From 3b14cf6ab0237a32e5fc1156adf2bc7ed3b4d076 Mon Sep 17 00:00:00 2001
From: Igor Pecovnik <igor.pecovnik@gmail.com>
Date: Sat, 23 Sep 2017 23:35:57 +0200
Subject: [PATCH] MVEBU NEXT - Clearfog, Helios4. Add recent USB wifis and AUFS

---
 config/kernel/linux-mvebu-next.config         |      21 +-
 config/kernel/linux-s5p6818-dev.config        |       1 +
 ...wifi_drivers_8812au_8723du_rtl8192cu.patch | 1004013 ++++++++++++++
 ...B_wifi_armbian_fixes-for-kernel-4.13.patch |     308 +
 patch/kernel/mvebu-next/aufs4.12.patch        |   36479 +
 5 files changed, 1040821 insertions(+), 1 deletion(-)
 create mode 100644 patch/kernel/mvebu-next/09-01-add_USB_wifi_drivers_8812au_8723du_rtl8192cu.patch
 create mode 100644 patch/kernel/mvebu-next/09-02-add_USB_wifi_armbian_fixes-for-kernel-4.13.patch
 create mode 100644 patch/kernel/mvebu-next/aufs4.12.patch

diff --git a/config/kernel/linux-mvebu-next.config b/config/kernel/linux-mvebu-next.config
index ea6c04097..0a56487ae 100644
--- a/config/kernel/linux-mvebu-next.config
+++ b/config/kernel/linux-mvebu-next.config
@@ -1,6 +1,6 @@
 #
 # Automatically generated file; DO NOT EDIT.
-# Linux/arm 4.13.2 Kernel Configuration
+# Linux/arm 4.13.3 Kernel Configuration
 #
 CONFIG_ARM=y
 CONFIG_ARM_HAS_SG_CHAIN=y
@@ -2438,6 +2438,8 @@ CONFIG_RTL8XXXU=m
 CONFIG_WLAN_VENDOR_QUANTENNA=y
 CONFIG_QTNFMAC=m
 CONFIG_QTNFMAC_PEARL_PCIE=m
+CONFIG_RTL8723DU=m
+CONFIG_RTL8812AU=m
 # CONFIG_MAC80211_HWSIM is not set
 CONFIG_USB_NET_RNDIS_WLAN=m
 
@@ -4161,6 +4163,23 @@ CONFIG_SQUASHFS_FRAGMENT_CACHE_SIZE=3
 # CONFIG_PSTORE is not set
 # CONFIG_SYSV_FS is not set
 # CONFIG_UFS_FS is not set
+CONFIG_AUFS_FS=m
+CONFIG_AUFS_BRANCH_MAX_127=y
+# CONFIG_AUFS_BRANCH_MAX_511 is not set
+# CONFIG_AUFS_BRANCH_MAX_1023 is not set
+# CONFIG_AUFS_BRANCH_MAX_32767 is not set
+CONFIG_AUFS_SBILIST=y
+# CONFIG_AUFS_HNOTIFY is not set
+# CONFIG_AUFS_EXPORT is not set
+# CONFIG_AUFS_XATTR is not set
+# CONFIG_AUFS_FHSM is not set
+# CONFIG_AUFS_RDU is not set
+# CONFIG_AUFS_SHWH is not set
+# CONFIG_AUFS_BR_RAMFS is not set
+# CONFIG_AUFS_BR_FUSE is not set
+CONFIG_AUFS_BR_HFSPLUS=y
+CONFIG_AUFS_BDEV_LOOP=y
+# CONFIG_AUFS_DEBUG is not set
 CONFIG_NETWORK_FILESYSTEMS=y
 CONFIG_NFS_FS=y
 CONFIG_NFS_V2=y
diff --git a/config/kernel/linux-s5p6818-dev.config b/config/kernel/linux-s5p6818-dev.config
index 4bb83ac61..fa74225e5 100644
--- a/config/kernel/linux-s5p6818-dev.config
+++ b/config/kernel/linux-s5p6818-dev.config
@@ -2477,6 +2477,7 @@ CONFIG_HWMON=y
 # CONFIG_SENSORS_W83L786NG is not set
 # CONFIG_SENSORS_W83627HF is not set
 # CONFIG_SENSORS_W83627EHF is not set
+CONFIG_NANOPI_THERMISTOR=m
 CONFIG_THERMAL=y
 CONFIG_THERMAL_HWMON=y
 CONFIG_THERMAL_OF=y
diff --git a/patch/kernel/mvebu-next/09-01-add_USB_wifi_drivers_8812au_8723du_rtl8192cu.patch b/patch/kernel/mvebu-next/09-01-add_USB_wifi_drivers_8812au_8723du_rtl8192cu.patch
new file mode 100644
index 000000000..eb2cba136
--- /dev/null
+++ b/patch/kernel/mvebu-next/09-01-add_USB_wifi_drivers_8812au_8723du_rtl8192cu.patch
@@ -0,0 +1,1004013 @@
+diff --git a/drivers/net/wireless/Kconfig b/drivers/net/wireless/Kconfig
+old mode 100644
+new mode 100755
+index 166920a..89e9426
+--- a/drivers/net/wireless/Kconfig
++++ b/drivers/net/wireless/Kconfig
+@@ -46,6 +46,9 @@ source "drivers/net/wireless/st/Kconfig"
+ source "drivers/net/wireless/ti/Kconfig"
+ source "drivers/net/wireless/zydas/Kconfig"
+ source "drivers/net/wireless/quantenna/Kconfig"
++source "drivers/net/wireless/rtl8723du/Kconfig"
++source "drivers/net/wireless/rtl8812au/Kconfig"
++source "drivers/net/wireless/rtl8192cu/Kconfig"
+ 
+ config PCMCIA_RAYCS
+ 	tristate "Aviator/Raytheon 2.4GHz wireless support"
+diff --git a/drivers/net/wireless/Makefile b/drivers/net/wireless/Makefile
+old mode 100644
+new mode 100755
+index 54b41ac..f77db79
+--- a/drivers/net/wireless/Makefile
++++ b/drivers/net/wireless/Makefile
+@@ -26,3 +26,6 @@ obj-$(CONFIG_PCMCIA_WL3501)	+= wl3501_cs.o
+ obj-$(CONFIG_USB_NET_RNDIS_WLAN)	+= rndis_wlan.o
+ 
+ obj-$(CONFIG_MAC80211_HWSIM)	+= mac80211_hwsim.o
++obj-$(CONFIG_RTL8723DU) += rtl8723du/
++obj-$(CONFIG_RTL8812AU) += rtl8812au/
++obj-$(CONFIG_RTL8192CU) += rtl8192cu/
+diff --git a/drivers/net/wireless/rtl8192cu/Kconfig b/drivers/net/wireless/rtl8192cu/Kconfig
+new file mode 100644
+index 0000000..dca2b73
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/Kconfig
+@@ -0,0 +1,4 @@
++config RTL8192CU
++	tristate "Realtek 8192CU USB WiFi"
++	---help---
++	  Help message of RTL8192CU
+diff --git a/drivers/net/wireless/rtl8192cu/Makefile b/drivers/net/wireless/rtl8192cu/Makefile
+new file mode 100644
+index 0000000..c399011
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/Makefile
+@@ -0,0 +1,616 @@
++EXTRA_CFLAGS += $(USER_EXTRA_CFLAGS)
++EXTRA_CFLAGS += -O1
++#EXTRA_CFLAGS += -O3
++#EXTRA_CFLAGS += -Wall
++#EXTRA_CFLAGS += -Wextra
++#EXTRA_CFLAGS += -Werror
++#EXTRA_CFLAGS += -pedantic
++#EXTRA_CFLAGS += -Wshadow -Wpointer-arith -Wcast-qual -Wstrict-prototypes -Wmissing-prototypes
++
++EXTRA_CFLAGS += -Wno-unused-variable
++EXTRA_CFLAGS += -Wno-unused-value
++EXTRA_CFLAGS += -Wno-unused-label
++EXTRA_CFLAGS += -Wno-unused-parameter
++EXTRA_CFLAGS += -Wno-unused-function
++EXTRA_CFLAGS += -Wno-unused
++
++EXTRA_CFLAGS += -Wno-uninitialized
++
++EXTRA_CFLAGS += -I$(src)/include
++
++CONFIG_AUTOCFG_CP = n
++
++CONFIG_RTL8192C = y
++CONFIG_RTL8192D = n
++CONFIG_RTL8723A = n
++
++CONFIG_USB_HCI = y
++CONFIG_PCI_HCI = n
++CONFIG_SDIO_HCI = n
++
++CONFIG_MP_INCLUDED = n
++CONFIG_POWER_SAVING = y
++CONFIG_USB_AUTOSUSPEND = n
++CONFIG_HW_PWRP_DETECTION = n
++CONFIG_WIFI_TEST = n
++CONFIG_BT_COEXISTENCE = n
++CONFIG_RTL8192CU_REDEFINE_1X1 = n
++CONFIG_INTEL_WIDI = n
++CONFIG_WAKE_ON_WLAN = n
++
++CONFIG_PLATFORM_I386_PC = y
++CONFIG_PLATFORM_TI_AM3517 = n
++CONFIG_PLATFORM_ANDROID_X86 = n
++CONFIG_PLATFORM_JB_X86 = n
++CONFIG_PLATFORM_ARM_S3C2K4 = n
++CONFIG_PLATFORM_ARM_PXA2XX = n
++CONFIG_PLATFORM_ARM_S3C6K4 = n
++CONFIG_PLATFORM_MIPS_RMI = n
++CONFIG_PLATFORM_RTD2880B = n
++CONFIG_PLATFORM_MIPS_AR9132 = n
++CONFIG_PLATFORM_RTK_DMP = n
++CONFIG_PLATFORM_MIPS_PLM = n
++CONFIG_PLATFORM_MSTAR389 = n
++CONFIG_PLATFORM_MT53XX = n
++CONFIG_PLATFORM_ARM_MX51_241H = n
++CONFIG_PLATFORM_FS_MX61 = n
++CONFIG_PLATFORM_ACTIONS_ATJ227X = n
++CONFIG_PLATFORM_TEGRA3_CARDHU = n
++CONFIG_PLATFORM_TEGRA4_DALMORE = n
++CONFIG_PLATFORM_ARM_TCC8900 = n
++CONFIG_PLATFORM_ARM_TCC8920 = n
++CONFIG_PLATFORM_ARM_TCC8920_JB42 = n
++CONFIG_PLATFORM_ARM_RK2818 = n
++CONFIG_PLATFORM_ARM_TI_PANDA = n
++CONFIG_PLATFORM_MIPS_JZ4760 = n
++CONFIG_PLATFORM_DMP_PHILIPS = n
++CONFIG_PLATFORM_TI_DM365 = n
++CONFIG_PLATFORM_MN10300 = n
++CONFIG_PLATFORM_MSTAR_TITANIA12 = n
++CONFIG_PLATFORM_MSTAR_A3 = n
++CONFIG_PLATFORM_ARM_SUNxI = n
++CONFIG_PLATFORM_ARM_SUN6I = n
++
++CONFIG_DRVEXT_MODULE = n
++
++export TopDIR ?= $(shell pwd)
++
++
++ifeq ($(CONFIG_RTL8192C), y)
++
++RTL871X = rtl8192c
++
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME = 8192cu
++FW_FILES := hal/$(RTL871X)/usb/Hal8192CUHWImg.o
++ifneq ($(CONFIG_WAKE_ON_WLAN), n)
++FW_FILES += hal/$(RTL871X)/usb/Hal8192CUHWImg_wowlan.o
++endif
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME = 8192ce
++FW_FILES := hal/$(RTL871X)/pci/Hal8192CEHWImg.o
++endif
++
++CHIP_FILES := \
++	hal/$(RTL871X)/$(RTL871X)_sreset.o \
++	hal/$(RTL871X)/$(RTL871X)_xmit.o
++CHIP_FILES += $(FW_FILES)
++endif
++
++ifeq ($(CONFIG_RTL8192D), y)
++
++RTL871X = rtl8192d
++
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME = 8192du
++FW_FILES := hal/$(RTL871X)/usb/Hal8192DUHWImg.o
++ifneq ($(CONFIG_WAKE_ON_WLAN), n)
++FW_FILES += hal/$(RTL871X)/usb/Hal8192DUHWImg_wowlan.o
++endif
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME = 8192de
++FW_FILES := hal/$(RTL871X)/pci/Hal8192DEHWImg.o
++endif
++
++CHIP_FILES := \
++	hal/$(RTL871X)/$(RTL871X)_xmit.o
++CHIP_FILES += $(FW_FILES)
++endif
++
++ifeq ($(CONFIG_RTL8723A), y)
++
++RTL871X = rtl8723a
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME = 8723as
++FW_FILES := hal/$(RTL871X)/sdio/Hal8723SHWImg.o
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME = 8723au
++FW_FILES := hal/$(RTL871X)/usb/Hal8723UHWImg.o
++endif
++
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME = 8723ae
++FW_FILES := hal/$(RTL871X)/pci/Hal8723EHWImg.o
++endif
++
++PWRSEQ_FILES := hal/HalPwrSeqCmd.o \
++				hal/$(RTL871X)/Hal8723PwrSeq.o
++
++CHIP_FILES += $(FW_FILES) $(PWRSEQ_FILES)
++
++endif
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++HCI_NAME = sdio
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++HCI_NAME = usb
++endif
++
++ifeq ($(CONFIG_PCI_HCI), y)
++HCI_NAME = pci
++endif
++
++
++_OS_INTFS_FILES :=	os_dep/osdep_service.o \
++			os_dep/linux/os_intfs.o \
++			os_dep/linux/$(HCI_NAME)_intf.o \
++			os_dep/linux/$(HCI_NAME)_ops_linux.o \
++			os_dep/linux/ioctl_linux.o \
++			os_dep/linux/xmit_linux.o \
++			os_dep/linux/mlme_linux.o \
++			os_dep/linux/recv_linux.o \
++			os_dep/linux/ioctl_cfg80211.o \
++			os_dep/linux/rtw_android.o
++
++
++_HAL_INTFS_FILES :=	hal/hal_intf.o \
++			hal/hal_com.o \
++			hal/dm.o \
++			hal/$(RTL871X)/$(RTL871X)_hal_init.o \
++			hal/$(RTL871X)/$(RTL871X)_phycfg.o \
++			hal/$(RTL871X)/$(RTL871X)_rf6052.o \
++			hal/$(RTL871X)/$(RTL871X)_dm.o \
++			hal/$(RTL871X)/$(RTL871X)_rxdesc.o \
++			hal/$(RTL871X)/$(RTL871X)_cmd.o \
++			hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_halinit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_led.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_xmit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_recv.o
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++else
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops_linux.o
++endif
++
++ifeq ($(CONFIG_MP_INCLUDED), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(RTL871X)_mp.o
++endif
++
++_HAL_INTFS_FILES += $(CHIP_FILES)
++
++
++ifeq ($(CONFIG_AUTOCFG_CP), y)
++$(shell cp $(TopDIR)/autoconf_$(RTL871X)_$(HCI_NAME)_linux.h $(TopDIR)/include/autoconf.h)
++endif
++
++
++ifeq ($(CONFIG_USB_HCI), y)
++ifeq ($(CONFIG_USB_AUTOSUSPEND), y)
++EXTRA_CFLAGS += -DCONFIG_USB_AUTOSUSPEND
++endif
++endif
++
++ifeq ($(CONFIG_POWER_SAVING), y)
++EXTRA_CFLAGS += -DCONFIG_POWER_SAVING
++endif
++
++ifeq ($(CONFIG_HW_PWRP_DETECTION), y)
++EXTRA_CFLAGS += -DCONFIG_HW_PWRP_DETECTION
++endif
++
++ifeq ($(CONFIG_WIFI_TEST), y)
++EXTRA_CFLAGS += -DCONFIG_WIFI_TEST
++endif
++
++ifeq ($(CONFIG_BT_COEXISTENCE), y)
++EXTRA_CFLAGS += -DCONFIG_BT_COEXISTENCE
++endif
++
++ifeq ($(CONFIG_RTL8192CU_REDEFINE_1X1), y)
++EXTRA_CFLAGS += -DRTL8192C_RECONFIG_TO_1T1R
++endif
++
++ifeq ($(CONFIG_WAKE_ON_WLAN), y)
++EXTRA_CFLAGS += -DCONFIG_WAKE_ON_WLAN
++endif
++
++ifeq ($(CONFIG_INTEL_WIDI), y)
++EXTRA_CFLAGS += -DCONFIG_INTEL_WIDI
++endif
++
++ifeq ($(CONFIG_PLATFORM_I386_PC), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++SUBARCH := $(shell uname -m | sed -e s/i.86/i386/)
++ARCH ?= $(SUBARCH)
++CROSS_COMPILE ?=
++KVER  := $(shell uname -r)
++KSRC := /lib/modules/$(KVER)/build
++MODDESTDIR := /lib/modules/$(KVER)/kernel/drivers/net/wireless/
++INSTALL_PREFIX :=
++endif
++
++ifeq ($(CONFIG_PLATFORM_TI_AM3517), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ANDROID -DCONFIG_PLATFORM_SHUTTLE
++CROSS_COMPILE := arm-eabi-
++KSRC := $(shell pwd)/../../../Android/kernel
++ARCH := arm
++endif
++
++ifeq ($(CONFIG_PLATFORM_MSTAR_TITANIA12), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MSTAR -DCONFIG_PLATFORM_MSTAR_TITANIA12
++ARCH:=mips
++CROSS_COMPILE:= /usr/src/Mstar_kernel/mips-4.3/bin/mips-linux-gnu-
++KVER:= 2.6.28.9
++KSRC:= /usr/src/Mstar_kernel/2.6.28.9/
++endif
++
++ifeq ($(CONFIG_PLATFORM_MSTAR_A3), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MSTAR -DCONFIG_PLATFORM_MSTAR_A3
++ARCH:=arm
++CROSS_COMPILE:= arm-none-linux-gnueabi-
++KVER:= 2.6.35.11
++KSRC:= /home/gary/PERFORCE/THEALE/RedLion/2.6.35.11/
++MODULE_NAME = wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ANDROID_X86), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++SUBARCH := $(shell uname -m | sed -e s/i.86/i386/)
++ARCH := $(SUBARCH)
++CROSS_COMPILE := /media/DATA-2/android-x86/ics-x86_20120130/prebuilt/linux-x86/toolchain/i686-unknown-linux-gnu-4.2.1/bin/i686-unknown-linux-gnu-
++KSRC := /media/DATA-2/android-x86/ics-x86_20120130/out/target/product/generic_x86/obj/kernel
++MODULE_NAME :=wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_JB_X86), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS += -DCONFIG_P2P_IPS
++SUBARCH := $(shell uname -m | sed -e s/i.86/i386/)
++ARCH := $(SUBARCH)
++CROSS_COMPILE := /home/android_sdk/android-x86_JB/prebuilts/gcc/linux-x86/x86/i686-linux-android-4.7/bin/i686-linux-android-
++KSRC := /home/android_sdk/android-x86_JB/out/target/product/x86/obj/kernel/
++MODULE_NAME :=wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_PXA2XX), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH := arm
++CROSS_COMPILE := arm-none-linux-gnueabi-
++KVER  := 2.6.34.1
++KSRC ?= /usr/src/linux-2.6.34.1
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_S3C2K4), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH := arm
++CROSS_COMPILE := arm-linux-
++KVER  := 2.6.24.7_$(ARCH)
++KSRC := /usr/src/kernels/linux-$(KVER)
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_S3C6K4), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH := arm
++CROSS_COMPILE := arm-none-linux-gnueabi-
++KVER  := 2.6.34.1
++KSRC ?= /usr/src/linux-2.6.34.1
++endif
++
++ifeq ($(CONFIG_PLATFORM_RTD2880B), y)
++EXTRA_CFLAGS += -DCONFIG_BIG_ENDIAN -DCONFIG_PLATFORM_RTD2880B
++ARCH:=
++CROSS_COMPILE:=
++KVER:=
++KSRC:=
++endif
++
++ifeq ($(CONFIG_PLATFORM_MIPS_RMI), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH:=mips
++CROSS_COMPILE:=mipsisa32r2-uclibc-
++KVER:=
++KSRC:= /root/work/kernel_realtek
++endif
++
++ifeq ($(CONFIG_PLATFORM_MIPS_PLM), y)
++EXTRA_CFLAGS += -DCONFIG_BIG_ENDIAN
++ARCH:=mips
++CROSS_COMPILE:=mipsisa32r2-uclibc-
++KVER:=
++KSRC:= /root/work/kernel_realtek
++endif
++
++ifeq ($(CONFIG_PLATFORM_MSTAR389), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MSTAR389
++ARCH:=mips
++CROSS_COMPILE:= mips-linux-gnu-
++KVER:= 2.6.28.10
++KSRC:= /home/mstar/mstar_linux/2.6.28.9/
++endif
++
++ifeq ($(CONFIG_PLATFORM_MIPS_AR9132), y)
++EXTRA_CFLAGS += -DCONFIG_BIG_ENDIAN
++ARCH := mips
++CROSS_COMPILE := mips-openwrt-linux-
++KSRC := /home/alex/test_openwrt/tmp/linux-2.6.30.9
++endif
++
++ifeq ($(CONFIG_PLATFORM_DMP_PHILIPS), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DRTK_DMP_PLATFORM
++ARCH := mips
++#CROSS_COMPILE:=/usr/local/msdk-4.3.6-mips-EL-2.6.12.6-0.9.30.3/bin/mipsel-linux-
++CROSS_COMPILE:=/usr/local/toolchain_mipsel/bin/mipsel-linux-
++KSRC ?=/usr/local/Jupiter/linux-2.6.12
++endif
++
++ifeq ($(CONFIG_PLATFORM_RTK_DMP), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DRTK_DMP_PLATFORM
++ARCH:=mips
++CROSS_COMPILE:=mipsel-linux-
++KVER:=
++KSRC ?= /usr/src/DMP_Kernel/jupiter/linux-2.6.12
++endif
++
++ifeq ($(CONFIG_PLATFORM_MT53XX), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MT53XX
++ARCH:= arm
++CROSS_COMPILE:= arm11_mtk_le-
++KVER:= 2.6.27
++KSRC?= /proj/mtk00802/BD_Compare/BDP/Dev/BDP_V301/BDP_Linux/linux-2.6.27
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_MX51_241H), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_WISTRON_PLATFORM
++ARCH := arm
++CROSS_COMPILE := /opt/freescale/usr/local/gcc-4.1.2-glibc-2.5-nptl-3/arm-none-linux-gnueabi/bin/arm-none-linux-gnueabi-
++KVER  := 2.6.31
++KSRC ?= /lib/modules/2.6.31-770-g0e46b52/source
++endif
++
++ifeq ($(CONFIG_PLATFORM_FS_MX61), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN 
++ARCH := arm
++CROSS_COMPILE := /home/share/CusEnv/FreeScale/arm-eabi-4.4.3/bin/arm-eabi-
++KSRC ?= /home/share/CusEnv/FreeScale/FS_kernel_env
++endif
++
++
++
++ifeq ($(CONFIG_PLATFORM_ACTIONS_ATJ227X), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ACTIONS_ATJ227X
++ARCH := mips
++CROSS_COMPILE := /home/cnsd4/project/actions/tools-2.6.27/bin/mipsel-linux-gnu-
++KVER  := 2.6.27
++KSRC := /home/cnsd4/project/actions/linux-2.6.27.28
++endif
++
++ifeq ($(CONFIG_PLATFORM_TI_DM365), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_TI_DM365
++ARCH := arm
++CROSS_COMPILE := /home/cnsd4/Appro/mv_pro_5.0/montavista/pro/devkit/arm/v5t_le/bin/arm_v5t_le-
++KVER  := 2.6.18
++KSRC := /home/cnsd4/Appro/mv_pro_5.0/montavista/pro/devkit/lsp/ti-davinci/linux-dm365
++endif
++
++ifeq ($(CONFIG_PLATFORM_TEGRA3_CARDHU), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DRTW_ENABLE_WIFI_CONTROL_FUNC
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS += -DCONFIG_P2P_IPS
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/nvidia/tegra-16r3-partner-android-4.1_20120723/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
++KSRC := /home/android_sdk/nvidia/tegra-16r3-partner-android-4.1_20120723/out/target/product/cardhu/obj/KERNEL
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_TEGRA4_DALMORE), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DRTW_ENABLE_WIFI_CONTROL_FUNC
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS += -DCONFIG_P2P_IPS
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/nvidia/tegra-17r9-partner-android-4.2-dalmore_20130131/prebuilts/gcc/linux-x86/arm/arm-eabi-4.6/bin/arm-eabi-
++KSRC := /home/android_sdk/nvidia/tegra-17r9-partner-android-4.2-dalmore_20130131/out/target/product/dalmore/obj/KERNEL
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_TCC8900), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/Telechips/SDK_2304_20110613/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
++KSRC := /home/android_sdk/Telechips/SDK_2304_20110613/kernel
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_TCC8920), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/Telechips/v12.06_r1-tcc-android-4.0.4/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
++KSRC := /home/android_sdk/Telechips/v12.06_r1-tcc-android-4.0.4/kernel
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_TCC8920_JB42), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS += -DCONFIG_P2P_IPS
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/Telechips/v13.03_r1-tcc-android-4.2.2_ds_patched/prebuilts/gcc/linux-x86/arm/arm-eabi-4.6/bin/arm-eabi-
++KSRC := /home/android_sdk/Telechips/v13.03_r1-tcc-android-4.2.2_ds_patched/kernel
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_RK2818), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ANDROID -DCONFIG_PLATFORM_ROCKCHIPS -DCONFIG_MINIMAL_MEMORY_USAGE
++ARCH := arm
++CROSS_COMPILE := /usr/src/release_fae_version/toolchain/arm-eabi-4.4.0/bin/arm-eabi-
++KSRC := /usr/src/release_fae_version/kernel25_A7_281x
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_TI_PANDA), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN #-DCONFIG_MINIMAL_MEMORY_USAGE
++ARCH := arm
++#CROSS_COMPILE := /media/DATA-1/aosp/ics-aosp_20111227/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
++#KSRC := /media/DATA-1/aosp/android-omap-panda-3.0_20120104
++CROSS_COMPILE := /media/DATA-1/android-4.0/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
++KSRC := /media/DATA-1/android-4.0/panda_kernel/omap
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_MIPS_JZ4760), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_MINIMAL_MEMORY_USAGE
++ARCH ?= mips
++CROSS_COMPILE ?= /mnt/sdb5/Ingenic/Umido/mips-4.3/bin/mips-linux-gnu-
++KSRC ?= /mnt/sdb5/Ingenic/Umido/kernel
++endif
++
++#Add setting for MN10300
++ifeq ($(CONFIG_PLATFORM_MN10300), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MN10300
++ARCH := mn10300
++CROSS_COMPILE := mn10300-linux-
++KVER := 2.6.32.2
++KSRC := /home/winuser/work/Plat_sLD2T_V3010/usr/src/linux-2.6.32.2
++INSTALL_PREFIX :=
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_SUNxI), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ARM_SUNxI
++ARCH := arm
++CROSS_COMPILE := arm-none-linux-gnueabi-
++KVER  := 3.0.8
++#KSRC:= ../lichee/linux-3.0/
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_SUN6I), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUN6I
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
++EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS += -DCONFIG_P2P_IPS
++ARCH := arm
++CROSS_COMPILE := arm-none-linux-gnueabi-
++KVER  := 3.3.0
++#KSRC:= ../lichee/linux-3.3/
++endif
++
++ifneq ($(USER_MODULE_NAME),)
++MODULE_NAME := $(USER_MODULE_NAME)
++endif
++
++ifeq ($(CONFIG_MP_INCLUDED), y)
++MODULE_NAME := $(MODULE_NAME)_mp
++EXTRA_CFLAGS += -DCONFIG_MP_INCLUDED
++endif
++
++
++ifneq ($(KERNELRELEASE),)
++
++
++rtk_core :=	core/rtw_cmd.o \
++		core/rtw_security.o \
++		core/rtw_debug.o \
++		core/rtw_io.o \
++		core/rtw_ioctl_query.o \
++		core/rtw_ioctl_set.o \
++		core/rtw_ieee80211.o \
++		core/rtw_mlme.o \
++		core/rtw_mlme_ext.o \
++		core/rtw_wlan_util.o \
++		core/rtw_pwrctrl.o \
++		core/rtw_rf.o \
++		core/rtw_recv.o \
++		core/rtw_sta_mgt.o \
++		core/rtw_ap.o \
++		core/rtw_xmit.o	\
++		core/rtw_p2p.o \
++		core/rtw_tdls.o \
++		core/rtw_br_ext.o \
++		core/rtw_iol.o \
++		core/rtw_sreset.o
++
++$(MODULE_NAME)-y += $(rtk_core)
++
++$(MODULE_NAME)-$(CONFIG_INTEL_WIDI) += core/rtw_intel_widi.o
++
++$(MODULE_NAME)-y += core/efuse/rtw_efuse.o
++
++$(MODULE_NAME)-y += $(_HAL_INTFS_FILES)
++
++$(MODULE_NAME)-y += $(_OS_INTFS_FILES)
++
++$(MODULE_NAME)-$(CONFIG_MP_INCLUDED) += core/rtw_mp.o \
++					core/rtw_mp_ioctl.o
++
++obj-$(CONFIG_RTL8192CU) := $(MODULE_NAME).o
++
++else
++
++export CONFIG_RTL8192CU = m
++
++all: modules
++
++modules:
++	$(MAKE) ARCH=$(ARCH) CROSS_COMPILE=$(CROSS_COMPILE) -C $(KSRC) M=$(shell pwd)  modules
++
++strip:
++	$(CROSS_COMPILE)strip $(MODULE_NAME).ko --strip-unneeded
++
++install:
++	install -p -m 644 $(MODULE_NAME).ko  $(MODDESTDIR)
++	/sbin/depmod -a ${KVER}
++
++uninstall:
++	rm -f $(MODDESTDIR)/$(MODULE_NAME).ko
++	/sbin/depmod -a ${KVER}
++
++
++config_r:
++	@echo "make config"
++	/bin/bash script/Configure script/config.in
++
++.PHONY: modules clean
++
++clean:
++	rm -fr *.mod.c *.mod *.o .*.cmd *.ko *~
++	rm .tmp_versions -fr ; rm Module.symvers -fr
++	rm -fr Module.markers ; rm -fr modules.order
++	cd core/efuse ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
++	cd core ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
++	cd hal/$(RTL871X)/$(HCI_NAME) ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
++	cd hal/$(RTL871X) ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
++	cd hal ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
++	cd os_dep/linux ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
++	cd os_dep ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
++endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/README.md b/drivers/net/wireless/rtl8192cu/README.md
+new file mode 100644
+index 0000000..a2d5a78
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/README.md
+@@ -0,0 +1,81 @@
++This is a repackaging of Realtek's own 8192CU USB WiFi driver for Ubuntu 13.10 and later.
++
++Compatibility
++=============
++
++These devices are known to work with this driver:
++- ASUSTek USB-N13 **rev. B1** (0b05:17ab)
++- Belkin N300 (050d:2103)
++- D-Link DWA-121 802.11n Wireless N 150 Pico Adapter [RTL8188CUS]
++- Edimax EW-7811Un (7392:7811)
++- Kootek KT-RPWF (0bda:8176)
++- TP-Link TL-WN821N**v4** (0bda:8178)
++- TP-Link TL-WN822N (0bda:8178)
++- TP-Link TL-WN823N (only models that use the rtl8192cu chip)
++- TRENDnet TEW-648UBM N150
++
++These devices are known not to be supported:
++- Alfa AWUS036NHR
++- TP-Link WN8200ND
++
++As a rule of thumb, this driver generally works with devices that use the RTL8192CU chipset, and some devices that use the RTL8188CUS, RTL8188CE-VAU and RTL8188RU chipsets too, though it's more hit and miss.
++
++Devices that use dual antennas are known not to work well. This appears to be an issue in the upstream Realtek driver.
++
++Installation
++============
++
++Ensure you have the necessary prerequisites installed:
++
++    sudo apt-get update
++    sudo apt-get install git linux-headers-generic build-essential dkms
++
++Clone this repository:
++
++    git clone https://github.com/pvaret/rtl8192cu-fixes.git
++
++Set it up as a DKMS module:
++
++    sudo dkms add ./rtl8192cu-fixes
++
++Build and install it:
++
++    sudo dkms install 8192cu/1.10
++
++Refresh the module list:
++
++    sudo depmod -a
++
++Ensure the native (and broken) kernel driver is blacklisted:
++
++    sudo cp ./rtl8192cu-fixes/blacklist-native-rtl8192.conf /etc/modprobe.d/
++
++And reboot. You're done.
++
++Other distributions
++===================
++
++The instructions above should work in every Debian-based distribution. So long as you can install the prerequisites on your own, everything after the line that contains `apt-get` should work in other distributions as well.
++
++On Gentoo, you can disregard the instructions above and just install the following ebuild: https://gitweb.gentoo.org/dev/maksbotan.git/tree/sys-kernel/rtl8192cu-fixes/rtl8192cu-fixes-9999.ebuild
++
++Troubleshooting
++===============
++
++There is a known issue with power management on some hardware. If your WiFi connection drops after a few minutes, install the following module setting file to disable power management in your WiFi interface:
++
++    sudo cp ./rtl8192cu-fixes/8192cu-disable-power-management.conf /etc/modprobe.d/
++
++And then reboot.
++
++Current status
++==============
++
++As it currently stands, the driver doesn't populate /proc with informational data from the driver. The API for /proc has changed in recent kernels, and the driver has not been ported to the new API.
++
++Credits
++=======
++
++This repository was initially based on Timothy Phillips's work as published here: https://code.google.com/p/realtek-8188cus-wireless-drivers-3444749-ubuntu-1304/, though no longer.
++
++Thanks go to Saqib Razaq (@s-razaq) for the power management workaround.
+diff --git a/drivers/net/wireless/rtl8192cu/clean b/drivers/net/wireless/rtl8192cu/clean
+new file mode 100644
+index 0000000..8766421
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/clean
+@@ -0,0 +1,5 @@
++#!/bin/bash
++rmmod 8192cu
++rmmod 8192ce
++rmmod 8192du
++rmmod 8192de
+diff --git a/drivers/net/wireless/rtl8192cu/core/efuse/rtw_efuse.c b/drivers/net/wireless/rtl8192cu/core/efuse/rtw_efuse.c
+new file mode 100755
+index 0000000..3d341ac
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/efuse/rtw_efuse.c
+@@ -0,0 +1,1147 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_EFUSE_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++#include <rtw_efuse.h>
++
++
++
++/*------------------------Define local variable------------------------------*/
++u8	fakeEfuseBank=0;
++u32	fakeEfuseUsedBytes=0;
++u8	fakeEfuseContent[EFUSE_MAX_HW_SIZE]={0};
++u8	fakeEfuseInitMap[EFUSE_MAX_MAP_LEN]={0};
++u8	fakeEfuseModifiedMap[EFUSE_MAX_MAP_LEN]={0};
++
++u32	BTEfuseUsedBytes=0;
++u8	BTEfuseContent[EFUSE_MAX_BT_BANK][EFUSE_MAX_HW_SIZE];
++u8	BTEfuseInitMap[EFUSE_BT_MAX_MAP_LEN]={0};
++u8	BTEfuseModifiedMap[EFUSE_BT_MAX_MAP_LEN]={0};
++
++u32	fakeBTEfuseUsedBytes=0;
++u8	fakeBTEfuseContent[EFUSE_MAX_BT_BANK][EFUSE_MAX_HW_SIZE];
++u8	fakeBTEfuseInitMap[EFUSE_BT_MAX_MAP_LEN]={0};
++u8	fakeBTEfuseModifiedMap[EFUSE_BT_MAX_MAP_LEN]={0};
++/*------------------------Define local variable------------------------------*/
++
++//------------------------------------------------------------------------------
++#define REG_EFUSE_CTRL		0x0030
++#define EFUSE_CTRL			REG_EFUSE_CTRL		// E-Fuse Control.
++//------------------------------------------------------------------------------
++
++BOOLEAN
++Efuse_Read1ByteFromFakeContent(
++	IN		PADAPTER	pAdapter,
++	IN		u16		Offset,
++	IN OUT	u8		*Value	);
++BOOLEAN
++Efuse_Read1ByteFromFakeContent(
++	IN		PADAPTER	pAdapter,
++	IN		u16		Offset,
++	IN OUT	u8		*Value	)
++{
++	if(Offset >= EFUSE_MAX_HW_SIZE)
++	{
++		return _FALSE;
++	}
++	//DbgPrint("Read fake content, offset = %d\n", Offset);
++	if(fakeEfuseBank == 0)
++		*Value = fakeEfuseContent[Offset];
++	else
++		*Value = fakeBTEfuseContent[fakeEfuseBank-1][Offset];
++	return _TRUE;
++}
++
++BOOLEAN
++Efuse_Write1ByteToFakeContent(
++	IN		PADAPTER	pAdapter,
++	IN		u16		Offset,
++	IN 		u8		Value	);
++BOOLEAN
++Efuse_Write1ByteToFakeContent(
++	IN		PADAPTER	pAdapter,
++	IN		u16		Offset,
++	IN 		u8		Value	)
++{
++	if(Offset >= EFUSE_MAX_HW_SIZE)
++	{
++		return _FALSE;
++	}
++	if(fakeEfuseBank == 0)
++		fakeEfuseContent[Offset] = Value;
++	else
++	{
++		fakeBTEfuseContent[fakeEfuseBank-1][Offset] = Value;
++	}
++	return _TRUE;
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	Efuse_PowerSwitch
++ *
++ * Overview:	When we want to enable write operation, we should change to 
++ *				pwr on state. When we stop write, we should switch to 500k mode
++ *				and disable LDO 2.5V.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/17/2008 	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++Efuse_PowerSwitch(
++	IN	PADAPTER	pAdapter,
++	IN	u8		bWrite,
++	IN	u8		PwrState)
++{
++	pAdapter->HalFunc.EfusePowerSwitch(pAdapter, bWrite, PwrState);
++}	
++
++/*-----------------------------------------------------------------------------
++ * Function:	efuse_GetCurrentSize
++ *
++ * Overview:	Get current efuse size!!!
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/16/2008 	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++u16
++Efuse_GetCurrentSize(
++	IN PADAPTER		pAdapter,
++	IN u8			efuseType,
++	IN BOOLEAN		bPseudoTest)
++{
++	u16 ret=0;
++
++	ret = pAdapter->HalFunc.EfuseGetCurrentSize(pAdapter, efuseType, bPseudoTest);
++
++	return ret;
++}
++
++/*  11/16/2008 MH Add description. Get current efuse area enabled word!!. */
++u8
++Efuse_CalculateWordCnts(IN u8	word_en)
++{
++	u8 word_cnts = 0;
++	if(!(word_en & BIT(0)))	word_cnts++; // 0 : write enable
++	if(!(word_en & BIT(1)))	word_cnts++;
++	if(!(word_en & BIT(2)))	word_cnts++;
++	if(!(word_en & BIT(3)))	word_cnts++;
++	return word_cnts;
++}
++
++//
++//	Description:
++//		Execute E-Fuse read byte operation.
++//		Refered from SD1 Richard.
++//
++//	Assumption:
++//		1. Boot from E-Fuse and successfully auto-load.
++//		2. PASSIVE_LEVEL (USB interface)
++//
++//	Created by Roger, 2008.10.21.
++//
++VOID
++ReadEFuseByte(
++		PADAPTER	Adapter,
++		u16 			_offset, 
++		u8 			*pbuf, 
++		IN BOOLEAN	bPseudoTest) 
++{
++	u32	value32;
++	u8	readbyte;
++	u16	retry;
++	//u32 start=rtw_get_current_time();
++
++	if(bPseudoTest)
++	{
++		Efuse_Read1ByteFromFakeContent(Adapter, _offset, pbuf);
++		return;
++	}
++
++	//Write Address
++	rtw_write8(Adapter, EFUSE_CTRL+1, (_offset & 0xff));  		
++	readbyte = rtw_read8(Adapter, EFUSE_CTRL+2);
++	rtw_write8(Adapter, EFUSE_CTRL+2, ((_offset >> 8) & 0x03) | (readbyte & 0xfc));  		
++
++	//Write bit 32 0
++	readbyte = rtw_read8(Adapter, EFUSE_CTRL+3);		
++	rtw_write8(Adapter, EFUSE_CTRL+3, (readbyte & 0x7f));  	
++	
++	//Check bit 32 read-ready
++	retry = 0;
++	value32 = rtw_read32(Adapter, EFUSE_CTRL);
++	//while(!(((value32 >> 24) & 0xff) & 0x80)  && (retry<10))
++	while(!(((value32 >> 24) & 0xff) & 0x80)  && (retry<10000))
++	{
++		value32 = rtw_read32(Adapter, EFUSE_CTRL);
++		retry++;
++	}
++
++	// 20100205 Joseph: Add delay suggested by SD1 Victor.
++	// This fix the problem that Efuse read error in high temperature condition.
++	// Designer says that there shall be some delay after ready bit is set, or the
++	// result will always stay on last data we read.
++	rtw_udelay_os(50);
++	value32 = rtw_read32(Adapter, EFUSE_CTRL);
++	
++	*pbuf = (u8)(value32 & 0xff);
++	//DBG_871X("ReadEFuseByte _offset:%08u, in %d ms\n",_offset ,rtw_get_passing_time_ms(start));
++	
++}
++
++
++//
++//	Description:
++//		1. Execute E-Fuse read byte operation according as map offset and 
++//		    save to E-Fuse table.
++//		2. Refered from SD1 Richard.
++//
++//	Assumption:
++//		1. Boot from E-Fuse and successfully auto-load.
++//		2. PASSIVE_LEVEL (USB interface)
++//
++//	Created by Roger, 2008.10.21.
++//
++//	2008/12/12 MH 	1. Reorganize code flow and reserve bytes. and add description.
++//					2. Add efuse utilization collect.
++//	2008/12/22 MH	Read Efuse must check if we write section 1 data again!!! Sec1
++//					write addr must be after sec5.
++//
++
++VOID
++efuse_ReadEFuse(
++	PADAPTER	Adapter,
++	u8		efuseType,
++	u16		_offset,
++	u16 		_size_byte,
++	u8      	*pbuf,
++	IN	BOOLEAN	bPseudoTest
++	);
++VOID
++efuse_ReadEFuse(
++	PADAPTER	Adapter,
++	u8		efuseType,
++	u16		_offset,
++	u16 		_size_byte,
++	u8      	*pbuf,
++	IN	BOOLEAN	bPseudoTest
++	)
++{
++	Adapter->HalFunc.ReadEFuse(Adapter, efuseType, _offset, _size_byte, pbuf, bPseudoTest);
++}
++
++VOID
++EFUSE_GetEfuseDefinition(
++	IN		PADAPTER	pAdapter,
++	IN		u8		efuseType,
++	IN		u8		type,
++	OUT		void		*pOut,
++	IN		BOOLEAN		bPseudoTest
++	)
++{
++	pAdapter->HalFunc.EFUSEGetEfuseDefinition(pAdapter, efuseType, type, pOut, bPseudoTest);
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	EFUSE_Read1Byte
++ *
++ * Overview:	Copy from WMAC fot EFUSE read 1 byte.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 09/23/2008 	MHC		Copy from WMAC.
++ *
++ *---------------------------------------------------------------------------*/
++u8
++EFUSE_Read1Byte(	
++	IN	PADAPTER	Adapter, 
++	IN	u16		Address)
++{
++	u8	data;
++	u8	Bytetemp = {0x00};
++	u8	temp = {0x00};
++	u32	k=0;
++	u16	contentLen=0;
++
++	EFUSE_GetEfuseDefinition(Adapter, EFUSE_WIFI , TYPE_EFUSE_REAL_CONTENT_LEN, (PVOID)&contentLen, _FALSE);
++
++	if (Address < contentLen)	//E-fuse 512Byte
++	{
++		//Write E-fuse Register address bit0~7
++		temp = Address & 0xFF;	
++		rtw_write8(Adapter, EFUSE_CTRL+1, temp);	
++		Bytetemp = rtw_read8(Adapter, EFUSE_CTRL+2);	
++		//Write E-fuse Register address bit8~9
++		temp = ((Address >> 8) & 0x03) | (Bytetemp & 0xFC);	
++		rtw_write8(Adapter, EFUSE_CTRL+2, temp);	
++
++		//Write 0x30[31]=0
++		Bytetemp = rtw_read8(Adapter, EFUSE_CTRL+3);
++		temp = Bytetemp & 0x7F;
++		rtw_write8(Adapter, EFUSE_CTRL+3, temp);
++
++		//Wait Write-ready (0x30[31]=1)
++		Bytetemp = rtw_read8(Adapter, EFUSE_CTRL+3);
++		while(!(Bytetemp & 0x80))
++		{				
++			Bytetemp = rtw_read8(Adapter, EFUSE_CTRL+3);
++			k++;
++			if(k==1000)
++			{
++				k=0;
++				break;
++			}
++		}
++		data=rtw_read8(Adapter, EFUSE_CTRL);
++		return data;
++	}
++	else
++		return 0xFF;
++	
++}/* EFUSE_Read1Byte */
++
++/*-----------------------------------------------------------------------------
++ * Function:	EFUSE_Write1Byte
++ *
++ * Overview:	Copy from WMAC fot EFUSE write 1 byte.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 09/23/2008 	MHC		Copy from WMAC.
++ *
++ *---------------------------------------------------------------------------*/
++
++void	
++EFUSE_Write1Byte(	
++	IN	PADAPTER	Adapter, 
++	IN	u16		Address,
++	IN	u8		Value);
++void	
++EFUSE_Write1Byte(	
++	IN	PADAPTER	Adapter, 
++	IN	u16		Address,
++	IN	u8		Value)
++{
++	u8	Bytetemp = {0x00};
++	u8	temp = {0x00};
++	u32	k=0;
++	u16	contentLen=0;
++
++	//RT_TRACE(COMP_EFUSE, DBG_LOUD, ("Addr=%x Data =%x\n", Address, Value));
++	EFUSE_GetEfuseDefinition(Adapter, EFUSE_WIFI , TYPE_EFUSE_REAL_CONTENT_LEN, (PVOID)&contentLen, _FALSE);
++
++	if( Address < contentLen)	//E-fuse 512Byte
++	{
++		rtw_write8(Adapter, EFUSE_CTRL, Value);
++
++		//Write E-fuse Register address bit0~7
++		temp = Address & 0xFF;	
++		rtw_write8(Adapter, EFUSE_CTRL+1, temp);	
++		Bytetemp = rtw_read8(Adapter, EFUSE_CTRL+2);	
++		
++		//Write E-fuse Register address bit8~9
++		temp = ((Address >> 8) & 0x03) | (Bytetemp & 0xFC);	
++		rtw_write8(Adapter, EFUSE_CTRL+2, temp);	
++
++		//Write 0x30[31]=1
++		Bytetemp = rtw_read8(Adapter, EFUSE_CTRL+3);
++		temp = Bytetemp | 0x80;
++		rtw_write8(Adapter, EFUSE_CTRL+3, temp);
++
++		//Wait Write-ready (0x30[31]=0)
++		Bytetemp = rtw_read8(Adapter, EFUSE_CTRL+3);
++		while(Bytetemp & 0x80)
++		{
++			Bytetemp = rtw_read8(Adapter, EFUSE_CTRL+3);			
++			k++;
++			if(k==100)
++			{
++				k=0;
++				break;
++			}
++		}
++	}
++}/* EFUSE_Write1Byte */
++
++/*  11/16/2008 MH Read one byte from real Efuse. */
++u8
++efuse_OneByteRead(
++	IN	PADAPTER	pAdapter, 
++	IN	u16			addr,
++	IN	u8			*data,
++	IN	BOOLEAN		bPseudoTest)
++{
++	u8	tmpidx = 0;
++	u8	bResult;
++
++	if(bPseudoTest)
++	{
++		bResult = Efuse_Read1ByteFromFakeContent(pAdapter, addr, data);
++		return bResult;
++	}
++	// -----------------e-fuse reg ctrl ---------------------------------
++	//address			
++	rtw_write8(pAdapter, EFUSE_CTRL+1, (u8)(addr&0xff));		
++	rtw_write8(pAdapter, EFUSE_CTRL+2, ((u8)((addr>>8) &0x03) ) | 
++	(rtw_read8(pAdapter, EFUSE_CTRL+2)&0xFC ));	
++
++	rtw_write8(pAdapter, EFUSE_CTRL+3,  0x72);//read cmd	
++
++	while(!(0x80 &rtw_read8(pAdapter, EFUSE_CTRL+3))&&(tmpidx<100))
++	{
++		tmpidx++;
++	}
++	if(tmpidx<100)
++	{			
++		*data=rtw_read8(pAdapter, EFUSE_CTRL);		
++		bResult = _TRUE;
++	}
++	else
++	{
++		*data = 0xff;	
++		bResult = _FALSE;
++	}
++	return bResult;
++}
++		
++/*  11/16/2008 MH Write one byte to reald Efuse. */
++u8
++efuse_OneByteWrite(
++	IN	PADAPTER	pAdapter,  
++	IN	u16			addr, 
++	IN	u8			data,
++	IN	BOOLEAN		bPseudoTest)
++{
++	u8	tmpidx = 0;
++	u8	bResult;
++
++	if(bPseudoTest)
++	{
++		bResult = Efuse_Write1ByteToFakeContent(pAdapter, addr, data);
++		return bResult;
++	}
++	//RT_TRACE(COMP_EFUSE, DBG_LOUD, ("Addr = %x Data=%x\n", addr, data));
++
++	//return	0;
++
++	// -----------------e-fuse reg ctrl ---------------------------------	
++	//address			
++	rtw_write8(pAdapter, EFUSE_CTRL+1, (u8)(addr&0xff));
++	rtw_write8(pAdapter, EFUSE_CTRL+2, 
++	(rtw_read8(pAdapter, EFUSE_CTRL+2)&0xFC )|(u8)((addr>>8)&0x03) );	
++	rtw_write8(pAdapter, EFUSE_CTRL, data);//data		
++
++	rtw_write8(pAdapter, EFUSE_CTRL+3, 0xF2);//write cmd
++		
++	while((0x80 &  rtw_read8(pAdapter, EFUSE_CTRL+3)) && (tmpidx<100) ){
++		tmpidx++;
++	}
++	
++	if(tmpidx<100)
++	{					
++		bResult = _TRUE;
++	}
++	else
++	{			
++		bResult = _FALSE;
++	}		
++	
++	return bResult;	
++}
++
++int
++Efuse_PgPacketRead(	IN	PADAPTER	pAdapter,
++					IN	u8			offset,
++					IN	u8			*data,
++					IN	BOOLEAN		bPseudoTest)
++{
++	int	ret=0;
++
++	ret =  pAdapter->HalFunc.Efuse_PgPacketRead(pAdapter, offset, data, bPseudoTest);
++
++	return ret;
++}
++
++int 
++Efuse_PgPacketWrite(IN	PADAPTER	pAdapter, 
++					IN	u8 			offset,
++					IN	u8			word_en,
++					IN	u8			*data,
++					IN	BOOLEAN		bPseudoTest)
++{
++	int ret;
++
++	ret =  pAdapter->HalFunc.Efuse_PgPacketWrite(pAdapter, offset, word_en, data, bPseudoTest);
++
++	return ret;
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	efuse_WordEnableDataRead
++ *
++ * Overview:	Read allowed word in current efuse section data.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/16/2008 	MHC		Create Version 0.
++ * 11/21/2008 	MHC		Fix Write bug when we only enable late word.
++ *
++ *---------------------------------------------------------------------------*/
++void
++efuse_WordEnableDataRead(IN	u8	word_en,
++							IN	u8	*sourdata,
++							IN	u8	*targetdata)
++{	
++	if (!(word_en&BIT(0)))
++	{
++		targetdata[0] = sourdata[0];
++		targetdata[1] = sourdata[1];
++	}
++	if (!(word_en&BIT(1)))
++	{
++		targetdata[2] = sourdata[2];
++		targetdata[3] = sourdata[3];
++	}
++	if (!(word_en&BIT(2)))
++	{
++		targetdata[4] = sourdata[4];
++		targetdata[5] = sourdata[5];
++	}
++	if (!(word_en&BIT(3)))
++	{
++		targetdata[6] = sourdata[6];
++		targetdata[7] = sourdata[7];
++	}
++}
++
++
++u8
++Efuse_WordEnableDataWrite(	IN	PADAPTER	pAdapter,
++							IN	u16		efuse_addr,
++							IN	u8		word_en, 
++							IN	u8		*data,
++							IN	BOOLEAN		bPseudoTest)
++{
++	u8	ret=0;
++
++	ret =  pAdapter->HalFunc.Efuse_WordEnableDataWrite(pAdapter, efuse_addr, word_en, data, bPseudoTest);
++	
++	return ret;
++}
++
++static u8 efuse_read8(PADAPTER padapter, u16 address, u8 *value)
++{
++	return efuse_OneByteRead(padapter,address, value, _FALSE);
++}
++
++static u8 efuse_write8(PADAPTER padapter, u16 address, u8 *value)
++{
++	return efuse_OneByteWrite(padapter,address, *value, _FALSE);
++}
++
++/*
++ * read/wirte raw efuse data
++ */
++u8 rtw_efuse_access(PADAPTER padapter, u8 bWrite, u16 start_addr, u16 cnts, u8 *data)
++{
++	int i = 0;
++	u16	real_content_len = 0, max_available_size = 0;
++	u8 res = _FAIL ;
++	u8 (*rw8)(PADAPTER, u16, u8*);
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_REAL_CONTENT_LEN, (PVOID)&real_content_len, _FALSE);
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_available_size, _FALSE);
++
++	if (start_addr > real_content_len)
++		return _FAIL;
++
++	if (_TRUE == bWrite) {
++		if ((start_addr + cnts) > max_available_size)
++			return _FAIL;
++		rw8 = &efuse_write8;
++	} else
++		rw8 = &efuse_read8;
++
++	Efuse_PowerSwitch(padapter, bWrite, _TRUE);
++
++	// e-fuse one byte read / write
++	for (i = 0; i < cnts; i++) {
++		if (start_addr >= real_content_len) {
++			res = _FAIL;
++			break;
++		}
++
++		res = rw8(padapter, start_addr++, data++);
++		if (_FAIL == res) break;
++	}
++
++	Efuse_PowerSwitch(padapter, bWrite, _FALSE);
++
++	return res;
++}
++//------------------------------------------------------------------------------
++u16 efuse_GetMaxSize(PADAPTER padapter)
++{
++	u16	max_size;
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI , TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_size, _FALSE);
++	return max_size;
++}
++//------------------------------------------------------------------------------
++u8 efuse_GetCurrentSize(PADAPTER padapter, u16 *size)
++{
++	Efuse_PowerSwitch(padapter, _FALSE, _TRUE);
++	*size = Efuse_GetCurrentSize(padapter, EFUSE_WIFI, _FALSE);
++	Efuse_PowerSwitch(padapter, _FALSE, _FALSE);
++
++	return _SUCCESS;
++}
++//------------------------------------------------------------------------------
++u8 rtw_efuse_map_read(PADAPTER padapter, u16 addr, u16 cnts, u8 *data)
++{
++	u16	mapLen=0;
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
++
++	if ((addr + cnts) > mapLen)
++		return _FAIL;
++
++	Efuse_PowerSwitch(padapter, _FALSE, _TRUE);
++
++	efuse_ReadEFuse(padapter, EFUSE_WIFI, addr, cnts, data, _FALSE);
++
++	Efuse_PowerSwitch(padapter, _FALSE, _FALSE);
++
++	return _SUCCESS;
++}
++//------------------------------------------------------------------------------
++u8 rtw_efuse_map_write(PADAPTER padapter, u16 addr, u16 cnts, u8 *data)
++{
++	u8	offset, word_en;
++	u8	*map;
++	u8	newdata[PGPKT_DATA_SIZE];
++	s32	i, j, idx;
++	u8	ret = _SUCCESS;
++	u16	mapLen=0;
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
++
++	if ((addr + cnts) > mapLen)
++		return _FAIL;
++
++	map = rtw_zmalloc(mapLen);
++	if(map == NULL){
++		return _FAIL;
++	}
++
++	ret = rtw_efuse_map_read(padapter, 0, mapLen, map);
++	if (ret == _FAIL) goto exit;
++
++	Efuse_PowerSwitch(padapter, _TRUE, _TRUE);
++
++	offset = (addr >> 3);
++	word_en = 0xF;
++	_rtw_memset(newdata, 0xFF, PGPKT_DATA_SIZE);
++	i = addr & 0x7;	// index of one package
++	j = 0;		// index of new package
++	idx = 0;	// data index
++
++	if (i & 0x1) {
++		// odd start
++		if (data[idx] != map[addr+idx]) {
++			word_en &= ~BIT(i >> 1);
++			newdata[i-1] = map[addr+idx-1];
++			newdata[i] = data[idx];
++		}
++		i++;
++		idx++;
++	}
++	do {
++		for (; i < PGPKT_DATA_SIZE; i += 2)
++		{
++			if (cnts == idx) break;
++			if ((cnts - idx) == 1) {
++				if (data[idx] != map[addr+idx]) {
++					word_en &= ~BIT(i >> 1);
++					newdata[i] = data[idx];
++					newdata[i+1] = map[addr+idx+1];
++				}
++				idx++;
++				break;
++			} else {
++				if ((data[idx] != map[addr+idx]) ||
++				    (data[idx+1] != map[addr+idx+1]))
++				{
++					word_en &= ~BIT(i >> 1);
++					newdata[i] = data[idx];
++					newdata[i+1] = data[idx + 1];
++				}
++				idx += 2;
++			}
++			if (idx == cnts) break;
++		}
++
++		if (word_en != 0xF) {
++			ret = Efuse_PgPacketWrite(padapter, offset, word_en, newdata, _FALSE);
++			DBG_871X("offset=%x \n",offset);
++			DBG_871X("word_en=%x \n",word_en);
++
++			for(i=0;i<PGPKT_DATA_SIZE;i++)
++			{
++				DBG_871X("data=%x \t",newdata[i]);
++			}
++			if (ret == _FAIL) break;
++		}
++
++		if (idx == cnts) break;
++
++		offset++;
++		i = 0;
++		j = 0;
++		word_en = 0xF;
++		_rtw_memset(newdata, 0xFF, PGPKT_DATA_SIZE);
++	} while (1);
++
++	Efuse_PowerSwitch(padapter, _TRUE, _FALSE);
++
++exit:
++
++	rtw_mfree(map, mapLen);
++
++	return ret;
++}
++
++
++/*-----------------------------------------------------------------------------
++ * Function:	Efuse_ReadAllMap
++ *
++ * Overview:	Read All Efuse content
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/11/2008 	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++VOID 
++Efuse_ReadAllMap(
++	IN		PADAPTER	pAdapter, 
++	IN		u8		efuseType,
++	IN OUT	u8		*Efuse,
++	IN		BOOLEAN		bPseudoTest);
++VOID 
++Efuse_ReadAllMap(
++	IN		PADAPTER	pAdapter, 
++	IN		u8		efuseType,
++	IN OUT	u8		*Efuse,
++	IN		BOOLEAN		bPseudoTest)
++{
++	u16	mapLen=0;
++
++	Efuse_PowerSwitch(pAdapter,_FALSE, _TRUE);
++
++	EFUSE_GetEfuseDefinition(pAdapter, efuseType, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, bPseudoTest);
++
++	efuse_ReadEFuse(pAdapter, efuseType, 0, mapLen, Efuse, bPseudoTest);
++
++	Efuse_PowerSwitch(pAdapter,_FALSE, _FALSE);
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	efuse_ShadowRead1Byte
++ *			efuse_ShadowRead2Byte
++ *			efuse_ShadowRead4Byte
++ *
++ * Overview:	Read from efuse init map by one/two/four bytes !!!!!
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/12/2008 	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++static VOID
++efuse_ShadowRead1Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN OUT	u8		*Value)
++{
++	EEPROM_EFUSE_PRIV *pEEPROM = GET_EEPROM_EFUSE_PRIV(pAdapter);
++
++	*Value = pEEPROM->efuse_eeprom_data[Offset];
++
++}	// EFUSE_ShadowRead1Byte
++
++//---------------Read Two Bytes
++static VOID
++efuse_ShadowRead2Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN OUT	u16		*Value)
++{
++	EEPROM_EFUSE_PRIV *pEEPROM = GET_EEPROM_EFUSE_PRIV(pAdapter);
++
++	*Value = pEEPROM->efuse_eeprom_data[Offset];
++	*Value |= pEEPROM->efuse_eeprom_data[Offset+1]<<8;
++
++}	// EFUSE_ShadowRead2Byte
++
++//---------------Read Four Bytes
++static VOID
++efuse_ShadowRead4Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN OUT	u32		*Value)
++{
++	EEPROM_EFUSE_PRIV *pEEPROM = GET_EEPROM_EFUSE_PRIV(pAdapter);
++
++	*Value = pEEPROM->efuse_eeprom_data[Offset];
++	*Value |= pEEPROM->efuse_eeprom_data[Offset+1]<<8;
++	*Value |= pEEPROM->efuse_eeprom_data[Offset+2]<<16;
++	*Value |= pEEPROM->efuse_eeprom_data[Offset+3]<<24;
++
++}	// efuse_ShadowRead4Byte
++
++
++/*-----------------------------------------------------------------------------
++ * Function:	efuse_ShadowWrite1Byte
++ *			efuse_ShadowWrite2Byte
++ *			efuse_ShadowWrite4Byte
++ *
++ * Overview:	Write efuse modify map by one/two/four byte.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/12/2008 	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++#ifdef PLATFORM
++static VOID
++efuse_ShadowWrite1Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN 	u8		Value);
++#endif //PLATFORM
++static VOID
++efuse_ShadowWrite1Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN 	u8		Value)
++{
++	EEPROM_EFUSE_PRIV *pEEPROM = GET_EEPROM_EFUSE_PRIV(pAdapter);
++
++	pEEPROM->efuse_eeprom_data[Offset] = Value;
++
++}	// efuse_ShadowWrite1Byte
++
++//---------------Write Two Bytes
++static VOID
++efuse_ShadowWrite2Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN 	u16		Value)
++{
++	EEPROM_EFUSE_PRIV *pEEPROM = GET_EEPROM_EFUSE_PRIV(pAdapter);
++
++	pEEPROM->efuse_eeprom_data[Offset] = Value&0x00FF;
++	pEEPROM->efuse_eeprom_data[Offset+1] = Value>>8;
++
++}	// efuse_ShadowWrite1Byte
++
++//---------------Write Four Bytes
++static VOID
++efuse_ShadowWrite4Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN	u32		Value)
++{
++	EEPROM_EFUSE_PRIV *pEEPROM = GET_EEPROM_EFUSE_PRIV(pAdapter);
++
++	pEEPROM->efuse_eeprom_data[Offset] = (u8)(Value&0x000000FF);
++	pEEPROM->efuse_eeprom_data[Offset+1] = (u8)((Value>>8)&0x0000FF);
++	pEEPROM->efuse_eeprom_data[Offset+2] = (u8)((Value>>16)&0x00FF);
++	pEEPROM->efuse_eeprom_data[Offset+3] = (u8)((Value>>24)&0xFF);
++
++}	// efuse_ShadowWrite1Byte
++
++/*-----------------------------------------------------------------------------
++ * Function:	EFUSE_ShadowMapUpdate
++ *
++ * Overview:	Transfer current EFUSE content to shadow init and modify map.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/13/2008 	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++void EFUSE_ShadowMapUpdate(
++	IN PADAPTER	pAdapter,
++	IN u8		efuseType,
++	IN BOOLEAN	bPseudoTest)
++{
++	EEPROM_EFUSE_PRIV *pEEPROM = GET_EEPROM_EFUSE_PRIV(pAdapter);
++	u16	mapLen=0;
++
++	EFUSE_GetEfuseDefinition(pAdapter, efuseType, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, bPseudoTest);
++
++	if (pEEPROM->bautoload_fail_flag == _TRUE)
++	{
++		_rtw_memset(pEEPROM->efuse_eeprom_data, 0xFF, mapLen);
++	}
++	else
++	{
++		#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE			
++		if(_SUCCESS != retriveAdaptorInfoFile(pAdapter->registrypriv.adaptor_info_caching_file_path, pEEPROM)) {
++		#endif
++		
++		Efuse_ReadAllMap(pAdapter, efuseType, pEEPROM->efuse_eeprom_data, bPseudoTest);
++		
++		#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++			storeAdaptorInfoFile(pAdapter->registrypriv.adaptor_info_caching_file_path, pEEPROM);
++		}
++		#endif
++	}
++
++	//PlatformMoveMemory((PVOID)&pHalData->EfuseMap[EFUSE_MODIFY_MAP][0], 
++	//(PVOID)&pHalData->EfuseMap[EFUSE_INIT_MAP][0], mapLen);
++}// EFUSE_ShadowMapUpdate
++
++
++/*-----------------------------------------------------------------------------
++ * Function:	EFUSE_ShadowRead
++ *
++ * Overview:	Read from efuse init map !!!!!
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/12/2008 	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++void
++EFUSE_ShadowRead(
++	IN		PADAPTER	pAdapter,
++	IN		u8		Type,
++	IN		u16		Offset,
++	IN OUT	u32		*Value	)
++{
++	if (Type == 1)
++		efuse_ShadowRead1Byte(pAdapter, Offset, (u8 *)Value);
++	else if (Type == 2)
++		efuse_ShadowRead2Byte(pAdapter, Offset, (u16 *)Value);
++	else if (Type == 4)
++		efuse_ShadowRead4Byte(pAdapter, Offset, (u32 *)Value);
++	
++}	// EFUSE_ShadowRead
++
++/*-----------------------------------------------------------------------------
++ * Function:	EFUSE_ShadowWrite
++ *
++ * Overview:	Write efuse modify map for later update operation to use!!!!!
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/12/2008 	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++EFUSE_ShadowWrite(
++	IN	PADAPTER	pAdapter,
++	IN	u8		Type,
++	IN	u16		Offset,
++	IN OUT	u32		Value);
++VOID
++EFUSE_ShadowWrite(
++	IN	PADAPTER	pAdapter,
++	IN	u8		Type,
++	IN	u16		Offset,
++	IN OUT	u32		Value)
++{
++#if (MP_DRIVER == 0)
++	return;
++#endif
++
++	if (Type == 1)
++		efuse_ShadowWrite1Byte(pAdapter, Offset, (u8)Value);
++	else if (Type == 2)
++		efuse_ShadowWrite2Byte(pAdapter, Offset, (u16)Value);
++	else if (Type == 4)
++		efuse_ShadowWrite4Byte(pAdapter, Offset, (u32)Value);
++
++}	// EFUSE_ShadowWrite
++
++VOID
++Efuse_InitSomeVar(
++	IN		PADAPTER	pAdapter
++	);
++VOID
++Efuse_InitSomeVar(
++	IN		PADAPTER	pAdapter
++	)
++{
++	u8 i;
++	
++	_rtw_memset((PVOID)&fakeEfuseContent[0], 0xff, EFUSE_MAX_HW_SIZE);
++	_rtw_memset((PVOID)&fakeEfuseInitMap[0], 0xff, EFUSE_MAX_MAP_LEN);
++	_rtw_memset((PVOID)&fakeEfuseModifiedMap[0], 0xff, EFUSE_MAX_MAP_LEN);
++
++	for(i=0; i<EFUSE_MAX_BT_BANK; i++)
++	{
++		_rtw_memset((PVOID)&BTEfuseContent[i][0], EFUSE_MAX_HW_SIZE, 0xff);
++	}
++	_rtw_memset((PVOID)&BTEfuseInitMap[0], 0xff, EFUSE_BT_MAX_MAP_LEN);
++	_rtw_memset((PVOID)&BTEfuseModifiedMap[0], 0xff, EFUSE_BT_MAX_MAP_LEN);
++
++	for(i=0; i<EFUSE_MAX_BT_BANK; i++)
++	{
++		_rtw_memset((PVOID)&fakeBTEfuseContent[i][0], 0xff, EFUSE_MAX_HW_SIZE);
++	}
++	_rtw_memset((PVOID)&fakeBTEfuseInitMap[0], 0xff, EFUSE_BT_MAX_MAP_LEN);
++	_rtw_memset((PVOID)&fakeBTEfuseModifiedMap[0], 0xff, EFUSE_BT_MAX_MAP_LEN);
++}
++
++#ifdef PLATFORM_LINUX
++#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++//#include <rtw_eeprom.h>
++
++ int isAdaptorInfoFileValid(void)
++{
++	return _TRUE;
++}
++
++int storeAdaptorInfoFile(char *path, struct eeprom_priv * eeprom_priv)
++{
++	int ret =_SUCCESS;
++
++	if(path && eeprom_priv) {
++		ret = rtw_store_to_file(path, eeprom_priv->efuse_eeprom_data, EEPROM_MAX_SIZE);
++		if(ret == EEPROM_MAX_SIZE)
++			ret = _SUCCESS;
++		else
++			ret = _FAIL;
++	} else {
++		DBG_871X("%s NULL pointer\n",__FUNCTION__);
++		ret =  _FAIL;
++	}
++	return ret;
++}
++
++int retriveAdaptorInfoFile(char *path, struct eeprom_priv * eeprom_priv)
++{
++	int ret = _SUCCESS;
++	mm_segment_t oldfs;
++	struct file *fp;
++	
++	if(path && eeprom_priv) {
++
++		ret = rtw_retrive_from_file(path, eeprom_priv->efuse_eeprom_data, EEPROM_MAX_SIZE);
++		
++		if(ret == EEPROM_MAX_SIZE)
++			ret = _SUCCESS;
++		else
++			ret = _FAIL;
++
++		#if 0
++		if(isAdaptorInfoFileValid()) {	
++			return 0;
++		} else {
++			return _FAIL;
++		}
++		#endif
++		
++	} else {
++		DBG_871X("%s NULL pointer\n",__FUNCTION__);
++		ret = _FAIL;
++	}
++	return ret;
++}
++#endif //CONFIG_ADAPTOR_INFO_CACHING_FILE
++#endif //PLATFORM_LINUX
++
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_ap.c b/drivers/net/wireless/rtl8192cu/core/rtw_ap.c
+new file mode 100755
+index 0000000..405e7fe
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_ap.c
+@@ -0,0 +1,2940 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_AP_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <wifi.h>
++
++
++#ifdef CONFIG_AP_MODE
++
++extern unsigned char	RTW_WPA_OUI[];
++extern unsigned char 	WMM_OUI[];
++extern unsigned char	WPS_OUI[];
++extern unsigned char	P2P_OUI[];
++extern unsigned char	WFD_OUI[];
++
++void init_mlme_ap_info(_adapter *padapter)
++{
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;	
++	struct wlan_acl_pool *pacl_list = &pstapriv->acl_list;
++	
++
++	_rtw_spinlock_init(&pmlmepriv->bcn_update_lock);	
++
++	//for ACL 
++	_rtw_init_queue(&pacl_list->acl_node_q);
++
++	//pmlmeext->bstart_bss = _FALSE;
++
++	start_ap_mode(padapter);
++}
++
++void free_mlme_ap_info(_adapter *padapter)
++{
++	_irqL irqL;
++	struct sta_info *psta=NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	//stop_ap_mode(padapter);
++
++	pmlmepriv->update_bcn = _FALSE;
++	pmlmeext->bstart_bss = _FALSE;	
++	
++	rtw_sta_flush(padapter);
++
++	pmlmeinfo->state = _HW_STATE_NOLINK_;
++
++	//free_assoc_sta_resources
++	rtw_free_all_stainfo(padapter);
++
++	//free bc/mc sta_info
++	psta = rtw_get_bcmc_stainfo(padapter);	
++	_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		
++	rtw_free_stainfo(padapter, psta);
++	_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);
++	
++
++	_rtw_spinlock_free(&pmlmepriv->bcn_update_lock);
++	
++}
++
++static void update_BCNTIM(_adapter *padapter)
++{
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork_mlmeext = &(pmlmeinfo->network);
++	unsigned char *pie = pnetwork_mlmeext->IEs;
++
++	//DBG_871X("%s\n", __FUNCTION__);
++	
++	//update TIM IE
++	//if(pstapriv->tim_bitmap)
++	if(_TRUE)
++	{
++		u8 *p, *dst_ie, *premainder_ie=NULL, *pbackup_remainder_ie=NULL;
++		u16 tim_bitmap_le;
++		uint offset, tmp_len, tim_ielen, tim_ie_offset, remainder_ielen;	
++	
++		tim_bitmap_le = cpu_to_le16(pstapriv->tim_bitmap);
++
++		p = rtw_get_ie(pie + _FIXED_IE_LENGTH_, _TIM_IE_, &tim_ielen, pnetwork_mlmeext->IELength - _FIXED_IE_LENGTH_);
++		if (p != NULL && tim_ielen>0)
++		{
++			tim_ielen += 2;
++			
++			premainder_ie = p+tim_ielen;
++
++			tim_ie_offset = (sint)(p -pie);
++			
++			remainder_ielen = pnetwork_mlmeext->IELength - tim_ie_offset - tim_ielen;
++
++			//append TIM IE from dst_ie offset
++			dst_ie = p;
++		}
++		else
++		{
++			tim_ielen = 0;
++
++			//calucate head_len		
++			offset = _FIXED_IE_LENGTH_;
++
++			/* get ssid_ie len */
++			p = rtw_get_ie(pie + _BEACON_IE_OFFSET_, _SSID_IE_, &tmp_len, (pnetwork_mlmeext->IELength - _BEACON_IE_OFFSET_));
++			if (p !=  NULL)
++				offset += tmp_len+2;
++
++			// get supported rates len
++			p = rtw_get_ie(pie + _BEACON_IE_OFFSET_, _SUPPORTEDRATES_IE_, &tmp_len, (pnetwork_mlmeext->IELength - _BEACON_IE_OFFSET_));	
++			if (p !=  NULL) 
++			{			
++				offset += tmp_len+2;
++			}
++
++			//DS Parameter Set IE, len=3	
++			offset += 3;
++
++			premainder_ie = pie + offset;
++
++			remainder_ielen = pnetwork_mlmeext->IELength - offset - tim_ielen;	
++
++			//append TIM IE from offset
++			dst_ie = pie + offset;
++			
++		}
++
++		
++		if(remainder_ielen>0)
++		{
++			pbackup_remainder_ie = rtw_malloc(remainder_ielen);
++			if(pbackup_remainder_ie && premainder_ie)
++				_rtw_memcpy(pbackup_remainder_ie, premainder_ie, remainder_ielen);
++		}		
++
++		*dst_ie++=_TIM_IE_;
++
++		if((pstapriv->tim_bitmap&0xff00) && (pstapriv->tim_bitmap&0x00fc))			
++			tim_ielen = 5;
++		else
++			tim_ielen = 4;
++
++		*dst_ie++= tim_ielen;
++		
++		*dst_ie++=0;//DTIM count
++		*dst_ie++=1;//DTIM peroid
++		
++		if(pstapriv->tim_bitmap&BIT(0))//for bc/mc frames
++			*dst_ie++ = BIT(0);//bitmap ctrl 
++		else
++			*dst_ie++ = 0;
++
++		if(tim_ielen==4)
++		{
++			*dst_ie++ = *(u8*)&tim_bitmap_le;
++		}	
++		else if(tim_ielen==5)
++		{
++			_rtw_memcpy(dst_ie, &tim_bitmap_le, 2);
++			dst_ie+=2;				
++		}	
++		
++		//copy remainder IE
++		if(pbackup_remainder_ie)
++		{
++			_rtw_memcpy(dst_ie, pbackup_remainder_ie, remainder_ielen);
++
++			rtw_mfree(pbackup_remainder_ie, remainder_ielen);
++		}	
++
++		offset =  (uint)(dst_ie - pie);
++		pnetwork_mlmeext->IELength = offset + remainder_ielen;
++	
++	}
++
++#ifndef CONFIG_INTERRUPT_BASED_TXBCN 
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	set_tx_beacon_cmd(padapter);
++#endif
++#endif //!CONFIG_INTERRUPT_BASED_TXBCN
++
++
++}
++
++void rtw_add_bcn_ie(_adapter *padapter, WLAN_BSSID_EX *pnetwork, u8 index, u8 *data, u8 len)
++{
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8	bmatch = _FALSE;
++	u8	*pie = pnetwork->IEs;
++	u8	*p, *dst_ie, *premainder_ie=NULL, *pbackup_remainder_ie=NULL;
++	u32	i, offset, ielen, ie_offset, remainder_ielen = 0;
++
++	for (i = sizeof(NDIS_802_11_FIXED_IEs); i < pnetwork->IELength;)
++	{
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pnetwork->IEs + i);
++
++		if (pIE->ElementID > index)
++		{
++			break;
++		}
++		else if(pIE->ElementID == index) // already exist the same IE
++		{
++			p = (u8 *)pIE;
++			ielen = pIE->Length;
++			bmatch = _TRUE;
++			break;
++		}
++
++		p = (u8 *)pIE;
++		ielen = pIE->Length;
++		i += (pIE->Length + 2);
++	}
++
++	if (p != NULL && ielen>0)
++	{
++		ielen += 2;
++		
++		premainder_ie = p+ielen;
++
++		ie_offset = (sint)(p -pie);
++		
++		remainder_ielen = pnetwork->IELength - ie_offset - ielen;
++
++		if(bmatch)
++			dst_ie = p;
++		else
++			dst_ie = (p+ielen);
++	}
++
++	if(remainder_ielen>0)
++	{
++		pbackup_remainder_ie = rtw_malloc(remainder_ielen);
++		if(pbackup_remainder_ie && premainder_ie)
++			_rtw_memcpy(pbackup_remainder_ie, premainder_ie, remainder_ielen);
++	}
++
++	*dst_ie++=index;
++	*dst_ie++=len;
++
++	_rtw_memcpy(dst_ie, data, len);
++	dst_ie+=len;
++
++	//copy remainder IE
++	if(pbackup_remainder_ie)
++	{
++		_rtw_memcpy(dst_ie, pbackup_remainder_ie, remainder_ielen);
++
++		rtw_mfree(pbackup_remainder_ie, remainder_ielen);
++	}
++
++	offset =  (uint)(dst_ie - pie);
++	pnetwork->IELength = offset + remainder_ielen;
++}
++
++void rtw_remove_bcn_ie(_adapter *padapter, WLAN_BSSID_EX *pnetwork, u8 index)
++{
++	u8 *p, *dst_ie, *premainder_ie=NULL, *pbackup_remainder_ie=NULL;
++	uint offset, ielen, ie_offset, remainder_ielen = 0;
++	u8	*pie = pnetwork->IEs;
++
++	p = rtw_get_ie(pie + _FIXED_IE_LENGTH_, index, &ielen, pnetwork->IELength - _FIXED_IE_LENGTH_);
++	if (p != NULL && ielen>0)
++	{
++		ielen += 2;
++		
++		premainder_ie = p+ielen;
++
++		ie_offset = (sint)(p -pie);
++		
++		remainder_ielen = pnetwork->IELength - ie_offset - ielen;
++
++		dst_ie = p;
++	}
++	else {
++		return;
++	}
++
++	if(remainder_ielen>0)
++	{
++		pbackup_remainder_ie = rtw_malloc(remainder_ielen);
++		if(pbackup_remainder_ie && premainder_ie)
++			_rtw_memcpy(pbackup_remainder_ie, premainder_ie, remainder_ielen);
++	}
++
++	//copy remainder IE
++	if(pbackup_remainder_ie)
++	{
++		_rtw_memcpy(dst_ie, pbackup_remainder_ie, remainder_ielen);
++
++		rtw_mfree(pbackup_remainder_ie, remainder_ielen);
++	}
++
++	offset =  (uint)(dst_ie - pie);
++	pnetwork->IELength = offset + remainder_ielen;
++}
++
++
++u8 chk_sta_is_alive(struct sta_info *psta);
++u8 chk_sta_is_alive(struct sta_info *psta)
++{
++	u8 ret = _FALSE;
++	#ifdef DBG_EXPIRATION_CHK
++	DBG_871X("sta:"MAC_FMT", rssi:%d, rx:"STA_PKTS_FMT", expire_to:%u, %s%ssq_len:%u\n"
++		, MAC_ARG(psta->hwaddr)
++		, psta->rssi_stat.UndecoratedSmoothedPWDB
++		//, STA_RX_PKTS_ARG(psta)
++		, STA_RX_PKTS_DIFF_ARG(psta)
++		, psta->expire_to
++		, psta->state&WIFI_SLEEP_STATE?"PS, ":""
++		, psta->state&WIFI_STA_ALIVE_CHK_STATE?"SAC, ":""
++		, psta->sleepq_len
++	);
++	#endif
++
++	//if(sta_last_rx_pkts(psta) == sta_rx_pkts(psta))
++	if((psta->sta_stats.last_rx_data_pkts + psta->sta_stats.last_rx_ctrl_pkts) == (psta->sta_stats.rx_data_pkts + psta->sta_stats.rx_ctrl_pkts))
++	{
++		#if 0
++		if(psta->state&WIFI_SLEEP_STATE)
++			ret = _TRUE;
++		#endif
++	}
++	else
++	{
++		ret = _TRUE;
++	}
++
++	sta_update_last_rx_pkts(psta);
++
++	return ret;
++}
++
++void	expire_timeout_chk(_adapter *padapter)
++{
++	_irqL irqL;
++	_list	*phead, *plist;
++	u8 updated;
++	struct sta_info *psta=NULL;	
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 chk_alive_num = 0;
++	char chk_alive_list[NUM_STA];
++	int i;
++
++	_enter_critical_bh(&pstapriv->auth_list_lock, &irqL);
++	
++	phead = &pstapriv->auth_list;
++	plist = get_next(phead);
++
++	//check auth_queue
++	#ifdef DBG_EXPIRATION_CHK
++	if (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		DBG_871X(FUNC_NDEV_FMT" auth_list, cnt:%u\n"
++			, FUNC_NDEV_ARG(padapter->pnetdev), pstapriv->auth_list_cnt);
++	}
++	#endif
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)	
++	{
++		psta = LIST_CONTAINOR(plist, struct sta_info, auth_list);
++		plist = get_next(plist);
++	
++		if(psta->expire_to>0)
++		{
++			psta->expire_to--;
++			if (psta->expire_to == 0)
++			{				
++				rtw_list_delete(&psta->auth_list);
++				pstapriv->auth_list_cnt--;
++				
++				DBG_871X("auth expire %02X%02X%02X%02X%02X%02X\n",
++					psta->hwaddr[0],psta->hwaddr[1],psta->hwaddr[2],psta->hwaddr[3],psta->hwaddr[4],psta->hwaddr[5]);
++				
++				_exit_critical_bh(&pstapriv->auth_list_lock, &irqL);
++				
++				_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);	
++				rtw_free_stainfo(padapter, psta);
++				_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);	
++				
++				_enter_critical_bh(&pstapriv->auth_list_lock, &irqL);
++			}	
++		}	
++		
++	}
++
++	_exit_critical_bh(&pstapriv->auth_list_lock, &irqL);
++
++	psta = NULL;
++	
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++
++	//check asoc_queue
++	#ifdef DBG_EXPIRATION_CHK
++	if (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		DBG_871X(FUNC_NDEV_FMT" asoc_list, cnt:%u\n"
++			, FUNC_NDEV_ARG(padapter->pnetdev), pstapriv->asoc_list_cnt);
++	}
++	#endif
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
++	{
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		plist = get_next(plist);
++	
++		if (chk_sta_is_alive(psta) || !psta->expire_to) {
++			psta->expire_to = pstapriv->expire_to;
++			psta->keep_alive_trycnt = 0;
++			#ifdef CONFIG_TX_MCAST2UNI
++			psta->under_exist_checking = 0;
++			#endif	// CONFIG_TX_MCAST2UNI
++		} else {
++			psta->expire_to--;
++		}
++
++#ifndef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++#ifdef CONFIG_TX_MCAST2UNI
++		if ( (psta->flags & WLAN_STA_HT) && (psta->htpriv.agg_enable_bitmap || psta->under_exist_checking) ) {
++			// check sta by delba(addba) for 11n STA 
++			// ToDo: use CCX report to check for all STAs
++			//DBG_871X("asoc check by DELBA/ADDBA! (pstapriv->expire_to=%d s)(psta->expire_to=%d s), [%02x, %d]\n", pstapriv->expire_to*2, psta->expire_to*2, psta->htpriv.agg_enable_bitmap, psta->under_exist_checking);
++			
++			if ( psta->expire_to <= (pstapriv->expire_to - 50 ) ) {
++				DBG_871X("asoc expire by DELBA/ADDBA! (%d s)\n", (pstapriv->expire_to-psta->expire_to)*2);
++				psta->under_exist_checking = 0;
++				psta->expire_to = 0;
++			} else if ( psta->expire_to <= (pstapriv->expire_to - 3) && (psta->under_exist_checking==0)) {
++				DBG_871X("asoc check by DELBA/ADDBA! (%d s)\n", (pstapriv->expire_to-psta->expire_to)*2);
++				psta->under_exist_checking = 1;
++				//tear down TX AMPDU
++				send_delba(padapter, 1, psta->hwaddr);// // originator
++				psta->htpriv.agg_enable_bitmap = 0x0;//reset
++				psta->htpriv.candidate_tid_bitmap = 0x0;//reset
++			}
++		}
++#endif // CONFIG_TX_MCAST2UNI
++#endif //CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++
++		if (psta->expire_to <= 0)
++		{
++			#ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++			struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++			if (padapter->registrypriv.wifi_spec == 1)
++			{
++				psta->expire_to = pstapriv->expire_to;
++				continue;
++			}
++
++			if (psta->state & WIFI_SLEEP_STATE) {
++				if (!(psta->state & WIFI_STA_ALIVE_CHK_STATE)) {
++					//to check if alive by another methods if staion is at ps mode.					
++					psta->expire_to = pstapriv->expire_to;
++					psta->state |= WIFI_STA_ALIVE_CHK_STATE;
++
++					//DBG_871X("alive chk, sta:" MAC_FMT " is at ps mode!\n", MAC_ARG(psta->hwaddr));
++
++					//to update bcn with tim_bitmap for this station
++					pstapriv->tim_bitmap |= BIT(psta->aid);
++					update_beacon(padapter, _TIM_IE_, NULL, _FALSE);
++
++					if(!pmlmeext->active_keep_alive_check)
++						continue;
++				}
++			}
++
++			if (pmlmeext->active_keep_alive_check) {
++				int stainfo_offset;
++
++				stainfo_offset = rtw_stainfo_offset(pstapriv, psta);
++				if (stainfo_offset_valid(stainfo_offset)) {
++					chk_alive_list[chk_alive_num++] = stainfo_offset;
++				}
++
++				continue;
++			}
++			#endif /* CONFIG_ACTIVE_KEEP_ALIVE_CHECK */
++
++			rtw_list_delete(&psta->asoc_list);
++			pstapriv->asoc_list_cnt--;
++
++			DBG_871X("asoc expire "MAC_FMT", state=0x%x\n", MAC_ARG(psta->hwaddr), psta->state);
++			updated = ap_free_sta(padapter, psta, _FALSE, WLAN_REASON_DEAUTH_LEAVING);
++		}	
++		else
++		{
++			/* TODO: Aging mechanism to digest frames in sleep_q to avoid running out of xmitframe */
++			if (psta->sleepq_len > (NR_XMITFRAME/pstapriv->asoc_list_cnt)
++				&& padapter->xmitpriv.free_xmitframe_cnt < (NR_XMITFRAME/pstapriv->asoc_list_cnt/2)
++			){
++				DBG_871X("%s sta:"MAC_FMT", sleepq_len:%u, free_xmitframe_cnt:%u, asoc_list_cnt:%u, clear sleep_q\n", __func__
++					, MAC_ARG(psta->hwaddr)
++					, psta->sleepq_len, padapter->xmitpriv.free_xmitframe_cnt, pstapriv->asoc_list_cnt);
++				wakeup_sta_to_xmit(padapter, psta);
++			}
++		}
++	}
++
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++#ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++if (chk_alive_num) {
++
++	u8 backup_oper_channel=0;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	/* switch to correct channel of current network  before issue keep-alive frames */
++	if (rtw_get_oper_ch(padapter) != pmlmeext->cur_channel) {
++		backup_oper_channel = rtw_get_oper_ch(padapter);
++		SelectChannel(padapter, pmlmeext->cur_channel);
++	}
++
++	/* issue null data to check sta alive*/
++	for (i = 0; i < chk_alive_num; i++) {
++		
++		int ret = _FAIL;
++
++		psta = rtw_get_stainfo_by_offset(pstapriv, chk_alive_list[i]);
++		if(!(psta->state &_FW_LINKED))
++			continue;		
++
++		if (psta->state & WIFI_SLEEP_STATE)
++			ret = issue_nulldata(padapter, psta->hwaddr, 0, 1, 50);
++		else
++			ret = issue_nulldata(padapter, psta->hwaddr, 0, 3, 50);
++
++		psta->keep_alive_trycnt++;
++		if (ret == _SUCCESS)
++		{
++			DBG_871X("asoc check, sta(" MAC_FMT ") is alive\n", MAC_ARG(psta->hwaddr));
++			psta->expire_to = pstapriv->expire_to;
++			psta->keep_alive_trycnt = 0;
++			continue;
++		}
++		else if (psta->keep_alive_trycnt <= 3)
++		{
++			DBG_871X("ack check for asoc expire, keep_alive_trycnt=%d\n", psta->keep_alive_trycnt);
++			psta->expire_to = 1;
++			continue;
++		}
++
++		psta->keep_alive_trycnt = 0;
++
++		DBG_871X("asoc expire "MAC_FMT", state=0x%x\n", MAC_ARG(psta->hwaddr), psta->state);
++		_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++		if (rtw_is_list_empty(&psta->asoc_list)==_FALSE) {
++			rtw_list_delete(&psta->asoc_list);
++			pstapriv->asoc_list_cnt--;
++			updated = ap_free_sta(padapter, psta, _FALSE, WLAN_REASON_DEAUTH_LEAVING);
++		}
++		_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	}
++
++	if (backup_oper_channel>0) /* back to the original operation channel */
++		SelectChannel(padapter, backup_oper_channel);
++}
++#endif /* CONFIG_ACTIVE_KEEP_ALIVE_CHECK */
++
++	associated_clients_update(padapter, updated);
++}
++
++
++static void add_RATid(_adapter *padapter, struct sta_info *psta)
++{	
++	int i;
++	u8 rf_type;
++	u32 init_rate=0;
++	unsigned char sta_band = 0, raid, shortGIrate = _FALSE;
++	unsigned char limit;	
++	unsigned int tx_ra_bitmap=0;
++	struct ht_priv	*psta_ht = NULL;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX *pcur_network = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network;	
++
++	
++	if(psta)
++		psta_ht = &psta->htpriv;
++	else
++		return;
++	
++	//b/g mode ra_bitmap  
++	for (i=0; i<sizeof(psta->bssrateset); i++)
++	{
++		if (psta->bssrateset[i])
++			tx_ra_bitmap |= rtw_get_bit_value_from_ieee_value(psta->bssrateset[i]&0x7f);
++	}
++
++	//n mode ra_bitmap
++	if(psta_ht->ht_option) 
++	{
++		rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++		if(rf_type == RF_2T2R)
++			limit=16;// 2R
++		else
++			limit=8;//  1R
++
++		for (i=0; i<limit; i++) {
++			if (psta_ht->ht_cap.supp_mcs_set[i/8] & BIT(i%8))
++				tx_ra_bitmap |= BIT(i+12);
++		}
++
++		//max short GI rate
++		shortGIrate = psta_ht->sgi;
++	}
++
++
++#if 0//gtest
++	if(get_rf_mimo_mode(padapter) == RTL8712_RF_2T2R)
++	{
++		//is this a 2r STA?
++		if((pstat->tx_ra_bitmap & 0x0ff00000) != 0 && !(priv->pshare->has_2r_sta & BIT(pstat->aid)))
++		{
++			priv->pshare->has_2r_sta |= BIT(pstat->aid);
++			if(rtw_read16(padapter, 0x102501f6) != 0xffff)
++			{
++				rtw_write16(padapter, 0x102501f6, 0xffff);
++				reset_1r_sta_RA(priv, 0xffff);
++				Switch_1SS_Antenna(priv, 3);
++			}
++		}
++		else// bg or 1R STA? 
++		{ 
++			if((priv->pmib->dot11BssType.net_work_type & WIRELESS_11N) && pstat->ht_cap_len && priv->pshare->has_2r_sta == 0)
++			{
++				if(rtw_read16(padapter, 0x102501f6) != 0x7777)
++				{ // MCS7 SGI
++					rtw_write16(padapter, 0x102501f6,0x7777);
++					reset_1r_sta_RA(priv, 0x7777);
++					Switch_1SS_Antenna(priv, 2);
++				}
++			}
++		}
++		
++	}
++
++	if ((pstat->rssi_level < 1) || (pstat->rssi_level > 3)) 
++	{
++		if (pstat->rssi >= priv->pshare->rf_ft_var.raGoDownUpper)
++			pstat->rssi_level = 1;
++		else if ((pstat->rssi >= priv->pshare->rf_ft_var.raGoDown20MLower) ||
++			((priv->pshare->is_40m_bw) && (pstat->ht_cap_len) &&
++			(pstat->rssi >= priv->pshare->rf_ft_var.raGoDown40MLower) &&
++			(pstat->ht_cap_buf.ht_cap_info & cpu_to_le16(_HTCAP_SUPPORT_CH_WDTH_))))
++			pstat->rssi_level = 2;
++		else
++			pstat->rssi_level = 3;
++	}
++
++	// rate adaptive by rssi
++	if ((priv->pmib->dot11BssType.net_work_type & WIRELESS_11N) && pstat->ht_cap_len)
++	{
++		if ((get_rf_mimo_mode(priv) == MIMO_1T2R) || (get_rf_mimo_mode(priv) == MIMO_1T1R))
++		{
++			switch (pstat->rssi_level) {
++				case 1:
++					pstat->tx_ra_bitmap &= 0x100f0000;
++					break;
++				case 2:
++					pstat->tx_ra_bitmap &= 0x100ff000;
++					break;
++				case 3:
++					if (priv->pshare->is_40m_bw)
++						pstat->tx_ra_bitmap &= 0x100ff005;
++					else
++						pstat->tx_ra_bitmap &= 0x100ff001;
++
++					break;
++			}
++		}
++		else 
++		{
++			switch (pstat->rssi_level) {
++				case 1:
++					pstat->tx_ra_bitmap &= 0x1f0f0000;
++					break;
++				case 2:
++					pstat->tx_ra_bitmap &= 0x1f0ff000;
++					break;
++				case 3:
++					if (priv->pshare->is_40m_bw)
++						pstat->tx_ra_bitmap &= 0x000ff005;
++					else
++						pstat->tx_ra_bitmap &= 0x000ff001;
++
++					break;
++			}
++
++			// Don't need to mask high rates due to new rate adaptive parameters
++			//if (pstat->is_broadcom_sta)		// use MCS12 as the highest rate vs. Broadcom sta
++			//	pstat->tx_ra_bitmap &= 0x81ffffff;
++
++			// NIC driver will report not supporting MCS15 and MCS14 in asoc req
++			//if (pstat->is_rtl8190_sta && !pstat->is_2t_mimo_sta)
++			//	pstat->tx_ra_bitmap &= 0x83ffffff;		// if Realtek 1x2 sta, don't use MCS15 and MCS14
++		}
++	}
++	else if ((priv->pmib->dot11BssType.net_work_type & WIRELESS_11G) && isErpSta(pstat))
++	{
++		switch (pstat->rssi_level) {
++			case 1:
++				pstat->tx_ra_bitmap &= 0x00000f00;
++				break;
++			case 2:
++				pstat->tx_ra_bitmap &= 0x00000ff0;
++				break;
++			case 3:
++				pstat->tx_ra_bitmap &= 0x00000ff5;
++				break;
++		}
++	}
++	else 
++	{
++		pstat->tx_ra_bitmap &= 0x0000000d;
++	}
++
++	// disable tx short GI when station cannot rx MCS15(AP is 2T2R)
++	// disable tx short GI when station cannot rx MCS7 (AP is 1T2R or 1T1R)
++	// if there is only 1r STA and we are 2T2R, DO NOT mask SGI rate
++	if ((!(pstat->tx_ra_bitmap & 0x8000000) && (priv->pshare->has_2r_sta > 0) && (get_rf_mimo_mode(padapter) == RTL8712_RF_2T2R)) ||
++		 (!(pstat->tx_ra_bitmap & 0x80000) && (get_rf_mimo_mode(padapter) != RTL8712_RF_2T2R)))
++	{
++		pstat->tx_ra_bitmap &= ~BIT(28);	
++	}
++#endif
++
++	if ( pcur_network->Configuration.DSConfig > 14 ) {
++		// 5G band
++		if (tx_ra_bitmap & 0xffff000)
++			sta_band |= WIRELESS_11_5N | WIRELESS_11A;
++		else
++			sta_band |= WIRELESS_11A;
++	} else {
++		if (tx_ra_bitmap & 0xffff000)
++			sta_band |= WIRELESS_11_24N | WIRELESS_11G | WIRELESS_11B;
++		else if (tx_ra_bitmap & 0xff0)
++			sta_band |= WIRELESS_11G |WIRELESS_11B;
++		else
++			sta_band |= WIRELESS_11B;
++	}
++
++	raid = networktype_to_raid(sta_band);	
++	init_rate = get_highest_rate_idx(tx_ra_bitmap&0x0fffffff)&0x3f;
++	
++	if (psta->aid < NUM_STA) 
++	{
++		u8 arg = 0;
++
++		arg = psta->mac_id&0x1f;
++		
++		arg |= BIT(7);//support entry 2~31
++		
++		if (shortGIrate==_TRUE)
++			arg |= BIT(5);
++
++		tx_ra_bitmap |= ((raid<<28)&0xf0000000);
++
++		DBG_871X("%s=> mac_id:%d , raid:%d , bitmap=0x%x, arg=0x%x\n", 
++			__FUNCTION__ , psta->mac_id, raid ,tx_ra_bitmap, arg);
++
++		//bitmap[0:27] = tx_rate_bitmap
++		//bitmap[28:31]= Rate Adaptive id
++		//arg[0:4] = macid
++		//arg[5] = Short GI
++		rtw_hal_add_ra_tid(padapter, tx_ra_bitmap, arg);
++
++		if (shortGIrate==_TRUE)
++			init_rate |= BIT(6);
++		
++		//set ra_id, init_rate
++		psta->raid = raid;
++		psta->init_rate = init_rate;
++		
++	}
++	else 
++	{
++		DBG_871X("station aid %d exceed the max number\n", psta->aid);
++	}
++
++}
++
++static void update_bmc_sta(_adapter *padapter)
++{
++	_irqL	irqL;
++	u32 init_rate=0;
++	unsigned char	network_type, raid;
++	int i, supportRateNum = 0;	
++	unsigned int tx_ra_bitmap=0;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX *pcur_network = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network;	
++	struct sta_info *psta = rtw_get_bcmc_stainfo(padapter);
++
++	if(psta)
++	{
++		psta->aid = 0;//default set to 0
++		//psta->mac_id = psta->aid+4;	
++		psta->mac_id = psta->aid + 1;
++
++		psta->qos_option = 0;		
++		psta->htpriv.ht_option = _FALSE;
++
++		psta->ieee8021x_blocked = 0;
++
++		_rtw_memset((void*)&psta->sta_stats, 0, sizeof(struct stainfo_stats));
++
++		//psta->dot118021XPrivacy = _NO_PRIVACY_;//!!! remove it, because it has been set before this.
++
++
++
++		//prepare for add_RATid		
++		supportRateNum = rtw_get_rateset_len((u8*)&pcur_network->SupportedRates);
++		network_type = rtw_check_network_type((u8*)&pcur_network->SupportedRates, supportRateNum, 1);
++		
++		_rtw_memcpy(psta->bssrateset, &pcur_network->SupportedRates, supportRateNum);
++		psta->bssratelen = supportRateNum;
++
++		//b/g mode ra_bitmap  
++		for (i=0; i<supportRateNum; i++)
++		{	
++			if (psta->bssrateset[i])
++				tx_ra_bitmap |= rtw_get_bit_value_from_ieee_value(psta->bssrateset[i]&0x7f);
++		}
++
++		if ( pcur_network->Configuration.DSConfig > 14 ) {
++			//force to A mode. 5G doesn't support CCK rates
++			network_type = WIRELESS_11A;
++			tx_ra_bitmap = 0x150; // 6, 12, 24 Mbps
++		} else {
++			//force to b mode 
++			network_type = WIRELESS_11B;
++			tx_ra_bitmap = 0xf;		
++		}
++
++		//tx_ra_bitmap = update_basic_rate(pcur_network->SupportedRates, supportRateNum);
++
++		raid = networktype_to_raid(network_type);
++		init_rate = get_highest_rate_idx(tx_ra_bitmap&0x0fffffff)&0x3f;
++				
++		//DBG_871X("Add id %d val %08x to ratr for bmc sta\n", psta->aid, tx_ra_bitmap);
++
++		//if(pHalData->fw_ractrl == _TRUE)
++		{
++			u8 arg = 0;
++
++			arg = psta->mac_id&0x1f;
++		
++			arg |= BIT(7);
++		
++			//if (shortGIrate==_TRUE)
++			//	arg |= BIT(5);
++			
++			tx_ra_bitmap |= ((raid<<28)&0xf0000000);			
++
++			DBG_871X("update_bmc_sta, mask=0x%x, arg=0x%x\n", tx_ra_bitmap, arg);
++
++			//bitmap[0:27] = tx_rate_bitmap
++			//bitmap[28:31]= Rate Adaptive id
++			//arg[0:4] = macid
++			//arg[5] = Short GI
++			rtw_hal_add_ra_tid(padapter, tx_ra_bitmap, arg);			
++		
++		}
++
++		//set ra_id, init_rate
++		psta->raid = raid;
++		psta->init_rate = init_rate;
++	 
++		_enter_critical_bh(&psta->lock, &irqL);
++		psta->state = _FW_LINKED;
++		_exit_critical_bh(&psta->lock, &irqL);
++
++	}
++	else
++	{
++		DBG_871X("add_RATid_bmc_sta error!\n");
++	}
++		
++}
++
++//notes:
++//AID: 1~MAX for sta and 0 for bc/mc in ap/adhoc mode 
++//MAC_ID = AID+1 for sta in ap/adhoc mode 
++//MAC_ID = 1 for bc/mc for sta/ap/adhoc
++//MAC_ID = 0 for bssid for sta/ap/adhoc
++//CAM_ID = //0~3 for default key, cmd_id=macid + 3, macid=aid+1;
++
++void update_sta_info_apmode(_adapter *padapter, struct sta_info *psta)
++{	
++	_irqL	irqL;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct ht_priv	*phtpriv_ap = &pmlmepriv->htpriv;
++	struct ht_priv	*phtpriv_sta = &psta->htpriv;
++
++	//set intf_tag to if1
++	//psta->intf_tag = 0;
++
++	//psta->mac_id = psta->aid+4;
++	psta->mac_id = psta->aid+1; 
++	
++	if(psecuritypriv->dot11AuthAlgrthm==dot11AuthAlgrthm_8021X)
++		psta->ieee8021x_blocked = _TRUE;
++	else
++		psta->ieee8021x_blocked = _FALSE;
++	
++
++	//update sta's cap
++	
++	//ERP
++	VCS_update(padapter, psta);
++		
++	//HT related cap
++	if(phtpriv_sta->ht_option)
++	{
++		//check if sta supports rx ampdu
++		phtpriv_sta->ampdu_enable = phtpriv_ap->ampdu_enable;
++
++		//check if sta support s Short GI
++		if((phtpriv_sta->ht_cap.cap_info & phtpriv_ap->ht_cap.cap_info) & cpu_to_le16(IEEE80211_HT_CAP_SGI_20|IEEE80211_HT_CAP_SGI_40))
++		{
++			phtpriv_sta->sgi = _TRUE;
++		}
++
++		// bwmode
++		if((phtpriv_sta->ht_cap.cap_info & phtpriv_ap->ht_cap.cap_info) & cpu_to_le16(IEEE80211_HT_CAP_SUP_WIDTH))
++		{
++			//phtpriv_sta->bwmode = HT_CHANNEL_WIDTH_40;
++			phtpriv_sta->bwmode = pmlmeext->cur_bwmode;
++			phtpriv_sta->ch_offset = pmlmeext->cur_ch_offset;
++			
++		}		
++
++		psta->qos_option = _TRUE;
++		
++	}
++	else
++	{
++		phtpriv_sta->ampdu_enable = _FALSE;
++		
++		phtpriv_sta->sgi = _FALSE;
++		phtpriv_sta->bwmode = HT_CHANNEL_WIDTH_20;
++		phtpriv_sta->ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	}
++
++	//Rx AMPDU
++	send_delba(padapter, 0, psta->hwaddr);// recipient
++	
++	//TX AMPDU
++	send_delba(padapter, 1, psta->hwaddr);// // originator
++	phtpriv_sta->agg_enable_bitmap = 0x0;//reset
++	phtpriv_sta->candidate_tid_bitmap = 0x0;//reset
++	
++
++	//todo: init other variables
++	
++	_rtw_memset((void*)&psta->sta_stats, 0, sizeof(struct stainfo_stats));
++
++
++	//add ratid
++	//add_RATid(padapter, psta);//move to ap_sta_info_defer_update()
++
++
++	_enter_critical_bh(&psta->lock, &irqL);
++	psta->state |= _FW_LINKED;
++	_exit_critical_bh(&psta->lock, &irqL);
++	
++
++}
++
++static void update_hw_ht_param(_adapter *padapter)
++{
++	unsigned char		max_AMPDU_len;
++	unsigned char		min_MPDU_spacing;
++	struct registry_priv	 *pregpriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	
++	DBG_871X("%s\n", __FUNCTION__);
++	
++
++	//handle A-MPDU parameter field
++	/* 	
++		AMPDU_para [1:0]:Max AMPDU Len => 0:8k , 1:16k, 2:32k, 3:64k
++		AMPDU_para [4:2]:Min MPDU Start Spacing	
++	*/
++	max_AMPDU_len = pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x03;	
++	
++	min_MPDU_spacing = (pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x1c) >> 2;	
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_AMPDU_MIN_SPACE, (u8 *)(&min_MPDU_spacing));
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_AMPDU_FACTOR, (u8 *)(&max_AMPDU_len));
++
++	//
++	// Config SM Power Save setting
++	//
++	pmlmeinfo->SM_PS = (pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info & 0x0C) >> 2;
++	if(pmlmeinfo->SM_PS == WLAN_HT_CAP_SM_PS_STATIC)
++	{
++		/*u8 i;
++		//update the MCS rates
++		for (i = 0; i < 16; i++)
++		{
++			pmlmeinfo->HT_caps.HT_cap_element.MCS_rate[i] &= MCS_rate_1R[i];
++		}*/
++		DBG_871X("%s(): WLAN_HT_CAP_SM_PS_STATIC\n",__FUNCTION__);
++	}
++
++	//
++	// Config current HT Protection mode.
++	//
++	//pmlmeinfo->HT_protection = pmlmeinfo->HT_info.infos[1] & 0x3;
++
++}
++
++static void start_bss_network(_adapter *padapter, u8 *pbuf)
++{
++	u8 *p;
++	u8 val8, cur_channel, cur_bwmode, cur_ch_offset;
++	u16 bcn_interval;
++	u32	acparm;	
++	int	ie_len;	
++	struct registry_priv	 *pregpriv = &padapter->registrypriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct security_priv* psecuritypriv=&(padapter->securitypriv);	
++	WLAN_BSSID_EX *pnetwork = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork_mlmeext = &(pmlmeinfo->network);
++	struct HT_info_element *pht_info=NULL;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#endif //CONFIG_P2P
++	u8 cbw40_enable=0;
++	u8 change_band = _FALSE;
++	//DBG_871X("%s\n", __FUNCTION__);
++
++	bcn_interval = (u16)pnetwork->Configuration.BeaconPeriod;	
++	cur_channel = pnetwork->Configuration.DSConfig;
++	cur_bwmode = HT_CHANNEL_WIDTH_20;;
++	cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	
++
++	//check if there is wps ie, 
++	//if there is wpsie in beacon, the hostapd will update beacon twice when stating hostapd,
++	//and at first time the security ie ( RSN/WPA IE) will not include in beacon.
++	if(NULL == rtw_get_wps_ie(pnetwork->IEs+_FIXED_IE_LENGTH_, pnetwork->IELength-_FIXED_IE_LENGTH_, NULL, NULL))
++	{
++		pmlmeext->bstart_bss = _TRUE;
++	}
++
++	//todo: update wmm, ht cap
++	//pmlmeinfo->WMM_enable;
++	//pmlmeinfo->HT_enable;
++	if(pmlmepriv->qospriv.qos_option)
++		pmlmeinfo->WMM_enable = _TRUE;
++
++	if(pmlmepriv->htpriv.ht_option)
++	{
++		pmlmeinfo->WMM_enable = _TRUE;
++		pmlmeinfo->HT_enable = _TRUE;
++		//pmlmeinfo->HT_info_enable = _TRUE;
++		//pmlmeinfo->HT_caps_enable = _TRUE;
++
++		update_hw_ht_param(padapter);
++	}
++	
++
++	if(pmlmepriv->cur_network.join_res != _TRUE) //setting only at  first time
++	{		
++		//WEP Key will be set before this function, do not clear CAM.
++		if ((psecuritypriv->dot11PrivacyAlgrthm != _WEP40_) && (psecuritypriv->dot11PrivacyAlgrthm != _WEP104_))
++			flush_all_cam_entry(padapter);	//clear CAM
++	}	
++
++	//set MSR to AP_Mode		
++	Set_MSR(padapter, _HW_STATE_AP_);	
++		
++	//Set BSSID REG
++	rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, pnetwork->MacAddress);
++
++	//Set EDCA param reg
++#ifdef CONFIG_CONCURRENT_MODE
++	acparm = 0x005ea42b;
++#else
++	acparm = 0x002F3217; // VO
++#endif
++	rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VO, (u8 *)(&acparm));
++	acparm = 0x005E4317; // VI
++	rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VI, (u8 *)(&acparm));
++	//acparm = 0x00105320; // BE
++	acparm = 0x005ea42b;
++	rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acparm));
++	acparm = 0x0000A444; // BK
++	rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BK, (u8 *)(&acparm));
++
++	//Set Security
++	val8 = (psecuritypriv->dot11AuthAlgrthm == dot11AuthAlgrthm_8021X)? 0xcc: 0xcf;
++	rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, (u8 *)(&val8));
++
++	//Beacon Control related register
++	rtw_hal_set_hwreg(padapter, HW_VAR_BEACON_INTERVAL, (u8 *)(&bcn_interval));
++
++	if(pmlmepriv->cur_network.join_res != _TRUE) //setting only at  first time
++	{
++		u32 initialgain;
++
++		initialgain = 0x1e;
++
++
++		//disable dynamic functions, such as high power, DIG
++		//Save_DM_Func_Flag(padapter);
++		//Switch_DM_Func(padapter, DYNAMIC_FUNC_DISABLE, _FALSE);
++		
++#ifdef CONFIG_CONCURRENT_MODE	
++		if(padapter->adapter_type > PRIMARY_ADAPTER)
++		{
++			if(rtw_buddy_adapter_up(padapter))
++			{
++				_adapter *pbuddy_adapter = padapter->pbuddy_adapter;
++
++				//turn on dynamic functions on PRIMARY_ADAPTER, dynamic functions only runs at PRIMARY_ADAPTER
++				Switch_DM_Func(pbuddy_adapter, DYNAMIC_FUNC_DIG|DYNAMIC_FUNC_HP|DYNAMIC_FUNC_SS, _TRUE);
++	
++				rtw_hal_set_hwreg(pbuddy_adapter, HW_VAR_INITIAL_GAIN, (u8 *)(&initialgain));
++			}
++		}
++		else
++#endif
++		{
++			//turn on dynamic functions	
++			Switch_DM_Func(padapter, DYNAMIC_FUNC_DIG|DYNAMIC_FUNC_HP|DYNAMIC_FUNC_SS, _TRUE);
++
++			rtw_hal_set_hwreg(padapter, HW_VAR_INITIAL_GAIN, (u8 *)(&initialgain));
++		}	
++	
++	}
++
++	//set channel, bwmode	
++	p = rtw_get_ie((pnetwork->IEs + sizeof(NDIS_802_11_FIXED_IEs)), _HT_ADD_INFO_IE_, &ie_len, (pnetwork->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++	if( p && ie_len)
++	{
++		pht_info = (struct HT_info_element *)(p+2);
++
++		if( pmlmeext->cur_channel > 14 )
++		{
++			if( pregpriv->cbw40_enable & BIT(1) )
++				cbw40_enable = 1;
++		}
++		else
++			if( pregpriv->cbw40_enable & BIT(0) )
++				cbw40_enable = 1;
++			
++		if ((cbw40_enable) &&	 (pht_info->infos[0] & BIT(2)))
++		{
++			//switch to the 40M Hz mode
++			//pmlmeext->cur_bwmode = HT_CHANNEL_WIDTH_40;
++			cur_bwmode = HT_CHANNEL_WIDTH_40;
++			switch (pht_info->infos[0] & 0x3)
++			{
++				case 1:
++					//pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++					cur_ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++					break;
++			
++				case 3:
++					//pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++					cur_ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;					
++					break;
++				
++				default:
++					//pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++					cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++					break;
++			}		
++						
++		}
++					
++	}
++
++#ifdef CONFIG_DUALMAC_CONCURRENT
++	dc_set_ap_channel_bandwidth(padapter, cur_channel, cur_ch_offset, cur_bwmode);
++#else
++	//TODO: need to judge the phy parameters on concurrent mode for single phy
++	//set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++#ifdef CONFIG_CONCURRENT_MODE
++	if(!check_buddy_fwstate(padapter, _FW_LINKED|_FW_UNDER_LINKING|_FW_UNDER_SURVEY))
++	{
++		set_channel_bwmode(padapter, cur_channel, cur_ch_offset, cur_bwmode);
++	}
++	else if(check_buddy_fwstate(padapter, _FW_LINKED)==_TRUE)//only second adapter can enter AP Mode
++	{
++		_adapter *pbuddy_adapter = padapter->pbuddy_adapter;		
++		struct mlme_ext_priv *pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++	
++		//To sync cur_channel/cur_bwmode/cur_ch_offset with primary adapter
++		DBG_871X("primary iface is at linked state, sync cur_channel/cur_bwmode/cur_ch_offset\n");
++		DBG_871X("primary adapter, CH=%d, BW=%d, offset=%d\n", pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_bwmode, pbuddy_mlmeext->cur_ch_offset);
++		DBG_871X("second adapter, CH=%d, BW=%d, offset=%d\n", cur_channel, cur_bwmode, cur_ch_offset);
++		
++		if((cur_channel <= 14 && pbuddy_mlmeext->cur_channel >= 36) ||
++		(cur_channel >= 36 && pbuddy_mlmeext->cur_channel <= 14))
++			change_band = _TRUE;
++		
++		cur_channel = pbuddy_mlmeext->cur_channel;
++		if(cur_bwmode == HT_CHANNEL_WIDTH_40)
++		{
++			if(pht_info)
++				pht_info->infos[0] &= ~(BIT(0)|BIT(1));
++			
++			if(pbuddy_mlmeext->cur_bwmode == HT_CHANNEL_WIDTH_40)
++			{
++				cur_ch_offset = pbuddy_mlmeext->cur_ch_offset;
++
++				//to update cur_ch_offset value in beacon
++				if(pht_info)
++				{				
++					switch(cur_ch_offset)
++					{
++						case HAL_PRIME_CHNL_OFFSET_LOWER:
++							pht_info->infos[0] |= 0x1;
++							break;
++						case HAL_PRIME_CHNL_OFFSET_UPPER:
++							pht_info->infos[0] |= 0x3;
++							break;
++						case HAL_PRIME_CHNL_OFFSET_DONT_CARE:							
++						default:							
++							break;					
++					}
++				}		
++				
++			}
++			else if(pbuddy_mlmeext->cur_bwmode == HT_CHANNEL_WIDTH_20)
++			{
++				cur_bwmode = HT_CHANNEL_WIDTH_20;
++				cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++			
++				if(cur_channel>0 && cur_channel<5)
++				{
++					if(pht_info)
++						pht_info->infos[0] |= 0x1;		
++
++					cur_bwmode = HT_CHANNEL_WIDTH_40;
++					cur_ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++				}
++
++				if(cur_channel>7 && cur_channel<(14+1))
++				{
++					if(pht_info)
++						pht_info->infos[0] |= 0x3;
++						
++					cur_bwmode = HT_CHANNEL_WIDTH_40;
++					cur_ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++				}					
++
++				set_channel_bwmode(padapter, cur_channel, cur_ch_offset, cur_bwmode);
++			}
++			
++		}
++
++		// to update channel value in beacon
++		pnetwork->Configuration.DSConfig = cur_channel;		
++		p = rtw_get_ie((pnetwork->IEs + sizeof(NDIS_802_11_FIXED_IEs)), _DSSET_IE_, &ie_len, (pnetwork->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++		if(p && ie_len>0)
++			*(p + 2) = cur_channel;
++		
++		if(pht_info)
++			pht_info->primary_channel = cur_channel;
++		
++		//set buddy adapter channel, bandwidth, offeset to current adapter
++		pmlmeext->cur_channel = cur_channel;	
++		pmlmeext->cur_bwmode = cur_bwmode;
++		pmlmeext->cur_ch_offset = cur_ch_offset;
++		
++		//buddy interface band is different from current interface, update ERP, support rate, ext support rate IE
++		if(change_band == _TRUE)
++			change_band_update_ie(padapter, pnetwork);
++	}
++#else
++	set_channel_bwmode(padapter, cur_channel, cur_ch_offset, cur_bwmode);
++#endif //CONFIG_CONCURRENT_MODE
++
++	DBG_871X("CH=%d, BW=%d, offset=%d\n", cur_channel, cur_bwmode, cur_ch_offset);
++
++	//
++	pmlmeext->cur_channel = cur_channel;	
++	pmlmeext->cur_bwmode = cur_bwmode;
++	pmlmeext->cur_ch_offset = cur_ch_offset;
++#endif //CONFIG_DUALMAC_CONCURRENT
++	pmlmeext->cur_wireless_mode = pmlmepriv->cur_network.network_type;
++
++	//update cur_wireless_mode
++	update_wireless_mode(padapter);
++
++	//update RRSR after set channel and bandwidth
++	UpdateBrateTbl(padapter, pnetwork->SupportedRates);
++	rtw_hal_set_hwreg(padapter, HW_VAR_BASIC_RATE, pnetwork->SupportedRates);
++
++	//udpate capability after cur_wireless_mode updated
++	update_capinfo(padapter, rtw_get_capability((WLAN_BSSID_EX *)pnetwork));
++	
++	//let pnetwork_mlmeext == pnetwork_mlme.
++	_rtw_memcpy(pnetwork_mlmeext, pnetwork, pnetwork->Length);
++
++#ifdef CONFIG_P2P
++	_rtw_memcpy(pwdinfo->p2p_group_ssid, pnetwork->Ssid.Ssid, pnetwork->Ssid.SsidLength);	
++	pwdinfo->p2p_group_ssid_len = pnetwork->Ssid.SsidLength;
++#endif //CONFIG_P2P
++
++	if(_TRUE == pmlmeext->bstart_bss)
++	{
++		update_beacon(padapter, _TIM_IE_, NULL, _FALSE);
++
++#ifndef CONFIG_INTERRUPT_BASED_TXBCN //other case will  tx beacon when bcn interrupt coming in.
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		//issue beacon frame
++		if(send_beacon(padapter)==_FAIL)
++		{
++			DBG_871X("issue_beacon, fail!\n");
++		}
++#endif 
++#endif //!CONFIG_INTERRUPT_BASED_TXBCN
++
++	}
++
++
++	//update bc/mc sta_info
++	update_bmc_sta(padapter);
++	
++	//pmlmeext->bstart_bss = _TRUE;
++	
++}
++
++int rtw_check_beacon_data(_adapter *padapter, u8 *pbuf,  int len)
++{
++	int ret=_SUCCESS;
++	u8 *p;
++	u8 *pHT_caps_ie=NULL;
++	u8 *pHT_info_ie=NULL;
++	struct sta_info *psta = NULL;
++	u16 cap, ht_cap=_FALSE;
++	uint ie_len = 0;
++	int group_cipher, pairwise_cipher;	
++	u8	channel, network_type, supportRate[NDIS_802_11_LENGTH_RATES_EX];
++	int supportRateNum = 0;
++	u8 OUI1[] = {0x00, 0x50, 0xf2,0x01};
++	u8 wps_oui[4]={0x0,0x50,0xf2,0x04};
++	u8 WMM_PARA_IE[] = {0x00, 0x50, 0xf2, 0x02, 0x01, 0x01};	
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;	
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX *pbss_network = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network;	
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *ie = pbss_network->IEs;
++	
++
++	/* SSID */
++	/* Supported rates */
++	/* DS Params */
++	/* WLAN_EID_COUNTRY */
++	/* ERP Information element */
++	/* Extended supported rates */
++	/* WPA/WPA2 */
++	/* Wi-Fi Wireless Multimedia Extensions */
++	/* ht_capab, ht_oper */
++	/* WPS IE */
++
++	DBG_871X("%s, len=%d\n", __FUNCTION__, len);
++
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return _FAIL;
++
++
++	if(len>MAX_IE_SZ)
++		return _FAIL;
++	
++	pbss_network->IELength = len;
++
++	_rtw_memset(ie, 0, MAX_IE_SZ);
++	
++	_rtw_memcpy(ie, pbuf, pbss_network->IELength);
++
++
++	if(pbss_network->InfrastructureMode!=Ndis802_11APMode)
++		return _FAIL;
++
++	pbss_network->Rssi = 0;
++
++	_rtw_memcpy(pbss_network->MacAddress, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	
++	//beacon interval
++	p = rtw_get_beacon_interval_from_ie(ie);//ie + 8;	// 8: TimeStamp, 2: Beacon Interval 2:Capability
++	//pbss_network->Configuration.BeaconPeriod = le16_to_cpu(*(unsigned short*)p);
++	pbss_network->Configuration.BeaconPeriod = RTW_GET_LE16(p);
++	
++	//capability
++	//cap = *(unsigned short *)rtw_get_capability_from_ie(ie);
++	//cap = le16_to_cpu(cap);
++	cap = RTW_GET_LE16(ie);
++
++	//SSID
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _SSID_IE_, &ie_len, (pbss_network->IELength -_BEACON_IE_OFFSET_));
++	if(p && ie_len>0)
++	{
++		_rtw_memset(&pbss_network->Ssid, 0, sizeof(NDIS_802_11_SSID));
++		_rtw_memcpy(pbss_network->Ssid.Ssid, (p + 2), ie_len);
++		pbss_network->Ssid.SsidLength = ie_len;
++	}	
++
++	//chnnel
++	channel = 0;
++	pbss_network->Configuration.Length = 0;
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _DSSET_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if(p && ie_len>0)
++		channel = *(p + 2);
++
++	pbss_network->Configuration.DSConfig = channel;
++
++	
++	_rtw_memset(supportRate, 0, NDIS_802_11_LENGTH_RATES_EX);
++	// get supported rates
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _SUPPORTEDRATES_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));	
++	if (p !=  NULL) 
++	{
++		_rtw_memcpy(supportRate, p+2, ie_len);	
++		supportRateNum = ie_len;
++	}
++	
++	//get ext_supported rates
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _EXT_SUPPORTEDRATES_IE_, &ie_len, pbss_network->IELength - _BEACON_IE_OFFSET_);	
++	if (p !=  NULL)
++	{
++		_rtw_memcpy(supportRate+supportRateNum, p+2, ie_len);
++		supportRateNum += ie_len;
++	
++	}
++
++	network_type = rtw_check_network_type(supportRate, supportRateNum, channel);
++
++	rtw_set_supported_rate(pbss_network->SupportedRates, network_type);
++
++
++	//parsing ERP_IE
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _ERPINFO_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if(p && ie_len>0)
++	{
++		ERP_IE_handler(padapter, (PNDIS_802_11_VARIABLE_IEs)p);
++	}
++
++	//update privacy/security
++	if (cap & BIT(4))
++		pbss_network->Privacy = 1;
++	else
++		pbss_network->Privacy = 0;
++
++	psecuritypriv->wpa_psk = 0;
++
++	//wpa2
++	group_cipher = 0; pairwise_cipher = 0;
++	psecuritypriv->wpa2_group_cipher = _NO_PRIVACY_;
++	psecuritypriv->wpa2_pairwise_cipher = _NO_PRIVACY_;	
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _RSN_IE_2_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));		
++	if(p && ie_len>0)
++	{
++		if(rtw_parse_wpa2_ie(p, ie_len+2, &group_cipher, &pairwise_cipher) == _SUCCESS)
++		{
++			psecuritypriv->dot11AuthAlgrthm= dot11AuthAlgrthm_8021X;
++			
++			psecuritypriv->dot8021xalg = 1;//psk,  todo:802.1x
++			psecuritypriv->wpa_psk |= BIT(1);
++
++			psecuritypriv->wpa2_group_cipher = group_cipher;
++			psecuritypriv->wpa2_pairwise_cipher = pairwise_cipher;
++#if 0
++			switch(group_cipher)
++			{
++				case WPA_CIPHER_NONE:				
++				psecuritypriv->wpa2_group_cipher = _NO_PRIVACY_;
++				break;
++				case WPA_CIPHER_WEP40:				
++				psecuritypriv->wpa2_group_cipher = _WEP40_;
++				break;
++				case WPA_CIPHER_TKIP:				
++				psecuritypriv->wpa2_group_cipher = _TKIP_;
++				break;
++				case WPA_CIPHER_CCMP:				
++				psecuritypriv->wpa2_group_cipher = _AES_;				
++				break;
++				case WPA_CIPHER_WEP104:					
++				psecuritypriv->wpa2_group_cipher = _WEP104_;
++				break;
++			}
++
++			switch(pairwise_cipher)
++			{
++				case WPA_CIPHER_NONE:			
++				psecuritypriv->wpa2_pairwise_cipher = _NO_PRIVACY_;
++				break;
++				case WPA_CIPHER_WEP40:			
++				psecuritypriv->wpa2_pairwise_cipher = _WEP40_;
++				break;
++				case WPA_CIPHER_TKIP:				
++				psecuritypriv->wpa2_pairwise_cipher = _TKIP_;
++				break;
++				case WPA_CIPHER_CCMP:			
++				psecuritypriv->wpa2_pairwise_cipher = _AES_;
++				break;
++				case WPA_CIPHER_WEP104:					
++				psecuritypriv->wpa2_pairwise_cipher = _WEP104_;
++				break;
++			}
++#endif			
++		}
++		
++	}
++
++	//wpa
++	ie_len = 0;
++	group_cipher = 0; pairwise_cipher = 0;
++	psecuritypriv->wpa_group_cipher = _NO_PRIVACY_;
++	psecuritypriv->wpa_pairwise_cipher = _NO_PRIVACY_;	
++	for (p = ie + _BEACON_IE_OFFSET_; ;p += (ie_len + 2))
++	{
++		p = rtw_get_ie(p, _SSN_IE_1_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_ - (ie_len + 2)));		
++		if ((p) && (_rtw_memcmp(p+2, OUI1, 4)))
++		{
++			if(rtw_parse_wpa_ie(p, ie_len+2, &group_cipher, &pairwise_cipher) == _SUCCESS)
++			{
++				psecuritypriv->dot11AuthAlgrthm= dot11AuthAlgrthm_8021X;
++				
++				psecuritypriv->dot8021xalg = 1;//psk,  todo:802.1x
++
++				psecuritypriv->wpa_psk |= BIT(0);
++
++				psecuritypriv->wpa_group_cipher = group_cipher;
++				psecuritypriv->wpa_pairwise_cipher = pairwise_cipher;
++
++#if 0
++				switch(group_cipher)
++				{
++					case WPA_CIPHER_NONE:					
++					psecuritypriv->wpa_group_cipher = _NO_PRIVACY_;
++					break;
++					case WPA_CIPHER_WEP40:					
++					psecuritypriv->wpa_group_cipher = _WEP40_;
++					break;
++					case WPA_CIPHER_TKIP:					
++					psecuritypriv->wpa_group_cipher = _TKIP_;
++					break;
++					case WPA_CIPHER_CCMP:					
++					psecuritypriv->wpa_group_cipher = _AES_;				
++					break;
++					case WPA_CIPHER_WEP104:					
++					psecuritypriv->wpa_group_cipher = _WEP104_;
++					break;
++				}
++
++				switch(pairwise_cipher)
++				{
++					case WPA_CIPHER_NONE:					
++					psecuritypriv->wpa_pairwise_cipher = _NO_PRIVACY_;
++					break;
++					case WPA_CIPHER_WEP40:					
++					psecuritypriv->wpa_pairwise_cipher = _WEP40_;
++					break;
++					case WPA_CIPHER_TKIP:					
++					psecuritypriv->wpa_pairwise_cipher = _TKIP_;
++					break;
++					case WPA_CIPHER_CCMP:					
++					psecuritypriv->wpa_pairwise_cipher = _AES_;
++					break;
++					case WPA_CIPHER_WEP104:					
++					psecuritypriv->wpa_pairwise_cipher = _WEP104_;
++					break;
++				}
++#endif				
++			}
++
++			break;
++			
++		}
++			
++		if ((p == NULL) || (ie_len == 0))
++		{
++				break;
++		}
++		
++	}
++
++	//wmm
++	ie_len = 0;
++	pmlmepriv->qospriv.qos_option = 0;
++	if(pregistrypriv->wmm_enable)
++	{
++		for (p = ie + _BEACON_IE_OFFSET_; ;p += (ie_len + 2))
++		{			
++			p = rtw_get_ie(p, _VENDOR_SPECIFIC_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_ - (ie_len + 2)));	
++			if((p) && _rtw_memcmp(p+2, WMM_PARA_IE, 6)) 
++			{
++				pmlmepriv->qospriv.qos_option = 1;	
++
++				*(p+8) |= BIT(7);//QoS Info, support U-APSD
++				
++				/* disable all ACM bits since the WMM admission control is not supported */
++				*(p + 10) &= ~BIT(4); /* BE */
++				*(p + 14) &= ~BIT(4); /* BK */
++				*(p + 18) &= ~BIT(4); /* VI */
++				*(p + 22) &= ~BIT(4); /* VO */
++				
++				break;				
++			}
++			
++			if ((p == NULL) || (ie_len == 0))
++			{
++				break;
++			}			
++		}		
++	}
++
++	//parsing HT_CAP_IE
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _HT_CAPABILITY_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if(p && ie_len>0)
++	{
++		u8 rf_type;
++
++		struct rtw_ieee80211_ht_cap *pht_cap = (struct rtw_ieee80211_ht_cap *)(p+2);
++
++		pHT_caps_ie=p;
++		
++		
++		ht_cap = _TRUE;
++		network_type |= WIRELESS_11_24N;
++
++	
++		rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++		if((psecuritypriv->wpa_pairwise_cipher & WPA_CIPHER_CCMP) ||
++			(psecuritypriv->wpa2_pairwise_cipher & WPA_CIPHER_CCMP))
++		{
++			pht_cap->ampdu_params_info |= (IEEE80211_HT_CAP_AMPDU_DENSITY&(0x07<<2));
++		}	
++		else
++		{
++			pht_cap->ampdu_params_info |= (IEEE80211_HT_CAP_AMPDU_DENSITY&0x00);	
++		}	
++
++		pht_cap->ampdu_params_info |= (IEEE80211_HT_CAP_AMPDU_FACTOR & 0x03); //set  Max Rx AMPDU size  to 64K
++
++		if(rf_type == RF_1T1R)
++		{			
++			pht_cap->supp_mcs_set[0] = 0xff;
++			pht_cap->supp_mcs_set[1] = 0x0;				
++		}
++
++		_rtw_memcpy(&pmlmepriv->htpriv.ht_cap, p+2, ie_len);		
++		
++	}
++
++	//parsing HT_INFO_IE
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _HT_ADD_INFO_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if(p && ie_len>0)
++	{
++		pHT_info_ie=p;
++	}
++
++	switch(network_type)
++	{
++		case WIRELESS_11B:
++			pbss_network->NetworkTypeInUse = Ndis802_11DS;
++			break;	
++		case WIRELESS_11G:
++		case WIRELESS_11BG:
++             case WIRELESS_11G_24N:
++		case WIRELESS_11BG_24N:
++			pbss_network->NetworkTypeInUse = Ndis802_11OFDM24;
++			break;
++		case WIRELESS_11A:
++			pbss_network->NetworkTypeInUse = Ndis802_11OFDM5;
++			break;
++		default :
++			pbss_network->NetworkTypeInUse = Ndis802_11OFDM24;
++			break;
++	}
++	
++	pmlmepriv->cur_network.network_type = network_type;
++
++
++	pmlmepriv->htpriv.ht_option = _FALSE;
++#ifdef CONFIG_80211N_HT
++	if( (psecuritypriv->wpa2_pairwise_cipher&WPA_CIPHER_TKIP) ||
++		      (psecuritypriv->wpa_pairwise_cipher&WPA_CIPHER_TKIP))
++	{	
++		//todo:
++		//ht_cap = _FALSE;
++	}
++		      
++	//ht_cap	
++	if(pregistrypriv->ht_enable && ht_cap==_TRUE)
++	{		
++		pmlmepriv->htpriv.ht_option = _TRUE;
++		pmlmepriv->qospriv.qos_option = 1;
++
++		if(pregistrypriv->ampdu_enable==1)
++		{
++			pmlmepriv->htpriv.ampdu_enable = _TRUE;
++		}
++
++		HT_caps_handler(padapter, (PNDIS_802_11_VARIABLE_IEs)pHT_caps_ie);
++		
++		HT_info_handler(padapter, (PNDIS_802_11_VARIABLE_IEs)pHT_info_ie);
++	}
++#endif
++
++
++	pbss_network->Length = get_WLAN_BSSID_EX_sz((WLAN_BSSID_EX  *)pbss_network);
++
++	//issue beacon to start bss network
++	start_bss_network(padapter, (u8*)pbss_network);
++			
++
++	//alloc sta_info for ap itself
++	psta = rtw_get_stainfo(&padapter->stapriv, pbss_network->MacAddress);
++	if(!psta)
++	{
++		psta = rtw_alloc_stainfo(&padapter->stapriv, pbss_network->MacAddress);
++		if (psta == NULL) 
++		{ 
++			return _FAIL;
++		}	
++	}	
++	psta->state |= WIFI_AP_STATE;		//Aries, add,fix bug of flush_cam_entry at STOP AP mode , 0724 	
++	rtw_indicate_connect( padapter);
++
++	pmlmepriv->cur_network.join_res = _TRUE;//for check if already set beacon
++		
++	//update bc/mc sta_info
++	//update_bmc_sta(padapter);
++
++	return ret;
++
++}
++
++void rtw_set_macaddr_acl(_adapter *padapter, int mode)
++{
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct wlan_acl_pool *pacl_list = &pstapriv->acl_list;
++
++	DBG_871X("%s, mode=%d\n", __func__, mode);
++
++	pacl_list->mode = mode;
++}
++
++int rtw_acl_add_sta(_adapter *padapter, u8 *addr)
++{
++	_irqL irqL;
++	_list	*plist, *phead;
++	u8 added = _FALSE;
++	int i, ret=0;
++	struct rtw_wlan_acl_node *paclnode;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct wlan_acl_pool *pacl_list = &pstapriv->acl_list;
++	_queue	*pacl_node_q =&pacl_list->acl_node_q;	
++
++	DBG_871X("%s(acl_num=%d)=" MAC_FMT "\n", __func__, pacl_list->num, MAC_ARG(addr));	
++
++	if((NUM_ACL-1) < pacl_list->num)
++		return (-1);	
++
++
++	_enter_critical_bh(&(pacl_node_q->lock), &irqL);
++
++	phead = get_list_head(pacl_node_q);
++	plist = get_next(phead);
++		
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
++	{
++		paclnode = LIST_CONTAINOR(plist, struct rtw_wlan_acl_node, list);
++		plist = get_next(plist);
++
++		if(_rtw_memcmp(paclnode->addr, addr, ETH_ALEN))
++		{
++			if(paclnode->valid == _TRUE)
++			{
++				added = _TRUE;
++				DBG_871X("%s, sta has been added\n", __func__);
++				break;
++			}
++		}		
++	}
++	
++	_exit_critical_bh(&(pacl_node_q->lock), &irqL);
++
++
++	if(added == _TRUE)
++		return ret;
++	
++
++	_enter_critical_bh(&(pacl_node_q->lock), &irqL);
++
++	for(i=0; i< NUM_ACL; i++)
++	{
++		paclnode = &pacl_list->aclnode[i];
++
++		if(paclnode->valid == _FALSE)
++		{
++			_rtw_init_listhead(&paclnode->list);
++	
++			_rtw_memcpy(paclnode->addr, addr, ETH_ALEN);
++		
++			paclnode->valid = _TRUE;
++
++			rtw_list_insert_tail(&paclnode->list, get_list_head(pacl_node_q));
++	
++			pacl_list->num++;
++
++			break;
++		}
++	}
++
++	DBG_871X("%s, acl_num=%d\n", __func__, pacl_list->num);
++	
++	_exit_critical_bh(&(pacl_node_q->lock), &irqL);
++
++	return ret;
++}
++
++int rtw_acl_remove_sta(_adapter *padapter, u8 *addr)
++{
++	_irqL irqL;
++	_list	*plist, *phead;
++	int i, ret=0;
++	struct rtw_wlan_acl_node *paclnode;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct wlan_acl_pool *pacl_list = &pstapriv->acl_list;
++	_queue	*pacl_node_q =&pacl_list->acl_node_q;	
++
++	DBG_871X("%s(acl_num=%d)=" MAC_FMT "\n", __func__, pacl_list->num, MAC_ARG(addr));	
++
++	_enter_critical_bh(&(pacl_node_q->lock), &irqL);
++
++	phead = get_list_head(pacl_node_q);
++	plist = get_next(phead);
++		
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
++	{
++		paclnode = LIST_CONTAINOR(plist, struct rtw_wlan_acl_node, list);
++		plist = get_next(plist);
++
++		if(_rtw_memcmp(paclnode->addr, addr, ETH_ALEN))
++		{
++			if(paclnode->valid == _TRUE)
++			{
++				paclnode->valid = _FALSE;
++
++				rtw_list_delete(&paclnode->list);
++				
++				pacl_list->num--;
++			}
++		}		
++	}
++	
++	_exit_critical_bh(&(pacl_node_q->lock), &irqL);
++
++	DBG_871X("%s, acl_num=%d\n", __func__, pacl_list->num);
++	
++	return ret;
++
++}
++
++#ifdef CONFIG_NATIVEAP_MLME
++
++static void update_bcn_fixed_ie(_adapter *padapter)
++{
++	DBG_871X("%s\n", __FUNCTION__);
++
++}
++
++static void update_bcn_erpinfo_ie(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork = &(pmlmeinfo->network);
++	unsigned char *p, *ie = pnetwork->IEs;
++	u32 len = 0;
++
++	DBG_871X("%s, ERP_enable=%d\n", __FUNCTION__, pmlmeinfo->ERP_enable);
++
++	if(!pmlmeinfo->ERP_enable)
++		return;
++
++	//parsing ERP_IE
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _ERPINFO_IE_, &len, (pnetwork->IELength - _BEACON_IE_OFFSET_));
++	if(p && len>0)
++	{
++		PNDIS_802_11_VARIABLE_IEs pIE = (PNDIS_802_11_VARIABLE_IEs)p;
++
++		if (pmlmepriv->num_sta_non_erp == 1)
++			pIE->data[0] |= RTW_ERP_INFO_NON_ERP_PRESENT|RTW_ERP_INFO_USE_PROTECTION;
++		else
++			pIE->data[0] &= ~(RTW_ERP_INFO_NON_ERP_PRESENT|RTW_ERP_INFO_USE_PROTECTION);
++
++		if(pmlmepriv->num_sta_no_short_preamble > 0)
++			pIE->data[0] |= RTW_ERP_INFO_BARKER_PREAMBLE_MODE;
++		else
++			pIE->data[0] &= ~(RTW_ERP_INFO_BARKER_PREAMBLE_MODE);
++	
++		ERP_IE_handler(padapter, pIE);
++	}
++	
++}
++
++static void update_bcn_htcap_ie(_adapter *padapter)
++{
++	DBG_871X("%s\n", __FUNCTION__);
++
++}
++
++static void update_bcn_htinfo_ie(_adapter *padapter)
++{	
++	DBG_871X("%s\n", __FUNCTION__);
++
++}
++
++static void update_bcn_rsn_ie(_adapter *padapter)
++{
++	DBG_871X("%s\n", __FUNCTION__);
++
++}
++
++static void update_bcn_wpa_ie(_adapter *padapter)
++{
++	DBG_871X("%s\n", __FUNCTION__);
++
++}
++
++static void update_bcn_wmm_ie(_adapter *padapter)
++{
++	DBG_871X("%s\n", __FUNCTION__);
++	
++}
++
++static void update_bcn_wps_ie(_adapter *padapter)
++{
++	u8 *pwps_ie=NULL, *pwps_ie_src, *premainder_ie, *pbackup_remainder_ie=NULL;
++	uint wps_ielen=0, wps_offset, remainder_ielen;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork = &(pmlmeinfo->network);
++	unsigned char *ie = pnetwork->IEs;
++	u32 ielen = pnetwork->IELength;
++
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	pwps_ie = rtw_get_wps_ie(ie+_FIXED_IE_LENGTH_, ielen-_FIXED_IE_LENGTH_, NULL, &wps_ielen);
++	
++	if(pwps_ie==NULL || wps_ielen==0)
++		return;
++
++	wps_offset = (uint)(pwps_ie-ie);
++
++	premainder_ie = pwps_ie + wps_ielen;
++
++	remainder_ielen = ielen - wps_offset - wps_ielen;
++
++	if(remainder_ielen>0)
++	{
++		pbackup_remainder_ie = rtw_malloc(remainder_ielen);
++		if(pbackup_remainder_ie)
++			_rtw_memcpy(pbackup_remainder_ie, premainder_ie, remainder_ielen);
++	}
++
++	
++	pwps_ie_src = pmlmepriv->wps_beacon_ie;
++	if(pwps_ie_src == NULL)
++		return;
++
++
++	wps_ielen = (uint)pwps_ie_src[1];//to get ie data len
++	if((wps_offset+wps_ielen+2+remainder_ielen)<=MAX_IE_SZ)
++	{
++		_rtw_memcpy(pwps_ie, pwps_ie_src, wps_ielen+2);
++		pwps_ie += (wps_ielen+2);
++
++		if(pbackup_remainder_ie)
++			_rtw_memcpy(pwps_ie, pbackup_remainder_ie, remainder_ielen);
++
++		//update IELength
++		pnetwork->IELength = wps_offset + (wps_ielen+2) + remainder_ielen;
++	}
++
++	if(pbackup_remainder_ie)
++		rtw_mfree(pbackup_remainder_ie, remainder_ielen);
++
++}
++
++static void update_bcn_p2p_ie(_adapter *padapter)
++{
++
++}
++
++static void update_bcn_vendor_spec_ie(_adapter *padapter, u8*oui)
++{
++	DBG_871X("%s\n", __FUNCTION__);
++
++	if(_rtw_memcmp(RTW_WPA_OUI, oui, 4))
++	{
++		update_bcn_wpa_ie(padapter);
++	}
++	else if(_rtw_memcmp(WMM_OUI, oui, 4))
++	{
++		update_bcn_wmm_ie(padapter);
++	}
++	else if(_rtw_memcmp(WPS_OUI, oui, 4))
++	{
++		update_bcn_wps_ie(padapter);
++	}
++	else if(_rtw_memcmp(P2P_OUI, oui, 4))
++	{
++		update_bcn_p2p_ie(padapter);
++	}
++	else
++	{
++		DBG_871X("unknown OUI type!\n");
++ 	}
++	
++	
++}
++
++void update_beacon(_adapter *padapter, u8 ie_id, u8 *oui, u8 tx)
++{
++	_irqL irqL;
++	struct mlme_priv *pmlmepriv;
++	struct mlme_ext_priv	*pmlmeext;
++	//struct mlme_ext_info	*pmlmeinfo;
++	
++	//DBG_871X("%s\n", __FUNCTION__);
++
++	if(!padapter)
++		return;
++
++	pmlmepriv = &(padapter->mlmepriv);
++	pmlmeext = &(padapter->mlmeextpriv);
++	//pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if(_FALSE == pmlmeext->bstart_bss)
++		return;
++
++	_enter_critical_bh(&pmlmepriv->bcn_update_lock, &irqL);
++
++	switch(ie_id)
++	{
++		case 0xFF:
++
++			update_bcn_fixed_ie(padapter);//8: TimeStamp, 2: Beacon Interval 2:Capability
++			
++			break;
++
++		case _TIM_IE_:
++			
++			update_BCNTIM(padapter);
++			
++			break;
++
++		case _ERPINFO_IE_:
++
++			update_bcn_erpinfo_ie(padapter);
++
++			break;
++
++		case _HT_CAPABILITY_IE_:
++
++			update_bcn_htcap_ie(padapter);
++			
++			break;
++
++		case _RSN_IE_2_:
++
++			update_bcn_rsn_ie(padapter);
++
++			break;
++			
++		case _HT_ADD_INFO_IE_:
++
++			update_bcn_htinfo_ie(padapter);
++			
++			break;
++	
++		case _VENDOR_SPECIFIC_IE_:
++
++			update_bcn_vendor_spec_ie(padapter, oui);
++			
++			break;
++			
++		default:
++			break;
++	}
++
++	pmlmepriv->update_bcn = _TRUE;
++	
++	_exit_critical_bh(&pmlmepriv->bcn_update_lock, &irqL);		
++	
++#ifndef CONFIG_INTERRUPT_BASED_TXBCN 
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	if(tx)
++	{
++		//send_beacon(padapter);//send_beacon must execute on TSR level
++		set_tx_beacon_cmd(padapter);
++	}
++#else
++	{	
++		//PCI will issue beacon when BCN interrupt occurs.		
++	}
++#endif
++#endif //!CONFIG_INTERRUPT_BASED_TXBCN
++	
++}
++
++#ifdef CONFIG_80211N_HT
++
++/*
++op_mode
++Set to 0 (HT pure) under the followign conditions
++	- all STAs in the BSS are 20/40 MHz HT in 20/40 MHz BSS or
++	- all STAs in the BSS are 20 MHz HT in 20 MHz BSS
++Set to 1 (HT non-member protection) if there may be non-HT STAs
++	in both the primary and the secondary channel
++Set to 2 if only HT STAs are associated in BSS,
++	however and at least one 20 MHz HT STA is associated
++Set to 3 (HT mixed mode) when one or more non-HT STAs are associated
++	(currently non-GF HT station is considered as non-HT STA also)
++*/
++static int rtw_ht_operation_update(_adapter *padapter)
++{
++	u16 cur_op_mode, new_op_mode;
++	int op_mode_changes = 0;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct ht_priv	*phtpriv_ap = &pmlmepriv->htpriv;
++
++	if(pmlmepriv->htpriv.ht_option == _TRUE) 
++		return 0;
++	
++	//if (!iface->conf->ieee80211n || iface->conf->ht_op_mode_fixed)
++	//	return 0;
++
++	DBG_871X("%s current operation mode=0x%X\n",
++		   __FUNCTION__, pmlmepriv->ht_op_mode);
++
++	if (!(pmlmepriv->ht_op_mode & HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT)
++	    && pmlmepriv->num_sta_ht_no_gf) {
++		pmlmepriv->ht_op_mode |=
++			HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT;
++		op_mode_changes++;
++	} else if ((pmlmepriv->ht_op_mode &
++		    HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT) &&
++		   pmlmepriv->num_sta_ht_no_gf == 0) {
++		pmlmepriv->ht_op_mode &=
++			~HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT;
++		op_mode_changes++;
++	}
++
++	if (!(pmlmepriv->ht_op_mode & HT_INFO_OPERATION_MODE_NON_HT_STA_PRESENT) &&
++	    (pmlmepriv->num_sta_no_ht || pmlmepriv->olbc_ht)) {
++		pmlmepriv->ht_op_mode |= HT_INFO_OPERATION_MODE_NON_HT_STA_PRESENT;
++		op_mode_changes++;
++	} else if ((pmlmepriv->ht_op_mode &
++		    HT_INFO_OPERATION_MODE_NON_HT_STA_PRESENT) &&
++		   (pmlmepriv->num_sta_no_ht == 0 && !pmlmepriv->olbc_ht)) {
++		pmlmepriv->ht_op_mode &=
++			~HT_INFO_OPERATION_MODE_NON_HT_STA_PRESENT;
++		op_mode_changes++;
++	}
++
++	/* Note: currently we switch to the MIXED op mode if HT non-greenfield
++	 * station is associated. Probably it's a theoretical case, since
++	 * it looks like all known HT STAs support greenfield.
++	 */
++	new_op_mode = 0;
++	if (pmlmepriv->num_sta_no_ht ||
++	    (pmlmepriv->ht_op_mode & HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT))
++		new_op_mode = OP_MODE_MIXED;
++	else if ((phtpriv_ap->ht_cap.cap_info & IEEE80211_HT_CAP_SUP_WIDTH)
++		 && pmlmepriv->num_sta_ht_20mhz)
++		new_op_mode = OP_MODE_20MHZ_HT_STA_ASSOCED;
++	else if (pmlmepriv->olbc_ht)
++		new_op_mode = OP_MODE_MAY_BE_LEGACY_STAS;
++	else
++		new_op_mode = OP_MODE_PURE;
++
++	cur_op_mode = pmlmepriv->ht_op_mode & HT_INFO_OPERATION_MODE_OP_MODE_MASK;
++	if (cur_op_mode != new_op_mode) {
++		pmlmepriv->ht_op_mode &= ~HT_INFO_OPERATION_MODE_OP_MODE_MASK;
++		pmlmepriv->ht_op_mode |= new_op_mode;
++		op_mode_changes++;
++	}
++
++	DBG_871X("%s new operation mode=0x%X changes=%d\n",
++		   __FUNCTION__, pmlmepriv->ht_op_mode, op_mode_changes);
++
++	return op_mode_changes;
++	
++}
++
++#endif /* CONFIG_80211N_HT */
++
++void associated_clients_update(_adapter *padapter, u8 updated)
++{
++	//update associcated stations cap.
++	if(updated == _TRUE)
++	{
++		_irqL irqL;
++		_list	*phead, *plist;
++		struct sta_info *psta=NULL;	
++		struct sta_priv *pstapriv = &padapter->stapriv;
++			
++		_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++		
++		phead = &pstapriv->asoc_list;
++		plist = get_next(phead);
++		
++		//check asoc_queue
++		while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)	
++		{
++			psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		
++			plist = get_next(plist);
++
++			VCS_update(padapter, psta);		
++		}
++
++		_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	}		
++
++}
++
++/* called > TSR LEVEL for USB or SDIO Interface*/
++void bss_cap_update_on_sta_join(_adapter *padapter, struct sta_info *psta)
++{
++	u8 beacon_updated = _FALSE;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++
++	
++#if 0
++	if (!(psta->capability & WLAN_CAPABILITY_SHORT_PREAMBLE) &&
++	    !psta->no_short_preamble_set) {
++		psta->no_short_preamble_set = 1;
++		pmlmepriv->num_sta_no_short_preamble++;
++		if ((pmlmeext->cur_wireless_mode > WIRELESS_11B) && 
++		     (pmlmepriv->num_sta_no_short_preamble == 1))
++			ieee802_11_set_beacons(hapd->iface);
++	}
++#endif
++
++
++	if(!(psta->flags & WLAN_STA_SHORT_PREAMBLE))	
++	{
++		if(!psta->no_short_preamble_set)
++		{
++			psta->no_short_preamble_set = 1;
++			
++			pmlmepriv->num_sta_no_short_preamble++;
++			
++			if ((pmlmeext->cur_wireless_mode > WIRELESS_11B) && 
++		     		(pmlmepriv->num_sta_no_short_preamble == 1))
++			{
++				beacon_updated = _TRUE;
++				update_beacon(padapter, 0xFF, NULL, _TRUE);
++			}	
++			
++		}
++	}
++	else
++	{
++		if(psta->no_short_preamble_set)
++		{
++			psta->no_short_preamble_set = 0;
++			
++			pmlmepriv->num_sta_no_short_preamble--;
++			
++			if ((pmlmeext->cur_wireless_mode > WIRELESS_11B) && 
++		     		(pmlmepriv->num_sta_no_short_preamble == 0))
++			{
++				beacon_updated = _TRUE;
++				update_beacon(padapter, 0xFF, NULL, _TRUE);
++			}	
++			
++		}
++	}
++
++#if 0
++	if (psta->flags & WLAN_STA_NONERP && !psta->nonerp_set) {
++		psta->nonerp_set = 1;
++		pmlmepriv->num_sta_non_erp++;
++		if (pmlmepriv->num_sta_non_erp == 1)
++			ieee802_11_set_beacons(hapd->iface);
++	}
++#endif
++
++	if(psta->flags & WLAN_STA_NONERP)
++	{
++		if(!psta->nonerp_set)
++		{
++			psta->nonerp_set = 1;
++			
++			pmlmepriv->num_sta_non_erp++;
++			
++			if (pmlmepriv->num_sta_non_erp == 1)
++			{
++				beacon_updated = _TRUE;
++				update_beacon(padapter, _ERPINFO_IE_, NULL, _TRUE);
++			}	
++		}
++		
++	}
++	else
++	{
++		if(psta->nonerp_set)
++		{
++			psta->nonerp_set = 0;
++			
++			pmlmepriv->num_sta_non_erp--;
++			
++			if (pmlmepriv->num_sta_non_erp == 0)
++			{
++				beacon_updated = _TRUE;
++				update_beacon(padapter, _ERPINFO_IE_, NULL, _TRUE);
++			}	
++		}
++		
++	}
++
++
++#if 0
++	if (!(psta->capability & WLAN_CAPABILITY_SHORT_SLOT) &&
++	    !psta->no_short_slot_time_set) {
++		psta->no_short_slot_time_set = 1;
++		pmlmepriv->num_sta_no_short_slot_time++;
++		if ((pmlmeext->cur_wireless_mode > WIRELESS_11B) &&
++		    (pmlmepriv->num_sta_no_short_slot_time == 1))
++			ieee802_11_set_beacons(hapd->iface);
++	}
++#endif
++
++	if(!(psta->capability & WLAN_CAPABILITY_SHORT_SLOT))
++	{
++		if(!psta->no_short_slot_time_set)
++		{
++			psta->no_short_slot_time_set = 1;
++			
++			pmlmepriv->num_sta_no_short_slot_time++;
++			
++			if ((pmlmeext->cur_wireless_mode > WIRELESS_11B) &&
++		   		 (pmlmepriv->num_sta_no_short_slot_time == 1))
++			{
++				beacon_updated = _TRUE;
++				update_beacon(padapter, 0xFF, NULL, _TRUE);
++			}			
++			
++		}
++	}
++	else
++	{
++		if(psta->no_short_slot_time_set)
++		{
++			psta->no_short_slot_time_set = 0;
++			
++			pmlmepriv->num_sta_no_short_slot_time--;
++			
++			if ((pmlmeext->cur_wireless_mode > WIRELESS_11B) &&
++		   		 (pmlmepriv->num_sta_no_short_slot_time == 0))
++			{
++				beacon_updated = _TRUE;
++				update_beacon(padapter, 0xFF, NULL, _TRUE);
++			}			
++		}
++	}
++	
++#ifdef CONFIG_80211N_HT
++
++	if (psta->flags & WLAN_STA_HT) 
++	{
++		u16 ht_capab = le16_to_cpu(psta->htpriv.ht_cap.cap_info);
++			
++		DBG_871X("HT: STA " MAC_FMT " HT Capabilities "
++			   "Info: 0x%04x\n", MAC_ARG(psta->hwaddr), ht_capab);
++
++		if (psta->no_ht_set) {
++			psta->no_ht_set = 0;
++			pmlmepriv->num_sta_no_ht--;
++		}
++		
++		if ((ht_capab & IEEE80211_HT_CAP_GRN_FLD) == 0) {
++			if (!psta->no_ht_gf_set) {
++				psta->no_ht_gf_set = 1;
++				pmlmepriv->num_sta_ht_no_gf++;
++			}
++			DBG_871X("%s STA " MAC_FMT " - no "
++				   "greenfield, num of non-gf stations %d\n",
++				   __FUNCTION__, MAC_ARG(psta->hwaddr),
++				   pmlmepriv->num_sta_ht_no_gf);
++		}
++		
++		if ((ht_capab & IEEE80211_HT_CAP_SUP_WIDTH) == 0) {
++			if (!psta->ht_20mhz_set) {
++				psta->ht_20mhz_set = 1;
++				pmlmepriv->num_sta_ht_20mhz++;
++			}
++			DBG_871X("%s STA " MAC_FMT " - 20 MHz HT, "
++				   "num of 20MHz HT STAs %d\n",
++				   __FUNCTION__, MAC_ARG(psta->hwaddr),
++				   pmlmepriv->num_sta_ht_20mhz);
++		}
++		
++	} 
++	else 
++	{
++		if (!psta->no_ht_set) {
++			psta->no_ht_set = 1;
++			pmlmepriv->num_sta_no_ht++;
++		}
++		if(pmlmepriv->htpriv.ht_option == _TRUE) {		
++			DBG_871X("%s STA " MAC_FMT
++				   " - no HT, num of non-HT stations %d\n",
++				   __FUNCTION__, MAC_ARG(psta->hwaddr),
++				   pmlmepriv->num_sta_no_ht);
++		}
++	}
++
++	if (rtw_ht_operation_update(padapter) > 0)
++	{
++		update_beacon(padapter, _HT_CAPABILITY_IE_, NULL, _FALSE);
++		update_beacon(padapter, _HT_ADD_INFO_IE_, NULL, _TRUE);
++	}	
++	
++#endif /* CONFIG_80211N_HT */
++
++	//update associcated stations cap.
++	associated_clients_update(padapter,  beacon_updated);
++
++	DBG_871X("%s, updated=%d\n", __func__, beacon_updated);
++
++}
++
++u8 bss_cap_update_on_sta_leave(_adapter *padapter, struct sta_info *psta)
++{
++	u8 beacon_updated = _FALSE;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++
++	if(!psta)
++		return beacon_updated;
++
++	if (psta->no_short_preamble_set) {
++		psta->no_short_preamble_set = 0;
++		pmlmepriv->num_sta_no_short_preamble--;
++		if (pmlmeext->cur_wireless_mode > WIRELESS_11B
++		    && pmlmepriv->num_sta_no_short_preamble == 0)
++		{
++			beacon_updated = _TRUE;
++			update_beacon(padapter, 0xFF, NULL, _TRUE);
++		}	
++	}	
++
++	if (psta->nonerp_set) {
++		psta->nonerp_set = 0;		
++		pmlmepriv->num_sta_non_erp--;
++		if (pmlmepriv->num_sta_non_erp == 0)
++		{
++			beacon_updated = _TRUE;
++			update_beacon(padapter, _ERPINFO_IE_, NULL, _TRUE);
++		}	
++	}
++
++	if (psta->no_short_slot_time_set) {
++		psta->no_short_slot_time_set = 0;
++		pmlmepriv->num_sta_no_short_slot_time--;
++		if (pmlmeext->cur_wireless_mode > WIRELESS_11B
++		    && pmlmepriv->num_sta_no_short_slot_time == 0)
++		{
++			beacon_updated = _TRUE;
++			update_beacon(padapter, 0xFF, NULL, _TRUE);
++		}	
++	}
++	
++#ifdef CONFIG_80211N_HT
++
++	if (psta->no_ht_gf_set) {
++		psta->no_ht_gf_set = 0;
++		pmlmepriv->num_sta_ht_no_gf--;
++	}
++
++	if (psta->no_ht_set) {
++		psta->no_ht_set = 0;
++		pmlmepriv->num_sta_no_ht--;
++	}
++
++	if (psta->ht_20mhz_set) {
++		psta->ht_20mhz_set = 0;
++		pmlmepriv->num_sta_ht_20mhz--;
++	}
++
++	if (rtw_ht_operation_update(padapter) > 0)
++	{
++		update_beacon(padapter, _HT_CAPABILITY_IE_, NULL, _FALSE);
++		update_beacon(padapter, _HT_ADD_INFO_IE_, NULL, _TRUE);
++	}
++	
++#endif /* CONFIG_80211N_HT */
++
++	//update associcated stations cap.
++	//associated_clients_update(padapter,  beacon_updated); //move it to avoid deadlock
++
++	DBG_871X("%s, updated=%d\n", __func__, beacon_updated);
++
++	return beacon_updated;
++
++}
++
++u8 ap_free_sta(_adapter *padapter, struct sta_info *psta, bool active, u16 reason)
++{
++	_irqL irqL;
++	u8 beacon_updated = _FALSE;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	if(!psta)
++		return beacon_updated;
++
++	if (active == _TRUE)
++	{
++#ifdef CONFIG_80211N_HT
++		//tear down Rx AMPDU
++		send_delba(padapter, 0, psta->hwaddr);// recipient
++	
++		//tear down TX AMPDU
++		send_delba(padapter, 1, psta->hwaddr);// // originator
++		
++#endif //CONFIG_80211N_HT
++
++		issue_deauth(padapter, psta->hwaddr, reason);
++	}
++
++	psta->htpriv.agg_enable_bitmap = 0x0;//reset
++	psta->htpriv.candidate_tid_bitmap = 0x0;//reset
++
++
++	//report_del_sta_event(padapter, psta->hwaddr, reason);
++
++	//clear cam entry / key
++	//clear_cam_entry(padapter, (psta->mac_id + 3));
++	rtw_clearstakey_cmd(padapter, (u8*)psta, (u8)(psta->mac_id + 3), _TRUE);
++
++
++	_enter_critical_bh(&psta->lock, &irqL);
++	psta->state &= ~_FW_LINKED;
++	_exit_critical_bh(&psta->lock, &irqL);
++
++	#ifdef CONFIG_IOCTL_CFG80211
++	if (1) {
++		#ifdef COMPAT_KERNEL_RELEASE
++		rtw_cfg80211_indicate_sta_disassoc(padapter, psta->hwaddr, reason);
++		#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) && !defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++		rtw_cfg80211_indicate_sta_disassoc(padapter, psta->hwaddr, reason);
++		#else //(LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) && !defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++		/* will call rtw_cfg80211_indicate_sta_disassoc() in cmd_thread for old API context */
++		#endif //(LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) && !defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++	} else
++	#endif //CONFIG_IOCTL_CFG80211
++	{
++		rtw_indicate_sta_disassoc_event(padapter, psta);
++	}
++
++	report_del_sta_event(padapter, psta->hwaddr, reason);
++
++	beacon_updated = bss_cap_update_on_sta_leave(padapter, psta);
++
++	_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);					
++	rtw_free_stainfo(padapter, psta);
++	_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);
++	
++
++	return beacon_updated;
++
++}
++
++int rtw_ap_inform_ch_switch(_adapter *padapter, u8 new_ch, u8 ch_offset)
++{
++	_irqL irqL;
++	_list	*phead, *plist;
++	int ret=0;	
++	struct sta_info *psta = NULL;	
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 bc_addr[ETH_ALEN] = {0xff,0xff,0xff,0xff,0xff,0xff};
++
++	if((pmlmeinfo->state&0x03) != WIFI_FW_AP_STATE)
++		return ret;
++
++	DBG_871X(FUNC_NDEV_FMT" with ch:%u, offset:%u\n",
++		FUNC_NDEV_ARG(padapter->pnetdev), new_ch, ch_offset);
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++	
++	/* for each sta in asoc_queue */
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)	
++	{		
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		plist = get_next(plist);
++
++		issue_action_spct_ch_switch(padapter, psta->hwaddr, new_ch, ch_offset);
++		psta->expire_to = ((pstapriv->expire_to * 2) > 5) ? 5 : (pstapriv->expire_to * 2);
++	}
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	issue_action_spct_ch_switch(padapter, bc_addr, new_ch, ch_offset);
++
++	return ret;
++}
++
++int rtw_sta_flush(_adapter *padapter)
++{
++	_irqL irqL;
++	_list	*phead, *plist;
++	int ret=0;	
++	struct sta_info *psta = NULL;	
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 bc_addr[ETH_ALEN] = {0xff,0xff,0xff,0xff,0xff,0xff};
++	u8 chk_alive_num = 0;
++	char chk_alive_list[NUM_STA];
++	int i;
++
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(padapter->pnetdev));
++
++	if((pmlmeinfo->state&0x03) != WIFI_FW_AP_STATE)
++		return ret;
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		int stainfo_offset;
++		
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		plist = get_next(plist);
++
++		/* Remove sta from asoc_list */
++		rtw_list_delete(&psta->asoc_list);
++		pstapriv->asoc_list_cnt--;
++
++		/* Keep sta for ap_free_sta() beyond this asoc_list loop */
++		stainfo_offset = rtw_stainfo_offset(pstapriv, psta);
++		if (stainfo_offset_valid(stainfo_offset)) {
++			chk_alive_list[chk_alive_num++] = stainfo_offset;
++		}
++	}
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++
++	/* For each sta in chk_alive_list, call ap_free_sta */
++	for (i = 0; i < chk_alive_num; i++) {
++		psta = rtw_get_stainfo_by_offset(pstapriv, chk_alive_list[i]);
++		ap_free_sta(padapter, psta, _TRUE, WLAN_REASON_DEAUTH_LEAVING);
++	}
++
++	issue_deauth(padapter, bc_addr, WLAN_REASON_DEAUTH_LEAVING);
++
++	associated_clients_update(padapter, _TRUE);
++
++	return ret;
++
++}
++
++/* called > TSR LEVEL for USB or SDIO Interface*/
++void sta_info_update(_adapter *padapter, struct sta_info *psta)
++{	
++	int flags = psta->flags;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	
++				
++	//update wmm cap.
++	if(WLAN_STA_WME&flags)
++		psta->qos_option = 1;
++	else
++		psta->qos_option = 0;
++
++	if(pmlmepriv->qospriv.qos_option == 0)	
++		psta->qos_option = 0;
++
++		
++#ifdef CONFIG_80211N_HT		
++	//update 802.11n ht cap.
++	if(WLAN_STA_HT&flags)
++	{
++		psta->htpriv.ht_option = _TRUE;
++		psta->qos_option = 1;	
++	}
++	else		
++	{
++		psta->htpriv.ht_option = _FALSE;
++	}
++		
++	if(pmlmepriv->htpriv.ht_option == _FALSE)	
++		psta->htpriv.ht_option = _FALSE;
++#endif		
++
++
++	update_sta_info_apmode(padapter, psta);
++		
++
++}
++
++/* called >= TSR LEVEL for USB or SDIO Interface*/
++void ap_sta_info_defer_update(_adapter *padapter, struct sta_info *psta)
++{
++	if(psta->state & _FW_LINKED)
++	{	
++		//add ratid
++		add_RATid(padapter, psta);
++	}	
++}
++
++/* restore hw setting from sw data structures */
++void rtw_ap_restore_network(_adapter *padapter)
++{
++	struct mlme_priv *mlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_priv * pstapriv = &padapter->stapriv;
++	struct sta_info *psta;
++	struct security_priv* psecuritypriv=&(padapter->securitypriv);
++	_irqL irqL;
++	_list	*phead, *plist;
++	u8 chk_alive_num = 0;
++	char chk_alive_list[NUM_STA];
++	int i;
++
++	rtw_setopmode_cmd(padapter, Ndis802_11APMode);
++
++	set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++
++	start_bss_network(padapter, (u8*)&mlmepriv->cur_network.network);
++
++	if((padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_) ||
++		(padapter->securitypriv.dot11PrivacyAlgrthm == _AES_))
++	{
++		/* restore group key, WEP keys is restored in ips_leave() */
++		rtw_set_key(padapter, psecuritypriv, psecuritypriv->dot118021XGrpKeyid, 0);
++	}
++
++	/* per sta pairwise key and settings */
++	if((padapter->securitypriv.dot11PrivacyAlgrthm != _TKIP_) &&
++		(padapter->securitypriv.dot11PrivacyAlgrthm != _AES_)) {
++		return;
++	}
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		int stainfo_offset;
++
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		plist = get_next(plist);
++
++		stainfo_offset = rtw_stainfo_offset(pstapriv, psta);
++		if (stainfo_offset_valid(stainfo_offset)) {
++			chk_alive_list[chk_alive_num++] = stainfo_offset;
++		}
++	}
++
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	for (i = 0; i < chk_alive_num; i++) {
++		psta = rtw_get_stainfo_by_offset(pstapriv, chk_alive_list[i]);
++
++		if (psta == NULL) {
++			DBG_871X(FUNC_ADPT_FMT" sta_info is null\n", FUNC_ADPT_ARG(padapter));
++		} else if (psta->state &_FW_LINKED) {
++			Update_RA_Entry(padapter, psta->mac_id);
++			//pairwise key
++			rtw_setstakey_cmd(padapter, (unsigned char *)psta, _TRUE);
++		}
++	}
++
++}
++
++void start_ap_mode(_adapter *padapter)
++{
++	int i;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct wlan_acl_pool *pacl_list = &pstapriv->acl_list;
++	
++	pmlmepriv->update_bcn = _FALSE;
++	
++	//init_mlme_ap_info(padapter);
++	pmlmeext->bstart_bss = _FALSE;
++
++	pmlmepriv->num_sta_non_erp = 0;
++
++	pmlmepriv->num_sta_no_short_slot_time = 0;
++
++	pmlmepriv->num_sta_no_short_preamble = 0;
++
++	pmlmepriv->num_sta_ht_no_gf = 0;
++
++	pmlmepriv->num_sta_no_ht = 0;
++	
++	pmlmepriv->num_sta_ht_20mhz = 0;
++
++	pmlmepriv->olbc = _FALSE;
++
++	pmlmepriv->olbc_ht = _FALSE;
++	
++#ifdef CONFIG_80211N_HT
++	pmlmepriv->ht_op_mode = 0;
++#endif
++
++	for(i=0; i<NUM_STA; i++)
++		pstapriv->sta_aid[i] = NULL;
++
++	pmlmepriv->wps_beacon_ie = NULL;	
++	pmlmepriv->wps_probe_resp_ie = NULL;
++	pmlmepriv->wps_assoc_resp_ie = NULL;
++	
++	pmlmepriv->p2p_beacon_ie = NULL;
++	pmlmepriv->p2p_probe_resp_ie = NULL;
++
++	
++	//for ACL 
++	_rtw_init_listhead(&(pacl_list->acl_node_q.queue));
++	pacl_list->num = 0;
++	pacl_list->mode = 0;
++	for(i = 0; i < NUM_ACL; i++)
++	{		
++		_rtw_init_listhead(&pacl_list->aclnode[i].list);
++		pacl_list->aclnode[i].valid = _FALSE;
++	}
++
++}
++
++void stop_ap_mode(_adapter *padapter)
++{
++	_irqL irqL;
++	_list	*phead, *plist;
++	struct rtw_wlan_acl_node *paclnode;
++	struct sta_info *psta=NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;	
++	struct wlan_acl_pool *pacl_list = &pstapriv->acl_list;
++	_queue	*pacl_node_q =&pacl_list->acl_node_q;	
++
++	pmlmepriv->update_bcn = _FALSE;
++	pmlmeext->bstart_bss = _FALSE;
++	//_rtw_spinlock_free(&pmlmepriv->bcn_update_lock);
++	
++	//reset and init security priv , this can refine with rtw_reset_securitypriv
++	_rtw_memset((unsigned char *)&padapter->securitypriv, 0, sizeof (struct security_priv));
++	padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeOpen;
++	padapter->securitypriv.ndisencryptstatus = Ndis802_11WEPDisabled;
++
++	//for ACL
++	_enter_critical_bh(&(pacl_node_q->lock), &irqL);
++	phead = get_list_head(pacl_node_q);
++	plist = get_next(phead);		
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
++	{
++		paclnode = LIST_CONTAINOR(plist, struct rtw_wlan_acl_node, list);
++		plist = get_next(plist);
++
++		if(paclnode->valid == _TRUE)
++		{
++			paclnode->valid = _FALSE;
++
++			rtw_list_delete(&paclnode->list);
++				
++			pacl_list->num--;		
++		}		
++	}	
++	_exit_critical_bh(&(pacl_node_q->lock), &irqL);
++	
++	DBG_871X("%s, free acl_node_queue, num=%d\n", __func__, pacl_list->num);
++	
++	rtw_sta_flush(padapter);
++
++	//free_assoc_sta_resources	
++	rtw_free_all_stainfo(padapter);
++	
++	psta = rtw_get_bcmc_stainfo(padapter);
++	_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		
++	rtw_free_stainfo(padapter, psta);
++	_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);
++	
++	rtw_init_bcmc_stainfo(padapter);	
++
++	rtw_free_mlme_priv_ie_data(pmlmepriv);
++
++}
++
++#endif //CONFIG_NATIVEAP_MLME
++#endif //CONFIG_AP_MODE
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_br_ext.c b/drivers/net/wireless/rtl8192cu/core/rtw_br_ext.c
+new file mode 100755
+index 0000000..2f84a38
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_br_ext.c
+@@ -0,0 +1,1700 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_BR_EXT_C_
++
++#ifdef __KERNEL__
++#include <linux/if_arp.h>
++#include <net/ip.h>
++#include <net/ipx.h>
++#include <linux/atalk.h>
++#include <linux/udp.h>
++#include <linux/if_pppox.h>
++#endif
++
++#if 1	// rtw_wifi_driver
++#include <drv_conf.h>
++#include <drv_types.h>
++#include "rtw_br_ext.h"
++#else	// rtw_wifi_driver
++#include "./8192cd_cfg.h"
++
++#ifndef __KERNEL__
++#include "./sys-support.h"
++#endif
++
++#include "./8192cd.h"
++#include "./8192cd_headers.h"
++#include "./8192cd_br_ext.h"
++#include "./8192cd_debug.h"
++#endif	// rtw_wifi_driver
++
++#ifdef CL_IPV6_PASS
++#ifdef __KERNEL__
++#include <linux/ipv6.h>
++#include <linux/icmpv6.h>
++#include <net/ndisc.h>
++#include <net/checksum.h>
++#include <net/ip6_checksum.h>
++#endif
++#endif
++
++#ifdef CONFIG_BR_EXT
++
++//#define BR_EXT_DEBUG
++
++#define NAT25_IPV4		01
++#define NAT25_IPV6		02
++#define NAT25_IPX		03
++#define NAT25_APPLE		04
++#define NAT25_PPPOE		05
++
++#define RTL_RELAY_TAG_LEN (ETH_ALEN)
++#define TAG_HDR_LEN		4
++
++#define MAGIC_CODE		0x8186
++#define MAGIC_CODE_LEN	2
++#define WAIT_TIME_PPPOE	5	// waiting time for pppoe server in sec
++
++/*-----------------------------------------------------------------
++  How database records network address:
++           0    1    2    3    4    5    6    7    8    9   10
++        |----|----|----|----|----|----|----|----|----|----|----|
++  IPv4  |type|                             |      IP addr      |
++  IPX   |type|      Net addr     |          Node addr          |
++  IPX   |type|      Net addr     |Sckt addr|
++  Apple |type| Network |node|
++  PPPoE |type|   SID   |           AC MAC            |
++-----------------------------------------------------------------*/
++
++
++//Find a tag in pppoe frame and return the pointer
++static __inline__ unsigned char *__nat25_find_pppoe_tag(struct pppoe_hdr *ph, unsigned short type)
++{
++	unsigned char *cur_ptr, *start_ptr;
++	unsigned short tagLen, tagType;
++
++	start_ptr = cur_ptr = (unsigned char *)ph->tag;
++	while((cur_ptr - start_ptr) < ntohs(ph->length)) {
++		// prevent un-alignment access
++		tagType = (unsigned short)((cur_ptr[0] << 8) + cur_ptr[1]);
++		tagLen  = (unsigned short)((cur_ptr[2] << 8) + cur_ptr[3]);
++		if(tagType == type)
++			return cur_ptr;
++		cur_ptr = cur_ptr + TAG_HDR_LEN + tagLen;
++	}
++	return 0;
++}
++
++
++static __inline__ int __nat25_add_pppoe_tag(struct sk_buff *skb, struct pppoe_tag *tag)
++{
++	struct pppoe_hdr *ph = (struct pppoe_hdr *)(skb->data + ETH_HLEN);
++	int data_len;
++
++	data_len = tag->tag_len + TAG_HDR_LEN;
++	if (skb_tailroom(skb) < data_len) {
++		_DEBUG_ERR("skb_tailroom() failed in add SID tag!\n");
++		return -1;
++	}
++
++	skb_put(skb, data_len);
++	// have a room for new tag
++	memmove(((unsigned char *)ph->tag + data_len), (unsigned char *)ph->tag, ntohs(ph->length));
++	ph->length = htons(ntohs(ph->length) + data_len);
++	memcpy((unsigned char *)ph->tag, tag, data_len);
++	return data_len;
++}
++
++static int skb_pull_and_merge(struct sk_buff *skb, unsigned char *src, int len)
++{
++	int tail_len;
++	unsigned long end, tail;
++
++	if ((src+len) > skb_tail_pointer(skb) || skb->len < len)
++		return -1;
++
++	tail = (unsigned long)skb_tail_pointer(skb);
++	end = (unsigned long)src+len;
++	if (tail < end)
++		return -1;
++
++	tail_len = (int)(tail-end);
++	if (tail_len > 0)
++		memmove(src, src+len, tail_len);
++
++	skb_trim(skb, skb->len-len);
++	return 0;
++}
++
++static __inline__ unsigned long __nat25_timeout(_adapter *priv)
++{
++	unsigned long timeout;
++
++	timeout = jiffies - NAT25_AGEING_TIME*HZ;
++
++	return timeout;
++}
++
++
++static __inline__ int  __nat25_has_expired(_adapter *priv,
++				struct nat25_network_db_entry *fdb)
++{
++	if(time_before_eq(fdb->ageing_timer, __nat25_timeout(priv)))
++		return 1;
++
++	return 0;
++}
++
++
++static __inline__ void __nat25_generate_ipv4_network_addr(unsigned char *networkAddr,
++				unsigned int *ipAddr)
++{
++	memset(networkAddr, 0, MAX_NETWORK_ADDR_LEN);
++
++	networkAddr[0] = NAT25_IPV4;
++	memcpy(networkAddr+7, (unsigned char *)ipAddr, 4);
++}
++
++
++static __inline__ void __nat25_generate_ipx_network_addr_with_node(unsigned char *networkAddr,
++				unsigned int *ipxNetAddr, unsigned char *ipxNodeAddr)
++{
++	memset(networkAddr, 0, MAX_NETWORK_ADDR_LEN);
++
++	networkAddr[0] = NAT25_IPX;
++	memcpy(networkAddr+1, (unsigned char *)ipxNetAddr, 4);
++	memcpy(networkAddr+5, ipxNodeAddr, 6);
++}
++
++
++static __inline__ void __nat25_generate_ipx_network_addr_with_socket(unsigned char *networkAddr,
++				unsigned int *ipxNetAddr, unsigned short *ipxSocketAddr)
++{
++	memset(networkAddr, 0, MAX_NETWORK_ADDR_LEN);
++
++	networkAddr[0] = NAT25_IPX;
++	memcpy(networkAddr+1, (unsigned char *)ipxNetAddr, 4);
++	memcpy(networkAddr+5, (unsigned char *)ipxSocketAddr, 2);
++}
++
++
++static __inline__ void __nat25_generate_apple_network_addr(unsigned char *networkAddr,
++				unsigned short *network, unsigned char *node)
++{
++	memset(networkAddr, 0, MAX_NETWORK_ADDR_LEN);
++
++	networkAddr[0] = NAT25_APPLE;
++	memcpy(networkAddr+1, (unsigned char *)network, 2);
++	networkAddr[3] = *node;
++}
++
++
++static __inline__ void __nat25_generate_pppoe_network_addr(unsigned char *networkAddr,
++				unsigned char *ac_mac, unsigned short *sid)
++{
++	memset(networkAddr, 0, MAX_NETWORK_ADDR_LEN);
++
++	networkAddr[0] = NAT25_PPPOE;
++	memcpy(networkAddr+1, (unsigned char *)sid, 2);
++	memcpy(networkAddr+3, (unsigned char *)ac_mac, 6);
++}
++
++
++#ifdef CL_IPV6_PASS
++static  void __nat25_generate_ipv6_network_addr(unsigned char *networkAddr,
++				unsigned int *ipAddr)
++{
++	memset(networkAddr, 0, MAX_NETWORK_ADDR_LEN);
++
++	networkAddr[0] = NAT25_IPV6;
++	memcpy(networkAddr+1, (unsigned char *)ipAddr, 16);
++}
++
++
++static unsigned char *scan_tlv(unsigned char *data, int len, unsigned char tag, unsigned char len8b)
++{
++	while (len > 0) {
++		if (*data == tag && *(data+1) == len8b && len >= len8b*8)
++			return data+2;	
++		
++		len -= (*(data+1))*8;		
++		data += (*(data+1))*8;		
++	}
++	return NULL;
++}
++
++
++static int update_nd_link_layer_addr(unsigned char *data, int len, unsigned char *replace_mac)
++{
++	struct icmp6hdr *icmphdr = (struct icmp6hdr *)data;
++	unsigned char *mac;
++	
++	if (icmphdr->icmp6_type == NDISC_ROUTER_SOLICITATION) { 
++		if (len >= 8) {
++			mac = scan_tlv(&data[8], len-8, 1, 1);
++			if (mac) {
++				_DEBUG_INFO("Router Solicitation, replace MAC From: %02x:%02x:%02x:%02x:%02x:%02x, To: %02x:%02x:%02x:%02x:%02x:%02x\n",
++					mac[0],mac[1],mac[2],mac[3],mac[4],mac[5],					
++					replace_mac[0],replace_mac[1],replace_mac[2],replace_mac[3],replace_mac[4],replace_mac[5]);
++				memcpy(mac, replace_mac, 6);	
++				return 1;				
++			}
++		}
++	}
++	else if (icmphdr->icmp6_type == NDISC_ROUTER_ADVERTISEMENT) {
++		if (len >= 16) {
++			mac = scan_tlv(&data[16], len-16, 1, 1);
++			if (mac) {
++				_DEBUG_INFO("Router Advertisement, replace MAC From: %02x:%02x:%02x:%02x:%02x:%02x, To: %02x:%02x:%02x:%02x:%02x:%02x\n",
++					mac[0],mac[1],mac[2],mac[3],mac[4],mac[5],					
++					replace_mac[0],replace_mac[1],replace_mac[2],replace_mac[3],replace_mac[4],replace_mac[5]);
++				memcpy(mac, replace_mac, 6);			
++				return 1;				
++			}
++		}		
++	}
++	else if (icmphdr->icmp6_type == NDISC_NEIGHBOUR_SOLICITATION) {
++		if (len >= 24) {
++			mac = scan_tlv(&data[24], len-24, 1, 1);
++			if (mac) {		
++				_DEBUG_INFO("Neighbor Solicitation, replace MAC From: %02x:%02x:%02x:%02x:%02x:%02x, To: %02x:%02x:%02x:%02x:%02x:%02x\n",
++					mac[0],mac[1],mac[2],mac[3],mac[4],mac[5],					
++					replace_mac[0],replace_mac[1],replace_mac[2],replace_mac[3],replace_mac[4],replace_mac[5]);
++				memcpy(mac, replace_mac, 6);	
++				return 1;								
++			}
++		}		
++	}
++	else if (icmphdr->icmp6_type == NDISC_NEIGHBOUR_ADVERTISEMENT) {
++		if (len >= 24) {
++			mac = scan_tlv(&data[24], len-24, 2, 1);
++			if (mac) {
++				_DEBUG_INFO("Neighbor Advertisement, replace MAC From: %02x:%02x:%02x:%02x:%02x:%02x, To: %02x:%02x:%02x:%02x:%02x:%02x\n",
++					mac[0],mac[1],mac[2],mac[3],mac[4],mac[5],					
++					replace_mac[0],replace_mac[1],replace_mac[2],replace_mac[3],replace_mac[4],replace_mac[5]);
++				memcpy(mac, replace_mac, 6);		
++				return 1;				
++			}
++		}		
++	}
++	else if (icmphdr->icmp6_type == NDISC_REDIRECT) {
++		if (len >= 40) {
++			mac = scan_tlv(&data[40], len-40, 2, 1);
++			if (mac) {				
++				_DEBUG_INFO("Redirect,  replace MAC From: %02x:%02x:%02x:%02x:%02x:%02x, To: %02x:%02x:%02x:%02x:%02x:%02x\n",
++					mac[0],mac[1],mac[2],mac[3],mac[4],mac[5],					
++					replace_mac[0],replace_mac[1],replace_mac[2],replace_mac[3],replace_mac[4],replace_mac[5]);
++				memcpy(mac, replace_mac, 6);	
++				return 1;				
++			}
++		}		
++	}	
++	return 0;
++}
++
++
++static void convert_ipv6_mac_to_mc(struct sk_buff *skb)
++{	
++	struct ipv6hdr *iph = (struct ipv6hdr *)(skb->data + ETH_HLEN);
++	unsigned char *dst_mac = skb->data;
++
++	//dst_mac[0] = 0xff;
++	//dst_mac[1] = 0xff;
++	/*modified by qinjunjie,ipv6 multicast address ix 0x33-33-xx-xx-xx-xx*/
++	dst_mac[0] = 0x33;
++	dst_mac[1] = 0x33;
++	memcpy(&dst_mac[2], &iph->daddr.s6_addr32[3], 4);
++	#if defined(__LINUX_2_6__) 
++	/*modified by qinjunjie,warning:should not remove next line*/
++	skb->pkt_type = PACKET_MULTICAST;
++	#endif
++}
++#endif /* CL_IPV6_PASS */
++
++
++static __inline__ int __nat25_network_hash(unsigned char *networkAddr)
++{
++	if(networkAddr[0] == NAT25_IPV4)
++	{
++		unsigned long x;
++
++		x = networkAddr[7] ^ networkAddr[8] ^ networkAddr[9] ^ networkAddr[10];
++
++		return x & (NAT25_HASH_SIZE - 1);
++	}
++	else if(networkAddr[0] == NAT25_IPX)
++	{
++		unsigned long x;
++
++		x = networkAddr[1] ^ networkAddr[2] ^ networkAddr[3] ^ networkAddr[4] ^ networkAddr[5] ^
++			networkAddr[6] ^ networkAddr[7] ^ networkAddr[8] ^ networkAddr[9] ^ networkAddr[10];
++
++		return x & (NAT25_HASH_SIZE - 1);
++	}
++	else if(networkAddr[0] == NAT25_APPLE)
++	{
++		unsigned long x;
++
++		x = networkAddr[1] ^ networkAddr[2] ^ networkAddr[3];
++
++		return x & (NAT25_HASH_SIZE - 1);
++	}
++	else if(networkAddr[0] == NAT25_PPPOE)
++	{
++		unsigned long x;
++
++		x = networkAddr[0] ^ networkAddr[1] ^ networkAddr[2] ^ networkAddr[3] ^ networkAddr[4] ^ networkAddr[5] ^ networkAddr[6] ^ networkAddr[7] ^ networkAddr[8];
++
++		return x & (NAT25_HASH_SIZE - 1);
++	}
++#ifdef CL_IPV6_PASS
++	else if(networkAddr[0] == NAT25_IPV6)
++	{
++		unsigned long x;
++
++		x = networkAddr[1] ^ networkAddr[2] ^ networkAddr[3] ^ networkAddr[4] ^ networkAddr[5] ^
++			networkAddr[6] ^ networkAddr[7] ^ networkAddr[8] ^ networkAddr[9] ^ networkAddr[10] ^
++			networkAddr[11] ^ networkAddr[12] ^ networkAddr[13] ^ networkAddr[14] ^ networkAddr[15] ^
++			networkAddr[16];
++	
++		return x & (NAT25_HASH_SIZE - 1);
++	}
++#endif	
++	else
++	{
++		unsigned long x = 0;
++		int i;
++
++		for (i=0; i<MAX_NETWORK_ADDR_LEN; i++)
++			x ^= networkAddr[i];
++
++		return x & (NAT25_HASH_SIZE - 1);
++	}
++}
++
++
++static __inline__ void __network_hash_link(_adapter *priv,
++				struct nat25_network_db_entry *ent, int hash)
++{
++	// Caller must _enter_critical_bh already!
++	//_irqL irqL;
++	//_enter_critical_bh(&priv->br_ext_lock, &irqL);
++
++	ent->next_hash = priv->nethash[hash];
++	if(ent->next_hash != NULL)
++		ent->next_hash->pprev_hash = &ent->next_hash;
++	priv->nethash[hash] = ent;
++	ent->pprev_hash = &priv->nethash[hash];
++
++	//_exit_critical_bh(&priv->br_ext_lock, &irqL);
++}
++
++
++static __inline__ void __network_hash_unlink(struct nat25_network_db_entry *ent)
++{
++	// Caller must _enter_critical_bh already!
++	//_irqL irqL;
++	//_enter_critical_bh(&priv->br_ext_lock, &irqL);
++
++	*(ent->pprev_hash) = ent->next_hash;
++	if(ent->next_hash != NULL)
++		ent->next_hash->pprev_hash = ent->pprev_hash;
++	ent->next_hash = NULL;
++	ent->pprev_hash = NULL;
++
++	//_exit_critical_bh(&priv->br_ext_lock, &irqL);
++}
++
++
++static int __nat25_db_network_lookup_and_replace(_adapter *priv,
++				struct sk_buff *skb, unsigned char *networkAddr)
++{
++	struct nat25_network_db_entry *db;
++	_irqL irqL;
++	_enter_critical_bh(&priv->br_ext_lock, &irqL);
++
++	db = priv->nethash[__nat25_network_hash(networkAddr)];
++	while (db != NULL)
++	{
++		if(!memcmp(db->networkAddr, networkAddr, MAX_NETWORK_ADDR_LEN))
++		{
++			if(!__nat25_has_expired(priv, db))
++			{
++				// replace the destination mac address
++				memcpy(skb->data, db->macAddr, ETH_ALEN);
++				atomic_inc(&db->use_count);
++
++#ifdef CL_IPV6_PASS
++				DEBUG_INFO("NAT25: Lookup M:%02x%02x%02x%02x%02x%02x N:%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x"	
++							"%02x%02x%02x%02x%02x%02x\n",				
++					db->macAddr[0],
++					db->macAddr[1],
++					db->macAddr[2],
++					db->macAddr[3],
++					db->macAddr[4],
++					db->macAddr[5],
++					db->networkAddr[0],
++					db->networkAddr[1],
++					db->networkAddr[2],
++					db->networkAddr[3],
++					db->networkAddr[4],
++					db->networkAddr[5],
++					db->networkAddr[6],
++					db->networkAddr[7],
++					db->networkAddr[8],
++					db->networkAddr[9],
++					db->networkAddr[10],
++					db->networkAddr[11],
++					db->networkAddr[12],
++					db->networkAddr[13],
++					db->networkAddr[14],
++					db->networkAddr[15],
++					db->networkAddr[16]);
++#else				
++				DEBUG_INFO("NAT25: Lookup M:%02x%02x%02x%02x%02x%02x N:%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x\n",
++					db->macAddr[0],
++					db->macAddr[1],
++					db->macAddr[2],
++					db->macAddr[3],
++					db->macAddr[4],
++					db->macAddr[5],
++					db->networkAddr[0],
++					db->networkAddr[1],
++					db->networkAddr[2],
++					db->networkAddr[3],
++					db->networkAddr[4],
++					db->networkAddr[5],
++					db->networkAddr[6],
++					db->networkAddr[7],
++					db->networkAddr[8],
++					db->networkAddr[9],
++					db->networkAddr[10]);
++#endif
++			}
++			_exit_critical_bh(&priv->br_ext_lock, &irqL);
++			return 1;
++		}
++
++		db = db->next_hash;
++	}
++
++	_exit_critical_bh(&priv->br_ext_lock, &irqL);
++	return 0;
++}
++
++
++static void __nat25_db_network_insert(_adapter *priv,
++				unsigned char *macAddr, unsigned char *networkAddr)
++{
++	struct nat25_network_db_entry *db;
++	int hash;
++	_irqL irqL;
++	_enter_critical_bh(&priv->br_ext_lock, &irqL);
++
++	hash = __nat25_network_hash(networkAddr);
++	db = priv->nethash[hash];
++	while (db != NULL)
++	{
++		if(!memcmp(db->networkAddr, networkAddr, MAX_NETWORK_ADDR_LEN))
++		{
++			memcpy(db->macAddr, macAddr, ETH_ALEN);
++			db->ageing_timer = jiffies;
++			_exit_critical_bh(&priv->br_ext_lock, &irqL);
++			return;
++		}
++
++		db = db->next_hash;
++	}
++
++	db = (struct nat25_network_db_entry *) rtw_malloc(sizeof(*db));
++	if(db == NULL) {
++		_exit_critical_bh(&priv->br_ext_lock, &irqL);
++		return;
++	}
++
++	memcpy(db->networkAddr, networkAddr, MAX_NETWORK_ADDR_LEN);
++	memcpy(db->macAddr, macAddr, ETH_ALEN);
++	atomic_set(&db->use_count, 1);
++	db->ageing_timer = jiffies;
++
++	__network_hash_link(priv, db, hash);
++
++	_exit_critical_bh(&priv->br_ext_lock, &irqL);
++}
++
++
++static void __nat25_db_print(_adapter *priv)
++{
++	_irqL irqL;
++	_enter_critical_bh(&priv->br_ext_lock, &irqL);
++
++#ifdef BR_EXT_DEBUG
++	static int counter = 0;
++	int i, j;
++	struct nat25_network_db_entry *db;
++
++	counter++;
++	if((counter % 16) != 0)
++		return;
++
++	for(i=0, j=0; i<NAT25_HASH_SIZE; i++)
++	{
++		db = priv->nethash[i];
++
++		while (db != NULL)
++		{
++#ifdef CL_IPV6_PASS
++			panic_printk("NAT25: DB(%d) H(%02d) C(%d) M:%02x%02x%02x%02x%02x%02x N:%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x"
++					"%02x%02x%02x%02x%02x%02x\n",
++				j,
++				i,
++				atomic_read(&db->use_count),
++				db->macAddr[0],
++				db->macAddr[1],
++				db->macAddr[2],
++				db->macAddr[3],
++				db->macAddr[4],
++				db->macAddr[5],
++				db->networkAddr[0],
++				db->networkAddr[1],
++				db->networkAddr[2],
++				db->networkAddr[3],
++				db->networkAddr[4],
++				db->networkAddr[5],
++				db->networkAddr[6],
++				db->networkAddr[7],
++				db->networkAddr[8],
++				db->networkAddr[9],
++				db->networkAddr[10],
++				db->networkAddr[11],
++				db->networkAddr[12],
++				db->networkAddr[13],
++				db->networkAddr[14],
++				db->networkAddr[15],
++				db->networkAddr[16]);
++#else
++			panic_printk("NAT25: DB(%d) H(%02d) C(%d) M:%02x%02x%02x%02x%02x%02x N:%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x\n",
++				j,
++				i,
++				atomic_read(&db->use_count),
++				db->macAddr[0],
++				db->macAddr[1],
++				db->macAddr[2],
++				db->macAddr[3],
++				db->macAddr[4],
++				db->macAddr[5],
++				db->networkAddr[0],
++				db->networkAddr[1],
++				db->networkAddr[2],
++				db->networkAddr[3],
++				db->networkAddr[4],
++				db->networkAddr[5],
++				db->networkAddr[6],
++				db->networkAddr[7],
++				db->networkAddr[8],
++				db->networkAddr[9],
++				db->networkAddr[10]);
++#endif
++			j++;
++
++			db = db->next_hash;
++		}
++	}
++#endif
++
++	_exit_critical_bh(&priv->br_ext_lock, &irqL);
++}
++
++
++
++
++/*
++ *	NAT2.5 interface
++ */
++
++void nat25_db_cleanup(_adapter *priv)
++{
++	int i;
++	_irqL irqL;
++	_enter_critical_bh(&priv->br_ext_lock, &irqL);
++	
++	for(i=0; i<NAT25_HASH_SIZE; i++)
++	{
++		struct nat25_network_db_entry *f;
++		f = priv->nethash[i];
++		while (f != NULL) {
++			struct nat25_network_db_entry *g;
++
++			g = f->next_hash;
++			if(priv->scdb_entry == f)
++			{
++				memset(priv->scdb_mac, 0, ETH_ALEN);
++				memset(priv->scdb_ip, 0, 4);
++				priv->scdb_entry = NULL;
++			}
++			__network_hash_unlink(f);
++			rtw_mfree((u8 *) f, sizeof(struct nat25_network_db_entry));
++
++			f = g;
++		}
++	}
++
++	_exit_critical_bh(&priv->br_ext_lock, &irqL);
++}
++
++
++void nat25_db_expire(_adapter *priv)
++{
++	int i;
++	_irqL irqL;
++	_enter_critical_bh(&priv->br_ext_lock, &irqL);
++	
++	//if(!priv->ethBrExtInfo.nat25_disable)
++	{
++		for (i=0; i<NAT25_HASH_SIZE; i++)
++		{
++			struct nat25_network_db_entry *f;
++			f = priv->nethash[i];
++
++			while (f != NULL)
++			{
++				struct nat25_network_db_entry *g;
++				g = f->next_hash;
++
++				if(__nat25_has_expired(priv, f))
++				{
++					if(atomic_dec_and_test(&f->use_count))
++					{
++#ifdef BR_EXT_DEBUG
++#ifdef CL_IPV6_PASS
++						panic_printk("NAT25 Expire H(%02d) M:%02x%02x%02x%02x%02x%02x N:%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x"
++								"%02x%02x%02x%02x%02x%02x\n",
++							i,
++							f->macAddr[0],
++							f->macAddr[1],
++							f->macAddr[2],
++							f->macAddr[3],
++							f->macAddr[4],
++							f->macAddr[5],
++							f->networkAddr[0],
++							f->networkAddr[1],
++							f->networkAddr[2],
++							f->networkAddr[3],
++							f->networkAddr[4],
++							f->networkAddr[5],
++							f->networkAddr[6],
++							f->networkAddr[7],
++							f->networkAddr[8],
++							f->networkAddr[9],
++							f->networkAddr[10],
++							f->networkAddr[11],
++							f->networkAddr[12],
++							f->networkAddr[13],
++							f->networkAddr[14],
++							f->networkAddr[15],
++							f->networkAddr[16]);
++#else
++
++						panic_printk("NAT25 Expire H(%02d) M:%02x%02x%02x%02x%02x%02x N:%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x\n",
++							i,
++							f->macAddr[0],
++							f->macAddr[1],
++							f->macAddr[2],
++							f->macAddr[3],
++							f->macAddr[4],
++							f->macAddr[5],
++							f->networkAddr[0],
++							f->networkAddr[1],
++							f->networkAddr[2],
++							f->networkAddr[3],
++							f->networkAddr[4],
++							f->networkAddr[5],
++							f->networkAddr[6],
++							f->networkAddr[7],
++							f->networkAddr[8],
++							f->networkAddr[9],
++							f->networkAddr[10]);
++#endif
++#endif
++						if(priv->scdb_entry == f)
++						{
++							memset(priv->scdb_mac, 0, ETH_ALEN);
++							memset(priv->scdb_ip, 0, 4);
++							priv->scdb_entry = NULL;
++						}
++						__network_hash_unlink(f);
++						rtw_mfree((u8 *) f, sizeof(struct nat25_network_db_entry));
++					}
++				}
++
++				f = g;
++			}
++		}
++	}
++
++	_exit_critical_bh(&priv->br_ext_lock, &irqL);
++}
++
++
++#ifdef SUPPORT_TX_MCAST2UNI
++static int checkIPMcAndReplace(_adapter *priv, struct sk_buff *skb, unsigned int *dst_ip)
++{
++	struct stat_info	*pstat;
++	struct list_head	*phead, *plist;
++	int i;
++
++	phead = &priv->asoc_list;
++	plist = phead->next;
++
++	while (plist != phead) {
++		pstat = list_entry(plist, struct stat_info, asoc_list);
++		plist = plist->next;
++
++		if (pstat->ipmc_num == 0)
++			continue;
++
++		for (i=0; i<MAX_IP_MC_ENTRY; i++) {
++			if (pstat->ipmc[i].used && !memcmp(&pstat->ipmc[i].mcmac[3], ((unsigned char *)dst_ip)+1, 3)) {
++				memcpy(skb->data, pstat->ipmc[i].mcmac, ETH_ALEN);
++				return 1;
++			}
++		}
++	}
++	return 0;
++}
++#endif
++
++int nat25_db_handle(_adapter *priv, struct sk_buff *skb, int method)
++{
++	unsigned short protocol;
++	unsigned char networkAddr[MAX_NETWORK_ADDR_LEN];
++
++	if(skb == NULL)
++		return -1;
++
++	if((method <= NAT25_MIN) || (method >= NAT25_MAX))
++		return -1;
++
++	protocol = *((unsigned short *)(skb->data + 2 * ETH_ALEN));
++
++	/*---------------------------------------------------*/
++	/*                 Handle IP frame                   */
++	/*---------------------------------------------------*/
++	if(protocol == __constant_htons(ETH_P_IP))
++	{
++		struct iphdr* iph = (struct iphdr *)(skb->data + ETH_HLEN);
++
++		if(((unsigned char*)(iph) + (iph->ihl<<2)) >= (skb->data + ETH_HLEN + skb->len))
++		{
++			DEBUG_WARN("NAT25: malformed IP packet !\n");
++			return -1;
++		}
++
++		switch(method)
++		{
++			case NAT25_CHECK:
++				return -1;
++
++			case NAT25_INSERT:
++				{
++					//some muticast with source IP is all zero, maybe other case is illegal
++					//in class A, B, C, host address is all zero or all one is illegal
++					if (iph->saddr == 0)
++						return 0;
++					DEBUG_INFO("NAT25: Insert IP, SA=%08x, DA=%08x\n", iph->saddr, iph->daddr);
++					__nat25_generate_ipv4_network_addr(networkAddr, &iph->saddr);
++					//record source IP address and , source mac address into db
++					__nat25_db_network_insert(priv, skb->data+ETH_ALEN, networkAddr);
++
++					__nat25_db_print(priv);
++				}
++				return 0;
++
++			case NAT25_LOOKUP:
++				{
++					DEBUG_INFO("NAT25: Lookup IP, SA=%08x, DA=%08x\n", iph->saddr, iph->daddr);
++#ifdef SUPPORT_TX_MCAST2UNI
++					if (priv->pshare->rf_ft_var.mc2u_disable ||
++							((((OPMODE & (WIFI_STATION_STATE|WIFI_ASOC_STATE))
++							== (WIFI_STATION_STATE|WIFI_ASOC_STATE)) &&
++							!checkIPMcAndReplace(priv, skb, &iph->daddr)) ||
++							(OPMODE & WIFI_ADHOC_STATE)))
++#endif
++					{
++						__nat25_generate_ipv4_network_addr(networkAddr, &iph->daddr);
++
++						if (!__nat25_db_network_lookup_and_replace(priv, skb, networkAddr)) {
++							if (*((unsigned char *)&iph->daddr + 3) == 0xff) {
++								// L2 is unicast but L3 is broadcast, make L2 bacome broadcast
++								DEBUG_INFO("NAT25: Set DA as boardcast\n");
++								memset(skb->data, 0xff, ETH_ALEN);
++							}
++							else {
++								// forward unknow IP packet to upper TCP/IP
++								DEBUG_INFO("NAT25: Replace DA with BR's MAC\n");
++								if ( (*(u32 *)priv->br_mac) == 0 && (*(u16 *)(priv->br_mac+4)) == 0 ) {
++									void netdev_br_init(struct net_device *netdev);
++									printk("Re-init netdev_br_init() due to br_mac==0!\n");
++									netdev_br_init(priv->pnetdev);
++								}
++								memcpy(skb->data, priv->br_mac, ETH_ALEN);
++							}
++						}
++					}
++				}
++				return 0;
++
++			default:
++				return -1;
++		}
++	}
++
++	/*---------------------------------------------------*/
++	/*                 Handle ARP frame                  */
++	/*---------------------------------------------------*/
++	else if(protocol == __constant_htons(ETH_P_ARP))
++	{
++		struct arphdr *arp = (struct arphdr *)(skb->data + ETH_HLEN);
++		unsigned char *arp_ptr = (unsigned char *)(arp + 1);
++		unsigned int *sender, *target;
++
++		if(arp->ar_pro != __constant_htons(ETH_P_IP))
++		{
++			DEBUG_WARN("NAT25: arp protocol unknown (%4x)!\n", htons(arp->ar_pro));
++			return -1;
++		}
++
++		switch(method)
++		{
++			case NAT25_CHECK:
++				return 0;	// skb_copy for all ARP frame
++
++			case NAT25_INSERT:
++				{
++					DEBUG_INFO("NAT25: Insert ARP, MAC=%02x%02x%02x%02x%02x%02x\n", arp_ptr[0],
++						arp_ptr[1], arp_ptr[2], arp_ptr[3], arp_ptr[4], arp_ptr[5]);
++
++					// change to ARP sender mac address to wlan STA address
++                                        memcpy(arp_ptr, GET_MY_HWADDR(priv), ETH_ALEN);
++
++					arp_ptr += arp->ar_hln;
++					sender = (unsigned int *)arp_ptr;
++
++					__nat25_generate_ipv4_network_addr(networkAddr, sender);
++
++					__nat25_db_network_insert(priv, skb->data+ETH_ALEN, networkAddr);
++
++					__nat25_db_print(priv);
++				}
++				return 0;
++
++			case NAT25_LOOKUP:
++				{
++					DEBUG_INFO("NAT25: Lookup ARP\n");
++
++					arp_ptr += arp->ar_hln;
++					sender = (unsigned int *)arp_ptr;
++					arp_ptr += (arp->ar_hln + arp->ar_pln);
++					target = (unsigned int *)arp_ptr;
++
++					__nat25_generate_ipv4_network_addr(networkAddr, target);
++
++					__nat25_db_network_lookup_and_replace(priv, skb, networkAddr);
++
++					// change to ARP target mac address to Lookup result
++					arp_ptr = (unsigned char *)(arp + 1);
++					arp_ptr += (arp->ar_hln + arp->ar_pln);
++					memcpy(arp_ptr, skb->data, ETH_ALEN);
++				}
++				return 0;
++
++			default:
++				return -1;
++		}
++	}
++
++	/*---------------------------------------------------*/
++	/*         Handle IPX and Apple Talk frame           */
++	/*---------------------------------------------------*/
++	else if((protocol == __constant_htons(ETH_P_IPX)) ||
++		(protocol <= __constant_htons(ETH_FRAME_LEN)))
++	{
++		unsigned char ipx_header[2] = {0xFF, 0xFF};
++		struct ipxhdr	*ipx = NULL;
++		struct elapaarp	*ea = NULL;
++		struct ddpehdr	*ddp = NULL;
++		unsigned char *framePtr = skb->data + ETH_HLEN;
++
++		if(protocol == __constant_htons(ETH_P_IPX))
++		{
++			DEBUG_INFO("NAT25: Protocol=IPX (Ethernet II)\n");
++			ipx = (struct ipxhdr *)framePtr;
++		}
++		else if(protocol <= __constant_htons(ETH_FRAME_LEN))
++		{
++			if(!memcmp(ipx_header, framePtr, 2))
++			{
++				DEBUG_INFO("NAT25: Protocol=IPX (Ethernet 802.3)\n");
++				ipx = (struct ipxhdr *)framePtr;
++			}
++			else
++			{
++				unsigned char ipx_8022_type =  0xE0;
++				unsigned char snap_8022_type = 0xAA;
++
++				if(*framePtr == snap_8022_type)
++				{
++					unsigned char ipx_snap_id[5] = {0x0, 0x0, 0x0, 0x81, 0x37};		// IPX SNAP ID
++					unsigned char aarp_snap_id[5] = {0x00, 0x00, 0x00, 0x80, 0xF3};	// Apple Talk AARP SNAP ID
++					unsigned char ddp_snap_id[5] = {0x08, 0x00, 0x07, 0x80, 0x9B};	// Apple Talk DDP SNAP ID
++
++					framePtr += 3;	// eliminate the 802.2 header
++
++					if(!memcmp(ipx_snap_id, framePtr, 5))
++					{
++						framePtr += 5;	// eliminate the SNAP header
++
++						DEBUG_INFO("NAT25: Protocol=IPX (Ethernet SNAP)\n");
++						ipx = (struct ipxhdr *)framePtr;
++					}
++					else if(!memcmp(aarp_snap_id, framePtr, 5))
++					{
++						framePtr += 5;	// eliminate the SNAP header
++
++						ea = (struct elapaarp *)framePtr;
++					}
++					else if(!memcmp(ddp_snap_id, framePtr, 5))
++					{
++						framePtr += 5;	// eliminate the SNAP header
++
++						ddp = (struct ddpehdr *)framePtr;
++					}
++					else
++					{
++						DEBUG_WARN("NAT25: Protocol=Ethernet SNAP %02x%02x%02x%02x%02x\n", framePtr[0],
++							framePtr[1], framePtr[2], framePtr[3], framePtr[4]);
++						return -1;
++					}
++				}
++				else if(*framePtr == ipx_8022_type)
++				{
++					framePtr += 3;	// eliminate the 802.2 header
++
++					if(!memcmp(ipx_header, framePtr, 2))
++					{
++						DEBUG_INFO("NAT25: Protocol=IPX (Ethernet 802.2)\n");
++						ipx = (struct ipxhdr *)framePtr;
++					}
++					else
++						return -1;
++				}
++				else
++					return -1;
++			}
++		}
++		else
++			return -1;
++
++		/*   IPX   */
++		if(ipx != NULL)
++		{
++			switch(method)
++			{
++				case NAT25_CHECK:
++					if(!memcmp(skb->data+ETH_ALEN, ipx->ipx_source.node, ETH_ALEN))
++					{
++						DEBUG_INFO("NAT25: Check IPX skb_copy\n");
++						return 0;
++					}
++					return -1;
++
++				case NAT25_INSERT:
++					{
++						DEBUG_INFO("NAT25: Insert IPX, Dest=%08x,%02x%02x%02x%02x%02x%02x,%04x Source=%08x,%02x%02x%02x%02x%02x%02x,%04x\n",
++							ipx->ipx_dest.net,
++							ipx->ipx_dest.node[0],
++							ipx->ipx_dest.node[1],
++							ipx->ipx_dest.node[2],
++							ipx->ipx_dest.node[3],
++							ipx->ipx_dest.node[4],
++							ipx->ipx_dest.node[5],
++							ipx->ipx_dest.sock,
++							ipx->ipx_source.net,
++							ipx->ipx_source.node[0],
++							ipx->ipx_source.node[1],
++							ipx->ipx_source.node[2],
++							ipx->ipx_source.node[3],
++							ipx->ipx_source.node[4],
++							ipx->ipx_source.node[5],
++							ipx->ipx_source.sock);
++
++						if(!memcmp(skb->data+ETH_ALEN, ipx->ipx_source.node, ETH_ALEN))
++						{
++							DEBUG_INFO("NAT25: Use IPX Net, and Socket as network addr\n");
++
++							__nat25_generate_ipx_network_addr_with_socket(networkAddr, &ipx->ipx_source.net, &ipx->ipx_source.sock);
++
++							// change IPX source node addr to wlan STA address
++                                                        memcpy(ipx->ipx_source.node, GET_MY_HWADDR(priv), ETH_ALEN);
++						}
++						else
++						{
++							__nat25_generate_ipx_network_addr_with_node(networkAddr, &ipx->ipx_source.net, ipx->ipx_source.node);
++						}
++
++						__nat25_db_network_insert(priv, skb->data+ETH_ALEN, networkAddr);
++
++						__nat25_db_print(priv);
++					}
++					return 0;
++
++				case NAT25_LOOKUP:
++					{
++                                                if(!memcmp(GET_MY_HWADDR(priv), ipx->ipx_dest.node, ETH_ALEN))
++						{
++							DEBUG_INFO("NAT25: Lookup IPX, Modify Destination IPX Node addr\n");
++
++							__nat25_generate_ipx_network_addr_with_socket(networkAddr, &ipx->ipx_dest.net, &ipx->ipx_dest.sock);
++
++							__nat25_db_network_lookup_and_replace(priv, skb, networkAddr);
++
++							// replace IPX destination node addr with Lookup destination MAC addr
++							memcpy(ipx->ipx_dest.node, skb->data, ETH_ALEN);
++						}
++						else
++						{
++							__nat25_generate_ipx_network_addr_with_node(networkAddr, &ipx->ipx_dest.net, ipx->ipx_dest.node);
++
++							__nat25_db_network_lookup_and_replace(priv, skb, networkAddr);
++						}
++					}
++					return 0;
++
++				default:
++					return -1;
++			}
++		}
++
++		/*   AARP   */
++		else if(ea != NULL)
++		{
++			/* Sanity check fields. */
++			if(ea->hw_len != ETH_ALEN || ea->pa_len != AARP_PA_ALEN)
++			{
++				DEBUG_WARN("NAT25: Appletalk AARP Sanity check fail!\n");
++				return -1;
++			}
++
++			switch(method)
++			{
++				case NAT25_CHECK:
++					return 0;
++
++				case NAT25_INSERT:
++					{
++						// change to AARP source mac address to wlan STA address
++                                                memcpy(ea->hw_src, GET_MY_HWADDR(priv), ETH_ALEN);
++
++						DEBUG_INFO("NAT25: Insert AARP, Source=%d,%d Destination=%d,%d\n",
++							ea->pa_src_net,
++							ea->pa_src_node,
++							ea->pa_dst_net,
++							ea->pa_dst_node);
++
++						__nat25_generate_apple_network_addr(networkAddr, &ea->pa_src_net, &ea->pa_src_node);
++
++						__nat25_db_network_insert(priv, skb->data+ETH_ALEN, networkAddr);
++
++						__nat25_db_print(priv);
++					}
++					return 0;
++
++				case NAT25_LOOKUP:
++					{
++						DEBUG_INFO("NAT25: Lookup AARP, Source=%d,%d Destination=%d,%d\n",
++							ea->pa_src_net,
++							ea->pa_src_node,
++							ea->pa_dst_net,
++							ea->pa_dst_node);
++
++						__nat25_generate_apple_network_addr(networkAddr, &ea->pa_dst_net, &ea->pa_dst_node);
++
++						__nat25_db_network_lookup_and_replace(priv, skb, networkAddr);
++
++						// change to AARP destination mac address to Lookup result
++						memcpy(ea->hw_dst, skb->data, ETH_ALEN);
++					}
++					return 0;
++
++				default:
++					return -1;
++			}
++		}
++
++		/*   DDP   */
++		else if(ddp != NULL)
++		{
++			switch(method)
++			{
++				case NAT25_CHECK:
++					return -1;
++
++				case NAT25_INSERT:
++					{
++						DEBUG_INFO("NAT25: Insert DDP, Source=%d,%d Destination=%d,%d\n",
++							ddp->deh_snet,
++							ddp->deh_snode,
++							ddp->deh_dnet,
++							ddp->deh_dnode);
++
++						__nat25_generate_apple_network_addr(networkAddr, &ddp->deh_snet, &ddp->deh_snode);
++
++						__nat25_db_network_insert(priv, skb->data+ETH_ALEN, networkAddr);
++
++						__nat25_db_print(priv);
++					}
++					return 0;
++
++				case NAT25_LOOKUP:
++					{
++						DEBUG_INFO("NAT25: Lookup DDP, Source=%d,%d Destination=%d,%d\n",
++							ddp->deh_snet,
++							ddp->deh_snode,
++							ddp->deh_dnet,
++							ddp->deh_dnode);
++
++						__nat25_generate_apple_network_addr(networkAddr, &ddp->deh_dnet, &ddp->deh_dnode);
++
++						__nat25_db_network_lookup_and_replace(priv, skb, networkAddr);
++					}
++					return 0;
++
++				default:
++					return -1;
++			}
++		}
++
++		return -1;
++	}
++
++	/*---------------------------------------------------*/
++	/*                Handle PPPoE frame                 */
++	/*---------------------------------------------------*/
++	else if((protocol == __constant_htons(ETH_P_PPP_DISC)) ||
++		(protocol == __constant_htons(ETH_P_PPP_SES)))
++	{
++		struct pppoe_hdr *ph = (struct pppoe_hdr *)(skb->data + ETH_HLEN);
++		unsigned short *pMagic;
++
++		switch(method)
++		{
++			case NAT25_CHECK:
++				if (ph->sid == 0)
++					return 0;
++				return 1;
++
++			case NAT25_INSERT:
++				if(ph->sid == 0)	// Discovery phase according to tag
++				{
++					if(ph->code == PADI_CODE || ph->code == PADR_CODE)
++					{
++						if (priv->ethBrExtInfo.addPPPoETag) {
++							struct pppoe_tag *tag, *pOldTag;
++							unsigned char tag_buf[40];
++							int old_tag_len=0;
++
++							tag = (struct pppoe_tag *)tag_buf;
++							pOldTag = (struct pppoe_tag *)__nat25_find_pppoe_tag(ph, ntohs(PTT_RELAY_SID));
++							if (pOldTag) { // if SID existed, copy old value and delete it
++								old_tag_len = ntohs(pOldTag->tag_len);
++								if (old_tag_len+TAG_HDR_LEN+MAGIC_CODE_LEN+RTL_RELAY_TAG_LEN > sizeof(tag_buf)) {
++									DEBUG_ERR("SID tag length too long!\n");
++									return -1;
++								}
++
++								memcpy(tag->tag_data+MAGIC_CODE_LEN+RTL_RELAY_TAG_LEN,
++									pOldTag->tag_data, old_tag_len);
++
++								if (skb_pull_and_merge(skb, (unsigned char *)pOldTag, TAG_HDR_LEN+old_tag_len) < 0) {
++									DEBUG_ERR("call skb_pull_and_merge() failed in PADI/R packet!\n");
++									return -1;
++								}
++								ph->length = htons(ntohs(ph->length)-TAG_HDR_LEN-old_tag_len);
++							}
++
++							tag->tag_type = PTT_RELAY_SID;
++							tag->tag_len = htons(MAGIC_CODE_LEN+RTL_RELAY_TAG_LEN+old_tag_len);
++
++							// insert the magic_code+client mac in relay tag
++							pMagic = (unsigned short *)tag->tag_data;
++							*pMagic = htons(MAGIC_CODE);
++							memcpy(tag->tag_data+MAGIC_CODE_LEN, skb->data+ETH_ALEN, ETH_ALEN);
++
++							//Add relay tag
++							if(__nat25_add_pppoe_tag(skb, tag) < 0)
++								return -1;
++
++							DEBUG_INFO("NAT25: Insert PPPoE, forward %s packet\n",
++											(ph->code == PADI_CODE ? "PADI" : "PADR"));
++						}
++						else { // not add relay tag
++							if (priv->pppoe_connection_in_progress &&
++									memcmp(skb->data+ETH_ALEN, priv->pppoe_addr, ETH_ALEN))	 {
++								DEBUG_ERR("Discard PPPoE packet due to another PPPoE connection is in progress!\n");
++								return -2;
++							}
++
++							if (priv->pppoe_connection_in_progress == 0)
++								memcpy(priv->pppoe_addr, skb->data+ETH_ALEN, ETH_ALEN);
++
++							priv->pppoe_connection_in_progress = WAIT_TIME_PPPOE;
++						}
++					}
++					else
++						return -1;
++				}
++				else	// session phase
++				{
++						DEBUG_INFO("NAT25: Insert PPPoE, insert session packet to %s\n", skb->dev->name);
++
++						__nat25_generate_pppoe_network_addr(networkAddr, skb->data, &(ph->sid));
++
++						__nat25_db_network_insert(priv, skb->data+ETH_ALEN, networkAddr);
++
++						__nat25_db_print(priv);
++
++						if (!priv->ethBrExtInfo.addPPPoETag &&
++								priv->pppoe_connection_in_progress &&
++									!memcmp(skb->data+ETH_ALEN, priv->pppoe_addr, ETH_ALEN))
++							priv->pppoe_connection_in_progress = 0;
++				}
++				return 0;
++
++			case NAT25_LOOKUP:
++				if(ph->code == PADO_CODE || ph->code == PADS_CODE)
++				{
++					if (priv->ethBrExtInfo.addPPPoETag) {
++						struct pppoe_tag *tag;
++						unsigned char *ptr;
++						unsigned short tagType, tagLen;
++						int offset=0;
++
++						if((ptr = __nat25_find_pppoe_tag(ph, ntohs(PTT_RELAY_SID))) == 0) {
++							DEBUG_ERR("Fail to find PTT_RELAY_SID in FADO!\n");
++							return -1;
++						}
++
++						tag = (struct pppoe_tag *)ptr;
++						tagType = (unsigned short)((ptr[0] << 8) + ptr[1]);
++						tagLen = (unsigned short)((ptr[2] << 8) + ptr[3]);
++
++						if((tagType != ntohs(PTT_RELAY_SID)) || (tagLen < (MAGIC_CODE_LEN+RTL_RELAY_TAG_LEN))) {
++							DEBUG_ERR("Invalid PTT_RELAY_SID tag length [%d]!\n", tagLen);
++							return -1;
++						}
++
++						pMagic = (unsigned short *)tag->tag_data;
++						if (ntohs(*pMagic) != MAGIC_CODE) {
++							DEBUG_ERR("Can't find MAGIC_CODE in %s packet!\n",
++								(ph->code == PADO_CODE ? "PADO" : "PADS"));
++							return -1;
++						}
++
++						memcpy(skb->data, tag->tag_data+MAGIC_CODE_LEN, ETH_ALEN);
++
++						if (tagLen > MAGIC_CODE_LEN+RTL_RELAY_TAG_LEN)
++							offset = TAG_HDR_LEN;
++
++						if (skb_pull_and_merge(skb, ptr+offset, TAG_HDR_LEN+MAGIC_CODE_LEN+RTL_RELAY_TAG_LEN-offset) < 0) {
++							DEBUG_ERR("call skb_pull_and_merge() failed in PADO packet!\n");
++							return -1;
++						}
++						ph->length = htons(ntohs(ph->length)-(TAG_HDR_LEN+MAGIC_CODE_LEN+RTL_RELAY_TAG_LEN-offset));
++						if (offset > 0)
++							tag->tag_len = htons(tagLen-MAGIC_CODE_LEN-RTL_RELAY_TAG_LEN);
++
++						DEBUG_INFO("NAT25: Lookup PPPoE, forward %s Packet from %s\n",
++							(ph->code == PADO_CODE ? "PADO" : "PADS"),	skb->dev->name);
++					}
++					else { // not add relay tag
++						if (!priv->pppoe_connection_in_progress) {
++							DEBUG_ERR("Discard PPPoE packet due to no connection in progresss!\n");
++							return -1;
++						}
++						memcpy(skb->data, priv->pppoe_addr, ETH_ALEN);
++						priv->pppoe_connection_in_progress = WAIT_TIME_PPPOE;
++					}
++				}
++				else {
++					if(ph->sid != 0)
++					{
++						DEBUG_INFO("NAT25: Lookup PPPoE, lookup session packet from %s\n", skb->dev->name);
++						__nat25_generate_pppoe_network_addr(networkAddr, skb->data+ETH_ALEN, &(ph->sid));
++
++						__nat25_db_network_lookup_and_replace(priv, skb, networkAddr);
++
++						__nat25_db_print(priv);
++					}
++					else
++						return -1;
++
++				}
++				return 0;
++
++			default:
++				return -1;
++		}
++	}
++
++	/*---------------------------------------------------*/
++	/*                 Handle EAP frame                  */
++	/*---------------------------------------------------*/
++	else if(protocol == __constant_htons(0x888e))
++	{
++		switch(method)
++		{
++			case NAT25_CHECK:
++				return -1;
++
++			case NAT25_INSERT:
++				return 0;
++
++			case NAT25_LOOKUP:
++				return 0;
++
++			default:
++				return -1;
++		}
++	}
++
++	/*---------------------------------------------------*/
++	/*         Handle C-Media proprietary frame          */
++	/*---------------------------------------------------*/
++	else if((protocol == __constant_htons(0xe2ae)) ||
++		(protocol == __constant_htons(0xe2af)))
++	{
++		switch(method)
++		{
++			case NAT25_CHECK:
++				return -1;
++
++			case NAT25_INSERT:
++				return 0;
++
++			case NAT25_LOOKUP:
++				return 0;
++
++			default:
++				return -1;
++		}
++	}
++
++	/*---------------------------------------------------*/
++	/*         Handle IPV6 frame      							  */
++	/*---------------------------------------------------*/
++#ifdef CL_IPV6_PASS
++	else if(protocol == __constant_htons(ETH_P_IPV6))
++	{
++		struct ipv6hdr *iph = (struct ipv6hdr *)(skb->data + ETH_HLEN);
++
++		if (sizeof(*iph) >= (skb->len - ETH_HLEN))
++		{
++			DEBUG_WARN("NAT25: malformed IPv6 packet !\n");
++			return -1;
++		}
++
++		switch(method)
++		{
++			case NAT25_CHECK:
++				if (skb->data[0] & 1)
++					return 0;				
++				return -1;
++
++			case NAT25_INSERT:
++				{
++					DEBUG_INFO("NAT25: Insert IP, SA=%4x:%4x:%4x:%4x:%4x:%4x:%4x:%4x,"
++									" DA=%4x:%4x:%4x:%4x:%4x:%4x:%4x:%4x\n", 
++						iph->saddr.s6_addr16[0],iph->saddr.s6_addr16[1],iph->saddr.s6_addr16[2],iph->saddr.s6_addr16[3],
++						iph->saddr.s6_addr16[4],iph->saddr.s6_addr16[5],iph->saddr.s6_addr16[6],iph->saddr.s6_addr16[7],
++						iph->daddr.s6_addr16[0],iph->daddr.s6_addr16[1],iph->daddr.s6_addr16[2],iph->daddr.s6_addr16[3],
++						iph->daddr.s6_addr16[4],iph->daddr.s6_addr16[5],iph->daddr.s6_addr16[6],iph->daddr.s6_addr16[7]);
++
++					if (memcmp(&iph->saddr, "\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0", 16)) {
++						__nat25_generate_ipv6_network_addr(networkAddr, (unsigned int *)&iph->saddr);
++						__nat25_db_network_insert(priv, skb->data+ETH_ALEN, networkAddr);
++						__nat25_db_print(priv);
++
++						if (iph->nexthdr == IPPROTO_ICMPV6 && 
++								skb->len > (ETH_HLEN +  sizeof(*iph) + 4)) {
++							if (update_nd_link_layer_addr(skb->data + ETH_HLEN + sizeof(*iph), 
++                                                                skb->len - ETH_HLEN - sizeof(*iph), GET_MY_HWADDR(priv))) {                                                   
++								struct icmp6hdr  *hdr = (struct icmp6hdr *)(skb->data + ETH_HLEN + sizeof(*iph));
++								hdr->icmp6_cksum = 0;
++								hdr->icmp6_cksum = csum_ipv6_magic(&iph->saddr, &iph->daddr,
++												iph->payload_len,
++												IPPROTO_ICMPV6,
++												csum_partial((__u8 *)hdr, iph->payload_len, 0));
++							}
++						}						
++					}
++				}
++				return 0;
++
++			case NAT25_LOOKUP:
++				DEBUG_INFO("NAT25: Lookup IP, SA=%4x:%4x:%4x:%4x:%4x:%4x:%4x:%4x,"
++								" DA=%4x:%4x:%4x:%4x:%4x:%4x:%4x:%4x\n", 
++						iph->saddr.s6_addr16[0],iph->saddr.s6_addr16[1],iph->saddr.s6_addr16[2],iph->saddr.s6_addr16[3],
++						iph->saddr.s6_addr16[4],iph->saddr.s6_addr16[5],iph->saddr.s6_addr16[6],iph->saddr.s6_addr16[7],
++						iph->daddr.s6_addr16[0],iph->daddr.s6_addr16[1],iph->daddr.s6_addr16[2],iph->daddr.s6_addr16[3],
++						iph->daddr.s6_addr16[4],iph->daddr.s6_addr16[5],iph->daddr.s6_addr16[6],iph->daddr.s6_addr16[7]);
++			
++
++				__nat25_generate_ipv6_network_addr(networkAddr, (unsigned int *)&iph->daddr);
++				if (!__nat25_db_network_lookup_and_replace(priv, skb, networkAddr)) {
++#ifdef SUPPORT_RX_UNI2MCAST							
++					if (iph->daddr.s6_addr[0] == 0xff)
++						convert_ipv6_mac_to_mc(skb);	
++#endif											
++				}
++				return 0;
++
++			default:
++				return -1;
++		}
++	}
++#endif	// CL_IPV6_PASS
++
++	return -1;
++}
++
++
++int nat25_handle_frame(_adapter *priv, struct sk_buff *skb)
++{
++#ifdef BR_EXT_DEBUG
++	if((!priv->ethBrExtInfo.nat25_disable) && (!(skb->data[0] & 1)))
++	{
++		panic_printk("NAT25: Input Frame: DA=%02x%02x%02x%02x%02x%02x SA=%02x%02x%02x%02x%02x%02x\n",
++			skb->data[0],
++			skb->data[1],
++			skb->data[2],
++			skb->data[3],
++			skb->data[4],
++			skb->data[5],
++			skb->data[6],
++			skb->data[7],
++			skb->data[8],
++			skb->data[9],
++			skb->data[10],
++			skb->data[11]);
++	}
++#endif
++
++	if(!(skb->data[0] & 1))
++	{
++		int is_vlan_tag=0, i, retval=0;
++		unsigned short vlan_hdr=0;
++
++		if (*((unsigned short *)(skb->data+ETH_ALEN*2)) == __constant_htons(ETH_P_8021Q)) {
++			is_vlan_tag = 1;
++			vlan_hdr = *((unsigned short *)(skb->data+ETH_ALEN*2+2));
++			for (i=0; i<6; i++)
++				*((unsigned short *)(skb->data+ETH_ALEN*2+2-i*2)) = *((unsigned short *)(skb->data+ETH_ALEN*2-2-i*2));
++			skb_pull(skb, 4);
++		}
++
++		if (!priv->ethBrExtInfo.nat25_disable)
++		{
++			_irqL irqL;
++			_enter_critical_bh(&priv->br_ext_lock, &irqL);
++			/*
++			 *	This function look up the destination network address from
++			 *	the NAT2.5 database. Return value = -1 means that the
++			 *	corresponding network protocol is NOT support.
++			 */
++			if (!priv->ethBrExtInfo.nat25sc_disable &&
++				(*((unsigned short *)(skb->data+ETH_ALEN*2)) == __constant_htons(ETH_P_IP)) &&
++				!memcmp(priv->scdb_ip, skb->data+ETH_HLEN+16, 4)) {
++				memcpy(skb->data, priv->scdb_mac, ETH_ALEN);
++				
++				_exit_critical_bh(&priv->br_ext_lock, &irqL);
++			}
++			else {
++				_exit_critical_bh(&priv->br_ext_lock, &irqL);
++				
++				retval = nat25_db_handle(priv, skb, NAT25_LOOKUP);
++			}
++		}
++		else {
++			if (((*((unsigned short *)(skb->data+ETH_ALEN*2)) == __constant_htons(ETH_P_IP)) &&
++					!memcmp(priv->br_ip, skb->data+ETH_HLEN+16, 4)) ||
++				((*((unsigned short *)(skb->data+ETH_ALEN*2)) == __constant_htons(ETH_P_ARP)) &&
++					!memcmp(priv->br_ip, skb->data+ETH_HLEN+24, 4))) {
++				// for traffic to upper TCP/IP
++				retval = nat25_db_handle(priv, skb, NAT25_LOOKUP);
++			}
++		}
++
++		if (is_vlan_tag) {
++			skb_push(skb, 4);
++			for (i=0; i<6; i++)
++				*((unsigned short *)(skb->data+i*2)) = *((unsigned short *)(skb->data+4+i*2));
++			*((unsigned short *)(skb->data+ETH_ALEN*2)) = __constant_htons(ETH_P_8021Q);
++			*((unsigned short *)(skb->data+ETH_ALEN*2+2)) = vlan_hdr;
++		}
++
++		if(retval == -1) {
++			//DEBUG_ERR("NAT25: Lookup fail!\n");
++			return -1;
++		}
++	}
++
++	return 0;
++}
++
++#if 0
++void mac_clone(_adapter *priv, unsigned char *addr)
++{
++	struct sockaddr sa;
++
++	memcpy(sa.sa_data, addr, ETH_ALEN);
++	DEBUG_INFO("MAC Clone: Addr=%02x%02x%02x%02x%02x%02x\n",
++		addr[0], addr[1], addr[2], addr[3], addr[4], addr[5]);
++	rtl8192cd_set_hwaddr(priv->dev, &sa);
++}
++
++
++int mac_clone_handle_frame(_adapter *priv, struct sk_buff *skb)
++{
++	if(priv->ethBrExtInfo.macclone_enable && !priv->macclone_completed)
++	{
++		if(!(skb->data[ETH_ALEN] & 1))	//// check any other particular MAC add
++		{
++                        if(memcmp(skb->data+ETH_ALEN, GET_MY_HWADDR(priv), ETH_ALEN) &&
++				((priv->dev->br_port) &&
++				 memcmp(skb->data+ETH_ALEN, priv->br_mac, ETH_ALEN)))
++			{
++				mac_clone(priv, skb->data+ETH_ALEN);
++				priv->macclone_completed = 1;
++			}
++		}
++	}
++
++	return 0;
++}
++#endif // 0
++
++#define SERVER_PORT			67
++#define CLIENT_PORT			68
++#define DHCP_MAGIC			0x63825363
++#define BROADCAST_FLAG		0x8000
++
++struct dhcpMessage {
++	u_int8_t op;
++	u_int8_t htype;
++	u_int8_t hlen;
++	u_int8_t hops;
++	u_int32_t xid;
++	u_int16_t secs;
++	u_int16_t flags;
++	u_int32_t ciaddr;
++	u_int32_t yiaddr;
++	u_int32_t siaddr;
++	u_int32_t giaddr;
++	u_int8_t chaddr[16];
++	u_int8_t sname[64];
++	u_int8_t file[128];
++	u_int32_t cookie;
++	u_int8_t options[308]; /* 312 - cookie */
++};
++
++void dhcp_flag_bcast(_adapter *priv, struct sk_buff *skb)
++{
++	if(skb == NULL)
++		return;
++
++	if(!priv->ethBrExtInfo.dhcp_bcst_disable)
++	{
++		unsigned short protocol = *((unsigned short *)(skb->data + 2 * ETH_ALEN));
++
++		if(protocol == __constant_htons(ETH_P_IP)) // IP
++		{
++			struct iphdr* iph = (struct iphdr *)(skb->data + ETH_HLEN);
++
++			if(iph->protocol == IPPROTO_UDP) // UDP
++			{
++				struct udphdr *udph = (struct udphdr *)((SIZE_PTR)iph + (iph->ihl << 2));
++
++				if((udph->source == __constant_htons(CLIENT_PORT))
++					&& (udph->dest == __constant_htons(SERVER_PORT))) // DHCP request
++				{
++					struct dhcpMessage *dhcph =
++						(struct dhcpMessage *)((SIZE_PTR)udph + sizeof(struct udphdr));
++
++					if(dhcph->cookie == __constant_htonl(DHCP_MAGIC)) // match magic word
++					{
++						if(!(dhcph->flags & htons(BROADCAST_FLAG))) // if not broadcast
++						{
++							register int sum = 0;
++
++							DEBUG_INFO("DHCP: change flag of DHCP request to broadcast.\n");
++							// or BROADCAST flag
++							dhcph->flags |= htons(BROADCAST_FLAG);
++							// recalculate checksum
++							sum = ~(udph->check) & 0xffff;
++							sum += dhcph->flags;
++							while(sum >> 16)
++								sum = (sum & 0xffff) + (sum >> 16);
++							udph->check = ~sum;
++						}
++					}
++				}
++			}
++		}
++	}
++}
++
++
++void *scdb_findEntry(_adapter *priv, unsigned char *macAddr,
++				unsigned char *ipAddr)
++{
++	unsigned char networkAddr[MAX_NETWORK_ADDR_LEN];
++	struct nat25_network_db_entry *db;
++	int hash;
++	//_irqL irqL;
++	//_enter_critical_bh(&priv->br_ext_lock, &irqL);
++
++	__nat25_generate_ipv4_network_addr(networkAddr, (unsigned int *)ipAddr);
++	hash = __nat25_network_hash(networkAddr);
++	db = priv->nethash[hash];
++	while (db != NULL)
++	{
++		if(!memcmp(db->networkAddr, networkAddr, MAX_NETWORK_ADDR_LEN)) {
++			//_exit_critical_bh(&priv->br_ext_lock, &irqL);
++			return (void *)db;
++		}
++
++		db = db->next_hash;
++	}
++
++	//_exit_critical_bh(&priv->br_ext_lock, &irqL);
++	return NULL;
++}
++
++#endif	// CONFIG_BR_EXT
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_cmd.c b/drivers/net/wireless/rtl8192cu/core/rtw_cmd.c
+new file mode 100755
+index 0000000..f906eb3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_cmd.c
+@@ -0,0 +1,3035 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_CMD_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <recv_osdep.h>
++#include <cmd_osdep.h>
++#include <mlme_osdep.h>
++#include <rtw_byteorder.h>
++#ifdef CONFIG_BR_EXT
++#include <rtw_br_ext.h>
++#endif //CONFIG_BR_EXT
++/*
++Caller and the rtw_cmd_thread can protect cmd_q by spin_lock.
++No irqsave is necessary.
++*/
++
++sint	_rtw_init_cmd_priv (struct	cmd_priv *pcmdpriv)
++{
++	sint res=_SUCCESS;
++	
++_func_enter_;	
++
++	_rtw_init_sema(&(pcmdpriv->cmd_queue_sema), 0);
++	//_rtw_init_sema(&(pcmdpriv->cmd_done_sema), 0);
++	_rtw_init_sema(&(pcmdpriv->terminate_cmdthread_sema), 0);
++	
++	
++	_rtw_init_queue(&(pcmdpriv->cmd_queue));
++	
++	//allocate DMA-able/Non-Page memory for cmd_buf and rsp_buf
++	
++	pcmdpriv->cmd_seq = 1;
++	
++	pcmdpriv->cmd_allocated_buf = rtw_zmalloc(MAX_CMDSZ + CMDBUFF_ALIGN_SZ);
++	
++	if (pcmdpriv->cmd_allocated_buf == NULL){
++		res= _FAIL;
++		goto exit;
++	}
++	
++	pcmdpriv->cmd_buf = pcmdpriv->cmd_allocated_buf  +  CMDBUFF_ALIGN_SZ - ( (SIZE_PTR)(pcmdpriv->cmd_allocated_buf) & (CMDBUFF_ALIGN_SZ-1));
++		
++	pcmdpriv->rsp_allocated_buf = rtw_zmalloc(MAX_RSPSZ + 4);
++	
++	if (pcmdpriv->rsp_allocated_buf == NULL){
++		res= _FAIL;
++		goto exit;
++	}
++	
++	pcmdpriv->rsp_buf = pcmdpriv->rsp_allocated_buf  +  4 - ( (SIZE_PTR)(pcmdpriv->rsp_allocated_buf) & 3);
++
++	pcmdpriv->cmd_issued_cnt = pcmdpriv->cmd_done_cnt = pcmdpriv->rsp_cnt = 0;
++
++exit:
++	
++_func_exit_;	  
++
++	return res;
++	
++}	
++
++#ifdef CONFIG_C2H_WK
++static void c2h_wk_callback(_workitem *work);
++#endif
++sint _rtw_init_evt_priv(struct evt_priv *pevtpriv)
++{
++	sint res=_SUCCESS;
++
++_func_enter_;	
++
++#ifdef CONFIG_H2CLBK
++	_rtw_init_sema(&(pevtpriv->lbkevt_done), 0);
++	pevtpriv->lbkevt_limit = 0;
++	pevtpriv->lbkevt_num = 0;
++	pevtpriv->cmdevt_parm = NULL;		
++#endif		
++	
++	//allocate DMA-able/Non-Page memory for cmd_buf and rsp_buf
++	ATOMIC_SET(&pevtpriv->event_seq, 0);
++	pevtpriv->evt_done_cnt = 0;
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++
++	_rtw_init_sema(&(pevtpriv->evt_notify), 0);
++	_rtw_init_sema(&(pevtpriv->terminate_evtthread_sema), 0);
++
++	pevtpriv->evt_allocated_buf = rtw_zmalloc(MAX_EVTSZ + 4);	
++	if (pevtpriv->evt_allocated_buf == NULL){
++		res= _FAIL;
++		goto exit;
++		}
++	pevtpriv->evt_buf = pevtpriv->evt_allocated_buf  +  4 - ((unsigned int)(pevtpriv->evt_allocated_buf) & 3);
++	
++		
++#ifdef CONFIG_SDIO_HCI
++	pevtpriv->allocated_c2h_mem = rtw_zmalloc(C2H_MEM_SZ +4); 
++	
++	if (pevtpriv->allocated_c2h_mem == NULL){
++		res= _FAIL;
++		goto exit;
++	}
++
++	pevtpriv->c2h_mem = pevtpriv->allocated_c2h_mem +  4\
++	- ( (u32)(pevtpriv->allocated_c2h_mem) & 3);
++#ifdef PLATFORM_OS_XP
++	pevtpriv->pc2h_mdl= IoAllocateMdl((u8 *)pevtpriv->c2h_mem, C2H_MEM_SZ , FALSE, FALSE, NULL);
++	
++	if(pevtpriv->pc2h_mdl == NULL){
++		res= _FAIL;
++		goto exit;
++	}
++	MmBuildMdlForNonPagedPool(pevtpriv->pc2h_mdl);
++#endif
++#endif //end of CONFIG_SDIO_HCI
++
++	_rtw_init_queue(&(pevtpriv->evt_queue));
++
++exit:	
++
++#endif //end of CONFIG_EVENT_THREAD_MODE
++
++#ifdef CONFIG_C2H_WK
++	_init_workitem(&pevtpriv->c2h_wk, c2h_wk_callback, NULL);
++	pevtpriv->c2h_wk_alive = _FALSE;
++	pevtpriv->c2h_queue = rtw_cbuf_alloc(C2H_QUEUE_MAX_LEN+1);
++#endif
++
++_func_exit_;		 
++
++	return res;
++}
++
++void _rtw_free_evt_priv (struct	evt_priv *pevtpriv)
++{
++_func_enter_;
++
++	RT_TRACE(_module_rtl871x_cmd_c_,_drv_info_,("+_rtw_free_evt_priv \n"));
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++	_rtw_free_sema(&(pevtpriv->evt_notify));
++	_rtw_free_sema(&(pevtpriv->terminate_evtthread_sema));
++
++
++	if (pevtpriv->evt_allocated_buf)
++		rtw_mfree(pevtpriv->evt_allocated_buf, MAX_EVTSZ + 4);
++#endif
++
++#ifdef CONFIG_C2H_WK
++	_cancel_workitem_sync(&pevtpriv->c2h_wk);
++	while(pevtpriv->c2h_wk_alive)
++		rtw_msleep_os(10);
++
++	while (!rtw_cbuf_empty(pevtpriv->c2h_queue)) {
++		void *c2h;
++		if ((c2h = rtw_cbuf_pop(pevtpriv->c2h_queue)) != NULL
++			&& c2h != (void *)pevtpriv) {
++			rtw_mfree(c2h, 16);
++		}
++	}
++	rtw_cbuf_free(pevtpriv->c2h_queue);
++#endif
++
++	RT_TRACE(_module_rtl871x_cmd_c_,_drv_info_,("-_rtw_free_evt_priv \n"));
++
++_func_exit_;	  	
++
++}
++
++void _rtw_free_cmd_priv (struct	cmd_priv *pcmdpriv)
++{
++_func_enter_;
++
++	if(pcmdpriv){
++		_rtw_spinlock_free(&(pcmdpriv->cmd_queue.lock));
++		_rtw_free_sema(&(pcmdpriv->cmd_queue_sema));
++		//_rtw_free_sema(&(pcmdpriv->cmd_done_sema));
++		_rtw_free_sema(&(pcmdpriv->terminate_cmdthread_sema));
++
++		if (pcmdpriv->cmd_allocated_buf)
++			rtw_mfree(pcmdpriv->cmd_allocated_buf, MAX_CMDSZ + CMDBUFF_ALIGN_SZ);
++		
++		if (pcmdpriv->rsp_allocated_buf)
++			rtw_mfree(pcmdpriv->rsp_allocated_buf, MAX_RSPSZ + 4);
++	}
++_func_exit_;		
++}
++
++/*
++Calling Context:
++
++rtw_enqueue_cmd can only be called between kernel thread, 
++since only spin_lock is used.
++
++ISR/Call-Back functions can't call this sub-function.
++
++*/
++
++sint	_rtw_enqueue_cmd(_queue *queue, struct cmd_obj *obj)
++{
++	_irqL irqL;
++
++_func_enter_;
++
++	if (obj == NULL)
++		goto exit;
++
++	//_enter_critical_bh(&queue->lock, &irqL);
++	_enter_critical(&queue->lock, &irqL);	
++
++	rtw_list_insert_tail(&obj->list, &queue->queue);
++
++	//_exit_critical_bh(&queue->lock, &irqL);	
++	_exit_critical(&queue->lock, &irqL);
++
++exit:	
++
++_func_exit_;
++
++	return _SUCCESS;
++}
++
++struct	cmd_obj	*_rtw_dequeue_cmd(_queue *queue)
++{
++	_irqL irqL;
++	struct cmd_obj *obj;
++
++_func_enter_;
++
++	//_enter_critical_bh(&(queue->lock), &irqL);
++	_enter_critical(&queue->lock, &irqL);
++	if (rtw_is_list_empty(&(queue->queue)))
++		obj = NULL;
++	else
++	{
++		obj = LIST_CONTAINOR(get_next(&(queue->queue)), struct cmd_obj, list);
++		rtw_list_delete(&obj->list);
++	}
++
++	//_exit_critical_bh(&(queue->lock), &irqL);
++	_exit_critical(&queue->lock, &irqL);
++
++_func_exit_;	
++
++	return obj;
++}
++
++u32	rtw_init_cmd_priv(struct cmd_priv *pcmdpriv)
++{
++	u32	res;
++_func_enter_;	
++	res = _rtw_init_cmd_priv (pcmdpriv);
++_func_exit_;	
++	return res;	
++}
++
++u32	rtw_init_evt_priv (struct	evt_priv *pevtpriv)
++{
++	int	res;
++_func_enter_;		
++	res = _rtw_init_evt_priv(pevtpriv);
++_func_exit_;		
++	return res;
++}
++
++void rtw_free_evt_priv (struct	evt_priv *pevtpriv)
++{
++_func_enter_;
++	RT_TRACE(_module_rtl871x_cmd_c_,_drv_info_,("rtw_free_evt_priv\n"));
++	_rtw_free_evt_priv(pevtpriv);
++_func_exit_;		
++}	
++
++void rtw_free_cmd_priv (struct	cmd_priv *pcmdpriv)
++{
++_func_enter_;
++	RT_TRACE(_module_rtl871x_cmd_c_,_drv_info_,("rtw_free_cmd_priv\n"));
++	_rtw_free_cmd_priv(pcmdpriv);
++_func_exit_;	
++}	
++
++int rtw_cmd_filter(struct cmd_priv *pcmdpriv, struct cmd_obj *cmd_obj);
++int rtw_cmd_filter(struct cmd_priv *pcmdpriv, struct cmd_obj *cmd_obj)
++{
++	u8 bAllow = _FALSE; //set to _TRUE to allow enqueuing cmd when hw_init_completed is _FALSE
++	
++	#ifdef SUPPORT_HW_RFOFF_DETECTED
++	//To decide allow or not
++	if(	(pcmdpriv->padapter->pwrctrlpriv.bHWPwrPindetect)
++		&&(!pcmdpriv->padapter->registrypriv.usbss_enable)
++	)		
++	{
++		if(cmd_obj->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra) ) 
++		{
++			struct drvextra_cmd_parm	*pdrvextra_cmd_parm = (struct drvextra_cmd_parm	*)cmd_obj->parmbuf;	
++			if(pdrvextra_cmd_parm->ec_id == POWER_SAVING_CTRL_WK_CID)
++			{	
++				//DBG_871X("==>enqueue POWER_SAVING_CTRL_WK_CID\n");
++				bAllow = _TRUE;	
++			}
++		}
++	}
++	#endif
++
++	if(cmd_obj->cmdcode == GEN_CMD_CODE(_SetChannelPlan))
++		bAllow = _TRUE;
++
++	if( (pcmdpriv->padapter->hw_init_completed ==_FALSE && bAllow == _FALSE)
++		|| pcmdpriv->cmdthd_running== _FALSE	//com_thread not running
++	)
++	{
++		//DBG_871X("%s:%s: drop cmdcode:%u, hw_init_completed:%u, cmdthd_running:%u\n", caller_func, __FUNCTION__,
++		//	cmd_obj->cmdcode,
++		//	pcmdpriv->padapter->hw_init_completed,
++		//	pcmdpriv->cmdthd_running
++		//);
++
++		return _FAIL;
++	}	
++	return _SUCCESS;
++}
++
++
++
++u32 rtw_enqueue_cmd(struct cmd_priv *pcmdpriv, struct cmd_obj *cmd_obj)
++{
++	int res = _FAIL;
++	PADAPTER padapter = pcmdpriv->padapter;
++	
++_func_enter_;	
++	
++	if (cmd_obj == NULL) {
++		goto exit;
++	}
++
++	cmd_obj->padapter = padapter;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	//change pcmdpriv to primary's pcmdpriv
++	if (padapter->adapter_type != PRIMARY_ADAPTER && padapter->pbuddy_adapter)
++		pcmdpriv = &(padapter->pbuddy_adapter->cmdpriv);
++#endif	
++
++	if( _FAIL == (res=rtw_cmd_filter(pcmdpriv, cmd_obj)) ) {
++		rtw_free_cmd_obj(cmd_obj);
++		goto exit;
++	}
++
++	res = _rtw_enqueue_cmd(&pcmdpriv->cmd_queue, cmd_obj);
++
++	if(res == _SUCCESS)
++		_rtw_up_sema(&pcmdpriv->cmd_queue_sema);
++	
++exit:	
++	
++_func_exit_;
++
++	return res;
++}
++
++struct	cmd_obj	*rtw_dequeue_cmd(struct cmd_priv *pcmdpriv)
++{
++	struct cmd_obj *cmd_obj;
++	
++_func_enter_;		
++
++	cmd_obj = _rtw_dequeue_cmd(&pcmdpriv->cmd_queue);
++		
++_func_exit_;			
++	return cmd_obj;
++}
++
++void rtw_cmd_clr_isr(struct	cmd_priv *pcmdpriv)
++{
++_func_enter_;
++	pcmdpriv->cmd_done_cnt++;
++	//_rtw_up_sema(&(pcmdpriv->cmd_done_sema));
++_func_exit_;		
++}
++
++void rtw_free_cmd_obj(struct cmd_obj *pcmd)
++{
++_func_enter_;
++
++	if((pcmd->cmdcode!=_JoinBss_CMD_) &&(pcmd->cmdcode!= _CreateBss_CMD_))
++	{
++		//free parmbuf in cmd_obj
++		rtw_mfree((unsigned char*)pcmd->parmbuf, pcmd->cmdsz);
++	}	
++	
++	if(pcmd->rsp!=NULL)
++	{
++		if(pcmd->rspsz!= 0)
++		{
++			//free rsp in cmd_obj
++			rtw_mfree((unsigned char*)pcmd->rsp, pcmd->rspsz);
++		}	
++	}	
++
++	//free cmd_obj
++	rtw_mfree((unsigned char*)pcmd, sizeof(struct cmd_obj));
++	
++_func_exit_;		
++}
++
++void rtw_stop_cmd_thread(_adapter *adapter)
++{
++	if(adapter->cmdThread && adapter->cmdpriv.cmdthd_running == _TRUE
++		&& adapter->cmdpriv.stop_req == 0)
++	{
++		adapter->cmdpriv.stop_req = 1;
++		_rtw_up_sema(&adapter->cmdpriv.cmd_queue_sema);
++		_rtw_down_sema(&adapter->cmdpriv.terminate_cmdthread_sema);
++	}
++}
++
++thread_return rtw_cmd_thread(thread_context context)
++{
++	u8 ret;
++	struct cmd_obj *pcmd;
++	u8 *pcmdbuf, *prspbuf;
++	u8 (*cmd_hdl)(_adapter *padapter, u8* pbuf);
++	void (*pcmd_callback)(_adapter *dev, struct cmd_obj *pcmd);
++       _adapter *padapter = (_adapter *)context;
++	struct cmd_priv *pcmdpriv = &(padapter->cmdpriv);
++	
++_func_enter_;
++
++	thread_enter("RTW_CMD_THREAD");
++
++	pcmdbuf = pcmdpriv->cmd_buf;
++	prspbuf = pcmdpriv->rsp_buf;
++
++	pcmdpriv->stop_req = 0;
++	pcmdpriv->cmdthd_running=_TRUE;
++	_rtw_up_sema(&pcmdpriv->terminate_cmdthread_sema);
++	
++	RT_TRACE(_module_rtl871x_cmd_c_,_drv_info_,("start r871x rtw_cmd_thread !!!!\n"));
++
++	while(1)
++	{
++		if ((_rtw_down_sema(&(pcmdpriv->cmd_queue_sema))) == _FAIL) {
++			LOG_LEVEL(_drv_err_, FUNC_ADPT_FMT" _rtw_down_sema(&pcmdpriv->cmd_queue_sema) return _FAIL, break\n", FUNC_ADPT_ARG(padapter));
++			break;
++		}
++
++		if (pcmdpriv->stop_req) {
++			LOG_LEVEL(_drv_err_, FUNC_ADPT_FMT" stop_req:%u, break\n", FUNC_ADPT_ARG(padapter), pcmdpriv->stop_req);
++			break;
++		}
++
++#ifdef CONFIG_LPS_LCLK
++		if (rtw_register_cmd_alive(padapter) != _SUCCESS)
++		{
++			continue;
++		}
++#endif
++
++_next:
++		if ((padapter->bDriverStopped == _TRUE)||(padapter->bSurpriseRemoved == _TRUE))
++		{
++			LOG_LEVEL(_drv_err_, "%s: DriverStopped(%d) SurpriseRemoved(%d) break at line %d\n",
++				__FUNCTION__, padapter->bDriverStopped, padapter->bSurpriseRemoved, __LINE__);
++			break;
++		}
++
++		if(!(pcmd = rtw_dequeue_cmd(pcmdpriv))) {
++#ifdef CONFIG_LPS_LCLK
++			rtw_unregister_cmd_alive(padapter);
++#endif
++			continue;
++		}
++
++		if( _FAIL == rtw_cmd_filter(pcmdpriv, pcmd) )
++		{
++			pcmd->res = H2C_DROPPED;
++			goto post_process;					
++		}
++
++		if( _FAIL == rtw_cmd_filter(pcmdpriv, pcmd) ) {
++			rtw_free_cmd_obj(pcmd);
++			continue;
++		}
++
++		pcmdpriv->cmd_issued_cnt++;
++
++		pcmd->cmdsz = _RND4((pcmd->cmdsz));//_RND4
++
++		_rtw_memcpy(pcmdbuf, pcmd->parmbuf, pcmd->cmdsz);
++
++		if(pcmd->cmdcode <= (sizeof(wlancmds) /sizeof(struct cmd_hdl)))
++		{
++			cmd_hdl = wlancmds[pcmd->cmdcode].h2cfuns;
++
++			if (cmd_hdl)
++			{
++				ret = cmd_hdl(pcmd->padapter, pcmdbuf);
++				pcmd->res = ret;
++			}
++
++			pcmdpriv->cmd_seq++;
++		}
++		else
++		{
++			pcmd->res = H2C_PARAMETERS_ERROR;
++		}
++
++		cmd_hdl = NULL;
++
++post_process:
++
++		//call callback function for post-processed
++		if(pcmd->cmdcode <= (sizeof(rtw_cmd_callback) /sizeof(struct _cmd_callback)))
++		{
++			pcmd_callback = rtw_cmd_callback[pcmd->cmdcode].callback;
++			if(pcmd_callback == NULL)
++			{
++				RT_TRACE(_module_rtl871x_cmd_c_,_drv_info_,("mlme_cmd_hdl(): pcmd_callback=0x%p, cmdcode=0x%x\n", pcmd_callback, pcmd->cmdcode));
++				rtw_free_cmd_obj(pcmd);
++			}
++			else
++			{
++				//todo: !!! fill rsp_buf to pcmd->rsp if (pcmd->rsp!=NULL)
++				pcmd_callback(pcmd->padapter, pcmd);//need conider that free cmd_obj in rtw_cmd_callback
++			}
++		}
++
++		flush_signals_thread();
++
++		goto _next;
++
++	}
++	pcmdpriv->cmdthd_running=_FALSE;
++
++
++	// free all cmd_obj resources
++	do{
++		pcmd = rtw_dequeue_cmd(pcmdpriv);
++		if(pcmd==NULL)
++			break;
++
++		//DBG_871X("%s: leaving... drop cmdcode:%u\n", __FUNCTION__, pcmd->cmdcode);
++
++		rtw_free_cmd_obj(pcmd);	
++	}while(1);
++
++	_rtw_up_sema(&pcmdpriv->terminate_cmdthread_sema);
++
++_func_exit_;
++
++	thread_exit();
++
++}
++
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++u32 rtw_enqueue_evt(struct evt_priv *pevtpriv, struct evt_obj *obj)
++{
++	_irqL irqL;
++	int	res;
++	_queue *queue = &pevtpriv->evt_queue;
++	
++_func_enter_;	
++
++	res = _SUCCESS; 		
++
++	if (obj == NULL) {
++		res = _FAIL;
++		goto exit;
++	}	
++
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	rtw_list_insert_tail(&obj->list, &queue->queue);
++	
++	_exit_critical_bh(&queue->lock, &irqL);
++
++	//rtw_evt_notify_isr(pevtpriv);
++
++exit:
++	
++_func_exit_;		
++
++	return res;	
++}
++
++struct evt_obj *rtw_dequeue_evt(_queue *queue)
++{
++	_irqL irqL;
++	struct	evt_obj	*pevtobj;
++	
++_func_enter_;		
++
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	if (rtw_is_list_empty(&(queue->queue)))
++		pevtobj = NULL;
++	else
++	{
++		pevtobj = LIST_CONTAINOR(get_next(&(queue->queue)), struct evt_obj, list);
++		rtw_list_delete(&pevtobj->list);
++	}
++
++	_exit_critical_bh(&queue->lock, &irqL);
++	
++_func_exit_;			
++
++	return pevtobj;	
++}
++
++void rtw_free_evt_obj(struct evt_obj *pevtobj)
++{
++_func_enter_;
++
++	if(pevtobj->parmbuf)
++		rtw_mfree((unsigned char*)pevtobj->parmbuf, pevtobj->evtsz);
++	
++	rtw_mfree((unsigned char*)pevtobj, sizeof(struct evt_obj));
++	
++_func_exit_;		
++}
++
++void rtw_evt_notify_isr(struct evt_priv *pevtpriv)
++{
++_func_enter_;
++	pevtpriv->evt_done_cnt++;
++	_rtw_up_sema(&(pevtpriv->evt_notify));
++_func_exit_;	
++}
++#endif
++
++
++/*
++u8 rtw_setstandby_cmd(unsigned char  *adapter) 
++*/
++u8 rtw_setstandby_cmd(_adapter *padapter, uint action)
++{
++	struct cmd_obj*			ph2c;
++	struct usb_suspend_parm*	psetusbsuspend;
++	struct cmd_priv 			*pcmdpriv=&padapter->cmdpriv;
++
++	u8 ret = _SUCCESS;
++	
++_func_enter_;	
++
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		ret = _FAIL;
++		goto exit;
++	}
++	
++	psetusbsuspend = (struct usb_suspend_parm*)rtw_zmalloc(sizeof(struct usb_suspend_parm)); 
++	if (psetusbsuspend == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		ret = _FAIL;
++		goto exit;
++	}
++
++	psetusbsuspend->action = action;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psetusbsuspend, GEN_CMD_CODE(_SetUsbSuspend));
++
++	ret = rtw_enqueue_cmd(pcmdpriv, ph2c);	
++	
++exit:	
++	
++_func_exit_;		
++
++	return ret;
++}
++
++/*
++rtw_sitesurvey_cmd(~)
++	### NOTE:#### (!!!!)
++	MUST TAKE CARE THAT BEFORE CALLING THIS FUNC, YOU SHOULD HAVE LOCKED pmlmepriv->lock
++*/
++u8 rtw_sitesurvey_cmd(_adapter  *padapter, NDIS_802_11_SSID *ssid, int ssid_num,
++	struct rtw_ieee80211_channel *ch, int ch_num)
++{
++	u8 res = _FAIL;
++	struct cmd_obj		*ph2c;
++	struct sitesurvey_parm	*psurveyPara;
++	struct cmd_priv 	*pcmdpriv = &padapter->cmdpriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++
++_func_enter_;
++
++#ifdef CONFIG_LPS
++	if(check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE){
++		rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_SCAN, 1);
++	}
++#endif
++
++#ifdef CONFIG_P2P_PS
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++		p2p_ps_wk_cmd(padapter, P2P_PS_SCAN, 1);
++	}
++#endif // CONFIG_P2P_PS
++
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL)
++		return _FAIL;
++
++	psurveyPara = (struct sitesurvey_parm*)rtw_zmalloc(sizeof(struct sitesurvey_parm)); 
++	if (psurveyPara == NULL) {
++		rtw_mfree((unsigned char*) ph2c, sizeof(struct cmd_obj));
++		return _FAIL;
++	}
++
++	rtw_free_network_queue(padapter, _FALSE);
++
++	RT_TRACE(_module_rtl871x_cmd_c_, _drv_info_, ("\nflush  network queue\n\n"));
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psurveyPara, GEN_CMD_CODE(_SiteSurvey));
++
++	/* psurveyPara->bsslimit = 48; */
++	psurveyPara->scan_mode = pmlmepriv->scan_mode;
++
++	/* prepare ssid list */
++	if (ssid) {
++		int i;
++		for (i=0; i<ssid_num && i< RTW_SSID_SCAN_AMOUNT; i++) {
++			if (ssid[i].SsidLength) {
++				_rtw_memcpy(&psurveyPara->ssid[i], &ssid[i], sizeof(NDIS_802_11_SSID));
++				psurveyPara->ssid_num++;
++				if (0)
++				DBG_871X(FUNC_ADPT_FMT" ssid:(%s, %d)\n", FUNC_ADPT_ARG(padapter),
++					psurveyPara->ssid[i].Ssid, psurveyPara->ssid[i].SsidLength);
++			}
++		}
++	}
++
++	/* prepare channel list */
++	if (ch) {
++		int i;
++		for (i=0; i<ch_num && i< RTW_CHANNEL_SCAN_AMOUNT; i++) {
++			if (ch[i].hw_value && !(ch[i].flags & RTW_IEEE80211_CHAN_DISABLED)) {
++				_rtw_memcpy(&psurveyPara->ch[i], &ch[i], sizeof(struct rtw_ieee80211_channel));
++				psurveyPara->ch_num++;
++				if (0)
++				DBG_871X(FUNC_ADPT_FMT" ch:%u\n", FUNC_ADPT_ARG(padapter),
++					psurveyPara->ch[i].hw_value);
++			}
++		}
++	}
++
++	set_fwstate(pmlmepriv, _FW_UNDER_SURVEY);
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++	if(res == _SUCCESS) {
++
++		pmlmepriv->scan_start_time = rtw_get_current_time();
++
++#ifdef CONFIG_STA_MODE_SCAN_UNDER_AP_MODE
++		if (padapter->pbuddy_adapter == NULL )
++			goto full_scan_timeout;
++		if((padapter->pbuddy_adapter->mlmeextpriv.mlmext_info.state&0x03) == WIFI_FW_AP_STATE)
++			_set_timer(&pmlmepriv->scan_to_timer, 
++				SURVEY_TO * ( padapter->mlmeextpriv.max_chan_nums + ( padapter->mlmeextpriv.max_chan_nums  / RTW_SCAN_NUM_OF_CH ) * RTW_STAY_AP_CH_MILLISECOND ) + 1000 );
++		else
++#endif //CONFIG_STA_MODE_SCAN_UNDER_AP_MODE
++full_scan_timeout:
++			_set_timer(&pmlmepriv->scan_to_timer, SCANNING_TIMEOUT);
++
++		rtw_led_control(padapter, LED_CTL_SITE_SURVEY);
++
++		pmlmepriv->scan_interval = SCAN_INTERVAL;// 30*2 sec = 60sec
++	} else {
++		_clr_fwstate_(pmlmepriv, _FW_UNDER_SURVEY);
++	}
++
++_func_exit_;		
++
++	return res;
++}
++
++u8 rtw_setdatarate_cmd(_adapter *padapter, u8 *rateset)
++{
++	struct cmd_obj*			ph2c;
++	struct setdatarate_parm*	pbsetdataratepara;
++	struct cmd_priv*		pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++_func_enter_;	
++
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pbsetdataratepara = (struct setdatarate_parm*)rtw_zmalloc(sizeof(struct setdatarate_parm)); 
++	if (pbsetdataratepara == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pbsetdataratepara, GEN_CMD_CODE(_SetDataRate));
++#ifdef MP_FIRMWARE_OFFLOAD
++	pbsetdataratepara->curr_rateidx = *(u32*)rateset;
++//	_rtw_memcpy(pbsetdataratepara, rateset, sizeof(u32));
++#else
++	pbsetdataratepara->mac_id = 5;
++	_rtw_memcpy(pbsetdataratepara->datarates, rateset, NumRates);
++#endif
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++
++_func_exit_;
++
++	return res;
++}
++
++u8 rtw_setbasicrate_cmd(_adapter *padapter, u8 *rateset)
++{
++	struct cmd_obj*			ph2c;
++	struct setbasicrate_parm*	pssetbasicratepara;
++	struct cmd_priv*		pcmdpriv=&padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++_func_enter_;
++
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res= _FAIL;
++		goto exit;
++	}
++	pssetbasicratepara = (struct setbasicrate_parm*)rtw_zmalloc(sizeof(struct setbasicrate_parm)); 
++
++	if (pssetbasicratepara == NULL) {
++		rtw_mfree((u8*) ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pssetbasicratepara, _SetBasicRate_CMD_);
++
++	_rtw_memcpy(pssetbasicratepara->basicrates, rateset, NumRates);	   
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);	
++exit:	
++
++_func_exit_;		
++
++	return res;
++}
++
++
++/*
++unsigned char rtw_setphy_cmd(unsigned char  *adapter) 
++
++1.  be called only after rtw_update_registrypriv_dev_network( ~) or mp testing program
++2.  for AdHoc/Ap mode or mp mode?
++
++*/
++u8 rtw_setphy_cmd(_adapter *padapter, u8 modem, u8 ch)
++{
++	struct cmd_obj*			ph2c;
++	struct setphy_parm*		psetphypara;
++	struct cmd_priv 			*pcmdpriv=&padapter->cmdpriv;
++//	struct mlme_priv			*pmlmepriv = &padapter->mlmepriv;
++//	struct registry_priv*		pregistry_priv = &padapter->registrypriv;
++	u8	res=_SUCCESS;
++
++_func_enter_;	
++
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++	if(ph2c==NULL){
++		res= _FAIL;
++		goto exit;
++		}
++	psetphypara = (struct setphy_parm*)rtw_zmalloc(sizeof(struct setphy_parm)); 
++
++	if(psetphypara==NULL){
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psetphypara, _SetPhy_CMD_);
++
++	RT_TRACE(_module_rtl871x_cmd_c_,_drv_info_,("CH=%d, modem=%d", ch, modem));
++
++	psetphypara->modem = modem;
++	psetphypara->rfchannel = ch;
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);	
++exit:	
++_func_exit_;		
++	return res;
++}
++
++u8 rtw_setbbreg_cmd(_adapter*padapter, u8 offset, u8 val)
++{	
++	struct cmd_obj*			ph2c;
++	struct writeBB_parm*		pwritebbparm;
++	struct cmd_priv 			*pcmdpriv=&padapter->cmdpriv;	
++	u8	res=_SUCCESS;
++_func_enter_;
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++	if(ph2c==NULL){
++		res= _FAIL;
++		goto exit;
++		}
++	pwritebbparm = (struct writeBB_parm*)rtw_zmalloc(sizeof(struct writeBB_parm)); 
++
++	if(pwritebbparm==NULL){
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pwritebbparm, GEN_CMD_CODE(_SetBBReg));	
++
++	pwritebbparm->offset = offset;
++	pwritebbparm->value = val;
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);	
++exit:	
++_func_exit_;	
++	return res;
++}
++
++u8 rtw_getbbreg_cmd(_adapter  *padapter, u8 offset, u8 *pval)
++{	
++	struct cmd_obj*			ph2c;
++	struct readBB_parm*		prdbbparm;
++	struct cmd_priv 			*pcmdpriv=&padapter->cmdpriv;
++	u8	res=_SUCCESS;
++	
++_func_enter_;
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++	if(ph2c==NULL){
++		res=_FAIL;
++		goto exit;
++		}
++	prdbbparm = (struct readBB_parm*)rtw_zmalloc(sizeof(struct readBB_parm)); 
++
++	if(prdbbparm ==NULL){
++		rtw_mfree((unsigned char *) ph2c, sizeof(struct	cmd_obj));
++		return _FAIL;
++	}
++
++	_rtw_init_listhead(&ph2c->list);
++	ph2c->cmdcode =GEN_CMD_CODE(_GetBBReg);
++	ph2c->parmbuf = (unsigned char *)prdbbparm;
++	ph2c->cmdsz =  sizeof(struct readBB_parm);
++	ph2c->rsp = pval;
++	ph2c->rspsz = sizeof(struct readBB_rsp);
++	
++	prdbbparm ->offset = offset;
++	
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);	
++exit:
++_func_exit_;	
++	return res;
++}
++
++u8 rtw_setrfreg_cmd(_adapter  *padapter, u8 offset, u32 val)
++{	
++	struct cmd_obj*			ph2c;
++	struct writeRF_parm*		pwriterfparm;
++	struct cmd_priv 			*pcmdpriv=&padapter->cmdpriv;	
++	u8	res=_SUCCESS;
++_func_enter_;
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++	if(ph2c==NULL){
++		res= _FAIL;	
++		goto exit;
++	}
++	pwriterfparm = (struct writeRF_parm*)rtw_zmalloc(sizeof(struct writeRF_parm)); 
++
++	if(pwriterfparm==NULL){
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pwriterfparm, GEN_CMD_CODE(_SetRFReg));	
++
++	pwriterfparm->offset = offset;
++	pwriterfparm->value = val;
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);	
++exit:
++_func_exit_;	
++	return res;
++}
++
++u8 rtw_getrfreg_cmd(_adapter  *padapter, u8 offset, u8 *pval)
++{	
++	struct cmd_obj*			ph2c;
++	struct readRF_parm*		prdrfparm;
++	struct cmd_priv 			*pcmdpriv=&padapter->cmdpriv;	
++	u8	res=_SUCCESS;
++
++_func_enter_;
++
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++	if(ph2c==NULL){
++		res= _FAIL;
++		goto exit;
++	}
++
++	prdrfparm = (struct readRF_parm*)rtw_zmalloc(sizeof(struct readRF_parm)); 
++	if(prdrfparm ==NULL){
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	_rtw_init_listhead(&ph2c->list);
++	ph2c->cmdcode =GEN_CMD_CODE(_GetRFReg);
++	ph2c->parmbuf = (unsigned char *)prdrfparm;
++	ph2c->cmdsz =  sizeof(struct readRF_parm);
++	ph2c->rsp = pval;
++	ph2c->rspsz = sizeof(struct readRF_rsp);
++	
++	prdrfparm ->offset = offset;
++	
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);	
++
++exit:
++
++_func_exit_;	
++
++	return res;
++}
++
++void rtw_getbbrfreg_cmdrsp_callback(_adapter*	padapter,  struct cmd_obj *pcmd)
++{       
++ _func_enter_;  
++		
++	//rtw_free_cmd_obj(pcmd);
++	rtw_mfree((unsigned char*) pcmd->parmbuf, pcmd->cmdsz);
++	rtw_mfree((unsigned char*) pcmd, sizeof(struct cmd_obj));
++	
++#ifdef CONFIG_MP_INCLUDED	
++	padapter->mppriv.workparam.bcompleted= _TRUE;
++#endif	
++_func_exit_;		
++}
++
++void rtw_readtssi_cmdrsp_callback(_adapter*	padapter,  struct cmd_obj *pcmd)
++{
++ _func_enter_;  
++
++	rtw_mfree((unsigned char*) pcmd->parmbuf, pcmd->cmdsz);
++	rtw_mfree((unsigned char*) pcmd, sizeof(struct cmd_obj));
++	
++#ifdef CONFIG_MP_INCLUDED	
++	padapter->mppriv.workparam.bcompleted= _TRUE;
++#endif
++
++_func_exit_;
++}
++
++u8 rtw_createbss_cmd(_adapter  *padapter)
++{
++	struct cmd_obj*			pcmd;
++	struct cmd_priv 			*pcmdpriv=&padapter->cmdpriv;
++	struct mlme_priv			*pmlmepriv = &padapter->mlmepriv;
++	WLAN_BSSID_EX		*pdev_network = &padapter->registrypriv.dev_network;
++	u8	res=_SUCCESS;
++
++_func_enter_;
++
++	rtw_led_control(padapter, LED_CTL_START_TO_LINK);
++
++	if (pmlmepriv->assoc_ssid.SsidLength == 0){
++		RT_TRACE(_module_rtl871x_cmd_c_,_drv_info_,(" createbss for Any SSid:%s\n",pmlmepriv->assoc_ssid.Ssid));		
++	} else {
++		RT_TRACE(_module_rtl871x_cmd_c_,_drv_info_,(" createbss for SSid:%s\n", pmlmepriv->assoc_ssid.Ssid));
++	}
++		
++	pcmd = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++	if(pcmd==NULL){
++		res= _FAIL;
++		goto exit;
++	}
++
++	_rtw_init_listhead(&pcmd->list);
++	pcmd->cmdcode = _CreateBss_CMD_;
++	pcmd->parmbuf = (unsigned char *)pdev_network;
++	pcmd->cmdsz = get_WLAN_BSSID_EX_sz((WLAN_BSSID_EX*)pdev_network);
++	pcmd->rsp = NULL;
++	pcmd->rspsz = 0;	
++	
++	pdev_network->Length = pcmd->cmdsz;	
++
++#ifdef CONFIG_RTL8712
++	//notes: translate IELength & Length after assign the Length to cmdsz;
++	pdev_network->Length = cpu_to_le32(pcmd->cmdsz);
++	pdev_network->IELength = cpu_to_le32(pdev_network->IELength);
++	pdev_network->Ssid.SsidLength = cpu_to_le32(pdev_network->Ssid.SsidLength);
++#endif
++
++	res = rtw_enqueue_cmd(pcmdpriv, pcmd);	
++
++exit:
++
++_func_exit_;	
++
++	return res;
++}
++
++u8 rtw_createbss_cmd_ex(_adapter  *padapter, unsigned char *pbss, unsigned int sz)
++{
++	struct cmd_obj*	pcmd;
++	struct cmd_priv 	*pcmdpriv=&padapter->cmdpriv;
++	u8	res=_SUCCESS;
++	
++_func_enter_;
++			
++	pcmd = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++	if(pcmd==NULL){
++		res= _FAIL;
++		goto exit;
++	}
++
++	_rtw_init_listhead(&pcmd->list);
++	pcmd->cmdcode = GEN_CMD_CODE(_CreateBss);
++	pcmd->parmbuf = pbss;
++	pcmd->cmdsz =  sz;
++	pcmd->rsp = NULL;
++	pcmd->rspsz = 0;
++
++	res = rtw_enqueue_cmd(pcmdpriv, pcmd);
++
++exit:
++	
++_func_exit_;	
++
++	return res;	
++}
++
++u8 rtw_joinbss_cmd(_adapter  *padapter, struct wlan_network* pnetwork)
++{
++	u8	*auth, res = _SUCCESS;
++	uint	t_len = 0;
++	WLAN_BSSID_EX		*psecnetwork;
++	struct cmd_obj		*pcmd;
++	struct cmd_priv		*pcmdpriv=&padapter->cmdpriv;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct qos_priv		*pqospriv= &pmlmepriv->qospriv;
++	struct security_priv	*psecuritypriv=&padapter->securitypriv;
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	struct ht_priv			*phtpriv = &pmlmepriv->htpriv;
++	NDIS_802_11_NETWORK_INFRASTRUCTURE ndis_network_mode = pnetwork->network.InfrastructureMode;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++_func_enter_;
++
++	rtw_led_control(padapter, LED_CTL_START_TO_LINK);
++
++	if (pmlmepriv->assoc_ssid.SsidLength == 0){
++		RT_TRACE(_module_rtl871x_cmd_c_, _drv_info_, ("+Join cmd: Any SSid\n"));
++	} else {
++		RT_TRACE(_module_rtl871x_cmd_c_, _drv_notice_, ("+Join cmd: SSid=[%s]\n", pmlmepriv->assoc_ssid.Ssid));
++	}
++
++	pcmd = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++	if(pcmd==NULL){
++		res=_FAIL;
++		RT_TRACE(_module_rtl871x_cmd_c_, _drv_err_, ("rtw_joinbss_cmd: memory allocate for cmd_obj fail!!!\n"));
++		goto exit;
++	}
++	/* // for IEs is pointer 
++	t_len = sizeof (ULONG) + sizeof (NDIS_802_11_MAC_ADDRESS) + 2 + 
++			sizeof (NDIS_802_11_SSID) + sizeof (ULONG) + 
++			sizeof (NDIS_802_11_RSSI) + sizeof (NDIS_802_11_NETWORK_TYPE) + 
++			sizeof (NDIS_802_11_CONFIGURATION) +	
++			sizeof (NDIS_802_11_NETWORK_INFRASTRUCTURE) +   
++			sizeof (NDIS_802_11_RATES_EX)+ sizeof(WLAN_PHY_INFO)+ sizeof (ULONG) + MAX_IE_SZ;
++	*/
++	//for IEs is fix buf size
++	t_len = sizeof(WLAN_BSSID_EX);
++
++
++	//for hidden ap to set fw_state here
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE|WIFI_ADHOC_STATE) != _TRUE)
++	{
++		switch(ndis_network_mode)
++		{
++			case Ndis802_11IBSS:
++				set_fwstate(pmlmepriv, WIFI_ADHOC_STATE);
++				break;
++
++			case Ndis802_11Infrastructure:
++				set_fwstate(pmlmepriv, WIFI_STATION_STATE);
++				break;
++
++			case Ndis802_11APMode:
++			case Ndis802_11AutoUnknown:
++			case Ndis802_11InfrastructureMax:
++				break;
++
++		}
++	}
++
++	psecnetwork=(WLAN_BSSID_EX *)&psecuritypriv->sec_bss;
++	if(psecnetwork==NULL)
++	{
++		if(pcmd !=NULL)
++			rtw_mfree((unsigned char *)pcmd, sizeof(struct	cmd_obj));
++		
++		res=_FAIL;
++		
++		RT_TRACE(_module_rtl871x_cmd_c_, _drv_err_, ("rtw_joinbss_cmd :psecnetwork==NULL!!!\n"));
++		
++		goto exit;
++	}
++
++	_rtw_memset(psecnetwork, 0, t_len);
++
++	_rtw_memcpy(psecnetwork, &pnetwork->network, get_WLAN_BSSID_EX_sz(&pnetwork->network));
++	
++	auth=&psecuritypriv->authenticator_ie[0];
++	psecuritypriv->authenticator_ie[0]=(unsigned char)psecnetwork->IELength;
++
++	if((psecnetwork->IELength-12) < (256-1)) {
++		_rtw_memcpy(&psecuritypriv->authenticator_ie[1], &psecnetwork->IEs[12], psecnetwork->IELength-12);
++	} else {
++		_rtw_memcpy(&psecuritypriv->authenticator_ie[1], &psecnetwork->IEs[12], (256-1));
++	}
++	  
++	psecnetwork->IELength = 0;
++	// Added by Albert 2009/02/18
++	// If the the driver wants to use the bssid to create the connection.
++	// If not,  we have to copy the connecting AP's MAC address to it so that
++	// the driver just has the bssid information for PMKIDList searching.
++        
++	if ( pmlmepriv->assoc_by_bssid == _FALSE )
++	{
++		_rtw_memcpy( &pmlmepriv->assoc_bssid[ 0 ], &pnetwork->network.MacAddress[ 0 ], ETH_ALEN );
++	}
++
++	psecnetwork->IELength = rtw_restruct_sec_ie(padapter, &pnetwork->network.IEs[0], &psecnetwork->IEs[0], pnetwork->network.IELength);
++
++
++	pqospriv->qos_option = 0;
++	
++	if(pregistrypriv->wmm_enable)	
++	{	
++		u32 tmp_len;
++		
++		tmp_len = rtw_restruct_wmm_ie(padapter, &pnetwork->network.IEs[0], &psecnetwork->IEs[0], pnetwork->network.IELength, psecnetwork->IELength);	
++
++		if (psecnetwork->IELength != tmp_len)		
++		{
++			psecnetwork->IELength = tmp_len;
++			pqospriv->qos_option = 1; //There is WMM IE in this corresp. beacon
++		}
++		else 
++		{
++			pqospriv->qos_option = 0;//There is no WMM IE in this corresp. beacon
++		}		
++	}	
++
++#ifdef CONFIG_80211N_HT
++	phtpriv->ht_option = _FALSE;
++	if(pregistrypriv->ht_enable)
++	{
++		//	Added by Albert 2010/06/23
++		//	For the WEP mode, we will use the bg mode to do the connection to avoid some IOT issue.
++		//	Especially for Realtek 8192u SoftAP.
++		if (	( padapter->securitypriv.dot11PrivacyAlgrthm != _WEP40_ ) &&
++			( padapter->securitypriv.dot11PrivacyAlgrthm != _WEP104_ ) &&
++			( padapter->securitypriv.dot11PrivacyAlgrthm != _TKIP_ ))
++		{
++			//rtw_restructure_ht_ie
++			rtw_restructure_ht_ie(padapter, &pnetwork->network.IEs[0], &psecnetwork->IEs[0], 
++									pnetwork->network.IELength, &psecnetwork->IELength, (u8)psecnetwork->Configuration.DSConfig );
++		}
++	}
++
++#endif
++
++	pmlmeinfo->assoc_AP_vendor = check_assoc_AP(pnetwork->network.IEs, pnetwork->network.IELength);
++
++	#if 0
++	psecuritypriv->supplicant_ie[0]=(u8)psecnetwork->IELength;
++
++	if(psecnetwork->IELength < (256-1))
++	{
++		_rtw_memcpy(&psecuritypriv->supplicant_ie[1], &psecnetwork->IEs[0], psecnetwork->IELength);
++	}
++	else
++	{
++		_rtw_memcpy(&psecuritypriv->supplicant_ie[1], &psecnetwork->IEs[0], (256-1));
++	}
++	#endif
++	
++	pcmd->cmdsz = get_WLAN_BSSID_EX_sz(psecnetwork);//get cmdsz before endian conversion
++
++#ifdef CONFIG_RTL8712
++	//wlan_network endian conversion	
++	psecnetwork->Length = cpu_to_le32(psecnetwork->Length);
++	psecnetwork->Ssid.SsidLength= cpu_to_le32(psecnetwork->Ssid.SsidLength);
++	psecnetwork->Privacy = cpu_to_le32(psecnetwork->Privacy);
++	psecnetwork->Rssi = cpu_to_le32(psecnetwork->Rssi);
++	psecnetwork->NetworkTypeInUse = cpu_to_le32(psecnetwork->NetworkTypeInUse);
++	psecnetwork->Configuration.ATIMWindow = cpu_to_le32(psecnetwork->Configuration.ATIMWindow);
++	psecnetwork->Configuration.BeaconPeriod = cpu_to_le32(psecnetwork->Configuration.BeaconPeriod);
++	psecnetwork->Configuration.DSConfig = cpu_to_le32(psecnetwork->Configuration.DSConfig);
++	psecnetwork->Configuration.FHConfig.DwellTime=cpu_to_le32(psecnetwork->Configuration.FHConfig.DwellTime);
++	psecnetwork->Configuration.FHConfig.HopPattern=cpu_to_le32(psecnetwork->Configuration.FHConfig.HopPattern);
++	psecnetwork->Configuration.FHConfig.HopSet=cpu_to_le32(psecnetwork->Configuration.FHConfig.HopSet);
++	psecnetwork->Configuration.FHConfig.Length=cpu_to_le32(psecnetwork->Configuration.FHConfig.Length);	
++	psecnetwork->Configuration.Length = cpu_to_le32(psecnetwork->Configuration.Length);
++	psecnetwork->InfrastructureMode = cpu_to_le32(psecnetwork->InfrastructureMode);
++	psecnetwork->IELength = cpu_to_le32(psecnetwork->IELength);      
++#endif
++
++	_rtw_init_listhead(&pcmd->list);
++	pcmd->cmdcode = _JoinBss_CMD_;//GEN_CMD_CODE(_JoinBss)
++	pcmd->parmbuf = (unsigned char *)psecnetwork;
++	pcmd->rsp = NULL;
++	pcmd->rspsz = 0;
++
++	res = rtw_enqueue_cmd(pcmdpriv, pcmd);
++
++exit:
++	
++_func_exit_;
++
++	return res;
++}
++
++u8 rtw_disassoc_cmd(_adapter*padapter, u32 deauth_timeout_ms, bool enqueue) /* for sta_mode */
++{
++	struct cmd_obj *cmdobj = NULL;
++	struct disconnect_parm *param = NULL;
++	struct cmd_priv *cmdpriv = &padapter->cmdpriv;
++	u8 res = _SUCCESS;
++
++_func_enter_;
++
++	RT_TRACE(_module_rtl871x_cmd_c_, _drv_notice_, ("+rtw_disassoc_cmd\n"));
++
++	/* prepare cmd parameter */
++	param = (struct disconnect_parm *)rtw_zmalloc(sizeof(*param));
++	if (param == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	param->deauth_timeout_ms = deauth_timeout_ms;
++
++	if (enqueue) {
++		/* need enqueue, prepare cmd_obj and enqueue */
++		cmdobj = (struct cmd_obj *)rtw_zmalloc(sizeof(*cmdobj));
++		if (cmdobj == NULL) {
++			res = _FAIL;
++			rtw_mfree((u8 *)param, sizeof(*param));
++			goto exit;
++		}
++		init_h2fwcmd_w_parm_no_rsp(cmdobj, param, _DisConnect_CMD_);
++		res = rtw_enqueue_cmd(cmdpriv, cmdobj);
++	} else {
++		/* no need to enqueue, do the cmd hdl directly and free cmd parameter */
++		if (H2C_SUCCESS != disconnect_hdl(padapter, (u8 *)param))
++			res = _FAIL;
++		rtw_mfree((u8 *)param, sizeof(*param));
++	}
++
++exit:
++
++_func_exit_;	
++
++	return res;
++}
++
++u8 rtw_setopmode_cmd(_adapter  *padapter, NDIS_802_11_NETWORK_INFRASTRUCTURE networktype)
++{
++	struct	cmd_obj*	ph2c;
++	struct	setopmode_parm* psetop;
++
++	struct	cmd_priv   *pcmdpriv= &padapter->cmdpriv;
++	u8	res=_SUCCESS;
++
++_func_enter_;
++
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));			
++	if(ph2c==NULL){
++		res= _FALSE;
++		goto exit;
++	}
++	psetop = (struct setopmode_parm*)rtw_zmalloc(sizeof(struct setopmode_parm)); 
++
++	if(psetop==NULL){
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		res=_FALSE;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psetop, _SetOpMode_CMD_);
++	psetop->mode = (u8)networktype;
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++_func_exit_;	
++
++	return res;
++}
++
++u8 rtw_setstakey_cmd(_adapter *padapter, u8 *psta, u8 unicast_key)
++{
++	struct cmd_obj*			ph2c;
++	struct set_stakey_parm	*psetstakey_para;
++	struct cmd_priv 			*pcmdpriv=&padapter->cmdpriv;
++	struct set_stakey_rsp		*psetstakey_rsp = NULL;
++	
++	struct mlme_priv			*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv 		*psecuritypriv = &padapter->securitypriv;
++	struct sta_info* 			sta = (struct sta_info* )psta;
++	u8	res=_SUCCESS;
++
++_func_enter_;
++
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++	if ( ph2c == NULL){
++		res= _FAIL;
++		goto exit;
++	}
++
++	psetstakey_para = (struct set_stakey_parm*)rtw_zmalloc(sizeof(struct set_stakey_parm));
++	if(psetstakey_para==NULL){
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		res=_FAIL;
++		goto exit;
++	}
++
++	psetstakey_rsp = (struct set_stakey_rsp*)rtw_zmalloc(sizeof(struct set_stakey_rsp)); 
++	if(psetstakey_rsp == NULL){
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		rtw_mfree((u8 *) psetstakey_para, sizeof(struct set_stakey_parm));
++		res=_FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psetstakey_para, _SetStaKey_CMD_);
++	ph2c->rsp = (u8 *) psetstakey_rsp;
++	ph2c->rspsz = sizeof(struct set_stakey_rsp);
++
++	_rtw_memcpy(psetstakey_para->addr, sta->hwaddr,ETH_ALEN);
++	
++	if(check_fwstate(pmlmepriv, WIFI_STATION_STATE)){
++#ifdef CONFIG_TDLS		
++		if(sta->tdls_sta_state&TDLS_LINKED_STATE)
++			psetstakey_para->algorithm=(u8)sta->dot118021XPrivacy;
++		else
++#endif //CONFIG_TDLS
++		psetstakey_para->algorithm =(unsigned char) psecuritypriv->dot11PrivacyAlgrthm;
++	}else{
++		GET_ENCRY_ALGO(psecuritypriv, sta, psetstakey_para->algorithm, _FALSE);
++	}
++
++	if (unicast_key == _TRUE) {
++#ifdef CONFIG_TDLS
++		if(sta->tdls_sta_state&TDLS_LINKED_STATE)
++			_rtw_memcpy(&psetstakey_para->key, sta->tpk.tk, 16);
++		else
++#endif //CONFIG_TDLS
++			_rtw_memcpy(&psetstakey_para->key, &sta->dot118021x_UncstKey, 16);
++        } else {
++		_rtw_memcpy(&psetstakey_para->key, &psecuritypriv->dot118021XGrpKey[psecuritypriv->dot118021XGrpKeyid].skey, 16);
++        }
++
++	//jeff: set this becasue at least sw key is ready
++	padapter->securitypriv.busetkipkey=_TRUE;
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);	
++
++exit:
++
++_func_exit_;	
++
++	return res;
++}
++
++u8 rtw_clearstakey_cmd(_adapter *padapter, u8 *psta, u8 entry, u8 enqueue)
++{
++	struct cmd_obj*			ph2c;
++	struct set_stakey_parm	*psetstakey_para;
++	struct cmd_priv 			*pcmdpriv=&padapter->cmdpriv;
++	struct set_stakey_rsp		*psetstakey_rsp = NULL;	
++	struct mlme_priv			*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv 		*psecuritypriv = &padapter->securitypriv;
++	struct sta_info* 			sta = (struct sta_info* )psta;
++	u8	res=_SUCCESS;
++
++_func_enter_;
++
++	if(!enqueue)
++	{
++		clear_cam_entry(padapter, entry);
++	}
++	else
++	{
++		ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++		if ( ph2c == NULL){
++			res= _FAIL;
++			goto exit;
++		}
++
++		psetstakey_para = (struct set_stakey_parm*)rtw_zmalloc(sizeof(struct set_stakey_parm));
++		if(psetstakey_para==NULL){
++			rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++			res=_FAIL;
++			goto exit;
++		}
++
++		psetstakey_rsp = (struct set_stakey_rsp*)rtw_zmalloc(sizeof(struct set_stakey_rsp)); 
++		if(psetstakey_rsp == NULL){
++			rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++			rtw_mfree((u8 *) psetstakey_para, sizeof(struct set_stakey_parm));
++			res=_FAIL;
++			goto exit;
++		}
++
++		init_h2fwcmd_w_parm_no_rsp(ph2c, psetstakey_para, _SetStaKey_CMD_);
++		ph2c->rsp = (u8 *) psetstakey_rsp;
++		ph2c->rspsz = sizeof(struct set_stakey_rsp);
++
++		_rtw_memcpy(psetstakey_para->addr, sta->hwaddr, ETH_ALEN);
++
++		psetstakey_para->algorithm = _NO_PRIVACY_;
++
++		psetstakey_para->id = entry;
++	
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);	
++		
++	}
++	
++exit:
++
++_func_exit_;	
++
++	return res;
++}
++
++u8 rtw_setrttbl_cmd(_adapter  *padapter, struct setratable_parm *prate_table)
++{
++	struct cmd_obj*			ph2c;
++	struct setratable_parm *	psetrttblparm;	
++	struct cmd_priv 			*pcmdpriv=&padapter->cmdpriv;
++	u8	res=_SUCCESS;
++_func_enter_;	
++
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++	if(ph2c==NULL){
++		res= _FAIL;
++		goto exit;
++		}
++	psetrttblparm = (struct setratable_parm*)rtw_zmalloc(sizeof(struct setratable_parm)); 
++
++	if(psetrttblparm==NULL){
++		rtw_mfree((unsigned char *) ph2c, sizeof(struct	cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psetrttblparm, GEN_CMD_CODE(_SetRaTable));
++
++	_rtw_memcpy(psetrttblparm,prate_table,sizeof(struct setratable_parm));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);	
++exit:
++_func_exit_;	
++	return res;
++
++}
++
++u8 rtw_getrttbl_cmd(_adapter  *padapter, struct getratable_rsp *pval)
++{
++	struct cmd_obj*			ph2c;
++	struct getratable_parm *	pgetrttblparm;	
++	struct cmd_priv 			*pcmdpriv=&padapter->cmdpriv;
++	u8	res=_SUCCESS;
++_func_enter_;	
++
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++	if(ph2c==NULL){
++		res= _FAIL;
++		goto exit;
++	}
++	pgetrttblparm = (struct getratable_parm*)rtw_zmalloc(sizeof(struct getratable_parm)); 
++
++	if(pgetrttblparm==NULL){
++		rtw_mfree((unsigned char *) ph2c, sizeof(struct	cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++//	init_h2fwcmd_w_parm_no_rsp(ph2c, psetrttblparm, GEN_CMD_CODE(_SetRaTable));
++
++	_rtw_init_listhead(&ph2c->list);
++	ph2c->cmdcode =GEN_CMD_CODE(_GetRaTable);
++	ph2c->parmbuf = (unsigned char *)pgetrttblparm;
++	ph2c->cmdsz =  sizeof(struct getratable_parm);
++	ph2c->rsp = (u8*)pval;
++	ph2c->rspsz = sizeof(struct getratable_rsp);
++	
++	pgetrttblparm ->rsvd = 0x0;
++	
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);	
++exit:
++_func_exit_;	
++	return res;
++
++}
++
++u8 rtw_setassocsta_cmd(_adapter  *padapter, u8 *mac_addr)
++{
++	struct cmd_priv 		*pcmdpriv = &padapter->cmdpriv;
++	struct cmd_obj*			ph2c;
++	struct set_assocsta_parm	*psetassocsta_para;	
++	struct set_stakey_rsp		*psetassocsta_rsp = NULL;
++
++	u8	res=_SUCCESS;
++
++_func_enter_;	
++
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++	if(ph2c==NULL){
++		res= _FAIL;
++		goto exit;
++	}
++
++	psetassocsta_para = (struct set_assocsta_parm*)rtw_zmalloc(sizeof(struct set_assocsta_parm));
++	if(psetassocsta_para==NULL){
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		res=_FAIL;
++		goto exit;
++	}
++
++	psetassocsta_rsp = (struct set_stakey_rsp*)rtw_zmalloc(sizeof(struct set_assocsta_rsp)); 
++	if(psetassocsta_rsp==NULL){
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		rtw_mfree((u8 *) psetassocsta_para, sizeof(struct set_assocsta_parm));
++		return _FAIL;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psetassocsta_para, _SetAssocSta_CMD_);
++	ph2c->rsp = (u8 *) psetassocsta_rsp;
++	ph2c->rspsz = sizeof(struct set_assocsta_rsp);
++
++	_rtw_memcpy(psetassocsta_para->addr, mac_addr,ETH_ALEN);
++	
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);	
++
++exit:
++
++_func_exit_;	
++
++	return res;
++ }
++
++u8 rtw_addbareq_cmd(_adapter*padapter, u8 tid, u8 *addr)
++{
++	struct cmd_priv		*pcmdpriv = &padapter->cmdpriv;
++	struct cmd_obj*		ph2c;
++	struct addBaReq_parm	*paddbareq_parm;
++
++	u8	res=_SUCCESS;
++	
++_func_enter_;	
++
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));	
++	if(ph2c==NULL){
++		res= _FAIL;
++		goto exit;
++	}
++	
++	paddbareq_parm = (struct addBaReq_parm*)rtw_zmalloc(sizeof(struct addBaReq_parm)); 
++	if(paddbareq_parm==NULL){
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct	cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	paddbareq_parm->tid = tid;
++	_rtw_memcpy(paddbareq_parm->addr, addr, ETH_ALEN);
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, paddbareq_parm, GEN_CMD_CODE(_AddBAReq));
++
++	//DBG_871X("rtw_addbareq_cmd, tid=%d\n", tid);
++
++	//rtw_enqueue_cmd(pcmdpriv, ph2c);	
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	
++exit:
++	
++_func_exit_;
++
++	return res;
++}
++//add for CONFIG_IEEE80211W, none 11w can use it
++u8 rtw_reset_securitypriv_cmd(_adapter*padapter)
++{
++	struct cmd_obj*		ph2c;
++	struct drvextra_cmd_parm  *pdrvextra_cmd_parm;	
++	struct cmd_priv	*pcmdpriv=&padapter->cmdpriv;
++	u8	res=_SUCCESS;
++	
++_func_enter_;	
++
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));	
++	if(ph2c==NULL){
++		res= _FAIL;
++		goto exit;
++	}
++	
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm*)rtw_zmalloc(sizeof(struct drvextra_cmd_parm)); 
++	if(pdrvextra_cmd_parm==NULL){
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = RESET_SECURITYPRIV;
++	pdrvextra_cmd_parm->type_size = 0;
++	pdrvextra_cmd_parm->pbuf = (u8 *)padapter;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	
++	//rtw_enqueue_cmd(pcmdpriv, ph2c);	
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	
++exit:
++	
++_func_exit_;
++
++	return res;
++
++}
++
++u8 rtw_free_assoc_resources_cmd(_adapter*padapter)
++{
++	struct cmd_obj*		ph2c;
++	struct drvextra_cmd_parm  *pdrvextra_cmd_parm;	
++	struct cmd_priv	*pcmdpriv=&padapter->cmdpriv;
++	u8	res=_SUCCESS;
++	
++_func_enter_;	
++
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));	
++	if(ph2c==NULL){
++		res= _FAIL;
++		goto exit;
++	}
++	
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm*)rtw_zmalloc(sizeof(struct drvextra_cmd_parm)); 
++	if(pdrvextra_cmd_parm==NULL){
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = FREE_ASSOC_RESOURCES;
++	pdrvextra_cmd_parm->type_size = 0;
++	pdrvextra_cmd_parm->pbuf = (u8 *)padapter;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	
++	//rtw_enqueue_cmd(pcmdpriv, ph2c);	
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	
++exit:
++	
++_func_exit_;
++
++	return res;
++
++}
++
++
++u8 rtw_dynamic_chk_wk_cmd(_adapter*padapter)
++{
++	struct cmd_obj*		ph2c;
++	struct drvextra_cmd_parm  *pdrvextra_cmd_parm;	
++	struct cmd_priv	*pcmdpriv=&padapter->cmdpriv;
++	u8	res=_SUCCESS;
++	
++_func_enter_;	
++
++	if ((padapter->bDriverStopped == _TRUE)||(padapter->bSurpriseRemoved== _TRUE))
++		goto exit;
++
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->adapter_type != PRIMARY_ADAPTER && padapter->pbuddy_adapter)
++		pcmdpriv = &(padapter->pbuddy_adapter->cmdpriv);
++#endif
++
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));	
++	if(ph2c==NULL){
++		res= _FAIL;
++		goto exit;
++	}
++	
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm*)rtw_zmalloc(sizeof(struct drvextra_cmd_parm)); 
++	if(pdrvextra_cmd_parm==NULL){
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = DYNAMIC_CHK_WK_CID;
++	pdrvextra_cmd_parm->type_size = 0;
++	pdrvextra_cmd_parm->pbuf = (u8 *)padapter;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	
++	//rtw_enqueue_cmd(pcmdpriv, ph2c);	
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	
++exit:
++	
++_func_exit_;
++
++	return res;
++
++}
++
++u8 rtw_set_ch_cmd(_adapter*padapter, u8 ch, u8 bw, u8 ch_offset, u8 enqueue)
++{
++	struct cmd_obj *pcmdobj;
++	struct set_ch_parm *set_ch_parm;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++
++	u8 res=_SUCCESS;
++
++_func_enter_;
++
++	DBG_871X(FUNC_NDEV_FMT" ch:%u, bw:%u, ch_offset:%u\n",
++		FUNC_NDEV_ARG(padapter->pnetdev), ch, bw, ch_offset);
++
++	/* check input parameter */
++
++	/* prepare cmd parameter */
++	set_ch_parm = (struct set_ch_parm *)rtw_zmalloc(sizeof(*set_ch_parm));
++	if (set_ch_parm == NULL) {
++		res= _FAIL;
++		goto exit;
++	}
++	set_ch_parm->ch = ch;
++	set_ch_parm->bw = bw;
++	set_ch_parm->ch_offset = ch_offset;
++
++	if (enqueue) {
++		/* need enqueue, prepare cmd_obj and enqueue */
++		pcmdobj = (struct cmd_obj*)rtw_zmalloc(sizeof(struct	cmd_obj));
++		if(pcmdobj == NULL){
++			rtw_mfree((u8 *)set_ch_parm, sizeof(*set_ch_parm));
++			res=_FAIL;
++			goto exit;
++		}
++
++		init_h2fwcmd_w_parm_no_rsp(pcmdobj, set_ch_parm, GEN_CMD_CODE(_SetChannel));
++		res = rtw_enqueue_cmd(pcmdpriv, pcmdobj);
++	} else {
++		/* no need to enqueue, do the cmd hdl directly and free cmd parameter */
++		if( H2C_SUCCESS !=set_ch_hdl(padapter, (u8 *)set_ch_parm) )
++			res = _FAIL;
++		
++		rtw_mfree((u8 *)set_ch_parm, sizeof(*set_ch_parm));
++	}
++
++	/* do something based on res... */
++
++exit:
++
++	DBG_871X(FUNC_NDEV_FMT" res:%u\n", FUNC_NDEV_ARG(padapter->pnetdev), res);
++
++_func_exit_;	
++
++	return res;
++}
++
++u8 rtw_set_chplan_cmd(_adapter*padapter, u8 chplan, u8 enqueue)
++{
++	struct	cmd_obj*	pcmdobj;
++	struct	SetChannelPlan_param *setChannelPlan_param;
++	struct	cmd_priv   *pcmdpriv = &padapter->cmdpriv;
++
++	u8	res=_SUCCESS;
++
++_func_enter_;
++
++	RT_TRACE(_module_rtl871x_cmd_c_, _drv_notice_, ("+rtw_set_chplan_cmd\n"));
++
++	//check input parameter
++	if(!rtw_is_channel_plan_valid(chplan)) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	//prepare cmd parameter
++	setChannelPlan_param = (struct	SetChannelPlan_param *)rtw_zmalloc(sizeof(struct SetChannelPlan_param));
++	if(setChannelPlan_param == NULL) {
++		res= _FAIL;
++		goto exit;
++	}
++	setChannelPlan_param->channel_plan=chplan;
++
++	if(enqueue)
++	{
++		//need enqueue, prepare cmd_obj and enqueue
++		pcmdobj = (struct	cmd_obj*)rtw_zmalloc(sizeof(struct	cmd_obj));
++		if(pcmdobj == NULL){
++			rtw_mfree((u8 *)setChannelPlan_param, sizeof(struct SetChannelPlan_param));
++			res=_FAIL;
++			goto exit;
++		}
++
++		init_h2fwcmd_w_parm_no_rsp(pcmdobj, setChannelPlan_param, GEN_CMD_CODE(_SetChannelPlan));
++		res = rtw_enqueue_cmd(pcmdpriv, pcmdobj);
++	}
++	else
++	{
++		//no need to enqueue, do the cmd hdl directly and free cmd parameter
++		if( H2C_SUCCESS !=set_chplan_hdl(padapter, (unsigned char *)setChannelPlan_param) )
++			res = _FAIL;
++		
++		rtw_mfree((u8 *)setChannelPlan_param, sizeof(struct SetChannelPlan_param));
++	}
++
++	//do something based on res...
++	if(res == _SUCCESS)
++		padapter->mlmepriv.ChannelPlan = chplan;
++	
++exit:
++
++_func_exit_;	
++
++	return res;
++}
++
++u8 rtw_led_blink_cmd(_adapter*padapter, PLED_871x pLed)
++{
++	struct	cmd_obj*	pcmdobj;
++	struct	LedBlink_param *ledBlink_param;
++	struct	cmd_priv   *pcmdpriv = &padapter->cmdpriv;
++
++	u8	res=_SUCCESS;
++
++_func_enter_;
++
++	RT_TRACE(_module_rtl871x_cmd_c_, _drv_notice_, ("+rtw_led_blink_cmd\n"));
++	
++	pcmdobj = (struct	cmd_obj*)rtw_zmalloc(sizeof(struct	cmd_obj));
++	if(pcmdobj == NULL){
++		res=_FAIL;
++		goto exit;
++	}
++
++	ledBlink_param = (struct	LedBlink_param *)rtw_zmalloc(sizeof(struct	LedBlink_param));
++	if(ledBlink_param == NULL) {
++		rtw_mfree((u8 *)pcmdobj, sizeof(struct cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	ledBlink_param->pLed=pLed;
++	
++	init_h2fwcmd_w_parm_no_rsp(pcmdobj, ledBlink_param, GEN_CMD_CODE(_LedBlink));
++	res = rtw_enqueue_cmd(pcmdpriv, pcmdobj);
++	
++exit:
++
++_func_exit_;	
++
++	return res;
++}
++
++u8 rtw_set_csa_cmd(_adapter*padapter, u8 new_ch_no)
++{
++	struct	cmd_obj*	pcmdobj;
++	struct	SetChannelSwitch_param*setChannelSwitch_param;
++	struct 	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct	cmd_priv   *pcmdpriv = &padapter->cmdpriv;
++
++	u8	res=_SUCCESS;
++
++_func_enter_;
++
++	RT_TRACE(_module_rtl871x_cmd_c_, _drv_notice_, ("+rtw_set_csa_cmd\n"));
++	
++	pcmdobj = (struct	cmd_obj*)rtw_zmalloc(sizeof(struct	cmd_obj));
++	if(pcmdobj == NULL){
++		res=_FAIL;
++		goto exit;
++	}
++
++	setChannelSwitch_param = (struct SetChannelSwitch_param *)rtw_zmalloc(sizeof(struct	SetChannelSwitch_param));
++	if(setChannelSwitch_param == NULL) {
++		rtw_mfree((u8 *)pcmdobj, sizeof(struct cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	setChannelSwitch_param->new_ch_no=new_ch_no;
++	
++	init_h2fwcmd_w_parm_no_rsp(pcmdobj, setChannelSwitch_param, GEN_CMD_CODE(_SetChannelSwitch));
++	res = rtw_enqueue_cmd(pcmdpriv, pcmdobj);
++	
++exit:
++
++_func_exit_;	
++
++	return res;
++}
++
++u8 rtw_tdls_cmd(_adapter *padapter, u8 *addr, u8 option)
++{
++	struct	cmd_obj*	pcmdobj;
++	struct	TDLSoption_param	*TDLSoption;
++	struct 	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct	cmd_priv   *pcmdpriv = &padapter->cmdpriv;
++
++	u8	res=_SUCCESS;
++
++_func_enter_;
++
++#ifdef CONFIG_TDLS
++
++	RT_TRACE(_module_rtl871x_cmd_c_, _drv_notice_, ("+rtw_set_tdls_cmd\n"));
++
++	pcmdobj = (struct	cmd_obj*)rtw_zmalloc(sizeof(struct	cmd_obj));
++	if(pcmdobj == NULL){
++		res=_FAIL;
++		goto exit;
++	}
++
++	TDLSoption= (struct TDLSoption_param *)rtw_zmalloc(sizeof(struct TDLSoption_param));
++	if(TDLSoption == NULL) {
++		rtw_mfree((u8 *)pcmdobj, sizeof(struct cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	_rtw_spinlock(&(padapter->tdlsinfo.cmd_lock));
++	_rtw_memcpy(TDLSoption->addr, addr, 6);	
++	TDLSoption->option = option;
++	_rtw_spinunlock(&(padapter->tdlsinfo.cmd_lock));
++	init_h2fwcmd_w_parm_no_rsp(pcmdobj, TDLSoption, GEN_CMD_CODE(_TDLS));
++	res = rtw_enqueue_cmd(pcmdpriv, pcmdobj);
++
++#endif	//CONFIG_TDLS
++	
++exit:
++
++
++_func_exit_;	
++
++	return res;
++}
++
++static void traffic_status_watchdog(_adapter *padapter)
++{
++#ifdef CONFIG_LPS
++	u8	bEnterPS;
++#endif
++	u16	BusyThreshold = 100;
++	u8	bBusyTraffic = _FALSE, bTxBusyTraffic = _FALSE, bRxBusyTraffic = _FALSE;
++	u8	bHigherBusyTraffic = _FALSE, bHigherBusyRxTraffic = _FALSE, bHigherBusyTxTraffic = _FALSE;
++	struct mlme_priv		*pmlmepriv = &(padapter->mlmepriv);
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &(padapter->tdlsinfo);
++#endif //CONFIG_TDLS
++
++	RT_LINK_DETECT_T * link_detect = &pmlmepriv->LinkDetectInfo;
++
++	//
++	// Determine if our traffic is busy now
++	//
++	if((check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE) 
++		/*&& !MgntInitAdapterInProgress(pMgntInfo)*/)
++	{
++
++		// if we raise bBusyTraffic in last watchdog, using lower threshold.
++		if (pmlmepriv->LinkDetectInfo.bBusyTraffic)
++			BusyThreshold = 75;
++		if( pmlmepriv->LinkDetectInfo.NumRxOkInPeriod > BusyThreshold ||
++			pmlmepriv->LinkDetectInfo.NumTxOkInPeriod > BusyThreshold )
++		{
++			bBusyTraffic = _TRUE;
++
++			if(pmlmepriv->LinkDetectInfo.NumRxOkInPeriod > BusyThreshold)
++				bRxBusyTraffic = _TRUE;
++
++			if(pmlmepriv->LinkDetectInfo.NumTxOkInPeriod > BusyThreshold)
++				bTxBusyTraffic = _TRUE;
++		}
++
++		// Higher Tx/Rx data.
++		if( pmlmepriv->LinkDetectInfo.NumRxOkInPeriod > 4000 ||
++			pmlmepriv->LinkDetectInfo.NumTxOkInPeriod > 4000 )
++		{
++			bHigherBusyTraffic = _TRUE;
++
++			// Extremely high Rx data.
++			if(pmlmepriv->LinkDetectInfo.NumRxOkInPeriod > 5000)
++				bHigherBusyRxTraffic = _TRUE;
++
++			// Extremely high Tx data.
++			if(pmlmepriv->LinkDetectInfo.NumTxOkInPeriod > 5000)
++				bHigherBusyTxTraffic = _TRUE;
++		}
++
++#ifdef CONFIG_TRAFFIC_PROTECT
++#define TX_ACTIVE_TH 2
++#define RX_ACTIVE_TH 1
++#define TRAFFIC_PROTECT_PERIOD_MS 4500
++
++	if (link_detect->NumTxOkInPeriod > TX_ACTIVE_TH
++		|| link_detect->NumRxUnicastOkInPeriod > RX_ACTIVE_TH) {
++
++		LOG_LEVEL(_drv_info_, FUNC_ADPT_FMT" acqiure wake_lock for %u ms(tx:%d,rx_unicast:%d)\n",
++			FUNC_ADPT_ARG(padapter),
++			TRAFFIC_PROTECT_PERIOD_MS,
++			link_detect->NumTxOkInPeriod,
++			link_detect->NumRxUnicastOkInPeriod);
++
++		rtw_lock_suspend_timeout(TRAFFIC_PROTECT_PERIOD_MS);
++	}
++#endif
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_AUTOSETUP
++		if( ( ptdlsinfo->watchdog_count % TDLS_WATCHDOG_PERIOD ) == 0 )	//TDLS_WATCHDOG_PERIOD * 2sec, periodically sending
++			issue_tdls_dis_req( padapter, NULL );
++		ptdlsinfo->watchdog_count++;
++#endif //CONFIG_TDLS_AUTOSETUP
++#endif //CONFIG_TDLS
++
++#ifdef CONFIG_LPS
++		// check traffic for  powersaving.
++		if( ((pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod + pmlmepriv->LinkDetectInfo.NumTxOkInPeriod) > 8 ) ||
++			(pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod > 2) )
++		{
++			//DBG_871X("Tx = %d, Rx = %d \n",pmlmepriv->LinkDetectInfo.NumTxOkInPeriod,pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod);
++			bEnterPS= _FALSE;
++		}
++		else
++		{
++			bEnterPS= _TRUE;
++		}
++
++		// LeisurePS only work in infra mode.
++		if(bEnterPS)
++		{
++			LPS_Enter(padapter);
++		}
++		else
++		{
++			LPS_Leave(padapter);
++		}
++#endif
++	}
++	else
++	{
++#ifdef CONFIG_LPS
++		LPS_Leave(padapter);
++#endif
++	}
++
++	pmlmepriv->LinkDetectInfo.NumRxOkInPeriod = 0;
++	pmlmepriv->LinkDetectInfo.NumTxOkInPeriod = 0;
++	pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod = 0;
++	pmlmepriv->LinkDetectInfo.bBusyTraffic = bBusyTraffic;
++	pmlmepriv->LinkDetectInfo.bTxBusyTraffic = bTxBusyTraffic;
++	pmlmepriv->LinkDetectInfo.bRxBusyTraffic = bRxBusyTraffic;
++	pmlmepriv->LinkDetectInfo.bHigherBusyTraffic = bHigherBusyTraffic;
++	pmlmepriv->LinkDetectInfo.bHigherBusyRxTraffic = bHigherBusyRxTraffic;
++	pmlmepriv->LinkDetectInfo.bHigherBusyTxTraffic = bHigherBusyTxTraffic;
++	
++}
++
++void dynamic_chk_wk_hdl(_adapter *padapter, u8 *pbuf, int sz);
++void dynamic_chk_wk_hdl(_adapter *padapter, u8 *pbuf, int sz)
++{
++	struct mlme_priv *pmlmepriv;
++	
++	if ((padapter->bDriverStopped == _TRUE)||(padapter->bSurpriseRemoved== _TRUE))
++		return;
++
++	if((void*)padapter != (void*)pbuf && padapter->pbuddy_adapter == NULL)
++		return;		
++
++	padapter = (_adapter *)pbuf;
++
++	if ((padapter->bDriverStopped == _TRUE)||(padapter->bSurpriseRemoved== _TRUE))
++		return;
++
++	pmlmepriv = &(padapter->mlmepriv);
++
++#ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++#ifdef CONFIG_AP_MODE
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++	{			
++		expire_timeout_chk(padapter);
++	}
++#endif
++#endif //CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++
++	#ifdef DBG_CONFIG_ERROR_DETECT	
++	rtw_hal_sreset_xmit_status_check(padapter);
++	#endif	
++
++	//if(check_fwstate(pmlmepriv, _FW_UNDER_LINKING|_FW_UNDER_SURVEY)==_FALSE)
++	{
++		linked_status_chk(padapter);	
++		traffic_status_watchdog(padapter);
++	}
++
++	rtw_hal_dm_watchdog(padapter);
++
++	//check_hw_pbc(padapter, pdrvextra_cmd->pbuf, pdrvextra_cmd->type_size);	
++
++}
++
++#ifdef CONFIG_LPS
++
++void lps_ctrl_wk_hdl(_adapter *padapter, u8 lps_ctrl_type);
++void lps_ctrl_wk_hdl(_adapter *padapter, u8 lps_ctrl_type)
++{
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	u8	mstatus;
++	
++_func_enter_;
++
++	if((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE)
++		|| (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE))
++	{
++		return;
++	}
++
++	switch(lps_ctrl_type)
++	{
++		case LPS_CTRL_SCAN:
++			//DBG_871X("LPS_CTRL_SCAN \n");
++			LeaveAllPowerSaveMode(padapter);
++			break;
++		case LPS_CTRL_JOINBSS:
++			//DBG_871X("LPS_CTRL_JOINBSS \n");
++			LPS_Leave(padapter);
++			break;
++		case LPS_CTRL_CONNECT:
++			//DBG_871X("LPS_CTRL_CONNECT \n");
++			mstatus = 1;
++			// Reset LPS Setting
++			padapter->pwrctrlpriv.LpsIdleCount = 0;
++			rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_JOINBSSRPT, (u8 *)(&mstatus));
++			break;
++		case LPS_CTRL_DISCONNECT:
++			//DBG_871X("LPS_CTRL_DISCONNECT \n");
++			mstatus = 0;
++			LPS_Leave(padapter);
++			rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_JOINBSSRPT, (u8 *)(&mstatus));
++			break;
++		case LPS_CTRL_SPECIAL_PACKET:
++			//DBG_871X("LPS_CTRL_SPECIAL_PACKET \n");
++			pwrpriv->DelayLPSLastTimeStamp = rtw_get_current_time();
++			LPS_Leave(padapter);
++			break;
++
++		default:
++			break;
++	}
++
++_func_exit_;
++}
++
++u8 rtw_lps_ctrl_wk_cmd(_adapter*padapter, u8 lps_ctrl_type, u8 enqueue)
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;	
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	//struct pwrctrl_priv *pwrctrlpriv = &padapter->pwrctrlpriv;
++	u8	res = _SUCCESS;
++	
++_func_enter_;
++
++	//if(!pwrctrlpriv->bLeisurePs)
++	//	return res;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->iface_type != IFACE_PORT0)
++		return res;
++#endif
++
++	if(enqueue)
++	{
++		ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));	
++		if(ph2c==NULL){
++			res= _FAIL;
++			goto exit;
++		}
++		
++		pdrvextra_cmd_parm = (struct drvextra_cmd_parm*)rtw_zmalloc(sizeof(struct drvextra_cmd_parm)); 
++		if(pdrvextra_cmd_parm==NULL){
++			rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++			res= _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm->ec_id = LPS_CTRL_WK_CID;
++		pdrvextra_cmd_parm->type_size = lps_ctrl_type;
++		pdrvextra_cmd_parm->pbuf = NULL;
++
++		init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	}
++	else
++	{
++		lps_ctrl_wk_hdl(padapter, lps_ctrl_type);
++	}
++	
++exit:
++	
++_func_exit_;
++
++	return res;
++
++}
++
++#endif
++#ifdef CONFIG_ANTENNA_DIVERSITY
++
++void antenna_select_wk_hdl(_adapter *padapter, u8 antenna)
++{
++	rtw_hal_set_hwreg(padapter, HW_VAR_ANTENNA_DIVERSITY_SELECT, (u8 *)(&antenna));
++}
++
++u8 rtw_antenna_select_cmd(_adapter*padapter, u8 antenna,u8 enqueue)
++{
++	struct cmd_obj		*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;	
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8 	bSupportAntDiv = _FALSE;
++	u8	res = _SUCCESS;
++
++_func_enter_;
++	rtw_hal_get_def_var(padapter, HAL_DEF_IS_SUPPORT_ANT_DIV, &(bSupportAntDiv));
++	if(_FALSE == bSupportAntDiv )	return res;
++
++	if(_TRUE == enqueue)
++	{
++		ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));	
++		if(ph2c==NULL){
++			res= _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm = (struct drvextra_cmd_parm*)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++		if(pdrvextra_cmd_parm==NULL){
++			rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++			res= _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm->ec_id = ANT_SELECT_WK_CID;
++		pdrvextra_cmd_parm->type_size = antenna;
++		pdrvextra_cmd_parm->pbuf = NULL;
++		init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	}
++	else{
++		antenna_select_wk_hdl(padapter,antenna );
++	}
++exit:
++
++_func_exit_;
++
++	return res;
++
++}
++#endif
++
++void power_saving_wk_hdl(_adapter *padapter, u8 *pbuf, int sz);
++void power_saving_wk_hdl(_adapter *padapter, u8 *pbuf, int sz)
++{
++	 rtw_ps_processor(padapter);
++}
++
++//add for CONFIG_IEEE80211W, none 11w can use it
++void reset_securitypriv_hdl(_adapter *padapter)
++{
++	 rtw_reset_securitypriv(padapter);
++}
++
++void free_assoc_resources_hdl(_adapter *padapter)
++{
++	 rtw_free_assoc_resources(padapter, 1);
++}
++
++#ifdef CONFIG_P2P
++u8 p2p_protocol_wk_cmd(_adapter*padapter, int intCmdType )
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct wifidirect_info	*pwdinfo= &(padapter->wdinfo);
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++	
++_func_enter_;
++
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++	{
++		return res;
++	}
++
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));	
++	if(ph2c==NULL){
++		res= _FAIL;
++		goto exit;
++	}
++			
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm*)rtw_zmalloc(sizeof(struct drvextra_cmd_parm)); 
++	if(pdrvextra_cmd_parm==NULL){
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = P2P_PROTO_WK_CID;
++	pdrvextra_cmd_parm->type_size = intCmdType;	//	As the command tppe.
++	pdrvextra_cmd_parm->pbuf = NULL;		//	Must be NULL here
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	
++exit:
++	
++_func_exit_;
++
++	return res;
++
++}
++#endif //CONFIG_P2P
++
++u8 rtw_ps_cmd(_adapter*padapter)
++{
++	struct cmd_obj		*ppscmd;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;	
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	
++	u8	res = _SUCCESS;
++_func_enter_;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->adapter_type != PRIMARY_ADAPTER)
++		goto exit;
++#endif
++	
++	ppscmd = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));	
++	if(ppscmd==NULL){
++		res= _FAIL;
++		goto exit;
++	}
++		
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm*)rtw_zmalloc(sizeof(struct drvextra_cmd_parm)); 
++	if(pdrvextra_cmd_parm==NULL){
++		rtw_mfree((unsigned char *)ppscmd, sizeof(struct cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = POWER_SAVING_CTRL_WK_CID;	
++	pdrvextra_cmd_parm->pbuf = NULL;
++	init_h2fwcmd_w_parm_no_rsp(ppscmd, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ppscmd);
++	
++exit:
++	
++_func_exit_;
++
++	return res;
++
++}
++
++#ifdef CONFIG_AP_MODE
++
++static void rtw_chk_hi_queue_hdl(_adapter *padapter)
++{
++	int cnt=0;
++	struct sta_info *psta_bmc;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	psta_bmc = rtw_get_bcmc_stainfo(padapter);
++	if(!psta_bmc)
++		return;
++
++
++	if(psta_bmc->sleepq_len==0)
++	{
++		while((rtw_read32(padapter, 0x414)&0x00ffff00)!=0)
++		{
++			rtw_msleep_os(100);
++
++			cnt++;
++			
++			if(cnt>10)
++				break;	
++		}
++
++		if(cnt<=10)
++		{
++			pstapriv->tim_bitmap &= ~BIT(0);
++			pstapriv->sta_dz_bitmap &= ~BIT(0);
++			
++			update_beacon(padapter, _TIM_IE_, NULL, _FALSE);
++		}	
++	}	
++	
++}
++
++u8 rtw_chk_hi_queue_cmd(_adapter*padapter)
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;	
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++	
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));	
++	if(ph2c==NULL){
++		res= _FAIL;
++		goto exit;
++	}
++			
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm*)rtw_zmalloc(sizeof(struct drvextra_cmd_parm)); 
++	if(pdrvextra_cmd_parm==NULL){
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = CHECK_HIQ_WK_CID;
++	pdrvextra_cmd_parm->type_size = 0;
++	pdrvextra_cmd_parm->pbuf = NULL;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	
++exit:
++	
++	return res;
++
++}
++#endif
++
++u8 rtw_c2h_wk_cmd(PADAPTER padapter, u8 *c2h_evt)
++{
++	struct cmd_obj *ph2c;
++	struct drvextra_cmd_parm *pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm*)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((u8*)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = C2H_WK_CID;
++	pdrvextra_cmd_parm->type_size = c2h_evt?16:0;
++	pdrvextra_cmd_parm->pbuf = c2h_evt;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	
++exit:
++	
++	return res;
++}
++
++s32 c2h_evt_hdl(_adapter *adapter, struct c2h_evt_hdr *c2h_evt, c2h_id_filter filter)
++{
++	s32 ret = _FAIL;
++	u8 buf[16];
++
++	if (!c2h_evt) {
++		/* No c2h event in cmd_obj, read c2h event before handling*/
++		if (c2h_evt_read(adapter, buf) == _SUCCESS) {
++			c2h_evt = (struct c2h_evt_hdr *)buf;
++			
++			if (filter && filter(c2h_evt->id) == _FALSE)
++				goto exit;
++
++			ret = rtw_hal_c2h_handler(adapter, c2h_evt);
++		}
++	} else {
++
++		if (filter && filter(c2h_evt->id) == _FALSE)
++			goto exit;
++
++		ret = rtw_hal_c2h_handler(adapter, c2h_evt);
++	}
++exit:
++	return ret;
++}
++
++#ifdef CONFIG_C2H_WK
++static void c2h_wk_callback(_workitem *work)
++{
++	struct evt_priv *evtpriv = container_of(work, struct evt_priv, c2h_wk);
++	_adapter *adapter = container_of(evtpriv, _adapter, evtpriv);
++	struct c2h_evt_hdr *c2h_evt;
++	c2h_id_filter ccx_id_filter = rtw_hal_c2h_id_filter_ccx(adapter);
++
++	evtpriv->c2h_wk_alive = _TRUE;
++
++	while (!rtw_cbuf_empty(evtpriv->c2h_queue)) {
++		if ((c2h_evt = (struct c2h_evt_hdr *)rtw_cbuf_pop(evtpriv->c2h_queue)) != NULL) {
++			/* This C2H event is read, clear it */
++			c2h_evt_clear(adapter);
++		} else if ((c2h_evt = (struct c2h_evt_hdr *)rtw_malloc(16)) != NULL) {
++			/* This C2H event is not read, read & clear now */
++			if (c2h_evt_read(adapter, (u8*)c2h_evt) != _SUCCESS)
++				continue;
++		}
++
++		/* Special pointer to trigger c2h_evt_clear only */
++		if ((void *)c2h_evt == (void *)evtpriv)
++			continue;
++
++		if (!c2h_evt_exist(c2h_evt)) {
++			rtw_mfree((u8*)c2h_evt, 16);
++			continue;
++		}
++		
++		if (ccx_id_filter(c2h_evt->id) == _TRUE) {
++			/* Handle CCX report here */
++			rtw_hal_c2h_handler(adapter, c2h_evt);
++			rtw_mfree((u8*)c2h_evt, 16);
++		} else {
++			/* Enqueue into cmd_thread for others */
++			rtw_c2h_wk_cmd(adapter, (u8 *)c2h_evt);
++		}
++	}
++
++	evtpriv->c2h_wk_alive = _FALSE;
++}
++#endif
++
++u8 rtw_drvextra_cmd_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct drvextra_cmd_parm *pdrvextra_cmd;
++
++	if(!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	pdrvextra_cmd = (struct drvextra_cmd_parm*)pbuf;
++	
++	switch(pdrvextra_cmd->ec_id)
++	{
++		case DYNAMIC_CHK_WK_CID:
++			dynamic_chk_wk_hdl(padapter, pdrvextra_cmd->pbuf, pdrvextra_cmd->type_size);
++			break;
++		case POWER_SAVING_CTRL_WK_CID:
++			power_saving_wk_hdl(padapter, pdrvextra_cmd->pbuf, pdrvextra_cmd->type_size);	
++			break;
++#ifdef CONFIG_LPS
++		case LPS_CTRL_WK_CID:
++			lps_ctrl_wk_hdl(padapter, (u8)pdrvextra_cmd->type_size);
++			break;
++#endif
++#ifdef CONFIG_ANTENNA_DIVERSITY
++		case ANT_SELECT_WK_CID:
++			antenna_select_wk_hdl(padapter, pdrvextra_cmd->type_size);
++			break;
++#endif
++#ifdef CONFIG_P2P_PS
++		case P2P_PS_WK_CID:
++			p2p_ps_wk_hdl(padapter, pdrvextra_cmd->type_size);
++			break;
++#endif // CONFIG_P2P_PS
++		case P2P_PROTO_WK_CID:
++			//	Commented by Albert 2011/07/01
++			//	I used the type_size as the type command
++			p2p_protocol_wk_hdl( padapter, pdrvextra_cmd->type_size );
++			break;
++#ifdef CONFIG_AP_MODE
++		case CHECK_HIQ_WK_CID:
++			rtw_chk_hi_queue_hdl(padapter);
++			break;
++#endif //CONFIG_AP_MODE
++#ifdef CONFIG_INTEL_WIDI
++		case INTEl_WIDI_WK_CID:
++			intel_widi_wk_hdl(padapter, pdrvextra_cmd->type_size, pdrvextra_cmd->pbuf);
++			break;
++#endif //CONFIG_INTEL_WIDI
++		//add for CONFIG_IEEE80211W, none 11w can use it
++		case RESET_SECURITYPRIV:
++			reset_securitypriv_hdl(padapter);
++			break;
++		case FREE_ASSOC_RESOURCES:
++			free_assoc_resources_hdl(padapter);
++			break;
++		case C2H_WK_CID:
++			c2h_evt_hdl(padapter, (struct c2h_evt_hdr *)pdrvextra_cmd->pbuf, NULL);
++			break;
++
++		default:
++			break;
++	}
++
++
++	if(pdrvextra_cmd->pbuf && pdrvextra_cmd->type_size>0)
++	{
++		rtw_mfree(pdrvextra_cmd->pbuf, pdrvextra_cmd->type_size);
++	}
++
++
++	return H2C_SUCCESS;
++
++}
++
++void rtw_survey_cmd_callback(_adapter*	padapter ,  struct cmd_obj *pcmd)
++{
++	struct 	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++_func_enter_;
++
++	if(pcmd->res == H2C_DROPPED)
++	{
++		//TODO: cancel timer and do timeout handler directly...
++		//need to make timeout handlerOS independent
++		_set_timer(&pmlmepriv->scan_to_timer, 1);
++	}
++	else if (pcmd->res != H2C_SUCCESS) {
++		_set_timer(&pmlmepriv->scan_to_timer, 1);
++		RT_TRACE(_module_rtl871x_cmd_c_,_drv_err_,("\n ********Error: MgntActrtw_set_802_11_bssid_LIST_SCAN Fail ************\n\n."));
++	} 
++
++	// free cmd
++	rtw_free_cmd_obj(pcmd);
++
++_func_exit_;	
++}
++void rtw_disassoc_cmd_callback(_adapter*	padapter,  struct cmd_obj *pcmd)
++{
++	_irqL	irqL;
++	struct 	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	
++_func_enter_;	
++
++	if (pcmd->res != H2C_SUCCESS)
++	{
++		_enter_critical_bh(&pmlmepriv->lock, &irqL);
++		set_fwstate(pmlmepriv, _FW_LINKED);
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++				
++		RT_TRACE(_module_rtl871x_cmd_c_,_drv_err_,("\n ***Error: disconnect_cmd_callback Fail ***\n."));
++
++		goto exit;
++	}
++#ifdef CONFIG_BR_EXT
++	else //clear bridge database
++		nat25_db_cleanup(padapter);
++#endif //CONFIG_BR_EXT
++
++	// free cmd
++	rtw_free_cmd_obj(pcmd);
++	
++exit:
++	
++_func_exit_;	
++}
++
++
++void rtw_joinbss_cmd_callback(_adapter*	padapter,  struct cmd_obj *pcmd)
++{
++	struct 	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++_func_enter_;	
++
++	if(pcmd->res == H2C_DROPPED)
++	{
++		//TODO: cancel timer and do timeout handler directly...
++		//need to make timeout handlerOS independent
++		_set_timer(&pmlmepriv->assoc_timer, 1);
++	}
++	else if(pcmd->res != H2C_SUCCESS)
++	{				
++		RT_TRACE(_module_rtl871x_cmd_c_,_drv_err_,("********Error:rtw_select_and_join_from_scanned_queue Wait Sema  Fail ************\n"));
++		_set_timer(&pmlmepriv->assoc_timer, 1);	
++	}
++	
++	rtw_free_cmd_obj(pcmd);
++	
++_func_exit_;	
++}
++
++void rtw_createbss_cmd_callback(_adapter *padapter, struct cmd_obj *pcmd)
++{	
++	_irqL irqL;
++	u8 timer_cancelled;
++	struct sta_info *psta = NULL;
++	struct wlan_network *pwlan = NULL;		
++	struct 	mlme_priv *pmlmepriv = &padapter->mlmepriv;	
++	WLAN_BSSID_EX *pnetwork = (WLAN_BSSID_EX *)pcmd->parmbuf;
++	struct wlan_network *tgt_network = &(pmlmepriv->cur_network);
++
++_func_enter_;	
++
++	if((pcmd->res != H2C_SUCCESS))
++	{	
++		RT_TRACE(_module_rtl871x_cmd_c_,_drv_err_,("\n ********Error: rtw_createbss_cmd_callback  Fail ************\n\n."));
++		_set_timer(&pmlmepriv->assoc_timer, 1 );		
++	}
++	
++	_cancel_timer(&pmlmepriv->assoc_timer, &timer_cancelled);
++
++#ifdef CONFIG_FW_MLMLE
++       //endian_convert
++	pnetwork->Length = le32_to_cpu(pnetwork->Length);
++  	pnetwork->Ssid.SsidLength = le32_to_cpu(pnetwork->Ssid.SsidLength);
++	pnetwork->Privacy =le32_to_cpu(pnetwork->Privacy);
++	pnetwork->Rssi = le32_to_cpu(pnetwork->Rssi);
++	pnetwork->NetworkTypeInUse =le32_to_cpu(pnetwork->NetworkTypeInUse);	
++	pnetwork->Configuration.ATIMWindow = le32_to_cpu(pnetwork->Configuration.ATIMWindow);
++	//pnetwork->Configuration.BeaconPeriod = le32_to_cpu(pnetwork->Configuration.BeaconPeriod);
++	pnetwork->Configuration.DSConfig =le32_to_cpu(pnetwork->Configuration.DSConfig);
++	pnetwork->Configuration.FHConfig.DwellTime=le32_to_cpu(pnetwork->Configuration.FHConfig.DwellTime);
++	pnetwork->Configuration.FHConfig.HopPattern=le32_to_cpu(pnetwork->Configuration.FHConfig.HopPattern);
++	pnetwork->Configuration.FHConfig.HopSet=le32_to_cpu(pnetwork->Configuration.FHConfig.HopSet);
++	pnetwork->Configuration.FHConfig.Length=le32_to_cpu(pnetwork->Configuration.FHConfig.Length);	
++	pnetwork->Configuration.Length = le32_to_cpu(pnetwork->Configuration.Length);
++	pnetwork->InfrastructureMode = le32_to_cpu(pnetwork->InfrastructureMode);
++	pnetwork->IELength = le32_to_cpu(pnetwork->IELength);
++#endif
++	
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	
++	
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) )
++	{
++		psta = rtw_get_stainfo(&padapter->stapriv, pnetwork->MacAddress);
++		if(!psta)
++		{
++		psta = rtw_alloc_stainfo(&padapter->stapriv, pnetwork->MacAddress);
++		if (psta == NULL) 
++		{ 
++			RT_TRACE(_module_rtl871x_cmd_c_,_drv_err_,("\nCan't alloc sta_info when createbss_cmd_callback\n"));
++			goto createbss_cmd_fail ;
++		}
++		}	
++			
++		rtw_indicate_connect( padapter);
++	}
++	else
++	{	
++		_irqL	irqL;
++
++		pwlan = _rtw_alloc_network(pmlmepriv);
++		_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		if ( pwlan == NULL)
++		{
++			pwlan = rtw_get_oldest_wlan_network(&pmlmepriv->scanned_queue);
++			if( pwlan == NULL)
++			{
++				RT_TRACE(_module_rtl871x_cmd_c_,_drv_err_,("\n Error:  can't get pwlan in rtw_joinbss_event_callback \n"));
++				_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++				goto createbss_cmd_fail;
++			}
++			pwlan->last_scanned = rtw_get_current_time();			
++		}	
++		else
++		{
++			rtw_list_insert_tail(&(pwlan->list), &pmlmepriv->scanned_queue.queue);
++		}
++				
++		pnetwork->Length = get_WLAN_BSSID_EX_sz(pnetwork);
++		_rtw_memcpy(&(pwlan->network), pnetwork, pnetwork->Length);
++		//pwlan->fixed = _TRUE;
++
++		//rtw_list_insert_tail(&(pwlan->list), &pmlmepriv->scanned_queue.queue);
++
++		// copy pdev_network information to 	pmlmepriv->cur_network
++		_rtw_memcpy(&tgt_network->network, pnetwork, (get_WLAN_BSSID_EX_sz(pnetwork)));
++
++		// reset DSConfig
++		//tgt_network->network.Configuration.DSConfig = (u32)rtw_ch2freq(pnetwork->Configuration.DSConfig);
++
++		_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++
++#if 0		
++		if((pmlmepriv->fw_state) & WIFI_AP_STATE)
++		{
++			psta = rtw_alloc_stainfo(&padapter->stapriv, pnetwork->MacAddress);
++
++			if (psta == NULL) { // for AP Mode & Adhoc Master Mode
++				RT_TRACE(_module_rtl871x_cmd_c_,_drv_err_,("\nCan't alloc sta_info when createbss_cmd_callback\n"));
++				goto createbss_cmd_fail ;
++			}
++			
++			rtw_indicate_connect( padapter);
++		}
++		else {
++
++			//rtw_indicate_disconnect(dev);
++		}		
++#endif
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		// we will set _FW_LINKED when there is one more sat to join us (rtw_stassoc_event_callback)
++			
++	}
++
++createbss_cmd_fail:
++	
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++	rtw_free_cmd_obj(pcmd);
++	
++_func_exit_;	
++
++}
++
++
++
++void rtw_setstaKey_cmdrsp_callback(_adapter*	padapter ,  struct cmd_obj *pcmd)
++{
++	
++	struct sta_priv * pstapriv = &padapter->stapriv;
++	struct set_stakey_rsp* psetstakey_rsp = (struct set_stakey_rsp*) (pcmd->rsp);
++	struct sta_info*	psta = rtw_get_stainfo(pstapriv, psetstakey_rsp->addr);
++
++_func_enter_;	
++
++	if(psta==NULL)
++	{
++		RT_TRACE(_module_rtl871x_cmd_c_,_drv_err_,("\nERROR: rtw_setstaKey_cmdrsp_callback => can't get sta_info \n\n"));
++		goto exit;
++	}
++	
++	//psta->aid = psta->mac_id = psetstakey_rsp->keyid; //CAM_ID(CAM_ENTRY)
++	
++exit:	
++
++	rtw_free_cmd_obj(pcmd);
++	
++_func_exit_;	
++
++}
++void rtw_setassocsta_cmdrsp_callback(_adapter*	padapter,  struct cmd_obj *pcmd)
++{
++	_irqL	irqL;
++	struct sta_priv * pstapriv = &padapter->stapriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;	
++	struct set_assocsta_parm* passocsta_parm = (struct set_assocsta_parm*)(pcmd->parmbuf);
++	struct set_assocsta_rsp* passocsta_rsp = (struct set_assocsta_rsp*) (pcmd->rsp);		
++	struct sta_info*	psta = rtw_get_stainfo(pstapriv, passocsta_parm->addr);
++
++_func_enter_;	
++	
++	if(psta==NULL)
++	{
++		RT_TRACE(_module_rtl871x_cmd_c_,_drv_err_,("\nERROR: setassocsta_cmdrsp_callbac => can't get sta_info \n\n"));
++		goto exit;
++	}
++	
++	psta->aid = psta->mac_id = passocsta_rsp->cam_id;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	if ((check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE) && (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE))           	
++		_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++
++       set_fwstate(pmlmepriv, _FW_LINKED);       	   
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++exit:	  
++	rtw_free_cmd_obj(pcmd);
++
++_func_exit_;	  
++}
++
++void rtw_getrttbl_cmd_cmdrsp_callback(_adapter*	padapter,  struct cmd_obj *pcmd);
++void rtw_getrttbl_cmd_cmdrsp_callback(_adapter*	padapter,  struct cmd_obj *pcmd)
++{
++_func_enter_;	
++	  
++	rtw_free_cmd_obj(pcmd);
++#ifdef CONFIG_MP_INCLUDED
++	padapter->mppriv.workparam.bcompleted=_TRUE;
++#endif
++
++_func_exit_;	  
++
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_debug.c b/drivers/net/wireless/rtl8192cu/core/rtw_debug.c
+new file mode 100755
+index 0000000..f70fcb7
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_debug.c
+@@ -0,0 +1,1337 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_DEBUG_C_
++
++
++#include <rtw_debug.h>
++#include <../hal/dm.h>
++
++//#ifdef CONFIG_DEBUG_RTL871X
++
++	u32 GlobalDebugLevel = _drv_err_;
++
++	u64 GlobalDebugComponents = \
++			_module_rtl871x_xmit_c_ |
++			_module_xmit_osdep_c_ |
++			_module_rtl871x_recv_c_ |
++			_module_recv_osdep_c_ |
++			_module_rtl871x_mlme_c_ |
++			_module_mlme_osdep_c_ |
++			_module_rtl871x_sta_mgt_c_ |
++			_module_rtl871x_cmd_c_ |
++			_module_cmd_osdep_c_ |
++			_module_rtl871x_io_c_ |
++			_module_io_osdep_c_ |
++			_module_os_intfs_c_|
++			_module_rtl871x_security_c_|
++			_module_rtl871x_eeprom_c_|
++			_module_hal_init_c_|
++			_module_hci_hal_init_c_|
++			_module_rtl871x_ioctl_c_|
++			_module_rtl871x_ioctl_set_c_|
++			_module_rtl871x_ioctl_query_c_|
++			_module_rtl871x_pwrctrl_c_|
++			_module_hci_intfs_c_|
++			_module_hci_ops_c_|
++			_module_hci_ops_os_c_|
++			_module_rtl871x_ioctl_os_c|
++			_module_rtl8712_cmd_c_|
++			_module_hal_xmit_c_|
++			_module_rtl8712_recv_c_ |
++			_module_mp_ |
++			_module_efuse_;
++
++//#endif
++
++#ifdef CONFIG_PROC_DEBUG
++#include <rtw_version.h>
++
++int proc_get_drv_version(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	
++	int len = 0;
++
++	len += snprintf(page + len, count - len, "%s\n", DRIVERVERSION);
++				
++	*eof = 1;
++	return len;
++}
++
++int proc_get_log_level(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	
++	int len = 0;
++
++	len += snprintf(page + len, count - len,
++		"log_level:%d\n",
++		GlobalDebugLevel
++		);
++
++	*eof = 1;
++	return len;
++}
++
++int proc_set_log_level(struct file *file, const char *buffer,
++		unsigned long count, void *data)
++{
++	struct net_device *dev = (struct net_device *)data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u32 is_signal_dbg;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (buffer && !copy_from_user(tmp, buffer, sizeof(tmp))) {		
++
++		int num = sscanf(tmp, "%d ", &is_signal_dbg);
++
++		if( is_signal_dbg >= 0 && is_signal_dbg < 10 )
++		{
++			GlobalDebugLevel= is_signal_dbg;
++			printk("%d\n", GlobalDebugLevel);
++		}
++	}
++	
++	return count;
++	
++}
++
++#ifdef DBG_MEM_ALLOC
++int proc_get_mstat(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{	
++	int len = 0;
++
++	len += _rtw_mstat_dump(page+len, count-len);
++	*eof = 1;
++
++	return len;
++}
++#endif /* DBG_MEM_ALLOC */
++
++int proc_get_write_reg(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	*eof = 1;
++	return 0;
++}
++
++int proc_set_write_reg(struct file *file, const char *buffer,
++		unsigned long count, void *data)
++{
++	struct net_device *dev = (struct net_device *)data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u32 addr, val, len;
++
++	if (count < 3)
++	{
++		DBG_871X("argument size is less than 3\n");
++		return -EFAULT;
++	}	
++
++	if (buffer && !copy_from_user(tmp, buffer, sizeof(tmp))) {		
++
++		int num = sscanf(tmp, "%x %x %x", &addr, &val, &len);
++
++		if (num !=  3) {
++			DBG_871X("invalid write_reg parameter!\n");
++			return count;
++		}
++
++		switch(len)
++		{
++			case 1:
++				rtw_write8(padapter, addr, (u8)val);				
++				break;
++			case 2:
++				rtw_write16(padapter, addr, (u16)val);				
++				break;
++			case 4:
++				rtw_write32(padapter, addr, val);				
++				break;
++			default:
++				DBG_871X("error write length=%d", len);
++				break;
++		}			
++		
++	}
++	
++	return count;
++	
++}
++
++static u32 proc_get_read_addr=0xeeeeeeee;
++static u32 proc_get_read_len=0x4;
++
++int proc_get_read_reg(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{	
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	
++	int len = 0;
++
++	if(proc_get_read_addr==0xeeeeeeee)
++	{
++		*eof = 1;
++		return len;
++	}	
++
++	switch(proc_get_read_len)
++	{
++		case 1:			
++			len += snprintf(page + len, count - len, "rtw_read8(0x%x)=0x%x\n", proc_get_read_addr, rtw_read8(padapter, proc_get_read_addr));
++			break;
++		case 2:
++			len += snprintf(page + len, count - len, "rtw_read16(0x%x)=0x%x\n", proc_get_read_addr, rtw_read16(padapter, proc_get_read_addr));
++			break;
++		case 4:
++			len += snprintf(page + len, count - len, "rtw_read32(0x%x)=0x%x\n", proc_get_read_addr, rtw_read32(padapter, proc_get_read_addr));
++			break;
++		default:
++			len += snprintf(page + len, count - len, "error read length=%d\n", proc_get_read_len);
++			break;
++	}
++
++	*eof = 1;
++	return len;
++
++}
++
++int proc_set_read_reg(struct file *file, const char *buffer,
++		unsigned long count, void *data)
++{
++	char tmp[16];
++	u32 addr, len;
++
++	if (count < 2)
++	{
++		DBG_871X("argument size is less than 2\n");
++		return -EFAULT;
++	}	
++
++	if (buffer && !copy_from_user(tmp, buffer, sizeof(tmp))) {		
++
++		int num = sscanf(tmp, "%x %x", &addr, &len);
++
++		if (num !=  2) {
++			DBG_871X("invalid read_reg parameter!\n");
++			return count;
++		}
++
++		proc_get_read_addr = addr;
++		
++		proc_get_read_len = len;
++	}
++	
++	return count;
++
++}
++
++int proc_get_fwstate(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	
++	int len = 0;
++
++	len += snprintf(page + len, count - len, "fwstate=0x%x\n", get_fwstate(pmlmepriv));
++				
++	*eof = 1;
++	return len;
++}
++
++int proc_get_sec_info(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	
++	int len = 0;
++
++	len += snprintf(page + len, count - len, "auth_alg=0x%x, enc_alg=0x%x, auth_type=0x%x, enc_type=0x%x\n", 
++						psecuritypriv->dot11AuthAlgrthm, psecuritypriv->dot11PrivacyAlgrthm,
++						psecuritypriv->ndisauthtype, psecuritypriv->ndisencryptstatus);
++				
++	*eof = 1;
++	return len;
++}
++
++int proc_get_mlmext_state(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	
++	int len = 0;
++
++	len += snprintf(page + len, count - len, "pmlmeinfo->state=0x%x\n", pmlmeinfo->state);
++				
++	*eof = 1;
++	return len;
++}
++
++int proc_get_qos_option(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	
++	int len = 0;
++
++	len += snprintf(page + len, count - len, "qos_option=%d\n", pmlmepriv->qospriv.qos_option);
++				
++	*eof = 1;
++	return len;
++
++}
++
++int proc_get_ht_option(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	
++	int len = 0;
++
++	len += snprintf(page + len, count - len, "ht_option=%d\n", pmlmepriv->htpriv.ht_option);
++				
++	*eof = 1;
++	return len;
++}
++
++int proc_get_rf_info(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	int len = 0;
++
++	len += snprintf(page + len, count - len, "cur_ch=%d, cur_bw=%d, cur_ch_offet=%d\n"
++		"oper_ch=%d, oper_bw=%d, oper_ch_offet=%d\n",
++		pmlmeext->cur_channel, pmlmeext->cur_bwmode, pmlmeext->cur_ch_offset,
++		rtw_get_oper_ch(padapter), rtw_get_oper_bw(padapter), rtw_get_oper_choffset(padapter));
++	*eof = 1;
++
++	return len;
++}
++
++int proc_get_ap_info(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct sta_info *psta;
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct wlan_network *cur_network = &(pmlmepriv->cur_network);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	int len = 0;
++
++	psta = rtw_get_stainfo(pstapriv, cur_network->network.MacAddress);
++	if(psta)
++	{
++		int i;
++		struct recv_reorder_ctrl *preorder_ctrl;
++					
++		len += snprintf(page + len, count - len, "SSID=%s\n", cur_network->network.Ssid.Ssid);		
++		len += snprintf(page + len, count - len, "sta's macaddr:" MAC_FMT "\n", MAC_ARG(psta->hwaddr));
++		len += snprintf(page + len, count - len, "cur_channel=%d, cur_bwmode=%d, cur_ch_offset=%d\n", pmlmeext->cur_channel, pmlmeext->cur_bwmode, pmlmeext->cur_ch_offset);		
++		len += snprintf(page + len, count - len, "rtsen=%d, cts2slef=%d\n", psta->rtsen, psta->cts2self);
++		len += snprintf(page + len, count - len, "qos_en=%d, ht_en=%d, init_rate=%d\n", psta->qos_option, psta->htpriv.ht_option, psta->init_rate);	
++		len += snprintf(page + len, count - len, "state=0x%x, aid=%d, macid=%d, raid=%d\n", psta->state, psta->aid, psta->mac_id, psta->raid);	
++		len += snprintf(page + len, count - len, "bwmode=%d, ch_offset=%d, sgi=%d\n", psta->htpriv.bwmode, psta->htpriv.ch_offset, psta->htpriv.sgi);						
++		len += snprintf(page + len, count - len, "ampdu_enable = %d\n", psta->htpriv.ampdu_enable);	
++		len += snprintf(page + len, count - len, "agg_enable_bitmap=%x, candidate_tid_bitmap=%x\n", psta->htpriv.agg_enable_bitmap, psta->htpriv.candidate_tid_bitmap);
++					
++		for(i=0;i<16;i++)
++		{							
++			preorder_ctrl = &psta->recvreorder_ctrl[i];
++			if(preorder_ctrl->enable)
++			{
++				len += snprintf(page + len, count - len, "tid=%d, indicate_seq=%d\n", i, preorder_ctrl->indicate_seq);
++			}
++		}	
++							
++	}
++	else
++	{							
++		len += snprintf(page + len, count - len, "can't get sta's macaddr, cur_network's macaddr:" MAC_FMT "\n", MAC_ARG(cur_network->network.MacAddress));
++	}
++
++	*eof = 1;
++	return len;
++
++}
++
++int proc_get_adapter_state(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	int len = 0;
++	
++	len += snprintf(page + len, count - len, "bSurpriseRemoved=%d, bDriverStopped=%d\n", 
++						padapter->bSurpriseRemoved, padapter->bDriverStopped);
++
++	*eof = 1;
++	return len;
++
++}
++	
++int proc_get_trx_info(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	int i;
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct recv_priv  *precvpriv = &padapter->recvpriv;
++	struct dvobj_priv	*pdvobj = adapter_to_dvobj(padapter);
++        struct hw_xmit *phwxmit;
++	int len = 0;
++	
++	len += snprintf(page + len, count - len, "free_xmitbuf_cnt=%d, free_xmitframe_cnt=%d"
++				", free_ext_xmitbuf_cnt=%d, free_xframe_ext_cnt=%d"
++				", free_recvframe_cnt=%d\n",
++				pxmitpriv->free_xmitbuf_cnt, pxmitpriv->free_xmitframe_cnt,
++				pxmitpriv->free_xmit_extbuf_cnt, pxmitpriv->free_xframe_ext_cnt,
++				precvpriv->free_recvframe_cnt);
++#ifdef CONFIG_USB_HCI
++	len += snprintf(page + len, count - len, "rx_urb_pending_cnt=%d\n", precvpriv->rx_pending_cnt);
++#endif
++
++	len += snprintf(page + len, count - len, "recvbuf_skb_alloc_fail_cnt=%d\n", precvpriv->recvbuf_skb_alloc_fail_cnt);
++	len += snprintf(page + len, count - len, "recvbuf_null_cnt=%d\n", precvpriv->recvbuf_null_cnt);
++	len += snprintf(page + len, count - len, "read_port_complete_EINPROGRESS_cnt=%d\n", precvpriv->read_port_complete_EINPROGRESS_cnt);
++	len += snprintf(page + len, count - len, "read_port_complete_other_urb_err_cnt=%d\n", precvpriv->read_port_complete_other_urb_err_cnt);
++	len += snprintf(page + len, count - len, "hw_init_completed=%d\n", padapter->hw_init_completed);
++#ifdef CONFIG_USB_HCI
++	len += snprintf(page + len, count - len, "continual_urb_error=%d\n", atomic_read(&pdvobj->continual_urb_error));
++#endif
++
++        for(i = 0; i < 4; i++) 
++	{
++		phwxmit = pxmitpriv->hwxmits + i;
++		len += snprintf(page + len, count - len, "%d, hwq.accnt=%d\n", i, phwxmit->accnt);
++	}
++
++	*eof = 1;
++	return len;
++
++}
++	
++		
++
++int proc_get_mac_reg_dump1(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	int len = 0;
++	int i,j=1;
++
++	len += snprintf(page + len, count - len, "\n======= MAC REG =======\n");
++
++	for(i=0x0;i<0x300;i+=4)
++	{	
++		if(j%4==1)	len += snprintf(page + len, count - len,"0x%02x",i);
++		len += snprintf(page + len, count - len," 0x%08x ",rtw_read32(padapter,i));		
++		if((j++)%4 == 0)	len += snprintf(page + len, count - len,"\n");	
++	}
++
++	*eof = 1;
++	return len;
++
++}
++
++int proc_get_mac_reg_dump2(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	int len = 0;
++	int i,j=1;
++
++	len += snprintf(page + len, count - len, "\n======= MAC REG =======\n");
++	memset(page, 0, count);
++	for(i=0x300;i<0x600;i+=4)
++	{	
++		if(j%4==1)	len += snprintf(page + len, count - len,"0x%02x",i);
++		len += snprintf(page + len, count - len," 0x%08x ",rtw_read32(padapter,i));		
++		if((j++)%4 == 0)	len += snprintf(page + len, count - len,"\n");	
++	}
++	
++	*eof = 1;
++	return len;
++
++}
++
++int proc_get_mac_reg_dump3(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	int len = 0;
++	int i,j=1;
++
++	len += snprintf(page + len, count - len, "\n======= MAC REG =======\n");
++
++	for(i=0x600;i<0x800;i+=4)
++	{	
++		if(j%4==1)	len += snprintf(page + len, count - len,"0x%02x",i);
++		len += snprintf(page + len, count - len," 0x%08x ",rtw_read32(padapter,i));		
++		if((j++)%4 == 0)	len += snprintf(page + len, count - len,"\n");	
++	}
++
++	*eof = 1;
++	return len;
++
++}
++
++int proc_get_bb_reg_dump1(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	int len = 0;
++	int i,j=1;		
++
++	len += snprintf(page + len, count - len, "\n======= BB REG =======\n");	
++	for(i=0x800;i<0xB00;i+=4)
++	{
++		if(j%4==1) 	len += snprintf(page + len, count - len,"0x%02x",i);		
++		len += snprintf(page + len, count - len," 0x%08x ",rtw_read32(padapter,i));		
++		if((j++)%4 == 0)	len += snprintf(page + len, count - len,"\n");	
++	}
++	*eof = 1;
++	return len;	
++}
++
++int proc_get_bb_reg_dump2(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	int len = 0;
++	int i,j=1;		
++
++	len += snprintf(page + len, count - len, "\n======= BB REG =======\n");	
++	for(i=0xB00;i<0xE00;i+=4)
++	{
++		if(j%4==1) 	len += snprintf(page + len, count - len,"0x%02x",i);		
++		len += snprintf(page + len, count - len," 0x%08x ",rtw_read32(padapter,i));		
++		if((j++)%4 == 0)	len += snprintf(page + len, count - len,"\n");	
++	}
++	*eof = 1;
++	return len;	
++}
++
++int proc_get_bb_reg_dump3(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	int len = 0;
++	int i,j=1;		
++
++	len += snprintf(page + len, count - len, "\n======= BB REG =======\n");	
++	for(i=0xE00;i<0x1000;i+=4)
++	{
++		if(j%4==1) 	len += snprintf(page + len, count - len,"0x%02x",i);		
++		len += snprintf(page + len, count - len," 0x%08x ",rtw_read32(padapter,i));		
++		if((j++)%4 == 0)	len += snprintf(page + len, count - len,"\n");	
++	}
++	*eof = 1;
++	return len;	
++}
++
++int proc_get_rf_reg_dump1(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	int len = 0;
++	int i,j=1,path;
++	u32 value;
++	
++	len += snprintf(page + len, count - len, "\n======= RF REG =======\n");
++	path = 1;
++	len += snprintf(page + len, count - len, "\nRF_Path(%x)\n",path);
++	for(i=0;i<0xC0;i++)
++	{								
++		//value = PHY_QueryRFReg(padapter, (RF90_RADIO_PATH_E)path,i, bMaskDWord);
++		value =rtw_hal_read_rfreg(padapter, path, i, 0xffffffff);
++		if(j%4==1)	len += snprintf(page + len, count - len, "0x%02x ",i);
++		len += snprintf(page + len, count - len, " 0x%08x ",value);
++		if((j++)%4==0)	len += snprintf(page + len, count - len, "\n");	
++	}
++
++	*eof = 1;
++	return len;	
++}
++
++
++int proc_get_rf_reg_dump2(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	int len = 0;
++	int i,j=1,path;
++	u32 value;	
++
++	len += snprintf(page + len, count - len, "\n======= RF REG =======\n");	
++	path = 1;
++	len += snprintf(page + len, count - len, "\nRF_Path(%x)\n",path);
++	for(i=0xC0;i<0x100;i++)
++	{								
++		//value = PHY_QueryRFReg(padapter, (RF90_RADIO_PATH_E)path,i, bMaskDWord);
++		value =rtw_hal_read_rfreg(padapter, path, i, 0xffffffff);
++		if(j%4==1)	len += snprintf(page + len, count - len, "0x%02x ",i);
++		len += snprintf(page + len, count - len, " 0x%08x ",value);
++		if((j++)%4==0)	len += snprintf(page + len, count - len, "\n");	
++	}
++	*eof = 1;
++	return len;	
++}
++
++
++int proc_get_rf_reg_dump3(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	int len = 0;
++	int i,j=1,path;
++	u32 value;	
++
++	len += snprintf(page + len, count - len, "\n======= RF REG =======\n");
++	path = 2;
++	len += snprintf(page + len, count - len, "\nRF_Path(%x)\n",path);
++	for(i=0;i<0xC0;i++)
++	{								
++		//value = PHY_QueryRFReg(padapter, (RF90_RADIO_PATH_E)path,i, bMaskDWord);
++		value =rtw_hal_read_rfreg(padapter, path, i, 0xffffffff);
++		if(j%4==1)	len += snprintf(page + len, count - len, "0x%02x ",i);
++		len += snprintf(page + len, count - len, " 0x%08x ",value);
++		if((j++)%4==0)	len += snprintf(page + len, count - len, "\n");	
++	}
++
++	*eof = 1;
++	return len;	
++}
++
++
++int proc_get_rf_reg_dump4(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	int len = 0;
++	int i,j=1,path;
++	u32 value;
++
++	len += snprintf(page + len, count - len, "\n======= RF REG =======\n");
++	path = 2;
++	len += snprintf(page + len, count - len, "\nRF_Path(%x)\n",path);
++	for(i=0xC0;i<0x100;i++)
++	{								
++		//value = PHY_QueryRFReg(padapter, (RF90_RADIO_PATH_E)path,i, bMaskDWord);
++		value =rtw_hal_read_rfreg(padapter, path, i, 0xffffffff);
++		if(j%4==1)	len += snprintf(page + len, count - len, "0x%02x ",i);
++		len += snprintf(page + len, count - len, " 0x%08x ",value);
++		if((j++)%4==0)	len += snprintf(page + len, count - len, "\n");
++	}
++	*eof = 1;
++	return len;	
++}
++
++
++		
++int proc_get_rx_signal(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	
++	int len = 0;
++
++	len += snprintf(page + len, count - len,
++		"rssi:%d\n"
++		"rxpwdb:%d\n"
++		"signal_strength:%u\n"
++		"signal_qual:%u\n"
++		"noise:%u\n", 
++		padapter->recvpriv.rssi,
++		padapter->recvpriv.rxpwdb,
++		padapter->recvpriv.signal_strength,
++		padapter->recvpriv.signal_qual,
++		padapter->recvpriv.noise
++		);
++				
++	*eof = 1;
++	return len;
++}
++
++int proc_set_rx_signal(struct file *file, const char *buffer,
++		unsigned long count, void *data)
++{
++	struct net_device *dev = (struct net_device *)data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u32 is_signal_dbg, signal_strength;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (buffer && !copy_from_user(tmp, buffer, sizeof(tmp))) {		
++
++		int num = sscanf(tmp, "%u %u", &is_signal_dbg, &signal_strength);
++
++		is_signal_dbg = is_signal_dbg==0?0:1;
++		
++		if(is_signal_dbg && num!=2)
++			return count;
++			
++		signal_strength = signal_strength>100?100:signal_strength;
++		signal_strength = signal_strength<0?0:signal_strength;
++
++		padapter->recvpriv.is_signal_dbg = is_signal_dbg;
++		padapter->recvpriv.signal_strength_dbg=signal_strength;
++
++		if(is_signal_dbg)
++			DBG_871X("set %s %u\n", "DBG_SIGNAL_STRENGTH", signal_strength);
++		else
++			DBG_871X("set %s\n", "HW_SIGNAL_STRENGTH");
++		
++	}
++	
++	return count;
++	
++}
++
++int proc_get_ht_enable(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	
++	int len = 0;
++	
++	if(pregpriv)
++		len += snprintf(page + len, count - len,
++			"%d\n",
++			pregpriv->ht_enable
++			);
++
++	*eof = 1;
++	return len;
++}
++
++int proc_set_ht_enable(struct file *file, const char *buffer,
++		unsigned long count, void *data)
++{
++	struct net_device *dev = (struct net_device *)data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	char tmp[32];
++	u32 mode;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (buffer && !copy_from_user(tmp, buffer, sizeof(tmp))) {		
++
++		int num = sscanf(tmp, "%d ", &mode);
++
++		if( pregpriv && mode >= 0 && mode < 2 )
++		{
++			pregpriv->ht_enable= mode;
++			printk("ht_enable=%d\n", pregpriv->ht_enable);
++		}
++	}
++	
++	return count;
++	
++}
++
++
++int proc_get_cbw40_enable(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	
++	int len = 0;
++	
++	if(pregpriv)
++		len += snprintf(page + len, count - len,
++			"%d\n",
++			pregpriv->cbw40_enable
++			);
++
++	*eof = 1;
++	return len;
++}
++
++int proc_set_cbw40_enable(struct file *file, const char *buffer,
++		unsigned long count, void *data)
++{
++	struct net_device *dev = (struct net_device *)data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	char tmp[32];
++	u32 mode;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (buffer && !copy_from_user(tmp, buffer, sizeof(tmp))) {		
++
++		int num = sscanf(tmp, "%d ", &mode);
++
++		if( pregpriv && mode >= 0 && mode < 2 )
++		{
++			pregpriv->cbw40_enable= mode;
++			printk("cbw40_enable=%d\n", mode);
++		}
++	}
++	
++	return count;
++	
++}
++
++int proc_get_ampdu_enable(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	
++	int len = 0;
++	
++	if(pregpriv)
++		len += snprintf(page + len, count - len,
++			"%d\n",
++			pregpriv->ampdu_enable
++			);
++
++	*eof = 1;
++	return len;
++}
++
++int proc_set_ampdu_enable(struct file *file, const char *buffer,
++		unsigned long count, void *data)
++{
++	struct net_device *dev = (struct net_device *)data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	char tmp[32];
++	u32 mode;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (buffer && !copy_from_user(tmp, buffer, sizeof(tmp))) {		
++
++		int num = sscanf(tmp, "%d ", &mode);
++
++		if( pregpriv && mode >= 0 && mode < 3 )
++		{
++			pregpriv->ampdu_enable= mode;
++			printk("ampdu_enable=%d\n", mode);
++		}
++	}
++	
++	return count;
++	
++}
++
++
++int proc_get_two_path_rssi(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	
++	int len = 0;
++	
++	if(padapter)
++		len += snprintf(page + len, count - len,
++			"%d %d\n",
++			padapter->recvpriv.RxRssi[0],
++			padapter->recvpriv.RxRssi[1]
++			);
++
++	*eof = 1;
++	return len;
++}
++
++int proc_get_rx_stbc(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	
++	int len = 0;
++	
++	if(pregpriv)
++		len += snprintf(page + len, count - len,
++			"%d\n",
++			pregpriv->rx_stbc
++			);
++
++	*eof = 1;
++	return len;
++}
++
++int proc_set_rx_stbc(struct file *file, const char *buffer,
++		unsigned long count, void *data)
++{
++	struct net_device *dev = (struct net_device *)data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	char tmp[32];
++	u32 mode;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (buffer && !copy_from_user(tmp, buffer, sizeof(tmp))) {		
++
++		int num = sscanf(tmp, "%d ", &mode);
++
++		if( pregpriv && (mode == 0 || mode == 1|| mode == 2|| mode == 3))
++		{
++			pregpriv->rx_stbc= mode;
++			printk("rx_stbc=%d\n", mode);
++		}
++	}
++	
++	return count;
++	
++}
++
++int proc_get_vid(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u16 VID=0;
++	int len = 0;
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_VID, (u8 *)&VID);	
++	len += snprintf(page + len, count - len,
++		"%04x\n",
++		VID
++		);
++
++	*eof = 1;
++	return len;	
++}
++
++int proc_get_pid(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u16 PID=0;	
++	int len = 0;
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_PID, (u8 *)&PID);		
++	len += snprintf(page + len, count - len,
++		"%04x\n",
++		PID
++		);
++
++	*eof = 1;
++	return len;	
++}
++
++int proc_get_rssi_disp(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	*eof = 1;
++	return 0;
++}
++
++int proc_set_rssi_disp(struct file *file, const char *buffer,
++		unsigned long count, void *data)
++{
++	struct net_device *dev = (struct net_device *)data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u32 enable=0;
++
++	if (count < 1)
++	{
++		DBG_8192C("argument size is less than 1\n");
++		return -EFAULT;
++	}	
++
++	if (buffer && !copy_from_user(tmp, buffer, sizeof(tmp))) {		
++
++		int num = sscanf(tmp, "%x", &enable);
++
++		if (num !=  1) {
++			DBG_8192C("invalid set_rssi_disp parameter!\n");
++			return count;
++		}
++		
++		if(enable)
++		{			
++			DBG_8192C("Turn On Rx RSSI Display Function\n");
++			padapter->bRxRSSIDisplay = enable ;			
++		}
++		else
++		{
++			DBG_8192C("Turn Off Rx RSSI Display Function\n");
++			padapter->bRxRSSIDisplay = 0 ;
++		}
++	
++	}
++	
++	return count;
++	
++}	
++
++		
++#ifdef CONFIG_AP_MODE
++
++int proc_get_all_sta_info(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	_irqL irqL;
++	struct sta_info *psta;
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	int i, j;
++	_list	*plist, *phead;
++	struct recv_reorder_ctrl *preorder_ctrl;
++	int len = 0;	
++						
++
++	len += snprintf(page + len, count - len, "sta_dz_bitmap=0x%x, tim_bitmap=0x%x\n", pstapriv->sta_dz_bitmap, pstapriv->tim_bitmap);
++					
++	_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++	for(i=0; i< NUM_STA; i++)
++	{
++		phead = &(pstapriv->sta_hash[i]);
++		plist = get_next(phead);
++		
++		while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
++		{
++			psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++
++			plist = get_next(plist);
++
++			//if(extra_arg == psta->aid)
++			{
++				len += snprintf(page + len, count - len, "sta's macaddr:" MAC_FMT "\n", MAC_ARG(psta->hwaddr));
++				len += snprintf(page + len, count - len, "rtsen=%d, cts2slef=%d\n", psta->rtsen, psta->cts2self);
++				len += snprintf(page + len, count - len, "qos_en=%d, ht_en=%d, init_rate=%d\n", psta->qos_option, psta->htpriv.ht_option, psta->init_rate);	
++				len += snprintf(page + len, count - len, "state=0x%x, aid=%d, macid=%d, raid=%d\n", psta->state, psta->aid, psta->mac_id, psta->raid);	
++				len += snprintf(page + len, count - len, "bwmode=%d, ch_offset=%d, sgi=%d\n", psta->htpriv.bwmode, psta->htpriv.ch_offset, psta->htpriv.sgi);						
++				len += snprintf(page + len, count - len, "ampdu_enable = %d\n", psta->htpriv.ampdu_enable);									
++				len += snprintf(page + len, count - len, "agg_enable_bitmap=%x, candidate_tid_bitmap=%x\n", psta->htpriv.agg_enable_bitmap, psta->htpriv.candidate_tid_bitmap);
++				len += snprintf(page + len, count - len, "sleepq_len=%d\n", psta->sleepq_len);
++				len += snprintf(page + len, count - len, "capability=0x%x\n", psta->capability);
++				len += snprintf(page + len, count - len, "flags=0x%x\n", psta->flags);
++				len += snprintf(page + len, count - len, "wpa_psk=0x%x\n", psta->wpa_psk);
++				len += snprintf(page + len, count - len, "wpa2_group_cipher=0x%x\n", psta->wpa2_group_cipher);
++				len += snprintf(page + len, count - len, "wpa2_pairwise_cipher=0x%x\n", psta->wpa2_pairwise_cipher);
++				len += snprintf(page + len, count - len, "qos_info=0x%x\n", psta->qos_info);
++				len += snprintf(page + len, count - len, "dot118021XPrivacy=0x%x\n", psta->dot118021XPrivacy);
++								
++				for(j=0;j<16;j++)
++				{							
++					preorder_ctrl = &psta->recvreorder_ctrl[j];
++					if(preorder_ctrl->enable)
++					{
++						len += snprintf(page + len, count - len, "tid=%d, indicate_seq=%d\n", j, preorder_ctrl->indicate_seq);
++					}
++				}		
++									
++			}							
++			
++		}
++		
++	}
++	
++	_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++	*eof = 1;
++	return len;
++
++}
++	
++#endif		
++
++#ifdef DBG_MEMORY_LEAK
++#include <asm/atomic.h>
++extern atomic_t _malloc_cnt;;
++extern atomic_t _malloc_size;;
++
++int proc_get_malloc_cnt(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	
++	int len = 0;
++
++	len += snprintf(page + len, count - len, "_malloc_cnt=%d\n", atomic_read(&_malloc_cnt));
++	len += snprintf(page + len, count - len, "_malloc_size=%d\n", atomic_read(&_malloc_size));
++				
++	*eof = 1;
++	return len;
++}
++#endif /* DBG_MEMORY_LEAK */
++
++#ifdef CONFIG_FIND_BEST_CHANNEL
++int proc_get_best_channel(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	int len = 0;
++	u32 i, best_channel_24G = 1, best_channel_5G = 36, index_24G = 0, index_5G = 0;
++
++	for (i=0; pmlmeext->channel_set[i].ChannelNum !=0; i++) {
++		if ( pmlmeext->channel_set[i].ChannelNum == 1)
++			index_24G = i;
++		if ( pmlmeext->channel_set[i].ChannelNum == 36)
++			index_5G = i;
++	}	
++	
++	for (i=0; pmlmeext->channel_set[i].ChannelNum !=0; i++) {
++		// 2.4G
++		if ( pmlmeext->channel_set[i].ChannelNum == 6 ) {
++			if ( pmlmeext->channel_set[i].rx_count < pmlmeext->channel_set[index_24G].rx_count ) {
++				index_24G = i;
++				best_channel_24G = pmlmeext->channel_set[i].ChannelNum;
++			}
++		}
++
++		// 5G
++		if ( pmlmeext->channel_set[i].ChannelNum >= 36
++			&& pmlmeext->channel_set[i].ChannelNum < 140 ) {
++			 // Find primary channel
++			if ( (( pmlmeext->channel_set[i].ChannelNum - 36) % 8 == 0)
++				&& (pmlmeext->channel_set[i].rx_count < pmlmeext->channel_set[index_5G].rx_count) ) {
++				index_5G = i;
++				best_channel_5G = pmlmeext->channel_set[i].ChannelNum;
++			}
++		}
++
++		if ( pmlmeext->channel_set[i].ChannelNum >= 149
++			&& pmlmeext->channel_set[i].ChannelNum < 165) {
++			 // find primary channel
++			if ( (( pmlmeext->channel_set[i].ChannelNum - 149) % 8 == 0)
++				&& (pmlmeext->channel_set[i].rx_count < pmlmeext->channel_set[index_5G].rx_count) ) {
++				index_5G = i;
++				best_channel_5G = pmlmeext->channel_set[i].ChannelNum;
++			}
++		}
++#if 1 // debug
++		len += snprintf(page + len, count - len, "The rx cnt of channel %3d = %d\n", 
++					pmlmeext->channel_set[i].ChannelNum, pmlmeext->channel_set[i].rx_count);
++#endif
++	}
++	
++	len += snprintf(page + len, count - len, "best_channel_5G = %d\n", best_channel_5G);
++	len += snprintf(page + len, count - len, "best_channel_24G = %d\n", best_channel_24G);
++
++	*eof = 1;
++	return len;
++
++}
++
++int proc_set_best_channel(struct file *file, const char *buffer,
++		unsigned long count, void *data)
++{
++	struct net_device *dev = (struct net_device *)data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	char tmp[32];
++
++	if(count < 1)
++		return -EFAULT;
++
++	if(buffer && !copy_from_user(tmp, buffer, sizeof(tmp)))
++	{
++		int i;
++		for(i = 0; pmlmeext->channel_set[i].ChannelNum != 0; i++)
++		{
++			pmlmeext->channel_set[i].rx_count = 0;
++		}
++
++		DBG_871X("set %s\n", "Clean Best Channel Count");
++	}
++
++	return count;
++}
++#endif /* CONFIG_FIND_BEST_CHANNEL */
++
++#if defined(DBG_CONFIG_ERROR_DETECT)
++#include <rtw_sreset.h>
++int proc_get_sreset(char *page, char **start, off_t offset, int count, int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	
++	int len = 0;
++	
++	*eof = 1;
++	return len;
++}
++
++int proc_set_sreset(struct file *file, const char *buffer, unsigned long count, void *data)
++{
++	struct net_device *dev = (struct net_device *)data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	s32 trigger_point;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (buffer && !copy_from_user(tmp, buffer, sizeof(tmp))) {		
++
++		int num = sscanf(tmp, "%d", &trigger_point);
++
++		if (trigger_point == SRESET_TGP_NULL)
++			rtw_hal_sreset_reset(padapter);
++		else
++			sreset_set_trigger_point(padapter, trigger_point);
++	}
++	
++	return count;
++	
++}
++#endif /* DBG_CONFIG_ERROR_DETECT */
++
++#ifdef CONFIG_DM_ADAPTIVITY
++int proc_get_dm_adaptivity(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	int len = 0;
++
++	len += dm_adaptivity_get_parm_str(padapter, page, count);
++
++	*eof = 1;
++	return len;
++}
++
++int proc_set_dm_adaptivity(struct file *file, const char *buffer,
++		unsigned long count, void *data)
++{
++	struct net_device *dev = (struct net_device *)data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u32 TH_L2H_ini;
++	s8 TH_EDCCA_HL_diff;
++	u32 IGI_Base;
++	int ForceEDCCA;
++	u8 AdapEn_RSSI;
++	u8 IGI_LowerBound;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (buffer && !copy_from_user(tmp, buffer, sizeof(tmp))) {
++
++		int num = sscanf(tmp, "%x %hhd %x %d %hhu %hhu",
++			&TH_L2H_ini, &TH_EDCCA_HL_diff, &IGI_Base, &ForceEDCCA, &AdapEn_RSSI, &IGI_LowerBound);
++
++		if (num != 6)
++			return count;
++
++		dm_adaptivity_set_parm(padapter, (s8)TH_L2H_ini, TH_EDCCA_HL_diff, (s8)IGI_Base, (bool)ForceEDCCA, AdapEn_RSSI, IGI_LowerBound);
++	}
++	
++	return count;
++}
++#endif /* CONFIG_DM_ADAPTIVITY */
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_eeprom.c b/drivers/net/wireless/rtl8192cu/core/rtw_eeprom.c
+new file mode 100755
+index 0000000..fd07d64
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_eeprom.c
+@@ -0,0 +1,423 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_EEPROM_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++void up_clk(_adapter*	padapter,	 u16 *x)
++{
++_func_enter_;
++	*x = *x | _EESK;
++	rtw_write8(padapter, EE_9346CR, (u8)*x);
++	rtw_udelay_os(CLOCK_RATE);
++
++_func_exit_;
++	
++}
++
++void down_clk(_adapter *	padapter, u16 *x	)
++{
++_func_enter_;
++	*x = *x & ~_EESK;
++	rtw_write8(padapter, EE_9346CR, (u8)*x);
++	rtw_udelay_os(CLOCK_RATE);
++_func_exit_;	
++}
++
++void shift_out_bits(_adapter * padapter, u16 data, u16 count)
++{
++	u16 x,mask;
++_func_enter_;
++
++	if(padapter->bSurpriseRemoved==_TRUE){
++		RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
++		goto out;
++	}
++	mask = 0x01 << (count - 1);
++	x = rtw_read8(padapter, EE_9346CR);
++
++	x &= ~(_EEDO | _EEDI);
++
++	do
++	{
++		x &= ~_EEDI;
++		if(data & mask)
++			x |= _EEDI;
++		if(padapter->bSurpriseRemoved==_TRUE){
++		RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
++		goto out;
++		}
++		rtw_write8(padapter, EE_9346CR, (u8)x);
++		rtw_udelay_os(CLOCK_RATE);
++		up_clk(padapter, &x);
++		down_clk(padapter, &x);
++		mask = mask >> 1;
++	} while(mask);
++	if(padapter->bSurpriseRemoved==_TRUE){
++		RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
++		goto out;
++	}
++	x &= ~_EEDI;
++	rtw_write8(padapter, EE_9346CR, (u8)x);
++out:	
++_func_exit_;		
++}
++
++u16 shift_in_bits (_adapter * padapter)
++{
++	u16 x,d=0,i;
++_func_enter_;	
++	if(padapter->bSurpriseRemoved==_TRUE){
++		RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
++		goto out;
++	}
++	x = rtw_read8(padapter, EE_9346CR);
++
++	x &= ~( _EEDO | _EEDI);
++	d = 0;
++
++	for(i=0; i<16; i++)
++	{
++		d = d << 1;
++		up_clk(padapter, &x);
++	if(padapter->bSurpriseRemoved==_TRUE){
++		RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
++		goto out;
++	}
++		x = rtw_read8(padapter, EE_9346CR);
++
++		x &= ~(_EEDI);
++		if(x & _EEDO)
++		d |= 1;
++
++		down_clk(padapter, &x);
++	}
++out:	
++_func_exit_;		
++
++	return d;
++}
++
++void standby(_adapter *	padapter	)
++{
++	u8   x;
++_func_enter_;	
++	x = rtw_read8(padapter, EE_9346CR);
++
++	x &= ~(_EECS | _EESK);
++	rtw_write8(padapter, EE_9346CR,x);
++
++	rtw_udelay_os(CLOCK_RATE);
++	x |= _EECS;
++	rtw_write8(padapter, EE_9346CR, x);
++	rtw_udelay_os(CLOCK_RATE);
++_func_exit_;		
++}
++
++u16 wait_eeprom_cmd_done(_adapter* padapter)
++{
++	u8 	x;
++	u16	i,res=_FALSE;
++_func_enter_;	
++	standby(padapter );
++	for (i=0; i<200; i++) 
++	{
++		x = rtw_read8(padapter, EE_9346CR);
++		if (x & _EEDO){
++			res=_TRUE;
++			goto exit;
++			}
++		rtw_udelay_os(CLOCK_RATE);
++	}
++exit:	
++_func_exit_;			
++	return res;
++}
++
++void eeprom_clean(_adapter * padapter)
++{
++	u16 x;
++_func_enter_;		
++	if(padapter->bSurpriseRemoved==_TRUE){
++		RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
++		goto out;
++	}
++	x = rtw_read8(padapter, EE_9346CR);
++	if(padapter->bSurpriseRemoved==_TRUE){
++		RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
++		goto out;
++	}
++	x &= ~(_EECS | _EEDI);
++	rtw_write8(padapter, EE_9346CR, (u8)x);
++	if(padapter->bSurpriseRemoved==_TRUE){
++		RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
++		goto out;
++	}
++	up_clk(padapter, &x);
++		if(padapter->bSurpriseRemoved==_TRUE){
++		RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
++		goto out;
++	}
++	down_clk(padapter, &x);
++out:	
++_func_exit_;			
++}
++
++void eeprom_write16(_adapter * padapter, u16 reg, u16 data)
++{
++	u8 x;
++#ifdef CONFIG_RTL8712
++	u8	tmp8_ori,tmp8_new,tmp8_clk_ori,tmp8_clk_new;
++	tmp8_ori=rtw_read8(padapter, 0x102502f1);
++	tmp8_new=tmp8_ori & 0xf7;
++	if(tmp8_ori != tmp8_new){	
++		rtw_write8(padapter, 0x102502f1, tmp8_new);
++		RT_TRACE(_module_rtl871x_mp_ioctl_c_,_drv_err_,("====write 0x102502f1=====\n"));
++	}
++	tmp8_clk_ori=rtw_read8(padapter,0x10250003);
++	tmp8_clk_new=tmp8_clk_ori|0x20;
++	if(tmp8_clk_new!=tmp8_clk_ori){
++		RT_TRACE(_module_rtl871x_mp_ioctl_c_,_drv_err_,("====write 0x10250003=====\n"));
++		rtw_write8(padapter, 0x10250003, tmp8_clk_new);
++	}	
++#endif
++_func_enter_;		
++	
++	x = rtw_read8(padapter, EE_9346CR);
++
++	x &= ~(_EEDI | _EEDO | _EESK | _EEM0);
++	x |= _EEM1 | _EECS;
++	rtw_write8(padapter, EE_9346CR, x);
++
++	shift_out_bits(padapter, EEPROM_EWEN_OPCODE, 5);
++	
++	if(padapter->EepromAddressSize==8)	//CF+ and SDIO
++		shift_out_bits(padapter, 0, 6);
++	else									//USB
++		shift_out_bits(padapter, 0, 4);
++	
++	standby( padapter);
++
++// Commented out by rcnjko, 2004.0
++//	// Erase this particular word.  Write the erase opcode and register
++//	// number in that order. The opcode is 3bits in length; reg is 6 bits long.
++//	shift_out_bits(Adapter, EEPROM_ERASE_OPCODE, 3);
++//	shift_out_bits(Adapter, reg, Adapter->EepromAddressSize);
++//
++//	if (wait_eeprom_cmd_done(Adapter ) == FALSE) 
++//	{
++//		return;
++//	}
++
++
++	standby(padapter );
++
++	// write the new word to the EEPROM
++
++	// send the write opcode the EEPORM
++	shift_out_bits(padapter, EEPROM_WRITE_OPCODE, 3);
++
++	// select which word in the EEPROM that we are writing to.
++	shift_out_bits(padapter, reg, padapter->EepromAddressSize);
++
++	// write the data to the selected EEPROM word.
++	shift_out_bits(padapter, data, 16);
++
++	if (wait_eeprom_cmd_done(padapter ) == _FALSE) 
++	{
++
++		goto exit;
++	}
++
++	standby(padapter );
++
++	shift_out_bits(padapter, EEPROM_EWDS_OPCODE, 5);
++	shift_out_bits(padapter, reg, 4);
++
++	eeprom_clean(padapter );
++exit:	
++#ifdef CONFIG_RTL8712
++	if(tmp8_clk_new!=tmp8_clk_ori)
++		rtw_write8(padapter, 0x10250003, tmp8_clk_ori);
++	if(tmp8_new!=tmp8_ori)
++		rtw_write8(padapter, 0x102502f1, tmp8_ori);
++
++#endif
++_func_exit_;	
++	return;
++}
++
++u16 eeprom_read16(_adapter * padapter, u16 reg) //ReadEEprom
++{
++
++	u16 x;
++	u16 data=0;
++#ifdef CONFIG_RTL8712
++	u8	tmp8_ori,tmp8_new,tmp8_clk_ori,tmp8_clk_new;
++	tmp8_ori= rtw_read8(padapter, 0x102502f1);
++	tmp8_new = tmp8_ori & 0xf7;
++	if(tmp8_ori != tmp8_new){	
++		rtw_write8(padapter, 0x102502f1, tmp8_new);
++		RT_TRACE(_module_rtl871x_mp_ioctl_c_,_drv_err_,("====write 0x102502f1=====\n"));
++	}
++	tmp8_clk_ori=rtw_read8(padapter,0x10250003);
++	tmp8_clk_new=tmp8_clk_ori|0x20;
++	if(tmp8_clk_new!=tmp8_clk_ori){
++		RT_TRACE(_module_rtl871x_mp_ioctl_c_,_drv_err_,("====write 0x10250003=====\n"));
++		rtw_write8(padapter, 0x10250003, tmp8_clk_new);
++	}	
++#endif
++_func_enter_;		
++
++	if(padapter->bSurpriseRemoved==_TRUE){
++		RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
++		goto out;
++	}
++	// select EEPROM, reset bits, set _EECS
++	x = rtw_read8(padapter, EE_9346CR);
++
++	if(padapter->bSurpriseRemoved==_TRUE){
++		RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
++		goto out;
++	}
++
++	x &= ~(_EEDI | _EEDO | _EESK | _EEM0);
++	x |= _EEM1 | _EECS;
++	rtw_write8(padapter, EE_9346CR, (unsigned char)x);
++
++	// write the read opcode and register number in that order
++	// The opcode is 3bits in length, reg is 6 bits long
++	shift_out_bits(padapter, EEPROM_READ_OPCODE, 3);
++	shift_out_bits(padapter, reg, padapter->EepromAddressSize);
++
++	// Now read the data (16 bits) in from the selected EEPROM word
++	data = shift_in_bits(padapter);
++
++	eeprom_clean(padapter);
++out:	
++#ifdef CONFIG_RTL8712
++	if(tmp8_clk_new!=tmp8_clk_ori)
++		rtw_write8(padapter, 0x10250003, tmp8_clk_ori);
++	if(tmp8_new!=tmp8_ori)
++		rtw_write8(padapter, 0x102502f1, tmp8_ori);
++
++#endif
++_func_exit_;		
++	return data;
++
++
++}
++
++
++
++
++//From even offset
++void eeprom_read_sz(_adapter * padapter, u16 reg, u8* data, u32 sz) 
++{
++
++	u16 x, data16;
++	u32 i;
++_func_enter_;		
++	if(padapter->bSurpriseRemoved==_TRUE){
++		RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
++		goto out;
++	}
++	// select EEPROM, reset bits, set _EECS
++	x = rtw_read8(padapter, EE_9346CR);
++
++	if(padapter->bSurpriseRemoved==_TRUE){
++		RT_TRACE(_module_rtl871x_eeprom_c_,_drv_err_,("padapter->bSurpriseRemoved==_TRUE"));
++		goto out;
++	}
++
++	x &= ~(_EEDI | _EEDO | _EESK | _EEM0);
++	x |= _EEM1 | _EECS;
++	rtw_write8(padapter, EE_9346CR, (unsigned char)x);
++
++	// write the read opcode and register number in that order
++	// The opcode is 3bits in length, reg is 6 bits long
++	shift_out_bits(padapter, EEPROM_READ_OPCODE, 3);
++	shift_out_bits(padapter, reg, padapter->EepromAddressSize);
++
++
++	for(i=0; i<sz; i+=2)
++	{
++		data16 = shift_in_bits(padapter);
++		data[i] = data16 & 0xff;
++		data[i+1] = data16 >>8;		
++	}
++
++	eeprom_clean(padapter);
++out:	
++_func_exit_;		
++
++
++
++}
++
++
++//addr_off : address offset of the entry in eeprom (not the tuple number of eeprom (reg); that is addr_off !=reg)
++u8 eeprom_read(_adapter * padapter, u32 addr_off, u8 sz, u8* rbuf)
++{
++	u8 quotient, remainder, addr_2align_odd;
++	u16 reg, stmp , i=0, idx = 0;
++_func_enter_;		
++	reg = (u16)(addr_off >> 1);
++	addr_2align_odd = (u8)(addr_off & 0x1);
++
++	if(addr_2align_odd) //read that start at high part: e.g  1,3,5,7,9,...
++	{
++		stmp = eeprom_read16(padapter, reg);
++		rbuf[idx++] = (u8) ((stmp>>8)&0xff); //return hogh-part of the short
++		reg++; sz--;
++	}
++	
++	quotient = sz >> 1;
++	remainder = sz & 0x1;
++
++	for( i=0 ; i < quotient; i++)
++	{
++		stmp = eeprom_read16(padapter, reg+i);
++		rbuf[idx++] = (u8) (stmp&0xff);
++		rbuf[idx++] = (u8) ((stmp>>8)&0xff);
++	}
++	
++	reg = reg+i;
++	if(remainder){ //end of read at lower part of short : 0,2,4,6,...
++		stmp = eeprom_read16(padapter, reg);
++		rbuf[idx] = (u8)(stmp & 0xff); 
++	}
++_func_exit_;		
++	return _TRUE;
++}
++
++
++
++VOID read_eeprom_content(_adapter *	padapter)
++{
++
++_func_enter_;		
++
++
++_func_exit_;		
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_ieee80211.c b/drivers/net/wireless/rtl8192cu/core/rtw_ieee80211.c
+new file mode 100755
+index 0000000..6305ba3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_ieee80211.c
+@@ -0,0 +1,1915 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _IEEE80211_C
++
++#include <drv_types.h>
++#include <ieee80211.h>
++#include <wifi.h>
++#include <osdep_service.h>
++#include <wlan_bssdef.h>
++
++u8 RTW_WPA_OUI_TYPE[] = { 0x00, 0x50, 0xf2, 1 };
++u16 RTW_WPA_VERSION = 1;
++u8 WPA_AUTH_KEY_MGMT_NONE[] = { 0x00, 0x50, 0xf2, 0 };
++u8 WPA_AUTH_KEY_MGMT_UNSPEC_802_1X[] = { 0x00, 0x50, 0xf2, 1 };
++u8 WPA_AUTH_KEY_MGMT_PSK_OVER_802_1X[] = { 0x00, 0x50, 0xf2, 2 };
++u8 WPA_CIPHER_SUITE_NONE[] = { 0x00, 0x50, 0xf2, 0 };
++u8 WPA_CIPHER_SUITE_WEP40[] = { 0x00, 0x50, 0xf2, 1 };
++u8 WPA_CIPHER_SUITE_TKIP[] = { 0x00, 0x50, 0xf2, 2 };
++u8 WPA_CIPHER_SUITE_WRAP[] = { 0x00, 0x50, 0xf2, 3 };
++u8 WPA_CIPHER_SUITE_CCMP[] = { 0x00, 0x50, 0xf2, 4 };
++u8 WPA_CIPHER_SUITE_WEP104[] = { 0x00, 0x50, 0xf2, 5 };
++
++u16 RSN_VERSION_BSD = 1;
++u8 RSN_AUTH_KEY_MGMT_UNSPEC_802_1X[] = { 0x00, 0x0f, 0xac, 1 };
++u8 RSN_AUTH_KEY_MGMT_PSK_OVER_802_1X[] = { 0x00, 0x0f, 0xac, 2 };
++u8 RSN_CIPHER_SUITE_NONE[] = { 0x00, 0x0f, 0xac, 0 };
++u8 RSN_CIPHER_SUITE_WEP40[] = { 0x00, 0x0f, 0xac, 1 };
++u8 RSN_CIPHER_SUITE_TKIP[] = { 0x00, 0x0f, 0xac, 2 };
++u8 RSN_CIPHER_SUITE_WRAP[] = { 0x00, 0x0f, 0xac, 3 };
++u8 RSN_CIPHER_SUITE_CCMP[] = { 0x00, 0x0f, 0xac, 4 };
++u8 RSN_CIPHER_SUITE_WEP104[] = { 0x00, 0x0f, 0xac, 5 };
++//-----------------------------------------------------------
++// for adhoc-master to generate ie and provide supported-rate to fw 
++//-----------------------------------------------------------
++
++static u8 	WIFI_CCKRATES[] = 
++{(IEEE80211_CCK_RATE_1MB | IEEE80211_BASIC_RATE_MASK),
++ (IEEE80211_CCK_RATE_2MB | IEEE80211_BASIC_RATE_MASK),
++ (IEEE80211_CCK_RATE_5MB | IEEE80211_BASIC_RATE_MASK),
++ (IEEE80211_CCK_RATE_11MB | IEEE80211_BASIC_RATE_MASK)};
++
++static u8 	WIFI_OFDMRATES[] = 
++{(IEEE80211_OFDM_RATE_6MB),
++ (IEEE80211_OFDM_RATE_9MB),
++ (IEEE80211_OFDM_RATE_12MB),
++ (IEEE80211_OFDM_RATE_18MB),
++ (IEEE80211_OFDM_RATE_24MB),
++ IEEE80211_OFDM_RATE_36MB,
++ IEEE80211_OFDM_RATE_48MB,
++ IEEE80211_OFDM_RATE_54MB};
++
++
++int rtw_get_bit_value_from_ieee_value(u8 val)
++{
++	unsigned char dot11_rate_table[]={2,4,11,22,12,18,24,36,48,72,96,108,0}; // last element must be zero!!
++
++	int i=0;
++	while(dot11_rate_table[i] != 0) {
++		if (dot11_rate_table[i] == val)
++			return BIT(i);
++		i++;
++	}
++	return 0;
++}
++
++uint	rtw_is_cckrates_included(u8 *rate)
++{	
++		u32	i = 0;			
++
++		while(rate[i]!=0)
++		{		
++			if  (  (((rate[i]) & 0x7f) == 2)	|| (((rate[i]) & 0x7f) == 4) ||		
++			(((rate[i]) & 0x7f) == 11)  || (((rate[i]) & 0x7f) == 22) )		
++			return _TRUE;	
++			i++;
++		}
++		
++		return _FALSE;
++}
++
++uint	rtw_is_cckratesonly_included(u8 *rate)
++{
++	u32 i = 0;
++
++
++	while(rate[i]!=0)
++	{
++			if  (  (((rate[i]) & 0x7f) != 2) && (((rate[i]) & 0x7f) != 4) &&
++				(((rate[i]) & 0x7f) != 11)  && (((rate[i]) & 0x7f) != 22) )
++
++			return _FALSE;		
++
++			i++;
++	}
++	
++	return _TRUE;
++
++}
++
++int rtw_check_network_type(unsigned char *rate, int ratelen, int channel)
++{
++	if (channel > 14)
++	{
++		if ((rtw_is_cckrates_included(rate)) == _TRUE)
++			return WIRELESS_INVALID;
++		else
++			return WIRELESS_11A;
++	}	
++	else  // could be pure B, pure G, or B/G
++	{
++		if ((rtw_is_cckratesonly_included(rate)) == _TRUE)	
++			return WIRELESS_11B;
++		else if((rtw_is_cckrates_included(rate)) == _TRUE)
++			return 	WIRELESS_11BG;
++		else
++			return WIRELESS_11G;
++	}
++	
++}
++
++u8 *rtw_set_fixed_ie(unsigned char *pbuf, unsigned int len, unsigned char *source,
++				unsigned int *frlen)
++{
++	_rtw_memcpy((void *)pbuf, (void *)source, len);
++	*frlen = *frlen + len;
++	return (pbuf + len);
++}
++
++// rtw_set_ie will update frame length
++u8 *rtw_set_ie
++(
++	u8 *pbuf, 
++	sint index, 
++	uint len,
++	u8 *source, 
++	uint *frlen //frame length
++)
++{
++_func_enter_;
++	*pbuf = (u8)index;
++
++	*(pbuf + 1) = (u8)len;
++
++	if (len > 0)
++		_rtw_memcpy((void *)(pbuf + 2), (void *)source, len);
++	
++	*frlen = *frlen + (len + 2);
++	
++	return (pbuf + len + 2);
++_func_exit_;	
++}
++
++inline u8 *rtw_set_ie_ch_switch(u8 *buf, u32 *buf_len, u8 ch_switch_mode,
++	u8 new_ch, u8 ch_switch_cnt)
++{
++	u8 ie_data[3];
++
++	ie_data[0] = ch_switch_mode;
++	ie_data[1] = new_ch;
++	ie_data[2] = ch_switch_cnt;
++	return rtw_set_ie(buf, WLAN_EID_CHANNEL_SWITCH,  3, ie_data, buf_len);
++}
++
++inline u8 secondary_ch_offset_to_hal_ch_offset(u8 ch_offset)
++{
++	if (ch_offset == SCN)
++		return HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	else if(ch_offset == SCA)
++		return HAL_PRIME_CHNL_OFFSET_UPPER;
++	else if(ch_offset == SCB)
++		return HAL_PRIME_CHNL_OFFSET_LOWER;
++
++	return HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++}
++
++inline u8 hal_ch_offset_to_secondary_ch_offset(u8 ch_offset)
++{
++	if (ch_offset == HAL_PRIME_CHNL_OFFSET_DONT_CARE)
++		return SCN;
++	else if(ch_offset == HAL_PRIME_CHNL_OFFSET_LOWER)
++		return SCB;
++	else if(ch_offset == HAL_PRIME_CHNL_OFFSET_UPPER)
++		return SCA;
++
++	return SCN;
++}
++
++inline u8 *rtw_set_ie_secondary_ch_offset(u8 *buf, u32 *buf_len, u8 secondary_ch_offset)
++{
++	return rtw_set_ie(buf, WLAN_EID_SECONDARY_CHANNEL_OFFSET,  1, &secondary_ch_offset, buf_len);
++}
++
++inline u8 *rtw_set_ie_mesh_ch_switch_parm(u8 *buf, u32 *buf_len, u8 ttl,
++	u8 flags, u16 reason, u16 precedence)
++{
++	u8 ie_data[6];
++
++	ie_data[0] = ttl;
++	ie_data[1] = flags;
++	RTW_PUT_LE16((u8*)&ie_data[2], reason);
++	RTW_PUT_LE16((u8*)&ie_data[4], precedence);
++
++	return rtw_set_ie(buf, 0x118,  6, ie_data, buf_len);
++}
++
++/*----------------------------------------------------------------------------
++index: the information element id index, limit is the limit for search
++-----------------------------------------------------------------------------*/
++u8 *rtw_get_ie(u8 *pbuf, sint index, sint *len, sint limit)
++{
++	sint tmp,i;
++	u8 *p;
++_func_enter_;
++	if (limit < 1){
++		_func_exit_;	
++		return NULL;
++	}
++
++	p = pbuf;
++	i = 0;
++	*len = 0;
++	while(1)
++	{
++		if (*p == index)
++		{
++			*len = *(p + 1);
++			return (p);
++		}
++		else
++		{
++			tmp = *(p + 1);
++			p += (tmp + 2);
++			i += (tmp + 2);
++		}
++		if (i >= limit)
++			break;
++	}
++_func_exit_;		
++	return NULL;
++}
++
++/**
++ * rtw_get_ie_ex - Search specific IE from a series of IEs
++ * @in_ie: Address of IEs to search
++ * @in_len: Length limit from in_ie
++ * @eid: Element ID to match
++ * @oui: OUI to match
++ * @oui_len: OUI length
++ * @ie: If not NULL and the specific IE is found, the IE will be copied to the buf starting from the specific IE
++ * @ielen: If not NULL and the specific IE is found, will set to the length of the entire IE
++ *
++ * Returns: The address of the specific IE found, or NULL
++ */
++u8 *rtw_get_ie_ex(u8 *in_ie, uint in_len, u8 eid, u8 *oui, u8 oui_len, u8 *ie, uint *ielen)
++{
++	uint cnt;
++	u8 *target_ie = NULL;
++
++
++	if(ielen)
++		*ielen = 0;
++
++	if(!in_ie || in_len<=0)
++		return target_ie;
++
++	cnt = 0;
++
++	while(cnt<in_len)
++	{
++		if(eid == in_ie[cnt]
++			&& ( !oui || _rtw_memcmp(&in_ie[cnt+2], oui, oui_len) == _TRUE))
++		{
++			target_ie = &in_ie[cnt];
++
++			if(ie)
++				_rtw_memcpy(ie, &in_ie[cnt], in_ie[cnt+1]+2);
++			
++			if(ielen)
++				*ielen = in_ie[cnt+1]+2;
++
++			break;
++		}
++		else
++		{
++			cnt+=in_ie[cnt+1]+2; //goto next	
++		}		
++
++	}	
++
++	return target_ie;
++}
++
++/**
++ * rtw_ies_remove_ie - Find matching IEs and remove
++ * @ies: Address of IEs to search
++ * @ies_len: Pointer of length of ies, will update to new length
++ * @offset: The offset to start scarch
++ * @eid: Element ID to match
++ * @oui: OUI to match
++ * @oui_len: OUI length
++ *
++ * Returns: _SUCCESS: ies is updated, _FAIL: not updated
++ */
++int rtw_ies_remove_ie(u8 *ies, uint *ies_len, uint offset, u8 eid, u8 *oui, u8 oui_len)
++{
++	int ret = _FAIL;
++	u8 *target_ie;
++	u32 target_ielen;
++	u8 *start;
++	uint search_len;
++	
++	if(!ies || !ies_len || *ies_len <= offset)
++		goto exit;
++
++	start = ies + offset;
++	search_len = *ies_len - offset;
++
++	while (1) {
++		target_ie = rtw_get_ie_ex(start, search_len, eid, oui, oui_len, NULL, &target_ielen);
++		if (target_ie && target_ielen) {
++			u8 buf[MAX_IE_SZ] = {0};
++			u8 *remain_ies = target_ie + target_ielen;
++			uint remain_len = search_len - (remain_ies - start);
++			
++			_rtw_memcpy(buf, remain_ies, remain_len);
++			_rtw_memcpy(target_ie, buf, remain_len);
++			*ies_len = *ies_len - target_ielen;
++			ret = _SUCCESS;
++
++			start = target_ie;
++			search_len = remain_len;
++		} else {
++			break;
++		}
++	}
++exit:
++	return ret;
++}
++
++void rtw_set_supported_rate(u8* SupportedRates, uint mode) 
++{
++_func_enter_;
++
++	_rtw_memset(SupportedRates, 0, NDIS_802_11_LENGTH_RATES_EX);
++	
++	switch (mode)
++	{
++		case WIRELESS_11B:
++			_rtw_memcpy(SupportedRates, WIFI_CCKRATES, IEEE80211_CCK_RATE_LEN);
++			break;
++		
++		case WIRELESS_11G:
++		case WIRELESS_11A:
++		case WIRELESS_11_5N:
++		case WIRELESS_11A_5N://Todo: no basic rate for ofdm ?
++			_rtw_memcpy(SupportedRates, WIFI_OFDMRATES, IEEE80211_NUM_OFDM_RATESLEN);
++			break;
++		
++		case WIRELESS_11BG:
++		case WIRELESS_11G_24N:
++		case WIRELESS_11_24N:
++		case WIRELESS_11BG_24N:
++			_rtw_memcpy(SupportedRates, WIFI_CCKRATES, IEEE80211_CCK_RATE_LEN);
++			_rtw_memcpy(SupportedRates + IEEE80211_CCK_RATE_LEN, WIFI_OFDMRATES, IEEE80211_NUM_OFDM_RATESLEN);
++			break;
++	
++	}
++_func_exit_;	
++}
++
++uint	rtw_get_rateset_len(u8	*rateset)
++{
++	uint i = 0;
++_func_enter_;	
++	while(1)
++	{
++		if ((rateset[i]) == 0)
++			break;
++			
++		if (i > 12)
++			break;
++			
++		i++;			
++	}
++_func_exit_;		
++	return i;
++}
++
++int rtw_generate_ie(struct registry_priv *pregistrypriv)
++{
++	u8	wireless_mode;
++	int 	sz = 0, rateLen;
++	WLAN_BSSID_EX*	pdev_network = &pregistrypriv->dev_network;
++	u8*	ie = pdev_network->IEs;
++	
++_func_enter_;		
++
++	//timestamp will be inserted by hardware
++	sz += 8;	
++	ie += sz;
++	
++	//beacon interval : 2bytes
++	*(u16*)ie = cpu_to_le16((u16)pdev_network->Configuration.BeaconPeriod);//BCN_INTERVAL;
++	sz += 2; 
++	ie += 2;
++	
++	//capability info
++	*(u16*)ie = 0;
++	
++	*(u16*)ie |= cpu_to_le16(cap_IBSS);
++
++	if(pregistrypriv->preamble == PREAMBLE_SHORT)
++		*(u16*)ie |= cpu_to_le16(cap_ShortPremble);
++	
++	if (pdev_network->Privacy)
++		*(u16*)ie |= cpu_to_le16(cap_Privacy);
++	
++	sz += 2;
++	ie += 2;
++	
++	//SSID
++	ie = rtw_set_ie(ie, _SSID_IE_, pdev_network->Ssid.SsidLength, pdev_network->Ssid.Ssid, &sz);
++	
++	//supported rates
++	if(pregistrypriv->wireless_mode == WIRELESS_11ABGN)
++	{
++		if(pdev_network->Configuration.DSConfig > 14)
++			wireless_mode = WIRELESS_11A_5N;
++		else
++			wireless_mode = WIRELESS_11BG_24N;
++	}
++	else
++	{
++		wireless_mode = pregistrypriv->wireless_mode;
++	}
++	
++	rtw_set_supported_rate(pdev_network->SupportedRates, wireless_mode) ;
++	
++	rateLen = rtw_get_rateset_len(pdev_network->SupportedRates);
++
++	if (rateLen > 8)
++	{
++		ie = rtw_set_ie(ie, _SUPPORTEDRATES_IE_, 8, pdev_network->SupportedRates, &sz);
++		//ie = rtw_set_ie(ie, _EXT_SUPPORTEDRATES_IE_, (rateLen - 8), (pdev_network->SupportedRates + 8), &sz);
++	}
++	else
++	{
++		ie = rtw_set_ie(ie, _SUPPORTEDRATES_IE_, rateLen, pdev_network->SupportedRates, &sz);
++	}
++
++	//DS parameter set
++	ie = rtw_set_ie(ie, _DSSET_IE_, 1, (u8 *)&(pdev_network->Configuration.DSConfig), &sz);
++
++
++	//IBSS Parameter Set
++	
++	ie = rtw_set_ie(ie, _IBSS_PARA_IE_, 2, (u8 *)&(pdev_network->Configuration.ATIMWindow), &sz);
++
++	if (rateLen > 8)
++	{		
++		ie = rtw_set_ie(ie, _EXT_SUPPORTEDRATES_IE_, (rateLen - 8), (pdev_network->SupportedRates + 8), &sz);
++	}
++	
++		
++	//HT Cap.
++	if(((pregistrypriv->wireless_mode&WIRELESS_11_5N)||(pregistrypriv->wireless_mode&WIRELESS_11_24N)) 
++		&& (pregistrypriv->ht_enable==_TRUE))
++	{
++		//todo:
++	}
++
++	//pdev_network->IELength =  sz; //update IELength
++
++_func_exit_;
++
++	//return _SUCCESS;
++
++	return sz;
++
++}
++
++unsigned char *rtw_get_wpa_ie(unsigned char *pie, int *wpa_ie_len, int limit)
++{
++	int len;
++	u16 val16;
++	unsigned char wpa_oui_type[] = {0x00, 0x50, 0xf2, 0x01};
++	u8 *pbuf = pie;
++
++	while(1) 
++	{
++		pbuf = rtw_get_ie(pbuf, _WPA_IE_ID_, &len, limit);
++
++		if (pbuf) {
++
++			//check if oui matches...
++			if (_rtw_memcmp((pbuf + 2), wpa_oui_type, sizeof (wpa_oui_type)) == _FALSE) {
++
++				goto check_next_ie;
++			}
++
++			//check version...
++			_rtw_memcpy((u8 *)&val16, (pbuf + 6), sizeof(val16));
++
++			val16 = le16_to_cpu(val16);
++			if (val16 != 0x0001)
++				goto check_next_ie;
++
++			*wpa_ie_len = *(pbuf + 1);
++
++			return pbuf;
++		}
++		else {
++
++			*wpa_ie_len = 0;
++			return NULL;
++		}
++
++check_next_ie:
++
++		limit -= (2 + len);
++
++		if (limit <= 0)
++			break;
++
++		pbuf += (2 + len);
++	}
++
++	*wpa_ie_len = 0;
++
++	return NULL;
++}
++
++unsigned char *rtw_get_wpa2_ie(unsigned char *pie, int *rsn_ie_len, int limit)
++{	
++
++	return rtw_get_ie(pie, _WPA2_IE_ID_,rsn_ie_len, limit);
++
++}
++
++int rtw_get_wpa_cipher_suite(u8 *s)
++{
++	if (_rtw_memcmp(s, WPA_CIPHER_SUITE_NONE, WPA_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_NONE;
++	if (_rtw_memcmp(s, WPA_CIPHER_SUITE_WEP40, WPA_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_WEP40;
++	if (_rtw_memcmp(s, WPA_CIPHER_SUITE_TKIP, WPA_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_TKIP;
++	if (_rtw_memcmp(s, WPA_CIPHER_SUITE_CCMP, WPA_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_CCMP;
++	if (_rtw_memcmp(s, WPA_CIPHER_SUITE_WEP104, WPA_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_WEP104;
++
++	return 0;
++}
++
++int rtw_get_wpa2_cipher_suite(u8 *s)
++{
++	if (_rtw_memcmp(s, RSN_CIPHER_SUITE_NONE, RSN_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_NONE;
++	if (_rtw_memcmp(s, RSN_CIPHER_SUITE_WEP40, RSN_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_WEP40;
++	if (_rtw_memcmp(s, RSN_CIPHER_SUITE_TKIP, RSN_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_TKIP;
++	if (_rtw_memcmp(s, RSN_CIPHER_SUITE_CCMP, RSN_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_CCMP;
++	if (_rtw_memcmp(s, RSN_CIPHER_SUITE_WEP104, RSN_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_WEP104;
++
++	return 0;
++}
++
++
++int rtw_parse_wpa_ie(u8* wpa_ie, int wpa_ie_len, int *group_cipher, int *pairwise_cipher)
++{
++	int i, ret=_SUCCESS;
++	int left, count;
++	u8 *pos;
++
++	if (wpa_ie_len <= 0) {
++		/* No WPA IE - fail silently */
++		return _FAIL;
++	}
++
++	
++	if ((*wpa_ie != _WPA_IE_ID_) || (*(wpa_ie+1) != (u8)(wpa_ie_len - 2)) ||
++	   (_rtw_memcmp(wpa_ie+2, RTW_WPA_OUI_TYPE, WPA_SELECTOR_LEN) != _TRUE) )
++	{		
++		return _FAIL;
++	}
++
++	pos = wpa_ie;
++
++	pos += 8;
++	left = wpa_ie_len - 8;	
++
++
++	//group_cipher
++	if (left >= WPA_SELECTOR_LEN) {
++
++		*group_cipher = rtw_get_wpa_cipher_suite(pos);
++		
++		pos += WPA_SELECTOR_LEN;
++		left -= WPA_SELECTOR_LEN;
++		
++	} 
++	else if (left > 0)
++	{
++		RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("%s: ie length mismatch, %u too much", __FUNCTION__, left));
++		
++		return _FAIL;
++	}
++
++
++	//pairwise_cipher
++	if (left >= 2)
++	{		
++                //count = le16_to_cpu(*(u16*)pos);	
++		count = RTW_GET_LE16(pos);
++		pos += 2;
++		left -= 2;
++		
++		if (count == 0 || left < count * WPA_SELECTOR_LEN) {
++			RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("%s: ie count botch (pairwise), "
++				   		"count %u left %u", __FUNCTION__, count, left));
++			return _FAIL;
++		}
++		
++		for (i = 0; i < count; i++)
++		{
++			*pairwise_cipher |= rtw_get_wpa_cipher_suite(pos);
++			
++			pos += WPA_SELECTOR_LEN;
++			left -= WPA_SELECTOR_LEN;
++		}
++		
++	} 
++	else if (left == 1)
++	{
++		RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("%s: ie too short (for key mgmt)",   __FUNCTION__));
++		return _FAIL;
++	}
++
++	
++	return ret;
++	
++}
++
++int rtw_parse_wpa2_ie(u8* rsn_ie, int rsn_ie_len, int *group_cipher, int *pairwise_cipher)
++{
++	int i, ret=_SUCCESS;
++	int left, count;
++	u8 *pos;
++
++	if (rsn_ie_len <= 0) {
++		/* No RSN IE - fail silently */
++		return _FAIL;
++	}
++
++
++	if ((*rsn_ie!= _WPA2_IE_ID_) || (*(rsn_ie+1) != (u8)(rsn_ie_len - 2)))
++	{		
++		return _FAIL;
++	}
++	
++	pos = rsn_ie;
++	pos += 4;
++	left = rsn_ie_len - 4;	
++
++	//group_cipher
++	if (left >= RSN_SELECTOR_LEN) {
++
++		*group_cipher = rtw_get_wpa2_cipher_suite(pos);
++		
++		pos += RSN_SELECTOR_LEN;
++		left -= RSN_SELECTOR_LEN;
++		
++	} else if (left > 0) {
++		RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("%s: ie length mismatch, %u too much", __FUNCTION__, left));
++		return _FAIL;
++	}
++
++	//pairwise_cipher
++	if (left >= 2)
++	{		
++	        //count = le16_to_cpu(*(u16*)pos);
++		count = RTW_GET_LE16(pos);
++		pos += 2;
++		left -= 2;
++
++		if (count == 0 || left < count * RSN_SELECTOR_LEN) {
++			RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("%s: ie count botch (pairwise), "
++				  		 "count %u left %u", __FUNCTION__, count, left));
++			return _FAIL;
++		}
++		
++		for (i = 0; i < count; i++)
++		{			
++			*pairwise_cipher |= rtw_get_wpa2_cipher_suite(pos);
++			
++			pos += RSN_SELECTOR_LEN;
++			left -= RSN_SELECTOR_LEN;
++		}
++
++	} 
++	else if (left == 1)
++	{
++		RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("%s: ie too short (for key mgmt)",  __FUNCTION__));
++		
++		return _FAIL;
++	}
++
++
++	return ret;
++	
++}
++
++int rtw_get_sec_ie(u8 *in_ie,uint in_len,u8 *rsn_ie,u16 *rsn_len,u8 *wpa_ie,u16 *wpa_len)
++{
++	u8 authmode, sec_idx, i;
++	u8 wpa_oui[4]={0x0,0x50,0xf2,0x01};
++	uint 	cnt;
++	
++_func_enter_;
++
++	//Search required WPA or WPA2 IE and copy to sec_ie[ ]
++	
++	cnt = (_TIMESTAMP_ + _BEACON_ITERVAL_ + _CAPABILITY_);
++	
++	sec_idx=0;
++		
++	while(cnt<in_len)
++	{
++		authmode=in_ie[cnt];
++		
++		if((authmode==_WPA_IE_ID_)&&(_rtw_memcmp(&in_ie[cnt+2], &wpa_oui[0],4)==_TRUE))
++		{	
++				RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("\n rtw_get_wpa_ie: sec_idx=%d in_ie[cnt+1]+2=%d\n",sec_idx,in_ie[cnt+1]+2));		
++
++				_rtw_memcpy(wpa_ie, &in_ie[cnt],in_ie[cnt+1]+2);
++
++				for(i=0;i<(in_ie[cnt+1]+2);i=i+8){
++					RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("\n %2x,%2x,%2x,%2x,%2x,%2x,%2x,%2x\n",wpa_ie[i],wpa_ie[i+1],wpa_ie[i+2],wpa_ie[i+3],wpa_ie[i+4],wpa_ie[i+5],wpa_ie[i+6],wpa_ie[i+7]));
++				}
++
++				*wpa_len=in_ie[cnt+1]+2;
++				cnt+=in_ie[cnt+1]+2;  //get next
++		}
++		else
++		{
++			if(authmode==_WPA2_IE_ID_)
++			{
++				RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("\n get_rsn_ie: sec_idx=%d in_ie[cnt+1]+2=%d\n",sec_idx,in_ie[cnt+1]+2));		
++
++				_rtw_memcpy(rsn_ie, &in_ie[cnt],in_ie[cnt+1]+2);
++
++				for(i=0;i<(in_ie[cnt+1]+2);i=i+8){
++					RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("\n %2x,%2x,%2x,%2x,%2x,%2x,%2x,%2x\n",rsn_ie[i],rsn_ie[i+1],rsn_ie[i+2],rsn_ie[i+3],rsn_ie[i+4],rsn_ie[i+5],rsn_ie[i+6],rsn_ie[i+7]));
++				}
++
++				*rsn_len=in_ie[cnt+1]+2;
++				cnt+=in_ie[cnt+1]+2;  //get next
++			}
++			else
++			{
++				cnt+=in_ie[cnt+1]+2;   //get next
++			}	
++		}
++		
++	}
++	
++_func_exit_;
++
++	return (*rsn_len+*wpa_len);
++	
++}
++
++u8 rtw_is_wps_ie(u8 *ie_ptr, uint *wps_ielen)
++{	
++	u8 match = _FALSE;
++	u8 eid, wps_oui[4]={0x0,0x50,0xf2,0x04};
++	
++	if(ie_ptr == NULL) return match;
++	
++	eid = ie_ptr[0];
++	
++	if((eid==_WPA_IE_ID_)&&(_rtw_memcmp(&ie_ptr[2], wps_oui, 4)==_TRUE))
++	{			
++		//printk("==> found WPS_IE.....\n");		
++		*wps_ielen = ie_ptr[1]+2;			
++		match=_TRUE;
++	}	
++	return match;
++}
++
++/**
++ * rtw_get_wps_ie - Search WPS IE from a series of IEs
++ * @in_ie: Address of IEs to search
++ * @in_len: Length limit from in_ie
++ * @wps_ie: If not NULL and WPS IE is found, WPS IE will be copied to the buf starting from wps_ie
++ * @wps_ielen: If not NULL and WPS IE is found, will set to the length of the entire WPS IE
++ *
++ * Returns: The address of the WPS IE found, or NULL
++ */
++u8 *rtw_get_wps_ie(u8 *in_ie, uint in_len, u8 *wps_ie, uint *wps_ielen)
++{
++	uint cnt;
++	u8 *wpsie_ptr=NULL;
++	u8 eid, wps_oui[4]={0x0,0x50,0xf2,0x04};
++
++	if(wps_ielen)
++		*wps_ielen = 0;
++
++	if(!in_ie || in_len<=0)
++		return wpsie_ptr;
++
++	cnt = 0;
++
++	while(cnt<in_len)
++	{
++		eid = in_ie[cnt];
++
++		if((eid==_WPA_IE_ID_)&&(_rtw_memcmp(&in_ie[cnt+2], wps_oui, 4)==_TRUE))
++		{
++			wpsie_ptr = &in_ie[cnt];
++
++			if(wps_ie)
++				_rtw_memcpy(wps_ie, &in_ie[cnt], in_ie[cnt+1]+2);
++			
++			if(wps_ielen)
++				*wps_ielen = in_ie[cnt+1]+2;
++			
++			cnt+=in_ie[cnt+1]+2;
++
++			break;
++		}
++		else
++		{
++			cnt+=in_ie[cnt+1]+2; //goto next	
++		}		
++
++	}	
++
++	return wpsie_ptr;
++}
++
++/**
++ * rtw_get_wps_attr - Search a specific WPS attribute from a given WPS IE
++ * @wps_ie: Address of WPS IE to search
++ * @wps_ielen: Length limit from wps_ie
++ * @target_attr_id: The attribute ID of WPS attribute to search
++ * @buf_attr: If not NULL and the WPS attribute is found, WPS attribute will be copied to the buf starting from buf_attr
++ * @len_attr: If not NULL and the WPS attribute is found, will set to the length of the entire WPS attribute
++ *
++ * Returns: the address of the specific WPS attribute found, or NULL
++ */
++u8 *rtw_get_wps_attr(u8 *wps_ie, uint wps_ielen, u16 target_attr_id ,u8 *buf_attr, u32 *len_attr)
++{
++	u8 *attr_ptr = NULL;
++	u8 * target_attr_ptr = NULL;
++	u8 wps_oui[4]={0x00,0x50,0xF2,0x04};
++
++	if(len_attr)
++		*len_attr = 0;
++
++	if ( ( wps_ie[0] != _VENDOR_SPECIFIC_IE_ ) ||
++		( _rtw_memcmp( wps_ie + 2, wps_oui , 4 ) != _TRUE ) )
++	{
++		return attr_ptr;
++	}
++
++	// 6 = 1(Element ID) + 1(Length) + 4(WPS OUI)
++	attr_ptr = wps_ie + 6; //goto first attr
++	
++	while(attr_ptr - wps_ie < wps_ielen)
++	{
++		// 4 = 2(Attribute ID) + 2(Length)
++		u16 attr_id = RTW_GET_BE16(attr_ptr);
++		u16 attr_data_len = RTW_GET_BE16(attr_ptr + 2);
++		u16 attr_len = attr_data_len + 4;
++		
++		//DBG_871X("%s attr_ptr:%p, id:%u, length:%u\n", __FUNCTION__, attr_ptr, attr_id, attr_data_len);
++		if( attr_id == target_attr_id )
++		{
++			target_attr_ptr = attr_ptr;
++		
++			if(buf_attr)
++				_rtw_memcpy(buf_attr, attr_ptr, attr_len);
++			
++			if(len_attr)
++				*len_attr = attr_len;
++			
++			break;
++		}
++		else
++		{
++			attr_ptr += attr_len; //goto next
++		}		
++		
++	}	
++
++	return target_attr_ptr;
++}
++
++/**
++ * rtw_get_wps_attr_content - Search a specific WPS attribute content from a given WPS IE
++ * @wps_ie: Address of WPS IE to search
++ * @wps_ielen: Length limit from wps_ie
++ * @target_attr_id: The attribute ID of WPS attribute to search
++ * @buf_content: If not NULL and the WPS attribute is found, WPS attribute content will be copied to the buf starting from buf_content
++ * @len_content: If not NULL and the WPS attribute is found, will set to the length of the WPS attribute content
++ *
++ * Returns: the address of the specific WPS attribute content found, or NULL
++ */
++u8 *rtw_get_wps_attr_content(u8 *wps_ie, uint wps_ielen, u16 target_attr_id ,u8 *buf_content, uint *len_content)
++{
++	u8 *attr_ptr;
++	u32 attr_len;
++
++	if(len_content)
++		*len_content = 0;
++	
++	attr_ptr = rtw_get_wps_attr(wps_ie, wps_ielen, target_attr_id, NULL, &attr_len);
++
++	if(attr_ptr && attr_len)
++	{
++		if(buf_content)
++			_rtw_memcpy(buf_content, attr_ptr+4, attr_len-4);
++
++		if(len_content)
++			*len_content = attr_len-4;
++
++		return attr_ptr+4;
++	}
++
++	return NULL;
++}
++
++static int rtw_ieee802_11_parse_vendor_specific(u8 *pos, uint elen,
++					    struct rtw_ieee802_11_elems *elems,
++					    int show_errors)
++{
++	unsigned int oui;
++
++	/* first 3 bytes in vendor specific information element are the IEEE
++	 * OUI of the vendor. The following byte is used a vendor specific
++	 * sub-type. */
++	if (elen < 4) {
++		if (show_errors) {
++			DBG_871X("short vendor specific "
++				   "information element ignored (len=%lu)\n",
++				   (unsigned long) elen);
++		}
++		return -1;
++	}
++
++	oui = RTW_GET_BE24(pos);
++	switch (oui) {
++	case OUI_MICROSOFT:
++		/* Microsoft/Wi-Fi information elements are further typed and
++		 * subtyped */
++		switch (pos[3]) {
++		case 1:
++			/* Microsoft OUI (00:50:F2) with OUI Type 1:
++			 * real WPA information element */
++			elems->wpa_ie = pos;
++			elems->wpa_ie_len = elen;
++			break;
++		case WME_OUI_TYPE: /* this is a Wi-Fi WME info. element */
++			if (elen < 5) {
++				DBG_871X("short WME "
++					   "information element ignored "
++					   "(len=%lu)\n",
++					   (unsigned long) elen);
++				return -1;
++			}
++			switch (pos[4]) {
++			case WME_OUI_SUBTYPE_INFORMATION_ELEMENT:
++			case WME_OUI_SUBTYPE_PARAMETER_ELEMENT:
++				elems->wme = pos;
++				elems->wme_len = elen;
++				break;
++			case WME_OUI_SUBTYPE_TSPEC_ELEMENT:
++				elems->wme_tspec = pos;
++				elems->wme_tspec_len = elen;
++				break;
++			default:
++				DBG_871X("unknown WME "
++					   "information element ignored "
++					   "(subtype=%d len=%lu)\n",
++					   pos[4], (unsigned long) elen);
++				return -1;
++			}
++			break;
++		case 4:
++			/* Wi-Fi Protected Setup (WPS) IE */
++			elems->wps_ie = pos;
++			elems->wps_ie_len = elen;
++			break;
++		default:
++			DBG_871X("Unknown Microsoft "
++				   "information element ignored "
++				   "(type=%d len=%lu)\n",
++				   pos[3], (unsigned long) elen);
++			return -1;
++		}
++		break;
++
++	case OUI_BROADCOM:
++		switch (pos[3]) {
++		case VENDOR_HT_CAPAB_OUI_TYPE:
++			elems->vendor_ht_cap = pos;
++			elems->vendor_ht_cap_len = elen;
++			break;
++		default:
++			DBG_871X("Unknown Broadcom "
++				   "information element ignored "
++				   "(type=%d len=%lu)\n",
++				   pos[3], (unsigned long) elen);
++			return -1;
++		}
++		break;
++
++	default:
++		DBG_871X("unknown vendor specific information "
++			   "element ignored (vendor OUI %02x:%02x:%02x "
++			   "len=%lu)\n",
++			   pos[0], pos[1], pos[2], (unsigned long) elen);
++		return -1;
++	}
++
++	return 0;
++	
++}
++
++/**
++ * ieee802_11_parse_elems - Parse information elements in management frames
++ * @start: Pointer to the start of IEs
++ * @len: Length of IE buffer in octets
++ * @elems: Data structure for parsed elements
++ * @show_errors: Whether to show parsing errors in debug log
++ * Returns: Parsing result
++ */
++ParseRes rtw_ieee802_11_parse_elems(u8 *start, uint len,
++				struct rtw_ieee802_11_elems *elems,
++				int show_errors)
++{
++	uint left = len;
++	u8 *pos = start;
++	int unknown = 0;
++
++	_rtw_memset(elems, 0, sizeof(*elems));
++
++	while (left >= 2) {
++		u8 id, elen;
++
++		id = *pos++;
++		elen = *pos++;
++		left -= 2;
++
++		if (elen > left) {
++			if (show_errors) {
++				DBG_871X("IEEE 802.11 element "
++					   "parse failed (id=%d elen=%d "
++					   "left=%lu)\n",
++					   id, elen, (unsigned long) left);				
++			}
++			return ParseFailed;
++		}
++
++		switch (id) {
++		case WLAN_EID_SSID:
++			elems->ssid = pos;
++			elems->ssid_len = elen;
++			break;
++		case WLAN_EID_SUPP_RATES:
++			elems->supp_rates = pos;
++			elems->supp_rates_len = elen;
++			break;
++		case WLAN_EID_FH_PARAMS:
++			elems->fh_params = pos;
++			elems->fh_params_len = elen;
++			break;
++		case WLAN_EID_DS_PARAMS:
++			elems->ds_params = pos;
++			elems->ds_params_len = elen;
++			break;
++		case WLAN_EID_CF_PARAMS:
++			elems->cf_params = pos;
++			elems->cf_params_len = elen;
++			break;
++		case WLAN_EID_TIM:
++			elems->tim = pos;
++			elems->tim_len = elen;
++			break;
++		case WLAN_EID_IBSS_PARAMS:
++			elems->ibss_params = pos;
++			elems->ibss_params_len = elen;
++			break;
++		case WLAN_EID_CHALLENGE:
++			elems->challenge = pos;
++			elems->challenge_len = elen;
++			break;
++		case WLAN_EID_ERP_INFO:
++			elems->erp_info = pos;
++			elems->erp_info_len = elen;
++			break;
++		case WLAN_EID_EXT_SUPP_RATES:
++			elems->ext_supp_rates = pos;
++			elems->ext_supp_rates_len = elen;
++			break;
++		case WLAN_EID_VENDOR_SPECIFIC:
++			if (rtw_ieee802_11_parse_vendor_specific(pos, elen,
++							     elems,
++							     show_errors))
++				unknown++;
++			break;
++		case WLAN_EID_RSN:
++			elems->rsn_ie = pos;
++			elems->rsn_ie_len = elen;
++			break;
++		case WLAN_EID_PWR_CAPABILITY:
++			elems->power_cap = pos;
++			elems->power_cap_len = elen;
++			break;
++		case WLAN_EID_SUPPORTED_CHANNELS:
++			elems->supp_channels = pos;
++			elems->supp_channels_len = elen;
++			break;
++		case WLAN_EID_MOBILITY_DOMAIN:
++			elems->mdie = pos;
++			elems->mdie_len = elen;
++			break;
++		case WLAN_EID_FAST_BSS_TRANSITION:
++			elems->ftie = pos;
++			elems->ftie_len = elen;
++			break;
++		case WLAN_EID_TIMEOUT_INTERVAL:
++			elems->timeout_int = pos;
++			elems->timeout_int_len = elen;
++			break;
++		case WLAN_EID_HT_CAP:
++			elems->ht_capabilities = pos;
++			elems->ht_capabilities_len = elen;
++			break;
++		case WLAN_EID_HT_OPERATION:
++			elems->ht_operation = pos;
++			elems->ht_operation_len = elen;
++			break;
++		default:
++			unknown++;
++			if (!show_errors)
++				break;
++			DBG_871X("IEEE 802.11 element parse "
++				   "ignored unknown element (id=%d elen=%d)\n",
++				   id, elen);
++			break;
++		}
++
++		left -= elen;
++		pos += elen;
++	}
++
++	if (left)
++		return ParseFailed;
++
++	return unknown ? ParseUnknown : ParseOK;
++	
++}
++
++static u8 key_char2num(u8 ch);
++static u8 key_char2num(u8 ch)
++{
++    if((ch>='0')&&(ch<='9'))
++        return ch - '0';
++    else if ((ch>='a')&&(ch<='f'))
++        return ch - 'a' + 10;
++    else if ((ch>='A')&&(ch<='F'))
++        return ch - 'A' + 10;
++    else
++	 return 0xff;
++}
++
++u8 str_2char2num(u8 hch, u8 lch);
++u8 str_2char2num(u8 hch, u8 lch)
++{
++    return ((key_char2num(hch) * 10 ) + key_char2num(lch));
++}
++
++u8 key_2char2num(u8 hch, u8 lch);
++u8 key_2char2num(u8 hch, u8 lch)
++{
++    return ((key_char2num(hch) << 4) | key_char2num(lch));
++}
++
++u8 convert_ip_addr(u8 hch, u8 mch, u8 lch)
++{
++    return ((key_char2num(hch) * 100) + (key_char2num(mch) * 10 ) + key_char2num(lch));
++}
++
++extern char* rtw_initmac;
++void rtw_macaddr_cfg(u8 *mac_addr)
++{
++	u8 mac[ETH_ALEN];
++	if(mac_addr == NULL)	return;
++	
++	if ( rtw_initmac )
++	{	//	Users specify the mac address
++		int jj,kk;
++
++		for( jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3 )
++		{
++			mac[jj] = key_2char2num(rtw_initmac[kk], rtw_initmac[kk+ 1]);
++		}
++		_rtw_memcpy(mac_addr, mac, ETH_ALEN);
++	}
++	else
++	{	//	Use the mac address stored in the Efuse
++		_rtw_memcpy(mac, mac_addr, ETH_ALEN);
++	}
++	
++	if (((mac[0]==0xff) &&(mac[1]==0xff) && (mac[2]==0xff) &&
++	     (mac[3]==0xff) && (mac[4]==0xff) &&(mac[5]==0xff)) ||
++	    ((mac[0]==0x0) && (mac[1]==0x0) && (mac[2]==0x0) &&
++	     (mac[3]==0x0) && (mac[4]==0x0) &&(mac[5]==0x0)))
++	{
++		mac[0] = 0x00;
++		mac[1] = 0xe0;
++		mac[2] = 0x4c;
++		mac[3] = 0x87;
++		mac[4] = 0x00;
++		mac[5] = 0x00;
++		// use default mac addresss
++		_rtw_memcpy(mac_addr, mac, ETH_ALEN);
++		DBG_871X("MAC Address from efuse error, assign default one !!!\n");
++	}	
++
++	DBG_871X("rtw_macaddr_cfg MAC Address  = "MAC_FMT"\n", MAC_ARG(mac_addr));
++}
++
++void dump_ies(u8 *buf, u32 buf_len) {
++	u8* pos = (u8*)buf;
++	u8 id, len;
++	
++	while(pos-buf<=buf_len){
++		id = *pos;
++		len = *(pos+1);
++
++		DBG_871X("%s ID:%u, LEN:%u\n", __FUNCTION__, id, len);
++		#ifdef CONFIG_P2P
++		dump_p2p_ie(pos, len);
++		#endif
++		dump_wps_ie(pos, len);
++
++		pos+=(2+len);
++	}	
++}
++
++void dump_wps_ie(u8 *ie, u32 ie_len) {
++	u8* pos = (u8*)ie;
++	u16 id;
++	u16 len;
++
++	u8 *wps_ie;
++	uint wps_ielen;
++	
++	wps_ie = rtw_get_wps_ie(ie, ie_len, NULL, &wps_ielen);
++	if(wps_ie != ie || wps_ielen == 0)
++		return;
++
++	pos+=6;
++	while(pos-ie < ie_len){
++		id = RTW_GET_BE16(pos);
++		len = RTW_GET_BE16(pos + 2);
++
++		DBG_871X("%s ID:0x%04x, LEN:%u\n", __FUNCTION__, id, len);
++
++		pos+=(4+len);
++	}	
++}
++
++#ifdef CONFIG_P2P
++/**
++ * rtw_get_p2p_merged_len - Get merged ie length from muitiple p2p ies.
++ * @in_ie: Pointer of the first p2p ie
++ * @in_len: Total len of muiltiple p2p ies
++ * Returns: Length of merged p2p ie length
++ */
++u32 rtw_get_p2p_merged_ies_len(u8 *in_ie, u32 in_len)
++{
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 OUI[4] = { 0x50, 0x6f, 0x9a, 0x09 };
++	int i=0;
++	int j=0, len=0;
++
++	while( i < in_len)
++	{
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(in_ie+ i);
++
++		if( pIE->ElementID == _VENDOR_SPECIFIC_IE_ && _rtw_memcmp(pIE->data, OUI, 4) )
++		{
++			len += pIE->Length-4; // 4 is P2P OUI length, don't count it in this loop
++		}
++
++		i += (pIE->Length + 2);
++	}
++
++	return len + 4;	// Append P2P OUI length at last.
++}
++
++/**
++ * rtw_p2p_merge_ies - Merge muitiple p2p ies into one
++ * @in_ie: Pointer of the first p2p ie
++ * @in_len: Total len of muiltiple p2p ies
++ * @merge_ie: Pointer of merged ie
++ * Returns: Length of merged p2p ie
++ */
++int rtw_p2p_merge_ies(u8 *in_ie, u32 in_len, u8 *merge_ie)
++{
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 len = 0;
++	u8 OUI[4] = { 0x50, 0x6f, 0x9a, 0x09 };
++	u8 ELOUI[6] = { 0xDD, 0x00, 0x50, 0x6f, 0x9a, 0x09 };	//EID;Len;OUI, Len would copy at the end of function
++	int i=0;
++
++	if( merge_ie != NULL)
++	{
++		//Set first P2P OUI
++		_rtw_memcpy(merge_ie, ELOUI, 6);
++		merge_ie += 6;
++
++		while( i < in_len)
++		{
++			pIE = (PNDIS_802_11_VARIABLE_IEs)(in_ie+ i);
++
++			// Take out the rest of P2P OUIs
++			if( pIE->ElementID == _VENDOR_SPECIFIC_IE_ && _rtw_memcmp(pIE->data, OUI, 4) )
++			{
++				_rtw_memcpy( merge_ie, pIE->data +4, pIE->Length -4);
++				len += pIE->Length-4;
++				merge_ie += pIE->Length-4;
++			}
++
++			i += (pIE->Length + 2);
++		}
++
++		return len + 4;	// 4 is for P2P OUI
++
++	}
++
++	return 0;
++}
++
++void dump_p2p_ie(u8 *ie, u32 ie_len) {
++	u8* pos = (u8*)ie;
++	u8 id;
++	u16 len;
++
++	u8 *p2p_ie;
++	uint p2p_ielen;
++	
++	p2p_ie = rtw_get_p2p_ie(ie, ie_len, NULL, &p2p_ielen);
++	if(p2p_ie != ie || p2p_ielen == 0)
++		return;
++
++	pos+=6;
++	while(pos-ie < ie_len){
++		id = *pos;
++		len = RTW_GET_LE16(pos+1);
++
++		DBG_871X("%s ID:%u, LEN:%u\n", __FUNCTION__, id, len);
++
++		pos+=(3+len);
++	}	
++}
++
++/**
++ * rtw_get_p2p_ie - Search P2P IE from a series of IEs
++ * @in_ie: Address of IEs to search
++ * @in_len: Length limit from in_ie
++ * @p2p_ie: If not NULL and P2P IE is found, P2P IE will be copied to the buf starting from p2p_ie
++ * @p2p_ielen: If not NULL and P2P IE is found, will set to the length of the entire P2P IE
++ *
++ * Returns: The address of the P2P IE found, or NULL
++ */
++u8 *rtw_get_p2p_ie(u8 *in_ie, int in_len, u8 *p2p_ie, uint *p2p_ielen)
++{
++	uint cnt = 0;
++	u8 *p2p_ie_ptr;
++	u8 eid, p2p_oui[4]={0x50,0x6F,0x9A,0x09};
++
++	if ( p2p_ielen != NULL )
++		*p2p_ielen = 0;
++
++	while(cnt<in_len)
++	{
++		eid = in_ie[cnt];
++		if ((in_len < 0) || (cnt > MAX_IE_SZ)) {
++#ifdef PLATFORM_LINUX
++			dump_stack();
++#endif
++			return NULL;
++		}
++		if( ( eid == _VENDOR_SPECIFIC_IE_ ) && ( _rtw_memcmp( &in_ie[cnt+2], p2p_oui, 4) == _TRUE ) )
++		{
++			p2p_ie_ptr = in_ie + cnt;
++		
++			if ( p2p_ie != NULL )
++			{
++				_rtw_memcpy( p2p_ie, &in_ie[ cnt ], in_ie[ cnt + 1 ] + 2 );
++			}
++
++			if ( p2p_ielen != NULL )
++			{
++				*p2p_ielen = in_ie[ cnt + 1 ] + 2;
++			}
++			
++			return p2p_ie_ptr;
++
++			break;
++		}
++		else
++		{
++			cnt += in_ie[ cnt + 1 ] +2; //goto next	
++		}		
++		
++	}	
++
++	return NULL;
++
++}
++
++/**
++ * rtw_get_p2p_attr - Search a specific P2P attribute from a given P2P IE
++ * @p2p_ie: Address of P2P IE to search
++ * @p2p_ielen: Length limit from p2p_ie
++ * @target_attr_id: The attribute ID of P2P attribute to search
++ * @buf_attr: If not NULL and the P2P attribute is found, P2P attribute will be copied to the buf starting from buf_attr
++ * @len_attr: If not NULL and the P2P attribute is found, will set to the length of the entire P2P attribute
++ *
++ * Returns: the address of the specific WPS attribute found, or NULL
++ */
++u8 *rtw_get_p2p_attr(u8 *p2p_ie, uint p2p_ielen, u8 target_attr_id ,u8 *buf_attr, u32 *len_attr)
++{
++	u8 *attr_ptr = NULL;
++	u8 *target_attr_ptr = NULL;
++	u8 p2p_oui[4]={0x50,0x6F,0x9A,0x09};
++
++	if(len_attr)
++		*len_attr = 0;
++
++	if ( !p2p_ie || ( p2p_ie[0] != _VENDOR_SPECIFIC_IE_ ) ||
++		( _rtw_memcmp( p2p_ie + 2, p2p_oui , 4 ) != _TRUE ) )
++	{
++		return attr_ptr;
++	}
++
++	// 6 = 1(Element ID) + 1(Length) + 3 (OUI) + 1(OUI Type)
++	attr_ptr = p2p_ie + 6; //goto first attr
++	
++	while(attr_ptr - p2p_ie < p2p_ielen)
++	{
++		// 3 = 1(Attribute ID) + 2(Length)
++		u8 attr_id = *attr_ptr;
++		u16 attr_data_len = RTW_GET_LE16(attr_ptr + 1);
++		u16 attr_len = attr_data_len + 3;
++		
++		//DBG_871X("%s attr_ptr:%p, id:%u, length:%u\n", __FUNCTION__, attr_ptr, attr_id, attr_data_len);
++		if( attr_id == target_attr_id )
++		{
++			target_attr_ptr = attr_ptr;
++		
++			if(buf_attr)
++				_rtw_memcpy(buf_attr, attr_ptr, attr_len);
++			
++			if(len_attr)
++				*len_attr = attr_len;
++			
++			break;
++		}
++		else
++		{
++			attr_ptr += attr_len; //goto next
++		}		
++		
++	}	
++
++	return target_attr_ptr;
++}
++
++/**
++ * rtw_get_p2p_attr_content - Search a specific P2P attribute content from a given P2P IE
++ * @p2p_ie: Address of P2P IE to search
++ * @p2p_ielen: Length limit from p2p_ie
++ * @target_attr_id: The attribute ID of P2P attribute to search
++ * @buf_content: If not NULL and the P2P attribute is found, P2P attribute content will be copied to the buf starting from buf_content
++ * @len_content: If not NULL and the P2P attribute is found, will set to the length of the P2P attribute content
++ *
++ * Returns: the address of the specific P2P attribute content found, or NULL
++ */
++u8 *rtw_get_p2p_attr_content(u8 *p2p_ie, uint p2p_ielen, u8 target_attr_id ,u8 *buf_content, uint *len_content)
++{
++	u8 *attr_ptr;
++	u32 attr_len;
++
++	if(len_content)
++		*len_content = 0;
++	
++	attr_ptr = rtw_get_p2p_attr(p2p_ie, p2p_ielen, target_attr_id, NULL, &attr_len);
++
++	if(attr_ptr && attr_len)
++	{
++		if(buf_content)
++			_rtw_memcpy(buf_content, attr_ptr+3, attr_len-3);
++
++		if(len_content)
++			*len_content = attr_len-3;
++
++		return attr_ptr+3;
++	}
++
++	return NULL;
++}
++
++u32 rtw_set_p2p_attr_content(u8 *pbuf, u8 attr_id, u16 attr_len, u8 *pdata_attr)
++{	
++	u32 a_len;
++
++	*pbuf = attr_id;
++		
++	//*(u16*)(pbuf + 1) = cpu_to_le16(attr_len);
++	RTW_PUT_LE16(pbuf + 1, attr_len);
++
++	if(pdata_attr)
++		_rtw_memcpy(pbuf + 3, pdata_attr, attr_len);		
++		
++	a_len = attr_len + 3;
++		
++	return a_len;
++}
++
++static uint rtw_p2p_attr_remove(u8 *ie, uint ielen_ori, u8 attr_id)
++{
++	u8 *target_attr;
++	u32 target_attr_len;
++	uint ielen = ielen_ori;
++	int index=0;
++
++	while(1) {
++		target_attr=rtw_get_p2p_attr(ie, ielen, attr_id, NULL, &target_attr_len);
++		if(target_attr && target_attr_len)
++		{
++			u8 *next_attr = target_attr+target_attr_len;
++			uint remain_len = ielen-(next_attr-ie);
++			//dump_ies(ie, ielen);
++			#if 0
++			DBG_871X("[%d] ie:%p, ielen:%u\n"
++				"target_attr:%p, target_attr_len:%u\n"
++				"next_attr:%p, remain_len:%u\n"
++				, index++
++				, ie, ielen
++				, target_attr, target_attr_len
++				, next_attr, remain_len
++			);
++			#endif
++
++			_rtw_memset(target_attr, 0, target_attr_len);
++			_rtw_memcpy(target_attr, next_attr, remain_len);
++			_rtw_memset(target_attr+remain_len, 0, target_attr_len);
++			*(ie+1) -= target_attr_len;
++			ielen-=target_attr_len;
++		}
++		else
++		{
++			//if(index>0)
++			//	dump_ies(ie, ielen);
++			break;
++		}
++	}
++
++	return ielen;
++}
++
++void rtw_WLAN_BSSID_EX_remove_p2p_attr(WLAN_BSSID_EX *bss_ex, u8 attr_id)
++{
++	u8 *p2p_ie;
++	uint p2p_ielen, p2p_ielen_ori;
++	int cnt;
++	
++	if( (p2p_ie=rtw_get_p2p_ie(bss_ex->IEs+_FIXED_IE_LENGTH_, bss_ex->IELength-_FIXED_IE_LENGTH_, NULL, &p2p_ielen_ori)) ) 
++	{
++		#if 0
++		if(rtw_get_p2p_attr(p2p_ie, p2p_ielen_ori, attr_id, NULL, NULL)) {
++			DBG_871X("rtw_get_p2p_attr: GOT P2P_ATTR:%u!!!!!!!!\n", attr_id);
++			dump_ies(bss_ex->IEs+_FIXED_IE_LENGTH_, bss_ex->IELength-_FIXED_IE_LENGTH_);
++		}
++		#endif
++
++		p2p_ielen=rtw_p2p_attr_remove(p2p_ie, p2p_ielen_ori, attr_id);
++		if(p2p_ielen != p2p_ielen_ori) {
++			
++			u8 *next_ie_ori = p2p_ie+p2p_ielen_ori;
++			u8 *next_ie = p2p_ie+p2p_ielen;
++			uint remain_len = bss_ex->IELength-(next_ie_ori-bss_ex->IEs);
++
++			_rtw_memcpy(next_ie, next_ie_ori, remain_len);
++			_rtw_memset(next_ie+remain_len, 0, p2p_ielen_ori-p2p_ielen);
++			bss_ex->IELength -= p2p_ielen_ori-p2p_ielen;
++
++			#if 0
++			DBG_871X("remove P2P_ATTR:%u!\n", attr_id);
++			dump_ies(bss_ex->IEs+_FIXED_IE_LENGTH_, bss_ex->IELength-_FIXED_IE_LENGTH_);
++			#endif
++		}
++	}
++}
++
++#endif //CONFIG_P2P
++
++#ifdef CONFIG_WFD
++int rtw_get_wfd_ie(u8 *in_ie, int in_len, u8 *wfd_ie, uint *wfd_ielen)
++{
++	int match;
++	uint cnt = 0;	
++	u8 eid, wfd_oui[4]={0x50,0x6F,0x9A,0x0A};
++
++
++	match=_FALSE;
++
++	if ( in_len < 0 )
++	{
++		return match;
++	}
++	
++	while(cnt<in_len)
++	{
++		eid = in_ie[cnt];
++		
++		if( ( eid == _VENDOR_SPECIFIC_IE_ ) && ( _rtw_memcmp( &in_ie[cnt+2], wfd_oui, 4) == _TRUE ) )
++		{
++			if ( wfd_ie != NULL )
++			{
++				_rtw_memcpy( wfd_ie, &in_ie[ cnt ], in_ie[ cnt + 1 ] + 2 );
++			
++			}
++			else
++			{
++				if ( wfd_ielen != NULL )
++				{
++					*wfd_ielen = 0;
++				}
++			}
++			
++			if ( wfd_ielen != NULL )
++			{
++				*wfd_ielen = in_ie[ cnt + 1 ] + 2;
++			}
++			
++			cnt += in_ie[ cnt + 1 ] + 2;
++
++			match = _TRUE;
++			break;
++		}
++		else
++		{
++			cnt += in_ie[ cnt + 1 ] +2; //goto next	
++		}		
++		
++	}	
++
++	if ( match == _TRUE )
++	{
++		match = cnt;
++	}
++	
++	return match;
++
++}
++
++//	attr_content: The output buffer, contains the "body field" of WFD attribute.
++//	attr_contentlen: The data length of the "body field" of WFD attribute.
++int rtw_get_wfd_attr_content(u8 *wfd_ie, uint wfd_ielen, u8 target_attr_id ,u8 *attr_content, uint *attr_contentlen)
++{
++	int match;
++	uint cnt = 0;	
++	u8 attr_id, wfd_oui[4]={0x50,0x6F,0x9A,0x0A};
++
++
++	match=_FALSE;
++
++	if ( ( wfd_ie[ 0 ] != _VENDOR_SPECIFIC_IE_ ) ||
++		( _rtw_memcmp( wfd_ie + 2, wfd_oui , 4 ) != _TRUE ) )
++	{
++		return( match );
++	}
++
++	//	1 ( WFD IE ) + 1 ( Length ) + 3 ( OUI ) + 1 ( OUI Type )
++	cnt = 6;
++	while( cnt < wfd_ielen )
++	{
++		u16 attrlen = RTW_GET_BE16(wfd_ie + cnt + 1);		
++		
++		attr_id = wfd_ie[cnt];
++		if( attr_id == target_attr_id )
++		{
++			//	3 -> 1 byte for attribute ID field, 2 bytes for length field
++			if(attr_content)
++				_rtw_memcpy( attr_content, &wfd_ie[ cnt + 3 ], attrlen );
++			
++			if(attr_contentlen)
++				*attr_contentlen = attrlen;
++			
++			cnt += attrlen + 3;
++
++			match = _TRUE;
++			break;
++		}
++		else
++		{
++			cnt += attrlen + 3; //goto next	
++		}		
++		
++	}	
++
++	return match;
++
++}
++#endif // CONFIG_WFD
++
++//Baron adds to avoid FreeBSD warning
++int ieee80211_is_empty_essid(const char *essid, int essid_len)
++{
++	/* Single white space is for Linksys APs */
++	if (essid_len == 1 && essid[0] == ' ')
++		return 1;
++
++	/* Otherwise, if the entire essid is 0, we assume it is hidden */
++	while (essid_len) {
++		essid_len--;
++		if (essid[essid_len] != '\0')
++			return 0;
++	}
++
++	return 1;
++}
++
++int ieee80211_get_hdrlen(u16 fc)
++{
++	int hdrlen = 24;
++
++	switch (WLAN_FC_GET_TYPE(fc)) {
++	case RTW_IEEE80211_FTYPE_DATA:
++		if (fc & RTW_IEEE80211_STYPE_QOS_DATA)
++			hdrlen += 2;
++		if ((fc & RTW_IEEE80211_FCTL_FROMDS) && (fc & RTW_IEEE80211_FCTL_TODS))
++			hdrlen += 6; /* Addr4 */
++		break;
++	case RTW_IEEE80211_FTYPE_CTL:
++		switch (WLAN_FC_GET_STYPE(fc)) {
++		case RTW_IEEE80211_STYPE_CTS:
++		case RTW_IEEE80211_STYPE_ACK:
++			hdrlen = 10;
++			break;
++		default:
++			hdrlen = 16;
++			break;
++		}
++		break;
++	}
++
++	return hdrlen;
++}
++
++//show MCS rate, unit: 100Kbps
++u16 rtw_mcs_rate(u8 rf_type, u8 bw_40MHz, u8 short_GI_20, u8 short_GI_40, unsigned char * MCS_rate)
++{
++	u16 max_rate = 0;
++	
++	if(rf_type == RF_1T1R)
++	{
++		if(MCS_rate[0] & BIT(7))
++			max_rate = (bw_40MHz) ? ((short_GI_40)?1500:1350):((short_GI_20)?722:650);
++		else if(MCS_rate[0] & BIT(6))
++			max_rate = (bw_40MHz) ? ((short_GI_40)?1350:1215):((short_GI_20)?650:585);
++		else if(MCS_rate[0] & BIT(5))
++			max_rate = (bw_40MHz) ? ((short_GI_40)?1200:1080):((short_GI_20)?578:520);
++		else if(MCS_rate[0] & BIT(4))
++			max_rate = (bw_40MHz) ? ((short_GI_40)?900:810):((short_GI_20)?433:390);
++		else if(MCS_rate[0] & BIT(3))
++			max_rate = (bw_40MHz) ? ((short_GI_40)?600:540):((short_GI_20)?289:260);
++		else if(MCS_rate[0] & BIT(2))
++			max_rate = (bw_40MHz) ? ((short_GI_40)?450:405):((short_GI_20)?217:195);
++		else if(MCS_rate[0] & BIT(1))
++			max_rate = (bw_40MHz) ? ((short_GI_40)?300:270):((short_GI_20)?144:130);
++		else if(MCS_rate[0] & BIT(0))
++			max_rate = (bw_40MHz) ? ((short_GI_40)?150:135):((short_GI_20)?72:65);
++	}
++	else
++	{
++		if(MCS_rate[1])
++		{
++			if(MCS_rate[1] & BIT(7))
++				max_rate = (bw_40MHz) ? ((short_GI_40)?3000:2700):((short_GI_20)?1444:1300);
++			else if(MCS_rate[1] & BIT(6))
++				max_rate = (bw_40MHz) ? ((short_GI_40)?2700:2430):((short_GI_20)?1300:1170);
++			else if(MCS_rate[1] & BIT(5))
++				max_rate = (bw_40MHz) ? ((short_GI_40)?2400:2160):((short_GI_20)?1156:1040);
++			else if(MCS_rate[1] & BIT(4))
++				max_rate = (bw_40MHz) ? ((short_GI_40)?1800:1620):((short_GI_20)?867:780);
++			else if(MCS_rate[1] & BIT(3))
++				max_rate = (bw_40MHz) ? ((short_GI_40)?1200:1080):((short_GI_20)?578:520);
++			else if(MCS_rate[1] & BIT(2))
++				max_rate = (bw_40MHz) ? ((short_GI_40)?900:810):((short_GI_20)?433:390);
++			else if(MCS_rate[1] & BIT(1))
++				max_rate = (bw_40MHz) ? ((short_GI_40)?600:540):((short_GI_20)?289:260);
++			else if(MCS_rate[1] & BIT(0))
++				max_rate = (bw_40MHz) ? ((short_GI_40)?300:270):((short_GI_20)?144:130);
++		}
++		else
++		{
++			if(MCS_rate[0] & BIT(7))
++				max_rate = (bw_40MHz) ? ((short_GI_40)?1500:1350):((short_GI_20)?722:650);
++			else if(MCS_rate[0] & BIT(6))
++				max_rate = (bw_40MHz) ? ((short_GI_40)?1350:1215):((short_GI_20)?650:585);
++			else if(MCS_rate[0] & BIT(5))
++				max_rate = (bw_40MHz) ? ((short_GI_40)?1200:1080):((short_GI_20)?578:520);
++			else if(MCS_rate[0] & BIT(4))
++				max_rate = (bw_40MHz) ? ((short_GI_40)?900:810):((short_GI_20)?433:390);
++			else if(MCS_rate[0] & BIT(3))
++				max_rate = (bw_40MHz) ? ((short_GI_40)?600:540):((short_GI_20)?289:260);
++			else if(MCS_rate[0] & BIT(2))
++				max_rate = (bw_40MHz) ? ((short_GI_40)?450:405):((short_GI_20)?217:195);
++			else if(MCS_rate[0] & BIT(1))
++				max_rate = (bw_40MHz) ? ((short_GI_40)?300:270):((short_GI_20)?144:130);
++			else if(MCS_rate[0] & BIT(0))
++				max_rate = (bw_40MHz) ? ((short_GI_40)?150:135):((short_GI_20)?72:65);
++		}
++	}
++	return max_rate;
++}
++
++int rtw_action_frame_parse(const u8 *frame, u32 frame_len, u8* category, u8 *action)
++{
++	const u8 *frame_body = frame + sizeof(struct rtw_ieee80211_hdr_3addr);
++	u16 fc;
++	u8 c, a;
++
++	fc = le16_to_cpu(((struct rtw_ieee80211_hdr_3addr *)frame)->frame_ctl);
++
++	if ((fc & (RTW_IEEE80211_FCTL_FTYPE|RTW_IEEE80211_FCTL_STYPE))
++		!= (RTW_IEEE80211_FTYPE_MGMT|RTW_IEEE80211_STYPE_ACTION)
++	)
++	{
++		return _FALSE;
++	}
++
++	c = frame_body[0];
++
++	switch(c) {
++	case RTW_WLAN_CATEGORY_P2P: /* vendor-specific */
++		break;
++	default:
++		a = frame_body[1];
++	}
++
++	if (category)
++		*category = c;
++	if (action)
++		*action = a;
++
++	return _TRUE;
++}
++
++static const char *_action_public_str[] = {
++	"ACT_PUB_BSSCOEXIST",
++	"ACT_PUB_DSE_ENABLE",
++	"ACT_PUB_DSE_DEENABLE",
++	"ACT_PUB_DSE_REG_LOCATION",
++	"ACT_PUB_EXT_CHL_SWITCH",
++	"ACT_PUB_DSE_MSR_REQ",
++	"ACT_PUB_DSE_MSR_RPRT",
++	"ACT_PUB_MP",
++	"ACT_PUB_DSE_PWR_CONSTRAINT",
++	"ACT_PUB_VENDOR",
++	"ACT_PUB_GAS_INITIAL_REQ",
++	"ACT_PUB_GAS_INITIAL_RSP",
++	"ACT_PUB_GAS_COMEBACK_REQ",
++	"ACT_PUB_GAS_COMEBACK_RSP",
++	"ACT_PUB_TDLS_DISCOVERY_RSP",
++	"ACT_PUB_LOCATION_TRACK",
++	"ACT_PUB_RSVD",
++};
++
++const char *action_public_str(u8 action)
++{
++	action = (action >= ACT_PUBLIC_MAX) ? ACT_PUBLIC_MAX : action;
++	return _action_public_str[action];
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_io.c b/drivers/net/wireless/rtl8192cu/core/rtw_io.c
+new file mode 100755
+index 0000000..4ffaa50
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_io.c
+@@ -0,0 +1,464 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*
++
++The purpose of rtw_io.c
++
++a. provides the API
++
++b. provides the protocol engine
++
++c. provides the software interface between caller and the hardware interface
++
++
++Compiler Flag Option:
++
++1. CONFIG_SDIO_HCI:
++    a. USE_SYNC_IRP:  Only sync operations are provided.
++    b. USE_ASYNC_IRP:Both sync/async operations are provided.
++
++2. CONFIG_USB_HCI:
++   a. USE_ASYNC_IRP: Both sync/async operations are provided.
++
++3. CONFIG_CFIO_HCI:
++   b. USE_SYNC_IRP: Only sync operations are provided.
++
++
++Only sync read/rtw_write_mem operations are provided.
++
++jackson@realtek.com.tw
++
++*/
++
++#define _RTW_IO_C_
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <rtw_io.h>
++#include <osdep_intf.h>
++
++#if defined (PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++#error "Shall be Linux or Windows, but not both!\n"
++#endif
++
++#ifdef CONFIG_SDIO_HCI
++#include <sdio_ops.h>
++#endif
++
++#ifdef CONFIG_USB_HCI
++#include <usb_ops.h>
++#endif
++
++#ifdef CONFIG_PCI_HCI
++#include <pci_ops.h>
++#endif
++
++
++u8 _rtw_read8(_adapter *adapter, u32 addr)
++{
++	u8 r_val;
++	//struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	u8 (*_read8)(struct intf_hdl *pintfhdl, u32 addr);
++	_func_enter_;
++	_read8 = pintfhdl->io_ops._read8;
++
++	r_val = _read8(pintfhdl, addr);
++	_func_exit_;
++	return r_val;
++}
++
++u16 _rtw_read16(_adapter *adapter, u32 addr)
++{
++	u16 r_val;
++	//struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	u16 	(*_read16)(struct intf_hdl *pintfhdl, u32 addr);
++	_func_enter_;
++	_read16 = pintfhdl->io_ops._read16;
++
++	r_val = _read16(pintfhdl, addr);
++	_func_exit_;
++	return r_val;
++}
++
++u32 _rtw_read32(_adapter *adapter, u32 addr)
++{
++	u32 r_val;
++	//struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	u32 	(*_read32)(struct intf_hdl *pintfhdl, u32 addr);
++	_func_enter_;
++	_read32 = pintfhdl->io_ops._read32;
++
++	r_val = _read32(pintfhdl, addr);
++	_func_exit_;
++	return r_val;
++
++}
++
++int _rtw_write8(_adapter *adapter, u32 addr, u8 val)
++{
++	//struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	int (*_write8)(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++	int ret;
++	_func_enter_;
++	_write8 = pintfhdl->io_ops._write8;
++
++	ret = _write8(pintfhdl, addr, val);
++	_func_exit_;
++	
++	return RTW_STATUS_CODE(ret);
++}
++int _rtw_write16(_adapter *adapter, u32 addr, u16 val)
++{
++	//struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	int (*_write16)(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++	int ret;
++	_func_enter_;
++	_write16 = pintfhdl->io_ops._write16;
++
++	ret = _write16(pintfhdl, addr, val);
++	_func_exit_;
++
++	return RTW_STATUS_CODE(ret);
++}
++int _rtw_write32(_adapter *adapter, u32 addr, u32 val)
++{
++	//struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	int (*_write32)(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++	int ret;
++	_func_enter_;
++	_write32 = pintfhdl->io_ops._write32;
++
++	ret = _write32(pintfhdl, addr, val);
++	_func_exit_;
++
++	return RTW_STATUS_CODE(ret);
++}
++
++int _rtw_writeN(_adapter *adapter, u32 addr ,u32 length , u8 *pdata)
++{
++	//struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue;
++	struct io_priv *pio_priv = &adapter->iopriv;
++        struct	intf_hdl	*pintfhdl = (struct intf_hdl*)(&(pio_priv->intf));
++	int (*_writeN)(struct intf_hdl *pintfhdl, u32 addr,u32 length, u8 *pdata);
++	int ret;
++	_func_enter_;
++	_writeN = pintfhdl->io_ops._writeN;
++
++	ret = _writeN(pintfhdl, addr,length,pdata);
++	_func_exit_;
++
++	return RTW_STATUS_CODE(ret);
++}
++int _rtw_write8_async(_adapter *adapter, u32 addr, u8 val)
++{
++	//struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	int (*_write8_async)(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++	int ret;
++	_func_enter_;
++	_write8_async = pintfhdl->io_ops._write8_async;
++
++	ret = _write8_async(pintfhdl, addr, val);
++	_func_exit_;
++
++	return RTW_STATUS_CODE(ret);
++}
++int _rtw_write16_async(_adapter *adapter, u32 addr, u16 val)
++{
++	//struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	int (*_write16_async)(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++	int ret;
++	_func_enter_;
++	_write16_async = pintfhdl->io_ops._write16_async;
++
++	ret = _write16_async(pintfhdl, addr, val);
++	_func_exit_;
++
++	return RTW_STATUS_CODE(ret);
++}
++int _rtw_write32_async(_adapter *adapter, u32 addr, u32 val)
++{
++	//struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	int (*_write32_async)(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++	int ret;
++	_func_enter_;
++	_write32_async = pintfhdl->io_ops._write32_async;
++
++	ret = _write32_async(pintfhdl, addr, val);
++	_func_exit_;
++
++	return RTW_STATUS_CODE(ret);
++}
++void _rtw_read_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
++{
++	void (*_read_mem)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++	//struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++
++	_func_enter_;
++
++	if( (adapter->bDriverStopped ==_TRUE) || (adapter->bSurpriseRemoved == _TRUE))
++	{
++	     RT_TRACE(_module_rtl871x_io_c_, _drv_info_, ("rtw_read_mem:bDriverStopped(%d) OR bSurpriseRemoved(%d)", adapter->bDriverStopped, adapter->bSurpriseRemoved));	    
++	     return;
++	}
++
++	_read_mem = pintfhdl->io_ops._read_mem;
++
++	_read_mem(pintfhdl, addr, cnt, pmem);
++
++	_func_exit_;
++
++}
++
++void _rtw_write_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
++{
++	void (*_write_mem)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++	//struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++
++	_func_enter_;
++
++	_write_mem = pintfhdl->io_ops._write_mem;
++
++	_write_mem(pintfhdl, addr, cnt, pmem);
++
++	_func_exit_;
++
++}
++
++void _rtw_read_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
++{
++	u32 (*_read_port)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++	//struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++
++	_func_enter_;
++
++	if( (adapter->bDriverStopped ==_TRUE) || (adapter->bSurpriseRemoved == _TRUE))
++	{
++	     RT_TRACE(_module_rtl871x_io_c_, _drv_info_, ("rtw_read_port:bDriverStopped(%d) OR bSurpriseRemoved(%d)", adapter->bDriverStopped, adapter->bSurpriseRemoved));	    
++	     return;
++	}
++
++	_read_port = pintfhdl->io_ops._read_port;
++
++	_read_port(pintfhdl, addr, cnt, pmem);
++
++	_func_exit_;
++
++}
++
++void _rtw_read_port_cancel(_adapter *adapter)
++{
++	void (*_read_port_cancel)(struct intf_hdl *pintfhdl);
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++
++	_read_port_cancel = pintfhdl->io_ops._read_port_cancel;
++
++	if(_read_port_cancel)
++		_read_port_cancel(pintfhdl);
++
++}
++
++u32 _rtw_write_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
++{
++	u32 (*_write_port)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++	//struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	u32 ret = _SUCCESS;
++
++	_func_enter_;
++
++	_write_port = pintfhdl->io_ops._write_port;
++	
++	ret = _write_port(pintfhdl, addr, cnt, pmem);
++
++	 _func_exit_;
++
++	return ret;
++}
++
++u32 _rtw_write_port_and_wait(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem, int timeout_ms)
++{
++	int ret = _SUCCESS;
++	struct xmit_buf *pxmitbuf = (struct xmit_buf *)pmem;
++	struct submit_ctx sctx;
++
++	rtw_sctx_init(&sctx, timeout_ms);
++	pxmitbuf->sctx = &sctx;
++
++	ret = _rtw_write_port(adapter, addr, cnt, pmem);
++
++	if (ret == _SUCCESS)
++		ret = rtw_sctx_wait(&sctx);
++
++	 return ret;
++}
++
++void _rtw_write_port_cancel(_adapter *adapter)
++{
++	void (*_write_port_cancel)(struct intf_hdl *pintfhdl);
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++
++	_write_port_cancel = pintfhdl->io_ops._write_port_cancel;
++
++	if(_write_port_cancel)
++		_write_port_cancel(pintfhdl);
++
++}
++
++int rtw_init_io_priv(_adapter *padapter, void (*set_intf_ops)(struct _io_ops *pops))
++{
++	struct io_priv	*piopriv = &padapter->iopriv;
++	struct intf_hdl *pintf = &piopriv->intf;
++
++	if (set_intf_ops == NULL)
++		return _FAIL;
++
++	piopriv->padapter = padapter;
++	pintf->padapter = padapter;
++	pintf->pintf_dev = adapter_to_dvobj(padapter);
++
++	set_intf_ops(&pintf->io_ops);
++
++	return _SUCCESS;
++}
++
++#ifdef DBG_IO
++
++u16 read_sniff_ranges[][2] = {
++	//{0x550, 0x551},
++}; 
++
++u16 write_sniff_ranges[][2] = {
++	//{0x550, 0x551},
++	//{0x4c, 0x4c},
++}; 
++
++int read_sniff_num = sizeof(read_sniff_ranges)/sizeof(u16)/2;
++int write_sniff_num = sizeof(write_sniff_ranges)/sizeof(u16)/2;
++
++bool match_read_sniff_ranges(u16 addr, u16 len)
++{
++	int i;
++	for (i = 0; i<read_sniff_num; i++) {
++		if (addr + len > read_sniff_ranges[i][0] && addr <= read_sniff_ranges[i][1])
++			return _TRUE;
++	}
++	
++	return _FALSE;
++}
++
++bool match_write_sniff_ranges(u16 addr, u16 len)
++{
++	int i;
++	for (i = 0; i<write_sniff_num; i++) {
++		if (addr + len > write_sniff_ranges[i][0] && addr <= write_sniff_ranges[i][1])
++			return _TRUE;
++	}
++	
++	return _FALSE;
++}
++
++u8 dbg_rtw_read8(_adapter *adapter, u32 addr, const char *caller, const int line)
++{
++	u8 val = _rtw_read8(adapter, addr);
++
++	if (match_read_sniff_ranges(addr, 1))
++		DBG_871X("DBG_IO %s:%d rtw_read8(0x%04x) return 0x%02x\n", caller, line, addr, val);
++
++	return val;
++}
++
++u16 dbg_rtw_read16(_adapter *adapter, u32 addr, const char *caller, const int line)
++{
++	u16 val = _rtw_read16(adapter, addr);
++	
++	if (match_read_sniff_ranges(addr, 2))
++		DBG_871X("DBG_IO %s:%d rtw_read16(0x%04x) return 0x%04x\n", caller, line, addr, val);
++
++	return val;
++}
++
++u32 dbg_rtw_read32(_adapter *adapter, u32 addr, const char *caller, const int line)
++{
++	u32 val = _rtw_read32(adapter, addr);
++	
++	if (match_read_sniff_ranges(addr, 4))
++		DBG_871X("DBG_IO %s:%d rtw_read32(0x%04x) return 0x%08x\n", caller, line, addr, val);
++
++	return val;
++}
++
++int dbg_rtw_write8(_adapter *adapter, u32 addr, u8 val, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 1))
++		DBG_871X("DBG_IO %s:%d rtw_write8(0x%04x, 0x%02x)\n", caller, line, addr, val);
++	
++	return _rtw_write8(adapter, addr, val);
++}
++int dbg_rtw_write16(_adapter *adapter, u32 addr, u16 val, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 2))
++		DBG_871X("DBG_IO %s:%d rtw_write16(0x%04x, 0x%04x)\n", caller, line, addr, val);
++	
++	return _rtw_write16(adapter, addr, val);
++}
++int dbg_rtw_write32(_adapter *adapter, u32 addr, u32 val, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 4))
++		DBG_871X("DBG_IO %s:%d rtw_write32(0x%04x, 0x%08x)\n", caller, line, addr, val);
++	
++	return _rtw_write32(adapter, addr, val);
++}
++int dbg_rtw_writeN(_adapter *adapter, u32 addr ,u32 length , u8 *data, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, length))
++		DBG_871X("DBG_IO %s:%d rtw_writeN(0x%04x, %u)\n", caller, line, addr, length);
++
++	return _rtw_writeN(adapter, addr, length, data);
++}
++#endif
++
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_ioctl_query.c b/drivers/net/wireless/rtl8192cu/core/rtw_ioctl_query.c
+new file mode 100755
+index 0000000..0601886
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_ioctl_query.c
+@@ -0,0 +1,196 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_IOCTL_QUERY_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <rtw_ioctl_query.h>
++#include <wifi.h>
++
++
++#ifdef PLATFORM_WINDOWS
++//
++// Added for WPA2-PSK, by Annie, 2005-09-20.
++//
++u8
++query_802_11_capability(
++	_adapter*		Adapter,
++	u8*			pucBuf,
++	u32 *		pulOutLen
++)
++{
++	static NDIS_802_11_AUTHENTICATION_ENCRYPTION szAuthEnc[] = 
++	{
++		{Ndis802_11AuthModeOpen, Ndis802_11EncryptionDisabled}, 
++		{Ndis802_11AuthModeOpen, Ndis802_11Encryption1Enabled},
++		{Ndis802_11AuthModeShared, Ndis802_11EncryptionDisabled}, 
++		{Ndis802_11AuthModeShared, Ndis802_11Encryption1Enabled},
++		{Ndis802_11AuthModeWPA, Ndis802_11Encryption2Enabled}, 
++		{Ndis802_11AuthModeWPA, Ndis802_11Encryption3Enabled},
++		{Ndis802_11AuthModeWPAPSK, Ndis802_11Encryption2Enabled}, 
++		{Ndis802_11AuthModeWPAPSK, Ndis802_11Encryption3Enabled},
++		{Ndis802_11AuthModeWPANone, Ndis802_11Encryption2Enabled}, 
++		{Ndis802_11AuthModeWPANone, Ndis802_11Encryption3Enabled},
++		{Ndis802_11AuthModeWPA2, Ndis802_11Encryption2Enabled}, 
++		{Ndis802_11AuthModeWPA2, Ndis802_11Encryption3Enabled},
++		{Ndis802_11AuthModeWPA2PSK, Ndis802_11Encryption2Enabled}, 
++		{Ndis802_11AuthModeWPA2PSK, Ndis802_11Encryption3Enabled}
++	};	
++	static ULONG	ulNumOfPairSupported = sizeof(szAuthEnc)/sizeof(NDIS_802_11_AUTHENTICATION_ENCRYPTION);
++	NDIS_802_11_CAPABILITY * pCap = (NDIS_802_11_CAPABILITY *)pucBuf;
++	u8*	pucAuthEncryptionSupported = (u8*) pCap->AuthenticationEncryptionSupported;
++
++
++	pCap->Length = sizeof(NDIS_802_11_CAPABILITY);
++	if(ulNumOfPairSupported > 1 )
++		pCap->Length += 	(ulNumOfPairSupported-1) * sizeof(NDIS_802_11_AUTHENTICATION_ENCRYPTION);
++	
++	pCap->Version = 2;	
++	pCap->NoOfPMKIDs = NUM_PMKID_CACHE;	
++	pCap->NoOfAuthEncryptPairsSupported = ulNumOfPairSupported;
++
++	if( sizeof (szAuthEnc) <= 240 )		// 240 = 256 - 4*4	// SecurityInfo.szCapability: only 256 bytes in size.
++	{
++		_rtw_memcpy( pucAuthEncryptionSupported, (u8*)szAuthEnc,  sizeof (szAuthEnc) );
++		*pulOutLen = pCap->Length;
++		return _TRUE;
++	}
++	else
++	{
++		*pulOutLen = 0;
++		RT_TRACE(_module_rtl871x_ioctl_query_c_,_drv_info_,("_query_802_11_capability(): szAuthEnc size is too large.\n"));
++		return _FALSE;
++	}
++}
++
++u8 query_802_11_association_information(	_adapter *padapter,PNDIS_802_11_ASSOCIATION_INFORMATION	pAssocInfo)
++{
++	struct wlan_network *tgt_network;
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct	security_priv  *psecuritypriv=&(padapter->securitypriv);
++	WLAN_BSSID_EX	*psecnetwork=(WLAN_BSSID_EX*)&(psecuritypriv->sec_bss);					
++	u8 *	pDest = (u8 *)pAssocInfo + sizeof(NDIS_802_11_ASSOCIATION_INFORMATION);
++	unsigned char i,*auth_ie,*supp_ie;
++
++	//NdisZeroMemory(pAssocInfo, sizeof(NDIS_802_11_ASSOCIATION_INFORMATION));
++	_rtw_memset(pAssocInfo, 0, sizeof(NDIS_802_11_ASSOCIATION_INFORMATION));
++	//pAssocInfo->Length = sizeof(NDIS_802_11_ASSOCIATION_INFORMATION);
++
++	//------------------------------------------------------
++	// Association Request related information
++	//------------------------------------------------------
++	// Req_1. AvailableRequestFixedIEs
++	if(psecnetwork!=NULL){
++		
++	pAssocInfo->AvailableRequestFixedIEs |= NDIS_802_11_AI_REQFI_CAPABILITIES|NDIS_802_11_AI_REQFI_CURRENTAPADDRESS;
++	pAssocInfo->RequestFixedIEs.Capabilities = (unsigned short)* & psecnetwork->IEs[10];
++	_rtw_memcpy(pAssocInfo->RequestFixedIEs.CurrentAPAddress,
++		& psecnetwork->MacAddress, 6);
++
++	pAssocInfo->OffsetRequestIEs = sizeof(NDIS_802_11_ASSOCIATION_INFORMATION);
++
++	if(check_fwstate( pmlmepriv, _FW_UNDER_LINKING|_FW_LINKED)==_TRUE)
++	{
++		
++		if(psecuritypriv->ndisauthtype>=Ndis802_11AuthModeWPA2)
++			pDest[0] =48;		//RSN Information Element
++		else 
++			pDest[0] =221;	//WPA(SSN) Information Element
++		
++		RT_TRACE(_module_rtl871x_ioctl_query_c_,_drv_info_,("\n Adapter->ndisauthtype==Ndis802_11AuthModeWPA)?0xdd:0x30 [%d]",pDest[0]));
++		supp_ie=&psecuritypriv->supplicant_ie[0];
++		for(i=0;i<supp_ie[0];i++)
++		{
++			RT_TRACE(_module_rtl871x_ioctl_query_c_,_drv_info_,("IEs [%d] = 0x%x \n\n", i,supp_ie[i]));
++		}
++
++		i=13;	//0~11 is fixed information element		
++		RT_TRACE(_module_rtl871x_ioctl_query_c_,_drv_info_,("i= %d tgt_network->network.IELength=%d\n\n", i,(int)psecnetwork->IELength));
++		while((i<supp_ie[0]) && (i<256)){
++			if((unsigned char)supp_ie[i]==pDest[0]){
++						_rtw_memcpy((u8 *)(pDest),
++							&supp_ie[i], 
++							supp_ie[1+i]+2);
++			
++				break;
++			}
++			
++			i=i+supp_ie[i+1]+2;
++			if(supp_ie[1+i]==0)
++				i=i+1;
++			RT_TRACE(_module_rtl871x_ioctl_query_c_,_drv_info_,("iteration i=%d IEs [%d] = 0x%x \n\n", i,i,supp_ie[i+1]));
++			
++		}
++		
++
++		pAssocInfo->RequestIELength += (2 + supp_ie[1+i]);// (2 + psecnetwork->IEs[1+i]+4);
++
++	}
++	
++
++		RT_TRACE(_module_rtl871x_ioctl_query_c_,_drv_info_,("\n psecnetwork != NULL,fwstate==_FW_UNDER_LINKING \n"));
++
++	}
++	
++
++	//------------------------------------------------------
++	// Association Response related information
++	//------------------------------------------------------
++
++	if(check_fwstate( pmlmepriv, _FW_LINKED)==_TRUE)
++	{
++		tgt_network =&(pmlmepriv->cur_network);
++		if(tgt_network!=NULL){
++		pAssocInfo->AvailableResponseFixedIEs =
++				NDIS_802_11_AI_RESFI_CAPABILITIES
++				|NDIS_802_11_AI_RESFI_ASSOCIATIONID
++				;
++
++		pAssocInfo->ResponseFixedIEs.Capabilities =(unsigned short)* & tgt_network->network.IEs[10];
++		pAssocInfo->ResponseFixedIEs.StatusCode = 0;
++		pAssocInfo->ResponseFixedIEs.AssociationId =(unsigned short) tgt_network->aid;
++
++		pDest = (u8 *)pAssocInfo + sizeof(NDIS_802_11_ASSOCIATION_INFORMATION)+pAssocInfo->RequestIELength;
++		auth_ie=&psecuritypriv->authenticator_ie[0];
++
++		for(i=0;i<auth_ie[0];i++)
++			RT_TRACE(_module_rtl871x_ioctl_query_c_,_drv_info_,("IEs [%d] = 0x%x \n\n", i,auth_ie[i]));
++
++		i=auth_ie[0]-12;
++		if(i>0){
++			_rtw_memcpy((u8 *)&pDest[0],&auth_ie[1],i);
++			pAssocInfo->ResponseIELength =i; 
++		}
++
++
++		pAssocInfo->OffsetResponseIEs = sizeof(NDIS_802_11_ASSOCIATION_INFORMATION) + pAssocInfo->RequestIELength;  
++
++
++		RT_TRACE(_module_rtl871x_ioctl_query_c_,_drv_info_,("\n tgt_network != NULL,fwstate==_FW_LINKED \n"));
++		}
++	}												  	
++	RT_TRACE(_module_rtl871x_ioctl_query_c_,_drv_info_,("\n exit query_802_11_association_information \n"));
++_func_exit_;
++
++	return _TRUE;
++}
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_ioctl_rtl.c b/drivers/net/wireless/rtl8192cu/core/rtw_ioctl_rtl.c
+new file mode 100755
+index 0000000..31b4704
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_ioctl_rtl.c
+@@ -0,0 +1,1031 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define  _RTW_IOCTL_RTL_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <wlan_bssdef.h>
++#include <wifi.h>
++#include <rtw_ioctl.h>
++#include <rtw_ioctl_set.h>
++#include <rtw_ioctl_query.h>
++#include <rtw_ioctl_rtl.h>
++#include <mp_custom_oid.h>
++#ifdef CONFIG_MP_INCLUDED
++#include <rtw_mp.h>
++#include <rtw_mp_ioctl.h>
++#endif
++
++struct oid_obj_priv oid_rtl_seg_01_01[] =
++{
++	{1, &oid_null_function},										//0x80
++	{1, &oid_null_function},										//0x81
++	{1, &oid_null_function},										//0x82
++	{1, &oid_null_function},										//0x83//OID_RT_SET_SNIFFER_MODE
++	{1, &oid_rt_get_signal_quality_hdl},							//0x84
++	{1, &oid_rt_get_small_packet_crc_hdl},						//0x85
++	{1, &oid_rt_get_middle_packet_crc_hdl},						//0x86
++	{1, &oid_rt_get_large_packet_crc_hdl},						//0x87
++	{1, &oid_rt_get_tx_retry_hdl},								//0x88
++	{1, &oid_rt_get_rx_retry_hdl},								//0x89
++	{1, &oid_rt_pro_set_fw_dig_state_hdl},						//0x8A
++	{1, &oid_rt_pro_set_fw_ra_state_hdl}	,						//0x8B
++	{1, &oid_null_function},										//0x8C
++	{1, &oid_null_function},										//0x8D
++	{1, &oid_null_function},										//0x8E
++	{1, &oid_null_function},										//0x8F
++	{1, &oid_rt_get_rx_total_packet_hdl},							//0x90
++	{1, &oid_rt_get_tx_beacon_ok_hdl},							//0x91
++	{1, &oid_rt_get_tx_beacon_err_hdl},							//0x92
++	{1, &oid_rt_get_rx_icv_err_hdl},								//0x93
++	{1, &oid_rt_set_encryption_algorithm_hdl},					//0x94
++	{1, &oid_null_function},										//0x95
++	{1, &oid_rt_get_preamble_mode_hdl},							//0x96
++	{1, &oid_null_function},										//0x97
++	{1, &oid_rt_get_ap_ip_hdl},									//0x98
++	{1, &oid_rt_get_channelplan_hdl},							//0x99	
++	{1, &oid_rt_set_preamble_mode_hdl},	 						//0x9A
++	{1, &oid_rt_set_bcn_intvl_hdl},								//0x9B
++	{1, &oid_null_function},										//0x9C
++	{1, &oid_rt_dedicate_probe_hdl},								//0x9D
++	{1, &oid_null_function},										//0x9E
++	{1, &oid_null_function},										//0x9F
++	{1, &oid_null_function},										//0xA0
++	{1, &oid_null_function},										//0xA1
++	{1, &oid_null_function},										//0xA2
++	{1, &oid_null_function},										//0xA3
++	{1, &oid_null_function},										//0xA4
++	{1, &oid_null_function},										//0xA5
++	{1, &oid_null_function},										//0xA6
++	{1, &oid_rt_get_total_tx_bytes_hdl},							//0xA7
++	{1, &oid_rt_get_total_rx_bytes_hdl},							//0xA8
++	{1, &oid_rt_current_tx_power_level_hdl},						//0xA9	
++	{1, &oid_rt_get_enc_key_mismatch_count_hdl},	 			//0xAA
++	{1, &oid_rt_get_enc_key_match_count_hdl},					//0xAB
++	{1, &oid_rt_get_channel_hdl},								//0xAC
++	{1, &oid_rt_set_channelplan_hdl},								//0xAD
++	{1, &oid_rt_get_hardware_radio_off_hdl},						//0xAE
++	{1, &oid_null_function},										//0xAF
++	{1, &oid_null_function},										//0xB0
++	{1, &oid_null_function},										//0xB1
++	{1, &oid_null_function},										//0xB2
++	{1, &oid_null_function},										//0xB3
++	{1, &oid_rt_get_key_mismatch_hdl},							//0xB4
++	{1, &oid_null_function},										//0xB5
++	{1, &oid_null_function},										//0xB6
++	{1, &oid_null_function},										//0xB7
++	{1, &oid_null_function},										//0xB8
++	{1, &oid_null_function},										//0xB9	
++	{1, &oid_null_function},	 									//0xBA
++	{1, &oid_rt_supported_wireless_mode_hdl},					//0xBB
++	{1, &oid_rt_get_channel_list_hdl},							//0xBC
++	{1, &oid_rt_get_scan_in_progress_hdl},						//0xBD
++	{1, &oid_null_function},										//0xBE
++	{1, &oid_null_function},										//0xBF
++	{1, &oid_null_function},										//0xC0
++	{1, &oid_rt_forced_data_rate_hdl},							//0xC1
++	{1, &oid_rt_wireless_mode_for_scan_list_hdl},					//0xC2
++	{1, &oid_rt_get_bss_wireless_mode_hdl},						//0xC3
++	{1, &oid_rt_scan_with_magic_packet_hdl},					//0xC4
++	{1, &oid_null_function},										//0xC5
++	{1, &oid_null_function},										//0xC6
++	{1, &oid_null_function},										//0xC7
++	{1, &oid_null_function},										//0xC8
++	{1, &oid_null_function},										//0xC9	
++	{1, &oid_null_function},	 									//0xCA
++	{1, &oid_null_function},										//0xCB
++	{1, &oid_null_function},										//0xCC
++	{1, &oid_null_function},										//0xCD
++	{1, &oid_null_function},										//0xCE
++	{1, &oid_null_function},										//0xCF
++	
++};
++
++struct oid_obj_priv oid_rtl_seg_01_03[] =
++{
++	{1, &oid_rt_ap_get_associated_station_list_hdl},				//0x00
++	{1, &oid_null_function},										//0x01
++	{1, &oid_rt_ap_switch_into_ap_mode_hdl},					//0x02
++	{1, &oid_null_function},										//0x03
++	{1, &oid_rt_ap_supported_hdl},								//0x04
++	{1, &oid_rt_ap_set_passphrase_hdl},							//0x05
++
++};
++
++struct oid_obj_priv oid_rtl_seg_01_11[] =
++{
++	{1, &oid_null_function},					//0xC0	OID_RT_PRO_RX_FILTER	
++	{1, &oid_null_function},					//0xC1	OID_CE_USB_WRITE_REGISTRY
++	{1, &oid_null_function},					//0xC2	OID_CE_USB_READ_REGISTRY
++	{1, &oid_null_function},					//0xC3	OID_RT_PRO_SET_INITIAL_GAIN
++	{1, &oid_null_function},					//0xC4	OID_RT_PRO_SET_BB_RF_STANDBY_MODE
++	{1, &oid_null_function},					//0xC5	OID_RT_PRO_SET_BB_RF_SHUTDOWN_MODE
++	{1, &oid_null_function},					//0xC6	OID_RT_PRO_SET_TX_CHARGE_PUMP
++	{1, &oid_null_function},					//0xC7	OID_RT_PRO_SET_RX_CHARGE_PUMP
++	{1, &oid_rt_pro_rf_write_registry_hdl},	//0xC8	
++	{1, &oid_rt_pro_rf_read_registry_hdl},	//0xC9	
++	{1, &oid_null_function}					//0xCA	OID_RT_PRO_QUERY_RF_TYPE
++	
++};
++
++struct oid_obj_priv oid_rtl_seg_03_00[] =
++{
++	{1, &oid_null_function},										//0x00
++	{1, &oid_rt_get_connect_state_hdl},							//0x01
++	{1, &oid_null_function},										//0x02
++	{1, &oid_null_function},										//0x03
++	{1, &oid_rt_set_default_key_id_hdl},							//0x04
++
++	
++};
++
++
++//**************  oid_rtl_seg_01_01 section start ************** 
++
++NDIS_STATUS oid_rt_pro_set_fw_dig_state_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++#if 0
++	PADAPTER		Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	_irqL			oldirql;
++	
++	_func_enter_;
++	
++	if(poid_par_priv->type_of_oid != SET_OID) 
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++			
++	_irqlevel_changed_(&oldirql,LOWER);
++	if(poid_par_priv->information_buf_len >= sizeof(struct setdig_parm))
++	{
++		//DEBUG_ERR(("===> oid_rt_pro_set_fw_dig_state_hdl. type:0x%02x.\n",*((unsigned char*)poid_par_priv->information_buf )));	
++		if(!rtw_setfwdig_cmd(Adapter,*((unsigned char*)poid_par_priv->information_buf )))			
++		{
++			status = NDIS_STATUS_NOT_ACCEPTED;
++		}
++		                   
++	}
++	else{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++	}  
++	_irqlevel_changed_(&oldirql,RAISE);
++	_func_exit_;
++#endif
++	return status;
++}
++//-----------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_set_fw_ra_state_hdl(struct oid_par_priv* poid_par_priv)
++{
++
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++#if 0
++	PADAPTER		Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	_irqL			oldirql;
++	
++	_func_enter_;	
++	if(poid_par_priv->type_of_oid != SET_OID) 
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++					
++	_irqlevel_changed_(&oldirql,LOWER);
++	
++	if(poid_par_priv->information_buf_len >= sizeof(struct setra_parm))
++	{
++		//DEBUG_ERR(("===> oid_rt_pro_set_fw_ra_state_hdl. type:0x%02x.\n",*((unsigned char*)poid_par_priv->information_buf )));	
++		if(!rtw_setfwra_cmd(Adapter,*((unsigned char*)poid_par_priv->information_buf )))			
++		{
++			status = NDIS_STATUS_NOT_ACCEPTED;
++		}
++		                   
++	}
++	else{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++	}  
++	_irqlevel_changed_(&oldirql,RAISE);
++	_func_exit_;
++#endif
++	return status;
++}
++//-----------------------------------------------------------------------------
++NDIS_STATUS oid_rt_get_signal_quality_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	//DEBUG_ERR(("<**********************oid_rt_get_signal_quality_hdl \n"));
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++
++#if 0
++		if(pMgntInfo->mAssoc || pMgntInfo->mIbss)
++		{
++			ulInfo = pAdapter->RxStats.SignalQuality;
++			*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++		}
++		else
++		{
++			ulInfo = 0xffffffff; // It stands for -1 in 4-byte integer.
++		}
++		break;
++#endif
++
++	return status;
++}
++
++//------------------------------------------------------------------------------
++
++NDIS_STATUS oid_rt_get_small_packet_crc_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++		
++	if(poid_par_priv->information_buf_len >=  sizeof(ULONG) )
++	{		
++		*(ULONG *)poid_par_priv->information_buf = padapter->recvpriv.rx_smallpacket_crcerr;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;		
++	}
++	else
++	{
++		status = NDIS_STATUS_INVALID_LENGTH;
++	}
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_get_middle_packet_crc_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++
++	if(poid_par_priv->information_buf_len >=  sizeof(ULONG) )
++	{		
++		*(ULONG *)poid_par_priv->information_buf = padapter->recvpriv.rx_middlepacket_crcerr;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;		
++	}
++	else
++	{
++		status = NDIS_STATUS_INVALID_LENGTH;
++	}
++
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_get_large_packet_crc_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}	
++
++	if(poid_par_priv->information_buf_len >=  sizeof(ULONG) )
++	{		
++		*(ULONG *)poid_par_priv->information_buf = padapter->recvpriv.rx_largepacket_crcerr;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;		
++	}
++	else
++	{
++		status = NDIS_STATUS_INVALID_LENGTH;
++	}
++
++
++	return status;
++}
++
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_get_tx_retry_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_rx_retry_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_get_rx_total_packet_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}	
++	if(poid_par_priv->information_buf_len >=  sizeof(ULONG) )
++	{		
++		*(u64 *)poid_par_priv->information_buf = padapter->recvpriv.rx_pkts + padapter->recvpriv.rx_drop;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;		
++	}
++	else
++	{
++		status = NDIS_STATUS_INVALID_LENGTH;
++	}
++
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_get_tx_beacon_ok_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_tx_beacon_err_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_get_rx_icv_err_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if(poid_par_priv->information_buf_len>= sizeof(u32))
++	{
++		//_rtw_memcpy(*(uint *)poid_par_priv->information_buf,padapter->recvpriv.rx_icv_err,sizeof(u32));
++		*(uint *)poid_par_priv->information_buf = padapter->recvpriv.rx_icv_err;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	}
++	else
++	{
++		status = NDIS_STATUS_INVALID_LENGTH ;
++	}
++	
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_set_encryption_algorithm_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != SET_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}	
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_get_preamble_mode_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++	ULONG			preamblemode = 0 ;			
++		
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++	if(poid_par_priv->information_buf_len>= sizeof(ULONG))
++	{		
++		if(padapter->registrypriv.preamble == PREAMBLE_LONG)
++			preamblemode = 0;
++		else if (padapter->registrypriv.preamble == PREAMBLE_AUTO)
++			preamblemode = 1;
++		else if (padapter->registrypriv.preamble == PREAMBLE_SHORT)
++			preamblemode = 2;
++		
++			
++		*(ULONG *)poid_par_priv->information_buf = preamblemode ;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	}
++	else
++	{
++		status = NDIS_STATUS_INVALID_LENGTH ;
++	}
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_get_ap_ip_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_get_channelplan_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++	struct eeprom_priv*	peeprompriv = &padapter->eeprompriv;	
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	*(u16 *)poid_par_priv->information_buf = peeprompriv->channel_plan ;
++
++	return status;
++}
++NDIS_STATUS oid_rt_set_channelplan_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++	struct eeprom_priv*	peeprompriv = &padapter->eeprompriv;	
++	
++	if(poid_par_priv->type_of_oid != SET_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++	
++	peeprompriv->channel_plan = *(u16 *)poid_par_priv->information_buf ;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_set_preamble_mode_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++	ULONG			preamblemode = 0;
++	if(poid_par_priv->type_of_oid != SET_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	 
++	if(poid_par_priv->information_buf_len>= sizeof(ULONG))
++	{		
++		preamblemode = *(ULONG *)poid_par_priv->information_buf ;
++		if( preamblemode == 0)
++			padapter->registrypriv.preamble = PREAMBLE_LONG;
++		else if (preamblemode==1 )
++			padapter->registrypriv.preamble = PREAMBLE_AUTO;
++		else if ( preamblemode==2 )
++			padapter->registrypriv.preamble = PREAMBLE_SHORT;		
++			
++		*(ULONG *)poid_par_priv->information_buf = preamblemode ;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	}
++	else
++	{
++		status = NDIS_STATUS_INVALID_LENGTH ;
++	}	
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_set_bcn_intvl_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != SET_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++NDIS_STATUS oid_rt_dedicate_probe_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_get_total_tx_bytes_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}	
++	if(poid_par_priv->information_buf_len>= sizeof(ULONG))
++	{		
++		*(u64 *)poid_par_priv->information_buf = padapter->xmitpriv.tx_bytes;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	}
++	else
++	{
++		status = NDIS_STATUS_INVALID_LENGTH ;
++	}
++	
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_get_total_rx_bytes_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if(poid_par_priv->information_buf_len>= sizeof(ULONG))
++	{
++		//_rtw_memcpy(*(uint *)poid_par_priv->information_buf,padapter->recvpriv.rx_icv_err,sizeof(u32));
++		*(u64 *)poid_par_priv->information_buf = padapter->recvpriv.rx_bytes;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	}
++	else
++	{
++		status = NDIS_STATUS_INVALID_LENGTH ;
++	}
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_current_tx_power_level_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_enc_key_mismatch_count_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_enc_key_match_count_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_channel_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++	struct	mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	NDIS_802_11_CONFIGURATION		*pnic_Config;
++
++	ULONG   channelnum;
++
++	_func_enter_;
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++
++	if ( (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) ||
++		(check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE))
++		pnic_Config = &pmlmepriv->cur_network.network.Configuration;
++	else
++		pnic_Config = &padapter->registrypriv.dev_network.Configuration;
++
++	channelnum = pnic_Config->DSConfig;
++	*(ULONG *)poid_par_priv->information_buf = channelnum;
++	
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++	_func_exit_;
++
++
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_hardware_radio_off_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_key_mismatch_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++
++	return status;
++}
++NDIS_STATUS oid_rt_supported_wireless_mode_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++	ULONG 			ulInfo = 0 ;
++	//DEBUG_ERR(("<**********************oid_rt_supported_wireless_mode_hdl \n"));	
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++	if(poid_par_priv->information_buf_len >= sizeof(ULONG)){
++		ulInfo |= 0x0100; //WIRELESS_MODE_B
++		ulInfo |= 0x0200; //WIRELESS_MODE_G
++		ulInfo |= 0x0400; //WIRELESS_MODE_A
++
++		*(ULONG *) poid_par_priv->information_buf = ulInfo;		
++		//DEBUG_ERR(("<===oid_rt_supported_wireless_mode %x\n",ulInfo));	
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	}
++	else{
++		status = NDIS_STATUS_INVALID_LENGTH;
++	}		
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_channel_list_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_scan_in_progress_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++
++	return status;
++}
++
++
++NDIS_STATUS oid_rt_forced_data_rate_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++NDIS_STATUS oid_rt_wireless_mode_for_scan_list_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_bss_wireless_mode_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_scan_with_magic_packet_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++//**************  oid_rtl_seg_01_01 section end ************** 
++
++//**************  oid_rtl_seg_01_03 section start ************** 
++NDIS_STATUS oid_rt_ap_get_associated_station_list_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++
++	return status;
++}
++NDIS_STATUS oid_rt_ap_switch_into_ap_mode_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++NDIS_STATUS oid_rt_ap_supported_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++NDIS_STATUS oid_rt_ap_set_passphrase_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != SET_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++
++	return status;
++}
++
++//**************  oid_rtl_seg_01_03 section end ************** 
++
++//****************  oid_rtl_seg_01_11   section start ****************
++NDIS_STATUS oid_rt_pro_rf_write_registry_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	_irqL			oldirql;
++	_func_enter_;
++	//DEBUG_ERR(("<**********************oid_rt_pro_rf_write_registry_hdl \n"));
++	if(poid_par_priv->type_of_oid != SET_OID) //QUERY_OID
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	
++	_irqlevel_changed_(&oldirql,LOWER);
++	if(poid_par_priv->information_buf_len== (sizeof(unsigned long)*3))
++	{      
++		//RegOffsetValue	- The offset of RF register to write.
++		//RegDataWidth	- The data width of RF register to write.
++		//RegDataValue	- The value to write. 
++		//RegOffsetValue = *((unsigned long*)InformationBuffer);
++		//RegDataWidth = *((unsigned long*)InformationBuffer+1);	   
++		//RegDataValue =  *((unsigned long*)InformationBuffer+2);	
++		if(!rtw_setrfreg_cmd(Adapter, 
++						*(unsigned char*)poid_par_priv->information_buf, 
++						(unsigned long)(*((unsigned long*)poid_par_priv->information_buf+2))))
++		{
++			status = NDIS_STATUS_NOT_ACCEPTED;
++		}
++	                   
++	}
++	else{
++		status = NDIS_STATUS_INVALID_LENGTH;
++	}   
++	_irqlevel_changed_(&oldirql,RAISE);
++	_func_exit_;
++
++	return status;
++}
++
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_rf_read_registry_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++#if 0
++	PADAPTER		Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	_irqL	oldirql;
++	_func_enter_;
++
++	//DEBUG_ERR(("<**********************oid_rt_pro_rf_read_registry_hdl \n"));
++	if(poid_par_priv->type_of_oid != SET_OID) //QUERY_OID
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}	
++	
++	_irqlevel_changed_(&oldirql,LOWER);
++	if(poid_par_priv->information_buf_len== (sizeof(unsigned long)*3))
++	{
++		if(Adapter->mppriv.act_in_progress == _TRUE)
++		{
++			status = NDIS_STATUS_NOT_ACCEPTED;
++		}
++		else
++		{
++			//init workparam
++			Adapter->mppriv.act_in_progress = _TRUE;
++			Adapter->mppriv.workparam.bcompleted= _FALSE;
++			Adapter->mppriv.workparam.act_type = MPT_READ_RF;
++			Adapter->mppriv.workparam.io_offset = *(unsigned long*)poid_par_priv->information_buf;		
++			Adapter->mppriv.workparam.io_value = 0xcccccccc;
++				       
++			//RegOffsetValue	- The offset of RF register to read.
++			//RegDataWidth	- The data width of RF register to read.
++			//RegDataValue	- The value to read. 
++			//RegOffsetValue = *((unsigned long*)InformationBuffer);
++			//RegDataWidth = *((unsigned long*)InformationBuffer+1);	   
++			//RegDataValue =  *((unsigned long*)InformationBuffer+2);	   	 	                   
++			if(!rtw_getrfreg_cmd(Adapter, 
++							*(unsigned char*)poid_par_priv->information_buf, 
++							(unsigned char*)&Adapter->mppriv.workparam.io_value))
++			{
++				status = NDIS_STATUS_NOT_ACCEPTED;
++			}
++		}
++				      		   
++		                   
++	}
++	else	{
++		status = NDIS_STATUS_INVALID_LENGTH;
++	}
++	_irqlevel_changed_(&oldirql,RAISE);
++	_func_exit_;
++#endif
++	return status;
++}
++
++//****************  oid_rtl_seg_01_11   section end****************	
++
++
++//**************  oid_rtl_seg_03_00 section start **************  
++enum _CONNECT_STATE_{
++	CHECKINGSTATUS,
++	ASSOCIATED,
++	ADHOCMODE,
++	NOTASSOCIATED
++};
++
++NDIS_STATUS oid_rt_get_connect_state_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++
++	ULONG ulInfo;
++		
++	if(poid_par_priv->type_of_oid != QUERY_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}		
++
++	// nStatus==0	CheckingStatus
++	// nStatus==1	Associated
++	// nStatus==2	AdHocMode
++	// nStatus==3	NotAssociated
++	
++	if(check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE)
++		ulInfo = CHECKINGSTATUS;
++	else if(check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)	
++		ulInfo = ASSOCIATED;
++	else if(check_fwstate(pmlmepriv, WIFI_ADHOC_STATE)== _TRUE)
++		ulInfo = ADHOCMODE;
++	else
++		ulInfo = NOTASSOCIATED ;
++
++	*(ULONG *)poid_par_priv->information_buf = ulInfo;
++	*poid_par_priv->bytes_rw =  poid_par_priv->information_buf_len;
++
++#if 0
++	// Rearrange the order to let the UI still shows connection when scan is in progress
++	RT_TRACE(COMP_OID_QUERY, DBG_LOUD, ("===> Query OID_RT_GET_CONNECT_STATE.\n"));
++	if(pMgntInfo->mAssoc)
++		ulInfo = 1;
++	else if(pMgntInfo->mIbss)
++		ulInfo = 2;
++	else if(pMgntInfo->bScanInProgress)
++		ulInfo = 0;
++	else
++		ulInfo = 3;
++	ulInfoLen = sizeof(ULONG);
++	RT_TRACE(COMP_OID_QUERY, DBG_LOUD, ("<=== Query OID_RT_GET_CONNECT_STATE: %d\n", ulInfo));
++#endif
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_set_default_key_id_hdl(struct oid_par_priv* poid_par_priv)
++{
++	NDIS_STATUS	 	status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if(poid_par_priv->type_of_oid != SET_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	
++	return status;
++}
++//**************  oid_rtl_seg_03_00 section end **************  
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_ioctl_set.c b/drivers/net/wireless/rtl8192cu/core/rtw_ioctl_set.c
+new file mode 100755
+index 0000000..e67f219
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_ioctl_set.c
+@@ -0,0 +1,1494 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_IOCTL_SET_C_
++
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <rtw_ioctl_set.h>
++#include <hal_intf.h>
++
++#ifdef CONFIG_USB_HCI
++#include <usb_osintf.h>
++#include <usb_ops.h>
++#endif
++#ifdef CONFIG_SDIO_HCI
++#include <sdio_osintf.h>
++#endif
++
++extern void indicate_wx_scan_complete_event(_adapter *padapter);
++
++#define IS_MAC_ADDRESS_BROADCAST(addr) \
++( \
++	( (addr[0] == 0xff) && (addr[1] == 0xff) && \
++		(addr[2] == 0xff) && (addr[3] == 0xff) && \
++		(addr[4] == 0xff) && (addr[5] == 0xff) )  ? _TRUE : _FALSE \
++)
++
++u8 rtw_validate_bssid(u8 *bssid)
++{
++	u8 ret = _TRUE;
++
++	if (is_zero_mac_addr(bssid)
++		|| is_broadcast_mac_addr(bssid)
++		|| is_multicast_mac_addr(bssid)
++	) { 
++		ret = _FALSE;
++	}
++
++	return ret;
++}
++
++u8 rtw_validate_ssid(NDIS_802_11_SSID *ssid)
++{
++	u8	 i;
++	u8	ret=_TRUE;
++
++_func_enter_;	
++
++	if (ssid->SsidLength > 32) {
++		RT_TRACE(_module_rtl871x_ioctl_set_c_, _drv_err_, ("ssid length >32\n"));
++		ret= _FALSE;
++		goto exit;
++	}
++
++#ifdef CONFIG_VALIDATE_SSID
++	for(i = 0; i < ssid->SsidLength; i++)
++	{
++		//wifi, printable ascii code must be supported
++		if(!( (ssid->Ssid[i] >= 0x20) && (ssid->Ssid[i] <= 0x7e) )){
++			RT_TRACE(_module_rtl871x_ioctl_set_c_, _drv_err_, ("ssid has nonprintabl ascii\n"));
++			ret= _FALSE;
++			break;
++		}
++	}
++#endif /* CONFIG_VALIDATE_SSID */
++
++exit:	
++
++_func_exit_;
++
++	return ret;
++}
++
++u8 rtw_do_join(_adapter * padapter);
++u8 rtw_do_join(_adapter * padapter)
++{
++	_irqL	irqL;
++	_list	*plist, *phead;
++	u8* pibss = NULL;
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	_queue	*queue	= &(pmlmepriv->scanned_queue);
++	u8 ret=_SUCCESS;
++
++_func_enter_;
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("\n rtw_do_join: phead = %p; plist = %p \n\n\n", phead, plist));
++
++	pmlmepriv->cur_network.join_res = -2;
++		
++	set_fwstate(pmlmepriv, _FW_UNDER_LINKING);
++
++	pmlmepriv->pscanned = plist;
++
++	pmlmepriv->to_join = _TRUE;
++
++	if(_rtw_queue_empty(queue)== _TRUE)
++	{	
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++            		
++		//when set_ssid/set_bssid for rtw_do_join(), but scanning queue is empty
++		//we try to issue sitesurvey firstly	
++            		
++		if (pmlmepriv->LinkDetectInfo.bBusyTraffic ==_FALSE
++			|| rtw_to_roaming(padapter) > 0
++		)
++		{
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("rtw_do_join(): site survey if scanned_queue is empty\n."));
++			// submit site_survey_cmd
++			if(_SUCCESS!=(ret=rtw_sitesurvey_cmd(padapter, &pmlmepriv->assoc_ssid, 1, NULL, 0)) ) {
++				RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("rtw_do_join(): site survey return error\n."));
++			}
++		}
++		
++		goto exit;
++	}	
++	else 	
++	{
++		int select_ret;
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		if((select_ret=rtw_select_and_join_from_scanned_queue(pmlmepriv))==_SUCCESS)
++		{
++			pmlmepriv->to_join = _FALSE;
++			_set_timer(&pmlmepriv->assoc_timer, MAX_JOIN_TIMEOUT);
++		}
++		else if(ret == 2)//there is no need to wait for join
++		{
++			ret = _SUCCESS;
++			_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++			rtw_indicate_connect(padapter);
++		}
++		else	
++		{
++			if(check_fwstate(pmlmepriv, WIFI_ADHOC_STATE)==_TRUE)
++			{
++				// submit createbss_cmd to change to a ADHOC_MASTER
++
++ 				//pmlmepriv->lock has been acquired by caller...
++				WLAN_BSSID_EX    *pdev_network = &(padapter->registrypriv.dev_network);
++
++				pmlmepriv->fw_state = WIFI_ADHOC_MASTER_STATE;
++				
++				pibss = padapter->registrypriv.dev_network.MacAddress;
++
++				_rtw_memset(&pdev_network->Ssid, 0, sizeof(NDIS_802_11_SSID));
++				_rtw_memcpy(&pdev_network->Ssid, &pmlmepriv->assoc_ssid, sizeof(NDIS_802_11_SSID));
++	
++				rtw_update_registrypriv_dev_network(padapter);
++
++				rtw_generate_random_ibss(pibss);
++					
++				if(rtw_createbss_cmd(padapter)!=_SUCCESS)
++				{
++					RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("***Error=>do_goin: rtw_createbss_cmd status FAIL*** \n "));						
++					ret =  _FALSE;
++					goto exit;
++				}
++
++			     	pmlmepriv->to_join = _FALSE;
++
++				RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("***Error=> rtw_select_and_join_from_scanned_queue FAIL under STA_Mode*** \n "));						
++
++			}			
++			else
++			{ 
++				// can't associate ; reset under-linking			
++				_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++
++#if 0	
++				if((check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE))
++				{
++					if(_rtw_memcmp(pmlmepriv->cur_network.network.Ssid.Ssid, pmlmepriv->assoc_ssid.Ssid, pmlmepriv->assoc_ssid.SsidLength))
++					{ 
++						// for funk to do roaming
++						// funk will reconnect, but funk will not sitesurvey before reconnect
++						RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("for funk to do roaming"));
++						if(pmlmepriv->sitesurveyctrl.traffic_busy==_FALSE)
++							rtw_sitesurvey_cmd(padapter, &pmlmepriv->assoc_ssid, 1, NULL, 0);
++					}
++				
++				}				
++#endif
++
++				//when set_ssid/set_bssid for rtw_do_join(), but there are no desired bss in scanning queue
++				//we try to issue sitesurvey firstly			
++				if(pmlmepriv->LinkDetectInfo.bBusyTraffic==_FALSE
++					|| rtw_to_roaming(padapter) > 0
++				)
++				{
++					//DBG_871X("rtw_do_join() when   no desired bss in scanning queue \n");
++					if( _SUCCESS!=(ret=rtw_sitesurvey_cmd(padapter, &pmlmepriv->assoc_ssid, 1, NULL, 0)) ){
++						RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("do_join(): site survey return error\n."));
++					}
++				}				
++
++
++			}
++
++		}
++
++	}
++	
++exit:
++	
++_func_exit_;	
++
++	return ret;	
++}
++
++#ifdef PLATFORM_WINDOWS
++u8 rtw_pnp_set_power_wakeup(_adapter* padapter)
++{
++	u8 res=_SUCCESS;
++
++_func_enter_;
++
++	RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("==>rtw_pnp_set_power_wakeup!!!\n"));
++	
++	res = rtw_setstandby_cmd(padapter, 0);
++
++	RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("<==rtw_pnp_set_power_wakeup!!!\n"));
++
++_func_exit_;
++	
++	return res;
++}
++
++u8 rtw_pnp_set_power_sleep(_adapter* padapter)
++{
++	u8 res=_SUCCESS;	
++	
++_func_enter_;
++
++	RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("==>rtw_pnp_set_power_sleep!!!\n"));
++	//DbgPrint("+rtw_pnp_set_power_sleep\n");
++
++	res = rtw_setstandby_cmd(padapter, 1);
++
++	RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("<==rtw_pnp_set_power_sleep!!!\n"));
++
++_func_exit_;
++
++	return res;
++}
++
++u8 rtw_set_802_11_reload_defaults(_adapter * padapter, NDIS_802_11_RELOAD_DEFAULTS reloadDefaults)
++{
++_func_enter_;
++
++	switch( reloadDefaults)
++	{
++		case Ndis802_11ReloadWEPKeys:
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("SetInfo OID_802_11_RELOAD_DEFAULTS : Ndis802_11ReloadWEPKeys\n"));
++			break;
++	}
++
++	// SecClearAllKeys(Adapter);
++	// 8711 CAM was not for En/Decrypt only
++	// so, we can't clear all keys.
++	// should we disable WPAcfg (ox0088) bit 1-2, instead of clear all CAM
++	
++	//TO DO...
++
++_func_exit_;
++	
++	return _TRUE;
++}
++
++u8 set_802_11_test(_adapter* padapter, NDIS_802_11_TEST *test)
++{
++	u8 ret=_TRUE;
++	
++_func_enter_;
++
++	switch(test->Type)
++	{
++		case 1:
++			NdisMIndicateStatus(padapter->hndis_adapter, NDIS_STATUS_MEDIA_SPECIFIC_INDICATION, (PVOID)&test->AuthenticationEvent, test->Length - 8);
++			NdisMIndicateStatusComplete(padapter->hndis_adapter);
++			break;
++
++		case 2:
++			NdisMIndicateStatus(padapter->hndis_adapter, NDIS_STATUS_MEDIA_SPECIFIC_INDICATION, (PVOID)&test->RssiTrigger, sizeof(NDIS_802_11_RSSI));
++			NdisMIndicateStatusComplete(padapter->hndis_adapter);
++			break;
++
++		default:
++			ret=_FALSE;
++			break;
++	}
++
++_func_exit_;
++
++	return ret;	
++}
++
++u8	rtw_set_802_11_pmkid(_adapter*	padapter, NDIS_802_11_PMKID *pmkid)
++{
++	u8	ret=_SUCCESS;
++
++	return ret;
++}
++
++#endif
++
++u8 rtw_set_802_11_bssid(_adapter* padapter, u8 *bssid)
++{	
++	_irqL irqL;	
++	u8 status=_SUCCESS;
++	u32 cur_time = 0;
++
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	
++_func_enter_;
++	
++	RT_TRACE(_module_rtl871x_ioctl_set_c_, _drv_notice_,
++		 ("+rtw_set_802_11_bssid: bssid="MAC_FMT"\n", MAC_ARG(bssid) ));
++
++	if ((bssid[0]==0x00 && bssid[1]==0x00 && bssid[2]==0x00 && bssid[3]==0x00 && bssid[4]==0x00 &&bssid[5]==0x00) ||
++	    (bssid[0]==0xFF && bssid[1]==0xFF && bssid[2]==0xFF && bssid[3]==0xFF && bssid[4]==0xFF &&bssid[5]==0xFF))
++	{
++		status = _FAIL;
++		goto exit;
++	}
++		
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++	DBG_871X("Set BSSID under fw_state=0x%08x\n", get_fwstate(pmlmepriv));
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE) {
++		goto handle_tkip_countermeasure;
++	} else if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE) {
++		goto release_mlme_lock;
++	}
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED|WIFI_ADHOC_MASTER_STATE) == _TRUE)
++	{
++		RT_TRACE(_module_rtl871x_ioctl_set_c_, _drv_info_, ("set_bssid: _FW_LINKED||WIFI_ADHOC_MASTER_STATE\n"));
++
++		if (_rtw_memcmp(&pmlmepriv->cur_network.network.MacAddress, bssid, ETH_ALEN) == _TRUE)
++		{		
++			if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _FALSE)
++				goto release_mlme_lock;//it means driver is in WIFI_ADHOC_MASTER_STATE, we needn't create bss again.
++		} else {
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("Set BSSID not the same bssid\n"));
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("set_bssid="MAC_FMT"\n", MAC_ARG(bssid) ));
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("cur_bssid="MAC_FMT"\n", MAC_ARG(pmlmepriv->cur_network.network.MacAddress) ));
++
++			rtw_disassoc_cmd(padapter, 0, _TRUE);
++
++			if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++				rtw_indicate_disconnect(padapter);
++
++			rtw_free_assoc_resources(padapter, 1);
++
++			if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE)) {
++				_clr_fwstate_(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++				set_fwstate(pmlmepriv, WIFI_ADHOC_STATE);
++			}		
++		}
++	}
++
++handle_tkip_countermeasure:
++	if (rtw_handle_tkip_countermeasure(padapter, __func__) == _FAIL) {
++		status = _FAIL;
++		goto release_mlme_lock;
++	}
++
++	_rtw_memcpy(&pmlmepriv->assoc_bssid, bssid, ETH_ALEN);
++	pmlmepriv->assoc_by_bssid=_TRUE;
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE) {
++		pmlmepriv->to_join = _TRUE;	
++	}
++	else {
++		status = rtw_do_join(padapter);
++	}
++
++release_mlme_lock:
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++		
++exit:
++	RT_TRACE(_module_rtl871x_ioctl_set_c_, _drv_err_,
++		("rtw_set_802_11_bssid: status=%d\n", status));
++	
++_func_exit_;
++
++	return status;
++}
++
++u8 rtw_set_802_11_ssid(_adapter* padapter, NDIS_802_11_SSID *ssid)
++{	
++	_irqL irqL;
++	u8 status = _SUCCESS;
++	u32 cur_time = 0;
++
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network *pnetwork = &pmlmepriv->cur_network;
++	
++_func_enter_;
++	
++	RT_TRACE(_module_rtl871x_ioctl_set_c_, _drv_notice_,
++		 ("+rtw_set_802_11_ssid: ssid=[%s] fw_state=0x%08x\n",
++		  ssid->Ssid, get_fwstate(pmlmepriv)));
++
++	if(padapter->hw_init_completed==_FALSE){
++		RT_TRACE(_module_rtl871x_ioctl_set_c_, _drv_err_,
++			 ("set_ssid: hw_init_completed==_FALSE=>exit!!!\n"));
++		status = _FAIL;
++		goto exit;
++	}
++		
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	DBG_871X("Set SSID under fw_state=0x%08x\n", get_fwstate(pmlmepriv));
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE) {	
++		goto handle_tkip_countermeasure;
++	} else if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE) {
++		goto release_mlme_lock;
++	}
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED|WIFI_ADHOC_MASTER_STATE) == _TRUE)
++	{
++		RT_TRACE(_module_rtl871x_ioctl_set_c_, _drv_info_,
++			 ("set_ssid: _FW_LINKED||WIFI_ADHOC_MASTER_STATE\n"));
++
++		if ((pmlmepriv->assoc_ssid.SsidLength == ssid->SsidLength) &&
++		    (_rtw_memcmp(&pmlmepriv->assoc_ssid.Ssid, ssid->Ssid, ssid->SsidLength) == _TRUE))
++		{			
++			if((check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _FALSE))
++			{
++				RT_TRACE(_module_rtl871x_ioctl_set_c_, _drv_err_,
++					 ("Set SSID is the same ssid, fw_state=0x%08x\n",
++					  get_fwstate(pmlmepriv)));
++
++				if(rtw_is_same_ibss(padapter, pnetwork) == _FALSE)
++				{				
++					//if in WIFI_ADHOC_MASTER_STATE | WIFI_ADHOC_STATE, create bss or rejoin again
++					rtw_disassoc_cmd(padapter, 0, _TRUE);
++
++					if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++						rtw_indicate_disconnect(padapter);
++						
++					rtw_free_assoc_resources(padapter, 1);
++
++					if (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) {
++						_clr_fwstate_(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++						set_fwstate(pmlmepriv, WIFI_ADHOC_STATE);
++					}
++				}
++				else
++				{
++					goto release_mlme_lock;//it means driver is in WIFI_ADHOC_MASTER_STATE, we needn't create bss again.
++				}
++			}
++#ifdef CONFIG_LPS
++			else {
++				rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_JOINBSS, 1);
++			}
++#endif
++		}
++		else
++		{
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("Set SSID not the same ssid\n"));
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("set_ssid=[%s] len=0x%x\n", ssid->Ssid, (unsigned int)ssid->SsidLength));
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("assoc_ssid=[%s] len=0x%x\n", pmlmepriv->assoc_ssid.Ssid, (unsigned int)pmlmepriv->assoc_ssid.SsidLength));
++
++			rtw_disassoc_cmd(padapter, 0, _TRUE);
++
++			if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++				rtw_indicate_disconnect(padapter);
++			
++			rtw_free_assoc_resources(padapter, 1);
++
++			if (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) {
++				_clr_fwstate_(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++				set_fwstate(pmlmepriv, WIFI_ADHOC_STATE);
++			}
++		}		
++	}
++
++handle_tkip_countermeasure:
++	if (rtw_handle_tkip_countermeasure(padapter, __func__) == _FAIL) {
++		status = _FAIL;
++		goto release_mlme_lock;
++	}
++
++	if (rtw_validate_ssid(ssid) == _FALSE) {
++		status = _FAIL;
++		goto release_mlme_lock;
++	}
++
++	_rtw_memcpy(&pmlmepriv->assoc_ssid, ssid, sizeof(NDIS_802_11_SSID));
++	pmlmepriv->assoc_by_bssid=_FALSE;
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE) {
++		pmlmepriv->to_join = _TRUE;	
++	}
++	else {
++		status = rtw_do_join(padapter);
++	}
++
++release_mlme_lock:
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++exit:
++	RT_TRACE(_module_rtl871x_ioctl_set_c_, _drv_err_,
++		("-rtw_set_802_11_ssid: status=%d\n", status));
++	
++_func_exit_;
++
++	return status;
++	
++}
++
++u8 rtw_set_802_11_connect(_adapter* padapter, u8 *bssid, NDIS_802_11_SSID *ssid)
++{
++	_irqL irqL;
++	u8 status = _SUCCESS;
++	u32 cur_time = 0;
++	bool bssid_valid = _TRUE;
++	bool ssid_valid = _TRUE;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++_func_enter_;
++
++	if (!ssid || rtw_validate_ssid(ssid) == _FALSE)
++		ssid_valid = _FALSE;
++
++	if (!bssid || rtw_validate_bssid(bssid) == _FALSE)
++		bssid_valid = _FALSE;
++
++	if (ssid_valid == _FALSE && bssid_valid == _FALSE) {
++		DBG_871X(FUNC_ADPT_FMT" ssid:%p, ssid_valid:%d, bssid:%p, bssid_valid:%d\n",
++			FUNC_ADPT_ARG(padapter), ssid, ssid_valid, bssid, bssid_valid);
++		status = _FAIL;
++		goto exit;
++	}
++
++	if(padapter->hw_init_completed==_FALSE){
++		RT_TRACE(_module_rtl871x_ioctl_set_c_, _drv_err_,
++			 ("set_ssid: hw_init_completed==_FALSE=>exit!!!\n"));
++		status = _FAIL;
++		goto exit;
++	}
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	LOG_LEVEL(_drv_info_, FUNC_ADPT_FMT"  fw_state=0x%08x\n",
++		FUNC_ADPT_ARG(padapter), get_fwstate(pmlmepriv));
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE) {
++		goto handle_tkip_countermeasure;
++	} else if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE) {
++		goto release_mlme_lock;
++	}
++
++handle_tkip_countermeasure:
++	if (rtw_handle_tkip_countermeasure(padapter, __func__) == _FAIL) {
++		status = _FAIL;
++		goto release_mlme_lock;
++	}
++
++	if (ssid && ssid_valid)
++		_rtw_memcpy(&pmlmepriv->assoc_ssid, ssid, sizeof(NDIS_802_11_SSID));
++
++	if (bssid && bssid_valid) {
++		_rtw_memcpy(&pmlmepriv->assoc_bssid, bssid, ETH_ALEN);
++		pmlmepriv->assoc_by_bssid = _TRUE;
++	}
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE) {
++		pmlmepriv->to_join = _TRUE;	
++	}
++	else {
++		status = rtw_do_join(padapter);
++	}
++
++release_mlme_lock:
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++exit:
++	
++_func_exit_;
++
++	return status;
++}
++
++/*
++rtw_set_802_11_infrastructure_mode(~)
++	### NOTE:#### (!!!!)
++	MUST TAKE CARE THAT BEFORE CALLING THIS FUNC, YOU SHOULD HAVE LOCKED pmlmepriv->lock and scanned_queue->lock in sequence
++*/
++u8 rtw_set_802_11_infrastructure_mode(_adapter* padapter, 
++	NDIS_802_11_NETWORK_INFRASTRUCTURE networktype)
++{
++	_irqL irqL;
++	struct	mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct	wlan_network	*cur_network = &pmlmepriv->cur_network;
++	NDIS_802_11_NETWORK_INFRASTRUCTURE* pold_state = &(cur_network->network.InfrastructureMode);
++	
++_func_enter_;
++
++	RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_notice_,
++		 ("+rtw_set_802_11_infrastructure_mode: old=%d new=%d fw_state=0x%08x\n",
++		  *pold_state, networktype, get_fwstate(pmlmepriv)));
++	
++	if(*pold_state != networktype)
++	{
++		
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,(" change mode!"));
++		//DBG_871X("change mode, old_mode=%d, new_mode=%d, fw_state=0x%x\n", *pold_state, networktype, get_fwstate(pmlmepriv));
++
++		if(*pold_state==Ndis802_11APMode)
++		{		
++			//change to other mode from Ndis802_11APMode			
++			cur_network->join_res = -1;
++			
++#ifdef CONFIG_NATIVEAP_MLME
++			stop_ap_mode(padapter);
++#endif
++		}	
++
++		if((check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE) ||(*pold_state==Ndis802_11IBSS))
++			rtw_disassoc_cmd(padapter, 0, _TRUE);
++
++		if((check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE) ||
++			(check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE)== _TRUE) )
++			rtw_free_assoc_resources(padapter, 0);
++
++		if((*pold_state == Ndis802_11Infrastructure) ||(*pold_state == Ndis802_11IBSS))
++	       {
++			if(check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++			{		
++				rtw_indicate_disconnect(padapter); //will clr Linked_state; before this function, we must have chked whether  issue dis-assoc_cmd or not
++			}
++	       }
++
++		*pold_state = networktype;
++
++		_clr_fwstate_(pmlmepriv, ~WIFI_NULL_STATE);
++				
++		switch(networktype)
++		{
++			case Ndis802_11IBSS:
++				set_fwstate(pmlmepriv, WIFI_ADHOC_STATE);
++				break;
++				
++			case Ndis802_11Infrastructure:
++				set_fwstate(pmlmepriv, WIFI_STATION_STATE);
++				break;
++				
++			case Ndis802_11APMode:
++				set_fwstate(pmlmepriv, WIFI_AP_STATE);
++#ifdef CONFIG_NATIVEAP_MLME
++				start_ap_mode(padapter);
++				//rtw_indicate_connect(padapter);
++#endif				
++				
++				break;
++
++			case Ndis802_11AutoUnknown:
++			case Ndis802_11InfrastructureMax:
++				break;                        				
++		}
++
++		//SecClearAllKeys(adapter);
++		
++		//RT_TRACE(COMP_OID_SET, DBG_LOUD, ("set_infrastructure: fw_state:%x after changing mode\n",
++		//									get_fwstate(pmlmepriv) ));
++
++	}
++
++_func_exit_;
++
++	return _TRUE;
++}
++
++
++u8 rtw_set_802_11_disassociate(_adapter *padapter)
++{
++	_irqL irqL;
++	struct mlme_priv * pmlmepriv = &padapter->mlmepriv;
++
++_func_enter_;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++	{
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("MgntActrtw_set_802_11_disassociate: rtw_indicate_disconnect\n"));
++
++		rtw_disassoc_cmd(padapter, 0, _TRUE);
++		rtw_indicate_disconnect(padapter);
++		//modify for CONFIG_IEEE80211W, none 11w can use it
++		rtw_free_assoc_resources_cmd(padapter);
++	}
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++	
++_func_exit_;
++
++	return _TRUE;	
++}
++
++u8 rtw_set_802_11_bssid_list_scan(_adapter* padapter, NDIS_802_11_SSID *pssid, int ssid_max_num)
++{	
++	_irqL	irqL;
++	struct	mlme_priv		*pmlmepriv= &padapter->mlmepriv;
++	u8	res=_TRUE;
++	
++_func_enter_;
++
++	RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("+rtw_set_802_11_bssid_list_scan(), fw_state=%x\n", get_fwstate(pmlmepriv)));
++
++	if (padapter == NULL) {
++		res=_FALSE;
++		goto exit;
++	}
++	if (padapter->hw_init_completed==_FALSE){
++		res = _FALSE;
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("\n===rtw_set_802_11_bssid_list_scan:hw_init_completed==_FALSE===\n"));
++		goto exit;
++	}
++	
++	if ((check_fwstate(pmlmepriv, _FW_UNDER_SURVEY|_FW_UNDER_LINKING) == _TRUE) ||
++		(pmlmepriv->LinkDetectInfo.bBusyTraffic == _TRUE))
++	{
++		// Scan or linking is in progress, do nothing.
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("rtw_set_802_11_bssid_list_scan fail since fw_state = %x\n", get_fwstate(pmlmepriv)));
++		res = _TRUE;
++
++		if(check_fwstate(pmlmepriv, (_FW_UNDER_SURVEY|_FW_UNDER_LINKING))== _TRUE){
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("\n###_FW_UNDER_SURVEY|_FW_UNDER_LINKING\n\n"));
++		} else {
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("\n###pmlmepriv->sitesurveyctrl.traffic_busy==_TRUE\n\n"));
++		}
++	} else {		
++		if (rtw_is_scan_deny(padapter)) {
++			DBG_871X(FUNC_ADPT_FMT": scan deny\n", FUNC_ADPT_ARG(padapter));
++			indicate_wx_scan_complete_event(padapter);
++			return _SUCCESS;
++		}
++		
++		_enter_critical_bh(&pmlmepriv->lock, &irqL);		
++		
++		res = rtw_sitesurvey_cmd(padapter, pssid, ssid_max_num, NULL, 0);
++		
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++	}
++exit:
++	
++_func_exit_;
++
++	return res;	
++}
++
++u8 rtw_set_802_11_authentication_mode(_adapter* padapter, NDIS_802_11_AUTHENTICATION_MODE authmode) 
++{
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	int res;
++	u8 ret;
++	
++_func_enter_;
++
++	RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("set_802_11_auth.mode(): mode=%x\n", authmode));
++
++	psecuritypriv->ndisauthtype=authmode;
++	
++	RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("rtw_set_802_11_authentication_mode:psecuritypriv->ndisauthtype=%d", psecuritypriv->ndisauthtype));
++	
++	if(psecuritypriv->ndisauthtype>3)
++		psecuritypriv->dot11AuthAlgrthm=dot11AuthAlgrthm_8021X;
++	
++	res=rtw_set_auth(padapter,psecuritypriv);
++	
++	if(res==_SUCCESS)
++		ret=_TRUE;
++	else
++		ret=_FALSE;
++	
++_func_exit_;
++
++	return ret;
++}
++
++u8 rtw_set_802_11_add_wep(_adapter* padapter, NDIS_802_11_WEP *wep){
++
++	u8		bdefaultkey;
++	u8		btransmitkey;
++	sint		keyid,res;
++	struct security_priv* psecuritypriv=&(padapter->securitypriv);
++	u8		ret=_SUCCESS;
++
++_func_enter_;
++
++	bdefaultkey=(wep->KeyIndex & 0x40000000) > 0 ? _FALSE : _TRUE;   //for ???
++	btransmitkey= (wep->KeyIndex & 0x80000000) > 0 ? _TRUE  : _FALSE;	//for ???
++	keyid=wep->KeyIndex & 0x3fffffff;
++
++	if(keyid>4)
++	{
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("MgntActrtw_set_802_11_add_wep:keyid>4=>fail\n"));
++		ret=_FALSE;
++		goto exit;
++	}
++	
++	switch(wep->KeyLength)
++	{
++		case 5:
++			psecuritypriv->dot11PrivacyAlgrthm=_WEP40_;
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("MgntActrtw_set_802_11_add_wep:wep->KeyLength=5\n"));
++			break;
++		case 13:
++			psecuritypriv->dot11PrivacyAlgrthm=_WEP104_;
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("MgntActrtw_set_802_11_add_wep:wep->KeyLength=13\n"));
++			break;
++		default:
++			psecuritypriv->dot11PrivacyAlgrthm=_NO_PRIVACY_;
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("MgntActrtw_set_802_11_add_wep:wep->KeyLength!=5 or 13\n"));
++			break;
++	}
++	
++	RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("rtw_set_802_11_add_wep:befor memcpy, wep->KeyLength=0x%x wep->KeyIndex=0x%x  keyid =%x\n",wep->KeyLength,wep->KeyIndex,keyid));
++
++	_rtw_memcpy(&(psecuritypriv->dot11DefKey[keyid].skey[0]),&(wep->KeyMaterial),wep->KeyLength);
++
++	psecuritypriv->dot11DefKeylen[keyid]=wep->KeyLength;
++
++	psecuritypriv->dot11PrivacyKeyIndex=keyid;
++
++	RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("rtw_set_802_11_add_wep:security key material : %x %x %x %x %x %x %x %x %x %x %x %x %x \n",
++		psecuritypriv->dot11DefKey[keyid].skey[0],psecuritypriv->dot11DefKey[keyid].skey[1],psecuritypriv->dot11DefKey[keyid].skey[2],
++		psecuritypriv->dot11DefKey[keyid].skey[3],psecuritypriv->dot11DefKey[keyid].skey[4],psecuritypriv->dot11DefKey[keyid].skey[5],
++		psecuritypriv->dot11DefKey[keyid].skey[6],psecuritypriv->dot11DefKey[keyid].skey[7],psecuritypriv->dot11DefKey[keyid].skey[8],
++		psecuritypriv->dot11DefKey[keyid].skey[9],psecuritypriv->dot11DefKey[keyid].skey[10],psecuritypriv->dot11DefKey[keyid].skey[11],
++		psecuritypriv->dot11DefKey[keyid].skey[12]));
++
++	res=rtw_set_key(padapter,psecuritypriv, keyid, 1);
++	
++	if(res==_FAIL)
++		ret= _FALSE;
++exit:
++	
++_func_exit_;
++
++	return ret;
++	
++}
++
++u8 rtw_set_802_11_remove_wep(_adapter* padapter, u32 keyindex){
++	
++	u8 ret=_SUCCESS;
++	
++_func_enter_;
++
++	if (keyindex >= 0x80000000 || padapter == NULL){
++		
++		ret=_FALSE;
++		goto exit;
++
++	}
++	else 
++	{
++		int res;
++		struct security_priv* psecuritypriv=&(padapter->securitypriv);
++		if( keyindex < 4 ){
++			
++			_rtw_memset(&psecuritypriv->dot11DefKey[keyindex], 0, 16);
++			
++			res=rtw_set_key(padapter,psecuritypriv,keyindex, 0);
++			
++			psecuritypriv->dot11DefKeylen[keyindex]=0;
++			
++			if(res==_FAIL)
++				ret=_FAIL;
++			
++		}
++		else
++		{			
++			ret=_FAIL;
++		}
++		
++	}
++	
++exit:	
++	
++_func_exit_;
++
++	return ret;
++	
++}
++
++u8 rtw_set_802_11_add_key(_adapter* padapter, NDIS_802_11_KEY *key){
++
++	uint	encryptionalgo;
++	u8 * pbssid;
++	struct sta_info *stainfo;
++	u8	bgroup = _FALSE;
++	u8	bgrouptkey = _FALSE;//can be remove later
++	u8	ret=_SUCCESS;
++	
++_func_enter_;
++
++	if (((key->KeyIndex & 0x80000000) == 0) && ((key->KeyIndex & 0x40000000) > 0)){
++
++		// It is invalid to clear bit 31 and set bit 30. If the miniport driver encounters this combination, 
++		// it must fail the request and return NDIS_STATUS_INVALID_DATA.
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("rtw_set_802_11_add_key: ((key->KeyIndex & 0x80000000) == 0)[=%d] ",(int)(key->KeyIndex & 0x80000000) == 0));
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("rtw_set_802_11_add_key:((key->KeyIndex & 0x40000000) > 0)[=%d]" , (int)(key->KeyIndex & 0x40000000) > 0));
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_info_,("rtw_set_802_11_add_key: key->KeyIndex=%d \n" ,(int)key->KeyIndex));
++		ret= _FAIL;
++		goto exit;
++	}
++
++	if(key->KeyIndex & 0x40000000)
++	{ 
++		// Pairwise key
++
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("OID_802_11_ADD_KEY: +++++ Pairwise key +++++\n"));
++	
++		pbssid=get_bssid(&padapter->mlmepriv);
++		stainfo=rtw_get_stainfo(&padapter->stapriv, pbssid);
++
++		if((stainfo!=NULL)&&(padapter->securitypriv.dot11AuthAlgrthm==dot11AuthAlgrthm_8021X)){
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("OID_802_11_ADD_KEY:( stainfo!=NULL)&&(Adapter->securitypriv.dot11AuthAlgrthm==dot11AuthAlgrthm_8021X)\n"));
++			encryptionalgo=stainfo->dot118021XPrivacy;
++		}
++		else{
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("OID_802_11_ADD_KEY: stainfo==NULL)||(Adapter->securitypriv.dot11AuthAlgrthm!=dot11AuthAlgrthm_8021X)\n"));
++			encryptionalgo=padapter->securitypriv.dot11PrivacyAlgrthm;
++		}
++
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("rtw_set_802_11_add_key: (encryptionalgo ==%d)!\n",encryptionalgo ));
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("rtw_set_802_11_add_key: (Adapter->securitypriv.dot11PrivacyAlgrthm ==%d)!\n",padapter->securitypriv.dot11PrivacyAlgrthm));
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("rtw_set_802_11_add_key: (Adapter->securitypriv.dot11AuthAlgrthm ==%d)!\n",padapter->securitypriv.dot11AuthAlgrthm));
++
++		if((stainfo!=NULL)){
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("rtw_set_802_11_add_key: (stainfo->dot118021XPrivacy ==%d)!\n", stainfo->dot118021XPrivacy));
++		}
++		
++		if(key->KeyIndex & 0x000000FF){
++			// The key index is specified in the lower 8 bits by values of zero to 255.
++			// The key index should be set to zero for a Pairwise key, and the driver should fail with
++			// NDIS_STATUS_INVALID_DATA if the lower 8 bits is not zero
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,(" key->KeyIndex & 0x000000FF.\n"));
++			ret= _FAIL;
++			goto exit;
++		}
++
++		// check BSSID
++		if (IS_MAC_ADDRESS_BROADCAST(key->BSSID) == _TRUE){
++
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("MacAddr_isBcst(key->BSSID)\n"));
++			ret= _FALSE;
++			goto exit;
++		}
++
++		// Check key length for TKIP.
++		//if(encryptionAlgorithm == RT_ENC_TKIP_ENCRYPTION && key->KeyLength != 32)
++		if((encryptionalgo== _TKIP_)&& (key->KeyLength != 32)){
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("TKIP KeyLength:0x%x != 32\n", key->KeyLength));
++			ret=_FAIL;
++			goto exit;
++
++		}
++
++		// Check key length for AES.
++		if((encryptionalgo== _AES_)&& (key->KeyLength != 16)) {
++			// For our supplicant, EAPPkt9x.vxd, cannot differentiate TKIP and AES case.
++			if(key->KeyLength == 32) {
++				key->KeyLength = 16; 
++			} else {
++				ret= _FAIL;
++				goto exit;
++			}
++		}
++
++		// Check key length for WEP. For NDTEST, 2005.01.27, by rcnjko.
++		if(	(encryptionalgo== _WEP40_|| encryptionalgo== _WEP104_) && (key->KeyLength != 5 || key->KeyLength != 13)) {
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("WEP KeyLength:0x%x != 5 or 13\n", key->KeyLength));
++			ret=_FAIL;
++			goto exit;
++		}
++
++		bgroup = _FALSE;
++
++		// Check the pairwise key. Added by Annie, 2005-07-06.
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("------------------------------------------\n"));
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("[Pairwise Key set]\n"));
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("------------------------------------------\n"));
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("key index: 0x%8x(0x%8x)\n", key->KeyIndex,(key->KeyIndex&0x3)));
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("key Length: %d\n", key->KeyLength));
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("------------------------------------------\n"));
++	
++	}
++	else 
++	{	
++		// Group key - KeyIndex(BIT30==0)
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("OID_802_11_ADD_KEY: +++++ Group key +++++\n"));
++
++
++		// when add wep key through add key and didn't assigned encryption type before
++		if((padapter->securitypriv.ndisauthtype<=3)&&(padapter->securitypriv.dot118021XGrpPrivacy==0))
++		{
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("keylen=%d( Adapter->securitypriv.dot11PrivacyAlgrthm=%x  )padapter->securitypriv.dot118021XGrpPrivacy(%x)\n", key->KeyLength,padapter->securitypriv.dot11PrivacyAlgrthm,padapter->securitypriv.dot118021XGrpPrivacy));
++
++			switch(key->KeyLength)
++			{
++				case 5:
++					padapter->securitypriv.dot11PrivacyAlgrthm=_WEP40_;
++					RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("Adapter->securitypriv.dot11PrivacyAlgrthm= %x key->KeyLength=%u\n", padapter->securitypriv.dot11PrivacyAlgrthm,key->KeyLength));
++					break;
++				case 13:
++					padapter->securitypriv.dot11PrivacyAlgrthm=_WEP104_;
++					RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("Adapter->securitypriv.dot11PrivacyAlgrthm= %x key->KeyLength=%u\n", padapter->securitypriv.dot11PrivacyAlgrthm,key->KeyLength));
++					break;
++				default:
++					padapter->securitypriv.dot11PrivacyAlgrthm=_NO_PRIVACY_;
++					RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("Adapter->securitypriv.dot11PrivacyAlgrthm= %x key->KeyLength=%u \n", padapter->securitypriv.dot11PrivacyAlgrthm,key->KeyLength));
++					break;
++			}
++			
++			encryptionalgo=padapter->securitypriv.dot11PrivacyAlgrthm;
++			
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,(" Adapter->securitypriv.dot11PrivacyAlgrthm=%x\n", padapter->securitypriv.dot11PrivacyAlgrthm));
++			
++		}
++		else 
++		{
++			encryptionalgo=padapter->securitypriv.dot118021XGrpPrivacy;
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("( Adapter->securitypriv.dot11PrivacyAlgrthm=%x  )encryptionalgo(%x)=padapter->securitypriv.dot118021XGrpPrivacy(%x)keylen=%d\n", padapter->securitypriv.dot11PrivacyAlgrthm,encryptionalgo,padapter->securitypriv.dot118021XGrpPrivacy,key->KeyLength));
++
++		}
++		
++		if((check_fwstate(&padapter->mlmepriv, WIFI_ADHOC_STATE)==_TRUE) && (IS_MAC_ADDRESS_BROADCAST(key->BSSID) == _FALSE)) {
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,(" IBSS but BSSID is not Broadcast Address.\n"));
++			ret= _FAIL;
++			goto exit;
++		}
++
++		// Check key length for TKIP
++		if((encryptionalgo== _TKIP_) && (key->KeyLength != 32)) {
++
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,(" TKIP GTK KeyLength:%u != 32\n", key->KeyLength));
++			ret= _FAIL;
++			goto exit;
++
++		} else if(encryptionalgo== _AES_ && (key->KeyLength != 16 && key->KeyLength != 32) ) {
++			
++			// Check key length for AES
++			// For NDTEST, we allow keylen=32 in this case. 2005.01.27, by rcnjko.
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("<=== SetInfo, OID_802_11_ADD_KEY: AES GTK KeyLength:%u != 16 or 32\n", key->KeyLength));
++			ret= _FAIL;
++			goto exit;
++		}
++
++		// Change the key length for EAPPkt9x.vxd. Added by Annie, 2005-11-03.
++		if((encryptionalgo==  _AES_) && (key->KeyLength == 32) ) {
++			key->KeyLength = 16; 
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("AES key length changed: %u\n", key->KeyLength) );
++		}
++
++		if(key->KeyIndex & 0x8000000) {//error ??? 0x8000_0000
++			bgrouptkey = _TRUE;
++		}
++
++		if((check_fwstate(&padapter->mlmepriv, WIFI_ADHOC_STATE)==_TRUE)&&(check_fwstate(&padapter->mlmepriv, _FW_LINKED)==_TRUE))
++		{
++			bgrouptkey = _TRUE;
++		}
++
++		bgroup = _TRUE;
++
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("------------------------------------------\n") );
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("[Group Key set]\n") );
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("------------------------------------------\n")) ;
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("key index: 0x%8x(0x%8x)\n", key->KeyIndex,(key->KeyIndex&0x3)));
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("key Length: %d\n", key->KeyLength)) ;
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("------------------------------------------\n"));
++		
++	}	
++
++	// If WEP encryption algorithm, just call rtw_set_802_11_add_wep().
++	if((padapter->securitypriv.dot11AuthAlgrthm !=dot11AuthAlgrthm_8021X)&&(encryptionalgo== _WEP40_  || encryptionalgo== _WEP104_))
++	{
++		u8 ret;		
++		u32 keyindex;		
++		u32 len = FIELD_OFFSET(NDIS_802_11_KEY, KeyMaterial) + key->KeyLength;
++		NDIS_802_11_WEP *wep = &padapter->securitypriv.ndiswep;
++				
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("OID_802_11_ADD_KEY: +++++ WEP key +++++\n"));
++
++		wep->Length = len;
++		keyindex = key->KeyIndex&0x7fffffff;
++		wep->KeyIndex = keyindex ;
++		wep->KeyLength = key->KeyLength;
++		
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("OID_802_11_ADD_KEY:Before memcpy \n"));
++
++		_rtw_memcpy(wep->KeyMaterial, key->KeyMaterial, key->KeyLength);	
++		_rtw_memcpy(&(padapter->securitypriv.dot11DefKey[keyindex].skey[0]), key->KeyMaterial, key->KeyLength);
++
++		padapter->securitypriv.dot11DefKeylen[keyindex]=key->KeyLength;		
++		padapter->securitypriv.dot11PrivacyKeyIndex=keyindex;
++		
++		ret = rtw_set_802_11_add_wep(padapter, wep);
++	
++		goto exit;
++		
++	}
++
++	if(key->KeyIndex & 0x20000000){
++		// SetRSC
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("OID_802_11_ADD_KEY: +++++ SetRSC+++++\n"));
++		if(bgroup == _TRUE)
++		{
++			NDIS_802_11_KEY_RSC keysrc=key->KeyRSC & 0x00FFFFFFFFFFFFULL;
++			_rtw_memcpy(&padapter->securitypriv.dot11Grprxpn, &keysrc, 8);			
++		} 
++		else 
++		{		
++			NDIS_802_11_KEY_RSC keysrc=key->KeyRSC & 0x00FFFFFFFFFFFFULL;	
++			_rtw_memcpy(&padapter->securitypriv.dot11Grptxpn, &keysrc, 8);			
++		}
++			
++	}
++
++	// Indicate this key idx is used for TX
++	// Save the key in KeyMaterial
++	if(bgroup == _TRUE) // Group transmit key
++	{
++		int res;
++		
++		if(bgrouptkey == _TRUE)
++		{		
++			padapter->securitypriv.dot118021XGrpKeyid=(u8)key->KeyIndex;
++		}
++		
++		if((key->KeyIndex&0x3) == 0){
++			ret = _FAIL;
++			goto exit;
++		}		
++		
++		_rtw_memset(&padapter->securitypriv.dot118021XGrpKey[(u8)((key->KeyIndex) & 0x03)], 0, 16);
++		_rtw_memset(&padapter->securitypriv.dot118021XGrptxmickey[(u8)((key->KeyIndex) & 0x03)], 0, 16);
++		_rtw_memset(&padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex) & 0x03)], 0, 16);
++		
++		if((key->KeyIndex & 0x10000000))
++		{
++			_rtw_memcpy(&padapter->securitypriv.dot118021XGrptxmickey[(u8)((key->KeyIndex) & 0x03)], key->KeyMaterial + 16, 8);
++			_rtw_memcpy(&padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex) & 0x03)], key->KeyMaterial + 24, 8);
++			
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("\n rtw_set_802_11_add_key:rx mic :0x%02x:0x%02x:0x%02x:0x%02x:0x%02x:0x%02x:0x%02x:0x%02x\n",
++				padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex) & 0x03)].skey[0],padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex-1) & 0x03)].skey[1],
++				padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex) & 0x03)].skey[2],padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex-1) & 0x03)].skey[3],
++				padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex) & 0x03)].skey[4],padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex-1) & 0x03)].skey[5],
++				padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex) & 0x03)].skey[6],padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex-1) & 0x03)].skey[7]));
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("\n rtw_set_802_11_add_key:set Group mic key!!!!!!!!\n"));
++
++		}
++		else
++		{
++			_rtw_memcpy(&padapter->securitypriv.dot118021XGrptxmickey[(u8)((key->KeyIndex) & 0x03)], key->KeyMaterial + 24, 8);
++			_rtw_memcpy(&padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex) & 0x03)], key->KeyMaterial + 16, 8);
++			
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("\n rtw_set_802_11_add_key:rx mic :0x%02x:0x%02x:0x%02x:0x%02x:0x%02x:0x%02x:0x%02x:0x%02x\n",
++				padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex) & 0x03)].skey[0],padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex-1) & 0x03)].skey[1],
++				padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex) & 0x03)].skey[2],padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex-1) & 0x03)].skey[3],
++				padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex) & 0x03)].skey[4],padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex-1) & 0x03)].skey[5],
++				padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex) & 0x03)].skey[6],padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex-1) & 0x03)].skey[7]));
++			RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("\n rtw_set_802_11_add_key:set Group mic key!!!!!!!!\n"));
++		
++		}
++
++		//set group key by index
++		_rtw_memcpy(&padapter->securitypriv.dot118021XGrpKey[(u8)((key->KeyIndex) & 0x03)], key->KeyMaterial, key->KeyLength);
++		
++		key->KeyIndex=key->KeyIndex & 0x03;
++		
++		padapter->securitypriv.binstallGrpkey=_TRUE;
++		
++		padapter->securitypriv.bcheck_grpkey=_FALSE;
++		
++		RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("reset group key"));
++		
++		res=rtw_set_key(padapter,&padapter->securitypriv, key->KeyIndex, 1);
++
++		if(res==_FAIL)
++			ret= _FAIL;
++
++		goto exit;
++			
++	}
++	else // Pairwise Key
++	{
++		u8 res;
++		
++		pbssid=get_bssid(&padapter->mlmepriv);
++		stainfo=rtw_get_stainfo(&padapter->stapriv , pbssid );
++		
++		if(stainfo!=NULL)
++		{			
++			_rtw_memset( &stainfo->dot118021x_UncstKey, 0, 16);// clear keybuffer
++			
++			_rtw_memcpy(&stainfo->dot118021x_UncstKey, key->KeyMaterial, 16);
++			
++			if(encryptionalgo== _TKIP_)
++			{
++				padapter->securitypriv.busetkipkey=_FALSE;
++				
++				//_set_timer(&padapter->securitypriv.tkip_timer, 50);
++				
++				RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("\n ==========_set_timer\n"));
++				
++				// if TKIP, save the Receive/Transmit MIC key in KeyMaterial[128-255]
++				if((key->KeyIndex & 0x10000000)){
++					_rtw_memcpy(&stainfo->dot11tkiptxmickey, key->KeyMaterial + 16, 8);
++					_rtw_memcpy(&stainfo->dot11tkiprxmickey, key->KeyMaterial + 24, 8);
++
++				} else {
++					_rtw_memcpy(&stainfo->dot11tkiptxmickey, key->KeyMaterial + 24, 8);
++					_rtw_memcpy(&stainfo->dot11tkiprxmickey, key->KeyMaterial + 16, 8);
++
++				}
++		
++			}
++			else if(encryptionalgo == _AES_)
++			{		
++	
++			}
++
++		
++			//Set key to CAM through H2C command
++			if(bgrouptkey)//never go to here
++			{
++				res=rtw_setstakey_cmd(padapter, (unsigned char *)stainfo, _FALSE);
++				RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("\n rtw_set_802_11_add_key:rtw_setstakey_cmd(group)\n"));
++			}
++			else{
++				res=rtw_setstakey_cmd(padapter, (unsigned char *)stainfo, _TRUE);
++				RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("\n rtw_set_802_11_add_key:rtw_setstakey_cmd(unicast)\n"));
++			}
++			
++			if(res ==_FALSE)
++				ret= _FAIL;
++			
++		}
++
++	}
++
++exit:
++	
++_func_exit_;
++
++	return ret;	
++}
++
++u8 rtw_set_802_11_remove_key(_adapter*	padapter, NDIS_802_11_REMOVE_KEY *key){
++	
++	uint				encryptionalgo;
++	u8 * pbssid;
++	struct sta_info *stainfo;
++	u8	bgroup = (key->KeyIndex & 0x4000000) > 0 ? _FALSE: _TRUE;
++	u8	keyIndex = (u8)key->KeyIndex & 0x03;
++	u8	ret=_SUCCESS;
++	
++_func_enter_;
++
++	if ((key->KeyIndex & 0xbffffffc) > 0) {
++		ret=_FAIL;
++		goto exit;
++	}
++
++	if (bgroup == _TRUE) {
++		encryptionalgo= padapter->securitypriv.dot118021XGrpPrivacy;
++		// clear group key by index
++		//NdisZeroMemory(Adapter->MgntInfo.SecurityInfo.KeyBuf[keyIndex], MAX_WEP_KEY_LEN);
++		//Adapter->MgntInfo.SecurityInfo.KeyLen[keyIndex] = 0;
++		
++		_rtw_memset(&padapter->securitypriv.dot118021XGrpKey[keyIndex], 0, 16);
++		
++		//! \todo Send a H2C Command to Firmware for removing this Key in CAM Entry.
++	
++	} else {
++	
++		pbssid=get_bssid(&padapter->mlmepriv);
++		stainfo=rtw_get_stainfo(&padapter->stapriv , pbssid );
++		if(stainfo !=NULL){
++			encryptionalgo=stainfo->dot118021XPrivacy;
++
++		// clear key by BSSID
++		_rtw_memset(&stainfo->dot118021x_UncstKey, 0, 16);
++		
++		//! \todo Send a H2C Command to Firmware for disable this Key in CAM Entry.
++
++		}
++		else{
++			ret= _FAIL;
++			goto exit;
++		}
++	}
++
++exit:
++	
++_func_exit_;
++
++	return _TRUE;
++	
++}
++
++/*
++* rtw_get_cur_max_rate - 
++* @adapter: pointer to _adapter structure
++* 
++* Return 0 or 100Kbps
++*/
++u16 rtw_get_cur_max_rate(_adapter *adapter)
++{
++	int	i = 0;
++	u8	*p;
++	u16	rate = 0, max_rate = 0;
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct registry_priv *pregistrypriv = &adapter->registrypriv;
++	struct mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++	WLAN_BSSID_EX  *pcur_bss = &pmlmepriv->cur_network.network;
++#ifdef CONFIG_80211N_HT
++	struct rtw_ieee80211_ht_cap *pht_capie;
++	u8	rf_type = 0;
++	u8	bw_40MHz=0, short_GI_20=0, short_GI_40=0;
++	u16	mcs_rate=0;
++	u32	ht_ielen = 0;	
++#endif
++
++#ifdef CONFIG_MP_INCLUDED
++	if (adapter->registrypriv.mp_mode == 1)
++	{	
++		if (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE)
++			return 0;
++	}
++#endif
++
++	if((check_fwstate(pmlmepriv, _FW_LINKED) != _TRUE) 
++		&& (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) != _TRUE))
++		return 0;
++
++#ifdef CONFIG_80211N_HT
++	if (pmlmeext->cur_wireless_mode & (WIRELESS_11_24N|WIRELESS_11_5N)) {
++		p = rtw_get_ie(&pcur_bss->IEs[12], _HT_CAPABILITY_IE_, &ht_ielen, pcur_bss->IELength-12);
++		if(p && ht_ielen>0)
++		{
++			pht_capie = (struct rtw_ieee80211_ht_cap *)(p+2);
++		
++			_rtw_memcpy(&mcs_rate , pht_capie->supp_mcs_set, 2);
++
++			//bw_40MHz = (pht_capie->cap_info&IEEE80211_HT_CAP_SUP_WIDTH) ? 1:0;
++			//cur_bwmod is updated by beacon, pmlmeinfo is updated by association response
++			bw_40MHz = (pmlmeext->cur_bwmode && (HT_INFO_HT_PARAM_REC_TRANS_CHNL_WIDTH & pmlmeinfo->HT_info.infos[0])) ? 1:0;
++			
++			//short_GI = (pht_capie->cap_info&(IEEE80211_HT_CAP_SGI_20|IEEE80211_HT_CAP_SGI_40)) ? 1:0;
++			short_GI_20 = (pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info&IEEE80211_HT_CAP_SGI_20) ? 1:0;
++			short_GI_40 = (pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info&IEEE80211_HT_CAP_SGI_40) ? 1:0;
++
++			rtw_hal_get_hwreg(adapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++			max_rate = rtw_mcs_rate(
++				rf_type,
++				bw_40MHz & (pregistrypriv->cbw40_enable), 
++				short_GI_20,
++				short_GI_40,
++				pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate
++			);
++		}
++	} 
++	else
++#endif //CONFIG_80211N_HT
++	{
++		while( (pcur_bss->SupportedRates[i]!=0) && (pcur_bss->SupportedRates[i]!=0xFF))
++		{
++			rate = pcur_bss->SupportedRates[i]&0x7F;
++			if(rate>max_rate)
++				max_rate = rate;
++			i++;
++		}
++	
++		max_rate = max_rate*10/2;
++	}
++
++	return max_rate;
++}
++
++/*
++* rtw_set_scan_mode - 
++* @adapter: pointer to _adapter structure
++* @scan_mode: 
++* 
++* Return _SUCCESS or _FAIL
++*/
++int rtw_set_scan_mode(_adapter *adapter, RT_SCAN_TYPE scan_mode)
++{
++	if(scan_mode != SCAN_ACTIVE && scan_mode != SCAN_PASSIVE)
++		return _FAIL;
++	
++	adapter->mlmepriv.scan_mode = scan_mode;
++
++	return _SUCCESS;
++}
++
++/*
++* rtw_set_channel_plan - 
++* @adapter: pointer to _adapter structure
++* @channel_plan: 
++* 
++* Return _SUCCESS or _FAIL
++*/
++int rtw_set_channel_plan(_adapter *adapter, u8 channel_plan)
++{
++	struct registry_priv *pregistrypriv = &adapter->registrypriv;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++
++	//handle by cmd_thread to sync with scan operation
++	return rtw_set_chplan_cmd(adapter, channel_plan, 1);
++}
++
++/*
++* rtw_set_country - 
++* @adapter: pointer to _adapter structure
++* @country_code: string of country code
++* 
++* Return _SUCCESS or _FAIL
++*/
++int rtw_set_country(_adapter *adapter, const char *country_code)
++{
++	int channel_plan = RT_CHANNEL_DOMAIN_WORLD_WIDE_5G;
++
++	DBG_871X("%s country_code:%s\n", __func__, country_code);
++
++	//TODO: should have a table to match country code and RT_CHANNEL_DOMAIN
++	//TODO: should consider 2-character and 3-character country code
++	if(0 == strcmp(country_code, "US"))
++		channel_plan = RT_CHANNEL_DOMAIN_FCC;
++	else if(0 == strcmp(country_code, "EU"))
++		channel_plan = RT_CHANNEL_DOMAIN_ETSI;
++	else if(0 == strcmp(country_code, "JP"))
++		channel_plan = RT_CHANNEL_DOMAIN_MKK;
++	else if(0 == strcmp(country_code, "CN"))
++		channel_plan = RT_CHANNEL_DOMAIN_CHINA;
++	else
++		DBG_871X("%s unknown country_code:%s\n", __FUNCTION__, country_code);
++	
++	return rtw_set_channel_plan(adapter, channel_plan);
++}
++
++/*
++* rtw_set_band - 
++* @adapter: pointer to _adapter structure
++* @band: band to set
++* 
++* Return _SUCCESS or _FAIL
++*/
++int rtw_set_band(_adapter *adapter, enum _BAND band)
++{
++	if (rtw_band_valid(band)) {
++		DBG_871X(FUNC_ADPT_FMT" band:%d\n", FUNC_ADPT_ARG(adapter), band);
++		adapter->setband = band;
++		return _SUCCESS;
++	}
++
++	DBG_871X_LEVEL(_drv_always_, FUNC_ADPT_FMT" band:%d fail\n", FUNC_ADPT_ARG(adapter), band);
++	return _FAIL;
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_iol.c b/drivers/net/wireless/rtl8192cu/core/rtw_iol.c
+new file mode 100755
+index 0000000..872cc42
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_iol.c
+@@ -0,0 +1,263 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include<rtw_iol.h>
++
++#ifdef CONFIG_IOL
++struct xmit_frame	*rtw_IOL_accquire_xmit_frame(ADAPTER *adapter)
++{
++	struct xmit_frame	*xmit_frame;
++	struct xmit_buf	*xmitbuf;
++	struct pkt_attrib	*pattrib;
++	struct xmit_priv	*pxmitpriv = &(adapter->xmitpriv);
++
++#if 1
++	if ((xmit_frame = rtw_alloc_xmitframe(pxmitpriv)) == NULL)
++	{
++		DBG_871X("%s rtw_alloc_xmitframe return null\n", __FUNCTION__);
++		goto exit;
++	}
++	
++	if ((xmitbuf = rtw_alloc_xmitbuf(pxmitpriv)) == NULL)
++	{
++		DBG_871X("%s rtw_alloc_xmitbuf return null\n", __FUNCTION__);
++		rtw_free_xmitframe(pxmitpriv, xmit_frame);
++		xmit_frame=NULL;
++		goto exit;
++	}
++	
++	xmit_frame->frame_tag = MGNT_FRAMETAG;
++	xmit_frame->pxmitbuf = xmitbuf;
++	xmit_frame->buf_addr = xmitbuf->pbuf;
++	xmitbuf->priv_data = xmit_frame;
++
++	pattrib = &xmit_frame->attrib;
++	update_mgntframe_attrib(adapter, pattrib);
++	pattrib->qsel = 0x10;
++	pattrib->pktlen = pattrib->last_txcmdsz = 0;
++
++#else
++	if ((xmit_frame = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		DBG_871X("%s alloc_mgtxmitframe return null\n", __FUNCTION__);
++	}
++	else {
++		pattrib = &xmit_frame->attrib;
++		update_mgntframe_attrib(adapter, pattrib);
++		pattrib->qsel = 0x10;
++		pattrib->pktlen = pattrib->last_txcmdsz = 0;
++	}
++#endif
++
++exit:
++	return xmit_frame;
++}
++
++
++int rtw_IOL_append_cmds(struct xmit_frame *xmit_frame, u8 *IOL_cmds, u32 cmd_len)
++{
++	struct pkt_attrib	*pattrib = &xmit_frame->attrib;
++	u16 buf_offset;
++	u32 ori_len;
++
++//Todo: bulkout without this offset
++#ifdef CONFIG_USB_HCI
++	buf_offset = TXDESC_OFFSET;
++#else
++	buf_offset = 0;
++#endif
++
++	ori_len = buf_offset+pattrib->pktlen;
++
++	//check if the io_buf can accommodate new cmds
++	if(ori_len + cmd_len + 8 > MAX_XMITBUF_SZ) {
++		DBG_871X("%s %u is large than MAX_XMITBUF_SZ:%u, can't accommodate new cmds\n", __FUNCTION__
++			, ori_len + cmd_len + 8, MAX_XMITBUF_SZ);
++		return _FAIL;
++	}
++
++	_rtw_memcpy(xmit_frame->buf_addr + buf_offset + pattrib->pktlen, IOL_cmds, cmd_len);
++	pattrib->pktlen += cmd_len;
++	pattrib->last_txcmdsz += cmd_len;
++
++	//DBG_871X("%s ori:%u + cmd_len:%u = %u\n", __FUNCTION__, ori_len, cmd_len, buf_offset+pattrib->pktlen);
++	
++	return _SUCCESS;
++}
++
++int rtw_IOL_append_LLT_cmd(struct xmit_frame *xmit_frame, u8 page_boundary)
++{
++	IOL_CMD cmd = {0x0, IOL_CMD_LLT, 0x0, 0x0};
++	
++	RTW_PUT_BE32((u8*)&cmd.value, (u32)page_boundary);
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8*)&cmd, 8);
++}
++
++int _rtw_IOL_append_WB_cmd(struct xmit_frame *xmit_frame, u16 addr, u8 value)
++{
++	IOL_CMD cmd = {0x0, IOL_CMD_WB_REG, 0x0, 0x0};
++	
++	RTW_PUT_BE16((u8*)&cmd.address, (u16)addr);
++	RTW_PUT_BE32((u8*)&cmd.value, (u32)value);
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8*)&cmd, 8);
++}
++
++int _rtw_IOL_append_WW_cmd(struct xmit_frame *xmit_frame, u16 addr, u16 value)
++{
++	IOL_CMD cmd = {0x0, IOL_CMD_WW_REG, 0x0, 0x0};
++	
++	RTW_PUT_BE16((u8*)&cmd.address, (u16)addr);
++	RTW_PUT_BE32((u8*)&cmd.value, (u32)value);
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8*)&cmd, 8);
++}
++
++int _rtw_IOL_append_WD_cmd(struct xmit_frame *xmit_frame, u16 addr, u32 value)
++{
++	IOL_CMD cmd = {0x0, IOL_CMD_WD_REG, 0x0, 0x0};
++	u8* pos = (u8 *)&cmd;
++	
++	RTW_PUT_BE16((u8*)&cmd.address, (u16)addr);
++	RTW_PUT_BE32((u8*)&cmd.value, (u32)value);
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8*)&cmd, 8);
++}
++
++#ifdef DBG_IO
++int dbg_rtw_IOL_append_WB_cmd(struct xmit_frame *xmit_frame, u16 addr, u8 value, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 1))
++		DBG_871X("DBG_IO %s:%d IOL_WB(0x%04x, 0x%02x)\n", caller, line, addr, value);
++
++	return _rtw_IOL_append_WB_cmd(xmit_frame, addr, value);
++}
++
++int dbg_rtw_IOL_append_WW_cmd(struct xmit_frame *xmit_frame, u16 addr, u16 value, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 2))
++		DBG_871X("DBG_IO %s:%d IOL_WW(0x%04x, 0x%04x)\n", caller, line, addr, value);
++
++	return _rtw_IOL_append_WW_cmd(xmit_frame, addr, value);
++}
++
++int dbg_rtw_IOL_append_WD_cmd(struct xmit_frame *xmit_frame, u16 addr, u32 value, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 4))
++		DBG_871X("DBG_IO %s:%d IOL_WD(0x%04x, 0x%08x)\n", caller, line, addr, value);
++
++	return _rtw_IOL_append_WD_cmd(xmit_frame, addr, value);
++}
++#endif
++
++int rtw_IOL_append_DELAY_US_cmd(struct xmit_frame *xmit_frame, u16 us)
++{
++	IOL_CMD cmd = {0x0, IOL_CMD_DELAY_US, 0x0, 0x0};
++	
++	RTW_PUT_BE32((u8*)&cmd.value, (u32)us);
++
++	//DBG_871X("%s %u\n", __FUNCTION__, us);
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8*)&cmd, 8);
++}
++
++int rtw_IOL_append_DELAY_MS_cmd(struct xmit_frame *xmit_frame, u16 ms)
++{
++	IOL_CMD cmd = {0x0, IOL_CMD_DELAY_MS, 0x0, 0x0};
++	
++	RTW_PUT_BE32((u8*)&cmd.value, (u32)ms);
++
++	//DBG_871X("%s %u\n", __FUNCTION__, ms);
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8*)&cmd, 8);
++}
++
++int rtw_IOL_append_END_cmd(struct xmit_frame *xmit_frame)
++{
++	struct pkt_attrib	*pattrib = &xmit_frame->attrib;
++	u16 buf_offset;
++	u32 ori_len;
++	IOL_CMD end_cmd = {0x0, IOL_CMD_END, 0x0, 0x0};
++
++//Todo: bulkout without this offset
++#ifdef CONFIG_USB_HCI
++	buf_offset = TXDESC_OFFSET;
++#else
++	buf_offset = 0;
++#endif
++
++	ori_len = buf_offset+pattrib->pktlen;
++
++	//check if the io_buf can accommodate new cmds
++	if(ori_len + 8 > MAX_XMITBUF_SZ) {
++		DBG_871X("%s %u is large than MAX_XMITBUF_SZ:%u, can't accommodate end cmd\n", __FUNCTION__
++			, ori_len + 8, MAX_XMITBUF_SZ);
++		return _FAIL;
++	}
++
++	_rtw_memcpy(xmit_frame->buf_addr + buf_offset + pattrib->pktlen, (u8*)&end_cmd, 8);
++	pattrib->pktlen += 8;
++	pattrib->last_txcmdsz += 8;
++
++	//DBG_871X("%s ori:%u + 8 = %u\n", __FUNCTION__ , ori_len, buf_offset+pattrib->pktlen);
++	
++	return _SUCCESS;
++}
++
++int rtw_IOL_exec_cmds_sync(ADAPTER *adapter, struct xmit_frame *xmit_frame, u32 max_wating_ms)
++{
++	return rtw_hal_iol_cmd(adapter, xmit_frame, max_wating_ms);
++}
++
++int rtw_IOL_exec_cmd_array_sync(PADAPTER adapter, u8 *IOL_cmds, u32 cmd_num, u32 max_wating_ms)
++{
++	struct xmit_frame	*xmit_frame;
++
++	if((xmit_frame=rtw_IOL_accquire_xmit_frame(adapter)) == NULL)
++		return _FAIL;
++
++	if(rtw_IOL_append_cmds(xmit_frame, IOL_cmds, cmd_num<<3) == _FAIL)
++		return _FAIL;
++
++	return rtw_IOL_exec_cmds_sync(adapter, xmit_frame, max_wating_ms);
++}
++
++int rtw_IOL_exec_empty_cmds_sync(ADAPTER *adapter, u32 max_wating_ms)
++{
++	IOL_CMD end_cmd = {0x0, IOL_CMD_END, 0x0, 0x0};
++	return rtw_IOL_exec_cmd_array_sync(adapter, (u8*)&end_cmd, 1, max_wating_ms);
++}
++
++bool rtw_IOL_applied(ADAPTER *adapter)
++{
++	if(adapter->registrypriv.force_iol)
++		return _TRUE;
++
++#ifdef CONFIG_USB_HCI
++	if(!adapter_to_dvobj(adapter)->ishighspeed)
++		return _TRUE;
++#endif
++
++	return _FALSE;
++}
++
++#endif //CONFIG_IOL
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_mlme.c b/drivers/net/wireless/rtl8192cu/core/rtw_mlme.c
+new file mode 100755
+index 0000000..00edd9c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_mlme.c
+@@ -0,0 +1,3967 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_MLME_C_
++
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <recv_osdep.h>
++#include <xmit_osdep.h>
++#include <hal_intf.h>
++#include <mlme_osdep.h>
++#include <sta_info.h>
++#include <wifi.h>
++#include <wlan_bssdef.h>
++#include <rtw_ioctl_set.h>
++
++extern void indicate_wx_scan_complete_event(_adapter *padapter);
++extern u8 rtw_do_join(_adapter * padapter);
++
++#ifdef CONFIG_DISABLE_MCS13TO15
++extern unsigned char	MCS_rate_2R_MCS13TO15_OFF[16];
++extern unsigned char	MCS_rate_2R[16];
++#else //CONFIG_DISABLE_MCS13TO15
++extern unsigned char	MCS_rate_2R[16];
++#endif //CONFIG_DISABLE_MCS13TO15
++extern unsigned char	MCS_rate_1R[16];
++
++sint	_rtw_init_mlme_priv (_adapter* padapter)
++{
++	sint	i;
++	u8	*pbuf;
++	struct wlan_network	*pnetwork;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	sint	res = _SUCCESS;
++
++_func_enter_;
++
++	// We don't need to memset padapter->XXX to zero, because adapter is allocated by rtw_zvmalloc().
++	//_rtw_memset((u8 *)pmlmepriv, 0, sizeof(struct mlme_priv));
++
++	pmlmepriv->nic_hdl = (u8 *)padapter;
++
++	pmlmepriv->pscanned = NULL;
++	pmlmepriv->fw_state = 0;
++	pmlmepriv->cur_network.network.InfrastructureMode = Ndis802_11AutoUnknown;
++	pmlmepriv->scan_mode=SCAN_ACTIVE;// 1: active, 0: pasive. Maybe someday we should rename this varable to "active_mode" (Jeff)
++
++	_rtw_spinlock_init(&(pmlmepriv->lock));	
++	_rtw_init_queue(&(pmlmepriv->free_bss_pool));
++	_rtw_init_queue(&(pmlmepriv->scanned_queue));
++
++	set_scanned_network_val(pmlmepriv, 0);
++	
++	_rtw_memset(&pmlmepriv->assoc_ssid,0,sizeof(NDIS_802_11_SSID));
++
++	pbuf = rtw_zvmalloc(MAX_BSS_CNT * (sizeof(struct wlan_network)));
++	
++	if (pbuf == NULL){
++		res=_FAIL;
++		goto exit;
++	}
++	pmlmepriv->free_bss_buf = pbuf;
++		
++	pnetwork = (struct wlan_network *)pbuf;
++	
++	for(i = 0; i < MAX_BSS_CNT; i++)
++	{		
++		_rtw_init_listhead(&(pnetwork->list));
++
++		rtw_list_insert_tail(&(pnetwork->list), &(pmlmepriv->free_bss_pool.queue));
++
++		pnetwork++;
++	}
++
++	//allocate DMA-able/Non-Page memory for cmd_buf and rsp_buf
++
++	rtw_clear_scan_deny(padapter);
++
++	rtw_init_mlme_timer(padapter);
++
++exit:
++
++_func_exit_;
++
++	return res;
++}	
++
++void rtw_mfree_mlme_priv_lock (struct mlme_priv *pmlmepriv);
++void rtw_mfree_mlme_priv_lock (struct mlme_priv *pmlmepriv)
++{
++	_rtw_spinlock_free(&pmlmepriv->lock);
++	_rtw_spinlock_free(&(pmlmepriv->free_bss_pool.lock));
++	_rtw_spinlock_free(&(pmlmepriv->scanned_queue.lock));
++}
++
++static void rtw_free_mlme_ie_data(u8 **ppie, u32 *plen)
++{
++	if(*ppie)
++	{		
++		rtw_mfree(*ppie, *plen);
++		*plen = 0;
++		*ppie=NULL;
++	}	
++}
++
++void rtw_free_mlme_priv_ie_data(struct mlme_priv *pmlmepriv)
++{
++#if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	rtw_buf_free(&pmlmepriv->assoc_req, &pmlmepriv->assoc_req_len);
++	rtw_buf_free(&pmlmepriv->assoc_rsp, &pmlmepriv->assoc_rsp_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wps_beacon_ie, &pmlmepriv->wps_beacon_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wps_probe_req_ie, &pmlmepriv->wps_probe_req_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wps_probe_resp_ie, &pmlmepriv->wps_probe_resp_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wps_assoc_resp_ie, &pmlmepriv->wps_assoc_resp_ie_len);
++	
++	rtw_free_mlme_ie_data(&pmlmepriv->p2p_beacon_ie, &pmlmepriv->p2p_beacon_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->p2p_probe_req_ie, &pmlmepriv->p2p_probe_req_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->p2p_probe_resp_ie, &pmlmepriv->p2p_probe_resp_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->p2p_go_probe_resp_ie, &pmlmepriv->p2p_go_probe_resp_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->p2p_assoc_req_ie, &pmlmepriv->p2p_assoc_req_ie_len);
++#endif
++
++#if defined(CONFIG_WFD) && defined(CONFIG_IOCTL_CFG80211)	
++	rtw_free_mlme_ie_data(&pmlmepriv->wfd_beacon_ie, &pmlmepriv->wfd_beacon_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wfd_probe_req_ie, &pmlmepriv->wfd_probe_req_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wfd_probe_resp_ie, &pmlmepriv->wfd_probe_resp_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wfd_go_probe_resp_ie, &pmlmepriv->wfd_go_probe_resp_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wfd_assoc_req_ie, &pmlmepriv->wfd_assoc_req_ie_len);
++#endif
++
++}
++
++void _rtw_free_mlme_priv (struct mlme_priv *pmlmepriv)
++{
++_func_enter_;
++
++	rtw_free_mlme_priv_ie_data(pmlmepriv);
++
++	if(pmlmepriv){
++		rtw_mfree_mlme_priv_lock (pmlmepriv);
++
++		if (pmlmepriv->free_bss_buf) {
++			rtw_vmfree(pmlmepriv->free_bss_buf, MAX_BSS_CNT * sizeof(struct wlan_network));
++		}
++	}
++_func_exit_;	
++}
++
++sint	_rtw_enqueue_network(_queue *queue, struct wlan_network *pnetwork)
++{
++	_irqL irqL;
++
++_func_enter_;	
++
++	if (pnetwork == NULL)
++		goto exit;
++	
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	rtw_list_insert_tail(&pnetwork->list, &queue->queue);
++
++	_exit_critical_bh(&queue->lock, &irqL);
++
++exit:	
++
++_func_exit_;		
++
++	return _SUCCESS;
++}
++
++struct	wlan_network *_rtw_dequeue_network(_queue *queue)
++{
++	_irqL irqL;
++
++	struct wlan_network *pnetwork;
++
++_func_enter_;	
++
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	if (_rtw_queue_empty(queue) == _TRUE)
++
++		pnetwork = NULL;
++	
++	else
++	{
++		pnetwork = LIST_CONTAINOR(get_next(&queue->queue), struct wlan_network, list);
++		
++		rtw_list_delete(&(pnetwork->list));
++	}
++	
++	_exit_critical_bh(&queue->lock, &irqL);
++
++_func_exit_;		
++
++	return pnetwork;
++}
++
++struct	wlan_network *_rtw_alloc_network(struct	mlme_priv *pmlmepriv )//(_queue *free_queue)
++{
++	_irqL	irqL;
++	struct	wlan_network	*pnetwork;	
++	_queue *free_queue = &pmlmepriv->free_bss_pool;
++	_list* plist = NULL;
++	
++_func_enter_;	
++
++	_enter_critical_bh(&free_queue->lock, &irqL);
++	
++	if (_rtw_queue_empty(free_queue) == _TRUE) {
++		pnetwork=NULL;
++		goto exit;
++	}
++	plist = get_next(&(free_queue->queue));
++	
++	pnetwork = LIST_CONTAINOR(plist , struct wlan_network, list);
++	
++	rtw_list_delete(&pnetwork->list);
++	
++	RT_TRACE(_module_rtl871x_mlme_c_, _drv_info_, ("_rtw_alloc_network: ptr=%p\n", plist));
++	pnetwork->network_type = 0;
++	pnetwork->fixed = _FALSE;
++	pnetwork->last_scanned = rtw_get_current_time();
++	pnetwork->aid=0;	
++	pnetwork->join_res=0;
++
++	pmlmepriv->num_of_scanned ++;
++	
++exit:
++	_exit_critical_bh(&free_queue->lock, &irqL);
++
++_func_exit_;		
++
++	return pnetwork;	
++}
++
++void _rtw_free_network(struct	mlme_priv *pmlmepriv ,struct wlan_network *pnetwork, u8 isfreeall)
++{
++	u32 curr_time, delta_time;
++	u32 lifetime = SCANQUEUE_LIFETIME;
++	_irqL irqL;	
++	_queue *free_queue = &(pmlmepriv->free_bss_pool);
++	
++_func_enter_;		
++
++	if (pnetwork == NULL)
++		goto exit;
++
++	if (pnetwork->fixed == _TRUE)
++		goto exit;
++
++	curr_time = rtw_get_current_time();	
++
++	if ( (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE)==_TRUE ) || 
++		(check_fwstate(pmlmepriv, WIFI_ADHOC_STATE)==_TRUE ) )
++		lifetime = 1;
++
++	if(!isfreeall)
++	{
++#ifdef PLATFORM_WINDOWS
++
++		delta_time = (curr_time -pnetwork->last_scanned)/10;
++
++		if(delta_time  < lifetime*1000000)// unit:usec
++		{
++			goto exit;
++		}
++
++#endif
++
++#ifdef PLATFORM_LINUX
++
++		delta_time = (curr_time -pnetwork->last_scanned)/HZ;	
++
++		if(delta_time < lifetime)// unit:sec
++		{		
++			goto exit;
++		}
++
++#endif
++
++#ifdef PLATFORM_FREEBSD
++        //i think needs to check again
++		delta_time = (curr_time -pnetwork->last_scanned)/hz;	
++
++		if(delta_time < lifetime)// unit:sec
++		{		
++			goto exit;
++		}
++
++#endif
++	}
++
++	_enter_critical_bh(&free_queue->lock, &irqL);
++	
++	rtw_list_delete(&(pnetwork->list));
++
++	rtw_list_insert_tail(&(pnetwork->list),&(free_queue->queue));
++		
++	pmlmepriv->num_of_scanned --;
++	
++
++	//DBG_871X("_rtw_free_network:SSID=%s\n", pnetwork->network.Ssid.Ssid);
++	
++	_exit_critical_bh(&free_queue->lock, &irqL);
++	
++exit:		
++	
++_func_exit_;			
++
++}
++
++void _rtw_free_network_nolock(struct	mlme_priv *pmlmepriv, struct wlan_network *pnetwork)
++{
++
++	_queue *free_queue = &(pmlmepriv->free_bss_pool);
++
++_func_enter_;		
++
++	if (pnetwork == NULL)
++		goto exit;
++
++	if (pnetwork->fixed == _TRUE)
++		goto exit;
++
++	//_enter_critical(&free_queue->lock, &irqL);
++	
++	rtw_list_delete(&(pnetwork->list));
++
++	rtw_list_insert_tail(&(pnetwork->list), get_list_head(free_queue));
++		
++	pmlmepriv->num_of_scanned --;
++	
++	//_exit_critical(&free_queue->lock, &irqL);
++	
++exit:		
++
++_func_exit_;			
++
++}
++
++
++/*
++	return the wlan_network with the matching addr
++
++	Shall be calle under atomic context... to avoid possible racing condition...
++*/
++struct wlan_network *_rtw_find_network(_queue *scanned_queue, u8 *addr)
++{
++
++	//_irqL irqL;
++	_list	*phead, *plist;
++	struct	wlan_network *pnetwork = NULL;
++	u8 zero_addr[ETH_ALEN] = {0,0,0,0,0,0};
++	
++_func_enter_;	
++
++	if(_rtw_memcmp(zero_addr, addr, ETH_ALEN)){
++		pnetwork=NULL;
++		goto exit;
++	}
++	
++	//_enter_critical_bh(&scanned_queue->lock, &irqL);
++	
++	phead = get_list_head(scanned_queue);
++	plist = get_next(phead);
++	 
++	while (plist != phead)
++       {
++                pnetwork = LIST_CONTAINOR(plist, struct wlan_network ,list);
++
++		if (_rtw_memcmp(addr, pnetwork->network.MacAddress, ETH_ALEN) == _TRUE)
++                        break;
++		
++		plist = get_next(plist);
++        }
++
++	if(plist == phead)
++		pnetwork = NULL;
++
++	//_exit_critical_bh(&scanned_queue->lock, &irqL);
++	
++exit:		
++	
++_func_exit_;		
++
++	return pnetwork;
++	
++}
++
++
++void _rtw_free_network_queue(_adapter *padapter, u8 isfreeall)
++{
++	_irqL irqL;
++	_list *phead, *plist;
++	struct wlan_network *pnetwork;
++	struct mlme_priv* pmlmepriv = &padapter->mlmepriv;
++	_queue *scanned_queue = &pmlmepriv->scanned_queue;
++
++_func_enter_;	
++	
++
++	_enter_critical_bh(&scanned_queue->lock, &irqL);
++
++	phead = get_list_head(scanned_queue);
++	plist = get_next(phead);
++
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE)
++	{
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		plist = get_next(plist);
++
++		_rtw_free_network(pmlmepriv,pnetwork, isfreeall);
++		
++	}
++
++	_exit_critical_bh(&scanned_queue->lock, &irqL);
++	
++_func_exit_;		
++
++}
++
++
++
++
++sint rtw_if_up(_adapter *padapter)	{
++
++	sint res;
++_func_enter_;		
++
++	if( padapter->bDriverStopped || padapter->bSurpriseRemoved ||
++		(check_fwstate(&padapter->mlmepriv, _FW_LINKED)== _FALSE)){		
++		RT_TRACE(_module_rtl871x_mlme_c_, _drv_info_, ("rtw_if_up:bDriverStopped(%d) OR bSurpriseRemoved(%d)", padapter->bDriverStopped, padapter->bSurpriseRemoved));	
++		res=_FALSE;
++	}
++	else
++		res=  _TRUE;
++	
++_func_exit_;
++	return res;
++}
++
++
++void rtw_generate_random_ibss(u8* pibss)
++{
++	u32	curtime = rtw_get_current_time();
++
++_func_enter_;
++	pibss[0] = 0x02;  //in ad-hoc mode bit1 must set to 1
++	pibss[1] = 0x11;
++	pibss[2] = 0x87;
++	pibss[3] = (u8)(curtime & 0xff) ;//p[0];
++	pibss[4] = (u8)((curtime>>8) & 0xff) ;//p[1];
++	pibss[5] = (u8)((curtime>>16) & 0xff) ;//p[2];
++_func_exit_;
++	return;
++}
++
++u8 *rtw_get_capability_from_ie(u8 *ie)
++{
++	return (ie + 8 + 2);
++}
++
++
++u16 rtw_get_capability(WLAN_BSSID_EX *bss)
++{
++	u16	val;
++_func_enter_;	
++
++	_rtw_memcpy((u8 *)&val, rtw_get_capability_from_ie(bss->IEs), 2); 
++
++_func_exit_;		
++	return le16_to_cpu(val);
++}
++
++u8 *rtw_get_timestampe_from_ie(u8 *ie)
++{
++	return (ie + 0);	
++}
++
++u8 *rtw_get_beacon_interval_from_ie(u8 *ie)
++{
++	return (ie + 8);	
++}
++
++
++int	rtw_init_mlme_priv (_adapter *padapter)//(struct	mlme_priv *pmlmepriv)
++{
++	int	res;
++_func_enter_;	
++	res = _rtw_init_mlme_priv(padapter);// (pmlmepriv);
++_func_exit_;	
++	return res;
++}
++
++void rtw_free_mlme_priv (struct mlme_priv *pmlmepriv)
++{
++_func_enter_;
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("rtw_free_mlme_priv\n"));
++	_rtw_free_mlme_priv (pmlmepriv);
++_func_exit_;	
++}
++
++int	rtw_enqueue_network(_queue *queue, struct wlan_network *pnetwork);
++int	rtw_enqueue_network(_queue *queue, struct wlan_network *pnetwork)
++{
++	int	res;
++_func_enter_;		
++	res = _rtw_enqueue_network(queue, pnetwork);
++_func_exit_;		
++	return res;
++}
++
++
++#ifndef PLATFORM_FREEBSD //Baron
++static struct	wlan_network *rtw_dequeue_network(_queue *queue)
++{
++	struct wlan_network *pnetwork;
++_func_enter_;		
++	pnetwork = _rtw_dequeue_network(queue);
++_func_exit_;		
++	return pnetwork;
++}
++#endif //PLATFORM_FREEBSD
++
++struct	wlan_network *rtw_alloc_network(struct	mlme_priv *pmlmepriv );
++struct	wlan_network *rtw_alloc_network(struct	mlme_priv *pmlmepriv )//(_queue	*free_queue)
++{
++	struct	wlan_network	*pnetwork;
++_func_enter_;			
++	pnetwork = _rtw_alloc_network(pmlmepriv);
++_func_exit_;			
++	return pnetwork;
++}
++
++void rtw_free_network(struct mlme_priv *pmlmepriv, struct	wlan_network *pnetwork, u8 is_freeall);
++void rtw_free_network(struct mlme_priv *pmlmepriv, struct	wlan_network *pnetwork, u8 is_freeall)//(struct	wlan_network *pnetwork, _queue	*free_queue)
++{
++_func_enter_;		
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("rtw_free_network==> ssid = %s \n\n" , pnetwork->network.Ssid.Ssid));
++	_rtw_free_network(pmlmepriv, pnetwork, is_freeall);
++_func_exit_;		
++}
++
++void rtw_free_network_nolock(struct mlme_priv *pmlmepriv, struct wlan_network *pnetwork );
++void rtw_free_network_nolock(struct mlme_priv *pmlmepriv, struct wlan_network *pnetwork )
++{
++_func_enter_;		
++	//RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("rtw_free_network==> ssid = %s \n\n" , pnetwork->network.Ssid.Ssid));
++	_rtw_free_network_nolock(pmlmepriv, pnetwork);
++_func_exit_;		
++}
++
++
++void rtw_free_network_queue(_adapter* dev, u8 isfreeall)
++{
++_func_enter_;		
++	_rtw_free_network_queue(dev, isfreeall);
++_func_exit_;			
++}
++
++/*
++	return the wlan_network with the matching addr
++
++	Shall be calle under atomic context... to avoid possible racing condition...
++*/
++struct	wlan_network *rtw_find_network(_queue *scanned_queue, u8 *addr)
++{
++	struct	wlan_network *pnetwork = _rtw_find_network(scanned_queue, addr);
++
++	return pnetwork;
++}
++
++int rtw_is_same_ibss(_adapter *adapter, struct wlan_network *pnetwork)
++{
++	int ret=_TRUE;
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++
++	if ( (psecuritypriv->dot11PrivacyAlgrthm != _NO_PRIVACY_ ) &&
++		    ( pnetwork->network.Privacy == 0 ) )
++	{
++		ret=_FALSE;
++	}
++	else if((psecuritypriv->dot11PrivacyAlgrthm == _NO_PRIVACY_ ) &&
++		 ( pnetwork->network.Privacy == 1 ) )
++	{
++		ret=_FALSE;
++	}
++	else
++	{
++		ret=_TRUE;
++	}
++	
++	return ret;
++	
++}
++
++inline int is_same_ess(WLAN_BSSID_EX *a, WLAN_BSSID_EX *b);
++inline int is_same_ess(WLAN_BSSID_EX *a, WLAN_BSSID_EX *b)
++{
++	//RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("(%s,%d)(%s,%d)\n",
++	//		a->Ssid.Ssid,a->Ssid.SsidLength,b->Ssid.Ssid,b->Ssid.SsidLength));
++	return (a->Ssid.SsidLength == b->Ssid.SsidLength) 
++		&&  _rtw_memcmp(a->Ssid.Ssid, b->Ssid.Ssid, a->Ssid.SsidLength)==_TRUE;
++}
++
++int is_same_network(WLAN_BSSID_EX *src, WLAN_BSSID_EX *dst)
++{
++	 u16 s_cap, d_cap;
++	 
++_func_enter_;	
++
++#ifdef PLATFORM_OS_XP
++	 if ( ((uint)dst) <= 0x7fffffff || 
++	 	((uint)src) <= 0x7fffffff ||
++	 	((uint)&s_cap) <= 0x7fffffff ||
++	 	((uint)&d_cap) <= 0x7fffffff)
++	{
++		RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("\n@@@@ error address of dst\n"));
++			
++		KeBugCheckEx(0x87110000, (ULONG_PTR)dst, (ULONG_PTR)src,(ULONG_PTR)&s_cap, (ULONG_PTR)&d_cap);
++
++		return _FALSE;
++	}
++#endif
++
++
++	_rtw_memcpy((u8 *)&s_cap, rtw_get_capability_from_ie(src->IEs), 2);
++	_rtw_memcpy((u8 *)&d_cap, rtw_get_capability_from_ie(dst->IEs), 2);
++
++	
++	s_cap = le16_to_cpu(s_cap);
++	d_cap = le16_to_cpu(d_cap);
++	
++_func_exit_;			
++
++	return ((src->Ssid.SsidLength == dst->Ssid.SsidLength) &&
++		//	(src->Configuration.DSConfig == dst->Configuration.DSConfig) &&
++			( (_rtw_memcmp(src->MacAddress, dst->MacAddress, ETH_ALEN)) == _TRUE) &&
++			( (_rtw_memcmp(src->Ssid.Ssid, dst->Ssid.Ssid, src->Ssid.SsidLength)) == _TRUE) &&
++			((s_cap & WLAN_CAPABILITY_IBSS) == 
++			(d_cap & WLAN_CAPABILITY_IBSS)) &&
++			((s_cap & WLAN_CAPABILITY_BSS) == 
++			(d_cap & WLAN_CAPABILITY_BSS)));
++	
++}
++
++struct	wlan_network	* rtw_get_oldest_wlan_network(_queue *scanned_queue)
++{
++	_list	*plist, *phead;
++
++	
++	struct	wlan_network	*pwlan = NULL;
++	struct	wlan_network	*oldest = NULL;
++_func_enter_;		
++	phead = get_list_head(scanned_queue);
++	
++	plist = get_next(phead);
++
++	while(1)
++	{
++		
++		if (rtw_end_of_queue_search(phead,plist)== _TRUE)
++			break;
++		
++		pwlan= LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		if(pwlan->fixed!=_TRUE)
++		{		
++			if (oldest == NULL ||time_after(oldest->last_scanned, pwlan->last_scanned))
++				oldest = pwlan;
++		}
++		
++		plist = get_next(plist);
++	}
++_func_exit_;		
++	return oldest;
++	
++}
++
++static void update_network(WLAN_BSSID_EX *dst, WLAN_BSSID_EX *src,
++	_adapter * padapter, bool update_ie)
++{
++	u8 ss_ori = dst->PhyInfo.SignalStrength;
++	u8 sq_ori = dst->PhyInfo.SignalQuality;
++	long rssi_ori = dst->Rssi;
++
++	u8 ss_smp = src->PhyInfo.SignalStrength;
++	u8 sq_smp = src->PhyInfo.SignalQuality;
++	long rssi_smp = src->Rssi;
++
++	u8 ss_final;
++	u8 sq_final;
++	long rssi_final;
++
++_func_enter_;		
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	rtw_hal_antdiv_rssi_compared(padapter, dst, src); //this will update src.Rssi, need consider again
++#endif
++
++	#if defined(DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED) && 1
++	if(strcmp(dst->Ssid.Ssid, DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED) == 0) {
++		DBG_871X(FUNC_ADPT_FMT" %s("MAC_FMT", ch%u) ss_ori:%3u, sq_ori:%3u, rssi_ori:%3ld, ss_smp:%3u, sq_smp:%3u, rssi_smp:%3ld\n"
++			, FUNC_ADPT_ARG(padapter)
++			, src->Ssid.Ssid, MAC_ARG(src->MacAddress), src->Configuration.DSConfig
++			,ss_ori, sq_ori, rssi_ori
++			,ss_smp, sq_smp, rssi_smp
++		);
++	}
++	#endif
++
++	/* The rule below is 1/5 for sample value, 4/5 for history value */
++	if (check_fwstate(&padapter->mlmepriv, _FW_LINKED) && is_same_network(&(padapter->mlmepriv.cur_network.network), src)) {
++		/* Take the recvpriv's value for the connected AP*/
++		ss_final = padapter->recvpriv.signal_strength;
++		sq_final = padapter->recvpriv.signal_qual;
++		/* the rssi value here is undecorated, and will be used for antenna diversity */
++		if(sq_smp != 101) /* from the right channel */
++			rssi_final = (src->Rssi+dst->Rssi*4)/5;
++		else
++			rssi_final = rssi_ori;
++	}
++	else {
++		if(sq_smp != 101) { /* from the right channel */
++			ss_final = ((u32)(src->PhyInfo.SignalStrength)+(u32)(dst->PhyInfo.SignalStrength)*4)/5;
++			sq_final = ((u32)(src->PhyInfo.SignalQuality)+(u32)(dst->PhyInfo.SignalQuality)*4)/5;
++			rssi_final = (src->Rssi+dst->Rssi*4)/5;
++		} else {
++			/* bss info not receving from the right channel, use the original RX signal infos */
++			ss_final = dst->PhyInfo.SignalStrength;
++			sq_final = dst->PhyInfo.SignalQuality;
++			rssi_final = dst->Rssi;
++		}
++		
++	}
++
++	if (update_ie)
++		_rtw_memcpy((u8 *)dst, (u8 *)src, get_WLAN_BSSID_EX_sz(src));
++
++	dst->PhyInfo.SignalStrength = ss_final;
++	dst->PhyInfo.SignalQuality = sq_final;
++	dst->Rssi = rssi_final;
++
++	#if defined(DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED) && 1
++	if(strcmp(dst->Ssid.Ssid, DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED) == 0) {
++		DBG_871X(FUNC_ADPT_FMT" %s("MAC_FMT"), SignalStrength:%u, SignalQuality:%u, RawRSSI:%ld\n"
++			, FUNC_ADPT_ARG(padapter)
++			, dst->Ssid.Ssid, MAC_ARG(dst->MacAddress), dst->PhyInfo.SignalStrength, dst->PhyInfo.SignalQuality, dst->Rssi);
++	}
++	#endif
++
++#if 0 // old codes, may be useful one day...
++//	DBG_871X("update_network: rssi=0x%lx dst->Rssi=%d ,dst->Rssi=0x%lx , src->Rssi=0x%lx",(dst->Rssi+src->Rssi)/2,dst->Rssi,dst->Rssi,src->Rssi);
++	if (check_fwstate(&padapter->mlmepriv, _FW_LINKED) && is_same_network(&(padapter->mlmepriv.cur_network.network), src))
++	{
++	
++		//DBG_871X("b:ssid=%s update_network: src->rssi=0x%d padapter->recvpriv.ui_rssi=%d\n",src->Ssid.Ssid,src->Rssi,padapter->recvpriv.signal);
++		if(padapter->recvpriv.signal_qual_data.total_num++ >= PHY_LINKQUALITY_SLID_WIN_MAX)
++	        {
++	              padapter->recvpriv.signal_qual_data.total_num = PHY_LINKQUALITY_SLID_WIN_MAX;
++	              last_evm = padapter->recvpriv.signal_qual_data.elements[padapter->recvpriv.signal_qual_data.index];
++	              padapter->recvpriv.signal_qual_data.total_val -= last_evm;
++	        }
++               	padapter->recvpriv.signal_qual_data.total_val += query_rx_pwr_percentage(src->Rssi);
++
++              	padapter->recvpriv.signal_qual_data.elements[padapter->recvpriv.signal_qual_data.index++] = query_rx_pwr_percentage(src->Rssi);
++                if(padapter->recvpriv.signal_qual_data.index >= PHY_LINKQUALITY_SLID_WIN_MAX)
++                       padapter->recvpriv.signal_qual_data.index = 0;
++
++		//DBG_871X("Total SQ=%d  pattrib->signal_qual= %d\n", padapter->recvpriv.signal_qual_data.total_val, src->Rssi);
++
++		// <1> Showed on UI for user,in percentage.
++		tmpVal = padapter->recvpriv.signal_qual_data.total_val/padapter->recvpriv.signal_qual_data.total_num;
++                padapter->recvpriv.signal=(u8)tmpVal;//Link quality
++
++		src->Rssi= translate_percentage_to_dbm(padapter->recvpriv.signal) ;
++	}
++	else{
++//	DBG_871X("ELSE:ssid=%s update_network: src->rssi=0x%d dst->rssi=%d\n",src->Ssid.Ssid,src->Rssi,dst->Rssi);
++		src->Rssi=(src->Rssi +dst->Rssi)/2;//dBM
++	}	
++
++//	DBG_871X("a:update_network: src->rssi=0x%d padapter->recvpriv.ui_rssi=%d\n",src->Rssi,padapter->recvpriv.signal);
++
++#endif
++
++_func_exit_;		
++}
++
++static void update_current_network(_adapter *adapter, WLAN_BSSID_EX *pnetwork)
++{
++	struct	mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++	
++_func_enter_;		
++
++#ifdef PLATFORM_OS_XP
++	if ((unsigned long)(&(pmlmepriv->cur_network.network)) < 0x7ffffff)
++	{		
++		KeBugCheckEx(0x87111c1c, (ULONG_PTR)(&(pmlmepriv->cur_network.network)), 0, 0,0);
++	}
++#endif
++
++	if ( (check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE) && (is_same_network(&(pmlmepriv->cur_network.network), pnetwork)))
++	{
++		//RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,"Same Network\n");
++
++		//if(pmlmepriv->cur_network.network.IELength<= pnetwork->IELength)
++		{
++			update_network(&(pmlmepriv->cur_network.network), pnetwork,adapter, _TRUE);
++			rtw_update_protection(adapter, (pmlmepriv->cur_network.network.IEs) + sizeof (NDIS_802_11_FIXED_IEs), 
++									pmlmepriv->cur_network.network.IELength);
++		}
++	}
++
++_func_exit_;			
++
++}
++
++
++/*
++
++Caller must hold pmlmepriv->lock first.
++
++
++*/
++void rtw_update_scanned_network(_adapter *adapter, WLAN_BSSID_EX *target)
++{
++	_irqL irqL;
++	_list	*plist, *phead;
++	ULONG	bssid_ex_sz;
++	struct mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++	_queue	*queue	= &(pmlmepriv->scanned_queue);
++	struct wlan_network	*pnetwork = NULL;
++	struct wlan_network	*oldest = NULL;
++
++_func_enter_;
++
++	_enter_critical_bh(&queue->lock, &irqL);
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while(1)
++	{
++		if (rtw_end_of_queue_search(phead,plist)== _TRUE)
++			break;
++
++		pnetwork	= LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		if ((unsigned long)(pnetwork) < 0x7ffffff)
++		{
++#ifdef PLATFORM_OS_XP
++			KeBugCheckEx(0x87111c1c, (ULONG_PTR)pnetwork, 0, 0,0);
++#endif
++		}
++
++		if (is_same_network(&(pnetwork->network), target))
++			break;
++
++		if ((oldest == ((struct wlan_network *)0)) ||
++		time_after(oldest->last_scanned, pnetwork->last_scanned))
++			oldest = pnetwork;
++
++		plist = get_next(plist);
++
++	}
++	
++	
++	/* If we didn't find a match, then get a new network slot to initialize
++	 * with this beacon's information */
++	if (rtw_end_of_queue_search(phead,plist)== _TRUE) {
++		
++		if (_rtw_queue_empty(&(pmlmepriv->free_bss_pool)) == _TRUE) {
++			/* If there are no more slots, expire the oldest */
++			//list_del_init(&oldest->list);
++			pnetwork = oldest;
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++			//target->PhyInfo.Optimum_antenna = pHalData->CurAntenna;//optimum_antenna=>For antenna diversity
++			rtw_hal_get_def_var(adapter, HAL_DEF_CURRENT_ANTENNA, &(target->PhyInfo.Optimum_antenna));
++#endif
++			_rtw_memcpy(&(pnetwork->network), target,  get_WLAN_BSSID_EX_sz(target));
++			//pnetwork->last_scanned = rtw_get_current_time();
++			// variable initialize
++			pnetwork->fixed = _FALSE;
++			pnetwork->last_scanned = rtw_get_current_time();
++
++			pnetwork->network_type = 0;	
++			pnetwork->aid=0;		
++			pnetwork->join_res=0;
++
++			/* bss info not receving from the right channel */
++			if (pnetwork->network.PhyInfo.SignalQuality == 101)
++				pnetwork->network.PhyInfo.SignalQuality = 0;
++		}
++		else {
++			/* Otherwise just pull from the free list */
++
++			pnetwork = rtw_alloc_network(pmlmepriv); // will update scan_time
++
++			if(pnetwork==NULL){ 
++				RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("\n\n\nsomething wrong here\n\n\n"));
++				goto exit;
++			}
++
++			bssid_ex_sz = get_WLAN_BSSID_EX_sz(target);
++			target->Length = bssid_ex_sz;
++#ifdef CONFIG_ANTENNA_DIVERSITY
++			//target->PhyInfo.Optimum_antenna = pHalData->CurAntenna;
++			rtw_hal_get_def_var(adapter, HAL_DEF_CURRENT_ANTENNA, &(target->PhyInfo.Optimum_antenna));
++#endif
++			_rtw_memcpy(&(pnetwork->network), target, bssid_ex_sz );
++
++			pnetwork->last_scanned = rtw_get_current_time();
++
++			/* bss info not receving from the right channel */
++			if (pnetwork->network.PhyInfo.SignalQuality == 101)
++				pnetwork->network.PhyInfo.SignalQuality = 0;
++
++			rtw_list_insert_tail(&(pnetwork->list),&(queue->queue)); 
++
++		}
++	}
++	else {
++		/* we have an entry and we are going to update it. But this entry may
++		 * be already expired. In this case we do the same as we found a new 
++		 * net and call the new_net handler
++		 */
++		bool update_ie = _TRUE;
++
++		pnetwork->last_scanned = rtw_get_current_time();
++
++		//target.Reserved[0]==1, means that scaned network is a bcn frame.
++		if((pnetwork->network.IELength>target->IELength) && (target->Reserved[0]==1))
++			update_ie = _FALSE;
++
++		update_network(&(pnetwork->network), target,adapter, update_ie);
++	}
++
++exit:
++	_exit_critical_bh(&queue->lock, &irqL);
++
++_func_exit_;
++}
++
++void rtw_add_network(_adapter *adapter, WLAN_BSSID_EX *pnetwork);
++void rtw_add_network(_adapter *adapter, WLAN_BSSID_EX *pnetwork)
++{
++	_irqL irqL;
++	struct	mlme_priv	*pmlmepriv = &(((_adapter *)adapter)->mlmepriv);
++	//_queue	*queue	= &(pmlmepriv->scanned_queue);
++
++_func_enter_;		
++
++	//_enter_critical_bh(&queue->lock, &irqL);
++
++	#if defined(CONFIG_P2P) && defined(CONFIG_P2P_REMOVE_GROUP_INFO)
++	rtw_WLAN_BSSID_EX_remove_p2p_attr(pnetwork, P2P_ATTR_GROUP_INFO);
++	#endif
++	
++	update_current_network(adapter, pnetwork);
++	
++	rtw_update_scanned_network(adapter, pnetwork);
++
++	//_exit_critical_bh(&queue->lock, &irqL);
++	
++_func_exit_;		
++}
++
++//select the desired network based on the capability of the (i)bss.
++// check items: (1) security
++//			   (2) network_type
++//			   (3) WMM
++//			   (4) HT
++//                     (5) others
++int rtw_is_desired_network(_adapter *adapter, struct wlan_network *pnetwork);
++int rtw_is_desired_network(_adapter *adapter, struct wlan_network *pnetwork)
++{
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	u32 desired_encmode;
++	u32 privacy;
++
++	//u8 wps_ie[512];
++	uint wps_ielen;
++
++	int bselected = _TRUE;
++	
++	desired_encmode = psecuritypriv->ndisencryptstatus;
++	privacy = pnetwork->network.Privacy;
++
++	if(check_fwstate(pmlmepriv, WIFI_UNDER_WPS))
++	{
++		if(rtw_get_wps_ie(pnetwork->network.IEs+_FIXED_IE_LENGTH_, pnetwork->network.IELength-_FIXED_IE_LENGTH_, NULL, &wps_ielen)!=NULL)
++		{
++			return _TRUE;
++		}
++		else
++		{	
++			return _FALSE;
++		}	
++	}
++	if (adapter->registrypriv.wifi_spec == 1) //for  correct flow of 8021X  to do....
++	{
++		u8 *p=NULL;
++		uint ie_len=0;
++
++		if ((desired_encmode == Ndis802_11EncryptionDisabled) && (privacy != 0))
++	            bselected = _FALSE;
++
++		if ( psecuritypriv->ndisauthtype == Ndis802_11AuthModeWPA2PSK) {
++			p = rtw_get_ie(pnetwork->network.IEs + _BEACON_IE_OFFSET_, _RSN_IE_2_, &ie_len, (pnetwork->network.IELength - _BEACON_IE_OFFSET_));
++			if (p && ie_len>0) {
++				bselected = _TRUE;
++			} else {
++				bselected = _FALSE;
++			}
++		}
++	}
++	
++
++ 	if ((desired_encmode != Ndis802_11EncryptionDisabled) && (privacy == 0)) {
++		DBG_871X("desired_encmode: %d, privacy: %d\n", desired_encmode, privacy);
++		bselected = _FALSE;
++ 	}
++
++	if(check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE)
++	{
++		if(pnetwork->network.InfrastructureMode != pmlmepriv->cur_network.network.InfrastructureMode)
++			bselected = _FALSE;
++	}	
++		
++
++	return bselected;
++}
++
++/* TODO: Perry : For Power Management */
++void rtw_atimdone_event_callback(_adapter	*adapter , u8 *pbuf)
++{
++
++_func_enter_;		
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("receive atimdone_evet\n"));	
++_func_exit_;			
++	return;	
++}
++
++
++void rtw_survey_event_callback(_adapter	*adapter, u8 *pbuf)
++{
++	_irqL  irqL;
++	u32 len;
++	WLAN_BSSID_EX *pnetwork;
++	struct	mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++
++_func_enter_;		
++
++	pnetwork = (WLAN_BSSID_EX *)pbuf;
++
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("rtw_survey_event_callback, ssid=%s\n",  pnetwork->Ssid.Ssid));
++
++#ifdef CONFIG_RTL8712
++        //endian_convert
++ 	pnetwork->Length = le32_to_cpu(pnetwork->Length);
++  	pnetwork->Ssid.SsidLength = le32_to_cpu(pnetwork->Ssid.SsidLength);	
++	pnetwork->Privacy =le32_to_cpu( pnetwork->Privacy);
++	pnetwork->Rssi = le32_to_cpu(pnetwork->Rssi);
++	pnetwork->NetworkTypeInUse =le32_to_cpu(pnetwork->NetworkTypeInUse);	
++	pnetwork->Configuration.ATIMWindow = le32_to_cpu(pnetwork->Configuration.ATIMWindow);
++	pnetwork->Configuration.BeaconPeriod = le32_to_cpu(pnetwork->Configuration.BeaconPeriod);
++	pnetwork->Configuration.DSConfig =le32_to_cpu(pnetwork->Configuration.DSConfig);
++	pnetwork->Configuration.FHConfig.DwellTime=le32_to_cpu(pnetwork->Configuration.FHConfig.DwellTime);
++	pnetwork->Configuration.FHConfig.HopPattern=le32_to_cpu(pnetwork->Configuration.FHConfig.HopPattern);
++	pnetwork->Configuration.FHConfig.HopSet=le32_to_cpu(pnetwork->Configuration.FHConfig.HopSet);
++	pnetwork->Configuration.FHConfig.Length=le32_to_cpu(pnetwork->Configuration.FHConfig.Length);	
++	pnetwork->Configuration.Length = le32_to_cpu(pnetwork->Configuration.Length);
++	pnetwork->InfrastructureMode = le32_to_cpu(pnetwork->InfrastructureMode);
++	pnetwork->IELength = le32_to_cpu(pnetwork->IELength);
++#endif	
++
++	len = get_WLAN_BSSID_EX_sz(pnetwork);
++	if(len > (sizeof(WLAN_BSSID_EX)))
++	{
++		RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("\n ****rtw_survey_event_callback: return a wrong bss ***\n"));
++		return;
++	}
++
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	// update IBSS_network 's timestamp
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE)) == _TRUE)
++	{
++		//RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,"rtw_survey_event_callback : WIFI_ADHOC_MASTER_STATE \n\n");
++		if(_rtw_memcmp(&(pmlmepriv->cur_network.network.MacAddress), pnetwork->MacAddress, ETH_ALEN))
++		{
++			struct wlan_network* ibss_wlan = NULL;
++			_irqL	irqL;
++			
++			_rtw_memcpy(pmlmepriv->cur_network.network.IEs, pnetwork->IEs, 8);
++			_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			ibss_wlan = rtw_find_network(&pmlmepriv->scanned_queue,  pnetwork->MacAddress);
++			if(ibss_wlan)
++			{
++				_rtw_memcpy(ibss_wlan->network.IEs , pnetwork->IEs, 8);			
++				_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);		
++				goto exit;
++			}
++			_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		}
++	}
++
++	// lock pmlmepriv->lock when you accessing network_q
++	if ((check_fwstate(pmlmepriv, _FW_UNDER_LINKING)) == _FALSE)
++	{		
++   	        if( pnetwork->Ssid.Ssid[0] == 0 )
++		{
++			pnetwork->Ssid.SsidLength = 0;
++		}	
++		rtw_add_network(adapter, pnetwork);
++	}	
++
++exit:	
++		
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++_func_exit_;		
++
++	return;	
++}
++
++
++
++void rtw_surveydone_event_callback(_adapter	*adapter, u8 *pbuf)
++{
++	_irqL  irqL;
++	u8 timer_cancelled = _FALSE;
++	struct	mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++	
++#ifdef CONFIG_MLME_EXT	
++
++	mlmeext_surveydone_event_callback(adapter);
++
++#endif
++
++_func_enter_;			
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	if(pmlmepriv->wps_probe_req_ie)
++	{
++		u32 free_len = pmlmepriv->wps_probe_req_ie_len;
++		pmlmepriv->wps_probe_req_ie_len = 0;
++		rtw_mfree(pmlmepriv->wps_probe_req_ie, free_len);
++		pmlmepriv->wps_probe_req_ie = NULL;			
++	}
++	
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("rtw_surveydone_event_callback: fw_state:%x\n\n", get_fwstate(pmlmepriv)));
++	
++	if (check_fwstate(pmlmepriv,_FW_UNDER_SURVEY))
++	{
++		//u8 timer_cancelled;
++
++		timer_cancelled = _TRUE;
++		//_cancel_timer(&pmlmepriv->scan_to_timer, &timer_cancelled);
++		
++		_clr_fwstate_(pmlmepriv, _FW_UNDER_SURVEY);
++	}
++	else {
++	
++		RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("nic status =%x, survey done event comes too late!\n", get_fwstate(pmlmepriv)));	
++	}
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++	if(timer_cancelled)
++		_cancel_timer(&pmlmepriv->scan_to_timer, &timer_cancelled);
++
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	rtw_set_signal_stat_timer(&adapter->recvpriv);
++	#endif
++
++	if(pmlmepriv->to_join == _TRUE)
++	{
++		if((check_fwstate(pmlmepriv, WIFI_ADHOC_STATE)==_TRUE) )
++		{
++			if(check_fwstate(pmlmepriv, _FW_LINKED)==_FALSE)
++			{
++				set_fwstate(pmlmepriv, _FW_UNDER_LINKING);	
++				
++		   		if(rtw_select_and_join_from_scanned_queue(pmlmepriv)==_SUCCESS)
++		   		{
++		       			_set_timer(&pmlmepriv->assoc_timer, MAX_JOIN_TIMEOUT );	 
++                  		}
++		   		else	
++		  		{
++					WLAN_BSSID_EX    *pdev_network = &(adapter->registrypriv.dev_network); 			
++					u8 *pibss = adapter->registrypriv.dev_network.MacAddress;
++
++					//pmlmepriv->fw_state ^= _FW_UNDER_SURVEY;//because don't set assoc_timer
++					_clr_fwstate_(pmlmepriv, _FW_UNDER_SURVEY);
++
++					RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("switching to adhoc master\n"));
++				
++					_rtw_memset(&pdev_network->Ssid, 0, sizeof(NDIS_802_11_SSID));
++					_rtw_memcpy(&pdev_network->Ssid, &pmlmepriv->assoc_ssid, sizeof(NDIS_802_11_SSID));
++	
++					rtw_update_registrypriv_dev_network(adapter);
++					rtw_generate_random_ibss(pibss);
++
++                       			pmlmepriv->fw_state = WIFI_ADHOC_MASTER_STATE;
++			
++					if(rtw_createbss_cmd(adapter)!=_SUCCESS)
++					{
++	                     		RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("Error=>rtw_createbss_cmd status FAIL\n"));						
++					}	
++
++			     		pmlmepriv->to_join = _FALSE;
++		   		}
++		 	}
++		}
++		else
++		{
++			int s_ret;
++			set_fwstate(pmlmepriv, _FW_UNDER_LINKING);
++			pmlmepriv->to_join = _FALSE;
++			if(_SUCCESS == (s_ret=rtw_select_and_join_from_scanned_queue(pmlmepriv)))
++			{
++	     		     _set_timer(&pmlmepriv->assoc_timer, MAX_JOIN_TIMEOUT);	 
++			}
++			else if(s_ret == 2)//there is no need to wait for join
++			{
++				_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++				rtw_indicate_connect(adapter);
++			}
++			else
++			{
++				DBG_871X("try_to_join, but select scanning queue fail, to_roaming:%d\n", rtw_to_roaming(adapter));
++				#ifdef CONFIG_LAYER2_ROAMING
++				if (rtw_to_roaming(adapter) != 0) {
++					if( --pmlmepriv->to_roaming == 0
++						|| _SUCCESS != rtw_sitesurvey_cmd(adapter, &pmlmepriv->assoc_ssid, 1, NULL, 0)
++					) {
++						rtw_set_roaming(adapter, 0);
++#ifdef CONFIG_INTEL_WIDI
++						if(adapter->mlmepriv.widi_state == INTEL_WIDI_STATE_ROAMING)
++						{
++							_rtw_memset(pmlmepriv->sa_ext, 0x00, L2SDTA_SERVICE_VE_LEN);
++							intel_widi_wk_cmd(adapter, INTEL_WIDI_LISTEN_WK, NULL);
++							DBG_871X("change to widi listen\n");
++						}
++#endif // CONFIG_INTEL_WIDI
++						rtw_free_assoc_resources(adapter, 1);
++						rtw_indicate_disconnect(adapter);
++					} else {
++						pmlmepriv->to_join = _TRUE;
++					}
++				}
++				#endif
++				_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++			}
++		}
++	}
++
++	indicate_wx_scan_complete_event(adapter);
++	//DBG_871X("scan complete in %dms\n",rtw_get_passing_time_ms(pmlmepriv->scan_start_time));
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++#ifdef CONFIG_P2P_PS
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++		p2p_ps_wk_cmd(adapter, P2P_PS_SCAN_DONE, 0);
++	}
++#endif // CONFIG_P2P_PS
++
++	rtw_os_xmit_schedule(adapter);
++#ifdef CONFIG_CONCURRENT_MODE
++	rtw_os_xmit_schedule(adapter->pbuddy_adapter);
++#endif
++#ifdef CONFIG_DUALMAC_CONCURRENT
++	dc_resume_xmit(adapter);
++#endif
++
++#ifdef CONFIG_DRVEXT_MODULE_WSC
++	drvext_surveydone_callback(&adapter->drvextpriv);
++#endif
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++#ifdef CONFIG_INTEL_WIDI
++	if (adapter->mlmepriv.widi_state == INTEL_WIDI_STATE_NONE)
++#endif
++	{
++		struct mlme_ext_priv *pmlmeext = &adapter->mlmeextpriv;		
++		if(pmlmeext->sitesurvey_res.bss_cnt == 0){
++			rtw_hal_sreset_reset(adapter);
++		}
++	}
++#endif
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_cfg80211_surveydone_event_callback(adapter);
++#endif //CONFIG_IOCTL_CFG80211
++
++_func_exit_;	
++
++}
++
++void rtw_dummy_event_callback(_adapter *adapter , u8 *pbuf)
++{
++
++}
++
++void rtw_fwdbg_event_callback(_adapter *adapter , u8 *pbuf)
++{
++
++}
++
++static void free_scanqueue(struct	mlme_priv *pmlmepriv)
++{
++	_irqL irqL, irqL0;
++	_queue *free_queue = &pmlmepriv->free_bss_pool;
++	_queue *scan_queue = &pmlmepriv->scanned_queue;
++	_list	*plist, *phead, *ptemp;
++	
++_func_enter_;		
++	
++	RT_TRACE(_module_rtl871x_mlme_c_, _drv_notice_, ("+free_scanqueue\n"));
++	_enter_critical_bh(&scan_queue->lock, &irqL0);
++	_enter_critical_bh(&free_queue->lock, &irqL);
++
++	phead = get_list_head(scan_queue);
++	plist = get_next(phead);
++
++	while (plist != phead)
++       {
++		ptemp = get_next(plist);
++		rtw_list_delete(plist);
++		rtw_list_insert_tail(plist, &free_queue->queue);
++		plist =ptemp;
++		pmlmepriv->num_of_scanned --;
++        }
++	
++	_exit_critical_bh(&free_queue->lock, &irqL);
++	_exit_critical_bh(&scan_queue->lock, &irqL0);
++	
++_func_exit_;
++}
++	
++/*
++*rtw_free_assoc_resources: the caller has to lock pmlmepriv->lock
++*/
++void rtw_free_assoc_resources(_adapter *adapter, int lock_scanned_queue)
++{
++	_irqL irqL;
++	struct wlan_network* pwlan = NULL;
++     	struct	mlme_priv *pmlmepriv = &adapter->mlmepriv;
++   	struct	sta_priv *pstapriv = &adapter->stapriv;
++	struct wlan_network *tgt_network = &pmlmepriv->cur_network;
++	
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &adapter->tdlsinfo;
++#endif //CONFIG_TDLS	
++_func_enter_;			
++
++	RT_TRACE(_module_rtl871x_mlme_c_, _drv_notice_, ("+rtw_free_assoc_resources\n"));
++	RT_TRACE(_module_rtl871x_mlme_c_, _drv_info_, ("tgt_network->network.MacAddress="MAC_FMT" ssid=%s\n",
++		MAC_ARG(tgt_network->network.MacAddress), tgt_network->network.Ssid.Ssid));
++
++	if(check_fwstate( pmlmepriv, WIFI_STATION_STATE|WIFI_AP_STATE))
++	{
++		struct sta_info* psta;
++		
++		psta = rtw_get_stainfo(&adapter->stapriv, tgt_network->network.MacAddress);
++
++#ifdef CONFIG_TDLS
++		if(ptdlsinfo->setup_state != TDLS_STATE_NONE)
++		{
++			rtw_tdls_cmd(adapter, myid(&(adapter->eeprompriv)), TDLS_RS_RCR);
++			rtw_reset_tdls_info(adapter);
++			rtw_free_all_stainfo(adapter);
++			_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);
++		}
++		else
++#endif //CONFIG_TDLS
++		{
++			_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);
++			rtw_free_stainfo(adapter,  psta);
++		}
++
++		_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);
++		
++	}
++
++	if(check_fwstate( pmlmepriv, WIFI_ADHOC_STATE|WIFI_ADHOC_MASTER_STATE|WIFI_AP_STATE))
++	{
++		struct sta_info* psta;
++	
++		rtw_free_all_stainfo(adapter);
++
++		psta = rtw_get_bcmc_stainfo(adapter);
++		_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		
++		rtw_free_stainfo(adapter, psta);
++		_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		
++
++		rtw_init_bcmc_stainfo(adapter);	
++	}
++
++	if(lock_scanned_queue)
++		_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++	
++	pwlan = rtw_find_network(&pmlmepriv->scanned_queue, tgt_network->network.MacAddress);
++	if(pwlan)
++	{
++		pwlan->fixed = _FALSE;
++#ifdef CONFIG_P2P
++		if(!rtw_p2p_chk_state(&adapter->wdinfo, P2P_STATE_NONE))
++		{
++			u32 p2p_ielen=0;
++			u8  *p2p_ie;
++			//u16 capability;
++			u8 *pcap = NULL;
++			u32 capability_len=0;
++
++			//DBG_871X("free disconnecting network\n");
++			//rtw_free_network_nolock(pmlmepriv, pwlan);
++
++			if((p2p_ie=rtw_get_p2p_ie(pwlan->network.IEs+_FIXED_IE_LENGTH_, pwlan->network.IELength-_FIXED_IE_LENGTH_, NULL, &p2p_ielen)))
++			{
++				pcap = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CAPABILITY, NULL, &capability_len);
++				if(pcap && capability_len==2)
++				{
++					u16 cap = *(u16*)pcap ;
++					*(u16*)pcap = cap&0x00ff;//clear group capability when free this network
++				}
++			}
++
++			rtw_set_scan_deny(adapter, 2000);
++			//rtw_clear_scan_deny(adapter);
++		}
++#endif //CONFIG_P2P
++	}
++	else
++	{
++		RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("rtw_free_assoc_resources : pwlan== NULL \n\n"));
++	}
++
++
++	if((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) && (adapter->stapriv.asoc_sta_count== 1))
++		/*||check_fwstate(pmlmepriv, WIFI_STATION_STATE)*/)
++	{
++		rtw_free_network_nolock(pmlmepriv, pwlan);
++	}
++
++	if(lock_scanned_queue)
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++	
++	adapter->securitypriv.key_mask = 0;
++
++_func_exit_;
++	
++}
++
++/*
++*rtw_indicate_connect: the caller has to lock pmlmepriv->lock
++*/
++void rtw_indicate_connect(_adapter *padapter)
++{
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	
++_func_enter_;
++
++	RT_TRACE(_module_rtl871x_mlme_c_, _drv_err_, ("+rtw_indicate_connect\n"));
++ 
++	pmlmepriv->to_join = _FALSE;
++
++	if(!check_fwstate(&padapter->mlmepriv, _FW_LINKED)) 
++	{
++
++#ifdef CONFIG_SW_ANTENNA_DIVERSITY
++	rtw_hal_set_hwreg(padapter, HW_VAR_ANTENNA_DIVERSITY_LINK, 0);
++#endif
++	set_fwstate(pmlmepriv, _FW_LINKED);
++
++	rtw_led_control(padapter, LED_CTL_LINK);
++
++#ifdef CONFIG_DRVEXT_MODULE
++	if(padapter->drvextpriv.enable_wpa)
++	{
++		indicate_l2_connect(padapter);
++	}
++	else
++#endif
++	{
++		rtw_os_indicate_connect(padapter);
++	}
++
++	}
++
++	rtw_set_roaming(padapter, 0);
++
++#ifdef CONFIG_INTEL_WIDI
++	if(padapter->mlmepriv.widi_state == INTEL_WIDI_STATE_ROAMING)
++	{
++		_rtw_memset(pmlmepriv->sa_ext, 0x00, L2SDTA_SERVICE_VE_LEN);
++		intel_widi_wk_cmd(padapter, INTEL_WIDI_LISTEN_WK, NULL);
++		DBG_871X("change to widi listen\n");
++	}
++#endif // CONFIG_INTEL_WIDI
++
++	rtw_set_scan_deny(padapter, 3000);
++
++	RT_TRACE(_module_rtl871x_mlme_c_, _drv_err_, ("-rtw_indicate_connect: fw_state=0x%08x\n", get_fwstate(pmlmepriv)));
++ 
++_func_exit_;
++
++}
++
++
++/*
++*rtw_indicate_disconnect: the caller has to lock pmlmepriv->lock
++*/
++void rtw_indicate_disconnect( _adapter *padapter )
++{
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;	
++
++_func_enter_;	
++	
++	RT_TRACE(_module_rtl871x_mlme_c_, _drv_err_, ("+rtw_indicate_disconnect\n"));
++
++	_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING|WIFI_UNDER_WPS);
++
++	if(rtw_to_roaming(padapter) > 0)
++		_clr_fwstate_(pmlmepriv, _FW_LINKED);
++
++	if(check_fwstate(&padapter->mlmepriv, _FW_LINKED) 
++		|| (rtw_to_roaming(padapter) <= 0)
++	)
++	{
++		rtw_os_indicate_disconnect(padapter);
++
++		//set ips_deny_time to avoid enter IPS before LPS leave
++		padapter->pwrctrlpriv.ips_deny_time = rtw_get_current_time() + rtw_ms_to_systime(3000);
++
++	      _clr_fwstate_(pmlmepriv, _FW_LINKED);
++
++		rtw_led_control(padapter, LED_CTL_NO_LINK);
++
++		rtw_clear_scan_deny(padapter);
++
++	}
++
++#ifdef CONFIG_P2P_PS
++	p2p_ps_wk_cmd(padapter, P2P_PS_DISABLE, 1);
++#endif // CONFIG_P2P_PS
++
++#ifdef CONFIG_LPS
++#ifdef CONFIG_WOWLAN
++	if(padapter->pwrctrlpriv.wowlan_mode==_FALSE)
++#endif //CONFIG_WOWLAN
++	rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_DISCONNECT, 1);
++
++#endif
++
++_func_exit_;	
++}
++
++inline void rtw_indicate_scan_done( _adapter *padapter, bool aborted)
++{
++	rtw_os_indicate_scan_done(padapter, aborted);
++}
++
++void rtw_scan_abort(_adapter *adapter)
++{
++	u32 cnt=0;
++	u32 start;
++	struct mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(adapter->mlmeextpriv);
++
++	start = rtw_get_current_time();
++	pmlmeext->scan_abort = _TRUE;
++	while (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY)
++		&& rtw_get_passing_time_ms(start) <= 200) {
++
++		if (adapter->bDriverStopped || adapter->bSurpriseRemoved)
++			break;
++
++		DBG_871X(FUNC_NDEV_FMT"fw_state=_FW_UNDER_SURVEY!\n", FUNC_NDEV_ARG(adapter->pnetdev));
++		rtw_msleep_os(20);
++	}
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY)) {
++		if (!adapter->bDriverStopped && !adapter->bSurpriseRemoved)
++			DBG_871X(FUNC_NDEV_FMT"waiting for scan_abort time out!\n", FUNC_NDEV_ARG(adapter->pnetdev));
++		#ifdef CONFIG_PLATFORM_MSTAR
++		//_clr_fwstate_(pmlmepriv, _FW_UNDER_SURVEY);
++		set_survey_timer(pmlmeext, 0);
++		_set_timer(&pmlmepriv->scan_to_timer, 50);
++		#endif
++		rtw_indicate_scan_done(adapter, _TRUE);
++	}
++	pmlmeext->scan_abort = _FALSE;
++}
++
++static struct sta_info *rtw_joinbss_update_stainfo(_adapter *padapter, struct wlan_network *pnetwork)
++{
++	int i;
++	struct sta_info *bmc_sta, *psta=NULL;
++	struct recv_reorder_ctrl *preorder_ctrl;
++	struct sta_priv *pstapriv = &padapter->stapriv;	
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	psta = rtw_get_stainfo(pstapriv, pnetwork->network.MacAddress);
++	if(psta==NULL) {
++		psta = rtw_alloc_stainfo(pstapriv, pnetwork->network.MacAddress);
++	}
++
++	if(psta) //update ptarget_sta
++	{
++		DBG_871X("%s\n", __FUNCTION__);
++	
++		psta->aid  = pnetwork->join_res;
++#ifdef CONFIG_CONCURRENT_MODE	
++
++		if(PRIMARY_ADAPTER == padapter->adapter_type)
++			psta->mac_id=0;
++		else
++			psta->mac_id=2;
++#else
++		psta->mac_id=0;
++#endif
++
++		psta->raid = networktype_to_raid(pmlmeext->cur_wireless_mode);
++
++		//security related
++		if(padapter->securitypriv.dot11AuthAlgrthm== dot11AuthAlgrthm_8021X)
++		{						
++			padapter->securitypriv.binstallGrpkey=_FALSE;
++			padapter->securitypriv.busetkipkey=_FALSE;						
++			padapter->securitypriv.bgrpkey_handshake=_FALSE;
++
++			psta->ieee8021x_blocked=_TRUE;
++			psta->dot118021XPrivacy=padapter->securitypriv.dot11PrivacyAlgrthm;
++						
++			_rtw_memset((u8 *)&psta->dot118021x_UncstKey, 0, sizeof (union Keytype));
++						
++			_rtw_memset((u8 *)&psta->dot11tkiprxmickey, 0, sizeof (union Keytype));
++			_rtw_memset((u8 *)&psta->dot11tkiptxmickey, 0, sizeof (union Keytype));
++						
++			_rtw_memset((u8 *)&psta->dot11txpn, 0, sizeof (union pn48));
++#ifdef CONFIG_IEEE80211W
++			_rtw_memset((u8 *)&psta->dot11wtxpn, 0, sizeof (union pn48));
++#endif //CONFIG_IEEE80211W
++			_rtw_memset((u8 *)&psta->dot11rxpn, 0, sizeof (union pn48));	
++		}
++
++		//	Commented by Albert 2012/07/21
++		//	When doing the WPS, the wps_ie_len won't equal to 0
++		//	And the Wi-Fi driver shouldn't allow the data packet to be tramsmitted.
++		if ( padapter->securitypriv.wps_ie_len != 0 )
++		{
++			psta->ieee8021x_blocked=_TRUE;
++			padapter->securitypriv.wps_ie_len = 0;
++		}
++
++
++		//for A-MPDU Rx reordering buffer control for bmc_sta & sta_info
++		//if A-MPDU Rx is enabled, reseting  rx_ordering_ctrl wstart_b(indicate_seq) to default value=0xffff
++		//todo: check if AP can send A-MPDU packets
++		for(i=0; i < 16 ; i++)
++		{
++			//preorder_ctrl = &precvpriv->recvreorder_ctrl[i];
++			preorder_ctrl = &psta->recvreorder_ctrl[i];
++			preorder_ctrl->enable = _FALSE;
++			preorder_ctrl->indicate_seq = 0xffff;
++			#ifdef DBG_RX_SEQ
++			DBG_871X("DBG_RX_SEQ %s:%d indicate_seq:%u \n", __FUNCTION__, __LINE__,
++				preorder_ctrl->indicate_seq);
++			#endif
++			preorder_ctrl->wend_b= 0xffff;
++			preorder_ctrl->wsize_b = 64;//max_ampdu_sz;//ex. 32(kbytes) -> wsize_b=32
++		}
++
++		
++		bmc_sta = rtw_get_bcmc_stainfo(padapter);
++		if(bmc_sta)
++		{
++			for(i=0; i < 16 ; i++)
++			{
++				//preorder_ctrl = &precvpriv->recvreorder_ctrl[i];
++				preorder_ctrl = &bmc_sta->recvreorder_ctrl[i];
++				preorder_ctrl->enable = _FALSE;
++				preorder_ctrl->indicate_seq = 0xffff;
++				#ifdef DBG_RX_SEQ
++				DBG_871X("DBG_RX_SEQ %s:%d indicate_seq:%u \n", __FUNCTION__, __LINE__,
++					preorder_ctrl->indicate_seq);
++				#endif
++				preorder_ctrl->wend_b= 0xffff;
++				preorder_ctrl->wsize_b = 64;//max_ampdu_sz;//ex. 32(kbytes) -> wsize_b=32
++			}
++		}
++
++	
++		//misc.
++		update_sta_info(padapter, psta);
++		
++	}
++					
++	return psta;
++	
++}
++
++//pnetwork : returns from rtw_joinbss_event_callback
++//ptarget_wlan: found from scanned_queue
++static void rtw_joinbss_update_network(_adapter *padapter, struct wlan_network *ptarget_wlan, struct wlan_network  *pnetwork)
++{
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);	
++	struct wlan_network  *cur_network = &(pmlmepriv->cur_network);
++
++	DBG_871X("%s\n", __FUNCTION__);
++	
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("\nfw_state:%x, BSSID:"MAC_FMT"\n"
++		,get_fwstate(pmlmepriv), MAC_ARG(pnetwork->network.MacAddress)));
++
++				
++	// why not use ptarget_wlan??
++	_rtw_memcpy(&cur_network->network, &pnetwork->network, pnetwork->network.Length);
++
++	cur_network->aid = pnetwork->join_res;
++
++				
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	rtw_set_signal_stat_timer(&padapter->recvpriv);
++#endif
++	padapter->recvpriv.signal_strength = ptarget_wlan->network.PhyInfo.SignalStrength;
++	padapter->recvpriv.signal_qual = ptarget_wlan->network.PhyInfo.SignalQuality;
++	//the ptarget_wlan->network.Rssi is raw data, we use ptarget_wlan->network.PhyInfo.SignalStrength instead (has scaled)
++	padapter->recvpriv.rssi = translate_percentage_to_dbm(ptarget_wlan->network.PhyInfo.SignalStrength);
++	#if defined(DBG_RX_SIGNAL_DISPLAY_PROCESSING) && 1
++		DBG_871X(FUNC_ADPT_FMT" signal_strength:%3u, rssi:%3d, signal_qual:%3u"
++			"\n"
++			, FUNC_ADPT_ARG(padapter)
++			, padapter->recvpriv.signal_strength
++			, padapter->recvpriv.rssi
++			, padapter->recvpriv.signal_qual
++	);
++	#endif
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	rtw_set_signal_stat_timer(&padapter->recvpriv);
++#endif
++				
++	//update fw_state //will clr _FW_UNDER_LINKING here indirectly
++	switch(pnetwork->network.InfrastructureMode)
++	{	
++		case Ndis802_11Infrastructure:						
++			
++				if(pmlmepriv->fw_state&WIFI_UNDER_WPS)
++					pmlmepriv->fw_state = WIFI_STATION_STATE|WIFI_UNDER_WPS;
++				else
++					pmlmepriv->fw_state = WIFI_STATION_STATE;
++				
++				break;
++		case Ndis802_11IBSS:		
++				pmlmepriv->fw_state = WIFI_ADHOC_STATE;
++				break;
++		default:
++				pmlmepriv->fw_state = WIFI_NULL_STATE;
++				RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("Invalid network_mode\n"));
++				break;
++	}
++
++	rtw_update_protection(padapter, (cur_network->network.IEs) + sizeof (NDIS_802_11_FIXED_IEs), 
++									(cur_network->network.IELength));
++			
++#ifdef CONFIG_80211N_HT			
++	rtw_update_ht_cap(padapter, cur_network->network.IEs, cur_network->network.IELength, (u8) cur_network->network.Configuration.DSConfig);
++#endif
++
++
++}
++
++//Notes: the fucntion could be > passive_level (the same context as Rx tasklet)
++//pnetwork : returns from rtw_joinbss_event_callback
++//ptarget_wlan: found from scanned_queue
++//if join_res > 0, for (fw_state==WIFI_STATION_STATE), we check if  "ptarget_sta" & "ptarget_wlan" exist.	
++//if join_res > 0, for (fw_state==WIFI_ADHOC_STATE), we only check if "ptarget_wlan" exist.
++//if join_res > 0, update "cur_network->network" from "pnetwork->network" if (ptarget_wlan !=NULL).
++//
++//#define REJOIN
++void rtw_joinbss_event_prehandle(_adapter *adapter, u8 *pbuf)
++{
++	_irqL irqL,irqL2;
++	static u8 retry=0;
++	u8 timer_cancelled;
++	struct sta_info *ptarget_sta= NULL, *pcur_sta = NULL;
++   	struct	sta_priv *pstapriv = &adapter->stapriv;
++	struct	mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++	struct wlan_network 	*pnetwork	= (struct wlan_network *)pbuf;
++	struct wlan_network 	*cur_network = &(pmlmepriv->cur_network);
++	struct wlan_network	*pcur_wlan = NULL, *ptarget_wlan = NULL;
++	unsigned int 		the_same_macaddr = _FALSE;	
++
++_func_enter_;	
++
++#ifdef CONFIG_RTL8712
++       //endian_convert
++	pnetwork->join_res = le32_to_cpu(pnetwork->join_res);
++	pnetwork->network_type = le32_to_cpu(pnetwork->network_type);
++	pnetwork->network.Length = le32_to_cpu(pnetwork->network.Length);
++	pnetwork->network.Ssid.SsidLength = le32_to_cpu(pnetwork->network.Ssid.SsidLength);
++	pnetwork->network.Privacy =le32_to_cpu( pnetwork->network.Privacy);
++	pnetwork->network.Rssi = le32_to_cpu(pnetwork->network.Rssi);
++	pnetwork->network.NetworkTypeInUse =le32_to_cpu(pnetwork->network.NetworkTypeInUse) ;	
++	pnetwork->network.Configuration.ATIMWindow = le32_to_cpu(pnetwork->network.Configuration.ATIMWindow);
++	pnetwork->network.Configuration.BeaconPeriod = le32_to_cpu(pnetwork->network.Configuration.BeaconPeriod);
++	pnetwork->network.Configuration.DSConfig = le32_to_cpu(pnetwork->network.Configuration.DSConfig);
++	pnetwork->network.Configuration.FHConfig.DwellTime=le32_to_cpu(pnetwork->network.Configuration.FHConfig.DwellTime);
++	pnetwork->network.Configuration.FHConfig.HopPattern=le32_to_cpu(pnetwork->network.Configuration.FHConfig.HopPattern);
++	pnetwork->network.Configuration.FHConfig.HopSet=le32_to_cpu(pnetwork->network.Configuration.FHConfig.HopSet);
++	pnetwork->network.Configuration.FHConfig.Length=le32_to_cpu(pnetwork->network.Configuration.FHConfig.Length);	
++	pnetwork->network.Configuration.Length = le32_to_cpu(pnetwork->network.Configuration.Length);
++	pnetwork->network.InfrastructureMode = le32_to_cpu(pnetwork->network.InfrastructureMode);
++	pnetwork->network.IELength = le32_to_cpu(pnetwork->network.IELength );
++#endif
++
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("joinbss event call back received with res=%d\n", pnetwork->join_res));
++
++	rtw_get_encrypt_decrypt_from_registrypriv(adapter);
++	
++
++	if (pmlmepriv->assoc_ssid.SsidLength == 0)
++	{
++		RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("@@@@@   joinbss event call back  for Any SSid\n"));		
++	}
++	else
++	{
++		RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("@@@@@   rtw_joinbss_event_callback for SSid:%s\n", pmlmepriv->assoc_ssid.Ssid));
++	}
++	
++	the_same_macaddr = _rtw_memcmp(pnetwork->network.MacAddress, cur_network->network.MacAddress, ETH_ALEN);
++
++	pnetwork->network.Length = get_WLAN_BSSID_EX_sz(&pnetwork->network);
++	if(pnetwork->network.Length > sizeof(WLAN_BSSID_EX))
++	{
++		RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("\n\n ***joinbss_evt_callback return a wrong bss ***\n\n"));
++		goto ignore_joinbss_callback;
++	}
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("\n rtw_joinbss_event_callback !! _enter_critical \n"));
++
++	if(pnetwork->join_res > 0)
++	{
++		_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		retry = 0;
++		if (check_fwstate(pmlmepriv,_FW_UNDER_LINKING) )
++		{
++			//s1. find ptarget_wlan
++			if(check_fwstate(pmlmepriv, _FW_LINKED) )
++			{
++				if(the_same_macaddr == _TRUE)
++				{
++					ptarget_wlan = rtw_find_network(&pmlmepriv->scanned_queue, cur_network->network.MacAddress);					
++				}
++				else
++				{
++					pcur_wlan = rtw_find_network(&pmlmepriv->scanned_queue, cur_network->network.MacAddress);
++					if(pcur_wlan)	pcur_wlan->fixed = _FALSE;
++
++					pcur_sta = rtw_get_stainfo(pstapriv, cur_network->network.MacAddress);
++					if(pcur_sta){
++						_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL2);
++						rtw_free_stainfo(adapter,  pcur_sta);
++						_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL2);
++					}
++
++					ptarget_wlan = rtw_find_network(&pmlmepriv->scanned_queue, pnetwork->network.MacAddress);
++					if(check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE){
++						if(ptarget_wlan)	ptarget_wlan->fixed = _TRUE;			
++					}
++				}
++
++			}
++			else
++			{
++				ptarget_wlan = rtw_find_network(&pmlmepriv->scanned_queue, pnetwork->network.MacAddress);
++				if(check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE){
++					if(ptarget_wlan)	ptarget_wlan->fixed = _TRUE;			
++				}
++			}
++		
++			//s2. update cur_network 
++			if(ptarget_wlan)
++			{			
++				rtw_joinbss_update_network(adapter, ptarget_wlan, pnetwork);
++			}
++			else
++			{
++				RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("Can't find ptarget_wlan when joinbss_event callback\n"));
++				_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++				goto ignore_joinbss_callback;
++			}
++			
++			
++			//s3. find ptarget_sta & update ptarget_sta after update cur_network only for station mode 
++			if(check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++			{
++				ptarget_sta = rtw_joinbss_update_stainfo(adapter, pnetwork);
++				if(ptarget_sta==NULL)
++				{
++					RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("Can't update stainfo when joinbss_event callback\n"));
++					_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++					goto ignore_joinbss_callback;
++				}
++			}	
++					
++			//s4. indicate connect			
++			if(check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++			{
++				rtw_indicate_connect(adapter);
++			}
++			else
++			{
++				//adhoc mode will rtw_indicate_connect when rtw_stassoc_event_callback
++				RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("adhoc mode, fw_state:%x", get_fwstate(pmlmepriv)));
++			}
++
++
++			//s5. Cancle assoc_timer					
++			_cancel_timer(&pmlmepriv->assoc_timer, &timer_cancelled);
++			
++			RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("Cancle assoc_timer\n"));
++				
++		}
++		else
++		{
++			RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("rtw_joinbss_event_callback err: fw_state:%x", get_fwstate(pmlmepriv)));	
++			_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			goto ignore_joinbss_callback;
++		}
++		
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++				
++	}
++	else if(pnetwork->join_res == -4) 
++	{
++		rtw_reset_securitypriv(adapter);
++		_set_timer(&pmlmepriv->assoc_timer, 1);					
++
++		//rtw_free_assoc_resources(adapter, 1);
++
++		if((check_fwstate(pmlmepriv, _FW_UNDER_LINKING)) == _TRUE)
++		{		
++			RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("fail! clear _FW_UNDER_LINKING ^^^fw_state=%x\n", get_fwstate(pmlmepriv)));
++			_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++		}	
++		
++	}
++	else //if join_res < 0 (join fails), then try again
++	{
++	
++		#ifdef REJOIN
++		res = _FAIL;
++		if(retry < 2) {
++			res = rtw_select_and_join_from_scanned_queue(pmlmepriv);
++			RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("rtw_select_and_join_from_scanned_queue again! res:%d\n",res));
++		}
++
++		 if(res == _SUCCESS)
++		{
++			//extend time of assoc_timer
++			_set_timer(&pmlmepriv->assoc_timer, MAX_JOIN_TIMEOUT);
++			retry++;
++		}
++		else if(res == 2)//there is no need to wait for join
++		{
++			_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++			rtw_indicate_connect(adapter);
++		}	
++		else
++		{
++			RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("Set Assoc_Timer = 1; can't find match ssid in scanned_q \n"));
++		#endif
++			
++			_set_timer(&pmlmepriv->assoc_timer, 1);
++			//rtw_free_assoc_resources(adapter, 1);
++			_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++			
++		#ifdef REJOIN
++			retry = 0;	
++		}
++		#endif
++	}
++
++ignore_joinbss_callback:
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++	_func_exit_;	
++}
++
++void rtw_joinbss_event_callback(_adapter *adapter, u8 *pbuf)
++{
++	struct wlan_network 	*pnetwork	= (struct wlan_network *)pbuf;
++
++_func_enter_;
++
++	mlmeext_joinbss_event_callback(adapter, pnetwork->join_res);
++
++	rtw_os_xmit_schedule(adapter);
++
++#ifdef CONFIG_CONCURRENT_MODE	
++	rtw_os_xmit_schedule(adapter->pbuddy_adapter);
++#endif
++
++#ifdef CONFIG_DUALMAC_CONCURRENT
++	dc_resume_xmit(adapter);
++#endif
++
++_func_exit_;
++}
++
++void rtw_stassoc_event_callback(_adapter *adapter, u8 *pbuf)
++{
++	_irqL irqL;	
++	struct sta_info *psta;
++	struct mlme_priv *pmlmepriv = &(adapter->mlmepriv);
++	struct stassoc_event	*pstassoc	= (struct stassoc_event*)pbuf;
++	struct wlan_network 	*cur_network = &(pmlmepriv->cur_network);
++	struct wlan_network	*ptarget_wlan = NULL;
++
++_func_enter_;	
++	
++	if(rtw_access_ctrl(adapter, pstassoc->macaddr) == _FALSE)
++		return;
++
++#if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE))
++	{
++		psta = rtw_get_stainfo(&adapter->stapriv, pstassoc->macaddr);	
++		if(psta)
++		{
++#ifdef CONFIG_IOCTL_CFG80211
++#ifdef COMPAT_KERNEL_RELEASE
++
++#elif (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,37)) || defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++			u8 *passoc_req = NULL;
++			u32 assoc_req_len;
++
++			_enter_critical_bh(&psta->lock, &irqL);
++			if(psta->passoc_req && psta->assoc_req_len>0)
++			{				
++				passoc_req = rtw_zmalloc(psta->assoc_req_len);
++				if(passoc_req)
++				{
++					assoc_req_len = psta->assoc_req_len;
++					_rtw_memcpy(passoc_req, psta->passoc_req, assoc_req_len);
++					
++					rtw_mfree(psta->passoc_req , psta->assoc_req_len);
++					psta->passoc_req = NULL;
++					psta->assoc_req_len = 0;
++				}
++			}			
++			_exit_critical_bh(&psta->lock, &irqL);
++
++			if(passoc_req && assoc_req_len>0)
++			{
++				rtw_cfg80211_indicate_sta_assoc(adapter, passoc_req, assoc_req_len);
++
++				rtw_mfree(passoc_req, assoc_req_len);
++			}
++#endif //(LINUX_VERSION_CODE < KERNEL_VERSION(2,6,37)) || defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++#endif //CONFIG_IOCTL_CFG80211	
++
++			//bss_cap_update_on_sta_join(adapter, psta);
++			//sta_info_update(adapter, psta);
++			ap_sta_info_defer_update(adapter, psta);
++		}	
++		
++		goto exit;
++	}	
++#endif	
++
++	psta = rtw_get_stainfo(&adapter->stapriv, pstassoc->macaddr);	
++	if( psta != NULL)
++	{
++		//the sta have been in sta_info_queue => do nothing 
++		
++		RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("Error: rtw_stassoc_event_callback: sta has been in sta_hash_queue \n"));
++		
++		goto exit; //(between drv has received this event before and  fw have not yet to set key to CAM_ENTRY)
++	}
++
++	psta = rtw_alloc_stainfo(&adapter->stapriv, pstassoc->macaddr);	
++	if (psta == NULL) {
++		RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("Can't alloc sta_info when rtw_stassoc_event_callback\n"));
++		goto exit;
++	}	
++	
++	//to do : init sta_info variable
++	psta->qos_option = 0;
++	psta->mac_id = (uint)pstassoc->cam_id;
++	//psta->aid = (uint)pstassoc->cam_id;
++	
++	if(adapter->securitypriv.dot11AuthAlgrthm==dot11AuthAlgrthm_8021X)
++		psta->dot118021XPrivacy = adapter->securitypriv.dot11PrivacyAlgrthm;
++
++	psta->ieee8021x_blocked = _FALSE;		
++	
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	if ( (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE)==_TRUE ) || 
++		(check_fwstate(pmlmepriv, WIFI_ADHOC_STATE)==_TRUE ) )
++	{
++		if(adapter->stapriv.asoc_sta_count== 2)
++		{
++			_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			ptarget_wlan = rtw_find_network(&pmlmepriv->scanned_queue, cur_network->network.MacAddress);
++			if(ptarget_wlan)	ptarget_wlan->fixed = _TRUE;
++			_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			// a sta + bc/mc_stainfo (not Ibss_stainfo)
++			rtw_indicate_connect(adapter);
++		}
++	}
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++	mlmeext_sta_add_event_callback(adapter, psta);
++	
++#ifdef CONFIG_RTL8711
++	//submit SetStaKey_cmd to tell fw, fw will allocate an CAM entry for this sta	
++	rtw_setstakey_cmd(adapter, (unsigned char*)psta, _FALSE);
++#endif
++		
++exit:
++	
++_func_exit_;	
++
++}
++
++void rtw_stadel_event_callback(_adapter *adapter, u8 *pbuf)
++{
++	_irqL irqL,irqL2;	
++	struct sta_info *psta;
++	struct wlan_network* pwlan = NULL;
++	WLAN_BSSID_EX    *pdev_network=NULL;
++	u8* pibss = NULL;
++	struct	mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++	struct 	stadel_event *pstadel	= (struct stadel_event*)pbuf;
++   	struct	sta_priv *pstapriv = &adapter->stapriv;
++	struct wlan_network *tgt_network = &(pmlmepriv->cur_network);
++	
++_func_enter_;	
++
++        if(check_fwstate(pmlmepriv, WIFI_AP_STATE))
++        {
++#ifdef CONFIG_IOCTL_CFG80211
++#ifdef COMPAT_KERNEL_RELEASE
++
++#elif (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,37)) || defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++		rtw_cfg80211_indicate_sta_disassoc(adapter, pstadel->macaddr, *(u16*)pstadel->rsvd);
++#endif //(LINUX_VERSION_CODE < KERNEL_VERSION(2,6,37)) || defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++#endif //CONFIG_IOCTL_CFG80211
++
++		return;
++        }
++
++
++	mlmeext_sta_del_event_callback(adapter);
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL2);
++
++	if(check_fwstate(pmlmepriv, WIFI_STATION_STATE) )
++	{
++		#ifdef CONFIG_LAYER2_ROAMING
++		if (rtw_to_roaming(adapter) > 0)
++			pmlmepriv->to_roaming--; /* this stadel_event is caused by roaming, decrease to_roaming */
++		else if (rtw_to_roaming(adapter) == 0)
++			rtw_set_roaming(adapter, adapter->registrypriv.max_roaming_times);
++#ifdef CONFIG_INTEL_WIDI
++		if(adapter->mlmepriv.widi_state != INTEL_WIDI_STATE_CONNECTED)
++#endif // CONFIG_INTEL_WIDI
++		if(*((unsigned short *)(pstadel->rsvd)) != WLAN_REASON_EXPIRATION_CHK)
++			rtw_set_roaming(adapter, 0); /* don't roam */
++		#endif
++
++		rtw_free_uc_swdec_pending_queue(adapter);
++
++		rtw_free_assoc_resources(adapter, 1);
++		rtw_indicate_disconnect(adapter);
++		_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		// remove the network entry in scanned_queue
++		pwlan = rtw_find_network(&pmlmepriv->scanned_queue, tgt_network->network.MacAddress);	
++		if (pwlan) {			
++			pwlan->fixed = _FALSE;
++			rtw_free_network_nolock(pmlmepriv, pwlan);
++		}
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++		_rtw_roaming(adapter, tgt_network);
++		
++#ifdef CONFIG_INTEL_WIDI
++		if (!rtw_to_roaming(adapter))
++			process_intel_widi_disconnect(adapter, 1);
++#endif // CONFIG_INTEL_WIDI
++	}
++
++	if ( check_fwstate(pmlmepriv,WIFI_ADHOC_MASTER_STATE) || 
++	      check_fwstate(pmlmepriv,WIFI_ADHOC_STATE))
++	{
++		psta = rtw_get_stainfo(&adapter->stapriv, pstadel->macaddr);
++		
++		_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);
++		rtw_free_stainfo(adapter,  psta);
++		_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);
++		
++		if(adapter->stapriv.asoc_sta_count== 1) //a sta + bc/mc_stainfo (not Ibss_stainfo)
++		{ 
++			//rtw_indicate_disconnect(adapter);//removed@20091105
++			_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			//free old ibss network
++			//pwlan = rtw_find_network(&pmlmepriv->scanned_queue, pstadel->macaddr);
++			pwlan = rtw_find_network(&pmlmepriv->scanned_queue, tgt_network->network.MacAddress);
++			if(pwlan)	
++			{
++				pwlan->fixed = _FALSE;
++				rtw_free_network_nolock(pmlmepriv, pwlan); 
++			}
++			_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			//re-create ibss
++			pdev_network = &(adapter->registrypriv.dev_network);			
++			pibss = adapter->registrypriv.dev_network.MacAddress;
++
++			_rtw_memcpy(pdev_network, &tgt_network->network, get_WLAN_BSSID_EX_sz(&tgt_network->network));
++			
++			_rtw_memset(&pdev_network->Ssid, 0, sizeof(NDIS_802_11_SSID));
++			_rtw_memcpy(&pdev_network->Ssid, &pmlmepriv->assoc_ssid, sizeof(NDIS_802_11_SSID));
++	
++			rtw_update_registrypriv_dev_network(adapter);			
++
++			rtw_generate_random_ibss(pibss);
++			
++			if(check_fwstate(pmlmepriv,WIFI_ADHOC_STATE))
++			{
++				set_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++				_clr_fwstate_(pmlmepriv, WIFI_ADHOC_STATE);
++			}
++
++			if(rtw_createbss_cmd(adapter)!=_SUCCESS)
++			{
++
++				RT_TRACE(_module_rtl871x_ioctl_set_c_,_drv_err_,("***Error=>stadel_event_callback: rtw_createbss_cmd status FAIL*** \n "));										
++
++			}
++
++			
++		}
++		
++	}
++	
++	_exit_critical_bh(&pmlmepriv->lock, &irqL2);
++	
++_func_exit_;	
++
++}
++
++
++void rtw_cpwm_event_callback(PADAPTER padapter, u8 *pbuf)
++{
++#ifdef CONFIG_LPS_LCLK
++	struct reportpwrstate_parm *preportpwrstate;
++#endif
++
++_func_enter_;
++
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("rtw_cpwm_event_callback !!!\n"));
++#ifdef CONFIG_LPS_LCLK
++	preportpwrstate = (struct reportpwrstate_parm*)pbuf;
++	preportpwrstate->state |= (u8)(padapter->pwrctrlpriv.cpwm_tog + 0x80);
++	cpwm_int_hdl(padapter, preportpwrstate);
++#endif
++
++_func_exit_;
++
++}
++
++/*
++* _rtw_join_timeout_handler - Timeout/faliure handler for CMD JoinBss
++* @adapter: pointer to _adapter structure
++*/
++void _rtw_join_timeout_handler (_adapter *adapter)
++{
++	_irqL irqL;
++	struct	mlme_priv *pmlmepriv = &adapter->mlmepriv;
++#ifdef CONFIG_LAYER2_ROAMING
++	int do_join_r;
++#endif //CONFIG_LAYER2_ROAMING
++
++#if 0
++	if (adapter->bDriverStopped == _TRUE){
++		_rtw_up_sema(&pmlmepriv->assoc_terminate);
++		return;
++	}
++#endif	
++
++_func_enter_;		
++#ifdef PLATFORM_FREEBSD
++		rtw_mtx_lock(NULL);
++		 if (callout_pending(&adapter->mlmepriv.assoc_timer.callout)) {
++			 /* callout was reset */
++			 //mtx_unlock(&sc->sc_mtx);
++			 rtw_mtx_unlock(NULL);
++			 return;
++		 }
++		 if (!callout_active(&adapter->mlmepriv.assoc_timer.callout)) {
++			 /* callout was stopped */
++			 //mtx_unlock(&sc->sc_mtx);
++			 rtw_mtx_unlock(NULL);
++			 return;
++		 }
++		 callout_deactivate(&adapter->mlmepriv.assoc_timer.callout);
++	
++	
++#endif
++
++	DBG_871X("%s, fw_state=%x\n", __FUNCTION__, get_fwstate(pmlmepriv));
++	
++	if(adapter->bDriverStopped ||adapter->bSurpriseRemoved)
++		return;
++
++	
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	#ifdef CONFIG_LAYER2_ROAMING
++	if (rtw_to_roaming(adapter) > 0) { /* join timeout caused by roaming */
++		while(1) {
++			pmlmepriv->to_roaming--;
++			if (rtw_to_roaming(adapter) != 0) { /* try another */
++				DBG_871X("%s try another roaming\n", __FUNCTION__);
++				if( _SUCCESS!=(do_join_r=rtw_do_join(adapter)) ) {
++					DBG_871X("%s roaming do_join return %d\n", __FUNCTION__ ,do_join_r);
++					continue;
++				}
++				break;
++			} else {
++#ifdef CONFIG_INTEL_WIDI
++				if(adapter->mlmepriv.widi_state == INTEL_WIDI_STATE_ROAMING)
++				{
++					_rtw_memset(pmlmepriv->sa_ext, 0x00, L2SDTA_SERVICE_VE_LEN);
++					intel_widi_wk_cmd(adapter, INTEL_WIDI_LISTEN_WK, NULL);
++					DBG_871X("change to widi listen\n");
++				}
++#endif // CONFIG_INTEL_WIDI
++				DBG_871X("%s We've try roaming but fail\n", __FUNCTION__);
++				rtw_indicate_disconnect(adapter);
++				break;
++			}
++		}
++		
++	} else 
++	#endif
++	{
++		rtw_indicate_disconnect(adapter);
++		free_scanqueue(pmlmepriv);//???
++
++#ifdef CONFIG_IOCTL_CFG80211
++		//indicate disconnect for the case that join_timeout and check_fwstate != FW_LINKED
++		rtw_cfg80211_indicate_disconnect(adapter);
++#endif //CONFIG_IOCTL_CFG80211
++
++ 	}
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++	
++
++#ifdef CONFIG_DRVEXT_MODULE_WSC	
++	drvext_assoc_fail_indicate(&adapter->drvextpriv);	
++#endif	
++#ifdef PLATFORM_FREEBSD
++		rtw_mtx_unlock(NULL);
++#endif
++	
++_func_exit_;
++
++}
++
++/*
++* rtw_scan_timeout_handler - Timeout/Faliure handler for CMD SiteSurvey
++* @adapter: pointer to _adapter structure
++*/
++void rtw_scan_timeout_handler (_adapter *adapter)
++{	
++	_irqL irqL;
++	struct	mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	
++	DBG_871X(FUNC_ADPT_FMT" fw_state=%x\n", FUNC_ADPT_ARG(adapter), get_fwstate(pmlmepriv));
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	
++	_clr_fwstate_(pmlmepriv, _FW_UNDER_SURVEY);
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++	rtw_indicate_scan_done(adapter, _TRUE);
++
++}
++
++static void rtw_auto_scan_handler(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct pwrctrl_priv *pwrctrlpriv = &padapter->pwrctrlpriv;
++
++	//auto site survey per 60sec
++	if(pmlmepriv->scan_interval >0)
++	{
++		pmlmepriv->scan_interval--;
++		if(pmlmepriv->scan_interval==0)
++		{
++/*		
++			if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY|_FW_UNDER_LINKING) == _TRUE) 
++			{
++				DBG_871X("exit %s when _FW_UNDER_SURVEY|_FW_UNDER_LINKING -> \n", __FUNCTION__);
++				return;
++			}
++			
++			if(pmlmepriv->sitesurveyctrl.traffic_busy == _TRUE)
++			{
++				DBG_871X("%s exit cause traffic_busy(%x)\n",__FUNCTION__, pmlmepriv->sitesurveyctrl.traffic_busy);
++				return;
++			}
++*/
++
++#ifdef CONFIG_CONCURRENT_MODE
++			if (rtw_buddy_adapter_up(padapter))
++			{
++				if ((check_buddy_fwstate(padapter, _FW_UNDER_SURVEY|_FW_UNDER_LINKING) == _TRUE) ||
++					(padapter->pbuddy_adapter->mlmepriv.LinkDetectInfo.bBusyTraffic == _TRUE))
++				{		
++					DBG_871X("%s, but buddy_intf is under scanning or linking or BusyTraffic\n", __FUNCTION__);
++					return;
++				}
++			}
++#endif
++
++			DBG_871X("%s\n", __FUNCTION__);
++
++			rtw_set_802_11_bssid_list_scan(padapter, NULL, 0);			
++			
++			pmlmepriv->scan_interval = SCAN_INTERVAL;// 30*2 sec = 60sec
++			
++		}
++		
++	}
++
++}
++
++void rtw_dynamic_check_timer_handlder(_adapter *adapter)
++{
++#ifdef CONFIG_AP_MODE
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++#endif //CONFIG_AP_MODE
++	struct registry_priv *pregistrypriv = &adapter->registrypriv;
++#ifdef CONFIG_CONCURRENT_MODE	
++	PADAPTER pbuddy_adapter = adapter->pbuddy_adapter;	
++#endif
++
++	if(!adapter)
++		return;	
++
++	if(adapter->hw_init_completed == _FALSE)
++		return;
++
++	if ((adapter->bDriverStopped == _TRUE)||(adapter->bSurpriseRemoved== _TRUE))
++		return;
++
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if(pbuddy_adapter)
++	{
++		if(adapter->net_closed == _TRUE && pbuddy_adapter->net_closed == _TRUE)
++		{
++			return;
++		}		
++	}
++	else
++#endif //CONFIG_CONCURRENT_MODE
++	if(adapter->net_closed == _TRUE)
++	{
++		return;
++	}	
++
++	rtw_dynamic_chk_wk_cmd(adapter);
++
++	if(pregistrypriv->wifi_spec==1)
++	{	
++#ifdef CONFIG_P2P
++		struct wifidirect_info *pwdinfo = &adapter->wdinfo;
++		if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++#endif	
++		{
++			//auto site survey
++			rtw_auto_scan_handler(adapter);
++		}	
++	}
++
++#ifndef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++#ifdef CONFIG_AP_MODE
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++	{
++		expire_timeout_chk(adapter);
++	}	
++#endif
++#endif //!CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++
++#ifdef CONFIG_BR_EXT
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
++	rcu_read_lock();
++#endif	// (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
++
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) 
++	if( adapter->pnetdev->br_port 
++#else	// (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++	if( rcu_dereference(adapter->pnetdev->rx_handler_data)
++#endif	// (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++		&& (check_fwstate(pmlmepriv, WIFI_STATION_STATE|WIFI_ADHOC_STATE) == _TRUE) )
++	{
++		// expire NAT2.5 entry
++		void nat25_db_expire(_adapter *priv);
++		nat25_db_expire(adapter);
++
++		if (adapter->pppoe_connection_in_progress > 0) {
++			adapter->pppoe_connection_in_progress--;
++		}
++		
++		// due to rtw_dynamic_check_timer_handlder() is called every 2 seconds
++		if (adapter->pppoe_connection_in_progress > 0) {
++			adapter->pppoe_connection_in_progress--;
++		}
++	}
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
++	rcu_read_unlock();
++#endif	// (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
++
++#endif	// CONFIG_BR_EXT
++	
++}
++
++
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++inline bool rtw_is_scan_deny(_adapter *adapter)
++{
++	struct mlme_priv *mlmepriv = &adapter->mlmepriv;
++	return (ATOMIC_READ(&mlmepriv->set_scan_deny) != 0) ? _TRUE : _FALSE;
++}
++
++inline void rtw_clear_scan_deny(_adapter *adapter)
++{
++	struct mlme_priv *mlmepriv = &adapter->mlmepriv;
++	ATOMIC_SET(&mlmepriv->set_scan_deny, 0);
++	if (0)
++	DBG_871X(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(adapter));
++}
++
++void rtw_set_scan_deny_timer_hdl(_adapter *adapter)
++{
++	rtw_clear_scan_deny(adapter);
++}
++
++void rtw_set_scan_deny(_adapter *adapter, u32 ms)
++{
++	struct mlme_priv *mlmepriv = &adapter->mlmepriv;
++#ifdef CONFIG_CONCURRENT_MODE
++	struct mlme_priv *b_mlmepriv;
++#endif
++
++	if (0)
++	DBG_871X(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(adapter));
++	ATOMIC_SET(&mlmepriv->set_scan_deny, 1);
++	_set_timer(&mlmepriv->set_scan_deny_timer, ms);
++	
++#ifdef CONFIG_CONCURRENT_MODE
++	if (!adapter->pbuddy_adapter)
++		return;
++
++	if (0)
++	DBG_871X(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(adapter->pbuddy_adapter));
++ 	b_mlmepriv = &adapter->pbuddy_adapter->mlmepriv;
++	ATOMIC_SET(&b_mlmepriv->set_scan_deny, 1);
++	_set_timer(&b_mlmepriv->set_scan_deny_timer, ms);	
++#endif
++	
++}
++#endif
++
++#if defined(IEEE80211_SCAN_RESULT_EXPIRE)
++#define RTW_SCAN_RESULT_EXPIRE IEEE80211_SCAN_RESULT_EXPIRE/HZ*1000 -1000 //3000 -1000
++#else
++#define RTW_SCAN_RESULT_EXPIRE 2000
++#endif
++
++#ifndef PLATFORM_FREEBSD
++/*
++* Select a new join candidate from the original @param candidate and @param competitor
++* @return _TRUE: candidate is updated
++* @return _FALSE: candidate is not updated
++*/
++static int rtw_check_join_candidate(struct mlme_priv *pmlmepriv
++	, struct wlan_network **candidate, struct wlan_network *competitor)
++{
++	int updated = _FALSE;
++	_adapter *adapter = container_of(pmlmepriv, _adapter, mlmepriv);
++
++
++	//check bssid, if needed
++	if(pmlmepriv->assoc_by_bssid==_TRUE) {
++		if(_rtw_memcmp(competitor->network.MacAddress, pmlmepriv->assoc_bssid, ETH_ALEN) ==_FALSE)
++			goto exit;
++	}
++
++	//check ssid, if needed
++	if(pmlmepriv->assoc_ssid.Ssid && pmlmepriv->assoc_ssid.SsidLength) {
++		if(	competitor->network.Ssid.SsidLength != pmlmepriv->assoc_ssid.SsidLength
++			|| _rtw_memcmp(competitor->network.Ssid.Ssid, pmlmepriv->assoc_ssid.Ssid, pmlmepriv->assoc_ssid.SsidLength) == _FALSE
++		)
++			goto exit;
++	}
++
++	if(rtw_is_desired_network(adapter, competitor)  == _FALSE)
++		goto exit;
++
++#ifdef  CONFIG_LAYER2_ROAMING
++	if(rtw_to_roaming(adapter) > 0) {
++		if(	rtw_get_passing_time_ms((u32)competitor->last_scanned) >= RTW_SCAN_RESULT_EXPIRE
++			|| is_same_ess(&competitor->network, &pmlmepriv->cur_network.network) == _FALSE
++		)
++			goto exit;
++	}
++#endif
++	
++	if(*candidate == NULL ||(*candidate)->network.Rssi<competitor->network.Rssi )
++	{
++		*candidate = competitor;
++		updated = _TRUE;
++	}
++
++#if 0
++	if(pmlmepriv->assoc_by_bssid==_TRUE) { // associate with bssid
++		if(	(*candidate == NULL ||(*candidate)->network.Rssi<competitor->network.Rssi )
++			&& _rtw_memcmp(competitor->network.MacAddress, pmlmepriv->assoc_bssid, ETH_ALEN)==_TRUE
++		) {
++			*candidate = competitor;
++			updated = _TRUE;
++		}
++	} else  if (pmlmepriv->assoc_ssid.SsidLength == 0 ) { // associate with ssid, but ssidlength is 0
++		if(	(*candidate == NULL ||(*candidate)->network.Rssi<competitor->network.Rssi ) ) {
++			*candidate = competitor;
++			updated = _TRUE;
++		}
++	} else
++#ifdef  CONFIG_LAYER2_ROAMING
++	if(rtw_to_roaming(adapter)) { // roaming
++		if(	(*candidate == NULL ||(*candidate)->network.Rssi<competitor->network.Rssi )
++			&& is_same_ess(&competitor->network, &pmlmepriv->cur_network.network) 
++			//&&(!is_same_network(&competitor->network, &pmlmepriv->cur_network.network))
++			&& rtw_get_passing_time_ms((u32)competitor->last_scanned) < RTW_SCAN_RESULT_EXPIRE
++			&& rtw_is_desired_network(adapter, competitor)
++		) {
++			*candidate = competitor;
++			updated = _TRUE;
++		}
++		
++	} else
++#endif
++	{ // associate with ssid
++		if(	(*candidate == NULL ||(*candidate)->network.Rssi<competitor->network.Rssi )
++			&& (competitor->network.Ssid.SsidLength==pmlmepriv->assoc_ssid.SsidLength)
++			&&((_rtw_memcmp(competitor->network.Ssid.Ssid, pmlmepriv->assoc_ssid.Ssid, pmlmepriv->assoc_ssid.SsidLength)) == _TRUE)
++			&& rtw_is_desired_network(adapter, competitor)
++		) {
++			*candidate = competitor;
++			updated = _TRUE;
++		}
++	}
++#endif
++
++	if(updated){
++		DBG_871X("[by_bssid:%u][assoc_ssid:%s]"
++			#ifdef  CONFIG_LAYER2_ROAMING
++			"[to_roaming:%u] "
++			#endif
++			"new candidate: %s("MAC_FMT", ch%u) rssi:%d\n",
++			pmlmepriv->assoc_by_bssid,
++			pmlmepriv->assoc_ssid.Ssid,
++			#ifdef  CONFIG_LAYER2_ROAMING
++			rtw_to_roaming(adapter),
++			#endif
++			(*candidate)->network.Ssid.Ssid,
++			MAC_ARG((*candidate)->network.MacAddress),
++			(*candidate)->network.Configuration.DSConfig,
++			(int)(*candidate)->network.Rssi
++		);
++	}
++
++exit:
++	return updated;
++}
++
++/*
++Calling context:
++The caller of the sub-routine will be in critical section...
++
++The caller must hold the following spinlock
++
++pmlmepriv->lock
++
++
++*/
++
++int rtw_select_and_join_from_scanned_queue(struct mlme_priv *pmlmepriv )
++{
++	_irqL	irqL;
++	int ret;
++	_list	*phead;
++	_adapter *adapter;	
++	_queue	*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	struct	wlan_network	*candidate = NULL;
++	u8 		bSupportAntDiv = _FALSE;
++
++_func_enter_;
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++	phead = get_list_head(queue);		
++	adapter = (_adapter *)pmlmepriv->nic_hdl;
++
++	pmlmepriv->pscanned = get_next( phead );
++
++	while (!rtw_end_of_queue_search(phead, pmlmepriv->pscanned)) {
++
++		pnetwork = LIST_CONTAINOR(pmlmepriv->pscanned, struct wlan_network, list);
++		if(pnetwork==NULL){
++			RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("%s return _FAIL:(pnetwork==NULL)\n", __FUNCTION__));
++			ret = _FAIL;
++			goto exit;
++		}
++		
++		pmlmepriv->pscanned = get_next(pmlmepriv->pscanned);
++
++		#if 0
++		DBG_871X("MacAddress:"MAC_FMT" ssid:%s\n", MAC_ARG(pnetwork->network.MacAddress), pnetwork->network.Ssid.Ssid);
++		#endif
++
++		rtw_check_join_candidate(pmlmepriv, &candidate, pnetwork);
++ 
++ 	}
++
++	if(candidate == NULL) {
++		DBG_871X("%s: return _FAIL(candidate == NULL)\n", __FUNCTION__);
++		ret = _FAIL;
++		goto exit;
++	} else {
++		DBG_871X("%s: candidate: %s("MAC_FMT", ch:%u)\n", __FUNCTION__,
++			candidate->network.Ssid.Ssid, MAC_ARG(candidate->network.MacAddress),
++			candidate->network.Configuration.DSConfig);
++	}
++	
++
++	// check for situation of  _FW_LINKED 
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++	{
++		DBG_871X("%s: _FW_LINKED while ask_for_joinbss!!!\n", __FUNCTION__);
++
++		#if 0 // for WPA/WPA2 authentication, wpa_supplicant will expect authentication from AP, it is needed to reconnect AP...
++		if(is_same_network(&pmlmepriv->cur_network.network, &candidate->network))
++		{
++			DBG_871X("%s: _FW_LINKED and is same network, it needn't join again\n", __FUNCTION__);
++
++			rtw_indicate_connect(adapter);//rtw_indicate_connect again
++				
++			ret = 2;
++			goto exit;
++		}
++		else
++		#endif
++		{
++			rtw_disassoc_cmd(adapter, 0, _TRUE);
++			rtw_indicate_disconnect(adapter);
++			rtw_free_assoc_resources(adapter, 0);
++		}
++	}
++	
++	#ifdef CONFIG_ANTENNA_DIVERSITY
++	rtw_hal_get_def_var(adapter, HAL_DEF_IS_SUPPORT_ANT_DIV, &(bSupportAntDiv));
++	if(_TRUE == bSupportAntDiv)	
++	{
++		u8 CurrentAntenna;
++		rtw_hal_get_def_var(adapter, HAL_DEF_CURRENT_ANTENNA, &(CurrentAntenna));			
++		DBG_871X("#### Opt_Ant_(%s) , cur_Ant(%s)\n",
++			(2==candidate->network.PhyInfo.Optimum_antenna)?"A":"B",
++			(2==CurrentAntenna)?"A":"B"
++		);
++	}
++	#endif
++	set_fwstate(pmlmepriv, _FW_UNDER_LINKING);
++	ret = rtw_joinbss_cmd(adapter, candidate);
++	
++exit:
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++_func_exit_;
++
++	return ret;
++}
++#else
++int rtw_select_and_join_from_scanned_queue(struct mlme_priv *pmlmepriv )
++{	
++	_irqL	irqL;
++	_list	*phead;
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	u8 CurrentAntenna;
++#endif
++	unsigned char *dst_ssid, *src_ssid;
++	_adapter *adapter;	
++	_queue	*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	struct	wlan_network	*pnetwork_max_rssi = NULL;
++	#ifdef CONFIG_LAYER2_ROAMING
++	struct wlan_network * roaming_candidate=NULL;
++	u32 cur_time=rtw_get_current_time();
++	#endif
++
++_func_enter_;
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++	phead = get_list_head(queue);		
++	adapter = (_adapter *)pmlmepriv->nic_hdl;
++
++	pmlmepriv->pscanned = get_next( phead );
++
++	while (!rtw_end_of_queue_search(phead, pmlmepriv->pscanned)) {
++
++		pnetwork = LIST_CONTAINOR(pmlmepriv->pscanned, struct wlan_network, list);
++		if(pnetwork==NULL){
++			RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("(2)rtw_select_and_join_from_scanned_queue return _FAIL:(pnetwork==NULL)\n"));
++			_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			return _FAIL;	
++		}
++
++		dst_ssid = pnetwork->network.Ssid.Ssid;
++		src_ssid = pmlmepriv->assoc_ssid.Ssid;
++		
++		pmlmepriv->pscanned = get_next(pmlmepriv->pscanned);
++
++		#if 0
++		DBG_871X("MacAddress:"MAC_FMT" ssid:%s\n", MAC_ARG(pnetwork->network.MacAddress), pnetwork->network.Ssid.Ssid);
++		#endif
++
++		if(pmlmepriv->assoc_by_bssid==_TRUE)
++		{
++			if(_rtw_memcmp(pnetwork->network.MacAddress, pmlmepriv->assoc_bssid, ETH_ALEN)==_TRUE)
++			{
++				//remove the condition @ 20081125
++				//if((pmlmepriv->cur_network.network.InfrastructureMode==Ndis802_11AutoUnknown)||
++				//	pmlmepriv->cur_network.network.InfrastructureMode == pnetwork->network.InfrastructureMode)
++				//		goto ask_for_joinbss;
++				
++				if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++				{
++					if(is_same_network(&pmlmepriv->cur_network.network, &pnetwork->network))
++					{
++						//DBG_871X("select_and_join(1): _FW_LINKED and is same network, it needn't join again\n");
++
++						rtw_indicate_connect(adapter);//rtw_indicate_connect again
++						_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);	
++						return 2;
++					}
++					else
++					{
++						rtw_disassoc_cmd(adapter, 0, _TRUE);
++						rtw_indicate_disconnect(adapter);
++						rtw_free_assoc_resources(adapter, 0);
++						_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++						goto ask_for_joinbss;
++						
++					}
++				}
++				else
++				{
++					_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++					goto ask_for_joinbss;
++				}
++							
++			}
++			
++		} else if (pmlmepriv->assoc_ssid.SsidLength == 0) {
++			_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			goto ask_for_joinbss;//anyway, join first selected(dequeued) pnetwork if ssid_len=0				
++	
++		#ifdef CONFIG_LAYER2_ROAMING
++		} else if (rtw_to_roaming(adapter) > 0) {
++		
++			if(	(roaming_candidate == NULL ||roaming_candidate->network.Rssi<pnetwork->network.Rssi )
++				&& is_same_ess(&pnetwork->network, &pmlmepriv->cur_network.network) 
++				//&&(!is_same_network(&pnetwork->network, &pmlmepriv->cur_network.network))
++				&&  rtw_get_time_interval_ms((u32)pnetwork->last_scanned,cur_time) < 5000
++				) {
++				roaming_candidate = pnetwork;
++				//RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,
++				DBG_871X
++					("roaming_candidate???: %s("MAC_FMT")\n",
++					roaming_candidate->network.Ssid.Ssid, MAC_ARG(roaming_candidate->network.MacAddress) )
++					//)
++					;
++			}
++			continue;
++		#endif
++
++		} else if ( (pnetwork->network.Ssid.SsidLength==pmlmepriv->assoc_ssid.SsidLength)
++			&&((_rtw_memcmp(dst_ssid, src_ssid, pmlmepriv->assoc_ssid.SsidLength)) == _TRUE)
++			)
++		{
++			RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("dst_ssid=%s, src_ssid=%s \n", dst_ssid, src_ssid));
++#ifdef CONFIG_ANTENNA_DIVERSITY
++			rtw_hal_get_def_var(adapter, HAL_DEF_CURRENT_ANTENNA, &(CurrentAntenna));			
++			DBG_871X("#### dst_ssid=(%s) Opt_Ant_(%s) , cur_Ant(%s)\n", dst_ssid,
++				(2==pnetwork->network.PhyInfo.Optimum_antenna)?"A":"B",
++				(2==CurrentAntenna)?"A":"B");
++#endif
++			//remove the condition @ 20081125
++			//if((pmlmepriv->cur_network.network.InfrastructureMode==Ndis802_11AutoUnknown)||
++			//	pmlmepriv->cur_network.network.InfrastructureMode == pnetwork->network.InfrastructureMode)
++			//{
++			//	_rtw_memcpy(pmlmepriv->assoc_bssid, pnetwork->network.MacAddress, ETH_ALEN);
++			//	goto ask_for_joinbss;
++			//}
++
++			if(pmlmepriv->assoc_by_rssi==_TRUE)//if the ssid is the same, select the bss which has the max rssi
++			{
++				if( NULL==pnetwork_max_rssi|| pnetwork->network.Rssi > pnetwork_max_rssi->network.Rssi)
++						pnetwork_max_rssi = pnetwork;					
++			}
++			else if(rtw_is_desired_network(adapter, pnetwork) == _TRUE)
++			{
++				if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++				{
++#if 0				
++					if(is_same_network(&pmlmepriv->cur_network.network, &pnetwork->network))
++					{
++						DBG_871X("select_and_join(2): _FW_LINKED and is same network, it needn't join again\n");
++						
++						rtw_indicate_connect(adapter);//rtw_indicate_connect again
++						
++						return 2;
++					}
++					else
++#endif						
++					{
++						rtw_disassoc_cmd(adapter, 0, _TRUE);
++						//rtw_indicate_disconnect(adapter);//
++						rtw_free_assoc_resources(adapter, 0);
++						_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++						goto ask_for_joinbss;						
++					}
++				}
++				else
++				{
++					_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++					goto ask_for_joinbss;
++				}				
++
++			}
++		
++			
++		}
++ 	
++ 	}
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++	#ifdef CONFIG_LAYER2_ROAMING
++	if(rtw_to_roaming(adapter) > 0 && roaming_candidate ){
++		pnetwork=roaming_candidate;
++		DBG_871X("select_and_join_from_scanned_queue: roaming_candidate: %s("MAC_FMT")\n",
++			pnetwork->network.Ssid.Ssid, MAC_ARG(pnetwork->network.MacAddress));
++		goto ask_for_joinbss;
++	}
++	#endif
++
++	if((pmlmepriv->assoc_by_rssi==_TRUE)  && (pnetwork_max_rssi!=NULL))
++	{
++		pnetwork = pnetwork_max_rssi;
++		DBG_871X("select_and_join_from_scanned_queue: pnetwork_max_rssi: %s("MAC_FMT")\n",
++			pnetwork->network.Ssid.Ssid, MAC_ARG(pnetwork->network.MacAddress));
++		goto ask_for_joinbss;
++	}
++
++	DBG_871X("(1)rtw_select_and_join_from_scanned_queue return _FAIL\n");
++	
++_func_exit_;	
++
++     return _FAIL;
++
++ask_for_joinbss:
++	
++_func_exit_;
++
++	return rtw_joinbss_cmd(adapter, pnetwork);
++
++}
++#endif //PLATFORM_FREEBSD
++
++
++sint rtw_set_auth(_adapter * adapter,struct security_priv *psecuritypriv)
++{
++	struct	cmd_obj* pcmd;
++	struct 	setauth_parm *psetauthparm;
++	struct	cmd_priv	*pcmdpriv=&(adapter->cmdpriv);
++	sint		res=_SUCCESS;
++	
++_func_enter_;	
++
++	pcmd = (struct	cmd_obj*)rtw_zmalloc(sizeof(struct	cmd_obj));
++	if(pcmd==NULL){
++		res= _FAIL;  //try again
++		goto exit;
++	}
++	
++	psetauthparm=(struct setauth_parm*)rtw_zmalloc(sizeof(struct setauth_parm));
++	if(psetauthparm==NULL){
++		rtw_mfree((unsigned char *)pcmd, sizeof(struct	cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	_rtw_memset(psetauthparm, 0, sizeof(struct setauth_parm));
++	psetauthparm->mode=(unsigned char)psecuritypriv->dot11AuthAlgrthm;
++	
++	pcmd->cmdcode = _SetAuth_CMD_;
++	pcmd->parmbuf = (unsigned char *)psetauthparm;   
++	pcmd->cmdsz =  (sizeof(struct setauth_parm));  
++	pcmd->rsp = NULL;
++	pcmd->rspsz = 0;
++
++
++	_rtw_init_listhead(&pcmd->list);
++
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("after enqueue set_auth_cmd, auth_mode=%x\n", psecuritypriv->dot11AuthAlgrthm));
++
++	res = rtw_enqueue_cmd(pcmdpriv, pcmd);
++
++exit:
++
++_func_exit_;
++
++	return res;
++
++}
++
++
++sint rtw_set_key(_adapter * adapter,struct security_priv *psecuritypriv,sint keyid, u8 set_tx)
++{
++	u8	keylen;
++	struct cmd_obj		*pcmd;
++	struct setkey_parm	*psetkeyparm;
++	struct cmd_priv		*pcmdpriv = &(adapter->cmdpriv);
++	struct mlme_priv		*pmlmepriv = &(adapter->mlmepriv);
++	sint	res=_SUCCESS;
++	
++_func_enter_;
++	
++	pcmd = (struct	cmd_obj*)rtw_zmalloc(sizeof(struct	cmd_obj));
++	if(pcmd==NULL){
++		res= _FAIL;  //try again
++		goto exit;
++	}
++	psetkeyparm=(struct setkey_parm*)rtw_zmalloc(sizeof(struct setkey_parm));
++	if(psetkeyparm==NULL){
++		rtw_mfree((unsigned char *)pcmd, sizeof(struct	cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	_rtw_memset(psetkeyparm, 0, sizeof(struct setkey_parm));
++
++	if(psecuritypriv->dot11AuthAlgrthm ==dot11AuthAlgrthm_8021X){		
++		psetkeyparm->algorithm=(unsigned char)psecuritypriv->dot118021XGrpPrivacy;	
++		RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("\n rtw_set_key: psetkeyparm->algorithm=(unsigned char)psecuritypriv->dot118021XGrpPrivacy=%d \n", psetkeyparm->algorithm));
++	}	
++	else{
++		psetkeyparm->algorithm=(u8)psecuritypriv->dot11PrivacyAlgrthm;
++		RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("\n rtw_set_key: psetkeyparm->algorithm=(u8)psecuritypriv->dot11PrivacyAlgrthm=%d \n", psetkeyparm->algorithm));
++
++	}
++	psetkeyparm->keyid = (u8)keyid;//0~3
++	psetkeyparm->set_tx = set_tx;
++	if (is_wep_enc(psetkeyparm->algorithm))
++		psecuritypriv->key_mask |= BIT(psetkeyparm->keyid);
++
++	DBG_871X("==> rtw_set_key algorithm(%x),keyid(%x),key_mask(%x)\n",psetkeyparm->algorithm,psetkeyparm->keyid, psecuritypriv->key_mask);
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("\n rtw_set_key: psetkeyparm->algorithm=%d psetkeyparm->keyid=(u8)keyid=%d \n",psetkeyparm->algorithm, keyid));
++
++	switch(psetkeyparm->algorithm){
++		
++		case _WEP40_:
++			keylen=5;
++			_rtw_memcpy(&(psetkeyparm->key[0]), &(psecuritypriv->dot11DefKey[keyid].skey[0]), keylen);
++			break;
++		case _WEP104_:
++			keylen=13;
++			_rtw_memcpy(&(psetkeyparm->key[0]), &(psecuritypriv->dot11DefKey[keyid].skey[0]), keylen);
++			break;
++		case _TKIP_:
++			keylen=16;			
++			_rtw_memcpy(&psetkeyparm->key, &psecuritypriv->dot118021XGrpKey[keyid], keylen);
++			psetkeyparm->grpkey=1;
++			break;
++		case _AES_:
++			keylen=16;			
++			_rtw_memcpy(&psetkeyparm->key, &psecuritypriv->dot118021XGrpKey[keyid], keylen);
++			psetkeyparm->grpkey=1;
++			break;
++		default:
++			RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("\n rtw_set_key:psecuritypriv->dot11PrivacyAlgrthm = %x (must be 1 or 2 or 4 or 5)\n",psecuritypriv->dot11PrivacyAlgrthm));
++			res= _FAIL;
++			goto exit;
++	}
++
++	
++	pcmd->cmdcode = _SetKey_CMD_;
++	pcmd->parmbuf = (u8 *)psetkeyparm;   
++	pcmd->cmdsz =  (sizeof(struct setkey_parm));  
++	pcmd->rsp = NULL;
++	pcmd->rspsz = 0;
++
++
++	_rtw_init_listhead(&pcmd->list);
++
++	//_rtw_init_sema(&(pcmd->cmd_sem), 0);
++
++	res = rtw_enqueue_cmd(pcmdpriv, pcmd);
++
++exit:
++_func_exit_;
++	return res;
++
++}
++
++
++//adjust IEs for rtw_joinbss_cmd in WMM
++int rtw_restruct_wmm_ie(_adapter *adapter, u8 *in_ie, u8 *out_ie, uint in_len, uint initial_out_len)
++{
++	unsigned	int ielength=0;
++	unsigned int i, j;
++
++	i = 12; //after the fixed IE
++	while(i<in_len)
++	{
++		ielength = initial_out_len;		
++		
++		if(in_ie[i] == 0xDD && in_ie[i+2] == 0x00 && in_ie[i+3] == 0x50  && in_ie[i+4] == 0xF2 && in_ie[i+5] == 0x02 && i+5 < in_len) //WMM element ID and OUI
++		{
++
++			//Append WMM IE to the last index of out_ie
++			/*
++			for(j=i; j< i+(in_ie[i+1]+2); j++)
++			{
++				out_ie[ielength] = in_ie[j];				
++				ielength++;
++			}
++			out_ie[initial_out_len+8] = 0x00; //force the QoS Info Field to be zero
++	                */
++                       
++                        for ( j = i; j < i + 9; j++ )
++                        {
++                            out_ie[ ielength] = in_ie[ j ];
++                            ielength++;
++                        } 
++                        out_ie[ initial_out_len + 1 ] = 0x07;
++                        out_ie[ initial_out_len + 6 ] = 0x00;
++                        out_ie[ initial_out_len + 8 ] = 0x00;
++	
++			break;
++		}
++
++		i+=(in_ie[i+1]+2); // to the next IE element
++	}
++	
++	return ielength;
++	
++}
++
++
++//
++// Ported from 8185: IsInPreAuthKeyList(). (Renamed from SecIsInPreAuthKeyList(), 2006-10-13.)
++// Added by Annie, 2006-05-07.
++//
++// Search by BSSID,
++// Return Value:
++//		-1 		:if there is no pre-auth key in the  table
++//		>=0		:if there is pre-auth key, and   return the entry id
++//
++//
++
++static int SecIsInPMKIDList(_adapter *Adapter, u8 *bssid)
++{
++	struct security_priv *psecuritypriv=&Adapter->securitypriv;
++	int i=0;
++
++	do
++	{
++		if( ( psecuritypriv->PMKIDList[i].bUsed ) && 
++                    (  _rtw_memcmp( psecuritypriv->PMKIDList[i].Bssid, bssid, ETH_ALEN ) == _TRUE ) )
++		{
++			break;
++		}
++		else
++		{	
++			i++;
++			//continue;
++		}
++		
++	}while(i<NUM_PMKID_CACHE);
++
++	if( i == NUM_PMKID_CACHE )
++	{ 
++		i = -1;// Could not find.
++	}
++	else
++	{ 
++		// There is one Pre-Authentication Key for the specific BSSID.
++	}
++
++	return (i);
++	
++}
++
++//
++// Check the RSN IE length
++// If the RSN IE length <= 20, the RSN IE didn't include the PMKID information
++// 0-11th element in the array are the fixed IE
++// 12th element in the array is the IE
++// 13th element in the array is the IE length  
++//
++
++static int rtw_append_pmkid(_adapter *Adapter,int iEntry, u8 *ie, uint ie_len)
++{
++	struct security_priv *psecuritypriv=&Adapter->securitypriv;
++
++	if(ie[13]<=20){	
++		// The RSN IE didn't include the PMK ID, append the PMK information 
++			ie[ie_len]=1;
++			ie_len++;
++			ie[ie_len]=0;	//PMKID count = 0x0100
++			ie_len++;
++			_rtw_memcpy(	&ie[ie_len], &psecuritypriv->PMKIDList[iEntry].PMKID, 16);
++		
++			ie_len+=16;
++			ie[13]+=18;//PMKID length = 2+16
++
++	}
++	return (ie_len);
++	
++}
++sint rtw_restruct_sec_ie(_adapter *adapter,u8 *in_ie, u8 *out_ie, uint in_len)
++{
++	u8 authmode, securitytype, match;
++	u8 sec_ie[255], uncst_oui[4], bkup_ie[255];
++	u8 wpa_oui[4]={0x0, 0x50, 0xf2, 0x01};
++	uint 	ielength, cnt, remove_cnt;
++	int iEntry;
++
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct security_priv *psecuritypriv=&adapter->securitypriv;
++	uint 	ndisauthmode=psecuritypriv->ndisauthtype;
++	uint ndissecuritytype = psecuritypriv->ndisencryptstatus;
++	
++_func_enter_;
++
++	RT_TRACE(_module_rtl871x_mlme_c_, _drv_notice_,
++		 ("+rtw_restruct_sec_ie: ndisauthmode=%d ndissecuritytype=%d\n",
++		  ndisauthmode, ndissecuritytype));
++	
++	//copy fixed ie only
++	_rtw_memcpy(out_ie, in_ie,12);
++	ielength=12;
++	if((ndisauthmode==Ndis802_11AuthModeWPA)||(ndisauthmode==Ndis802_11AuthModeWPAPSK))
++			authmode=_WPA_IE_ID_;
++	if((ndisauthmode==Ndis802_11AuthModeWPA2)||(ndisauthmode==Ndis802_11AuthModeWPA2PSK))
++			authmode=_WPA2_IE_ID_;
++
++	if(check_fwstate(pmlmepriv, WIFI_UNDER_WPS))
++	{
++		_rtw_memcpy(out_ie+ielength, psecuritypriv->wps_ie, psecuritypriv->wps_ie_len);
++		
++		ielength += psecuritypriv->wps_ie_len;
++	}
++	else if((authmode==_WPA_IE_ID_)||(authmode==_WPA2_IE_ID_))
++	{		
++		//copy RSN or SSN		
++		_rtw_memcpy(&out_ie[ielength], &psecuritypriv->supplicant_ie[0], psecuritypriv->supplicant_ie[1]+2);
++		/* debug for CONFIG_IEEE80211W
++		{
++			int jj;
++			printk("supplicant_ie_length=%d &&&&&&&&&&&&&&&&&&&\n", psecuritypriv->supplicant_ie[1]+2);
++			for(jj=0; jj < psecuritypriv->supplicant_ie[1]+2; jj++)
++				printk(" %02x ", psecuritypriv->supplicant_ie[jj]);
++			printk("\n");
++		}*/
++		ielength+=psecuritypriv->supplicant_ie[1]+2;
++		rtw_report_sec_ie(adapter, authmode, psecuritypriv->supplicant_ie);
++	
++#ifdef CONFIG_DRVEXT_MODULE
++		drvext_report_sec_ie(&adapter->drvextpriv, authmode, sec_ie);	
++#endif
++	}
++
++	iEntry = SecIsInPMKIDList(adapter, pmlmepriv->assoc_bssid);
++	if(iEntry<0)
++	{
++		return ielength;
++	}
++	else
++	{
++		if(authmode == _WPA2_IE_ID_)
++		{
++			ielength=rtw_append_pmkid(adapter, iEntry, out_ie, ielength);
++		}
++	}
++
++_func_exit_;
++	
++	return ielength;	
++}
++
++void rtw_init_registrypriv_dev_network(	_adapter* adapter)
++{
++	struct registry_priv* pregistrypriv = &adapter->registrypriv;
++	struct eeprom_priv* peepriv = &adapter->eeprompriv;
++	WLAN_BSSID_EX    *pdev_network = &pregistrypriv->dev_network;
++	u8 *myhwaddr = myid(peepriv);
++	
++_func_enter_;
++
++	_rtw_memcpy(pdev_network->MacAddress, myhwaddr, ETH_ALEN);
++
++	_rtw_memcpy(&pdev_network->Ssid, &pregistrypriv->ssid, sizeof(NDIS_802_11_SSID));
++	
++	pdev_network->Configuration.Length=sizeof(NDIS_802_11_CONFIGURATION);
++	pdev_network->Configuration.BeaconPeriod = 100;	
++	pdev_network->Configuration.FHConfig.Length = 0;
++	pdev_network->Configuration.FHConfig.HopPattern = 0;
++	pdev_network->Configuration.FHConfig.HopSet = 0;
++	pdev_network->Configuration.FHConfig.DwellTime = 0;
++	
++	
++_func_exit_;	
++	
++}
++
++void rtw_update_registrypriv_dev_network(_adapter* adapter) 
++{
++	int sz=0;
++	struct registry_priv* pregistrypriv = &adapter->registrypriv;	
++	WLAN_BSSID_EX    *pdev_network = &pregistrypriv->dev_network;
++	struct	security_priv*	psecuritypriv = &adapter->securitypriv;
++	struct	wlan_network	*cur_network = &adapter->mlmepriv.cur_network;
++	//struct	xmit_priv	*pxmitpriv = &adapter->xmitpriv;
++
++_func_enter_;
++
++#if 0
++	pxmitpriv->vcs_setting = pregistrypriv->vrtl_carrier_sense;
++	pxmitpriv->vcs = pregistrypriv->vcs_type;
++	pxmitpriv->vcs_type = pregistrypriv->vcs_type;
++	//pxmitpriv->rts_thresh = pregistrypriv->rts_thresh;
++	pxmitpriv->frag_len = pregistrypriv->frag_thresh;
++	
++	adapter->qospriv.qos_option = pregistrypriv->wmm_enable;
++#endif	
++
++	pdev_network->Privacy = (psecuritypriv->dot11PrivacyAlgrthm > 0 ? 1 : 0) ; // adhoc no 802.1x
++
++	pdev_network->Rssi = 0;
++
++	switch(pregistrypriv->wireless_mode)
++	{
++		case WIRELESS_11B:
++			pdev_network->NetworkTypeInUse = (Ndis802_11DS);
++			break;	
++		case WIRELESS_11G:
++		case WIRELESS_11BG:
++		case WIRELESS_11_24N:
++		case WIRELESS_11G_24N:
++		case WIRELESS_11BG_24N:
++			pdev_network->NetworkTypeInUse = (Ndis802_11OFDM24);
++			break;
++		case WIRELESS_11A:
++		case WIRELESS_11A_5N:
++			pdev_network->NetworkTypeInUse = (Ndis802_11OFDM5);
++			break;
++		case WIRELESS_11ABGN:
++			if(pregistrypriv->channel > 14)
++				pdev_network->NetworkTypeInUse = (Ndis802_11OFDM5);
++			else
++				pdev_network->NetworkTypeInUse = (Ndis802_11OFDM24);
++			break;
++		default :
++			// TODO
++			break;
++	}
++	
++	pdev_network->Configuration.DSConfig = (pregistrypriv->channel);
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("pregistrypriv->channel=%d, pdev_network->Configuration.DSConfig=0x%x\n", pregistrypriv->channel, pdev_network->Configuration.DSConfig));	
++
++	if(cur_network->network.InfrastructureMode == Ndis802_11IBSS)
++		pdev_network->Configuration.ATIMWindow = (0);
++
++	pdev_network->InfrastructureMode = (cur_network->network.InfrastructureMode);
++
++	// 1. Supported rates
++	// 2. IE
++
++	//rtw_set_supported_rate(pdev_network->SupportedRates, pregistrypriv->wireless_mode) ; // will be called in rtw_generate_ie
++	sz = rtw_generate_ie(pregistrypriv);
++
++	pdev_network->IELength = sz;
++
++	pdev_network->Length = get_WLAN_BSSID_EX_sz((WLAN_BSSID_EX  *)pdev_network);
++
++	//notes: translate IELength & Length after assign the Length to cmdsz in createbss_cmd();
++	//pdev_network->IELength = cpu_to_le32(sz);
++		
++_func_exit_;	
++
++}
++
++void rtw_get_encrypt_decrypt_from_registrypriv(_adapter* adapter)
++{
++_func_enter_;
++
++
++_func_exit_;	
++	
++}
++
++//the fucntion is at passive_level 
++void rtw_joinbss_reset(_adapter *padapter)
++{
++	u8	threshold;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++
++#ifdef CONFIG_80211N_HT	
++	struct ht_priv		*phtpriv = &pmlmepriv->htpriv;
++#endif
++
++	//todo: if you want to do something io/reg/hw setting before join_bss, please add code here
++	
++
++
++
++#ifdef CONFIG_80211N_HT
++
++	pmlmepriv->num_FortyMHzIntolerant = 0;
++
++	pmlmepriv->num_sta_no_ht = 0;
++
++	phtpriv->ampdu_enable = _FALSE;//reset to disabled
++
++#ifdef CONFIG_USB_HCI
++	// TH=1 => means that invalidate usb rx aggregation
++	// TH=0 => means that validate usb rx aggregation, use init value.
++	if(phtpriv->ht_option)
++	{
++		if(padapter->registrypriv.wifi_spec==1)		
++			threshold = 1;
++		else
++			threshold = 0;
++		rtw_hal_set_hwreg(padapter, HW_VAR_RXDMA_AGG_PG_TH, (u8 *)(&threshold));
++	}
++	else
++	{
++		threshold = 1;
++		rtw_hal_set_hwreg(padapter, HW_VAR_RXDMA_AGG_PG_TH, (u8 *)(&threshold));
++	}
++#endif
++
++#endif	
++
++}
++
++
++#ifdef CONFIG_80211N_HT
++
++//the fucntion is >= passive_level 
++unsigned int rtw_restructure_ht_ie(_adapter *padapter, u8 *in_ie, u8 *out_ie, uint in_len, uint *pout_len, u8 channel)
++{
++	u32 ielen, out_len;
++	unsigned char *p, *pframe;
++	struct rtw_ieee80211_ht_cap ht_capie;
++	unsigned char WMM_IE[] = {0x00, 0x50, 0xf2, 0x02, 0x00, 0x01, 0x00};
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct qos_priv   	*pqospriv= &pmlmepriv->qospriv;
++	struct ht_priv		*phtpriv = &pmlmepriv->htpriv;
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	u8 cbw40_enable = 0;
++
++	phtpriv->ht_option = _FALSE;
++
++	p = rtw_get_ie(in_ie+12, _HT_CAPABILITY_IE_, &ielen, in_len-12);
++
++	if(p && ielen>0)
++	{
++		if(pqospriv->qos_option == 0)
++		{
++			out_len = *pout_len;
++			pframe = rtw_set_ie(out_ie+out_len, _VENDOR_SPECIFIC_IE_, 
++								_WMM_IE_Length_, WMM_IE, pout_len);
++
++			pqospriv->qos_option = 1;
++		}
++
++		out_len = *pout_len;
++
++		_rtw_memset(&ht_capie, 0, sizeof(struct rtw_ieee80211_ht_cap));
++
++		ht_capie.cap_info =  IEEE80211_HT_CAP_SGI_20 | IEEE80211_HT_CAP_TX_STBC |
++							IEEE80211_HT_CAP_DSSSCCK40;
++		//if insert module set only support 20MHZ, don't add the 40MHZ and SGI_40
++		if( channel > 14 )
++		{
++			if( pregpriv->cbw40_enable & BIT(1) )
++				cbw40_enable = 1;
++		}
++		else
++			if( pregpriv->cbw40_enable & BIT(0) )
++				cbw40_enable = 1;
++
++		if ( cbw40_enable != 0 )
++			ht_capie.cap_info |= IEEE80211_HT_CAP_SUP_WIDTH | IEEE80211_HT_CAP_SGI_40;
++				
++
++
++		{
++			u32 rx_packet_offset, max_recvbuf_sz;
++			rtw_hal_get_def_var(padapter, HAL_DEF_RX_PACKET_OFFSET, &rx_packet_offset);
++			rtw_hal_get_def_var(padapter, HAL_DEF_MAX_RECVBUF_SZ, &max_recvbuf_sz);
++			//if(max_recvbuf_sz-rx_packet_offset>(8191-256)) {
++			//	DBG_871X("%s IEEE80211_HT_CAP_MAX_AMSDU is set\n", __FUNCTION__);
++			//	ht_capie.cap_info = ht_capie.cap_info |IEEE80211_HT_CAP_MAX_AMSDU;
++			//}
++		}
++		
++		ht_capie.ampdu_params_info = (IEEE80211_HT_CAP_AMPDU_FACTOR&0x03);
++
++		if(padapter->securitypriv.dot11PrivacyAlgrthm == _AES_ )
++			ht_capie.ampdu_params_info |= (IEEE80211_HT_CAP_AMPDU_DENSITY&(0x07<<2));
++		else
++			ht_capie.ampdu_params_info |= (IEEE80211_HT_CAP_AMPDU_DENSITY&0x00);										
++
++		
++		pframe = rtw_set_ie(out_ie+out_len, _HT_CAPABILITY_IE_, 
++							sizeof(struct rtw_ieee80211_ht_cap), (unsigned char*)&ht_capie, pout_len);
++
++
++		//_rtw_memcpy(out_ie+out_len, p, ielen+2);//gtest
++		//*pout_len = *pout_len + (ielen+2);
++
++							
++		phtpriv->ht_option = _TRUE;
++
++		p = rtw_get_ie(in_ie+12, _HT_ADD_INFO_IE_, &ielen, in_len-12);
++		if(p && (ielen==sizeof(struct ieee80211_ht_addt_info)))
++		{
++			out_len = *pout_len;		
++			pframe = rtw_set_ie(out_ie+out_len, _HT_ADD_INFO_IE_, ielen, p+2 , pout_len);
++		}
++
++	}
++	
++	return (phtpriv->ht_option);
++	
++}
++
++//the fucntion is > passive_level (in critical_section)
++void rtw_update_ht_cap(_adapter *padapter, u8 *pie, uint ie_len, u8 channel)
++{	
++	u8 *p, max_ampdu_sz;
++	int len;		
++	//struct sta_info *bmc_sta, *psta;	
++	struct rtw_ieee80211_ht_cap *pht_capie;
++	struct ieee80211_ht_addt_info *pht_addtinfo;
++	//struct recv_reorder_ctrl *preorder_ctrl;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct ht_priv		*phtpriv = &pmlmepriv->htpriv;
++	//struct recv_priv *precvpriv = &padapter->recvpriv;
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	//struct wlan_network *pcur_network = &(pmlmepriv->cur_network);;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);	
++	u8 cbw40_enable=0;
++
++	if(!phtpriv->ht_option)
++		return;
++
++	if ((!pmlmeinfo->HT_info_enable) || (!pmlmeinfo->HT_caps_enable))
++		return;
++
++	DBG_871X("+rtw_update_ht_cap()\n");
++
++	//maybe needs check if ap supports rx ampdu.
++	if((phtpriv->ampdu_enable==_FALSE) &&(pregistrypriv->ampdu_enable==1))
++	{
++		//In the wifi cert. test, the test Lab should turn off the AP's RX AMPDU. client doen't need to close the TX AMPDU
++		/*if(pregistrypriv->wifi_spec==1)
++		{
++			phtpriv->ampdu_enable = _FALSE;
++		}
++		else*/
++		{
++			phtpriv->ampdu_enable = _TRUE;
++		}
++	}
++	else if(pregistrypriv->ampdu_enable==2)
++	{
++		phtpriv->ampdu_enable = _TRUE;
++	}
++
++	
++	//check Max Rx A-MPDU Size 
++	len = 0;
++	p = rtw_get_ie(pie+sizeof (NDIS_802_11_FIXED_IEs), _HT_CAPABILITY_IE_, &len, ie_len-sizeof (NDIS_802_11_FIXED_IEs));
++	if(p && len>0)	
++	{
++		pht_capie = (struct rtw_ieee80211_ht_cap *)(p+2);
++		max_ampdu_sz = (pht_capie->ampdu_params_info & IEEE80211_HT_CAP_AMPDU_FACTOR);
++		max_ampdu_sz = 1 << (max_ampdu_sz+3); // max_ampdu_sz (kbytes);
++		
++		//DBG_871X("rtw_update_ht_cap(): max_ampdu_sz=%d\n", max_ampdu_sz);
++		phtpriv->rx_ampdu_maxlen = max_ampdu_sz;
++		
++	}
++
++
++	len=0;
++	p = rtw_get_ie(pie+sizeof (NDIS_802_11_FIXED_IEs), _HT_ADD_INFO_IE_, &len, ie_len-sizeof (NDIS_802_11_FIXED_IEs));
++	if(p && len>0)	
++	{
++		pht_addtinfo = (struct ieee80211_ht_addt_info *)(p+2);
++		//todo:
++	}
++
++	if( channel > 14 )
++	{
++		if( pregistrypriv->cbw40_enable & BIT(1) )
++			cbw40_enable = 1;
++	}
++	else
++		if( pregistrypriv->cbw40_enable & BIT(0) )
++			cbw40_enable = 1;
++
++
++	//update cur_bwmode & cur_ch_offset
++	if ((cbw40_enable) &&
++		(pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info & BIT(1)) && 
++		(pmlmeinfo->HT_info.infos[0] & BIT(2)))
++	{
++		int i;
++		u8	rf_type;
++
++		rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++		//update the MCS rates
++		for (i = 0; i < 16; i++)
++		{
++			if((rf_type == RF_1T1R) || (rf_type == RF_1T2R))
++			{
++				pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate[i] &= MCS_rate_1R[i];
++			}
++			else
++			{
++				#ifdef CONFIG_DISABLE_MCS13TO15
++				if(pmlmeext->cur_bwmode == HT_CHANNEL_WIDTH_40 && pregistrypriv->wifi_spec != 1 )
++				{
++					pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate[i] &= MCS_rate_2R_MCS13TO15_OFF[i];
++				}
++				else
++					pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate[i] &= MCS_rate_2R[i];
++				#else
++				pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate[i] &= MCS_rate_2R[i];
++				#endif //CONFIG_DISABLE_MCS13TO15
++			}
++			#ifdef RTL8192C_RECONFIG_TO_1T1R
++			{
++				pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate[i] &= MCS_rate_1R[i];
++			}
++			#endif
++
++			if(pregistrypriv->special_rf_path)
++				pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate[i] &= MCS_rate_1R[i];
++
++		}
++		//switch to the 40M Hz mode accoring to the AP
++		pmlmeext->cur_bwmode = HT_CHANNEL_WIDTH_40;
++		switch ((pmlmeinfo->HT_info.infos[0] & 0x3))
++		{
++			case HT_EXTCHNL_OFFSET_UPPER:
++				pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++				break;
++			
++			case HT_EXTCHNL_OFFSET_LOWER:
++				pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++				break;
++				
++			default:
++				pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++				break;
++		}		
++	}
++
++	//
++	// Config SM Power Save setting
++	//
++	pmlmeinfo->SM_PS = (pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info & 0x0C) >> 2;
++	if(pmlmeinfo->SM_PS == WLAN_HT_CAP_SM_PS_STATIC)
++	{
++		/*u8 i;
++		//update the MCS rates
++		for (i = 0; i < 16; i++)
++		{
++			pmlmeinfo->HT_caps.HT_cap_element.MCS_rate[i] &= MCS_rate_1R[i];
++		}*/
++		DBG_871X("%s(): WLAN_HT_CAP_SM_PS_STATIC\n",__FUNCTION__);
++	}
++
++	//
++	// Config current HT Protection mode.
++	//
++	pmlmeinfo->HT_protection = pmlmeinfo->HT_info.infos[1] & 0x3;
++
++	
++	
++#if 0 //move to rtw_update_sta_info_client()
++	//for A-MPDU Rx reordering buffer control for bmc_sta & sta_info
++	//if A-MPDU Rx is enabled, reseting  rx_ordering_ctrl wstart_b(indicate_seq) to default value=0xffff
++	//todo: check if AP can send A-MPDU packets
++	bmc_sta = rtw_get_bcmc_stainfo(padapter);
++	if(bmc_sta)
++	{
++		for(i=0; i < 16 ; i++)
++		{
++			//preorder_ctrl = &precvpriv->recvreorder_ctrl[i];
++			preorder_ctrl = &bmc_sta->recvreorder_ctrl[i];
++			preorder_ctrl->enable = _FALSE;
++			preorder_ctrl->indicate_seq = 0xffff;
++			#ifdef DBG_RX_SEQ
++			DBG_871X("DBG_RX_SEQ %s:%d indicate_seq:%u \n", __FUNCTION__, __LINE__,
++				preorder_ctrl->indicate_seq);
++			#endif
++			preorder_ctrl->wend_b= 0xffff;
++			preorder_ctrl->wsize_b = 64;//max_ampdu_sz;//ex. 32(kbytes) -> wsize_b=32
++		}
++	}
++
++	psta = rtw_get_stainfo(&padapter->stapriv, pcur_network->network.MacAddress);
++	if(psta)
++	{
++		for(i=0; i < 16 ; i++)
++		{
++			//preorder_ctrl = &precvpriv->recvreorder_ctrl[i];
++			preorder_ctrl = &psta->recvreorder_ctrl[i];
++			preorder_ctrl->enable = _FALSE;
++			preorder_ctrl->indicate_seq = 0xffff;
++			#ifdef DBG_RX_SEQ
++			DBG_871X("DBG_RX_SEQ %s:%d indicate_seq:%u \n", __FUNCTION__, __LINE__,
++				preorder_ctrl->indicate_seq);
++			#endif
++			preorder_ctrl->wend_b= 0xffff;
++			preorder_ctrl->wsize_b = 64;//max_ampdu_sz;//ex. 32(kbytes) -> wsize_b=32
++		}
++	}
++#endif	
++
++}
++
++void rtw_issue_addbareq_cmd(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	u8 issued;
++	int priority;
++	struct sta_info *psta=NULL;
++	struct ht_priv	*phtpriv;
++	struct pkt_attrib *pattrib =&pxmitframe->attrib;
++	s32 bmcst = IS_MCAST(pattrib->ra);
++
++	if(bmcst || (padapter->mlmepriv.LinkDetectInfo.bTxBusyTraffic == _FALSE))
++		return;
++	
++	priority = pattrib->priority;
++
++	if (pattrib->psta)
++		psta = pattrib->psta;
++	else
++	{
++		DBG_871X("%s, call rtw_get_stainfo()\n", __func__);
++		psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++	}	
++	
++	if(psta==NULL)
++	{
++		DBG_871X("%s, psta==NUL\n", __func__);
++		return;
++	}
++
++	if(!(psta->state &_FW_LINKED))
++	{
++		DBG_871X("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++		return;
++	}	
++
++	
++	phtpriv = &psta->htpriv;
++
++	if((phtpriv->ht_option==_TRUE) && (phtpriv->ampdu_enable==_TRUE)) 
++	{
++		issued = (phtpriv->agg_enable_bitmap>>priority)&0x1;
++		issued |= (phtpriv->candidate_tid_bitmap>>priority)&0x1;
++
++		if(0==issued)
++		{
++			DBG_871X("rtw_issue_addbareq_cmd, p=%d\n", priority);
++			psta->htpriv.candidate_tid_bitmap |= BIT((u8)priority);
++			rtw_addbareq_cmd(padapter,(u8) priority, pattrib->ra);
++		}
++	}
++	
++}
++
++#endif
++
++#ifdef CONFIG_LAYER2_ROAMING
++inline void rtw_set_roaming(_adapter *adapter, u8 to_roaming)
++{
++	if (to_roaming == 0)
++		adapter->mlmepriv.to_join = _FALSE;
++	adapter->mlmepriv.to_roaming = to_roaming;
++}
++
++inline u8 rtw_to_roaming(_adapter *adapter)
++{
++	return adapter->mlmepriv.to_roaming;
++}
++
++void rtw_roaming(_adapter *padapter, struct wlan_network *tgt_network)
++{
++	_irqL irqL;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	_rtw_roaming(padapter, tgt_network);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++void _rtw_roaming(_adapter *padapter, struct wlan_network *tgt_network)
++{
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	int do_join_r;
++
++	struct wlan_network *pnetwork;
++
++	if(tgt_network != NULL)
++		pnetwork = tgt_network;
++	else
++		pnetwork = &pmlmepriv->cur_network;
++	
++	if(0 < rtw_to_roaming(padapter)) {
++		DBG_871X("roaming from %s("MAC_FMT"), length:%d\n",
++				pnetwork->network.Ssid.Ssid, MAC_ARG(pnetwork->network.MacAddress),
++				pnetwork->network.Ssid.SsidLength);
++		_rtw_memcpy(&pmlmepriv->assoc_ssid, &pnetwork->network.Ssid, sizeof(NDIS_802_11_SSID));
++
++		pmlmepriv->assoc_by_bssid = _FALSE;
++
++		while(1) {
++			if( _SUCCESS==(do_join_r=rtw_do_join(padapter)) ) {
++				break;
++			} else {
++				DBG_871X("roaming do_join return %d\n", do_join_r);
++				pmlmepriv->to_roaming--;
++				
++				if(0< rtw_to_roaming(padapter)) {
++					continue;
++				} else {
++					DBG_871X("%s(%d) -to roaming fail, indicate_disconnect\n", __FUNCTION__,__LINE__);
++					rtw_indicate_disconnect(padapter);
++					break;
++				}
++			}
++		}
++	}
++	
++}
++#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++sint rtw_buddy_adapter_up(_adapter *padapter)
++{	
++	sint res = _FALSE;
++	
++	if(padapter == NULL)
++		return res;
++
++
++	if(padapter->pbuddy_adapter == NULL)
++	{
++		res = _FALSE;
++	}
++	else if( (padapter->pbuddy_adapter->bDriverStopped) || (padapter->pbuddy_adapter->bSurpriseRemoved) ||
++		(padapter->pbuddy_adapter->bup == _FALSE) || (padapter->pbuddy_adapter->hw_init_completed == _FALSE))
++	{		
++		res = _FALSE;
++	}
++	else
++	{
++		res = _TRUE;
++	}	
++
++	return res;	
++
++}
++
++sint check_buddy_fwstate(_adapter *padapter, sint state)
++{
++	if(padapter == NULL)
++		return _FALSE;	
++	
++	if(padapter->pbuddy_adapter == NULL)
++		return _FALSE;	
++		
++	if ((state == WIFI_FW_NULL_STATE) && 
++		(padapter->pbuddy_adapter->mlmepriv.fw_state == WIFI_FW_NULL_STATE))
++		return _TRUE;
++	
++	if (padapter->pbuddy_adapter->mlmepriv.fw_state & state)
++		return _TRUE;
++
++	return _FALSE;
++}
++#endif //CONFIG_CONCURRENT_MODE
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_mlme_ext.c b/drivers/net/wireless/rtl8192cu/core/rtw_mlme_ext.c
+new file mode 100755
+index 0000000..d29a20c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_mlme_ext.c
+@@ -0,0 +1,13600 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_MLME_EXT_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <wifi.h>
++#include <rtw_mlme_ext.h>
++#include <wlan_bssdef.h>
++#include <mlme_osdep.h>
++#include <recv_osdep.h>
++
++struct mlme_handler mlme_sta_tbl[]={
++	{WIFI_ASSOCREQ,		"OnAssocReq",	&OnAssocReq},
++	{WIFI_ASSOCRSP,		"OnAssocRsp",	&OnAssocRsp},
++	{WIFI_REASSOCREQ,	"OnReAssocReq",	&OnAssocReq},
++	{WIFI_REASSOCRSP,	"OnReAssocRsp",	&OnAssocRsp},
++	{WIFI_PROBEREQ,		"OnProbeReq",	&OnProbeReq},
++	{WIFI_PROBERSP,		"OnProbeRsp",		&OnProbeRsp},
++
++	/*----------------------------------------------------------
++					below 2 are reserved
++	-----------------------------------------------------------*/
++	{0,					"DoReserved",		&DoReserved},
++	{0,					"DoReserved",		&DoReserved},
++	{WIFI_BEACON,		"OnBeacon",		&OnBeacon},
++	{WIFI_ATIM,			"OnATIM",		&OnAtim},
++	{WIFI_DISASSOC,		"OnDisassoc",		&OnDisassoc},
++	{WIFI_AUTH,			"OnAuth",		&OnAuthClient},
++	{WIFI_DEAUTH,		"OnDeAuth",		&OnDeAuth},
++	{WIFI_ACTION,		"OnAction",		&OnAction},
++};
++
++#ifdef _CONFIG_NATIVEAP_MLME_
++struct mlme_handler mlme_ap_tbl[]={
++	{WIFI_ASSOCREQ,		"OnAssocReq",	&OnAssocReq},
++	{WIFI_ASSOCRSP,		"OnAssocRsp",	&OnAssocRsp},
++	{WIFI_REASSOCREQ,	"OnReAssocReq",	&OnAssocReq},
++	{WIFI_REASSOCRSP,	"OnReAssocRsp",	&OnAssocRsp},
++	{WIFI_PROBEREQ,		"OnProbeReq",	&OnProbeReq},
++	{WIFI_PROBERSP,		"OnProbeRsp",		&OnProbeRsp},
++
++	/*----------------------------------------------------------
++					below 2 are reserved
++	-----------------------------------------------------------*/
++	{0,					"DoReserved",		&DoReserved},
++	{0,					"DoReserved",		&DoReserved},
++	{WIFI_BEACON,		"OnBeacon",		&OnBeacon},
++	{WIFI_ATIM,			"OnATIM",		&OnAtim},
++	{WIFI_DISASSOC,		"OnDisassoc",		&OnDisassoc},
++	{WIFI_AUTH,			"OnAuth",		&OnAuth},
++	{WIFI_DEAUTH,		"OnDeAuth",		&OnDeAuth},
++	{WIFI_ACTION,		"OnAction",		&OnAction},
++};
++#endif
++
++struct action_handler OnAction_tbl[]={
++	{RTW_WLAN_CATEGORY_SPECTRUM_MGMT,	 "ACTION_SPECTRUM_MGMT", on_action_spct},
++	{RTW_WLAN_CATEGORY_QOS, "ACTION_QOS", &OnAction_qos},
++	{RTW_WLAN_CATEGORY_DLS, "ACTION_DLS", &OnAction_dls},
++	{RTW_WLAN_CATEGORY_BACK, "ACTION_BACK", &OnAction_back},
++	{RTW_WLAN_CATEGORY_PUBLIC, "ACTION_PUBLIC", on_action_public},
++	{RTW_WLAN_CATEGORY_RADIO_MEASUREMENT, "ACTION_RADIO_MEASUREMENT", &DoReserved},
++	{RTW_WLAN_CATEGORY_FT, "ACTION_FT",	&DoReserved},
++	{RTW_WLAN_CATEGORY_HT,	"ACTION_HT",	&OnAction_ht},
++#ifdef CONFIG_IEEE80211W
++	{RTW_WLAN_CATEGORY_SA_QUERY, "ACTION_SA_QUERY", &OnAction_sa_query},
++#else
++	{RTW_WLAN_CATEGORY_SA_QUERY, "ACTION_SA_QUERY", &DoReserved},
++#endif //CONFIG_IEEE80211W
++	//add for CONFIG_IEEE80211W
++	{RTW_WLAN_CATEGORY_UNPROTECTED_WNM, "ACTION_UNPROTECTED_WNM", &DoReserved},
++	{RTW_WLAN_CATEGORY_SELF_PROTECTED, "ACTION_SELF_PROTECTED", &DoReserved},
++	{RTW_WLAN_CATEGORY_WMM, "ACTION_WMM", &OnAction_wmm},	
++	{RTW_WLAN_CATEGORY_P2P, "ACTION_P2P", &OnAction_p2p},	
++};
++
++
++u8	null_addr[ETH_ALEN]= {0,0,0,0,0,0};
++
++/**************************************************
++OUI definitions for the vendor specific IE
++***************************************************/
++unsigned char	RTW_WPA_OUI[] = {0x00, 0x50, 0xf2, 0x01};
++unsigned char WMM_OUI[] = {0x00, 0x50, 0xf2, 0x02};
++unsigned char	WPS_OUI[] = {0x00, 0x50, 0xf2, 0x04};
++unsigned char	P2P_OUI[] = {0x50,0x6F,0x9A,0x09};
++unsigned char	WFD_OUI[] = {0x50,0x6F,0x9A,0x0A};
++
++unsigned char	WMM_INFO_OUI[] = {0x00, 0x50, 0xf2, 0x02, 0x00, 0x01};
++unsigned char	WMM_PARA_OUI[] = {0x00, 0x50, 0xf2, 0x02, 0x01, 0x01};
++
++unsigned char WPA_TKIP_CIPHER[4] = {0x00, 0x50, 0xf2, 0x02};
++unsigned char RSN_TKIP_CIPHER[4] = {0x00, 0x0f, 0xac, 0x02};
++
++extern unsigned char REALTEK_96B_IE[];
++
++/********************************************************
++MCS rate definitions
++*********************************************************/
++#ifdef CONFIG_DISABLE_MCS13TO15
++unsigned char	MCS_rate_2R_MCS13TO15_OFF[16] = {0xff, 0x1f, 0x0, 0x0, 0x01, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0};
++unsigned char	MCS_rate_2R[16] = {0xff, 0xff, 0x0, 0x0, 0x01, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0};
++#else //CONFIG_DISABLE_MCS13TO15
++unsigned char	MCS_rate_2R[16] = {0xff, 0xff, 0x0, 0x0, 0x01, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0};
++#endif //CONFIG_DISABLE_MCS13TO15
++unsigned char	MCS_rate_1R[16] = {0xff, 0x00, 0x0, 0x0, 0x01, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0};
++
++/********************************************************
++ChannelPlan definitions
++*********************************************************/
++/*static RT_CHANNEL_PLAN	DefaultChannelPlan[RT_CHANNEL_DOMAIN_MAX] = {
++	{{1,2,3,4,5,6,7,8,9,10,11,36,40,44,48,52,56,60,64,100,104,108,112,116,132,136,140,149,153,157,161,165},32},					// 0x00, RT_CHANNEL_DOMAIN_FCC
++	{{1,2,3,4,5,6,7,8,9,10,11,36,40,44,48,52,56,60,64,100,104,108,112,116,136,140,149,153,157,161,165},31},						// 0x01, RT_CHANNEL_DOMAIN_IC
++	{{1,2,3,4,5,6,7,8,9,10,11,12,13,36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140},32},						// 0x02, RT_CHANNEL_DOMAIN_ETSI
++	{{1,2,3,4,5,6,7,8,9,10,11,12,13},13},																					// 0x03, RT_CHANNEL_DOMAIN_SPAIN
++	{{1,2,3,4,5,6,7,8,9,10,11,12,13},13},																					// 0x04, RT_CHANNEL_DOMAIN_FRANCE
++	{{1,2,3,4,5,6,7,8,9,10,11,12,13},13},																					// 0x05, RT_CHANNEL_DOMAIN_MKK
++	{{1,2,3,4,5,6,7,8,9,10,11,12,13},13},																					// 0x06, RT_CHANNEL_DOMAIN_MKK1
++	{{1,2,3,4,5,6,7,8,9,10,11,12,13,36,40,44,48,52,56,60,64},21},																// 0x07, RT_CHANNEL_DOMAIN_ISRAEL
++	{{1,2,3,4,5,6,7,8,9,10,11,12,13,14,36,40,44,48,52,56,60,64},22},															// 0x08, RT_CHANNEL_DOMAIN_TELEC
++	{{1,2,3,4,5,6,7,8,9,10,11,12,13,14},14},																				// 0x09, RT_CHANNEL_DOMAIN_GLOBAL_DOAMIN
++	{{1,2,3,4,5,6,7,8,9,10,11,12,13},13},																					// 0x0A, RT_CHANNEL_DOMAIN_WORLD_WIDE_13
++	{{1,2,3,4,5,6,7,8,9,10,11,56,60,64,100,104,108,112,116,136,140,149,153,157,161,165},26},									// 0x0B, RT_CHANNEL_DOMAIN_TAIWAN
++	{{1,2,3,4,5,6,7,8,9,10,11,12,13,149,153,157,161,165},18},																// 0x0C, RT_CHANNEL_DOMAIN_CHINA
++	{{1,2,3,4,5,6,7,8,9,10,11,36,40,44,48,52,56,60,64,149,153,157,161,165},24},												// 0x0D, RT_CHANNEL_DOMAIN_SINGAPORE_INDIA_MEXICO
++	{{1,2,3,4,5,6,7,8,9,10,11,36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,149,153,157,161,165},31},						// 0x0E, RT_CHANNEL_DOMAIN_KOREA
++	{{1,2,3,4,5,6,7,8,9,10,11,36,40,44,48,52,56,60,64},19},																	// 0x0F, RT_CHANNEL_DOMAIN_TURKEY
++	{{1,2,3,4,5,6,7,8,9,10,11,12,13,36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140},32},						// 0x10, RT_CHANNEL_DOMAIN_JAPAN
++	{{1,2,3,4,5,6,7,8,9,10,11,36,40,44,48,149,153,157,161,165},20},															// 0x11, RT_CHANNEL_DOMAIN_FCC_NO_DFS
++	{{1,2,3,4,5,6,7,8,9,10,11,12,13,36,40,44,48},17},																		// 0x12, RT_CHANNEL_DOMAIN_JAPAN_NO_DFS
++	{{1,2,3,4,5,6,7,8,9,10,11,12,13,36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140,149,153,157,161,165},37},	// 0x13, RT_CHANNEL_DOMAIN_WORLD_WIDE_5G
++	{{1,2,3,4,5,6,7,8,9,10,11,56,60,64,149,153,157,161,165},19},																// 0x14, RT_CHANNEL_DOMAIN_TAIWAN_NO_DFS
++};*/
++
++static RT_CHANNEL_PLAN_2G	RTW_ChannelPlan2G[RT_CHANNEL_DOMAIN_2G_MAX] = {
++	{{1,2,3,4,5,6,7,8,9,10,11,12,13},13},		// 0x00, RT_CHANNEL_DOMAIN_2G_WORLD , Passive scan CH 12, 13
++	{{1,2,3,4,5,6,7,8,9,10,11,12,13},13},		// 0x01, RT_CHANNEL_DOMAIN_2G_ETSI1
++	{{1,2,3,4,5,6,7,8,9,10,11},11},			// 0x02, RT_CHANNEL_DOMAIN_2G_FCC1
++	{{1,2,3,4,5,6,7,8,9,10,11,12,13,14},14},	// 0x03, RT_CHANNEL_DOMAIN_2G_MIKK1
++	{{10,11,12,13},4},						// 0x04, RT_CHANNEL_DOMAIN_2G_ETSI2
++	{{},0},									// 0x05, RT_CHANNEL_DOMAIN_2G_NULL
++};
++
++static RT_CHANNEL_PLAN_5G	RTW_ChannelPlan5G[RT_CHANNEL_DOMAIN_5G_MAX] = {
++	{{},0},																					// 0x00, RT_CHANNEL_DOMAIN_5G_NULL
++	{{36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140},19},						// 0x01, RT_CHANNEL_DOMAIN_5G_ETSI1
++	{{36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140,149,153,157,161,165},24},	// 0x02, RT_CHANNEL_DOMAIN_5G_ETSI2
++	{{36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,149,153,157,161,165},22},			// 0x03, RT_CHANNEL_DOMAIN_5G_ETSI3
++	{{36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140,149,153,157,161,165},24},	// 0x04, RT_CHANNEL_DOMAIN_5G_FCC1
++	{{36,40,44,48,149,153,157,161,165},9},														// 0x05, RT_CHANNEL_DOMAIN_5G_FCC2
++	{{36,40,44,48,52,56,60,64,149,153,157,161,165},13},											// 0x06, RT_CHANNEL_DOMAIN_5G_FCC3
++	{{36,40,44,48,52,56,60,64,149,153,157,161},12},												// 0x07, RT_CHANNEL_DOMAIN_5G_FCC4
++	{{149,153,157,161,165},5},																	// 0x08, RT_CHANNEL_DOMAIN_5G_FCC5
++	{{36,40,44,48,52,56,60,64},8},																// 0x09, RT_CHANNEL_DOMAIN_5G_FCC6
++	{{36,40,44,48,52,56,60,64,100,104,108,112,116,136,140,149,153,157,161,165},20},					// 0x0A, RT_CHANNEL_DOMAIN_5G_FCC7_IC1
++	{{36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,149,153,157,161,165},20},					// 0x0B, RT_CHANNEL_DOMAIN_5G_KCC1
++	{{36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140},19},						// 0x0C, RT_CHANNEL_DOMAIN_5G_MKK1
++	{{36,40,44,48,52,56,60,64},8},																// 0x0D, RT_CHANNEL_DOMAIN_5G_MKK2
++	{{100,104,108,112,116,120,124,128,132,136,140},11},											// 0x0E, RT_CHANNEL_DOMAIN_5G_MKK3
++	{{56,60,64,100,104,108,112,116,136,140,149,153,157,161,165},15},								// 0x0F, RT_CHANNEL_DOMAIN_5G_NCC1
++	{{56,60,64,149,153,157,161,165},8},															// 0x10, RT_CHANNEL_DOMAIN_5G_NCC2
++
++	//===== Driver self defined for old channel plan Compatible ,Remember to modify if have new channel plan definition =====
++	{{36,40,44,48,52,56,60,64,100,104,108,112,116,132,136,140,149,153,157,161,165},21},				// 0x11, RT_CHANNEL_DOMAIN_5G_FCC
++	{{36,40,44,48},4},																			// 0x12, RT_CHANNEL_DOMAIN_5G_JAPAN_NO_DFS
++	{{36,40,44,48,149,153,157,161},8},																// 0x13, RT_CHANNEL_DOMAIN_5G_FCC4_NO_DFS
++};
++
++static RT_CHANNEL_PLAN_MAP	RTW_ChannelPlanMap[RT_CHANNEL_DOMAIN_MAX] = {
++	//===== 0x00 ~ 0x1F , Old Define =====
++	{0x02,0x11},	//0x00, RT_CHANNEL_DOMAIN_FCC
++	{0x02,0x0A},	//0x01, RT_CHANNEL_DOMAIN_IC
++	{0x01,0x01},	//0x02, RT_CHANNEL_DOMAIN_ETSI
++	{0x01,0x00},	//0x03, RT_CHANNEL_DOMAIN_SPAIN
++	{0x01,0x00},	//0x04, RT_CHANNEL_DOMAIN_FRANCE
++	{0x03,0x00},	//0x05, RT_CHANNEL_DOMAIN_MKK
++	{0x03,0x00},	//0x06, RT_CHANNEL_DOMAIN_MKK1
++	{0x01,0x09},	//0x07, RT_CHANNEL_DOMAIN_ISRAEL
++	{0x03,0x09},	//0x08, RT_CHANNEL_DOMAIN_TELEC
++	{0x03,0x00},	//0x09, RT_CHANNEL_DOMAIN_GLOBAL_DOAMIN
++	{0x00,0x00},	//0x0A, RT_CHANNEL_DOMAIN_WORLD_WIDE_13
++	{0x02,0x0F},	//0x0B, RT_CHANNEL_DOMAIN_TAIWAN
++	{0x01,0x08},	//0x0C, RT_CHANNEL_DOMAIN_CHINA
++	{0x02,0x06},	//0x0D, RT_CHANNEL_DOMAIN_SINGAPORE_INDIA_MEXICO
++	{0x02,0x0B},	//0x0E, RT_CHANNEL_DOMAIN_KOREA
++	{0x02,0x09},	//0x0F, RT_CHANNEL_DOMAIN_TURKEY
++	{0x01,0x01},	//0x10, RT_CHANNEL_DOMAIN_JAPAN
++	{0x02,0x05},	//0x11, RT_CHANNEL_DOMAIN_FCC_NO_DFS
++	{0x01,0x12},	//0x12, RT_CHANNEL_DOMAIN_JAPAN_NO_DFS
++	{0x00,0x04},	//0x13, RT_CHANNEL_DOMAIN_WORLD_WIDE_5G
++	{0x02,0x10},	//0x14, RT_CHANNEL_DOMAIN_TAIWAN_NO_DFS
++	{0x00,0x12},	//0x15, RT_CHANNEL_DOMAIN_ETSI_NO_DFS
++	{0x00,0x13},	//0x16, RT_CHANNEL_DOMAIN_KOREA_NO_DFS
++	{0x03,0x12},	//0x17, RT_CHANNEL_DOMAIN_JAPAN_NO_DFS
++	{0x05,0x08},	//0x18, RT_CHANNEL_DOMAIN_PAKISTAN_NO_DFS
++	{0x02,0x08},	//0x19, RT_CHANNEL_DOMAIN_TAIWAN2_NO_DFS
++	{0x00,0x00},	//0x1A,
++	{0x00,0x00},	//0x1B,
++	{0x00,0x00},	//0x1C,
++	{0x00,0x00},	//0x1D,
++	{0x00,0x00},	//0x1E,
++	{0x05,0x04},	//0x1F, RT_CHANNEL_DOMAIN_WORLD_WIDE_ONLY_5G
++	//===== 0x20 ~ 0x7F ,New Define =====
++	{0x00,0x00},	//0x20, RT_CHANNEL_DOMAIN_WORLD_NULL
++	{0x01,0x00},	//0x21, RT_CHANNEL_DOMAIN_ETSI1_NULL
++	{0x02,0x00},	//0x22, RT_CHANNEL_DOMAIN_FCC1_NULL
++	{0x03,0x00},	//0x23, RT_CHANNEL_DOMAIN_MKK1_NULL
++	{0x04,0x00},	//0x24, RT_CHANNEL_DOMAIN_ETSI2_NULL
++	{0x02,0x04},	//0x25, RT_CHANNEL_DOMAIN_FCC1_FCC1
++	{0x00,0x01},	//0x26, RT_CHANNEL_DOMAIN_WORLD_ETSI1
++	{0x03,0x0C},	//0x27, RT_CHANNEL_DOMAIN_MKK1_MKK1
++	{0x00,0x0B},	//0x28, RT_CHANNEL_DOMAIN_WORLD_KCC1
++	{0x00,0x05},	//0x29, RT_CHANNEL_DOMAIN_WORLD_FCC2
++	{0x00,0x00},	//0x2A,
++	{0x00,0x00},	//0x2B,
++	{0x00,0x00},	//0x2C,
++	{0x00,0x00},	//0x2D,
++	{0x00,0x00},	//0x2E,
++	{0x00,0x00},	//0x2F,
++	{0x00,0x06},	//0x30, RT_CHANNEL_DOMAIN_WORLD_FCC3
++	{0x00,0x07},	//0x31, RT_CHANNEL_DOMAIN_WORLD_FCC4
++	{0x00,0x08},	//0x32, RT_CHANNEL_DOMAIN_WORLD_FCC5
++	{0x00,0x09},	//0x33, RT_CHANNEL_DOMAIN_WORLD_FCC6
++	{0x02,0x0A},	//0x34, RT_CHANNEL_DOMAIN_FCC1_FCC7
++	{0x00,0x02},	//0x35, RT_CHANNEL_DOMAIN_WORLD_ETSI2
++	{0x00,0x03},	//0x36, RT_CHANNEL_DOMAIN_WORLD_ETSI3
++	{0x03,0x0D},	//0x37, RT_CHANNEL_DOMAIN_MKK1_MKK2
++	{0x03,0x0E},	//0x38, RT_CHANNEL_DOMAIN_MKK1_MKK3
++	{0x02,0x0F},	//0x39, RT_CHANNEL_DOMAIN_FCC1_NCC1
++	{0x00,0x00},	//0x3A,
++	{0x00,0x00},	//0x3B,
++	{0x00,0x00},	//0x3C,
++	{0x00,0x00},	//0x3D,
++	{0x00,0x00},	//0x3E,
++	{0x00,0x00},	//0x3F,
++	{0x02,0x10},	//0x40, RT_CHANNEL_DOMAIN_FCC1_NCC2
++};
++
++static RT_CHANNEL_PLAN_MAP	RTW_CHANNEL_PLAN_MAP_REALTEK_DEFINE = {0x03,0x02}; //use the conbination for max channel numbers
++
++/*
++ * Search the @param ch in given @param ch_set
++ * @ch_set: the given channel set
++ * @ch: the given channel number
++ * 
++ * return the index of channel_num in channel_set, -1 if not found
++ */
++int rtw_ch_set_search_ch(RT_CHANNEL_INFO *ch_set, const u32 ch)
++{
++	int i;
++	for(i=0;ch_set[i].ChannelNum!=0;i++){
++		if(ch == ch_set[i].ChannelNum)
++			break;
++	}
++	
++	if(i >= ch_set[i].ChannelNum)
++		return -1;
++	return i;
++}
++
++/*
++ * Check the @param ch is fit with setband setting of @param adapter
++ * @adapter: the given adapter
++ * @ch: the given channel number
++ * 
++ * return _TRUE when check valid, _FALSE not valid
++ */
++bool rtw_mlme_band_check(_adapter *adapter, const u32 ch)
++{
++	if (adapter->setband == GHZ24_50 /* 2.4G and 5G */
++		|| (adapter->setband == GHZ_24 && ch < 35) /* 2.4G only */
++		|| (adapter->setband == GHZ_50 && ch > 35) /* 5G only */
++	) {
++		return _TRUE;
++	}
++	return _FALSE;
++}
++
++/****************************************************************************
++
++Following are the initialization functions for WiFi MLME
++
++*****************************************************************************/
++
++int init_hw_mlme_ext(_adapter *padapter)
++{
++	struct	mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	//set_opmode_cmd(padapter, infra_client_with_mlme);//removed
++
++	set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++
++	return _SUCCESS;
++}
++
++static void init_mlme_ext_priv_value(_adapter* padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	//unsigned char default_channel_set[MAX_CHANNEL_NUM] = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 0, 0};
++	unsigned char	mixed_datarate[NumRates] = {_1M_RATE_, _2M_RATE_, _5M_RATE_, _11M_RATE_, _6M_RATE_,_9M_RATE_, _12M_RATE_, _18M_RATE_, _24M_RATE_, _36M_RATE_, _48M_RATE_, _54M_RATE_, 0xff};
++	unsigned char	mixed_basicrate[NumRates] ={_1M_RATE_, _2M_RATE_, _5M_RATE_, _11M_RATE_, _6M_RATE_, _12M_RATE_, _24M_RATE_, 0xff,};
++
++	ATOMIC_SET(&pmlmeext->event_seq, 0);
++	pmlmeext->mgnt_seq = 0;//reset to zero when disconnect at client mode
++#ifdef CONFIG_IEEE80211W
++	pmlmeext->sa_query_seq = 0;
++	pmlmeext->mgnt_80211w_IPN=0;
++	pmlmeext->mgnt_80211w_IPN_rx=0;
++#endif //CONFIG_IEEE80211W
++	pmlmeext->cur_channel = padapter->registrypriv.channel;
++	pmlmeext->cur_bwmode = HT_CHANNEL_WIDTH_20;
++	pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++	pmlmeext->retry = 0;
++
++	pmlmeext->cur_wireless_mode = padapter->registrypriv.wireless_mode;
++
++	//_rtw_memcpy(pmlmeext->channel_set, DefaultChannelPlan[padapter->mlmepriv.ChannelPlan].Channel, DefaultChannelPlan[padapter->mlmepriv.ChannelPlan].Len);
++	//_rtw_memcpy(pmlmeext->channel_set, default_channel_set, MAX_CHANNEL_NUM);
++	_rtw_memcpy(pmlmeext->datarate, mixed_datarate, NumRates);
++	_rtw_memcpy(pmlmeext->basicrate, mixed_basicrate, NumRates);
++
++	if(pmlmeext->cur_channel > 14)
++		pmlmeext->tx_rate = IEEE80211_OFDM_RATE_6MB;
++	else
++		pmlmeext->tx_rate = IEEE80211_CCK_RATE_1MB;
++
++	pmlmeext->sitesurvey_res.state = SCAN_DISABLE;
++	pmlmeext->sitesurvey_res.channel_idx = 0;
++	pmlmeext->sitesurvey_res.bss_cnt = 0;
++	pmlmeext->scan_abort = _FALSE;
++
++	pmlmeinfo->state = WIFI_FW_NULL_STATE;
++	pmlmeinfo->reauth_count = 0;
++	pmlmeinfo->reassoc_count = 0;
++	pmlmeinfo->link_count = 0;
++	pmlmeinfo->auth_seq = 0;
++	pmlmeinfo->auth_algo = dot11AuthAlgrthm_Open;
++	pmlmeinfo->key_index = 0;
++	pmlmeinfo->iv = 0;
++
++	pmlmeinfo->enc_algo = _NO_PRIVACY_;
++	pmlmeinfo->authModeToggle = 0;
++
++	_rtw_memset(pmlmeinfo->chg_txt, 0, 128);
++
++	pmlmeinfo->slotTime = SHORT_SLOT_TIME;
++	pmlmeinfo->preamble_mode = PREAMBLE_AUTO;
++
++	pmlmeinfo->dialogToken = 0;
++
++	pmlmeext->action_public_rxseq = 0xffff;
++	pmlmeext->action_public_dialog_token = 0xff;
++}
++
++static int has_channel(RT_CHANNEL_INFO *channel_set,
++					   u8 chanset_size,
++					   u8 chan) {
++	int i;
++
++	for (i = 0; i < chanset_size; i++) {
++		if (channel_set[i].ChannelNum == chan) {
++			return 1;
++		}
++	}
++
++	return 0;
++}
++
++static void init_channel_list(_adapter *padapter, RT_CHANNEL_INFO *channel_set,
++							  u8 chanset_size,
++							  struct p2p_channels *channel_list) {
++
++	struct p2p_oper_class_map op_class[] = {
++		{ IEEE80211G,  81,   1,  13,  1, BW20 },
++		{ IEEE80211G,  82,  14,  14,  1, BW20 },
++#if 0 /* Do not enable HT40 on 2 GHz */
++		{ IEEE80211G,  83,   1,   9,  1, BW40PLUS },
++		{ IEEE80211G,  84,   5,  13,  1, BW40MINUS },
++#endif
++		{ IEEE80211A, 115,  36,  48,  4, BW20 },
++		{ IEEE80211A, 116,  36,  44,  8, BW40PLUS },
++		{ IEEE80211A, 117,  40,  48,  8, BW40MINUS },
++		{ IEEE80211A, 124, 149, 161,  4, BW20 },
++		{ IEEE80211A, 125, 149, 169,  4, BW20 },
++		{ IEEE80211A, 126, 149, 157,  8, BW40PLUS },
++		{ IEEE80211A, 127, 153, 161,  8, BW40MINUS },
++		{ -1, 0, 0, 0, 0, BW20 }
++	};
++
++	int cla, op;
++
++	cla = 0;
++
++	for (op = 0; op_class[op].op_class; op++) {
++		u8 ch;
++		struct p2p_oper_class_map *o = &op_class[op];
++		struct p2p_reg_class *reg = NULL;
++
++		for (ch = o->min_chan; ch <= o->max_chan; ch += o->inc) {
++			if (!has_channel(channel_set, chanset_size, ch)) {
++				continue;
++			}
++
++			if ((0 == padapter->registrypriv.ht_enable) && (8 == o->inc))
++				continue;
++
++			if ((0 == (padapter->registrypriv.cbw40_enable & BIT(1))) &&
++				((BW40MINUS == o->bw) || (BW40PLUS == o->bw)))
++				continue;
++				
++			if (reg == NULL) {
++				reg = &channel_list->reg_class[cla];
++				cla++;
++				reg->reg_class = o->op_class;
++				reg->channels = 0;
++			}
++			reg->channel[reg->channels] = ch;
++			reg->channels++;
++		}
++	}
++	channel_list->reg_classes = cla;
++
++}
++
++static u8 init_channel_set(_adapter* padapter, u8 ChannelPlan, RT_CHANNEL_INFO *channel_set)
++{
++	u8	index,chanset_size = 0;
++	u8	b5GBand = _FALSE, b2_4GBand = _FALSE;
++	u8	Index2G = 0, Index5G=0;
++
++	_rtw_memset(channel_set, 0, sizeof(RT_CHANNEL_INFO)*MAX_CHANNEL_NUM);
++
++	if(ChannelPlan >= RT_CHANNEL_DOMAIN_MAX && ChannelPlan != RT_CHANNEL_DOMAIN_REALTEK_DEFINE)
++	{
++		DBG_871X("ChannelPlan ID %x error !!!!!\n",ChannelPlan);
++		return chanset_size;
++	}
++
++	if(padapter->registrypriv.wireless_mode & WIRELESS_11G)
++	{
++		b2_4GBand = _TRUE;
++		if(RT_CHANNEL_DOMAIN_REALTEK_DEFINE == ChannelPlan)
++			Index2G = RTW_CHANNEL_PLAN_MAP_REALTEK_DEFINE.Index2G;
++		else
++			Index2G = RTW_ChannelPlanMap[ChannelPlan].Index2G;
++	}
++
++	if(padapter->registrypriv.wireless_mode & WIRELESS_11A)
++	{
++		b5GBand = _TRUE;
++		if(RT_CHANNEL_DOMAIN_REALTEK_DEFINE == ChannelPlan)
++			Index5G = RTW_CHANNEL_PLAN_MAP_REALTEK_DEFINE.Index5G;
++		else
++			Index5G = RTW_ChannelPlanMap[ChannelPlan].Index5G;
++	}
++
++	if(b2_4GBand)
++	{
++		for(index=0;index<RTW_ChannelPlan2G[Index2G].Len;index++)
++		{
++			channel_set[chanset_size].ChannelNum = RTW_ChannelPlan2G[Index2G].Channel[index];
++
++			if(RT_CHANNEL_DOMAIN_GLOBAL_DOAMIN == ChannelPlan) //Channel 1~11 is active, and 12~14 is passive
++			{
++				if(channel_set[chanset_size].ChannelNum >= 1 && channel_set[chanset_size].ChannelNum <= 11)
++					channel_set[chanset_size].ScanType = SCAN_ACTIVE;
++				else if((channel_set[chanset_size].ChannelNum  >= 12 && channel_set[chanset_size].ChannelNum  <= 14))
++					channel_set[chanset_size].ScanType  = SCAN_PASSIVE;			
++			}
++			else if(RT_CHANNEL_DOMAIN_WORLD_WIDE_13 == ChannelPlan ||
++				RT_CHANNEL_DOMAIN_WORLD_WIDE_5G == ChannelPlan ||
++				RT_CHANNEL_DOMAIN_2G_WORLD == Index2G)// channel 12~13, passive scan
++			{
++				if(channel_set[chanset_size].ChannelNum <= 11)
++					channel_set[chanset_size].ScanType = SCAN_ACTIVE;
++				else
++					channel_set[chanset_size].ScanType = SCAN_PASSIVE;
++			}
++			else
++			{
++				channel_set[chanset_size].ScanType = SCAN_ACTIVE;
++			}
++
++			chanset_size++;
++		}
++	}
++
++	if(b5GBand)
++	{
++		for(index=0;index<RTW_ChannelPlan5G[Index5G].Len;index++)
++		{
++#ifdef CONFIG_DFS
++			channel_set[chanset_size].ChannelNum = RTW_ChannelPlan5G[Index5G].Channel[index];
++			if ( channel_set[chanset_size].ChannelNum <= 48 
++				|| channel_set[chanset_size].ChannelNum >= 149 )
++			{
++				if(RT_CHANNEL_DOMAIN_WORLD_WIDE_5G == ChannelPlan)//passive scan for all 5G channels
++					channel_set[chanset_size].ScanType = SCAN_PASSIVE;
++				else
++					channel_set[chanset_size].ScanType = SCAN_ACTIVE;
++			}
++			else
++			{
++				channel_set[chanset_size].ScanType = SCAN_PASSIVE;
++			}
++			chanset_size++;
++#else /* CONFIG_DFS */
++			if ( RTW_ChannelPlan5G[Index5G].Channel[index] <= 48 
++				|| RTW_ChannelPlan5G[Index5G].Channel[index] >= 149 ) {
++				channel_set[chanset_size].ChannelNum = RTW_ChannelPlan5G[Index5G].Channel[index];
++				if(RT_CHANNEL_DOMAIN_WORLD_WIDE_5G == ChannelPlan)//passive scan for all 5G channels
++					channel_set[chanset_size].ScanType = SCAN_PASSIVE;
++				else
++					channel_set[chanset_size].ScanType = SCAN_ACTIVE;
++				DBG_871X("%s(): channel_set[%d].ChannelNum = %d\n", __FUNCTION__, chanset_size, channel_set[chanset_size].ChannelNum);
++				chanset_size++;
++			}
++#endif /* CONFIG_DFS */
++		}
++	}
++
++	return chanset_size;
++}
++
++int	init_mlme_ext_priv(_adapter* padapter)
++{
++	int	res = _SUCCESS;
++	struct registry_priv* pregistrypriv = &padapter->registrypriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	// We don't need to memset padapter->XXX to zero, because adapter is allocated by rtw_zvmalloc().
++	//_rtw_memset((u8 *)pmlmeext, 0, sizeof(struct mlme_ext_priv));
++
++	pmlmeext->padapter = padapter;
++
++	//fill_fwpriv(padapter, &(pmlmeext->fwpriv));
++
++	init_mlme_ext_priv_value(padapter);
++	pmlmeinfo->bAcceptAddbaReq = pregistrypriv->bAcceptAddbaReq;
++	
++	init_mlme_ext_timer(padapter);
++
++#ifdef CONFIG_AP_MODE
++	init_mlme_ap_info(padapter);	
++#endif
++
++	pmlmeext->max_chan_nums = init_channel_set(padapter, pmlmepriv->ChannelPlan,pmlmeext->channel_set);
++	init_channel_list(padapter, pmlmeext->channel_set, pmlmeext->max_chan_nums, &pmlmeext->channel_list);
++	
++	pmlmeext->chan_scan_time = SURVEY_TO;
++	pmlmeext->mlmeext_init = _TRUE;
++
++
++#ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK	
++	pmlmeext->active_keep_alive_check = _TRUE;
++#endif
++
++	return res;
++
++}
++
++void free_mlme_ext_priv (struct mlme_ext_priv *pmlmeext)
++{
++	_adapter *padapter = pmlmeext->padapter;
++
++	if (!padapter)
++		return;
++
++	if (padapter->bDriverStopped == _TRUE)
++	{
++		_cancel_timer_ex(&pmlmeext->survey_timer);
++		_cancel_timer_ex(&pmlmeext->link_timer);
++		//_cancel_timer_ex(&pmlmeext->ADDBA_timer);
++	}
++}
++
++static u8 cmp_pkt_chnl_diff(_adapter *padapter,u8* pframe,uint packet_len)
++{	// if the channel is same, return 0. else return channel differential	
++	uint len;
++	u8 channel;	
++	u8 *p;		
++	p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + _BEACON_IE_OFFSET_, _DSSET_IE_, &len, packet_len - _BEACON_IE_OFFSET_);	
++	if (p)	
++	{	
++		channel = *(p + 2);		
++		if(padapter->mlmeextpriv.cur_channel >= channel)		
++		{			
++			return (padapter->mlmeextpriv.cur_channel - channel);		
++		}		
++		else		
++		{			
++			return (channel-padapter->mlmeextpriv.cur_channel);		
++		}	
++	}	
++	else
++	{		
++		return 0;	
++	}
++}
++
++static void _mgt_dispatcher(_adapter *padapter, struct mlme_handler *ptable, union recv_frame *precv_frame)
++{
++	u8 bc_addr[ETH_ALEN] = {0xff,0xff,0xff,0xff,0xff,0xff};
++	u8 *pframe = precv_frame->u.hdr.rx_data; 
++
++	  if(ptable->func)
++        {
++       	 //receive the frames that ra(a1) is my address or ra(a1) is bc address.
++		if (!_rtw_memcmp(GetAddr1Ptr(pframe), myid(&padapter->eeprompriv), ETH_ALEN) &&
++			!_rtw_memcmp(GetAddr1Ptr(pframe), bc_addr, ETH_ALEN)) 
++		{
++			return;
++		}
++		
++		ptable->func(padapter, precv_frame);
++        }
++	
++}
++
++void mgt_dispatcher(_adapter *padapter, union recv_frame *precv_frame)
++{
++	int index;
++	struct mlme_handler *ptable;
++#ifdef CONFIG_AP_MODE
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++#endif //CONFIG_AP_MODE
++	u8 bc_addr[ETH_ALEN] = {0xff,0xff,0xff,0xff,0xff,0xff};
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	struct sta_info *psta = rtw_get_stainfo(&padapter->stapriv, GetAddr2Ptr(pframe));
++
++	RT_TRACE(_module_rtl871x_mlme_c_, _drv_info_,
++		 ("+mgt_dispatcher: type(0x%x) subtype(0x%x)\n",
++		  GetFrameType(pframe), GetFrameSubType(pframe)));
++
++#if 0
++	{
++		u8 *pbuf;
++		pbuf = GetAddr1Ptr(pframe);
++		DBG_871X("A1-%x:%x:%x:%x:%x:%x\n", *pbuf, *(pbuf+1), *(pbuf+2), *(pbuf+3), *(pbuf+4), *(pbuf+5));
++		pbuf = GetAddr2Ptr(pframe);
++		DBG_871X("A2-%x:%x:%x:%x:%x:%x\n", *pbuf, *(pbuf+1), *(pbuf+2), *(pbuf+3), *(pbuf+4), *(pbuf+5));
++		pbuf = GetAddr3Ptr(pframe);
++		DBG_871X("A3-%x:%x:%x:%x:%x:%x\n", *pbuf, *(pbuf+1), *(pbuf+2), *(pbuf+3), *(pbuf+4), *(pbuf+5));
++	}
++#endif
++
++	if (GetFrameType(pframe) != WIFI_MGT_TYPE)
++	{
++		RT_TRACE(_module_rtl871x_mlme_c_, _drv_err_, ("mgt_dispatcher: type(0x%x) error!\n", GetFrameType(pframe)));
++		return;
++	}
++
++	//receive the frames that ra(a1) is my address or ra(a1) is bc address.
++	if (!_rtw_memcmp(GetAddr1Ptr(pframe), myid(&padapter->eeprompriv), ETH_ALEN) &&
++		!_rtw_memcmp(GetAddr1Ptr(pframe), bc_addr, ETH_ALEN))
++	{
++		return;
++	}
++
++	ptable = mlme_sta_tbl;
++
++	index = GetFrameSubType(pframe) >> 4;
++
++#ifdef CONFIG_TDLS
++	if((index << 4)==WIFI_ACTION){
++		//category==RTW_WLAN_CATEGORY_PUBLIC, action==TDLS_DISCOVERY_RESPONSE
++		if(*(pframe + IEEE80211_MGMT_HDR_LEN ) == RTW_WLAN_CATEGORY_PUBLIC
++			&& *(pframe + IEEE80211_MGMT_HDR_LEN + 1) == TDLS_DISCOVERY_RESPONSE )
++		{
++			DBG_871X("recv tdls discovery response frame\n");
++			On_TDLS_Dis_Rsp(padapter, precv_frame);
++		}
++	}
++#endif //CONFIG_TDLS
++
++	if (index > 13)
++	{
++		RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("Currently we do not support reserved sub-fr-type=%d\n", index));
++		return;
++	}
++	ptable += index;
++
++#if 1
++	if (psta != NULL)
++	{
++		if (GetRetry(pframe))
++		{
++			if (precv_frame->u.hdr.attrib.seq_num == psta->RxMgmtFrameSeqNum)
++			{
++				/* drop the duplicate management frame */
++				DBG_871X("Drop duplicate management frame with seq_num = %d.\n", precv_frame->u.hdr.attrib.seq_num);
++				return;
++			}
++		}
++		psta->RxMgmtFrameSeqNum = precv_frame->u.hdr.attrib.seq_num;
++	}
++#else
++
++	if(GetRetry(pframe))
++	{
++		//RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("drop due to decache!\n"));
++		//return;
++	}
++#endif
++
++#ifdef CONFIG_AP_MODE
++	switch (GetFrameSubType(pframe)) 
++	{
++		case WIFI_AUTH:
++			if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++				ptable->func = &OnAuth;
++			else
++				ptable->func = &OnAuthClient;
++			//pass through
++		case WIFI_ASSOCREQ:
++		case WIFI_REASSOCREQ:
++			_mgt_dispatcher(padapter, ptable, precv_frame);	
++#ifdef CONFIG_HOSTAPD_MLME				
++			if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++				rtw_hostapd_mlme_rx(padapter, precv_frame);
++#endif			
++			break;
++		case WIFI_PROBEREQ:
++			if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++			{
++#ifdef CONFIG_HOSTAPD_MLME		
++				rtw_hostapd_mlme_rx(padapter, precv_frame);		
++#else
++				_mgt_dispatcher(padapter, ptable, precv_frame);
++#endif
++			}
++			else
++				_mgt_dispatcher(padapter, ptable, precv_frame);
++			break;
++		case WIFI_BEACON:			
++			_mgt_dispatcher(padapter, ptable, precv_frame);
++			break;
++		case WIFI_ACTION:
++			//if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++			_mgt_dispatcher(padapter, ptable, precv_frame);		
++			break;
++		default:
++			_mgt_dispatcher(padapter, ptable, precv_frame);	
++			if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++				rtw_hostapd_mlme_rx(padapter, precv_frame);			
++			break;
++	}
++#else
++
++	_mgt_dispatcher(padapter, ptable, precv_frame);	
++	
++#endif
++
++}
++
++#ifdef CONFIG_P2P
++u32 p2p_listen_state_process(_adapter *padapter, unsigned char *da)
++{
++	bool response = _TRUE;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if( padapter->wdinfo.driver_interface == DRIVER_CFG80211 )
++	{
++		if (wdev_to_priv(padapter->rtw_wdev)->p2p_enabled == _FALSE
++			|| padapter->mlmepriv.wps_probe_resp_ie == NULL
++			|| padapter->mlmepriv.p2p_probe_resp_ie == NULL
++		)
++		{
++			DBG_871X("DON'T issue_probersp_p2p: p2p_enabled:%d, wps_probe_resp_ie:%p, p2p_probe_resp_ie:%p\n",
++				wdev_to_priv(padapter->rtw_wdev)->p2p_enabled,
++				padapter->mlmepriv.wps_probe_resp_ie,
++				padapter->mlmepriv.p2p_probe_resp_ie);
++			response = _FALSE;
++		}
++	}
++	else
++#endif //CONFIG_IOCTL_CFG80211
++	if( padapter->wdinfo.driver_interface == DRIVER_WEXT )
++	{
++		//	do nothing if the device name is empty
++		if ( !padapter->wdinfo.device_name_len )
++		{
++			response	= _FALSE;
++		}
++	}
++
++	if (response == _TRUE)
++		issue_probersp_p2p( padapter, da);
++	
++	return _SUCCESS;
++}
++#endif //CONFIG_P2P
++
++
++/****************************************************************************
++
++Following are the callback functions for each subtype of the management frames
++
++*****************************************************************************/
++
++unsigned int OnProbeReq(_adapter *padapter, union recv_frame *precv_frame)
++{
++	unsigned int	ielen;
++	unsigned char	*p;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX 	*cur = &(pmlmeinfo->network);
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint len = precv_frame->u.hdr.len;
++	u8 is_valid_p2p_probereq = _FALSE;
++
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	struct rx_pkt_attrib	*pattrib = &precv_frame->u.hdr.attrib;
++	u8 wifi_test_chk_rate = 1;
++	
++	if (	!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE) && 
++		!rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE) && 
++		!rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT) &&
++		!rtw_p2p_chk_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH) &&
++		!rtw_p2p_chk_state(pwdinfo, P2P_STATE_SCAN)
++	   )
++	{
++		//	Commented by Albert 2011/03/17
++		//	mcs_rate = 0 -> CCK 1M rate
++		//	mcs_rate = 1 -> CCK 2M rate
++		//	mcs_rate = 2 -> CCK 5.5M rate
++		//	mcs_rate = 3 -> CCK 11M rate
++		//	In the P2P mode, the driver should not support the CCK rate
++
++		//	Commented by Kurt 2012/10/16
++		//	IOT issue: Google Nexus7 use 1M rate to send p2p_probe_req after GO nego completed and Nexus7 is client
++#ifdef CONFIG_WIFI_TEST
++		if ( pattrib->mcs_rate <= 3 )
++		{
++			wifi_test_chk_rate = 0;
++		}
++#endif //CONFIG_WIFI_TEST
++
++		if( wifi_test_chk_rate == 1 )
++		{
++			if((is_valid_p2p_probereq = process_probe_req_p2p_ie(pwdinfo, pframe, len)) == _TRUE)
++			{
++				if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_DEVICE))
++				{
++					p2p_listen_state_process( padapter,  get_sa(pframe));
++
++					return _SUCCESS;	
++				}
++
++				if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++				{
++					goto _continue;
++				}
++			}
++		}
++	}
++
++_continue:
++#endif //CONFIG_P2P
++
++	if(check_fwstate(pmlmepriv, WIFI_STATION_STATE))
++	{
++		return _SUCCESS;
++	}
++
++	if(check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE && 
++		check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE|WIFI_AP_STATE)==_FALSE)
++	{
++		return _SUCCESS;
++	}
++
++
++	//DBG_871X("+OnProbeReq\n");
++
++#ifdef CONFIG_AUTO_AP_MODE
++	if(check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE &&
++			pmlmepriv->cur_network.join_res == _TRUE)
++	{
++		_irqL	irqL;
++		struct sta_info	*psta;
++		u8 *mac_addr, *peer_addr;
++		struct sta_priv *pstapriv = &padapter->stapriv;
++		u8 RC_OUI[4]={0x00,0xE0,0x4C,0x0A};
++		//EID[1] + EID_LEN[1] + RC_OUI[4] + MAC[6] + PairingID[2] + ChannelNum[2]
++
++		p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + _PROBEREQ_IE_OFFSET_, _VENDOR_SPECIFIC_IE_, (int *)&ielen,
++			len - WLAN_HDR_A3_LEN - _PROBEREQ_IE_OFFSET_);
++
++		if(!p || ielen !=14)
++			goto _non_rc_device;
++
++		if(!_rtw_memcmp(p+2, RC_OUI, sizeof(RC_OUI)))
++			goto _non_rc_device;
++
++		if(!_rtw_memcmp(p+6, get_sa(pframe), ETH_ALEN))
++		{
++			DBG_871X("%s, do rc pairing ("MAC_FMT"), but mac addr mismatch!("MAC_FMT")\n", __FUNCTION__,
++				MAC_ARG(get_sa(pframe)), MAC_ARG(p+6));
++
++			goto _non_rc_device;
++		}
++
++		DBG_871X("%s, got the pairing device("MAC_FMT")\n", __FUNCTION__,  MAC_ARG(get_sa(pframe)));
++
++		//new a station
++		psta = rtw_get_stainfo(pstapriv, get_sa(pframe));
++		if (psta == NULL)
++		{
++			// allocate a new one
++			DBG_871X("going to alloc stainfo for rc="MAC_FMT"\n",  MAC_ARG(get_sa(pframe)));
++			psta = rtw_alloc_stainfo(pstapriv, get_sa(pframe));
++			if (psta == NULL)
++			{
++				//TODO:
++				DBG_871X(" Exceed the upper limit of supported clients...\n");
++				return _SUCCESS;
++			}
++
++			_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++			if (rtw_is_list_empty(&psta->asoc_list))
++			{
++				psta->expire_to = pstapriv->expire_to;
++				rtw_list_insert_tail(&psta->asoc_list, &pstapriv->asoc_list);
++				pstapriv->asoc_list_cnt++;
++			}
++			_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++			//generate pairing ID
++			mac_addr = myid(&(padapter->eeprompriv));
++			peer_addr = psta->hwaddr;
++			psta->pid = (u16)(((mac_addr[4]<<8) + mac_addr[5]) + ((peer_addr[4]<<8) + peer_addr[5]));
++
++			//update peer stainfo
++			psta->isrc = _TRUE;
++			//psta->aid = 0;
++			//psta->mac_id = 2;
++
++			/* get a unique AID */
++			if (psta->aid > 0) {
++				DBG_871X("old AID %d\n", psta->aid);
++			} else {
++				for (psta->aid = 1; psta->aid <= NUM_STA; psta->aid++)
++					if (pstapriv->sta_aid[psta->aid - 1] == NULL)
++						break;
++
++				if (psta->aid > pstapriv->max_num_sta) {
++					psta->aid = 0;
++					DBG_871X("no room for more AIDs\n");
++					return _SUCCESS;
++				} else {
++					pstapriv->sta_aid[psta->aid - 1] = psta;
++					DBG_871X("allocate new AID = (%d)\n", psta->aid);
++				}
++			}
++			
++			psta->qos_option = 1;
++			psta->htpriv.ht_option = _TRUE;
++			psta->ieee8021x_blocked = _FALSE;
++			psta->htpriv.ampdu_enable = _FALSE;
++			psta->htpriv.sgi = _FALSE;
++			psta->htpriv.bwmode = HT_CHANNEL_WIDTH_20;
++			psta->htpriv.ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++			//rtw_hal_set_odm_var(padapter, HAL_ODM_STA_INFO, psta, _TRUE);
++
++			psta->htpriv.agg_enable_bitmap = 0x0;//reset
++			psta->htpriv.candidate_tid_bitmap = 0x0;//reset
++
++			_rtw_memset((void*)&psta->sta_stats, 0, sizeof(struct stainfo_stats));
++
++			_enter_critical_bh(&psta->lock, &irqL);
++			psta->state |= _FW_LINKED;
++			_exit_critical_bh(&psta->lock, &irqL);
++
++			report_add_sta_event(padapter, psta->hwaddr, psta->aid);
++
++		}
++
++		issue_probersp(padapter, get_sa(pframe), _FALSE);
++
++		return _SUCCESS;
++
++	}
++
++_non_rc_device:
++
++	return _SUCCESS;
++#endif //CONFIG_AUTO_AP_MODE
++
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if(((pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE) &&
++		check_buddy_fwstate(padapter, _FW_UNDER_LINKING|_FW_UNDER_SURVEY))
++	{
++		//don't process probe req
++		return _SUCCESS;
++	}
++#endif		
++
++	p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + _PROBEREQ_IE_OFFSET_, _SSID_IE_, (int *)&ielen,
++			len - WLAN_HDR_A3_LEN - _PROBEREQ_IE_OFFSET_);
++
++
++	//check (wildcard) SSID 
++	if (p != NULL)
++	{
++		if(is_valid_p2p_probereq == _TRUE)
++		{
++			goto _issue_probersp;
++		}
++
++		if ( (ielen != 0 && _FALSE ==_rtw_memcmp((void *)(p+2), (void *)cur->Ssid.Ssid, cur->Ssid.SsidLength))
++			|| (ielen == 0 && pmlmeinfo->hidden_ssid_mode)
++		)
++		{
++			return _SUCCESS;
++		}
++
++_issue_probersp:
++
++		if(check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE && 
++			pmlmepriv->cur_network.join_res == _TRUE)
++		{
++			//DBG_871X("+issue_probersp during ap mode\n");
++			issue_probersp(padapter, get_sa(pframe), is_valid_p2p_probereq);		
++		}
++
++	}
++
++	return _SUCCESS;
++
++}
++
++unsigned int OnProbeRsp(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct sta_info		*psta;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	u8	*pframe = precv_frame->u.hdr.rx_data;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &padapter->wdinfo;
++#endif
++
++
++#ifdef CONFIG_P2P
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_PROVISION_DIS_REQ))
++	{
++		if ( _TRUE == pwdinfo->tx_prov_disc_info.benable )
++		{
++			if( _rtw_memcmp( pwdinfo->tx_prov_disc_info.peerIFAddr, GetAddr2Ptr(pframe), ETH_ALEN ) )
++			{
++				if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT))
++				{
++					pwdinfo->tx_prov_disc_info.benable = _FALSE;
++					issue_p2p_provision_request( padapter,
++												pwdinfo->tx_prov_disc_info.ssid.Ssid, 
++												pwdinfo->tx_prov_disc_info.ssid.SsidLength,
++												pwdinfo->tx_prov_disc_info.peerDevAddr );
++				}
++				else if ( rtw_p2p_chk_role(pwdinfo, P2P_ROLE_DEVICE) || rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO) )
++				{
++					pwdinfo->tx_prov_disc_info.benable = _FALSE;
++					issue_p2p_provision_request( padapter,
++												NULL, 
++												0,
++												pwdinfo->tx_prov_disc_info.peerDevAddr );
++				}
++			}		
++		}
++		return _SUCCESS;
++	}
++	else if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING))
++	{
++		if ( _TRUE == pwdinfo->nego_req_info.benable )
++		{
++			DBG_871X( "[%s] P2P State is GONEGO ING!\n", __FUNCTION__ );
++			if( _rtw_memcmp( pwdinfo->nego_req_info.peerDevAddr, GetAddr2Ptr(pframe), ETH_ALEN ) )
++			{
++				pwdinfo->nego_req_info.benable = _FALSE;
++				issue_p2p_GO_request( padapter, pwdinfo->nego_req_info.peerDevAddr);
++			}
++		}
++	}
++	else if( rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_INVITE_REQ ) )
++	{
++		if ( _TRUE == pwdinfo->invitereq_info.benable )
++		{
++			DBG_871X( "[%s] P2P_STATE_TX_INVITE_REQ!\n", __FUNCTION__ );
++			if( _rtw_memcmp( pwdinfo->invitereq_info.peer_macaddr, GetAddr2Ptr(pframe), ETH_ALEN ) )
++			{
++				pwdinfo->invitereq_info.benable = _FALSE;
++				issue_p2p_invitation_request( padapter, pwdinfo->invitereq_info.peer_macaddr );
++			}
++		}
++	}
++#endif
++
++
++	if (pmlmeext->sitesurvey_res.state == SCAN_PROCESS)
++	{
++		report_survey_event(padapter, precv_frame);	
++#ifdef CONFIG_CONCURRENT_MODE
++		report_survey_event(padapter->pbuddy_adapter, precv_frame);	
++#endif
++#ifdef CONFIG_DUALMAC_CONCURRENT
++		dc_report_survey_event(padapter, precv_frame);
++#endif
++		return _SUCCESS;
++	}
++
++	#if 0 //move to validate_recv_mgnt_frame
++	if (_rtw_memcmp(GetAddr3Ptr(pframe), get_my_bssid(&pmlmeinfo->network), ETH_ALEN))
++	{
++		if (pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)
++		{
++			if ((psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe))) != NULL)
++			{
++				psta->sta_stats.rx_mgnt_pkts++;
++			}
++		}
++	}
++	#endif
++	
++	return _SUCCESS;
++	
++}
++
++unsigned int OnBeacon(_adapter *padapter, union recv_frame *precv_frame)
++{
++	int cam_idx;
++	struct sta_info	*psta;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_priv	*pstapriv = &padapter->stapriv;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint len = precv_frame->u.hdr.len;
++	u8 *p = NULL;
++	u32 ielen = 0;
++
++#ifdef CONFIG_ATTEMPT_TO_FIX_AP_BEACON_ERROR
++	p = rtw_get_ie(pframe + sizeof(struct rtw_ieee80211_hdr_3addr) + _BEACON_IE_OFFSET_, _EXT_SUPPORTEDRATES_IE_, &ielen, precv_frame->u.hdr.len -sizeof(struct rtw_ieee80211_hdr_3addr) - _BEACON_IE_OFFSET_);
++	if ((p != NULL) && (ielen > 0))
++	{
++		if ((*(p + 1 + ielen) == 0x2D) && (*(p + 2 + ielen) != 0x2D))
++		{
++			/* Invalid value 0x2D is detected in Extended Supported Rates (ESR) IE. Try to fix the IE length to avoid failed Beacon parsing. */	
++		       	DBG_871X("[WIFIDBG] Error in ESR IE is detected in Beacon of BSSID:"MAC_FMT". Fix the length of ESR IE to avoid failed Beacon parsing.\n", MAC_ARG(GetAddr3Ptr(pframe)));
++		       	*(p + 1) = ielen - 1;
++		}
++	}
++#endif
++
++	if (pmlmeext->sitesurvey_res.state == SCAN_PROCESS)
++	{
++		report_survey_event(padapter, precv_frame);
++#ifdef CONFIG_CONCURRENT_MODE
++		report_survey_event(padapter->pbuddy_adapter, precv_frame);	
++#endif
++
++#ifdef CONFIG_DUALMAC_CONCURRENT
++		dc_report_survey_event(padapter, precv_frame);
++#endif
++
++		return _SUCCESS;
++	}
++
++	if (_rtw_memcmp(GetAddr3Ptr(pframe), get_my_bssid(&pmlmeinfo->network), ETH_ALEN))
++	{
++		if (pmlmeinfo->state & WIFI_FW_AUTH_NULL)
++		{
++			//check the vendor of the assoc AP
++			pmlmeinfo->assoc_AP_vendor = check_assoc_AP(pframe+sizeof(struct rtw_ieee80211_hdr_3addr), len-sizeof(struct rtw_ieee80211_hdr_3addr));				
++#ifdef CONFIG_P2P_PS
++			// do P2P PS Before link ? , ToDo
++			//process_p2p_ps_ie(padapter, (pframe + WLAN_HDR_A3_LEN), (len - WLAN_HDR_A3_LEN));
++#endif // CONFIG_P2P_PS
++
++			//update TSF Value
++			update_TSF(pmlmeext, pframe, len);
++
++			//start auth
++			start_clnt_auth(padapter);
++
++			return _SUCCESS;
++		}
++
++		if(((pmlmeinfo->state&0x03) == WIFI_FW_STATION_STATE) && (pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS))
++		{
++			if ((psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe))) != NULL)
++			{
++				#ifdef CONFIG_PATCH_JOIN_WRONG_CHANNEL        
++				//Merge from 8712 FW code
++				if (cmp_pkt_chnl_diff(padapter,pframe,len) != 0)        
++				{            // join wrong channel, deauth and reconnect           
++					issue_deauth(padapter, (&(pmlmeinfo->network))->MacAddress, WLAN_REASON_DEAUTH_LEAVING);
++
++					report_del_sta_event(padapter,(&(pmlmeinfo->network))->MacAddress, WLAN_REASON_JOIN_WRONG_CHANNEL);    		
++					pmlmeinfo->state &= (~WIFI_FW_ASSOC_SUCCESS);    		
++					return _SUCCESS;
++				}        
++				#endif //CONFIG_PATCH_JOIN_WRONG_CHANNEL
++
++				//update WMM, ERP in the beacon
++				//todo: the timer is used instead of the number of the beacon received
++				if ((sta_rx_pkts(psta) & 0xf) == 0)
++				{
++					//DBG_871X("update_bcn_info\n");
++					update_beacon_info(padapter, pframe, len, psta);
++				}
++				
++#ifdef CONFIG_DFS
++				process_csa_ie(padapter, pframe, len);	//channel switch announcement
++#endif //CONFIG_DFS
++
++#ifdef CONFIG_P2P_PS
++				//if(psta->ieee8021x_blocked == _FALSE) // do not allow P2P PS during EAPOL handshake ?
++				process_p2p_ps_ie(padapter, (pframe + WLAN_HDR_A3_LEN), (len - WLAN_HDR_A3_LEN));
++#endif //CONFIG_P2P_PS
++
++				#if 0 //move to validate_recv_mgnt_frame
++				psta->sta_stats.rx_mgnt_pkts++;
++				#endif
++			}
++		}
++		else if((pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE)
++		{
++			if ((psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe))) != NULL)
++			{
++				//update WMM, ERP in the beacon
++				//todo: the timer is used instead of the number of the beacon received
++				if ((sta_rx_pkts(psta) & 0xf) == 0)
++				{
++					//DBG_871X("update_bcn_info\n");
++					update_beacon_info(padapter, pframe, len, psta);
++				}
++
++				#if 0 //move to validate_recv_mgnt_frame
++				psta->sta_stats.rx_mgnt_pkts++;
++				#endif
++			}
++			else
++			{
++				//allocate a new CAM entry for IBSS station
++				if ((cam_idx = allocate_fw_sta_entry(padapter)) == NUM_STA)
++				{
++					goto _END_ONBEACON_;
++				}
++
++				//get supported rate
++				if (update_sta_support_rate(padapter, (pframe + WLAN_HDR_A3_LEN + _BEACON_IE_OFFSET_), (len - WLAN_HDR_A3_LEN - _BEACON_IE_OFFSET_), cam_idx) == _FAIL)
++				{
++					pmlmeinfo->FW_sta_info[cam_idx].status = 0;
++					goto _END_ONBEACON_;
++				}
++
++				//update TSF Value
++				update_TSF(pmlmeext, pframe, len);			
++
++				//report sta add event
++				report_add_sta_event(padapter, GetAddr2Ptr(pframe), cam_idx);
++			}
++		}
++	}
++
++_END_ONBEACON_:
++
++	return _SUCCESS;
++
++}
++
++unsigned int OnAuth(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_AP_MODE
++	_irqL irqL;
++	unsigned int	auth_mode, seq, ie_len;	
++	unsigned char	*sa, *p;	
++	u16	algorithm;
++	int	status;
++	static struct sta_info stat;	
++	struct	sta_info	*pstat=NULL;	
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 *pframe = precv_frame->u.hdr.rx_data; 
++	uint len = precv_frame->u.hdr.len;
++
++	
++#ifdef CONFIG_CONCURRENT_MODE	
++	if(((pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE) &&
++		check_buddy_fwstate(padapter, _FW_UNDER_LINKING|_FW_UNDER_SURVEY))
++	{
++		//don't process auth request;
++		return _SUCCESS;
++	}
++#endif //CONFIG_CONCURRENT_MODE
++
++	if((pmlmeinfo->state&0x03) != WIFI_FW_AP_STATE)
++		return _FAIL;
++
++	DBG_871X("+OnAuth\n");
++	
++	sa = GetAddr2Ptr(pframe);
++	
++	auth_mode = psecuritypriv->dot11AuthAlgrthm;
++	seq = cpu_to_le16(*(u16*)((SIZE_PTR)pframe + WLAN_HDR_A3_LEN + 2));
++	algorithm = cpu_to_le16(*(u16*)((SIZE_PTR)pframe + WLAN_HDR_A3_LEN));
++
++	if (GetPrivacy(pframe))
++	{	
++#if 0 //TODO: SW rtw_wep_decrypt
++		if (SWCRYPTO)
++		{
++			status = rtw_wep_decrypt(priv, pframe, pfrinfo->pktlen,
++				priv->pmib->dot1180211AuthEntry.dot11PrivacyAlgrthm);
++			if (status == FALSE)
++			{
++				SAVE_INT_AND_CLI(flags);
++				RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,"wep-decrypt a Auth frame error!\n");
++				status = _STATS_CHALLENGE_FAIL_;
++				goto auth_fail;
++			}
++		}
++
++		seq = cpu_to_le16(*(unsigned short *)((unsigned int)pframe + WLAN_HDR_A3_LEN + 4 + 2));
++		algorithm = cpu_to_le16(*(unsigned short *)((unsigned int)pframe + WLAN_HDR_A3_LEN + 4));
++#endif
++	}
++
++
++	DBG_871X("auth alg=%x, seq=%X\n", algorithm, seq);
++
++	if (auth_mode == 2 &&
++			psecuritypriv->dot11PrivacyAlgrthm != _WEP40_ &&
++			psecuritypriv->dot11PrivacyAlgrthm != _WEP104_)
++		auth_mode = 0;
++
++	if ((algorithm > 0 && auth_mode == 0) ||	// rx a shared-key auth but shared not enabled
++		(algorithm == 0 && auth_mode == 1) )	// rx a open-system auth but shared-key is enabled
++	{		
++		DBG_871X("auth rejected due to bad alg [alg=%d, auth_mib=%d] %02X%02X%02X%02X%02X%02X\n",
++			algorithm, auth_mode, sa[0], sa[1], sa[2], sa[3], sa[4], sa[5]);
++		
++		status = _STATS_NO_SUPP_ALG_;
++		
++		goto auth_fail;
++	}
++	
++#if 0 //ACL control	
++	phead = &priv->wlan_acl_list;
++	plist = phead->next;
++	//check sa
++	if (acl_mode == 1)		// 1: positive check, only those on acl_list can be connected.
++		res = FAIL;
++	else
++		res = SUCCESS;
++
++	while(plist != phead)
++	{
++		paclnode = list_entry(plist, struct rtw_wlan_acl_node, list);
++		plist = plist->next;
++		if (!memcmp((void *)sa, paclnode->addr, 6)) {
++			if (paclnode->mode & 2) { // deny
++				res = FAIL;
++				break;
++			}
++			else {
++				res = SUCCESS;
++				break;
++			}
++		}
++	}
++
++	if (res != SUCCESS) {
++		RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,"auth abort because ACL!\n");
++		return FAIL;
++	}
++#else
++	if(rtw_access_ctrl(padapter, sa) == _FALSE)
++	{
++		status = _STATS_UNABLE_HANDLE_STA_;
++		goto auth_fail;
++	}	
++#endif
++
++	pstat = rtw_get_stainfo(pstapriv, sa);
++	if (pstat == NULL)
++	{
++		// allocate a new one
++		DBG_871X("going to alloc stainfo for sa="MAC_FMT"\n",  MAC_ARG(sa));
++		pstat = rtw_alloc_stainfo(pstapriv, sa);
++		if (pstat == NULL)
++		{
++			DBG_871X(" Exceed the upper limit of supported clients...\n");
++			status = _STATS_UNABLE_HANDLE_STA_;
++			goto auth_fail;
++		}
++		
++		pstat->state = WIFI_FW_AUTH_NULL;
++		pstat->auth_seq = 0;
++		
++		//pstat->flags = 0;
++		//pstat->capability = 0;
++	}
++	else
++	{		
++		_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++		if(rtw_is_list_empty(&pstat->asoc_list)==_FALSE)
++		{			
++			rtw_list_delete(&pstat->asoc_list);
++			pstapriv->asoc_list_cnt--;
++			if (pstat->expire_to > 0)
++			{
++				//TODO: STA re_auth within expire_to
++			}
++		}
++		_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++		
++		if (seq==1) {
++			//TODO: STA re_auth and auth timeout 
++		}
++	}
++
++	_enter_critical_bh(&pstapriv->auth_list_lock, &irqL);
++	if (rtw_is_list_empty(&pstat->auth_list))
++	{		
++		rtw_list_insert_tail(&pstat->auth_list, &pstapriv->auth_list);
++		pstapriv->auth_list_cnt++;
++	}	
++	_exit_critical_bh(&pstapriv->auth_list_lock, &irqL);
++
++	if (pstat->auth_seq == 0)
++		pstat->expire_to = pstapriv->auth_to;
++
++	if ((pstat->auth_seq + 1) != seq)
++	{
++		DBG_871X("(1)auth rejected because out of seq [rx_seq=%d, exp_seq=%d]!\n",
++			seq, pstat->auth_seq+1);
++		status = _STATS_OUT_OF_AUTH_SEQ_;
++		goto auth_fail;
++	}
++
++	if (algorithm==0 && (auth_mode == 0 || auth_mode == 2))
++	{
++		if (seq == 1)
++		{
++			pstat->state &= ~WIFI_FW_AUTH_NULL;
++			pstat->state |= WIFI_FW_AUTH_SUCCESS;
++			pstat->expire_to = pstapriv->assoc_to;
++			pstat->authalg = algorithm;
++		}
++		else
++		{
++			DBG_871X("(2)auth rejected because out of seq [rx_seq=%d, exp_seq=%d]!\n",
++				seq, pstat->auth_seq+1);
++			status = _STATS_OUT_OF_AUTH_SEQ_;
++			goto auth_fail;
++		}
++	}
++	else // shared system or auto authentication
++	{
++		if (seq == 1)
++		{
++			//prepare for the challenging txt...
++			
++			//get_random_bytes((void *)pstat->chg_txt, 128);//TODO:
++			
++			pstat->state &= ~WIFI_FW_AUTH_NULL;
++			pstat->state |= WIFI_FW_AUTH_STATE;
++			pstat->authalg = algorithm;
++			pstat->auth_seq = 2;
++		}
++		else if (seq == 3)
++		{
++			//checking for challenging txt...
++			DBG_871X("checking for challenging txt...\n");
++			
++			p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + 4 + _AUTH_IE_OFFSET_ , _CHLGETXT_IE_, (int *)&ie_len,
++					len - WLAN_HDR_A3_LEN - _AUTH_IE_OFFSET_ - 4);
++
++			if((p==NULL) || (ie_len<=0))
++			{
++				DBG_871X("auth rejected because challenge failure!(1)\n");
++				status = _STATS_CHALLENGE_FAIL_;
++				goto auth_fail;
++			}
++			
++			if (_rtw_memcmp((void *)(p + 2), pstat->chg_txt, 128))
++			{
++				pstat->state &= (~WIFI_FW_AUTH_STATE);
++				pstat->state |= WIFI_FW_AUTH_SUCCESS;
++				// challenging txt is correct...
++				pstat->expire_to =  pstapriv->assoc_to;
++			}
++			else
++			{
++				DBG_871X("auth rejected because challenge failure!\n");
++				status = _STATS_CHALLENGE_FAIL_;
++				goto auth_fail;
++			}
++		}
++		else
++		{
++			DBG_871X("(3)auth rejected because out of seq [rx_seq=%d, exp_seq=%d]!\n",
++				seq, pstat->auth_seq+1);
++			status = _STATS_OUT_OF_AUTH_SEQ_;
++			goto auth_fail;
++		}
++	}
++
++
++	// Now, we are going to issue_auth...
++	pstat->auth_seq = seq + 1;	
++	
++#ifdef CONFIG_NATIVEAP_MLME
++	issue_auth(padapter, pstat, (unsigned short)(_STATS_SUCCESSFUL_));
++#endif
++
++	if (pstat->state & WIFI_FW_AUTH_SUCCESS)
++		pstat->auth_seq = 0;
++
++		
++	return _SUCCESS;
++
++auth_fail:
++
++	if(pstat)
++		rtw_free_stainfo(padapter , pstat);
++	
++	pstat = &stat;
++	_rtw_memset((char *)pstat, '\0', sizeof(stat));
++	pstat->auth_seq = 2;
++	_rtw_memcpy(pstat->hwaddr, sa, 6);	
++	
++#ifdef CONFIG_NATIVEAP_MLME
++	issue_auth(padapter, pstat, (unsigned short)status);	
++#endif
++
++#endif
++	return _FAIL;
++
++}
++
++unsigned int OnAuthClient(_adapter *padapter, union recv_frame *precv_frame)
++{
++	unsigned int	seq, len, status, algthm, offset;
++	unsigned char	*p;
++	unsigned int	go2asoc = 0;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint pkt_len = precv_frame->u.hdr.len;
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	//check A1 matches or not
++	if (!_rtw_memcmp(myid(&(padapter->eeprompriv)), get_da(pframe), ETH_ALEN))
++		return _SUCCESS;
++
++	if (!(pmlmeinfo->state & WIFI_FW_AUTH_STATE))
++		return _SUCCESS;
++
++	offset = (GetPrivacy(pframe))? 4: 0;
++
++	algthm 	= le16_to_cpu(*(unsigned short *)((SIZE_PTR)pframe + WLAN_HDR_A3_LEN + offset));
++	seq 	= le16_to_cpu(*(unsigned short *)((SIZE_PTR)pframe + WLAN_HDR_A3_LEN + offset + 2));
++	status 	= le16_to_cpu(*(unsigned short *)((SIZE_PTR)pframe + WLAN_HDR_A3_LEN + offset + 4));
++
++	if (status != 0)
++	{
++		DBG_871X("clnt auth fail, status: %d\n", status);
++		if(status == 13)//&& pmlmeinfo->auth_algo == dot11AuthAlgrthm_Auto)
++		{
++			if(pmlmeinfo->auth_algo == dot11AuthAlgrthm_Shared)
++				pmlmeinfo->auth_algo = dot11AuthAlgrthm_Open;
++			else
++				pmlmeinfo->auth_algo = dot11AuthAlgrthm_Shared;
++			//pmlmeinfo->reauth_count = 0;
++		}
++		
++		set_link_timer(pmlmeext, 1);
++		goto authclnt_fail;
++	}
++
++	if (seq == 2)
++	{
++		if (pmlmeinfo->auth_algo == dot11AuthAlgrthm_Shared)
++		{
++			 // legendary shared system
++			p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + _AUTH_IE_OFFSET_, _CHLGETXT_IE_, (int *)&len,
++				pkt_len - WLAN_HDR_A3_LEN - _AUTH_IE_OFFSET_);
++
++			if (p == NULL)
++			{
++				//DBG_871X("marc: no challenge text?\n");
++				goto authclnt_fail;
++			}
++
++			_rtw_memcpy((void *)(pmlmeinfo->chg_txt), (void *)(p + 2), len);
++			pmlmeinfo->auth_seq = 3;
++			issue_auth(padapter, NULL, 0);
++			set_link_timer(pmlmeext, REAUTH_TO);
++
++			return _SUCCESS;
++		}
++		else
++		{
++			// open system
++			go2asoc = 1;
++		}
++	}
++	else if (seq == 4)
++	{
++		if (pmlmeinfo->auth_algo == dot11AuthAlgrthm_Shared)
++		{
++			go2asoc = 1;
++		}
++		else
++		{
++			goto authclnt_fail;
++		}
++	}
++	else
++	{
++		// this is also illegal
++		//DBG_871X("marc: clnt auth failed due to illegal seq=%x\n", seq);
++		goto authclnt_fail;
++	}
++
++	if (go2asoc)
++	{
++		start_clnt_assoc(padapter);
++		return _SUCCESS;
++	}
++
++authclnt_fail:
++
++	//pmlmeinfo->state &= ~(WIFI_FW_AUTH_STATE);
++
++	return _FAIL;
++
++}
++
++unsigned int OnAssocReq(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_AP_MODE
++	_irqL irqL;
++	u16 capab_info, listen_interval;
++	struct rtw_ieee802_11_elems elems;	
++	struct sta_info	*pstat;
++	unsigned char		reassoc, *p, *pos, *wpa_ie;
++	unsigned char WMM_IE[] = {0x00, 0x50, 0xf2, 0x02, 0x00, 0x01};
++	int		i, ie_len, wpa_ie_len, left;
++	unsigned char		supportRate[16];
++	int					supportRateNum;
++	unsigned short		status = _STATS_SUCCESSFUL_;
++	unsigned short		frame_type, ie_offset=0;	
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);	
++	WLAN_BSSID_EX 	*cur = &(pmlmeinfo->network);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint pkt_len = precv_frame->u.hdr.len;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8 p2p_status_code = P2P_STATUS_SUCCESS;
++	u8 *p2pie;
++	u32 p2pielen = 0;
++#ifdef CONFIG_WFD
++	u8	wfd_ie[ 128 ] = { 0x00 };
++	u32	wfd_ielen = 0;
++#endif // CONFIG_WFD
++#endif //CONFIG_P2P
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if(((pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE) &&
++		check_buddy_fwstate(padapter, _FW_UNDER_LINKING|_FW_UNDER_SURVEY))
++	{
++		//don't process assoc request;
++		return _SUCCESS;
++	}
++#endif //CONFIG_CONCURRENT_MODE
++
++	if((pmlmeinfo->state&0x03) != WIFI_FW_AP_STATE)
++		return _FAIL;
++	
++	frame_type = GetFrameSubType(pframe);
++	if (frame_type == WIFI_ASSOCREQ)
++	{
++		reassoc = 0;
++		ie_offset = _ASOCREQ_IE_OFFSET_;
++	}	
++	else // WIFI_REASSOCREQ
++	{
++		reassoc = 1;
++		ie_offset = _REASOCREQ_IE_OFFSET_;
++	}
++	
++
++	if (pkt_len < IEEE80211_3ADDR_LEN + ie_offset) {
++		DBG_871X("handle_assoc(reassoc=%d) - too short payload (len=%lu)"
++		       "\n", reassoc, (unsigned long)pkt_len);
++		return _FAIL;
++	}
++	
++	pstat = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++	if (pstat == (struct sta_info *)NULL)
++	{
++		status = _RSON_CLS2_;
++		goto asoc_class2_error;
++	}
++
++	capab_info = RTW_GET_LE16(pframe + WLAN_HDR_A3_LEN);
++	//capab_info = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN));	
++	//listen_interval = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN+2));
++	listen_interval = RTW_GET_LE16(pframe + WLAN_HDR_A3_LEN+2);
++
++	left = pkt_len - (IEEE80211_3ADDR_LEN + ie_offset);
++	pos = pframe + (IEEE80211_3ADDR_LEN + ie_offset);
++	
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	// check if this stat has been successfully authenticated/assocated
++	if (!((pstat->state) & WIFI_FW_AUTH_SUCCESS))
++	{
++		if (!((pstat->state) & WIFI_FW_ASSOC_SUCCESS))
++		{
++			status = _RSON_CLS2_;
++			goto asoc_class2_error;
++		}
++		else
++		{
++			pstat->state &= (~WIFI_FW_ASSOC_SUCCESS);
++			pstat->state |= WIFI_FW_ASSOC_STATE;				
++		}
++	}
++	else
++	{
++		pstat->state &= (~WIFI_FW_AUTH_SUCCESS);
++		pstat->state |= WIFI_FW_ASSOC_STATE;
++	}
++
++
++#if 0// todo:tkip_countermeasures
++	if (hapd->tkip_countermeasures) {
++		resp = WLAN_REASON_MICHAEL_MIC_FAILURE;
++		goto fail;
++	}
++#endif
++
++	pstat->capability = capab_info;
++
++#if 0//todo:
++	//check listen_interval
++	if (listen_interval > hapd->conf->max_listen_interval) {
++		hostapd_logger(hapd, mgmt->sa, HOSTAPD_MODULE_IEEE80211,
++			       HOSTAPD_LEVEL_DEBUG,
++			       "Too large Listen Interval (%d)",
++			       listen_interval);
++		resp = WLAN_STATUS_ASSOC_DENIED_LISTEN_INT_TOO_LARGE;
++		goto fail;
++	}
++	
++	pstat->listen_interval = listen_interval;
++#endif
++
++	//now parse all ieee802_11 ie to point to elems
++	if (rtw_ieee802_11_parse_elems(pos, left, &elems, 1) == ParseFailed ||
++	    !elems.ssid) {
++		DBG_871X("STA " MAC_FMT " sent invalid association request\n",
++		       MAC_ARG(pstat->hwaddr));
++		status = _STATS_FAILURE_;		
++		goto OnAssocReqFail;
++	}
++
++
++	// now we should check all the fields...
++	// checking SSID
++	p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + ie_offset, _SSID_IE_, &ie_len,
++		pkt_len - WLAN_HDR_A3_LEN - ie_offset);
++	if (p == NULL)
++	{
++		status = _STATS_FAILURE_;		
++	}
++
++	if (ie_len == 0) // broadcast ssid, however it is not allowed in assocreq
++		status = _STATS_FAILURE_;
++	else
++	{
++		// check if ssid match
++		if (!_rtw_memcmp((void *)(p+2), cur->Ssid.Ssid, cur->Ssid.SsidLength))
++			status = _STATS_FAILURE_;
++
++		if (ie_len != cur->Ssid.SsidLength)
++			status = _STATS_FAILURE_;
++	}
++
++	if(_STATS_SUCCESSFUL_ != status)
++		goto OnAssocReqFail;
++
++	// check if the supported rate is ok
++	p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + ie_offset, _SUPPORTEDRATES_IE_, &ie_len, pkt_len - WLAN_HDR_A3_LEN - ie_offset);
++	if (p == NULL) {
++		DBG_871X("Rx a sta assoc-req which supported rate is empty!\n");
++		// use our own rate set as statoin used
++		//_rtw_memcpy(supportRate, AP_BSSRATE, AP_BSSRATE_LEN);
++		//supportRateNum = AP_BSSRATE_LEN;
++		
++		status = _STATS_FAILURE_;
++		goto OnAssocReqFail;
++	}
++	else {
++		_rtw_memcpy(supportRate, p+2, ie_len);
++		supportRateNum = ie_len;
++
++		p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + ie_offset, _EXT_SUPPORTEDRATES_IE_ , &ie_len,
++				pkt_len - WLAN_HDR_A3_LEN - ie_offset);
++		if (p !=  NULL) {
++			
++			if(supportRateNum<=sizeof(supportRate))
++			{
++				_rtw_memcpy(supportRate+supportRateNum, p+2, ie_len);
++				supportRateNum += ie_len;
++			}			
++		}
++	}
++
++	//todo: mask supportRate between AP & STA -> move to update raid
++	//get_matched_rate(pmlmeext, supportRate, &supportRateNum, 0);
++
++	//update station supportRate	
++	pstat->bssratelen = supportRateNum;
++	_rtw_memcpy(pstat->bssrateset, supportRate, supportRateNum);
++
++
++	//check RSN/WPA/WPS
++	pstat->dot8021xalg = 0;
++      	pstat->wpa_psk = 0;
++	pstat->wpa_group_cipher = 0;
++	pstat->wpa2_group_cipher = 0;
++	pstat->wpa_pairwise_cipher = 0;
++	pstat->wpa2_pairwise_cipher = 0;
++	_rtw_memset(pstat->wpa_ie, 0, sizeof(pstat->wpa_ie));
++	if((psecuritypriv->wpa_psk & BIT(1)) && elems.rsn_ie) {
++
++		int group_cipher=0, pairwise_cipher=0;	
++		
++		wpa_ie = elems.rsn_ie;
++		wpa_ie_len = elems.rsn_ie_len;
++
++		if(rtw_parse_wpa2_ie(wpa_ie-2, wpa_ie_len+2, &group_cipher, &pairwise_cipher) == _SUCCESS)
++		{
++			pstat->dot8021xalg = 1;//psk,  todo:802.1x						
++			pstat->wpa_psk |= BIT(1);
++
++			pstat->wpa2_group_cipher = group_cipher&psecuritypriv->wpa2_group_cipher;				
++			pstat->wpa2_pairwise_cipher = pairwise_cipher&psecuritypriv->wpa2_pairwise_cipher;
++			
++			if(!pstat->wpa2_group_cipher)
++				status = WLAN_STATUS_GROUP_CIPHER_NOT_VALID;
++
++			if(!pstat->wpa2_pairwise_cipher)
++				status = WLAN_STATUS_PAIRWISE_CIPHER_NOT_VALID;
++		}
++		else
++		{
++			status = WLAN_STATUS_INVALID_IE;
++		}	
++			
++	} else if ((psecuritypriv->wpa_psk & BIT(0)) && elems.wpa_ie) {
++
++		int group_cipher=0, pairwise_cipher=0;	
++		
++		wpa_ie = elems.wpa_ie;
++		wpa_ie_len = elems.wpa_ie_len;
++
++		if(rtw_parse_wpa_ie(wpa_ie-2, wpa_ie_len+2, &group_cipher, &pairwise_cipher) == _SUCCESS)
++		{
++			pstat->dot8021xalg = 1;//psk,  todo:802.1x						
++			pstat->wpa_psk |= BIT(0);
++
++			pstat->wpa_group_cipher = group_cipher&psecuritypriv->wpa_group_cipher;				
++			pstat->wpa_pairwise_cipher = pairwise_cipher&psecuritypriv->wpa_pairwise_cipher;
++			
++			if(!pstat->wpa_group_cipher)
++				status = WLAN_STATUS_GROUP_CIPHER_NOT_VALID;
++
++			if(!pstat->wpa_pairwise_cipher)
++				status = WLAN_STATUS_PAIRWISE_CIPHER_NOT_VALID;
++		
++		}
++		else
++		{
++			status = WLAN_STATUS_INVALID_IE;
++		}
++		
++	} else {
++		wpa_ie = NULL;
++		wpa_ie_len = 0;
++	}
++
++	if(_STATS_SUCCESSFUL_ != status)
++		goto OnAssocReqFail;
++
++	pstat->flags &= ~(WLAN_STA_WPS | WLAN_STA_MAYBE_WPS);
++	//if (hapd->conf->wps_state && wpa_ie == NULL) { //todo: to check ap if supporting WPS
++	if(wpa_ie == NULL) {
++		if (elems.wps_ie) {
++			DBG_871X("STA included WPS IE in "
++				   "(Re)Association Request - assume WPS is "
++				   "used\n");
++			pstat->flags |= WLAN_STA_WPS;
++			//wpabuf_free(sta->wps_ie);
++			//sta->wps_ie = wpabuf_alloc_copy(elems.wps_ie + 4,
++			//				elems.wps_ie_len - 4);
++		} else {
++			DBG_871X("STA did not include WPA/RSN IE "
++				   "in (Re)Association Request - possible WPS "
++				   "use\n");
++			pstat->flags |= WLAN_STA_MAYBE_WPS;
++		}
++
++
++		// AP support WPA/RSN, and sta is going to do WPS, but AP is not ready
++		// that the selected registrar of AP is _FLASE
++		if((psecuritypriv->wpa_psk >0)  
++			&& (pstat->flags & (WLAN_STA_WPS|WLAN_STA_MAYBE_WPS)))
++		{
++			if(pmlmepriv->wps_beacon_ie)
++			{	
++				u8 selected_registrar = 0;
++				
++				rtw_get_wps_attr_content(pmlmepriv->wps_beacon_ie, pmlmepriv->wps_beacon_ie_len, WPS_ATTR_SELECTED_REGISTRAR , &selected_registrar, NULL);
++
++				if(!selected_registrar)
++				{						
++					DBG_871X("selected_registrar is _FALSE , or AP is not ready to do WPS\n");
++						
++					status = _STATS_UNABLE_HANDLE_STA_;
++			
++					goto OnAssocReqFail;
++				}						
++			}			
++		}
++			
++	}
++	else
++	{
++		int copy_len;
++
++		if(psecuritypriv->wpa_psk == 0)
++		{
++			DBG_871X("STA " MAC_FMT ": WPA/RSN IE in association "
++		       	"request, but AP don't support WPA/RSN\n", MAC_ARG(pstat->hwaddr));
++			
++			status = WLAN_STATUS_INVALID_IE;
++			
++			goto OnAssocReqFail;
++
++		}
++
++		if (elems.wps_ie) {
++			DBG_871X("STA included WPS IE in "
++				   "(Re)Association Request - WPS is "
++				   "used\n");
++			pstat->flags |= WLAN_STA_WPS;
++			copy_len=0;
++		}
++		else
++		{
++			copy_len = ((wpa_ie_len+2) > sizeof(pstat->wpa_ie)) ? (sizeof(pstat->wpa_ie)):(wpa_ie_len+2);
++		}
++
++		
++		if(copy_len>0)
++			_rtw_memcpy(pstat->wpa_ie, wpa_ie-2, copy_len);
++		
++	}
++
++
++	// check if there is WMM IE & support WWM-PS
++	pstat->flags &= ~WLAN_STA_WME;
++	pstat->qos_option = 0;
++	pstat->qos_info = 0;
++	pstat->has_legacy_ac = _TRUE;
++	pstat->uapsd_vo = 0;
++	pstat->uapsd_vi = 0;
++	pstat->uapsd_be = 0;
++	pstat->uapsd_bk = 0;
++	if (pmlmepriv->qospriv.qos_option) 
++	{
++		p = pframe + WLAN_HDR_A3_LEN + ie_offset; ie_len = 0;
++		for (;;) 
++		{
++			p = rtw_get_ie(p, _VENDOR_SPECIFIC_IE_, &ie_len, pkt_len - WLAN_HDR_A3_LEN - ie_offset);
++			if (p != NULL) {
++				if (_rtw_memcmp(p+2, WMM_IE, 6)) {
++
++					pstat->flags |= WLAN_STA_WME;
++					
++					pstat->qos_option = 1;				
++					pstat->qos_info = *(p+8);
++					
++					pstat->max_sp_len = (pstat->qos_info>>5)&0x3;
++
++					if((pstat->qos_info&0xf) !=0xf)
++						pstat->has_legacy_ac = _TRUE;
++					else
++						pstat->has_legacy_ac = _FALSE;
++					
++					if(pstat->qos_info&0xf)
++					{
++						if(pstat->qos_info&BIT(0))
++							pstat->uapsd_vo = BIT(0)|BIT(1);
++						else
++							pstat->uapsd_vo = 0;
++		
++						if(pstat->qos_info&BIT(1))
++							pstat->uapsd_vi = BIT(0)|BIT(1);
++						else
++							pstat->uapsd_vi = 0;
++			
++						if(pstat->qos_info&BIT(2))
++							pstat->uapsd_bk = BIT(0)|BIT(1);
++						else
++							pstat->uapsd_bk = 0;
++			
++						if(pstat->qos_info&BIT(3))			
++							pstat->uapsd_be = BIT(0)|BIT(1);
++						else
++							pstat->uapsd_be = 0;
++		
++					}
++	
++					break;
++				}
++			}
++			else {
++				break;
++			}
++			p = p + ie_len + 2;
++		}
++	}
++
++
++#ifdef CONFIG_80211N_HT
++	/* save HT capabilities in the sta object */
++	_rtw_memset(&pstat->htpriv.ht_cap, 0, sizeof(struct rtw_ieee80211_ht_cap));
++	if (elems.ht_capabilities && elems.ht_capabilities_len >= sizeof(struct rtw_ieee80211_ht_cap)) 
++	{
++		pstat->flags |= WLAN_STA_HT;
++		
++		pstat->flags |= WLAN_STA_WME;
++		
++		_rtw_memcpy(&pstat->htpriv.ht_cap, elems.ht_capabilities, sizeof(struct rtw_ieee80211_ht_cap));			
++		
++	} else
++		pstat->flags &= ~WLAN_STA_HT;
++
++	
++	if((pmlmepriv->htpriv.ht_option == _FALSE) && (pstat->flags&WLAN_STA_HT))
++	{
++		status = _STATS_FAILURE_;
++		goto OnAssocReqFail;
++	}
++		
++
++	if ((pstat->flags & WLAN_STA_HT) &&
++		    ((pstat->wpa2_pairwise_cipher&WPA_CIPHER_TKIP) ||
++		      (pstat->wpa_pairwise_cipher&WPA_CIPHER_TKIP)))
++	{		    
++		DBG_871X("HT: " MAC_FMT " tried to "
++				   "use TKIP with HT association\n", MAC_ARG(pstat->hwaddr));
++		
++		//status = WLAN_STATUS_CIPHER_REJECTED_PER_POLICY;
++		//goto OnAssocReqFail;
++	}
++#endif /* CONFIG_80211N_HT */
++
++       //
++       //if (hapd->iface->current_mode->mode == HOSTAPD_MODE_IEEE80211G)//?
++	pstat->flags |= WLAN_STA_NONERP;	
++	for (i = 0; i < pstat->bssratelen; i++) {
++		if ((pstat->bssrateset[i] & 0x7f) > 22) {
++			pstat->flags &= ~WLAN_STA_NONERP;
++			break;
++		}
++	}
++
++	if (pstat->capability & WLAN_CAPABILITY_SHORT_PREAMBLE)
++		pstat->flags |= WLAN_STA_SHORT_PREAMBLE;
++	else
++		pstat->flags &= ~WLAN_STA_SHORT_PREAMBLE;
++
++	
++	
++	if (status != _STATS_SUCCESSFUL_)
++		goto OnAssocReqFail;
++
++#ifdef CONFIG_P2P
++	pstat->is_p2p_device = _FALSE;
++	if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++	{		
++		if( (p2pie=rtw_get_p2p_ie(pframe + WLAN_HDR_A3_LEN + ie_offset , pkt_len - WLAN_HDR_A3_LEN - ie_offset , NULL, &p2pielen)))
++		{
++			pstat->is_p2p_device = _TRUE;
++			if((p2p_status_code=(u8)process_assoc_req_p2p_ie(pwdinfo, pframe, pkt_len, pstat))>0)
++			{
++				pstat->p2p_status_code = p2p_status_code;
++				status = _STATS_CAP_FAIL_;
++				goto OnAssocReqFail;
++			}
++		}
++#ifdef CONFIG_WFD
++		if(rtw_get_wfd_ie(pframe + WLAN_HDR_A3_LEN + ie_offset , pkt_len - WLAN_HDR_A3_LEN - ie_offset , wfd_ie, &wfd_ielen ))
++		{
++			u8	attr_content[ 10 ] = { 0x00 };
++			u32	attr_contentlen = 0;
++
++			DBG_8192C( "[%s] WFD IE Found!!\n", __FUNCTION__ );
++			rtw_get_wfd_attr_content( wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, attr_content, &attr_contentlen);
++			if ( attr_contentlen )
++			{
++				pwdinfo->wfd_info->peer_rtsp_ctrlport = RTW_GET_BE16( attr_content + 2 );
++				DBG_8192C( "[%s] Peer PORT NUM = %d\n", __FUNCTION__, pwdinfo->wfd_info->peer_rtsp_ctrlport );
++			}
++		}
++#endif
++	}
++	pstat->p2p_status_code = p2p_status_code;
++#endif //CONFIG_P2P
++
++	//TODO: identify_proprietary_vendor_ie();
++	// Realtek proprietary IE
++	// identify if this is Broadcom sta
++	// identify if this is ralink sta
++	// Customer proprietary IE
++
++	
++
++	/* get a unique AID */
++	if (pstat->aid > 0) {
++		DBG_871X("  old AID %d\n", pstat->aid);
++	} else {
++		for (pstat->aid = 1; pstat->aid <= NUM_STA; pstat->aid++)
++			if (pstapriv->sta_aid[pstat->aid - 1] == NULL)
++				break;
++				
++		//if (pstat->aid > NUM_STA) {
++		if (pstat->aid > pstapriv->max_num_sta) {
++				
++			pstat->aid = 0;
++				
++			DBG_871X("  no room for more AIDs\n");
++
++			status = WLAN_STATUS_AP_UNABLE_TO_HANDLE_NEW_STA;
++				
++			goto OnAssocReqFail;
++				
++			
++		} else {
++			pstapriv->sta_aid[pstat->aid - 1] = pstat;
++			DBG_871X("allocate new AID = (%d)\n", pstat->aid);
++		}	
++	}
++
++
++	pstat->state &= (~WIFI_FW_ASSOC_STATE);	
++	pstat->state |= WIFI_FW_ASSOC_SUCCESS;
++	
++	_enter_critical_bh(&pstapriv->auth_list_lock, &irqL);
++	if (!rtw_is_list_empty(&pstat->auth_list))
++	{
++		rtw_list_delete(&pstat->auth_list);
++		pstapriv->auth_list_cnt--;
++	}
++	_exit_critical_bh(&pstapriv->auth_list_lock, &irqL);
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);	
++	if (rtw_is_list_empty(&pstat->asoc_list))
++	{
++		pstat->expire_to = pstapriv->expire_to;
++		rtw_list_insert_tail(&pstat->asoc_list, &pstapriv->asoc_list);
++		pstapriv->asoc_list_cnt++;
++	}
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	// now the station is qualified to join our BSS...	
++	if(pstat && (pstat->state & WIFI_FW_ASSOC_SUCCESS) && (_STATS_SUCCESSFUL_==status))
++	{
++#ifdef CONFIG_NATIVEAP_MLME
++		//.1 bss_cap_update & sta_info_update
++		bss_cap_update_on_sta_join(padapter, pstat);
++		sta_info_update(padapter, pstat);
++
++		//issue assoc rsp before notify station join event.
++		if (frame_type == WIFI_ASSOCREQ)
++			issue_asocrsp(padapter, status, pstat, WIFI_ASSOCRSP);
++		else
++			issue_asocrsp(padapter, status, pstat, WIFI_REASSOCRSP);
++
++		//.2 - report to upper layer 
++		DBG_871X("indicate_sta_join_event to upper layer - hostapd\n");
++
++#ifdef CONFIG_IOCTL_CFG80211
++		#ifdef COMPAT_KERNEL_RELEASE
++		rtw_cfg80211_indicate_sta_assoc(padapter, pframe, pkt_len);
++		#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) && !defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++		rtw_cfg80211_indicate_sta_assoc(padapter, pframe, pkt_len);
++		#else //(LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) && !defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++		_enter_critical_bh(&pstat->lock, &irqL);
++		if(pstat->passoc_req)
++		{
++			rtw_mfree(pstat->passoc_req, pstat->assoc_req_len);
++			pstat->passoc_req = NULL;
++			pstat->assoc_req_len = 0;
++		}
++
++		pstat->passoc_req =  rtw_zmalloc(pkt_len);
++		if(pstat->passoc_req)
++		{
++			_rtw_memcpy(pstat->passoc_req, pframe, pkt_len);
++			pstat->assoc_req_len = pkt_len;
++		}
++		_exit_critical_bh(&pstat->lock, &irqL);		
++		#endif //(LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) && !defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++#else
++		rtw_indicate_sta_assoc_event(padapter, pstat);
++#endif //CONFIG_IOCTL_CFG80211
++
++		//.3-(1) report sta add event
++		report_add_sta_event(padapter, pstat->hwaddr, pstat->aid);
++		
++/*		
++		//issue assoc rsp before notify station join event.
++		if (frame_type == WIFI_ASSOCREQ)
++			issue_asocrsp(padapter, status, pstat, WIFI_ASSOCRSP);
++		else
++			issue_asocrsp(padapter, status, pstat, WIFI_REASSOCRSP);
++*/			
++	
++#endif
++	}
++
++	return _SUCCESS;
++
++asoc_class2_error:
++
++#ifdef CONFIG_NATIVEAP_MLME
++	issue_deauth(padapter, (void *)GetAddr2Ptr(pframe), status);
++#endif
++
++	return _FAIL;		
++
++OnAssocReqFail:
++
++
++#ifdef CONFIG_NATIVEAP_MLME
++	pstat->aid = 0;
++	if (frame_type == WIFI_ASSOCREQ)
++		issue_asocrsp(padapter, status, pstat, WIFI_ASSOCRSP);
++	else
++		issue_asocrsp(padapter, status, pstat, WIFI_REASSOCRSP);
++#endif
++
++
++#endif /* CONFIG_AP_MODE */
++
++	return _FAIL;		
++
++}
++
++unsigned int OnAssocRsp(_adapter *padapter, union recv_frame *precv_frame)
++{
++	uint i;
++	int res;
++	unsigned short	status;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	//WLAN_BSSID_EX 		*cur_network = &(pmlmeinfo->network);
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint pkt_len = precv_frame->u.hdr.len;
++
++	DBG_871X("%s\n", __FUNCTION__);
++	
++	//check A1 matches or not
++	if (!_rtw_memcmp(myid(&(padapter->eeprompriv)), get_da(pframe), ETH_ALEN))
++		return _SUCCESS;
++
++	if (!(pmlmeinfo->state & (WIFI_FW_AUTH_SUCCESS | WIFI_FW_ASSOC_STATE)))
++		return _SUCCESS;
++
++	if (pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)
++		return _SUCCESS;
++
++	_cancel_timer_ex(&pmlmeext->link_timer);
++
++	//status
++	if ((status = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN + 2))) > 0)
++	{
++		DBG_871X("assoc reject, status code: %d\n", status);
++		pmlmeinfo->state = WIFI_FW_NULL_STATE;
++		res = -4;
++		goto report_assoc_result;
++	}
++
++	//get capabilities
++	pmlmeinfo->capability = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN));
++
++	//set slot time
++	pmlmeinfo->slotTime = (pmlmeinfo->capability & BIT(10))? 9: 20;
++
++	//AID
++	res = pmlmeinfo->aid = (int)(le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN + 4))&0x3fff);
++
++	//following are moved to join event callback function
++	//to handle HT, WMM, rate adaptive, update MAC reg
++	//for not to handle the synchronous IO in the tasklet
++	for (i = (6 + WLAN_HDR_A3_LEN); i < pkt_len;)
++	{
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pframe + i);
++
++		switch (pIE->ElementID)
++		{
++			case _VENDOR_SPECIFIC_IE_:
++				if (_rtw_memcmp(pIE->data, WMM_PARA_OUI, 6))	//WMM
++				{
++					WMM_param_handler(padapter, pIE);
++				}
++#if defined(CONFIG_P2P) && defined(CONFIG_WFD)
++				else if ( _rtw_memcmp(pIE->data, WFD_OUI, 4))		//WFD
++				{
++					DBG_871X( "[%s] Found WFD IE\n", __FUNCTION__ );
++					WFD_info_handler( padapter, pIE );
++				}
++#endif				
++				break;
++
++			case _HT_CAPABILITY_IE_:	//HT caps
++				HT_caps_handler(padapter, pIE);
++				break;
++
++			case _HT_EXTRA_INFO_IE_:	//HT info
++				HT_info_handler(padapter, pIE);
++				break;
++
++			case _ERPINFO_IE_:
++				ERP_IE_handler(padapter, pIE);
++
++			default:
++				break;
++		}
++
++		i += (pIE->Length + 2);
++	}
++
++	pmlmeinfo->state &= (~WIFI_FW_ASSOC_STATE);
++	pmlmeinfo->state |= WIFI_FW_ASSOC_SUCCESS;
++
++	//Update Basic Rate Table for spec, 2010-12-28 , by thomas
++	UpdateBrateTbl(padapter, pmlmeinfo->network.SupportedRates);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (!rtw_cfg80211_check_bss(padapter)) {
++		DBG_871X("rtw_cfg80211_check_bss() : BSS not found !!\n");
++		res = -2;
++		goto report_assoc_result;
++	}
++#endif
++
++report_assoc_result:
++	if (res > 0) {
++		rtw_buf_update(&pmlmepriv->assoc_rsp, &pmlmepriv->assoc_rsp_len, pframe, pkt_len);
++	} else {
++		rtw_buf_free(&pmlmepriv->assoc_rsp, &pmlmepriv->assoc_rsp_len);
++	}
++
++	report_join_res(padapter, res);
++	return _SUCCESS;
++}
++
++unsigned int OnDeAuth(_adapter *padapter, union recv_frame *precv_frame)
++{
++	unsigned short	reason;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++#endif //CONFIG_P2P
++
++	//check A3
++	if (!(_rtw_memcmp(GetAddr3Ptr(pframe), get_my_bssid(&pmlmeinfo->network), ETH_ALEN)))
++		return _SUCCESS;
++
++#ifdef CONFIG_P2P
++	if ( pwdinfo->rx_invitereq_info.scan_op_ch_only )
++	{
++		_cancel_timer_ex( &pwdinfo->reset_ch_sitesurvey );
++		_set_timer( &pwdinfo->reset_ch_sitesurvey, 10 );
++	}
++#endif //CONFIG_P2P
++
++	reason = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN));
++
++	DBG_871X("%s Reason code(%d)\n", __FUNCTION__,reason);
++
++#ifdef CONFIG_AP_MODE
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++	{		
++		_irqL irqL;
++		struct sta_info *psta;
++		struct sta_priv *pstapriv = &padapter->stapriv;
++		
++		//_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		
++		//rtw_free_stainfo(padapter, psta);
++		//_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		
++
++		DBG_871X("%s, STA:" MAC_FMT "\n", __FUNCTION__, MAC_ARG(GetAddr2Ptr(pframe)));
++
++		psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));	
++		if(psta)
++		{
++			u8 updated;
++		
++			_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++			if(rtw_is_list_empty(&psta->asoc_list)==_FALSE)
++			{			
++				rtw_list_delete(&psta->asoc_list);
++				pstapriv->asoc_list_cnt--;
++				updated = ap_free_sta(padapter, psta, _FALSE, reason);
++
++			}
++			_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++			associated_clients_update(padapter, updated);
++		}
++		
++
++		return _SUCCESS;
++	}
++	else
++#endif
++	{
++		int	ignore_received_deauth = 0;
++
++		//	Commented by Albert 20130604
++		//	Before sending the auth frame to start the STA/GC mode connection with AP/GO, 
++		//	we will send the deauth first.
++		//	However, the Win8.1 with BRCM Wi-Fi will send the deauth with reason code 6 to us after receieving our deauth.
++		//	Added the following code to avoid this case.
++		if ( ( pmlmeinfo->state & WIFI_FW_AUTH_STATE ) ||
++			( pmlmeinfo->state & WIFI_FW_ASSOC_STATE ) )
++		{
++			if ( reason == WLAN_REASON_CLASS2_FRAME_FROM_NONAUTH_STA )
++			{
++				ignore_received_deauth = 1;
++			} else if (WLAN_REASON_PREV_AUTH_NOT_VALID == reason) {
++				// TODO: 802.11r
++				ignore_received_deauth = 1;
++			}
++		}
++
++		DBG_871X("%s, STA:" MAC_FMT ", ignore = %d\n", __FUNCTION__, MAC_ARG(GetAddr3Ptr(pframe)), ignore_received_deauth);
++		if ( 0 == ignore_received_deauth )
++		{
++			receive_disconnect(padapter, GetAddr3Ptr(pframe) ,reason);
++		}
++	}	
++	pmlmepriv->LinkDetectInfo.bBusyTraffic = _FALSE;
++	return _SUCCESS;
++
++}
++
++unsigned int OnDisassoc(_adapter *padapter, union recv_frame *precv_frame)
++{
++	unsigned short	reason;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++#endif //CONFIG_P2P
++
++	//check A3
++	if (!(_rtw_memcmp(GetAddr3Ptr(pframe), get_my_bssid(&pmlmeinfo->network), ETH_ALEN)))
++		return _SUCCESS;
++
++#ifdef CONFIG_P2P
++	if ( pwdinfo->rx_invitereq_info.scan_op_ch_only )
++	{
++		_cancel_timer_ex( &pwdinfo->reset_ch_sitesurvey );
++		_set_timer( &pwdinfo->reset_ch_sitesurvey, 10 );
++	}
++#endif //CONFIG_P2P
++
++	reason = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN));
++
++        DBG_871X("%s Reason code(%d)\n", __FUNCTION__,reason);
++
++#ifdef CONFIG_AP_MODE
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++	{	
++		_irqL irqL;
++		struct sta_info *psta;
++		struct sta_priv *pstapriv = &padapter->stapriv;
++		
++		//_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);	
++		//rtw_free_stainfo(padapter, psta);
++		//_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		
++
++		DBG_871X("%s, STA:" MAC_FMT "\n", __FUNCTION__, MAC_ARG(GetAddr2Ptr(pframe)));
++
++		psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));	
++		if(psta)
++		{
++			u8 updated;
++			
++			_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++			if(rtw_is_list_empty(&psta->asoc_list)==_FALSE)
++			{
++				rtw_list_delete(&psta->asoc_list);
++				pstapriv->asoc_list_cnt--;
++				updated = ap_free_sta(padapter, psta, _FALSE, reason);
++			
++			}
++			_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++			associated_clients_update(padapter, updated);
++		}
++
++		return _SUCCESS;
++	}
++	else
++#endif
++	{
++		DBG_871X("%s, STA:" MAC_FMT "\n", __FUNCTION__, MAC_ARG(GetAddr3Ptr(pframe)));
++		
++		receive_disconnect(padapter, GetAddr3Ptr(pframe), reason);
++	}	
++	pmlmepriv->LinkDetectInfo.bBusyTraffic = _FALSE;
++	return _SUCCESS;
++
++}
++
++unsigned int OnAtim(_adapter *padapter, union recv_frame *precv_frame)
++{
++	DBG_871X("%s\n", __FUNCTION__);
++	return _SUCCESS;
++}
++
++unsigned int on_action_spct_ch_switch(_adapter *padapter, struct sta_info *psta, u8 *ies, uint ies_len)
++{
++	unsigned int ret = _FAIL;
++	struct mlme_ext_priv *mlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(mlmeext->mlmext_info);
++
++	if (!(pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)) {
++		ret = _SUCCESS;	
++		goto exit;
++	}
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE) {
++		
++		int ch_switch_mode = -1, ch = -1, ch_switch_cnt = -1;
++		int ch_offset = -1;
++		u8 bwmode;
++		struct ieee80211_info_element *ie;
++
++		DBG_871X(FUNC_NDEV_FMT" from "MAC_FMT"\n",
++			FUNC_NDEV_ARG(padapter->pnetdev), MAC_ARG(psta->hwaddr));
++
++		for_each_ie(ie, ies, ies_len) {
++			if (ie->id == WLAN_EID_CHANNEL_SWITCH) {
++				ch_switch_mode = ie->data[0];
++				ch = ie->data[1];
++				ch_switch_cnt = ie->data[2];
++				DBG_871X("ch_switch_mode:%d, ch:%d, ch_switch_cnt:%d\n",
++					ch_switch_mode, ch, ch_switch_cnt);
++			}
++			else if (ie->id == WLAN_EID_SECONDARY_CHANNEL_OFFSET) {
++				ch_offset = secondary_ch_offset_to_hal_ch_offset(ie->data[0]);
++				DBG_871X("ch_offset:%d\n", ch_offset);
++			}
++		}
++
++		if (ch == -1)
++			return _SUCCESS;
++
++		if (ch_offset == -1)
++			bwmode = mlmeext->cur_bwmode;
++		else
++			bwmode = (ch_offset == HAL_PRIME_CHNL_OFFSET_DONT_CARE) ?
++				HT_CHANNEL_WIDTH_20 : HT_CHANNEL_WIDTH_40;
++
++		ch_offset = (ch_offset == -1) ? mlmeext->cur_ch_offset : ch_offset;
++
++		/* todo:
++		 * 1. the decision of channel switching
++		 * 2. things after channel switching
++		 */
++
++		ret = rtw_set_ch_cmd(padapter, ch, bwmode, ch_offset, _TRUE);
++	}
++
++exit:
++	return ret;
++}
++
++unsigned int on_action_spct(_adapter *padapter, union recv_frame *precv_frame)
++{
++	unsigned int ret = _FAIL;
++	struct sta_info *psta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint frame_len = precv_frame->u.hdr.len;
++	u8 *frame_body = (u8 *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++	u8 category;
++	u8 action;
++
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(padapter->pnetdev));
++
++	psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++
++	if (!psta)
++		goto exit;
++
++	category = frame_body[0];
++	if(category != RTW_WLAN_CATEGORY_SPECTRUM_MGMT)
++		goto exit;
++
++	action = frame_body[1];
++	switch (action) {
++	case RTW_WLAN_ACTION_SPCT_MSR_REQ:
++	case RTW_WLAN_ACTION_SPCT_MSR_RPRT:
++	case RTW_WLAN_ACTION_SPCT_TPC_REQ:
++	case RTW_WLAN_ACTION_SPCT_TPC_RPRT:
++		break;
++	case RTW_WLAN_ACTION_SPCT_CHL_SWITCH:
++		#ifdef CONFIG_SPCT_CH_SWITCH
++		ret = on_action_spct_ch_switch(padapter, psta, &frame_body[2],
++			frame_len-(frame_body-pframe)-2);
++		#endif
++		break;
++	default:
++		break;
++	}
++
++exit:
++	return ret;
++}
++
++unsigned int OnAction_qos(_adapter *padapter, union recv_frame *precv_frame)
++{
++	return _SUCCESS;
++}
++
++unsigned int OnAction_dls(_adapter *padapter, union recv_frame *precv_frame)
++{
++	return _SUCCESS;
++}
++
++unsigned int OnAction_back(_adapter *padapter, union recv_frame *precv_frame)
++{
++	u8 *addr;
++	struct sta_info *psta=NULL;
++	struct recv_reorder_ctrl *preorder_ctrl;
++	unsigned char		*frame_body;
++	unsigned char		category, action;
++	unsigned short	tid, status, reason_code = 0;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	//check RA matches or not	
++	if (!_rtw_memcmp(myid(&(padapter->eeprompriv)), GetAddr1Ptr(pframe), ETH_ALEN))//for if1, sta/ap mode
++		return _SUCCESS;
++
++/*
++	//check A1 matches or not
++	if (!_rtw_memcmp(myid(&(padapter->eeprompriv)), get_da(pframe), ETH_ALEN))
++		return _SUCCESS;
++*/
++	DBG_871X("%s\n", __FUNCTION__);
++
++	if((pmlmeinfo->state&0x03) != WIFI_FW_AP_STATE)	
++		if (!(pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS))
++			return _SUCCESS;
++
++	addr = GetAddr2Ptr(pframe);
++	psta = rtw_get_stainfo(pstapriv, addr);
++
++	if(psta==NULL)
++		return _SUCCESS;
++
++	frame_body = (unsigned char *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++	category = frame_body[0];
++	if (category == RTW_WLAN_CATEGORY_BACK)// representing Block Ack
++	{
++#ifdef CONFIG_TDLS
++		if((psta->tdls_sta_state & TDLS_LINKED_STATE) && 
++			(psta->htpriv.ht_option==_TRUE) &&
++			(psta->htpriv.ampdu_enable==_TRUE) )
++		{
++			//do nothing; just don't want to return _SUCCESS;
++		}
++		else
++#endif //CONFIG_TDLS
++		if (!pmlmeinfo->HT_enable)
++		{
++			return _SUCCESS;
++		}
++
++		action = frame_body[1];
++		DBG_871X("%s, action=%d\n", __FUNCTION__, action);
++		switch (action)
++		{
++			case RTW_WLAN_ACTION_ADDBA_REQ: //ADDBA request
++
++				_rtw_memcpy(&(pmlmeinfo->ADDBA_req), &(frame_body[2]), sizeof(struct ADDBA_request));
++				//process_addba_req(padapter, (u8*)&(pmlmeinfo->ADDBA_req), GetAddr3Ptr(pframe));
++				process_addba_req(padapter, (u8*)&(pmlmeinfo->ADDBA_req), addr);
++				
++				if(pmlmeinfo->bAcceptAddbaReq == _TRUE)
++				{
++					issue_action_BA(padapter, addr, RTW_WLAN_ACTION_ADDBA_RESP, 0);
++				}
++				else
++				{
++					issue_action_BA(padapter, addr, RTW_WLAN_ACTION_ADDBA_RESP, 37);//reject ADDBA Req
++				}
++								
++				break;
++
++			case RTW_WLAN_ACTION_ADDBA_RESP: //ADDBA response
++
++				//status = frame_body[3] | (frame_body[4] << 8); //endian issue
++				status = RTW_GET_LE16(&frame_body[3]);
++				tid = ((frame_body[5] >> 2) & 0x7);
++
++				if (status == 0)
++				{	//successful					
++					DBG_871X("agg_enable for TID=%d\n", tid);
++					psta->htpriv.agg_enable_bitmap |= 1 << tid;					
++					psta->htpriv.candidate_tid_bitmap &= ~BIT(tid);				
++				}
++				else
++				{					
++					psta->htpriv.agg_enable_bitmap &= ~BIT(tid);					
++				}
++
++				//DBG_871X("marc: ADDBA RSP: %x\n", pmlmeinfo->agg_enable_bitmap);
++				break;
++
++			case RTW_WLAN_ACTION_DELBA: //DELBA
++				if ((frame_body[3] & BIT(3)) == 0)
++				{
++					psta->htpriv.agg_enable_bitmap &= ~(1 << ((frame_body[3] >> 4) & 0xf));
++					psta->htpriv.candidate_tid_bitmap &= ~(1 << ((frame_body[3] >> 4) & 0xf));
++					
++					//reason_code = frame_body[4] | (frame_body[5] << 8);
++					reason_code = RTW_GET_LE16(&frame_body[4]);
++				}
++				else if((frame_body[3] & BIT(3)) == BIT(3))
++				{						
++					tid = (frame_body[3] >> 4) & 0x0F;
++				
++					preorder_ctrl =  &psta->recvreorder_ctrl[tid];
++					preorder_ctrl->enable = _FALSE;
++					preorder_ctrl->indicate_seq = 0xffff;
++					#ifdef DBG_RX_SEQ
++					DBG_871X("DBG_RX_SEQ %s:%d indicate_seq:%u \n", __FUNCTION__, __LINE__,
++						preorder_ctrl->indicate_seq);
++					#endif
++				}
++				
++				DBG_871X("%s(): DELBA: %x(%x)\n", __FUNCTION__,pmlmeinfo->agg_enable_bitmap, reason_code);
++				//todo: how to notify the host while receiving DELETE BA
++				break;
++
++			default:
++				break;
++		}
++	}
++
++	return _SUCCESS;
++}
++
++#ifdef CONFIG_P2P
++
++static int get_reg_classes_full_count(struct p2p_channels channel_list) {
++	int cnt = 0;
++	int i;
++
++	for (i = 0; i < channel_list.reg_classes; i++) {
++		cnt += channel_list.reg_class[i].channels;
++	}
++
++	return cnt;
++}
++
++static void get_channel_cnt_24g_5gl_5gh(  struct mlme_ext_priv *pmlmeext, u8* p24g_cnt, u8* p5gl_cnt, u8* p5gh_cnt )
++{
++	int	i = 0;
++
++	*p24g_cnt = 0;
++	*p5gl_cnt = 0;
++	*p5gh_cnt = 0;	
++	
++	for( i = 0; i < pmlmeext->max_chan_nums; i++ )
++	{
++		if ( pmlmeext->channel_set[ i ].ChannelNum <= 14 )
++		{
++			(*p24g_cnt)++;
++		}
++		else if ( ( pmlmeext->channel_set[ i ].ChannelNum > 14 ) && ( pmlmeext->channel_set[ i ].ChannelNum <= 48 ) )
++		{
++			//	Just include the channel 36, 40, 44, 48 channels for 5G low
++			(*p5gl_cnt)++;
++		}
++		else if ( ( pmlmeext->channel_set[ i ].ChannelNum >= 149 ) && ( pmlmeext->channel_set[ i ].ChannelNum <= 161 ) )
++		{
++			//	Just include the channel 149, 153, 157, 161 channels for 5G high
++			(*p5gh_cnt)++;
++		}
++	}
++}
++
++void issue_p2p_GO_request(_adapter *padapter, u8* raddr)
++{
++
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_GO_NEGO_REQ;
++	u8			wpsie[ 255 ] = { 0x00 }, p2pie[ 255 ] = { 0x00 };
++	u8			wpsielen = 0, p2pielen = 0, i;
++	u8			channel_cnt_24g = 0, channel_cnt_5gl = 0, channel_cnt_5gh = 0;
++	u16			len_channellist_attr = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif //CONFIG_WFD		
++	
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo);
++
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++
++	DBG_871X( "[%s] In\n", __FUNCTION__ );
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, myid(&(padapter->eeprompriv)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));	
++	pwdinfo->negotiation_dialog_token = 1;	//	Initialize the dialog value
++	pframe = rtw_set_fixed_ie(pframe, 1, &pwdinfo->negotiation_dialog_token, &(pattrib->pktlen));
++
++	
++
++	//	WPS Section
++	wpsielen = 0;
++	//	WPS OUI
++	*(u32*) ( wpsie ) = cpu_to_be32( WPSOUI );
++	wpsielen += 4;
++
++	//	WPS version
++	//	Type:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_VER1 );
++	wpsielen += 2;
++
++	//	Length:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0001 );
++	wpsielen += 2;
++
++	//	Value:
++	wpsie[wpsielen++] = WPS_VERSION_1;	//	Version 1.0
++
++	//	Device Password ID
++	//	Type:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_DEVICE_PWID );
++	wpsielen += 2;
++
++	//	Length:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0002 );
++	wpsielen += 2;
++
++	//	Value:
++
++	if ( pwdinfo->ui_got_wps_info == P2P_GOT_WPSINFO_PEER_DISPLAY_PIN )
++	{
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_DPID_USER_SPEC );
++	}
++	else if ( pwdinfo->ui_got_wps_info == P2P_GOT_WPSINFO_SELF_DISPLAY_PIN )
++	{
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_DPID_REGISTRAR_SPEC );
++	}
++	else if ( pwdinfo->ui_got_wps_info == P2P_GOT_WPSINFO_PBC )
++	{
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_DPID_PBC );
++	}
++
++	wpsielen += 2;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen );
++
++
++	//	P2P IE Section.
++
++	//	P2P OUI
++	p2pielen = 0;
++	p2pie[ p2pielen++ ] = 0x50;
++	p2pie[ p2pielen++ ] = 0x6F;
++	p2pie[ p2pielen++ ] = 0x9A;
++	p2pie[ p2pielen++ ] = 0x09;	//	WFA P2P v1.0
++
++	//	Commented by Albert 20110306
++	//	According to the P2P Specification, the group negoitation request frame should contain 9 P2P attributes
++	//	1. P2P Capability
++	//	2. Group Owner Intent
++	//	3. Configuration Timeout
++	//	4. Listen Channel
++	//	5. Extended Listen Timing
++	//	6. Intended P2P Interface Address
++	//	7. Channel List
++	//	8. P2P Device Info
++	//	9. Operating Channel
++
++
++	//	P2P Capability
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_CAPABILITY;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0002 );
++	p2pielen += 2;
++
++	//	Value:
++	//	Device Capability Bitmap, 1 byte
++	p2pie[ p2pielen++ ] = DMP_P2P_DEVCAP_SUPPORT;
++
++	//	Group Capability Bitmap, 1 byte
++	if ( pwdinfo->persistent_supported )
++	{
++		p2pie[ p2pielen++ ] = P2P_GRPCAP_CROSS_CONN | P2P_GRPCAP_PERSISTENT_GROUP;
++	}
++	else
++	{
++		p2pie[ p2pielen++ ] = P2P_GRPCAP_CROSS_CONN;
++	}
++
++
++	//	Group Owner Intent
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_GO_INTENT;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0001 );
++	p2pielen += 2;
++
++	//	Value:
++	//	Todo the tie breaker bit.
++	p2pie[ p2pielen++ ] = ( ( pwdinfo->intent << 1 ) | BIT(0) );
++
++	//	Configuration Timeout
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_CONF_TIMEOUT;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0002 );
++	p2pielen += 2;
++
++	//	Value:
++	p2pie[ p2pielen++ ] = 200;	//	2 seconds needed to be the P2P GO
++	p2pie[ p2pielen++ ] = 200;	//	2 seconds needed to be the P2P Client
++
++
++	//	Listen Channel
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_LISTEN_CH;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0005 );
++	p2pielen += 2;
++
++	//	Value:
++	//	Country String
++	p2pie[ p2pielen++ ] = 'X';
++	p2pie[ p2pielen++ ] = 'X';
++	
++	//	The third byte should be set to 0x04.
++	//	Described in the "Operating Channel Attribute" section.
++	p2pie[ p2pielen++ ] = 0x04;
++
++	//	Operating Class
++	p2pie[ p2pielen++ ] = 0x51;	//	Copy from SD7
++	
++	//	Channel Number
++	p2pie[ p2pielen++ ] = pwdinfo->listen_channel;	//	listening channel number
++	
++
++	//	Extended Listen Timing ATTR
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_EX_LISTEN_TIMING;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0004 );
++	p2pielen += 2;
++
++	//	Value:
++	//	Availability Period
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0xFFFF );
++	p2pielen += 2;
++
++	//	Availability Interval
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0xFFFF );
++	p2pielen += 2;
++
++
++	//	Intended P2P Interface Address
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_INTENTED_IF_ADDR;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( ETH_ALEN );
++	p2pielen += 2;
++
++	//	Value:
++	_rtw_memcpy( p2pie + p2pielen, myid( &padapter->eeprompriv ), ETH_ALEN );
++	p2pielen += ETH_ALEN;
++
++
++	//	Channel List
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_CH_LIST;
++
++	// Length:
++	// Country String(3)
++	// + ( Operating Class (1) + Number of Channels(1) ) * Operation Classes (?)
++	// + number of channels in all classes
++	len_channellist_attr = 3
++	   + (1 + 1) * (u16)(pmlmeext->channel_list.reg_classes)
++	   + get_reg_classes_full_count(pmlmeext->channel_list);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++	{
++		*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 5 + 1 );
++	}
++	else
++	{
++		*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( len_channellist_attr );
++	}
++#else
++
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( len_channellist_attr );
++
++#endif
++	p2pielen += 2;
++
++	//	Value:
++	//	Country String
++	p2pie[ p2pielen++ ] = 'X';
++	p2pie[ p2pielen++ ] = 'X';
++	
++	//	The third byte should be set to 0x04.
++	//	Described in the "Operating Channel Attribute" section.
++	p2pie[ p2pielen++ ] = 0x04;
++
++	//	Channel Entry List
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++	{
++		_adapter *pbuddy_adapter = padapter->pbuddy_adapter;	
++		struct mlme_ext_priv	*pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++
++		//	Operating Class
++		if ( pbuddy_mlmeext->cur_channel > 14 )
++		{
++			if ( pbuddy_mlmeext->cur_channel >= 149 )
++			{
++				p2pie[ p2pielen++ ] = 0x7c;
++			}
++			else
++			{
++				p2pie[ p2pielen++ ] = 0x73;
++			}
++		}
++		else
++		{
++			p2pie[ p2pielen++ ] = 0x51;
++		}
++
++		//	Number of Channels
++		//	Just support 1 channel and this channel is AP's channel
++		p2pie[ p2pielen++ ] = 1;
++
++		//	Channel List
++		p2pie[ p2pielen++ ] = pbuddy_mlmeext->cur_channel;
++	}
++	else
++	{
++		int i,j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			//	Operating Class
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			//	Number of Channels
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			//	Channel List
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++) {
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++			}
++		}
++	}
++#else // CONFIG_CONCURRENT_MODE
++	{
++		int i,j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			//	Operating Class
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			//	Number of Channels
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			//	Channel List
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++) {
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++			}
++		}
++	}
++#endif // CONFIG_CONCURRENT_MODE
++
++	//	Device Info
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_DEVICE_INFO;
++
++	//	Length:
++	//	21 -> P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes) 
++	//	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes)
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 21 + pwdinfo->device_name_len );
++	p2pielen += 2;
++
++	//	Value:
++	//	P2P Device Address
++	_rtw_memcpy( p2pie + p2pielen, myid( &padapter->eeprompriv ), ETH_ALEN );
++	p2pielen += ETH_ALEN;
++
++	//	Config Method
++	//	This field should be big endian. Noted by P2P specification.
++
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( pwdinfo->supported_wps_cm );
++
++	p2pielen += 2;
++
++	//	Primary Device Type
++	//	Category ID
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_CID_MULIT_MEDIA );
++	p2pielen += 2;
++
++	//	OUI
++	*(u32*) ( p2pie + p2pielen ) = cpu_to_be32( WPSOUI );
++	p2pielen += 4;
++
++	//	Sub Category ID
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_SCID_MEDIA_SERVER );
++	p2pielen += 2;
++
++	//	Number of Secondary Device Types
++	p2pie[ p2pielen++ ] = 0x00;	//	No Secondary Device Type List
++
++	//	Device Name
++	//	Type:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_ATTR_DEVICE_NAME );
++	p2pielen += 2;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( pwdinfo->device_name_len );
++	p2pielen += 2;
++
++	//	Value:
++	_rtw_memcpy( p2pie + p2pielen, pwdinfo->device_name , pwdinfo->device_name_len );
++	p2pielen += pwdinfo->device_name_len;	
++	
++
++	//	Operating Channel
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_OPERATING_CH;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0005 );
++	p2pielen += 2;
++
++	//	Value:
++	//	Country String
++	p2pie[ p2pielen++ ] = 'X';
++	p2pie[ p2pielen++ ] = 'X';
++	
++	//	The third byte should be set to 0x04.
++	//	Described in the "Operating Channel Attribute" section.
++	p2pie[ p2pielen++ ] = 0x04;
++
++	//	Operating Class
++	if ( pwdinfo->operating_channel <= 14 )
++	{
++		//	Operating Class
++		p2pie[ p2pielen++ ] = 0x51;
++	}
++	else if ( ( pwdinfo->operating_channel >= 36 ) && ( pwdinfo->operating_channel <= 48 ) )
++	{
++		//	Operating Class
++		p2pie[ p2pielen++ ] = 0x73;
++	}
++	else
++	{
++		//	Operating Class
++		p2pie[ p2pielen++ ] = 0x7c;
++	}
++
++	//	Channel Number
++	p2pie[ p2pielen++ ] = pwdinfo->operating_channel;	//	operating channel number
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen );		
++
++#ifdef CONFIG_WFD
++	wfdielen = build_nego_req_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif //CONFIG_WFD
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++
++void issue_p2p_GO_response(_adapter *padapter, u8* raddr, u8* frame_body,uint len, u8 result)
++{
++
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_GO_NEGO_RESP;
++	u8			wpsie[ 255 ] = { 0x00 }, p2pie[ 255 ] = { 0x00 };
++	u8			p2pielen = 0, i;
++	uint			wpsielen = 0;
++	u16			wps_devicepassword_id = 0x0000;
++	uint			wps_devicepassword_id_len = 0;
++	u8			channel_cnt_24g = 0, channel_cnt_5gl = 0, channel_cnt_5gh;
++	u16			len_channellist_attr = 0;
++	
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo);
++
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif //CONFIG_WFD
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++
++	DBG_871X( "[%s] In, result = %d\n", __FUNCTION__,  result );
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, myid(&(padapter->eeprompriv)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));	
++	pwdinfo->negotiation_dialog_token = frame_body[7];	//	The Dialog Token of provisioning discovery request frame.
++	pframe = rtw_set_fixed_ie(pframe, 1, &(pwdinfo->negotiation_dialog_token), &(pattrib->pktlen));
++
++	//	Commented by Albert 20110328
++	//	Try to get the device password ID from the WPS IE of group negotiation request frame
++	//	WiFi Direct test plan 5.1.15
++	rtw_get_wps_ie( frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, wpsie, &wpsielen);
++	rtw_get_wps_attr_content( wpsie, wpsielen, WPS_ATTR_DEVICE_PWID, (u8*) &wps_devicepassword_id, &wps_devicepassword_id_len);
++	wps_devicepassword_id = be16_to_cpu( wps_devicepassword_id );
++
++	_rtw_memset( wpsie, 0x00, 255 );
++	wpsielen = 0;
++
++	//	WPS Section
++	wpsielen = 0;
++	//	WPS OUI
++	*(u32*) ( wpsie ) = cpu_to_be32( WPSOUI );
++	wpsielen += 4;
++
++	//	WPS version
++	//	Type:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_VER1 );
++	wpsielen += 2;
++
++	//	Length:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0001 );
++	wpsielen += 2;
++
++	//	Value:
++	wpsie[wpsielen++] = WPS_VERSION_1;	//	Version 1.0
++
++	//	Device Password ID
++	//	Type:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_DEVICE_PWID );
++	wpsielen += 2;
++
++	//	Length:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0002 );
++	wpsielen += 2;
++
++	//	Value:
++	if ( wps_devicepassword_id == WPS_DPID_USER_SPEC )
++	{
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_DPID_REGISTRAR_SPEC );
++	}
++	else if ( wps_devicepassword_id == WPS_DPID_REGISTRAR_SPEC )
++	{
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_DPID_USER_SPEC );
++	}
++	else
++	{
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_DPID_PBC );
++	}
++	wpsielen += 2;
++
++	//	Commented by Kurt 20120113
++	//	If some device wants to do p2p handshake without sending prov_disc_req
++	//	We have to get peer_req_cm from here.
++	if(_rtw_memcmp( pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "000", 3) )
++	{
++		if ( wps_devicepassword_id == WPS_DPID_USER_SPEC )
++		{
++			_rtw_memcpy( pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "dis", 3 );
++		}
++		else if ( wps_devicepassword_id == WPS_DPID_REGISTRAR_SPEC )
++		{
++			_rtw_memcpy( pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "pad", 3 );	
++		}
++		else
++		{
++			_rtw_memcpy( pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "pbc", 3 );	
++		}
++	}
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen );
++
++
++	//	P2P IE Section.
++
++	//	P2P OUI
++	p2pielen = 0;
++	p2pie[ p2pielen++ ] = 0x50;
++	p2pie[ p2pielen++ ] = 0x6F;
++	p2pie[ p2pielen++ ] = 0x9A;
++	p2pie[ p2pielen++ ] = 0x09;	//	WFA P2P v1.0
++
++	//	Commented by Albert 20100908
++	//	According to the P2P Specification, the group negoitation response frame should contain 9 P2P attributes
++	//	1. Status
++	//	2. P2P Capability
++	//	3. Group Owner Intent
++	//	4. Configuration Timeout
++	//	5. Operating Channel
++	//	6. Intended P2P Interface Address
++	//	7. Channel List
++	//	8. Device Info
++	//	9. Group ID	( Only GO )
++
++
++	//	ToDo:
++
++	//	P2P Status
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_STATUS;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0001 );
++	p2pielen += 2;
++
++	//	Value:
++	p2pie[ p2pielen++ ] = result;
++	
++	//	P2P Capability
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_CAPABILITY;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0002 );
++	p2pielen += 2;
++
++	//	Value:
++	//	Device Capability Bitmap, 1 byte
++
++	if ( rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT) )
++	{
++		//	Commented by Albert 2011/03/08
++		//	According to the P2P specification
++		//	if the sending device will be client, the P2P Capability should be reserved of group negotation response frame
++		p2pie[ p2pielen++ ] = 0;
++	}
++	else
++	{
++		//	Be group owner or meet the error case
++		p2pie[ p2pielen++ ] = DMP_P2P_DEVCAP_SUPPORT;
++	}
++	
++	//	Group Capability Bitmap, 1 byte
++	if ( pwdinfo->persistent_supported )
++	{
++		p2pie[ p2pielen++ ] = P2P_GRPCAP_CROSS_CONN | P2P_GRPCAP_PERSISTENT_GROUP;
++	}
++	else
++	{
++		p2pie[ p2pielen++ ] = P2P_GRPCAP_CROSS_CONN;
++	}
++
++	//	Group Owner Intent
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_GO_INTENT;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0001 );
++	p2pielen += 2;
++
++	//	Value:
++	if ( pwdinfo->peer_intent & 0x01 )
++	{
++		//	Peer's tie breaker bit is 1, our tie breaker bit should be 0
++		p2pie[ p2pielen++ ] = ( pwdinfo->intent << 1 );
++	}
++	else
++	{
++		//	Peer's tie breaker bit is 0, our tie breaker bit should be 1
++		p2pie[ p2pielen++ ] = ( ( pwdinfo->intent << 1 ) | BIT(0) );
++	}
++
++
++	//	Configuration Timeout
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_CONF_TIMEOUT;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0002 );
++	p2pielen += 2;
++
++	//	Value:
++	p2pie[ p2pielen++ ] = 200;	//	2 seconds needed to be the P2P GO
++	p2pie[ p2pielen++ ] = 200;	//	2 seconds needed to be the P2P Client
++
++	//	Operating Channel
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_OPERATING_CH;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0005 );
++	p2pielen += 2;
++
++	//	Value:
++	//	Country String
++	p2pie[ p2pielen++ ] = 'X';
++	p2pie[ p2pielen++ ] = 'X';
++	
++	//	The third byte should be set to 0x04.
++	//	Described in the "Operating Channel Attribute" section.
++	p2pie[ p2pielen++ ] = 0x04;
++
++	//	Operating Class
++	if ( pwdinfo->operating_channel <= 14 )
++	{
++		//	Operating Class
++		p2pie[ p2pielen++ ] = 0x51;
++	}
++	else if ( ( pwdinfo->operating_channel >= 36 ) && ( pwdinfo->operating_channel <= 48 ) )
++	{
++		//	Operating Class
++		p2pie[ p2pielen++ ] = 0x73;
++	}
++	else
++	{
++		//	Operating Class
++		p2pie[ p2pielen++ ] = 0x7c;
++	}
++	
++	//	Channel Number
++	p2pie[ p2pielen++ ] = pwdinfo->operating_channel;	//	operating channel number
++
++	//	Intended P2P Interface Address	
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_INTENTED_IF_ADDR;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( ETH_ALEN );
++	p2pielen += 2;
++
++	//	Value:
++	_rtw_memcpy( p2pie + p2pielen, myid( &padapter->eeprompriv ), ETH_ALEN );
++	p2pielen += ETH_ALEN;
++
++	//	Channel List
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_CH_LIST;
++
++	// Country String(3)
++	// + ( Operating Class (1) + Number of Channels(1) ) * Operation Classes (?)
++	// + number of channels in all classes
++	len_channellist_attr = 3
++	   + (1 + 1) * (u16)pmlmeext->channel_list.reg_classes
++	   + get_reg_classes_full_count(pmlmeext->channel_list);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++	{
++		*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 5 + 1 );
++	}
++	else
++	{
++		*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( len_channellist_attr );
++	}
++#else
++
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( len_channellist_attr );
++
++ #endif
++	p2pielen += 2;
++
++	//	Value:
++	//	Country String
++	p2pie[ p2pielen++ ] = 'X';
++	p2pie[ p2pielen++ ] = 'X';
++	
++	//	The third byte should be set to 0x04.
++	//	Described in the "Operating Channel Attribute" section.
++	p2pie[ p2pielen++ ] = 0x04;
++
++	//	Channel Entry List
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++	{
++		_adapter *pbuddy_adapter = padapter->pbuddy_adapter;	
++		struct mlme_ext_priv	*pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++
++		//	Operating Class
++		if ( pbuddy_mlmeext->cur_channel > 14 )
++		{
++			if ( pbuddy_mlmeext->cur_channel >= 149 )
++			{
++				p2pie[ p2pielen++ ] = 0x7c;
++			}
++			else
++			{
++				p2pie[ p2pielen++ ] = 0x73;
++			}
++		}
++		else
++		{
++			p2pie[ p2pielen++ ] = 0x51;
++		}
++
++		//	Number of Channels
++		//	Just support 1 channel and this channel is AP's channel
++		p2pie[ p2pielen++ ] = 1;
++
++		//	Channel List
++		p2pie[ p2pielen++ ] = pbuddy_mlmeext->cur_channel;
++	}
++	else
++	{
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			//	Operating Class
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			//	Number of Channels
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			//	Channel List
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++) {
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++			}
++		}
++	}
++#else // CONFIG_CONCURRENT_MODE
++	{
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			//	Operating Class
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			//	Number of Channels
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			//	Channel List
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++) {
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++			}
++		}
++	}
++#endif // CONFIG_CONCURRENT_MODE
++	
++	//	Device Info
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_DEVICE_INFO;
++
++	//	Length:
++	//	21 -> P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes) 
++	//	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes)
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 21 + pwdinfo->device_name_len );
++	p2pielen += 2;
++
++	//	Value:
++	//	P2P Device Address
++	_rtw_memcpy( p2pie + p2pielen, myid( &padapter->eeprompriv ), ETH_ALEN );
++	p2pielen += ETH_ALEN;
++
++	//	Config Method
++	//	This field should be big endian. Noted by P2P specification.
++
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( pwdinfo->supported_wps_cm );
++
++	p2pielen += 2;
++
++	//	Primary Device Type
++	//	Category ID
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_CID_MULIT_MEDIA );
++	p2pielen += 2;
++
++	//	OUI
++	*(u32*) ( p2pie + p2pielen ) = cpu_to_be32( WPSOUI );
++	p2pielen += 4;
++
++	//	Sub Category ID
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_SCID_MEDIA_SERVER );
++	p2pielen += 2;
++
++	//	Number of Secondary Device Types
++	p2pie[ p2pielen++ ] = 0x00;	//	No Secondary Device Type List
++
++	//	Device Name
++	//	Type:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_ATTR_DEVICE_NAME );
++	p2pielen += 2;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( pwdinfo->device_name_len );
++	p2pielen += 2;
++
++	//	Value:
++	_rtw_memcpy( p2pie + p2pielen, pwdinfo->device_name , pwdinfo->device_name_len );
++	p2pielen += pwdinfo->device_name_len;	
++	
++	if ( rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO) )
++	{
++		//	Group ID Attribute
++		//	Type:
++		p2pie[ p2pielen++ ] = P2P_ATTR_GROUP_ID;
++
++		//	Length:
++		*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( ETH_ALEN + pwdinfo->nego_ssidlen );
++		p2pielen += 2;
++
++		//	Value:
++		//	p2P Device Address
++		_rtw_memcpy( p2pie + p2pielen , pwdinfo->device_addr, ETH_ALEN );
++		p2pielen += ETH_ALEN;
++
++		//	SSID
++		_rtw_memcpy( p2pie + p2pielen, pwdinfo->nego_ssid, pwdinfo->nego_ssidlen );
++		p2pielen += pwdinfo->nego_ssidlen;
++		
++	}
++	
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen );	
++	
++#ifdef CONFIG_WFD
++	wfdielen = build_nego_resp_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif //CONFIG_WFD
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++void issue_p2p_GO_confirm(_adapter *padapter, u8* raddr, u8 result)
++{
++
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_GO_NEGO_CONF;
++	u8			wpsie[ 255 ] = { 0x00 }, p2pie[ 255 ] = { 0x00 };
++	u8			wpsielen = 0, p2pielen = 0;
++	
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo);
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif //CONFIG_WFD
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++
++	DBG_871X( "[%s] In\n", __FUNCTION__ );
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, myid(&(padapter->eeprompriv)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));	
++	pframe = rtw_set_fixed_ie(pframe, 1, &(pwdinfo->negotiation_dialog_token), &(pattrib->pktlen));
++
++	
++
++	//	P2P IE Section.
++
++	//	P2P OUI
++	p2pielen = 0;
++	p2pie[ p2pielen++ ] = 0x50;
++	p2pie[ p2pielen++ ] = 0x6F;
++	p2pie[ p2pielen++ ] = 0x9A;
++	p2pie[ p2pielen++ ] = 0x09;	//	WFA P2P v1.0
++
++	//	Commented by Albert 20110306
++	//	According to the P2P Specification, the group negoitation request frame should contain 5 P2P attributes
++	//	1. Status
++	//	2. P2P Capability
++	//	3. Operating Channel
++	//	4. Channel List
++	//	5. Group ID	( if this WiFi is GO )
++
++	//	P2P Status
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_STATUS;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0001 );
++	p2pielen += 2;
++
++	//	Value:
++	p2pie[ p2pielen++ ] = result;
++
++	//	P2P Capability
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_CAPABILITY;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0002 );
++	p2pielen += 2;
++
++	//	Value:
++	//	Device Capability Bitmap, 1 byte
++	p2pie[ p2pielen++ ] = DMP_P2P_DEVCAP_SUPPORT;
++	
++	//	Group Capability Bitmap, 1 byte
++	if ( pwdinfo->persistent_supported )
++	{
++		p2pie[ p2pielen++ ] = P2P_GRPCAP_CROSS_CONN | P2P_GRPCAP_PERSISTENT_GROUP;
++	}
++	else
++	{
++		p2pie[ p2pielen++ ] = P2P_GRPCAP_CROSS_CONN;
++	}
++
++
++	//	Operating Channel
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_OPERATING_CH;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0005 );
++	p2pielen += 2;
++
++	//	Value:
++	//	Country String
++	p2pie[ p2pielen++ ] = 'X';
++	p2pie[ p2pielen++ ] = 'X';
++	
++	//	The third byte should be set to 0x04.
++	//	Described in the "Operating Channel Attribute" section.
++	p2pie[ p2pielen++ ] = 0x04;
++
++
++	if ( rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT) )
++	{
++		if ( pwdinfo->peer_operating_ch <= 14 )
++		{
++			//	Operating Class
++			p2pie[ p2pielen++ ] = 0x51;
++		}
++		else if ( ( pwdinfo->peer_operating_ch >= 36 ) && ( pwdinfo->peer_operating_ch <= 48 ) )
++		{
++			//	Operating Class
++			p2pie[ p2pielen++ ] = 0x73;
++		}
++		else
++		{
++			//	Operating Class
++			p2pie[ p2pielen++ ] = 0x7c;
++		}
++		
++		p2pie[ p2pielen++ ] = pwdinfo->peer_operating_ch;
++	}
++	else
++	{
++		if ( pwdinfo->operating_channel <= 14 )
++		{
++			//	Operating Class
++			p2pie[ p2pielen++ ] = 0x51;
++		}
++		else if ( ( pwdinfo->operating_channel >= 36 ) && ( pwdinfo->operating_channel <= 48 ) )
++		{
++			//	Operating Class
++			p2pie[ p2pielen++ ] = 0x73;
++		}
++		else
++		{
++			//	Operating Class
++			p2pie[ p2pielen++ ] = 0x7c;
++		}
++		
++		//	Channel Number
++		p2pie[ p2pielen++ ] = pwdinfo->operating_channel;		//	Use the listen channel as the operating channel
++	}
++
++
++	//	Channel List
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_CH_LIST;
++
++	*(u16*) ( p2pie + p2pielen ) = 6;
++	p2pielen += 2;
++
++	//	Country String
++	p2pie[ p2pielen++ ] = 'X';
++	p2pie[ p2pielen++ ] = 'X';
++	
++	//	The third byte should be set to 0x04.
++	//	Described in the "Operating Channel Attribute" section.
++	p2pie[ p2pielen++ ] = 0x04;
++
++	//	Value:
++	if ( rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT) )
++	{
++		if ( pwdinfo->peer_operating_ch <= 14 )
++		{
++			//	Operating Class
++			p2pie[ p2pielen++ ] = 0x51;
++		}
++		else if ( ( pwdinfo->peer_operating_ch >= 36 ) && ( pwdinfo->peer_operating_ch <= 48 ) )
++		{
++			//	Operating Class
++			p2pie[ p2pielen++ ] = 0x73;
++		}
++		else
++		{
++			//	Operating Class
++			p2pie[ p2pielen++ ] = 0x7c;
++		}
++		p2pie[ p2pielen++ ] = 1;
++		p2pie[ p2pielen++ ] = pwdinfo->peer_operating_ch;
++	}
++	else
++	{
++		if ( pwdinfo->operating_channel <= 14 )
++		{
++			//	Operating Class
++			p2pie[ p2pielen++ ] = 0x51;
++		}
++		else if ( ( pwdinfo->operating_channel >= 36 ) && ( pwdinfo->operating_channel <= 48 ) )
++		{
++			//	Operating Class
++			p2pie[ p2pielen++ ] = 0x73;
++		}
++		else
++		{
++			//	Operating Class
++			p2pie[ p2pielen++ ] = 0x7c;
++		}
++		
++		//	Channel Number
++		p2pie[ p2pielen++ ] = 1;
++		p2pie[ p2pielen++ ] = pwdinfo->operating_channel;		//	Use the listen channel as the operating channel
++	}
++
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO) )
++	{
++		//	Group ID Attribute
++		//	Type:
++		p2pie[ p2pielen++ ] = P2P_ATTR_GROUP_ID;
++
++		//	Length:
++		*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( ETH_ALEN + pwdinfo->nego_ssidlen );
++		p2pielen += 2;
++
++		//	Value:
++		//	p2P Device Address
++		_rtw_memcpy( p2pie + p2pielen , pwdinfo->device_addr, ETH_ALEN );
++		p2pielen += ETH_ALEN;
++
++		//	SSID
++		_rtw_memcpy( p2pie + p2pielen, pwdinfo->nego_ssid, pwdinfo->nego_ssidlen );
++		p2pielen += pwdinfo->nego_ssidlen;
++	}
++	
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen );
++	
++#ifdef CONFIG_WFD
++	wfdielen = build_nego_confirm_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif //CONFIG_WFD
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++void issue_p2p_invitation_request(_adapter *padapter, u8* raddr )
++{
++
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_INVIT_REQ;
++	u8			p2pie[ 255 ] = { 0x00 };
++	u8			p2pielen = 0, i;
++	u8			dialogToken = 3;
++	u8			channel_cnt_24g = 0, channel_cnt_5gl = 0, channel_cnt_5gh = 0;
++	u16			len_channellist_attr = 0;	
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif //CONFIG_WFD
++#ifdef CONFIG_CONCURRENT_MODE
++	_adapter				*pbuddy_adapter = padapter->pbuddy_adapter;
++	struct wifidirect_info	*pbuddy_wdinfo = &pbuddy_adapter->wdinfo;
++	struct mlme_priv		*pbuddy_mlmepriv = &pbuddy_adapter->mlmepriv;
++	struct mlme_ext_priv	*pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++#endif
++
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo);
++
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, raddr,  ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));	
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));
++
++	//	P2P IE Section.
++
++	//	P2P OUI
++	p2pielen = 0;
++	p2pie[ p2pielen++ ] = 0x50;
++	p2pie[ p2pielen++ ] = 0x6F;
++	p2pie[ p2pielen++ ] = 0x9A;
++	p2pie[ p2pielen++ ] = 0x09;	//	WFA P2P v1.0
++
++	//	Commented by Albert 20101011
++	//	According to the P2P Specification, the P2P Invitation request frame should contain 7 P2P attributes
++	//	1. Configuration Timeout
++	//	2. Invitation Flags
++	//	3. Operating Channel	( Only GO )
++	//	4. P2P Group BSSID	( Should be included if I am the GO )
++	//	5. Channel List
++	//	6. P2P Group ID
++	//	7. P2P Device Info
++
++	//	Configuration Timeout
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_CONF_TIMEOUT;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0002 );
++	p2pielen += 2;
++
++	//	Value:
++	p2pie[ p2pielen++ ] = 200;	//	2 seconds needed to be the P2P GO
++	p2pie[ p2pielen++ ] = 200;	//	2 seconds needed to be the P2P Client
++
++	//	Invitation Flags
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_INVITATION_FLAGS;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0001 );
++	p2pielen += 2;
++
++	//	Value:
++	p2pie[ p2pielen++ ] = P2P_INVITATION_FLAGS_PERSISTENT;
++
++
++	//	Operating Channel
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_OPERATING_CH;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0005 );
++	p2pielen += 2;
++
++	//	Value:
++	//	Country String
++	p2pie[ p2pielen++ ] = 'X';
++	p2pie[ p2pielen++ ] = 'X';
++	
++	//	The third byte should be set to 0x04.
++	//	Described in the "Operating Channel Attribute" section.
++	p2pie[ p2pielen++ ] = 0x04;
++
++	//	Operating Class
++	if ( pwdinfo->invitereq_info.operating_ch <= 14 )
++		p2pie[ p2pielen++ ] = 0x51;
++	else if ( ( pwdinfo->invitereq_info.operating_ch >= 36 ) && ( pwdinfo->invitereq_info.operating_ch <= 48 ) )
++		p2pie[ p2pielen++ ] = 0x73;
++	else
++		p2pie[ p2pielen++ ] = 0x7c;
++	
++	//	Channel Number
++	p2pie[ p2pielen++ ] = pwdinfo->invitereq_info.operating_ch;	//	operating channel number
++
++	if ( _rtw_memcmp( myid( &padapter->eeprompriv ), pwdinfo->invitereq_info.go_bssid, ETH_ALEN ) )
++	{
++		//	P2P Group BSSID
++		//	Type:
++		p2pie[ p2pielen++ ] = P2P_ATTR_GROUP_BSSID;
++
++		//	Length:
++		*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( ETH_ALEN );
++		p2pielen += 2;
++
++		//	Value:
++		//	P2P Device Address for GO
++		_rtw_memcpy( p2pie + p2pielen, pwdinfo->invitereq_info.go_bssid, ETH_ALEN );
++		p2pielen += ETH_ALEN;
++	}
++
++	//	Channel List
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_CH_LIST;
++
++	
++	//	Length:
++	// Country String(3)
++	// + ( Operating Class (1) + Number of Channels(1) ) * Operation Classes (?)
++	// + number of channels in all classes
++	len_channellist_attr = 3
++	   + (1 + 1) * (u16)pmlmeext->channel_list.reg_classes
++	   + get_reg_classes_full_count(pmlmeext->channel_list);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++	{
++		*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 5 + 1 );
++	}
++	else
++	{
++		*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( len_channellist_attr );
++	}
++#else
++
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( len_channellist_attr );
++
++ #endif
++	p2pielen += 2;
++
++	//	Value:
++	//	Country String
++	p2pie[ p2pielen++ ] = 'X';
++	p2pie[ p2pielen++ ] = 'X';
++	
++	//	The third byte should be set to 0x04.
++	//	Described in the "Operating Channel Attribute" section.
++	p2pie[ p2pielen++ ] = 0x04;
++
++	//	Channel Entry List
++#ifdef CONFIG_CONCURRENT_MODE
++	if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++	{
++		_adapter *pbuddy_adapter = padapter->pbuddy_adapter;	
++		struct mlme_ext_priv	*pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++
++		//	Operating Class
++		if ( pbuddy_mlmeext->cur_channel > 14 )
++		{
++			if ( pbuddy_mlmeext->cur_channel >= 149 )
++			{
++				p2pie[ p2pielen++ ] = 0x7c;
++			}
++			else
++			{
++				p2pie[ p2pielen++ ] = 0x73;
++			}
++		}
++		else
++		{
++			p2pie[ p2pielen++ ] = 0x51;
++		}
++
++		//	Number of Channels
++		//	Just support 1 channel and this channel is AP's channel
++		p2pie[ p2pielen++ ] = 1;
++
++		//	Channel List
++		p2pie[ p2pielen++ ] = pbuddy_mlmeext->cur_channel;
++	}
++	else
++	{
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			//	Operating Class
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			//	Number of Channels
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			//	Channel List
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++) {
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++			}
++		}
++	}
++#else // CONFIG_CONCURRENT_MODE
++	{
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			//	Operating Class
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			//	Number of Channels
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			//	Channel List
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++) {
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++			}
++		}
++	}
++#endif // CONFIG_CONCURRENT_MODE
++
++
++	//	P2P Group ID
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_GROUP_ID;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 6 + pwdinfo->invitereq_info.ssidlen );
++	p2pielen += 2;
++
++	//	Value:
++	//	P2P Device Address for GO
++	_rtw_memcpy( p2pie + p2pielen, pwdinfo->invitereq_info.go_bssid, ETH_ALEN );
++	p2pielen += ETH_ALEN;
++
++	//	SSID
++	_rtw_memcpy( p2pie + p2pielen, pwdinfo->invitereq_info.go_ssid, pwdinfo->invitereq_info.ssidlen );
++	p2pielen += pwdinfo->invitereq_info.ssidlen;
++	
++
++	//	Device Info
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_DEVICE_INFO;
++
++	//	Length:
++	//	21 -> P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes) 
++	//	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes)
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 21 + pwdinfo->device_name_len );
++	p2pielen += 2;
++	
++	//	Value:
++	//	P2P Device Address
++	_rtw_memcpy( p2pie + p2pielen, myid( &padapter->eeprompriv ), ETH_ALEN );
++	p2pielen += ETH_ALEN;
++
++	//	Config Method
++	//	This field should be big endian. Noted by P2P specification.
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_CONFIG_METHOD_DISPLAY );
++	p2pielen += 2;
++
++	//	Primary Device Type
++	//	Category ID
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_CID_MULIT_MEDIA );
++	p2pielen += 2;
++
++	//	OUI
++	*(u32*) ( p2pie + p2pielen ) = cpu_to_be32( WPSOUI );
++	p2pielen += 4;
++
++	//	Sub Category ID
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_SCID_MEDIA_SERVER );
++	p2pielen += 2;
++
++	//	Number of Secondary Device Types
++	p2pie[ p2pielen++ ] = 0x00;	//	No Secondary Device Type List
++
++	//	Device Name
++	//	Type:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_ATTR_DEVICE_NAME );
++	p2pielen += 2;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( pwdinfo->device_name_len );
++	p2pielen += 2;
++
++	//	Value:
++	_rtw_memcpy( p2pie + p2pielen, pwdinfo->device_name, pwdinfo->device_name_len );
++	p2pielen += pwdinfo->device_name_len;
++		
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen );	
++
++#ifdef CONFIG_WFD
++	wfdielen = build_invitation_req_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif //CONFIG_WFD	
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++void issue_p2p_invitation_response(_adapter *padapter, u8* raddr, u8 dialogToken, u8 status_code)
++{
++
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_INVIT_RESP;
++	u8			p2pie[ 255 ] = { 0x00 };
++	u8			p2pielen = 0, i;
++	u8			channel_cnt_24g = 0, channel_cnt_5gl = 0, channel_cnt_5gh = 0;
++	u16			len_channellist_attr = 0;
++#ifdef CONFIG_CONCURRENT_MODE
++	_adapter				*pbuddy_adapter = padapter->pbuddy_adapter;
++	struct wifidirect_info	*pbuddy_wdinfo = &pbuddy_adapter->wdinfo;
++	struct mlme_priv		*pbuddy_mlmepriv = &pbuddy_adapter->mlmepriv;
++	struct mlme_ext_priv	*pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++#endif	
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif //CONFIG_WFD
++	
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo);
++
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, raddr,  ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));	
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));
++
++	//	P2P IE Section.
++
++	//	P2P OUI
++	p2pielen = 0;
++	p2pie[ p2pielen++ ] = 0x50;
++	p2pie[ p2pielen++ ] = 0x6F;
++	p2pie[ p2pielen++ ] = 0x9A;
++	p2pie[ p2pielen++ ] = 0x09;	//	WFA P2P v1.0
++
++	//	Commented by Albert 20101005
++	//	According to the P2P Specification, the P2P Invitation response frame should contain 5 P2P attributes
++	//	1. Status
++	//	2. Configuration Timeout
++	//	3. Operating Channel	( Only GO )
++	//	4. P2P Group BSSID	( Only GO )
++	//	5. Channel List
++
++	//	P2P Status
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_STATUS;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0001 );
++	p2pielen += 2;
++
++	//	Value:
++	//	When status code is P2P_STATUS_FAIL_INFO_UNAVAILABLE.
++	//	Sent the event receiving the P2P Invitation Req frame to DMP UI.
++	//	DMP had to compare the MAC address to find out the profile.
++	//	So, the WiFi driver will send the P2P_STATUS_FAIL_INFO_UNAVAILABLE to NB.
++	//	If the UI found the corresponding profile, the WiFi driver sends the P2P Invitation Req
++	//	to NB to rebuild the persistent group.
++	p2pie[ p2pielen++ ] = status_code;
++	
++	//	Configuration Timeout
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_CONF_TIMEOUT;
++
++	//	Length:
++	*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0002 );
++	p2pielen += 2;
++
++	//	Value:
++	p2pie[ p2pielen++ ] = 200;	//	2 seconds needed to be the P2P GO
++	p2pie[ p2pielen++ ] = 200;	//	2 seconds needed to be the P2P Client
++
++	if( status_code == P2P_STATUS_SUCCESS )
++	{
++		if( rtw_p2p_chk_role( pwdinfo, P2P_ROLE_GO ) )
++		{
++			//	The P2P Invitation request frame asks this Wi-Fi device to be the P2P GO
++			//	In this case, the P2P Invitation response frame should carry the two more P2P attributes.
++			//	First one is operating channel attribute.
++			//	Second one is P2P Group BSSID attribute.
++
++			//	Operating Channel
++			//	Type:
++			p2pie[ p2pielen++ ] = P2P_ATTR_OPERATING_CH;
++
++			//	Length:
++			*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0005 );
++			p2pielen += 2;
++
++			//	Value:
++			//	Country String
++			p2pie[ p2pielen++ ] = 'X';
++			p2pie[ p2pielen++ ] = 'X';
++		
++			//	The third byte should be set to 0x04.
++			//	Described in the "Operating Channel Attribute" section.
++			p2pie[ p2pielen++ ] = 0x04;
++
++			//	Operating Class
++			p2pie[ p2pielen++ ] = 0x51;	//	Copy from SD7
++		
++			//	Channel Number
++			p2pie[ p2pielen++ ] = pwdinfo->operating_channel;	//	operating channel number
++			
++
++			//	P2P Group BSSID
++			//	Type:
++			p2pie[ p2pielen++ ] = P2P_ATTR_GROUP_BSSID;
++
++			//	Length:
++			*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( ETH_ALEN );
++			p2pielen += 2;
++
++			//	Value:
++			//	P2P Device Address for GO
++			_rtw_memcpy( p2pie + p2pielen, myid( &padapter->eeprompriv ), ETH_ALEN );
++			p2pielen += ETH_ALEN;
++
++		}
++
++		//	Channel List
++		//	Type:
++		p2pie[ p2pielen++ ] = P2P_ATTR_CH_LIST;
++
++		//	Length:
++		// Country String(3)
++		// + ( Operating Class (1) + Number of Channels(1) ) * Operation Classes (?)
++		// + number of channels in all classes
++		len_channellist_attr = 3
++			+ (1 + 1) * (u16)pmlmeext->channel_list.reg_classes
++			+ get_reg_classes_full_count(pmlmeext->channel_list);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++		{
++			*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 5 + 1 );
++		}
++		else
++		{
++			*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( len_channellist_attr );
++		}
++#else
++
++		*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( len_channellist_attr );
++
++#endif
++		p2pielen += 2;
++
++		//	Value:
++		//	Country String
++		p2pie[ p2pielen++ ] = 'X';
++		p2pie[ p2pielen++ ] = 'X';
++
++		//	The third byte should be set to 0x04.
++		//	Described in the "Operating Channel Attribute" section.
++		p2pie[ p2pielen++ ] = 0x04;
++
++		//	Channel Entry List
++#ifdef CONFIG_CONCURRENT_MODE
++		if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++		{
++			_adapter *pbuddy_adapter = padapter->pbuddy_adapter;	
++			struct mlme_ext_priv	*pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++
++			//	Operating Class
++			if ( pbuddy_mlmeext->cur_channel > 14 )
++			{
++				if ( pbuddy_mlmeext->cur_channel >= 149 )
++				{
++					p2pie[ p2pielen++ ] = 0x7c;
++				}
++				else
++				{
++					p2pie[ p2pielen++ ] = 0x73;
++				}
++			}
++			else
++			{
++				p2pie[ p2pielen++ ] = 0x51;
++			}
++
++			//	Number of Channels
++			//	Just support 1 channel and this channel is AP's channel
++			p2pie[ p2pielen++ ] = 1;
++
++			//	Channel List
++			p2pie[ p2pielen++ ] = pbuddy_mlmeext->cur_channel;
++		}
++		else
++		{
++			int i, j;
++			for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++				//	Operating Class
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++				//	Number of Channels
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++				//	Channel List
++				for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++) {
++					p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++				}
++			}
++		}
++#else // CONFIG_CONCURRENT_MODE
++		{
++			int i, j;
++			for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++				//	Operating Class
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++				//	Number of Channels
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++				//	Channel List
++				for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++) {
++					p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++				}
++			}
++		}
++#endif // CONFIG_CONCURRENT_MODE
++	}
++		
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen );	
++	
++#ifdef CONFIG_WFD
++	wfdielen = build_invitation_resp_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif //CONFIG_WFD
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++void issue_p2p_provision_request(_adapter *padapter, u8* pssid, u8 ussidlen, u8* pdev_raddr )
++{
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u8			dialogToken = 1;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_PROVISION_DISC_REQ;
++	u8			wpsie[ 100 ] = { 0x00 };
++	u8			wpsielen = 0;
++	u32			p2pielen = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif //CONFIG_WFD		
++	
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++
++	DBG_871X( "[%s] In\n", __FUNCTION__ );
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, pdev_raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, pdev_raddr, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));	
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));		
++
++	p2pielen = build_prov_disc_request_p2p_ie( pwdinfo, pframe, pssid, ussidlen, pdev_raddr );
++
++	pframe += p2pielen;
++	pattrib->pktlen += p2pielen;
++
++	wpsielen = 0;
++	//	WPS OUI
++	*(u32*) ( wpsie ) = cpu_to_be32( WPSOUI );
++	wpsielen += 4;
++
++	//	WPS version
++	//	Type:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_VER1 );
++	wpsielen += 2;
++
++	//	Length:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0001 );
++	wpsielen += 2;
++
++	//	Value:
++	wpsie[wpsielen++] = WPS_VERSION_1;	//	Version 1.0
++
++	//	Config Method
++	//	Type:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_CONF_METHOD );
++	wpsielen += 2;
++
++	//	Length:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0002 );
++	wpsielen += 2;
++
++	//	Value:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( pwdinfo->tx_prov_disc_info.wps_config_method_request );
++	wpsielen += 2;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen );
++
++
++#ifdef CONFIG_WFD
++	wfdielen = build_provdisc_req_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif //CONFIG_WFD
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++
++u8 is_matched_in_profilelist( u8* peermacaddr, struct profile_info* profileinfo )
++{
++	u8 i, match_result = 0;
++
++	DBG_871X( "[%s] peermac = %.2X %.2X %.2X %.2X %.2X %.2X\n", __FUNCTION__,
++	  	    peermacaddr[0], peermacaddr[1],peermacaddr[2],peermacaddr[3],peermacaddr[4],peermacaddr[5]);
++	
++	for( i = 0; i < P2P_MAX_PERSISTENT_GROUP_NUM; i++, profileinfo++ )
++	{
++	       DBG_871X( "[%s] profileinfo_mac = %.2X %.2X %.2X %.2X %.2X %.2X\n", __FUNCTION__,
++		   	    profileinfo->peermac[0], profileinfo->peermac[1],profileinfo->peermac[2],profileinfo->peermac[3],profileinfo->peermac[4],profileinfo->peermac[5]);		   
++		if ( _rtw_memcmp( peermacaddr, profileinfo->peermac, ETH_ALEN ) )
++		{
++			match_result = 1;
++			DBG_871X( "[%s] Match!\n", __FUNCTION__ );
++			break;
++		}
++	}
++	
++	return (match_result );
++}
++
++void issue_probersp_p2p(_adapter *padapter, unsigned char *da)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;	
++	unsigned char					*mac;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	//WLAN_BSSID_EX 		*cur_network = &(pmlmeinfo->network);
++	u16					beacon_interval = 100;
++	u16					capInfo = 0;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8					wpsie[255] = { 0x00 };
++	u32					wpsielen = 0, p2pielen = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif //CONFIG_WFD
++#ifdef CONFIG_INTEL_WIDI
++	u8 zero_array_check[L2SDTA_SERVICE_VE_LEN] = { 0x00 };
++#endif //CONFIG_INTEL_WIDI
++
++	//DBG_871X("%s\n", __FUNCTION__);
++	
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++	
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);	
++	
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++		
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;	
++	
++	mac = myid(&(padapter->eeprompriv));
++	
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, mac, ETH_ALEN);
++	
++	//	Use the device address for BSSID field.	
++	_rtw_memcpy(pwlanhdr->addr3, mac, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(fctrl, WIFI_PROBERSP);
++	
++	pattrib->hdrlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = pattrib->hdrlen;
++	pframe += pattrib->hdrlen;
++
++	//timestamp will be inserted by hardware
++	pframe += 8;
++	pattrib->pktlen += 8;
++
++	// beacon interval: 2 bytes
++	_rtw_memcpy(pframe, (unsigned char *) &beacon_interval, 2); 
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++	//	capability info: 2 bytes
++	//	ESS and IBSS bits must be 0 (defined in the 3.1.2.1.1 of WiFi Direct Spec)
++	capInfo |= cap_ShortPremble;
++	capInfo |= cap_ShortSlot;
++	
++	_rtw_memcpy(pframe, (unsigned char *) &capInfo, 2);
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++
++	// SSID
++	pframe = rtw_set_ie(pframe, _SSID_IE_, 7, pwdinfo->p2p_wildcard_ssid, &pattrib->pktlen);
++
++	// supported rates...
++	//	Use the OFDM rate in the P2P probe response frame. ( 6(B), 9(B), 12, 18, 24, 36, 48, 54 )
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, 8, pwdinfo->support_rate, &pattrib->pktlen);
++
++	// DS parameter set
++	pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&pwdinfo->listen_channel, &pattrib->pktlen);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if(wdev_to_priv(padapter->rtw_wdev)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211 )
++	{
++		if( pmlmepriv->wps_probe_resp_ie != NULL && pmlmepriv->p2p_probe_resp_ie != NULL )
++		{
++			//WPS IE
++			_rtw_memcpy(pframe, pmlmepriv->wps_probe_resp_ie, pmlmepriv->wps_probe_resp_ie_len);
++			pattrib->pktlen += pmlmepriv->wps_probe_resp_ie_len;
++			pframe += pmlmepriv->wps_probe_resp_ie_len;
++
++			//P2P IE
++			_rtw_memcpy(pframe, pmlmepriv->p2p_probe_resp_ie, pmlmepriv->p2p_probe_resp_ie_len);
++			pattrib->pktlen += pmlmepriv->p2p_probe_resp_ie_len;
++			pframe += pmlmepriv->p2p_probe_resp_ie_len;
++		}
++	}
++	else
++#endif //CONFIG_IOCTL_CFG80211		
++	{
++
++		//	Todo: WPS IE
++		//	Noted by Albert 20100907
++		//	According to the WPS specification, all the WPS attribute is presented by Big Endian.
++
++		wpsielen = 0;
++		//	WPS OUI
++		*(u32*) ( wpsie ) = cpu_to_be32( WPSOUI );
++		wpsielen += 4;
++
++		//	WPS version
++		//	Type:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_VER1 );
++		wpsielen += 2;
++
++		//	Length:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0001 );
++		wpsielen += 2;
++
++		//	Value:
++		wpsie[wpsielen++] = WPS_VERSION_1;	//	Version 1.0
++
++#ifdef CONFIG_INTEL_WIDI
++		//	Commented by Kurt
++		//	Appended WiDi info. only if we did issued_probereq_widi(), and then we saved ven. ext. in pmlmepriv->sa_ext.
++		if(  _rtw_memcmp(pmlmepriv->sa_ext, zero_array_check, L2SDTA_SERVICE_VE_LEN) == _FALSE 
++			|| pmlmepriv->num_p2p_sdt != 0 )
++		{
++			//Sec dev type
++			*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_SEC_DEV_TYPE_LIST );
++			wpsielen += 2;
++
++			//	Length:
++			*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0008 );
++			wpsielen += 2;
++
++			//	Value:
++			//	Category ID
++			*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_PDT_CID_DISPLAYS );
++			wpsielen += 2;
++
++			//	OUI
++			*(u32*) ( wpsie + wpsielen ) = cpu_to_be32( INTEL_DEV_TYPE_OUI );
++			wpsielen += 4;
++
++			*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_PDT_SCID_WIDI_CONSUMER_SINK );
++			wpsielen += 2;
++
++			if(  _rtw_memcmp(pmlmepriv->sa_ext, zero_array_check, L2SDTA_SERVICE_VE_LEN) == _FALSE )
++			{
++				//	Vendor Extension
++				_rtw_memcpy( wpsie + wpsielen, pmlmepriv->sa_ext, L2SDTA_SERVICE_VE_LEN );
++				wpsielen += L2SDTA_SERVICE_VE_LEN;
++			}
++		}
++#endif //CONFIG_INTEL_WIDI
++
++		//	WiFi Simple Config State
++		//	Type:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_SIMPLE_CONF_STATE );
++		wpsielen += 2;
++
++		//	Length:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0001 );
++		wpsielen += 2;
++
++		//	Value:
++		wpsie[wpsielen++] = WPS_WSC_STATE_NOT_CONFIG;	//	Not Configured.
++
++		//	Response Type
++		//	Type:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_RESP_TYPE );
++		wpsielen += 2;
++
++		//	Length:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0001 );
++		wpsielen += 2;
++
++		//	Value:
++		wpsie[wpsielen++] = WPS_RESPONSE_TYPE_8021X;
++
++		//	UUID-E
++		//	Type:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_UUID_E );
++		wpsielen += 2;
++
++		//	Length:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0010 );
++		wpsielen += 2;
++
++		//	Value:
++		if (pwdinfo->external_uuid == 0) {
++			_rtw_memset( wpsie + wpsielen, 0x0, 16 );
++			_rtw_memcpy( wpsie + wpsielen, myid( &padapter->eeprompriv ), ETH_ALEN );
++		} else {
++			_rtw_memcpy( wpsie + wpsielen, pwdinfo->uuid, 0x10 );
++		}
++		wpsielen += 0x10;
++
++		//	Manufacturer
++		//	Type:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_MANUFACTURER );
++		wpsielen += 2;
++
++		//	Length:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0007 );
++		wpsielen += 2;
++
++		//	Value:
++		_rtw_memcpy( wpsie + wpsielen, "Realtek", 7 );
++		wpsielen += 7;
++
++		//	Model Name
++		//	Type:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_MODEL_NAME );
++		wpsielen += 2;
++
++		//	Length:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0006 );
++		wpsielen += 2;	
++
++		//	Value:
++		_rtw_memcpy( wpsie + wpsielen, "8192CU", 6 );
++		wpsielen += 6;
++
++		//	Model Number
++		//	Type:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_MODEL_NUMBER );
++		wpsielen += 2;
++
++		//	Length:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0001 );
++		wpsielen += 2;
++
++		//	Value:
++		wpsie[ wpsielen++ ] = 0x31;		//	character 1
++
++		//	Serial Number
++		//	Type:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_SERIAL_NUMBER );
++		wpsielen += 2;
++
++		//	Length:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( ETH_ALEN );
++		wpsielen += 2;
++
++		//	Value:
++		_rtw_memcpy( wpsie + wpsielen, "123456" , ETH_ALEN );
++		wpsielen += ETH_ALEN;
++
++		//	Primary Device Type
++		//	Type:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_PRIMARY_DEV_TYPE );
++		wpsielen += 2;
++
++		//	Length:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0008 );
++		wpsielen += 2;
++
++		//	Value:
++		//	Category ID
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_PDT_CID_RTK_WIDI );
++		wpsielen += 2;
++
++		//	OUI
++		*(u32*) ( wpsie + wpsielen ) = cpu_to_be32( WPSOUI );
++		wpsielen += 4;
++
++		//	Sub Category ID
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_PDT_SCID_RTK_DMP );
++		wpsielen += 2;
++
++		//	Device Name
++		//	Type:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_DEVICE_NAME );
++		wpsielen += 2;
++
++		//	Length:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( pwdinfo->device_name_len );
++		wpsielen += 2;
++
++		//	Value:
++		_rtw_memcpy( wpsie + wpsielen, pwdinfo->device_name, pwdinfo->device_name_len );
++		wpsielen += pwdinfo->device_name_len;
++
++		//	Config Method
++		//	Type:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_CONF_METHOD );
++		wpsielen += 2;
++
++		//	Length:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0002 );
++		wpsielen += 2;
++
++		//	Value:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( pwdinfo->supported_wps_cm );
++		wpsielen += 2;
++		
++
++		pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen );
++		
++
++		p2pielen = build_probe_resp_p2p_ie(pwdinfo, pframe);
++		pframe += p2pielen;
++		pattrib->pktlen += p2pielen;
++	}
++
++#ifdef CONFIG_WFD
++#ifdef CONFIG_IOCTL_CFG80211
++	if ( _TRUE == pwdinfo->wfd_info->wfd_enable )
++#endif //CONFIG_IOCTL_CFG80211
++	{
++		wfdielen = build_probe_resp_wfd_ie(pwdinfo, pframe, 0);
++		pframe += wfdielen;
++		pattrib->pktlen += wfdielen;
++	}
++#ifdef CONFIG_IOCTL_CFG80211
++	else if (pmlmepriv->wfd_probe_resp_ie != NULL && pmlmepriv->wfd_probe_resp_ie_len>0)
++	{
++		//WFD IE
++		_rtw_memcpy(pframe, pmlmepriv->wfd_probe_resp_ie, pmlmepriv->wfd_probe_resp_ie_len);
++		pattrib->pktlen += pmlmepriv->wfd_probe_resp_ie_len;
++		pframe += pmlmepriv->wfd_probe_resp_ie_len;		
++	}
++#endif //CONFIG_IOCTL_CFG80211
++#endif //CONFIG_WFD	
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++	
++
++	dump_mgntframe(padapter, pmgntframe);
++	
++	return;
++
++}
++
++int _issue_probereq_p2p(_adapter *padapter, u8 *da, int wait_ack)
++{
++	int ret = _FAIL;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	unsigned char			*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short		*fctrl;
++	unsigned char			*mac;
++	unsigned char			bssrate[NumRates];
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	int	bssrate_len = 0;
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);	
++	u8					wpsie[255] = { 0x00 }, p2pie[ 255 ] = { 0x00 };
++	u16					wpsielen = 0, p2pielen = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif //CONFIG_WFD
++
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		goto exit;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	mac = myid(&(padapter->eeprompriv));
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	if (da) {
++		_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, da, ETH_ALEN);
++	} else {
++		if ( ( pwdinfo->p2p_info.scan_op_ch_only ) || ( pwdinfo->rx_invitereq_info.scan_op_ch_only ) )
++		{
++			//	This two flags will be set when this is only the P2P client mode.
++			_rtw_memcpy(pwlanhdr->addr1, pwdinfo->p2p_peer_interface_addr, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, pwdinfo->p2p_peer_interface_addr, ETH_ALEN);
++		}
++		else
++		{
++			//	broadcast probe request frame
++			_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, bc_addr, ETH_ALEN);
++		}
++ 	}
++	_rtw_memcpy(pwlanhdr->addr2, mac, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_PROBEREQ);
++
++	pframe += sizeof (struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof (struct rtw_ieee80211_hdr_3addr);
++
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_PROVISION_DIS_REQ))
++	{
++		pframe = rtw_set_ie(pframe, _SSID_IE_, pwdinfo->tx_prov_disc_info.ssid.SsidLength, pwdinfo->tx_prov_disc_info.ssid.Ssid, &(pattrib->pktlen));
++	}
++	else
++	{
++		pframe = rtw_set_ie(pframe, _SSID_IE_, P2P_WILDCARD_SSID_LEN, pwdinfo->p2p_wildcard_ssid, &(pattrib->pktlen));
++	}
++	//	Use the OFDM rate in the P2P probe request frame. ( 6(B), 9(B), 12(B), 24(B), 36, 48, 54 )
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, 8, pwdinfo->support_rate, &pattrib->pktlen);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if(wdev_to_priv(padapter->rtw_wdev)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211 )
++	{
++		if( pmlmepriv->wps_probe_req_ie != NULL && pmlmepriv->p2p_probe_req_ie != NULL )
++		{
++			//WPS IE
++			_rtw_memcpy(pframe, pmlmepriv->wps_probe_req_ie, pmlmepriv->wps_probe_req_ie_len);
++			pattrib->pktlen += pmlmepriv->wps_probe_req_ie_len;
++			pframe += pmlmepriv->wps_probe_req_ie_len;
++
++			//P2P IE
++			_rtw_memcpy(pframe, pmlmepriv->p2p_probe_req_ie, pmlmepriv->p2p_probe_req_ie_len);
++			pattrib->pktlen += pmlmepriv->p2p_probe_req_ie_len;
++			pframe += pmlmepriv->p2p_probe_req_ie_len;
++		}
++	}
++	else
++#endif //CONFIG_IOCTL_CFG80211
++	{
++
++		//	WPS IE
++		//	Noted by Albert 20110221
++		//	According to the WPS specification, all the WPS attribute is presented by Big Endian.
++
++		wpsielen = 0;
++		//	WPS OUI
++		*(u32*) ( wpsie ) = cpu_to_be32( WPSOUI );
++		wpsielen += 4;
++
++		//	WPS version
++		//	Type:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_VER1 );
++		wpsielen += 2;
++
++		//	Length:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0001 );
++		wpsielen += 2;
++
++		//	Value:
++		wpsie[wpsielen++] = WPS_VERSION_1;	//	Version 1.0
++
++		if( pmlmepriv->wps_probe_req_ie == NULL )
++		{
++			//	UUID-E
++			//	Type:
++			*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_UUID_E );
++			wpsielen += 2;
++
++			//	Length:
++			*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0010 );
++			wpsielen += 2;
++
++			//	Value:
++			if (pwdinfo->external_uuid == 0) {
++				_rtw_memset( wpsie + wpsielen, 0x0, 16 );
++				_rtw_memcpy( wpsie + wpsielen, myid( &padapter->eeprompriv ), ETH_ALEN );
++			} else {
++				_rtw_memcpy( wpsie + wpsielen, pwdinfo->uuid, 0x10 );
++			}
++			wpsielen += 0x10;
++
++			//	Config Method
++			//	Type:
++			*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_CONF_METHOD );
++			wpsielen += 2;
++
++			//	Length:
++			*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0002 );
++			wpsielen += 2;
++
++			//	Value:
++			*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( pwdinfo->supported_wps_cm );
++			wpsielen += 2;
++		}
++
++		//	Device Name
++		//	Type:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_DEVICE_NAME );
++		wpsielen += 2;
++
++		//	Length:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( pwdinfo->device_name_len );
++		wpsielen += 2;
++
++		//	Value:
++		_rtw_memcpy( wpsie + wpsielen, pwdinfo->device_name, pwdinfo->device_name_len );
++		wpsielen += pwdinfo->device_name_len;
++
++		//	Primary Device Type
++		//	Type:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_PRIMARY_DEV_TYPE );
++		wpsielen += 2;
++
++		//	Length:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0008 );
++		wpsielen += 2;
++
++		//	Value:
++		//	Category ID
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_PDT_CID_MULIT_MEDIA );
++		wpsielen += 2;
++
++		//	OUI
++		*(u32*) ( wpsie + wpsielen ) = cpu_to_be32( WPSOUI );
++		wpsielen += 4;
++
++		//	Sub Category ID
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_PDT_SCID_MEDIA_SERVER );
++		wpsielen += 2;
++
++		//	Device Password ID
++		//	Type:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_DEVICE_PWID );
++		wpsielen += 2;
++
++		//	Length:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0002 );
++		wpsielen += 2;
++
++		//	Value:
++		*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_DPID_REGISTRAR_SPEC );	//	Registrar-specified
++		wpsielen += 2;	
++
++		pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen );
++		
++		//	P2P OUI
++		p2pielen = 0;
++		p2pie[ p2pielen++ ] = 0x50;
++		p2pie[ p2pielen++ ] = 0x6F;
++		p2pie[ p2pielen++ ] = 0x9A;
++		p2pie[ p2pielen++ ] = 0x09;	//	WFA P2P v1.0
++
++		//	Commented by Albert 20110221
++		//	According to the P2P Specification, the probe request frame should contain 5 P2P attributes
++		//	1. P2P Capability
++		//	2. P2P Device ID if this probe request wants to find the specific P2P device
++		//	3. Listen Channel
++		//	4. Extended Listen Timing
++		//	5. Operating Channel if this WiFi is working as the group owner now
++
++		//	P2P Capability
++		//	Type:
++		p2pie[ p2pielen++ ] = P2P_ATTR_CAPABILITY;
++
++		//	Length:
++		*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0002 );
++		p2pielen += 2;
++
++		//	Value:
++		//	Device Capability Bitmap, 1 byte
++		p2pie[ p2pielen++ ] = DMP_P2P_DEVCAP_SUPPORT;
++		
++		//	Group Capability Bitmap, 1 byte
++		if ( pwdinfo->persistent_supported )
++			p2pie[ p2pielen++ ] = P2P_GRPCAP_PERSISTENT_GROUP | DMP_P2P_GRPCAP_SUPPORT;
++		else
++			p2pie[ p2pielen++ ] = DMP_P2P_GRPCAP_SUPPORT;
++
++		//	Listen Channel
++		//	Type:
++		p2pie[ p2pielen++ ] = P2P_ATTR_LISTEN_CH;
++
++		//	Length:
++		*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0005 );
++		p2pielen += 2;
++
++		//	Value:
++		//	Country String
++		p2pie[ p2pielen++ ] = 'X';
++		p2pie[ p2pielen++ ] = 'X';
++		
++		//	The third byte should be set to 0x04.
++		//	Described in the "Operating Channel Attribute" section.
++		p2pie[ p2pielen++ ] = 0x04;
++
++		//	Operating Class
++		p2pie[ p2pielen++ ] = 0x51;	//	Copy from SD7
++		
++		//	Channel Number
++		p2pie[ p2pielen++ ] = pwdinfo->listen_channel;	//	listen channel
++		
++
++		//	Extended Listen Timing
++		//	Type:
++		p2pie[ p2pielen++ ] = P2P_ATTR_EX_LISTEN_TIMING;
++
++		//	Length:
++		*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0004 );
++		p2pielen += 2;
++
++		//	Value:
++		//	Availability Period
++		*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0xFFFF );
++		p2pielen += 2;
++
++		//	Availability Interval
++		*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0xFFFF );
++		p2pielen += 2;
++
++		if ( rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO) )
++		{
++			//	Operating Channel (if this WiFi is working as the group owner now)
++			//	Type:
++			p2pie[ p2pielen++ ] = P2P_ATTR_OPERATING_CH;
++
++			//	Length:
++			*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0005 );
++			p2pielen += 2;
++
++			//	Value:
++			//	Country String
++			p2pie[ p2pielen++ ] = 'X';
++			p2pie[ p2pielen++ ] = 'X';
++		
++			//	The third byte should be set to 0x04.
++			//	Described in the "Operating Channel Attribute" section.
++			p2pie[ p2pielen++ ] = 0x04;
++
++			//	Operating Class
++			p2pie[ p2pielen++ ] = 0x51;	//	Copy from SD7
++		
++			//	Channel Number
++			p2pie[ p2pielen++ ] = pwdinfo->operating_channel;	//	operating channel number
++			
++		}
++
++		pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen );
++
++		if( pmlmepriv->wps_probe_req_ie != NULL )
++		{
++			//WPS IE
++			_rtw_memcpy(pframe, pmlmepriv->wps_probe_req_ie, pmlmepriv->wps_probe_req_ie_len);
++			pattrib->pktlen += pmlmepriv->wps_probe_req_ie_len;
++			pframe += pmlmepriv->wps_probe_req_ie_len;
++		}
++	}
++
++#ifdef CONFIG_WFD
++#ifdef CONFIG_IOCTL_CFG80211
++	if ( _TRUE == pwdinfo->wfd_info->wfd_enable )
++#endif
++	{
++		wfdielen = build_probe_req_wfd_ie(pwdinfo, pframe);
++		pframe += wfdielen;
++		pattrib->pktlen += wfdielen;
++	}
++#ifdef CONFIG_IOCTL_CFG80211
++	else if (pmlmepriv->wfd_probe_req_ie != NULL && pmlmepriv->wfd_probe_req_ie_len>0)		
++	{
++		//WFD IE
++		_rtw_memcpy(pframe, pmlmepriv->wfd_probe_req_ie, pmlmepriv->wfd_probe_req_ie_len);
++		pattrib->pktlen += pmlmepriv->wfd_probe_req_ie_len;
++		pframe += pmlmepriv->wfd_probe_req_ie_len;		
++	}
++#endif //CONFIG_IOCTL_CFG80211
++#endif //CONFIG_WFD
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("issuing probe_req, tx_len=%d\n", pattrib->last_txcmdsz));
++
++	if (wait_ack) {
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	} else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++	return ret;
++}
++
++inline void issue_probereq_p2p(_adapter *adapter, u8 *da)
++{
++	_issue_probereq_p2p(adapter, da, _FALSE);
++}
++
++int issue_probereq_p2p_ex(_adapter *adapter, u8 *da, int try_cnt, int wait_ms)
++{
++	int ret;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++
++	do
++	{
++		ret = _issue_probereq_p2p(adapter, da, wait_ms>0?_TRUE:_FALSE);
++
++		i++;
++
++		if (adapter->bDriverStopped || adapter->bSurpriseRemoved)
++			break;
++
++		if(i < try_cnt && wait_ms > 0 && ret==_FAIL)
++			rtw_msleep_os(wait_ms);
++
++	}while((i<try_cnt) && ((ret==_FAIL)||(wait_ms==0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++		#ifndef DBG_XMIT_ACK
++		goto exit;
++		#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		if (da)
++			DBG_871X(FUNC_ADPT_FMT" to "MAC_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(adapter), MAC_ARG(da), rtw_get_oper_ch(adapter),
++				ret==_SUCCESS?", acked":"", i, try_cnt, rtw_get_passing_time_ms(start));
++		else
++			DBG_871X(FUNC_ADPT_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(adapter), rtw_get_oper_ch(adapter),
++				ret==_SUCCESS?", acked":"", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++	return ret;
++}
++
++#endif //CONFIG_P2P
++
++s32 rtw_action_public_decache(union recv_frame *recv_frame, s32 token)
++{
++	_adapter *adapter = recv_frame->u.hdr.adapter;
++	struct mlme_ext_priv *mlmeext = &(adapter->mlmeextpriv);
++	u8 *frame = recv_frame->u.hdr.rx_data;
++	u16 seq_ctrl = ( (recv_frame->u.hdr.attrib.seq_num&0xffff) << 4) |
++		(recv_frame->u.hdr.attrib.frag_num & 0xf);
++	
++	if (GetRetry(frame)) {
++		if (token >= 0) {
++			if ((seq_ctrl == mlmeext->action_public_rxseq)
++				&& (token == mlmeext->action_public_dialog_token))
++			{
++				DBG_871X(FUNC_ADPT_FMT" seq_ctrl=0x%x, rxseq=0x%x, token:%d\n",
++					FUNC_ADPT_ARG(adapter), seq_ctrl, mlmeext->action_public_rxseq, token);
++				return _FAIL;
++			}
++		} else {
++			if (seq_ctrl == mlmeext->action_public_rxseq) {
++				DBG_871X(FUNC_ADPT_FMT" seq_ctrl=0x%x, rxseq=0x%x\n",
++					FUNC_ADPT_ARG(adapter), seq_ctrl, mlmeext->action_public_rxseq);
++				return _FAIL;
++			}
++		}
++	}
++	
++	mlmeext->action_public_rxseq = seq_ctrl;
++	
++	if (token >= 0)
++		mlmeext->action_public_dialog_token = token;
++
++	return _SUCCESS;
++}
++
++unsigned int on_action_public_p2p(union recv_frame *precv_frame)
++{
++	_adapter *padapter = precv_frame->u.hdr.adapter;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint len = precv_frame->u.hdr.len;
++	u8 *frame_body;
++	u8 dialogToken=0;
++#ifdef CONFIG_P2P
++	u8 *p2p_ie;
++	u32	p2p_ielen, wps_ielen;
++	struct	wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++	u8	result = P2P_STATUS_SUCCESS;
++	u8	empty_addr[ETH_ALEN] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 };
++	u8 *merged_p2pie = NULL;
++	u32 merged_p2p_ielen = 0;
++#endif //CONFIG_P2P
++
++	frame_body = (unsigned char *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++	dialogToken = frame_body[7];
++
++	if (rtw_action_public_decache(precv_frame, dialogToken) == _FAIL)
++		return _FAIL;
++	
++#ifdef CONFIG_P2P
++	_cancel_timer_ex( &pwdinfo->reset_ch_sitesurvey );
++#ifdef CONFIG_IOCTL_CFG80211
++	if(wdev_to_priv(padapter->rtw_wdev)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211)
++	{
++		rtw_cfg80211_rx_p2p_action_public(padapter, pframe, len);
++	}
++	else
++#endif //CONFIG_IOCTL_CFG80211
++	{
++		//	Do nothing if the driver doesn't enable the P2P function.
++		if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE) || rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE))
++			return _SUCCESS;
++
++		len -= sizeof(struct rtw_ieee80211_hdr_3addr);
++
++		switch( frame_body[ 6 ] )//OUI Subtype
++		{
++			case P2P_GO_NEGO_REQ:
++			{
++				DBG_871X( "[%s] Got GO Nego Req Frame\n", __FUNCTION__);
++				_rtw_memset( &pwdinfo->groupid_info, 0x00, sizeof( struct group_id_info ) );
++
++				if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_RX_PROVISION_DIS_REQ))
++				{
++					rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++				}
++
++				if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_FAIL))
++				{
++					//	Commented by Albert 20110526
++					//	In this case, this means the previous nego fail doesn't be reset yet.
++					_cancel_timer_ex( &pwdinfo->restore_p2p_state_timer );
++					//	Restore the previous p2p state
++					rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++					DBG_871X( "[%s] Restore the previous p2p state to %d\n", __FUNCTION__, rtw_p2p_state(pwdinfo) );						
++				}					
++#ifdef CONFIG_CONCURRENT_MODE
++				if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++				{
++					_cancel_timer_ex( &pwdinfo->ap_p2p_switch_timer );
++				}
++#endif // CONFIG_CONCURRENT_MODE
++
++				//	Commented by Kurt 20110902
++				//Add if statement to avoid receiving duplicate prov disc req. such that pre_p2p_state would be covered.
++				if(!rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING))
++					rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++
++				//	Commented by Kurt 20120113
++				//	Get peer_dev_addr here if peer doesn't issue prov_disc frame.
++				if( _rtw_memcmp(pwdinfo->rx_prov_disc_info.peerDevAddr, empty_addr, ETH_ALEN) );
++					_rtw_memcpy(pwdinfo->rx_prov_disc_info.peerDevAddr, GetAddr2Ptr(pframe), ETH_ALEN);
++
++				result = process_p2p_group_negotation_req( pwdinfo, frame_body, len );
++				issue_p2p_GO_response( padapter, GetAddr2Ptr(pframe), frame_body, len, result );
++#ifdef CONFIG_INTEL_WIDI
++				if( (padapter->mlmepriv.widi_state == INTEL_WIDI_STATE_LISTEN) && (padapter->mlmepriv.widi_state != INTEL_WIDI_STATE_WFD_CONNECTION) )
++				{
++					padapter->mlmepriv.widi_state = INTEL_WIDI_STATE_WFD_CONNECTION;
++					_cancel_timer_ex(&(padapter->mlmepriv.listen_timer));
++					intel_widi_wk_cmd(padapter, INTEL_WIDI_LISTEN_STOP_WK, NULL);
++				}
++#endif //CONFIG_INTEL_WIDI
++
++				//	Commented by Albert 20110718
++				//	No matter negotiating or negotiation failure, the driver should set up the restore P2P state timer.
++#ifdef CONFIG_CONCURRENT_MODE
++				//	Commented by Albert 20120107
++				_set_timer( &pwdinfo->restore_p2p_state_timer, 3000 );
++#else // CONFIG_CONCURRENT_MODE
++				_set_timer( &pwdinfo->restore_p2p_state_timer, 5000 );
++#endif // CONFIG_CONCURRENT_MODE
++				break;					
++			}
++			case P2P_GO_NEGO_RESP:
++			{
++				DBG_871X( "[%s] Got GO Nego Resp Frame\n", __FUNCTION__);
++
++				if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING))
++				{
++					//	Commented by Albert 20110425
++					//	The restore timer is enabled when issuing the nego request frame of rtw_p2p_connect function.
++					_cancel_timer_ex( &pwdinfo->restore_p2p_state_timer );
++					pwdinfo->nego_req_info.benable = _FALSE;
++					result = process_p2p_group_negotation_resp( pwdinfo, frame_body, len);
++					issue_p2p_GO_confirm( pwdinfo->padapter, GetAddr2Ptr(pframe), result);
++					if ( P2P_STATUS_SUCCESS == result )
++					{
++						if ( rtw_p2p_role(pwdinfo) == P2P_ROLE_CLIENT )
++						{
++							pwdinfo->p2p_info.operation_ch[ 0 ] = pwdinfo->peer_operating_ch;
++							#ifdef P2P_OP_CHECK_SOCIAL_CH
++							pwdinfo->p2p_info.operation_ch[ 1 ] = 1;	//Check whether GO is operating in channel 1;
++							pwdinfo->p2p_info.operation_ch[ 2 ] = 6;	//Check whether GO is operating in channel 6;
++							pwdinfo->p2p_info.operation_ch[ 3 ] = 11;	//Check whether GO is operating in channel 11;
++							#endif //P2P_OP_CHECK_SOCIAL_CH
++							pwdinfo->p2p_info.scan_op_ch_only = 1;
++							_set_timer( &pwdinfo->reset_ch_sitesurvey2, P2P_RESET_SCAN_CH );
++						}
++ 					}
++
++					//	Reset the dialog token for group negotiation frames.
++					pwdinfo->negotiation_dialog_token = 1;
++
++					if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_FAIL))
++					{
++						_set_timer( &pwdinfo->restore_p2p_state_timer, 5000 );
++					}
++				}
++				else
++				{
++					DBG_871X( "[%s] Skipped GO Nego Resp Frame (p2p_state != P2P_STATE_GONEGO_ING)\n", __FUNCTION__);
++				}
++						
++				break;
++			}
++			case P2P_GO_NEGO_CONF:
++			{
++				DBG_871X( "[%s] Got GO Nego Confirm Frame\n", __FUNCTION__);
++				result = process_p2p_group_negotation_confirm( pwdinfo, frame_body, len);
++				if ( P2P_STATUS_SUCCESS == result )
++				{
++					if ( rtw_p2p_role(pwdinfo) == P2P_ROLE_CLIENT )
++					{
++						pwdinfo->p2p_info.operation_ch[ 0 ] = pwdinfo->peer_operating_ch;
++						#ifdef P2P_OP_CHECK_SOCIAL_CH
++						pwdinfo->p2p_info.operation_ch[ 1 ] = 1;	//Check whether GO is operating in channel 1;
++						pwdinfo->p2p_info.operation_ch[ 2 ] = 6;	//Check whether GO is operating in channel 6;
++						pwdinfo->p2p_info.operation_ch[ 3 ] = 11;	//Check whether GO is operating in channel 11;
++						#endif //P2P_OP_CHECK_SOCIAL_CH
++						pwdinfo->p2p_info.scan_op_ch_only = 1;
++						_set_timer( &pwdinfo->reset_ch_sitesurvey2, P2P_RESET_SCAN_CH );
++					}
++ 				}
++				break;
++			}
++			case P2P_INVIT_REQ:
++			{
++				//	Added by Albert 2010/10/05
++				//	Received the P2P Invite Request frame.
++						
++				DBG_871X( "[%s] Got invite request frame!\n", __FUNCTION__ );
++				if ( (p2p_ie=rtw_get_p2p_ie( frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, NULL, &p2p_ielen)) )
++				{
++					//	Parse the necessary information from the P2P Invitation Request frame.
++					//	For example: The MAC address of sending this P2P Invitation Request frame.
++					u32	attr_contentlen = 0;
++					u8	status_code = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++					struct group_id_info group_id;
++					u8	invitation_flag = 0;
++
++					merged_p2p_ielen = rtw_get_p2p_merged_ies_len(frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_);
++
++					merged_p2pie = rtw_malloc(merged_p2p_ielen);
++					if (merged_p2pie == NULL)
++					{
++						DBG_871X( "[%s] Malloc p2p ie fail\n", __FUNCTION__);
++						goto exit;
++					}
++					_rtw_memset(merged_p2pie, 0x00, merged_p2p_ielen);					
++
++					merged_p2p_ielen = rtw_p2p_merge_ies(frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, merged_p2pie);
++
++					rtw_get_p2p_attr_content( merged_p2pie, merged_p2p_ielen, P2P_ATTR_INVITATION_FLAGS, &invitation_flag, &attr_contentlen);
++					if ( attr_contentlen )
++					{
++
++						rtw_get_p2p_attr_content( merged_p2pie, merged_p2p_ielen, P2P_ATTR_GROUP_BSSID, pwdinfo->p2p_peer_interface_addr, &attr_contentlen);
++						//	Commented by Albert 20120510
++						//	Copy to the pwdinfo->p2p_peer_interface_addr.
++						//	So that the WFD UI ( or Sigma ) can get the peer interface address by using the following command.
++						//	#> iwpriv wlan0 p2p_get peer_ifa
++						//	After having the peer interface address, the sigma can find the correct conf file for wpa_supplicant.
++
++						if ( attr_contentlen )
++						{
++							DBG_871X( "[%s] GO's BSSID = %.2X %.2X %.2X %.2X %.2X %.2X\n", __FUNCTION__,
++									pwdinfo->p2p_peer_interface_addr[0], pwdinfo->p2p_peer_interface_addr[1],
++									pwdinfo->p2p_peer_interface_addr[2], pwdinfo->p2p_peer_interface_addr[3],
++									pwdinfo->p2p_peer_interface_addr[4], pwdinfo->p2p_peer_interface_addr[5] );
++						}								
++
++						if ( invitation_flag & P2P_INVITATION_FLAGS_PERSISTENT )
++						{
++							//	Re-invoke the persistent group.
++							
++							_rtw_memset( &group_id, 0x00, sizeof( struct group_id_info ) );
++							rtw_get_p2p_attr_content( merged_p2pie, merged_p2p_ielen, P2P_ATTR_GROUP_ID, ( u8* ) &group_id, &attr_contentlen);
++							if ( attr_contentlen )
++							{
++								if ( _rtw_memcmp( group_id.go_device_addr, myid( &padapter->eeprompriv ), ETH_ALEN ) )
++								{
++									//	The p2p device sending this p2p invitation request wants this Wi-Fi device to be the persistent GO.
++									rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_GO );
++									rtw_p2p_set_role( pwdinfo, P2P_ROLE_GO );
++									status_code = P2P_STATUS_SUCCESS;
++								}
++								else
++								{
++									//	The p2p device sending this p2p invitation request wants to be the persistent GO.
++									if ( is_matched_in_profilelist( pwdinfo->p2p_peer_interface_addr, &pwdinfo->profileinfo[ 0 ] ) )
++									{
++										u8 operatingch_info[5] = { 0x00 };
++
++										if ( rtw_get_p2p_attr_content(merged_p2pie, merged_p2p_ielen, P2P_ATTR_OPERATING_CH, operatingch_info, &attr_contentlen) )
++										{
++											if( rtw_ch_set_search_ch(padapter->mlmeextpriv.channel_set, (u32)operatingch_info[4] ) >= 0 )
++											{
++												//	The operating channel is acceptable for this device.
++												pwdinfo->rx_invitereq_info.operation_ch[0]= operatingch_info[4];
++												#ifdef P2P_OP_CHECK_SOCIAL_CH
++												pwdinfo->rx_invitereq_info.operation_ch[1]= 1;		//Check whether GO is operating in channel 1;
++												pwdinfo->rx_invitereq_info.operation_ch[2]= 6;		//Check whether GO is operating in channel 6;
++												pwdinfo->rx_invitereq_info.operation_ch[3]= 11;		//Check whether GO is operating in channel 11;
++												#endif //P2P_OP_CHECK_SOCIAL_CH
++												pwdinfo->rx_invitereq_info.scan_op_ch_only = 1;
++												_set_timer( &pwdinfo->reset_ch_sitesurvey, P2P_RESET_SCAN_CH );
++												rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_MATCH );
++												rtw_p2p_set_role( pwdinfo, P2P_ROLE_CLIENT );
++												status_code = P2P_STATUS_SUCCESS;
++											}
++											else
++											{
++												//	The operating channel isn't supported by this device.
++												rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_DISMATCH );
++												rtw_p2p_set_role( pwdinfo, P2P_ROLE_DEVICE );
++												status_code = P2P_STATUS_FAIL_NO_COMMON_CH;
++												_set_timer( &pwdinfo->restore_p2p_state_timer, 3000 );
++											}
++										}
++										else
++										{
++											//	Commented by Albert 20121130
++											//	Intel will use the different P2P IE to store the operating channel information
++											//	Workaround for Intel WiDi 3.5
++											rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_MATCH );
++											rtw_p2p_set_role( pwdinfo, P2P_ROLE_CLIENT );
++											status_code = P2P_STATUS_SUCCESS;
++										}
++									}
++									else
++									{
++										rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_DISMATCH );
++										#ifdef CONFIG_INTEL_WIDI
++										_rtw_memcpy( pwdinfo->p2p_peer_device_addr, group_id.go_device_addr , ETH_ALEN );
++										rtw_p2p_set_role( pwdinfo, P2P_ROLE_CLIENT );
++										#endif //CONFIG_INTEL_WIDI
++
++										status_code = P2P_STATUS_FAIL_UNKNOWN_P2PGROUP;
++									}
++								}
++							}
++							else
++							{
++								DBG_871X( "[%s] P2P Group ID Attribute NOT FOUND!\n", __FUNCTION__ );
++								status_code = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++							}									
++						}
++						else
++						{
++							//	Received the invitation to join a P2P group.
++
++							_rtw_memset( &group_id, 0x00, sizeof( struct group_id_info ) );
++							rtw_get_p2p_attr_content( merged_p2pie, merged_p2p_ielen, P2P_ATTR_GROUP_ID, ( u8* ) &group_id, &attr_contentlen);
++							if ( attr_contentlen )
++							{
++								if ( _rtw_memcmp( group_id.go_device_addr, myid( &padapter->eeprompriv ), ETH_ALEN ) )
++								{
++									//	In this case, the GO can't be myself.
++									rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_DISMATCH );
++									status_code = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++								}
++								else
++								{
++									//	The p2p device sending this p2p invitation request wants to join an existing P2P group
++									//	Commented by Albert 2012/06/28
++									//	In this case, this Wi-Fi device should use the iwpriv command to get the peer device address.
++									//	The peer device address should be the destination address for the provisioning discovery request.
++									//	Then, this Wi-Fi device should use the iwpriv command to get the peer interface address.
++									//	The peer interface address should be the address for WPS mac address
++									_rtw_memcpy( pwdinfo->p2p_peer_device_addr, group_id.go_device_addr , ETH_ALEN );											
++									rtw_p2p_set_role( pwdinfo, P2P_ROLE_CLIENT );
++									rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_JOIN );
++									status_code = P2P_STATUS_SUCCESS;
++								}
++							}
++							else
++							{
++								DBG_871X( "[%s] P2P Group ID Attribute NOT FOUND!\n", __FUNCTION__ );
++								status_code = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++							}
++						}
++					}
++					else
++					{
++						DBG_871X( "[%s] P2P Invitation Flags Attribute NOT FOUND!\n", __FUNCTION__ );
++						status_code = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++					}							
++
++					DBG_871X( "[%s] status_code = %d\n", __FUNCTION__, status_code );
++
++					pwdinfo->inviteresp_info.token = frame_body[ 7 ];
++					issue_p2p_invitation_response( padapter, GetAddr2Ptr(pframe), pwdinfo->inviteresp_info.token, status_code );
++					_set_timer( &pwdinfo->restore_p2p_state_timer, 3000 );
++				}
++#ifdef CONFIG_INTEL_WIDI
++				if( (padapter->mlmepriv.widi_state == INTEL_WIDI_STATE_LISTEN) && (padapter->mlmepriv.widi_state != INTEL_WIDI_STATE_WFD_CONNECTION) )
++				{
++					padapter->mlmepriv.widi_state = INTEL_WIDI_STATE_WFD_CONNECTION;
++					_cancel_timer_ex(&(padapter->mlmepriv.listen_timer));
++					intel_widi_wk_cmd(padapter, INTEL_WIDI_LISTEN_STOP_WK, NULL);
++				}
++#endif //CONFIG_INTEL_WIDI
++				break;
++			}
++			case P2P_INVIT_RESP:
++			{
++				u8	attr_content = 0x00;
++				u32	attr_contentlen = 0;
++				
++				DBG_871X( "[%s] Got invite response frame!\n", __FUNCTION__ );
++				_cancel_timer_ex( &pwdinfo->restore_p2p_state_timer );
++				if ( (p2p_ie=rtw_get_p2p_ie( frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, NULL, &p2p_ielen)) )
++				{
++					rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, &attr_content, &attr_contentlen);
++									
++					if ( attr_contentlen == 1 )
++					{
++						DBG_871X( "[%s] Status = %d\n", __FUNCTION__, attr_content );
++						pwdinfo->invitereq_info.benable = _FALSE;
++
++						if ( attr_content == P2P_STATUS_SUCCESS )
++						{
++							if ( _rtw_memcmp( pwdinfo->invitereq_info.go_bssid, myid( &padapter->eeprompriv ), ETH_ALEN ))
++							{
++								rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO );
++							}
++							else
++							{
++								rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++							}
++							rtw_p2p_set_state( pwdinfo, P2P_STATE_RX_INVITE_RESP_OK );
++						}
++						else
++						{
++							rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++							rtw_p2p_set_state( pwdinfo, P2P_STATE_RX_INVITE_RESP_FAIL );
++						}
++					}
++					else
++					{
++						rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++						rtw_p2p_set_state( pwdinfo, P2P_STATE_RX_INVITE_RESP_FAIL );
++					}
++				}
++				else
++				{
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++					rtw_p2p_set_state( pwdinfo, P2P_STATE_RX_INVITE_RESP_FAIL );
++				}
++
++				if ( rtw_p2p_chk_state( pwdinfo, P2P_STATE_RX_INVITE_RESP_FAIL ) )
++				{
++					_set_timer( &pwdinfo->restore_p2p_state_timer, 5000 );
++				}
++				break;
++			}
++			case P2P_DEVDISC_REQ:
++
++				process_p2p_devdisc_req(pwdinfo, pframe, len);
++
++				break;
++
++			case P2P_DEVDISC_RESP:
++
++				process_p2p_devdisc_resp(pwdinfo, pframe, len);
++
++				break;
++
++			case P2P_PROVISION_DISC_REQ:
++				DBG_871X( "[%s] Got Provisioning Discovery Request Frame\n", __FUNCTION__ );
++				process_p2p_provdisc_req(pwdinfo, pframe, len);
++				_rtw_memcpy(pwdinfo->rx_prov_disc_info.peerDevAddr, GetAddr2Ptr(pframe), ETH_ALEN);
++
++				//20110902 Kurt
++				//Add the following statement to avoid receiving duplicate prov disc req. such that pre_p2p_state would be covered.
++				if(!rtw_p2p_chk_state(pwdinfo, P2P_STATE_RX_PROVISION_DIS_REQ))
++					rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++				
++				rtw_p2p_set_state(pwdinfo, P2P_STATE_RX_PROVISION_DIS_REQ);
++				_set_timer( &pwdinfo->restore_p2p_state_timer, P2P_PROVISION_TIMEOUT );
++#ifdef CONFIG_INTEL_WIDI
++				if( (padapter->mlmepriv.widi_state == INTEL_WIDI_STATE_LISTEN) && (padapter->mlmepriv.widi_state != INTEL_WIDI_STATE_WFD_CONNECTION) )
++				{
++					padapter->mlmepriv.widi_state = INTEL_WIDI_STATE_WFD_CONNECTION;
++					_cancel_timer_ex(&(padapter->mlmepriv.listen_timer));
++					intel_widi_wk_cmd(padapter, INTEL_WIDI_LISTEN_STOP_WK, NULL);
++				}
++#endif //CONFIG_INTEL_WIDI
++				break;
++
++			case P2P_PROVISION_DISC_RESP:
++				//	Commented by Albert 20110707
++				//	Should we check the pwdinfo->tx_prov_disc_info.bsent flag here??
++				DBG_871X( "[%s] Got Provisioning Discovery Response Frame\n", __FUNCTION__ );
++				//	Commented by Albert 20110426
++				//	The restore timer is enabled when issuing the provisioing request frame in rtw_p2p_prov_disc function.
++				_cancel_timer_ex( &pwdinfo->restore_p2p_state_timer );
++				rtw_p2p_set_state(pwdinfo, P2P_STATE_RX_PROVISION_DIS_RSP);
++				process_p2p_provdisc_resp(pwdinfo, pframe);
++				_set_timer( &pwdinfo->restore_p2p_state_timer, P2P_PROVISION_TIMEOUT );
++				break;
++
++		}
++	}
++#endif //CONFIG_P2P
++
++exit:
++
++	if(merged_p2pie)
++	{
++		rtw_mfree(merged_p2pie, merged_p2p_ielen);
++	}
++
++	return _SUCCESS;
++}
++
++unsigned int on_action_public_vendor(union recv_frame *precv_frame)
++{
++	unsigned int ret = _FAIL;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint frame_len = precv_frame->u.hdr.len;
++	u8 *frame_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	if (_rtw_memcmp(frame_body + 2, P2P_OUI, 4) == _TRUE) {
++		ret = on_action_public_p2p(precv_frame);
++	}
++
++	return ret;
++}
++
++unsigned int on_action_public_default(union recv_frame *precv_frame, u8 action)
++{
++	unsigned int ret = _FAIL;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint frame_len = precv_frame->u.hdr.len;
++	u8 *frame_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	u8 token;
++	_adapter *adapter = precv_frame->u.hdr.adapter;
++	int cnt = 0;
++	char msg[64];
++
++	token = frame_body[2];
++
++	if (rtw_action_public_decache(precv_frame, token) == _FAIL)
++		goto exit;
++
++	#ifdef CONFIG_IOCTL_CFG80211
++	cnt += sprintf((msg+cnt), "%s(token:%u)", action_public_str(action), token);
++	rtw_cfg80211_rx_action(adapter, pframe, frame_len, msg);
++	#endif
++
++	ret = _SUCCESS;
++	
++exit:
++	return ret;
++}
++
++unsigned int on_action_public(_adapter *padapter, union recv_frame *precv_frame)
++{
++	unsigned int ret = _FAIL;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint frame_len = precv_frame->u.hdr.len;
++	u8 *frame_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	u8 category, action;
++
++	/* check RA matches or not */
++	if (!_rtw_memcmp(myid(&(padapter->eeprompriv)), GetAddr1Ptr(pframe), ETH_ALEN))
++		goto exit;
++
++	category = frame_body[0];
++	if(category != RTW_WLAN_CATEGORY_PUBLIC)
++		goto exit;
++
++	action = frame_body[1];
++	switch (action) {
++	case ACT_PUBLIC_VENDOR:
++		ret = on_action_public_vendor(precv_frame);
++		break;
++	default:
++		ret = on_action_public_default(precv_frame, action);
++		break;
++	}
++
++exit:
++	return ret;
++}
++
++unsigned int OnAction_ht(_adapter *padapter, union recv_frame *precv_frame)
++{
++	return _SUCCESS;
++}
++
++#ifdef CONFIG_IEEE80211W
++unsigned int OnAction_sa_query(_adapter *padapter, union recv_frame *precv_frame)
++{
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	unsigned short tid;
++	//Baron
++	
++	DBG_871X("OnAction_sa_query\n");
++	
++	switch (pframe[WLAN_HDR_A3_LEN+1])
++	{
++		case 0: //SA Query req
++			_rtw_memcpy(&tid, &pframe[WLAN_HDR_A3_LEN+2], sizeof(unsigned short));
++			DBG_871X("OnAction_sa_query request,action=%d, tid=%04x\n", pframe[WLAN_HDR_A3_LEN+1], tid);
++			issue_action_SA_Query(padapter, GetAddr2Ptr(pframe), 1, tid);
++			break;
++
++		case 1: //SA Query rsp
++			_cancel_timer_ex(&pmlmeext->sa_query_timer);
++			DBG_871X("OnAction_sa_query response,action=%d, tid=%04x, cancel timer\n", pframe[WLAN_HDR_A3_LEN+1], pframe[WLAN_HDR_A3_LEN+2]);
++			break;
++		default:
++			break;
++	}
++	if(0)
++	{
++		int pp;
++		printk("pattrib->pktlen = %d =>", pattrib->pkt_len);
++		for(pp=0;pp< pattrib->pkt_len; pp++)
++			printk(" %02x ", pframe[pp]);
++		printk("\n");
++	}	
++	
++	return _SUCCESS;
++}
++#endif //CONFIG_IEEE80211W
++
++unsigned int OnAction_wmm(_adapter *padapter, union recv_frame *precv_frame)
++{
++	return _SUCCESS;
++}
++
++unsigned int OnAction_p2p(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_P2P
++	u8 *frame_body;
++	u8 category, OUI_Subtype, dialogToken=0;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint len = precv_frame->u.hdr.len;
++	struct	wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++	
++
++	DBG_871X("%s\n", __FUNCTION__);
++	
++	//check RA matches or not
++	if (!_rtw_memcmp(myid(&(padapter->eeprompriv)), GetAddr1Ptr(pframe), ETH_ALEN))//for if1, sta/ap mode
++		return _SUCCESS;
++
++	frame_body = (unsigned char *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++	category = frame_body[0];
++	if(category != RTW_WLAN_CATEGORY_P2P)
++		return _SUCCESS;
++
++	if ( cpu_to_be32( *( ( u32* ) ( frame_body + 1 ) ) ) != P2POUI )
++		return _SUCCESS;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if(wdev_to_priv(padapter->rtw_wdev)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211 )
++	{
++		rtw_cfg80211_rx_action_p2p(padapter, pframe, len);
++		return _SUCCESS;
++	}
++	else
++#endif //CONFIG_IOCTL_CFG80211
++	{
++		len -= sizeof(struct rtw_ieee80211_hdr_3addr);
++		OUI_Subtype = frame_body[5];
++		dialogToken = frame_body[6];
++
++		switch(OUI_Subtype)
++		{
++			case P2P_NOTICE_OF_ABSENCE:
++				
++				break;
++				
++			case P2P_PRESENCE_REQUEST:
++
++				process_p2p_presence_req(pwdinfo, pframe, len);			
++				
++				break;
++				
++			case P2P_PRESENCE_RESPONSE:
++				
++				break;
++				
++			case P2P_GO_DISC_REQUEST:
++				
++				break;
++				
++			default:
++				break;
++				
++		}
++	}
++#endif //CONFIG_P2P
++
++	return _SUCCESS;
++
++}
++
++unsigned int OnAction(_adapter *padapter, union recv_frame *precv_frame)
++{
++	int i;
++	unsigned char	category;
++	struct action_handler *ptable;
++	unsigned char	*frame_body;
++	u8 *pframe = precv_frame->u.hdr.rx_data; 
++
++	frame_body = (unsigned char *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++	
++	category = frame_body[0];
++	
++	for(i = 0; i < sizeof(OnAction_tbl)/sizeof(struct action_handler); i++)	
++	{
++		ptable = &OnAction_tbl[i];
++		
++		if(category == ptable->num)
++			ptable->func(padapter, precv_frame);
++	
++	}
++
++	return _SUCCESS;
++
++}
++
++unsigned int DoReserved(_adapter *padapter, union recv_frame *precv_frame)
++{
++
++	//DBG_871X("rcvd mgt frame(%x, %x)\n", (GetFrameSubType(pframe) >> 4), *(unsigned int *)GetAddr1Ptr(pframe));
++	return _SUCCESS;
++}
++
++struct xmit_frame *_alloc_mgtxmitframe(struct xmit_priv *pxmitpriv, bool once)
++{
++	struct xmit_frame *pmgntframe;
++	struct xmit_buf *pxmitbuf;
++
++	if (once)
++		pmgntframe = rtw_alloc_xmitframe_once(pxmitpriv);
++	else
++		pmgntframe = rtw_alloc_xmitframe_ext(pxmitpriv);
++
++	if (pmgntframe == NULL) {
++		DBG_871X(FUNC_ADPT_FMT" alloc xmitframe fail, once:%d\n", FUNC_ADPT_ARG(pxmitpriv->adapter), once);
++		goto exit;
++	}
++
++	if ((pxmitbuf = rtw_alloc_xmitbuf_ext(pxmitpriv)) == NULL) {
++		DBG_871X(FUNC_ADPT_FMT" alloc xmitbuf fail\n", FUNC_ADPT_ARG(pxmitpriv->adapter));
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		pmgntframe = NULL;
++		goto exit;
++	}
++
++	pmgntframe->frame_tag = MGNT_FRAMETAG;
++	pmgntframe->pxmitbuf = pxmitbuf;
++	pmgntframe->buf_addr = pxmitbuf->pbuf;
++	pxmitbuf->priv_data = pmgntframe;
++
++exit:
++	return pmgntframe;
++
++}
++
++inline struct xmit_frame *alloc_mgtxmitframe(struct xmit_priv *pxmitpriv)
++{
++	return _alloc_mgtxmitframe(pxmitpriv, _FALSE);
++}
++
++inline struct xmit_frame *alloc_mgtxmitframe_once(struct xmit_priv *pxmitpriv)
++{
++	return _alloc_mgtxmitframe(pxmitpriv, _TRUE);
++}
++
++
++/****************************************************************************
++
++Following are some TX fuctions for WiFi MLME
++
++*****************************************************************************/
++
++void update_mgnt_tx_rate(_adapter *padapter, u8 rate)
++{
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++
++	pmlmeext->tx_rate = rate;
++
++	//DBG_871X("%s(): rate = %x\n",__FUNCTION__, rate);
++}
++
++void update_mgntframe_attrib(_adapter *padapter, struct pkt_attrib *pattrib)
++{
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++
++	_rtw_memset((u8 *)(pattrib), 0, sizeof(struct pkt_attrib));
++
++	pattrib->hdrlen = 24;
++	pattrib->nr_frags = 1;
++	pattrib->priority = 7;
++	pattrib->mac_id = 0;
++	pattrib->qsel = 0x12;
++
++	pattrib->pktlen = 0;
++
++	if(pmlmeext->cur_wireless_mode & WIRELESS_11B)
++		pattrib->raid = 6;//b mode
++	else
++		pattrib->raid = 5;//a/g mode
++
++	pattrib->encrypt = _NO_PRIVACY_;
++	pattrib->bswenc = _FALSE;	
++
++	pattrib->qos_en = _FALSE;
++	pattrib->ht_en = _FALSE;
++	pattrib->bwmode = HT_CHANNEL_WIDTH_20;
++	pattrib->ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	pattrib->sgi = _FALSE;
++
++	pattrib->seqnum = pmlmeext->mgnt_seq;
++
++	pattrib->retry_ctrl = _TRUE;
++
++}
++
++void dump_mgntframe(_adapter *padapter, struct xmit_frame *pmgntframe)
++{
++	if(padapter->bSurpriseRemoved == _TRUE ||
++		padapter->bDriverStopped == _TRUE)
++	{
++		rtw_free_xmitbuf(&padapter->xmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(&padapter->xmitpriv, pmgntframe);
++		return;
++	}
++
++	rtw_hal_mgnt_xmit(padapter, pmgntframe);
++}
++
++s32 dump_mgntframe_and_wait(_adapter *padapter, struct xmit_frame *pmgntframe, int timeout_ms)
++{
++	s32 ret = _FAIL;
++	_irqL irqL;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct xmit_buf *pxmitbuf = pmgntframe->pxmitbuf;
++	struct submit_ctx sctx;
++
++	if(padapter->bSurpriseRemoved == _TRUE ||
++		padapter->bDriverStopped == _TRUE)
++	{
++		rtw_free_xmitbuf(&padapter->xmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(&padapter->xmitpriv, pmgntframe);
++		return ret;
++	}
++
++	rtw_sctx_init(&sctx, timeout_ms);
++	pxmitbuf->sctx = &sctx;
++
++	ret = rtw_hal_mgnt_xmit(padapter, pmgntframe);
++
++	if (ret == _SUCCESS)
++		ret = rtw_sctx_wait(&sctx);
++
++	_enter_critical(&pxmitpriv->lock_sctx, &irqL);
++	pxmitbuf->sctx = NULL;
++	_exit_critical(&pxmitpriv->lock_sctx, &irqL);
++
++	 return ret;
++}
++
++s32 dump_mgntframe_and_wait_ack(_adapter *padapter, struct xmit_frame *pmgntframe)
++{
++#ifdef CONFIG_XMIT_ACK
++	s32 ret = _FAIL;
++	u32 timeout_ms = 500;//  500ms
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->pbuddy_adapter && !padapter->isprimary)
++		pxmitpriv = &(padapter->pbuddy_adapter->xmitpriv);
++	#endif
++
++	if(padapter->bSurpriseRemoved == _TRUE ||
++		padapter->bDriverStopped == _TRUE)
++	{
++		rtw_free_xmitbuf(&padapter->xmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(&padapter->xmitpriv, pmgntframe);
++		return -1;
++	}
++
++	_enter_critical_mutex(&pxmitpriv->ack_tx_mutex, NULL);
++	pxmitpriv->ack_tx = _TRUE;
++
++	pmgntframe->ack_report = 1;
++	if (rtw_hal_mgnt_xmit(padapter, pmgntframe) == _SUCCESS) {
++		ret = rtw_ack_tx_wait(pxmitpriv, timeout_ms);
++	}
++
++	pxmitpriv->ack_tx = _FALSE;
++	_exit_critical_mutex(&pxmitpriv->ack_tx_mutex, NULL);
++
++	 return ret;
++#else //!CONFIG_XMIT_ACK
++	dump_mgntframe(padapter, pmgntframe);
++	rtw_msleep_os(50);
++	return _SUCCESS;
++#endif //!CONFIG_XMIT_ACK	 
++}
++
++int update_hidden_ssid(u8 *ies, u32 ies_len, u8 hidden_ssid_mode)
++{
++	u8 *ssid_ie;
++	sint ssid_len_ori;
++	int len_diff = 0;
++	
++	ssid_ie = rtw_get_ie(ies,  WLAN_EID_SSID, &ssid_len_ori, ies_len);
++
++	//DBG_871X("%s hidden_ssid_mode:%u, ssid_ie:%p, ssid_len_ori:%d\n", __FUNCTION__, hidden_ssid_mode, ssid_ie, ssid_len_ori);
++	
++	if(ssid_ie && ssid_len_ori>0)
++	{
++		switch(hidden_ssid_mode)
++		{
++			case 1:
++			{
++				u8 *next_ie = ssid_ie + 2 + ssid_len_ori;
++				u32 remain_len = 0;
++				
++				remain_len = ies_len -(next_ie-ies);
++				
++				ssid_ie[1] = 0;				
++				_rtw_memcpy(ssid_ie+2, next_ie, remain_len);
++				len_diff -= ssid_len_ori;
++				
++				break;
++			}		
++			case 2:
++				_rtw_memset(&ssid_ie[2], 0, ssid_len_ori);
++				break;
++			default:
++				break;
++		}
++	}
++
++	return len_diff;
++}
++
++void issue_beacon(_adapter *padapter)
++{
++	struct xmit_frame	*pmgntframe;
++	struct pkt_attrib	*pattrib;
++	unsigned char	*pframe;
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	unsigned short *fctrl;
++	unsigned int	rate_len;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++#if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	_irqL irqL;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++#endif //#if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX 		*cur_network = &(pmlmeinfo->network);
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#endif //CONFIG_P2P
++
++
++	//DBG_871X("%s\n", __FUNCTION__);
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		DBG_871X("%s, alloc mgnt frame fail\n", __FUNCTION__);
++		return;
++	}
++#if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	_enter_critical_bh(&pmlmepriv->bcn_update_lock, &irqL);
++#endif //#if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++	pattrib->qsel = 0x10;
++	
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++		
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;	
++	
++	
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	
++	_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(cur_network), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0/*pmlmeext->mgnt_seq*/);
++	//pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_BEACON);
++	
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);	
++	pattrib->pktlen = sizeof (struct rtw_ieee80211_hdr_3addr);
++	
++	if( (pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE)
++	{
++		//DBG_871X("ie len=%d\n", cur_network->IELength);
++#ifdef CONFIG_P2P
++		// for P2P : Primary Device Type & Device Name
++		u32 wpsielen=0, insert_len=0;
++		u8 *wpsie=NULL;		
++		wpsie = rtw_get_wps_ie(cur_network->IEs+_FIXED_IE_LENGTH_, cur_network->IELength-_FIXED_IE_LENGTH_, NULL, &wpsielen);
++		
++		if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO) && wpsie && wpsielen>0)
++		{
++			uint wps_offset, remainder_ielen;
++			u8 *premainder_ie, *pframe_wscie;
++	
++			wps_offset = (uint)(wpsie - cur_network->IEs);
++
++			premainder_ie = wpsie + wpsielen;
++
++			remainder_ielen = cur_network->IELength - wps_offset - wpsielen;
++
++#ifdef CONFIG_IOCTL_CFG80211
++			if(wdev_to_priv(padapter->rtw_wdev)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211 )
++			{
++				if(pmlmepriv->wps_beacon_ie && pmlmepriv->wps_beacon_ie_len>0)
++				{
++					_rtw_memcpy(pframe, cur_network->IEs, wps_offset);
++					pframe += wps_offset;
++					pattrib->pktlen += wps_offset;
++
++					_rtw_memcpy(pframe, pmlmepriv->wps_beacon_ie, pmlmepriv->wps_beacon_ie_len);
++					pframe += pmlmepriv->wps_beacon_ie_len;
++					pattrib->pktlen += pmlmepriv->wps_beacon_ie_len;
++
++					//copy remainder_ie to pframe
++					_rtw_memcpy(pframe, premainder_ie, remainder_ielen);
++					pframe += remainder_ielen;		
++					pattrib->pktlen += remainder_ielen;
++				}
++				else
++				{
++					_rtw_memcpy(pframe, cur_network->IEs, cur_network->IELength);
++					pframe += cur_network->IELength;
++					pattrib->pktlen += cur_network->IELength;
++				}
++			}
++			else
++#endif //CONFIG_IOCTL_CFG80211
++			{
++				pframe_wscie = pframe + wps_offset;
++				_rtw_memcpy(pframe, cur_network->IEs, wps_offset+wpsielen);			
++				pframe += (wps_offset + wpsielen);		
++				pattrib->pktlen += (wps_offset + wpsielen);
++
++				//now pframe is end of wsc ie, insert Primary Device Type & Device Name
++				//	Primary Device Type
++				//	Type:
++				*(u16*) ( pframe + insert_len) = cpu_to_be16( WPS_ATTR_PRIMARY_DEV_TYPE );
++				insert_len += 2;
++				
++				//	Length:
++				*(u16*) ( pframe + insert_len ) = cpu_to_be16( 0x0008 );
++				insert_len += 2;
++				
++				//	Value:
++				//	Category ID
++				*(u16*) ( pframe + insert_len ) = cpu_to_be16( WPS_PDT_CID_MULIT_MEDIA );
++				insert_len += 2;
++
++				//	OUI
++				*(u32*) ( pframe + insert_len ) = cpu_to_be32( WPSOUI );
++				insert_len += 4;
++
++				//	Sub Category ID
++				*(u16*) ( pframe + insert_len ) = cpu_to_be16( WPS_PDT_SCID_MEDIA_SERVER );
++				insert_len += 2;
++
++
++				//	Device Name
++				//	Type:
++				*(u16*) ( pframe + insert_len ) = cpu_to_be16( WPS_ATTR_DEVICE_NAME );
++				insert_len += 2;
++
++				//	Length:
++				*(u16*) ( pframe + insert_len ) = cpu_to_be16( pwdinfo->device_name_len );
++				insert_len += 2;
++
++				//	Value:
++				_rtw_memcpy( pframe + insert_len, pwdinfo->device_name, pwdinfo->device_name_len );
++				insert_len += pwdinfo->device_name_len;
++
++
++				//update wsc ie length
++				*(pframe_wscie+1) = (wpsielen -2) + insert_len;
++
++				//pframe move to end
++				pframe+=insert_len;
++				pattrib->pktlen += insert_len;
++
++				//copy remainder_ie to pframe
++				_rtw_memcpy(pframe, premainder_ie, remainder_ielen);
++				pframe += remainder_ielen;		
++				pattrib->pktlen += remainder_ielen;
++			}
++		}
++		else
++#endif //CONFIG_P2P
++		{
++			int len_diff;
++			_rtw_memcpy(pframe, cur_network->IEs, cur_network->IELength);
++			len_diff = update_hidden_ssid(
++				pframe+_BEACON_IE_OFFSET_
++				, cur_network->IELength-_BEACON_IE_OFFSET_
++				, pmlmeinfo->hidden_ssid_mode
++			);
++			pframe += (cur_network->IELength+len_diff);
++			pattrib->pktlen += (cur_network->IELength+len_diff);
++		}
++
++		{
++			u8 *wps_ie;
++			uint wps_ielen;
++			u8 sr = 0;
++			wps_ie = rtw_get_wps_ie(pmgntframe->buf_addr+TXDESC_OFFSET+sizeof (struct rtw_ieee80211_hdr_3addr)+_BEACON_IE_OFFSET_,
++				pattrib->pktlen-sizeof (struct rtw_ieee80211_hdr_3addr)-_BEACON_IE_OFFSET_, NULL, &wps_ielen);
++			if (wps_ie && wps_ielen>0) {
++				rtw_get_wps_attr_content(wps_ie,  wps_ielen, WPS_ATTR_SELECTED_REGISTRAR, (u8*)(&sr), NULL);
++			}
++			if (sr != 0)
++				set_fwstate(pmlmepriv, WIFI_UNDER_WPS);
++			else
++				_clr_fwstate_(pmlmepriv, WIFI_UNDER_WPS);
++		}
++
++#ifdef CONFIG_P2P
++		if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++		{
++			u32 len;
++#ifdef CONFIG_IOCTL_CFG80211
++			if(wdev_to_priv(padapter->rtw_wdev)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211 )
++			{
++				len = pmlmepriv->p2p_beacon_ie_len;
++				if(pmlmepriv->p2p_beacon_ie && len>0)				
++					_rtw_memcpy(pframe, pmlmepriv->p2p_beacon_ie, len);
++			}
++			else
++#endif //CONFIG_IOCTL_CFG80211
++			{
++				len = build_beacon_p2p_ie(pwdinfo, pframe);
++			}
++
++			pframe += len;
++			pattrib->pktlen += len;
++#ifdef CONFIG_WFD
++#ifdef CONFIG_IOCTL_CFG80211
++			if(_TRUE == pwdinfo->wfd_info->wfd_enable)
++#endif //CONFIG_IOCTL_CFG80211
++			{
++				len = build_beacon_wfd_ie( pwdinfo, pframe );
++			}
++#ifdef CONFIG_IOCTL_CFG80211
++			else
++			{	
++				len = 0;
++				if(pmlmepriv->wfd_beacon_ie && pmlmepriv->wfd_beacon_ie_len>0)
++				{
++					len = pmlmepriv->wfd_beacon_ie_len;
++					_rtw_memcpy(pframe, pmlmepriv->wfd_beacon_ie, len);	
++				}
++			}
++#endif //CONFIG_IOCTL_CFG80211
++			pframe += len;
++			pattrib->pktlen += len;
++#endif //CONFIG_WFD
++		}
++#endif //CONFIG_P2P
++
++		goto _issue_bcn;
++
++	}
++
++	//below for ad-hoc mode
++
++	//timestamp will be inserted by hardware
++	pframe += 8;
++	pattrib->pktlen += 8;
++
++	// beacon interval: 2 bytes
++
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_beacon_interval_from_ie(cur_network->IEs)), 2); 
++
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++	// capability info: 2 bytes
++
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_capability_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++	// SSID
++	pframe = rtw_set_ie(pframe, _SSID_IE_, cur_network->Ssid.SsidLength, cur_network->Ssid.Ssid, &pattrib->pktlen);
++
++	// supported rates...
++	rate_len = rtw_get_rateset_len(cur_network->SupportedRates);
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, ((rate_len > 8)? 8: rate_len), cur_network->SupportedRates, &pattrib->pktlen);
++
++	// DS parameter set
++	pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&(cur_network->Configuration.DSConfig), &pattrib->pktlen);
++
++	//if( (pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE)
++	{
++		u8 erpinfo=0;
++		u32 ATIMWindow;
++		// IBSS Parameter Set...
++		//ATIMWindow = cur->Configuration.ATIMWindow;
++		ATIMWindow = 0;
++		pframe = rtw_set_ie(pframe, _IBSS_PARA_IE_, 2, (unsigned char *)(&ATIMWindow), &pattrib->pktlen);
++
++		//ERP IE
++		pframe = rtw_set_ie(pframe, _ERPINFO_IE_, 1, &erpinfo, &pattrib->pktlen);
++	}	
++
++
++	// EXTERNDED SUPPORTED RATE
++	if (rate_len > 8)
++	{
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_, (rate_len - 8), (cur_network->SupportedRates + 8), &pattrib->pktlen);
++	}
++
++
++	//todo:HT for adhoc
++
++_issue_bcn:
++
++#if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	pmlmepriv->update_bcn = _FALSE;
++	
++	_exit_critical_bh(&pmlmepriv->bcn_update_lock, &irqL);	
++#endif //#if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++
++	if ((pattrib->pktlen + TXDESC_SIZE) > 512)
++	{
++		DBG_871X("beacon frame too large\n");
++		return;
++	}
++	
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	//DBG_871X("issue bcn_sz=%d\n", pattrib->last_txcmdsz);
++
++	dump_mgntframe(padapter, pmgntframe);
++
++}
++
++void issue_probersp(_adapter *padapter, unsigned char *da, u8 is_valid_p2p_probereq)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;	
++	unsigned char					*mac, *bssid;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++#if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	u8 *pwps_ie;
++	uint wps_ielen;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++#endif //#if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX 		*cur_network = &(pmlmeinfo->network);
++	unsigned int	rate_len;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif //CONFIG_WFD
++#endif //CONFIG_P2P
++
++	//DBG_871X("%s\n", __FUNCTION__);
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		DBG_871X("%s, alloc mgnt frame fail\n", __FUNCTION__);
++		return;
++	}
++
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);	
++	
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++		
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;	
++	
++	mac = myid(&(padapter->eeprompriv));
++	bssid = cur_network->MacAddress;
++	
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, mac, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, bssid, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(fctrl, WIFI_PROBERSP);
++	
++	pattrib->hdrlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = pattrib->hdrlen;
++	pframe += pattrib->hdrlen;
++
++
++	if(cur_network->IELength>MAX_IE_SZ)
++		return;
++	
++#if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	if( (pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE)
++	{
++		pwps_ie = rtw_get_wps_ie(cur_network->IEs+_FIXED_IE_LENGTH_, cur_network->IELength-_FIXED_IE_LENGTH_, NULL, &wps_ielen);
++	
++		//inerset & update wps_probe_resp_ie
++		if((pmlmepriv->wps_probe_resp_ie!=NULL) && pwps_ie && (wps_ielen>0))
++		{
++			uint wps_offset, remainder_ielen;
++			u8 *premainder_ie;		
++	
++			wps_offset = (uint)(pwps_ie - cur_network->IEs);
++
++			premainder_ie = pwps_ie + wps_ielen;
++
++			remainder_ielen = cur_network->IELength - wps_offset - wps_ielen;
++
++			_rtw_memcpy(pframe, cur_network->IEs, wps_offset);		
++			pframe += wps_offset;		
++			pattrib->pktlen += wps_offset;		
++
++			wps_ielen = (uint)pmlmepriv->wps_probe_resp_ie[1];//to get ie data len
++			if((wps_offset+wps_ielen+2)<=MAX_IE_SZ)
++			{
++				_rtw_memcpy(pframe, pmlmepriv->wps_probe_resp_ie, wps_ielen+2);
++				pframe += wps_ielen+2;		
++				pattrib->pktlen += wps_ielen+2;	
++			}
++
++			if((wps_offset+wps_ielen+2+remainder_ielen)<=MAX_IE_SZ)
++			{
++				_rtw_memcpy(pframe, premainder_ie, remainder_ielen);
++				pframe += remainder_ielen;		
++				pattrib->pktlen += remainder_ielen;	
++			}
++		}
++		else
++		{
++			_rtw_memcpy(pframe, cur_network->IEs, cur_network->IELength);
++			pframe += cur_network->IELength;
++			pattrib->pktlen += cur_network->IELength;
++		}
++
++		/* retrieve SSID IE from cur_network->Ssid */
++		{
++			u8 *ssid_ie;
++			sint ssid_ielen;
++			sint ssid_ielen_diff;
++			u8 buf[MAX_IE_SZ];
++			u8 *ies = pmgntframe->buf_addr+TXDESC_OFFSET+sizeof(struct rtw_ieee80211_hdr_3addr);
++
++			ssid_ie = rtw_get_ie(ies+_FIXED_IE_LENGTH_, _SSID_IE_, &ssid_ielen,
++				(pframe-ies)-_FIXED_IE_LENGTH_);
++
++			ssid_ielen_diff = cur_network->Ssid.SsidLength - ssid_ielen;
++
++			if (ssid_ie &&  cur_network->Ssid.SsidLength) {
++				uint remainder_ielen;
++				u8 *remainder_ie;
++				remainder_ie = ssid_ie+2;
++				remainder_ielen = (pframe-remainder_ie);
++
++				LOG_LEVEL(_drv_warning_, FUNC_ADPT_FMT" remainder_ielen > MAX_IE_SZ\n", FUNC_ADPT_ARG(padapter));
++				if (remainder_ielen > MAX_IE_SZ) {
++					remainder_ielen = MAX_IE_SZ;
++				}
++
++				_rtw_memcpy(buf, remainder_ie, remainder_ielen);
++				_rtw_memcpy(remainder_ie+ssid_ielen_diff, buf, remainder_ielen);
++				*(ssid_ie+1) = cur_network->Ssid.SsidLength;
++				_rtw_memcpy(ssid_ie+2, cur_network->Ssid.Ssid, cur_network->Ssid.SsidLength);
++
++				pframe += ssid_ielen_diff;
++				pattrib->pktlen += ssid_ielen_diff;
++			}
++		}
++	}	
++	else		
++#endif		
++	{
++	
++		//timestamp will be inserted by hardware
++		pframe += 8;
++		pattrib->pktlen += 8;
++
++		// beacon interval: 2 bytes
++
++		_rtw_memcpy(pframe, (unsigned char *)(rtw_get_beacon_interval_from_ie(cur_network->IEs)), 2); 
++
++		pframe += 2;
++		pattrib->pktlen += 2;
++
++		// capability info: 2 bytes
++
++		_rtw_memcpy(pframe, (unsigned char *)(rtw_get_capability_from_ie(cur_network->IEs)), 2);
++
++		pframe += 2;
++		pattrib->pktlen += 2;
++
++		//below for ad-hoc mode
++
++		// SSID
++		pframe = rtw_set_ie(pframe, _SSID_IE_, cur_network->Ssid.SsidLength, cur_network->Ssid.Ssid, &pattrib->pktlen);
++
++		// supported rates...
++		rate_len = rtw_get_rateset_len(cur_network->SupportedRates);
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, ((rate_len > 8)? 8: rate_len), cur_network->SupportedRates, &pattrib->pktlen);
++
++		// DS parameter set
++		pframe =rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&(cur_network->Configuration.DSConfig), &pattrib->pktlen);
++
++		if( (pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE)
++		{
++			u8 erpinfo=0;
++			u32 ATIMWindow;
++			// IBSS Parameter Set...
++			//ATIMWindow = cur->Configuration.ATIMWindow;
++			ATIMWindow = 0;
++			pframe = rtw_set_ie(pframe, _IBSS_PARA_IE_, 2, (unsigned char *)(&ATIMWindow), &pattrib->pktlen);
++
++			//ERP IE
++			pframe = rtw_set_ie(pframe, _ERPINFO_IE_, 1, &erpinfo, &pattrib->pktlen);
++		}
++
++		
++		// EXTERNDED SUPPORTED RATE
++		if (rate_len > 8)
++		{
++			pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_, (rate_len - 8), (cur_network->SupportedRates + 8), &pattrib->pktlen);
++		}
++
++
++		//todo:HT for adhoc
++
++	}	
++
++#ifdef CONFIG_P2P
++	if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO) /*&& is_valid_p2p_probereq*/)
++	{
++		u32 len;
++#ifdef CONFIG_IOCTL_CFG80211
++		if(wdev_to_priv(padapter->rtw_wdev)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211 )
++		{
++			//if pwdinfo->role == P2P_ROLE_DEVICE will call issue_probersp_p2p()
++			len = pmlmepriv->p2p_go_probe_resp_ie_len;
++			if(pmlmepriv->p2p_go_probe_resp_ie && len>0)
++				_rtw_memcpy(pframe, pmlmepriv->p2p_go_probe_resp_ie, len);
++		}
++		else
++#endif //CONFIG_IOCTL_CFG80211
++		{
++			len = build_probe_resp_p2p_ie(pwdinfo, pframe);
++		}
++
++		pframe += len;
++		pattrib->pktlen += len;
++		
++#ifdef CONFIG_WFD
++#ifdef CONFIG_IOCTL_CFG80211
++		if(_TRUE == pwdinfo->wfd_info->wfd_enable)
++#endif //CONFIG_IOCTL_CFG80211
++		{
++			len = build_probe_resp_wfd_ie(pwdinfo, pframe, 0);
++		}
++#ifdef CONFIG_IOCTL_CFG80211
++		else
++		{	
++			len = 0;
++			if(pmlmepriv->wfd_probe_resp_ie && pmlmepriv->wfd_probe_resp_ie_len>0)
++			{
++				len = pmlmepriv->wfd_probe_resp_ie_len;
++				_rtw_memcpy(pframe, pmlmepriv->wfd_probe_resp_ie, len);	
++			}	
++		}
++#endif //CONFIG_IOCTL_CFG80211		
++		pframe += len;
++		pattrib->pktlen += len;
++#endif //CONFIG_WFD
++
++	}
++#endif //CONFIG_P2P
++
++
++#ifdef CONFIG_AUTO_AP_MODE
++{
++	struct sta_info *psta;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	DBG_871X("(%s)\n", __FUNCTION__);
++
++	//check rc station
++	psta = rtw_get_stainfo(pstapriv, da);
++	if (psta && psta->isrc && psta->pid>0)
++	{
++		u8 RC_OUI[4]={0x00,0xE0,0x4C,0x0A};
++		u8 RC_INFO[14] = {0};
++		//EID[1] + EID_LEN[1] + RC_OUI[4] + MAC[6] + PairingID[2] + ChannelNum[2]
++		u16 cu_ch = (u16)cur_network->Configuration.DSConfig;
++
++		DBG_871X("%s, reply rc(pid=0x%x) device "MAC_FMT" in ch=%d\n", __FUNCTION__,
++			psta->pid, MAC_ARG(psta->hwaddr), cu_ch);
++
++		//append vendor specific ie
++		_rtw_memcpy(RC_INFO, RC_OUI, sizeof(RC_OUI));
++		_rtw_memcpy(&RC_INFO[4], mac, ETH_ALEN);
++		_rtw_memcpy(&RC_INFO[10], (u8*)&psta->pid, 2);
++		_rtw_memcpy(&RC_INFO[12], (u8*)&cu_ch, 2);
++
++		pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, sizeof(RC_INFO), RC_INFO, &pattrib->pktlen);
++	}
++}
++#endif //CONFIG_AUTO_AP_MODE
++
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++	
++
++	dump_mgntframe(padapter, pmgntframe);
++	
++	return;
++
++}
++
++int _issue_probereq(_adapter *padapter, NDIS_802_11_SSID *pssid, u8 *da, int wait_ack)
++{
++	int ret = _FAIL;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	unsigned char			*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short		*fctrl;
++	unsigned char			*mac;
++	unsigned char			bssrate[NumRates];
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	int	bssrate_len = 0;
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_notice_,("+issue_probereq\n"));
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		goto exit;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	mac = myid(&(padapter->eeprompriv));
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	if (da)
++	{
++		//	unicast probe request frame
++		_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, da, ETH_ALEN);
++	}
++	else
++	{
++		//	broadcast probe request frame
++		_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, bc_addr, ETH_ALEN);
++	}
++
++	_rtw_memcpy(pwlanhdr->addr2, mac, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_PROBEREQ);
++
++	pframe += sizeof (struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof (struct rtw_ieee80211_hdr_3addr);
++
++	if(pssid)
++		pframe = rtw_set_ie(pframe, _SSID_IE_, pssid->SsidLength, pssid->Ssid, &(pattrib->pktlen));
++	else
++		pframe = rtw_set_ie(pframe, _SSID_IE_, 0, NULL, &(pattrib->pktlen));
++
++	get_rate_set(padapter, bssrate, &bssrate_len);
++
++	if (bssrate_len > 8)
++	{
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , 8, bssrate, &(pattrib->pktlen));
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_ , (bssrate_len - 8), (bssrate + 8), &(pattrib->pktlen));
++	}
++	else
++	{
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , bssrate_len , bssrate, &(pattrib->pktlen));
++	}
++
++#if 0
++	//add wps_ie for wps2.0
++	if(pmlmepriv->probereq_wpsie_len>0 && pmlmepriv->probereq_wpsie_len<MAX_WPS_IE_LEN)
++	{
++		_rtw_memcpy(pframe, pmlmepriv->probereq_wpsie, pmlmepriv->probereq_wpsie_len);
++		pframe += pmlmepriv->probereq_wpsie_len;
++		pattrib->pktlen += pmlmepriv->probereq_wpsie_len;
++		//pmlmepriv->probereq_wpsie_len = 0 ;//reset to zero		
++	}	
++#else
++	//add wps_ie for wps2.0
++	if(pmlmepriv->wps_probe_req_ie_len>0 && pmlmepriv->wps_probe_req_ie)
++	{
++		_rtw_memcpy(pframe, pmlmepriv->wps_probe_req_ie, pmlmepriv->wps_probe_req_ie_len);
++		pframe += pmlmepriv->wps_probe_req_ie_len;
++		pattrib->pktlen += pmlmepriv->wps_probe_req_ie_len;
++		//pmlmepriv->wps_probe_req_ie_len = 0 ;//reset to zero		
++	}	
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_notice_,("issuing probe_req, tx_len=%d\n", pattrib->last_txcmdsz));
++
++	if (wait_ack) {
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	} else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++	return ret;
++}
++
++inline void issue_probereq(_adapter *padapter, NDIS_802_11_SSID *pssid, u8 *da)
++{
++	_issue_probereq(padapter, pssid, da, _FALSE);
++}
++
++int issue_probereq_ex(_adapter *padapter, NDIS_802_11_SSID *pssid, u8 *da,
++	int try_cnt, int wait_ms)
++{
++	int ret;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++
++	do
++	{
++		ret = _issue_probereq(padapter, pssid, da, wait_ms>0?_TRUE:_FALSE);
++
++		i++;
++
++		if (padapter->bDriverStopped || padapter->bSurpriseRemoved)
++			break;
++
++		if(i < try_cnt && wait_ms > 0 && ret==_FAIL)
++			rtw_msleep_os(wait_ms);
++
++	}while((i<try_cnt) && ((ret==_FAIL)||(wait_ms==0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++		#ifndef DBG_XMIT_ACK
++		goto exit;
++		#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		if (da)
++			DBG_871X(FUNC_ADPT_FMT" to "MAC_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), MAC_ARG(da), rtw_get_oper_ch(padapter),
++				ret==_SUCCESS?", acked":"", i, try_cnt, rtw_get_passing_time_ms(start));
++		else
++			DBG_871X(FUNC_ADPT_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), rtw_get_oper_ch(padapter),
++				ret==_SUCCESS?", acked":"", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++	return ret;
++}
++
++// if psta == NULL, indiate we are station(client) now...
++void issue_auth(_adapter *padapter, struct sta_info *psta, unsigned short status)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	unsigned int					val32;
++	unsigned short				val16;
++	int use_shared_key = 0;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_AUTH);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++
++	if(psta)// for AP mode
++	{
++#ifdef CONFIG_NATIVEAP_MLME
++
++		_rtw_memcpy(pwlanhdr->addr1, psta->hwaddr, ETH_ALEN);		
++		_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, myid(&(padapter->eeprompriv)), ETH_ALEN);
++
++	
++		// setting auth algo number	
++		val16 = (u16)psta->authalg;
++
++		if(status != _STATS_SUCCESSFUL_)
++			val16 = 0;
++
++		if (val16)	{
++			val16 = cpu_to_le16(val16);	
++			use_shared_key = 1;
++		}
++
++		pframe = rtw_set_fixed_ie(pframe, _AUTH_ALGM_NUM_, (unsigned char *)&val16, &(pattrib->pktlen));
++
++		// setting auth seq number
++		val16 =(u16)psta->auth_seq;
++		val16 = cpu_to_le16(val16);	
++		pframe = rtw_set_fixed_ie(pframe, _AUTH_SEQ_NUM_, (unsigned char *)&val16, &(pattrib->pktlen));
++
++		// setting status code...
++		val16 = status;
++		val16 = cpu_to_le16(val16);	
++		pframe = rtw_set_fixed_ie(pframe, _STATUS_CODE_, (unsigned char *)&val16, &(pattrib->pktlen));
++
++		// added challenging text...
++		if ((psta->auth_seq == 2) && (psta->state & WIFI_FW_AUTH_STATE) && (use_shared_key==1))
++		{
++			pframe = rtw_set_ie(pframe, _CHLGETXT_IE_, 128, psta->chg_txt, &(pattrib->pktlen));			
++		}
++#endif
++	}
++	else
++	{		
++		_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&pmlmeinfo->network), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, myid(&padapter->eeprompriv), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&pmlmeinfo->network), ETH_ALEN);
++	
++		// setting auth algo number		
++		val16 = (pmlmeinfo->auth_algo == dot11AuthAlgrthm_Shared)? 1: 0;// 0:OPEN System, 1:Shared key
++		if (val16)	{
++			val16 = cpu_to_le16(val16);	
++			use_shared_key = 1;
++		}	
++		//DBG_871X("%s auth_algo= %s auth_seq=%d\n",__FUNCTION__,(pmlmeinfo->auth_algo==0)?"OPEN":"SHARED",pmlmeinfo->auth_seq);
++		
++		//setting IV for auth seq #3
++		if ((pmlmeinfo->auth_seq == 3) && (pmlmeinfo->state & WIFI_FW_AUTH_STATE) && (use_shared_key==1))
++		{
++			//DBG_871X("==> iv(%d),key_index(%d)\n",pmlmeinfo->iv,pmlmeinfo->key_index);
++			val32 = ((pmlmeinfo->iv++) | (pmlmeinfo->key_index << 30));
++			val32 = cpu_to_le32(val32);
++			pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *)&val32, &(pattrib->pktlen));
++
++			pattrib->iv_len = 4;
++		}
++
++		pframe = rtw_set_fixed_ie(pframe, _AUTH_ALGM_NUM_, (unsigned char *)&val16, &(pattrib->pktlen));
++		
++		// setting auth seq number
++		val16 = pmlmeinfo->auth_seq;
++		val16 = cpu_to_le16(val16);	
++		pframe = rtw_set_fixed_ie(pframe, _AUTH_SEQ_NUM_, (unsigned char *)&val16, &(pattrib->pktlen));
++
++		
++		// setting status code...
++		val16 = status;
++		val16 = cpu_to_le16(val16);	
++		pframe = rtw_set_fixed_ie(pframe, _STATUS_CODE_, (unsigned char *)&val16, &(pattrib->pktlen));
++
++		// then checking to see if sending challenging text...
++		if ((pmlmeinfo->auth_seq == 3) && (pmlmeinfo->state & WIFI_FW_AUTH_STATE) && (use_shared_key==1))
++		{
++			pframe = rtw_set_ie(pframe, _CHLGETXT_IE_, 128, pmlmeinfo->chg_txt, &(pattrib->pktlen));
++
++			SetPrivacy(fctrl);
++			
++			pattrib->hdrlen = sizeof(struct rtw_ieee80211_hdr_3addr);			
++			
++			pattrib->encrypt = _WEP40_;
++
++			pattrib->icv_len = 4;
++			
++			pattrib->pktlen += pattrib->icv_len;			
++			
++		}
++		
++	}
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	rtw_wep_encrypt(padapter, (u8 *)pmgntframe);
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++}
++
++
++void issue_asocrsp(_adapter *padapter, unsigned short status, struct sta_info *pstat, int pkt_type)
++{
++#ifdef CONFIG_AP_MODE
++	struct xmit_frame	*pmgntframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct pkt_attrib *pattrib;
++	unsigned char	*pbuf, *pframe;
++	unsigned short val;		
++	unsigned short *fctrl;
++	struct xmit_priv *pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);	
++	WLAN_BSSID_EX *pnetwork = &(pmlmeinfo->network);
++	u8 *ie = pnetwork->IEs; 
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif //CONFIG_WFD
++#endif //CONFIG_P2P
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy((void *)GetAddr1Ptr(pwlanhdr), pstat->hwaddr, ETH_ALEN);
++	_rtw_memcpy((void *)GetAddr2Ptr(pwlanhdr), myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy((void *)GetAddr3Ptr(pwlanhdr), get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	if ((pkt_type == WIFI_ASSOCRSP) || (pkt_type == WIFI_REASSOCRSP))
++		SetFrameSubType(pwlanhdr, pkt_type);		
++	else
++		return;
++
++	pattrib->hdrlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen += pattrib->hdrlen;
++	pframe += pattrib->hdrlen;
++
++	//capability
++	val = *(unsigned short *)rtw_get_capability_from_ie(ie);
++
++	pframe = rtw_set_fixed_ie(pframe, _CAPABILITY_ , (unsigned char *)&val, &(pattrib->pktlen));
++
++	status = cpu_to_le16(status);
++	pframe = rtw_set_fixed_ie(pframe , _STATUS_CODE_ , (unsigned char *)&status, &(pattrib->pktlen));
++	
++	val = cpu_to_le16(pstat->aid | BIT(14) | BIT(15));
++	pframe = rtw_set_fixed_ie(pframe, _ASOC_ID_ , (unsigned char *)&val, &(pattrib->pktlen));
++
++	if (pstat->bssratelen <= 8)
++	{
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, pstat->bssratelen, pstat->bssrateset, &(pattrib->pktlen));
++	}	
++	else 
++	{
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, 8, pstat->bssrateset, &(pattrib->pktlen));
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_, (pstat->bssratelen-8), pstat->bssrateset+8, &(pattrib->pktlen));
++	}
++
++#ifdef CONFIG_80211N_HT
++	if ((pstat->flags & WLAN_STA_HT) && (pmlmepriv->htpriv.ht_option))
++	{
++		uint ie_len=0;
++		
++		//FILL HT CAP INFO IE
++		//p = hostapd_eid_ht_capabilities_info(hapd, p);
++		pbuf = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _HT_CAPABILITY_IE_, &ie_len, (pnetwork->IELength - _BEACON_IE_OFFSET_));
++		if(pbuf && ie_len>0)
++		{
++			_rtw_memcpy(pframe, pbuf, ie_len+2);
++			pframe += (ie_len+2);
++			pattrib->pktlen +=(ie_len+2);
++		}
++
++		//FILL HT ADD INFO IE
++		//p = hostapd_eid_ht_operation(hapd, p);
++		pbuf = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _HT_ADD_INFO_IE_, &ie_len, (pnetwork->IELength - _BEACON_IE_OFFSET_));
++		if(pbuf && ie_len>0)
++		{
++			_rtw_memcpy(pframe, pbuf, ie_len+2);
++			pframe += (ie_len+2);
++			pattrib->pktlen +=(ie_len+2);
++		}
++		
++	}	
++#endif
++
++	//FILL WMM IE
++	if ((pstat->flags & WLAN_STA_WME) && (pmlmepriv->qospriv.qos_option))
++	{
++		uint ie_len=0;
++		unsigned char WMM_PARA_IE[] = {0x00, 0x50, 0xf2, 0x02, 0x01, 0x01};	
++		
++		for (pbuf = ie + _BEACON_IE_OFFSET_; ;pbuf+= (ie_len + 2))
++		{			
++			pbuf = rtw_get_ie(pbuf, _VENDOR_SPECIFIC_IE_, &ie_len, (pnetwork->IELength - _BEACON_IE_OFFSET_ - (ie_len + 2)));	
++			if(pbuf && _rtw_memcmp(pbuf+2, WMM_PARA_IE, 6)) 
++			{				
++				_rtw_memcpy(pframe, pbuf, ie_len+2);
++				pframe += (ie_len+2);
++				pattrib->pktlen +=(ie_len+2);
++				
++				break;				
++			}
++			
++			if ((pbuf == NULL) || (ie_len == 0))
++			{
++				break;
++			}			
++		}
++		
++	}
++
++
++	if (pmlmeinfo->assoc_AP_vendor == realtekAP)
++	{
++		pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, 6 , REALTEK_96B_IE, &(pattrib->pktlen));
++	}
++
++	//add WPS IE ie for wps 2.0
++	if(pmlmepriv->wps_assoc_resp_ie && pmlmepriv->wps_assoc_resp_ie_len>0)
++	{
++		_rtw_memcpy(pframe, pmlmepriv->wps_assoc_resp_ie, pmlmepriv->wps_assoc_resp_ie_len);
++		
++		pframe += pmlmepriv->wps_assoc_resp_ie_len;
++		pattrib->pktlen += pmlmepriv->wps_assoc_resp_ie_len;
++	}
++
++#ifdef CONFIG_P2P
++	if( padapter->wdinfo.driver_interface == DRIVER_WEXT )
++	{
++		if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO) && (pstat->is_p2p_device == _TRUE))
++		{
++			u32 len;
++
++			len = build_assoc_resp_p2p_ie(pwdinfo, pframe, pstat->p2p_status_code);
++
++			pframe += len;
++			pattrib->pktlen += len;
++		}
++	}
++#ifdef CONFIG_WFD
++	if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)
++#ifdef CONFIG_IOCTL_CFG80211		
++		&& (_TRUE == pwdinfo->wfd_info->wfd_enable)
++#endif //CONFIG_IOCTL_CFG80211	
++	)
++	{
++		wfdielen = build_assoc_resp_wfd_ie(pwdinfo, pframe);
++		pframe += wfdielen;
++		pattrib->pktlen += wfdielen;
++	}
++#endif //CONFIG_WFD
++#endif //CONFIG_P2P
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++	
++	dump_mgntframe(padapter, pmgntframe);
++	
++#endif
++}
++
++void issue_assocreq(_adapter *padapter)
++{
++	int ret = _FAIL;
++	struct xmit_frame				*pmgntframe;
++	struct pkt_attrib				*pattrib;
++	unsigned char					*pframe, *p;
++	struct rtw_ieee80211_hdr			*pwlanhdr;
++	unsigned short				*fctrl;
++	unsigned short				val16;
++	unsigned int					i, j, ie_len, index=0;
++	unsigned char					rf_type, bssrate[NumRates], sta_bssrate[NumRates];
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	int	bssrate_len = 0, sta_bssrate_len = 0;
++	u8	cbw40_enable = 0;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8					p2pie[ 255 ] = { 0x00 };
++	u16					p2pielen = 0;	
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif //CONFIG_WFD
++#endif //CONFIG_P2P
++
++#ifdef CONFIG_DFS
++	u16	cap;
++	u8 pow_cap_ele[2] = { 0x00 };
++	u8 sup_ch[ 30 * 2 ] = {0x00 }, sup_ch_idx = 0, idx_5g = 2;	//For supported channel
++#endif //CONFIG_DFS
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++		goto exit;
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ASSOCREQ);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	//caps
++
++#ifdef CONFIG_DFS
++	_rtw_memcpy(&cap, rtw_get_capability_from_ie(pmlmeinfo->network.IEs), 2);
++	if(pmlmeext->cur_channel > 14)
++		cap |= BIT(8); //Spectrum Mgmt. Enabled
++	_rtw_memcpy(pframe, &cap, 2);
++#else
++	_rtw_memcpy(pframe, rtw_get_capability_from_ie(pmlmeinfo->network.IEs), 2);
++#endif //CONFIG_DFS
++
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++	//listen interval
++	//todo: listen interval for power saving
++	val16 = cpu_to_le16(3);
++	_rtw_memcpy(pframe ,(unsigned char *)&val16, 2);
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++	//SSID
++	pframe = rtw_set_ie(pframe, _SSID_IE_,  pmlmeinfo->network.Ssid.SsidLength, pmlmeinfo->network.Ssid.Ssid, &(pattrib->pktlen));
++
++	//supported rate & extended supported rate
++
++#if 1	// Check if the AP's supported rates are also supported by STA.
++	get_rate_set(padapter, sta_bssrate, &sta_bssrate_len);
++	//DBG_871X("sta_bssrate_len=%d\n", sta_bssrate_len);
++	
++	if(pmlmeext->cur_channel == 14)// for JAPAN, channel 14 can only uses B Mode(CCK) 
++	{
++		sta_bssrate_len = 4;
++	}
++
++	
++	//for (i = 0; i < sta_bssrate_len; i++) {
++	//	DBG_871X("sta_bssrate[%d]=%02X\n", i, sta_bssrate[i]);
++	//}
++
++	for (i = 0; i < NDIS_802_11_LENGTH_RATES_EX; i++) {
++		if (pmlmeinfo->network.SupportedRates[i] == 0) break;
++		DBG_871X("network.SupportedRates[%d]=%02X\n", i, pmlmeinfo->network.SupportedRates[i]);
++	}
++	
++
++	for (i = 0; i < NDIS_802_11_LENGTH_RATES_EX; i++) {
++		if (pmlmeinfo->network.SupportedRates[i] == 0) break;
++
++		
++		// Check if the AP's supported rates are also supported by STA.
++		for (j=0; j < sta_bssrate_len; j++) {
++			 // Avoid the proprietary data rate (22Mbps) of Handlink WSG-4000 AP
++			if ( (pmlmeinfo->network.SupportedRates[i]|IEEE80211_BASIC_RATE_MASK) 
++					== (sta_bssrate[j]|IEEE80211_BASIC_RATE_MASK)) {
++				//DBG_871X("match i = %d, j=%d\n", i, j);
++				break;
++			} else {
++				//DBG_871X("not match: %02X != %02X\n", (pmlmeinfo->network.SupportedRates[i]|IEEE80211_BASIC_RATE_MASK), (sta_bssrate[j]|IEEE80211_BASIC_RATE_MASK));
++			}
++		}
++		
++		if (j == sta_bssrate_len) {
++			// the rate is not supported by STA
++			DBG_871X("%s(): the rate[%d]=%02X is not supported by STA!\n",__FUNCTION__, i, pmlmeinfo->network.SupportedRates[i]);
++		} else {
++			// the rate is supported by STA
++			bssrate[index++] = pmlmeinfo->network.SupportedRates[i];
++		}
++	}
++	
++	bssrate_len = index;
++	DBG_871X("bssrate_len = %d\n", bssrate_len);
++
++#else	// Check if the AP's supported rates are also supported by STA.
++#if 0
++	get_rate_set(padapter, bssrate, &bssrate_len);
++#else
++	for (bssrate_len = 0; bssrate_len < NumRates; bssrate_len++) {
++		if (pmlmeinfo->network.SupportedRates[bssrate_len] == 0) break;
++
++		if (pmlmeinfo->network.SupportedRates[bssrate_len] == 0x2C) // Avoid the proprietary data rate (22Mbps) of Handlink WSG-4000 AP
++			break;
++
++		bssrate[bssrate_len] = pmlmeinfo->network.SupportedRates[bssrate_len];
++	}
++#endif
++#endif	// Check if the AP's supported rates are also supported by STA.
++
++	if (bssrate_len == 0) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit; //don't connect to AP if no joint supported rate
++	}
++
++
++	if (bssrate_len > 8)
++	{
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , 8, bssrate, &(pattrib->pktlen));
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_ , (bssrate_len - 8), (bssrate + 8), &(pattrib->pktlen));
++	}
++	else
++	{
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , bssrate_len , bssrate, &(pattrib->pktlen));
++	}
++
++#ifdef CONFIG_DFS
++	if(pmlmeext->cur_channel > 14)
++	{
++		pow_cap_ele[0] = 13;	// Minimum transmit power capability
++		pow_cap_ele[1] = 21;	// Maximum transmit power capability
++		pframe = rtw_set_ie(pframe, _POW_CAP_IE_, 2, pow_cap_ele, &(pattrib->pktlen));
++
++		//supported channels
++		do{
++			if( pmlmeext->channel_set[sup_ch_idx].ChannelNum <= 14 )
++			{
++				sup_ch[0] = 1;	//First channel number
++				sup_ch[1] = pmlmeext->channel_set[sup_ch_idx].ChannelNum;	//Number of channel
++			}
++			else
++			{
++				sup_ch[idx_5g++] = pmlmeext->channel_set[sup_ch_idx].ChannelNum;
++				sup_ch[idx_5g++] = 1;
++			}
++			sup_ch_idx++;
++		}
++		while( pmlmeext->channel_set[sup_ch_idx].ChannelNum != 0 );
++		pframe = rtw_set_ie(pframe, _SUPPORTED_CH_IE_, idx_5g, sup_ch, &(pattrib->pktlen));
++	}
++#endif //CONFIG_DFS
++
++	//RSN
++	p = rtw_get_ie((pmlmeinfo->network.IEs + sizeof(NDIS_802_11_FIXED_IEs)), _RSN_IE_2_, &ie_len, (pmlmeinfo->network.IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++	if (p != NULL)
++	{
++		pframe = rtw_set_ie(pframe, _RSN_IE_2_, ie_len, (p + 2), &(pattrib->pktlen));
++	}
++
++#ifdef CONFIG_80211N_HT
++	//HT caps
++	if(padapter->mlmepriv.htpriv.ht_option==_TRUE)
++	{
++		p = rtw_get_ie((pmlmeinfo->network.IEs + sizeof(NDIS_802_11_FIXED_IEs)), _HT_CAPABILITY_IE_, &ie_len, (pmlmeinfo->network.IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++		if ((p != NULL) && (!(is_ap_in_tkip(padapter))))
++		{
++			_rtw_memcpy(&(pmlmeinfo->HT_caps), (p + 2), sizeof(struct HT_caps_element));
++
++			//to disable 40M Hz support while gd_bw_40MHz_en = 0
++			if( pmlmeext->cur_channel > 14)
++			{
++				if(pregpriv->cbw40_enable & BIT(1) )
++					cbw40_enable=1;
++			}
++			else
++				if(pregpriv->cbw40_enable & BIT(0) )
++					cbw40_enable=1;
++
++			if (cbw40_enable == 0)
++			{
++				pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info &= (~(BIT(6) | BIT(1)));
++			}
++			else
++			{
++				pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info |= BIT(1);
++			}
++
++			//todo: disable SM power save mode
++			pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info |= 0x000c;
++
++			rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++			//switch (pregpriv->rf_config)
++			switch(rf_type)
++			{
++				case RF_1T1R:
++				
++					if(pregpriv->rx_stbc)
++						pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info |= cpu_to_le16(0x0100);//RX STBC One spatial stream
++						
++					_rtw_memcpy(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_rate_1R, 16);
++					break;
++
++				case RF_2T2R:
++				case RF_1T2R:
++				default:
++					
++
++					if(pregpriv->special_rf_path)
++					{
++						if(pregpriv->rx_stbc)
++							pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info |= cpu_to_le16(0x0100);//RX STBC One spatial stream
++						_rtw_memcpy(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_rate_1R, 16);
++						break;
++					}
++
++					if((pregpriv->rx_stbc == 0x3) ||//enable for 2.4/5 GHz	
++						((pmlmeext->cur_wireless_mode & WIRELESS_11_24N) && (pregpriv->rx_stbc == 0x1)) || //enable for 2.4GHz
++						((pmlmeext->cur_wireless_mode & WIRELESS_11_5N) && (pregpriv->rx_stbc == 0x2)) || //enable for 5GHz
++						(pregpriv->wifi_spec==1))
++					{
++						DBG_871X("declare supporting RX STBC\n");
++						pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info |= cpu_to_le16(0x0200);//RX STBC two spatial stream
++					}
++					#ifdef CONFIG_DISABLE_MCS13TO15
++					if(pmlmeext->cur_bwmode == HT_CHANNEL_WIDTH_40 && (pregpriv->wifi_spec!=1))
++						_rtw_memcpy(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_rate_2R_MCS13TO15_OFF, 16);
++					else
++					_rtw_memcpy(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_rate_2R, 16);
++					#else //CONFIG_DISABLE_MCS13TO15
++					_rtw_memcpy(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_rate_2R, 16);
++					#endif //CONFIG_DISABLE_MCS13TO15
++					break;
++			}
++#ifdef RTL8192C_RECONFIG_TO_1T1R
++			{
++				if(pregpriv->rx_stbc)
++					pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info |= cpu_to_le16(0x0100);//RX STBC One spatial stream
++			
++				_rtw_memcpy(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_rate_1R, 16);
++			}
++#endif
++			pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info = cpu_to_le16(pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info);
++			pframe = rtw_set_ie(pframe, _HT_CAPABILITY_IE_, ie_len , (u8 *)(&(pmlmeinfo->HT_caps)), &(pattrib->pktlen));
++
++		}
++	}
++#endif
++
++	//vendor specific IE, such as WPA, WMM, WPS
++	for (i = sizeof(NDIS_802_11_FIXED_IEs); i < pmlmeinfo->network.IELength;)
++	{
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pmlmeinfo->network.IEs + i);
++
++		switch (pIE->ElementID)
++		{
++			case _VENDOR_SPECIFIC_IE_:
++				if ((_rtw_memcmp(pIE->data, RTW_WPA_OUI, 4)) ||
++						(_rtw_memcmp(pIE->data, WMM_OUI, 4)) ||
++						(_rtw_memcmp(pIE->data, WPS_OUI, 4)))
++				{
++					if(!padapter->registrypriv.wifi_spec)
++					{
++						//Commented by Kurt 20110629
++						//In some older APs, WPS handshake
++						//would be fail if we append vender extensions informations to AP
++						if(_rtw_memcmp(pIE->data, WPS_OUI, 4)){
++							pIE->Length=14;
++						}
++					}
++					pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, pIE->Length, pIE->data, &(pattrib->pktlen));
++				}
++				break;
++
++			default:
++				break;
++		}
++
++		i += (pIE->Length + 2);
++	}
++
++	if (pmlmeinfo->assoc_AP_vendor == realtekAP)
++	{
++		pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, 6 , REALTEK_96B_IE, &(pattrib->pktlen));
++	}
++
++#ifdef CONFIG_P2P
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if(wdev_to_priv(padapter->rtw_wdev)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211 )
++	{
++		if(pmlmepriv->p2p_assoc_req_ie && pmlmepriv->p2p_assoc_req_ie_len>0)
++		{
++			_rtw_memcpy(pframe, pmlmepriv->p2p_assoc_req_ie, pmlmepriv->p2p_assoc_req_ie_len);
++			pframe += pmlmepriv->p2p_assoc_req_ie_len;
++			pattrib->pktlen += pmlmepriv->p2p_assoc_req_ie_len;
++		}
++	}
++	else
++#endif //CONFIG_IOCTL_CFG80211
++	{
++		if(!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE) && !rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE))
++		{
++			//	Should add the P2P IE in the association request frame.	
++			//	P2P OUI
++			
++			p2pielen = 0;
++			p2pie[ p2pielen++ ] = 0x50;
++			p2pie[ p2pielen++ ] = 0x6F;
++			p2pie[ p2pielen++ ] = 0x9A;
++			p2pie[ p2pielen++ ] = 0x09;	//	WFA P2P v1.0
++
++			//	Commented by Albert 20101109
++			//	According to the P2P Specification, the association request frame should contain 3 P2P attributes
++			//	1. P2P Capability
++			//	2. Extended Listen Timing
++			//	3. Device Info
++			//	Commented by Albert 20110516
++			//	4. P2P Interface
++
++			//	P2P Capability
++			//	Type:
++			p2pie[ p2pielen++ ] = P2P_ATTR_CAPABILITY;
++
++			//	Length:
++			*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0002 );
++			p2pielen += 2;
++
++			//	Value:
++			//	Device Capability Bitmap, 1 byte
++			p2pie[ p2pielen++ ] = DMP_P2P_DEVCAP_SUPPORT;
++
++			//	Group Capability Bitmap, 1 byte
++			if ( pwdinfo->persistent_supported )
++				p2pie[ p2pielen++ ] = P2P_GRPCAP_PERSISTENT_GROUP | DMP_P2P_GRPCAP_SUPPORT;
++			else
++				p2pie[ p2pielen++ ] = DMP_P2P_GRPCAP_SUPPORT;
++
++			//	Extended Listen Timing
++			//	Type:
++			p2pie[ p2pielen++ ] = P2P_ATTR_EX_LISTEN_TIMING;
++
++			//	Length:
++			*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0004 );
++			p2pielen += 2;
++
++			//	Value:
++			//	Availability Period
++			*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0xFFFF );
++			p2pielen += 2;
++
++			//	Availability Interval
++			*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0xFFFF );
++			p2pielen += 2;
++
++			//	Device Info
++			//	Type:
++			p2pie[ p2pielen++ ] = P2P_ATTR_DEVICE_INFO;
++
++			//	Length:
++			//	21 -> P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes) 
++			//	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes)
++			*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 21 + pwdinfo->device_name_len );
++			p2pielen += 2;
++
++			//	Value:
++			//	P2P Device Address
++			_rtw_memcpy( p2pie + p2pielen, myid( &padapter->eeprompriv ), ETH_ALEN );
++			p2pielen += ETH_ALEN;
++
++			//	Config Method
++			//	This field should be big endian. Noted by P2P specification.
++			if ( ( pwdinfo->ui_got_wps_info == P2P_GOT_WPSINFO_PEER_DISPLAY_PIN ) ||
++				( pwdinfo->ui_got_wps_info == P2P_GOT_WPSINFO_SELF_DISPLAY_PIN ) )
++			{
++				*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_CONFIG_METHOD_DISPLAY );
++			}
++			else
++			{
++				*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_CONFIG_METHOD_PBC );
++			}
++
++			p2pielen += 2;
++
++			//	Primary Device Type
++			//	Category ID
++			*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_CID_MULIT_MEDIA );
++			p2pielen += 2;
++
++			//	OUI
++			*(u32*) ( p2pie + p2pielen ) = cpu_to_be32( WPSOUI );
++			p2pielen += 4;
++
++			//	Sub Category ID
++			*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_SCID_MEDIA_SERVER );
++			p2pielen += 2;
++
++			//	Number of Secondary Device Types
++			p2pie[ p2pielen++ ] = 0x00;	//	No Secondary Device Type List
++
++			//	Device Name
++			//	Type:
++			*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_ATTR_DEVICE_NAME );
++			p2pielen += 2;
++
++			//	Length:
++			*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( pwdinfo->device_name_len );
++			p2pielen += 2;
++
++			//	Value:
++			_rtw_memcpy( p2pie + p2pielen, pwdinfo->device_name, pwdinfo->device_name_len );
++			p2pielen += pwdinfo->device_name_len;
++		
++			//	P2P Interface
++			//	Type:
++			p2pie[ p2pielen++ ] = P2P_ATTR_INTERFACE;
++			
++			//	Length:
++			*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x000D );
++			p2pielen += 2;
++			
++			//	Value:
++			_rtw_memcpy( p2pie + p2pielen, pwdinfo->device_addr, ETH_ALEN );	//	P2P Device Address
++			p2pielen += ETH_ALEN;
++
++			p2pie[ p2pielen++ ] = 1;	//	P2P Interface Address Count
++			
++			_rtw_memcpy( p2pie + p2pielen, pwdinfo->device_addr, ETH_ALEN );	//	P2P Interface Address List
++			p2pielen += ETH_ALEN;
++		
++			pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen );
++
++#ifdef CONFIG_WFD
++			//wfdielen = build_assoc_req_wfd_ie(pwdinfo, pframe);
++			//pframe += wfdielen;
++			//pattrib->pktlen += wfdielen;
++#endif //CONFIG_WFD
++		}
++	}
++
++#endif //CONFIG_P2P
++
++#ifdef CONFIG_WFD
++#ifdef CONFIG_IOCTL_CFG80211
++	if ( _TRUE == pwdinfo->wfd_info->wfd_enable )
++#endif //CONFIG_IOCTL_CFG80211
++	{
++		wfdielen = build_assoc_req_wfd_ie(pwdinfo, pframe);
++		pframe += wfdielen;
++		pattrib->pktlen += wfdielen;
++	}
++#ifdef CONFIG_IOCTL_CFG80211
++	else if (pmlmepriv->wfd_assoc_req_ie != NULL && pmlmepriv->wfd_assoc_req_ie_len>0)		
++	{
++		//WFD IE
++		_rtw_memcpy(pframe, pmlmepriv->wfd_assoc_req_ie, pmlmepriv->wfd_assoc_req_ie_len);
++		pattrib->pktlen += pmlmepriv->wfd_assoc_req_ie_len;
++		pframe += pmlmepriv->wfd_assoc_req_ie_len;		
++	}
++#endif //CONFIG_IOCTL_CFG80211
++#endif //CONFIG_WFD	
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++	dump_mgntframe(padapter, pmgntframe);
++
++	ret = _SUCCESS;
++
++exit:
++	if (ret == _SUCCESS)
++		rtw_buf_update(&pmlmepriv->assoc_req, &pmlmepriv->assoc_req_len, (u8 *)pwlanhdr, pattrib->pktlen);
++	else
++		rtw_buf_free(&pmlmepriv->assoc_req, &pmlmepriv->assoc_req_len);
++
++	return;
++}
++
++//when wait_ack is ture, this function shoule be called at process context
++static int _issue_nulldata(_adapter *padapter, unsigned char *da, unsigned int power_mode, int wait_ack)
++{
++	int ret = _FAIL;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv	*pxmitpriv;
++	struct mlme_ext_priv	*pmlmeext;
++	struct mlme_ext_info	*pmlmeinfo;
++
++	//DBG_871X("%s:%d\n", __FUNCTION__, power_mode);
++
++	if(!padapter)
++		goto exit;
++
++	pxmitpriv = &(padapter->xmitpriv);
++	pmlmeext = &(padapter->mlmeextpriv);
++	pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		goto exit;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++	pattrib->retry_ctrl = _FALSE;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	if((pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE)
++	{
++		SetFrDs(fctrl);
++	}
++	else if((pmlmeinfo->state&0x03) == WIFI_FW_STATION_STATE)
++	{
++		SetToDs(fctrl);
++	}
++	
++	if (power_mode)
++	{
++		SetPwrMgt(fctrl);
++	}
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_DATA_NULL);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	if(wait_ack)
++	{
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	}
++	else
++	{
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++	return ret;
++}
++
++
++//when wait_ms >0 , this function shoule be called at process context
++//da == NULL for station mode
++int issue_nulldata(_adapter *padapter, unsigned char *da, unsigned int power_mode, int try_cnt, int wait_ms)
++{
++	int ret;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	/* da == NULL, assum it's null data for sta to ap*/
++	if (da == NULL)
++		da = get_my_bssid(&(pmlmeinfo->network));
++
++	do
++	{
++		ret = _issue_nulldata(padapter, da, power_mode, wait_ms>0?_TRUE:_FALSE);
++
++		i++;
++
++		if (padapter->bDriverStopped || padapter->bSurpriseRemoved)
++			break;
++
++		if(i < try_cnt && wait_ms > 0 && ret==_FAIL)
++			rtw_msleep_os(wait_ms);
++
++	}while((i<try_cnt) && ((ret==_FAIL)||(wait_ms==0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++		#ifndef DBG_XMIT_ACK
++		goto exit;
++		#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		if (da)
++			DBG_871X(FUNC_ADPT_FMT" to "MAC_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), MAC_ARG(da), rtw_get_oper_ch(padapter),
++				ret==_SUCCESS?", acked":"", i, try_cnt, rtw_get_passing_time_ms(start));
++		else
++			DBG_871X(FUNC_ADPT_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), rtw_get_oper_ch(padapter),
++				ret==_SUCCESS?", acked":"", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++	return ret;
++}
++
++//when wait_ack is ture, this function shoule be called at process context
++static int _issue_qos_nulldata(_adapter *padapter, unsigned char *da, u16 tid, int wait_ack)
++{
++	int ret = _FAIL;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl, *qc;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		goto exit;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	pattrib->hdrlen +=2;
++	pattrib->qos_en = _TRUE;
++	pattrib->eosp = 1;
++	pattrib->ack_policy = 0;
++	pattrib->mdata = 0;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	if((pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE)
++	{
++		SetFrDs(fctrl);
++	}
++	else if((pmlmeinfo->state&0x03) == WIFI_FW_STATION_STATE)
++	{
++		SetToDs(fctrl);
++	}
++
++	if(pattrib->mdata)
++		SetMData(fctrl);
++
++	qc = (unsigned short *)(pframe + pattrib->hdrlen - 2);
++	
++	SetPriority(qc, tid);
++
++	SetEOSP(qc, pattrib->eosp);
++
++	SetAckpolicy(qc, pattrib->ack_policy);
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_QOS_DATA_NULL);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr_qos);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr_qos);
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++	
++	if(wait_ack)
++	{
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	}
++	else
++	{
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++	return ret;
++}
++
++//when wait_ms >0 , this function shoule be called at process context
++//da == NULL for station mode
++int issue_qos_nulldata(_adapter *padapter, unsigned char *da, u16 tid, int try_cnt, int wait_ms)
++{
++	int ret;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	/* da == NULL, assum it's null data for sta to ap*/
++	if (da == NULL)
++		da = get_my_bssid(&(pmlmeinfo->network));
++	
++	do
++	{
++		ret = _issue_qos_nulldata(padapter, da, tid, wait_ms>0?_TRUE:_FALSE);
++
++		i++;
++
++		if (padapter->bDriverStopped || padapter->bSurpriseRemoved)
++			break;
++
++		if(i < try_cnt && wait_ms > 0 && ret==_FAIL)
++			rtw_msleep_os(wait_ms);
++
++	}while((i<try_cnt) && ((ret==_FAIL)||(wait_ms==0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++		#ifndef DBG_XMIT_ACK
++		goto exit;
++		#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		if (da)
++			DBG_871X(FUNC_ADPT_FMT" to "MAC_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), MAC_ARG(da), rtw_get_oper_ch(padapter),
++				ret==_SUCCESS?", acked":"", i, try_cnt, rtw_get_passing_time_ms(start));
++		else
++			DBG_871X(FUNC_ADPT_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), rtw_get_oper_ch(padapter),
++				ret==_SUCCESS?", acked":"", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++	return ret;
++}
++
++static int _issue_deauth(_adapter *padapter, unsigned char *da, unsigned short reason, u8 wait_ack)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	int ret = _FAIL;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++#endif //CONFIG_P2P
++	
++	//DBG_871X("%s to "MAC_FMT"\n", __func__, MAC_ARG(da));
++
++#ifdef CONFIG_P2P
++	if ( !( rtw_p2p_chk_state( pwdinfo, P2P_STATE_NONE ) ) && ( pwdinfo->rx_invitereq_info.scan_op_ch_only ) )
++	{
++		_cancel_timer_ex( &pwdinfo->reset_ch_sitesurvey );
++		_set_timer( &pwdinfo->reset_ch_sitesurvey, 10 );
++	}
++#endif //CONFIG_P2P
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		goto exit;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++	pattrib->retry_ctrl = _FALSE;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_DEAUTH);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	reason = cpu_to_le16(reason);
++	pframe = rtw_set_fixed_ie(pframe, _RSON_CODE_ , (unsigned char *)&reason, &(pattrib->pktlen));
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++
++	if(wait_ack)
++	{
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	}
++	else
++	{
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++	return ret;
++}
++
++int issue_deauth(_adapter *padapter, unsigned char *da, unsigned short reason)
++{
++	DBG_871X("%s to "MAC_FMT"\n", __func__, MAC_ARG(da));
++	return _issue_deauth(padapter, da, reason, _FALSE);
++}
++
++int issue_deauth_ex(_adapter *padapter, u8 *da, unsigned short reason, int try_cnt,
++	int wait_ms)
++{
++	int ret;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++
++	do
++	{
++		ret = _issue_deauth(padapter, da, reason, wait_ms>0?_TRUE:_FALSE);
++
++		i++;
++
++		if (padapter->bDriverStopped || padapter->bSurpriseRemoved)
++			break;
++
++		if(i < try_cnt && wait_ms > 0 && ret==_FAIL)
++			rtw_msleep_os(wait_ms);
++
++	}while((i<try_cnt) && ((ret==_FAIL)||(wait_ms==0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++		#ifndef DBG_XMIT_ACK
++		goto exit;
++		#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		if (da)
++			DBG_871X(FUNC_ADPT_FMT" to "MAC_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), MAC_ARG(da), rtw_get_oper_ch(padapter),
++				ret==_SUCCESS?", acked":"", i, try_cnt, rtw_get_passing_time_ms(start));
++		else
++			DBG_871X(FUNC_ADPT_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), rtw_get_oper_ch(padapter),
++				ret==_SUCCESS?", acked":"", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++	return ret;
++}
++
++void issue_action_spct_ch_switch(_adapter *padapter, u8 *ra, u8 new_ch, u8 ch_offset)
++{	
++	_irqL	irqL;
++	_list		*plist, *phead;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char				*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short			*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++
++	DBG_871X(FUNC_NDEV_FMT" ra="MAC_FMT", ch:%u, offset:%u\n",
++		FUNC_NDEV_ARG(padapter->pnetdev), MAC_ARG(ra), new_ch, ch_offset);
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++		return;
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, ra, ETH_ALEN); /* RA */
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN); /* TA */
++	_rtw_memcpy(pwlanhdr->addr3, ra, ETH_ALEN); /* DA = RA */
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	/* category, action */
++	{
++		u8 category, action;
++		category = RTW_WLAN_CATEGORY_SPECTRUM_MGMT;
++		action = RTW_WLAN_ACTION_SPCT_CHL_SWITCH;
++
++		pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++		pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	}
++
++	pframe = rtw_set_ie_ch_switch(pframe, &(pattrib->pktlen), 0, new_ch, 0);
++	pframe = rtw_set_ie_secondary_ch_offset(pframe, &(pattrib->pktlen),
++		hal_ch_offset_to_secondary_ch_offset(ch_offset));
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++}
++
++#ifdef CONFIG_IEEE80211W
++void issue_action_SA_Query(_adapter *padapter, unsigned char *raddr, unsigned char action, unsigned short tid)
++{
++	u8	category = RTW_WLAN_CATEGORY_SA_QUERY;
++	u16	reason_code;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	u8					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_info		*psta;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct registry_priv	 	*pregpriv = &padapter->registrypriv;
++
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		DBG_871X("%s: alloc_mgtxmitframe fail\n", __FUNCTION__);
++		return;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	if(raddr)
++		_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	else
++		_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &category, &pattrib->pktlen);
++	pframe = rtw_set_fixed_ie(pframe, 1, &action, &pattrib->pktlen);
++
++	switch (action)
++	{
++		case 0: //SA Query req
++			pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)&pmlmeext->sa_query_seq, &pattrib->pktlen);
++			pmlmeext->sa_query_seq++;
++			//send sa query request to AP, AP should reply sa query response in 1 second
++			set_sa_query_timer(pmlmeext, 1000);
++			break;
++
++		case 1: //SA Query rsp
++			tid = cpu_to_le16(tid);
++			pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)&tid, &pattrib->pktlen);
++			break;
++		default:
++			break;
++	}
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++}
++#endif //CONFIG_IEEE80211W
++
++void issue_action_BA(_adapter *padapter, unsigned char *raddr, unsigned char action, unsigned short status)
++{
++	u8	category = RTW_WLAN_CATEGORY_BACK;
++	u16	start_seq;
++	u16	BA_para_set;
++	u16	reason_code;
++	u16	BA_timeout_value;
++	u16	BA_starting_seqctrl;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	u8					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_info		*psta;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct registry_priv	 	*pregpriv = &padapter->registrypriv;
++
++
++	DBG_871X("%s, category=%d, action=%d, status=%d\n", __FUNCTION__, category, action, status);
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	//_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++
++      status = cpu_to_le16(status);
++	
++
++	if (category == 3)
++	{
++		switch (action)
++		{
++			case 0: //ADDBA req
++				do {
++					pmlmeinfo->dialogToken++;
++				} while (pmlmeinfo->dialogToken == 0);
++				pframe = rtw_set_fixed_ie(pframe, 1, &(pmlmeinfo->dialogToken), &(pattrib->pktlen));
++
++				BA_para_set = (0x1002 | ((status & 0xf) << 2)); //immediate ack & 64 buffer size
++				//sys_mib.BA_para_set = 0x0802; //immediate ack & 32 buffer size
++				BA_para_set = cpu_to_le16(BA_para_set);
++				pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(BA_para_set)), &(pattrib->pktlen));
++
++				//BA_timeout_value = 0xffff;//max: 65535 TUs(~ 65 ms)
++				BA_timeout_value = 5000;//~ 5ms
++				BA_timeout_value = cpu_to_le16(BA_timeout_value);
++				pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(BA_timeout_value)), &(pattrib->pktlen));
++
++				//if ((psta = rtw_get_stainfo(pstapriv, pmlmeinfo->network.MacAddress)) != NULL)
++				if ((psta = rtw_get_stainfo(pstapriv, raddr)) != NULL)
++				{
++					start_seq = (psta->sta_xmitpriv.txseq_tid[status & 0x07]&0xfff) + 1;
++
++					DBG_871X("BA_starting_seqctrl = %d for TID=%d\n", start_seq, status & 0x07);
++					
++					psta->BA_starting_seqctrl[status & 0x07] = start_seq;
++					
++					BA_starting_seqctrl = start_seq << 4;
++				}
++				
++				BA_starting_seqctrl = cpu_to_le16(BA_starting_seqctrl);
++				pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(BA_starting_seqctrl)), &(pattrib->pktlen));
++				break;
++
++			case 1: //ADDBA rsp
++				pframe = rtw_set_fixed_ie(pframe, 1, &(pmlmeinfo->ADDBA_req.dialog_token), &(pattrib->pktlen));
++				pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&status), &(pattrib->pktlen));
++
++				//BA_para_set = cpu_to_le16((le16_to_cpu(pmlmeinfo->ADDBA_req.BA_para_set) & 0x3f) | 0x1000); //64 buffer size
++				BA_para_set = ((le16_to_cpu(pmlmeinfo->ADDBA_req.BA_para_set) & 0x3f) | 0x1000); //64 buffer size
++
++				if(pregpriv->ampdu_amsdu==0)//disabled
++					BA_para_set = cpu_to_le16(BA_para_set & ~BIT(0));
++				else if(pregpriv->ampdu_amsdu==1)//enabled
++					BA_para_set = cpu_to_le16(BA_para_set | BIT(0));
++				else //auto
++					BA_para_set = cpu_to_le16(BA_para_set);
++				
++				pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(BA_para_set)), &(pattrib->pktlen));
++				pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(pmlmeinfo->ADDBA_req.BA_timeout_value)), &(pattrib->pktlen));
++				break;
++			case 2://DELBA
++				BA_para_set = (status & 0x1F) << 3;
++				BA_para_set = cpu_to_le16(BA_para_set);				
++				pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(BA_para_set)), &(pattrib->pktlen));
++
++				reason_code = 37;//Requested from peer STA as it does not want to use the mechanism
++				reason_code = cpu_to_le16(reason_code);
++				pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(reason_code)), &(pattrib->pktlen));
++				break;
++			default:
++				break;
++		}
++	}
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++}
++
++static void issue_action_BSSCoexistPacket(_adapter *padapter)
++{	
++	_irqL	irqL;
++	_list		*plist, *phead;
++	unsigned char category, action;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char				*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short			*fctrl;
++	struct	wlan_network	*pnetwork = NULL;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	_queue		*queue	= &(pmlmepriv->scanned_queue);
++	u8 InfoContent[16] = {0};
++	u8 ICS[8][15];
++	
++	if((pmlmepriv->num_FortyMHzIntolerant==0) || (pmlmepriv->num_sta_no_ht==0))
++		return;
++
++	if(_TRUE == pmlmeinfo->bwmode_updated)
++		return;
++	
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++
++	category = RTW_WLAN_CATEGORY_PUBLIC;
++	action = ACT_PUBLIC_BSSCOEXIST;
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++
++
++	//
++	if(pmlmepriv->num_FortyMHzIntolerant>0)
++	{
++		u8 iedata=0;
++		
++		iedata |= BIT(2);//20 MHz BSS Width Request
++
++		pframe = rtw_set_ie(pframe, EID_BSSCoexistence,  1, &iedata, &(pattrib->pktlen));
++		
++	}
++	
++
++	//
++	_rtw_memset(ICS, 0, sizeof(ICS));
++	if(pmlmepriv->num_sta_no_ht>0)
++	{	
++		int i;
++	
++		_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++		phead = get_list_head(queue);
++		plist = get_next(phead);
++       
++		while(1)
++		{
++			int len;
++			u8 *p;
++			WLAN_BSSID_EX *pbss_network;
++	
++			if (rtw_end_of_queue_search(phead,plist)== _TRUE)
++				break;		
++
++			pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);      
++		
++			plist = get_next(plist);
++
++			pbss_network = (WLAN_BSSID_EX *)&pnetwork->network;
++
++			p = rtw_get_ie(pbss_network->IEs + _FIXED_IE_LENGTH_, _HT_CAPABILITY_IE_, &len, pbss_network->IELength - _FIXED_IE_LENGTH_);
++			if((p==NULL) || (len==0))//non-HT
++			{
++				if((pbss_network->Configuration.DSConfig<=0) || (pbss_network->Configuration.DSConfig>14))
++					continue;
++				
++				ICS[0][pbss_network->Configuration.DSConfig]=1;
++				
++				if(ICS[0][0] == 0)
++					ICS[0][0] = 1;		
++			}		
++	
++		}        
++
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++
++		for(i= 0;i<8;i++)
++		{
++			if(ICS[i][0] == 1)
++			{
++				int j, k = 0;
++				
++				InfoContent[k] = i;				
++				//SET_BSS_INTOLERANT_ELE_REG_CLASS(InfoContent,i);
++				k++;
++				
++				for(j=1;j<=14;j++)
++				{
++					if(ICS[i][j]==1)
++					{
++						if(k<16)
++						{
++							InfoContent[k] = j; //channel number
++							//SET_BSS_INTOLERANT_ELE_CHANNEL(InfoContent+k, j);
++							k++;
++						}	
++					}	
++				}	
++
++				pframe = rtw_set_ie(pframe, EID_BSSIntolerantChlReport, k, InfoContent, &(pattrib->pktlen));
++				
++			}
++			
++		}
++		
++
++	}
++		
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++}
++
++unsigned int send_delba(_adapter *padapter, u8 initiator, u8 *addr)
++{
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta = NULL;
++	//struct recv_reorder_ctrl *preorder_ctrl;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u16 tid;
++
++	if((pmlmeinfo->state&0x03) != WIFI_FW_AP_STATE)	
++		if (!(pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS))
++			return _SUCCESS;
++	
++	psta = rtw_get_stainfo(pstapriv, addr);
++	if(psta==NULL)
++		return _SUCCESS;
++
++	//DBG_871X("%s:%s\n", __FUNCTION__, (initiator==0)?"RX_DIR":"TX_DIR");
++	
++	if(initiator==0) // recipient
++	{
++		for(tid = 0;tid<MAXTID;tid++)
++		{
++			if(psta->recvreorder_ctrl[tid].enable == _TRUE)
++			{
++				DBG_871X("rx agg disable tid(%d)\n",tid);
++				issue_action_BA(padapter, addr, RTW_WLAN_ACTION_DELBA, (((tid <<1) |initiator)&0x1F));
++				psta->recvreorder_ctrl[tid].enable = _FALSE;
++				psta->recvreorder_ctrl[tid].indicate_seq = 0xffff;
++				#ifdef DBG_RX_SEQ
++				DBG_871X("DBG_RX_SEQ %s:%d indicate_seq:%u \n", __FUNCTION__, __LINE__,
++					psta->recvreorder_ctrl[tid].indicate_seq);
++				#endif
++			}		
++		}
++	}
++	else if(initiator == 1)// originator
++	{
++		//DBG_871X("tx agg_enable_bitmap(0x%08x)\n", psta->htpriv.agg_enable_bitmap);
++		for(tid = 0;tid<MAXTID;tid++)
++		{
++			if(psta->htpriv.agg_enable_bitmap & BIT(tid))
++			{
++				DBG_871X("tx agg disable tid(%d)\n",tid);
++				issue_action_BA(padapter, addr, RTW_WLAN_ACTION_DELBA, (((tid <<1) |initiator)&0x1F) );
++				psta->htpriv.agg_enable_bitmap &= ~BIT(tid);
++				psta->htpriv.candidate_tid_bitmap &= ~BIT(tid);
++				
++			}			
++		}
++	}
++	
++	return _SUCCESS;
++	
++}
++
++unsigned int send_beacon(_adapter *padapter)
++{
++	u8	bxmitok = _FALSE;
++	int	issue=0;
++	int poll = 0;
++//#ifdef CONFIG_CONCURRENT_MODE
++	//struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	//struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	//_adapter *pbuddy_adapter = padapter->pbuddy_adapter;
++	//struct mlme_priv *pbuddy_mlmepriv = &(pbuddy_adapter->mlmepriv);
++//#endif		
++
++#ifdef CONFIG_PCI_HCI
++
++	//DBG_871X("%s\n", __FUNCTION__);
++
++	issue_beacon(padapter);
++
++	return _SUCCESS;
++
++#endif
++
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	u32 start = rtw_get_current_time();
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_BCN_VALID, NULL);
++	do{
++		issue_beacon(padapter);
++		issue++;
++		do {
++			rtw_yield_os();
++			rtw_hal_get_hwreg(padapter, HW_VAR_BCN_VALID, (u8 *)(&bxmitok));
++			poll++;
++		}while((poll%10)!=0 && _FALSE == bxmitok && !padapter->bSurpriseRemoved && !padapter->bDriverStopped);
++
++	}while(_FALSE == bxmitok && issue<100 && !padapter->bSurpriseRemoved && !padapter->bDriverStopped);
++
++	if(padapter->bSurpriseRemoved || padapter->bDriverStopped)
++	{
++		return _FAIL;
++	}
++	if(_FALSE == bxmitok)
++	{
++		DBG_871X("%s fail! %u ms\n", __FUNCTION__, rtw_get_passing_time_ms(start));
++		return _FAIL;
++	}
++	else
++	{
++		u32 passing_time = rtw_get_passing_time_ms(start);
++
++		if(passing_time > 100 || issue > 3)
++			DBG_871X("%s success, issue:%d, poll:%d, %u ms\n", __FUNCTION__, issue, poll, rtw_get_passing_time_ms(start));
++		//else
++		//	DBG_871X("%s success, issue:%d, poll:%d, %u ms\n", __FUNCTION__, issue, poll, rtw_get_passing_time_ms(start));
++		
++		return _SUCCESS;
++	}
++
++#endif
++
++}
++
++/****************************************************************************
++
++Following are some utitity fuctions for WiFi MLME
++
++*****************************************************************************/
++
++BOOLEAN IsLegal5GChannel(
++	IN PADAPTER			Adapter,
++	IN u8			channel)
++{
++	
++	int i=0;
++	u8 Channel_5G[45] = {36,38,40,42,44,46,48,50,52,54,56,58,
++		60,62,64,100,102,104,106,108,110,112,114,116,118,120,122,
++		124,126,128,130,132,134,136,138,140,149,151,153,155,157,159,
++		161,163,165};
++	for(i=0;i<sizeof(Channel_5G);i++)
++		if(channel == Channel_5G[i])
++			return _TRUE;
++	return _FALSE;
++}
++
++void site_survey(_adapter *padapter)
++{
++	unsigned char		survey_channel = 0, val8;
++	RT_SCAN_TYPE	ScanType = SCAN_PASSIVE;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u32 initialgain = 0;
++	u8 restore_initial_gain = 1;
++
++#ifdef CONFIG_P2P
++
++#ifdef CONFIG_CONCURRENT_MODE
++
++#ifdef CONFIG_STA_MODE_SCAN_UNDER_AP_MODE
++	u8 stay_buddy_ch = 0;
++#endif //CONFIG_STA_MODE_SCAN_UNDER_AP_MODE
++
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	PADAPTER pbuddy_adapter = padapter->pbuddy_adapter;			
++	struct mlme_ext_priv *pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++
++#endif //CONFIG_CONCURRENT_MODE
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++	static unsigned char  prev_survey_channel = 0;
++	static unsigned int p2p_scan_count = 0;	
++
++
++	if ( ( pwdinfo->rx_invitereq_info.scan_op_ch_only ) || ( pwdinfo->p2p_info.scan_op_ch_only ) )
++	{
++		if ( pwdinfo->rx_invitereq_info.scan_op_ch_only )
++		{
++			survey_channel = pwdinfo->rx_invitereq_info.operation_ch[pmlmeext->sitesurvey_res.channel_idx];
++		}
++		else
++		{
++			survey_channel = pwdinfo->p2p_info.operation_ch[pmlmeext->sitesurvey_res.channel_idx];
++		}
++		ScanType = SCAN_ACTIVE;
++	}
++	else if(rtw_p2p_findphase_ex_is_social(pwdinfo))
++	{
++		//	Commented by Albert 2011/06/03
++		//	The driver is in the find phase, it should go through the social channel.
++		int ch_set_idx;
++		survey_channel = pwdinfo->social_chan[pmlmeext->sitesurvey_res.channel_idx];
++		ch_set_idx = rtw_ch_set_search_ch(pmlmeext->channel_set, survey_channel);
++		if (ch_set_idx >= 0)
++			ScanType = pmlmeext->channel_set[ch_set_idx].ScanType;
++		else
++			ScanType = SCAN_ACTIVE;
++	}
++	else
++#endif //CONFIG_P2P
++	{
++		struct rtw_ieee80211_channel *ch;
++		if (pmlmeext->sitesurvey_res.channel_idx < pmlmeext->sitesurvey_res.ch_num) {
++			ch = &pmlmeext->sitesurvey_res.ch[pmlmeext->sitesurvey_res.channel_idx];
++			survey_channel = ch->hw_value;
++			ScanType = (ch->flags & RTW_IEEE80211_CHAN_PASSIVE_SCAN) ? SCAN_PASSIVE : SCAN_ACTIVE;
++		}
++	}
++
++	if (0)
++	DBG_871X(FUNC_ADPT_FMT" ch:%u(cnt:%u,idx:%d) at %dms, %c%c%c\n"
++		, FUNC_ADPT_ARG(padapter)
++		, survey_channel
++		, pwdinfo->find_phase_state_exchange_cnt, pmlmeext->sitesurvey_res.channel_idx
++		, rtw_get_passing_time_ms(padapter->mlmepriv.scan_start_time)
++		, ScanType?'A':'P', pmlmeext->sitesurvey_res.scan_mode?'A':'P'
++		, pmlmeext->sitesurvey_res.ssid[0].SsidLength?'S':' ' 
++	);
++
++	if(survey_channel != 0)
++	{
++		//PAUSE 4-AC Queue when site_survey
++		//rtw_hal_get_hwreg(padapter, HW_VAR_TXPAUSE, (u8 *)(&val8));
++		//val8 |= 0x0f;
++		//rtw_hal_set_hwreg(padapter, HW_VAR_TXPAUSE, (u8 *)(&val8));
++#ifdef CONFIG_CONCURRENT_MODE
++#ifdef CONFIG_STA_MODE_SCAN_UNDER_AP_MODE
++		if((padapter->pbuddy_adapter->mlmeextpriv.mlmext_info.state&0x03) == WIFI_FW_AP_STATE)
++		{
++			if( pmlmeinfo->scan_cnt == RTW_SCAN_NUM_OF_CH )
++			{
++				pmlmeinfo->scan_cnt = 0;
++				survey_channel = pbuddy_mlmeext->cur_channel;
++				stay_buddy_ch = 1;
++			}
++			else 
++			{
++				if( pmlmeinfo->scan_cnt == 0 )
++					stay_buddy_ch = 2;
++				pmlmeinfo->scan_cnt++;
++			}
++		}
++#endif //CONFIG_STA_MODE_SCAN_UNDER_AP_MODE
++#endif //CONFIG_CONCURRENT_MODE
++		if(pmlmeext->sitesurvey_res.channel_idx == 0)
++		{
++			set_channel_bwmode(padapter, survey_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++		}
++		else
++		{
++			SelectChannel(padapter, survey_channel);
++		}
++
++#ifdef CONFIG_STA_MODE_SCAN_UNDER_AP_MODE
++		if( stay_buddy_ch == 1 )
++		{
++			val8 = 0; //survey done
++			rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++
++			if(check_buddy_mlmeinfo_state(padapter, WIFI_FW_AP_STATE) &&
++				check_buddy_fwstate(padapter, _FW_LINKED))
++			{
++				update_beacon(padapter->pbuddy_adapter, 0, NULL, _TRUE);
++			}
++		}
++		else if( stay_buddy_ch == 2 )
++		{
++			val8 = 1; //under site survey
++			rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++		}
++#endif //CONFIG_STA_MODE_SCAN_UNDER_AP_MODE
++
++		if(ScanType == SCAN_ACTIVE) //obey the channel plan setting...
++		{
++			#ifdef CONFIG_P2P
++			if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_SCAN) || 
++				rtw_p2p_chk_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH)
++			)
++			{
++				issue_probereq_p2p(padapter, NULL);
++				issue_probereq_p2p(padapter, NULL);
++				issue_probereq_p2p(padapter, NULL);
++			}
++			else
++			#endif //CONFIG_P2P
++			{
++				int i;
++				for(i=0;i<RTW_SSID_SCAN_AMOUNT;i++){
++					if(pmlmeext->sitesurvey_res.ssid[i].SsidLength) {
++						//todo: to issue two probe req???
++						issue_probereq(padapter, &(pmlmeext->sitesurvey_res.ssid[i]), NULL);
++						//rtw_msleep_os(SURVEY_TO>>1);
++						issue_probereq(padapter, &(pmlmeext->sitesurvey_res.ssid[i]), NULL);
++					} else {
++						break;
++					}
++				}
++
++				if(pmlmeext->sitesurvey_res.scan_mode == SCAN_ACTIVE) {
++					//todo: to issue two probe req???
++					issue_probereq(padapter, NULL, NULL);
++					//rtw_msleep_os(SURVEY_TO>>1);
++					issue_probereq(padapter, NULL, NULL);
++				}
++			}
++		}
++
++#ifdef CONFIG_STA_MODE_SCAN_UNDER_AP_MODE
++		if( stay_buddy_ch == 1 )
++			set_survey_timer(pmlmeext, pmlmeext->chan_scan_time * RTW_STAY_AP_CH_MILLISECOND );
++		else
++#endif //CONFIG_STA_MODE_SCAN_UNDER_AP_MODE
++			set_survey_timer(pmlmeext, pmlmeext->chan_scan_time);
++
++	}
++	else
++	{
++
++		//	channel number is 0 or this channel is not valid.
++
++#ifdef CONFIG_CONCURRENT_MODE
++		u8 cur_channel;
++		u8 cur_bwmode;
++		u8 cur_ch_offset;
++
++		if (rtw_get_ch_setting_union(padapter, &cur_channel, &cur_bwmode, &cur_ch_offset) != 0)
++		{
++			if (0)
++			DBG_871X(FUNC_ADPT_FMT" back to linked union - ch:%u, bw:%u, offset:%u\n",
++				FUNC_ADPT_ARG(padapter), cur_channel, cur_bwmode, cur_ch_offset);
++		}
++		#ifdef CONFIG_IOCTL_CFG80211
++		else if(padapter->pbuddy_adapter
++			&& pbuddy_adapter->wdinfo.driver_interface == DRIVER_CFG80211
++			&& wdev_to_priv(pbuddy_adapter->rtw_wdev)->p2p_enabled
++			&& rtw_p2p_chk_state(&pbuddy_adapter->wdinfo, P2P_STATE_LISTEN)
++			)
++		{
++			cur_channel = pbuddy_adapter->wdinfo.listen_channel;
++			cur_bwmode = pbuddy_mlmeext->cur_bwmode;
++			cur_ch_offset = pbuddy_mlmeext->cur_ch_offset;
++		}
++		#endif
++		else
++		{
++			cur_channel = pmlmeext->cur_channel;
++			cur_bwmode = pmlmeext->cur_bwmode;
++			cur_ch_offset = pmlmeext->cur_ch_offset;
++		}		
++#endif
++
++	
++#ifdef CONFIG_P2P
++		if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_SCAN) || rtw_p2p_chk_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH))
++		{
++			if( ( pwdinfo->rx_invitereq_info.scan_op_ch_only ) || ( pwdinfo->p2p_info.scan_op_ch_only ) )
++			{
++				//	Set the find_phase_state_exchange_cnt to P2P_FINDPHASE_EX_CNT.
++				//	This will let the following flow to run the scanning end.
++				rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_MAX);
++			}
++			#ifdef CONFIG_DBG_P2P
++			DBG_871X( "[%s] find phase exchange cnt = %d\n", __FUNCTION__, pwdinfo->find_phase_state_exchange_cnt );
++			#endif
++		}
++
++		if(rtw_p2p_findphase_ex_is_needed(pwdinfo))
++		{
++			//	Set the P2P State to the listen state of find phase and set the current channel to the listen channel
++			set_channel_bwmode(padapter, pwdinfo->listen_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_FIND_PHASE_LISTEN);
++			pmlmeext->sitesurvey_res.state = SCAN_DISABLE;
++
++			//turn on dynamic functions
++			Restore_DM_Func_Flag(padapter);
++			//Switch_DM_Func(padapter, DYNAMIC_FUNC_DIG|DYNAMIC_FUNC_HP|DYNAMIC_FUNC_SS, _TRUE);
++			
++			_set_timer( &pwdinfo->find_phase_timer, ( u32 ) ( ( u32 ) ( pwdinfo->listen_dwell ) * 100 ) );
++		}
++		else
++#endif //CONFIG_P2P
++		{
++
++#ifdef CONFIG_STA_MODE_SCAN_UNDER_AP_MODE
++			pmlmeinfo->scan_cnt = 0;
++#endif //CONFIG_DMP_STA_NODE_SCAN_UNDER_AP_MODE
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++			// 20100721:Interrupt scan operation here.
++			// For SW antenna diversity before link, it needs to switch to another antenna and scan again.
++			// It compares the scan result and select beter one to do connection.
++			if(rtw_hal_antdiv_before_linked(padapter))
++			{				
++				pmlmeext->sitesurvey_res.bss_cnt = 0;
++				pmlmeext->sitesurvey_res.channel_idx = -1;
++				pmlmeext->chan_scan_time = SURVEY_TO /2;			
++				set_survey_timer(pmlmeext, pmlmeext->chan_scan_time);
++				return;
++			}
++#endif
++
++#ifdef CONFIG_P2P
++			if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_SCAN) || rtw_p2p_chk_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH))
++			{
++			#ifdef CONFIG_CONCURRENT_MODE
++				if( pwdinfo->driver_interface == DRIVER_WEXT )
++				{
++					if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++					{
++						_set_timer( &pwdinfo->ap_p2p_switch_timer, 500 );
++					}
++				}
++				rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++			#else
++				rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++			#endif
++			}
++			rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_NONE);
++#endif //CONFIG_P2P
++			
++			pmlmeext->sitesurvey_res.state = SCAN_COMPLETE;
++
++			//switch back to the original channel
++			//SelectChannel(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset);
++
++			{
++#ifdef CONFIG_CONCURRENT_MODE
++				set_channel_bwmode(padapter, cur_channel, cur_ch_offset, cur_bwmode);
++#else
++#ifdef CONFIG_DUALMAC_CONCURRENT
++				dc_set_channel_bwmode_survey_done(padapter);
++#else
++				if( pwdinfo->driver_interface == DRIVER_WEXT )
++				{
++					if( rtw_p2p_chk_state(pwdinfo, P2P_STATE_LISTEN) )
++					{
++						set_channel_bwmode(padapter, pwdinfo->listen_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++					}
++					else
++						set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++				}
++				else if( pwdinfo->driver_interface == DRIVER_CFG80211 )
++				{
++					set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++				}
++#endif //CONFIG_DUALMAC_CONCURRENT
++#endif //CONFIG_CONCURRENT_MODE
++			}
++
++			//flush 4-AC Queue after site_survey
++			//val8 = 0;
++			//rtw_hal_set_hwreg(padapter, HW_VAR_TXPAUSE, (u8 *)(&val8));
++
++			val8 = 0; //survey done
++			rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++
++			//config MSR
++			Set_MSR(padapter, (pmlmeinfo->state & 0x3));
++
++
++#ifdef CONFIG_IOCTL_CFG80211
++			if((wdev_to_priv(padapter->rtw_wdev))->p2p_enabled == _TRUE)
++			{
++				restore_initial_gain = 0;
++			}
++#endif //CONFIG_IOCTL_CFG80211
++
++			if(restore_initial_gain == 1)
++			{
++				initialgain = 0xff; //restore RX GAIN
++				rtw_hal_set_hwreg(padapter, HW_VAR_INITIAL_GAIN, (u8 *)(&initialgain));	
++			}
++
++			//turn on dynamic functions
++			Restore_DM_Func_Flag(padapter);
++			//Switch_DM_Func(padapter, DYNAMIC_FUNC_DIG|DYNAMIC_FUNC_HP|DYNAMIC_FUNC_SS, _TRUE);
++
++			if (is_client_associated_to_ap(padapter) == _TRUE)
++			{
++				issue_nulldata(padapter, NULL, 0, 3, 500);
++				
++#ifdef CONFIG_CONCURRENT_MODE
++				if(is_client_associated_to_ap(padapter->pbuddy_adapter) == _TRUE)
++				{
++					DBG_871X("adapter is surveydone(buddy_adapter is linked), issue nulldata(pwrbit=0)\n");
++					
++					issue_nulldata(padapter->pbuddy_adapter, NULL, 0, 3, 500);
++				}
++#endif	
++			}
++#ifdef CONFIG_CONCURRENT_MODE
++			else if(is_client_associated_to_ap(padapter->pbuddy_adapter) == _TRUE)
++			{
++				issue_nulldata(padapter->pbuddy_adapter, NULL, 0, 3, 500);
++			}
++#endif	
++
++			report_surveydone_event(padapter);
++
++			pmlmeext->chan_scan_time = SURVEY_TO;
++			pmlmeext->sitesurvey_res.state = SCAN_DISABLE;
++
++			issue_action_BSSCoexistPacket(padapter);
++			issue_action_BSSCoexistPacket(padapter);
++			issue_action_BSSCoexistPacket(padapter);
++
++		}
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if(check_buddy_mlmeinfo_state(padapter, WIFI_FW_AP_STATE) &&
++			check_buddy_fwstate(padapter, _FW_LINKED))
++		{
++
++			DBG_871X("survey done, current CH=%d, BW=%d, offset=%d\n", cur_channel, cur_bwmode, cur_ch_offset);
++
++			DBG_871X("restart pbuddy_adapter's beacon\n");
++		
++			update_beacon(padapter->pbuddy_adapter, 0, NULL, _TRUE);
++		}
++#endif
++
++	}
++
++	return;
++
++}
++
++//collect bss info from Beacon and Probe response frames.
++u8 collect_bss_info(_adapter *padapter, union recv_frame *precv_frame, WLAN_BSSID_EX *bssid)
++{
++	int	i;
++	u32	len;
++	u8	*p;
++	u16	val16, subtype;
++	u8	*pframe = precv_frame->u.hdr.rx_data;
++	u32	packet_len = precv_frame->u.hdr.len;
++	struct registry_priv 	*pregistrypriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	len = packet_len - sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	if (len > MAX_IE_SZ)
++	{
++		//DBG_871X("IE too long for survey event\n");
++		return _FAIL;
++	}
++
++	_rtw_memset(bssid, 0, sizeof(WLAN_BSSID_EX));
++
++	subtype = GetFrameSubType(pframe);
++
++	if(subtype==WIFI_BEACON)
++		bssid->Reserved[0] = 1;
++	else
++		bssid->Reserved[0] = 0;
++		
++	bssid->Length = sizeof(WLAN_BSSID_EX) - MAX_IE_SZ + len;
++
++	//below is to copy the information element
++	bssid->IELength = len;
++	_rtw_memcpy(bssid->IEs, (pframe + sizeof(struct rtw_ieee80211_hdr_3addr)), bssid->IELength);
++
++	//get the signal strength
++	bssid->PhyInfo.SignalQuality = precv_frame->u.hdr.attrib.signal_qual;//in percentage 
++	bssid->PhyInfo.SignalStrength = precv_frame->u.hdr.attrib.signal_strength;//in percentage
++	bssid->Rssi = precv_frame->u.hdr.attrib.RecvSignalPower; // in dBM.raw data
++	
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	//rtw_hal_get_hwreg(padapter, HW_VAR_CURRENT_ANTENNA, (u8 *)(&bssid->PhyInfo.Optimum_antenna));
++	rtw_hal_get_def_var(padapter, HAL_DEF_CURRENT_ANTENNA,  &bssid->PhyInfo.Optimum_antenna);
++#endif
++
++	// checking SSID
++	if ((p = rtw_get_ie(bssid->IEs + _FIXED_IE_LENGTH_, _SSID_IE_, &len, bssid->IELength - _FIXED_IE_LENGTH_)) == NULL)
++	{
++		DBG_871X("marc: cannot find SSID for survey event\n");
++		return _FAIL;
++	}
++
++	if (*(p + 1))
++	{
++		if (len > NDIS_802_11_LENGTH_SSID)
++		{
++			DBG_871X("%s()-%d: IE too long (%d) for survey event\n", __FUNCTION__, __LINE__, len);
++			return _FAIL;
++		}
++		_rtw_memcpy(bssid->Ssid.Ssid, (p + 2), *(p + 1));
++		bssid->Ssid.SsidLength = *(p + 1);
++	}
++	else
++	{
++		bssid->Ssid.SsidLength = 0;
++	}
++
++	_rtw_memset(bssid->SupportedRates, 0, NDIS_802_11_LENGTH_RATES_EX);
++
++	//checking rate info...
++	i = 0;
++	p = rtw_get_ie(bssid->IEs + _FIXED_IE_LENGTH_, _SUPPORTEDRATES_IE_, &len, bssid->IELength - _FIXED_IE_LENGTH_);
++	if (p != NULL)
++	{
++		if (len > NDIS_802_11_LENGTH_RATES_EX)
++		{
++			DBG_871X("%s()-%d: IE too long (%d) for survey event\n", __FUNCTION__, __LINE__, len);
++			return _FAIL;
++		}
++		_rtw_memcpy(bssid->SupportedRates, (p + 2), len);
++		i = len;
++	}
++
++	p = rtw_get_ie(bssid->IEs + _FIXED_IE_LENGTH_, _EXT_SUPPORTEDRATES_IE_, &len, bssid->IELength - _FIXED_IE_LENGTH_);
++	if (p != NULL)
++	{
++		if (len > (NDIS_802_11_LENGTH_RATES_EX-i))
++		{
++			DBG_871X("%s()-%d: IE too long (%d) for survey event\n", __FUNCTION__, __LINE__, len);
++			return _FAIL;
++		}
++		_rtw_memcpy(bssid->SupportedRates + i, (p + 2), len);
++	}
++
++	//todo:
++#if 0
++	if (judge_network_type(bssid->SupportedRates, (len + i)) == WIRELESS_11B)
++	{
++		bssid->NetworkTypeInUse = Ndis802_11DS;
++	}
++	else
++#endif
++	{
++		bssid->NetworkTypeInUse = Ndis802_11OFDM24;
++	}
++
++	if (bssid->IELength < 12)
++		return _FAIL;
++
++	// Checking for DSConfig
++	p = rtw_get_ie(bssid->IEs + _FIXED_IE_LENGTH_, _DSSET_IE_, &len, bssid->IELength - _FIXED_IE_LENGTH_);
++
++	bssid->Configuration.DSConfig = 0;
++	bssid->Configuration.Length = 0;
++
++	if (p)
++	{
++		bssid->Configuration.DSConfig = *(p + 2);
++	}
++	else
++	{// In 5G, some ap do not have DSSET IE
++		// checking HT info for channel
++		p = rtw_get_ie(bssid->IEs + _FIXED_IE_LENGTH_, _HT_ADD_INFO_IE_, &len, bssid->IELength - _FIXED_IE_LENGTH_);
++		if(p)
++		{
++			struct HT_info_element *HT_info = (struct HT_info_element *)(p + 2);
++			bssid->Configuration.DSConfig = HT_info->primary_channel;
++		}
++		else
++		{ // use current channel
++			bssid->Configuration.DSConfig = rtw_get_oper_ch(padapter);
++		}
++	}
++
++	_rtw_memcpy(&bssid->Configuration.BeaconPeriod, rtw_get_beacon_interval_from_ie(bssid->IEs), 2);
++	bssid->Configuration.BeaconPeriod = le32_to_cpu(bssid->Configuration.BeaconPeriod);
++
++	val16 = rtw_get_capability((WLAN_BSSID_EX *)bssid);
++
++	if (val16 & BIT(0))
++	{
++		bssid->InfrastructureMode = Ndis802_11Infrastructure;
++		_rtw_memcpy(bssid->MacAddress, GetAddr2Ptr(pframe), ETH_ALEN);
++	}
++	else
++	{
++		bssid->InfrastructureMode = Ndis802_11IBSS;
++		_rtw_memcpy(bssid->MacAddress, GetAddr3Ptr(pframe), ETH_ALEN);
++	}
++
++	if (val16 & BIT(4))
++		bssid->Privacy = 1;
++	else
++		bssid->Privacy = 0;
++
++	bssid->Configuration.ATIMWindow = 0;
++
++	//20/40 BSS Coexistence check
++	if((pregistrypriv->wifi_spec==1) && (_FALSE == pmlmeinfo->bwmode_updated))
++	{	
++		struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++		
++		p = rtw_get_ie(bssid->IEs + _FIXED_IE_LENGTH_, _HT_CAPABILITY_IE_, &len, bssid->IELength - _FIXED_IE_LENGTH_);
++		if(p && len>0)
++		{
++			struct HT_caps_element	*pHT_caps;
++			pHT_caps = (struct HT_caps_element	*)(p + 2);
++			
++			if(pHT_caps->u.HT_cap_element.HT_caps_info&BIT(14))
++			{				
++				pmlmepriv->num_FortyMHzIntolerant++;
++			}
++		}
++		else
++		{
++			pmlmepriv->num_sta_no_ht++;
++		}
++		
++	}
++
++#ifdef CONFIG_INTEL_WIDI
++	//process_intel_widi_query_or_tigger(padapter, bssid);
++	if(process_intel_widi_query_or_tigger(padapter, bssid))
++	{
++		return _FAIL;
++	}
++#endif // CONFIG_INTEL_WIDI
++
++	#if defined(DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED) & 1
++	if(strcmp(bssid->Ssid.Ssid, DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED) == 0) {
++		DBG_871X("Receiving %s("MAC_FMT", DSConfig:%u) from ch%u with ss:%3u, sq:%3u, RawRSSI:%3ld\n"
++			, bssid->Ssid.Ssid, MAC_ARG(bssid->MacAddress), bssid->Configuration.DSConfig
++			, rtw_get_oper_ch(padapter)
++			, bssid->PhyInfo.SignalStrength, bssid->PhyInfo.SignalQuality, bssid->Rssi
++		);
++	}
++	#endif
++
++	// mark bss info receving from nearby channel as SignalQuality 101
++	if(bssid->Configuration.DSConfig != rtw_get_oper_ch(padapter))
++	{
++		bssid->PhyInfo.SignalQuality= 101;
++	}
++
++	return _SUCCESS;
++}
++
++void start_create_ibss(_adapter* padapter)
++{
++	unsigned short	caps;
++	u8	val8;
++	u8	join_type;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX*)(&(pmlmeinfo->network));
++	pmlmeext->cur_channel = (u8)pnetwork->Configuration.DSConfig;
++	pmlmeinfo->bcn_interval = get_beacon_interval(pnetwork);
++
++	//update wireless mode
++	update_wireless_mode(padapter);
++
++	//udpate capability
++	caps = rtw_get_capability((WLAN_BSSID_EX *)pnetwork);
++	update_capinfo(padapter, caps);
++	if(caps&cap_IBSS)//adhoc master
++	{
++		//set_opmode_cmd(padapter, adhoc);//removed
++
++		val8 = 0xcf;
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, (u8 *)(&val8));
++
++		//switch channel
++		//SelectChannel(padapter, pmlmeext->cur_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE);
++		set_channel_bwmode(padapter, pmlmeext->cur_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++
++		beacon_timing_control(padapter);
++
++		//set msr to WIFI_FW_ADHOC_STATE
++		pmlmeinfo->state = WIFI_FW_ADHOC_STATE;
++		Set_MSR(padapter, (pmlmeinfo->state & 0x3));
++
++		//issue beacon
++		if(send_beacon(padapter)==_FAIL)
++		{
++			RT_TRACE(_module_rtl871x_mlme_c_,_drv_err_,("issuing beacon frame fail....\n"));
++
++			report_join_res(padapter, -1);
++			pmlmeinfo->state = WIFI_FW_NULL_STATE;
++		}
++		else
++		{
++			rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, padapter->registrypriv.dev_network.MacAddress);
++			join_type = 0;
++			rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
++
++			report_join_res(padapter, 1);
++			pmlmeinfo->state |= WIFI_FW_ASSOC_SUCCESS;
++		}
++	}
++	else
++	{
++		DBG_871X("start_create_ibss, invalid cap:%x\n", caps);
++		return;
++	}
++
++}
++
++void start_clnt_join(_adapter* padapter)
++{
++	unsigned short	caps;
++	u8	val8;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX*)(&(pmlmeinfo->network));
++
++	//update wireless mode
++	update_wireless_mode(padapter);
++
++	//udpate capability
++	caps = rtw_get_capability((WLAN_BSSID_EX *)pnetwork);
++	update_capinfo(padapter, caps);
++	if (caps&cap_ESS)
++	{
++		Set_MSR(padapter, WIFI_FW_STATION_STATE);
++
++		val8 = (pmlmeinfo->auth_algo == dot11AuthAlgrthm_8021X)? 0xcc: 0xcf;
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, (u8 *)(&val8));
++
++		#ifdef CONFIG_DEAUTH_BEFORE_CONNECT
++		// Because of AP's not receiving deauth before
++		// AP may: 1)not response auth or 2)deauth us after link is complete
++		// issue deauth before issuing auth to deal with the situation
++
++		//	Commented by Albert 2012/07/21
++		//	For the Win8 P2P connection, it will be hard to have a successful connection if this Wi-Fi doesn't connect to it.
++		{
++			#ifdef CONFIG_P2P
++			_queue *queue = &(padapter->mlmepriv.scanned_queue);
++			_list	*head = get_list_head(queue);
++			_list *pos = get_next(head);
++			struct wlan_network *scanned = NULL;
++			u8 ie_offset = 0;
++			_irqL irqL;
++			bool has_p2p_ie = _FALSE;
++
++			_enter_critical_bh(&(padapter->mlmepriv.scanned_queue.lock), &irqL);
++
++			for (pos = get_next(head);!rtw_end_of_queue_search(head, pos); pos = get_next(pos)) {
++				
++				scanned = LIST_CONTAINOR(pos, struct wlan_network, list);
++				if(scanned==NULL)
++					rtw_warn_on(1);
++
++				if (_rtw_memcmp(&(scanned->network.Ssid), &(pnetwork->Ssid), sizeof(NDIS_802_11_SSID)) == _TRUE
++					&& _rtw_memcmp(scanned->network.MacAddress, pnetwork->MacAddress, sizeof(NDIS_802_11_MAC_ADDRESS)) == _TRUE
++				) {
++					ie_offset = (scanned->network.Reserved[0] == 2? 0:12);
++					if (rtw_get_p2p_ie(scanned->network.IEs+ie_offset, scanned->network.IELength-ie_offset, NULL, NULL))
++						has_p2p_ie = _TRUE;
++					break;
++				}
++			}
++	
++			_exit_critical_bh(&(padapter->mlmepriv.scanned_queue.lock), &irqL);
++
++			if (scanned == NULL || rtw_end_of_queue_search(head, pos) || has_p2p_ie == _FALSE)
++			#endif /* CONFIG_P2P */
++				issue_deauth_ex(padapter, pnetwork->MacAddress, WLAN_REASON_DEAUTH_LEAVING, 5, 100);
++		}
++		#endif /* CONFIG_DEAUTH_BEFORE_CONNECT */
++
++		//here wait for receiving the beacon to start auth
++		//and enable a timer
++		set_link_timer(pmlmeext, decide_wait_for_beacon_timeout(pmlmeinfo->bcn_interval));
++
++		pmlmeinfo->state = WIFI_FW_AUTH_NULL | WIFI_FW_STATION_STATE;
++	}
++	else if (caps&cap_IBSS) //adhoc client
++	{
++		Set_MSR(padapter, WIFI_FW_ADHOC_STATE);
++
++		val8 = 0xcf;
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, (u8 *)(&val8));
++
++		//switch channel
++		set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++
++		beacon_timing_control(padapter);
++
++		pmlmeinfo->state = WIFI_FW_ADHOC_STATE;
++
++		report_join_res(padapter, 1);
++	}
++	else
++	{
++		//DBG_871X("marc: invalid cap:%x\n", caps);
++		return;
++	}
++
++}
++
++void start_clnt_auth(_adapter* padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	_cancel_timer_ex(&pmlmeext->link_timer);
++
++	pmlmeinfo->state &= (~WIFI_FW_AUTH_NULL);
++	pmlmeinfo->state |= WIFI_FW_AUTH_STATE;
++
++	pmlmeinfo->auth_seq = 1;
++	pmlmeinfo->reauth_count = 0;
++	pmlmeinfo->reassoc_count = 0;
++	pmlmeinfo->link_count = 0;
++	pmlmeext->retry = 0;
++
++
++	issue_auth(padapter, NULL, 0);
++
++	set_link_timer(pmlmeext, REAUTH_TO);
++
++}
++
++
++void start_clnt_assoc(_adapter* padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	_cancel_timer_ex(&pmlmeext->link_timer);
++
++	pmlmeinfo->state &= (~(WIFI_FW_AUTH_NULL | WIFI_FW_AUTH_STATE));
++	pmlmeinfo->state |= (WIFI_FW_AUTH_SUCCESS | WIFI_FW_ASSOC_STATE);
++
++	issue_assocreq(padapter);
++
++	set_link_timer(pmlmeext, REASSOC_TO);
++}
++
++unsigned int receive_disconnect(_adapter *padapter, unsigned char *MacAddr, unsigned short reason)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	//check A3
++	if (!(_rtw_memcmp(MacAddr, get_my_bssid(&pmlmeinfo->network), ETH_ALEN)))
++		return _SUCCESS;
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	if((pmlmeinfo->state&0x03) == WIFI_FW_STATION_STATE)
++	{
++		if (pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)
++		{
++			pmlmeinfo->state = WIFI_FW_NULL_STATE;
++			report_del_sta_event(padapter, MacAddr, reason);
++
++		}
++		else if (pmlmeinfo->state & WIFI_FW_LINKING_STATE)
++		{
++			pmlmeinfo->state = WIFI_FW_NULL_STATE;
++			report_join_res(padapter, -2);
++		}
++	}
++
++	return _SUCCESS;
++}
++
++#ifdef CONFIG_80211D
++static void process_80211d(PADAPTER padapter, WLAN_BSSID_EX *bssid)
++{
++	struct registry_priv *pregistrypriv;
++	struct mlme_ext_priv *pmlmeext;
++	RT_CHANNEL_INFO *chplan_new;
++	u8 channel;
++	u8 i;
++
++
++	pregistrypriv = &padapter->registrypriv;
++	pmlmeext = &padapter->mlmeextpriv;
++
++	// Adjust channel plan by AP Country IE
++	if (pregistrypriv->enable80211d &&
++		(!pmlmeext->update_channel_plan_by_ap_done))
++	{
++		u8 *ie, *p;
++		u32 len;
++		RT_CHANNEL_PLAN chplan_ap;
++		RT_CHANNEL_INFO chplan_sta[MAX_CHANNEL_NUM];
++		u8 country[4];
++		u8 fcn; // first channel number
++		u8 noc; // number of channel
++		u8 j, k;
++
++		ie = rtw_get_ie(bssid->IEs + _FIXED_IE_LENGTH_, _COUNTRY_IE_, &len, bssid->IELength - _FIXED_IE_LENGTH_);
++		if (!ie) return;
++		if (len < 6) return;
++
++		ie += 2;
++		p = ie;
++		ie += len;
++
++		_rtw_memset(country, 0, 4);
++		_rtw_memcpy(country, p, 3);
++		p += 3;
++		RT_TRACE(_module_rtl871x_mlme_c_, _drv_notice_,
++				("%s: 802.11d country=%s\n", __FUNCTION__, country));
++
++		i = 0;
++		while ((ie - p) >= 3)
++		{
++			fcn = *(p++);
++			noc = *(p++);
++			p++;
++
++			for (j = 0; j < noc; j++)
++			{
++				if (fcn <= 14) channel = fcn + j; // 2.4 GHz
++				else channel = fcn + j*4; // 5 GHz
++
++				chplan_ap.Channel[i++] = channel;
++			}
++		}
++		chplan_ap.Len = i;
++
++#ifdef CONFIG_DEBUG_RTL871X
++#ifdef PLATFORM_LINUX
++		i = 0;
++		printk("%s: AP[%s] channel plan {", __func__, bssid->Ssid.Ssid);
++		while ((i < chplan_ap.Len) && (chplan_ap.Channel[i] != 0))
++		{
++			printk("%02d,", chplan_ap.Channel[i]);
++			i++;
++		}
++		printk("}\n");
++#endif
++#endif
++
++		_rtw_memcpy(chplan_sta, pmlmeext->channel_set, sizeof(chplan_sta));
++#ifdef CONFIG_DEBUG_RTL871X
++#ifdef PLATFORM_LINUX
++		i = 0;
++		printk("%s: STA channel plan {", __func__);
++		while ((i < MAX_CHANNEL_NUM) && (chplan_sta[i].ChannelNum != 0))
++		{
++			printk("%02d(%c),", chplan_sta[i].ChannelNum, chplan_sta[i].ScanType==SCAN_PASSIVE?'p':'a');
++			i++;
++		}
++		printk("}\n");
++#endif
++#endif
++
++		_rtw_memset(pmlmeext->channel_set, 0, sizeof(pmlmeext->channel_set));
++		chplan_new = pmlmeext->channel_set;
++
++		i = j = k = 0;
++		if (pregistrypriv->wireless_mode & WIRELESS_11G)
++		{
++			do {
++				if ((i == MAX_CHANNEL_NUM) ||
++					(chplan_sta[i].ChannelNum == 0) ||
++					(chplan_sta[i].ChannelNum > 14))
++					break;
++
++				if ((j == chplan_ap.Len) || (chplan_ap.Channel[j] > 14))
++					break;
++
++				if (chplan_sta[i].ChannelNum == chplan_ap.Channel[j])
++				{
++					chplan_new[k].ChannelNum = chplan_ap.Channel[j];
++					chplan_new[k].ScanType = SCAN_ACTIVE;
++					i++;
++					j++;
++					k++;
++				}
++				else if (chplan_sta[i].ChannelNum < chplan_ap.Channel[j])
++				{
++					chplan_new[k].ChannelNum = chplan_sta[i].ChannelNum;
++//					chplan_new[k].ScanType = chplan_sta[i].ScanType;
++					chplan_new[k].ScanType = SCAN_PASSIVE;
++					i++;
++					k++;
++				}
++				else if (chplan_sta[i].ChannelNum > chplan_ap.Channel[j])
++				{
++					chplan_new[k].ChannelNum = chplan_ap.Channel[j];
++					chplan_new[k].ScanType = SCAN_ACTIVE;
++					j++;
++					k++;
++				}
++			} while (1);
++
++			// change AP not support channel to Passive scan
++			while ((i < MAX_CHANNEL_NUM) &&
++				(chplan_sta[i].ChannelNum != 0) &&
++				(chplan_sta[i].ChannelNum <= 14))
++			{
++				chplan_new[k].ChannelNum = chplan_sta[i].ChannelNum;
++//				chplan_new[k].ScanType = chplan_sta[i].ScanType;
++				chplan_new[k].ScanType = SCAN_PASSIVE;
++				i++;
++				k++;
++			}
++
++			// add channel AP supported
++			while ((j < chplan_ap.Len) && (chplan_ap.Channel[j] <= 14))
++			{
++				chplan_new[k].ChannelNum = chplan_ap.Channel[j];
++				chplan_new[k].ScanType = SCAN_ACTIVE;
++				j++;
++				k++;
++			}
++		}
++		else
++		{
++			// keep original STA 2.4G channel plan
++			while ((i < MAX_CHANNEL_NUM) &&
++				(chplan_sta[i].ChannelNum != 0) &&
++				(chplan_sta[i].ChannelNum <= 14))
++			{
++				chplan_new[k].ChannelNum = chplan_sta[i].ChannelNum;
++				chplan_new[k].ScanType = chplan_sta[i].ScanType;
++				i++;
++				k++;
++			}
++
++			// skip AP 2.4G channel plan
++			while ((j < chplan_ap.Len) && (chplan_ap.Channel[j] <= 14))
++			{
++				j++;
++			}
++		}
++
++		if (pregistrypriv->wireless_mode & WIRELESS_11A)
++		{
++			do {
++				if ((i == MAX_CHANNEL_NUM) ||
++					(chplan_sta[i].ChannelNum == 0))
++					break;
++
++				if ((j == chplan_ap.Len) || (chplan_ap.Channel[j] == 0))
++					break;
++
++				if (chplan_sta[i].ChannelNum == chplan_ap.Channel[j])
++				{
++					chplan_new[k].ChannelNum = chplan_ap.Channel[j];
++					chplan_new[k].ScanType = SCAN_ACTIVE;
++					i++;
++					j++;
++					k++;
++				}
++				else if (chplan_sta[i].ChannelNum < chplan_ap.Channel[j])
++				{
++					chplan_new[k].ChannelNum = chplan_sta[i].ChannelNum;
++//					chplan_new[k].ScanType = chplan_sta[i].ScanType;
++					chplan_new[k].ScanType = SCAN_PASSIVE;
++					i++;
++					k++;
++				}
++				else if (chplan_sta[i].ChannelNum > chplan_ap.Channel[j])
++				{
++					chplan_new[k].ChannelNum = chplan_ap.Channel[j];
++					chplan_new[k].ScanType = SCAN_ACTIVE;
++					j++;
++					k++;
++				}
++			} while (1);
++
++			// change AP not support channel to Passive scan
++			while ((i < MAX_CHANNEL_NUM) && (chplan_sta[i].ChannelNum != 0))
++			{
++				chplan_new[k].ChannelNum = chplan_sta[i].ChannelNum;
++//				chplan_new[k].ScanType = chplan_sta[i].ScanType;
++				chplan_new[k].ScanType = SCAN_PASSIVE;
++				i++;
++				k++;
++			}
++
++			// add channel AP supported
++			while ((j < chplan_ap.Len) && (chplan_ap.Channel[j] != 0))
++			{
++				chplan_new[k].ChannelNum = chplan_ap.Channel[j];
++				chplan_new[k].ScanType = SCAN_ACTIVE;
++				j++;
++				k++;
++			}
++		}
++		else
++		{
++			// keep original STA 5G channel plan
++			while ((i < MAX_CHANNEL_NUM) && (chplan_sta[i].ChannelNum != 0))
++			{
++				chplan_new[k].ChannelNum = chplan_sta[i].ChannelNum;
++				chplan_new[k].ScanType = chplan_sta[i].ScanType;
++				i++;
++				k++;
++			}
++		}
++
++		pmlmeext->update_channel_plan_by_ap_done = 1;
++
++#ifdef CONFIG_DEBUG_RTL871X
++#ifdef PLATFORM_LINUX
++		k = 0;
++		printk("%s: new STA channel plan {", __func__);
++		while ((k < MAX_CHANNEL_NUM) && (chplan_new[k].ChannelNum != 0))
++		{
++			printk("%02d(%c),", chplan_new[k].ChannelNum, chplan_new[k].ScanType==SCAN_PASSIVE?'p':'c');
++			k++;
++		}
++		printk("}\n");
++#endif
++#endif
++
++#if 0
++		// recover the right channel index
++		channel = chplan_sta[pmlmeext->sitesurvey_res.channel_idx].ChannelNum;
++		k = 0;
++		while ((k < MAX_CHANNEL_NUM) && (chplan_new[k].ChannelNum != 0))
++		{
++			if (chplan_new[k].ChannelNum == channel) {
++				RT_TRACE(_module_rtl871x_mlme_c_, _drv_notice_,
++						 ("%s: change mlme_ext sitesurvey channel index from %d to %d\n",
++						  __FUNCTION__, pmlmeext->sitesurvey_res.channel_idx, k));
++				pmlmeext->sitesurvey_res.channel_idx = k;
++				break;
++			}
++			k++;
++		}
++#endif
++	}
++
++	// If channel is used by AP, set channel scan type to active
++	channel = bssid->Configuration.DSConfig;
++	chplan_new = pmlmeext->channel_set;
++	i = 0;
++	while ((i < MAX_CHANNEL_NUM) && (chplan_new[i].ChannelNum != 0))
++	{
++		if (chplan_new[i].ChannelNum == channel)
++		{
++			if (chplan_new[i].ScanType == SCAN_PASSIVE)
++			{
++				//5G Bnad 2, 3 (DFS) doesn't change to active scan
++				if(channel >= 52 && channel <= 144)
++					break;
++				
++				chplan_new[i].ScanType = SCAN_ACTIVE;
++				RT_TRACE(_module_rtl871x_mlme_c_, _drv_notice_,
++						 ("%s: change channel %d scan type from passive to active\n",
++						  __FUNCTION__, channel));
++			}
++			break;
++		}
++		i++;
++	}
++}
++#endif
++
++/****************************************************************************
++
++Following are the functions to report events
++
++*****************************************************************************/
++
++void report_survey_event(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct cmd_obj *pcmd_obj;
++	u8	*pevtcmd;
++	u32 cmdsz;
++	struct survey_event	*psurvey_evt;
++	struct C2HEvent_Header *pc2h_evt_hdr;
++	struct mlme_ext_priv *pmlmeext;
++	struct cmd_priv *pcmdpriv;
++	//u8 *pframe = precv_frame->u.hdr.rx_data;
++	//uint len = precv_frame->u.hdr.len;
++
++	if(!padapter)
++		return;
++
++	pmlmeext = &padapter->mlmeextpriv;
++	pcmdpriv = &padapter->cmdpriv;
++	
++
++	if ((pcmd_obj = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj))) == NULL)
++	{
++		return;
++	}
++
++	cmdsz = (sizeof(struct survey_event) + sizeof(struct C2HEvent_Header));
++	if ((pevtcmd = (u8*)rtw_zmalloc(cmdsz)) == NULL)
++	{
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		return;
++	}
++
++	_rtw_init_listhead(&pcmd_obj->list);
++
++	pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++	pcmd_obj->cmdsz = cmdsz;
++	pcmd_obj->parmbuf = pevtcmd;
++
++	pcmd_obj->rsp = NULL;
++	pcmd_obj->rspsz  = 0;
++
++	pc2h_evt_hdr = (struct C2HEvent_Header*)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct survey_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_Survey);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	psurvey_evt = (struct survey_event*)(pevtcmd + sizeof(struct C2HEvent_Header));
++
++	if (collect_bss_info(padapter, precv_frame, (WLAN_BSSID_EX *)&psurvey_evt->bss) == _FAIL)
++	{
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		rtw_mfree((u8 *)pevtcmd, cmdsz);
++		return;
++	}
++
++#ifdef CONFIG_80211D
++	process_80211d(padapter, &psurvey_evt->bss);
++#endif
++
++	rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++
++	pmlmeext->sitesurvey_res.bss_cnt++;
++
++	return;
++
++}
++
++void report_surveydone_event(_adapter *padapter)
++{
++	struct cmd_obj *pcmd_obj;
++	u8	*pevtcmd;
++	u32 cmdsz;
++	struct surveydone_event *psurveydone_evt;
++	struct C2HEvent_Header	*pc2h_evt_hdr;
++	struct mlme_ext_priv		*pmlmeext = &padapter->mlmeextpriv;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++
++	if ((pcmd_obj = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj))) == NULL)
++	{
++		return;
++	}
++
++	cmdsz = (sizeof(struct surveydone_event) + sizeof(struct C2HEvent_Header));
++	if ((pevtcmd = (u8*)rtw_zmalloc(cmdsz)) == NULL)
++	{
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		return;
++	}
++
++	_rtw_init_listhead(&pcmd_obj->list);
++
++	pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++	pcmd_obj->cmdsz = cmdsz;
++	pcmd_obj->parmbuf = pevtcmd;
++
++	pcmd_obj->rsp = NULL;
++	pcmd_obj->rspsz  = 0;
++
++	pc2h_evt_hdr = (struct C2HEvent_Header*)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct surveydone_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_SurveyDone);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	psurveydone_evt = (struct surveydone_event*)(pevtcmd + sizeof(struct C2HEvent_Header));
++	psurveydone_evt->bss_cnt = pmlmeext->sitesurvey_res.bss_cnt;
++
++	DBG_871X("survey done event(%x) band:%d for "ADPT_FMT"\n", psurveydone_evt->bss_cnt, padapter->setband, ADPT_ARG(padapter));
++
++	rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++
++	return;
++
++}
++
++void report_join_res(_adapter *padapter, int res)
++{
++	struct cmd_obj *pcmd_obj;
++	u8	*pevtcmd;
++	u32 cmdsz;
++	struct joinbss_event		*pjoinbss_evt;
++	struct C2HEvent_Header	*pc2h_evt_hdr;
++	struct mlme_ext_priv		*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++
++	if ((pcmd_obj = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj))) == NULL)
++	{
++		return;
++	}
++
++	cmdsz = (sizeof(struct joinbss_event) + sizeof(struct C2HEvent_Header));
++	if ((pevtcmd = (u8*)rtw_zmalloc(cmdsz)) == NULL)
++	{
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		return;
++	}
++
++	_rtw_init_listhead(&pcmd_obj->list);
++
++	pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++	pcmd_obj->cmdsz = cmdsz;
++	pcmd_obj->parmbuf = pevtcmd;
++
++	pcmd_obj->rsp = NULL;
++	pcmd_obj->rspsz  = 0;
++
++	pc2h_evt_hdr = (struct C2HEvent_Header*)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct joinbss_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_JoinBss);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	pjoinbss_evt = (struct joinbss_event*)(pevtcmd + sizeof(struct C2HEvent_Header));
++	_rtw_memcpy((unsigned char *)(&(pjoinbss_evt->network.network)), &(pmlmeinfo->network), sizeof(WLAN_BSSID_EX));
++	pjoinbss_evt->network.join_res 	= pjoinbss_evt->network.aid = res;
++
++	DBG_871X("report_join_res(%d)\n", res);
++	
++	
++	rtw_joinbss_event_prehandle(padapter, (u8 *)&pjoinbss_evt->network);
++	
++	
++	rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++
++	return;
++
++}
++
++void report_del_sta_event(_adapter *padapter, unsigned char* MacAddr, unsigned short reason)
++{
++	struct cmd_obj *pcmd_obj;
++	u8	*pevtcmd;
++	u32 cmdsz;
++	struct sta_info *psta;
++	int	mac_id;
++	struct stadel_event			*pdel_sta_evt;
++	struct C2HEvent_Header	*pc2h_evt_hdr;
++	struct mlme_ext_priv		*pmlmeext = &padapter->mlmeextpriv;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++
++	if ((pcmd_obj = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj))) == NULL)
++	{
++		return;
++	}
++
++	cmdsz = (sizeof(struct stadel_event) + sizeof(struct C2HEvent_Header));
++	if ((pevtcmd = (u8*)rtw_zmalloc(cmdsz)) == NULL)
++	{
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		return;
++	}
++
++	_rtw_init_listhead(&pcmd_obj->list);
++
++	pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++	pcmd_obj->cmdsz = cmdsz;
++	pcmd_obj->parmbuf = pevtcmd;
++
++	pcmd_obj->rsp = NULL;
++	pcmd_obj->rspsz  = 0;
++
++	pc2h_evt_hdr = (struct C2HEvent_Header*)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct stadel_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_DelSTA);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	pdel_sta_evt = (struct stadel_event*)(pevtcmd + sizeof(struct C2HEvent_Header));
++	_rtw_memcpy((unsigned char *)(&(pdel_sta_evt->macaddr)), MacAddr, ETH_ALEN);
++	_rtw_memcpy((unsigned char *)(pdel_sta_evt->rsvd),(unsigned char *)(&reason),2);
++
++
++	psta = rtw_get_stainfo(&padapter->stapriv, MacAddr);
++	if(psta)
++		mac_id = (int)psta->mac_id;	
++	else
++		mac_id = (-1);
++
++	pdel_sta_evt->mac_id = mac_id;
++
++	DBG_871X("report_del_sta_event: delete STA, mac_id=%d\n", mac_id);
++
++	rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++
++	return;
++}
++
++void report_add_sta_event(_adapter *padapter, unsigned char* MacAddr, int cam_idx)
++{
++	struct cmd_obj *pcmd_obj;
++	u8	*pevtcmd;
++	u32 cmdsz;
++	struct stassoc_event		*padd_sta_evt;
++	struct C2HEvent_Header	*pc2h_evt_hdr;
++	struct mlme_ext_priv		*pmlmeext = &padapter->mlmeextpriv;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++
++	if ((pcmd_obj = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj))) == NULL)
++	{
++		return;
++	}
++
++	cmdsz = (sizeof(struct stassoc_event) + sizeof(struct C2HEvent_Header));
++	if ((pevtcmd = (u8*)rtw_zmalloc(cmdsz)) == NULL)
++	{
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		return;
++	}
++
++	_rtw_init_listhead(&pcmd_obj->list);
++
++	pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++	pcmd_obj->cmdsz = cmdsz;
++	pcmd_obj->parmbuf = pevtcmd;
++
++	pcmd_obj->rsp = NULL;
++	pcmd_obj->rspsz  = 0;
++
++	pc2h_evt_hdr = (struct C2HEvent_Header*)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct stassoc_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_AddSTA);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	padd_sta_evt = (struct stassoc_event*)(pevtcmd + sizeof(struct C2HEvent_Header));
++	_rtw_memcpy((unsigned char *)(&(padd_sta_evt->macaddr)), MacAddr, ETH_ALEN);
++	padd_sta_evt->cam_id = cam_idx;
++
++	DBG_871X("report_add_sta_event: add STA\n");
++
++	rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++
++	return;
++}
++
++
++/****************************************************************************
++
++Following are the event callback functions
++
++*****************************************************************************/
++
++//for sta/adhoc mode
++void update_sta_info(_adapter *padapter, struct sta_info *psta)
++{
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	//ERP
++	VCS_update(padapter, psta);
++
++
++	//HT
++	if(pmlmepriv->htpriv.ht_option)
++	{
++		psta->htpriv.ht_option = _TRUE;
++
++		psta->htpriv.ampdu_enable = pmlmepriv->htpriv.ampdu_enable;
++
++		if (support_short_GI(padapter, &(pmlmeinfo->HT_caps)))
++			psta->htpriv.sgi = _TRUE;
++
++		psta->qos_option = _TRUE;
++		
++	}
++	else
++	{
++		psta->htpriv.ht_option = _FALSE;
++
++		psta->htpriv.ampdu_enable = _FALSE;
++		
++		psta->htpriv.sgi = _FALSE;
++
++		psta->qos_option = _FALSE;
++
++	}
++	
++	psta->htpriv.bwmode = pmlmeext->cur_bwmode;
++	psta->htpriv.ch_offset = pmlmeext->cur_ch_offset;
++	
++	psta->htpriv.agg_enable_bitmap = 0x0;//reset
++	psta->htpriv.candidate_tid_bitmap = 0x0;//reset
++	
++
++	//QoS
++	if(pmlmepriv->qospriv.qos_option)
++		psta->qos_option = _TRUE;
++	
++
++	psta->state = _FW_LINKED;
++
++}
++
++void mlmeext_joinbss_event_callback(_adapter *padapter, int join_res)
++{
++	struct sta_info		*psta, *psta_bmc;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX 		*cur_network = &(pmlmeinfo->network);
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	u8	join_type;
++
++	if(join_res < 0)
++	{
++		join_type = 1;
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
++		rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, null_addr);
++
++		//restore to initial setting.
++		update_tx_basic_rate(padapter, padapter->registrypriv.wireless_mode);
++#if 0 //temply remove
++#ifdef CONFIG_INTEL_WIDI
++#ifdef DBG_CONFIG_ERROR_DETECT
++		DBG_871X("%s(): do silentreset\n",__FUNCTION__);
++		rtw_hal_sreset_reset(padapter);
++#endif
++#endif
++#endif
++		goto exit_mlmeext_joinbss_event_callback;
++	}
++
++	if((pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE)
++	{
++		//for bc/mc
++		psta_bmc = rtw_get_bcmc_stainfo(padapter);
++		if(psta_bmc)
++		{
++			pmlmeinfo->FW_sta_info[psta_bmc->mac_id].psta = psta_bmc;
++			update_bmc_sta_support_rate(padapter, psta_bmc->mac_id);
++			Update_RA_Entry(padapter, psta_bmc->mac_id);
++		}
++	}
++
++
++	//turn on dynamic functions
++	Switch_DM_Func(padapter, DYNAMIC_FUNC_DIG|DYNAMIC_FUNC_HP|DYNAMIC_FUNC_SS, _TRUE);
++
++	// update IOT-releated issue
++	update_IOT_info(padapter);
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_BASIC_RATE, cur_network->SupportedRates);
++
++	//BCN interval
++	rtw_hal_set_hwreg(padapter, HW_VAR_BEACON_INTERVAL, (u8 *)(&pmlmeinfo->bcn_interval));
++
++	//udpate capability
++	update_capinfo(padapter, pmlmeinfo->capability);
++
++	//WMM, Update EDCA param
++	WMMOnAssocRsp(padapter);
++
++	//HT
++	HTOnAssocRsp(padapter);
++
++#ifndef CONFIG_CONCURRENT_MODE
++	//	Call set_channel_bwmode when the CONFIG_CONCURRENT_MODE doesn't be defined.
++	//Set cur_channel&cur_bwmode&cur_ch_offset
++	set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++#endif
++
++	psta = rtw_get_stainfo(pstapriv, cur_network->MacAddress);
++	if (psta) //only for infra. mode
++	{
++		pmlmeinfo->FW_sta_info[psta->mac_id].psta = psta;
++
++		//DBG_871X("set_sta_rate\n");
++	
++		//set per sta rate after updating HT cap.
++		set_sta_rate(padapter, psta);
++	}
++
++	join_type = 2;
++	rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
++
++	if((pmlmeinfo->state&0x03) == WIFI_FW_STATION_STATE)
++	{
++		// correcting TSF
++		correct_TSF(padapter, pmlmeext);
++	
++		//set_link_timer(pmlmeext, DISCONNECT_TO);
++	}
++
++#ifdef CONFIG_LPS
++	rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_CONNECT, 0);
++#endif
++
++exit_mlmeext_joinbss_event_callback:
++
++#ifdef CONFIG_DUALMAC_CONCURRENT
++	dc_handle_join_done(padapter, join_res);
++#endif
++#ifdef CONFIG_CONCURRENT_MODE
++	concurrent_chk_joinbss_done(padapter, join_res);
++#endif
++
++	DBG_871X("=>%s\n", __FUNCTION__);
++
++}
++
++void mlmeext_sta_add_event_callback(_adapter *padapter, struct sta_info *psta)
++{
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8	join_type;
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	if((pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE)
++	{
++		if(pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)//adhoc master or sta_count>1
++		{
++			//nothing to do
++		}
++		else//adhoc client
++		{
++			//update TSF Value
++			//update_TSF(pmlmeext, pframe, len);			
++
++			// correcting TSF
++			correct_TSF(padapter, pmlmeext);
++
++			//start beacon
++			if(send_beacon(padapter)==_FAIL)
++			{
++				pmlmeinfo->FW_sta_info[psta->mac_id].status = 0;
++
++				pmlmeinfo->state ^= WIFI_FW_ADHOC_STATE;
++
++				return;
++			}
++
++			pmlmeinfo->state |= WIFI_FW_ASSOC_SUCCESS;
++				
++		}
++
++		join_type = 2;
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
++	}
++
++	pmlmeinfo->FW_sta_info[psta->mac_id].psta = psta;
++
++	//rate radaptive
++	Update_RA_Entry(padapter, psta->mac_id);
++
++	//update adhoc sta_info
++	update_sta_info(padapter, psta);
++
++}
++
++void mlmeext_sta_del_event_callback(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (is_client_associated_to_ap(padapter) || is_IBSS_empty(padapter))
++	{
++		//set_opmode_cmd(padapter, infra_client_with_mlme);
++
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_DISCONNECT, 0);
++		rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, null_addr);
++
++		//restore to initial setting.
++		update_tx_basic_rate(padapter, padapter->registrypriv.wireless_mode);
++
++#ifdef CONFIG_DUALMAC_CONCURRENT
++		dc_set_channel_bwmode_disconnect(padapter);
++#else
++#ifdef CONFIG_CONCURRENT_MODE
++		if((check_buddy_fwstate(padapter, _FW_LINKED)) != _TRUE)
++		{
++#endif //CONFIG_CONCURRENT_MODE
++
++		//switch to the 20M Hz mode after disconnect
++		pmlmeext->cur_bwmode = HT_CHANNEL_WIDTH_20;
++		pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++		//SelectChannel(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset);
++		set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++	
++#ifdef CONFIG_CONCURRENT_MODE
++		}
++#endif //CONFIG_CONCURRENT_MODE
++#endif //CONFIG_DUALMAC_CONCURRENT
++
++		flush_all_cam_entry(padapter);
++
++		pmlmeinfo->state = WIFI_FW_NULL_STATE;
++
++		//set MSR to no link state -> infra. mode
++		Set_MSR(padapter, _HW_STATE_STATION_);
++
++		_cancel_timer_ex(&pmlmeext->link_timer);
++
++	}
++
++}
++
++/****************************************************************************
++
++Following are the functions for the timer handlers
++
++*****************************************************************************/
++void _linked_rx_signal_strehgth_display(_adapter *padapter);
++void _linked_rx_signal_strehgth_display(_adapter *padapter)
++{
++	int	UndecoratedSmoothedPWDB;
++	
++#ifdef CONFIG_CONCURRENT_MODE
++	PADAPTER pbuddy_adapter = padapter->pbuddy_adapter;
++	DBG_871X("============ pbuddy_adapter linked status check ===================\n");
++	DBG_871X("buddy_adapter_type=%d\n", pbuddy_adapter->adapter_type);
++	DBG_871X("pbuddy_adapter pathA Rx SNRdb:%d\n",pbuddy_adapter->recvpriv.RxSNRdB[0]);
++	DBG_871X("pbuddy_adapter pathA Rx PWDB:%d\n",pbuddy_adapter->recvpriv.rxpwdb);
++	DBG_871X("pbuddy_adapter pathA Rx RSSI:%d,pathB Rx RSSI:%d\n"
++	,pbuddy_adapter->recvpriv.RxRssi[0],pbuddy_adapter->recvpriv.RxRssi[1]);
++	rtw_hal_get_def_var(pbuddy_adapter, HAL_DEF_UNDERCORATEDSMOOTHEDPWDB, &UndecoratedSmoothedPWDB);
++	DBG_871X("pbuddy_adapter UndecoratedSmoothedPWDB:%d\n",UndecoratedSmoothedPWDB);
++	DBG_871X("Rx RSSI:%d\n",pbuddy_adapter->recvpriv.rssi);
++	DBG_871X("Rx Signal_strength:%d\n",pbuddy_adapter->recvpriv.signal_strength);
++	DBG_871X("Rx Signal_qual:%d \n",pbuddy_adapter->recvpriv.signal_qual);
++	DBG_871X("============ linked status check ===================\n");
++	DBG_871X("adapter_type=%d\n", padapter->adapter_type);
++#else //CONFIG_CONCURRENT_MODE
++	DBG_871X("============ linked status check ===================\n");
++#endif //CONFIG_CONCURRENT_MODE
++	DBG_871X("pathA Rx SNRdb:%d, pathB Rx SNRdb:%d\n",padapter->recvpriv.RxSNRdB[0], padapter->recvpriv.RxSNRdB[1]);
++	DBG_871X("pathA Rx PWDB:%d\n",padapter->recvpriv.rxpwdb);
++	DBG_871X("pathA Rx RSSI:%d,pathB Rx RSSI:%d\n",padapter->recvpriv.RxRssi[0],padapter->recvpriv.RxRssi[1]);
++	rtw_hal_get_def_var(padapter, HAL_DEF_UNDERCORATEDSMOOTHEDPWDB, &UndecoratedSmoothedPWDB);
++	DBG_871X("UndecoratedSmoothedPWDB:%d\n",UndecoratedSmoothedPWDB);
++	DBG_871X("Rx RSSI:%d\n",padapter->recvpriv.rssi);
++	DBG_871X("Rx Signal_strength:%d\n",padapter->recvpriv.signal_strength);
++	DBG_871X("Rx Signal_qual:%d \n",padapter->recvpriv.signal_qual);
++	if ( check_fwstate( &padapter->mlmepriv,  _FW_LINKED ))
++	{
++		DBG_871X("bw mode: %d, channel: %d\n", padapter->mlmeextpriv.cur_bwmode, padapter->mlmeextpriv.cur_channel );
++		DBG_871X("received bytes = %d\n", (u32) (padapter->recvpriv.rx_bytes - padapter->recvpriv.last_rx_bytes ) );
++	}
++	DBG_871X("============ linked status check ===================\n");
++	DBG_871X(" DIG PATH-A(0x%02x), PATH-B(0x%02x)\n",rtw_read8(padapter,0xc50),rtw_read8(padapter,0xc58));
++	DBG_871X(" OFDM -Alarm DA2(0x%04x),DA4(0x%04x),DA6(0x%04x),DA8(0x%04x)\n",
++		rtw_read16(padapter,0xDA2),rtw_read16(padapter,0xDA4),rtw_read16(padapter,0xDA6),rtw_read16(padapter,0xDA8));
++
++	DBG_871X(" CCK -Alarm A5B(0x%02x),A5C(0x%02x)\n",rtw_read8(padapter,0xA5B),rtw_read8(padapter,0xA5C));
++	DBG_871X(" FalseAlmCnt_all(%d)\n",padapter->recvpriv.FalseAlmCnt_all);
++	
++}
++
++u8 chk_ap_is_alive(_adapter *padapter, struct sta_info *psta)
++{
++	u8 ret = _FALSE;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	#ifdef DBG_EXPIRATION_CHK
++	DBG_871X(FUNC_ADPT_FMT" rx:"STA_PKTS_FMT", beacon:%llu, probersp_to_self:%llu"
++				/*", probersp_bm:%llu, probersp_uo:%llu, probereq:%llu, BI:%u"*/
++				", retry:%u\n"
++		, FUNC_ADPT_ARG(padapter)
++		, STA_RX_PKTS_DIFF_ARG(psta)
++		, psta->sta_stats.rx_beacon_pkts - psta->sta_stats.last_rx_beacon_pkts
++		, psta->sta_stats.rx_probersp_pkts - psta->sta_stats.last_rx_probersp_pkts
++		/*, psta->sta_stats.rx_probersp_bm_pkts - psta->sta_stats.last_rx_probersp_bm_pkts
++		, psta->sta_stats.rx_probersp_uo_pkts - psta->sta_stats.last_rx_probersp_uo_pkts
++		, psta->sta_stats.rx_probereq_pkts - psta->sta_stats.last_rx_probereq_pkts
++		, pmlmeinfo->bcn_interval*/
++		, pmlmeext->retry
++	);
++
++	DBG_871X(FUNC_ADPT_FMT" tx_pkts:%llu, link_count:%u\n", FUNC_ADPT_ARG(padapter)
++		, padapter->xmitpriv.tx_pkts
++		, pmlmeinfo->link_count
++	);
++	#endif
++
++	if((sta_rx_data_pkts(psta) == sta_last_rx_data_pkts(psta))
++		&& sta_rx_beacon_pkts(psta) == sta_last_rx_beacon_pkts(psta)
++		&& sta_rx_probersp_pkts(psta) == sta_last_rx_probersp_pkts(psta)
++	)
++	{
++		ret = _FALSE;
++	}
++	else
++	{
++		ret = _TRUE;
++	}
++
++	sta_update_last_rx_pkts(psta);
++
++	return ret;
++}
++
++void linked_status_chk(_adapter *padapter)
++{
++	u32	i;
++	struct sta_info		*psta;
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++
++	if(padapter->bRxRSSIDisplay)
++		 _linked_rx_signal_strehgth_display(padapter);
++
++	#ifdef DBG_CONFIG_ERROR_DETECT	
++	rtw_hal_sreset_linked_status_check(padapter);
++	#endif
++
++	if (is_client_associated_to_ap(padapter))
++	{
++		//linked infrastructure client mode
++
++		int tx_chk = _SUCCESS, rx_chk = _SUCCESS;
++		int rx_chk_limit;
++
++		#if defined(DBG_ROAMING_TEST)
++		rx_chk_limit = 1;
++		#elif defined(CONFIG_ACTIVE_KEEP_ALIVE_CHECK)
++		rx_chk_limit = 4;
++		#else
++		rx_chk_limit = 8;
++		#endif
++
++		// Marked by Kurt 20130715
++		// For WiDi 3.5 and later on, they don't ask WiDi sink to do roaming, so we could not check rx limit that strictly.
++		// todo: To check why rx_chk would be _FALSE under miracast session.
++		//#ifdef CONFIG_INTEL_WIDI
++		//if (padapter->mlmepriv.widi_state != INTEL_WIDI_STATE_NONE)
++		//	rx_chk_limit = 1;
++		//#endif
++		
++		if ((psta = rtw_get_stainfo(pstapriv, pmlmeinfo->network.MacAddress)) != NULL)
++		{
++			bool is_p2p_enable = _FALSE;
++			#ifdef CONFIG_P2P
++			is_p2p_enable = !rtw_p2p_chk_state(&padapter->wdinfo, P2P_STATE_NONE);
++			#endif
++			
++			if (chk_ap_is_alive(padapter, psta) == _FALSE)
++				rx_chk = _FAIL;
++
++			if (pxmitpriv->last_tx_pkts == pxmitpriv->tx_pkts)
++				tx_chk = _FAIL;
++
++			#ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++			if (pmlmeext->active_keep_alive_check && (rx_chk == _FAIL || tx_chk == _FAIL)) {
++				u8 backup_oper_channel=0;
++
++				/* switch to correct channel of current network  before issue keep-alive frames */
++				if (rtw_get_oper_ch(padapter) != pmlmeext->cur_channel) {
++					backup_oper_channel = rtw_get_oper_ch(padapter);
++					SelectChannel(padapter, pmlmeext->cur_channel);
++				}
++
++				if (rx_chk != _SUCCESS)
++					issue_probereq_ex(padapter, &pmlmeinfo->network.Ssid, psta->hwaddr, 3, 1);
++
++				if ((tx_chk != _SUCCESS && pmlmeinfo->link_count++ == 0xf) || rx_chk != _SUCCESS) {
++					tx_chk = issue_nulldata(padapter, psta->hwaddr, 0, 3, 1);
++					/* if tx acked and p2p disabled, set rx_chk _SUCCESS to reset retry count */
++					if (tx_chk == _SUCCESS && !is_p2p_enable)
++						rx_chk = _SUCCESS;
++				}
++
++				/* back to the original operation channel */
++				if(backup_oper_channel>0)
++					SelectChannel(padapter, backup_oper_channel);
++
++			}
++			else
++			#endif /* CONFIG_ACTIVE_KEEP_ALIVE_CHECK */
++			{
++				if (rx_chk != _SUCCESS) {
++					if (pmlmeext->retry == 0) {
++						#ifdef DBG_EXPIRATION_CHK
++						DBG_871X("issue_probereq to trigger probersp, retry=%d\n", pmlmeext->retry);
++						#endif
++						issue_probereq(padapter, &pmlmeinfo->network.Ssid, pmlmeinfo->network.MacAddress);
++						issue_probereq(padapter, &pmlmeinfo->network.Ssid, pmlmeinfo->network.MacAddress);
++						issue_probereq(padapter, &pmlmeinfo->network.Ssid, pmlmeinfo->network.MacAddress);
++					}
++				}
++
++				if (tx_chk != _SUCCESS && pmlmeinfo->link_count++ == 0xf) {
++					#ifdef DBG_EXPIRATION_CHK
++					DBG_871X("%s issue_nulldata 0\n", __FUNCTION__);
++					#endif
++					tx_chk = issue_nulldata(padapter, NULL, 0, 1, 0);
++				}
++			}
++
++			if (rx_chk == _FAIL) {
++				pmlmeext->retry++;
++				if (pmlmeext->retry > rx_chk_limit) {
++					DBG_871X(FUNC_ADPT_FMT" disconnect or roaming\n",
++						FUNC_ADPT_ARG(padapter));
++					receive_disconnect(padapter, pmlmeinfo->network.MacAddress
++						, WLAN_REASON_EXPIRATION_CHK);
++					return;
++				}
++			} else {
++				pmlmeext->retry = 0;
++			}
++
++			if (tx_chk == _FAIL) {
++				pmlmeinfo->link_count &= 0xf;
++			} else {
++				pxmitpriv->last_tx_pkts = pxmitpriv->tx_pkts;
++				pmlmeinfo->link_count = 0;
++			}
++
++		} //end of if ((psta = rtw_get_stainfo(pstapriv, passoc_res->network.MacAddress)) != NULL)
++	}
++	else if (is_client_associated_to_ibss(padapter))
++	{
++		//linked IBSS mode
++		//for each assoc list entry to check the rx pkt counter
++		for (i = IBSS_START_MAC_ID; i < NUM_STA; i++)
++		{
++			if (pmlmeinfo->FW_sta_info[i].status == 1)
++			{
++				psta = pmlmeinfo->FW_sta_info[i].psta;
++
++				if(NULL==psta) continue;
++
++				if (pmlmeinfo->FW_sta_info[i].rx_pkt == sta_rx_pkts(psta))
++				{
++
++					if(pmlmeinfo->FW_sta_info[i].retry<3)
++					{
++						pmlmeinfo->FW_sta_info[i].retry++;
++					}
++					else
++					{
++						pmlmeinfo->FW_sta_info[i].retry = 0;
++						pmlmeinfo->FW_sta_info[i].status = 0;
++						report_del_sta_event(padapter, psta->hwaddr
++							, 65535// indicate disconnect caused by no rx
++						);
++					}	
++				}
++				else
++				{
++					pmlmeinfo->FW_sta_info[i].retry = 0;
++					pmlmeinfo->FW_sta_info[i].rx_pkt = (u32)sta_rx_pkts(psta);
++				}
++			}
++		}
++
++		//set_link_timer(pmlmeext, DISCONNECT_TO);
++
++	}
++
++}
++
++void survey_timer_hdl(_adapter *padapter)
++{
++	struct cmd_obj	*ph2c;
++	struct sitesurvey_parm	*psurveyPara;
++	struct cmd_priv					*pcmdpriv=&padapter->cmdpriv;
++	struct mlme_ext_priv 		*pmlmeext = &padapter->mlmeextpriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++#endif
++
++	//DBG_871X("marc: survey timer\n");
++#ifdef PLATFORM_FREEBSD
++	rtw_mtx_lock(NULL);
++	 if (callout_pending(&padapter->mlmeextpriv.survey_timer.callout)) {
++		 /* callout was reset */
++		 //mtx_unlock(&sc->sc_mtx);
++		 rtw_mtx_unlock(NULL);
++		 return;
++	 }
++	 if (!callout_active(&padapter->mlmeextpriv.survey_timer.callout)) {
++		 /* callout was stopped */
++		 //mtx_unlock(&sc->sc_mtx);
++		 rtw_mtx_unlock(NULL);
++		 return;
++	 }
++	 callout_deactivate(&padapter->mlmeextpriv.survey_timer.callout);
++
++
++#endif
++
++	//issue rtw_sitesurvey_cmd
++	if (pmlmeext->sitesurvey_res.state > SCAN_START)
++	{
++		if(pmlmeext->sitesurvey_res.state ==  SCAN_PROCESS)
++		{
++#ifdef CONFIG_STA_MODE_SCAN_UNDER_AP_MODE
++			if( padapter->mlmeextpriv.mlmext_info.scan_cnt != RTW_SCAN_NUM_OF_CH )
++#endif //CONFIG_STA_MODE_SCAN_UNDER_AP_MODE
++				pmlmeext->sitesurvey_res.channel_idx++;
++		}
++
++		if(pmlmeext->scan_abort == _TRUE)
++		{
++			#ifdef CONFIG_P2P
++			if(!rtw_p2p_chk_state(&padapter->wdinfo, P2P_STATE_NONE))
++			{
++				rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_MAX);
++				pmlmeext->sitesurvey_res.channel_idx = 3;
++				DBG_871X("%s idx:%d, cnt:%u\n", __FUNCTION__
++					, pmlmeext->sitesurvey_res.channel_idx
++					, pwdinfo->find_phase_state_exchange_cnt
++				);
++			}
++			else
++			#endif
++			{
++				pmlmeext->sitesurvey_res.channel_idx = pmlmeext->sitesurvey_res.ch_num;
++				DBG_871X("%s idx:%d\n", __FUNCTION__
++					, pmlmeext->sitesurvey_res.channel_idx
++				);
++			}
++
++			pmlmeext->scan_abort = _FALSE;//reset
++		}
++
++		if ((ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj))) == NULL)
++		{
++			goto exit_survey_timer_hdl;
++		}
++
++		if ((psurveyPara = (struct sitesurvey_parm*)rtw_zmalloc(sizeof(struct sitesurvey_parm))) == NULL)
++		{
++			rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++			goto exit_survey_timer_hdl;
++		}
++
++		init_h2fwcmd_w_parm_no_rsp(ph2c, psurveyPara, GEN_CMD_CODE(_SiteSurvey));
++		rtw_enqueue_cmd(pcmdpriv, ph2c);
++	}
++
++
++exit_survey_timer_hdl:
++#ifdef PLATFORM_FREEBSD
++		rtw_mtx_unlock(NULL);
++#endif
++
++	return;
++}
++
++void link_timer_hdl(_adapter *padapter)
++{
++	//static unsigned int		rx_pkt = 0;
++	//static u64				tx_cnt = 0;
++	//struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	//struct sta_priv		*pstapriv = &padapter->stapriv;
++
++#ifdef PLATFORM_FREEBSD
++	rtw_mtx_lock(NULL);
++	 if (callout_pending(&padapter->mlmeextpriv.survey_timer.callout)) {
++		 /* callout was reset */
++		 //mtx_unlock(&sc->sc_mtx);
++		 rtw_mtx_unlock(NULL);
++		 return;
++	 }
++	 if (!callout_active(&padapter->mlmeextpriv.survey_timer.callout)) {
++		 /* callout was stopped */
++		 //mtx_unlock(&sc->sc_mtx);
++		 rtw_mtx_unlock(NULL);
++		 return;
++	 }
++	 callout_deactivate(&padapter->mlmeextpriv.survey_timer.callout);
++
++	
++#endif
++
++	if (pmlmeinfo->state & WIFI_FW_AUTH_NULL)
++	{
++		DBG_871X("link_timer_hdl:no beacon while connecting\n");
++		pmlmeinfo->state = WIFI_FW_NULL_STATE;
++		report_join_res(padapter, -3);
++	}
++	else if (pmlmeinfo->state & WIFI_FW_AUTH_STATE)
++	{
++		//re-auth timer
++		if (++pmlmeinfo->reauth_count > REAUTH_LIMIT)
++		{
++			//if (pmlmeinfo->auth_algo != dot11AuthAlgrthm_Auto)
++			//{
++				pmlmeinfo->state = 0;
++				report_join_res(padapter, -1);
++				return;
++			//}
++			//else
++			//{
++			//	pmlmeinfo->auth_algo = dot11AuthAlgrthm_Shared;
++			//	pmlmeinfo->reauth_count = 0;
++			//}
++		}
++		
++		DBG_871X("link_timer_hdl: auth timeout and try again\n");
++		pmlmeinfo->auth_seq = 1;
++		issue_auth(padapter, NULL, 0);
++		set_link_timer(pmlmeext, REAUTH_TO);
++	}
++	else if (pmlmeinfo->state & WIFI_FW_ASSOC_STATE)
++	{
++		//re-assoc timer
++		if (++pmlmeinfo->reassoc_count > REASSOC_LIMIT)
++		{
++			pmlmeinfo->state = WIFI_FW_NULL_STATE;
++			report_join_res(padapter, -2);
++			return;
++		}
++
++		DBG_871X("link_timer_hdl: assoc timeout and try again\n");
++		issue_assocreq(padapter);
++		set_link_timer(pmlmeext, REASSOC_TO);
++	}
++#if 0
++	else if (is_client_associated_to_ap(padapter))
++	{
++		//linked infrastructure client mode
++		if ((psta = rtw_get_stainfo(pstapriv, pmlmeinfo->network.MacAddress)) != NULL)
++		{
++			/*to monitor whether the AP is alive or not*/
++			if (rx_pkt == psta->sta_stats.rx_pkts)
++			{
++				receive_disconnect(padapter, pmlmeinfo->network.MacAddress);
++				return;
++			}
++			else
++			{
++				rx_pkt = psta->sta_stats.rx_pkts;
++				set_link_timer(pmlmeext, DISCONNECT_TO);
++			}
++
++			//update the EDCA paramter according to the Tx/RX mode
++			update_EDCA_param(padapter);
++
++			/*to send the AP a nulldata if no frame is xmitted in order to keep alive*/
++			if (pmlmeinfo->link_count++ == 0)
++			{
++				tx_cnt = pxmitpriv->tx_pkts;
++			}
++			else if ((pmlmeinfo->link_count & 0xf) == 0)
++			{
++				if (tx_cnt == pxmitpriv->tx_pkts)
++				{
++					issue_nulldata(padapter, NULL, 0, 0, 0);
++				}
++
++				tx_cnt = pxmitpriv->tx_pkts;
++			}
++		} //end of if ((psta = rtw_get_stainfo(pstapriv, passoc_res->network.MacAddress)) != NULL)
++	}
++	else if (is_client_associated_to_ibss(padapter))
++	{
++		//linked IBSS mode
++		//for each assoc list entry to check the rx pkt counter
++		for (i = IBSS_START_MAC_ID; i < NUM_STA; i++)
++		{
++			if (pmlmeinfo->FW_sta_info[i].status == 1)
++			{
++				psta = pmlmeinfo->FW_sta_info[i].psta;
++
++				if (pmlmeinfo->FW_sta_info[i].rx_pkt == psta->sta_stats.rx_pkts)
++				{
++					pmlmeinfo->FW_sta_info[i].status = 0;
++					report_del_sta_event(padapter, psta->hwaddr);
++				}
++				else
++				{
++					pmlmeinfo->FW_sta_info[i].rx_pkt = psta->sta_stats.rx_pkts;
++				}
++			}
++		}
++
++		set_link_timer(pmlmeext, DISCONNECT_TO);
++	}
++#endif
++
++#ifdef PLATFORM_FREEBSD
++	rtw_mtx_unlock(NULL);
++#endif
++
++	return;
++}
++
++void addba_timer_hdl(struct sta_info *psta)
++{
++	struct ht_priv	*phtpriv;
++
++	if(!psta)
++		return;
++	
++	phtpriv = &psta->htpriv;
++
++	if((phtpriv->ht_option==_TRUE) && (phtpriv->ampdu_enable==_TRUE)) 
++	{
++		if(phtpriv->candidate_tid_bitmap)
++			phtpriv->candidate_tid_bitmap=0x0;
++		
++	}
++}
++
++#ifdef CONFIG_IEEE80211W
++void sa_query_timer_hdl(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_priv * pmlmepriv = &padapter->mlmepriv;
++	_irqL irqL;
++	//disconnect
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++	{
++		rtw_disassoc_cmd(padapter, 0, _TRUE);
++		rtw_indicate_disconnect(padapter);
++		rtw_free_assoc_resources(padapter, 1);	
++	}
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++	DBG_871X("SA query timeout disconnect\n");
++}
++#endif //CONFIG_IEEE80211W
++
++u8 NULL_hdl(_adapter *padapter, u8 *pbuf)
++{
++	return H2C_SUCCESS;
++}
++
++#ifdef CONFIG_AUTO_AP_MODE
++void rtw_start_auto_ap(_adapter *adapter)
++{
++	DBG_871X("%s\n", __FUNCTION__);
++
++	rtw_set_802_11_infrastructure_mode(adapter, Ndis802_11APMode);
++
++	rtw_setopmode_cmd(adapter, Ndis802_11APMode);
++}
++
++static int rtw_auto_ap_start_beacon(_adapter *adapter)
++{
++	int ret=0;
++	u8 *pbuf = NULL;
++	uint len;
++	u8	supportRate[16];
++	int 	sz = 0, rateLen;
++	u8 *	ie;
++	u8	wireless_mode, oper_channel;
++	u8 ssid[3] = {0}; //hidden ssid
++	u32 ssid_len = sizeof(ssid);
++	struct mlme_priv *pmlmepriv = &(adapter->mlmepriv);
++
++
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++
++	len = 128;
++	pbuf = rtw_zmalloc(len);
++	if(!pbuf)
++		return -ENOMEM;
++
++
++	//generate beacon
++	ie = pbuf;
++
++	//timestamp will be inserted by hardware
++	sz += 8;
++	ie += sz;
++
++	//beacon interval : 2bytes
++	*(u16*)ie = cpu_to_le16((u16)100);//BCN_INTERVAL=100;
++	sz += 2;
++	ie += 2;
++
++	//capability info
++	*(u16*)ie = 0;
++	*(u16*)ie |= cpu_to_le16(cap_ESS);
++	*(u16*)ie |= cpu_to_le16(cap_ShortPremble);
++	//*(u16*)ie |= cpu_to_le16(cap_Privacy);
++	sz += 2;
++	ie += 2;
++
++	//SSID
++	ie = rtw_set_ie(ie, _SSID_IE_, ssid_len, ssid, &sz);
++
++	//supported rates
++	wireless_mode = WIRELESS_11BG_24N;
++	rtw_set_supported_rate(supportRate, wireless_mode) ;
++	rateLen = rtw_get_rateset_len(supportRate);
++	if (rateLen > 8)
++	{
++		ie = rtw_set_ie(ie, _SUPPORTEDRATES_IE_, 8, supportRate, &sz);
++	}
++	else
++	{
++		ie = rtw_set_ie(ie, _SUPPORTEDRATES_IE_, rateLen, supportRate, &sz);
++	}
++
++
++	//DS parameter set
++	if(check_buddy_fwstate(adapter, _FW_LINKED) &&
++		check_buddy_fwstate(adapter, WIFI_STATION_STATE))
++	{
++		PADAPTER pbuddy_adapter = adapter->pbuddy_adapter;
++		struct mlme_ext_priv *pbuddy_mlmeext  = &pbuddy_adapter->mlmeextpriv;
++
++		oper_channel = pbuddy_mlmeext->cur_channel;
++	}
++	else
++	{
++		oper_channel = adapter_to_dvobj(adapter)->oper_channel;
++	}
++	ie = rtw_set_ie(ie, _DSSET_IE_, 1, &oper_channel, &sz);
++
++	//ext supported rates
++	if (rateLen > 8)
++	{
++		ie = rtw_set_ie(ie, _EXT_SUPPORTEDRATES_IE_, (rateLen - 8), (supportRate + 8), &sz);
++	}
++
++	DBG_871X("%s, start auto ap beacon sz=%d\n", __FUNCTION__, sz);
++
++	//lunch ap mode & start to issue beacon
++	if(rtw_check_beacon_data(adapter, pbuf,  sz) == _SUCCESS)
++	{
++
++	}
++	else
++	{
++		ret = -EINVAL;
++	}
++
++
++	rtw_mfree(pbuf, len);
++
++	return ret;
++
++}
++#endif//CONFIG_AUTO_AP_MODE
++
++u8 setopmode_hdl(_adapter *padapter, u8 *pbuf)
++{
++	u8	type;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct setopmode_parm *psetop = (struct setopmode_parm *)pbuf;
++
++	if(psetop->mode == Ndis802_11APMode)
++	{
++		pmlmeinfo->state = WIFI_FW_AP_STATE;
++		type = _HW_STATE_AP_;
++#ifdef CONFIG_NATIVEAP_MLME
++		//start_ap_mode(padapter);
++#endif
++	}
++	else if(psetop->mode == Ndis802_11Infrastructure)
++	{
++		pmlmeinfo->state &= ~(BIT(0)|BIT(1));// clear state
++		pmlmeinfo->state |= WIFI_FW_STATION_STATE;//set to 	STATION_STATE
++		type = _HW_STATE_STATION_;
++	}
++	else if(psetop->mode == Ndis802_11IBSS)
++	{
++		type = _HW_STATE_ADHOC_;
++	}
++	else
++	{
++		type = _HW_STATE_NOLINK_;
++	}
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_SET_OPMODE, (u8 *)(&type));
++	//Set_NETYPE0_MSR(padapter, type);
++
++#ifdef CONFIG_AUTO_AP_MODE
++	if(psetop->mode == Ndis802_11APMode)
++		rtw_auto_ap_start_beacon(padapter);
++#endif
++
++	return H2C_SUCCESS;
++	
++}
++
++u8 createbss_hdl(_adapter *padapter, u8 *pbuf)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX	*pnetwork = (WLAN_BSSID_EX*)(&(pmlmeinfo->network));
++	struct joinbss_parm *pparm = (struct joinbss_parm *)pbuf;
++	u32	initialgain;
++
++	
++	if(pparm->network.InfrastructureMode == Ndis802_11APMode)
++	{
++#ifdef CONFIG_AP_MODE
++	
++		if(pmlmeinfo->state == WIFI_FW_AP_STATE)
++		{		
++			//todo:
++			return H2C_SUCCESS;		
++		}		
++#endif
++	}
++
++	//below is for ad-hoc master
++	if(pparm->network.InfrastructureMode == Ndis802_11IBSS)
++	{
++		rtw_joinbss_reset(padapter);
++	
++		pmlmeext->cur_bwmode = HT_CHANNEL_WIDTH_20;
++		pmlmeext->cur_ch_offset= HAL_PRIME_CHNL_OFFSET_DONT_CARE;	
++		pmlmeinfo->ERP_enable = 0;
++		pmlmeinfo->WMM_enable = 0;
++		pmlmeinfo->HT_enable = 0;
++		pmlmeinfo->HT_caps_enable = 0;
++		pmlmeinfo->HT_info_enable = 0;
++		pmlmeinfo->agg_enable_bitmap = 0;
++		pmlmeinfo->candidate_tid_bitmap = 0;
++
++		//disable dynamic functions, such as high power, DIG
++		Save_DM_Func_Flag(padapter);
++		Switch_DM_Func(padapter, DYNAMIC_FUNC_DISABLE, _FALSE);
++
++		//config the initial gain under linking, need to write the BB registers
++		initialgain = 0x1E;
++		rtw_hal_set_hwreg(padapter, HW_VAR_INITIAL_GAIN, (u8 *)(&initialgain));
++
++		//cancel link timer 
++		_cancel_timer_ex(&pmlmeext->link_timer);
++
++		//clear CAM
++		flush_all_cam_entry(padapter);	
++
++		_rtw_memcpy(pnetwork, pbuf, FIELD_OFFSET(WLAN_BSSID_EX, IELength)); 
++		pnetwork->IELength = ((WLAN_BSSID_EX *)pbuf)->IELength;
++
++		if(pnetwork->IELength>MAX_IE_SZ)//Check pbuf->IELength
++			return H2C_PARAMETERS_ERROR;
++
++		_rtw_memcpy(pnetwork->IEs, ((WLAN_BSSID_EX *)pbuf)->IEs, pnetwork->IELength);
++	
++		start_create_ibss(padapter);
++
++	}	
++
++	return H2C_SUCCESS;
++
++}
++
++u8 join_cmd_hdl(_adapter *padapter, u8 *pbuf)
++{
++	u8	join_type;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX*)(&(pmlmeinfo->network));
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	struct joinbss_parm	*pparm = (struct joinbss_parm *)pbuf;
++#endif //CONFIG_ANTENNA_DIVERSITY
++	u32	initialgain, i;
++	u8 cbw40_enable=0;
++	//u32	acparm;
++
++	//check already connecting to AP or not
++	if (pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)
++	{
++		if (pmlmeinfo->state & WIFI_FW_STATION_STATE)
++		{
++			issue_deauth_ex(padapter, pnetwork->MacAddress, WLAN_REASON_DEAUTH_LEAVING, 5, 100);
++		}
++
++		pmlmeinfo->state = WIFI_FW_NULL_STATE;
++		
++		//clear CAM
++		flush_all_cam_entry(padapter);		
++		
++		_cancel_timer_ex(&pmlmeext->link_timer);
++		
++		//set MSR to nolink -> infra. mode		
++		//Set_MSR(padapter, _HW_STATE_NOLINK_);
++		Set_MSR(padapter, _HW_STATE_STATION_);	
++		
++
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_DISCONNECT, 0);
++	}
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	rtw_antenna_select_cmd(padapter, pparm->network.PhyInfo.Optimum_antenna, _FALSE);
++#endif
++
++	rtw_joinbss_reset(padapter);
++	
++	pmlmeext->cur_bwmode = HT_CHANNEL_WIDTH_20;
++	pmlmeext->cur_ch_offset= HAL_PRIME_CHNL_OFFSET_DONT_CARE;	
++	pmlmeinfo->ERP_enable = 0;
++	pmlmeinfo->WMM_enable = 0;
++	pmlmeinfo->HT_enable = 0;
++	pmlmeinfo->HT_caps_enable = 0;
++	pmlmeinfo->HT_info_enable = 0;
++	pmlmeinfo->agg_enable_bitmap = 0;
++	pmlmeinfo->candidate_tid_bitmap = 0;
++	pmlmeinfo->bwmode_updated = _FALSE;
++	//pmlmeinfo->assoc_AP_vendor = maxAP;
++
++	_rtw_memcpy(pnetwork, pbuf, FIELD_OFFSET(WLAN_BSSID_EX, IELength)); 
++	pnetwork->IELength = ((WLAN_BSSID_EX *)pbuf)->IELength;
++	
++	if(pnetwork->IELength>MAX_IE_SZ)//Check pbuf->IELength
++		return H2C_PARAMETERS_ERROR;	
++		
++	_rtw_memcpy(pnetwork->IEs, ((WLAN_BSSID_EX *)pbuf)->IEs, pnetwork->IELength); 
++
++	pmlmeext->cur_channel = (u8)pnetwork->Configuration.DSConfig;
++	pmlmeinfo->bcn_interval = get_beacon_interval(pnetwork);
++
++	//Check AP vendor to move rtw_joinbss_cmd()
++	//pmlmeinfo->assoc_AP_vendor = check_assoc_AP(pnetwork->IEs, pnetwork->IELength);
++
++	for (i = sizeof(NDIS_802_11_FIXED_IEs); i < pnetwork->IELength;)
++	{
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pnetwork->IEs + i);
++
++		switch (pIE->ElementID)
++		{
++			case _VENDOR_SPECIFIC_IE_://Get WMM IE.
++				if ( _rtw_memcmp(pIE->data, WMM_OUI, 4) )
++				{
++					pmlmeinfo->WMM_enable = 1;
++				}
++				break;
++
++			case _HT_CAPABILITY_IE_:	//Get HT Cap IE.
++				pmlmeinfo->HT_caps_enable = 1;
++				break;
++
++			case _HT_EXTRA_INFO_IE_:	//Get HT Info IE.
++				pmlmeinfo->HT_info_enable = 1;
++
++				//spec case only for cisco's ap because cisco's ap issue assoc rsp using mcs rate @40MHz or @20MHz	
++//#if !defined(CONFIG_CONCURRENT_MODE) && !defined(CONFIG_DUALMAC_CONCURRENT)
++//				if(pmlmeinfo->assoc_AP_vendor == ciscoAP)
++//#endif
++				{				
++					struct HT_info_element *pht_info = (struct HT_info_element *)(pIE->data);
++							
++					if( pnetwork->Configuration.DSConfig > 14 )
++					{
++						if( pregpriv->cbw40_enable & BIT(1) )
++							cbw40_enable = 1;
++					}
++					else
++						if( pregpriv->cbw40_enable & BIT(0) )
++							cbw40_enable = 1;
++						
++					if ((cbw40_enable) &&	 (pht_info->infos[0] & BIT(2)))
++					{
++						//switch to the 40M Hz mode according to the AP
++						pmlmeext->cur_bwmode = HT_CHANNEL_WIDTH_40;
++						switch (pht_info->infos[0] & 0x3)
++						{
++							case 1:
++								pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++								break;
++			
++							case 3:
++								pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++								break;
++				
++							default:
++								pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++								break;
++						}
++
++						DBG_871X("set ch/bw before connected\n");
++					}
++				}
++				break;
++
++			default:
++				break;
++		}
++
++		i += (pIE->Length + 2);
++	}
++#if 0
++	if (padapter->registrypriv.wifi_spec) {
++		// for WiFi test, follow WMM test plan spec
++		acparm = 0x002F431C; // VO
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VO, (u8 *)(&acparm));
++		acparm = 0x005E541C; // VI
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VI, (u8 *)(&acparm));
++		acparm = 0x0000A525; // BE
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acparm));
++		acparm = 0x0000A549; // BK
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BK, (u8 *)(&acparm));
++	
++		// for WiFi test, mixed mode with intel STA under bg mode throughput issue
++		if (padapter->mlmepriv.htpriv.ht_option == _FALSE){
++			acparm = 0x00004320;
++			rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acparm));
++		}
++	}
++	else {
++		acparm = 0x002F3217; // VO
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VO, (u8 *)(&acparm));
++		acparm = 0x005E4317; // VI
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VI, (u8 *)(&acparm));
++		acparm = 0x00105320; // BE
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acparm));
++		acparm = 0x0000A444; // BK
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BK, (u8 *)(&acparm));
++	}
++#endif
++
++	/* check channel, bandwidth, offset and switch */
++#ifdef CONFIG_DUALMAC_CONCURRENT
++	if(dc_handle_join_request(padapter) == _FAIL) {
++		DBG_871X("dc_handle_join_request fail !!!\n");
++		return H2C_SUCCESS;
++	}
++	set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++#else //NON CONFIG_DUALMAC_CONCURRENT
++	if(rtw_chk_start_clnt_join(padapter) == _FAIL) {
++		report_join_res(padapter, (-4));
++		return H2C_SUCCESS;
++	}
++#endif
++
++	//disable dynamic functions, such as high power, DIG
++	//Switch_DM_Func(padapter, DYNAMIC_FUNC_DISABLE, _FALSE);
++
++	//config the initial gain under linking, need to write the BB registers
++	
++	initialgain = 0x1E;
++	rtw_hal_set_hwreg(padapter, HW_VAR_INITIAL_GAIN, (u8 *)(&initialgain));
++	
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, pmlmeinfo->network.MacAddress);
++	join_type = 0;
++	rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
++
++	//cancel link timer 
++	_cancel_timer_ex(&pmlmeext->link_timer);
++	
++	start_clnt_join(padapter);
++	
++	return H2C_SUCCESS;
++	
++}
++
++u8 disconnect_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct disconnect_parm *param = (struct disconnect_parm *)pbuf;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX*)(&(pmlmeinfo->network));
++	u8	val8;
++
++	if (is_client_associated_to_ap(padapter))
++	{
++		issue_deauth_ex(padapter, pnetwork->MacAddress, WLAN_REASON_DEAUTH_LEAVING, param->deauth_timeout_ms/100, 100);
++	}
++
++	//set_opmode_cmd(padapter, infra_client_with_mlme);
++
++	//pmlmeinfo->state = WIFI_FW_NULL_STATE;
++	
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_MLME_DISCONNECT, 0);
++	rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, null_addr);
++
++	//restore to initial setting.
++	update_tx_basic_rate(padapter, padapter->registrypriv.wireless_mode);
++
++	if(((pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE) || ((pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE))
++	{
++		//Stop BCN
++		val8 = 0;
++		rtw_hal_set_hwreg(padapter, HW_VAR_BCN_FUNC, (u8 *)(&val8));
++	}
++
++
++	//set MSR to no link state -> infra. mode
++	Set_MSR(padapter, _HW_STATE_STATION_);
++
++	pmlmeinfo->state = WIFI_FW_NULL_STATE;
++
++#ifdef CONFIG_DUALMAC_CONCURRENT
++	dc_set_channel_bwmode_disconnect(padapter);
++#else
++#ifdef CONFIG_CONCURRENT_MODE	
++	if((check_buddy_fwstate(padapter, _FW_LINKED)) != _TRUE)
++	{
++#endif //CONFIG_CONCURRENT_MODE
++		//switch to the 20M Hz mode after disconnect
++		pmlmeext->cur_bwmode = HT_CHANNEL_WIDTH_20;
++		pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++		set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++#ifdef CONFIG_CONCURRENT_MODE
++	}
++#endif //CONFIG_CONCURRENT_MODE
++#endif //CONFIG_DUALMAC_CONCURRENT
++
++	flush_all_cam_entry(padapter);
++		
++	_cancel_timer_ex(&pmlmeext->link_timer);
++
++	rtw_free_uc_swdec_pending_queue(padapter);
++	
++	return 	H2C_SUCCESS;
++}
++
++int rtw_scan_ch_decision(_adapter *padapter, struct rtw_ieee80211_channel *out,
++	u32 out_num, struct rtw_ieee80211_channel *in, u32 in_num)
++{
++	int i, j;
++	int scan_ch_num = 0;
++	int set_idx;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	/* clear first */
++	_rtw_memset(out, 0, sizeof(struct rtw_ieee80211_channel)*out_num);
++
++	/* acquire channels from in */
++	j = 0;
++	for (i=0;i<in_num;i++) {
++
++		if (0)
++		DBG_871X(FUNC_ADPT_FMT" "CHAN_FMT"\n", FUNC_ADPT_ARG(padapter), CHAN_ARG(&in[i]));
++
++		if(in[i].hw_value && !(in[i].flags & RTW_IEEE80211_CHAN_DISABLED)
++			&& (set_idx=rtw_ch_set_search_ch(pmlmeext->channel_set, in[i].hw_value)) >=0
++			&& rtw_mlme_band_check(padapter, in[i].hw_value) == _TRUE
++		)
++		{
++			if (j >= out_num) {
++				DBG_871X_LEVEL(_drv_always_, FUNC_ADPT_FMT" out_num:%u not enough\n",
++					FUNC_ADPT_ARG(padapter), out_num);
++				break;
++			}
++
++			_rtw_memcpy(&out[j], &in[i], sizeof(struct rtw_ieee80211_channel));
++			
++			if(pmlmeext->channel_set[set_idx].ScanType == SCAN_PASSIVE)
++				out[j].flags &= RTW_IEEE80211_CHAN_PASSIVE_SCAN;
++				
++			j++;
++		}
++		if(j>=out_num)
++			break;
++	}
++	
++	/* if out is empty, use channel_set as default */
++	if(j == 0) {
++		for (i=0;i<pmlmeext->max_chan_nums;i++) {
++
++			if (0)
++			DBG_871X(FUNC_ADPT_FMT" ch:%u\n", FUNC_ADPT_ARG(padapter), pmlmeext->channel_set[i].ChannelNum);
++
++			if (rtw_mlme_band_check(padapter, pmlmeext->channel_set[i].ChannelNum) == _TRUE) {
++
++				if (j >= out_num) {
++					DBG_871X_LEVEL(_drv_always_, FUNC_ADPT_FMT" out_num:%u not enough\n",
++						FUNC_ADPT_ARG(padapter), out_num);
++					break;
++				}
++
++				out[j].hw_value = pmlmeext->channel_set[i].ChannelNum;
++			
++				if(pmlmeext->channel_set[i].ScanType == SCAN_PASSIVE)
++					out[j].flags &= RTW_IEEE80211_CHAN_PASSIVE_SCAN;
++
++				j++;
++			}
++		}
++	}
++
++	return j;
++}
++
++u8 sitesurvey_cmd_hdl(_adapter *padapter, u8 *pbuf)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct sitesurvey_parm	*pparm = (struct sitesurvey_parm *)pbuf;
++	u8	bdelayscan = _FALSE;
++	u8	val8;
++	u32	initialgain;
++	u32	i;
++	u8	write_initial_gain = 1;
++
++#ifdef CONFIG_P2P
++	struct wifidirect_info*	pwdinfo = &padapter->wdinfo;
++#endif
++
++	if (pmlmeext->sitesurvey_res.state == SCAN_DISABLE)
++	{
++#ifdef CONFIG_CONCURRENT_MODE	
++		//for first time sitesurvey_cmd
++		rtw_hal_set_hwreg(padapter, HW_VAR_CHECK_TXBUF, 0);	
++#endif //CONFIG_CONCURRENT_MODE
++		
++		pmlmeext->sitesurvey_res.state = SCAN_START;
++		pmlmeext->sitesurvey_res.bss_cnt = 0;
++		pmlmeext->sitesurvey_res.channel_idx = 0;
++
++		for(i=0;i<RTW_SSID_SCAN_AMOUNT;i++){
++			if(pparm->ssid[i].SsidLength) {
++				_rtw_memcpy(pmlmeext->sitesurvey_res.ssid[i].Ssid, pparm->ssid[i].Ssid, IW_ESSID_MAX_SIZE);
++				pmlmeext->sitesurvey_res.ssid[i].SsidLength= pparm->ssid[i].SsidLength;
++			} else {
++				pmlmeext->sitesurvey_res.ssid[i].SsidLength= 0;
++			}
++		}
++
++		pmlmeext->sitesurvey_res.ch_num = rtw_scan_ch_decision(padapter
++			, pmlmeext->sitesurvey_res.ch, RTW_CHANNEL_SCAN_AMOUNT
++			, pparm->ch, pparm->ch_num
++		);
++
++		pmlmeext->sitesurvey_res.scan_mode = pparm->scan_mode;
++
++#ifdef CONFIG_DUALMAC_CONCURRENT
++		bdelayscan = dc_handle_site_survey(padapter);
++#endif
++
++		//issue null data if associating to the AP
++		if (is_client_associated_to_ap(padapter) == _TRUE)
++		{
++			pmlmeext->sitesurvey_res.state = SCAN_TXNULL;
++
++			issue_nulldata(padapter, NULL, 1, 3, 500);
++
++#ifdef CONFIG_CONCURRENT_MODE
++			if(is_client_associated_to_ap(padapter->pbuddy_adapter) == _TRUE)
++			{
++				DBG_871X("adapter is scanning(buddy_adapter is linked), issue nulldata(pwrbit=1)\n");
++				
++				issue_nulldata(padapter->pbuddy_adapter, NULL, 1, 3, 500);
++			}
++#endif
++			bdelayscan = _TRUE;
++		}
++#ifdef CONFIG_CONCURRENT_MODE
++		else if(is_client_associated_to_ap(padapter->pbuddy_adapter) == _TRUE)
++		{
++			#ifdef CONFIG_TDLS
++			if(padapter->pbuddy_adapter->wdinfo.wfd_tdls_enable == 1)
++			{
++				issue_tunneled_probe_req(padapter->pbuddy_adapter);
++			}
++			#endif //CONFIG_TDLS
++
++			pmlmeext->sitesurvey_res.state = SCAN_TXNULL;
++
++			issue_nulldata(padapter->pbuddy_adapter, NULL, 1, 3, 500);
++
++			bdelayscan = _TRUE;			
++		}
++#endif		
++		if(bdelayscan)
++		{
++			//delay 50ms to protect nulldata(1).
++			set_survey_timer(pmlmeext, 50);
++			return H2C_SUCCESS;
++		}
++	}
++
++	if ((pmlmeext->sitesurvey_res.state == SCAN_START) || (pmlmeext->sitesurvey_res.state == SCAN_TXNULL))
++	{
++#ifdef CONFIG_FIND_BEST_CHANNEL
++#if 0
++		for (i=0; pmlmeext->channel_set[i].ChannelNum !=0; i++) {
++			pmlmeext->channel_set[i].rx_count = 0;				
++		}
++#endif
++#endif /* CONFIG_FIND_BEST_CHANNEL */
++
++		//disable dynamic functions, such as high power, DIG
++		Save_DM_Func_Flag(padapter);
++		Switch_DM_Func(padapter, DYNAMIC_FUNC_DISABLE, _FALSE);
++
++		//config the initial gain under scaning, need to write the BB registers
++
++#ifdef CONFIG_P2P
++#ifdef CONFIG_IOCTL_CFG80211
++		if((wdev_to_priv(padapter->rtw_wdev))->p2p_enabled == _TRUE && pwdinfo->driver_interface == DRIVER_CFG80211 )
++		{
++			write_initial_gain = 0;
++		}
++		else
++#endif //CONFIG_IOCTL_CFG80211
++		if ( !rtw_p2p_chk_state( pwdinfo, P2P_STATE_NONE ) )
++			initialgain = 0x28;
++		else
++#endif //CONFIG_P2P
++			initialgain = 0x17;
++
++		if(write_initial_gain == 1)
++			rtw_hal_set_hwreg(padapter, HW_VAR_INITIAL_GAIN, (u8 *)(&initialgain));
++
++		//set MSR to no link state
++		Set_MSR(padapter, _HW_STATE_NOLINK_);
++
++		val8 = 1; //under site survey
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++
++		pmlmeext->sitesurvey_res.state = SCAN_PROCESS;
++	}
++
++	site_survey(padapter);
++
++	return H2C_SUCCESS;
++	
++}
++
++u8 setauth_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct setauth_parm		*pparm = (struct setauth_parm *)pbuf;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	
++	if (pparm->mode < 4)
++	{
++		pmlmeinfo->auth_algo = pparm->mode;
++	}
++
++	return 	H2C_SUCCESS;
++}
++
++u8 setkey_hdl(_adapter *padapter, u8 *pbuf)
++{
++	unsigned short				ctrl;
++	struct setkey_parm		*pparm = (struct setkey_parm *)pbuf;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	unsigned char					null_sta[] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
++
++	//main tx key for wep.
++	if(pparm->set_tx)
++		pmlmeinfo->key_index = pparm->keyid;
++	
++	//write cam
++	ctrl = BIT(15) | ((pparm->algorithm) << 2) | pparm->keyid;	
++
++	write_cam(padapter, pparm->keyid, ctrl, null_sta, pparm->key);
++
++	//allow multicast packets to driver
++	rtw_hal_set_hwreg(padapter, HW_VAR_ON_RCR_AM, null_addr);
++
++	return H2C_SUCCESS;
++}
++
++u8 set_stakey_hdl(_adapter *padapter, u8 *pbuf)
++{
++	u16 ctrl=0;
++	u8 cam_id;//cam_entry
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct set_stakey_parm	*pparm = (struct set_stakey_parm *)pbuf;
++#ifdef CONFIG_TDLS
++	struct tdls_info	*ptdlsinfo = &padapter->tdlsinfo;
++	struct sta_priv	*pstapriv = &padapter->stapriv;
++	struct sta_info	*psta;
++#endif //CONFIG_TDLS
++
++	//cam_entry:
++	//0~3 for default key
++	
++	//for concurrent mode (ap+sta):
++	//default key is disable, using sw encrypt/decrypt
++	//cam_entry = 4 //for sta mode (macid=0)
++	//cam_entry(macid+3) = 5 ~ N//for ap mode (aid=1~N, macid=2 ~N)
++
++	//for concurrent mode (sta+sta):
++	//default key is disable, using sw encrypt/decrypt
++	//cam_entry = 4 //mapping to macid=0
++	//cam_entry = 5 //mapping to macid=2
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if((pmlmeinfo->state&0x03) == WIFI_FW_STATION_STATE)
++	{
++		struct sta_priv	*pstapriv = &padapter->stapriv;
++		struct sta_info	*psta;
++		
++		psta = rtw_get_stainfo(pstapriv, pmlmeinfo->network.MacAddress);
++
++		if(psta && psta->mac_id==2)
++		{
++			cam_id = 5;
++		}
++		else
++		{
++			cam_id = 4;
++		}
++/*		
++		if(padapter->iface_type > PRIMARY_IFACE)
++		{
++			cam_id = 5;
++		}
++		else
++		{
++			cam_id = 4;
++		}
++*/		
++	}	
++#else
++	cam_id = 4;
++#endif
++
++
++	if((pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE)
++	{
++	
++		struct sta_info *psta;
++		struct sta_priv *pstapriv = &padapter->stapriv;
++
++		if(pparm->algorithm == _NO_PRIVACY_)	// clear cam entry
++		{
++			clear_cam_entry(padapter, pparm->id);
++			return H2C_SUCCESS_RSP;
++		}
++		
++		psta = rtw_get_stainfo(pstapriv, pparm->addr);
++		if(psta)
++		{			
++			ctrl = (BIT(15) | ((pparm->algorithm) << 2));
++
++			DBG_871X("r871x_set_stakey_hdl(): enc_algorithm=%d\n", pparm->algorithm);
++
++			if((psta->mac_id<1) || (psta->mac_id>(NUM_STA-4)))
++			{
++				DBG_871X("r871x_set_stakey_hdl():set_stakey failed, mac_id(aid)=%d\n", psta->mac_id);
++				return H2C_REJECTED;
++			}	
++				 
++			cam_id = (psta->mac_id + 3);//0~3 for default key, cmd_id=macid + 3, macid=aid+1;
++
++			DBG_871X("Write CAM, mac_addr=%x:%x:%x:%x:%x:%x, cam_entry=%d\n", pparm->addr[0], 
++						pparm->addr[1], pparm->addr[2], pparm->addr[3], pparm->addr[4],
++						pparm->addr[5], cam_id);
++
++			write_cam(padapter, cam_id, ctrl, pparm->addr, pparm->key);
++	
++			return H2C_SUCCESS_RSP;
++		
++		}
++		else
++		{
++			DBG_871X("r871x_set_stakey_hdl(): sta has been free\n");
++			return H2C_REJECTED;
++		}
++		
++	}
++
++	//below for sta mode
++	
++	if(pparm->algorithm == _NO_PRIVACY_)	// clear cam entry
++	{
++		clear_cam_entry(padapter, pparm->id);
++		return H2C_SUCCESS;
++	}
++	
++	ctrl = BIT(15) | ((pparm->algorithm) << 2);	
++	
++#ifdef CONFIG_TDLS
++	if(ptdlsinfo->clear_cam!=0){
++		clear_cam_entry(padapter, ptdlsinfo->clear_cam);
++		ptdlsinfo->clear_cam=0;
++
++		return H2C_SUCCESS;
++	}
++
++	psta = rtw_get_stainfo(pstapriv, pparm->addr);//Get TDLS Peer STA
++	if( psta->tdls_sta_state&TDLS_LINKED_STATE ){
++		write_cam(padapter, psta->mac_id, ctrl, pparm->addr, pparm->key);
++	}
++	else
++#endif //CONFIG_TDLS	
++	write_cam(padapter, cam_id, ctrl, pparm->addr, pparm->key);
++
++	pmlmeinfo->enc_algo = pparm->algorithm;
++	
++	return H2C_SUCCESS;
++}
++
++u8 add_ba_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct addBaReq_parm 	*pparm = (struct addBaReq_parm *)pbuf;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	struct sta_info *psta = rtw_get_stainfo(&padapter->stapriv, pparm->addr);
++	
++	if(!psta)
++		return 	H2C_SUCCESS;
++		
++
++	if (((pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS) && (pmlmeinfo->HT_enable)) ||
++		((pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE))
++	{
++		//pmlmeinfo->ADDBA_retry_count = 0;
++		//pmlmeinfo->candidate_tid_bitmap |= (0x1 << pparm->tid);		
++		//psta->htpriv.candidate_tid_bitmap |= BIT(pparm->tid);
++		issue_action_BA(padapter, pparm->addr, RTW_WLAN_ACTION_ADDBA_REQ, (u16)pparm->tid);		
++		//_set_timer(&pmlmeext->ADDBA_timer, ADDBA_TO);
++		_set_timer(&psta->addba_retry_timer, ADDBA_TO);
++	}
++#ifdef CONFIG_TDLS
++	else if((psta->tdls_sta_state & TDLS_LINKED_STATE)&& 
++		(psta->htpriv.ht_option==_TRUE) && 
++		(psta->htpriv.ampdu_enable==_TRUE) )
++	{
++		issue_action_BA(padapter, pparm->addr, RTW_WLAN_ACTION_ADDBA_REQ, (u16)pparm->tid);		
++		//_set_timer(&pmlmeext->ADDBA_timer, ADDBA_TO);
++		_set_timer(&psta->addba_retry_timer, ADDBA_TO);
++	}
++#endif //CONFIG
++	else
++	{		
++		psta->htpriv.candidate_tid_bitmap &= ~BIT(pparm->tid);		
++	}
++	
++	return 	H2C_SUCCESS;
++}
++
++u8 set_tx_beacon_cmd(_adapter* padapter)
++{
++	struct cmd_obj	*ph2c;
++	struct Tx_Beacon_param 	*ptxBeacon_parm;	
++	struct cmd_priv	*pcmdpriv = &(padapter->cmdpriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8	res = _SUCCESS;
++	int len_diff = 0;
++	
++_func_enter_;	
++	
++	if ((ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj))) == NULL)
++	{
++		res= _FAIL;
++		goto exit;
++	}
++	
++	if ((ptxBeacon_parm = (struct Tx_Beacon_param *)rtw_zmalloc(sizeof(struct Tx_Beacon_param))) == NULL)
++	{
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct	cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	_rtw_memcpy(&(ptxBeacon_parm->network), &(pmlmeinfo->network), sizeof(WLAN_BSSID_EX));
++	
++	len_diff = update_hidden_ssid(
++		ptxBeacon_parm->network.IEs+_BEACON_IE_OFFSET_
++		, ptxBeacon_parm->network.IELength-_BEACON_IE_OFFSET_
++		, pmlmeinfo->hidden_ssid_mode
++	);
++	ptxBeacon_parm->network.IELength += len_diff;
++		
++	init_h2fwcmd_w_parm_no_rsp(ph2c, ptxBeacon_parm, GEN_CMD_CODE(_TX_Beacon));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++	
++exit:
++	
++_func_exit_;
++
++	return res;
++}
++
++
++u8 mlme_evt_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	u8 evt_code, evt_seq;
++	u16 evt_sz;
++	uint 	*peventbuf;
++	void (*event_callback)(_adapter *dev, u8 *pbuf);
++	struct evt_priv *pevt_priv = &(padapter->evtpriv);
++
++	peventbuf = (uint*)pbuf;
++	evt_sz = (u16)(*peventbuf&0xffff);
++	evt_seq = (u8)((*peventbuf>>24)&0x7f);
++	evt_code = (u8)((*peventbuf>>16)&0xff);
++	
++		
++	#ifdef CHECK_EVENT_SEQ
++	// checking event sequence...		
++	if (evt_seq != (ATOMIC_READ(&pevt_priv->event_seq) & 0x7f) )
++	{
++		RT_TRACE(_module_rtl871x_cmd_c_,_drv_info_,("Evetn Seq Error! %d vs %d\n", (evt_seq & 0x7f), (ATOMIC_READ(&pevt_priv->event_seq) & 0x7f)));
++	
++		pevt_priv->event_seq = (evt_seq+1)&0x7f;
++
++		goto _abort_event_;
++	}
++	#endif
++
++	// checking if event code is valid
++	if (evt_code >= MAX_C2HEVT)
++	{
++		RT_TRACE(_module_rtl871x_cmd_c_,_drv_err_,("\nEvent Code(%d) mismatch!\n", evt_code));
++		goto _abort_event_;
++	}
++
++	// checking if event size match the event parm size	
++	if ((wlanevents[evt_code].parmsize != 0) && 
++			(wlanevents[evt_code].parmsize != evt_sz))
++	{
++			
++		RT_TRACE(_module_rtl871x_cmd_c_,_drv_err_,("\nEvent(%d) Parm Size mismatch (%d vs %d)!\n", 
++			evt_code, wlanevents[evt_code].parmsize, evt_sz));
++		goto _abort_event_;	
++			
++	}
++
++	ATOMIC_INC(&pevt_priv->event_seq);
++
++	peventbuf += 2;
++				
++	if(peventbuf)
++	{
++		event_callback = wlanevents[evt_code].event_callback;
++		event_callback(padapter, (u8*)peventbuf);
++
++		pevt_priv->evt_done_cnt++;
++	}
++
++
++_abort_event_:
++
++
++	return H2C_SUCCESS;
++		
++}
++
++u8 h2c_msg_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	if(!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	return H2C_SUCCESS;
++}
++
++u8 tx_beacon_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	if(send_beacon(padapter)==_FAIL)
++	{
++		DBG_871X("issue_beacon, fail!\n");
++		return H2C_PARAMETERS_ERROR;
++	}
++#ifdef CONFIG_AP_MODE
++	else //tx bc/mc frames after update TIM 
++	{	
++		_irqL irqL;
++		struct sta_info *psta_bmc;
++		_list	*xmitframe_plist, *xmitframe_phead;
++		struct xmit_frame *pxmitframe=NULL;
++		struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++		struct sta_priv  *pstapriv = &padapter->stapriv;
++		
++		//for BC/MC Frames
++		psta_bmc = rtw_get_bcmc_stainfo(padapter);
++		if(!psta_bmc)
++			return H2C_SUCCESS;
++	
++		if((pstapriv->tim_bitmap&BIT(0)) && (psta_bmc->sleepq_len>0))
++		{				
++#ifndef CONFIG_PCI_HCI
++			rtw_msleep_os(10);// 10ms, ATIM(HIQ) Windows
++#endif
++			//_enter_critical_bh(&psta_bmc->sleep_q.lock, &irqL);
++			_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++			xmitframe_phead = get_list_head(&psta_bmc->sleep_q);
++			xmitframe_plist = get_next(xmitframe_phead);
++
++			while ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE)
++			{			
++				pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++				xmitframe_plist = get_next(xmitframe_plist);
++
++				rtw_list_delete(&pxmitframe->list);
++
++				psta_bmc->sleepq_len--;
++				if(psta_bmc->sleepq_len>0)
++					pxmitframe->attrib.mdata = 1;
++				else
++					pxmitframe->attrib.mdata = 0;
++
++				pxmitframe->attrib.triggered=1;
++
++				pxmitframe->attrib.qsel = 0x11;//HIQ
++
++#if 0
++				_exit_critical_bh(&psta_bmc->sleep_q.lock, &irqL);
++				if(rtw_hal_xmit(padapter, pxmitframe) == _TRUE)
++				{		
++					rtw_os_xmit_complete(padapter, pxmitframe);
++				}
++				_enter_critical_bh(&psta_bmc->sleep_q.lock, &irqL);
++
++#endif
++				rtw_hal_xmitframe_enqueue(padapter, pxmitframe);
++
++				//pstapriv->tim_bitmap &= ~BIT(0);				
++		
++			}	
++	
++			//_exit_critical_bh(&psta_bmc->sleep_q.lock, &irqL);
++	               _exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++		}
++
++	}
++#endif
++
++	return H2C_SUCCESS;
++	
++}
++
++void change_band_update_ie(_adapter *padapter, WLAN_BSSID_EX *pnetwork)
++{
++	u8	network_type,rate_len, total_rate_len,remainder_rate_len;
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8	erpinfo=0x4;
++
++	//DBG_871X("%s\n", __FUNCTION__);
++
++	if(pmlmeext->cur_channel >= 36)
++	{
++		network_type = WIRELESS_11A;
++		total_rate_len = IEEE80211_NUM_OFDM_RATESLEN;
++		DBG_871X("%s(): change to 5G Band\n",__FUNCTION__);
++		rtw_remove_bcn_ie(padapter, pnetwork, _ERPINFO_IE_);
++	}
++	else
++	{
++		network_type = WIRELESS_11BG;
++		total_rate_len = IEEE80211_CCK_RATE_LEN+IEEE80211_NUM_OFDM_RATESLEN;
++		DBG_871X("%s(): change to 2.4G Band\n",__FUNCTION__);
++		rtw_add_bcn_ie(padapter, pnetwork, _ERPINFO_IE_, &erpinfo, 1);
++	}
++
++	rtw_set_supported_rate(pnetwork->SupportedRates, network_type);
++
++	UpdateBrateTbl(padapter, pnetwork->SupportedRates);
++	rtw_hal_set_hwreg(padapter, HW_VAR_BASIC_RATE, pnetwork->SupportedRates);
++
++	if(total_rate_len > 8)
++	{
++		rate_len = 8;
++		remainder_rate_len = total_rate_len - 8;
++	}
++	else
++	{
++		rate_len = total_rate_len;
++		remainder_rate_len = 0;
++	}
++
++	rtw_add_bcn_ie(padapter, pnetwork, _SUPPORTEDRATES_IE_, pnetwork->SupportedRates, rate_len);
++
++	if(remainder_rate_len)
++	{
++		rtw_add_bcn_ie(padapter, pnetwork, _EXT_SUPPORTEDRATES_IE_, (pnetwork->SupportedRates+8), remainder_rate_len);
++	}
++	else
++	{
++		rtw_remove_bcn_ie(padapter, pnetwork, _EXT_SUPPORTEDRATES_IE_);
++	}
++}
++
++
++#ifdef CONFIG_DUALMAC_CONCURRENT
++void dc_SelectChannel(_adapter *padapter, unsigned char channel)
++{
++	PADAPTER ptarget_adapter;
++
++	if( (padapter->pbuddy_adapter != NULL) && 
++		(padapter->DualMacConcurrent == _TRUE) &&
++		(padapter->adapter_type == SECONDARY_ADAPTER))
++	{
++		// only mac0 could control BB&RF
++		ptarget_adapter = padapter->pbuddy_adapter;
++	}
++	else
++	{
++		ptarget_adapter = padapter;
++	}
++
++	_enter_critical_mutex(&(adapter_to_dvobj(ptarget_adapter)->setch_mutex), NULL);
++
++	rtw_hal_set_chan(ptarget_adapter, channel);
++
++	_exit_critical_mutex(&(adapter_to_dvobj(ptarget_adapter)->setch_mutex), NULL);
++}
++
++void dc_SetBWMode(_adapter *padapter, unsigned short bwmode, unsigned char channel_offset)
++{
++	PADAPTER ptarget_adapter;
++
++	if( (padapter->pbuddy_adapter != NULL) && 
++		(padapter->DualMacConcurrent == _TRUE) &&
++		(padapter->adapter_type == SECONDARY_ADAPTER))
++	{
++		// only mac0 could control BB&RF
++		ptarget_adapter = padapter->pbuddy_adapter;
++	}
++	else
++	{
++		ptarget_adapter = padapter;
++	}
++
++	_enter_critical_mutex(&(adapter_to_dvobj(ptarget_adapter)->setbw_mutex), NULL);
++
++	rtw_hal_set_bwmode(ptarget_adapter, (HT_CHANNEL_WIDTH)bwmode, channel_offset);
++
++	_exit_critical_mutex(&(adapter_to_dvobj(ptarget_adapter)->setbw_mutex), NULL);
++}
++
++void dc_set_channel_bwmode_disconnect(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	PADAPTER pbuddy_adapter = padapter->pbuddy_adapter;
++	struct mlme_priv *pbuddy_mlmepriv = NULL;
++
++	if(pbuddy_adapter != NULL && 
++		padapter->DualMacConcurrent == _TRUE)
++	{
++		pbuddy_mlmepriv = &(pbuddy_adapter->mlmepriv);
++		if((check_fwstate(pbuddy_mlmepriv, _FW_LINKED)) != _TRUE)
++		{
++			//switch to the 20M Hz mode after disconnect
++			pmlmeext->cur_bwmode = HT_CHANNEL_WIDTH_20;
++			pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++			set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++		}
++	}
++	else
++	{
++		//switch to the 20M Hz mode after disconnect
++		pmlmeext->cur_bwmode = HT_CHANNEL_WIDTH_20;
++		pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++		set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++	}
++}
++
++u8 dc_handle_join_request(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX*)(&(pmlmeinfo->network));
++	PADAPTER pbuddy_adapter = padapter->pbuddy_adapter;		
++	struct mlme_ext_priv *pbuddy_mlmeext = NULL;
++	struct mlme_priv	*pbuddy_mlmepriv = NULL;
++	u8	ret = _SUCCESS;
++
++	if(pbuddy_adapter != NULL && 
++		padapter->DualMacConcurrent == _TRUE)
++	{
++		pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++		pbuddy_mlmepriv = &(pbuddy_adapter->mlmepriv);
++
++		if(pmlmeext->cur_channel != pbuddy_mlmeext->cur_channel ||
++			pmlmeext->cur_bwmode != pbuddy_mlmeext->cur_bwmode ||
++			pmlmeext->cur_ch_offset != pbuddy_mlmeext->cur_ch_offset)
++		{
++			if((check_fwstate(pbuddy_mlmepriv, WIFI_AP_STATE)) == _TRUE)
++			{
++				//issue deauth to all stas if if2 is at ap mode
++				rtw_sta_flush(pbuddy_adapter);
++
++				//rtw_hal_set_hwreg(padapter, HW_VAR_CHECK_TXBUF, 0);
++				rtw_hal_set_hwreg(pbuddy_adapter, HW_VAR_CHECK_TXBUF, 0);
++			}
++			else if(check_fwstate(pbuddy_mlmepriv, _FW_LINKED) == _TRUE)
++			{
++				if(pmlmeext->cur_channel == pbuddy_mlmeext->cur_channel)
++				{
++					// HT_CHANNEL_WIDTH_40 or HT_CHANNEL_WIDTH_20 but channel offset is different
++					if((pmlmeext->cur_bwmode == pbuddy_mlmeext->cur_bwmode) &&
++						(pmlmeext->cur_ch_offset != pbuddy_mlmeext->cur_ch_offset) )
++					{
++						report_join_res(padapter, -4);
++						ret = _FAIL;
++					}
++				}
++				else
++				{
++					report_join_res(padapter, -4);
++					ret = _FAIL;
++				}
++			}
++		}
++		else	 if (is_client_associated_to_ap(pbuddy_adapter) == _TRUE)
++		{
++			issue_nulldata(pbuddy_adapter, NULL, 1, 0, 0);
++		}
++	}
++
++	return ret;
++}
++
++void dc_handle_join_done(_adapter *padapter, u8 join_res)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	PADAPTER pbuddy_adapter = padapter->pbuddy_adapter;
++	struct mlme_priv *pbuddy_mlmepriv = NULL;
++	struct mlme_ext_priv *pbuddy_mlmeext = NULL;
++	struct mlme_ext_info *pbuddy_mlmeinfo = NULL;
++	WLAN_BSSID_EX *pbuddy_network_mlmeext = NULL;
++	u8	change_band = _FALSE;
++
++
++	if(pbuddy_adapter != NULL && 
++		padapter->DualMacConcurrent == _TRUE)
++	{
++		pbuddy_mlmepriv = &(pbuddy_adapter->mlmepriv);
++		pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++		pbuddy_mlmeinfo = &(pbuddy_mlmeext->mlmext_info);
++		pbuddy_network_mlmeext = &(pbuddy_mlmeinfo->network);
++	
++		if(((pbuddy_mlmeinfo->state&0x03) == WIFI_FW_AP_STATE) &&
++				check_fwstate(pbuddy_mlmepriv, _FW_LINKED))
++		{
++			//restart and update beacon
++			DBG_871X("after join, current adapter, CH=%d, BW=%d, offset=%d\n", pmlmeext->cur_channel, pmlmeext->cur_bwmode, pmlmeext->cur_ch_offset);
++
++			if(join_res >= 0)
++			{
++				u8 *p;
++				int	ie_len;
++				struct HT_info_element *pht_info=NULL;
++
++				if((pbuddy_mlmeext->cur_channel <= 14 && pmlmeext->cur_channel >= 36) ||
++					(pbuddy_mlmeext->cur_channel >= 36 && pmlmeext->cur_channel <= 14))
++				{
++					change_band = _TRUE;
++				}
++
++				//sync channel/bwmode/ch_offset with another adapter
++				pbuddy_mlmeext->cur_channel = pmlmeext->cur_channel;
++				
++				if(pbuddy_mlmeext->cur_bwmode == HT_CHANNEL_WIDTH_40)
++				{
++					p = rtw_get_ie((pbuddy_network_mlmeext->IEs + sizeof(NDIS_802_11_FIXED_IEs)), _HT_ADD_INFO_IE_, &ie_len, (pbuddy_network_mlmeext->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++					if( p && ie_len)
++					{
++						pht_info = (struct HT_info_element *)(p+2);
++						pht_info->infos[0] &= ~(BIT(0)|BIT(1)); //no secondary channel is present
++					}	
++				
++					if(pmlmeext->cur_bwmode == HT_CHANNEL_WIDTH_40)
++					{
++						pbuddy_mlmeext->cur_ch_offset = pmlmeext->cur_ch_offset;
++
++						//to update cur_ch_offset value in beacon
++						if( pht_info )
++						{
++							switch(pmlmeext->cur_ch_offset)
++							{
++								case HAL_PRIME_CHNL_OFFSET_LOWER:
++									pht_info->infos[0] |= 0x1;
++									break;
++								case HAL_PRIME_CHNL_OFFSET_UPPER:
++									pht_info->infos[0] |= 0x3;
++									break;
++								case HAL_PRIME_CHNL_OFFSET_DONT_CARE:							
++								default:							
++									break;					
++							}
++						}
++					}
++					else if(pmlmeext->cur_bwmode == HT_CHANNEL_WIDTH_20)
++					{
++						pbuddy_mlmeext->cur_bwmode = HT_CHANNEL_WIDTH_20;
++						pbuddy_mlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++						if(pmlmeext->cur_channel>0 && pmlmeext->cur_channel<5)
++						{
++							if(pht_info)
++								pht_info->infos[0] |= 0x1;
++
++							pbuddy_mlmeext->cur_bwmode = HT_CHANNEL_WIDTH_40;
++							pbuddy_mlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++						}
++
++						if(pmlmeext->cur_channel>7 && pmlmeext->cur_channel<(14+1))
++						{
++							if(pht_info)
++								pht_info->infos[0] |= 0x3;
++
++							pbuddy_mlmeext->cur_bwmode = HT_CHANNEL_WIDTH_40;
++							pbuddy_mlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++						}
++
++						set_channel_bwmode(padapter, pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_ch_offset, pbuddy_mlmeext->cur_bwmode);
++					}
++				}
++
++				// to update channel value in beacon
++				pbuddy_network_mlmeext->Configuration.DSConfig = pmlmeext->cur_channel;
++				p = rtw_get_ie((pbuddy_network_mlmeext->IEs + sizeof(NDIS_802_11_FIXED_IEs)), _DSSET_IE_, &ie_len, (pbuddy_network_mlmeext->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++				if(p && ie_len>0)
++					*(p + 2) = pmlmeext->cur_channel;
++
++				p = rtw_get_ie((pbuddy_network_mlmeext->IEs + sizeof(NDIS_802_11_FIXED_IEs)), _HT_ADD_INFO_IE_, &ie_len, (pbuddy_network_mlmeext->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++				if( p && ie_len)
++				{
++					pht_info = (struct HT_info_element *)(p+2);
++					pht_info->primary_channel = pmlmeext->cur_channel;
++				}
++
++				// update mlmepriv's cur_network
++				_rtw_memcpy(&pbuddy_mlmepriv->cur_network.network, pbuddy_network_mlmeext, pbuddy_network_mlmeext->Length);
++			}
++			else
++			{
++				// switch back to original channel/bwmode/ch_offset;
++				set_channel_bwmode(padapter, pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_ch_offset, pbuddy_mlmeext->cur_bwmode);
++			}
++
++			DBG_871X("after join, another adapter, CH=%d, BW=%d, offset=%d\n", pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_bwmode, pbuddy_mlmeext->cur_ch_offset);
++
++			if(change_band == _TRUE)
++				change_band_update_ie(pbuddy_adapter, pbuddy_network_mlmeext);
++
++			DBG_871X("update pbuddy_adapter's beacon\n");
++
++			update_beacon(pbuddy_adapter, 0, NULL, _TRUE);
++		}
++		else	 if (is_client_associated_to_ap(pbuddy_adapter) == _TRUE)
++		{
++			if((pbuddy_mlmeext->cur_bwmode == HT_CHANNEL_WIDTH_40) &&
++				(pmlmeext->cur_bwmode == HT_CHANNEL_WIDTH_20))
++			{
++				set_channel_bwmode(padapter, pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_ch_offset, pbuddy_mlmeext->cur_bwmode);
++			}
++		
++			issue_nulldata(pbuddy_adapter, NULL, 0, 0, 0);
++		}
++	}
++}
++
++sint	dc_check_fwstate(_adapter *padapter, sint fw_state)
++{
++	PADAPTER pbuddy_adapter = padapter->pbuddy_adapter;
++	struct mlme_priv *pbuddy_mlmepriv = NULL;
++
++	if(padapter->pbuddy_adapter != NULL && 
++		padapter->DualMacConcurrent == _TRUE)
++
++	{
++		pbuddy_mlmepriv = &(pbuddy_adapter->mlmepriv);
++
++		return check_fwstate(pbuddy_mlmepriv, fw_state);
++	}
++
++	return _FALSE;
++}
++
++u8 dc_handle_site_survey(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	PADAPTER pbuddy_adapter = padapter->pbuddy_adapter;		
++
++	// only mac0 can do scan request, help issue nulldata(1) for mac1
++	if(pbuddy_adapter != NULL && 
++		padapter->DualMacConcurrent == _TRUE)
++	{
++		if (is_client_associated_to_ap(pbuddy_adapter) == _TRUE)
++		{
++			pmlmeext->sitesurvey_res.state = SCAN_TXNULL;
++		
++			issue_nulldata(pbuddy_adapter, NULL, 1, 2, 0);			
++
++			return _TRUE;
++		}
++	}
++
++	return _FALSE;
++}
++
++void	dc_report_survey_event(_adapter *padapter, union recv_frame *precv_frame)
++{
++	if(padapter->pbuddy_adapter != NULL && 
++		padapter->DualMacConcurrent == _TRUE)
++	{
++		report_survey_event(padapter->pbuddy_adapter, precv_frame);	
++	}
++}
++
++void dc_set_channel_bwmode_survey_done(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	PADAPTER pbuddy_adapter = padapter->pbuddy_adapter;
++	struct mlme_priv *pbuddy_mlmepriv = NULL;
++	struct mlme_ext_priv *pbuddy_mlmeext = NULL;
++	struct mlme_ext_info *pbuddy_mlmeinfo = NULL;
++	u8 cur_channel;
++	u8 cur_bwmode;
++	u8 cur_ch_offset;
++
++	if(pbuddy_adapter != NULL && 
++		padapter->DualMacConcurrent == _TRUE)
++	{
++		pbuddy_mlmepriv = &(pbuddy_adapter->mlmepriv);
++		pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++		pbuddy_mlmeinfo = &(pbuddy_mlmeext->mlmext_info);
++
++		if(check_fwstate(pbuddy_mlmepriv, _FW_LINKED))
++		{
++			if(check_fwstate(pmlmepriv, _FW_LINKED) &&
++				(pmlmeext->cur_bwmode == HT_CHANNEL_WIDTH_40))
++			{
++				cur_channel = pmlmeext->cur_channel;
++				cur_bwmode = pmlmeext->cur_bwmode;
++				cur_ch_offset = pmlmeext->cur_ch_offset;
++			}
++			else
++			{
++				cur_channel = pbuddy_mlmeext->cur_channel;
++				cur_bwmode = pbuddy_mlmeext->cur_bwmode;
++				cur_ch_offset = pbuddy_mlmeext->cur_ch_offset;
++			}
++		}
++		else
++		{
++			cur_channel = pmlmeext->cur_channel;
++			cur_bwmode = pmlmeext->cur_bwmode;
++			cur_ch_offset = pmlmeext->cur_ch_offset;
++		}
++
++		set_channel_bwmode(padapter, cur_channel, cur_ch_offset, cur_bwmode);
++
++		if (is_client_associated_to_ap(pbuddy_adapter) == _TRUE)
++		{
++			//issue null data 
++			issue_nulldata(pbuddy_adapter, NULL, 0, 0, 0);
++		}
++
++		if(((pbuddy_mlmeinfo->state&0x03) == WIFI_FW_AP_STATE) &&
++			check_fwstate(pbuddy_mlmepriv, _FW_LINKED))
++		{
++
++			DBG_871X("survey done, current CH=%d, BW=%d, offset=%d\n", cur_channel, cur_bwmode, cur_ch_offset);
++
++			DBG_871X("restart pbuddy_adapter's beacon\n");
++		
++			update_beacon(pbuddy_adapter, 0, NULL, _TRUE);
++		}
++	}
++	else
++	{
++		set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++	}
++}
++
++void dc_set_ap_channel_bandwidth(_adapter *padapter, u8 channel, u8 channel_offset, u8 bwmode)
++{
++	u8	*p;
++	u8	val8, cur_channel, cur_bwmode, cur_ch_offset, change_band;
++	int	ie_len;	
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct mlme_priv		*pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct HT_info_element	*pht_info=NULL;
++	_adapter	*pbuddy_adapter = padapter->pbuddy_adapter;
++	struct mlme_priv	*pbuddy_mlmepriv = NULL;
++	struct mlme_ext_priv	*pbuddy_mlmeext = NULL;
++
++	DBG_871X("dualmac_concurrent_ap_set_channel_bwmode ==>\n");
++
++	cur_channel = channel;
++	cur_bwmode = bwmode;
++	cur_ch_offset = channel_offset;
++	change_band = _FALSE;
++
++	p = rtw_get_ie((pnetwork->IEs + sizeof(NDIS_802_11_FIXED_IEs)), _HT_ADD_INFO_IE_, &ie_len, (pnetwork->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++	if( p && ie_len)
++	{
++		pht_info = (struct HT_info_element *)(p+2);
++	}
++
++	if(pbuddy_adapter != NULL && 
++		padapter->DualMacConcurrent == _TRUE)
++	{
++		pbuddy_mlmepriv = &(pbuddy_adapter->mlmepriv);
++		pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++		
++		if(!check_fwstate(pbuddy_mlmepriv, _FW_LINKED|_FW_UNDER_LINKING|_FW_UNDER_SURVEY))
++		{
++			set_channel_bwmode(padapter, cur_channel, cur_ch_offset, cur_bwmode);
++		}
++		else if(check_fwstate(pbuddy_mlmepriv, _FW_LINKED)==_TRUE)
++		{
++			//To sync cur_channel/cur_bwmode/cur_ch_offset with another adapter
++			DBG_871X("Another iface is at linked state, sync cur_channel/cur_bwmode/cur_ch_offset\n");
++			DBG_871X("Another adapter, CH=%d, BW=%d, offset=%d\n", pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_bwmode, pbuddy_mlmeext->cur_ch_offset);
++			DBG_871X("Current adapter, CH=%d, BW=%d, offset=%d\n", cur_channel, cur_bwmode, cur_ch_offset);
++			
++			cur_channel = pbuddy_mlmeext->cur_channel;
++			if(cur_bwmode == HT_CHANNEL_WIDTH_40)
++			{
++				if(pht_info)
++					pht_info->infos[0] &= ~(BIT(0)|BIT(1));
++
++				if(pbuddy_mlmeext->cur_bwmode == HT_CHANNEL_WIDTH_40)
++				{
++					cur_ch_offset = pbuddy_mlmeext->cur_ch_offset;
++
++					//to update cur_ch_offset value in beacon
++					if(pht_info)
++					{				
++						switch(cur_ch_offset)
++						{
++							case HAL_PRIME_CHNL_OFFSET_LOWER:
++								pht_info->infos[0] |= 0x1;
++								break;
++							case HAL_PRIME_CHNL_OFFSET_UPPER:
++								pht_info->infos[0] |= 0x3;
++								break;
++							case HAL_PRIME_CHNL_OFFSET_DONT_CARE:
++							default:							
++								break;					
++						}
++					}
++				}
++				else if(pbuddy_mlmeext->cur_bwmode == HT_CHANNEL_WIDTH_20)
++				{
++					cur_bwmode = HT_CHANNEL_WIDTH_20;
++					cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++					if(cur_channel>0 && cur_channel<5)
++					{
++						if(pht_info)
++							pht_info->infos[0] |= 0x1;		
++
++						cur_bwmode = HT_CHANNEL_WIDTH_40;
++						cur_ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++					}
++
++					if(cur_channel>7 && cur_channel<(14+1))
++					{
++						if(pht_info)
++							pht_info->infos[0] |= 0x3;
++
++						cur_bwmode = HT_CHANNEL_WIDTH_40;
++						cur_ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++					}
++
++					set_channel_bwmode(padapter, cur_channel, cur_ch_offset, cur_bwmode);
++				}
++			}
++
++			// to update channel value in beacon
++			pnetwork->Configuration.DSConfig = cur_channel;		
++			p = rtw_get_ie((pnetwork->IEs + sizeof(NDIS_802_11_FIXED_IEs)), _DSSET_IE_, &ie_len, (pnetwork->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++			if(p && ie_len>0)
++				*(p + 2) = cur_channel;
++
++			if(pht_info)
++				pht_info->primary_channel = cur_channel;
++		}
++	}
++	else
++	{
++		set_channel_bwmode(padapter, cur_channel, cur_ch_offset, cur_bwmode);
++	}
++
++	DBG_871X("CH=%d, BW=%d, offset=%d\n", cur_channel, cur_bwmode, cur_ch_offset);
++
++	if((channel <= 14 && cur_channel >= 36) ||
++		(channel >= 36 && cur_channel <= 14))
++	{
++		change_band = _TRUE;
++	}
++
++	pmlmeext->cur_channel = cur_channel;
++	pmlmeext->cur_bwmode = cur_bwmode;
++	pmlmeext->cur_ch_offset = cur_ch_offset;
++
++	if(change_band == _TRUE)
++		change_band_update_ie(padapter, pnetwork);
++
++	DBG_871X("dualmac_concurrent_ap_set_channel_bwmode <==\n");
++}
++
++void dc_resume_xmit(_adapter *padapter)
++{
++	PADAPTER pbuddy_adapter = padapter->pbuddy_adapter;
++	
++	if(pbuddy_adapter != NULL && 
++		padapter->DualMacConcurrent == _TRUE)
++	{
++		DBG_871X("dc_resume_xmit,  resume pbuddy_adapter Tx\n");
++		rtw_os_xmit_schedule(pbuddy_adapter);
++	}
++}
++
++u8	dc_check_xmit(_adapter *padapter)
++{
++	PADAPTER pbuddy_adapter = padapter->pbuddy_adapter;
++	struct mlme_priv *pbuddy_mlmepriv = NULL;
++
++	if(pbuddy_adapter != NULL && 
++		padapter->DualMacConcurrent == _TRUE)
++	{
++		pbuddy_mlmepriv = &(pbuddy_adapter->mlmepriv);
++		if (check_fwstate(pbuddy_mlmepriv, _FW_UNDER_SURVEY|_FW_UNDER_LINKING) == _TRUE)
++		{
++			DBG_871X("dc_check_xmit  pbuddy_adapter is under survey or under linking\n");
++			return _FALSE;
++		}
++	}
++
++	return _TRUE;
++}
++#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++sint check_buddy_mlmeinfo_state(_adapter *padapter, u32 state)
++{
++	PADAPTER pbuddy_adapter;
++	struct mlme_ext_priv *pbuddy_mlmeext;
++	struct mlme_ext_info *pbuddy_mlmeinfo;
++
++	if(padapter == NULL)
++		return _FALSE;	
++	
++	pbuddy_adapter = padapter->pbuddy_adapter;
++
++	if(pbuddy_adapter == NULL)
++		return _FALSE;	
++
++
++	pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++	pbuddy_mlmeinfo = &(pbuddy_mlmeext->mlmext_info);
++		
++	if((pbuddy_mlmeinfo->state&0x03) == state)
++		return _TRUE;		
++
++	return _FALSE;
++	
++}
++
++void concurrent_chk_joinbss_done(_adapter *padapter, int join_res)
++{
++	struct mlme_ext_priv	*pmlmeext;
++	struct mlme_ext_info	*pmlmeinfo;	
++	PADAPTER pbuddy_adapter;
++	struct mlme_priv *pbuddy_mlmepriv;
++	struct mlme_ext_priv *pbuddy_mlmeext;
++	struct mlme_ext_info *pbuddy_mlmeinfo;
++	WLAN_BSSID_EX *pbuddy_network_mlmeext;
++
++	pmlmeext = &padapter->mlmeextpriv;
++	pmlmeinfo = &(pmlmeext->mlmext_info);
++
++
++	if(!rtw_buddy_adapter_up(padapter))
++	{
++		set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++		return;
++	}
++
++	pbuddy_adapter = padapter->pbuddy_adapter;
++	pbuddy_mlmepriv = &(pbuddy_adapter->mlmepriv);
++	pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++	pbuddy_mlmeinfo = &(pbuddy_mlmeext->mlmext_info);
++	pbuddy_network_mlmeext = &(pbuddy_mlmeinfo->network);
++
++	if(((pbuddy_mlmeinfo->state&0x03) == WIFI_FW_AP_STATE) &&
++			check_fwstate(pbuddy_mlmepriv, _FW_LINKED))
++	{
++		//restart and update beacon
++
++		DBG_871X("after join,primary adapter, CH=%d, BW=%d, offset=%d\n"
++			, pmlmeext->cur_channel, pmlmeext->cur_bwmode, pmlmeext->cur_ch_offset);
++		
++
++		if(join_res >= 0)
++		{
++			u8 *p;
++			int	ie_len;
++			u8	change_band = _FALSE;
++			struct HT_info_element *pht_info=NULL;
++
++			if((pmlmeext->cur_channel <= 14 && pbuddy_mlmeext->cur_channel >= 36) ||
++				(pmlmeext->cur_channel >= 36 && pbuddy_mlmeext->cur_channel <= 14))
++				change_band = _TRUE;
++
++			//sync channel/bwmode/ch_offset with primary adapter
++			pbuddy_mlmeext->cur_channel = pmlmeext->cur_channel;
++			if(pbuddy_mlmeext->cur_bwmode == HT_CHANNEL_WIDTH_40)
++			{
++				p = rtw_get_ie((pbuddy_network_mlmeext->IEs + sizeof(NDIS_802_11_FIXED_IEs)), _HT_ADD_INFO_IE_, &ie_len, (pbuddy_network_mlmeext->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++				if( p && ie_len)
++				{
++					pht_info = (struct HT_info_element *)(p+2);
++					pht_info->infos[0] &= ~(BIT(0)|BIT(1)); //no secondary channel is present
++				}
++			
++				if(pmlmeext->cur_bwmode == HT_CHANNEL_WIDTH_40)
++				{
++					pbuddy_mlmeext->cur_ch_offset = pmlmeext->cur_ch_offset;
++
++					//to update cur_ch_offset value in beacon
++					if( pht_info )
++					{
++						switch(pmlmeext->cur_ch_offset)
++						{
++							case HAL_PRIME_CHNL_OFFSET_LOWER:
++								pht_info->infos[0] |= 0x1;
++								break;
++							case HAL_PRIME_CHNL_OFFSET_UPPER:
++								pht_info->infos[0] |= 0x3;
++								break;
++							case HAL_PRIME_CHNL_OFFSET_DONT_CARE:							
++							default:							
++								break;					
++						}
++						
++					}					
++				
++				}
++				else if(pmlmeext->cur_bwmode == HT_CHANNEL_WIDTH_20)
++				{
++					if(pmlmeext->cur_channel>=1 && pmlmeext->cur_channel<=4)
++					{
++						if(pht_info)
++							pht_info->infos[0] |= HT_INFO_HT_PARAM_SECONDARY_CHNL_ABOVE;		
++
++						pbuddy_mlmeext->cur_bwmode = HT_CHANNEL_WIDTH_40;
++						pbuddy_mlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++					}
++					else if(pmlmeext->cur_channel>=5 && pmlmeext->cur_channel<=14)
++					{
++						if(pht_info)
++							pht_info->infos[0] |= HT_INFO_HT_PARAM_SECONDARY_CHNL_BELOW;
++						
++						pbuddy_mlmeext->cur_bwmode = HT_CHANNEL_WIDTH_40;
++						pbuddy_mlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;						
++					}
++					else
++					{
++						switch(pmlmeext->cur_channel)
++						{
++							case 36:
++							case 44:
++							case 52:
++							case 60:
++							case 100:
++							case 108:
++							case 116:
++							case 124:
++							case 132:
++							case 149:
++							case 157:
++							{
++								if(pht_info)
++									pht_info->infos[0] |= HT_INFO_HT_PARAM_SECONDARY_CHNL_ABOVE;		
++								pbuddy_mlmeext->cur_bwmode = HT_CHANNEL_WIDTH_40;
++								pbuddy_mlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++								break;
++							}
++							case 40:
++							case 48:
++							case 56:
++							case 64:
++							case 104:
++							case 112:
++							case 120:
++							case 128:
++							case 136:
++							case 153:
++							case 161:
++							{
++								if(pht_info)
++									pht_info->infos[0] |= HT_INFO_HT_PARAM_SECONDARY_CHNL_BELOW;
++								
++								pbuddy_mlmeext->cur_bwmode = HT_CHANNEL_WIDTH_40;
++								pbuddy_mlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++								break;
++							}
++							default:
++								if(pht_info)
++									pht_info->infos[0] &= ~HT_INFO_HT_PARAM_SECONDARY_CHNL_BELOW;
++								pbuddy_mlmeext->cur_bwmode = HT_CHANNEL_WIDTH_20;
++								pbuddy_mlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++								break;								
++
++						}
++						
++					}
++
++				}
++
++				set_channel_bwmode(padapter, pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_ch_offset, pbuddy_mlmeext->cur_bwmode);
++				
++			}
++			else
++			{
++				set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++			}
++
++
++			// to update channel value in beacon
++			pbuddy_network_mlmeext->Configuration.DSConfig = pmlmeext->cur_channel;		
++			p = rtw_get_ie((pbuddy_network_mlmeext->IEs + sizeof(NDIS_802_11_FIXED_IEs)), _DSSET_IE_, &ie_len, (pbuddy_network_mlmeext->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++			if(p && ie_len>0)
++				*(p + 2) = pmlmeext->cur_channel;
++
++			p = rtw_get_ie((pbuddy_network_mlmeext->IEs + sizeof(NDIS_802_11_FIXED_IEs)), _HT_ADD_INFO_IE_, &ie_len, (pbuddy_network_mlmeext->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++			if( p && ie_len)
++			{
++				pht_info = (struct HT_info_element *)(p+2);
++				pht_info->primary_channel = pmlmeext->cur_channel;
++			}
++
++			//buddy interface band is different from current interface, update ERP, support rate, ext support rate IE
++			if(change_band == _TRUE)
++				change_band_update_ie(pbuddy_adapter, pbuddy_network_mlmeext);
++		}
++		else
++		{
++			// switch back to original channel/bwmode/ch_offset;
++			set_channel_bwmode(padapter, pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_ch_offset, pbuddy_mlmeext->cur_bwmode);
++		}
++
++		DBG_871X("after join, second adapter, CH=%d, BW=%d, offset=%d\n", pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_bwmode, pbuddy_mlmeext->cur_ch_offset);
++
++		DBG_871X("update pbuddy_adapter's beacon\n");
++		
++		update_beacon(pbuddy_adapter, 0, NULL, _TRUE);
++
++	}
++	else if(((pbuddy_mlmeinfo->state&0x03) == WIFI_FW_STATION_STATE) &&
++			check_fwstate(pbuddy_mlmepriv, _FW_LINKED))
++	{		
++		if(join_res >= 0)
++		{	
++			pbuddy_mlmeext->cur_channel = pmlmeext->cur_channel;
++			if(pbuddy_mlmeext->cur_bwmode == HT_CHANNEL_WIDTH_40)
++				set_channel_bwmode(padapter, pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_ch_offset, pbuddy_mlmeext->cur_bwmode);		
++			else if(pmlmeext->cur_bwmode == HT_CHANNEL_WIDTH_40)
++				set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);		
++			else
++				set_channel_bwmode(padapter, pmlmeext->cur_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++		}
++		else
++		{
++			// switch back to original channel/bwmode/ch_offset;
++			set_channel_bwmode(padapter, pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_ch_offset, pbuddy_mlmeext->cur_bwmode);
++		}			
++	}
++	else
++	{
++		set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++	}
++	
++}
++#endif //CONFIG_CONCURRENT_MODE
++
++int rtw_chk_start_clnt_join(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	unsigned char	cur_ch = pmlmeext->cur_channel;
++	unsigned char	cur_bw = pmlmeext->cur_bwmode;
++	unsigned char	cur_ch_offset = pmlmeext->cur_ch_offset;
++	bool chbw_allow = _TRUE;
++	bool connect_allow = _TRUE;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	PADAPTER pbuddy_adapter;	
++	struct mlme_ext_priv *pbuddy_mlmeext;
++	struct mlme_ext_info	*pbuddy_pmlmeinfo;
++	struct mlme_priv *pbuddy_mlmepriv;
++
++	if (!rtw_buddy_adapter_up(padapter)) {
++		goto start_join_set_ch_bw;
++	}
++
++	pbuddy_adapter = padapter->pbuddy_adapter;		
++	pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++	pbuddy_pmlmeinfo = &(pbuddy_mlmeext->mlmext_info);
++	pbuddy_mlmepriv = &(pbuddy_adapter->mlmepriv);
++
++	if((pbuddy_pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE)//for AP MODE
++	{
++		DBG_871X("start_clnt_join: "ADPT_FMT"(ch=%d, bw=%d, ch_offset=%d)"
++			", "ADPT_FMT" AP mode(ch=%d, bw=%d, ch_offset=%d)\n",
++			ADPT_ARG(padapter), pmlmeext->cur_channel, pmlmeext->cur_bwmode, pmlmeext->cur_ch_offset,
++			ADPT_ARG(pbuddy_adapter), pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_bwmode, pbuddy_mlmeext->cur_ch_offset);
++
++		if(pmlmeext->cur_channel != pbuddy_mlmeext->cur_channel)
++		{
++			chbw_allow = _FALSE;
++		}
++		else if((pmlmeext->cur_bwmode == HT_CHANNEL_WIDTH_40) &&
++			(pbuddy_mlmeext->cur_bwmode == HT_CHANNEL_WIDTH_40) &&
++			(pmlmeext->cur_ch_offset != pbuddy_mlmeext->cur_ch_offset))
++		{
++			chbw_allow = _FALSE;
++		}
++		else if((pmlmeext->cur_bwmode == HT_CHANNEL_WIDTH_20) &&
++			(pbuddy_mlmeext->cur_bwmode == HT_CHANNEL_WIDTH_40))
++		{
++			cur_ch = pmlmeext->cur_channel;
++			cur_bw = pbuddy_mlmeext->cur_bwmode;
++			cur_ch_offset = pbuddy_mlmeext->cur_ch_offset;
++		}
++
++		DBG_871X("start_clnt_join: connect_allow:%d, chbw_allow:%d\n", connect_allow, chbw_allow);
++		if (chbw_allow == _FALSE) {
++			#ifdef CONFIG_SPCT_CH_SWITCH
++			if (1) {
++				rtw_ap_inform_ch_switch(pbuddy_adapter, pmlmeext->cur_channel , pmlmeext->cur_ch_offset);
++			} else
++			#endif
++			{
++				//issue deauth to all stas if if2 is at ap mode
++				rtw_sta_flush(pbuddy_adapter);
++			}
++			rtw_hal_set_hwreg(padapter, HW_VAR_CHECK_TXBUF, 0);
++		}
++	}
++	else if(check_fwstate(pbuddy_mlmepriv, _FW_LINKED) == _TRUE &&
++		check_fwstate(pbuddy_mlmepriv, WIFI_STATION_STATE) == _TRUE) //for Client Mode/p2p client
++	{
++		DBG_871X("start_clnt_join: "ADPT_FMT"(ch=%d, bw=%d, ch_offset=%d)"
++			", "ADPT_FMT" STA mode(ch=%d, bw=%d, ch_offset=%d)\n",
++			ADPT_ARG(padapter), pmlmeext->cur_channel, pmlmeext->cur_bwmode, pmlmeext->cur_ch_offset,
++			ADPT_ARG(pbuddy_adapter), pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_bwmode, pbuddy_mlmeext->cur_ch_offset);
++
++		if(pmlmeext->cur_channel != pbuddy_mlmeext->cur_channel)
++		{
++			chbw_allow = _FALSE;
++		}
++		else if((pmlmeext->cur_bwmode == HT_CHANNEL_WIDTH_20) &&
++			(pbuddy_mlmeext->cur_bwmode == HT_CHANNEL_WIDTH_40))
++		{
++			cur_bw = HT_CHANNEL_WIDTH_40;
++			cur_ch_offset = pbuddy_mlmeext->cur_ch_offset;
++		}
++		else if((pmlmeext->cur_bwmode == HT_CHANNEL_WIDTH_40) &&
++			(pbuddy_mlmeext->cur_bwmode == HT_CHANNEL_WIDTH_40) &&
++			(pmlmeext->cur_ch_offset != pbuddy_mlmeext->cur_ch_offset))
++		{
++			chbw_allow = _FALSE;
++		}
++
++		connect_allow = chbw_allow;
++
++		#if defined(CONFIG_P2P) && defined(CONFIG_IOCTL_CFG80211)
++		/* wlan0-sta mode has higher priority than p2p0-p2p client */
++		if (!rtw_p2p_chk_state(&(pbuddy_adapter->wdinfo), P2P_STATE_NONE)
++			&& pbuddy_adapter->wdinfo.driver_interface == DRIVER_CFG80211)
++		{
++			connect_allow = _TRUE;
++		}
++		#endif /* CONFIG_P2P && CONFIG_IOCTL_CFG80211 */
++
++		DBG_871X("start_clnt_join: connect_allow:%d, chbw_allow:%d\n", connect_allow, chbw_allow);
++		if (connect_allow == _TRUE && chbw_allow == _FALSE) {
++			/* disconnect buddy's connection */
++			rtw_disassoc_cmd(pbuddy_adapter, 500, _FALSE);
++			rtw_indicate_disconnect(pbuddy_adapter);
++			rtw_free_assoc_resources(pbuddy_adapter, 1);
++		}
++	}	
++
++start_join_set_ch_bw:
++#endif /* CONFIG_CONCURRENT_MODE */
++
++	if (connect_allow == _TRUE) {
++		DBG_871X("start_join_set_ch_bw: ch=%d, bwmode=%d, ch_offset=%d\n", cur_ch, cur_bw, cur_ch_offset);
++		set_channel_bwmode(padapter, cur_ch, cur_ch_offset, cur_bw);
++	}
++
++	return connect_allow == _TRUE ? _SUCCESS : _FAIL;
++}
++
++/* Find union about ch, bw, ch_offset of all linked interfaces */
++int rtw_get_ch_setting_union(_adapter *adapter, u8 *ch, u8 *bw, u8 *offset)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	_adapter *iface;
++	struct mlme_ext_priv *mlmeext;
++	int i;
++	u8 ch_ret = 0;
++	u8 bw_ret = HT_CHANNEL_WIDTH_20;
++	u8 offset_ret = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	int num = 0;
++
++	if (ch) *ch = 0;
++	if (bw) *bw = HT_CHANNEL_WIDTH_20;
++	if (offset) *offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++	for (i = 0; i<dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		mlmeext = &iface->mlmeextpriv;
++
++		if (!check_fwstate(&iface->mlmepriv, _FW_LINKED))
++			continue;
++
++		if (num == 0) {
++			ch_ret = mlmeext->cur_channel;
++			bw_ret = mlmeext->cur_bwmode;
++			offset_ret = mlmeext->cur_ch_offset;
++			num++;
++			continue;
++		}
++
++		if (ch_ret != mlmeext->cur_channel) {
++			num = 0;
++			break;
++		}
++
++		if (bw_ret < mlmeext->cur_bwmode) {
++			bw_ret = mlmeext->cur_bwmode;
++			offset_ret = mlmeext->cur_ch_offset;
++		} else if (bw_ret == mlmeext->cur_bwmode && offset_ret != mlmeext->cur_ch_offset) {
++			num = 0;
++			break;
++		}
++
++		num++;
++	}
++
++	if (num) {
++		if (ch) *ch = ch_ret;
++		if (bw) *bw = bw_ret;
++		if (offset) *offset = offset_ret;
++	}
++
++	return num;
++}
++
++u8 set_ch_hdl(_adapter *padapter, u8 *pbuf)
++{
++	struct set_ch_parm *set_ch_parm;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	if(!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	set_ch_parm = (struct set_ch_parm *)pbuf;
++
++	DBG_871X(FUNC_NDEV_FMT" ch:%u, bw:%u, ch_offset:%u\n",
++		FUNC_NDEV_ARG(padapter->pnetdev),
++		set_ch_parm->ch, set_ch_parm->bw, set_ch_parm->ch_offset);
++
++	pmlmeext->cur_channel = set_ch_parm->ch;
++	pmlmeext->cur_ch_offset = set_ch_parm->ch_offset;
++	pmlmeext->cur_bwmode = set_ch_parm->bw;
++
++	set_channel_bwmode(padapter, set_ch_parm->ch, set_ch_parm->ch_offset, set_ch_parm->bw);
++
++	return 	H2C_SUCCESS;
++}
++
++u8 set_chplan_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct SetChannelPlan_param *setChannelPlan_param;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	if(!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	setChannelPlan_param = (struct SetChannelPlan_param *)pbuf;
++
++	pmlmeext->max_chan_nums = init_channel_set(padapter, setChannelPlan_param->channel_plan, pmlmeext->channel_set);
++	init_channel_list(padapter, pmlmeext->channel_set, pmlmeext->max_chan_nums, &pmlmeext->channel_list);	
++
++	return 	H2C_SUCCESS;
++}
++
++u8 led_blink_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct LedBlink_param *ledBlink_param;
++
++	if(!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	ledBlink_param = (struct LedBlink_param *)pbuf;
++
++	#ifdef CONFIG_LED_HANDLED_BY_CMD_THREAD
++	BlinkHandler(ledBlink_param->pLed);
++	#endif
++
++	return 	H2C_SUCCESS;
++}
++
++u8 set_csa_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++#ifdef CONFIG_DFS
++	struct SetChannelSwitch_param *setChannelSwitch_param;
++	struct SetChannelPlan_param *setChannelPlan_param;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &pmlmeext->mlmext_info;
++	u8 new_ch_no;
++	u8 gval8 = 0x00, sval8 = 0xff;
++
++	if(!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	setChannelSwitch_param = (struct SetChannelSwitch_param *)pbuf;
++	new_ch_no = setChannelSwitch_param->new_ch_no;
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_TXPAUSE, &gval8);
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_TXPAUSE, &sval8);
++
++	DBG_871X("DFS detected! Swiching channel to %d!\n", new_ch_no);
++	SelectChannel(padapter, new_ch_no);
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_TXPAUSE, &gval8);
++
++	rtw_free_network_queue(padapter, _TRUE);
++	rtw_indicate_disconnect(padapter);
++
++	if ( ((new_ch_no >= 52) && (new_ch_no <= 64)) ||((new_ch_no >= 100) && (new_ch_no <= 140)) ) {
++		DBG_871X("Switched to DFS band (ch %02x) again!!\n", new_ch_no);
++	}
++
++	return 	H2C_SUCCESS;
++#else
++	return	H2C_REJECTED;
++#endif //CONFIG_DFS
++
++}
++
++// TDLS_WRCR		: write RCR DATA BIT
++// TDLS_SD_PTI		: issue peer traffic indication
++// TDLS_CS_OFF		: go back to the channel linked with AP, terminating channel switch procedure
++// TDLS_INIT_CH_SEN	: init channel sensing, receive all data and mgnt frame
++// TDLS_DONE_CH_SEN: channel sensing and report candidate channel
++// TDLS_OFF_CH		: first time set channel to off channel
++// TDLS_BASE_CH		: go back tp the channel linked with AP when set base channel as target channel
++// TDLS_P_OFF_CH	: periodically go to off channel
++// TDLS_P_BASE_CH	: periodically go back to base channel
++// TDLS_RS_RCR		: restore RCR
++// TDLS_CKALV_PH1	: check alive timer phase1
++// TDLS_CKALV_PH2	: check alive timer phase2
++// TDLS_FREE_STA	: free tdls sta
++u8 tdls_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++#ifdef CONFIG_TDLS
++	_irqL irqL;
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct TDLSoption_param *TDLSoption;
++	struct sta_info *ptdls_sta;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &pmlmeext->mlmext_info;
++	u8 survey_channel, i, min, option;
++
++	if(!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	TDLSoption = (struct TDLSoption_param *)pbuf;
++
++	ptdls_sta = rtw_get_stainfo( &(padapter->stapriv), TDLSoption->addr );
++	option = TDLSoption->option;
++
++	if( ptdls_sta == NULL )
++	{
++		if( option != TDLS_RS_RCR )
++			return H2C_REJECTED;
++	}
++
++	//_enter_critical_bh(&(ptdlsinfo->hdl_lock), &irqL);
++	DBG_871X("[%s] option:%d\n", __FUNCTION__, option);
++		
++	switch(option){
++		case TDLS_WRCR:
++			//As long as TDLS handshake success, we should set RCR_CBSSID_DATA bit to 0
++			//such we can receive all kinds of data frames.
++			rtw_hal_set_hwreg(padapter, HW_VAR_TDLS_WRCR, 0);
++			DBG_871X("TDLS with "MAC_FMT"\n", MAC_ARG(ptdls_sta->hwaddr));
++
++			pmlmeinfo->FW_sta_info[ptdls_sta->mac_id].psta = ptdls_sta;
++			//set TDLS sta rate.
++			set_sta_rate(padapter, ptdls_sta);
++			break;
++		case TDLS_SD_PTI:
++			issue_tdls_peer_traffic_indication(padapter, ptdls_sta);
++			break;
++		case TDLS_CS_OFF:
++			_cancel_timer_ex(&ptdls_sta->base_ch_timer);
++			_cancel_timer_ex(&ptdls_sta->off_ch_timer);
++			SelectChannel(padapter, pmlmeext->cur_channel);
++			ptdls_sta->tdls_sta_state &= ~(TDLS_CH_SWITCH_ON_STATE | 
++								TDLS_PEER_AT_OFF_STATE | 
++								TDLS_AT_OFF_CH_STATE);
++			DBG_871X("go back to base channel\n ");
++			issue_nulldata(padapter, NULL, 0, 0, 0);
++			break;
++		case TDLS_INIT_CH_SEN:
++			rtw_hal_set_hwreg(padapter, HW_VAR_TDLS_INIT_CH_SEN, 0);
++			pmlmeext->sitesurvey_res.channel_idx = 0;
++			ptdls_sta->option = TDLS_DONE_CH_SEN;
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_DONE_CH_SEN);
++			break;
++		case TDLS_DONE_CH_SEN:
++			survey_channel = pmlmeext->channel_set[pmlmeext->sitesurvey_res.channel_idx].ChannelNum;
++			if(survey_channel){
++				SelectChannel(padapter, survey_channel);
++				ptdlsinfo->cur_channel = survey_channel;
++				pmlmeext->sitesurvey_res.channel_idx++;
++				_set_timer(&ptdls_sta->option_timer, SURVEY_TO);
++			}else{
++				SelectChannel(padapter, pmlmeext->cur_channel);
++
++				rtw_hal_set_hwreg(padapter, HW_VAR_TDLS_DONE_CH_SEN, 0);
++
++				if(ptdlsinfo->ch_sensing==1){
++					ptdlsinfo->ch_sensing=0;
++					ptdlsinfo->cur_channel=1;
++					min=ptdlsinfo->collect_pkt_num[0];
++					for(i=1; i<MAX_CHANNEL_NUM-1; i++){
++						if(min > ptdlsinfo->collect_pkt_num[i]){
++							ptdlsinfo->cur_channel=i+1;
++							min=ptdlsinfo->collect_pkt_num[i];
++						}
++						ptdlsinfo->collect_pkt_num[i]=0;
++					}
++					ptdlsinfo->collect_pkt_num[0]=0;
++					ptdlsinfo->candidate_ch=ptdlsinfo->cur_channel;
++					DBG_871X("TDLS channel sensing done, candidate channel: %02x\n", ptdlsinfo->candidate_ch);
++					ptdlsinfo->cur_channel=0;
++
++				}
++
++				if(ptdls_sta->tdls_sta_state & TDLS_PEER_SLEEP_STATE){
++					ptdls_sta->tdls_sta_state |= TDLS_APSD_CHSW_STATE;
++				}else{
++					//send null data with pwrbit==1 before send ch_switching_req to peer STA.
++					issue_nulldata(padapter, NULL, 1, 0, 0);
++
++					ptdls_sta->tdls_sta_state |= TDLS_CH_SW_INITIATOR_STATE;
++
++					issue_tdls_ch_switch_req(padapter, ptdls_sta->hwaddr);
++					DBG_871X("issue tdls ch switch req\n");
++				}
++			}
++			break;
++		case TDLS_OFF_CH:
++			issue_nulldata(padapter, NULL, 1, 0, 0);
++			SelectChannel(padapter, ptdls_sta->off_ch);
++
++			DBG_871X("change channel to tar ch:%02x\n", ptdls_sta->off_ch);
++			ptdls_sta->tdls_sta_state |= TDLS_AT_OFF_CH_STATE;
++			ptdls_sta->tdls_sta_state &= ~(TDLS_PEER_AT_OFF_STATE);
++			_set_timer(&ptdls_sta->option_timer, (u32)ptdls_sta->ch_switch_time);
++			break;
++		case TDLS_BASE_CH:
++			_cancel_timer_ex(&ptdls_sta->base_ch_timer);
++			_cancel_timer_ex(&ptdls_sta->off_ch_timer);
++			SelectChannel(padapter, pmlmeext->cur_channel);
++			ptdls_sta->tdls_sta_state &= ~(TDLS_CH_SWITCH_ON_STATE | 
++								TDLS_PEER_AT_OFF_STATE | 
++								TDLS_AT_OFF_CH_STATE);
++			DBG_871X("go back to base channel\n ");
++			issue_nulldata(padapter, NULL, 0, 0, 0);
++			_set_timer(&ptdls_sta->option_timer, (u32)ptdls_sta->ch_switch_time);
++			break;
++		case TDLS_P_OFF_CH:
++			SelectChannel(padapter, pmlmeext->cur_channel);
++			issue_nulldata(padapter, NULL, 0, 0, 0);
++			DBG_871X("change channel to base ch:%02x\n", pmlmeext->cur_channel);
++			ptdls_sta->tdls_sta_state &= ~(TDLS_PEER_AT_OFF_STATE| TDLS_AT_OFF_CH_STATE);
++			_set_timer(&ptdls_sta->off_ch_timer, TDLS_STAY_TIME);
++			break;
++		case TDLS_P_BASE_CH:
++			issue_nulldata(ptdls_sta->padapter, NULL, 1, 0, 0);
++			SelectChannel(padapter, ptdls_sta->off_ch);
++			DBG_871X("change channel to off ch:%02x\n", ptdls_sta->off_ch);
++			ptdls_sta->tdls_sta_state |= TDLS_AT_OFF_CH_STATE;
++			if((ptdls_sta->tdls_sta_state & TDLS_PEER_AT_OFF_STATE) != TDLS_PEER_AT_OFF_STATE){
++				issue_nulldata_to_TDLS_peer_STA(padapter, ptdls_sta, 0);
++			}
++			_set_timer(&ptdls_sta->base_ch_timer, TDLS_STAY_TIME);	
++			break;
++		case TDLS_RS_RCR:
++			rtw_hal_set_hwreg(padapter, HW_VAR_TDLS_RS_RCR, 0);
++			DBG_871X("wirte REG_RCR, set bit6 on\n");
++			break;
++		case TDLS_CKALV_PH1:
++			_set_timer(&ptdls_sta->alive_timer2, TDLS_ALIVE_TIMER_PH2);
++			break;
++		case TDLS_CKALV_PH2:
++			_set_timer(&ptdls_sta->alive_timer1, TDLS_ALIVE_TIMER_PH1);
++			break;
++		case TDLS_FREE_STA:
++			free_tdls_sta(padapter, ptdls_sta);
++			break;
++			
++	}
++
++	//_exit_critical_bh(&(ptdlsinfo->hdl_lock), &irqL);
++
++	return H2C_SUCCESS;
++#else
++	return H2C_REJECTED;
++#endif //CONFIG_TDLS
++
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_mp.c b/drivers/net/wireless/rtl8192cu/core/rtw_mp.c
+new file mode 100755
+index 0000000..9af42cd
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_mp.c
+@@ -0,0 +1,1324 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_MP_C_
++
++#include <drv_types.h>
++
++#ifdef PLATFORM_FREEBSD
++#include <sys/unistd.h>		/* for RFHIGHPID */
++#endif
++
++#ifdef CONFIG_RTL8712
++#include <rtw_mp_phy_regdef.h>
++#endif
++#ifdef CONFIG_RTL8192C
++#include <rtl8192c_hal.h>
++#endif
++#ifdef CONFIG_RTL8192D
++#include <rtl8192d_hal.h>
++#endif
++#ifdef CONFIG_RTL8723A
++#include <rtl8723a_hal.h>
++#endif
++
++
++#ifdef CONFIG_MP_INCLUDED
++
++u32 read_macreg(_adapter *padapter, u32 addr, u32 sz)
++{
++	u32 val = 0;
++
++	switch(sz)
++	{
++		case 1:
++			val = rtw_read8(padapter, addr);
++			break;
++		case 2:
++			val = rtw_read16(padapter, addr);
++			break;
++		case 4:
++			val = rtw_read32(padapter, addr);
++			break;
++		default:
++			val = 0xffffffff;
++			break;
++	}
++
++	return val;
++	
++}
++
++void write_macreg(_adapter *padapter, u32 addr, u32 val, u32 sz)
++{
++	switch(sz)
++	{
++		case 1:
++			rtw_write8(padapter, addr, (u8)val);
++			break;
++		case 2:
++			rtw_write16(padapter, addr, (u16)val);
++			break;
++		case 4:
++			rtw_write32(padapter, addr, val);
++			break;
++		default:
++			break;
++	}
++
++}
++
++u32 read_bbreg(_adapter *padapter, u32 addr, u32 bitmask)
++{
++	return rtw_hal_read_bbreg(padapter, addr, bitmask);
++}
++
++void write_bbreg(_adapter *padapter, u32 addr, u32 bitmask, u32 val)
++{
++	rtw_hal_write_bbreg(padapter, addr, bitmask, val);
++}
++
++u32 _read_rfreg(PADAPTER padapter, u8 rfpath, u32 addr, u32 bitmask)
++{
++	return rtw_hal_read_rfreg(padapter, (RF_RADIO_PATH_E)rfpath, addr, bitmask);
++}
++
++void _write_rfreg(PADAPTER padapter, u8 rfpath, u32 addr, u32 bitmask, u32 val)
++{
++	rtw_hal_write_rfreg(padapter, (RF_RADIO_PATH_E)rfpath, addr, bitmask, val);
++}
++
++u32 read_rfreg(PADAPTER padapter, u8 rfpath, u32 addr)
++{
++	return _read_rfreg(padapter, (RF_RADIO_PATH_E)rfpath, addr, bRFRegOffsetMask);
++}
++
++void write_rfreg(PADAPTER padapter, u8 rfpath, u32 addr, u32 val)
++{
++	_write_rfreg(padapter, (RF_RADIO_PATH_E)rfpath, addr, bRFRegOffsetMask, val);
++}
++
++static void _init_mp_priv_(struct mp_priv *pmp_priv)
++{
++	WLAN_BSSID_EX *pnetwork;
++
++	_rtw_memset(pmp_priv, 0, sizeof(struct mp_priv));
++
++	pmp_priv->mode = MP_OFF;
++
++	pmp_priv->channel = 1;
++	pmp_priv->bandwidth = HT_CHANNEL_WIDTH_20;
++	pmp_priv->prime_channel_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	pmp_priv->rateidx = MPT_RATE_1M;
++	pmp_priv->txpoweridx = 0x2A;
++
++	pmp_priv->antenna_tx = ANTENNA_A;
++	pmp_priv->antenna_rx = ANTENNA_AB;
++
++	pmp_priv->check_mp_pkt = 0;
++
++	pmp_priv->tx_pktcount = 0;
++
++	pmp_priv->rx_pktcount = 0;
++	pmp_priv->rx_crcerrpktcount = 0;
++
++	pmp_priv->network_macaddr[0] = 0x00;
++	pmp_priv->network_macaddr[1] = 0xE0;
++	pmp_priv->network_macaddr[2] = 0x4C;
++	pmp_priv->network_macaddr[3] = 0x87;
++	pmp_priv->network_macaddr[4] = 0x66;
++	pmp_priv->network_macaddr[5] = 0x55;
++
++	pnetwork = &pmp_priv->mp_network.network;
++	_rtw_memcpy(pnetwork->MacAddress, pmp_priv->network_macaddr, ETH_ALEN);
++
++	pnetwork->Ssid.SsidLength = 8;
++	_rtw_memcpy(pnetwork->Ssid.Ssid, "mp_871x", pnetwork->Ssid.SsidLength);
++}
++
++#ifdef PLATFORM_WINDOWS
++/*
++void mp_wi_callback(
++	IN NDIS_WORK_ITEM*	pwk_item,
++	IN PVOID			cntx
++	)
++{
++	_adapter* padapter =(_adapter *)cntx;
++	struct mp_priv *pmppriv=&padapter->mppriv;
++	struct mp_wi_cntx	*pmp_wi_cntx=&pmppriv->wi_cntx;
++
++	// Execute specified action.
++	if(pmp_wi_cntx->curractfunc != NULL)
++	{
++		LARGE_INTEGER	cur_time;
++		ULONGLONG start_time, end_time;
++		NdisGetCurrentSystemTime(&cur_time);	// driver version
++		start_time = cur_time.QuadPart/10; // The return value is in microsecond
++
++		pmp_wi_cntx->curractfunc(padapter);
++
++		NdisGetCurrentSystemTime(&cur_time);	// driver version
++		end_time = cur_time.QuadPart/10; // The return value is in microsecond
++
++		RT_TRACE(_module_mp_, _drv_info_,
++			 ("WorkItemActType: %d, time spent: %I64d us\n",
++			  pmp_wi_cntx->param.act_type, (end_time-start_time)));
++	}
++
++	NdisAcquireSpinLock(&(pmp_wi_cntx->mp_wi_lock));
++	pmp_wi_cntx->bmp_wi_progress= _FALSE;
++	NdisReleaseSpinLock(&(pmp_wi_cntx->mp_wi_lock));
++
++	if (pmp_wi_cntx->bmpdrv_unload)
++	{
++		NdisSetEvent(&(pmp_wi_cntx->mp_wi_evt));
++	}
++
++}
++*/
++
++static int init_mp_priv_by_os(struct mp_priv *pmp_priv)
++{
++	struct mp_wi_cntx *pmp_wi_cntx;
++
++	if (pmp_priv == NULL) return _FAIL;
++
++	pmp_priv->rx_testcnt = 0;
++	pmp_priv->rx_testcnt1 = 0;
++	pmp_priv->rx_testcnt2 = 0;
++
++	pmp_priv->tx_testcnt = 0;
++	pmp_priv->tx_testcnt1 = 0;
++
++	pmp_wi_cntx = &pmp_priv->wi_cntx
++	pmp_wi_cntx->bmpdrv_unload = _FALSE;
++	pmp_wi_cntx->bmp_wi_progress = _FALSE;
++	pmp_wi_cntx->curractfunc = NULL;
++
++	return _SUCCESS;
++}
++#endif
++
++#ifdef PLATFORM_LINUX
++static int init_mp_priv_by_os(struct mp_priv *pmp_priv)
++{
++	int i, res;
++	struct mp_xmit_frame *pmp_xmitframe;
++
++	if (pmp_priv == NULL) return _FAIL;
++
++	_rtw_init_queue(&pmp_priv->free_mp_xmitqueue);
++
++	pmp_priv->pallocated_mp_xmitframe_buf = NULL;
++	pmp_priv->pallocated_mp_xmitframe_buf = rtw_zmalloc(NR_MP_XMITFRAME * sizeof(struct mp_xmit_frame) + 4);
++	if (pmp_priv->pallocated_mp_xmitframe_buf == NULL) {
++		res = _FAIL;
++		goto _exit_init_mp_priv;
++	}
++
++	pmp_priv->pmp_xmtframe_buf = pmp_priv->pallocated_mp_xmitframe_buf + 4 - ((uint) (pmp_priv->pallocated_mp_xmitframe_buf) & 3);
++
++	pmp_xmitframe = (struct mp_xmit_frame*)pmp_priv->pmp_xmtframe_buf;
++
++	for (i = 0; i < NR_MP_XMITFRAME; i++)
++	{
++		_rtw_init_listhead(&pmp_xmitframe->list);
++		rtw_list_insert_tail(&pmp_xmitframe->list, &pmp_priv->free_mp_xmitqueue.queue);
++
++		pmp_xmitframe->pkt = NULL;
++		pmp_xmitframe->frame_tag = MP_FRAMETAG;
++		pmp_xmitframe->padapter = pmp_priv->papdater;
++
++		pmp_xmitframe++;
++	}
++
++	pmp_priv->free_mp_xmitframe_cnt = NR_MP_XMITFRAME;
++
++	res = _SUCCESS;
++
++_exit_init_mp_priv:
++
++	return res;
++}
++#endif
++
++static void mp_init_xmit_attrib(struct mp_tx *pmptx, PADAPTER padapter)
++{
++	struct pkt_attrib *pattrib;
++	struct tx_desc *desc;
++
++	// init xmitframe attribute
++	pattrib = &pmptx->attrib;
++	_rtw_memset(pattrib, 0, sizeof(struct pkt_attrib));
++	desc = &pmptx->desc;
++	_rtw_memset(desc, 0, TXDESC_SIZE);
++
++	pattrib->ether_type = 0x8712;
++	//_rtw_memcpy(pattrib->src, padapter->eeprompriv.mac_addr, ETH_ALEN);
++//	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++	_rtw_memset(pattrib->dst, 0xFF, ETH_ALEN);
++//	pattrib->pctrl = 0;
++//	pattrib->dhcp_pkt = 0;
++//	pattrib->pktlen = 0;
++	pattrib->ack_policy = 0;
++//	pattrib->pkt_hdrlen = ETH_HLEN;
++	pattrib->hdrlen = WLAN_HDR_A3_LEN;
++	pattrib->subtype = WIFI_DATA;
++	pattrib->priority = 0;
++	pattrib->qsel = pattrib->priority;
++//	do_queue_select(padapter, pattrib);
++	pattrib->nr_frags = 1;
++	pattrib->encrypt = 0;
++	pattrib->bswenc = _FALSE;
++	pattrib->qos_en = _FALSE;
++}
++
++s32 init_mp_priv(PADAPTER padapter)
++{
++	struct mp_priv *pmppriv = &padapter->mppriv;
++
++	_init_mp_priv_(pmppriv);
++	pmppriv->papdater = padapter;
++
++	pmppriv->tx.stop = 1;
++	mp_init_xmit_attrib(&pmppriv->tx, padapter);
++
++	switch (padapter->registrypriv.rf_config) {
++		case RF_1T1R:
++			pmppriv->antenna_tx = ANTENNA_A;
++			pmppriv->antenna_rx = ANTENNA_A;
++			break;
++		case RF_1T2R:
++		default:
++			pmppriv->antenna_tx = ANTENNA_A;
++			pmppriv->antenna_rx = ANTENNA_AB;
++			break;
++		case RF_2T2R:
++		case RF_2T2R_GREEN:
++			pmppriv->antenna_tx = ANTENNA_AB;
++			pmppriv->antenna_rx = ANTENNA_AB;
++			break;
++		case RF_2T4R:
++			pmppriv->antenna_tx = ANTENNA_AB;
++			pmppriv->antenna_rx = ANTENNA_ABCD;
++			break;
++	}
++
++	return _SUCCESS;
++}
++
++void free_mp_priv(struct mp_priv *pmp_priv)
++{
++	if (pmp_priv->pallocated_mp_xmitframe_buf) {
++		rtw_mfree(pmp_priv->pallocated_mp_xmitframe_buf, 0);
++		pmp_priv->pallocated_mp_xmitframe_buf = NULL;
++	}
++	pmp_priv->pmp_xmtframe_buf = NULL;
++}
++
++#ifdef CONFIG_RTL8192C
++#define PHY_IQCalibrate(a,b)	rtl8192c_PHY_IQCalibrate(a,b)
++#define PHY_LCCalibrate(a)	rtl8192c_PHY_LCCalibrate(a)
++#define dm_CheckTXPowerTracking(a)	rtl8192c_dm_CheckTXPowerTracking(a)
++#define PHY_SetRFPathSwitch(a,b)	rtl8192c_PHY_SetRFPathSwitch(a,b)
++#endif
++
++#ifdef CONFIG_RTL8192D
++#define PHY_IQCalibrate(a)	rtl8192d_PHY_IQCalibrate(a)
++#define PHY_LCCalibrate(a)	rtl8192d_PHY_LCCalibrate(a)
++#define dm_CheckTXPowerTracking(a)	rtl8192d_dm_CheckTXPowerTracking(a)
++#define PHY_SetRFPathSwitch(a,b)	rtl8192d_PHY_SetRFPathSwitch(a,b)
++#endif
++
++s32
++MPT_InitializeAdapter(
++	IN	PADAPTER			pAdapter,
++	IN	u8				Channel
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	s32		rtStatus = _SUCCESS;
++	PMPT_CONTEXT	pMptCtx = &pAdapter->mppriv.MptCtx;
++	u32		ledsetting;
++
++	//-------------------------------------------------------------------------
++	// HW Initialization for 8190 MPT.
++	//-------------------------------------------------------------------------
++	//-------------------------------------------------------------------------
++	// SW Initialization for 8190 MP.
++	//-------------------------------------------------------------------------
++	pMptCtx->bMptDrvUnload = _FALSE;
++	pMptCtx->bMassProdTest = _FALSE;
++	pMptCtx->bMptIndexEven = _TRUE;	//default gain index is -6.0db
++
++	/* Init mpt event. */
++#if 0 // for Windows
++	NdisInitializeEvent( &(pMptCtx->MptWorkItemEvent) );
++	NdisAllocateSpinLock( &(pMptCtx->MptWorkItemSpinLock) );
++
++	PlatformInitializeWorkItem(
++		Adapter,
++		&(pMptCtx->MptWorkItem),
++		(RT_WORKITEM_CALL_BACK)MPT_WorkItemCallback,
++		(PVOID)Adapter,
++		"MptWorkItem");
++#endif
++	pMptCtx->bMptWorkItemInProgress = _FALSE;
++	pMptCtx->CurrMptAct = NULL;
++	//-------------------------------------------------------------------------
++
++#if 1
++	// Don't accept any packets
++	rtw_write32(pAdapter, REG_RCR, 0);
++#else
++	// Accept CRC error and destination address
++	pHalData->ReceiveConfig |= (RCR_ACRC32|RCR_AAP);
++	rtw_write32(pAdapter, REG_RCR, pHalData->ReceiveConfig);
++#endif
++
++#if 0
++	// If EEPROM or EFUSE is empty,we assign as RF 2T2R for MP.
++	if (pHalData->AutoloadFailFlag == TRUE)
++	{
++		pHalData->RF_Type = RF_2T2R;
++	}
++#endif
++	ledsetting = rtw_read32(pAdapter, REG_LEDCFG0);
++	rtw_write32(pAdapter, REG_LEDCFG0, ledsetting & ~LED0DIS);
++
++#ifdef CONFIG_RTL8192C
++	PHY_IQCalibrate(pAdapter, _FALSE);
++	dm_CheckTXPowerTracking(pAdapter);	//trigger thermal meter
++	PHY_LCCalibrate(pAdapter);
++#endif
++
++#ifdef CONFIG_RTL8192D
++	PHY_IQCalibrate(pAdapter);
++	dm_CheckTXPowerTracking(pAdapter);	//trigger thermal meter
++	PHY_LCCalibrate(pAdapter);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	PHY_SetRFPathSwitch(pAdapter, 1/*pHalData->bDefaultAntenna*/);	//Wifi default use Main
++#else
++
++#ifdef CONFIG_RTL8192C
++#if 1
++	if (pHalData->BoardType == BOARD_MINICARD)
++		PHY_SetRFPathSwitch(pAdapter, 1/*pHalData->bDefaultAntenna*/); //default use Main
++#else
++	if(pAdapter->HalFunc.GetInterfaceSelectionHandler(pAdapter) == INTF_SEL2_MINICARD )
++		PHY_SetRFPathSwitch(Adapter, pAdapter->MgntInfo.bDefaultAntenna); //default use Main
++#endif
++
++#endif
++
++#endif
++
++	pMptCtx->backup0xc50 = (u1Byte)PHY_QueryBBReg(pAdapter, rOFDM0_XAAGCCore1, bMaskByte0);
++	pMptCtx->backup0xc58 = (u1Byte)PHY_QueryBBReg(pAdapter, rOFDM0_XBAGCCore1, bMaskByte0);
++	pMptCtx->backup0xc30 = (u1Byte)PHY_QueryBBReg(pAdapter, rOFDM0_RxDetector1, bMaskByte0);
++
++	return	rtStatus;
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	MPT_DeInitAdapter()
++ *
++ * Overview:	Extra DeInitialization for Mass Production Test.
++ *
++ * Input:		PADAPTER	pAdapter
++ *
++ * Output:		NONE
++ *
++ * Return:		NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	05/08/2007	MHC		Create Version 0.
++ *	05/18/2007	MHC		Add normal driver MPHalt code.
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++MPT_DeInitAdapter(
++	IN	PADAPTER	pAdapter
++	)
++{
++	PMPT_CONTEXT		pMptCtx = &pAdapter->mppriv.MptCtx;
++
++	pMptCtx->bMptDrvUnload = _TRUE;
++#if 0 // for Windows
++	PlatformFreeWorkItem( &(pMptCtx->MptWorkItem) );
++
++	while(pMptCtx->bMptWorkItemInProgress)
++	{
++		if(NdisWaitEvent(&(pMptCtx->MptWorkItemEvent), 50))
++		{
++			break;
++		}
++	}
++	NdisFreeSpinLock( &(pMptCtx->MptWorkItemSpinLock) );
++#endif
++}
++
++static u8 mpt_ProStartTest(PADAPTER padapter)
++{
++	PMPT_CONTEXT pMptCtx = &padapter->mppriv.MptCtx;
++
++	pMptCtx->bMassProdTest = _TRUE;
++	pMptCtx->bStartContTx = _FALSE;
++	pMptCtx->bCckContTx = _FALSE;
++	pMptCtx->bOfdmContTx = _FALSE;
++	pMptCtx->bSingleCarrier = _FALSE;
++	pMptCtx->bCarrierSuppression = _FALSE;
++	pMptCtx->bSingleTone = _FALSE;
++
++	return _SUCCESS;
++}
++
++/*
++ * General use
++ */
++s32 SetPowerTracking(PADAPTER padapter, u8 enable)
++{
++
++	Hal_SetPowerTracking( padapter, enable );
++	return 0;
++}
++
++void GetPowerTracking(PADAPTER padapter, u8 *enable)
++{
++	Hal_GetPowerTracking( padapter, enable );
++}
++
++static void disable_dm(PADAPTER padapter)
++{
++#ifndef CONFIG_RTL8723A
++	u8 v8;
++#endif
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++
++
++	//3 1. disable firmware dynamic mechanism
++	// disable Power Training, Rate Adaptive
++#ifdef CONFIG_RTL8723A
++	SetBcnCtrlReg(padapter, 0, EN_BCN_FUNCTION);
++#else
++	v8 = rtw_read8(padapter, REG_BCN_CTRL);
++	v8 &= ~EN_BCN_FUNCTION;
++	rtw_write8(padapter, REG_BCN_CTRL, v8);
++#endif
++
++	//3 2. disable driver dynamic mechanism
++	// disable Dynamic Initial Gain
++	// disable High Power
++	// disable Power Tracking
++	Switch_DM_Func(padapter, DYNAMIC_FUNC_DISABLE, _FALSE);
++
++	// enable APK, LCK and IQK but disable power tracking
++	pdmpriv->TxPowerTrackControl = _FALSE;
++	Switch_DM_Func(padapter, DYNAMIC_FUNC_SS, _TRUE);
++}
++
++//This function initializes the DUT to the MP test mode
++s32 mp_start_test(PADAPTER padapter)
++{
++	WLAN_BSSID_EX bssid;
++	struct sta_info *psta;
++	u32 length;
++	u8 val8;
++
++	_irqL irqL;
++	s32 res = _SUCCESS;
++
++	struct mp_priv *pmppriv = &padapter->mppriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network *tgt_network = &pmlmepriv->cur_network;
++
++
++	//3 disable dynamic mechanism
++	disable_dm(padapter);
++
++	//3 0. update mp_priv
++#if  defined (CONFIG_RTL8192C)  ||  defined (CONFIG_RTL8192D)
++	if (padapter->registrypriv.rf_config == RF_819X_MAX_TYPE) {
++//		HAL_DATA_TYPE *phal = GET_HAL_DATA(padapter);
++//		switch (phal->rf_type) {
++		switch (GET_RF_TYPE(padapter)) {
++			case RF_1T1R:
++				pmppriv->antenna_tx = ANTENNA_A;
++				pmppriv->antenna_rx = ANTENNA_A;
++				break;
++			case RF_1T2R:
++			default:
++				pmppriv->antenna_tx = ANTENNA_A;
++				pmppriv->antenna_rx = ANTENNA_AB;
++				break;
++			case RF_2T2R:
++			case RF_2T2R_GREEN:
++				pmppriv->antenna_tx = ANTENNA_AB;
++				pmppriv->antenna_rx = ANTENNA_AB;
++				break;
++			case RF_2T4R:
++				pmppriv->antenna_tx = ANTENNA_AB;
++				pmppriv->antenna_rx = ANTENNA_ABCD;
++				break;
++		}
++	}
++#endif
++	mpt_ProStartTest(padapter);
++
++	//3 1. initialize a new WLAN_BSSID_EX
++//	_rtw_memset(&bssid, 0, sizeof(WLAN_BSSID_EX));
++	_rtw_memcpy(bssid.MacAddress, pmppriv->network_macaddr, ETH_ALEN);
++	bssid.Ssid.SsidLength = strlen("mp_pseudo_adhoc");
++	_rtw_memcpy(bssid.Ssid.Ssid, (u8*)"mp_pseudo_adhoc", bssid.Ssid.SsidLength);
++	bssid.InfrastructureMode = Ndis802_11IBSS;
++	bssid.NetworkTypeInUse = Ndis802_11DS;
++	bssid.IELength = 0;
++
++	length = get_WLAN_BSSID_EX_sz(&bssid);
++	if (length % 4)
++		bssid.Length = ((length >> 2) + 1) << 2; //round up to multiple of 4 bytes.
++	else
++		bssid.Length = length;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	if (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE)
++		goto end_of_mp_start_test;
++
++	//init mp_start_test status
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++		rtw_disassoc_cmd(padapter, 500, _TRUE);
++		rtw_indicate_disconnect(padapter);
++		rtw_free_assoc_resources(padapter, 1);
++	}
++	pmppriv->prev_fw_state = get_fwstate(pmlmepriv);
++	pmlmepriv->fw_state = WIFI_MP_STATE;
++#if 0
++	if (pmppriv->mode == _LOOPBOOK_MODE_) {
++		set_fwstate(pmlmepriv, WIFI_MP_LPBK_STATE); //append txdesc
++		RT_TRACE(_module_mp_, _drv_notice_, ("+start mp in Lookback mode\n"));
++	} else {
++		RT_TRACE(_module_mp_, _drv_notice_, ("+start mp in normal mode\n"));
++	}
++#endif
++	set_fwstate(pmlmepriv, _FW_UNDER_LINKING);
++
++	//3 2. create a new psta for mp driver
++	//clear psta in the cur_network, if any
++	psta = rtw_get_stainfo(&padapter->stapriv, tgt_network->network.MacAddress);
++	if (psta) rtw_free_stainfo(padapter, psta);
++
++	psta = rtw_alloc_stainfo(&padapter->stapriv, bssid.MacAddress);
++	if (psta == NULL) {
++		RT_TRACE(_module_mp_, _drv_err_, ("mp_start_test: Can't alloc sta_info!\n"));
++		pmlmepriv->fw_state = pmppriv->prev_fw_state;
++		res = _FAIL;
++		goto end_of_mp_start_test;
++	}
++
++	//3 3. join psudo AdHoc
++	tgt_network->join_res = 1;
++	tgt_network->aid = psta->aid = 1;
++	_rtw_memcpy(&tgt_network->network, &bssid, length);
++
++	rtw_indicate_connect(padapter);
++	_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++
++end_of_mp_start_test:
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++	if (res == _SUCCESS)
++	{
++		// set MSR to WIFI_FW_ADHOC_STATE
++#if  defined (CONFIG_RTL8192C)  ||  defined (CONFIG_RTL8192D)
++		val8 = rtw_read8(padapter, MSR) & 0xFC; // 0x0102
++		val8 |= WIFI_FW_ADHOC_STATE;
++		rtw_write8(padapter, MSR, val8); // Link in ad hoc network
++#endif
++
++#if  !defined (CONFIG_RTL8192C)  &&  !defined (CONFIG_RTL8192D)
++		rtw_write8(padapter, MSR, 1); // Link in ad hoc network
++		rtw_write8(padapter, RCR, 0); // RCR : disable all pkt, 0x10250048
++		rtw_write8(padapter, RCR+2, 0x57); // RCR disable Check BSSID, 0x1025004a
++
++		// disable RX filter map , mgt frames will put in RX FIFO 0
++		rtw_write16(padapter, RXFLTMAP0, 0x0); // 0x10250116
++
++		val8 = rtw_read8(padapter, EE_9346CR); // 0x1025000A
++		if (!(val8 & _9356SEL))//boot from EFUSE
++			efuse_change_max_size(padapter);
++#endif
++	}
++
++	return res;
++}
++//------------------------------------------------------------------------------
++//This function change the DUT from the MP test mode into normal mode
++void mp_stop_test(PADAPTER padapter)
++{
++	struct mp_priv *pmppriv = &padapter->mppriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network *tgt_network = &pmlmepriv->cur_network;
++	struct sta_info *psta;
++
++	_irqL irqL;
++
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	if (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _FALSE)
++		goto end_of_mp_stop_test;
++
++	//3 1. disconnect psudo AdHoc
++	rtw_indicate_disconnect(padapter);
++
++	//3 2. clear psta used in mp test mode.
++//	rtw_free_assoc_resources(padapter, 1);
++	psta = rtw_get_stainfo(&padapter->stapriv, tgt_network->network.MacAddress);
++	if (psta) rtw_free_stainfo(padapter, psta);
++
++	//3 3. return to normal state (default:station mode)
++	pmlmepriv->fw_state = pmppriv->prev_fw_state; // WIFI_STATION_STATE;
++
++	//flush the cur_network
++	_rtw_memset(tgt_network, 0, sizeof(struct wlan_network));
++
++	_clr_fwstate_(pmlmepriv, WIFI_MP_STATE);
++
++end_of_mp_stop_test:
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++/*---------------------------hal\rtl8192c\MPT_Phy.c---------------------------*/
++#if 0
++//#ifdef CONFIG_USB_HCI
++static VOID mpt_AdjustRFRegByRateByChan92CU(PADAPTER pAdapter, u8 RateIdx, u8 Channel, u8 BandWidthID)
++{
++	u8		eRFPath;
++	u32		rfReg0x26;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++
++	if (RateIdx < MPT_RATE_6M) {	// CCK rate,for 88cu
++		rfReg0x26 = 0xf400;
++	}
++	else if ((RateIdx >= MPT_RATE_6M) && (RateIdx <= MPT_RATE_54M)) {// OFDM rate,for 88cu
++		if ((4 == Channel) || (8 == Channel) || (12 == Channel))
++			rfReg0x26 = 0xf000;
++		else if ((5 == Channel) || (7 == Channel) || (13 == Channel) || (14 == Channel))
++			rfReg0x26 = 0xf400;
++		else
++			rfReg0x26 = 0x4f200;
++	}
++	else if ((RateIdx >= MPT_RATE_MCS0) && (RateIdx <= MPT_RATE_MCS15)) {// MCS 20M ,for 88cu // MCS40M rate,for 88cu
++
++		if (HT_CHANNEL_WIDTH_20 == BandWidthID) {
++			if ((4 == Channel) || (8 == Channel))
++				rfReg0x26 = 0xf000;
++			else if ((5 == Channel) || (7 == Channel) || (13 == Channel) || (14 == Channel))
++				rfReg0x26 = 0xf400;
++			else
++				rfReg0x26 = 0x4f200;
++		}
++		else{
++			if ((4 == Channel) || (8 == Channel))
++				rfReg0x26 = 0xf000;
++			else if ((5 == Channel) || (7 == Channel))
++				rfReg0x26 = 0xf400;
++			else
++				rfReg0x26 = 0x4f200;
++		}
++	}
++
++//	RT_TRACE(COMP_CMD, DBG_LOUD, ("\n mpt_AdjustRFRegByRateByChan92CU():Chan:%d Rate=%d rfReg0x26:0x%08x\n",Channel, RateIdx,rfReg0x26));
++	for (eRFPath = 0; eRFPath < pHalData->NumTotalRFPath; eRFPath++) {
++		write_rfreg(pAdapter, eRFPath, RF_SYN_G2, rfReg0x26);
++	}
++}
++#endif
++/*-----------------------------------------------------------------------------
++ * Function:	mpt_SwitchRfSetting
++ *
++ * Overview:	Change RF Setting when we siwthc channel/rate/BW for MP.
++ *
++ * Input:       IN	PADAPTER				pAdapter
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 01/08/2009	MHC		Suggestion from SD3 Willis for 92S series.
++ * 01/09/2009	MHC		Add CCK modification for 40MHZ. Suggestion from SD3.
++ *
++ *---------------------------------------------------------------------------*/
++static void mpt_SwitchRfSetting(PADAPTER pAdapter)
++{
++	Hal_mpt_SwitchRfSetting(pAdapter);
++    }
++
++/*---------------------------hal\rtl8192c\MPT_Phy.c---------------------------*/
++/*---------------------------hal\rtl8192c\MPT_HelperFunc.c---------------------------*/
++static void MPT_CCKTxPowerAdjust(PADAPTER Adapter, BOOLEAN bInCH14)
++{
++	Hal_MPT_CCKTxPowerAdjust(Adapter,bInCH14);
++}
++
++static void MPT_CCKTxPowerAdjustbyIndex(PADAPTER pAdapter, BOOLEAN beven)
++{
++	Hal_MPT_CCKTxPowerAdjustbyIndex(pAdapter,beven);
++	}
++
++/*---------------------------hal\rtl8192c\MPT_HelperFunc.c---------------------------*/
++
++/*
++ * SetChannel
++ * Description
++ *	Use H2C command to change channel,
++ *	not only modify rf register, but also other setting need to be done.
++ */
++void SetChannel(PADAPTER pAdapter)
++{
++	Hal_SetChannel(pAdapter);
++
++}
++
++/*
++ * Notice
++ *	Switch bandwitdth may change center frequency(channel)
++ */
++void SetBandwidth(PADAPTER pAdapter)
++{
++	Hal_SetBandwidth(pAdapter);
++
++}
++
++static void SetCCKTxPower(PADAPTER pAdapter, u8 *TxPower)
++{
++	Hal_SetCCKTxPower(pAdapter,TxPower);
++}
++
++static void SetOFDMTxPower(PADAPTER pAdapter, u8 *TxPower)
++{
++	Hal_SetOFDMTxPower(pAdapter,TxPower);
++	}
++
++
++void SetAntenna(PADAPTER pAdapter)
++	{
++	Hal_SetAntenna(pAdapter);
++}
++
++void	SetAntennaPathPower(PADAPTER pAdapter)
++{
++	Hal_SetAntennaPathPower(pAdapter);
++}
++	
++void SetTxPower(PADAPTER pAdapter)
++{
++	Hal_SetTxPower(pAdapter);
++	}
++
++void SetTxAGCOffset(PADAPTER pAdapter, u32 ulTxAGCOffset)
++{
++	u32 TxAGCOffset_B, TxAGCOffset_C, TxAGCOffset_D,tmpAGC;
++
++	TxAGCOffset_B = (ulTxAGCOffset&0x000000ff);
++	TxAGCOffset_C = ((ulTxAGCOffset&0x0000ff00)>>8);
++	TxAGCOffset_D = ((ulTxAGCOffset&0x00ff0000)>>16);
++
++	tmpAGC = (TxAGCOffset_D<<8 | TxAGCOffset_C<<4 | TxAGCOffset_B);
++	write_bbreg(pAdapter, rFPGA0_TxGainStage,
++			(bXBTxAGC|bXCTxAGC|bXDTxAGC), tmpAGC);
++}
++
++void SetDataRate(PADAPTER pAdapter)
++{
++	Hal_SetDataRate(pAdapter);
++}
++
++#if  !defined (CONFIG_RTL8192C)  &&  !defined (CONFIG_RTL8192D)
++/*------------------------------Define structure----------------------------*/
++typedef struct _R_ANTENNA_SELECT_OFDM {
++	u32	r_tx_antenna:4;
++	u32	r_ant_l:4;
++	u32	r_ant_non_ht:4;
++	u32	r_ant_ht1:4;
++	u32	r_ant_ht2:4;
++	u32	r_ant_ht_s1:4;
++	u32	r_ant_non_ht_s1:4;
++	u32	OFDM_TXSC:2;
++	u32	Reserved:2;
++}R_ANTENNA_SELECT_OFDM;
++
++typedef struct _R_ANTENNA_SELECT_CCK {
++	u8	r_cckrx_enable_2:2;
++	u8	r_cckrx_enable:2;
++	u8	r_ccktx_enable:4;
++}R_ANTENNA_SELECT_CCK;
++#endif
++
++s32 SetThermalMeter(PADAPTER pAdapter, u8 target_ther)
++{
++	return Hal_SetThermalMeter( pAdapter, target_ther);
++}
++
++static void TriggerRFThermalMeter(PADAPTER pAdapter)
++{
++	Hal_TriggerRFThermalMeter(pAdapter);
++}
++
++static u8 ReadRFThermalMeter(PADAPTER pAdapter)
++{
++	return Hal_ReadRFThermalMeter(pAdapter);
++}
++
++void GetThermalMeter(PADAPTER pAdapter, u8 *value)
++{
++	Hal_GetThermalMeter(pAdapter,value);
++}
++
++void SetSingleCarrierTx(PADAPTER pAdapter, u8 bStart)
++{
++	Hal_SetSingleCarrierTx(pAdapter,bStart);
++}
++
++void SetSingleToneTx(PADAPTER pAdapter, u8 bStart)
++{
++	Hal_SetSingleToneTx(pAdapter,bStart);
++}
++
++void SetCarrierSuppressionTx(PADAPTER pAdapter, u8 bStart)
++{
++	Hal_SetCarrierSuppressionTx(pAdapter, bStart);
++}
++
++void SetCCKContinuousTx(PADAPTER pAdapter, u8 bStart)
++		{
++	Hal_SetCCKContinuousTx(pAdapter,bStart);
++		}
++
++void SetOFDMContinuousTx(PADAPTER pAdapter, u8 bStart)
++        {
++   Hal_SetOFDMContinuousTx( pAdapter, bStart);
++}/* mpt_StartOfdmContTx */
++
++void SetContinuousTx(PADAPTER pAdapter, u8 bStart)
++{
++	Hal_SetContinuousTx(pAdapter,bStart);
++}
++
++//------------------------------------------------------------------------------
++static void dump_mpframe(PADAPTER padapter, struct xmit_frame *pmpframe)
++{
++	rtw_hal_mgnt_xmit(padapter, pmpframe);
++}
++
++static struct xmit_frame *alloc_mp_xmitframe(struct xmit_priv *pxmitpriv)
++{
++	struct xmit_frame	*pmpframe;
++	struct xmit_buf	*pxmitbuf;
++
++	if ((pmpframe = rtw_alloc_xmitframe(pxmitpriv)) == NULL)
++	{
++		return NULL;
++	}
++
++	if ((pxmitbuf = rtw_alloc_xmitbuf(pxmitpriv)) == NULL)
++	{
++		rtw_free_xmitframe(pxmitpriv, pmpframe);
++		return NULL;
++	}
++
++	pmpframe->frame_tag = MP_FRAMETAG;
++
++	pmpframe->pxmitbuf = pxmitbuf;
++
++	pmpframe->buf_addr = pxmitbuf->pbuf;
++
++	pxmitbuf->priv_data = pmpframe;
++
++	return pmpframe;
++
++}
++
++static thread_return mp_xmit_packet_thread(thread_context context)
++{
++	struct xmit_frame	*pxmitframe;
++	struct mp_tx		*pmptx;
++	struct mp_priv	*pmp_priv;
++	struct xmit_priv	*pxmitpriv;
++	PADAPTER padapter;
++
++	pmp_priv = (struct mp_priv *)context;
++	pmptx = &pmp_priv->tx;
++	padapter = pmp_priv->papdater;
++	pxmitpriv = &(padapter->xmitpriv);
++
++	thread_enter("RTW_MP_THREAD");
++
++	DBG_871X("%s:pkTx Start\n", __func__);
++	while (1) {
++		pxmitframe = alloc_mp_xmitframe(pxmitpriv);
++		if (pxmitframe == NULL) {
++			if (pmptx->stop ||
++			    padapter->bSurpriseRemoved ||
++			    padapter->bDriverStopped) {
++				goto exit;
++			}
++			else {
++				rtw_msleep_os(1);
++				continue;
++			}
++		}
++
++		_rtw_memcpy((u8 *)(pxmitframe->buf_addr+TXDESC_OFFSET), pmptx->buf, pmptx->write_size);
++		_rtw_memcpy(&(pxmitframe->attrib), &(pmptx->attrib), sizeof(struct pkt_attrib));
++
++		dump_mpframe(padapter, pxmitframe);
++
++		pmptx->sended++;
++		pmp_priv->tx_pktcount++;
++
++		if (pmptx->stop ||
++		    padapter->bSurpriseRemoved ||
++		    padapter->bDriverStopped)
++			goto exit;
++		if ((pmptx->count != 0) &&
++		    (pmptx->count == pmptx->sended))
++			goto exit;
++
++		flush_signals_thread();
++	}
++
++exit:
++	//DBG_871X("%s:pkTx Exit\n", __func__);
++	rtw_mfree(pmptx->pallocated_buf, pmptx->buf_size);
++	pmptx->pallocated_buf = NULL;
++	pmptx->stop = 1;
++
++	thread_exit();
++}
++
++void fill_txdesc_for_mp(PADAPTER padapter, struct tx_desc *ptxdesc)
++{		
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	_rtw_memcpy(ptxdesc, &(pmp_priv->tx.desc), TXDESC_SIZE);
++}
++
++void SetPacketTx(PADAPTER padapter)
++{
++	u8 *ptr, *pkt_start, *pkt_end;
++	u32 pkt_size;
++	struct tx_desc *desc;
++	struct rtw_ieee80211_hdr *hdr;
++	u8 payload;
++	s32 bmcast;
++	struct pkt_attrib *pattrib;
++	struct mp_priv *pmp_priv;
++
++
++	pmp_priv = &padapter->mppriv;
++	if (pmp_priv->tx.stop) return;
++	pmp_priv->tx.sended = 0;
++	pmp_priv->tx.stop = 0;
++	pmp_priv->tx_pktcount = 0;
++
++	//3 1. update_attrib()
++	pattrib = &pmp_priv->tx.attrib;
++	_rtw_memcpy(pattrib->src, padapter->eeprompriv.mac_addr, ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++	bmcast = IS_MCAST(pattrib->ra);
++	if (bmcast) {
++		pattrib->mac_id = 1;
++		pattrib->psta = rtw_get_bcmc_stainfo(padapter);
++	} else {
++		pattrib->mac_id = 0;
++		pattrib->psta = rtw_get_stainfo(&padapter->stapriv, get_bssid(&padapter->mlmepriv));
++	}
++
++	pattrib->last_txcmdsz = pattrib->hdrlen + pattrib->pktlen;
++
++	//3 2. allocate xmit buffer
++	pkt_size = pattrib->last_txcmdsz;
++
++	if (pmp_priv->tx.pallocated_buf)
++		rtw_mfree(pmp_priv->tx.pallocated_buf, pmp_priv->tx.buf_size);
++	pmp_priv->tx.write_size = pkt_size;
++	pmp_priv->tx.buf_size = pkt_size + XMITBUF_ALIGN_SZ;
++	pmp_priv->tx.pallocated_buf = rtw_zmalloc(pmp_priv->tx.buf_size);
++	if (pmp_priv->tx.pallocated_buf == NULL) {
++		DBG_871X("%s: malloc(%d) fail!!\n", __func__, pmp_priv->tx.buf_size);
++		return;
++	}
++	pmp_priv->tx.buf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pmp_priv->tx.pallocated_buf), XMITBUF_ALIGN_SZ);
++	ptr = pmp_priv->tx.buf;
++
++	desc = &(pmp_priv->tx.desc);
++	_rtw_memset(desc, 0, TXDESC_SIZE);
++	pkt_start = ptr;
++	pkt_end = pkt_start + pkt_size;
++
++	//3 3. init TX descriptor
++	// offset 0
++	//desc->txdw0 |= cpu_to_le32(pkt_size & 0x0000FFFF); // packet size
++	//desc->txdw0 |= cpu_to_le32(OWN | FSG | LSG);
++	//desc->txdw0 |= cpu_to_le32(((TXDESC_SIZE + OFFSET_SZ) << OFFSET_SHT) & 0x00FF0000); //32 bytes for TX Desc
++	//if (bmcast) desc->txdw0 |= cpu_to_le32(BMC); // broadcast packet
++
++	// offset 4
++	desc->txdw1 |= cpu_to_le32(BK); // don't aggregate(AMPDU)
++	desc->txdw1 |= cpu_to_le32((pattrib->mac_id) & 0x1F); //CAM_ID(MAC_ID)
++	desc->txdw1 |= cpu_to_le32((pattrib->qsel << QSEL_SHT) & 0x00001F00); // Queue Select, TID
++	desc->txdw1 |= cpu_to_le32((pattrib->raid << Rate_ID_SHT) & 0x000F0000); // Rate Adaptive ID
++
++	// offset 8
++	// offset 12
++	//desc->txdw3 |= cpu_to_le32((pattrib->seqnum << SEQ_SHT) & 0xffff0000);
++
++	// offset 16
++	//desc->txdw4 |= cpu_to_le32(QoS);
++	desc->txdw4 |= cpu_to_le32(HW_SEQ_EN);
++	desc->txdw4 |= cpu_to_le32(USERATE);
++	desc->txdw4 |= cpu_to_le32(DISDATAFB);
++
++	if( pmp_priv->preamble ){
++		if (pmp_priv->rateidx <=  MPT_RATE_54M)
++			desc->txdw4 |= cpu_to_le32(DATA_SHORT); // CCK Short Preamble
++	}
++	if (pmp_priv->bandwidth == HT_CHANNEL_WIDTH_40)
++		desc->txdw4 |= cpu_to_le32(DATA_BW);
++
++	// offset 20
++	desc->txdw5 |= cpu_to_le32(pmp_priv->rateidx & 0x0000001F);
++
++	if( pmp_priv->preamble ){
++		if (pmp_priv->rateidx > MPT_RATE_54M)
++			desc->txdw5 |= cpu_to_le32(SGI); // MCS Short Guard Interval
++	}
++	desc->txdw5 |= cpu_to_le32(0x0001FF00); // DATA/RTS Rate Fallback Limit
++
++	//3 4. make wlan header, make_wlanhdr()
++	hdr = (struct rtw_ieee80211_hdr *)pkt_start;
++	SetFrameSubType(&hdr->frame_ctl, pattrib->subtype);
++	_rtw_memcpy(hdr->addr1, pattrib->dst, ETH_ALEN); // DA
++	_rtw_memcpy(hdr->addr2, pattrib->src, ETH_ALEN); // SA
++	_rtw_memcpy(hdr->addr3, get_bssid(&padapter->mlmepriv), ETH_ALEN); // RA, BSSID
++
++	//3 5. make payload
++	ptr = pkt_start + pattrib->hdrlen;
++
++	switch (pmp_priv->tx.payload) {
++		case 0:
++			payload = 0x00;
++			break;
++		case 1:
++			payload = 0x5a;
++			break;
++		case 2:
++			payload = 0xa5;
++			break;
++		case 3:
++			payload = 0xff;
++			break;
++		default:
++			payload = 0x00;
++			break;
++	}
++
++	_rtw_memset(ptr, payload, pkt_end - ptr);
++
++	//3 6. start thread
++#ifdef PLATFORM_LINUX
++	pmp_priv->tx.PktTxThread = kthread_run(mp_xmit_packet_thread, pmp_priv, "RTW_MP_THREAD");
++	if (IS_ERR(pmp_priv->tx.PktTxThread))
++		DBG_871X("Create PktTx Thread Fail !!!!!\n");
++#endif
++#ifdef PLATFORM_FREEBSD
++{
++	struct proc *p;
++	struct thread *td;
++	pmp_priv->tx.PktTxThread = kproc_kthread_add(mp_xmit_packet_thread, pmp_priv,
++					&p, &td, RFHIGHPID, 0, "MPXmitThread", "MPXmitThread");
++
++	if (pmp_priv->tx.PktTxThread < 0)
++		DBG_871X("Create PktTx Thread Fail !!!!!\n");
++}
++#endif
++}
++
++void SetPacketRx(PADAPTER pAdapter, u8 bStartRx)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	if(bStartRx)
++	{
++		pHalData->ReceiveConfig = AAP | APM | AM | AB | APP_ICV | ADF | AMF | HTC_LOC_CTRL | APP_MIC | APP_PHYSTS;
++	
++		pHalData->ReceiveConfig |= ACRC32;
++	
++		rtw_write32(pAdapter, REG_RCR, pHalData->ReceiveConfig);
++
++		// Accept all data frames
++		rtw_write16(pAdapter, REG_RXFLTMAP2, 0xFFFF);
++	}
++	else
++	{
++		rtw_write32(pAdapter, REG_RCR, 0);
++	}
++}
++
++void ResetPhyRxPktCount(PADAPTER pAdapter)
++{
++	u32 i, phyrx_set = 0;
++
++	for (i = 0; i <= 0xF; i++) {
++		phyrx_set = 0;
++		phyrx_set |= _RXERR_RPT_SEL(i);	//select
++		phyrx_set |= RXERR_RPT_RST;	// set counter to zero
++		rtw_write32(pAdapter, REG_RXERR_RPT, phyrx_set);
++	}
++}
++
++static u32 GetPhyRxPktCounts(PADAPTER pAdapter, u32 selbit)
++{
++	//selection
++	u32 phyrx_set = 0, count = 0;
++
++	phyrx_set = _RXERR_RPT_SEL(selbit & 0xF);
++	rtw_write32(pAdapter, REG_RXERR_RPT, phyrx_set);
++
++	//Read packet count
++	count = rtw_read32(pAdapter, REG_RXERR_RPT) & RXERR_COUNTER_MASK;
++
++	return count;
++}
++
++u32 GetPhyRxPktReceived(PADAPTER pAdapter)
++{
++	u32 OFDM_cnt = 0, CCK_cnt = 0, HT_cnt = 0;
++
++	OFDM_cnt = GetPhyRxPktCounts(pAdapter, RXERR_TYPE_OFDM_MPDU_OK);
++	CCK_cnt = GetPhyRxPktCounts(pAdapter, RXERR_TYPE_CCK_MPDU_OK);
++	HT_cnt = GetPhyRxPktCounts(pAdapter, RXERR_TYPE_HT_MPDU_OK);
++
++	return OFDM_cnt + CCK_cnt + HT_cnt;
++}
++
++u32 GetPhyRxPktCRC32Error(PADAPTER pAdapter)
++{
++	u32 OFDM_cnt = 0, CCK_cnt = 0, HT_cnt = 0;
++
++	OFDM_cnt = GetPhyRxPktCounts(pAdapter, RXERR_TYPE_OFDM_MPDU_FAIL);
++	CCK_cnt = GetPhyRxPktCounts(pAdapter, RXERR_TYPE_CCK_MPDU_FAIL);
++	HT_cnt = GetPhyRxPktCounts(pAdapter, RXERR_TYPE_HT_MPDU_FAIL);
++
++	return OFDM_cnt + CCK_cnt + HT_cnt;
++}
++
++//reg 0x808[9:0]: FFT data x
++//reg 0x808[22]:  0  -->  1  to get 1 FFT data y
++//reg 0x8B4[15:0]: FFT data y report
++static u32 GetPSDData(PADAPTER pAdapter, u32 point)
++{
++	int psd_val;
++
++
++	psd_val = rtw_read32(pAdapter, 0x808);
++	psd_val &= 0xFFBFFC00;
++	psd_val |= point;
++
++	rtw_write32(pAdapter, 0x808, psd_val);
++	rtw_mdelay_os(1);
++	psd_val |= 0x00400000;
++
++	rtw_write32(pAdapter, 0x808, psd_val);
++	rtw_mdelay_os(1);
++	psd_val = rtw_read32(pAdapter, 0x8B4);
++
++	psd_val &= 0x0000FFFF;
++
++	return psd_val;
++}
++
++/*
++ * pts	start_point_min		stop_point_max
++ * 128	64			64 + 128 = 192
++ * 256	128			128 + 256 = 384
++ * 512	256			256 + 512 = 768
++ * 1024	512			512 + 1024 = 1536
++ *
++ */
++u32 mp_query_psd(PADAPTER pAdapter, u8 *data)
++{
++	u32 i, psd_pts=0, psd_start=0, psd_stop=0;
++	u32 psd_data=0;
++	
++#ifdef PLATFORM_LINUX
++	if (!netif_running(pAdapter->pnetdev)) {
++		RT_TRACE(_module_mp_, _drv_warning_, ("mp_query_psd: Fail! interface not opened!\n"));
++		return 0;
++	}
++#endif
++
++	if (check_fwstate(&pAdapter->mlmepriv, WIFI_MP_STATE) == _FALSE) {
++		RT_TRACE(_module_mp_, _drv_warning_, ("mp_query_psd: Fail! not in MP mode!\n"));
++		return 0;
++	}
++
++	if (strlen(data) == 0) { //default value
++		psd_pts = 128;
++		psd_start = 64;
++		psd_stop = 128;   
++	} else {
++		sscanf(data, "pts=%d,start=%d,stop=%d", &psd_pts, &psd_start, &psd_stop);
++	}
++
++	_rtw_memset(data, '\0', sizeof(data));
++
++	i = psd_start;
++	while (i < psd_stop)
++	{
++		if (i >= psd_pts) {
++			psd_data = GetPSDData(pAdapter, i-psd_pts);
++		} else {
++			psd_data = GetPSDData(pAdapter, i);
++		}
++		sprintf(data, "%s%x ", data, psd_data);
++		i++;
++	}
++
++	#ifdef CONFIG_LONG_DELAY_ISSUE
++	rtw_msleep_os(100);
++	#else
++	rtw_mdelay_os(100);
++	#endif
++
++	return strlen(data)+1;
++}
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_mp_ioctl.c b/drivers/net/wireless/rtl8192cu/core/rtw_mp_ioctl.c
+new file mode 100755
+index 0000000..b941e2c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_mp_ioctl.c
+@@ -0,0 +1,2954 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_MP_IOCTL_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <mlme_osdep.h>
++
++//#include <rtw_mp.h>
++#include <rtw_mp_ioctl.h>
++
++
++//****************  oid_rtl_seg_81_85   section start ****************
++NDIS_STATUS oid_rt_wireless_mode_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	if (poid_par_priv->information_buf_len < sizeof(u8))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	if (poid_par_priv->type_of_oid == SET_OID) {
++		Adapter->registrypriv.wireless_mode = *(u8*)poid_par_priv->information_buf;
++	} else if (poid_par_priv->type_of_oid == QUERY_OID) {
++		*(u8*)poid_par_priv->information_buf = Adapter->registrypriv.wireless_mode;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++		 RT_TRACE(_module_mp_, _drv_info_, ("-query Wireless Mode=%d\n", Adapter->registrypriv.wireless_mode));
++	} else {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++	}
++
++_func_exit_;
++
++	return status;
++}
++//****************  oid_rtl_seg_81_87_80   section start ****************
++NDIS_STATUS oid_rt_pro_write_bb_reg_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL oldirql;
++#endif
++	struct bb_reg_param *pbbreg;
++	u16 offset;
++	u32 value;
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+oid_rt_pro_write_bb_reg_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(struct bb_reg_param))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pbbreg = (struct bb_reg_param *)(poid_par_priv->information_buf);
++
++	offset = (u16)(pbbreg->offset) & 0xFFF; //0ffset :0x800~0xfff
++	if (offset < BB_REG_BASE_ADDR) offset |= BB_REG_BASE_ADDR;
++
++	value = pbbreg->value;
++
++	RT_TRACE(_module_mp_, _drv_notice_,
++		 ("oid_rt_pro_write_bb_reg_hdl: offset=0x%03X value=0x%08X\n",
++		  offset, value));
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	write_bbreg(Adapter, offset, 0xFFFFFFFF, value);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_read_bb_reg_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL oldirql;
++#endif
++	struct bb_reg_param *pbbreg;
++	u16 offset;
++	u32 value;
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+oid_rt_pro_read_bb_reg_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(struct bb_reg_param))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pbbreg = (struct bb_reg_param *)(poid_par_priv->information_buf);
++
++	offset = (u16)(pbbreg->offset) & 0xFFF; //0ffset :0x800~0xfff
++	if (offset < BB_REG_BASE_ADDR) offset |= BB_REG_BASE_ADDR;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	value = read_bbreg(Adapter, offset, 0xFFFFFFFF);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	pbbreg->value = value;
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++	RT_TRACE(_module_mp_, _drv_notice_,
++		 ("-oid_rt_pro_read_bb_reg_hdl: offset=0x%03X value:0x%08X\n",
++		  offset, value));
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_write_rf_reg_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL oldirql;
++#endif
++	struct rf_reg_param *pbbreg;
++	u8 path;
++	u8 offset;
++	u32 value;
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+oid_rt_pro_write_rf_reg_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(struct rf_reg_param))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pbbreg = (struct rf_reg_param *)(poid_par_priv->information_buf);
++
++	if (pbbreg->path >= MAX_RF_PATH_NUMS)
++		return NDIS_STATUS_NOT_ACCEPTED;
++	if (pbbreg->offset > 0xFF)
++		return NDIS_STATUS_NOT_ACCEPTED;
++	if (pbbreg->value > 0xFFFFF)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	path = (u8)pbbreg->path;
++	offset = (u8)pbbreg->offset;
++	value = pbbreg->value;
++
++	RT_TRACE(_module_mp_, _drv_notice_,
++		 ("oid_rt_pro_write_rf_reg_hdl: path=%d offset=0x%02X value=0x%05X\n",
++		  path, offset, value));
++
++	_irqlevel_changed_(&oldirql, LOWER);
++ 	write_rfreg(Adapter, path, offset, value);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_read_rf_reg_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL oldirql;
++#endif
++	struct rf_reg_param *pbbreg;
++	u8 path;
++	u8 offset;
++	u32 value;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+oid_rt_pro_read_rf_reg_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(struct rf_reg_param))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pbbreg = (struct rf_reg_param *)(poid_par_priv->information_buf);
++
++	if (pbbreg->path >= MAX_RF_PATH_NUMS)
++		return NDIS_STATUS_NOT_ACCEPTED;
++	if (pbbreg->offset > 0xFF)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	path = (u8)pbbreg->path;
++	offset = (u8)pbbreg->offset;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	value = read_rfreg(Adapter, path, offset);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	pbbreg->value = value;
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++	RT_TRACE(_module_mp_, _drv_notice_,
++		 ("-oid_rt_pro_read_rf_reg_hdl: path=%d offset=0x%02X value=0x%05X\n",
++		  path, offset, value));
++
++_func_exit_;
++
++	return status;
++}
++//****************  oid_rtl_seg_81_87_00   section end****************
++//------------------------------------------------------------------------------
++
++//****************  oid_rtl_seg_81_80_00   section start ****************
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_set_data_rate_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		ratevalue;//4
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_,
++		 ("+oid_rt_pro_set_data_rate_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len != sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	ratevalue = *((u32*)poid_par_priv->information_buf);//4
++	RT_TRACE(_module_mp_, _drv_notice_,
++		 ("oid_rt_pro_set_data_rate_hdl: data rate idx=%d\n", ratevalue));
++	if (ratevalue >= MPT_RATE_LAST)
++		return NDIS_STATUS_INVALID_DATA;
++
++	Adapter->mppriv.rateidx = ratevalue;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetDataRate(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_start_test_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		mode;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+oid_rt_pro_start_test_hdl\n"));
++
++	if (Adapter->registrypriv.mp_mode == 0)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	//IQCalibrateBcut(Adapter);
++
++	mode = *((u32*)poid_par_priv->information_buf);
++	Adapter->mppriv.mode = mode;// 1 for loopback
++
++	if (mp_start_test(Adapter) == _FAIL) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		goto exit;
++	}
++
++exit:
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("-oid_rt_pro_start_test_hdl: mp_mode=%d\n", Adapter->mppriv.mode));
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_stop_test_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+Set OID_RT_PRO_STOP_TEST\n"));
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	mp_stop_test(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("-Set OID_RT_PRO_STOP_TEST\n"));
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_set_channel_direct_call_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		Channel;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+oid_rt_pro_set_channel_direct_call_hdl\n"));
++
++	if (poid_par_priv->information_buf_len != sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	if (poid_par_priv->type_of_oid == QUERY_OID) {
++		*((u32*)poid_par_priv->information_buf) = Adapter->mppriv.channel;
++		return NDIS_STATUS_SUCCESS;
++	}
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	Channel = *((u32*)poid_par_priv->information_buf);
++	RT_TRACE(_module_mp_, _drv_notice_, ("oid_rt_pro_set_channel_direct_call_hdl: Channel=%d\n", Channel));
++	if (Channel > 14)
++		return NDIS_STATUS_NOT_ACCEPTED;
++	Adapter->mppriv.channel = Channel;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetChannel(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_set_bandwidth_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u16		bandwidth;
++	u16		channel_offset;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_info_,
++		 ("+oid_rt_set_bandwidth_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	bandwidth = *((u32*)poid_par_priv->information_buf);//4
++	channel_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++	if (bandwidth != HT_CHANNEL_WIDTH_40)
++		bandwidth = HT_CHANNEL_WIDTH_20;
++	padapter->mppriv.bandwidth = (u8)bandwidth;
++	padapter->mppriv.prime_channel_offset = (u8)channel_offset;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetBandwidth(padapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	RT_TRACE(_module_mp_, _drv_notice_,
++		 ("-oid_rt_set_bandwidth_hdl: bandwidth=%d channel_offset=%d\n",
++		  bandwidth, channel_offset));
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_set_antenna_bb_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		antenna;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+oid_rt_pro_set_antenna_bb_hdl\n"));
++
++	if (poid_par_priv->information_buf_len != sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	if (poid_par_priv->type_of_oid == SET_OID)
++	{
++		antenna = *(u32*)poid_par_priv->information_buf;
++
++		Adapter->mppriv.antenna_tx = (u16)((antenna & 0xFFFF0000) >> 16);
++		Adapter->mppriv.antenna_rx = (u16)(antenna & 0x0000FFFF);
++		RT_TRACE(_module_mp_, _drv_notice_,
++			 ("oid_rt_pro_set_antenna_bb_hdl: tx_ant=0x%04x rx_ant=0x%04x\n",
++			  Adapter->mppriv.antenna_tx, Adapter->mppriv.antenna_rx));
++
++		_irqlevel_changed_(&oldirql, LOWER);
++		SetAntenna(Adapter);
++		_irqlevel_changed_(&oldirql, RAISE);
++	} else {
++		antenna = (Adapter->mppriv.antenna_tx << 16)|Adapter->mppriv.antenna_rx;
++		*(u32*)poid_par_priv->information_buf = antenna;
++	}
++
++_func_exit_;
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_pro_set_tx_power_control_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		tx_pwr_idx;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_info_, ("+oid_rt_pro_set_tx_power_control_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len != sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	tx_pwr_idx = *((u32*)poid_par_priv->information_buf);
++	if (tx_pwr_idx > MAX_TX_PWR_INDEX_N_MODE)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	Adapter->mppriv.txpoweridx = (u8)tx_pwr_idx;
++
++	RT_TRACE(_module_mp_, _drv_notice_,
++		 ("oid_rt_pro_set_tx_power_control_hdl: idx=0x%2x\n",
++		  Adapter->mppriv.txpoweridx));
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetTxPower(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++_func_exit_;
++
++	return status;
++}
++
++//------------------------------------------------------------------------------
++//****************  oid_rtl_seg_81_80_20   section start ****************
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_query_tx_packet_sent_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid !=QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	if (poid_par_priv->information_buf_len == sizeof(ULONG)) {
++		*(ULONG*)poid_par_priv->information_buf =  Adapter->mppriv.tx_pktcount;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else {
++		status = NDIS_STATUS_INVALID_LENGTH;
++	}
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_query_rx_packet_received_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	RT_TRACE(_module_mp_, _drv_alert_, ("===> oid_rt_pro_query_rx_packet_received_hdl.\n"));
++	if (poid_par_priv->information_buf_len == sizeof(ULONG)) {
++		*(ULONG*)poid_par_priv->information_buf =  Adapter->mppriv.rx_pktcount;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++		RT_TRACE(_module_mp_, _drv_alert_, ("recv_ok:%d \n",Adapter->mppriv.rx_pktcount));
++	} else {
++		status = NDIS_STATUS_INVALID_LENGTH;
++	}
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_query_rx_packet_crc32_error_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	RT_TRACE(_module_mp_, _drv_alert_, ("===> oid_rt_pro_query_rx_packet_crc32_error_hdl.\n"));
++	if (poid_par_priv->information_buf_len == sizeof(ULONG)) {
++		*(ULONG*)poid_par_priv->information_buf =  Adapter->mppriv.rx_crcerrpktcount;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++		RT_TRACE(_module_mp_, _drv_alert_, ("recv_err:%d \n",Adapter->mppriv.rx_crcerrpktcount));
++	} else {
++		status = NDIS_STATUS_INVALID_LENGTH;
++	}
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++
++NDIS_STATUS oid_rt_pro_reset_tx_packet_sent_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	RT_TRACE(_module_mp_, _drv_alert_, ("===> oid_rt_pro_reset_tx_packet_sent_hdl.\n"));
++	Adapter->mppriv.tx_pktcount = 0;
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_reset_rx_packet_received_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++	{
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	if (poid_par_priv->information_buf_len == sizeof(ULONG)) {
++		Adapter->mppriv.rx_pktcount = 0;
++		Adapter->mppriv.rx_crcerrpktcount = 0;
++	} else {
++		status = NDIS_STATUS_INVALID_LENGTH;
++	}
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_reset_phy_rx_packet_count_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	ResetPhyRxPktCount(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_get_phy_rx_packet_received_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_info_, ("+oid_rt_get_phy_rx_packet_received_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len != sizeof(ULONG))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	*(ULONG*)poid_par_priv->information_buf = GetPhyRxPktReceived(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("-oid_rt_get_phy_rx_packet_received_hdl: recv_ok=%d\n", *(ULONG*)poid_par_priv->information_buf));
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_get_phy_rx_packet_crc32_error_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_info_, ("+oid_rt_get_phy_rx_packet_crc32_error_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++
++	if (poid_par_priv->information_buf_len != sizeof(ULONG))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	*(ULONG*)poid_par_priv->information_buf = GetPhyRxPktCRC32Error(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++	RT_TRACE(_module_mp_, _drv_info_, ("-oid_rt_get_phy_rx_packet_crc32_error_hdl: recv_err=%d\n", *(ULONG*)poid_par_priv->information_buf));
++
++_func_exit_;
++
++	return status;
++}
++//****************  oid_rtl_seg_81_80_20   section end ****************
++NDIS_STATUS oid_rt_pro_set_continuous_tx_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		bStartTest;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+oid_rt_pro_set_continuous_tx_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	bStartTest = *((u32*)poid_par_priv->information_buf);
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetContinuousTx(Adapter,(u8)bStartTest);
++	if (bStartTest) {
++		struct mp_priv *pmp_priv = &Adapter->mppriv;
++		if (pmp_priv->tx.stop == 0) {
++			pmp_priv->tx.stop = 1;
++			DBG_871X("%s: pkt tx is running...\n", __func__);
++			rtw_msleep_os(5);
++		}
++		pmp_priv->tx.stop = 0;
++		pmp_priv->tx.count = 1;
++		SetPacketTx(Adapter);
++	}
++	_irqlevel_changed_(&oldirql, RAISE);
++
++_func_exit_;
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_pro_set_single_carrier_tx_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		bStartTest;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_alert_, ("+oid_rt_pro_set_single_carrier_tx_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	bStartTest = *((u32*)poid_par_priv->information_buf);
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetSingleCarrierTx(Adapter, (u8)bStartTest);
++	if (bStartTest) {
++		struct mp_priv *pmp_priv = &Adapter->mppriv;
++		if (pmp_priv->tx.stop == 0) {
++			pmp_priv->tx.stop = 1;
++			DBG_871X("%s: pkt tx is running...\n", __func__);
++			rtw_msleep_os(5);
++		}
++		pmp_priv->tx.stop = 0;
++		pmp_priv->tx.count = 1;
++		SetPacketTx(Adapter);
++	}
++	_irqlevel_changed_(&oldirql, RAISE);
++
++_func_exit_;
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_pro_set_carrier_suppression_tx_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		bStartTest;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+oid_rt_pro_set_carrier_suppression_tx_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	bStartTest = *((u32*)poid_par_priv->information_buf);
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetCarrierSuppressionTx(Adapter, (u8)bStartTest);
++	if (bStartTest) {
++		struct mp_priv *pmp_priv = &Adapter->mppriv;
++		if (pmp_priv->tx.stop == 0) {
++			pmp_priv->tx.stop = 1;
++			DBG_871X("%s: pkt tx is running...\n", __func__);
++			rtw_msleep_os(5);
++		}
++		pmp_priv->tx.stop = 0;
++		pmp_priv->tx.count = 1;
++		SetPacketTx(Adapter);
++	}
++	_irqlevel_changed_(&oldirql, RAISE);
++
++_func_exit_;
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_pro_set_single_tone_tx_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32 		bStartTest;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_alert_, ("+oid_rt_pro_set_single_tone_tx_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	bStartTest = *((u32*)poid_par_priv->information_buf);
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetSingleToneTx(Adapter,(u8)bStartTest);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++_func_exit_;
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_pro_set_modulation_hdl(struct oid_par_priv* poid_par_priv)
++{
++	return 0;
++}
++
++NDIS_STATUS oid_rt_pro_trigger_gpio_hdl(struct oid_par_priv *poid_par_priv)
++{
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	rtw_hal_set_hwreg(Adapter, HW_VAR_TRIGGER_GPIO_0, 0);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++_func_exit_;
++
++	return status;
++}
++//****************  oid_rtl_seg_81_80_00   section end ****************
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro8711_join_bss_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	PNDIS_802_11_SSID pssid;
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	*poid_par_priv->bytes_needed = (u32)sizeof(NDIS_802_11_SSID);
++	*poid_par_priv->bytes_rw = 0;
++	if (poid_par_priv->information_buf_len < *poid_par_priv->bytes_needed)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pssid = (PNDIS_802_11_SSID)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (mp_start_joinbss(Adapter, pssid) == _FAIL)
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = sizeof(NDIS_802_11_SSID);
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_read_register_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	pRW_Reg 	RegRWStruct;
++	u32		offset, width;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_info_,
++		 ("+oid_rt_pro_read_register_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	RegRWStruct = (pRW_Reg)poid_par_priv->information_buf;
++	offset = RegRWStruct->offset;
++	width = RegRWStruct->width;
++
++	if (offset > 0xFFF)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	switch (width) {
++		case 1:
++			RegRWStruct->value = rtw_read8(Adapter, offset);
++			break;
++		case 2:
++			RegRWStruct->value = rtw_read16(Adapter, offset);
++			break;
++		default:
++			width = 4;
++			RegRWStruct->value = rtw_read32(Adapter, offset);
++			break;
++	}
++	RT_TRACE(_module_mp_, _drv_notice_,
++		 ("oid_rt_pro_read_register_hdl: offset:0x%04X value:0x%X\n",
++		  offset, RegRWStruct->value));
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = width;
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_write_register_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	pRW_Reg 	RegRWStruct;
++	u32		offset, width, value;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_info_,
++		 ("+oid_rt_pro_write_register_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	RegRWStruct = (pRW_Reg)poid_par_priv->information_buf;
++	offset = RegRWStruct->offset;
++	width = RegRWStruct->width;
++	value = RegRWStruct->value;
++
++	if (offset > 0xFFF)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	switch (RegRWStruct->width)
++	{
++		case 1:
++			if (value > 0xFF) {
++				status = NDIS_STATUS_NOT_ACCEPTED;
++				break;
++			}
++			rtw_write8(padapter, offset, (u8)value);
++			break;
++		case 2:
++			if (value > 0xFFFF) {
++				status = NDIS_STATUS_NOT_ACCEPTED;
++				break;
++			}
++			rtw_write16(padapter, offset, (u16)value);
++			break;
++		case 4:
++			rtw_write32(padapter, offset, value);
++			break;
++		default:
++			status = NDIS_STATUS_NOT_ACCEPTED;
++			break;
++	}
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	RT_TRACE(_module_mp_, _drv_info_,
++		 ("-oid_rt_pro_write_register_hdl: offset=0x%08X width=%d value=0x%X\n",
++		  offset, width, value));
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_burst_read_register_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	pBurst_RW_Reg	pBstRwReg;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+oid_rt_pro_burst_read_register_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	pBstRwReg = (pBurst_RW_Reg)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	rtw_read_mem(padapter, pBstRwReg->offset, (u32)pBstRwReg->len, pBstRwReg->Data);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++	RT_TRACE(_module_mp_, _drv_info_, ("-oid_rt_pro_burst_read_register_hdl\n"));
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_burst_write_register_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	pBurst_RW_Reg	pBstRwReg;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+oid_rt_pro_burst_write_register_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	pBstRwReg = (pBurst_RW_Reg)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	rtw_write_mem(padapter, pBstRwReg->offset, (u32)pBstRwReg->len, pBstRwReg->Data);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	RT_TRACE(_module_mp_, _drv_info_, ("-oid_rt_pro_burst_write_register_hdl\n"));
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_write_txcmd_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	PADAPTER	Adapter = (PADAPTER)( poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++
++	TX_CMD_Desc	*TxCmd_Info;
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	RT_TRACE(_module_mp_, _drv_info_, ("+Set OID_RT_PRO_WRITE_TXCMD\n"));
++
++	TxCmd_Info=(TX_CMD_Desc*)poid_par_priv->information_buf;
++
++	RT_TRACE(_module_mp_, _drv_info_, ("WRITE_TXCMD:Addr=%.8X\n", TxCmd_Info->offset));
++  	RT_TRACE(_module_mp_, _drv_info_, ("WRITE_TXCMD:1.)%.8X\n", (ULONG)TxCmd_Info->TxCMD.value[0]));
++	RT_TRACE(_module_mp_, _drv_info_, ("WRITE_TXCMD:2.)%.8X\n", (ULONG)TxCmd_Info->TxCMD.value[1]));
++	RT_TRACE(_module_mp_, _drv_info_, (("WRITE_TXCMD:3.)%.8X\n", (ULONG)TxCmd_Info->TxCMD.value[2]));
++	RT_TRACE(_module_mp_, _drv_info_, ("WRITE_TXCMD:4.)%.8X\n", (ULONG)TxCmd_Info->TxCMD.value[3]));
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	rtw_write32(Adapter, TxCmd_Info->offset + 0, (unsigned int)TxCmd_Info->TxCMD.value[0]);
++	rtw_write32(Adapter, TxCmd_Info->offset + 4, (unsigned int)TxCmd_Info->TxCMD.value[1]);
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	RT_TRACE(_module_mp_, _drv_notice_,
++		 ("-Set OID_RT_PRO_WRITE_TXCMD: status=0x%08X\n", status));
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_read16_eeprom_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	pEEPROM_RWParam pEEPROM;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_info_, ("+Query OID_RT_PRO_READ16_EEPROM\n"));
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	pEEPROM = (pEEPROM_RWParam)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	pEEPROM->value = eeprom_read16(padapter, (u16)(pEEPROM->offset >> 1));
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++	RT_TRACE(_module_mp_,  _drv_notice_,
++		 ("-Query OID_RT_PRO_READ16_EEPROM: offset=0x%x value=0x%x\n",
++		  pEEPROM->offset, pEEPROM->value));
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_write16_eeprom_hdl (struct oid_par_priv *poid_par_priv)
++{
++#if 0
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	pEEPROM_RWParam pEEPROM;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+Set OID_RT_PRO_WRITE16_EEPROM\n"));
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	pEEPROM = (pEEPROM_RWParam)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	eeprom_write16(padapter, (u16)(pEEPROM->offset >> 1), pEEPROM->value);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro8711_wi_poll_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)( poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	struct mp_wiparam *pwi_param;
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(struct mp_wiparam))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	if (Adapter->mppriv.workparam.bcompleted == _FALSE)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	pwi_param = (struct mp_wiparam *)poid_par_priv->information_buf;
++
++	_rtw_memcpy(pwi_param, &Adapter->mppriv.workparam, sizeof(struct mp_wiparam));
++	Adapter->mppriv.act_in_progress = _FALSE;
++//	RT_TRACE(_module_mp_, _drv_info_, ("rf:%x\n", pwiparam->IoValue));
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro8711_pkt_loss_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)( poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+oid_rt_pro8711_pkt_loss_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(uint)*2) {
++		RT_TRACE(_module_mp_, _drv_err_, ("-oid_rt_pro8711_pkt_loss_hdl: buf_len=%d\n", (int)poid_par_priv->information_buf_len));
++		return NDIS_STATUS_INVALID_LENGTH;
++	}
++
++	if (*(uint*)poid_par_priv->information_buf == 1)//init==1
++		Adapter->mppriv.rx_pktloss = 0;
++
++	*((uint*)poid_par_priv->information_buf+1) = Adapter->mppriv.rx_pktloss;
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_rd_attrib_mem_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)( poid_par_priv->adapter_context);
++	struct io_queue *pio_queue = (struct io_queue *)Adapter->pio_queue;
++	struct intf_hdl	*pintfhdl = &pio_queue->intf;
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++#ifdef CONFIG_SDIO_HCI
++	void (*_attrib_read)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++#endif
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+Query OID_RT_RD_ATTRIB_MEM\n"));
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++#ifdef CONFIG_SDIO_HCI
++	_irqlevel_changed_(&oldirql, LOWER);
++{
++	u32 *plmem = (u32*)poid_par_priv->information_buf+2;
++	_attrib_read = pintfhdl->io_ops._attrib_read;
++	_attrib_read(pintfhdl, *((u32*)poid_par_priv->information_buf),
++				*((u32*)poid_par_priv->information_buf+1), (u8*)plmem);
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++}
++	_irqlevel_changed_(&oldirql, RAISE);
++#endif
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_wr_attrib_mem_hdl (struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	struct io_queue *pio_queue = (struct io_queue *)Adapter->pio_queue;
++	struct intf_hdl	*pintfhdl = &pio_queue->intf;
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++#ifdef CONFIG_SDIO_HCI
++	void (*_attrib_write)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++#endif
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++#ifdef CONFIG_SDIO_HCI
++	_irqlevel_changed_(&oldirql, LOWER);
++{
++	u32 *plmem = (u32*)poid_par_priv->information_buf + 2;
++	_attrib_write = pintfhdl->io_ops._attrib_write;
++	_attrib_write(pintfhdl, *(u32*)poid_par_priv->information_buf,
++				*((u32*)poid_par_priv->information_buf+1), (u8*)plmem);
++}
++	_irqlevel_changed_(&oldirql, RAISE);
++#endif
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS  oid_rt_pro_set_rf_intfs_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+OID_RT_PRO_SET_RF_INTFS\n"));
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (rtw_setrfintfs_cmd(Adapter, *(unsigned char*)poid_par_priv->information_buf) == _FAIL)
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_poll_rx_status_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_rtw_memcpy(poid_par_priv->information_buf, (unsigned char*)&Adapter->mppriv.rxstat, sizeof(struct recv_stat));
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_cfg_debug_message_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	PCFG_DBG_MSG_STRUCT pdbg_msg;
++
++_func_enter_;
++
++//	RT_TRACE(0xffffffffff,_drv_alert_,("===> oid_rt_pro_cfg_debug_message_hdl.\n"));
++
++#if 0//#ifdef CONFIG_DEBUG_RTL871X
++
++	pdbg_msg = (PCFG_DBG_MSG_STRUCT)(poid_par_priv->information_buf);
++
++	if (poid_par_priv->type_of_oid == SET_OID) {
++		RT_TRACE(0xffffffffff, _drv_alert_,
++			 ("===>Set level :0x%08x, H32:0x%08x L32:0x%08x\n",
++			  pdbg_msg->DebugLevel, pdbg_msg->DebugComponent_H32, pdbg_msg->DebugComponent_L32));
++
++		GlobalDebugLevel = pdbg_msg->DebugLevel;
++		GlobalDebugComponents = (pdbg_msg->DebugComponent_H32 << 32) | pdbg_msg->DebugComponent_L32;
++		RT_TRACE(0xffffffffff, _drv_alert_,
++			 ("===> Set level :0x%08x, component:0x%016x\n",
++			  GlobalDebugLevel, (u32)GlobalDebugComponents));
++	} else {
++		pdbg_msg->DebugLevel = GlobalDebugLevel;
++		pdbg_msg->DebugComponent_H32 = (u32)(GlobalDebugComponents >> 32);
++		pdbg_msg->DebugComponent_L32 = (u32)GlobalDebugComponents;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++		RT_TRACE(0xffffffffff, _drv_alert_,
++			 ("===>Query level:0x%08x H32:0x%08x L32:0x%08x\n",
++			  (u32)pdbg_msg->DebugLevel, (u32)pdbg_msg->DebugComponent_H32, (u32)pdbg_msg->DebugComponent_L32));
++	}
++
++#endif
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_set_data_rate_ex_hdl(struct oid_par_priv *poid_par_priv)
++{
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+OID_RT_PRO_SET_DATA_RATE_EX\n"));
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (rtw_setdatarate_cmd(Adapter, poid_par_priv->information_buf) !=_SUCCESS)
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++_func_exit_;
++
++	return status;
++}
++//-----------------------------------------------------------------------------
++NDIS_STATUS oid_rt_get_thermal_meter_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	u8 thermal = 0;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+oid_rt_get_thermal_meter_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	GetThermalMeter(Adapter, &thermal);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*(u32*)poid_par_priv->information_buf = (u32)thermal;
++	*poid_par_priv->bytes_rw = sizeof(u32);
++
++_func_exit_;
++
++	return status;
++}
++//-----------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_read_tssi_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+oid_rt_pro_read_tssi_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (Adapter->mppriv.act_in_progress == _TRUE)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u8))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	//init workparam
++	Adapter->mppriv.act_in_progress = _TRUE;
++	Adapter->mppriv.workparam.bcompleted = _FALSE;
++	Adapter->mppriv.workparam.act_type = MPT_READ_TSSI;
++	Adapter->mppriv.workparam.io_offset = 0;
++	Adapter->mppriv.workparam.io_value = 0xFFFFFFFF;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (!rtw_gettssi_cmd(Adapter,0, (u8*)&Adapter->mppriv.workparam.io_value))
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_set_power_tracking_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++_func_enter_;
++
++//	if (poid_par_priv->type_of_oid != SET_OID)
++//		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u8))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	if (poid_par_priv->type_of_oid == SET_OID) {
++		u8 enable;
++
++		enable = *(u8*)poid_par_priv->information_buf;
++		RT_TRACE(_module_mp_, _drv_notice_,
++			 ("+oid_rt_pro_set_power_tracking_hdl: enable=%d\n", enable));
++
++		SetPowerTracking(Adapter, enable);
++	} else {
++		GetPowerTracking(Adapter, (u8*)poid_par_priv->information_buf);
++	}
++	_irqlevel_changed_(&oldirql, RAISE);
++
++_func_exit_;
++
++	return status;
++}
++//-----------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_set_basic_rate_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32 ratevalue;
++	u8 datarates[NumRates];
++	int i;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_info_, ("+OID_RT_PRO_SET_BASIC_RATE\n"));
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++#if 0
++	ratevalue = *((u32*)poid_par_priv->information_buf);
++
++	for (i = 0; i < NumRates; i++) {
++		if (ratevalue == mpdatarate[i])
++			datarates[i] = mpdatarate[i];
++		else
++			datarates[i] = 0xff;
++		RT_TRACE(_module_rtl871x_ioctl_c_, _drv_info_, ("basicrate_inx=%d\n", datarates[i]));
++	}
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (rtw_setbasicrate_cmd(padapter, datarates) != _SUCCESS)
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, RAISE);
++#endif
++	RT_TRACE(_module_mp_, _drv_notice_,
++		 ("-OID_RT_PRO_SET_BASIC_RATE: status=0x%08X\n", status));
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_qry_pwrstate_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < 8)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	*poid_par_priv->bytes_rw = 8;
++	_rtw_memcpy(poid_par_priv->information_buf, &(Adapter->pwrctrlpriv.pwr_mode), 8);
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++	RT_TRACE(_module_mp_, _drv_notice_,
++		 ("-oid_rt_pro_qry_pwrstate_hdl: pwr_mode=%d smart_ps=%d\n",
++		  Adapter->pwrctrlpriv.pwr_mode, Adapter->pwrctrlpriv.smart_ps));
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_set_pwrstate_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	uint pwr_mode, smart_ps;
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+Set OID_RT_PRO_SET_PWRSTATE\n"));
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	*poid_par_priv->bytes_rw = 0;
++	*poid_par_priv->bytes_needed = 8;
++
++	if (poid_par_priv->information_buf_len < 8)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pwr_mode = *(uint *)(poid_par_priv->information_buf);
++	smart_ps = *(uint *)((int)poid_par_priv->information_buf + 4);
++
++	*poid_par_priv->bytes_rw = 8;
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_h2c_set_rate_table_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	struct setratable_parm *prate_table;
++	u8		res;
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	*poid_par_priv->bytes_needed  = sizeof(struct setratable_parm);
++	if (poid_par_priv->information_buf_len < sizeof(struct setratable_parm))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	prate_table = (struct setratable_parm*)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	res = rtw_setrttbl_cmd(Adapter, prate_table);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	if (res == _FAIL)
++		status = NDIS_STATUS_FAILURE;
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_h2c_get_rate_table_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	#if 0
++			struct mp_wi_cntx *pmp_wi_cntx=&(Adapter->mppriv.wi_cntx);
++			u8 res=_SUCCESS;
++			DEBUG_INFO(("===> Set OID_RT_PRO_H2C_GET_RATE_TABLE.\n"));
++
++			if(pmp_wi_cntx->bmp_wi_progress ==_TRUE){
++				DEBUG_ERR(("\n mp workitem is progressing, not allow to set another workitem right now!!!\n"));
++				Status = NDIS_STATUS_NOT_ACCEPTED;
++				break;
++			}
++			else{
++				pmp_wi_cntx->bmp_wi_progress=_TRUE;
++				pmp_wi_cntx->param.bcompleted=_FALSE;
++				pmp_wi_cntx->param.act_type=MPT_GET_RATE_TABLE;
++				pmp_wi_cntx->param.io_offset=0x0;
++				pmp_wi_cntx->param.bytes_cnt=sizeof(struct getratable_rsp);
++				pmp_wi_cntx->param.io_value=0xffffffff;
++
++				res=rtw_getrttbl_cmd(Adapter,(struct getratable_rsp *)pmp_wi_cntx->param.data);
++				*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++				if(res != _SUCCESS)
++				{
++					Status = NDIS_STATUS_NOT_ACCEPTED;
++				}
++			}
++			DEBUG_INFO(("\n <=== Set OID_RT_PRO_H2C_GET_RATE_TABLE.\n"));
++	#endif
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++
++//****************  oid_rtl_seg_87_12_00   section start ****************
++NDIS_STATUS oid_rt_pro_encryption_ctrl_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	struct security_priv *psecuritypriv = &Adapter->securitypriv;
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	ENCRY_CTRL_STATE encry_mode;
++
++
++	*poid_par_priv->bytes_needed = sizeof(u8);
++	if (poid_par_priv->information_buf_len < *poid_par_priv->bytes_needed)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	if (poid_par_priv->type_of_oid == SET_OID)
++	{
++		encry_mode = *((u8*)poid_par_priv->information_buf);
++		switch (encry_mode)
++		{
++			case HW_CONTROL:
++				#if 0
++				Adapter->registrypriv.software_decrypt=_FALSE;
++				Adapter->registrypriv.software_encrypt=_FALSE;
++				#else
++				psecuritypriv->sw_decrypt = _FALSE;
++				psecuritypriv->sw_encrypt = _FALSE;
++				#endif
++				break;
++			case SW_CONTROL:
++				#if 0
++				Adapter->registrypriv.software_decrypt=_TRUE;
++				Adapter->registrypriv.software_encrypt=_TRUE;
++				#else
++				psecuritypriv->sw_decrypt = _TRUE;
++				psecuritypriv->sw_encrypt = _TRUE;
++				#endif
++				break;
++			case HW_ENCRY_SW_DECRY:
++				#if 0
++				Adapter->registrypriv.software_decrypt=_TRUE;
++				Adapter->registrypriv.software_encrypt=_FALSE;
++				#else
++				psecuritypriv->sw_decrypt = _TRUE;
++				psecuritypriv->sw_encrypt = _FALSE;
++				#endif
++				break;
++			case SW_ENCRY_HW_DECRY:
++				#if 0
++				Adapter->registrypriv.software_decrypt=_FALSE;
++				Adapter->registrypriv.software_encrypt=_TRUE;
++				#else
++				psecuritypriv->sw_decrypt = _FALSE;
++				psecuritypriv->sw_encrypt = _TRUE;
++				#endif
++				break;
++		}
++
++		RT_TRACE(_module_rtl871x_ioctl_c_, _drv_notice_,
++			 ("-oid_rt_pro_encryption_ctrl_hdl: SET encry_mode=0x%x sw_encrypt=0x%x sw_decrypt=0x%x\n",
++			  encry_mode, psecuritypriv->sw_encrypt, psecuritypriv->sw_decrypt));
++	}
++	else {
++		#if 0
++		if (Adapter->registrypriv.software_encrypt == _FALSE) {
++			if (Adapter->registrypriv.software_decrypt == _FALSE)
++				encry_mode = HW_CONTROL;
++			else
++				encry_mode = HW_ENCRY_SW_DECRY;
++		}
++		else {
++			if (Adapter->registrypriv.software_decrypt == _FALSE)
++				encry_mode = SW_ENCRY_HW_DECRY;
++			else
++				encry_mode = SW_CONTROL;
++		}
++		#else
++
++		if ((psecuritypriv->sw_encrypt == _FALSE) && (psecuritypriv->sw_decrypt == _FALSE))
++			encry_mode = HW_CONTROL;
++		else if ((psecuritypriv->sw_encrypt == _FALSE) && (psecuritypriv->sw_decrypt == _TRUE))
++			encry_mode = HW_ENCRY_SW_DECRY;
++		else if ((psecuritypriv->sw_encrypt == _TRUE) && (psecuritypriv->sw_decrypt == _FALSE))
++			encry_mode = SW_ENCRY_HW_DECRY;
++		else if ((psecuritypriv->sw_encrypt == _TRUE) && (psecuritypriv->sw_decrypt == _TRUE))
++			encry_mode = SW_CONTROL;
++
++		#endif
++
++		*(u8*)poid_par_priv->information_buf =  encry_mode;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++		RT_TRACE(_module_mp_, _drv_notice_,
++			 ("-oid_rt_pro_encryption_ctrl_hdl: QUERY encry_mode=0x%x\n",
++			  encry_mode));
++	}
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_add_sta_info_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	struct sta_info *psta = NULL;
++	UCHAR 		*macaddr;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	*poid_par_priv->bytes_needed = ETH_ALEN;
++	if (poid_par_priv->information_buf_len < *poid_par_priv->bytes_needed)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	macaddr = (UCHAR *) poid_par_priv->information_buf ;
++
++	RT_TRACE(_module_rtl871x_ioctl_c_,_drv_notice_,
++		 ("OID_RT_PRO_ADD_STA_INFO: addr="MAC_FMT"\n", MAC_ARG(macaddr) ));
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	psta = rtw_get_stainfo(&Adapter->stapriv, macaddr);
++
++	if (psta == NULL) { // the sta have been in sta_info_queue => do nothing
++		psta = rtw_alloc_stainfo(&Adapter->stapriv, macaddr);
++
++		if (psta == NULL) {
++			RT_TRACE(_module_rtl871x_ioctl_c_,_drv_err_,("Can't alloc sta_info when OID_RT_PRO_ADD_STA_INFO\n"));
++			status = NDIS_STATUS_FAILURE;
++		}
++	} else { //(between drv has received this event before and  fw have not yet to set key to CAM_ENTRY)
++		RT_TRACE(_module_rtl871x_ioctl_c_, _drv_err_,
++			("Error: OID_RT_PRO_ADD_STA_INFO: sta has been in sta_hash_queue \n"));
++	}
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_dele_sta_info_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	struct sta_info *psta = NULL;
++	UCHAR		*macaddr;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	*poid_par_priv->bytes_needed = ETH_ALEN;
++	if (poid_par_priv->information_buf_len < *poid_par_priv->bytes_needed)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	macaddr = (UCHAR *) poid_par_priv->information_buf ;
++	RT_TRACE(_module_rtl871x_ioctl_c_,_drv_notice_,
++		 ("+OID_RT_PRO_ADD_STA_INFO: addr="MAC_FMT"\n", MAC_ARG(macaddr) ));
++
++	psta = rtw_get_stainfo(&Adapter->stapriv, macaddr);
++	if (psta != NULL) {
++		_enter_critical(&(Adapter->stapriv.sta_hash_lock), &irqL);
++		rtw_free_stainfo(Adapter, psta);
++		_exit_critical(&(Adapter->stapriv.sta_hash_lock), &irqL);
++	}
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++#if 0
++#include <sdio_osintf.h>
++static u32 mp_query_drv_var(_adapter *padapter, u8 offset, u32 var)
++{
++#ifdef CONFIG_SDIO_HCI
++
++	if (offset == 1) {
++		u16 tmp_blk_num;
++		tmp_blk_num = rtw_read16(padapter, SDIO_RX0_RDYBLK_NUM);
++		RT_TRACE(_module_mp_, _drv_err_, ("Query Information, mp_query_drv_var  SDIO_RX0_RDYBLK_NUM=0x%x   adapter_to_dvobj(padapter)->rxblknum=0x%x\n", tmp_blk_num, adapter_to_dvobj(padapter)->rxblknum));
++		if (adapter_to_dvobj(padapter)->rxblknum != tmp_blk_num) {
++			RT_TRACE(_module_mp_,_drv_err_, ("Query Information, mp_query_drv_var  call recv rx\n"));
++		//	sd_recv_rxfifo(padapter);
++		}
++	}
++
++#if 0
++	if(offset <=100){  //For setting data rate and query data rate
++		if(offset==100){ //For query data rate
++			RT_TRACE(_module_mp_, _drv_emerg_, ("\n mp_query_drv_var: offset(%d): query rate=0x%.2x \n",offset,padapter->registrypriv.tx_rate));
++			var=padapter->registrypriv.tx_rate;
++
++		}
++		else if(offset<0x1d){  //For setting data rate
++			padapter->registrypriv.tx_rate=offset;
++			var=padapter->registrypriv.tx_rate;
++			padapter->registrypriv.use_rate=_TRUE;
++			RT_TRACE(_module_mp_, _drv_emerg_, ("\n mp_query_drv_var: offset(%d): set rate=0x%.2x \n",offset,padapter->registrypriv.tx_rate));
++		}
++		else{ //not use the data rate
++			padapter->registrypriv.use_rate=_FALSE;
++			RT_TRACE(_module_mp_, _drv_emerg_, ("\n mp_query_drv_var: offset(%d) out of rate range\n",offset));
++		}
++	}
++	else if (offset<=110){  //for setting debug level
++		RT_TRACE(_module_mp_, _drv_emerg_, (" mp_query_drv_var: offset(%d) for set debug level\n",offset));
++		if(offset==110){ //For query data rate
++			RT_TRACE(_module_mp_, _drv_emerg_, (" mp_query_drv_var: offset(%d): query dbg level=0x%.2x \n",offset,padapter->registrypriv.dbg_level));
++			padapter->registrypriv.dbg_level=GlobalDebugLevel;
++			var=padapter->registrypriv.dbg_level;
++		}
++		else if(offset<110 && offset>100){
++			RT_TRACE(_module_mp_, _drv_emerg_, (" mp_query_drv_var: offset(%d): set dbg level=0x%.2x \n",offset,offset-100));
++			padapter->registrypriv.dbg_level=GlobalDebugLevel=offset-100;
++			var=padapter->registrypriv.dbg_level;
++			RT_TRACE(_module_mp_, _drv_emerg_, (" mp_query_drv_var(_drv_emerg_): offset(%d): set dbg level=0x%.2x \n",offset,GlobalDebugLevel));
++			RT_TRACE(_module_mp_, _drv_alert_, (" mp_query_drv_var(_drv_alert_): offset(%d): set dbg level=0x%.2x \n",offset,GlobalDebugLevel));
++			RT_TRACE(_module_mp_, _drv_crit_, (" mp_query_drv_var(_drv_crit_): offset(%d): set dbg level=0x%.2x \n",offset,GlobalDebugLevel));
++			RT_TRACE(_module_mp_, _drv_err_, (" mp_query_drv_var(_drv_err_): offset(%d): set dbg level=0x%.2x \n",offset,GlobalDebugLevel));
++			RT_TRACE(_module_mp_, _drv_warning_, (" mp_query_drv_var(_drv_warning_): offset(%d): set dbg level=0x%.2x \n",offset,GlobalDebugLevel));
++			RT_TRACE(_module_mp_, _drv_notice_, (" mp_query_drv_var(_drv_notice_): offset(%d): set dbg level=0x%.2x \n",offset,GlobalDebugLevel));
++			RT_TRACE(_module_mp_, _drv_info_, (" mp_query_drv_var(_drv_info_): offset(%d): set dbg level=0x%.2x \n",offset,GlobalDebugLevel));
++			RT_TRACE(_module_mp_, _drv_debug_, (" mp_query_drv_var(_drv_debug_): offset(%d): set dbg level=0x%.2x \n",offset,GlobalDebugLevel));
++
++		}
++	}
++	else if(offset >110 &&offset <116){
++		if(115==offset){
++			RT_TRACE(_module_mp_, _drv_emerg_, (" mp_query_drv_var(_drv_emerg_): offset(%d): query TRX access type: [tx_block_mode=%x,rx_block_mode=%x]\n",\
++															offset, adapter_to_dvobj(padapter)->tx_block_mode, adapter_to_dvobj(padapter)->rx_block_mode));
++		}
++		else {
++			switch(offset){
++				case 111:
++					adapter_to_dvobj(padapter)->tx_block_mode=1;
++					adapter_to_dvobj(padapter)->rx_block_mode=1;
++					RT_TRACE(_module_mp_, _drv_emerg_, \
++						(" mp_query_drv_var(_drv_emerg_): offset(%d): SET TRX access type:(TX block/RX block) [tx_block_mode=%x,rx_block_mode=%x]\n",\
++						offset, adapter_to_dvobj(padapter)->tx_block_mode, adapter_to_dvobj(padapter)->rx_block_mode));
++					break;
++				case 112:
++					adapter_to_dvobj(padapter)->tx_block_mode=1;
++					adapter_to_dvobj(padapter)->rx_block_mode=0;
++					RT_TRACE(_module_mp_, _drv_emerg_, \
++						(" mp_query_drv_var(_drv_emerg_): offset(%d): SET TRX access type:(TX block/RX byte) [tx_block_mode=%x,rx_block_mode=%x]\n",\
++						offset, adapter_to_dvobj(padapter)->tx_block_mode, adapter_to_dvobj(padapter)->rx_block_mode));
++					break;
++				case 113:
++					adapter_to_dvobj(padapter)->tx_block_mode=0;
++					adapter_to_dvobj(padapter)->rx_block_mode=1;
++					RT_TRACE(_module_mp_, _drv_emerg_, \
++						(" mp_query_drv_var(_drv_emerg_): offset(%d): SET TRX access type:(TX byte/RX block) [tx_block_mode=%x,rx_block_mode=%x]\n",\
++						offset, adapter_to_dvobj(padapter)->tx_block_mode, adapter_to_dvobj(padapter)->rx_block_mode));
++					break;
++				case 114:
++					adapter_to_dvobj(padapter)->tx_block_mode=0;
++					adapter_to_dvobj(padapter)->rx_block_mode=0;
++					RT_TRACE(_module_mp_, _drv_emerg_, \
++						(" mp_query_drv_var(_drv_emerg_): offset(%d): SET TRX access type:(TX byte/RX byte) [tx_block_mode=%x,rx_block_mode=%x]\n",\
++						offset, adapter_to_dvobj(padapter)->tx_block_mode, adapter_to_dvobj(padapter)->rx_block_mode));
++					break;
++				default :
++					break;
++
++			}
++
++		}
++
++	}
++	else if(offset>=127){
++		u64	prnt_dbg_comp;
++		u8   chg_idx;
++		u64	tmp_dbg_comp;
++		chg_idx=offset-0x80;
++		tmp_dbg_comp=BIT(chg_idx);
++		prnt_dbg_comp=padapter->registrypriv.dbg_component= GlobalDebugComponents;
++		RT_TRACE(_module_mp_, _drv_emerg_, (" 1: mp_query_drv_var: offset(%d;0x%x):for dbg conpoment prnt_dbg_comp=0x%.16x GlobalDebugComponents=0x%.16x padapter->registrypriv.dbg_component=0x%.16x\n",offset,offset,prnt_dbg_comp,GlobalDebugComponents,padapter->registrypriv.dbg_component));
++		if(offset==127){
++	//		prnt_dbg_comp=padapter->registrypriv.dbg_component= GlobalDebugComponents;
++			var=(u32)(padapter->registrypriv.dbg_component);
++			RT_TRACE(0xffffffff, _drv_emerg_, ("2: mp_query_drv_var: offset(%d;0x%x):for query dbg conpoment=0x%x(l) 0x%x(h)  GlobalDebugComponents=0x%x(l) 0x%x(h) \n",offset,offset,padapter->registrypriv.dbg_component,prnt_dbg_comp));
++			prnt_dbg_comp=GlobalDebugComponents;
++			RT_TRACE(0xffffffff, _drv_emerg_, ("2-1: mp_query_drv_var: offset(%d;0x%x):for query dbg conpoment=0x%x(l) 0x%x(h)  GlobalDebugComponents=0x%x(l) 0x%x(h)\n",offset,offset,padapter->registrypriv.dbg_component,prnt_dbg_comp));
++			prnt_dbg_comp=GlobalDebugComponents=padapter->registrypriv.dbg_component;
++			RT_TRACE(0xffffffff, _drv_emerg_, ("2-2: mp_query_drv_var: offset(%d;0x%x):for query dbg conpoment=0x%x(l) 0x%x(h)  GlobalDebugComponents=0x%x(l) 0x%x(h)\n",offset,offset,padapter->registrypriv.dbg_component,prnt_dbg_comp));
++
++		}
++		else{
++			RT_TRACE(0xffffffff, _drv_emerg_, ("3: mp_query_drv_var: offset(%d;0x%x):for query dbg conpoment=0x%x(l) 0x%x(h) GlobalDebugComponents=0x%x(l) 0x%x(h) chg_idx=%d\n",offset,offset,padapter->registrypriv.dbg_component,prnt_dbg_comp,chg_idx));
++			prnt_dbg_comp=GlobalDebugComponents;
++			RT_TRACE(0xffffffff, _drv_emerg_,("3-1: mp_query_drv_var: offset(%d;0x%x):for query dbg conpoment=0x%x(l) 0x%x(h)  GlobalDebugComponents=0x%x(l) 0x%x(h) chg_idx=%d\n",offset,offset,padapter->registrypriv.dbg_component,prnt_dbg_comp,chg_idx));// ("3-1: mp_query_drv_var: offset(%d;0x%x):before set dbg conpoment=0x%x chg_idx=%d or0x%x BIT(chg_idx[%d]=0x%x)\n",offset,offset,prnt_dbg_comp,chg_idx,chg_idx,(chg_idx),tmp_dbg_comp)
++			prnt_dbg_comp=GlobalDebugComponents=padapter->registrypriv.dbg_component;
++			RT_TRACE(0xffffffff, _drv_emerg_, ("3-2: mp_query_drv_var: offset(%d;0x%x):for query dbg conpoment=0x%x(l) 0x%x(h)  GlobalDebugComponents=0x%x(l) 0x%x(h)\n",offset,offset,padapter->registrypriv.dbg_component,prnt_dbg_comp));
++
++			if(GlobalDebugComponents&tmp_dbg_comp){
++				//this bit is already set, now clear it
++				GlobalDebugComponents=GlobalDebugComponents&(~tmp_dbg_comp);
++			}
++			else{
++				//this bit is not set, now set it.
++				GlobalDebugComponents =GlobalDebugComponents|tmp_dbg_comp;
++			}
++			RT_TRACE(0xffffffff, _drv_emerg_, ("4: mp_query_drv_var: offset(%d;0x%x):before set dbg conpoment tmp_dbg_comp=0x%x GlobalDebugComponents=0x%x(l) 0x%x(h)",offset,offset,tmp_dbg_comp,prnt_dbg_comp));
++			prnt_dbg_comp=GlobalDebugComponents;
++			RT_TRACE(0xffffffff, _drv_emerg_, ("4-1: mp_query_drv_var: offset(%d;0x%x):before set dbg conpoment tmp_dbg_comp=0x%x GlobalDebugComponents=0x%x(l) 0x%x(h)",offset,offset,tmp_dbg_comp,prnt_dbg_comp));
++
++			RT_TRACE(_module_rtl871x_xmit_c_, _drv_emerg_, ("0: mp_query_drv_var(_module_rtl871x_xmit_c_:0): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,prnt_dbg_comp));
++			RT_TRACE(_module_xmit_osdep_c_, _drv_emerg_, ("1: mp_query_drv_var(_module_xmit_osdep_c_:1): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_rtl871x_recv_c_, _drv_emerg_, ("2: mp_query_drv_var(_module_rtl871x_recv_c_:2): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_recv_osdep_c_, _drv_emerg_, ("3: mp_query_drv_var(_module_recv_osdep_c_:3): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_rtl871x_mlme_c_, _drv_emerg_, ("4: mp_query_drv_var(_module_rtl871x_mlme_c_:4): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_mlme_osdep_c_, _drv_emerg_, (" 5:mp_query_drv_var(_module_mlme_osdep_c_:5): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_rtl871x_sta_mgt_c_, _drv_emerg_, ("6: mp_query_drv_var(_module_rtl871x_sta_mgt_c_:6): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_rtl871x_cmd_c_, _drv_emerg_, ("7: mp_query_drv_var(_module_rtl871x_cmd_c_:7): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_cmd_osdep_c_, _drv_emerg_, ("8: mp_query_drv_var(_module_cmd_osdep_c_:8): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_rtl871x_io_c_, _drv_emerg_, ("9: mp_query_drv_var(_module_rtl871x_io_c_:9): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_io_osdep_c_, _drv_emerg_, ("10: mp_query_drv_var(_module_io_osdep_c_:10): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_os_intfs_c_, _drv_emerg_, ("11: mp_query_drv_var(_module_os_intfs_c_:11): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_rtl871x_security_c_, _drv_emerg_, ("12: mp_query_drv_var(_module_rtl871x_security_c_:12): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_rtl871x_eeprom_c_, _drv_emerg_, ("13: mp_query_drv_var(_module_rtl871x_eeprom_c_:13): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_hal_init_c_, _drv_emerg_, ("14: mp_query_drv_var(_module_hal_init_c_:14): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_hci_hal_init_c_, _drv_emerg_, ("15: mp_query_drv_var(_module_hci_hal_init_c_:15): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_rtl871x_ioctl_c_, _drv_emerg_, ("16: mp_query_drv_var(_module_rtl871x_ioctl_c_:16): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_rtl871x_ioctl_set_c_, _drv_emerg_, ("17: mp_query_drv_var(_module_rtl871x_ioctl_set_c_:17): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_rtl871x_ioctl_query_c_, _drv_emerg_, ("18: mp_query_drv_var(_module_rtl871x_ioctl_query_c_:18): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_rtl871x_pwrctrl_c_, _drv_emerg_, ("19: mp_query_drv_var(_module_rtl871x_pwrctrl_c_:19): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_hci_intfs_c_, _drv_emerg_, ("20: mp_query_drv_var(_module_hci_intfs_c_:20): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_hci_ops_c_, _drv_emerg_, ("21: mp_query_drv_var(_module_hci_ops_c_:21): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_osdep_service_c_, _drv_emerg_, ("22: mp_query_drv_var(_module_osdep_service_c_:22): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_mp_, _drv_emerg_, ("23: mp_query_drv_var(_module_mp_:23): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			RT_TRACE(_module_hci_ops_os_c_, _drv_emerg_, ("24: mp_query_drv_var(_module_hci_ops_os_c_:24): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++			var=(u32)(GlobalDebugComponents);
++			//GlobalDebugComponents=padapter->registrypriv.dbg_component;
++			RT_TRACE(0xffffffff, _drv_emerg_, (" ==mp_query_drv_var(_module_mp_): offset(%d;0x%x):before set dbg conpoment=0x%x(l) 0x%x(h)\n",offset,offset,GlobalDebugComponents));
++
++		}
++	}
++	else{
++		RT_TRACE(_module_mp_, _drv_emerg_, ("\n mp_query_drv_var: offset(%d) >110\n",offset));
++	}
++#endif
++#endif
++
++	return var;
++}
++#endif
++
++NDIS_STATUS oid_rt_pro_query_dr_variable_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER		Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL			oldirql;
++#endif
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++
++	DR_VARIABLE_STRUCT	*pdrv_var;
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	*poid_par_priv->bytes_needed = sizeof(DR_VARIABLE_STRUCT);
++	if (poid_par_priv->information_buf_len < *poid_par_priv->bytes_needed)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+Query Information, OID_RT_PRO_QUERY_DR_VARIABLE\n"));
++
++	pdrv_var = (struct _DR_VARIABLE_STRUCT_ *)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	pdrv_var->variable = mp_query_drv_var(Adapter, pdrv_var->offset, pdrv_var->variable);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++	RT_TRACE(_module_mp_, _drv_notice_,
++		 ("-oid_rt_pro_query_dr_variable_hdl: offset=0x%x valule=0x%x\n",
++		  pdrv_var->offset, pdrv_var->variable));
++
++	return status;
++#else
++	return 0;
++#endif
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_rx_packet_type_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	RT_TRACE(_module_mp_, _drv_err_, ("oid_rt_pro_rx_packet_type_hdl...................\n"));
++
++	if (poid_par_priv->information_buf_len < sizeof (UCHAR)) {
++		status = NDIS_STATUS_INVALID_LENGTH;
++		*poid_par_priv->bytes_needed = sizeof(UCHAR);
++		return status;
++	}
++
++	if (poid_par_priv->type_of_oid == SET_OID) {
++		Adapter->mppriv.rx_with_status = *(UCHAR *) poid_par_priv->information_buf;
++		RT_TRACE(_module_rtl871x_ioctl_c_,_drv_err_, ("Query Information, OID_RT_PRO_RX_PACKET_TYPE:%d \n",\
++												Adapter->mppriv.rx_with_status));
++
++		//*(u32 *)&Adapter->eeprompriv.mac_addr[0]=rtw_read32(Adapter, 0x10250050);
++		//*(u16 *)&Adapter->eeprompriv.mac_addr[4]=rtw_read16(Adapter, 0x10250054);
++		RT_TRACE(_module_rtl871x_ioctl_c_,_drv_err_,("MAC addr=0x%x:0x%x:0x%x:0x%x:0x%x:0x%x  \n",
++			Adapter->eeprompriv.mac_addr[0],Adapter->eeprompriv.mac_addr[1],Adapter->eeprompriv.mac_addr[2],\
++			Adapter->eeprompriv.mac_addr[3],Adapter->eeprompriv.mac_addr[4],Adapter->eeprompriv.mac_addr[5]));
++
++	}
++	else {
++		*(UCHAR *) poid_par_priv->information_buf = Adapter->mppriv.rx_with_status;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++		RT_TRACE(_module_rtl871x_ioctl_c_,_drv_err_, ("Query Information, OID_RT_PRO_RX_PACKET_TYPE:%d \n", \
++												Adapter->mppriv.rx_with_status));
++
++		//*(u32 *)&Adapter->eeprompriv.mac_addr[0]=rtw_read32(Adapter, 0x10250050);
++		//*(u16 *)&Adapter->eeprompriv.mac_addr[4]=rtw_read16(Adapter, 0x10250054);
++		RT_TRACE(_module_rtl871x_ioctl_c_,_drv_err_,("MAC addr=0x%x:0x%x:0x%x:0x%x:0x%x:0x%x  \n",
++			Adapter->eeprompriv.mac_addr[0],Adapter->eeprompriv.mac_addr[1],Adapter->eeprompriv.mac_addr[2],\
++			Adapter->eeprompriv.mac_addr[3],Adapter->eeprompriv.mac_addr[4],Adapter->eeprompriv.mac_addr[5]));
++	}
++#endif
++
++	return NDIS_STATUS_SUCCESS;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_read_efuse_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL oldirql;
++#endif
++	PEFUSE_ACCESS_STRUCT pefuse;
++	u8 *data;
++	u16 addr = 0, cnts = 0, max_available_size = 0;
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(EFUSE_ACCESS_STRUCT))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pefuse = (PEFUSE_ACCESS_STRUCT)poid_par_priv->information_buf;
++	addr = pefuse->start_addr;
++	cnts = pefuse->cnts;
++	data = pefuse->data;
++
++	RT_TRACE(_module_mp_, _drv_notice_,
++		("+oid_rt_pro_read_efuse_hd: buf_len=%ld addr=%d cnts=%d\n",
++		 poid_par_priv->information_buf_len, addr, cnts));
++
++	EFUSE_GetEfuseDefinition(Adapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_available_size, _FALSE);
++
++	if ((addr + cnts) > max_available_size) {
++		RT_TRACE(_module_mp_, _drv_err_, ("!oid_rt_pro_read_efuse_hdl: parameter error!\n"));
++		return NDIS_STATUS_NOT_ACCEPTED;
++	}
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	if (rtw_efuse_access(Adapter, _FALSE, addr, cnts, data) == _FAIL) {
++		RT_TRACE(_module_mp_, _drv_err_, ("!oid_rt_pro_read_efuse_hdl: rtw_efuse_access FAIL!\n"));
++		status = NDIS_STATUS_FAILURE;
++	} else
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	_irqlevel_changed_(&oldirql, RAISE);
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_write_efuse_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL oldirql;
++#endif
++	PEFUSE_ACCESS_STRUCT pefuse;
++	u8 *data;
++	u16 addr = 0, cnts = 0, max_available_size = 0;
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	pefuse = (PEFUSE_ACCESS_STRUCT)poid_par_priv->information_buf;
++	addr = pefuse->start_addr;
++	cnts = pefuse->cnts;
++	data = pefuse->data;
++
++	RT_TRACE(_module_mp_, _drv_notice_,
++		 ("+oid_rt_pro_write_efuse_hdl: buf_len=%ld addr=0x%04x cnts=%d\n",
++		  poid_par_priv->information_buf_len, addr, cnts));
++
++	EFUSE_GetEfuseDefinition(Adapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_available_size, _FALSE);
++
++	if ((addr + cnts) > max_available_size) {
++		RT_TRACE(_module_mp_, _drv_err_, ("!oid_rt_pro_write_efuse_hdl: parameter error"));
++		return NDIS_STATUS_NOT_ACCEPTED;
++	}
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	if (rtw_efuse_access(Adapter, _TRUE, addr, cnts, data) == _FAIL)
++		status = NDIS_STATUS_FAILURE;
++	_irqlevel_changed_(&oldirql, RAISE);
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_rw_efuse_pgpkt_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	PPGPKT_STRUCT	ppgpkt;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++//	RT_TRACE(_module_mp_, _drv_info_, ("+oid_rt_pro_rw_efuse_pgpkt_hdl\n"));
++
++	*poid_par_priv->bytes_rw = 0;
++
++	if (poid_par_priv->information_buf_len < sizeof(PGPKT_STRUCT))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	ppgpkt = (PPGPKT_STRUCT)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (poid_par_priv->type_of_oid == QUERY_OID)
++	{
++		RT_TRACE(_module_mp_, _drv_notice_,
++			("oid_rt_pro_rw_efuse_pgpkt_hdl: Read offset=0x%x\n",\
++			ppgpkt->offset));
++
++		Efuse_PowerSwitch(Adapter, _FALSE, _TRUE);
++		if (Efuse_PgPacketRead(Adapter, ppgpkt->offset, ppgpkt->data, _FALSE) == _TRUE)
++			*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++		else
++			status = NDIS_STATUS_FAILURE;
++		Efuse_PowerSwitch(Adapter, _FALSE, _FALSE);
++	} else {
++		RT_TRACE(_module_mp_, _drv_notice_,
++			("oid_rt_pro_rw_efuse_pgpkt_hdl: Write offset=0x%x word_en=0x%x\n",\
++			ppgpkt->offset, ppgpkt->word_en));
++
++		Efuse_PowerSwitch(Adapter, _TRUE, _TRUE);
++		if (Efuse_PgPacketWrite(Adapter, ppgpkt->offset, ppgpkt->word_en, ppgpkt->data, _FALSE) == _TRUE)
++			*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++		else
++			status = NDIS_STATUS_FAILURE;
++		Efuse_PowerSwitch(Adapter, _TRUE, _FALSE);
++	}
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	RT_TRACE(_module_mp_, _drv_info_,
++		 ("-oid_rt_pro_rw_efuse_pgpkt_hdl: status=0x%08X\n", status));
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_get_efuse_current_size_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u16 size;
++	u8 ret;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len <sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	ret = efuse_GetCurrentSize(Adapter, &size);
++	_irqlevel_changed_(&oldirql, RAISE);
++	if (ret == _SUCCESS) {
++		*(u32*)poid_par_priv->information_buf = size;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_FAILURE;
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_get_efuse_max_size_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	*(u32*)poid_par_priv->information_buf = efuse_GetMaxSize(Adapter);
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++	RT_TRACE(_module_mp_, _drv_info_,
++		 ("-oid_rt_get_efuse_max_size_hdl: size=%d status=0x%08X\n",
++		  *(int*)poid_par_priv->information_buf, status));
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_efuse_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status;
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_info_, ("+oid_rt_pro_efuse_hdl\n"));
++
++	if (poid_par_priv->type_of_oid == QUERY_OID)
++		status = oid_rt_pro_read_efuse_hdl(poid_par_priv);
++	else
++		status = oid_rt_pro_write_efuse_hdl(poid_par_priv);
++
++	RT_TRACE(_module_mp_, _drv_info_, ("-oid_rt_pro_efuse_hdl: status=0x%08X\n", status));
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_pro_efuse_map_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u8		*data;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	u16	mapLen=0;
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+oid_rt_pro_efuse_map_hdl\n"));
++
++	EFUSE_GetEfuseDefinition(Adapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
++
++	*poid_par_priv->bytes_rw = 0;
++
++	if (poid_par_priv->information_buf_len < mapLen)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	data = (u8*)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (poid_par_priv->type_of_oid == QUERY_OID)
++	{
++		RT_TRACE(_module_mp_, _drv_info_,
++			("oid_rt_pro_efuse_map_hdl: READ\n"));
++
++		if (rtw_efuse_map_read(Adapter, 0, mapLen, data) == _SUCCESS)
++			*poid_par_priv->bytes_rw = mapLen;
++		else {
++			RT_TRACE(_module_mp_, _drv_err_,
++				("oid_rt_pro_efuse_map_hdl: READ fail\n"));
++			status = NDIS_STATUS_FAILURE;
++		}
++	} else {
++		// SET_OID
++		RT_TRACE(_module_mp_, _drv_info_,
++			("oid_rt_pro_efuse_map_hdl: WRITE\n"));
++
++		if (rtw_efuse_map_write(Adapter, 0, mapLen, data) == _SUCCESS)
++			*poid_par_priv->bytes_rw = mapLen;
++		else {
++			RT_TRACE(_module_mp_, _drv_err_,
++				("oid_rt_pro_efuse_map_hdl: WRITE fail\n"));
++			status = NDIS_STATUS_FAILURE;
++		}
++	}
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	RT_TRACE(_module_mp_, _drv_info_,
++		 ("-oid_rt_pro_efuse_map_hdl: status=0x%08X\n", status));
++
++_func_exit_;
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_set_crystal_cap_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++
++	u32		crystal_cap = 0;
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len <sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	crystal_cap = *((u32*)poid_par_priv->information_buf);//4
++	if (crystal_cap > 0xf)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	Adapter->mppriv.curr_crystalcap = crystal_cap;
++
++	_irqlevel_changed_(&oldirql,LOWER);
++	SetCrystalCap(Adapter);
++	_irqlevel_changed_(&oldirql,RAISE);
++
++_func_exit_;
++
++#endif
++	return status;
++}
++
++NDIS_STATUS oid_rt_set_rx_packet_type_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u8		rx_pkt_type;
++//	u32		rcr_val32;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++//	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++_func_enter_;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+oid_rt_set_rx_packet_type_hdl\n"));
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u8))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	rx_pkt_type = *((u8*)poid_par_priv->information_buf);//4
++
++	RT_TRACE(_module_mp_, _drv_info_, ("rx_pkt_type: %x\n",rx_pkt_type ));
++#if 0
++	_irqlevel_changed_(&oldirql, LOWER);
++#if 0
++	rcr_val8 = rtw_read8(Adapter, 0x10250048);//RCR
++	rcr_val8 &= ~(RCR_AB|RCR_AM|RCR_APM|RCR_AAP);
++
++	if(rx_pkt_type == RX_PKT_BROADCAST){
++		rcr_val8 |= (RCR_AB | RCR_ACRC32 );
++	}
++	else if(rx_pkt_type == RX_PKT_DEST_ADDR){
++		rcr_val8 |= (RCR_AAP| RCR_AM |RCR_ACRC32);
++	}
++	else if(rx_pkt_type == RX_PKT_PHY_MATCH){
++		rcr_val8 |= (RCR_APM|RCR_ACRC32);
++	}
++	else{
++		rcr_val8 &= ~(RCR_AAP|RCR_APM|RCR_AM|RCR_AB|RCR_ACRC32);
++	}
++	rtw_write8(padapter, 0x10250048,rcr_val8);
++#else
++	rcr_val32 = rtw_read32(padapter, RCR);//RCR = 0x10250048
++	rcr_val32 &= ~(RCR_CBSSID|RCR_AB|RCR_AM|RCR_APM|RCR_AAP);
++#if 0
++	if(rx_pkt_type == RX_PKT_BROADCAST){
++		rcr_val32 |= (RCR_AB|RCR_AM|RCR_APM|RCR_AAP|RCR_ACRC32);
++	}
++	else if(rx_pkt_type == RX_PKT_DEST_ADDR){
++		//rcr_val32 |= (RCR_CBSSID|RCR_AAP|RCR_AM|RCR_ACRC32);
++		rcr_val32 |= (RCR_CBSSID|RCR_APM|RCR_ACRC32);
++	}
++	else if(rx_pkt_type == RX_PKT_PHY_MATCH){
++		rcr_val32 |= (RCR_APM|RCR_ACRC32);
++		//rcr_val32 |= (RCR_AAP|RCR_ACRC32);
++	}
++	else{
++		rcr_val32 &= ~(RCR_AAP|RCR_APM|RCR_AM|RCR_AB|RCR_ACRC32);
++	}
++#else
++	switch (rx_pkt_type)
++	{
++		case RX_PKT_BROADCAST :
++			rcr_val32 |= (RCR_AB|RCR_AM|RCR_APM|RCR_AAP|RCR_ACRC32);
++			break;
++		case RX_PKT_DEST_ADDR :
++			rcr_val32 |= (RCR_AB|RCR_AM|RCR_APM|RCR_AAP|RCR_ACRC32);
++			break;
++		case RX_PKT_PHY_MATCH:
++			rcr_val32 |= (RCR_APM|RCR_ACRC32);
++			break;
++		default:
++			rcr_val32 &= ~(RCR_AAP|RCR_APM|RCR_AM|RCR_AB|RCR_ACRC32);
++			break;
++	}
++
++	if (rx_pkt_type == RX_PKT_DEST_ADDR) {
++		padapter->mppriv.check_mp_pkt = 1;
++	} else {
++		padapter->mppriv.check_mp_pkt = 0;
++	}
++#endif
++	rtw_write32(padapter, RCR, rcr_val32);
++
++#endif
++	_irqlevel_changed_(&oldirql, RAISE);
++#endif
++_func_exit_;
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_pro_set_tx_agc_offset_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	u32 		txagc;
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	txagc = *(u32*)poid_par_priv->information_buf;
++	RT_TRACE(_module_mp_, _drv_info_,
++		 ("oid_rt_pro_set_tx_agc_offset_hdl: 0x%08x\n", txagc));
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetTxAGCOffset(Adapter, txagc);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++
++NDIS_STATUS oid_rt_pro_set_pkt_test_mode_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER		Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	struct mp_priv		*pmppriv = &Adapter->mppriv;
++	u32 			type;
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len <sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	type = *(u32*)poid_par_priv->information_buf;
++
++	if (_LOOPBOOK_MODE_ == type) {
++		pmppriv->mode = type;
++		set_fwstate(pmlmepriv, WIFI_MP_LPBK_STATE); //append txdesc
++		RT_TRACE(_module_mp_, _drv_info_, ("test mode change to loopback mode:0x%08x.\n", get_fwstate(pmlmepriv)));
++	} else if (_2MAC_MODE_ == type){
++		pmppriv->mode = type;
++		_clr_fwstate_(pmlmepriv, WIFI_MP_LPBK_STATE);
++		RT_TRACE(_module_mp_, _drv_info_, ("test mode change to 2mac mode:0x%08x.\n", get_fwstate(pmlmepriv)));
++	} else
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++
++unsigned int mp_ioctl_xmit_packet_hdl(struct oid_par_priv *poid_par_priv)
++{
++	PMP_XMIT_PARM pparm;
++	PADAPTER padapter;
++	struct mp_priv *pmp_priv;
++	struct pkt_attrib *pattrib;
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("+%s\n", __func__));
++
++	pparm = (PMP_XMIT_PARM)poid_par_priv->information_buf;
++	padapter = (PADAPTER)poid_par_priv->adapter_context;
++	pmp_priv = &padapter->mppriv;
++
++	if (poid_par_priv->type_of_oid == QUERY_OID) {
++		pparm->enable = !pmp_priv->tx.stop;
++		pparm->count = pmp_priv->tx.sended;
++	} else {
++		if (pparm->enable == 0) {
++			pmp_priv->tx.stop = 1;
++		} else if (pmp_priv->tx.stop == 1) {
++			pmp_priv->tx.stop = 0;
++			pmp_priv->tx.count = pparm->count;
++			pmp_priv->tx.payload = pparm->payload_type;
++			pattrib = &pmp_priv->tx.attrib;
++			pattrib->pktlen = pparm->length;
++			_rtw_memcpy(pattrib->dst, pparm->da, ETH_ALEN);
++			SetPacketTx(padapter);
++		} else
++			return NDIS_STATUS_FAILURE;
++	}
++
++	return NDIS_STATUS_SUCCESS;
++}
++
++#if 0
++unsigned int mp_ioctl_xmit_packet_hdl(struct oid_par_priv *poid_par_priv)
++{
++	unsigned char *pframe, *pmp_pkt;
++	struct ethhdr *pethhdr;
++	struct pkt_attrib *pattrib;
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	unsigned short *fctrl;
++	int llc_sz, payload_len;
++	struct mp_xmit_frame *pxframe=  NULL;
++	struct mp_xmit_packet *pmp_xmitpkt = (struct mp_xmit_packet*)param;
++	u8 addr3[] = {0x02, 0xE0, 0x4C, 0x87, 0x66, 0x55};
++
++//	DBG_871X("+mp_ioctl_xmit_packet_hdl\n");
++
++	pxframe = alloc_mp_xmitframe(&padapter->mppriv);
++	if (pxframe == NULL)
++	{
++		DEBUG_ERR(("Can't alloc pmpframe %d:%s\n", __LINE__, __FILE__));
++		return -1;
++	}
++
++	//mp_xmit_pkt
++	payload_len = pmp_xmitpkt->len - 14;
++	pmp_pkt = (unsigned char*)pmp_xmitpkt->mem;
++	pethhdr = (struct ethhdr *)pmp_pkt;
++
++	//DBG_871X("payload_len=%d, pkt_mem=0x%x\n", pmp_xmitpkt->len, (void*)pmp_xmitpkt->mem);
++
++	//DBG_871X("pxframe=0x%x\n", (void*)pxframe);
++	//DBG_871X("pxframe->mem=0x%x\n", (void*)pxframe->mem);
++
++	//update attribute
++	pattrib = &pxframe->attrib;
++	memset((u8 *)(pattrib), 0, sizeof (struct pkt_attrib));
++	pattrib->pktlen = pmp_xmitpkt->len;
++	pattrib->ether_type = ntohs(pethhdr->h_proto);
++	pattrib->hdrlen = 24;
++	pattrib->nr_frags = 1;
++	pattrib->priority = 0;
++#ifndef CONFIG_MP_LINUX
++	if(IS_MCAST(pethhdr->h_dest))
++		pattrib->mac_id = 4;
++	else
++		pattrib->mac_id = 5;
++#else
++	pattrib->mac_id = 5;
++#endif
++
++	//
++	memset(pxframe->mem, 0 , WLANHDR_OFFSET);
++	pframe = (u8 *)(pxframe->mem) + WLANHDR_OFFSET;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	SetFrameSubType(pframe, WIFI_DATA);
++
++	_rtw_memcpy(pwlanhdr->addr1, pethhdr->h_dest, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pethhdr->h_source, ETH_ALEN);
++
++	_rtw_memcpy(pwlanhdr->addr3, addr3, ETH_ALEN);
++
++	pwlanhdr->seq_ctl = 0;
++	pframe += pattrib->hdrlen;
++
++	llc_sz= rtw_put_snap(pframe, pattrib->ether_type);
++	pframe += llc_sz;
++
++	_rtw_memcpy(pframe, (void*)(pmp_pkt+14),  payload_len);
++
++	pattrib->last_txcmdsz = pattrib->hdrlen + llc_sz + payload_len;
++
++	DEBUG_INFO(("issuing mp_xmit_frame, tx_len=%d, ether_type=0x%x\n", pattrib->last_txcmdsz, pattrib->ether_type));
++	xmit_mp_frame(padapter, pxframe);
++
++	return _SUCCESS;
++}
++#endif
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_set_power_down_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u8		bpwrup;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++#ifdef PLATFORM_LINUX
++#ifdef CONFIG_SDIO_HCI
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++#endif
++#endif
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	RT_TRACE(_module_mp_, _drv_info_,
++		 ("\n ===> Setoid_rt_set_power_down_hdl.\n"));
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	bpwrup = *(u8 *)poid_par_priv->information_buf;
++	//CALL  the power_down function
++#ifdef PLATFORM_LINUX
++#ifdef CONFIG_SDIO_HCI
++	dev_power_down(padapter,bpwrup);
++#endif
++#endif
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	//DEBUG_ERR(("\n <=== Query OID_RT_PRO_READ_REGISTER.
++	//	Add:0x%08x Width:%d Value:0x%08x\n",RegRWStruct->offset,RegRWStruct->width,RegRWStruct->value));
++
++_func_exit_;
++
++	return status;
++}
++//------------------------------------------------------------------------------
++NDIS_STATUS oid_rt_get_power_mode_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++//#ifdef PLATFORM_OS_XP
++//	_irqL		oldirql;
++//#endif
++
++_func_enter_;
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if (poid_par_priv->information_buf_len < sizeof(u32)) {
++		status = NDIS_STATUS_INVALID_LENGTH;
++		return status;
++	}
++
++	RT_TRACE(_module_mp_, _drv_info_,
++		 ("\n ===> oid_rt_get_power_mode_hdl.\n"));
++
++//	_irqlevel_changed_(&oldirql, LOWER);
++	*(int*)poid_par_priv->information_buf = Adapter->registrypriv.low_power ? POWER_LOW : POWER_NORMAL;
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++//	_irqlevel_changed_(&oldirql, RAISE);
++
++_func_exit_;
++
++	return status;
++#else
++	return 0;
++#endif
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_p2p.c b/drivers/net/wireless/rtl8192cu/core/rtw_p2p.c
+new file mode 100755
+index 0000000..66c5f96
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_p2p.c
+@@ -0,0 +1,5294 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_P2P_C_
++
++#include <drv_types.h>
++#include <rtw_p2p.h>
++#include <wifi.h>
++
++#ifdef CONFIG_P2P
++
++int rtw_p2p_is_channel_list_ok( u8 desired_ch, u8* ch_list, u8 ch_cnt )
++{
++	int found = 0, i = 0;
++
++	for( i = 0; i < ch_cnt; i++ )
++	{
++		if ( ch_list[ i ] == desired_ch )
++		{
++			found = 1;
++			break;
++		}
++	}
++	return( found );
++}
++
++int is_any_client_associated(_adapter *padapter)
++{
++	return padapter->stapriv.asoc_list_cnt ? _TRUE : _FALSE;
++}
++
++static u32 go_add_group_info_attr(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	_irqL irqL;
++	_list	*phead, *plist;
++	u32 len=0;
++	u16 attr_len = 0;
++	u8 tmplen, *pdata_attr, *pstart, *pcur;
++	struct sta_info *psta = NULL;
++	_adapter *padapter = pwdinfo->padapter;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	pdata_attr = rtw_zmalloc(MAX_P2P_IE_LEN);
++
++	pstart = pdata_attr;
++	pcur = pdata_attr;
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++
++	//look up sta asoc_queue
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)	
++	{		
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		
++		plist = get_next(plist);
++		
++
++		if(psta->is_p2p_device)
++		{
++			tmplen = 0;
++			
++			pcur++;
++		
++			//P2P device address
++			_rtw_memcpy(pcur, psta->dev_addr, ETH_ALEN);
++			pcur += ETH_ALEN;
++
++			//P2P interface address
++			_rtw_memcpy(pcur, psta->hwaddr, ETH_ALEN);
++			pcur += ETH_ALEN;
++
++			*pcur = psta->dev_cap;
++			pcur++;
++
++			//*(u16*)(pcur) = cpu_to_be16(psta->config_methods);
++			RTW_PUT_BE16(pcur, psta->config_methods);
++			pcur += 2;
++
++			_rtw_memcpy(pcur, psta->primary_dev_type, 8);
++			pcur += 8;
++
++			*pcur = psta->num_of_secdev_type;
++			pcur++;
++
++			_rtw_memcpy(pcur, psta->secdev_types_list, psta->num_of_secdev_type*8);
++			pcur += psta->num_of_secdev_type*8;
++			
++			if(psta->dev_name_len>0)
++			{
++				//*(u16*)(pcur) = cpu_to_be16( WPS_ATTR_DEVICE_NAME );
++				RTW_PUT_BE16(pcur, WPS_ATTR_DEVICE_NAME);
++				pcur += 2;
++
++				//*(u16*)(pcur) = cpu_to_be16( psta->dev_name_len );
++				RTW_PUT_BE16(pcur, psta->dev_name_len);
++				pcur += 2;
++
++				_rtw_memcpy(pcur, psta->dev_name, psta->dev_name_len);
++				pcur += psta->dev_name_len;
++			}
++
++
++			tmplen = (u8)(pcur-pstart);
++			
++			*pstart = (tmplen-1);
++
++			attr_len += tmplen;
++
++			//pstart += tmplen;
++			pstart = pcur;
++			
++		}
++		
++		
++	}
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	if(attr_len>0)
++	{
++		len = rtw_set_p2p_attr_content(pbuf, P2P_ATTR_GROUP_INFO, attr_len, pdata_attr);
++	}
++
++	rtw_mfree(pdata_attr, MAX_P2P_IE_LEN);
++
++	return len;
++
++}
++
++static void issue_group_disc_req(struct wifidirect_info *pwdinfo, u8 *da)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	_adapter *padapter = pwdinfo->padapter;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);	
++	unsigned char category = RTW_WLAN_CATEGORY_P2P;//P2P action frame	
++	u32	p2poui = cpu_to_be32(P2POUI);
++	u8	oui_subtype = P2P_GO_DISC_REQUEST;
++	u8	dialogToken=0;
++
++	DBG_871X("[%s]\n", __FUNCTION__);
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pwdinfo->interface_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, pwdinfo->interface_addr, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	//Build P2P action frame header
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));	
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));	
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));		
++
++	//there is no IE in this P2P action frame
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++}
++
++static void issue_p2p_devdisc_resp(struct wifidirect_info *pwdinfo, u8 *da, u8 status, u8 dialogToken)
++{	
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	_adapter *padapter = pwdinfo->padapter;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);	
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_DEVDISC_RESP;
++	u8 p2pie[8] = { 0x00 };
++	u32 p2pielen = 0;	
++
++	DBG_871X("[%s]\n", __FUNCTION__);
++	
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pwdinfo->device_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, pwdinfo->device_addr, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	//Build P2P public action frame header
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));	
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));		
++
++
++	//Build P2P IE
++	//	P2P OUI
++	p2pielen = 0;
++	p2pie[ p2pielen++ ] = 0x50;
++	p2pie[ p2pielen++ ] = 0x6F;
++	p2pie[ p2pielen++ ] = 0x9A;
++	p2pie[ p2pielen++ ] = 0x09;	//	WFA P2P v1.0
++
++	// P2P_ATTR_STATUS
++	p2pielen += rtw_set_p2p_attr_content(&p2pie[p2pielen], P2P_ATTR_STATUS, 1, &status);
++	
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, p2pie, &pattrib->pktlen);	
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++}
++
++static void issue_p2p_provision_resp(struct wifidirect_info *pwdinfo, u8* raddr, u8* frame_body, u16 config_method)
++{
++	_adapter *padapter = pwdinfo->padapter;
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u8			dialogToken = frame_body[7];	//	The Dialog Token of provisioning discovery request frame.
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_PROVISION_DISC_RESP;
++	u8			wpsie[ 100 ] = { 0x00 };
++	u8			wpsielen = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif //CONFIG_WFD		
++	
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, myid(&(padapter->eeprompriv)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));	
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));		
++
++	wpsielen = 0;
++	//	WPS OUI
++	//*(u32*) ( wpsie ) = cpu_to_be32( WPSOUI );
++	RTW_PUT_BE32(wpsie, WPSOUI);
++	wpsielen += 4;
++
++#if 0
++	//	WPS version
++	//	Type:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_VER1 );
++	wpsielen += 2;
++
++	//	Length:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0001 );
++	wpsielen += 2;
++
++	//	Value:
++	wpsie[wpsielen++] = WPS_VERSION_1;	//	Version 1.0
++#endif
++
++	//	Config Method
++	//	Type:
++	//*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_CONF_METHOD );
++	RTW_PUT_BE16(wpsie + wpsielen, WPS_ATTR_CONF_METHOD);
++	wpsielen += 2;
++
++	//	Length:
++	//*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0002 );
++	RTW_PUT_BE16(wpsie + wpsielen, 0x0002);
++	wpsielen += 2;
++
++	//	Value:
++	//*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( config_method );
++	RTW_PUT_BE16(wpsie + wpsielen, config_method);
++	wpsielen += 2;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen );	
++
++#ifdef CONFIG_WFD
++	wfdielen = build_provdisc_resp_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif //CONFIG_WFD
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++static void issue_p2p_presence_resp(struct wifidirect_info *pwdinfo, u8 *da, u8 status, u8 dialogToken)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	_adapter *padapter = pwdinfo->padapter;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);	
++	unsigned char category = RTW_WLAN_CATEGORY_P2P;//P2P action frame	
++	u32	p2poui = cpu_to_be32(P2POUI);
++	u8	oui_subtype = P2P_PRESENCE_RESPONSE;	
++	u8 p2pie[ MAX_P2P_IE_LEN] = { 0x00 };
++	u8 noa_attr_content[32] = { 0x00 };
++	u32 p2pielen = 0;
++
++	DBG_871X("[%s]\n", __FUNCTION__);
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pwdinfo->interface_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, pwdinfo->interface_addr, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	//Build P2P action frame header
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));	
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));	
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));	
++
++
++	//Add P2P IE header
++	//	P2P OUI
++	p2pielen = 0;
++	p2pie[ p2pielen++ ] = 0x50;
++	p2pie[ p2pielen++ ] = 0x6F;
++	p2pie[ p2pielen++ ] = 0x9A;
++	p2pie[ p2pielen++ ] = 0x09;	//	WFA P2P v1.0
++
++	//Add Status attribute in P2P IE 
++	p2pielen += rtw_set_p2p_attr_content(&p2pie[p2pielen], P2P_ATTR_STATUS, 1, &status);
++
++	//Add NoA attribute in P2P IE
++	noa_attr_content[0] = 0x1;//index
++	noa_attr_content[1] = 0x0;//CTWindow and OppPS Parameters
++	
++	//todo: Notice of Absence Descriptor(s)
++	
++	p2pielen += rtw_set_p2p_attr_content(&p2pie[p2pielen], P2P_ATTR_NOA, 2, noa_attr_content);
++
++
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, p2pie, &(pattrib->pktlen));
++
++	
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++}
++
++u32 build_beacon_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 p2pie[ MAX_P2P_IE_LEN] = { 0x00 };
++	u16 capability=0;
++	u32 len=0, p2pielen = 0;
++	
++
++	//	P2P OUI
++	p2pielen = 0;
++	p2pie[ p2pielen++ ] = 0x50;
++	p2pie[ p2pielen++ ] = 0x6F;
++	p2pie[ p2pielen++ ] = 0x9A;
++	p2pie[ p2pielen++ ] = 0x09;	//	WFA P2P v1.0
++
++
++	//	According to the P2P Specification, the beacon frame should contain 3 P2P attributes
++	//	1. P2P Capability
++	//	2. P2P Device ID
++	//	3. Notice of Absence ( NOA )	
++
++	//	P2P Capability ATTR
++	//	Type:
++	//	Length:
++	//	Value:
++	//	Device Capability Bitmap, 1 byte
++	//	Be able to participate in additional P2P Groups and
++	//	support the P2P Invitation Procedure	
++	//	Group Capability Bitmap, 1 byte	
++	capability = P2P_DEVCAP_INVITATION_PROC|P2P_DEVCAP_CLIENT_DISCOVERABILITY;
++	capability |=  ((P2P_GRPCAP_GO | P2P_GRPCAP_INTRABSS) << 8);
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_PROVISIONING_ING))
++		capability |= (P2P_GRPCAP_GROUP_FORMATION<<8);
++
++	capability = cpu_to_le16(capability);
++
++	p2pielen += rtw_set_p2p_attr_content(&p2pie[p2pielen], P2P_ATTR_CAPABILITY, 2, (u8*)&capability);
++
++	
++	// P2P Device ID ATTR
++	p2pielen += rtw_set_p2p_attr_content(&p2pie[p2pielen], P2P_ATTR_DEVICE_ID, ETH_ALEN, pwdinfo->device_addr);
++
++	
++	// Notice of Absence ATTR
++	//	Type: 
++	//	Length:
++	//	Value:
++	
++	//go_add_noa_attr(pwdinfo);
++	
++	
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &len);
++	
++	
++	return len;
++	
++}
++
++#ifdef CONFIG_WFD
++u32 build_beacon_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[ MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len=0, wfdielen = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info*	pwfd_info = padapter->wdinfo.wfd_info;
++
++	//	WFD OUI
++	wfdielen = 0;
++	wfdie[ wfdielen++ ] = 0x50;
++	wfdie[ wfdielen++ ] = 0x6F;
++	wfdie[ wfdielen++ ] = 0x9A;
++	wfdie[ wfdielen++ ] = 0x0A;	//	WFA WFD v1.0
++
++	//	Commented by Albert 20110812
++	//	According to the WFD Specification, the beacon frame should contain 4 WFD attributes
++	//	1. WFD Device Information
++	//	2. Associated BSSID
++	//	3. Coupled Sink Information
++
++
++	//	WFD Device Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_DEVICE_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value1:
++	//	WFD device information
++
++	if ( P2P_ROLE_GO == pwdinfo->role )
++	{
++		if ( is_any_client_associated( pwdinfo->padapter ) )
++		{
++			//	WFD primary sink + WiFi Direct mode + WSD (WFD Service Discovery)
++			RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_WSD );			
++		}
++		else
++		{
++			//	WFD primary sink + available for WFD session + WiFi Direct mode + WSD (WFD Service Discovery)
++			RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD );
++		}
++
++	}
++	else
++	{
++		//	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery )
++		RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD );
++	}
++	
++	wfdielen += 2;
++
++	//	Value2:
++	//	Session Management Control Port
++	//	Default TCP port for RTSP messages is 554
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport );
++	wfdielen += 2;
++
++	//	Value3:
++	//	WFD Device Maximum Throughput
++	//	300Mbps is the maximum throughput
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	//	Associated BSSID ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_ASSOC_BSSID;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value:
++	//	Associated BSSID
++	if ( check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE )
++	{
++		_rtw_memcpy( wfdie + wfdielen, &pmlmepriv->assoc_bssid[ 0 ], ETH_ALEN );
++	}
++	else
++	{
++		_rtw_memset( wfdie + wfdielen, 0x00, ETH_ALEN );
++	}
++
++	wfdielen += ETH_ALEN;
++
++	//	Coupled Sink Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	//	Value:
++	//	Coupled Sink Status bitmap
++	//	Not coupled/available for Coupling
++	wfdie[ wfdielen++ ] = 0;
++	//  MAC Addr.
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++	return len;
++	
++}
++
++u32 build_probe_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[ MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len=0, wfdielen = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info*	pwfd_info = padapter->wdinfo.wfd_info;
++
++	//	WFD OUI
++	wfdielen = 0;
++	wfdie[ wfdielen++ ] = 0x50;
++	wfdie[ wfdielen++ ] = 0x6F;
++	wfdie[ wfdielen++ ] = 0x9A;
++	wfdie[ wfdielen++ ] = 0x0A;	//	WFA WFD v1.0
++
++	//	Commented by Albert 20110812
++	//	According to the WFD Specification, the probe request frame should contain 4 WFD attributes
++	//	1. WFD Device Information
++	//	2. Associated BSSID
++	//	3. Coupled Sink Information
++
++
++	//	WFD Device Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_DEVICE_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value1:
++	//	WFD device information
++	
++	if ( 1 == pwdinfo->wfd_tdls_enable )
++	{
++		//	WFD primary sink + available for WFD session + WiFi TDLS mode + WSC ( WFD Service Discovery )	
++		RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | 
++						WFD_DEVINFO_SESSION_AVAIL | 
++						WFD_DEVINFO_WSD |
++						WFD_DEVINFO_PC_TDLS );
++	}
++	else
++	{
++		//	WFD primary sink + available for WFD session + WiFi Direct mode + WSC ( WFD Service Discovery )	
++		RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type |
++						WFD_DEVINFO_SESSION_AVAIL | 
++						WFD_DEVINFO_WSD );
++	}
++	
++	wfdielen += 2;
++
++	//	Value2:
++	//	Session Management Control Port
++	//	Default TCP port for RTSP messages is 554
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport );
++	wfdielen += 2;
++
++	//	Value3:
++	//	WFD Device Maximum Throughput
++	//	300Mbps is the maximum throughput
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	//	Associated BSSID ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_ASSOC_BSSID;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value:
++	//	Associated BSSID
++	if ( check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE )
++	{
++		_rtw_memcpy( wfdie + wfdielen, &pmlmepriv->assoc_bssid[ 0 ], ETH_ALEN );
++	}
++	else
++	{
++		_rtw_memset( wfdie + wfdielen, 0x00, ETH_ALEN );
++	}
++
++	wfdielen += ETH_ALEN;
++
++	//	Coupled Sink Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	//	Value:
++	//	Coupled Sink Status bitmap
++	//	Not coupled/available for Coupling
++	wfdie[ wfdielen++ ] = 0;
++	//  MAC Addr.
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++	return len;
++	
++}
++
++u32 build_probe_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf, u8 tunneled)
++{
++	u8 wfdie[ MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len=0, wfdielen = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info*	pwfd_info = padapter->wdinfo.wfd_info;
++
++	//	WFD OUI
++	wfdielen = 0;
++	wfdie[ wfdielen++ ] = 0x50;
++	wfdie[ wfdielen++ ] = 0x6F;
++	wfdie[ wfdielen++ ] = 0x9A;
++	wfdie[ wfdielen++ ] = 0x0A;	//	WFA WFD v1.0
++
++	//	Commented by Albert 20110812
++	//	According to the WFD Specification, the probe response frame should contain 4 WFD attributes
++	//	1. WFD Device Information
++	//	2. Associated BSSID
++	//	3. Coupled Sink Information
++	//	4. WFD Session Information
++
++
++	//	WFD Device Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_DEVICE_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value1:
++	//	WFD device information
++	//	WFD primary sink + available for WFD session + WiFi Direct mode
++	
++	if (  _TRUE == pwdinfo->session_available )
++	{
++		if ( P2P_ROLE_GO == pwdinfo->role )
++		{
++			if ( is_any_client_associated( pwdinfo->padapter ) )
++			{
++				if ( pwdinfo->wfd_tdls_enable )
++				{
++					//	TDLS mode + WSD ( WFD Service Discovery )
++					RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_PC_TDLS | WFD_DEVINFO_HDCP_SUPPORT);
++				}
++				else
++				{
++					//	WiFi Direct mode + WSD ( WFD Service Discovery )
++					RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_HDCP_SUPPORT);
++				}				
++			}
++			else
++			{
++				if ( pwdinfo->wfd_tdls_enable )
++				{
++					//	available for WFD session + TDLS mode + WSD ( WFD Service Discovery )
++					RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD | WFD_DEVINFO_PC_TDLS | WFD_DEVINFO_HDCP_SUPPORT);
++				}
++				else
++				{
++					//	available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery )
++					RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD | WFD_DEVINFO_HDCP_SUPPORT);
++				}				
++			}
++		}
++		else
++		{
++			if ( pwdinfo->wfd_tdls_enable )
++			{
++				//	available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery )
++				RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD | WFD_DEVINFO_PC_TDLS | WFD_DEVINFO_HDCP_SUPPORT);
++			}
++			else
++			{
++
++				//	available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery )
++				RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD | WFD_DEVINFO_HDCP_SUPPORT);
++			}
++		}
++	}
++	else
++	{
++		if ( pwdinfo->wfd_tdls_enable )
++		{
++			RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_WSD |WFD_DEVINFO_PC_TDLS | WFD_DEVINFO_HDCP_SUPPORT);
++		}
++		else
++		{
++			RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_HDCP_SUPPORT);
++		}
++
++	}
++
++	wfdielen += 2;
++
++	//	Value2:
++	//	Session Management Control Port
++	//	Default TCP port for RTSP messages is 554
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport );
++	wfdielen += 2;
++
++	//	Value3:
++	//	WFD Device Maximum Throughput
++	//	300Mbps is the maximum throughput
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	//	Associated BSSID ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_ASSOC_BSSID;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value:
++	//	Associated BSSID
++	if ( check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE )
++	{
++		_rtw_memcpy( wfdie + wfdielen, &pmlmepriv->assoc_bssid[ 0 ], ETH_ALEN );
++	}
++	else
++	{
++		_rtw_memset( wfdie + wfdielen, 0x00, ETH_ALEN );
++	}
++
++	wfdielen += ETH_ALEN;
++
++	//	Coupled Sink Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	//	Value:
++	//	Coupled Sink Status bitmap
++	//	Not coupled/available for Coupling
++	wfdie[ wfdielen++ ] = 0;
++	//  MAC Addr.
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++
++	if ( P2P_ROLE_GO == pwdinfo->role )
++	{
++		//	WFD Session Information ATTR
++		//	Type:
++		wfdie[ wfdielen++ ] = WFD_ATTR_SESSION_INFO;
++
++		//	Length:
++		//	Note: In the WFD specification, the size of length field is 2.
++		RTW_PUT_BE16(wfdie + wfdielen, 0x0000);
++		wfdielen += 2;
++
++		//	Todo: to add the list of WFD device info descriptor in WFD group.
++
++	}
++#ifdef CONFIG_CONCURRENT_MODE
++#ifdef CONFIG_TDLS
++	if ( ( tunneled == 0 ) && ( padapter->pbuddy_adapter->wdinfo.wfd_tdls_enable == 1 ) )
++	{
++		//	Alternative MAC Address ATTR
++		//	Type:
++		wfdie[ wfdielen++ ] = WFD_ATTR_ALTER_MAC;
++
++		//	Length:
++		//	Note: In the WFD specification, the size of length field is 2.
++		RTW_PUT_BE16(wfdie + wfdielen,  ETH_ALEN );
++		wfdielen += 2;
++
++		//	Value:
++		//	Alternative MAC Address
++		_rtw_memcpy( wfdie + wfdielen, &padapter->pbuddy_adapter->eeprompriv.mac_addr[ 0 ], ETH_ALEN );
++		//	This mac address is used to make the WFD session when TDLS is enable.
++
++		wfdielen += ETH_ALEN;
++	}
++#endif // CONFIG_TDLS
++#endif // CONFIG_CONCURRENT_MODE
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++	return len;
++	
++}
++
++u32 build_assoc_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[ MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len=0, wfdielen = 0;
++	_adapter 					*padapter = NULL;
++	struct mlme_priv			*pmlmepriv = NULL;
++	struct wifi_display_info		*pwfd_info = NULL;
++
++	//	WFD OUI
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE) || rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE))
++	{
++		return 0;
++	}
++
++	padapter = pwdinfo->padapter;
++	pmlmepriv = &padapter->mlmepriv;
++	pwfd_info = padapter->wdinfo.wfd_info;
++	
++	wfdielen = 0;
++	wfdie[ wfdielen++ ] = 0x50;
++	wfdie[ wfdielen++ ] = 0x6F;
++	wfdie[ wfdielen++ ] = 0x9A;
++	wfdie[ wfdielen++ ] = 0x0A;	//	WFA WFD v1.0
++
++	//	Commented by Albert 20110812
++	//	According to the WFD Specification, the probe request frame should contain 4 WFD attributes
++	//	1. WFD Device Information
++	//	2. Associated BSSID
++	//	3. Coupled Sink Information
++
++
++	//	WFD Device Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_DEVICE_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value1:
++	//	WFD device information
++	//	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery )
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD );
++	wfdielen += 2;
++
++	//	Value2:
++	//	Session Management Control Port
++	//	Default TCP port for RTSP messages is 554
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport );
++	wfdielen += 2;
++
++	//	Value3:
++	//	WFD Device Maximum Throughput
++	//	300Mbps is the maximum throughput
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	//	Associated BSSID ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_ASSOC_BSSID;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value:
++	//	Associated BSSID
++	if ( check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE )
++	{
++		_rtw_memcpy( wfdie + wfdielen, &pmlmepriv->assoc_bssid[ 0 ], ETH_ALEN );
++	}
++	else
++	{
++		_rtw_memset( wfdie + wfdielen, 0x00, ETH_ALEN );
++	}
++
++	wfdielen += ETH_ALEN;
++
++	//	Coupled Sink Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	//	Value:
++	//	Coupled Sink Status bitmap
++	//	Not coupled/available for Coupling
++	wfdie[ wfdielen++ ] = 0;
++	//  MAC Addr.
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++	return len;
++	
++}
++
++u32 build_assoc_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[ MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len=0, wfdielen = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info*	pwfd_info = padapter->wdinfo.wfd_info;
++
++	//	WFD OUI
++	wfdielen = 0;
++	wfdie[ wfdielen++ ] = 0x50;
++	wfdie[ wfdielen++ ] = 0x6F;
++	wfdie[ wfdielen++ ] = 0x9A;
++	wfdie[ wfdielen++ ] = 0x0A;	//	WFA WFD v1.0
++
++	//	Commented by Albert 20110812
++	//	According to the WFD Specification, the probe request frame should contain 4 WFD attributes
++	//	1. WFD Device Information
++	//	2. Associated BSSID
++	//	3. Coupled Sink Information
++
++
++	//	WFD Device Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_DEVICE_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value1:
++	//	WFD device information
++	//	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery )
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD );
++	wfdielen += 2;
++
++	//	Value2:
++	//	Session Management Control Port
++	//	Default TCP port for RTSP messages is 554
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport );
++	wfdielen += 2;
++
++	//	Value3:
++	//	WFD Device Maximum Throughput
++	//	300Mbps is the maximum throughput
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	//	Associated BSSID ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_ASSOC_BSSID;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value:
++	//	Associated BSSID
++	if ( check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE )
++	{
++		_rtw_memcpy( wfdie + wfdielen, &pmlmepriv->assoc_bssid[ 0 ], ETH_ALEN );
++	}
++	else
++	{
++		_rtw_memset( wfdie + wfdielen, 0x00, ETH_ALEN );
++	}
++
++	wfdielen += ETH_ALEN;
++
++	//	Coupled Sink Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	//	Value:
++	//	Coupled Sink Status bitmap
++	//	Not coupled/available for Coupling
++	wfdie[ wfdielen++ ] = 0;
++	//  MAC Addr.
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++	return len;
++	
++}
++
++u32 build_nego_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[ MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len=0, wfdielen = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info*	pwfd_info = padapter->wdinfo.wfd_info;
++
++	//	WFD OUI
++	wfdielen = 0;
++	wfdie[ wfdielen++ ] = 0x50;
++	wfdie[ wfdielen++ ] = 0x6F;
++	wfdie[ wfdielen++ ] = 0x9A;
++	wfdie[ wfdielen++ ] = 0x0A;	//	WFA WFD v1.0
++
++	//	Commented by Albert 20110825
++	//	According to the WFD Specification, the negotiation request frame should contain 3 WFD attributes
++	//	1. WFD Device Information
++	//	2. Associated BSSID ( Optional )
++	//	3. Local IP Adress ( Optional )
++
++
++	//	WFD Device Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_DEVICE_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value1:
++	//	WFD device information
++	//	WFD primary sink + WiFi Direct mode + WSD ( WFD Service Discovery ) + WFD Session Available
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_SESSION_AVAIL);
++	wfdielen += 2;
++
++	//	Value2:
++	//	Session Management Control Port
++	//	Default TCP port for RTSP messages is 554
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport );
++	wfdielen += 2;
++
++	//	Value3:
++	//	WFD Device Maximum Throughput
++	//	300Mbps is the maximum throughput
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	//	Associated BSSID ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_ASSOC_BSSID;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value:
++	//	Associated BSSID
++	if ( check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE )
++	{
++		_rtw_memcpy( wfdie + wfdielen, &pmlmepriv->assoc_bssid[ 0 ], ETH_ALEN );
++	}
++	else
++	{
++		_rtw_memset( wfdie + wfdielen, 0x00, ETH_ALEN );
++	}
++
++	wfdielen += ETH_ALEN;
++
++	//	Coupled Sink Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	//	Value:
++	//	Coupled Sink Status bitmap
++	//	Not coupled/available for Coupling
++	wfdie[ wfdielen++ ] = 0;
++	//  MAC Addr.
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++	return len;
++	
++}
++
++u32 build_nego_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[ MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len=0, wfdielen = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info*	pwfd_info = padapter->wdinfo.wfd_info;
++
++	//	WFD OUI
++	wfdielen = 0;
++	wfdie[ wfdielen++ ] = 0x50;
++	wfdie[ wfdielen++ ] = 0x6F;
++	wfdie[ wfdielen++ ] = 0x9A;
++	wfdie[ wfdielen++ ] = 0x0A;	//	WFA WFD v1.0
++
++	//	Commented by Albert 20110825
++	//	According to the WFD Specification, the negotiation request frame should contain 3 WFD attributes
++	//	1. WFD Device Information
++	//	2. Associated BSSID ( Optional )
++	//	3. Local IP Adress ( Optional )
++
++
++	//	WFD Device Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_DEVICE_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value1:
++	//	WFD device information
++	//	WFD primary sink + WiFi Direct mode + WSD ( WFD Service Discovery ) + WFD Session Available
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_SESSION_AVAIL);
++	wfdielen += 2;
++
++	//	Value2:
++	//	Session Management Control Port
++	//	Default TCP port for RTSP messages is 554
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport );
++	wfdielen += 2;
++
++	//	Value3:
++	//	WFD Device Maximum Throughput
++	//	300Mbps is the maximum throughput
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	//	Associated BSSID ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_ASSOC_BSSID;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value:
++	//	Associated BSSID
++	if ( check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE )
++	{
++		_rtw_memcpy( wfdie + wfdielen, &pmlmepriv->assoc_bssid[ 0 ], ETH_ALEN );
++	}
++	else
++	{
++		_rtw_memset( wfdie + wfdielen, 0x00, ETH_ALEN );
++	}
++
++	wfdielen += ETH_ALEN;
++
++	//	Coupled Sink Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	//	Value:
++	//	Coupled Sink Status bitmap
++	//	Not coupled/available for Coupling
++	wfdie[ wfdielen++ ] = 0;
++	//  MAC Addr.
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++	return len;
++	
++}
++
++u32 build_nego_confirm_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[ MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len=0, wfdielen = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info*	pwfd_info = padapter->wdinfo.wfd_info;
++
++	//	WFD OUI
++	wfdielen = 0;
++	wfdie[ wfdielen++ ] = 0x50;
++	wfdie[ wfdielen++ ] = 0x6F;
++	wfdie[ wfdielen++ ] = 0x9A;
++	wfdie[ wfdielen++ ] = 0x0A;	//	WFA WFD v1.0
++
++	//	Commented by Albert 20110825
++	//	According to the WFD Specification, the negotiation request frame should contain 3 WFD attributes
++	//	1. WFD Device Information
++	//	2. Associated BSSID ( Optional )
++	//	3. Local IP Adress ( Optional )
++
++
++	//	WFD Device Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_DEVICE_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value1:
++	//	WFD device information
++	//	WFD primary sink + WiFi Direct mode + WSD ( WFD Service Discovery ) + WFD Session Available
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_SESSION_AVAIL);
++	wfdielen += 2;
++
++	//	Value2:
++	//	Session Management Control Port
++	//	Default TCP port for RTSP messages is 554
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport );
++	wfdielen += 2;
++
++	//	Value3:
++	//	WFD Device Maximum Throughput
++	//	300Mbps is the maximum throughput
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	//	Associated BSSID ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_ASSOC_BSSID;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value:
++	//	Associated BSSID
++	if ( check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE )
++	{
++		_rtw_memcpy( wfdie + wfdielen, &pmlmepriv->assoc_bssid[ 0 ], ETH_ALEN );
++	}
++	else
++	{
++		_rtw_memset( wfdie + wfdielen, 0x00, ETH_ALEN );
++	}
++
++	wfdielen += ETH_ALEN;
++
++	//	Coupled Sink Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	//	Value:
++	//	Coupled Sink Status bitmap
++	//	Not coupled/available for Coupling
++	wfdie[ wfdielen++ ] = 0;
++	//  MAC Addr.
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++	return len;
++	
++}
++
++u32 build_invitation_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[ MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len=0, wfdielen = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info*	pwfd_info = padapter->wdinfo.wfd_info;
++
++	//	WFD OUI
++	wfdielen = 0;
++	wfdie[ wfdielen++ ] = 0x50;
++	wfdie[ wfdielen++ ] = 0x6F;
++	wfdie[ wfdielen++ ] = 0x9A;
++	wfdie[ wfdielen++ ] = 0x0A;	//	WFA WFD v1.0
++
++	//	Commented by Albert 20110825
++	//	According to the WFD Specification, the provision discovery request frame should contain 3 WFD attributes
++	//	1. WFD Device Information
++	//	2. Associated BSSID ( Optional )
++	//	3. Local IP Adress ( Optional )
++
++
++	//	WFD Device Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_DEVICE_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value1:
++	//	WFD device information
++	//	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery )
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD );
++	wfdielen += 2;
++
++	//	Value2:
++	//	Session Management Control Port
++	//	Default TCP port for RTSP messages is 554
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport );
++	wfdielen += 2;
++
++	//	Value3:
++	//	WFD Device Maximum Throughput
++	//	300Mbps is the maximum throughput
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	//	Associated BSSID ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_ASSOC_BSSID;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value:
++	//	Associated BSSID
++	if ( check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE )
++	{
++		_rtw_memcpy( wfdie + wfdielen, &pmlmepriv->assoc_bssid[ 0 ], ETH_ALEN );
++	}
++	else
++	{
++		_rtw_memset( wfdie + wfdielen, 0x00, ETH_ALEN );
++	}
++
++	wfdielen += ETH_ALEN;
++
++	//	Coupled Sink Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	//	Value:
++	//	Coupled Sink Status bitmap
++	//	Not coupled/available for Coupling
++	wfdie[ wfdielen++ ] = 0;
++	//  MAC Addr.
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++
++	if ( P2P_ROLE_GO == pwdinfo->role )
++	{
++		//	WFD Session Information ATTR
++		//	Type:
++		wfdie[ wfdielen++ ] = WFD_ATTR_SESSION_INFO;
++
++		//	Length:
++		//	Note: In the WFD specification, the size of length field is 2.
++		RTW_PUT_BE16(wfdie + wfdielen, 0x0000);
++		wfdielen += 2;
++
++		//	Todo: to add the list of WFD device info descriptor in WFD group.
++
++	}
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++	return len;
++	
++}
++
++u32 build_invitation_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[ MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len=0, wfdielen = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info*	pwfd_info = padapter->wdinfo.wfd_info;
++
++	//	WFD OUI
++	wfdielen = 0;
++	wfdie[ wfdielen++ ] = 0x50;
++	wfdie[ wfdielen++ ] = 0x6F;
++	wfdie[ wfdielen++ ] = 0x9A;
++	wfdie[ wfdielen++ ] = 0x0A;	//	WFA WFD v1.0
++
++	//	Commented by Albert 20110825
++	//	According to the WFD Specification, the provision discovery request frame should contain 3 WFD attributes
++	//	1. WFD Device Information
++	//	2. Associated BSSID ( Optional )
++	//	3. Local IP Adress ( Optional )
++
++
++	//	WFD Device Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_DEVICE_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value1:
++	//	WFD device information
++	//	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery )
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD );
++	wfdielen += 2;
++
++	//	Value2:
++	//	Session Management Control Port
++	//	Default TCP port for RTSP messages is 554
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport );
++	wfdielen += 2;
++
++	//	Value3:
++	//	WFD Device Maximum Throughput
++	//	300Mbps is the maximum throughput
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	//	Associated BSSID ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_ASSOC_BSSID;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value:
++	//	Associated BSSID
++	if ( check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE )
++	{
++		_rtw_memcpy( wfdie + wfdielen, &pmlmepriv->assoc_bssid[ 0 ], ETH_ALEN );
++	}
++	else
++	{
++		_rtw_memset( wfdie + wfdielen, 0x00, ETH_ALEN );
++	}
++
++	wfdielen += ETH_ALEN;
++
++	//	Coupled Sink Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	//	Value:
++	//	Coupled Sink Status bitmap
++	//	Not coupled/available for Coupling
++	wfdie[ wfdielen++ ] = 0;
++	//  MAC Addr.
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++
++	if ( P2P_ROLE_GO == pwdinfo->role )
++	{
++		//	WFD Session Information ATTR
++		//	Type:
++		wfdie[ wfdielen++ ] = WFD_ATTR_SESSION_INFO;
++
++		//	Length:
++		//	Note: In the WFD specification, the size of length field is 2.
++		RTW_PUT_BE16(wfdie + wfdielen, 0x0000);
++		wfdielen += 2;
++
++		//	Todo: to add the list of WFD device info descriptor in WFD group.
++
++	}
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++	return len;
++	
++}
++
++u32 build_provdisc_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[ MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len=0, wfdielen = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info*	pwfd_info = padapter->wdinfo.wfd_info;
++
++	//	WFD OUI
++	wfdielen = 0;
++	wfdie[ wfdielen++ ] = 0x50;
++	wfdie[ wfdielen++ ] = 0x6F;
++	wfdie[ wfdielen++ ] = 0x9A;
++	wfdie[ wfdielen++ ] = 0x0A;	//	WFA WFD v1.0
++
++	//	Commented by Albert 20110825
++	//	According to the WFD Specification, the provision discovery request frame should contain 3 WFD attributes
++	//	1. WFD Device Information
++	//	2. Associated BSSID ( Optional )
++	//	3. Local IP Adress ( Optional )
++
++
++	//	WFD Device Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_DEVICE_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value1:
++	//	WFD device information
++	//	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery )
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD );
++	wfdielen += 2;
++
++	//	Value2:
++	//	Session Management Control Port
++	//	Default TCP port for RTSP messages is 554
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport );
++	wfdielen += 2;
++
++	//	Value3:
++	//	WFD Device Maximum Throughput
++	//	300Mbps is the maximum throughput
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	//	Associated BSSID ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_ASSOC_BSSID;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value:
++	//	Associated BSSID
++	if ( check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE )
++	{
++		_rtw_memcpy( wfdie + wfdielen, &pmlmepriv->assoc_bssid[ 0 ], ETH_ALEN );
++	}
++	else
++	{
++		_rtw_memset( wfdie + wfdielen, 0x00, ETH_ALEN );
++	}
++
++	wfdielen += ETH_ALEN;
++
++	//	Coupled Sink Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	//	Value:
++	//	Coupled Sink Status bitmap
++	//	Not coupled/available for Coupling
++	wfdie[ wfdielen++ ] = 0;
++	//  MAC Addr.
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++	return len;
++	
++}
++
++u32 build_provdisc_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[ MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len=0, wfdielen = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info*	pwfd_info = padapter->wdinfo.wfd_info;
++
++	//	WFD OUI
++	wfdielen = 0;
++	wfdie[ wfdielen++ ] = 0x50;
++	wfdie[ wfdielen++ ] = 0x6F;
++	wfdie[ wfdielen++ ] = 0x9A;
++	wfdie[ wfdielen++ ] = 0x0A;	//	WFA WFD v1.0
++
++	//	Commented by Albert 20110825
++	//	According to the WFD Specification, the provision discovery response frame should contain 3 WFD attributes
++	//	1. WFD Device Information
++	//	2. Associated BSSID ( Optional )
++	//	3. Local IP Adress ( Optional )
++
++
++	//	WFD Device Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_DEVICE_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value1:
++	//	WFD device information
++	//	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery )
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD );
++	wfdielen += 2;
++
++	//	Value2:
++	//	Session Management Control Port
++	//	Default TCP port for RTSP messages is 554
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport );
++	wfdielen += 2;
++
++	//	Value3:
++	//	WFD Device Maximum Throughput
++	//	300Mbps is the maximum throughput
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	//	Associated BSSID ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_ASSOC_BSSID;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value:
++	//	Associated BSSID
++	if ( check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE )
++	{
++		_rtw_memcpy( wfdie + wfdielen, &pmlmepriv->assoc_bssid[ 0 ], ETH_ALEN );
++	}
++	else
++	{
++		_rtw_memset( wfdie + wfdielen, 0x00, ETH_ALEN );
++	}
++
++	wfdielen += ETH_ALEN;
++
++	//	Coupled Sink Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	//	Value:
++	//	Coupled Sink Status bitmap
++	//	Not coupled/available for Coupling
++	wfdie[ wfdielen++ ] = 0;
++	//  MAC Addr.
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++	wfdie[ wfdielen++ ] = 0;
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++	return len;
++	
++}
++
++#endif //CONFIG_WFD
++
++u32 build_probe_resp_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 p2pie[ MAX_P2P_IE_LEN] = { 0x00 };
++	u32 len=0, p2pielen = 0;	
++#ifdef CONFIG_INTEL_WIDI
++	struct mlme_priv *pmlmepriv = &(pwdinfo->padapter->mlmepriv);
++	u8 zero_array_check[L2SDTA_SERVICE_VE_LEN] = { 0x00 };
++	u8 widi_version = 0, i = 0;
++
++	if( _rtw_memcmp( pmlmepriv->sa_ext, zero_array_check, L2SDTA_SERVICE_VE_LEN ) == _FALSE )
++	{
++		widi_version = 35;
++	}
++	else if( pmlmepriv->num_p2p_sdt != 0 )
++	{
++		widi_version = 40;
++	}
++#endif //CONFIG_INTEL_WIDI
++
++	//	P2P OUI
++	p2pielen = 0;
++	p2pie[ p2pielen++ ] = 0x50;
++	p2pie[ p2pielen++ ] = 0x6F;
++	p2pie[ p2pielen++ ] = 0x9A;
++	p2pie[ p2pielen++ ] = 0x09;	//	WFA P2P v1.0
++
++	//	Commented by Albert 20100907
++	//	According to the P2P Specification, the probe response frame should contain 5 P2P attributes
++	//	1. P2P Capability
++	//	2. Extended Listen Timing
++	//	3. Notice of Absence ( NOA )	( Only GO needs this )
++	//	4. Device Info
++	//	5. Group Info	( Only GO need this )
++
++	//	P2P Capability ATTR
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_CAPABILITY;
++
++	//	Length:
++	//*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0002 );
++	RTW_PUT_LE16(p2pie + p2pielen, 0x0002);
++	p2pielen += 2;
++
++	//	Value:
++	//	Device Capability Bitmap, 1 byte
++	p2pie[ p2pielen++ ] = DMP_P2P_DEVCAP_SUPPORT;
++	
++	//	Group Capability Bitmap, 1 byte
++	if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++	{
++		p2pie[ p2pielen ] = (P2P_GRPCAP_GO | P2P_GRPCAP_INTRABSS);
++
++		if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_PROVISIONING_ING))
++			p2pie[ p2pielen ] |= P2P_GRPCAP_GROUP_FORMATION;
++
++		p2pielen++;
++	}
++	else if ( rtw_p2p_chk_role(pwdinfo, P2P_ROLE_DEVICE) )
++	{
++		//	Group Capability Bitmap, 1 byte
++		if ( pwdinfo->persistent_supported )
++			p2pie[ p2pielen++ ] = P2P_GRPCAP_PERSISTENT_GROUP | DMP_P2P_GRPCAP_SUPPORT;
++		else
++			p2pie[ p2pielen++ ] = DMP_P2P_GRPCAP_SUPPORT;
++
++	}
++
++	//	Extended Listen Timing ATTR
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_EX_LISTEN_TIMING;
++
++	//	Length:
++	//*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0004 );
++	RTW_PUT_LE16(p2pie + p2pielen, 0x0004);
++	p2pielen += 2;
++
++	//	Value:
++	//	Availability Period
++	//*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0xFFFF );
++	RTW_PUT_LE16(p2pie + p2pielen, 0xFFFF);
++	p2pielen += 2;
++
++	//	Availability Interval
++	//*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0xFFFF );
++	RTW_PUT_LE16(p2pie + p2pielen, 0xFFFF);
++	p2pielen += 2;
++
++
++	// Notice of Absence ATTR
++	//	Type: 
++	//	Length:
++	//	Value:
++	if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++	{
++		//go_add_noa_attr(pwdinfo);
++	}	
++
++	//	Device Info ATTR
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_DEVICE_INFO;
++
++	//	Length:
++	//	21 -> P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes) 
++	//	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes)
++	//*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 21 + pwdinfo->device_name_len );
++#ifdef CONFIG_INTEL_WIDI
++	if( widi_version == 35 )
++	{
++		RTW_PUT_LE16(p2pie + p2pielen, 21 + 8 + pwdinfo->device_name_len);
++	}
++	else if( widi_version == 40 )
++	{
++		RTW_PUT_LE16(p2pie + p2pielen, 21 + 8 * pmlmepriv->num_p2p_sdt + pwdinfo->device_name_len);
++	}
++	else
++#endif //CONFIG_INTEL_WIDI
++	RTW_PUT_LE16(p2pie + p2pielen, 21 + pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	//	Value:
++	//	P2P Device Address
++	_rtw_memcpy( p2pie + p2pielen, pwdinfo->device_addr, ETH_ALEN );
++	p2pielen += ETH_ALEN;
++
++	//	Config Method
++	//	This field should be big endian. Noted by P2P specification.
++	//*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( pwdinfo->supported_wps_cm );
++	RTW_PUT_BE16(p2pie + p2pielen, pwdinfo->supported_wps_cm);
++	p2pielen += 2;
++
++#ifdef CONFIG_INTEL_WIDI
++	if( widi_version == 40 )
++	{
++		//	Primary Device Type
++		//	Category ID
++		//*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_CID_MULIT_MEDIA );
++		RTW_PUT_BE16(p2pie + p2pielen, pmlmepriv->p2p_pdt_cid );
++		p2pielen += 2;
++
++		//	OUI
++		//*(u32*) ( p2pie + p2pielen ) = cpu_to_be32( WPSOUI );
++		RTW_PUT_BE32(p2pie + p2pielen, WPSOUI);
++		p2pielen += 4;
++
++		//	Sub Category ID
++		//*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_SCID_MEDIA_SERVER );
++		RTW_PUT_BE16(p2pie + p2pielen, pmlmepriv->p2p_pdt_scid);
++		p2pielen += 2;
++	}
++	else
++#endif //CONFIG_INTEL_WIDI
++	{
++		//	Primary Device Type
++		//	Category ID
++		//*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_CID_MULIT_MEDIA );
++		RTW_PUT_BE16(p2pie + p2pielen, WPS_PDT_CID_MULIT_MEDIA);
++		p2pielen += 2;
++
++		//	OUI
++		//*(u32*) ( p2pie + p2pielen ) = cpu_to_be32( WPSOUI );
++		RTW_PUT_BE32(p2pie + p2pielen, WPSOUI);
++		p2pielen += 4;
++
++		//	Sub Category ID
++		//*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_SCID_MEDIA_SERVER );
++		RTW_PUT_BE16(p2pie + p2pielen, WPS_PDT_SCID_MEDIA_SERVER);
++		p2pielen += 2;
++	}
++
++	//	Number of Secondary Device Types
++#ifdef CONFIG_INTEL_WIDI
++	if( widi_version == 35 )
++	{
++		p2pie[ p2pielen++ ] = 0x01;
++		
++		RTW_PUT_BE16(p2pie + p2pielen, WPS_PDT_CID_DISPLAYS);
++		p2pielen += 2;
++
++		RTW_PUT_BE32(p2pie + p2pielen, INTEL_DEV_TYPE_OUI);
++		p2pielen += 4;
++
++		RTW_PUT_BE16(p2pie + p2pielen, P2P_SCID_WIDI_CONSUMER_SINK);
++		p2pielen += 2;
++	}
++	else if( widi_version == 40 )
++	{
++		p2pie[ p2pielen++ ] = pmlmepriv->num_p2p_sdt;
++		for( ; i < pmlmepriv->num_p2p_sdt; i++ )
++		{
++			RTW_PUT_BE16(p2pie + p2pielen, pmlmepriv->p2p_sdt_cid[i]);
++			p2pielen += 2;
++
++			RTW_PUT_BE32(p2pie + p2pielen, INTEL_DEV_TYPE_OUI);
++			p2pielen += 4;
++
++			RTW_PUT_BE16(p2pie + p2pielen, pmlmepriv->p2p_sdt_scid[i]);
++			p2pielen += 2;
++		}
++	}
++	else
++#endif //CONFIG_INTEL_WIDI
++	p2pie[ p2pielen++ ] = 0x00;	//	No Secondary Device Type List
++
++	//	Device Name
++	//	Type:
++	//*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_ATTR_DEVICE_NAME );
++	RTW_PUT_BE16(p2pie + p2pielen, WPS_ATTR_DEVICE_NAME);
++	p2pielen += 2;
++
++	//	Length:
++	//*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( pwdinfo->device_name_len );
++	RTW_PUT_BE16(p2pie + p2pielen, pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	//	Value:
++	_rtw_memcpy( p2pie + p2pielen, pwdinfo->device_name, pwdinfo->device_name_len );
++	p2pielen += pwdinfo->device_name_len;
++
++	// Group Info ATTR
++	//	Type:
++	//	Length:
++	//	Value:
++	if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++	{
++		p2pielen += go_add_group_info_attr(pwdinfo, p2pie + p2pielen);
++	}
++
++	
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &len);
++	
++
++	return len;
++	
++}
++
++u32 build_prov_disc_request_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf, u8* pssid, u8 ussidlen, u8* pdev_raddr )
++{
++	u8 p2pie[ MAX_P2P_IE_LEN] = { 0x00 };
++	u32 len=0, p2pielen = 0;	
++
++	//	P2P OUI
++	p2pielen = 0;
++	p2pie[ p2pielen++ ] = 0x50;
++	p2pie[ p2pielen++ ] = 0x6F;
++	p2pie[ p2pielen++ ] = 0x9A;
++	p2pie[ p2pielen++ ] = 0x09;	//	WFA P2P v1.0
++
++	//	Commented by Albert 20110301
++	//	According to the P2P Specification, the provision discovery request frame should contain 3 P2P attributes
++	//	1. P2P Capability
++	//	2. Device Info
++	//	3. Group ID ( When joining an operating P2P Group )
++
++	//	P2P Capability ATTR
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_CAPABILITY;
++
++	//	Length:
++	//*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0002 );
++	RTW_PUT_LE16(p2pie + p2pielen, 0x0002);
++	p2pielen += 2;
++
++	//	Value:
++	//	Device Capability Bitmap, 1 byte
++	p2pie[ p2pielen++ ] = DMP_P2P_DEVCAP_SUPPORT;
++	
++	//	Group Capability Bitmap, 1 byte
++	if ( pwdinfo->persistent_supported )
++		p2pie[ p2pielen++ ] = P2P_GRPCAP_PERSISTENT_GROUP | DMP_P2P_GRPCAP_SUPPORT;
++	else
++		p2pie[ p2pielen++ ] = DMP_P2P_GRPCAP_SUPPORT;
++
++
++	//	Device Info ATTR
++	//	Type:
++	p2pie[ p2pielen++ ] = P2P_ATTR_DEVICE_INFO;
++
++	//	Length:
++	//	21 -> P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes) 
++	//	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes)
++	//*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 21 + pwdinfo->device_name_len );
++	RTW_PUT_LE16(p2pie + p2pielen, 21 + pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	//	Value:
++	//	P2P Device Address
++	_rtw_memcpy( p2pie + p2pielen, pwdinfo->device_addr, ETH_ALEN );
++	p2pielen += ETH_ALEN;
++
++	//	Config Method
++	//	This field should be big endian. Noted by P2P specification.
++	if ( pwdinfo->ui_got_wps_info == P2P_GOT_WPSINFO_PBC )
++	{
++		//*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_CONFIG_METHOD_PBC );
++		RTW_PUT_BE16(p2pie + p2pielen, WPS_CONFIG_METHOD_PBC);
++	}
++	else
++	{
++		//*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_CONFIG_METHOD_DISPLAY );
++		RTW_PUT_BE16(p2pie + p2pielen, WPS_CONFIG_METHOD_DISPLAY);
++	}
++
++	p2pielen += 2;
++
++	//	Primary Device Type
++	//	Category ID
++	//*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_CID_MULIT_MEDIA );
++	RTW_PUT_BE16(p2pie + p2pielen, WPS_PDT_CID_MULIT_MEDIA);
++	p2pielen += 2;
++
++	//	OUI
++	//*(u32*) ( p2pie + p2pielen ) = cpu_to_be32( WPSOUI );
++	RTW_PUT_BE32(p2pie + p2pielen, WPSOUI);
++	p2pielen += 4;
++
++	//	Sub Category ID
++	//*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_SCID_MEDIA_SERVER );
++	RTW_PUT_BE16(p2pie + p2pielen, WPS_PDT_SCID_MEDIA_SERVER);
++	p2pielen += 2;
++
++	//	Number of Secondary Device Types
++	p2pie[ p2pielen++ ] = 0x00;	//	No Secondary Device Type List
++
++	//	Device Name
++	//	Type:
++	//*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_ATTR_DEVICE_NAME );
++	RTW_PUT_BE16(p2pie + p2pielen, WPS_ATTR_DEVICE_NAME);
++	p2pielen += 2;
++
++	//	Length:
++	//*(u16*) ( p2pie + p2pielen ) = cpu_to_be16( pwdinfo->device_name_len );
++	RTW_PUT_BE16(p2pie + p2pielen, pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	//	Value:
++	_rtw_memcpy( p2pie + p2pielen, pwdinfo->device_name, pwdinfo->device_name_len );
++	p2pielen += pwdinfo->device_name_len;
++
++	if ( rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT) )
++	{
++		//	Added by Albert 2011/05/19
++		//	In this case, the pdev_raddr is the device address of the group owner.
++		
++		//	P2P Group ID ATTR
++		//	Type:
++		p2pie[ p2pielen++ ] = P2P_ATTR_GROUP_ID;
++
++		//	Length:
++		//*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( ETH_ALEN + ussidlen );
++		RTW_PUT_LE16(p2pie + p2pielen, ETH_ALEN + ussidlen);
++		p2pielen += 2;
++
++		//	Value:
++		_rtw_memcpy( p2pie + p2pielen, pdev_raddr, ETH_ALEN );
++		p2pielen += ETH_ALEN;
++
++		_rtw_memcpy( p2pie + p2pielen, pssid, ussidlen );
++		p2pielen += ussidlen;
++		
++	}
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &len);
++	
++
++	return len;
++	
++}
++
++
++u32 build_assoc_resp_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf, u8 status_code)
++{
++	u8 p2pie[ MAX_P2P_IE_LEN] = { 0x00 };
++	u32 len=0, p2pielen = 0;	
++
++	//	P2P OUI
++	p2pielen = 0;
++	p2pie[ p2pielen++ ] = 0x50;
++	p2pie[ p2pielen++ ] = 0x6F;
++	p2pie[ p2pielen++ ] = 0x9A;
++	p2pie[ p2pielen++ ] = 0x09;	//	WFA P2P v1.0
++
++	// According to the P2P Specification, the Association response frame should contain 2 P2P attributes
++	//	1. Status
++	//	2. Extended Listen Timing (optional)
++
++
++	//	Status ATTR
++	p2pielen += rtw_set_p2p_attr_content(&p2pie[p2pielen], P2P_ATTR_STATUS, 1, &status_code);
++
++
++	// Extended Listen Timing ATTR
++	//	Type:
++	//	Length:
++	//	Value:
++
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &len);
++	
++	return len;
++	
++}
++
++u32 build_deauth_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u32 len=0;
++	
++	return len;
++}
++
++u32 process_probe_req_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pframe, uint len)
++{	
++	u8 *p;
++	u32 ret=_FALSE;
++	u8 *p2pie;
++	u32	p2pielen = 0;
++	int ssid_len=0, rate_cnt = 0;
++
++	p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + _PROBEREQ_IE_OFFSET_, _SUPPORTEDRATES_IE_, (int *)&rate_cnt,
++			len - WLAN_HDR_A3_LEN - _PROBEREQ_IE_OFFSET_);
++
++	if ( rate_cnt <= 4 )
++	{
++		int i, g_rate =0;
++
++		for( i = 0; i < rate_cnt; i++ )
++		{
++			if ( ( ( *( p + 2 + i ) & 0xff ) != 0x02 ) &&
++				( ( *( p + 2 + i ) & 0xff ) != 0x04 ) &&
++				( ( *( p + 2 + i ) & 0xff ) != 0x0B ) &&
++				( ( *( p + 2 + i ) & 0xff ) != 0x16 ) )
++			{
++				g_rate = 1;
++			}
++		}
++
++		if ( g_rate == 0 )
++		{
++			//	There is no OFDM rate included in SupportedRates IE of this probe request frame
++			//	The driver should response this probe request.
++			return ret;
++		}
++	}
++	else
++	{
++		//	rate_cnt > 4 means the SupportRates IE contains the OFDM rate because the count of CCK rates are 4.
++		//	We should proceed the following check for this probe request.
++	}
++
++	//	Added comments by Albert 20100906
++	//	There are several items we should check here.
++	//	1. This probe request frame must contain the P2P IE. (Done)
++	//	2. This probe request frame must contain the wildcard SSID. (Done)
++	//	3. Wildcard BSSID. (Todo)
++	//	4. Destination Address. ( Done in mgt_dispatcher function )
++	//	5. Requested Device Type in WSC IE. (Todo)
++	//	6. Device ID attribute in P2P IE. (Todo)
++
++	p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + _PROBEREQ_IE_OFFSET_, _SSID_IE_, (int *)&ssid_len,
++			len - WLAN_HDR_A3_LEN - _PROBEREQ_IE_OFFSET_);	
++
++	ssid_len &= 0xff;	//	Just last 1 byte is valid for ssid len of the probe request
++	if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_DEVICE) || rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++	{
++		if((p2pie=rtw_get_p2p_ie( pframe + WLAN_HDR_A3_LEN + _PROBEREQ_IE_OFFSET_ , len - WLAN_HDR_A3_LEN - _PROBEREQ_IE_OFFSET_ , NULL, &p2pielen)))
++		{
++			if ( (p != NULL) && _rtw_memcmp( ( void * ) ( p+2 ), ( void * ) pwdinfo->p2p_wildcard_ssid , 7 ))
++			{
++				//todo:
++				//Check Requested Device Type attributes in WSC IE.
++				//Check Device ID attribute in P2P IE
++
++				ret = _TRUE;			
++			}		
++			else if ( (p != NULL) && ( ssid_len == 0 ) )
++			{
++				ret = _TRUE;
++			}
++		}
++		else
++		{
++			//non -p2p device
++		}
++		
++	}	
++
++	
++	return ret;
++	
++}
++
++u32 process_assoc_req_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pframe, uint len, struct sta_info *psta)
++{
++	u8 status_code = P2P_STATUS_SUCCESS;
++	u8 *pbuf, *pattr_content=NULL;
++	u32 attr_contentlen = 0;
++	u16 cap_attr=0;
++	unsigned short	frame_type, ie_offset=0;
++	u8 * ies;
++	u32 ies_len;
++	u8 * p2p_ie;
++	u32	p2p_ielen = 0;
++
++	if(!rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++		return P2P_STATUS_FAIL_REQUEST_UNABLE;
++
++	frame_type = GetFrameSubType(pframe);
++	if (frame_type == WIFI_ASSOCREQ)
++	{
++		ie_offset = _ASOCREQ_IE_OFFSET_;
++	}	
++	else // WIFI_REASSOCREQ
++	{
++		ie_offset = _REASOCREQ_IE_OFFSET_;
++	}
++	
++	ies = pframe + WLAN_HDR_A3_LEN + ie_offset;
++	ies_len = len - WLAN_HDR_A3_LEN - ie_offset;
++
++	p2p_ie = rtw_get_p2p_ie(ies , ies_len , NULL, &p2p_ielen);
++
++	if ( !p2p_ie )
++	{
++		DBG_8192C( "[%s] P2P IE not Found!!\n", __FUNCTION__ );
++		status_code =  P2P_STATUS_FAIL_INVALID_PARAM;
++	}
++	else
++	{
++		DBG_8192C( "[%s] P2P IE Found!!\n", __FUNCTION__ );
++	}
++	
++	while ( p2p_ie )
++	{
++		//Check P2P Capability ATTR
++		if( rtw_get_p2p_attr_content( p2p_ie, p2p_ielen, P2P_ATTR_CAPABILITY, (u8*)&cap_attr, (uint*) &attr_contentlen) )
++		{
++			DBG_8192C( "[%s] Got P2P Capability Attr!!\n", __FUNCTION__ );
++			cap_attr = le16_to_cpu(cap_attr);
++			psta->dev_cap = cap_attr&0xff;
++		}
++
++		//Check Extended Listen Timing ATTR
++	
++
++		//Check P2P Device Info ATTR
++		if(rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_DEVICE_INFO, NULL, (uint*)&attr_contentlen))
++		{
++			DBG_8192C( "[%s] Got P2P DEVICE INFO Attr!!\n", __FUNCTION__ );		
++			pattr_content = pbuf = rtw_zmalloc(attr_contentlen);
++			if(pattr_content)
++			{
++				u8 num_of_secdev_type;
++				u16 dev_name_len;
++			
++		
++				rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_DEVICE_INFO , pattr_content, (uint*)&attr_contentlen);
++
++				_rtw_memcpy(psta->dev_addr, 	pattr_content, ETH_ALEN);//P2P Device Address
++
++				pattr_content += ETH_ALEN;
++
++				_rtw_memcpy(&psta->config_methods, pattr_content, 2);//Config Methods
++				psta->config_methods = be16_to_cpu(psta->config_methods);
++
++				pattr_content += 2;
++
++				_rtw_memcpy(psta->primary_dev_type, pattr_content, 8);
++
++				pattr_content += 8;
++
++				num_of_secdev_type = *pattr_content;
++				pattr_content += 1;
++
++				if(num_of_secdev_type==0)
++				{
++					psta->num_of_secdev_type = 0;
++				}
++				else
++				{
++					u32 len;
++
++					psta->num_of_secdev_type = num_of_secdev_type;
++
++					len = (sizeof(psta->secdev_types_list)<(num_of_secdev_type*8)) ? (sizeof(psta->secdev_types_list)) : (num_of_secdev_type*8);
++
++					_rtw_memcpy(psta->secdev_types_list, pattr_content, len);
++	
++					pattr_content += (num_of_secdev_type*8);
++				}
++
++
++				//dev_name_len = attr_contentlen - ETH_ALEN - 2 - 8 - 1 - (num_of_secdev_type*8);
++				psta->dev_name_len=0;
++				if(WPS_ATTR_DEVICE_NAME == be16_to_cpu(*(u16*)pattr_content))
++				{				
++					dev_name_len = be16_to_cpu(*(u16*)(pattr_content+2));
++
++					psta->dev_name_len = (sizeof(psta->dev_name)<dev_name_len) ? sizeof(psta->dev_name):dev_name_len;
++
++					_rtw_memcpy(psta->dev_name, pattr_content+4, psta->dev_name_len);
++				}
++
++				rtw_mfree(pbuf, attr_contentlen);
++
++			}
++
++		}
++
++		//Get the next P2P IE
++		p2p_ie = rtw_get_p2p_ie(p2p_ie+p2p_ielen, ies_len -(p2p_ie -ies + p2p_ielen), NULL, &p2p_ielen);
++		
++	}
++
++	return status_code;
++
++}
++
++u32 process_p2p_devdisc_req(struct wifidirect_info *pwdinfo, u8 *pframe, uint len)
++{
++	u8 *frame_body;
++	u8 status, dialogToken;
++	struct sta_info *psta = NULL;
++	_adapter *padapter = pwdinfo->padapter;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *p2p_ie;
++	u32	p2p_ielen = 0;	
++	
++	frame_body = (unsigned char *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++	dialogToken = frame_body[7];
++	status = P2P_STATUS_FAIL_UNKNOWN_P2PGROUP;
++		
++	if ( (p2p_ie=rtw_get_p2p_ie( frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, NULL, &p2p_ielen)) )
++	{
++		u8 groupid[ 38 ] = { 0x00 };
++		u8 dev_addr[ETH_ALEN] = { 0x00 };		
++		u32	attr_contentlen = 0;
++
++		if(rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GROUP_ID, groupid, &attr_contentlen))
++		{
++			if(_rtw_memcmp(pwdinfo->device_addr, groupid, ETH_ALEN) && 
++				_rtw_memcmp(pwdinfo->p2p_group_ssid, groupid+ETH_ALEN, pwdinfo->p2p_group_ssid_len))
++			{
++				attr_contentlen=0;
++				if(rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_DEVICE_ID, dev_addr, &attr_contentlen))
++				{
++					_irqL irqL;
++					_list	*phead, *plist;					
++
++					_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++					phead = &pstapriv->asoc_list;
++					plist = get_next(phead);
++
++					//look up sta asoc_queue
++					while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)	
++					{		
++						psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		
++						plist = get_next(plist);
++
++						if(psta->is_p2p_device && (psta->dev_cap&P2P_DEVCAP_CLIENT_DISCOVERABILITY) &&
++							_rtw_memcmp(psta->dev_addr, dev_addr, ETH_ALEN))
++						{
++
++							//_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++							//issue GO Discoverability Request
++							issue_group_disc_req(pwdinfo, psta->hwaddr);
++							//_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++							
++							status = P2P_STATUS_SUCCESS;
++							
++							break;
++						}
++						else
++						{
++							status = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++						}
++		
++					}				
++					_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++					
++				}
++				else
++				{
++					status = P2P_STATUS_FAIL_INVALID_PARAM;
++				}
++
++			}
++			else
++			{
++				status = P2P_STATUS_FAIL_INVALID_PARAM;
++			}
++			
++		}	
++		
++	}
++
++	
++	//issue Device Discoverability Response
++	issue_p2p_devdisc_resp(pwdinfo, GetAddr2Ptr(pframe), status, dialogToken);
++	
++	
++	return (status==P2P_STATUS_SUCCESS) ? _TRUE:_FALSE;
++	
++}
++
++u32 process_p2p_devdisc_resp(struct wifidirect_info *pwdinfo, u8 *pframe, uint len)
++{
++	return _TRUE;
++}
++
++u8 process_p2p_provdisc_req(struct wifidirect_info *pwdinfo,  u8 *pframe, uint len )
++{
++	u8 *frame_body;
++	u8 *wpsie;
++	uint	wps_ielen = 0, attr_contentlen = 0;
++	u16	uconfig_method = 0;
++	
++
++	frame_body = (pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++	if ( (wpsie=rtw_get_wps_ie( frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, NULL, &wps_ielen)) )
++	{
++		if ( rtw_get_wps_attr_content( wpsie, wps_ielen, WPS_ATTR_CONF_METHOD , ( u8* ) &uconfig_method, &attr_contentlen) )
++		{
++			uconfig_method = be16_to_cpu( uconfig_method );
++			switch( uconfig_method )
++			{
++				case WPS_CM_DISPLYA:
++				{
++					_rtw_memcpy( pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "dis", 3 );
++					break;
++				}
++				case WPS_CM_LABEL:
++				{
++					_rtw_memcpy( pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "lab", 3 );
++					break;
++				}
++				case WPS_CM_PUSH_BUTTON:
++				{
++					_rtw_memcpy( pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "pbc", 3 );
++					break;
++				}
++				case WPS_CM_KEYPAD:
++				{
++					_rtw_memcpy( pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "pad", 3 );
++					break;
++				}
++			}
++			issue_p2p_provision_resp( pwdinfo, GetAddr2Ptr(pframe), frame_body, uconfig_method);
++		}
++	}
++	DBG_871X( "[%s] config method = %s\n", __FUNCTION__, pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req );
++	return _TRUE;
++	
++}
++	
++u8 process_p2p_provdisc_resp(struct wifidirect_info *pwdinfo,  u8 *pframe)
++{
++
++	return _TRUE;
++}
++
++u8 rtw_p2p_get_peer_ch_list(struct wifidirect_info *pwdinfo, u8 *ch_content, u8 ch_cnt, u8 *peer_ch_list)
++{
++	u8 i = 0, j = 0;
++	u8 temp = 0;
++	u8 ch_no = 0;
++	ch_content += 3;
++	ch_cnt -= 3;
++
++	while( ch_cnt > 0)
++	{
++		ch_content += 1;
++		ch_cnt -= 1;
++		temp = *ch_content;
++		for( i = 0 ; i < temp ; i++, j++ )
++		{
++			peer_ch_list[j] = *( ch_content + 1 + i );
++		}
++		ch_content += (temp + 1);
++		ch_cnt -= (temp + 1);
++		ch_no += temp ;
++	}
++
++	return ch_no;
++}
++
++u8 rtw_p2p_check_peer_oper_ch(struct mlme_ext_priv *pmlmeext, u8 ch)
++{
++	u8 i = 0;
++
++	for( i = 0; i < pmlmeext->max_chan_nums; i++ )
++	{
++		if ( pmlmeext->channel_set[ i ].ChannelNum == ch )
++		{
++			return _SUCCESS;
++		}
++	}
++
++	return _FAIL;
++}
++
++u8 rtw_p2p_ch_inclusion(struct mlme_ext_priv *pmlmeext, u8 *peer_ch_list, u8 peer_ch_num, u8 *ch_list_inclusioned)
++{
++	int	i = 0, j = 0, temp = 0;
++	u8 ch_no = 0;
++
++	for( i = 0; i < peer_ch_num; i++ )
++	{
++		for( j = temp; j < pmlmeext->max_chan_nums; j++ )
++		{
++			if( *( peer_ch_list + i ) == pmlmeext->channel_set[ j ].ChannelNum )
++			{
++				ch_list_inclusioned[ ch_no++ ] = *( peer_ch_list + i );
++				temp = j;
++				break;
++			}
++		}
++	}
++
++	return ch_no;
++}
++
++u8 process_p2p_group_negotation_req( struct wifidirect_info *pwdinfo, u8 *pframe, uint len )
++{
++	_adapter *padapter = pwdinfo->padapter;
++	u8	result = P2P_STATUS_SUCCESS;
++	u32	p2p_ielen = 0, wps_ielen = 0;
++	u8 * ies;
++	u32 ies_len;
++	u8 *p2p_ie;
++	u8 *wpsie;
++	u16		wps_devicepassword_id = 0x0000;
++	uint	wps_devicepassword_id_len = 0;
++#ifdef CONFIG_WFD
++	u8	wfd_ie[ 128 ] = { 0x00 };
++	u32	wfd_ielen = 0;
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++#endif // CONFIG_TDLS	
++#endif // CONFIG_WFD
++#ifdef CONFIG_CONCURRENT_MODE
++	_adapter				*pbuddy_adapter = pwdinfo->padapter->pbuddy_adapter;
++	struct wifidirect_info	*pbuddy_wdinfo = &pbuddy_adapter->wdinfo;
++	struct mlme_priv		*pbuddy_mlmepriv = &pbuddy_adapter->mlmepriv;
++	struct mlme_ext_priv	*pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++#endif
++
++	if ( (wpsie=rtw_get_wps_ie( pframe + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, NULL, &wps_ielen)) )
++	{
++		//	Commented by Kurt 20120113
++		//	If some device wants to do p2p handshake without sending prov_disc_req
++		//	We have to get peer_req_cm from here.
++		if(_rtw_memcmp( pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "000", 3) )
++		{
++			rtw_get_wps_attr_content( wpsie, wps_ielen, WPS_ATTR_DEVICE_PWID, (u8*) &wps_devicepassword_id, &wps_devicepassword_id_len);
++			wps_devicepassword_id = be16_to_cpu( wps_devicepassword_id );
++
++			if ( wps_devicepassword_id == WPS_DPID_USER_SPEC )
++			{
++				_rtw_memcpy( pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "dis", 3 );
++			}
++			else if ( wps_devicepassword_id == WPS_DPID_REGISTRAR_SPEC )
++			{
++				_rtw_memcpy( pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "pad", 3 );	
++			}
++			else
++			{
++				_rtw_memcpy( pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "pbc", 3 );	
++			}
++		}
++	}
++	else
++	{
++		DBG_871X( "[%s] WPS IE not Found!!\n", __FUNCTION__ );
++		result = P2P_STATUS_FAIL_INCOMPATIBLE_PARAM;
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++		return( result );
++	}
++
++	if ( pwdinfo->ui_got_wps_info == P2P_NO_WPSINFO )
++	{
++		result = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_TX_INFOR_NOREADY);
++		return( result );
++	}
++
++	ies = pframe + _PUBLIC_ACTION_IE_OFFSET_;
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++					
++	p2p_ie = rtw_get_p2p_ie( ies, ies_len, NULL, &p2p_ielen );
++
++	if ( !p2p_ie )
++	{
++		DBG_871X( "[%s] P2P IE not Found!!\n", __FUNCTION__ );
++		result = P2P_STATUS_FAIL_INCOMPATIBLE_PARAM;
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++	}
++	
++	while ( p2p_ie )
++	{
++		u8	attr_content = 0x00;
++		u32	attr_contentlen = 0;						
++		u8	ch_content[100] = { 0x00 };
++		uint	ch_cnt = 0;
++		u8	peer_ch_list[100] = { 0x00 };
++		u8	peer_ch_num = 0;
++		u8	ch_list_inclusioned[100] = { 0x00 };
++		u8	ch_num_inclusioned = 0;
++		u16	cap_attr;
++
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_ING);
++
++		//Check P2P Capability ATTR
++		if(rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CAPABILITY, (u8*)&cap_attr, (uint*)&attr_contentlen) )
++		{
++			cap_attr = le16_to_cpu(cap_attr);
++	
++#if defined(CONFIG_WFD) && defined(CONFIG_TDLS)
++			if(!(cap_attr & P2P_GRPCAP_INTRABSS) )
++				ptdlsinfo->ap_prohibited = _TRUE;
++#endif //defined(CONFIG_WFD) && defined(CONFIG_TDLS)
++		}
++
++		if ( rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GO_INTENT , &attr_content, &attr_contentlen) )
++		{
++			DBG_871X( "[%s] GO Intent = %d, tie = %d\n", __FUNCTION__, attr_content >> 1, attr_content & 0x01 );
++			pwdinfo->peer_intent = attr_content;	//	include both intent and tie breaker values.
++
++			if ( pwdinfo->intent == ( pwdinfo->peer_intent >> 1 ) )
++			{
++				//	Try to match the tie breaker value
++				if ( pwdinfo->intent == P2P_MAX_INTENT )
++				{
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++					result = P2P_STATUS_FAIL_BOTH_GOINTENT_15;
++				}
++				else
++				{
++					if ( attr_content & 0x01 )
++					{
++						rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++					}
++					else
++					{
++						rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++					}
++				}							
++			}
++			else if ( pwdinfo->intent > ( pwdinfo->peer_intent >> 1 ) )
++			{
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++			}
++			else
++			{
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++			}
++
++			if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++			{
++				//	Store the group id information.
++				_rtw_memcpy( pwdinfo->groupid_info.go_device_addr, pwdinfo->device_addr, ETH_ALEN );
++				_rtw_memcpy( pwdinfo->groupid_info.ssid, pwdinfo->nego_ssid, pwdinfo->nego_ssidlen );		
++			}
++		}
++
++		
++		attr_contentlen = 0;
++		if ( rtw_get_p2p_attr_content( p2p_ie, p2p_ielen, P2P_ATTR_INTENTED_IF_ADDR, pwdinfo->p2p_peer_interface_addr, &attr_contentlen ) )
++		{
++			if ( attr_contentlen != ETH_ALEN )
++			{
++				_rtw_memset( pwdinfo->p2p_peer_interface_addr, 0x00, ETH_ALEN );
++			}
++		}
++
++		if ( rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CH_LIST, ch_content, &ch_cnt) )
++		{
++			peer_ch_num = rtw_p2p_get_peer_ch_list(pwdinfo, ch_content, ch_cnt, peer_ch_list);
++			ch_num_inclusioned = rtw_p2p_ch_inclusion(&padapter->mlmeextpriv, peer_ch_list, peer_ch_num, ch_list_inclusioned);
++
++			if( ch_num_inclusioned == 0)
++			{
++				DBG_871X( "[%s] No common channel in channel list!\n", __FUNCTION__ );
++				result = P2P_STATUS_FAIL_NO_COMMON_CH;
++				rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++				break;
++			}
++
++			if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++			{
++				if ( !rtw_p2p_is_channel_list_ok( pwdinfo->operating_channel, 
++												ch_list_inclusioned, ch_num_inclusioned) )
++				{
++#ifdef CONFIG_CONCURRENT_MODE
++					if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++					{
++						DBG_871X( "[%s] desired channel NOT Found!\n", __FUNCTION__ );
++						result = P2P_STATUS_FAIL_NO_COMMON_CH;
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++						break;
++					}
++					else
++#endif //CONFIG_CONCURRENT_MODE
++					{
++						u8 operatingch_info[5] = { 0x00 }, peer_operating_ch = 0;
++						attr_contentlen = 0;
++
++						if ( rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, operatingch_info, &attr_contentlen) )
++						{		
++							peer_operating_ch = operatingch_info[4];
++						}
++
++						if ( rtw_p2p_is_channel_list_ok( peer_operating_ch, 
++														ch_list_inclusioned, ch_num_inclusioned) )
++						{
++							/**
++							 *	Change our operating channel as peer's for compatibility.
++							 */
++							pwdinfo->operating_channel = peer_operating_ch;
++							DBG_871X( "[%s] Change op ch to %02x as peer's\n", __FUNCTION__, pwdinfo->operating_channel);
++						}
++						else
++						{
++							// Take first channel of ch_list_inclusioned as operating channel
++							pwdinfo->operating_channel = ch_list_inclusioned[0];
++							DBG_871X( "[%s] Change op ch to %02x\n", __FUNCTION__, pwdinfo->operating_channel);
++						}
++					}
++
++				}
++			}
++		}
++
++		//Get the next P2P IE
++		p2p_ie = rtw_get_p2p_ie(p2p_ie+p2p_ielen, ies_len -(p2p_ie -ies + p2p_ielen), NULL, &p2p_ielen);
++	}
++	
++#ifdef CONFIG_WFD
++	//	Added by Albert 20110823
++	//	Try to get the TCP port information when receiving the negotiation request.
++	if ( rtw_get_wfd_ie( pframe + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, wfd_ie, &wfd_ielen ) )
++	{
++		u8	attr_content[ 10 ] = { 0x00 };
++		u32	attr_contentlen = 0;
++
++		DBG_871X( "[%s] WFD IE Found!!\n", __FUNCTION__ );
++		rtw_get_wfd_attr_content( wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, attr_content, &attr_contentlen);
++		if ( attr_contentlen )
++		{
++			pwdinfo->wfd_info->peer_rtsp_ctrlport = RTW_GET_BE16( attr_content + 2 );
++			DBG_871X( "[%s] Peer PORT NUM = %d\n", __FUNCTION__, pwdinfo->wfd_info->peer_rtsp_ctrlport );
++		}
++	}
++#endif // CONFIG_WFD
++
++	return( result );
++}
++
++u8 process_p2p_group_negotation_resp( struct wifidirect_info *pwdinfo, u8 *pframe, uint len )
++{
++	_adapter *padapter = pwdinfo->padapter;
++	u8	result = P2P_STATUS_SUCCESS;
++	u32	p2p_ielen, wps_ielen;
++	u8 * ies;
++	u32 ies_len;
++	u8 * p2p_ie;
++#ifdef CONFIG_WFD
++	u8	wfd_ie[ 128 ] = { 0x00 };
++	u32	wfd_ielen = 0;
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++#endif // CONFIG_TDLS	
++#endif // CONFIG_WFD	
++
++	ies = pframe + _PUBLIC_ACTION_IE_OFFSET_;
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	//	Be able to know which one is the P2P GO and which one is P2P client.
++					
++	if ( rtw_get_wps_ie( ies, ies_len, NULL, &wps_ielen) )
++	{
++
++	}
++	else
++	{
++		DBG_871X( "[%s] WPS IE not Found!!\n", __FUNCTION__ );
++		result = P2P_STATUS_FAIL_INCOMPATIBLE_PARAM;
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++	}
++
++	p2p_ie = rtw_get_p2p_ie( ies, ies_len, NULL, &p2p_ielen );
++	if ( !p2p_ie )
++	{
++		rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++		result = P2P_STATUS_FAIL_INCOMPATIBLE_PARAM;
++	}
++	else
++	{
++
++		u8	attr_content = 0x00;
++		u32	attr_contentlen = 0;
++		u8	operatingch_info[5] = { 0x00 };
++		uint	ch_cnt = 0;
++		u8	ch_content[100] = { 0x00 };
++		u8	groupid[ 38 ];
++		u16	cap_attr;
++		u8	peer_ch_list[100] = { 0x00 };
++		u8	peer_ch_num = 0;
++		u8	ch_list_inclusioned[100] = { 0x00 };
++		u8	ch_num_inclusioned = 0;
++
++		while ( p2p_ie )	//	Found the P2P IE.
++		{
++
++			//Check P2P Capability ATTR
++			if(rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CAPABILITY, (u8*)&cap_attr, (uint*)&attr_contentlen) )
++			{
++				cap_attr = le16_to_cpu(cap_attr);
++#if defined(CONFIG_WFD) && defined(CONFIG_TDLS)
++			if(!(cap_attr & P2P_GRPCAP_INTRABSS) )
++				ptdlsinfo->ap_prohibited = _TRUE;
++#endif //defined(CONFIG_WFD) && defined(CONFIG_TDLS)
++			}
++
++			rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, &attr_content, &attr_contentlen);
++			if ( attr_contentlen == 1 )
++			{			
++				DBG_871X( "[%s] Status = %d\n", __FUNCTION__, attr_content );
++				if ( attr_content == P2P_STATUS_SUCCESS )
++				{
++					//	Do nothing.
++				}
++				else
++				{
++					if ( P2P_STATUS_FAIL_INFO_UNAVAILABLE == attr_content ) {
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_RX_INFOR_NOREADY);
++					} else {
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++					}
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++					result = attr_content;
++					break;
++				}
++			}
++
++			//	Try to get the peer's interface address
++			attr_contentlen = 0;
++			if ( rtw_get_p2p_attr_content( p2p_ie, p2p_ielen, P2P_ATTR_INTENTED_IF_ADDR, pwdinfo->p2p_peer_interface_addr, &attr_contentlen ) )
++			{
++				if ( attr_contentlen != ETH_ALEN )
++				{
++					_rtw_memset( pwdinfo->p2p_peer_interface_addr, 0x00, ETH_ALEN );
++				}
++			}
++			
++			//	Try to get the peer's intent and tie breaker value.
++			attr_content = 0x00;
++			attr_contentlen = 0;
++			if ( rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GO_INTENT , &attr_content, &attr_contentlen) )
++			{
++				DBG_871X( "[%s] GO Intent = %d, tie = %d\n", __FUNCTION__, attr_content >> 1, attr_content & 0x01 );
++				pwdinfo->peer_intent = attr_content;	//	include both intent and tie breaker values.
++
++				if ( pwdinfo->intent == ( pwdinfo->peer_intent >> 1 ) )
++				{
++					//	Try to match the tie breaker value
++					if ( pwdinfo->intent == P2P_MAX_INTENT )
++					{
++						rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++						result = P2P_STATUS_FAIL_BOTH_GOINTENT_15;
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++					}
++					else
++					{
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++						rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_GONEGO_OK);
++						if ( attr_content & 0x01 )
++						{
++							rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++						}
++						else
++						{
++							rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++						}
++					}							
++				}
++				else if ( pwdinfo->intent > ( pwdinfo->peer_intent >> 1 ) )
++				{
++					rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++					rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_GONEGO_OK);
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++				}
++				else
++				{
++					rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++					rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_GONEGO_OK);
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++				}
++
++				if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++				{
++					//	Store the group id information.
++					_rtw_memcpy( pwdinfo->groupid_info.go_device_addr, pwdinfo->device_addr, ETH_ALEN );
++					_rtw_memcpy( pwdinfo->groupid_info.ssid, pwdinfo->nego_ssid, pwdinfo->nego_ssidlen );
++		
++				}
++			}
++			
++			//	Try to get the operation channel information
++					
++			attr_contentlen = 0;
++			if ( rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, operatingch_info, &attr_contentlen))
++			{
++				DBG_871X( "[%s] Peer's operating channel = %d\n", __FUNCTION__, operatingch_info[4] );
++				pwdinfo->peer_operating_ch = operatingch_info[4];
++			}
++			
++			//	Try to get the channel list information
++			if ( rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CH_LIST, pwdinfo->channel_list_attr, &pwdinfo->channel_list_attr_len ) )
++			{
++				DBG_871X( "[%s] channel list attribute found, len = %d\n", __FUNCTION__,  pwdinfo->channel_list_attr_len );
++
++				peer_ch_num = rtw_p2p_get_peer_ch_list(pwdinfo, pwdinfo->channel_list_attr, pwdinfo->channel_list_attr_len, peer_ch_list);
++				ch_num_inclusioned = rtw_p2p_ch_inclusion(&padapter->mlmeextpriv, peer_ch_list, peer_ch_num, ch_list_inclusioned);
++
++				if( ch_num_inclusioned == 0)
++				{
++					DBG_871X( "[%s] No common channel in channel list!\n", __FUNCTION__ );
++					result = P2P_STATUS_FAIL_NO_COMMON_CH;
++					rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++					break;
++				}
++
++				if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++				{
++					if ( !rtw_p2p_is_channel_list_ok( pwdinfo->operating_channel, 
++													ch_list_inclusioned, ch_num_inclusioned) )
++					{
++#ifdef CONFIG_CONCURRENT_MODE
++						if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++						{
++							DBG_871X( "[%s] desired channel NOT Found!\n", __FUNCTION__ );
++							result = P2P_STATUS_FAIL_NO_COMMON_CH;
++							rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++							break;
++						}
++						else
++#endif //CONFIG_CONCURRENT_MODE
++						{
++							u8 operatingch_info[5] = { 0x00 }, peer_operating_ch = 0;
++							attr_contentlen = 0;
++
++							if ( rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, operatingch_info, &attr_contentlen) )
++							{		
++								peer_operating_ch = operatingch_info[4];
++							}
++
++							if ( rtw_p2p_is_channel_list_ok( peer_operating_ch, 
++															ch_list_inclusioned, ch_num_inclusioned) )
++							{
++								/**
++								 *	Change our operating channel as peer's for compatibility.
++								 */
++								pwdinfo->operating_channel = peer_operating_ch;
++								DBG_871X( "[%s] Change op ch to %02x as peer's\n", __FUNCTION__, pwdinfo->operating_channel);
++							}
++							else
++							{
++								// Take first channel of ch_list_inclusioned as operating channel
++								pwdinfo->operating_channel = ch_list_inclusioned[0];
++								DBG_871X( "[%s] Change op ch to %02x\n", __FUNCTION__, pwdinfo->operating_channel);
++							}
++						}
++
++					}
++				}
++
++			}
++			else
++			{
++				DBG_871X( "[%s] channel list attribute not found!\n", __FUNCTION__);
++			}
++
++			//	Try to get the group id information if peer is GO
++			attr_contentlen = 0;
++			_rtw_memset( groupid, 0x00, 38 );
++			if ( rtw_get_p2p_attr_content( p2p_ie, p2p_ielen, P2P_ATTR_GROUP_ID, groupid, &attr_contentlen) )
++			{
++				_rtw_memcpy( pwdinfo->groupid_info.go_device_addr, &groupid[0], ETH_ALEN );
++				_rtw_memcpy( pwdinfo->groupid_info.ssid, &groupid[6], attr_contentlen - ETH_ALEN );
++			}
++			
++			//Get the next P2P IE
++			p2p_ie = rtw_get_p2p_ie(p2p_ie+p2p_ielen, ies_len -(p2p_ie -ies + p2p_ielen), NULL, &p2p_ielen);
++		}
++		
++	}
++
++#ifdef CONFIG_WFD
++	//	Added by Albert 20111122
++	//	Try to get the TCP port information when receiving the negotiation response.
++	if ( rtw_get_wfd_ie( pframe + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, wfd_ie, &wfd_ielen ) )
++	{
++		u8	attr_content[ 10 ] = { 0x00 };
++		u32	attr_contentlen = 0;
++
++		DBG_8192C( "[%s] WFD IE Found!!\n", __FUNCTION__ );
++		rtw_get_wfd_attr_content( wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, attr_content, &attr_contentlen);
++		if ( attr_contentlen )
++		{
++			pwdinfo->wfd_info->peer_rtsp_ctrlport = RTW_GET_BE16( attr_content + 2 );
++			DBG_8192C( "[%s] Peer PORT NUM = %d\n", __FUNCTION__, pwdinfo->wfd_info->peer_rtsp_ctrlport );
++		}
++	}
++#endif // CONFIG_WFD
++
++	return( result );
++
++}
++
++u8 process_p2p_group_negotation_confirm( struct wifidirect_info *pwdinfo, u8 *pframe, uint len )
++{
++	u8 * ies;
++	u32 ies_len;
++	u8 * p2p_ie;
++	u32	p2p_ielen = 0;
++	u8	result = P2P_STATUS_SUCCESS;
++	ies = pframe + _PUBLIC_ACTION_IE_OFFSET_;
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie( ies, ies_len, NULL, &p2p_ielen );
++	while ( p2p_ie )	//	Found the P2P IE.
++	{
++		u8	attr_content = 0x00, operatingch_info[5] = { 0x00 };
++		u8	groupid[ 38 ] = { 0x00 };
++		u32	attr_contentlen = 0;
++
++		pwdinfo->negotiation_dialog_token = 1;
++		rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, &attr_content, &attr_contentlen);
++		if ( attr_contentlen == 1 )
++		{
++			DBG_871X( "[%s] Status = %d\n", __FUNCTION__, attr_content );
++			result = attr_content;
++
++			if ( attr_content == P2P_STATUS_SUCCESS )
++			{
++				u8	bcancelled = 0;
++																
++				_cancel_timer( &pwdinfo->restore_p2p_state_timer, &bcancelled );
++
++				//	Commented by Albert 20100911
++				//	Todo: Need to handle the case which both Intents are the same.
++				rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++				rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_GONEGO_OK);
++				if ( ( pwdinfo->intent ) > ( pwdinfo->peer_intent >> 1 ) )
++				{
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++				}
++				else if ( ( pwdinfo->intent ) < ( pwdinfo->peer_intent >> 1 ) )
++				{
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++				}
++				else
++				{
++					//	Have to compare the Tie Breaker
++					if ( pwdinfo->peer_intent & 0x01 )
++					{
++						rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++					}
++					else
++					{
++						rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++					}
++				}								
++				
++#ifdef CONFIG_CONCURRENT_MODE
++				if ( check_buddy_fwstate(pwdinfo->padapter , _FW_LINKED ) )
++				{
++					//	Switch back to the AP channel soon.
++					_set_timer( &pwdinfo->ap_p2p_switch_timer, 100 );
++				}
++#endif				
++			}
++			else
++			{
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++				rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++				break;
++			}
++		}
++
++		//	Try to get the group id information
++		attr_contentlen = 0;
++		_rtw_memset( groupid, 0x00, 38 );
++		if ( rtw_get_p2p_attr_content( p2p_ie, p2p_ielen, P2P_ATTR_GROUP_ID, groupid, &attr_contentlen) )
++		{
++			DBG_871X( "[%s] Ssid = %s, ssidlen = %d\n", __FUNCTION__, &groupid[ETH_ALEN], (u32)strlen(&groupid[ETH_ALEN]) );
++			_rtw_memcpy( pwdinfo->groupid_info.go_device_addr, &groupid[0], ETH_ALEN );
++			_rtw_memcpy( pwdinfo->groupid_info.ssid, &groupid[6], attr_contentlen - ETH_ALEN );			
++		}
++
++		attr_contentlen = 0;
++		if ( rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, operatingch_info, &attr_contentlen) )
++		{		
++			DBG_871X( "[%s] Peer's operating channel = %d\n", __FUNCTION__, operatingch_info[4] );
++			pwdinfo->peer_operating_ch = operatingch_info[4];
++		}
++
++		//Get the next P2P IE
++		p2p_ie = rtw_get_p2p_ie(p2p_ie+p2p_ielen, ies_len -(p2p_ie -ies + p2p_ielen), NULL, &p2p_ielen);
++		
++	}
++
++	return( result );
++}
++
++u8 process_p2p_presence_req(struct wifidirect_info *pwdinfo, u8 *pframe, uint len)
++{
++	u8 *frame_body;	
++	u8 dialogToken=0;
++	u8 status = P2P_STATUS_SUCCESS;
++	
++	frame_body = (unsigned char *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++	dialogToken = frame_body[6];
++
++	//todo: check NoA attribute
++
++	issue_p2p_presence_resp(pwdinfo, GetAddr2Ptr(pframe), status, dialogToken);
++
++	return _TRUE;
++}
++
++void find_phase_handler( _adapter*	padapter )
++{
++	struct wifidirect_info  *pwdinfo = &padapter->wdinfo;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	NDIS_802_11_SSID 	ssid;
++	_irqL				irqL;
++	u8					_status = 0;
++
++_func_enter_;
++
++	_rtw_memset((unsigned char*)&ssid, 0, sizeof(NDIS_802_11_SSID));
++	_rtw_memcpy(ssid.Ssid, pwdinfo->p2p_wildcard_ssid, P2P_WILDCARD_SSID_LEN );
++	ssid.SsidLength = P2P_WILDCARD_SSID_LEN;
++
++	rtw_p2p_set_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH);
++		
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	_status = rtw_sitesurvey_cmd(padapter, &ssid, 1, NULL, 0);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++_func_exit_;
++}
++
++void p2p_concurrent_handler(  _adapter* padapter );
++
++void restore_p2p_state_handler( _adapter*	padapter )
++{
++	struct wifidirect_info  *pwdinfo = &padapter->wdinfo;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++
++_func_enter_;
++
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING) || rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_FAIL))
++	{
++		rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++	{
++		_adapter				*pbuddy_adapter = padapter->pbuddy_adapter;
++		struct mlme_priv		*pbuddy_mlmepriv = &pbuddy_adapter->mlmepriv;
++		struct mlme_ext_priv	*pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;	
++	
++		if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_PROVISION_DIS_REQ) || rtw_p2p_chk_state(pwdinfo, P2P_STATE_RX_PROVISION_DIS_RSP))
++		{
++			set_channel_bwmode(padapter, pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_ch_offset, pbuddy_mlmeext->cur_bwmode);
++			
++			issue_nulldata(pbuddy_adapter, NULL, 0, 3, 500);
++		}
++	}
++#endif
++
++	rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++	
++	if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_DEVICE))
++	{
++#ifdef CONFIG_CONCURRENT_MODE
++		p2p_concurrent_handler( padapter );
++#else
++		//	In the P2P client mode, the driver should not switch back to its listen channel
++		//	because this P2P client should stay at the operating channel of P2P GO.
++		set_channel_bwmode( padapter, pwdinfo->listen_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++#endif
++	}
++_func_exit_;
++}
++
++void pre_tx_invitereq_handler( _adapter*	padapter )
++{
++	struct wifidirect_info  *pwdinfo = &padapter->wdinfo;
++	u8	val8 = 1;
++_func_enter_;
++
++	set_channel_bwmode(padapter, pwdinfo->invitereq_info.peer_ch, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++	rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));	
++	issue_probereq_p2p(padapter, NULL);
++	_set_timer( &pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT );
++	
++_func_exit_;
++}
++
++void pre_tx_provdisc_handler( _adapter*	padapter )
++{
++	struct wifidirect_info  *pwdinfo = &padapter->wdinfo;
++	u8	val8 = 1;
++_func_enter_;
++
++	set_channel_bwmode(padapter, pwdinfo->tx_prov_disc_info.peer_channel_num[0], HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++	rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++	issue_probereq_p2p(padapter, NULL);
++	_set_timer( &pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT );
++	
++_func_exit_;
++}
++
++void pre_tx_negoreq_handler( _adapter*	padapter )
++{
++	struct wifidirect_info  *pwdinfo = &padapter->wdinfo;
++	u8	val8 = 1;
++_func_enter_;
++
++	set_channel_bwmode(padapter, pwdinfo->nego_req_info.peer_channel_num[0], HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++	rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));	
++	issue_probereq_p2p(padapter, NULL);
++	_set_timer( &pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT );
++	
++_func_exit_;
++}
++
++#ifdef CONFIG_CONCURRENT_MODE
++void p2p_concurrent_handler( _adapter*	padapter )
++{
++	struct wifidirect_info	*pwdinfo = &padapter->wdinfo;
++	//_adapter				*pbuddy_adapter = padapter->pbuddy_adapter;
++	//struct wifidirect_info	*pbuddy_wdinfo = &pbuddy_adapter->wdinfo;
++	//struct mlme_priv		*pbuddy_mlmepriv = &pbuddy_adapter->mlmepriv;
++	//struct mlme_ext_priv	*pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++	u8					val8;
++_func_enter_;
++
++	if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++	{
++		PADAPTER pbuddy_adapter = padapter->pbuddy_adapter;			
++		struct mlme_ext_priv *pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++
++		pwdinfo->operating_channel = pbuddy_mlmeext->cur_channel;
++
++		if( pwdinfo->driver_interface == DRIVER_CFG80211 )
++		{
++			DBG_871X("%s, switch ch back to buddy's cur_channel=%d\n", __func__, pbuddy_mlmeext->cur_channel);
++
++			set_channel_bwmode(padapter, pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_ch_offset, pbuddy_mlmeext->cur_bwmode);
++		
++			issue_nulldata(pbuddy_adapter, NULL, 0, 3, 500);
++		}
++		else if( pwdinfo->driver_interface == DRIVER_WEXT )
++		{
++			if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE))
++			{
++				//	Now, the driver stays on the AP's channel.
++				//	If the pwdinfo->ext_listen_period = 0, that means the P2P listen state is not available on listen channel.
++				if ( pwdinfo->ext_listen_period > 0 )
++				{
++					DBG_8192C( "[%s] P2P_STATE_IDLE, ext_listen_period = %d\n", __FUNCTION__, pwdinfo->ext_listen_period );
++
++					if ( pbuddy_mlmeext->cur_channel != pwdinfo->listen_channel )
++					{
++						//	Will switch to listen channel so that need to send the NULL data with PW bit to AP.
++						issue_nulldata(pbuddy_adapter, NULL, 1, 3, 500);
++						set_channel_bwmode(padapter, pwdinfo->listen_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++					}
++
++					rtw_p2p_set_state(pwdinfo, P2P_STATE_LISTEN);
++					val8 = 1;
++					rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++
++					//	Todo: To check the value of pwdinfo->ext_listen_period is equal to 0 or not.
++					_set_timer( &pwdinfo->ap_p2p_switch_timer, pwdinfo->ext_listen_period );
++				}
++			}
++			else if ( rtw_p2p_chk_state(pwdinfo, P2P_STATE_LISTEN) || 
++					rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_FAIL) ||
++					( rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING) && pwdinfo->nego_req_info.benable == _FALSE ) ||
++					rtw_p2p_chk_state(pwdinfo, P2P_STATE_RX_PROVISION_DIS_REQ) )
++			{
++				//	Now, the driver is in the listen state of P2P mode.
++				DBG_8192C( "[%s] P2P_STATE_IDLE, ext_listen_interval = %d\n", __FUNCTION__, pwdinfo->ext_listen_interval );
++
++				//	Commented by Albert 2012/11/01
++				//	If the AP's channel is the same as the listen channel, we should still be in the listen state
++				//	Other P2P device is still able to find this device out even this device is in the AP's channel.
++				//	So, configure this device to be able to receive the probe request frame and set it to listen state.
++				if ( pbuddy_mlmeext->cur_channel != pwdinfo->listen_channel )
++				{
++					set_channel_bwmode(padapter, pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_ch_offset, pbuddy_mlmeext->cur_bwmode);
++					val8 = 0;
++					padapter->HalFunc.SetHwRegHandler(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++					rtw_p2p_set_state(pwdinfo, P2P_STATE_IDLE);
++					issue_nulldata(pbuddy_adapter, NULL, 0, 3, 500);
++				}
++
++				//	Todo: To check the value of pwdinfo->ext_listen_interval is equal to 0 or not.
++				_set_timer( &pwdinfo->ap_p2p_switch_timer, pwdinfo->ext_listen_interval );
++			}
++			else if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_OK))
++			{
++				//	The driver had finished the P2P handshake successfully.
++				val8 = 0;
++				rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++				set_channel_bwmode(padapter, pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_ch_offset, pbuddy_mlmeext->cur_bwmode);
++				issue_nulldata(pbuddy_adapter, NULL, 0, 3, 500);
++			}
++			else if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_PROVISION_DIS_REQ))
++			{
++				val8 = 1;
++				set_channel_bwmode(padapter, pwdinfo->tx_prov_disc_info.peer_channel_num[0], HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++				rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++				issue_probereq_p2p(padapter, NULL);
++				_set_timer( &pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT );
++			}
++			else if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING) && pwdinfo->nego_req_info.benable == _TRUE)
++			{
++				val8 = 1;
++				set_channel_bwmode(padapter, pwdinfo->nego_req_info.peer_channel_num[0], HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++				rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++				issue_probereq_p2p(padapter, NULL);
++				_set_timer( &pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT );
++			}		
++			else if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_INVITE_REQ ) && pwdinfo->invitereq_info.benable == _TRUE)
++			{
++				/*
++				val8 = 1;
++				set_channel_bwmode(padapter, , HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++				rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++				issue_probereq_p2p(padapter, NULL);
++				_set_timer( &pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT );
++				*/
++			}
++		}
++	}	
++	else
++	{
++		set_channel_bwmode( padapter, pwdinfo->listen_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);	
++	}
++	
++_func_exit_;
++}
++#endif
++
++#ifdef CONFIG_IOCTL_CFG80211
++static void ro_ch_handler(_adapter *padapter)
++{
++	struct cfg80211_wifidirect_info *pcfg80211_wdinfo = &padapter->cfg80211_wdinfo;
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	u8 ch, bw, offset;
++_func_enter_;
++
++	if (rtw_get_ch_setting_union(padapter, &ch, &bw, &offset) != 0) {
++		if (0)
++		DBG_871X(FUNC_ADPT_FMT" back to linked union - ch:%u, bw:%u, offset:%u\n",
++			FUNC_ADPT_ARG(padapter), ch, bw, offset);
++	}
++	else if (wdev_to_priv(padapter->rtw_wdev)->p2p_enabled && pwdinfo->listen_channel) {
++		ch = pwdinfo->listen_channel;
++		bw = HT_CHANNEL_WIDTH_20;
++		offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		if (0)
++		DBG_871X(FUNC_ADPT_FMT" back to listen ch - ch:%u, bw:%u, offset:%u\n",
++			FUNC_ADPT_ARG(padapter), ch, bw, offset);
++	}
++	else {
++		ch = pcfg80211_wdinfo->restore_channel;
++		bw = HT_CHANNEL_WIDTH_20;
++		offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		if (0)
++		DBG_871X(FUNC_ADPT_FMT" back to restore ch - ch:%u, bw:%u, offset:%u\n",
++			FUNC_ADPT_ARG(padapter), ch, bw, offset);
++	}
++
++	set_channel_bwmode(padapter, ch, offset, bw);
++
++	rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++#ifdef CONFIG_DEBUG_CFG80211
++	DBG_871X("%s, role=%d, p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo));
++#endif
++
++	pcfg80211_wdinfo->is_ro_ch = _FALSE;
++
++	DBG_871X("cfg80211_remain_on_channel_expired\n");
++
++	rtw_cfg80211_remain_on_channel_expired(padapter, 
++		pcfg80211_wdinfo->remain_on_ch_cookie, 
++		&pcfg80211_wdinfo->remain_on_ch_channel,
++		pcfg80211_wdinfo->remain_on_ch_type, GFP_KERNEL);
++
++_func_exit_;
++}
++
++static void ro_ch_timer_process (void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct rtw_wdev_priv *pwdev_priv = wdev_to_priv(adapter->rtw_wdev);
++
++	//printk("%s \n", __FUNCTION__);
++	
++#ifdef	CONFIG_CONCURRENT_MODE
++	ATOMIC_SET(&pwdev_priv->ro_ch_to, 1);
++#endif
++
++	p2p_protocol_wk_cmd( adapter, P2P_RO_CH_WK);
++}
++
++static void rtw_change_p2pie_op_ch(_adapter *padapter, const u8 *frame_body, u32 len, u8 ch)
++{
++	u8 *ies, *p2p_ie;
++	u32 ies_len, p2p_ielen;
++	PADAPTER pbuddy_adapter = padapter->pbuddy_adapter;
++	struct mlme_ext_priv *pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++
++	ies = (u8*)(frame_body + _PUBLIC_ACTION_IE_OFFSET_);
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie( ies, ies_len, NULL, &p2p_ielen );
++
++	while ( p2p_ie ) {
++		u32	attr_contentlen = 0;
++		u8 *pattr = NULL;
++
++		//Check P2P_ATTR_OPERATING_CH
++		attr_contentlen = 0;
++		pattr = NULL;
++		if((pattr = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, (uint*)&attr_contentlen))!=NULL)
++		{
++			*(pattr+4) = ch;
++		}
++
++		//Get the next P2P IE
++		p2p_ie = rtw_get_p2p_ie(p2p_ie+p2p_ielen, ies_len -(p2p_ie -ies + p2p_ielen), NULL, &p2p_ielen);
++	}
++}
++
++static void rtw_change_p2pie_ch_list(_adapter *padapter, const u8 *frame_body, u32 len, u8 ch)
++{
++	u8 *ies, *p2p_ie;
++	u32 ies_len, p2p_ielen;
++	PADAPTER pbuddy_adapter = padapter->pbuddy_adapter;
++	struct mlme_ext_priv *pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++
++	ies = (u8*)(frame_body + _PUBLIC_ACTION_IE_OFFSET_);
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie( ies, ies_len, NULL, &p2p_ielen );
++
++	while (p2p_ie) {
++		u32	attr_contentlen = 0;
++		u8 *pattr = NULL;
++
++		//Check P2P_ATTR_CH_LIST
++		if ((pattr=rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CH_LIST, NULL, (uint*)&attr_contentlen))!=NULL) {
++			int i;
++			u32 num_of_ch;
++			u8 *pattr_temp = pattr + 3 ;
++
++			attr_contentlen -= 3;
++			
++			while (attr_contentlen>0) {
++				num_of_ch = *(pattr_temp+1);
++
++				for(i=0; i<num_of_ch; i++)
++					*(pattr_temp+2+i) = ch;
++
++				pattr_temp += (2+num_of_ch);
++				attr_contentlen -= (2+num_of_ch);
++			}
++		}
++
++		//Get the next P2P IE
++		p2p_ie = rtw_get_p2p_ie(p2p_ie+p2p_ielen, ies_len -(p2p_ie -ies + p2p_ielen), NULL, &p2p_ielen);
++	}
++}
++
++static bool rtw_chk_p2pie_ch_list_with_buddy(_adapter *padapter, const u8 *frame_body, u32 len)
++{
++	bool fit = _FALSE;
++#ifdef CONFIG_CONCURRENT_MODE
++	u8 *ies, *p2p_ie;
++	u32 ies_len, p2p_ielen;
++	PADAPTER pbuddy_adapter = padapter->pbuddy_adapter;
++	struct mlme_ext_priv *pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++	u8 buddy_ch = pbuddy_mlmeext->cur_channel;
++
++	ies = (u8*)(frame_body + _PUBLIC_ACTION_IE_OFFSET_);
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie( ies, ies_len, NULL, &p2p_ielen );
++
++	while (p2p_ie) {
++		u32	attr_contentlen = 0;
++		u8 *pattr = NULL;
++
++		//Check P2P_ATTR_CH_LIST
++		if ((pattr=rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CH_LIST, NULL, (uint*)&attr_contentlen))!=NULL) {
++			int i;
++			u32 num_of_ch;
++			u8 *pattr_temp = pattr + 3 ;
++
++			attr_contentlen -= 3;
++
++			while (attr_contentlen>0) {
++				num_of_ch = *(pattr_temp+1);
++
++				for(i=0; i<num_of_ch; i++) {
++					if (*(pattr_temp+2+i) == buddy_ch) {
++						DBG_871X(FUNC_ADPT_FMT" ch_list fit buddy_ch:%u\n", FUNC_ADPT_ARG(padapter), buddy_ch);
++						fit = _TRUE;
++						break;
++					}
++				}
++
++				pattr_temp += (2+num_of_ch);
++				attr_contentlen -= (2+num_of_ch);
++			}
++		}
++
++		//Get the next P2P IE
++		p2p_ie = rtw_get_p2p_ie(p2p_ie+p2p_ielen, ies_len -(p2p_ie -ies + p2p_ielen), NULL, &p2p_ielen);
++	}
++#endif
++	return fit;
++}
++
++static bool rtw_chk_p2pie_op_ch_with_buddy(_adapter *padapter, const u8 *frame_body, u32 len)
++{
++	bool fit = _FALSE;
++#ifdef CONFIG_CONCURRENT_MODE
++	u8 *ies, *p2p_ie;
++	u32 ies_len, p2p_ielen;
++	PADAPTER pbuddy_adapter = padapter->pbuddy_adapter;
++	struct mlme_ext_priv *pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++	u8 buddy_ch = pbuddy_mlmeext->cur_channel;
++
++	ies = (u8*)(frame_body + _PUBLIC_ACTION_IE_OFFSET_);
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie( ies, ies_len, NULL, &p2p_ielen );
++
++	while (p2p_ie) {
++		u32	attr_contentlen = 0;
++		u8 *pattr = NULL;
++
++		//Check P2P_ATTR_OPERATING_CH
++		attr_contentlen = 0;
++		pattr = NULL;
++		if((pattr = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, (uint*)&attr_contentlen))!=NULL) {
++			if (*(pattr+4) == buddy_ch) {
++				DBG_871X(FUNC_ADPT_FMT" op_ch fit buddy_ch:%u\n", FUNC_ADPT_ARG(padapter), buddy_ch);
++				fit = _TRUE;
++				break;
++			}
++		}
++
++		//Get the next P2P IE
++		p2p_ie = rtw_get_p2p_ie(p2p_ie+p2p_ielen, ies_len -(p2p_ie -ies + p2p_ielen), NULL, &p2p_ielen);
++	}
++#endif
++	return fit;
++}
++
++static void rtw_cfg80211_adjust_p2pie_channel(_adapter *padapter, const u8 *frame_body, u32 len)
++{
++#ifdef CONFIG_CONCURRENT_MODE
++	u8 *ies, *p2p_ie;
++	u32 ies_len, p2p_ielen;
++	PADAPTER pbuddy_adapter = padapter->pbuddy_adapter;			
++	struct mlme_ext_priv *pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++
++	ies = (u8*)(frame_body + _PUBLIC_ACTION_IE_OFFSET_);
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++					
++	p2p_ie = rtw_get_p2p_ie( ies, ies_len, NULL, &p2p_ielen );
++
++	while ( p2p_ie )
++	{	
++		u32	attr_contentlen = 0;
++		u8 *pattr = NULL;
++				
++		//Check P2P_ATTR_CH_LIST
++		if((pattr=rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CH_LIST, NULL, (uint*)&attr_contentlen))!=NULL)
++		{
++			int i;
++			u32 num_of_ch;
++			u8 *pattr_temp = pattr + 3 ;
++
++			attr_contentlen -= 3;
++			
++			while(attr_contentlen>0)
++			{				
++				num_of_ch = *(pattr_temp+1);
++								
++				for(i=0; i<num_of_ch; i++)
++					*(pattr_temp+2+i) = pbuddy_mlmeext->cur_channel;//forcing to the same channel
++
++				pattr_temp += (2+num_of_ch);
++				attr_contentlen -= (2+num_of_ch);
++			}	
++		}
++
++		//Check P2P_ATTR_OPERATING_CH
++		attr_contentlen = 0;
++		pattr = NULL;
++		if((pattr = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, (uint*)&attr_contentlen))!=NULL)
++		{
++			*(pattr+4) = pbuddy_mlmeext->cur_channel;//forcing to the same channel			
++		}
++
++		//Get the next P2P IE
++		p2p_ie = rtw_get_p2p_ie(p2p_ie+p2p_ielen, ies_len -(p2p_ie -ies + p2p_ielen), NULL, &p2p_ielen);
++		
++	}
++
++#endif
++}
++
++#ifdef CONFIG_WFD
++void rtw_append_wfd_ie(_adapter *padapter, u8 *buf, u32* len)
++{
++	unsigned char	*frame_body;
++	u8 category, action, OUI_Subtype, dialogToken=0;
++	u32	wfdielen = 0;
++	struct rtw_wdev_priv *pwdev_priv = wdev_to_priv(padapter->rtw_wdev);
++	
++	frame_body = (unsigned char *)(buf + sizeof(struct rtw_ieee80211_hdr_3addr));	
++	category = frame_body[0];
++
++	if(category == RTW_WLAN_CATEGORY_PUBLIC)
++	{
++		action = frame_body[1];
++		if (action == ACT_PUBLIC_VENDOR
++			&& _rtw_memcmp(frame_body+2, P2P_OUI, 4) == _TRUE
++		)
++		{
++			OUI_Subtype = frame_body[6];
++			dialogToken = frame_body[7];
++			switch( OUI_Subtype )//OUI Subtype
++			{
++				case P2P_GO_NEGO_REQ:
++				{
++					wfdielen = build_nego_req_wfd_ie( &padapter->wdinfo, buf + ( *len ) );
++					(*len) += wfdielen;
++					break;
++				}
++				case P2P_GO_NEGO_RESP:
++				{
++					wfdielen = build_nego_resp_wfd_ie( &padapter->wdinfo, buf + ( *len ) );
++					(*len) += wfdielen;
++					break;
++				}
++				case P2P_GO_NEGO_CONF:
++				{
++					wfdielen = build_nego_confirm_wfd_ie( &padapter->wdinfo, buf + ( *len ) );
++					(*len) += wfdielen;
++					break;
++				}
++				case P2P_INVIT_REQ:
++				{
++					wfdielen = build_invitation_req_wfd_ie( &padapter->wdinfo, buf + ( *len ) );
++					(*len) += wfdielen;
++					break;
++				}
++				case P2P_INVIT_RESP:
++				{
++					wfdielen = build_invitation_resp_wfd_ie( &padapter->wdinfo, buf + ( *len ) );
++					(*len) += wfdielen;
++					break;
++				}
++				case P2P_DEVDISC_REQ:
++					break;
++				case P2P_DEVDISC_RESP:
++
++					break;
++				case P2P_PROVISION_DISC_REQ:
++				{
++					wfdielen = build_provdisc_req_wfd_ie( &padapter->wdinfo, buf + ( *len ) );
++					(*len) += wfdielen;
++					break;
++				}
++				case P2P_PROVISION_DISC_RESP:
++				{
++					wfdielen = build_provdisc_resp_wfd_ie( &padapter->wdinfo, buf + ( *len ) );
++					(*len) += wfdielen;
++					break;
++				}
++				default:
++
++					break;	
++			}
++
++		}
++		
++	}	
++	else if(category == RTW_WLAN_CATEGORY_P2P)
++	{
++		OUI_Subtype = frame_body[5];
++		dialogToken = frame_body[6];
++
++#ifdef CONFIG_DEBUG_CFG80211
++		DBG_871X("ACTION_CATEGORY_P2P: OUI=0x%x, OUI_Subtype=%d, dialogToken=%d\n",
++					cpu_to_be32( *( ( u32* ) ( frame_body + 1 ) ) ), OUI_Subtype, dialogToken);
++#endif
++
++		switch(OUI_Subtype)
++		{
++			case P2P_NOTICE_OF_ABSENCE:
++
++				break;			
++			case P2P_PRESENCE_REQUEST:
++
++				break;			
++			case P2P_PRESENCE_RESPONSE:
++
++				break;			
++			case P2P_GO_DISC_REQUEST:
++
++				break;			
++			default:
++
++				break;			
++		}	
++
++	}	
++	else 
++	{
++		DBG_871X("%s, action frame category=%d\n", __func__, category);
++		//is_p2p_frame = (-1);		
++	}
++
++	return;
++}
++#endif
++
++u8 *dump_p2p_attr_ch_list(u8 *p2p_ie, uint p2p_ielen, u8 *buf, u32 buf_len)
++{
++	uint attr_contentlen = 0;
++	u8 *pattr = NULL;
++	int w_sz = 0;
++	u8 ch_cnt = 0;
++	u8 ch_list[40];
++	bool continuous = _FALSE;
++
++	if ((pattr=rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CH_LIST, NULL, &attr_contentlen))!=NULL) {
++		int i, j;
++		u32 num_of_ch;
++		u8 *pattr_temp = pattr + 3 ;
++
++		attr_contentlen -= 3;
++
++		_rtw_memset(ch_list, 0, 40);
++
++		while (attr_contentlen>0) {
++			num_of_ch = *(pattr_temp+1);
++							
++			for(i=0; i<num_of_ch; i++) {
++				for (j=0;j<ch_cnt;j++) {
++					if (ch_list[j] == *(pattr_temp+2+i))
++						break;
++				}
++				if (j>=ch_cnt)
++					ch_list[ch_cnt++] = *(pattr_temp+2+i);
++
++			}
++
++			pattr_temp += (2+num_of_ch);
++			attr_contentlen -= (2+num_of_ch);
++		}
++
++		for (j=0;j<ch_cnt;j++) {
++			if (j == 0) {
++				w_sz += snprintf(buf+w_sz, buf_len-w_sz, "%u", ch_list[j]);
++			} else if (ch_list[j] - ch_list[j-1] != 1) {
++				w_sz += snprintf(buf+w_sz, buf_len-w_sz, ", %u", ch_list[j]);
++			} else if (j != ch_cnt-1 && ch_list[j+1] - ch_list[j] == 1) {
++				/* empty */
++			} else {
++				w_sz += snprintf(buf+w_sz, buf_len-w_sz, "-%u", ch_list[j]);
++			}
++		}
++	}
++	return buf;
++}
++
++/*
++ * return _TRUE if requester is GO, _FALSE if responder is GO
++ */
++bool rtw_p2p_nego_intent_compare(u8 req, u8 resp)
++{
++	if (req>>1 == resp >>1)
++		return  req&0x01 ? _TRUE : _FALSE;
++	else if (req>>1 > resp>>1)
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++int rtw_p2p_check_frames(_adapter *padapter, const u8 *buf, u32 len, u8 tx)
++{
++	int is_p2p_frame = (-1);
++	unsigned char	*frame_body;
++	u8 category, action, OUI_Subtype, dialogToken=0;
++	u8 *p2p_ie = NULL;
++	uint p2p_ielen = 0;
++	struct rtw_wdev_priv *pwdev_priv = wdev_to_priv(padapter->rtw_wdev);
++	int status = -1;
++	u8 ch_list_buf[128] = {'\0'};
++	int op_ch = -1;
++	int listen_ch = -1;
++	u8 intent = 0;
++	
++	frame_body = (unsigned char *)(buf + sizeof(struct rtw_ieee80211_hdr_3addr));	
++	category = frame_body[0];
++	//just for check
++	if(category == RTW_WLAN_CATEGORY_PUBLIC)
++	{
++		action = frame_body[1];
++		if (action == ACT_PUBLIC_VENDOR
++			&& _rtw_memcmp(frame_body+2, P2P_OUI, 4) == _TRUE
++		)
++		{
++			OUI_Subtype = frame_body[6];
++			dialogToken = frame_body[7];
++			is_p2p_frame = OUI_Subtype;
++			#ifdef CONFIG_DEBUG_CFG80211
++			DBG_871X("ACTION_CATEGORY_PUBLIC: ACT_PUBLIC_VENDOR, OUI=0x%x, OUI_Subtype=%d, dialogToken=%d\n",
++				cpu_to_be32( *( ( u32* ) ( frame_body + 2 ) ) ), OUI_Subtype, dialogToken);
++			#endif
++
++			p2p_ie = rtw_get_p2p_ie(
++				(u8 *)buf+sizeof(struct rtw_ieee80211_hdr_3addr)+_PUBLIC_ACTION_IE_OFFSET_,
++				len-sizeof(struct rtw_ieee80211_hdr_3addr)-_PUBLIC_ACTION_IE_OFFSET_,
++				NULL, &p2p_ielen);
++
++			switch( OUI_Subtype )//OUI Subtype
++			{
++				u8 *cont;
++				uint cont_len;
++				case P2P_GO_NEGO_REQ:
++				{
++					struct rtw_wdev_nego_info* nego_info = &pwdev_priv->nego_info;
++
++					if (tx) {
++						#ifdef CONFIG_DRV_ISSUE_PROV_REQ // IOT FOR S2
++						if(pwdev_priv->provdisc_req_issued == _FALSE) {
++							rtw_cfg80211_issue_p2p_provision_request(padapter, buf, len);
++							pwdev_priv->provdisc_req_issued = _TRUE;
++							rtw_msleep_os(200);
++						}
++						#endif //CONFIG_DRV_ISSUE_PROV_REQ
++
++						#ifdef CONFIG_CONCURRENT_MODE
++						if(check_buddy_fwstate(padapter, _FW_LINKED))
++							rtw_cfg80211_adjust_p2pie_channel(padapter, frame_body, len-sizeof(struct rtw_ieee80211_hdr_3addr));
++						#endif
++					}
++
++					if ((cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, &cont_len)))
++						op_ch = *(cont+4);
++					if ((cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_LISTEN_CH, NULL, &cont_len)))
++						listen_ch = *(cont+4);
++					if ((cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GO_INTENT, NULL, &cont_len)))
++						intent = *cont;
++
++					if (nego_info->token != dialogToken)
++						rtw_wdev_nego_info_init(nego_info);
++
++					_rtw_memcpy(nego_info->peer_mac, tx ? GetAddr1Ptr(buf) : GetAddr2Ptr(buf), ETH_ALEN);
++					nego_info->active = tx ? 1 : 0;
++					nego_info->token = dialogToken;
++					nego_info->req_op_ch = op_ch;
++					nego_info->req_listen_ch = listen_ch;
++					nego_info->req_intent = intent;
++					nego_info->state = 0;
++
++					dump_p2p_attr_ch_list(p2p_ie, p2p_ielen, ch_list_buf, 128);
++					DBG_871X("RTW_%s:P2P_GO_NEGO_REQ, dialogToken=%d, intent:%u%s, listen_ch:%d, op_ch:%d, ch_list:%s\n",
++							(tx==_TRUE)?"Tx":"Rx", dialogToken, (intent>>1), intent&0x1 ? "+" : "-", listen_ch, op_ch, ch_list_buf);
++
++					if (!tx) {
++						#ifdef CONFIG_CONCURRENT_MODE
++						if(check_buddy_fwstate(padapter, _FW_LINKED)
++							&& rtw_chk_p2pie_ch_list_with_buddy(padapter, frame_body, len-sizeof(struct rtw_ieee80211_hdr_3addr)) == _FALSE)
++						{
++							DBG_871X(FUNC_ADPT_FMT" ch_list has no intersect with buddy\n", FUNC_ADPT_ARG(padapter));
++							rtw_change_p2pie_ch_list(padapter, frame_body, len-sizeof(struct rtw_ieee80211_hdr_3addr), 0);
++						}
++						#endif
++					}
++
++					break;
++				}
++				case P2P_GO_NEGO_RESP:
++				{
++					struct rtw_wdev_nego_info* nego_info = &pwdev_priv->nego_info;
++
++					if (tx) {
++						#ifdef CONFIG_CONCURRENT_MODE
++						if(check_buddy_fwstate(padapter, _FW_LINKED))
++							rtw_cfg80211_adjust_p2pie_channel(padapter, frame_body, len-sizeof(struct rtw_ieee80211_hdr_3addr));
++						#endif
++					}
++
++					if ((cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, &cont_len)))
++						op_ch = *(cont+4);
++					if ((cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GO_INTENT, NULL, &cont_len)))
++						intent = *cont;
++					if ((cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, NULL, &cont_len)))
++						status = *cont;
++
++					if (nego_info->token == dialogToken && nego_info->state == 0
++						&& _rtw_memcmp(nego_info->peer_mac, tx ? GetAddr1Ptr(buf) : GetAddr2Ptr(buf), ETH_ALEN) == _TRUE
++					) {
++						nego_info->status = (status==-1) ? 0xff : status;
++						nego_info->rsp_op_ch= op_ch;
++						nego_info->rsp_intent = intent;
++						nego_info->state = 1;
++						if (status != 0)
++							nego_info->token = 0; /* init */
++					}
++
++					dump_p2p_attr_ch_list(p2p_ie, p2p_ielen, ch_list_buf, 128);
++					DBG_871X("RTW_%s:P2P_GO_NEGO_RESP, dialogToken=%d, intent:%u%s, status:%d, op_ch:%d, ch_list:%s\n",
++							(tx==_TRUE)?"Tx":"Rx", dialogToken, (intent>>1), intent&0x1 ? "+" : "-", status, op_ch, ch_list_buf);
++
++					if (!tx) {
++						pwdev_priv->provdisc_req_issued = _FALSE;
++						#ifdef CONFIG_CONCURRENT_MODE
++						if(check_buddy_fwstate(padapter, _FW_LINKED)
++							&& rtw_chk_p2pie_ch_list_with_buddy(padapter, frame_body, len-sizeof(struct rtw_ieee80211_hdr_3addr)) == _FALSE)
++						{
++							DBG_871X(FUNC_ADPT_FMT" ch_list has no intersect with buddy\n", FUNC_ADPT_ARG(padapter));
++							rtw_change_p2pie_ch_list(padapter, frame_body, len-sizeof(struct rtw_ieee80211_hdr_3addr), 0);
++						}
++						#endif
++					}
++
++					break;
++				}
++				case P2P_GO_NEGO_CONF:
++				{
++					struct rtw_wdev_nego_info* nego_info = &pwdev_priv->nego_info;
++					bool is_go = _FALSE;
++
++					if (tx) {
++						#ifdef CONFIG_CONCURRENT_MODE
++						if(check_buddy_fwstate(padapter, _FW_LINKED))
++							rtw_cfg80211_adjust_p2pie_channel(padapter, frame_body, len-sizeof(struct rtw_ieee80211_hdr_3addr));
++						#endif
++					}
++
++					if ((cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, &cont_len)))
++						op_ch = *(cont+4);
++					if ((cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, NULL, &cont_len)))
++						status = *cont;
++
++					if (nego_info->token == dialogToken && nego_info->state == 1
++						&& _rtw_memcmp(nego_info->peer_mac, tx ? GetAddr1Ptr(buf) : GetAddr2Ptr(buf), ETH_ALEN) == _TRUE
++					) {
++						nego_info->status = (status==-1) ? 0xff : status;
++						nego_info->conf_op_ch = (op_ch==-1) ? 0 : op_ch;
++						nego_info->state = 2;
++
++						if (status == 0) {
++							if (rtw_p2p_nego_intent_compare(nego_info->req_intent, nego_info->rsp_intent) && tx)
++								is_go = _TRUE;
++						}
++
++						nego_info->token = 0; /* init */
++					}
++
++					dump_p2p_attr_ch_list(p2p_ie, p2p_ielen, ch_list_buf, 128);
++					DBG_871X("RTW_%s:P2P_GO_NEGO_CONF, dialogToken=%d, status:%d, op_ch:%d, ch_list:%s\n",
++						(tx==_TRUE)?"Tx":"Rx", dialogToken, status, op_ch, ch_list_buf);
++
++					if (!tx) {
++					}
++
++					break;
++				}
++				case P2P_INVIT_REQ:
++				{
++					struct rtw_wdev_invit_info* invit_info = &pwdev_priv->invit_info;
++					int flags = -1;
++
++					if (tx) {
++						#ifdef CONFIG_CONCURRENT_MODE
++						if(check_buddy_fwstate(padapter, _FW_LINKED))
++							rtw_cfg80211_adjust_p2pie_channel(padapter, frame_body, len-sizeof(struct rtw_ieee80211_hdr_3addr));
++						#endif
++					}
++
++					if ((cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_INVITATION_FLAGS, NULL, &cont_len)))
++						flags = *cont;
++					if ((cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, &cont_len)))
++						op_ch = *(cont+4);
++
++					if (invit_info->token != dialogToken)
++						rtw_wdev_invit_info_init(invit_info);
++
++					_rtw_memcpy(invit_info->peer_mac, tx ? GetAddr1Ptr(buf) : GetAddr2Ptr(buf), ETH_ALEN);
++					invit_info->active = tx ? 1 : 0;
++					invit_info->token = dialogToken;
++					invit_info->flags = (flags==-1) ? 0x0 : flags;
++					invit_info->req_op_ch= op_ch;
++					invit_info->state = 0;
++
++					dump_p2p_attr_ch_list(p2p_ie, p2p_ielen, ch_list_buf, 128);
++					DBG_871X("RTW_%s:P2P_INVIT_REQ, dialogToken=%d, flags:0x%02x, op_ch:%d, ch_list:%s\n",
++							(tx==_TRUE)?"Tx":"Rx", dialogToken, flags, op_ch, ch_list_buf);
++
++					if (!tx) {
++						#ifdef CONFIG_CONCURRENT_MODE
++						if(check_buddy_fwstate(padapter, _FW_LINKED)) {
++							if (op_ch != -1 && rtw_chk_p2pie_op_ch_with_buddy(padapter, frame_body, len-sizeof(struct rtw_ieee80211_hdr_3addr)) == _FALSE) {
++								DBG_871X(FUNC_ADPT_FMT" op_ch:%u has no intersect with buddy\n", FUNC_ADPT_ARG(padapter), op_ch);
++								rtw_change_p2pie_ch_list(padapter, frame_body, len-sizeof(struct rtw_ieee80211_hdr_3addr), 0);
++							} else if (rtw_chk_p2pie_ch_list_with_buddy(padapter, frame_body, len-sizeof(struct rtw_ieee80211_hdr_3addr)) == _FALSE) {
++								DBG_871X(FUNC_ADPT_FMT" ch_list has no intersect with buddy\n", FUNC_ADPT_ARG(padapter));
++								rtw_change_p2pie_ch_list(padapter, frame_body, len-sizeof(struct rtw_ieee80211_hdr_3addr), 0);
++							}
++						}
++						#endif
++					}
++
++					break;
++				}
++				case P2P_INVIT_RESP:
++				{
++					struct rtw_wdev_invit_info* invit_info = &pwdev_priv->invit_info;
++
++					if (tx) {
++						#ifdef CONFIG_CONCURRENT_MODE
++						if(check_buddy_fwstate(padapter, _FW_LINKED))
++							rtw_cfg80211_adjust_p2pie_channel(padapter, frame_body, len-sizeof(struct rtw_ieee80211_hdr_3addr));
++						#endif
++					}
++
++					if ((cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, NULL, &cont_len)))
++					{
++#ifdef CONFIG_P2P_INVITE_IOT
++						if(tx && *cont==7)
++						{
++							DBG_871X("TX_P2P_INVITE_RESP, status is no common channel, change to unknown group\n");
++							*cont = 8; //unknow group status
++						}
++#endif //CONFIG_P2P_INVITE_IOT
++						status = *cont;
++					}	
++					if ((cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, &cont_len)))
++						op_ch = *(cont+4);
++
++					if (invit_info->token == dialogToken && invit_info->state == 0
++						&& _rtw_memcmp(invit_info->peer_mac, tx ? GetAddr1Ptr(buf) : GetAddr2Ptr(buf), ETH_ALEN) == _TRUE
++					) {
++						invit_info->status = (status==-1) ? 0xff : status;
++						invit_info->rsp_op_ch= op_ch;
++						invit_info->state = 1;
++						invit_info->token = 0; /* init */
++					}
++
++					dump_p2p_attr_ch_list(p2p_ie, p2p_ielen, ch_list_buf, 128);
++					DBG_871X("RTW_%s:P2P_INVIT_RESP, dialogToken=%d, status:%d, op_ch:%d, ch_list:%s\n",
++							(tx==_TRUE)?"Tx":"Rx", dialogToken, status, op_ch, ch_list_buf);
++
++					if (!tx) {
++					}
++
++					break;
++				}
++				case P2P_DEVDISC_REQ:
++					DBG_871X("RTW_%s:P2P_DEVDISC_REQ, dialogToken=%d\n", (tx==_TRUE)?"Tx":"Rx", dialogToken);
++					break;
++				case P2P_DEVDISC_RESP:
++					cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, NULL, &cont_len);
++					DBG_871X("RTW_%s:P2P_DEVDISC_RESP, dialogToken=%d, status:%d\n", (tx==_TRUE)?"Tx":"Rx", dialogToken, cont?*cont:-1);
++					break;
++				case P2P_PROVISION_DISC_REQ:
++				{
++					size_t frame_body_len = len - sizeof(struct rtw_ieee80211_hdr_3addr);
++					u8 *p2p_ie;
++					uint p2p_ielen = 0;
++					uint contentlen = 0;
++					
++					DBG_871X("RTW_%s:P2P_PROVISION_DISC_REQ, dialogToken=%d\n", (tx==_TRUE)?"Tx":"Rx", dialogToken);
++
++					//if(tx)
++					{
++						pwdev_priv->provdisc_req_issued = _FALSE;
++					
++						if( (p2p_ie=rtw_get_p2p_ie( frame_body + _PUBLIC_ACTION_IE_OFFSET_, frame_body_len - _PUBLIC_ACTION_IE_OFFSET_, NULL, &p2p_ielen)))
++						{	
++
++							if(rtw_get_p2p_attr_content( p2p_ie, p2p_ielen, P2P_ATTR_GROUP_ID, NULL, &contentlen))
++							{
++								pwdev_priv->provdisc_req_issued = _FALSE;//case: p2p_client join p2p GO
++							}
++							else
++							{
++								#ifdef CONFIG_DEBUG_CFG80211
++								DBG_871X("provdisc_req_issued is _TRUE\n");
++								#endif //CONFIG_DEBUG_CFG80211
++								pwdev_priv->provdisc_req_issued = _TRUE;//case: p2p_devices connection before Nego req.
++							}
++												
++						}						
++					}				
++				}	
++					break;
++				case P2P_PROVISION_DISC_RESP:
++					DBG_871X("RTW_%s:P2P_PROVISION_DISC_RESP, dialogToken=%d\n", (tx==_TRUE)?"Tx":"Rx", dialogToken);
++					break;
++				default:
++					DBG_871X("RTW_%s:OUI_Subtype=%d, dialogToken=%d\n", (tx==_TRUE)?"Tx":"Rx", OUI_Subtype, dialogToken);
++					break;	
++			}
++
++		}
++		
++	}	
++	else if(category == RTW_WLAN_CATEGORY_P2P)
++	{
++		OUI_Subtype = frame_body[5];
++		dialogToken = frame_body[6];
++
++		#ifdef CONFIG_DEBUG_CFG80211
++		DBG_871X("ACTION_CATEGORY_P2P: OUI=0x%x, OUI_Subtype=%d, dialogToken=%d\n",
++			cpu_to_be32( *( ( u32* ) ( frame_body + 1 ) ) ), OUI_Subtype, dialogToken);
++		#endif
++
++		is_p2p_frame = OUI_Subtype;
++
++		switch(OUI_Subtype)
++		{
++			case P2P_NOTICE_OF_ABSENCE:
++				DBG_871X("RTW_%s:P2P_NOTICE_OF_ABSENCE, dialogToken=%d\n", (tx==_TRUE)?"TX":"RX", dialogToken);
++				break;			
++			case P2P_PRESENCE_REQUEST:
++				DBG_871X("RTW_%s:P2P_PRESENCE_REQUEST, dialogToken=%d\n", (tx==_TRUE)?"TX":"RX", dialogToken);
++				break;			
++			case P2P_PRESENCE_RESPONSE:
++				DBG_871X("RTW_%s:P2P_PRESENCE_RESPONSE, dialogToken=%d\n", (tx==_TRUE)?"TX":"RX", dialogToken);
++				break;			
++			case P2P_GO_DISC_REQUEST:
++				DBG_871X("RTW_%s:P2P_GO_DISC_REQUEST, dialogToken=%d\n", (tx==_TRUE)?"TX":"RX", dialogToken);
++				break;			
++			default:
++				DBG_871X("RTW_%s:OUI_Subtype=%d, dialogToken=%d\n", (tx==_TRUE)?"TX":"RX", OUI_Subtype, dialogToken);
++				break;			
++		}	
++
++	}	
++	else
++	{
++		DBG_871X("RTW_%s:action frame category=%d\n", (tx==_TRUE)?"TX":"RX", category);
++	}
++
++	return is_p2p_frame;
++}
++
++void rtw_init_cfg80211_wifidirect_info( _adapter*	padapter)
++{
++	struct cfg80211_wifidirect_info *pcfg80211_wdinfo = &padapter->cfg80211_wdinfo;
++
++	_rtw_memset(pcfg80211_wdinfo, 0x00, sizeof(struct cfg80211_wifidirect_info) );
++	
++	_init_timer( &pcfg80211_wdinfo->remain_on_ch_timer, padapter->pnetdev, ro_ch_timer_process, padapter );
++}
++#endif //CONFIG_IOCTL_CFG80211	
++
++void p2p_protocol_wk_hdl(_adapter *padapter, int intCmdType)
++{
++	struct wifidirect_info	*pwdinfo= &(padapter->wdinfo);
++	
++_func_enter_;
++
++	switch(intCmdType)
++	{
++		case P2P_FIND_PHASE_WK:
++		{
++			find_phase_handler( padapter );
++			break;
++		}
++		case P2P_RESTORE_STATE_WK:
++		{
++			restore_p2p_state_handler( padapter );
++			break;
++		}
++		case P2P_PRE_TX_PROVDISC_PROCESS_WK:
++		{
++#ifdef CONFIG_CONCURRENT_MODE
++			if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++			{
++				p2p_concurrent_handler( padapter );
++			}
++			else
++			{
++				pre_tx_provdisc_handler( padapter );
++			}
++#else
++			pre_tx_provdisc_handler( padapter );
++#endif
++			break;
++		}
++		case P2P_PRE_TX_INVITEREQ_PROCESS_WK:
++		{
++#ifdef CONFIG_CONCURRENT_MODE
++			if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++			{
++				p2p_concurrent_handler( padapter );
++			}
++			else
++			{
++				pre_tx_invitereq_handler( padapter );
++			}
++#else			
++			pre_tx_invitereq_handler( padapter );
++#endif
++			break;
++		}		
++		case P2P_PRE_TX_NEGOREQ_PROCESS_WK:
++		{
++#ifdef CONFIG_CONCURRENT_MODE
++			if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++			{
++				p2p_concurrent_handler( padapter );
++			}
++			else
++			{
++				pre_tx_negoreq_handler( padapter );
++			}
++#else			
++			pre_tx_negoreq_handler( padapter );
++#endif
++			break;
++		}
++#ifdef CONFIG_P2P
++#ifdef CONFIG_CONCURRENT_MODE
++		case P2P_AP_P2P_CH_SWITCH_PROCESS_WK:
++		{
++			p2p_concurrent_handler( padapter );
++			break;
++		}		
++#endif
++#endif
++#ifdef CONFIG_IOCTL_CFG80211
++		case P2P_RO_CH_WK:
++		{
++			ro_ch_handler( padapter );
++			break;
++		}		
++#endif //CONFIG_IOCTL_CFG80211		
++
++	}
++	
++_func_exit_;
++}
++
++#ifdef CONFIG_P2P_PS
++void process_p2p_ps_ie(PADAPTER padapter, u8 *IEs, u32 IELength)
++{
++	u8 * ies;
++	u32 ies_len;
++	u8 * p2p_ie;
++	u32	p2p_ielen = 0;
++	u8	noa_attr[MAX_P2P_IE_LEN] = { 0x00 };// NoA length should be n*(13) + 2
++	u32	attr_contentlen = 0;
++	
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++	u8	find_p2p = _FALSE, find_p2p_ps = _FALSE;
++	u8	noa_offset, noa_num, noa_index;
++
++_func_enter_;
++
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++	{
++		return;
++	}
++	
++#ifdef CONFIG_CONCURRENT_MODE
++	if(padapter->iface_type != IFACE_PORT0) 
++		return;
++#endif
++	if(IELength <= _BEACON_IE_OFFSET_)
++		return;
++	
++	ies = IEs + _BEACON_IE_OFFSET_;
++	ies_len = IELength - _BEACON_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie( ies, ies_len, NULL, &p2p_ielen);
++	
++	while(p2p_ie)
++	{
++		find_p2p = _TRUE;
++		// Get Notice of Absence IE.
++		if(rtw_get_p2p_attr_content( p2p_ie, p2p_ielen, P2P_ATTR_NOA, noa_attr, &attr_contentlen))
++		{
++			find_p2p_ps = _TRUE;
++			noa_index = noa_attr[0];
++
++			if( (pwdinfo->p2p_ps_mode == P2P_PS_NONE) ||
++				(noa_index != pwdinfo->noa_index) )// if index change, driver should reconfigure related setting.
++			{
++				pwdinfo->noa_index = noa_index;
++				pwdinfo->opp_ps = noa_attr[1] >> 7;
++				pwdinfo->ctwindow = noa_attr[1] & 0x7F;
++
++				noa_offset = 2;
++				noa_num = 0;
++				// NoA length should be n*(13) + 2
++				if(attr_contentlen > 2)
++				{
++					while(noa_offset < attr_contentlen)
++					{
++						//_rtw_memcpy(&wifidirect_info->noa_count[noa_num], &noa_attr[noa_offset], 1);
++						pwdinfo->noa_count[noa_num] = noa_attr[noa_offset];
++						noa_offset += 1;
++
++						_rtw_memcpy(&pwdinfo->noa_duration[noa_num], &noa_attr[noa_offset], 4);
++						noa_offset += 4;
++
++						_rtw_memcpy(&pwdinfo->noa_interval[noa_num], &noa_attr[noa_offset], 4);
++						noa_offset += 4;
++
++						_rtw_memcpy(&pwdinfo->noa_start_time[noa_num], &noa_attr[noa_offset], 4);
++						noa_offset += 4;
++
++						noa_num++;
++					}
++				}
++				pwdinfo->noa_num = noa_num;
++
++				if( pwdinfo->opp_ps == 1 )
++				{
++					pwdinfo->p2p_ps_mode = P2P_PS_CTWINDOW;
++					// driver should wait LPS for entering CTWindow
++					if(padapter->pwrctrlpriv.bFwCurrentInPSMode == _TRUE)
++					{
++						p2p_ps_wk_cmd(padapter, P2P_PS_ENABLE, 1);
++					}
++				}
++				else if( pwdinfo->noa_num > 0 )
++				{
++					pwdinfo->p2p_ps_mode = P2P_PS_NOA;
++					p2p_ps_wk_cmd(padapter, P2P_PS_ENABLE, 1);
++				}
++				else if( pwdinfo->p2p_ps_mode > P2P_PS_NONE)
++				{
++					p2p_ps_wk_cmd(padapter, P2P_PS_DISABLE, 1);
++				}
++			}
++
++			break; // find target, just break.
++		}
++
++		//Get the next P2P IE
++		p2p_ie = rtw_get_p2p_ie(p2p_ie+p2p_ielen, ies_len -(p2p_ie -ies + p2p_ielen), NULL, &p2p_ielen);
++
++	}
++
++	if(find_p2p == _TRUE)
++	{
++		if( (pwdinfo->p2p_ps_mode > P2P_PS_NONE) && (find_p2p_ps == _FALSE) )
++		{
++			p2p_ps_wk_cmd(padapter, P2P_PS_DISABLE, 1);
++		}
++	}
++
++_func_exit_;
++}
++
++void p2p_ps_wk_hdl(_adapter *padapter, u8 p2p_ps_state)
++{
++	struct pwrctrl_priv		*pwrpriv = &padapter->pwrctrlpriv;
++	struct wifidirect_info	*pwdinfo= &(padapter->wdinfo);
++	
++_func_enter_;
++
++	switch(p2p_ps_state)
++	{
++		case P2P_PS_DISABLE:
++			pwdinfo->p2p_ps_state = p2p_ps_state;
++			
++			rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_P2P_PS_OFFLOAD, (u8 *)(&p2p_ps_state));
++
++			pwdinfo->noa_index = 0;
++			pwdinfo->ctwindow = 0;
++			pwdinfo->opp_ps = 0;
++			pwdinfo->noa_num = 0;
++			pwdinfo->p2p_ps_mode = P2P_PS_NONE;
++			if(padapter->pwrctrlpriv.bFwCurrentInPSMode == _TRUE)
++			{
++				if(pwrpriv->smart_ps == 0)
++				{
++					pwrpriv->smart_ps = 2;
++					rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_PWRMODE, (u8 *)(&(padapter->pwrctrlpriv.pwr_mode)));
++				}
++			}
++			break;
++		case P2P_PS_ENABLE:
++			if (pwdinfo->p2p_ps_mode > P2P_PS_NONE) {
++				pwdinfo->p2p_ps_state = p2p_ps_state;
++				
++				if( pwdinfo->ctwindow > 0 )
++				{
++					if(pwrpriv->smart_ps != 0)
++					{
++						pwrpriv->smart_ps = 0;
++						DBG_871X("%s(): Enter CTW, change SmartPS\n", __FUNCTION__);
++						rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_PWRMODE, (u8 *)(&(padapter->pwrctrlpriv.pwr_mode)));
++					}
++				}
++				rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_P2P_PS_OFFLOAD, (u8 *)(&p2p_ps_state));
++			}
++			break;
++		case P2P_PS_SCAN:
++		case P2P_PS_SCAN_DONE:
++		case P2P_PS_ALLSTASLEEP:
++			if (pwdinfo->p2p_ps_mode > P2P_PS_NONE) {
++				pwdinfo->p2p_ps_state = p2p_ps_state;
++				rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_P2P_PS_OFFLOAD, (u8 *)(&p2p_ps_state));
++			}
++			break;
++		default:
++			break;
++	}
++
++_func_exit_;
++}
++
++u8 p2p_ps_wk_cmd(_adapter*padapter, u8 p2p_ps_state, u8 enqueue)
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct wifidirect_info	*pwdinfo= &(padapter->wdinfo);
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++	
++_func_enter_;
++
++	if ( rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE) 
++#ifdef CONFIG_CONCURRENT_MODE
++		|| (padapter->iface_type != IFACE_PORT0) 
++#endif
++		)
++	{
++		return res;
++	}
++
++	if(enqueue)
++	{
++		ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));	
++		if(ph2c==NULL){
++			res= _FAIL;
++			goto exit;
++		}
++		
++		pdrvextra_cmd_parm = (struct drvextra_cmd_parm*)rtw_zmalloc(sizeof(struct drvextra_cmd_parm)); 
++		if(pdrvextra_cmd_parm==NULL){
++			rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++			res= _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm->ec_id = P2P_PS_WK_CID;
++		pdrvextra_cmd_parm->type_size = p2p_ps_state;
++		pdrvextra_cmd_parm->pbuf = NULL;
++
++		init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	}
++	else
++	{
++		p2p_ps_wk_hdl(padapter, p2p_ps_state);
++	}
++	
++exit:
++	
++_func_exit_;
++
++	return res;
++
++}
++#endif // CONFIG_P2P_PS
++
++static void reset_ch_sitesurvey_timer_process (void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct	wifidirect_info		*pwdinfo = &adapter->wdinfo;
++
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++
++	DBG_871X( "[%s] In\n", __FUNCTION__ );
++	//	Reset the operation channel information
++	pwdinfo->rx_invitereq_info.operation_ch[0] = 0;
++#ifdef P2P_OP_CHECK_SOCIAL_CH
++	pwdinfo->rx_invitereq_info.operation_ch[1] = 0;
++	pwdinfo->rx_invitereq_info.operation_ch[2] = 0;
++	pwdinfo->rx_invitereq_info.operation_ch[3] = 0;
++#endif //P2P_OP_CHECK_SOCIAL_CH 
++	pwdinfo->rx_invitereq_info.scan_op_ch_only = 0;
++}
++
++static void reset_ch_sitesurvey_timer_process2 (void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct	wifidirect_info		*pwdinfo = &adapter->wdinfo;
++
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++
++	DBG_871X( "[%s] In\n", __FUNCTION__ );
++	//	Reset the operation channel information
++	pwdinfo->p2p_info.operation_ch[0] = 0;
++#ifdef P2P_OP_CHECK_SOCIAL_CH
++	pwdinfo->p2p_info.operation_ch[1] = 0;
++	pwdinfo->p2p_info.operation_ch[2] = 0;
++	pwdinfo->p2p_info.operation_ch[3] = 0;
++#endif //P2P_OP_CHECK_SOCIAL_CH
++	pwdinfo->p2p_info.scan_op_ch_only = 0;
++}
++
++static void restore_p2p_state_timer_process (void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct	wifidirect_info		*pwdinfo = &adapter->wdinfo;
++
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return; 
++	
++	p2p_protocol_wk_cmd( adapter, P2P_RESTORE_STATE_WK );
++}
++
++static void pre_tx_scan_timer_process (void *FunctionContext)
++{
++	_adapter 							*adapter = (_adapter *) FunctionContext;
++	struct	wifidirect_info				*pwdinfo = &adapter->wdinfo;
++	_irqL							irqL;
++	struct mlme_priv					*pmlmepriv = &adapter->mlmepriv;
++	u8								_status = 0;
++
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++	
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	//	Commented by Albert 20110805
++	//	Todo: Use the issuing probe request directly instead of using the rtw_sitesurvey_cmd!!
++	
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_PROVISION_DIS_REQ))
++	{
++		if ( _TRUE == pwdinfo->tx_prov_disc_info.benable )	//	the provision discovery request frame is trigger to send or not
++		{
++			p2p_protocol_wk_cmd( adapter, P2P_PRE_TX_PROVDISC_PROCESS_WK );			
++			//issue_probereq_p2p(adapter, NULL);
++			//_set_timer( &pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT );
++		}
++	}
++	else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING))
++	{
++		if ( _TRUE == pwdinfo->nego_req_info.benable )
++		{
++			p2p_protocol_wk_cmd( adapter, P2P_PRE_TX_NEGOREQ_PROCESS_WK );
++			//issue_probereq_p2p(adapter, NULL);
++			//_set_timer( &pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT );
++		}
++	}
++	else if ( rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_INVITE_REQ ) )
++	{
++		if ( _TRUE == pwdinfo->invitereq_info.benable )
++		{
++			p2p_protocol_wk_cmd( adapter, P2P_PRE_TX_INVITEREQ_PROCESS_WK );
++		}
++	}
++	else
++	{
++		DBG_8192C( "[%s] p2p_state is %d, ignore!!\n", __FUNCTION__, rtw_p2p_state(pwdinfo) );
++	}
++	
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++
++static void find_phase_timer_process (void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct	wifidirect_info		*pwdinfo = &adapter->wdinfo;
++
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++
++	adapter->wdinfo.find_phase_state_exchange_cnt++;
++
++	p2p_protocol_wk_cmd( adapter, P2P_FIND_PHASE_WK );
++}
++
++#ifdef CONFIG_CONCURRENT_MODE
++void ap_p2p_switch_timer_process (void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct	wifidirect_info		*pwdinfo = &adapter->wdinfo;
++#ifdef CONFIG_IOCTL_CFG80211	
++	struct rtw_wdev_priv *pwdev_priv = wdev_to_priv(adapter->rtw_wdev);
++#endif
++
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	ATOMIC_SET(&pwdev_priv->switch_ch_to, 1);
++#endif
++
++	p2p_protocol_wk_cmd( adapter, P2P_AP_P2P_CH_SWITCH_PROCESS_WK );
++}
++#endif
++
++void reset_global_wifidirect_info( _adapter* padapter )
++{
++	struct wifidirect_info	*pwdinfo;
++
++	pwdinfo = &padapter->wdinfo;
++	pwdinfo->persistent_supported = 0;
++	pwdinfo->session_available = _TRUE;
++	pwdinfo->wfd_tdls_enable = 0;
++	pwdinfo->wfd_tdls_weaksec = 0;
++}
++
++#ifdef CONFIG_WFD
++int rtw_init_wifi_display_info(_adapter* padapter)
++{
++	int	res = _SUCCESS;
++	struct wifi_display_info *pwfd_info = &padapter->wfd_info;
++
++	// Used in P2P and TDLS
++	pwfd_info->rtsp_ctrlport = 554;
++	pwfd_info->peer_rtsp_ctrlport = 0;	//	Reset to 0
++	pwfd_info->wfd_enable = _FALSE;
++	pwfd_info->wfd_device_type = WFD_DEVINFO_PSINK;
++	pwfd_info->scan_result_type = SCAN_RESULT_P2P_ONLY;
++
++	// Used in P2P	
++	pwfd_info->peer_session_avail = _TRUE;
++	pwfd_info->wfd_pc = _FALSE;
++
++	// Used in TDLS
++	_rtw_memset( pwfd_info->ip_address, 0x00, 4 );
++	_rtw_memset( pwfd_info->peer_ip_address, 0x00, 4 );
++	return res;
++
++}
++#endif //CONFIG_WFD
++
++void rtw_init_wifidirect_timers(_adapter* padapter)
++{
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++
++	_init_timer( &pwdinfo->find_phase_timer, padapter->pnetdev, find_phase_timer_process, padapter );
++	_init_timer( &pwdinfo->restore_p2p_state_timer, padapter->pnetdev, restore_p2p_state_timer_process, padapter );
++	_init_timer( &pwdinfo->pre_tx_scan_timer, padapter->pnetdev, pre_tx_scan_timer_process, padapter );
++	_init_timer( &pwdinfo->reset_ch_sitesurvey, padapter->pnetdev, reset_ch_sitesurvey_timer_process, padapter );
++	_init_timer( &pwdinfo->reset_ch_sitesurvey2, padapter->pnetdev, reset_ch_sitesurvey_timer_process2, padapter );
++#ifdef CONFIG_CONCURRENT_MODE
++	_init_timer( &pwdinfo->ap_p2p_switch_timer, padapter->pnetdev, ap_p2p_switch_timer_process, padapter );
++#endif
++}
++
++void rtw_init_wifidirect_addrs(_adapter* padapter, u8 *dev_addr, u8 *iface_addr)
++{
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++
++	/*init device&interface address */
++	if (dev_addr) {
++		_rtw_memcpy(pwdinfo->device_addr, dev_addr, ETH_ALEN);
++	}
++	if (iface_addr) {
++		_rtw_memcpy(pwdinfo->interface_addr, iface_addr, ETH_ALEN);
++	}
++#endif
++}
++
++void init_wifidirect_info( _adapter* padapter, enum P2P_ROLE role)
++{
++	struct wifidirect_info	*pwdinfo;
++#ifdef CONFIG_WFD
++	struct wifi_display_info	*pwfd_info = &padapter->wfd_info;
++#endif
++#ifdef CONFIG_CONCURRENT_MODE
++	_adapter				*pbuddy_adapter = padapter->pbuddy_adapter;
++	struct wifidirect_info	*pbuddy_wdinfo;
++	struct mlme_priv		*pbuddy_mlmepriv;
++	struct mlme_ext_priv	*pbuddy_mlmeext;
++#endif
++
++	pwdinfo = &padapter->wdinfo;
++
++	pwdinfo->padapter = padapter;
++	
++	//	1, 6, 11 are the social channel defined in the WiFi Direct specification.
++	pwdinfo->social_chan[0] = 1;
++	pwdinfo->social_chan[1] = 6;
++	pwdinfo->social_chan[2] = 11;
++	pwdinfo->social_chan[3] = 0;	//	channel 0 for scanning ending in site survey function.
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (pbuddy_adapter) {
++		pbuddy_wdinfo = &pbuddy_adapter->wdinfo;
++		pbuddy_mlmepriv = &pbuddy_adapter->mlmepriv;
++		pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++	}
++
++	if ( ( check_buddy_fwstate(padapter, _FW_LINKED ) == _TRUE ) && 
++	      ( ( pbuddy_mlmeext->cur_channel == 1) || ( pbuddy_mlmeext->cur_channel == 6 ) || ( pbuddy_mlmeext->cur_channel == 11 ) )
++	   )
++	{
++		//	Use the AP's channel as the listen channel
++		//	This will avoid the channel switch between AP's channel and listen channel.
++		pwdinfo->listen_channel = pbuddy_mlmeext->cur_channel;
++	}
++	else
++#endif //CONFIG_CONCURRENT_MODE
++	{
++		//	Use the channel 11 as the listen channel
++		pwdinfo->listen_channel = 11;
++	}
++
++	if (role == P2P_ROLE_DEVICE)
++	{
++		rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++		#ifdef CONFIG_CONCURRENT_MODE
++		if ( check_buddy_fwstate(padapter, _FW_LINKED ) == _TRUE )
++		{
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_IDLE);
++		}
++		else
++		#endif
++		{
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_LISTEN);
++		}
++		pwdinfo->intent = 1;
++		rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_LISTEN);
++	}
++	else if (role == P2P_ROLE_CLIENT)
++	{
++		rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++		pwdinfo->intent = 1;
++		rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_GONEGO_OK);
++	}	
++	else if (role == P2P_ROLE_GO)
++	{
++		rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++		pwdinfo->intent = 15;
++		rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_GONEGO_OK);
++	}
++
++//	Use the OFDM rate in the P2P probe response frame. ( 6(B), 9(B), 12, 18, 24, 36, 48, 54 )	
++	pwdinfo->support_rate[0] = 0x8c;	//	6(B)
++	pwdinfo->support_rate[1] = 0x92;	//	9(B)
++	pwdinfo->support_rate[2] = 0x18;	//	12
++	pwdinfo->support_rate[3] = 0x24;	//	18
++	pwdinfo->support_rate[4] = 0x30;	//	24
++	pwdinfo->support_rate[5] = 0x48;	//	36
++	pwdinfo->support_rate[6] = 0x60;	//	48
++	pwdinfo->support_rate[7] = 0x6c;	//	54
++
++	_rtw_memcpy( ( void* ) pwdinfo->p2p_wildcard_ssid, "DIRECT-", 7 );
++
++	_rtw_memset( pwdinfo->device_name, 0x00, WPS_MAX_DEVICE_NAME_LEN );
++	pwdinfo->device_name_len = 0;
++
++	_rtw_memset( &pwdinfo->invitereq_info, 0x00, sizeof( struct tx_invite_req_info ) );
++	pwdinfo->invitereq_info.token = 3;	//	Token used for P2P invitation request frame.
++	
++	_rtw_memset( &pwdinfo->inviteresp_info, 0x00, sizeof( struct tx_invite_resp_info ) );
++	pwdinfo->inviteresp_info.token = 0;
++
++	pwdinfo->profileindex = 0;
++	_rtw_memset( &pwdinfo->profileinfo[ 0 ], 0x00, sizeof( struct profile_info ) * P2P_MAX_PERSISTENT_GROUP_NUM );
++
++	rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_NONE);
++
++	pwdinfo->listen_dwell = ( u8 ) (( rtw_get_current_time() % 3 ) + 1);
++	//DBG_8192C( "[%s] listen_dwell time is %d00ms\n", __FUNCTION__, pwdinfo->listen_dwell );
++
++	_rtw_memset( &pwdinfo->tx_prov_disc_info, 0x00, sizeof( struct tx_provdisc_req_info ) );
++	pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_NONE;
++
++	_rtw_memset( &pwdinfo->nego_req_info, 0x00, sizeof( struct tx_nego_req_info ) );
++
++	pwdinfo->device_password_id_for_nego = WPS_DPID_PBC;
++	pwdinfo->negotiation_dialog_token = 1;
++
++	_rtw_memset( pwdinfo->nego_ssid, 0x00, WLAN_SSID_MAXLEN );
++	pwdinfo->nego_ssidlen = 0;
++
++	pwdinfo->ui_got_wps_info = P2P_NO_WPSINFO;
++#ifdef CONFIG_WFD
++	pwdinfo->supported_wps_cm = WPS_CONFIG_METHOD_DISPLAY  | WPS_CONFIG_METHOD_PBC;
++	pwdinfo->wfd_info = pwfd_info;
++#else
++	pwdinfo->supported_wps_cm = WPS_CONFIG_METHOD_DISPLAY | WPS_CONFIG_METHOD_PBC | WPS_CONFIG_METHOD_KEYPAD;
++#endif //CONFIG_WFD
++	pwdinfo->channel_list_attr_len = 0;
++	_rtw_memset( pwdinfo->channel_list_attr, 0x00, 100 );
++
++	_rtw_memset( pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, 0x00, 4 );
++	_rtw_memset( pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, '0', 3 );
++	_rtw_memset( &pwdinfo->groupid_info, 0x00, sizeof( struct group_id_info ) );
++#ifdef CONFIG_CONCURRENT_MODE
++#ifdef CONFIG_IOCTL_CFG80211
++	pwdinfo->ext_listen_interval = 1000; //The interval to be available with legacy AP during p2p0-find/scan
++	pwdinfo->ext_listen_period = 3000; //The time period to be available for P2P during nego
++#else //!CONFIG_IOCTL_CFG80211
++	//pwdinfo->ext_listen_interval = 3000;
++	//pwdinfo->ext_listen_period = 400;
++	pwdinfo->ext_listen_interval = 1000;
++	pwdinfo->ext_listen_period = 1000;
++#endif //!CONFIG_IOCTL_CFG80211
++#endif
++
++// Commented by Kurt 20130319
++// For WiDi purpose: Use CFG80211 interface but controled WFD/RDS frame by driver itself.
++#ifdef CONFIG_IOCTL_CFG80211
++	pwdinfo->driver_interface = DRIVER_CFG80211;
++#else
++	pwdinfo->driver_interface = DRIVER_WEXT;
++#endif //CONFIG_IOCTL_CFG80211
++
++	pwdinfo->wfd_tdls_enable = 0;
++	_rtw_memset( pwdinfo->p2p_peer_interface_addr, 0x00, ETH_ALEN );
++	_rtw_memset( pwdinfo->p2p_peer_device_addr, 0x00, ETH_ALEN );
++
++	pwdinfo->rx_invitereq_info.operation_ch[0] = 0;
++	pwdinfo->rx_invitereq_info.operation_ch[1] = 0;	//	Used to indicate the scan end in site survey function
++#ifdef P2P_OP_CHECK_SOCIAL_CH
++	pwdinfo->rx_invitereq_info.operation_ch[2] = 0;
++	pwdinfo->rx_invitereq_info.operation_ch[3] = 0;
++	pwdinfo->rx_invitereq_info.operation_ch[4] = 0;
++#endif //P2P_OP_CHECK_SOCIAL_CH
++	pwdinfo->rx_invitereq_info.scan_op_ch_only = 0;
++	pwdinfo->p2p_info.operation_ch[0] = 0;
++	pwdinfo->p2p_info.operation_ch[1] = 0;			//	Used to indicate the scan end in site survey function
++#ifdef P2P_OP_CHECK_SOCIAL_CH
++	pwdinfo->p2p_info.operation_ch[2] = 0;
++	pwdinfo->p2p_info.operation_ch[3] = 0;
++	pwdinfo->p2p_info.operation_ch[4] = 0;
++#endif //P2P_OP_CHECK_SOCIAL_CH
++	pwdinfo->p2p_info.scan_op_ch_only = 0;
++}
++
++#ifdef CONFIG_DBG_P2P
++
++/**
++ * rtw_p2p_role_txt - Get the p2p role name as a text string
++ * @role: P2P role
++ * Returns: The state name as a printable text string
++ */
++const char * rtw_p2p_role_txt(enum P2P_ROLE role)
++{
++	switch (role) {
++	case P2P_ROLE_DISABLE:
++		return "P2P_ROLE_DISABLE";
++	case P2P_ROLE_DEVICE:
++		return "P2P_ROLE_DEVICE";
++	case P2P_ROLE_CLIENT:
++		return "P2P_ROLE_CLIENT";
++	case P2P_ROLE_GO:
++		return "P2P_ROLE_GO";
++	default:
++		return "UNKNOWN";
++	}
++}
++
++/**
++ * rtw_p2p_state_txt - Get the p2p state name as a text string
++ * @state: P2P state
++ * Returns: The state name as a printable text string
++ */
++const char * rtw_p2p_state_txt(enum P2P_STATE state)
++{
++	switch (state) {
++	case P2P_STATE_NONE:
++		return "P2P_STATE_NONE";
++	case P2P_STATE_IDLE:
++		return "P2P_STATE_IDLE";
++	case P2P_STATE_LISTEN:
++		return "P2P_STATE_LISTEN";
++	case P2P_STATE_SCAN:
++		return "P2P_STATE_SCAN";
++	case P2P_STATE_FIND_PHASE_LISTEN:
++		return "P2P_STATE_FIND_PHASE_LISTEN";
++	case P2P_STATE_FIND_PHASE_SEARCH:
++		return "P2P_STATE_FIND_PHASE_SEARCH";
++	case P2P_STATE_TX_PROVISION_DIS_REQ:
++		return "P2P_STATE_TX_PROVISION_DIS_REQ";
++	case P2P_STATE_RX_PROVISION_DIS_RSP:
++		return "P2P_STATE_RX_PROVISION_DIS_RSP";
++	case P2P_STATE_RX_PROVISION_DIS_REQ:
++		return "P2P_STATE_RX_PROVISION_DIS_REQ";
++	case P2P_STATE_GONEGO_ING:
++		return "P2P_STATE_GONEGO_ING";
++	case P2P_STATE_GONEGO_OK:
++		return "P2P_STATE_GONEGO_OK";
++	case P2P_STATE_GONEGO_FAIL:
++		return "P2P_STATE_GONEGO_FAIL";
++	case P2P_STATE_RECV_INVITE_REQ_MATCH:
++		return "P2P_STATE_RECV_INVITE_REQ_MATCH";
++	case P2P_STATE_PROVISIONING_ING:
++		return "P2P_STATE_PROVISIONING_ING";
++	case P2P_STATE_PROVISIONING_DONE:
++		return "P2P_STATE_PROVISIONING_DONE";
++	case P2P_STATE_TX_INVITE_REQ:
++		return "P2P_STATE_TX_INVITE_REQ";
++	case P2P_STATE_RX_INVITE_RESP_OK:
++		return "P2P_STATE_RX_INVITE_RESP_OK";
++	case P2P_STATE_RECV_INVITE_REQ_DISMATCH:
++		return "P2P_STATE_RECV_INVITE_REQ_DISMATCH";
++	case P2P_STATE_RECV_INVITE_REQ_GO:
++		return "P2P_STATE_RECV_INVITE_REQ_GO";
++	case P2P_STATE_RECV_INVITE_REQ_JOIN:
++		return "P2P_STATE_RECV_INVITE_REQ_JOIN";
++	case P2P_STATE_RX_INVITE_RESP_FAIL:
++		return "P2P_STATE_RX_INVITE_RESP_FAIL";
++	case P2P_STATE_RX_INFOR_NOREADY:
++		return "P2P_STATE_RX_INFOR_NOREADY";
++	case P2P_STATE_TX_INFOR_NOREADY:
++		return "P2P_STATE_TX_INFOR_NOREADY";
++	default:
++		return "UNKNOWN";
++	}
++}
++
++void dbg_rtw_p2p_set_state(struct wifidirect_info *wdinfo, enum P2P_STATE state, const char *caller, int line)
++{
++	if(!_rtw_p2p_chk_state(wdinfo, state)) {
++		enum P2P_STATE old_state = _rtw_p2p_state(wdinfo);
++		_rtw_p2p_set_state(wdinfo, state);
++		DBG_871X("[CONFIG_DBG_P2P]%s:%d set_state from %s to %s\n", caller, line
++			, rtw_p2p_state_txt(old_state), rtw_p2p_state_txt(_rtw_p2p_state(wdinfo))
++		);
++	} else {
++		DBG_871X("[CONFIG_DBG_P2P]%s:%d set_state to same state %s\n", caller, line
++			, rtw_p2p_state_txt(_rtw_p2p_state(wdinfo))
++		);
++	}
++}
++void dbg_rtw_p2p_set_pre_state(struct wifidirect_info *wdinfo, enum P2P_STATE state, const char *caller, int line)
++{
++	if(_rtw_p2p_pre_state(wdinfo) != state) {
++		enum P2P_STATE old_state = _rtw_p2p_pre_state(wdinfo); 
++		_rtw_p2p_set_pre_state(wdinfo, state);
++		DBG_871X("[CONFIG_DBG_P2P]%s:%d set_pre_state from %s to %s\n", caller, line
++			, rtw_p2p_state_txt(old_state), rtw_p2p_state_txt(_rtw_p2p_pre_state(wdinfo))
++		);
++	} else {
++		DBG_871X("[CONFIG_DBG_P2P]%s:%d set_pre_state to same state %s\n", caller, line
++			, rtw_p2p_state_txt(_rtw_p2p_pre_state(wdinfo))
++		);
++	}
++}
++#if 0
++void dbg_rtw_p2p_restore_state(struct wifidirect_info *wdinfo, const char *caller, int line)
++{
++	if(wdinfo->pre_p2p_state != -1) {
++		DBG_871X("[CONFIG_DBG_P2P]%s:%d restore from %s to %s\n", caller, line
++			, p2p_state_str[wdinfo->p2p_state], p2p_state_str[wdinfo->pre_p2p_state]
++		);
++		_rtw_p2p_restore_state(wdinfo);
++	} else {
++		DBG_871X("[CONFIG_DBG_P2P]%s:%d restore no pre state, cur state %s\n", caller, line
++			, p2p_state_str[wdinfo->p2p_state]
++		);		
++	}
++}
++#endif
++void dbg_rtw_p2p_set_role(struct wifidirect_info *wdinfo, enum P2P_ROLE role, const char *caller, int line)
++{
++	if(wdinfo->role != role) {
++		enum P2P_ROLE old_role = wdinfo->role;
++		_rtw_p2p_set_role(wdinfo, role);
++		DBG_871X("[CONFIG_DBG_P2P]%s:%d set_role from %s to %s\n", caller, line
++			, rtw_p2p_role_txt(old_role), rtw_p2p_role_txt(wdinfo->role)
++		);
++	} else {
++		DBG_871X("[CONFIG_DBG_P2P]%s:%d set_role to same role %s\n", caller, line
++			, rtw_p2p_role_txt(wdinfo->role)
++		);
++	}
++}
++#endif //CONFIG_DBG_P2P
++
++
++int rtw_p2p_enable(_adapter *padapter, enum P2P_ROLE role)
++{
++	int ret = _SUCCESS;
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++
++	if (role == P2P_ROLE_DEVICE || role == P2P_ROLE_CLIENT|| role == P2P_ROLE_GO)
++	{
++		u8 channel, ch_offset;
++		u16 bwmode;
++
++#ifdef CONFIG_CONCURRENT_MODE
++		_adapter				*pbuddy_adapter = padapter->pbuddy_adapter;
++		struct wifidirect_info	*pbuddy_wdinfo = &pbuddy_adapter->wdinfo;
++		//	Commented by Albert 2011/12/30
++		//	The driver just supports 1 P2P group operation.
++		//	So, this function will do nothing if the buddy adapter had enabled the P2P function.
++		if(!rtw_p2p_chk_state(pbuddy_wdinfo, P2P_STATE_NONE))
++		{
++			//	The buddy adapter had enabled the P2P function.
++			return ret;
++		}
++#endif //CONFIG_CONCURRENT_MODE
++
++		//leave IPS/Autosuspend
++		if (_FAIL == rtw_pwr_wakeup(padapter)) {
++			ret = _FAIL;
++			goto exit;
++		}
++		
++
++		//	Added by Albert 2011/03/22
++		//	In the P2P mode, the driver should not support the b mode.
++		//	So, the Tx packet shouldn't use the CCK rate
++		update_tx_basic_rate(padapter, WIRELESS_11AGN);
++
++		//Enable P2P function
++		init_wifidirect_info(padapter, role);
++	}
++	else if (role == P2P_ROLE_DISABLE)
++	{
++#ifdef CONFIG_INTEL_WIDI
++		if( padapter->mlmepriv.p2p_reject_disable == _TRUE )
++			return ret;
++#endif //CONFIG_INTEL_WIDI
++
++		if (_FAIL == rtw_pwr_wakeup(padapter)) {
++			ret = _FAIL;
++			goto exit;
++		}	
++
++		//Disable P2P function
++		if(!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		{
++			_cancel_timer_ex( &pwdinfo->find_phase_timer );
++			_cancel_timer_ex( &pwdinfo->restore_p2p_state_timer );
++			_cancel_timer_ex( &pwdinfo->pre_tx_scan_timer);
++			_cancel_timer_ex( &pwdinfo->reset_ch_sitesurvey);
++			_cancel_timer_ex( &pwdinfo->reset_ch_sitesurvey2);
++			reset_ch_sitesurvey_timer_process( padapter );
++			reset_ch_sitesurvey_timer_process2( padapter );
++			#ifdef CONFIG_CONCURRENT_MODE			
++			_cancel_timer_ex( &pwdinfo->ap_p2p_switch_timer);
++			#endif
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_NONE);
++			rtw_p2p_set_role(pwdinfo, P2P_ROLE_DISABLE);
++			_rtw_memset(&pwdinfo->rx_prov_disc_info, 0x00, sizeof(struct rx_provdisc_req_info));
++		}
++
++		//Restore to initial setting.
++		update_tx_basic_rate(padapter, padapter->registrypriv.wireless_mode);
++
++#ifdef CONFIG_INTEL_WIDI
++		rtw_reset_widi_info(padapter);
++#endif //CONFIG_INTEL_WIDI
++
++		//For WiDi purpose.
++#ifdef CONFIG_IOCTL_CFG80211
++		pwdinfo->driver_interface = DRIVER_CFG80211;
++#else
++		pwdinfo->driver_interface = DRIVER_WEXT;
++#endif //CONFIG_IOCTL_CFG80211
++
++	}
++
++exit:	
++	return ret;
++}
++
++#endif //CONFIG_P2P
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_pwrctrl.c b/drivers/net/wireless/rtl8192cu/core/rtw_pwrctrl.c
+new file mode 100755
+index 0000000..d1c11fa
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_pwrctrl.c
+@@ -0,0 +1,1540 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_PWRCTRL_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <osdep_intf.h>
++
++
++#ifdef CONFIG_IPS
++void _ips_enter(_adapter * padapter)
++{
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++
++	pwrpriv->bips_processing = _TRUE;
++
++	// syn ips_mode with request
++	pwrpriv->ips_mode = pwrpriv->ips_mode_req;
++
++	pwrpriv->ips_enter_cnts++;
++	DBG_871X("==>ips_enter cnts:%d\n",pwrpriv->ips_enter_cnts);
++
++	if(rf_off == pwrpriv->change_rfpwrstate)
++	{
++		if(pwrpriv->ips_mode == IPS_LEVEL_2)
++			pwrpriv->bkeepfwalive = _TRUE;
++
++		rtw_ips_pwr_down(padapter);
++		pwrpriv->rf_pwrstate = rf_off;
++	}
++	pwrpriv->bips_processing = _FALSE;
++
++}
++
++void ips_enter(_adapter * padapter)
++{
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++
++	_enter_pwrlock(&pwrpriv->lock);
++	_ips_enter(padapter);
++	_exit_pwrlock(&pwrpriv->lock);
++}
++
++int _ips_leave(_adapter * padapter)
++{
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++	int result = _SUCCESS;
++
++	if((pwrpriv->rf_pwrstate == rf_off) &&(!pwrpriv->bips_processing))
++	{
++		pwrpriv->bips_processing = _TRUE;
++		pwrpriv->change_rfpwrstate = rf_on;
++		pwrpriv->ips_leave_cnts++;
++		DBG_871X("==>ips_leave cnts:%d\n",pwrpriv->ips_leave_cnts);
++
++		if ((result = rtw_ips_pwr_up(padapter)) == _SUCCESS) {
++			pwrpriv->rf_pwrstate = rf_on;
++		}
++
++		DBG_871X("==> ips_leave.....LED(0x%08x)...\n",rtw_read32(padapter,0x4c));
++		pwrpriv->bips_processing = _FALSE;
++
++		pwrpriv->bkeepfwalive = _FALSE;
++	}
++
++	return result;
++}
++
++int ips_leave(_adapter * padapter)
++{
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++	int ret;
++
++	_enter_pwrlock(&pwrpriv->lock);
++	ret = _ips_leave(padapter);
++	_exit_pwrlock(&pwrpriv->lock);
++
++	return ret;
++}
++#endif /* CONFIG_IPS */
++
++#ifdef CONFIG_AUTOSUSPEND
++extern void autosuspend_enter(_adapter* padapter);	
++extern int autoresume_enter(_adapter* padapter);
++#endif
++
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++int rtw_hw_suspend(_adapter *padapter );
++int rtw_hw_resume(_adapter *padapter);
++#endif
++
++bool rtw_pwr_unassociated_idle(_adapter *adapter)
++{
++	_adapter *buddy = adapter->pbuddy_adapter;
++	struct mlme_priv *pmlmepriv = &(adapter->mlmepriv);
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(adapter->wdinfo);
++#ifdef CONFIG_IOCTL_CFG80211
++	struct cfg80211_wifidirect_info *pcfg80211_wdinfo = &adapter->cfg80211_wdinfo;
++#endif
++#endif
++
++	bool ret = _FALSE;
++
++	if (adapter->pwrctrlpriv.ips_deny_time >= rtw_get_current_time()) {
++		//DBG_871X("%s ips_deny_time\n", __func__);
++		goto exit;
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_ASOC_STATE|WIFI_SITE_MONITOR)
++		|| check_fwstate(pmlmepriv, WIFI_UNDER_LINKING|WIFI_UNDER_WPS)
++		|| check_fwstate(pmlmepriv, WIFI_AP_STATE)
++		|| check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE|WIFI_ADHOC_STATE)
++		#if defined(CONFIG_P2P) && defined(CONFIG_IOCTL_CFG80211) && defined(CONFIG_P2P_IPS)
++		|| pcfg80211_wdinfo->is_ro_ch
++		#elif defined(CONFIG_P2P)
++		|| !rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)
++		#endif
++	) {
++		goto exit;
++	}
++
++	/* consider buddy, if exist */
++	if (buddy) {
++		struct mlme_priv *b_pmlmepriv = &(buddy->mlmepriv);
++		#ifdef CONFIG_P2P
++		struct wifidirect_info *b_pwdinfo = &(buddy->wdinfo);
++		#ifdef CONFIG_IOCTL_CFG80211		
++		struct cfg80211_wifidirect_info *b_pcfg80211_wdinfo = &buddy->cfg80211_wdinfo;
++		#endif
++		#endif
++
++		if (check_fwstate(b_pmlmepriv, WIFI_ASOC_STATE|WIFI_SITE_MONITOR)
++			|| check_fwstate(b_pmlmepriv, WIFI_UNDER_LINKING|WIFI_UNDER_WPS)
++			|| check_fwstate(b_pmlmepriv, WIFI_AP_STATE)
++			|| check_fwstate(b_pmlmepriv, WIFI_ADHOC_MASTER_STATE|WIFI_ADHOC_STATE)
++			#if defined(CONFIG_P2P) && defined(CONFIG_IOCTL_CFG80211) && defined(CONFIG_P2P_IPS)
++			|| b_pcfg80211_wdinfo->is_ro_ch
++			#elif defined(CONFIG_P2P)
++			|| !rtw_p2p_chk_state(b_pwdinfo, P2P_STATE_NONE)
++			#endif
++		) {
++			goto exit;
++		}
++	}
++
++#ifdef CONFIG_INTEL_PROXIM
++	if(adapter->proximity.proxim_on==_TRUE){
++		return;
++	}
++#endif
++
++	ret = _TRUE;
++
++exit:
++	return ret;
++}
++
++#if defined (PLATFORM_LINUX)||defined (PLATFORM_FREEBSD)
++void rtw_ps_processor(_adapter*padapter)
++{
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++#endif //CONFIG_P2P
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++	rt_rf_power_state rfpwrstate;
++#endif //SUPPORT_HW_RFOFF_DETECTED
++
++	pwrpriv->ps_processing = _TRUE;
++
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++	if(pwrpriv->bips_processing == _TRUE)
++		goto exit;
++	
++	//DBG_871X("==> fw report state(0x%x)\n",rtw_read8(padapter,0x1ca));	
++	if(padapter->pwrctrlpriv.bHWPwrPindetect) 
++	{
++	#ifdef CONFIG_AUTOSUSPEND
++		if(padapter->registrypriv.usbss_enable)
++		{
++			if(pwrpriv->rf_pwrstate == rf_on)
++			{
++				if(padapter->net_closed == _TRUE)
++					pwrpriv->ps_flag = _TRUE;
++
++				rfpwrstate = RfOnOffDetect(padapter);
++				DBG_871X("@@@@- #1  %s==> rfstate:%s \n",__FUNCTION__,(rfpwrstate==rf_on)?"rf_on":"rf_off");
++				if(rfpwrstate!= pwrpriv->rf_pwrstate)
++				{
++					if(rfpwrstate == rf_off)
++					{
++						pwrpriv->change_rfpwrstate = rf_off;
++						
++						pwrpriv->bkeepfwalive = _TRUE;	
++						pwrpriv->brfoffbyhw = _TRUE;						
++						
++						autosuspend_enter(padapter);							
++					}
++				}
++			}			
++		}
++		else
++	#endif //CONFIG_AUTOSUSPEND
++		{
++			rfpwrstate = RfOnOffDetect(padapter);
++			DBG_871X("@@@@- #2  %s==> rfstate:%s \n",__FUNCTION__,(rfpwrstate==rf_on)?"rf_on":"rf_off");
++
++			if(rfpwrstate!= pwrpriv->rf_pwrstate)
++			{
++				if(rfpwrstate == rf_off)
++				{	
++					pwrpriv->change_rfpwrstate = rf_off;														
++					pwrpriv->brfoffbyhw = _TRUE;
++					padapter->bCardDisableWOHSM = _TRUE;
++					rtw_hw_suspend(padapter );	
++				}
++				else
++				{
++					pwrpriv->change_rfpwrstate = rf_on;
++					rtw_hw_resume(padapter );			
++				}
++				DBG_871X("current rf_pwrstate(%s)\n",(pwrpriv->rf_pwrstate == rf_off)?"rf_off":"rf_on");
++			}
++		}
++		pwrpriv->pwr_state_check_cnts ++;	
++	}
++#endif //SUPPORT_HW_RFOFF_DETECTED
++
++	if (pwrpriv->ips_mode_req == IPS_NONE
++		#ifdef CONFIG_CONCURRENT_MODE
++		|| padapter->pbuddy_adapter->pwrctrlpriv.ips_mode_req == IPS_NONE
++		#endif
++	)
++		goto exit;
++
++	if (rtw_pwr_unassociated_idle(padapter) == _FALSE)
++		goto exit;
++
++	if((pwrpriv->rf_pwrstate == rf_on) && ((pwrpriv->pwr_state_check_cnts%4)==0))
++	{
++		DBG_871X("==>%s .fw_state(%x)\n",__FUNCTION__,get_fwstate(pmlmepriv));
++		pwrpriv->change_rfpwrstate = rf_off;
++
++		#ifdef CONFIG_AUTOSUSPEND
++		if(padapter->registrypriv.usbss_enable)
++		{		
++			if(pwrpriv->bHWPwrPindetect) 
++				pwrpriv->bkeepfwalive = _TRUE;
++			
++			if(padapter->net_closed == _TRUE)
++				pwrpriv->ps_flag = _TRUE;
++
++			padapter->bCardDisableWOHSM = _TRUE;
++			autosuspend_enter(padapter);
++		}		
++		else if(pwrpriv->bHWPwrPindetect)
++		{
++		}
++		else
++		#endif //CONFIG_AUTOSUSPEND
++		{
++			#ifdef CONFIG_IPS	
++			ips_enter(padapter);			
++			#endif
++		}
++	}
++exit:
++	rtw_set_pwr_state_check_timer(&padapter->pwrctrlpriv);
++	pwrpriv->ps_processing = _FALSE;
++	return;
++}
++
++void pwr_state_check_handler(void *FunctionContext);
++void pwr_state_check_handler(void *FunctionContext)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++	rtw_ps_cmd(padapter);
++}
++#endif
++
++
++#ifdef CONFIG_LPS
++/*
++ *
++ * Parameters
++ *	padapter
++ *	pslv			power state level, only could be PS_STATE_S0 ~ PS_STATE_S4
++ *
++ */
++void rtw_set_rpwm(PADAPTER padapter, u8 pslv)
++{
++	u8	rpwm;
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++
++_func_enter_;
++
++	pslv = PS_STATE(pslv);
++
++	if (pwrpriv->rpwm == pslv) {
++		RT_TRACE(_module_rtl871x_pwrctrl_c_,_drv_err_,
++			("%s: Already set rpwm[0x%02x]!\n", __FUNCTION__, pslv));
++		return;
++	}
++
++	if ((padapter->bDriverStopped == _TRUE) ||
++		(padapter->bSurpriseRemoved == _TRUE)) {
++		RT_TRACE(_module_rtl871x_pwrctrl_c_, _drv_err_,
++				 ("%s: bDriverStopped(%d) bSurpriseRemoved(%d)\n",
++				  __FUNCTION__, padapter->bDriverStopped, padapter->bSurpriseRemoved));
++		return;
++	}
++
++	rpwm = pslv | pwrpriv->tog;
++#ifdef CONFIG_LPS_LCLK
++	if ((pwrpriv->cpwm < PS_STATE_S2) && (pslv >= PS_STATE_S2))
++		rpwm |= PS_ACK;
++#endif
++	RT_TRACE(_module_rtl871x_pwrctrl_c_, _drv_notice_,
++			 ("rtw_set_rpwm: rpwm=0x%02x cpwm=0x%02x\n", rpwm, pwrpriv->cpwm));
++
++	pwrpriv->rpwm = pslv;
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_SET_RPWM, (u8 *)(&rpwm));
++
++	pwrpriv->tog += 0x80;
++
++	if (!(rpwm & PS_ACK)) pwrpriv->cpwm = pslv;
++
++_func_exit_;
++}
++
++u8 PS_RDY_CHECK(_adapter * padapter);
++u8 PS_RDY_CHECK(_adapter * padapter)
++{
++	u32 curr_time, delta_time;
++	struct pwrctrl_priv	*pwrpriv = &padapter->pwrctrlpriv;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++
++	curr_time = rtw_get_current_time();	
++
++	delta_time = curr_time -pwrpriv->DelayLPSLastTimeStamp;
++
++	if(delta_time < LPS_DELAY_TIME)
++	{		
++		return _FALSE;
++	}
++
++	if ((check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) ||
++		(check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE) ||
++		(check_fwstate(pmlmepriv, WIFI_UNDER_WPS) == _TRUE) ||
++		(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) ||
++		(check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) ||
++		(check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) )
++		return _FALSE;
++
++	if(_TRUE == pwrpriv->bInSuspend )
++		return _FALSE;
++	
++	if( (padapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X) && (padapter->securitypriv.binstallGrpkey == _FALSE) )
++	{
++		DBG_871X("Group handshake still in progress !!!\n");
++		return _FALSE;
++	}
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (!rtw_cfg80211_pwr_mgmt(padapter))
++		return _FALSE;
++#endif	
++
++	return _TRUE;
++}
++
++void rtw_set_ps_mode(PADAPTER padapter, u8 ps_mode, u8 smart_ps)
++{
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++#endif //CONFIG_P2P
++#ifdef CONFIG_TDLS
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	_irqL irqL;
++	int i, j;
++	_list	*plist, *phead;
++	struct sta_info *ptdls_sta;
++#endif //CONFIG_TDLS
++
++_func_enter_;
++
++	RT_TRACE(_module_rtl871x_pwrctrl_c_, _drv_notice_,
++			 ("%s: PowerMode=%d Smart_PS=%d\n",
++			  __FUNCTION__, ps_mode, smart_ps));
++
++	if(ps_mode > PM_Card_Disable) {
++		RT_TRACE(_module_rtl871x_pwrctrl_c_,_drv_err_,("ps_mode:%d error\n", ps_mode));
++		return;
++	}
++
++	if((pwrpriv->pwr_mode == ps_mode) &&
++		(pwrpriv->smart_ps == smart_ps)){
++		return;
++	}
++
++	//if(pwrpriv->pwr_mode == PS_MODE_ACTIVE)
++	if(ps_mode == PS_MODE_ACTIVE)
++	{
++#ifdef CONFIG_P2P_PS
++		if(pwdinfo->opp_ps == 0)
++#endif // CONFIG_P2P_PS
++		{
++#ifdef CONFIG_LPS_LCLK
++			_enter_pwrlock(&pwrpriv->lock);
++#endif
++			DBG_871X("rtw_set_ps_mode(): Busy Traffic , Leave 802.11 power save..\n");
++
++#ifdef CONFIG_TDLS
++			_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++			for(i=0; i< NUM_STA; i++)
++			{
++				phead = &(pstapriv->sta_hash[i]);
++				plist = get_next(phead);
++
++				while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
++				{
++					ptdls_sta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++
++					if( ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE )
++						issue_nulldata_to_TDLS_peer_STA(padapter, ptdls_sta, 0);
++					plist = get_next(plist);
++				}
++			}
++
++			_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++#endif //CONFIG_TDLS
++
++			pwrpriv->smart_ps = smart_ps;
++			pwrpriv->pwr_mode = ps_mode;
++
++			rtw_set_rpwm(padapter, PS_STATE_S4);
++#ifdef CONFIG_LPS_LCLK
++{
++			u32 n = 0;
++			while (pwrpriv->cpwm != PS_STATE_S4) {
++				n++;
++				if (n == 10000) break;
++				if (padapter->bSurpriseRemoved == _TRUE) break;
++				rtw_msleep_os(1);
++			}
++			if (n == 10000)
++				printk(KERN_ERR "%s: wait CPWM to S4 too long! cpwm=0x%02x\n", __func__, pwrpriv->cpwm);
++}
++#endif
++			rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_PWRMODE, (u8 *)(&ps_mode));
++			pwrpriv->bFwCurrentInPSMode = _FALSE;
++#ifdef CONFIG_LPS_LCLK
++			_exit_pwrlock(&pwrpriv->lock);
++#endif
++		}
++	}
++	else
++	{
++		if(PS_RDY_CHECK(padapter))
++		{
++#ifdef CONFIG_LPS_LCLK
++			_enter_pwrlock(&pwrpriv->lock);
++#endif
++			DBG_871X("rtw_set_ps_mode(): Enter 802.11 power save mode...\n");
++
++#ifdef CONFIG_TDLS
++			_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++			for(i=0; i< NUM_STA; i++)
++			{
++				phead = &(pstapriv->sta_hash[i]);
++				plist = get_next(phead);
++
++				while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
++				{
++					ptdls_sta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++
++					if( ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE )
++						issue_nulldata_to_TDLS_peer_STA(padapter, ptdls_sta, 1);
++					plist = get_next(plist);
++				}
++			}
++
++			_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++#endif //CONFIG_TDLS
++
++			pwrpriv->smart_ps = smart_ps;
++			pwrpriv->pwr_mode = ps_mode;
++			pwrpriv->bFwCurrentInPSMode = _TRUE;
++			rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_PWRMODE, (u8 *)(&ps_mode));
++#ifdef CONFIG_P2P_PS
++			// Set CTWindow after LPS
++			if(pwdinfo->opp_ps == 1)
++				p2p_ps_wk_cmd(padapter, P2P_PS_ENABLE, 0);
++#endif // CONFIG_P2P_PS
++#ifdef CONFIG_LPS_LCLK
++			if (pwrpriv->alives == 0)
++				rtw_set_rpwm(padapter, PS_STATE_S0);
++#else
++			rtw_set_rpwm(padapter, PS_STATE_S2);
++#endif
++#ifdef CONFIG_LPS_LCLK
++			_exit_pwrlock(&pwrpriv->lock);
++#endif
++		}
++		//else
++		//{
++		//	pwrpriv->pwr_mode = PS_MODE_ACTIVE;
++		//}
++	}
++
++_func_exit_;
++}
++
++
++//
++//	Description:
++//		Enter the leisure power save mode.
++//
++void LPS_Enter(PADAPTER padapter)
++{
++	struct pwrctrl_priv	*pwrpriv = &padapter->pwrctrlpriv;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	_adapter *buddy = padapter->pbuddy_adapter;
++
++_func_enter_;
++
++//	DBG_871X("+LeisurePSEnter\n");
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->iface_type != IFACE_PORT0)
++		return; /* Skip power saving for concurrent mode port 1*/
++
++	/* consider buddy, if exist */
++	if (buddy) {
++		struct mlme_priv *b_pmlmepriv = &(buddy->mlmepriv);
++		#ifdef CONFIG_P2P
++		struct wifidirect_info *b_pwdinfo = &(buddy->wdinfo);
++		#ifdef CONFIG_IOCTL_CFG80211		
++		struct cfg80211_wifidirect_info *b_pcfg80211_wdinfo = &buddy->cfg80211_wdinfo;
++		#endif
++		#endif
++		
++		if (check_fwstate(b_pmlmepriv, WIFI_ASOC_STATE|WIFI_SITE_MONITOR)
++			|| check_fwstate(b_pmlmepriv, WIFI_UNDER_LINKING|WIFI_UNDER_WPS)
++			|| check_fwstate(b_pmlmepriv, WIFI_AP_STATE)
++			|| check_fwstate(b_pmlmepriv, WIFI_ADHOC_MASTER_STATE|WIFI_ADHOC_STATE)
++			#if defined(CONFIG_P2P) && defined(CONFIG_IOCTL_CFG80211) && defined(CONFIG_P2P_IPS)
++			|| b_pcfg80211_wdinfo->is_ro_ch
++			#elif defined(CONFIG_P2P)
++			|| !rtw_p2p_chk_state(b_pwdinfo, P2P_STATE_NONE)
++			#endif
++			|| rtw_is_scan_deny(buddy)
++		) {
++			return;
++		}
++	}
++#endif
++
++#ifdef CONFIG_INTEL_PROXIM
++	if(padapter->proximity.proxim_on==_TRUE){
++		return;
++	}
++#endif
++	if (	(check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) ||
++		(check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE) ||
++		(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) ||
++		(check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) ||
++		(check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) )
++		return;
++
++	if(_TRUE == pwrpriv->bInSuspend )
++		return ;
++	
++	if (pwrpriv->bLeisurePs)
++	{
++		// Idle for a while if we connect to AP a while ago.
++		if(pwrpriv->LpsIdleCount >= 2) //  4 Sec 
++		{
++			if(pwrpriv->pwr_mode == PS_MODE_ACTIVE)
++			{
++				rtw_set_ps_mode(padapter, pwrpriv->power_mgnt, 2);
++			}	
++		}
++		else
++			pwrpriv->LpsIdleCount++;
++	}
++
++//	DBG_871X("-LeisurePSEnter\n");
++
++_func_exit_;
++}
++
++
++//
++//	Description:
++//		Leave the leisure power save mode.
++//
++void LPS_Leave(PADAPTER padapter)
++{
++#define LPS_LEAVE_TIMEOUT_MS 100
++
++	struct pwrctrl_priv	*pwrpriv = &padapter->pwrctrlpriv;
++	u32 start_time;
++	BOOLEAN bAwake = _FALSE;
++	
++_func_enter_;
++
++//	DBG_871X("+LeisurePSLeave\n");
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->iface_type != IFACE_PORT0)
++		return; /* Skip power saving for concurrent mode port 1*/
++#endif
++
++	if (pwrpriv->bLeisurePs)
++	{	
++		if(pwrpriv->pwr_mode != PS_MODE_ACTIVE)
++		{
++			rtw_set_ps_mode(padapter, PS_MODE_ACTIVE, 0);
++
++			if(pwrpriv->pwr_mode == PS_MODE_ACTIVE)
++			{
++				start_time = rtw_get_current_time();		
++				while(1)			
++				{
++					rtw_hal_get_hwreg(padapter, HW_VAR_FWLPS_RF_ON, (u8 *)(&bAwake));
++						
++					if(bAwake || padapter->bSurpriseRemoved)
++						break;
++					
++					if(rtw_get_passing_time_ms(start_time)>LPS_LEAVE_TIMEOUT_MS)
++					{
++						DBG_871X("Wait for FW LPS leave more than %u ms!!!\n", LPS_LEAVE_TIMEOUT_MS);
++						break;
++					}
++					rtw_usleep_os(100);
++				}
++			}
++		}
++	}
++
++
++//	DBG_871X("-LeisurePSLeave\n");
++
++_func_exit_;
++}
++
++#endif
++
++//
++// Description: Leave all power save mode: LPS, FwLPS, IPS if needed.
++// Move code to function by tynli. 2010.03.26. 
++//
++void LeaveAllPowerSaveMode(IN PADAPTER Adapter)
++{
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++
++_func_enter_;
++
++	//DBG_871X("%s.....\n",__FUNCTION__);
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++	{ //connect
++#ifdef CONFIG_P2P_PS
++		p2p_ps_wk_cmd(Adapter, P2P_PS_DISABLE, 0);
++#endif // CONFIG_P2P_PS
++#ifdef CONFIG_LPS
++		//DBG_871X("==> leave LPS.......\n");
++		LPS_Leave(Adapter);
++#endif
++	}
++	else
++	{
++		if(Adapter->pwrctrlpriv.rf_pwrstate== rf_off)
++		{
++			#ifdef CONFIG_AUTOSUSPEND
++			if(Adapter->registrypriv.usbss_enable)
++			{
++				#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35))
++				usb_disable_autosuspend(adapter_to_dvobj(Adapter)->pusbdev);
++				#elif (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,22) && LINUX_VERSION_CODE<=KERNEL_VERSION(2,6,34))
++				adapter_to_dvobj(Adapter)->pusbdev->autosuspend_disabled = Adapter->bDisableAutosuspend;//autosuspend disabled by the user
++				#endif
++			}
++			else
++			#endif
++			{
++			/*
++				#ifdef CONFIG_IPS
++				if(_FALSE == ips_leave(Adapter))
++				{
++					DBG_871X("======> ips_leave fail.............\n");			
++				}
++				#endif
++			*/
++			}				
++		}	
++	}
++
++_func_exit_;
++}
++
++#ifdef CONFIG_LPS_LCLK
++/*
++ * Caller:ISR handler...
++ *
++ * This will be called when CPWM interrupt is up.
++ *
++ * using to update cpwn of drv; and drv willl make a decision to up or down pwr level
++ */
++void cpwm_int_hdl(
++	PADAPTER padapter,
++	struct reportpwrstate_parm *preportpwrstate)
++{
++	struct pwrctrl_priv *pwrpriv;
++
++
++_func_enter_;
++
++	pwrpriv = &padapter->pwrctrlpriv;
++#if 0
++	if (pwrpriv->cpwm_tog == (preportpwrstate->state & PS_TOGGLE)) {
++		RT_TRACE(_module_rtl871x_pwrctrl_c_, _drv_err_,
++				 ("cpwm_int_hdl: tog(old)=0x%02x cpwm(new)=0x%02x toggle bit didn't change!?\n",
++				  pwrpriv->cpwm_tog, preportpwrstate->state));
++		goto exit;
++	}
++#endif
++//	_enter_pwrlock(&pwrpriv->lock);
++
++	pwrpriv->cpwm = PS_STATE(preportpwrstate->state);
++	pwrpriv->cpwm_tog = preportpwrstate->state & PS_TOGGLE;
++
++	if (pwrpriv->cpwm >= PS_STATE_S2) {
++		if (pwrpriv->alives & CMD_ALIVE)
++			_rtw_up_sema(&padapter->cmdpriv.cmd_queue_sema);
++
++		if (pwrpriv->alives & XMIT_ALIVE)
++			_rtw_up_sema(&padapter->xmitpriv.xmit_sema);
++	}
++
++//	_exit_pwrlock(&pwrpriv->lock);
++
++exit:
++	RT_TRACE(_module_rtl871x_pwrctrl_c_, _drv_notice_,
++			 ("cpwm_int_hdl: cpwm=0x%02x\n", pwrpriv->cpwm));
++
++_func_exit_;
++}
++
++__inline static void register_task_alive(struct pwrctrl_priv *pwrctrl, u32 tag)
++{
++	pwrctrl->alives |= tag;
++}
++
++__inline static void unregister_task_alive(struct pwrctrl_priv *pwrctrl, u32 tag)
++{
++	pwrctrl->alives &= ~tag;
++}
++
++/*
++ * Caller: rtw_xmit_thread
++ * 
++ * Check if the fw_pwrstate is okay for xmit.
++ * If not (cpwm is less than S3), then the sub-routine
++ * will raise the cpwm to be greater than or equal to S3. 
++ *
++ * Calling Context: Passive
++ * 
++ * Return Value:
++ *	 _SUCCESS	rtw_xmit_thread can write fifo/txcmd afterwards.
++ *	 _FAIL		rtw_xmit_thread can not do anything.
++ */
++s32 rtw_register_tx_alive(PADAPTER padapter)
++{
++	s32 res;
++	struct pwrctrl_priv *pwrctrl;
++
++_func_enter_;
++
++	res = _SUCCESS;
++	pwrctrl = &padapter->pwrctrlpriv;
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	register_task_alive(pwrctrl, XMIT_ALIVE);
++
++	if (pwrctrl->bFwCurrentInPSMode == _TRUE)
++	{
++		RT_TRACE(_module_rtl871x_pwrctrl_c_, _drv_err_,
++				 ("rtw_register_tx_alive: cpwm=0x%02x alives=0x%08x\n",
++				  pwrctrl->cpwm, pwrctrl->alives));
++
++		if (pwrctrl->cpwm < PS_STATE_S2) {
++			if (pwrctrl->rpwm < PS_STATE_S2)
++				rtw_set_rpwm(padapter, PS_STATE_S2);
++			res = _FAIL;
++		}
++	}
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++_func_exit_;
++
++	return res;	
++}
++
++/*
++ * Caller: rtw_cmd_thread
++ *
++ * Check if the fw_pwrstate is okay for issuing cmd.
++ * If not (cpwm should be is less than S2), then the sub-routine
++ * will raise the cpwm to be greater than or equal to S2.
++ *
++ * Calling Context: Passive
++ *
++ * Return Value:
++ *	_SUCCESS	rtw_cmd_thread can issue cmds to firmware afterwards.
++ *	_FAIL		rtw_cmd_thread can not do anything.
++ */
++s32 rtw_register_cmd_alive(PADAPTER padapter)
++{
++	s32 res;
++	struct pwrctrl_priv *pwrctrl;
++
++_func_enter_;
++
++	res = _SUCCESS;
++	pwrctrl = &padapter->pwrctrlpriv;
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	register_task_alive(pwrctrl, CMD_ALIVE);
++
++	if (pwrctrl->bFwCurrentInPSMode == _TRUE)
++	{
++		RT_TRACE(_module_rtl871x_pwrctrl_c_, _drv_notice_,
++				 ("rtw_register_cmd_alive: cpwm=0x%02x alives=0x%08x\n",
++				  pwrctrl->cpwm, pwrctrl->alives));
++
++		if (pwrctrl->cpwm < PS_STATE_S2) {
++			if (pwrctrl->rpwm < PS_STATE_S2)
++				rtw_set_rpwm(padapter, PS_STATE_S2);
++			res = _FAIL;
++		}
++	}
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++_func_exit_;
++
++	return res;
++}
++
++/*
++ * Caller: rx_isr
++ *
++ * Calling Context: Dispatch/ISR
++ *
++ * Return Value:
++ *	_SUCCESS
++ *	_FAIL
++ */
++s32 rtw_register_rx_alive(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrctrl;
++
++_func_enter_;
++
++	pwrctrl = &padapter->pwrctrlpriv;
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	register_task_alive(pwrctrl, RECV_ALIVE);
++	RT_TRACE(_module_rtl871x_pwrctrl_c_, _drv_notice_,
++			 ("rtw_register_rx_alive: cpwm=0x%02x alives=0x%08x\n",
++			  pwrctrl->cpwm, pwrctrl->alives));
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++_func_exit_;
++
++	return _SUCCESS;
++}
++
++/*
++ * Caller: evt_isr or evt_thread
++ *
++ * Calling Context: Dispatch/ISR or Passive
++ *
++ * Return Value:
++ *	_SUCCESS
++ *	_FAIL
++ */
++s32 rtw_register_evt_alive(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrctrl;
++
++_func_enter_;
++
++	pwrctrl = &padapter->pwrctrlpriv;
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	register_task_alive(pwrctrl, EVT_ALIVE);
++	RT_TRACE(_module_rtl871x_pwrctrl_c_, _drv_notice_,
++			 ("rtw_register_evt_alive: cpwm=0x%02x alives=0x%08x\n",
++			  pwrctrl->cpwm, pwrctrl->alives));
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++_func_exit_;
++
++	return _SUCCESS;
++}
++
++/*
++ * Caller: ISR
++ *
++ * If ISR's txdone,
++ * No more pkts for TX,
++ * Then driver shall call this fun. to power down firmware again.
++ */
++void rtw_unregister_tx_alive(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrctrl;
++
++_func_enter_;
++
++	pwrctrl = &padapter->pwrctrlpriv;
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	unregister_task_alive(pwrctrl, XMIT_ALIVE);
++
++	if ((pwrctrl->pwr_mode != PS_MODE_ACTIVE) &&
++		(pwrctrl->bFwCurrentInPSMode == _TRUE))
++	{
++		if ((pwrctrl->alives == 0) &&
++			(pwrctrl->cpwm > PS_STATE_S0))
++		{
++			rtw_set_rpwm(padapter, PS_STATE_S0);
++		}
++
++		RT_TRACE(_module_rtl871x_pwrctrl_c_, _drv_notice_,
++				 ("rtw_unregister_tx_alive: cpwm=0x%02x alives=0x%08x\n",
++				  pwrctrl->cpwm, pwrctrl->alives));
++	}
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++_func_exit_;
++}
++
++/*
++ * Caller: ISR
++ *
++ * If all commands have been done,
++ * and no more command to do,
++ * then driver shall call this fun. to power down firmware again.
++ */
++void rtw_unregister_cmd_alive(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrctrl;
++
++_func_enter_;
++
++	pwrctrl = &padapter->pwrctrlpriv;
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	unregister_task_alive(pwrctrl, CMD_ALIVE);
++
++	if ((pwrctrl->pwr_mode != PS_MODE_ACTIVE) &&
++		(pwrctrl->bFwCurrentInPSMode == _TRUE))
++	{
++		if ((pwrctrl->alives == 0) &&
++			(pwrctrl->cpwm > PS_STATE_S0))
++		{
++			rtw_set_rpwm(padapter, PS_STATE_S0);
++		}
++
++		RT_TRACE(_module_rtl871x_pwrctrl_c_, _drv_notice_,
++				 ("rtw_unregister_cmd_alive: cpwm=0x%02x alives=0x%08x\n",
++				  pwrctrl->cpwm, pwrctrl->alives));
++	}
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++_func_exit_;
++}
++
++/*
++ * Caller: ISR
++ */
++void rtw_unregister_rx_alive(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrctrl;
++
++_func_enter_;
++
++	pwrctrl = &padapter->pwrctrlpriv;
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	unregister_task_alive(pwrctrl, RECV_ALIVE);
++
++	RT_TRACE(_module_rtl871x_pwrctrl_c_, _drv_notice_,
++			 ("rtw_unregister_rx_alive: cpwm=0x%02x alives=0x%08x\n",
++			  pwrctrl->cpwm, pwrctrl->alives));
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++_func_exit_;
++}
++
++void rtw_unregister_evt_alive(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrctrl;
++
++_func_enter_;
++
++	pwrctrl = &padapter->pwrctrlpriv;
++
++	unregister_task_alive(pwrctrl, EVT_ALIVE);
++
++	RT_TRACE(_module_rtl871x_pwrctrl_c_, _drv_notice_,
++			 ("rtw_unregister_evt_alive: cpwm=0x%02x alives=0x%08x\n",
++			  pwrctrl->cpwm, pwrctrl->alives));
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++_func_exit_;
++}
++#endif	/* CONFIG_LPS_LCLK */
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++static void resume_workitem_callback(struct work_struct *work);
++#endif //CONFIG_RESUME_IN_WORKQUEUE
++
++void rtw_init_pwrctrl_priv(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrctrlpriv = &padapter->pwrctrlpriv;
++
++_func_enter_;
++
++#ifdef PLATFORM_WINDOWS
++	pwrctrlpriv->pnp_current_pwr_state=NdisDeviceStateD0;
++#endif
++
++	_init_pwrlock(&pwrctrlpriv->lock);
++	pwrctrlpriv->rf_pwrstate = rf_on;
++	pwrctrlpriv->ips_enter_cnts=0;
++	pwrctrlpriv->ips_leave_cnts=0;
++
++	pwrctrlpriv->ips_mode = padapter->registrypriv.ips_mode;
++	pwrctrlpriv->ips_mode_req = padapter->registrypriv.ips_mode;
++
++	pwrctrlpriv->pwr_state_check_interval = RTW_PWR_STATE_CHK_INTERVAL;
++	pwrctrlpriv->pwr_state_check_cnts = 0;
++	pwrctrlpriv->bInternalAutoSuspend = _FALSE;
++	pwrctrlpriv->bInSuspend = _FALSE;
++	pwrctrlpriv->bkeepfwalive = _FALSE;
++
++#ifdef CONFIG_AUTOSUSPEND
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++	pwrctrlpriv->pwr_state_check_interval = (pwrctrlpriv->bHWPwrPindetect) ?1000:2000;		
++#endif
++#endif
++
++	pwrctrlpriv->LpsIdleCount = 0;
++	//pwrctrlpriv->FWCtrlPSMode =padapter->registrypriv.power_mgnt;// PS_MODE_MIN;
++	pwrctrlpriv->power_mgnt =padapter->registrypriv.power_mgnt;// PS_MODE_MIN;
++	pwrctrlpriv->bLeisurePs = (PS_MODE_ACTIVE != pwrctrlpriv->power_mgnt)?_TRUE:_FALSE;
++
++	pwrctrlpriv->bFwCurrentInPSMode = _FALSE;
++
++	pwrctrlpriv->cpwm = PS_STATE_S4;
++
++	pwrctrlpriv->pwr_mode = PS_MODE_ACTIVE;
++
++
++	pwrctrlpriv->smart_ps = 0;
++
++	pwrctrlpriv->tog = 0x80;
++
++#ifdef PLATFORM_LINUX
++	_init_timer(&(pwrctrlpriv->pwr_state_check_timer), padapter->pnetdev, pwr_state_check_handler, (u8 *)padapter);
++#endif
++
++	#ifdef CONFIG_RESUME_IN_WORKQUEUE
++	_init_workitem(&pwrctrlpriv->resume_work, resume_workitem_callback, NULL);
++	pwrctrlpriv->rtw_workqueue = create_singlethread_workqueue("rtw_workqueue");
++	#endif //CONFIG_RESUME_IN_WORKQUEUE
++
++	#if defined(CONFIG_HAS_EARLYSUSPEND) || defined(CONFIG_ANDROID_POWER)
++	pwrctrlpriv->early_suspend.suspend = NULL;
++	rtw_register_early_suspend(pwrctrlpriv);
++	#endif //CONFIG_HAS_EARLYSUSPEND || CONFIG_ANDROID_POWER
++
++
++_func_exit_;
++
++}
++
++
++void rtw_free_pwrctrl_priv(PADAPTER adapter)
++{
++	struct pwrctrl_priv *pwrctrlpriv = &adapter->pwrctrlpriv;
++
++_func_enter_;
++
++	//_rtw_memset((unsigned char *)pwrctrlpriv, 0, sizeof(struct pwrctrl_priv));
++
++
++	#ifdef CONFIG_RESUME_IN_WORKQUEUE
++	if (pwrctrlpriv->rtw_workqueue) { 
++		flush_workqueue(pwrctrlpriv->rtw_workqueue);
++		destroy_workqueue(pwrctrlpriv->rtw_workqueue);
++	}
++	#endif
++
++
++	#if defined(CONFIG_HAS_EARLYSUSPEND) || defined(CONFIG_ANDROID_POWER)
++	rtw_unregister_early_suspend(pwrctrlpriv);
++	#endif //CONFIG_HAS_EARLYSUSPEND || CONFIG_ANDROID_POWER
++
++	_free_pwrlock(&pwrctrlpriv->lock);
++
++_func_exit_;
++}
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI)
++extern int rtw_resume_process(_adapter *padapter);
++#endif
++static void resume_workitem_callback(struct work_struct *work)
++{
++	struct pwrctrl_priv *pwrpriv = container_of(work, struct pwrctrl_priv, resume_work);
++	_adapter *adapter = container_of(pwrpriv, _adapter, pwrctrlpriv);
++
++	DBG_871X("%s\n",__FUNCTION__);
++
++	#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI)
++	rtw_resume_process(adapter);
++	#endif
++	
++}
++
++void rtw_resume_in_workqueue(struct pwrctrl_priv *pwrpriv)
++{
++	// accquire system's suspend lock preventing from falliing asleep while resume in workqueue
++	rtw_lock_suspend();
++	
++	#if 1
++	queue_work(pwrpriv->rtw_workqueue, &pwrpriv->resume_work);	
++	#else
++	_set_workitem(&pwrpriv->resume_work);
++	#endif
++}
++#endif //CONFIG_RESUME_IN_WORKQUEUE
++
++#if defined(CONFIG_HAS_EARLYSUSPEND) || defined(CONFIG_ANDROID_POWER)
++inline bool rtw_is_earlysuspend_registered(struct pwrctrl_priv *pwrpriv)
++{
++	return (pwrpriv->early_suspend.suspend) ? _TRUE : _FALSE;
++}
++
++inline bool rtw_is_do_late_resume(struct pwrctrl_priv *pwrpriv)
++{
++	return (pwrpriv->do_late_resume) ? _TRUE : _FALSE;
++}
++
++inline void rtw_set_do_late_resume(struct pwrctrl_priv *pwrpriv, bool enable)
++{
++	pwrpriv->do_late_resume = enable;
++}
++#endif
++
++#ifdef CONFIG_HAS_EARLYSUSPEND
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI)
++extern int rtw_resume_process(_adapter *padapter);
++#endif
++static void rtw_early_suspend(struct early_suspend *h)
++{
++	struct pwrctrl_priv *pwrpriv = container_of(h, struct pwrctrl_priv, early_suspend);
++	DBG_871X("%s\n",__FUNCTION__);
++
++	rtw_set_do_late_resume(pwrpriv, _FALSE);
++}
++
++static void rtw_late_resume(struct early_suspend *h)
++{
++	struct pwrctrl_priv *pwrpriv = container_of(h, struct pwrctrl_priv, early_suspend);
++	_adapter *adapter = container_of(pwrpriv, _adapter, pwrctrlpriv);
++
++	DBG_871X("%s\n",__FUNCTION__);
++	if(pwrpriv->do_late_resume) {
++		#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI)
++		rtw_set_do_late_resume(pwrpriv, _FALSE);
++		rtw_resume_process(adapter);
++		#endif
++	}
++}
++
++void rtw_register_early_suspend(struct pwrctrl_priv *pwrpriv)
++{
++	_adapter *adapter = container_of(pwrpriv, _adapter, pwrctrlpriv);
++
++#if defined(CONFIG_CONCURRENT_MODE)
++	if (adapter->adapter_type != PRIMARY_ADAPTER)
++		return;
++#endif	
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	//jeff: set the early suspend level before blank screen, so we wll do late resume after scree is lit
++	pwrpriv->early_suspend.level = EARLY_SUSPEND_LEVEL_BLANK_SCREEN - 20;
++	pwrpriv->early_suspend.suspend = rtw_early_suspend;
++	pwrpriv->early_suspend.resume = rtw_late_resume;
++	register_early_suspend(&pwrpriv->early_suspend);	
++
++	
++}
++
++void rtw_unregister_early_suspend(struct pwrctrl_priv *pwrpriv)
++{
++	_adapter *adapter = container_of(pwrpriv, _adapter, pwrctrlpriv);
++
++#if defined(CONFIG_CONCURRENT_MODE)
++	if (adapter->adapter_type != PRIMARY_ADAPTER)
++		return;
++#endif
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	rtw_set_do_late_resume(pwrpriv, _FALSE);
++
++	if (pwrpriv->early_suspend.suspend) 
++		unregister_early_suspend(&pwrpriv->early_suspend);
++
++	pwrpriv->early_suspend.suspend = NULL;
++	pwrpriv->early_suspend.resume = NULL;
++}
++#endif //CONFIG_HAS_EARLYSUSPEND
++
++#ifdef CONFIG_ANDROID_POWER
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI)
++extern int rtw_resume_process(PADAPTER padapter);
++#endif
++static void rtw_early_suspend(android_early_suspend_t *h)
++{
++	struct pwrctrl_priv *pwrpriv = container_of(h, struct pwrctrl_priv, early_suspend);
++	DBG_871X("%s\n",__FUNCTION__);
++
++	rtw_set_do_late_resume(pwrpriv, _FALSE);
++}
++
++static void rtw_late_resume(android_early_suspend_t *h)
++{
++	struct pwrctrl_priv *pwrpriv = container_of(h, struct pwrctrl_priv, early_suspend);
++	_adapter *adapter = container_of(pwrpriv, _adapter, pwrctrlpriv);
++
++	DBG_871X("%s\n",__FUNCTION__);
++	if(pwrpriv->do_late_resume) {
++		#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI)
++		rtw_set_do_late_resume(pwrpriv, _FALSE);
++		rtw_resume_process(adapter);
++		#endif
++	}
++}
++
++void rtw_register_early_suspend(struct pwrctrl_priv *pwrpriv)
++{
++	_adapter *adapter = container_of(pwrpriv, _adapter, pwrctrlpriv);
++
++#if defined(CONFIG_CONCURRENT_MODE)
++	if (adapter->adapter_type != PRIMARY_ADAPTER)
++		return;
++#endif
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	//jeff: set the early suspend level before blank screen, so we wll do late resume after scree is lit
++	pwrpriv->early_suspend.level = ANDROID_EARLY_SUSPEND_LEVEL_BLANK_SCREEN - 20;
++	pwrpriv->early_suspend.suspend = rtw_early_suspend;
++	pwrpriv->early_suspend.resume = rtw_late_resume;
++	android_register_early_suspend(&pwrpriv->early_suspend);	
++}
++
++void rtw_unregister_early_suspend(struct pwrctrl_priv *pwrpriv)
++{
++	_adapter *adapter = container_of(pwrpriv, _adapter, pwrctrlpriv);
++
++#if defined(CONFIG_CONCURRENT_MODE)
++	if (adapter->adapter_type != PRIMARY_ADAPTER)
++		return;
++#endif
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	rtw_set_do_late_resume(pwrpriv, _FALSE);
++
++	if (pwrpriv->early_suspend.suspend) 
++		android_unregister_early_suspend(&pwrpriv->early_suspend);
++
++	pwrpriv->early_suspend.suspend = NULL;
++	pwrpriv->early_suspend.resume = NULL;
++}
++#endif //CONFIG_ANDROID_POWER
++
++u8 rtw_interface_ps_func(_adapter *padapter,HAL_INTF_PS_FUNC efunc_id,u8* val)
++{
++	u8 bResult = _TRUE;
++
++	rtw_hal_intf_ps_func(padapter,efunc_id,val);
++
++	return bResult;
++}
++
++
++inline void rtw_set_ips_deny(_adapter *padapter, u32 ms)
++{
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++	pwrpriv->ips_deny_time = rtw_get_current_time() + rtw_ms_to_systime(ms);
++}
++
++/*
++* rtw_pwr_wakeup - Wake the NIC up from: 1)IPS. 2)USB autosuspend
++* @adapter: pointer to _adapter structure
++* @ips_deffer_ms: the ms wiil prevent from falling into IPS after wakeup
++* Return _SUCCESS or _FAIL
++*/
++int _rtw_pwr_wakeup(_adapter *padapter, u32 ips_deffer_ms, const char *caller)
++{
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;	
++	int ret = _SUCCESS;
++	u32 start = rtw_get_current_time();
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->pbuddy_adapter)
++		LeaveAllPowerSaveMode(padapter->pbuddy_adapter);
++
++	if ((padapter->isprimary == _FALSE) && padapter->pbuddy_adapter){
++		padapter = padapter->pbuddy_adapter;
++		pwrpriv = &padapter->pwrctrlpriv;
++		pmlmepriv = &padapter->mlmepriv;
++	}
++#endif
++
++	if (pwrpriv->ips_deny_time < rtw_get_current_time() + rtw_ms_to_systime(ips_deffer_ms))
++		pwrpriv->ips_deny_time = rtw_get_current_time() + rtw_ms_to_systime(ips_deffer_ms);
++
++	if (pwrpriv->ps_processing) {
++		DBG_871X("%s wait ps_processing...\n", __func__);
++		while (pwrpriv->ps_processing && rtw_get_passing_time_ms(start) <= 3000)
++			rtw_msleep_os(10);
++		if (pwrpriv->ps_processing)
++			DBG_871X("%s wait ps_processing timeout\n", __func__);
++		else
++			DBG_871X("%s wait ps_processing done\n", __func__);
++	}
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	if (rtw_hal_sreset_inprogress(padapter)) {
++		DBG_871X("%s wait sreset_inprogress...\n", __func__);
++		while (rtw_hal_sreset_inprogress(padapter) && rtw_get_passing_time_ms(start) <= 4000)
++			rtw_msleep_os(10);
++		if (rtw_hal_sreset_inprogress(padapter))
++			DBG_871X("%s wait sreset_inprogress timeout\n", __func__);
++		else
++			DBG_871X("%s wait sreset_inprogress done\n", __func__);
++	}
++#endif
++
++	if (pwrpriv->bInternalAutoSuspend == _FALSE && pwrpriv->bInSuspend) {
++		DBG_871X("%s wait bInSuspend...\n", __func__);
++		while (pwrpriv->bInSuspend 
++			&& ((rtw_get_passing_time_ms(start) <= 3000 && !rtw_is_do_late_resume(pwrpriv))
++				|| (rtw_get_passing_time_ms(start) <= 500 && rtw_is_do_late_resume(pwrpriv)))
++		) {
++			rtw_msleep_os(10);
++		}
++		if (pwrpriv->bInSuspend)
++			DBG_871X("%s wait bInSuspend timeout\n", __func__);
++		else
++			DBG_871X("%s wait bInSuspend done\n", __func__);
++	}
++
++	//System suspend is not allowed to wakeup
++	if((pwrpriv->bInternalAutoSuspend == _FALSE) && (_TRUE == pwrpriv->bInSuspend )){
++		ret = _FAIL;
++		goto exit;
++	}
++
++	//block???
++	if((pwrpriv->bInternalAutoSuspend == _TRUE)  && (padapter->net_closed == _TRUE)) {
++		ret = _FAIL;
++		goto exit;
++	}
++
++	//I think this should be check in IPS, LPS, autosuspend functions...
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++	{
++		ret = _SUCCESS;
++		goto exit;
++	}
++
++	if(rf_off == pwrpriv->rf_pwrstate )
++	{		
++#ifdef CONFIG_USB_HCI
++#ifdef CONFIG_AUTOSUSPEND
++		 if(pwrpriv->brfoffbyhw==_TRUE)
++		{
++			DBG_8192C("hw still in rf_off state ...........\n");
++			ret = _FAIL;
++			goto exit;
++		}
++		else if(padapter->registrypriv.usbss_enable)
++		{
++			DBG_8192C("%s call autoresume_enter....\n",__FUNCTION__);
++			if(_FAIL ==  autoresume_enter(padapter))
++			{
++				DBG_8192C("======> autoresume fail.............\n");
++				ret = _FAIL;
++				goto exit;
++			}	
++		}
++		else
++#endif
++#endif
++		{
++#ifdef CONFIG_IPS
++			DBG_8192C("%s call ips_leave....\n",__FUNCTION__);
++			if(_FAIL ==  ips_leave(padapter))
++			{
++				DBG_8192C("======> ips_leave fail.............\n");
++				ret = _FAIL;
++				goto exit;
++			}
++#endif
++		}
++	}
++
++	//TODO: the following checking need to be merged...
++	if(padapter->bDriverStopped
++		|| !padapter->bup
++		|| !padapter->hw_init_completed
++	){
++		DBG_8192C("%s: bDriverStopped=%d, bup=%d, hw_init_completed=%u\n"
++			, caller
++		   	, padapter->bDriverStopped
++		   	, padapter->bup
++		   	, padapter->hw_init_completed);
++		ret= _FALSE;
++		goto exit;
++	}
++
++exit:
++	if (pwrpriv->ips_deny_time < rtw_get_current_time() + rtw_ms_to_systime(ips_deffer_ms))
++		pwrpriv->ips_deny_time = rtw_get_current_time() + rtw_ms_to_systime(ips_deffer_ms);
++	return ret;
++
++}
++
++int rtw_pm_set_lps(_adapter *padapter, u8 mode)
++{
++	int	ret = 0;	
++	struct pwrctrl_priv *pwrctrlpriv = &padapter->pwrctrlpriv;
++	
++	if ( mode < PS_MODE_NUM )
++	{
++		if(pwrctrlpriv->power_mgnt !=mode)
++		{
++			if(PS_MODE_ACTIVE == mode)
++			{
++				LeaveAllPowerSaveMode(padapter);
++			}
++			else
++			{
++				pwrctrlpriv->LpsIdleCount = 2;
++			}
++			pwrctrlpriv->power_mgnt = mode;
++			pwrctrlpriv->bLeisurePs = (PS_MODE_ACTIVE != pwrctrlpriv->power_mgnt)?_TRUE:_FALSE;
++		}
++	}
++	else
++	{
++		ret = -EINVAL;
++	}
++
++	return ret;
++}
++
++int rtw_pm_set_ips(_adapter *padapter, u8 mode)
++{
++	struct pwrctrl_priv *pwrctrlpriv = &padapter->pwrctrlpriv;
++
++	if( mode == IPS_NORMAL || mode == IPS_LEVEL_2 ) {
++		rtw_ips_mode_req(pwrctrlpriv, mode);
++		DBG_871X("%s %s\n", __FUNCTION__, mode == IPS_NORMAL?"IPS_NORMAL":"IPS_LEVEL_2");
++		return 0;
++	} 
++	else if(mode ==IPS_NONE){
++		rtw_ips_mode_req(pwrctrlpriv, mode);
++		DBG_871X("%s %s\n", __FUNCTION__, "IPS_NONE");
++		if((padapter->bSurpriseRemoved ==0)&&(_FAIL == rtw_pwr_wakeup(padapter)) )
++			return -EFAULT;
++	}
++	else {
++		return -EINVAL;
++	}
++	return 0;
++}
++
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_recv.c b/drivers/net/wireless/rtl8192cu/core/rtw_recv.c
+new file mode 100755
+index 0000000..2cc8faa
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_recv.c
+@@ -0,0 +1,4289 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_RECV_C_
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <recv_osdep.h>
++#include <mlme_osdep.h>
++#include <ip.h>
++#include <if_ether.h>
++#include <ethernet.h>
++
++#ifdef CONFIG_USB_HCI
++#include <usb_ops.h>
++#endif
++
++#if defined (PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++
++#error "Shall be Linux or Windows, but not both!\n"
++
++#endif
++
++#include <wifi.h>
++#include <circ_buf.h>
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++void rtw_signal_stat_timer_hdl(RTW_TIMER_HDL_ARGS);
++#endif //CONFIG_NEW_SIGNAL_STAT_PROCESS
++
++
++void _rtw_init_sta_recv_priv(struct sta_recv_priv *psta_recvpriv)
++{
++
++
++_func_enter_;
++
++	_rtw_memset((u8 *)psta_recvpriv, 0, sizeof (struct sta_recv_priv));
++
++	_rtw_spinlock_init(&psta_recvpriv->lock);
++
++	//for(i=0; i<MAX_RX_NUMBLKS; i++)
++	//	_rtw_init_queue(&psta_recvpriv->blk_strms[i]);
++
++	_rtw_init_queue(&psta_recvpriv->defrag_q);
++
++_func_exit_;
++
++}
++
++sint _rtw_init_recv_priv(struct recv_priv *precvpriv, _adapter *padapter)
++{
++	sint i;
++
++	union recv_frame *precvframe;
++
++	sint	res=_SUCCESS;
++
++_func_enter_;
++
++	// We don't need to memset padapter->XXX to zero, because adapter is allocated by rtw_zvmalloc().
++	//_rtw_memset((unsigned char *)precvpriv, 0, sizeof (struct  recv_priv));
++
++	_rtw_spinlock_init(&precvpriv->lock);
++
++	_rtw_init_queue(&precvpriv->free_recv_queue);
++	_rtw_init_queue(&precvpriv->recv_pending_queue);
++	_rtw_init_queue(&precvpriv->uc_swdec_pending_queue);
++
++	precvpriv->adapter = padapter;
++
++	precvpriv->free_recvframe_cnt = NR_RECVFRAME;
++
++	rtw_os_recv_resource_init(precvpriv, padapter);
++
++	precvpriv->pallocated_frame_buf = rtw_zvmalloc(NR_RECVFRAME * sizeof(union recv_frame) + RXFRAME_ALIGN_SZ);
++	
++	if(precvpriv->pallocated_frame_buf==NULL){
++		res= _FAIL;
++		goto exit;
++	}
++	//_rtw_memset(precvpriv->pallocated_frame_buf, 0, NR_RECVFRAME * sizeof(union recv_frame) + RXFRAME_ALIGN_SZ);
++
++	precvpriv->precv_frame_buf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(precvpriv->pallocated_frame_buf), RXFRAME_ALIGN_SZ);
++	//precvpriv->precv_frame_buf = precvpriv->pallocated_frame_buf + RXFRAME_ALIGN_SZ -
++	//						((SIZE_PTR) (precvpriv->pallocated_frame_buf) &(RXFRAME_ALIGN_SZ-1));
++
++	precvframe = (union recv_frame*) precvpriv->precv_frame_buf;
++
++
++	for(i=0; i < NR_RECVFRAME ; i++)
++	{
++		_rtw_init_listhead(&(precvframe->u.list));
++
++		rtw_list_insert_tail(&(precvframe->u.list), &(precvpriv->free_recv_queue.queue));
++
++		res = rtw_os_recv_resource_alloc(padapter, precvframe);
++
++		precvframe->u.hdr.adapter =padapter;
++		precvframe++;
++
++	}
++
++#ifdef CONFIG_USB_HCI
++
++	precvpriv->rx_pending_cnt=1;
++
++	_rtw_init_sema(&precvpriv->allrxreturnevt, 0);
++
++#endif
++
++	res = rtw_hal_init_recv_priv(padapter);
++
++	precvpriv->recvbuf_skb_alloc_fail_cnt = 0;
++	precvpriv->recvbuf_null_cnt = 0;
++	precvpriv->read_port_complete_EINPROGRESS_cnt = 0;
++	precvpriv->read_port_complete_other_urb_err_cnt = 0;
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	#ifdef PLATFORM_LINUX
++	_init_timer(&precvpriv->signal_stat_timer, padapter->pnetdev, RTW_TIMER_HDL_NAME(signal_stat), padapter);
++	#elif defined(PLATFORM_OS_CE) || defined(PLATFORM_WINDOWS)
++	_init_timer(&precvpriv->signal_stat_timer, padapter->hndis_adapter, RTW_TIMER_HDL_NAME(signal_stat), padapter);
++	#endif
++
++	precvpriv->signal_stat_sampling_interval = 1000; //ms
++	//precvpriv->signal_stat_converging_constant = 5000; //ms
++
++	rtw_set_signal_stat_timer(precvpriv);
++#endif //CONFIG_NEW_SIGNAL_STAT_PROCESS
++
++exit:
++
++_func_exit_;
++
++	return res;
++
++}
++
++void rtw_mfree_recv_priv_lock(struct recv_priv *precvpriv);
++void rtw_mfree_recv_priv_lock(struct recv_priv *precvpriv)
++{
++	_rtw_spinlock_free(&precvpriv->lock);
++#ifdef CONFIG_RECV_THREAD_MODE	
++	_rtw_free_sema(&precvpriv->recv_sema);
++	_rtw_free_sema(&precvpriv->terminate_recvthread_sema);
++#endif
++
++	_rtw_spinlock_free(&precvpriv->free_recv_queue.lock);
++	_rtw_spinlock_free(&precvpriv->recv_pending_queue.lock);
++
++	_rtw_spinlock_free(&precvpriv->free_recv_buf_queue.lock);
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++	_rtw_spinlock_free(&precvpriv->recv_buf_pending_queue.lock);
++#endif	// CONFIG_USE_USB_BUFFER_ALLOC_RX
++}
++
++void _rtw_free_recv_priv (struct recv_priv *precvpriv)
++{
++	_adapter	*padapter = precvpriv->adapter;
++
++_func_enter_;
++
++	rtw_free_uc_swdec_pending_queue(padapter);
++
++	rtw_mfree_recv_priv_lock(precvpriv);
++
++	rtw_os_recv_resource_free(precvpriv);
++
++	if(precvpriv->pallocated_frame_buf) {
++		rtw_vmfree(precvpriv->pallocated_frame_buf, NR_RECVFRAME * sizeof(union recv_frame) + RXFRAME_ALIGN_SZ);
++	}
++
++	rtw_hal_free_recv_priv(padapter);
++
++_func_exit_;
++
++}
++
++union recv_frame *_rtw_alloc_recvframe (_queue *pfree_recv_queue)
++{
++
++	union recv_frame  *precvframe;
++	_list	*plist, *phead;
++	_adapter *padapter;
++	struct recv_priv *precvpriv;
++_func_enter_;
++
++	if(_rtw_queue_empty(pfree_recv_queue) == _TRUE)
++	{
++		precvframe = NULL;
++	}
++	else
++	{
++		phead = get_list_head(pfree_recv_queue);
++
++		plist = get_next(phead);
++
++		precvframe = LIST_CONTAINOR(plist, union recv_frame, u);
++
++		rtw_list_delete(&precvframe->u.hdr.list);
++		padapter=precvframe->u.hdr.adapter;
++		if(padapter !=NULL){
++			precvpriv=&padapter->recvpriv;
++			if(pfree_recv_queue == &precvpriv->free_recv_queue)
++				precvpriv->free_recvframe_cnt--;
++		}
++	}
++
++_func_exit_;
++
++	return precvframe;
++
++}
++
++union recv_frame *rtw_alloc_recvframe (_queue *pfree_recv_queue)
++{
++	_irqL irqL;
++	union recv_frame  *precvframe;
++	
++	_enter_critical_bh(&pfree_recv_queue->lock, &irqL);
++
++	precvframe = _rtw_alloc_recvframe(pfree_recv_queue);
++
++	_exit_critical_bh(&pfree_recv_queue->lock, &irqL);
++
++	return precvframe;
++}
++
++void rtw_init_recvframe(union recv_frame *precvframe, struct recv_priv *precvpriv)
++{
++	/* Perry: This can be removed */
++	_rtw_init_listhead(&precvframe->u.hdr.list);
++
++	precvframe->u.hdr.len=0;
++}
++
++int rtw_free_recvframe(union recv_frame *precvframe, _queue *pfree_recv_queue)
++{
++	_irqL irqL;
++	_adapter *padapter=precvframe->u.hdr.adapter;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++
++_func_enter_;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if(padapter->adapter_type > PRIMARY_ADAPTER)
++	{
++		padapter = padapter->pbuddy_adapter;//get primary_padapter
++		precvpriv = &padapter->recvpriv;
++		pfree_recv_queue = &precvpriv->free_recv_queue;
++		precvframe->u.hdr.adapter = padapter;		
++	}	
++#endif
++
++
++#ifdef PLATFORM_WINDOWS
++	rtw_os_read_port(padapter, precvframe->u.hdr.precvbuf);
++#endif
++
++#if defined(PLATFORM_LINUX) || defined(PLATFORM_FREEBSD)
++
++	if(precvframe->u.hdr.pkt)
++	{
++#ifdef CONFIG_BSD_RX_USE_MBUF
++		m_freem(precvframe->u.hdr.pkt);
++#else	// CONFIG_BSD_RX_USE_MBUF
++		rtw_skb_free(precvframe->u.hdr.pkt);//free skb by driver
++#endif	// CONFIG_BSD_RX_USE_MBUF
++		precvframe->u.hdr.pkt = NULL;
++	}
++
++#endif //defined(PLATFORM_LINUX) || defined(PLATFORM_FREEBSD)
++
++	_enter_critical_bh(&pfree_recv_queue->lock, &irqL);
++
++	rtw_list_delete(&(precvframe->u.hdr.list));
++
++	rtw_list_insert_tail(&(precvframe->u.hdr.list), get_list_head(pfree_recv_queue));
++
++	if(padapter !=NULL){
++		if(pfree_recv_queue == &precvpriv->free_recv_queue)
++				precvpriv->free_recvframe_cnt++;
++	}
++
++      _exit_critical_bh(&pfree_recv_queue->lock, &irqL);
++
++_func_exit_;
++
++	return _SUCCESS;
++
++}
++
++
++
++
++sint _rtw_enqueue_recvframe(union recv_frame *precvframe, _queue *queue)
++{
++
++	_adapter *padapter=precvframe->u.hdr.adapter;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++
++_func_enter_;
++
++	//_rtw_init_listhead(&(precvframe->u.hdr.list));
++	rtw_list_delete(&(precvframe->u.hdr.list));
++
++
++	rtw_list_insert_tail(&(precvframe->u.hdr.list), get_list_head(queue));
++
++	if (padapter != NULL) {
++		if (queue == &precvpriv->free_recv_queue)
++			precvpriv->free_recvframe_cnt++;
++	}
++
++_func_exit_;
++
++	return _SUCCESS;
++}
++
++sint rtw_enqueue_recvframe(union recv_frame *precvframe, _queue *queue)
++{
++	sint ret;
++	_irqL irqL;
++	
++	//_spinlock(&pfree_recv_queue->lock);
++	_enter_critical_bh(&queue->lock, &irqL);
++	ret = _rtw_enqueue_recvframe(precvframe, queue);
++	//_rtw_spinunlock(&pfree_recv_queue->lock);
++	_exit_critical_bh(&queue->lock, &irqL);
++
++	return ret;
++}
++
++/*
++sint	rtw_enqueue_recvframe(union recv_frame *precvframe, _queue *queue)
++{
++	return rtw_free_recvframe(precvframe, queue);
++}
++*/
++
++
++
++
++/*
++caller : defrag ; recvframe_chk_defrag in recv_thread  (passive)
++pframequeue: defrag_queue : will be accessed in recv_thread  (passive)
++
++using spinlock to protect
++
++*/
++
++void rtw_free_recvframe_queue(_queue *pframequeue,  _queue *pfree_recv_queue)
++{
++	union	recv_frame 	*precvframe;
++	_list	*plist, *phead;
++
++_func_enter_;
++	_rtw_spinlock(&pframequeue->lock);
++
++	phead = get_list_head(pframequeue);
++	plist = get_next(phead);
++
++	while(rtw_end_of_queue_search(phead, plist) == _FALSE)
++	{
++		precvframe = LIST_CONTAINOR(plist, union recv_frame, u);
++
++		plist = get_next(plist);
++
++		//rtw_list_delete(&precvframe->u.hdr.list); // will do this in rtw_free_recvframe()
++
++		rtw_free_recvframe(precvframe, pfree_recv_queue);
++	}
++
++	_rtw_spinunlock(&pframequeue->lock);
++
++_func_exit_;
++
++}
++
++u32 rtw_free_uc_swdec_pending_queue(_adapter *adapter)
++{
++	u32 cnt = 0;
++	union recv_frame *pending_frame;
++	while((pending_frame=rtw_alloc_recvframe(&adapter->recvpriv.uc_swdec_pending_queue))) {
++		rtw_free_recvframe(pending_frame, &adapter->recvpriv.free_recv_queue);
++		DBG_871X("%s: dequeue uc_swdec_pending_queue\n", __func__);
++		cnt++;
++	}
++
++	return cnt;
++}
++
++
++sint rtw_enqueue_recvbuf_to_head(struct recv_buf *precvbuf, _queue *queue)
++{
++	_irqL irqL;
++
++	_enter_critical(&queue->lock, &irqL);
++
++	rtw_list_delete(&precvbuf->list);
++	rtw_list_insert_head(&precvbuf->list, get_list_head(queue));
++
++	_exit_critical(&queue->lock, &irqL);
++
++	return _SUCCESS;
++}
++
++sint rtw_enqueue_recvbuf(struct recv_buf *precvbuf, _queue *queue)
++{
++	_irqL irqL;	
++
++	_enter_critical(&queue->lock, &irqL);
++
++	rtw_list_delete(&precvbuf->list);
++
++	rtw_list_insert_tail(&precvbuf->list, get_list_head(queue));
++	
++	_exit_critical(&queue->lock, &irqL);
++
++
++	return _SUCCESS;
++	
++}
++
++struct recv_buf *rtw_dequeue_recvbuf (_queue *queue)
++{
++	_irqL irqL;
++	struct recv_buf *precvbuf;
++	_list	*plist, *phead;	
++
++	_enter_critical(&queue->lock, &irqL);
++
++	if(_rtw_queue_empty(queue) == _TRUE)
++	{
++		precvbuf = NULL;
++	}
++	else
++	{
++		phead = get_list_head(queue);
++
++		plist = get_next(phead);
++
++		precvbuf = LIST_CONTAINOR(plist, struct recv_buf, list);
++
++		rtw_list_delete(&precvbuf->list);
++		
++	}
++
++	_exit_critical(&queue->lock, &irqL);
++
++
++	return precvbuf;
++
++}
++
++sint recvframe_chkmic(_adapter *adapter,  union recv_frame *precvframe);
++sint recvframe_chkmic(_adapter *adapter,  union recv_frame *precvframe){
++
++	sint	i,res=_SUCCESS;
++	u32	datalen;
++	u8	miccode[8];
++	u8	bmic_err=_FALSE,brpt_micerror = _TRUE;
++	u8	*pframe, *payload,*pframemic;
++	u8	*mickey;
++	//u8	*iv,rxdata_key_idx=0;
++	struct	sta_info		*stainfo;
++	struct	rx_pkt_attrib	*prxattrib=&precvframe->u.hdr.attrib;
++	struct 	security_priv	*psecuritypriv=&adapter->securitypriv;
++
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++_func_enter_;
++
++	stainfo=rtw_get_stainfo(&adapter->stapriv ,&prxattrib->ta[0]);
++
++	if(prxattrib->encrypt ==_TKIP_)
++	{
++		RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("\n recvframe_chkmic:prxattrib->encrypt ==_TKIP_\n"));
++		RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("\n recvframe_chkmic:da=0x%02x:0x%02x:0x%02x:0x%02x:0x%02x:0x%02x\n",
++			prxattrib->ra[0],prxattrib->ra[1],prxattrib->ra[2],prxattrib->ra[3],prxattrib->ra[4],prxattrib->ra[5]));
++
++		//calculate mic code
++		if(stainfo!= NULL)
++		{
++			if(IS_MCAST(prxattrib->ra))
++			{
++				//mickey=&psecuritypriv->dot118021XGrprxmickey.skey[0];
++				//iv = precvframe->u.hdr.rx_data+prxattrib->hdrlen;
++				//rxdata_key_idx =( ((iv[3])>>6)&0x3) ;
++				mickey=&psecuritypriv->dot118021XGrprxmickey[prxattrib->key_index].skey[0];
++				
++				RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("\n recvframe_chkmic: bcmc key \n"));
++				//DBG_871X("\n recvframe_chkmic: bcmc key psecuritypriv->dot118021XGrpKeyid(%d),pmlmeinfo->key_index(%d) ,recv key_id(%d)\n",
++				//								psecuritypriv->dot118021XGrpKeyid,pmlmeinfo->key_index,rxdata_key_idx);
++				
++				if(psecuritypriv->binstallGrpkey==_FALSE)
++				{
++					res=_FAIL;
++					RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("\n recvframe_chkmic:didn't install group key!!!!!!!!!!\n"));
++					DBG_871X("\n recvframe_chkmic:didn't install group key!!!!!!!!!!\n");
++					goto exit;
++				}
++			}
++			else{
++				mickey=&stainfo->dot11tkiprxmickey.skey[0];
++				RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("\n recvframe_chkmic: unicast key \n"));
++			}
++
++			datalen=precvframe->u.hdr.len-prxattrib->hdrlen-prxattrib->iv_len-prxattrib->icv_len-8;//icv_len included the mic code
++			pframe=precvframe->u.hdr.rx_data;
++			payload=pframe+prxattrib->hdrlen+prxattrib->iv_len;
++
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("\n prxattrib->iv_len=%d prxattrib->icv_len=%d\n",prxattrib->iv_len,prxattrib->icv_len));
++
++			//rtw_seccalctkipmic(&stainfo->dot11tkiprxmickey.skey[0],pframe,payload, datalen ,&miccode[0],(unsigned char)prxattrib->priority); //care the length of the data
++
++			rtw_seccalctkipmic(mickey,pframe,payload, datalen ,&miccode[0],(unsigned char)prxattrib->priority); //care the length of the data
++
++			pframemic=payload+datalen;
++
++			bmic_err=_FALSE;
++
++			for(i=0;i<8;i++){
++				if(miccode[i] != *(pframemic+i)){
++					RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("recvframe_chkmic:miccode[%d](%02x) != *(pframemic+%d)(%02x) ",i,miccode[i],i,*(pframemic+i)));
++					bmic_err=_TRUE;
++				}
++			}
++
++
++			if(bmic_err==_TRUE){
++
++				RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("\n *(pframemic-8)-*(pframemic-1)=0x%02x:0x%02x:0x%02x:0x%02x:0x%02x:0x%02x:0x%02x:0x%02x\n",
++					*(pframemic-8),*(pframemic-7),*(pframemic-6),*(pframemic-5),*(pframemic-4),*(pframemic-3),*(pframemic-2),*(pframemic-1)));
++				RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("\n *(pframemic-16)-*(pframemic-9)=0x%02x:0x%02x:0x%02x:0x%02x:0x%02x:0x%02x:0x%02x:0x%02x\n",
++					*(pframemic-16),*(pframemic-15),*(pframemic-14),*(pframemic-13),*(pframemic-12),*(pframemic-11),*(pframemic-10),*(pframemic-9)));
++
++				{
++					uint i;
++					RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("\n ======demp packet (len=%d)======\n",precvframe->u.hdr.len));
++					for(i=0;i<precvframe->u.hdr.len;i=i+8){
++						RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("0x%02x:0x%02x:0x%02x:0x%02x:0x%02x:0x%02x:0x%02x:0x%02x",
++							*(precvframe->u.hdr.rx_data+i),*(precvframe->u.hdr.rx_data+i+1),
++							*(precvframe->u.hdr.rx_data+i+2),*(precvframe->u.hdr.rx_data+i+3),
++							*(precvframe->u.hdr.rx_data+i+4),*(precvframe->u.hdr.rx_data+i+5),
++							*(precvframe->u.hdr.rx_data+i+6),*(precvframe->u.hdr.rx_data+i+7)));
++					}
++					RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("\n ======demp packet end [len=%d]======\n",precvframe->u.hdr.len));
++					RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("\n hrdlen=%d, \n",prxattrib->hdrlen));
++				}
++
++				RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("ra=0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x psecuritypriv->binstallGrpkey=%d ",
++					prxattrib->ra[0],prxattrib->ra[1],prxattrib->ra[2],
++					prxattrib->ra[3],prxattrib->ra[4],prxattrib->ra[5],psecuritypriv->binstallGrpkey));
++
++				// double check key_index for some timing issue ,
++				// cannot compare with psecuritypriv->dot118021XGrpKeyid also cause timing issue
++				if((IS_MCAST(prxattrib->ra)==_TRUE)  && (prxattrib->key_index != pmlmeinfo->key_index ))
++					brpt_micerror = _FALSE;
++				
++				if(brpt_micerror == _TRUE)
++				{
++					rtw_handle_tkip_mic_err(adapter,(u8)IS_MCAST(prxattrib->ra));
++					RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,(" mic error :prxattrib->bdecrypted=%d \n", brpt_micerror));
++					DBG_871X(" mic error :brpt_micerror=%d\n", brpt_micerror);
++				}
++
++				res=_FAIL;
++
++			}
++			else{
++				//mic checked ok
++				if((psecuritypriv->bcheck_grpkey ==_FALSE)&&(IS_MCAST(prxattrib->ra)==_TRUE)){
++					psecuritypriv->bcheck_grpkey =_TRUE;
++					RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("psecuritypriv->bcheck_grpkey =_TRUE"));
++				}
++			}
++
++		}
++		else
++		{
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("recvframe_chkmic: rtw_get_stainfo==NULL!!!\n"));
++		}
++
++		recvframe_pull_tail(precvframe, 8);
++
++	}
++
++exit:
++
++_func_exit_;
++
++	return res;
++
++}
++
++//decrypt and set the ivlen,icvlen of the recv_frame
++union recv_frame * decryptor(_adapter *padapter,union recv_frame *precv_frame);
++union recv_frame * decryptor(_adapter *padapter,union recv_frame *precv_frame)
++{
++
++	struct rx_pkt_attrib *prxattrib = &precv_frame->u.hdr.attrib;
++	struct security_priv *psecuritypriv=&padapter->securitypriv;
++	union recv_frame *return_packet=precv_frame;
++	u32	 res=_SUCCESS;
++_func_enter_;
++
++	RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("prxstat->decrypted=%x prxattrib->encrypt = 0x%03x\n",prxattrib->bdecrypted,prxattrib->encrypt));
++
++	if(prxattrib->encrypt>0)
++	{
++		u8 *iv = precv_frame->u.hdr.rx_data+prxattrib->hdrlen;
++		prxattrib->key_index = ( ((iv[3])>>6)&0x3) ;
++
++		if(prxattrib->key_index > WEP_KEYS)
++		{
++			DBG_871X("prxattrib->key_index(%d) > WEP_KEYS \n", prxattrib->key_index);
++
++			switch(prxattrib->encrypt){
++				case _WEP40_:
++				case _WEP104_:
++					prxattrib->key_index = psecuritypriv->dot11PrivacyKeyIndex;
++					break;
++				case _TKIP_:			
++				case _AES_:						
++				default:
++					prxattrib->key_index = psecuritypriv->dot118021XGrpKeyid;
++					break;
++			}	
++		}			
++	}
++
++	if((prxattrib->encrypt>0) && ((prxattrib->bdecrypted==0) ||(psecuritypriv->sw_decrypt==_TRUE)))
++	{
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if(!IS_MCAST(prxattrib->ra))//bc/mc packets use sw decryption for concurrent mode
++#endif			
++		psecuritypriv->hw_decrypted=_FALSE;
++
++		#ifdef DBG_RX_DECRYPTOR
++		DBG_871X("prxstat->bdecrypted:%d,  prxattrib->encrypt:%d,  Setting psecuritypriv->hw_decrypted = %d\n"
++			, prxattrib->bdecrypted ,prxattrib->encrypt, psecuritypriv->hw_decrypted);
++		#endif
++
++		switch(prxattrib->encrypt){
++		case _WEP40_:
++		case _WEP104_:
++			rtw_wep_decrypt(padapter, (u8 *)precv_frame);
++			break;
++		case _TKIP_:
++			res = rtw_tkip_decrypt(padapter, (u8 *)precv_frame);
++			break;
++		case _AES_:
++			res = rtw_aes_decrypt(padapter, (u8 * )precv_frame);
++			break;
++		default:
++				break;
++		}
++	}
++	else if(prxattrib->bdecrypted==1
++		&& prxattrib->encrypt >0
++		&& (psecuritypriv->busetkipkey==1 || prxattrib->encrypt !=_TKIP_ )
++		)
++	{
++#if 0
++		if((prxstat->icv==1)&&(prxattrib->encrypt!=_AES_))
++		{
++			psecuritypriv->hw_decrypted=_FALSE;
++
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("psecuritypriv->hw_decrypted=_FALSE"));
++
++			rtw_free_recvframe(precv_frame, &padapter->recvpriv.free_recv_queue);
++
++			return_packet=NULL;
++
++		}
++		else
++#endif
++		{
++			psecuritypriv->hw_decrypted=_TRUE;
++			#ifdef DBG_RX_DECRYPTOR
++			DBG_871X("prxstat->bdecrypted:%d,  prxattrib->encrypt:%d,  Setting psecuritypriv->hw_decrypted = %d\n"
++			, prxattrib->bdecrypted ,prxattrib->encrypt, psecuritypriv->hw_decrypted);
++			#endif
++
++		}
++	}
++	else {
++		#ifdef DBG_RX_DECRYPTOR
++		DBG_871X("prxstat->bdecrypted:%d,  prxattrib->encrypt:%d,  psecuritypriv->hw_decrypted:%d\n"
++		, prxattrib->bdecrypted ,prxattrib->encrypt, psecuritypriv->hw_decrypted);
++		#endif
++	}
++	
++	if(res == _FAIL)
++	{
++		rtw_free_recvframe(return_packet,&padapter->recvpriv.free_recv_queue);			
++		return_packet = NULL;
++		
++	}
++	//recvframe_chkmic(adapter, precv_frame);   //move to recvframme_defrag function
++	
++_func_exit_;
++
++	return return_packet;
++
++}
++//###set the security information in the recv_frame
++union recv_frame * portctrl(_adapter *adapter,union recv_frame * precv_frame);
++union recv_frame * portctrl(_adapter *adapter,union recv_frame * precv_frame)
++{
++	u8   *psta_addr,*ptr;
++	uint  auth_alg;
++	struct recv_frame_hdr *pfhdr;
++	struct sta_info * psta;
++	struct sta_priv *pstapriv ;
++	union recv_frame * prtnframe;
++	u16	ether_type=0;
++	u16  eapol_type = 0x888e;//for Funia BD's WPA issue  
++	struct rx_pkt_attrib *pattrib = & precv_frame->u.hdr.attrib;
++
++_func_enter_;
++
++	pstapriv = &adapter->stapriv;
++	ptr = get_recvframe_data(precv_frame);
++	pfhdr = &precv_frame->u.hdr;
++	psta_addr = pfhdr->attrib.ta;
++	psta = rtw_get_stainfo(pstapriv, psta_addr);
++
++	auth_alg = adapter->securitypriv.dot11AuthAlgrthm;
++
++	RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("########portctrl:adapter->securitypriv.dot11AuthAlgrthm= 0x%d\n",adapter->securitypriv.dot11AuthAlgrthm));
++
++	if(auth_alg==2)
++	{
++		if ((psta!=NULL) && (psta->ieee8021x_blocked))
++		{
++			//blocked
++			//only accept EAPOL frame
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("########portctrl:psta->ieee8021x_blocked==1\n"));
++
++			prtnframe=precv_frame;
++
++			//get ether_type
++			ptr=ptr+pfhdr->attrib.hdrlen+pfhdr->attrib.iv_len+LLC_HEADER_SIZE;
++			_rtw_memcpy(&ether_type,ptr, 2);
++			ether_type= ntohs((unsigned short )ether_type);
++
++		        if (ether_type == eapol_type) {
++				prtnframe=precv_frame;
++			}
++			else {
++				//free this frame
++				rtw_free_recvframe(precv_frame, &adapter->recvpriv.free_recv_queue);
++				prtnframe=NULL;
++			}
++		}
++		else
++		{
++			//allowed
++			//check decryption status, and decrypt the frame if needed
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("########portctrl:psta->ieee8021x_blocked==0\n"));
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("portctrl:precv_frame->hdr.attrib.privacy=%x\n",precv_frame->u.hdr.attrib.privacy));
++
++			if(pattrib->bdecrypted==0)
++				RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("portctrl:prxstat->decrypted=%x\n", pattrib->bdecrypted));
++
++			prtnframe=precv_frame;
++			//check is the EAPOL frame or not (Rekey)
++			if(ether_type == eapol_type){
++
++				RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("########portctrl:ether_type == 0x888e\n"));
++				//check Rekey
++
++				prtnframe=precv_frame;
++			}
++			else{
++				RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("########portctrl:ether_type = 0x%.4x\n",ether_type));
++			}
++		}
++	}
++	else
++	{
++		prtnframe=precv_frame;
++	}
++
++_func_exit_;
++
++		return prtnframe;
++
++}
++
++sint recv_decache(union recv_frame *precv_frame, u8 bretry, struct stainfo_rxcache *prxcache);
++sint recv_decache(union recv_frame *precv_frame, u8 bretry, struct stainfo_rxcache *prxcache)
++{
++	sint tid = precv_frame->u.hdr.attrib.priority;
++
++	u16 seq_ctrl = ( (precv_frame->u.hdr.attrib.seq_num&0xffff) << 4) |
++		(precv_frame->u.hdr.attrib.frag_num & 0xf);
++
++_func_enter_;
++
++	if(tid>15)
++	{
++		RT_TRACE(_module_rtl871x_recv_c_, _drv_notice_, ("recv_decache, (tid>15)! seq_ctrl=0x%x, tid=0x%x\n", seq_ctrl, tid));
++
++		return _FAIL;
++	}
++
++	if(1)//if(bretry)
++	{
++		if(seq_ctrl == prxcache->tid_rxseq[tid])
++		{
++			RT_TRACE(_module_rtl871x_recv_c_, _drv_notice_, ("recv_decache, seq_ctrl=0x%x, tid=0x%x, tid_rxseq=0x%x\n", seq_ctrl, tid, prxcache->tid_rxseq[tid]));
++
++			return _FAIL;
++		}
++	}
++
++	prxcache->tid_rxseq[tid] = seq_ctrl;
++
++_func_exit_;
++
++	return _SUCCESS;
++
++}
++
++void process_pwrbit_data(_adapter *padapter, union recv_frame *precv_frame);
++void process_pwrbit_data(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_AP_MODE
++	unsigned char pwrbit;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta=NULL;
++
++	psta = rtw_get_stainfo(pstapriv, pattrib->src);
++
++	pwrbit = GetPwrMgt(ptr);
++
++	if(psta)
++	{
++		if(pwrbit)
++		{
++			if(!(psta->state & WIFI_SLEEP_STATE))
++			{
++				//psta->state |= WIFI_SLEEP_STATE;
++				//pstapriv->sta_dz_bitmap |= BIT(psta->aid);
++
++				stop_sta_xmit(padapter, psta);
++
++				//DBG_871X("to sleep, sta_dz_bitmap=%x\n", pstapriv->sta_dz_bitmap);
++			}
++		}
++		else
++		{
++			if(psta->state & WIFI_SLEEP_STATE)
++			{
++				//psta->state ^= WIFI_SLEEP_STATE;
++				//pstapriv->sta_dz_bitmap &= ~BIT(psta->aid);				
++
++				wakeup_sta_to_xmit(padapter, psta);
++
++				//DBG_871X("to wakeup, sta_dz_bitmap=%x\n", pstapriv->sta_dz_bitmap);
++			}
++		}
++
++	}
++
++#endif
++}
++
++void process_wmmps_data(_adapter *padapter, union recv_frame *precv_frame);
++void process_wmmps_data(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_AP_MODE		
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta=NULL;
++
++	psta = rtw_get_stainfo(pstapriv, pattrib->src);
++	
++	if(!psta) return;
++
++#ifdef CONFIG_TDLS
++	if( !(psta->tdls_sta_state & TDLS_LINKED_STATE ) )
++	{
++#endif //CONFIG_TDLS
++
++	if(!psta->qos_option)
++		return;
++
++	if(!(psta->qos_info&0xf))
++		return;
++		
++#ifdef CONFIG_TDLS
++	}
++#endif //CONFIG_TDLS	
++
++	if(psta->state&WIFI_SLEEP_STATE)
++	{
++		u8 wmmps_ac=0;	
++		
++		switch(pattrib->priority)
++		{
++			case 1:
++			case 2:
++				wmmps_ac = psta->uapsd_bk&BIT(1);
++				break;
++			case 4:
++			case 5:
++				wmmps_ac = psta->uapsd_vi&BIT(1);
++				break;
++			case 6:
++			case 7:
++				wmmps_ac = psta->uapsd_vo&BIT(1);
++				break;
++			case 0:
++			case 3:
++			default:
++				wmmps_ac = psta->uapsd_be&BIT(1);
++				break;	
++		}
++
++		if(wmmps_ac)
++		{
++			if(psta->sleepq_ac_len>0)
++			{
++				//process received triggered frame
++				xmit_delivery_enabled_frames(padapter, psta);
++			}
++			else
++			{
++				//issue one qos null frame with More data bit = 0 and the EOSP bit set (=1)
++				issue_qos_nulldata(padapter, psta->hwaddr, (u16)pattrib->priority, 0, 0);
++			}
++		}
++				
++	}
++
++	
++#endif	
++
++}
++
++#ifdef CONFIG_TDLS
++sint OnTDLS(_adapter *adapter, union recv_frame *precv_frame)
++{
++	struct rx_pkt_attrib	*pattrib = & precv_frame->u.hdr.attrib;
++	sint ret = _SUCCESS;
++	u8 *paction = get_recvframe_data(precv_frame);
++	u8 category_field = 1;
++#ifdef CONFIG_WFD
++	u8 WFA_OUI[3] = { 0x50, 0x6f, 0x9a };
++#endif //CONFIG_WFD
++	struct tdls_info *ptdlsinfo = &(adapter->tdlsinfo);
++
++	//point to action field
++	paction+=pattrib->hdrlen 
++			+ pattrib->iv_len 
++			+ SNAP_SIZE 
++			+ ETH_TYPE_LEN 
++			+ PAYLOAD_TYPE_LEN 
++			+ category_field;
++
++	if(ptdlsinfo->enable == 0)
++	{
++		DBG_871X("recv tdls frame, "
++				"but tdls haven't enabled\n");
++		ret = _FAIL;
++		return ret;
++	}
++	
++	switch(*paction){
++		case TDLS_SETUP_REQUEST:
++			DBG_871X("recv tdls setup request frame\n");
++			ret=On_TDLS_Setup_Req(adapter, precv_frame);
++			break;
++		case TDLS_SETUP_RESPONSE:
++			DBG_871X("recv tdls setup response frame\n");			
++			ret=On_TDLS_Setup_Rsp(adapter, precv_frame);
++			break;
++		case TDLS_SETUP_CONFIRM:
++			DBG_871X("recv tdls setup confirm frame\n");
++			ret=On_TDLS_Setup_Cfm(adapter, precv_frame);
++			break;
++		case TDLS_TEARDOWN:
++			DBG_871X("recv tdls teardown, free sta_info\n");
++			ret=On_TDLS_Teardown(adapter, precv_frame);
++			break;
++		case TDLS_DISCOVERY_REQUEST:
++			DBG_871X("recv tdls discovery request frame\n");
++			ret=On_TDLS_Dis_Req(adapter, precv_frame);
++			break;
++		case TDLS_PEER_TRAFFIC_RESPONSE:
++			DBG_871X("recv tdls peer traffic response frame\n");
++			ret=On_TDLS_Peer_Traffic_Rsp(adapter, precv_frame);
++			break;
++		case TDLS_CHANNEL_SWITCH_REQUEST:
++			DBG_871X("recv tdls channel switch request frame\n");
++			ret=On_TDLS_Ch_Switch_Req(adapter, precv_frame);
++			break;
++		case TDLS_CHANNEL_SWITCH_RESPONSE:
++			DBG_871X("recv tdls channel switch response frame\n");
++			ret=On_TDLS_Ch_Switch_Rsp(adapter, precv_frame);
++			break;
++#ifdef CONFIG_WFD			
++		case 0x50:	//First byte of WFA OUI
++			if( _rtw_memcmp(WFA_OUI, (paction), 3) )
++			{
++				if( *(paction + 3) == 0x04)	//Probe request frame
++				{
++					//WFDTDLS: for sigma test, do not setup direct link automatically
++					ptdlsinfo->dev_discovered = 1;
++					DBG_871X("recv tunneled probe request frame\n");
++					issue_tunneled_probe_rsp(adapter, precv_frame);
++				}
++				if( *(paction + 3) == 0x05)	//Probe response frame
++				{
++					//WFDTDLS: for sigma test, do not setup direct link automatically
++					ptdlsinfo->dev_discovered = 1;
++					DBG_871X("recv tunneled probe response frame\n");
++				}
++			}
++			break;
++#endif //CONFIG_WFD
++		default:
++			DBG_871X("receive TDLS frame but not supported\n");
++			ret=_FAIL;
++			break;
++	}
++
++exit:
++	return ret;
++	
++}
++#endif //CONFIG_TDLS
++
++void count_rx_stats(_adapter *padapter, union recv_frame *prframe, struct sta_info*sta);
++void count_rx_stats(_adapter *padapter, union recv_frame *prframe, struct sta_info*sta)
++{
++	int	sz;
++	struct sta_info		*psta = NULL;
++	struct stainfo_stats	*pstats = NULL;
++	struct rx_pkt_attrib	*pattrib = & prframe->u.hdr.attrib;
++	struct recv_priv		*precvpriv = &padapter->recvpriv;
++
++	sz = get_recvframe_len(prframe);
++	precvpriv->rx_bytes += sz;
++
++	padapter->mlmepriv.LinkDetectInfo.NumRxOkInPeriod++;
++
++	if( (!MacAddr_isBcst(pattrib->dst)) && (!IS_MCAST(pattrib->dst))){
++		padapter->mlmepriv.LinkDetectInfo.NumRxUnicastOkInPeriod++;
++	}
++
++	if(sta)
++		psta = sta;
++	else
++		psta = prframe->u.hdr.psta;
++
++	if(psta)
++	{
++		pstats = &psta->sta_stats;
++
++		pstats->rx_data_pkts++;
++		pstats->rx_bytes += sz;
++	}
++
++}
++
++sint sta2sta_data_frame(
++	_adapter *adapter,
++	union recv_frame *precv_frame,
++	struct sta_info**psta
++);
++sint sta2sta_data_frame(
++	_adapter *adapter,
++	union recv_frame *precv_frame,
++	struct sta_info**psta
++)
++{
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	sint ret = _SUCCESS;
++	struct rx_pkt_attrib *pattrib = & precv_frame->u.hdr.attrib;
++	struct	sta_priv 		*pstapriv = &adapter->stapriv;
++	struct	mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++	u8 *mybssid  = get_bssid(pmlmepriv);
++	u8 *myhwaddr = myid(&adapter->eeprompriv);
++	u8 * sta_addr = NULL;
++	sint bmcast = IS_MCAST(pattrib->dst);
++
++#ifdef CONFIG_TDLS	
++	struct tdls_info *ptdlsinfo = &adapter->tdlsinfo;
++	struct sta_info *ptdls_sta=NULL;
++	u8 *psnap_type=ptr+pattrib->hdrlen + pattrib->iv_len+SNAP_SIZE;
++	u8 *pframe_body = psnap_type + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN;
++#endif //CONFIG_TDLS
++
++_func_enter_;
++
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) ||
++		(check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE))
++	{
++
++		// filter packets that SA is myself or multicast or broadcast
++		if (_rtw_memcmp(myhwaddr, pattrib->src, ETH_ALEN)){
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,(" SA==myself \n"));
++			ret= _FAIL;
++			goto exit;
++		}
++
++		if( (!_rtw_memcmp(myhwaddr, pattrib->dst, ETH_ALEN))	&& (!bmcast) ){
++			ret= _FAIL;
++			goto exit;
++		}
++
++		if( _rtw_memcmp(pattrib->bssid, "\x0\x0\x0\x0\x0\x0", ETH_ALEN) ||
++		   _rtw_memcmp(mybssid, "\x0\x0\x0\x0\x0\x0", ETH_ALEN) ||
++		   (!_rtw_memcmp(pattrib->bssid, mybssid, ETH_ALEN)) ) {
++			ret= _FAIL;
++			goto exit;
++		}
++
++		sta_addr = pattrib->src;
++
++	}
++	else if(check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++	{
++#ifdef CONFIG_TDLS
++		//direct link data transfer
++		if(ptdlsinfo->setup_state == TDLS_LINKED_STATE){
++			ptdls_sta = rtw_get_stainfo(pstapriv, pattrib->src);
++			if(ptdls_sta==NULL)
++			{
++				ret=_FAIL;
++				goto exit;
++			}
++			else if(ptdls_sta->tdls_sta_state&TDLS_LINKED_STATE)
++			{
++				//drop QoS-SubType Data, including QoS NULL, excluding QoS-Data
++				if( (GetFrameSubType(ptr) & WIFI_QOS_DATA_TYPE )== WIFI_QOS_DATA_TYPE)
++				{
++					if(GetFrameSubType(ptr)&(BIT(4)|BIT(5)|BIT(6)))
++					{
++						DBG_871X("drop QoS-Sybtype Data\n");
++						ret= _FAIL;
++						goto exit;
++					}
++				}
++				// filter packets that SA is myself or multicast or broadcast
++				if (_rtw_memcmp(myhwaddr, pattrib->src, ETH_ALEN)){
++					ret= _FAIL;
++					goto exit;
++				}
++				// da should be for me
++				if((!_rtw_memcmp(myhwaddr, pattrib->dst, ETH_ALEN))&& (!bmcast))
++				{
++					ret= _FAIL;
++					goto exit;
++				}
++				// check BSSID
++				if( _rtw_memcmp(pattrib->bssid, "\x0\x0\x0\x0\x0\x0", ETH_ALEN) ||
++				     _rtw_memcmp(mybssid, "\x0\x0\x0\x0\x0\x0", ETH_ALEN) ||
++				     (!_rtw_memcmp(pattrib->bssid, mybssid, ETH_ALEN)) )
++				{
++					ret= _FAIL;
++					goto exit;
++				}
++
++				//process UAPSD tdls sta
++				process_pwrbit_data(adapter, precv_frame);
++
++				// if NULL-frame, check pwrbit
++				if ((GetFrameSubType(ptr)) == WIFI_DATA_NULL)
++				{
++					//NULL-frame with pwrbit=1, buffer_STA should buffer frames for sleep_STA
++					if(GetPwrMgt(ptr))
++					{
++						DBG_871X("TDLS: recv peer null frame with pwr bit 1\n");
++						ptdls_sta->tdls_sta_state|=TDLS_PEER_SLEEP_STATE;
++					}
++					// it would be triggered when we are off channel and receiving NULL DATA
++					// we can confirm that peer STA is at off channel
++					else if(ptdls_sta->tdls_sta_state&TDLS_CH_SWITCH_ON_STATE)
++					{
++						if((ptdls_sta->tdls_sta_state & TDLS_PEER_AT_OFF_STATE) != TDLS_PEER_AT_OFF_STATE)
++						{
++							issue_nulldata_to_TDLS_peer_STA(adapter, ptdls_sta, 0);
++							ptdls_sta->tdls_sta_state |= TDLS_PEER_AT_OFF_STATE;
++							On_TDLS_Peer_Traffic_Rsp(adapter, precv_frame);
++						}
++					}
++
++					ret= _FAIL;
++					goto exit;
++				}
++				//receive some of all TDLS management frames, process it at ON_TDLS
++				if((_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_TDLS, 2))){
++					ret= OnTDLS(adapter, precv_frame);
++					goto exit;
++				}
++				
++			}
++
++			sta_addr = pattrib->src;
++			
++		}		
++		else
++#endif //CONFIG_TDLS
++		{
++			// For Station mode, sa and bssid should always be BSSID, and DA is my mac-address
++			if(!_rtw_memcmp(pattrib->bssid, pattrib->src, ETH_ALEN) )
++			{
++				RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("bssid != TA under STATION_MODE; drop pkt\n"));
++				ret= _FAIL;
++				goto exit;
++			}
++
++			sta_addr = pattrib->bssid;
++		}
++	}
++	else if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++	{
++		if (bmcast)
++		{
++			// For AP mode, if DA == MCAST, then BSSID should be also MCAST
++			if (!IS_MCAST(pattrib->bssid)){
++					ret= _FAIL;
++					goto exit;
++			}
++		}
++		else // not mc-frame
++		{
++			// For AP mode, if DA is non-MCAST, then it must be BSSID, and bssid == BSSID
++			if(!_rtw_memcmp(pattrib->bssid, pattrib->dst, ETH_ALEN)) {
++				ret= _FAIL;
++				goto exit;
++			}
++
++			sta_addr = pattrib->src;
++		}
++
++	}
++	else if(check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE)
++	{
++		_rtw_memcpy(pattrib->dst, GetAddr1Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->src, GetAddr2Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->bssid, GetAddr3Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++		sta_addr = mybssid;
++	}
++	else
++	{
++		ret  = _FAIL;
++	}
++
++
++
++	if(bmcast)
++		*psta = rtw_get_bcmc_stainfo(adapter);
++	else
++		*psta = rtw_get_stainfo(pstapriv, sta_addr); // get ap_info
++
++#ifdef CONFIG_TDLS
++	if(ptdls_sta != NULL)
++		*psta = ptdls_sta;
++#endif //CONFIG_TDLS
++
++
++	if (*psta == NULL) {
++		RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("can't get psta under sta2sta_data_frame ; drop pkt\n"));
++#ifdef CONFIG_MP_INCLUDED
++		if(check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE)
++		adapter->mppriv.rx_pktloss++;
++#endif
++		ret= _FAIL;
++		goto exit;
++	}
++
++exit:
++_func_exit_;
++	return ret;
++
++}
++
++sint ap2sta_data_frame(
++	_adapter *adapter,
++	union recv_frame *precv_frame,
++	struct sta_info**psta );
++sint ap2sta_data_frame(
++	_adapter *adapter,
++	union recv_frame *precv_frame,
++	struct sta_info**psta )
++{
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib *pattrib = & precv_frame->u.hdr.attrib;
++	sint ret = _SUCCESS;
++	struct	sta_priv 		*pstapriv = &adapter->stapriv;
++	struct	mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++	u8 *mybssid  = get_bssid(pmlmepriv);
++	u8 *myhwaddr = myid(&adapter->eeprompriv);
++	sint bmcast = IS_MCAST(pattrib->dst);
++
++_func_enter_;
++
++	if ((check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++		&& (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE 
++			|| check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE	)
++		)
++	{
++
++		// filter packets that SA is myself or multicast or broadcast
++		if (_rtw_memcmp(myhwaddr, pattrib->src, ETH_ALEN)){
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,(" SA==myself \n"));
++			#ifdef DBG_RX_DROP_FRAME
++			DBG_871X("DBG_RX_DROP_FRAME %s SA=%x:%x:%x:%x:%x:%x, myhwaddr= %x:%x:%x:%x:%x:%x\n", __FUNCTION__,
++				pattrib->src[0], pattrib->src[1], pattrib->src[2],
++				pattrib->src[3], pattrib->src[4], pattrib->src[5],
++				*(myhwaddr), *(myhwaddr+1), *(myhwaddr+2),
++				*(myhwaddr+3), *(myhwaddr+4), *(myhwaddr+5));
++			#endif			
++			ret= _FAIL;
++			goto exit;
++		}
++
++		// da should be for me
++		if((!_rtw_memcmp(myhwaddr, pattrib->dst, ETH_ALEN))&& (!bmcast))
++		{
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,
++				(" ap2sta_data_frame:  compare DA fail; DA="MAC_FMT"\n", MAC_ARG(pattrib->dst)));
++			#ifdef DBG_RX_DROP_FRAME
++			DBG_871X("DBG_RX_DROP_FRAME %s DA="MAC_FMT"\n", __func__, MAC_ARG(pattrib->dst));
++			#endif
++			ret= _FAIL;
++			goto exit;
++		}
++
++
++		// check BSSID
++		if( _rtw_memcmp(pattrib->bssid, "\x0\x0\x0\x0\x0\x0", ETH_ALEN) ||
++		     _rtw_memcmp(mybssid, "\x0\x0\x0\x0\x0\x0", ETH_ALEN) ||
++		     (!_rtw_memcmp(pattrib->bssid, mybssid, ETH_ALEN)) )
++		{
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,
++				(" ap2sta_data_frame:  compare BSSID fail ; BSSID="MAC_FMT"\n", MAC_ARG(pattrib->bssid)));
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("mybssid="MAC_FMT"\n", MAC_ARG(mybssid)));
++			#ifdef DBG_RX_DROP_FRAME
++			DBG_871X("DBG_RX_DROP_FRAME %s BSSID="MAC_FMT", mybssid="MAC_FMT"\n",
++				__FUNCTION__, MAC_ARG(pattrib->bssid), MAC_ARG(mybssid));
++			DBG_871X( "this adapter = %d, buddy adapter = %d\n", adapter->adapter_type, adapter->pbuddy_adapter->adapter_type );
++			#endif
++
++			if(!bmcast)
++			{
++				DBG_871X("issue_deauth to the nonassociated ap=" MAC_FMT " for the reason(7)\n", MAC_ARG(pattrib->bssid));
++				issue_deauth(adapter, pattrib->bssid, WLAN_REASON_CLASS3_FRAME_FROM_NONASSOC_STA);
++			}
++
++			ret= _FAIL;
++			goto exit;
++		}
++
++		if(bmcast)
++			*psta = rtw_get_bcmc_stainfo(adapter);
++		else
++			*psta = rtw_get_stainfo(pstapriv, pattrib->bssid); // get ap_info
++
++		if (*psta == NULL) {
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("ap2sta: can't get psta under STATION_MODE ; drop pkt\n"));
++			#ifdef DBG_RX_DROP_FRAME
++			DBG_871X("DBG_RX_DROP_FRAME %s can't get psta under STATION_MODE ; drop pkt\n", __FUNCTION__);
++			#endif
++			ret= _FAIL;
++			goto exit;
++		}
++
++		if ((GetFrameSubType(ptr) & WIFI_QOS_DATA_TYPE) == WIFI_QOS_DATA_TYPE) {
++		}
++
++		if (GetFrameSubType(ptr) & BIT(6)) {
++			/* No data, will not indicate to upper layer, temporily count it here */
++			count_rx_stats(adapter, precv_frame, *psta);
++			ret = RTW_RX_HANDLED;
++			goto exit;
++		}
++
++	}
++	else if ((check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE) &&
++		     (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) )
++	{
++		_rtw_memcpy(pattrib->dst, GetAddr1Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->src, GetAddr2Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->bssid, GetAddr3Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++		//
++		_rtw_memcpy(pattrib->bssid,  mybssid, ETH_ALEN);
++
++
++		*psta = rtw_get_stainfo(pstapriv, pattrib->bssid); // get sta_info
++		if (*psta == NULL) {
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("can't get psta under MP_MODE ; drop pkt\n"));
++			#ifdef DBG_RX_DROP_FRAME
++			DBG_871X("DBG_RX_DROP_FRAME %s can't get psta under WIFI_MP_STATE ; drop pkt\n", __FUNCTION__);
++			#endif
++			ret= _FAIL;
++			goto exit;
++		}
++
++
++	}
++	else if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++	{
++		/* Special case */
++		ret = RTW_RX_HANDLED;
++		goto exit;
++	}
++	else
++	{
++		if(_rtw_memcmp(myhwaddr, pattrib->dst, ETH_ALEN)&& (!bmcast))
++		{
++			*psta = rtw_get_stainfo(pstapriv, pattrib->bssid); // get sta_info
++			if (*psta == NULL)
++			{
++				DBG_871X("issue_deauth to the ap=" MAC_FMT " for the reason(7)\n", MAC_ARG(pattrib->bssid));
++		
++				issue_deauth(adapter, pattrib->bssid, WLAN_REASON_CLASS3_FRAME_FROM_NONASSOC_STA);
++			}
++		}	
++	
++		ret = _FAIL;
++		#ifdef DBG_RX_DROP_FRAME
++		DBG_871X("DBG_RX_DROP_FRAME %s fw_state:0x%x\n", __FUNCTION__, get_fwstate(pmlmepriv));
++		#endif
++	}
++
++exit:
++
++_func_exit_;
++
++	return ret;
++
++}
++
++sint sta2ap_data_frame(
++	_adapter *adapter,
++	union recv_frame *precv_frame,
++	struct sta_info**psta );
++sint sta2ap_data_frame(
++	_adapter *adapter,
++	union recv_frame *precv_frame,
++	struct sta_info**psta )
++{
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib *pattrib = & precv_frame->u.hdr.attrib;
++	struct	sta_priv 		*pstapriv = &adapter->stapriv;
++	struct	mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++	unsigned char *mybssid  = get_bssid(pmlmepriv);	
++	sint ret=_SUCCESS;
++
++_func_enter_;
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++	{
++		//For AP mode, RA=BSSID, TX=STA(SRC_ADDR), A3=DST_ADDR
++		if(!_rtw_memcmp(pattrib->bssid, mybssid, ETH_ALEN))
++		{
++			ret= _FAIL;
++			goto exit;
++		}
++
++		*psta = rtw_get_stainfo(pstapriv, pattrib->src);
++		if (*psta == NULL)
++		{
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("can't get psta under AP_MODE; drop pkt\n"));
++			DBG_871X("issue_deauth to sta=" MAC_FMT " for the reason(7)\n", MAC_ARG(pattrib->src));
++
++			issue_deauth(adapter, pattrib->src, WLAN_REASON_CLASS3_FRAME_FROM_NONASSOC_STA);
++
++			ret = RTW_RX_HANDLED;
++			goto exit;
++		}
++
++		process_pwrbit_data(adapter, precv_frame);
++
++		if ((GetFrameSubType(ptr) & WIFI_QOS_DATA_TYPE) == WIFI_QOS_DATA_TYPE) {
++			process_wmmps_data(adapter, precv_frame);
++		}
++
++		if (GetFrameSubType(ptr) & BIT(6)) {
++			/* No data, will not indicate to upper layer, temporily count it here */
++			count_rx_stats(adapter, precv_frame, *psta);
++			ret = RTW_RX_HANDLED;
++			goto exit;
++		}
++	}
++	else {
++		u8 *myhwaddr = myid(&adapter->eeprompriv);
++		if (!_rtw_memcmp(pattrib->ra, myhwaddr, ETH_ALEN)) {
++			ret = RTW_RX_HANDLED;
++			goto exit;
++		}
++		DBG_871X("issue_deauth to sta=" MAC_FMT " for the reason(7)\n", MAC_ARG(pattrib->src));
++		issue_deauth(adapter, pattrib->src, WLAN_REASON_CLASS3_FRAME_FROM_NONASSOC_STA);
++		ret = RTW_RX_HANDLED;
++		goto exit;
++	}
++
++exit:
++
++_func_exit_;
++
++	return ret;
++
++}
++
++sint validate_recv_ctrl_frame(_adapter *padapter, union recv_frame *precv_frame);
++sint validate_recv_ctrl_frame(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_AP_MODE
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	//uint len = precv_frame->u.hdr.len;
++		
++	//DBG_871X("+validate_recv_ctrl_frame\n");
++
++	if (GetFrameType(pframe) != WIFI_CTRL_TYPE)
++	{		
++		return _FAIL;
++	}
++
++	//receive the frames that ra(a1) is my address
++	if (!_rtw_memcmp(GetAddr1Ptr(pframe), myid(&padapter->eeprompriv), ETH_ALEN))
++	{
++		return _FAIL;
++	}
++
++	//only handle ps-poll
++	if(GetFrameSubType(pframe) == WIFI_PSPOLL)
++	{
++		u16 aid;
++		u8 wmmps_ac=0;	
++		struct sta_info *psta=NULL;
++	
++		aid = GetAid(pframe);
++		psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++		
++		if((psta==NULL) || (psta->aid!=aid))
++		{
++			return _FAIL;
++		}
++
++		//for rx pkt statistics
++		psta->sta_stats.rx_ctrl_pkts++;
++
++		switch(pattrib->priority)
++		{
++			case 1:
++			case 2:
++				wmmps_ac = psta->uapsd_bk&BIT(0);
++				break;
++			case 4:
++			case 5:
++				wmmps_ac = psta->uapsd_vi&BIT(0);
++				break;
++			case 6:
++			case 7:
++				wmmps_ac = psta->uapsd_vo&BIT(0);
++				break;
++			case 0:
++			case 3:
++			default:
++				wmmps_ac = psta->uapsd_be&BIT(0);
++				break;	
++		}
++
++		if(wmmps_ac)
++			return _FAIL;
++
++		if(psta->state & WIFI_STA_ALIVE_CHK_STATE)
++		{					
++			DBG_871X("%s alive check-rx ps-poll\n", __func__);
++			psta->expire_to = pstapriv->expire_to;
++			psta->state ^= WIFI_STA_ALIVE_CHK_STATE;
++		}	
++
++		if((psta->state&WIFI_SLEEP_STATE) && (pstapriv->sta_dz_bitmap&BIT(psta->aid)))
++		{
++			_irqL irqL;	 
++			_list	*xmitframe_plist, *xmitframe_phead;
++			struct xmit_frame *pxmitframe=NULL;
++			struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++		
++			//_enter_critical_bh(&psta->sleep_q.lock, &irqL);
++			_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++			xmitframe_phead = get_list_head(&psta->sleep_q);
++			xmitframe_plist = get_next(xmitframe_phead);
++
++			if ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE)
++			{			
++				pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++				xmitframe_plist = get_next(xmitframe_plist);
++
++				rtw_list_delete(&pxmitframe->list);
++
++				psta->sleepq_len--;
++
++				if(psta->sleepq_len>0)
++					pxmitframe->attrib.mdata = 1;
++                                else
++					pxmitframe->attrib.mdata = 0;
++
++				pxmitframe->attrib.triggered = 1;
++
++	                        //DBG_871X("handling ps-poll, q_len=%d, tim=%x\n", psta->sleepq_len, pstapriv->tim_bitmap);
++
++#if 0
++				_exit_critical_bh(&psta->sleep_q.lock, &irqL);		
++				if(rtw_hal_xmit(padapter, pxmitframe) == _TRUE)
++				{		
++					rtw_os_xmit_complete(padapter, pxmitframe);
++				}
++				_enter_critical_bh(&psta->sleep_q.lock, &irqL);	
++#endif
++				rtw_hal_xmitframe_enqueue(padapter, pxmitframe);
++
++				if(psta->sleepq_len==0)
++				{
++					pstapriv->tim_bitmap &= ~BIT(psta->aid);
++
++					//DBG_871X("after handling ps-poll, tim=%x\n", pstapriv->tim_bitmap);
++
++					//upate BCN for TIM IE
++					//update_BCNTIM(padapter);		
++					update_beacon(padapter, _TIM_IE_, NULL, _FALSE);
++				}
++				
++				//_exit_critical_bh(&psta->sleep_q.lock, &irqL);
++				_exit_critical_bh(&pxmitpriv->lock, &irqL);
++				
++			}
++			else
++			{
++				//_exit_critical_bh(&psta->sleep_q.lock, &irqL);
++				_exit_critical_bh(&pxmitpriv->lock, &irqL);
++			
++				//DBG_871X("no buffered packets to xmit\n");
++				if(pstapriv->tim_bitmap&BIT(psta->aid))
++				{
++					if(psta->sleepq_len==0)
++					{
++						DBG_871X("no buffered packets to xmit\n");
++
++						//issue nulldata with More data bit = 0 to indicate we have no buffered packets
++						issue_nulldata(padapter, psta->hwaddr, 0, 0, 0);
++					}
++					else
++					{
++						DBG_871X("error!psta->sleepq_len=%d\n", psta->sleepq_len);
++						psta->sleepq_len=0;						
++					}
++				
++					pstapriv->tim_bitmap &= ~BIT(psta->aid);					
++
++					//upate BCN for TIM IE
++					//update_BCNTIM(padapter);
++					update_beacon(padapter, _TIM_IE_, NULL, _FALSE);
++				}
++				
++			}				
++			
++		}
++		
++	}
++	
++#endif
++
++	return _FAIL;
++
++}
++
++union recv_frame* recvframe_chk_defrag(PADAPTER padapter, union recv_frame *precv_frame);
++sint validate_recv_mgnt_frame(PADAPTER padapter, union recv_frame *precv_frame);
++sint validate_recv_mgnt_frame(PADAPTER padapter, union recv_frame *precv_frame)
++{
++	//struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++
++	RT_TRACE(_module_rtl871x_recv_c_, _drv_info_, ("+validate_recv_mgnt_frame\n"));
++
++#if 0
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++	{
++#ifdef CONFIG_NATIVEAP_MLME
++		mgt_dispatcher(padapter, precv_frame);
++#else
++		rtw_hostapd_mlme_rx(padapter, precv_frame);
++#endif
++	}
++	else
++	{
++		mgt_dispatcher(padapter, precv_frame);
++	}
++#endif
++
++	precv_frame = recvframe_chk_defrag(padapter, precv_frame);
++	if (precv_frame == NULL) {
++		RT_TRACE(_module_rtl871x_recv_c_, _drv_notice_,("%s: fragment packet\n",__FUNCTION__));
++		return _SUCCESS;
++	}
++
++	{
++		//for rx pkt statistics
++		struct sta_info *psta = rtw_get_stainfo(&padapter->stapriv, GetAddr2Ptr(precv_frame->u.hdr.rx_data));
++		if (psta) {
++			psta->sta_stats.rx_mgnt_pkts++;
++			if (GetFrameSubType(precv_frame->u.hdr.rx_data) == WIFI_BEACON)
++				psta->sta_stats.rx_beacon_pkts++;
++			else if (GetFrameSubType(precv_frame->u.hdr.rx_data) == WIFI_PROBEREQ)
++				psta->sta_stats.rx_probereq_pkts++;
++			else if (GetFrameSubType(precv_frame->u.hdr.rx_data) == WIFI_PROBERSP) {
++				if (_rtw_memcmp(padapter->eeprompriv.mac_addr, GetAddr1Ptr(precv_frame->u.hdr.rx_data), ETH_ALEN) == _TRUE)
++					psta->sta_stats.rx_probersp_pkts++;
++				else if (is_broadcast_mac_addr(GetAddr1Ptr(precv_frame->u.hdr.rx_data))
++					|| is_multicast_mac_addr(GetAddr1Ptr(precv_frame->u.hdr.rx_data)))
++					psta->sta_stats.rx_probersp_bm_pkts++;
++				else 
++					psta->sta_stats.rx_probersp_uo_pkts++;
++			}
++		}
++	}
++
++#ifdef CONFIG_INTEL_PROXIM
++	if(padapter->proximity.proxim_on==_TRUE)
++	{
++		struct rx_pkt_attrib * pattrib=&precv_frame->u.hdr.attrib;
++		 struct recv_stat* prxstat=( struct recv_stat * )  precv_frame->u.hdr.rx_head ;
++		 u8 * pda,*psa,*pbssid,*ptr;
++		 ptr=precv_frame->u.hdr.rx_data; 
++		pda = get_da(ptr);
++		psa = get_sa(ptr);
++		pbssid = get_hdr_bssid(ptr);
++
++
++		_rtw_memcpy(pattrib->dst, pda, ETH_ALEN);
++		_rtw_memcpy(pattrib->src, psa, ETH_ALEN);
++
++		_rtw_memcpy(pattrib->bssid, pbssid, ETH_ALEN);
++
++	switch(pattrib->to_fr_ds)
++	{
++		case 0:
++			_rtw_memcpy(pattrib->ra, pda, ETH_ALEN);
++			_rtw_memcpy(pattrib->ta, psa, ETH_ALEN);
++			break;
++
++		case 1:
++			_rtw_memcpy(pattrib->ra, pda, ETH_ALEN);
++			_rtw_memcpy(pattrib->ta, pbssid, ETH_ALEN);
++			break;
++
++		case 2:
++			_rtw_memcpy(pattrib->ra, pbssid, ETH_ALEN);
++			_rtw_memcpy(pattrib->ta, psa, ETH_ALEN);
++			break;
++
++		case 3:
++			_rtw_memcpy(pattrib->ra, GetAddr1Ptr(ptr), ETH_ALEN);
++			_rtw_memcpy(pattrib->ta, GetAddr2Ptr(ptr), ETH_ALEN);
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,(" case 3\n"));
++			break;
++
++		default:
++			break;
++
++		}	
++			pattrib->priority=0;
++			pattrib->hdrlen = pattrib->to_fr_ds==3 ? 30 : 24;
++
++		 padapter->proximity.proxim_rx(padapter,precv_frame);
++	}
++#endif
++	mgt_dispatcher(padapter, precv_frame);
++
++	return _SUCCESS;
++
++}
++
++sint validate_recv_data_frame(_adapter *adapter, union recv_frame *precv_frame);
++sint validate_recv_data_frame(_adapter *adapter, union recv_frame *precv_frame)
++{
++	u8 bretry;
++	u8 *psa, *pda, *pbssid;
++	struct sta_info *psta = NULL;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib	*pattrib = & precv_frame->u.hdr.attrib;
++	struct security_priv	*psecuritypriv = &adapter->securitypriv;	
++	sint ret = _SUCCESS;
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &adapter->tdlsinfo;
++#endif //CONFIG_TDLS
++
++_func_enter_;
++
++	bretry = GetRetry(ptr);
++	pda = get_da(ptr);
++	psa = get_sa(ptr);
++	pbssid = get_hdr_bssid(ptr);
++
++	if(pbssid == NULL){
++		ret= _FAIL;
++		goto exit;
++	}
++
++	_rtw_memcpy(pattrib->dst, pda, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, psa, ETH_ALEN);
++
++	_rtw_memcpy(pattrib->bssid, pbssid, ETH_ALEN);
++
++	switch(pattrib->to_fr_ds)
++	{
++		case 0:
++			_rtw_memcpy(pattrib->ra, pda, ETH_ALEN);
++			_rtw_memcpy(pattrib->ta, psa, ETH_ALEN);
++			ret = sta2sta_data_frame(adapter, precv_frame, &psta);
++			break;
++
++		case 1:
++			_rtw_memcpy(pattrib->ra, pda, ETH_ALEN);
++			_rtw_memcpy(pattrib->ta, pbssid, ETH_ALEN);
++			ret = ap2sta_data_frame(adapter, precv_frame, &psta);
++			break;
++
++		case 2:
++			_rtw_memcpy(pattrib->ra, pbssid, ETH_ALEN);
++			_rtw_memcpy(pattrib->ta, psa, ETH_ALEN);
++			ret = sta2ap_data_frame(adapter, precv_frame, &psta);
++			break;
++
++		case 3:
++			_rtw_memcpy(pattrib->ra, GetAddr1Ptr(ptr), ETH_ALEN);
++			_rtw_memcpy(pattrib->ta, GetAddr2Ptr(ptr), ETH_ALEN);
++			ret =_FAIL;
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,(" case 3\n"));
++			break;
++
++		default:
++			ret =_FAIL;
++			break;
++
++	}
++
++	if(ret ==_FAIL){
++		#ifdef DBG_RX_DROP_FRAME
++		DBG_871X("DBG_RX_DROP_FRAME %s case:%d, res:%d\n", __FUNCTION__, pattrib->to_fr_ds, ret);
++		#endif
++		goto exit;
++	} else if (ret == RTW_RX_HANDLED) {
++		goto exit;
++	}
++
++
++	if(psta==NULL){
++		RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,(" after to_fr_ds_chk; psta==NULL \n"));
++		ret= _FAIL;
++		goto exit;
++	}
++	
++	//psta->rssi = prxcmd->rssi;
++	//psta->signal_quality= prxcmd->sq;
++	precv_frame->u.hdr.psta = psta;
++		
++
++	pattrib->amsdu=0;
++	pattrib->ack_policy = 0;
++	//parsing QC field
++	if(pattrib->qos == 1)
++	{
++		pattrib->priority = GetPriority((ptr + 24));
++		pattrib->ack_policy = GetAckpolicy((ptr + 24));
++		pattrib->amsdu = GetAMsdu((ptr + 24));
++		pattrib->hdrlen = pattrib->to_fr_ds==3 ? 32 : 26;
++
++		if(pattrib->priority!=0 && pattrib->priority!=3)
++		{
++			adapter->recvpriv.bIsAnyNonBEPkts = _TRUE;
++		}
++	}
++	else
++	{
++		pattrib->priority=0;
++		pattrib->hdrlen = pattrib->to_fr_ds==3 ? 30 : 24;
++	}
++
++
++	if(pattrib->order)//HT-CTRL 11n
++	{
++		pattrib->hdrlen += 4;
++	}
++
++	precv_frame->u.hdr.preorder_ctrl = &psta->recvreorder_ctrl[pattrib->priority];
++
++	// decache, drop duplicate recv packets
++	if(recv_decache(precv_frame, bretry, &psta->sta_recvpriv.rxcache) == _FAIL)
++	{
++		RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("decache : drop pkt\n"));
++		ret= _FAIL;
++		goto exit;
++	}
++
++#if 0
++	if(psta->tdls_sta_state & TDLS_LINKED_STATE )
++	{
++		if(psta->dot118021XPrivacy==_AES_)
++			pattrib->encrypt=psta->dot118021XPrivacy;
++	}
++#endif //CONFIG_TDLS
++
++	if(pattrib->privacy){
++
++		RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("validate_recv_data_frame:pattrib->privacy=%x\n", pattrib->privacy));
++		RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("\n ^^^^^^^^^^^IS_MCAST(pattrib->ra(0x%02x))=%d^^^^^^^^^^^^^^^6\n", pattrib->ra[0],IS_MCAST(pattrib->ra)));
++
++#ifdef CONFIG_TDLS
++		if((psta->tdls_sta_state & TDLS_LINKED_STATE) && (psta->dot118021XPrivacy==_AES_))
++		{
++				pattrib->encrypt=psta->dot118021XPrivacy;
++		}
++		else
++#endif //CONFIG_TDLS
++		GET_ENCRY_ALGO(psecuritypriv, psta, pattrib->encrypt, IS_MCAST(pattrib->ra));
++
++		RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("\n pattrib->encrypt=%d\n",pattrib->encrypt));
++
++		SET_ICE_IV_LEN(pattrib->iv_len, pattrib->icv_len, pattrib->encrypt);
++	}
++	else
++	{
++		pattrib->encrypt = 0;
++		pattrib->iv_len = pattrib->icv_len = 0;
++	}
++
++exit:
++
++_func_exit_;
++
++	return ret;
++}
++
++#ifdef CONFIG_IEEE80211W
++static sint validate_80211w_mgmt(_adapter *adapter, union recv_frame *precv_frame)
++{
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct rx_pkt_attrib *pattrib = & precv_frame->u.hdr.attrib;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	u8 type;
++	u8 subtype;
++			
++	type =  GetFrameType(ptr);
++	subtype = GetFrameSubType(ptr); //bit(7)~bit(2)
++			
++	//only support station mode
++	if(check_fwstate(pmlmepriv, WIFI_STATION_STATE) && check_fwstate(pmlmepriv, _FW_LINKED) 
++		&& adapter->securitypriv.binstallBIPkey == _TRUE)
++	{
++		//unicast management frame decrypt
++		if(pattrib->privacy && !(IS_MCAST(GetAddr1Ptr(ptr))) && 
++			(subtype == WIFI_DEAUTH || subtype == WIFI_DISASSOC || subtype == WIFI_ACTION))
++		{
++			u8 *ppp, *mgmt_DATA;
++			u32 data_len=0;
++			ppp = GetAddr2Ptr(ptr);
++			
++			pattrib->bdecrypted = 0;
++			pattrib->encrypt = _AES_;
++			pattrib->hdrlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++			//set iv and icv length
++			SET_ICE_IV_LEN(pattrib->iv_len, pattrib->icv_len, pattrib->encrypt);
++			_rtw_memcpy(pattrib->ra, GetAddr1Ptr(ptr), ETH_ALEN);
++			_rtw_memcpy(pattrib->ta, GetAddr2Ptr(ptr), ETH_ALEN);
++			//actual management data frame body
++			data_len = pattrib->pkt_len - pattrib->hdrlen - pattrib->iv_len - pattrib->icv_len;
++			mgmt_DATA = rtw_zmalloc(data_len);
++			if(mgmt_DATA == NULL)
++			{
++				DBG_871X("%s mgmt allocate fail  !!!!!!!!!\n", __FUNCTION__);
++				goto validate_80211w_fail;
++			}
++			/*//dump the packet content before decrypt
++			{
++				int pp;
++				printk("pattrib->pktlen = %d =>", pattrib->pkt_len);
++				for(pp=0;pp< pattrib->pkt_len; pp++)
++					printk(" %02x ", ptr[pp]);
++				printk("\n");
++			}*/
++			
++			precv_frame = decryptor(adapter, precv_frame);
++			//save actual management data frame body
++			_rtw_memcpy(mgmt_DATA, ptr+pattrib->hdrlen+pattrib->iv_len, data_len);
++			//overwrite the iv field
++			_rtw_memcpy(ptr+pattrib->hdrlen, mgmt_DATA, data_len);
++			//remove the iv and icv length
++			pattrib->pkt_len = pattrib->pkt_len - pattrib->iv_len - pattrib->icv_len;
++			rtw_mfree(mgmt_DATA, data_len);
++			/*//print packet content after decryption
++			{
++				int pp;
++				printk("after decryption pattrib->pktlen = %d @@=>", pattrib->pkt_len);
++				for(pp=0;pp< pattrib->pkt_len; pp++)
++					printk(" %02x ", ptr[pp]);
++				printk("\n");
++			}*/
++			if(!precv_frame)
++			{
++				DBG_871X("%s mgmt descrypt fail  !!!!!!!!!\n", __FUNCTION__);
++				goto validate_80211w_fail;
++			}
++		}
++		else if(IS_MCAST(GetAddr1Ptr(ptr)) &&
++			(subtype == WIFI_DEAUTH || subtype == WIFI_DISASSOC))
++		{
++			sint BIP_ret = _SUCCESS;
++			//verify BIP MME IE of broadcast/multicast de-auth/disassoc packet
++			BIP_ret = rtw_BIP_verify(adapter, (u8 * )precv_frame);
++			if(BIP_ret == _FAIL)
++			{
++				//DBG_871X("802.11w BIP verify fail\n");
++				goto validate_80211w_fail;
++			}
++			else if(BIP_ret == RTW_RX_HANDLED)
++			{
++				//DBG_871X("802.11w recv none protected packet\n");
++				//issue sa query request
++				issue_action_SA_Query(adapter, NULL, 0, 0);
++				goto validate_80211w_fail;
++			}
++		}//802.11w protect
++		else
++		{
++			if(subtype == WIFI_ACTION)
++			{
++				//according 802.11-2012 standard, these five types are not robust types
++				if( ptr[WLAN_HDR_A3_LEN] != RTW_WLAN_CATEGORY_PUBLIC          &&
++					ptr[WLAN_HDR_A3_LEN] != RTW_WLAN_CATEGORY_HT              &&
++					ptr[WLAN_HDR_A3_LEN] != RTW_WLAN_CATEGORY_UNPROTECTED_WNM &&
++					ptr[WLAN_HDR_A3_LEN] != RTW_WLAN_CATEGORY_SELF_PROTECTED  &&
++					ptr[WLAN_HDR_A3_LEN] != RTW_WLAN_CATEGORY_P2P)
++				{
++					DBG_871X("action frame category=%d should robust\n", ptr[WLAN_HDR_A3_LEN]);
++					goto validate_80211w_fail;
++				}
++			}
++			else if(subtype == WIFI_DEAUTH || subtype == WIFI_DISASSOC)
++			{
++				DBG_871X("802.11w recv none protected packet\n");
++				//issue sa query request
++				issue_action_SA_Query(adapter, NULL, 0, 0);
++				goto validate_80211w_fail;
++			}
++		}
++	}
++	return _SUCCESS;
++			
++validate_80211w_fail:
++	return _FAIL;
++	
++}
++#endif //CONFIG_IEEE80211W
++
++sint validate_recv_frame(_adapter *adapter, union recv_frame *precv_frame);
++sint validate_recv_frame(_adapter *adapter, union recv_frame *precv_frame)
++{
++	//shall check frame subtype, to / from ds, da, bssid
++
++	//then call check if rx seq/frag. duplicated.
++
++	u8 type;
++	u8 subtype;
++	sint retval = _SUCCESS;
++
++	struct rx_pkt_attrib *pattrib = & precv_frame->u.hdr.attrib;
++
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	u8  ver =(unsigned char) (*ptr)&0x3 ;
++#ifdef CONFIG_FIND_BEST_CHANNEL
++	struct mlme_ext_priv *pmlmeext = &adapter->mlmeextpriv;
++#endif
++
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &adapter->tdlsinfo;
++#endif //CONFIG_TDLS
++
++_func_enter_;
++
++
++#ifdef CONFIG_FIND_BEST_CHANNEL
++	if (pmlmeext->sitesurvey_res.state == SCAN_PROCESS) {
++		int ch_set_idx = rtw_ch_set_search_ch(pmlmeext->channel_set, rtw_get_oper_ch(adapter));
++		if (ch_set_idx >= 0)
++			pmlmeext->channel_set[ch_set_idx].rx_count++;
++	}
++#endif
++
++#ifdef CONFIG_TDLS
++	if(ptdlsinfo->ch_sensing==1 && ptdlsinfo->cur_channel !=0){
++		ptdlsinfo->collect_pkt_num[ptdlsinfo->cur_channel-1]++;
++	}
++#endif //CONFIG_TDLS
++
++#ifdef RTK_DMP_PLATFORM
++	if ( 0 )
++	{
++		DBG_871X("++\n");
++		{
++			int i;
++			for(i=0; i<64;i=i+8)
++				DBG_871X("%02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X:", *(ptr+i),
++				*(ptr+i+1), *(ptr+i+2) ,*(ptr+i+3) ,*(ptr+i+4),*(ptr+i+5), *(ptr+i+6), *(ptr+i+7));
++
++		}
++		DBG_871X("--\n");
++	}
++#endif //RTK_DMP_PLATFORM
++
++	//add version chk
++	if(ver!=0){
++		RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("validate_recv_data_frame fail! (ver!=0)\n"));
++		retval= _FAIL;
++		goto exit;
++	}
++
++	type =  GetFrameType(ptr);
++	subtype = GetFrameSubType(ptr); //bit(7)~bit(2)
++
++	pattrib->to_fr_ds = get_tofr_ds(ptr);
++
++	pattrib->frag_num = GetFragNum(ptr);
++	pattrib->seq_num = GetSequence(ptr);
++
++	pattrib->pw_save = GetPwrMgt(ptr);
++	pattrib->mfrag = GetMFrag(ptr);
++	pattrib->mdata = GetMData(ptr);
++	pattrib->privacy = GetPrivacy(ptr);
++	pattrib->order = GetOrder(ptr);
++#if 0 //for debug
++
++if(pHalData->bDumpRxPkt ==1){
++	int i;
++	DBG_871X("############################# \n");
++	
++	for(i=0; i<64;i=i+8)
++		DBG_871X("%02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X:\n", *(ptr+i),
++		*(ptr+i+1), *(ptr+i+2) ,*(ptr+i+3) ,*(ptr+i+4),*(ptr+i+5), *(ptr+i+6), *(ptr+i+7));
++	DBG_871X("############################# \n");
++}
++else if(pHalData->bDumpRxPkt ==2){
++	if(type== WIFI_MGT_TYPE){
++		int i;
++		DBG_871X("############################# \n");
++
++		for(i=0; i<64;i=i+8)
++			DBG_871X("%02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X:\n", *(ptr+i),
++			*(ptr+i+1), *(ptr+i+2) ,*(ptr+i+3) ,*(ptr+i+4),*(ptr+i+5), *(ptr+i+6), *(ptr+i+7));
++		DBG_871X("############################# \n");
++	}
++}
++else if(pHalData->bDumpRxPkt ==3){
++	if(type== WIFI_DATA_TYPE){
++		int i;
++		DBG_871X("############################# \n");
++		
++		for(i=0; i<64;i=i+8)
++			DBG_871X("%02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X:\n", *(ptr+i),
++			*(ptr+i+1), *(ptr+i+2) ,*(ptr+i+3) ,*(ptr+i+4),*(ptr+i+5), *(ptr+i+6), *(ptr+i+7));
++		DBG_871X("############################# \n");
++	}
++}
++
++#endif
++	switch (type)
++	{
++		case WIFI_MGT_TYPE: //mgnt
++#ifdef CONFIG_IEEE80211W
++			if(validate_80211w_mgmt(adapter, precv_frame) == _FAIL)
++			{
++				retval = _FAIL;
++				break;
++			}
++#endif //CONFIG_IEEE80211W
++			
++			retval = validate_recv_mgnt_frame(adapter, precv_frame);
++			if (retval == _FAIL)
++			{
++				RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("validate_recv_mgnt_frame fail\n"));
++			}
++			retval = _FAIL; // only data frame return _SUCCESS
++			break;
++		case WIFI_CTRL_TYPE: //ctrl
++			retval = validate_recv_ctrl_frame(adapter, precv_frame);
++			if (retval == _FAIL)
++			{
++				RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("validate_recv_ctrl_frame fail\n"));
++			}
++			retval = _FAIL; // only data frame return _SUCCESS
++			break;
++		case WIFI_DATA_TYPE: //data
++			rtw_led_control(adapter, LED_CTL_RX);
++			pattrib->qos = (subtype & BIT(7))? 1:0;
++			retval = validate_recv_data_frame(adapter, precv_frame);
++			if (retval == _FAIL)
++			{
++				struct recv_priv *precvpriv = &adapter->recvpriv;
++				RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("validate_recv_data_frame fail\n"));
++				precvpriv->rx_drop++;
++			}
++			break;
++		default:
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("validate_recv_data_frame fail! type=0x%x\n", type));
++			#ifdef DBG_RX_DROP_FRAME
++			DBG_871X("DBG_RX_DROP_FRAME validate_recv_data_frame fail! type=0x%x\n", type);
++			#endif
++			retval = _FAIL;
++			break;
++	}
++
++exit:
++
++_func_exit_;
++
++	return retval;
++}
++
++
++//remove the wlanhdr and add the eth_hdr
++#if 1
++
++sint wlanhdr_to_ethhdr ( union recv_frame *precvframe);
++sint wlanhdr_to_ethhdr ( union recv_frame *precvframe)
++{
++	sint	rmv_len;
++	u16	eth_type, len;
++	u8	bsnaphdr;
++	u8	*psnap_type;
++	struct ieee80211_snap_hdr	*psnap;
++	
++	sint ret=_SUCCESS;
++	_adapter			*adapter =precvframe->u.hdr.adapter;
++	struct mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++
++	u8	*ptr = get_recvframe_data(precvframe) ; // point to frame_ctrl field
++	struct rx_pkt_attrib *pattrib = & precvframe->u.hdr.attrib;
++
++_func_enter_;
++
++	if(pattrib->encrypt){
++		recvframe_pull_tail(precvframe, pattrib->icv_len);	
++	}
++
++	psnap=(struct ieee80211_snap_hdr	*)(ptr+pattrib->hdrlen + pattrib->iv_len);
++	psnap_type=ptr+pattrib->hdrlen + pattrib->iv_len+SNAP_SIZE;
++	/* convert hdr + possible LLC headers into Ethernet header */
++	//eth_type = (psnap_type[0] << 8) | psnap_type[1];
++	if((_rtw_memcmp(psnap, rtw_rfc1042_header, SNAP_SIZE) &&
++		(_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_IPX, 2) == _FALSE) && 
++		(_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_APPLETALK_AARP, 2)==_FALSE) )||
++		//eth_type != ETH_P_AARP && eth_type != ETH_P_IPX) ||
++		 _rtw_memcmp(psnap, rtw_bridge_tunnel_header, SNAP_SIZE)){
++		/* remove RFC1042 or Bridge-Tunnel encapsulation and replace EtherType */
++		bsnaphdr = _TRUE;
++	}
++	else {
++		/* Leave Ethernet header part of hdr and full payload */
++		bsnaphdr = _FALSE;
++	}
++
++	rmv_len = pattrib->hdrlen + pattrib->iv_len +(bsnaphdr?SNAP_SIZE:0);
++	len = precvframe->u.hdr.len - rmv_len;
++
++	RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("\n===pattrib->hdrlen: %x,  pattrib->iv_len:%x ===\n\n", pattrib->hdrlen,  pattrib->iv_len));
++
++	_rtw_memcpy(&eth_type, ptr+rmv_len, 2);
++	eth_type= ntohs((unsigned short )eth_type); //pattrib->ether_type
++	pattrib->eth_type = eth_type;
++
++	if ((check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE))	   	
++	{
++		ptr += rmv_len ;	
++		*ptr = 0x87;
++		*(ptr+1) = 0x12;
++
++		eth_type = 0x8712;
++		// append rx status for mp test packets
++		ptr = recvframe_pull(precvframe, (rmv_len-sizeof(struct ethhdr)+2)-24);
++		_rtw_memcpy(ptr, get_rxmem(precvframe), 24);
++		ptr+=24;
++	}
++	else {
++		ptr = recvframe_pull(precvframe, (rmv_len-sizeof(struct ethhdr)+ (bsnaphdr?2:0)));
++	}
++
++	_rtw_memcpy(ptr, pattrib->dst, ETH_ALEN);
++	_rtw_memcpy(ptr+ETH_ALEN, pattrib->src, ETH_ALEN);
++
++	if(!bsnaphdr) {
++		len = htons(len);
++		_rtw_memcpy(ptr+12, &len, 2);
++	}
++
++_func_exit_;	
++	return ret;
++
++}
++
++#else
++
++sint wlanhdr_to_ethhdr ( union recv_frame *precvframe)
++{
++	sint rmv_len;
++	u16 eth_type;
++	u8	bsnaphdr;
++	u8	*psnap_type;
++	struct ieee80211_snap_hdr	*psnap;
++
++	sint ret=_SUCCESS;
++	_adapter	*adapter =precvframe->u.hdr.adapter;
++	struct	mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++
++	u8* ptr = get_recvframe_data(precvframe) ; // point to frame_ctrl field
++	struct rx_pkt_attrib *pattrib = & precvframe->u.hdr.attrib;
++	struct _vlan *pvlan = NULL;
++
++_func_enter_;
++
++	psnap=(struct ieee80211_snap_hdr	*)(ptr+pattrib->hdrlen + pattrib->iv_len);
++	psnap_type=ptr+pattrib->hdrlen + pattrib->iv_len+SNAP_SIZE;
++	if (psnap->dsap==0xaa && psnap->ssap==0xaa && psnap->ctrl==0x03)
++	{
++		if (_rtw_memcmp(psnap->oui, oui_rfc1042, WLAN_IEEE_OUI_LEN))
++			bsnaphdr=_TRUE;//wlan_pkt_format = WLAN_PKT_FORMAT_SNAP_RFC1042;	
++		else if (_rtw_memcmp(psnap->oui, SNAP_HDR_APPLETALK_DDP, WLAN_IEEE_OUI_LEN) &&
++			_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_APPLETALK_DDP, 2) )
++			bsnaphdr=_TRUE;	//wlan_pkt_format = WLAN_PKT_FORMAT_APPLETALK;
++		else if (_rtw_memcmp( psnap->oui, oui_8021h, WLAN_IEEE_OUI_LEN))
++			bsnaphdr=_TRUE;	//wlan_pkt_format = WLAN_PKT_FORMAT_SNAP_TUNNEL;
++		else {
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("drop pkt due to invalid frame format!\n"));
++			ret= _FAIL;
++			goto exit;
++		}
++
++	} else
++		bsnaphdr=_FALSE;//wlan_pkt_format = WLAN_PKT_FORMAT_OTHERS;
++
++	rmv_len = pattrib->hdrlen + pattrib->iv_len +(bsnaphdr?SNAP_SIZE:0);
++	RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("===pattrib->hdrlen: %x,  pattrib->iv_len:%x ===\n", pattrib->hdrlen,  pattrib->iv_len));
++
++	if (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE)
++	{
++		ptr += rmv_len ;
++		*ptr = 0x87;
++		*(ptr+1) = 0x12;
++
++		//back to original pointer
++		ptr -= rmv_len;
++	}
++
++	ptr += rmv_len ;
++
++	_rtw_memcpy(&eth_type, ptr, 2);
++	eth_type= ntohs((unsigned short )eth_type); //pattrib->ether_type
++	ptr +=2;
++
++	if(pattrib->encrypt){
++		recvframe_pull_tail(precvframe, pattrib->icv_len);
++	}
++
++	if(eth_type == 0x8100) //vlan
++	{
++		pvlan = (struct _vlan *) ptr;
++
++		//eth_type = get_vlan_encap_proto(pvlan);
++		//eth_type = pvlan->h_vlan_encapsulated_proto;//?
++		rmv_len += 4;
++		ptr+=4;
++	}
++
++	if(eth_type==0x0800)//ip
++	{
++		//struct iphdr*  piphdr = (struct iphdr*) ptr;
++		//__u8 tos = (unsigned char)(pattrib->priority & 0xff);
++
++		//piphdr->tos = tos;
++
++		//if (piphdr->protocol == 0x06)
++		//{
++		//	RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("@@@===recv tcp len:%d @@@===\n", precvframe->u.hdr.len));
++		//}
++	}
++	else if(eth_type==0x8712)// append rx status for mp test packets
++	{
++		//ptr -= 16;
++		//_rtw_memcpy(ptr, get_rxmem(precvframe), 16);
++	}
++	else
++	{
++#ifdef PLATFORM_OS_XP
++		NDIS_PACKET_8021Q_INFO VlanPriInfo;
++		UINT32 UserPriority = precvframe->u.hdr.attrib.priority;
++		UINT32 VlanID = (pvlan!=NULL ? get_vlan_id(pvlan) : 0 );
++
++		VlanPriInfo.Value =          // Get current value.
++				NDIS_PER_PACKET_INFO_FROM_PACKET(precvframe->u.hdr.pkt, Ieee8021QInfo);
++
++		VlanPriInfo.TagHeader.UserPriority = UserPriority;
++		VlanPriInfo.TagHeader.VlanId =  VlanID ;
++
++		VlanPriInfo.TagHeader.CanonicalFormatId = 0; // Should be zero.
++		VlanPriInfo.TagHeader.Reserved = 0; // Should be zero.
++		NDIS_PER_PACKET_INFO_FROM_PACKET(precvframe->u.hdr.pkt, Ieee8021QInfo) = VlanPriInfo.Value;
++#endif
++	}
++
++	if(eth_type==0x8712)// append rx status for mp test packets
++	{
++		ptr = recvframe_pull(precvframe, (rmv_len-sizeof(struct ethhdr)+2)-24);
++		_rtw_memcpy(ptr, get_rxmem(precvframe), 24);
++		ptr+=24;
++	}
++	else
++		ptr = recvframe_pull(precvframe, (rmv_len-sizeof(struct ethhdr)+2));
++
++	_rtw_memcpy(ptr, pattrib->dst, ETH_ALEN);
++	_rtw_memcpy(ptr+ETH_ALEN, pattrib->src, ETH_ALEN);
++
++	eth_type = htons((unsigned short)eth_type) ;
++	_rtw_memcpy(ptr+12, &eth_type, 2);
++
++exit:
++
++_func_exit_;
++
++	return ret;
++}
++#endif
++
++
++#ifdef CONFIG_SDIO_HCI
++#ifdef PLATFORM_LINUX
++static void recvframe_expand_pkt(
++	PADAPTER padapter,
++	union recv_frame *prframe)
++{
++	struct recv_frame_hdr *pfhdr;
++	_pkt *ppkt;
++	u8 shift_sz;
++	u32 alloc_sz;
++
++
++	pfhdr = &prframe->u.hdr;
++
++	//	6 is for IP header 8 bytes alignment in QoS packet case.
++	if (pfhdr->attrib.qos)
++		shift_sz = 6;
++	else
++		shift_sz = 0;
++
++	// for first fragment packet, need to allocate
++	// (1536 + RXDESC_SIZE + drvinfo_sz) to reassemble packet
++	//	8 is for skb->data 8 bytes alignment.
++//	alloc_sz = _RND(1536 + RXDESC_SIZE + pfhdr->attrib.drvinfosize + shift_sz + 8, 128);
++	alloc_sz = 1664; // round (1536 + 24 + 32 + shift_sz + 8) to 128 bytes alignment
++
++	//3 1. alloc new skb
++	// prepare extra space for 4 bytes alignment
++	ppkt = rtw_skb_alloc(alloc_sz);
++
++	if (!ppkt) return; // no way to expand
++
++	//3 2. Prepare new skb to replace & release old skb
++	// force ppkt->data at 8-byte alignment address
++	skb_reserve(ppkt, 8 - ((SIZE_PTR)ppkt->data & 7));
++	// force ip_hdr at 8-byte alignment address according to shift_sz
++	skb_reserve(ppkt, shift_sz);
++
++	// copy data to new pkt
++	_rtw_memcpy(skb_put(ppkt, pfhdr->len), pfhdr->rx_data, pfhdr->len);
++
++	rtw_skb_free(pfhdr->pkt);
++
++	// attach new pkt to recvframe
++	pfhdr->pkt = ppkt;
++	pfhdr->rx_head = ppkt->head;
++	pfhdr->rx_data = ppkt->data;
++	pfhdr->rx_tail = skb_tail_pointer(ppkt);
++	pfhdr->rx_end = skb_end_pointer(ppkt);
++}
++#else
++#warning "recvframe_expand_pkt not implement, defrag may crash system"
++#endif
++#endif
++
++//perform defrag
++union recv_frame * recvframe_defrag(_adapter *adapter,_queue *defrag_q);
++union recv_frame * recvframe_defrag(_adapter *adapter,_queue *defrag_q)
++{
++	_list	 *plist, *phead;
++	u8	*data,wlanhdr_offset;
++	u8	curfragnum;
++	struct recv_frame_hdr *pfhdr,*pnfhdr;
++	union recv_frame* prframe, *pnextrframe;
++	_queue	*pfree_recv_queue;
++
++_func_enter_;
++
++	curfragnum=0;
++	pfree_recv_queue=&adapter->recvpriv.free_recv_queue;
++
++	phead = get_list_head(defrag_q);
++	plist = get_next(phead);
++	prframe = LIST_CONTAINOR(plist, union recv_frame, u);
++	pfhdr=&prframe->u.hdr;
++	rtw_list_delete(&(prframe->u.list));
++
++	if(curfragnum!=pfhdr->attrib.frag_num)
++	{
++		//the first fragment number must be 0
++		//free the whole queue
++		rtw_free_recvframe(prframe, pfree_recv_queue);
++		rtw_free_recvframe_queue(defrag_q, pfree_recv_queue);
++
++		return NULL;
++	}
++
++#ifdef CONFIG_SDIO_HCI
++	recvframe_expand_pkt(adapter, prframe);
++#endif
++
++	curfragnum++;
++
++	plist= get_list_head(defrag_q);
++
++	plist = get_next(plist);
++
++	data=get_recvframe_data(prframe);
++
++	while(rtw_end_of_queue_search(phead, plist) == _FALSE)
++	{
++		pnextrframe = LIST_CONTAINOR(plist, union recv_frame , u);
++		pnfhdr=&pnextrframe->u.hdr;
++
++
++		//check the fragment sequence  (2nd ~n fragment frame)
++
++		if(curfragnum!=pnfhdr->attrib.frag_num)
++		{
++			//the fragment number must be increasing  (after decache)
++			//release the defrag_q & prframe
++			rtw_free_recvframe(prframe, pfree_recv_queue);
++			rtw_free_recvframe_queue(defrag_q, pfree_recv_queue);
++			return NULL;
++		}
++
++		curfragnum++;
++
++		//copy the 2nd~n fragment frame's payload to the first fragment
++		//get the 2nd~last fragment frame's payload
++
++		wlanhdr_offset = pnfhdr->attrib.hdrlen + pnfhdr->attrib.iv_len;
++
++		recvframe_pull(pnextrframe, wlanhdr_offset);
++
++		//append  to first fragment frame's tail (if privacy frame, pull the ICV)
++		recvframe_pull_tail(prframe, pfhdr->attrib.icv_len);
++
++		//memcpy
++		_rtw_memcpy(pfhdr->rx_tail, pnfhdr->rx_data, pnfhdr->len);
++
++		recvframe_put(prframe, pnfhdr->len);
++
++		pfhdr->attrib.icv_len=pnfhdr->attrib.icv_len;
++		plist = get_next(plist);
++
++	};
++
++	//free the defrag_q queue and return the prframe
++	rtw_free_recvframe_queue(defrag_q, pfree_recv_queue);
++
++	RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("Performance defrag!!!!!\n"));
++
++_func_exit_;
++
++	return prframe;
++}
++
++//check if need to defrag, if needed queue the frame to defrag_q
++union recv_frame* recvframe_chk_defrag(PADAPTER padapter, union recv_frame *precv_frame)
++{
++	u8	ismfrag;
++	u8	fragnum;
++	u8	*psta_addr;
++	struct recv_frame_hdr *pfhdr;
++	struct sta_info *psta;
++	struct sta_priv *pstapriv;
++	_list *phead;
++	union recv_frame *prtnframe = NULL;
++	_queue *pfree_recv_queue, *pdefrag_q;
++
++_func_enter_;
++
++	pstapriv = &padapter->stapriv;
++
++	pfhdr = &precv_frame->u.hdr;
++
++	pfree_recv_queue = &padapter->recvpriv.free_recv_queue;
++
++	//need to define struct of wlan header frame ctrl
++	ismfrag = pfhdr->attrib.mfrag;
++	fragnum = pfhdr->attrib.frag_num;
++
++	psta_addr = pfhdr->attrib.ta;
++	psta = rtw_get_stainfo(pstapriv, psta_addr);
++	if (psta == NULL)
++	{
++		u8 type = GetFrameType(pfhdr->rx_data);
++		if (type != WIFI_DATA_TYPE) {
++			psta = rtw_get_bcmc_stainfo(padapter);
++			pdefrag_q = &psta->sta_recvpriv.defrag_q;
++		} else
++			pdefrag_q = NULL;
++	}
++	else
++		pdefrag_q = &psta->sta_recvpriv.defrag_q;
++
++	if ((ismfrag==0) && (fragnum==0))
++	{
++		prtnframe = precv_frame;//isn't a fragment frame
++	}
++
++	if (ismfrag==1)
++	{
++		//0~(n-1) fragment frame
++		//enqueue to defraf_g
++		if(pdefrag_q != NULL)
++		{
++			if(fragnum==0)
++			{
++				//the first fragment
++				if(_rtw_queue_empty(pdefrag_q) == _FALSE)
++				{
++					//free current defrag_q
++					rtw_free_recvframe_queue(pdefrag_q, pfree_recv_queue);
++				}
++			}
++
++
++			//Then enqueue the 0~(n-1) fragment into the defrag_q
++
++			//_rtw_spinlock(&pdefrag_q->lock);
++			phead = get_list_head(pdefrag_q);
++			rtw_list_insert_tail(&pfhdr->list, phead);
++			//_rtw_spinunlock(&pdefrag_q->lock);
++
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("Enqueuq: ismfrag = %d, fragnum= %d\n", ismfrag,fragnum));
++
++			prtnframe=NULL;
++
++		}
++		else
++		{
++			//can't find this ta's defrag_queue, so free this recv_frame
++			rtw_free_recvframe(precv_frame, pfree_recv_queue);
++			prtnframe=NULL;
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("Free because pdefrag_q ==NULL: ismfrag = %d, fragnum= %d\n", ismfrag, fragnum));
++		}
++
++	}
++
++	if((ismfrag==0)&&(fragnum!=0))
++	{
++		//the last fragment frame
++		//enqueue the last fragment
++		if(pdefrag_q != NULL)
++		{
++			//_rtw_spinlock(&pdefrag_q->lock);
++			phead = get_list_head(pdefrag_q);
++			rtw_list_insert_tail(&pfhdr->list,phead);
++			//_rtw_spinunlock(&pdefrag_q->lock);
++
++			//call recvframe_defrag to defrag
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("defrag: ismfrag = %d, fragnum= %d\n", ismfrag, fragnum));
++			precv_frame = recvframe_defrag(padapter, pdefrag_q);
++			prtnframe=precv_frame;
++
++		}
++		else
++		{
++			//can't find this ta's defrag_queue, so free this recv_frame
++			rtw_free_recvframe(precv_frame, pfree_recv_queue);
++			prtnframe=NULL;
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("Free because pdefrag_q ==NULL: ismfrag = %d, fragnum= %d\n", ismfrag,fragnum));
++		}
++
++	}
++
++
++	if((prtnframe!=NULL)&&(prtnframe->u.hdr.attrib.privacy))
++	{
++		//after defrag we must check tkip mic code
++		if(recvframe_chkmic(padapter,  prtnframe)==_FAIL)
++		{
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("recvframe_chkmic(padapter,  prtnframe)==_FAIL\n"));
++			rtw_free_recvframe(prtnframe,pfree_recv_queue);
++			prtnframe=NULL;
++		}
++	}
++
++_func_exit_;
++
++	return prtnframe;
++
++}
++
++#define ENDIAN_FREE 1
++
++int amsdu_to_msdu(_adapter *padapter, union recv_frame *prframe);
++int amsdu_to_msdu(_adapter *padapter, union recv_frame *prframe)
++{
++#if defined (PLATFORM_LINUX) || defined (PLATFORM_FREEBSD)  //for amsdu TP improvement,Creator: Thomas 
++	int	a_len, padding_len;
++	u16	eth_type, nSubframe_Length;	
++	u8	nr_subframes, i;
++	unsigned char *pdata;
++	struct rx_pkt_attrib *pattrib;
++#ifndef PLATFORM_FREEBSD
++	unsigned char *data_ptr;
++	_pkt *sub_skb,*subframes[MAX_SUBFRAME_COUNT];
++#endif //PLATFORM_FREEBSD
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	_queue *pfree_recv_queue = &(precvpriv->free_recv_queue);
++	int	ret = _SUCCESS;
++#ifdef PLATFORM_FREEBSD
++	struct mbuf *sub_m=NULL, *subframes[MAX_SUBFRAME_COUNT];	
++	u8 *ptr,offset;
++#endif //PLATFORM_FREEBSD
++	nr_subframes = 0;
++
++	pattrib = &prframe->u.hdr.attrib;
++
++	recvframe_pull(prframe, prframe->u.hdr.attrib.hdrlen);
++	
++	if(prframe->u.hdr.attrib.iv_len >0)
++	{
++		recvframe_pull(prframe, prframe->u.hdr.attrib.iv_len);
++	}
++
++	a_len = prframe->u.hdr.len;
++
++	pdata = prframe->u.hdr.rx_data;
++
++	while(a_len > ETH_HLEN) {
++		
++		/* Offset 12 denote 2 mac address */
++#ifdef ENDIAN_FREE
++		//nSubframe_Length = ntohs(*((u16*)(pdata + 12)));
++		nSubframe_Length = RTW_GET_BE16(pdata + 12);
++#else // ENDIAN_FREE
++		nSubframe_Length = *((u16*)(pdata + 12));
++		//==m==>change the length order
++		nSubframe_Length = (nSubframe_Length>>8) + (nSubframe_Length<<8);
++		//ntohs(nSubframe_Length);
++#endif // ENDIAN_FREE
++
++		if( a_len < (ETHERNET_HEADER_SIZE + nSubframe_Length) ) {
++			DBG_871X("nRemain_Length is %d and nSubframe_Length is : %d\n",a_len,nSubframe_Length);
++			goto exit;
++		}
++
++#ifndef PLATFORM_FREEBSD
++		/* move the data point to data content */
++		pdata += ETH_HLEN;
++		a_len -= ETH_HLEN;
++
++		/* Allocate new skb for releasing to upper layer */
++#ifdef CONFIG_SKB_COPY
++		sub_skb = rtw_skb_alloc(nSubframe_Length + 12);
++		if(sub_skb)
++		{
++			skb_reserve(sub_skb, 12);
++			data_ptr = (u8 *)skb_put(sub_skb, nSubframe_Length);
++			_rtw_memcpy(data_ptr, pdata, nSubframe_Length);
++		}
++		else
++#endif // CONFIG_SKB_COPY
++		{
++			sub_skb = rtw_skb_clone(prframe->u.hdr.pkt);
++			if(sub_skb)
++			{
++				sub_skb->data = pdata;
++				sub_skb->len = nSubframe_Length;
++				skb_set_tail_pointer(sub_skb, nSubframe_Length);
++			}
++			else
++			{
++				DBG_871X("rtw_skb_clone() Fail!!! , nr_subframes = %d\n",nr_subframes);
++				break;
++			}
++		}
++
++#else   // PLATFORM_FREEBSD
++
++		//PLATFORM_FREEBSD
++		//Allocate a mbuff,  
++		//sub_m =m_devget(pdata, nSubframe_Length+12, 12, padapter->pifp,NULL);
++		sub_m =m_devget(pdata, nSubframe_Length+ETH_HLEN, ETHER_ALIGN, padapter->pifp,NULL);
++
++		pdata += ETH_HLEN;
++		a_len -= ETH_HLEN;
++#endif	// PLATFORM_FREEBSD	
++
++#ifndef PLATFORM_FREEBSD
++		//sub_skb->dev = padapter->pnetdev;
++		subframes[nr_subframes++] = sub_skb;
++#else  //PLATFORM_FREEBSD
++		//PLATFORM_FREEBSD
++		subframes[nr_subframes++] = sub_m;
++#endif  //PLATFORM_FREEBSD
++
++		if(nr_subframes >= MAX_SUBFRAME_COUNT) {
++			DBG_871X("ParseSubframe(): Too many Subframes! Packets dropped!\n");
++			break;
++		}
++
++		pdata += nSubframe_Length;
++		a_len -= nSubframe_Length;
++		if(a_len != 0) {
++			padding_len = 4 - ((nSubframe_Length + ETH_HLEN) & (4-1));
++			if(padding_len == 4) {
++				padding_len = 0;
++			}
++
++			if(a_len < padding_len) {
++				goto exit;
++			}
++			pdata += padding_len;
++			a_len -= padding_len;
++		}
++	}
++
++	for(i=0; i<nr_subframes; i++){
++#ifndef PLATFORM_FREEBSD
++		sub_skb = subframes[i];
++		/* convert hdr + possible LLC headers into Ethernet header */
++#ifdef ENDIAN_FREE
++		//eth_type = ntohs(*(u16*)&sub_skb->data[6]);
++		eth_type = RTW_GET_BE16(&sub_skb->data[6]);
++#else // ENDIAN_FREE		
++		eth_type = (sub_skb->data[6] << 8) | sub_skb->data[7];
++#endif // ENDIAN_FREE
++		if (sub_skb->len >= 8 &&
++			((_rtw_memcmp(sub_skb->data, rtw_rfc1042_header, SNAP_SIZE) &&
++			  eth_type != ETH_P_AARP && eth_type != ETH_P_IPX) ||
++			 _rtw_memcmp(sub_skb->data, rtw_bridge_tunnel_header, SNAP_SIZE) )) {
++			/* remove RFC1042 or Bridge-Tunnel encapsulation and replace EtherType */
++			skb_pull(sub_skb, SNAP_SIZE);
++			_rtw_memcpy(skb_push(sub_skb, ETH_ALEN), pattrib->src, ETH_ALEN);
++			_rtw_memcpy(skb_push(sub_skb, ETH_ALEN), pattrib->dst, ETH_ALEN);
++		} else {
++			u16 len;
++			/* Leave Ethernet header part of hdr and full payload */
++			len = htons(sub_skb->len);
++			_rtw_memcpy(skb_push(sub_skb, 2), &len, 2);
++			_rtw_memcpy(skb_push(sub_skb, ETH_ALEN), pattrib->src, ETH_ALEN);
++			_rtw_memcpy(skb_push(sub_skb, ETH_ALEN), pattrib->dst, ETH_ALEN);
++		}
++
++		/* Indicat the packets to upper layer */
++		if (sub_skb) {
++			//memset(sub_skb->cb, 0, sizeof(sub_skb->cb));
++
++#ifdef CONFIG_BR_EXT
++			// Insert NAT2.5 RX here!
++			struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++			void *br_port = NULL;
++
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++			br_port = padapter->pnetdev->br_port;
++#else   // (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++			rcu_read_lock();
++			br_port = rcu_dereference(padapter->pnetdev->rx_handler_data);
++			rcu_read_unlock();
++#endif  // (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++
++
++			if( br_port && (check_fwstate(pmlmepriv, WIFI_STATION_STATE|WIFI_ADHOC_STATE) == _TRUE) )
++			{
++				int nat25_handle_frame(_adapter *priv, struct sk_buff *skb);
++				if (nat25_handle_frame(padapter, sub_skb) == -1) {
++					//priv->ext_stats.rx_data_drops++;
++					//DEBUG_ERR("RX DROP: nat25_handle_frame fail!\n");
++					//return FAIL;
++					
++#if 1
++					// bypass this frame to upper layer!!
++#else
++					rtw_skb_free(sub_skb);
++					continue;
++#endif
++				}							
++			}
++#endif	// CONFIG_BR_EXT
++
++			sub_skb->protocol = eth_type_trans(sub_skb, padapter->pnetdev);
++			sub_skb->dev = padapter->pnetdev;
++
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_RX
++			if ( (pattrib->tcpchk_valid == 1) && (pattrib->tcp_chkrpt == 1) ) {
++				sub_skb->ip_summed = CHECKSUM_UNNECESSARY;
++			} else {
++				sub_skb->ip_summed = CHECKSUM_NONE;
++			}
++#else /* !CONFIG_TCP_CSUM_OFFLOAD_RX */
++			sub_skb->ip_summed = CHECKSUM_NONE;
++#endif //CONFIG_TCP_CSUM_OFFLOAD_RX
++
++			rtw_netif_rx(padapter->pnetdev, sub_skb);
++		}
++#else //PLATFORM_FREEBSD
++
++		//PLATFORM_FREEBSD
++		sub_m = subframes[i];
++		ptr=mtod(sub_m, u8 *);
++		offset=ETH_HLEN;
++		/* convert hdr + possible LLC headers into Ethernet header */
++#ifdef ENDIAN_FREE
++		eth_type = ntohs(*(u16*)&ptr[offset+6]);
++#else // ENDIAN_FREE
++		eth_type = (  ptr[offset+6] << 8) | ptr[offset+7];
++#endif // ENDIAN_FREE
++		if (sub_m->m_pkthdr.len >= ETH_HLEN+8 &&
++			((_rtw_memcmp(ptr+ETH_HLEN, rtw_rfc1042_header, SNAP_SIZE) &&
++			  eth_type != ETH_P_AARP && eth_type != ETH_P_IPX) ||
++			 _rtw_memcmp(ptr+ETH_HLEN, rtw_bridge_tunnel_header, SNAP_SIZE) )) {
++			/* remove RFC1042 or Bridge-Tunnel encapsulation and replace EtherType */
++			offset+=SNAP_SIZE;
++			_rtw_memcpy(&ptr[offset-ETH_ALEN], pattrib->src, ETH_ALEN);
++			offset-=ETH_ALEN;
++			_rtw_memcpy(&ptr[offset-ETH_ALEN], pattrib->dst, ETH_ALEN);
++			offset-=ETH_ALEN;
++		} else {
++			u16 len;
++			/* Leave Ethernet header part of hdr and full payload */
++			len = htons(sub_m->m_pkthdr.len-offset);
++			_rtw_memcpy(&ptr[offset- 2], &len, 2);
++			offset-=2;
++			_rtw_memcpy(&ptr[offset-ETH_ALEN], pattrib->src, ETH_ALEN);
++			offset-=ETH_ALEN;
++			_rtw_memcpy(&ptr[offset-ETH_ALEN], pattrib->dst, ETH_ALEN);
++			offset-=ETH_ALEN;
++		}
++
++		m_adj(sub_m,offset);
++
++		/* Indicat the packets to upper layer */
++		if (sub_m) {
++
++#if 0
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_RX
++			if ( (pattrib->tcpchk_valid == 1) && (pattrib->tcp_chkrpt == 1) ) {
++				sub_skb->ip_summed = CHECKSUM_UNNECESSARY;
++			} else {
++				sub_skb->ip_summed = CHECKSUM_NONE;
++			}
++#else /* !CONFIG_TCP_CSUM_OFFLOAD_RX */
++			sub_skb->ip_summed = CHECKSUM_NONE;
++#endif //CONFIG_TCP_CSUM_OFFLOAD_RX
++#endif //0
++
++			if ( ((u32)(mtod(sub_m, caddr_t) + 14) % 4) != 0)
++				printf("%s()-%d: mtod(sub_m) = %p\n", __FUNCTION__, __LINE__, mtod(sub_m, caddr_t));
++#ifdef CONFIG_RX_INDICATE_QUEUE
++			IF_ENQUEUE(&precvpriv->rx_indicate_queue, sub_m);
++			if (_IF_QLEN(&precvpriv->rx_indicate_queue) <= 1) {
++				taskqueue_enqueue(taskqueue_thread, &precvpriv->rx_indicate_tasklet);
++			}
++#else	// CONFIG_RX_INDICATE_QUEUE
++			(*padapter->pifp->if_input)(padapter->pifp, sub_m);	
++#endif	// CONFIG_RX_INDICATE_QUEUE
++		}		
++
++#endif //PLATFORM_FREEBSD
++	}
++
++exit:
++
++	prframe->u.hdr.len=0;
++	rtw_free_recvframe(prframe, pfree_recv_queue);//free this recv_frame
++	
++	return ret;
++#else  // || defined (PLATFORM_LINUX) || defined (PLATFORM_FREEBSD) 
++#ifdef PLATFORM_WINDOWS
++	_irqL irql;
++#endif //PLATFORM_WINDOWS
++	unsigned char *ptr, *pdata, *pbuf, *psnap_type;
++	union recv_frame *pnrframe, *pnrframe_new;
++	int a_len, mv_len, padding_len;
++	u16 eth_type, type_len;
++	u8 bsnaphdr;
++	struct ieee80211_snap_hdr	*psnap;
++	struct _vlan *pvlan;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	_queue *pfree_recv_queue = &(precvpriv->free_recv_queue);
++	int ret = _SUCCESS;
++#ifdef PLATFORM_WINDOWS
++	struct recv_buf *precvbuf = prframe->u.hdr.precvbuf;
++#endif //PLATFORM_WINDOWS
++	a_len = prframe->u.hdr.len - prframe->u.hdr.attrib.hdrlen;
++
++	recvframe_pull(prframe, prframe->u.hdr.attrib.hdrlen);
++
++	if(prframe->u.hdr.attrib.iv_len >0)
++	{
++		recvframe_pull(prframe, prframe->u.hdr.attrib.iv_len);
++	}
++
++	pdata = prframe->u.hdr.rx_data;
++
++	prframe->u.hdr.len=0;
++
++	pnrframe = prframe;
++
++
++	do{
++
++		mv_len=0;
++		pnrframe->u.hdr.rx_data = pnrframe->u.hdr.rx_tail = pdata;
++		ptr = pdata;
++
++
++		_rtw_memcpy(pnrframe->u.hdr.attrib.dst, ptr, ETH_ALEN);
++		ptr+=ETH_ALEN;
++		_rtw_memcpy(pnrframe->u.hdr.attrib.src, ptr, ETH_ALEN);
++		ptr+=ETH_ALEN;
++
++		_rtw_memcpy(&type_len, ptr, 2);
++		type_len= ntohs((unsigned short )type_len);
++		ptr +=2;
++		mv_len += ETH_HLEN;
++
++		recvframe_put(pnrframe, type_len+ETH_HLEN);//update tail;
++
++		if(pnrframe->u.hdr.rx_data >= pnrframe->u.hdr.rx_tail || type_len<8)
++		{
++			//panic("pnrframe->u.hdr.rx_data >= pnrframe->u.hdr.rx_tail || type_len<8\n");
++
++			rtw_free_recvframe(pnrframe, pfree_recv_queue);
++
++			goto exit;
++		}
++
++		psnap=(struct ieee80211_snap_hdr *)(ptr);
++		psnap_type=ptr+SNAP_SIZE;
++		if (psnap->dsap==0xaa && psnap->ssap==0xaa && psnap->ctrl==0x03)
++		{
++			if ( _rtw_memcmp(psnap->oui, oui_rfc1042, WLAN_IEEE_OUI_LEN))
++			{
++				bsnaphdr=_TRUE;//wlan_pkt_format = WLAN_PKT_FORMAT_SNAP_RFC1042;
++			}
++			else if (_rtw_memcmp(psnap->oui, SNAP_HDR_APPLETALK_DDP, WLAN_IEEE_OUI_LEN) &&
++					_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_APPLETALK_DDP, 2) )
++			{
++				bsnaphdr=_TRUE;	//wlan_pkt_format = WLAN_PKT_FORMAT_APPLETALK;
++			}
++			else if (_rtw_memcmp( psnap->oui, oui_8021h, WLAN_IEEE_OUI_LEN))
++			{
++				bsnaphdr=_TRUE;	//wlan_pkt_format = WLAN_PKT_FORMAT_SNAP_TUNNEL;
++			}
++			else
++			{
++				RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("drop pkt due to invalid frame format!\n"));
++
++				//KeBugCheckEx(0x87123333, 0xe0, 0x4c, 0x87, 0xdd);
++
++				//panic("0x87123333, 0xe0, 0x4c, 0x87, 0xdd\n");
++
++				rtw_free_recvframe(pnrframe, pfree_recv_queue);
++
++				goto exit;
++			}
++
++		}
++		else
++		{
++			bsnaphdr=_FALSE;//wlan_pkt_format = WLAN_PKT_FORMAT_OTHERS;
++		}
++
++		ptr += (bsnaphdr?SNAP_SIZE:0);
++		_rtw_memcpy(&eth_type, ptr, 2);
++		eth_type= ntohs((unsigned short )eth_type); //pattrib->ether_type
++
++		mv_len+= 2+(bsnaphdr?SNAP_SIZE:0);
++		ptr += 2;//now move to iphdr;
++
++		pvlan = NULL;
++		if(eth_type == 0x8100) //vlan
++		{
++			pvlan = (struct _vlan *)ptr;
++			ptr+=4;
++			mv_len+=4;
++		}
++
++		if(eth_type==0x0800)//ip
++		{
++			struct iphdr*  piphdr = (struct iphdr*)ptr;
++
++
++			if (piphdr->protocol == 0x06)
++			{
++				RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("@@@===recv tcp len:%d @@@===\n", pnrframe->u.hdr.len));
++			}
++		}
++#ifdef PLATFORM_OS_XP
++		else
++		{
++			NDIS_PACKET_8021Q_INFO VlanPriInfo;
++			UINT32 UserPriority = pnrframe->u.hdr.attrib.priority;
++			UINT32 VlanID = (pvlan!=NULL ? get_vlan_id(pvlan) : 0 );
++
++			VlanPriInfo.Value =          // Get current value.
++					NDIS_PER_PACKET_INFO_FROM_PACKET(pnrframe->u.hdr.pkt, Ieee8021QInfo);
++
++			VlanPriInfo.TagHeader.UserPriority = UserPriority;
++			VlanPriInfo.TagHeader.VlanId =  VlanID;
++
++			VlanPriInfo.TagHeader.CanonicalFormatId = 0; // Should be zero.
++			VlanPriInfo.TagHeader.Reserved = 0; // Should be zero.
++			NDIS_PER_PACKET_INFO_FROM_PACKET(pnrframe->u.hdr.pkt, Ieee8021QInfo) = VlanPriInfo.Value;
++
++		}
++#endif //PLATFORM_OS_XP
++
++		pbuf = recvframe_pull(pnrframe, (mv_len-sizeof(struct ethhdr)));
++
++		_rtw_memcpy(pbuf, pnrframe->u.hdr.attrib.dst, ETH_ALEN);
++		_rtw_memcpy(pbuf+ETH_ALEN, pnrframe->u.hdr.attrib.src, ETH_ALEN);
++
++		eth_type = htons((unsigned short)eth_type) ;
++		_rtw_memcpy(pbuf+12, &eth_type, 2);
++
++		padding_len = (4) - ((type_len + ETH_HLEN)&(4-1));
++
++		a_len -= (type_len + ETH_HLEN + padding_len) ;
++
++
++#if 0
++
++	if(a_len > ETH_HLEN)
++	{
++		pnrframe_new = rtw_alloc_recvframe(pfree_recv_queue);
++		if(pnrframe_new)
++		{
++			_pkt *pskb_copy;
++			unsigned int copy_len  = pnrframe->u.hdr.len;
++
++			_rtw_init_listhead(&pnrframe_new->u.hdr.list);
++
++			pskb_copy = rtw_skb_alloc(copy_len+64);
++
++			if(pskb_copy==NULL)
++			{
++				DBG_871X("amsdu_to_msdu:can not all(ocate memory for skb copy\n");
++			}
++
++			pnrframe_new->u.hdr.pkt = pskb_copy;
++
++			_rtw_memcpy(pskb_copy->data, pnrframe->u.hdr.rx_data, copy_len);
++
++			pnrframe_new->u.hdr.rx_data = pnrframe->u.hdr.rx_data;
++			pnrframe_new->u.hdr.rx_tail = pnrframe->u.hdr.rx_data + copy_len;
++
++
++			if ((padapter->bDriverStopped ==_FALSE)&&( padapter->bSurpriseRemoved==_FALSE))
++			{
++				rtw_recv_indicatepkt(padapter, pnrframe_new);//indicate this recv_frame
++			}
++			else
++			{
++				rtw_free_recvframe(pnrframe_new, pfree_recv_queue);//free this recv_frame
++			}
++
++		}
++		else
++		{
++			DBG_871X("amsdu_to_msdu:can not allocate memory for pnrframe_new\n");
++		}
++
++	}
++	else
++	{
++		if ((padapter->bDriverStopped ==_FALSE)&&( padapter->bSurpriseRemoved==_FALSE))
++		{
++			rtw_recv_indicatepkt(padapter, pnrframe);//indicate this recv_frame
++		}
++		else
++		{
++			rtw_free_recvframe(pnrframe, pfree_recv_queue);//free this recv_frame
++		}
++
++		pnrframe = NULL;
++
++	}
++
++#else // 0
++
++		//padding_len = (4) - ((type_len + ETH_HLEN)&(4-1));
++
++		//a_len -= (type_len + ETH_HLEN + padding_len) ;
++
++		pnrframe_new = NULL;
++
++
++		if(a_len > ETH_HLEN)
++		{
++			pnrframe_new = rtw_alloc_recvframe(pfree_recv_queue);
++
++			if(pnrframe_new)
++			{
++
++
++				//pnrframe_new->u.hdr.precvbuf = precvbuf;//precvbuf is assigned before call rtw_init_recvframe()
++				//rtw_init_recvframe(pnrframe_new, precvpriv);
++				{
++#ifdef PLATFORM_LINUX
++						_pkt *pskb = pnrframe->u.hdr.pkt;
++#endif //PLATFORM_LINUX						
++						_rtw_init_listhead(&pnrframe_new->u.hdr.list);
++
++						pnrframe_new->u.hdr.len=0;
++
++#ifdef PLATFORM_LINUX
++						if(pskb)
++						{
++							pnrframe_new->u.hdr.pkt = rtw_skb_clone(pskb);
++						}
++#endif //PLATFORM_LINUX
++
++				}
++
++				pdata += (type_len + ETH_HLEN + padding_len);
++				pnrframe_new->u.hdr.rx_head = pnrframe_new->u.hdr.rx_data = pnrframe_new->u.hdr.rx_tail = pdata;
++				pnrframe_new->u.hdr.rx_end = pdata + a_len + padding_len;//
++
++#ifdef PLATFORM_WINDOWS
++				pnrframe_new->u.hdr.precvbuf=precvbuf;
++				_enter_critical_bh(&precvbuf->recvbuf_lock, &irql);
++				precvbuf->ref_cnt++;
++				_exit_critical_bh(&precvbuf->recvbuf_lock, &irql);
++#endif //PLATFORM_WINDOWS
++
++			}
++			else
++			{
++				//panic("pnrframe_new=%x\n", pnrframe_new);
++			}
++		}
++
++
++		if ((padapter->bDriverStopped ==_FALSE)&&( padapter->bSurpriseRemoved==_FALSE) )
++		{
++			rtw_recv_indicatepkt(padapter, pnrframe);//indicate this recv_frame
++		}
++		else
++		{
++			rtw_free_recvframe(pnrframe, pfree_recv_queue);//free this recv_frame
++		}
++
++
++		pnrframe = NULL;
++		if(pnrframe_new)
++		{
++			pnrframe = pnrframe_new;
++		}
++
++
++#endif // end defined (PLATFORM_LINUX) || defined (PLATFORM_FREEBSD) 
++
++	}while(pnrframe);
++
++exit:
++
++	return ret;
++#endif
++}
++
++int check_indicate_seq(struct recv_reorder_ctrl *preorder_ctrl, u16 seq_num);
++int check_indicate_seq(struct recv_reorder_ctrl *preorder_ctrl, u16 seq_num)
++{
++	u8	wsize = preorder_ctrl->wsize_b;
++	u16	wend = (preorder_ctrl->indicate_seq + wsize -1) & 0xFFF;//% 4096;
++
++	// Rx Reorder initialize condition.
++	if (preorder_ctrl->indicate_seq == 0xFFFF)
++	{
++		preorder_ctrl->indicate_seq = seq_num;
++		#ifdef DBG_RX_SEQ
++		DBG_871X("DBG_RX_SEQ %s:%d init IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++			preorder_ctrl->indicate_seq, seq_num);
++		#endif
++
++		//DbgPrint("check_indicate_seq, 1st->indicate_seq=%d\n", precvpriv->indicate_seq);
++	}
++
++	//DbgPrint("enter->check_indicate_seq(): IndicateSeq: %d, NewSeq: %d\n", precvpriv->indicate_seq, seq_num);
++
++	// Drop out the packet which SeqNum is smaller than WinStart
++	if( SN_LESS(seq_num, preorder_ctrl->indicate_seq) )
++	{
++		//RT_TRACE(COMP_RX_REORDER, DBG_LOUD, ("CheckRxTsIndicateSeq(): Packet Drop! IndicateSeq: %d, NewSeq: %d\n", pTS->RxIndicateSeq, NewSeqNum));
++		//DbgPrint("CheckRxTsIndicateSeq(): Packet Drop! IndicateSeq: %d, NewSeq: %d\n", precvpriv->indicate_seq, seq_num);
++
++		#ifdef DBG_RX_DROP_FRAME
++		DBG_871X("%s IndicateSeq: %d > NewSeq: %d\n", __FUNCTION__, 
++			preorder_ctrl->indicate_seq, seq_num);
++		#endif
++
++
++		return _FALSE;
++	}
++
++	//
++	// Sliding window manipulation. Conditions includes:
++	// 1. Incoming SeqNum is equal to WinStart =>Window shift 1
++	// 2. Incoming SeqNum is larger than the WinEnd => Window shift N
++	//
++	if( SN_EQUAL(seq_num, preorder_ctrl->indicate_seq) )
++	{
++		preorder_ctrl->indicate_seq = (preorder_ctrl->indicate_seq + 1) & 0xFFF;
++		#ifdef DBG_RX_SEQ
++		DBG_871X("DBG_RX_SEQ %s:%d SN_EQUAL IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++			preorder_ctrl->indicate_seq, seq_num);
++		#endif
++	}
++	else if(SN_LESS(wend, seq_num))
++	{
++		//RT_TRACE(COMP_RX_REORDER, DBG_LOUD, ("CheckRxTsIndicateSeq(): Window Shift! IndicateSeq: %d, NewSeq: %d\n", pTS->RxIndicateSeq, NewSeqNum));
++		//DbgPrint("CheckRxTsIndicateSeq(): Window Shift! IndicateSeq: %d, NewSeq: %d\n", precvpriv->indicate_seq, seq_num);
++
++		// boundary situation, when seq_num cross 0xFFF
++		if(seq_num >= (wsize - 1))
++			preorder_ctrl->indicate_seq = seq_num + 1 -wsize;
++		else
++			preorder_ctrl->indicate_seq = 0xFFF - (wsize - (seq_num + 1)) + 1;
++
++		#ifdef DBG_RX_SEQ
++		DBG_871X("DBG_RX_SEQ %s:%d SN_LESS(wend, seq_num) IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++			preorder_ctrl->indicate_seq, seq_num);
++		#endif
++	}
++
++	//DbgPrint("exit->check_indicate_seq(): IndicateSeq: %d, NewSeq: %d\n", precvpriv->indicate_seq, seq_num);
++
++	return _TRUE;
++}
++
++int enqueue_reorder_recvframe(struct recv_reorder_ctrl *preorder_ctrl, union recv_frame *prframe);
++int enqueue_reorder_recvframe(struct recv_reorder_ctrl *preorder_ctrl, union recv_frame *prframe)
++{
++	struct rx_pkt_attrib *pattrib = &prframe->u.hdr.attrib;
++	_queue *ppending_recvframe_queue = &preorder_ctrl->pending_recvframe_queue;
++	_list	*phead, *plist;
++	union recv_frame *pnextrframe;
++	struct rx_pkt_attrib *pnextattrib;
++
++	//DbgPrint("+enqueue_reorder_recvframe()\n");
++
++	//_enter_critical_ex(&ppending_recvframe_queue->lock, &irql);
++	//_rtw_spinlock_ex(&ppending_recvframe_queue->lock);
++
++
++	phead = get_list_head(ppending_recvframe_queue);
++	plist = get_next(phead);
++
++	while(rtw_end_of_queue_search(phead, plist) == _FALSE)
++	{
++		pnextrframe = LIST_CONTAINOR(plist, union recv_frame, u);
++		pnextattrib = &pnextrframe->u.hdr.attrib;
++
++		if(SN_LESS(pnextattrib->seq_num, pattrib->seq_num))
++		{
++			plist = get_next(plist);
++		}
++		else if( SN_EQUAL(pnextattrib->seq_num, pattrib->seq_num))
++		{
++			//Duplicate entry is found!! Do not insert current entry.
++			//RT_TRACE(COMP_RX_REORDER, DBG_TRACE, ("InsertRxReorderList(): Duplicate packet is dropped!! IndicateSeq: %d, NewSeq: %d\n", pTS->RxIndicateSeq, SeqNum));
++
++			//_exit_critical_ex(&ppending_recvframe_queue->lock, &irql);
++
++			return _FALSE;
++		}
++		else
++		{
++			break;
++		}
++
++		//DbgPrint("enqueue_reorder_recvframe():while\n");
++
++	}
++
++
++	//_enter_critical_ex(&ppending_recvframe_queue->lock, &irql);
++	//_rtw_spinlock_ex(&ppending_recvframe_queue->lock);
++
++	rtw_list_delete(&(prframe->u.hdr.list));
++
++	rtw_list_insert_tail(&(prframe->u.hdr.list), plist);
++
++	//_rtw_spinunlock_ex(&ppending_recvframe_queue->lock);
++	//_exit_critical_ex(&ppending_recvframe_queue->lock, &irql);
++
++
++	//RT_TRACE(COMP_RX_REORDER, DBG_TRACE, ("InsertRxReorderList(): Pkt insert into buffer!! IndicateSeq: %d, NewSeq: %d\n", pTS->RxIndicateSeq, SeqNum));
++	return _TRUE;
++
++}
++
++int recv_indicatepkts_in_order(_adapter *padapter, struct recv_reorder_ctrl *preorder_ctrl, int bforced);
++int recv_indicatepkts_in_order(_adapter *padapter, struct recv_reorder_ctrl *preorder_ctrl, int bforced)
++{
++	//_irqL irql;
++	//u8 bcancelled;
++	_list	*phead, *plist;
++	union recv_frame *prframe;
++	struct rx_pkt_attrib *pattrib;
++	//u8 index = 0;
++	int bPktInBuf = _FALSE;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	_queue *ppending_recvframe_queue = &preorder_ctrl->pending_recvframe_queue;
++
++	//DbgPrint("+recv_indicatepkts_in_order\n");
++
++	//_enter_critical_ex(&ppending_recvframe_queue->lock, &irql);
++	//_rtw_spinlock_ex(&ppending_recvframe_queue->lock);
++
++	phead = 	get_list_head(ppending_recvframe_queue);
++	plist = get_next(phead);
++
++#if 0
++	// Check if there is any other indication thread running.
++	if(pTS->RxIndicateState == RXTS_INDICATE_PROCESSING)
++		return;
++#endif
++
++	// Handling some condition for forced indicate case.
++	if(bforced==_TRUE)
++	{
++		if(rtw_is_list_empty(phead))
++		{
++			// _exit_critical_ex(&ppending_recvframe_queue->lock, &irql);
++			//_rtw_spinunlock_ex(&ppending_recvframe_queue->lock);
++			return _TRUE;
++		}
++	
++		 prframe = LIST_CONTAINOR(plist, union recv_frame, u);
++	        pattrib = &prframe->u.hdr.attrib;	
++		preorder_ctrl->indicate_seq = pattrib->seq_num;		
++		#ifdef DBG_RX_SEQ
++		DBG_871X("DBG_RX_SEQ %s:%d IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++			preorder_ctrl->indicate_seq, pattrib->seq_num);
++		#endif
++	}
++
++	// Prepare indication list and indication.
++	// Check if there is any packet need indicate.
++	while(!rtw_is_list_empty(phead))
++	{
++	
++		prframe = LIST_CONTAINOR(plist, union recv_frame, u);
++		pattrib = &prframe->u.hdr.attrib;
++
++		if(!SN_LESS(preorder_ctrl->indicate_seq, pattrib->seq_num))
++		{
++			RT_TRACE(_module_rtl871x_recv_c_, _drv_notice_,
++				 ("recv_indicatepkts_in_order: indicate=%d seq=%d amsdu=%d\n",
++				  preorder_ctrl->indicate_seq, pattrib->seq_num, pattrib->amsdu));
++
++#if 0
++			// This protect buffer from overflow.
++			if(index >= REORDER_WIN_SIZE)
++			{
++				RT_ASSERT(FALSE, ("IndicateRxReorderList(): Buffer overflow!! \n"));
++				bPktInBuf = TRUE;
++				break;
++			}
++#endif
++
++			plist = get_next(plist);
++			rtw_list_delete(&(prframe->u.hdr.list));
++
++			if(SN_EQUAL(preorder_ctrl->indicate_seq, pattrib->seq_num))
++			{
++				preorder_ctrl->indicate_seq = (preorder_ctrl->indicate_seq + 1) & 0xFFF;
++				#ifdef DBG_RX_SEQ
++				DBG_871X("DBG_RX_SEQ %s:%d IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++					preorder_ctrl->indicate_seq, pattrib->seq_num);
++				#endif
++			}
++
++#if 0
++			index++;
++			if(index==1)
++			{
++				//Cancel previous pending timer.
++				//PlatformCancelTimer(Adapter, &pTS->RxPktPendingTimer);
++				if(bforced!=_TRUE)
++				{
++					//DBG_871X("_cancel_timer(&preorder_ctrl->reordering_ctrl_timer, &bcancelled);\n");
++					_cancel_timer(&preorder_ctrl->reordering_ctrl_timer, &bcancelled);
++				}
++			}
++#endif
++
++			//Set this as a lock to make sure that only one thread is indicating packet.
++			//pTS->RxIndicateState = RXTS_INDICATE_PROCESSING;
++
++			// Indicate packets
++			//RT_ASSERT((index<=REORDER_WIN_SIZE), ("RxReorderIndicatePacket(): Rx Reorder buffer full!! \n"));
++
++
++			//indicate this recv_frame
++			//DbgPrint("recv_indicatepkts_in_order, indicate_seq=%d, seq_num=%d\n", precvpriv->indicate_seq, pattrib->seq_num);
++			if(!pattrib->amsdu)
++			{
++				//DBG_871X("recv_indicatepkts_in_order, amsdu!=1, indicate_seq=%d, seq_num=%d\n", preorder_ctrl->indicate_seq, pattrib->seq_num);
++
++				if ((padapter->bDriverStopped == _FALSE) &&
++				    (padapter->bSurpriseRemoved == _FALSE))
++				{
++					
++					rtw_recv_indicatepkt(padapter, prframe);//indicate this recv_frame
++										
++				}
++			}
++			else if(pattrib->amsdu==1)
++			{
++				if(amsdu_to_msdu(padapter, prframe)!=_SUCCESS)
++				{
++					rtw_free_recvframe(prframe, &precvpriv->free_recv_queue);
++				}
++			}
++			else
++			{
++				//error condition;
++			}
++
++
++			//Update local variables.
++			bPktInBuf = _FALSE;
++
++		}
++		else
++		{
++			bPktInBuf = _TRUE;
++			break;
++		}
++
++		//DbgPrint("recv_indicatepkts_in_order():while\n");
++
++	}
++
++	//_rtw_spinunlock_ex(&ppending_recvframe_queue->lock);
++	//_exit_critical_ex(&ppending_recvframe_queue->lock, &irql);
++
++/*
++	//Release the indication lock and set to new indication step.
++	if(bPktInBuf)
++	{
++		// Set new pending timer.
++		//pTS->RxIndicateState = RXTS_INDICATE_REORDER;
++		//PlatformSetTimer(Adapter, &pTS->RxPktPendingTimer, pHTInfo->RxReorderPendingTime);
++		//DBG_871X("_set_timer(&preorder_ctrl->reordering_ctrl_timer, REORDER_WAIT_TIME)\n");
++		_set_timer(&preorder_ctrl->reordering_ctrl_timer, REORDER_WAIT_TIME);
++	}
++	else
++	{
++		//pTS->RxIndicateState = RXTS_INDICATE_IDLE;
++	}
++*/
++	//_exit_critical_ex(&ppending_recvframe_queue->lock, &irql);
++
++	//return _TRUE;
++	return bPktInBuf;
++
++}
++
++int recv_indicatepkt_reorder(_adapter *padapter, union recv_frame *prframe);
++int recv_indicatepkt_reorder(_adapter *padapter, union recv_frame *prframe)
++{
++	_irqL irql;
++	int retval = _SUCCESS;
++	struct rx_pkt_attrib *pattrib = &prframe->u.hdr.attrib;
++	struct recv_reorder_ctrl *preorder_ctrl = prframe->u.hdr.preorder_ctrl;
++	_queue *ppending_recvframe_queue = &preorder_ctrl->pending_recvframe_queue;
++
++	if(!pattrib->amsdu)
++	{
++		//s1.
++		wlanhdr_to_ethhdr(prframe);
++
++		//if ((pattrib->qos!=1) /*|| pattrib->priority!=0 || IS_MCAST(pattrib->ra)*/
++		//	|| (pattrib->eth_type==0x0806) || (pattrib->ack_policy!=0))
++		if (pattrib->qos!=1)
++		{
++			if ((padapter->bDriverStopped == _FALSE) &&
++			    (padapter->bSurpriseRemoved == _FALSE))
++			{
++				RT_TRACE(_module_rtl871x_recv_c_, _drv_alert_, ("@@@@  recv_indicatepkt_reorder -recv_func recv_indicatepkt\n" ));
++
++				rtw_recv_indicatepkt(padapter, prframe);
++				return _SUCCESS;
++
++			}
++			
++			#ifdef DBG_RX_DROP_FRAME
++			DBG_871X("DBG_RX_DROP_FRAME %s pattrib->qos !=1\n", __FUNCTION__);
++			#endif
++			
++			return _FAIL;
++		
++		}
++
++		if (preorder_ctrl->enable == _FALSE)
++		{
++			//indicate this recv_frame			
++			preorder_ctrl->indicate_seq = pattrib->seq_num;
++			#ifdef DBG_RX_SEQ
++			DBG_871X("DBG_RX_SEQ %s:%d IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++				preorder_ctrl->indicate_seq, pattrib->seq_num);
++			#endif
++			
++			rtw_recv_indicatepkt(padapter, prframe);		
++			
++			preorder_ctrl->indicate_seq = (preorder_ctrl->indicate_seq + 1)%4096;
++			#ifdef DBG_RX_SEQ
++			DBG_871X("DBG_RX_SEQ %s:%d IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++				preorder_ctrl->indicate_seq, pattrib->seq_num);
++			#endif
++			
++			return _SUCCESS;	
++		}			
++
++#ifndef CONFIG_RECV_REORDERING_CTRL
++		//indicate this recv_frame
++		rtw_recv_indicatepkt(padapter, prframe);
++		return _SUCCESS;
++#endif
++
++	}
++	else if(pattrib->amsdu==1) //temp filter -> means didn't support A-MSDUs in a A-MPDU
++	{
++		if (preorder_ctrl->enable == _FALSE)
++		{
++			preorder_ctrl->indicate_seq = pattrib->seq_num;
++			#ifdef DBG_RX_SEQ
++			DBG_871X("DBG_RX_SEQ %s:%d IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++				preorder_ctrl->indicate_seq, pattrib->seq_num);
++			#endif
++
++			retval = amsdu_to_msdu(padapter, prframe);
++
++			preorder_ctrl->indicate_seq = (preorder_ctrl->indicate_seq + 1)%4096;
++			#ifdef DBG_RX_SEQ
++			DBG_871X("DBG_RX_SEQ %s:%d IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++				preorder_ctrl->indicate_seq, pattrib->seq_num);
++			#endif
++
++			if(retval != _SUCCESS){
++				#ifdef DBG_RX_DROP_FRAME
++				DBG_871X("DBG_RX_DROP_FRAME %s amsdu_to_msdu fail\n", __FUNCTION__);
++				#endif
++			}
++
++			return retval;
++		}
++	}
++	else
++	{
++
++	}
++
++	_enter_critical_bh(&ppending_recvframe_queue->lock, &irql);
++
++	RT_TRACE(_module_rtl871x_recv_c_, _drv_notice_,
++		 ("recv_indicatepkt_reorder: indicate=%d seq=%d\n",
++		  preorder_ctrl->indicate_seq, pattrib->seq_num));
++
++	//s2. check if winstart_b(indicate_seq) needs to been updated
++	if(!check_indicate_seq(preorder_ctrl, pattrib->seq_num))
++	{
++		//pHTInfo->RxReorderDropCounter++;
++		//ReturnRFDList(Adapter, pRfd);
++		//RT_TRACE(COMP_RX_REORDER, DBG_TRACE, ("RxReorderIndicatePacket() ==> Packet Drop!!\n"));
++		//_exit_critical_ex(&ppending_recvframe_queue->lock, &irql);
++		//return _FAIL;
++
++		#ifdef DBG_RX_DROP_FRAME
++		DBG_871X("DBG_RX_DROP_FRAME %s check_indicate_seq fail\n", __FUNCTION__);
++		#endif
++#if 0		
++		rtw_recv_indicatepkt(padapter, prframe);
++
++		_exit_critical_bh(&ppending_recvframe_queue->lock, &irql);
++		
++		goto _success_exit;
++#else
++		goto _err_exit;
++#endif
++	}
++
++
++	//s3. Insert all packet into Reorder Queue to maintain its ordering.
++	if(!enqueue_reorder_recvframe(preorder_ctrl, prframe))
++	{
++		//DbgPrint("recv_indicatepkt_reorder, enqueue_reorder_recvframe fail!\n");
++		//_exit_critical_ex(&ppending_recvframe_queue->lock, &irql);
++		//return _FAIL;
++		#ifdef DBG_RX_DROP_FRAME
++		DBG_871X("DBG_RX_DROP_FRAME %s enqueue_reorder_recvframe fail\n", __FUNCTION__);
++		#endif
++		goto _err_exit;
++	}
++
++
++	//s4.
++	// Indication process.
++	// After Packet dropping and Sliding Window shifting as above, we can now just indicate the packets
++	// with the SeqNum smaller than latest WinStart and buffer other packets.
++	//
++	// For Rx Reorder condition:
++	// 1. All packets with SeqNum smaller than WinStart => Indicate
++	// 2. All packets with SeqNum larger than or equal to WinStart => Buffer it.
++	//
++
++	//recv_indicatepkts_in_order(padapter, preorder_ctrl, _TRUE);
++	if(recv_indicatepkts_in_order(padapter, preorder_ctrl, _FALSE)==_TRUE)
++	{
++		_set_timer(&preorder_ctrl->reordering_ctrl_timer, REORDER_WAIT_TIME);
++		_exit_critical_bh(&ppending_recvframe_queue->lock, &irql);
++	}
++	else
++	{
++		_exit_critical_bh(&ppending_recvframe_queue->lock, &irql);
++		_cancel_timer_ex(&preorder_ctrl->reordering_ctrl_timer);
++	}
++
++
++_success_exit:
++
++	return _SUCCESS;
++
++_err_exit:
++
++        _exit_critical_bh(&ppending_recvframe_queue->lock, &irql);
++
++	return _FAIL;
++}
++
++
++void rtw_reordering_ctrl_timeout_handler(void *pcontext)
++{
++	_irqL irql;
++	struct recv_reorder_ctrl *preorder_ctrl = (struct recv_reorder_ctrl *)pcontext;
++	_adapter *padapter = preorder_ctrl->padapter;
++	_queue *ppending_recvframe_queue = &preorder_ctrl->pending_recvframe_queue;
++
++
++	if(padapter->bDriverStopped ||padapter->bSurpriseRemoved)
++	{
++		return;
++	}
++
++	//DBG_871X("+rtw_reordering_ctrl_timeout_handler()=>\n");
++
++	_enter_critical_bh(&ppending_recvframe_queue->lock, &irql);
++
++	if(recv_indicatepkts_in_order(padapter, preorder_ctrl, _TRUE)==_TRUE)
++	{
++		_set_timer(&preorder_ctrl->reordering_ctrl_timer, REORDER_WAIT_TIME);		
++	}
++
++	_exit_critical_bh(&ppending_recvframe_queue->lock, &irql);
++
++}
++
++int process_recv_indicatepkts(_adapter *padapter, union recv_frame *prframe);
++int process_recv_indicatepkts(_adapter *padapter, union recv_frame *prframe)
++{
++	int retval = _SUCCESS;
++	//struct recv_priv *precvpriv = &padapter->recvpriv;
++	//struct rx_pkt_attrib *pattrib = &prframe->u.hdr.attrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++#ifdef CONFIG_TDLS
++	struct sta_info *psta = prframe->u.hdr.psta;
++#endif //CONFIG_TDLS
++
++#ifdef CONFIG_80211N_HT
++
++	struct ht_priv	*phtpriv = &pmlmepriv->htpriv;
++
++#ifdef CONFIG_TDLS
++	if( (phtpriv->ht_option==_TRUE) ||
++		((psta->tdls_sta_state & TDLS_LINKED_STATE) && 
++		 (psta->htpriv.ht_option==_TRUE) &&
++		 (psta->htpriv.ampdu_enable==_TRUE))) //B/G/N Mode
++#else
++	if(phtpriv->ht_option==_TRUE)  //B/G/N Mode
++#endif //CONFIG_TDLS
++	{
++		//prframe->u.hdr.preorder_ctrl = &precvpriv->recvreorder_ctrl[pattrib->priority];
++
++		if(recv_indicatepkt_reorder(padapter, prframe)!=_SUCCESS)// including perform A-MPDU Rx Ordering Buffer Control
++		{
++			#ifdef DBG_RX_DROP_FRAME
++			DBG_871X("DBG_RX_DROP_FRAME %s recv_indicatepkt_reorder error!\n", __FUNCTION__);
++			#endif
++		
++			if ((padapter->bDriverStopped == _FALSE) &&
++			    (padapter->bSurpriseRemoved == _FALSE))
++			{
++				retval = _FAIL;
++				return retval;
++			}
++		}
++	}
++	else //B/G mode
++#endif
++	{
++		retval=wlanhdr_to_ethhdr (prframe);
++		if(retval != _SUCCESS)
++		{
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("wlanhdr_to_ethhdr: drop pkt \n"));
++			#ifdef DBG_RX_DROP_FRAME
++			DBG_871X("DBG_RX_DROP_FRAME %s wlanhdr_to_ethhdr error!\n", __FUNCTION__);
++			#endif
++			return retval;
++		}
++
++		if ((padapter->bDriverStopped ==_FALSE)&&( padapter->bSurpriseRemoved==_FALSE))
++		{
++			//indicate this recv_frame
++			RT_TRACE(_module_rtl871x_recv_c_, _drv_notice_, ("@@@@ process_recv_indicatepkts- recv_func recv_indicatepkt\n" ));
++			rtw_recv_indicatepkt(padapter, prframe);
++
++
++		}
++		else
++		{
++			RT_TRACE(_module_rtl871x_recv_c_, _drv_notice_, ("@@@@ process_recv_indicatepkts- recv_func free_indicatepkt\n" ));
++
++			RT_TRACE(_module_rtl871x_recv_c_, _drv_notice_, ("recv_func:bDriverStopped(%d) OR bSurpriseRemoved(%d)", padapter->bDriverStopped, padapter->bSurpriseRemoved));
++			retval = _FAIL;
++			return retval;
++		}
++
++	}
++
++	return retval;
++
++}
++
++int recv_func_prehandle(_adapter *padapter, union recv_frame *rframe)
++{
++	int ret = _SUCCESS;
++	struct rx_pkt_attrib *pattrib = &rframe->u.hdr.attrib;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	_queue *pfree_recv_queue = &padapter->recvpriv.free_recv_queue;
++	
++#ifdef CONFIG_MP_INCLUDED
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++#endif //CONFIG_MP_INCLUDED
++
++#ifdef CONFIG_MP_INCLUDED
++	if ((check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE))//&&(padapter->mppriv.check_mp_pkt == 0))
++	{
++		if (pattrib->crc_err == 1)
++			padapter->mppriv.rx_crcerrpktcount++;
++		else
++			padapter->mppriv.rx_pktcount++;
++
++		if (check_fwstate(pmlmepriv, WIFI_MP_LPBK_STATE) == _FALSE) {
++			RT_TRACE(_module_rtl871x_recv_c_, _drv_alert_, ("MP - Not in loopback mode , drop pkt \n"));
++			ret = _FAIL;
++			rtw_free_recvframe(rframe, pfree_recv_queue);//free this recv_frame
++			goto exit;
++		}
++	}
++#endif
++
++	//check the frame crtl field and decache
++	ret = validate_recv_frame(padapter, rframe);
++	if (ret != _SUCCESS)
++	{
++		RT_TRACE(_module_rtl871x_recv_c_, _drv_info_, ("recv_func: validate_recv_frame fail! drop pkt\n"));
++		rtw_free_recvframe(rframe, pfree_recv_queue);//free this recv_frame
++		goto exit;
++	}
++
++exit:
++	return ret;
++}
++
++int recv_func_posthandle(_adapter *padapter, union recv_frame *prframe)
++{
++	int ret = _SUCCESS;
++	union recv_frame *orig_prframe = prframe;
++	struct rx_pkt_attrib *pattrib = &prframe->u.hdr.attrib;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	_queue *pfree_recv_queue = &padapter->recvpriv.free_recv_queue;
++	
++#ifdef CONFIG_MP_INCLUDED
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++#endif //CONFIG_MP_INCLUDED
++
++#ifdef CONFIG_TDLS
++	u8 *psnap_type, *pcategory;
++	struct sta_info *ptdls_sta = NULL;
++#endif //CONFIG_TDLS
++
++
++	// DATA FRAME
++	rtw_led_control(padapter, LED_CTL_RX);
++
++	prframe = decryptor(padapter, prframe);
++	if (prframe == NULL) {
++		RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("decryptor: drop pkt\n"));
++		#ifdef DBG_RX_DROP_FRAME
++		DBG_871X("DBG_RX_DROP_FRAME %s decryptor: drop pkt\n", __FUNCTION__);
++		#endif
++		ret = _FAIL;
++		goto _recv_data_drop;
++	}
++
++#if 0
++	if ( padapter->adapter_type == PRIMARY_ADAPTER )
++	{
++		DBG_871X("+++\n");
++		{
++			int i;
++			u8	*ptr = get_recvframe_data(prframe);
++			for(i=0; i<140;i=i+8)
++				DBG_871X("%02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X:", *(ptr+i),
++				*(ptr+i+1), *(ptr+i+2) ,*(ptr+i+3) ,*(ptr+i+4),*(ptr+i+5), *(ptr+i+6), *(ptr+i+7));
++
++		}
++		DBG_871X("---\n");
++	}
++#endif //RTK_DMP_PLATFORM
++
++#ifdef CONFIG_TDLS
++	//check TDLS frame
++	psnap_type = get_recvframe_data(orig_prframe);
++	psnap_type+=pattrib->hdrlen + pattrib->iv_len+SNAP_SIZE;
++	pcategory = psnap_type + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN;
++
++	if((_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_TDLS, ETH_TYPE_LEN)) &&
++		((*pcategory==RTW_WLAN_CATEGORY_TDLS) || (*pcategory==RTW_WLAN_CATEGORY_P2P))){
++		ret = OnTDLS(padapter, prframe);	//all of functions will return _FAIL
++		goto _exit_recv_func;
++	}
++#endif //CONFIG_TDLS
++
++	prframe = recvframe_chk_defrag(padapter, prframe);
++	if(prframe==NULL)	{
++		RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("recvframe_chk_defrag: drop pkt\n"));
++		#ifdef DBG_RX_DROP_FRAME
++		DBG_871X("DBG_RX_DROP_FRAME %s recvframe_chk_defrag: drop pkt\n", __FUNCTION__);
++		#endif
++		goto _recv_data_drop;		
++	}
++
++	prframe=portctrl(padapter, prframe);
++	if (prframe == NULL) {
++		RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("portctrl: drop pkt \n"));
++		#ifdef DBG_RX_DROP_FRAME
++		DBG_871X("DBG_RX_DROP_FRAME %s portctrl: drop pkt\n", __FUNCTION__);
++		#endif
++		ret = _FAIL;
++		goto _recv_data_drop;
++	}
++
++#ifdef CONFIG_TDLS
++	if(padapter->tdlsinfo.setup_state == TDLS_LINKED_STATE)
++		ptdls_sta = rtw_get_stainfo(&padapter->stapriv, pattrib->src);
++	count_rx_stats(padapter, prframe, ptdls_sta);
++#else
++	count_rx_stats(padapter, prframe, NULL);
++#endif //CONFIG_TDLS
++
++#ifdef CONFIG_80211N_HT
++
++	ret = process_recv_indicatepkts(padapter, prframe);
++	if (ret != _SUCCESS)
++	{
++		RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("recv_func: process_recv_indicatepkts fail! \n"));
++		#ifdef DBG_RX_DROP_FRAME
++		DBG_871X("DBG_RX_DROP_FRAME %s recv_func: process_recv_indicatepkts fail!\n", __FUNCTION__);
++		#endif
++		rtw_free_recvframe(orig_prframe, pfree_recv_queue);//free this recv_frame
++		goto _recv_data_drop;
++	}
++
++#else // CONFIG_80211N_HT
++
++	if (!pattrib->amsdu)
++	{
++		ret = wlanhdr_to_ethhdr (prframe);
++		if (ret != _SUCCESS)
++		{
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("wlanhdr_to_ethhdr: drop pkt \n"));
++			#ifdef DBG_RX_DROP_FRAME
++			DBG_871X("DBG_RX_DROP_FRAME %s wlanhdr_to_ethhdr: drop pkt\n", __FUNCTION__);
++			#endif
++			rtw_free_recvframe(orig_prframe, pfree_recv_queue);//free this recv_frame
++			goto _recv_data_drop;
++		}
++
++		if ((padapter->bDriverStopped == _FALSE) && (padapter->bSurpriseRemoved == _FALSE))
++		{
++			RT_TRACE(_module_rtl871x_recv_c_, _drv_alert_, ("@@@@ recv_func: recv_func rtw_recv_indicatepkt\n" ));
++			//indicate this recv_frame
++			ret = rtw_recv_indicatepkt(padapter, prframe);
++			if (ret != _SUCCESS)
++			{	
++				#ifdef DBG_RX_DROP_FRAME
++				DBG_871X("DBG_RX_DROP_FRAME %s rtw_recv_indicatepkt fail!\n", __FUNCTION__);
++				#endif
++				goto _recv_data_drop;
++			}
++		}
++		else
++		{
++			RT_TRACE(_module_rtl871x_recv_c_, _drv_alert_, ("@@@@  recv_func: rtw_free_recvframe\n" ));
++			RT_TRACE(_module_rtl871x_recv_c_, _drv_debug_, ("recv_func:bDriverStopped(%d) OR bSurpriseRemoved(%d)", padapter->bDriverStopped, padapter->bSurpriseRemoved));
++			#ifdef DBG_RX_DROP_FRAME
++			DBG_871X("DBG_RX_DROP_FRAME %s ecv_func:bDriverStopped(%d) OR bSurpriseRemoved(%d)\n", __FUNCTION__,
++				padapter->bDriverStopped, padapter->bSurpriseRemoved);
++			#endif
++			ret = _FAIL;
++			rtw_free_recvframe(orig_prframe, pfree_recv_queue); //free this recv_frame
++		}
++
++	}
++	else if(pattrib->amsdu==1)
++	{
++
++		ret = amsdu_to_msdu(padapter, prframe);
++		if(ret != _SUCCESS)
++		{
++			#ifdef DBG_RX_DROP_FRAME
++			DBG_871X("DBG_RX_DROP_FRAME %s amsdu_to_msdu fail\n", __FUNCTION__);
++			#endif
++			rtw_free_recvframe(orig_prframe, pfree_recv_queue);
++			goto _recv_data_drop;
++		}
++	}
++	else
++	{
++		#ifdef DBG_RX_DROP_FRAME
++		DBG_871X("DBG_RX_DROP_FRAME %s what is this condition??\n", __FUNCTION__);
++		#endif
++		goto _recv_data_drop;
++	}
++#endif // CONFIG_80211N_HT
++
++_exit_recv_func:
++	return ret;
++
++_recv_data_drop:
++	precvpriv->rx_drop++;
++	return ret;
++}
++
++
++int recv_func(_adapter *padapter, union recv_frame *rframe);
++int recv_func(_adapter *padapter, union recv_frame *rframe)
++{
++	int ret;
++	struct rx_pkt_attrib *prxattrib = &rframe->u.hdr.attrib;
++	struct recv_priv *recvpriv = &padapter->recvpriv;
++	struct security_priv *psecuritypriv=&padapter->securitypriv;
++	struct mlme_priv *mlmepriv = &padapter->mlmepriv;
++
++	/* check if need to handle uc_swdec_pending_queue*/
++	if (check_fwstate(mlmepriv, WIFI_STATION_STATE) && psecuritypriv->busetkipkey)
++	{
++		union recv_frame *pending_frame;
++		_irqL irqL;
++
++		while((pending_frame=rtw_alloc_recvframe(&padapter->recvpriv.uc_swdec_pending_queue))) {
++			if (recv_func_posthandle(padapter, pending_frame) == _SUCCESS)
++				DBG_871X("%s: dequeue uc_swdec_pending_queue\n", __func__);
++		}
++	}
++
++	ret = recv_func_prehandle(padapter, rframe);
++
++	if(ret == _SUCCESS) {
++		
++		/* check if need to enqueue into uc_swdec_pending_queue*/
++		if (check_fwstate(mlmepriv, WIFI_STATION_STATE) &&
++			!IS_MCAST(prxattrib->ra) && prxattrib->encrypt>0 &&
++			(prxattrib->bdecrypted == 0 ||psecuritypriv->sw_decrypt == _TRUE) &&
++			!is_wep_enc(psecuritypriv->dot11PrivacyAlgrthm) &&
++			!psecuritypriv->busetkipkey) {
++			rtw_enqueue_recvframe(rframe, &padapter->recvpriv.uc_swdec_pending_queue);
++			DBG_871X("%s: no key, enqueue uc_swdec_pending_queue\n", __func__);
++			goto exit;
++		}
++		
++		ret = recv_func_posthandle(padapter, rframe);
++	}
++
++exit:
++	return ret;
++}
++
++
++s32 rtw_recv_entry(union recv_frame *precvframe)
++{
++	_adapter *padapter;
++	struct recv_priv *precvpriv;
++	s32 ret=_SUCCESS;
++
++_func_enter_;
++
++//	RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("+rtw_recv_entry\n"));
++
++	padapter = precvframe->u.hdr.adapter;
++
++	precvpriv = &padapter->recvpriv;
++
++
++	if ((ret = recv_func(padapter, precvframe)) == _FAIL)
++	{
++		RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("rtw_recv_entry: recv_func return fail!!!\n"));
++		goto _recv_entry_drop;
++	}
++
++
++	precvpriv->rx_pkts++;
++
++_func_exit_;
++
++	return ret;
++
++_recv_entry_drop:
++
++#ifdef CONFIG_MP_INCLUDED
++	padapter->mppriv.rx_pktloss = precvpriv->rx_drop;
++#endif
++
++	//RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("_recv_entry_drop\n"));
++
++_func_exit_;
++
++	return ret;
++}
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++void rtw_signal_stat_timer_hdl(RTW_TIMER_HDL_ARGS){
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct recv_priv *recvpriv = &adapter->recvpriv;
++	
++	u32 tmp_s, tmp_q;
++	u8 avg_signal_strength = 0;
++	u8 avg_signal_qual = 0;
++	u32 num_signal_strength = 0;
++	u32 num_signal_qual = 0;
++	u8 _alpha = 3; // this value is based on converging_constant = 5000 and sampling_interval = 1000
++
++	if(adapter->recvpriv.is_signal_dbg) {
++		//update the user specific value, signal_strength_dbg, to signal_strength, rssi
++		adapter->recvpriv.signal_strength= adapter->recvpriv.signal_strength_dbg;
++		adapter->recvpriv.rssi=(s8)translate_percentage_to_dbm((u8)adapter->recvpriv.signal_strength_dbg);
++	} else {
++
++		if(recvpriv->signal_strength_data.update_req == 0) {// update_req is clear, means we got rx
++			avg_signal_strength = recvpriv->signal_strength_data.avg_val;
++			num_signal_strength = recvpriv->signal_strength_data.total_num;
++			// after avg_vals are accquired, we can re-stat the signal values
++			recvpriv->signal_strength_data.update_req = 1;
++		}
++		
++		if(recvpriv->signal_qual_data.update_req == 0) {// update_req is clear, means we got rx
++			avg_signal_qual = recvpriv->signal_qual_data.avg_val;
++			num_signal_qual = recvpriv->signal_qual_data.total_num;
++			// after avg_vals are accquired, we can re-stat the signal values
++			recvpriv->signal_qual_data.update_req = 1;
++		}
++
++		if (num_signal_strength == 0) {
++			if (rtw_get_on_cur_ch_time(adapter) == 0
++				|| rtw_get_passing_time_ms(rtw_get_on_cur_ch_time(adapter)) < 2 * adapter->mlmeextpriv.mlmext_info.bcn_interval
++			) {
++				goto set_timer;
++			}
++		}
++
++		if(check_fwstate(&adapter->mlmepriv, _FW_UNDER_SURVEY) == _TRUE
++			|| check_fwstate(&adapter->mlmepriv, _FW_LINKED) == _FALSE
++		) { 
++			goto set_timer;
++		}
++
++		#ifdef CONFIG_CONCURRENT_MODE
++		if (check_buddy_fwstate(adapter, _FW_UNDER_SURVEY) == _TRUE)
++			goto set_timer;
++		#endif
++
++		//update value of signal_strength, rssi, signal_qual
++		tmp_s = (avg_signal_strength+(_alpha-1)*recvpriv->signal_strength);
++		if(tmp_s %_alpha)
++			tmp_s = tmp_s/_alpha + 1;
++		else
++			tmp_s = tmp_s/_alpha;
++		if(tmp_s>100)
++			tmp_s = 100;
++
++		tmp_q = (avg_signal_qual+(_alpha-1)*recvpriv->signal_qual);
++		if(tmp_q %_alpha)
++			tmp_q = tmp_q/_alpha + 1;
++		else
++			tmp_q = tmp_q/_alpha;
++		if(tmp_q>100)
++			tmp_q = 100;
++
++		recvpriv->signal_strength = tmp_s;
++		recvpriv->rssi = (s8)translate_percentage_to_dbm(tmp_s);
++		recvpriv->signal_qual = tmp_q;
++
++		#if defined(DBG_RX_SIGNAL_DISPLAY_PROCESSING) && 1
++		DBG_871X(FUNC_ADPT_FMT" signal_strength:%3u, rssi:%3d, signal_qual:%3u"
++			", num_signal_strength:%u, num_signal_qual:%u"
++			", on_cur_ch_ms:%d"
++			"\n"
++			, FUNC_ADPT_ARG(adapter)
++			, recvpriv->signal_strength
++			, recvpriv->rssi
++			, recvpriv->signal_qual
++			, num_signal_strength, num_signal_qual
++			, rtw_get_on_cur_ch_time(adapter) ? rtw_get_passing_time_ms(rtw_get_on_cur_ch_time(adapter)) : 0
++		);
++		#endif
++	}
++
++set_timer:
++	rtw_set_signal_stat_timer(recvpriv);
++	
++}
++#endif //CONFIG_NEW_SIGNAL_STAT_PROCESS
++
++
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_rf.c b/drivers/net/wireless/rtl8192cu/core/rtw_rf.c
+new file mode 100755
+index 0000000..7ae8635
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_rf.c
+@@ -0,0 +1,95 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_RF_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <recv_osdep.h>
++#include <xmit_osdep.h>
++
++
++struct ch_freq {
++	u32 channel;
++	u32 frequency;
++};
++
++struct ch_freq ch_freq_map[] = {
++	{1, 2412},{2, 2417},{3, 2422},{4, 2427},{5, 2432},
++	{6, 2437},{7, 2442},{8, 2447},{9, 2452},{10, 2457},
++	{11, 2462},{12, 2467},{13, 2472},{14, 2484},
++	/*  UNII */
++	{36, 5180},{40, 5200},{44, 5220},{48, 5240},{52, 5260},
++	{56, 5280},{60, 5300},{64, 5320},{149, 5745},{153, 5765},
++	{157, 5785},{161, 5805},{165, 5825},{167, 5835},{169, 5845},
++	{171, 5855},{173, 5865},
++	/* HiperLAN2 */
++	{100, 5500},{104, 5520},{108, 5540},{112, 5560},{116, 5580},
++	{120, 5600},{124, 5620},{128, 5640},{132, 5660},{136, 5680},
++	{140, 5700},
++	/* Japan MMAC */
++	{34, 5170},{38, 5190},{42, 5210},{46, 5230},
++	/*  Japan */
++	{184, 4920},{188, 4940},{192, 4960},{196, 4980},
++	{208, 5040},/* Japan, means J08 */
++	{212, 5060},/* Japan, means J12 */
++	{216, 5080},/* Japan, means J16 */
++};
++
++int ch_freq_map_num = (sizeof(ch_freq_map) / sizeof(struct ch_freq));
++
++u32 rtw_ch2freq(u32 channel)
++{
++	u8	i;
++	u32	freq = 0;
++
++	for (i = 0; i < ch_freq_map_num; i++)
++	{
++		if (channel == ch_freq_map[i].channel)
++		{
++			freq = ch_freq_map[i].frequency;
++				break;
++		}
++	}
++	if (i == ch_freq_map_num)
++		freq = 2412;
++
++	return freq;
++}
++
++u32 rtw_freq2ch(u32 freq)
++{
++	u8	i;
++	u32	ch = 0;
++
++	for (i = 0; i < ch_freq_map_num; i++)
++	{
++		if (freq == ch_freq_map[i].frequency)
++		{
++			ch = ch_freq_map[i].channel;
++				break;
++		}
++	}
++	if (i == ch_freq_map_num)
++		ch = 1;
++
++	return ch;
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_security.c b/drivers/net/wireless/rtl8192cu/core/rtw_security.c
+new file mode 100755
+index 0000000..8fa8ed5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_security.c
+@@ -0,0 +1,3115 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define  _RTW_SECURITY_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <wifi.h>
++#include <osdep_intf.h>
++
++
++//=====WEP related===== 
++
++#define CRC32_POLY 0x04c11db7
++
++struct arc4context
++{
++	u32 x;
++	u32 y;
++	u8 state[256];
++};
++
++
++static void arcfour_init(struct arc4context 	*parc4ctx, u8 * key,u32	key_len)
++{
++	u32	t, u;
++	u32	keyindex;
++	u32	stateindex;
++	u8 * state;
++	u32	counter;
++_func_enter_;
++	state = parc4ctx->state;
++	parc4ctx->x = 0;
++	parc4ctx->y = 0;
++	for (counter = 0; counter < 256; counter++)
++		state[counter] = (u8)counter;
++	keyindex = 0;
++	stateindex = 0;
++	for (counter = 0; counter < 256; counter++)
++	{
++		t = state[counter];
++		stateindex = (stateindex + key[keyindex] + t) & 0xff;
++		u = state[stateindex];
++		state[stateindex] = (u8)t;
++		state[counter] = (u8)u;
++		if (++keyindex >= key_len)
++			keyindex = 0;
++	}
++_func_exit_;	
++}
++static u32 arcfour_byte(	struct arc4context	*parc4ctx)
++{
++	u32 x;
++	u32 y;
++	u32 sx, sy;
++	u8 * state;
++_func_enter_;
++	state = parc4ctx->state;
++	x = (parc4ctx->x + 1) & 0xff;
++	sx = state[x];
++	y = (sx + parc4ctx->y) & 0xff;
++	sy = state[y];
++	parc4ctx->x = x;
++	parc4ctx->y = y;
++	state[y] = (u8)sx;
++	state[x] = (u8)sy;
++_func_exit_;	
++	return state[(sx + sy) & 0xff];
++}
++              
++           
++static void arcfour_encrypt(	struct arc4context	*parc4ctx, 
++	u8 * dest,
++	u8 * src, 
++	u32 len)
++{
++	u32	i;
++_func_enter_;	
++	for (i = 0; i < len; i++)
++		dest[i] = src[i] ^ (unsigned char)arcfour_byte(parc4ctx);
++_func_exit_;		
++}
++
++static sint bcrc32initialized = 0;
++static u32 crc32_table[256];
++
++
++static u8 crc32_reverseBit( u8 data)
++{
++	return( (u8)((data<<7)&0x80) | ((data<<5)&0x40) | ((data<<3)&0x20) | ((data<<1)&0x10) | ((data>>1)&0x08) | ((data>>3)&0x04) | ((data>>5)&0x02) | ((data>>7)&0x01) );
++}
++
++static void crc32_init(void)
++{
++_func_enter_;	
++	if (bcrc32initialized == 1) 
++		goto exit;
++	else{
++		sint i, j;
++		u32 c;
++		u8 *p=(u8 *)&c, *p1;
++		u8 k;
++
++		c = 0x12340000;
++
++		for (i = 0; i < 256; ++i) 
++		{
++			k = crc32_reverseBit((u8)i);
++			for (c = ((u32)k) << 24, j = 8; j > 0; --j){
++				c = c & 0x80000000 ? (c << 1) ^ CRC32_POLY : (c << 1);
++			}
++			p1 = (u8 *)&crc32_table[i];
++
++			p1[0] = crc32_reverseBit(p[3]);
++			p1[1] = crc32_reverseBit(p[2]);
++			p1[2] = crc32_reverseBit(p[1]);
++			p1[3] = crc32_reverseBit(p[0]);
++		}
++		bcrc32initialized= 1;
++	}
++exit:	
++_func_exit_;			
++}
++
++static u32 getcrc32(u8 *buf, sint len)
++{
++	u8 *p;
++	u32  crc;
++_func_enter_;	
++	if (bcrc32initialized == 0) crc32_init();
++
++	crc = 0xffffffff;       /* preload shift register, per CRC-32 spec */
++
++	for (p = buf; len > 0; ++p, --len) 
++	{
++		crc = crc32_table[ (crc ^ *p) & 0xff] ^ (crc >> 8);
++	}
++_func_exit_;				
++	return ~crc;    /* transmit complement, per CRC-32 spec */
++}
++
++
++/*
++	Need to consider the fragment  situation
++*/
++void rtw_wep_encrypt(_adapter *padapter, u8 *pxmitframe)
++{																	// exclude ICV
++	
++	unsigned char	crc[4];
++	struct arc4context	 mycontext;
++
++	sint	curfragnum,length;
++	u32	keylength;
++
++	u8	*pframe, *payload,*iv;    //,*wepkey
++	u8	wepkey[16];
++	struct	pkt_attrib	 *pattrib = &((struct xmit_frame*)pxmitframe)->attrib;
++	struct 	security_priv	*psecuritypriv=&padapter->securitypriv;
++	struct	xmit_priv		*pxmitpriv=&padapter->xmitpriv;
++	
++_func_enter_;	
++
++	
++	if(((struct xmit_frame*)pxmitframe)->buf_addr==NULL)
++		return;
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	pframe = ((struct xmit_frame*)pxmitframe)->buf_addr + TXDESC_SIZE +
++		 (((struct xmit_frame*)pxmitframe)->pkt_offset * PACKET_OFFSET_SZ);
++#else
++	pframe = ((struct xmit_frame*)pxmitframe)->buf_addr + TXDESC_OFFSET;
++#endif
++	
++	//start to encrypt each fragment
++	if((pattrib->encrypt==_WEP40_)||(pattrib->encrypt==_WEP104_))
++	{
++		keylength=psecuritypriv->dot11DefKeylen[psecuritypriv->dot11PrivacyKeyIndex];
++
++		for(curfragnum=0;curfragnum<pattrib->nr_frags;curfragnum++)
++		{
++			iv=pframe+pattrib->hdrlen;
++			_rtw_memcpy(&wepkey[0], iv, 3);
++			_rtw_memcpy(&wepkey[3], &psecuritypriv->dot11DefKey[psecuritypriv->dot11PrivacyKeyIndex].skey[0],keylength);
++			payload=pframe+pattrib->iv_len+pattrib->hdrlen;
++
++			if((curfragnum+1)==pattrib->nr_frags)
++			{	//the last fragment
++			
++				length=pattrib->last_txcmdsz-pattrib->hdrlen-pattrib->iv_len- pattrib->icv_len;
++			
++				*((u32 *)crc)=cpu_to_le32(getcrc32(payload,length));
++
++				arcfour_init(&mycontext, wepkey,3+keylength);
++				arcfour_encrypt(&mycontext, payload, payload, length);
++				arcfour_encrypt(&mycontext, payload+length, crc, 4);
++
++			}
++			else
++			{
++			length=pxmitpriv->frag_len-pattrib->hdrlen-pattrib->iv_len-pattrib->icv_len ;
++				*((u32 *)crc)=cpu_to_le32(getcrc32(payload,length));
++				arcfour_init(&mycontext, wepkey,3+keylength);
++				arcfour_encrypt(&mycontext, payload, payload, length);
++				arcfour_encrypt(&mycontext, payload+length, crc, 4);
++	
++			pframe+=pxmitpriv->frag_len;
++			pframe=(u8 *)RND4((SIZE_PTR)(pframe));
++
++			}
++			
++		}		
++						
++	}
++	
++_func_exit_;						
++
++}
++
++void rtw_wep_decrypt(_adapter  *padapter, u8 *precvframe)
++{								
++	// exclude ICV
++	u8	crc[4];
++	struct arc4context	 mycontext;
++	sint 	length;
++	u32	keylength;
++	u8	*pframe, *payload,*iv,wepkey[16];
++	u8	 keyindex;
++	struct	rx_pkt_attrib	 *prxattrib = &(((union recv_frame*)precvframe)->u.hdr.attrib);
++	struct 	security_priv	*psecuritypriv=&padapter->securitypriv;
++
++_func_enter_;	
++
++	pframe=(unsigned char *)((union recv_frame*)precvframe)->u.hdr.rx_data;
++	
++	//start to decrypt recvframe
++	if((prxattrib->encrypt==_WEP40_)||(prxattrib->encrypt==_WEP104_))
++	{
++		iv=pframe+prxattrib->hdrlen;
++		//keyindex=(iv[3]&0x3);
++		keyindex = prxattrib->key_index;
++		keylength=psecuritypriv->dot11DefKeylen[keyindex];
++		_rtw_memcpy(&wepkey[0], iv, 3);
++		//_rtw_memcpy(&wepkey[3], &psecuritypriv->dot11DefKey[psecuritypriv->dot11PrivacyKeyIndex].skey[0],keylength);
++		_rtw_memcpy(&wepkey[3], &psecuritypriv->dot11DefKey[keyindex].skey[0],keylength);
++		length= ((union recv_frame *)precvframe)->u.hdr.len-prxattrib->hdrlen-prxattrib->iv_len;
++
++		payload=pframe+prxattrib->iv_len+prxattrib->hdrlen;
++		
++		//decrypt payload include icv
++		arcfour_init(&mycontext, wepkey,3+keylength);
++		arcfour_encrypt(&mycontext, payload, payload,  length);
++				
++		//calculate icv and compare the icv
++		*((u32 *)crc)=le32_to_cpu(getcrc32(payload,length-4));
++		
++		if(crc[3]!=payload[length-1] || crc[2]!=payload[length-2] || crc[1]!=payload[length-3] || crc[0]!=payload[length-4])
++		{
++			RT_TRACE(_module_rtl871x_security_c_,_drv_err_,("rtw_wep_decrypt:icv error crc[3](%x)!=payload[length-1](%x) || crc[2](%x)!=payload[length-2](%x) || crc[1](%x)!=payload[length-3](%x) || crc[0](%x)!=payload[length-4](%x)\n",
++						crc[3],payload[length-1],crc[2],payload[length-2],crc[1],payload[length-3],crc[0],payload[length-4]));
++		}	
++						
++	}
++	
++_func_exit_;		
++
++	return;
++	
++}
++
++//3 		=====TKIP related=====
++
++static u32 secmicgetuint32( u8 * p )
++// Convert from Byte[] to Us4Byte32 in a portable way
++{
++	s32 i;
++	u32 res = 0;
++_func_enter_;		
++	for( i=0; i<4; i++ )
++	{
++		res |= ((u32)(*p++)) << (8*i);
++	}
++_func_exit_;		
++	return res;
++}
++
++static void secmicputuint32( u8 * p, u32 val )
++// Convert from Us4Byte32 to Byte[] in a portable way
++{
++	long i;
++_func_enter_;			
++	for( i=0; i<4; i++ )
++	{
++		*p++ = (u8) (val & 0xff);
++		val >>= 8;
++	}
++_func_exit_;		
++}
++
++static void secmicclear(struct mic_data *pmicdata)
++{
++// Reset the state to the empty message.
++_func_enter_;	
++	pmicdata->L = pmicdata->K0;
++	pmicdata->R = pmicdata->K1;
++	pmicdata->nBytesInM = 0;
++	pmicdata->M = 0;
++_func_exit_;	
++}
++
++void rtw_secmicsetkey(struct mic_data *pmicdata, u8 * key )
++{
++	// Set the key
++_func_enter_;		
++	pmicdata->K0 = secmicgetuint32( key );
++	pmicdata->K1 = secmicgetuint32( key + 4 );
++	// and reset the message
++	secmicclear(pmicdata);
++_func_exit_;		
++}
++
++void rtw_secmicappendbyte(struct mic_data *pmicdata, u8 b )
++{
++_func_enter_;	
++	// Append the byte to our word-sized buffer
++	pmicdata->M |= ((unsigned long)b) << (8*pmicdata->nBytesInM);
++	pmicdata->nBytesInM++;
++	// Process the word if it is full.
++	if( pmicdata->nBytesInM >= 4 )
++	{
++		pmicdata->L ^= pmicdata->M;
++		pmicdata->R ^= ROL32( pmicdata->L, 17 );
++		pmicdata->L += pmicdata->R;
++		pmicdata->R ^= ((pmicdata->L & 0xff00ff00) >> 8) | ((pmicdata->L & 0x00ff00ff) << 8);
++		pmicdata->L += pmicdata->R;
++		pmicdata->R ^= ROL32( pmicdata->L, 3 );
++		pmicdata->L += pmicdata->R;
++		pmicdata->R ^= ROR32( pmicdata->L, 2 );
++		pmicdata->L += pmicdata->R;
++		// Clear the buffer
++		pmicdata->M = 0;
++		pmicdata->nBytesInM = 0;
++	}
++_func_exit_;			
++}
++
++void rtw_secmicappend(struct mic_data *pmicdata, u8 * src, u32 nbytes )
++{
++_func_enter_;	
++	// This is simple
++	while( nbytes > 0 )
++	{
++		rtw_secmicappendbyte(pmicdata, *src++ );
++		nbytes--;
++	}
++_func_exit_;			
++}
++
++void rtw_secgetmic(struct mic_data *pmicdata, u8 * dst )
++{
++_func_enter_;	
++	// Append the minimum padding
++	rtw_secmicappendbyte(pmicdata, 0x5a );
++	rtw_secmicappendbyte(pmicdata, 0 );
++	rtw_secmicappendbyte(pmicdata, 0 );
++	rtw_secmicappendbyte(pmicdata, 0 );
++	rtw_secmicappendbyte(pmicdata, 0 );
++	// and then zeroes until the length is a multiple of 4
++	while( pmicdata->nBytesInM != 0 )
++	{
++		rtw_secmicappendbyte(pmicdata, 0 );
++	}
++	// The appendByte function has already computed the result.
++	secmicputuint32( dst, pmicdata->L );
++	secmicputuint32( dst+4, pmicdata->R );
++	// Reset to the empty message.
++	secmicclear(pmicdata);
++_func_exit_;		
++}
++
++
++void rtw_seccalctkipmic(u8 * key,u8 *header,u8 *data,u32 data_len,u8 *mic_code, u8 pri)
++{
++
++	struct mic_data	micdata;
++	u8 priority[4]={0x0,0x0,0x0,0x0};
++_func_enter_;		
++	rtw_secmicsetkey(&micdata, key);
++	priority[0]=pri;
++	
++	/* Michael MIC pseudo header: DA, SA, 3 x 0, Priority */
++	if(header[1]&1){   //ToDS==1
++			rtw_secmicappend(&micdata, &header[16], 6);  //DA
++		if(header[1]&2)  //From Ds==1
++			rtw_secmicappend(&micdata, &header[24], 6);
++		else
++			rtw_secmicappend(&micdata, &header[10], 6);		
++	}	
++	else{	//ToDS==0
++		rtw_secmicappend(&micdata, &header[4], 6);   //DA
++		if(header[1]&2)  //From Ds==1
++			rtw_secmicappend(&micdata, &header[16], 6);
++		else
++			rtw_secmicappend(&micdata, &header[10], 6);
++
++	}
++	rtw_secmicappend(&micdata, &priority[0], 4);
++
++	
++	rtw_secmicappend(&micdata, data, data_len);
++
++	rtw_secgetmic(&micdata,mic_code);
++_func_exit_;	
++}
++
++
++
++
++/* macros for extraction/creation of unsigned char/unsigned short values  */
++#define RotR1(v16)   ((((v16) >> 1) & 0x7FFF) ^ (((v16) & 1) << 15))
++#define   Lo8(v16)   ((u8)( (v16)       & 0x00FF))
++#define   Hi8(v16)   ((u8)(((v16) >> 8) & 0x00FF))
++#define  Lo16(v32)   ((u16)( (v32)       & 0xFFFF))
++#define  Hi16(v32)   ((u16)(((v32) >>16) & 0xFFFF))
++#define  Mk16(hi,lo) ((lo) ^ (((u16)(hi)) << 8))
++
++/* select the Nth 16-bit word of the temporal key unsigned char array TK[]   */
++#define  TK16(N)     Mk16(tk[2*(N)+1],tk[2*(N)])
++
++/* S-box lookup: 16 bits --> 16 bits */
++#define _S_(v16)     (Sbox1[0][Lo8(v16)] ^ Sbox1[1][Hi8(v16)])
++
++/* fixed algorithm "parameters" */
++#define PHASE1_LOOP_CNT   8    /* this needs to be "big enough"     */
++#define TA_SIZE           6    /*  48-bit transmitter address       */
++#define TK_SIZE          16    /* 128-bit temporal key              */
++#define P1K_SIZE         10    /*  80-bit Phase1 key                */
++#define RC4_KEY_SIZE     16    /* 128-bit RC4KEY (104 bits unknown) */
++
++
++/* 2-unsigned char by 2-unsigned char subset of the full AES S-box table */
++static const unsigned short Sbox1[2][256]=       /* Sbox for hash (can be in ROM)     */
++{ {
++   0xC6A5,0xF884,0xEE99,0xF68D,0xFF0D,0xD6BD,0xDEB1,0x9154,
++   0x6050,0x0203,0xCEA9,0x567D,0xE719,0xB562,0x4DE6,0xEC9A,
++   0x8F45,0x1F9D,0x8940,0xFA87,0xEF15,0xB2EB,0x8EC9,0xFB0B,
++   0x41EC,0xB367,0x5FFD,0x45EA,0x23BF,0x53F7,0xE496,0x9B5B,
++   0x75C2,0xE11C,0x3DAE,0x4C6A,0x6C5A,0x7E41,0xF502,0x834F,
++   0x685C,0x51F4,0xD134,0xF908,0xE293,0xAB73,0x6253,0x2A3F,
++   0x080C,0x9552,0x4665,0x9D5E,0x3028,0x37A1,0x0A0F,0x2FB5,
++   0x0E09,0x2436,0x1B9B,0xDF3D,0xCD26,0x4E69,0x7FCD,0xEA9F,
++   0x121B,0x1D9E,0x5874,0x342E,0x362D,0xDCB2,0xB4EE,0x5BFB,
++   0xA4F6,0x764D,0xB761,0x7DCE,0x527B,0xDD3E,0x5E71,0x1397,
++   0xA6F5,0xB968,0x0000,0xC12C,0x4060,0xE31F,0x79C8,0xB6ED,
++   0xD4BE,0x8D46,0x67D9,0x724B,0x94DE,0x98D4,0xB0E8,0x854A,
++   0xBB6B,0xC52A,0x4FE5,0xED16,0x86C5,0x9AD7,0x6655,0x1194,
++   0x8ACF,0xE910,0x0406,0xFE81,0xA0F0,0x7844,0x25BA,0x4BE3,
++   0xA2F3,0x5DFE,0x80C0,0x058A,0x3FAD,0x21BC,0x7048,0xF104,
++   0x63DF,0x77C1,0xAF75,0x4263,0x2030,0xE51A,0xFD0E,0xBF6D,
++   0x814C,0x1814,0x2635,0xC32F,0xBEE1,0x35A2,0x88CC,0x2E39,
++   0x9357,0x55F2,0xFC82,0x7A47,0xC8AC,0xBAE7,0x322B,0xE695,
++   0xC0A0,0x1998,0x9ED1,0xA37F,0x4466,0x547E,0x3BAB,0x0B83,
++   0x8CCA,0xC729,0x6BD3,0x283C,0xA779,0xBCE2,0x161D,0xAD76,
++   0xDB3B,0x6456,0x744E,0x141E,0x92DB,0x0C0A,0x486C,0xB8E4,
++   0x9F5D,0xBD6E,0x43EF,0xC4A6,0x39A8,0x31A4,0xD337,0xF28B,
++   0xD532,0x8B43,0x6E59,0xDAB7,0x018C,0xB164,0x9CD2,0x49E0,
++   0xD8B4,0xACFA,0xF307,0xCF25,0xCAAF,0xF48E,0x47E9,0x1018,
++   0x6FD5,0xF088,0x4A6F,0x5C72,0x3824,0x57F1,0x73C7,0x9751,
++   0xCB23,0xA17C,0xE89C,0x3E21,0x96DD,0x61DC,0x0D86,0x0F85,
++   0xE090,0x7C42,0x71C4,0xCCAA,0x90D8,0x0605,0xF701,0x1C12,
++   0xC2A3,0x6A5F,0xAEF9,0x69D0,0x1791,0x9958,0x3A27,0x27B9,
++   0xD938,0xEB13,0x2BB3,0x2233,0xD2BB,0xA970,0x0789,0x33A7,
++   0x2DB6,0x3C22,0x1592,0xC920,0x8749,0xAAFF,0x5078,0xA57A,
++   0x038F,0x59F8,0x0980,0x1A17,0x65DA,0xD731,0x84C6,0xD0B8,
++   0x82C3,0x29B0,0x5A77,0x1E11,0x7BCB,0xA8FC,0x6DD6,0x2C3A,
++  },
++ 
++
++  {  /* second half of table is unsigned char-reversed version of first! */
++   0xA5C6,0x84F8,0x99EE,0x8DF6,0x0DFF,0xBDD6,0xB1DE,0x5491,
++   0x5060,0x0302,0xA9CE,0x7D56,0x19E7,0x62B5,0xE64D,0x9AEC,
++   0x458F,0x9D1F,0x4089,0x87FA,0x15EF,0xEBB2,0xC98E,0x0BFB,
++   0xEC41,0x67B3,0xFD5F,0xEA45,0xBF23,0xF753,0x96E4,0x5B9B,
++   0xC275,0x1CE1,0xAE3D,0x6A4C,0x5A6C,0x417E,0x02F5,0x4F83,
++   0x5C68,0xF451,0x34D1,0x08F9,0x93E2,0x73AB,0x5362,0x3F2A,
++   0x0C08,0x5295,0x6546,0x5E9D,0x2830,0xA137,0x0F0A,0xB52F,
++   0x090E,0x3624,0x9B1B,0x3DDF,0x26CD,0x694E,0xCD7F,0x9FEA,
++   0x1B12,0x9E1D,0x7458,0x2E34,0x2D36,0xB2DC,0xEEB4,0xFB5B,
++   0xF6A4,0x4D76,0x61B7,0xCE7D,0x7B52,0x3EDD,0x715E,0x9713,
++   0xF5A6,0x68B9,0x0000,0x2CC1,0x6040,0x1FE3,0xC879,0xEDB6,
++   0xBED4,0x468D,0xD967,0x4B72,0xDE94,0xD498,0xE8B0,0x4A85,
++   0x6BBB,0x2AC5,0xE54F,0x16ED,0xC586,0xD79A,0x5566,0x9411,
++   0xCF8A,0x10E9,0x0604,0x81FE,0xF0A0,0x4478,0xBA25,0xE34B,
++   0xF3A2,0xFE5D,0xC080,0x8A05,0xAD3F,0xBC21,0x4870,0x04F1,
++   0xDF63,0xC177,0x75AF,0x6342,0x3020,0x1AE5,0x0EFD,0x6DBF,
++   0x4C81,0x1418,0x3526,0x2FC3,0xE1BE,0xA235,0xCC88,0x392E,
++   0x5793,0xF255,0x82FC,0x477A,0xACC8,0xE7BA,0x2B32,0x95E6,
++   0xA0C0,0x9819,0xD19E,0x7FA3,0x6644,0x7E54,0xAB3B,0x830B,
++   0xCA8C,0x29C7,0xD36B,0x3C28,0x79A7,0xE2BC,0x1D16,0x76AD,
++   0x3BDB,0x5664,0x4E74,0x1E14,0xDB92,0x0A0C,0x6C48,0xE4B8,
++   0x5D9F,0x6EBD,0xEF43,0xA6C4,0xA839,0xA431,0x37D3,0x8BF2,
++   0x32D5,0x438B,0x596E,0xB7DA,0x8C01,0x64B1,0xD29C,0xE049,
++   0xB4D8,0xFAAC,0x07F3,0x25CF,0xAFCA,0x8EF4,0xE947,0x1810,
++   0xD56F,0x88F0,0x6F4A,0x725C,0x2438,0xF157,0xC773,0x5197,
++   0x23CB,0x7CA1,0x9CE8,0x213E,0xDD96,0xDC61,0x860D,0x850F,
++   0x90E0,0x427C,0xC471,0xAACC,0xD890,0x0506,0x01F7,0x121C,
++   0xA3C2,0x5F6A,0xF9AE,0xD069,0x9117,0x5899,0x273A,0xB927,
++   0x38D9,0x13EB,0xB32B,0x3322,0xBBD2,0x70A9,0x8907,0xA733,
++   0xB62D,0x223C,0x9215,0x20C9,0x4987,0xFFAA,0x7850,0x7AA5,
++   0x8F03,0xF859,0x8009,0x171A,0xDA65,0x31D7,0xC684,0xB8D0,
++   0xC382,0xB029,0x775A,0x111E,0xCB7B,0xFCA8,0xD66D,0x3A2C,
++  }
++};
++ 
++ /*
++**********************************************************************
++* Routine: Phase 1 -- generate P1K, given TA, TK, IV32
++*
++* Inputs:
++*     tk[]      = temporal key                         [128 bits]
++*     ta[]      = transmitter's MAC address            [ 48 bits]
++*     iv32      = upper 32 bits of IV                  [ 32 bits]
++* Output:
++*     p1k[]     = Phase 1 key                          [ 80 bits]
++*
++* Note:
++*     This function only needs to be called every 2**16 packets,
++*     although in theory it could be called every packet.
++*
++**********************************************************************
++*/
++static void phase1(u16 *p1k,const u8 *tk,const u8 *ta,u32 iv32)
++{
++	sint  i;
++_func_enter_;
++	/* Initialize the 80 bits of P1K[] from IV32 and TA[0..5]     */
++	p1k[0]      = Lo16(iv32);
++	p1k[1]      = Hi16(iv32);
++	p1k[2]      = Mk16(ta[1],ta[0]); /* use TA[] as little-endian */
++	p1k[3]      = Mk16(ta[3],ta[2]);
++	p1k[4]      = Mk16(ta[5],ta[4]);
++
++	/* Now compute an unbalanced Feistel cipher with 80-bit block */
++	/* size on the 80-bit block P1K[], using the 128-bit key TK[] */
++	for (i=0; i < PHASE1_LOOP_CNT ;i++)
++	{                 /* Each add operation here is mod 2**16 */
++      		p1k[0] += _S_(p1k[4] ^ TK16((i&1)+0));
++		p1k[1] += _S_(p1k[0] ^ TK16((i&1)+2));
++		p1k[2] += _S_(p1k[1] ^ TK16((i&1)+4));
++		p1k[3] += _S_(p1k[2] ^ TK16((i&1)+6));
++		p1k[4] += _S_(p1k[3] ^ TK16((i&1)+0));
++		p1k[4] +=  (unsigned short)i;                    /* avoid "slide attacks" */
++        }
++_func_exit_;
++}
++ 
++
++/*
++**********************************************************************
++* Routine: Phase 2 -- generate RC4KEY, given TK, P1K, IV16
++*
++* Inputs:
++*     tk[]      = Temporal key                         [128 bits]
++*     p1k[]     = Phase 1 output key                   [ 80 bits]
++*     iv16      = low 16 bits of IV counter            [ 16 bits]
++* Output:
++*     rc4key[]  = the key used to encrypt the packet   [128 bits]
++*
++* Note:
++*     The value {TA,IV32,IV16} for Phase1/Phase2 must be unique
++*     across all packets using the same key TK value. Then, for a
++*     given value of TK[], this TKIP48 construction guarantees that
++*     the final RC4KEY value is unique across all packets.
++*
++* Suggested implementation optimization: if PPK[] is "overlaid"
++*     appropriately on RC4KEY[], there is no need for the final
++*     for loop below that copies the PPK[] result into RC4KEY[].
++*
++**********************************************************************
++*/
++static void phase2(u8 *rc4key,const u8 *tk,const u16 *p1k,u16 iv16)
++{
++	sint  i;
++	u16 PPK[6];                          /* temporary key for mixing    */
++_func_enter_;
++	/* Note: all adds in the PPK[] equations below are mod 2**16         */
++	for (i=0;i<5;i++) PPK[i]=p1k[i];      /* first, copy P1K to PPK      */
++		PPK[5]  =  p1k[4] +iv16;             /* next,  add in IV16          */
++
++	/* Bijective non-linear mixing of the 96 bits of PPK[0..5]           */
++	PPK[0] +=    _S_(PPK[5] ^ TK16(0));   /* Mix key in each "round"     */
++	PPK[1] +=    _S_(PPK[0] ^ TK16(1));
++	PPK[2] +=    _S_(PPK[1] ^ TK16(2));
++	PPK[3] +=    _S_(PPK[2] ^ TK16(3));
++	PPK[4] +=    _S_(PPK[3] ^ TK16(4));
++	PPK[5] +=    _S_(PPK[4] ^ TK16(5));   /* Total # S-box lookups == 6  */
++
++	/* Final sweep: bijective, "linear". Rotates kill LSB correlations   */
++	PPK[0] +=  RotR1(PPK[5] ^ TK16(6));
++	PPK[1] +=  RotR1(PPK[0] ^ TK16(7));   /* Use all of TK[] in Phase2   */
++	PPK[2] +=  RotR1(PPK[1]);
++	PPK[3] +=  RotR1(PPK[2]);
++	PPK[4] +=  RotR1(PPK[3]);
++	PPK[5] +=  RotR1(PPK[4]);
++	/* Note: At this point, for a given key TK[0..15], the 96-bit output */
++	/*       value PPK[0..5] is guaranteed to be unique, as a function   */
++	/*       of the 96-bit "input" value   {TA,IV32,IV16}. That is, P1K  */
++	/*       is now a keyed permutation of {TA,IV32,IV16}.               */
++
++	/* Set RC4KEY[0..3], which includes "cleartext" portion of RC4 key   */
++	rc4key[0] = Hi8(iv16);                /* RC4KEY[0..2] is the WEP IV  */
++	rc4key[1] =(Hi8(iv16) | 0x20) & 0x7F; /* Help avoid weak (FMS) keys  */
++	rc4key[2] = Lo8(iv16);
++	rc4key[3] = Lo8((PPK[5] ^ TK16(0)) >> 1);
++	 
++
++	/* Copy 96 bits of PPK[0..5] to RC4KEY[4..15]  (little-endian)       */
++	for (i=0;i<6;i++)
++	{
++		rc4key[4+2*i] = Lo8(PPK[i]);
++		rc4key[5+2*i] = Hi8(PPK[i]);
++	}
++_func_exit_;	
++}
++
++
++//The hlen isn't include the IV
++u32	rtw_tkip_encrypt(_adapter *padapter, u8 *pxmitframe)
++{																	// exclude ICV
++	u16	pnl;
++	u32	pnh;
++	u8	rc4key[16];
++	u8   ttkey[16];
++	u8	crc[4];
++	struct arc4context mycontext;
++	sint 			curfragnum,length;
++	u32	prwskeylen;
++
++	u8	*pframe, *payload,*iv,*prwskey;
++	union pn48 dot11txpn;
++	struct	sta_info		*stainfo;
++	struct	pkt_attrib	 *pattrib = &((struct xmit_frame *)pxmitframe)->attrib;
++	struct 	security_priv	*psecuritypriv=&padapter->securitypriv;
++	struct	xmit_priv		*pxmitpriv=&padapter->xmitpriv;
++	u32	res=_SUCCESS;
++_func_enter_;
++
++	if(((struct xmit_frame*)pxmitframe)->buf_addr==NULL)
++		return _FAIL;
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	pframe = ((struct xmit_frame*)pxmitframe)->buf_addr + TXDESC_SIZE +
++		 (((struct xmit_frame*)pxmitframe)->pkt_offset * PACKET_OFFSET_SZ);
++#else
++	pframe = ((struct xmit_frame*)pxmitframe)->buf_addr + TXDESC_OFFSET;
++#endif
++
++	//4 start to encrypt each fragment
++	if(pattrib->encrypt==_TKIP_){
++
++		if(pattrib->psta)
++		{
++			stainfo = pattrib->psta;
++		}
++		else
++		{
++			DBG_871X("%s, call rtw_get_stainfo()\n", __func__);
++			stainfo=rtw_get_stainfo(&padapter->stapriv ,&pattrib->ra[0] );
++		}	
++		
++		if (stainfo!=NULL){
++
++			if(!(stainfo->state &_FW_LINKED))
++			{
++				DBG_871X("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, stainfo->state);
++				return _FAIL;
++			}
++			
++			RT_TRACE(_module_rtl871x_security_c_,_drv_err_,("rtw_tkip_encrypt: stainfo!=NULL!!!\n"));
++
++			if(IS_MCAST(pattrib->ra))
++			{
++				prwskey=psecuritypriv->dot118021XGrpKey[psecuritypriv->dot118021XGrpKeyid].skey;
++			}
++			else
++			{
++				prwskey=&stainfo->dot118021x_UncstKey.skey[0];
++			}
++
++			prwskeylen=16;
++
++			for(curfragnum=0;curfragnum<pattrib->nr_frags;curfragnum++){
++				iv=pframe+pattrib->hdrlen;
++				payload=pframe+pattrib->iv_len+pattrib->hdrlen;
++				
++				GET_TKIP_PN(iv, dot11txpn);
++
++				pnl=(u16)(dot11txpn.val);
++				pnh=(u32)(dot11txpn.val>>16);
++
++				phase1((u16 *)&ttkey[0],prwskey,&pattrib->ta[0],pnh);
++
++				phase2(&rc4key[0],prwskey,(u16 *)&ttkey[0],pnl);	
++
++				if((curfragnum+1)==pattrib->nr_frags){	//4 the last fragment
++					length=pattrib->last_txcmdsz-pattrib->hdrlen-pattrib->iv_len- pattrib->icv_len;
++					RT_TRACE(_module_rtl871x_security_c_,_drv_info_,("pattrib->iv_len =%x, pattrib->icv_len =%x\n", pattrib->iv_len,pattrib->icv_len));
++					*((u32 *)crc)=cpu_to_le32(getcrc32(payload,length));/* modified by Amy*/
++
++					arcfour_init(&mycontext, rc4key,16);
++					arcfour_encrypt(&mycontext, payload, payload, length);
++					arcfour_encrypt(&mycontext, payload+length, crc, 4);
++
++				}
++				else{
++					length=pxmitpriv->frag_len-pattrib->hdrlen-pattrib->iv_len-pattrib->icv_len ;
++					*((u32 *)crc)=cpu_to_le32(getcrc32(payload,length));/* modified by Amy*/
++					arcfour_init(&mycontext,rc4key,16);
++					arcfour_encrypt(&mycontext, payload, payload, length);
++					arcfour_encrypt(&mycontext, payload+length, crc, 4);
++	
++				pframe+=pxmitpriv->frag_len;
++				pframe=(u8 *)RND4((SIZE_PTR)(pframe));
++
++				}
++			}
++
++
++		}
++		else{
++			RT_TRACE(_module_rtl871x_security_c_,_drv_err_,("rtw_tkip_encrypt: stainfo==NULL!!!\n"));
++                        DBG_871X("%s, psta==NUL\n", __func__);
++			res=_FAIL;
++		}
++						
++	}
++_func_exit_;	
++	return res;
++				
++}
++
++
++//The hlen isn't include the IV
++u32 rtw_tkip_decrypt(_adapter *padapter, u8 *precvframe)
++{																	// exclude ICV
++	u16 pnl;
++	u32 pnh;
++	u8   rc4key[16];
++	u8   ttkey[16];
++	u8	crc[4];
++	struct arc4context mycontext;
++	sint 			length;
++	u32	prwskeylen;
++
++	u8	*pframe, *payload,*iv,*prwskey;
++	union pn48 dot11txpn;
++	struct	sta_info		*stainfo;
++	struct	rx_pkt_attrib	 *prxattrib = &((union recv_frame *)precvframe)->u.hdr.attrib;
++	struct 	security_priv	*psecuritypriv=&padapter->securitypriv;
++//	struct	recv_priv		*precvpriv=&padapter->recvpriv;
++	u32		res=_SUCCESS;
++
++_func_enter_;
++
++	pframe=(unsigned char *)((union recv_frame*)precvframe)->u.hdr.rx_data;
++	
++	//4 start to decrypt recvframe
++	if(prxattrib->encrypt==_TKIP_){
++
++		stainfo=rtw_get_stainfo(&padapter->stapriv ,&prxattrib->ta[0] );
++		if (stainfo!=NULL){
++
++			if(IS_MCAST(prxattrib->ra))
++			{
++				static u32 start = 0;
++				static u32 no_gkey_bc_cnt = 0;
++				static u32 no_gkey_mc_cnt = 0;
++
++				if(psecuritypriv->binstallGrpkey==_FALSE)
++				{
++					res=_FAIL;
++
++					if (start == 0)
++						start = rtw_get_current_time();
++
++					if (is_broadcast_mac_addr(prxattrib->ra))
++						no_gkey_bc_cnt++;
++					else
++						no_gkey_mc_cnt++;
++
++					if (rtw_get_passing_time_ms(start) > 1000) {
++						if (no_gkey_bc_cnt || no_gkey_mc_cnt) {
++							DBG_871X_LEVEL(_drv_always_, FUNC_ADPT_FMT" no_gkey_bc_cnt:%u, no_gkey_mc_cnt:%u\n",
++								FUNC_ADPT_ARG(padapter), no_gkey_bc_cnt, no_gkey_mc_cnt);
++						}
++						start = rtw_get_current_time();
++						no_gkey_bc_cnt = 0;
++						no_gkey_mc_cnt = 0;
++					}
++					goto exit;
++				}
++
++				if (no_gkey_bc_cnt || no_gkey_mc_cnt) {
++					DBG_871X_LEVEL(_drv_always_, FUNC_ADPT_FMT" gkey installed. no_gkey_bc_cnt:%u, no_gkey_mc_cnt:%u\n",
++						FUNC_ADPT_ARG(padapter), no_gkey_bc_cnt, no_gkey_mc_cnt);
++				}
++				start = 0;
++				no_gkey_bc_cnt = 0;
++				no_gkey_mc_cnt = 0;
++
++				//DBG_871X("rx bc/mc packets, to perform sw rtw_tkip_decrypt\n");
++				//prwskey = psecuritypriv->dot118021XGrpKey[psecuritypriv->dot118021XGrpKeyid].skey;
++				prwskey = psecuritypriv->dot118021XGrpKey[prxattrib->key_index].skey;
++				prwskeylen=16;
++			}
++			else
++			{
++			        RT_TRACE(_module_rtl871x_security_c_,_drv_err_,("rtw_tkip_decrypt: stainfo!=NULL!!!\n"));
++				prwskey=&stainfo->dot118021x_UncstKey.skey[0];
++				prwskeylen=16;
++			}
++			
++			iv=pframe+prxattrib->hdrlen;
++			payload=pframe+prxattrib->iv_len+prxattrib->hdrlen;
++			length= ((union recv_frame *)precvframe)->u.hdr.len-prxattrib->hdrlen-prxattrib->iv_len;
++				
++			GET_TKIP_PN(iv, dot11txpn);
++
++			pnl=(u16)(dot11txpn.val);
++			pnh=(u32)(dot11txpn.val>>16);
++
++			phase1((u16 *)&ttkey[0],prwskey,&prxattrib->ta[0],pnh);
++			phase2(&rc4key[0],prwskey,(unsigned short *)&ttkey[0],pnl);	
++
++			//4 decrypt payload include icv
++					
++			arcfour_init(&mycontext, rc4key,16);
++			arcfour_encrypt(&mycontext, payload, payload, length);
++
++			*((u32 *)crc)=le32_to_cpu(getcrc32(payload,length-4));
++
++			if(crc[3]!=payload[length-1] || crc[2]!=payload[length-2] || crc[1]!=payload[length-3] || crc[0]!=payload[length-4])
++			{
++			    RT_TRACE(_module_rtl871x_security_c_,_drv_err_,("rtw_wep_decrypt:icv error crc[3](%x)!=payload[length-1](%x) || crc[2](%x)!=payload[length-2](%x) || crc[1](%x)!=payload[length-3](%x) || crc[0](%x)!=payload[length-4](%x)\n",
++						crc[3],payload[length-1],crc[2],payload[length-2],crc[1],payload[length-3],crc[0],payload[length-4]));
++				res=_FAIL;
++			}
++						
++		
++		}
++		else{
++			RT_TRACE(_module_rtl871x_security_c_,_drv_err_,("rtw_tkip_decrypt: stainfo==NULL!!!\n"));
++			res=_FAIL;
++		}
++						
++	}
++_func_exit_;	
++exit:
++	return res;
++				
++}
++
++
++//3			=====AES related=====
++
++
++
++#define MAX_MSG_SIZE	2048
++/*****************************/
++/******** SBOX Table *********/
++/*****************************/
++
++  static  u8 sbox_table[256] =
++    {
++        0x63, 0x7c, 0x77, 0x7b, 0xf2, 0x6b, 0x6f, 0xc5,
++        0x30, 0x01, 0x67, 0x2b, 0xfe, 0xd7, 0xab, 0x76,
++        0xca, 0x82, 0xc9, 0x7d, 0xfa, 0x59, 0x47, 0xf0,
++        0xad, 0xd4, 0xa2, 0xaf, 0x9c, 0xa4, 0x72, 0xc0,
++        0xb7, 0xfd, 0x93, 0x26, 0x36, 0x3f, 0xf7, 0xcc,
++        0x34, 0xa5, 0xe5, 0xf1, 0x71, 0xd8, 0x31, 0x15,
++        0x04, 0xc7, 0x23, 0xc3, 0x18, 0x96, 0x05, 0x9a,
++        0x07, 0x12, 0x80, 0xe2, 0xeb, 0x27, 0xb2, 0x75,
++        0x09, 0x83, 0x2c, 0x1a, 0x1b, 0x6e, 0x5a, 0xa0,
++        0x52, 0x3b, 0xd6, 0xb3, 0x29, 0xe3, 0x2f, 0x84,
++        0x53, 0xd1, 0x00, 0xed, 0x20, 0xfc, 0xb1, 0x5b,
++        0x6a, 0xcb, 0xbe, 0x39, 0x4a, 0x4c, 0x58, 0xcf,
++        0xd0, 0xef, 0xaa, 0xfb, 0x43, 0x4d, 0x33, 0x85,
++        0x45, 0xf9, 0x02, 0x7f, 0x50, 0x3c, 0x9f, 0xa8,
++        0x51, 0xa3, 0x40, 0x8f, 0x92, 0x9d, 0x38, 0xf5,
++        0xbc, 0xb6, 0xda, 0x21, 0x10, 0xff, 0xf3, 0xd2,
++        0xcd, 0x0c, 0x13, 0xec, 0x5f, 0x97, 0x44, 0x17,
++        0xc4, 0xa7, 0x7e, 0x3d, 0x64, 0x5d, 0x19, 0x73,
++        0x60, 0x81, 0x4f, 0xdc, 0x22, 0x2a, 0x90, 0x88,
++        0x46, 0xee, 0xb8, 0x14, 0xde, 0x5e, 0x0b, 0xdb,
++        0xe0, 0x32, 0x3a, 0x0a, 0x49, 0x06, 0x24, 0x5c,
++        0xc2, 0xd3, 0xac, 0x62, 0x91, 0x95, 0xe4, 0x79,
++        0xe7, 0xc8, 0x37, 0x6d, 0x8d, 0xd5, 0x4e, 0xa9,
++        0x6c, 0x56, 0xf4, 0xea, 0x65, 0x7a, 0xae, 0x08,
++        0xba, 0x78, 0x25, 0x2e, 0x1c, 0xa6, 0xb4, 0xc6,
++        0xe8, 0xdd, 0x74, 0x1f, 0x4b, 0xbd, 0x8b, 0x8a,
++        0x70, 0x3e, 0xb5, 0x66, 0x48, 0x03, 0xf6, 0x0e,
++        0x61, 0x35, 0x57, 0xb9, 0x86, 0xc1, 0x1d, 0x9e,
++        0xe1, 0xf8, 0x98, 0x11, 0x69, 0xd9, 0x8e, 0x94,
++        0x9b, 0x1e, 0x87, 0xe9, 0xce, 0x55, 0x28, 0xdf,
++        0x8c, 0xa1, 0x89, 0x0d, 0xbf, 0xe6, 0x42, 0x68,
++        0x41, 0x99, 0x2d, 0x0f, 0xb0, 0x54, 0xbb, 0x16
++    };
++
++/*****************************/
++/**** Function Prototypes ****/
++/*****************************/
++
++static void bitwise_xor(u8 *ina, u8 *inb, u8 *out);
++static void construct_mic_iv(
++                        u8 *mic_header1,
++                        sint qc_exists,
++                        sint a4_exists,
++                        u8 *mpdu,
++                        uint payload_length,
++                        u8 * pn_vector,
++                        uint frtype);// add for CONFIG_IEEE80211W, none 11w also can use
++static void construct_mic_header1(
++                        u8 *mic_header1,
++                        sint header_length,
++                        u8 *mpdu,
++                        uint frtype);// add for CONFIG_IEEE80211W, none 11w also can use
++static void construct_mic_header2(
++                    u8 *mic_header2,
++                    u8 *mpdu,
++                    sint a4_exists,
++                    sint qc_exists);
++static void construct_ctr_preload(
++                        u8 *ctr_preload,
++                        sint a4_exists,
++                        sint qc_exists,
++                        u8 *mpdu,
++                        u8 *pn_vector,
++                        sint c,
++                        uint frtype);// add for CONFIG_IEEE80211W, none 11w also can use
++static void xor_128(u8 *a, u8 *b, u8 *out);
++static void xor_32(u8 *a, u8 *b, u8 *out);
++static u8 sbox(u8 a);
++static void next_key(u8 *key, sint round);
++static void byte_sub(u8 *in, u8 *out);
++static void shift_row(u8 *in, u8 *out);
++static void mix_column(u8 *in, u8 *out);
++#ifndef PLATFORM_FREEBSD 
++static void add_round_key( u8 *shiftrow_in,
++                    u8 *mcol_in,
++                    u8 *block_in,
++                    sint round,
++                    u8 *out);
++#endif //PLATFORM_FREEBSD
++static void aes128k128d(u8 *key, u8 *data, u8 *ciphertext);
++
++
++/****************************************/
++/* aes128k128d()                        */
++/* Performs a 128 bit AES encrypt with  */
++/* 128 bit data.                        */
++/****************************************/
++static void xor_128(u8 *a, u8 *b, u8 *out)
++{
++    sint i;
++_func_enter_;	
++    for (i=0;i<16; i++)
++    {
++        out[i] = a[i] ^ b[i];
++    }
++_func_exit_;		
++}
++
++
++static void xor_32(u8 *a, u8 *b, u8 *out)
++{
++    sint i;
++_func_enter_;		
++    for (i=0;i<4; i++)
++    {
++        out[i] = a[i] ^ b[i];
++    }
++_func_exit_;		
++}
++
++
++static u8 sbox(u8 a)
++{
++    return sbox_table[(sint)a];
++}
++
++
++static void next_key(u8 *key, sint round)
++{
++    u8 rcon;
++    u8 sbox_key[4];
++    u8 rcon_table[12] =
++    {
++        0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80,
++        0x1b, 0x36, 0x36, 0x36
++    };
++_func_enter_;		
++    sbox_key[0] = sbox(key[13]);
++    sbox_key[1] = sbox(key[14]);
++    sbox_key[2] = sbox(key[15]);
++    sbox_key[3] = sbox(key[12]);
++
++    rcon = rcon_table[round];
++
++    xor_32(&key[0], sbox_key, &key[0]);
++    key[0] = key[0] ^ rcon;
++
++    xor_32(&key[4], &key[0], &key[4]);
++    xor_32(&key[8], &key[4], &key[8]);
++    xor_32(&key[12], &key[8], &key[12]);
++_func_exit_;		
++}
++
++
++static void byte_sub(u8 *in, u8 *out)
++{
++    sint i;
++_func_enter_;			
++    for (i=0; i< 16; i++)
++    {
++        out[i] = sbox(in[i]);
++    }
++_func_exit_;	
++}
++
++
++static void shift_row(u8 *in, u8 *out)
++{
++_func_enter_;	
++    out[0] =  in[0];
++    out[1] =  in[5];
++    out[2] =  in[10];
++    out[3] =  in[15];
++    out[4] =  in[4];
++    out[5] =  in[9];
++    out[6] =  in[14];
++    out[7] =  in[3];
++    out[8] =  in[8];
++    out[9] =  in[13];
++    out[10] = in[2];
++    out[11] = in[7];
++    out[12] = in[12];
++    out[13] = in[1];
++    out[14] = in[6];
++    out[15] = in[11];
++_func_exit_;		
++}
++
++
++static void mix_column(u8 *in, u8 *out)
++{
++    sint i;
++    u8 add1b[4];
++    u8 add1bf7[4];
++    u8 rotl[4];
++    u8 swap_halfs[4];
++    u8 andf7[4];
++    u8 rotr[4];
++    u8 temp[4];
++    u8 tempb[4];
++_func_enter_;	
++    for (i=0 ; i<4; i++)
++    {
++        if ((in[i] & 0x80)== 0x80)
++            add1b[i] = 0x1b;
++        else
++            add1b[i] = 0x00;
++    }
++
++    swap_halfs[0] = in[2];    /* Swap halfs */
++    swap_halfs[1] = in[3];
++    swap_halfs[2] = in[0];
++    swap_halfs[3] = in[1];
++
++    rotl[0] = in[3];        /* Rotate left 8 bits */
++    rotl[1] = in[0];
++    rotl[2] = in[1];
++    rotl[3] = in[2];
++
++    andf7[0] = in[0] & 0x7f;
++    andf7[1] = in[1] & 0x7f;
++    andf7[2] = in[2] & 0x7f;
++    andf7[3] = in[3] & 0x7f;
++
++    for (i = 3; i>0; i--)    /* logical shift left 1 bit */
++    {
++        andf7[i] = andf7[i] << 1;
++        if ((andf7[i-1] & 0x80) == 0x80)
++        {
++            andf7[i] = (andf7[i] | 0x01);
++        }
++    }
++    andf7[0] = andf7[0] << 1;
++    andf7[0] = andf7[0] & 0xfe;
++
++    xor_32(add1b, andf7, add1bf7);
++
++    xor_32(in, add1bf7, rotr);
++
++    temp[0] = rotr[0];         /* Rotate right 8 bits */
++    rotr[0] = rotr[1];
++    rotr[1] = rotr[2];
++    rotr[2] = rotr[3];
++    rotr[3] = temp[0];
++
++    xor_32(add1bf7, rotr, temp);
++    xor_32(swap_halfs, rotl,tempb);
++    xor_32(temp, tempb, out);
++_func_exit_;		
++}
++
++
++static void aes128k128d(u8 *key, u8 *data, u8 *ciphertext)
++{
++    sint round;
++    sint i;
++    u8 intermediatea[16];
++    u8 intermediateb[16];
++    u8 round_key[16];
++_func_enter_;	
++    for(i=0; i<16; i++) round_key[i] = key[i];
++
++    for (round = 0; round < 11; round++)
++    {
++        if (round == 0)
++        {
++            xor_128(round_key, data, ciphertext);
++            next_key(round_key, round);
++        }
++        else if (round == 10)
++        {
++            byte_sub(ciphertext, intermediatea);
++            shift_row(intermediatea, intermediateb);
++            xor_128(intermediateb, round_key, ciphertext);
++        }
++        else    /* 1 - 9 */
++        {
++            byte_sub(ciphertext, intermediatea);
++            shift_row(intermediatea, intermediateb);
++            mix_column(&intermediateb[0], &intermediatea[0]);
++            mix_column(&intermediateb[4], &intermediatea[4]);
++            mix_column(&intermediateb[8], &intermediatea[8]);
++            mix_column(&intermediateb[12], &intermediatea[12]);
++            xor_128(intermediatea, round_key, ciphertext);
++            next_key(round_key, round);
++        }
++    }
++_func_exit_;	
++}
++
++
++/************************************************/
++/* construct_mic_iv()                           */
++/* Builds the MIC IV from header fields and PN  */
++/* Baron think the function is construct CCM    */
++/* nonce                                        */
++/************************************************/
++static void construct_mic_iv(
++                        u8 *mic_iv,
++                        sint qc_exists,
++                        sint a4_exists,
++                        u8 *mpdu,
++                        uint payload_length,
++                        u8 *pn_vector,
++                        uint frtype// add for CONFIG_IEEE80211W, none 11w also can use
++                        )
++{
++    sint i;
++_func_enter_;	
++    mic_iv[0] = 0x59;
++    if (qc_exists && a4_exists) mic_iv[1] = mpdu[30] & 0x0f;    /* QoS_TC           */
++    if (qc_exists && !a4_exists) mic_iv[1] = mpdu[24] & 0x0f;   /* mute bits 7-4    */
++    if (!qc_exists) mic_iv[1] = 0x00;
++#ifdef CONFIG_IEEE80211W
++	//802.11w management frame should set management bit(4)
++    if(frtype == WIFI_MGT_TYPE)
++		mic_iv[1] |= BIT(4);
++#endif //CONFIG_IEEE80211W
++    for (i = 2; i < 8; i++)
++        mic_iv[i] = mpdu[i + 8];                    /* mic_iv[2:7] = A2[0:5] = mpdu[10:15] */
++    #ifdef CONSISTENT_PN_ORDER
++        for (i = 8; i < 14; i++)
++            mic_iv[i] = pn_vector[i - 8];           /* mic_iv[8:13] = PN[0:5] */
++    #else
++        for (i = 8; i < 14; i++)
++            mic_iv[i] = pn_vector[13 - i];          /* mic_iv[8:13] = PN[5:0] */
++    #endif
++    mic_iv[14] = (unsigned char) (payload_length / 256);
++    mic_iv[15] = (unsigned char) (payload_length % 256);
++_func_exit_;		
++}
++
++
++/************************************************/
++/* construct_mic_header1()                      */
++/* Builds the first MIC header block from       */
++/* header fields.                               */
++/* Build AAD SC,A1,A2                           */
++/************************************************/
++static void construct_mic_header1(
++                        u8 *mic_header1,
++                        sint header_length,
++                        u8 *mpdu,
++                        uint frtype// add for CONFIG_IEEE80211W, none 11w also can use
++                        )
++{
++_func_enter_;	
++    mic_header1[0] = (u8)((header_length - 2) / 256);
++    mic_header1[1] = (u8)((header_length - 2) % 256);
++#ifdef CONFIG_IEEE80211W
++    //802.11w management frame don't AND subtype bits 4,5,6 of frame control field
++    if(frtype == WIFI_MGT_TYPE)
++		mic_header1[2] = mpdu[0];
++	else
++#endif //CONFIG_IEEE80211W
++		mic_header1[2] = mpdu[0] & 0xcf;    /* Mute CF poll & CF ack bits */
++    
++    mic_header1[3] = mpdu[1] & 0xc7;    /* Mute retry, more data and pwr mgt bits */
++    mic_header1[4] = mpdu[4];       /* A1 */
++    mic_header1[5] = mpdu[5];
++    mic_header1[6] = mpdu[6];
++    mic_header1[7] = mpdu[7];
++    mic_header1[8] = mpdu[8];
++    mic_header1[9] = mpdu[9];
++    mic_header1[10] = mpdu[10];     /* A2 */
++    mic_header1[11] = mpdu[11];
++    mic_header1[12] = mpdu[12];
++    mic_header1[13] = mpdu[13];
++    mic_header1[14] = mpdu[14];
++    mic_header1[15] = mpdu[15];
++_func_exit_;	
++}
++
++
++/************************************************/
++/* construct_mic_header2()                      */
++/* Builds the last MIC header block from        */
++/* header fields.                               */
++/************************************************/
++static void construct_mic_header2(
++                u8 *mic_header2,
++                u8 *mpdu,
++                sint a4_exists,
++                sint qc_exists
++                )
++{
++    sint i;
++_func_enter_;	
++    for (i = 0; i<16; i++) mic_header2[i]=0x00;
++
++    mic_header2[0] = mpdu[16];    /* A3 */
++    mic_header2[1] = mpdu[17];
++    mic_header2[2] = mpdu[18];
++    mic_header2[3] = mpdu[19];
++    mic_header2[4] = mpdu[20];
++    mic_header2[5] = mpdu[21];
++
++    //mic_header2[6] = mpdu[22] & 0xf0;   /* SC */
++    mic_header2[6] = 0x00;
++    mic_header2[7] = 0x00; /* mpdu[23]; */
++
++
++    if (!qc_exists && a4_exists)
++    {
++        for (i=0;i<6;i++) mic_header2[8+i] = mpdu[24+i];   /* A4 */
++
++    }
++
++    if (qc_exists && !a4_exists)
++    {
++        mic_header2[8] = mpdu[24] & 0x0f; /* mute bits 15 - 4 */
++        mic_header2[9] = mpdu[25] & 0x00;
++    }
++
++    if (qc_exists && a4_exists)
++    {
++        for (i=0;i<6;i++) mic_header2[8+i] = mpdu[24+i];   /* A4 */
++
++        mic_header2[14] = mpdu[30] & 0x0f;
++        mic_header2[15] = mpdu[31] & 0x00;
++    }
++
++_func_exit_;	
++}
++
++
++/************************************************/
++/* construct_mic_header2()                      */
++/* Builds the last MIC header block from        */
++/* header fields.                               */
++/* Baron think the function is construct CCM    */
++/* nonce                                        */
++/************************************************/
++static void construct_ctr_preload(
++                        u8 *ctr_preload,
++                        sint a4_exists,
++                        sint qc_exists,
++                        u8 *mpdu,
++                        u8 *pn_vector,
++                        sint c,
++                        uint frtype // add for CONFIG_IEEE80211W, none 11w also can use
++                        )
++{
++    sint i = 0;
++_func_enter_;		
++    for (i=0; i<16; i++) ctr_preload[i] = 0x00;
++    i = 0;
++	
++    ctr_preload[0] = 0x01;                                  /* flag */
++    if (qc_exists && a4_exists) 
++		ctr_preload[1] = mpdu[30] & 0x0f;   /* QoC_Control */
++    if (qc_exists && !a4_exists) 
++		ctr_preload[1] = mpdu[24] & 0x0f;
++#ifdef CONFIG_IEEE80211W
++	//802.11w management frame should set management bit(4)
++	if(frtype == WIFI_MGT_TYPE)
++		ctr_preload[1] |= BIT(4);
++#endif //CONFIG_IEEE80211W
++    for (i = 2; i < 8; i++)
++        ctr_preload[i] = mpdu[i + 8];                       /* ctr_preload[2:7] = A2[0:5] = mpdu[10:15] */
++    #ifdef CONSISTENT_PN_ORDER
++      for (i = 8; i < 14; i++)
++            ctr_preload[i] =    pn_vector[i - 8];           /* ctr_preload[8:13] = PN[0:5] */
++    #else
++      for (i = 8; i < 14; i++)
++            ctr_preload[i] =    pn_vector[13 - i];          /* ctr_preload[8:13] = PN[5:0] */
++    #endif
++    ctr_preload[14] =  (unsigned char) (c / 256); /* Ctr */
++    ctr_preload[15] =  (unsigned char) (c % 256);
++_func_exit_;		
++}
++
++
++/************************************/
++/* bitwise_xor()                    */
++/* A 128 bit, bitwise exclusive or  */
++/************************************/
++static void bitwise_xor(u8 *ina, u8 *inb, u8 *out)
++{
++    sint i;
++_func_enter_;		
++    for (i=0; i<16; i++)
++    {
++        out[i] = ina[i] ^ inb[i];
++    }
++_func_exit_;		
++}
++
++
++static sint aes_cipher(u8 *key, uint	hdrlen,
++			u8 *pframe, uint plen)
++{
++//	/*static*/ unsigned char	message[MAX_MSG_SIZE];
++	uint	qc_exists, a4_exists, i, j, payload_remainder,
++		num_blocks, payload_index;
++
++	u8 pn_vector[6];
++	u8 mic_iv[16];
++	u8 mic_header1[16];
++	u8 mic_header2[16];
++	u8 ctr_preload[16];
++
++	/* Intermediate Buffers */
++	u8 chain_buffer[16];
++	u8 aes_out[16];
++	u8 padded_buffer[16];
++	u8 mic[8];
++//	uint	offset = 0;
++	uint	frtype  = GetFrameType(pframe);
++	uint	frsubtype  = GetFrameSubType(pframe);
++	
++_func_enter_;		
++	frsubtype=frsubtype>>4;
++
++
++	_rtw_memset((void *)mic_iv, 0, 16);
++	_rtw_memset((void *)mic_header1, 0, 16);
++	_rtw_memset((void *)mic_header2, 0, 16);
++	_rtw_memset((void *)ctr_preload, 0, 16);
++	_rtw_memset((void *)chain_buffer, 0, 16);
++	_rtw_memset((void *)aes_out, 0, 16);
++	_rtw_memset((void *)padded_buffer, 0, 16);
++
++	if ((hdrlen == WLAN_HDR_A3_LEN )||(hdrlen ==  WLAN_HDR_A3_QOS_LEN))
++		a4_exists = 0;
++	else
++		a4_exists = 1;
++
++	if (
++		((frtype|frsubtype) == WIFI_DATA_CFACK) ||
++		((frtype|frsubtype) == WIFI_DATA_CFPOLL)||
++		((frtype|frsubtype) == WIFI_DATA_CFACKPOLL))
++		{
++			qc_exists = 1;
++					if(hdrlen !=  WLAN_HDR_A3_QOS_LEN){
++				 
++					hdrlen += 2;
++			}
++		}
++	// add for CONFIG_IEEE80211W, none 11w also can use
++	else if ((frtype == WIFI_DATA) &&
++		((frsubtype == 0x08) ||
++		(frsubtype == 0x09)||
++		(frsubtype == 0x0a)||
++		(frsubtype == 0x0b)))
++		{
++			if(hdrlen !=  WLAN_HDR_A3_QOS_LEN){
++				 
++					hdrlen += 2;
++			}
++			qc_exists = 1;
++		}
++	else
++		qc_exists = 0;
++
++	pn_vector[0]=pframe[hdrlen];
++	pn_vector[1]=pframe[hdrlen+1];
++	pn_vector[2]=pframe[hdrlen+4];
++	pn_vector[3]=pframe[hdrlen+5];
++	pn_vector[4]=pframe[hdrlen+6];
++	pn_vector[5]=pframe[hdrlen+7];
++	
++	construct_mic_iv(
++                        mic_iv,
++                        qc_exists,
++                        a4_exists,
++                        pframe,	 //message,
++                        plen,
++                        pn_vector,
++                        frtype // add for CONFIG_IEEE80211W, none 11w also can use
++                        );
++
++    construct_mic_header1(
++                            mic_header1,
++                            hdrlen,
++                            pframe,	//message
++                            frtype // add for CONFIG_IEEE80211W, none 11w also can use
++                            );
++    construct_mic_header2(
++                            mic_header2,
++                            pframe,	//message,
++                            a4_exists,
++                            qc_exists
++                            );
++
++
++	payload_remainder = plen % 16;
++    num_blocks = plen / 16;
++
++    /* Find start of payload */
++    payload_index = (hdrlen + 8);
++
++    /* Calculate MIC */
++    aes128k128d(key, mic_iv, aes_out);
++    bitwise_xor(aes_out, mic_header1, chain_buffer);
++    aes128k128d(key, chain_buffer, aes_out);
++    bitwise_xor(aes_out, mic_header2, chain_buffer);
++    aes128k128d(key, chain_buffer, aes_out);
++
++	for (i = 0; i < num_blocks; i++)
++    {
++        bitwise_xor(aes_out, &pframe[payload_index], chain_buffer);//bitwise_xor(aes_out, &message[payload_index], chain_buffer);
++
++        payload_index += 16;
++        aes128k128d(key, chain_buffer, aes_out);
++    }
++
++    /* Add on the final payload block if it needs padding */
++    if (payload_remainder > 0)
++    {
++        for (j = 0; j < 16; j++) padded_buffer[j] = 0x00;
++        for (j = 0; j < payload_remainder; j++)
++        {
++            padded_buffer[j] = pframe[payload_index++];//padded_buffer[j] = message[payload_index++];
++        }
++        bitwise_xor(aes_out, padded_buffer, chain_buffer);
++        aes128k128d(key, chain_buffer, aes_out);
++
++    }
++
++    for (j = 0 ; j < 8; j++) mic[j] = aes_out[j];
++
++    /* Insert MIC into payload */
++    for (j = 0; j < 8; j++)
++    	pframe[payload_index+j] = mic[j];	//message[payload_index+j] = mic[j];
++
++	payload_index = hdrlen + 8;
++	for (i=0; i< num_blocks; i++)
++    {
++        construct_ctr_preload(
++                                ctr_preload,
++                                a4_exists,
++                                qc_exists,
++                                pframe,	//message,
++                                pn_vector,
++                                i+1,
++                                frtype); // add for CONFIG_IEEE80211W, none 11w also can use
++        aes128k128d(key, ctr_preload, aes_out);
++        bitwise_xor(aes_out, &pframe[payload_index], chain_buffer);//bitwise_xor(aes_out, &message[payload_index], chain_buffer);
++        for (j=0; j<16;j++) pframe[payload_index++] = chain_buffer[j];//for (j=0; j<16;j++) message[payload_index++] = chain_buffer[j];
++    }
++
++    if (payload_remainder > 0)          /* If there is a short final block, then pad it,*/
++    {                                   /* encrypt it and copy the unpadded part back   */
++        construct_ctr_preload(
++                                ctr_preload,
++                                a4_exists,
++                                qc_exists,
++                                pframe,	//message,
++                                pn_vector,
++                                num_blocks+1,
++                                frtype); // add for CONFIG_IEEE80211W, none 11w also can use
++
++        for (j = 0; j < 16; j++) padded_buffer[j] = 0x00;
++        for (j = 0; j < payload_remainder; j++)
++        {
++            padded_buffer[j] = pframe[payload_index+j];//padded_buffer[j] = message[payload_index+j];
++        }
++        aes128k128d(key, ctr_preload, aes_out);
++        bitwise_xor(aes_out, padded_buffer, chain_buffer);
++        for (j=0; j<payload_remainder;j++) pframe[payload_index++] = chain_buffer[j];//for (j=0; j<payload_remainder;j++) message[payload_index++] = chain_buffer[j];
++    }
++
++    /* Encrypt the MIC */
++    construct_ctr_preload(
++                        ctr_preload,
++                        a4_exists,
++                        qc_exists,
++                        pframe,	//message,
++                        pn_vector,
++                        0,
++                        frtype); // add for CONFIG_IEEE80211W, none 11w also can use
++
++    for (j = 0; j < 16; j++) padded_buffer[j] = 0x00;
++    for (j = 0; j < 8; j++)
++    {
++        padded_buffer[j] = pframe[j+hdrlen+8+plen];//padded_buffer[j] = message[j+hdrlen+8+plen];
++    }
++
++    aes128k128d(key, ctr_preload, aes_out);
++    bitwise_xor(aes_out, padded_buffer, chain_buffer);
++    for (j=0; j<8;j++) pframe[payload_index++] = chain_buffer[j];//for (j=0; j<8;j++) message[payload_index++] = chain_buffer[j];
++_func_exit_;		
++	return _SUCCESS;
++}
++
++
++
++
++u32	rtw_aes_encrypt(_adapter *padapter, u8 *pxmitframe)
++{	// exclude ICV
++
++
++	/*static*/ 
++//	unsigned char	message[MAX_MSG_SIZE];
++
++    	/* Intermediate Buffers */
++	sint 	curfragnum,length;
++	u32	prwskeylen;
++	u8	*pframe,*prwskey;	//, *payload,*iv
++	struct	sta_info		*stainfo=NULL;
++	struct	pkt_attrib	 *pattrib = &((struct xmit_frame *)pxmitframe)->attrib;
++	struct 	security_priv	*psecuritypriv=&padapter->securitypriv;
++	struct	xmit_priv		*pxmitpriv=&padapter->xmitpriv;
++
++//	uint	offset = 0;
++	u32 res=_SUCCESS;
++_func_enter_;		
++
++	if(((struct xmit_frame*)pxmitframe)->buf_addr==NULL)
++		return _FAIL;
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	pframe = ((struct xmit_frame*)pxmitframe)->buf_addr + TXDESC_SIZE +
++		 (((struct xmit_frame*)pxmitframe)->pkt_offset * PACKET_OFFSET_SZ);
++#else
++	pframe = ((struct xmit_frame*)pxmitframe)->buf_addr + TXDESC_OFFSET;
++#endif
++
++	//4 start to encrypt each fragment
++	if((pattrib->encrypt==_AES_)){
++
++		if(pattrib->psta)
++		{
++			stainfo = pattrib->psta;
++		}
++		else
++		{
++			DBG_871X("%s, call rtw_get_stainfo()\n", __func__);
++			stainfo=rtw_get_stainfo(&padapter->stapriv ,&pattrib->ra[0] );
++		}	
++		
++		if (stainfo!=NULL){
++
++			if(!(stainfo->state &_FW_LINKED))
++			{
++				DBG_871X("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, stainfo->state);
++				return _FAIL;
++			}
++			
++			RT_TRACE(_module_rtl871x_security_c_,_drv_err_,("rtw_aes_encrypt: stainfo!=NULL!!!\n"));
++
++			if(IS_MCAST(pattrib->ra))
++			{
++				prwskey=psecuritypriv->dot118021XGrpKey[psecuritypriv->dot118021XGrpKeyid].skey;
++			}
++			else
++			{
++				prwskey=&stainfo->dot118021x_UncstKey.skey[0];
++			}
++
++#ifdef CONFIG_TDLS	//swencryption
++			{
++				struct	sta_info		*ptdls_sta;
++				ptdls_sta=rtw_get_stainfo(&padapter->stapriv ,&pattrib->dst[0] );
++				if((ptdls_sta != NULL) && (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE) )
++				{
++					DBG_871X("[%s] for tdls link\n", __FUNCTION__);
++					prwskey=&ptdls_sta->tpk.tk[0];
++				}
++			}
++#endif //CONFIG_TDLS
++
++			prwskeylen=16;
++	
++			for(curfragnum=0;curfragnum<pattrib->nr_frags;curfragnum++){
++			
++				if((curfragnum+1)==pattrib->nr_frags){	//4 the last fragment
++					length=pattrib->last_txcmdsz-pattrib->hdrlen-pattrib->iv_len- pattrib->icv_len;
++				
++					aes_cipher(prwskey,pattrib->hdrlen,pframe, length);
++				}
++				else{
++					length=pxmitpriv->frag_len-pattrib->hdrlen-pattrib->iv_len-pattrib->icv_len ;
++				
++					aes_cipher(prwskey,pattrib->hdrlen,pframe, length);
++				pframe+=pxmitpriv->frag_len;
++				pframe=(u8*)RND4((SIZE_PTR)(pframe));
++
++				}
++			}
++
++
++		}
++		else{
++			RT_TRACE(_module_rtl871x_security_c_,_drv_err_,("rtw_aes_encrypt: stainfo==NULL!!!\n"));
++                        DBG_871X("%s, psta==NUL\n", __func__);
++			res=_FAIL;
++		}
++						
++	}
++
++
++
++_func_exit_;
++		return res;
++}
++
++static sint aes_decipher(u8 *key, uint	hdrlen,
++			u8 *pframe, uint plen)
++{
++	static u8	message[MAX_MSG_SIZE];
++	uint	qc_exists, a4_exists, i, j, payload_remainder,
++			num_blocks, payload_index;
++	sint res = _SUCCESS;
++	u8 pn_vector[6];
++	u8 mic_iv[16];
++	u8 mic_header1[16];
++	u8 mic_header2[16];
++	u8 ctr_preload[16];
++
++    /* Intermediate Buffers */
++	u8 chain_buffer[16];
++	u8 aes_out[16];
++	u8 padded_buffer[16];
++	u8 mic[8];
++
++
++//	uint	offset = 0;
++	uint	frtype  = GetFrameType(pframe);
++	uint	frsubtype  = GetFrameSubType(pframe);
++_func_enter_;			
++	frsubtype=frsubtype>>4;
++
++
++	_rtw_memset((void *)mic_iv, 0, 16);
++	_rtw_memset((void *)mic_header1, 0, 16);
++	_rtw_memset((void *)mic_header2, 0, 16);
++	_rtw_memset((void *)ctr_preload, 0, 16);
++	_rtw_memset((void *)chain_buffer, 0, 16);
++	_rtw_memset((void *)aes_out, 0, 16);
++	_rtw_memset((void *)padded_buffer, 0, 16);
++
++	//start to decrypt the payload
++
++	num_blocks = (plen-8) / 16; //(plen including LLC, payload_length and mic )
++
++	payload_remainder = (plen-8) % 16;
++
++	pn_vector[0]  = pframe[hdrlen];
++	pn_vector[1]  = pframe[hdrlen+1];
++	pn_vector[2]  = pframe[hdrlen+4];
++	pn_vector[3]  = pframe[hdrlen+5];
++	pn_vector[4]  = pframe[hdrlen+6];
++	pn_vector[5]  = pframe[hdrlen+7];
++
++	if ((hdrlen == WLAN_HDR_A3_LEN )||(hdrlen ==  WLAN_HDR_A3_QOS_LEN))
++		a4_exists = 0;
++	else
++		a4_exists = 1;
++
++	if (
++		((frtype|frsubtype) == WIFI_DATA_CFACK) ||
++		((frtype|frsubtype) == WIFI_DATA_CFPOLL)||
++		((frtype|frsubtype) == WIFI_DATA_CFACKPOLL))
++		{
++			qc_exists = 1;
++					if(hdrlen !=  WLAN_HDR_A3_QOS_LEN){
++				 
++					hdrlen += 2;
++			}
++		}//only for data packet . add for CONFIG_IEEE80211W, none 11w also can use
++	else if ((frtype == WIFI_DATA) &&
++		((frsubtype == 0x08) ||
++		(frsubtype == 0x09)||
++		(frsubtype == 0x0a)||
++		(frsubtype == 0x0b)))
++		{
++			if(hdrlen !=  WLAN_HDR_A3_QOS_LEN){
++				 
++					hdrlen += 2;
++			}
++			qc_exists = 1;
++		}
++	else
++		qc_exists = 0;
++
++
++	// now, decrypt pframe with hdrlen offset and plen long
++
++	payload_index = hdrlen + 8; // 8 is for extiv
++	
++	for (i=0; i< num_blocks; i++)
++    {
++        construct_ctr_preload(
++                                ctr_preload,
++                                a4_exists,
++                                qc_exists,
++                                pframe,
++                                pn_vector,
++                                i+1,
++                                frtype // add for CONFIG_IEEE80211W, none 11w also can use
++                            );
++
++        aes128k128d(key, ctr_preload, aes_out);
++        bitwise_xor(aes_out, &pframe[payload_index], chain_buffer);
++
++        for (j=0; j<16;j++) pframe[payload_index++] = chain_buffer[j];
++    }
++
++    if (payload_remainder > 0)          /* If there is a short final block, then pad it,*/
++    {                                   /* encrypt it and copy the unpadded part back   */
++        construct_ctr_preload(
++                                ctr_preload,
++                                a4_exists,
++                                qc_exists,
++                                pframe,
++                                pn_vector,
++                                num_blocks+1,
++                                frtype // add for CONFIG_IEEE80211W, none 11w also can use
++                            );
++
++        for (j = 0; j < 16; j++) padded_buffer[j] = 0x00;
++        for (j = 0; j < payload_remainder; j++)
++        {
++            padded_buffer[j] = pframe[payload_index+j];
++        }
++        aes128k128d(key, ctr_preload, aes_out);
++        bitwise_xor(aes_out, padded_buffer, chain_buffer);
++        for (j=0; j<payload_remainder;j++) pframe[payload_index++] = chain_buffer[j];
++    }
++
++	//start to calculate the mic	
++
++	_rtw_memcpy((void *)message, pframe, (hdrlen +plen+8)); //8 is for ext iv len
++
++
++	pn_vector[0]=pframe[hdrlen];
++	pn_vector[1]=pframe[hdrlen+1];
++	pn_vector[2]=pframe[hdrlen+4];
++	pn_vector[3]=pframe[hdrlen+5];
++	pn_vector[4]=pframe[hdrlen+6];
++	pn_vector[5]=pframe[hdrlen+7];
++
++
++	
++	construct_mic_iv(
++                        mic_iv,
++                        qc_exists,
++                        a4_exists,
++                        message,
++                        plen-8,
++                        pn_vector,
++                        frtype // add for CONFIG_IEEE80211W, none 11w also can use
++                        );
++
++    construct_mic_header1(
++                            mic_header1,
++                            hdrlen,
++                            message,
++                            frtype // add for CONFIG_IEEE80211W, none 11w also can use
++                            );
++    construct_mic_header2(
++                            mic_header2,
++                            message,
++                            a4_exists,
++                            qc_exists
++                            );
++
++
++	payload_remainder = (plen-8) % 16;
++    num_blocks = (plen-8) / 16;
++
++    /* Find start of payload */
++    payload_index = (hdrlen + 8);
++
++    /* Calculate MIC */
++    aes128k128d(key, mic_iv, aes_out);
++    bitwise_xor(aes_out, mic_header1, chain_buffer);
++    aes128k128d(key, chain_buffer, aes_out);
++    bitwise_xor(aes_out, mic_header2, chain_buffer);
++    aes128k128d(key, chain_buffer, aes_out);
++
++	for (i = 0; i < num_blocks; i++)
++    {
++        bitwise_xor(aes_out, &message[payload_index], chain_buffer);
++
++        payload_index += 16;
++        aes128k128d(key, chain_buffer, aes_out);
++    }
++
++    /* Add on the final payload block if it needs padding */
++    if (payload_remainder > 0)
++    {
++        for (j = 0; j < 16; j++) padded_buffer[j] = 0x00;
++        for (j = 0; j < payload_remainder; j++)
++        {
++            padded_buffer[j] = message[payload_index++];
++        }
++        bitwise_xor(aes_out, padded_buffer, chain_buffer);
++        aes128k128d(key, chain_buffer, aes_out);
++
++    }
++
++    for (j = 0 ; j < 8; j++) mic[j] = aes_out[j];
++
++    /* Insert MIC into payload */
++    for (j = 0; j < 8; j++)
++    	message[payload_index+j] = mic[j];
++
++	payload_index = hdrlen + 8;
++	for (i=0; i< num_blocks; i++)
++    {
++        construct_ctr_preload(
++                                ctr_preload,
++                                a4_exists,
++                                qc_exists,
++                                message,
++                                pn_vector,
++                                i+1,
++                                frtype); // add for CONFIG_IEEE80211W, none 11w also can use
++        aes128k128d(key, ctr_preload, aes_out);
++        bitwise_xor(aes_out, &message[payload_index], chain_buffer);
++        for (j=0; j<16;j++) message[payload_index++] = chain_buffer[j];
++    }
++
++    if (payload_remainder > 0)          /* If there is a short final block, then pad it,*/
++    {                                   /* encrypt it and copy the unpadded part back   */
++        construct_ctr_preload(
++                                ctr_preload,
++                                a4_exists,
++                                qc_exists,
++                                message,
++                                pn_vector,
++                                num_blocks+1,
++                                frtype); // add for CONFIG_IEEE80211W, none 11w also can use
++
++        for (j = 0; j < 16; j++) padded_buffer[j] = 0x00;
++        for (j = 0; j < payload_remainder; j++)
++        {
++            padded_buffer[j] = message[payload_index+j];
++        }
++        aes128k128d(key, ctr_preload, aes_out);
++        bitwise_xor(aes_out, padded_buffer, chain_buffer);
++        for (j=0; j<payload_remainder;j++) message[payload_index++] = chain_buffer[j];
++    }
++
++    /* Encrypt the MIC */
++    construct_ctr_preload(
++                        ctr_preload,
++                        a4_exists,
++                        qc_exists,
++                        message,
++                        pn_vector,
++                        0,
++                        frtype); // add for CONFIG_IEEE80211W, none 11w also can use
++
++    for (j = 0; j < 16; j++) padded_buffer[j] = 0x00;
++    for (j = 0; j < 8; j++)
++    {
++        padded_buffer[j] = message[j+hdrlen+8+plen-8];
++    }
++
++    aes128k128d(key, ctr_preload, aes_out);
++    bitwise_xor(aes_out, padded_buffer, chain_buffer);
++    for (j=0; j<8;j++) message[payload_index++] = chain_buffer[j];
++
++	//compare the mic
++	for(i=0;i<8;i++){
++		if(pframe[hdrlen+8+plen-8+i] != message[hdrlen+8+plen-8+i])
++		{
++			RT_TRACE(_module_rtl871x_security_c_,_drv_err_,("aes_decipher:mic check error mic[%d]: pframe(%x) != message(%x) \n",
++						i,pframe[hdrlen+8+plen-8+i],message[hdrlen+8+plen-8+i]));
++			DBG_871X("aes_decipher:mic check error mic[%d]: pframe(%x) != message(%x) \n",
++						i,pframe[hdrlen+8+plen-8+i],message[hdrlen+8+plen-8+i]);
++			res = _FAIL;
++		}
++	}
++
++	if(res == _FAIL)
++	{
++		int gg=0;
++		for(gg=0; gg < 32; gg++)
++			DBG_871X(" [%d]=%02x ", gg, pframe[gg]);
++		DBG_871X("error packet header \n");
++	}
++
++_func_exit_;	
++	return res;
++}
++
++u32	rtw_aes_decrypt(_adapter *padapter, u8 *precvframe)
++{	// exclude ICV
++
++
++	/*static*/ 
++//	unsigned char	message[MAX_MSG_SIZE];
++
++
++    	/* Intermediate Buffers */
++
++
++	sint 		length;
++	u8	*pframe,*prwskey;	//, *payload,*iv
++	struct	sta_info		*stainfo;
++	struct	rx_pkt_attrib	 *prxattrib = &((union recv_frame *)precvframe)->u.hdr.attrib;
++	struct 	security_priv	*psecuritypriv=&padapter->securitypriv;
++//	struct	recv_priv		*precvpriv=&padapter->recvpriv;
++	u32	res=_SUCCESS;
++_func_enter_;	 
++	pframe=(unsigned char *)((union recv_frame*)precvframe)->u.hdr.rx_data;
++	//4 start to encrypt each fragment
++	if((prxattrib->encrypt==_AES_)){
++
++		stainfo=rtw_get_stainfo(&padapter->stapriv ,&prxattrib->ta[0] );
++		if (stainfo!=NULL){
++			RT_TRACE(_module_rtl871x_security_c_,_drv_err_,("rtw_aes_decrypt: stainfo!=NULL!!!\n"));
++
++			if(IS_MCAST(prxattrib->ra))
++			{
++				//in concurrent we should use sw descrypt in group key, so we remove this message			
++				//DBG_871X("rx bc/mc packets, to perform sw rtw_aes_decrypt\n");
++				//prwskey = psecuritypriv->dot118021XGrpKey[psecuritypriv->dot118021XGrpKeyid].skey;
++				if(psecuritypriv->binstallGrpkey==_FALSE)
++				{
++					res=_FAIL;				
++					DBG_8192C("%s:rx bc/mc packets,but didn't install group key!!!!!!!!!!\n",__FUNCTION__);
++					goto exit;
++				}
++				prwskey = psecuritypriv->dot118021XGrpKey[prxattrib->key_index].skey;
++
++				if(psecuritypriv->dot118021XGrpKeyid != prxattrib->key_index)
++				{
++					DBG_871X("not match packet_index=%d, install_index=%d \n"
++					, prxattrib->key_index, psecuritypriv->dot118021XGrpKeyid);
++					res=_FAIL;
++					goto exit;
++				}
++			}
++			else
++			{
++				prwskey=&stainfo->dot118021x_UncstKey.skey[0];
++			}
++	
++			length= ((union recv_frame *)precvframe)->u.hdr.len-prxattrib->hdrlen-prxattrib->iv_len;
++			/*// add for CONFIG_IEEE80211W, debug
++			if(0)
++			printk("@@@@@@@@@@@@@@@@@@ length=%d, prxattrib->hdrlen=%d, prxattrib->pkt_len=%d \n"
++			, length, prxattrib->hdrlen, prxattrib->pkt_len);
++			if(0)
++			{
++				int no;
++				//test print PSK
++				printk("PSK key below:\n");
++				for(no=0;no<16;no++)
++					printk(" %02x ", prwskey[no]);
++				printk("\n");
++			}
++			if(0)
++			{
++				int no;
++				//test print PSK
++				printk("frame:\n");
++				for(no=0;no<prxattrib->pkt_len;no++)
++					printk(" %02x ", pframe[no]);
++				printk("\n");
++			}*/
++
++			res= aes_decipher(prwskey,prxattrib->hdrlen,pframe, length);
++		}
++		else{
++			RT_TRACE(_module_rtl871x_security_c_,_drv_err_,("rtw_aes_encrypt: stainfo==NULL!!!\n"));
++			res=_FAIL;
++		}
++						
++	}
++_func_exit_;	
++exit:
++	return res;
++}
++
++#ifdef CONFIG_IEEE80211W
++u32	rtw_BIP_verify(_adapter *padapter, u8 *precvframe)
++{
++	struct rx_pkt_attrib *pattrib = &((union recv_frame *)precvframe)->u.hdr.attrib;
++	u8 *pframe;
++	u8 *BIP_AAD, *p;
++	u32	res=_FAIL;
++	uint len, ori_len;
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	u8 mic[16];
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	ori_len = pattrib->pkt_len-WLAN_HDR_A3_LEN+BIP_AAD_SIZE;
++	BIP_AAD = rtw_zmalloc(ori_len);
++	
++	if(BIP_AAD == NULL)
++	{
++		DBG_871X("BIP AAD allocate fail\n");
++		return _FAIL;
++	}
++	//PKT start
++	pframe=(unsigned char *)((union recv_frame*)precvframe)->u.hdr.rx_data;
++	//mapping to wlan header
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++	//save the frame body + MME
++	_rtw_memcpy(BIP_AAD+BIP_AAD_SIZE, pframe+WLAN_HDR_A3_LEN, pattrib->pkt_len-WLAN_HDR_A3_LEN);
++	//find MME IE pointer
++	p = rtw_get_ie(BIP_AAD+BIP_AAD_SIZE, _MME_IE_, &len, pattrib->pkt_len-WLAN_HDR_A3_LEN);
++	//Baron
++	if(p)
++	{
++		u16 keyid=0;
++		u64 temp_ipn=0;
++		//save packet number
++		_rtw_memcpy(&temp_ipn, p+4, 6);
++		temp_ipn = le64_to_cpu(temp_ipn);
++		//BIP packet number should bigger than previous BIP packet
++		if(temp_ipn <= pmlmeext->mgnt_80211w_IPN_rx)
++		{
++			DBG_871X("replay BIP packet\n");
++			goto BIP_exit;
++		}
++		//copy key index
++		_rtw_memcpy(&keyid, p+2, 2);
++		keyid = le16_to_cpu(keyid);
++		if(keyid != padapter->securitypriv.dot11wBIPKeyid)
++		{
++			DBG_871X("BIP key index error!\n");
++			goto BIP_exit;
++		}
++		//clear the MIC field of MME to zero
++		_rtw_memset(p+2+len-8, 0, 8);
++		
++		//conscruct AAD, copy frame control field
++		_rtw_memcpy(BIP_AAD, &pwlanhdr->frame_ctl, 2);
++		ClearRetry(BIP_AAD);
++		ClearPwrMgt(BIP_AAD);
++		ClearMData(BIP_AAD);
++		//conscruct AAD, copy address 1 to address 3
++		_rtw_memcpy(BIP_AAD+2, pwlanhdr->addr1, 18);
++		
++		if(omac1_aes_128(padapter->securitypriv.dot11wBIPKey[padapter->securitypriv.dot11wBIPKeyid].skey
++			, BIP_AAD, ori_len, mic))
++			goto BIP_exit;
++		
++		/*//management packet content
++		{
++			int pp;
++			DBG_871X("pkt: ");
++			for(pp=0;pp< pattrib->pkt_len; pp++)
++				printk(" %02x ", pframe[pp]);
++			DBG_871X("\n");
++			//BIP AAD + management frame body + MME(MIC is zero)
++			DBG_871X("AAD+PKT: ");
++			for(pp=0;pp< ori_len; pp++)
++				DBG_871X(" %02x ", BIP_AAD[pp]);
++			DBG_871X("\n");
++			//show the MIC result
++			DBG_871X("mic: ");
++			for(pp=0;pp<16; pp++)
++				DBG_871X(" %02x ", mic[pp]);
++			DBG_871X("\n");
++		}
++		*/
++		//MIC field should be last 8 bytes of packet (packet without FCS)
++		if(_rtw_memcmp(mic, pframe+pattrib->pkt_len-8, 8))
++		{
++			pmlmeext->mgnt_80211w_IPN_rx = temp_ipn;
++			res=_SUCCESS;
++		}
++		else
++			DBG_871X("BIP MIC error!\n");
++		
++	}
++	else
++		res = RTW_RX_HANDLED;
++BIP_exit:
++
++	rtw_mfree(BIP_AAD, ori_len);
++	return res;
++}
++#endif //CONFIG_IEEE80211W
++
++#ifndef PLATFORM_FREEBSD
++/* compress 512-bits */
++static int sha256_compress(struct sha256_state *md, unsigned char *buf)
++{
++	u32 S[8], W[64], t0, t1;
++	u32 t;
++	int i;
++
++	/* copy state into S */
++	for (i = 0; i < 8; i++) {
++		S[i] = md->state[i];
++	}
++
++	/* copy the state into 512-bits into W[0..15] */
++	for (i = 0; i < 16; i++)
++		W[i] = WPA_GET_BE32(buf + (4 * i));
++
++	/* fill W[16..63] */
++	for (i = 16; i < 64; i++) {
++		W[i] = Gamma1(W[i - 2]) + W[i - 7] + Gamma0(W[i - 15]) +
++			W[i - 16];
++	}        
++
++	/* Compress */
++#define RND(a,b,c,d,e,f,g,h,i)                          \
++	t0 = h + Sigma1(e) + Ch(e, f, g) + K[i] + W[i];	\
++	t1 = Sigma0(a) + Maj(a, b, c);			\
++	d += t0;					\
++	h  = t0 + t1;
++
++	for (i = 0; i < 64; ++i) {
++		RND(S[0], S[1], S[2], S[3], S[4], S[5], S[6], S[7], i);
++		t = S[7]; S[7] = S[6]; S[6] = S[5]; S[5] = S[4]; 
++		S[4] = S[3]; S[3] = S[2]; S[2] = S[1]; S[1] = S[0]; S[0] = t;
++	}
++
++	/* feedback */
++	for (i = 0; i < 8; i++) {
++		md->state[i] = md->state[i] + S[i];
++	}
++	return 0;
++}
++
++/* Initialize the hash state */
++static void sha256_init(struct sha256_state *md)
++{
++	md->curlen = 0;
++	md->length = 0;
++	md->state[0] = 0x6A09E667UL;
++	md->state[1] = 0xBB67AE85UL;
++	md->state[2] = 0x3C6EF372UL;
++	md->state[3] = 0xA54FF53AUL;
++	md->state[4] = 0x510E527FUL;
++	md->state[5] = 0x9B05688CUL;
++	md->state[6] = 0x1F83D9ABUL;
++	md->state[7] = 0x5BE0CD19UL;
++}
++
++/**
++   Process a block of memory though the hash
++   @param md     The hash state
++   @param in     The data to hash
++   @param inlen  The length of the data (octets)
++   @return CRYPT_OK if successful
++*/
++static int sha256_process(struct sha256_state *md, unsigned char *in,
++			  unsigned long inlen)
++{
++	unsigned long n;
++#define block_size 64
++
++	if (md->curlen > sizeof(md->buf))
++		return -1;
++
++	while (inlen > 0) {
++		if (md->curlen == 0 && inlen >= block_size) {
++			if (sha256_compress(md, (unsigned char *) in) < 0)
++				return -1;
++			md->length += block_size * 8;
++			in += block_size;
++			inlen -= block_size;
++		} else {
++			n = MIN(inlen, (block_size - md->curlen));
++			_rtw_memcpy(md->buf + md->curlen, in, n);
++			md->curlen += n;
++			in += n;
++			inlen -= n;
++			if (md->curlen == block_size) {
++				if (sha256_compress(md, md->buf) < 0)
++					return -1;
++				md->length += 8 * block_size;
++				md->curlen = 0;
++			}
++		}
++	}
++
++	return 0;
++}
++
++
++/**
++   Terminate the hash to get the digest
++   @param md  The hash state
++   @param out [out] The destination of the hash (32 bytes)
++   @return CRYPT_OK if successful
++*/
++static int sha256_done(struct sha256_state *md, unsigned char *out)
++{
++	int i;
++
++	if (md->curlen >= sizeof(md->buf))
++		return -1;
++
++	/* increase the length of the message */
++	md->length += md->curlen * 8;
++
++	/* append the '1' bit */
++	md->buf[md->curlen++] = (unsigned char) 0x80;
++
++	/* if the length is currently above 56 bytes we append zeros
++	 * then compress.  Then we can fall back to padding zeros and length
++	 * encoding like normal.
++	 */
++	if (md->curlen > 56) {
++		while (md->curlen < 64) {
++			md->buf[md->curlen++] = (unsigned char) 0;
++		}
++		sha256_compress(md, md->buf);
++		md->curlen = 0;
++	}
++
++	/* pad upto 56 bytes of zeroes */
++	while (md->curlen < 56) {
++		md->buf[md->curlen++] = (unsigned char) 0;
++	}
++
++	/* store length */
++	WPA_PUT_BE64(md->buf + 56, md->length);
++	sha256_compress(md, md->buf);
++
++	/* copy output */
++	for (i = 0; i < 8; i++)
++		WPA_PUT_BE32(out + (4 * i), md->state[i]);
++
++	return 0;
++}
++
++/**
++ * sha256_vector - SHA256 hash for data vector
++ * @num_elem: Number of elements in the data vector
++ * @addr: Pointers to the data areas
++ * @len: Lengths of the data blocks
++ * @mac: Buffer for the hash
++ * Returns: 0 on success, -1 of failure
++ */
++static int sha256_vector(size_t num_elem, u8 *addr[], size_t *len,
++		  u8 *mac)
++{
++	struct sha256_state ctx;
++	size_t i;
++
++	sha256_init(&ctx);
++	for (i = 0; i < num_elem; i++)
++		if (sha256_process(&ctx, addr[i], len[i]))
++			return -1;
++	if (sha256_done(&ctx, mac))
++		return -1;
++	return 0;
++}
++
++static u8 os_strlen(const char *s)
++{
++	const char *p = s;
++	while (*p)
++		p++;
++	return p - s;
++}
++
++static int os_memcmp(void *s1, void *s2, u8 n)
++{
++	unsigned char *p1 = s1, *p2 = s2;
++
++	if (n == 0)
++		return 0;
++
++	while (*p1 == *p2) {
++		p1++;
++		p2++;
++		n--;
++		if (n == 0)
++			return 0;
++	}
++
++	return *p1 - *p2;
++}
++
++/**
++ * hmac_sha256_vector - HMAC-SHA256 over data vector (RFC 2104)
++ * @key: Key for HMAC operations
++ * @key_len: Length of the key in bytes
++ * @num_elem: Number of elements in the data vector
++ * @addr: Pointers to the data areas
++ * @len: Lengths of the data blocks
++ * @mac: Buffer for the hash (32 bytes)
++ */
++static void hmac_sha256_vector(u8 *key, size_t key_len, size_t num_elem,
++			u8 *addr[], size_t *len, u8 *mac)
++{
++	unsigned char k_pad[64]; /* padding - key XORd with ipad/opad */
++	unsigned char tk[32];
++	u8 *_addr[6];
++	size_t _len[6], i;
++
++	if (num_elem > 5) {
++		/*
++		 * Fixed limit on the number of fragments to avoid having to
++		 * allocate memory (which could fail).
++		 */
++		return;
++	}
++
++        /* if key is longer than 64 bytes reset it to key = SHA256(key) */
++        if (key_len > 64) {
++		sha256_vector(1, &key, &key_len, tk);
++		key = tk;
++		key_len = 32;
++        }
++
++	/* the HMAC_SHA256 transform looks like:
++	 *
++	 * SHA256(K XOR opad, SHA256(K XOR ipad, text))
++	 *
++	 * where K is an n byte key
++	 * ipad is the byte 0x36 repeated 64 times
++	 * opad is the byte 0x5c repeated 64 times
++	 * and text is the data being protected */
++
++	/* start out by storing key in ipad */
++	_rtw_memset(k_pad, 0, sizeof(k_pad));
++	_rtw_memcpy(k_pad, key, key_len);
++	/* XOR key with ipad values */
++	for (i = 0; i < 64; i++)
++		k_pad[i] ^= 0x36;
++
++	/* perform inner SHA256 */
++	_addr[0] = k_pad;
++	_len[0] = 64;
++	for (i = 0; i < num_elem; i++) {
++		_addr[i + 1] = addr[i];
++		_len[i + 1] = len[i];
++	}
++	sha256_vector(1 + num_elem, _addr, _len, mac);
++
++	_rtw_memset(k_pad, 0, sizeof(k_pad));
++	_rtw_memcpy(k_pad, key, key_len);
++	/* XOR key with opad values */
++	for (i = 0; i < 64; i++)
++		k_pad[i] ^= 0x5c;
++
++	/* perform outer SHA256 */
++	_addr[0] = k_pad;
++	_len[0] = 64;
++	_addr[1] = mac;
++	_len[1] = 32;
++	sha256_vector(2, _addr, _len, mac);
++}
++#endif //PLATFORM_FREEBSD
++/**
++ * sha256_prf - SHA256-based Pseudo-Random Function (IEEE 802.11r, 8.5.1.5.2)
++ * @key: Key for PRF
++ * @key_len: Length of the key in bytes
++ * @label: A unique label for each purpose of the PRF
++ * @data: Extra data to bind into the key
++ * @data_len: Length of the data
++ * @buf: Buffer for the generated pseudo-random key
++ * @buf_len: Number of bytes of key to generate
++ *
++ * This function is used to derive new, cryptographically separate keys from a
++ * given key.
++ */
++#ifndef PLATFORM_FREEBSD //Baron
++static void sha256_prf(u8 *key, size_t key_len, char *label,
++		u8 *data, size_t data_len, u8 *buf, size_t buf_len)
++{
++	u16 counter = 1;
++	size_t pos, plen;
++	u8 hash[SHA256_MAC_LEN];
++	u8 *addr[4];
++	size_t len[4];
++	u8 counter_le[2], length_le[2];
++
++	addr[0] = counter_le;
++	len[0] = 2;
++	addr[1] = (u8 *) label;
++	len[1] = os_strlen(label);
++	addr[2] = data;
++	len[2] = data_len;
++	addr[3] = length_le;
++	len[3] = sizeof(length_le);
++
++	WPA_PUT_LE16(length_le, buf_len * 8);
++	pos = 0;
++	while (pos < buf_len) {
++		plen = buf_len - pos;
++		WPA_PUT_LE16(counter_le, counter);
++		if (plen >= SHA256_MAC_LEN) {
++			hmac_sha256_vector(key, key_len, 4, addr, len,
++					   &buf[pos]);
++			pos += SHA256_MAC_LEN;
++		} else {
++			hmac_sha256_vector(key, key_len, 4, addr, len, hash);
++			_rtw_memcpy(&buf[pos], hash, plen);
++			break;
++		}
++		counter++;
++	}
++}
++#endif //PLATFORM_FREEBSD Baron
++
++/* AES tables*/
++const u32 Te0[256] = {
++    0xc66363a5U, 0xf87c7c84U, 0xee777799U, 0xf67b7b8dU,
++    0xfff2f20dU, 0xd66b6bbdU, 0xde6f6fb1U, 0x91c5c554U,
++    0x60303050U, 0x02010103U, 0xce6767a9U, 0x562b2b7dU,
++    0xe7fefe19U, 0xb5d7d762U, 0x4dababe6U, 0xec76769aU,
++    0x8fcaca45U, 0x1f82829dU, 0x89c9c940U, 0xfa7d7d87U,
++    0xeffafa15U, 0xb25959ebU, 0x8e4747c9U, 0xfbf0f00bU,
++    0x41adadecU, 0xb3d4d467U, 0x5fa2a2fdU, 0x45afafeaU,
++    0x239c9cbfU, 0x53a4a4f7U, 0xe4727296U, 0x9bc0c05bU,
++    0x75b7b7c2U, 0xe1fdfd1cU, 0x3d9393aeU, 0x4c26266aU,
++    0x6c36365aU, 0x7e3f3f41U, 0xf5f7f702U, 0x83cccc4fU,
++    0x6834345cU, 0x51a5a5f4U, 0xd1e5e534U, 0xf9f1f108U,
++    0xe2717193U, 0xabd8d873U, 0x62313153U, 0x2a15153fU,
++    0x0804040cU, 0x95c7c752U, 0x46232365U, 0x9dc3c35eU,
++    0x30181828U, 0x379696a1U, 0x0a05050fU, 0x2f9a9ab5U,
++    0x0e070709U, 0x24121236U, 0x1b80809bU, 0xdfe2e23dU,
++    0xcdebeb26U, 0x4e272769U, 0x7fb2b2cdU, 0xea75759fU,
++    0x1209091bU, 0x1d83839eU, 0x582c2c74U, 0x341a1a2eU,
++    0x361b1b2dU, 0xdc6e6eb2U, 0xb45a5aeeU, 0x5ba0a0fbU,
++    0xa45252f6U, 0x763b3b4dU, 0xb7d6d661U, 0x7db3b3ceU,
++    0x5229297bU, 0xdde3e33eU, 0x5e2f2f71U, 0x13848497U,
++    0xa65353f5U, 0xb9d1d168U, 0x00000000U, 0xc1eded2cU,
++    0x40202060U, 0xe3fcfc1fU, 0x79b1b1c8U, 0xb65b5bedU,
++    0xd46a6abeU, 0x8dcbcb46U, 0x67bebed9U, 0x7239394bU,
++    0x944a4adeU, 0x984c4cd4U, 0xb05858e8U, 0x85cfcf4aU,
++    0xbbd0d06bU, 0xc5efef2aU, 0x4faaaae5U, 0xedfbfb16U,
++    0x864343c5U, 0x9a4d4dd7U, 0x66333355U, 0x11858594U,
++    0x8a4545cfU, 0xe9f9f910U, 0x04020206U, 0xfe7f7f81U,
++    0xa05050f0U, 0x783c3c44U, 0x259f9fbaU, 0x4ba8a8e3U,
++    0xa25151f3U, 0x5da3a3feU, 0x804040c0U, 0x058f8f8aU,
++    0x3f9292adU, 0x219d9dbcU, 0x70383848U, 0xf1f5f504U,
++    0x63bcbcdfU, 0x77b6b6c1U, 0xafdada75U, 0x42212163U,
++    0x20101030U, 0xe5ffff1aU, 0xfdf3f30eU, 0xbfd2d26dU,
++    0x81cdcd4cU, 0x180c0c14U, 0x26131335U, 0xc3ecec2fU,
++    0xbe5f5fe1U, 0x359797a2U, 0x884444ccU, 0x2e171739U,
++    0x93c4c457U, 0x55a7a7f2U, 0xfc7e7e82U, 0x7a3d3d47U,
++    0xc86464acU, 0xba5d5de7U, 0x3219192bU, 0xe6737395U,
++    0xc06060a0U, 0x19818198U, 0x9e4f4fd1U, 0xa3dcdc7fU,
++    0x44222266U, 0x542a2a7eU, 0x3b9090abU, 0x0b888883U,
++    0x8c4646caU, 0xc7eeee29U, 0x6bb8b8d3U, 0x2814143cU,
++    0xa7dede79U, 0xbc5e5ee2U, 0x160b0b1dU, 0xaddbdb76U,
++    0xdbe0e03bU, 0x64323256U, 0x743a3a4eU, 0x140a0a1eU,
++    0x924949dbU, 0x0c06060aU, 0x4824246cU, 0xb85c5ce4U,
++    0x9fc2c25dU, 0xbdd3d36eU, 0x43acacefU, 0xc46262a6U,
++    0x399191a8U, 0x319595a4U, 0xd3e4e437U, 0xf279798bU,
++    0xd5e7e732U, 0x8bc8c843U, 0x6e373759U, 0xda6d6db7U,
++    0x018d8d8cU, 0xb1d5d564U, 0x9c4e4ed2U, 0x49a9a9e0U,
++    0xd86c6cb4U, 0xac5656faU, 0xf3f4f407U, 0xcfeaea25U,
++    0xca6565afU, 0xf47a7a8eU, 0x47aeaee9U, 0x10080818U,
++    0x6fbabad5U, 0xf0787888U, 0x4a25256fU, 0x5c2e2e72U,
++    0x381c1c24U, 0x57a6a6f1U, 0x73b4b4c7U, 0x97c6c651U,
++    0xcbe8e823U, 0xa1dddd7cU, 0xe874749cU, 0x3e1f1f21U,
++    0x964b4bddU, 0x61bdbddcU, 0x0d8b8b86U, 0x0f8a8a85U,
++    0xe0707090U, 0x7c3e3e42U, 0x71b5b5c4U, 0xcc6666aaU,
++    0x904848d8U, 0x06030305U, 0xf7f6f601U, 0x1c0e0e12U,
++    0xc26161a3U, 0x6a35355fU, 0xae5757f9U, 0x69b9b9d0U,
++    0x17868691U, 0x99c1c158U, 0x3a1d1d27U, 0x279e9eb9U,
++    0xd9e1e138U, 0xebf8f813U, 0x2b9898b3U, 0x22111133U,
++    0xd26969bbU, 0xa9d9d970U, 0x078e8e89U, 0x339494a7U,
++    0x2d9b9bb6U, 0x3c1e1e22U, 0x15878792U, 0xc9e9e920U,
++    0x87cece49U, 0xaa5555ffU, 0x50282878U, 0xa5dfdf7aU,
++    0x038c8c8fU, 0x59a1a1f8U, 0x09898980U, 0x1a0d0d17U,
++    0x65bfbfdaU, 0xd7e6e631U, 0x844242c6U, 0xd06868b8U,
++    0x824141c3U, 0x299999b0U, 0x5a2d2d77U, 0x1e0f0f11U,
++    0x7bb0b0cbU, 0xa85454fcU, 0x6dbbbbd6U, 0x2c16163aU,
++};
++const u32 Td0[256] = {
++    0x51f4a750U, 0x7e416553U, 0x1a17a4c3U, 0x3a275e96U,
++    0x3bab6bcbU, 0x1f9d45f1U, 0xacfa58abU, 0x4be30393U,
++    0x2030fa55U, 0xad766df6U, 0x88cc7691U, 0xf5024c25U,
++    0x4fe5d7fcU, 0xc52acbd7U, 0x26354480U, 0xb562a38fU,
++    0xdeb15a49U, 0x25ba1b67U, 0x45ea0e98U, 0x5dfec0e1U,
++    0xc32f7502U, 0x814cf012U, 0x8d4697a3U, 0x6bd3f9c6U,
++    0x038f5fe7U, 0x15929c95U, 0xbf6d7aebU, 0x955259daU,
++    0xd4be832dU, 0x587421d3U, 0x49e06929U, 0x8ec9c844U,
++    0x75c2896aU, 0xf48e7978U, 0x99583e6bU, 0x27b971ddU,
++    0xbee14fb6U, 0xf088ad17U, 0xc920ac66U, 0x7dce3ab4U,
++    0x63df4a18U, 0xe51a3182U, 0x97513360U, 0x62537f45U,
++    0xb16477e0U, 0xbb6bae84U, 0xfe81a01cU, 0xf9082b94U,
++    0x70486858U, 0x8f45fd19U, 0x94de6c87U, 0x527bf8b7U,
++    0xab73d323U, 0x724b02e2U, 0xe31f8f57U, 0x6655ab2aU,
++    0xb2eb2807U, 0x2fb5c203U, 0x86c57b9aU, 0xd33708a5U,
++    0x302887f2U, 0x23bfa5b2U, 0x02036abaU, 0xed16825cU,
++    0x8acf1c2bU, 0xa779b492U, 0xf307f2f0U, 0x4e69e2a1U,
++    0x65daf4cdU, 0x0605bed5U, 0xd134621fU, 0xc4a6fe8aU,
++    0x342e539dU, 0xa2f355a0U, 0x058ae132U, 0xa4f6eb75U,
++    0x0b83ec39U, 0x4060efaaU, 0x5e719f06U, 0xbd6e1051U,
++    0x3e218af9U, 0x96dd063dU, 0xdd3e05aeU, 0x4de6bd46U,
++    0x91548db5U, 0x71c45d05U, 0x0406d46fU, 0x605015ffU,
++    0x1998fb24U, 0xd6bde997U, 0x894043ccU, 0x67d99e77U,
++    0xb0e842bdU, 0x07898b88U, 0xe7195b38U, 0x79c8eedbU,
++    0xa17c0a47U, 0x7c420fe9U, 0xf8841ec9U, 0x00000000U,
++    0x09808683U, 0x322bed48U, 0x1e1170acU, 0x6c5a724eU,
++    0xfd0efffbU, 0x0f853856U, 0x3daed51eU, 0x362d3927U,
++    0x0a0fd964U, 0x685ca621U, 0x9b5b54d1U, 0x24362e3aU,
++    0x0c0a67b1U, 0x9357e70fU, 0xb4ee96d2U, 0x1b9b919eU,
++    0x80c0c54fU, 0x61dc20a2U, 0x5a774b69U, 0x1c121a16U,
++    0xe293ba0aU, 0xc0a02ae5U, 0x3c22e043U, 0x121b171dU,
++    0x0e090d0bU, 0xf28bc7adU, 0x2db6a8b9U, 0x141ea9c8U,
++    0x57f11985U, 0xaf75074cU, 0xee99ddbbU, 0xa37f60fdU,
++    0xf701269fU, 0x5c72f5bcU, 0x44663bc5U, 0x5bfb7e34U,
++    0x8b432976U, 0xcb23c6dcU, 0xb6edfc68U, 0xb8e4f163U,
++    0xd731dccaU, 0x42638510U, 0x13972240U, 0x84c61120U,
++    0x854a247dU, 0xd2bb3df8U, 0xaef93211U, 0xc729a16dU,
++    0x1d9e2f4bU, 0xdcb230f3U, 0x0d8652ecU, 0x77c1e3d0U,
++    0x2bb3166cU, 0xa970b999U, 0x119448faU, 0x47e96422U,
++    0xa8fc8cc4U, 0xa0f03f1aU, 0x567d2cd8U, 0x223390efU,
++    0x87494ec7U, 0xd938d1c1U, 0x8ccaa2feU, 0x98d40b36U,
++    0xa6f581cfU, 0xa57ade28U, 0xdab78e26U, 0x3fadbfa4U,
++    0x2c3a9de4U, 0x5078920dU, 0x6a5fcc9bU, 0x547e4662U,
++    0xf68d13c2U, 0x90d8b8e8U, 0x2e39f75eU, 0x82c3aff5U,
++    0x9f5d80beU, 0x69d0937cU, 0x6fd52da9U, 0xcf2512b3U,
++    0xc8ac993bU, 0x10187da7U, 0xe89c636eU, 0xdb3bbb7bU,
++    0xcd267809U, 0x6e5918f4U, 0xec9ab701U, 0x834f9aa8U,
++    0xe6956e65U, 0xaaffe67eU, 0x21bccf08U, 0xef15e8e6U,
++    0xbae79bd9U, 0x4a6f36ceU, 0xea9f09d4U, 0x29b07cd6U,
++    0x31a4b2afU, 0x2a3f2331U, 0xc6a59430U, 0x35a266c0U,
++    0x744ebc37U, 0xfc82caa6U, 0xe090d0b0U, 0x33a7d815U,
++    0xf104984aU, 0x41ecdaf7U, 0x7fcd500eU, 0x1791f62fU,
++    0x764dd68dU, 0x43efb04dU, 0xccaa4d54U, 0xe49604dfU,
++    0x9ed1b5e3U, 0x4c6a881bU, 0xc12c1fb8U, 0x4665517fU,
++    0x9d5eea04U, 0x018c355dU, 0xfa877473U, 0xfb0b412eU,
++    0xb3671d5aU, 0x92dbd252U, 0xe9105633U, 0x6dd64713U,
++    0x9ad7618cU, 0x37a10c7aU, 0x59f8148eU, 0xeb133c89U,
++    0xcea927eeU, 0xb761c935U, 0xe11ce5edU, 0x7a47b13cU,
++    0x9cd2df59U, 0x55f2733fU, 0x1814ce79U, 0x73c737bfU,
++    0x53f7cdeaU, 0x5ffdaa5bU, 0xdf3d6f14U, 0x7844db86U,
++    0xcaaff381U, 0xb968c43eU, 0x3824342cU, 0xc2a3405fU,
++    0x161dc372U, 0xbce2250cU, 0x283c498bU, 0xff0d9541U,
++    0x39a80171U, 0x080cb3deU, 0xd8b4e49cU, 0x6456c190U,
++    0x7bcb8461U, 0xd532b670U, 0x486c5c74U, 0xd0b85742U,
++};
++const u8 Td4s[256] = {
++    0x52U, 0x09U, 0x6aU, 0xd5U, 0x30U, 0x36U, 0xa5U, 0x38U,
++    0xbfU, 0x40U, 0xa3U, 0x9eU, 0x81U, 0xf3U, 0xd7U, 0xfbU,
++    0x7cU, 0xe3U, 0x39U, 0x82U, 0x9bU, 0x2fU, 0xffU, 0x87U,
++    0x34U, 0x8eU, 0x43U, 0x44U, 0xc4U, 0xdeU, 0xe9U, 0xcbU,
++    0x54U, 0x7bU, 0x94U, 0x32U, 0xa6U, 0xc2U, 0x23U, 0x3dU,
++    0xeeU, 0x4cU, 0x95U, 0x0bU, 0x42U, 0xfaU, 0xc3U, 0x4eU,
++    0x08U, 0x2eU, 0xa1U, 0x66U, 0x28U, 0xd9U, 0x24U, 0xb2U,
++    0x76U, 0x5bU, 0xa2U, 0x49U, 0x6dU, 0x8bU, 0xd1U, 0x25U,
++    0x72U, 0xf8U, 0xf6U, 0x64U, 0x86U, 0x68U, 0x98U, 0x16U,
++    0xd4U, 0xa4U, 0x5cU, 0xccU, 0x5dU, 0x65U, 0xb6U, 0x92U,
++    0x6cU, 0x70U, 0x48U, 0x50U, 0xfdU, 0xedU, 0xb9U, 0xdaU,
++    0x5eU, 0x15U, 0x46U, 0x57U, 0xa7U, 0x8dU, 0x9dU, 0x84U,
++    0x90U, 0xd8U, 0xabU, 0x00U, 0x8cU, 0xbcU, 0xd3U, 0x0aU,
++    0xf7U, 0xe4U, 0x58U, 0x05U, 0xb8U, 0xb3U, 0x45U, 0x06U,
++    0xd0U, 0x2cU, 0x1eU, 0x8fU, 0xcaU, 0x3fU, 0x0fU, 0x02U,
++    0xc1U, 0xafU, 0xbdU, 0x03U, 0x01U, 0x13U, 0x8aU, 0x6bU,
++    0x3aU, 0x91U, 0x11U, 0x41U, 0x4fU, 0x67U, 0xdcU, 0xeaU,
++    0x97U, 0xf2U, 0xcfU, 0xceU, 0xf0U, 0xb4U, 0xe6U, 0x73U,
++    0x96U, 0xacU, 0x74U, 0x22U, 0xe7U, 0xadU, 0x35U, 0x85U,
++    0xe2U, 0xf9U, 0x37U, 0xe8U, 0x1cU, 0x75U, 0xdfU, 0x6eU,
++    0x47U, 0xf1U, 0x1aU, 0x71U, 0x1dU, 0x29U, 0xc5U, 0x89U,
++    0x6fU, 0xb7U, 0x62U, 0x0eU, 0xaaU, 0x18U, 0xbeU, 0x1bU,
++    0xfcU, 0x56U, 0x3eU, 0x4bU, 0xc6U, 0xd2U, 0x79U, 0x20U,
++    0x9aU, 0xdbU, 0xc0U, 0xfeU, 0x78U, 0xcdU, 0x5aU, 0xf4U,
++    0x1fU, 0xddU, 0xa8U, 0x33U, 0x88U, 0x07U, 0xc7U, 0x31U,
++    0xb1U, 0x12U, 0x10U, 0x59U, 0x27U, 0x80U, 0xecU, 0x5fU,
++    0x60U, 0x51U, 0x7fU, 0xa9U, 0x19U, 0xb5U, 0x4aU, 0x0dU,
++    0x2dU, 0xe5U, 0x7aU, 0x9fU, 0x93U, 0xc9U, 0x9cU, 0xefU,
++    0xa0U, 0xe0U, 0x3bU, 0x4dU, 0xaeU, 0x2aU, 0xf5U, 0xb0U,
++    0xc8U, 0xebU, 0xbbU, 0x3cU, 0x83U, 0x53U, 0x99U, 0x61U,
++    0x17U, 0x2bU, 0x04U, 0x7eU, 0xbaU, 0x77U, 0xd6U, 0x26U,
++    0xe1U, 0x69U, 0x14U, 0x63U, 0x55U, 0x21U, 0x0cU, 0x7dU,
++};
++const u8 rcons[] = {
++	0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0x1B, 0x36
++	/* for 128-bit blocks, Rijndael never uses more than 10 rcon values */
++};
++
++/**
++ * Expand the cipher key into the encryption key schedule.
++ *
++ * @return	the number of rounds for the given cipher key size.
++ */
++#ifndef PLATFORM_FREEBSD //Baron
++static void rijndaelKeySetupEnc(u32 rk[/*44*/], const u8 cipherKey[])
++{
++	int i;
++	u32 temp;
++
++	rk[0] = GETU32(cipherKey     );
++	rk[1] = GETU32(cipherKey +  4);
++	rk[2] = GETU32(cipherKey +  8);
++	rk[3] = GETU32(cipherKey + 12);
++	for (i = 0; i < 10; i++) {
++		temp  = rk[3];
++		rk[4] = rk[0] ^
++			TE421(temp) ^ TE432(temp) ^ TE443(temp) ^ TE414(temp) ^
++			RCON(i);
++		rk[5] = rk[1] ^ rk[4];
++		rk[6] = rk[2] ^ rk[5];
++		rk[7] = rk[3] ^ rk[6];
++		rk += 4;
++	}
++}
++
++static void rijndaelEncrypt(u32 rk[/*44*/], u8 pt[16], u8 ct[16])
++{
++	u32 s0, s1, s2, s3, t0, t1, t2, t3;
++	int Nr = 10;
++#ifndef FULL_UNROLL
++	int r;
++#endif /* ?FULL_UNROLL */
++
++	/*
++	 * map byte array block to cipher state
++	 * and add initial round key:
++	 */
++	s0 = GETU32(pt     ) ^ rk[0];
++	s1 = GETU32(pt +  4) ^ rk[1];
++	s2 = GETU32(pt +  8) ^ rk[2];
++	s3 = GETU32(pt + 12) ^ rk[3];
++
++#define ROUND(i,d,s) \
++d##0 = TE0(s##0) ^ TE1(s##1) ^ TE2(s##2) ^ TE3(s##3) ^ rk[4 * i]; \
++d##1 = TE0(s##1) ^ TE1(s##2) ^ TE2(s##3) ^ TE3(s##0) ^ rk[4 * i + 1]; \
++d##2 = TE0(s##2) ^ TE1(s##3) ^ TE2(s##0) ^ TE3(s##1) ^ rk[4 * i + 2]; \
++d##3 = TE0(s##3) ^ TE1(s##0) ^ TE2(s##1) ^ TE3(s##2) ^ rk[4 * i + 3]
++
++#ifdef FULL_UNROLL
++
++	ROUND(1,t,s);
++	ROUND(2,s,t);
++	ROUND(3,t,s);
++	ROUND(4,s,t);
++	ROUND(5,t,s);
++	ROUND(6,s,t);
++	ROUND(7,t,s);
++	ROUND(8,s,t);
++	ROUND(9,t,s);
++
++	rk += Nr << 2;
++
++#else  /* !FULL_UNROLL */
++
++	/* Nr - 1 full rounds: */
++	r = Nr >> 1;
++	for (;;) {
++		ROUND(1,t,s);
++		rk += 8;
++		if (--r == 0)
++			break;
++		ROUND(0,s,t);
++	}
++
++#endif /* ?FULL_UNROLL */
++
++#undef ROUND
++
++	/*
++	 * apply last round and
++	 * map cipher state to byte array block:
++	 */
++	s0 = TE41(t0) ^ TE42(t1) ^ TE43(t2) ^ TE44(t3) ^ rk[0];
++	PUTU32(ct     , s0);
++	s1 = TE41(t1) ^ TE42(t2) ^ TE43(t3) ^ TE44(t0) ^ rk[1];
++	PUTU32(ct +  4, s1);
++	s2 = TE41(t2) ^ TE42(t3) ^ TE43(t0) ^ TE44(t1) ^ rk[2];
++	PUTU32(ct +  8, s2);
++	s3 = TE41(t3) ^ TE42(t0) ^ TE43(t1) ^ TE44(t2) ^ rk[3];
++	PUTU32(ct + 12, s3);
++}
++
++static void * aes_encrypt_init(u8 *key, size_t len)
++{
++	u32 *rk;
++	if (len != 16)
++		return NULL;
++	rk = (u32*)rtw_malloc(AES_PRIV_SIZE);
++	if (rk == NULL)
++		return NULL;
++	rijndaelKeySetupEnc(rk, key);
++	return rk;
++}
++
++static void aes_128_encrypt(void *ctx, u8 *plain, u8 *crypt)
++{
++	rijndaelEncrypt(ctx, plain, crypt);
++}
++
++
++static void gf_mulx(u8 *pad)
++{
++	int i, carry;
++
++	carry = pad[0] & 0x80;
++	for (i = 0; i < AES_BLOCK_SIZE - 1; i++)
++		pad[i] = (pad[i] << 1) | (pad[i + 1] >> 7);
++	pad[AES_BLOCK_SIZE - 1] <<= 1;
++	if (carry)
++		pad[AES_BLOCK_SIZE - 1] ^= 0x87;
++}
++
++static void aes_encrypt_deinit(void *ctx)
++{
++	_rtw_memset(ctx, 0, AES_PRIV_SIZE);
++	rtw_mfree(ctx, AES_PRIV_SIZE);
++}
++
++
++/**
++ * omac1_aes_128_vector - One-Key CBC MAC (OMAC1) hash with AES-128
++ * @key: 128-bit key for the hash operation
++ * @num_elem: Number of elements in the data vector
++ * @addr: Pointers to the data areas
++ * @len: Lengths of the data blocks
++ * @mac: Buffer for MAC (128 bits, i.e., 16 bytes)
++ * Returns: 0 on success, -1 on failure
++ *
++ * This is a mode for using block cipher (AES in this case) for authentication.
++ * OMAC1 was standardized with the name CMAC by NIST in a Special Publication
++ * (SP) 800-38B.
++ */
++static int omac1_aes_128_vector(u8 *key, size_t num_elem,
++							 u8 *addr[], size_t *len, u8 *mac)
++{
++	void *ctx;
++	u8 cbc[AES_BLOCK_SIZE], pad[AES_BLOCK_SIZE];
++	u8 *pos, *end;
++	size_t i, e, left, total_len;
++
++	ctx = aes_encrypt_init(key, 16);
++	if (ctx == NULL)
++		return -1;
++	_rtw_memset(cbc, 0, AES_BLOCK_SIZE);
++
++	total_len = 0;
++	for (e = 0; e < num_elem; e++)
++		total_len += len[e];
++	left = total_len;
++
++	e = 0;
++	pos = addr[0];
++	end = pos + len[0];
++
++	while (left >= AES_BLOCK_SIZE) {
++		for (i = 0; i < AES_BLOCK_SIZE; i++) {
++			cbc[i] ^= *pos++;
++			if (pos >= end) {
++				e++;
++				pos = addr[e];
++				end = pos + len[e];
++			}
++		}
++		if (left > AES_BLOCK_SIZE)
++			aes_128_encrypt(ctx, cbc, cbc);
++		left -= AES_BLOCK_SIZE;
++	}
++
++	_rtw_memset(pad, 0, AES_BLOCK_SIZE);
++	aes_128_encrypt(ctx, pad, pad);
++	gf_mulx(pad);
++
++	if (left || total_len == 0) {
++		for (i = 0; i < left; i++) {
++			cbc[i] ^= *pos++;
++			if (pos >= end) {
++				e++;
++				pos = addr[e];
++				end = pos + len[e];
++			}
++		}
++		cbc[left] ^= 0x80;
++		gf_mulx(pad);
++	}
++
++	for (i = 0; i < AES_BLOCK_SIZE; i++)
++		pad[i] ^= cbc[i];
++	aes_128_encrypt(ctx, pad, mac);
++	aes_encrypt_deinit(ctx);
++	return 0;
++}
++
++
++/**
++ * omac1_aes_128 - One-Key CBC MAC (OMAC1) hash with AES-128 (aka AES-CMAC)
++ * @key: 128-bit key for the hash operation
++ * @data: Data buffer for which a MAC is determined
++ * @data_len: Length of data buffer in bytes
++ * @mac: Buffer for MAC (128 bits, i.e., 16 bytes)
++ * Returns: 0 on success, -1 on failure
++ *
++ * This is a mode for using block cipher (AES in this case) for authentication.
++ * OMAC1 was standardized with the name CMAC by NIST in a Special Publication
++ * (SP) 800-38B.
++ */ //modify for CONFIG_IEEE80211W
++int omac1_aes_128(u8 *key, u8 *data, size_t data_len, u8 *mac)
++{
++	return omac1_aes_128_vector(key, 1, &data, &data_len, mac);
++}
++#endif //PLATFORM_FREEBSD Baron
++
++#ifdef CONFIG_TDLS
++void wpa_tdls_generate_tpk(_adapter *padapter, struct sta_info *psta)
++{
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	u8 *SNonce = psta->SNonce;
++	u8 *ANonce = psta->ANonce;
++
++	u8 key_input[SHA256_MAC_LEN];
++	u8 *nonce[2];
++	size_t len[2];
++	u8 data[3 * ETH_ALEN];
++
++	/* IEEE Std 802.11z-2010 8.5.9.1:
++	 * TPK-Key-Input = SHA-256(min(SNonce, ANonce) || max(SNonce, ANonce))
++	 */
++	len[0] = 32;
++	len[1] = 32;
++	if (os_memcmp(SNonce, ANonce, 32) < 0) {
++		nonce[0] = SNonce;
++		nonce[1] = ANonce;
++	} else {
++		nonce[0] = ANonce;
++		nonce[1] = SNonce;
++	}
++
++	sha256_vector(2, nonce, len, key_input);
++
++	/*
++	 * TPK-Key-Data = KDF-N_KEY(TPK-Key-Input, "TDLS PMK",
++	 *	min(MAC_I, MAC_R) || max(MAC_I, MAC_R) || BSSID || N_KEY)
++	 * TODO: is N_KEY really included in KDF Context and if so, in which
++	 * presentation format (little endian 16-bit?) is it used? It gets
++	 * added by the KDF anyway..
++	 */
++
++	if (os_memcmp(myid(&(padapter->eeprompriv)), psta->hwaddr, ETH_ALEN) < 0) {
++		_rtw_memcpy(data, myid(&(padapter->eeprompriv)), ETH_ALEN);
++		_rtw_memcpy(data + ETH_ALEN, psta->hwaddr, ETH_ALEN);
++	} else {
++		_rtw_memcpy(data, psta->hwaddr, ETH_ALEN);
++		_rtw_memcpy(data + ETH_ALEN, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	}
++	_rtw_memcpy(data + 2 * ETH_ALEN, get_bssid(pmlmepriv), ETH_ALEN);
++
++	sha256_prf(key_input, SHA256_MAC_LEN, "TDLS PMK", data, sizeof(data), (u8 *) &psta->tpk, sizeof(psta->tpk));	
++
++
++}
++
++/**
++ * wpa_tdls_ftie_mic - Calculate TDLS FTIE MIC
++ * @kck: TPK-KCK
++ * @lnkid: Pointer to the beginning of Link Identifier IE
++ * @rsnie: Pointer to the beginning of RSN IE used for handshake
++ * @timeoutie: Pointer to the beginning of Timeout IE used for handshake
++ * @ftie: Pointer to the beginning of FT IE
++ * @mic: Pointer for writing MIC
++ *
++ * Calculate MIC for TDLS frame.
++ */
++int wpa_tdls_ftie_mic(u8 *kck, u8 trans_seq, 
++							u8 *lnkid, u8 *rsnie, u8 *timeoutie, u8 *ftie,
++							u8 *mic)
++{
++	u8 *buf, *pos;
++	struct wpa_tdls_ftie *_ftie;
++	struct wpa_tdls_lnkid *_lnkid;
++	int ret;
++	int len = 2 * ETH_ALEN + 1 + 2 + lnkid[1] + 2 + rsnie[1] +
++		2 + timeoutie[1] + 2 + ftie[1];
++	buf = rtw_zmalloc(len);
++	if (!buf) {
++		DBG_871X("TDLS: No memory for MIC calculation\n");
++		return -1;
++	}
++
++	pos = buf;
++	_lnkid = (struct wpa_tdls_lnkid *) lnkid;
++	/* 1) TDLS initiator STA MAC address */
++	_rtw_memcpy(pos, _lnkid->init_sta, ETH_ALEN);
++	pos += ETH_ALEN;
++	/* 2) TDLS responder STA MAC address */
++	_rtw_memcpy(pos, _lnkid->resp_sta, ETH_ALEN);
++	pos += ETH_ALEN;
++	/* 3) Transaction Sequence number */
++	*pos++ = trans_seq;
++	/* 4) Link Identifier IE */
++	_rtw_memcpy(pos, lnkid, 2 + lnkid[1]);
++	pos += 2 + lnkid[1];
++	/* 5) RSN IE */
++	_rtw_memcpy(pos, rsnie, 2 + rsnie[1]);
++	pos += 2 + rsnie[1];
++	/* 6) Timeout Interval IE */
++	_rtw_memcpy(pos, timeoutie, 2 + timeoutie[1]);
++	pos += 2 + timeoutie[1];
++	/* 7) FTIE, with the MIC field of the FTIE set to 0 */
++	_rtw_memcpy(pos, ftie, 2 + ftie[1]);
++	_ftie = (struct wpa_tdls_ftie *) pos;
++	_rtw_memset(_ftie->mic, 0, TDLS_MIC_LEN);
++	pos += 2 + ftie[1];
++ 
++	ret = omac1_aes_128(kck, buf, pos - buf, mic);
++	rtw_mfree(buf, len);
++	return ret;
++
++}
++
++int tdls_verify_mic(u8 *kck, u8 trans_seq,
++							u8 *lnkid, u8 *rsnie, u8 *timeoutie, u8 *ftie)
++{
++	u8 *buf, *pos;
++	int len;
++	u8 mic[16];
++	int ret;
++	u8 *rx_ftie, *tmp_ftie;
++
++	if (lnkid == NULL || rsnie == NULL ||
++	    timeoutie == NULL || ftie == NULL){
++		return 0;
++	}
++	
++	len = 2 * ETH_ALEN + 1 + 2 + 18 + 2 + *(rsnie+1) + 2 + *(timeoutie+1) + 2 + *(ftie+1);
++
++	buf = rtw_zmalloc(len);
++	if (buf == NULL)
++		return 0;
++
++	pos = buf;
++	/* 1) TDLS initiator STA MAC address */
++	_rtw_memcpy(pos, lnkid + ETH_ALEN + 2, ETH_ALEN);
++	pos += ETH_ALEN;
++	/* 2) TDLS responder STA MAC address */
++	_rtw_memcpy(pos, lnkid + 2 * ETH_ALEN + 2, ETH_ALEN);
++	pos += ETH_ALEN;
++	/* 3) Transaction Sequence number */
++	*pos++ = trans_seq;
++	/* 4) Link Identifier IE */
++	_rtw_memcpy(pos, lnkid, 2 + 18);
++	pos += 2 + 18;
++	/* 5) RSN IE */
++	_rtw_memcpy(pos, rsnie, 2 + *(rsnie+1));
++	pos += 2 + *(rsnie+1);
++	/* 6) Timeout Interval IE */
++	_rtw_memcpy(pos, timeoutie, 2 + *(timeoutie+1));
++	pos += 2 + *(timeoutie+1);
++	/* 7) FTIE, with the MIC field of the FTIE set to 0 */
++	_rtw_memcpy(pos, ftie, 2 + *(ftie+1));
++	pos += 2;
++	tmp_ftie = (u8 *) (pos+2);
++	_rtw_memset(tmp_ftie, 0, 16);
++	pos += *(ftie+1);
++
++	ret = omac1_aes_128(kck, buf, pos - buf, mic);
++	rtw_mfree(buf, len);
++	if (ret)
++		return 0;
++	rx_ftie = ftie+4;
++
++	if (os_memcmp(mic, rx_ftie, 16) == 0) {
++		//Valid MIC
++		return 1;
++	}
++
++	//Invalid MIC
++	DBG_871X( "[%s] Invalid MIC\n", __FUNCTION__);
++	return 0;
++
++}
++#endif //CONFIG_TDLS
++
++#ifdef PLATFORM_WINDOWS
++void rtw_use_tkipkey_handler (
++	IN	PVOID					SystemSpecific1,
++	IN	PVOID					FunctionContext,
++	IN	PVOID					SystemSpecific2,
++	IN	PVOID					SystemSpecific3
++	)
++#endif
++#ifdef PLATFORM_LINUX
++void rtw_use_tkipkey_handler(void *FunctionContext)
++#endif
++#ifdef PLATFORM_FREEBSD
++void rtw_use_tkipkey_handler(void *FunctionContext)
++#endif
++{
++        _adapter *padapter = (_adapter *)FunctionContext;
++
++
++_func_enter_;			
++
++	RT_TRACE(_module_rtl871x_security_c_,_drv_err_,("^^^rtw_use_tkipkey_handler ^^^\n"));
++	
++/*
++	if(padapter->bDriverStopped ||padapter->bSurpriseRemoved){
++			RT_TRACE(_module_rtl871x_security_c_,_drv_err_,("^^^rtw_use_tkipkey_handler (padapter->bDriverStopped %d)(padapter->bSurpriseRemoved %d)^^^\n",padapter->bDriverStopped,padapter->bSurpriseRemoved));
++
++		return;
++	}
++	*/
++	
++	padapter->securitypriv.busetkipkey=_TRUE;
++
++	RT_TRACE(_module_rtl871x_security_c_,_drv_err_,("^^^rtw_use_tkipkey_handler padapter->securitypriv.busetkipkey=%d^^^\n",padapter->securitypriv.busetkipkey));
++
++_func_exit_;	
++
++}
++
++/* Restore HW wep key setting according to key_mask */
++void rtw_sec_restore_wep_key(_adapter *adapter)
++{
++	struct security_priv* securitypriv=&(adapter->securitypriv);
++	sint keyid;
++
++	if((_WEP40_ == securitypriv->dot11PrivacyAlgrthm) ||(_WEP104_ == securitypriv->dot11PrivacyAlgrthm)) {
++		for(keyid=0;keyid<4;keyid++){
++			if(securitypriv->key_mask & BIT(keyid)){
++				if(keyid == securitypriv->dot11PrivacyKeyIndex)
++					rtw_set_key(adapter,securitypriv, keyid, 1);
++				else
++					rtw_set_key(adapter,securitypriv, keyid, 0);
++			}
++		}
++	}
++}
++
++u8 rtw_handle_tkip_countermeasure(_adapter* adapter, const char *caller)
++{
++	struct security_priv* securitypriv=&(adapter->securitypriv);
++	u8 status = _SUCCESS;
++
++	if (securitypriv->btkip_countermeasure == _TRUE) {
++		u32 passing_ms = rtw_get_passing_time_ms(securitypriv->btkip_countermeasure_time);
++		if (passing_ms > 60*1000) {
++			LOG_LEVEL(_drv_info_, "%s("ADPT_FMT") countermeasure time:%ds > 60s \n",
++				caller, ADPT_ARG(adapter), passing_ms/1000);
++			securitypriv->btkip_countermeasure = _FALSE;
++			securitypriv->btkip_countermeasure_time = 0;
++		} else {
++			LOG_LEVEL(_drv_warning_, "%s("ADPT_FMT") countermeasure time:%ds < 60s \n",
++				caller, ADPT_ARG(adapter), passing_ms/1000);
++			status = _FAIL;
++		}
++	}
++
++	return status;
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_sreset.c b/drivers/net/wireless/rtl8192cu/core/rtw_sreset.c
+new file mode 100755
+index 0000000..e08b1f7
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_sreset.c
+@@ -0,0 +1,352 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include<rtw_sreset.h>
++
++void sreset_init_value(_adapter *padapter)
++{
++#if defined(DBG_CONFIG_ERROR_DETECT)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++
++	_rtw_mutex_init(&psrtpriv->silentreset_mutex);
++	psrtpriv->silent_reset_inprogress = _FALSE;
++	psrtpriv->Wifi_Error_Status = WIFI_STATUS_SUCCESS;
++	psrtpriv->last_tx_time =0;
++	psrtpriv->last_tx_complete_time =0;
++#endif
++}
++void sreset_reset_value(_adapter *padapter)
++{
++#if defined(DBG_CONFIG_ERROR_DETECT)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++
++	psrtpriv->silent_reset_inprogress = _FALSE;
++	psrtpriv->Wifi_Error_Status = WIFI_STATUS_SUCCESS;
++	psrtpriv->last_tx_time =0;
++	psrtpriv->last_tx_complete_time =0;
++#endif
++}
++
++u8 sreset_get_wifi_status(_adapter *padapter)
++{
++#if defined(DBG_CONFIG_ERROR_DETECT)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++
++	u8 status = WIFI_STATUS_SUCCESS;
++	u32 val32 = 0;
++	_irqL irqL;
++	if(psrtpriv->silent_reset_inprogress == _TRUE)
++        {
++		return status;
++	}
++	val32 =rtw_read32(padapter,REG_TXDMA_STATUS);
++	if(val32==0xeaeaeaea){
++		psrtpriv->Wifi_Error_Status = WIFI_IF_NOT_EXIST;
++	}
++	else if(val32!=0){
++		DBG_8192C("txdmastatu(%x)\n",val32);
++		psrtpriv->Wifi_Error_Status = WIFI_MAC_TXDMA_ERROR;
++	}
++
++	if(WIFI_STATUS_SUCCESS !=psrtpriv->Wifi_Error_Status)
++	{
++		DBG_8192C("==>%s error_status(0x%x) \n",__FUNCTION__,psrtpriv->Wifi_Error_Status);
++		status = (psrtpriv->Wifi_Error_Status &( ~(USB_READ_PORT_FAIL|USB_WRITE_PORT_FAIL)));
++	}
++	DBG_8192C("==> %s wifi_status(0x%x)\n",__FUNCTION__,status);
++
++	//status restore
++	psrtpriv->Wifi_Error_Status = WIFI_STATUS_SUCCESS;
++
++	return status;
++#else
++	return WIFI_STATUS_SUCCESS;
++#endif
++}
++
++void sreset_set_wifi_error_status(_adapter *padapter, u32 status)
++{
++#if defined(DBG_CONFIG_ERROR_DETECT)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	pHalData->srestpriv.Wifi_Error_Status = status;
++#endif
++}
++
++void sreset_set_trigger_point(_adapter *padapter, s32 tgp)
++{
++#if defined(DBG_CONFIG_ERROR_DETECT)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	pHalData->srestpriv.dbg_trigger_point = tgp;
++#endif
++}
++
++bool sreset_inprogress(_adapter *padapter)
++{
++#if defined(DBG_CONFIG_ERROR_RESET)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	return pHalData->srestpriv.silent_reset_inprogress;
++#else
++	return _FALSE;
++#endif
++}
++
++void sreset_restore_security_station(_adapter *padapter)
++{
++	u8 EntryId = 0;
++	struct mlme_priv *mlmepriv = &padapter->mlmepriv;
++	struct sta_priv * pstapriv = &padapter->stapriv;
++	struct sta_info *psta;
++	struct security_priv* psecuritypriv=&(padapter->securitypriv);
++	struct mlme_ext_info	*pmlmeinfo = &padapter->mlmeextpriv.mlmext_info;
++
++	{
++		u8 val8;
++
++		if (pmlmeinfo->auth_algo == dot11AuthAlgrthm_8021X) {
++			val8 = 0xcc;
++		#ifdef CONFIG_WAPI_SUPPORT
++		} else if (padapter->wapiInfo.bWapiEnable && pmlmeinfo->auth_algo == dot11AuthAlgrthm_WAPI) {
++			//Disable TxUseDefaultKey, RxUseDefaultKey, RxBroadcastUseDefaultKey.
++			val8 = 0x4c;
++		#endif
++		} else {
++			val8 = 0xcf;
++		}
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, (u8 *)(&val8));
++	}
++
++	#if 0
++	if (	( padapter->securitypriv.dot11PrivacyAlgrthm == _WEP40_ ) ||
++		( padapter->securitypriv.dot11PrivacyAlgrthm == _WEP104_ ))
++	{
++
++		for(EntryId=0; EntryId<4; EntryId++)
++		{
++			if(EntryId == psecuritypriv->dot11PrivacyKeyIndex)
++				rtw_set_key(padapter,&padapter->securitypriv, EntryId, 1);
++			else
++				rtw_set_key(padapter,&padapter->securitypriv, EntryId, 0);
++		}
++
++	}
++	else
++	#endif
++	if((padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_) ||
++		(padapter->securitypriv.dot11PrivacyAlgrthm == _AES_))
++	{
++		psta = rtw_get_stainfo(pstapriv, get_bssid(mlmepriv));
++		if (psta == NULL) {
++			//DEBUG_ERR( ("Set wpa_set_encryption: Obtain Sta_info fail \n"));
++		}
++		else
++		{
++			//pairwise key
++			rtw_setstakey_cmd(padapter, (unsigned char *)psta, _TRUE);
++			//group key
++			rtw_set_key(padapter,&padapter->securitypriv,padapter->securitypriv.dot118021XGrpKeyid, 0);
++		}
++	}
++}
++
++void sreset_restore_network_station(_adapter *padapter)
++{
++	struct mlme_priv *mlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	#if 0
++	{
++	//=======================================================
++	// reset related register of Beacon control
++
++	//set MSR to nolink
++	Set_MSR(padapter, _HW_STATE_NOLINK_);		
++	// reject all data frame
++	rtw_write16(padapter, REG_RXFLTMAP2,0x00);
++	//reset TSF
++	rtw_write8(padapter, REG_DUAL_TSF_RST, (BIT(0)|BIT(1)));
++
++	// disable update TSF
++	SetBcnCtrlReg(padapter, BIT(4), 0);
++
++	//=======================================================
++	}
++	#endif
++	
++	rtw_setopmode_cmd(padapter, Ndis802_11Infrastructure);
++
++	{
++		u8 threshold;
++		#ifdef CONFIG_USB_HCI
++		// TH=1 => means that invalidate usb rx aggregation
++		// TH=0 => means that validate usb rx aggregation, use init value.
++		if(mlmepriv->htpriv.ht_option) {
++			if(padapter->registrypriv.wifi_spec==1)		
++				threshold = 1;
++			else
++				threshold = 0;
++			rtw_hal_set_hwreg(padapter, HW_VAR_RXDMA_AGG_PG_TH, (u8 *)(&threshold));
++		} else {
++			threshold = 1;
++			rtw_hal_set_hwreg(padapter, HW_VAR_RXDMA_AGG_PG_TH, (u8 *)(&threshold));
++		}
++		#endif
++	}
++
++	set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++
++	//disable dynamic functions, such as high power, DIG
++	//Switch_DM_Func(padapter, DYNAMIC_FUNC_DISABLE, _FALSE);
++	
++	rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, pmlmeinfo->network.MacAddress);
++
++	{
++		u8	join_type = 0;
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
++	}
++
++	Set_MSR(padapter, (pmlmeinfo->state & 0x3));
++
++	mlmeext_joinbss_event_callback(padapter, 1);
++	//restore Sequence No.
++	rtw_write8(padapter,0x4dc,padapter->xmitpriv.nqos_ssn);
++
++	sreset_restore_security_station(padapter);
++}
++
++void sreset_restore_network_status(_adapter *padapter)
++{
++	struct mlme_priv *mlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (check_fwstate(mlmepriv, WIFI_STATION_STATE)) {
++		DBG_871X(FUNC_ADPT_FMT" fwstate:0x%08x - WIFI_STATION_STATE\n", FUNC_ADPT_ARG(padapter), get_fwstate(mlmepriv));
++		sreset_restore_network_station(padapter);
++	} else if (check_fwstate(mlmepriv, WIFI_AP_STATE)) {
++		DBG_871X(FUNC_ADPT_FMT" fwstate:0x%08x - WIFI_AP_STATE\n", FUNC_ADPT_ARG(padapter), get_fwstate(mlmepriv));
++		rtw_ap_restore_network(padapter);
++	} else if (check_fwstate(mlmepriv, WIFI_ADHOC_STATE)) {
++		DBG_871X(FUNC_ADPT_FMT" fwstate:0x%08x - WIFI_ADHOC_STATE\n", FUNC_ADPT_ARG(padapter), get_fwstate(mlmepriv));
++	} else {
++		DBG_871X(FUNC_ADPT_FMT" fwstate:0x%08x - ???\n", FUNC_ADPT_ARG(padapter), get_fwstate(mlmepriv));
++	}
++}
++
++void sreset_stop_adapter(_adapter *padapter)
++{
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++
++	if (padapter == NULL)
++		return;
++
++	DBG_871X(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++	if (!rtw_netif_queue_stopped(padapter->pnetdev))
++		rtw_netif_stop_queue(padapter->pnetdev);
++
++	rtw_cancel_all_timer(padapter);
++
++	/* TODO: OS and HCI independent */
++	#if defined(PLATFORM_LINUX) && defined(CONFIG_USB_HCI)
++	tasklet_kill(&pxmitpriv->xmit_tasklet);
++	#endif
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY))
++		rtw_scan_abort(padapter);
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING))
++		_rtw_join_timeout_handler(padapter);
++
++}
++
++void sreset_start_adapter(_adapter *padapter)
++{
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++
++	if (padapter == NULL)
++		return;
++
++	DBG_871X(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED)) {
++		sreset_restore_network_status(padapter);
++	}
++
++	/* TODO: OS and HCI independent */
++	#if defined(PLATFORM_LINUX) && defined(CONFIG_USB_HCI)
++	tasklet_hi_schedule(&pxmitpriv->xmit_tasklet);
++	#endif
++
++	_set_timer(&padapter->mlmepriv.dynamic_chk_timer, 2000);
++
++	if (rtw_netif_queue_stopped(padapter->pnetdev))
++		rtw_netif_wake_queue(padapter->pnetdev);
++
++}
++
++void sreset_reset(_adapter *padapter)
++{
++#ifdef DBG_CONFIG_ERROR_RESET
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	_irqL irqL;
++	u32 start = rtw_get_current_time();
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	psrtpriv->Wifi_Error_Status = WIFI_STATUS_SUCCESS;
++
++	_enter_pwrlock(&pwrpriv->lock);
++
++	psrtpriv->silent_reset_inprogress = _TRUE;
++	pwrpriv->change_rfpwrstate = rf_off;
++
++	sreset_stop_adapter(padapter);
++	#ifdef CONFIG_CONCURRENT_MODE
++	sreset_stop_adapter(padapter->pbuddy_adapter);
++	#endif
++
++	#ifdef CONFIG_IPS
++	_ips_enter(padapter);
++	_ips_leave(padapter);
++	#endif
++
++	sreset_start_adapter(padapter);
++	#ifdef CONFIG_CONCURRENT_MODE
++	sreset_start_adapter(padapter->pbuddy_adapter);
++	#endif
++
++	psrtpriv->silent_reset_inprogress = _FALSE;
++
++	_exit_pwrlock(&pwrpriv->lock);
++
++	DBG_871X("%s done in %d ms\n", __FUNCTION__, rtw_get_passing_time_ms(start));
++#endif
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_sta_mgt.c b/drivers/net/wireless/rtl8192cu/core/rtw_sta_mgt.c
+new file mode 100755
+index 0000000..f818a0c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_sta_mgt.c
+@@ -0,0 +1,848 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_STA_MGT_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <recv_osdep.h>
++#include <xmit_osdep.h>
++#include <mlme_osdep.h>
++
++
++#if defined (PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++
++#error "Shall be Linux or Windows, but not both!\n"
++
++#endif
++
++#include <sta_info.h>
++
++void _rtw_init_stainfo(struct sta_info *psta);
++void _rtw_init_stainfo(struct sta_info *psta)
++{
++
++_func_enter_;
++
++	_rtw_memset((u8 *)psta, 0, sizeof (struct sta_info));
++
++	 _rtw_spinlock_init(&psta->lock);
++	_rtw_init_listhead(&psta->list);
++	_rtw_init_listhead(&psta->hash_list);
++	//_rtw_init_listhead(&psta->asoc_list);
++	//_rtw_init_listhead(&psta->sleep_list);
++	//_rtw_init_listhead(&psta->wakeup_list);	
++
++	_rtw_init_queue(&psta->sleep_q);
++	psta->sleepq_len = 0;
++
++	_rtw_init_sta_xmit_priv(&psta->sta_xmitpriv);
++	_rtw_init_sta_recv_priv(&psta->sta_recvpriv);
++	
++#ifdef CONFIG_AP_MODE
++
++	_rtw_init_listhead(&psta->asoc_list);
++
++	_rtw_init_listhead(&psta->auth_list);
++	
++	psta->expire_to = 0;
++	
++	psta->flags = 0;
++	
++	psta->capability = 0;
++
++	psta->bpairwise_key_installed = _FALSE;
++
++
++#ifdef CONFIG_NATIVEAP_MLME
++	psta->nonerp_set = 0;
++	psta->no_short_slot_time_set = 0;
++	psta->no_short_preamble_set = 0;
++	psta->no_ht_gf_set = 0;
++	psta->no_ht_set = 0;
++	psta->ht_20mhz_set = 0;
++#endif	
++
++#ifdef CONFIG_TX_MCAST2UNI
++	psta->under_exist_checking = 0;
++#endif	// CONFIG_TX_MCAST2UNI
++	
++	psta->keep_alive_trycnt = 0;
++
++#endif	// CONFIG_AP_MODE	
++	
++_func_exit_;	
++
++}
++
++u32	_rtw_init_sta_priv(struct	sta_priv *pstapriv)
++{
++	struct sta_info *psta;
++	s32 i;
++
++_func_enter_;	
++
++	pstapriv->pallocated_stainfo_buf = rtw_zvmalloc (sizeof(struct sta_info) * NUM_STA+ 4);
++	
++	if(!pstapriv->pallocated_stainfo_buf)
++		return _FAIL;
++
++	pstapriv->pstainfo_buf = pstapriv->pallocated_stainfo_buf + 4 - 
++		((SIZE_PTR)(pstapriv->pallocated_stainfo_buf ) & 3);
++
++	_rtw_init_queue(&pstapriv->free_sta_queue);
++
++	_rtw_spinlock_init(&pstapriv->sta_hash_lock);
++	
++	//_rtw_init_queue(&pstapriv->asoc_q);
++	pstapriv->asoc_sta_count = 0;
++	_rtw_init_queue(&pstapriv->sleep_q);
++	_rtw_init_queue(&pstapriv->wakeup_q);
++
++	psta = (struct sta_info *)(pstapriv->pstainfo_buf);
++
++		
++	for(i = 0; i < NUM_STA; i++)
++	{
++		_rtw_init_stainfo(psta);
++
++		_rtw_init_listhead(&(pstapriv->sta_hash[i]));
++
++		rtw_list_insert_tail(&psta->list, get_list_head(&pstapriv->free_sta_queue));
++
++		psta++;
++	}
++
++	
++
++#ifdef CONFIG_AP_MODE
++
++	pstapriv->sta_dz_bitmap = 0;
++	pstapriv->tim_bitmap = 0;
++
++	_rtw_init_listhead(&pstapriv->asoc_list);
++	_rtw_init_listhead(&pstapriv->auth_list);
++	_rtw_spinlock_init(&pstapriv->asoc_list_lock);
++	_rtw_spinlock_init(&pstapriv->auth_list_lock);
++	pstapriv->asoc_list_cnt = 0;
++	pstapriv->auth_list_cnt = 0;
++
++	pstapriv->auth_to = 3; // 3*2 = 6 sec 
++	pstapriv->assoc_to = 3;
++	//pstapriv->expire_to = 900;// 900*2 = 1800 sec = 30 min, expire after no any traffic.
++	//pstapriv->expire_to = 30;// 30*2 = 60 sec = 1 min, expire after no any traffic.
++#ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++	pstapriv->expire_to = 3; // 3*2 = 6 sec
++#else
++	pstapriv->expire_to = 60;// 60*2 = 120 sec = 2 min, expire after no any traffic.
++#endif	
++	pstapriv->max_num_sta = NUM_STA;
++		
++#endif
++	
++_func_exit_;		
++
++	return _SUCCESS;
++	
++}
++
++inline int rtw_stainfo_offset(struct sta_priv *stapriv, struct sta_info *sta)
++{
++	int offset = (((u8 *)sta) - stapriv->pstainfo_buf)/sizeof(struct sta_info);
++
++	if (!stainfo_offset_valid(offset))
++		DBG_871X("%s invalid offset(%d), out of range!!!", __func__, offset);
++
++	return offset;
++}
++
++inline struct sta_info *rtw_get_stainfo_by_offset(struct sta_priv *stapriv, int offset)
++{
++	if (!stainfo_offset_valid(offset))
++		DBG_871X("%s invalid offset(%d), out of range!!!", __func__, offset);
++
++	return (struct sta_info *)(stapriv->pstainfo_buf + offset * sizeof(struct sta_info));
++}
++
++void	_rtw_free_sta_xmit_priv_lock(struct sta_xmit_priv *psta_xmitpriv);
++void	_rtw_free_sta_xmit_priv_lock(struct sta_xmit_priv *psta_xmitpriv)
++{
++_func_enter_;
++
++	_rtw_spinlock_free(&psta_xmitpriv->lock);
++
++	_rtw_spinlock_free(&(psta_xmitpriv->be_q.sta_pending.lock));
++	_rtw_spinlock_free(&(psta_xmitpriv->bk_q.sta_pending.lock));
++	_rtw_spinlock_free(&(psta_xmitpriv->vi_q.sta_pending.lock));
++	_rtw_spinlock_free(&(psta_xmitpriv->vo_q.sta_pending.lock));
++_func_exit_;	
++}
++
++static void	_rtw_free_sta_recv_priv_lock(struct sta_recv_priv *psta_recvpriv)
++{
++_func_enter_;	
++
++	_rtw_spinlock_free(&psta_recvpriv->lock);
++
++	_rtw_spinlock_free(&(psta_recvpriv->defrag_q.lock));
++
++_func_exit_;
++
++}
++
++void rtw_mfree_stainfo(struct sta_info *psta);
++void rtw_mfree_stainfo(struct sta_info *psta)
++{
++_func_enter_;
++
++	if(&psta->lock != NULL)
++		 _rtw_spinlock_free(&psta->lock);
++
++	_rtw_free_sta_xmit_priv_lock(&psta->sta_xmitpriv);
++	_rtw_free_sta_recv_priv_lock(&psta->sta_recvpriv);
++	
++_func_exit_;	
++}
++
++
++// this function is used to free the memory of lock || sema for all stainfos
++void rtw_mfree_all_stainfo(struct sta_priv *pstapriv );
++void rtw_mfree_all_stainfo(struct sta_priv *pstapriv )
++{
++	_irqL	 irqL;
++	_list	*plist, *phead;
++	struct sta_info *psta = NULL;
++	
++_func_enter_;	
++
++	_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++	phead = get_list_head(&pstapriv->free_sta_queue);
++	plist = get_next(phead);
++		
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
++	{
++		psta = LIST_CONTAINOR(plist, struct sta_info ,list);
++		plist = get_next(plist);
++
++		rtw_mfree_stainfo(psta);
++	}
++	
++	_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++_func_exit_;	
++
++}
++
++void rtw_mfree_sta_priv_lock(struct	sta_priv *pstapriv);
++void rtw_mfree_sta_priv_lock(struct	sta_priv *pstapriv)
++{
++#ifdef CONFIG_AP_MODE
++	struct wlan_acl_pool *pacl_list = &pstapriv->acl_list;
++#endif
++
++	 rtw_mfree_all_stainfo(pstapriv); //be done before free sta_hash_lock
++
++	_rtw_spinlock_free(&pstapriv->free_sta_queue.lock);
++
++	_rtw_spinlock_free(&pstapriv->sta_hash_lock);
++	_rtw_spinlock_free(&pstapriv->wakeup_q.lock);
++	_rtw_spinlock_free(&pstapriv->sleep_q.lock);
++
++#ifdef CONFIG_AP_MODE
++	_rtw_spinlock_free(&pstapriv->asoc_list_lock);
++	_rtw_spinlock_free(&pstapriv->auth_list_lock);
++	_rtw_spinlock_free(&pacl_list->acl_node_q.lock);
++#endif
++
++}
++
++u32	_rtw_free_sta_priv(struct	sta_priv *pstapriv)
++{
++	_irqL 	irqL;
++	_list	*phead, *plist;
++	struct sta_info *psta = NULL;
++	struct recv_reorder_ctrl *preorder_ctrl;
++	int 	index;
++
++_func_enter_;
++	if(pstapriv){
++
++		/*	delete all reordering_ctrl_timer		*/ 
++		_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++		for(index = 0; index < NUM_STA; index++)
++		{
++			phead = &(pstapriv->sta_hash[index]);
++			plist = get_next(phead);
++			
++			while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
++			{
++				int i;	
++				psta = LIST_CONTAINOR(plist, struct sta_info ,hash_list);
++				plist = get_next(plist);
++
++				for(i=0; i < 16 ; i++)
++				{
++					preorder_ctrl = &psta->recvreorder_ctrl[i];
++					_cancel_timer_ex(&preorder_ctrl->reordering_ctrl_timer);	
++				}
++			}
++		}
++		_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++		/*===============================*/
++		
++		rtw_mfree_sta_priv_lock(pstapriv);
++
++		if(pstapriv->pallocated_stainfo_buf) {
++			rtw_vmfree(pstapriv->pallocated_stainfo_buf, sizeof(struct sta_info)*NUM_STA+4);
++		}
++	}
++	
++_func_exit_;
++	return _SUCCESS;
++}
++
++
++//struct	sta_info *rtw_alloc_stainfo(_queue *pfree_sta_queue, unsigned char *hwaddr)
++struct	sta_info *rtw_alloc_stainfo(struct	sta_priv *pstapriv, u8 *hwaddr) 
++{	
++	_irqL irqL, irqL2;
++	uint tmp_aid;
++	s32	index;
++	_list	*phash_list;
++	struct sta_info	*psta;
++	_queue *pfree_sta_queue;
++	struct recv_reorder_ctrl *preorder_ctrl;
++	int i = 0;
++	u16  wRxSeqInitialValue = 0xffff;
++	
++_func_enter_;	
++
++	pfree_sta_queue = &pstapriv->free_sta_queue;
++	
++	//_enter_critical_bh(&(pfree_sta_queue->lock), &irqL);
++	_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL2);
++
++	if (_rtw_queue_empty(pfree_sta_queue) == _TRUE)
++	{
++		//_exit_critical_bh(&(pfree_sta_queue->lock), &irqL);
++		_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL2);
++		psta = NULL;
++	}
++	else
++	{
++		psta = LIST_CONTAINOR(get_next(&pfree_sta_queue->queue), struct sta_info, list);
++		
++		rtw_list_delete(&(psta->list));
++
++		//_exit_critical_bh(&(pfree_sta_queue->lock), &irqL);
++		
++		tmp_aid = psta->aid;	
++	
++		_rtw_init_stainfo(psta);
++
++		_rtw_memcpy(psta->hwaddr, hwaddr, ETH_ALEN);
++
++		index = wifi_mac_hash(hwaddr);
++
++		RT_TRACE(_module_rtl871x_sta_mgt_c_,_drv_info_,("rtw_alloc_stainfo: index  = %x", index));
++
++		if(index >= NUM_STA){
++			RT_TRACE(_module_rtl871x_sta_mgt_c_,_drv_err_,("ERROR=> rtw_alloc_stainfo: index >= NUM_STA"));
++			psta= NULL;	
++			goto exit;
++		}
++		phash_list = &(pstapriv->sta_hash[index]);
++
++		//_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL2);
++
++		rtw_list_insert_tail(&psta->hash_list, phash_list);
++
++		pstapriv->asoc_sta_count ++ ;
++
++		//_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL2);
++
++// Commented by Albert 2009/08/13
++// For the SMC router, the sequence number of first packet of WPS handshake will be 0.
++// In this case, this packet will be dropped by recv_decache function if we use the 0x00 as the default value for tid_rxseq variable.
++// So, we initialize the tid_rxseq variable as the 0xffff.
++
++		for( i = 0; i < 16; i++ )
++		{
++                     _rtw_memcpy( &psta->sta_recvpriv.rxcache.tid_rxseq[ i ], &wRxSeqInitialValue, 2 );
++		}
++
++		RT_TRACE(_module_rtl871x_sta_mgt_c_,_drv_info_,("alloc number_%d stainfo  with hwaddr = %x %x %x %x %x %x  \n", 
++		pstapriv->asoc_sta_count , hwaddr[0], hwaddr[1], hwaddr[2],hwaddr[3],hwaddr[4],hwaddr[5]));
++
++		init_addba_retry_timer(pstapriv->padapter, psta);
++
++#ifdef CONFIG_TDLS
++		psta->padapter = pstapriv->padapter;
++		init_TPK_timer(pstapriv->padapter, psta);
++		init_ch_switch_timer(pstapriv->padapter, psta);
++		init_base_ch_timer(pstapriv->padapter, psta);
++		init_off_ch_timer(pstapriv->padapter, psta);
++		init_handshake_timer(pstapriv->padapter, psta);
++		init_tdls_alive_timer(pstapriv->padapter, psta);
++#endif //CONFIG_TDLS
++
++		//for A-MPDU Rx reordering buffer control
++		for(i=0; i < 16 ; i++)
++		{
++			preorder_ctrl = &psta->recvreorder_ctrl[i];
++
++			preorder_ctrl->padapter = pstapriv->padapter;
++		
++			preorder_ctrl->enable = _FALSE;
++		
++			preorder_ctrl->indicate_seq = 0xffff;
++			#ifdef DBG_RX_SEQ
++			DBG_871X("DBG_RX_SEQ %s:%d IndicateSeq: %d\n", __FUNCTION__, __LINE__,
++				preorder_ctrl->indicate_seq);
++			#endif
++			preorder_ctrl->wend_b= 0xffff;       
++			//preorder_ctrl->wsize_b = (NR_RECVBUFF-2);
++			preorder_ctrl->wsize_b = 64;//64;
++
++			_rtw_init_queue(&preorder_ctrl->pending_recvframe_queue);
++
++			rtw_init_recv_timer(preorder_ctrl);
++		}
++
++
++		//init for DM
++		psta->rssi_stat.UndecoratedSmoothedPWDB = 0;
++		psta->rssi_stat.UndecoratedSmoothedCCK = (-1);
++		
++		/* init for the sequence number of received management frame */
++		psta->RxMgmtFrameSeqNum = 0xffff;
++	}
++	
++exit:
++
++	_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL2);
++
++_func_exit_;
++
++	return psta;
++
++
++}
++
++
++// using pstapriv->sta_hash_lock to protect
++u32	rtw_free_stainfo(_adapter *padapter , struct sta_info *psta)
++{	
++	int i;
++	_irqL irqL0;
++	_queue *pfree_sta_queue;
++	struct recv_reorder_ctrl *preorder_ctrl;
++	struct	sta_xmit_priv	*pstaxmitpriv;
++	struct	xmit_priv	*pxmitpriv= &padapter->xmitpriv;
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	struct hw_xmit *phwxmit;
++	
++
++_func_enter_;	
++	
++	if (psta == NULL)
++		goto exit;
++
++
++	_enter_critical_bh(&psta->lock, &irqL0);
++	psta->state &= ~_FW_LINKED;
++	_exit_critical_bh(&psta->lock, &irqL0);
++
++	pfree_sta_queue = &pstapriv->free_sta_queue;
++
++
++	pstaxmitpriv = &psta->sta_xmitpriv;
++	
++	//rtw_list_delete(&psta->sleep_list);
++	
++	//rtw_list_delete(&psta->wakeup_list);
++	
++	_enter_critical_bh(&pxmitpriv->lock, &irqL0);
++	
++	rtw_free_xmitframe_queue(pxmitpriv, &psta->sleep_q);
++	psta->sleepq_len = 0;
++	
++	//vo
++	//_enter_critical_bh(&(pxmitpriv->vo_pending.lock), &irqL0);
++	rtw_free_xmitframe_queue( pxmitpriv, &pstaxmitpriv->vo_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->vo_q.tx_pending));
++	phwxmit = pxmitpriv->hwxmits;
++	phwxmit->accnt -= pstaxmitpriv->vo_q.qcnt;
++	pstaxmitpriv->vo_q.qcnt = 0;
++	//_exit_critical_bh(&(pxmitpriv->vo_pending.lock), &irqL0);
++
++	//vi
++	//_enter_critical_bh(&(pxmitpriv->vi_pending.lock), &irqL0);
++	rtw_free_xmitframe_queue( pxmitpriv, &pstaxmitpriv->vi_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->vi_q.tx_pending));
++	phwxmit = pxmitpriv->hwxmits+1;
++	phwxmit->accnt -= pstaxmitpriv->vi_q.qcnt;
++	pstaxmitpriv->vi_q.qcnt = 0;
++	//_exit_critical_bh(&(pxmitpriv->vi_pending.lock), &irqL0);
++
++	//be
++	//_enter_critical_bh(&(pxmitpriv->be_pending.lock), &irqL0);
++	rtw_free_xmitframe_queue( pxmitpriv, &pstaxmitpriv->be_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->be_q.tx_pending));
++	phwxmit = pxmitpriv->hwxmits+2;
++	phwxmit->accnt -= pstaxmitpriv->be_q.qcnt;
++	pstaxmitpriv->be_q.qcnt = 0;
++	//_exit_critical_bh(&(pxmitpriv->be_pending.lock), &irqL0);
++	
++	//bk
++	//_enter_critical_bh(&(pxmitpriv->bk_pending.lock), &irqL0);
++	rtw_free_xmitframe_queue( pxmitpriv, &pstaxmitpriv->bk_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->bk_q.tx_pending));
++	phwxmit = pxmitpriv->hwxmits+3;
++	phwxmit->accnt -= pstaxmitpriv->bk_q.qcnt;
++	pstaxmitpriv->bk_q.qcnt = 0;
++	//_exit_critical_bh(&(pxmitpriv->bk_pending.lock), &irqL0);
++	
++	_exit_critical_bh(&pxmitpriv->lock, &irqL0);
++	
++	rtw_list_delete(&psta->hash_list);
++	RT_TRACE(_module_rtl871x_sta_mgt_c_,_drv_err_,("\n free number_%d stainfo  with hwaddr = 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x  \n",pstapriv->asoc_sta_count , psta->hwaddr[0], psta->hwaddr[1], psta->hwaddr[2],psta->hwaddr[3],psta->hwaddr[4],psta->hwaddr[5]));
++	pstapriv->asoc_sta_count --;
++	
++	
++	// re-init sta_info; 20061114 // will be init in alloc_stainfo
++	//_rtw_init_sta_xmit_priv(&psta->sta_xmitpriv);
++	//_rtw_init_sta_recv_priv(&psta->sta_recvpriv);
++
++	_cancel_timer_ex(&psta->addba_retry_timer);
++
++#ifdef CONFIG_TDLS
++	_cancel_timer_ex(&psta->TPK_timer);
++	_cancel_timer_ex(&psta->option_timer);
++	_cancel_timer_ex(&psta->base_ch_timer);
++	_cancel_timer_ex(&psta->off_ch_timer);
++	_cancel_timer_ex(&psta->alive_timer1);
++	_cancel_timer_ex(&psta->alive_timer2);
++#endif //CONFIG_TDLS
++
++	//for A-MPDU Rx reordering buffer control, cancel reordering_ctrl_timer
++	for(i=0; i < 16 ; i++)
++	{
++		_irqL irqL;
++		_list	*phead, *plist;
++		union recv_frame *prframe;
++		_queue *ppending_recvframe_queue;
++		_queue *pfree_recv_queue = &padapter->recvpriv.free_recv_queue;
++	
++		preorder_ctrl = &psta->recvreorder_ctrl[i];
++		
++		_cancel_timer_ex(&preorder_ctrl->reordering_ctrl_timer);		
++
++		
++		ppending_recvframe_queue = &preorder_ctrl->pending_recvframe_queue;
++
++		_enter_critical_bh(&ppending_recvframe_queue->lock, &irqL);
++
++		phead = 	get_list_head(ppending_recvframe_queue);
++		plist = get_next(phead);
++		
++		while(!rtw_is_list_empty(phead))
++		{	
++			prframe = LIST_CONTAINOR(plist, union recv_frame, u);
++			
++			plist = get_next(plist);
++			
++			rtw_list_delete(&(prframe->u.hdr.list));
++
++			rtw_free_recvframe(prframe, pfree_recv_queue);
++		}
++
++		_exit_critical_bh(&ppending_recvframe_queue->lock, &irqL);
++		
++	}
++
++
++#ifdef CONFIG_AP_MODE
++
++/*
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL0);
++	rtw_list_delete(&psta->asoc_list);	
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL0);
++*/
++	_enter_critical_bh(&pstapriv->auth_list_lock, &irqL0);
++	if (!rtw_is_list_empty(&psta->auth_list)) {
++		rtw_list_delete(&psta->auth_list);
++		pstapriv->auth_list_cnt--;
++	}
++	_exit_critical_bh(&pstapriv->auth_list_lock, &irqL0);
++	
++	psta->expire_to = 0;
++	
++	psta->sleepq_ac_len = 0;
++	psta->qos_info = 0;
++
++	psta->max_sp_len = 0;
++	psta->uapsd_bk = 0;
++	psta->uapsd_be = 0;
++	psta->uapsd_vi = 0;
++	psta->uapsd_vo = 0;
++
++	psta->has_legacy_ac = 0;
++
++#ifdef CONFIG_NATIVEAP_MLME
++	
++	pstapriv->sta_dz_bitmap &=~BIT(psta->aid);
++	pstapriv->tim_bitmap &=~BIT(psta->aid);	
++
++	//rtw_indicate_sta_disassoc_event(padapter, psta);
++
++	if ((psta->aid >0)&&(pstapriv->sta_aid[psta->aid - 1] == psta))
++	{
++		pstapriv->sta_aid[psta->aid - 1] = NULL;
++		psta->aid = 0;
++	}	
++
++#endif	// CONFIG_NATIVEAP_MLME	
++
++#ifdef CONFIG_TX_MCAST2UNI
++	psta->under_exist_checking = 0;
++#endif	// CONFIG_TX_MCAST2UNI
++
++#endif	// CONFIG_AP_MODE	
++
++	 _rtw_spinlock_free(&psta->lock);
++
++	//_enter_critical_bh(&(pfree_sta_queue->lock), &irqL0);
++	rtw_list_insert_tail(&psta->list, get_list_head(pfree_sta_queue));
++	//_exit_critical_bh(&(pfree_sta_queue->lock), &irqL0);
++
++exit:
++	
++_func_exit_;	
++
++	return _SUCCESS;
++	
++}
++
++// free all stainfo which in sta_hash[all]
++void rtw_free_all_stainfo(_adapter *padapter)
++{
++	_irqL	 irqL;
++	_list	*plist, *phead;
++	s32	index;
++	struct sta_info *psta = NULL;
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info* pbcmc_stainfo =rtw_get_bcmc_stainfo( padapter);
++	
++_func_enter_;	
++
++	if(pstapriv->asoc_sta_count==1)
++		goto exit;
++
++	_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++	for(index=0; index< NUM_STA; index++)
++	{
++		phead = &(pstapriv->sta_hash[index]);
++		plist = get_next(phead);
++		
++		while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
++		{
++			psta = LIST_CONTAINOR(plist, struct sta_info ,hash_list);
++
++			plist = get_next(plist);
++
++			if(pbcmc_stainfo!=psta)					
++				rtw_free_stainfo(padapter , psta);
++			
++		}
++	}
++	
++	_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++	
++exit:	
++	
++_func_exit_;	
++
++}
++
++/* any station allocated can be searched by hash list */
++struct sta_info *rtw_get_stainfo(struct sta_priv *pstapriv, u8 *hwaddr)
++{
++
++	_irqL	 irqL;
++
++	_list	*plist, *phead;
++
++	struct sta_info *psta = NULL;
++	
++	u32	index;
++
++	u8 *addr;
++
++	u8 bc_addr[ETH_ALEN] = {0xff,0xff,0xff,0xff,0xff,0xff};
++
++_func_enter_;
++
++	if(hwaddr==NULL)
++		return NULL;
++		
++	if(IS_MCAST(hwaddr))
++	{
++		addr = bc_addr;
++	}
++	else
++	{
++		addr = hwaddr;
++	}
++
++	index = wifi_mac_hash(addr);
++
++	_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++	
++	phead = &(pstapriv->sta_hash[index]);
++	plist = get_next(phead);
++
++
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
++	{
++	
++		psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++		
++		if ((_rtw_memcmp(psta->hwaddr, addr, ETH_ALEN))== _TRUE) 
++		{ // if found the matched address
++			break;
++		}
++		psta=NULL;
++		plist = get_next(plist);
++	}
++
++	_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++_func_exit_;	
++	return psta;
++	
++}
++
++u32 rtw_init_bcmc_stainfo(_adapter* padapter)
++{
++
++	struct sta_info 	*psta;
++	struct tx_servq	*ptxservq;
++	u32 res=_SUCCESS;
++	NDIS_802_11_MAC_ADDRESS	bcast_addr= {0xff,0xff,0xff,0xff,0xff,0xff};
++	
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	//_queue	*pstapending = &padapter->xmitpriv.bm_pending; 
++	
++_func_enter_;
++
++	psta = rtw_alloc_stainfo(pstapriv, bcast_addr);
++	
++	if(psta==NULL){
++		res=_FAIL;
++		RT_TRACE(_module_rtl871x_sta_mgt_c_,_drv_err_,("rtw_alloc_stainfo fail"));
++		goto exit;
++	}
++
++	// default broadcast & multicast use macid 1
++	psta->mac_id = 1;
++
++	ptxservq= &(psta->sta_xmitpriv.be_q);
++
++/*
++	_enter_critical(&pstapending->lock, &irqL0);
++
++	if (rtw_is_list_empty(&ptxservq->tx_pending))
++		rtw_list_insert_tail(&ptxservq->tx_pending, get_list_head(pstapending));
++
++	_exit_critical(&pstapending->lock, &irqL0);
++*/
++	
++exit:
++_func_exit_;		
++	return _SUCCESS;
++
++}
++
++
++struct sta_info* rtw_get_bcmc_stainfo(_adapter* padapter)
++{
++	struct sta_info 	*psta;
++	struct sta_priv 	*pstapriv = &padapter->stapriv;
++	u8 bc_addr[ETH_ALEN] = {0xff,0xff,0xff,0xff,0xff,0xff};
++_func_enter_;
++	 psta = rtw_get_stainfo(pstapriv, bc_addr);
++_func_exit_;		 
++	return psta;
++
++}
++
++u8 rtw_access_ctrl(_adapter *padapter, u8 *mac_addr)
++{
++	u8 res = _TRUE;
++#ifdef  CONFIG_AP_MODE
++	_irqL irqL;
++	_list	*plist, *phead;
++	struct rtw_wlan_acl_node *paclnode;
++	u8 match = _FALSE;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct wlan_acl_pool *pacl_list = &pstapriv->acl_list;
++	_queue	*pacl_node_q =&pacl_list->acl_node_q;
++	
++	_enter_critical_bh(&(pacl_node_q->lock), &irqL);
++	phead = get_list_head(pacl_node_q);
++	plist = get_next(phead);		
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
++	{
++		paclnode = LIST_CONTAINOR(plist, struct rtw_wlan_acl_node, list);
++		plist = get_next(plist);
++
++		if(_rtw_memcmp(paclnode->addr, mac_addr, ETH_ALEN))
++		{
++			if(paclnode->valid == _TRUE)
++			{
++				match = _TRUE;
++				break;
++			}
++		}		
++	}	
++	_exit_critical_bh(&(pacl_node_q->lock), &irqL);
++	
++
++	if(pacl_list->mode == 1)//accept unless in deny list
++	{
++		res = (match == _TRUE) ?  _FALSE:_TRUE;
++	}	
++	else if(pacl_list->mode == 2)//deny unless in accept list
++	{
++		res = (match == _TRUE) ?  _TRUE:_FALSE;
++	}
++	else
++	{
++		 res = _TRUE;
++	}		
++	
++#endif
++
++	return res;
++
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_tdls.c b/drivers/net/wireless/rtl8192cu/core/rtw_tdls.c
+new file mode 100755
+index 0000000..e8c4d4c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_tdls.c
+@@ -0,0 +1,2941 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_TDLS_C_
++
++#include <drv_types.h>
++#include <ethernet.h>
++#include <rtw_tdls.h>
++#include <wifi.h>
++
++#ifdef CONFIG_TDLS
++extern unsigned char MCS_rate_2R[16];
++extern unsigned char MCS_rate_1R[16];
++extern void process_wmmps_data(_adapter *padapter, union recv_frame *precv_frame);
++extern s32 rtw_dump_xframe(_adapter *padapter, struct xmit_frame *pxmitframe);
++
++void rtw_reset_tdls_info(_adapter* padapter)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	ptdlsinfo->ap_prohibited = _FALSE;
++	ptdlsinfo->setup_state = TDLS_STATE_NONE;
++	ptdlsinfo->sta_cnt = 0;
++	ptdlsinfo->sta_maximum = _FALSE;
++	ptdlsinfo->macid_index= 6;
++	ptdlsinfo->clear_cam= 0;
++	ptdlsinfo->ch_sensing = 0;
++	ptdlsinfo->cur_channel = 0;
++	ptdlsinfo->candidate_ch = 1;	//when inplement channel switching, default candidate channel is 1
++	ptdlsinfo->watchdog_count = 0;
++	ptdlsinfo->dev_discovered = 0;
++
++#ifdef CONFIG_WFD
++	ptdlsinfo->wfd_info = &padapter->wfd_info;
++#endif //CONFIG_WFD
++}
++
++int rtw_init_tdls_info(_adapter* padapter)
++{
++	int	res = _SUCCESS;
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	ptdlsinfo->enable = 1;
++	rtw_reset_tdls_info(padapter);
++
++	_rtw_spinlock_init(&ptdlsinfo->cmd_lock);
++	_rtw_spinlock_init(&ptdlsinfo->hdl_lock);
++
++	return res;
++
++}
++
++void rtw_free_tdls_info(struct tdls_info *ptdlsinfo)
++{
++	_rtw_spinlock_free(&ptdlsinfo->cmd_lock);
++	_rtw_spinlock_free(&ptdlsinfo->hdl_lock);
++
++	_rtw_memset(ptdlsinfo, 0, sizeof(struct tdls_info) );
++
++}
++
++void issue_nulldata_to_TDLS_peer_STA(_adapter *padapter, struct sta_info *ptdls_sta, unsigned int power_mode)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++//	SetToDs(fctrl);
++	if (power_mode)
++	{
++		SetPwrMgt(fctrl);
++	}
++
++	_rtw_memcpy(pwlanhdr->addr1, ptdls_sta->hwaddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	ptdls_sta->sta_xmitpriv.txseq_tid[pattrib->priority]++;
++	ptdls_sta->sta_xmitpriv.txseq_tid[pattrib->priority] &= 0xFFF;
++	pattrib->seqnum = ptdls_sta->sta_xmitpriv.txseq_tid[pattrib->priority];
++	SetSeqNum(pwlanhdr, pattrib->seqnum);
++
++	SetFrameSubType(pframe, WIFI_DATA_NULL);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++}
++
++s32 update_tdls_attrib(_adapter *padapter, struct pkt_attrib *pattrib)
++{
++
++	struct sta_info *psta = NULL;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct qos_priv		*pqospriv= &pmlmepriv->qospriv;
++
++	s32 res=_SUCCESS;
++	sint bmcast;
++
++	bmcast = IS_MCAST(pattrib->ra);
++	
++	psta = rtw_get_stainfo(pstapriv, pattrib->ra);
++	if (psta == NULL)	{ 
++		res =_FAIL;
++		goto exit;
++	}
++
++	pattrib->mac_id = psta->mac_id;
++				
++	pattrib->psta = psta;
++
++	pattrib->ack_policy = 0;
++	// get ether_hdr_len
++	pattrib->pkt_hdrlen = ETH_HLEN;//(pattrib->ether_type == 0x8100) ? (14 + 4 ): 14; //vlan tag
++
++	if (pqospriv->qos_option &&  psta->qos_option) {
++		pattrib->priority = 1;	//tdls management frame should be AC_BK
++		pattrib->hdrlen = WLAN_HDR_A3_QOS_LEN;
++		pattrib->subtype = WIFI_QOS_DATA_TYPE;
++	} else {
++		pattrib->hdrlen = WLAN_HDR_A3_LEN;
++		pattrib->subtype = WIFI_DATA_TYPE;	
++		pattrib->priority = 0;
++	}
++
++	if (psta->ieee8021x_blocked == _TRUE)
++	{
++		pattrib->encrypt = 0;
++	}
++	else
++	{
++		GET_ENCRY_ALGO(psecuritypriv, psta, pattrib->encrypt, bmcast);
++
++		switch(psecuritypriv->dot11AuthAlgrthm)
++		{
++			case dot11AuthAlgrthm_Open:
++			case dot11AuthAlgrthm_Shared:
++			case dot11AuthAlgrthm_Auto:				
++				pattrib->key_idx = (u8)psecuritypriv->dot11PrivacyKeyIndex;
++				break;
++			case dot11AuthAlgrthm_8021X:
++				pattrib->key_idx = 0;
++				break;
++			default:
++				pattrib->key_idx = 0;
++				break;
++		}
++	}
++
++	switch (pattrib->encrypt)
++	{
++		case _WEP40_:
++		case _WEP104_:
++			pattrib->iv_len = 4;
++			pattrib->icv_len = 4;
++			break;
++		case _TKIP_:
++			pattrib->iv_len = 8;
++			pattrib->icv_len = 4;
++			if(padapter->securitypriv.busetkipkey==_FAIL)
++			{
++				res =_FAIL;
++				goto exit;
++			}
++			break;			
++		case _AES_:
++			pattrib->iv_len = 8;
++			pattrib->icv_len = 8;
++			break;
++		default:
++			pattrib->iv_len = 0;
++			pattrib->icv_len = 0;
++			break;
++	}
++
++	if (pattrib->encrypt &&
++	    ((padapter->securitypriv.sw_encrypt == _TRUE) || (psecuritypriv->hw_decrypted == _FALSE)))
++	{
++		pattrib->bswenc = _TRUE;
++	} else {
++		pattrib->bswenc = _FALSE;
++	}
++
++	//qos_en, ht_en, init rate, ,bw, ch_offset, sgi
++	pattrib->qos_en = psta->qos_option;
++	pattrib->ht_en = psta->htpriv.ht_option;
++	pattrib->raid = psta->raid;
++	pattrib->bwmode = psta->htpriv.bwmode;
++	pattrib->ch_offset = psta->htpriv.ch_offset;
++	pattrib->sgi= psta->htpriv.sgi;
++	pattrib->ampdu_en = _FALSE;
++	
++	//if(pattrib->ht_en && psta->htpriv.ampdu_enable)
++	//{
++	//	if(psta->htpriv.agg_enable_bitmap & BIT(pattrib->priority))
++	//		pattrib->ampdu_en = _TRUE;
++	//}	
++
++exit:
++
++	return res;
++}
++
++void free_tdls_sta(_adapter *padapter, struct sta_info *ptdls_sta)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++   	struct sta_priv *pstapriv = &padapter->stapriv;
++	_irqL irqL;
++	
++	//free peer sta_info
++	_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);
++	if(ptdlsinfo->sta_cnt != 0)
++		ptdlsinfo->sta_cnt--;
++	_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);
++	if( ptdlsinfo->sta_cnt < (NUM_STA - 2) )	// -2: AP + BC/MC sta
++	{
++		ptdlsinfo->sta_maximum = _FALSE;
++		_rtw_memset( &ptdlsinfo->ss_record, 0x00, sizeof(struct tdls_ss_record) );
++	}
++	//ready to clear cam
++	if(ptdls_sta->mac_id!=0){
++		ptdlsinfo->clear_cam=ptdls_sta->mac_id;
++		rtw_setstakey_cmd(padapter, (u8 *)ptdls_sta, _TRUE);
++	}
++
++	if(ptdlsinfo->sta_cnt==0){
++		rtw_tdls_cmd(padapter, myid(&(padapter->eeprompriv)), TDLS_RS_RCR);
++		ptdlsinfo->setup_state=TDLS_STATE_NONE;
++	}
++	else
++		DBG_871X("Remain tdls sta:%02x\n", ptdlsinfo->sta_cnt);
++
++	rtw_free_stainfo(padapter,  ptdls_sta);
++	
++}
++
++// cam entry will be the same as mac_id
++void rtw_tdls_set_mac_id(struct tdls_info *ptdlsinfo, struct sta_info *ptdls_sta)
++{
++	if(ptdls_sta->mac_id==0)
++	{
++		ptdls_sta->mac_id = ptdlsinfo->macid_index;
++		if( (++ptdlsinfo->macid_index) > (NUM_STA -2) )
++			ptdlsinfo->macid_index= TDLS_INI_MACID_ENTRY;
++	}
++}
++
++//TDLS encryption(if needed) will always be CCMP
++void rtw_tdls_set_key(_adapter *adapter, struct rx_pkt_attrib *prx_pkt_attrib, struct sta_info *ptdls_sta)
++{
++	if(prx_pkt_attrib->encrypt)
++	{
++		ptdls_sta->dot118021XPrivacy=_AES_;
++		rtw_setstakey_cmd(adapter, (u8*)ptdls_sta, _TRUE);
++	}
++}
++
++void rtw_tdls_process_ht_cap(_adapter *adapter, struct sta_info *ptdls_sta, u8 *data, u8 Length)
++{
++	/* save HT capabilities in the sta object */
++	_rtw_memset(&ptdls_sta->htpriv.ht_cap, 0, sizeof(struct rtw_ieee80211_ht_cap));
++	if (data && Length >= sizeof(struct rtw_ieee80211_ht_cap) )
++	{
++		ptdls_sta->flags |= WLAN_STA_HT;
++		
++		ptdls_sta->flags |= WLAN_STA_WME;
++		
++		_rtw_memcpy(&ptdls_sta->htpriv.ht_cap, data, sizeof(struct rtw_ieee80211_ht_cap));			
++		
++	} else
++		ptdls_sta->flags &= ~WLAN_STA_HT;
++
++	if(ptdls_sta->flags & WLAN_STA_HT)
++	{
++		if(adapter->registrypriv.ht_enable == _TRUE)
++		{
++			ptdls_sta->htpriv.ht_option = _TRUE;
++		}
++		else
++		{
++			ptdls_sta->htpriv.ht_option = _FALSE;
++			ptdls_sta->stat_code = _STATS_FAILURE_;
++		}
++	}
++
++	//HT related cap
++	if(ptdls_sta->htpriv.ht_option)
++	{
++		//check if sta supports rx ampdu
++		if(adapter->registrypriv.ampdu_enable==1)
++			ptdls_sta->htpriv.ampdu_enable = _TRUE;
++
++		//check if sta support s Short GI
++		if(ptdls_sta->htpriv.ht_cap.cap_info & cpu_to_le16(IEEE80211_HT_CAP_SGI_20|IEEE80211_HT_CAP_SGI_40))
++		{
++			ptdls_sta->htpriv.sgi = _TRUE;
++		}
++
++		// bwmode would still followed AP's setting
++		if(ptdls_sta->htpriv.ht_cap.cap_info & cpu_to_le16(IEEE80211_HT_CAP_SUP_WIDTH))
++		{
++			ptdls_sta->htpriv.bwmode = adapter->mlmeextpriv.cur_bwmode;
++			ptdls_sta->htpriv.ch_offset = adapter->mlmeextpriv.cur_ch_offset;
++		}
++	}
++}
++
++u8 *rtw_tdls_set_ht_cap(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	struct rtw_ieee80211_ht_cap ht_capie;
++	u8 rf_type;
++
++	//HT capabilities
++	_rtw_memset(&ht_capie, 0, sizeof(struct rtw_ieee80211_ht_cap));
++
++	ht_capie.cap_info = IEEE80211_HT_CAP_SUP_WIDTH |IEEE80211_HT_CAP_SGI_20 |IEEE80211_HT_CAP_SM_PS |
++						IEEE80211_HT_CAP_SGI_40 | IEEE80211_HT_CAP_TX_STBC |IEEE80211_HT_CAP_DSSSCCK40;
++
++	{
++		u32 rx_packet_offset, max_recvbuf_sz;
++		rtw_hal_get_def_var(padapter, HAL_DEF_RX_PACKET_OFFSET, &rx_packet_offset);
++		rtw_hal_get_def_var(padapter, HAL_DEF_MAX_RECVBUF_SZ, &max_recvbuf_sz);
++		if(max_recvbuf_sz-rx_packet_offset>(8191-256))
++			ht_capie.cap_info = ht_capie.cap_info |IEEE80211_HT_CAP_MAX_AMSDU;
++	}
++	
++	ht_capie.ampdu_params_info = (IEEE80211_HT_CAP_AMPDU_FACTOR&0x03);
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++	switch(rf_type)
++	{
++		case RF_1T1R:
++			ht_capie.cap_info |= 0x0100;//RX STBC One spatial stream
++			_rtw_memcpy(ht_capie.supp_mcs_set, MCS_rate_1R, 16);
++			break;
++
++		case RF_2T2R:
++		case RF_1T2R:
++		default:
++			ht_capie.cap_info|= 0x0200;//RX STBC two spatial stream
++			_rtw_memcpy(ht_capie.supp_mcs_set, MCS_rate_2R, 16);
++			break;
++	}
++			
++	return(rtw_set_ie(pframe, _HT_CAPABILITY_IE_, 
++						sizeof(struct rtw_ieee80211_ht_cap), (unsigned char*)&ht_capie, &(pattrib->pktlen)));
++}
++
++u8 *rtw_tdls_set_sup_ch(struct mlme_ext_priv *pmlmeext, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	u8 sup_ch[ 30 * 2 ] = { 0x00 }, sup_ch_idx = 0, idx_5g = 2;	//For supported channel
++	do{
++		if( pmlmeext->channel_set[sup_ch_idx].ChannelNum <= 14 )
++		{
++			sup_ch[0] = 1;	//First channel number
++			sup_ch[1] = pmlmeext->channel_set[sup_ch_idx].ChannelNum;	//Number of channel
++		}
++		else
++		{
++			sup_ch[idx_5g++] = pmlmeext->channel_set[sup_ch_idx].ChannelNum;
++			sup_ch[idx_5g++] = 1;
++		}
++		
++		sup_ch_idx++;
++	}
++	while( pmlmeext->channel_set[sup_ch_idx].ChannelNum != 0 );
++	return(rtw_set_ie(pframe, _SUPPORTED_CH_IE_, idx_5g, sup_ch, &(pattrib->pktlen)));
++}
++
++#ifdef CONFIG_WFD
++void rtw_tdls_process_wfd_ie(struct tdls_info *ptdlsinfo, u8 *ptr, u8 length)
++{
++	u8	wfd_ie[ 128 ] = { 0x00 };
++	u32	wfd_ielen = 0;
++	u32	wfd_offset = 0;
++	//	Try to get the TCP port information when receiving the negotiation response.
++	//
++
++	wfd_offset = 0;
++	wfd_offset = rtw_get_wfd_ie( ptr + wfd_offset, length - wfd_offset, wfd_ie, &wfd_ielen );
++	while( wfd_offset )
++	{
++		u8	attr_content[ 10 ] = { 0x00 };
++		u32	attr_contentlen = 0;
++		int	i;
++
++		DBG_871X( "[%s] WFD IE Found!!\n", __FUNCTION__ );
++		rtw_get_wfd_attr_content( wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, attr_content, &attr_contentlen);
++		if ( attr_contentlen )
++		{
++			ptdlsinfo->wfd_info->peer_rtsp_ctrlport = RTW_GET_BE16( attr_content + 2 );
++			DBG_871X( "[%s] Peer PORT NUM = %d\n", __FUNCTION__, ptdlsinfo->wfd_info->peer_rtsp_ctrlport );
++		}
++
++		_rtw_memset( attr_content, 0x00, 10);
++		attr_contentlen = 0;
++		rtw_get_wfd_attr_content( wfd_ie, wfd_ielen, WFD_ATTR_LOCAL_IP_ADDR, attr_content, &attr_contentlen);
++		if ( attr_contentlen )
++		{
++			_rtw_memcpy(ptdlsinfo->wfd_info->peer_ip_address, ( attr_content + 1 ), 4);
++			DBG_871X( "[%s] Peer IP = %02u.%02u.%02u.%02u \n", __FUNCTION__, 
++				ptdlsinfo->wfd_info->peer_ip_address[0], ptdlsinfo->wfd_info->peer_ip_address[1],
++				ptdlsinfo->wfd_info->peer_ip_address[2], ptdlsinfo->wfd_info->peer_ip_address[3]
++				);
++		}
++		wfd_offset = rtw_get_wfd_ie( ptr + wfd_offset, length - wfd_offset, wfd_ie, &wfd_ielen );
++	}
++}
++
++void issue_tunneled_probe_req(_adapter *padapter)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	u8 baddr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff}; 
++
++	DBG_871X("[%s]\n", __FUNCTION__);
++	
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++	
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++	pattrib->pctrl =0;
++
++	_rtw_memcpy(pattrib->dst, baddr, ETH_ALEN);
++	
++	_rtw_memcpy(pattrib->src, myid(&(padapter->eeprompriv)), ETH_ALEN);
++
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel=pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, TUNNELED_PROBE_REQ) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++	rtw_dump_xframe(padapter, pmgntframe);
++
++exit:
++
++	return;
++}
++
++void issue_tunneled_probe_rsp(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct rx_pkt_attrib	*rx_pkt_pattrib = &precv_frame->u.hdr.attrib;
++
++	DBG_871X("[%s]\n", __FUNCTION__);
++	
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++	
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++	pattrib->pctrl =0;
++
++	_rtw_memcpy(pattrib->dst, rx_pkt_pattrib->src, ETH_ALEN);
++	
++	_rtw_memcpy(pattrib->src, myid(&(padapter->eeprompriv)), ETH_ALEN);
++
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel=pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, TUNNELED_PROBE_RSP) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++	rtw_dump_xframe(padapter, pmgntframe);
++
++exit:
++
++	return;
++}
++#endif //CONFIG_WFD
++
++void issue_tdls_setup_req(_adapter *padapter, u8 *mac_addr)
++{
++	struct tdls_info	*ptdlsinfo = &padapter->tdlsinfo;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++   	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *ptdls_sta= NULL;
++	_irqL irqL;
++	static u8 dialogtoken = 0;
++	u32 timeout_interval= TPK_RESEND_COUNT * 1000;	//retry timer should set at least 301 sec, using TPK_count counting 301 times.
++
++	if(ptdlsinfo->ap_prohibited == _TRUE)
++		goto exit;
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++	
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++	pattrib->pctrl =0;		
++
++	_rtw_memcpy(pattrib->dst, mac_addr, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, myid(&(padapter->eeprompriv)), ETH_ALEN);
++
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++
++	//init peer sta_info
++	ptdls_sta = rtw_get_stainfo(pstapriv, mac_addr);
++	if(ptdls_sta==NULL)
++	{
++		ptdls_sta = rtw_alloc_stainfo(pstapriv, mac_addr);
++		if(ptdls_sta)
++		{
++			_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);	
++			if(!(ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE))
++				ptdlsinfo->sta_cnt++;
++			_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);	
++			if( ptdlsinfo->sta_cnt == (NUM_STA - 2) )	// -2: AP + BC/MC sta
++			{
++				ptdlsinfo->sta_maximum  = _TRUE;
++			}
++		}
++		else
++		{
++			rtw_free_xmitbuf(pxmitpriv,pmgntframe->pxmitbuf);
++			rtw_free_xmitframe(pxmitpriv, pmgntframe);
++			goto exit;
++		}
++	}
++	
++	if(ptdls_sta){	
++		ptdls_sta->tdls_sta_state |= TDLS_RESPONDER_STATE;
++		//for tdls; ptdls_sta->aid is used to fill dialogtoken
++		ptdls_sta->dialog = dialogtoken;
++		dialogtoken = (dialogtoken+1)%256;
++		ptdls_sta->TDLS_PeerKey_Lifetime = timeout_interval;
++		_set_timer( &ptdls_sta->handshake_timer, TDLS_HANDSHAKE_TIME );
++	}
++
++	pattrib->qsel=pattrib->priority;
++	if(rtw_xmit_tdls_coalesce(padapter, pmgntframe, TDLS_SETUP_REQUEST) !=_SUCCESS ){
++		rtw_free_xmitbuf(pxmitpriv,pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++	rtw_dump_xframe(padapter, pmgntframe);
++
++exit:
++
++	return;
++}
++
++void issue_tdls_teardown(_adapter *padapter, u8 *mac_addr)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info	*ptdls_sta=NULL;
++	_irqL irqL;
++
++	ptdls_sta = rtw_get_stainfo(pstapriv, mac_addr);
++	if(ptdls_sta==NULL){
++		DBG_871X("issue tdls teardown unsuccessful\n");
++		return;
++	}else{
++		ptdls_sta->tdls_sta_state=TDLS_STATE_NONE;
++	}
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++	
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++	pattrib->pctrl =0;
++
++	_rtw_memcpy(pattrib->dst, mac_addr, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, myid(&(padapter->eeprompriv)), ETH_ALEN);
++
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel=pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, TDLS_TEARDOWN) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++	rtw_dump_xframe(padapter, pmgntframe);
++
++	if(ptdls_sta->tdls_sta_state & TDLS_CH_SWITCH_ON_STATE){
++		rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CS_OFF);
++	}
++	
++	if( ptdls_sta->timer_flag == 1 )
++	{
++		_enter_critical_bh(&(padapter->tdlsinfo.hdl_lock), &irqL);
++		ptdls_sta->timer_flag = 2;
++		_exit_critical_bh(&(padapter->tdlsinfo.hdl_lock), &irqL);
++	}
++	else
++		rtw_tdls_cmd(padapter, mac_addr, TDLS_FREE_STA );
++
++
++exit:
++
++	return;
++}
++
++void issue_tdls_dis_req(_adapter *padapter, u8 *mac_addr)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	u8 baddr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff}; 
++	
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++	
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++	pattrib->pctrl =0;
++
++	if(mac_addr == NULL)
++		_rtw_memcpy(pattrib->dst, baddr, ETH_ALEN);
++	else
++		_rtw_memcpy(pattrib->dst, mac_addr, ETH_ALEN);
++	
++	_rtw_memcpy(pattrib->src, myid(&(padapter->eeprompriv)), ETH_ALEN);
++
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel=pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, TDLS_DISCOVERY_REQUEST) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++	rtw_dump_xframe(padapter, pmgntframe);
++	DBG_871X("issue tdls dis req\n");
++
++exit:
++
++	return;
++}
++
++void issue_tdls_setup_rsp(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct rx_pkt_attrib	*rx_pkt_pattrib = &precv_frame->u.hdr.attrib;
++	_irqL irqL;
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++	
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++	pattrib->pctrl =0;
++
++	_rtw_memcpy(pattrib->dst, rx_pkt_pattrib->src, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, myid(&(padapter->eeprompriv)), ETH_ALEN);
++
++	_rtw_memcpy(pattrib->ra, rx_pkt_pattrib->bssid, ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel=pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, TDLS_SETUP_RESPONSE) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++	rtw_dump_xframe(padapter, pmgntframe);
++
++exit:
++
++	return;
++
++}
++
++void issue_tdls_setup_cfm(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct sta_info		*ptdls_sta=NULL;
++	_irqL irqL;
++
++	struct rx_pkt_attrib	*rx_pkt_pattrib = & precv_frame->u.hdr.attrib;
++	
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++	
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++	pattrib->pctrl =0;
++
++	_rtw_memcpy(pattrib->dst, rx_pkt_pattrib->src, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, myid(&(padapter->eeprompriv)), ETH_ALEN);
++
++	_rtw_memcpy(pattrib->ra, rx_pkt_pattrib->bssid, ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel=pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, TDLS_SETUP_CONFIRM) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;		
++	}
++
++	rtw_dump_xframe(padapter, pmgntframe);
++
++exit:
++
++	return;
++
++}
++
++//TDLS Discovery Response frame is a management action frame
++void issue_tdls_dis_rsp(_adapter *padapter, union recv_frame *precv_frame, u8 dialog)
++{
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	unsigned char			*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short		*fctrl;
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++
++	struct rx_pkt_attrib	*rx_pkt_pattrib = &precv_frame->u.hdr.attrib;
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	//	unicast probe request frame
++	_rtw_memcpy(pwlanhdr->addr1, rx_pkt_pattrib->src, ETH_ALEN);
++	_rtw_memcpy(pattrib->dst, pwlanhdr->addr1, ETH_ALEN);
++	
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pattrib->src, pwlanhdr->addr2, ETH_ALEN);
++
++	_rtw_memcpy(pwlanhdr->addr3, rx_pkt_pattrib->bssid, ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, pwlanhdr->addr3, ETH_ALEN);
++	
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof (struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof (struct rtw_ieee80211_hdr_3addr);
++	
++	rtw_build_tdls_dis_rsp_ies(padapter, pmgntframe, pframe, dialog);
++
++	pattrib->nr_frags = 1;
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++}
++
++void issue_tdls_peer_traffic_indication(_adapter *padapter, struct sta_info *ptdls_sta)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++
++	static u8 dialogtoken=0;
++	
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++	
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++	pattrib->pctrl =0;
++
++	_rtw_memcpy(pattrib->dst, ptdls_sta->hwaddr, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, myid(&(padapter->eeprompriv)), ETH_ALEN);
++
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	//for tdls; pattrib->nr_frags is used to fill dialogtoken
++	ptdls_sta->dialog = dialogtoken;
++	dialogtoken = (dialogtoken+1)%256;
++	//PTI frame's priority should be AC_VO
++	pattrib->priority = 7; 
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel=pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, TDLS_PEER_TRAFFIC_INDICATION) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++	rtw_dump_xframe(padapter, pmgntframe);
++	
++exit:
++
++	return;
++}
++
++void issue_tdls_ch_switch_req(_adapter *padapter, u8 *mac_addr)
++{
++	struct xmit_frame	*pmgntframe;
++	struct pkt_attrib	*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++	
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++	pattrib->pctrl =0;		
++
++	_rtw_memcpy(pattrib->dst, mac_addr, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, myid(&(padapter->eeprompriv)), ETH_ALEN);
++
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++
++	pattrib->qsel=pattrib->priority;
++	if(rtw_xmit_tdls_coalesce(padapter, pmgntframe, TDLS_CHANNEL_SWITCH_REQUEST) !=_SUCCESS ){
++		rtw_free_xmitbuf(pxmitpriv,pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++	rtw_dump_xframe(padapter, pmgntframe);
++
++exit:
++
++	return;
++}
++
++void issue_tdls_ch_switch_rsp(_adapter *padapter, u8 *mac_addr)
++{
++	struct xmit_frame	*pmgntframe;
++	struct pkt_attrib	*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++
++        _irqL irqL;	
++		
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++	
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++	pattrib->pctrl =0;		
++
++	_rtw_memcpy(pattrib->dst, mac_addr, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, myid(&(padapter->eeprompriv)), ETH_ALEN);
++
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++
++	pattrib->qsel=pattrib->priority;
++/*
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++	if(xmitframe_enqueue_for_tdls_sleeping_sta(padapter, pmgntframe)==_TRUE){
++		_exit_critical_bh(&pxmitpriv->lock, &irqL);
++		return _FALSE;
++	}
++*/
++	if(rtw_xmit_tdls_coalesce(padapter, pmgntframe, TDLS_CHANNEL_SWITCH_RESPONSE) !=_SUCCESS ){
++		rtw_free_xmitbuf(pxmitpriv,pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;	
++	}
++	rtw_dump_xframe(padapter, pmgntframe);
++
++exit:
++
++	return;
++}
++
++sint On_TDLS_Dis_Rsp(_adapter *adapter, union recv_frame *precv_frame)
++{
++	struct sta_info *ptdls_sta = NULL, *psta = rtw_get_stainfo(&(adapter->stapriv), get_bssid(&(adapter->mlmepriv)));
++	struct recv_priv *precvpriv = &(adapter->recvpriv);
++	u8 *ptr = precv_frame->u.hdr.rx_data, *psa;
++	struct rx_pkt_attrib *pattrib = &(precv_frame->u.hdr.attrib);
++	struct tdls_info *ptdlsinfo = &(adapter->tdlsinfo);
++	u8 empty_addr[ETH_ALEN] = { 0x00 };
++	int UndecoratedSmoothedPWDB;
++	
++
++	//WFDTDLS: for sigma test, not to setup direct link automatically
++	ptdlsinfo->dev_discovered = 1;
++	
++#ifdef CONFIG_TDLS_AUTOSETUP	
++	psa = get_sa(ptr);
++	ptdls_sta = rtw_get_stainfo(&(adapter->stapriv), psa);
++
++	if(ptdls_sta != NULL)
++	{
++		ptdls_sta->tdls_sta_state |= TDLS_ALIVE_STATE;
++
++		//Record the tdls sta with lowest signal strength
++		if( (ptdlsinfo->sta_maximum == _TRUE) && (ptdls_sta->alive_count >= 1) )
++		{
++			if( _rtw_memcmp(ptdlsinfo->ss_record.macaddr, empty_addr, ETH_ALEN) )
++			{
++				_rtw_memcpy(ptdlsinfo->ss_record.macaddr, psa, ETH_ALEN);
++				ptdlsinfo->ss_record.RxPWDBAll = pattrib->RxPWDBAll;
++			}
++			else
++			{
++				if( ptdlsinfo->ss_record.RxPWDBAll < pattrib->RxPWDBAll )
++				{
++					_rtw_memcpy(ptdlsinfo->ss_record.macaddr, psa, ETH_ALEN);
++					ptdlsinfo->ss_record.RxPWDBAll = pattrib->RxPWDBAll;
++				}
++			}
++	}
++
++	}
++	else
++	{
++		if( ptdlsinfo->sta_maximum == _TRUE)
++		{
++			if( _rtw_memcmp( ptdlsinfo->ss_record.macaddr, empty_addr, ETH_ALEN ) )
++			{
++				//All traffics are busy, do not set up another direct link.
++				return _FAIL;
++			}
++			else
++			{
++				if( pattrib->RxPWDBAll > ptdlsinfo->ss_record.RxPWDBAll )
++				{
++					issue_tdls_teardown(adapter, ptdlsinfo->ss_record.macaddr);
++				}
++				else
++				{
++					return _FAIL;
++				}
++			}
++		}
++
++		rtw_hal_get_def_var(adapter, HAL_DEF_UNDERCORATEDSMOOTHEDPWDB, &UndecoratedSmoothedPWDB);
++
++		if( pattrib->RxPWDBAll + TDLS_SIGNAL_THRESH >= UndecoratedSmoothedPWDB);
++		{
++			DBG_871X("pattrib->RxPWDBAll=%d, pdmpriv->UndecoratedSmoothedPWDB=%d\n", pattrib->RxPWDBAll, UndecoratedSmoothedPWDB);
++			issue_tdls_setup_req(adapter, psa);
++		}
++	}
++#endif //CONFIG_TDLS_AUTOSETUP
++
++	return _SUCCESS;
++}
++
++sint On_TDLS_Setup_Req(_adapter *adapter, union recv_frame *precv_frame)
++{
++	struct tdls_info *ptdlsinfo = &adapter->tdlsinfo;
++	u8 *psa, *pmyid;
++	struct sta_info *ptdls_sta= NULL;
++   	struct sta_priv *pstapriv = &adapter->stapriv;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct mlme_priv *pmlmepriv = &(adapter->mlmepriv);
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++	_irqL irqL;
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	u8 *prsnie, *ppairwise_cipher;
++	u8 i, k, pairwise_count;
++	u8 ccmp_have=0, rsnie_have=0;
++	u16 j;
++	u8 SNonce[32];
++	u32 *timeout_interval;
++	sint parsing_length;	//frame body length, without icv_len
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 FIXED_IE = 5;
++	unsigned char		supportRate[16];
++	int				supportRateNum = 0;
++
++	psa = get_sa(ptr);
++	ptdls_sta = rtw_get_stainfo(pstapriv, psa);
++
++	pmyid=myid(&(adapter->eeprompriv));
++	ptr +=prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len+LLC_HEADER_SIZE+TYPE_LENGTH_FIELD_SIZE+1;
++	parsing_length= ((union recv_frame *)precv_frame)->u.hdr.len
++			-prx_pkt_attrib->hdrlen
++			-prx_pkt_attrib->iv_len
++			-prx_pkt_attrib->icv_len
++			-LLC_HEADER_SIZE
++			-ETH_TYPE_LEN
++			-PAYLOAD_TYPE_LEN
++			-FIXED_IE;
++
++	if(ptdlsinfo->ap_prohibited == _TRUE)
++	{
++		goto exit;
++	}
++
++	if(ptdls_sta==NULL){
++		ptdls_sta = rtw_alloc_stainfo(pstapriv, psa);
++	}else{
++		if(ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE){
++			//If the direct link is already set up
++			//Process as re-setup after tear down
++			DBG_871X("re-setup a direct link\n");
++		}
++		//already receiving TDLS setup request
++		else if(ptdls_sta->tdls_sta_state & TDLS_INITIATOR_STATE){
++			DBG_871X("receive duplicated TDLS setup request frame in handshaking\n");
++			goto exit;
++		}
++		//When receiving and sending setup_req to the same link at the same time, STA with higher MAC_addr would be initiator
++		//following is to check out MAC_addr
++		else if(ptdls_sta->tdls_sta_state & TDLS_RESPONDER_STATE){
++			DBG_871X("receive setup_req after sending setup_req\n");
++			for (i=0;i<6;i++){
++				if(*(pmyid+i)==*(psa+i)){
++				}
++				else if(*(pmyid+i)>*(psa+i)){
++					goto exit;
++				}else if(*(pmyid+i)<*(psa+i)){
++					ptdls_sta->tdls_sta_state=TDLS_INITIATOR_STATE;
++					break;
++				}
++			}
++		}
++	}
++
++	if(ptdls_sta) 
++	{
++		ptdls_sta->dialog = *(ptr+2);	//copy dialog token
++		ptdls_sta->stat_code = 0;
++
++		//parsing information element
++		for(j=FIXED_IE; j<parsing_length;){
++
++			pIE = (PNDIS_802_11_VARIABLE_IEs)(ptr+ j);
++
++			switch (pIE->ElementID)
++			{
++				case _SUPPORTEDRATES_IE_:
++					_rtw_memcpy(supportRate, pIE->data, pIE->Length);
++					supportRateNum = pIE->Length;
++					break;
++				case _COUNTRY_IE_:
++					break;
++				case _EXT_SUPPORTEDRATES_IE_:
++					if(supportRateNum<=sizeof(supportRate))
++					{
++						_rtw_memcpy(supportRate+supportRateNum, pIE->data, pIE->Length);
++						supportRateNum += pIE->Length;
++					}
++					break;
++				case _SUPPORTED_CH_IE_:
++					break;
++				case _RSN_IE_2_:
++					rsnie_have=1;
++					if(prx_pkt_attrib->encrypt){
++						prsnie=(u8*)pIE;
++						//check whether initiator STA has CCMP pairwise_cipher.
++						ppairwise_cipher=prsnie+10;
++						_rtw_memcpy(&pairwise_count, (u16*)(ppairwise_cipher-2), 1);
++						for(k=0;k<pairwise_count;k++){
++							if(_rtw_memcmp( ppairwise_cipher+4*k, RSN_CIPHER_SUITE_CCMP, 4)==_TRUE)
++								ccmp_have=1;
++						}
++						if(ccmp_have==0){
++							//invalid contents of RSNIE
++							ptdls_sta->stat_code=72;
++						}
++					}
++					break;
++				case _EXT_CAP_IE_:
++					break;
++				case _VENDOR_SPECIFIC_IE_:
++					break;
++				case _FTIE_:
++					if(prx_pkt_attrib->encrypt)
++						_rtw_memcpy(SNonce, (ptr+j+52), 32);
++					break;
++				case _TIMEOUT_ITVL_IE_:
++					if(prx_pkt_attrib->encrypt)
++						timeout_interval = (u32 *)(ptr+j+3);
++					break;
++				case _RIC_Descriptor_IE_:
++					break;
++				case _HT_CAPABILITY_IE_:
++					rtw_tdls_process_ht_cap(adapter, ptdls_sta, pIE->data, pIE->Length);
++					break;
++				case EID_BSSCoexistence:
++					break;
++				case _LINK_ID_IE_:
++					if(_rtw_memcmp(get_bssid(pmlmepriv), pIE->data, 6) == _FALSE)
++					{
++						//not in the same BSS
++						ptdls_sta->stat_code=7;
++					}
++					break;
++				default:
++					break;
++			}
++
++			j += (pIE->Length + 2);
++			
++		}
++
++		//update station supportRate	
++		ptdls_sta->bssratelen = supportRateNum;
++		_rtw_memcpy(ptdls_sta->bssrateset, supportRate, supportRateNum);
++
++		//check status code
++		//if responder STA has/hasn't security on AP, but request hasn't/has RSNIE, it should reject
++		if(ptdls_sta->stat_code == 0 )
++		{
++			if(rsnie_have && (prx_pkt_attrib->encrypt==0)){
++				//security disabled
++				ptdls_sta->stat_code = 5;
++			}else if(rsnie_have==0 && (prx_pkt_attrib->encrypt)){
++				//request haven't RSNIE
++				ptdls_sta->stat_code = 38;
++			}
++
++#ifdef CONFIG_WFD
++			//WFD test plan version 0.18.2 test item 5.1.5
++			//SoUT does not use TDLS if AP uses weak security
++			if ( adapter->wdinfo.wfd_tdls_enable )
++			{
++				if(rsnie_have && (prx_pkt_attrib->encrypt != _AES_))
++				{
++					ptdls_sta->stat_code = 5;
++				}
++			}
++#endif //CONFIG_WFD
++		}
++
++		ptdls_sta->tdls_sta_state|= TDLS_INITIATOR_STATE;
++		if(prx_pkt_attrib->encrypt){
++			_rtw_memcpy(ptdls_sta->SNonce, SNonce, 32);
++			_rtw_memcpy(&(ptdls_sta->TDLS_PeerKey_Lifetime), timeout_interval, 4);
++		}
++		_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		
++		if(!(ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE))
++			ptdlsinfo->sta_cnt++;
++		_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);	
++		if( ptdlsinfo->sta_cnt == (NUM_STA - 2) )	// -2: AP + BC/MC sta
++		{
++			ptdlsinfo->sta_maximum = _TRUE;
++		}
++
++#ifdef CONFIG_WFD
++		rtw_tdls_process_wfd_ie(ptdlsinfo, ptr + FIXED_IE, parsing_length - FIXED_IE);
++#endif // CONFIG_WFD
++
++	}
++	else
++	{
++		goto exit;
++	}
++
++ 	issue_tdls_setup_rsp(adapter, precv_frame);
++
++	if(ptdls_sta->stat_code==0)
++	{
++		_set_timer( &ptdls_sta->handshake_timer, TDLS_HANDSHAKE_TIME);
++	}
++	else		//status code!=0 ; setup unsuccess
++	{
++		free_tdls_sta(adapter, ptdls_sta);
++	}
++		
++exit:
++	
++	return _FAIL;
++}
++
++sint On_TDLS_Setup_Rsp(_adapter *adapter, union recv_frame *precv_frame)
++{
++	struct tdls_info *ptdlsinfo = &adapter->tdlsinfo;
++	struct sta_info *ptdls_sta= NULL;
++   	struct sta_priv *pstapriv = &adapter->stapriv;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	_irqL irqL;
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	u8 *psa;
++	u16 stat_code;
++	sint parsing_length;	//frame body length, without icv_len
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 FIXED_IE =7;
++	u8  *pftie, *ptimeout_ie, *plinkid_ie, *prsnie, *pftie_mic, *ppairwise_cipher;
++	u16 pairwise_count, j, k;
++	u8 verify_ccmp=0;
++	unsigned char		supportRate[16];
++	int				supportRateNum = 0;
++
++	psa = get_sa(ptr);
++	ptdls_sta = rtw_get_stainfo(pstapriv, psa);
++
++	if ( NULL == ptdls_sta )
++	{
++		return _FAIL;
++	}
++
++	ptr +=prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len+LLC_HEADER_SIZE+TYPE_LENGTH_FIELD_SIZE+1;
++	parsing_length= ((union recv_frame *)precv_frame)->u.hdr.len
++			-prx_pkt_attrib->hdrlen
++			-prx_pkt_attrib->iv_len
++			-prx_pkt_attrib->icv_len
++			-LLC_HEADER_SIZE
++			-TYPE_LENGTH_FIELD_SIZE
++			-1
++			-FIXED_IE;
++
++	_rtw_memcpy(&stat_code, ptr+2, 2);
++	
++	if(stat_code!=0)
++	{
++		DBG_871X( "[%s] status_code = %d, free_tdls_sta\n", __FUNCTION__, stat_code );
++		free_tdls_sta(adapter, ptdls_sta);
++		return _FAIL;
++	}
++
++	stat_code = 0;
++
++	//parsing information element
++	for(j=FIXED_IE; j<parsing_length;)
++	{
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(ptr+ j);
++
++		switch (pIE->ElementID)
++		{
++			case _SUPPORTEDRATES_IE_:
++				_rtw_memcpy(supportRate, pIE->data, pIE->Length);
++				supportRateNum = pIE->Length;
++				break;
++			case _COUNTRY_IE_:
++				break;
++			case _EXT_SUPPORTEDRATES_IE_:
++				if(supportRateNum<=sizeof(supportRate))
++				{
++					_rtw_memcpy(supportRate+supportRateNum, pIE->data, pIE->Length);
++					supportRateNum += pIE->Length;
++				}
++				break;
++			case _SUPPORTED_CH_IE_:
++				break;
++			case _RSN_IE_2_:
++				prsnie=(u8*)pIE;
++				//check whether responder STA has CCMP pairwise_cipher.
++				ppairwise_cipher=prsnie+10;
++				_rtw_memcpy(&pairwise_count, (u16*)(ppairwise_cipher-2), 2);
++				for(k=0;k<pairwise_count;k++){
++					if(_rtw_memcmp( ppairwise_cipher+4*k, RSN_CIPHER_SUITE_CCMP, 4)==_TRUE)
++						verify_ccmp=1;
++				}
++			case _EXT_CAP_IE_:
++				break;
++			case _VENDOR_SPECIFIC_IE_:
++				break;
++			case _FTIE_:
++				pftie=(u8*)pIE;
++				_rtw_memcpy(ptdls_sta->ANonce, (ptr+j+20), 32);
++				break;
++			case _TIMEOUT_ITVL_IE_:
++				ptimeout_ie=(u8*)pIE;
++				break;
++			case _RIC_Descriptor_IE_:
++				break;
++			case _HT_CAPABILITY_IE_:
++				rtw_tdls_process_ht_cap(adapter, ptdls_sta, pIE->data, pIE->Length);
++				break;
++			case EID_BSSCoexistence:
++				break;
++			case _LINK_ID_IE_:
++				plinkid_ie=(u8*)pIE;
++				break;
++			default:
++				break;
++		}
++
++		j += (pIE->Length + 2);
++		
++	}
++
++	//update station supportRate	
++	ptdls_sta->bssratelen = supportRateNum;
++	_rtw_memcpy(ptdls_sta->bssrateset, supportRate, supportRateNum);
++
++#ifdef CONFIG_WFD
++	rtw_tdls_process_wfd_ie(ptdlsinfo, ptr + FIXED_IE, parsing_length - FIXED_IE);
++#endif // CONFIG_WFD
++
++	if(stat_code != 0)
++	{
++		ptdls_sta->stat_code = stat_code;
++	}
++	else
++	{
++		if(prx_pkt_attrib->encrypt)
++		{
++			if(verify_ccmp==1)
++			{
++				wpa_tdls_generate_tpk(adapter, ptdls_sta);
++				ptdls_sta->stat_code=0;
++				if(tdls_verify_mic(ptdls_sta->tpk.kck, 2, plinkid_ie, prsnie, ptimeout_ie, pftie)==0)	//0: Invalid, 1: valid
++				{
++					free_tdls_sta(adapter, ptdls_sta);
++					return _FAIL;
++				}
++			}
++			else
++			{
++				ptdls_sta->stat_code=72;	//invalide contents of RSNIE
++			}
++
++		}else{
++			ptdls_sta->stat_code=0;
++		}
++	}
++
++	DBG_871X("issue_tdls_setup_cfm\n");
++	issue_tdls_setup_cfm(adapter, precv_frame);
++
++	if(ptdls_sta->stat_code==0)
++	{
++		ptdlsinfo->setup_state = TDLS_LINKED_STATE;
++
++		if( ptdls_sta->tdls_sta_state & TDLS_RESPONDER_STATE )
++		{
++			ptdls_sta->tdls_sta_state |= TDLS_LINKED_STATE;
++			_cancel_timer_ex( &ptdls_sta->handshake_timer);
++#ifdef CONFIG_TDLS_AUTOCHECKALIVE
++			_set_timer( &ptdls_sta->alive_timer1, TDLS_ALIVE_TIMER_PH1);
++#endif //CONFIG_TDLS_AUTOSETUP
++		}
++
++		rtw_tdls_set_mac_id(ptdlsinfo, ptdls_sta);
++		rtw_tdls_set_key(adapter, prx_pkt_attrib, ptdls_sta);
++
++		rtw_tdls_cmd(adapter, ptdls_sta->hwaddr, TDLS_WRCR);
++
++	}
++	else //status code!=0 ; setup unsuccessful
++	{
++		free_tdls_sta(adapter, ptdls_sta);
++	}
++
++	return _FAIL;
++
++}
++
++sint On_TDLS_Setup_Cfm(_adapter *adapter, union recv_frame *precv_frame)
++{
++	struct tdls_info *ptdlsinfo = &adapter->tdlsinfo;
++	struct sta_info *ptdls_sta= NULL;
++   	struct sta_priv *pstapriv = &adapter->stapriv;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	_irqL irqL;
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	u8 *psa; 
++	u16 stat_code;
++	sint parsing_length;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 FIXED_IE =5;
++	u8  *pftie, *ptimeout_ie, *plinkid_ie, *prsnie, *pftie_mic, *ppairwise_cipher;
++	u16 j, pairwise_count;
++
++	psa = get_sa(ptr);
++	ptdls_sta = rtw_get_stainfo(pstapriv, psa);
++
++	ptr +=prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len+LLC_HEADER_SIZE+TYPE_LENGTH_FIELD_SIZE+1;
++	parsing_length= ((union recv_frame *)precv_frame)->u.hdr.len
++			-prx_pkt_attrib->hdrlen
++			-prx_pkt_attrib->iv_len
++			-prx_pkt_attrib->icv_len
++			-LLC_HEADER_SIZE
++			-ETH_TYPE_LEN
++			-PAYLOAD_TYPE_LEN
++			-FIXED_IE;
++	_rtw_memcpy(&stat_code, ptr+2, 2);
++
++	if(stat_code!=0){
++		DBG_871X( "[%s] stat_code = %d\n, free_tdls_sta", __FUNCTION__, stat_code );
++		free_tdls_sta(adapter, ptdls_sta);
++		return _FAIL;
++	}
++
++	if(prx_pkt_attrib->encrypt){
++		//parsing information element
++		for(j=FIXED_IE; j<parsing_length;){
++
++			pIE = (PNDIS_802_11_VARIABLE_IEs)(ptr+ j);
++
++			switch (pIE->ElementID)
++			{
++				case _RSN_IE_2_:
++					prsnie=(u8*)pIE;
++					break;
++				case _VENDOR_SPECIFIC_IE_:
++					break;
++	 			case _FTIE_:
++					pftie=(u8*)pIE;
++					break;
++				case _TIMEOUT_ITVL_IE_:
++					ptimeout_ie=(u8*)pIE;
++					break;
++				case _HT_EXTRA_INFO_IE_:
++					break;
++	 			case _LINK_ID_IE_:
++					plinkid_ie=(u8*)pIE;
++					break;
++				default:
++					break;
++			}
++
++			j += (pIE->Length + 2);
++			
++		}
++
++		//verify mic in FTIE MIC field
++		if(tdls_verify_mic(ptdls_sta->tpk.kck, 3, plinkid_ie, prsnie, ptimeout_ie, pftie)==0){	//0: Invalid, 1: Valid
++			free_tdls_sta(adapter, ptdls_sta);
++			return _FAIL;
++		}
++
++	}
++
++	ptdlsinfo->setup_state = TDLS_LINKED_STATE;
++	if( ptdls_sta->tdls_sta_state & TDLS_INITIATOR_STATE )
++	{
++		ptdls_sta->tdls_sta_state|=TDLS_LINKED_STATE;
++		_cancel_timer_ex( &ptdls_sta->handshake_timer);
++#ifdef CONFIG_TDLS_AUTOCHECKALIVE
++		_set_timer( &ptdls_sta->alive_timer1, TDLS_ALIVE_TIMER_PH1);
++#endif //CONFIG_TDLS_AUTOCHECKALIVE
++	}
++
++	rtw_tdls_set_mac_id(ptdlsinfo, ptdls_sta);
++	rtw_tdls_set_key(adapter, prx_pkt_attrib, ptdls_sta);
++
++	rtw_tdls_cmd(adapter, ptdls_sta->hwaddr, TDLS_WRCR);
++	
++	return _FAIL;
++
++}
++
++sint On_TDLS_Dis_Req(_adapter *adapter, union recv_frame *precv_frame)
++{
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	struct sta_priv *pstapriv = &adapter->stapriv;
++	struct sta_info *psta_ap;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	sint parsing_length;	//frame body length, without icv_len
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 FIXED_IE = 3, *dst, *pdialog = NULL;
++	u16 j;
++
++	ptr +=prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len + LLC_HEADER_SIZE+TYPE_LENGTH_FIELD_SIZE + 1;
++	pdialog=ptr+2;
++
++	parsing_length= ((union recv_frame *)precv_frame)->u.hdr.len
++			-prx_pkt_attrib->hdrlen
++			-prx_pkt_attrib->iv_len
++			-prx_pkt_attrib->icv_len
++			-LLC_HEADER_SIZE
++			-TYPE_LENGTH_FIELD_SIZE
++			-1
++			-FIXED_IE;
++
++	//parsing information element
++	for(j=FIXED_IE; j<parsing_length;){
++
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(ptr+ j);
++
++		switch (pIE->ElementID)
++		{
++			case _LINK_ID_IE_:
++				psta_ap = rtw_get_stainfo(pstapriv, pIE->data);
++				if(psta_ap == NULL)
++				{
++					goto exit;
++				}
++				dst = pIE->data + 12;
++				if( (MacAddr_isBcst(dst) == _FALSE) && (_rtw_memcmp(myid(&(adapter->eeprompriv)), dst, 6) == _FALSE) )
++				{
++					goto exit;
++				}
++				break;
++			default:
++				break;
++		}
++
++		j += (pIE->Length + 2);
++		
++	}
++
++	//check frame contents
++
++	issue_tdls_dis_rsp(adapter, precv_frame, *(pdialog) );
++
++exit:
++
++	return _FAIL;
++	
++}
++
++sint On_TDLS_Teardown(_adapter *adapter, union recv_frame *precv_frame)
++{
++	u8 *psa;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	struct mlme_ext_priv	*pmlmeext = &(adapter->mlmeextpriv);	
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_priv 	*pstapriv = &adapter->stapriv;
++	struct sta_info *ptdls_sta= NULL;
++	_irqL irqL;
++
++	psa = get_sa(ptr);
++
++	ptdls_sta = rtw_get_stainfo(pstapriv, psa);
++	if(ptdls_sta!=NULL){
++		if(ptdls_sta->tdls_sta_state & TDLS_CH_SWITCH_ON_STATE){
++			rtw_tdls_cmd(adapter, ptdls_sta->hwaddr, TDLS_CS_OFF);
++		}
++		free_tdls_sta(adapter, ptdls_sta);
++	}
++		
++	return _FAIL;
++	
++}
++
++u8 TDLS_check_ch_state(uint state){
++	if(	(state & TDLS_CH_SWITCH_ON_STATE) &&
++		(state & TDLS_AT_OFF_CH_STATE) &&
++		(state & TDLS_PEER_AT_OFF_STATE) ){
++
++		if(state & TDLS_PEER_SLEEP_STATE)
++			return 2;	//U-APSD + ch. switch
++		else
++			return 1;	//ch. switch
++	}else
++		return 0;
++}
++
++//we process buffered data for 1. U-APSD, 2. ch. switch, 3. U-APSD + ch. switch here
++sint On_TDLS_Peer_Traffic_Rsp(_adapter *adapter, union recv_frame *precv_frame)
++{
++	struct tdls_info *ptdlsinfo = &adapter->tdlsinfo;
++	struct mlme_ext_priv *pmlmeext = &adapter->mlmeextpriv;
++	struct rx_pkt_attrib	*pattrib = & precv_frame->u.hdr.attrib;
++	struct sta_priv *pstapriv = &adapter->stapriv;
++	//get peer sta infomation
++	struct sta_info *ptdls_sta = rtw_get_stainfo(pstapriv, pattrib->src);
++	u8 wmmps_ac=0, state=TDLS_check_ch_state(ptdls_sta->tdls_sta_state);
++	int i;
++	
++	ptdls_sta->sta_stats.rx_data_pkts++;
++
++	//receive peer traffic response frame, sleeping STA wakes up
++	//ptdls_sta->tdls_sta_state &= ~(TDLS_PEER_SLEEP_STATE);
++	process_wmmps_data( adapter, precv_frame);
++
++	// if noticed peer STA wakes up by receiving peer traffic response
++	// and we want to do channel swtiching, then we will transmit channel switch request first
++	if(ptdls_sta->tdls_sta_state & TDLS_APSD_CHSW_STATE){
++		issue_tdls_ch_switch_req(adapter, pattrib->src);
++		ptdls_sta->tdls_sta_state &= ~(TDLS_APSD_CHSW_STATE);
++		return  _FAIL;
++	}
++
++	//check 4-AC queue bit
++	if(ptdls_sta->uapsd_vo || ptdls_sta->uapsd_vi || ptdls_sta->uapsd_be || ptdls_sta->uapsd_bk)
++		wmmps_ac=1;
++
++	//if it's a direct link and have buffered frame
++	if(ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE){
++		if(wmmps_ac && state)
++		{
++			_irqL irqL;	 
++			_list	*xmitframe_plist, *xmitframe_phead;
++			struct xmit_frame *pxmitframe=NULL;
++		
++			_enter_critical_bh(&ptdls_sta->sleep_q.lock, &irqL);	
++
++			xmitframe_phead = get_list_head(&ptdls_sta->sleep_q);
++			xmitframe_plist = get_next(xmitframe_phead);
++
++			//transmit buffered frames
++			while ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE)
++			{			
++				pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++				xmitframe_plist = get_next(xmitframe_plist);
++				rtw_list_delete(&pxmitframe->list);
++
++				ptdls_sta->sleepq_len--;
++				if(ptdls_sta->sleepq_len>0){
++					pxmitframe->attrib.mdata = 1;
++					pxmitframe->attrib.eosp = 0;
++				}else{
++					pxmitframe->attrib.mdata = 0;
++					pxmitframe->attrib.eosp = 1;
++				}
++				//pxmitframe->attrib.triggered = 1;	//maybe doesn't need in TDLS
++				if(rtw_hal_xmit(adapter, pxmitframe) == _TRUE)
++				{		
++					rtw_os_xmit_complete(adapter, pxmitframe);
++				}
++
++			}
++
++			if(ptdls_sta->sleepq_len==0)
++			{
++				DBG_871X("no buffered packets for tdls to xmit\n");
++				//on U-APSD + CH. switch state, when there is no buffered date to xmit,
++				// we should go back to base channel
++				if(state==2){
++					rtw_tdls_cmd(adapter, ptdls_sta->hwaddr, TDLS_CS_OFF);
++				}else if(ptdls_sta->tdls_sta_state&TDLS_SW_OFF_STATE){
++						ptdls_sta->tdls_sta_state &= ~(TDLS_SW_OFF_STATE);
++						ptdlsinfo->candidate_ch= pmlmeext->cur_channel;
++						issue_tdls_ch_switch_req(adapter, pattrib->src);
++						DBG_871X("issue tdls ch switch req back to base channel\n");
++				}
++				
++			}
++			else
++			{
++				DBG_871X("error!psta->sleepq_len=%d\n", ptdls_sta->sleepq_len);
++				ptdls_sta->sleepq_len=0;						
++			}
++
++			_exit_critical_bh(&ptdls_sta->sleep_q.lock, &irqL);			
++		
++		}
++
++	}
++
++	return _FAIL;
++}
++
++sint On_TDLS_Ch_Switch_Req(_adapter *adapter, union recv_frame *precv_frame)
++{
++	struct sta_info *ptdls_sta= NULL;
++   	struct sta_priv *pstapriv = &adapter->stapriv;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	u8 *psa; 
++	sint parsing_length;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 FIXED_IE =3;
++	u16 j;
++	struct mlme_ext_priv *pmlmeext = &adapter->mlmeextpriv;
++
++	psa = get_sa(ptr);
++	ptdls_sta = rtw_get_stainfo(pstapriv, psa);
++	
++	ptr +=prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len+LLC_HEADER_SIZE+TYPE_LENGTH_FIELD_SIZE+1;
++	parsing_length= ((union recv_frame *)precv_frame)->u.hdr.len
++			-prx_pkt_attrib->hdrlen
++			-prx_pkt_attrib->iv_len
++			-prx_pkt_attrib->icv_len
++			-LLC_HEADER_SIZE
++			-ETH_TYPE_LEN
++			-PAYLOAD_TYPE_LEN
++			-FIXED_IE;
++
++	ptdls_sta->off_ch = *(ptr+2);
++	
++	//parsing information element
++	for(j=FIXED_IE; j<parsing_length;){
++
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(ptr+ j);
++
++		switch (pIE->ElementID)
++		{
++			case _COUNTRY_IE_:
++				break;
++			case _CH_SWTICH_ANNOUNCE_:
++				break;
++ 			case _LINK_ID_IE_:
++				break;
++			case _CH_SWITCH_TIMING_:
++				_rtw_memcpy(&ptdls_sta->ch_switch_time, pIE->data, 2);
++				_rtw_memcpy(&ptdls_sta->ch_switch_timeout, pIE->data+2, 2);
++			default:
++				break;
++		}
++
++		j += (pIE->Length + 2);
++		
++	}
++
++	//todo: check status
++	ptdls_sta->stat_code=0;
++	ptdls_sta->tdls_sta_state |= TDLS_CH_SWITCH_ON_STATE;
++
++	issue_nulldata(adapter, NULL, 1, 0, 0);
++
++	issue_tdls_ch_switch_rsp(adapter, psa);
++
++	DBG_871X("issue tdls channel switch response\n");
++
++	if((ptdls_sta->tdls_sta_state & TDLS_CH_SWITCH_ON_STATE) && ptdls_sta->off_ch==pmlmeext->cur_channel){
++		DBG_871X("back to base channel %x\n", pmlmeext->cur_channel);
++		ptdls_sta->option=7;
++		rtw_tdls_cmd(adapter, ptdls_sta->hwaddr, TDLS_BASE_CH);
++	}else{		
++		ptdls_sta->option=6;
++		rtw_tdls_cmd(adapter, ptdls_sta->hwaddr, TDLS_OFF_CH);
++	}
++	return _FAIL;
++}
++
++sint On_TDLS_Ch_Switch_Rsp(_adapter *adapter, union recv_frame *precv_frame)
++{
++	struct sta_info *ptdls_sta= NULL;
++   	struct sta_priv *pstapriv = &adapter->stapriv;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	u8 *psa; 
++	sint parsing_length;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 FIXED_IE =4;
++	u16 stat_code, j, switch_time, switch_timeout;
++	struct mlme_ext_priv *pmlmeext = &adapter->mlmeextpriv;
++
++	psa = get_sa(ptr);
++	ptdls_sta = rtw_get_stainfo(pstapriv, psa);
++
++	//if channel switch is running and receiving Unsolicited TDLS Channel Switch Response,
++	//it will go back to base channel and terminate this channel switch procedure
++	if(ptdls_sta->tdls_sta_state & TDLS_CH_SWITCH_ON_STATE ){
++		if(pmlmeext->cur_channel==ptdls_sta->off_ch){
++			DBG_871X("back to base channel %x\n", pmlmeext->cur_channel);
++			ptdls_sta->option=7;
++			rtw_tdls_cmd(adapter, ptdls_sta->hwaddr, TDLS_OFF_CH);
++		}else{
++			DBG_871X("receive unsolicited channel switch response \n");
++			rtw_tdls_cmd(adapter, ptdls_sta->hwaddr, TDLS_CS_OFF);
++		}
++		return _FAIL;
++	}
++
++	//avoiding duplicated or unconditional ch. switch. rsp
++	if((ptdls_sta->tdls_sta_state & TDLS_CH_SW_INITIATOR_STATE) != TDLS_CH_SW_INITIATOR_STATE)
++		return _FAIL;
++	
++	ptr +=prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len+LLC_HEADER_SIZE+TYPE_LENGTH_FIELD_SIZE+1;
++	parsing_length= ((union recv_frame *)precv_frame)->u.hdr.len
++			-prx_pkt_attrib->hdrlen
++			-prx_pkt_attrib->iv_len
++			-prx_pkt_attrib->icv_len
++			-LLC_HEADER_SIZE
++			-ETH_TYPE_LEN
++			-PAYLOAD_TYPE_LEN
++			-FIXED_IE;
++
++	_rtw_memcpy(&stat_code, ptr+2, 2);
++
++	if(stat_code!=0){
++		return _FAIL;
++	}
++	
++	//parsing information element
++	for(j=FIXED_IE; j<parsing_length;){
++
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(ptr+ j);
++
++		switch (pIE->ElementID)
++		{
++ 			case _LINK_ID_IE_:
++				break;
++			case _CH_SWITCH_TIMING_:
++				_rtw_memcpy(&switch_time, pIE->data, 2);
++				if(switch_time > ptdls_sta->ch_switch_time)
++					_rtw_memcpy(&ptdls_sta->ch_switch_time, &switch_time, 2);
++
++				_rtw_memcpy(&switch_timeout, pIE->data+2, 2);
++				if(switch_timeout > ptdls_sta->ch_switch_timeout)
++					_rtw_memcpy(&ptdls_sta->ch_switch_timeout, &switch_timeout, 2);
++
++			default:
++				break;
++		}
++
++		j += (pIE->Length + 2);
++		
++	}
++
++	ptdls_sta->tdls_sta_state &= ~(TDLS_CH_SW_INITIATOR_STATE);
++	ptdls_sta->tdls_sta_state |=TDLS_CH_SWITCH_ON_STATE;
++
++	//goto set_channel_workitem_callback()
++	ptdls_sta->option=6;
++	rtw_tdls_cmd(adapter, ptdls_sta->hwaddr, TDLS_OFF_CH);
++
++	return _FAIL;	
++}
++
++#ifdef CONFIG_WFD
++void wfd_ie_tdls(_adapter * padapter, u8 *pframe, u32 *pktlen )
++{
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->tdlsinfo.wfd_info;
++	u8 wfdie[ MAX_WFD_IE_LEN] = { 0x00 };
++	u32 wfdielen = 0;
++
++	//	WFD OUI
++	wfdielen = 0;
++	wfdie[ wfdielen++ ] = 0x50;
++	wfdie[ wfdielen++ ] = 0x6F;
++	wfdie[ wfdielen++ ] = 0x9A;
++	wfdie[ wfdielen++ ] = 0x0A;	//	WFA WFD v1.0
++
++	//	Commented by Albert 20110825
++	//	According to the WFD Specification, the negotiation request frame should contain 3 WFD attributes
++	//	1. WFD Device Information
++	//	2. Associated BSSID ( Optional )
++	//	3. Local IP Adress ( Optional )
++
++	//	WFD Device Information ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_DEVICE_INFO;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value1:
++	//	WFD device information
++	//	available for WFD session + Preferred TDLS + WSD ( WFD Service Discovery )
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL 
++								| WFD_DEVINFO_PC_TDLS | WFD_DEVINFO_WSD);
++	wfdielen += 2;
++
++	//	Value2:
++	//	Session Management Control Port
++	//	Default TCP port for RTSP messages is 554
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport );
++	wfdielen += 2;
++
++	//	Value3:
++	//	WFD Device Maximum Throughput
++	//	300Mbps is the maximum throughput
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	//	Associated BSSID ATTR
++	//	Type:
++	wfdie[ wfdielen++ ] = WFD_ATTR_ASSOC_BSSID;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	//	Value:
++	//	Associated BSSID
++	if ( check_fwstate( pmlmepriv, _FW_LINKED) == _TRUE )
++	{
++		_rtw_memcpy( wfdie + wfdielen, &pmlmepriv->assoc_bssid[ 0 ], ETH_ALEN );
++	}
++	else
++	{
++		_rtw_memset( wfdie + wfdielen, 0x00, ETH_ALEN );
++	}
++
++	//	Local IP Address ATTR
++	wfdie[ wfdielen++ ] = WFD_ATTR_LOCAL_IP_ADDR;
++
++	//	Length:
++	//	Note: In the WFD specification, the size of length field is 2.
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0005);
++	wfdielen += 2;
++
++	//	Version:
++	//	0x01: Version1;IPv4
++	wfdie[ wfdielen++ ] = 0x01;	
++
++	//	IPv4 Address
++	_rtw_memcpy( wfdie + wfdielen, pwfd_info->ip_address, 4 );
++	wfdielen += 4;
++	
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, pktlen);
++	
++}
++#endif //CONFIG_WFD
++
++void rtw_build_tdls_setup_req_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &pmlmeext->mlmext_info;
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	struct sta_info *ptdls_sta=rtw_get_stainfo( (&padapter->stapriv) , pattrib->dst);
++
++	u8 payload_type = 0x02;
++	u8 category = RTW_WLAN_CATEGORY_TDLS;
++	u8 action = TDLS_SETUP_REQUEST;
++	u8 bssrate[NDIS_802_11_LENGTH_RATES_EX]; //Use NDIS_802_11_LENGTH_RATES_EX in order to call func.rtw_set_supported_rate
++ 	int	bssrate_len = 0, i = 0 ;
++	u8 more_supportedrates = 0;
++	unsigned int ie_len;
++	u8 *p;
++	struct mlme_priv 		*pmlmepriv = &padapter->mlmepriv;
++	u8 link_id_addr[18] = {0};
++	u8 iedata=0;
++	u8 sup_ch[ 30 * 2 ] = {0x00 }, sup_ch_idx = 0, idx_5g = 2;	//For supported channel
++	u8 timeout_itvl[5];	//set timeout interval to maximum value
++	u32 time;
++
++	//SNonce	
++	if(pattrib->encrypt){
++		for(i=0;i<8;i++){
++			time=rtw_get_current_time();
++			_rtw_memcpy(&ptdls_sta->SNonce[4*i], (u8 *)&time, 4);
++		}
++	}
++
++	//payload type
++	pframe = rtw_set_fixed_ie(pframe, 1, &(payload_type), &(pattrib->pktlen));
++	//category, action, dialog token
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(ptdls_sta->dialog), &(pattrib->pktlen));
++
++	//capability
++	_rtw_memcpy(pframe, rtw_get_capability_from_ie(pmlmeinfo->network.IEs), 2);
++
++	if(pattrib->encrypt)
++		*pframe =*pframe | BIT(4);
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++	//supported rates
++	rtw_set_supported_rate(bssrate, WIRELESS_11BG_24N);
++	bssrate_len = IEEE80211_CCK_RATE_LEN + IEEE80211_NUM_OFDM_RATESLEN;
++
++	if (bssrate_len > 8)
++	{
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , 8, bssrate, &(pattrib->pktlen));
++		more_supportedrates = 1;
++	}
++	else
++	{
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , bssrate_len , bssrate, &(pattrib->pktlen));
++	}
++
++	//country(optional)
++	//extended supported rates
++	if(more_supportedrates==1){
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_ , (bssrate_len - 8), (bssrate + 8), &(pattrib->pktlen));
++	}
++
++	//supported channels
++	pframe = rtw_tdls_set_sup_ch(pmlmeext, pframe, pattrib);
++	
++	//	SRC IE
++	pframe = rtw_set_ie( pframe, _SRC_IE_, 16, TDLS_SRC, &(pattrib->pktlen));
++	
++	//RSNIE
++	if(pattrib->encrypt)
++		pframe = rtw_set_ie(pframe, _RSN_IE_2_, 20, TDLS_RSNIE, &(pattrib->pktlen));
++	
++	//extended capabilities
++	pframe = rtw_set_ie(pframe, _EXT_CAP_IE_ , 5, TDLS_EXT_CAPIE, &(pattrib->pktlen));
++
++	//QoS capability(WMM_IE)
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, 7, TDLS_WMMIE,  &(pattrib->pktlen));
++
++
++	if(pattrib->encrypt){
++		//FTIE
++		_rtw_memset(pframe, 0, 84);	//All fields except SNonce shall be set to 0
++		_rtw_memset(pframe, _FTIE_, 1);	//version
++		_rtw_memset((pframe+1), 82, 1);	//length
++		_rtw_memcpy((pframe+52), ptdls_sta->SNonce, 32);
++		pframe += 84;
++		pattrib->pktlen += 84;
++
++		//Timeout interval
++		timeout_itvl[0]=0x02;
++		_rtw_memcpy(timeout_itvl+1, (u8 *)(&ptdls_sta->TDLS_PeerKey_Lifetime), 4);
++		pframe = rtw_set_ie(pframe, _TIMEOUT_ITVL_IE_, 5, timeout_itvl,  &(pattrib->pktlen));
++	}
++
++	//Sup_reg_classes(optional)
++	//HT capabilities
++	pframe = rtw_tdls_set_ht_cap(padapter, pframe, pattrib);
++
++	//20/40 BSS coexistence
++	if(pmlmepriv->num_FortyMHzIntolerant>0)
++		iedata |= BIT(2);//20 MHz BSS Width Request
++	pframe = rtw_set_ie(pframe, EID_BSSCoexistence,  1, &iedata, &(pattrib->pktlen));
++	
++	//Link identifier
++	_rtw_memcpy(link_id_addr, pattrib->ra, 6);
++	_rtw_memcpy((link_id_addr+6), pattrib->src, 6);
++	_rtw_memcpy((link_id_addr+12), pattrib->dst, 6);
++	pframe = rtw_set_ie(pframe, _LINK_ID_IE_,  18, link_id_addr, &(pattrib->pktlen));
++
++#ifdef CONFIG_WFD
++	wfd_ie_tdls( padapter, pframe, &(pattrib->pktlen) );
++#endif //CONFIG_WFD
++
++}
++
++void rtw_build_tdls_setup_rsp_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe)
++{
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_info *ptdls_sta;
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++
++	u8 payload_type = 0x02;	
++	unsigned char category = RTW_WLAN_CATEGORY_TDLS;
++	unsigned char action = TDLS_SETUP_RESPONSE;
++	unsigned char	bssrate[NDIS_802_11_LENGTH_RATES_EX];	
++	int	bssrate_len = 0;
++	u8 more_supportedrates = 0;
++	unsigned int ie_len;
++	unsigned char *p;
++	struct mlme_priv 		*pmlmepriv = &padapter->mlmepriv;
++	u8 link_id_addr[18] = {0};
++	u8 iedata=0;
++	u8 timeout_itvl[5];	//setup response timeout interval will copy from request
++	u8 ANonce[32];	//maybe it can put in ontdls_req
++	u8 k;		//for random ANonce
++	u8  *pftie, *ptimeout_ie, *plinkid_ie, *prsnie, *pftie_mic;
++	u32 time;
++
++	ptdls_sta = rtw_get_stainfo( &(padapter->stapriv) , pattrib->dst);
++
++	if(ptdls_sta == NULL )
++	{
++		DBG_871X("[%s] %d\n", __FUNCTION__, __LINE__);
++		return;
++	}
++
++	if(pattrib->encrypt){
++		for(k=0;k<8;k++){
++			time=rtw_get_current_time();
++			_rtw_memcpy(&ptdls_sta->ANonce[4*k], (u8*)&time, 4);
++		}
++	}
++
++	//payload type
++	pframe = rtw_set_fixed_ie(pframe, 1, &(payload_type), &(pattrib->pktlen));	
++	//category, action, status code
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 2, (u8 *)&ptdls_sta->stat_code, &(pattrib->pktlen));
++
++	if(ptdls_sta->stat_code!=0)	//invalid setup request
++	{
++		DBG_871X("ptdls_sta->stat_code:%04x \n", ptdls_sta->stat_code);		
++		return;
++	}
++	
++	//dialog token
++	pframe = rtw_set_fixed_ie(pframe, 1, &(ptdls_sta->dialog), &(pattrib->pktlen));
++
++	//capability
++	_rtw_memcpy(pframe, rtw_get_capability_from_ie(pmlmeinfo->network.IEs), 2);
++
++	if(pattrib->encrypt )
++		*pframe =*pframe | BIT(4);
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++	//supported rates
++	rtw_set_supported_rate(bssrate, WIRELESS_11BG_24N);
++	bssrate_len = IEEE80211_CCK_RATE_LEN + IEEE80211_NUM_OFDM_RATESLEN;
++
++	if (bssrate_len > 8)
++	{
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , 8, bssrate, &(pattrib->pktlen));
++		more_supportedrates = 1;
++	}
++	else
++	{
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , bssrate_len , bssrate, &(pattrib->pktlen));
++	}
++
++	//country(optional)
++	//extended supported rates
++	if(more_supportedrates==1){
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_ , (bssrate_len - 8), (bssrate + 8), &(pattrib->pktlen));
++	}
++
++	//supported channels
++	pframe = rtw_tdls_set_sup_ch(pmlmeext, pframe, pattrib);
++	
++	// SRC IE
++	pframe = rtw_set_ie(pframe, _SRC_IE_ , 16, TDLS_SRC, &(pattrib->pktlen));
++
++	//RSNIE
++	if(pattrib->encrypt){
++		prsnie = pframe;
++		pframe = rtw_set_ie(pframe, _RSN_IE_2_, 20, TDLS_RSNIE, &(pattrib->pktlen));
++	}
++
++	//extended capabilities
++	pframe = rtw_set_ie(pframe, _EXT_CAP_IE_ , 5, TDLS_EXT_CAPIE, &(pattrib->pktlen));
++
++	//QoS capability(WMM_IE)
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, 7, TDLS_WMMIE,  &(pattrib->pktlen));
++
++	if(pattrib->encrypt){
++		wpa_tdls_generate_tpk(padapter, ptdls_sta);
++
++		//FTIE
++		pftie = pframe;
++		pftie_mic = pframe+4;
++		_rtw_memset(pframe, 0, 84);	//All fields except SNonce shall be set to 0
++		_rtw_memset(pframe, _FTIE_, 1);	//version
++		_rtw_memset((pframe+1), 82, 1);	//length
++		_rtw_memcpy((pframe+20), ptdls_sta->ANonce, 32);
++		_rtw_memcpy((pframe+52), ptdls_sta->SNonce, 32);
++		pframe += 84;
++		pattrib->pktlen += 84;
++
++		//Timeout interval
++		ptimeout_ie = pframe;
++		timeout_itvl[0]=0x02;
++		_rtw_memcpy(timeout_itvl+1, (u8 *)(&ptdls_sta->TDLS_PeerKey_Lifetime), 4);
++		pframe = rtw_set_ie(pframe, _TIMEOUT_ITVL_IE_, 5, timeout_itvl,  &(pattrib->pktlen));
++	}
++
++	//Sup_reg_classes(optional)
++	//HT capabilities
++	pframe = rtw_tdls_set_ht_cap(padapter, pframe, pattrib);
++
++	//20/40 BSS coexistence
++	if(pmlmepriv->num_FortyMHzIntolerant>0)
++		iedata |= BIT(2);//20 MHz BSS Width Request
++	pframe = rtw_set_ie(pframe, EID_BSSCoexistence,  1, &iedata, &(pattrib->pktlen));
++
++	//Link identifier
++	plinkid_ie = pframe;
++	_rtw_memcpy(link_id_addr, pattrib->ra, 6);
++	_rtw_memcpy((link_id_addr+6), pattrib->dst, 6);
++	_rtw_memcpy((link_id_addr+12), pattrib->src, 6);
++	pframe = rtw_set_ie(pframe, _LINK_ID_IE_,  18, link_id_addr, &(pattrib->pktlen));
++
++	//fill FTIE mic
++	if(pattrib->encrypt)
++		wpa_tdls_ftie_mic(ptdls_sta->tpk.kck, 2, plinkid_ie, prsnie, ptimeout_ie, pftie, pftie_mic);
++
++#ifdef CONFIG_WFD
++	wfd_ie_tdls( padapter, pframe, &(pattrib->pktlen) );
++#endif //CONFIG_WFD
++
++}
++
++void rtw_build_tdls_setup_cfm_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe)
++{
++
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_info *ptdls_sta=rtw_get_stainfo( (&padapter->stapriv) , pattrib->dst);
++
++	u8 payload_type = 0x02;	
++	unsigned char category = RTW_WLAN_CATEGORY_TDLS;
++	unsigned char action = TDLS_SETUP_CONFIRM;
++	u8 more_supportedrates = 0;
++	unsigned int ie_len;
++	unsigned char *p;
++	u8 timeout_itvl[5];	//set timeout interval to maximum value
++	struct mlme_priv 		*pmlmepriv = &padapter->mlmepriv;
++	u8	link_id_addr[18] = {0};
++	u8  *pftie, *ptimeout_ie, *plinkid_ie, *prsnie, *pftie_mic;
++
++	//payload type
++	pframe = rtw_set_fixed_ie(pframe, 1, &(payload_type), &(pattrib->pktlen));
++	//category, action, status code, dialog token
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 2, (u8 *)&ptdls_sta->stat_code, &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(ptdls_sta->dialog), &(pattrib->pktlen));
++
++	if(ptdls_sta->stat_code!=0)	//invalid setup request
++		return;
++	
++	//RSNIE
++	if(pattrib->encrypt){
++		prsnie = pframe;
++		pframe = rtw_set_ie(pframe, _RSN_IE_2_, 20, TDLS_RSNIE, &(pattrib->pktlen));
++	}
++	
++	//EDCA param set; WMM param ele.
++	if(pattrib->encrypt){
++		//FTIE
++		pftie = pframe;
++		pftie_mic = pframe+4;
++		_rtw_memset(pframe, 0, 84);	//All fields except SNonce shall be set to 0
++		_rtw_memset(pframe, _FTIE_, 1);	//version
++		_rtw_memset((pframe+1), 82, 1);	//length
++		_rtw_memcpy((pframe+20), ptdls_sta->ANonce, 32);
++		_rtw_memcpy((pframe+52), ptdls_sta->SNonce, 32);
++		pframe += 84;
++		pattrib->pktlen += 84;
++
++		//Timeout interval
++		ptimeout_ie = pframe;
++		timeout_itvl[0]=0x02;
++		_rtw_memcpy(timeout_itvl+1, (u8 *)(&ptdls_sta->TDLS_PeerKey_Lifetime), 4);
++		ptdls_sta->TPK_count=0;
++		_set_timer(&ptdls_sta->TPK_timer, ptdls_sta->TDLS_PeerKey_Lifetime/TPK_RESEND_COUNT);
++		pframe = rtw_set_ie(pframe, _TIMEOUT_ITVL_IE_, 5, timeout_itvl,  &(pattrib->pktlen));
++	}
++
++	//HT operation; todo
++	//Link identifier
++	plinkid_ie = pframe;
++	_rtw_memcpy(link_id_addr, pattrib->ra, 6);
++	_rtw_memcpy((link_id_addr+6), pattrib->src, 6);
++	_rtw_memcpy((link_id_addr+12), pattrib->dst, 6);
++	pframe = rtw_set_ie(pframe, _LINK_ID_IE_,  18, link_id_addr, &(pattrib->pktlen));
++
++	//fill FTIE mic
++	if(pattrib->encrypt)
++		wpa_tdls_ftie_mic(ptdls_sta->tpk.kck, 3, plinkid_ie, prsnie, ptimeout_ie, pftie, pftie_mic);
++
++}
++
++void rtw_build_tdls_teardown_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe)
++{
++
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	u8 payload_type = 0x02;
++	unsigned char category = RTW_WLAN_CATEGORY_TDLS;
++	unsigned char action = TDLS_TEARDOWN;
++	u8	link_id_addr[18] = {0};
++	
++	struct sta_info *ptdls_sta = rtw_get_stainfo( &(padapter->stapriv) , pattrib->dst);
++	struct sta_priv 	*pstapriv = &padapter->stapriv;
++
++	//payload type
++	pframe = rtw_set_fixed_ie(pframe, 1, &(payload_type), &(pattrib->pktlen));	
++	//category, action, reason code
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, (u8 *)&ptdls_sta->stat_code, &(pattrib->pktlen));
++
++	//Link identifier
++	if(ptdls_sta->tdls_sta_state & TDLS_INITIATOR_STATE){	
++		_rtw_memcpy(link_id_addr, pattrib->ra, 6);
++		_rtw_memcpy((link_id_addr+6), pattrib->src, 6);
++		_rtw_memcpy((link_id_addr+12), pattrib->dst, 6);
++	}else  if(ptdls_sta->tdls_sta_state & TDLS_RESPONDER_STATE){
++		_rtw_memcpy(link_id_addr, pattrib->ra, 6);
++		_rtw_memcpy((link_id_addr+6), pattrib->dst, 6);
++		_rtw_memcpy((link_id_addr+12), pattrib->src, 6);
++	}
++	pframe = rtw_set_ie(pframe, _LINK_ID_IE_,  18, link_id_addr, &(pattrib->pktlen));
++	
++}
++
++void rtw_build_tdls_dis_req_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe)
++{
++
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	u8 payload_type = 0x02;
++	u8 category = RTW_WLAN_CATEGORY_TDLS;
++	u8 action = TDLS_DISCOVERY_REQUEST;
++	u8	link_id_addr[18] = {0};
++	static u8 dialogtoken=0;
++
++	//payload type
++	pframe = rtw_set_fixed_ie(pframe, 1, &(payload_type), &(pattrib->pktlen));		
++	//category, action, reason code
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogtoken), &(pattrib->pktlen));
++	dialogtoken = (dialogtoken+1)%256;
++
++	//Link identifier
++	_rtw_memcpy(link_id_addr, pattrib->ra, 6);
++	_rtw_memcpy((link_id_addr+6), pattrib->src, 6);
++	_rtw_memcpy((link_id_addr+12), pattrib->dst, 6);
++	pframe = rtw_set_ie(pframe, _LINK_ID_IE_,  18, link_id_addr, &(pattrib->pktlen));
++	
++}
++
++void rtw_build_tdls_dis_rsp_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe, u8 dialog)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &pmlmeext->mlmext_info;
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++
++	u8 category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8 action = TDLS_DISCOVERY_RESPONSE;
++	u8 bssrate[NDIS_802_11_LENGTH_RATES_EX];
++ 	int bssrate_len = 0;
++	u8 more_supportedrates = 0;
++	u8 *p;
++	struct mlme_priv 		*pmlmepriv = &padapter->mlmepriv;
++	u8 link_id_addr[18] = {0};
++	u8 iedata=0;
++	u8 timeout_itvl[5];	//set timeout interval to maximum value
++	u32 timeout_interval= TPK_RESEND_COUNT * 1000;
++	
++	//category, action, dialog token
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialog), &(pattrib->pktlen));
++
++	//capability
++	_rtw_memcpy(pframe, rtw_get_capability_from_ie(pmlmeinfo->network.IEs), 2);
++
++	if(pattrib->encrypt)
++		*pframe =*pframe | BIT(4);
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++	//supported rates
++	rtw_set_supported_rate(bssrate, WIRELESS_11BG_24N);
++	bssrate_len = IEEE80211_CCK_RATE_LEN + IEEE80211_NUM_OFDM_RATESLEN;
++
++	if (bssrate_len > 8)
++	{
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , 8, bssrate, &(pattrib->pktlen));
++		more_supportedrates = 1;
++	}
++	else
++	{
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , bssrate_len , bssrate, &(pattrib->pktlen));
++	}
++
++	//extended supported rates
++	if(more_supportedrates==1){
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_ , (bssrate_len - 8), (bssrate + 8), &(pattrib->pktlen));
++	}
++
++	//supported channels
++	pframe = rtw_tdls_set_sup_ch(pmlmeext, pframe, pattrib);
++
++	//RSNIE
++	if(pattrib->encrypt)
++		pframe = rtw_set_ie(pframe, _RSN_IE_2_, 20, TDLS_RSNIE, &(pattrib->pktlen));
++	
++	//extended capability
++	pframe = rtw_set_ie(pframe, _EXT_CAP_IE_ , 5, TDLS_EXT_CAPIE, &(pattrib->pktlen));
++
++	if(pattrib->encrypt){
++		//FTIE
++		_rtw_memset(pframe, 0, 84);	//All fields shall be set to 0
++		_rtw_memset(pframe, _FTIE_, 1);	//version
++		_rtw_memset((pframe+1), 82, 1);	//length
++		pframe += 84;
++		pattrib->pktlen += 84;
++
++		//Timeout interval
++		timeout_itvl[0]=0x02;
++		_rtw_memcpy(timeout_itvl+1, &timeout_interval, 4);
++		pframe = rtw_set_ie(pframe, _TIMEOUT_ITVL_IE_, 5, timeout_itvl,  &(pattrib->pktlen));
++	}
++
++	//Sup_reg_classes(optional)
++	//HT capabilities
++	pframe = rtw_tdls_set_ht_cap(padapter, pframe, pattrib);
++
++	//20/40 BSS coexistence
++	if(pmlmepriv->num_FortyMHzIntolerant>0)
++		iedata |= BIT(2);//20 MHz BSS Width Request
++	pframe = rtw_set_ie(pframe, EID_BSSCoexistence, 1, &iedata, &(pattrib->pktlen));
++
++	//Link identifier
++	_rtw_memcpy(link_id_addr, pattrib->ra, 6);
++	_rtw_memcpy((link_id_addr+6), pattrib->dst, 6);
++	_rtw_memcpy((link_id_addr+12), pattrib->src, 6);
++	pframe = rtw_set_ie(pframe, _LINK_ID_IE_, 18, link_id_addr, &(pattrib->pktlen));
++	
++}
++
++void rtw_build_tdls_peer_traffic_indication_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe)
++{
++
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	u8 payload_type = 0x02;
++	unsigned char category = RTW_WLAN_CATEGORY_TDLS;
++	unsigned char action = TDLS_PEER_TRAFFIC_INDICATION;
++
++	u8	link_id_addr[18] = {0};
++	u8 AC_queue=0;
++	struct sta_priv 	*pstapriv = &padapter->stapriv;	
++	struct sta_info *ptdls_sta = rtw_get_stainfo(pstapriv, pattrib->dst);
++
++	//payload type
++	pframe = rtw_set_fixed_ie(pframe, 1, &(payload_type), &(pattrib->pktlen));	
++	//category, action, reason code
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(ptdls_sta->dialog), &(pattrib->pktlen));
++
++	//Link identifier
++	_rtw_memcpy(link_id_addr, pattrib->ra, 6);
++	_rtw_memcpy((link_id_addr+6), pattrib->src, 6);
++	_rtw_memcpy((link_id_addr+12), pattrib->dst, 6);
++	pframe = rtw_set_ie(pframe, _LINK_ID_IE_,  18, link_id_addr, &(pattrib->pktlen));
++
++	//PTI control
++	//PU buffer status
++	if(ptdls_sta->uapsd_bk&BIT(1))
++		AC_queue=BIT(0);
++	if(ptdls_sta->uapsd_be&BIT(1))
++		AC_queue=BIT(1);
++	if(ptdls_sta->uapsd_vi&BIT(1))
++		AC_queue=BIT(2);
++	if(ptdls_sta->uapsd_vo&BIT(1))
++		AC_queue=BIT(3);
++	pframe = rtw_set_ie(pframe, _PTI_BUFFER_STATUS_, 1, &AC_queue, &(pattrib->pktlen));
++	
++}
++
++void rtw_build_tdls_ch_switch_req_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe)
++{
++
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	u8 payload_type = 0x02;
++	unsigned char category = RTW_WLAN_CATEGORY_TDLS;
++	unsigned char action = TDLS_CHANNEL_SWITCH_REQUEST;
++	u8	link_id_addr[18] = {0};
++	struct sta_priv 	*pstapriv = &padapter->stapriv;	
++	struct sta_info *ptdls_sta = rtw_get_stainfo(pstapriv, pattrib->dst);
++	u8 ch_switch_timing[4] = {0};
++	u16 switch_time= CH_SWITCH_TIME, switch_timeout=CH_SWITCH_TIMEOUT;	
++
++	//payload type
++	pframe = rtw_set_fixed_ie(pframe, 1, &(payload_type), &(pattrib->pktlen));	
++	//category, action, target_ch
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(ptdlsinfo->candidate_ch), &(pattrib->pktlen));
++
++	//Link identifier
++	_rtw_memcpy(link_id_addr, pattrib->ra, 6);
++	_rtw_memcpy((link_id_addr+6), pattrib->src, 6);
++	_rtw_memcpy((link_id_addr+12), pattrib->dst, 6);
++	pframe = rtw_set_ie(pframe, _LINK_ID_IE_,  18, link_id_addr, &(pattrib->pktlen));
++
++	//ch switch timing
++	_rtw_memcpy(ch_switch_timing, &switch_time, 2);
++	_rtw_memcpy(ch_switch_timing+2, &switch_timeout, 2);
++	pframe = rtw_set_ie(pframe, _CH_SWITCH_TIMING_,  4, ch_switch_timing, &(pattrib->pktlen));
++
++	//update ch switch attrib to sta_info
++	ptdls_sta->off_ch=ptdlsinfo->candidate_ch;
++	ptdls_sta->ch_switch_time=switch_time;
++	ptdls_sta->ch_switch_timeout=switch_timeout;
++
++}
++
++void rtw_build_tdls_ch_switch_rsp_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe)
++{
++
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	u8 payload_type = 0x02;
++	unsigned char category = RTW_WLAN_CATEGORY_TDLS;
++	unsigned char action = TDLS_CHANNEL_SWITCH_RESPONSE;
++	u8	link_id_addr[18] = {0};
++	struct sta_priv 	*pstapriv = &padapter->stapriv;	
++	struct sta_info *ptdls_sta = rtw_get_stainfo(pstapriv, pattrib->dst);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &pmlmeext->mlmext_info;
++	u8 ch_switch_timing[4] = {0};
++
++	//payload type
++	pframe = rtw_set_fixed_ie(pframe, 1, &(payload_type), &(pattrib->pktlen));	
++	//category, action, status_code
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 2, (u8 *)&ptdls_sta->stat_code, &(pattrib->pktlen));
++
++	//Link identifier
++	_rtw_memcpy(link_id_addr, pattrib->ra, 6);
++	_rtw_memcpy((link_id_addr+6), pattrib->src, 6);
++	_rtw_memcpy((link_id_addr+12), pattrib->dst, 6);
++	pframe = rtw_set_ie(pframe, _LINK_ID_IE_,  18, link_id_addr, &(pattrib->pktlen));
++
++	//ch switch timing
++	_rtw_memcpy(ch_switch_timing, &ptdls_sta->ch_switch_time, 2);
++	_rtw_memcpy(ch_switch_timing+2, &ptdls_sta->ch_switch_timeout, 2);
++	pframe = rtw_set_ie(pframe, _CH_SWITCH_TIMING_,  4, ch_switch_timing, &(pattrib->pktlen));
++
++}
++
++#ifdef CONFIG_WFD
++void rtw_build_tunneled_probe_req_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe)
++{
++
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++	struct wifidirect_info *pbuddy_wdinfo = &padapter->pbuddy_adapter->wdinfo;
++	u8 payload_type = 0x02;
++	u8 category = RTW_WLAN_CATEGORY_P2P;
++	u8 WFA_OUI[3] = { 0x50, 0x6f, 0x9a};
++	u8 probe_req = 4;
++	u8 wfdielen = 0;
++
++	//payload type
++	pframe = rtw_set_fixed_ie(pframe, 1, &(payload_type), &(pattrib->pktlen));		
++	//category, OUI, frame_body_type
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 3, WFA_OUI, &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(probe_req), &(pattrib->pktlen));
++
++	if(!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++	{
++		wfdielen = build_probe_req_wfd_ie(pwdinfo, pframe);
++		pframe += wfdielen;
++		pattrib->pktlen += wfdielen;
++	}
++	else if(!rtw_p2p_chk_state(pbuddy_wdinfo, P2P_STATE_NONE))
++	{
++		wfdielen = build_probe_req_wfd_ie(pbuddy_wdinfo, pframe);
++		pframe += wfdielen;
++		pattrib->pktlen += wfdielen;
++	}
++	
++}
++
++void rtw_build_tunneled_probe_rsp_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe)
++{
++
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++	struct wifidirect_info *pbuddy_wdinfo = &padapter->pbuddy_adapter->wdinfo;
++	u8 payload_type = 0x02;
++	u8 category = RTW_WLAN_CATEGORY_P2P;
++	u8 WFA_OUI[3] = { 0x50, 0x6f, 0x9a};
++	u8 probe_rsp = 5;
++	u8 wfdielen = 0;
++
++	//payload type
++	pframe = rtw_set_fixed_ie(pframe, 1, &(payload_type), &(pattrib->pktlen));		
++	//category, OUI, frame_body_type
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 3, WFA_OUI, &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(probe_rsp), &(pattrib->pktlen));
++
++	if(!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++	{
++		wfdielen = build_probe_resp_wfd_ie(pwdinfo, pframe, 1);
++		pframe += wfdielen;
++		pattrib->pktlen += wfdielen;
++	}
++	else if(!rtw_p2p_chk_state(pbuddy_wdinfo, P2P_STATE_NONE))
++	{
++		wfdielen = build_probe_resp_wfd_ie(pbuddy_wdinfo, pframe, 1);
++		pframe += wfdielen;
++		pattrib->pktlen += wfdielen;
++	}
++
++}
++#endif //CONFIG_WFD
++
++void _TPK_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++
++	ptdls_sta->TPK_count++;
++	//TPK_timer set 1000 as default
++	//retry timer should set at least 301 sec.
++	if(ptdls_sta->TPK_count==TPK_RESEND_COUNT){
++		ptdls_sta->TPK_count=0;
++		issue_tdls_setup_req(ptdls_sta->padapter, ptdls_sta->hwaddr);
++	}
++	
++	_set_timer(&ptdls_sta->TPK_timer, ptdls_sta->TDLS_PeerKey_Lifetime/TPK_RESEND_COUNT);
++}
++
++void init_TPK_timer(_adapter *padapter, struct sta_info *psta)
++{
++	psta->padapter=padapter;
++
++	_init_timer(&psta->TPK_timer, padapter->pnetdev, _TPK_timer_hdl, psta);
++}
++
++// TDLS_DONE_CH_SEN: channel sensing and report candidate channel
++// TDLS_OFF_CH: first time set channel to off channel
++// TDLS_BASE_CH: when go back to the channel linked with AP, send null data to peer STA as an indication
++void _ch_switch_timer_hdl(void *FunctionContext)
++{
++
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++	_adapter *padapter = ptdls_sta->padapter;
++	
++	if( ptdls_sta->option == TDLS_DONE_CH_SEN ){
++		rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_DONE_CH_SEN);
++	}else if( ptdls_sta->option == TDLS_OFF_CH ){
++		issue_nulldata_to_TDLS_peer_STA(ptdls_sta->padapter, ptdls_sta, 0);
++		_set_timer(&ptdls_sta->base_ch_timer, 500);
++	}else if( ptdls_sta->option == TDLS_BASE_CH){
++		issue_nulldata_to_TDLS_peer_STA(ptdls_sta->padapter, ptdls_sta, 0);
++	}
++}
++
++void init_ch_switch_timer(_adapter *padapter, struct sta_info *psta)
++{
++	psta->padapter=padapter;
++	_init_timer(&psta->option_timer, padapter->pnetdev, _ch_switch_timer_hdl, psta);
++}
++
++void _base_ch_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++	rtw_tdls_cmd(ptdls_sta->padapter, ptdls_sta->hwaddr, TDLS_P_OFF_CH);
++}
++
++void init_base_ch_timer(_adapter *padapter, struct sta_info *psta)
++{
++	psta->padapter=padapter;
++	_init_timer(&psta->base_ch_timer, padapter->pnetdev, _base_ch_timer_hdl, psta);
++}
++
++void _off_ch_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++	rtw_tdls_cmd(ptdls_sta->padapter, ptdls_sta->hwaddr, TDLS_P_BASE_CH );
++}
++	
++void init_off_ch_timer(_adapter *padapter, struct sta_info *psta)
++{
++	psta->padapter=padapter;
++	_init_timer(&psta->off_ch_timer, padapter->pnetdev, _off_ch_timer_hdl, psta);
++}
++
++void _tdls_handshake_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++
++	if(ptdls_sta != NULL)
++	{
++		if( !(ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE) )
++		{
++			DBG_871X("tdls handshake time out\n");
++			free_tdls_sta(ptdls_sta->padapter, ptdls_sta);
++		}
++	}
++}
++
++void init_handshake_timer(_adapter *padapter, struct sta_info *psta)
++{
++	psta->padapter=padapter;
++	_init_timer(&psta->handshake_timer, padapter->pnetdev, _tdls_handshake_timer_hdl, psta);
++}
++
++//Check tdls peer sta alive.
++void _tdls_alive_timer_phase1_hdl(void *FunctionContext)
++{
++	_irqL irqL;
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++	_adapter *padapter = ptdls_sta->padapter;
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	
++	_enter_critical_bh(&ptdlsinfo->hdl_lock, &irqL);
++	ptdls_sta->timer_flag = 1;
++	_exit_critical_bh(&ptdlsinfo->hdl_lock, &irqL);
++
++	ptdls_sta->tdls_sta_state &= (~TDLS_ALIVE_STATE);
++
++	DBG_871X("issue_tdls_dis_req to check alive\n");
++	issue_tdls_dis_req( padapter, ptdls_sta->hwaddr);
++	rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CKALV_PH1);
++	sta_update_last_rx_pkts(ptdls_sta);
++
++	if (	ptdls_sta->timer_flag == 2 )
++		rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_FREE_STA);		
++	else
++	{
++		_enter_critical_bh(&ptdlsinfo->hdl_lock, &irqL);
++		ptdls_sta->timer_flag = 0;
++		_exit_critical_bh(&ptdlsinfo->hdl_lock, &irqL);
++	}
++
++}
++
++void _tdls_alive_timer_phase2_hdl(void *FunctionContext)
++{
++	_irqL irqL;
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++	_adapter *padapter = ptdls_sta->padapter;
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	
++	_enter_critical_bh(&(ptdlsinfo->hdl_lock), &irqL);
++	ptdls_sta->timer_flag = 1;
++	_exit_critical_bh(&ptdlsinfo->hdl_lock, &irqL);
++
++	if( (ptdls_sta->tdls_sta_state & TDLS_ALIVE_STATE) && 
++		(sta_last_rx_pkts(ptdls_sta) + 3 <= sta_rx_pkts(ptdls_sta)) )
++	{
++		DBG_871X("TDLS STA ALIVE, ptdls_sta->sta_stats.last_rx_pkts:%llu, ptdls_sta->sta_stats.rx_pkts:%llu\n",
++			sta_last_rx_pkts(ptdls_sta), sta_rx_pkts(ptdls_sta));
++
++		ptdls_sta->alive_count = 0;
++		rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CKALV_PH2);
++	}
++	else
++	{
++		if( !(ptdls_sta->tdls_sta_state & TDLS_ALIVE_STATE) )
++			DBG_871X("TDLS STA TOO FAR\n");
++		if( !(sta_last_rx_pkts(ptdls_sta) + 3 <= sta_rx_pkts(ptdls_sta)))
++			DBG_871X("TDLS LINK WITH LOW TRAFFIC, ptdls_sta->sta_stats.last_rx_pkts:%llu, ptdls_sta->sta_stats.rx_pkts:%llu\n",
++				sta_last_rx_pkts(ptdls_sta), sta_rx_pkts(ptdls_sta));
++
++		ptdls_sta->alive_count++;
++		if( ptdls_sta->alive_count == TDLS_ALIVE_COUNT )
++		{
++			ptdls_sta->stat_code = _RSON_TDLS_TEAR_TOOFAR_;
++			issue_tdls_teardown(padapter, ptdls_sta->hwaddr);
++		}
++		else
++		{
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CKALV_PH2);
++		}
++	}
++
++	if (	ptdls_sta->timer_flag == 2 )
++		rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_FREE_STA);		
++	else
++	{
++		_enter_critical_bh(&(ptdlsinfo->hdl_lock), &irqL);
++		ptdls_sta->timer_flag = 0;
++		_exit_critical_bh(&ptdlsinfo->hdl_lock, &irqL);
++}
++
++}
++
++void init_tdls_alive_timer(_adapter *padapter, struct sta_info *psta)
++{
++	psta->padapter=padapter;
++	_init_timer(&psta->alive_timer1, padapter->pnetdev, _tdls_alive_timer_phase1_hdl, psta);
++	_init_timer(&psta->alive_timer2, padapter->pnetdev, _tdls_alive_timer_phase2_hdl, psta);
++}
++
++int update_sgi_tdls(_adapter *padapter, struct sta_info *psta)
++{
++	struct ht_priv	*psta_ht = NULL;
++	psta_ht = &psta->htpriv;
++
++	if(psta_ht->ht_option)
++	{
++		return psta_ht->sgi;
++	}
++	else
++		return _FALSE;
++}
++
++u32 update_mask_tdls(_adapter *padapter, struct sta_info *psta)
++{
++	int i;
++	u8 rf_type, id;
++	unsigned char sta_band = 0;
++	unsigned char limit;	
++	unsigned int tx_ra_bitmap=0;
++	struct ht_priv	*psta_ht = NULL;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX *pcur_network = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network;
++
++	psta_ht = &psta->htpriv;
++	//b/g mode ra_bitmap  
++	for (i=0; i<sizeof(psta->bssrateset); i++)
++	{
++		if (psta->bssrateset[i])
++			tx_ra_bitmap |= rtw_get_bit_value_from_ieee_value(psta->bssrateset[i]&0x7f);
++	}
++
++	//n mode ra_bitmap
++	if(psta_ht->ht_option) 
++	{
++		rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++		if(rf_type == RF_2T2R)
++			limit=16;// 2R
++		else
++			limit=8;//  1R
++
++		for (i=0; i<limit; i++) {
++			if (psta_ht->ht_cap.supp_mcs_set[i/8] & BIT(i%8))
++				tx_ra_bitmap |= BIT(i+12);
++		}
++	}
++
++	if ( pcur_network->Configuration.DSConfig > 14 ) {
++		// 5G band
++		if (tx_ra_bitmap & 0xffff000)
++			sta_band |= WIRELESS_11_5N | WIRELESS_11A;
++		else
++			sta_band |= WIRELESS_11A;
++	} else {
++		if (tx_ra_bitmap & 0xffff000)
++			sta_band |= WIRELESS_11_24N | WIRELESS_11G | WIRELESS_11B;
++		else if (tx_ra_bitmap & 0xff0)
++			sta_band |= WIRELESS_11G |WIRELESS_11B;
++		else
++			sta_band |= WIRELESS_11B;
++	}
++
++	id = networktype_to_raid(sta_band);
++	tx_ra_bitmap |= ((id<<28)&0xf0000000);
++	return tx_ra_bitmap;
++}
++
++#endif //CONFIG_TDLS
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_wlan_util.c b/drivers/net/wireless/rtl8192cu/core/rtw_wlan_util.c
+new file mode 100755
+index 0000000..56dac60
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_wlan_util.c
+@@ -0,0 +1,2305 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_WLAN_UTIL_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <wifi.h>
++
++
++unsigned char ARTHEROS_OUI1[] = {0x00, 0x03, 0x7f};
++unsigned char ARTHEROS_OUI2[] = {0x00, 0x13, 0x74};
++
++unsigned char BROADCOM_OUI1[] = {0x00, 0x10, 0x18};
++unsigned char BROADCOM_OUI2[] = {0x00, 0x0a, 0xf7};
++unsigned char BROADCOM_OUI3[] = {0x00, 0x05, 0xb5};
++
++unsigned char CISCO_OUI[] = {0x00, 0x40, 0x96};
++unsigned char MARVELL_OUI[] = {0x00, 0x50, 0x43};
++unsigned char RALINK_OUI[] = {0x00, 0x0c, 0x43};
++unsigned char REALTEK_OUI[] = {0x00, 0xe0, 0x4c};
++unsigned char AIRGOCAP_OUI[] = {0x00, 0x0a, 0xf5};
++
++unsigned char REALTEK_96B_IE[] = {0x00, 0xe0, 0x4c, 0x02, 0x01, 0x20};
++
++extern unsigned char	MCS_rate_2R[16];
++#ifdef CONFIG_DISABLE_MCS13TO15
++extern unsigned char	MCS_rate_2R_MCS13TO15_OFF[16];
++#endif //CONFIG_DISABLE_MCS13TO15
++extern unsigned char	MCS_rate_1R[16];
++extern unsigned char RTW_WPA_OUI[];
++extern unsigned char WPA_TKIP_CIPHER[4];
++extern unsigned char RSN_TKIP_CIPHER[4];
++
++#define R2T_PHY_DELAY	(0)
++
++//#define WAIT_FOR_BCN_TO_MIN	(3000)
++#define WAIT_FOR_BCN_TO_MIN	(6000)
++#define WAIT_FOR_BCN_TO_MAX	(20000)
++
++static u8 rtw_basic_rate_cck[4] = {
++	IEEE80211_CCK_RATE_1MB|IEEE80211_BASIC_RATE_MASK, IEEE80211_CCK_RATE_2MB|IEEE80211_BASIC_RATE_MASK,
++	IEEE80211_CCK_RATE_5MB|IEEE80211_BASIC_RATE_MASK, IEEE80211_CCK_RATE_11MB|IEEE80211_BASIC_RATE_MASK
++};
++
++static u8 rtw_basic_rate_ofdm[3] = {
++	IEEE80211_OFDM_RATE_6MB|IEEE80211_BASIC_RATE_MASK, IEEE80211_OFDM_RATE_12MB|IEEE80211_BASIC_RATE_MASK,
++	IEEE80211_OFDM_RATE_24MB|IEEE80211_BASIC_RATE_MASK
++};
++
++static u8 rtw_basic_rate_mix[7] = {
++	IEEE80211_CCK_RATE_1MB|IEEE80211_BASIC_RATE_MASK, IEEE80211_CCK_RATE_2MB|IEEE80211_BASIC_RATE_MASK,
++	IEEE80211_CCK_RATE_5MB|IEEE80211_BASIC_RATE_MASK, IEEE80211_CCK_RATE_11MB|IEEE80211_BASIC_RATE_MASK,
++	IEEE80211_OFDM_RATE_6MB|IEEE80211_BASIC_RATE_MASK, IEEE80211_OFDM_RATE_12MB|IEEE80211_BASIC_RATE_MASK,
++	IEEE80211_OFDM_RATE_24MB|IEEE80211_BASIC_RATE_MASK
++};
++
++
++int cckrates_included(unsigned char *rate, int ratelen)
++{
++	int	i;
++	
++	for(i = 0; i < ratelen; i++)
++	{
++		if  (  (((rate[i]) & 0x7f) == 2)	|| (((rate[i]) & 0x7f) == 4) ||
++			   (((rate[i]) & 0x7f) == 11)  || (((rate[i]) & 0x7f) == 22) )
++		return _TRUE;	
++	}
++
++	return _FALSE;
++
++}
++
++int cckratesonly_included(unsigned char *rate, int ratelen)
++{
++	int	i;
++	
++	for(i = 0; i < ratelen; i++)
++	{
++		if  ( (((rate[i]) & 0x7f) != 2) && (((rate[i]) & 0x7f) != 4) &&
++			   (((rate[i]) & 0x7f) != 11)  && (((rate[i]) & 0x7f) != 22) )
++		return _FALSE;	
++	}
++	
++	return _TRUE;
++}
++
++unsigned char networktype_to_raid(unsigned char network_type)
++{
++	unsigned char raid;
++
++	switch(network_type)
++	{
++		case WIRELESS_11B:
++			raid = 6;
++			break;
++		case WIRELESS_11A:
++		case WIRELESS_11G:
++			raid = 5;
++			break;
++		case WIRELESS_11BG:
++			raid = 4;
++			break;
++		case WIRELESS_11_24N:
++		case WIRELESS_11_5N:
++			raid = 3;
++			break;
++		case WIRELESS_11A_5N:
++		case WIRELESS_11G_24N:
++			raid = 1;
++			break;
++		case WIRELESS_11BG_24N:
++			raid = 0;
++			break;
++		default:
++			raid = 4;
++			break;	
++
++	}
++
++	return raid;
++	
++}
++
++int judge_network_type(_adapter *padapter, unsigned char *rate, int ratelen)
++{
++	int network_type = 0;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	
++
++	if(pmlmeext->cur_channel > 14)
++	{
++		if (pmlmeinfo->HT_enable)
++		{
++			network_type = WIRELESS_11_5N;
++		}
++	
++		network_type |= WIRELESS_11A;
++	}
++	else
++	{
++		if (pmlmeinfo->HT_enable)
++		{
++			network_type = WIRELESS_11_24N;
++		}
++
++		if ((cckratesonly_included(rate, ratelen)) == _TRUE)
++		{
++			network_type |= WIRELESS_11B;
++		}
++		else if((cckrates_included(rate, ratelen)) == _TRUE)
++		{
++			network_type |= WIRELESS_11BG;
++		}
++		else
++		{
++			network_type |= WIRELESS_11G;
++		}
++	}
++		
++	return 	network_type;
++}
++
++unsigned char ratetbl_val_2wifirate(unsigned char rate);
++unsigned char ratetbl_val_2wifirate(unsigned char rate)
++{
++	unsigned char val = 0;
++
++	switch (rate & 0x7f) 
++	{
++		case 0:
++			val = IEEE80211_CCK_RATE_1MB;
++			break;
++
++		case 1:
++			val = IEEE80211_CCK_RATE_2MB;
++			break;
++
++		case 2:
++			val = IEEE80211_CCK_RATE_5MB;
++			break;
++
++		case 3:
++			val = IEEE80211_CCK_RATE_11MB;
++			break;
++			
++		case 4:
++			val = IEEE80211_OFDM_RATE_6MB;
++			break;
++
++		case 5:
++			val = IEEE80211_OFDM_RATE_9MB;
++			break;
++
++		case 6:
++			val = IEEE80211_OFDM_RATE_12MB;
++			break;
++			
++		case 7:
++			val = IEEE80211_OFDM_RATE_18MB;
++			break;
++
++		case 8:
++			val = IEEE80211_OFDM_RATE_24MB;
++			break;
++			
++		case 9:
++			val = IEEE80211_OFDM_RATE_36MB;
++			break;
++
++		case 10:
++			val = IEEE80211_OFDM_RATE_48MB;
++			break;
++		
++		case 11:
++			val = IEEE80211_OFDM_RATE_54MB;
++			break;
++
++	}
++
++	return val;
++
++}
++
++int is_basicrate(_adapter *padapter, unsigned char rate);
++int is_basicrate(_adapter *padapter, unsigned char rate)
++{
++	int i;
++	unsigned char val;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	
++	for(i = 0; i < NumRates; i++)
++	{
++		val = pmlmeext->basicrate[i];
++
++		if ((val != 0xff) && (val != 0xfe))
++		{
++			if (rate == ratetbl_val_2wifirate(val))
++			{
++				return _TRUE;
++			}
++		}
++	}
++	
++	return _FALSE;
++}
++
++unsigned int ratetbl2rateset(_adapter *padapter, unsigned char *rateset);
++unsigned int ratetbl2rateset(_adapter *padapter, unsigned char *rateset)
++{
++	int i;
++	unsigned char rate;
++	unsigned int	len = 0;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	for (i = 0; i < NumRates; i++)
++	{
++		rate = pmlmeext->datarate[i];
++
++		switch (rate)
++		{
++			case 0xff:
++				return len;
++				
++			case 0xfe:
++				continue;
++				
++			default:
++				rate = ratetbl_val_2wifirate(rate);
++
++				if (is_basicrate(padapter, rate) == _TRUE)
++				{
++					rate |= IEEE80211_BASIC_RATE_MASK;
++				}
++				
++				rateset[len] = rate;
++				len++;
++				break;
++		}
++	}
++	return len;
++}
++
++
++void get_rate_set(_adapter *padapter, unsigned char *pbssrate, int *bssrate_len)
++{
++	unsigned char supportedrates[NumRates];
++
++	_rtw_memset(supportedrates, 0, NumRates);
++	*bssrate_len = ratetbl2rateset(padapter, supportedrates);
++	_rtw_memcpy(pbssrate, supportedrates, *bssrate_len);
++}
++
++void UpdateBrateTbl(
++	IN PADAPTER		Adapter,
++	IN u8			*mBratesOS
++)
++{
++	u8	i;
++	u8	rate;
++
++	// 1M, 2M, 5.5M, 11M, 6M, 12M, 24M are mandatory.
++	for(i=0;i<NDIS_802_11_LENGTH_RATES_EX;i++)
++	{
++		rate = mBratesOS[i] & 0x7f;
++		switch(rate)
++		{
++			case IEEE80211_CCK_RATE_1MB:
++			case IEEE80211_CCK_RATE_2MB:
++			case IEEE80211_CCK_RATE_5MB:
++			case IEEE80211_CCK_RATE_11MB:
++			case IEEE80211_OFDM_RATE_6MB:
++			case IEEE80211_OFDM_RATE_12MB:
++			case IEEE80211_OFDM_RATE_24MB:
++				mBratesOS[i] |= IEEE80211_BASIC_RATE_MASK;
++				break;
++		}
++	}
++
++}
++
++void UpdateBrateTblForSoftAP(u8 *bssrateset, u32 bssratelen)
++{
++	u8	i;
++	u8	rate;
++
++	for(i=0;i<bssratelen;i++)
++	{
++		rate = bssrateset[i] & 0x7f;
++		switch(rate)
++		{
++			case IEEE80211_CCK_RATE_1MB:
++			case IEEE80211_CCK_RATE_2MB:
++			case IEEE80211_CCK_RATE_5MB:
++			case IEEE80211_CCK_RATE_11MB:
++				bssrateset[i] |= IEEE80211_BASIC_RATE_MASK;
++				break;
++		}
++	}
++
++}
++
++void Save_DM_Func_Flag(_adapter *padapter)
++{
++	u8	bSaveFlag = _TRUE;
++
++#ifdef CONFIG_CONCURRENT_MODE	
++	_adapter *pbuddy_adapter = padapter->pbuddy_adapter;
++	if(pbuddy_adapter)
++	rtw_hal_set_hwreg(pbuddy_adapter, HW_VAR_DM_FUNC_OP, (u8 *)(&bSaveFlag));
++#endif
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_DM_FUNC_OP, (u8 *)(&bSaveFlag));
++
++}
++
++void Restore_DM_Func_Flag(_adapter *padapter)
++{
++	u8	bSaveFlag = _FALSE;
++#ifdef CONFIG_CONCURRENT_MODE	
++	_adapter *pbuddy_adapter = padapter->pbuddy_adapter;
++	if(pbuddy_adapter)
++	rtw_hal_set_hwreg(pbuddy_adapter, HW_VAR_DM_FUNC_OP, (u8 *)(&bSaveFlag));
++#endif
++	rtw_hal_set_hwreg(padapter, HW_VAR_DM_FUNC_OP, (u8 *)(&bSaveFlag));
++}
++
++void Switch_DM_Func(_adapter *padapter, u8 mode, u8 enable)
++{
++#ifdef CONFIG_CONCURRENT_MODE	
++	_adapter *pbuddy_adapter = padapter->pbuddy_adapter;
++#endif
++
++	if(enable == _TRUE)
++	{
++#ifdef CONFIG_CONCURRENT_MODE
++		if(pbuddy_adapter)
++		rtw_hal_set_hwreg(pbuddy_adapter, HW_VAR_DM_FUNC_SET, (u8 *)(&mode));
++#endif
++		rtw_hal_set_hwreg(padapter, HW_VAR_DM_FUNC_SET, (u8 *)(&mode));
++	}
++	else
++	{
++#ifdef CONFIG_CONCURRENT_MODE
++		if(pbuddy_adapter)
++		rtw_hal_set_hwreg(pbuddy_adapter, HW_VAR_DM_FUNC_CLR, (u8 *)(&mode));
++#endif
++		rtw_hal_set_hwreg(padapter, HW_VAR_DM_FUNC_CLR, (u8 *)(&mode));
++	}
++
++#if 0
++	u8 val8;
++
++	val8 = rtw_read8(padapter, FW_DYNAMIC_FUN_SWITCH);
++
++	if(enable == _TRUE)
++	{
++		rtw_write8(padapter, FW_DYNAMIC_FUN_SWITCH, (val8 | mode));
++	}
++	else
++	{
++		rtw_write8(padapter, FW_DYNAMIC_FUN_SWITCH, (val8 & mode));
++	}
++#endif
++
++}
++
++static void Set_NETYPE1_MSR(_adapter *padapter, u8 type)
++{
++	rtw_hal_set_hwreg(padapter, HW_VAR_MEDIA_STATUS1, (u8 *)(&type));
++}
++
++static void Set_NETYPE0_MSR(_adapter *padapter, u8 type)
++{
++	rtw_hal_set_hwreg(padapter, HW_VAR_MEDIA_STATUS, (u8 *)(&type));
++}
++
++void Set_MSR(_adapter *padapter, u8 type)
++{
++#ifdef CONFIG_CONCURRENT_MODE
++	if(padapter->iface_type == IFACE_PORT1)
++	{
++		Set_NETYPE1_MSR(padapter, type);
++	}
++	else
++#endif
++	{
++		Set_NETYPE0_MSR(padapter, type);
++	}
++}
++
++inline u8 rtw_get_oper_ch(_adapter *adapter)
++{
++	return adapter_to_dvobj(adapter)->oper_channel;
++}
++
++inline void rtw_set_oper_ch(_adapter *adapter, u8 ch)
++{
++	if (adapter_to_dvobj(adapter)->oper_channel != ch)
++		adapter_to_dvobj(adapter)->on_oper_ch_time = rtw_get_current_time();
++
++	adapter_to_dvobj(adapter)->oper_channel = ch;
++}
++
++inline u8 rtw_get_oper_bw(_adapter *adapter)
++{
++	return adapter_to_dvobj(adapter)->oper_bwmode;
++}
++
++inline void rtw_set_oper_bw(_adapter *adapter, u8 bw)
++{
++	adapter_to_dvobj(adapter)->oper_bwmode = bw;
++}
++
++inline u8 rtw_get_oper_choffset(_adapter *adapter)
++{
++	return adapter_to_dvobj(adapter)->oper_ch_offset;
++}
++
++inline void rtw_set_oper_choffset(_adapter *adapter, u8 offset)
++{
++	adapter_to_dvobj(adapter)->oper_ch_offset = offset;
++}
++
++inline u32 rtw_get_on_oper_ch_time(_adapter *adapter)
++{
++	return adapter_to_dvobj(adapter)->on_oper_ch_time;
++}
++
++inline u32 rtw_get_on_cur_ch_time(_adapter *adapter)
++{
++	if (adapter->mlmeextpriv.cur_channel == adapter_to_dvobj(adapter)->oper_channel)
++		return adapter_to_dvobj(adapter)->on_oper_ch_time;
++	else
++		return 0;
++}
++
++void SelectChannel(_adapter *padapter, unsigned char channel)
++{
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;	
++
++#ifdef CONFIG_DUALMAC_CONCURRENT
++	//saved channel info
++	rtw_set_oper_ch(padapter, channel);
++	dc_SelectChannel(padapter, channel);
++#else //CONFIG_DUALMAC_CONCURRENT
++
++	_enter_critical_mutex(&(adapter_to_dvobj(padapter)->setch_mutex), NULL);
++	
++	//saved channel info
++	rtw_set_oper_ch(padapter, channel);
++
++	rtw_hal_set_chan(padapter, channel);
++	
++	_exit_critical_mutex(&(adapter_to_dvobj(padapter)->setch_mutex), NULL);
++
++#endif // CONFIG_DUALMAC_CONCURRENT
++}
++
++void SetBWMode(_adapter *padapter, unsigned short bwmode, unsigned char channel_offset)
++{
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++#ifdef CONFIG_DUALMAC_CONCURRENT
++	//saved bw info
++	rtw_set_oper_bw(padapter, bwmode);
++	rtw_set_oper_choffset(padapter, channel_offset);
++	dc_SetBWMode(padapter, bwmode, channel_offset);
++#else //CONFIG_DUALMAC_CONCURRENT
++
++	_enter_critical_mutex(&(adapter_to_dvobj(padapter)->setbw_mutex), NULL);
++
++	//saved bw info
++	rtw_set_oper_bw(padapter, bwmode);
++	rtw_set_oper_choffset(padapter, channel_offset);
++
++	rtw_hal_set_bwmode(padapter, (HT_CHANNEL_WIDTH)bwmode, channel_offset);
++
++	_exit_critical_mutex(&(adapter_to_dvobj(padapter)->setbw_mutex), NULL);
++
++#endif // CONFIG_DUALMAC_CONCURRENT
++}
++
++void set_channel_bwmode(_adapter *padapter, unsigned char channel, unsigned char channel_offset, unsigned short bwmode)
++{
++	u8 center_ch;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	if ( padapter->bNotifyChannelChange )
++	{
++		DBG_871X( "[%s] ch = %d, offset = %d, bwmode = %d\n", __FUNCTION__, channel, channel_offset, bwmode );
++	}
++
++	if((bwmode == HT_CHANNEL_WIDTH_20)||(channel_offset == HAL_PRIME_CHNL_OFFSET_DONT_CARE))
++	{
++		//SelectChannel(padapter, channel);
++		center_ch = channel;
++	}
++	else		
++	{
++		//switch to the proper channel
++		if (channel_offset == HAL_PRIME_CHNL_OFFSET_LOWER)
++		{
++			//SelectChannel(padapter, channel + 2);
++			center_ch = channel + 2;
++		}
++		else
++		{
++			//SelectChannel(padapter, channel - 2);
++			center_ch = channel - 2;
++		}
++	}	
++
++	//set Channel , must be independant for correct co_ch value/
++#ifdef CONFIG_DUALMAC_CONCURRENT
++	//saved channel/bw info
++	rtw_set_oper_ch(padapter, channel);
++	rtw_set_oper_bw(padapter, bwmode);
++	rtw_set_oper_choffset(padapter, channel_offset);
++	dc_SelectChannel(padapter, center_ch);// set center channel
++#else //CONFIG_DUALMAC_CONCURRENT
++	
++	_enter_critical_mutex(&(adapter_to_dvobj(padapter)->setch_mutex), NULL);
++	
++	//saved channel/bw info
++	rtw_set_oper_ch(padapter, channel);
++	rtw_set_oper_bw(padapter, bwmode);
++	rtw_set_oper_choffset(padapter, channel_offset);
++
++	rtw_hal_set_chan(padapter, center_ch);
++
++        _exit_critical_mutex(&(adapter_to_dvobj(padapter)->setch_mutex), NULL);
++
++#endif // CONFIG_DUALMAC_CONCURRENT
++
++
++	//set BandWidth
++	SetBWMode(padapter, bwmode, channel_offset);
++	
++}
++
++int get_bsstype(unsigned short capability)
++{
++	if (capability & BIT(0))
++	{
++		return WIFI_FW_AP_STATE;
++	}
++	else if (capability & BIT(1))
++	{
++		return WIFI_FW_ADHOC_STATE;
++	}
++	else
++	{
++		return 0;		
++	}
++}
++
++__inline u8 *get_my_bssid(WLAN_BSSID_EX *pnetwork)
++{	
++	return (pnetwork->MacAddress); 
++}
++
++u16 get_beacon_interval(WLAN_BSSID_EX *bss)
++{
++	unsigned short val;
++	_rtw_memcpy((unsigned char *)&val, rtw_get_beacon_interval_from_ie(bss->IEs), 2);
++
++	return le16_to_cpu(val);	
++
++}
++
++int is_client_associated_to_ap(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext;
++	struct mlme_ext_info	*pmlmeinfo;
++
++	if(!padapter)
++		return _FAIL;
++
++	pmlmeext = &padapter->mlmeextpriv;
++	pmlmeinfo = &(pmlmeext->mlmext_info);
++	
++	if ((pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS) && ((pmlmeinfo->state&0x03) == WIFI_FW_STATION_STATE))
++	{
++		return _TRUE;
++	}
++	else
++	{
++		return _FAIL;
++	}
++}
++
++int is_client_associated_to_ibss(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	
++	if ((pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS) && ((pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE))
++	{
++		return _TRUE;
++	}
++	else
++	{
++		return _FAIL;
++	}
++}
++
++int is_IBSS_empty(_adapter *padapter)
++{
++	unsigned int i;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	
++	for (i = IBSS_START_MAC_ID; i < NUM_STA; i++)
++	{
++		if (pmlmeinfo->FW_sta_info[i].status == 1)
++		{
++			return _FAIL;
++		}
++	}
++	
++	return _TRUE;
++	
++}
++
++unsigned int decide_wait_for_beacon_timeout(unsigned int bcn_interval)
++{
++	if ((bcn_interval << 2) < WAIT_FOR_BCN_TO_MIN)
++	{
++		return WAIT_FOR_BCN_TO_MIN;
++	} 
++	else if ((bcn_interval << 2) > WAIT_FOR_BCN_TO_MAX)
++	{
++		return WAIT_FOR_BCN_TO_MAX;
++	}	
++	else
++	{
++		return ((bcn_interval << 2));
++	}
++}
++
++void CAM_empty_entry(
++	PADAPTER     	Adapter,	
++	u8 			ucIndex
++)
++{
++	rtw_hal_set_hwreg(Adapter, HW_VAR_CAM_EMPTY_ENTRY, (u8 *)(&ucIndex));
++}
++
++void invalidate_cam_all(_adapter *padapter)
++{
++	rtw_hal_set_hwreg(padapter, HW_VAR_CAM_INVALID_ALL, 0);
++}
++#if 0
++static u32 _ReadCAM(_adapter *padapter ,u32 addr)
++{
++	u32 count = 0, cmd;
++	cmd = CAM_POLLINIG |addr ;
++	rtw_write32(padapter, RWCAM, cmd);
++
++	do{
++		if(0 == (rtw_read32(padapter,REG_CAMCMD) & CAM_POLLINIG)){
++			break;
++		}
++	}while(count++ < 100);		
++
++	return rtw_read32(padapter,REG_CAMREAD);	
++}
++void read_cam(_adapter *padapter ,u8 entry)
++{
++	u32	j,count = 0, addr, cmd;
++	addr = entry << 3;
++
++	printk("********* DUMP CAM Entry_#%02d***************\n",entry);
++	for (j = 0; j < 6; j++)
++	{	
++		cmd = _ReadCAM(padapter ,addr+j);
++		printk("offset:0x%02x => 0x%08x \n",addr+j,cmd);
++	}
++	printk("*********************************\n");
++}
++#endif
++
++void write_cam(_adapter *padapter, u8 entry, u16 ctrl, u8 *mac, u8 *key)
++{
++	unsigned int	i, val, addr;
++	//unsigned int    cmd;
++	int j;
++	u32	cam_val[2];
++
++	addr = entry << 3;
++
++	for (j = 5; j >= 0; j--)
++	{	
++		switch (j)
++		{
++			case 0:
++				val = (ctrl | (mac[0] << 16) | (mac[1] << 24) );
++				break;
++				
++			case 1:
++				val = (mac[2] | ( mac[3] << 8) | (mac[4] << 16) | (mac[5] << 24));
++				break;
++			
++			default:
++				i = (j - 2) << 2;
++				val = (key[i] | (key[i+1] << 8) | (key[i+2] << 16) | (key[i+3] << 24));
++				break;
++				
++		}
++
++		cam_val[0] = val;
++		cam_val[1] = addr + (unsigned int)j;
++
++		rtw_hal_set_hwreg(padapter, HW_VAR_CAM_WRITE, (u8 *)cam_val);
++		
++		//rtw_write32(padapter, WCAMI, val);
++		
++		//cmd = CAM_POLLINIG | CAM_WRITE | (addr + j);
++		//rtw_write32(padapter, RWCAM, cmd);
++		
++		//DBG_871X("%s=> cam write: %x, %x\n",__FUNCTION__, cmd, val);
++		
++	}
++
++}
++
++void clear_cam_entry(_adapter *padapter, u8 entry)
++{	
++#if 0
++	u32	addr, val=0;
++	u32	cam_val[2];
++
++	addr = entry << 3;
++	
++
++	cam_val[0] = val;
++	cam_val[1] = addr + (unsigned int)0;
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_CAM_WRITE, (u8 *)cam_val);
++
++
++
++	cam_val[0] = val;
++	cam_val[1] = addr + (unsigned int)1;
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_CAM_WRITE, (u8 *)cam_val);
++#else
++
++	unsigned char null_sta[] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
++
++	unsigned char null_key[] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,0x00, 0x00, 0x00, 0x00,0x00, 0x00, 0x00, 0x00};
++
++	write_cam(padapter, entry, 0, null_sta, null_key);
++
++#endif
++}
++
++int allocate_fw_sta_entry(_adapter *padapter)
++{
++	unsigned int mac_id;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	
++	for (mac_id = IBSS_START_MAC_ID; mac_id < NUM_STA; mac_id++)
++	{
++		if (pmlmeinfo->FW_sta_info[mac_id].status == 0)
++		{
++			pmlmeinfo->FW_sta_info[mac_id].status = 1;
++			pmlmeinfo->FW_sta_info[mac_id].retry = 0;
++			break;
++		}
++	}
++	
++	return mac_id;
++}
++
++void flush_all_cam_entry(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++#ifdef CONFIG_CONCURRENT_MODE
++
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	//if(check_buddy_mlmeinfo_state(padapter, _HW_STATE_NOLINK_))	
++	if(check_buddy_fwstate(padapter, _FW_LINKED) == _FALSE)
++	{
++		rtw_hal_set_hwreg(padapter, HW_VAR_CAM_INVALID_ALL, 0);		
++	}
++	else
++	{
++		if(check_fwstate(pmlmepriv, WIFI_STATION_STATE))
++		{
++			struct sta_priv	*pstapriv = &padapter->stapriv;
++			struct sta_info	*psta;
++			u8 cam_id;//cam_entry
++
++			psta = rtw_get_stainfo(pstapriv, pmlmeinfo->network.MacAddress);
++			if(psta) {
++				if(psta->state & WIFI_AP_STATE)
++				{}   //clear cam when ap free per sta_info        
++				else {
++					if(psta->mac_id==2)
++						cam_id = 5;
++					else
++						cam_id = 4;
++				}
++				//clear_cam_entry(padapter, cam_id);
++				rtw_clearstakey_cmd(padapter, (u8*)psta, cam_id, _FALSE);
++			}
++		}
++		else if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		{
++			//clear cam when ap free per sta_info 
++		}			
++	}
++#else //CONFIG_CONCURRENT_MODE
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_CAM_INVALID_ALL, 0);	
++
++#endif //CONFIG_CONCURRENT_MODE
++
++	_rtw_memset((u8 *)(pmlmeinfo->FW_sta_info), 0, sizeof(pmlmeinfo->FW_sta_info));
++
++}
++
++#if defined(CONFIG_P2P) && defined(CONFIG_WFD)
++int WFD_info_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs	pIE)
++{
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo;	
++	u8	wfd_ie[ 128 ] = { 0x00 };
++	u32	wfd_ielen = 0;
++
++
++	pwdinfo = &padapter->wdinfo;
++	if ( rtw_get_wfd_ie( ( u8* ) pIE, pIE->Length, wfd_ie, &wfd_ielen ) )
++	{
++		u8	attr_content[ 10 ] = { 0x00 };
++		u32	attr_contentlen = 0;
++			
++		printk( "[%s] Found WFD IE\n", __FUNCTION__ );
++		rtw_get_wfd_attr_content( wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, attr_content, &attr_contentlen);
++		if ( attr_contentlen )
++		{
++			pwdinfo->wfd_info->peer_rtsp_ctrlport = RTW_GET_BE16( attr_content + 2 );
++			DBG_8192C( "[%s] Peer PORT NUM = %d\n", __FUNCTION__, pwdinfo->wfd_info->peer_rtsp_ctrlport );
++			return( _TRUE );
++		}		
++	}
++	else
++	{
++		printk( "[%s] NO WFD IE\n", __FUNCTION__ );
++
++	}
++	return( _FAIL );
++}
++#endif
++
++int WMM_param_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs	pIE)
++{
++	//struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);	
++	
++	if(pmlmepriv->qospriv.qos_option==0)
++	{
++		pmlmeinfo->WMM_enable = 0;
++		return _FAIL;
++	}	
++
++	pmlmeinfo->WMM_enable = 1;
++	_rtw_memcpy(&(pmlmeinfo->WMM_param), (pIE->data + 6), sizeof(struct WMM_para_element));
++	return _TRUE;
++
++	/*if (pregpriv->wifi_spec == 1)
++	{
++		if (pmlmeinfo->WMM_enable == 1)
++		{
++			//todo: compare the parameter set count & decide wheher to update or not
++			return _FAIL;
++		}
++		else
++		{
++			pmlmeinfo->WMM_enable = 1;
++			_rtw_rtw_memcpy(&(pmlmeinfo->WMM_param), (pIE->data + 6), sizeof(struct WMM_para_element));
++			return _TRUE;
++		}
++	}
++	else
++	{
++		pmlmeinfo->WMM_enable = 0;
++		return _FAIL;
++	}*/
++	
++}
++
++void WMMOnAssocRsp(_adapter *padapter)
++{
++	u8	ACI, ACM, AIFS, ECWMin, ECWMax, aSifsTime;
++	u8	acm_mask;
++	u16	TXOP;
++	u32	acParm, i;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (pmlmeinfo->WMM_enable == 0)
++	{
++		padapter->mlmepriv.acm_mask = 0;
++		return;
++	}
++
++	acm_mask = 0;
++
++	if( pmlmeext->cur_wireless_mode == WIRELESS_11B)
++		aSifsTime = 10;
++	else
++		aSifsTime = 16;
++
++	for (i = 0; i < 4; i++)  
++	{
++		ACI = (pmlmeinfo->WMM_param.ac_param[i].ACI_AIFSN >> 5) & 0x03;
++		ACM = (pmlmeinfo->WMM_param.ac_param[i].ACI_AIFSN >> 4) & 0x01;
++
++		//AIFS = AIFSN * slot time + SIFS - r2t phy delay
++		AIFS = (pmlmeinfo->WMM_param.ac_param[i].ACI_AIFSN & 0x0f) * pmlmeinfo->slotTime + aSifsTime;
++
++		ECWMin = (pmlmeinfo->WMM_param.ac_param[i].CW & 0x0f);
++		ECWMax = (pmlmeinfo->WMM_param.ac_param[i].CW & 0xf0) >> 4;
++		TXOP = le16_to_cpu(pmlmeinfo->WMM_param.ac_param[i].TXOP_limit);
++
++		acParm = AIFS | (ECWMin << 8) | (ECWMax << 12) | (TXOP << 16);
++
++		switch (ACI)
++		{
++			case 0x0:
++				rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acParm));
++				acm_mask |= (ACM? BIT(1):0);
++				break;
++
++			case 0x1:
++				rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BK, (u8 *)(&acParm));
++				//acm_mask |= (ACM? BIT(0):0);
++				break;
++
++			case 0x2:
++				rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VI, (u8 *)(&acParm));
++				acm_mask |= (ACM? BIT(2):0);
++				break;
++
++			case 0x3:
++				rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VO, (u8 *)(&acParm));
++				acm_mask |= (ACM? BIT(3):0);
++				break;							
++		}
++
++		DBG_871X("WMM(%x): %x, %x\n", ACI, ACM, acParm);
++	}
++
++	if(padapter->registrypriv.acm_method == 1)
++		rtw_hal_set_hwreg(padapter, HW_VAR_ACM_CTRL, (u8 *)(&acm_mask));
++	else
++		padapter->mlmepriv.acm_mask = acm_mask;
++
++	return;	
++}
++
++static void bwmode_update_check(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE)
++{
++	unsigned char	 new_bwmode;
++	unsigned char  new_ch_offset;
++	struct HT_info_element	 *pHT_info;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	struct ht_priv			*phtpriv = &pmlmepriv->htpriv;
++	u8 cbw40_enable=0;
++
++	if(!pIE)
++		return;
++
++	if(phtpriv->ht_option == _FALSE)	return;
++
++	if(pIE->Length > sizeof(struct HT_info_element))
++		return;
++	
++	pHT_info = (struct HT_info_element *)pIE->data;
++
++	if (pmlmeext->cur_channel > 14) {
++		if (pregistrypriv->cbw40_enable & BIT(1))
++			cbw40_enable = 1;
++	} else {
++		if (pregistrypriv->cbw40_enable & BIT(0))
++			cbw40_enable = 1;
++	}
++	
++	if((pHT_info->infos[0] & BIT(2)) && cbw40_enable )
++	{
++		new_bwmode = HT_CHANNEL_WIDTH_40;
++
++		switch (pHT_info->infos[0] & 0x3)
++		{
++			case 1:
++				new_ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++				break;
++			
++			case 3:
++				new_ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++				break;
++				
++			default:
++				new_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++				break;
++		}
++	}
++	else
++	{
++		new_bwmode = HT_CHANNEL_WIDTH_20;
++		new_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	}	
++
++	
++	if((new_bwmode!= pmlmeext->cur_bwmode) || (new_ch_offset!=pmlmeext->cur_ch_offset))
++	{
++		pmlmeinfo->bwmode_updated = _TRUE;
++		
++		pmlmeext->cur_bwmode = new_bwmode;
++		pmlmeext->cur_ch_offset = new_ch_offset;
++
++		//update HT info also
++		HT_info_handler(padapter, pIE);
++	}
++	else
++	{
++		pmlmeinfo->bwmode_updated = _FALSE;
++	}
++		
++
++	if(_TRUE == pmlmeinfo->bwmode_updated)
++	{
++		struct sta_info *psta;
++		WLAN_BSSID_EX 	*cur_network = &(pmlmeinfo->network);
++		struct sta_priv	*pstapriv = &padapter->stapriv;
++	
++		//set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++
++		
++		//update ap's stainfo
++		psta = rtw_get_stainfo(pstapriv, cur_network->MacAddress);
++		if(psta)
++		{
++			struct ht_priv	*phtpriv_sta = &psta->htpriv;
++			
++			if(phtpriv_sta->ht_option)
++			{				
++				// bwmode				
++				phtpriv_sta->bwmode = pmlmeext->cur_bwmode;
++				phtpriv_sta->ch_offset = pmlmeext->cur_ch_offset;		
++			}
++			else
++			{
++				phtpriv_sta->bwmode = HT_CHANNEL_WIDTH_20;
++				phtpriv_sta->ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++			}
++			
++		}
++
++		//pmlmeinfo->bwmode_updated = _FALSE;//bwmode_updated done, reset it!
++		
++	}	
++
++}
++
++void HT_caps_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE)
++{
++	unsigned int	i;
++	u8	rf_type;
++	u8	max_AMPDU_len, min_MPDU_spacing;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv 		*pmlmepriv = &padapter->mlmepriv;	
++	struct ht_priv			*phtpriv = &pmlmepriv->htpriv;
++	struct registry_priv 	*pregistrypriv = &padapter->registrypriv;
++	
++	if(pIE==NULL) return;
++	
++	if(phtpriv->ht_option == _FALSE)	return;
++
++	pmlmeinfo->HT_caps_enable = 1;
++	
++	for (i = 0; i < (pIE->Length); i++)
++	{
++		if (i != 2)
++		{
++			//	Commented by Albert 2010/07/12
++			//	Got the endian issue here.
++			pmlmeinfo->HT_caps.u.HT_cap[i] &= (pIE->data[i]);
++		}
++		else
++		{
++			//modify from  fw by Thomas 2010/11/17
++			if ((pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x3) > (pIE->data[i] & 0x3))
++			{
++				max_AMPDU_len = (pIE->data[i] & 0x3);
++			}
++			else
++			{
++				max_AMPDU_len = (pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x3);
++			}
++			
++			if ((pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x1c) > (pIE->data[i] & 0x1c))
++			{
++				min_MPDU_spacing = (pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x1c);
++			}
++			else
++			{
++				min_MPDU_spacing = (pIE->data[i] & 0x1c);
++			}
++
++			pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para = max_AMPDU_len | min_MPDU_spacing;
++		}
++	}
++
++	//	Commented by Albert 2010/07/12
++	//	Have to handle the endian issue after copying.
++	//	HT_ext_caps didn't be used yet.	
++	pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info = le16_to_cpu( pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info );
++	pmlmeinfo->HT_caps.u.HT_cap_element.HT_ext_caps = le16_to_cpu( pmlmeinfo->HT_caps.u.HT_cap_element.HT_ext_caps );
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++	//update the MCS rates
++	for (i = 0; i < 16; i++)
++	{
++		if((rf_type == RF_1T1R) || (rf_type == RF_1T2R))
++		{
++			pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate[i] &= MCS_rate_1R[i];
++		}
++		else
++		{
++			#ifdef CONFIG_DISABLE_MCS13TO15
++			if(pmlmeext->cur_bwmode == HT_CHANNEL_WIDTH_40 && (pregistrypriv->wifi_spec!=1))
++				pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate[i] &= MCS_rate_2R_MCS13TO15_OFF[i];
++			else
++			pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate[i] &= MCS_rate_2R[i];
++			#else
++			pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate[i] &= MCS_rate_2R[i];
++			#endif //CONFIG_DISABLE_MCS13TO15
++		}
++	        #ifdef RTL8192C_RECONFIG_TO_1T1R
++		{
++			pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate[i] &= MCS_rate_1R[i];
++		}
++		#endif
++
++		if(pregistrypriv->special_rf_path)
++			pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate[i] &= MCS_rate_1R[i];
++
++	}
++	
++	return;
++}
++
++void HT_info_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv 		*pmlmepriv = &padapter->mlmepriv;	
++	struct ht_priv			*phtpriv = &pmlmepriv->htpriv;
++
++	if(pIE==NULL) return;
++
++	if(phtpriv->ht_option == _FALSE)	return;
++
++
++	if(pIE->Length > sizeof(struct HT_info_element))
++		return;
++	
++	pmlmeinfo->HT_info_enable = 1;
++	_rtw_memcpy(&(pmlmeinfo->HT_info), pIE->data, pIE->Length);
++	
++	return;
++}
++
++void HTOnAssocRsp(_adapter *padapter)
++{
++	unsigned char		max_AMPDU_len;
++	unsigned char		min_MPDU_spacing;
++	//struct registry_priv	 *pregpriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	
++	DBG_871X("%s\n", __FUNCTION__);
++
++	if ((pmlmeinfo->HT_info_enable) && (pmlmeinfo->HT_caps_enable))
++	{
++		pmlmeinfo->HT_enable = 1;
++	}
++	else
++	{
++		pmlmeinfo->HT_enable = 0;
++		//set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++		return;
++	}
++	
++	//handle A-MPDU parameter field
++	/* 	
++		AMPDU_para [1:0]:Max AMPDU Len => 0:8k , 1:16k, 2:32k, 3:64k
++		AMPDU_para [4:2]:Min MPDU Start Spacing	
++	*/
++	max_AMPDU_len = pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x03;	
++	
++	min_MPDU_spacing = (pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x1c) >> 2;	
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_AMPDU_MIN_SPACE, (u8 *)(&min_MPDU_spacing));
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_AMPDU_FACTOR, (u8 *)(&max_AMPDU_len));
++
++#if 0 //move to rtw_update_ht_cap()
++	if ((pregpriv->cbw40_enable) &&
++		(pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info & BIT(1)) && 
++		(pmlmeinfo->HT_info.infos[0] & BIT(2)))
++	{
++		//switch to the 40M Hz mode accoring to the AP
++		pmlmeext->cur_bwmode = HT_CHANNEL_WIDTH_40;
++		switch ((pmlmeinfo->HT_info.infos[0] & 0x3))
++		{
++			case HT_EXTCHNL_OFFSET_UPPER:
++				pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++				break;
++			
++			case HT_EXTCHNL_OFFSET_LOWER:
++				pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++				break;
++				
++			default:
++				pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++				break;
++		}
++		
++		//SelectChannel(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset);
++	}
++#endif
++
++	//set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++
++#if 0 //move to rtw_update_ht_cap()
++	//
++	// Config SM Power Save setting
++	//
++	pmlmeinfo->SM_PS = (pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info & 0x0C) >> 2;
++	if(pmlmeinfo->SM_PS == WLAN_HT_CAP_SM_PS_STATIC)
++	{
++		/*u8 i;
++		//update the MCS rates
++		for (i = 0; i < 16; i++)
++		{
++			pmlmeinfo->HT_caps.HT_cap_element.MCS_rate[i] &= MCS_rate_1R[i];
++		}*/
++		DBG_871X("%s(): WLAN_HT_CAP_SM_PS_STATIC\n",__FUNCTION__);
++	}
++
++	//
++	// Config current HT Protection mode.
++	//
++	pmlmeinfo->HT_protection = pmlmeinfo->HT_info.infos[1] & 0x3;
++#endif
++	
++}
++
++void ERP_IE_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if(pIE->Length>1)
++		return;
++	
++	pmlmeinfo->ERP_enable = 1;
++	_rtw_memcpy(&(pmlmeinfo->ERP_IE), pIE->data, pIE->Length);
++}
++
++void VCS_update(_adapter *padapter, struct sta_info *psta)
++{
++	struct registry_priv	 *pregpriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	switch (pregpriv->vrtl_carrier_sense)/* 0:off 1:on 2:auto */
++	{
++		case 0: //off
++			psta->rtsen = 0;
++			psta->cts2self = 0;
++			break;
++			
++		case 1: //on
++			if (pregpriv->vcs_type == 1) /* 1:RTS/CTS 2:CTS to self */
++			{
++				psta->rtsen = 1;
++				psta->cts2self = 0;
++			}
++			else
++			{
++				psta->rtsen = 0;
++				psta->cts2self = 1;
++			}
++			break;
++			
++		case 2: //auto
++		default:
++			if ((pmlmeinfo->ERP_enable) && (pmlmeinfo->ERP_IE & BIT(1)))
++			{
++				if (pregpriv->vcs_type == 1)
++				{
++					psta->rtsen = 1;
++					psta->cts2self = 0;
++				}
++				else
++				{
++					psta->rtsen = 0;
++					psta->cts2self = 1;
++				}
++			}
++			else
++			{
++				psta->rtsen = 0;
++				psta->cts2self = 0;
++			}	
++			break;
++	}
++}
++
++#ifdef CONFIG_TDLS
++int check_ap_tdls_prohibited(u8 *pframe, u8 pkt_len)
++{
++	u8 tdls_prohibited_bit = 0x40; //bit(38); TDLS_prohibited
++
++	if(pkt_len < 5)
++	{
++		return _FALSE;
++	}
++
++	pframe += 4;
++	if( (*pframe) & tdls_prohibited_bit )
++		return _TRUE;
++
++	return _FALSE;
++}
++#endif //CONFIG_TDLS
++
++void update_beacon_info(_adapter *padapter, u8 *pframe, uint pkt_len, struct sta_info *psta)
++{
++	unsigned int i;
++	unsigned int len;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++		
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	u8 tdls_prohibited[] = { 0x00, 0x00, 0x00, 0x00, 0x10 }; //bit(38): TDLS_prohibited
++#endif //CONFIG_TDLS
++
++	len = pkt_len - (_BEACON_IE_OFFSET_ + WLAN_HDR_A3_LEN);
++
++	for (i = 0; i < len;)
++	{
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pframe + (_BEACON_IE_OFFSET_ + WLAN_HDR_A3_LEN) + i);
++		
++		switch (pIE->ElementID)
++		{
++#if 0			
++			case _VENDOR_SPECIFIC_IE_:		
++				//todo: to update WMM paramter set while receiving beacon			
++				if (_rtw_memcmp(pIE->data, WMM_PARA_OUI, 6))	//WMM
++				{
++					(WMM_param_handler(padapter, pIE))? WMMOnAssocRsp(padapter): 0;
++				}				
++				break;
++#endif
++
++			case _HT_EXTRA_INFO_IE_:	//HT info				
++				//HT_info_handler(padapter, pIE);
++				bwmode_update_check(padapter, pIE);
++				break;
++
++			case _ERPINFO_IE_:
++				ERP_IE_handler(padapter, pIE);
++				VCS_update(padapter, psta);
++				break;
++				
++#ifdef CONFIG_TDLS
++			case _EXT_CAP_IE_:
++				if( check_ap_tdls_prohibited(pIE->data, pIE->Length) == _TRUE )
++					ptdlsinfo->ap_prohibited = _TRUE;
++				break;
++#endif //CONFIG_TDLS
++			default:
++				break;
++		}
++		
++		i += (pIE->Length + 2);
++	}
++}
++
++#ifdef CONFIG_DFS
++void process_csa_ie(_adapter *padapter, u8 *pframe, uint pkt_len)
++{
++	unsigned int i;
++	unsigned int len;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 new_ch_no = 0; 
++		
++	len = pkt_len - (_BEACON_IE_OFFSET_ + WLAN_HDR_A3_LEN);
++
++	for (i = 0; i < len;)
++	{
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pframe + (_BEACON_IE_OFFSET_ + WLAN_HDR_A3_LEN) + i);
++		
++		switch (pIE->ElementID)
++		{
++			case _CH_SWTICH_ANNOUNCE_:
++				_rtw_memcpy(&new_ch_no, pIE->data+1, 1);
++				rtw_set_csa_cmd(padapter, new_ch_no);
++				break;
++
++			default:
++				break;
++		}
++		
++		i += (pIE->Length + 2);
++	}
++}
++#endif //CONFIG_DFS
++
++unsigned int is_ap_in_tkip(_adapter *padapter)
++{
++	u32 i;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX 		*cur_network = &(pmlmeinfo->network);
++
++	if (rtw_get_capability((WLAN_BSSID_EX *)cur_network) & WLAN_CAPABILITY_PRIVACY)
++	{
++		for (i = sizeof(NDIS_802_11_FIXED_IEs); i < pmlmeinfo->network.IELength;)
++		{
++			pIE = (PNDIS_802_11_VARIABLE_IEs)(pmlmeinfo->network.IEs + i);
++		
++			switch (pIE->ElementID)
++			{
++				case _VENDOR_SPECIFIC_IE_:
++					if ((_rtw_memcmp(pIE->data, RTW_WPA_OUI, 4)) && (_rtw_memcmp((pIE->data + 12), WPA_TKIP_CIPHER, 4))) 
++					{
++						return _TRUE;
++					}
++					break;
++				
++				case _RSN_IE_2_:
++					if (_rtw_memcmp((pIE->data + 8), RSN_TKIP_CIPHER, 4)) 
++					{
++						return _TRUE;
++					}
++					
++				default:
++					break;
++			}
++		
++			i += (pIE->Length + 2);
++		}
++		
++		return _FALSE;
++	}
++	else
++	{
++		return _FALSE;
++	}
++	
++}
++
++int wifirate2_ratetbl_inx(unsigned char rate);
++int wifirate2_ratetbl_inx(unsigned char rate)
++{
++	int	inx = 0;
++	rate = rate & 0x7f;
++
++	switch (rate) 
++	{
++		case 54*2:
++			inx = 11;
++			break;
++
++		case 48*2:
++			inx = 10;
++			break;
++
++		case 36*2:
++			inx = 9;
++			break;
++
++		case 24*2:
++			inx = 8;
++			break;
++			
++		case 18*2:
++			inx = 7;
++			break;
++
++		case 12*2:
++			inx = 6;
++			break;
++
++		case 9*2:
++			inx = 5;
++			break;
++			
++		case 6*2:
++			inx = 4;
++			break;
++
++		case 11*2:
++			inx = 3;
++			break;
++		case 11:
++			inx = 2;
++			break;
++
++		case 2*2:
++			inx = 1;
++			break;
++		
++		case 1*2:
++			inx = 0;
++			break;
++
++	}
++	return inx;	
++}
++
++unsigned int update_basic_rate(unsigned char *ptn, unsigned int ptn_sz)
++{
++	unsigned int i, num_of_rate;
++	unsigned int mask = 0;
++	
++	num_of_rate = (ptn_sz > NumRates)? NumRates: ptn_sz;
++		
++	for (i = 0; i < num_of_rate; i++)
++	{
++		if ((*(ptn + i)) & 0x80)
++		{
++			mask |= 0x1 << wifirate2_ratetbl_inx(*(ptn + i));
++		}
++	}
++	return mask;
++}
++
++unsigned int update_supported_rate(unsigned char *ptn, unsigned int ptn_sz)
++{
++	unsigned int i, num_of_rate;
++	unsigned int mask = 0;
++	
++	num_of_rate = (ptn_sz > NumRates)? NumRates: ptn_sz;
++		
++	for (i = 0; i < num_of_rate; i++)
++	{
++		mask |= 0x1 << wifirate2_ratetbl_inx(*(ptn + i));
++	}
++
++	return mask;
++}
++
++unsigned int update_MSC_rate(struct HT_caps_element *pHT_caps)
++{
++	unsigned int mask = 0;
++	
++	mask = ((pHT_caps->u.HT_cap_element.MCS_rate[0] << 12) | (pHT_caps->u.HT_cap_element.MCS_rate[1] << 20));
++						
++	return mask;
++}
++
++int support_short_GI(_adapter *padapter, struct HT_caps_element *pHT_caps)
++{
++	unsigned char					bit_offset;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	
++	if (!(pmlmeinfo->HT_enable))
++		return _FAIL;
++	
++	if ((pmlmeinfo->assoc_AP_vendor == ralinkAP))
++		return _FAIL;
++		
++	bit_offset = (pmlmeext->cur_bwmode & HT_CHANNEL_WIDTH_40)? 6: 5;
++	
++	if (pHT_caps->u.HT_cap_element.HT_caps_info & (0x1 << bit_offset))
++	{
++		return _SUCCESS;
++	}
++	else
++	{
++		return _FAIL;
++	}		
++}
++
++unsigned char get_highest_rate_idx(u32 mask)
++{
++	int i;
++	unsigned char rate_idx=0;
++
++	for(i=27; i>=0; i--)
++	{
++		if(mask & BIT(i))
++		{
++			rate_idx = i;
++			break;
++		}
++	}
++
++	return rate_idx;
++}
++
++unsigned char get_highest_mcs_rate(struct HT_caps_element *pHT_caps);
++unsigned char get_highest_mcs_rate(struct HT_caps_element *pHT_caps)
++{
++	int i, mcs_rate;
++	
++	mcs_rate = (pHT_caps->u.HT_cap_element.MCS_rate[0] | (pHT_caps->u.HT_cap_element.MCS_rate[1] << 8));
++	
++	for (i = 15; i >= 0; i--)
++	{
++		if (mcs_rate & (0x1 << i))
++		{
++			break;
++		}
++	}
++	
++	return i;
++}
++
++void Update_RA_Entry(_adapter *padapter, u32 mac_id)
++{
++	rtw_hal_update_ra_mask(padapter, mac_id);
++}
++
++void enable_rate_adaptive(_adapter *padapter, u32 mac_id);
++void enable_rate_adaptive(_adapter *padapter, u32 mac_id)
++{
++	Update_RA_Entry(padapter, mac_id);
++}
++
++void set_sta_rate(_adapter *padapter, struct sta_info *psta)
++{
++	//rate adaptive	
++	enable_rate_adaptive(padapter, psta->mac_id);
++}
++
++// Update RRSR and Rate for USERATE
++void update_tx_basic_rate(_adapter *padapter, u8 wirelessmode)
++{
++	NDIS_802_11_RATES_EX	supported_rates;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info*	pwdinfo = &padapter->wdinfo;
++
++	//	Added by Albert 2011/03/22
++	//	In the P2P mode, the driver should not support the b mode.
++	//	So, the Tx packet shouldn't use the CCK rate
++	if(!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++#endif //CONFIG_P2P
++#ifdef CONFIG_INTEL_WIDI
++	if (padapter->mlmepriv.widi_state != INTEL_WIDI_STATE_NONE)
++		return;
++#endif //CONFIG_INTEL_WIDI
++
++	_rtw_memset(supported_rates, 0, NDIS_802_11_LENGTH_RATES_EX);
++
++	//clear B mod if current channel is in 5G band, avoid tx cck rate in 5G band.
++	if(pmlmeext->cur_channel > 14)
++		wirelessmode &= ~(WIRELESS_11B);
++
++	if ((wirelessmode & WIRELESS_11B) && (wirelessmode == WIRELESS_11B)) {
++		_rtw_memcpy(supported_rates, rtw_basic_rate_cck, 4);
++	} else if (wirelessmode & WIRELESS_11B) {
++		_rtw_memcpy(supported_rates, rtw_basic_rate_mix, 7);
++	} else {
++		_rtw_memcpy(supported_rates, rtw_basic_rate_ofdm, 3);
++	}
++
++	if (wirelessmode & WIRELESS_11B)
++		update_mgnt_tx_rate(padapter, IEEE80211_CCK_RATE_1MB);
++	else
++		update_mgnt_tx_rate(padapter, IEEE80211_OFDM_RATE_6MB);
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_BASIC_RATE, supported_rates);
++}
++
++unsigned char check_assoc_AP(u8 *pframe, uint len)
++{
++	unsigned int	i;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++
++	for (i = sizeof(NDIS_802_11_FIXED_IEs); i < len;)
++	{
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pframe + i);
++		
++		switch (pIE->ElementID)
++		{
++			case _VENDOR_SPECIFIC_IE_:
++				if ((_rtw_memcmp(pIE->data, ARTHEROS_OUI1, 3)) || (_rtw_memcmp(pIE->data, ARTHEROS_OUI2, 3)))
++				{
++					DBG_871X("link to Artheros AP\n");
++					return atherosAP;
++				}
++				else if ((_rtw_memcmp(pIE->data, BROADCOM_OUI1, 3))
++							|| (_rtw_memcmp(pIE->data, BROADCOM_OUI2, 3))
++							|| (_rtw_memcmp(pIE->data, BROADCOM_OUI2, 3)))
++				{
++					DBG_871X("link to Broadcom AP\n");
++					return broadcomAP;
++				}
++				else if (_rtw_memcmp(pIE->data, MARVELL_OUI, 3))
++				{
++					DBG_871X("link to Marvell AP\n");
++					return marvellAP;
++				}
++				else if (_rtw_memcmp(pIE->data, RALINK_OUI, 3))
++				{
++					DBG_871X("link to Ralink AP\n");
++					return ralinkAP;
++				}
++				else if (_rtw_memcmp(pIE->data, CISCO_OUI, 3))
++				{
++					DBG_871X("link to Cisco AP\n");
++					return ciscoAP;
++				}
++				else if (_rtw_memcmp(pIE->data, REALTEK_OUI, 3))
++				{
++					DBG_871X("link to Realtek 96B\n");
++					return realtekAP;
++				}
++				else if (_rtw_memcmp(pIE->data, AIRGOCAP_OUI,3))
++				{
++					DBG_871X("link to Airgo Cap\n");
++					return airgocapAP;
++				}
++				else
++				{
++					break;
++				}
++						
++			default:
++				break;
++		}
++				
++		i += (pIE->Length + 2);
++	}
++	
++	DBG_871X("link to new AP\n");
++	return unknownAP;
++}
++
++void update_IOT_info(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	
++	switch (pmlmeinfo->assoc_AP_vendor)
++	{
++		case marvellAP:
++			pmlmeinfo->turboMode_cts2self = 1;
++			pmlmeinfo->turboMode_rtsen = 0;
++			break;
++		
++		case ralinkAP:
++			pmlmeinfo->turboMode_cts2self = 0;
++			pmlmeinfo->turboMode_rtsen = 1;
++			//disable high power			
++			Switch_DM_Func(padapter, (~DYNAMIC_FUNC_HP), _FALSE);
++			break;
++		case realtekAP:
++			//rtw_write16(padapter, 0x4cc, 0xffff);
++			//rtw_write16(padapter, 0x546, 0x01c0);
++			//disable high power			
++			Switch_DM_Func(padapter, (~DYNAMIC_FUNC_HP), _FALSE);
++			break;
++		default:
++			pmlmeinfo->turboMode_cts2self = 0;
++			pmlmeinfo->turboMode_rtsen = 1;
++			break;	
++	}
++	
++}
++
++void update_capinfo(PADAPTER Adapter, u16 updateCap)
++{
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	BOOLEAN		ShortPreamble;
++
++	// Check preamble mode, 2005.01.06, by rcnjko.
++	// Mark to update preamble value forever, 2008.03.18 by lanhsin
++	//if( pMgntInfo->RegPreambleMode == PREAMBLE_AUTO )
++	{
++			
++		if(updateCap & cShortPreamble)
++		{ // Short Preamble
++			if(pmlmeinfo->preamble_mode != PREAMBLE_SHORT) // PREAMBLE_LONG or PREAMBLE_AUTO
++			{
++				ShortPreamble = _TRUE;
++				pmlmeinfo->preamble_mode = PREAMBLE_SHORT;
++				rtw_hal_set_hwreg( Adapter, HW_VAR_ACK_PREAMBLE, (u8 *)&ShortPreamble );
++			}
++		}
++		else
++		{ // Long Preamble
++			if(pmlmeinfo->preamble_mode != PREAMBLE_LONG)  // PREAMBLE_SHORT or PREAMBLE_AUTO
++			{
++				ShortPreamble = _FALSE;
++				pmlmeinfo->preamble_mode = PREAMBLE_LONG;
++				rtw_hal_set_hwreg( Adapter, HW_VAR_ACK_PREAMBLE, (u8 *)&ShortPreamble );
++			}
++		}
++	}
++
++	if ( updateCap & cIBSS ) {
++		//Filen: See 802.11-2007 p.91
++		pmlmeinfo->slotTime = NON_SHORT_SLOT_TIME;
++	}
++	else
++	{
++		//Filen: See 802.11-2007 p.90
++		if( pmlmeext->cur_wireless_mode & (WIRELESS_11G | WIRELESS_11_24N))
++		{
++			if( (updateCap & cShortSlotTime) /* && (!(pMgntInfo->pHTInfo->RT2RT_HT_Mode & RT_HT_CAP_USE_LONG_PREAMBLE)) */)
++			{ // Short Slot Time
++				if(pmlmeinfo->slotTime != SHORT_SLOT_TIME)
++				{
++					pmlmeinfo->slotTime = SHORT_SLOT_TIME;
++				}
++			}
++			else
++			{ // Long Slot Time
++				if(pmlmeinfo->slotTime != NON_SHORT_SLOT_TIME)
++				{
++					pmlmeinfo->slotTime = NON_SHORT_SLOT_TIME;
++				}
++			}
++		}
++		else if( pmlmeext->cur_wireless_mode & (WIRELESS_11A | WIRELESS_11_5N))
++		{
++			pmlmeinfo->slotTime = SHORT_SLOT_TIME;
++		}
++		else
++		{
++			//B Mode
++			pmlmeinfo->slotTime = NON_SHORT_SLOT_TIME;
++		}
++ 	}
++ 
++	rtw_hal_set_hwreg( Adapter, HW_VAR_SLOT_TIME, &pmlmeinfo->slotTime );
++
++}
++
++void update_wireless_mode(_adapter *padapter)
++{
++	u8	init_rate=0;
++	int	ratelen, network_type = 0;
++	u32	SIFS_Timer, mask;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX 		*cur_network = &(pmlmeinfo->network);
++	unsigned char			*rate = cur_network->SupportedRates;
++#ifdef CONFIG_CONCURRENT_MODE
++	_adapter *pbuddy_adapter = padapter->pbuddy_adapter;
++#endif //CONFIG_CONCURRENT_MODE
++
++	ratelen = rtw_get_rateset_len(cur_network->SupportedRates);
++
++	if ((pmlmeinfo->HT_info_enable) && (pmlmeinfo->HT_caps_enable))
++	{
++		pmlmeinfo->HT_enable = 1;
++	}
++
++	if(pmlmeext->cur_channel > 14)
++	{
++		if (pmlmeinfo->HT_enable)
++		{
++			network_type = WIRELESS_11_5N;
++		}
++
++		network_type |= WIRELESS_11A;
++	}
++	else
++	{
++		if (pmlmeinfo->HT_enable)
++		{
++			network_type = WIRELESS_11_24N;
++		}
++	
++		if ((cckratesonly_included(rate, ratelen)) == _TRUE)
++		{
++			network_type |= WIRELESS_11B;
++		}
++		else if((cckrates_included(rate, ratelen)) == _TRUE)
++		{
++			network_type |= WIRELESS_11BG;
++		}
++		else
++		{
++			network_type |= WIRELESS_11G;
++		}
++	}
++
++	pmlmeext->cur_wireless_mode = network_type & padapter->registrypriv.wireless_mode;
++
++	//For STA mode, driver need to modify initial data rate, or MAC will use wrong tx rate.
++	//Modified by Thomas 2012-12-3
++	mask = update_supported_rate(cur_network->SupportedRates, ratelen);
++	init_rate = get_highest_rate_idx(mask)&0x3f;
++	rtw_hal_set_hwreg( padapter, HW_VAR_INIT_DATA_RATE,  (u8 *)&init_rate);
++	
++/*
++	if((pmlmeext->cur_wireless_mode==WIRELESS_11G) ||
++		(pmlmeext->cur_wireless_mode==WIRELESS_11BG))//WIRELESS_MODE_G)
++		SIFS_Timer = 0x0a0a;//CCK
++	else
++		SIFS_Timer = 0x0e0e;//pHalData->SifsTime; //OFDM
++*/
++	
++	SIFS_Timer = 0x0a0a0808; //0x0808 -> for CCK, 0x0a0a -> for OFDM
++                             //change this value if having IOT issues.
++		
++	rtw_hal_set_hwreg( padapter, HW_VAR_RESP_SIFS,  (u8 *)&SIFS_Timer);
++
++	if (pmlmeext->cur_wireless_mode & WIRELESS_11B)
++		update_mgnt_tx_rate(padapter, IEEE80211_CCK_RATE_1MB);
++	else
++	{
++		update_mgnt_tx_rate(padapter, IEEE80211_OFDM_RATE_6MB);
++#ifdef CONFIG_CONCURRENT_MODE
++		if(pbuddy_adapter && (pmlmeext->cur_wireless_mode & WIRELESS_11A))
++			update_mgnt_tx_rate(pbuddy_adapter, IEEE80211_OFDM_RATE_6MB);
++#endif //CONFIG_CONCURRENT_MODE
++	}
++}
++
++void fire_write_MAC_cmd(_adapter *padapter, unsigned int addr, unsigned int value);
++void fire_write_MAC_cmd(_adapter *padapter, unsigned int addr, unsigned int value)
++{
++#if 0
++	struct cmd_obj					*ph2c;
++	struct reg_rw_parm			*pwriteMacPara;
++	struct cmd_priv					*pcmdpriv = &(padapter->cmdpriv);
++
++	if ((ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj))) == NULL)
++	{
++		return;
++	}	
++
++	if ((pwriteMacPara = (struct reg_rw_parm*)rtw_malloc(sizeof(struct reg_rw_parm))) == NULL) 
++	{		
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		return;
++	}
++	
++	pwriteMacPara->rw = 1;
++	pwriteMacPara->addr = addr;
++	pwriteMacPara->value = value;
++	
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pwriteMacPara, GEN_CMD_CODE(_Write_MACREG));
++	rtw_enqueue_cmd(pcmdpriv, ph2c);
++#endif	
++}
++
++void update_bmc_sta_support_rate(_adapter *padapter, u32 mac_id)
++{
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if(pmlmeext->cur_wireless_mode & WIRELESS_11B)
++	{
++		// Only B, B/G, and B/G/N AP could use CCK rate
++		_rtw_memcpy((pmlmeinfo->FW_sta_info[mac_id].SupportedRates), rtw_basic_rate_cck, 4);
++	}
++	else
++	{
++		_rtw_memcpy((pmlmeinfo->FW_sta_info[mac_id].SupportedRates), rtw_basic_rate_ofdm, 3);
++	}
++}
++
++int update_sta_support_rate(_adapter *padapter, u8* pvar_ie, uint var_ie_len, int cam_idx)
++{
++	unsigned int	ie_len;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	int	supportRateNum = 0;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	
++	pIE = (PNDIS_802_11_VARIABLE_IEs)rtw_get_ie(pvar_ie, _SUPPORTEDRATES_IE_, &ie_len, var_ie_len);
++	if (pIE == NULL)
++	{
++		return _FAIL;
++	}
++	
++	_rtw_memcpy(pmlmeinfo->FW_sta_info[cam_idx].SupportedRates, pIE->data, ie_len);
++	supportRateNum = ie_len;
++				
++	pIE = (PNDIS_802_11_VARIABLE_IEs)rtw_get_ie(pvar_ie, _EXT_SUPPORTEDRATES_IE_, &ie_len, var_ie_len);
++	if (pIE)
++	{
++		_rtw_memcpy((pmlmeinfo->FW_sta_info[cam_idx].SupportedRates + supportRateNum), pIE->data, ie_len);
++	}
++
++	return _SUCCESS;
++	
++}
++
++void process_addba_req(_adapter *padapter, u8 *paddba_req, u8 *addr)
++{
++	struct sta_info *psta;
++	u16 tid, start_seq, param;	
++	struct recv_reorder_ctrl *preorder_ctrl;
++	struct sta_priv *pstapriv = &padapter->stapriv;	
++	struct ADDBA_request	*preq = (struct ADDBA_request*)paddba_req;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	psta = rtw_get_stainfo(pstapriv, addr);
++
++	if(psta)
++	{
++		start_seq = le16_to_cpu(preq->BA_starting_seqctrl) >> 4;
++			
++		param = le16_to_cpu(preq->BA_para_set);
++		tid = (param>>2)&0x0f;
++		
++		preorder_ctrl = &psta->recvreorder_ctrl[tid];
++
++		#ifdef CONFIG_UPDATE_INDICATE_SEQ_WHILE_PROCESS_ADDBA_REQ
++		preorder_ctrl->indicate_seq = start_seq;
++		#ifdef DBG_RX_SEQ
++		DBG_871X("DBG_RX_SEQ %s:%d IndicateSeq: %d, start_seq: %d\n", __FUNCTION__, __LINE__,
++			preorder_ctrl->indicate_seq, start_seq);
++		#endif
++		#else
++		preorder_ctrl->indicate_seq = 0xffff;
++		#endif
++		
++		preorder_ctrl->enable =(pmlmeinfo->bAcceptAddbaReq == _TRUE)? _TRUE :_FALSE;
++	}
++
++}
++
++void update_TSF(struct mlme_ext_priv *pmlmeext, u8 *pframe, uint len)
++{	
++	u8* pIE;
++	u32 *pbuf;
++		
++	pIE = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	pbuf = (u32*)pIE;
++
++	pmlmeext->TSFValue = le32_to_cpu(*(pbuf+1));
++	
++	pmlmeext->TSFValue = pmlmeext->TSFValue << 32;
++
++	pmlmeext->TSFValue |= le32_to_cpu(*pbuf);
++}
++
++void correct_TSF(_adapter *padapter, struct mlme_ext_priv *pmlmeext)
++{
++	rtw_hal_set_hwreg(padapter, HW_VAR_CORRECT_TSF, 0);
++}
++
++void beacon_timing_control(_adapter *padapter)
++{
++	rtw_hal_bcn_related_reg_setting(padapter);
++}
++
++#if 0
++unsigned int setup_beacon_frame(_adapter *padapter, unsigned char *beacon_frame)
++{
++	unsigned short				ATIMWindow;
++	unsigned char					*pframe;
++	struct tx_desc 				*ptxdesc;
++	struct rtw_ieee80211_hdr 	*pwlanhdr;
++	unsigned short				*fctrl;
++	unsigned int					rate_len, len = 0;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX 		*cur_network = &(pmlmeinfo->network);
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	
++	_rtw_memset(beacon_frame, 0, 256);
++	
++	pframe = beacon_frame + TXDESC_SIZE;
++	
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;	
++	
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	
++	_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(cur_network), ETH_ALEN);
++	
++	SetFrameSubType(pframe, WIFI_BEACON);
++	
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);	
++	len = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	//timestamp will be inserted by hardware
++	pframe += 8;
++	len += 8;
++
++	// beacon interval: 2 bytes
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_beacon_interval_from_ie(cur_network->IEs)), 2); 
++
++	pframe += 2;
++	len += 2;
++
++	// capability info: 2 bytes
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_capability_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	len += 2;
++
++	// SSID
++	pframe = rtw_set_ie(pframe, _SSID_IE_, cur_network->Ssid.SsidLength, cur_network->Ssid.Ssid, &len);
++
++	// supported rates...
++	rate_len = rtw_get_rateset_len(cur_network->SupportedRates);
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, ((rate_len > 8)? 8: rate_len), cur_network->SupportedRates, &len);
++
++	// DS parameter set
++	pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&(cur_network->Configuration.DSConfig), &len);
++
++	// IBSS Parameter Set...
++	//ATIMWindow = cur->Configuration.ATIMWindow;
++	ATIMWindow = 0;
++	pframe = rtw_set_ie(pframe, _IBSS_PARA_IE_, 2, (unsigned char *)(&ATIMWindow), &len);
++
++	//todo: ERP IE
++	
++	// EXTERNDED SUPPORTED RATE
++	if (rate_len > 8)
++	{
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_, (rate_len - 8), (cur_network->SupportedRates + 8), &len);
++	}
++
++	if ((len + TXDESC_SIZE) > 256)
++	{
++		//DBG_871X("marc: beacon frame too large\n");
++		return 0;
++	}
++
++	//fill the tx descriptor
++	ptxdesc = (struct tx_desc *)beacon_frame;
++	
++	//offset 0	
++	ptxdesc->txdw0 |= cpu_to_le32(len & 0x0000ffff); 
++	ptxdesc->txdw0 |= cpu_to_le32(((TXDESC_SIZE + OFFSET_SZ) << OFFSET_SHT) & 0x00ff0000); //default = 32 bytes for TX Desc
++	
++	//offset 4	
++	ptxdesc->txdw1 |= cpu_to_le32((0x10 << QSEL_SHT) & 0x00001f00);
++	
++	//offset 8		
++	ptxdesc->txdw2 |= cpu_to_le32(BMC);
++	ptxdesc->txdw2 |= cpu_to_le32(BK);
++
++	//offset 16		
++	ptxdesc->txdw4 = 0x80000000;
++	
++	//offset 20
++	ptxdesc->txdw5 = 0x00000000; //1M	
++	
++	return (len + TXDESC_SIZE);
++}
++#endif
++
++static _adapter *pbuddy_padapter = NULL;
++
++int rtw_handle_dualmac(_adapter *adapter, bool init)
++{
++	int status = _SUCCESS;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++
++	if (!IS_HARDWARE_TYPE_8192D(adapter))
++		goto exit;
++
++	if (init) {
++		rtw_hal_get_def_var(adapter, HAL_DEF_DUAL_MAC_MODE, &dvobj->DualMacMode);
++		if (dvobj->DualMacMode == _TRUE) {
++			// temply disable IPS For 92D-VC
++			adapter->registrypriv.ips_mode = IPS_NONE;
++		}
++		
++		/* For SMSP on 92DU-VC, driver do not probe another Interface. */
++		if ((dvobj->DualMacMode != _TRUE) && (dvobj->InterfaceNumber != 0)) {
++			DBG_871X("%s(): Do not init another Interface because SMSP\n",__FUNCTION__);
++			status = _FAIL;
++			goto exit;
++		}
++
++#ifndef CONFIG_CONCURRENT_MODE
++		if (dvobj->DualMacMode == _TRUE) {
++			if (pbuddy_padapter == NULL) {
++				pbuddy_padapter = adapter;
++				DBG_871X("%s(): pbuddy_padapter == NULL, Set pbuddy_padapter\n",__FUNCTION__);
++			} else {
++				adapter->pbuddy_adapter = pbuddy_padapter;
++				pbuddy_padapter->pbuddy_adapter = adapter;
++				// clear global value
++				pbuddy_padapter = NULL;
++				DBG_871X("%s(): pbuddy_padapter exist, Exchange Information\n",__FUNCTION__);
++			}
++		}
++
++#ifdef CONFIG_DUALMAC_CONCURRENT
++		if (dvobj->InterfaceNumber == 0) {
++			//set adapter_type/iface type
++			adapter->isprimary = _TRUE;
++			adapter->adapter_type = PRIMARY_ADAPTER;
++			adapter->iface_type = IFACE_PORT0;
++			DBG_871X("%s(): PRIMARY_ADAPTER\n",__FUNCTION__);
++		} else {
++			//set adapter_type/iface type
++			adapter->isprimary = _FALSE;
++			adapter->adapter_type = SECONDARY_ADAPTER;
++			adapter->iface_type = IFACE_PORT1;
++			DBG_871X("%s(): SECONDARY_ADAPTER\n",__FUNCTION__);
++		}
++#endif
++#endif
++	}else {
++		pbuddy_padapter = NULL;
++	}
++exit:
++	return status;
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/core/rtw_xmit.c b/drivers/net/wireless/rtl8192cu/core/rtw_xmit.c
+new file mode 100755
+index 0000000..18f1fdb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/core/rtw_xmit.c
+@@ -0,0 +1,4156 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_XMIT_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <rtw_byteorder.h>
++#include <wifi.h>
++#include <osdep_intf.h>
++#include <circ_buf.h>
++#include <ip.h>
++
++#if defined (PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++#error "Shall be Linux or Windows, but not both!\n"
++#endif
++
++#ifdef PLATFORM_WINDOWS
++#include <if_ether.h>
++#endif
++
++#ifdef CONFIG_USB_HCI
++#include <usb_ops.h>
++#endif
++
++
++static u8 P802_1H_OUI[P80211_OUI_LEN] = { 0x00, 0x00, 0xf8 };
++static u8 RFC1042_OUI[P80211_OUI_LEN] = { 0x00, 0x00, 0x00 };
++
++static void _init_txservq(struct tx_servq *ptxservq)
++{
++_func_enter_;
++	_rtw_init_listhead(&ptxservq->tx_pending);
++	_rtw_init_queue(&ptxservq->sta_pending);
++	ptxservq->qcnt = 0;
++_func_exit_;		
++}
++
++
++void	_rtw_init_sta_xmit_priv(struct sta_xmit_priv *psta_xmitpriv)
++{	
++	
++_func_enter_;
++
++	_rtw_memset((unsigned char *)psta_xmitpriv, 0, sizeof (struct sta_xmit_priv));
++
++	_rtw_spinlock_init(&psta_xmitpriv->lock);
++	
++	//for(i = 0 ; i < MAX_NUMBLKS; i++)
++	//	_init_txservq(&(psta_xmitpriv->blk_q[i]));
++
++	_init_txservq(&psta_xmitpriv->be_q);
++	_init_txservq(&psta_xmitpriv->bk_q);
++	_init_txservq(&psta_xmitpriv->vi_q);
++	_init_txservq(&psta_xmitpriv->vo_q);
++	_rtw_init_listhead(&psta_xmitpriv->legacy_dz);
++	_rtw_init_listhead(&psta_xmitpriv->apsd);
++	
++_func_exit_;	
++
++}
++
++s32	_rtw_init_xmit_priv(struct xmit_priv *pxmitpriv, _adapter *padapter)
++{
++	int i;
++	struct xmit_buf *pxmitbuf;
++	struct xmit_frame *pxframe;
++	sint	res=_SUCCESS;   
++
++_func_enter_;   	
++
++	// We don't need to memset padapter->XXX to zero, because adapter is allocated by rtw_zvmalloc().
++	//_rtw_memset((unsigned char *)pxmitpriv, 0, sizeof(struct xmit_priv));
++	
++	_rtw_spinlock_init(&pxmitpriv->lock);
++	_rtw_spinlock_init(&pxmitpriv->lock_sctx);
++	_rtw_init_sema(&pxmitpriv->xmit_sema, 0);
++	_rtw_init_sema(&pxmitpriv->terminate_xmitthread_sema, 0);
++
++	/* 
++	Please insert all the queue initializaiton using _rtw_init_queue below
++	*/
++
++	pxmitpriv->adapter = padapter;
++	
++	//for(i = 0 ; i < MAX_NUMBLKS; i++)
++	//	_rtw_init_queue(&pxmitpriv->blk_strms[i]);
++	
++	_rtw_init_queue(&pxmitpriv->be_pending);
++	_rtw_init_queue(&pxmitpriv->bk_pending);
++	_rtw_init_queue(&pxmitpriv->vi_pending);
++	_rtw_init_queue(&pxmitpriv->vo_pending);
++	_rtw_init_queue(&pxmitpriv->bm_pending);
++
++	//_rtw_init_queue(&pxmitpriv->legacy_dz_queue);
++	//_rtw_init_queue(&pxmitpriv->apsd_queue);
++
++	_rtw_init_queue(&pxmitpriv->free_xmit_queue);
++
++	/*	
++	Please allocate memory with the sz = (struct xmit_frame) * NR_XMITFRAME, 
++	and initialize free_xmit_frame below.
++	Please also apply  free_txobj to link_up all the xmit_frames...
++	*/
++
++	pxmitpriv->pallocated_frame_buf = rtw_zvmalloc(NR_XMITFRAME * sizeof(struct xmit_frame) + 4);
++	
++	if (pxmitpriv->pallocated_frame_buf  == NULL){
++		pxmitpriv->pxmit_frame_buf =NULL;
++		RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,("alloc xmit_frame fail!\n"));	
++		res= _FAIL;
++		goto exit;
++	}
++	pxmitpriv->pxmit_frame_buf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitpriv->pallocated_frame_buf), 4);
++	//pxmitpriv->pxmit_frame_buf = pxmitpriv->pallocated_frame_buf + 4 -
++	//						((SIZE_PTR) (pxmitpriv->pallocated_frame_buf) &3);
++
++	pxframe = (struct xmit_frame*) pxmitpriv->pxmit_frame_buf;
++
++	for (i = 0; i < NR_XMITFRAME; i++)
++	{
++		_rtw_init_listhead(&(pxframe->list));
++
++		pxframe->padapter = padapter;
++		pxframe->frame_tag = NULL_FRAMETAG;
++
++		pxframe->pkt = NULL;		
++
++		pxframe->buf_addr = NULL;
++		pxframe->pxmitbuf = NULL;
++ 
++		rtw_list_insert_tail(&(pxframe->list), &(pxmitpriv->free_xmit_queue.queue));
++
++		pxframe++;
++	}
++
++	pxmitpriv->free_xmitframe_cnt = NR_XMITFRAME;
++
++	pxmitpriv->frag_len = MAX_FRAG_THRESHOLD;
++
++
++	//init xmit_buf
++	_rtw_init_queue(&pxmitpriv->free_xmitbuf_queue);
++	_rtw_init_queue(&pxmitpriv->pending_xmitbuf_queue);
++
++	pxmitpriv->pallocated_xmitbuf = rtw_zvmalloc(NR_XMITBUFF * sizeof(struct xmit_buf) + 4);
++	
++	if (pxmitpriv->pallocated_xmitbuf  == NULL){
++		RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,("alloc xmit_buf fail!\n"));
++		res= _FAIL;
++		goto exit;
++	}
++
++	pxmitpriv->pxmitbuf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitpriv->pallocated_xmitbuf), 4);
++	//pxmitpriv->pxmitbuf = pxmitpriv->pallocated_xmitbuf + 4 -
++	//						((SIZE_PTR) (pxmitpriv->pallocated_xmitbuf) &3);
++
++	pxmitbuf = (struct xmit_buf*)pxmitpriv->pxmitbuf;
++
++	for (i = 0; i < NR_XMITBUFF; i++)
++	{
++		_rtw_init_listhead(&pxmitbuf->list);
++
++		pxmitbuf->priv_data = NULL;
++		pxmitbuf->padapter = padapter;
++		pxmitbuf->ext_tag = _FALSE;
++
++/*
++		pxmitbuf->pallocated_buf = rtw_zmalloc(MAX_XMITBUF_SZ + XMITBUF_ALIGN_SZ);
++		if (pxmitbuf->pallocated_buf == NULL)
++		{
++			res = _FAIL;
++			goto exit;
++		}
++
++		pxmitbuf->pbuf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitbuf->pallocated_buf), XMITBUF_ALIGN_SZ);
++		//pxmitbuf->pbuf = pxmitbuf->pallocated_buf + XMITBUF_ALIGN_SZ -((SIZE_PTR) (pxmitbuf->pallocated_buf) &(XMITBUF_ALIGN_SZ-1));
++*/
++
++		if((res=rtw_os_xmit_resource_alloc(padapter, pxmitbuf,(MAX_XMITBUF_SZ + XMITBUF_ALIGN_SZ))) == _FAIL) {
++			res= _FAIL;
++			goto exit;
++		}
++
++#ifdef CONFIG_SDIO_HCI
++		pxmitbuf->phead = pxmitbuf->pbuf;
++		pxmitbuf->pend = pxmitbuf->pbuf + MAX_XMITBUF_SZ;
++		pxmitbuf->len = 0;
++		pxmitbuf->pdata = pxmitbuf->ptail = pxmitbuf->phead;
++#endif
++
++		pxmitbuf->flags = XMIT_VO_QUEUE;
++		
++		rtw_list_insert_tail(&pxmitbuf->list, &(pxmitpriv->free_xmitbuf_queue.queue));
++		#ifdef DBG_XMIT_BUF
++		pxmitbuf->no=i;
++		#endif
++
++		pxmitbuf++;
++		
++	}
++
++	pxmitpriv->free_xmitbuf_cnt = NR_XMITBUFF;
++
++	/* init xframe_ext queue,  the same count as extbuf  */
++	_rtw_init_queue(&pxmitpriv->free_xframe_ext_queue);
++	
++	pxmitpriv->xframe_ext_alloc_addr = rtw_zvmalloc(NR_XMIT_EXTBUFF * sizeof(struct xmit_frame) + 4);
++	
++	if (pxmitpriv->xframe_ext_alloc_addr  == NULL){
++		pxmitpriv->xframe_ext = NULL;
++		RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,("alloc xframe_ext fail!\n"));	
++		res= _FAIL;
++		goto exit;
++	}
++	pxmitpriv->xframe_ext = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitpriv->xframe_ext_alloc_addr), 4);
++	pxframe = (struct xmit_frame*)pxmitpriv->xframe_ext;
++
++	for (i = 0; i < NR_XMIT_EXTBUFF; i++) {
++		_rtw_init_listhead(&(pxframe->list));
++
++		pxframe->padapter = padapter;
++		pxframe->frame_tag = NULL_FRAMETAG;
++
++		pxframe->pkt = NULL;		
++
++		pxframe->buf_addr = NULL;
++		pxframe->pxmitbuf = NULL;
++		
++		pxframe->ext_tag = 1;
++ 
++		rtw_list_insert_tail(&(pxframe->list), &(pxmitpriv->free_xframe_ext_queue.queue));
++
++		pxframe++;
++	}
++	pxmitpriv->free_xframe_ext_cnt = NR_XMIT_EXTBUFF;
++
++	// Init xmit extension buff
++	_rtw_init_queue(&pxmitpriv->free_xmit_extbuf_queue);
++
++	pxmitpriv->pallocated_xmit_extbuf = rtw_zvmalloc(NR_XMIT_EXTBUFF * sizeof(struct xmit_buf) + 4);
++	
++	if (pxmitpriv->pallocated_xmit_extbuf  == NULL){
++		RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,("alloc xmit_extbuf fail!\n"));
++		res= _FAIL;
++		goto exit;
++	}
++
++	pxmitpriv->pxmit_extbuf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitpriv->pallocated_xmit_extbuf), 4);
++
++	pxmitbuf = (struct xmit_buf*)pxmitpriv->pxmit_extbuf;
++
++	for (i = 0; i < NR_XMIT_EXTBUFF; i++)
++	{
++		_rtw_init_listhead(&pxmitbuf->list);
++
++		pxmitbuf->priv_data = NULL;
++		pxmitbuf->padapter = padapter;
++		pxmitbuf->ext_tag = _TRUE;
++
++/*
++		pxmitbuf->pallocated_buf = rtw_zmalloc(MAX_XMIT_EXTBUF_SZ);
++		if (pxmitbuf->pallocated_buf == NULL)
++		{
++			res = _FAIL;
++			goto exit;
++		}
++
++		pxmitbuf->pbuf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitbuf->pallocated_buf), 4);
++*/		
++
++		if((res=rtw_os_xmit_resource_alloc(padapter, pxmitbuf,MAX_XMIT_EXTBUF_SZ + XMITBUF_ALIGN_SZ)) == _FAIL) {
++			res= _FAIL;
++			goto exit;
++		}
++		
++#ifdef CONFIG_SDIO_HCI
++		pxmitbuf->phead = pxmitbuf->pbuf;
++		pxmitbuf->pend = pxmitbuf->pbuf + MAX_XMIT_EXTBUF_SZ;
++		pxmitbuf->len = 0;
++		pxmitbuf->pdata = pxmitbuf->ptail = pxmitbuf->phead;
++#endif
++
++		rtw_list_insert_tail(&pxmitbuf->list, &(pxmitpriv->free_xmit_extbuf_queue.queue));
++		#ifdef DBG_XMIT_BUF
++		pxmitbuf->no=i;
++		#endif
++		pxmitbuf++;
++		
++	}
++
++	pxmitpriv->free_xmit_extbuf_cnt = NR_XMIT_EXTBUFF;
++
++	rtw_alloc_hwxmits(padapter);
++	rtw_init_hwxmits(pxmitpriv->hwxmits, pxmitpriv->hwxmit_entry);
++
++#ifdef CONFIG_USB_HCI
++	pxmitpriv->txirp_cnt=1;
++
++	_rtw_init_sema(&(pxmitpriv->tx_retevt), 0);
++
++	//per AC pending irp
++	pxmitpriv->beq_cnt = 0;
++	pxmitpriv->bkq_cnt = 0;
++	pxmitpriv->viq_cnt = 0;
++	pxmitpriv->voq_cnt = 0;
++#endif
++
++
++#ifdef CONFIG_XMIT_ACK
++	pxmitpriv->ack_tx = _FALSE;
++	_rtw_mutex_init(&pxmitpriv->ack_tx_mutex);
++	rtw_sctx_init(&pxmitpriv->ack_tx_ops, 0);	
++#endif
++
++	rtw_hal_init_xmit_priv(padapter);
++
++exit:
++
++_func_exit_;	
++
++	return res;
++}
++
++void  rtw_mfree_xmit_priv_lock (struct xmit_priv *pxmitpriv);
++void  rtw_mfree_xmit_priv_lock (struct xmit_priv *pxmitpriv)
++{
++	_rtw_spinlock_free(&pxmitpriv->lock);
++	_rtw_free_sema(&pxmitpriv->xmit_sema);
++	_rtw_free_sema(&pxmitpriv->terminate_xmitthread_sema);
++
++	_rtw_spinlock_free(&pxmitpriv->be_pending.lock);
++	_rtw_spinlock_free(&pxmitpriv->bk_pending.lock);
++	_rtw_spinlock_free(&pxmitpriv->vi_pending.lock);
++	_rtw_spinlock_free(&pxmitpriv->vo_pending.lock);
++	_rtw_spinlock_free(&pxmitpriv->bm_pending.lock);
++
++	//_rtw_spinlock_free(&pxmitpriv->legacy_dz_queue.lock);
++	//_rtw_spinlock_free(&pxmitpriv->apsd_queue.lock);
++
++	_rtw_spinlock_free(&pxmitpriv->free_xmit_queue.lock);
++	_rtw_spinlock_free(&pxmitpriv->free_xmitbuf_queue.lock);
++	_rtw_spinlock_free(&pxmitpriv->pending_xmitbuf_queue.lock);
++}
++
++
++void _rtw_free_xmit_priv (struct xmit_priv *pxmitpriv)
++{
++       int i;
++      _adapter *padapter = pxmitpriv->adapter;
++	struct xmit_frame	*pxmitframe = (struct xmit_frame*) pxmitpriv->pxmit_frame_buf;
++	struct xmit_buf *pxmitbuf = (struct xmit_buf *)pxmitpriv->pxmitbuf;
++
++ _func_enter_;   
++
++	rtw_hal_free_xmit_priv(padapter);
++ 
++	rtw_mfree_xmit_priv_lock(pxmitpriv);
++ 
++ 	if(pxmitpriv->pxmit_frame_buf==NULL)
++		goto out;
++	
++	for(i=0; i<NR_XMITFRAME; i++)
++	{	
++		rtw_os_xmit_complete(padapter, pxmitframe);
++
++		pxmitframe++;
++	}		
++	
++	for(i=0; i<NR_XMITBUFF; i++)
++	{
++		rtw_os_xmit_resource_free(padapter, pxmitbuf,(MAX_XMITBUF_SZ + XMITBUF_ALIGN_SZ));
++
++		//if(pxmitbuf->pallocated_buf)
++		//	rtw_mfree(pxmitbuf->pallocated_buf, MAX_XMITBUF_SZ + XMITBUF_ALIGN_SZ);
++		
++		pxmitbuf++;
++	}
++
++	if(pxmitpriv->pallocated_frame_buf) {
++		rtw_vmfree(pxmitpriv->pallocated_frame_buf, NR_XMITFRAME * sizeof(struct xmit_frame) + 4);
++	}
++	
++
++	if(pxmitpriv->pallocated_xmitbuf) {
++		rtw_vmfree(pxmitpriv->pallocated_xmitbuf, NR_XMITBUFF * sizeof(struct xmit_buf) + 4);
++	}
++
++	/* free xframe_ext queue,  the same count as extbuf  */
++	if ((pxmitframe = (struct xmit_frame*)pxmitpriv->xframe_ext)) {
++		for (i=0; i<NR_XMIT_EXTBUFF; i++) {
++			rtw_os_xmit_complete(padapter, pxmitframe);
++			pxmitframe++;
++		}
++	}
++	if (pxmitpriv->xframe_ext_alloc_addr)
++		rtw_vmfree(pxmitpriv->xframe_ext_alloc_addr, NR_XMIT_EXTBUFF * sizeof(struct xmit_frame) + 4);
++	_rtw_spinlock_free(&pxmitpriv->free_xframe_ext_queue.lock);
++
++	// free xmit extension buff
++	_rtw_spinlock_free(&pxmitpriv->free_xmit_extbuf_queue.lock);
++
++	pxmitbuf = (struct xmit_buf *)pxmitpriv->pxmit_extbuf;
++	for(i=0; i<NR_XMIT_EXTBUFF; i++)
++	{
++		rtw_os_xmit_resource_free(padapter, pxmitbuf,(MAX_XMIT_EXTBUF_SZ + XMITBUF_ALIGN_SZ));
++
++		//if(pxmitbuf->pallocated_buf)
++		//	rtw_mfree(pxmitbuf->pallocated_buf, MAX_XMIT_EXTBUF_SZ);
++		
++		pxmitbuf++;
++	}
++
++	if(pxmitpriv->pallocated_xmit_extbuf) {
++		rtw_vmfree(pxmitpriv->pallocated_xmit_extbuf, NR_XMIT_EXTBUFF * sizeof(struct xmit_buf) + 4);	
++	}
++
++	rtw_free_hwxmits(padapter);
++
++#ifdef CONFIG_XMIT_ACK	
++	_rtw_mutex_free(&pxmitpriv->ack_tx_mutex);	
++#endif	
++
++out:	
++
++_func_exit_;		
++
++}
++
++static void update_attrib_vcs_info(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	u32	sz;
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_info	*psta = pattrib->psta;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++        if(pattrib->psta)
++	{
++		psta = pattrib->psta;
++	}
++	else
++	{
++		DBG_871X("%s, call rtw_get_stainfo()\n", __func__);
++		psta=rtw_get_stainfo(&padapter->stapriv ,&pattrib->ra[0] );
++	}
++
++        if(psta==NULL)
++	{
++		DBG_871X("%s, psta==NUL\n", __func__);
++		return;
++	}
++
++	if(!(psta->state &_FW_LINKED))
++	{
++		DBG_871X("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++		return;
++	}
++
++	if (pattrib->nr_frags != 1)
++	{
++		sz = padapter->xmitpriv.frag_len;
++	}
++	else //no frag
++	{
++		sz = pattrib->last_txcmdsz;
++	}
++
++	// (1) RTS_Threshold is compared to the MPDU, not MSDU.
++	// (2) If there are more than one frag in  this MSDU, only the first frag uses protection frame.
++	//		Other fragments are protected by previous fragment.
++	//		So we only need to check the length of first fragment.
++	if(pmlmeext->cur_wireless_mode < WIRELESS_11_24N  || padapter->registrypriv.wifi_spec)
++	{
++		if(sz > padapter->registrypriv.rts_thresh)
++		{
++			pattrib->vcs_mode = RTS_CTS;
++		}
++		else
++		{
++			if(psta->rtsen)
++				pattrib->vcs_mode = RTS_CTS;
++			else if(psta->cts2self)
++				pattrib->vcs_mode = CTS_TO_SELF;
++			else
++				pattrib->vcs_mode = NONE_VCS;
++		}
++	}
++	else
++	{
++		while (_TRUE)
++		{
++#if 0 //Todo
++			//check IOT action
++			if(pHTInfo->IOTAction & HT_IOT_ACT_FORCED_CTS2SELF)
++			{
++				pattrib->vcs_mode = CTS_TO_SELF;
++				pattrib->rts_rate = MGN_24M;
++				break;
++			}
++			else if(pHTInfo->IOTAction & (HT_IOT_ACT_FORCED_RTS|HT_IOT_ACT_PURE_N_MODE))
++			{
++				pattrib->vcs_mode = RTS_CTS;
++				pattrib->rts_rate = MGN_24M;
++				break;
++			}
++#endif
++
++			//IOT action
++			if((pmlmeinfo->assoc_AP_vendor == atherosAP) && (pattrib->ampdu_en==_TRUE) &&
++				(padapter->securitypriv.dot11PrivacyAlgrthm == _AES_ ))
++			{
++				pattrib->vcs_mode = CTS_TO_SELF;
++				break;
++			}	
++			
++
++			//check ERP protection
++			if(psta->rtsen || psta->cts2self)
++			{
++				if(psta->rtsen)
++					pattrib->vcs_mode = RTS_CTS;
++				else if(psta->cts2self)
++					pattrib->vcs_mode = CTS_TO_SELF;
++
++				break;
++			}
++
++			//check HT op mode
++			if(pattrib->ht_en)
++			{
++				u8 HTOpMode = pmlmeinfo->HT_protection;
++				if((pmlmeext->cur_bwmode && (HTOpMode == 2 || HTOpMode == 3)) ||
++					(!pmlmeext->cur_bwmode && HTOpMode == 3) )
++				{
++					pattrib->vcs_mode = RTS_CTS;
++					break;
++				}
++			}
++
++			//check rts
++			if(sz > padapter->registrypriv.rts_thresh)
++			{
++				pattrib->vcs_mode = RTS_CTS;
++				break;
++			}
++
++			//to do list: check MIMO power save condition.
++
++			//check AMPDU aggregation for TXOP
++			if(pattrib->ampdu_en==_TRUE)
++			{
++				pattrib->vcs_mode = RTS_CTS;
++				break;
++			}
++
++			pattrib->vcs_mode = NONE_VCS;
++			break;
++		}
++	}
++}
++
++static void update_attrib_phy_info(struct pkt_attrib *pattrib, struct sta_info *psta)
++{
++	/*if(psta->rtsen)	
++		pattrib->vcs_mode = RTS_CTS;	
++	else if(psta->cts2self)	
++		pattrib->vcs_mode = CTS_TO_SELF;	
++	else
++		pattrib->vcs_mode = NONE_VCS;*/
++	
++	pattrib->mdata = 0;
++	pattrib->eosp = 0;
++	pattrib->triggered=0;
++	
++	//qos_en, ht_en, init rate, ,bw, ch_offset, sgi
++	pattrib->qos_en = psta->qos_option;
++	pattrib->ht_en = psta->htpriv.ht_option;
++	pattrib->raid = psta->raid;
++	pattrib->bwmode = psta->htpriv.bwmode;
++	pattrib->ch_offset = psta->htpriv.ch_offset;
++	pattrib->sgi= psta->htpriv.sgi;
++	pattrib->ampdu_en = _FALSE;
++
++	//if(pattrib->ht_en && psta->htpriv.ampdu_enable)
++	//{
++	//	if(psta->htpriv.agg_enable_bitmap & BIT(pattrib->priority))
++	//		pattrib->ampdu_en = _TRUE;
++	//}	
++
++
++	pattrib->retry_ctrl = _FALSE;
++
++}
++
++u8	qos_acm(u8 acm_mask, u8 priority)
++{
++	u8	change_priority = priority;
++
++	switch (priority)
++	{
++		case 0:
++		case 3:
++			if(acm_mask & BIT(1))
++				change_priority = 1;
++			break;
++		case 1:
++		case 2:
++			break;
++		case 4:
++		case 5:
++			if(acm_mask & BIT(2))
++				change_priority = 0;
++			break;
++		case 6:
++		case 7:
++			if(acm_mask & BIT(3))
++				change_priority = 5;
++			break;
++		default:
++			DBG_871X("qos_acm(): invalid pattrib->priority: %d!!!\n", priority);
++			break;
++	}
++
++	return change_priority;
++}
++
++static void set_qos(struct pkt_file *ppktfile, struct pkt_attrib *pattrib)
++{
++	struct ethhdr etherhdr;
++	struct iphdr ip_hdr;
++	s32 UserPriority = 0;
++
++
++	_rtw_open_pktfile(ppktfile->pkt, ppktfile);
++	_rtw_pktfile_read(ppktfile, (unsigned char*)&etherhdr, ETH_HLEN);
++
++	// get UserPriority from IP hdr
++	if (pattrib->ether_type == 0x0800) {
++		_rtw_pktfile_read(ppktfile, (u8*)&ip_hdr, sizeof(ip_hdr));
++//		UserPriority = (ntohs(ip_hdr.tos) >> 5) & 0x3;
++		UserPriority = ip_hdr.tos >> 5;
++	} else if (pattrib->ether_type == 0x888e) {
++		// "When priority processing of data frames is supported,
++		// a STA's SME should send EAPOL-Key frames at the highest priority."
++		UserPriority = 7;
++	}
++
++	pattrib->priority = UserPriority;
++	pattrib->hdrlen = WLAN_HDR_A3_QOS_LEN;
++	pattrib->subtype = WIFI_QOS_DATA_TYPE;
++}
++
++static s32 update_attrib(_adapter *padapter, _pkt *pkt, struct pkt_attrib *pattrib)
++{
++	uint i;
++	struct pkt_file pktfile;
++	struct sta_info *psta = NULL;
++	struct ethhdr etherhdr;
++
++	sint bmcast;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct qos_priv		*pqospriv= &pmlmepriv->qospriv;
++	sint res = _SUCCESS;
++
++ _func_enter_;
++
++	_rtw_open_pktfile(pkt, &pktfile);
++	i = _rtw_pktfile_read(&pktfile, (u8*)&etherhdr, ETH_HLEN);
++
++	pattrib->ether_type = ntohs(etherhdr.h_proto);
++
++
++	_rtw_memcpy(pattrib->dst, &etherhdr.h_dest, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, &etherhdr.h_source, ETH_ALEN);
++
++	pattrib->pctrl = 0;
++
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) ||
++		(check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE)) {
++		_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++	}
++	else if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++		_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++	}
++	else if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++		_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, get_bssid(pmlmepriv), ETH_ALEN);
++	}
++
++	pattrib->pktlen = pktfile.pkt_len;
++
++	if (ETH_P_IP == pattrib->ether_type)
++	{
++		// The following is for DHCP and ARP packet, we use cck1M to tx these packets and let LPS awake some time 
++		// to prevent DHCP protocol fail
++		u8 tmp[24];
++		_rtw_pktfile_read(&pktfile, &tmp[0], 24);
++		pattrib->dhcp_pkt = 0;
++		if (pktfile.pkt_len > 282) {//MINIMUM_DHCP_PACKET_SIZE) {
++			if (ETH_P_IP == pattrib->ether_type) {// IP header
++				if (((tmp[21] == 68) && (tmp[23] == 67)) ||
++					((tmp[21] == 67) && (tmp[23] == 68))) {
++					// 68 : UDP BOOTP client
++					// 67 : UDP BOOTP server
++					RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,("======================update_attrib: get DHCP Packet \n"));
++					// Use low rate to send DHCP packet.
++					//if(pMgntInfo->IOTAction & HT_IOT_ACT_WA_IOT_Broadcom) 
++					//{
++					//	tcb_desc->DataRate = MgntQuery_TxRateExcludeCCKRates(ieee);//0xc;//ofdm 6m
++					//	tcb_desc->bTxDisableRateFallBack = false;
++					//}
++					//else
++					//	pTcb->DataRate = Adapter->MgntInfo.LowestBasicRate; 
++					//RTPRINT(FDM, WA_IOT, ("DHCP TranslateHeader(), pTcb->DataRate = 0x%x\n", pTcb->DataRate)); 
++					pattrib->dhcp_pkt = 1;
++				}
++			}
++		}
++	}
++
++	if ( (pattrib->ether_type == 0x888e) || (pattrib->dhcp_pkt == 1) )
++	{
++		rtw_set_scan_deny(padapter, 3000);
++	}
++
++#ifdef CONFIG_LPS
++	// If EAPOL , ARP , OR DHCP packet, driver must be in active mode.
++	if ( (pattrib->ether_type == 0x0806) || (pattrib->ether_type == 0x888e) || (pattrib->dhcp_pkt == 1) )
++	{
++		rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_SPECIAL_PACKET, 1);
++	}
++#endif
++
++	bmcast = IS_MCAST(pattrib->ra);
++	
++	// get sta_info
++	if (bmcast) {
++		psta = rtw_get_bcmc_stainfo(padapter);
++	} else {
++		psta = rtw_get_stainfo(pstapriv, pattrib->ra);
++		if (psta == NULL)	{ // if we cannot get psta => drrp the pkt
++			RT_TRACE(_module_rtl871x_xmit_c_, _drv_alert_, ("\nupdate_attrib => get sta_info fail, ra:" MAC_FMT"\n", MAC_ARG(pattrib->ra)));
++			#ifdef DBG_TX_DROP_FRAME
++			DBG_871X("DBG_TX_DROP_FRAME %s get sta_info fail, ra:" MAC_FMT"\n", __FUNCTION__, MAC_ARG(pattrib->ra));
++			#endif
++			res =_FAIL;
++			goto exit;
++		}
++		else if((check_fwstate(pmlmepriv, WIFI_AP_STATE)==_TRUE)&&(!(psta->state & _FW_LINKED)))
++		{
++			res =_FAIL;
++			goto exit;
++		}
++	}
++
++	if (psta)
++	{
++		pattrib->mac_id = psta->mac_id;
++		pattrib->psta = psta;
++	}
++	else
++	{
++		// if we cannot get psta => drop the pkt
++		RT_TRACE(_module_rtl871x_xmit_c_, _drv_alert_, ("\nupdate_attrib => get sta_info fail, ra:" MAC_FMT "\n", MAC_ARG(pattrib->ra)));
++		#ifdef DBG_TX_DROP_FRAME
++		DBG_871X("DBG_TX_DROP_FRAME %s get sta_info fail, ra:" MAC_FMT"\n", __FUNCTION__, MAC_ARG(pattrib->ra));
++		#endif
++		res = _FAIL;
++		goto exit;
++	}
++
++	pattrib->ack_policy = 0;
++	// get ether_hdr_len
++	pattrib->pkt_hdrlen = ETH_HLEN;//(pattrib->ether_type == 0x8100) ? (14 + 4 ): 14; //vlan tag
++
++	pattrib->hdrlen = WLAN_HDR_A3_LEN;
++	pattrib->subtype = WIFI_DATA_TYPE;	
++	pattrib->priority = 0;
++	
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE|WIFI_ADHOC_STATE|WIFI_ADHOC_MASTER_STATE))
++	{
++		if(psta->qos_option)
++			set_qos(&pktfile, pattrib);
++	}
++	else
++	{
++		if(pqospriv->qos_option)
++		{
++			set_qos(&pktfile, pattrib);
++
++			if(pmlmepriv->acm_mask != 0)
++			{
++				pattrib->priority = qos_acm(pmlmepriv->acm_mask, pattrib->priority);
++			}
++		}
++	}
++
++	//pattrib->priority = 5; //force to used VI queue, for testing
++
++	if (psta->ieee8021x_blocked == _TRUE)
++	{
++		RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,("\n psta->ieee8021x_blocked == _TRUE \n"));
++
++		pattrib->encrypt = 0;
++
++		if((pattrib->ether_type != 0x888e) && (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _FALSE))
++		{
++			RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,("\npsta->ieee8021x_blocked == _TRUE,  pattrib->ether_type(%.4x) != 0x888e\n",pattrib->ether_type));
++			#ifdef DBG_TX_DROP_FRAME
++			DBG_871X("DBG_TX_DROP_FRAME %s psta->ieee8021x_blocked == _TRUE,  pattrib->ether_type(%.4x) != 0x888e\n", __FUNCTION__,pattrib->ether_type);
++			#endif
++			res = _FAIL;
++			goto exit;
++		}
++	}
++	else
++	{
++		GET_ENCRY_ALGO(psecuritypriv, psta, pattrib->encrypt, bmcast);
++
++		switch(psecuritypriv->dot11AuthAlgrthm)
++		{
++			case dot11AuthAlgrthm_Open:
++			case dot11AuthAlgrthm_Shared:
++			case dot11AuthAlgrthm_Auto:				
++				pattrib->key_idx = (u8)psecuritypriv->dot11PrivacyKeyIndex;
++				break;
++			case dot11AuthAlgrthm_8021X:
++				if(bmcast)					
++					pattrib->key_idx = (u8)psecuritypriv->dot118021XGrpKeyid;	
++				else
++					pattrib->key_idx = 0;
++				break;
++			default:
++				pattrib->key_idx = 0;
++				break;
++		}
++		
++			
++	}
++
++	switch (pattrib->encrypt)
++	{
++		case _WEP40_:
++		case _WEP104_:
++			pattrib->iv_len = 4;
++			pattrib->icv_len = 4;
++			break;
++
++		case _TKIP_:
++			pattrib->iv_len = 8;
++			pattrib->icv_len = 4;
++			
++			if(padapter->securitypriv.busetkipkey==_FAIL)
++			{
++				RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,("\npadapter->securitypriv.busetkipkey(%d)==_FAIL drop packet\n", padapter->securitypriv.busetkipkey));
++				#ifdef DBG_TX_DROP_FRAME
++				DBG_871X("DBG_TX_DROP_FRAME %s padapter->securitypriv.busetkipkey(%d)==_FAIL drop packet\n", __FUNCTION__, padapter->securitypriv.busetkipkey);
++				#endif
++				res =_FAIL;
++				goto exit;
++			}
++					
++			break;			
++		case _AES_:
++			RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,("\n pattrib->encrypt=%d  (_AES_)\n",pattrib->encrypt));
++			pattrib->iv_len = 8;
++			pattrib->icv_len = 8;
++			break;
++			
++		default:
++			pattrib->iv_len = 0;
++			pattrib->icv_len = 0;
++			break;
++	}
++
++	RT_TRACE(_module_rtl871x_xmit_c_, _drv_info_,
++		 ("update_attrib: encrypt=%d  securitypriv.sw_encrypt=%d\n",
++		  pattrib->encrypt, padapter->securitypriv.sw_encrypt));
++
++	if (pattrib->encrypt &&
++	    ((padapter->securitypriv.sw_encrypt == _TRUE) || (psecuritypriv->hw_decrypted == _FALSE)))
++	{
++		pattrib->bswenc = _TRUE;
++		RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,
++			 ("update_attrib: encrypt=%d securitypriv.hw_decrypted=%d bswenc=_TRUE\n",
++			  pattrib->encrypt, padapter->securitypriv.sw_encrypt));
++	} else {
++		pattrib->bswenc = _FALSE;
++		RT_TRACE(_module_rtl871x_xmit_c_,_drv_info_,("update_attrib: bswenc=_FALSE\n"));
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if((pattrib->encrypt && bmcast) || (pattrib->encrypt ==_WEP40_) || (pattrib->encrypt ==_WEP104_))
++	{
++		pattrib->bswenc = _TRUE;//force using sw enc.
++	}
++#endif
++
++	rtw_set_tx_chksum_offload(pkt, pattrib);
++
++	update_attrib_phy_info(pattrib, psta);
++
++exit:
++
++_func_exit_;
++
++	return res;
++}
++
++static s32 xmitframe_addmic(_adapter *padapter, struct xmit_frame *pxmitframe){
++	sint 			curfragnum,length;
++	u8	*pframe, *payload,mic[8];
++	struct	mic_data		micdata;
++	struct	sta_info		*stainfo;
++	struct	qos_priv   *pqospriv= &(padapter->mlmepriv.qospriv);	
++	struct	pkt_attrib	 *pattrib = &pxmitframe->attrib;
++	struct 	security_priv	*psecuritypriv=&padapter->securitypriv;
++	struct	xmit_priv		*pxmitpriv=&padapter->xmitpriv;
++	u8 priority[4]={0x0,0x0,0x0,0x0};
++	sint bmcst = IS_MCAST(pattrib->ra);
++
++	if(pattrib->psta)
++	{
++		stainfo = pattrib->psta;
++	}
++	else
++	{
++		DBG_871X("%s, call rtw_get_stainfo()\n", __func__);
++		stainfo=rtw_get_stainfo(&padapter->stapriv ,&pattrib->ra[0]);
++	}	
++
++	if(stainfo==NULL)
++	{
++		DBG_871X("%s, psta==NUL\n", __func__);
++		return _FAIL;
++	}
++	
++	if(!(stainfo->state &_FW_LINKED))
++	{
++		DBG_871X("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, stainfo->state);
++		return _FAIL;
++	}
++
++_func_enter_;
++
++	if(pattrib->encrypt ==_TKIP_)//if(psecuritypriv->dot11PrivacyAlgrthm==_TKIP_PRIVACY_) 
++	{
++		//encode mic code
++		if(stainfo!= NULL){
++			u8 null_key[16]={0x0,0x0,0x0,0x0,0x0,0x0,0x0,0x0,0x0,0x0,0x0,0x0,0x0,0x0,0x0,0x0};
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++			pframe = pxmitframe->buf_addr + TXDESC_SIZE + (pxmitframe->pkt_offset * PACKET_OFFSET_SZ);
++#else
++			pframe = pxmitframe->buf_addr + TXDESC_OFFSET;
++#endif
++			
++			if(bmcst)
++			{
++				if(_rtw_memcmp(psecuritypriv->dot118021XGrptxmickey[psecuritypriv->dot118021XGrpKeyid].skey, null_key, 16)==_TRUE){
++					//DbgPrint("\nxmitframe_addmic:stainfo->dot11tkiptxmickey==0\n");
++					//rtw_msleep_os(10);
++					return _FAIL;
++				}				
++				//start to calculate the mic code
++				rtw_secmicsetkey(&micdata, psecuritypriv->dot118021XGrptxmickey[psecuritypriv->dot118021XGrpKeyid].skey);
++			}
++			else
++			{
++				if(_rtw_memcmp(&stainfo->dot11tkiptxmickey.skey[0],null_key, 16)==_TRUE){
++					//DbgPrint("\nxmitframe_addmic:stainfo->dot11tkiptxmickey==0\n");
++					//rtw_msleep_os(10);
++					return _FAIL;
++				}
++				//start to calculate the mic code
++				rtw_secmicsetkey(&micdata, &stainfo->dot11tkiptxmickey.skey[0]);
++			}
++			
++			if(pframe[1]&1){   //ToDS==1
++				rtw_secmicappend(&micdata, &pframe[16], 6);  //DA
++				if(pframe[1]&2)  //From Ds==1
++					rtw_secmicappend(&micdata, &pframe[24], 6);
++				else
++				rtw_secmicappend(&micdata, &pframe[10], 6);		
++			}	
++			else{	//ToDS==0
++				rtw_secmicappend(&micdata, &pframe[4], 6);   //DA
++				if(pframe[1]&2)  //From Ds==1
++					rtw_secmicappend(&micdata, &pframe[16], 6);
++				else
++					rtw_secmicappend(&micdata, &pframe[10], 6);
++
++			}
++
++                    //if(pqospriv->qos_option==1)
++                    if(pattrib->qos_en)
++				priority[0]=(u8)pxmitframe->attrib.priority;
++
++			
++			rtw_secmicappend(&micdata, &priority[0], 4);
++	
++			payload=pframe;
++
++			for(curfragnum=0;curfragnum<pattrib->nr_frags;curfragnum++){
++				payload=(u8 *)RND4((SIZE_PTR)(payload));
++				RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,("===curfragnum=%d, pframe= 0x%.2x, 0x%.2x, 0x%.2x, 0x%.2x, 0x%.2x, 0x%.2x, 0x%.2x, 0x%.2x,!!!\n",
++					curfragnum,*payload, *(payload+1),*(payload+2),*(payload+3),*(payload+4),*(payload+5),*(payload+6),*(payload+7)));
++
++				payload=payload+pattrib->hdrlen+pattrib->iv_len;
++				RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,("curfragnum=%d pattrib->hdrlen=%d pattrib->iv_len=%d",curfragnum,pattrib->hdrlen,pattrib->iv_len));
++				if((curfragnum+1)==pattrib->nr_frags){
++					length=pattrib->last_txcmdsz-pattrib->hdrlen-pattrib->iv_len-( (pattrib->bswenc) ? pattrib->icv_len : 0);
++					rtw_secmicappend(&micdata, payload,length);
++					payload=payload+length;
++				}
++				else{
++					length=pxmitpriv->frag_len-pattrib->hdrlen-pattrib->iv_len-( (pattrib->bswenc) ? pattrib->icv_len : 0);
++					rtw_secmicappend(&micdata, payload, length);
++					payload=payload+length+pattrib->icv_len;
++					RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,("curfragnum=%d length=%d pattrib->icv_len=%d",curfragnum,length,pattrib->icv_len));
++				}
++			}
++			rtw_secgetmic(&micdata,&(mic[0]));
++			RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,("xmitframe_addmic: before add mic code!!!\n"));
++			RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,("xmitframe_addmic: pattrib->last_txcmdsz=%d!!!\n",pattrib->last_txcmdsz));
++			RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,("xmitframe_addmic: mic[0]=0x%.2x ,mic[1]=0x%.2x ,mic[2]=0x%.2x ,mic[3]=0x%.2x \n\
++  mic[4]=0x%.2x ,mic[5]=0x%.2x ,mic[6]=0x%.2x ,mic[7]=0x%.2x !!!!\n",
++				mic[0],mic[1],mic[2],mic[3],mic[4],mic[5],mic[6],mic[7]));
++			//add mic code  and add the mic code length in last_txcmdsz
++
++			_rtw_memcpy(payload, &(mic[0]),8);
++			pattrib->last_txcmdsz+=8;
++			
++			RT_TRACE(_module_rtl871x_xmit_c_,_drv_info_,("\n ========last pkt========\n"));
++			payload=payload-pattrib->last_txcmdsz+8;
++			for(curfragnum=0;curfragnum<pattrib->last_txcmdsz;curfragnum=curfragnum+8)
++					RT_TRACE(_module_rtl871x_xmit_c_,_drv_info_,(" %.2x,  %.2x,  %.2x,  %.2x,  %.2x,  %.2x,  %.2x,  %.2x ",
++					*(payload+curfragnum), *(payload+curfragnum+1), *(payload+curfragnum+2),*(payload+curfragnum+3),
++					*(payload+curfragnum+4),*(payload+curfragnum+5),*(payload+curfragnum+6),*(payload+curfragnum+7)));
++			}
++			else{
++				RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,("xmitframe_addmic: rtw_get_stainfo==NULL!!!\n"));
++			}
++	}
++	
++_func_exit_;
++
++	return _SUCCESS;
++}
++
++static s32 xmitframe_swencrypt(_adapter *padapter, struct xmit_frame *pxmitframe){
++
++	struct	pkt_attrib	 *pattrib = &pxmitframe->attrib;
++	//struct 	security_priv	*psecuritypriv=&padapter->securitypriv;
++	
++_func_enter_;
++
++	//if((psecuritypriv->sw_encrypt)||(pattrib->bswenc))	
++	if(pattrib->bswenc)
++	{
++		//DBG_871X("start xmitframe_swencrypt\n");
++		RT_TRACE(_module_rtl871x_xmit_c_,_drv_alert_,("### xmitframe_swencrypt\n"));
++		switch(pattrib->encrypt){
++		case _WEP40_:
++		case _WEP104_:
++			rtw_wep_encrypt(padapter, (u8 *)pxmitframe);
++			break;
++		case _TKIP_:
++			rtw_tkip_encrypt(padapter, (u8 *)pxmitframe);
++			break;
++		case _AES_:
++			rtw_aes_encrypt(padapter, (u8 * )pxmitframe);
++			break;
++		default:
++				break;
++		}
++
++	} else {
++		RT_TRACE(_module_rtl871x_xmit_c_,_drv_notice_,("### xmitframe_hwencrypt\n"));
++	}
++
++_func_exit_;
++
++	return _SUCCESS;
++}
++
++s32 rtw_make_wlanhdr (_adapter *padapter , u8 *hdr, struct pkt_attrib *pattrib)
++{
++	u16 *qc;
++
++	struct rtw_ieee80211_hdr *pwlanhdr = (struct rtw_ieee80211_hdr *)hdr;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct qos_priv *pqospriv = &pmlmepriv->qospriv;
++	u8 qos_option = _FALSE;
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct sta_priv 	*pstapriv = &padapter->stapriv;
++	struct sta_info *ptdls_sta=NULL, *psta_backup=NULL;
++	u8 direct_link=0;
++#endif //CONFIG_TDLS
++
++	sint res = _SUCCESS;
++	u16 *fctrl = &pwlanhdr->frame_ctl;
++
++	struct sta_info *psta;
++
++	sint bmcst = IS_MCAST(pattrib->ra);
++
++_func_enter_;
++
++	if (pattrib->psta) {
++		psta = pattrib->psta;
++	} else {
++		DBG_871X("%s, call rtw_get_stainfo()\n", __func__);
++		if(bmcst) {
++			psta = rtw_get_bcmc_stainfo(padapter);
++		} else {
++			psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++		}
++	}
++
++	if(psta==NULL)
++	{
++		DBG_871X("%s, psta==NUL\n", __func__);
++		return _FAIL;
++	}
++
++	if(!(psta->state &_FW_LINKED))
++	{
++		DBG_871X("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++		return _FAIL;
++	}
++
++	_rtw_memset(hdr, 0, WLANHDR_OFFSET);
++
++	SetFrameSubType(fctrl, pattrib->subtype);
++
++	if (pattrib->subtype & WIFI_DATA_TYPE)
++	{
++		if ((check_fwstate(pmlmepriv,  WIFI_STATION_STATE) == _TRUE)) {
++			//to_ds = 1, fr_ds = 0;
++#ifdef CONFIG_TDLS
++			if((ptdlsinfo->setup_state == TDLS_LINKED_STATE)){
++				ptdls_sta = rtw_get_stainfo(pstapriv, pattrib->dst);
++				if((ptdls_sta!=NULL)&&(ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE)&&(pattrib->ether_type!=0x0806)){
++					//TDLS data transfer, ToDS=0, FrDs=0
++					_rtw_memcpy(pwlanhdr->addr1, pattrib->dst, ETH_ALEN);
++					_rtw_memcpy(pwlanhdr->addr2, pattrib->src, ETH_ALEN);
++					_rtw_memcpy(pwlanhdr->addr3, get_bssid(pmlmepriv), ETH_ALEN);
++					direct_link=1;
++				}else{
++					// 1.Data transfer to AP
++					// 2.Arp pkt will relayed by AP
++					SetToDs(fctrl);							
++					_rtw_memcpy(pwlanhdr->addr1, get_bssid(pmlmepriv), ETH_ALEN);
++					_rtw_memcpy(pwlanhdr->addr2, pattrib->src, ETH_ALEN);
++					_rtw_memcpy(pwlanhdr->addr3, pattrib->dst, ETH_ALEN);
++				} 
++			}else
++#endif //CONFIG_TDLS
++			{
++				//Data transfer to AP
++				SetToDs(fctrl);							
++				_rtw_memcpy(pwlanhdr->addr1, get_bssid(pmlmepriv), ETH_ALEN);
++				_rtw_memcpy(pwlanhdr->addr2, pattrib->src, ETH_ALEN);
++				_rtw_memcpy(pwlanhdr->addr3, pattrib->dst, ETH_ALEN);
++			} 
++
++			if (pqospriv->qos_option)
++				qos_option = _TRUE;
++
++		}
++		else if ((check_fwstate(pmlmepriv,  WIFI_AP_STATE) == _TRUE) ) {
++			//to_ds = 0, fr_ds = 1;
++			SetFrDs(fctrl);
++			_rtw_memcpy(pwlanhdr->addr1, pattrib->dst, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr2, get_bssid(pmlmepriv), ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, pattrib->src, ETH_ALEN);
++
++			if(psta->qos_option)			
++				qos_option = _TRUE;
++		}
++		else if ((check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) ||
++		(check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE)) {
++			_rtw_memcpy(pwlanhdr->addr1, pattrib->dst, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr2, pattrib->src, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, get_bssid(pmlmepriv), ETH_ALEN);
++
++			if(psta->qos_option)			
++				qos_option = _TRUE;
++		}
++		else {
++			RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,("fw_state:%x is not allowed to xmit frame\n", get_fwstate(pmlmepriv)));
++			res = _FAIL;
++			goto exit;
++		}
++
++		if(pattrib->mdata)
++			SetMData(fctrl);
++
++		if (pattrib->encrypt)
++			SetPrivacy(fctrl);
++
++		if (qos_option)
++		{
++			qc = (unsigned short *)(hdr + pattrib->hdrlen - 2);
++
++			if (pattrib->priority)
++				SetPriority(qc, pattrib->priority);
++
++			SetEOSP(qc, pattrib->eosp);
++
++			SetAckpolicy(qc, pattrib->ack_policy);
++		}
++
++		//TODO: fill HT Control Field
++
++		//Update Seq Num will be handled by f/w
++		{
++			if(psta){
++#ifdef CONFIG_TDLS
++				if(direct_link==1)
++				{
++					psta_backup = psta;
++					psta = ptdls_sta;
++				}
++#endif //CONFIG_TDLS
++
++				psta->sta_xmitpriv.txseq_tid[pattrib->priority]++;
++				psta->sta_xmitpriv.txseq_tid[pattrib->priority] &= 0xFFF;
++
++				pattrib->seqnum = psta->sta_xmitpriv.txseq_tid[pattrib->priority];
++
++				SetSeqNum(hdr, pattrib->seqnum);
++
++
++				//check if enable ampdu
++				if(pattrib->ht_en && psta->htpriv.ampdu_enable)
++				{
++					if(psta->htpriv.agg_enable_bitmap & BIT(pattrib->priority))
++					pattrib->ampdu_en = _TRUE;
++				}
++
++				//re-check if enable ampdu by BA_starting_seqctrl
++				if(pattrib->ampdu_en == _TRUE)
++				{					
++					u16 tx_seq;
++
++					tx_seq = psta->BA_starting_seqctrl[pattrib->priority & 0x0f];
++		
++					//check BA_starting_seqctrl
++					if(SN_LESS(pattrib->seqnum, tx_seq))
++					{
++						//DBG_871X("tx ampdu seqnum(%d) < tx_seq(%d)\n", pattrib->seqnum, tx_seq);
++						pattrib->ampdu_en = _FALSE;//AGG BK
++					}
++					else if(SN_EQUAL(pattrib->seqnum, tx_seq))
++					{					
++						psta->BA_starting_seqctrl[pattrib->priority & 0x0f] = (tx_seq+1)&0xfff;
++					
++						pattrib->ampdu_en = _TRUE;//AGG EN
++					}
++					else
++					{
++						//DBG_871X("tx ampdu over run\n");
++						psta->BA_starting_seqctrl[pattrib->priority & 0x0f] = (pattrib->seqnum+1)&0xfff;
++						pattrib->ampdu_en = _TRUE;//AGG EN
++					}
++
++				}
++
++#ifdef CONFIG_TDLS
++				if(direct_link==1)
++				{
++					if (pattrib->encrypt){
++						pattrib->encrypt= _AES_;
++						pattrib->iv_len=8;
++						pattrib->icv_len=8;
++					}
++
++					//qos_en, ht_en, init rate, ,bw, ch_offset, sgi
++					//pattrib->qos_en = ptdls_sta->qos_option;
++					pattrib->ht_en = ptdls_sta->htpriv.ht_option;
++					pattrib->raid = ptdls_sta->raid;
++					pattrib->bwmode = ptdls_sta->htpriv.bwmode;
++					pattrib->ch_offset = ptdls_sta->htpriv.ch_offset;
++					pattrib->sgi= ptdls_sta->htpriv.sgi;
++
++					pattrib->mac_id = ptdls_sta->mac_id;
++
++					psta = psta_backup;
++				}
++#endif //CONFIG_TDLS
++
++			}
++		}
++		
++	}
++	else
++	{
++
++	}
++
++exit:
++
++_func_exit_;
++
++	return res;
++}
++
++s32 rtw_txframes_pending(_adapter *padapter)
++{
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	return ((_rtw_queue_empty(&pxmitpriv->be_pending) == _FALSE) || 
++			 (_rtw_queue_empty(&pxmitpriv->bk_pending) == _FALSE) || 
++			 (_rtw_queue_empty(&pxmitpriv->vi_pending) == _FALSE) ||
++			 (_rtw_queue_empty(&pxmitpriv->vo_pending) == _FALSE));
++}
++
++s32 rtw_txframes_sta_ac_pending(_adapter *padapter, struct pkt_attrib *pattrib)
++{	
++	struct sta_info *psta;
++	struct tx_servq *ptxservq;
++	int priority = pattrib->priority;
++
++	if(pattrib->psta)
++	{
++	psta = pattrib->psta;
++	}
++	else
++	{
++		DBG_871X("%s, call rtw_get_stainfo()\n", __func__);
++		psta=rtw_get_stainfo(&padapter->stapriv ,&pattrib->ra[0]);
++	}	
++
++	if(psta==NULL)
++	{
++		DBG_871X("%s, psta==NUL\n", __func__);
++		return 0;
++	}
++
++	if(!(psta->state &_FW_LINKED))
++	{
++		DBG_871X("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++		return 0;
++	}
++	
++	switch(priority) 
++	{
++			case 1:
++			case 2:
++				ptxservq = &(psta->sta_xmitpriv.bk_q);				
++				break;
++			case 4:
++			case 5:
++				ptxservq = &(psta->sta_xmitpriv.vi_q);				
++				break;
++			case 6:
++			case 7:
++				ptxservq = &(psta->sta_xmitpriv.vo_q);							
++				break;
++			case 0:
++			case 3:
++			default:
++				ptxservq = &(psta->sta_xmitpriv.be_q);							
++			break;
++	
++	}	
++
++	return ptxservq->qcnt;	
++}
++
++#ifdef CONFIG_TDLS
++
++int rtw_build_tdls_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe, u8 action)
++{
++	int res=_SUCCESS;
++
++	switch(action){
++		case TDLS_SETUP_REQUEST:
++			rtw_build_tdls_setup_req_ies(padapter, pxmitframe, pframe);
++			break;
++		case TDLS_SETUP_RESPONSE:
++			rtw_build_tdls_setup_rsp_ies(padapter, pxmitframe, pframe);
++			break;
++		case TDLS_SETUP_CONFIRM:
++			rtw_build_tdls_setup_cfm_ies(padapter, pxmitframe, pframe);
++			break;
++		case TDLS_TEARDOWN:
++			rtw_build_tdls_teardown_ies(padapter, pxmitframe, pframe);
++			break;
++		case TDLS_DISCOVERY_REQUEST:
++			rtw_build_tdls_dis_req_ies(padapter, pxmitframe, pframe);
++			break;			
++		case TDLS_PEER_TRAFFIC_INDICATION:
++			rtw_build_tdls_peer_traffic_indication_ies(padapter, pxmitframe, pframe);
++			break;
++		case TDLS_CHANNEL_SWITCH_REQUEST:
++			rtw_build_tdls_ch_switch_req_ies(padapter, pxmitframe, pframe);
++			break;
++		case TDLS_CHANNEL_SWITCH_RESPONSE:
++			rtw_build_tdls_ch_switch_rsp_ies(padapter, pxmitframe, pframe);
++			break;
++#ifdef CONFIG_WFD			
++		case TUNNELED_PROBE_REQ:
++			rtw_build_tunneled_probe_req_ies(padapter, pxmitframe, pframe);
++			break;
++		case TUNNELED_PROBE_RSP:
++			rtw_build_tunneled_probe_rsp_ies(padapter, pxmitframe, pframe);
++			break;
++#endif //CONFIG_WFD
++		default:
++			res=_FAIL;
++			break;
++	}
++
++	return res;
++}
++
++s32 rtw_make_tdls_wlanhdr (_adapter *padapter , u8 *hdr, struct pkt_attrib *pattrib, u8 action)
++{
++	u16 *qc;
++	struct rtw_ieee80211_hdr *pwlanhdr = (struct rtw_ieee80211_hdr *)hdr;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct qos_priv *pqospriv = &pmlmepriv->qospriv;
++	struct sta_priv 	*pstapriv = &padapter->stapriv;
++	struct sta_info *psta=NULL, *ptdls_sta=NULL;
++	u8 tdls_seq=0, baddr[ETH_ALEN] = { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff };
++
++	sint res = _SUCCESS;
++	u16 *fctrl = &pwlanhdr->frame_ctl;
++
++_func_enter_;
++
++	_rtw_memset(hdr, 0, WLANHDR_OFFSET);
++
++	SetFrameSubType(fctrl, pattrib->subtype);
++
++	switch(action){
++		case TDLS_SETUP_REQUEST:
++		case TDLS_SETUP_RESPONSE:
++		case TDLS_SETUP_CONFIRM:
++		case TDLS_TEARDOWN:	//directly to peer STA or via AP
++		case TDLS_PEER_TRAFFIC_INDICATION:
++		case TDLS_PEER_PSM_REQUEST:	//directly to peer STA or via AP
++		case TUNNELED_PROBE_REQ:
++		case TUNNELED_PROBE_RSP:		
++			SetToDs(fctrl);							
++			_rtw_memcpy(pwlanhdr->addr1, get_bssid(pmlmepriv), ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr2, pattrib->src, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, pattrib->dst, ETH_ALEN);
++			break;
++		case TDLS_CHANNEL_SWITCH_REQUEST:
++		case TDLS_CHANNEL_SWITCH_RESPONSE:
++		case TDLS_PEER_PSM_RESPONSE:
++		case TDLS_PEER_TRAFFIC_RESPONSE:
++			_rtw_memcpy(pwlanhdr->addr1, pattrib->dst, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr2, pattrib->src, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, get_bssid(pmlmepriv), ETH_ALEN);
++			tdls_seq=1;
++			break;
++		case TDLS_DISCOVERY_REQUEST:	//unicast: directly to peer sta, Bcast: via AP
++			if(_rtw_memcmp(pattrib->dst, baddr, ETH_ALEN) )
++			{
++				SetToDs(fctrl);							
++				_rtw_memcpy(pwlanhdr->addr1, get_bssid(pmlmepriv), ETH_ALEN);
++				_rtw_memcpy(pwlanhdr->addr2, pattrib->src, ETH_ALEN);
++				_rtw_memcpy(pwlanhdr->addr3, pattrib->dst, ETH_ALEN);
++			}
++			else
++			{
++				_rtw_memcpy(pwlanhdr->addr1, pattrib->dst, ETH_ALEN);
++				_rtw_memcpy(pwlanhdr->addr2, pattrib->src, ETH_ALEN);
++				_rtw_memcpy(pwlanhdr->addr3, get_bssid(pmlmepriv), ETH_ALEN);
++				tdls_seq=1;
++			}
++			break;
++	}
++
++	if (pattrib->encrypt)
++		SetPrivacy(fctrl);
++
++	if (pqospriv->qos_option)
++	{
++		qc = (unsigned short *)(hdr + pattrib->hdrlen - 2);
++		if (pattrib->priority)
++			SetPriority(qc, pattrib->priority);
++		SetAckpolicy(qc, pattrib->ack_policy);
++	}
++
++	psta = pattrib->psta;
++ 
++	//  1. update seq_num per link by sta_info
++	//  2. rewrite encrypt to _AES_, also rewrite iv_len, icv_len
++	if(tdls_seq==1){
++		ptdls_sta=rtw_get_stainfo(pstapriv, pattrib->dst);
++		if(ptdls_sta){
++			ptdls_sta->sta_xmitpriv.txseq_tid[pattrib->priority]++;
++			ptdls_sta->sta_xmitpriv.txseq_tid[pattrib->priority] &= 0xFFF;
++			pattrib->seqnum = ptdls_sta->sta_xmitpriv.txseq_tid[pattrib->priority];
++			SetSeqNum(hdr, pattrib->seqnum);
++
++			if (pattrib->encrypt){
++				pattrib->encrypt= _AES_;
++				pattrib->iv_len=8;
++				pattrib->icv_len=8;
++			}
++		}else{
++			res=_FAIL;
++			goto exit;
++		}
++	}else if(psta){
++		psta->sta_xmitpriv.txseq_tid[pattrib->priority]++;
++		psta->sta_xmitpriv.txseq_tid[pattrib->priority] &= 0xFFF;
++		pattrib->seqnum = psta->sta_xmitpriv.txseq_tid[pattrib->priority];
++		SetSeqNum(hdr, pattrib->seqnum);
++	}
++
++
++exit:
++
++_func_exit_;
++
++	return res;
++}
++
++s32 rtw_xmit_tdls_coalesce(_adapter * padapter, struct xmit_frame * pxmitframe, u8 action)
++{
++	s32 llc_sz;
++
++	u8 *pframe, *mem_start;
++
++	struct sta_info		*psta;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	u8 *pbuf_start;
++	s32 bmcst = IS_MCAST(pattrib->ra);
++	s32 res = _SUCCESS;
++	
++_func_enter_;
++
++	if (pattrib->psta) {
++		psta = pattrib->psta;
++	} else {	
++		if(bmcst) {
++			psta = rtw_get_bcmc_stainfo(padapter);
++		} else {
++			psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++	        }
++	}
++
++	if(psta==NULL)
++		return _FAIL;
++
++	if (pxmitframe->buf_addr == NULL)
++		return _FAIL;
++
++	pbuf_start = pxmitframe->buf_addr;
++	mem_start = pbuf_start + TXDESC_OFFSET;
++
++	if (rtw_make_tdls_wlanhdr(padapter, mem_start, pattrib, action) == _FAIL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pframe = mem_start;
++	pframe += pattrib->hdrlen;
++
++	//adding icv, if necessary...
++	if (pattrib->iv_len)
++	{
++		if (psta != NULL)
++		{
++			switch(pattrib->encrypt)
++			{
++				case _WEP40_:
++				case _WEP104_:
++						WEP_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);	
++					break;
++				case _TKIP_:			
++					if(bmcst)
++						TKIP_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++					else
++						TKIP_IV(pattrib->iv, psta->dot11txpn, 0);
++					break;			
++				case _AES_:
++					if(bmcst)
++						AES_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++					else
++						AES_IV(pattrib->iv, psta->dot11txpn, 0);
++					break;
++			}
++		}
++
++		_rtw_memcpy(pframe, pattrib->iv, pattrib->iv_len);
++		pframe += pattrib->iv_len;
++
++	}
++
++	llc_sz = rtw_put_snap(pframe, pattrib->ether_type);
++	pframe += llc_sz;
++
++	//pattrib->pktlen will be counted in rtw_build_tdls_ies
++	pattrib->pktlen = 0;
++
++	rtw_build_tdls_ies(padapter, pxmitframe, pframe, action);
++
++	if ((pattrib->icv_len >0 )&& (pattrib->bswenc)) {
++		pframe += pattrib->pktlen;
++		_rtw_memcpy(pframe, pattrib->icv, pattrib->icv_len); 
++		pframe += pattrib->icv_len;
++	}
++
++	pattrib->nr_frags = 1;
++	pattrib->last_txcmdsz = pattrib->hdrlen + pattrib->iv_len + llc_sz + 
++			((pattrib->bswenc) ? pattrib->icv_len : 0) + pattrib->pktlen;
++	
++	if (xmitframe_addmic(padapter, pxmitframe) == _FAIL)
++	{
++		goto exit;
++	}
++
++	xmitframe_swencrypt(padapter, pxmitframe);
++	
++	update_attrib_vcs_info(padapter, pxmitframe);
++	
++exit:	
++	
++_func_exit_;	
++
++	return res;
++}
++#endif //CONFIG_TDLS
++
++/*
++ * Calculate wlan 802.11 packet MAX size from pkt_attrib
++ * This function doesn't consider fragment case
++ */
++u32 rtw_calculate_wlan_pkt_size_by_attribue(struct pkt_attrib *pattrib)
++{
++	u32	len = 0;
++
++	len = pattrib->hdrlen + pattrib->iv_len; // WLAN Header and IV
++	len += SNAP_SIZE + sizeof(u16); // LLC
++	len += pattrib->pktlen;
++	if (pattrib->encrypt == _TKIP_) len += 8; // MIC
++	len += pattrib->icv_len; // ICV
++
++	return len;
++}
++
++/*
++
++This sub-routine will perform all the following:
++
++1. remove 802.3 header.
++2. create wlan_header, based on the info in pxmitframe
++3. append sta's iv/ext-iv
++4. append LLC
++5. move frag chunk from pframe to pxmitframe->mem
++6. apply sw-encrypt, if necessary. 
++
++*/
++s32 rtw_xmitframe_coalesce(_adapter *padapter, _pkt *pkt, struct xmit_frame *pxmitframe)
++{
++	struct pkt_file pktfile;
++
++	s32 frg_inx, frg_len, mpdu_len, llc_sz, mem_sz;
++
++	SIZE_PTR addr;
++
++	u8 *pframe, *mem_start;
++
++	struct sta_info		*psta;
++	//struct sta_priv		*pstapriv = &padapter->stapriv;
++	//struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++
++	u8 *pbuf_start;
++
++	s32 bmcst = IS_MCAST(pattrib->ra);
++	s32 res = _SUCCESS;
++
++_func_enter_;
++
++	if (pattrib->psta)
++	{
++		psta = pattrib->psta;
++	} else
++	{	
++		DBG_871X("%s, call rtw_get_stainfo()\n", __func__);
++		psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++	}
++
++	if(psta==NULL)
++        {
++		
++		DBG_871X("%s, psta==NUL\n", __func__);
++		return _FAIL;
++	}
++
++
++	if(!(psta->state &_FW_LINKED))
++	{
++		DBG_871X("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++		return _FAIL;
++	}
++
++	if (pxmitframe->buf_addr == NULL){
++		DBG_8192C("==> %s buf_addr==NULL \n",__FUNCTION__);
++		return _FAIL;
++	}
++
++	pbuf_start = pxmitframe->buf_addr;
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	mem_start = pbuf_start + TXDESC_SIZE + (pxmitframe->pkt_offset * PACKET_OFFSET_SZ);
++#else
++	mem_start = pbuf_start + TXDESC_OFFSET;
++#endif
++
++	if (rtw_make_wlanhdr(padapter, mem_start, pattrib) == _FAIL) {
++		RT_TRACE(_module_rtl871x_xmit_c_, _drv_err_, ("rtw_xmitframe_coalesce: rtw_make_wlanhdr fail; drop pkt\n"));
++		res = _FAIL;
++		goto exit;
++	}
++
++	_rtw_open_pktfile(pkt, &pktfile);
++	_rtw_pktfile_read(&pktfile, NULL, pattrib->pkt_hdrlen);
++
++	frg_inx = 0;
++	frg_len = pxmitpriv->frag_len - 4;//2346-4 = 2342
++
++	while (1)
++	{
++		llc_sz = 0;
++
++		mpdu_len = frg_len;
++
++		pframe = mem_start;
++
++		SetMFrag(mem_start);
++
++		pframe += pattrib->hdrlen;
++		mpdu_len -= pattrib->hdrlen;
++
++		//adding icv, if necessary...
++		if (pattrib->iv_len)
++		{
++			//if (check_fwstate(pmlmepriv, WIFI_MP_STATE))
++			//	psta = rtw_get_stainfo(pstapriv, get_bssid(pmlmepriv));
++			//else
++			//	psta = rtw_get_stainfo(pstapriv, pattrib->ra);
++
++			if (psta != NULL)
++			{
++				switch(pattrib->encrypt)
++				{
++					case _WEP40_:
++					case _WEP104_:
++							WEP_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);	
++						break;
++					case _TKIP_:			
++						if(bmcst)
++							TKIP_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++						else
++							TKIP_IV(pattrib->iv, psta->dot11txpn, 0);
++						break;			
++					case _AES_:
++						if(bmcst)
++							AES_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++						else
++							AES_IV(pattrib->iv, psta->dot11txpn, 0);
++						break;
++				}
++			}
++
++			_rtw_memcpy(pframe, pattrib->iv, pattrib->iv_len);
++
++			RT_TRACE(_module_rtl871x_xmit_c_, _drv_notice_,
++				 ("rtw_xmitframe_coalesce: keyid=%d pattrib->iv[3]=%.2x pframe=%.2x %.2x %.2x %.2x\n",
++				  padapter->securitypriv.dot11PrivacyKeyIndex, pattrib->iv[3], *pframe, *(pframe+1), *(pframe+2), *(pframe+3)));
++
++			pframe += pattrib->iv_len;
++
++			mpdu_len -= pattrib->iv_len;
++		}
++
++		if (frg_inx == 0) {
++			llc_sz = rtw_put_snap(pframe, pattrib->ether_type);
++			pframe += llc_sz;
++			mpdu_len -= llc_sz;
++		}
++
++		if ((pattrib->icv_len >0) && (pattrib->bswenc)) {
++			mpdu_len -= pattrib->icv_len;
++		}
++
++
++		if (bmcst) {
++			// don't do fragment to broadcat/multicast packets
++			mem_sz = _rtw_pktfile_read(&pktfile, pframe, pattrib->pktlen);
++		} else {
++			mem_sz = _rtw_pktfile_read(&pktfile, pframe, mpdu_len);
++		}
++
++		pframe += mem_sz;
++
++		if ((pattrib->icv_len >0 )&& (pattrib->bswenc)) {
++			_rtw_memcpy(pframe, pattrib->icv, pattrib->icv_len); 
++			pframe += pattrib->icv_len;
++		}
++
++		frg_inx++;
++
++		if (bmcst || (rtw_endofpktfile(&pktfile) == _TRUE))
++		{
++			pattrib->nr_frags = frg_inx;
++
++			pattrib->last_txcmdsz = pattrib->hdrlen + pattrib->iv_len + ((pattrib->nr_frags==1)? llc_sz:0) + 
++					((pattrib->bswenc) ? pattrib->icv_len : 0) + mem_sz;
++			
++			ClearMFrag(mem_start);
++
++			break;
++		} else {
++			RT_TRACE(_module_rtl871x_xmit_c_, _drv_err_, ("%s: There're still something in packet!\n", __FUNCTION__));
++		}
++
++		addr = (SIZE_PTR)(pframe);
++		
++		mem_start = (unsigned char *)RND4(addr) + TXDESC_OFFSET;
++		_rtw_memcpy(mem_start, pbuf_start + TXDESC_OFFSET, pattrib->hdrlen);		
++	}
++
++	if (xmitframe_addmic(padapter, pxmitframe) == _FAIL)
++	{
++		RT_TRACE(_module_rtl871x_xmit_c_, _drv_err_, ("xmitframe_addmic(padapter, pxmitframe)==_FAIL\n"));
++		res = _FAIL;
++		goto exit;
++	}
++
++	xmitframe_swencrypt(padapter, pxmitframe);
++
++	if(bmcst == _FALSE)
++		update_attrib_vcs_info(padapter, pxmitframe);
++	else
++		pattrib->vcs_mode = NONE_VCS;
++
++exit:	
++	
++_func_exit_;	
++
++	return res;
++}
++
++#ifdef CONFIG_IEEE80211W
++//broadcast or multicast management pkt use BIP, unicast management pkt use CCMP encryption
++s32 rtw_mgmt_xmitframe_coalesce(_adapter *padapter, _pkt *pkt, struct xmit_frame *pxmitframe)
++{
++	struct pkt_file pktfile;
++	s32 frg_inx, frg_len, mpdu_len, llc_sz, mem_sz;
++	SIZE_PTR addr;
++	u8 *pframe, *mem_start = NULL, *tmp_buf=NULL;
++	u8 hw_hdr_offset, subtype ;
++	struct sta_info		*psta = NULL;
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	u8 *pbuf_start;
++	s32 bmcst = IS_MCAST(pattrib->ra);
++	s32 res = _FAIL;
++	u8 *BIP_AAD=NULL;
++	u8 *MGMT_body=NULL;
++	
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u8 MME[_MME_IE_LENGTH_];
++	
++	_irqL irqL;
++	u32	ori_len;
++	mem_start = pframe = (u8 *)(pxmitframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++	
++_func_enter_;
++	ori_len = BIP_AAD_SIZE+pattrib->pktlen;
++	tmp_buf = BIP_AAD = rtw_zmalloc(ori_len);
++	subtype = GetFrameSubType(pframe); //bit(7)~bit(2)
++	
++	if(BIP_AAD == NULL)
++		return _FAIL;
++			
++	_enter_critical_bh(&padapter->security_key_mutex, &irqL);
++	
++	//only support station mode
++	if(!check_fwstate(pmlmepriv, WIFI_STATION_STATE) || !check_fwstate(pmlmepriv, _FW_LINKED))
++		goto xmitframe_coalesce_success;
++	
++	//IGTK key is not install, it may not support 802.11w
++	if(padapter->securitypriv.binstallBIPkey != _TRUE)
++	{
++		DBG_871X("no instll BIP key\n");
++		goto xmitframe_coalesce_success;
++	}
++	//station mode doesn't need TX BIP, just ready the code
++	if(bmcst)
++	{
++		int frame_body_len;
++		u8 mic[16];
++		
++		_rtw_memset(MME, 0, 18);
++				
++		//other types doesn't need the BIP
++		if(GetFrameSubType(pframe) != WIFI_DEAUTH && GetFrameSubType(pframe) != WIFI_DISASSOC)
++			goto xmitframe_coalesce_fail;
++		
++		MGMT_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++		pframe += pattrib->pktlen;
++		
++		//octent 0 and 1 is key index ,BIP keyid is 4 or 5, LSB only need octent 0
++		MME[0]=padapter->securitypriv.dot11wBIPKeyid;
++		//copy packet number
++		_rtw_memcpy(&MME[2], &pmlmeext->mgnt_80211w_IPN, 6);
++		//increase the packet number
++		pmlmeext->mgnt_80211w_IPN++;
++		
++		//add MME IE with MIC all zero, MME string doesn't include element id and length
++		pframe = rtw_set_ie(pframe, _MME_IE_ , 16 , MME, &(pattrib->pktlen));
++		pattrib->last_txcmdsz = pattrib->pktlen;
++		// total frame length - header length
++		frame_body_len = pattrib->pktlen - sizeof(struct rtw_ieee80211_hdr_3addr);
++		
++		//conscruct AAD, copy frame control field
++		_rtw_memcpy(BIP_AAD, &pwlanhdr->frame_ctl, 2);
++		ClearRetry(BIP_AAD);
++		ClearPwrMgt(BIP_AAD);
++		ClearMData(BIP_AAD);
++		//conscruct AAD, copy address 1 to address 3
++		_rtw_memcpy(BIP_AAD+2, pwlanhdr->addr1, 18);
++		//copy management fram body
++		_rtw_memcpy(BIP_AAD+BIP_AAD_SIZE, MGMT_body, frame_body_len);
++		/*//dump total packet include MME with zero MIC
++		{
++			int i;
++			printk("Total packet: ");
++			for(i=0; i < BIP_AAD_SIZE+frame_body_len; i++)
++				printk(" %02x ", BIP_AAD[i]);
++			printk("\n");
++		}*/
++		//calculate mic
++		if(omac1_aes_128(padapter->securitypriv.dot11wBIPKey[padapter->securitypriv.dot11wBIPKeyid].skey
++			, BIP_AAD, BIP_AAD_SIZE+frame_body_len, mic))
++			goto xmitframe_coalesce_fail;
++		
++		/*//dump calculated mic result
++		{
++			int i;
++			printk("Calculated mic result: ");
++			for(i=0; i<16; i++)
++				printk(" %02x ", mic[i]);
++			printk("\n");
++		}*/
++		//copy right BIP mic value, total is 128bits, we use the 0~63 bits
++		_rtw_memcpy(pframe-8, mic, 8);
++		/*/dump all packet after mic ok
++		{
++			int pp;
++			printk("pattrib->pktlen = %d \n", pattrib->pktlen);
++			for(pp=0;pp< pattrib->pktlen; pp++)
++				printk(" %02x ", mem_start[pp]);
++			printk("\n");
++		}*/
++	}
++	else //unicast mgmt frame TX
++	{
++		//start to encrypt mgmt frame
++		if(subtype == WIFI_DEAUTH || subtype == WIFI_DISASSOC ||
++			subtype == WIFI_REASSOCREQ || subtype == WIFI_ACTION)
++		{
++			if (pattrib->psta)
++				psta = pattrib->psta;
++			else
++			{
++				psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++			}
++		
++			if(psta==NULL)
++			{
++				
++				DBG_871X("%s, psta==NUL\n", __func__);
++				goto xmitframe_coalesce_fail;
++			}
++		
++			if(!(psta->state & _FW_LINKED) || pxmitframe->buf_addr==NULL)
++			{
++				DBG_871X("%s, not _FW_LINKED or addr null\n", __func__);
++				goto xmitframe_coalesce_fail;
++			}
++			
++			//DBG_871X("%s, action frame category=%d \n", __func__, pframe[WLAN_HDR_A3_LEN]);
++			//according 802.11-2012 standard, these five types are not robust types
++			if(subtype == WIFI_ACTION && 
++			(pframe[WLAN_HDR_A3_LEN] == RTW_WLAN_CATEGORY_PUBLIC ||
++			pframe[WLAN_HDR_A3_LEN] == RTW_WLAN_CATEGORY_HT ||
++			pframe[WLAN_HDR_A3_LEN] == RTW_WLAN_CATEGORY_UNPROTECTED_WNM ||
++			pframe[WLAN_HDR_A3_LEN] == RTW_WLAN_CATEGORY_SELF_PROTECTED  ||
++			pframe[WLAN_HDR_A3_LEN] == RTW_WLAN_CATEGORY_P2P))
++				goto xmitframe_coalesce_fail;
++			//before encrypt dump the management packet content
++			/*{
++				int i;
++				printk("Management pkt: ");
++				for(i=0; i<pattrib->pktlen; i++)
++				printk(" %02x ", pframe[i]);
++				printk("=======\n");
++			}*/
++			if(pattrib->encrypt>0)
++				_rtw_memcpy(pattrib->dot118021x_UncstKey.skey, psta->dot118021x_UncstKey.skey, 16);
++			//bakeup original management packet
++			_rtw_memcpy(tmp_buf, pframe, pattrib->pktlen);
++			//move to data portion
++			pframe += pattrib->hdrlen;
++			
++			//802.11w unicast management packet must be _AES_
++			pattrib->iv_len = 8;
++			//it's MIC of AES
++			pattrib->icv_len = 8;
++			
++			switch(pattrib->encrypt)
++			{
++				case _AES_:
++						//set AES IV header
++						AES_IV(pattrib->iv, psta->dot11wtxpn, 0);
++					break;
++				default:
++					goto xmitframe_coalesce_fail;
++			}
++			//insert iv header into management frame
++			_rtw_memcpy(pframe, pattrib->iv, pattrib->iv_len);
++			pframe += pattrib->iv_len;
++			//copy mgmt data portion after CCMP header
++			_rtw_memcpy(pframe, tmp_buf+pattrib->hdrlen, pattrib->pktlen-pattrib->hdrlen);
++			//move pframe to end of mgmt pkt
++			pframe += pattrib->pktlen-pattrib->hdrlen;
++			//add 8 bytes CCMP IV header to length
++			pattrib->pktlen += pattrib->iv_len;
++			/*//dump management packet include AES IV header
++			{
++				int i;
++				printk("Management pkt + IV: ");
++				//for(i=0; i<pattrib->pktlen; i++)
++				//printk(" %02x ", mem_start[i]);
++				printk("@@@@@@@@@@@@@\n");
++			}*/
++			
++			if ((pattrib->icv_len >0 )&& (pattrib->bswenc)) {
++				_rtw_memcpy(pframe, pattrib->icv, pattrib->icv_len); 
++				pframe += pattrib->icv_len;
++			}
++			//add 8 bytes MIC
++			pattrib->pktlen += pattrib->icv_len;
++			//set final tx command size
++			pattrib->last_txcmdsz = pattrib->pktlen;
++	
++			//set protected bit must be beofre SW encrypt
++			SetPrivacy(mem_start);
++			/*//dump management packet include AES header
++			{
++				int i;
++				printk("prepare to enc Management pkt + IV: ");
++				for(i=0; i<pattrib->pktlen; i++)
++				printk(" %02x ", mem_start[i]);
++				printk("@@@@@@@@@@@@@\n");
++			}*/
++			//software encrypt
++			xmitframe_swencrypt(padapter, pxmitframe);
++		}
++	}
++
++xmitframe_coalesce_success:
++	_exit_critical_bh(&padapter->security_key_mutex, &irqL);
++	rtw_mfree(BIP_AAD, ori_len);
++_func_exit_;
++	return _SUCCESS;
++	
++xmitframe_coalesce_fail:
++	_exit_critical_bh(&padapter->security_key_mutex, &irqL);
++	rtw_mfree(BIP_AAD, ori_len);
++_func_exit_;
++
++	return _FAIL;
++}
++#endif //CONFIG_IEEE80211W
++
++/* Logical Link Control(LLC) SubNetwork Attachment Point(SNAP) header
++ * IEEE LLC/SNAP header contains 8 octets
++ * First 3 octets comprise the LLC portion
++ * SNAP portion, 5 octets, is divided into two fields:
++ *	Organizationally Unique Identifier(OUI), 3 octets,
++ *	type, defined by that organization, 2 octets.
++ */
++s32 rtw_put_snap(u8 *data, u16 h_proto)
++{
++	struct ieee80211_snap_hdr *snap;
++	u8 *oui;
++
++_func_enter_;
++
++	snap = (struct ieee80211_snap_hdr *)data;
++	snap->dsap = 0xaa;
++	snap->ssap = 0xaa;
++	snap->ctrl = 0x03;
++
++	if (h_proto == 0x8137 || h_proto == 0x80f3)
++		oui = P802_1H_OUI;
++	else
++		oui = RFC1042_OUI;
++	
++	snap->oui[0] = oui[0];
++	snap->oui[1] = oui[1];
++	snap->oui[2] = oui[2];
++
++	*(u16 *)(data + SNAP_SIZE) = htons(h_proto);
++
++_func_exit_;
++
++	return SNAP_SIZE + sizeof(u16);
++}
++
++void rtw_update_protection(_adapter *padapter, u8 *ie, uint ie_len)
++{
++
++	uint	protection;
++	u8	*perp;
++	sint	 erp_len;
++	struct	xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct	registry_priv *pregistrypriv = &padapter->registrypriv;
++	
++_func_enter_;
++	
++	switch(pxmitpriv->vcs_setting)
++	{
++		case DISABLE_VCS:
++			pxmitpriv->vcs = NONE_VCS;
++			break;
++	
++		case ENABLE_VCS:
++			break;
++	
++		case AUTO_VCS:
++		default:
++			perp = rtw_get_ie(ie, _ERPINFO_IE_, &erp_len, ie_len);
++			if(perp == NULL)
++			{
++				pxmitpriv->vcs = NONE_VCS;
++			}
++			else
++			{
++				protection = (*(perp + 2)) & BIT(1);
++				if (protection)
++				{
++					if(pregistrypriv->vcs_type == RTS_CTS)
++						pxmitpriv->vcs = RTS_CTS;
++					else
++						pxmitpriv->vcs = CTS_TO_SELF;
++				}
++				else
++					pxmitpriv->vcs = NONE_VCS;
++			}
++
++			break;			
++	
++	}
++
++_func_exit_;
++
++}
++
++void rtw_count_tx_stats(_adapter *padapter, struct xmit_frame *pxmitframe, int sz)
++{
++	struct sta_info *psta = NULL;
++	struct stainfo_stats *pstats = NULL;
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++
++	if((pxmitframe->frame_tag&0x0f) == DATA_FRAMETAG)
++	{
++		pxmitpriv->tx_bytes += sz;
++#ifdef CONFIG_USB_TX_AGGREGATION
++		pmlmepriv->LinkDetectInfo.NumTxOkInPeriod += pxmitframe->agg_num;
++#else
++		pmlmepriv->LinkDetectInfo.NumTxOkInPeriod++;
++#endif
++
++		psta = pxmitframe->attrib.psta;
++
++		if(psta)
++		{
++			pstats = &psta->sta_stats;
++#ifdef CONFIG_USB_TX_AGGREGATION
++			pstats->tx_pkts += pxmitframe->agg_num;
++#else
++			pstats->tx_pkts++;
++#endif
++			pstats->tx_bytes += sz;
++		}
++	}
++	
++}
++
++struct xmit_buf *rtw_alloc_xmitbuf_ext(struct xmit_priv *pxmitpriv)
++{
++	_irqL irqL;
++	struct xmit_buf *pxmitbuf =  NULL;
++	_list *plist, *phead;
++	_queue *pfree_queue = &pxmitpriv->free_xmit_extbuf_queue;
++
++_func_enter_;
++
++	_enter_critical(&pfree_queue->lock, &irqL);
++
++	if(_rtw_queue_empty(pfree_queue) == _TRUE) {
++		pxmitbuf = NULL;
++	} else {
++
++		phead = get_list_head(pfree_queue);
++
++		plist = get_next(phead);
++
++		pxmitbuf = LIST_CONTAINOR(plist, struct xmit_buf, list);
++
++		rtw_list_delete(&(pxmitbuf->list));
++	}
++
++	if (pxmitbuf !=  NULL)
++	{
++		pxmitpriv->free_xmit_extbuf_cnt--;
++		#ifdef DBG_XMIT_BUF
++		DBG_871X("DBG_XMIT_BUF ALLOC no=%d,  free_xmit_extbuf_cnt=%d\n",pxmitbuf->no, pxmitpriv->free_xmit_extbuf_cnt);
++		#endif
++		
++	
++		pxmitbuf->priv_data = NULL;
++
++#ifdef CONFIG_SDIO_HCI
++		pxmitbuf->len = 0;
++		pxmitbuf->pdata = pxmitbuf->ptail = pxmitbuf->phead;
++#endif
++#ifdef CONFIG_PCI_HCI
++		pxmitbuf->len = 0;
++#endif
++
++		if (pxmitbuf->sctx) {
++			DBG_871X("%s pxmitbuf->sctx is not NULL\n", __func__);
++			rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_BUF_ALLOC);
++		}
++
++	}
++
++	_exit_critical(&pfree_queue->lock, &irqL);
++
++_func_exit_;
++
++	return pxmitbuf;
++}
++
++s32 rtw_free_xmitbuf_ext(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf)
++{
++	_irqL irqL;
++	_queue *pfree_queue = &pxmitpriv->free_xmit_extbuf_queue;
++
++_func_enter_;
++
++	if(pxmitbuf==NULL)
++	{
++		return _FAIL;
++	}
++
++	_enter_critical(&pfree_queue->lock, &irqL);
++
++	rtw_list_delete(&pxmitbuf->list);
++
++	rtw_list_insert_tail(&(pxmitbuf->list), get_list_head(pfree_queue));
++	pxmitpriv->free_xmit_extbuf_cnt++;
++	#ifdef DBG_XMIT_BUF
++	DBG_871X("DBG_XMIT_BUF FREE no=%d, free_xmit_extbuf_cnt=%d\n",pxmitbuf->no ,pxmitpriv->free_xmit_extbuf_cnt);
++	#endif
++
++	_exit_critical(&pfree_queue->lock, &irqL);
++
++_func_exit_;
++
++	return _SUCCESS;
++} 
++
++struct xmit_buf *rtw_alloc_xmitbuf(struct xmit_priv *pxmitpriv)
++{
++	_irqL irqL;
++	struct xmit_buf *pxmitbuf =  NULL;
++	_list *plist, *phead;
++	_queue *pfree_xmitbuf_queue = &pxmitpriv->free_xmitbuf_queue;
++
++_func_enter_;
++
++	//DBG_871X("+rtw_alloc_xmitbuf\n");
++
++	_enter_critical(&pfree_xmitbuf_queue->lock, &irqL);
++
++	if(_rtw_queue_empty(pfree_xmitbuf_queue) == _TRUE) {
++		pxmitbuf = NULL;
++	} else {
++
++		phead = get_list_head(pfree_xmitbuf_queue);
++
++		plist = get_next(phead);
++
++		pxmitbuf = LIST_CONTAINOR(plist, struct xmit_buf, list);
++
++		rtw_list_delete(&(pxmitbuf->list));
++	}
++
++	if (pxmitbuf !=  NULL)
++	{
++		pxmitpriv->free_xmitbuf_cnt--;
++		#ifdef DBG_XMIT_BUF
++		DBG_871X("DBG_XMIT_BUF ALLOC no=%d,  free_xmitbuf_cnt=%d\n",pxmitbuf->no, pxmitpriv->free_xmitbuf_cnt);
++		#endif
++		//DBG_871X("alloc, free_xmitbuf_cnt=%d\n", pxmitpriv->free_xmitbuf_cnt);
++
++		pxmitbuf->priv_data = NULL;
++
++#ifdef CONFIG_SDIO_HCI
++		pxmitbuf->len = 0;
++		pxmitbuf->pdata = pxmitbuf->ptail = pxmitbuf->phead;
++#endif
++#ifdef CONFIG_PCI_HCI
++		pxmitbuf->len = 0;
++#endif
++
++		if (pxmitbuf->sctx) {
++			DBG_871X("%s pxmitbuf->sctx is not NULL\n", __func__);
++			rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_BUF_ALLOC);
++		}
++	}
++	#ifdef DBG_XMIT_BUF
++	else
++	{
++		DBG_871X("DBG_XMIT_BUF rtw_alloc_xmitbuf return NULL\n");
++	}
++	#endif
++
++	_exit_critical(&pfree_xmitbuf_queue->lock, &irqL);
++
++_func_exit_;
++
++	return pxmitbuf;
++}
++
++s32 rtw_free_xmitbuf(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf)
++{
++	_irqL irqL;
++	_queue *pfree_xmitbuf_queue = &pxmitpriv->free_xmitbuf_queue;
++
++_func_enter_;
++
++	//DBG_871X("+rtw_free_xmitbuf\n");
++
++	if(pxmitbuf==NULL)
++	{
++		return _FAIL;
++	}
++
++	if (pxmitbuf->sctx) {
++		DBG_871X("%s pxmitbuf->sctx is not NULL\n", __func__);
++		rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_BUF_FREE);
++	}
++
++	if(pxmitbuf->ext_tag)
++	{
++		rtw_free_xmitbuf_ext(pxmitpriv, pxmitbuf);
++	}
++	else
++	{
++		_enter_critical(&pfree_xmitbuf_queue->lock, &irqL);
++
++		rtw_list_delete(&pxmitbuf->list);	
++
++		rtw_list_insert_tail(&(pxmitbuf->list), get_list_head(pfree_xmitbuf_queue));
++
++		pxmitpriv->free_xmitbuf_cnt++;
++		//DBG_871X("FREE, free_xmitbuf_cnt=%d\n", pxmitpriv->free_xmitbuf_cnt);
++		#ifdef DBG_XMIT_BUF
++		DBG_871X("DBG_XMIT_BUF FREE no=%d, free_xmitbuf_cnt=%d\n",pxmitbuf->no ,pxmitpriv->free_xmitbuf_cnt);
++		#endif
++		_exit_critical(&pfree_xmitbuf_queue->lock, &irqL);
++	}
++
++_func_exit_;	 
++
++	return _SUCCESS;	
++} 
++
++void rtw_init_xmitframe(struct xmit_frame *pxframe)
++{
++	if (pxframe !=  NULL)//default value setting
++	{
++		pxframe->buf_addr = NULL;
++		pxframe->pxmitbuf = NULL;
++
++		_rtw_memset(&pxframe->attrib, 0, sizeof(struct pkt_attrib));
++		//pxframe->attrib.psta = NULL;
++
++		pxframe->frame_tag = DATA_FRAMETAG;
++
++#ifdef CONFIG_USB_HCI
++		pxframe->pkt = NULL;
++		pxframe->pkt_offset = 1;//default use pkt_offset to fill tx desc
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++		pxframe->agg_num = 1;
++#endif
++
++#endif //#ifdef CONFIG_USB_HCI
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		pxframe->pg_num = 1;
++		pxframe->agg_num = 1;
++#endif
++
++#ifdef CONFIG_XMIT_ACK
++		pxframe->ack_report = 0;
++#endif
++
++	}
++}
++
++/*
++Calling context:
++1. OS_TXENTRY
++2. RXENTRY (rx_thread or RX_ISR/RX_CallBack)
++
++If we turn on USE_RXTHREAD, then, no need for critical section.
++Otherwise, we must use _enter/_exit critical to protect free_xmit_queue...
++
++Must be very very cautious...
++
++*/
++struct xmit_frame *rtw_alloc_xmitframe(struct xmit_priv *pxmitpriv)//(_queue *pfree_xmit_queue)
++{
++	/*
++		Please remember to use all the osdep_service api,
++		and lock/unlock or _enter/_exit critical to protect 
++		pfree_xmit_queue
++	*/
++
++	_irqL irqL;
++	struct xmit_frame *pxframe = NULL;
++	_list *plist, *phead;
++	_queue *pfree_xmit_queue = &pxmitpriv->free_xmit_queue;
++#ifdef PLATFORM_LINUX
++	_adapter *padapter = pxmitpriv->adapter;
++#endif //PLATFORM_LINUX
++
++_func_enter_;
++
++	_enter_critical_bh(&pfree_xmit_queue->lock, &irqL);
++
++	if (_rtw_queue_empty(pfree_xmit_queue) == _TRUE) {
++		RT_TRACE(_module_rtl871x_xmit_c_,_drv_info_,("rtw_alloc_xmitframe:%d\n", pxmitpriv->free_xmitframe_cnt));
++		pxframe =  NULL;
++	} else {
++		phead = get_list_head(pfree_xmit_queue);
++
++		plist = get_next(phead);
++
++		pxframe = LIST_CONTAINOR(plist, struct xmit_frame, list);
++
++		rtw_list_delete(&(pxframe->list));
++		pxmitpriv->free_xmitframe_cnt--;
++		RT_TRACE(_module_rtl871x_xmit_c_, _drv_info_, ("rtw_alloc_xmitframe():free_xmitframe_cnt=%d\n", pxmitpriv->free_xmitframe_cnt));
++	}
++
++#ifdef PLATFORM_LINUX
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,35))
++		if(pxmitpriv->free_xmitframe_cnt==1)
++		{
++			if (!rtw_netif_queue_stopped(padapter->pnetdev))
++				rtw_netif_stop_queue(padapter->pnetdev);
++		}
++#endif
++#endif
++
++	_exit_critical_bh(&pfree_xmit_queue->lock, &irqL);
++
++	rtw_init_xmitframe(pxframe);
++
++_func_exit_;
++
++	return pxframe;
++}
++
++struct xmit_frame *rtw_alloc_xmitframe_ext(struct xmit_priv *pxmitpriv)
++{
++	_irqL irqL;
++	struct xmit_frame *pxframe = NULL;
++	_list *plist, *phead;
++	_queue *queue = &pxmitpriv->free_xframe_ext_queue;
++
++_func_enter_;
++
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	if (_rtw_queue_empty(queue) == _TRUE) {
++		RT_TRACE(_module_rtl871x_xmit_c_,_drv_info_,("rtw_alloc_xmitframe_ext:%d\n", pxmitpriv->free_xframe_ext_cnt));
++		pxframe =  NULL;
++	} else {
++		phead = get_list_head(queue);
++		plist = get_next(phead);
++		pxframe = LIST_CONTAINOR(plist, struct xmit_frame, list);
++
++		rtw_list_delete(&(pxframe->list));
++		pxmitpriv->free_xframe_ext_cnt--;
++		RT_TRACE(_module_rtl871x_xmit_c_, _drv_info_, ("rtw_alloc_xmitframe_ext():free_xmitframe_cnt=%d\n", pxmitpriv->free_xframe_ext_cnt));
++	}
++
++	_exit_critical_bh(&queue->lock, &irqL);
++
++	rtw_init_xmitframe(pxframe);
++
++_func_exit_;
++
++	return pxframe;
++}
++
++struct xmit_frame *rtw_alloc_xmitframe_once(struct xmit_priv *pxmitpriv)
++{
++	struct xmit_frame *pxframe = NULL;
++	u8 *alloc_addr;
++
++	alloc_addr = rtw_zmalloc(sizeof(struct xmit_frame) + 4);
++	
++	if (alloc_addr == NULL)
++		goto exit;
++		
++	pxframe = (struct xmit_frame *)N_BYTE_ALIGMENT((SIZE_PTR)(alloc_addr), 4);
++	pxframe->alloc_addr = alloc_addr;
++
++	pxframe->padapter = pxmitpriv->adapter;
++	pxframe->frame_tag = NULL_FRAMETAG;
++
++	pxframe->pkt = NULL;
++
++	pxframe->buf_addr = NULL;
++	pxframe->pxmitbuf = NULL;
++
++	rtw_init_xmitframe(pxframe);
++
++	DBG_871X("################## %s ##################\n", __func__);
++
++exit:
++	return pxframe;
++}
++
++s32 rtw_free_xmitframe(struct xmit_priv *pxmitpriv, struct xmit_frame *pxmitframe)
++{	
++	_irqL irqL;
++	_queue *queue;
++	_adapter *padapter = pxmitpriv->adapter;
++	_pkt *pndis_pkt = NULL;
++
++_func_enter_;	
++
++	if (pxmitframe == NULL) {
++		RT_TRACE(_module_rtl871x_xmit_c_, _drv_err_, ("======rtw_free_xmitframe():pxmitframe==NULL!!!!!!!!!!\n"));
++		goto exit;
++	}
++
++	if (pxmitframe->pkt){
++		pndis_pkt = pxmitframe->pkt;
++		pxmitframe->pkt = NULL;
++	}
++
++	if (pxmitframe->alloc_addr) {
++		DBG_871X("################## %s with alloc_addr ##################\n", __func__);
++		rtw_mfree(pxmitframe->alloc_addr, sizeof(struct xmit_frame) + 4);
++		goto check_pkt_complete;
++	}
++
++	if (pxmitframe->ext_tag == 0)
++		queue = &pxmitpriv->free_xmit_queue;
++	else if(pxmitframe->ext_tag == 1)
++		queue = &pxmitpriv->free_xframe_ext_queue;
++	else
++	{}
++
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	rtw_list_delete(&pxmitframe->list);	
++	rtw_list_insert_tail(&pxmitframe->list, get_list_head(queue));
++	if (pxmitframe->ext_tag == 0) {
++		pxmitpriv->free_xmitframe_cnt++;
++		RT_TRACE(_module_rtl871x_xmit_c_, _drv_debug_, ("rtw_free_xmitframe():free_xmitframe_cnt=%d\n", pxmitpriv->free_xmitframe_cnt));
++	} else if(pxmitframe->ext_tag == 1) {
++		pxmitpriv->free_xframe_ext_cnt++;
++		RT_TRACE(_module_rtl871x_xmit_c_, _drv_debug_, ("rtw_free_xmitframe():free_xframe_ext_cnt=%d\n", pxmitpriv->free_xframe_ext_cnt));
++	} else {
++	}
++
++	_exit_critical_bh(&queue->lock, &irqL);
++
++check_pkt_complete:
++
++	if(pndis_pkt)
++		rtw_os_pkt_complete(padapter, pndis_pkt);
++
++exit:
++
++_func_exit_;
++
++	return _SUCCESS;
++}
++
++void rtw_free_xmitframe_queue(struct xmit_priv *pxmitpriv, _queue *pframequeue)
++{
++	_irqL irqL;
++	_list	*plist, *phead;
++	struct	xmit_frame 	*pxmitframe;
++
++_func_enter_;	
++
++	_enter_critical_bh(&(pframequeue->lock), &irqL);
++
++	phead = get_list_head(pframequeue);
++	plist = get_next(phead);
++	
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE)
++	{
++			
++		pxmitframe = LIST_CONTAINOR(plist, struct xmit_frame, list);
++
++		plist = get_next(plist); 
++		
++		rtw_free_xmitframe(pxmitpriv,pxmitframe);
++			
++	}
++	_exit_critical_bh(&(pframequeue->lock), &irqL);
++
++_func_exit_;
++}
++
++s32 rtw_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	if (rtw_xmit_classifier(padapter, pxmitframe) == _FAIL)
++	{
++		RT_TRACE(_module_rtl871x_xmit_c_, _drv_err_,
++			 ("rtw_xmitframe_enqueue: drop xmit pkt for classifier fail\n"));
++//		pxmitframe->pkt = NULL;
++		return _FAIL;
++	}
++
++	return _SUCCESS;
++}
++
++static struct xmit_frame *dequeue_one_xmitframe(struct xmit_priv *pxmitpriv, struct hw_xmit *phwxmit, struct tx_servq *ptxservq, _queue *pframe_queue)
++{
++	_list	*xmitframe_plist, *xmitframe_phead;
++	struct	xmit_frame	*pxmitframe=NULL;
++
++	xmitframe_phead = get_list_head(pframe_queue);
++	xmitframe_plist = get_next(xmitframe_phead);
++
++	while ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE)
++	{
++		pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++		xmitframe_plist = get_next(xmitframe_plist);
++
++/*#ifdef RTK_DMP_PLATFORM
++#ifdef CONFIG_USB_TX_AGGREGATION
++		if((ptxservq->qcnt>0) && (ptxservq->qcnt<=2))
++		{
++			pxmitframe = NULL;
++
++			tasklet_schedule(&pxmitpriv->xmit_tasklet);
++
++			break;
++		}
++#endif
++#endif*/
++		rtw_list_delete(&pxmitframe->list);
++
++		ptxservq->qcnt--;
++
++			break;
++
++		pxmitframe = NULL;
++
++	}
++
++	return pxmitframe;
++}
++
++struct xmit_frame* rtw_dequeue_xframe(struct xmit_priv *pxmitpriv, struct hw_xmit *phwxmit_i, sint entry)
++{
++	_irqL irqL0;
++	_list *sta_plist, *sta_phead;
++	struct hw_xmit *phwxmit;
++	struct tx_servq *ptxservq = NULL;
++	_queue *pframe_queue = NULL;
++	struct xmit_frame *pxmitframe = NULL;
++	_adapter *padapter = pxmitpriv->adapter;
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	int i, inx[4];
++#ifdef CONFIG_USB_HCI
++//	int j, tmp, acirp_cnt[4];
++#endif
++
++_func_enter_;
++
++	inx[0] = 0; inx[1] = 1; inx[2] = 2; inx[3] = 3;
++
++	if(pregpriv->wifi_spec==1)
++	{
++		int j, tmp, acirp_cnt[4];
++#if 0
++		if(flags<XMIT_QUEUE_ENTRY)
++		{
++			//priority exchange according to the completed xmitbuf flags.
++			inx[flags] = 0;
++			inx[0] = flags;
++		}
++#endif	
++	
++#ifdef CONFIG_USB_HCI
++		//entry indx: 0->vo, 1->vi, 2->be, 3->bk.
++		acirp_cnt[0] = pxmitpriv->voq_cnt;
++		acirp_cnt[1] = pxmitpriv->viq_cnt;
++		acirp_cnt[2] = pxmitpriv->beq_cnt;
++		acirp_cnt[3] = pxmitpriv->bkq_cnt;
++
++		for(i=0; i<4; i++)
++		{
++			for(j=i+1; j<4; j++)
++			{
++				if(acirp_cnt[j]<acirp_cnt[i])
++				{
++					tmp = acirp_cnt[i];
++					acirp_cnt[i] = acirp_cnt[j];
++					acirp_cnt[j] = tmp;
++
++					tmp = inx[i];
++					inx[i] = inx[j];
++					inx[j] = tmp;
++				}
++			}
++		}
++#endif
++	}
++
++	_enter_critical_bh(&pxmitpriv->lock, &irqL0);
++
++	for(i = 0; i < entry; i++) 
++	{
++		phwxmit = phwxmit_i + inx[i];
++
++		//_enter_critical_ex(&phwxmit->sta_queue->lock, &irqL0);
++
++		sta_phead = get_list_head(phwxmit->sta_queue);
++		sta_plist = get_next(sta_phead);
++
++		while ((rtw_end_of_queue_search(sta_phead, sta_plist)) == _FALSE)
++		{
++
++			ptxservq= LIST_CONTAINOR(sta_plist, struct tx_servq, tx_pending);
++
++			pframe_queue = &ptxservq->sta_pending;
++
++			pxmitframe = dequeue_one_xmitframe(pxmitpriv, phwxmit, ptxservq, pframe_queue);
++
++			if(pxmitframe)
++			{
++				phwxmit->accnt--;
++
++				//Remove sta node when there is no pending packets.
++				if(_rtw_queue_empty(pframe_queue)) //must be done after get_next and before break
++					rtw_list_delete(&ptxservq->tx_pending);
++
++				//_exit_critical_ex(&phwxmit->sta_queue->lock, &irqL0);
++
++				goto exit;
++			}
++
++			sta_plist = get_next(sta_plist);
++
++		}
++
++		//_exit_critical_ex(&phwxmit->sta_queue->lock, &irqL0);
++
++	}
++
++exit:
++
++	_exit_critical_bh(&pxmitpriv->lock, &irqL0);
++
++_func_exit_;
++
++	return pxmitframe;
++}
++
++#if 1
++struct tx_servq *rtw_get_sta_pending(_adapter *padapter, struct sta_info *psta, sint up, u8 *ac)
++{
++	struct tx_servq *ptxservq=NULL;
++	
++_func_enter_;	
++
++	switch (up) 
++	{
++		case 1:
++		case 2:
++			ptxservq = &(psta->sta_xmitpriv.bk_q);
++			*(ac) = 3;
++			RT_TRACE(_module_rtl871x_xmit_c_,_drv_info_,("rtw_get_sta_pending : BK \n"));
++			break;
++
++		case 4:
++		case 5:
++			ptxservq = &(psta->sta_xmitpriv.vi_q);
++			*(ac) = 1;
++			RT_TRACE(_module_rtl871x_xmit_c_,_drv_info_,("rtw_get_sta_pending : VI\n"));
++			break;
++
++		case 6:
++		case 7:
++			ptxservq = &(psta->sta_xmitpriv.vo_q);
++			*(ac) = 0;
++			RT_TRACE(_module_rtl871x_xmit_c_,_drv_info_,("rtw_get_sta_pending : VO \n"));			
++			break;
++
++		case 0:
++		case 3:
++		default:
++			ptxservq = &(psta->sta_xmitpriv.be_q);
++			*(ac) = 2;
++			RT_TRACE(_module_rtl871x_xmit_c_,_drv_info_,("rtw_get_sta_pending : BE \n"));				
++		break;
++		
++	}
++
++_func_exit_;
++
++	return ptxservq;			
++}
++#else
++__inline static struct tx_servq *rtw_get_sta_pending
++	(_adapter *padapter, _queue **ppstapending, struct sta_info *psta, sint up)
++{
++	struct tx_servq *ptxservq;
++	struct hw_xmit *phwxmits =  padapter->xmitpriv.hwxmits;
++	
++_func_enter_;	
++
++#ifdef CONFIG_RTL8711
++
++	if(IS_MCAST(psta->hwaddr))
++	{
++		ptxservq = &(psta->sta_xmitpriv.be_q); // we will use be_q to queue bc/mc frames in BCMC_stainfo
++		*ppstapending = &padapter->xmitpriv.bm_pending; 
++	}
++	else
++#endif		
++	{
++		switch (up) 
++		{
++			case 1:
++			case 2:
++				ptxservq = &(psta->sta_xmitpriv.bk_q);
++				*ppstapending = &padapter->xmitpriv.bk_pending;
++				(phwxmits+3)->accnt++;
++				RT_TRACE(_module_rtl871x_xmit_c_,_drv_info_,("rtw_get_sta_pending : BK \n"));
++				break;
++
++			case 4:
++			case 5:
++				ptxservq = &(psta->sta_xmitpriv.vi_q);
++				*ppstapending = &padapter->xmitpriv.vi_pending;
++				(phwxmits+1)->accnt++;
++				RT_TRACE(_module_rtl871x_xmit_c_,_drv_info_,("rtw_get_sta_pending : VI\n"));
++				break;
++
++			case 6:
++			case 7:
++				ptxservq = &(psta->sta_xmitpriv.vo_q);
++				*ppstapending = &padapter->xmitpriv.vo_pending;
++				(phwxmits+0)->accnt++;
++				RT_TRACE(_module_rtl871x_xmit_c_,_drv_info_,("rtw_get_sta_pending : VO \n"));			
++				break;
++
++			case 0:
++			case 3:
++			default:
++				ptxservq = &(psta->sta_xmitpriv.be_q);
++				*ppstapending = &padapter->xmitpriv.be_pending;
++				(phwxmits+2)->accnt++;
++				RT_TRACE(_module_rtl871x_xmit_c_,_drv_info_,("rtw_get_sta_pending : BE \n"));				
++			break;
++			
++		}
++
++	}
++
++_func_exit_;
++
++	return ptxservq;			
++}
++#endif
++
++/*
++ * Will enqueue pxmitframe to the proper queue,
++ * and indicate it to xx_pending list.....
++ */
++s32 rtw_xmit_classifier(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	//_irqL irqL0;
++	u8	ac_index;
++	struct sta_info	*psta;
++	struct tx_servq	*ptxservq;
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_priv	*pstapriv = &padapter->stapriv;
++	struct hw_xmit	*phwxmits =  padapter->xmitpriv.hwxmits;
++	sint res = _SUCCESS;
++
++_func_enter_;
++
++	if (pattrib->psta) {
++		psta = pattrib->psta;		
++	} else {
++		DBG_871X("%s, call rtw_get_stainfo()\n", __func__);
++		psta = rtw_get_stainfo(pstapriv, pattrib->ra);
++	}
++
++	if (psta == NULL) {
++		res = _FAIL;
++		DBG_8192C("rtw_xmit_classifier: psta == NULL\n");
++		RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,("rtw_xmit_classifier: psta == NULL\n"));
++		goto exit;
++	}
++
++	if(!(psta->state &_FW_LINKED))
++	{
++		DBG_871X("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++		return _FAIL;
++	}
++
++	ptxservq = rtw_get_sta_pending(padapter, psta, pattrib->priority, (u8 *)(&ac_index));
++
++	//_enter_critical(&pstapending->lock, &irqL0);
++
++	if (rtw_is_list_empty(&ptxservq->tx_pending)) {
++		rtw_list_insert_tail(&ptxservq->tx_pending, get_list_head(phwxmits[ac_index].sta_queue));
++	}
++
++	//_enter_critical(&ptxservq->sta_pending.lock, &irqL1);
++
++	rtw_list_insert_tail(&pxmitframe->list, get_list_head(&ptxservq->sta_pending));
++	ptxservq->qcnt++;
++	phwxmits[ac_index].accnt++;
++
++	//_exit_critical(&ptxservq->sta_pending.lock, &irqL1);
++
++	//_exit_critical(&pstapending->lock, &irqL0);
++
++exit:
++
++_func_exit_;
++
++	return res;
++}
++
++void rtw_alloc_hwxmits(_adapter *padapter)
++{
++	struct hw_xmit *hwxmits;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	pxmitpriv->hwxmit_entry = HWXMIT_ENTRY;
++
++	pxmitpriv->hwxmits = (struct hw_xmit *)rtw_zmalloc(sizeof (struct hw_xmit) * pxmitpriv->hwxmit_entry);	
++	
++	hwxmits = pxmitpriv->hwxmits;
++
++	if(pxmitpriv->hwxmit_entry == 5)
++	{
++		//pxmitpriv->bmc_txqueue.head = 0;
++		//hwxmits[0] .phwtxqueue = &pxmitpriv->bmc_txqueue;
++		hwxmits[0] .sta_queue = &pxmitpriv->bm_pending;
++	
++		//pxmitpriv->vo_txqueue.head = 0;
++		//hwxmits[1] .phwtxqueue = &pxmitpriv->vo_txqueue;
++		hwxmits[1] .sta_queue = &pxmitpriv->vo_pending;
++
++		//pxmitpriv->vi_txqueue.head = 0;
++		//hwxmits[2] .phwtxqueue = &pxmitpriv->vi_txqueue;
++		hwxmits[2] .sta_queue = &pxmitpriv->vi_pending;
++	
++		//pxmitpriv->bk_txqueue.head = 0;
++		//hwxmits[3] .phwtxqueue = &pxmitpriv->bk_txqueue;
++		hwxmits[3] .sta_queue = &pxmitpriv->bk_pending;
++
++      		//pxmitpriv->be_txqueue.head = 0;
++		//hwxmits[4] .phwtxqueue = &pxmitpriv->be_txqueue;
++		hwxmits[4] .sta_queue = &pxmitpriv->be_pending;
++		
++	}	
++	else if(pxmitpriv->hwxmit_entry == 4)
++	{
++
++		//pxmitpriv->vo_txqueue.head = 0;
++		//hwxmits[0] .phwtxqueue = &pxmitpriv->vo_txqueue;
++		hwxmits[0] .sta_queue = &pxmitpriv->vo_pending;
++
++		//pxmitpriv->vi_txqueue.head = 0;
++		//hwxmits[1] .phwtxqueue = &pxmitpriv->vi_txqueue;
++		hwxmits[1] .sta_queue = &pxmitpriv->vi_pending;
++
++		//pxmitpriv->be_txqueue.head = 0;
++		//hwxmits[2] .phwtxqueue = &pxmitpriv->be_txqueue;
++		hwxmits[2] .sta_queue = &pxmitpriv->be_pending;
++	
++		//pxmitpriv->bk_txqueue.head = 0;
++		//hwxmits[3] .phwtxqueue = &pxmitpriv->bk_txqueue;
++		hwxmits[3] .sta_queue = &pxmitpriv->bk_pending;
++	}
++	else
++	{
++		
++
++	}
++	
++
++}
++
++void rtw_free_hwxmits(_adapter *padapter)
++{
++	struct hw_xmit *hwxmits;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	hwxmits = pxmitpriv->hwxmits;
++	if(hwxmits)
++		rtw_mfree((u8 *)hwxmits, (sizeof (struct hw_xmit) * pxmitpriv->hwxmit_entry));
++}
++
++void rtw_init_hwxmits(struct hw_xmit *phwxmit, sint entry)
++{
++	sint i;
++_func_enter_;	
++	for(i = 0; i < entry; i++, phwxmit++)
++	{
++		//_rtw_spinlock_init(&phwxmit->xmit_lock);
++		//_rtw_init_listhead(&phwxmit->pending);		
++		//phwxmit->txcmdcnt = 0;
++		phwxmit->accnt = 0;
++	}
++_func_exit_;	
++}
++
++#ifdef CONFIG_BR_EXT
++int rtw_br_client_tx(_adapter *padapter, struct sk_buff **pskb)
++{
++	struct sk_buff *skb = *pskb;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	_irqL irqL;
++	//if(check_fwstate(pmlmepriv, WIFI_STATION_STATE|WIFI_ADHOC_STATE) == _TRUE)
++	{
++		void dhcp_flag_bcast(_adapter *priv, struct sk_buff *skb);
++		int res, is_vlan_tag=0, i, do_nat25=1;
++		unsigned short vlan_hdr=0;
++		void *br_port = NULL;
++
++		//mac_clone_handle_frame(priv, skb);
++
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++		br_port = padapter->pnetdev->br_port;
++#else   // (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++		rcu_read_lock();
++		br_port = rcu_dereference(padapter->pnetdev->rx_handler_data);
++		rcu_read_unlock();
++#endif  // (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++		_enter_critical_bh(&padapter->br_ext_lock, &irqL);
++		if (	!(skb->data[0] & 1) &&
++				br_port &&
++				memcmp(skb->data+MACADDRLEN, padapter->br_mac, MACADDRLEN) &&
++				*((unsigned short *)(skb->data+MACADDRLEN*2)) != __constant_htons(ETH_P_8021Q) &&
++				*((unsigned short *)(skb->data+MACADDRLEN*2)) == __constant_htons(ETH_P_IP) &&
++				!memcmp(padapter->scdb_mac, skb->data+MACADDRLEN, MACADDRLEN) && padapter->scdb_entry) {
++			memcpy(skb->data+MACADDRLEN, GET_MY_HWADDR(padapter), MACADDRLEN);
++			padapter->scdb_entry->ageing_timer = jiffies;
++			_exit_critical_bh(&padapter->br_ext_lock, &irqL);
++		}
++		else
++		//if (!priv->pmib->ethBrExtInfo.nat25_disable) 		
++		{
++//			if (priv->dev->br_port &&
++//				 !memcmp(skb->data+MACADDRLEN, priv->br_mac, MACADDRLEN)) {
++#if 1
++			if (*((unsigned short *)(skb->data+MACADDRLEN*2)) == __constant_htons(ETH_P_8021Q)) {
++				is_vlan_tag = 1;
++				vlan_hdr = *((unsigned short *)(skb->data+MACADDRLEN*2+2));
++				for (i=0; i<6; i++)
++					*((unsigned short *)(skb->data+MACADDRLEN*2+2-i*2)) = *((unsigned short *)(skb->data+MACADDRLEN*2-2-i*2));
++				skb_pull(skb, 4);
++			}
++			//if SA == br_mac && skb== IP  => copy SIP to br_ip ?? why
++			if (!memcmp(skb->data+MACADDRLEN, padapter->br_mac, MACADDRLEN) &&
++				(*((unsigned short *)(skb->data+MACADDRLEN*2)) == __constant_htons(ETH_P_IP)))
++				memcpy(padapter->br_ip, skb->data+WLAN_ETHHDR_LEN+12, 4);
++
++			if (*((unsigned short *)(skb->data+MACADDRLEN*2)) == __constant_htons(ETH_P_IP)) {
++				if (memcmp(padapter->scdb_mac, skb->data+MACADDRLEN, MACADDRLEN)) {
++					void *scdb_findEntry(_adapter *priv, unsigned char *macAddr, unsigned char *ipAddr);
++					
++					if ((padapter->scdb_entry = (struct nat25_network_db_entry *)scdb_findEntry(padapter,
++								skb->data+MACADDRLEN, skb->data+WLAN_ETHHDR_LEN+12)) != NULL) {
++						memcpy(padapter->scdb_mac, skb->data+MACADDRLEN, MACADDRLEN);
++						memcpy(padapter->scdb_ip, skb->data+WLAN_ETHHDR_LEN+12, 4);
++						padapter->scdb_entry->ageing_timer = jiffies;
++						do_nat25 = 0;
++					}
++				}
++				else {
++					if (padapter->scdb_entry) {
++						padapter->scdb_entry->ageing_timer = jiffies;
++						do_nat25 = 0;
++					}
++					else {
++						memset(padapter->scdb_mac, 0, MACADDRLEN);
++						memset(padapter->scdb_ip, 0, 4);
++					}
++				}
++			}
++			_exit_critical_bh(&padapter->br_ext_lock, &irqL);
++#endif // 1
++			if (do_nat25)
++			{
++				int nat25_db_handle(_adapter *priv, struct sk_buff *skb, int method);
++				if (nat25_db_handle(padapter, skb, NAT25_CHECK) == 0) {
++					struct sk_buff *newskb;
++
++					if (is_vlan_tag) {
++						skb_push(skb, 4);
++						for (i=0; i<6; i++)
++							*((unsigned short *)(skb->data+i*2)) = *((unsigned short *)(skb->data+4+i*2));
++						*((unsigned short *)(skb->data+MACADDRLEN*2)) = __constant_htons(ETH_P_8021Q);
++						*((unsigned short *)(skb->data+MACADDRLEN*2+2)) = vlan_hdr;
++					}
++
++					newskb = rtw_skb_copy(skb);
++					if (newskb == NULL) {
++						//priv->ext_stats.tx_drops++;
++						DEBUG_ERR("TX DROP: rtw_skb_copy fail!\n");
++						//goto stop_proc;
++						return -1;
++					}
++					rtw_skb_free(skb);
++
++					*pskb = skb = newskb;
++					if (is_vlan_tag) {
++						vlan_hdr = *((unsigned short *)(skb->data+MACADDRLEN*2+2));
++						for (i=0; i<6; i++)
++							*((unsigned short *)(skb->data+MACADDRLEN*2+2-i*2)) = *((unsigned short *)(skb->data+MACADDRLEN*2-2-i*2));
++						skb_pull(skb, 4);
++					}
++				}
++
++				if (skb_is_nonlinear(skb))
++					DEBUG_ERR("%s(): skb_is_nonlinear!!\n", __FUNCTION__);
++					
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 18))
++				res = skb_linearize(skb, GFP_ATOMIC);
++#else	// (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 18))
++				res = skb_linearize(skb);
++#endif	// (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 18))
++				if (res < 0) {				
++						DEBUG_ERR("TX DROP: skb_linearize fail!\n");
++						//goto free_and_stop;
++						return -1;
++				}
++				
++				res = nat25_db_handle(padapter, skb, NAT25_INSERT);
++				if (res < 0) {
++					if (res == -2) {
++						//priv->ext_stats.tx_drops++;
++						DEBUG_ERR("TX DROP: nat25_db_handle fail!\n");
++						//goto free_and_stop;
++						return -1;
++
++					}
++					// we just print warning message and let it go
++					//DEBUG_WARN("%s()-%d: nat25_db_handle INSERT Warning!\n", __FUNCTION__, __LINE__);
++					//return -1; // return -1 will cause system crash on 2011/08/30!
++					return 0;
++				}
++			}
++
++			memcpy(skb->data+MACADDRLEN, GET_MY_HWADDR(padapter), MACADDRLEN);
++
++			dhcp_flag_bcast(padapter, skb);
++
++			if (is_vlan_tag) {
++				skb_push(skb, 4);
++				for (i=0; i<6; i++)
++					*((unsigned short *)(skb->data+i*2)) = *((unsigned short *)(skb->data+4+i*2));
++				*((unsigned short *)(skb->data+MACADDRLEN*2)) = __constant_htons(ETH_P_8021Q);
++				*((unsigned short *)(skb->data+MACADDRLEN*2+2)) = vlan_hdr;
++			}
++		}
++#if 0		
++		else{
++			if (*((unsigned short *)(skb->data+MACADDRLEN*2)) == __constant_htons(ETH_P_8021Q)) {
++				is_vlan_tag = 1;
++			}
++				
++			if(is_vlan_tag){
++				if(ICMPV6_MCAST_MAC(skb->data) && ICMPV6_PROTO1A_VALN(skb->data)){
++                                        memcpy(skb->data+MACADDRLEN, GET_MY_HWADDR(padapter), MACADDRLEN);
++				}
++			}else
++			{
++				if(ICMPV6_MCAST_MAC(skb->data) && ICMPV6_PROTO1A(skb->data)){
++                                        memcpy(skb->data+MACADDRLEN, GET_MY_HWADDR(padapter), MACADDRLEN);
++				}
++			}	
++		}
++#endif	// 0
++
++		// check if SA is equal to our MAC
++		if (memcmp(skb->data+MACADDRLEN, GET_MY_HWADDR(padapter), MACADDRLEN)) {
++			//priv->ext_stats.tx_drops++;
++			DEBUG_ERR("TX DROP: untransformed frame SA:%02X%02X%02X%02X%02X%02X!\n",
++				skb->data[6],skb->data[7],skb->data[8],skb->data[9],skb->data[10],skb->data[11]);
++			//goto free_and_stop;
++			return -1;
++		}
++	}
++	return 0;
++}
++#endif	// CONFIG_BR_EXT
++
++static void do_queue_select(_adapter	*padapter, struct pkt_attrib *pattrib)
++{
++	u8 qsel;
++		
++	qsel = pattrib->priority;
++	RT_TRACE(_module_rtl871x_xmit_c_,_drv_info_,("### do_queue_select priority=%d ,qsel = %d\n",pattrib->priority ,qsel));
++
++#ifdef CONFIG_CONCURRENT_MODE	
++//	if (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE)
++//		qsel = 7;//
++#endif
++	
++	pattrib->qsel = qsel;
++}
++
++/*
++ * The main transmit(tx) entry
++ *
++ * Return
++ *	1	enqueue
++ *	0	success, hardware will handle this xmit frame(packet)
++ *	<0	fail
++ */
++s32 rtw_xmit(_adapter *padapter, _pkt **ppkt)
++{
++	static u32 start = 0;
++	static u32 drop_cnt = 0;
++#ifdef CONFIG_AP_MODE
++	_irqL irqL0;
++#endif
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct xmit_frame *pxmitframe = NULL;
++#ifdef CONFIG_BR_EXT
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	void *br_port = NULL;
++#endif	// CONFIG_BR_EXT
++
++	s32 res;
++
++	if (start == 0)
++		start = rtw_get_current_time();
++
++	pxmitframe = rtw_alloc_xmitframe(pxmitpriv);
++
++	if (rtw_get_passing_time_ms(start) > 2000) {
++		if (drop_cnt)
++			DBG_871X("DBG_TX_DROP_FRAME %s no more pxmitframe, drop_cnt:%u\n", __FUNCTION__, drop_cnt);
++		start = rtw_get_current_time();
++		drop_cnt = 0;
++	}
++
++	if (pxmitframe == NULL) {
++		drop_cnt ++;
++		RT_TRACE(_module_xmit_osdep_c_, _drv_err_, ("rtw_xmit: no more pxmitframe\n"));
++		return -1;
++	}
++
++#ifdef CONFIG_BR_EXT
++
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++	br_port = padapter->pnetdev->br_port;
++#else   // (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++	rcu_read_lock();
++	br_port = rcu_dereference(padapter->pnetdev->rx_handler_data);
++	rcu_read_unlock();
++#endif  // (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++
++	if( br_port	&& check_fwstate(pmlmepriv, WIFI_STATION_STATE|WIFI_ADHOC_STATE) == _TRUE)
++	{
++		res = rtw_br_client_tx(padapter, ppkt);
++		if (res == -1)
++		{
++			rtw_free_xmitframe(pxmitpriv, pxmitframe);
++			return -1;
++		}
++	}	
++
++#endif	// CONFIG_BR_EXT
++
++	res = update_attrib(padapter, *ppkt, &pxmitframe->attrib);
++	if (res == _FAIL) {
++		RT_TRACE(_module_xmit_osdep_c_, _drv_err_, ("rtw_xmit: update attrib fail\n"));
++		#ifdef DBG_TX_DROP_FRAME
++		DBG_871X("DBG_TX_DROP_FRAME %s update attrib fail\n", __FUNCTION__);
++		#endif
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++		return -1;
++	}
++	pxmitframe->pkt = *ppkt;
++
++	rtw_led_control(padapter, LED_CTL_TX);
++
++	do_queue_select(padapter, &pxmitframe->attrib);
++
++#if defined(CONFIG_AP_MODE) || defined(CONFIG_TDLS)
++	_enter_critical_bh(&pxmitpriv->lock, &irqL0);
++	if(xmitframe_enqueue_for_sleeping_sta(padapter, pxmitframe) == _TRUE)
++	{
++		_exit_critical_bh(&pxmitpriv->lock, &irqL0);
++		return 1;		
++	}
++	_exit_critical_bh(&pxmitpriv->lock, &irqL0);
++#endif
++
++	if (rtw_hal_xmit(padapter, pxmitframe) == _FALSE)
++		return 1;
++
++	return 0;
++}
++
++#ifdef CONFIG_TDLS
++sint xmitframe_enqueue_for_tdls_sleeping_sta(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	sint ret=_FALSE;
++
++	_irqL irqL;
++	struct sta_info *ptdls_sta=NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	int i;
++	
++	ptdls_sta=rtw_get_stainfo(pstapriv, pattrib->dst);
++	if(ptdls_sta==NULL){
++		return ret;
++	}else if(ptdls_sta->tdls_sta_state&TDLS_LINKED_STATE){
++
++		if(pattrib->triggered==1)
++		{
++			ret = _TRUE;
++			return ret;
++			}
++
++		_enter_critical_bh(&ptdls_sta->sleep_q.lock, &irqL);	
++		
++		if(ptdls_sta->state&WIFI_SLEEP_STATE)
++		{
++			rtw_list_delete(&pxmitframe->list);
++		
++			//_enter_critical_bh(&psta->sleep_q.lock, &irqL);	
++			
++			rtw_list_insert_tail(&pxmitframe->list, get_list_head(&ptdls_sta->sleep_q));
++			
++			ptdls_sta->sleepq_len++;
++			ptdls_sta->sleepq_ac_len++;
++
++			//indicate 4-AC queue bit in TDLS peer traffic indication
++			switch(pattrib->priority)
++			{
++				case 1:
++				case 2:
++					ptdls_sta->uapsd_bk = ptdls_sta->uapsd_bk | BIT(1);
++					break;
++				case 4:
++				case 5:
++					ptdls_sta->uapsd_vi = ptdls_sta->uapsd_vi | BIT(1);
++					break;
++				case 6:
++				case 7:
++					ptdls_sta->uapsd_vo = ptdls_sta->uapsd_vo | BIT(1);
++					break;
++				case 0:
++				case 3:
++				default:
++					ptdls_sta->uapsd_be = ptdls_sta->uapsd_be | BIT(1);
++					break;
++			}
++
++			if(ptdls_sta->sleepq_len==1)
++			{
++				//transmit TDLS PTI via AP
++				rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_SD_PTI);
++			}
++			ret = _TRUE;
++
++		}
++
++		_exit_critical_bh(&ptdls_sta->sleep_q.lock, &irqL);	
++	}
++
++	return ret;
++	
++}
++#endif //CONFIG_TDLS
++
++#if defined(CONFIG_AP_MODE) || defined(CONFIG_TDLS)
++
++sint xmitframe_enqueue_for_sleeping_sta(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	_irqL irqL;
++	sint ret=_FALSE;
++	struct sta_info *psta=NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	sint bmcst = IS_MCAST(pattrib->ra);
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	if( ptdlsinfo->setup_state == TDLS_LINKED_STATE )
++	{
++		ret = xmitframe_enqueue_for_tdls_sleeping_sta(padapter, pxmitframe);
++		return ret;
++	}
++#endif //CONFIG_TDLS
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _FALSE)
++	    return ret;
++
++	if(pattrib->psta)
++	{
++		psta = pattrib->psta;
++	}
++	else
++	{
++		DBG_871X("%s, call rtw_get_stainfo()\n", __func__);
++		psta=rtw_get_stainfo(pstapriv, pattrib->ra);
++	}
++
++	if(psta==NULL)
++	{
++		DBG_871X("%s, psta==NUL\n", __func__);
++		return _FALSE;
++	}
++
++	if(!(psta->state &_FW_LINKED))
++	{
++		DBG_871X("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++		return _FALSE;
++	}
++
++	if(pattrib->triggered==1)
++	{
++		//DBG_871X("directly xmit pspoll_triggered packet\n");
++
++		//pattrib->triggered=0;
++
++		if(bmcst)
++			pattrib->qsel = 0x11;//HIQ
++		
++
++		return ret;
++	}
++
++
++	if(bmcst)
++	{
++		_enter_critical_bh(&psta->sleep_q.lock, &irqL);	
++	
++		if(pstapriv->sta_dz_bitmap)//if anyone sta is in ps mode
++		{
++			//pattrib->qsel = 0x11;//HIQ
++			
++			rtw_list_delete(&pxmitframe->list);
++			
++			//_enter_critical_bh(&psta->sleep_q.lock, &irqL);	
++			
++			rtw_list_insert_tail(&pxmitframe->list, get_list_head(&psta->sleep_q));
++			
++			psta->sleepq_len++;
++
++			pstapriv->tim_bitmap |= BIT(0);//
++			pstapriv->sta_dz_bitmap |= BIT(0);
++			
++			//DBG_871X("enqueue, sq_len=%d, tim=%x\n", psta->sleepq_len, pstapriv->tim_bitmap);
++
++			update_beacon(padapter, _TIM_IE_, NULL, _FALSE);//tx bc/mc packets after upate bcn
++			
++			//_exit_critical_bh(&psta->sleep_q.lock, &irqL);				
++			
++			ret = _TRUE;			
++			
++		}
++		
++		_exit_critical_bh(&psta->sleep_q.lock, &irqL);	
++		
++		return ret;
++		
++	}
++	
++
++	_enter_critical_bh(&psta->sleep_q.lock, &irqL);	
++	
++	if(psta->state&WIFI_SLEEP_STATE)
++	{
++		u8 wmmps_ac=0;
++	
++		if(pstapriv->sta_dz_bitmap&BIT(psta->aid))	
++		{			
++			rtw_list_delete(&pxmitframe->list);
++		
++			//_enter_critical_bh(&psta->sleep_q.lock, &irqL);	
++			
++			rtw_list_insert_tail(&pxmitframe->list, get_list_head(&psta->sleep_q));
++			
++			psta->sleepq_len++;
++
++			switch(pattrib->priority)
++			{
++				case 1:
++				case 2:
++					wmmps_ac = psta->uapsd_bk&BIT(0);
++					break;
++				case 4:
++				case 5:
++					wmmps_ac = psta->uapsd_vi&BIT(0);
++					break;
++				case 6:
++				case 7:
++					wmmps_ac = psta->uapsd_vo&BIT(0);
++					break;
++				case 0:
++				case 3:
++				default:
++					wmmps_ac = psta->uapsd_be&BIT(0);
++					break;
++			}
++
++			if(wmmps_ac)
++				psta->sleepq_ac_len++;
++
++			if(((psta->has_legacy_ac) && (!wmmps_ac)) ||((!psta->has_legacy_ac)&&(wmmps_ac)))
++			{
++				pstapriv->tim_bitmap |= BIT(psta->aid);
++
++				//DBG_871X("enqueue, sq_len=%d, tim=%x\n", psta->sleepq_len, pstapriv->tim_bitmap);
++
++				if(psta->sleepq_len==1)
++				{
++					//DBG_871X("sleepq_len==1, update BCNTIM\n");
++					//upate BCN for TIM IE
++					update_beacon(padapter, _TIM_IE_, NULL, _FALSE);
++				}
++			}
++
++			//_exit_critical_bh(&psta->sleep_q.lock, &irqL);			
++
++			//if(psta->sleepq_len > (NR_XMITFRAME>>3))
++			//{
++			//	wakeup_sta_to_xmit(padapter, psta);
++			//}	
++
++			ret = _TRUE;
++
++		}
++
++	}
++
++	_exit_critical_bh(&psta->sleep_q.lock, &irqL);	
++
++	return ret;
++	
++}
++
++static void dequeue_xmitframes_to_sleeping_queue(_adapter *padapter, struct sta_info *psta, _queue *pframequeue)
++{
++	sint ret;
++	_list	*plist, *phead;
++	u8	ac_index;
++	struct tx_servq	*ptxservq;
++	struct pkt_attrib	*pattrib;
++	struct xmit_frame 	*pxmitframe;
++	struct hw_xmit *phwxmits =  padapter->xmitpriv.hwxmits;
++	
++	phead = get_list_head(pframequeue);
++	plist = get_next(phead);
++	
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE)
++	{			
++		pxmitframe = LIST_CONTAINOR(plist, struct xmit_frame, list);
++
++		plist = get_next(plist);	
++		
++		ret = xmitframe_enqueue_for_sleeping_sta(padapter, pxmitframe);	
++
++		if(_TRUE == ret)
++		{
++		pattrib = &pxmitframe->attrib;
++
++		ptxservq = rtw_get_sta_pending(padapter, psta, pattrib->priority, (u8 *)(&ac_index));
++
++		ptxservq->qcnt--;
++		phwxmits[ac_index].accnt--;		
++	}
++		else
++		{
++			//DBG_871X("xmitframe_enqueue_for_sleeping_sta return _FALSE\n");
++		}
++		
++	}
++	
++}
++
++void stop_sta_xmit(_adapter *padapter, struct sta_info *psta)
++{	
++	_irqL irqL0;	
++	struct sta_info *psta_bmc;
++	struct sta_xmit_priv *pstaxmitpriv;
++	struct sta_priv *pstapriv = &padapter->stapriv;	
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;	
++	
++	pstaxmitpriv = &psta->sta_xmitpriv;
++
++	//for BC/MC Frames
++	psta_bmc = rtw_get_bcmc_stainfo(padapter);
++	
++			
++	_enter_critical_bh(&pxmitpriv->lock, &irqL0);
++
++	psta->state |= WIFI_SLEEP_STATE;
++	
++#ifdef CONFIG_TDLS
++	if( !(psta->tdls_sta_state & TDLS_LINKED_STATE) )
++#endif //CONFIG_TDLS	
++	pstapriv->sta_dz_bitmap |= BIT(psta->aid);
++	
++	
++
++	dequeue_xmitframes_to_sleeping_queue(padapter, psta, &pstaxmitpriv->vo_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->vo_q.tx_pending));
++
++
++	dequeue_xmitframes_to_sleeping_queue(padapter, psta, &pstaxmitpriv->vi_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->vi_q.tx_pending));
++
++
++	dequeue_xmitframes_to_sleeping_queue(padapter, psta, &pstaxmitpriv->be_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->be_q.tx_pending));
++	
++
++	dequeue_xmitframes_to_sleeping_queue(padapter, psta, &pstaxmitpriv->bk_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->bk_q.tx_pending));
++
++#ifdef CONFIG_TDLS
++	if( !(psta->tdls_sta_state & TDLS_LINKED_STATE) )
++	{
++		if( psta_bmc != NULL )
++		{
++#endif //CONFIG_TDLS
++
++
++	//for BC/MC Frames
++	pstaxmitpriv = &psta_bmc->sta_xmitpriv;
++	dequeue_xmitframes_to_sleeping_queue(padapter, psta_bmc, &pstaxmitpriv->be_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->be_q.tx_pending));
++	
++
++#ifdef CONFIG_TDLS	
++		}
++	}
++#endif //CONFIG_TDLS	
++	_exit_critical_bh(&pxmitpriv->lock, &irqL0);
++	
++
++}	
++
++void wakeup_sta_to_xmit(_adapter *padapter, struct sta_info *psta)
++{	 
++	_irqL irqL;	 
++	u8 update_mask=0, wmmps_ac=0;
++	struct sta_info *psta_bmc;
++	_list	*xmitframe_plist, *xmitframe_phead;
++	struct xmit_frame *pxmitframe=NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	psta_bmc = rtw_get_bcmc_stainfo(padapter);
++	
++
++	//_enter_critical_bh(&psta->sleep_q.lock, &irqL);
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++	xmitframe_phead = get_list_head(&psta->sleep_q);
++	xmitframe_plist = get_next(xmitframe_phead);
++
++	while ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE)
++	{			
++		pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++		xmitframe_plist = get_next(xmitframe_plist);            
++
++		rtw_list_delete(&pxmitframe->list);
++
++		switch(pxmitframe->attrib.priority)
++		{
++			case 1:
++			case 2:
++				wmmps_ac = psta->uapsd_bk&BIT(1);
++				break;
++			case 4:
++			case 5:
++				wmmps_ac = psta->uapsd_vi&BIT(1);
++				break;
++			case 6:
++			case 7:
++				wmmps_ac = psta->uapsd_vo&BIT(1);
++				break;
++			case 0:
++			case 3:
++			default:
++				wmmps_ac = psta->uapsd_be&BIT(1);
++				break;	
++		}
++
++		psta->sleepq_len--;
++		if(psta->sleepq_len>0)
++			pxmitframe->attrib.mdata = 1;
++		else
++			pxmitframe->attrib.mdata = 0;
++
++		if(wmmps_ac)
++		{
++			psta->sleepq_ac_len--;
++			if(psta->sleepq_ac_len>0)
++			{
++				pxmitframe->attrib.mdata = 1;
++				pxmitframe->attrib.eosp = 0;
++			}
++			else
++			{
++				pxmitframe->attrib.mdata = 0;
++				pxmitframe->attrib.eosp = 1;
++			}
++		}
++		
++		pxmitframe->attrib.triggered = 1;
++
++/*
++		_exit_critical_bh(&psta->sleep_q.lock, &irqL);	
++		if(rtw_hal_xmit(padapter, pxmitframe) == _TRUE)
++		{		
++			rtw_os_xmit_complete(padapter, pxmitframe);
++		}		
++		_enter_critical_bh(&psta->sleep_q.lock, &irqL);
++*/
++		rtw_hal_xmitframe_enqueue(padapter, pxmitframe);
++
++		
++	}	
++	
++	//for BC/MC Frames
++	if(!psta_bmc)
++		goto _exit;
++
++	if((pstapriv->sta_dz_bitmap&0xfffe) == 0x0)//no any sta in ps mode
++	{
++		xmitframe_phead = get_list_head(&psta_bmc->sleep_q);
++		xmitframe_plist = get_next(xmitframe_phead);
++
++		while ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE)
++		{			
++			pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++			xmitframe_plist = get_next(xmitframe_plist);
++
++			rtw_list_delete(&pxmitframe->list);
++
++			psta_bmc->sleepq_len--;
++			if(psta_bmc->sleepq_len>0)
++				pxmitframe->attrib.mdata = 1;
++			else
++				pxmitframe->attrib.mdata = 0;
++			
++
++			pxmitframe->attrib.triggered = 1;
++/*
++			_exit_critical_bh(&psta_bmc->sleep_q.lock, &irqL);	
++			if(rtw_hal_xmit(padapter, pxmitframe) == _TRUE)
++			{		
++				rtw_os_xmit_complete(padapter, pxmitframe);
++			}
++			_enter_critical_bh(&psta_bmc->sleep_q.lock, &irqL);	
++
++*/
++			rtw_hal_xmitframe_enqueue(padapter, pxmitframe);
++
++		}	
++	
++		if(psta_bmc->sleepq_len==0)
++		{
++			pstapriv->tim_bitmap &= ~BIT(0);
++			pstapriv->sta_dz_bitmap &= ~BIT(0);
++
++			//DBG_871X("wakeup to xmit, qlen==0, update_BCNTIM, tim=%x\n", pstapriv->tim_bitmap);
++			//upate BCN for TIM IE
++			//update_BCNTIM(padapter);
++			update_mask |= BIT(1);
++		}		
++	
++	}	
++
++	if(psta->sleepq_len==0)
++	{
++#ifdef CONFIG_TDLS
++		if( psta->tdls_sta_state & TDLS_LINKED_STATE )
++		{
++			if(psta->state&WIFI_SLEEP_STATE)
++				psta->state ^= WIFI_SLEEP_STATE;
++
++			goto _exit;
++	}	
++#endif //CONFIG_TDLS
++		pstapriv->tim_bitmap &= ~BIT(psta->aid);
++
++		//DBG_871X("wakeup to xmit, qlen==0, update_BCNTIM, tim=%x\n", pstapriv->tim_bitmap);
++		//upate BCN for TIM IE
++		//update_BCNTIM(padapter);
++		update_mask = BIT(0);
++
++		if(psta->state&WIFI_SLEEP_STATE)
++			psta->state ^= WIFI_SLEEP_STATE;
++
++		if(psta->state & WIFI_STA_ALIVE_CHK_STATE)
++		{
++			psta->expire_to = pstapriv->expire_to;
++			psta->state ^= WIFI_STA_ALIVE_CHK_STATE;
++		}
++
++		pstapriv->sta_dz_bitmap &= ~BIT(psta->aid);
++	}
++
++_exit:
++
++	//_exit_critical_bh(&psta_bmc->sleep_q.lock, &irqL);	
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++	
++	if(update_mask)
++	{
++		//update_BCNTIM(padapter);
++		//printk("%s => call update_beacon\n",__FUNCTION__);
++		update_beacon(padapter, _TIM_IE_, NULL, _FALSE);
++	}	
++	
++}
++
++void xmit_delivery_enabled_frames(_adapter *padapter, struct sta_info *psta)
++{
++	_irqL irqL;
++	u8 wmmps_ac=0;
++	_list	*xmitframe_plist, *xmitframe_phead;
++	struct xmit_frame *pxmitframe=NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++
++	//_enter_critical_bh(&psta->sleep_q.lock, &irqL);
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++	xmitframe_phead = get_list_head(&psta->sleep_q);
++	xmitframe_plist = get_next(xmitframe_phead);
++
++	while ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE)
++	{			
++		pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++		xmitframe_plist = get_next(xmitframe_plist);
++
++		switch(pxmitframe->attrib.priority)
++		{
++			case 1:
++			case 2:
++				wmmps_ac = psta->uapsd_bk&BIT(1);
++				break;
++			case 4:
++			case 5:
++				wmmps_ac = psta->uapsd_vi&BIT(1);
++				break;
++			case 6:
++			case 7:
++				wmmps_ac = psta->uapsd_vo&BIT(1);
++				break;
++			case 0:
++			case 3:
++			default:
++				wmmps_ac = psta->uapsd_be&BIT(1);
++				break;	
++		}
++		
++		if(!wmmps_ac)
++			continue;
++
++		rtw_list_delete(&pxmitframe->list);
++
++		psta->sleepq_len--;
++		psta->sleepq_ac_len--;
++
++		if(psta->sleepq_ac_len>0)
++		{
++			pxmitframe->attrib.mdata = 1;
++			pxmitframe->attrib.eosp = 0;
++		}
++		else
++		{
++			pxmitframe->attrib.mdata = 0;
++			pxmitframe->attrib.eosp = 1;
++		}
++
++		pxmitframe->attrib.triggered = 1;
++
++/*
++		if(rtw_hal_xmit(padapter, pxmitframe) == _TRUE)
++		{		
++			rtw_os_xmit_complete(padapter, pxmitframe);
++		}
++*/
++		rtw_hal_xmitframe_enqueue(padapter, pxmitframe);
++
++		if((psta->sleepq_ac_len==0) && (!psta->has_legacy_ac) && (wmmps_ac))
++		{
++#ifdef CONFIG_TDLS
++			if(psta->tdls_sta_state & TDLS_LINKED_STATE )
++			{
++				//_exit_critical_bh(&psta->sleep_q.lock, &irqL);
++				_exit_critical_bh(&pxmitpriv->lock, &irqL);
++				return;
++			}
++#endif //CONFIG_TDLS
++			pstapriv->tim_bitmap &= ~BIT(psta->aid);
++
++			//DBG_871X("wakeup to xmit, qlen==0, update_BCNTIM, tim=%x\n", pstapriv->tim_bitmap);
++			//upate BCN for TIM IE
++			//update_BCNTIM(padapter);
++			update_beacon(padapter, _TIM_IE_, NULL, _FALSE);
++			//update_mask = BIT(0);
++		}
++	
++	}
++	
++	//_exit_critical_bh(&psta->sleep_q.lock, &irqL);	
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++}
++
++#endif
++
++void rtw_sctx_init(struct submit_ctx *sctx, int timeout_ms)
++{
++	sctx->timeout_ms = timeout_ms;
++	sctx->submit_time= rtw_get_current_time();
++#ifdef PLATFORM_LINUX /* TODO: add condition wating interface for other os */
++	init_completion(&sctx->done);
++#endif
++	sctx->status = RTW_SCTX_SUBMITTED;
++}
++
++int rtw_sctx_wait(struct submit_ctx *sctx)
++{
++	int ret = _FAIL;
++	unsigned long expire; 
++	int status = 0;
++
++#ifdef PLATFORM_LINUX
++	expire= sctx->timeout_ms ? msecs_to_jiffies(sctx->timeout_ms) : MAX_SCHEDULE_TIMEOUT;
++	if (!wait_for_completion_timeout(&sctx->done, expire)) {
++		/* timeout, do something?? */
++		status = RTW_SCTX_DONE_TIMEOUT;
++		DBG_871X("%s timeout\n", __func__);	
++	} else {
++		status = sctx->status;
++	}
++#endif
++
++	if (status == RTW_SCTX_DONE_SUCCESS) {
++		ret = _SUCCESS;
++	}
++
++	return ret;
++}
++
++bool rtw_sctx_chk_waring_status(int status)
++{
++	switch(status) {
++	case RTW_SCTX_DONE_UNKNOWN:
++	case RTW_SCTX_DONE_BUF_ALLOC:
++	case RTW_SCTX_DONE_BUF_FREE:
++
++	case RTW_SCTX_DONE_DRV_STOP:
++	case RTW_SCTX_DONE_DEV_REMOVE:
++		return _TRUE;
++	default:
++		return _FALSE;
++	}
++}
++
++void rtw_sctx_done_err(struct submit_ctx **sctx, int status)
++{
++	if (*sctx) {
++		if (rtw_sctx_chk_waring_status(status))
++			DBG_871X("%s status:%d\n", __func__, status);
++		(*sctx)->status = status;
++		#ifdef PLATFORM_LINUX
++		complete(&((*sctx)->done));
++		#endif
++		*sctx = NULL;
++	}
++}
++
++void rtw_sctx_done(struct submit_ctx **sctx)
++{
++	rtw_sctx_done_err(sctx, RTW_SCTX_DONE_SUCCESS);
++}
++
++#ifdef CONFIG_XMIT_ACK
++
++#ifdef CONFIG_XMIT_ACK_POLLING
++s32 c2h_evt_hdl(_adapter *adapter, struct c2h_evt_hdr *c2h_evt, c2h_id_filter filter);
++
++/**
++ * rtw_ack_tx_polling -
++ * @pxmitpriv: xmit_priv to address ack_tx_ops
++ * @timeout_ms: timeout msec
++ *
++ * Init ack_tx_ops and then do c2h_evt_hdl() and polling ack_tx_ops repeatedly
++ * till tx report or timeout
++ * Returns: _SUCCESS if TX report ok, _FAIL for others
++ */
++int rtw_ack_tx_polling(struct xmit_priv *pxmitpriv, u32 timeout_ms)
++{
++	int ret = _FAIL;
++	struct submit_ctx *pack_tx_ops = &pxmitpriv->ack_tx_ops;
++	_adapter *adapter = container_of(pxmitpriv, _adapter, xmitpriv);
++
++	pack_tx_ops->submit_time = rtw_get_current_time();
++	pack_tx_ops->timeout_ms = timeout_ms;
++	pack_tx_ops->status = RTW_SCTX_SUBMITTED;
++
++	do {
++		c2h_evt_hdl(adapter, NULL, rtw_hal_c2h_id_filter_ccx(adapter));
++		if (pack_tx_ops->status != RTW_SCTX_SUBMITTED)
++			break;
++
++		if (adapter->bDriverStopped) {
++			pack_tx_ops->status = RTW_SCTX_DONE_DRV_STOP;
++			break;
++		}
++		if (adapter->bSurpriseRemoved) {
++			pack_tx_ops->status = RTW_SCTX_DONE_DEV_REMOVE;
++			break;
++		}
++		
++		rtw_msleep_os(10);
++	} while (rtw_get_passing_time_ms(pack_tx_ops->submit_time) < timeout_ms);
++
++	if (pack_tx_ops->status == RTW_SCTX_SUBMITTED) {
++		pack_tx_ops->status = RTW_SCTX_DONE_TIMEOUT;
++		DBG_871X("%s timeout\n", __func__);
++	}
++
++	if (pack_tx_ops->status == RTW_SCTX_DONE_SUCCESS)
++		ret = _SUCCESS;
++
++	return ret;
++}
++#endif
++
++int rtw_ack_tx_wait(struct xmit_priv *pxmitpriv, u32 timeout_ms)
++{
++#ifdef CONFIG_XMIT_ACK_POLLING
++	return rtw_ack_tx_polling(pxmitpriv, timeout_ms);
++#else
++	struct submit_ctx *pack_tx_ops = &pxmitpriv->ack_tx_ops;
++
++	pack_tx_ops->submit_time = rtw_get_current_time();
++	pack_tx_ops->timeout_ms = timeout_ms;
++	pack_tx_ops->status = RTW_SCTX_SUBMITTED;
++
++	return rtw_sctx_wait(pack_tx_ops);
++#endif
++}
++
++void rtw_ack_tx_done(struct xmit_priv *pxmitpriv, int status)
++{
++	struct submit_ctx *pack_tx_ops = &pxmitpriv->ack_tx_ops;
++	
++	if (pxmitpriv->ack_tx) {
++		rtw_sctx_done_err(&pack_tx_ops, status);
++	} else {
++		DBG_871X("%s ack_tx not set\n", __func__);
++	}
++}
++#endif //CONFIG_XMIT_ACK
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/HalPwrSeqCmd.c b/drivers/net/wireless/rtl8192cu/hal/HalPwrSeqCmd.c
+new file mode 100755
+index 0000000..c59bb66
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/HalPwrSeqCmd.c
+@@ -0,0 +1,177 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*++
++Copyright (c) Realtek Semiconductor Corp. All rights reserved.
++
++Module Name:
++	HalPwrSeqCmd.c
++
++Abstract:
++	Implement HW Power sequence configuration CMD handling routine for Realtek devices.
++
++Major Change History:
++	When       Who               What
++	---------- ---------------   -------------------------------
++	2011-10-26 Lucas            Modify to be compatible with SD4-CE driver.
++	2011-07-07 Roger            Create.
++
++--*/
++#include <HalPwrSeqCmd.h>
++#include <sdio_ops.h>
++
++
++//
++//	Description:
++//		This routine deal with the Power Configuration CMDs parsing for RTL8723/RTL8188E Series IC.
++//
++//	Assumption:
++//		We should follow specific format which was released from HW SD.
++//
++//	2011.07.07, added by Roger.
++//
++u8 HalPwrSeqCmdParsing(
++	PADAPTER		padapter,
++	u8				CutVersion,
++	u8				FabVersion,
++	u8				InterfaceType,
++	WLAN_PWR_CFG	PwrSeqCmd[])
++{
++	WLAN_PWR_CFG 	PwrCfgCmd = {0};
++	u8				bPollingBit = _FALSE;
++	u32				AryIdx = 0;
++	u8				value = 0;
++	u32				offset = 0;
++	u32				pollingCount = 0; // polling autoload done.
++	u32				maxPollingCnt = 5000;
++
++	do {
++		PwrCfgCmd = PwrSeqCmd[AryIdx];
++
++		RT_TRACE(_module_hal_init_c_ , _drv_info_,
++				 ("HalPwrSeqCmdParsing: offset(%#x) cut_msk(%#x) fab_msk(%#x) interface_msk(%#x) base(%#x) cmd(%#x) msk(%#x) value(%#x)\n",
++					GET_PWR_CFG_OFFSET(PwrCfgCmd),
++					GET_PWR_CFG_CUT_MASK(PwrCfgCmd),
++					GET_PWR_CFG_FAB_MASK(PwrCfgCmd),
++					GET_PWR_CFG_INTF_MASK(PwrCfgCmd),
++					GET_PWR_CFG_BASE(PwrCfgCmd),
++					GET_PWR_CFG_CMD(PwrCfgCmd),
++					GET_PWR_CFG_MASK(PwrCfgCmd),
++					GET_PWR_CFG_VALUE(PwrCfgCmd)));
++
++		//2 Only Handle the command whose FAB, CUT, and Interface are matched
++		if ((GET_PWR_CFG_FAB_MASK(PwrCfgCmd) & FabVersion) &&
++			(GET_PWR_CFG_CUT_MASK(PwrCfgCmd) & CutVersion) &&
++			(GET_PWR_CFG_INTF_MASK(PwrCfgCmd) & InterfaceType))
++		{
++			switch (GET_PWR_CFG_CMD(PwrCfgCmd))
++			{
++				case PWR_CMD_READ:
++					RT_TRACE(_module_hal_init_c_ , _drv_info_, ("HalPwrSeqCmdParsing: PWR_CMD_READ\n"));
++					break;
++
++				case PWR_CMD_WRITE:
++					RT_TRACE(_module_hal_init_c_ , _drv_info_, ("HalPwrSeqCmdParsing: PWR_CMD_WRITE\n"));
++					offset = GET_PWR_CFG_OFFSET(PwrCfgCmd);
++
++#ifdef CONFIG_SDIO_HCI
++					//
++					// <Roger_Notes> We should deal with interface specific address mapping for some interfaces, e.g., SDIO interface
++					// 2011.07.07.
++					//
++					if (GET_PWR_CFG_BASE(PwrCfgCmd) == PWR_BASEADDR_SDIO)
++					{
++						// Read Back SDIO Local value
++						value = SdioLocalCmd52Read1Byte(padapter, offset);
++
++						value &= ~(GET_PWR_CFG_MASK(PwrCfgCmd));
++						value |= (GET_PWR_CFG_VALUE(PwrCfgCmd) & GET_PWR_CFG_MASK(PwrCfgCmd));
++
++						// Write Back SDIO Local value
++						SdioLocalCmd52Write1Byte(padapter, offset, value);
++					}
++					else
++#endif
++					{
++						// Read the value from system register
++						value = rtw_read8(padapter, offset);
++
++						value &= ~(GET_PWR_CFG_MASK(PwrCfgCmd));
++						value |= (GET_PWR_CFG_VALUE(PwrCfgCmd) & GET_PWR_CFG_MASK(PwrCfgCmd));
++
++						// Write the value back to sytem register
++						rtw_write8(padapter, offset, value);
++					}
++					break;
++
++				case PWR_CMD_POLLING:
++					RT_TRACE(_module_hal_init_c_ , _drv_info_, ("HalPwrSeqCmdParsing: PWR_CMD_POLLING\n"));
++
++					bPollingBit = _FALSE;
++					offset = GET_PWR_CFG_OFFSET(PwrCfgCmd);
++
++					do {
++#ifdef CONFIG_SDIO_HCI
++						if (GET_PWR_CFG_BASE(PwrCfgCmd) == PWR_BASEADDR_SDIO)
++							value = SdioLocalCmd52Read1Byte(padapter, offset);
++						else
++#endif
++							value = rtw_read8(padapter, offset);
++
++						value &= GET_PWR_CFG_MASK(PwrCfgCmd);
++						if (value == (GET_PWR_CFG_VALUE(PwrCfgCmd) & GET_PWR_CFG_MASK(PwrCfgCmd)))
++							bPollingBit = _TRUE;
++						else
++							rtw_udelay_os(10);
++
++						if (pollingCount++ > maxPollingCnt) {
++							RT_TRACE(_module_hal_init_c_ , _drv_err_, ("Fail to polling Offset[%#x]\n", offset));
++							return _FALSE;
++						}
++					} while (!bPollingBit);
++
++					break;
++
++				case PWR_CMD_DELAY:
++					RT_TRACE(_module_hal_init_c_ , _drv_info_, ("HalPwrSeqCmdParsing: PWR_CMD_DELAY\n"));
++					if (GET_PWR_CFG_VALUE(PwrCfgCmd) == PWRSEQ_DELAY_US)
++						rtw_udelay_os(GET_PWR_CFG_OFFSET(PwrCfgCmd));
++					else
++						rtw_udelay_os(GET_PWR_CFG_OFFSET(PwrCfgCmd)*1000);
++					break;
++
++				case PWR_CMD_END:
++					// When this command is parsed, end the process
++					RT_TRACE(_module_hal_init_c_ , _drv_info_, ("HalPwrSeqCmdParsing: PWR_CMD_END\n"));
++					return _TRUE;
++					break;
++
++				default:
++					RT_TRACE(_module_hal_init_c_ , _drv_err_, ("HalPwrSeqCmdParsing: Unknown CMD!!\n"));
++					break;
++			}
++		}
++
++		AryIdx++;//Add Array Index
++	}while(1);
++
++	return _TRUE;
++}
++
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/dm.c b/drivers/net/wireless/rtl8192cu/hal/dm.c
+new file mode 100755
+index 0000000..465ca82
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/dm.c
+@@ -0,0 +1,314 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++#ifdef CONFIG_RTL8192C
++#include <rtl8192c_hal.h>
++#endif
++
++#ifdef CONFIG_RTL8192D
++#include <rtl8192d_hal.h>
++#endif
++
++bool rtw_adapter_linked(_adapter *adapter)
++{
++	bool linked = _FALSE;
++	struct mlme_priv	*mlmepriv = &adapter->mlmepriv;
++
++	if(	(check_fwstate(mlmepriv, WIFI_AP_STATE) == _TRUE) ||
++		(check_fwstate(mlmepriv, WIFI_ADHOC_STATE|WIFI_ADHOC_MASTER_STATE) == _TRUE))
++	{				
++		if(adapter->stapriv.asoc_sta_count > 2)
++			linked = _TRUE;
++	}
++	else{//Station mode
++		if(check_fwstate(mlmepriv, _FW_LINKED)== _TRUE)
++			linked = _TRUE;
++	}
++
++	return linked;
++}
++
++bool dm_linked(_adapter *adapter)
++{
++	bool linked;
++
++	if ((linked = rtw_adapter_linked(adapter)))
++		goto exit;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if ((adapter =  adapter->pbuddy_adapter) == NULL)
++		goto exit;
++	linked = rtw_adapter_linked(adapter);
++#endif
++
++exit:
++	return linked;
++}
++
++#if 0
++void dm_enable_EDCCA(_adapter *adapter)
++{
++	// Enable EDCCA. The value is suggested by SD3 Wilson.
++
++	//
++	// Revised for ASUS 11b/g performance issues, suggested by BB Neil, 2012.04.13.
++	//
++	/*if((pDM_Odm->SupportICType == ODM_RTL8723A)&&(IS_WIRELESS_MODE_G(pAdapter)))
++	{
++		rtw_write8(adapter,rOFDM0_ECCAThreshold,0x00);
++		rtw_write8(adapter,rOFDM0_ECCAThreshold+2,0xFD);
++		
++	}	
++	else*/
++	{
++		rtw_write8(adapter,rOFDM0_ECCAThreshold,0x03);
++		rtw_write8(adapter,rOFDM0_ECCAThreshold+2,0x00);
++	}
++}
++
++void dm_disable_EDCCA(_adapter *adapter)
++{	
++	// Disable EDCCA..
++	rtw_write8(adapter, rOFDM0_ECCAThreshold, 0x7f);
++	rtw_write8(adapter, rOFDM0_ECCAThreshold+2, 0x7f);
++}
++
++//
++// Description: According to initial gain value to determine to enable or disable EDCCA.
++//
++// Suggested by SD3 Wilson. Added by tynli. 2011.11.25.
++//
++void dm_dynamic_EDCCA(_adapter *pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv *dmpriv = &pHalData->dmpriv;
++	u8 RegC50, RegC58;
++	
++	RegC50 = (u8)PHY_QueryBBReg(pAdapter, rOFDM0_XAAGCCore1, bMaskByte0);
++	RegC58 = (u8)PHY_QueryBBReg(pAdapter, rOFDM0_XBAGCCore1, bMaskByte0);
++
++
++ 	if((RegC50 > 0x28 && RegC58 > 0x28)
++  		/*|| ((pDM_Odm->SupportICType == ODM_RTL8723A && IS_WIRELESS_MODE_G(pAdapter) && RegC50>0x26))
++  		|| (pDM_Odm->SupportICType == ODM_RTL8188E && RegC50 > 0x28)*/
++  	)
++	{
++		if(!dmpriv->bPreEdccaEnable)
++		{
++			dm_enable_EDCCA(pAdapter);
++			dmpriv->bPreEdccaEnable = _TRUE;
++		}
++		
++	}
++	else if((RegC50 < 0x25 && RegC58 < 0x25)
++		/*|| (pDM_Odm->SupportICType == ODM_RTL8188E && RegC50 < 0x25)*/
++	)
++	{
++		if(dmpriv->bPreEdccaEnable)
++		{
++			dm_disable_EDCCA(pAdapter);
++			dmpriv->bPreEdccaEnable = _FALSE;
++		}
++	}
++}
++#endif
++
++#define DM_ADAPTIVITY_VER "ADAPTIVITY_V001"
++
++int dm_adaptivity_get_parm_str(_adapter *pAdapter, char *buf, int len)
++{
++#ifdef CONFIG_DM_ADAPTIVITY
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv *dmpriv = &pHalData->dmpriv;
++
++	return snprintf(buf, len, DM_ADAPTIVITY_VER"\n"
++		"TH_L2H_ini\tTH_EDCCA_HL_diff\tIGI_Base\tForceEDCCA\tAdapEn_RSSI\tIGI_LowerBound\n"
++		"0x%02x\t%d\t0x%02x\t%d\t%u\t%u\n",
++		(u8)dmpriv->TH_L2H_ini,
++		dmpriv->TH_EDCCA_HL_diff,
++		dmpriv->IGI_Base,
++		dmpriv->ForceEDCCA,
++		dmpriv->AdapEn_RSSI,
++		dmpriv->IGI_LowerBound
++	);
++#endif /* CONFIG_DM_ADAPTIVITY */
++	return 0;
++}
++
++void dm_adaptivity_set_parm(_adapter *pAdapter, s8 TH_L2H_ini, s8 TH_EDCCA_HL_diff,
++	s8 IGI_Base, bool ForceEDCCA, u8 AdapEn_RSSI, u8 IGI_LowerBound)
++{
++#ifdef CONFIG_DM_ADAPTIVITY
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv *dmpriv = &pHalData->dmpriv;
++
++	dmpriv->TH_L2H_ini = TH_L2H_ini;
++	dmpriv->TH_EDCCA_HL_diff = TH_EDCCA_HL_diff;
++	dmpriv->IGI_Base = IGI_Base;
++	dmpriv->ForceEDCCA = ForceEDCCA;
++	dmpriv->AdapEn_RSSI = AdapEn_RSSI;
++	dmpriv->IGI_LowerBound = IGI_LowerBound;
++
++#endif /* CONFIG_DM_ADAPTIVITY */
++}
++
++void dm_adaptivity_init(_adapter *pAdapter)
++{
++#ifdef CONFIG_DM_ADAPTIVITY
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv *dmpriv = &pHalData->dmpriv;
++
++	/*
++	if(pDM_Odm->SupportICType == ODM_RTL8723B)
++	{
++		pDM_Odm->TH_L2H_ini = 0xf8; // -8
++	}
++	if((pDM_Odm->SupportICType == ODM_RTL8192E)&&(pDM_Odm->SupportInterface == ODM_ITRF_PCIE))
++	{
++		pDM_Odm->TH_L2H_ini = 0xf0; // -16
++	}
++	else */
++	{
++		dmpriv->TH_L2H_ini = 0xf9; // -7
++	}
++
++	dmpriv->TH_EDCCA_HL_diff = 7;
++	dmpriv->IGI_Base = 0x32;
++	dmpriv->IGI_target = 0x1c;
++	dmpriv->ForceEDCCA = 0;
++	dmpriv->AdapEn_RSSI = 20;
++	dmpriv->IGI_LowerBound = 0;
++
++	//Reg524[11]=0 is easily to transmit packets during adaptivity test
++	PHY_SetBBReg(pAdapter, 0x524, BIT11, 1); // stop counting if EDCCA is asserted
++
++#endif /* CONFIG_DM_ADAPTIVITY */
++}
++
++void dm_adaptivity(_adapter *pAdapter)
++{
++#ifdef CONFIG_DM_ADAPTIVITY
++	s8 TH_L2H_dmc, TH_H2L_dmc;
++	s8 TH_L2H, TH_H2L, Diff, IGI_target;
++	u32 value32;
++	BOOLEAN EDCCA_State;
++
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv *dmpriv = &pHalData->dmpriv;
++	DIG_T *pDigTable = &dmpriv->DM_DigTable;
++	u8 IGI = pDigTable->CurIGValue;
++	u8 RSSI_Min = pDigTable->Rssi_val_min;
++	HT_CHANNEL_WIDTH BandWidth = pHalData->CurrentChannelBW;
++
++	if (!(dmpriv->DMFlag & DYNAMIC_FUNC_ADAPTIVITY))
++	{
++		LOG_LEVEL(_drv_info_, "Go to odm_DynamicEDCCA() \n");
++		// Add by Neil Chen to enable edcca to MP Platform 
++		// Adjust EDCCA.
++		/*if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++			dm_dynamic_EDCCA(pAdapter);
++		*/
++		return;
++	}
++	LOG_LEVEL(_drv_info_, "odm_Adaptivity() =====> \n");
++
++	LOG_LEVEL(_drv_info_, "ForceEDCCA=%d, IGI_Base=0x%x, TH_L2H_ini = %d, TH_EDCCA_HL_diff = %d, AdapEn_RSSI = %d\n", 
++		dmpriv->ForceEDCCA, dmpriv->IGI_Base, dmpriv->TH_L2H_ini, dmpriv->TH_EDCCA_HL_diff, dmpriv->AdapEn_RSSI);
++
++	/*if(pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		PHY_SetBBReg(0x800, BIT10, 0); //ADC_mask enable
++	*/
++	
++	if(!dm_linked(pAdapter) || pHalData->CurrentChannel > 149) /* Band4 doesn't need adaptivity */
++	{
++		/*if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)*/
++		{
++			PHY_SetBBReg(pAdapter,rOFDM0_ECCAThreshold, bMaskByte0, 0x7f);
++			PHY_SetBBReg(pAdapter,rOFDM0_ECCAThreshold, bMaskByte2, 0x7f);
++		}
++		/*else
++		{
++			ODM_SetBBReg(pDM_Odm, rFPGA0_XB_LSSIReadBack, 0xFFFF, (0x7f<<8) | 0x7f);
++		}*/
++		return;
++	}
++
++	if(!dmpriv->ForceEDCCA)
++	{
++		if(RSSI_Min > dmpriv->AdapEn_RSSI)
++			EDCCA_State = 1;
++		else if(RSSI_Min < (dmpriv->AdapEn_RSSI - 5))
++			EDCCA_State = 0;
++	}
++	else
++		EDCCA_State = 1;
++	//if((pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) && (*pDM_Odm->pBandType == BAND_ON_5G))
++		//IGI_target = pDM_Odm->IGI_Base;
++	//else
++	{
++
++		if(BandWidth == HT_CHANNEL_WIDTH_20) //CHANNEL_WIDTH_20
++			IGI_target = dmpriv->IGI_Base;
++		else if(BandWidth == HT_CHANNEL_WIDTH_40)
++			IGI_target = dmpriv->IGI_Base + 2;
++		/*else if(*pDM_Odm->pBandWidth == ODM_BW80M)
++			IGI_target = pDM_Odm->IGI_Base + 6;*/
++		else
++			IGI_target = dmpriv->IGI_Base;
++	}
++
++	dmpriv->IGI_target = (u8)IGI_target;
++
++	LOG_LEVEL(_drv_info_, "BandWidth=%s, IGI_target=0x%x, EDCCA_State=%d\n",
++		(BandWidth==HT_CHANNEL_WIDTH_40)?"40M":"20M", IGI_target, EDCCA_State);
++
++	if(EDCCA_State == 1)
++	{
++		Diff = IGI_target -(s8)IGI;
++		TH_L2H_dmc = dmpriv->TH_L2H_ini + Diff;
++		if(TH_L2H_dmc > 10) 	TH_L2H_dmc = 10;
++		TH_H2L_dmc = TH_L2H_dmc - dmpriv->TH_EDCCA_HL_diff;
++	}
++	else
++	{
++		TH_L2H_dmc = 0x7f;
++		TH_H2L_dmc = 0x7f;
++	}
++
++	LOG_LEVEL(_drv_info_, "IGI=0x%x, TH_L2H_dmc = %d, TH_H2L_dmc = %d\n", 
++		IGI, TH_L2H_dmc, TH_H2L_dmc);
++
++	/*if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)*/
++	{
++		PHY_SetBBReg(pAdapter,rOFDM0_ECCAThreshold, bMaskByte0, (u8)TH_L2H_dmc);
++		PHY_SetBBReg(pAdapter,rOFDM0_ECCAThreshold, bMaskByte2, (u8)TH_H2L_dmc);
++	}
++	/*else
++		PHY_SetBBReg(pAdapter, rFPGA0_XB_LSSIReadBack, 0xFFFF, ((u8)TH_H2L_dmc<<8) | (u8)TH_L2H_dmc);*/
++
++skip_dm:
++	return;
++#endif /* CONFIG_DM_ADAPTIVITY */
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/dm.h b/drivers/net/wireless/rtl8192cu/hal/dm.h
+new file mode 100755
+index 0000000..dd9a57d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/dm.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++ #ifndef	__DM_H__
++#define __DM_H__
++
++int dm_adaptivity_get_parm_str(_adapter *pAdapter, char *buf, int len);
++void dm_adaptivity_set_parm(_adapter *pAdapter, s8 TH_L2H_ini, s8 TH_EDCCA_HL_diff,
++	s8 IGI_Base, bool ForceEDCCA, u8 AdapEn_RSSI, u8 IGI_LowerBound);
++void dm_adaptivity_init(_adapter *pAdapter);
++void dm_adaptivity(_adapter *pAdapter);
++
++#endif /* __DM_H__ */
+diff --git a/drivers/net/wireless/rtl8192cu/hal/hal_com.c b/drivers/net/wireless/rtl8192cu/hal/hal_com.c
+new file mode 100755
+index 0000000..4dcafd6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/hal_com.c
+@@ -0,0 +1,371 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <rtw_byteorder.h>
++
++#include <hal_intf.h>
++#include <hal_com.h>
++
++#ifdef CONFIG_RTL8192C
++#include <rtl8192c_hal.h>
++#endif
++#ifdef CONFIG_RTL8192D
++#include <rtl8192d_hal.h>
++#endif
++
++#define _HAL_COM_C_
++
++//============================================================
++// Global var
++//============================================================
++u32 OFDMSwingTable[OFDM_TABLE_SIZE_92D] = {
++	0x7f8001fe, // 0, +6.0dB
++	0x788001e2, // 1, +5.5dB
++	0x71c001c7, // 2, +5.0dB
++	0x6b8001ae, // 3, +4.5dB
++	0x65400195, // 4, +4.0dB
++	0x5fc0017f, // 5, +3.5dB
++	0x5a400169, // 6, +3.0dB
++	0x55400155, // 7, +2.5dB
++	0x50800142, // 8, +2.0dB
++	0x4c000130, // 9, +1.5dB
++	0x47c0011f, // 10, +1.0dB
++	0x43c0010f, // 11, +0.5dB
++	0x40000100, // 12, +0dB
++	0x3c8000f2, // 13, -0.5dB
++	0x390000e4, // 14, -1.0dB
++	0x35c000d7, // 15, -1.5dB
++	0x32c000cb, // 16, -2.0dB
++	0x300000c0, // 17, -2.5dB
++	0x2d4000b5, // 18, -3.0dB
++	0x2ac000ab, // 19, -3.5dB
++	0x288000a2, // 20, -4.0dB
++	0x26000098, // 21, -4.5dB
++	0x24000090, // 22, -5.0dB
++	0x22000088, // 23, -5.5dB
++	0x20000080, // 24, -6.0dB
++	0x1e400079, // 25, -6.5dB
++	0x1c800072, // 26, -7.0dB
++	0x1b00006c, // 27. -7.5dB
++	0x19800066, // 28, -8.0dB
++	0x18000060, // 29, -8.5dB
++	0x16c0005b, // 30, -9.0dB
++	0x15800056, // 31, -9.5dB
++	0x14400051, // 32, -10.0dB
++	0x1300004c, // 33, -10.5dB
++	0x12000048, // 34, -11.0dB
++	0x11000044, // 35, -11.5dB
++	0x10000040, // 36, -12.0dB
++	0x0f00003c,// 37, -12.5dB
++	0x0e400039,// 38, -13.0dB    
++	0x0d800036,// 39, -13.5dB
++	0x0cc00033,// 40, -14.0dB
++	0x0c000030,// 41, -14.5dB
++	0x0b40002d,// 42, -15.0dB	
++};
++
++
++u8 CCKSwingTable_Ch1_Ch13[CCK_TABLE_SIZE][8] = {
++	{0x36, 0x35, 0x2e, 0x25, 0x1c, 0x12, 0x09, 0x04},	// 0, +0dB
++	{0x33, 0x32, 0x2b, 0x23, 0x1a, 0x11, 0x08, 0x04},	// 1, -0.5dB
++	{0x30, 0x2f, 0x29, 0x21, 0x19, 0x10, 0x08, 0x03},	// 2, -1.0dB
++	{0x2d, 0x2d, 0x27, 0x1f, 0x18, 0x0f, 0x08, 0x03},	// 3, -1.5dB
++	{0x2b, 0x2a, 0x25, 0x1e, 0x16, 0x0e, 0x07, 0x03},	// 4, -2.0dB 
++	{0x28, 0x28, 0x22, 0x1c, 0x15, 0x0d, 0x07, 0x03},	// 5, -2.5dB
++	{0x26, 0x25, 0x21, 0x1b, 0x14, 0x0d, 0x06, 0x03},	// 6, -3.0dB
++	{0x24, 0x23, 0x1f, 0x19, 0x13, 0x0c, 0x06, 0x03},	// 7, -3.5dB
++	{0x22, 0x21, 0x1d, 0x18, 0x11, 0x0b, 0x06, 0x02},	// 8, -4.0dB 
++	{0x20, 0x20, 0x1b, 0x16, 0x11, 0x08, 0x05, 0x02},	// 9, -4.5dB
++	{0x1f, 0x1e, 0x1a, 0x15, 0x10, 0x0a, 0x05, 0x02},	// 10, -5.0dB 
++	{0x1d, 0x1c, 0x18, 0x14, 0x0f, 0x0a, 0x05, 0x02},	// 11, -5.5dB
++	{0x1b, 0x1a, 0x17, 0x13, 0x0e, 0x09, 0x04, 0x02},	// 12, -6.0dB 
++	{0x1a, 0x19, 0x16, 0x12, 0x0d, 0x09, 0x04, 0x02},	// 13, -6.5dB
++	{0x18, 0x17, 0x15, 0x11, 0x0c, 0x08, 0x04, 0x02},	// 14, -7.0dB 
++	{0x17, 0x16, 0x13, 0x10, 0x0c, 0x08, 0x04, 0x02},	// 15, -7.5dB
++	{0x16, 0x15, 0x12, 0x0f, 0x0b, 0x07, 0x04, 0x01},	// 16, -8.0dB 
++	{0x14, 0x14, 0x11, 0x0e, 0x0b, 0x07, 0x03, 0x02},	// 17, -8.5dB
++	{0x13, 0x13, 0x10, 0x0d, 0x0a, 0x06, 0x03, 0x01},	// 18, -9.0dB 
++	{0x12, 0x12, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	// 19, -9.5dB
++	{0x11, 0x11, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	// 20, -10.0dB
++	{0x10, 0x10, 0x0e, 0x0b, 0x08, 0x05, 0x03, 0x01},	// 21, -10.5dB
++	{0x0f, 0x0f, 0x0d, 0x0b, 0x08, 0x05, 0x03, 0x01},	// 22, -11.0dB
++	{0x0e, 0x0e, 0x0c, 0x0a, 0x08, 0x05, 0x02, 0x01},	// 23, -11.5dB
++	{0x0d, 0x0d, 0x0c, 0x0a, 0x07, 0x05, 0x02, 0x01},	// 24, -12.0dB
++	{0x0d, 0x0c, 0x0b, 0x09, 0x07, 0x04, 0x02, 0x01},	// 25, -12.5dB
++	{0x0c, 0x0c, 0x0a, 0x09, 0x06, 0x04, 0x02, 0x01},	// 26, -13.0dB
++	{0x0b, 0x0b, 0x0a, 0x08, 0x06, 0x04, 0x02, 0x01},	// 27, -13.5dB
++	{0x0b, 0x0a, 0x09, 0x08, 0x06, 0x04, 0x02, 0x01},	// 28, -14.0dB
++	{0x0a, 0x0a, 0x09, 0x07, 0x05, 0x03, 0x02, 0x01},	// 29, -14.5dB
++	{0x0a, 0x09, 0x08, 0x07, 0x05, 0x03, 0x02, 0x01},	// 30, -15.0dB
++	{0x09, 0x09, 0x08, 0x06, 0x05, 0x03, 0x01, 0x01},	// 31, -15.5dB
++	{0x09, 0x08, 0x07, 0x06, 0x04, 0x03, 0x01, 0x01}	// 32, -16.0dB
++};
++
++
++u8 CCKSwingTable_Ch14 [CCK_TABLE_SIZE][8]= {
++	{0x36, 0x35, 0x2e, 0x1b, 0x00, 0x00, 0x00, 0x00},	// 0, +0dB	
++	{0x33, 0x32, 0x2b, 0x19, 0x00, 0x00, 0x00, 0x00},	// 1, -0.5dB 
++	{0x30, 0x2f, 0x29, 0x18, 0x00, 0x00, 0x00, 0x00},	// 2, -1.0dB  
++	{0x2d, 0x2d, 0x17, 0x17, 0x00, 0x00, 0x00, 0x00},	// 3, -1.5dB
++	{0x2b, 0x2a, 0x25, 0x15, 0x00, 0x00, 0x00, 0x00},	// 4, -2.0dB  
++	{0x28, 0x28, 0x24, 0x14, 0x00, 0x00, 0x00, 0x00},	// 5, -2.5dB
++	{0x26, 0x25, 0x21, 0x13, 0x00, 0x00, 0x00, 0x00},	// 6, -3.0dB  
++	{0x24, 0x23, 0x1f, 0x12, 0x00, 0x00, 0x00, 0x00},	// 7, -3.5dB  
++	{0x22, 0x21, 0x1d, 0x11, 0x00, 0x00, 0x00, 0x00},	// 8, -4.0dB  
++	{0x20, 0x20, 0x1b, 0x10, 0x00, 0x00, 0x00, 0x00},	// 9, -4.5dB
++	{0x1f, 0x1e, 0x1a, 0x0f, 0x00, 0x00, 0x00, 0x00},	// 10, -5.0dB  
++	{0x1d, 0x1c, 0x18, 0x0e, 0x00, 0x00, 0x00, 0x00},	// 11, -5.5dB
++	{0x1b, 0x1a, 0x17, 0x0e, 0x00, 0x00, 0x00, 0x00},	// 12, -6.0dB  
++	{0x1a, 0x19, 0x16, 0x0d, 0x00, 0x00, 0x00, 0x00},	// 13, -6.5dB 
++	{0x18, 0x17, 0x15, 0x0c, 0x00, 0x00, 0x00, 0x00},	// 14, -7.0dB  
++	{0x17, 0x16, 0x13, 0x0b, 0x00, 0x00, 0x00, 0x00},	// 15, -7.5dB
++	{0x16, 0x15, 0x12, 0x0b, 0x00, 0x00, 0x00, 0x00},	// 16, -8.0dB  
++	{0x14, 0x14, 0x11, 0x0a, 0x00, 0x00, 0x00, 0x00},	// 17, -8.5dB
++	{0x13, 0x13, 0x10, 0x0a, 0x00, 0x00, 0x00, 0x00},	// 18, -9.0dB  
++	{0x12, 0x12, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	// 19, -9.5dB
++	{0x11, 0x11, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	// 20, -10.0dB
++	{0x10, 0x10, 0x0e, 0x08, 0x00, 0x00, 0x00, 0x00},	// 21, -10.5dB
++	{0x0f, 0x0f, 0x0d, 0x08, 0x00, 0x00, 0x00, 0x00},	// 22, -11.0dB
++	{0x0e, 0x0e, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	// 23, -11.5dB
++	{0x0d, 0x0d, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	// 24, -12.0dB
++	{0x0d, 0x0c, 0x0b, 0x06, 0x00, 0x00, 0x00, 0x00},	// 25, -12.5dB
++	{0x0c, 0x0c, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	// 26, -13.0dB
++	{0x0b, 0x0b, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	// 27, -13.5dB
++	{0x0b, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	// 28, -14.0dB
++	{0x0a, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	// 29, -14.5dB
++	{0x0a, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	// 30, -15.0dB
++	{0x09, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	// 31, -15.5dB
++	{0x09, 0x08, 0x07, 0x04, 0x00, 0x00, 0x00, 0x00}	// 32, -16.0dB
++};	
++
++
++#ifdef CONFIG_CHIP_VER_INTEGRATION
++void dump_chip_info(HAL_VERSION	ChipVersion)
++{
++	if(IS_81XXC(ChipVersion)){
++		DBG_871X("Chip Version Info: %s_",IS_92C_SERIAL(ChipVersion)?"CHIP_8192C":"CHIP_8188C");
++	}
++	else if(IS_92D(ChipVersion)){
++		DBG_871X("Chip Version Info: CHIP_8192D_");
++	}
++	else if(IS_8723_SERIES(ChipVersion)){
++		DBG_871X("Chip Version Info: CHIP_8723A_");
++	}
++	else if(IS_8188E(ChipVersion)){
++		DBG_871X("Chip Version Info: CHIP_8188E_");
++	}
++
++	DBG_871X("%s_",IS_NORMAL_CHIP(ChipVersion)?"Normal_Chip":"Test_Chip");	
++	DBG_871X("%s_",IS_CHIP_VENDOR_TSMC(ChipVersion)?"TSMC":"UMC");
++	if(IS_A_CUT(ChipVersion)) DBG_871X("A_CUT_");	
++	else if(IS_B_CUT(ChipVersion)) DBG_871X("B_CUT_");	
++	else if(IS_C_CUT(ChipVersion)) DBG_871X("C_CUT_");	
++	else if(IS_D_CUT(ChipVersion)) DBG_871X("D_CUT_");	
++	else if(IS_E_CUT(ChipVersion)) DBG_871X("E_CUT_");	
++	else DBG_871X("UNKNOWN_CUT(%d)_",ChipVersion.CUTVersion);
++	
++	if(IS_1T1R(ChipVersion))	DBG_871X("1T1R_");	
++	else if(IS_1T2R(ChipVersion))	DBG_871X("1T2R_");	
++	else if(IS_2T2R(ChipVersion))	DBG_871X("2T2R_");
++	else DBG_871X("UNKNOWN_RFTYPE(%d)_",ChipVersion.RFType);
++
++	
++	DBG_871X("RomVer(%d)\n",ChipVersion.ROMVer);	
++}
++
++#endif
++
++#define	EEPROM_CHANNEL_PLAN_BY_HW_MASK	0x80
++
++u8	//return the final channel plan decision
++hal_com_get_channel_plan(
++	IN	PADAPTER	padapter,
++	IN	u8			hw_channel_plan,	//channel plan from HW (efuse/eeprom)
++	IN	u8			sw_channel_plan,	//channel plan from SW (registry/module param)
++	IN	u8			def_channel_plan,	//channel plan used when the former two is invalid
++	IN	BOOLEAN		AutoLoadFail
++	)
++{
++	u8 swConfig;
++	u8 chnlPlan;
++
++	swConfig = _TRUE;
++	if (!AutoLoadFail)
++	{
++		if (!rtw_is_channel_plan_valid(sw_channel_plan))
++			swConfig = _FALSE;
++		if (hw_channel_plan & EEPROM_CHANNEL_PLAN_BY_HW_MASK)
++			swConfig = _FALSE;
++	}
++
++	if (swConfig == _TRUE)
++		chnlPlan = sw_channel_plan;
++	else
++		chnlPlan = hw_channel_plan & (~EEPROM_CHANNEL_PLAN_BY_HW_MASK);
++
++	if (!rtw_is_channel_plan_valid(chnlPlan))
++		chnlPlan = def_channel_plan;
++
++	return chnlPlan;
++}
++
++u8	MRateToHwRate(u8 rate)
++{
++	u8	ret = DESC_RATE1M;
++		
++	switch(rate)
++	{
++		// CCK and OFDM non-HT rates
++	case IEEE80211_CCK_RATE_1MB:	ret = DESC_RATE1M;	break;
++	case IEEE80211_CCK_RATE_2MB:	ret = DESC_RATE2M;	break;
++	case IEEE80211_CCK_RATE_5MB:	ret = DESC_RATE5_5M;	break;
++	case IEEE80211_CCK_RATE_11MB:	ret = DESC_RATE11M;	break;
++	case IEEE80211_OFDM_RATE_6MB:	ret = DESC_RATE6M;	break;
++	case IEEE80211_OFDM_RATE_9MB:	ret = DESC_RATE9M;	break;
++	case IEEE80211_OFDM_RATE_12MB:	ret = DESC_RATE12M;	break;
++	case IEEE80211_OFDM_RATE_18MB:	ret = DESC_RATE18M;	break;
++	case IEEE80211_OFDM_RATE_24MB:	ret = DESC_RATE24M;	break;
++	case IEEE80211_OFDM_RATE_36MB:	ret = DESC_RATE36M;	break;
++	case IEEE80211_OFDM_RATE_48MB:	ret = DESC_RATE48M;	break;
++	case IEEE80211_OFDM_RATE_54MB:	ret = DESC_RATE54M;	break;
++
++		// HT rates since here
++	//case MGN_MCS0:		ret = DESC_RATEMCS0;	break;
++	//case MGN_MCS1:		ret = DESC_RATEMCS1;	break;
++	//case MGN_MCS2:		ret = DESC_RATEMCS2;	break;
++	//case MGN_MCS3:		ret = DESC_RATEMCS3;	break;
++	//case MGN_MCS4:		ret = DESC_RATEMCS4;	break;
++	//case MGN_MCS5:		ret = DESC_RATEMCS5;	break;
++	//case MGN_MCS6:		ret = DESC_RATEMCS6;	break;
++	//case MGN_MCS7:		ret = DESC_RATEMCS7;	break;
++
++	default:		break;
++	}
++
++	return ret;
++}
++
++void	HalSetBrateCfg(
++	IN PADAPTER		Adapter,
++	IN u8			*mBratesOS,
++	OUT u16			*pBrateCfg)
++{
++	u8	i, is_brate, brate;
++
++	for(i=0;i<NDIS_802_11_LENGTH_RATES_EX;i++)
++	{
++		is_brate = mBratesOS[i] & IEEE80211_BASIC_RATE_MASK;
++		brate = mBratesOS[i] & 0x7f;
++		
++		if( is_brate )
++		{		
++			switch(brate)
++			{
++				case IEEE80211_CCK_RATE_1MB:	*pBrateCfg |= RATE_1M;	break;
++				case IEEE80211_CCK_RATE_2MB:	*pBrateCfg |= RATE_2M;	break;
++				case IEEE80211_CCK_RATE_5MB:	*pBrateCfg |= RATE_5_5M;break;
++				case IEEE80211_CCK_RATE_11MB:	*pBrateCfg |= RATE_11M;	break;
++				case IEEE80211_OFDM_RATE_6MB:	*pBrateCfg |= RATE_6M;	break;
++				case IEEE80211_OFDM_RATE_9MB:	*pBrateCfg |= RATE_9M;	break;
++				case IEEE80211_OFDM_RATE_12MB:	*pBrateCfg |= RATE_12M;	break;
++				case IEEE80211_OFDM_RATE_18MB:	*pBrateCfg |= RATE_18M;	break;
++				case IEEE80211_OFDM_RATE_24MB:	*pBrateCfg |= RATE_24M;	break;
++				case IEEE80211_OFDM_RATE_36MB:	*pBrateCfg |= RATE_36M;	break;
++				case IEEE80211_OFDM_RATE_48MB:	*pBrateCfg |= RATE_48M;	break;
++				case IEEE80211_OFDM_RATE_54MB:	*pBrateCfg |= RATE_54M;	break;
++			}
++		}
++	}
++}
++
++void hal_init_macaddr(_adapter *adapter)
++{
++	rtw_hal_set_hwreg(adapter, HW_VAR_MAC_ADDR, adapter->eeprompriv.mac_addr);
++#ifdef  CONFIG_CONCURRENT_MODE
++	if (adapter->pbuddy_adapter)
++		rtw_hal_set_hwreg(adapter->pbuddy_adapter, HW_VAR_MAC_ADDR, adapter->pbuddy_adapter->eeprompriv.mac_addr);
++#endif
++}
++
++/* 
++* C2H event format:
++* Field	 TRIGGER		CONTENT	   CMD_SEQ 	CMD_LEN		 CMD_ID
++* BITS	 [127:120]	[119:16]      [15:8]		  [7:4]	 	   [3:0]
++*/
++
++void c2h_evt_clear(_adapter *adapter)
++{
++	rtw_write8(adapter, REG_C2HEVT_CLEAR, C2H_EVT_HOST_CLOSE);
++}
++
++s32 c2h_evt_read(_adapter *adapter, u8 *buf)
++{
++	s32 ret = _FAIL;
++	struct c2h_evt_hdr *c2h_evt;
++	int i;
++	u8 trigger;
++
++	if (buf == NULL)
++		goto exit;
++
++	trigger = rtw_read8(adapter, REG_C2HEVT_CLEAR);
++
++	if (trigger == C2H_EVT_HOST_CLOSE) {
++		goto exit; /* Not ready */
++	} else if (trigger != C2H_EVT_FW_CLOSE) {
++		goto clear_evt; /* Not a valid value */
++	}
++
++	c2h_evt = (struct c2h_evt_hdr *)buf;
++
++	_rtw_memset(c2h_evt, 0, 16);
++
++	*buf = rtw_read8(adapter, REG_C2HEVT_MSG_NORMAL);
++	*(buf+1) = rtw_read8(adapter, REG_C2HEVT_MSG_NORMAL + 1);	
++
++	RT_PRINT_DATA(_module_hal_init_c_, _drv_info_, "c2h_evt_read(): ",
++		&c2h_evt , sizeof(c2h_evt));
++
++	if (0) {
++		DBG_871X("%s id:%u, len:%u, seq:%u, trigger:0x%02x\n", __func__
++			, c2h_evt->id, c2h_evt->plen, c2h_evt->seq, trigger);
++	}
++
++	/* Read the content */
++	for (i = 0; i < c2h_evt->plen; i++)
++		c2h_evt->payload[i] = rtw_read8(adapter, REG_C2HEVT_MSG_NORMAL + sizeof(*c2h_evt) + i);
++
++	RT_PRINT_DATA(_module_hal_init_c_, _drv_info_, "c2h_evt_read(): Command Content:\n",
++		c2h_evt->payload, c2h_evt->plen);
++
++	ret = _SUCCESS;
++
++clear_evt:
++	/* 
++	* Clear event to notify FW we have read the command.
++	* If this field isn't clear, the FW won't update the next command message.
++	*/
++	c2h_evt_clear(adapter);
++exit:
++	return ret;
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/hal_intf.c b/drivers/net/wireless/rtl8192cu/hal/hal_intf.c
+new file mode 100755
+index 0000000..6c56e72
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/hal_intf.c
+@@ -0,0 +1,546 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#define _HAL_INTF_C_
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <rtw_byteorder.h>
++
++#include <hal_intf.h>
++
++#ifdef CONFIG_SDIO_HCI
++	#include <sdio_hal.h>
++#elif defined(CONFIG_USB_HCI)
++	#include <usb_hal.h>
++#elif defined(CONFIG_GSPI_HCI)
++	#include <gspi_hal.h>
++#endif
++
++void rtw_hal_chip_configure(_adapter *padapter)
++{
++	if(padapter->HalFunc.intf_chip_configure)
++		padapter->HalFunc.intf_chip_configure(padapter);
++}
++
++void rtw_hal_read_chip_info(_adapter *padapter)
++{
++	if(padapter->HalFunc.read_adapter_info)
++		padapter->HalFunc.read_adapter_info(padapter);
++}
++
++void rtw_hal_read_chip_version(_adapter *padapter)
++{
++	if(padapter->HalFunc.read_chip_version)
++		padapter->HalFunc.read_chip_version(padapter);
++}
++
++void rtw_hal_def_value_init(_adapter *padapter)
++{
++	if(padapter->HalFunc.init_default_value)
++		padapter->HalFunc.init_default_value(padapter);
++}
++
++void rtw_hal_free_data(_adapter *padapter)
++{
++	if(padapter->HalFunc.free_hal_data)
++		padapter->HalFunc.free_hal_data(padapter);
++}
++
++void rtw_hal_dm_init(_adapter *padapter)
++{
++	if(padapter->HalFunc.dm_init)
++		padapter->HalFunc.dm_init(padapter);
++}
++
++void rtw_hal_dm_deinit(_adapter *padapter)
++{
++	// cancel dm  timer
++	if(padapter->HalFunc.dm_deinit)
++		padapter->HalFunc.dm_deinit(padapter);	
++}
++
++void rtw_hal_sw_led_init(_adapter *padapter)
++{
++	if(padapter->HalFunc.InitSwLeds)
++		padapter->HalFunc.InitSwLeds(padapter);
++}
++
++void rtw_hal_sw_led_deinit(_adapter *padapter)
++{
++	if(padapter->HalFunc.DeInitSwLeds)
++		padapter->HalFunc.DeInitSwLeds(padapter);
++}
++
++uint	 rtw_hal_init(_adapter *padapter) 
++{
++	uint	status = _SUCCESS;
++
++	if(padapter->hw_init_completed == _TRUE)
++	{
++		DBG_871X("rtw_hal_init: hw_init_completed == _TRUE\n");
++		goto success;
++	}
++#ifdef CONFIG_DEINIT_BEFORE_INIT
++	status = padapter->HalFunc.hal_deinit(padapter);
++	if(status != _SUCCESS){
++		DBG_871X("rtw_hal_init: hal_deinit before hal_init FAIL !!\n");
++		goto fail;
++	}
++#endif
++	
++#ifdef CONFIG_DUALMAC_CONCURRENT
++	// before init mac0, driver must init mac1 first to avoid usb rx error.
++	if((padapter->pbuddy_adapter != NULL) && (padapter->DualMacConcurrent == _TRUE)
++		&& (padapter->adapter_type == PRIMARY_ADAPTER))
++	{
++		if(padapter->pbuddy_adapter->hw_init_completed == _TRUE)
++		{
++			DBG_871X("rtw_hal_init: pbuddy_adapter hw_init_completed == _TRUE\n");
++		}
++		else
++		{
++#ifdef CONFIG_DEINIT_BEFORE_INIT
++			status = padapter->HalFunc.hal_deinit(padapter->pbuddy_adapter);
++			if(status != _SUCCESS){
++				DBG_871X("rtw_hal_init: hal_deinit before hal_init FAIL !!(pbuddy_adapter)\n");
++				goto fail;
++			}
++#endif
++			status = 	padapter->HalFunc.hal_init(padapter->pbuddy_adapter);
++			if(status == _SUCCESS){
++				padapter->pbuddy_adapter->hw_init_completed = _TRUE;
++			}
++			else{
++			 	padapter->pbuddy_adapter->hw_init_completed = _FALSE;
++				RT_TRACE(_module_hal_init_c_,_drv_err_,("rtw_hal_init: hal__init fail(pbuddy_adapter)\n"));
++				goto fail;
++			}
++		}
++	}
++#else
++	if(adapter_to_dvobj(padapter)->DualMacMode == _TRUE)
++	{
++		if(padapter->pbuddy_adapter != NULL) {
++			if(padapter->pbuddy_adapter->hw_init_completed == _FALSE)
++			{
++#ifdef CONFIG_DEINIT_BEFORE_INIT
++				status = padapter->HalFunc.hal_deinit(padapter->pbuddy_adapter);
++				if(status != _SUCCESS){
++					DBG_871X("rtw_hal_init: hal_deinit before hal_init FAIL !!(pbuddy_adapter)\n");
++					goto fail;
++				}
++#endif
++				status = padapter->HalFunc.hal_init(padapter->pbuddy_adapter);
++				if(status == _SUCCESS){
++					padapter->pbuddy_adapter->hw_init_completed = _TRUE;
++				}
++				else{
++					padapter->pbuddy_adapter->hw_init_completed = _FALSE;
++					RT_TRACE(_module_hal_init_c_,_drv_err_,("rtw_hal_init: hal__init fail for another interface\n"));
++				}
++			}
++		}
++	}
++#endif
++
++	padapter->hw_init_completed=_FALSE;
++
++	status = padapter->HalFunc.hal_init(padapter);
++
++	if(status == _SUCCESS){
++		padapter->hw_init_completed = _TRUE;
++	}
++	else{
++	 	padapter->hw_init_completed = _FALSE;
++		RT_TRACE(_module_hal_init_c_,_drv_err_,("rtw_hal_init: hal__init fail\n"));
++		goto fail;
++	}
++
++success:
++
++	if (padapter->registrypriv.notch_filter == 1)
++		rtw_hal_notch_filter(padapter, 1);
++
++	rtw_hal_reset_security_engine(padapter);
++
++	rtw_sec_restore_wep_key(padapter);
++
++	init_hw_mlme_ext(padapter);
++
++fail:
++
++	RT_TRACE(_module_hal_init_c_,_drv_err_,("-rtl871x_hal_init:status=0x%x\n",status));
++
++	return status;
++}	
++
++uint rtw_hal_deinit(_adapter *padapter)
++{
++	uint	status = _SUCCESS;
++	
++_func_enter_;
++
++	status = padapter->HalFunc.hal_deinit(padapter);
++
++	if(status == _SUCCESS){
++		padapter->hw_init_completed = _FALSE;
++	}
++	else
++	{
++		RT_TRACE(_module_hal_init_c_,_drv_err_,("\n rtw_hal_deinit: hal_init fail\n"));
++	}
++	
++_func_exit_;
++	
++	return status;
++}
++
++void rtw_hal_set_hwreg(_adapter *padapter, u8 variable, u8 *val)
++{
++	if (padapter->HalFunc.SetHwRegHandler)
++		padapter->HalFunc.SetHwRegHandler(padapter, variable, val);
++}
++
++void rtw_hal_get_hwreg(_adapter *padapter, u8 variable, u8 *val)
++{
++	if (padapter->HalFunc.GetHwRegHandler)
++		padapter->HalFunc.GetHwRegHandler(padapter, variable, val);
++}
++
++u8 rtw_hal_set_def_var(_adapter *padapter, HAL_DEF_VARIABLE eVariable, PVOID pValue)
++{	
++	if(padapter->HalFunc.SetHalDefVarHandler)
++		return padapter->HalFunc.SetHalDefVarHandler(padapter,eVariable,pValue);
++	return _FAIL;
++}
++
++u8 rtw_hal_get_def_var(_adapter *padapter, HAL_DEF_VARIABLE eVariable, PVOID pValue)
++{	
++	if(padapter->HalFunc.GetHalDefVarHandler)
++		return padapter->HalFunc.GetHalDefVarHandler(padapter,eVariable,pValue);
++	return _FAIL;	
++}
++
++void rtw_hal_enable_interrupt(_adapter *padapter)
++{
++	if (padapter->HalFunc.enable_interrupt)
++		padapter->HalFunc.enable_interrupt(padapter);
++	else 
++		DBG_871X("%s: HalFunc.enable_interrupt is NULL!\n", __FUNCTION__);
++	
++}
++void rtw_hal_disable_interrupt(_adapter *padapter)
++{
++	if (padapter->HalFunc.disable_interrupt)
++		padapter->HalFunc.disable_interrupt(padapter);
++	else 
++		DBG_871X("%s: HalFunc.disable_interrupt is NULL!\n", __FUNCTION__);
++	
++}
++
++u32	rtw_hal_inirp_init(_adapter *padapter)
++{
++	u32 rst = _FAIL;
++	if(padapter->HalFunc.inirp_init)	
++		rst = padapter->HalFunc.inirp_init(padapter);	
++	else		
++		DBG_871X(" %s HalFunc.inirp_init is NULL!!!\n",__FUNCTION__);		
++	return rst;
++}
++	
++u32	rtw_hal_inirp_deinit(_adapter *padapter)
++{
++	
++	if(padapter->HalFunc.inirp_deinit)
++		return padapter->HalFunc.inirp_deinit(padapter);
++
++	return _FAIL;
++		
++}
++
++u8 rtw_hal_intf_ps_func(_adapter *padapter,HAL_INTF_PS_FUNC efunc_id, u8* val)
++{
++	if(padapter->HalFunc.interface_ps_func)
++		return padapter->HalFunc.interface_ps_func(padapter,efunc_id,val);
++	return _FAIL;
++}
++
++s32	rtw_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	if(padapter->HalFunc.hal_xmitframe_enqueue)
++		return padapter->HalFunc.hal_xmitframe_enqueue(padapter, pxmitframe);
++
++	return _FALSE;	
++}
++
++s32 rtw_hal_xmit(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	if(padapter->HalFunc.hal_xmit)
++		return padapter->HalFunc.hal_xmit(padapter, pxmitframe);
++
++	return _FALSE;
++}
++
++s32	rtw_hal_mgnt_xmit(_adapter *padapter, struct xmit_frame *pmgntframe)
++{
++	s32 ret = _FAIL;
++	unsigned char	*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++	_rtw_memcpy(pmgntframe->attrib.ra, pwlanhdr->addr1, ETH_ALEN);
++
++#ifdef CONFIG_IEEE80211W
++	if(padapter->securitypriv.binstallBIPkey == _TRUE)
++	{
++		if(IS_MCAST(pmgntframe->attrib.ra))
++		{
++			pmgntframe->attrib.encrypt = _BIP_;
++			//pmgntframe->attrib.bswenc = _TRUE;
++		}	
++		else
++		{
++			pmgntframe->attrib.encrypt = _AES_;
++			pmgntframe->attrib.bswenc = _TRUE;
++		}
++		rtw_mgmt_xmitframe_coalesce(padapter, pmgntframe->pkt, pmgntframe);
++	}
++#endif //CONFIG_IEEE80211W
++	
++	if(padapter->HalFunc.mgnt_xmit)
++		ret = padapter->HalFunc.mgnt_xmit(padapter, pmgntframe);
++	return ret;
++}
++
++s32 rtw_hal_init_xmit_priv(_adapter *padapter)
++{
++	if(padapter->HalFunc.init_xmit_priv != NULL)
++		return padapter->HalFunc.init_xmit_priv(padapter);
++	return _FAIL;
++}
++
++void rtw_hal_free_xmit_priv(_adapter *padapter)
++{
++	if(padapter->HalFunc.free_xmit_priv != NULL)
++		padapter->HalFunc.free_xmit_priv(padapter);
++}
++
++s32 rtw_hal_init_recv_priv(_adapter *padapter)
++{
++	if(padapter->HalFunc.init_recv_priv)
++		return padapter->HalFunc.init_recv_priv(padapter);
++
++	return _FAIL;
++}
++
++void rtw_hal_free_recv_priv(_adapter *padapter)
++{	
++	if(padapter->HalFunc.free_recv_priv)
++		padapter->HalFunc.free_recv_priv(padapter);
++}
++
++void rtw_hal_update_ra_mask(_adapter *padapter, u32 mac_id)
++{
++	if(padapter->HalFunc.UpdateRAMaskHandler)
++		padapter->HalFunc.UpdateRAMaskHandler(padapter,mac_id);
++}
++
++void rtw_hal_add_ra_tid(_adapter *padapter, u32 bitmap, u8 arg)
++{
++	if(padapter->HalFunc.Add_RateATid)
++		padapter->HalFunc.Add_RateATid(padapter, bitmap, arg);
++}
++
++u32 rtw_hal_read_bbreg(_adapter *padapter, u32 RegAddr, u32 BitMask)
++{
++	u32 data = 0;
++	if (padapter->HalFunc.read_bbreg)
++		data = padapter->HalFunc.read_bbreg(padapter, RegAddr, BitMask);
++	return data;
++}
++
++void rtw_hal_write_bbreg(_adapter *padapter, u32 RegAddr, u32 BitMask, u32 Data)
++{
++	if (padapter->HalFunc.write_bbreg)
++		padapter->HalFunc.write_bbreg(padapter, RegAddr, BitMask, Data);
++}
++
++u32 rtw_hal_read_rfreg(_adapter *padapter, u32 eRFPath, u32 RegAddr, u32 BitMask)
++{
++	u32 data = 0;
++	if (padapter->HalFunc.read_rfreg)
++		data = padapter->HalFunc.read_rfreg(padapter, eRFPath, RegAddr, BitMask);
++	return data;
++}
++
++void rtw_hal_write_rfreg(_adapter *padapter, u32 eRFPath, u32 RegAddr, u32 BitMask, u32 Data)
++{
++	if (padapter->HalFunc.write_rfreg)
++		padapter->HalFunc.write_rfreg(padapter, eRFPath, RegAddr, BitMask, Data);
++}
++
++s32 rtw_hal_interrupt_handler(_adapter *padapter)
++{
++	if(padapter->HalFunc.interrupt_handler)
++		return padapter->HalFunc.interrupt_handler(padapter);
++	return _FAIL;
++}
++
++void rtw_hal_set_bwmode(_adapter *padapter, HT_CHANNEL_WIDTH Bandwidth, u8 Offset)
++{
++	if(padapter->HalFunc.set_bwmode_handler)
++		padapter->HalFunc.set_bwmode_handler(padapter, Bandwidth, Offset);
++}
++
++void rtw_hal_set_chan(_adapter *padapter, u8 channel)
++{
++	if(padapter->HalFunc.set_channel_handler)
++		padapter->HalFunc.set_channel_handler(padapter, channel);
++}
++
++void rtw_hal_dm_watchdog(_adapter *padapter)
++{
++	if(padapter->HalFunc.hal_dm_watchdog)
++		padapter->HalFunc.hal_dm_watchdog(padapter);
++}
++
++void rtw_hal_bcn_related_reg_setting(_adapter *padapter)
++{
++	if(padapter->HalFunc.SetBeaconRelatedRegistersHandler)
++		padapter->HalFunc.SetBeaconRelatedRegistersHandler(padapter);
++}
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++u8 rtw_hal_antdiv_before_linked(_adapter *padapter)
++{
++	if (padapter->HalFunc.AntDivBeforeLinkHandler)
++		return padapter->HalFunc.AntDivBeforeLinkHandler(padapter);
++	return _FALSE;
++}
++
++void rtw_hal_antdiv_rssi_compared(_adapter *padapter, WLAN_BSSID_EX *dst, WLAN_BSSID_EX *src)
++{
++	if (padapter->HalFunc.AntDivCompareHandler)
++		padapter->HalFunc.AntDivCompareHandler(padapter, dst, src);
++}
++#endif
++
++#ifdef CONFIG_HOSTAPD_MLME
++s32	rtw_hal_hostap_mgnt_xmit_entry(_adapter *padapter, _pkt *pkt)
++{
++	if (padapter->HalFunc.hostap_mgnt_xmit_entry)
++		return padapter->HalFunc.hostap_mgnt_xmit_entry(padapter, pkt);
++	return _FAIL;
++}
++#endif //CONFIG_HOSTAPD_MLME
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++void rtw_hal_sreset_init(_adapter *padapter)
++{
++	if(padapter->HalFunc.sreset_init_value)
++		padapter->HalFunc.sreset_init_value(padapter);
++}
++
++void rtw_hal_sreset_reset(_adapter *padapter)
++{
++	padapter = GET_PRIMARY_ADAPTER(padapter);
++
++	if(padapter->HalFunc.silentreset)
++		padapter->HalFunc.silentreset(padapter);
++}
++
++void rtw_hal_sreset_reset_value(_adapter *padapter)
++{
++	if(padapter->HalFunc.sreset_reset_value)
++		padapter->HalFunc.sreset_reset_value(padapter);
++}
++
++void rtw_hal_sreset_xmit_status_check(_adapter *padapter)
++{
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->adapter_type != PRIMARY_ADAPTER)
++		return;
++#endif
++	if(padapter->HalFunc.sreset_xmit_status_check)
++		padapter->HalFunc.sreset_xmit_status_check(padapter);
++}
++
++void rtw_hal_sreset_linked_status_check(_adapter *padapter)
++{
++	if(padapter->HalFunc.sreset_linked_status_check)
++		padapter->HalFunc.sreset_linked_status_check(padapter);
++}
++
++u8 rtw_hal_sreset_get_wifi_status(_adapter *padapter)
++{
++	u8 status = 0;
++	if(padapter->HalFunc.sreset_get_wifi_status)
++		status = padapter->HalFunc.sreset_get_wifi_status(padapter);
++	return status;
++}
++
++bool rtw_hal_sreset_inprogress(_adapter *padapter)
++{
++	bool inprogress = _FALSE;
++
++	padapter = GET_PRIMARY_ADAPTER(padapter);
++
++	if(padapter->HalFunc.sreset_inprogress)
++		inprogress = padapter->HalFunc.sreset_inprogress(padapter);
++	return inprogress;
++}
++#endif //DBG_CONFIG_ERROR_DETECT
++
++#ifdef CONFIG_IOL
++int rtw_hal_iol_cmd(ADAPTER *adapter, struct xmit_frame *xmit_frame, u32 max_wating_ms)
++{
++	if (adapter->HalFunc.IOL_exec_cmds_sync)
++		return adapter->HalFunc.IOL_exec_cmds_sync(adapter, xmit_frame, max_wating_ms);
++	return _FAIL;
++}
++#endif
++
++void rtw_hal_notch_filter(_adapter *adapter, bool enable)
++{
++	if(adapter->HalFunc.hal_notch_filter)
++		adapter->HalFunc.hal_notch_filter(adapter,enable);
++}
++
++void rtw_hal_reset_security_engine(_adapter * adapter)
++{
++	if(adapter->HalFunc.hal_reset_security_engine)
++		adapter->HalFunc.hal_reset_security_engine(adapter);
++}
++
++s32 rtw_hal_c2h_handler(_adapter *adapter, struct c2h_evt_hdr *c2h_evt)
++{
++	s32 ret = _FAIL;
++	if (adapter->HalFunc.c2h_handler)
++		ret = adapter->HalFunc.c2h_handler(adapter, c2h_evt);
++	return ret;
++}
++
++c2h_id_filter rtw_hal_c2h_id_filter_ccx(_adapter *adapter)
++{
++	return adapter->HalFunc.c2h_id_filter_ccx;
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_cmd.c b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_cmd.c
+new file mode 100755
+index 0000000..33921e2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_cmd.c
+@@ -0,0 +1,1159 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8192C_CMD_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <recv_osdep.h>
++#include <cmd_osdep.h>
++#include <mlme_osdep.h>
++#include <rtw_byteorder.h>
++#include <circ_buf.h>
++#include <rtw_ioctl_set.h>
++
++#include <rtl8192c_hal.h>
++
++
++#define RTL92C_MAX_H2C_BOX_NUMS	4
++#define RTL92C_MAX_CMD_LEN	5
++#define MESSAGE_BOX_SIZE		4
++#define EX_MESSAGE_BOX_SIZE	2
++
++static u8 _is_fw_read_cmd_down(_adapter* padapter, u8 msgbox_num)
++{
++	u8	read_down = _FALSE;
++	int 	retry_cnts = 100;
++	
++	u8 valid;
++
++//	DBG_8192C(" _is_fw_read_cmd_down ,isnormal_chip(%x),reg_1cc(%x),msg_box(%d)...\n",isvern,rtw_read8(padapter,REG_HMETFR),msgbox_num);
++	
++	do{
++		valid = rtw_read8(padapter,REG_HMETFR) & BIT(msgbox_num);
++		if(0 == valid ){
++			read_down = _TRUE;
++		}			
++	}while( (!read_down) && (retry_cnts--));
++
++	return read_down;
++	
++}
++
++
++/*****************************************
++* H2C Msg format :
++*| 31 - 8		|7		| 6 - 0	|	
++*| h2c_msg 	|Ext_bit	|CMD_ID	|
++*
++******************************************/
++int rtl8192c_FillH2CCmd(_adapter* padapter, u8 ElementID, u32 CmdLen, u8* pCmdBuffer)
++{
++	u8	bcmd_down = _FALSE;
++	int 	retry_cnts = 100;
++	u8	h2c_box_num;
++	u32	msgbox_addr;
++	u32  msgbox_ex_addr;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	u32	h2c_cmd = 0;
++	u16	h2c_cmd_ex = 0;
++	int ret = _FAIL;
++
++_func_enter_;	
++
++	padapter = GET_PRIMARY_ADAPTER(padapter);		
++	pHalData = GET_HAL_DATA(padapter);
++
++	if(padapter->bFWReady == _FALSE)
++	{
++		DBG_8192C("FillH2CCmd(): return H2C cmd because fw is not ready\n");
++		return ret;
++	}
++
++	_enter_critical_mutex(&(adapter_to_dvobj(padapter)->h2c_fwcmd_mutex), NULL);
++
++	if(!pCmdBuffer){
++		goto exit;
++	}
++	if(CmdLen > RTL92C_MAX_CMD_LEN){
++		goto exit;
++	}
++	//pay attention to if  race condition happened in  H2C cmd setting.
++	do{
++		h2c_box_num = pHalData->LastHMEBoxNum;
++
++		if(!_is_fw_read_cmd_down(padapter, h2c_box_num)){
++			DBG_8192C(" fw read cmd failed...\n");
++			goto exit;
++		}
++
++		if(CmdLen<=3)
++		{
++			_rtw_memcpy((u8*)(&h2c_cmd)+1, pCmdBuffer, CmdLen );
++		}
++		else{
++			_rtw_memcpy((u8*)(&h2c_cmd_ex), pCmdBuffer, EX_MESSAGE_BOX_SIZE);
++			_rtw_memcpy((u8*)(&h2c_cmd)+1, pCmdBuffer+2,( CmdLen-EX_MESSAGE_BOX_SIZE));
++			*(u8*)(&h2c_cmd) |= BIT(7);
++		}
++
++		*(u8*)(&h2c_cmd) |= ElementID;
++
++		if(h2c_cmd & BIT(7)){
++			msgbox_ex_addr = REG_HMEBOX_EXT_0 + (h2c_box_num *EX_MESSAGE_BOX_SIZE);
++			h2c_cmd_ex = cpu_to_le16( h2c_cmd_ex );
++			rtw_write16(padapter, msgbox_ex_addr, h2c_cmd_ex);
++		}
++		msgbox_addr =REG_HMEBOX_0 + (h2c_box_num *MESSAGE_BOX_SIZE);
++		h2c_cmd = cpu_to_le32( h2c_cmd );
++		rtw_write32(padapter,msgbox_addr, h2c_cmd);
++
++		bcmd_down = _TRUE;
++
++	//	DBG_8192C("MSG_BOX:%d,CmdLen(%d), reg:0x%x =>h2c_cmd:0x%x, reg:0x%x =>h2c_cmd_ex:0x%x ..\n"
++	//	 	,pHalData->LastHMEBoxNum ,CmdLen,msgbox_addr,h2c_cmd,msgbox_ex_addr,h2c_cmd_ex);
++
++		 pHalData->LastHMEBoxNum = (h2c_box_num+1) % RTL92C_MAX_H2C_BOX_NUMS ;
++
++	}while((!bcmd_down) && (retry_cnts--));
++/*
++	if(bcmd_down)
++		DBG_8192C("H2C Cmd exe down. \n"	);	
++	else
++		DBG_8192C("H2C Cmd exe failed. \n"	);
++*/
++	ret = _SUCCESS;
++
++exit:
++
++	_exit_critical_mutex(&(adapter_to_dvobj(padapter)->h2c_fwcmd_mutex), NULL);	
++
++_func_exit_;
++
++	return ret;
++
++}
++
++u8 rtl8192c_h2c_msg_hdl(_adapter *padapter, unsigned char *pbuf)
++{	
++	u8 ElementID, CmdLen;
++	u8 *pCmdBuffer;
++	struct cmd_msg_parm  *pcmdmsg;
++	
++	if(!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	pcmdmsg = (struct cmd_msg_parm*)pbuf;
++	ElementID = pcmdmsg->eid;
++	CmdLen = pcmdmsg->sz;
++	pCmdBuffer = pcmdmsg->buf;
++
++	rtl8192c_FillH2CCmd(padapter, ElementID, CmdLen, pCmdBuffer);
++
++	return H2C_SUCCESS;
++}
++
++#if defined(CONFIG_AUTOSUSPEND) && defined(SUPPORT_HW_RFOFF_DETECTED)
++u8 rtl8192c_set_FwSelectSuspend_cmd(_adapter *padapter ,u8 bfwpoll, u16 period)
++{
++	u8	res=_SUCCESS;
++	struct H2C_SS_RFOFF_PARAM param;
++	DBG_8192C("==>%s bfwpoll(%x)\n",__FUNCTION__,bfwpoll);
++	param.gpio_period = period;//Polling GPIO_11 period time
++	param.ROFOn = (_TRUE == bfwpoll)?1:0;
++	rtl8192c_FillH2CCmd(padapter, SELECTIVE_SUSPEND_ROF_CMD, sizeof(param), (u8*)(&param));		
++	return res;
++}
++#endif //CONFIG_AUTOSUSPEND && SUPPORT_HW_RFOFF_DETECTED
++
++u8 rtl8192c_set_rssi_cmd(_adapter*padapter, u8 *param)
++{	
++	u8	res=_SUCCESS;
++
++_func_enter_;
++
++	*((u32*) param ) = cpu_to_le32( *((u32*) param ) );
++
++	rtl8192c_FillH2CCmd(padapter, RSSI_SETTING_EID, 3, param);
++
++_func_exit_;
++
++	return res;
++}
++
++u8 rtl8192c_set_raid_cmd(_adapter*padapter, u32 mask, u8 arg)
++{	
++	u8	buf[5];
++	u8	res=_SUCCESS;
++	
++_func_enter_;	
++	
++	_rtw_memset(buf, 0, 5);
++	mask = cpu_to_le32( mask );
++	_rtw_memcpy(buf, &mask, 4);
++	buf[4]  = arg;
++
++	rtl8192c_FillH2CCmd(padapter, MACID_CONFIG_EID, 5, buf);
++	
++_func_exit_;
++
++	return res;
++
++}
++
++//bitmap[0:27] = tx_rate_bitmap
++//bitmap[28:31]= Rate Adaptive id
++//arg[0:4] = macid
++//arg[5] = Short GI
++void rtl8192c_Add_RateATid(PADAPTER pAdapter, u32 bitmap, u8 arg)
++{	
++	
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++		
++	if(pHalData->fw_ractrl == _TRUE)
++	{
++		rtl8192c_set_raid_cmd(pAdapter, bitmap, arg);
++	}
++	else
++	{
++		u8 macid, init_rate, shortGIrate=_FALSE;
++
++		init_rate = get_highest_rate_idx(bitmap&0x0fffffff)&0x3f;
++		
++		macid = arg&0x1f;
++		
++		shortGIrate = (arg&BIT(5)) ? _TRUE:_FALSE;
++		
++		if (shortGIrate==_TRUE)
++			init_rate |= BIT(6);
++
++		rtw_write8(pAdapter, (REG_INIDATA_RATE_SEL+macid), (u8)init_rate);		
++	}
++
++}
++
++void rtl8192c_set_FwPwrMode_cmd(_adapter*padapter, u8 Mode)
++{
++	SETPWRMODE_PARM H2CSetPwrMode;
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++	
++_func_enter_;
++
++	DBG_871X("%s(): Mode = %d, SmartPS = %d\n", __FUNCTION__,Mode,pwrpriv->smart_ps);
++
++	H2CSetPwrMode.Mode = Mode;
++
++	H2CSetPwrMode.SmartPS = pwrpriv->smart_ps;
++
++	H2CSetPwrMode.BcnPassTime = 1;//pPSC->RegMaxLPSAwakeIntvl;
++
++	rtl8192c_FillH2CCmd(padapter, SET_PWRMODE_EID, sizeof(H2CSetPwrMode), (u8 *)&H2CSetPwrMode);
++	
++_func_exit_;
++}
++
++void ConstructBeacon(_adapter *padapter, u8 *pframe, u32 *pLength)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;
++	u32					rate_len, pktlen;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX 		*cur_network = &(pmlmeinfo->network);
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++
++	//DBG_871X("%s\n", __FUNCTION__);
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;	
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	
++	_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(cur_network), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0/*pmlmeext->mgnt_seq*/);
++	//pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_BEACON);
++	
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);	
++	pktlen = sizeof (struct rtw_ieee80211_hdr_3addr);
++	
++	//timestamp will be inserted by hardware
++	pframe += 8;
++	pktlen += 8;
++
++	// beacon interval: 2 bytes
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_beacon_interval_from_ie(cur_network->IEs)), 2); 
++
++	pframe += 2;
++	pktlen += 2;
++
++	// capability info: 2 bytes
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_capability_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	pktlen += 2;
++
++	if( (pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE)
++	{
++		//DBG_871X("ie len=%d\n", cur_network->IELength);
++		pktlen += cur_network->IELength - sizeof(NDIS_802_11_FIXED_IEs);
++		_rtw_memcpy(pframe, cur_network->IEs+sizeof(NDIS_802_11_FIXED_IEs), pktlen);
++		
++		goto _ConstructBeacon;
++	}
++
++	//below for ad-hoc mode
++
++	// SSID
++	pframe = rtw_set_ie(pframe, _SSID_IE_, cur_network->Ssid.SsidLength, cur_network->Ssid.Ssid, &pktlen);
++
++	// supported rates...
++	rate_len = rtw_get_rateset_len(cur_network->SupportedRates);
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, ((rate_len > 8)? 8: rate_len), cur_network->SupportedRates, &pktlen);
++
++	// DS parameter set
++	pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&(cur_network->Configuration.DSConfig), &pktlen);
++
++	if( (pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE)
++	{
++		u32 ATIMWindow;
++		// IBSS Parameter Set...
++		//ATIMWindow = cur->Configuration.ATIMWindow;
++		ATIMWindow = 0;
++		pframe = rtw_set_ie(pframe, _IBSS_PARA_IE_, 2, (unsigned char *)(&ATIMWindow), &pktlen);
++	}	
++
++
++	//todo: ERP IE
++	
++	
++	// EXTERNDED SUPPORTED RATE
++	if (rate_len > 8)
++	{
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_, (rate_len - 8), (cur_network->SupportedRates + 8), &pktlen);
++	}
++
++
++	//todo:HT for adhoc
++
++_ConstructBeacon:
++
++	if ((pktlen + TXDESC_SIZE) > 512)
++	{
++		DBG_871X("beacon frame too large\n");
++		return;
++	}
++
++	*pLength = pktlen;
++
++	//DBG_871X("%s bcn_sz=%d\n", __FUNCTION__, pktlen);
++
++}
++
++void ConstructPSPoll(_adapter *padapter, u8 *pframe, u32 *pLength)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;
++	u32					pktlen;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	//DBG_871X("%s\n", __FUNCTION__);
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	// Frame control.
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	SetPwrMgt(fctrl);
++	SetFrameSubType(pframe, WIFI_PSPOLL);
++
++	// AID.
++	SetDuration(pframe, (pmlmeinfo->aid | 0xc000));
++
++	// BSSID.
++	_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	// TA.
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++
++	*pLength = 16;
++}
++
++void ConstructNullFunctionData(_adapter *padapter, u8 *pframe, u32 *pLength, u8 *StaAddr, BOOLEAN bForcePowerSave)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;
++	u32					pktlen;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network	*cur_network = &pmlmepriv->cur_network;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	//DBG_871X("%s:%d\n", __FUNCTION__, bForcePowerSave);
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	if (bForcePowerSave)
++	{
++		SetPwrMgt(fctrl);
++	}
++
++	switch(cur_network->network.InfrastructureMode)
++	{			
++		case Ndis802_11Infrastructure:
++			SetToDs(fctrl);
++			_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, StaAddr, ETH_ALEN);
++			break;
++		case Ndis802_11APMode:
++			SetFrDs(fctrl);
++			_rtw_memcpy(pwlanhdr->addr1, StaAddr, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr2, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, myid(&(padapter->eeprompriv)), ETH_ALEN);
++			break;
++		case Ndis802_11IBSS:
++		default:
++			_rtw_memcpy(pwlanhdr->addr1, StaAddr, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++			break;
++	}
++
++	SetSeqNum(pwlanhdr, 0);
++
++	SetFrameSubType(pframe, WIFI_DATA_NULL);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	*pLength = pktlen;
++}
++
++void ConstructProbeRsp(_adapter *padapter, u8 *pframe, u32 *pLength, u8 *StaAddr, BOOLEAN bHideSSID)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;	
++	u8					*mac, *bssid;
++	u32					pktlen;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX 		*cur_network = &(pmlmeinfo->network);
++	
++	
++	//DBG_871X("%s\n", __FUNCTION__);
++	
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;	
++	
++	mac = myid(&(padapter->eeprompriv));
++	bssid = cur_network->MacAddress;
++	
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	_rtw_memcpy(pwlanhdr->addr1, StaAddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, mac, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, bssid, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0);
++	SetFrameSubType(fctrl, WIFI_PROBERSP);
++	
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	pframe += pktlen;
++
++	if(cur_network->IELength>MAX_IE_SZ)
++		return;
++
++	_rtw_memcpy(pframe, cur_network->IEs, cur_network->IELength);
++	pframe += cur_network->IELength;
++	pktlen += cur_network->IELength;
++	
++	*pLength = pktlen;
++}
++
++//
++// Description: In normal chip, we should send some packet to Hw which will be used by Fw
++//			in FW LPS mode. The function is to fill the Tx descriptor of this packets, then 
++//			Fw can tell Hw to send these packet derectly.
++// Added by tynli. 2009.10.15.
++//
++static VOID
++FillFakeTxDescriptor92C(
++	IN PADAPTER		Adapter,
++	IN u8*			pDesc,
++	IN u32			BufferLen,
++	IN BOOLEAN		IsPsPoll
++)
++{
++	struct tx_desc	*ptxdesc = (struct tx_desc *)pDesc;
++
++	// Clear all status
++	_rtw_memset(pDesc, 0, 32);
++
++	//offset 0
++	ptxdesc->txdw0 |= cpu_to_le32( OWN | FSG | LSG); //own, bFirstSeg, bLastSeg;
++
++	ptxdesc->txdw0 |= cpu_to_le32(((TXDESC_SIZE+OFFSET_SZ)<<OFFSET_SHT)&0x00ff0000); //32 bytes for TX Desc
++
++	ptxdesc->txdw0 |= cpu_to_le32(BufferLen&0x0000ffff); // Buffer size + command header
++
++	//offset 4
++	ptxdesc->txdw1 |= cpu_to_le32((QSLT_MGNT<<QSEL_SHT)&0x00001f00); // Fixed queue of Mgnt queue
++
++	//Set NAVUSEHDR to prevent Ps-poll AId filed to be changed to error vlaue by Hw.
++	if(IsPsPoll)
++	{
++		ptxdesc->txdw1 |= cpu_to_le32(NAVUSEHDR);
++	}
++	else
++	{
++		ptxdesc->txdw4 |= cpu_to_le32(BIT(7)); // Hw set sequence number
++		ptxdesc->txdw3 |= cpu_to_le32((8 <<28)); //set bit3 to 1. Suugested by TimChen. 2009.12.29.
++	}
++
++	//offset 16
++	ptxdesc->txdw4 |= cpu_to_le32(BIT(8));//driver uses rate
++
++#ifdef CONFIG_USB_HCI
++	// USB interface drop packet if the checksum of descriptor isn't correct.
++	// Using this checksum can let hardware recovery from packet bulk out error (e.g. Cancel URC, Bulk out error.).
++	rtl8192cu_cal_txdesc_chksum(ptxdesc);
++#endif
++	
++	//RT_PRINT_DATA(COMP_CMD, DBG_TRACE, "TxFillCmdDesc8192C(): H2C Tx Cmd Content ----->\n", pDesc, TX_DESC_SIZE);
++}
++
++// To check if reserved page content is destroyed by beacon beacuse beacon is too large.
++// 2010.06.23. Added by tynli.
++VOID
++CheckFwRsvdPageContent(
++	IN	PADAPTER		Adapter
++)
++{
++	HAL_DATA_TYPE*	pHalData = GET_HAL_DATA(Adapter);
++	u32	MaxBcnPageNum;	
++	
++ 	if(pHalData->FwRsvdPageStartOffset != 0)
++ 	{
++ 		/*MaxBcnPageNum = PageNum_128(pMgntInfo->MaxBeaconSize);
++		RT_ASSERT((MaxBcnPageNum <= pHalData->FwRsvdPageStartOffset), 
++			("CheckFwRsvdPageContent(): The reserved page content has been"\
++			"destroyed by beacon!!! MaxBcnPageNum(%d) FwRsvdPageStartOffset(%d)\n!",
++			MaxBcnPageNum, pHalData->FwRsvdPageStartOffset));*/
++ 	}
++}
++
++//
++// Description: Fill the reserved packets that FW will use to RSVD page. 
++//			Now we just send 4 types packet to rsvd page.
++//			(1)Beacon, (2)Ps-poll, (3)Null data, (4)ProbeRsp.
++//	Input: 
++//	    bDLFinished - FALSE: At the first time we will send all the packets as a large packet to Hw,
++//				 		so we need to set the packet length to total lengh.
++//			      TRUE: At the second time, we should send the first packet (default:beacon)
++//						to Hw again and set the lengh in descriptor to the real beacon lengh.
++// 2009.10.15 by tynli.
++static void SetFwRsvdPagePkt(PADAPTER Adapter, BOOLEAN bDLFinished)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);	
++	struct xmit_frame	*pmgntframe;
++	struct pkt_attrib	*pattrib;
++	struct xmit_priv	*pxmitpriv = &(Adapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(Adapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u32	BeaconLength, ProbeRspLength, PSPollLength, NullFunctionDataLength;
++	u8	*ReservedPagePacket;
++	u8	PageNum=0, U1bTmp, TxDescLen=0, TxDescOffset=0;
++	u16	BufIndex=0;
++	u32	TotalPacketLen;
++	RSVDPAGE_LOC	RsvdPageLoc;
++	BOOLEAN	bDLOK = _FALSE;
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	ReservedPagePacket = (u8*)rtw_malloc(1000);
++	if(ReservedPagePacket == NULL){
++		DBG_871X("%s(): alloc ReservedPagePacket fail !!!\n", __FUNCTION__);
++		return;
++	}
++
++	_rtw_memset(ReservedPagePacket, 0, 1000);
++
++	TxDescLen = 32;//TX_DESC_SIZE;
++
++#ifdef CONFIG_USB_HCI
++	BufIndex = TXDESC_OFFSET;
++	TxDescOffset = TxDescLen+8; //Shift index for 8 bytes because the dummy bytes in the first descipstor.
++#else
++	BufIndex = 0;
++	TxDescOffset = 0;
++#endif
++
++	//(1) beacon
++	ConstructBeacon(Adapter,&ReservedPagePacket[BufIndex],&BeaconLength);
++
++	//DBG_8192C("SetFwRsvdPagePkt(): HW_VAR_SET_TX_CMD: BCN\n", &ReservedPagePacket[BufIndex], (BeaconLength+BufIndex));
++
++//--------------------------------------------------------------------
++
++	// When we count the first page size, we need to reserve description size for the RSVD 
++	// packet, it will be filled in front of the packet in TXPKTBUF.
++	U1bTmp = (u8)PageNum_128(BeaconLength+TxDescLen);
++	PageNum += U1bTmp;
++	// To reserved 2 pages for beacon buffer. 2010.06.24.
++	if(PageNum == 1)
++		PageNum+=1;
++	pHalData->FwRsvdPageStartOffset = PageNum;
++
++	BufIndex = (PageNum*128) + TxDescOffset;
++		
++	//(2) ps-poll
++	ConstructPSPoll(Adapter, &ReservedPagePacket[BufIndex],&PSPollLength);
++	
++	FillFakeTxDescriptor92C(Adapter, &ReservedPagePacket[BufIndex-TxDescLen], PSPollLength, _TRUE);
++
++	//DBG_8192C("SetFwRsvdPagePkt(): HW_VAR_SET_TX_CMD: PS-POLL\n", &ReservedPagePacket[BufIndex-TxDescLen], (PSPollLength+TxDescLen));
++
++	RsvdPageLoc.LocPsPoll = PageNum;
++
++//------------------------------------------------------------------
++			
++	U1bTmp = (u8)PageNum_128(PSPollLength+TxDescLen);
++	PageNum += U1bTmp;
++
++	BufIndex = (PageNum*128) + TxDescOffset;
++
++	//(3) null data
++	ConstructNullFunctionData(
++		Adapter, 
++		&ReservedPagePacket[BufIndex],
++		&NullFunctionDataLength,
++		get_my_bssid(&(pmlmeinfo->network)),
++		_FALSE);
++	
++	FillFakeTxDescriptor92C(Adapter, &ReservedPagePacket[BufIndex-TxDescLen], NullFunctionDataLength, _FALSE);
++
++	RsvdPageLoc.LocNullData = PageNum;
++	
++	//DBG_8192C("SetFwRsvdPagePkt(): HW_VAR_SET_TX_CMD: NULL DATA \n", &ReservedPagePacket[BufIndex-TxDescLen], (NullFunctionDataLength+TxDescLen));
++//------------------------------------------------------------------
++
++	U1bTmp = (u8)PageNum_128(NullFunctionDataLength+TxDescLen);
++	PageNum += U1bTmp;
++
++	BufIndex = (PageNum*128) + TxDescOffset;
++	
++	//(4) probe response
++	ConstructProbeRsp(
++		Adapter, 
++		&ReservedPagePacket[BufIndex],
++		&ProbeRspLength,
++		get_my_bssid(&(pmlmeinfo->network)),
++		_FALSE);
++	
++	FillFakeTxDescriptor92C(Adapter, &ReservedPagePacket[BufIndex-TxDescLen], ProbeRspLength, _FALSE);
++
++	RsvdPageLoc.LocProbeRsp = PageNum;
++
++	//DBG_8192C("SetFwRsvdPagePkt(): HW_VAR_SET_TX_CMD: PROBE RSP \n", &ReservedPagePacket[BufIndex-TxDescLen], (ProbeRspLength-TxDescLen));
++
++//------------------------------------------------------------------
++
++	U1bTmp = (u8)PageNum_128(ProbeRspLength+TxDescLen);
++
++	PageNum += U1bTmp;
++
++	TotalPacketLen = (PageNum*128);
++
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(Adapter, pattrib);
++	pattrib->qsel = 0x10;
++	pattrib->pktlen = pattrib->last_txcmdsz = TotalPacketLen - TxDescLen;
++	_rtw_memcpy(pmgntframe->buf_addr, ReservedPagePacket, TotalPacketLen);
++
++	rtw_hal_mgnt_xmit(Adapter, pmgntframe);
++
++	bDLOK = _TRUE;
++
++	if(bDLOK)
++	{
++		DBG_871X("Set RSVD page location to Fw.\n");
++		rtl8192c_FillH2CCmd(Adapter, RSVD_PAGE_EID, sizeof(RsvdPageLoc), (u8 *)&RsvdPageLoc);
++	}
++
++	rtw_mfree(ReservedPagePacket,1000);
++
++}
++
++void rtl8192c_set_FwJoinBssReport_cmd(_adapter* padapter, u8 mstatus)
++{
++	JOINBSSRPT_PARM	JoinBssRptParm;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	
++_func_enter_;
++
++	DBG_871X("%s mstatus(%x)\n", __FUNCTION__,mstatus);
++
++	if(mstatus == 1)
++	{
++		BOOLEAN bRecover = _FALSE;
++	
++		// We should set AID, correct TSF, HW seq enable before set JoinBssReport to Fw in 88/92C.
++		// Suggested by filen. Added by tynli.
++		rtw_write16(padapter, REG_BCN_PSR_RPT, (0xC000|pmlmeinfo->aid));
++		// Do not set TSF again here or vWiFi beacon DMA INT will not work.
++		//correct_TSF(padapter, pmlmeext);
++		// Hw sequende enable by dedault. 2010.06.23. by tynli.
++		//rtw_write16(padapter, REG_NQOS_SEQ, ((pmlmeext->mgnt_seq+100)&0xFFF));
++		//rtw_write8(padapter, REG_HWSEQ_CTRL, 0xFF);
++
++		//set REG_CR bit 8
++		//U1bTmp = rtw_read8(padapter, REG_CR+1);
++		rtw_write8(padapter,  REG_CR+1, 0x03);
++
++		// Disable Hw protection for a time which revserd for Hw sending beacon.
++		// Fix download reserved page packet fail that access collision with the protection time.
++		// 2010.05.11. Added by tynli.
++		//SetBcnCtrlReg(padapter, 0, BIT3);
++		//SetBcnCtrlReg(padapter, BIT4, 0);
++		rtw_write8(padapter, REG_BCN_CTRL, rtw_read8(padapter, REG_BCN_CTRL)&(~BIT(3)));
++		rtw_write8(padapter, REG_BCN_CTRL, rtw_read8(padapter, REG_BCN_CTRL)|BIT(4));
++
++		// Set FWHW_TXQ_CTRL 0x422[6]=0 to tell Hw the packet is not a real beacon frame.
++		if(pHalData->RegFwHwTxQCtrl&BIT6)
++			bRecover = _TRUE;
++
++		// To tell Hw the packet is not a real beacon frame.
++		//U1bTmp = rtw_read8(padapter, REG_FWHW_TXQ_CTRL+2);
++		rtw_write8(padapter, REG_FWHW_TXQ_CTRL+2, (pHalData->RegFwHwTxQCtrl&(~BIT6)));
++		pHalData->RegFwHwTxQCtrl &= (~BIT6);
++		SetFwRsvdPagePkt(padapter, 0);
++
++		// 2010.05.11. Added by tynli.
++		//SetBcnCtrlReg(padapter, BIT3, 0);
++		//SetBcnCtrlReg(padapter, 0, BIT4);
++		rtw_write8(padapter, REG_BCN_CTRL, rtw_read8(padapter, REG_BCN_CTRL)|BIT(3));
++		rtw_write8(padapter, REG_BCN_CTRL, rtw_read8(padapter, REG_BCN_CTRL)&(~BIT(4)));
++
++		// To make sure that if there exists an adapter which would like to send beacon.
++		// If exists, the origianl value of 0x422[6] will be 1, we should check this to
++		// prevent from setting 0x422[6] to 0 after download reserved page, or it will cause 
++		// the beacon cannot be sent by HW.
++		// 2010.06.23. Added by tynli.
++		if(bRecover)
++		{
++			rtw_write8(padapter, REG_FWHW_TXQ_CTRL+2, (pHalData->RegFwHwTxQCtrl|BIT6));
++			pHalData->RegFwHwTxQCtrl |= BIT6;
++		}
++
++		// Clear CR[8] or beacon packet will not be send to TxBuf anymore.
++		rtw_write8(padapter, REG_CR+1, 0x02);
++	}
++
++	JoinBssRptParm.OpMode = mstatus;
++
++	rtl8192c_FillH2CCmd(padapter, JOINBSS_RPT_EID, sizeof(JoinBssRptParm), (u8 *)&JoinBssRptParm);
++	
++_func_exit_;
++}
++
++#ifdef CONFIG_P2P_PS
++void rtl8192c_set_p2p_ctw_period_cmd(_adapter* padapter, u8 ctwindow)
++{
++	struct P2P_PS_CTWPeriod_t p2p_ps_ctw;
++
++	p2p_ps_ctw.CTWPeriod = ctwindow;
++
++	rtl8192c_FillH2CCmd(padapter, P2P_PS_CTW_CMD_EID, 1, (u8 *)(&p2p_ps_ctw));
++	
++}
++
++void rtl8192c_set_p2p_ps_offload_cmd(_adapter* padapter, u8 p2p_ps_state)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);	
++	struct pwrctrl_priv		*pwrpriv = &padapter->pwrctrlpriv;
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++	struct P2P_PS_Offload_t	*p2p_ps_offload = &pHalData->p2p_ps_offload;
++	u8	i;
++	u16	ctwindow;
++	u32	start_time, tsf_low;
++
++_func_enter_;
++
++	switch(p2p_ps_state)
++	{
++		case P2P_PS_DISABLE:
++			DBG_8192C("P2P_PS_DISABLE \n");
++			_rtw_memset(p2p_ps_offload, 0 ,1);
++			break;
++		case P2P_PS_ENABLE:
++			DBG_8192C("P2P_PS_ENABLE \n");
++			// update CTWindow value.
++			if( pwdinfo->ctwindow > 0 )
++			{
++				p2p_ps_offload->CTWindow_En = 1;
++				ctwindow = pwdinfo->ctwindow;
++				if(IS_HARDWARE_TYPE_8723A(padapter))
++				{
++					//rtw_write16(padapter, REG_ATIMWND, ctwindow);
++				}
++				else
++				{
++					rtl8192c_set_p2p_ctw_period_cmd(padapter, ctwindow);
++				}
++			}
++
++			// hw only support 2 set of NoA
++			for( i=0 ; i<pwdinfo->noa_num ; i++)
++			{
++				// To control the register setting for which NOA
++				rtw_write8(padapter, 0x5CF, (i << 4));
++				if(i == 0)
++					p2p_ps_offload->NoA0_En = 1;
++				else
++					p2p_ps_offload->NoA1_En = 1;
++
++				// config P2P NoA Descriptor Register
++				rtw_write32(padapter, 0x5E0, pwdinfo->noa_duration[i]);
++
++				rtw_write32(padapter, 0x5E4, pwdinfo->noa_interval[i]);
++
++				//Get Current TSF value
++				tsf_low = rtw_read32(padapter, REG_TSFTR);
++
++				start_time = pwdinfo->noa_start_time[i];
++				if(pwdinfo->noa_count[i] != 1)
++				{
++					while( start_time <= (tsf_low+(50*1024) ) )
++					{
++						start_time += pwdinfo->noa_interval[i];
++						if(pwdinfo->noa_count[i] != 255)
++							pwdinfo->noa_count[i]--;
++					}
++				}
++				//DBG_8192C("%s(): start_time = %x\n",__FUNCTION__,start_time);
++				rtw_write32(padapter, 0x5E8, start_time);
++
++				rtw_write8(padapter, 0x5EC, pwdinfo->noa_count[i]);
++			}
++
++			if( (pwdinfo->opp_ps == 1) || (pwdinfo->noa_num > 0) )
++			{
++				// rst p2p circuit
++				rtw_write8(padapter, REG_DUAL_TSF_RST, BIT(4));
++
++				p2p_ps_offload->Offload_En = 1;
++
++				if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++				{
++					p2p_ps_offload->role= 1;
++					p2p_ps_offload->AllStaSleep = 0;
++				}
++				else
++				{
++					p2p_ps_offload->role= 0;
++				}
++
++				p2p_ps_offload->discovery = 0;
++			}
++			break;
++		case P2P_PS_SCAN:
++			DBG_8192C("P2P_PS_SCAN \n");
++			p2p_ps_offload->discovery = 1;
++			break;
++		case P2P_PS_SCAN_DONE:
++			DBG_8192C("P2P_PS_SCAN_DONE \n");
++			p2p_ps_offload->discovery = 0;
++			pwdinfo->p2p_ps_state = P2P_PS_ENABLE;
++			break;
++		default:
++			break;
++	}
++
++	rtl8192c_FillH2CCmd(padapter, P2P_PS_OFFLOAD_EID, 1, (u8 *)p2p_ps_offload);
++
++_func_exit_;
++
++}
++#endif // CONFIG_P2P_PS
++
++#ifdef CONFIG_IOL
++#include <rtw_iol.h>
++int rtl8192c_IOL_exec_cmds_sync(ADAPTER *adapter, struct xmit_frame *xmit_frame, u32 max_wating_ms)
++{
++	IO_OFFLOAD_LOC	IoOffloadLoc;
++	u32 start_time = rtw_get_current_time();
++	u32 passing_time_ms;
++	u8 polling_ret;
++	int ret = _FAIL;
++
++	if (rtw_IOL_append_END_cmd(xmit_frame) != _SUCCESS)
++		goto exit;
++
++	dump_mgntframe_and_wait(adapter, xmit_frame, max_wating_ms);
++
++	IoOffloadLoc.LocCmd = 0;
++	if(_SUCCESS != rtl8192c_FillH2CCmd(adapter, H2C_92C_IO_OFFLOAD, sizeof(IO_OFFLOAD_LOC), (u8 *)&IoOffloadLoc))
++		goto exit;
++
++	//polling if the IO offloading is done
++	while( (passing_time_ms=rtw_get_passing_time_ms(start_time)) <= max_wating_ms) {
++		#if 0 //C2H
++		if(0xff == rtw_read8(adapter, REG_C2HEVT_CLEAR))
++			break;
++		#else// 0x1c3
++		if(0x00 != (polling_ret=rtw_read8(adapter, 0x1c3)))
++			break;
++		#endif
++		rtw_msleep_os(5);
++	}
++	#if 0 //debug
++	DBG_871X("IOL %s, polling_ret:0x%02x, 0x1c0=0x%08x, 0x1c4=0x%08x, 0x1cc=0x%08x, 0x1e8=0x%08x, 0x130=0x%08x, 0x134=0x%08x\n"
++			, polling_ret==0xff?"success":"error"
++			, polling_ret
++			, rtw_read32(adapter, 0x1c0)
++			, rtw_read32(adapter, 0x1c4)
++			, rtw_read32(adapter, 0x1cc)
++			, rtw_read32(adapter, 0x1e8)
++			, rtw_read32(adapter, 0x130)
++			, rtw_read32(adapter, 0x134)
++	);
++	rtw_write32(adapter, 0x1c0, 0x0);
++	#endif
++
++	if(polling_ret == 0xff)
++		ret =_SUCCESS;
++	else {
++		DBG_871X("IOL %s, polling_ret:0x%02x\n"
++			//", 0x1c0=0x%08x, 0x1c4=0x%08x, 0x1cc=0x%08x, 0x1e8=0x%08x, 0x130=0x%08x, 0x134=0x%08x\n"
++			, polling_ret==0xff?"success":"error"
++			, polling_ret
++			//, rtw_read32(adapter, 0x1c0)
++			//, rtw_read32(adapter, 0x1c4)
++			//, rtw_read32(adapter, 0x1cc)
++			//, rtw_read32(adapter, 0x1e8)
++			//, rtw_read32(adapter, 0x130)
++			//, rtw_read32(adapter, 0x134)
++		);
++		#if 0 //debug
++		rtw_write16(adapter, 0x1c4, 0x0000); 
++		rtw_msleep_os(10);
++		DBG_871X("after reset, 0x1c4=0x%08x\n", rtw_read32(adapter, 0x1c4));
++		#endif
++
++	}
++
++	{
++		#if 0 //C2H
++		u32 c2h_evt;
++		int i;
++		c2h_evt = rtw_read32(adapter, REG_C2HEVT_MSG_NORMAL);
++		DBG_871X("%s io-offloading complete, in %ums: 0x%08x\n", __FUNCTION__, passing_time_ms, c2h_evt);
++		rtw_write8(adapter, REG_C2HEVT_CLEAR, 0x0);
++		#else// 0x1c3
++		DBG_871X("IOL %s complete in %ums\n", __FUNCTION__, passing_time_ms);
++		rtw_write8(adapter, 0x1c3, 0x0);
++		#endif
++	}
++
++exit:
++	return ret;
++
++}
++#endif //CONFIG_IOL
++
++
++#ifdef CONFIG_BEACON_DISABLE_OFFLOAD
++/* 
++ rtl8192c_dis_beacon_fun_cmd()
++	This function shall only be called by PORT1.
++	PORT0's beacon function can't be disabled, because it's used by RA function in FW/HW.
++	
++	// Still has the REG_BCN_CTRL_1 modified by unknowned party issue in case of Primary Interface + PORT1 combination.
++*/
++u8 rtl8192c_dis_beacon_fun_cmd(_adapter* padapter)
++{	
++	u8	buf[2];
++	u8	res=_SUCCESS;
++	
++_func_enter_;	
++	
++	_rtw_memset(buf, 0, sizeof(buf));
++
++	if (padapter->iface_type == IFACE_PORT0) {
++		//buf[0] = 0x1;
++		DBG_871X("%s(): ERROR! padapter->iface_type = %d\n", __FUNCTION__, padapter->iface_type);
++		return _FAIL;		
++	} else
++		buf[1] = 0x1;
++
++	rtl8192c_FillH2CCmd(padapter, H2C_92C_DISABLE_BCN_FUNC, 2, buf);
++	
++_func_exit_;
++
++	return res;
++
++}
++#endif  // CONFIG_BEACON_DISABLE_OFFLOAD
++
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++/*
++	ask FW to Reset sync register at Beacon early interrupt
++*/
++u8 rtl8192c_reset_tsf(_adapter *padapter, u8 reset_port )
++{	
++	u8	buf[2];
++	u8	res=_SUCCESS;
++	
++_func_enter_;
++	if (IFACE_PORT0==reset_port) {
++		buf[0] = 0x1; buf[1] = 0;
++	
++	} else{
++		buf[0] = 0x0; buf[1] = 0x1;
++	}
++	rtl8192c_FillH2CCmd(padapter, H2C_92C_RESET_TSF, 2, buf);
++_func_exit_;
++
++	return res;
++}
++
++int reset_tsf(PADAPTER Adapter, u8 reset_port )
++{
++	u8 reset_cnt_before = 0, reset_cnt_after = 0, loop_cnt = 0;
++	u32 reg_reset_tsf_cnt = (IFACE_PORT0==reset_port) ?
++				REG_FW_RESET_TSF_CNT_0:REG_FW_RESET_TSF_CNT_1;
++
++	rtw_scan_abort(Adapter->pbuddy_adapter);	/*	site survey will cause reset_tsf fail	*/
++	reset_cnt_after = reset_cnt_before = rtw_read8(Adapter,reg_reset_tsf_cnt);
++	rtl8192c_reset_tsf(Adapter, reset_port);
++
++	while ((reset_cnt_after == reset_cnt_before ) && (loop_cnt < 10)) {
++		rtw_msleep_os(100);
++		loop_cnt++;
++		reset_cnt_after = rtw_read8(Adapter, reg_reset_tsf_cnt);
++	}
++
++	return(loop_cnt >= 10) ? _FAIL : _TRUE;
++}
++
++
++#endif	// CONFIG_TSF_RESET_OFFLOAD
++
++#ifdef CONFIG_WOWLAN
++
++void rtl8192c_set_wowlan_cmd(_adapter* padapter)
++{
++	u8	res=_SUCCESS;
++	SETWOWLAN_PARM pwowlan_parm;
++	struct pwrctrl_priv *pwrpriv=&padapter->pwrctrlpriv;
++	
++_func_enter_;
++
++	pwowlan_parm.mode =0;
++	pwowlan_parm.gpio_index=0;
++	pwowlan_parm.gpio_duration=0;
++	pwowlan_parm.second_mode =0;
++	pwowlan_parm.reserve=0;
++	
++	if(pwrpriv->wowlan_mode ==_TRUE){
++		pwowlan_parm.mode |=FW_WOWLAN_FUN_EN;
++		//printk("\n %s 1.pwowlan_parm.mode=0x%x \n",__FUNCTION__,pwowlan_parm.mode );
++		if(pwrpriv->wowlan_pattern ==_TRUE){
++			pwowlan_parm.mode |= FW_WOWLAN_PATTERN_MATCH;
++		//printk("\n %s 2.pwowlan_parm.mode=0x%x \n",__FUNCTION__,pwowlan_parm.mode );
++		}
++		if(pwrpriv->wowlan_magic ==_TRUE){
++			pwowlan_parm.mode |=FW_WOWLAN_MAGIC_PKT;
++		//printk("\n %s 3.pwowlan_parm.mode=0x%x \n",__FUNCTION__,pwowlan_parm.mode );
++		}
++		if(pwrpriv->wowlan_unicast ==_TRUE){
++			pwowlan_parm.mode |=FW_WOWLAN_UNICAST;
++		//printk("\n %s 4.pwowlan_parm.mode=0x%x \n",__FUNCTION__,pwowlan_parm.mode );
++		}
++		//WOWLAN_GPIO_ACTIVE means GPIO high active
++		//pwowlan_parm.mode |=FW_WOWLAN_GPIO_ACTIVE;
++		pwowlan_parm.mode |=FW_WOWLAN_REKEY_WAKEUP;
++		pwowlan_parm.mode |=FW_WOWLAN_DEAUTH_WAKEUP;
++		
++		rtl8192c_set_FwJoinBssReport_cmd( padapter, 1);
++		
++		//GPIO3
++		pwowlan_parm.gpio_index=3;
++		
++		//duration unit is 64us
++		pwowlan_parm.gpio_duration=0xff;
++		//
++		pwowlan_parm.second_mode|=FW_WOWLAN_GPIO_WAKEUP_EN;
++		//printk("\n %s 5.pwowlan_parm.mode=0x%x \n",__FUNCTION__,pwowlan_parm.mode );
++		{	u8 *ptr=(u8 *)&pwowlan_parm;
++			printk("\n %s H2C_WO_WLAN=%x %02x:%02x:%02x:%02x:%02x \n",__FUNCTION__,H2C_WO_WLAN_CMD,ptr[0],ptr[1],ptr[2],ptr[3],ptr[4] );
++		}
++		rtl8192c_FillH2CCmd(padapter, H2C_WO_WLAN_CMD, 4, (u8 *)&pwowlan_parm);
++
++		//keep alive period = 3 * 10 BCN interval
++		pwowlan_parm.mode =3;
++		pwowlan_parm.gpio_index=3;
++		rtl8192c_FillH2CCmd(padapter, KEEP_ALIVE_CONTROL_CMD, 2, (u8 *)&pwowlan_parm);
++		printk("%s after KEEP_ALIVE_CONTROL_CMD register 0x81=%x \n",__FUNCTION__,rtw_read8(padapter, 0x81));
++
++		pwowlan_parm.mode =1;
++		pwowlan_parm.gpio_index=0;
++		pwowlan_parm.gpio_duration=0;
++		rtl8192c_FillH2CCmd(padapter, DISCONNECT_DECISION_CTRL_CMD, 3, (u8 *)&pwowlan_parm);
++		printk("%s after DISCONNECT_DECISION_CTRL_CMD register 0x81=%x \n",__FUNCTION__,rtw_read8(padapter, 0x81));
++		
++		//enable GPIO wakeup
++		pwowlan_parm.mode =1;
++		pwowlan_parm.gpio_index=0;
++		pwowlan_parm.gpio_duration=0;
++		rtl8192c_FillH2CCmd(padapter, REMOTE_WAKE_CTRL_CMD, 3, (u8 *)&pwowlan_parm);
++	}
++	else
++		rtl8192c_FillH2CCmd(padapter, H2C_WO_WLAN_CMD, 3, (u8 *)&pwowlan_parm);
++
++	
++_func_exit_;
++
++	return ;
++
++}
++
++#endif  //CONFIG_WOWLAN
++
++
++
++
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_dm.c b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_dm.c
+new file mode 100755
+index 0000000..6e5634c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_dm.c
+@@ -0,0 +1,5056 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++//============================================================
++// Description:
++//
++// This file is for 92CE/92CU dynamic mechanism only
++//
++//
++//============================================================
++
++//============================================================
++// include files
++//============================================================
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <rtw_byteorder.h>
++
++#include <rtl8192c_hal.h>
++#include "../dm.h"
++#ifdef CONFIG_INTEL_PROXIM
++#include "../proxim/intel_proxim.h"	
++#endif
++//============================================================
++// Global var
++//============================================================
++static u32 EDCAParam[maxAP][3] =
++{          // UL			DL
++	{0x5ea322, 0x00a630, 0x00a44f}, //atheros AP
++	{0x5ea32b, 0x5ea42b, 0x5e4322}, //broadcom AP
++	{0x3ea430, 0x00a630, 0x3ea44f}, //cisco AP
++	{0x5ea44f, 0x00a44f, 0x5ea42b}, //marvell AP
++	{0x5ea422, 0x00a44f, 0x00a44f}, //ralink AP
++	//{0x5ea44f, 0x5ea44f, 0x5ea44f}, //realtek AP
++	{0xa44f, 0x5ea44f, 0x5e431c}, //realtek AP
++	{0x5ea42b, 0xa630, 0x5e431c}, //airgocap AP
++	{0x5ea42b, 0x5ea42b, 0x5ea42b}, //unknown AP
++//	{0x5e4322, 0x00a44f, 0x5ea44f}, //unknown AP
++};
++
++
++/*-----------------------------------------------------------------------------
++ * Function:	dm_DIGInit()
++ *
++ * Overview:	Set DIG scheme init value.
++ *
++ * Input:		NONE
++ *
++ * Output:		NONE
++ *
++ * Return:		NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *
++ *---------------------------------------------------------------------------*/
++static void	dm_DIGInit(
++	IN	PADAPTER	pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	DIG_T	*pDigTable = &pdmpriv->DM_DigTable;
++	
++
++	pDigTable->Dig_Enable_Flag = _TRUE;
++	pDigTable->Dig_Ext_Port_Stage = DIG_EXT_PORT_STAGE_MAX;
++	
++	pDigTable->CurIGValue = 0x20;
++	pDigTable->PreIGValue = 0x0;
++
++	pDigTable->CurSTAConnectState = pDigTable->PreSTAConnectState = DIG_STA_DISCONNECT;
++	pDigTable->CurMultiSTAConnectState = DIG_MultiSTA_DISCONNECT;
++
++	pDigTable->RssiLowThresh 	= DM_DIG_THRESH_LOW;
++	pDigTable->RssiHighThresh 	= DM_DIG_THRESH_HIGH;
++
++	pDigTable->FALowThresh	= DM_FALSEALARM_THRESH_LOW;
++	pDigTable->FAHighThresh	= DM_FALSEALARM_THRESH_HIGH;
++
++	
++	pDigTable->rx_gain_range_max = DM_DIG_MAX;
++	pDigTable->rx_gain_range_min = DM_DIG_MIN;
++	pDigTable->rx_gain_range_min_nolink = 0;
++
++	pDigTable->BackoffVal = DM_DIG_BACKOFF_DEFAULT;
++	pDigTable->BackoffVal_range_max = DM_DIG_BACKOFF_MAX;
++	pDigTable->BackoffVal_range_min = DM_DIG_BACKOFF_MIN;
++
++	pDigTable->PreCCKPDState = CCK_PD_STAGE_MAX;
++	pDigTable->CurCCKPDState = CCK_PD_STAGE_LowRssi;
++
++	pDigTable->ForbiddenIGI = DM_DIG_MIN;
++	pDigTable->LargeFAHit = 0;
++	pDigTable->Recover_cnt = 0;
++	pdmpriv->DIG_Dynamic_MIN  = 0x25; //for FUNAI_TV
++}
++
++
++static u8 dm_initial_gain_MinPWDB(
++	IN	PADAPTER	pAdapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	DIG_T			*pDigTable = &pdmpriv->DM_DigTable;
++	int	Rssi_val_min = 0;
++	
++	if((pDigTable->CurMultiSTAConnectState == DIG_MultiSTA_CONNECT) &&
++		(pDigTable->CurSTAConnectState == DIG_STA_CONNECT) )
++	{
++		if(pdmpriv->EntryMinUndecoratedSmoothedPWDB != 0)
++#ifdef CONFIG_CONCURRENT_MODE
++			Rssi_val_min  =  (pdmpriv->UndecoratedSmoothedPWDB+pdmpriv->EntryMinUndecoratedSmoothedPWDB)/2;
++#else
++			Rssi_val_min  =  (pdmpriv->EntryMinUndecoratedSmoothedPWDB > pdmpriv->UndecoratedSmoothedPWDB)?
++					pdmpriv->UndecoratedSmoothedPWDB:pdmpriv->EntryMinUndecoratedSmoothedPWDB;		
++#endif //CONFIG_CONCURRENT_MODE
++		else
++			Rssi_val_min = pdmpriv->UndecoratedSmoothedPWDB;
++	}
++	else if(pDigTable->CurSTAConnectState == DIG_STA_CONNECT || 
++			pDigTable->CurSTAConnectState == DIG_STA_BEFORE_CONNECT) 
++		Rssi_val_min = pdmpriv->UndecoratedSmoothedPWDB;
++	else if(pDigTable->CurMultiSTAConnectState == DIG_MultiSTA_CONNECT)
++		Rssi_val_min = pdmpriv->EntryMinUndecoratedSmoothedPWDB;
++
++	//printk("%s CurMultiSTAConnectState(0x%02x) UndecoratedSmoothedPWDB(%d),EntryMinUndecoratedSmoothedPWDB(%d)\n"
++	//,__FUNCTION__,pDigTable->CurSTAConnectState,
++	//pdmpriv->UndecoratedSmoothedPWDB,pdmpriv->EntryMinUndecoratedSmoothedPWDB);
++
++	return (u8)Rssi_val_min;
++}
++
++
++static VOID 
++dm_FalseAlarmCounterStatistics(
++	IN	PADAPTER	Adapter
++	)
++{
++	u32 ret_value;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	PFALSE_ALARM_STATISTICS FalseAlmCnt = &(pdmpriv->FalseAlmCnt);
++#ifdef CONFIG_CONCURRENT_MODE
++	PADAPTER pbuddy_adapter = Adapter->pbuddy_adapter;
++#endif //CONFIG_CONCURRENT_MODE
++	
++	ret_value = PHY_QueryBBReg(Adapter, rOFDM_PHYCounter1, bMaskDWord);
++       FalseAlmCnt->Cnt_Parity_Fail = ((ret_value&0xffff0000)>>16);	
++
++       ret_value = PHY_QueryBBReg(Adapter, rOFDM_PHYCounter2, bMaskDWord);
++	FalseAlmCnt->Cnt_Rate_Illegal = (ret_value&0xffff);
++	FalseAlmCnt->Cnt_Crc8_fail = ((ret_value&0xffff0000)>>16);
++	ret_value = PHY_QueryBBReg(Adapter, rOFDM_PHYCounter3, bMaskDWord);
++	FalseAlmCnt->Cnt_Mcs_fail = (ret_value&0xffff);
++	ret_value = PHY_QueryBBReg(Adapter, rOFDM0_FrameSync, bMaskDWord);
++	FalseAlmCnt->Cnt_Fast_Fsync = (ret_value&0xffff);
++	FalseAlmCnt->Cnt_SB_Search_fail = ((ret_value&0xffff0000)>>16);
++
++	FalseAlmCnt->Cnt_Ofdm_fail = 	FalseAlmCnt->Cnt_Parity_Fail + FalseAlmCnt->Cnt_Rate_Illegal +
++								FalseAlmCnt->Cnt_Crc8_fail + FalseAlmCnt->Cnt_Mcs_fail+
++								FalseAlmCnt->Cnt_Fast_Fsync + FalseAlmCnt->Cnt_SB_Search_fail;
++
++	
++	//hold cck counter
++	PHY_SetBBReg(Adapter, rCCK0_FalseAlarmReport, BIT(14), 1);
++	
++	ret_value = PHY_QueryBBReg(Adapter, rCCK0_FACounterLower, bMaskByte0);
++	FalseAlmCnt->Cnt_Cck_fail = ret_value;
++
++	ret_value = PHY_QueryBBReg(Adapter, rCCK0_FACounterUpper, bMaskByte3);
++	FalseAlmCnt->Cnt_Cck_fail +=  (ret_value& 0xff)<<8;
++	
++	FalseAlmCnt->Cnt_all = (	FalseAlmCnt->Cnt_Parity_Fail +
++						FalseAlmCnt->Cnt_Rate_Illegal +
++						FalseAlmCnt->Cnt_Crc8_fail +
++						FalseAlmCnt->Cnt_Mcs_fail +
++						FalseAlmCnt->Cnt_Cck_fail);	
++
++	Adapter->recvpriv.FalseAlmCnt_all = FalseAlmCnt->Cnt_all;
++#ifdef CONFIG_CONCURRENT_MODE
++	if(pbuddy_adapter)
++		pbuddy_adapter->recvpriv.FalseAlmCnt_all = FalseAlmCnt->Cnt_all;
++#endif //CONFIG_CONCURRENT_MODE
++
++	//reset false alarm counter registers
++	PHY_SetBBReg(Adapter, rOFDM1_LSTF, 0x08000000, 1);
++	PHY_SetBBReg(Adapter, rOFDM1_LSTF, 0x08000000, 0);
++	//reset cck counter
++	PHY_SetBBReg(Adapter, rCCK0_FalseAlarmReport, 0x0000c000, 0);
++	//enable cck counter
++	PHY_SetBBReg(Adapter, rCCK0_FalseAlarmReport, 0x0000c000, 2);
++
++	//RT_TRACE(	COMP_DIG, DBG_LOUD, ("Cnt_Parity_Fail = %ld, Cnt_Rate_Illegal = %ld, Cnt_Crc8_fail = %ld, Cnt_Mcs_fail = %ld\n", 
++	//			FalseAlmCnt->Cnt_Parity_Fail, FalseAlmCnt->Cnt_Rate_Illegal, FalseAlmCnt->Cnt_Crc8_fail, FalseAlmCnt->Cnt_Mcs_fail) );
++	//RT_TRACE(	COMP_DIG, DBG_LOUD, ("Cnt_Ofdm_fail = %ld, Cnt_Cck_fail = %ld, Cnt_all = %ld\n", 
++	//			FalseAlmCnt->Cnt_Ofdm_fail, FalseAlmCnt->Cnt_Cck_fail, FalseAlmCnt->Cnt_all) );
++	//RT_TRACE(	COMP_DIG, DBG_LOUD, ("Cnt_Ofdm_fail = %ld, Cnt_Cck_fail = %ld, Cnt_all = %ld\n", 
++	//			FalseAlmCnt->Cnt_Ofdm_fail, FalseAlmCnt->Cnt_Cck_fail, FalseAlmCnt->Cnt_all) );
++}
++
++
++static VOID
++DM_Write_DIG(
++	IN	PADAPTER	pAdapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	DIG_T	*pDigTable = &pdmpriv->DM_DigTable;
++	
++#ifdef CONFIG_CONCURRENT_MODE
++	if(rtw_buddy_adapter_up(pAdapter))
++	{
++		PADAPTER pbuddy_adapter = pAdapter->pbuddy_adapter;
++		PHAL_DATA_TYPE	pbuddy_HalData = GET_HAL_DATA(pbuddy_adapter);
++		struct dm_priv *pbuddy_dmpriv = &pbuddy_HalData->dmpriv;
++		DIG_T	*pbuddy_DigTable = &pbuddy_dmpriv->DM_DigTable;
++
++		//sync IGValue
++		pbuddy_DigTable->PreIGValue = pDigTable->PreIGValue;
++		pbuddy_DigTable->CurIGValue = pDigTable->CurIGValue;
++	}
++#endif //CONFIG_CONCURRENT_MODE	
++
++
++	//RT_TRACE(	COMP_DIG, DBG_LOUD, ("CurIGValue = 0x%lx, PreIGValue = 0x%lx, BackoffVal = %d\n", 
++	//			DM_DigTable.CurIGValue, DM_DigTable.PreIGValue, DM_DigTable.BackoffVal));
++
++	if (pDigTable->Dig_Enable_Flag == _FALSE)
++	{
++		//RT_TRACE(	COMP_DIG, DBG_LOUD, ("DIG is disabled\n"));
++		pDigTable->PreIGValue = 0x17;
++		return;
++	}
++
++	if( (pDigTable->PreIGValue != pDigTable->CurIGValue) || ( pAdapter->bForceWriteInitGain ) )
++	{
++		// Set initial gain.
++		//PHY_SetBBReg(pAdapter, rOFDM0_XAAGCCore1, bMaskByte0, pDigTable->CurIGValue);
++		//PHY_SetBBReg(pAdapter, rOFDM0_XBAGCCore1, bMaskByte0, pDigTable->CurIGValue);
++		//printk("%s DIG(0x%02x)\n",__FUNCTION__,pDigTable->CurIGValue);
++
++#if defined CONFIG_WIDI_DIG_3E && defined CONFIG_INTEL_WIDI
++		if( pAdapter->mlmepriv.widi_enable == _TRUE )
++		{
++			PHY_SetBBReg(pAdapter, rOFDM0_XAAGCCore1, 0x7f, 0x3e);
++			PHY_SetBBReg(pAdapter, rOFDM0_XBAGCCore1, 0x7f, 0x3e);
++		}
++		else
++#endif //defined CONFIG_WIDI_DIG_3E && defined CONFIG_INTEL_WIDI
++		{
++			PHY_SetBBReg(pAdapter, rOFDM0_XAAGCCore1, 0x7f, pDigTable->CurIGValue);
++			PHY_SetBBReg(pAdapter, rOFDM0_XBAGCCore1, 0x7f, pDigTable->CurIGValue);
++		}
++		pDigTable->PreIGValue = pDigTable->CurIGValue;
++	}
++}
++
++
++static VOID 
++dm_CtrlInitGainByFA(
++	IN	PADAPTER	pAdapter
++)	
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	DIG_T	*pDigTable = &pdmpriv->DM_DigTable;
++	PFALSE_ALARM_STATISTICS FalseAlmCnt = &(pdmpriv->FalseAlmCnt);
++
++	u8	value_IGI = pDigTable->CurIGValue;
++	
++	if(FalseAlmCnt->Cnt_all < DM_DIG_FA_TH0)	
++		value_IGI --;
++	else if(FalseAlmCnt->Cnt_all < DM_DIG_FA_TH1)	
++		value_IGI += 0;
++	else if(FalseAlmCnt->Cnt_all < DM_DIG_FA_TH2)	
++		value_IGI ++;
++	else if(FalseAlmCnt->Cnt_all >= DM_DIG_FA_TH2)	
++		value_IGI +=2;
++	
++	if(value_IGI > DM_DIG_FA_UPPER)			
++		value_IGI = DM_DIG_FA_UPPER;
++	if(value_IGI < DM_DIG_FA_LOWER)
++		value_IGI = DM_DIG_FA_LOWER;
++
++	if(FalseAlmCnt->Cnt_all > 10000)
++		value_IGI = DM_DIG_FA_UPPER;
++	
++	pDigTable->CurIGValue = value_IGI;
++	
++	DM_Write_DIG(pAdapter);
++	
++}
++
++#ifdef CONFIG_SPECIAL_SETTING_FOR_FUNAI_TV
++VOID dm_CtrlInitGainByRssi( IN PADAPTER pAdapter) 
++{ 
++
++	u32 isBT;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	DIG_T	*pDigTable = &pdmpriv->DM_DigTable;
++	PFALSE_ALARM_STATISTICS FalseAlmCnt = &(pdmpriv->FalseAlmCnt);
++#ifdef CONFIG_DM_ADAPTIVITY
++	u8 Adap_IGI_Upper = pdmpriv->IGI_target + 30 + (u8) pdmpriv->TH_L2H_ini -(u8) pdmpriv->TH_EDCCA_HL_diff;
++#endif
++
++	 //modify DIG upper bound
++	if((pDigTable->Rssi_val_min + 20) > DM_DIG_MAX )
++		pDigTable->rx_gain_range_max = DM_DIG_MAX;
++ 	else
++  		pDigTable->rx_gain_range_max = pDigTable->Rssi_val_min + 20;
++
++	//modify DIG lower bound	
++	if((FalseAlmCnt->Cnt_all > 500)&&(pdmpriv->DIG_Dynamic_MIN < 0x25))
++  		pdmpriv->DIG_Dynamic_MIN++;
++ 	if((FalseAlmCnt->Cnt_all < 500)&&(pdmpriv->DIG_Dynamic_MIN > DM_DIG_MIN))
++  		pdmpriv->DIG_Dynamic_MIN--;
++	if((pDigTable->Rssi_val_min < 8) && (pdmpriv->DIG_Dynamic_MIN > DM_DIG_MIN))
++		pdmpriv->DIG_Dynamic_MIN--;
++	
++ 	//modify DIG lower bound, deal with abnorally large false alarm
++ 	if(FalseAlmCnt->Cnt_all > 10000)
++ 	{
++ 		//RT_TRACE(COMP_DIG, DBG_LOUD, ("dm_DIG(): Abnornally false alarm case. \n"));
++  		pDigTable->LargeFAHit++;
++ 		 if(pDigTable->ForbiddenIGI < pDigTable->CurIGValue)
++  		{
++   			pDigTable->ForbiddenIGI = pDigTable->CurIGValue;
++	  		pDigTable->LargeFAHit = 1;
++	  	}
++	  	if(pDigTable->LargeFAHit >= 3)
++	  	{
++			if((pDigTable->ForbiddenIGI+1) >pDigTable->rx_gain_range_max)
++		    		pDigTable->rx_gain_range_min = pDigTable->rx_gain_range_max;
++		   	else
++		    		pDigTable->rx_gain_range_min = (pDigTable->ForbiddenIGI + 1);
++		   	pDigTable->Recover_cnt = 3600; //3600=2hr
++		  }
++	 }
++	 else
++	 {
++	  //Recovery mechanism for IGI lower bound
++	  	if(pDigTable->Recover_cnt != 0){
++	   		pDigTable->Recover_cnt --;
++	  	}
++	  	else
++	 	{
++			if(pDigTable->LargeFAHit == 0 )
++	   		{
++	   			if((pDigTable->ForbiddenIGI -1) < pdmpriv->DIG_Dynamic_MIN) //DM_DIG_MIN)
++			    	{
++			     		pDigTable->ForbiddenIGI = pdmpriv->DIG_Dynamic_MIN; //DM_DIG_MIN;
++			     		pDigTable->rx_gain_range_min = pdmpriv->DIG_Dynamic_MIN; //DM_DIG_MIN;
++			    	}
++			    	else
++			    	{
++			     		pDigTable->ForbiddenIGI --;
++			     		pDigTable->rx_gain_range_min = (pDigTable->ForbiddenIGI + 1);
++			    	}
++	   		}
++	   		else if(pDigTable->LargeFAHit == 3 )
++	   		{
++	    			pDigTable->LargeFAHit = 0;
++	   		}
++	  	}
++	 }
++ #ifdef CONFIG_USB_HCI
++	if(FalseAlmCnt->Cnt_all < 250)
++	{
++#endif
++		//DBG_8192C("===> dm_CtrlInitGainByRssi, Enter DIG by SS mode\n");
++		
++		isBT = rtw_read8(pAdapter, 0x4fd) & 0x01;
++
++		if(!isBT){
++
++			if(FalseAlmCnt->Cnt_all > pDigTable->FAHighThresh)
++			{
++				if((pDigTable->BackoffVal -2) < pDigTable->BackoffVal_range_min)
++					pDigTable->BackoffVal = pDigTable->BackoffVal_range_min;
++				else
++					pDigTable->BackoffVal -= 2; 
++			}	
++			else if(FalseAlmCnt->Cnt_all < pDigTable->FALowThresh)
++			{
++				if((pDigTable->BackoffVal+2) > pDigTable->BackoffVal_range_max)
++					pDigTable->BackoffVal = pDigTable->BackoffVal_range_max;
++				else
++					pDigTable->BackoffVal +=2;
++			}	
++		}
++		else
++			pDigTable->BackoffVal = DM_DIG_BACKOFF_DEFAULT;
++
++		pDigTable->CurIGValue = pDigTable->Rssi_val_min+10-pDigTable->BackoffVal;	
++
++		//DBG_8192C("Rssi_val_min = %x BackoffVal %x\n",pDigTable->Rssi_val_min, pDigTable->BackoffVal);
++#ifdef CONFIG_USB_HCI
++	}
++	else
++	{		
++		//DBG_8192C("===> dm_CtrlInitGainByRssi, Enter DIG by FA mode\n");
++		//DBG_8192C("RSSI = 0x%x", pDigTable->Rssi_val_min);
++
++		//Adjust initial gain by false alarm		
++		if(FalseAlmCnt->Cnt_all > 1000)
++			pDigTable->CurIGValue = pDigTable ->PreIGValue+2;
++		else if (FalseAlmCnt->Cnt_all > 750)
++			pDigTable->CurIGValue = pDigTable->PreIGValue+1;
++		else if(FalseAlmCnt->Cnt_all < 500)
++			pDigTable->CurIGValue = pDigTable->PreIGValue-1;	
++	}
++#endif
++
++	//Check initial gain by upper/lower bound
++	if(pDigTable->CurIGValue >pDigTable->rx_gain_range_max)
++		pDigTable->CurIGValue = pDigTable->rx_gain_range_max;
++
++	if(pDigTable->CurIGValue < pDigTable->rx_gain_range_min)
++		pDigTable->CurIGValue = pDigTable->rx_gain_range_min;
++
++#ifdef CONFIG_DM_ADAPTIVITY
++	if(pdmpriv->DMFlag & DYNAMIC_FUNC_ADAPTIVITY)
++	{
++		if(pDigTable->CurIGValue > Adap_IGI_Upper)
++			pDigTable->CurIGValue = Adap_IGI_Upper;
++
++		if(pdmpriv->IGI_LowerBound != 0)
++		{
++			if(pDigTable->CurIGValue < pdmpriv->IGI_LowerBound)
++				pDigTable->CurIGValue = pdmpriv->IGI_LowerBound;
++		}
++		LOG_LEVEL(_drv_info_, FUNC_ADPT_FMT": pdmpriv->IGI_LowerBound = %d\n",
++			FUNC_ADPT_ARG(pAdapter), pdmpriv->IGI_LowerBound);
++	}
++#endif /* CONFIG_DM_ADAPTIVITY */
++
++	//printk("%s => rx_gain_range_max(0x%02x) rx_gain_range_min(0x%02x)\n",__FUNCTION__,
++	//	pDigTable->rx_gain_range_max,pDigTable->rx_gain_range_min);
++	//printk("%s CurIGValue(0x%02x)  <====\n",__FUNCTION__,pDigTable->CurIGValue );		
++
++	DM_Write_DIG(pAdapter);
++
++}
++#else
++static VOID dm_CtrlInitGainByRssi(IN	PADAPTER	pAdapter)	
++{
++	u32 isBT;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	DIG_T	*pDigTable = &pdmpriv->DM_DigTable;
++	PFALSE_ALARM_STATISTICS FalseAlmCnt = &(pdmpriv->FalseAlmCnt);
++	u8 RSSI_tmp = dm_initial_gain_MinPWDB(pAdapter);
++#ifdef CONFIG_DM_ADAPTIVITY
++	u8 Adap_IGI_Upper = pdmpriv->IGI_target + 30 + (u8) pdmpriv->TH_L2H_ini -(u8) pdmpriv->TH_EDCCA_HL_diff;
++#endif
++
++	//modify DIG upper bound
++	if((pDigTable->Rssi_val_min + 20) > DM_DIG_MAX )
++		pDigTable->rx_gain_range_max = DM_DIG_MAX;
++	else
++		pDigTable->rx_gain_range_max = pDigTable->Rssi_val_min + 20;
++	//printk("%s Rssi_val_min(0x%02x),rx_gain_range_max(0x%02x)\n",__FUNCTION__,pDigTable->Rssi_val_min,pDigTable->rx_gain_range_max);
++	//modify DIG lower bound, deal with abnorally large false alarm
++	if(FalseAlmCnt->Cnt_all > 10000)
++	{
++		//RT_TRACE(COMP_DIG, DBG_LOUD, ("dm_DIG(): Abnornally false alarm case. \n"));
++
++		pDigTable->LargeFAHit++;
++		if(pDigTable->ForbiddenIGI < pDigTable->CurIGValue)
++		{
++			pDigTable->ForbiddenIGI = pDigTable->CurIGValue;
++			pDigTable->LargeFAHit = 1;
++		}
++
++		if(pDigTable->LargeFAHit >= 3)
++		{
++			if((pDigTable->ForbiddenIGI+1) > pDigTable->rx_gain_range_max)
++				pDigTable->rx_gain_range_min = pDigTable->rx_gain_range_max;
++			else
++				pDigTable->rx_gain_range_min = (pDigTable->ForbiddenIGI + 1);
++			pDigTable->Recover_cnt = 3600; //3600=2hr
++		}
++	}
++	else
++	{
++		//Recovery mechanism for IGI lower bound
++		if(pDigTable->Recover_cnt != 0)
++			pDigTable->Recover_cnt --;
++		else
++		{
++			if(pDigTable->LargeFAHit == 0 )
++			{
++				if((pDigTable->ForbiddenIGI -1) < DM_DIG_MIN)
++				{
++					pDigTable->ForbiddenIGI = DM_DIG_MIN;
++					pDigTable->rx_gain_range_min = DM_DIG_MIN;
++				}
++				else
++				{
++					pDigTable->ForbiddenIGI --;
++					pDigTable->rx_gain_range_min = (pDigTable->ForbiddenIGI + 1);
++				}
++			}
++			else if(pDigTable->LargeFAHit == 3 )
++			{
++				pDigTable->LargeFAHit = 0;
++			}
++		}
++	}
++
++	//RT_TRACE(COMP_DIG, DBG_LOUD, ("DM_DigTable.ForbiddenIGI = 0x%x, DM_DigTable.LargeFAHit = 0x%x\n",pDigTable->ForbiddenIGI, pDigTable->LargeFAHit));
++	//RT_TRACE(COMP_DIG, DBG_LOUD, ("DM_DigTable.rx_gain_range_max = 0x%x, DM_DigTable.rx_gain_range_min = 0x%x\n",pDigTable->rx_gain_range_max, pDigTable->rx_gain_range_min));
++
++#ifdef CONFIG_USB_HCI
++	if(FalseAlmCnt->Cnt_all < 250)
++	{
++#endif
++		//DBG_8192C("===> dm_CtrlInitGainByRssi, Enter DIG by SS mode\n");
++		
++		isBT = rtw_read8(pAdapter, 0x4fd) & 0x01;
++
++		if(!isBT){
++
++			if(FalseAlmCnt->Cnt_all > pDigTable->FAHighThresh)
++			{
++				if((pDigTable->BackoffVal -2) < pDigTable->BackoffVal_range_min)
++					pDigTable->BackoffVal = pDigTable->BackoffVal_range_min;
++				else
++					pDigTable->BackoffVal -= 2; 
++			}	
++			else if(FalseAlmCnt->Cnt_all < pDigTable->FALowThresh)
++			{
++				if((pDigTable->BackoffVal+2) > pDigTable->BackoffVal_range_max)
++					pDigTable->BackoffVal = pDigTable->BackoffVal_range_max;
++				else
++					pDigTable->BackoffVal +=2;
++			}	
++		}
++		else
++			pDigTable->BackoffVal = DM_DIG_BACKOFF_DEFAULT;
++
++		pDigTable->CurIGValue = pDigTable->Rssi_val_min+10-pDigTable->BackoffVal;	
++
++		//DBG_8192C("Rssi_val_min = %x BackoffVal %x\n",pDigTable->Rssi_val_min, pDigTable->BackoffVal);
++#ifdef CONFIG_USB_HCI
++	}
++	else
++	{		
++		//DBG_8192C("===> dm_CtrlInitGainByRssi, Enter DIG by FA mode\n");
++		//DBG_8192C("RSSI = 0x%x", pDigTable->Rssi_val_min);
++
++		//Adjust initial gain by false alarm		
++		if(FalseAlmCnt->Cnt_all > 1000)
++			pDigTable->CurIGValue = pDigTable ->PreIGValue+2;
++		else if (FalseAlmCnt->Cnt_all > 750)
++			pDigTable->CurIGValue = pDigTable->PreIGValue+1;
++		else if(FalseAlmCnt->Cnt_all < 500)
++			pDigTable->CurIGValue = pDigTable->PreIGValue-1;	
++	}
++#endif
++
++	if(RSSI_tmp <= DM_DIG_MIN)
++		pDigTable->rx_gain_range_min = DM_DIG_MIN;
++	else if(RSSI_tmp >= DM_DIG_MAX)
++		pDigTable->rx_gain_range_min = DM_DIG_MAX;
++	else
++		pDigTable->rx_gain_range_min = RSSI_tmp;
++
++
++	//Check initial gain by upper/lower bound
++	if(pDigTable->CurIGValue >pDigTable->rx_gain_range_max)
++		pDigTable->CurIGValue = pDigTable->rx_gain_range_max;
++
++	if(pDigTable->CurIGValue < pDigTable->rx_gain_range_min)
++		pDigTable->CurIGValue = pDigTable->rx_gain_range_min;
++
++#ifdef CONFIG_DM_ADAPTIVITY
++	if(pdmpriv->DMFlag & DYNAMIC_FUNC_ADAPTIVITY)
++	{
++		if(pDigTable->CurIGValue > Adap_IGI_Upper)
++			pDigTable->CurIGValue = Adap_IGI_Upper;
++
++		if(pdmpriv->IGI_LowerBound != 0)
++		{
++			if(pDigTable->CurIGValue < pdmpriv->IGI_LowerBound)
++				pDigTable->CurIGValue = pdmpriv->IGI_LowerBound;
++		}
++		LOG_LEVEL(_drv_info_, FUNC_ADPT_FMT": pdmpriv->IGI_LowerBound = %d\n",
++			FUNC_ADPT_ARG(pAdapter), pdmpriv->IGI_LowerBound);
++	}
++#endif /* CONFIG_DM_ADAPTIVITY */
++
++	//printk("%s => rx_gain_range_max(0x%02x) rx_gain_range_min(0x%02x)\n",__FUNCTION__,
++	//	pDigTable->rx_gain_range_max,pDigTable->rx_gain_range_min);
++	//printk("%s CurIGValue(0x%02x)  <====\n",__FUNCTION__,pDigTable->CurIGValue );		
++
++	DM_Write_DIG(pAdapter);
++
++}
++#endif
++
++static VOID
++dm_initial_gain_Multi_STA(
++	IN	PADAPTER	pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	struct mlme_priv	*pmlmepriv = &(pAdapter->mlmepriv);
++	DIG_T			*pDigTable = &pdmpriv->DM_DigTable;
++	int				rssi_strength =  pdmpriv->EntryMinUndecoratedSmoothedPWDB;	
++	BOOLEAN			bMulti_STA = _FALSE;
++	
++#ifdef CONFIG_CONCURRENT_MODE
++	//AP Mode
++	if(check_buddy_fwstate(pAdapter, WIFI_AP_STATE) == _TRUE && (rssi_strength !=0))
++	{
++		bMulti_STA = _TRUE;
++	}	
++	else if(pDigTable->CurMultiSTAConnectState == DIG_MultiSTA_CONNECT && rssi_strength==0) //STA+STA MODE
++	{
++		bMulti_STA = _TRUE;
++		rssi_strength = pdmpriv->UndecoratedSmoothedPWDB;		
++	}
++#endif //CONFIG_CONCURRENT_MODE
++
++
++	//ADHOC and AP Mode
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE|WIFI_ADHOC_STATE|WIFI_ADHOC_MASTER_STATE) == _TRUE)
++	{
++		bMulti_STA = _TRUE;
++	}
++
++
++	if((bMulti_STA == _FALSE) 
++		|| (pDigTable->CurSTAConnectState == DIG_STA_DISCONNECT))	 
++	{
++		pdmpriv->binitialized = _FALSE;
++		pDigTable->Dig_Ext_Port_Stage = DIG_EXT_PORT_STAGE_MAX;
++		return;
++	}	
++	else if(pdmpriv->binitialized == _FALSE)
++	{
++		pdmpriv->binitialized = _TRUE;
++		pDigTable->Dig_Ext_Port_Stage = DIG_EXT_PORT_STAGE_0;
++		pDigTable->CurIGValue = 0x20;
++		DM_Write_DIG(pAdapter);
++	}
++
++	// Initial gain control by ap mode 
++	if(pDigTable->CurMultiSTAConnectState == DIG_MultiSTA_CONNECT)
++	{
++		if (	(rssi_strength < pDigTable->RssiLowThresh) 	&& 
++			(pDigTable->Dig_Ext_Port_Stage != DIG_EXT_PORT_STAGE_1))
++		{					
++			// Set to dig value to 0x20 for Luke's opinion after disable dig
++			if(pDigTable->Dig_Ext_Port_Stage == DIG_EXT_PORT_STAGE_2)
++			{
++				pDigTable->CurIGValue = 0x20;
++				DM_Write_DIG(pAdapter);				
++			}	
++			pDigTable->Dig_Ext_Port_Stage = DIG_EXT_PORT_STAGE_1;	
++		}	
++		else if (rssi_strength > pDigTable->RssiHighThresh)
++		{
++			pDigTable->Dig_Ext_Port_Stage = DIG_EXT_PORT_STAGE_2;
++			dm_CtrlInitGainByFA(pAdapter);
++		} 
++	}	
++	else if(pDigTable->Dig_Ext_Port_Stage != DIG_EXT_PORT_STAGE_0)
++	{
++		pDigTable->Dig_Ext_Port_Stage = DIG_EXT_PORT_STAGE_0;
++		pDigTable->CurIGValue = 0x20;
++		DM_Write_DIG(pAdapter);
++	}
++
++	//RT_TRACE(	COMP_DIG, DBG_LOUD, ("CurMultiSTAConnectState = %x Dig_Ext_Port_Stage %x\n", 
++	//			DM_DigTable.CurMultiSTAConnectState, DM_DigTable.Dig_Ext_Port_Stage));
++}
++
++static VOID 
++dm_initial_gain_STA_beforelinked(
++	IN	PADAPTER	pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	DIG_T	*pDigTable = &pdmpriv->DM_DigTable;
++	PFALSE_ALARM_STATISTICS pFalseAlmCnt = &(pdmpriv->FalseAlmCnt);
++	
++	//CurrentIGI = pDM_DigTable->rx_gain_range_min;//pDM_DigTable->CurIGValue = pDM_DigTable->rx_gain_range_min
++	//ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): DIG BeforeLink\n"));
++	//2012.03.30 LukeLee: enable DIG before link but with very high thresholds
++	//	Updated by Albert 2012/09/27
++	//	Copy the same rule from 8192du code.
++      	if( pFalseAlmCnt->Cnt_all > 2000 )
++		pDigTable->CurIGValue += 2;
++	else if ( ( pFalseAlmCnt->Cnt_all > 1000 ) && ( pFalseAlmCnt->Cnt_all <= 1000 ) )
++		pDigTable->CurIGValue += 1;
++	else if(pFalseAlmCnt->Cnt_all < 500)
++		 pDigTable->CurIGValue -= 1;
++
++	//Check initial gain by upper/lower bound
++	if(pDigTable->CurIGValue >pDigTable->rx_gain_range_max)
++		pDigTable->CurIGValue = pDigTable->rx_gain_range_max;
++
++	if(pDigTable->CurIGValue < pDigTable->rx_gain_range_min)
++		pDigTable->CurIGValue = pDigTable->rx_gain_range_min;
++	
++	printk("%s ==> FalseAlmCnt->Cnt_all:%d CurIGValue:0x%02x \n",__FUNCTION__,pFalseAlmCnt->Cnt_all ,pDigTable->CurIGValue);		 
++}
++
++static VOID 
++dm_initial_gain_STA(
++	IN	PADAPTER	pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	DIG_T	*pDigTable = &pdmpriv->DM_DigTable;
++	
++	//RT_TRACE(	COMP_DIG, DBG_LOUD, ("PreSTAConnectState = %x, CurSTAConnectState = %x\n", 
++	//			DM_DigTable.PreSTAConnectState, DM_DigTable.CurSTAConnectState));
++
++
++	if(pDigTable->PreSTAConnectState == pDigTable->CurSTAConnectState||
++	   pDigTable->CurSTAConnectState == DIG_STA_BEFORE_CONNECT ||
++	   pDigTable->CurSTAConnectState == DIG_STA_CONNECT)
++	{
++		// beforeconnect -> beforeconnect or  connect -> connect
++		// (dis)connect -> beforeconnect
++		// disconnect -> connecct or beforeconnect -> connect
++		if(pDigTable->CurSTAConnectState != DIG_STA_DISCONNECT)
++		{
++			pDigTable->Rssi_val_min = dm_initial_gain_MinPWDB(pAdapter);
++			dm_CtrlInitGainByRssi(pAdapter);
++		}	
++#if 0
++		else if((wdev_to_priv(pAdapter->rtw_wdev))->p2p_enabled == _TRUE 
++				&& pAdapter->wdinfo.driver_interface == DRIVER_CFG80211)
++		{
++			//pDigTable->CurIGValue = 0x30;
++			DM_Write_DIG(pAdapter);
++		}
++#endif
++		else{ // pDigTable->CurSTAConnectState == DIG_STA_DISCONNECT 
++		#ifdef CONFIG_BEFORE_LINKED_DIG
++			//printk("%s==> ##1 CurIGI(0x%02x),PreIGValue(0x%02x) \n",__FUNCTION__,pDigTable->CurIGValue,pDigTable->PreIGValue );
++			dm_initial_gain_STA_beforelinked(pAdapter);
++			DM_Write_DIG(pAdapter);
++		#endif //CONFIG_BEFORE_LINKED_DIG
++		}
++	}
++	else	
++	{		
++		// connect -> disconnect or beforeconnect -> disconnect
++		pDigTable->Rssi_val_min = 0;
++		pDigTable->Dig_Ext_Port_Stage = DIG_EXT_PORT_STAGE_MAX;
++		pDigTable->BackoffVal = DM_DIG_BACKOFF_DEFAULT;
++		pDigTable->CurIGValue = 0x20;
++		pDigTable->PreIGValue = 0;	
++		#ifdef CONFIG_BEFORE_LINKED_DIG			
++		//printk("%s==> ##2 CurIGI(0x%02x),PreIGValue(0x%02x) \n",__FUNCTION__,pDigTable->CurIGValue,pDigTable->PreIGValue );	
++		dm_initial_gain_STA_beforelinked(pAdapter);			 
++ 		#endif //CONFIG_BEFORE_LINKED_DIG
++		
++
++		DM_Write_DIG(pAdapter);
++	}
++
++}
++
++
++static void dm_CCK_PacketDetectionThresh(
++	IN	PADAPTER	pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	PFALSE_ALARM_STATISTICS FalseAlmCnt = &(pdmpriv->FalseAlmCnt);
++	DIG_T	*pDigTable = &pdmpriv->DM_DigTable;
++
++	if(pDigTable->CurSTAConnectState == DIG_STA_CONNECT)
++	{
++		pDigTable->Rssi_val_min = dm_initial_gain_MinPWDB(pAdapter);
++		if(pDigTable->PreCCKPDState == CCK_PD_STAGE_LowRssi)
++		{
++			if(pDigTable->Rssi_val_min <= 25)
++				pDigTable->CurCCKPDState = CCK_PD_STAGE_LowRssi;
++			else
++				pDigTable->CurCCKPDState = CCK_PD_STAGE_HighRssi;
++		}
++		else{
++			if(pDigTable->Rssi_val_min <= 20)
++				pDigTable->CurCCKPDState = CCK_PD_STAGE_LowRssi;
++			else
++				pDigTable->CurCCKPDState = CCK_PD_STAGE_HighRssi;
++		}
++	}
++	else
++		pDigTable->CurCCKPDState=CCK_PD_STAGE_MAX;
++	
++	if(pDigTable->PreCCKPDState != pDigTable->CurCCKPDState)
++	{
++		if((pDigTable->CurCCKPDState == CCK_PD_STAGE_LowRssi)||
++			(pDigTable->CurCCKPDState == CCK_PD_STAGE_MAX))
++		{
++			PHY_SetBBReg(pAdapter, rCCK0_CCA, bMaskByte2, 0x83);
++				
++			//PHY_SetBBReg(pAdapter, rCCK0_System, bMaskByte1, 0x40);
++			//if(IS_92C_SERIAL(pHalData->VersionID))
++				//PHY_SetBBReg(pAdapter, rCCK0_FalseAlarmReport , bMaskByte2, 0xd7);
++		}
++		else
++		{
++			PHY_SetBBReg(pAdapter, rCCK0_CCA, bMaskByte2, 0xcd);
++			//PHY_SetBBReg(pAdapter,rCCK0_System, bMaskByte1, 0x47);
++			//if(IS_92C_SERIAL(pHalData->VersionID))
++				//PHY_SetBBReg(pAdapter, rCCK0_FalseAlarmReport , bMaskByte2, 0xd3);
++		}
++
++		pDigTable->PreCCKPDState = pDigTable->CurCCKPDState;
++	}
++	
++	//RT_TRACE(	COMP_DIG, DBG_LOUD, ("CCKPDStage=%x\n",pDigTable->CurCCKPDState));
++	//RT_TRACE(	COMP_DIG, DBG_LOUD, ("is92C=%x\n",IS_92C_SERIAL(pHalData->VersionID)));
++	
++}
++
++
++static	void
++dm_CtrlInitGainByTwoPort(
++	IN	PADAPTER	pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	struct mlme_priv	*pmlmepriv = &(pAdapter->mlmepriv);
++	DIG_T	*pDigTable = &pdmpriv->DM_DigTable;
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE)
++	{
++#ifdef CONFIG_IOCTL_CFG80211
++		if((wdev_to_priv(pAdapter->rtw_wdev))->p2p_enabled == _TRUE)
++		{
++		}
++		else
++#endif
++			return;
++	}
++
++	// Decide the current status and if modify initial gain or not
++	if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE)
++	{
++		pDigTable->CurSTAConnectState = DIG_STA_BEFORE_CONNECT;
++	}
++	else if(check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) 
++	{
++		pDigTable->CurSTAConnectState = DIG_STA_CONNECT;
++	}	
++	else
++	{
++		pDigTable->CurSTAConnectState = DIG_STA_DISCONNECT;
++	}
++	
++
++	pDigTable->CurMultiSTAConnectState = DIG_MultiSTA_DISCONNECT;
++	if(check_fwstate(pmlmepriv, WIFI_ADHOC_STATE|WIFI_ADHOC_MASTER_STATE) == _TRUE)
++	{
++		if((is_IBSS_empty(pAdapter)==_FAIL) && (pAdapter->stapriv.asoc_sta_count > 2))
++			pDigTable->CurMultiSTAConnectState = DIG_MultiSTA_CONNECT;
++	}
++	
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++	{
++		if(pAdapter->stapriv.asoc_sta_count > 2)
++			pDigTable->CurMultiSTAConnectState = DIG_MultiSTA_CONNECT;					
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if(check_buddy_fwstate(pAdapter, WIFI_AP_STATE) == _TRUE)
++	{
++		PADAPTER pbuddy_adapter = pAdapter->pbuddy_adapter;
++		
++		if(pbuddy_adapter->stapriv.asoc_sta_count > 2)
++		{
++			pDigTable->CurSTAConnectState = DIG_STA_CONNECT;
++			pDigTable->CurMultiSTAConnectState = DIG_MultiSTA_CONNECT;	
++		}	
++	}	
++	else if(check_buddy_fwstate(pAdapter, WIFI_STATION_STATE) == _TRUE	&& 
++		check_buddy_fwstate(pAdapter, _FW_LINKED) == _TRUE)
++	{
++		pDigTable->CurSTAConnectState = DIG_STA_CONNECT;
++
++	}
++#endif //CONFIG_CONCURRENT_MODE
++
++
++	dm_initial_gain_STA(pAdapter);
++	dm_initial_gain_Multi_STA(pAdapter);
++	//Baron temp DIG solution for DMP
++	//dm_CtrlInitGainByFA(pAdapter);
++
++	dm_CCK_PacketDetectionThresh(pAdapter);
++
++	pDigTable->PreSTAConnectState = pDigTable->CurSTAConnectState;
++	
++}
++
++
++static void dm_DIG(
++	IN	PADAPTER	pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	DIG_T	*pDigTable = &pdmpriv->DM_DigTable;
++
++	//Read 0x0c50; Initial gain
++	pDigTable->PreIGValue = (u8)PHY_QueryBBReg(pAdapter, rOFDM0_XAAGCCore1, bMaskByte0);
++
++	//RTPRINT(FDM, DM_Monitor, ("dm_DIG() ==>\n"));
++	
++	if(pdmpriv->bDMInitialGainEnable == _FALSE)
++		return;
++	
++	//if(pDigTable->Dig_Enable_Flag == _FALSE)
++	//	return;
++	
++	if(!(pdmpriv->DMFlag & DYNAMIC_FUNC_DIG))
++		return;
++	
++	//RTPRINT(FDM, DM_Monitor, ("dm_DIG() progress \n"));
++
++	dm_CtrlInitGainByTwoPort(pAdapter);
++	
++	//RTPRINT(FDM, DM_Monitor, ("dm_DIG() <==\n"));
++}
++
++static void dm_SavePowerIndex(IN	PADAPTER	Adapter)
++{
++	u8			index;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	u32			Power_Index_REG[6] = {0xc90, 0xc91, 0xc92, 0xc98, 0xc99, 0xc9a};
++	
++	for(index = 0; index< 6; index++)
++		pdmpriv->PowerIndex_backup[index] = rtw_read8(Adapter, Power_Index_REG[index]);
++}
++
++static void dm_RestorePowerIndex(IN	PADAPTER	Adapter)
++{
++	u8			index;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	u32			Power_Index_REG[6] = {0xc90, 0xc91, 0xc92, 0xc98, 0xc99, 0xc9a};
++	
++	for(index = 0; index< 6; index++)
++		rtw_write8(Adapter, Power_Index_REG[index], pdmpriv->PowerIndex_backup[index]);
++}
++
++static void dm_WritePowerIndex(
++		IN	PADAPTER	Adapter, 
++		IN 	u8		Value)
++{
++	u8			index;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u32			Power_Index_REG[6] = {0xc90, 0xc91, 0xc92, 0xc98, 0xc99, 0xc9a};
++	
++	for(index = 0; index< 6; index++)
++		rtw_write8(Adapter, Power_Index_REG[index], Value);
++}
++
++static void dm_InitDynamicTxPower(IN	PADAPTER	Adapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++
++#ifdef CONFIG_USB_HCI
++#ifdef CONFIG_INTEL_PROXIM
++	if((pHalData->BoardType == BOARD_USB_High_PA)||(Adapter->proximity.proxim_support==_TRUE))
++#else
++	if(pHalData->BoardType == BOARD_USB_High_PA)
++#endif
++	{
++		dm_SavePowerIndex(Adapter);
++		pdmpriv->bDynamicTxPowerEnable = _TRUE;
++	}		
++	else	
++#else
++		pdmpriv->bDynamicTxPowerEnable = _FALSE;
++#endif
++
++	pdmpriv->LastDTPLvl = TxHighPwrLevel_Normal;
++	pdmpriv->DynamicTxHighPowerLvl = TxHighPwrLevel_Normal;
++}
++
++
++static void dm_DynamicTxPower(IN	PADAPTER	Adapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	int	UndecoratedSmoothedPWDB;
++
++	if(!pdmpriv->bDynamicTxPowerEnable)
++		return;
++
++	// If dynamic high power is disabled.
++	if(!(pdmpriv->DMFlag & DYNAMIC_FUNC_HP) )
++	{
++		pdmpriv->DynamicTxHighPowerLvl = TxHighPwrLevel_Normal;
++		return;
++	}
++
++	// STA not connected and AP not connected
++	if((check_fwstate(pmlmepriv, _FW_LINKED) != _TRUE) &&	
++		(pdmpriv->EntryMinUndecoratedSmoothedPWDB == 0))
++	{
++		//RT_TRACE(COMP_HIPWR, DBG_LOUD, ("Not connected to any \n"));
++		pdmpriv->DynamicTxHighPowerLvl = TxHighPwrLevel_Normal;
++
++		//the LastDTPlvl should reset when disconnect, 
++		//otherwise the tx power level wouldn't change when disconnect and connect again.
++		// Maddest 20091220.
++		pdmpriv->LastDTPLvl=TxHighPwrLevel_Normal;
++		return;
++	}
++#ifdef CONFIG_INTEL_PROXIM
++	if(Adapter->proximity.proxim_on== _TRUE){
++		struct proximity_priv *prox_priv=Adapter->proximity.proximity_priv;
++	// Intel set fixed tx power 
++	printk("\n %s  Adapter->proximity.proxim_on=%d prox_priv->proxim_modeinfo->power_output=%d \n",__FUNCTION__,Adapter->proximity.proxim_on,prox_priv->proxim_modeinfo->power_output);
++	if(prox_priv!=NULL){
++	if(prox_priv->proxim_modeinfo->power_output> 0)
++	
++	{
++		switch(prox_priv->proxim_modeinfo->power_output){
++			case 1:
++				pdmpriv->DynamicTxHighPowerLvl  = TxHighPwrLevel_100;
++				printk("TxHighPwrLevel_100\n");
++				break;
++			case 2:
++				pdmpriv->DynamicTxHighPowerLvl  = TxHighPwrLevel_70;
++				printk("TxHighPwrLevel_70\n");
++				break;
++			case 3:
++				pdmpriv->DynamicTxHighPowerLvl  = TxHighPwrLevel_50;
++				printk("TxHighPwrLevel_50\n");
++				break;
++			case 4:
++				pdmpriv->DynamicTxHighPowerLvl  = TxHighPwrLevel_35;
++				printk("TxHighPwrLevel_35\n");
++				break;
++			case 5:
++				pdmpriv->DynamicTxHighPowerLvl  = TxHighPwrLevel_15;
++				printk("TxHighPwrLevel_15\n");
++				break;
++			default:
++				pdmpriv->DynamicTxHighPowerLvl = TxHighPwrLevel_100;
++				printk("TxHighPwrLevel_100\n");
++				break;
++		}		
++	}
++	}
++	}
++	else
++#endif		
++{
++	if(check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)	// Default port
++	{
++		//todo: AP Mode
++		if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) ||
++		       (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE))
++		{
++			UndecoratedSmoothedPWDB = pdmpriv->EntryMinUndecoratedSmoothedPWDB;
++			//RT_TRACE(COMP_HIPWR, DBG_LOUD, ("AP Client PWDB = 0x%x \n", UndecoratedSmoothedPWDB));
++		}
++		else
++		{
++			UndecoratedSmoothedPWDB = pdmpriv->UndecoratedSmoothedPWDB;
++			//RT_TRACE(COMP_HIPWR, DBG_LOUD, ("STA Default Port PWDB = 0x%x \n", UndecoratedSmoothedPWDB));
++		}
++	}
++	else // associated entry pwdb
++	{	
++		UndecoratedSmoothedPWDB = pdmpriv->EntryMinUndecoratedSmoothedPWDB;
++		//RT_TRACE(COMP_HIPWR, DBG_LOUD, ("AP Ext Port PWDB = 0x%x \n", UndecoratedSmoothedPWDB));
++	}
++		
++	if(UndecoratedSmoothedPWDB >= TX_POWER_NEAR_FIELD_THRESH_LVL2)
++	{
++		pdmpriv->DynamicTxHighPowerLvl = TxHighPwrLevel_Level2;
++		//RT_TRACE(COMP_HIPWR, DBG_LOUD, ("TxHighPwrLevel_Level1 (TxPwr=0x0)\n"));
++	}
++	else if((UndecoratedSmoothedPWDB < (TX_POWER_NEAR_FIELD_THRESH_LVL2-3)) &&
++		(UndecoratedSmoothedPWDB >= TX_POWER_NEAR_FIELD_THRESH_LVL1) )
++	{
++		pdmpriv->DynamicTxHighPowerLvl = TxHighPwrLevel_Level1;
++		//RT_TRACE(COMP_HIPWR, DBG_LOUD, ("TxHighPwrLevel_Level1 (TxPwr=0x10)\n"));
++	}
++	else if(UndecoratedSmoothedPWDB < (TX_POWER_NEAR_FIELD_THRESH_LVL1-5))
++	{
++		pdmpriv->DynamicTxHighPowerLvl = TxHighPwrLevel_Normal;
++		//RT_TRACE(COMP_HIPWR, DBG_LOUD, ("TxHighPwrLevel_Normal\n"));
++	}
++}
++	if( (pdmpriv->DynamicTxHighPowerLvl != pdmpriv->LastDTPLvl) )
++	{
++		PHY_SetTxPowerLevel8192C(Adapter, pHalData->CurrentChannel);
++		if(pdmpriv->DynamicTxHighPowerLvl == TxHighPwrLevel_Normal) // HP1 -> Normal  or HP2 -> Normal
++			dm_RestorePowerIndex(Adapter);
++		else if(pdmpriv->DynamicTxHighPowerLvl == TxHighPwrLevel_Level1)
++			dm_WritePowerIndex(Adapter, 0x14);
++		else if(pdmpriv->DynamicTxHighPowerLvl == TxHighPwrLevel_Level2)
++			dm_WritePowerIndex(Adapter, 0x10);
++	}
++	pdmpriv->LastDTPLvl = pdmpriv->DynamicTxHighPowerLvl;
++	
++}
++
++
++static VOID
++DM_ChangeDynamicInitGainThresh(
++	IN	PADAPTER	pAdapter,
++	IN	u32		DM_Type,
++	IN	u32		DM_Value)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	DIG_T	*pDigTable = &pdmpriv->DM_DigTable;
++
++	if (DM_Type == DIG_TYPE_THRESH_HIGH)
++	{
++		pDigTable->RssiHighThresh = DM_Value;		
++	}
++	else if (DM_Type == DIG_TYPE_THRESH_LOW)
++	{
++		pDigTable->RssiLowThresh = DM_Value;
++	}
++	else if (DM_Type == DIG_TYPE_ENABLE)
++	{
++		pDigTable->Dig_Enable_Flag = _TRUE;
++	}	
++	else if (DM_Type == DIG_TYPE_DISABLE)
++	{
++		pDigTable->Dig_Enable_Flag = _FALSE;
++	}	
++	else if (DM_Type == DIG_TYPE_BACKOFF)
++	{
++		if(DM_Value > 30)
++			DM_Value = 30;
++		pDigTable->BackoffVal = (u8)DM_Value;
++	}
++	else if(DM_Type == DIG_TYPE_RX_GAIN_MIN)
++	{
++		if(DM_Value == 0)
++			DM_Value = 0x1;
++		pDigTable->rx_gain_range_min = (u8)DM_Value;
++	}
++	else if(DM_Type == DIG_TYPE_RX_GAIN_MAX)
++	{
++		if(DM_Value > 0x50)
++			DM_Value = 0x50;
++		pDigTable->rx_gain_range_max = (u8)DM_Value;
++	}
++}	/* DM_ChangeDynamicInitGainThresh */
++
++
++static VOID PWDB_Monitor(
++	IN	PADAPTER	Adapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	int	i;
++	int	tmpEntryMaxPWDB=0, tmpEntryMinPWDB=0xff;
++	u8 	sta_cnt=0;
++	u32 PWDB_rssi[NUM_STA]={0};//[0~15]:MACID, [16~31]:PWDB_rssi
++
++	if(check_fwstate(&Adapter->mlmepriv, _FW_LINKED) != _TRUE)
++		return;
++
++
++	if(check_fwstate(&Adapter->mlmepriv, WIFI_AP_STATE|WIFI_ADHOC_STATE|WIFI_ADHOC_MASTER_STATE) == _TRUE)
++	{
++		_irqL irqL;
++		_list	*plist, *phead;
++		struct sta_info *psta;
++		struct sta_priv *pstapriv = &Adapter->stapriv;
++		u8 bcast_addr[ETH_ALEN]= {0xff,0xff,0xff,0xff,0xff,0xff};
++	
++		_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++		for(i=0; i< NUM_STA; i++)
++		{
++			phead = &(pstapriv->sta_hash[i]);
++			plist = get_next(phead);
++		
++			while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
++			{
++				psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++
++				plist = get_next(plist);
++
++				if(_rtw_memcmp(psta	->hwaddr, bcast_addr, ETH_ALEN) || 
++					_rtw_memcmp(psta->hwaddr, myid(&Adapter->eeprompriv), ETH_ALEN))
++					continue;
++
++				if(psta->state & WIFI_ASOC_STATE)
++				{
++					
++					if(psta->rssi_stat.UndecoratedSmoothedPWDB < tmpEntryMinPWDB)
++						tmpEntryMinPWDB = psta->rssi_stat.UndecoratedSmoothedPWDB;
++
++					if(psta->rssi_stat.UndecoratedSmoothedPWDB > tmpEntryMaxPWDB)
++						tmpEntryMaxPWDB = psta->rssi_stat.UndecoratedSmoothedPWDB;
++
++					PWDB_rssi[sta_cnt++] = (psta->mac_id | (psta->rssi_stat.UndecoratedSmoothedPWDB<<16));
++				}
++			
++			}
++
++		}
++	
++		_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++
++		
++		if(pHalData->fw_ractrl == _TRUE)
++		{
++			// Report every sta's RSSI to FW
++			for(i=0; i< sta_cnt; i++)
++			{
++				rtl8192c_set_rssi_cmd(Adapter, (u8*)&PWDB_rssi[i]);
++			}
++		}
++
++	}
++
++
++
++	if(tmpEntryMaxPWDB != 0)	// If associated entry is found
++	{
++		pdmpriv->EntryMaxUndecoratedSmoothedPWDB = tmpEntryMaxPWDB;		
++	}
++	else
++	{
++		pdmpriv->EntryMaxUndecoratedSmoothedPWDB = 0;
++	}
++	
++	if(tmpEntryMinPWDB != 0xff) // If associated entry is found
++	{
++		pdmpriv->EntryMinUndecoratedSmoothedPWDB = tmpEntryMinPWDB;		
++	}
++	else
++	{
++		pdmpriv->EntryMinUndecoratedSmoothedPWDB = 0;
++	}
++
++
++	if(check_fwstate(&Adapter->mlmepriv, WIFI_STATION_STATE) == _TRUE)
++	{
++	
++		if(pHalData->fw_ractrl == _TRUE)
++		{
++			u32 param = (u32)(pdmpriv->UndecoratedSmoothedPWDB<<16);
++		
++			param |= 0;//macid=0 for sta mode;
++			
++			rtl8192c_set_rssi_cmd(Adapter, (u8*)&param);
++		}
++	}
++
++}
++
++
++static void
++DM_InitEdcaTurbo(
++	IN	PADAPTER	Adapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	pHalData->bCurrentTurboEDCA = _FALSE;
++	Adapter->recvpriv.bIsAnyNonBEPkts = _FALSE;
++
++}
++
++
++static void
++dm_CheckEdcaTurbo(
++	IN	PADAPTER	Adapter
++	)
++{
++	u32 	trafficIndex;
++	u32	edca_param;
++	u64	cur_tx_bytes = 0;
++	u64	cur_rx_bytes = 0;
++	u8	bbtchange = _FALSE;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv		*pdmpriv = &pHalData->dmpriv;
++	struct xmit_priv		*pxmitpriv = &(Adapter->xmitpriv);
++	struct recv_priv		*precvpriv = &(Adapter->recvpriv);
++	struct registry_priv	*pregpriv = &Adapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &(Adapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++#ifdef CONFIG_BT_COEXIST
++	struct btcoexist_priv	*pbtpriv = &(pHalData->bt_coexist);	
++#endif
++
++
++	if ((pregpriv->wifi_spec == 1) || (pmlmeinfo->HT_enable == 0))
++	{
++		goto dm_CheckEdcaTurbo_EXIT;
++	}
++
++	if (pmlmeinfo->assoc_AP_vendor >= maxAP)
++	{
++		goto dm_CheckEdcaTurbo_EXIT;
++	}
++
++#ifdef CONFIG_BT_COEXIST
++	if(pbtpriv->BT_Coexist)
++	{
++		if( (pbtpriv->BT_EDCA[UP_LINK]!=0) ||  (pbtpriv->BT_EDCA[DOWN_LINK]!=0))
++		{
++			bbtchange = _TRUE;		
++		}
++	}
++#endif
++
++	// Check if the status needs to be changed.
++	if((bbtchange) || (!precvpriv->bIsAnyNonBEPkts) )
++	{
++		cur_tx_bytes = pxmitpriv->tx_bytes - pxmitpriv->last_tx_bytes;
++		cur_rx_bytes = precvpriv->rx_bytes - precvpriv->last_rx_bytes;
++
++		//traffic, TX or RX
++		if((pmlmeinfo->assoc_AP_vendor == ralinkAP)||(pmlmeinfo->assoc_AP_vendor == atherosAP))
++		{
++			if (cur_tx_bytes > (cur_rx_bytes << 2))
++			{ // Uplink TP is present.
++				trafficIndex = UP_LINK; 
++			}
++			else
++			{ // Balance TP is present.
++				trafficIndex = DOWN_LINK;
++			}
++		}
++		else
++		{
++			if (cur_rx_bytes > (cur_tx_bytes << 2))
++			{ // Downlink TP is present.
++				trafficIndex = DOWN_LINK;
++			}
++			else
++			{ // Balance TP is present.
++				trafficIndex = UP_LINK;
++			}
++		}
++
++		if ((pdmpriv->prv_traffic_idx != trafficIndex) || (!pHalData->bCurrentTurboEDCA))
++		{
++#ifdef CONFIG_BT_COEXIST
++			if(_TRUE == bbtchange)
++			{
++				edca_param = pbtpriv->BT_EDCA[trafficIndex];
++			}
++			else
++#endif
++			{
++#if 0
++				//adjust EDCA parameter for BE queue
++				edca_param = EDCAParam[pmlmeinfo->assoc_AP_vendor][trafficIndex];
++#else
++
++				if((pmlmeinfo->assoc_AP_vendor == ciscoAP) && (pmlmeext->cur_wireless_mode & WIRELESS_11_24N))
++				{
++					edca_param = EDCAParam[pmlmeinfo->assoc_AP_vendor][trafficIndex];
++				}
++				else
++				{
++					edca_param = EDCAParam[unknownAP][trafficIndex];
++				}
++#endif
++			}
++
++#ifdef CONFIG_PCI_HCI
++			if(IS_92C_SERIAL(pHalData->VersionID))
++			{
++				edca_param = 0x60a42b;
++			}
++			else
++			{
++				edca_param = 0x6ea42b;
++			}
++#endif
++			rtw_write32(Adapter, REG_EDCA_BE_PARAM, edca_param);
++
++			pdmpriv->prv_traffic_idx = trafficIndex;
++		}
++		
++		pHalData->bCurrentTurboEDCA = _TRUE;
++	}
++	else
++	{
++		//
++		// Turn Off EDCA turbo here.
++		// Restore original EDCA according to the declaration of AP.
++		//
++		 if(pHalData->bCurrentTurboEDCA)
++		{
++			rtw_write32(Adapter, REG_EDCA_BE_PARAM, pHalData->AcParam_BE);
++			pHalData->bCurrentTurboEDCA = _FALSE;
++		}
++	}
++
++dm_CheckEdcaTurbo_EXIT:
++	// Set variables for next time.
++	precvpriv->bIsAnyNonBEPkts = _FALSE;
++	pxmitpriv->last_tx_bytes = pxmitpriv->tx_bytes;
++	precvpriv->last_rx_bytes = precvpriv->rx_bytes;
++
++}
++
++#define DPK_DELTA_MAPPING_NUM	13
++#define index_mapping_HP_NUM		15
++
++static	VOID
++dm_TXPowerTrackingCallback_ThermalMeter_92C(
++            IN PADAPTER	Adapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	u8			ThermalValue = 0, delta, delta_LCK, delta_IQK, delta_HP, TimeOut = 100;
++	int 			ele_A, ele_D, TempCCk, X, value32;
++	int			Y, ele_C;
++	s8			OFDM_index[2], CCK_index = 0, OFDM_index_old[2], CCK_index_old = 0;
++	int			i = 0;
++	BOOLEAN		is2T = IS_92C_SERIAL(pHalData->VersionID);
++
++#if MP_DRIVER == 1
++	PMPT_CONTEXT	pMptCtx = &(Adapter->mppriv.MptCtx);	
++	u8			*TxPwrLevel = pMptCtx->TxPwrLevel;
++#endif
++	u8			OFDM_min_index = 6, rf; //OFDM BB Swing should be less than +3.0dB, which is required by Arthur
++#if 0
++	u32			DPK_delta_mapping[2][DPK_DELTA_MAPPING_NUM] = {
++					{0x1c, 0x1c, 0x1d, 0x1d, 0x1e, 
++					 0x1f, 0x00, 0x00, 0x01, 0x01,
++					 0x02, 0x02, 0x03},
++					{0x1c, 0x1d, 0x1e, 0x1e, 0x1e,
++					 0x1f, 0x00, 0x00, 0x01, 0x02,
++					 0x02, 0x03, 0x03}};
++#endif
++#ifdef CONFIG_USB_HCI
++	u8			ThermalValue_HP_count = 0;
++	u32			ThermalValue_HP = 0;
++	s32			index_mapping_HP[index_mapping_HP_NUM] = {
++					0,	1,	3,	4,	6,	
++					7,	9,	10,	12,	13,	
++					15,	16,	18,	19,	21
++					};
++
++	s8			index_HP;
++#endif
++
++	pdmpriv->TXPowerTrackingCallbackCnt++;	//cosa add for debug
++	pdmpriv->bTXPowerTrackingInit = _TRUE;
++
++	if(pHalData->CurrentChannel == 14 && !pdmpriv->bCCKinCH14)
++		pdmpriv->bCCKinCH14 = _TRUE;
++	else if(pHalData->CurrentChannel != 14 && pdmpriv->bCCKinCH14)
++		pdmpriv->bCCKinCH14 = _FALSE;
++
++	//DBG_8192C("===>dm_TXPowerTrackingCallback_ThermalMeter_92C\n");
++
++	ThermalValue = (u8)PHY_QueryRFReg(Adapter, RF_PATH_A, RF_T_METER, 0x1f);	// 0x24: RF Reg[4:0]	
++
++	//DBG_8192C("\n\nReadback Thermal Meter = 0x%x pre thermal meter 0x%x EEPROMthermalmeter 0x%x\n",ThermalValue,pdmpriv->ThermalValue,  pHalData->EEPROMThermalMeter);
++
++	rtl8192c_PHY_APCalibrate(Adapter, (ThermalValue - pHalData->EEPROMThermalMeter));
++
++	if(is2T)
++		rf = 2;
++	else
++		rf = 1;
++	
++	if(ThermalValue)
++	{
++//		if(!pHalData->ThermalValue)
++		{
++			//Query OFDM path A default setting 		
++			ele_D = PHY_QueryBBReg(Adapter, rOFDM0_XATxIQImbalance, bMaskDWord)&bMaskOFDM_D;
++			for(i=0; i<OFDM_TABLE_SIZE_92C; i++)	//find the index
++			{
++				if(ele_D == (OFDMSwingTable[i]&bMaskOFDM_D))
++				{
++					OFDM_index_old[0] = (u8)i;
++					//DBG_8192C("Initial pathA ele_D reg0x%x = 0x%x, OFDM_index=0x%x\n", rOFDM0_XATxIQImbalance, ele_D, OFDM_index_old[0]);
++					break;
++				}
++			}
++
++			//Query OFDM path B default setting 
++			if(is2T)
++			{
++				ele_D = PHY_QueryBBReg(Adapter, rOFDM0_XBTxIQImbalance, bMaskDWord)&bMaskOFDM_D;
++				for(i=0; i<OFDM_TABLE_SIZE_92C; i++)	//find the index
++				{
++					if(ele_D == (OFDMSwingTable[i]&bMaskOFDM_D))
++					{
++						OFDM_index_old[1] = (u8)i;
++						//DBG_8192C("Initial pathB ele_D reg0x%x = 0x%x, OFDM_index=0x%x\n",rOFDM0_XBTxIQImbalance, ele_D, OFDM_index_old[1]);
++						break;
++					}
++				}
++			}
++
++			//Query CCK default setting From 0xa24
++			TempCCk = PHY_QueryBBReg(Adapter, rCCK0_TxFilter2, bMaskDWord)&bMaskCCK;
++			for(i=0 ; i<CCK_TABLE_SIZE ; i++)
++			{
++				if(pdmpriv->bCCKinCH14)
++				{
++					if(_rtw_memcmp((void*)&TempCCk, (void*)&CCKSwingTable_Ch14[i][2], 4)==_TRUE)
++					{
++						CCK_index_old =(u8)i;
++						//DBG_8192C("Initial reg0x%x = 0x%x, CCK_index=0x%x, ch 14 %d\n", rCCK0_TxFilter2, TempCCk, CCK_index_old, pdmpriv->bCCKinCH14);
++						break;
++					}
++				}
++				else
++				{
++					if(_rtw_memcmp((void*)&TempCCk, (void*)&CCKSwingTable_Ch1_Ch13[i][2], 4)==_TRUE)
++					{
++						CCK_index_old =(u8)i;
++						//DBG_8192C("Initial reg0x%x = 0x%x, CCK_index=0x%x, ch14 %d\n", rCCK0_TxFilter2, TempCCk, CCK_index_old, pdmpriv->bCCKinCH14);
++						break;
++					}			
++				}
++			}	
++
++			if(!pdmpriv->ThermalValue)
++			{
++				pdmpriv->ThermalValue = pHalData->EEPROMThermalMeter;
++				pdmpriv->ThermalValue_LCK = ThermalValue;
++				pdmpriv->ThermalValue_IQK = ThermalValue;
++				pdmpriv->ThermalValue_DPK = pHalData->EEPROMThermalMeter;
++
++#ifdef CONFIG_USB_HCI
++				for(i = 0; i < rf; i++)
++					pdmpriv->OFDM_index_HP[i] = pdmpriv->OFDM_index[i] = OFDM_index_old[i];
++				pdmpriv->CCK_index_HP = pdmpriv->CCK_index = CCK_index_old;
++#else
++				for(i = 0; i < rf; i++)
++					pdmpriv->OFDM_index[i] = OFDM_index_old[i];
++				pdmpriv->CCK_index = CCK_index_old;
++#endif
++			}
++
++#ifdef CONFIG_USB_HCI
++			if(pHalData->BoardType == BOARD_USB_High_PA)
++			{
++				pdmpriv->ThermalValue_HP[pdmpriv->ThermalValue_HP_index] = ThermalValue;
++				pdmpriv->ThermalValue_HP_index++;
++				if(pdmpriv->ThermalValue_HP_index == HP_THERMAL_NUM)
++					pdmpriv->ThermalValue_HP_index = 0;
++
++				for(i = 0; i < HP_THERMAL_NUM; i++)
++				{
++					if(pdmpriv->ThermalValue_HP[i])
++					{
++						ThermalValue_HP += pdmpriv->ThermalValue_HP[i];
++						ThermalValue_HP_count++;
++					}			
++				}
++		
++				if(ThermalValue_HP_count)
++					ThermalValue = (u8)(ThermalValue_HP / ThermalValue_HP_count);
++			}
++#endif
++		}
++
++		delta = (ThermalValue > pdmpriv->ThermalValue)?(ThermalValue - pdmpriv->ThermalValue):(pdmpriv->ThermalValue - ThermalValue);
++#ifdef CONFIG_USB_HCI
++		if(pHalData->BoardType == BOARD_USB_High_PA)
++		{
++			if(pdmpriv->bDoneTxpower)
++				delta_HP = (ThermalValue > pdmpriv->ThermalValue)?(ThermalValue - pdmpriv->ThermalValue):(pdmpriv->ThermalValue - ThermalValue);
++			else
++				delta_HP = ThermalValue > pHalData->EEPROMThermalMeter?(ThermalValue - pHalData->EEPROMThermalMeter):(pHalData->EEPROMThermalMeter - ThermalValue);						
++		}
++		else
++#endif	
++		{
++			delta_HP = 0;			
++		}
++		delta_LCK = (ThermalValue > pdmpriv->ThermalValue_LCK)?(ThermalValue - pdmpriv->ThermalValue_LCK):(pdmpriv->ThermalValue_LCK - ThermalValue);
++		delta_IQK = (ThermalValue > pdmpriv->ThermalValue_IQK)?(ThermalValue - pdmpriv->ThermalValue_IQK):(pdmpriv->ThermalValue_IQK - ThermalValue);
++
++		//DBG_8192C("Readback Thermal Meter = 0x%lx pre thermal meter 0x%lx EEPROMthermalmeter 0x%lx delta 0x%lx delta_LCK 0x%lx delta_IQK 0x%lx\n", ThermalValue, pHalData->ThermalValue, pHalData->EEPROMThermalMeter, delta, delta_LCK, delta_IQK);
++
++		if(delta_LCK > 1)
++		{
++			pdmpriv->ThermalValue_LCK = ThermalValue;
++			rtl8192c_PHY_LCCalibrate(Adapter);
++		}
++		
++		if((delta > 0 || delta_HP > 0) && pdmpriv->TxPowerTrackControl)
++		{
++#ifdef CONFIG_USB_HCI
++			if(pHalData->BoardType == BOARD_USB_High_PA)
++			{
++				pdmpriv->bDoneTxpower = _TRUE;
++				delta_HP = ThermalValue > pHalData->EEPROMThermalMeter?(ThermalValue - pHalData->EEPROMThermalMeter):(pHalData->EEPROMThermalMeter - ThermalValue);						
++				
++				if(delta_HP > index_mapping_HP_NUM-1)					
++					index_HP = index_mapping_HP[index_mapping_HP_NUM-1];
++				else
++					index_HP = index_mapping_HP[delta_HP];
++				
++				if(ThermalValue > pHalData->EEPROMThermalMeter)	//set larger Tx power
++				{
++					for(i = 0; i < rf; i++)
++					 	OFDM_index[i] = pdmpriv->OFDM_index_HP[i] - index_HP;
++					CCK_index = pdmpriv->CCK_index_HP -index_HP;						
++				}
++				else
++				{
++					for(i = 0; i < rf; i++)
++						OFDM_index[i] = pdmpriv->OFDM_index_HP[i] + index_HP;
++					CCK_index = pdmpriv->CCK_index_HP + index_HP;						
++				}	
++				
++				delta_HP = (ThermalValue > pdmpriv->ThermalValue)?(ThermalValue - pdmpriv->ThermalValue):(pdmpriv->ThermalValue - ThermalValue);
++				
++			}
++			else
++#endif
++			{
++				if(ThermalValue > pdmpriv->ThermalValue)
++				{ 
++					for(i = 0; i < rf; i++)
++					 	pdmpriv->OFDM_index[i] -= delta;
++					pdmpriv->CCK_index -= delta;
++				}
++				else
++				{
++					for(i = 0; i < rf; i++)			
++						pdmpriv->OFDM_index[i] += delta;
++					pdmpriv->CCK_index += delta;
++				}
++			}
++
++			/*if(is2T)
++			{
++				DBG_8192C("temp OFDM_A_index=0x%x, OFDM_B_index=0x%x, CCK_index=0x%x\n", 
++					pdmpriv->OFDM_index[0], pdmpriv->OFDM_index[1], pdmpriv->CCK_index);
++			}
++			else
++			{
++				DBG_8192C("temp OFDM_A_index=0x%x, CCK_index=0x%x\n",
++					pdmpriv->OFDM_index[0], pdmpriv->CCK_index);
++			}*/
++
++			//no adjust
++#ifdef CONFIG_USB_HCI
++			if(pHalData->BoardType != BOARD_USB_High_PA)
++#endif
++			{
++				if(ThermalValue > pHalData->EEPROMThermalMeter)
++				{
++					for(i = 0; i < rf; i++)			
++						OFDM_index[i] = pdmpriv->OFDM_index[i]+1;
++					CCK_index = pdmpriv->CCK_index+1;			
++				}
++				else
++				{
++					for(i = 0; i < rf; i++)			
++						OFDM_index[i] = pdmpriv->OFDM_index[i];
++					CCK_index = pdmpriv->CCK_index;						
++				}
++
++#if MP_DRIVER == 1
++				for(i = 0; i < rf; i++)
++				{
++					if(TxPwrLevel[i] >=0 && TxPwrLevel[i] <=26)
++					{
++						if(ThermalValue > pHalData->EEPROMThermalMeter)
++						{
++							if (delta < 5)
++								OFDM_index[i] -= 1;					
++							else 
++								OFDM_index[i] -= 2;					
++						}
++						else if(delta > 5 && ThermalValue < pHalData->EEPROMThermalMeter)
++						{
++							OFDM_index[i] += 1;
++						}
++					}
++					else if (TxPwrLevel[i] >= 27 && TxPwrLevel[i] <= 32 && ThermalValue > pHalData->EEPROMThermalMeter)
++					{
++						if (delta < 5)
++							OFDM_index[i] -= 1;					
++						else 
++							OFDM_index[i] -= 2;								
++					}
++					else if (TxPwrLevel[i] >= 32 && TxPwrLevel[i] <= 38 && ThermalValue > pHalData->EEPROMThermalMeter && delta > 5)
++					{
++						OFDM_index[i] -= 1;								
++					}
++				}
++
++				{
++					if(TxPwrLevel[i] >=0 && TxPwrLevel[i] <=26)
++					{
++						if(ThermalValue > pHalData->EEPROMThermalMeter)
++						{
++							if (delta < 5)
++								CCK_index -= 1; 				
++							else 
++								CCK_index -= 2; 				
++						}
++						else if(delta > 5 && ThermalValue < pHalData->EEPROMThermalMeter)
++						{
++							CCK_index += 1;
++						}
++					}
++					else if (TxPwrLevel[i] >= 27 && TxPwrLevel[i] <= 32 && ThermalValue > pHalData->EEPROMThermalMeter)
++					{
++						if (delta < 5)
++							CCK_index -= 1; 				
++						else 
++							CCK_index -= 2; 							
++					}
++					else if (TxPwrLevel[i] >= 32 && TxPwrLevel[i] <= 38 && ThermalValue > pHalData->EEPROMThermalMeter && delta > 5)
++					{
++						CCK_index -= 1; 							
++					}
++				}
++#endif
++			}
++
++			for(i = 0; i < rf; i++)
++			{
++				if(OFDM_index[i] > (OFDM_TABLE_SIZE_92C-1))
++					OFDM_index[i] = (OFDM_TABLE_SIZE_92C-1);
++				else if (OFDM_index[i] < OFDM_min_index)
++					OFDM_index[i] = OFDM_min_index;
++			}
++						
++			if(CCK_index > (CCK_TABLE_SIZE-1))
++				CCK_index = (CCK_TABLE_SIZE-1);
++			else if (CCK_index < 0)
++				CCK_index = 0;		
++
++			/*if(is2T)
++			{
++				DBG_8192C("new OFDM_A_index=0x%x, OFDM_B_index=0x%x, CCK_index=0x%x\n", 
++					OFDM_index[0], OFDM_index[1], CCK_index);
++			}
++			else
++			{
++				DBG_8192C("new OFDM_A_index=0x%x, CCK_index=0x%x\n", 
++					OFDM_index[0], CCK_index);
++			}*/
++		}
++
++		if(pdmpriv->TxPowerTrackControl && (delta != 0 || delta_HP != 0))
++		{
++			//Adujst OFDM Ant_A according to IQK result
++			ele_D = (OFDMSwingTable[OFDM_index[0]] & 0xFFC00000)>>22;
++			X = pdmpriv->RegE94;
++			Y = pdmpriv->RegE9C;		
++
++			if(X != 0)
++			{
++				if ((X & 0x00000200) != 0)
++					X = X | 0xFFFFFC00;
++				ele_A = ((X * ele_D)>>8)&0x000003FF;
++					
++				//new element C = element D x Y
++				if ((Y & 0x00000200) != 0)
++					Y = Y | 0xFFFFFC00;
++				ele_C = ((Y * ele_D)>>8)&0x000003FF;
++				
++				//wirte new elements A, C, D to regC80 and regC94, element B is always 0
++				value32 = (ele_D<<22)|((ele_C&0x3F)<<16)|ele_A;
++				PHY_SetBBReg(Adapter, rOFDM0_XATxIQImbalance, bMaskDWord, value32);
++				
++				value32 = (ele_C&0x000003C0)>>6;
++				PHY_SetBBReg(Adapter, rOFDM0_XCTxAFE, bMaskH4Bits, value32);
++
++				value32 = ((X * ele_D)>>7)&0x01;
++				PHY_SetBBReg(Adapter, rOFDM0_ECCAThreshold, BIT31, value32);
++
++				value32 = ((Y * ele_D)>>7)&0x01;
++				PHY_SetBBReg(Adapter, rOFDM0_ECCAThreshold, BIT29, value32);
++
++			}
++			else
++			{
++				PHY_SetBBReg(Adapter, rOFDM0_XATxIQImbalance, bMaskDWord, OFDMSwingTable[OFDM_index[0]]);				
++				PHY_SetBBReg(Adapter, rOFDM0_XCTxAFE, bMaskH4Bits, 0x00);
++				PHY_SetBBReg(Adapter, rOFDM0_ECCAThreshold, BIT31|BIT29, 0x00);
++			}
++
++			//RTPRINT(FINIT, INIT_IQK, ("TxPwrTracking path A: X = 0x%x, Y = 0x%x ele_A = 0x%x ele_C = 0x%x ele_D = 0x%x\n", X, Y, ele_A, ele_C, ele_D));		
++
++			//Adjust CCK according to IQK result
++			if(!pdmpriv->bCCKinCH14){
++				rtw_write8(Adapter, 0xa22, CCKSwingTable_Ch1_Ch13[CCK_index][0]);
++				rtw_write8(Adapter, 0xa23, CCKSwingTable_Ch1_Ch13[CCK_index][1]);
++				rtw_write8(Adapter, 0xa24, CCKSwingTable_Ch1_Ch13[CCK_index][2]);
++				rtw_write8(Adapter, 0xa25, CCKSwingTable_Ch1_Ch13[CCK_index][3]);
++				rtw_write8(Adapter, 0xa26, CCKSwingTable_Ch1_Ch13[CCK_index][4]);
++				rtw_write8(Adapter, 0xa27, CCKSwingTable_Ch1_Ch13[CCK_index][5]);
++				rtw_write8(Adapter, 0xa28, CCKSwingTable_Ch1_Ch13[CCK_index][6]);
++				rtw_write8(Adapter, 0xa29, CCKSwingTable_Ch1_Ch13[CCK_index][7]);
++			}
++			else{
++				rtw_write8(Adapter, 0xa22, CCKSwingTable_Ch14[CCK_index][0]);
++				rtw_write8(Adapter, 0xa23, CCKSwingTable_Ch14[CCK_index][1]);
++				rtw_write8(Adapter, 0xa24, CCKSwingTable_Ch14[CCK_index][2]);
++				rtw_write8(Adapter, 0xa25, CCKSwingTable_Ch14[CCK_index][3]);
++				rtw_write8(Adapter, 0xa26, CCKSwingTable_Ch14[CCK_index][4]);
++				rtw_write8(Adapter, 0xa27, CCKSwingTable_Ch14[CCK_index][5]);
++				rtw_write8(Adapter, 0xa28, CCKSwingTable_Ch14[CCK_index][6]);
++				rtw_write8(Adapter, 0xa29, CCKSwingTable_Ch14[CCK_index][7]);	
++			}		
++
++			if(is2T)
++			{						
++				ele_D = (OFDMSwingTable[(u8)OFDM_index[1]] & 0xFFC00000)>>22;
++				
++				//new element A = element D x X
++				X = pdmpriv->RegEB4;
++				Y = pdmpriv->RegEBC;
++				
++				if(X != 0){
++					if ((X & 0x00000200) != 0)	//consider minus
++						X = X | 0xFFFFFC00;
++					ele_A = ((X * ele_D)>>8)&0x000003FF;
++					
++					//new element C = element D x Y
++					if ((Y & 0x00000200) != 0)
++						Y = Y | 0xFFFFFC00;
++					ele_C = ((Y * ele_D)>>8)&0x00003FF;
++					
++					//wirte new elements A, C, D to regC88 and regC9C, element B is always 0
++					value32=(ele_D<<22)|((ele_C&0x3F)<<16) |ele_A;
++					PHY_SetBBReg(Adapter, rOFDM0_XBTxIQImbalance, bMaskDWord, value32);
++
++					value32 = (ele_C&0x000003C0)>>6;
++					PHY_SetBBReg(Adapter, rOFDM0_XDTxAFE, bMaskH4Bits, value32);	
++
++					value32 = ((X * ele_D)>>7)&0x01;
++					PHY_SetBBReg(Adapter, rOFDM0_ECCAThreshold, BIT27, value32);
++
++					value32 = ((Y * ele_D)>>7)&0x01;
++					PHY_SetBBReg(Adapter, rOFDM0_ECCAThreshold, BIT25, value32);
++
++				}
++				else{
++					PHY_SetBBReg(Adapter, rOFDM0_XBTxIQImbalance, bMaskDWord, OFDMSwingTable[OFDM_index[1]]);										
++					PHY_SetBBReg(Adapter, rOFDM0_XDTxAFE, bMaskH4Bits, 0x00);
++					PHY_SetBBReg(Adapter, rOFDM0_ECCAThreshold, BIT27|BIT25, 0x00);
++				}
++
++				//DBG_8192C("TxPwrTracking path B: X = 0x%x, Y = 0x%x ele_A = 0x%x ele_C = 0x%x ele_D = 0x%x\n", X, Y, ele_A, ele_C, ele_D);
++			}
++
++			/*
++			DBG_8192C("TxPwrTracking 0xc80 = 0x%x, 0xc94 = 0x%x RF 0x24 = 0x%x\n", \
++					PHY_QueryBBReg(Adapter, 0xc80, bMaskDWord),\
++					PHY_QueryBBReg(Adapter, 0xc94, bMaskDWord), \
++					PHY_QueryRFReg(Adapter, RF_PATH_A, 0x24, bMaskDWord));
++			*/
++		}
++
++#if MP_DRIVER == 1
++		if(delta_IQK > 1)
++#else
++		if(delta_IQK > 3)
++#endif
++		{
++			pdmpriv->ThermalValue_IQK = ThermalValue;
++			rtl8192c_PHY_IQCalibrate(Adapter,_FALSE);
++		}
++
++		//update thermal meter value
++		if(pdmpriv->TxPowerTrackControl)
++			pdmpriv->ThermalValue = ThermalValue;
++
++	}
++
++	//DBG_8192C("<===dm_TXPowerTrackingCallback_ThermalMeter_92C\n");
++	
++	pdmpriv->TXPowercount = 0;
++
++}
++
++
++static	VOID
++dm_InitializeTXPowerTracking_ThermalMeter(
++	IN	PADAPTER		Adapter)
++{	
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++
++	//pMgntInfo->bTXPowerTracking = _TRUE;
++	pdmpriv->TXPowercount = 0;
++	pdmpriv->bTXPowerTrackingInit = _FALSE;
++	pdmpriv->ThermalValue = 0;
++	
++#if	(MP_DRIVER != 1)	//for mp driver, turn off txpwrtracking as default
++	pdmpriv->TxPowerTrackControl = _TRUE;
++#endif
++	
++	MSG_8192C("pdmpriv->TxPowerTrackControl = %d\n", pdmpriv->TxPowerTrackControl);
++}
++
++
++static VOID
++DM_InitializeTXPowerTracking(
++	IN	PADAPTER		Adapter)
++{
++	dm_InitializeTXPowerTracking_ThermalMeter(Adapter);	
++}	
++
++//
++//	Description:
++//		- Dispatch TxPower Tracking direct call ONLY for 92s.
++//		- We shall NOT schedule Workitem within PASSIVE LEVEL, which will cause system resource
++//		   leakage under some platform.
++//
++//	Assumption:
++//		PASSIVE_LEVEL when this routine is called.
++//
++//	Added by Roger, 2009.06.18.
++//
++static VOID
++DM_TXPowerTracking92CDirectCall(
++            IN	PADAPTER		Adapter)
++{	
++	dm_TXPowerTrackingCallback_ThermalMeter_92C(Adapter);
++}
++
++static VOID
++dm_CheckTXPowerTracking_ThermalMeter(
++	IN	PADAPTER		Adapter)
++{	
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	//u1Byte					TxPowerCheckCnt = 5;	//10 sec
++
++	//if(!pMgntInfo->bTXPowerTracking /*|| (!pdmpriv->TxPowerTrackControl && pdmpriv->bAPKdone)*/)
++	if(!(pdmpriv->DMFlag & DYNAMIC_FUNC_SS))
++	{
++		return;
++	}
++
++	if(!pdmpriv->TM_Trigger)		//at least delay 1 sec
++	{
++		//pHalData->TxPowerCheckCnt++;	//cosa add for debug
++		PHY_SetRFReg(Adapter, RF_PATH_A, RF_T_METER, bRFRegOffsetMask, 0x60);
++		//DBG_8192C("Trigger 92C Thermal Meter!!\n");
++		
++		pdmpriv->TM_Trigger = 1;
++		return;
++		
++	}
++	else
++	{
++		//DBG_8192C("Schedule TxPowerTracking direct call!!\n");
++		DM_TXPowerTracking92CDirectCall(Adapter); //Using direct call is instead, added by Roger, 2009.06.18.
++		pdmpriv->TM_Trigger = 0;
++	}
++
++}
++
++
++VOID
++rtl8192c_dm_CheckTXPowerTracking(
++	IN	PADAPTER		Adapter)
++{
++	dm_CheckTXPowerTracking_ThermalMeter(Adapter);
++}
++
++#ifdef CONFIG_BT_COEXIST
++static BOOLEAN BT_BTStateChange(PADAPTER Adapter)
++{
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(Adapter);
++	struct btcoexist_priv	*pbtpriv = &(pHalData->bt_coexist);
++	struct registry_priv	*registry_par = &Adapter->registrypriv;
++	
++	struct mlme_priv *pmlmepriv = &(Adapter->mlmepriv);
++	
++	u32 		Polling, Ratio_Tx, Ratio_PRI;
++	u32 			BT_Tx, BT_PRI;
++	u8			BT_State;
++	static u8		ServiceTypeCnt = 0;
++	u8			CurServiceType;
++	static u8		LastServiceType = BT_Idle;
++
++	if(check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE)	
++		return _FALSE;
++	
++	BT_State = rtw_read8(Adapter, 0x4fd);
++/*
++	temp = PlatformEFIORead4Byte(Adapter, 0x488);
++	BT_Tx = (u2Byte)(((temp<<8)&0xff00)+((temp>>8)&0xff));
++	BT_PRI = (u2Byte)(((temp>>8)&0xff00)+((temp>>24)&0xff));
++
++	temp = PlatformEFIORead4Byte(Adapter, 0x48c);
++	Polling = ((temp<<8)&0xff000000) + ((temp>>8)&0x00ff0000) + 
++			((temp<<8)&0x0000ff00) + ((temp>>8)&0x000000ff);
++	
++*/
++	BT_Tx = rtw_read32(Adapter, 0x488);
++	
++	DBG_8192C("Ratio 0x488  =%x\n", BT_Tx);
++	BT_Tx =BT_Tx & 0x00ffffff;
++	//RTPRINT(FBT, BT_TRACE, ("Ratio BT_Tx  =%x\n", BT_Tx));
++
++	BT_PRI = rtw_read32(Adapter, 0x48c);
++	
++	DBG_8192C("Ratio 0x48c  =%x\n", BT_PRI);
++	BT_PRI =BT_PRI & 0x00ffffff;
++	//RTPRINT(FBT, BT_TRACE, ("Ratio BT_PRI  =%x\n", BT_PRI));
++
++
++	Polling = rtw_read32(Adapter, 0x490);
++	//RTPRINT(FBT, BT_TRACE, ("Ratio 0x490  =%x\n", Polling));
++
++
++	if(BT_Tx==0xffffffff && BT_PRI==0xffffffff && Polling==0xffffffff && BT_State==0xff)
++		return _FALSE;
++
++	BT_State &= BIT0;
++
++	if(BT_State != pbtpriv->BT_CUR_State)
++	{
++		pbtpriv->BT_CUR_State = BT_State;
++	
++		if(registry_par->bt_sco == 3)
++		{
++			ServiceTypeCnt = 0;
++		
++			pbtpriv->BT_Service = BT_Idle;
++
++			DBG_8192C("BT_%s\n", BT_State?"ON":"OFF");
++
++			BT_State = BT_State | 
++					((pbtpriv->BT_Ant_isolation==1)?0:BIT1) |BIT2;
++
++			rtw_write8(Adapter, 0x4fd, BT_State);
++			DBG_8192C("BT set 0x4fd to %x\n", BT_State);
++		}
++		
++		return _TRUE;
++	}
++	DBG_8192C("bRegBT_Sco =  %d\n",registry_par->bt_sco);
++
++	Ratio_Tx = BT_Tx*1000/Polling;
++	Ratio_PRI = BT_PRI*1000/Polling;
++
++	pbtpriv->Ratio_Tx=Ratio_Tx;
++	pbtpriv->Ratio_PRI=Ratio_PRI;
++	
++	DBG_8192C("Ratio_Tx=%d\n", Ratio_Tx);
++	DBG_8192C("Ratio_PRI=%d\n", Ratio_PRI);
++
++	
++	if(BT_State && registry_par->bt_sco==3)
++	{
++		DBG_8192C("bt_sco  ==3 Follow Counter\n");
++//		if(BT_Tx==0xffff && BT_PRI==0xffff && Polling==0xffffffff)
++//		{
++//			ServiceTypeCnt = 0;
++//			return FALSE;
++//		}
++//		else
++		{
++		/*
++			Ratio_Tx = BT_Tx*1000/Polling;
++			Ratio_PRI = BT_PRI*1000/Polling;
++
++			pHalData->bt_coexist.Ratio_Tx=Ratio_Tx;
++			pHalData->bt_coexist.Ratio_PRI=Ratio_PRI;
++			
++			RTPRINT(FBT, BT_TRACE, ("Ratio_Tx=%d\n", Ratio_Tx));
++			RTPRINT(FBT, BT_TRACE, ("Ratio_PRI=%d\n", Ratio_PRI));
++
++		*/	
++			if((Ratio_Tx < 30)  && (Ratio_PRI < 30)) 
++			  	CurServiceType = BT_Idle;
++			else if((Ratio_PRI > 110) && (Ratio_PRI < 250))
++				CurServiceType = BT_SCO;
++			else if((Ratio_Tx >= 200)&&(Ratio_PRI >= 200))
++				CurServiceType = BT_Busy;
++			else if((Ratio_Tx >=350) && (Ratio_Tx < 500))
++				CurServiceType = BT_OtherBusy;
++			else if(Ratio_Tx >=500)
++				CurServiceType = BT_PAN;
++			else
++				CurServiceType=BT_OtherAction;
++		}
++
++/*		if(pHalData->bt_coexist.bStopCount)
++		{
++			ServiceTypeCnt=0;
++			pHalData->bt_coexist.bStopCount=FALSE;
++		}
++*/
++//		if(CurServiceType == BT_OtherBusy)
++		{
++			ServiceTypeCnt=2;
++			LastServiceType=CurServiceType;
++		}
++#if 0
++		else if(CurServiceType == LastServiceType)
++		{
++			if(ServiceTypeCnt<3)
++				ServiceTypeCnt++;
++		}
++		else
++		{
++			ServiceTypeCnt = 0;
++			LastServiceType = CurServiceType;
++		}
++#endif
++
++		if(ServiceTypeCnt==2)
++		{
++			pbtpriv->BT_Service = LastServiceType;
++			BT_State = BT_State | 
++					((pbtpriv->BT_Ant_isolation==1)?0:BIT1) |
++					//((pbtpriv->BT_Service==BT_SCO)?0:BIT2);
++					((pbtpriv->BT_Service!=BT_Idle)?0:BIT2);
++
++			//if(pbtpriv->BT_Service==BT_Busy)
++			//	BT_State&= ~(BIT2);
++
++			if(pbtpriv->BT_Service==BT_SCO)
++			{
++				DBG_8192C("BT TYPE Set to  ==> BT_SCO\n");
++			}
++			else if(pbtpriv->BT_Service==BT_Idle)
++			{
++				DBG_8192C("BT TYPE Set to  ==> BT_Idle\n");
++			}
++			else if(pbtpriv->BT_Service==BT_OtherAction)
++			{
++				DBG_8192C("BT TYPE Set to  ==> BT_OtherAction\n");
++			}
++			else if(pbtpriv->BT_Service==BT_Busy)
++			{
++				DBG_8192C("BT TYPE Set to  ==> BT_Busy\n");
++			}
++			else if(pbtpriv->BT_Service==BT_PAN)
++			{
++				DBG_8192C("BT TYPE Set to  ==> BT_PAN\n");
++			}
++			else
++			{
++				DBG_8192C("BT TYPE Set to ==> BT_OtherBusy\n");
++			}
++				
++			//Add interrupt migration when bt is not in idel state (no traffic).
++			//suggestion by Victor.
++			if(pbtpriv->BT_Service!=BT_Idle)//EDCA_VI_PARAM modify
++			{
++			
++				rtw_write16(Adapter, 0x504, 0x0ccc);
++				rtw_write8(Adapter, 0x506, 0x54);
++				rtw_write8(Adapter, 0x507, 0x54);
++			
++			}
++			else
++			{
++				rtw_write8(Adapter, 0x506, 0x00);
++				rtw_write8(Adapter, 0x507, 0x00);			
++			}
++				
++			rtw_write8(Adapter, 0x4fd, BT_State);
++			DBG_8192C("BT_SCO set 0x4fd to %x\n", BT_State);
++			return _TRUE;
++		}
++	}
++
++	return _FALSE;
++
++}
++
++static BOOLEAN
++BT_WifiConnectChange(
++	IN	PADAPTER	Adapter
++	)
++{
++	struct mlme_priv *pmlmepriv = &(Adapter->mlmepriv);
++//	PMGNT_INFO		pMgntInfo = &Adapter->MgntInfo;
++	static BOOLEAN	bMediaConnect = _FALSE;
++
++	//if(!pMgntInfo->bMediaConnect || MgntRoamingInProgress(pMgntInfo))
++	if(check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE)	
++	{
++		bMediaConnect = _FALSE;
++	}
++	else
++	{
++		if(!bMediaConnect)
++		{
++			bMediaConnect = _TRUE;
++			return _TRUE;
++		}
++		bMediaConnect = _TRUE;
++	}
++
++	return _FALSE;
++}
++
++#define BT_RSSI_STATE_NORMAL_POWER	BIT0
++#define BT_RSSI_STATE_AMDPU_OFF		BIT1
++#define BT_RSSI_STATE_SPECIAL_LOW	BIT2
++#define BT_RSSI_STATE_BG_EDCA_LOW	BIT3
++
++static s32 GET_UNDECORATED_AVERAGE_RSSI(PADAPTER	Adapter)	
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	s32 	average_rssi;
++	
++	if(check_fwstate(pmlmepriv, WIFI_ADHOC_STATE|WIFI_ADHOC_MASTER_STATE|WIFI_AP_STATE))
++	{	
++		average_rssi = 	pdmpriv->EntryMinUndecoratedSmoothedPWDB;	
++	}
++	else
++	{
++		average_rssi = 	pdmpriv->UndecoratedSmoothedPWDB;
++	}
++	return average_rssi;
++}
++
++static u8 BT_RssiStateChange(
++	IN	PADAPTER	Adapter
++	)
++{
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(Adapter);
++	struct mlme_priv		*pmlmepriv = &(Adapter->mlmepriv);
++	struct btcoexist_priv	*pbtpriv = &(pHalData->bt_coexist);
++	struct dm_priv		*pdmpriv = &pHalData->dmpriv;
++	//PMGNT_INFO		pMgntInfo = &Adapter->MgntInfo;
++	s32			UndecoratedSmoothedPWDB;
++	u8			CurrBtRssiState = 0x00;
++
++
++
++
++	//if(pMgntInfo->bMediaConnect)	// Default port
++	if(check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)	
++	{
++		UndecoratedSmoothedPWDB = GET_UNDECORATED_AVERAGE_RSSI(Adapter);
++	}
++	else // associated entry pwdb
++	{
++		if(pdmpriv->EntryMinUndecoratedSmoothedPWDB == 0)
++			UndecoratedSmoothedPWDB = 100;	// No any RSSI information. Assume to be MAX.
++		else
++			UndecoratedSmoothedPWDB = pdmpriv->EntryMinUndecoratedSmoothedPWDB;
++	}
++
++	// Check RSSI to determine HighPower/NormalPower state for BT coexistence.
++	if(UndecoratedSmoothedPWDB >= 67)
++		CurrBtRssiState &= (~BT_RSSI_STATE_NORMAL_POWER);
++	else if(UndecoratedSmoothedPWDB < 62)
++		CurrBtRssiState |= BT_RSSI_STATE_NORMAL_POWER;
++
++	// Check RSSI to determine AMPDU setting for BT coexistence.
++	if(UndecoratedSmoothedPWDB >= 40)
++		CurrBtRssiState &= (~BT_RSSI_STATE_AMDPU_OFF);
++	else if(UndecoratedSmoothedPWDB <= 32)
++		CurrBtRssiState |= BT_RSSI_STATE_AMDPU_OFF;
++
++	// Marked RSSI state. It will be used to determine BT coexistence setting later.
++	if(UndecoratedSmoothedPWDB < 35)
++		CurrBtRssiState |=  BT_RSSI_STATE_SPECIAL_LOW;
++	else
++		CurrBtRssiState &= (~BT_RSSI_STATE_SPECIAL_LOW);
++
++	// Check BT state related to BT_Idle in B/G mode.
++	if(UndecoratedSmoothedPWDB < 15)
++		CurrBtRssiState |=  BT_RSSI_STATE_BG_EDCA_LOW;
++	else
++		CurrBtRssiState &= (~BT_RSSI_STATE_BG_EDCA_LOW);
++	
++	if(CurrBtRssiState != pbtpriv->BtRssiState)
++	{
++		pbtpriv->BtRssiState = CurrBtRssiState;
++		return _TRUE;
++	}
++	else
++	{
++		return _FALSE;
++	}
++}
++
++static void dm_BTCoexist(PADAPTER Adapter )
++{
++	HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv			*pdmpriv = &pHalData->dmpriv;
++	struct mlme_priv	 		*pmlmepriv = &(Adapter->mlmepriv);
++	struct mlme_ext_info		*pmlmeinfo = &Adapter->mlmeextpriv.mlmext_info;
++	struct mlme_ext_priv		*pmlmeext = &Adapter->mlmeextpriv;
++
++	struct btcoexist_priv		*pbtpriv = &(pHalData->bt_coexist);
++	//PMGNT_INFO				pMgntInfo = &Adapter->MgntInfo;
++	//PRT_HIGH_THROUGHPUT		pHTInfo = GET_HT_INFO(pMgntInfo);
++	
++	//PRX_TS_RECORD	pRxTs = NULL;
++	u8			BT_gpio_mux;
++
++	BOOLEAN		bWifiConnectChange, bBtStateChange,bRssiStateChange;
++
++	if(pbtpriv->bCOBT == _FALSE)		return;
++
++	if(!( pdmpriv->DMFlag & DYNAMIC_FUNC_BT)) return;
++	
++	if( (pbtpriv->BT_Coexist) &&(pbtpriv->BT_CoexistType == BT_CSR_BC4) && (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _FALSE)	)
++	{
++		bWifiConnectChange = BT_WifiConnectChange(Adapter);
++		bBtStateChange	= BT_BTStateChange(Adapter);
++		bRssiStateChange 	= BT_RssiStateChange(Adapter);
++		
++		DBG_8192C("bWifiConnectChange %d, bBtStateChange  %d,bRssiStateChange  %d\n",
++			bWifiConnectChange,bBtStateChange,bRssiStateChange);
++
++		// add by hpfan for debug message
++		BT_gpio_mux = rtw_read8(Adapter, REG_GPIO_MUXCFG);
++		DBG_8192C("BTCoexit Reg_0x40 (%2x)\n", BT_gpio_mux);
++
++		if( bWifiConnectChange ||bBtStateChange  ||bRssiStateChange )
++		{
++			if(pbtpriv->BT_CUR_State)
++			{
++				
++				// Do not allow receiving A-MPDU aggregation.
++				if(pbtpriv->BT_Ampdu)// 0:Disable BT control A-MPDU, 1:Enable BT control A-MPDU.
++				{
++			
++					if(pmlmeinfo->assoc_AP_vendor == ciscoAP)	
++					{
++						if(pbtpriv->BT_Service!=BT_Idle)
++						{
++							if(pmlmeinfo->bAcceptAddbaReq)
++							{
++								DBG_8192C("BT_Disallow AMPDU \n");	
++								pmlmeinfo->bAcceptAddbaReq = _FALSE;
++								send_delba(Adapter,0, get_my_bssid(&(pmlmeinfo->network)));
++							}
++						}
++						else
++						{
++							if(!pmlmeinfo->bAcceptAddbaReq)
++							{
++								DBG_8192C("BT_Allow AMPDU  RSSI >=40\n");	
++								pmlmeinfo->bAcceptAddbaReq = _TRUE;
++							}
++						}
++					}
++					else
++					{
++						if(!pmlmeinfo->bAcceptAddbaReq)
++						{
++							DBG_8192C("BT_Allow AMPDU BT Idle\n");	
++							pmlmeinfo->bAcceptAddbaReq = _TRUE;
++						}
++					}
++				}
++				
++#if 0
++				else if((pHalData->bt_coexist.BT_Service==BT_SCO) || (pHalData->bt_coexist.BT_Service==BT_Busy))
++				{				
++					if(pHalData->bt_coexist.BtRssiState & BT_RSSI_STATE_AMDPU_OFF)
++					{
++						if(pMgntInfo->bBT_Ampdu && pHTInfo->bAcceptAddbaReq)
++						{
++							RTPRINT(FBT, BT_TRACE, ("BT_Disallow AMPDU RSSI <=32\n"));	
++							pHTInfo->bAcceptAddbaReq = FALSE;
++							if(GetTs(Adapter, (PTS_COMMON_INFO*)(&pRxTs), pMgntInfo->Bssid, 0, RX_DIR, FALSE))
++								TsInitDelBA(Adapter, (PTS_COMMON_INFO)pRxTs, RX_DIR);
++						}
++					}
++					else
++					{
++						if(pMgntInfo->bBT_Ampdu && !pHTInfo->bAcceptAddbaReq)
++						{
++							RTPRINT(FBT, BT_TRACE, ("BT_Allow AMPDU  RSSI >=40\n"));	
++							pHTInfo->bAcceptAddbaReq = TRUE;
++						}
++					}
++				}
++				else
++				{
++					if(pMgntInfo->bBT_Ampdu && !pHTInfo->bAcceptAddbaReq)
++					{
++						RTPRINT(FBT, BT_TRACE, ("BT_Allow AMPDU BT not in SCO or BUSY\n"));	
++						pHTInfo->bAcceptAddbaReq = TRUE;
++					}
++				}
++#endif
++
++				if(pbtpriv->BT_Ant_isolation)
++				{			
++					DBG_8192C("BT_IsolationLow\n");
++
++// 20100427 Joseph: Do not adjust Rate adaptive for BT coexist suggested by SD3.
++#if 0
++					RTPRINT(FBT, BT_TRACE, ("BT_Update Rate table\n"));
++					if(pMgntInfo->bUseRAMask)
++					{
++						// 20100407 Joseph: Fix rate adaptive modification for BT coexist.
++						// This fix is not complete yet. It shall also consider VWifi and Adhoc case,
++						// which connect with multiple STAs.
++						Adapter->HalFunc.UpdateHalRAMaskHandler(
++												Adapter,
++												FALSE,
++												0,
++												NULL,
++												NULL,
++												pMgntInfo->RateAdaptive.RATRState,
++												RAMask_Normal);
++					}
++					else
++					{
++						Adapter->HalFunc.UpdateHalRATRTableHandler(
++									Adapter, 
++									&pMgntInfo->dot11OperationalRateSet,
++									pMgntInfo->dot11HTOperationalRateSet,NULL);
++					}
++#endif
++
++					// 20100415 Joseph: Modify BT coexist mechanism suggested by Yaying.
++					// Now we only enable HW BT coexist when BT in "Busy" state.
++					if(1)//pMgntInfo->LinkDetectInfo.NumRecvDataInPeriod >= 20)
++					{
++						if((pmlmeinfo->assoc_AP_vendor == ciscoAP)	&&
++							pbtpriv->BT_Service==BT_OtherAction)
++						{
++							DBG_8192C("BT_Turn ON Coexist\n");
++							rtw_write8(Adapter, REG_GPIO_MUXCFG, 0xa0);	
++						}
++						else
++						{
++							if((pbtpriv->BT_Service==BT_Busy) &&
++								(pbtpriv->BtRssiState & BT_RSSI_STATE_NORMAL_POWER))
++							{
++								DBG_8192C("BT_Turn ON Coexist\n");
++								rtw_write8(Adapter, REG_GPIO_MUXCFG, 0xa0);
++							}
++							else if((pbtpriv->BT_Service==BT_OtherAction) &&
++									(pbtpriv->BtRssiState & BT_RSSI_STATE_SPECIAL_LOW))
++							{
++								DBG_8192C("BT_Turn ON Coexist\n");
++								rtw_write8(Adapter, REG_GPIO_MUXCFG, 0xa0);	
++							}
++							else if(pbtpriv->BT_Service==BT_PAN)
++							{
++								DBG_8192C("BT_Turn ON Coexist\n");
++								rtw_write8(Adapter, REG_GPIO_MUXCFG, 0x00);	
++							}
++							else
++							{
++								DBG_8192C("BT_Turn OFF Coexist\n");
++								rtw_write8(Adapter, REG_GPIO_MUXCFG, 0x00);
++							}
++						}
++					}
++					else
++					{
++						DBG_8192C("BT: There is no Wifi traffic!! Turn off Coexist\n");
++						rtw_write8(Adapter, REG_GPIO_MUXCFG, 0x00);
++					}
++
++					if(1)//pMgntInfo->LinkDetectInfo.NumRecvDataInPeriod >= 20)
++					{
++						if(pbtpriv->BT_Service==BT_PAN)
++						{
++							DBG_8192C("BT_Turn ON Coexist(Reg0x44 = 0x10100)\n");
++							rtw_write32(Adapter, REG_GPIO_PIN_CTRL, 0x10100);	
++						}
++						else
++						{
++							DBG_8192C("BT_Turn OFF Coexist(Reg0x44 = 0x0)\n");
++							rtw_write32(Adapter, REG_GPIO_PIN_CTRL, 0x0);	
++						}
++					}
++					else
++					{
++						DBG_8192C("BT: There is no Wifi traffic!! Turn off Coexist(Reg0x44 = 0x0)\n");
++						rtw_write32(Adapter, REG_GPIO_PIN_CTRL, 0x0);	
++					}
++
++					// 20100430 Joseph: Integrate the BT coexistence EDCA tuning here.
++					if(pbtpriv->BtRssiState & BT_RSSI_STATE_NORMAL_POWER)
++					{
++						if(pbtpriv->BT_Service==BT_OtherBusy)
++						{
++							//pbtpriv->BtEdcaUL = 0x5ea72b;
++							//pbtpriv->BtEdcaDL = 0x5ea72b;
++							pbtpriv->BT_EDCA[UP_LINK] = 0x5ea72b;
++							pbtpriv->BT_EDCA[DOWN_LINK] = 0x5ea72b;							
++							
++							DBG_8192C("BT in BT_OtherBusy state Tx (%d) >350 parameter(0x%x) = 0x%x\n", pbtpriv->Ratio_Tx ,REG_EDCA_BE_PARAM, 0x5ea72b);
++						}
++						else if(pbtpriv->BT_Service==BT_Busy)
++						{
++							//pbtpriv->BtEdcaUL = 0x5eb82f;
++							//pbtpriv->BtEdcaDL = 0x5eb82f;
++
++							pbtpriv->BT_EDCA[UP_LINK] = 0x5eb82f;
++							pbtpriv->BT_EDCA[DOWN_LINK] = 0x5eb82f;							
++							
++							DBG_8192C("BT in BT_Busy state parameter(0x%x) = 0x%x\n", REG_EDCA_BE_PARAM, 0x5eb82f);		
++						}
++						else if(pbtpriv->BT_Service==BT_SCO)
++						{
++							if(pbtpriv->Ratio_Tx>160)
++							{
++								//pbtpriv->BtEdcaUL = 0x5ea72f;
++								//pbtpriv->BtEdcaDL = 0x5ea72f;
++								pbtpriv->BT_EDCA[UP_LINK] = 0x5ea72f;
++								pbtpriv->BT_EDCA[DOWN_LINK] = 0x5ea72f;							
++								DBG_8192C("BT in BT_SCO state Tx (%d) >160 parameter(0x%x) = 0x%x\n",pbtpriv->Ratio_Tx, REG_EDCA_BE_PARAM, 0x5ea72f);
++							}
++							else
++							{
++								//pbtpriv->BtEdcaUL = 0x5ea32b;
++								//pbtpriv->BtEdcaDL = 0x5ea42b;
++
++								pbtpriv->BT_EDCA[UP_LINK] = 0x5ea32b;
++								pbtpriv->BT_EDCA[DOWN_LINK] = 0x5ea42b;						
++								
++								DBG_8192C("BT in BT_SCO state Tx (%d) <160 parameter(0x%x) = 0x%x\n", pbtpriv->Ratio_Tx,REG_EDCA_BE_PARAM, 0x5ea32f);
++							}									
++						}
++						else
++						{
++							// BT coexistence mechanism does not control EDCA parameter.
++							//pbtpriv->BtEdcaUL = 0;
++							//pbtpriv->BtEdcaDL = 0;
++
++							pbtpriv->BT_EDCA[UP_LINK] = 0;
++							pbtpriv->BT_EDCA[DOWN_LINK] = 0;							
++							DBG_8192C("BT in  State  %d  and parameter(0x%x) use original setting.\n",pbtpriv->BT_Service, REG_EDCA_BE_PARAM);
++						}
++
++						if((pbtpriv->BT_Service!=BT_Idle) &&
++							(pmlmeext->cur_wireless_mode  == WIRELESS_MODE_G) &&
++							(pbtpriv->BtRssiState & BT_RSSI_STATE_BG_EDCA_LOW))
++						{
++							//pbtpriv->BtEdcaUL = 0x5eb82b;
++							//pbtpriv->BtEdcaDL = 0x5eb82b;
++
++							pbtpriv->BT_EDCA[UP_LINK] = 0x5eb82b;
++							pbtpriv->BT_EDCA[DOWN_LINK] = 0x5eb82b;							
++							
++							DBG_8192C("BT set parameter(0x%x) = 0x%x\n", REG_EDCA_BE_PARAM, 0x5eb82b);		
++						}
++					}
++					else
++					{
++						// BT coexistence mechanism does not control EDCA parameter.
++						//pbtpriv->BtEdcaUL = 0;
++						//pbtpriv->BtEdcaDL = 0;
++
++						pbtpriv->BT_EDCA[UP_LINK] = 0;
++						pbtpriv->BT_EDCA[DOWN_LINK] = 0;					
++					}
++
++					// 20100415 Joseph: Set RF register 0x1E and 0x1F for BT coexist suggested by Yaying.
++					if(pbtpriv->BT_Service!=BT_Idle)
++					{
++						DBG_8192C("BT Set RfReg0x1E[7:4] = 0x%x \n", 0xf);
++						PHY_SetRFReg(Adapter, PathA, 0x1e, 0xf0, 0xf);
++						//RTPRINT(FBT, BT_TRACE, ("BT Set RfReg0x1E[7:4] = 0x%x \n", 0xf));
++						//PHY_SetRFReg(Adapter, PathA, 0x1f, 0xf0, 0xf);
++					}
++					else
++					{
++						DBG_8192C("BT Set RfReg0x1E[7:4] = 0x%x \n",pbtpriv->BtRfRegOrigin1E);
++						PHY_SetRFReg(Adapter, PathA, 0x1e, 0xf0, pbtpriv->BtRfRegOrigin1E);
++						//RTPRINT(FBT, BT_TRACE, ("BT Set RfReg0x1F[7:4] = 0x%x \n", pHalData->bt_coexist.BtRfRegOrigin1F));
++						//PHY_SetRFReg(Adapter, PathA, 0x1f, 0xf0, pHalData->bt_coexist.BtRfRegOrigin1F);
++					}	
++				}
++				else
++				{
++					DBG_8192C("BT_IsolationHigh\n");
++					// Do nothing.
++				}			
++			}
++			else
++			{
++			
++				if(pbtpriv->BT_Ampdu && !pmlmeinfo->bAcceptAddbaReq)
++				{
++					DBG_8192C("BT_Allow AMPDU bt is off\n");	
++					pmlmeinfo->bAcceptAddbaReq = _TRUE;
++				}
++			
++				DBG_8192C("BT_Turn OFF Coexist bt is off \n");
++				rtw_write8(Adapter, REG_GPIO_MUXCFG, 0x00);
++
++				DBG_8192C("BT Set RfReg0x1E[7:4] = 0x%x \n", pbtpriv->BtRfRegOrigin1E);
++				PHY_SetRFReg(Adapter, PathA, 0x1e, 0xf0, pbtpriv->BtRfRegOrigin1E);
++				//RTPRINT(FBT, BT_TRACE, ("BT Set RfReg0x1F[7:4] = 0x%x \n", pHalData->bt_coexist.BtRfRegOrigin1F));
++				//PHY_SetRFReg(Adapter, PathA, 0x1f, 0xf0, pHalData->bt_coexist.BtRfRegOrigin1F);
++
++				// BT coexistence mechanism does not control EDCA parameter since BT is disabled.
++				//pbtpriv->BtEdcaUL = 0;
++				//pbtpriv->BtEdcaDL = 0;
++				pbtpriv->BT_EDCA[UP_LINK] = 0;
++				pbtpriv->BT_EDCA[DOWN_LINK] = 0;				
++				
++
++// 20100427 Joseph: Do not adjust Rate adaptive for BT coexist suggested by SD3.
++#if 0
++				RTPRINT(FBT, BT_TRACE, ("BT_Update Rate table\n"));
++				if(pMgntInfo->bUseRAMask)
++				{
++					// 20100407 Joseph: Fix rate adaptive modification for BT coexist.
++					// This fix is not complete yet. It shall also consider VWifi and Adhoc case,
++					// which connect with multiple STAs.
++					Adapter->HalFunc.UpdateHalRAMaskHandler(
++											Adapter,
++											FALSE,
++											0,
++											NULL,
++											NULL,
++											pMgntInfo->RateAdaptive.RATRState,
++											RAMask_Normal);
++				}
++				else
++				{
++					Adapter->HalFunc.UpdateHalRATRTableHandler(
++								Adapter, 
++								&pMgntInfo->dot11OperationalRateSet,
++								pMgntInfo->dot11HTOperationalRateSet,NULL);
++				}
++#endif
++			}
++		}
++	}
++}
++
++static void dm_InitBtCoexistDM(	PADAPTER	Adapter)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	struct btcoexist_priv	*pbtpriv = &(pHalData->bt_coexist);
++
++	if( !pbtpriv->BT_Coexist ) return;
++	
++	pbtpriv->BtRfRegOrigin1E = (u8)PHY_QueryRFReg(Adapter, PathA, 0x1e, 0xf0);
++	pbtpriv->BtRfRegOrigin1F = (u8)PHY_QueryRFReg(Adapter, PathA, 0x1f, 0xf0);
++}
++
++void rtl8192c_set_dm_bt_coexist(_adapter *padapter, u8 bStart)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(padapter);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct btcoexist_priv	*pbtpriv = &(pHalData->bt_coexist);
++	
++	pbtpriv->bCOBT = bStart;
++	send_delba(padapter,0, get_my_bssid(&(pmlmeinfo->network)));
++	send_delba(padapter,1, get_my_bssid(&(pmlmeinfo->network)));
++	
++}
++
++void rtl8192c_issue_delete_ba(_adapter *padapter, u8 dir)
++{
++	struct mlme_ext_info		*pmlmeinfo = &padapter->mlmeextpriv.mlmext_info;
++	DBG_8192C("issue_delete_ba : %s...\n",(dir==0)?"RX_DIR":"TX_DIR");
++	send_delba(padapter,dir, get_my_bssid(&(pmlmeinfo->network)));
++}
++
++#endif
++
++#if 0//def CONFIG_PCI_HCI
++
++BOOLEAN
++BT_BTStateChange(
++	IN	PADAPTER	Adapter
++	)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PMGNT_INFO		pMgntInfo = &Adapter->MgntInfo;
++	
++	u4Byte 			temp, Polling, Ratio_Tx, Ratio_PRI;
++	u4Byte 			BT_Tx, BT_PRI;
++	u1Byte			BT_State;
++	static u1Byte		ServiceTypeCnt = 0;
++	u1Byte			CurServiceType;
++	static u1Byte		LastServiceType = BT_Idle;
++
++	if(!pMgntInfo->bMediaConnect)
++		return FALSE;
++	
++	BT_State = PlatformEFIORead1Byte(Adapter, 0x4fd);
++/*
++	temp = PlatformEFIORead4Byte(Adapter, 0x488);
++	BT_Tx = (u2Byte)(((temp<<8)&0xff00)+((temp>>8)&0xff));
++	BT_PRI = (u2Byte)(((temp>>8)&0xff00)+((temp>>24)&0xff));
++
++	temp = PlatformEFIORead4Byte(Adapter, 0x48c);
++	Polling = ((temp<<8)&0xff000000) + ((temp>>8)&0x00ff0000) + 
++			((temp<<8)&0x0000ff00) + ((temp>>8)&0x000000ff);
++	
++*/
++	BT_Tx = PlatformEFIORead4Byte(Adapter, 0x488);
++	
++	RTPRINT(FBT, BT_TRACE, ("Ratio 0x488  =%x\n", BT_Tx));
++	BT_Tx =BT_Tx & 0x00ffffff;
++	//RTPRINT(FBT, BT_TRACE, ("Ratio BT_Tx  =%x\n", BT_Tx));
++
++	BT_PRI = PlatformEFIORead4Byte(Adapter, 0x48c);
++	
++	RTPRINT(FBT, BT_TRACE, ("Ratio Ratio 0x48c  =%x\n", BT_PRI));
++	BT_PRI =BT_PRI & 0x00ffffff;
++	//RTPRINT(FBT, BT_TRACE, ("Ratio BT_PRI  =%x\n", BT_PRI));
++
++
++	Polling = PlatformEFIORead4Byte(Adapter, 0x490);
++	//RTPRINT(FBT, BT_TRACE, ("Ratio 0x490  =%x\n", Polling));
++
++
++	if(BT_Tx==0xffffffff && BT_PRI==0xffffffff && Polling==0xffffffffff && BT_State==0xff)
++		return FALSE;
++
++	BT_State &= BIT0;
++
++	if(BT_State != pHalData->bt_coexist.BT_CUR_State)
++	{
++		pHalData->bt_coexist.BT_CUR_State = BT_State;
++	
++		if(pMgntInfo->bRegBT_Sco == 3)
++		{
++			ServiceTypeCnt = 0;
++		
++			pHalData->bt_coexist.BT_Service = BT_Idle;
++
++			RTPRINT(FBT, BT_TRACE, ("BT_%s\n", BT_State?"ON":"OFF"));
++
++			BT_State = BT_State | 
++					((pHalData->bt_coexist.BT_Ant_isolation==1)?0:BIT1) |BIT2;
++
++			PlatformEFIOWrite1Byte(Adapter, 0x4fd, BT_State);
++			RTPRINT(FBT, BT_TRACE, ("BT set 0x4fd to %x\n", BT_State));
++		}
++		
++		return TRUE;
++	}
++	RTPRINT(FBT, BT_TRACE, ("bRegBT_Sco   %d\n", pMgntInfo->bRegBT_Sco));
++
++	Ratio_Tx = BT_Tx*1000/Polling;
++	Ratio_PRI = BT_PRI*1000/Polling;
++
++	pHalData->bt_coexist.Ratio_Tx=Ratio_Tx;
++	pHalData->bt_coexist.Ratio_PRI=Ratio_PRI;
++	
++	RTPRINT(FBT, BT_TRACE, ("Ratio_Tx=%d\n", Ratio_Tx));
++	RTPRINT(FBT, BT_TRACE, ("Ratio_PRI=%d\n", Ratio_PRI));
++
++	
++	if(BT_State && pMgntInfo->bRegBT_Sco==3)
++	{
++		RTPRINT(FBT, BT_TRACE, ("bRegBT_Sco  ==3 Follow Counter\n"));
++//		if(BT_Tx==0xffff && BT_PRI==0xffff && Polling==0xffffffff)
++//		{
++//			ServiceTypeCnt = 0;
++//			return FALSE;
++//		}
++//		else
++		{
++		/*
++			Ratio_Tx = BT_Tx*1000/Polling;
++			Ratio_PRI = BT_PRI*1000/Polling;
++
++			pHalData->bt_coexist.Ratio_Tx=Ratio_Tx;
++			pHalData->bt_coexist.Ratio_PRI=Ratio_PRI;
++			
++			RTPRINT(FBT, BT_TRACE, ("Ratio_Tx=%d\n", Ratio_Tx));
++			RTPRINT(FBT, BT_TRACE, ("Ratio_PRI=%d\n", Ratio_PRI));
++
++		*/	
++			if((Ratio_Tx <= 50)  && (Ratio_PRI <= 50)) 
++			  	CurServiceType = BT_Idle;
++			else if((Ratio_PRI > 150) && (Ratio_PRI < 200))
++				CurServiceType = BT_SCO;
++			else if((Ratio_Tx >= 200)&&(Ratio_PRI >= 200))
++				CurServiceType = BT_Busy;
++			else if(Ratio_Tx >= 350)
++				CurServiceType = BT_OtherBusy;
++			else
++				CurServiceType=BT_OtherAction;
++
++		}
++/*		if(pHalData->bt_coexist.bStopCount)
++		{
++			ServiceTypeCnt=0;
++			pHalData->bt_coexist.bStopCount=FALSE;
++		}
++*/
++		if(CurServiceType == BT_OtherBusy)
++		{
++			ServiceTypeCnt=2;
++			LastServiceType=CurServiceType;
++		}
++		else if(CurServiceType == LastServiceType)
++		{
++			if(ServiceTypeCnt<3)
++				ServiceTypeCnt++;
++		}
++		else
++		{
++			ServiceTypeCnt = 0;
++			LastServiceType = CurServiceType;
++		}
++
++		if(ServiceTypeCnt==2)
++		{
++			pHalData->bt_coexist.BT_Service = LastServiceType;
++			BT_State = BT_State | 
++					((pHalData->bt_coexist.BT_Ant_isolation==1)?0:BIT1) |
++					((pHalData->bt_coexist.BT_Service==BT_SCO)?0:BIT2);
++
++			if(pHalData->bt_coexist.BT_Service==BT_Busy)
++				BT_State&= ~(BIT2);
++
++			if(pHalData->bt_coexist.BT_Service==BT_SCO)
++			{
++				RTPRINT(FBT, BT_TRACE, ("BT TYPE Set to  ==> BT_SCO\n"));
++			}
++			else if(pHalData->bt_coexist.BT_Service==BT_Idle)
++			{
++				RTPRINT(FBT, BT_TRACE, ("BT TYPE Set to  ==> BT_Idle\n"));
++			}
++			else if(pHalData->bt_coexist.BT_Service==BT_OtherAction)
++			{
++				RTPRINT(FBT, BT_TRACE, ("BT TYPE Set to  ==> BT_OtherAction\n"));
++			}
++			else if(pHalData->bt_coexist.BT_Service==BT_Busy)
++			{
++				RTPRINT(FBT, BT_TRACE, ("BT TYPE Set to  ==> BT_Busy\n"));
++			}
++			else
++			{
++				RTPRINT(FBT, BT_TRACE, ("BT TYPE Set to ==> BT_OtherBusy\n"));
++			}
++				
++			//Add interrupt migration when bt is not in idel state (no traffic).
++			//suggestion by Victor.
++			if(pHalData->bt_coexist.BT_Service!=BT_Idle)
++			{
++			
++				PlatformEFIOWrite2Byte(Adapter, 0x504, 0x0ccc);
++				PlatformEFIOWrite1Byte(Adapter, 0x506, 0x54);
++				PlatformEFIOWrite1Byte(Adapter, 0x507, 0x54);
++			
++			}
++			else
++			{
++				PlatformEFIOWrite1Byte(Adapter, 0x506, 0x00);
++				PlatformEFIOWrite1Byte(Adapter, 0x507, 0x00);			
++			}
++				
++			PlatformEFIOWrite1Byte(Adapter, 0x4fd, BT_State);
++			RTPRINT(FBT, BT_TRACE, ("BT_SCO set 0x4fd to %x\n", BT_State));
++			return TRUE;
++		}
++	}
++
++	return FALSE;
++
++}
++
++BOOLEAN
++BT_WifiConnectChange(
++	IN	PADAPTER	Adapter
++	)
++{
++	PMGNT_INFO		pMgntInfo = &Adapter->MgntInfo;
++	static BOOLEAN	bMediaConnect = FALSE;
++
++	if(!pMgntInfo->bMediaConnect || MgntRoamingInProgress(pMgntInfo))
++	{
++		bMediaConnect = FALSE;
++	}
++	else
++	{
++		if(!bMediaConnect)
++		{
++			bMediaConnect = TRUE;
++			return TRUE;
++		}
++		bMediaConnect = TRUE;
++	}
++
++	return FALSE;
++}
++
++BOOLEAN
++BT_RSSIChangeWithAMPDU(
++	IN	PADAPTER	Adapter
++	)
++{
++	PMGNT_INFO		pMgntInfo = &Adapter->MgntInfo;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	if(!Adapter->pNdisCommon->bRegBT_Ampdu || !Adapter->pNdisCommon->bRegAcceptAddbaReq)
++		return FALSE;
++
++	RTPRINT(FBT, BT_TRACE, ("RSSI is %d\n",pHalData->UndecoratedSmoothedPWDB));
++	
++	if((pHalData->UndecoratedSmoothedPWDB<=32) && pMgntInfo->pHTInfo->bAcceptAddbaReq)
++	{
++		RTPRINT(FBT, BT_TRACE, ("BT_Disallow AMPDU RSSI <=32  Need change\n"));				
++		return TRUE;
++
++	}
++	else if((pHalData->UndecoratedSmoothedPWDB>=40) && !pMgntInfo->pHTInfo->bAcceptAddbaReq )
++	{
++		RTPRINT(FBT, BT_TRACE, ("BT_Allow AMPDU RSSI >=40, Need change\n"));
++		return TRUE;
++	}
++	else 
++		return FALSE;
++
++}
++
++
++VOID
++dm_BTCoexist(
++	IN	PADAPTER	Adapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PMGNT_INFO		pMgntInfo = &Adapter->MgntInfo;
++	static u1Byte		LastTxPowerLvl = 0xff;
++	PRX_TS_RECORD	pRxTs = NULL;
++
++	BOOLEAN			bWifiConnectChange, bBtStateChange,bRSSIChangeWithAMPDU;
++
++	if( (pHalData->bt_coexist.BluetoothCoexist) &&
++		(pHalData->bt_coexist.BT_CoexistType == BT_CSR_BC4) && 
++		(!ACTING_AS_AP(Adapter))	)
++	{
++		bWifiConnectChange = BT_WifiConnectChange(Adapter);
++		bBtStateChange = BT_BTStateChange(Adapter);
++		bRSSIChangeWithAMPDU = BT_RSSIChangeWithAMPDU(Adapter);
++		RTPRINT(FBT, BT_TRACE, ("bWifiConnectChange %d, bBtStateChange  %d,LastTxPowerLvl  %x,  DynamicTxHighPowerLvl  %x\n",
++			bWifiConnectChange,bBtStateChange,LastTxPowerLvl,pHalData->DynamicTxHighPowerLvl));
++		if( bWifiConnectChange ||bBtStateChange  ||
++			(LastTxPowerLvl != pHalData->DynamicTxHighPowerLvl)	||bRSSIChangeWithAMPDU)
++		{
++			LastTxPowerLvl = pHalData->DynamicTxHighPowerLvl;
++
++			if(pHalData->bt_coexist.BT_CUR_State)
++			{
++				// Do not allow receiving A-MPDU aggregation.
++				if((pHalData->bt_coexist.BT_Service==BT_SCO) || (pHalData->bt_coexist.BT_Service==BT_Busy))
++				{
++					if(pHalData->UndecoratedSmoothedPWDB<=32)
++					{
++						if(Adapter->pNdisCommon->bRegBT_Ampdu && Adapter->pNdisCommon->bRegAcceptAddbaReq)
++						{
++							RTPRINT(FBT, BT_TRACE, ("BT_Disallow AMPDU RSSI <=32\n"));	
++							pMgntInfo->pHTInfo->bAcceptAddbaReq = FALSE;
++							if(GetTs(Adapter, (PTS_COMMON_INFO*)(&pRxTs), pMgntInfo->Bssid, 0, RX_DIR, FALSE))
++								TsInitDelBA(Adapter, (PTS_COMMON_INFO)pRxTs, RX_DIR);
++						}
++					}
++					else if(pHalData->UndecoratedSmoothedPWDB>=40)
++					{
++						if(Adapter->pNdisCommon->bRegBT_Ampdu && Adapter->pNdisCommon->bRegAcceptAddbaReq)
++						{
++							RTPRINT(FBT, BT_TRACE, ("BT_Allow AMPDU  RSSI >=40\n"));	
++							pMgntInfo->pHTInfo->bAcceptAddbaReq = TRUE;
++						}
++					}
++				}
++				else
++				{
++					if(Adapter->pNdisCommon->bRegBT_Ampdu && Adapter->pNdisCommon->bRegAcceptAddbaReq)
++					{
++						RTPRINT(FBT, BT_TRACE, ("BT_Allow AMPDU BT not in SCO or BUSY\n"));	
++						pMgntInfo->pHTInfo->bAcceptAddbaReq = TRUE;
++					}
++				}
++
++				if(pHalData->bt_coexist.BT_Ant_isolation)
++				{			
++					RTPRINT(FBT, BT_TRACE, ("BT_IsolationLow\n"));
++					RTPRINT(FBT, BT_TRACE, ("BT_Update Rate table\n"));
++					Adapter->HalFunc.UpdateHalRATRTableHandler(
++								Adapter, 
++								&pMgntInfo->dot11OperationalRateSet,
++								pMgntInfo->dot11HTOperationalRateSet,NULL);
++					
++					if(pHalData->bt_coexist.BT_Service==BT_SCO)
++					{
++
++						RTPRINT(FBT, BT_TRACE, ("BT_Turn OFF Coexist with SCO \n"));
++						PlatformEFIOWrite1Byte(Adapter, REG_GPIO_MUXCFG, 0x14);					
++					}
++					else if(pHalData->DynamicTxHighPowerLvl == TxHighPwrLevel_Normal)
++					{
++						RTPRINT(FBT, BT_TRACE, ("BT_Turn ON Coexist\n"));
++						PlatformEFIOWrite1Byte(Adapter, REG_GPIO_MUXCFG, 0xb4);
++					}
++					else
++					{
++						RTPRINT(FBT, BT_TRACE, ("BT_Turn OFF Coexist\n"));
++						PlatformEFIOWrite1Byte(Adapter, REG_GPIO_MUXCFG, 0x14);
++					}
++				}
++				else
++				{
++					RTPRINT(FBT, BT_TRACE, ("BT_IsolationHigh\n"));
++					// Do nothing.
++				}
++			}
++			else
++			{
++				if(Adapter->pNdisCommon->bRegBT_Ampdu && Adapter->pNdisCommon->bRegAcceptAddbaReq)
++				{
++					RTPRINT(FBT, BT_TRACE, ("BT_Allow AMPDU bt is off\n"));	
++					pMgntInfo->pHTInfo->bAcceptAddbaReq = TRUE;
++				}
++
++				RTPRINT(FBT, BT_TRACE, ("BT_Turn OFF Coexist bt is off \n"));
++				PlatformEFIOWrite1Byte(Adapter, REG_GPIO_MUXCFG, 0x14);
++
++				RTPRINT(FBT, BT_TRACE, ("BT_Update Rate table\n"));
++				Adapter->HalFunc.UpdateHalRATRTableHandler(
++							Adapter, 
++							&pMgntInfo->dot11OperationalRateSet,
++							pMgntInfo->dot11HTOperationalRateSet,NULL);
++			}
++		}
++	}
++}
++#endif
++
++
++/*-----------------------------------------------------------------------------
++ * Function:	dm_CheckRfCtrlGPIO()
++ *
++ * Overview:	Copy 8187B template for 9xseries.
++ *
++ * Input:		NONE
++ *
++ * Output:		NONE
++ *
++ * Return:		NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	01/10/2008	MHC		Create Version 0.  
++ *
++ *---------------------------------------------------------------------------*/
++static VOID
++dm_CheckRfCtrlGPIO(
++	IN	PADAPTER	Adapter
++	)
++{
++#if 0
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++#if defined (CONFIG_USB_HCI) || defined (CONFIG_SDIO_HCI)
++	#ifdef CONFIG_USB_HCI
++		// 2010/08/12 MH Add for CU selective suspend.
++		PRT_USB_DEVICE		pDevice = GET_RT_USB_DEVICE(Adapter);
++	#else
++		PRT_SDIO_DEVICE	pDevice = GET_RT_SDIO_DEVICE(Adapter);
++	#endif
++#endif
++
++	if(!Adapter->MgntInfo.PowerSaveControl.bGpioRfSw)
++		return;
++
++	RTPRINT(FPWR, PWRHW, ("dm_CheckRfCtrlGPIO \n"));
++
++#if defined (CONFIG_USB_HCI) || defined (CONFIG_SDIO_HCI)
++	// Walk around for DTM test, we will not enable HW - radio on/off because r/w
++	// page 1 register before Lextra bus is enabled cause system fails when resuming
++	// from S4. 20080218, Emily
++	if(Adapter->bInHctTest)
++		return;
++
++//#if ((HAL_CODE_BASE == RTL8192_S) )
++	//Adapter->HalFunc.GPIOChangeRFHandler(Adapter, GPIORF_POLLING);
++//#else
++	// 2010/07/27 MH Only Minicard and support selective suspend, we can not turn off all MAC power to 
++	// stop 8051. For dongle and minicard, we both support selective suspend mode.
++	//if(pDevice->RegUsbSS && Adapter->HalFunc.GetInterfaceSelectionHandler(Adapter) == INTF_SEL2_MINICARD)
++
++	//
++	// 2010/08/12 MH We support severl power consumption combination as below.
++	//
++	// Power consumption combination  
++	//	SS Enable: (LPS disable + IPS + SW/HW radio off)
++	//	1. Dongle + PDN  (support HW radio off)
++	//	2. Dongle + Normal  (No HW radio off)
++	//	3. MiniCard + PDN (support HW radio off)
++	//	4. MiniCard + Normal (support HW radio off)
++	//
++	//	SS Disable: (LPS + IPS + SW/HW radio off)
++	//	1. Dongle + PDN  (support HW radio off)
++	//	2. Dongle + Normal  (No HW radio off)
++	//	3. MiniCard + PDN (support HW radio off)
++	//	4. MiniCard + Normal (support HW radio off)
++	//
++	//	For Power down module detection. We need to read power register no matter
++	//	dongle or minicard, we will add the item is the detection method.
++	//
++	//
++	//vivi add du case
++	if ((IS_HARDWARE_TYPE_8192CU(Adapter)||IS_HARDWARE_TYPE_8192DU(Adapter))
++		&& pDevice->RegUsbSS)
++	{
++		RT_TRACE(COMP_RF, DBG_LOUD, ("USB SS Enabled\n"));
++		if (SUPPORT_HW_RADIO_DETECT(Adapter))
++		{	// Support HW radio detection
++			RT_TRACE(COMP_RF, DBG_LOUD, ("USB Card Type 2/3/4 support GPIO Detect\n"));
++			GpioDetectTimerStart(Adapter);
++		}
++		else
++		{	// Dongle does not support HW radio detection.?? In the fufure??
++			RT_TRACE(COMP_RF, DBG_LOUD, ("USB DONGLE Non-GPIO-Detect\n"));				
++		}			
++	}
++	else if (IS_HARDWARE_TYPE_8192CU(Adapter) ||
++		IS_HARDWARE_TYPE_8723AU(Adapter)||
++		IS_HARDWARE_TYPE_8192DU(Adapter) ||
++		IS_HARDWARE_TYPE_8723AS(Adapter))
++	{	// Not support Selective suspend 
++		RT_TRACE(COMP_RF, DBG_LOUD, ("USB SS Disable\n"));
++		if (SUPPORT_HW_RADIO_DETECT(Adapter))
++		{
++			RT_TRACE(COMP_RF, DBG_LOUD, ("USB Card Type 2/3/4 support GPIO Detect\n"));
++			PlatformScheduleWorkItem( &(pHalData->GPIOChangeRFWorkItem) );
++		}
++		else
++		{
++			RT_TRACE(COMP_RF, DBG_LOUD, ("USB DONGLE Non-GPIO-Detect\n"));
++		}
++	}
++	else
++	{	// CE only support noemal HW radio detection now. Support timers GPIO detection in SE/CU.		
++		PlatformScheduleWorkItem( &(pHalData->GPIOChangeRFWorkItem) );
++	}
++//#endif
++#else if defined CONFIG_PCI_HCI
++	if(Adapter->bInHctTest)
++		return;
++
++	// CE only support noemal HW radio detection now. We support timers GPIO detection in SE.		
++	PlatformScheduleWorkItem( &(pHalData->GPIOChangeRFWorkItem) );
++#endif
++#endif
++}	/* dm_CheckRfCtrlGPIO */
++
++static VOID
++dm_InitRateAdaptiveMask(
++	IN	PADAPTER	Adapter	
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	PRATE_ADAPTIVE	pRA = (PRATE_ADAPTIVE)&pdmpriv->RateAdaptive;
++	
++	pRA->RATRState = DM_RATR_STA_INIT;
++	pRA->PreRATRState = DM_RATR_STA_INIT;
++
++	if (pdmpriv->DM_Type == DM_Type_ByDriver)
++		pdmpriv->bUseRAMask = _TRUE;
++	else
++		pdmpriv->bUseRAMask = _FALSE;	
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	dm_RefreshRateAdaptiveMask()
++ *
++ * Overview:	Update rate table mask according to rssi
++ *
++ * Input:		NONE
++ *
++ * Output:		NONE
++ *
++ * Return:		NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	05/27/2009	hpfan	Create Version 0.  
++ *
++ *---------------------------------------------------------------------------*/
++static VOID
++dm_RefreshRateAdaptiveMask(	IN	PADAPTER	pAdapter)
++{
++#if 0
++	PADAPTER 				pTargetAdapter;
++	HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(pAdapter);
++	PMGNT_INFO				pMgntInfo = &(ADJUST_TO_ADAPTIVE_ADAPTER(pAdapter, TRUE)->MgntInfo);
++	PRATE_ADAPTIVE			pRA = (PRATE_ADAPTIVE)&pMgntInfo->RateAdaptive;
++	u4Byte					LowRSSIThreshForRA = 0, HighRSSIThreshForRA = 0;
++
++	if(pAdapter->bDriverStopped)
++	{
++		RT_TRACE(COMP_RATR, DBG_TRACE, ("<---- dm_RefreshRateAdaptiveMask(): driver is going to unload\n"));
++		return;
++	}
++
++	if(!pMgntInfo->bUseRAMask)
++	{
++		RT_TRACE(COMP_RATR, DBG_LOUD, ("<---- dm_RefreshRateAdaptiveMask(): driver does not control rate adaptive mask\n"));
++		return;
++	}
++
++	// if default port is connected, update RA table for default port (infrastructure mode only)
++	if(pAdapter->MgntInfo.mAssoc && (!ACTING_AS_AP(pAdapter)))
++	{
++		
++		// decide rastate according to rssi
++		switch (pRA->PreRATRState)
++		{
++			case DM_RATR_STA_HIGH:
++				HighRSSIThreshForRA = 50;
++				LowRSSIThreshForRA = 20;
++				break;
++			
++			case DM_RATR_STA_MIDDLE:
++				HighRSSIThreshForRA = 55;
++				LowRSSIThreshForRA = 20;
++				break;
++			
++			case DM_RATR_STA_LOW:
++				HighRSSIThreshForRA = 50;
++				LowRSSIThreshForRA = 25;
++				break;
++
++			default:
++				HighRSSIThreshForRA = 50;
++				LowRSSIThreshForRA = 20;
++				break;
++		}
++
++		if(pHalData->UndecoratedSmoothedPWDB > (s4Byte)HighRSSIThreshForRA)
++			pRA->RATRState = DM_RATR_STA_HIGH;
++		else if(pHalData->UndecoratedSmoothedPWDB > (s4Byte)LowRSSIThreshForRA)
++			pRA->RATRState = DM_RATR_STA_MIDDLE;
++		else
++			pRA->RATRState = DM_RATR_STA_LOW;
++
++		if(pRA->PreRATRState != pRA->RATRState)
++		{
++			RT_PRINT_ADDR(COMP_RATR, DBG_LOUD, ("Target AP addr : "), pMgntInfo->Bssid);
++			RT_TRACE(COMP_RATR, DBG_LOUD, ("RSSI = %d\n", pHalData->UndecoratedSmoothedPWDB));
++			RT_TRACE(COMP_RATR, DBG_LOUD, ("RSSI_LEVEL = %d\n", pRA->RATRState));
++			RT_TRACE(COMP_RATR, DBG_LOUD, ("PreState = %d, CurState = %d\n", pRA->PreRATRState, pRA->RATRState));
++			pAdapter->HalFunc.UpdateHalRAMaskHandler(
++									pAdapter,
++									FALSE,
++									0,
++									NULL,
++									NULL,
++									pRA->RATRState);
++			pRA->PreRATRState = pRA->RATRState;
++		}
++	}
++
++	//
++	// The following part configure AP/VWifi/IBSS rate adaptive mask.
++	//
++	if(ACTING_AS_AP(pAdapter) || ACTING_AS_IBSS(pAdapter))
++	{
++		pTargetAdapter = pAdapter;
++	}
++	else
++	{
++		pTargetAdapter = ADJUST_TO_ADAPTIVE_ADAPTER(pAdapter, FALSE);
++		if(!ACTING_AS_AP(pTargetAdapter))
++			pTargetAdapter = NULL;
++	}
++
++	// if extension port (softap) is started, updaet RA table for more than one clients associate
++	if(pTargetAdapter != NULL)
++	{
++		int	i;
++		PRT_WLAN_STA	pEntry;
++		PRATE_ADAPTIVE     pEntryRA;
++
++		for(i = 0; i < ASSOCIATE_ENTRY_NUM; i++)
++		{
++			if(	pTargetAdapter->MgntInfo.AsocEntry[i].bUsed && pTargetAdapter->MgntInfo.AsocEntry[i].bAssociated)
++			{
++				pEntry = pTargetAdapter->MgntInfo.AsocEntry+i;
++				pEntryRA = &pEntry->RateAdaptive;
++
++				switch (pEntryRA->PreRATRState)
++				{
++					case DM_RATR_STA_HIGH:
++					{
++						HighRSSIThreshForRA = 50;
++						LowRSSIThreshForRA = 20;
++					}
++					break;
++					
++					case DM_RATR_STA_MIDDLE:
++					{
++						HighRSSIThreshForRA = 55;
++						LowRSSIThreshForRA = 20;
++					}
++					break;
++					
++					case DM_RATR_STA_LOW:
++					{
++						HighRSSIThreshForRA = 50;
++						LowRSSIThreshForRA = 25;
++					}
++					break;
++
++					default:
++					{
++						HighRSSIThreshForRA = 50;
++						LowRSSIThreshForRA = 20;
++					}
++				}
++
++				if(pEntry->rssi_stat.UndecoratedSmoothedPWDB > (s4Byte)HighRSSIThreshForRA)
++					pEntryRA->RATRState = DM_RATR_STA_HIGH;
++				else if(pEntry->rssi_stat.UndecoratedSmoothedPWDB > (s4Byte)LowRSSIThreshForRA)
++					pEntryRA->RATRState = DM_RATR_STA_MIDDLE;
++				else
++					pEntryRA->RATRState = DM_RATR_STA_LOW;
++
++				if(pEntryRA->PreRATRState != pEntryRA->RATRState)
++				{
++					RT_PRINT_ADDR(COMP_RATR, DBG_LOUD, ("AsocEntry addr : "), pEntry->MacAddr);
++					RT_TRACE(COMP_RATR, DBG_LOUD, ("RSSI = %d\n", pEntry->rssi_stat.UndecoratedSmoothedPWDB));
++					RT_TRACE(COMP_RATR, DBG_LOUD, ("RSSI_LEVEL = %d\n", pEntryRA->RATRState));
++					RT_TRACE(COMP_RATR, DBG_LOUD, ("PreState = %d, CurState = %d\n", pEntryRA->PreRATRState, pEntryRA->RATRState));
++					pAdapter->HalFunc.UpdateHalRAMaskHandler(
++											pTargetAdapter,
++											FALSE,
++											pEntry->AID+1,
++											pEntry->MacAddr,
++											pEntry,
++											pEntryRA->RATRState);
++					pEntryRA->PreRATRState = pEntryRA->RATRState;
++				}
++
++			}
++		}
++	}
++#endif	
++}
++
++static VOID
++dm_CheckProtection(
++	IN	PADAPTER	Adapter
++	)
++{
++#if 0
++	PMGNT_INFO		pMgntInfo = &(Adapter->MgntInfo);
++	u1Byte			CurRate, RateThreshold;
++
++	if(pMgntInfo->pHTInfo->bCurBW40MHz)
++		RateThreshold = MGN_MCS1;
++	else
++		RateThreshold = MGN_MCS3;
++
++	if(Adapter->TxStats.CurrentInitTxRate <= RateThreshold)
++	{
++		pMgntInfo->bDmDisableProtect = TRUE;
++		DbgPrint("Forced disable protect: %x\n", Adapter->TxStats.CurrentInitTxRate);
++	}
++	else
++	{
++		pMgntInfo->bDmDisableProtect = FALSE;
++		DbgPrint("Enable protect: %x\n", Adapter->TxStats.CurrentInitTxRate);
++	}
++#endif
++}
++
++static VOID
++dm_CheckStatistics(
++	IN	PADAPTER	Adapter
++	)
++{
++#if 0
++	if(!Adapter->MgntInfo.bMediaConnect)
++		return;
++
++	//2008.12.10 tynli Add for getting Current_Tx_Rate_Reg flexibly.
++	rtw_hal_get_hwreg( Adapter, HW_VAR_INIT_TX_RATE, (pu1Byte)(&Adapter->TxStats.CurrentInitTxRate) );
++
++	// Calculate current Tx Rate(Successful transmited!!)
++
++	// Calculate current Rx Rate(Successful received!!)
++	
++	//for tx tx retry count
++	rtw_hal_get_hwreg( Adapter, HW_VAR_RETRY_COUNT, (pu1Byte)(&Adapter->TxStats.NumTxRetryCount) );
++#endif	
++}
++
++static void dm_CheckPbcGPIO(_adapter *padapter)
++{	
++	u8	tmp1byte;
++	u8	bPbcPressed = _FALSE;
++	int i=0;
++
++	if(!padapter->registrypriv.hw_wps_pbc)
++		return;
++
++	do
++	{
++		i++;
++#ifdef CONFIG_USB_HCI
++	tmp1byte = rtw_read8(padapter, GPIO_IO_SEL);
++	tmp1byte |= (HAL_8192C_HW_GPIO_WPS_BIT);
++	rtw_write8(padapter, GPIO_IO_SEL, tmp1byte);	//enable GPIO[2] as output mode
++
++	tmp1byte &= ~(HAL_8192C_HW_GPIO_WPS_BIT);
++	rtw_write8(padapter,  GPIO_IN, tmp1byte);		//reset the floating voltage level
++
++	tmp1byte = rtw_read8(padapter, GPIO_IO_SEL);
++	tmp1byte &= ~(HAL_8192C_HW_GPIO_WPS_BIT);
++	rtw_write8(padapter, GPIO_IO_SEL, tmp1byte);	//enable GPIO[2] as input mode
++
++	tmp1byte =rtw_read8(padapter, GPIO_IN);
++	
++	if (tmp1byte == 0xff)
++	{
++		bPbcPressed = _FALSE;
++		break ;
++	}	
++
++	if (tmp1byte&HAL_8192C_HW_GPIO_WPS_BIT)
++	{
++		bPbcPressed = _TRUE;
++
++		if(i<=3)
++			rtw_msleep_os(50);
++	}
++#else
++	tmp1byte = rtw_read8(padapter, GPIO_IN);
++	//RT_TRACE(COMP_IO, DBG_TRACE, ("dm_CheckPbcGPIO - %x\n", tmp1byte));
++
++	if (tmp1byte == 0xff || padapter->init_adpt_in_progress)
++	{
++		bPbcPressed = _FALSE;
++		break ;
++	}
++
++	if((tmp1byte&HAL_8192C_HW_GPIO_WPS_BIT)==0)
++	{
++		bPbcPressed = _TRUE;
++
++		if(i<=3)
++			rtw_msleep_os(50);
++	}
++#endif		
++
++	}while(i<=3 && bPbcPressed == _TRUE);
++	
++	if( _TRUE == bPbcPressed)
++	{
++		// Here we only set bPbcPressed to true
++		// After trigger PBC, the variable will be set to false		
++		DBG_8192C("CheckPbcGPIO - PBC is pressed, try_cnt=%d\n", i-1);
++                
++#ifdef RTK_DMP_PLATFORM
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2,6,12))
++		kobject_uevent(&padapter->pnetdev->dev.kobj, KOBJ_NET_PBC);
++#else
++		kobject_hotplug(&padapter->pnetdev->class_dev.kobj, KOBJ_NET_PBC);
++#endif
++#else
++
++		if ( padapter->pid[0] == 0 )
++		{	//	0 is the default value and it means the application monitors the HW PBC doesn't privde its pid to driver.
++			return;
++		}
++
++#ifdef PLATFORM_LINUX
++		rtw_signal_process(padapter->pid[0], SIGUSR1);
++#endif
++#endif
++	}	
++}
++
++#ifdef CONFIG_PCI_HCI
++//
++//	Description:
++//		Perform interrupt migration dynamically to reduce CPU utilization.
++//
++//	Assumption:
++//		1. Do not enable migration under WIFI test.
++//
++//	Created by Roger, 2010.03.05.
++//
++VOID
++dm_InterruptMigration(
++	IN	PADAPTER	Adapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	BOOLEAN			bCurrentIntMt, bCurrentACIntDisable;
++	BOOLEAN			IntMtToSet = _FALSE; 
++	BOOLEAN			ACIntToSet = _FALSE;
++	
++	
++	// Retrieve current interrupt migration and Tx four ACs IMR settings first.
++	bCurrentIntMt = pHalData->bInterruptMigration;
++	bCurrentACIntDisable = pHalData->bDisableTxInt;
++
++	//
++	// <Roger_Notes> Currently we use busy traffic for reference instead of RxIntOK counts to prevent non-linear Rx statistics 
++	// when interrupt migration is set before. 2010.03.05.
++	// 
++	if(!Adapter->registrypriv.wifi_spec && 
++		(check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE) &&
++		pmlmepriv->LinkDetectInfo.bHigherBusyTraffic)
++	{			
++		IntMtToSet = _TRUE;
++
++		// To check whether we should disable Tx interrupt or not.
++		if(pmlmepriv->LinkDetectInfo.bHigherBusyRxTraffic )
++			ACIntToSet = _TRUE;				
++	}		
++	
++	//Update current settings.
++	if( bCurrentIntMt != IntMtToSet ){
++		DBG_8192C("%s(): Update interrrupt migration(%d)\n",__FUNCTION__,IntMtToSet);
++		if(IntMtToSet)
++		{
++			//
++			// <Roger_Notes> Set interrrupt migration timer and corresponging Tx/Rx counter. 
++			// timer 25ns*0xfa0=100us for 0xf packets.
++			// 2010.03.05.
++			//
++			rtw_write32(Adapter, REG_INT_MIG, 0xff000fa0);// 0x306:Rx, 0x307:Tx
++			pHalData->bInterruptMigration = IntMtToSet;
++		}
++		else
++		{
++			// Reset all interrupt migration settings.
++			rtw_write32(Adapter, REG_INT_MIG, 0);
++			pHalData->bInterruptMigration = IntMtToSet;
++		}
++	}
++
++	/*if( bCurrentACIntDisable != ACIntToSet ){
++		DBG_8192C("%s(): Update AC interrrupt(%d)\n",__FUNCTION__,ACIntToSet);
++		if(ACIntToSet) // Disable four ACs interrupts.
++		{
++			//
++			// <Roger_Notes> Disable VO, VI, BE and BK four AC interrupts to gain more efficient CPU utilization.
++			// When extremely highly Rx OK occurs, we will disable Tx interrupts.
++			// 2010.03.05.
++			//
++			UpdateInterruptMask8192CE( Adapter, 0, RT_AC_INT_MASKS );
++			pHalData->bDisableTxInt = ACIntToSet;
++		}
++		else// Enable four ACs interrupts.
++		{
++			UpdateInterruptMask8192CE( Adapter, RT_AC_INT_MASKS, 0 );
++			pHalData->bDisableTxInt = ACIntToSet;
++		}
++	}*/
++	
++}
++
++#endif
++
++//
++// Initialize GPIO setting registers
++//
++static void
++dm_InitGPIOSetting(
++	IN	PADAPTER	Adapter
++	)
++{
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(Adapter);
++	
++	u8	tmp1byte;
++	
++	tmp1byte = rtw_read8(Adapter, REG_GPIO_MUXCFG);
++	tmp1byte &= (GPIOSEL_GPIO | ~GPIOSEL_ENBT);
++	
++#ifdef CONFIG_BT_COEXIST
++	// UMB-B cut bug. We need to support the modification.
++	if (IS_81xxC_VENDOR_UMC_B_CUT(pHalData->VersionID) && 
++		pHalData->bt_coexist.BT_Coexist)
++	{
++		tmp1byte |= (BIT5);	
++	}
++#endif	
++	rtw_write8(Adapter, REG_GPIO_MUXCFG, tmp1byte);
++
++}
++
++static void update_EDCA_param(_adapter *padapter)
++{
++	u32 	trafficIndex;
++	u32	edca_param;
++	u64	cur_tx_bytes = 0;
++	u64	cur_rx_bytes = 0;
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(padapter);
++	struct dm_priv		*pdmpriv = &pHalData->dmpriv;
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct recv_priv		*precvpriv = &(padapter->recvpriv);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	
++#ifdef CONFIG_BT_COEXIST
++	struct btcoexist_priv	*pbtpriv = &(pHalData->bt_coexist);	
++	u8	bbtchange = _FALSE;
++#endif
++	
++
++	//DBG_871X("%s\n", __FUNCTION__);
++
++	//associated AP
++	if ((pregpriv->wifi_spec == 1) || (pmlmeinfo->HT_enable == 0))
++	{
++		return;
++	}
++	
++	if (pmlmeinfo->assoc_AP_vendor >= maxAP)
++	{
++		return;
++	}
++
++	cur_tx_bytes = pxmitpriv->tx_bytes - pxmitpriv->last_tx_bytes;
++	cur_rx_bytes = precvpriv->rx_bytes - precvpriv->last_rx_bytes;
++
++	//traffic, TX or RX
++	if((pmlmeinfo->assoc_AP_vendor == ralinkAP)||(pmlmeinfo->assoc_AP_vendor == atherosAP))
++	{
++		if (cur_tx_bytes > (cur_rx_bytes << 2))
++		{ // Uplink TP is present.
++			trafficIndex = UP_LINK; 
++		}
++		else
++		{ // Balance TP is present.
++			trafficIndex = DOWN_LINK;
++		}
++	}
++	else
++	{
++		if (cur_rx_bytes > (cur_tx_bytes << 2))
++		{ // Downlink TP is present.
++			trafficIndex = DOWN_LINK;
++		}
++		else
++		{ // Balance TP is present.
++			trafficIndex = UP_LINK;
++		}
++	}
++
++#ifdef CONFIG_BT_COEXIST
++	if(pbtpriv->BT_Coexist)
++	{
++		if( (pbtpriv->BT_EDCA[UP_LINK]!=0) ||  (pbtpriv->BT_EDCA[DOWN_LINK]!=0))
++		{
++			bbtchange = _TRUE;
++		}
++	}
++#endif
++
++	if (pdmpriv->prv_traffic_idx != trafficIndex)
++	{
++#if 0
++#ifdef CONFIG_BT_COEXIST
++		if(_TRUE == bbtchange)		
++			rtw_write32(padapter, REG_EDCA_BE_PARAM, pbtpriv->BT_EDCA[trafficIndex]);		
++		else
++#endif
++		//adjust EDCA parameter for BE queue
++		//fire_write_MAC_cmd(padapter, EDCA_BE_PARAM, EDCAParam[pmlmeinfo->assoc_AP_vendor][trafficIndex]);
++		rtw_write32(padapter, REG_EDCA_BE_PARAM, EDCAParam[pmlmeinfo->assoc_AP_vendor][trafficIndex]);
++
++#else
++		if((pmlmeinfo->assoc_AP_vendor == ciscoAP) && (pmlmeext->cur_wireless_mode & WIRELESS_11_24N))
++		{
++			edca_param = EDCAParam[pmlmeinfo->assoc_AP_vendor][trafficIndex];
++		}
++		else if((pmlmeinfo->assoc_AP_vendor == airgocapAP) &&
++			((pmlmeext->cur_wireless_mode == WIRELESS_11G) ||(pmlmeext->cur_wireless_mode == WIRELESS_11BG)))
++		{
++			edca_param = EDCAParam[pmlmeinfo->assoc_AP_vendor][trafficIndex];
++		}
++		else
++		{
++			edca_param = EDCAParam[unknownAP][trafficIndex];
++		}
++
++#ifdef CONFIG_BT_COEXIST
++		if(_TRUE == bbtchange)		
++			edca_param = pbtpriv->BT_EDCA[trafficIndex];
++#endif
++
++		rtw_write32(padapter, REG_EDCA_BE_PARAM, edca_param);
++#endif
++		pdmpriv->prv_traffic_idx = trafficIndex;
++	}
++	
++//exit_update_EDCA_param:	
++
++	pxmitpriv->last_tx_bytes = pxmitpriv->tx_bytes;
++	precvpriv->last_rx_bytes = precvpriv->rx_bytes;
++
++	return;
++}
++
++static void dm_InitDynamicBBPowerSaving(
++	IN	PADAPTER	Adapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	PS_T	*pPSTable = &pdmpriv->DM_PSTable;
++
++	pPSTable->PreCCAState = CCA_MAX;
++	pPSTable->CurCCAState = CCA_MAX;
++	pPSTable->PreRFState = RF_MAX;
++	pPSTable->CurRFState = RF_MAX;
++	pPSTable->Rssi_val_min = 0;
++}
++
++static void dm_1R_CCA(
++	IN	PADAPTER	pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	PS_T	*pPSTable = &pdmpriv->DM_PSTable;
++
++	if(pPSTable->Rssi_val_min != 0)
++	{
++		if(pPSTable->PreCCAState == CCA_2R)
++		{
++			if(pPSTable->Rssi_val_min >= 35)
++				pPSTable->CurCCAState = CCA_1R;
++			else
++				pPSTable->CurCCAState = CCA_2R;
++		}
++		else{
++			if(pPSTable->Rssi_val_min <= 30)
++				pPSTable->CurCCAState = CCA_2R;
++			else
++				pPSTable->CurCCAState = CCA_1R;
++		}
++	}
++	else
++		pPSTable->CurCCAState=CCA_MAX;
++
++	if(pPSTable->PreCCAState != pPSTable->CurCCAState)
++	{
++		if(pPSTable->CurCCAState == CCA_1R)
++		{
++			if(pHalData->rf_type == RF_2T2R)
++			{
++				PHY_SetBBReg(pAdapter, rOFDM0_TRxPathEnable  , bMaskByte0, 0x13);
++				PHY_SetBBReg(pAdapter, 0xe70, bMaskByte3, 0x20);
++			}
++			else
++			{
++				PHY_SetBBReg(pAdapter, rOFDM0_TRxPathEnable  , bMaskByte0, 0x23);
++				PHY_SetBBReg(pAdapter, 0xe70, 0x7fc00000, 0x10c); // Set RegE70[30:22] = 9b'100001100
++			}
++		}
++		else
++		{
++			PHY_SetBBReg(pAdapter, rOFDM0_TRxPathEnable, bMaskByte0, 0x33);
++			PHY_SetBBReg(pAdapter,0xe70, bMaskByte3, 0x63);
++		}
++		pPSTable->PreCCAState = pPSTable->CurCCAState;
++	}
++	//DBG_8192C("dm_1R_CCA(): CCAStage=%x\n", pPSTable->CurCCAState);
++}
++
++void
++rtl8192c_dm_RF_Saving(
++	IN	PADAPTER	pAdapter,
++	IN	u8	bForceInNormal 
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	PS_T	*pPSTable = &pdmpriv->DM_PSTable;
++
++	if(pdmpriv->initialize == 0){
++		pdmpriv->rf_saving_Reg874 = (PHY_QueryBBReg(pAdapter, rFPGA0_XCD_RFInterfaceSW, bMaskDWord)&0x1CC000)>>14;
++		pdmpriv->rf_saving_RegC70 = (PHY_QueryBBReg(pAdapter, rOFDM0_AGCParameter1, bMaskDWord)&BIT3)>>3;
++		pdmpriv->rf_saving_Reg85C = (PHY_QueryBBReg(pAdapter, rFPGA0_XCD_SwitchControl, bMaskDWord)&0xFF000000)>>24;
++		pdmpriv->rf_saving_RegA74 = (PHY_QueryBBReg(pAdapter, 0xa74, bMaskDWord)&0xF000)>>12;
++		//Reg818 = PHY_QueryBBReg(pAdapter, 0x818, bMaskDWord);
++		pdmpriv->initialize = 1;
++	}
++
++	if(!bForceInNormal)
++	{
++		if(pPSTable->Rssi_val_min != 0)
++		{
++			 
++			if(pPSTable->PreRFState == RF_Normal)
++			{
++			#ifdef CONFIG_SPECIAL_SETTING_FOR_FUNAI_TV
++				if(pPSTable->Rssi_val_min >= 50)
++			#else
++				if(pPSTable->Rssi_val_min >= 30)
++			#endif
++					pPSTable->CurRFState = RF_Save;
++				else
++					pPSTable->CurRFState = RF_Normal;
++			}
++			else{
++			#ifdef CONFIG_SPECIAL_SETTING_FOR_FUNAI_TV
++				if(pPSTable->Rssi_val_min <= 45)
++			#else
++				if(pPSTable->Rssi_val_min <= 25)
++			#endif
++					pPSTable->CurRFState = RF_Normal;
++				else
++					pPSTable->CurRFState = RF_Save;
++			}
++		}
++		else
++			pPSTable->CurRFState=RF_MAX;
++	}
++	else
++	{
++		pPSTable->CurRFState = RF_Normal;
++	}
++	
++	if(pPSTable->PreRFState != pPSTable->CurRFState)
++	{
++		if(pPSTable->CurRFState == RF_Save)
++		{
++			PHY_SetBBReg(pAdapter, rFPGA0_XCD_RFInterfaceSW  , 0x1C0000, 0x2); //Reg874[20:18]=3'b010
++			PHY_SetBBReg(pAdapter, rOFDM0_AGCParameter1, BIT3, 0); //RegC70[3]=1'b0
++			PHY_SetBBReg(pAdapter, rFPGA0_XCD_SwitchControl, 0xFF000000, 0x63); //Reg85C[31:24]=0x63
++			PHY_SetBBReg(pAdapter, rFPGA0_XCD_RFInterfaceSW, 0xC000, 0x2); //Reg874[15:14]=2'b10
++			PHY_SetBBReg(pAdapter, 0xa74, 0xF000, 0x3); //RegA75[7:4]=0x3
++			PHY_SetBBReg(pAdapter, 0x818, BIT28, 0x0); //Reg818[28]=1'b0
++			PHY_SetBBReg(pAdapter, 0x818, BIT28, 0x1); //Reg818[28]=1'b1
++			DBG_8192C("%s(): RF_Save\n", __FUNCTION__);
++		}
++		else
++		{
++			PHY_SetBBReg(pAdapter, rFPGA0_XCD_RFInterfaceSW  , 0x1CC000, pdmpriv->rf_saving_Reg874);
++			PHY_SetBBReg(pAdapter, rOFDM0_AGCParameter1, BIT3, pdmpriv->rf_saving_RegC70);
++			PHY_SetBBReg(pAdapter, rFPGA0_XCD_SwitchControl, 0xFF000000, pdmpriv->rf_saving_Reg85C);
++			PHY_SetBBReg(pAdapter, 0xa74, 0xF000, pdmpriv->rf_saving_RegA74);
++			PHY_SetBBReg(pAdapter, 0x818, BIT28, 0x0);
++			DBG_8192C("%s(): RF_Normal\n", __FUNCTION__);
++		}
++		pPSTable->PreRFState = pPSTable->CurRFState;
++	}
++}
++
++static void
++dm_DynamicBBPowerSaving(
++IN	PADAPTER	pAdapter
++	)
++{	
++
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct mlme_priv	*pmlmepriv = &pAdapter->mlmepriv;
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	PS_T	*pPSTable = &pdmpriv->DM_PSTable;
++
++	//1 1.Determine the minimum RSSI 
++	if((check_fwstate(pmlmepriv, _FW_LINKED) != _TRUE) &&	
++		(pdmpriv->EntryMinUndecoratedSmoothedPWDB == 0))
++	{
++		pPSTable->Rssi_val_min = 0;
++		//RT_TRACE(COMP_BB_POWERSAVING, DBG_LOUD, ("Not connected to any \n"));
++	}
++	if(check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)	// Default port
++	{
++		//if(ACTING_AS_AP(pAdapter) || pMgntInfo->mIbss)
++		 if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) ||
++			       (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE))	//todo: AP Mode
++		{
++			pPSTable->Rssi_val_min = pdmpriv->EntryMinUndecoratedSmoothedPWDB;
++			//RT_TRACE(COMP_BB_POWERSAVING, DBG_LOUD, ("AP Client PWDB = 0x%lx \n", pPSTable->Rssi_val_min));
++		}
++		else
++		{
++			pPSTable->Rssi_val_min = pdmpriv->UndecoratedSmoothedPWDB;
++			//RT_TRACE(COMP_BB_POWERSAVING, DBG_LOUD, ("STA Default Port PWDB = 0x%lx \n", pPSTable->Rssi_val_min));
++		}
++	}
++	else // associated entry pwdb
++	{	
++		pPSTable->Rssi_val_min = pdmpriv->EntryMinUndecoratedSmoothedPWDB;
++		//RT_TRACE(COMP_BB_POWERSAVING, DBG_LOUD, ("AP Ext Port PWDB = 0x%lx \n", pPSTable->Rssi_val_min));
++	}
++	
++	//1 2.Power Saving for 92C
++	if(IS_92C_SERIAL(pHalData->VersionID))
++	{
++		//dm_1R_CCA(pAdapter);
++	}
++	
++	// 20100628 Joseph: Turn off BB power save for 88CE because it makesthroughput unstable.
++	// 20100831 Joseph: Turn ON BB power save again after modifying AGC delay from 900ns to 600ns. 
++	//1 3.Power Saving for 88C
++	else
++	{
++		rtl8192c_dm_RF_Saving(pAdapter, _FALSE);
++	}
++}
++
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++// Add new function to reset the state of antenna diversity before link.
++//
++void SwAntDivResetBeforeLink8192C(IN PADAPTER Adapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	SWAT_T *pDM_SWAT_Table = &pdmpriv->DM_SWAT_Table;
++	
++	pDM_SWAT_Table->SWAS_NoLink_State = 0;
++}
++
++// Compare RSSI for deciding antenna
++void	SwAntDivCompare8192C(PADAPTER Adapter, WLAN_BSSID_EX *dst, WLAN_BSSID_EX *src)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	if((0 != pHalData->AntDivCfg) && (!IS_92C_SERIAL(pHalData->VersionID)) )
++	{
++		//DBG_8192C("update_network=> orgRSSI(%d)(%d),newRSSI(%d)(%d)\n",dst->Rssi,query_rx_pwr_percentage(dst->Rssi),
++		//	src->Rssi,query_rx_pwr_percentage(src->Rssi));
++		//select optimum_antenna for before linked =>For antenna diversity
++		if(dst->Rssi >=  src->Rssi )//keep org parameter
++		{
++			src->Rssi = dst->Rssi;
++			src->PhyInfo.Optimum_antenna = dst->PhyInfo.Optimum_antenna;						
++		}
++	}
++}
++
++// Add new function to reset the state of antenna diversity before link.
++u8 SwAntDivBeforeLink8192C(IN PADAPTER Adapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	SWAT_T			*pDM_SWAT_Table = &pdmpriv->DM_SWAT_Table;
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	
++	// Condition that does not need to use antenna diversity.
++	if(IS_92C_SERIAL(pHalData->VersionID) ||(pHalData->AntDivCfg==0))
++	{
++		//DBG_8192C("SwAntDivBeforeLink8192C(): No AntDiv Mechanism.\n");
++		return _FALSE;
++	}
++
++	if(check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)	
++	{
++		pDM_SWAT_Table->SWAS_NoLink_State = 0;
++		return _FALSE;
++	}
++	// Since driver is going to set BB register, it shall check if there is another thread controlling BB/RF.
++/*	
++	if(pHalData->eRFPowerState!=eRfOn || pMgntInfo->RFChangeInProgress || pMgntInfo->bMediaConnect)
++	{
++	
++	
++		RT_TRACE(COMP_SWAS, DBG_LOUD, 
++				("SwAntDivCheckBeforeLink8192C(): RFChangeInProgress(%x), eRFPowerState(%x)\n", 
++				pMgntInfo->RFChangeInProgress,
++				pHalData->eRFPowerState));
++	
++		pDM_SWAT_Table->SWAS_NoLink_State = 0;
++		
++		return FALSE;
++	}
++*/	
++	
++	if(pDM_SWAT_Table->SWAS_NoLink_State == 0){
++		//switch channel
++		pDM_SWAT_Table->SWAS_NoLink_State = 1;
++		pDM_SWAT_Table->CurAntenna = (pDM_SWAT_Table->CurAntenna==Antenna_A)?Antenna_B:Antenna_A;
++
++		//PHY_SetBBReg(Adapter, rFPGA0_XA_RFInterfaceOE, 0x300, pDM_SWAT_Table->CurAntenna);
++		rtw_antenna_select_cmd(Adapter, pDM_SWAT_Table->CurAntenna, _FALSE);
++		//DBG_8192C("%s change antenna to ANT_( %s ).....\n",__FUNCTION__, (pDM_SWAT_Table->CurAntenna==Antenna_A)?"A":"B");
++		return _TRUE;
++	}
++	else
++	{
++		pDM_SWAT_Table->SWAS_NoLink_State = 0;
++		return _FALSE;
++	}
++		
++
++
++}
++#endif
++#ifdef CONFIG_SW_ANTENNA_DIVERSITY
++//
++// 20100514 Luke/Joseph:
++// Add new function to reset antenna diversity state after link.
++//
++void
++SwAntDivRestAfterLink8192C(
++	IN	PADAPTER	Adapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	SWAT_T			*pDM_SWAT_Table = &pdmpriv->DM_SWAT_Table;
++
++	if(IS_92C_SERIAL(pHalData->VersionID) ||(pHalData->AntDivCfg==0))	
++		return;
++
++	//DBG_8192C("======>   SwAntDivRestAfterLink <========== \n");
++	pHalData->RSSI_cnt_A= 0;
++	pHalData->RSSI_cnt_B= 0;
++	pHalData->RSSI_test = _FALSE;
++	
++	pDM_SWAT_Table->try_flag = 0xff;
++	pDM_SWAT_Table->RSSI_Trying = 0;	
++	pDM_SWAT_Table->SelectAntennaMap=0xAA;
++	pDM_SWAT_Table->CurAntenna = pHalData->CurAntenna;
++	pDM_SWAT_Table->PreAntenna = pHalData->CurAntenna;
++		
++	pdmpriv->lastTxOkCnt=0;
++	pdmpriv->lastRxOkCnt=0;
++
++	pdmpriv->TXByteCnt_A=0;
++	pdmpriv->TXByteCnt_B=0;
++	pdmpriv->RXByteCnt_A=0;
++	pdmpriv->RXByteCnt_B=0;
++	pdmpriv->DoubleComfirm=0;	
++	pdmpriv->TrafficLoad = TRAFFIC_LOW;
++	
++}
++
++
++//
++// 20100514 Luke/Joseph:
++// Add new function for antenna diversity after link.
++// This is the main function of antenna diversity after link.
++// This function is called in HalDmWatchDog() and dm_SW_AntennaSwitchCallback().
++// HalDmWatchDog() calls this function with SWAW_STEP_PEAK to initialize the antenna test.
++// In SWAW_STEP_PEAK, another antenna and a 500ms timer will be set for testing.
++// After 500ms, dm_SW_AntennaSwitchCallback() calls this function to compare the signal just
++// listened on the air with the RSSI of original antenna.
++// It chooses the antenna with better RSSI.
++// There is also a aged policy for error trying. Each error trying will cost more 5 seconds waiting 
++// penalty to get next try.
++//
++static VOID
++dm_SW_AntennaSwitch(
++	PADAPTER	Adapter,
++	u8			Step
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	SWAT_T	*pDM_SWAT_Table = &pdmpriv->DM_SWAT_Table;
++	s32			curRSSI=100, RSSI_A, RSSI_B;
++	u64			curTxOkCnt, curRxOkCnt;
++	u64			CurByteCnt = 0, PreByteCnt = 0;	
++	u8		nextAntenna = 0;
++	u8			Score_A=0, Score_B=0;
++	u8			i;
++
++	// Condition that does not need to use antenna diversity.
++	if(IS_92C_SERIAL(pHalData->VersionID) ||(pHalData->AntDivCfg==0))
++	{
++		//RT_TRACE(COMP_SWAS, DBG_LOUD, ("dm_SW_AntennaSwitch(): No AntDiv Mechanism.\n"));
++		return;
++	}
++	// If dynamic ant_div is disabled.
++	if(!(pdmpriv->DMFlag & DYNAMIC_FUNC_ANT_DIV) )
++	{	
++		return;
++	}
++	
++	if (check_fwstate(&Adapter->mlmepriv, _FW_LINKED)	==_FALSE)
++		return;
++#if 0 //to do
++	// Radio off: Status reset to default and return.
++	if(pHalData->eRFPowerState==eRfOff)
++	{
++		SwAntDivRestAfterLink(Adapter);
++		return;
++	}
++#endif
++	//DBG_8192C("\n............................ %s.........................\n",__FUNCTION__);
++	// Handling step mismatch condition.
++	// Peak step is not finished at last time. Recover the variable and check again.
++	if( Step != pDM_SWAT_Table->try_flag	)
++	{
++		SwAntDivRestAfterLink8192C(Adapter);
++	}
++
++
++	if(pDM_SWAT_Table->try_flag == 0xff)
++	{
++#if 0
++		// Select RSSI checking target
++		if(pMgntInfo->mAssoc && !ACTING_AS_AP(Adapter))
++		{
++			// Target: Infrastructure mode AP.
++			pHalData->RSSI_target = NULL;
++			RT_TRACE(COMP_SWAS, DBG_LOUD, ("dm_SW_AntennaSwitch(): RSSI_target is DEF AP!\n"));
++		}
++		else
++		{
++			u8			index = 0;
++			PRT_WLAN_STA	pEntry = NULL;
++			PADAPTER		pTargetAdapter = NULL;
++		
++			if(	pMgntInfo->mIbss || ACTING_AS_AP(Adapter) )
++			{
++				// Target: AP/IBSS peer.
++				pTargetAdapter = Adapter;
++			}
++			else if(ACTING_AS_AP(ADJUST_TO_ADAPTIVE_ADAPTER(Adapter, FALSE)))
++			{
++				// Target: VWIFI peer.
++				pTargetAdapter = ADJUST_TO_ADAPTIVE_ADAPTER(Adapter, FALSE);
++			}
++
++			if(pTargetAdapter != NULL)
++			{
++				for(index=0; index<ASSOCIATE_ENTRY_NUM; index++)
++				{
++					pEntry = AsocEntry_EnumStation(pTargetAdapter, index);
++					if(pEntry != NULL)
++					{
++						if(pEntry->bAssociated)
++							break;			
++					}
++				}
++			}
++
++			if(pEntry == NULL)
++			{
++				SwAntDivRestAfterLink(Adapter);
++				RT_TRACE(COMP_SWAS, DBG_LOUD, ("dm_SW_AntennaSwitch(): No Link.\n"));
++				return;
++			}
++			else
++			{
++				pHalData->RSSI_target = pEntry;
++				RT_TRACE(COMP_SWAS, DBG_LOUD, ("dm_SW_AntennaSwitch(): RSSI_target is PEER STA\n"));
++			}
++		}
++			
++			
++#endif
++		
++		pHalData->RSSI_cnt_A= 0;
++		pHalData->RSSI_cnt_B= 0;
++		pDM_SWAT_Table->try_flag = 0;
++	//	DBG_8192C("dm_SW_AntennaSwitch(): Set try_flag to 0 prepare for peak!\n");
++		return;
++	}
++	else
++	{
++		curTxOkCnt = Adapter->xmitpriv.tx_bytes - pdmpriv->lastTxOkCnt;
++		curRxOkCnt = Adapter->recvpriv.rx_bytes - pdmpriv->lastRxOkCnt;
++
++		pdmpriv->lastTxOkCnt = Adapter->xmitpriv.tx_bytes ;
++		pdmpriv->lastRxOkCnt = Adapter->recvpriv.rx_bytes ;
++
++		if(pDM_SWAT_Table->try_flag == 1)
++		{
++			if(pDM_SWAT_Table->CurAntenna == Antenna_A)
++		{
++				pdmpriv->TXByteCnt_A += curTxOkCnt;
++				pdmpriv->RXByteCnt_A += curRxOkCnt;
++				//DBG_8192C("#####  TXByteCnt_A(%lld) , RXByteCnt_A(%lld) ####\n",pdmpriv->TXByteCnt_A,pdmpriv->RXByteCnt_A);
++			}
++			else
++			{
++				pdmpriv->TXByteCnt_B += curTxOkCnt;
++				pdmpriv->RXByteCnt_B += curRxOkCnt;
++				//DBG_8192C("#####  TXByteCnt_B(%lld) , RXByteCnt_B(%lld) ####\n",pdmpriv->TXByteCnt_B,pdmpriv->RXByteCnt_B);
++			}
++		
++			nextAntenna = (pDM_SWAT_Table->CurAntenna == Antenna_A)? Antenna_B : Antenna_A;
++			pDM_SWAT_Table->RSSI_Trying--;
++			//DBG_8192C("RSSI_Trying = %d\n",pDM_SWAT_Table->RSSI_Trying);
++			
++			if(pDM_SWAT_Table->RSSI_Trying == 0)
++			{
++				CurByteCnt = (pDM_SWAT_Table->CurAntenna == Antenna_A)? (pdmpriv->TXByteCnt_A+pdmpriv->RXByteCnt_A) : (pdmpriv->TXByteCnt_B+pdmpriv->RXByteCnt_B);
++				PreByteCnt = (pDM_SWAT_Table->CurAntenna == Antenna_A)? (pdmpriv->TXByteCnt_B+pdmpriv->RXByteCnt_B) : (pdmpriv->TXByteCnt_A+pdmpriv->RXByteCnt_A);
++
++				//DBG_8192C("CurByteCnt = %lld\n", CurByteCnt);
++				//DBG_8192C("PreByteCnt = %lld\n",PreByteCnt);		
++				
++				if(pdmpriv->TrafficLoad == TRAFFIC_HIGH)
++				{
++					PreByteCnt = PreByteCnt*9;	//normalize:Cur=90ms:Pre=10ms					
++				}
++				else if(pdmpriv->TrafficLoad == TRAFFIC_LOW)
++				{					
++					//CurByteCnt = CurByteCnt/2;
++					CurByteCnt = CurByteCnt>>1;//normalize:100ms:50ms					
++				}
++
++
++				//DBG_8192C("After DIV=>CurByteCnt = %lld\n", CurByteCnt);
++				//DBG_8192C("PreByteCnt = %lld\n",PreByteCnt);		
++
++				if(pHalData->RSSI_cnt_A > 0)
++					RSSI_A = pHalData->RSSI_sum_A/pHalData->RSSI_cnt_A; 
++				else
++					RSSI_A = 0;
++				if(pHalData->RSSI_cnt_B > 0)
++					RSSI_B = pHalData->RSSI_sum_B/pHalData->RSSI_cnt_B; 
++				else
++					RSSI_B = 0;
++				
++				curRSSI = (pDM_SWAT_Table->CurAntenna == Antenna_A)? RSSI_A : RSSI_B;
++				pDM_SWAT_Table->PreRSSI =  (pDM_SWAT_Table->CurAntenna == Antenna_A)? RSSI_B : RSSI_A;
++				//DBG_8192C("Luke:PreRSSI = %d, CurRSSI = %d\n",pDM_SWAT_Table->PreRSSI, curRSSI);
++				//DBG_8192C("SWAS: preAntenna= %s, curAntenna= %s \n", 
++				//(pDM_SWAT_Table->PreAntenna == Antenna_A?"A":"B"), (pDM_SWAT_Table->CurAntenna == Antenna_A?"A":"B"));
++				//DBG_8192C("Luke:RSSI_A= %d, RSSI_cnt_A = %d, RSSI_B= %d, RSSI_cnt_B = %d\n",
++					//RSSI_A, pHalData->RSSI_cnt_A, RSSI_B, pHalData->RSSI_cnt_B);
++			}
++
++			}
++			else
++			{
++		
++			if(pHalData->RSSI_cnt_A > 0)
++				RSSI_A = pHalData->RSSI_sum_A/pHalData->RSSI_cnt_A; 
++			else
++				RSSI_A = 0;
++			if(pHalData->RSSI_cnt_B > 0)
++				RSSI_B = pHalData->RSSI_sum_B/pHalData->RSSI_cnt_B; 
++			else
++				RSSI_B = 0;
++			curRSSI = (pDM_SWAT_Table->CurAntenna == Antenna_A)? RSSI_A : RSSI_B;
++			pDM_SWAT_Table->PreRSSI =  (pDM_SWAT_Table->PreAntenna == Antenna_A)? RSSI_A : RSSI_B;
++			//DBG_8192C("Ekul:PreRSSI = %d, CurRSSI = %d\n", pDM_SWAT_Table->PreRSSI, curRSSI);
++			//DBG_8192C("SWAS: preAntenna= %s, curAntenna= %s \n", 
++			//(pDM_SWAT_Table->PreAntenna == Antenna_A?"A":"B"), (pDM_SWAT_Table->CurAntenna == Antenna_A?"A":"B"));
++
++			//DBG_8192C("Ekul:RSSI_A= %d, RSSI_cnt_A = %d, RSSI_B= %d, RSSI_cnt_B = %d\n",
++			//	RSSI_A, pHalData->RSSI_cnt_A, RSSI_B, pHalData->RSSI_cnt_B);
++			//RT_TRACE(COMP_SWAS, DBG_LOUD, ("Ekul:curTxOkCnt = %d\n", curTxOkCnt));
++			//RT_TRACE(COMP_SWAS, DBG_LOUD, ("Ekul:curRxOkCnt = %d\n", curRxOkCnt));
++			}
++
++		//1 Trying State
++		if((pDM_SWAT_Table->try_flag == 1)&&(pDM_SWAT_Table->RSSI_Trying == 0))
++		{
++
++			if(pDM_SWAT_Table->TestMode == TP_MODE)
++			{
++				//DBG_8192C("SWAS: TestMode = TP_MODE\n");
++				//DBG_8192C("TRY:CurByteCnt = %lld\n", CurByteCnt);
++				//DBG_8192C("TRY:PreByteCnt = %lld\n",PreByteCnt);		
++				if(CurByteCnt < PreByteCnt)
++				{
++					if(pDM_SWAT_Table->CurAntenna == Antenna_A)
++						pDM_SWAT_Table->SelectAntennaMap=pDM_SWAT_Table->SelectAntennaMap<<1;
++					else
++						pDM_SWAT_Table->SelectAntennaMap=(pDM_SWAT_Table->SelectAntennaMap<<1)+1;
++				}
++				else
++				{
++					if(pDM_SWAT_Table->CurAntenna == Antenna_A)
++						pDM_SWAT_Table->SelectAntennaMap=(pDM_SWAT_Table->SelectAntennaMap<<1)+1;
++					else
++						pDM_SWAT_Table->SelectAntennaMap=pDM_SWAT_Table->SelectAntennaMap<<1;
++				}
++				for (i= 0; i<8; i++)
++				{
++					if(((pDM_SWAT_Table->SelectAntennaMap>>i)&BIT0) == 1)
++						Score_A++;
++					else
++						Score_B++;
++				}
++				//DBG_8192C("SelectAntennaMap=%x\n ",pDM_SWAT_Table->SelectAntennaMap);
++				//DBG_8192C("Score_A=%d, Score_B=%d\n", Score_A, Score_B);
++				
++				if(pDM_SWAT_Table->CurAntenna == Antenna_A)
++				{
++					nextAntenna = (Score_A > Score_B)?Antenna_A:Antenna_B;
++				}
++				else
++				{
++					nextAntenna = (Score_B > Score_A)?Antenna_B:Antenna_A;
++				}
++				//RT_TRACE(COMP_SWAS, DBG_LOUD, ("nextAntenna=%s\n",(nextAntenna==Antenna_A)?"A":"B"));
++				//RT_TRACE(COMP_SWAS, DBG_LOUD, ("preAntenna= %s, curAntenna= %s \n", 
++					//(DM_SWAT_Table.PreAntenna == Antenna_A?"A":"B"), (DM_SWAT_Table.CurAntenna == Antenna_A?"A":"B")));
++
++				if(nextAntenna != pDM_SWAT_Table->CurAntenna)
++				{
++					//DBG_8192C("SWAS: Switch back to another antenna\n");
++				}
++				else
++				{
++					//DBG_8192C("SWAS: current anntena is good\n");
++				}	
++			}
++
++			if(pDM_SWAT_Table->TestMode == RSSI_MODE)
++			{	
++				//DBG_8192C("SWAS: TestMode = RSSI_MODE\n");
++				pDM_SWAT_Table->SelectAntennaMap=0xAA;
++				if(curRSSI < pDM_SWAT_Table->PreRSSI) //Current antenna is worse than previous antenna
++				{
++					//DBG_8192C("SWAS: Switch back to another antenna\n");
++					nextAntenna = (pDM_SWAT_Table->CurAntenna == Antenna_A)? Antenna_B : Antenna_A;
++				}
++				else // current anntena is good
++				{
++					nextAntenna = pDM_SWAT_Table->CurAntenna;
++					//DBG_8192C("SWAS: current anntena is good\n");
++				}
++				}
++				pDM_SWAT_Table->try_flag = 0;
++				pHalData->RSSI_test = _FALSE;
++				pHalData->RSSI_sum_A = 0;
++				pHalData->RSSI_cnt_A = 0;
++				pHalData->RSSI_sum_B = 0;
++				pHalData->RSSI_cnt_B = 0;
++				pdmpriv->TXByteCnt_A = 0;
++				pdmpriv->TXByteCnt_B = 0;
++				pdmpriv->RXByteCnt_A = 0;
++				pdmpriv->RXByteCnt_B = 0;
++			
++			}
++
++		//1 Normal State
++		else if(pDM_SWAT_Table->try_flag == 0)
++			{
++			if(pdmpriv->TrafficLoad == TRAFFIC_HIGH)
++				{
++				if(((curTxOkCnt+curRxOkCnt)>>1) > 1875000)
++					pdmpriv->TrafficLoad = TRAFFIC_HIGH;
++				else
++					pdmpriv->TrafficLoad = TRAFFIC_LOW;
++			}
++			else if(pdmpriv->TrafficLoad == TRAFFIC_LOW)
++				{
++				if(((curTxOkCnt+curRxOkCnt)>>1) > 1875000)
++					pdmpriv->TrafficLoad = TRAFFIC_HIGH;
++				else
++					pdmpriv->TrafficLoad = TRAFFIC_LOW;
++			}
++			if(pdmpriv->TrafficLoad == TRAFFIC_HIGH)
++				pDM_SWAT_Table->bTriggerAntennaSwitch = 0;
++			//DBG_8192C("Normal:TrafficLoad = %lld\n", curTxOkCnt+curRxOkCnt);
++
++			//Prepare To Try Antenna		
++					nextAntenna = (pDM_SWAT_Table->CurAntenna == Antenna_A)? Antenna_B : Antenna_A;
++					pDM_SWAT_Table->try_flag = 1;
++					pHalData->RSSI_test = _TRUE;
++			if((curRxOkCnt+curTxOkCnt) > 1000)
++			{
++				pDM_SWAT_Table->RSSI_Trying = 4;
++				pDM_SWAT_Table->TestMode = TP_MODE;
++				}
++				else
++				{
++				pDM_SWAT_Table->RSSI_Trying = 2;
++				pDM_SWAT_Table->TestMode = RSSI_MODE;
++
++			}
++			//DBG_8192C("SWAS: Normal State -> Begin Trying! TestMode=%s\n",(pDM_SWAT_Table->TestMode == TP_MODE)?"TP":"RSSI");
++			
++			
++			pHalData->RSSI_sum_A = 0;
++			pHalData->RSSI_cnt_A = 0;
++			pHalData->RSSI_sum_B = 0;
++			pHalData->RSSI_cnt_B = 0;
++		}
++	}
++
++	//1 4.Change TRX antenna
++	if(nextAntenna != pDM_SWAT_Table->CurAntenna)
++	{
++		//DBG_8192C("@@@@@@@@ SWAS: Change TX Antenna!\n ");		
++		rtw_antenna_select_cmd(Adapter, nextAntenna, 1);
++	}
++
++	//1 5.Reset Statistics
++	pDM_SWAT_Table->PreAntenna = pDM_SWAT_Table->CurAntenna;
++	pDM_SWAT_Table->CurAntenna = nextAntenna;
++	pDM_SWAT_Table->PreRSSI = curRSSI;
++
++
++	//1 6.Set next timer
++
++	if(pDM_SWAT_Table->RSSI_Trying == 0)
++		return;
++
++	if(pDM_SWAT_Table->RSSI_Trying%2 == 0)
++	{
++		if(pDM_SWAT_Table->TestMode == TP_MODE)
++		{
++			if(pdmpriv->TrafficLoad == TRAFFIC_HIGH)
++			{
++				_set_timer(&pdmpriv->SwAntennaSwitchTimer,10 ); //ms
++				//DBG_8192C("dm_SW_AntennaSwitch(): Test another antenna for 10 ms\n");
++			}
++			else if(pdmpriv->TrafficLoad == TRAFFIC_LOW)
++			{
++				_set_timer(&pdmpriv->SwAntennaSwitchTimer, 50 ); //ms
++				//DBG_8192C("dm_SW_AntennaSwitch(): Test another antenna for 50 ms\n");
++			}
++	}
++	else
++	{
++			_set_timer(&pdmpriv->SwAntennaSwitchTimer, 500 ); //ms
++			//DBG_8192C("dm_SW_AntennaSwitch(): Test another antenna for 500 ms\n");
++		}
++	}
++	else
++	{
++		if(pDM_SWAT_Table->TestMode == TP_MODE)
++		{
++			if(pdmpriv->TrafficLoad == TRAFFIC_HIGH)			
++				_set_timer(&pdmpriv->SwAntennaSwitchTimer,90 ); //ms			
++			else if(pdmpriv->TrafficLoad == TRAFFIC_LOW)
++				_set_timer(&pdmpriv->SwAntennaSwitchTimer,100 ); //ms
++		}
++		else
++		{
++			_set_timer(&pdmpriv->SwAntennaSwitchTimer,500 ); //ms
++			//DBG_8192C("dm_SW_AntennaSwitch(): Test another antenna for 500 ms\n");
++		}
++	}
++
++//	RT_TRACE(COMP_SWAS, DBG_LOUD, ("SWAS: -----The End-----\n "));
++
++}
++
++//
++// 20100514 Luke/Joseph:
++// Callback function for 500ms antenna test trying.
++//
++static void dm_SW_AntennaSwitchCallback(void *FunctionContext)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++
++	if(padapter->net_closed == _TRUE)
++			return;
++	// Only 
++	dm_SW_AntennaSwitch(padapter, SWAW_STEP_DETERMINE);
++}
++
++
++//
++// 20100722
++// This function is used to gather the RSSI information for antenna testing.
++// It selects the RSSI of the peer STA that we want to know.
++//
++void SwAntDivRSSICheck8192C(_adapter *padapter ,u32 RxPWDBAll)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);	
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++
++	SWAT_T	*pDM_SWAT_Table = &pdmpriv->DM_SWAT_Table;
++
++	if(IS_92C_SERIAL(pHalData->VersionID) ||pHalData->AntDivCfg==0)
++		return;
++	
++	if(check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)		
++	{			
++		if(pDM_SWAT_Table->CurAntenna == Antenna_A)
++		{			
++			pHalData->RSSI_sum_A += RxPWDBAll;
++			pHalData->RSSI_cnt_A++;
++		}
++		else
++		{
++			pHalData->RSSI_sum_B+= RxPWDBAll;
++			pHalData->RSSI_cnt_B++;
++		
++		}
++		//DBG_8192C("%s Ant_(%s),RSSI_sum(%d),RSSI_cnt(%d)\n",__FUNCTION__,(2==pHalData->CurAntenna)?"A":"B",pHalData->RSSI_sum,pHalData->RSSI_cnt);
++	}
++	
++}
++
++
++
++static VOID
++dm_SW_AntennaSwitchInit(
++	IN	PADAPTER	Adapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	SWAT_T	*pDM_SWAT_Table = &pdmpriv->DM_SWAT_Table;
++
++	pHalData->RSSI_sum_A = 0;	
++	pHalData->RSSI_sum_B = 0;
++	pHalData->RSSI_cnt_A = 0;
++	pHalData->RSSI_cnt_B = 0;
++
++	pDM_SWAT_Table->CurAntenna = pHalData->CurAntenna;
++	pDM_SWAT_Table->PreAntenna = pHalData->CurAntenna;
++	pDM_SWAT_Table->try_flag = 0xff;
++	pDM_SWAT_Table->PreRSSI = 0;
++	pDM_SWAT_Table->bTriggerAntennaSwitch = 0;	
++	pDM_SWAT_Table->SelectAntennaMap=0xAA;
++	
++	// Move the timer initialization to InitializeVariables function.
++	//PlatformInitializeTimer(Adapter, &pMgntInfo->SwAntennaSwitchTimer, (RT_TIMER_CALL_BACK)dm_SW_AntennaSwitchCallback, NULL, "SwAntennaSwitchTimer");	
++}
++
++#endif
++
++//#define	RSSI_CCK	0
++//#define	RSSI_OFDM	1
++static void dm_RSSIMonitorInit(
++	IN	PADAPTER	Adapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	pdmpriv->OFDM_Pkt_Cnt = 0;
++	pdmpriv->RSSI_Select = RSSI_DEFAULT;
++}
++
++static void dm_RSSIMonitorCheck(
++	IN	PADAPTER	Adapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	struct mlme_priv *pmlmepriv = &Adapter->mlmepriv;
++
++	if(check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE)
++		return;
++		
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE |WIFI_ADHOC_STATE) == _TRUE )
++	{
++		if(Adapter->stapriv.asoc_sta_count < 2)
++			return;			
++	}		
++	
++	if(pdmpriv->OFDM_Pkt_Cnt == 0)
++		pdmpriv->RSSI_Select = RSSI_CCK;
++	else
++		pdmpriv->RSSI_Select = RSSI_OFDM;
++
++	pdmpriv->OFDM_Pkt_Cnt = 0;	
++	//DBG_8192C("RSSI_Select=%s OFDM_Pkt_Cnt(%d)\n",
++		//(pdmpriv->RSSI_Select == RSSI_OFDM)?"RSSI_OFDM":"RSSI_CCK",
++		//pdmpriv->OFDM_Pkt_Cnt);
++}
++
++//============================================================
++// functions
++//============================================================
++void rtl8192c_init_dm_priv(IN PADAPTER Adapter)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++
++	//_rtw_memset(pdmpriv, 0, sizeof(struct dm_priv));
++
++#ifdef CONFIG_SW_ANTENNA_DIVERSITY
++	_init_timer(&(pdmpriv->SwAntennaSwitchTimer),  Adapter->pnetdev , dm_SW_AntennaSwitchCallback, Adapter);
++#endif
++}
++
++void rtl8192c_deinit_dm_priv(IN PADAPTER Adapter)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++
++#ifdef CONFIG_SW_ANTENNA_DIVERSITY
++	_cancel_timer_ex(&pdmpriv->SwAntennaSwitchTimer);
++#endif
++}
++#ifdef CONFIG_HW_ANTENNA_DIVERSITY
++void dm_InitHybridAntDiv(IN PADAPTER Adapter)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++
++	if(IS_92C_SERIAL(pHalData->VersionID) ||pHalData->AntDivCfg==0)
++		return;
++	
++	//Set OFDM HW RX Antenna Diversity
++	PHY_SetBBReg(Adapter,0xc50, BIT7, 1); //Enable Hardware antenna switch
++	PHY_SetBBReg(Adapter,0x870, BIT9|BIT8, 0); //Enable hardware control of "ANT_SEL" & "ANT_SELB"
++	PHY_SetBBReg(Adapter,0xCA4, BIT11, 0); //Switch to another antenna by checking pwdb threshold
++	PHY_SetBBReg(Adapter,0xCA4, 0x7FF, 0x080); //Pwdb threshold=8dB
++	PHY_SetBBReg(Adapter,0xC54, BIT23, 1); //Decide final antenna by comparing 2 antennas' pwdb
++	PHY_SetBBReg(Adapter,0x874, BIT23, 0); //No update ANTSEL during GNT_BT=1
++	PHY_SetBBReg(Adapter,0x80C, BIT21, 1); //TX atenna selection from tx_info
++	//Set CCK HW RX Antenna Diversity
++	PHY_SetBBReg(Adapter,0xA00, BIT15, 1);//Enable antenna diversity
++	PHY_SetBBReg(Adapter,0xA0C, BIT4, 0); //Antenna diversity decision period = 32 sample
++	PHY_SetBBReg(Adapter,0xA0C, 0xf, 0xf); //Threshold for antenna diversity. Check another antenna power if input power < ANT_lim*4
++	PHY_SetBBReg(Adapter,0xA10, BIT13, 1); //polarity ana_A=1 and ana_B=0
++	PHY_SetBBReg(Adapter,0xA14, 0x1f, 0x8); //default antenna power = inpwr*(0.5 + r_ant_step/16)
++	
++	pHalData->CCK_Ant1_Cnt = 0;
++	pHalData->CCK_Ant2_Cnt = 0;
++	pHalData->OFDM_Ant1_Cnt = 0;
++	pHalData->OFDM_Ant2_Cnt = 0;
++}
++
++
++#define 	RxDefaultAnt1		0x65a9
++#define	RxDefaultAnt2		0x569a
++
++void dm_SelectRXDefault(IN	PADAPTER	Adapter)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	
++	if(IS_92C_SERIAL(pHalData->VersionID) ||pHalData->AntDivCfg==0)
++		return;
++	
++	//DbgPrint(" Ant1_Cnt=%d, Ant2_Cnt=%d\n", pHalData->Ant1_Cnt, pHalData->Ant2_Cnt);
++	//DBG_8192C(" CCK_Ant1_Cnt = %d,  CCK_Ant2_Cnt = %d\n", pHalData->CCK_Ant1_Cnt, pHalData->CCK_Ant2_Cnt);
++	//DBG_8192C(" OFDM_Ant1_Cnt = %d,  OFDM_Ant2_Cnt = %d\n", pHalData->OFDM_Ant1_Cnt, pHalData->OFDM_Ant2_Cnt);
++	if((pHalData->OFDM_Ant1_Cnt == 0) && (pHalData->OFDM_Ant2_Cnt == 0)) 
++	{
++		if((pHalData->CCK_Ant1_Cnt + pHalData->CCK_Ant2_Cnt) >=10 )
++		{
++			if(pHalData->CCK_Ant1_Cnt > (5*pHalData->CCK_Ant2_Cnt))
++			{
++				DBG_8192C(" RX Default = Ant1\n");
++				PHY_SetBBReg(Adapter, 0x858, 0xFFFF, RxDefaultAnt1);
++			}
++			else if(pHalData->CCK_Ant2_Cnt > (5*pHalData->CCK_Ant1_Cnt))
++			{
++				DBG_8192C(" RX Default = Ant2\n");
++				PHY_SetBBReg(Adapter, 0x858, 0xFFFF, RxDefaultAnt2);
++			}
++			else if(pHalData->CCK_Ant1_Cnt > pHalData->CCK_Ant2_Cnt)
++			{
++				DBG_8192C(" RX Default = Ant2\n");
++				PHY_SetBBReg(Adapter, 0x858, 0xFFFF, RxDefaultAnt2);
++			}
++			else
++			{
++				DBG_8192C(" RX Default = Ant1\n");
++				PHY_SetBBReg(Adapter, 0x858, 0xFFFF, RxDefaultAnt1);
++			}
++			pHalData->CCK_Ant1_Cnt = 0;
++			pHalData->CCK_Ant2_Cnt = 0;
++			pHalData->OFDM_Ant1_Cnt = 0;
++			pHalData->OFDM_Ant2_Cnt = 0;
++		}
++	}
++	else
++	{
++		if(pHalData->OFDM_Ant1_Cnt > pHalData->OFDM_Ant2_Cnt)
++		{
++			DBG_8192C(" RX Default = Ant1\n");
++			PHY_SetBBReg(Adapter, 0x858, 0xFFFF, RxDefaultAnt1);
++		}
++		else
++		{
++			DBG_8192C(" RX Default = Ant2\n");
++			PHY_SetBBReg(Adapter, 0x858, 0xFFFF, RxDefaultAnt2);
++		}
++		pHalData->CCK_Ant1_Cnt = 0;
++		pHalData->CCK_Ant2_Cnt = 0;
++		pHalData->OFDM_Ant1_Cnt = 0;
++		pHalData->OFDM_Ant2_Cnt = 0;
++	}
++
++
++}
++
++#endif
++
++void
++rtl8192c_InitHalDm(
++	IN	PADAPTER	Adapter
++	)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	u8	i;
++
++#ifdef CONFIG_USB_HCI
++	dm_InitGPIOSetting(Adapter);
++#endif
++
++	pdmpriv->DM_Type = DM_Type_ByDriver;	
++	pdmpriv->DMFlag = DYNAMIC_FUNC_DISABLE;
++	pdmpriv->UndecoratedSmoothedPWDB = (-1);
++	pdmpriv->UndecoratedSmoothedCCK = (-1);
++	
++	
++	//.1 DIG INIT
++	pdmpriv->bDMInitialGainEnable = _TRUE;
++	pdmpriv->DMFlag |= DYNAMIC_FUNC_DIG;
++	dm_DIGInit(Adapter);
++
++	//.2 DynamicTxPower INIT
++	pdmpriv->DMFlag |= DYNAMIC_FUNC_HP;
++	dm_InitDynamicTxPower(Adapter);
++
++	//.3
++	DM_InitEdcaTurbo(Adapter);
++
++	//.4 RateAdaptive INIT
++	dm_InitRateAdaptiveMask(Adapter);
++
++	//.5 Tx Power Tracking Init.
++	pdmpriv->DMFlag |= DYNAMIC_FUNC_SS;
++	DM_InitializeTXPowerTracking(Adapter);
++
++#ifdef CONFIG_BT_COEXIST
++	pdmpriv->DMFlag |= DYNAMIC_FUNC_BT;
++	dm_InitBtCoexistDM(Adapter);
++#endif
++
++	dm_InitDynamicBBPowerSaving(Adapter);
++
++#ifdef CONFIG_SW_ANTENNA_DIVERSITY
++	pdmpriv->DMFlag |= DYNAMIC_FUNC_ANT_DIV;
++	dm_SW_AntennaSwitchInit(Adapter);
++#endif
++
++#ifdef CONFIG_HW_ANTENNA_DIVERSITY
++	pdmpriv->DMFlag |= DYNAMIC_FUNC_ANT_DIV;
++	dm_InitHybridAntDiv(Adapter);
++#endif
++
++	dm_RSSIMonitorInit(Adapter);
++
++	pdmpriv->DMFlag_tmp = pdmpriv->DMFlag;
++
++	// Save REG_INIDATA_RATE_SEL value for TXDESC.
++	for(i = 0 ; i<32 ; i++)
++	{
++		pdmpriv->INIDATA_RATE[i] = rtw_read8(Adapter, REG_INIDATA_RATE_SEL+i) & 0x3f;
++	}
++
++#ifdef CONFIG_DM_ADAPTIVITY
++	pdmpriv->DMFlag |= DYNAMIC_FUNC_ADAPTIVITY;
++	dm_adaptivity_init(Adapter);
++#endif
++
++}
++
++#ifdef CONFIG_CONCURRENT_MODE
++static void FindMinimumRSSI(PADAPTER Adapter)
++{
++	PHAL_DATA_TYPE	pbuddy_HalData;
++	struct dm_priv *pbuddy_dmpriv;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	PADAPTER pbuddy_adapter = Adapter->pbuddy_adapter;
++	struct mlme_priv *pmlmepriv = &Adapter->mlmepriv;
++
++	if(!rtw_buddy_adapter_up(Adapter))
++		return;
++	
++	pbuddy_HalData = GET_HAL_DATA(pbuddy_adapter);
++	pbuddy_dmpriv = &pbuddy_HalData->dmpriv;
++
++	//get min. [PWDB] when both interfaces are connected
++	if((check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE 
++		&& Adapter->stapriv.asoc_sta_count > 2 
++		&& check_buddy_fwstate(Adapter, _FW_LINKED)) || 
++		(check_buddy_fwstate(Adapter, WIFI_AP_STATE) == _TRUE 
++		&& pbuddy_adapter->stapriv.asoc_sta_count > 2
++		&& check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) ||
++		(check_fwstate(pmlmepriv, WIFI_STATION_STATE) 
++		&& check_fwstate(pmlmepriv, _FW_LINKED)
++		&& check_buddy_fwstate(Adapter,WIFI_STATION_STATE) 
++		&& check_buddy_fwstate(Adapter,_FW_LINKED)))
++	{
++		if(pdmpriv->UndecoratedSmoothedPWDB > pbuddy_dmpriv->UndecoratedSmoothedPWDB)
++			pdmpriv->UndecoratedSmoothedPWDB = pbuddy_dmpriv->UndecoratedSmoothedPWDB;
++	}//primary interface is not connected
++	else if((check_buddy_fwstate(Adapter, WIFI_AP_STATE) == _TRUE 
++		&& pbuddy_adapter->stapriv.asoc_sta_count > 2) || 
++		(check_buddy_fwstate(Adapter,WIFI_STATION_STATE) 
++		&& check_buddy_fwstate(Adapter,_FW_LINKED)))
++	{
++		pdmpriv->UndecoratedSmoothedPWDB = pbuddy_dmpriv->UndecoratedSmoothedPWDB;
++	}
++	//secondary is not connected
++	else if((check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE 
++		&& Adapter->stapriv.asoc_sta_count > 2) || 
++		(check_fwstate(pmlmepriv, WIFI_STATION_STATE) 
++		&& check_fwstate(pmlmepriv, _FW_LINKED)))
++	{
++		pbuddy_dmpriv->UndecoratedSmoothedPWDB = 0;
++	}
++	//both interfaces are not connected
++	else
++	{
++		pdmpriv->UndecoratedSmoothedPWDB = 0;
++		pbuddy_dmpriv->UndecoratedSmoothedPWDB = 0;
++	}
++		
++	//primary interface is ap mode
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE && Adapter->stapriv.asoc_sta_count > 2)
++	{
++		pbuddy_dmpriv->EntryMinUndecoratedSmoothedPWDB = 0;
++	}//secondary interface is ap mode
++	else if(check_buddy_fwstate(Adapter, WIFI_AP_STATE) == _TRUE && pbuddy_adapter->stapriv.asoc_sta_count > 2)
++	{
++		pdmpriv->EntryMinUndecoratedSmoothedPWDB = pbuddy_dmpriv->EntryMinUndecoratedSmoothedPWDB;
++	}
++	else //both interfaces are not ap mode
++	{
++		pdmpriv->EntryMinUndecoratedSmoothedPWDB = pbuddy_dmpriv->EntryMinUndecoratedSmoothedPWDB = 0;
++	}
++
++} 
++
++#endif //CONFIG_CONCURRENT_MODE
++
++VOID
++rtl8192c_HalDmWatchDog(
++	IN	PADAPTER	Adapter
++	)
++{
++	BOOLEAN		bFwCurrentInPSMode = _FALSE;
++	BOOLEAN		bFwPSAwake = _TRUE;
++	u8 hw_init_completed = _FALSE;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++#ifdef CONFIG_CONCURRENT_MODE
++	PADAPTER pbuddy_adapter = Adapter->pbuddy_adapter;
++#endif //CONFIG_CONCURRENT_MODE
++
++	#if defined(CONFIG_CONCURRENT_MODE)
++	if (Adapter->isprimary == _FALSE && pbuddy_adapter) {
++		hw_init_completed = pbuddy_adapter->hw_init_completed;
++	} else
++	#endif
++	{
++		hw_init_completed = Adapter->hw_init_completed;
++	}
++
++	if (hw_init_completed == _FALSE)
++		goto skip_dm;
++
++#ifdef CONFIG_LPS
++	#if defined(CONFIG_CONCURRENT_MODE)
++	if (Adapter->iface_type != IFACE_PORT0 && pbuddy_adapter) {
++		bFwCurrentInPSMode = pbuddy_adapter->pwrctrlpriv.bFwCurrentInPSMode;
++		rtw_hal_get_hwreg(pbuddy_adapter, HW_VAR_FWLPS_RF_ON, (u8 *)(&bFwPSAwake));
++	} else
++	#endif
++	{
++		bFwCurrentInPSMode = Adapter->pwrctrlpriv.bFwCurrentInPSMode;
++		rtw_hal_get_hwreg(Adapter, HW_VAR_FWLPS_RF_ON, (u8 *)(&bFwPSAwake));
++	}
++#endif
++
++#ifdef CONFIG_P2P_PS
++	// Fw is under p2p powersaving mode, driver should stop dynamic mechanism.
++	// modifed by thomas. 2011.06.11.
++	if(Adapter->wdinfo.p2p_ps_mode)
++		bFwPSAwake = _FALSE;
++#endif // CONFIG_P2P_PS
++
++	// Stop dynamic mechanism when:
++	// 1. RF is OFF. (No need to do DM.)
++	// 2. Fw is under power saving mode for FwLPS. (Prevent from SW/FW I/O racing.)
++	// 3. IPS workitem is scheduled. (Prevent from IPS sequence to be swapped with DM.
++	//     Sometimes DM execution time is longer than 100ms such that the assertion
++	//     in MgntActSet_RF_State() called by InactivePsWorkItem will be triggered by 
++	//     wating to long for RFChangeInProgress.)
++	// 4. RFChangeInProgress is TRUE. (Prevent from broken by IPS/HW/SW Rf off.)
++	// Noted by tynli. 2010.06.01.
++	//if(rfState == eRfOn)
++	if( (hw_init_completed == _TRUE) 
++		&& ((!bFwCurrentInPSMode) && bFwPSAwake))
++	{
++		//
++		// Calculate Tx/Rx statistics.
++		//
++		dm_CheckStatistics(Adapter);
++
++		//
++		// For PWDB monitor and record some value for later use.
++		//
++		PWDB_Monitor(Adapter);
++
++		dm_RSSIMonitorCheck(Adapter);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if(Adapter->adapter_type > PRIMARY_ADAPTER)
++			goto _record_initrate;
++
++		FindMinimumRSSI(Adapter);
++#endif
++
++		//
++		// Dynamic Initial Gain mechanism.
++		//
++		dm_FalseAlarmCounterStatistics(Adapter);
++		dm_DIG(Adapter);
++		dm_adaptivity(Adapter);
++
++		//
++		//Dynamic BB Power Saving Mechanism
++		//
++		dm_DynamicBBPowerSaving(Adapter);
++
++		//
++		// Dynamic Tx Power mechanism.
++		//
++		dm_DynamicTxPower(Adapter);
++
++		//
++		// Tx Power Tracking.
++		//
++#if MP_DRIVER == 0
++#ifdef CONFIG_BUSY_TRAFFIC_SKIP_PWR_TRACK
++		if(pmlmepriv->LinkDetectInfo.bBusyTraffic == _FALSE)
++#endif //CONFIG_BUSY_TRAFFIC_SKIP_PWR_TRACK
++#endif
++			rtl8192c_dm_CheckTXPowerTracking(Adapter);
++
++		//
++		// Rate Adaptive by Rx Signal Strength mechanism.
++		//
++		dm_RefreshRateAdaptiveMask(Adapter);
++
++#ifdef CONFIG_BT_COEXIST
++		//BT-Coexist
++		dm_BTCoexist(Adapter);
++#endif
++
++		// EDCA turbo
++		//update the EDCA paramter according to the Tx/RX mode
++		//update_EDCA_param(Adapter);
++		dm_CheckEdcaTurbo(Adapter);
++
++		//
++		// Dynamically switch RTS/CTS protection.
++		//
++		//dm_CheckProtection(Adapter);
++
++#ifdef CONFIG_SW_ANTENNA_DIVERSITY
++		//
++		// Software Antenna diversity
++		//
++		dm_SW_AntennaSwitch(Adapter, SWAW_STEP_PEAK);
++#endif
++
++#ifdef CONFIG_HW_ANTENNA_DIVERSITY
++		//Hybrid Antenna Diversity
++		dm_SelectRXDefault(Adapter);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++		// 20100630 Joseph: Disable Interrupt Migration mechanism temporarily because it degrades Rx throughput.
++		// Tx Migration settings.
++		//dm_InterruptMigration(Adapter);
++
++		//if(Adapter->HalFunc.TxCheckStuckHandler(Adapter))
++		//	PlatformScheduleWorkItem(&(GET_HAL_DATA(Adapter)->HalResetWorkItem));
++#endif
++
++
++_record_initrate:
++
++		// Read REG_INIDATA_RATE_SEL value for TXDESC.
++		if(check_fwstate(&Adapter->mlmepriv, WIFI_STATION_STATE) == _TRUE)
++		{
++			pdmpriv->INIDATA_RATE[0] = rtw_read8(Adapter, REG_INIDATA_RATE_SEL) & 0x3f;
++
++#ifdef CONFIG_TDLS
++			if(Adapter->tdlsinfo.setup_state == TDLS_LINKED_STATE)
++			{
++				u8 i=1;
++				for(; i < (Adapter->tdlsinfo.macid_index) ; i++)
++				{
++					pdmpriv->INIDATA_RATE[i] = rtw_read8(Adapter, (REG_INIDATA_RATE_SEL+i)) & 0x3f;
++				}
++			}
++#endif //CONFIG_TDLS
++
++		}
++		else
++		{
++			u8	i;
++			for(i=1 ; i < (Adapter->stapriv.asoc_sta_count + 1); i++)
++			{
++				pdmpriv->INIDATA_RATE[i] = rtw_read8(Adapter, (REG_INIDATA_RATE_SEL+i)) & 0x3f;
++			}
++		}
++	}
++
++skip_dm:
++
++	// Check GPIO to determine current RF on/off and Pbc status.
++	// Check Hardware Radio ON/OFF or not	
++	//if(Adapter->MgntInfo.PowerSaveControl.bGpioRfSw)
++	//{
++		//RTPRINT(FPWR, PWRHW, ("dm_CheckRfCtrlGPIO \n"));
++	//	dm_CheckRfCtrlGPIO(Adapter);
++	//}
++
++#ifdef CONFIG_PCI_HCI
++	if(pHalData->bGpioHwWpsPbc)
++#endif
++	{
++		dm_CheckPbcGPIO(Adapter);				// Add by hpfan 2008-03-11
++	}
++
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_hal_init.c b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_hal_init.c
+new file mode 100755
+index 0000000..b9e91d7
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_hal_init.c
+@@ -0,0 +1,3628 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#define _RTL8192C_HAL_INIT_C_
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <rtw_byteorder.h>
++#include <rtw_efuse.h>
++
++#include <rtl8192c_hal.h>
++
++#ifdef CONFIG_USB_HCI
++#include <usb_hal.h>
++#endif
++
++#ifdef CONFIG_PCI_HCI
++#include <pci_hal.h>
++#endif
++
++static BOOLEAN
++hal_EfusePgPacketWrite2ByteHeader(
++	IN	PADAPTER		pAdapter,
++	IN	u8				efuseType,
++	IN	u16				*pAddr,
++	IN	PPGPKT_STRUCT	pTargetPkt,
++	IN	BOOLEAN			bPseudoTest);
++static BOOLEAN
++hal_EfusePgPacketWrite1ByteHeader(
++	IN	PADAPTER		pAdapter, 
++	IN	u8				efuseType,
++	IN	u16				*pAddr,
++	IN	PPGPKT_STRUCT	pTargetPkt,
++	IN	BOOLEAN			bPseudoTest);
++static BOOLEAN
++hal_EfusePgPacketWriteData(
++	IN	PADAPTER		pAdapter, 
++	IN	u8				efuseType,
++	IN	u16				*pAddr,
++	IN	PPGPKT_STRUCT	pTargetPkt,
++	IN	BOOLEAN			bPseudoTest);
++static BOOLEAN 
++hal_EfusePgPacketWrite_BT(
++	IN	PADAPTER		pAdapter, 
++	IN	u8				offset,
++	IN	u8				word_en,
++	IN	u8				*pData,
++	IN	BOOLEAN			bPseudoTest);
++
++static VOID
++_FWDownloadEnable(
++	IN	PADAPTER		Adapter,
++	IN	BOOLEAN			enable
++	)
++{
++	u8	tmp;
++
++	if(enable)
++	{
++		#ifdef DBG_SHOW_MCUFWDL_BEFORE_51_ENABLE
++		{
++			u8 val;
++			if( (val=rtw_read8(Adapter, REG_MCUFWDL)))
++				DBG_871X("DBG_SHOW_MCUFWDL_BEFORE_51_ENABLE %s:%d REG_MCUFWDL:0x%02x\n", __FUNCTION__, __LINE__, val);
++		}
++		#endif
++	
++		// 8051 enable
++		tmp = rtw_read8(Adapter, REG_SYS_FUNC_EN+1);
++		rtw_write8(Adapter, REG_SYS_FUNC_EN+1, tmp|0x04);
++
++		// MCU firmware download enable.
++		tmp = rtw_read8(Adapter, REG_MCUFWDL);
++		rtw_write8(Adapter, REG_MCUFWDL, tmp|0x01);
++
++		// 8051 reset
++		tmp = rtw_read8(Adapter, REG_MCUFWDL+2);
++		rtw_write8(Adapter, REG_MCUFWDL+2, tmp&0xf7);
++	}
++	else
++	{
++		// MCU firmware download enable.
++		tmp = rtw_read8(Adapter, REG_MCUFWDL);
++		rtw_write8(Adapter, REG_MCUFWDL, tmp&0xfe);
++
++		// Reserved for fw extension.
++		rtw_write8(Adapter, REG_MCUFWDL+1, 0x00);
++	}
++}
++
++
++#define MAX_REG_BOLCK_SIZE	196
++#define MIN_REG_BOLCK_SIZE	8
++
++static int
++_BlockWrite(
++	IN		PADAPTER		Adapter,
++	IN		PVOID		buffer,
++	IN		u32			size
++	)
++{
++	int ret = _SUCCESS;
++
++#ifdef CONFIG_PCI_HCI
++	u32			blockSize	= sizeof(u32);	// Use 4-byte write to download FW
++	u8			*bufferPtr	= (u8 *)buffer;
++	u32			*pu4BytePtr	= (u32 *)buffer;
++	u32			i, offset, blockCount, remainSize;
++	u8			remainFW[4] = {0, 0, 0, 0};
++	u8			*p = NULL;
++
++	blockCount = size / blockSize;
++	remainSize = size % blockSize;
++
++	for(i = 0 ; i < blockCount ; i++){
++		offset = i * blockSize;
++		rtw_write32(Adapter, (FW_8192C_START_ADDRESS + offset), cpu_to_le32(*(pu4BytePtr + i)));
++	}
++
++	p = (u8*)((u32*)(bufferPtr + blockCount * blockSize));
++	if(remainSize){
++		switch (remainSize) {
++		case 0:
++			break;
++		case 3:
++			remainFW[2]=*(p+2);
++		case 2: 	
++			remainFW[1]=*(p+1);
++		case 1: 	
++			remainFW[0]=*(p);
++			ret = rtw_write32(Adapter, (FW_8192C_START_ADDRESS + blockCount * blockSize), 
++				 le32_to_cpu(*(u32*)remainFW));	
++		}
++		return ret;
++	}
++#else
++  
++#ifdef SUPPORTED_BLOCK_IO
++	u32			blockSize	= MAX_REG_BOLCK_SIZE;	// Use 196-byte write to download FW	
++	u32			blockSize2  	= MIN_REG_BOLCK_SIZE;	
++#else
++	u32			blockSize	= sizeof(u32);	// Use 4-byte write to download FW
++	u32*		pu4BytePtr	= (u32*)buffer;
++	u32			blockSize2  	= sizeof(u8);
++#endif
++	u8*			bufferPtr	= (u8*)buffer;
++	u32			i, offset = 0, offset2, blockCount, remainSize, remainSize2;
++
++	blockCount = size / blockSize;
++	remainSize = size % blockSize;
++
++	for(i = 0 ; i < blockCount ; i++){
++		offset = i * blockSize;
++		#ifdef SUPPORTED_BLOCK_IO
++		ret = rtw_writeN(Adapter, (FW_8192C_START_ADDRESS + offset), blockSize, (bufferPtr + offset));
++		#else
++		ret = rtw_write32(Adapter, (FW_8192C_START_ADDRESS + offset), le32_to_cpu(*(pu4BytePtr + i)));
++		#endif
++
++		if(ret == _FAIL)
++			goto exit;
++	}
++
++	if(remainSize){
++		#if defined(SUPPORTED_BLOCK_IO) && defined(DBG_BLOCK_WRITE_ISSUE) //Can this be enabled?
++		offset = blockCount * blockSize;
++		ret = rtw_writeN(Adapter, (FW_8192C_START_ADDRESS + offset), remainSize, (bufferPtr + offset));
++		goto exit;
++		#endif
++		offset2 = blockCount * blockSize;		
++		blockCount = remainSize / blockSize2;
++		remainSize2 = remainSize % blockSize2;
++
++		for(i = 0 ; i < blockCount ; i++){
++			offset = offset2 + i * blockSize2;
++			#ifdef SUPPORTED_BLOCK_IO
++			ret = rtw_writeN(Adapter, (FW_8192C_START_ADDRESS + offset), blockSize2, (bufferPtr + offset));
++			#else
++			ret = rtw_write8(Adapter, (FW_8192C_START_ADDRESS + offset ), *(bufferPtr + offset));
++			#endif
++
++			if(ret == _FAIL)
++				goto exit;
++		}		
++
++		if(remainSize2)
++		{
++			offset += blockSize2;
++			bufferPtr += offset;
++			
++			for(i = 0 ; i < remainSize2 ; i++){
++				ret = rtw_write8(Adapter, (FW_8192C_START_ADDRESS + offset + i), *(bufferPtr + i));
++
++				if(ret == _FAIL)
++					goto exit;
++			}
++		}
++	}
++#endif
++
++exit:
++	return ret;
++}
++
++static int
++_PageWrite(
++	IN		PADAPTER	Adapter,
++	IN		u32			page,
++	IN		PVOID		buffer,
++	IN		u32			size
++	)
++{
++	u8 value8;
++	u8 u8Page = (u8) (page & 0x07) ;
++
++	value8 = (rtw_read8(Adapter, REG_MCUFWDL+2)& 0xF8 ) | u8Page ;
++	rtw_write8(Adapter, REG_MCUFWDL+2,value8);
++	return _BlockWrite(Adapter,buffer,size);
++}
++
++static VOID
++_FillDummy(
++	u8*		pFwBuf,
++	u32*	pFwLen
++	)
++{
++	u32	FwLen = *pFwLen;
++	u8	remain = (u8)(FwLen%4);
++	remain = (remain==0)?0:(4-remain);
++
++	while(remain>0)
++	{
++		pFwBuf[FwLen] = 0;
++		FwLen++;
++		remain--;
++	}
++
++	*pFwLen = FwLen;
++}
++
++static int
++_WriteFW(
++	IN		PADAPTER		Adapter,
++	IN		PVOID			buffer,
++	IN		u32			size
++	)
++{
++	// Since we need dynamic decide method of dwonload fw, so we call this function to get chip version.
++	// We can remove _ReadChipVersion from ReadAdapterInfo8192C later.
++
++	int ret = _SUCCESS;
++	u32 	pageNums,remainSize ;
++	u32 	page,offset;
++	u8*	bufferPtr = (u8*)buffer;
++
++#ifdef CONFIG_PCI_HCI
++	// 20100120 Joseph: Add for 88CE normal chip. 
++	// Fill in zero to make firmware image to dword alignment.
++//		_FillDummy(bufferPtr, &size);
++#endif
++
++	pageNums = size / MAX_PAGE_SIZE ;		
++	//RT_ASSERT((pageNums <= 4), ("Page numbers should not greater then 4 \n"));			
++	remainSize = size % MAX_PAGE_SIZE;		
++	
++	for(page = 0; page < pageNums;  page++){
++		offset = page *MAX_PAGE_SIZE;
++		ret = _PageWrite(Adapter,page, (bufferPtr+offset),MAX_PAGE_SIZE);			
++		
++		if(ret == _FAIL)
++			goto exit;
++	}
++	if(remainSize){
++		offset = pageNums *MAX_PAGE_SIZE;
++		page = pageNums;
++		ret = _PageWrite(Adapter,page, (bufferPtr+offset),remainSize);
++
++		if(ret == _FAIL)
++			goto exit;
++	}	
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("_WriteFW Done- for Normal chip.\n"));
++
++exit:
++	return ret;
++}
++
++static int _FWFreeToGo(
++	IN		PADAPTER		Adapter
++	)
++{
++	u32			counter = 0;
++	u32			value32;
++	u32	restarted = _FALSE;
++	
++	// polling CheckSum report
++	do{
++		value32 = rtw_read32(Adapter, REG_MCUFWDL);
++	}while((counter ++ < POLLING_READY_TIMEOUT_COUNT) && (!(value32 & FWDL_ChkSum_rpt)));	
++
++	if(counter >= POLLING_READY_TIMEOUT_COUNT){	
++		DBG_8192C("chksum report faill ! REG_MCUFWDL:0x%08x\n",value32);
++		return _FAIL;
++	} else {
++		//DBG_8192C("chksum report success ! REG_MCUFWDL:0x%08x, counter:%u\n",value32, counter);
++	}
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("Checksum report OK ! REG_MCUFWDL:0x%08x .\n",value32));
++
++
++	value32 = rtw_read32(Adapter, REG_MCUFWDL);
++	value32 |= MCUFWDL_RDY;
++	value32 &= ~WINTINI_RDY;
++	rtw_write32(Adapter, REG_MCUFWDL, value32);
++	
++
++POLLING_FW_READY:	
++	// polling for FW ready
++	counter = 0;
++	do
++	{
++		if(rtw_read32(Adapter, REG_MCUFWDL) & WINTINI_RDY){
++			//RT_TRACE(COMP_INIT, DBG_SERIOUS, ("Polling FW ready success!! REG_MCUFWDL:0x%08x .\n",PlatformIORead4Byte(Adapter, REG_MCUFWDL)) );
++			return _SUCCESS;
++		}
++		rtw_udelay_os(5);
++	}while(counter++ < POLLING_READY_TIMEOUT_COUNT);
++
++	DBG_8192C("Polling FW ready fail!! REG_MCUFWDL:0x%08x .\n", rtw_read32(Adapter, REG_MCUFWDL));
++
++	if(restarted == _FALSE) {
++		u8 tmp = rtw_read8(Adapter, REG_SYS_FUNC_EN+1);
++		DBG_8192C("Reset 51 write8 REG_SYS_FUNC_EN:0x%04x\n", tmp & ~BIT2);
++		rtw_write8(Adapter, REG_SYS_FUNC_EN+1, tmp & ~BIT2);
++		DBG_8192C("Reset 51 write8 REG_SYS_FUNC_EN:0x%04x\n", tmp|BIT2);
++		rtw_write8(Adapter, REG_SYS_FUNC_EN+1, tmp|BIT2);
++		restarted = _TRUE;
++		goto POLLING_FW_READY;
++	}
++		
++	
++	return _FAIL;
++	
++}
++
++
++VOID
++rtl8192c_FirmwareSelfReset(
++	IN		PADAPTER		Adapter
++)
++{
++	u8	u1bTmp;
++	u8	Delay = 100;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++		
++	if((pHalData->FirmwareVersion > 0x21) ||
++		(pHalData->FirmwareVersion == 0x21 &&
++		pHalData->FirmwareSubVersion >= 0x01)) // after 88C Fw v33.1
++	{
++		//0x1cf=0x20. Inform 8051 to reset. 2009.12.25. tynli_test
++		rtw_write8(Adapter, REG_HMETFR+3, 0x20);
++	
++		u1bTmp = rtw_read8(Adapter, REG_SYS_FUNC_EN+1);
++		while(u1bTmp&BIT2)
++		{
++			Delay--;
++			if(Delay == 0)
++				break;
++			rtw_udelay_os(50);
++			u1bTmp = rtw_read8(Adapter, REG_SYS_FUNC_EN+1);
++		}
++
++		if((u1bTmp&BIT2) && (Delay == 0))
++		{
++			DBG_8192C("FirmwareDownload92C():fw reset by itself Fail!!!!!! 0x03 = %x\n", u1bTmp);
++			//RT_ASSERT(FALSE, ("PowerOffAdapter8192CE(): 0x03 = %x\n", u1bTmp));
++			#ifdef DBG_SHOW_MCUFWDL_BEFORE_51_ENABLE
++			{
++				u8 val;
++				if( (val=rtw_read8(Adapter, REG_MCUFWDL)))
++					DBG_871X("DBG_SHOW_MCUFWDL_BEFORE_51_ENABLE %s:%d REG_MCUFWDL:0x%02x\n", __FUNCTION__, __LINE__, val);
++			}
++			#endif
++			rtw_write8(Adapter,REG_SYS_FUNC_EN+1,(rtw_read8(Adapter, REG_SYS_FUNC_EN+1)&~BIT2));
++		}
++
++		DBG_8192C("%s =====> 8051 reset success (%d) .\n", __FUNCTION__ ,Delay);
++	}
++}
++
++#ifdef CONFIG_FILE_FWIMG
++extern char *rtw_fw_file_path;
++u8	FwBuffer8192C[FW_8192C_SIZE];
++#endif //CONFIG_FILE_FWIMG
++//
++//	Description:
++//		Download 8192C firmware code.
++//
++//
++int FirmwareDownload92C(
++	IN	PADAPTER			Adapter,
++	IN	BOOLEAN			bUsedWoWLANFw
++)
++{	
++	int	rtStatus = _SUCCESS;	
++	u8 writeFW_retry = 0;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	s8 			R92CFwImageFileName_TSMC[] ={RTL8192C_FW_TSMC_IMG};
++	s8 			R92CFwImageFileName_UMC[] ={RTL8192C_FW_UMC_IMG};
++	s8 			R92CFwImageFileName_UMC_B[] ={RTL8192C_FW_UMC_B_IMG};
++#ifdef CONFIG_WOWLAN
++	s8 			R92CFwImageFileName_TSMC_WW[] ={RTL8192C_FW_TSMC_WW_IMG};
++	s8 			R92CFwImageFileName_UMC_WW[] ={RTL8192C_FW_UMC_WW_IMG};
++	s8 			R92CFwImageFileName_UMC_B_WW[] ={RTL8192C_FW_UMC_B_WW_IMG};
++#endif //CONFIG_WOWLAN
++	
++	//s8 			R8723FwImageFileName_UMC[] ={RTL8723_FW_UMC_IMG};
++	u8*			FwImage = NULL;
++	u32			FwImageLen = 0;
++	char*		pFwImageFileName;	
++#ifdef CONFIG_WOWLAN
++	u8*			FwImageWoWLAN;
++	u32			FwImageWoWLANLen;
++	char*		pFwImageFileName_WoWLAN;
++#endif	//CONFIG_WOWLAN
++	u8*			pucMappedFile = NULL;
++	//vivi, merge 92c and 92s into one driver, 20090817
++	//vivi modify this temply, consider it later!!!!!!!!
++	//PRT_FIRMWARE	pFirmware = GET_FIRMWARE_819X(Adapter);	
++	//PRT_FIRMWARE_92C	pFirmware = GET_FIRMWARE_8192C(Adapter);
++	PRT_FIRMWARE_92C	pFirmware = NULL;
++	PRT_8192C_FIRMWARE_HDR		pFwHdr = NULL;
++	u8		*pFirmwareBuf;
++	u32		FirmwareLen;
++
++	pFirmware = (PRT_FIRMWARE_92C)rtw_zvmalloc(sizeof(RT_FIRMWARE_92C));
++	
++	if(!pFirmware)
++	{
++		rtStatus = _FAIL;
++		goto Exit;
++	}
++
++	if(IS_VENDOR_UMC_A_CUT(pHalData->VersionID) && !IS_92C_SERIAL(pHalData->VersionID))
++	{
++		pFwImageFileName = R92CFwImageFileName_UMC;
++		FwImage = Rtl819XFwUMCACutImageArray;
++		FwImageLen = UMCACutImgArrayLength;
++#ifdef CONFIG_WOWLAN
++		pFwImageFileName_WoWLAN = R92CFwImageFileName_UMC_WW;
++		FwImageWoWLAN= Rtl8192C_FwUMCWWImageArray;
++		FwImageWoWLANLen =UMCACutWWImgArrayLength ;
++#endif	//CONFIG_WOWLAN		
++		DBG_8192C(" ===> FirmwareDownload91C() fw:Rtl819XFwImageArray_UMC\n");
++	}
++	else if(IS_81xxC_VENDOR_UMC_B_CUT(pHalData->VersionID))
++	{
++		// The ROM code of UMC B-cut Fw is the same as TSMC. by tynli. 2011.01.14.
++		pFwImageFileName = R92CFwImageFileName_UMC_B;
++		FwImage = Rtl819XFwUMCBCutImageArray;
++		FwImageLen = UMCBCutImgArrayLength;
++#ifdef CONFIG_WOWLAN
++		pFwImageFileName_WoWLAN = R92CFwImageFileName_UMC_B_WW;
++		FwImageWoWLAN= Rtl8192C_FwUMCBCutWWImageArray;
++		FwImageWoWLANLen =UMCBCutWWImgArrayLength ;
++#endif //CONFIG_WOWLAN
++		
++		DBG_8192C(" ===> FirmwareDownload91C() fw:Rtl819XFwImageArray_UMC_B\n");
++	}
++	else
++	{
++		pFwImageFileName = R92CFwImageFileName_TSMC;
++		FwImage = Rtl819XFwTSMCImageArray;
++		FwImageLen = TSMCImgArrayLength;
++#ifdef CONFIG_WOWLAN
++		pFwImageFileName_WoWLAN = R92CFwImageFileName_TSMC_WW;
++		FwImageWoWLAN= Rtl8192C_FwTSMCWWImageArray;
++		FwImageWoWLANLen =TSMCWWImgArrayLength ;
++#endif //CONFIG_WOWLAN
++		DBG_8192C(" ===> FirmwareDownload91C() fw:Rtl819XFwImageArray_TSMC\n");
++	}
++
++	//RT_TRACE(COMP_INIT, DBG_LOUD, (" ===> FirmwareDownload91C() fw:%s\n", pFwImageFileName));
++
++	#ifdef CONFIG_FILE_FWIMG
++	if(rtw_is_file_readable(rtw_fw_file_path) == _TRUE)
++	{
++		DBG_871X("%s accquire FW from file:%s\n", __FUNCTION__, rtw_fw_file_path);
++		pFirmware->eFWSource = FW_SOURCE_IMG_FILE; // We should decided by Reg.
++	}
++	else
++	#endif //CONFIG_FILE_FWIMG
++	{
++		DBG_871X("%s accquire FW from embedded image\n", __FUNCTION__);
++		pFirmware->eFWSource = FW_SOURCE_HEADER_FILE;
++	}
++
++
++	switch(pFirmware->eFWSource)
++	{
++		case FW_SOURCE_IMG_FILE:
++			
++			#ifdef CONFIG_FILE_FWIMG
++			rtStatus = rtw_retrive_from_file(rtw_fw_file_path, FwBuffer8192C, FW_8192C_SIZE);
++			pFirmware->ulFwLength = rtStatus>=0?rtStatus:0;
++			pFirmware->szFwBuffer = FwBuffer8192C;
++			#endif //CONFIG_FILE_FWIMG
++
++			if(pFirmware->ulFwLength <= 0)
++			{
++				rtStatus = _FAIL;
++				goto Exit;
++			}
++			break;
++		case FW_SOURCE_HEADER_FILE:
++			if(FwImageLen > FW_8192C_SIZE){
++				rtStatus = _FAIL;
++				//RT_TRACE(COMP_INIT, DBG_SERIOUS, ("Firmware size exceed 0x%X. Check it.\n", FW_8192C_SIZE) );
++				DBG_871X("Firmware size exceed 0x%X. Check it.\n", FW_8192C_SIZE);
++				goto Exit;
++			}
++
++			pFirmware->szFwBuffer = FwImage;
++			pFirmware->ulFwLength = FwImageLen;
++#ifdef CONFIG_WOWLAN
++			{
++				pFirmware->szWoWLANFwBuffer=FwImageWoWLAN;
++				pFirmware->ulWoWLANFwLength = FwImageWoWLANLen;
++			}
++#endif //CONFIG_WOWLAN
++			
++			break;
++	}
++
++#ifdef CONFIG_WOWLAN	
++	if(bUsedWoWLANFw)	{		
++		pFirmwareBuf = pFirmware->szWoWLANFwBuffer;		
++		FirmwareLen = pFirmware->ulWoWLANFwLength;		
++		pFwHdr = (PRT_8192C_FIRMWARE_HDR)pFirmware->szWoWLANFwBuffer;	
++	}	
++	else
++#endif	//CONFIG_WOWLAN
++	{	
++	#ifdef DBG_FW_STORE_FILE_PATH //used to store firmware to file...
++	if(pFirmware->ulFwLength > 0)
++	{
++		rtw_store_to_file(DBG_FW_STORE_FILE_PATH, pFirmware->szFwBuffer, pFirmware->ulFwLength);
++	}
++	#endif
++
++	pFirmwareBuf = pFirmware->szFwBuffer;
++	FirmwareLen = pFirmware->ulFwLength;
++
++	// To Check Fw header. Added by tynli. 2009.12.04.
++	pFwHdr = (PRT_8192C_FIRMWARE_HDR)pFirmware->szFwBuffer;
++	}
++	pHalData->FirmwareVersion =  le16_to_cpu(pFwHdr->Version); 
++	pHalData->FirmwareSubVersion = le16_to_cpu(pFwHdr->Subversion); 
++
++	//RT_TRACE(COMP_INIT, DBG_LOUD, (" FirmwareVersion(%#x), Signature(%#x)\n", 
++	//	Adapter->MgntInfo.FirmwareVersion, pFwHdr->Signature));
++
++	DBG_8192C("fw_ver=v%d, fw_subver=%d, sig=0x%x\n", 
++		pHalData->FirmwareVersion, pHalData->FirmwareSubVersion, le16_to_cpu(pFwHdr->Signature)&0xFFF0);
++
++	if(IS_FW_HEADER_EXIST(pFwHdr))
++	{
++		//RT_TRACE(COMP_INIT, DBG_LOUD,("Shift 32 bytes for FW header!!\n"));
++		pFirmwareBuf = pFirmwareBuf + 32;
++		FirmwareLen = FirmwareLen -32;
++	}
++		
++	// Suggested by Filen. If 8051 is running in RAM code, driver should inform Fw to reset by itself,
++	// or it will cause download Fw fail. 2010.02.01. by tynli.
++	if(rtw_read8(Adapter, REG_MCUFWDL)&BIT7) //8051 RAM code
++	{	
++		rtl8192c_FirmwareSelfReset(Adapter);
++		rtw_write8(Adapter, REG_MCUFWDL, 0x00);		
++	}
++
++		
++	_FWDownloadEnable(Adapter, _TRUE);
++	while(1) {
++		u8 tmp8;
++		tmp8 = rtw_read8(Adapter, REG_MCUFWDL);
++		
++		//reset the FWDL chksum
++		rtw_write8(Adapter, REG_MCUFWDL, tmp8|FWDL_ChkSum_rpt);
++		
++		//tmp8 = rtw_read8(Adapter, REG_MCUFWDL);
++		//DBG_8192C("Before _WriteFW, REG_MCUFWDL:0x%02x, writeFW_retry:%u\n", tmp8, writeFW_retry);
++		
++		rtStatus = _WriteFW(Adapter, pFirmwareBuf, FirmwareLen);
++		
++		//tmp8 = rtw_read8(Adapter, REG_MCUFWDL);
++		//DBG_8192C("After _WriteFW, REG_MCUFWDL:0x%02x, rtStatus:%d\n", tmp8, rtStatus);
++
++		if(rtStatus == _SUCCESS || ++writeFW_retry>3)
++			break;
++	} 
++	_FWDownloadEnable(Adapter, _FALSE);
++
++	if(_SUCCESS != rtStatus){
++		DBG_8192C("DL Firmware failed!\n");
++		goto Exit;
++	}
++
++	rtStatus = _FWFreeToGo(Adapter);
++	if(_SUCCESS != rtStatus){
++		DBG_8192C("DL Firmware failed!\n");
++		goto Exit;
++	}	
++	//RT_TRACE(COMP_INIT, DBG_LOUD, (" Firmware is ready to run!\n"));
++
++Exit:
++
++	if(pFirmware) {
++		rtw_vmfree((u8*)pFirmware, sizeof(RT_FIRMWARE_92C));
++	}
++
++	//RT_TRACE(COMP_INIT, DBG_LOUD, (" <=== FirmwareDownload91C()\n"));
++	return rtStatus;
++
++}
++
++VOID
++InitializeFirmwareVars92C(
++	IN	PADAPTER		Adapter
++)
++{
++	HAL_DATA_TYPE		*pHalData	= GET_HAL_DATA(Adapter);
++
++	// Init Fw LPS related.
++	Adapter->pwrctrlpriv.bFwCurrentInPSMode = _FALSE;
++
++	//Init H2C counter. by tynli. 2009.12.09.
++	pHalData->LastHMEBoxNum = 0;
++}
++
++#ifdef CONFIG_WOWLAN
++//===========================================
++
++//
++// Description: Prepare some information to Fw for WoWLAN.
++//			(1) Download wowlan Fw.
++//			(2) Download RSVD page packets.
++//			(3) Enable AP offload if needed.
++//
++// 2011.04.12 by tynli.
++//
++VOID
++SetFwRelatedForWoWLAN8192CU(
++	IN	PADAPTER			padapter,
++	IN	u8			bHostIsGoingtoSleep
++)
++{	
++	int	status=_FAIL;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	u8	 bRecover = _FALSE;
++	
++	if(bHostIsGoingtoSleep)
++	{
++		//
++		// 1. Before WoWLAN we need to re-download WoWLAN Fw.
++		//
++		status = FirmwareDownload92C(padapter, bHostIsGoingtoSleep);
++		if(status != _SUCCESS)
++		{
++			DBG_8192C("ConfigFwRelatedForWoWLAN8192CU(): Re-Download Firmware failed!!\n");
++			return;
++		}
++		else
++		{
++			DBG_8192C("ConfigFwRelatedForWoWLAN8192CU(): Re-Download Firmware Success !!\n");
++		}
++
++		//
++		// 2. Re-Init the variables about Fw related setting.
++		//
++		InitializeFirmwareVars92C(padapter);
++
++		
++	}
++}
++#endif // CONFIG_WOWLAN
++
++#ifdef CONFIG_BT_COEXIST
++static void _update_bt_param(_adapter *padapter)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(padapter);
++	struct btcoexist_priv	*pbtpriv = &(pHalData->bt_coexist);
++	struct registry_priv	*registry_par = &padapter->registrypriv;
++
++	if(2 != registry_par->bt_iso)
++		pbtpriv->BT_Ant_isolation = registry_par->bt_iso;// 0:Low, 1:High, 2:From Efuse
++
++	if(registry_par->bt_sco == 1) // 0:Idle, 1:None-SCO, 2:SCO, 3:From Counter, 4.Busy, 5.OtherBusy
++		pbtpriv->BT_Service = BT_OtherAction;
++	else if(registry_par->bt_sco==2)
++		pbtpriv->BT_Service = BT_SCO;
++	else if(registry_par->bt_sco==4)
++		pbtpriv->BT_Service = BT_Busy;
++	else if(registry_par->bt_sco==5)
++		pbtpriv->BT_Service = BT_OtherBusy;		
++	else
++		pbtpriv->BT_Service = BT_Idle;
++
++	pbtpriv->BT_Ampdu = registry_par->bt_ampdu;
++	pbtpriv->bCOBT = _TRUE;
++#if 1
++	DBG_8192C("BT Coexistance = %s\n", (pbtpriv->BT_Coexist==_TRUE)?"enable":"disable");
++	if(pbtpriv->BT_Coexist)
++	{
++		if(pbtpriv->BT_Ant_Num == Ant_x2)
++		{
++			DBG_8192C("BlueTooth BT_Ant_Num = Antx2\n");
++		}
++		else if(pbtpriv->BT_Ant_Num == Ant_x1)
++		{
++			DBG_8192C("BlueTooth BT_Ant_Num = Antx1\n");
++		}
++		switch(pbtpriv->BT_CoexistType)
++		{
++			case BT_2Wire:
++				DBG_8192C("BlueTooth BT_CoexistType = BT_2Wire\n");
++				break;
++			case BT_ISSC_3Wire:
++				DBG_8192C("BlueTooth BT_CoexistType = BT_ISSC_3Wire\n");
++				break;
++			case BT_Accel:
++				DBG_8192C("BlueTooth BT_CoexistType = BT_Accel\n");
++				break;
++			case BT_CSR_BC4:
++				DBG_8192C("BlueTooth BT_CoexistType = BT_CSR_BC4\n");
++				break;
++			case BT_RTL8756:
++				DBG_8192C("BlueTooth BT_CoexistType = BT_RTL8756\n");
++				break;
++			default:
++				DBG_8192C("BlueTooth BT_CoexistType = Unknown\n");
++				break;
++		}
++		DBG_8192C("BlueTooth BT_Ant_isolation = %d\n", pbtpriv->BT_Ant_isolation);
++
++
++		switch(pbtpriv->BT_Service)
++		{
++			case BT_OtherAction:
++				DBG_8192C("BlueTooth BT_Service = BT_OtherAction\n");
++				break;
++			case BT_SCO:
++				DBG_8192C("BlueTooth BT_Service = BT_SCO\n");
++				break;
++			case BT_Busy:
++				DBG_8192C("BlueTooth BT_Service = BT_Busy\n");
++				break;
++			case BT_OtherBusy:
++				DBG_8192C("BlueTooth BT_Service = BT_OtherBusy\n");
++				break;			
++			default:
++				DBG_8192C("BlueTooth BT_Service = BT_Idle\n");
++				break;
++		}
++
++		DBG_8192C("BT_RadioSharedType = 0x%x\n", pbtpriv->BT_RadioSharedType);
++	}
++#endif
++
++}
++
++
++#define GET_BT_COEXIST(priv) (&priv->bt_coexist)
++
++void rtl8192c_ReadBluetoothCoexistInfo(
++	IN	PADAPTER	Adapter,	
++	IN	u8*		PROMContent,
++	IN	BOOLEAN		AutoloadFail
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct btcoexist_priv	*pbtpriv = &(pHalData->bt_coexist);
++	u8	rf_opt4;
++
++	if(AutoloadFail){
++		pbtpriv->BT_Coexist = _FALSE;
++		pbtpriv->BT_CoexistType= BT_2Wire;
++		pbtpriv->BT_Ant_Num = Ant_x2;
++		pbtpriv->BT_Ant_isolation= 0;
++		pbtpriv->BT_RadioSharedType = BT_Radio_Shared;		
++		return;
++	}
++
++	pbtpriv->BT_Coexist = (((PROMContent[EEPROM_RF_OPT1]&BOARD_TYPE_NORMAL_MASK)>>5) == BOARD_USB_COMBO)?_TRUE:_FALSE;	// bit [7:5]
++	rf_opt4 = PROMContent[EEPROM_RF_OPT4];
++	pbtpriv->BT_CoexistType 		= ((rf_opt4&0xe)>>1);			// bit [3:1]
++	pbtpriv->BT_Ant_Num 		= (rf_opt4&0x1);				// bit [0]
++	pbtpriv->BT_Ant_isolation 	= ((rf_opt4&0x10)>>4);			// bit [4]
++	pbtpriv->BT_RadioSharedType 	= ((rf_opt4&0x20)>>5);			// bit [5]
++
++	_update_bt_param(Adapter);
++
++}
++#endif
++
++VERSION_8192C
++rtl8192c_ReadChipVersion(
++	IN	PADAPTER	Adapter
++	)
++{
++	u32			value32;
++	//VERSION_8192C	version;
++	u32			ChipVersion=0;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	value32 = rtw_read32(Adapter, REG_SYS_CFG);
++
++	if (value32 & TRP_VAUX_EN)
++	{
++#if 0
++		// Test chip.
++		if(IS_HARDWARE_TYPE_8723A(Adapter)) {
++			ChipVersion |= ((value32 & VENDOR_ID) ? CHIP_VENDOR_UMC : 0);
++			ChipVersion |= ((value32 & BT_FUNC) ? CHIP_8723: 0); // RTL8723 with BT function.			
++		}
++		else	 {
++		version = (value32 & TYPE_ID) ?VERSION_TEST_CHIP_92C :VERSION_TEST_CHIP_88C;		
++	}
++#else
++		// tynli_test. 2011.01.10.
++		if(IS_HARDWARE_TYPE_8192C(Adapter))
++		{
++			ChipVersion = (value32 & TYPE_ID) ? VERSION_TEST_CHIP_92C : VERSION_TEST_CHIP_88C;						
++		}
++		else
++		{
++			ChipVersion |= ((value32 & VENDOR_ID) ? CHIP_VENDOR_UMC : 0);
++			ChipVersion |= ((value32 & BT_FUNC) ? CHIP_8723: 0); // RTL8723 with BT function.			
++		}
++#endif
++	}
++	else
++	{
++#if 0
++		// Normal mass production chip.
++		ChipVersion = NORMAL_CHIP;
++#if !RTL8723_FPGA_TRUE_PHY_VERIFICATION
++		ChipVersion |= ((value32 & TYPE_ID) ? CHIP_92C : 0);
++#endif
++		ChipVersion |= ((value32 & VENDOR_ID) ? CHIP_VENDOR_UMC : 0);
++		ChipVersion |= ((value32 & BT_FUNC) ? CHIP_8723: 0); // RTL8723 with BT function.
++		if(IS_8723_SERIES(ChipVersion))
++		{
++			if(IS_VENDOR_UMC(ChipVersion))
++				ChipVersion |= ((value32 & CHIP_VER_RTL_MASK) ? CHIP_VENDOR_UMC_B_CUT : 0);
++		}
++		else
++		{
++			// Mark out by tynli. UMC B-cut IC will not set the SYS_CFG[19] to UMC
++			// because we do not want the custmor to know. 2011.01.11.
++			//if(IS_VENDOR_UMC(ChipVersion))
++			{
++				// To check the value of B-cut. by tynli. 2011.01.11.
++				u1bTmp = (u1Byte)((value32 & CHIP_VER_RTL_MASK)>>12);
++				if(u1bTmp == 1)
++				{	// B-cut
++					ChipVersion |= CHIP_VENDOR_UMC_B_CUT;
++				}
++			}
++		}
++#else
++		// Normal mass production chip.
++		ChipVersion = NORMAL_CHIP;
++//#if !RTL8723_FPGA_TRUE_PHY_VERIFICATION
++		ChipVersion |= ((value32 & TYPE_ID) ? RF_TYPE_2T2R : 0); //92c
++//#endif
++		ChipVersion |= ((value32 & VENDOR_ID) ? CHIP_VENDOR_UMC : 0);
++		ChipVersion |= ((value32 & BT_FUNC) ? CHIP_8723: 0); // RTL8723 with BT function.
++		if(IS_HARDWARE_TYPE_8192C(Adapter))
++		{
++			// 88/92C UMC B-cut IC will not set the SYS_CFG[19] to UMC
++			// because we do not want the custmor to know. by tynli. 2011.01.17.
++			//MSG_8192C("mask result = 0x%x is_UMC %d chipversion 0x%x\n", (value32 & CHIP_VER_RTL_MASK), IS_CHIP_VENDOR_UMC(ChipVersion), ChipVersion);
++			if((!IS_CHIP_VENDOR_UMC(ChipVersion) )&& (value32 & CHIP_VER_RTL_MASK))
++			{
++				//MSG_8192C("chip mask result = 0x%x\n", ((value32 & CHIP_VER_RTL_MASK) | CHIP_VENDOR_UMC));
++				ChipVersion |= ((value32 & CHIP_VER_RTL_MASK) | CHIP_VENDOR_UMC); // IC version (CUT)
++				//MSG_8192C("chip version = 0x%x\n", ChipVersion);
++			}
++		}
++		else
++		{
++			if(IS_CHIP_VENDOR_UMC(ChipVersion))
++				ChipVersion |= ((value32 & CHIP_VER_RTL_MASK)); // IC version (CUT)
++		}
++
++		if(IS_92C_SERIAL(ChipVersion))
++		{
++			value32 = rtw_read32(Adapter, REG_HPON_FSM);
++			ChipVersion |= ((CHIP_BONDING_IDENTIFIER(value32) == CHIP_BONDING_92C_1T2R) ? RF_TYPE_1T2R : 0);			
++		}
++		else if(IS_8723_SERIES(ChipVersion))
++		{
++			//RT_ASSERT(IS_HARDWARE_TYPE_8723A(Adapter), ("Incorrect chip version!!\n"));
++			value32 = rtw_read32(Adapter, REG_GPIO_OUTSTS);
++			ChipVersion |= ((value32 & RF_RL_ID)>>20);	 //ROM code version.	
++		}
++#endif
++
++	}
++
++	//version = (VERSION_8192C)ChipVersion;
++
++	// For multi-function consideration. Added by Roger, 2010.10.06.
++	if(IS_8723_SERIES(ChipVersion))
++	{
++		pHalData->MultiFunc = RT_MULTI_FUNC_NONE;
++		value32 = rtw_read32(Adapter, REG_MULTI_FUNC_CTRL);
++		pHalData->MultiFunc =(RT_MULTI_FUNC) (pHalData->MultiFunc| ((value32 & WL_FUNC_EN) ?  RT_MULTI_FUNC_WIFI : 0) );
++		pHalData->MultiFunc =(RT_MULTI_FUNC) (pHalData->MultiFunc| ((value32 & BT_FUNC_EN) ?  RT_MULTI_FUNC_BT : 0) );
++		pHalData->MultiFunc =(RT_MULTI_FUNC) (pHalData->MultiFunc| ((value32 & GPS_FUNC_EN) ?  RT_MULTI_FUNC_GPS : 0) );
++		pHalData->PolarityCtl = ((value32 & WL_HWPDN_SL) ?  RT_POLARITY_HIGH_ACT : RT_POLARITY_LOW_ACT);
++		//MSG_8192C("ReadChipVersion(): MultiFunc(%x), PolarityCtl(%x) \n", pHalData->MultiFunc, pHalData->PolarityCtl);
++
++		//For regulator mode. by tynli. 2011.01.14
++		pHalData->RegulatorMode = ((value32 & TRP_BT_EN) ? RT_LDO_REGULATOR : RT_SWITCHING_REGULATOR);
++		//MSG_8192C("ReadChipVersion(): RegulatorMode(%x) \n", pHalData->RegulatorMode);
++	}
++
++//#if DBG
++#if 1
++	switch(ChipVersion)
++	{
++		case VERSION_NORMAL_TSMC_CHIP_92C_1T2R:
++			MSG_8192C("Chip Version ID: VERSION_NORMAL_TSMC_CHIP_92C_1T2R.\n");
++			break;
++		case VERSION_NORMAL_TSMC_CHIP_92C:
++			MSG_8192C("Chip Version ID: VERSION_NORMAL_TSMC_CHIP_92C.\n");
++			break;
++		case VERSION_NORMAL_TSMC_CHIP_88C:
++			MSG_8192C("Chip Version ID: VERSION_NORMAL_TSMC_CHIP_88C.\n");
++			break;
++		case VERSION_NORMAL_UMC_CHIP_92C_1T2R_A_CUT:
++			MSG_8192C("Chip Version ID: VERSION_NORMAL_UMC_CHIP_92C_1T2R_A_CUT.\n");
++			break;
++		case VERSION_NORMAL_UMC_CHIP_92C_A_CUT:
++			MSG_8192C("Chip Version ID: VERSION_NORMAL_UMC_CHIP_92C_A_CUT.\n");
++			break;
++		case VERSION_NORMAL_UMC_CHIP_88C_A_CUT:
++			MSG_8192C("Chip Version ID: VERSION_NORMAL_UMC_CHIP_88C_A_CUT.\n");
++			break;			
++		case VERSION_NORMAL_UMC_CHIP_92C_1T2R_B_CUT:
++			MSG_8192C("Chip Version ID: VERSION_NORMAL_UMC_CHIP_92C_1T2R_B_CUT.\n");
++			break;
++		case VERSION_NORMAL_UMC_CHIP_92C_B_CUT:
++			MSG_8192C("Chip Version ID: VERSION_NORMAL_UMC_CHIP_92C_B_CUT.\n");
++			break;
++		case VERSION_NORMAL_UMC_CHIP_88C_B_CUT:
++			MSG_8192C("Chip Version ID: VERSION_NORMAL_UMC_CHIP_88C_B_CUT.\n");
++			break;
++		case VERSION_TEST_CHIP_92C:
++			MSG_8192C("Chip Version ID: VERSION_TEST_CHIP_92C.\n");
++			break;
++		case VERSION_TEST_CHIP_88C:
++			MSG_8192C("Chip Version ID: VERSION_TEST_CHIP_88C.\n");
++			break;
++		case VERSION_TEST_UMC_CHIP_8723:
++			MSG_8192C("Chip Version ID: VERSION_TEST_UMC_CHIP_8723.\n");
++			break;
++		case VERSION_NORMAL_UMC_CHIP_8723_1T1R_A_CUT:
++			MSG_8192C("Chip Version ID: VERSION_NORMA_UMC_CHIP_8723_1T1R_A_CUT.\n");
++			break;
++		case VERSION_NORMAL_UMC_CHIP_8723_1T1R_B_CUT:
++			MSG_8192C("Chip Version ID: VERSION_NORMA_UMC_CHIP_8723_1T1R_B_CUT.\n");
++			break;			
++		default:
++			MSG_8192C("Chip Version ID: ???????????????.\n");
++			break;
++	}
++#endif
++
++	pHalData->VersionID = ChipVersion;
++
++	if(IS_1T2R(ChipVersion))
++		pHalData->rf_type = RF_1T2R;
++	else if(IS_2T2R(ChipVersion))
++		pHalData->rf_type = RF_2T2R;
++	else if(IS_8723_SERIES(ChipVersion))
++		pHalData->rf_type = RF_1T1R;
++	else
++		pHalData->rf_type = RF_1T1R;
++
++	MSG_8192C("RF_Type is %x!!\n", pHalData->rf_type);
++
++	return ChipVersion;
++}
++
++void
++rtl8192c_EfuseParseChnlPlan(
++	IN	PADAPTER		padapter,
++	IN	u8*			hwinfo,
++	IN	BOOLEAN			AutoLoadFail
++	)
++{
++	padapter->mlmepriv.ChannelPlan = hal_com_get_channel_plan(
++		padapter
++		, hwinfo?hwinfo[EEPROM_CHANNEL_PLAN]:0xFF
++		, padapter->registrypriv.channel_plan
++		, RT_CHANNEL_DOMAIN_WORLD_WIDE_13
++		, AutoLoadFail
++	);
++
++	DBG_871X("mlmepriv.ChannelPlan = 0x%02x\n", padapter->mlmepriv.ChannelPlan);
++}
++
++u8 GetEEPROMSize8192C(PADAPTER Adapter)
++{
++	u8	size = 0;
++	u32	curRCR;
++
++	curRCR = rtw_read16(Adapter, REG_9346CR);
++	size = (curRCR & BOOT_FROM_EEPROM) ? 6 : 4; // 6: EEPROM used is 93C46, 4: boot from E-Fuse.
++	
++	MSG_8192C("EEPROM type is %s\n", size==4 ? "E-FUSE" : "93C46");
++	
++	return size;
++}
++
++void rtl8192c_free_hal_data(_adapter * padapter)
++{
++_func_enter_;
++
++	DBG_8192C("=====> rtl8192c_free_hal_data =====\n");
++
++	if(padapter->HalData)
++		rtw_mfree(padapter->HalData, sizeof(HAL_DATA_TYPE));
++	DBG_8192C("<===== rtl8192c_free_hal_data =====\n");
++
++_func_exit_;
++}
++
++//===========================================================
++//				Efuse related code
++//===========================================================
++enum{
++		VOLTAGE_V25						= 0x03,
++		LDOE25_SHIFT						= 28 ,
++	};
++
++static VOID
++hal_EfusePowerSwitch_RTL8192C(
++	IN	PADAPTER	pAdapter,
++	IN	u8		bWrite,
++	IN	u8		PwrState)
++{
++	u8	tempval;
++	u16	tmpV16;
++
++	if (PwrState == _TRUE)
++	{
++		// 1.2V Power: From VDDON with Power Cut(0x0000h[15]), defualt valid
++		tmpV16 = rtw_read16(pAdapter,REG_SYS_ISO_CTRL);
++		if( ! (tmpV16 & PWC_EV12V ) ){
++			tmpV16 |= PWC_EV12V ;
++			rtw_write16(pAdapter,REG_SYS_ISO_CTRL,tmpV16);
++		}
++		// Reset: 0x0000h[28], default valid
++		tmpV16 =  rtw_read16(pAdapter,REG_SYS_FUNC_EN);
++		if( !(tmpV16 & FEN_ELDR) ){
++			tmpV16 |= FEN_ELDR ;
++			rtw_write16(pAdapter,REG_SYS_FUNC_EN,tmpV16);
++		}
++
++		// Clock: Gated(0x0008h[5]) 8M(0x0008h[1]) clock from ANA, default valid
++		tmpV16 = rtw_read16(pAdapter,REG_SYS_CLKR);
++		if( (!(tmpV16 & LOADER_CLK_EN) )  ||(!(tmpV16 & ANA8M) ) ){
++			tmpV16 |= (LOADER_CLK_EN |ANA8M ) ;
++			rtw_write16(pAdapter,REG_SYS_CLKR,tmpV16);
++		}
++
++		if(bWrite == _TRUE)
++		{
++			// Enable LDO 2.5V before read/write action
++			tempval = rtw_read8(pAdapter, EFUSE_TEST+3);
++			tempval &= 0x0F;
++			tempval |= (VOLTAGE_V25 << 4);
++			rtw_write8(pAdapter, EFUSE_TEST+3, (tempval | 0x80));
++		}
++	}
++	else
++	{
++		if(bWrite == _TRUE){
++			// Disable LDO 2.5V after read/write action
++			tempval = rtw_read8(pAdapter, EFUSE_TEST+3);
++			rtw_write8(pAdapter, EFUSE_TEST+3, (tempval & 0x7F));
++		}
++	}
++}
++
++static VOID
++hal_EfusePowerSwitch_RTL8723(
++	IN	PADAPTER	pAdapter,
++	IN	u8		bWrite,
++	IN	u8		PwrState)
++{
++	u8	tempval;
++	u16	tmpV16;
++
++	if (PwrState == _TRUE)
++	{
++		rtw_write8(pAdapter, REG_EFUSE_ACCESS, EFUSE_ACCESS_ON);	
++
++		// 1.2V Power: From VDDON with Power Cut(0x0000h[15]), defualt valid
++		tmpV16 = rtw_read16(pAdapter,REG_SYS_ISO_CTRL);
++		if( ! (tmpV16 & PWC_EV12V ) ){
++			tmpV16 |= PWC_EV12V ;
++			 rtw_write16(pAdapter,REG_SYS_ISO_CTRL,tmpV16);
++		}
++		// Reset: 0x0000h[28], default valid
++		tmpV16 =  rtw_read16(pAdapter,REG_SYS_FUNC_EN);
++		if( !(tmpV16 & FEN_ELDR) ){
++			tmpV16 |= FEN_ELDR ;
++			rtw_write16(pAdapter,REG_SYS_FUNC_EN,tmpV16);
++		}
++
++		// Clock: Gated(0x0008h[5]) 8M(0x0008h[1]) clock from ANA, default valid
++		tmpV16 = rtw_read16(pAdapter,REG_SYS_CLKR);
++		if( (!(tmpV16 & LOADER_CLK_EN) )  ||(!(tmpV16 & ANA8M) ) ){
++			tmpV16 |= (LOADER_CLK_EN |ANA8M ) ;
++			rtw_write16(pAdapter,REG_SYS_CLKR,tmpV16);
++		}
++
++		if(bWrite == _TRUE)
++		{
++			// Enable LDO 2.5V before read/write action
++			tempval = rtw_read8(pAdapter, EFUSE_TEST+3);
++			tempval &= 0x0F;
++			tempval |= (VOLTAGE_V25 << 4);
++			rtw_write8(pAdapter, EFUSE_TEST+3, (tempval | 0x80));
++		}
++	}
++	else
++	{
++		rtw_write8(pAdapter, REG_EFUSE_ACCESS, EFUSE_ACCESS_OFF);
++
++		if(bWrite == _TRUE){
++			// Disable LDO 2.5V after read/write action
++			tempval = rtw_read8(pAdapter, EFUSE_TEST+3);
++			rtw_write8(pAdapter, EFUSE_TEST+3, (tempval & 0x7F));
++		}
++	}	
++}
++
++static VOID
++rtl8192c_EfusePowerSwitch(
++	IN	PADAPTER	pAdapter,
++	IN	u8		bWrite,
++	IN	u8		PwrState)
++{
++	if(IS_HARDWARE_TYPE_8192C(pAdapter))
++	{
++		hal_EfusePowerSwitch_RTL8192C(pAdapter, bWrite, PwrState);
++	}
++	else if(IS_HARDWARE_TYPE_8723A(pAdapter))
++	{
++		hal_EfusePowerSwitch_RTL8723(pAdapter, bWrite, PwrState);
++	}	
++}
++
++static VOID
++ReadEFuse_RTL8192C(
++	PADAPTER	Adapter,
++	u16		 _offset,
++	u16 		_size_byte,
++	u8      	*pbuf,
++	IN	BOOLEAN		bPseudoTest
++	)
++{
++	u8	efuseTbl[EFUSE_MAP_LEN];
++	u8	rtemp8[1];
++	u16 	eFuse_Addr = 0;
++	u8  	offset, wren;
++	u16	i, j;
++	u16	eFuseWord[EFUSE_MAX_SECTION][EFUSE_MAX_WORD_UNIT];
++	u16	efuse_utilized = 0;
++	u8	efuse_usage = 0;
++
++	//
++	// Do NOT excess total size of EFuse table. Added by Roger, 2008.11.10.
++	//
++	if((_offset + _size_byte)>EFUSE_MAP_LEN)
++	{// total E-Fuse table is 128bytes
++		//DBG_8192C("ReadEFuse_RTL8192C(): Invalid offset(%#x) with read bytes(%#x)!!\n",_offset, _size_byte);
++		return;
++	}
++
++	// 0. Refresh efuse init map as all oxFF.
++	for (i = 0; i < EFUSE_MAX_SECTION; i++)
++		for (j = 0; j < EFUSE_MAX_WORD_UNIT; j++)
++			eFuseWord[i][j] = 0xFFFF;
++
++
++	//
++	// 1. Read the first byte to check if efuse is empty!!!
++	// 
++	//
++	ReadEFuseByte(Adapter, eFuse_Addr, rtemp8, bPseudoTest);	
++	if(*rtemp8 != 0xFF)
++	{
++		efuse_utilized++;
++		//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("Addr=%d\n", eFuse_Addr));
++		eFuse_Addr++;
++	}
++
++	//
++	// 2. Read real efuse content. Filter PG header and every section data.
++	//
++	while((*rtemp8 != 0xFF) && (eFuse_Addr < EFUSE_REAL_CONTENT_LEN))
++	{
++		// Check PG header for section num.
++		offset = ((*rtemp8 >> 4) & 0x0f);
++
++		if(offset < EFUSE_MAX_SECTION)
++		{
++			// Get word enable value from PG header
++			wren = (*rtemp8 & 0x0f);
++			//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("Offset-%d Worden=%x\n", offset, wren));
++
++			for(i=0; i<EFUSE_MAX_WORD_UNIT; i++)
++			{
++				// Check word enable condition in the section				
++				if(!(wren & 0x01))
++				{
++					//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("Addr=%d\n", eFuse_Addr));
++					ReadEFuseByte(Adapter, eFuse_Addr, rtemp8, bPseudoTest);	eFuse_Addr++;
++					efuse_utilized++;
++					eFuseWord[offset][i] = (*rtemp8 & 0xff);
++					
++
++					if(eFuse_Addr >= EFUSE_REAL_CONTENT_LEN) 
++						break;
++
++					//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("Addr=%d\n", eFuse_Addr));
++					ReadEFuseByte(Adapter, eFuse_Addr, rtemp8, bPseudoTest);	eFuse_Addr++;
++					efuse_utilized++;
++					eFuseWord[offset][i] |= (((u16)*rtemp8 << 8) & 0xff00);
++
++					if(eFuse_Addr >= EFUSE_REAL_CONTENT_LEN) 
++						break;
++				}
++				
++				wren >>= 1;
++				
++			}
++		}
++
++		//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("Addr=%d\n", eFuse_Addr));
++		// Read next PG header
++		ReadEFuseByte(Adapter, eFuse_Addr, rtemp8, bPseudoTest);	
++		if(*rtemp8 != 0xFF && (eFuse_Addr < 512))
++		{
++			efuse_utilized++;
++			eFuse_Addr++;
++		}
++	}
++
++	//
++	// 3. Collect 16 sections and 4 word unit into Efuse map.
++	//
++	for(i=0; i<EFUSE_MAX_SECTION; i++)
++	{
++		for(j=0; j<EFUSE_MAX_WORD_UNIT; j++)
++		{
++			efuseTbl[(i*8)+(j*2)]=(eFuseWord[i][j] & 0xff);
++			efuseTbl[(i*8)+((j*2)+1)]=((eFuseWord[i][j] >> 8) & 0xff);
++		}
++	}
++
++	//
++	// 4. Copy from Efuse map to output pointer memory!!!
++	//
++	for(i=0; i<_size_byte; i++)
++	{		
++		pbuf[i] = efuseTbl[_offset+i];
++	}
++
++	//
++	// 5. Calculate Efuse utilization.
++	//
++	efuse_usage = (u8)((efuse_utilized*100)/EFUSE_REAL_CONTENT_LEN);
++	rtw_hal_set_hwreg(Adapter, HW_VAR_EFUSE_BYTES, (u8 *)&efuse_utilized);
++	//rtw_hal_set_hwreg(Adapter, HW_VAR_EFUSE_USAGE, (pu1Byte)&efuse_usage);
++}
++
++static VOID
++ReadEFuse_RTL8723(
++	PADAPTER	Adapter,
++	u16		 _offset,
++	u16 		_size_byte,
++	u8      	*pbuf,
++	IN	BOOLEAN		bPseudoTest
++	)
++{
++	u8	efuseTbl[EFUSE_MAP_LEN_8723];
++	u16	eFuse_Addr = 0;
++	u8	offset = 0, wden = 0;
++	u16	i, j;
++	u16	eFuseWord[EFUSE_MAX_SECTION_8723][EFUSE_MAX_WORD_UNIT];
++	u16	efuse_utilized = 0;
++	u8	efuse_usage = 0;
++	u8	offset_2_0=0;
++	u8	efuseHeader=0, efuseExtHdr=0, efuseData=0;
++	//
++	// Do NOT excess total size of EFuse table. Added by Roger, 2008.11.10.
++	//
++	if((_offset + _size_byte)>EFUSE_MAP_LEN_8723)
++	{
++		//RT_TRACE(COMP_EFUSE, DBG_LOUD, ("ReadEFuse_RTL8723(): Invalid offset(%#x) with read bytes(%#x)!!\n",_offset, _size_byte));
++		return;
++	}
++
++	// 0. Refresh efuse init map as all oxFF.
++	for (i = 0; i < EFUSE_MAX_SECTION_8723; i++)
++		for (j = 0; j < EFUSE_MAX_WORD_UNIT; j++)
++			eFuseWord[i][j] = 0xFFFF;
++
++	//
++	// 1. Read the first byte to check if efuse is empty!!!
++	// 
++	//
++	ReadEFuseByte(Adapter, eFuse_Addr++, &efuseHeader, bPseudoTest);
++	
++	if(efuseHeader != 0xFF)
++	{
++		efuse_utilized++;
++	}
++	else
++	{
++		//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("EFUSE is empty\n"));
++		return;
++	}
++
++
++	//
++	// 2. Read real efuse content. Filter PG header and every section data.
++	//
++	while((efuseHeader != 0xFF) && AVAILABLE_EFUSE_ADDR(eFuse_Addr))
++	{
++		//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("efuse[%d]=%x\n", eFuse_Addr-1, efuseHeader));
++	
++		// Check PG header for section num.
++		if(EXT_HEADER(efuseHeader))		//extended header
++		{
++			offset_2_0 = GET_HDR_OFFSET_2_0(efuseHeader);
++			//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("extended header offset_2_0=%x\n", offset_2_0));
++
++			ReadEFuseByte(Adapter, eFuse_Addr++, &efuseExtHdr, bPseudoTest);
++
++			//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("efuse[%d]=%x\n", eFuse_Addr-1, efuseExtHdr));
++
++			if(efuseExtHdr != 0xff)
++			{
++				efuse_utilized++;
++				if(ALL_WORDS_DISABLED(efuseExtHdr))
++				{
++					ReadEFuseByte(Adapter, eFuse_Addr++, &efuseHeader, bPseudoTest);
++					if(efuseHeader != 0xff)
++					{
++						efuse_utilized++;
++					}
++					continue;
++				}
++				else
++				{
++					offset = ((efuseExtHdr & 0xF0) >> 1) | offset_2_0;
++					wden = (efuseExtHdr & 0x0F);
++				}
++			}
++			else
++			{
++				//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("Error condition, extended = 0xff\n"));
++				// We should handle this condition.
++			}
++		}
++		else
++		{
++			offset = ((efuseHeader >> 4) & 0x0f);
++			wden = (efuseHeader & 0x0f);
++		}
++
++		if(offset < EFUSE_MAX_SECTION_8723)
++		{
++			// Get word enable value from PG header
++			//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("Offset-%d Worden=%x\n", offset, wden));
++
++			for(i=0; i<EFUSE_MAX_WORD_UNIT; i++)
++			{
++				// Check word enable condition in the section				
++				if(!(wden & (0x01<<i)))
++				{
++					ReadEFuseByte(Adapter, eFuse_Addr++, &efuseData, bPseudoTest);
++					//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("efuse[%d]=%x\n", eFuse_Addr-1, efuseData));
++					efuse_utilized++;
++					eFuseWord[offset][i] = (efuseData & 0xff);
++
++					if(!AVAILABLE_EFUSE_ADDR(eFuse_Addr))
++						break;
++
++					ReadEFuseByte(Adapter, eFuse_Addr++, &efuseData, bPseudoTest);
++					//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("efuse[%d]=%x\n", eFuse_Addr-1, efuseData));
++					efuse_utilized++;
++					eFuseWord[offset][i] |= (((u16)efuseData << 8) & 0xff00);
++
++					if(!AVAILABLE_EFUSE_ADDR(eFuse_Addr)) 
++						break;
++				}
++			}
++		}
++
++		// Read next PG header
++		ReadEFuseByte(Adapter, eFuse_Addr++, &efuseHeader, bPseudoTest);
++
++		if(efuseHeader != 0xFF)
++		{
++			efuse_utilized++;
++		}
++	}
++
++	//
++	// 3. Collect 16 sections and 4 word unit into Efuse map.
++	//
++	for(i=0; i<EFUSE_MAX_SECTION_8723; i++)
++	{
++		for(j=0; j<EFUSE_MAX_WORD_UNIT; j++)
++		{
++			efuseTbl[(i*8)+(j*2)]=(eFuseWord[i][j] & 0xff);
++			efuseTbl[(i*8)+((j*2)+1)]=((eFuseWord[i][j] >> 8) & 0xff);
++		}
++	}
++
++	//
++	// 4. Copy from Efuse map to output pointer memory!!!
++	//
++	for(i=0; i<_size_byte; i++)
++	{		
++		pbuf[i] = efuseTbl[_offset+i];
++	}
++
++	//
++	// 5. Calculate Efuse utilization.
++	//
++	efuse_usage = (u8)((efuse_utilized*100)/EFUSE_REAL_CONTENT_LEN);
++	rtw_hal_set_hwreg(Adapter, HW_VAR_EFUSE_BYTES, (u8 *)&efuse_utilized);
++	//rtw_hal_set_hwreg(Adapter, HW_VAR_EFUSE_USAGE, (pu1Byte)&efuse_usage);
++}
++
++static BOOLEAN
++Hal_EfuseSwitchToBank(
++	IN		PADAPTER	pAdapter,
++	IN		u8			bank,
++	IN		BOOLEAN		bPseudoTest
++	)
++{
++	BOOLEAN		bRet = _FALSE;
++	u32		value32=0;
++
++	//RTPRINT(FEEPROM, EFUSE_PG, ("Efuse switch bank to %d\n", bank));
++	if(bPseudoTest)
++	{
++		fakeEfuseBank = bank;
++		bRet = _TRUE;
++	}
++	else
++	{
++		if(IS_HARDWARE_TYPE_8723A(pAdapter) && 
++			INCLUDE_MULTI_FUNC_BT(pAdapter))
++		{		
++			value32 = rtw_read32(pAdapter, EFUSE_TEST);
++			bRet = _TRUE;
++			switch(bank)
++			{
++			case 0:
++				value32 = (value32 & ~EFUSE_SEL_MASK) | EFUSE_SEL(EFUSE_WIFI_SEL_0);
++				break;
++			case 1:
++				value32 = (value32 & ~EFUSE_SEL_MASK) | EFUSE_SEL(EFUSE_BT_SEL_0);
++				break;
++			case 2:
++				value32 = (value32 & ~EFUSE_SEL_MASK) | EFUSE_SEL(EFUSE_BT_SEL_1);
++				break;
++			case 3:
++				value32 = (value32 & ~EFUSE_SEL_MASK) | EFUSE_SEL(EFUSE_BT_SEL_2);
++				break;
++			default:
++				value32 = (value32 & ~EFUSE_SEL_MASK) | EFUSE_SEL(EFUSE_WIFI_SEL_0);
++				bRet = _FALSE;
++				break;
++			}
++			rtw_write32(pAdapter, EFUSE_TEST, value32);
++		}
++		else
++			bRet = _TRUE;
++	}
++	return bRet;
++}
++
++static VOID
++ReadEFuse_BT(
++	PADAPTER	Adapter,
++	u16		 _offset,
++	u16 		_size_byte,
++	u8      	*pbuf,
++	IN	BOOLEAN	bPseudoTest
++	)
++{
++	u8  	*efuseTbl;
++	u16 	eFuse_Addr = 0;
++	u8  	offset = 0, wden = 0;
++	u16	i, j;
++	u16 	**eFuseWord;
++	u16	efuse_utilized = 0;
++	u8	efuse_usage = 0;
++	u8	offset_2_0=0;
++	u8	efuseHeader=0, efuseExtHdr=0, efuseData=0;
++	u8	bank=0;
++	BOOLEAN	bCheckNextBank=_FALSE;
++
++	efuseTbl = rtw_malloc(EFUSE_BT_MAP_LEN);
++	if(efuseTbl == NULL){
++		DBG_8192C("efuseTbl malloc fail !\n");
++		return;
++	}
++
++	eFuseWord = (u16 **)rtw_zmalloc(sizeof(u16 *)*EFUSE_BT_MAX_SECTION);
++	if(eFuseWord == NULL){
++		DBG_8192C("eFuseWord malloc fail !\n");
++		return;
++	}
++	else{
++		for(i=0;i<EFUSE_BT_MAX_SECTION;i++){
++			eFuseWord[i]= (u16 *)rtw_zmalloc(sizeof(u16)*EFUSE_MAX_WORD_UNIT);
++			if(eFuseWord[i]==NULL){
++				DBG_8192C("eFuseWord[] malloc fail !\n");
++				return;
++			}
++		}
++	}
++
++	//
++	// Do NOT excess total size of EFuse table. Added by Roger, 2008.11.10.
++	//
++	if((_offset + _size_byte)>EFUSE_BT_MAP_LEN)
++	{
++		//RT_TRACE(COMP_EFUSE, DBG_LOUD, ("ReadEFuse_BT(): Invalid offset(%#x) with read bytes(%#x)!!\n",_offset, _size_byte));
++		return;
++	}
++
++	// 0. Refresh efuse init map as all oxFF.
++	for (i = 0; i < EFUSE_BT_MAX_SECTION; i++)
++		for (j = 0; j < EFUSE_MAX_WORD_UNIT; j++)
++			eFuseWord[i][j] = 0xFFFF;
++
++	for(bank=1; bank<EFUSE_MAX_BANK; bank++)
++	{
++		if(!Hal_EfuseSwitchToBank(Adapter, bank, bPseudoTest))
++		{
++			//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("Hal_EfuseSwitchToBank() Fail!!\n"));
++			return;
++		}
++		eFuse_Addr = 0;
++		//
++		// 1. Read the first byte to check if efuse is empty!!!
++		// 
++		ReadEFuseByte(Adapter, eFuse_Addr++, &efuseHeader, bPseudoTest);
++		
++		if(efuseHeader != 0xFF)
++		{
++			efuse_utilized++;
++		}
++		else
++		{
++			//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("EFUSE is empty\n"));
++			return;
++		}
++		//
++		// 2. Read real efuse content. Filter PG header and every section data.
++		//
++		while((efuseHeader != 0xFF) && AVAILABLE_EFUSE_ADDR(eFuse_Addr))
++		{
++			//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("efuse[%d]=0x%02x (header)\n", (((bank-1)*EFUSE_REAL_CONTENT_LEN)+eFuse_Addr-1), efuseHeader));
++		
++			// Check PG header for section num.
++			if(EXT_HEADER(efuseHeader))		//extended header
++			{
++				offset_2_0 = GET_HDR_OFFSET_2_0(efuseHeader);
++				//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("extended header offset_2_0=%x\n", offset_2_0));
++
++				ReadEFuseByte(Adapter, eFuse_Addr++, &efuseExtHdr, bPseudoTest);
++
++				//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("efuse[%d]=0x%02x (ext header)\n", (((bank-1)*EFUSE_REAL_CONTENT_LEN)+eFuse_Addr-1), efuseExtHdr));
++
++				if(efuseExtHdr != 0xff)
++				{
++					efuse_utilized++;
++					if(ALL_WORDS_DISABLED(efuseExtHdr))
++					{
++						ReadEFuseByte(Adapter, eFuse_Addr++, &efuseHeader, bPseudoTest);
++						if(efuseHeader != 0xff)
++						{
++							efuse_utilized++;
++						}
++						continue;
++					}
++					else
++					{
++						offset = ((efuseExtHdr & 0xF0) >> 1) | offset_2_0;
++						wden = (efuseExtHdr & 0x0F);
++					}
++				}
++				else
++				{
++					//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("Error condition, extended = 0xff\n"));
++					// We should handle this condition.
++				}
++			}
++			else
++			{
++				offset = ((efuseHeader >> 4) & 0x0f);
++				wden = (efuseHeader & 0x0f);
++			}
++
++			if(offset < EFUSE_BT_MAX_SECTION)
++			{
++				// Get word enable value from PG header
++				//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("Offset-%d Worden=%x\n", offset, wden));
++
++				for(i=0; i<EFUSE_MAX_WORD_UNIT; i++)
++				{
++					// Check word enable condition in the section				
++					if(!(wden & (0x01<<i)))
++					{
++						ReadEFuseByte(Adapter, eFuse_Addr++, &efuseData, bPseudoTest);
++						//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("efuse[%d]=0x%02x\n", (((bank-1)*EFUSE_REAL_CONTENT_LEN)+eFuse_Addr-1), efuseData));
++						efuse_utilized++;
++						eFuseWord[offset][i] = (efuseData & 0xff);
++
++						if(!AVAILABLE_EFUSE_ADDR(eFuse_Addr))
++							break;
++
++						ReadEFuseByte(Adapter, eFuse_Addr++, &efuseData, bPseudoTest);
++						//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("efuse[%d]=0x%02x\n", (((bank-1)*EFUSE_REAL_CONTENT_LEN)+eFuse_Addr-1), efuseData));
++						efuse_utilized++;
++						eFuseWord[offset][i] |= (((u16)efuseData << 8) & 0xff00);
++
++						if(!AVAILABLE_EFUSE_ADDR(eFuse_Addr)) 
++							break;
++					}
++				}
++			}
++
++			// Read next PG header
++			ReadEFuseByte(Adapter, eFuse_Addr++, &efuseHeader, bPseudoTest);
++
++			if(efuseHeader != 0xFF)
++			{
++				efuse_utilized++;
++			}
++			else
++			{
++				if((eFuse_Addr + EFUSE_PROTECT_BYTES_BANK) >= EFUSE_REAL_CONTENT_LEN)
++					bCheckNextBank = _TRUE;
++				else
++					bCheckNextBank = _FALSE;
++			}
++		}
++		if(!bCheckNextBank)
++		{
++			//RTPRINT(FEEPROM, EFUSE_READ_ALL, ("Stop to check next bank\n"));
++			break;
++		}
++	}
++
++	// switch bank back to bank 0 for later BT and wifi use.
++	Hal_EfuseSwitchToBank(Adapter, 0, bPseudoTest);
++		
++	//
++	// 3. Collect 16 sections and 4 word unit into Efuse map.
++	//
++	for(i=0; i<EFUSE_BT_MAX_SECTION; i++)
++	{
++		for(j=0; j<EFUSE_MAX_WORD_UNIT; j++)
++		{
++			efuseTbl[(i*8)+(j*2)]=(eFuseWord[i][j] & 0xff);
++			efuseTbl[(i*8)+((j*2)+1)]=((eFuseWord[i][j] >> 8) & 0xff);
++		}
++	}
++
++	//
++	// 4. Copy from Efuse map to output pointer memory!!!
++	//
++	for(i=0; i<_size_byte; i++)
++	{		
++		pbuf[i] = efuseTbl[_offset+i];
++	}
++	
++	//
++	// 5. Calculate Efuse utilization.
++	//
++	efuse_usage = (u8)((efuse_utilized*100)/EFUSE_BT_REAL_CONTENT_LEN);
++	if(bPseudoTest)
++	{
++		fakeBTEfuseUsedBytes =  (EFUSE_REAL_CONTENT_LEN*(bank-1))+eFuse_Addr-1;
++	}
++	else
++	{
++		BTEfuseUsedBytes =  (EFUSE_REAL_CONTENT_LEN*(bank-1))+eFuse_Addr-1;
++	}
++
++	for(i=0;i<EFUSE_BT_MAX_SECTION;i++)
++		rtw_mfree((u8 *)eFuseWord[i], sizeof(u16)*EFUSE_MAX_WORD_UNIT);
++	rtw_mfree((u8 *)eFuseWord, sizeof(u16 *)*EFUSE_BT_MAX_SECTION);
++	rtw_mfree(efuseTbl, EFUSE_BT_MAP_LEN);
++}
++
++
++static VOID
++ReadEFuseByIC(
++	PADAPTER	Adapter,
++	u8		efuseType,
++	u16		 _offset,
++	u16 		_size_byte,
++	u8      	*pbuf,
++	IN BOOLEAN	bPseudoTest
++	)
++{
++	if(efuseType == EFUSE_WIFI)
++	{
++		if(IS_HARDWARE_TYPE_8192C(Adapter))
++		{
++			ReadEFuse_RTL8192C(Adapter, _offset, _size_byte, pbuf, bPseudoTest);
++		}
++		else if(IS_HARDWARE_TYPE_8723A(Adapter))
++		{
++			ReadEFuse_RTL8723(Adapter, _offset, _size_byte, pbuf, bPseudoTest);
++		}
++	}
++	else
++		ReadEFuse_BT(Adapter, _offset, _size_byte, pbuf, bPseudoTest);
++}
++
++static VOID
++ReadEFuse_Pseudo(
++	PADAPTER	Adapter,
++	u8		efuseType,
++	u16		 _offset,
++	u16 		_size_byte,
++	u8      	*pbuf,
++	IN BOOLEAN	bPseudoTest
++	)
++{
++	if(efuseType == EFUSE_WIFI)
++		ReadEFuse_RTL8723(Adapter, _offset, _size_byte, pbuf, bPseudoTest);
++	else
++		ReadEFuse_BT(Adapter, _offset, _size_byte, pbuf, bPseudoTest);
++}
++
++static VOID
++rtl8192c_ReadEFuse(
++	PADAPTER	Adapter,
++	u8		efuseType,
++	u16		_offset,
++	u16 		_size_byte,
++	u8      	*pbuf,
++	IN	BOOLEAN	bPseudoTest
++	)
++{
++	if(bPseudoTest)
++	{
++		ReadEFuse_Pseudo(Adapter, efuseType, _offset, _size_byte, pbuf, bPseudoTest);
++	}
++	else
++	{
++		ReadEFuseByIC(Adapter, efuseType, _offset, _size_byte, pbuf, bPseudoTest);
++	}
++}
++
++static VOID
++Hal_EFUSEGetEfuseDefinition(
++	IN		PADAPTER	pAdapter,
++	IN		u8		efuseType,
++	IN		u8		type,
++	OUT		PVOID		*pOut
++	)
++{
++	switch(type)
++	{
++		case TYPE_EFUSE_MAX_SECTION:
++			{
++				u8	*pMax_section;
++				pMax_section = (u8 *)pOut;
++
++				if(efuseType == EFUSE_WIFI)
++				{
++					if(IS_HARDWARE_TYPE_8192C(pAdapter))
++					{
++						*pMax_section = EFUSE_MAX_SECTION;
++					}
++					else if(IS_HARDWARE_TYPE_8723A(pAdapter))
++					{
++						*pMax_section = EFUSE_MAX_SECTION_8723;
++					}
++				}
++				else
++					*pMax_section = EFUSE_BT_MAX_SECTION;
++			}
++			break;
++		case TYPE_EFUSE_REAL_CONTENT_LEN:
++			{
++				u16 *pu2Tmp;
++				pu2Tmp = (u16 *)pOut;
++				if(efuseType == EFUSE_WIFI)
++					*pu2Tmp = EFUSE_REAL_CONTENT_LEN;
++				else
++					*pu2Tmp = EFUSE_BT_REAL_CONTENT_LEN;
++			}
++			break;
++		case TYPE_AVAILABLE_EFUSE_BYTES_BANK:
++			{
++				u16	*pu2Tmp;
++				pu2Tmp = (u16 *)pOut;
++				if(efuseType == EFUSE_WIFI)
++					*pu2Tmp = (u16)(EFUSE_REAL_CONTENT_LEN-EFUSE_OOB_PROTECT_BYTES);
++				else
++					*pu2Tmp = (u16)(EFUSE_REAL_CONTENT_LEN-EFUSE_PROTECT_BYTES_BANK);
++			}
++			break;
++		case TYPE_AVAILABLE_EFUSE_BYTES_TOTAL:
++			{
++				u16 *pu2Tmp;
++				pu2Tmp = (u16 *)pOut;
++				if(efuseType == EFUSE_WIFI)
++					*pu2Tmp = (u16)(EFUSE_REAL_CONTENT_LEN-EFUSE_OOB_PROTECT_BYTES);
++				else
++					*pu2Tmp = (u16)(EFUSE_BT_REAL_CONTENT_LEN-(EFUSE_PROTECT_BYTES_BANK*3));
++			}
++			break;
++		case TYPE_EFUSE_MAP_LEN:
++			{
++				u16 *pu2Tmp;
++				pu2Tmp = (u16 *)pOut;
++
++				if(efuseType == EFUSE_WIFI)
++				{
++					if(IS_HARDWARE_TYPE_8192C(pAdapter))
++					{
++						*pu2Tmp = (u16)EFUSE_MAP_LEN;
++					}
++					else if(IS_HARDWARE_TYPE_8723A(pAdapter))
++					{
++						*pu2Tmp = (u16)EFUSE_MAP_LEN_8723;
++					}
++				}
++				else
++					*pu2Tmp = (u16)EFUSE_BT_MAP_LEN;
++			}
++			break;
++		case TYPE_EFUSE_PROTECT_BYTES_BANK:
++			{
++				u8 *pu1Tmp;
++				pu1Tmp = (u8 *)pOut;
++				if(efuseType == EFUSE_WIFI)
++					*pu1Tmp = (u8)(EFUSE_OOB_PROTECT_BYTES);
++				else
++					*pu1Tmp = (u8)(EFUSE_PROTECT_BYTES_BANK);
++			}
++			break;
++		default:
++			{
++				u8 *pu1Tmp;
++				pu1Tmp = (u8 *)pOut;
++				*pu1Tmp = 0;
++			}
++			break;
++	}
++}
++
++static VOID
++Hal_EFUSEGetEfuseDefinition_Pseudo(
++	IN		PADAPTER	pAdapter,
++	IN		u8		efuseType,
++	IN		u8		type,
++	OUT		PVOID		*pOut
++	)
++{
++	switch(type)
++	{
++		case TYPE_EFUSE_MAX_SECTION:
++			{
++				u8	*pMax_section;
++				pMax_section = (u8 *)pOut;
++				if(efuseType == EFUSE_WIFI)
++					*pMax_section = EFUSE_MAX_SECTION_8723;
++				else
++					*pMax_section = EFUSE_BT_MAX_SECTION;
++			}
++			break;
++		case TYPE_EFUSE_REAL_CONTENT_LEN:
++			{
++				u16 *pu2Tmp;
++				pu2Tmp = (u16 *)pOut;
++				if(efuseType == EFUSE_WIFI)
++					*pu2Tmp = EFUSE_REAL_CONTENT_LEN;
++				else
++					*pu2Tmp = EFUSE_BT_REAL_CONTENT_LEN;
++			}
++			break;
++		case TYPE_AVAILABLE_EFUSE_BYTES_BANK:
++			{
++				u16 *pu2Tmp;
++				pu2Tmp = (u16 *)pOut;
++				if(efuseType == EFUSE_WIFI)
++					*pu2Tmp = (u16)(EFUSE_REAL_CONTENT_LEN-EFUSE_OOB_PROTECT_BYTES);
++				else
++					*pu2Tmp = (u16)(EFUSE_REAL_CONTENT_LEN-EFUSE_PROTECT_BYTES_BANK);
++			}
++			break;
++		case TYPE_AVAILABLE_EFUSE_BYTES_TOTAL:
++			{
++				u16 *pu2Tmp;
++				pu2Tmp = (u16 *)pOut;
++				if(efuseType == EFUSE_WIFI)
++					*pu2Tmp = (u16)(EFUSE_REAL_CONTENT_LEN-EFUSE_OOB_PROTECT_BYTES);
++				else
++					*pu2Tmp = (u16)(EFUSE_BT_REAL_CONTENT_LEN-(EFUSE_PROTECT_BYTES_BANK*3));
++			}
++			break;
++		case TYPE_EFUSE_MAP_LEN:
++			{
++				u16 *pu2Tmp;
++				pu2Tmp = (u16 *)pOut;
++				if(efuseType == EFUSE_WIFI)
++					*pu2Tmp = (u16)EFUSE_MAP_LEN_8723;
++				else
++					*pu2Tmp = (u16)EFUSE_BT_MAP_LEN;
++			}
++			break;
++		case TYPE_EFUSE_PROTECT_BYTES_BANK:
++			{
++				u8 *pu1Tmp;
++				pu1Tmp = (u8 *)pOut;
++				if(efuseType == EFUSE_WIFI)
++					*pu1Tmp = (u8)(EFUSE_OOB_PROTECT_BYTES);
++				else
++					*pu1Tmp = (u8)(EFUSE_PROTECT_BYTES_BANK);
++			}
++			break;
++		default:
++			{
++				u8 *pu1Tmp;
++				pu1Tmp = (u8 *)pOut;
++				*pu1Tmp = 0;
++			}
++			break;
++	}
++}
++
++static VOID
++rtl8192c_EFUSE_GetEfuseDefinition(
++	IN		PADAPTER	pAdapter,
++	IN		u8		efuseType,
++	IN		u8		type,
++	OUT		PVOID		*pOut,
++	IN		BOOLEAN		bPseudoTest
++	)
++{
++	if(bPseudoTest)
++	{
++		Hal_EFUSEGetEfuseDefinition_Pseudo(pAdapter, efuseType, type, pOut);
++	}
++	else
++	{
++		Hal_EFUSEGetEfuseDefinition(pAdapter, efuseType, type, pOut);
++	}
++}
++
++static u8
++Hal_EfuseWordEnableDataWrite(	IN	PADAPTER	pAdapter,
++							IN	u16		efuse_addr,
++							IN	u8		word_en, 
++							IN	u8		*data,
++							IN	BOOLEAN		bPseudoTest)
++{		
++	u16	tmpaddr = 0;
++	u16	start_addr = efuse_addr;
++	u8	badworden = 0x0F;
++	u8	tmpdata[8]; 
++	
++	_rtw_memset((PVOID)tmpdata, 0xff, PGPKT_DATA_SIZE);
++	//RT_TRACE(COMP_EFUSE, DBG_LOUD, ("word_en = %x efuse_addr=%x\n", word_en, efuse_addr));
++
++	if(!(word_en&BIT0))
++	{
++		tmpaddr = start_addr;
++		efuse_OneByteWrite(pAdapter,start_addr++, data[0], bPseudoTest);
++		efuse_OneByteWrite(pAdapter,start_addr++, data[1], bPseudoTest);
++
++		efuse_OneByteRead(pAdapter,tmpaddr, &tmpdata[0], bPseudoTest);
++		efuse_OneByteRead(pAdapter,tmpaddr+1, &tmpdata[1], bPseudoTest);
++		if((data[0]!=tmpdata[0])||(data[1]!=tmpdata[1])){
++			badworden &= (~BIT0);
++		}
++	}
++	if(!(word_en&BIT1))
++	{
++		tmpaddr = start_addr;
++		efuse_OneByteWrite(pAdapter,start_addr++, data[2], bPseudoTest);
++		efuse_OneByteWrite(pAdapter,start_addr++, data[3], bPseudoTest);
++				
++		efuse_OneByteRead(pAdapter,tmpaddr    , &tmpdata[2], bPseudoTest);
++		efuse_OneByteRead(pAdapter,tmpaddr+1, &tmpdata[3], bPseudoTest);
++		if((data[2]!=tmpdata[2])||(data[3]!=tmpdata[3])){
++			badworden &=( ~BIT1);
++		}
++	}
++	if(!(word_en&BIT2))
++	{
++		tmpaddr = start_addr;
++		efuse_OneByteWrite(pAdapter,start_addr++, data[4], bPseudoTest);
++		efuse_OneByteWrite(pAdapter,start_addr++, data[5], bPseudoTest);
++
++		efuse_OneByteRead(pAdapter,tmpaddr, &tmpdata[4], bPseudoTest);							
++		efuse_OneByteRead(pAdapter,tmpaddr+1, &tmpdata[5], bPseudoTest);
++		if((data[4]!=tmpdata[4])||(data[5]!=tmpdata[5])){
++			badworden &=( ~BIT2);
++		}
++	}
++	if(!(word_en&BIT3))
++	{
++		tmpaddr = start_addr;
++		efuse_OneByteWrite(pAdapter,start_addr++, data[6], bPseudoTest);
++		efuse_OneByteWrite(pAdapter,start_addr++, data[7], bPseudoTest);
++
++		efuse_OneByteRead(pAdapter,tmpaddr, &tmpdata[6], bPseudoTest);
++		efuse_OneByteRead(pAdapter,tmpaddr+1, &tmpdata[7], bPseudoTest);
++		if((data[6]!=tmpdata[6])||(data[7]!=tmpdata[7])){
++			badworden &=( ~BIT3);
++		}
++	}
++	return badworden;
++}
++
++static u8
++Hal_EfuseWordEnableDataWrite_Pseudo(	IN	PADAPTER	pAdapter,
++							IN	u16		efuse_addr,
++							IN	u8		word_en, 
++							IN	u8		*data,
++							IN	BOOLEAN		bPseudoTest)
++{
++	u8	ret=0;
++	
++	ret = Hal_EfuseWordEnableDataWrite(pAdapter, efuse_addr, word_en, data, bPseudoTest);
++
++	return ret;
++}
++
++static u8
++rtl8192c_Efuse_WordEnableDataWrite(	IN	PADAPTER	pAdapter,
++							IN	u16		efuse_addr,
++							IN	u8		word_en, 
++							IN	u8		*data,
++							IN	BOOLEAN		bPseudoTest)
++{
++	u8	ret=0;
++
++	if(bPseudoTest)
++	{
++		ret = Hal_EfuseWordEnableDataWrite_Pseudo(pAdapter, efuse_addr, word_en, data, bPseudoTest);
++	}
++	else
++	{
++		ret = Hal_EfuseWordEnableDataWrite(pAdapter, efuse_addr, word_en, data, bPseudoTest);
++	}
++	
++	return ret;
++}
++
++
++static u16
++hal_EfuseGetCurrentSize_8192C(IN	PADAPTER	pAdapter,
++	IN		BOOLEAN		bPseudoTest)
++{
++	int bContinual = _TRUE;
++
++	u16	efuse_addr = 0;
++	u8	hoffset=0,hworden=0;	
++	u8	efuse_data,word_cnts=0;
++		
++	while (	bContinual && 
++			efuse_OneByteRead(pAdapter, efuse_addr ,&efuse_data, bPseudoTest) && 
++			(efuse_addr  < EFUSE_REAL_CONTENT_LEN) )
++	{			
++		if(efuse_data!=0xFF)
++		{					
++			hoffset = (efuse_data>>4) & 0x0F;
++			hworden =  efuse_data & 0x0F;									
++			word_cnts = Efuse_CalculateWordCnts(hworden);
++			//read next header							
++			efuse_addr = efuse_addr + (word_cnts*2)+1;						
++		}
++		else
++		{
++			bContinual = _FALSE ;			
++		}
++	}
++
++	return efuse_addr;	
++}
++
++static u16
++Hal_EfuseGetCurrentSize_BT(IN	PADAPTER	pAdapter,
++		IN		BOOLEAN			bPseudoTest)
++{
++	int	bContinual = _TRUE;
++	u16	efuse_addr = 0;
++	u8	hoffset=0,hworden=0;	
++	u8	efuse_data,word_cnts=0;
++	u8	bank=0, startBank=0;
++	u16	retU2=0;
++	u32	total_efuse_used=0;
++
++	if(bPseudoTest)
++	{
++		efuse_addr = (u16)((fakeBTEfuseUsedBytes%EFUSE_REAL_CONTENT_LEN));
++		startBank = (u8)(1+(fakeBTEfuseUsedBytes/EFUSE_REAL_CONTENT_LEN));
++	}
++	else
++	{
++		efuse_addr = (u16)((BTEfuseUsedBytes%EFUSE_REAL_CONTENT_LEN));
++		startBank = (u8)(1+(BTEfuseUsedBytes/EFUSE_REAL_CONTENT_LEN));
++	}
++
++	if((startBank < 1) || (startBank >= EFUSE_MAX_BANK))
++		DBG_8192C("Error, bank error, bank=%d\n", bank);
++
++	//RTPRINT(FEEPROM, EFUSE_PG, ("Hal_EfuseGetCurrentSize_BT(), start bank=%d, start_efuse_addr = %d\n", startBank, efuse_addr));
++	
++	for(bank=startBank; bank<EFUSE_MAX_BANK; bank++)
++	{
++		if(!Hal_EfuseSwitchToBank(pAdapter, bank, bPseudoTest))
++			break;
++		else
++		{
++			bContinual = _TRUE;
++			if(bank != startBank)	// only when bank is switched we have to reset the efuse_addr.
++				efuse_addr = 0;
++		}
++		
++		while (	bContinual && 
++				efuse_OneByteRead(pAdapter, efuse_addr ,&efuse_data, bPseudoTest) && 
++				AVAILABLE_EFUSE_ADDR(efuse_addr))
++		{			
++			if(efuse_data!=0xFF)
++			{
++				if((efuse_data&0x1F) == 0x0F)		//extended header
++				{
++					hoffset = efuse_data;
++					efuse_addr++;
++					efuse_OneByteRead(pAdapter, efuse_addr ,&efuse_data, bPseudoTest);
++					if((efuse_data & 0x0F) == 0x0F)
++					{
++						efuse_addr++;
++						continue;
++					}
++					else
++					{
++						hoffset = ((hoffset & 0xE0) >> 5) | ((efuse_data & 0xF0) >> 1);
++						hworden = efuse_data & 0x0F;
++					}
++				}		
++				else
++				{
++					hoffset = (efuse_data>>4) & 0x0F;
++					hworden =  efuse_data & 0x0F;									
++				}
++				word_cnts = Efuse_CalculateWordCnts(hworden);
++				//read next header							
++				efuse_addr = efuse_addr + (word_cnts*2)+1;						
++			}
++			else
++			{
++				bContinual = _FALSE ;
++			}
++		}
++
++		// Check if we need to check next bank efuse
++		if(efuse_addr < (EFUSE_REAL_CONTENT_LEN-EFUSE_PROTECT_BYTES_BANK))
++		{
++			break;// don't need to check next bank.
++		}
++	}
++
++	retU2 = ((bank-1)*EFUSE_REAL_CONTENT_LEN)+efuse_addr;
++	if(bPseudoTest)
++	{
++		fakeBTEfuseUsedBytes = retU2;
++		//RTPRINT(FEEPROM, EFUSE_PG, ("Hal_EfuseGetCurrentSize_BT(), return %d\n", fakeBTEfuseUsedBytes));
++	}
++	else
++	{
++		BTEfuseUsedBytes = retU2;
++		//RTPRINT(FEEPROM, EFUSE_PG, ("Hal_EfuseGetCurrentSize_BT(), return %d\n", BTEfuseUsedBytes));
++	}
++
++	return retU2;
++}	
++
++
++static u16
++hal_EfuseGetCurrentSize_8723(IN	PADAPTER	pAdapter,
++		IN		BOOLEAN			bPseudoTest)
++{
++	int	bContinual = _TRUE;
++
++	u16	efuse_addr = 0;
++	u8	hoffset=0,hworden=0;	
++	u8	efuse_data,word_cnts=0;
++
++	if(bPseudoTest)
++	{
++		efuse_addr = (u16)(fakeEfuseUsedBytes);
++	}
++	else
++	{
++		rtw_hal_get_hwreg(pAdapter, HW_VAR_EFUSE_BYTES, (u8 *)&efuse_addr);
++	}
++	//RTPRINT(FEEPROM, EFUSE_PG, ("hal_EfuseGetCurrentSize_8723(), start_efuse_addr = %d\n", efuse_addr));
++	
++	while (	bContinual && 
++			efuse_OneByteRead(pAdapter, efuse_addr ,&efuse_data, bPseudoTest) && 
++			AVAILABLE_EFUSE_ADDR(efuse_addr))
++	{			
++		if(efuse_data!=0xFF)
++		{					
++			if((efuse_data&0x1F) == 0x0F)		//extended header
++			{
++				hoffset = efuse_data;
++				efuse_addr++;
++				efuse_OneByteRead(pAdapter, efuse_addr ,&efuse_data, bPseudoTest);
++				if((efuse_data & 0x0F) == 0x0F)
++				{
++					efuse_addr++;
++					continue;
++				}
++				else
++				{
++					hoffset = ((hoffset & 0xE0) >> 5) | ((efuse_data & 0xF0) >> 1);
++					hworden = efuse_data & 0x0F;
++				}
++			}		
++			else
++			{
++				hoffset = (efuse_data>>4) & 0x0F;
++				hworden =  efuse_data & 0x0F;									
++			}
++			word_cnts = Efuse_CalculateWordCnts(hworden);
++			//read next header							
++			efuse_addr = efuse_addr + (word_cnts*2)+1;						
++		}
++		else
++		{
++			bContinual = _FALSE ;			
++		}
++	}
++
++	if(bPseudoTest)
++	{
++		fakeEfuseUsedBytes = efuse_addr;
++		//RTPRINT(FEEPROM, EFUSE_PG, ("hal_EfuseGetCurrentSize_8723(), return %d\n", fakeEfuseUsedBytes));
++	}
++	else
++	{
++		rtw_hal_set_hwreg(pAdapter, HW_VAR_EFUSE_BYTES, (u8 *)&efuse_addr);
++		//RTPRINT(FEEPROM, EFUSE_PG, ("hal_EfuseGetCurrentSize_8723(), return %d\n", efuse_addr));
++	}
++	
++	return efuse_addr;	
++}	
++
++static u16
++Hal_EfuseGetCurrentSize_Pseudo(IN	PADAPTER	pAdapter,
++		IN		BOOLEAN			bPseudoTest)
++{
++	u16	ret=0;
++	
++	ret = hal_EfuseGetCurrentSize_8723(pAdapter, bPseudoTest);
++
++	return ret;
++}
++
++static u16
++rtl8192c_EfuseGetCurrentSize(
++	IN	PADAPTER	pAdapter,
++	IN	u8			efuseType,
++	IN	BOOLEAN		bPseudoTest)
++{
++	u16	ret=0;
++
++	if(efuseType == EFUSE_WIFI)
++	{
++		if(bPseudoTest)
++		{
++			ret = Hal_EfuseGetCurrentSize_Pseudo(pAdapter, bPseudoTest);
++		}
++		else
++		{
++			if(IS_HARDWARE_TYPE_8192C(pAdapter))
++			{
++				ret = hal_EfuseGetCurrentSize_8192C(pAdapter, bPseudoTest);
++			}
++			else if(IS_HARDWARE_TYPE_8723A(pAdapter))
++			{
++				ret = hal_EfuseGetCurrentSize_8723(pAdapter, bPseudoTest);
++			}
++		}
++	}
++	else
++	{
++		ret = Hal_EfuseGetCurrentSize_BT(pAdapter, bPseudoTest);
++	}
++
++	return ret;
++}
++
++static int
++hal_EfusePgPacketRead_8192C(	IN	PADAPTER	pAdapter,
++					IN	u8			offset,
++					IN	u8			*data,
++					IN	BOOLEAN			bPseudoTest)
++{	
++	u8	ReadState = PG_STATE_HEADER;	
++	
++	int	bContinual = _TRUE;
++	int	bDataEmpty = _TRUE ;	
++
++	u8	efuse_data,word_cnts=0;
++	u16	efuse_addr = 0;
++	u8	hoffset=0,hworden=0;	
++	u8	tmpidx=0;
++	u8	tmpdata[8];
++	
++	if(data==NULL)	return _FALSE;
++	if(offset>15)		return _FALSE;	
++	
++
++	_rtw_memset((PVOID)data, 0xff, sizeof(u8)*PGPKT_DATA_SIZE);
++	_rtw_memset((PVOID)tmpdata, 0xff, sizeof(u8)*PGPKT_DATA_SIZE);
++	
++	//
++	// <Roger_TODO> Efuse has been pre-programmed dummy 5Bytes at the end of Efuse by CP.
++	// Skip dummy parts to prevent unexpected data read from Efuse.
++	// By pass right now. 2009.02.19.
++	//
++	while(bContinual && (efuse_addr  < EFUSE_REAL_CONTENT_LEN) )
++	{			
++		//-------  Header Read -------------
++		if(ReadState & PG_STATE_HEADER)
++		{
++			if(efuse_OneByteRead(pAdapter, efuse_addr ,&efuse_data, bPseudoTest)&&(efuse_data!=0xFF)){				
++				hoffset = (efuse_data>>4) & 0x0F;
++				hworden =  efuse_data & 0x0F;									
++				word_cnts = Efuse_CalculateWordCnts(hworden);
++				bDataEmpty = _TRUE ;
++
++				if(hoffset==offset){
++					for(tmpidx = 0;tmpidx< word_cnts*2 ;tmpidx++){
++						if(efuse_OneByteRead(pAdapter, efuse_addr+1+tmpidx ,&efuse_data, bPseudoTest) ){
++							tmpdata[tmpidx] = efuse_data;
++							if(efuse_data!=0xff){						
++								bDataEmpty = _FALSE;
++							}
++						}					
++					}
++					if(bDataEmpty==_FALSE){
++						ReadState = PG_STATE_DATA;							
++					}else{//read next header							
++						efuse_addr = efuse_addr + (word_cnts*2)+1;
++						ReadState = PG_STATE_HEADER; 
++					}
++				}
++				else{//read next header	
++					efuse_addr = efuse_addr + (word_cnts*2)+1;
++					ReadState = PG_STATE_HEADER; 
++				}
++				
++			}
++			else{
++				bContinual = _FALSE ;
++			}
++		}		
++		//-------  Data section Read -------------
++		else if(ReadState & PG_STATE_DATA)
++		{
++			efuse_WordEnableDataRead(hworden,tmpdata,data);
++			efuse_addr = efuse_addr + (word_cnts*2)+1;
++			ReadState = PG_STATE_HEADER; 
++		}
++		
++	}
++		
++	if(	(data[0]==0xff) &&(data[1]==0xff) && (data[2]==0xff)  && (data[3]==0xff) &&
++		(data[4]==0xff) &&(data[5]==0xff) && (data[6]==0xff)  && (data[7]==0xff))
++		return _FALSE;
++	else
++		return _TRUE;
++
++}
++
++static int
++hal_EfusePgPacketRead_8723(	IN	PADAPTER	pAdapter,
++					IN	u8			offset,
++					IN	u8			*data,
++					IN	BOOLEAN			bPseudoTest)
++{	
++	u8	ReadState = PG_STATE_HEADER;	
++	
++	int	bContinual = _TRUE;
++	int	bDataEmpty = _TRUE ;	
++
++	u8	efuse_data,word_cnts=0;
++	u16	efuse_addr = 0;
++	u8	hoffset=0,hworden=0;	
++	u8	tmpidx=0;
++	u8	tmpdata[8];
++	u8	max_section=0;
++	u8	tmp_header = 0;
++
++	EFUSE_GetEfuseDefinition(pAdapter, EFUSE_WIFI, TYPE_EFUSE_MAX_SECTION, (PVOID)&max_section, bPseudoTest);
++	
++	if(data==NULL)
++		return _FALSE;
++	if(offset>max_section)
++		return _FALSE;
++
++	_rtw_memset((PVOID)data, 0xff, sizeof(u8)*PGPKT_DATA_SIZE);
++	_rtw_memset((PVOID)tmpdata, 0xff, sizeof(u8)*PGPKT_DATA_SIZE);
++	
++	
++	//
++	// <Roger_TODO> Efuse has been pre-programmed dummy 5Bytes at the end of Efuse by CP.
++	// Skip dummy parts to prevent unexpected data read from Efuse.
++	// By pass right now. 2009.02.19.
++	//
++	while(bContinual && AVAILABLE_EFUSE_ADDR(efuse_addr) )
++	{			
++		//-------  Header Read -------------
++		if(ReadState & PG_STATE_HEADER)
++		{
++			if(efuse_OneByteRead(pAdapter, efuse_addr ,&efuse_data, bPseudoTest)&&(efuse_data!=0xFF))			
++			{
++				if(EXT_HEADER(efuse_data))
++				{
++					tmp_header = efuse_data;
++					efuse_addr++;
++					efuse_OneByteRead(pAdapter, efuse_addr ,&efuse_data, bPseudoTest);
++					if(!ALL_WORDS_DISABLED(efuse_data))
++					{
++						hoffset = ((tmp_header & 0xE0) >> 5) | ((efuse_data & 0xF0) >> 1);
++						hworden = efuse_data & 0x0F;						
++					}
++					else
++					{
++						DBG_8192C("Error, All words disabled\n");
++						efuse_addr++;
++						continue;
++					}
++				}
++				else	
++				{
++					hoffset = (efuse_data>>4) & 0x0F;
++					hworden =  efuse_data & 0x0F;									
++				}
++				word_cnts = Efuse_CalculateWordCnts(hworden);
++				bDataEmpty = _TRUE ;
++
++				if(hoffset==offset)
++				{
++					for(tmpidx = 0;tmpidx< word_cnts*2 ;tmpidx++)
++					{
++						if(efuse_OneByteRead(pAdapter, efuse_addr+1+tmpidx ,&efuse_data, bPseudoTest) )
++						{
++							tmpdata[tmpidx] = efuse_data;
++							if(efuse_data!=0xff)
++							{						
++								bDataEmpty = _FALSE;
++							}
++						}					
++					}
++					if(bDataEmpty==_FALSE){
++						ReadState = PG_STATE_DATA;							
++					}else{//read next header							
++						efuse_addr = efuse_addr + (word_cnts*2)+1;
++						ReadState = PG_STATE_HEADER; 
++					}
++				}
++				else{//read next header	
++					efuse_addr = efuse_addr + (word_cnts*2)+1;
++					ReadState = PG_STATE_HEADER; 
++				}
++				
++			}
++			else{
++				bContinual = _FALSE ;
++			}
++		}		
++		//-------  Data section Read -------------
++		else if(ReadState & PG_STATE_DATA)
++		{
++			efuse_WordEnableDataRead(hworden,tmpdata,data);
++			efuse_addr = efuse_addr + (word_cnts*2)+1;
++			ReadState = PG_STATE_HEADER; 
++		}
++		
++	}			
++	
++	if(	(data[0]==0xff) &&(data[1]==0xff) && (data[2]==0xff)  && (data[3]==0xff) &&
++		(data[4]==0xff) &&(data[5]==0xff) && (data[6]==0xff)  && (data[7]==0xff))
++		return _FALSE;
++	else
++		return _TRUE;
++
++}
++
++static int
++Hal_EfusePgPacketRead(	IN	PADAPTER	pAdapter,
++					IN	u8			offset,
++					IN	u8			*data,
++					IN	BOOLEAN			bPseudoTest)
++{
++	int	ret=0;
++
++	if(IS_HARDWARE_TYPE_8192C(pAdapter))
++	{
++		ret = hal_EfusePgPacketRead_8192C(pAdapter, offset, data, bPseudoTest);
++	}
++	else if(IS_HARDWARE_TYPE_8723A(pAdapter))
++	{
++		ret = hal_EfusePgPacketRead_8723(pAdapter, offset, data, bPseudoTest);
++	}
++
++	return ret;
++}
++
++static int
++Hal_EfusePgPacketRead_Pseudo(	IN	PADAPTER	pAdapter,
++					IN	u8			offset,
++					IN	u8			*data,
++					IN	BOOLEAN		bPseudoTest)
++{
++	int	ret=0;
++	
++	ret = hal_EfusePgPacketRead_8723(pAdapter, offset, data, bPseudoTest);
++
++	return ret;
++}
++
++static int
++rtl8192c_Efuse_PgPacketRead(	IN	PADAPTER	pAdapter,
++					IN	u8			offset,
++					IN	u8			*data,
++					IN	BOOLEAN		bPseudoTest)
++{
++	int	ret=0;
++
++	if(bPseudoTest)
++	{
++		ret = Hal_EfusePgPacketRead_Pseudo(pAdapter, offset, data, bPseudoTest);
++	}
++	else
++	{
++		ret = Hal_EfusePgPacketRead(pAdapter, offset, data, bPseudoTest);
++	}
++
++	return ret;
++}
++
++static BOOLEAN
++hal_EfuseFixHeaderProcess(
++	IN		PADAPTER			pAdapter,
++	IN		u8					efuseType,
++	IN		PPGPKT_STRUCT		pFixPkt,
++	IN		u16					*pAddr,
++	IN		BOOLEAN				bPseudoTest
++)
++{
++	u8	originaldata[8], badworden=0;
++	u16	efuse_addr=*pAddr;
++	u32	PgWriteSuccess=0;
++	
++	_rtw_memset((PVOID)originaldata, 0xff, 8);
++					
++	if(Efuse_PgPacketRead(pAdapter, pFixPkt->offset, originaldata, bPseudoTest))
++	{	//check if data exist
++		badworden = Efuse_WordEnableDataWrite(pAdapter, efuse_addr+1, pFixPkt->word_en, originaldata, bPseudoTest);
++
++		if(badworden != 0xf)	// write fail
++		{
++			if(efuseType == EFUSE_WIFI)
++				PgWriteSuccess = Efuse_PgPacketWrite(pAdapter, pFixPkt->offset, badworden, originaldata, bPseudoTest);
++			else
++				PgWriteSuccess = hal_EfusePgPacketWrite_BT(pAdapter, pFixPkt->offset, badworden, originaldata, bPseudoTest);
++			if(!PgWriteSuccess)
++				return _FALSE;
++			else
++				efuse_addr = Efuse_GetCurrentSize(pAdapter, efuseType, bPseudoTest);
++		}
++		else
++		{
++			efuse_addr = efuse_addr + (pFixPkt->word_cnts*2) +1;
++		}
++	}
++	else
++	{
++		efuse_addr = efuse_addr + (pFixPkt->word_cnts*2) +1;
++	}
++	*pAddr = efuse_addr;
++	return _TRUE;
++}
++
++static BOOLEAN
++hal_EfusePgPacketWrite2ByteHeader(
++	IN			PADAPTER		pAdapter,
++	IN			u8				efuseType,
++	IN			u16				*pAddr,
++	IN			PPGPKT_STRUCT	pTargetPkt,
++	IN			BOOLEAN			bPseudoTest)
++{
++	BOOLEAN		bRet=_FALSE, bContinual=_TRUE;
++	u16	efuse_addr=*pAddr, efuse_max_available_len=0;
++	u8	pg_header=0, tmp_header=0, pg_header_temp=0;
++	u8	repeatcnt=0;
++
++	//RTPRINT(FEEPROM, EFUSE_PG, ("Wirte 2byte header\n"));
++	EFUSE_GetEfuseDefinition(pAdapter, efuseType, TYPE_AVAILABLE_EFUSE_BYTES_BANK, (PVOID)&efuse_max_available_len, bPseudoTest);
++
++	while(efuse_addr < efuse_max_available_len)
++	{
++		pg_header = ((pTargetPkt->offset & 0x07) << 5) | 0x0F;
++		//RTPRINT(FEEPROM, EFUSE_PG, ("pg_header = 0x%x\n", pg_header));
++		efuse_OneByteWrite(pAdapter, efuse_addr, pg_header, bPseudoTest);
++		efuse_OneByteRead(pAdapter, efuse_addr, &tmp_header, bPseudoTest);
++
++		while(tmp_header == 0xFF)
++		{
++			if(repeatcnt++ > EFUSE_REPEAT_THRESHOLD_)
++			{
++				//RTPRINT(FEEPROM, EFUSE_PG, ("Repeat over limit for pg_header!!\n"));
++				return _FALSE;
++			}
++
++			efuse_OneByteWrite(pAdapter, efuse_addr, pg_header, bPseudoTest);
++			efuse_OneByteRead(pAdapter, efuse_addr, &tmp_header, bPseudoTest);
++		}
++		
++		//to write ext_header
++		if(tmp_header == pg_header)
++		{
++			efuse_addr++;
++			pg_header_temp = pg_header;
++			pg_header = ((pTargetPkt->offset & 0x78) << 1) | pTargetPkt->word_en;
++
++			efuse_OneByteWrite(pAdapter, efuse_addr, pg_header, bPseudoTest);
++			efuse_OneByteRead(pAdapter, efuse_addr, &tmp_header, bPseudoTest);
++
++			while(tmp_header == 0xFF)
++			{											
++				if(repeatcnt++ > EFUSE_REPEAT_THRESHOLD_)
++				{
++					//RTPRINT(FEEPROM, EFUSE_PG, ("Repeat over limit for ext_header!!\n"));
++					return _FALSE;
++				}							
++
++				efuse_OneByteWrite(pAdapter, efuse_addr, pg_header, bPseudoTest);
++				efuse_OneByteRead(pAdapter, efuse_addr, &tmp_header, bPseudoTest);
++			}
++
++			if((tmp_header & 0x0F) == 0x0F)	//word_en PG fail
++			{
++				if(repeatcnt++ > EFUSE_REPEAT_THRESHOLD_)
++				{
++					//RTPRINT(FEEPROM, EFUSE_PG, ("Repeat over limit for word_en!!\n"));
++					return _FALSE;
++				}
++				else
++				{
++					efuse_addr++;
++					continue;
++				}
++			}
++			else if(pg_header != tmp_header)	//offset PG fail						
++			{
++				PGPKT_STRUCT	fixPkt;
++				//RTPRINT(FEEPROM, EFUSE_PG, ("Error condition for offset PG fail, need to cover the existed data\n"));
++				fixPkt.offset = ((pg_header_temp & 0xE0) >> 5) | ((tmp_header & 0xF0) >> 1);
++				fixPkt.word_en = tmp_header & 0x0F;					
++				fixPkt.word_cnts = Efuse_CalculateWordCnts(fixPkt.word_en);
++				if(!hal_EfuseFixHeaderProcess(pAdapter, efuseType, &fixPkt, &efuse_addr, bPseudoTest))
++					return _FALSE;
++			}
++			else
++			{
++				bRet = _TRUE;
++				break;
++			}
++		}
++		else if ((tmp_header & 0x1F) == 0x0F)		//wrong extended header
++		{
++			efuse_addr+=2;
++			continue;						
++		}
++	}
++
++	*pAddr = efuse_addr;
++	return bRet;
++}
++
++static BOOLEAN
++hal_EfusePgPacketWrite1ByteHeader(
++	IN			PADAPTER		pAdapter, 
++	IN			u8				efuseType,
++	IN			u16				*pAddr,
++	IN			PPGPKT_STRUCT	pTargetPkt,
++	IN			BOOLEAN			bPseudoTest)
++{
++	BOOLEAN		bRet=_FALSE;
++	u8	pg_header=0, tmp_header=0;
++	u16	efuse_addr=*pAddr;
++	u8	repeatcnt=0;
++
++	//RTPRINT(FEEPROM, EFUSE_PG, ("Wirte 1byte header\n"));
++	pg_header = ((pTargetPkt->offset << 4) & 0xf0) |pTargetPkt->word_en;
++	
++	efuse_OneByteWrite(pAdapter, efuse_addr, pg_header, bPseudoTest);
++	efuse_OneByteRead(pAdapter, efuse_addr, &tmp_header, bPseudoTest);
++
++	while(tmp_header == 0xFF)
++	{
++		if(repeatcnt++ > EFUSE_REPEAT_THRESHOLD_)
++		{
++			return _FALSE;
++		}
++		efuse_OneByteWrite(pAdapter,efuse_addr, pg_header, bPseudoTest);
++		efuse_OneByteRead(pAdapter,efuse_addr, &tmp_header, bPseudoTest);
++	}
++	
++	if(pg_header == tmp_header)
++	{
++		bRet = _TRUE;
++	}
++	else
++	{
++		PGPKT_STRUCT	fixPkt;
++		//RTPRINT(FEEPROM, EFUSE_PG, ("Error condition for fixed PG packet, need to cover the existed data\n"));
++		fixPkt.offset = (tmp_header>>4) & 0x0F;
++		fixPkt.word_en = tmp_header & 0x0F;					
++		fixPkt.word_cnts = Efuse_CalculateWordCnts(fixPkt.word_en);
++		if(!hal_EfuseFixHeaderProcess(pAdapter, efuseType, &fixPkt, &efuse_addr, bPseudoTest))
++			return _FALSE;
++	}
++	
++	*pAddr = efuse_addr;
++	return bRet;
++}
++
++static BOOLEAN
++hal_EfusePgPacketWriteData(
++	IN			PADAPTER		pAdapter, 
++	IN			u8				efuseType,
++	IN			u16				*pAddr,
++	IN			PPGPKT_STRUCT	pTargetPkt,
++	IN			BOOLEAN			bPseudoTest)
++{
++	BOOLEAN	bRet=_FALSE;
++	u16	efuse_addr=*pAddr;
++	u8	badworden=0;
++	u32	PgWriteSuccess=0;
++
++	badworden = 0x0f;
++	badworden = Efuse_WordEnableDataWrite(pAdapter, efuse_addr+1, pTargetPkt->word_en, pTargetPkt->data, bPseudoTest);
++	if(badworden == 0x0F)
++	{
++		// write ok
++		//RTPRINT(FEEPROM, EFUSE_PG, ("hal_EfusePgPacketWriteData ok!!\n"));
++		return _TRUE;
++	}
++	else
++	{
++		//RTPRINT(FEEPROM, EFUSE_PG, ("hal_EfusePgPacketWriteData Fail!!\n"));
++		//reorganize other pg packet
++		if(efuseType == EFUSE_WIFI)
++			PgWriteSuccess = Efuse_PgPacketWrite(pAdapter, pTargetPkt->offset, badworden, pTargetPkt->data, bPseudoTest);
++		else
++			PgWriteSuccess = hal_EfusePgPacketWrite_BT(pAdapter, pTargetPkt->offset, badworden, pTargetPkt->data, bPseudoTest);
++		if(!PgWriteSuccess)
++			return _FALSE;
++		else
++			return _TRUE;
++	}
++
++	return bRet;
++}
++
++static BOOLEAN
++hal_EfusePgPacketWriteHeader(
++	IN			PADAPTER		pAdapter, 
++	IN			u8				efuseType,
++	IN			u16				*pAddr,
++	IN			PPGPKT_STRUCT	pTargetPkt,
++	IN			BOOLEAN			bPseudoTest)
++{
++	BOOLEAN		bRet=_FALSE;
++
++	if(pTargetPkt->offset >= EFUSE_MAX_SECTION_BASE)
++	{
++		bRet = hal_EfusePgPacketWrite2ByteHeader(pAdapter, efuseType, pAddr, pTargetPkt, bPseudoTest);
++	}
++	else
++	{
++		bRet = hal_EfusePgPacketWrite1ByteHeader(pAdapter, efuseType, pAddr, pTargetPkt, bPseudoTest);
++	}
++
++	return bRet;
++}
++
++static BOOLEAN
++hal_EfusePgCheckAvailableAddr(
++	IN	PADAPTER	pAdapter,
++	IN	u8			efuseType,
++	IN	BOOLEAN		bPseudoTest
++	)
++{
++	u16	efuse_max_available_len=0;
++	
++	EFUSE_GetEfuseDefinition(pAdapter, efuseType, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&efuse_max_available_len, bPseudoTest);
++	//RTPRINT(FEEPROM, EFUSE_PG, ("efuse_max_available_len = %d\n", efuse_max_available_len));
++
++	if(Efuse_GetCurrentSize(pAdapter, efuseType, bPseudoTest) >= efuse_max_available_len)
++	{
++		//RTPRINT(FEEPROM, EFUSE_PG, ("hal_EfusePgCheckAvailableAddr error!!\n"));
++		return _FALSE;
++	}
++	return _TRUE;
++}
++
++static VOID
++hal_EfuseConstructPGPkt(
++					IN	u8 				offset,
++					IN	u8				word_en,
++					IN	u8				*pData,
++					IN	PPGPKT_STRUCT	pTargetPkt
++
++)
++{
++	_rtw_memset((PVOID)pTargetPkt->data, 0xFF, sizeof(u8)*8);
++	pTargetPkt->offset = offset;
++	pTargetPkt->word_en= word_en;
++	efuse_WordEnableDataRead(word_en, pData, pTargetPkt->data);
++	pTargetPkt->word_cnts = Efuse_CalculateWordCnts(pTargetPkt->word_en);
++
++	//RTPRINT(FEEPROM, EFUSE_PG, ("hal_EfuseConstructPGPkt(), targetPkt, offset=%d, word_en=0x%x, word_cnts=%d\n", pTargetPkt->offset, pTargetPkt->word_en, pTargetPkt->word_cnts));
++}
++
++static BOOLEAN
++hal_EfuseCheckIfDatafollowed(
++	IN		PADAPTER		pAdapter,
++	IN		u8				word_cnts,
++	IN		u16				startAddr,
++	IN		BOOLEAN			bPseudoTest
++	)
++{
++	BOOLEAN		bRet=_FALSE;
++	u8	i, efuse_data;
++	
++	for(i=0; i<(word_cnts*2) ; i++)
++	{
++		if(efuse_OneByteRead(pAdapter, (startAddr+i) ,&efuse_data, bPseudoTest)&&(efuse_data != 0xFF))
++			bRet = _TRUE;
++	}
++
++	return bRet;
++}
++
++static BOOLEAN
++wordEnMatched(
++	IN	PPGPKT_STRUCT	pTargetPkt,
++	IN	PPGPKT_STRUCT	pCurPkt,
++	IN	u8				*pWden
++)
++{
++	u8	match_word_en = 0x0F;	// default all words are disabled
++	u8	i;
++
++	// check if the same words are enabled both target and current PG packet
++	if( ((pTargetPkt->word_en & BIT0) == 0) &&
++		((pCurPkt->word_en & BIT0) == 0) )
++	{
++		match_word_en &= ~BIT0;				// enable word 0
++	}
++	if( ((pTargetPkt->word_en & BIT1) == 0) &&
++		((pCurPkt->word_en & BIT1) == 0) )
++	{
++		match_word_en &= ~BIT1;				// enable word 1
++	}
++	if( ((pTargetPkt->word_en & BIT2) == 0) &&
++		((pCurPkt->word_en & BIT2) == 0) )
++	{
++		match_word_en &= ~BIT2;				// enable word 2
++	}
++	if( ((pTargetPkt->word_en & BIT3) == 0) &&
++		((pCurPkt->word_en & BIT3) == 0) )
++	{
++		match_word_en &= ~BIT3;				// enable word 3
++	}
++
++	*pWden = match_word_en;
++
++	if(match_word_en != 0xf)
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++static BOOLEAN
++hal_EfusePartialWriteCheck(
++					IN	PADAPTER		pAdapter,
++					IN	u8				efuseType,
++					IN	u16				*pAddr,
++					IN	PPGPKT_STRUCT	pTargetPkt,
++					IN	BOOLEAN			bPseudoTest
++					)
++{
++	BOOLEAN		bRet=_FALSE;
++	u8	i, efuse_data=0, cur_header=0;
++	u8	new_wden=0, matched_wden=0, badworden=0;
++	u16	startAddr=0, efuse_max_available_len=0, efuse_max=0;
++	PGPKT_STRUCT	curPkt;
++
++	EFUSE_GetEfuseDefinition(pAdapter, efuseType, TYPE_AVAILABLE_EFUSE_BYTES_BANK, (PVOID)&efuse_max_available_len, bPseudoTest);
++	EFUSE_GetEfuseDefinition(pAdapter, efuseType, TYPE_EFUSE_REAL_CONTENT_LEN, (PVOID)&efuse_max, bPseudoTest);
++
++	if(efuseType == EFUSE_WIFI)
++	{
++		if(bPseudoTest)
++		{
++			startAddr = (u16)(fakeEfuseUsedBytes%EFUSE_REAL_CONTENT_LEN);
++		}
++		else
++		{
++			rtw_hal_get_hwreg(pAdapter, HW_VAR_EFUSE_BYTES, (u8 *)&startAddr);
++			startAddr%=EFUSE_REAL_CONTENT_LEN;
++		}
++	}
++	else
++	{
++		if(bPseudoTest)
++		{
++			startAddr = (u16)(fakeBTEfuseUsedBytes%EFUSE_REAL_CONTENT_LEN);
++		}
++		else
++		{
++			startAddr = (u16)(BTEfuseUsedBytes%EFUSE_REAL_CONTENT_LEN);
++		}
++	}
++	//RTPRINT(FEEPROM, EFUSE_PG, ("hal_EfusePartialWriteCheck(), startAddr=%d\n", startAddr));
++
++	while(1)
++	{
++		if(startAddr >= efuse_max_available_len) 
++		{
++			bRet = _FALSE;
++			break;
++		}
++		
++		if(efuse_OneByteRead(pAdapter, startAddr, &efuse_data, bPseudoTest) && (efuse_data!=0xFF))
++		{
++			if(EXT_HEADER(efuse_data))
++			{
++				cur_header = efuse_data;
++				startAddr++;
++				efuse_OneByteRead(pAdapter, startAddr, &efuse_data, bPseudoTest);
++				if(ALL_WORDS_DISABLED(efuse_data))
++				{
++					//RTPRINT(FEEPROM, EFUSE_PG, ("Error condition, all words disabled"));
++					bRet = _FALSE;
++					break;
++				}
++				else
++				{
++					curPkt.offset = ((cur_header & 0xE0) >> 5) | ((efuse_data & 0xF0) >> 1);
++					curPkt.word_en = efuse_data & 0x0F;
++				}
++			}
++			else
++			{
++				cur_header  =  efuse_data;					
++				curPkt.offset = (cur_header>>4) & 0x0F;
++				curPkt.word_en = cur_header & 0x0F;
++			}
++
++			curPkt.word_cnts = Efuse_CalculateWordCnts(curPkt.word_en);
++			// if same header is found but no data followed
++			// write some part of data followed by the header.
++			if( (curPkt.offset == pTargetPkt->offset) && 
++				(!hal_EfuseCheckIfDatafollowed(pAdapter, curPkt.word_cnts, startAddr+1, bPseudoTest)) &&
++				wordEnMatched(pTargetPkt, &curPkt, &matched_wden) )
++			{
++				//RTPRINT(FEEPROM, EFUSE_PG, ("Need to partial write data by the previous wrote header\n"));
++				// Here to write partial data
++				badworden = Efuse_WordEnableDataWrite(pAdapter, startAddr+1, matched_wden, pTargetPkt->data, bPseudoTest);
++				if(badworden != 0x0F)
++				{
++					u32	PgWriteSuccess=0;
++					// if write fail on some words, write these bad words again
++					if(efuseType == EFUSE_WIFI)
++						PgWriteSuccess = Efuse_PgPacketWrite(pAdapter, pTargetPkt->offset, badworden, pTargetPkt->data, bPseudoTest);
++					else
++						PgWriteSuccess = hal_EfusePgPacketWrite_BT(pAdapter, pTargetPkt->offset, badworden, pTargetPkt->data, bPseudoTest);
++
++					if(!PgWriteSuccess)
++					{
++						bRet = _FALSE;	// write fail, return
++						break;
++					}					
++				}
++				// partial write ok, update the target packet for later use		
++				for(i=0; i<4; i++)
++				{
++					if((matched_wden & (0x1<<i)) == 0)	// this word has been written
++					{
++						pTargetPkt->word_en |= (0x1<<i);	// disable the word
++					}
++				}
++				pTargetPkt->word_cnts = Efuse_CalculateWordCnts(pTargetPkt->word_en);
++			}
++			// read from next header
++			startAddr = startAddr + (curPkt.word_cnts*2) +1;	
++		}
++		else
++		{
++			// not used header, 0xff
++			*pAddr = startAddr;
++			//RTPRINT(FEEPROM, EFUSE_PG, ("Started from unused header offset=%d\n", startAddr));
++			bRet = _TRUE;
++			break;
++		}
++	}	
++	return bRet;
++}
++
++static BOOLEAN 
++hal_EfusePgPacketWrite_BT(
++					IN	PADAPTER	pAdapter, 
++					IN	u8 			offset,
++					IN	u8			word_en,
++					IN	u8			*pData,
++					IN	BOOLEAN		bPseudoTest
++					)
++{
++	PGPKT_STRUCT 	targetPkt;
++	u16	startAddr=0;
++	u8	efuseType=EFUSE_BT;
++	
++	if(!hal_EfusePgCheckAvailableAddr(pAdapter, efuseType, bPseudoTest))
++		return _FALSE;
++
++	hal_EfuseConstructPGPkt(offset, word_en, pData, &targetPkt);
++
++	if(!hal_EfusePartialWriteCheck(pAdapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	if(!hal_EfusePgPacketWriteHeader(pAdapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	if(!hal_EfusePgPacketWriteData(pAdapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	return _TRUE;
++}
++
++static BOOLEAN 
++hal_EfusePgPacketWrite_8723(
++					IN	PADAPTER		pAdapter, 
++					IN	u8 			offset,
++					IN	u8			word_en,
++					IN	u8			*pData,
++					IN	BOOLEAN		bPseudoTest
++					)
++{
++	PGPKT_STRUCT 	targetPkt;
++	u16			startAddr=0;
++	u8			efuseType=EFUSE_WIFI;
++	
++	if(!hal_EfusePgCheckAvailableAddr(pAdapter, efuseType, bPseudoTest))
++		return _FALSE;
++
++	hal_EfuseConstructPGPkt(offset, word_en, pData, &targetPkt);
++
++	if(!hal_EfusePartialWriteCheck(pAdapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	if(!hal_EfusePgPacketWriteHeader(pAdapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	if(!hal_EfusePgPacketWriteData(pAdapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	return _TRUE;
++}
++
++static int
++hal_EfusePgPacketWrite_8192C(IN	PADAPTER	pAdapter, 
++					IN	u8 			offset,
++					IN	u8			word_en,
++					IN	u8			*data,
++					IN	BOOLEAN		bPseudoTest)
++{
++	u8	WriteState = PG_STATE_HEADER;		
++
++	int	bContinual = _TRUE,bDataEmpty=_TRUE, bResult = _TRUE;
++	u16	efuse_addr = 0;
++	u8	efuse_data;
++
++	u8	pg_header = 0;
++
++	u8	tmp_word_cnts=0,target_word_cnts=0;
++	u8	tmp_header,match_word_en,tmp_word_en;
++
++	PGPKT_STRUCT target_pkt;	
++	PGPKT_STRUCT tmp_pkt;
++	
++	u8	originaldata[sizeof(u8)*8];
++	u8	tmpindex = 0,badworden = 0x0F;
++
++	static int	repeat_times = 0;
++	u8	efuseType=EFUSE_WIFI;
++
++	//
++	// <Roger_Notes> Efuse has been pre-programmed dummy 5Bytes at the end of Efuse by CP.
++	// So we have to prevent unexpected data string connection, which will cause
++	// incorrect data auto-load from HW. The total size is equal or smaller than 498bytes
++	// (i.e., offset 0~497, and dummy 1bytes) expected after CP test.
++	// 2009.02.19.
++	//
++	if( Efuse_GetCurrentSize(pAdapter, efuseType, bPseudoTest) >= (EFUSE_REAL_CONTENT_LEN-EFUSE_OOB_PROTECT_BYTES))
++	{
++		//RTPRINT(FEEPROM, EFUSE_PG, ("hal_EfusePgPacketWrite_8192C(), over size\n"));
++		return _FALSE;
++	}
++
++	// Init the 8 bytes content as 0xff
++	target_pkt.offset = offset;
++	target_pkt.word_en= word_en;
++
++	_rtw_memset((PVOID)target_pkt.data, 0xFF, sizeof(u8)*8);
++	
++	efuse_WordEnableDataRead(word_en,data,target_pkt.data);
++	target_word_cnts = Efuse_CalculateWordCnts(target_pkt.word_en);
++
++	//efuse_reg_ctrl(pAdapter,_TRUE);//power on
++	//RTPRINT(FEEPROM, EFUSE_PG, ("EFUSE Power ON\n"));
++
++	//
++	// <Roger_Notes> Efuse has been pre-programmed dummy 5Bytes at the end of Efuse by CP.
++	// So we have to prevent unexpected data string connection, which will cause
++	// incorrect data auto-load from HW. Dummy 1bytes is additional.
++	// 2009.02.19.
++	//
++	while( bContinual && (efuse_addr  < (EFUSE_REAL_CONTENT_LEN-EFUSE_OOB_PROTECT_BYTES)) )
++	{
++		
++		if(WriteState==PG_STATE_HEADER)
++		{	
++			bDataEmpty=_TRUE;
++			badworden = 0x0F;		
++			//************  so *******************
++			//RTPRINT(FEEPROM, EFUSE_PG, ("EFUSE PG_STATE_HEADER\n"));
++			if (	efuse_OneByteRead(pAdapter, efuse_addr ,&efuse_data, bPseudoTest) &&
++				(efuse_data!=0xFF))
++			{ 	
++				tmp_header  =  efuse_data;
++				
++				tmp_pkt.offset 	= (tmp_header>>4) & 0x0F;
++				tmp_pkt.word_en 	= tmp_header & 0x0F;					
++				tmp_word_cnts =  Efuse_CalculateWordCnts(tmp_pkt.word_en);
++
++				//************  so-1 *******************
++				if(tmp_pkt.offset  != target_pkt.offset)
++				{
++					efuse_addr = efuse_addr + (tmp_word_cnts*2) +1; //Next pg_packet
++					#if (EFUSE_ERROE_HANDLE == 1)
++					WriteState = PG_STATE_HEADER;
++					#endif
++				}
++				else
++				{	
++					//************  so-2 *******************
++					for(tmpindex=0 ; tmpindex<(tmp_word_cnts*2) ; tmpindex++)
++					{
++						if(efuse_OneByteRead(pAdapter, (efuse_addr+1+tmpindex) ,&efuse_data, bPseudoTest)&&(efuse_data != 0xFF)){
++							bDataEmpty = _FALSE;	
++						}
++					}	
++					//************  so-2-1 *******************
++					if(bDataEmpty == _FALSE)
++					{						
++						efuse_addr = efuse_addr + (tmp_word_cnts*2) +1; //Next pg_packet										
++						#if (EFUSE_ERROE_HANDLE == 1)
++						WriteState=PG_STATE_HEADER;
++						#endif
++					}
++					else
++					{//************  so-2-2 *******************
++						match_word_en = 0x0F;
++						if(   !( (target_pkt.word_en&BIT0)|(tmp_pkt.word_en&BIT0)  ))
++						{
++							 match_word_en &= (~BIT0);
++						}	
++						if(   !( (target_pkt.word_en&BIT1)|(tmp_pkt.word_en&BIT1)  ))
++						{
++							 match_word_en &= (~BIT1);
++						}
++						if(   !( (target_pkt.word_en&BIT2)|(tmp_pkt.word_en&BIT2)  ))
++						{
++							 match_word_en &= (~BIT2);
++						}
++						if(   !( (target_pkt.word_en&BIT3)|(tmp_pkt.word_en&BIT3)  ))
++						{
++							 match_word_en &= (~BIT3);
++						}					
++												
++						//************  so-2-2-A *******************
++						if((match_word_en&0x0F)!=0x0F)
++						{							
++							badworden = Efuse_WordEnableDataWrite(pAdapter,efuse_addr+1, tmp_pkt.word_en ,target_pkt.data, bPseudoTest);
++							
++							//************  so-2-2-A-1 *******************
++							//############################
++							if(0x0F != (badworden&0x0F))
++							{														
++								u8	reorg_offset = offset;
++								u8	reorg_worden=badworden;								
++								Efuse_PgPacketWrite(pAdapter,reorg_offset,reorg_worden,originaldata, bPseudoTest);
++							}	
++							//############################						
++
++							tmp_word_en = 0x0F;	
++							if(  (target_pkt.word_en&BIT0)^(match_word_en&BIT0)  )
++							{
++								tmp_word_en &= (~BIT0);
++							}
++							if(   (target_pkt.word_en&BIT1)^(match_word_en&BIT1) )
++							{
++								tmp_word_en &=  (~BIT1);
++							}
++							if(   (target_pkt.word_en&BIT2)^(match_word_en&BIT2) )
++							{
++								tmp_word_en &= (~BIT2);
++							}						
++							if(   (target_pkt.word_en&BIT3)^(match_word_en&BIT3) )
++							{
++								tmp_word_en &=(~BIT3);
++							}							
++						
++							//************  so-2-2-A-2 *******************	
++							if((tmp_word_en&0x0F)!=0x0F){
++								//reorganize other pg packet						
++								//efuse_addr = efuse_addr + (2*tmp_word_cnts) +1;//next pg packet addr							
++								efuse_addr = Efuse_GetCurrentSize(pAdapter, efuseType, bPseudoTest);
++								//===========================
++								target_pkt.offset = offset;
++								target_pkt.word_en= tmp_word_en;					
++								//===========================
++							}else{								
++								bContinual = _FALSE;
++							}
++							#if (EFUSE_ERROE_HANDLE == 1)
++							WriteState=PG_STATE_HEADER;
++							repeat_times++;
++							if(repeat_times>EFUSE_REPEAT_THRESHOLD_){
++								bContinual = _FALSE;
++								bResult = _FALSE;
++							}
++							#endif
++						}
++						else{//************  so-2-2-B *******************
++							//reorganize other pg packet						
++							efuse_addr = efuse_addr + (2*tmp_word_cnts) +1;//next pg packet addr							
++							//===========================
++							target_pkt.offset = offset;
++							target_pkt.word_en= target_pkt.word_en;					
++							//===========================			
++							#if (EFUSE_ERROE_HANDLE == 1)
++							WriteState=PG_STATE_HEADER;
++							#endif
++						}		
++					}				
++				}				
++				//RTPRINT(FEEPROM, EFUSE_PG, ("EFUSE PG_STATE_HEADER-1\n"));
++			}
++			else		//************  s1: header == oxff  *******************
++			{
++				pg_header = ((target_pkt.offset << 4)&0xf0) |target_pkt.word_en;
++
++				efuse_OneByteWrite(pAdapter,efuse_addr, pg_header, bPseudoTest);
++				efuse_OneByteRead(pAdapter,efuse_addr, &tmp_header, bPseudoTest);
++		
++				if(tmp_header == pg_header)
++				{ //************  s1-1*******************								
++					WriteState = PG_STATE_DATA;						
++				}				
++				#if (EFUSE_ERROE_HANDLE == 1)
++				else if(tmp_header == 0xFF){//************  s1-3: if Write or read func doesn't work *******************		
++					//efuse_addr doesn't change
++					WriteState = PG_STATE_HEADER;					
++					repeat_times++;
++					if(repeat_times>EFUSE_REPEAT_THRESHOLD_){
++						bContinual = _FALSE;
++						bResult = _FALSE;
++					}
++				}
++				#endif
++				else
++				{//************  s1-2 : fixed the header procedure *******************							
++					tmp_pkt.offset = (tmp_header>>4) & 0x0F;
++					tmp_pkt.word_en=  tmp_header & 0x0F;					
++					tmp_word_cnts =  Efuse_CalculateWordCnts(tmp_pkt.word_en);
++																											
++					//************  s1-2-A :cover the exist data *******************
++					//memset(originaldata,0xff,sizeof(UINT8)*8);
++					_rtw_memset((PVOID)originaldata, 0xff, sizeof(u8)*8);
++					
++					if(Efuse_PgPacketRead( pAdapter, tmp_pkt.offset,originaldata, bPseudoTest))
++					{	//check if data exist 					
++						//efuse_reg_ctrl(pAdapter,_TRUE);//power on
++						badworden = Efuse_WordEnableDataWrite(pAdapter,efuse_addr+1,tmp_pkt.word_en,originaldata, bPseudoTest);	
++						//############################
++						if(0x0F != (badworden&0x0F))
++						{														
++							u8	reorg_offset = tmp_pkt.offset;
++							u8	reorg_worden=badworden;								
++							Efuse_PgPacketWrite(pAdapter,reorg_offset,reorg_worden,originaldata, bPseudoTest);
++							efuse_addr = Efuse_GetCurrentSize(pAdapter, efuseType, bPseudoTest);	 
++						}
++						//############################
++						else{
++							efuse_addr = efuse_addr + (tmp_word_cnts*2) +1; //Next pg_packet							
++						}
++					}
++					 //************  s1-2-B: wrong address*******************
++					else
++					{
++						efuse_addr = efuse_addr + (tmp_word_cnts*2) +1; //Next pg_packet
++					}
++
++					#if (EFUSE_ERROE_HANDLE == 1)
++					WriteState=PG_STATE_HEADER;	
++					repeat_times++;
++					if(repeat_times>EFUSE_REPEAT_THRESHOLD_){
++						bContinual = _FALSE;
++						bResult = _FALSE;
++					}
++					#endif
++					
++					//RTPRINT(FEEPROM, EFUSE_PG, ("EFUSE PG_STATE_HEADER-2\n"));
++				}
++
++			}
++
++		}
++		//write data state
++		else if(WriteState==PG_STATE_DATA) 
++		{	//************  s1-1  *******************
++			//RTPRINT(FEEPROM, EFUSE_PG, ("EFUSE PG_STATE_DATA\n"));
++			badworden = 0x0f;
++			badworden = Efuse_WordEnableDataWrite(pAdapter,efuse_addr+1,target_pkt.word_en,target_pkt.data, bPseudoTest);	
++			if((badworden&0x0F)==0x0F)
++			{ //************  s1-1-A *******************
++				bContinual = _FALSE;
++			}
++			else
++			{//reorganize other pg packet //************  s1-1-B *******************
++				efuse_addr = efuse_addr + (2*target_word_cnts) +1;//next pg packet addr
++										
++				//===========================
++				target_pkt.offset = offset;
++				target_pkt.word_en= badworden;		
++				target_word_cnts =  Efuse_CalculateWordCnts(target_pkt.word_en); 
++				//===========================			
++				#if (EFUSE_ERROE_HANDLE == 1)
++				WriteState=PG_STATE_HEADER;	
++				repeat_times++;
++				if(repeat_times>EFUSE_REPEAT_THRESHOLD_){
++					bContinual = _FALSE;
++					bResult = _FALSE;
++				}
++				#endif
++				//RTPRINT(FEEPROM, EFUSE_PG, ("EFUSE PG_STATE_HEADER-3\n"));
++			}
++		}
++	}
++
++	if(efuse_addr  >= (EFUSE_REAL_CONTENT_LEN-EFUSE_OOB_PROTECT_BYTES))
++	{
++		//RT_TRACE(COMP_EFUSE, DBG_LOUD, ("hal_EfusePgPacketWrite_8192C(): efuse_addr(%#x) Out of size!!\n", efuse_addr));
++	}
++	//efuse_reg_ctrl(pAdapter,_FALSE);//power off
++	
++	return _TRUE;
++}
++
++static int 
++Hal_EfusePgPacketWrite_Pseudo(IN	PADAPTER	pAdapter, 
++					IN	u8 			offset,
++					IN	u8			word_en,
++					IN	u8			*data,
++					IN	BOOLEAN		bPseudoTest)
++{
++	int ret;
++	
++	ret = hal_EfusePgPacketWrite_8723(pAdapter, offset, word_en, data, bPseudoTest);
++
++	return ret;
++}
++
++static int
++Hal_EfusePgPacketWrite(IN	PADAPTER	pAdapter, 
++					IN	u8 			offset,
++					IN	u8			word_en,
++					IN	u8			*data,
++					IN	BOOLEAN		bPseudoTest)
++{
++	int	ret=0;
++
++	if(IS_HARDWARE_TYPE_8192C(pAdapter))
++	{
++		ret = hal_EfusePgPacketWrite_8192C(pAdapter, offset, word_en, data, bPseudoTest);
++	}
++	else if(IS_HARDWARE_TYPE_8723A(pAdapter))
++	{
++		ret = hal_EfusePgPacketWrite_8723(pAdapter, offset, word_en, data, bPseudoTest);
++	}
++
++	return ret;
++}
++
++static int 
++rtl8192c_Efuse_PgPacketWrite(IN	PADAPTER	pAdapter, 
++					IN	u8 			offset,
++					IN	u8			word_en,
++					IN	u8			*data,
++					IN	BOOLEAN		bPseudoTest)
++{
++	int	ret;
++
++	if(bPseudoTest)
++	{
++		ret = Hal_EfusePgPacketWrite_Pseudo(pAdapter, offset, word_en, data, bPseudoTest);
++	}
++	else
++	{
++		ret = Hal_EfusePgPacketWrite(pAdapter, offset, word_en, data, bPseudoTest);
++	}
++	return ret;
++}
++
++VOID
++rtl8192c_EfuseParseIDCode(
++	IN	PADAPTER	pAdapter,
++	IN	u8			*hwinfo
++	)
++{
++	EEPROM_EFUSE_PRIV *pEEPROM = GET_EEPROM_EFUSE_PRIV(pAdapter);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u16			i,EEPROMId;
++	
++	// Checl 0x8129 again for making sure autoload status!!
++	EEPROMId = *((u16 *)&hwinfo[0]);
++	if( le16_to_cpu(EEPROMId) != RTL_EEPROM_ID)
++	{
++		DBG_8192C("EEPROM ID(%#x) is invalid!!\n", EEPROMId);
++		pEEPROM->bautoload_fail_flag = _TRUE;
++	}
++	else
++	{
++		pEEPROM->bautoload_fail_flag = _FALSE;
++	}
++
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("EEPROM ID = 0x%4x\n", EEPROMId));
++}
++
++void rtl8192c_read_chip_version(PADAPTER	pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(pAdapter);
++	pHalData->VersionID = rtl8192c_ReadChipVersion(pAdapter);
++}
++
++void hal_notch_filter_8192c(_adapter *adapter, bool enable)
++{
++	if (enable) {
++		DBG_871X("Enable notch filter\n");
++		rtw_write8(adapter, rOFDM0_RxDSP+1, rtw_read8(adapter, rOFDM0_RxDSP+1) | BIT1);
++	} else {
++		DBG_871X("Disable notch filter\n");
++		rtw_write8(adapter, rOFDM0_RxDSP+1, rtw_read8(adapter, rOFDM0_RxDSP+1) & ~BIT1);
++	}
++}
++
++void hal_reset_security_engine_8192c(_adapter * adapter)
++{
++	rtw_write8(adapter, 0x522, 0xFF);
++	rtw_write8(adapter, 0x21, 0x35);
++	rtw_usleep_os(300);
++	rtw_write8(adapter, 0x101, rtw_read8(adapter,0x101)&~0x02);
++	rtw_write8(adapter, 0x101, rtw_read8(adapter,0x101)|0x02);
++	rtw_write8(adapter, 0x21, 0x55);
++	rtw_write8(adapter, 0x522, 0x00);
++}
++
++s32 c2h_id_filter_ccx_8192c(u8 id)
++{
++	s32 ret = _FALSE;
++	if (id == C2H_CCX_TX_RPT)
++		ret = _TRUE;
++	
++	return ret;
++}
++
++static s32 c2h_handler_8192c(_adapter *padapter, struct c2h_evt_hdr *c2h_evt)
++{
++	s32 ret = _SUCCESS;
++	u8 i = 0;
++
++	if (c2h_evt == NULL) {
++		DBG_8192C("%s c2h_evt is NULL\n",__FUNCTION__);
++		ret = _FAIL;
++		goto exit;
++	}
++
++	switch (c2h_evt->id) {
++	case C2H_CCX_TX_RPT:
++		handle_txrpt_ccx_8192c(padapter, c2h_evt->payload);
++		break;
++	default:
++		ret = _FAIL;
++		break;
++	}
++
++exit:
++	return ret;
++}
++
++void rtl8192c_set_hal_ops(struct hal_ops *pHalFunc)
++{
++	pHalFunc->free_hal_data = &rtl8192c_free_hal_data;
++
++	pHalFunc->dm_init = &rtl8192c_init_dm_priv;
++	pHalFunc->dm_deinit = &rtl8192c_deinit_dm_priv;
++	pHalFunc->read_chip_version = &rtl8192c_read_chip_version;
++
++	pHalFunc->set_bwmode_handler = &PHY_SetBWMode8192C;
++	pHalFunc->set_channel_handler = &PHY_SwChnl8192C;
++
++	pHalFunc->hal_dm_watchdog = &rtl8192c_HalDmWatchDog;
++
++	pHalFunc->Add_RateATid = &rtl8192c_Add_RateATid;
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	pHalFunc->AntDivBeforeLinkHandler = &SwAntDivBeforeLink8192C;
++	pHalFunc->AntDivCompareHandler = &SwAntDivCompare8192C;
++#endif
++
++	pHalFunc->read_bbreg = &rtl8192c_PHY_QueryBBReg;
++	pHalFunc->write_bbreg = &rtl8192c_PHY_SetBBReg;
++	pHalFunc->read_rfreg = &rtl8192c_PHY_QueryRFReg;
++	pHalFunc->write_rfreg = &rtl8192c_PHY_SetRFReg;
++
++	//Efuse related function
++	pHalFunc->EfusePowerSwitch = &rtl8192c_EfusePowerSwitch;
++	pHalFunc->ReadEFuse = &rtl8192c_ReadEFuse;
++	pHalFunc->EFUSEGetEfuseDefinition = &rtl8192c_EFUSE_GetEfuseDefinition;
++	pHalFunc->EfuseGetCurrentSize = &rtl8192c_EfuseGetCurrentSize;
++	pHalFunc->Efuse_PgPacketRead = &rtl8192c_Efuse_PgPacketRead;
++	pHalFunc->Efuse_PgPacketWrite = &rtl8192c_Efuse_PgPacketWrite;
++	pHalFunc->Efuse_WordEnableDataWrite = &rtl8192c_Efuse_WordEnableDataWrite;
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	pHalFunc->sreset_init_value = &sreset_init_value;
++	pHalFunc->sreset_reset_value = &sreset_reset_value;	
++	pHalFunc->silentreset = &sreset_reset;
++	pHalFunc->sreset_xmit_status_check = &rtl8192c_sreset_xmit_status_check;
++	pHalFunc->sreset_linked_status_check  = &rtl8192c_sreset_linked_status_check;
++	pHalFunc->sreset_get_wifi_status  = &sreset_get_wifi_status;
++	pHalFunc->sreset_inprogress= &sreset_inprogress;
++#endif
++
++#ifdef CONFIG_IOL
++	pHalFunc->IOL_exec_cmds_sync = &rtl8192c_IOL_exec_cmds_sync;
++#endif
++	pHalFunc->hal_notch_filter = &hal_notch_filter_8192c;
++	pHalFunc->hal_reset_security_engine = hal_reset_security_engine_8192c;
++
++	pHalFunc->c2h_handler = c2h_handler_8192c;
++	pHalFunc->c2h_id_filter_ccx = c2h_id_filter_ccx_8192c;
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_mp.c b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_mp.c
+new file mode 100755
+index 0000000..a4194c4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_mp.c
+@@ -0,0 +1,1207 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8192C_MP_C_
++#ifdef CONFIG_MP_INCLUDED
++
++#include <drv_types.h>
++#include <rtw_mp.h>
++
++#ifdef CONFIG_RTL8192C
++#include <rtl8192c_hal.h>
++#endif
++
++
++
++s32 Hal_SetPowerTracking(PADAPTER padapter, u8 enable)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++
++
++	if (!netif_running(padapter->pnetdev)) {
++		RT_TRACE(_module_mp_, _drv_warning_, ("SetPowerTracking! Fail: interface not opened!\n"));
++		return _FAIL;
++	}
++
++	if (check_fwstate(&padapter->mlmepriv, WIFI_MP_STATE) == _FALSE) {
++		RT_TRACE(_module_mp_, _drv_warning_, ("SetPowerTracking! Fail: not in MP mode!\n"));
++		return _FAIL;
++	}
++
++	if (enable)
++		pdmpriv->TxPowerTrackControl = _TRUE;
++	else
++		pdmpriv->TxPowerTrackControl = _FALSE;
++
++	return _SUCCESS;
++}
++
++void Hal_GetPowerTracking(PADAPTER padapter, u8 *enable)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++
++
++	*enable = pdmpriv->TxPowerTrackControl;
++}
++
++static void Hal_disable_dm(PADAPTER padapter)
++{
++	u8 v8;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++
++
++	//3 1. disable firmware dynamic mechanism
++	// disable Power Training, Rate Adaptive
++	v8 = rtw_read8(padapter, REG_BCN_CTRL);
++	v8 &= ~EN_BCN_FUNCTION;
++	rtw_write8(padapter, REG_BCN_CTRL, v8);
++
++	//3 2. disable driver dynamic mechanism
++	// disable Dynamic Initial Gain
++	// disable High Power
++	// disable Power Tracking
++	Switch_DM_Func(padapter, DYNAMIC_FUNC_DISABLE, _FALSE);
++
++	// enable APK, LCK and IQK but disable power tracking
++	pdmpriv->TxPowerTrackControl = _FALSE;
++	Switch_DM_Func(padapter, DYNAMIC_FUNC_SS, _TRUE);
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	mpt_SwitchRfSetting
++ *
++ * Overview:	Change RF Setting when we siwthc channel/rate/BW for MP.
++ *
++ * Input:       IN	PADAPTER				pAdapter
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 01/08/2009	MHC		Suggestion from SD3 Willis for 92S series.
++ * 01/09/2009	MHC		Add CCK modification for 40MHZ. Suggestion from SD3.
++ *
++ *---------------------------------------------------------------------------*/
++void Hal_mpt_SwitchRfSetting(PADAPTER pAdapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++	struct mp_priv *pmp = &pAdapter->mppriv;
++	u8 ChannelToSw = pmp->channel, eRFPath = RF_PATH_A;
++	u8 ulRateIdx = pmp->rateidx;
++	u8 ulbandwidth = pmp->bandwidth;
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);
++    BOOLEAN             bInteralPA = _FALSE;
++    u32				value = 0;
++
++#ifdef CONFIG_USB_HCI
++	if (IS_92C_SERIAL(pHalData->VersionID))
++	{
++		//92CE-VAU (92cu mCard)
++		if( BOARD_MINICARD == pHalData->BoardType)
++		{
++			if (ulRateIdx < MPT_RATE_6M)					// CCK rate
++			{
++				write_rfreg(pAdapter, 0, RF_SYN_G2, 0x0F400);
++			}
++			else 											//OFDM~MCS rate
++			{
++				write_rfreg(pAdapter, 0, RF_SYN_G2, 0x4F000);
++			}
++		}
++		else	//92CU dongle
++		{
++			if (ulRateIdx < MPT_RATE_6M)	// CCK rate
++			{
++				write_rfreg(pAdapter, 0, RF_SYN_G2, 0x0F400);
++			}
++			else if (ChannelToSw & BIT0)	// OFDM rate, odd number channel
++			{
++				write_rfreg(pAdapter, 0, RF_SYN_G2, 0x4F200);
++			}
++			else if (ChannelToSw == 4)	// OFDM rate, even number channel
++			{
++				write_rfreg(pAdapter, 0, RF_SYN_G2, 0x28200);
++				write_rfreg(pAdapter, 0, RF_SYN_G6, 0xe0004);
++				write_rfreg(pAdapter, 0, RF_SYN_G7, 0x709);
++				rtw_msleep_os(1);
++				write_rfreg(pAdapter, 0, RF_SYN_G7, 0x4B333);
++			}
++			else if(ChannelToSw == 10)	// OFDM rate, even number channel
++			{
++				write_rfreg(pAdapter, 0, RF_SYN_G2, 0x28000);
++				write_rfreg(pAdapter, 0, RF_SYN_G6, 0xe000A);
++				write_rfreg(pAdapter, 0, RF_SYN_G7, 0x709);
++				rtw_msleep_os(1);
++				write_rfreg(pAdapter, 0, RF_SYN_G7, 0x7B333);
++			}
++			else if(ChannelToSw == 12)	// OFDM rate, even number channel
++			{
++				write_rfreg(pAdapter, 0, RF_SYN_G2, 0x28200);
++				write_rfreg(pAdapter, 0, RF_SYN_G6, 0xe000C);
++				write_rfreg(pAdapter, 0, RF_SYN_G7, 0x50B);
++				rtw_msleep_os(1);
++				write_rfreg(pAdapter, 0, RF_SYN_G7, 0x4B333);
++			}
++			else
++			{
++				write_rfreg(pAdapter, 0, RF_SYN_G2, 0x4F200);
++			}
++		}
++	}
++	else	//88cu
++	{
++
++		//mcard interface
++
++		if( BOARD_MINICARD == pHalData->BoardType)
++		{
++			if (ulRateIdx < MPT_RATE_6M)	// CCK rate
++			{
++				write_rfreg(pAdapter, 0, RF_SYN_G2, 0x0F400);
++			}
++			else 	//OFDM~MCS rate
++			{
++				write_rfreg(pAdapter, 0, RF_SYN_G2, 0x4F200);
++			}
++
++			if(ChannelToSw == 6 || ChannelToSw == 8)
++			{
++				write_bbreg(pAdapter, rOFDM0_XAAGCCore1, bMaskByte0, 0x22);
++				write_bbreg(pAdapter, rOFDM0_XBAGCCore1, bMaskByte0, 0x22);
++				write_bbreg(pAdapter, rOFDM0_RxDetector1, bMaskByte0, 0x4F);
++			}
++			else
++			{
++				write_bbreg(pAdapter, rOFDM0_XAAGCCore1, bMaskByte0, 0x20);
++				write_bbreg(pAdapter, rOFDM0_XBAGCCore1, bMaskByte0, 0x20);
++				write_bbreg(pAdapter, rOFDM0_RxDetector1, bMaskByte0, pMptCtx->backup0xc30);
++			}
++		}
++		else
++		{
++			if (ulRateIdx < MPT_RATE_6M)	// CCK rate
++			{
++				write_rfreg(pAdapter, 0, RF_SYN_G2, 0x0F400);
++			}
++			else if (ChannelToSw & BIT0)	// OFDM rate, odd number channel
++			{
++				write_rfreg(pAdapter, 0, RF_SYN_G2, 0x4F200);
++			}
++			else
++			{
++				write_rfreg(pAdapter, 0, RF_SYN_G2, 0x4F000);
++			}
++		}
++	}
++
++#else	//PCI_INTERFACE
++
++	if (ulRateIdx < MPT_RATE_6M)	// CCK rate
++	{
++		write_rfreg(pAdapter, 0, RF_SYN_G2, 0x0F400);
++	}
++	else	//OFDM~MCS rate
++	{
++		write_rfreg(pAdapter, 0, RF_SYN_G2, 0x4F000);
++	}
++	//88CE
++	if(!IS_92C_SERIAL(pHalData->VersionID))
++	{
++		if(ChannelToSw == 6 || ChannelToSw == 8)
++		{
++			write_bbreg(pAdapter, rOFDM0_XAAGCCore1, bMaskByte0, 0x22);
++			write_bbreg(pAdapter, rOFDM0_XBAGCCore1, bMaskByte0, 0x22);
++			write_bbreg(pAdapter, rOFDM0_RxDetector1, bMaskByte0, 0x4F);
++		}
++		else
++		{
++			write_bbreg(pAdapter, rOFDM0_XAAGCCore1, bMaskByte0, pMptCtx->backup0xc50);
++			write_bbreg(pAdapter, rOFDM0_XBAGCCore1, bMaskByte0, pMptCtx->backup0xc58);
++			write_bbreg(pAdapter, rOFDM0_RxDetector1, bMaskByte0, pMptCtx->backup0xc30);
++		}
++	 }
++
++#endif //CONFIG_USB_HCI
++
++
++}
++/*---------------------------hal\rtl8192c\MPT_Phy.c---------------------------*/
++
++/*---------------------------hal\rtl8192c\MPT_HelperFunc.c---------------------------*/
++void Hal_MPT_CCKTxPowerAdjust(PADAPTER Adapter, BOOLEAN bInCH14)
++{
++	u32		TempVal = 0, TempVal2 = 0, TempVal3 = 0;
++	u32		CurrCCKSwingVal = 0, CCKSwingIndex = 12;
++	u8		i;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++
++	// get current cck swing value and check 0xa22 & 0xa23 later to match the table.
++	CurrCCKSwingVal = read_bbreg(Adapter, rCCK0_TxFilter1, bMaskHWord);
++
++	if (!bInCH14)
++	{
++		// Readback the current bb cck swing value and compare with the table to
++		// get the current swing index
++		for (i = 0; i < CCK_TABLE_SIZE; i++)
++		{
++			if (((CurrCCKSwingVal&0xff) == (u32)CCKSwingTable_Ch1_Ch13[i][0]) &&
++				(((CurrCCKSwingVal&0xff00)>>8) == (u32)CCKSwingTable_Ch1_Ch13[i][1]))
++			{
++				CCKSwingIndex = i;
++//				RT_TRACE(COMP_INIT, DBG_LOUD,("Ch1~13, Current reg0x%x = 0x%lx, CCKSwingIndex=0x%x\n",
++//					(rCCK0_TxFilter1+2), CurrCCKSwingVal, CCKSwingIndex));
++				break;
++			}
++		}
++
++		//Write 0xa22 0xa23
++		TempVal = CCKSwingTable_Ch1_Ch13[CCKSwingIndex][0] +
++				(CCKSwingTable_Ch1_Ch13[CCKSwingIndex][1]<<8) ;
++
++
++		//Write 0xa24 ~ 0xa27
++		TempVal2 = 0;
++		TempVal2 = CCKSwingTable_Ch1_Ch13[CCKSwingIndex][2] +
++				(CCKSwingTable_Ch1_Ch13[CCKSwingIndex][3]<<8) +
++				(CCKSwingTable_Ch1_Ch13[CCKSwingIndex][4]<<16 )+
++				(CCKSwingTable_Ch1_Ch13[CCKSwingIndex][5]<<24);
++
++		//Write 0xa28  0xa29
++		TempVal3 = 0;
++		TempVal3 = CCKSwingTable_Ch1_Ch13[CCKSwingIndex][6] +
++				(CCKSwingTable_Ch1_Ch13[CCKSwingIndex][7]<<8) ;
++	}
++	else
++	{
++		for (i = 0; i < CCK_TABLE_SIZE; i++)
++		{
++			if (((CurrCCKSwingVal&0xff) == (u32)CCKSwingTable_Ch14[i][0]) &&
++				(((CurrCCKSwingVal&0xff00)>>8) == (u32)CCKSwingTable_Ch14[i][1]))
++			{
++				CCKSwingIndex = i;
++//				RT_TRACE(COMP_INIT, DBG_LOUD,("Ch14, Current reg0x%x = 0x%lx, CCKSwingIndex=0x%x\n",
++//					(rCCK0_TxFilter1+2), CurrCCKSwingVal, CCKSwingIndex));
++				break;
++			}
++		}
++
++		//Write 0xa22 0xa23
++		TempVal = CCKSwingTable_Ch14[CCKSwingIndex][0] +
++				(CCKSwingTable_Ch14[CCKSwingIndex][1]<<8) ;
++
++		//Write 0xa24 ~ 0xa27
++		TempVal2 = 0;
++		TempVal2 = CCKSwingTable_Ch14[CCKSwingIndex][2] +
++				(CCKSwingTable_Ch14[CCKSwingIndex][3]<<8) +
++				(CCKSwingTable_Ch14[CCKSwingIndex][4]<<16 )+
++				(CCKSwingTable_Ch14[CCKSwingIndex][5]<<24);
++
++		//Write 0xa28  0xa29
++		TempVal3 = 0;
++		TempVal3 = CCKSwingTable_Ch14[CCKSwingIndex][6] +
++				(CCKSwingTable_Ch14[CCKSwingIndex][7]<<8) ;
++	}
++
++	write_bbreg(Adapter, rCCK0_TxFilter1, bMaskHWord, TempVal);
++	write_bbreg(Adapter, rCCK0_TxFilter2, bMaskDWord, TempVal2);
++	write_bbreg(Adapter, rCCK0_DebugPort, bMaskLWord, TempVal3);
++}
++
++void Hal_MPT_CCKTxPowerAdjustbyIndex(PADAPTER pAdapter, BOOLEAN beven)
++{
++	s32		TempCCk;
++	u8		CCK_index, CCK_index_old;
++	u8		Action = 0;	//0: no action, 1: even->odd, 2:odd->even
++	u8		TimeOut = 100;
++	s32		i = 0;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT	pMptCtx = &pAdapter->mppriv.MptCtx;
++
++
++	if (!IS_92C_SERIAL(pHalData->VersionID))
++		return;
++#if 0
++	while(PlatformAtomicExchange(&Adapter->IntrCCKRefCount, TRUE) == TRUE)
++	{
++		PlatformSleepUs(100);
++		TimeOut--;
++		if(TimeOut <= 0)
++		{
++			RTPRINT(FINIT, INIT_TxPower,
++			 ("!!!MPT_CCKTxPowerAdjustbyIndex Wait for check CCK gain index too long!!!\n" ));
++			break;
++		}
++	}
++#endif
++	if (beven && !pMptCtx->bMptIndexEven)	//odd->even
++	{
++		Action = 2;
++		pMptCtx->bMptIndexEven = _TRUE;
++	}
++	else if (!beven && pMptCtx->bMptIndexEven)	//even->odd
++	{
++		Action = 1;
++		pMptCtx->bMptIndexEven = _FALSE;
++	}
++
++	if (Action != 0)
++	{
++		//Query CCK default setting From 0xa24
++		TempCCk = read_bbreg(pAdapter, rCCK0_TxFilter2, bMaskDWord) & bMaskCCK;
++		for (i = 0; i < CCK_TABLE_SIZE; i++)
++		{
++			if (pHalData->dmpriv.bCCKinCH14)
++			{
++				if (_rtw_memcmp((void*)&TempCCk, (void*)&CCKSwingTable_Ch14[i][2], 4) == _TRUE)
++				{
++					CCK_index_old = (u8) i;
++//					RTPRINT(FINIT, INIT_TxPower,("MPT_CCKTxPowerAdjustbyIndex: Initial reg0x%x = 0x%lx, CCK_index=0x%x, ch 14 %d\n",
++//						rCCK0_TxFilter2, TempCCk, CCK_index_old, pHalData->bCCKinCH14));
++					break;
++				}
++			}
++			else
++			{
++				if (_rtw_memcmp((void*)&TempCCk, (void*)&CCKSwingTable_Ch1_Ch13[i][2], 4) == _TRUE)
++				{
++					CCK_index_old = (u8) i;
++//					RTPRINT(FINIT, INIT_TxPower,("MPT_CCKTxPowerAdjustbyIndex: Initial reg0x%x = 0x%lx, CCK_index=0x%x, ch14 %d\n",
++//						rCCK0_TxFilter2, TempCCk, CCK_index_old, pHalData->bCCKinCH14));
++					break;
++				}
++			}
++		}
++
++		if (Action == 1)
++			CCK_index = CCK_index_old - 1;
++		else
++			CCK_index = CCK_index_old + 1;
++
++//		RTPRINT(FINIT, INIT_TxPower,("MPT_CCKTxPowerAdjustbyIndex: new CCK_index=0x%x\n",
++//			 CCK_index));
++
++		//Adjust CCK according to gain index
++		if (!pHalData->dmpriv.bCCKinCH14) {
++			rtw_write8(pAdapter, 0xa22, CCKSwingTable_Ch1_Ch13[CCK_index][0]);
++			rtw_write8(pAdapter, 0xa23, CCKSwingTable_Ch1_Ch13[CCK_index][1]);
++			rtw_write8(pAdapter, 0xa24, CCKSwingTable_Ch1_Ch13[CCK_index][2]);
++			rtw_write8(pAdapter, 0xa25, CCKSwingTable_Ch1_Ch13[CCK_index][3]);
++			rtw_write8(pAdapter, 0xa26, CCKSwingTable_Ch1_Ch13[CCK_index][4]);
++			rtw_write8(pAdapter, 0xa27, CCKSwingTable_Ch1_Ch13[CCK_index][5]);
++			rtw_write8(pAdapter, 0xa28, CCKSwingTable_Ch1_Ch13[CCK_index][6]);
++			rtw_write8(pAdapter, 0xa29, CCKSwingTable_Ch1_Ch13[CCK_index][7]);
++		} else {
++			rtw_write8(pAdapter, 0xa22, CCKSwingTable_Ch14[CCK_index][0]);
++			rtw_write8(pAdapter, 0xa23, CCKSwingTable_Ch14[CCK_index][1]);
++			rtw_write8(pAdapter, 0xa24, CCKSwingTable_Ch14[CCK_index][2]);
++			rtw_write8(pAdapter, 0xa25, CCKSwingTable_Ch14[CCK_index][3]);
++			rtw_write8(pAdapter, 0xa26, CCKSwingTable_Ch14[CCK_index][4]);
++			rtw_write8(pAdapter, 0xa27, CCKSwingTable_Ch14[CCK_index][5]);
++			rtw_write8(pAdapter, 0xa28, CCKSwingTable_Ch14[CCK_index][6]);
++			rtw_write8(pAdapter, 0xa29, CCKSwingTable_Ch14[CCK_index][7]);
++		}
++	}
++#if 0
++	RTPRINT(FINIT, INIT_TxPower,
++	("MPT_CCKTxPowerAdjustbyIndex 0xa20=%x\n", PlatformEFIORead4Byte(Adapter, 0xa20)));
++
++	PlatformAtomicExchange(&Adapter->IntrCCKRefCount, FALSE);
++#endif
++}
++/*---------------------------hal\rtl8192c\MPT_HelperFunc.c---------------------------*/
++
++/*
++ * SetChannel
++ * Description
++ *	Use H2C command to change channel,
++ *	not only modify rf register, but also other setting need to be done.
++ */
++void Hal_SetChannel(PADAPTER pAdapter)
++{
++#if 0
++	struct mp_priv *pmp = &pAdapter->mppriv;
++
++//	SelectChannel(pAdapter, pmp->channel);
++	set_channel_bwmode(pAdapter, pmp->channel, pmp->channel_offset, pmp->bandwidth);
++#else
++	u8 		eRFPath;
++
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct mp_priv	*pmp = &pAdapter->mppriv;
++	u8		channel = pmp->channel;
++	u8		bandwidth = pmp->bandwidth;
++	u8		rate = pmp->rateidx;
++
++
++	// set RF channel register
++	for (eRFPath = 0; eRFPath < pHalData->NumTotalRFPath; eRFPath++)
++	{
++      if(IS_HARDWARE_TYPE_8192D(pAdapter))
++			_write_rfreg(pAdapter, (RF_RADIO_PATH_E)eRFPath, rRfChannel, 0xFF, channel);
++		else
++		_write_rfreg(pAdapter, eRFPath, rRfChannel, 0x3FF, channel);
++	}
++	Hal_mpt_SwitchRfSetting(pAdapter);
++
++	SelectChannel(pAdapter, channel);
++
++	if (pHalData->CurrentChannel == 14 && !pHalData->dmpriv.bCCKinCH14) {
++		pHalData->dmpriv.bCCKinCH14 = _TRUE;
++		Hal_MPT_CCKTxPowerAdjust(pAdapter, pHalData->dmpriv.bCCKinCH14);
++	}
++	else if (pHalData->CurrentChannel != 14 && pHalData->dmpriv.bCCKinCH14) {
++		pHalData->dmpriv.bCCKinCH14 = _FALSE;
++		Hal_MPT_CCKTxPowerAdjust(pAdapter, pHalData->dmpriv.bCCKinCH14);
++	}
++
++#endif
++}
++
++/*
++ * Notice
++ *	Switch bandwitdth may change center frequency(channel)
++ */
++void Hal_SetBandwidth(PADAPTER pAdapter)
++{
++	struct mp_priv *pmp = &pAdapter->mppriv;
++
++
++	SetBWMode(pAdapter, pmp->bandwidth, pmp->prime_channel_offset);
++	Hal_mpt_SwitchRfSetting(pAdapter);
++}
++
++void Hal_SetCCKTxPower(PADAPTER pAdapter, u8 *TxPower)
++{
++	u32 tmpval = 0;
++
++
++	// rf-A cck tx power
++	write_bbreg(pAdapter, rTxAGC_A_CCK1_Mcs32, bMaskByte1, TxPower[RF_PATH_A]);
++	tmpval = (TxPower[RF_PATH_A]<<16) | (TxPower[RF_PATH_A]<<8) | TxPower[RF_PATH_A];
++	write_bbreg(pAdapter, rTxAGC_B_CCK11_A_CCK2_11, 0xffffff00, tmpval);
++
++	// rf-B cck tx power
++	write_bbreg(pAdapter, rTxAGC_B_CCK11_A_CCK2_11, bMaskByte0, TxPower[RF_PATH_B]);
++	tmpval = (TxPower[RF_PATH_B]<<16) | (TxPower[RF_PATH_B]<<8) | TxPower[RF_PATH_B];
++	write_bbreg(pAdapter, rTxAGC_B_CCK1_55_Mcs32, 0xffffff00, tmpval);
++
++	RT_TRACE(_module_mp_, _drv_notice_,
++		 ("-SetCCKTxPower: A[0x%02x] B[0x%02x]\n",
++		  TxPower[RF_PATH_A], TxPower[RF_PATH_B]));
++}
++
++void Hal_SetOFDMTxPower(PADAPTER pAdapter, u8 *TxPower)
++{
++	u32 TxAGC = 0;
++	u8 tmpval = 0;
++	PMPT_CONTEXT	pMptCtx = &pAdapter->mppriv.MptCtx;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++
++	// HT Tx-rf(A)
++	tmpval = TxPower[RF_PATH_A];
++	TxAGC = (tmpval<<24) | (tmpval<<16) | (tmpval<<8) | tmpval;
++
++	write_bbreg(pAdapter, rTxAGC_A_Rate18_06, bMaskDWord, TxAGC);
++	write_bbreg(pAdapter, rTxAGC_A_Rate54_24, bMaskDWord, TxAGC);
++	write_bbreg(pAdapter, rTxAGC_A_Mcs03_Mcs00, bMaskDWord, TxAGC);
++	write_bbreg(pAdapter, rTxAGC_A_Mcs07_Mcs04, bMaskDWord, TxAGC);
++	write_bbreg(pAdapter, rTxAGC_A_Mcs11_Mcs08, bMaskDWord, TxAGC);
++	write_bbreg(pAdapter, rTxAGC_A_Mcs15_Mcs12, bMaskDWord, TxAGC);
++
++	// HT Tx-rf(B)
++	tmpval = TxPower[RF_PATH_B];
++	TxAGC = (tmpval<<24) | (tmpval<<16) | (tmpval<<8) | tmpval;
++
++	write_bbreg(pAdapter, rTxAGC_B_Rate18_06, bMaskDWord, TxAGC);
++	write_bbreg(pAdapter, rTxAGC_B_Rate54_24, bMaskDWord, TxAGC);
++	write_bbreg(pAdapter, rTxAGC_B_Mcs03_Mcs00, bMaskDWord, TxAGC);
++	write_bbreg(pAdapter, rTxAGC_B_Mcs07_Mcs04, bMaskDWord, TxAGC);
++	write_bbreg(pAdapter, rTxAGC_B_Mcs11_Mcs08, bMaskDWord, TxAGC);
++	write_bbreg(pAdapter, rTxAGC_B_Mcs15_Mcs12, bMaskDWord, TxAGC);
++
++	RT_TRACE(_module_mp_, _drv_notice_,
++		 ("-SetOFDMTxPower: A[0x%02x] B[0x%02x]\n",
++		  TxPower[RF_PATH_A], TxPower[RF_PATH_B]));
++}
++
++void Hal_SetAntennaPathPower(PADAPTER pAdapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++	u8 TxPowerLevel[MAX_RF_PATH_NUMS];
++	u8 rfPath;
++
++	TxPowerLevel[RF_PATH_A] = pAdapter->mppriv.txpoweridx;
++	TxPowerLevel[RF_PATH_B] = pAdapter->mppriv.txpoweridx_b;
++
++	switch (pAdapter->mppriv.antenna_tx)
++	{
++		case ANTENNA_A:
++		default:
++			rfPath = RF_PATH_A;
++			break;
++		case ANTENNA_B:
++			rfPath = RF_PATH_B;
++			break;
++		case ANTENNA_C:
++			rfPath = RF_PATH_C;
++			break;
++	}
++
++	switch (pHalData->rf_chip)
++	{
++		case RF_8225:
++		case RF_8256:
++		case RF_6052:
++			Hal_SetCCKTxPower(pAdapter, TxPowerLevel);
++			if (pAdapter->mppriv.rateidx < MPT_RATE_6M)	// CCK rate
++				Hal_MPT_CCKTxPowerAdjustbyIndex(pAdapter, TxPowerLevel[rfPath]%2 == 0);
++			Hal_SetOFDMTxPower(pAdapter, TxPowerLevel);
++			break;
++
++		default:
++			break;
++	}
++}
++
++void Hal_SetTxPower(PADAPTER pAdapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++	u8 TxPower = pAdapter->mppriv.txpoweridx;
++	u8 TxPowerLevel[MAX_RF_PATH_NUMS];
++	u8 rf, rfPath;
++
++	for (rf = 0; rf < MAX_RF_PATH_NUMS; rf++) {
++		TxPowerLevel[rf] = TxPower;
++	}
++
++	switch (pAdapter->mppriv.antenna_tx)
++	{
++		case ANTENNA_A:
++		default:
++			rfPath = RF_PATH_A;
++			break;
++		case ANTENNA_B:
++			rfPath = RF_PATH_B;
++			break;
++		case ANTENNA_C:
++			rfPath = RF_PATH_C;
++			break;
++	}
++
++	switch (pHalData->rf_chip)
++	{
++		// 2008/09/12 MH Test only !! We enable the TX power tracking for MP!!!!!
++		// We should call normal driver API later!!
++		case RF_8225:
++		case RF_8256:
++		case RF_6052:
++			Hal_SetCCKTxPower(pAdapter, TxPowerLevel);
++			if (pAdapter->mppriv.rateidx < MPT_RATE_6M)	// CCK rate
++				Hal_MPT_CCKTxPowerAdjustbyIndex(pAdapter, TxPowerLevel[rfPath]%2 == 0);
++			Hal_SetOFDMTxPower(pAdapter, TxPowerLevel);
++			break;
++
++		default:
++			break;
++	}
++
++//	SetCCKTxPower(pAdapter, TxPower);
++//	SetOFDMTxPower(pAdapter, TxPower);
++}
++
++void Hal_SetTxAGCOffset(PADAPTER pAdapter, u32 ulTxAGCOffset)
++{
++	u32 TxAGCOffset_B, TxAGCOffset_C, TxAGCOffset_D,tmpAGC;
++
++	TxAGCOffset_B = (ulTxAGCOffset&0x000000ff);
++	TxAGCOffset_C = ((ulTxAGCOffset&0x0000ff00)>>8);
++	TxAGCOffset_D = ((ulTxAGCOffset&0x00ff0000)>>16);
++
++	tmpAGC = (TxAGCOffset_D<<8 | TxAGCOffset_C<<4 | TxAGCOffset_B);
++	write_bbreg(pAdapter, rFPGA0_TxGainStage,
++			(bXBTxAGC|bXCTxAGC|bXDTxAGC), tmpAGC);
++}
++
++void Hal_SetDataRate(PADAPTER pAdapter)
++{
++	Hal_mpt_SwitchRfSetting(pAdapter);
++}
++
++#if  !defined (CONFIG_RTL8192C)  &&  !defined (CONFIG_RTL8192D)
++/*------------------------------Define structure----------------------------*/
++typedef struct _R_ANTENNA_SELECT_OFDM {
++	u32	r_tx_antenna:4;
++	u32	r_ant_l:4;
++	u32	r_ant_non_ht:4;
++	u32	r_ant_ht1:4;
++	u32	r_ant_ht2:4;
++	u32	r_ant_ht_s1:4;
++	u32	r_ant_non_ht_s1:4;
++	u32	OFDM_TXSC:2;
++	u32	Reserved:2;
++}R_ANTENNA_SELECT_OFDM;
++
++typedef struct _R_ANTENNA_SELECT_CCK {
++	u8	r_cckrx_enable_2:2;
++	u8	r_cckrx_enable:2;
++	u8	r_ccktx_enable:4;
++}R_ANTENNA_SELECT_CCK;
++#endif
++
++void Hal_SetAntenna(PADAPTER pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	R_ANTENNA_SELECT_OFDM *p_ofdm_tx;	/* OFDM Tx register */
++	R_ANTENNA_SELECT_CCK *p_cck_txrx;
++
++	u8	r_rx_antenna_ofdm = 0, r_ant_select_cck_val = 0;
++	u8	chgTx = 0, chgRx = 0;
++	u32	r_ant_sel_cck_val = 0, r_ant_select_ofdm_val = 0, r_ofdm_tx_en_val = 0;
++
++
++	p_ofdm_tx = (R_ANTENNA_SELECT_OFDM *)&r_ant_select_ofdm_val;
++	p_cck_txrx = (R_ANTENNA_SELECT_CCK *)&r_ant_select_cck_val;
++
++	p_ofdm_tx->r_ant_ht1	= 0x1;
++	p_ofdm_tx->r_ant_ht2	= 0x2;	// Second TX RF path is A
++	p_ofdm_tx->r_ant_non_ht = 0x3;	// 0x1+0x2=0x3
++
++	switch (pAdapter->mppriv.antenna_tx)
++	{
++		case ANTENNA_A:
++			p_ofdm_tx->r_tx_antenna		= 0x1;
++			r_ofdm_tx_en_val		= 0x1;
++			p_ofdm_tx->r_ant_l 		= 0x1;
++			p_ofdm_tx->r_ant_ht_s1 		= 0x1;
++			p_ofdm_tx->r_ant_non_ht_s1 	= 0x1;
++			p_cck_txrx->r_ccktx_enable	= 0x8;
++			chgTx = 1;
++
++			// From SD3 Willis suggestion !!! Set RF A=TX and B as standby
++//			if (IS_HARDWARE_TYPE_8192S(pAdapter))
++			{
++			write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter2, 0xe, 2);
++			write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter2, 0xe, 1);
++			r_ofdm_tx_en_val		= 0x3;
++
++			// Power save
++			//cosa r_ant_select_ofdm_val = 0x11111111;
++
++			// We need to close RFB by SW control
++			if (pHalData->rf_type == RF_2T2R)
++			{
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT10, 0);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT26, 1);
++				PHY_SetBBReg(pAdapter, rFPGA0_XB_RFInterfaceOE, BIT10, 0);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT1, 1);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT17, 0);
++			}
++			}
++			break;
++
++		case ANTENNA_B:
++			p_ofdm_tx->r_tx_antenna		= 0x2;
++			r_ofdm_tx_en_val		= 0x2;
++			p_ofdm_tx->r_ant_l 		= 0x2;
++			p_ofdm_tx->r_ant_ht_s1 		= 0x2;
++			p_ofdm_tx->r_ant_non_ht_s1 	= 0x2;
++			p_cck_txrx->r_ccktx_enable	= 0x4;
++			chgTx = 1;
++
++			// From SD3 Willis suggestion !!! Set RF A as standby
++			//if (IS_HARDWARE_TYPE_8192S(pAdapter))
++			{
++			PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter2, 0xe, 1);
++			PHY_SetBBReg(pAdapter, rFPGA0_XB_HSSIParameter2, 0xe, 2);
++//			r_ofdm_tx_en_val		= 0x3;
++
++			// Power save
++			//cosa r_ant_select_ofdm_val = 0x22222222;
++
++			// 2008/10/31 MH From SD3 Willi's suggestion. We must read RF 1T table.
++			// 2009/01/08 MH From Sd3 Willis. We need to close RFA by SW control
++			if (pHalData->rf_type == RF_2T2R || pHalData->rf_type == RF_1T2R)
++			{
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT10, 1);
++				PHY_SetBBReg(pAdapter, rFPGA0_XA_RFInterfaceOE, BIT10, 0);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT26, 0);
++//				PHY_SetBBReg(pAdapter, rFPGA0_XB_RFInterfaceOE, BIT10, 0);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT1, 0);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT17, 1);
++			}
++			}
++		break;
++
++		case ANTENNA_AB:	// For 8192S
++			p_ofdm_tx->r_tx_antenna		= 0x3;
++			r_ofdm_tx_en_val		= 0x3;
++			p_ofdm_tx->r_ant_l 		= 0x3;
++			p_ofdm_tx->r_ant_ht_s1 		= 0x3;
++			p_ofdm_tx->r_ant_non_ht_s1 	= 0x3;
++			p_cck_txrx->r_ccktx_enable	= 0xC;
++			chgTx = 1;
++
++			// From SD3 Willis suggestion !!! Set RF B as standby
++			//if (IS_HARDWARE_TYPE_8192S(pAdapter))
++			{
++			PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter2, 0xe, 2);
++			PHY_SetBBReg(pAdapter, rFPGA0_XB_HSSIParameter2, 0xe, 2);
++
++			// Disable Power save
++			//cosa r_ant_select_ofdm_val = 0x3321333;
++#if 0
++			// 2008/10/31 MH From SD3 Willi's suggestion. We must read RFA 2T table.
++			if ((pHalData->VersionID == VERSION_8192S_ACUT)) // For RTL8192SU A-Cut only, by Roger, 2008.11.07.
++			{
++				mpt_RFConfigFromPreParaArrary(pAdapter, 1, RF_PATH_A);
++			}
++#endif
++			// 2009/01/08 MH From Sd3 Willis. We need to enable RFA/B by SW control
++			if (pHalData->rf_type == RF_2T2R)
++			{
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT10, 0);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT26, 0);
++//				PHY_SetBBReg(pAdapter, rFPGA0_XB_RFInterfaceOE, BIT10, 0);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT1, 1);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT17, 1);
++			}
++			}
++			break;
++
++		default:
++			break;
++	}
++
++	//
++	// r_rx_antenna_ofdm, bit0=A, bit1=B, bit2=C, bit3=D
++	// r_cckrx_enable : CCK default, 0=A, 1=B, 2=C, 3=D
++	// r_cckrx_enable_2 : CCK option, 0=A, 1=B, 2=C, 3=D
++	//
++	switch (pAdapter->mppriv.antenna_rx)
++	{
++		case ANTENNA_A:
++			r_rx_antenna_ofdm 		= 0x1;	// A
++			p_cck_txrx->r_cckrx_enable 	= 0x0;	// default: A
++			p_cck_txrx->r_cckrx_enable_2	= 0x0;	// option: A
++			chgRx = 1;
++			break;
++
++		case ANTENNA_B:
++			r_rx_antenna_ofdm 		= 0x2;	// B
++			p_cck_txrx->r_cckrx_enable 	= 0x1;	// default: B
++			p_cck_txrx->r_cckrx_enable_2	= 0x1;	// option: B
++			chgRx = 1;
++			break;
++
++		case ANTENNA_AB:
++			r_rx_antenna_ofdm 		= 0x3;	// AB
++			p_cck_txrx->r_cckrx_enable 	= 0x0;	// default:A
++			p_cck_txrx->r_cckrx_enable_2	= 0x1;	// option:B
++			chgRx = 1;
++			break;
++
++		default:
++			break;
++	}
++
++	if (chgTx && chgRx)
++	{
++		switch(pHalData->rf_chip)
++		{
++			case RF_8225:
++			case RF_8256:
++			case RF_6052:
++				//r_ant_sel_cck_val = r_ant_select_cck_val;
++				PHY_SetBBReg(pAdapter, rFPGA1_TxInfo, 0x7fffffff, r_ant_select_ofdm_val);	//OFDM Tx
++				PHY_SetBBReg(pAdapter, rFPGA0_TxInfo, 0x0000000f, r_ofdm_tx_en_val);		//OFDM Tx
++				PHY_SetBBReg(pAdapter, rOFDM0_TRxPathEnable, 0x0000000f, r_rx_antenna_ofdm);	//OFDM Rx
++				PHY_SetBBReg(pAdapter, rOFDM1_TRxPathEnable, 0x0000000f, r_rx_antenna_ofdm);	//OFDM Rx
++				PHY_SetBBReg(pAdapter, rCCK0_AFESetting, bMaskByte3, r_ant_select_cck_val);//r_ant_sel_cck_val);		//CCK TxRx
++
++				break;
++
++			default:
++				break;
++		}
++	}
++
++	RT_TRACE(_module_mp_, _drv_notice_, ("-SwitchAntenna: finished\n"));
++}
++
++s32 Hal_SetThermalMeter(PADAPTER pAdapter, u8 target_ther)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++
++
++	if (!netif_running(pAdapter->pnetdev)) {
++		RT_TRACE(_module_mp_, _drv_warning_, ("SetThermalMeter! Fail: interface not opened!\n"));
++		return _FAIL;
++	}
++
++	if (check_fwstate(&pAdapter->mlmepriv, WIFI_MP_STATE) == _FALSE) {
++		RT_TRACE(_module_mp_, _drv_warning_, ("SetThermalMeter: Fail! not in MP mode!\n"));
++		return _FAIL;
++	}
++
++	target_ther &= 0xff;
++	if (target_ther < 0x07)
++		target_ther = 0x07;
++	else if (target_ther > 0x1d)
++		target_ther = 0x1d;
++
++	pHalData->EEPROMThermalMeter = target_ther;
++
++	return _SUCCESS;
++}
++
++void Hal_TriggerRFThermalMeter(PADAPTER pAdapter)
++{
++  
++	write_rfreg(pAdapter, RF_PATH_A, RF_T_METER, 0x60);	// 0x24: RF Reg[6:5]
++
++//	RT_TRACE(_module_mp_,_drv_alert_, ("TriggerRFThermalMeter() finished.\n" ));
++}
++
++u8 Hal_ReadRFThermalMeter(PADAPTER pAdapter)
++{
++	u32 ThermalValue = 0;
++
++	ThermalValue = _read_rfreg(pAdapter, RF_PATH_A, RF_T_METER, 0x1F);	// 0x24: RF Reg[4:0]
++//	RT_TRACE(_module_mp_, _drv_alert_, ("ThermalValue = 0x%x\n", ThermalValue));
++	return (u8)ThermalValue;
++}
++
++void Hal_GetThermalMeter(PADAPTER pAdapter, u8 *value)
++{
++#if 0
++	fw_cmd(pAdapter, IOCMD_GET_THERMAL_METER);
++	rtw_msleep_os(1000);
++	fw_cmd_data(pAdapter, value, 1);
++	*value &= 0xFF;
++#else
++
++	Hal_TriggerRFThermalMeter(pAdapter);
++	rtw_msleep_os(1000);
++	*value = Hal_ReadRFThermalMeter(pAdapter);
++#endif
++}
++
++void Hal_SetSingleCarrierTx(PADAPTER pAdapter, u8 bStart)
++{
++    HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++	pAdapter->mppriv.MptCtx.bSingleCarrier = bStart;
++	if (bStart)// Start Single Carrier.
++	{
++		RT_TRACE(_module_mp_,_drv_alert_, ("SetSingleCarrierTx: test start\n"));
++		// 1. if OFDM block on?
++		if(!read_bbreg(pAdapter, rFPGA0_RFMOD, bOFDMEn))
++			write_bbreg(pAdapter, rFPGA0_RFMOD, bOFDMEn, bEnable);//set OFDM block on
++
++		{
++		// 2. set CCK test mode off, set to CCK normal mode
++		write_bbreg(pAdapter, rCCK0_System, bCCKBBMode, bDisable);
++		// 3. turn on scramble setting
++		write_bbreg(pAdapter, rCCK0_System, bCCKScramble, bEnable);
++         }
++		// 4. Turn On Single Carrier Tx and turn off the other test modes.
++		write_bbreg(pAdapter, rOFDM1_LSTF, bOFDMContinueTx, bDisable);
++		write_bbreg(pAdapter, rOFDM1_LSTF, bOFDMSingleCarrier, bEnable);
++		write_bbreg(pAdapter, rOFDM1_LSTF, bOFDMSingleTone, bDisable);
++#ifdef CONFIG_RTL8192C
++		// 5. Disable TX power saving at STF & LLTF
++		write_bbreg(pAdapter, rOFDM1_LSTF, BIT22, 1);
++#endif
++	}
++	else// Stop Single Carrier.
++	{
++		RT_TRACE(_module_mp_,_drv_alert_, ("SetSingleCarrierTx: test stop\n"));
++
++		// Turn off all test modes.
++		write_bbreg(pAdapter, rOFDM1_LSTF, bOFDMContinueTx, bDisable);
++		write_bbreg(pAdapter, rOFDM1_LSTF, bOFDMSingleCarrier, bDisable);
++		write_bbreg(pAdapter, rOFDM1_LSTF, bOFDMSingleTone, bDisable);
++#ifdef CONFIG_RTL8192C
++		// Cancel disable TX power saving at STF&LLTF
++		write_bbreg(pAdapter, rOFDM1_LSTF, BIT22, 0);
++#endif
++		//Delay 10 ms //delay_ms(10);
++		rtw_msleep_os(10);
++
++		//BB Reset
++		write_bbreg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
++		write_bbreg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
++	}
++}
++
++
++void Hal_SetSingleToneTx(PADAPTER pAdapter, u8 bStart)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	BOOLEAN		is92C = IS_92C_SERIAL(pHalData->VersionID);
++
++	u8 rfPath;
++
++	switch (pAdapter->mppriv.antenna_tx)
++	{
++		case ANTENNA_A:
++		default:
++			rfPath = RF_PATH_A;
++			break;
++		case ANTENNA_B:
++			rfPath = RF_PATH_B;
++			break;
++		case ANTENNA_C:
++			rfPath = RF_PATH_C;
++			break;
++	}
++
++	pAdapter->mppriv.MptCtx.bSingleTone = bStart;
++	if (bStart)// Start Single Tone.
++	{
++		RT_TRACE(_module_mp_,_drv_alert_, ("SetSingleToneTx: test start\n"));
++		write_bbreg(pAdapter, rFPGA0_RFMOD, bCCKEn, 0x0);
++		write_bbreg(pAdapter, rFPGA0_RFMOD, bOFDMEn, 0x0);
++
++		if (is92C)
++       		 {
++			_write_rfreg(pAdapter, RF_PATH_A, 0x21, BIT19, 0x01);
++			rtw_usleep_os(100);
++			if (rfPath == RF_PATH_A)
++				write_rfreg(pAdapter, RF_PATH_B, 0x00, 0x10000); // PAD all on.
++			else if (rfPath == RF_PATH_B)
++				write_rfreg(pAdapter, RF_PATH_A, 0x00, 0x10000); // PAD all on.
++		} else {
++			write_rfreg(pAdapter, rfPath, 0x21, 0xd4000);
++			rtw_usleep_os(100);
++		}
++		
++		write_rfreg(pAdapter, rfPath, 0x00, 0x2001f); // PAD all on.
++		rtw_usleep_os(100);
++	}
++	else// Stop Single Tone.
++	{
++		RT_TRACE(_module_mp_,_drv_alert_, ("SetSingleToneTx: test stop\n"));
++		write_bbreg(pAdapter, rFPGA0_RFMOD, bCCKEn, 0x1);
++		write_bbreg(pAdapter, rFPGA0_RFMOD, bOFDMEn, 0x1);
++
++		if (is92C) {
++			_write_rfreg(pAdapter, RF_PATH_A, 0x21, BIT19, 0x00);
++			rtw_usleep_os(100);
++			write_rfreg(pAdapter, RF_PATH_A, 0x00, 0x32d75); // PAD all on.
++			write_rfreg(pAdapter, RF_PATH_B, 0x00, 0x32d75); // PAD all on.
++			rtw_usleep_os(100);
++		} else {
++			write_rfreg(pAdapter, rfPath, 0x21, 0x54000);
++			rtw_usleep_os(100);
++
++			write_rfreg(pAdapter, rfPath, 0x00, 0x30000); // PAD all on.
++			rtw_usleep_os(100);
++		}
++	}
++	
++}
++
++
++void Hal_SetCarrierSuppressionTx(PADAPTER pAdapter, u8 bStart)
++{
++	pAdapter->mppriv.MptCtx.bCarrierSuppression = bStart;
++	if (bStart) // Start Carrier Suppression.
++	{
++		RT_TRACE(_module_mp_,_drv_alert_, ("SetCarrierSuppressionTx: test start\n"));
++		//if(pMgntInfo->dot11CurrentWirelessMode == WIRELESS_MODE_B)
++		if (pAdapter->mppriv.rateidx <= MPT_RATE_11M)
++		  {
++			// 1. if CCK block on?
++			if(!read_bbreg(pAdapter, rFPGA0_RFMOD, bCCKEn))
++				write_bbreg(pAdapter, rFPGA0_RFMOD, bCCKEn, bEnable);//set CCK block on
++
++			//Turn Off All Test Mode
++			write_bbreg(pAdapter, rOFDM1_LSTF, bOFDMContinueTx, bDisable);
++			write_bbreg(pAdapter, rOFDM1_LSTF, bOFDMSingleCarrier, bDisable);
++			write_bbreg(pAdapter, rOFDM1_LSTF, bOFDMSingleTone, bDisable);
++
++			write_bbreg(pAdapter, rCCK0_System, bCCKBBMode, 0x2);    //transmit mode
++			write_bbreg(pAdapter, rCCK0_System, bCCKScramble, 0x0);  //turn off scramble setting
++
++			//Set CCK Tx Test Rate
++			//PHY_SetBBReg(pAdapter, rCCK0_System, bCCKTxRate, pMgntInfo->ForcedDataRate);
++			write_bbreg(pAdapter, rCCK0_System, bCCKTxRate, 0x0);    //Set FTxRate to 1Mbps
++		}
++	}
++	else// Stop Carrier Suppression.
++	{
++		RT_TRACE(_module_mp_,_drv_alert_, ("SetCarrierSuppressionTx: test stop\n"));
++		//if(pMgntInfo->dot11CurrentWirelessMode == WIRELESS_MODE_B)
++		if (pAdapter->mppriv.rateidx <= MPT_RATE_11M ) {
++			write_bbreg(pAdapter, rCCK0_System, bCCKBBMode, 0x0);    //normal mode
++			write_bbreg(pAdapter, rCCK0_System, bCCKScramble, 0x1);  //turn on scramble setting
++
++			//BB Reset
++			write_bbreg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
++			write_bbreg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
++		}
++	}
++	//DbgPrint("\n MPT_ProSetCarrierSupp() is finished. \n");
++}
++
++void Hal_SetCCKContinuousTx(PADAPTER pAdapter, u8 bStart)
++{
++	u32 cckrate;
++
++	if (bStart)
++	{
++		RT_TRACE(_module_mp_, _drv_alert_,
++			 ("SetCCKContinuousTx: test start\n"));
++
++		// 1. if CCK block on?
++		if(!read_bbreg(pAdapter, rFPGA0_RFMOD, bCCKEn))
++			write_bbreg(pAdapter, rFPGA0_RFMOD, bCCKEn, bEnable);//set CCK block on
++
++		//Turn Off All Test Mode
++		write_bbreg(pAdapter, rOFDM1_LSTF, bOFDMContinueTx, bDisable);
++		write_bbreg(pAdapter, rOFDM1_LSTF, bOFDMSingleCarrier, bDisable);
++		write_bbreg(pAdapter, rOFDM1_LSTF, bOFDMSingleTone, bDisable);
++		//Set CCK Tx Test Rate
++		#if 0
++		switch(pAdapter->mppriv.rateidx)
++		{
++			case 2:
++				cckrate = 0;
++				break;
++			case 4:
++				cckrate = 1;
++				break;
++			case 11:
++				cckrate = 2;
++				break;
++			case 22:
++				cckrate = 3;
++				break;
++			default:
++				cckrate = 0;
++				break;
++		}
++		#else
++		cckrate  = pAdapter->mppriv.rateidx;
++		#endif
++		write_bbreg(pAdapter, rCCK0_System, bCCKTxRate, cckrate);
++		write_bbreg(pAdapter, rCCK0_System, bCCKBBMode, 0x2);	//transmit mode
++		write_bbreg(pAdapter, rCCK0_System, bCCKScramble, bEnable);	//turn on scramble setting
++
++#ifdef CONFIG_RTL8192C
++		// Patch for CCK 11M waveform
++		if (cckrate == MPT_RATE_1M)
++			write_bbreg(pAdapter, 0xA71, BIT(6), bDisable);
++		else
++			write_bbreg(pAdapter, 0xA71, BIT(6), bEnable);
++#endif
++
++	}
++	else {
++		RT_TRACE(_module_mp_, _drv_info_,
++			 ("SetCCKContinuousTx: test stop\n"));
++
++		write_bbreg(pAdapter, rCCK0_System, bCCKBBMode, 0x0);	//normal mode
++		write_bbreg(pAdapter, rCCK0_System, bCCKScramble, bEnable);	//turn on scramble setting
++
++		//BB Reset
++		write_bbreg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
++		write_bbreg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
++	}
++
++	pAdapter->mppriv.MptCtx.bCckContTx = bStart;
++	pAdapter->mppriv.MptCtx.bOfdmContTx = _FALSE;
++}/* mpt_StartCckContTx */
++
++void Hal_SetOFDMContinuousTx(PADAPTER pAdapter, u8 bStart)
++{
++    HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	if (bStart) {
++		RT_TRACE(_module_mp_, _drv_info_, ("SetOFDMContinuousTx: test start\n"));
++		// 1. if OFDM block on?
++		if(!read_bbreg(pAdapter, rFPGA0_RFMOD, bOFDMEn))
++			write_bbreg(pAdapter, rFPGA0_RFMOD, bOFDMEn, bEnable);//set OFDM block on
++        {
++
++		// 2. set CCK test mode off, set to CCK normal mode
++		write_bbreg(pAdapter, rCCK0_System, bCCKBBMode, bDisable);
++
++		// 3. turn on scramble setting
++		write_bbreg(pAdapter, rCCK0_System, bCCKScramble, bEnable);
++        }
++		// 4. Turn On Continue Tx and turn off the other test modes.
++		write_bbreg(pAdapter, rOFDM1_LSTF, bOFDMContinueTx, bEnable);
++		write_bbreg(pAdapter, rOFDM1_LSTF, bOFDMSingleCarrier, bDisable);
++		write_bbreg(pAdapter, rOFDM1_LSTF, bOFDMSingleTone, bDisable);
++	} else {
++		RT_TRACE(_module_mp_,_drv_info_, ("SetOFDMContinuousTx: test stop\n"));
++		write_bbreg(pAdapter, rOFDM1_LSTF, bOFDMContinueTx, bDisable);
++		write_bbreg(pAdapter, rOFDM1_LSTF, bOFDMSingleCarrier, bDisable);
++		write_bbreg(pAdapter, rOFDM1_LSTF, bOFDMSingleTone, bDisable);
++		//Delay 10 ms
++		rtw_msleep_os(10);
++		//BB Reset
++		write_bbreg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
++		write_bbreg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
++	}
++
++	pAdapter->mppriv.MptCtx.bCckContTx = _FALSE;
++	pAdapter->mppriv.MptCtx.bOfdmContTx = bStart;
++}/* mpt_StartOfdmContTx */
++
++void Hal_SetContinuousTx(PADAPTER pAdapter, u8 bStart)
++{
++#if 0
++	// ADC turn off [bit24-21] adc port0 ~ port1
++	if (bStart) {
++		write_bbreg(pAdapter, rRx_Wait_CCCA, read_bbreg(pAdapter, rRx_Wait_CCCA) & 0xFE1FFFFF);
++		rtw_usleep_os(100);
++	}
++#endif
++	RT_TRACE(_module_mp_, _drv_info_,
++		 ("SetContinuousTx: rate:%d\n", pAdapter->mppriv.rateidx));
++
++	pAdapter->mppriv.MptCtx.bStartContTx = bStart;
++	if (pAdapter->mppriv.rateidx <= MPT_RATE_11M)
++	{
++		Hal_SetCCKContinuousTx(pAdapter, bStart);
++	}
++	else if ((pAdapter->mppriv.rateidx >= MPT_RATE_6M) &&
++		 (pAdapter->mppriv.rateidx <= MPT_RATE_MCS15))
++	{
++		Hal_SetOFDMContinuousTx(pAdapter, bStart);
++	}
++#if 0
++	// ADC turn on [bit24-21] adc port0 ~ port1
++	if (!bStart) {
++		write_bbreg(pAdapter, rRx_Wait_CCCA, read_bbreg(pAdapter, rRx_Wait_CCCA) | 0x01E00000);
++	}
++#endif
++}
++
++#endif // CONFIG_MP_INCLUDE
+diff --git a/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_phycfg.c b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_phycfg.c
+new file mode 100755
+index 0000000..1bae6da
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_phycfg.c
+@@ -0,0 +1,4841 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/******************************************************************************
++
++ Module:	rtl8192c_phycfg.c	
++
++ Note:		Merge 92SE/SU PHY config as below
++			1. BB register R/W API
++ 			2. RF register R/W API
++ 			3. Initial BB/RF/MAC config by reading BB/MAC/RF txt.
++ 			3. Power setting API
++ 			4. Channel switch API
++ 			5. Initial gain switch API.
++ 			6. Other BB/MAC/RF API.
++ 			
++ Function:	PHY: Extern function, phy: local function
++ 		 
++ Export:	PHY_FunctionName
++
++ Abbrev:	NONE
++
++ History:
++	Data		Who		Remark	
++	08/08/2008  MHC    	1. Port from 9x series phycfg.c
++						2. Reorganize code arch and ad description.
++						3. Collect similar function.
++						4. Seperate extern/local API.
++	08/12/2008	MHC		We must merge or move USB PHY relative function later.
++	10/07/2008	MHC		Add IQ calibration for PHY.(Only 1T2R mode now!!!)
++	11/06/2008	MHC		Add TX Power index PG file to config in 0xExx register
++						area to map with EEPROM/EFUSE tx pwr index.
++	
++******************************************************************************/
++#define _HAL_8192C_PHYCFG_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <rtw_byteorder.h>
++
++#ifdef CONFIG_IOL
++#include <rtw_iol.h>
++#endif
++
++#include <rtl8192c_hal.h>
++
++
++/*---------------------------Define Local Constant---------------------------*/
++/* Channel switch:The size of command tables for switch channel*/
++#define MAX_PRECMD_CNT 16
++#define MAX_RFDEPENDCMD_CNT 16
++#define MAX_POSTCMD_CNT 16
++
++#define MAX_DOZE_WAITING_TIMES_9x 64
++
++/*---------------------------Define Local Constant---------------------------*/
++
++
++/*------------------------Define global variable-----------------------------*/
++
++/*------------------------Define local variable------------------------------*/
++
++
++/*--------------------Define export function prototype-----------------------*/
++// Please refer to header file
++/*--------------------Define export function prototype-----------------------*/
++
++/*----------------------------Function Body----------------------------------*/
++//
++// 1. BB register R/W API
++//
++
++/**
++* Function:	phy_CalculateBitShift
++*
++* OverView:	Get shifted position of the BitMask
++*
++* Input:
++*			u4Byte		BitMask,	
++*
++* Output:	none
++* Return:		u4Byte		Return the shift bit bit position of the mask
++*/
++static	u32
++phy_CalculateBitShift(
++	u32 BitMask
++	)
++{
++	u32 i;
++
++	for(i=0; i<=31; i++)
++	{
++		if ( ((BitMask>>i) &  0x1 ) == 1)
++			break;
++	}
++
++	return (i);
++}
++
++
++/**
++* Function:	PHY_QueryBBReg
++*
++* OverView:	Read "sepcific bits" from BB register
++*
++* Input:
++*			PADAPTER		Adapter,
++*			u4Byte			RegAddr,		//The target address to be readback
++*			u4Byte			BitMask		//The target bit position in the target address
++*										//to be readback	
++* Output:	None
++* Return:		u4Byte			Data			//The readback register value
++* Note:		This function is equal to "GetRegSetting" in PHY programming guide
++*/
++u32
++rtl8192c_PHY_QueryBBReg(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask
++	)
++{	
++  	u32	ReturnValue = 0, OriginalValue, BitShift;
++	u16	BBWaitCounter = 0;
++
++#if (DISABLE_BB_RF == 1)
++	return 0;
++#endif
++
++	//RT_TRACE(COMP_RF, DBG_TRACE, ("--->PHY_QueryBBReg(): RegAddr(%#lx), BitMask(%#lx)\n", RegAddr, BitMask));
++
++	OriginalValue = rtw_read32(Adapter, RegAddr);
++	BitShift = phy_CalculateBitShift(BitMask);
++	ReturnValue = (OriginalValue & BitMask) >> BitShift;
++
++	//RTPRINT(FPHY, PHY_BBR, ("BBR MASK=0x%lx Addr[0x%lx]=0x%lx\n", BitMask, RegAddr, OriginalValue));
++	//RT_TRACE(COMP_RF, DBG_TRACE, ("<---PHY_QueryBBReg(): RegAddr(%#lx), BitMask(%#lx), OriginalValue(%#lx)\n", RegAddr, BitMask, OriginalValue));
++
++	return (ReturnValue);
++
++}
++
++
++/**
++* Function:	PHY_SetBBReg
++*
++* OverView:	Write "Specific bits" to BB register (page 8~) 
++*
++* Input:
++*			PADAPTER		Adapter,
++*			u4Byte			RegAddr,		//The target address to be modified
++*			u4Byte			BitMask		//The target bit position in the target address
++*										//to be modified	
++*			u4Byte			Data			//The new register value in the target bit position
++*										//of the target address			
++*
++* Output:	None
++* Return:		None
++* Note:		This function is equal to "PutRegSetting" in PHY programming guide
++*/
++
++VOID
++rtl8192c_PHY_SetBBReg(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask,
++	IN	u32		Data
++	)
++{
++	HAL_DATA_TYPE	*pHalData		= GET_HAL_DATA(Adapter);
++	//u16			BBWaitCounter	= 0;
++	u32			OriginalValue, BitShift;
++
++#if (DISABLE_BB_RF == 1)
++	return;
++#endif
++
++	//RT_TRACE(COMP_RF, DBG_TRACE, ("--->PHY_SetBBReg(): RegAddr(%#lx), BitMask(%#lx), Data(%#lx)\n", RegAddr, BitMask, Data));
++
++	if(BitMask!= bMaskDWord){//if not "double word" write
++		OriginalValue = rtw_read32(Adapter, RegAddr);
++		BitShift = phy_CalculateBitShift(BitMask);
++		Data = ((OriginalValue & (~BitMask)) | ((Data << BitShift) & BitMask));
++	}
++
++	rtw_write32(Adapter, RegAddr, Data);
++
++	//RTPRINT(FPHY, PHY_BBW, ("BBW MASK=0x%lx Addr[0x%lx]=0x%lx\n", BitMask, RegAddr, Data));
++	//RT_TRACE(COMP_RF, DBG_TRACE, ("<---PHY_SetBBReg(): RegAddr(%#lx), BitMask(%#lx), Data(%#lx)\n", RegAddr, BitMask, Data));
++	
++}
++
++
++//
++// 2. RF register R/W API
++//
++
++/*-----------------------------------------------------------------------------
++ * Function:	phy_FwRFSerialRead()
++ *
++ * Overview:	We support firmware to execute RF-R/W.
++ *
++ * Input:		NONE
++ *
++ * Output:		NONE
++ *
++ * Return:		NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	01/21/2008	MHC		Create Version 0.  
++ *
++ *---------------------------------------------------------------------------*/
++static	u32
++phy_FwRFSerialRead(
++	IN	PADAPTER			Adapter,
++	IN	RF_RADIO_PATH_E	eRFPath,
++	IN	u32				Offset	)
++{
++	u32		retValue = 0;		
++	//RT_ASSERT(FALSE,("deprecate!\n"));
++	return	(retValue);
++
++}	/* phy_FwRFSerialRead */
++
++
++/*-----------------------------------------------------------------------------
++ * Function:	phy_FwRFSerialWrite()
++ *
++ * Overview:	We support firmware to execute RF-R/W.
++ *
++ * Input:		NONE
++ *
++ * Output:		NONE
++ *
++ * Return:		NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	01/21/2008	MHC		Create Version 0.  
++ *
++ *---------------------------------------------------------------------------*/
++static	VOID
++phy_FwRFSerialWrite(
++	IN	PADAPTER			Adapter,
++	IN	RF_RADIO_PATH_E	eRFPath,
++	IN	u32				Offset,
++	IN	u32				Data	)
++{
++	//RT_ASSERT(FALSE,("deprecate!\n"));
++}
++
++
++/**
++* Function:	phy_RFSerialRead
++*
++* OverView:	Read regster from RF chips 
++*
++* Input:
++*			PADAPTER		Adapter,
++*			RF_RADIO_PATH_E	eRFPath,	//Radio path of A/B/C/D
++*			u4Byte			Offset,		//The target address to be read			
++*
++* Output:	None
++* Return:		u4Byte			reback value
++* Note:		Threre are three types of serial operations: 
++*			1. Software serial write
++*			2. Hardware LSSI-Low Speed Serial Interface 
++*			3. Hardware HSSI-High speed
++*			serial write. Driver need to implement (1) and (2).
++*			This function is equal to the combination of RF_ReadReg() and  RFLSSIRead()
++*/
++static	u32
++phy_RFSerialRead(
++	IN	PADAPTER			Adapter,
++	IN	RF_RADIO_PATH_E	eRFPath,
++	IN	u32				Offset
++	)
++{
++	u32						retValue = 0;
++	HAL_DATA_TYPE				*pHalData = GET_HAL_DATA(Adapter);
++	BB_REGISTER_DEFINITION_T	*pPhyReg = &pHalData->PHYRegDef[eRFPath];
++	u32						NewOffset;
++	u32 						tmplong,tmplong2;
++	u8					RfPiEnable=0;
++#if 0
++	if(pHalData->RFChipID == RF_8225 && Offset > 0x24) //36 valid regs
++		return	retValue;
++	if(pHalData->RFChipID == RF_8256 && Offset > 0x2D) //45 valid regs
++		return	retValue;
++#endif
++	//
++	// Make sure RF register offset is correct 
++	//
++	Offset &= 0x3f;
++
++	//
++	// Switch page for 8256 RF IC
++	//
++	NewOffset = Offset;
++
++	// 2009/06/17 MH We can not execute IO for power save or other accident mode.
++	//if(RT_CANNOT_IO(Adapter))
++	//{
++	//	RTPRINT(FPHY, PHY_RFR, ("phy_RFSerialRead return all one\n"));
++	//	return	0xFFFFFFFF;
++	//}
++
++	// For 92S LSSI Read RFLSSIRead
++	// For RF A/B write 0x824/82c(does not work in the future) 
++	// We must use 0x824 for RF A and B to execute read trigger
++	tmplong = PHY_QueryBBReg(Adapter, rFPGA0_XA_HSSIParameter2, bMaskDWord);
++	if(eRFPath == RF_PATH_A)
++		tmplong2 = tmplong;
++	else
++		tmplong2 = PHY_QueryBBReg(Adapter, pPhyReg->rfHSSIPara2, bMaskDWord);
++
++	tmplong2 = (tmplong2 & (~bLSSIReadAddress)) | (NewOffset<<23) | bLSSIReadEdge;	//T65 RF
++	
++	PHY_SetBBReg(Adapter, rFPGA0_XA_HSSIParameter2, bMaskDWord, tmplong&(~bLSSIReadEdge));	
++	rtw_udelay_os(10);// PlatformStallExecution(10);
++	
++	PHY_SetBBReg(Adapter, pPhyReg->rfHSSIPara2, bMaskDWord, tmplong2);	
++	rtw_udelay_os(100);//PlatformStallExecution(100);
++	
++	PHY_SetBBReg(Adapter, rFPGA0_XA_HSSIParameter2, bMaskDWord, tmplong|bLSSIReadEdge);	
++	rtw_udelay_os(10);//PlatformStallExecution(10);
++
++	if(eRFPath == RF_PATH_A)
++		RfPiEnable = (u8)PHY_QueryBBReg(Adapter, rFPGA0_XA_HSSIParameter1, BIT8);
++	else if(eRFPath == RF_PATH_B)
++		RfPiEnable = (u8)PHY_QueryBBReg(Adapter, rFPGA0_XB_HSSIParameter1, BIT8);
++	
++	if(RfPiEnable)
++	{	// Read from BBreg8b8, 12 bits for 8190, 20bits for T65 RF
++		retValue = PHY_QueryBBReg(Adapter, pPhyReg->rfLSSIReadBackPi, bLSSIReadBackData);
++		//DBG_8192C("Readback from RF-PI : 0x%x\n", retValue);
++	}
++	else
++	{	//Read from BBreg8a0, 12 bits for 8190, 20 bits for T65 RF
++		retValue = PHY_QueryBBReg(Adapter, pPhyReg->rfLSSIReadBack, bLSSIReadBackData);
++		//DBG_8192C("Readback from RF-SI : 0x%x\n", retValue);
++	}
++	//DBG_8192C("RFR-%d Addr[0x%x]=0x%x\n", eRFPath, pPhyReg->rfLSSIReadBack, retValue);
++	
++	return retValue;	
++		
++}
++
++
++
++/**
++* Function:	phy_RFSerialWrite
++*
++* OverView:	Write data to RF register (page 8~) 
++*
++* Input:
++*			PADAPTER		Adapter,
++*			RF_RADIO_PATH_E	eRFPath,	//Radio path of A/B/C/D
++*			u4Byte			Offset,		//The target address to be read			
++*			u4Byte			Data			//The new register Data in the target bit position
++*										//of the target to be read			
++*
++* Output:	None
++* Return:		None
++* Note:		Threre are three types of serial operations: 
++*			1. Software serial write
++*			2. Hardware LSSI-Low Speed Serial Interface 
++*			3. Hardware HSSI-High speed
++*			serial write. Driver need to implement (1) and (2).
++*			This function is equal to the combination of RF_ReadReg() and  RFLSSIRead()
++ *
++ * Note: 		  For RF8256 only
++ *			 The total count of RTL8256(Zebra4) register is around 36 bit it only employs 
++ *			 4-bit RF address. RTL8256 uses "register mode control bit" (Reg00[12], Reg00[10]) 
++ *			 to access register address bigger than 0xf. See "Appendix-4 in PHY Configuration
++ *			 programming guide" for more details. 
++ *			 Thus, we define a sub-finction for RTL8526 register address conversion
++ *		       ===========================================================
++ *			 Register Mode		RegCTL[1]		RegCTL[0]		Note
++ *								(Reg00[12])		(Reg00[10])
++ *		       ===========================================================
++ *			 Reg_Mode0				0				x			Reg 0 ~15(0x0 ~ 0xf)
++ *		       ------------------------------------------------------------------
++ *			 Reg_Mode1				1				0			Reg 16 ~30(0x1 ~ 0xf)
++ *		       ------------------------------------------------------------------
++ *			 Reg_Mode2				1				1			Reg 31 ~ 45(0x1 ~ 0xf)
++ *		       ------------------------------------------------------------------
++ *
++ *	2008/09/02	MH	Add 92S RF definition
++ *	
++ *
++ *
++*/
++static	VOID
++phy_RFSerialWrite(
++	IN	PADAPTER			Adapter,
++	IN	RF_RADIO_PATH_E	eRFPath,
++	IN	u32				Offset,
++	IN	u32				Data
++	)
++{
++	u32						DataAndAddr = 0;
++	HAL_DATA_TYPE				*pHalData = GET_HAL_DATA(Adapter);
++	BB_REGISTER_DEFINITION_T	*pPhyReg = &pHalData->PHYRegDef[eRFPath];
++	u32						NewOffset;
++	
++#if 0
++	//<Roger_TODO> We should check valid regs for RF_6052 case.
++	if(pHalData->RFChipID == RF_8225 && Offset > 0x24) //36 valid regs
++		return;
++	if(pHalData->RFChipID == RF_8256 && Offset > 0x2D) //45 valid regs
++		return;
++#endif
++
++	// 2009/06/17 MH We can not execute IO for power save or other accident mode.
++	//if(RT_CANNOT_IO(Adapter))
++	//{
++	//	RTPRINT(FPHY, PHY_RFW, ("phy_RFSerialWrite stop\n"));
++	//	return;
++	//}
++
++	Offset &= 0x3f;
++
++	//
++	// Shadow Update
++	//
++	//PHY_RFShadowWrite(Adapter, eRFPath, Offset, Data);
++
++	//
++	// Switch page for 8256 RF IC
++	//
++	NewOffset = Offset;
++
++	//
++	// Put write addr in [5:0]  and write data in [31:16]
++	//
++	//DataAndAddr = (Data<<16) | (NewOffset&0x3f);
++	DataAndAddr = ((NewOffset<<20) | (Data&0x000fffff)) & 0x0fffffff;	// T65 RF
++
++	//
++	// Write Operation
++	//
++	PHY_SetBBReg(Adapter, pPhyReg->rf3wireOffset, bMaskDWord, DataAndAddr);
++	//RTPRINT(FPHY, PHY_RFW, ("RFW-%d Addr[0x%lx]=0x%lx\n", eRFPath, pPhyReg->rf3wireOffset, DataAndAddr));
++
++}
++
++
++/**
++* Function:	PHY_QueryRFReg
++*
++* OverView:	Query "Specific bits" to RF register (page 8~) 
++*
++* Input:
++*			PADAPTER		Adapter,
++*			RF_RADIO_PATH_E	eRFPath,	//Radio path of A/B/C/D
++*			u4Byte			RegAddr,		//The target address to be read
++*			u4Byte			BitMask		//The target bit position in the target address
++*										//to be read	
++*
++* Output:	None
++* Return:		u4Byte			Readback value
++* Note:		This function is equal to "GetRFRegSetting" in PHY programming guide
++*/
++u32
++rtl8192c_PHY_QueryRFReg(
++	IN	PADAPTER			Adapter,
++	IN	RF_RADIO_PATH_E	eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask
++	)
++{
++	u32 Original_Value, Readback_Value, BitShift;	
++	//HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	//u8	RFWaitCounter = 0;
++	//_irqL	irqL;
++
++#if (DISABLE_BB_RF == 1)
++	return 0;
++#endif
++	
++	//RT_TRACE(COMP_RF, DBG_TRACE, ("--->PHY_QueryRFReg(): RegAddr(%#lx), eRFPath(%#x), BitMask(%#lx)\n", RegAddr, eRFPath,BitMask));
++	
++#ifdef CONFIG_USB_HCI
++	//PlatformAcquireMutex(&pHalData->mxRFOperate);
++#else
++	//_enter_critical(&pHalData->rf_lock, &irqL);
++#endif
++
++	
++	Original_Value = phy_RFSerialRead(Adapter, eRFPath, RegAddr);
++	
++	BitShift =  phy_CalculateBitShift(BitMask);
++	Readback_Value = (Original_Value & BitMask) >> BitShift;	
++
++#ifdef CONFIG_USB_HCI
++	//PlatformReleaseMutex(&pHalData->mxRFOperate);
++#else
++	//_exit_critical(&pHalData->rf_lock, &irqL);
++#endif
++
++
++	//RTPRINT(FPHY, PHY_RFR, ("RFR-%d MASK=0x%lx Addr[0x%lx]=0x%lx\n", eRFPath, BitMask, RegAddr, Original_Value));//BitMask(%#lx),BitMask,
++	//RT_TRACE(COMP_RF, DBG_TRACE, ("<---PHY_QueryRFReg(): RegAddr(%#lx), eRFPath(%#x),  Original_Value(%#lx)\n", 
++	//				RegAddr, eRFPath, Original_Value));
++	
++	return (Readback_Value);
++}
++
++/**
++* Function:	PHY_SetRFReg
++*
++* OverView:	Write "Specific bits" to RF register (page 8~) 
++*
++* Input:
++*			PADAPTER		Adapter,
++*			RF_RADIO_PATH_E	eRFPath,	//Radio path of A/B/C/D
++*			u4Byte			RegAddr,		//The target address to be modified
++*			u4Byte			BitMask		//The target bit position in the target address
++*										//to be modified	
++*			u4Byte			Data			//The new register Data in the target bit position
++*										//of the target address			
++*
++* Output:	None
++* Return:		None
++* Note:		This function is equal to "PutRFRegSetting" in PHY programming guide
++*/
++VOID
++rtl8192c_PHY_SetRFReg(
++	IN	PADAPTER			Adapter,
++	IN	RF_RADIO_PATH_E	eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask,
++	IN	u32				Data
++	)
++{
++
++	//HAL_DATA_TYPE	*pHalData		= GET_HAL_DATA(Adapter);
++	//u1Byte			RFWaitCounter	= 0;
++	u32		Original_Value, BitShift;
++	//_irqL	irqL;
++
++#if (DISABLE_BB_RF == 1)
++	return;
++#endif
++	
++	//RT_TRACE(COMP_RF, DBG_TRACE, ("--->PHY_SetRFReg(): RegAddr(%#lx), BitMask(%#lx), Data(%#lx), eRFPath(%#x)\n", 
++	//	RegAddr, BitMask, Data, eRFPath));
++	//RTPRINT(FINIT, INIT_RF, ("PHY_SetRFReg(): RegAddr(%#lx), BitMask(%#lx), Data(%#lx), eRFPath(%#x)\n", 
++	//	RegAddr, BitMask, Data, eRFPath));
++
++
++#ifdef CONFIG_USB_HCI
++	//PlatformAcquireMutex(&pHalData->mxRFOperate);
++#else
++	//_enter_critical(&pHalData->rf_lock, &irqL);
++#endif
++
++	
++	// RF data is 12 bits only
++	if (BitMask != bRFRegOffsetMask) 
++	{
++		Original_Value = phy_RFSerialRead(Adapter, eRFPath, RegAddr);
++		BitShift =  phy_CalculateBitShift(BitMask);
++		Data = ((Original_Value & (~BitMask)) | (Data<< BitShift));
++	}
++		
++	phy_RFSerialWrite(Adapter, eRFPath, RegAddr, Data);
++	
++
++
++#ifdef CONFIG_USB_HCI
++	//PlatformReleaseMutex(&pHalData->mxRFOperate);
++#else
++	//_exit_critical(&pHalData->rf_lock, &irqL);
++#endif
++	
++	//PHY_QueryRFReg(Adapter,eRFPath,RegAddr,BitMask);
++	//RT_TRACE(COMP_RF, DBG_TRACE, ("<---PHY_SetRFReg(): RegAddr(%#lx), BitMask(%#lx), Data(%#lx), eRFPath(%#x)\n", 
++	//		RegAddr, BitMask, Data, eRFPath));
++
++}
++
++
++//
++// 3. Initial MAC/BB/RF config by reading MAC/BB/RF txt.
++//
++
++/*-----------------------------------------------------------------------------
++ * Function:    phy_ConfigMACWithParaFile()
++ *
++ * Overview:    This function read BB parameters from general file format, and do register
++ *			  Read/Write 
++ *
++ * Input:      	PADAPTER		Adapter
++ *			ps1Byte 			pFileName			
++ *
++ * Output:      NONE
++ *
++ * Return:      RT_STATUS_SUCCESS: configuration file exist
++ *			
++ * Note: 		The format of MACPHY_REG.txt is different from PHY and RF. 
++ *			[Register][Mask][Value]
++ *---------------------------------------------------------------------------*/
++static	int
++phy_ConfigMACWithParaFile(
++	IN	PADAPTER		Adapter,
++	IN	u8* 			pFileName
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	
++	int		rtStatus = _SUCCESS;
++
++	return rtStatus;
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:    phy_ConfigMACWithHeaderFile()
++ *
++ * Overview:    This function read BB parameters from Header file we gen, and do register
++ *			  Read/Write 
++ *
++ * Input:      	PADAPTER		Adapter
++ *			ps1Byte 			pFileName			
++ *
++ * Output:      NONE
++ *
++ * Return:      RT_STATUS_SUCCESS: configuration file exist
++ *			
++ * Note: 		The format of MACPHY_REG.txt is different from PHY and RF. 
++ *			[Register][Mask][Value]
++ *---------------------------------------------------------------------------*/
++static	int
++phy_ConfigMACWithHeaderFile(
++	IN	PADAPTER		Adapter
++)
++{
++	u32					i = 0;
++	u32					ArrayLength = 0;
++	u32*				ptrArray;	
++	//HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(Adapter);
++
++	//2008.11.06 Modified by tynli.
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("Read Rtl819XMACPHY_Array\n"));
++	ArrayLength = MAC_2T_ArrayLength;
++	ptrArray = Rtl819XMAC_Array;
++
++#ifdef CONFIG_IOL_MAC
++	if(rtw_IOL_applied(Adapter))
++	{
++		struct xmit_frame	*xmit_frame;
++		if((xmit_frame=rtw_IOL_accquire_xmit_frame(Adapter)) == NULL)
++			return _FAIL;
++
++		for(i = 0 ;i < ArrayLength;i=i+2){ // Add by tynli for 2 column
++			rtw_IOL_append_WB_cmd(xmit_frame, ptrArray[i], (u8)ptrArray[i+1]);
++		}
++
++		return rtw_IOL_exec_cmds_sync(Adapter, xmit_frame, 1000);
++	}
++	else
++#endif
++	{
++		for(i = 0 ;i < ArrayLength;i=i+2){ // Add by tynli for 2 column
++			rtw_write8(Adapter, ptrArray[i], (u8)ptrArray[i+1]);
++		}
++	}
++	
++	return _SUCCESS;
++	
++}
++
++
++/*-----------------------------------------------------------------------------
++ * Function:    PHY_MACConfig8192C
++ *
++ * Overview:	Condig MAC by header file or parameter file.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ *  When		Who		Remark
++ *  08/12/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++int
++PHY_MACConfig8192C(
++	IN	PADAPTER	Adapter
++	)
++{
++	int		rtStatus = _SUCCESS;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	s8			*pszMACRegFile;
++	s8			sz88CMACRegFile[] = RTL8188C_PHY_MACREG;
++	s8			sz92CMACRegFile[] = RTL8192C_PHY_MACREG;
++	BOOLEAN		is92C = IS_92C_SERIAL(pHalData->VersionID);
++
++	if(is92C)
++		pszMACRegFile = sz92CMACRegFile;
++	else
++		pszMACRegFile = sz88CMACRegFile;
++
++	//
++	// Config MAC
++	//
++#ifdef CONFIG_EMBEDDED_FWIMG
++	rtStatus = phy_ConfigMACWithHeaderFile(Adapter);
++#else
++	
++	// Not make sure EEPROM, add later
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("Read MACREG.txt\n"));
++	rtStatus = phy_ConfigMACWithParaFile(Adapter, pszMACRegFile);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	//this switching setting cause some 8192cu hw have redownload fw fail issue
++	//improve 2-stream TX EVM by Jenyu
++	if(is92C)
++		rtw_write8(Adapter, REG_SPS0_CTRL+3,0x71);
++#endif
++
++
++	// 2010.07.13 AMPDU aggregation number 9
++	//rtw_write16(Adapter, REG_MAX_AGGR_NUM, MAX_AGGR_NUM);
++	rtw_write8(Adapter, REG_MAX_AGGR_NUM, 0x0A); //By tynli. 2010.11.18.
++#ifdef CONFIG_USB_HCI
++	if(is92C && (BOARD_USB_DONGLE == pHalData->BoardType))
++		rtw_write8(Adapter, 0x40,0x04);	
++#endif		
++
++	return rtStatus;
++
++}
++
++
++/**
++* Function:	phy_InitBBRFRegisterDefinition
++*
++* OverView:	Initialize Register definition offset for Radio Path A/B/C/D
++*
++* Input:
++*			PADAPTER		Adapter,
++*
++* Output:	None
++* Return:		None
++* Note:		The initialization value is constant and it should never be changes
++*/
++static	VOID
++phy_InitBBRFRegisterDefinition(
++	IN	PADAPTER		Adapter
++)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);	
++
++	// RF Interface Sowrtware Control
++	pHalData->PHYRegDef[RF_PATH_A].rfintfs = rFPGA0_XAB_RFInterfaceSW; // 16 LSBs if read 32-bit from 0x870
++	pHalData->PHYRegDef[RF_PATH_B].rfintfs = rFPGA0_XAB_RFInterfaceSW; // 16 MSBs if read 32-bit from 0x870 (16-bit for 0x872)
++	pHalData->PHYRegDef[RF_PATH_C].rfintfs = rFPGA0_XCD_RFInterfaceSW;// 16 LSBs if read 32-bit from 0x874
++	pHalData->PHYRegDef[RF_PATH_D].rfintfs = rFPGA0_XCD_RFInterfaceSW;// 16 MSBs if read 32-bit from 0x874 (16-bit for 0x876)
++
++	// RF Interface Readback Value
++	pHalData->PHYRegDef[RF_PATH_A].rfintfi = rFPGA0_XAB_RFInterfaceRB; // 16 LSBs if read 32-bit from 0x8E0	
++	pHalData->PHYRegDef[RF_PATH_B].rfintfi = rFPGA0_XAB_RFInterfaceRB;// 16 MSBs if read 32-bit from 0x8E0 (16-bit for 0x8E2)
++	pHalData->PHYRegDef[RF_PATH_C].rfintfi = rFPGA0_XCD_RFInterfaceRB;// 16 LSBs if read 32-bit from 0x8E4
++	pHalData->PHYRegDef[RF_PATH_D].rfintfi = rFPGA0_XCD_RFInterfaceRB;// 16 MSBs if read 32-bit from 0x8E4 (16-bit for 0x8E6)
++
++	// RF Interface Output (and Enable)
++	pHalData->PHYRegDef[RF_PATH_A].rfintfo = rFPGA0_XA_RFInterfaceOE; // 16 LSBs if read 32-bit from 0x860
++	pHalData->PHYRegDef[RF_PATH_B].rfintfo = rFPGA0_XB_RFInterfaceOE; // 16 LSBs if read 32-bit from 0x864
++
++	// RF Interface (Output and)  Enable
++	pHalData->PHYRegDef[RF_PATH_A].rfintfe = rFPGA0_XA_RFInterfaceOE; // 16 MSBs if read 32-bit from 0x860 (16-bit for 0x862)
++	pHalData->PHYRegDef[RF_PATH_B].rfintfe = rFPGA0_XB_RFInterfaceOE; // 16 MSBs if read 32-bit from 0x864 (16-bit for 0x866)
++
++	//Addr of LSSI. Wirte RF register by driver
++	pHalData->PHYRegDef[RF_PATH_A].rf3wireOffset = rFPGA0_XA_LSSIParameter; //LSSI Parameter
++	pHalData->PHYRegDef[RF_PATH_B].rf3wireOffset = rFPGA0_XB_LSSIParameter;
++
++	// RF parameter
++	pHalData->PHYRegDef[RF_PATH_A].rfLSSI_Select = rFPGA0_XAB_RFParameter;  //BB Band Select
++	pHalData->PHYRegDef[RF_PATH_B].rfLSSI_Select = rFPGA0_XAB_RFParameter;
++	pHalData->PHYRegDef[RF_PATH_C].rfLSSI_Select = rFPGA0_XCD_RFParameter;
++	pHalData->PHYRegDef[RF_PATH_D].rfLSSI_Select = rFPGA0_XCD_RFParameter;
++
++	// Tx AGC Gain Stage (same for all path. Should we remove this?)
++	pHalData->PHYRegDef[RF_PATH_A].rfTxGainStage = rFPGA0_TxGainStage; //Tx gain stage
++	pHalData->PHYRegDef[RF_PATH_B].rfTxGainStage = rFPGA0_TxGainStage; //Tx gain stage
++	pHalData->PHYRegDef[RF_PATH_C].rfTxGainStage = rFPGA0_TxGainStage; //Tx gain stage
++	pHalData->PHYRegDef[RF_PATH_D].rfTxGainStage = rFPGA0_TxGainStage; //Tx gain stage
++
++	// Tranceiver A~D HSSI Parameter-1
++	pHalData->PHYRegDef[RF_PATH_A].rfHSSIPara1 = rFPGA0_XA_HSSIParameter1;  //wire control parameter1
++	pHalData->PHYRegDef[RF_PATH_B].rfHSSIPara1 = rFPGA0_XB_HSSIParameter1;  //wire control parameter1
++
++	// Tranceiver A~D HSSI Parameter-2
++	pHalData->PHYRegDef[RF_PATH_A].rfHSSIPara2 = rFPGA0_XA_HSSIParameter2;  //wire control parameter2
++	pHalData->PHYRegDef[RF_PATH_B].rfHSSIPara2 = rFPGA0_XB_HSSIParameter2;  //wire control parameter2
++
++	// RF switch Control
++	pHalData->PHYRegDef[RF_PATH_A].rfSwitchControl = rFPGA0_XAB_SwitchControl; //TR/Ant switch control
++	pHalData->PHYRegDef[RF_PATH_B].rfSwitchControl = rFPGA0_XAB_SwitchControl;
++	pHalData->PHYRegDef[RF_PATH_C].rfSwitchControl = rFPGA0_XCD_SwitchControl;
++	pHalData->PHYRegDef[RF_PATH_D].rfSwitchControl = rFPGA0_XCD_SwitchControl;
++
++	// AGC control 1 
++	pHalData->PHYRegDef[RF_PATH_A].rfAGCControl1 = rOFDM0_XAAGCCore1;
++	pHalData->PHYRegDef[RF_PATH_B].rfAGCControl1 = rOFDM0_XBAGCCore1;
++	pHalData->PHYRegDef[RF_PATH_C].rfAGCControl1 = rOFDM0_XCAGCCore1;
++	pHalData->PHYRegDef[RF_PATH_D].rfAGCControl1 = rOFDM0_XDAGCCore1;
++
++	// AGC control 2 
++	pHalData->PHYRegDef[RF_PATH_A].rfAGCControl2 = rOFDM0_XAAGCCore2;
++	pHalData->PHYRegDef[RF_PATH_B].rfAGCControl2 = rOFDM0_XBAGCCore2;
++	pHalData->PHYRegDef[RF_PATH_C].rfAGCControl2 = rOFDM0_XCAGCCore2;
++	pHalData->PHYRegDef[RF_PATH_D].rfAGCControl2 = rOFDM0_XDAGCCore2;
++
++	// RX AFE control 1 
++	pHalData->PHYRegDef[RF_PATH_A].rfRxIQImbalance = rOFDM0_XARxIQImbalance;
++	pHalData->PHYRegDef[RF_PATH_B].rfRxIQImbalance = rOFDM0_XBRxIQImbalance;
++	pHalData->PHYRegDef[RF_PATH_C].rfRxIQImbalance = rOFDM0_XCRxIQImbalance;
++	pHalData->PHYRegDef[RF_PATH_D].rfRxIQImbalance = rOFDM0_XDRxIQImbalance;	
++
++	// RX AFE control 1  
++	pHalData->PHYRegDef[RF_PATH_A].rfRxAFE = rOFDM0_XARxAFE;
++	pHalData->PHYRegDef[RF_PATH_B].rfRxAFE = rOFDM0_XBRxAFE;
++	pHalData->PHYRegDef[RF_PATH_C].rfRxAFE = rOFDM0_XCRxAFE;
++	pHalData->PHYRegDef[RF_PATH_D].rfRxAFE = rOFDM0_XDRxAFE;	
++
++	// Tx AFE control 1 
++	pHalData->PHYRegDef[RF_PATH_A].rfTxIQImbalance = rOFDM0_XATxIQImbalance;
++	pHalData->PHYRegDef[RF_PATH_B].rfTxIQImbalance = rOFDM0_XBTxIQImbalance;
++	pHalData->PHYRegDef[RF_PATH_C].rfTxIQImbalance = rOFDM0_XCTxIQImbalance;
++	pHalData->PHYRegDef[RF_PATH_D].rfTxIQImbalance = rOFDM0_XDTxIQImbalance;	
++
++	// Tx AFE control 2 
++	pHalData->PHYRegDef[RF_PATH_A].rfTxAFE = rOFDM0_XATxAFE;
++	pHalData->PHYRegDef[RF_PATH_B].rfTxAFE = rOFDM0_XBTxAFE;
++	pHalData->PHYRegDef[RF_PATH_C].rfTxAFE = rOFDM0_XCTxAFE;
++	pHalData->PHYRegDef[RF_PATH_D].rfTxAFE = rOFDM0_XDTxAFE;	
++
++	// Tranceiver LSSI Readback SI mode 
++	pHalData->PHYRegDef[RF_PATH_A].rfLSSIReadBack = rFPGA0_XA_LSSIReadBack;
++	pHalData->PHYRegDef[RF_PATH_B].rfLSSIReadBack = rFPGA0_XB_LSSIReadBack;
++	pHalData->PHYRegDef[RF_PATH_C].rfLSSIReadBack = rFPGA0_XC_LSSIReadBack;
++	pHalData->PHYRegDef[RF_PATH_D].rfLSSIReadBack = rFPGA0_XD_LSSIReadBack;	
++
++	// Tranceiver LSSI Readback PI mode 
++	pHalData->PHYRegDef[RF_PATH_A].rfLSSIReadBackPi = TransceiverA_HSPI_Readback;
++	pHalData->PHYRegDef[RF_PATH_B].rfLSSIReadBackPi = TransceiverB_HSPI_Readback;
++	//pHalData->PHYRegDef[RF_PATH_C].rfLSSIReadBackPi = rFPGA0_XC_LSSIReadBack;
++	//pHalData->PHYRegDef[RF_PATH_D].rfLSSIReadBackPi = rFPGA0_XD_LSSIReadBack;	
++
++}
++
++
++/*-----------------------------------------------------------------------------
++ * Function:    phy_ConfigBBWithParaFile()
++ *
++ * Overview:    This function read BB parameters from general file format, and do register
++ *			  Read/Write 
++ *
++ * Input:      	PADAPTER		Adapter
++ *			ps1Byte 			pFileName			
++ *
++ * Output:      NONE
++ *
++ * Return:      RT_STATUS_SUCCESS: configuration file exist
++ *	2008/11/06	MH	For 92S we do not support silent reset now. Disable 
++ *					parameter file compare!!!!!!??
++ *			
++ *---------------------------------------------------------------------------*/
++static	int
++phy_ConfigBBWithParaFile(
++	IN	PADAPTER		Adapter,
++	IN	u8* 			pFileName
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	
++	int		rtStatus = _SUCCESS;
++
++	return rtStatus;	
++}
++
++
++
++//****************************************
++// The following is for High Power PA
++//****************************************
++VOID
++phy_ConfigBBExternalPA(
++	IN	PADAPTER			Adapter
++)
++{
++#ifdef CONFIG_USB_HCI
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u16 i=0;
++	u32 temp=0;
++
++	if(!pHalData->ExternalPA)
++	{
++		return;
++	}
++
++	// 2010/10/19 MH According to Jenyu/EEChou 's opinion, we need not to execute the 
++	// same code as SU. It is already updated in PHY_REG_1T_HP.txt.
++#if 0
++	PHY_SetBBReg(Adapter, 0xee8, BIT28, 1);
++	temp = PHY_QueryBBReg(Adapter, 0x860, bMaskDWord);
++	temp |= (BIT26|BIT21|BIT10|BIT5);
++	PHY_SetBBReg(Adapter, 0x860, bMaskDWord, temp);
++	PHY_SetBBReg(Adapter, 0x870, BIT10, 0);
++	PHY_SetBBReg(Adapter, 0xc80, bMaskDWord, 0x20000080);
++	PHY_SetBBReg(Adapter, 0xc88, bMaskDWord, 0x40000100);
++#endif
++
++#endif
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:    phy_ConfigBBWithHeaderFile()
++ *
++ * Overview:    This function read BB parameters from general file format, and do register
++ *			  Read/Write 
++ *
++ * Input:      	PADAPTER		Adapter
++ *			u1Byte 			ConfigType     0 => PHY_CONFIG
++ *										 1 =>AGC_TAB
++ *
++ * Output:      NONE
++ *
++ * Return:      RT_STATUS_SUCCESS: configuration file exist
++ *			
++ *---------------------------------------------------------------------------*/
++static	int
++phy_ConfigBBWithHeaderFile(
++	IN	PADAPTER		Adapter,
++	IN	u8 			ConfigType
++)
++{
++	int i;
++	u32*	Rtl819XPHY_REGArray_Table;
++	u32*	Rtl819XAGCTAB_Array_Table;
++	u16	PHY_REGArrayLen, AGCTAB_ArrayLen;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	int ret = _SUCCESS;
++
++	//
++	// 2009.11.24. Modified by tynli.
++	//
++	if(IS_92C_SERIAL(pHalData->VersionID))
++	{
++		AGCTAB_ArrayLen = AGCTAB_2TArrayLength;
++		Rtl819XAGCTAB_Array_Table = Rtl819XAGCTAB_2TArray;
++		PHY_REGArrayLen = PHY_REG_2TArrayLength;
++		Rtl819XPHY_REGArray_Table = Rtl819XPHY_REG_2TArray;
++#ifdef CONFIG_USB_HCI
++		if(pHalData->BoardType == BOARD_MINICARD )
++		{
++			PHY_REGArrayLen = PHY_REG_2T_mCardArrayLength;
++			Rtl819XPHY_REGArray_Table = Rtl819XPHY_REG_2T_mCardArray;			
++		}
++#endif
++	}
++	else
++	{
++		AGCTAB_ArrayLen = AGCTAB_1TArrayLength;
++		Rtl819XAGCTAB_Array_Table = Rtl819XAGCTAB_1TArray;
++		PHY_REGArrayLen = PHY_REG_1TArrayLength;
++		Rtl819XPHY_REGArray_Table = Rtl819XPHY_REG_1TArray;
++#ifdef CONFIG_USB_HCI
++		if(pHalData->BoardType == BOARD_MINICARD )
++		{
++			PHY_REGArrayLen = PHY_REG_1T_mCardArrayLength;
++			Rtl819XPHY_REGArray_Table = Rtl819XPHY_REG_1T_mCardArray;			
++		}
++		else if(pHalData->BoardType == BOARD_USB_High_PA)
++		{
++			AGCTAB_ArrayLen = AGCTAB_1T_HPArrayLength;
++			Rtl819XAGCTAB_Array_Table = Rtl819XAGCTAB_1T_HPArray;
++			PHY_REGArrayLen = PHY_REG_1T_HPArrayLength;
++			Rtl819XPHY_REGArray_Table = Rtl819XPHY_REG_1T_HPArray;			
++		}
++#endif
++	}
++
++	if(ConfigType == BaseBand_Config_PHY_REG)
++	{
++		#ifdef CONFIG_IOL_BB_PHY_REG
++		if(rtw_IOL_applied(Adapter))
++		{
++			struct xmit_frame	*xmit_frame;
++			u32 tmp_value;
++
++			if((xmit_frame=rtw_IOL_accquire_xmit_frame(Adapter)) == NULL) {
++				ret = _FAIL;
++				goto exit;
++			}
++
++			for(i=0;i<PHY_REGArrayLen;i=i+2)
++			{
++				tmp_value=Rtl819XPHY_REGArray_Table[i+1];
++				
++				if (Rtl819XPHY_REGArray_Table[i] == 0xfe)
++					rtw_IOL_append_DELAY_MS_cmd(xmit_frame, 50);
++				else if (Rtl819XPHY_REGArray_Table[i] == 0xfd)
++					rtw_IOL_append_DELAY_MS_cmd(xmit_frame, 5);
++				else if (Rtl819XPHY_REGArray_Table[i] == 0xfc)
++					rtw_IOL_append_DELAY_MS_cmd(xmit_frame, 1);
++				else if (Rtl819XPHY_REGArray_Table[i] == 0xfb)
++					rtw_IOL_append_DELAY_US_cmd(xmit_frame, 50);
++				else if (Rtl819XPHY_REGArray_Table[i] == 0xfa)
++					rtw_IOL_append_DELAY_US_cmd(xmit_frame, 5);
++				else if (Rtl819XPHY_REGArray_Table[i] == 0xf9)
++					rtw_IOL_append_DELAY_US_cmd(xmit_frame, 1);
++
++				rtw_IOL_append_WD_cmd(xmit_frame, Rtl819XPHY_REGArray_Table[i], tmp_value);	
++				//RT_TRACE(COMP_INIT, DBG_TRACE, ("The Rtl819XPHY_REGArray_Table[0] is %lx Rtl819XPHY_REGArray[1] is %lx \n",Rtl819XPHY_REGArray_Table[i], Rtl819XPHY_REGArray_Table[i+1]));
++			}
++		
++			ret = rtw_IOL_exec_cmds_sync(Adapter, xmit_frame, 1000);
++		}
++		else
++		#endif
++		{
++			for(i=0;i<PHY_REGArrayLen;i=i+2)
++			{
++				if (Rtl819XPHY_REGArray_Table[i] == 0xfe){
++					#ifdef CONFIG_LONG_DELAY_ISSUE
++					rtw_msleep_os(50);
++					#else
++					rtw_mdelay_os(50);
++					#endif
++				}
++				else if (Rtl819XPHY_REGArray_Table[i] == 0xfd)
++					rtw_mdelay_os(5);
++				else if (Rtl819XPHY_REGArray_Table[i] == 0xfc)
++					rtw_mdelay_os(1);
++				else if (Rtl819XPHY_REGArray_Table[i] == 0xfb)
++					rtw_udelay_os(50);
++				else if (Rtl819XPHY_REGArray_Table[i] == 0xfa)
++					rtw_udelay_os(5);
++				else if (Rtl819XPHY_REGArray_Table[i] == 0xf9)
++					rtw_udelay_os(1);
++
++				PHY_SetBBReg(Adapter, Rtl819XPHY_REGArray_Table[i], bMaskDWord, Rtl819XPHY_REGArray_Table[i+1]);
++
++				// Add 1us delay between BB/RF register setting.
++				rtw_udelay_os(1);
++
++				//RT_TRACE(COMP_INIT, DBG_TRACE, ("The Rtl819XPHY_REGArray_Table[0] is %lx Rtl819XPHY_REGArray[1] is %lx \n",Rtl819XPHY_REGArray_Table[i], Rtl819XPHY_REGArray_Table[i+1]));
++			}
++		}
++	
++		// for External PA
++		phy_ConfigBBExternalPA(Adapter);
++	}
++	else if(ConfigType == BaseBand_Config_AGC_TAB)
++	{
++		#ifdef CONFIG_IOL_BB_AGC_TAB
++		if(rtw_IOL_applied(Adapter))
++		{
++			struct xmit_frame	*xmit_frame;
++
++			if((xmit_frame=rtw_IOL_accquire_xmit_frame(Adapter)) == NULL) {
++				ret = _FAIL;
++				goto exit;
++			}
++
++			for(i=0;i<AGCTAB_ArrayLen;i=i+2)
++			{
++				rtw_IOL_append_WD_cmd(xmit_frame, Rtl819XAGCTAB_Array_Table[i], Rtl819XAGCTAB_Array_Table[i+1]);							
++				//RT_TRACE(COMP_INIT, DBG_TRACE, ("The Rtl819XAGCTAB_Array_Table[0] is %lx Rtl819XPHY_REGArray[1] is %lx \n",Rtl819XAGCTAB_Array_Table[i], Rtl819XAGCTAB_Array_Table[i+1]));
++			}
++		
++			ret = rtw_IOL_exec_cmds_sync(Adapter, xmit_frame, 1000);
++		}
++		else
++		#endif
++		{
++			for(i=0;i<AGCTAB_ArrayLen;i=i+2)
++			{
++				PHY_SetBBReg(Adapter, Rtl819XAGCTAB_Array_Table[i], bMaskDWord, Rtl819XAGCTAB_Array_Table[i+1]);		
++
++				// Add 1us delay between BB/RF register setting.
++				rtw_udelay_os(1);
++				
++				//RT_TRACE(COMP_INIT, DBG_TRACE, ("The Rtl819XAGCTAB_Array_Table[0] is %lx Rtl819XPHY_REGArray[1] is %lx \n",Rtl819XAGCTAB_Array_Table[i], Rtl819XAGCTAB_Array_Table[i+1]));
++			}
++		}
++	}
++
++exit:
++	return ret;
++	
++}
++
++
++VOID
++storePwrIndexDiffRateOffset(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask,
++	IN	u32		Data
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	
++	if(RegAddr == rTxAGC_A_Rate18_06)
++	{
++		pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][0] = Data;
++		//RT_TRACE(COMP_INIT, DBG_TRACE, ("MCSTxPowerLevelOriginalOffset[%d][0] = 0x%lx\n", pHalData->pwrGroupCnt,
++		//	pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][0]));
++	}
++	if(RegAddr == rTxAGC_A_Rate54_24)
++	{
++		pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][1] = Data;
++		//RT_TRACE(COMP_INIT, DBG_TRACE, ("MCSTxPowerLevelOriginalOffset[%d][1] = 0x%lx\n", pHalData->pwrGroupCnt,
++		//	pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][1]));
++	}
++	if(RegAddr == rTxAGC_A_CCK1_Mcs32)
++	{
++		pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][6] = Data;
++		//RT_TRACE(COMP_INIT, DBG_TRACE, ("MCSTxPowerLevelOriginalOffset[%d][6] = 0x%lx\n", pHalData->pwrGroupCnt,
++		//	pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][6]));
++	}
++	if(RegAddr == rTxAGC_B_CCK11_A_CCK2_11 && BitMask == 0xffffff00)
++	{
++		pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][7] = Data;
++		//RT_TRACE(COMP_INIT, DBG_TRACE, ("MCSTxPowerLevelOriginalOffset[%d][7] = 0x%lx\n", pHalData->pwrGroupCnt,
++		//	pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][7]));
++	}	
++	if(RegAddr == rTxAGC_A_Mcs03_Mcs00)
++	{
++		pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][2] = Data;
++		//RT_TRACE(COMP_INIT, DBG_TRACE, ("MCSTxPowerLevelOriginalOffset[%d][2] = 0x%lx\n", pHalData->pwrGroupCnt,
++		//	pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][2]));
++	}
++	if(RegAddr == rTxAGC_A_Mcs07_Mcs04)
++	{
++		pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][3] = Data;
++		//RT_TRACE(COMP_INIT, DBG_TRACE, ("MCSTxPowerLevelOriginalOffset[%d][3] = 0x%lx\n", pHalData->pwrGroupCnt,
++		//	pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][3]));
++	}
++	if(RegAddr == rTxAGC_A_Mcs11_Mcs08)
++	{
++		pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][4] = Data;
++		//RT_TRACE(COMP_INIT, DBG_TRACE, ("MCSTxPowerLevelOriginalOffset[%d][4] = 0x%lx\n", pHalData->pwrGroupCnt,
++		//	pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][4]));
++	}
++	if(RegAddr == rTxAGC_A_Mcs15_Mcs12)
++	{
++		pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][5] = Data;
++		//RT_TRACE(COMP_INIT, DBG_TRACE, ("MCSTxPowerLevelOriginalOffset[%d][5] = 0x%lx\n", pHalData->pwrGroupCnt,
++		//	pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][5]));
++	}
++	if(RegAddr == rTxAGC_B_Rate18_06)
++	{
++		pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][8] = Data;
++		//RT_TRACE(COMP_INIT, DBG_TRACE, ("MCSTxPowerLevelOriginalOffset[%d][8] = 0x%lx\n", pHalData->pwrGroupCnt,
++		//	pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][8]));
++	}
++	if(RegAddr == rTxAGC_B_Rate54_24)
++	{
++		pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][9] = Data;
++		//RT_TRACE(COMP_INIT, DBG_TRACE, ("MCSTxPowerLevelOriginalOffset[%d][9] = 0x%lx\n", pHalData->pwrGroupCnt,
++		//	pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][9]));
++	}
++	if(RegAddr == rTxAGC_B_CCK1_55_Mcs32)
++	{
++		pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][14] = Data;
++		//RT_TRACE(COMP_INIT, DBG_TRACE, ("MCSTxPowerLevelOriginalOffset[%d][14] = 0x%lx\n", pHalData->pwrGroupCnt,
++		//	pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][14]));
++	}
++	if(RegAddr == rTxAGC_B_CCK11_A_CCK2_11 && BitMask == 0x000000ff)
++	{
++		pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][15] = Data;
++		//RT_TRACE(COMP_INIT, DBG_TRACE, ("MCSTxPowerLevelOriginalOffset[%d][15] = 0x%lx\n", pHalData->pwrGroupCnt,
++		//	pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][15]));
++	}	
++	if(RegAddr == rTxAGC_B_Mcs03_Mcs00)
++	{
++		pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][10] = Data;
++		//RT_TRACE(COMP_INIT, DBG_TRACE, ("MCSTxPowerLevelOriginalOffset[%d][10] = 0x%lx\n", pHalData->pwrGroupCnt,
++		//	pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][10]));
++	}
++	if(RegAddr == rTxAGC_B_Mcs07_Mcs04)
++	{
++		pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][11] = Data;
++		//RT_TRACE(COMP_INIT, DBG_TRACE, ("MCSTxPowerLevelOriginalOffset[%d][11] = 0x%lx\n", pHalData->pwrGroupCnt,
++		//	pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][11]));
++	}
++	if(RegAddr == rTxAGC_B_Mcs11_Mcs08)
++	{
++		pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][12] = Data;
++		//RT_TRACE(COMP_INIT, DBG_TRACE, ("MCSTxPowerLevelOriginalOffset[%d][12] = 0x%lx\n", pHalData->pwrGroupCnt,
++		//	pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][12]));
++	}
++	if(RegAddr == rTxAGC_B_Mcs15_Mcs12)
++	{
++		pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][13] = Data;
++		//RT_TRACE(COMP_INIT, DBG_TRACE, ("MCSTxPowerLevelOriginalOffset[%d][13] = 0x%lx\n", pHalData->pwrGroupCnt,
++		//	pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][13]));
++		pHalData->pwrGroupCnt++;
++	}
++}
++/*-----------------------------------------------------------------------------
++ * Function:	phy_ConfigBBWithPgParaFile
++ *
++ * Overview:	
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/06/2008 	MHC		Create Version 0.
++ * 2009/07/29	tynli		(porting from 92SE branch)2009/03/11 Add copy parameter file to buffer for silent reset
++ *---------------------------------------------------------------------------*/
++static	int
++phy_ConfigBBWithPgParaFile(
++	IN	PADAPTER		Adapter,
++	IN	u8* 			pFileName)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	
++	int		rtStatus = _SUCCESS;
++
++
++	return rtStatus;
++	
++}	/* phy_ConfigBBWithPgParaFile */
++
++
++/*-----------------------------------------------------------------------------
++ * Function:	phy_ConfigBBWithPgHeaderFile
++ *
++ * Overview:	Config PHY_REG_PG array 
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/06/2008 	MHC		Add later!!!!!!.. Please modify for new files!!!!
++ * 11/10/2008	tynli		Modify to mew files.
++ *---------------------------------------------------------------------------*/
++static	int
++phy_ConfigBBWithPgHeaderFile(
++	IN	PADAPTER		Adapter,
++	IN	u8 			ConfigType)
++{
++	int i;
++	u32*	Rtl819XPHY_REGArray_Table_PG;
++	u16	PHY_REGArrayPGLen;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	// Default: pHalData->RF_Type = RF_2T2R.
++	PHY_REGArrayPGLen = PHY_REG_Array_PGLength;
++	Rtl819XPHY_REGArray_Table_PG = Rtl819XPHY_REG_Array_PG;
++
++#ifdef CONFIG_USB_HCI
++// 2010/10/19 Chiyoko According to Alex/Willson opinion, VAU/dongle can share the same PHY_REG_PG.txt
++/*
++	if(pHalData->BoardType == BOARD_MINICARD )
++	{
++		PHY_REGArrayPGLen = PHY_REG_Array_PG_mCardLength;
++		Rtl819XPHY_REGArray_Table_PG = Rtl819XPHY_REG_Array_PG_mCard;
++	}
++	else */if(pHalData->BoardType ==BOARD_USB_High_PA )
++	{
++		PHY_REGArrayPGLen = PHY_REG_Array_PG_HPLength;
++		Rtl819XPHY_REGArray_Table_PG = Rtl819XPHY_REG_Array_PG_HP;
++	}
++#endif
++
++	if(ConfigType == BaseBand_Config_PHY_REG)
++	{
++		for(i=0;i<PHY_REGArrayPGLen;i=i+3)
++		{
++			#if 0 //without IO, no delay is neeeded...
++			if (Rtl819XPHY_REGArray_Table_PG[i] == 0xfe){
++				#ifdef CONFIG_LONG_DELAY_ISSUE
++				rtw_msleep_os(50);
++				#else
++				rtw_mdelay_os(50);
++				#endif
++			}
++			else if (Rtl819XPHY_REGArray_Table_PG[i] == 0xfd)
++				rtw_mdelay_os(5);
++			else if (Rtl819XPHY_REGArray_Table_PG[i] == 0xfc)
++				rtw_mdelay_os(1);
++			else if (Rtl819XPHY_REGArray_Table_PG[i] == 0xfb)
++				rtw_udelay_os(50);
++			else if (Rtl819XPHY_REGArray_Table_PG[i] == 0xfa)
++				rtw_udelay_os(5);
++			else if (Rtl819XPHY_REGArray_Table_PG[i] == 0xf9)
++				rtw_udelay_os(1);
++			//PHY_SetBBReg(Adapter, Rtl819XPHY_REGArray_Table_PG[i], Rtl819XPHY_REGArray_Table_PG[i+1], Rtl819XPHY_REGArray_Table_PG[i+2]);		
++			#endif
++			
++			storePwrIndexDiffRateOffset(Adapter, Rtl819XPHY_REGArray_Table_PG[i], 
++				Rtl819XPHY_REGArray_Table_PG[i+1], 
++				Rtl819XPHY_REGArray_Table_PG[i+2]);
++			//RT_TRACE(COMP_SEND, DBG_TRACE, ("The Rtl819XPHY_REGArray_Table_PG[0] is %lx Rtl819XPHY_REGArray_Table_PG[1] is %lx \n",Rtl819XPHY_REGArray_Table_PG[i], Rtl819XPHY_REGArray_Table_PG[i+1]));
++		}
++	}
++	else
++	{
++
++		//RT_TRACE(COMP_SEND, DBG_LOUD, ("phy_ConfigBBWithPgHeaderFile(): ConfigType != BaseBand_Config_PHY_REG\n"));
++	}
++	
++	return _SUCCESS;
++	
++}	/* phy_ConfigBBWithPgHeaderFile */
++
++#if (MP_DRIVER == 1)
++
++/*-----------------------------------------------------------------------------
++ * Function:    phy_ConfigBBWithMpParaFile()
++ *
++ * Overview:    This function read BB parameters from general file format, and do register
++ *			  Read/Write 
++ *
++ * Input:      	PADAPTER		Adapter
++ *			ps1Byte 			pFileName			
++ *
++ * Output:      NONE
++ *
++ * Return:      RT_STATUS_SUCCESS: configuration file exist
++ *	2008/11/06	MH	For 92S we do not support silent reset now. Disable 
++ *					parameter file compare!!!!!!??
++ *			
++ *---------------------------------------------------------------------------*/
++static	int
++phy_ConfigBBWithMpParaFile(
++	IN	PADAPTER		Adapter,
++	IN	u8* 			pFileName
++)
++{
++#if 1
++	int		rtStatus = _SUCCESS;
++#else
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	s4Byte			nLinesRead, ithLine;
++	RT_STATUS		rtStatus = RT_STATUS_SUCCESS;
++	ps1Byte 		szLine;
++	u4Byte			u4bRegOffset, u4bRegMask, u4bRegValue;
++	u4Byte			u4bMove;
++	
++	if(ADAPTER_TEST_STATUS_FLAG(Adapter, ADAPTER_STATUS_FIRST_INIT))
++	{
++		rtStatus = PlatformReadFile(
++					Adapter, 
++					pFileName,
++					(pu1Byte)(pHalData->BufOfLines),
++					MAX_LINES_HWCONFIG_TXT,
++					MAX_BYTES_LINE_HWCONFIG_TXT,
++					&nLinesRead
++					);
++		if(rtStatus == RT_STATUS_SUCCESS)
++		{
++			PlatformMoveMemory(pHalData->BufOfLines6, pHalData->BufOfLines, nLinesRead*MAX_BYTES_LINE_HWCONFIG_TXT);
++			pHalData->nLinesRead6 = nLinesRead;
++		}
++		else
++		{
++			// Temporarily skip PHY_REG_MP.txt if file does not exist.
++			pHalData->nLinesRead6 = 0;
++			RT_TRACE(COMP_INIT, DBG_LOUD, ("No matched file \r\n"));
++			return RT_STATUS_SUCCESS;
++		}
++	}
++	else
++	{
++		PlatformMoveMemory(pHalData->BufOfLines, pHalData->BufOfLines6, MAX_LINES_HWCONFIG_TXT*MAX_BYTES_LINE_HWCONFIG_TXT);
++		nLinesRead = pHalData->nLinesRead6;
++		rtStatus = RT_STATUS_SUCCESS;
++	}
++
++
++	if(rtStatus == RT_STATUS_SUCCESS)
++	{
++		RT_TRACE(COMP_INIT, DBG_LOUD, ("phy_ConfigBBWithMpParaFile(): read %s ok\n", pFileName));
++
++		for(ithLine = 0; ithLine < nLinesRead; ithLine++)
++		{
++			szLine = pHalData->BufOfLines[ithLine];
++
++			if(!IsCommentString(szLine))
++			{
++				// Get 1st hex value as register offset.
++				if(GetHexValueFromString(szLine, &u4bRegOffset, &u4bMove))
++				{
++					if(u4bRegOffset == 0xff)
++					{ // Ending.
++						break;
++					}
++					else if (u4bRegOffset == 0xfe)
++						delay_ms(50);
++					else if (u4bRegOffset == 0xfd)
++						delay_ms(5);
++					else if (u4bRegOffset == 0xfc)
++						delay_ms(1);
++					else if (u4bRegOffset == 0xfb)
++						PlatformStallExecution(50);
++					else if (u4bRegOffset == 0xfa)
++						PlatformStallExecution(5);
++					else if (u4bRegOffset == 0xf9)
++						PlatformStallExecution(1);
++					
++					// Get 2nd hex value as register value.
++					szLine += u4bMove;
++					if(GetHexValueFromString(szLine, &u4bRegValue, &u4bMove))
++					{
++						RT_TRACE(COMP_FPGA, DBG_TRACE, ("[ADDR]%03lX=%08lX\n", u4bRegOffset, u4bRegValue));
++						PHY_SetBBReg(Adapter, u4bRegOffset, bMaskDWord, u4bRegValue);
++
++						// Add 1us delay between BB/RF register setting.
++						PlatformStallExecution(1);
++					}
++				}
++			}
++		}
++	}
++	else
++	{
++		RT_TRACE(COMP_INIT, DBG_LOUD, ("phy_ConfigBBWithMpParaFile(): Failed%s\n", pFileName));
++	}
++#endif
++
++	return rtStatus;
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	phy_ConfigBBWithMpHeaderFile
++ *
++ * Overview:	Config PHY_REG_MP array 
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 02/04/2010	chiyokolin		Modify to new files.
++ *---------------------------------------------------------------------------*/
++static int
++phy_ConfigBBWithMpHeaderFile(
++	IN	PADAPTER		Adapter,
++	IN	u1Byte 			ConfigType)
++{
++	int i;
++	u32*	Rtl8192CPHY_REGArray_Table_MP;
++	u16	PHY_REGArrayMPLen;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	PHY_REGArrayMPLen = PHY_REG_Array_MPLength;
++	Rtl8192CPHY_REGArray_Table_MP = Rtl819XPHY_REG_Array_MP;
++
++	if(ConfigType == BaseBand_Config_PHY_REG)
++	{
++		for(i=0;i<PHY_REGArrayMPLen;i=i+2)
++		{
++			if (Rtl8192CPHY_REGArray_Table_MP[i] == 0xfe) {
++				#ifdef CONFIG_LONG_DELAY_ISSUE
++				rtw_msleep_os(50);
++				#else
++				rtw_mdelay_os(50);
++				#endif
++			}
++			else if (Rtl8192CPHY_REGArray_Table_MP[i] == 0xfd)
++				rtw_mdelay_os(5);
++			else if (Rtl8192CPHY_REGArray_Table_MP[i] == 0xfc)
++				rtw_mdelay_os(1);
++			else if (Rtl8192CPHY_REGArray_Table_MP[i] == 0xfb) {
++				#ifdef CONFIG_LONG_DELAY_ISSUE
++				rtw_msleep_os(50);
++				#else
++				rtw_mdelay_os(50);
++				#endif
++			}
++			else if (Rtl8192CPHY_REGArray_Table_MP[i] == 0xfa)
++				rtw_mdelay_os(5);
++			else if (Rtl8192CPHY_REGArray_Table_MP[i] == 0xf9)
++				rtw_mdelay_os(1);
++			PHY_SetBBReg(Adapter, Rtl8192CPHY_REGArray_Table_MP[i], bMaskDWord, Rtl8192CPHY_REGArray_Table_MP[i+1]);		
++
++			// Add 1us delay between BB/RF register setting.
++			rtw_mdelay_os(1);
++
++//			RT_TRACE(COMP_INIT, DBG_TRACE, ("The Rtl8192CPHY_REGArray_Table_MP[%d] is %lx Rtl8192CPHY_REGArray_Table_MP[%d] is %lx \n", i, i+1, Rtl8192CPHY_REGArray_Table_MP[i], Rtl8192CPHY_REGArray_Table_MP[i+1]));
++		}
++	}
++	else
++	{
++//		RT_TRACE(COMP_SEND, DBG_LOUD, ("phy_ConfigBBWithMpHeaderFile(): ConfigType != BaseBand_Config_PHY_REG\n"));
++	}
++
++	return _SUCCESS;
++}	/* phy_ConfigBBWithMpHeaderFile */
++
++#endif	// #if (MP_DRIVER == 1)
++
++static VOID
++phy_BB8192C_Config_1T(
++	IN PADAPTER Adapter
++	)
++{
++#if 0
++	//for path - A
++	PHY_SetBBReg(Adapter, rFPGA0_TxInfo, 0x3, 0x1);
++	PHY_SetBBReg(Adapter, rFPGA1_TxInfo, 0x0303, 0x0101);
++	PHY_SetBBReg(Adapter, 0xe74, 0x0c000000, 0x1);
++	PHY_SetBBReg(Adapter, 0xe78, 0x0c000000, 0x1);
++	PHY_SetBBReg(Adapter, 0xe7c, 0x0c000000, 0x1);
++	PHY_SetBBReg(Adapter, 0xe80, 0x0c000000, 0x1);
++	PHY_SetBBReg(Adapter, 0xe88, 0x0c000000, 0x1);
++#endif
++	//for path - B
++	PHY_SetBBReg(Adapter, rFPGA0_TxInfo, 0x3, 0x2);
++	PHY_SetBBReg(Adapter, rFPGA1_TxInfo, 0x300033, 0x200022);
++
++	// 20100519 Joseph: Add for 1T2R config. Suggested by Kevin, Jenyu and Yunan.
++	PHY_SetBBReg(Adapter, rCCK0_AFESetting, bMaskByte3, 0x45);
++	PHY_SetBBReg(Adapter, rOFDM0_TRxPathEnable, bMaskByte0, 0x23);
++	PHY_SetBBReg(Adapter, rOFDM0_AGCParameter1, 0x30, 0x1);	// B path first AGC
++	
++	PHY_SetBBReg(Adapter, 0xe74, 0x0c000000, 0x2);
++	PHY_SetBBReg(Adapter, 0xe78, 0x0c000000, 0x2);
++	PHY_SetBBReg(Adapter, 0xe7c, 0x0c000000, 0x2);
++	PHY_SetBBReg(Adapter, 0xe80, 0x0c000000, 0x2);
++	PHY_SetBBReg(Adapter, 0xe88, 0x0c000000, 0x2);
++
++	
++}
++
++// Joseph test: new initialize order!!
++// Test only!! This part need to be re-organized.
++// Now it is just for 8256.
++static	int
++phy_BB8190_Config_HardCode(
++	IN	PADAPTER	Adapter
++	)
++{
++	//RT_ASSERT(FALSE, ("This function is not implement yet!! \n"));
++	return _SUCCESS;
++}
++
++static	int
++phy_BB8192C_Config_ParaFile(
++	IN	PADAPTER	Adapter
++	)
++{
++	EEPROM_EFUSE_PRIV	*pEEPROM = GET_EEPROM_EFUSE_PRIV(Adapter);
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	int			rtStatus = _SUCCESS;
++
++	u8				szBBRegPgFile[] = RTL819X_PHY_REG_PG;
++	
++	u8				sz88CBBRegFile[] = RTL8188C_PHY_REG;	
++	u8				sz88CAGCTableFile[] = RTL8188C_AGC_TAB;
++
++	u8				sz92CBBRegFile[] = RTL8192C_PHY_REG;	
++	u8				sz92CAGCTableFile[] = RTL8192C_AGC_TAB;
++	
++	u8				*pszBBRegFile, *pszAGCTableFile, *pszBBRegMpFile;
++	
++	//RT_TRACE(COMP_INIT, DBG_TRACE, ("==>phy_BB8192S_Config_ParaFile\n"));
++
++	if(IS_92C_SERIAL(pHalData->VersionID)){
++		pszBBRegFile=(u8*)&sz92CBBRegFile ;
++		pszAGCTableFile =(u8*)&sz92CAGCTableFile;
++	}
++	else{
++		pszBBRegFile=(u8*)&sz88CBBRegFile ;
++		pszAGCTableFile =(u8*)&sz88CAGCTableFile;
++	}
++
++	//
++	// 1. Read PHY_REG.TXT BB INIT!!
++	// We will seperate as 88C / 92C according to chip version
++	//
++#ifdef CONFIG_EMBEDDED_FWIMG
++	rtStatus = phy_ConfigBBWithHeaderFile(Adapter, BaseBand_Config_PHY_REG);	
++#else	
++	// No matter what kind of CHIP we always read PHY_REG.txt. We must copy different 
++	// type of parameter files to phy_reg.txt at first.	
++	rtStatus = phy_ConfigBBWithParaFile(Adapter,pszBBRegFile);
++#endif
++
++	if(rtStatus != _SUCCESS){
++		//RT_TRACE(COMP_INIT, DBG_SERIOUS, ("phy_BB8192S_Config_ParaFile():Write BB Reg Fail!!"));
++		goto phy_BB8190_Config_ParaFile_Fail;
++	}
++
++#if MP_DRIVER == 1
++	//
++	// 1.1 Read PHY_REG_MP.TXT BB INIT!!
++	// We will seperate as 88C / 92C according to chip version
++	//
++#ifdef CONFIG_EMBEDDED_FWIMG
++	rtStatus = phy_ConfigBBWithMpHeaderFile(Adapter, BaseBand_Config_PHY_REG);	
++#else	
++	// No matter what kind of CHIP we always read PHY_REG.txt. We must copy different 
++	// type of parameter files to phy_reg.txt at first.	
++	rtStatus = phy_ConfigBBWithMpParaFile(Adapter, pszBBRegMpFile);
++#endif
++
++	if(rtStatus != _SUCCESS){
++//		RT_TRACE(COMP_INIT, DBG_SERIOUS, ("phy_BB8192S_Config_ParaFile():Write BB Reg MP Fail!!"));
++		goto phy_BB8190_Config_ParaFile_Fail;
++	}	
++#endif	// #if (MP_DRIVER == 1)
++
++	//
++	// 20100318 Joseph: Config 2T2R to 1T2R if necessary.
++	//
++	if(pHalData->rf_type == RF_1T2R)
++	{
++		phy_BB8192C_Config_1T(Adapter);
++		DBG_8192C("phy_BB8192C_Config_ParaFile():Config to 1T!!\n");
++	}
++
++	//
++	// 2. If EEPROM or EFUSE autoload OK, We must config by PHY_REG_PG.txt
++	//
++	if (pEEPROM->bautoload_fail_flag == _FALSE)
++	{
++		pHalData->pwrGroupCnt = 0;
++
++#ifdef CONFIG_EMBEDDED_FWIMG
++		rtStatus = phy_ConfigBBWithPgHeaderFile(Adapter, BaseBand_Config_PHY_REG);
++#else
++		rtStatus = phy_ConfigBBWithPgParaFile(Adapter, (u8*)&szBBRegPgFile);
++#endif
++	}
++	
++	if(rtStatus != _SUCCESS){
++		//RT_TRACE(COMP_INIT, DBG_SERIOUS, ("phy_BB8192S_Config_ParaFile():BB_PG Reg Fail!!"));
++		goto phy_BB8190_Config_ParaFile_Fail;
++	}
++
++	//
++	// 3. BB AGC table Initialization
++	//
++#ifdef CONFIG_EMBEDDED_FWIMG
++	rtStatus = phy_ConfigBBWithHeaderFile(Adapter, BaseBand_Config_AGC_TAB);
++#else
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("phy_BB8192S_Config_ParaFile AGC_TAB.txt\n"));
++	rtStatus = phy_ConfigBBWithParaFile(Adapter, pszAGCTableFile);
++#endif
++
++	if(rtStatus != _SUCCESS){
++		//RT_TRACE(COMP_FPGA, DBG_SERIOUS, ("phy_BB8192S_Config_ParaFile():AGC Table Fail\n"));
++		goto phy_BB8190_Config_ParaFile_Fail;
++	}
++
++	// Check if the CCK HighPower is turned ON.
++	// This is used to calculate PWDB.
++	pHalData->bCckHighPower = (BOOLEAN)(PHY_QueryBBReg(Adapter, rFPGA0_XA_HSSIParameter2, 0x200));
++	
++phy_BB8190_Config_ParaFile_Fail:
++
++	return rtStatus;
++}
++
++
++int
++PHY_BBConfig8192C(
++	IN	PADAPTER	Adapter
++	)
++{
++	int	rtStatus = _SUCCESS;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u32	RegVal;
++	u8	TmpU1B=0;
++	u8	value8;
++
++	phy_InitBBRFRegisterDefinition(Adapter);
++
++	if(IS_HARDWARE_TYPE_8723A(Adapter))
++	{
++		// Suggested by Scott. tynli_test. 2010.12.30.
++		//1. 0x28[1] = 1
++		TmpU1B = rtw_read8(Adapter, REG_AFE_PLL_CTRL);
++		rtw_udelay_os(2);
++		rtw_write8(Adapter, REG_AFE_PLL_CTRL, (TmpU1B|BIT1));
++		rtw_udelay_os(2);
++		
++		//2. 0x29[7:0] = 0xFF
++		rtw_write8(Adapter, REG_AFE_PLL_CTRL+1, 0xff);
++		rtw_udelay_os(2);
++		
++		//3. 0x02[1:0] = 2b'11
++		TmpU1B = rtw_read8(Adapter, REG_SYS_FUNC_EN);
++		rtw_write8(Adapter, REG_SYS_FUNC_EN, (TmpU1B|FEN_BB_GLB_RSTn|FEN_BBRSTB));
++		
++		//undo clock gated
++		rtw_write32(Adapter, rFPGA0_XCD_RFParameter, rtw_read32(Adapter, rFPGA0_XCD_RFParameter)&(~BIT31));
++		
++		//4. 0x25[6] = 0
++		TmpU1B = rtw_read8(Adapter, REG_AFE_XTAL_CTRL+1);
++		rtw_write8(Adapter, REG_AFE_XTAL_CTRL+1, (TmpU1B&(~BIT6)));
++		
++		//5. 0x24[20] = 0 	//Advised by SD3 Alex Wang. 2011.02.09.
++		TmpU1B = rtw_read8(Adapter, REG_AFE_XTAL_CTRL+2);
++		rtw_write8(Adapter, REG_AFE_XTAL_CTRL+2, (TmpU1B&(~BIT4)));
++		
++		//6. 0x1f[7:0] = 0x07
++		rtw_write8(Adapter, REG_RF_CTRL, 0x07);
++	}
++	else
++	{
++		// Enable BB and RF
++		RegVal = rtw_read16(Adapter, REG_SYS_FUNC_EN);
++		rtw_write16(Adapter, REG_SYS_FUNC_EN, (u16)(RegVal|BIT13|BIT0|BIT1));
++
++		// 20090923 Joseph: Advised by Steven and Jenyu. Power sequence before init RF.
++		rtw_write8(Adapter, REG_AFE_PLL_CTRL, 0x83);
++		rtw_write8(Adapter, REG_AFE_PLL_CTRL+1, 0xdb);
++
++		rtw_write8(Adapter, REG_RF_CTRL, RF_EN|RF_RSTB|RF_SDMRSTB);
++
++#ifdef CONFIG_USB_HCI
++		rtw_write8(Adapter, REG_SYS_FUNC_EN, FEN_USBA | FEN_USBD | FEN_BB_GLB_RSTn | FEN_BBRSTB);
++#else
++		rtw_write8(Adapter, REG_SYS_FUNC_EN, FEN_PPLL|FEN_PCIEA|FEN_DIO_PCIE|FEN_BB_GLB_RSTn|FEN_BBRSTB);
++#endif
++		
++		//undo clock gated
++		rtw_write32(Adapter, rFPGA0_XCD_RFParameter, rtw_read32(Adapter, rFPGA0_XCD_RFParameter)&(~BIT31));
++
++		// 2009/10/21 by SD1 Jong. Modified by tynli. Not in Documented in V8.1. 
++#ifdef CONFIG_USB_HCI
++		//To Fix MAC loopback mode fail. Suggested by SD4 Johnny. 2010.03.23.
++		rtw_write8(Adapter, REG_LDOHCI12_CTRL, 0x0f);	
++		rtw_write8(Adapter, 0x15, 0xe9);
++#endif
++
++		rtw_write8(Adapter, REG_AFE_XTAL_CTRL+1, 0x80);
++
++#ifdef CONFIG_PCI_HCI
++		// Force use left antenna by default for 88C.
++	//	if(!IS_92C_SERIAL(pHalData->VersionID) || IS_92C_1T2R(pHalData->VersionID))
++		if(Adapter->ledpriv.LedStrategy != SW_LED_MODE10)
++		{
++			RegVal = rtw_read32(Adapter, REG_LEDCFG0);
++			rtw_write32(Adapter, REG_LEDCFG0, RegVal|BIT23);
++		}
++#endif
++	}
++
++	//
++	// Config BB and AGC
++	//
++	rtStatus = phy_BB8192C_Config_ParaFile(Adapter);
++#if 0	
++	switch(Adapter->MgntInfo.bRegHwParaFile)
++	{
++		case 0:
++			phy_BB8190_Config_HardCode(Adapter);
++			break;
++
++		case 1:
++			rtStatus = phy_BB8192C_Config_ParaFile(Adapter);
++			break;
++
++		case 2:
++			// Partial Modify. 
++			phy_BB8190_Config_HardCode(Adapter);
++			phy_BB8192C_Config_ParaFile(Adapter);
++			break;
++
++		default:
++			phy_BB8190_Config_HardCode(Adapter);
++			break;
++	}
++#endif	
++#ifdef CONFIG_USB_HCI
++	if(IS_HARDWARE_TYPE_8192CU(Adapter)&&IS_81xxC_VENDOR_UMC_B_CUT(pHalData->VersionID)
++		&&(pHalData->BoardType == BOARD_USB_High_PA))
++			rtw_write8(Adapter, 0xc72, 0x50);		
++#endif
++
++	return rtStatus;
++}
++
++
++int
++PHY_RFConfig8192C(
++	IN	PADAPTER	Adapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	int		rtStatus = _SUCCESS;
++
++	//
++	// RF config
++	//
++	rtStatus = PHY_RF6052_Config8192C(Adapter);
++#if 0	
++	switch(pHalData->rf_chip)
++	{
++		case RF_6052:
++			rtStatus = PHY_RF6052_Config(Adapter);
++			break;
++		case RF_8225:
++			rtStatus = PHY_RF8225_Config(Adapter);
++			break;
++		case RF_8256:			
++			rtStatus = PHY_RF8256_Config(Adapter);
++			break;
++		case RF_8258:
++			break;
++		case RF_PSEUDO_11N:
++			rtStatus = PHY_RF8225_Config(Adapter);
++			break;
++		default: //for MacOs Warning: "RF_TYPE_MIN" not handled in switch
++			break;
++	}
++#endif
++	return rtStatus;
++}
++
++
++/*-----------------------------------------------------------------------------
++ * Function:    PHY_ConfigRFWithParaFile()
++ *
++ * Overview:    This function read RF parameters from general file format, and do RF 3-wire
++ *
++ * Input:      	PADAPTER			Adapter
++ *			ps1Byte 				pFileName			
++ *			RF_RADIO_PATH_E	eRFPath
++ *
++ * Output:      NONE
++ *
++ * Return:      RT_STATUS_SUCCESS: configuration file exist
++ *			
++ * Note:		Delay may be required for RF configuration
++ *---------------------------------------------------------------------------*/
++int
++rtl8192c_PHY_ConfigRFWithParaFile(
++	IN	PADAPTER			Adapter,
++	IN	u8* 				pFileName,
++	RF_RADIO_PATH_E		eRFPath
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	
++	int	rtStatus = _SUCCESS;
++
++
++	return rtStatus;
++	
++}
++
++//****************************************
++// The following is for High Power PA
++//****************************************
++#define HighPowerRadioAArrayLen 22
++//This is for High power PA
++u32 Rtl8192S_HighPower_RadioA_Array[HighPowerRadioAArrayLen] = {
++0x013,0x00029ea4,
++0x013,0x00025e74,
++0x013,0x00020ea4,
++0x013,0x0001ced0,
++0x013,0x00019f40,
++0x013,0x00014e70,
++0x013,0x000106a0,
++0x013,0x0000c670,
++0x013,0x000082a0,
++0x013,0x00004270,
++0x013,0x00000240,
++};
++
++int
++PHY_ConfigRFExternalPA(
++	IN	PADAPTER			Adapter,
++	RF_RADIO_PATH_E		eRFPath
++)
++{
++	int	rtStatus = _SUCCESS;
++#ifdef CONFIG_USB_HCI
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u16 i=0;
++
++	if(!pHalData->ExternalPA)
++	{
++		return rtStatus;
++	}
++	
++	// 2010/10/19 MH According to Jenyu/EEChou 's opinion, we need not to execute the 
++	// same code as SU. It is already updated in radio_a_1T_HP.txt.
++#if 0	
++	//add for SU High Power PA
++	for(i = 0;i<HighPowerRadioAArrayLen; i=i+2)
++	{
++		RT_TRACE(COMP_INIT, DBG_LOUD, ("External PA, write RF 0x%lx=0x%lx\n", Rtl8192S_HighPower_RadioA_Array[i], Rtl8192S_HighPower_RadioA_Array[i+1]));
++		PHY_SetRFReg(Adapter, eRFPath, Rtl8192S_HighPower_RadioA_Array[i], bRFRegOffsetMask, Rtl8192S_HighPower_RadioA_Array[i+1]);
++	}
++#endif
++
++#endif
++	return rtStatus;
++}
++//****************************************
++/*-----------------------------------------------------------------------------
++ * Function:    PHY_ConfigRFWithHeaderFile()
++ *
++ * Overview:    This function read RF parameters from general file format, and do RF 3-wire
++ *
++ * Input:      	PADAPTER			Adapter
++ *			ps1Byte 				pFileName			
++ *			RF_RADIO_PATH_E	eRFPath
++ *
++ * Output:      NONE
++ *
++ * Return:      RT_STATUS_SUCCESS: configuration file exist
++ *			
++ * Note:		Delay may be required for RF configuration
++ *---------------------------------------------------------------------------*/
++int
++rtl8192c_PHY_ConfigRFWithHeaderFile(
++	IN	PADAPTER			Adapter,
++	RF_RADIO_PATH_E		eRFPath
++)
++{
++
++	int			i;
++	int			rtStatus = _SUCCESS;
++	u32*		Rtl819XRadioA_Array_Table;
++	u32*		Rtl819XRadioB_Array_Table;
++	u16		RadioA_ArrayLen,RadioB_ArrayLen;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	
++	//
++	// 2009.11.24. Modified by tynli.
++	//
++	if(IS_92C_SERIAL(pHalData->VersionID))
++	{
++		RadioA_ArrayLen = RadioA_2TArrayLength;
++		Rtl819XRadioA_Array_Table = Rtl819XRadioA_2TArray;
++		RadioB_ArrayLen = RadioB_2TArrayLength;
++		Rtl819XRadioB_Array_Table = Rtl819XRadioB_2TArray;
++	}
++	else
++	{
++		RadioA_ArrayLen = RadioA_1TArrayLength;
++		Rtl819XRadioA_Array_Table = Rtl819XRadioA_1TArray;
++		RadioB_ArrayLen = RadioB_1TArrayLength;	
++		Rtl819XRadioB_Array_Table = Rtl819XRadioB_1TArray;
++#ifdef CONFIG_USB_HCI
++		if( BOARD_MINICARD == pHalData->BoardType )
++		{
++			RadioA_ArrayLen = RadioA_1T_mCardArrayLength;
++			Rtl819XRadioA_Array_Table = Rtl819XRadioA_1T_mCardArray;
++			RadioB_ArrayLen = RadioB_1T_mCardArrayLength;	
++			Rtl819XRadioB_Array_Table = Rtl819XRadioB_1T_mCardArray;			
++		}
++		else if( BOARD_USB_High_PA == pHalData->BoardType )
++		{
++			RadioA_ArrayLen = RadioA_1T_HPArrayLength;
++			Rtl819XRadioA_Array_Table = Rtl819XRadioA_1T_HPArray;
++		}
++#endif
++	}
++
++	switch(eRFPath){
++		case RF_PATH_A:
++			#ifdef CONFIG_IOL_RF_RF90_PATH_A
++			if(rtw_IOL_applied(Adapter))
++			{
++				struct xmit_frame	*xmit_frame;
++				if((xmit_frame=rtw_IOL_accquire_xmit_frame(Adapter)) == NULL) {
++					rtStatus = _FAIL;
++					goto exit;
++				}
++				
++				for(i = 0;i<RadioA_ArrayLen; i=i+2)
++				{
++					if(Rtl819XRadioA_Array_Table[i] == 0xfe)
++						rtw_IOL_append_DELAY_MS_cmd(xmit_frame, 50);
++					else if (Rtl819XRadioA_Array_Table[i] == 0xfd)
++						rtw_IOL_append_DELAY_MS_cmd(xmit_frame, 5);
++					else if (Rtl819XRadioA_Array_Table[i] == 0xfc)
++						rtw_IOL_append_DELAY_MS_cmd(xmit_frame, 1);
++					else if (Rtl819XRadioA_Array_Table[i] == 0xfb)
++						rtw_IOL_append_DELAY_US_cmd(xmit_frame, 50);
++					else if (Rtl819XRadioA_Array_Table[i] == 0xfa)
++						rtw_IOL_append_DELAY_US_cmd(xmit_frame, 5);
++					else if (Rtl819XRadioA_Array_Table[i] == 0xf9)
++						rtw_IOL_append_DELAY_US_cmd(xmit_frame, 1);
++					else
++					{
++						BB_REGISTER_DEFINITION_T	*pPhyReg = &pHalData->PHYRegDef[eRFPath];
++						u32	NewOffset = 0;
++						u32	DataAndAddr = 0;
++						
++						NewOffset = Rtl819XRadioA_Array_Table[i] & 0x3f;
++						DataAndAddr = ((NewOffset<<20) | (Rtl819XRadioA_Array_Table[i+1]&0x000fffff)) & 0x0fffffff;	// T65 RF
++						rtw_IOL_append_WD_cmd(xmit_frame, pPhyReg->rf3wireOffset, DataAndAddr);
++					}
++				}	
++				rtStatus = rtw_IOL_exec_cmds_sync(Adapter, xmit_frame, 1000);
++			}
++			else
++			#endif
++			{
++				for(i = 0;i<RadioA_ArrayLen; i=i+2)
++				{
++					if(Rtl819XRadioA_Array_Table[i] == 0xfe) {
++						#ifdef CONFIG_LONG_DELAY_ISSUE
++						rtw_msleep_os(50);
++						#else
++						rtw_mdelay_os(50);
++						#endif
++					}
++					else if (Rtl819XRadioA_Array_Table[i] == 0xfd)
++						rtw_mdelay_os(5);
++					else if (Rtl819XRadioA_Array_Table[i] == 0xfc)
++						rtw_mdelay_os(1);
++					else if (Rtl819XRadioA_Array_Table[i] == 0xfb)
++						rtw_udelay_os(50);
++					else if (Rtl819XRadioA_Array_Table[i] == 0xfa)
++						rtw_udelay_os(5);
++					else if (Rtl819XRadioA_Array_Table[i] == 0xf9)
++						rtw_udelay_os(1);
++					else
++					{
++						PHY_SetRFReg(Adapter, eRFPath, Rtl819XRadioA_Array_Table[i], bRFRegOffsetMask, Rtl819XRadioA_Array_Table[i+1]);
++						// Add 1us delay between BB/RF register setting.
++						rtw_udelay_os(1);
++					}
++				}
++			}
++
++			//Add for High Power PA
++			PHY_ConfigRFExternalPA(Adapter, eRFPath);
++			break;
++		case RF_PATH_B:
++			#ifdef CONFIG_IOL_RF_RF90_PATH_B
++			if(rtw_IOL_applied(Adapter))
++			{
++				struct xmit_frame	*xmit_frame;
++				if((xmit_frame=rtw_IOL_accquire_xmit_frame(Adapter)) == NULL) {
++					rtStatus = _FAIL;
++					goto exit;
++				}
++			
++				for(i = 0;i<RadioB_ArrayLen; i=i+2)
++				{
++					if(Rtl819XRadioB_Array_Table[i] == 0xfe)
++						rtw_IOL_append_DELAY_MS_cmd(xmit_frame, 50);
++					else if (Rtl819XRadioB_Array_Table[i] == 0xfd)
++						rtw_IOL_append_DELAY_MS_cmd(xmit_frame, 5);
++					else if (Rtl819XRadioB_Array_Table[i] == 0xfc)
++						rtw_IOL_append_DELAY_MS_cmd(xmit_frame, 1);
++					else if (Rtl819XRadioB_Array_Table[i] == 0xfb)
++						rtw_IOL_append_DELAY_US_cmd(xmit_frame, 50);
++					else if (Rtl819XRadioB_Array_Table[i] == 0xfa)
++						rtw_IOL_append_DELAY_US_cmd(xmit_frame, 5);
++					else if (Rtl819XRadioB_Array_Table[i] == 0xf9)
++						rtw_IOL_append_DELAY_US_cmd(xmit_frame, 1);
++					else
++					{
++						BB_REGISTER_DEFINITION_T	*pPhyReg = &pHalData->PHYRegDef[eRFPath];
++						u32	NewOffset = 0;
++						u32	DataAndAddr = 0;
++						
++						NewOffset = Rtl819XRadioB_Array_Table[i] & 0x3f;
++						DataAndAddr = ((NewOffset<<20) | (Rtl819XRadioB_Array_Table[i+1]&0x000fffff)) & 0x0fffffff;	// T65 RF
++						rtw_IOL_append_WD_cmd(xmit_frame, pPhyReg->rf3wireOffset, DataAndAddr);
++					}
++				}	
++				rtStatus = rtw_IOL_exec_cmds_sync(Adapter, xmit_frame, 1000);
++			}
++			else
++			#endif
++			{
++				for(i = 0;i<RadioB_ArrayLen; i=i+2)
++				{
++					if(Rtl819XRadioB_Array_Table[i] == 0xfe)
++					{ // Deay specific ms. Only RF configuration require delay.												
++#if 0//#ifdef CONFIG_USB_HCI
++						#ifdef CONFIG_LONG_DELAY_ISSUE
++						rtw_msleep_os(1000);
++						#else
++						rtw_mdelay_os(1000);
++						#endif
++#else
++						#ifdef CONFIG_LONG_DELAY_ISSUE
++						rtw_msleep_os(50);
++						#else
++						rtw_mdelay_os(50);
++						#endif
++#endif
++					}
++					else if (Rtl819XRadioB_Array_Table[i] == 0xfd)
++						rtw_mdelay_os(5);
++					else if (Rtl819XRadioB_Array_Table[i] == 0xfc)
++						rtw_mdelay_os(1);
++					else if (Rtl819XRadioB_Array_Table[i] == 0xfb)
++						rtw_udelay_os(50);
++					else if (Rtl819XRadioB_Array_Table[i] == 0xfa)
++						rtw_udelay_os(5);
++					else if (Rtl819XRadioB_Array_Table[i] == 0xf9)
++						rtw_udelay_os(1);
++					else
++					{
++						PHY_SetRFReg(Adapter, eRFPath, Rtl819XRadioB_Array_Table[i], bRFRegOffsetMask, Rtl819XRadioB_Array_Table[i+1]);
++						// Add 1us delay between BB/RF register setting.
++						rtw_udelay_os(1);
++					}	
++				}
++			}
++
++			break;
++		case RF_PATH_C:
++			break;
++		case RF_PATH_D:
++			break;
++	}
++
++exit:	
++	return rtStatus;
++
++}
++
++
++/*-----------------------------------------------------------------------------
++ * Function:    PHY_CheckBBAndRFOK()
++ *
++ * Overview:    This function is write register and then readback to make sure whether
++ *			  BB[PHY0, PHY1], RF[Patha, path b, path c, path d] is Ok
++ *
++ * Input:      	PADAPTER			Adapter
++ *			HW90_BLOCK_E		CheckBlock
++ *			RF_RADIO_PATH_E	eRFPath		// it is used only when CheckBlock is HW90_BLOCK_RF
++ *
++ * Output:      NONE
++ *
++ * Return:      RT_STATUS_SUCCESS: PHY is OK
++ *			
++ * Note:		This function may be removed in the ASIC
++ *---------------------------------------------------------------------------*/
++int
++PHY_CheckBBAndRFOK(
++	IN	PADAPTER			Adapter,
++	IN	HW90_BLOCK_E		CheckBlock,
++	IN	RF_RADIO_PATH_E	eRFPath
++	)
++{
++	int			rtStatus = _SUCCESS;
++
++	u32				i, CheckTimes = 4,ulRegRead = 0;
++
++	u32				WriteAddr[4];
++	u32				WriteData[] = {0xfffff027, 0xaa55a02f, 0x00000027, 0x55aa502f};
++
++	// Initialize register address offset to be checked
++	WriteAddr[HW90_BLOCK_MAC] = 0x100;
++	WriteAddr[HW90_BLOCK_PHY0] = 0x900;
++	WriteAddr[HW90_BLOCK_PHY1] = 0x800;
++	WriteAddr[HW90_BLOCK_RF] = 0x3;
++	
++	for(i=0 ; i < CheckTimes ; i++)
++	{
++
++		//
++		// Write Data to register and readback
++		//
++		switch(CheckBlock)
++		{
++		case HW90_BLOCK_MAC:
++			//RT_ASSERT(FALSE, ("PHY_CheckBBRFOK(): Never Write 0x100 here!"));
++			//RT_TRACE(COMP_INIT, DBG_LOUD, ("PHY_CheckBBRFOK(): Never Write 0x100 here!\n"));
++			break;
++			
++		case HW90_BLOCK_PHY0:
++		case HW90_BLOCK_PHY1:
++			rtw_write32(Adapter, WriteAddr[CheckBlock], WriteData[i]);
++			ulRegRead = rtw_read32(Adapter, WriteAddr[CheckBlock]);
++			break;
++
++		case HW90_BLOCK_RF:
++			// When initialization, we want the delay function(delay_ms(), delay_us() 
++			// ==> actually we call PlatformStallExecution()) to do NdisStallExecution()
++			// [busy wait] instead of NdisMSleep(). So we acquire RT_INITIAL_SPINLOCK 
++			// to run at Dispatch level to achive it.	
++			//cosa PlatformAcquireSpinLock(Adapter, RT_INITIAL_SPINLOCK);
++			WriteData[i] &= 0xfff;
++			PHY_SetRFReg(Adapter, eRFPath, WriteAddr[HW90_BLOCK_RF], bRFRegOffsetMask, WriteData[i]);
++			// TODO: we should not delay for such a long time. Ask SD3
++			rtw_mdelay_os(10);
++			ulRegRead = PHY_QueryRFReg(Adapter, eRFPath, WriteAddr[HW90_BLOCK_RF], bMaskDWord);				
++			rtw_mdelay_os(10);
++			//cosa PlatformReleaseSpinLock(Adapter, RT_INITIAL_SPINLOCK);
++			break;
++			
++		default:
++			rtStatus = _FAIL;
++			break;
++		}
++
++
++		//
++		// Check whether readback data is correct
++		//
++		if(ulRegRead != WriteData[i])
++		{
++			//RT_TRACE(COMP_FPGA, DBG_LOUD, ("ulRegRead: %lx, WriteData: %lx \n", ulRegRead, WriteData[i]));
++			rtStatus = _FAIL;			
++			break;
++		}
++	}
++
++	return rtStatus;
++}
++
++
++VOID
++rtl8192c_PHY_GetHWRegOriginalValue(
++	IN	PADAPTER		Adapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	
++	// read rx initial gain
++	pHalData->DefaultInitialGain[0] = (u8)PHY_QueryBBReg(Adapter, rOFDM0_XAAGCCore1, bMaskByte0);
++	pHalData->DefaultInitialGain[1] = (u8)PHY_QueryBBReg(Adapter, rOFDM0_XBAGCCore1, bMaskByte0);
++	pHalData->DefaultInitialGain[2] = (u8)PHY_QueryBBReg(Adapter, rOFDM0_XCAGCCore1, bMaskByte0);
++	pHalData->DefaultInitialGain[3] = (u8)PHY_QueryBBReg(Adapter, rOFDM0_XDAGCCore1, bMaskByte0);
++	//RT_TRACE(COMP_INIT, DBG_LOUD,
++	//("Default initial gain (c50=0x%x, c58=0x%x, c60=0x%x, c68=0x%x) \n", 
++	//pHalData->DefaultInitialGain[0], pHalData->DefaultInitialGain[1], 
++	//pHalData->DefaultInitialGain[2], pHalData->DefaultInitialGain[3]));
++
++	// read framesync
++	pHalData->framesync = (u8)PHY_QueryBBReg(Adapter, rOFDM0_RxDetector3, bMaskByte0);	 
++	pHalData->framesyncC34 = PHY_QueryBBReg(Adapter, rOFDM0_RxDetector2, bMaskDWord);
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("Default framesync (0x%x) = 0x%x \n", 
++	//	rOFDM0_RxDetector3, pHalData->framesync));
++}
++
++
++//
++//	Description:
++//		Map dBm into Tx power index according to 
++//		current HW model, for example, RF and PA, and
++//		current wireless mode.
++//	By Bruce, 2008-01-29.
++//
++static	u8
++phy_DbmToTxPwrIdx(
++	IN	PADAPTER		Adapter,
++	IN	WIRELESS_MODE	WirelessMode,
++	IN	int			PowerInDbm
++	)
++{
++	u8				TxPwrIdx = 0;
++	int				Offset = 0;
++	
++
++	//
++	// Tested by MP, we found that CCK Index 0 equals to 8dbm, OFDM legacy equals to 
++	// 3dbm, and OFDM HT equals to 0dbm repectively.
++	// Note:
++	//	The mapping may be different by different NICs. Do not use this formula for what needs accurate result.  
++	// By Bruce, 2008-01-29.
++	// 
++	switch(WirelessMode)
++	{
++	case WIRELESS_MODE_B:
++		Offset = -7;
++		break;
++
++	case WIRELESS_MODE_G:
++	case WIRELESS_MODE_N_24G:
++		Offset = -8;
++		break;
++	default:
++		Offset = -8;
++		break;
++	}
++
++	if((PowerInDbm - Offset) > 0)
++	{
++		TxPwrIdx = (u8)((PowerInDbm - Offset) * 2);
++	}
++	else
++	{
++		TxPwrIdx = 0;
++	}
++
++	// Tx Power Index is too large.
++	if(TxPwrIdx > MAX_TXPWR_IDX_NMODE_92S)
++		TxPwrIdx = MAX_TXPWR_IDX_NMODE_92S;
++
++	return TxPwrIdx;
++}
++
++//
++//	Description:
++//		Map Tx power index into dBm according to 
++//		current HW model, for example, RF and PA, and
++//		current wireless mode.
++//	By Bruce, 2008-01-29.
++//
++int
++phy_TxPwrIdxToDbm(
++	IN	PADAPTER		Adapter,
++	IN	WIRELESS_MODE	WirelessMode,
++	IN	u8			TxPwrIdx
++	)
++{
++	int				Offset = 0;
++	int				PwrOutDbm = 0;
++	
++	//
++	// Tested by MP, we found that CCK Index 0 equals to -7dbm, OFDM legacy equals to -8dbm.
++	// Note:
++	//	The mapping may be different by different NICs. Do not use this formula for what needs accurate result.  
++	// By Bruce, 2008-01-29.
++	// 
++	switch(WirelessMode)
++	{
++	case WIRELESS_MODE_B:
++		Offset = -7;
++		break;
++
++	case WIRELESS_MODE_G:
++	case WIRELESS_MODE_N_24G:
++		Offset = -8;
++	default:
++		Offset = -8;	
++		break;
++	}
++
++	PwrOutDbm = TxPwrIdx / 2 + Offset; // Discard the decimal part.
++
++	return PwrOutDbm;
++}
++
++
++/*-----------------------------------------------------------------------------
++ * Function:    GetTxPowerLevel8190()
++ *
++ * Overview:    This function is export to "common" moudule
++ *
++ * Input:       PADAPTER		Adapter
++ *			psByte			Power Level
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++PHY_GetTxPowerLevel8192C(
++	IN	PADAPTER		Adapter,
++	OUT u32*    		powerlevel
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u8			TxPwrLevel = 0;
++	int			TxPwrDbm;
++	
++	//
++	// Because the Tx power indexes are different, we report the maximum of them to 
++	// meet the CCX TPC request. By Bruce, 2008-01-31.
++	//
++
++	// CCK
++	TxPwrLevel = pHalData->CurrentCckTxPwrIdx;
++	TxPwrDbm = phy_TxPwrIdxToDbm(Adapter, WIRELESS_MODE_B, TxPwrLevel);
++
++	// Legacy OFDM
++	TxPwrLevel = pHalData->CurrentOfdm24GTxPwrIdx + pHalData->LegacyHTTxPowerDiff;
++
++	// Compare with Legacy OFDM Tx power.
++	if(phy_TxPwrIdxToDbm(Adapter, WIRELESS_MODE_G, TxPwrLevel) > TxPwrDbm)
++		TxPwrDbm = phy_TxPwrIdxToDbm(Adapter, WIRELESS_MODE_G, TxPwrLevel);
++
++	// HT OFDM
++	TxPwrLevel = pHalData->CurrentOfdm24GTxPwrIdx;
++	
++	// Compare with HT OFDM Tx power.
++	if(phy_TxPwrIdxToDbm(Adapter, WIRELESS_MODE_N_24G, TxPwrLevel) > TxPwrDbm)
++		TxPwrDbm = phy_TxPwrIdxToDbm(Adapter, WIRELESS_MODE_N_24G, TxPwrLevel);
++
++	*powerlevel = TxPwrDbm;
++}
++
++
++static void getTxPowerIndex(
++	IN	PADAPTER		Adapter,
++	IN	u8			channel,
++	IN OUT u8*		cckPowerLevel,
++	IN OUT u8*		ofdmPowerLevel
++	)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	u8				index = (channel -1);
++	// 1. CCK
++	cckPowerLevel[RF_PATH_A] = pHalData->TxPwrLevelCck[RF_PATH_A][index];	//RF-A
++	cckPowerLevel[RF_PATH_B] = pHalData->TxPwrLevelCck[RF_PATH_B][index];	//RF-B
++
++	// 2. OFDM for 1S or 2S
++	if (GET_RF_TYPE(Adapter) == RF_1T2R || GET_RF_TYPE(Adapter) == RF_1T1R)
++	{
++		// Read HT 40 OFDM TX power
++		ofdmPowerLevel[RF_PATH_A] = pHalData->TxPwrLevelHT40_1S[RF_PATH_A][index];
++		ofdmPowerLevel[RF_PATH_B] = pHalData->TxPwrLevelHT40_1S[RF_PATH_B][index];
++	}
++	else if (GET_RF_TYPE(Adapter) == RF_2T2R)
++	{
++		// Read HT 40 OFDM TX power
++		ofdmPowerLevel[RF_PATH_A] = pHalData->TxPwrLevelHT40_2S[RF_PATH_A][index];
++		ofdmPowerLevel[RF_PATH_B] = pHalData->TxPwrLevelHT40_2S[RF_PATH_B][index];
++	}
++	//RTPRINT(FPHY, PHY_TXPWR, ("Channel-%d, set tx power index !!\n", channel));
++}
++
++static void ccxPowerIndexCheck(
++	IN	PADAPTER		Adapter,
++	IN	u8			channel,
++	IN OUT u8*		cckPowerLevel,
++	IN OUT u8*		ofdmPowerLevel
++	)
++{
++#if 0
++	PMGNT_INFO			pMgntInfo = &(Adapter->MgntInfo);
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	PRT_CCX_INFO		pCcxInfo = GET_CCX_INFO(pMgntInfo);
++
++	//
++	// CCX 2 S31, AP control of client transmit power:
++	// 1. We shall not exceed Cell Power Limit as possible as we can.
++	// 2. Tolerance is +/- 5dB.
++	// 3. 802.11h Power Contraint takes higher precedence over CCX Cell Power Limit.
++	// 
++	// TODO: 
++	// 1. 802.11h power contraint 
++	//
++	// 071011, by rcnjko.
++	//
++	if(	pMgntInfo->OpMode == RT_OP_MODE_INFRASTRUCTURE && 
++		pMgntInfo->mAssoc &&
++		pCcxInfo->bUpdateCcxPwr &&
++		pCcxInfo->bWithCcxCellPwr &&
++		channel == pMgntInfo->dot11CurrentChannelNumber)
++	{
++		u1Byte	CckCellPwrIdx = phy_DbmToTxPwrIdx(Adapter, WIRELESS_MODE_B, pCcxInfo->CcxCellPwr);
++		u1Byte	LegacyOfdmCellPwrIdx = phy_DbmToTxPwrIdx(Adapter, WIRELESS_MODE_G, pCcxInfo->CcxCellPwr);
++		u1Byte	OfdmCellPwrIdx = phy_DbmToTxPwrIdx(Adapter, WIRELESS_MODE_N_24G, pCcxInfo->CcxCellPwr);
++
++		RT_TRACE(COMP_TXAGC, DBG_LOUD, 
++		("CCX Cell Limit: %d dbm => CCK Tx power index : %d, Legacy OFDM Tx power index : %d, OFDM Tx power index: %d\n", 
++		pCcxInfo->CcxCellPwr, CckCellPwrIdx, LegacyOfdmCellPwrIdx, OfdmCellPwrIdx));
++		RT_TRACE(COMP_TXAGC, DBG_LOUD, 
++		("EEPROM channel(%d) => CCK Tx power index: %d, Legacy OFDM Tx power index : %d, OFDM Tx power index: %d\n",
++		channel, cckPowerLevel[0], ofdmPowerLevel[0] + pHalData->LegacyHTTxPowerDiff, ofdmPowerLevel[0])); 
++
++		// CCK
++		if(cckPowerLevel[0] > CckCellPwrIdx)
++			cckPowerLevel[0] = CckCellPwrIdx;
++		// Legacy OFDM, HT OFDM
++		if(ofdmPowerLevel[0] + pHalData->LegacyHTTxPowerDiff > LegacyOfdmCellPwrIdx)
++		{
++			if((OfdmCellPwrIdx - pHalData->LegacyHTTxPowerDiff) > 0)
++			{
++				ofdmPowerLevel[0] = OfdmCellPwrIdx - pHalData->LegacyHTTxPowerDiff;
++			}
++			else
++			{
++				ofdmPowerLevel[0] = 0;
++			}
++		}
++
++		RT_TRACE(COMP_TXAGC, DBG_LOUD, 
++		("Altered CCK Tx power index : %d, Legacy OFDM Tx power index: %d, OFDM Tx power index: %d\n", 
++		cckPowerLevel[0], ofdmPowerLevel[0] + pHalData->LegacyHTTxPowerDiff, ofdmPowerLevel[0]));
++	}
++
++	pHalData->CurrentCckTxPwrIdx = cckPowerLevel[0];
++	pHalData->CurrentOfdm24GTxPwrIdx = ofdmPowerLevel[0];
++
++	RT_TRACE(COMP_TXAGC, DBG_LOUD, 
++		("PHY_SetTxPowerLevel8192S(): CCK Tx power index : %d, Legacy OFDM Tx power index: %d, OFDM Tx power index: %d\n", 
++		cckPowerLevel[0], ofdmPowerLevel[0] + pHalData->LegacyHTTxPowerDiff, ofdmPowerLevel[0]));
++#endif	
++}
++/*-----------------------------------------------------------------------------
++ * Function:    SetTxPowerLevel8190()
++ *
++ * Overview:    This function is export to "HalCommon" moudule
++ *			We must consider RF path later!!!!!!!
++ *
++ * Input:       PADAPTER		Adapter
++ *			u1Byte		channel
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *	2008/11/04	MHC		We remove EEPROM_93C56.
++ *						We need to move CCX relative code to independet file.
++ *	2009/01/21	MHC		Support new EEPROM format from SD3 requirement.
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++PHY_SetTxPowerLevel8192C(
++	IN	PADAPTER		Adapter,
++	IN	u8			channel
++	)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	u8	cckPowerLevel[2], ofdmPowerLevel[2];	// [0]:RF-A, [1]:RF-B
++
++#if(MP_DRIVER == 1)
++	return;
++#endif
++
++	if(pHalData->bTXPowerDataReadFromEEPORM == _FALSE)
++		return;
++
++	getTxPowerIndex(Adapter, channel, &cckPowerLevel[0], &ofdmPowerLevel[0]);
++	//RTPRINT(FPHY, PHY_TXPWR, ("Channel-%d, cckPowerLevel (A / B) = 0x%x / 0x%x,   ofdmPowerLevel (A / B) = 0x%x / 0x%x\n", 
++	//	channel, cckPowerLevel[0], cckPowerLevel[1], ofdmPowerLevel[0], ofdmPowerLevel[1]));
++
++	ccxPowerIndexCheck(Adapter, channel, &cckPowerLevel[0], &ofdmPowerLevel[0]);
++
++	rtl8192c_PHY_RF6052SetCckTxPower(Adapter, &cckPowerLevel[0]);
++	rtl8192c_PHY_RF6052SetOFDMTxPower(Adapter, &ofdmPowerLevel[0], channel);
++
++#if 0
++	switch(pHalData->rf_chip)
++	{
++		case RF_8225:
++			PHY_SetRF8225CckTxPower(Adapter, cckPowerLevel[0]);
++			PHY_SetRF8225OfdmTxPower(Adapter, ofdmPowerLevel[0]);
++		break;
++
++		case RF_8256:
++			PHY_SetRF8256CCKTxPower(Adapter, cckPowerLevel[0]);
++			PHY_SetRF8256OFDMTxPower(Adapter, ofdmPowerLevel[0]);
++			break;
++
++		case RF_6052:
++			PHY_RF6052SetCckTxPower(Adapter, &cckPowerLevel[0]);
++			PHY_RF6052SetOFDMTxPower(Adapter, &ofdmPowerLevel[0], channel);
++			break;
++
++		case RF_8258:
++			break;
++	}
++#endif
++
++}
++
++
++//
++//	Description:
++//		Update transmit power level of all channel supported.
++//
++//	TODO: 
++//		A mode.
++//	By Bruce, 2008-02-04.
++//
++BOOLEAN
++PHY_UpdateTxPowerDbm8192C(
++	IN	PADAPTER	Adapter,
++	IN	int		powerInDbm
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u8				idx;
++	u8			rf_path;
++
++	// TODO: A mode Tx power.
++	u8	CckTxPwrIdx = phy_DbmToTxPwrIdx(Adapter, WIRELESS_MODE_B, powerInDbm);
++	u8	OfdmTxPwrIdx = phy_DbmToTxPwrIdx(Adapter, WIRELESS_MODE_N_24G, powerInDbm);
++
++	if(OfdmTxPwrIdx - pHalData->LegacyHTTxPowerDiff > 0)
++		OfdmTxPwrIdx -= pHalData->LegacyHTTxPowerDiff;
++	else
++		OfdmTxPwrIdx = 0;
++
++	//RT_TRACE(COMP_TXAGC, DBG_LOUD, ("PHY_UpdateTxPowerDbm8192S(): %ld dBm , CckTxPwrIdx = %d, OfdmTxPwrIdx = %d\n", powerInDbm, CckTxPwrIdx, OfdmTxPwrIdx));
++
++	for(idx = 0; idx < 14; idx++)
++	{
++		for (rf_path = 0; rf_path < 2; rf_path++)
++		{
++			pHalData->TxPwrLevelCck[rf_path][idx] = CckTxPwrIdx;
++			pHalData->TxPwrLevelHT40_1S[rf_path][idx] = 
++			pHalData->TxPwrLevelHT40_2S[rf_path][idx] = OfdmTxPwrIdx;
++		}
++	}
++
++	//Adapter->HalFunc.SetTxPowerLevelHandler(Adapter, pHalData->CurrentChannel);//gtest:todo
++
++	return _TRUE;	
++}
++
++
++/*
++	Description:
++		When beacon interval is changed, the values of the 
++		hw registers should be modified.
++	By tynli, 2008.10.24.
++
++*/
++
++
++void	
++rtl8192c_PHY_SetBeaconHwReg(	
++	IN	PADAPTER		Adapter,
++	IN	u16			BeaconInterval	
++	)
++{
++
++}
++
++
++VOID 
++PHY_ScanOperationBackup8192C(
++	IN	PADAPTER	Adapter,
++	IN	u8		Operation
++	)
++{
++#if 0
++	IO_TYPE	IoType;
++	
++	if(!Adapter->bDriverStopped)
++	{
++		switch(Operation)
++		{
++			case SCAN_OPT_BACKUP:
++				IoType = IO_CMD_PAUSE_DM_BY_SCAN;
++				rtw_hal_set_hwreg(Adapter,HW_VAR_IO_CMD,  (pu1Byte)&IoType);
++
++				break;
++
++			case SCAN_OPT_RESTORE:
++				IoType = IO_CMD_RESUME_DM_BY_SCAN;
++				rtw_hal_set_hwreg(Adapter,HW_VAR_IO_CMD,  (pu1Byte)&IoType);
++				break;
++
++			default:
++				RT_TRACE(COMP_SCAN, DBG_LOUD, ("Unknown Scan Backup Operation. \n"));
++				break;
++		}
++	}
++#endif	
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:    PHY_SetBWModeCallback8192C()
++ *
++ * Overview:    Timer callback function for SetSetBWMode
++ *
++ * Input:       	PRT_TIMER		pTimer
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Note:		(1) We do not take j mode into consideration now
++ *			(2) Will two workitem of "switch channel" and "switch channel bandwidth" run
++ *			     concurrently?
++ *---------------------------------------------------------------------------*/
++static VOID
++_PHY_SetBWMode92C(
++	IN	PADAPTER	Adapter
++)
++{
++//	PADAPTER			Adapter = (PADAPTER)pTimer->Adapter;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	u8				regBwOpMode;
++	u8				regRRSR_RSC;
++
++	//return;
++
++	// Added it for 20/40 mhz switch time evaluation by guangan 070531
++	//u4Byte				NowL, NowH;
++	//u8Byte				BeginTime, EndTime; 
++
++	/*RT_TRACE(COMP_SCAN, DBG_LOUD, ("==>PHY_SetBWModeCallback8192C()  Switch to %s bandwidth\n", \
++					pHalData->CurrentChannelBW == HT_CHANNEL_WIDTH_20?"20MHz":"40MHz"))*/
++
++	if(pHalData->rf_chip == RF_PSEUDO_11N)
++	{
++		//pHalData->SetBWModeInProgress= _FALSE;
++		return;
++	}
++
++	// There is no 40MHz mode in RF_8225.
++	if(pHalData->rf_chip==RF_8225)
++		return;
++
++	if(Adapter->bDriverStopped)
++		return;
++
++	// Added it for 20/40 mhz switch time evaluation by guangan 070531
++	//NowL = PlatformEFIORead4Byte(Adapter, TSFR);
++	//NowH = PlatformEFIORead4Byte(Adapter, TSFR+4);
++	//BeginTime = ((u8Byte)NowH << 32) + NowL;
++		
++	//3//
++	//3//<1>Set MAC register
++	//3//
++	//Adapter->HalFunc.SetBWModeHandler();
++	
++	regBwOpMode = rtw_read8(Adapter, REG_BWOPMODE);
++	regRRSR_RSC = rtw_read8(Adapter, REG_RRSR+2);
++	//regBwOpMode = rtw_hal_get_hwreg(Adapter,HW_VAR_BWMODE,(pu1Byte)&regBwOpMode);
++	
++	switch(pHalData->CurrentChannelBW)
++	{
++		case HT_CHANNEL_WIDTH_20:
++			regBwOpMode |= BW_OPMODE_20MHZ;
++			   // 2007/02/07 Mark by Emily becasue we have not verify whether this register works
++			rtw_write8(Adapter, REG_BWOPMODE, regBwOpMode);
++			break;
++			   
++		case HT_CHANNEL_WIDTH_40:
++			regBwOpMode &= ~BW_OPMODE_20MHZ;
++				// 2007/02/07 Mark by Emily becasue we have not verify whether this register works
++			rtw_write8(Adapter, REG_BWOPMODE, regBwOpMode);
++
++			regRRSR_RSC = (regRRSR_RSC&0x90) |(pHalData->nCur40MhzPrimeSC<<5);
++			rtw_write8(Adapter, REG_RRSR+2, regRRSR_RSC);
++			break;
++
++		default:
++			/*RT_TRACE(COMP_DBG, DBG_LOUD, ("PHY_SetBWModeCallback8192C():
++						unknown Bandwidth: %#X\n",pHalData->CurrentChannelBW));*/
++			break;
++	}
++	
++	//3//
++	//3//<2>Set PHY related register
++	//3//
++	switch(pHalData->CurrentChannelBW)
++	{
++		/* 20 MHz channel*/
++		case HT_CHANNEL_WIDTH_20:
++			PHY_SetBBReg(Adapter, rFPGA0_RFMOD, bRFMOD, 0x0);
++			PHY_SetBBReg(Adapter, rFPGA1_RFMOD, bRFMOD, 0x0);
++			PHY_SetBBReg(Adapter, rFPGA0_AnalogParameter2, BIT10, 1);
++			
++			break;
++
++
++		/* 40 MHz channel*/
++		case HT_CHANNEL_WIDTH_40:
++			PHY_SetBBReg(Adapter, rFPGA0_RFMOD, bRFMOD, 0x1);
++			PHY_SetBBReg(Adapter, rFPGA1_RFMOD, bRFMOD, 0x1);
++			
++			// Set Control channel to upper or lower. These settings are required only for 40MHz
++			PHY_SetBBReg(Adapter, rCCK0_System, bCCKSideBand, (pHalData->nCur40MhzPrimeSC>>1));
++			PHY_SetBBReg(Adapter, rOFDM1_LSTF, 0xC00, pHalData->nCur40MhzPrimeSC);
++			PHY_SetBBReg(Adapter, rFPGA0_AnalogParameter2, BIT10, 0);
++
++			PHY_SetBBReg(Adapter, 0x818, (BIT26|BIT27), (pHalData->nCur40MhzPrimeSC==HAL_PRIME_CHNL_OFFSET_LOWER)?2:1);
++			
++			break;
++
++
++			
++		default:
++			/*RT_TRACE(COMP_DBG, DBG_LOUD, ("PHY_SetBWModeCallback8192C(): unknown Bandwidth: %#X\n"\
++						,pHalData->CurrentChannelBW));*/
++			break;
++			
++	}
++	//Skip over setting of J-mode in BB register here. Default value is "None J mode". Emily 20070315
++
++	// Added it for 20/40 mhz switch time evaluation by guangan 070531
++	//NowL = PlatformEFIORead4Byte(Adapter, TSFR);
++	//NowH = PlatformEFIORead4Byte(Adapter, TSFR+4);
++	//EndTime = ((u8Byte)NowH << 32) + NowL;
++	//RT_TRACE(COMP_SCAN, DBG_LOUD, ("SetBWModeCallback8190Pci: time of SetBWMode = %I64d us!\n", (EndTime - BeginTime)));
++
++	//3<3>Set RF related register
++	switch(pHalData->rf_chip)
++	{
++		case RF_8225:		
++			//PHY_SetRF8225Bandwidth(Adapter, pHalData->CurrentChannelBW);
++			break;	
++			
++		case RF_8256:
++			// Please implement this function in Hal8190PciPhy8256.c
++			//PHY_SetRF8256Bandwidth(Adapter, pHalData->CurrentChannelBW);
++			break;
++			
++		case RF_8258:
++			// Please implement this function in Hal8190PciPhy8258.c
++			// PHY_SetRF8258Bandwidth();
++			break;
++
++		case RF_PSEUDO_11N:
++			// Do Nothing
++			break;
++			
++		case RF_6052:
++			rtl8192c_PHY_RF6052SetBandwidth(Adapter, pHalData->CurrentChannelBW);
++			break;	
++			
++		default:
++			//RT_ASSERT(FALSE, ("Unknown RFChipID: %d\n", pHalData->RFChipID));
++			break;
++	}
++
++	//pHalData->SetBWModeInProgress= FALSE;
++
++	//RT_TRACE(COMP_SCAN, DBG_LOUD, ("<==PHY_SetBWModeCallback8192C() \n" ));
++}
++
++
++ /*-----------------------------------------------------------------------------
++ * Function:   SetBWMode8190Pci()
++ *
++ * Overview:  This function is export to "HalCommon" moudule
++ *
++ * Input:       	PADAPTER			Adapter
++ *			HT_CHANNEL_WIDTH	Bandwidth	//20M or 40M
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Note:		We do not take j mode into consideration now
++ *---------------------------------------------------------------------------*/
++VOID
++PHY_SetBWMode8192C(
++	IN	PADAPTER					Adapter,
++	IN	HT_CHANNEL_WIDTH	Bandwidth,	// 20M or 40M
++	IN	unsigned char	Offset		// Upper, Lower, or Don't care
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	HT_CHANNEL_WIDTH 	tmpBW= pHalData->CurrentChannelBW;
++	// Modified it for 20/40 mhz switch by guangan 070531
++	//PMGNT_INFO	pMgntInfo=&Adapter->MgntInfo;
++
++	//return;
++	
++	//if(pHalData->SwChnlInProgress)
++//	if(pMgntInfo->bScanInProgress)
++//	{
++//		RT_TRACE(COMP_SCAN, DBG_LOUD, ("PHY_SetBWMode8192C() %s Exit because bScanInProgress!\n", 
++//					Bandwidth == HT_CHANNEL_WIDTH_20?"20MHz":"40MHz"));
++//		return;
++//	}
++
++//	if(pHalData->SetBWModeInProgress)
++//	{
++//		// Modified it for 20/40 mhz switch by guangan 070531
++//		RT_TRACE(COMP_SCAN, DBG_LOUD, ("PHY_SetBWMode8192C() %s cancel last timer because SetBWModeInProgress!\n", 
++//					Bandwidth == HT_CHANNEL_WIDTH_20?"20MHz":"40MHz"));
++//		PlatformCancelTimer(Adapter, &pHalData->SetBWModeTimer);
++//		//return;
++//	}
++
++	//if(pHalData->SetBWModeInProgress)
++	//	return;
++
++	//pHalData->SetBWModeInProgress= TRUE;
++	
++	pHalData->CurrentChannelBW = Bandwidth;
++
++#if 0
++	if(Offset==HT_EXTCHNL_OFFSET_LOWER)
++		pHalData->nCur40MhzPrimeSC = HAL_PRIME_CHNL_OFFSET_UPPER;
++	else if(Offset==HT_EXTCHNL_OFFSET_UPPER)
++		pHalData->nCur40MhzPrimeSC = HAL_PRIME_CHNL_OFFSET_LOWER;
++	else
++		pHalData->nCur40MhzPrimeSC = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++#else
++	pHalData->nCur40MhzPrimeSC = Offset;
++#endif
++
++	if((!Adapter->bDriverStopped) && (!Adapter->bSurpriseRemoved))
++	{
++#ifdef USE_WORKITEM	
++		//PlatformScheduleWorkItem(&(pHalData->SetBWModeWorkItem));
++#else
++	#if 0
++		//PlatformSetTimer(Adapter, &(pHalData->SetBWModeTimer), 0);
++	#else
++		_PHY_SetBWMode92C(Adapter);
++	#endif
++#endif		
++	}
++	else
++	{
++		//RT_TRACE(COMP_SCAN, DBG_LOUD, ("PHY_SetBWMode8192C() SetBWModeInProgress FALSE driver sleep or unload\n"));	
++		//pHalData->SetBWModeInProgress= FALSE;	
++		pHalData->CurrentChannelBW = tmpBW;
++	}
++	
++}
++
++
++static void _PHY_SwChnl8192C(PADAPTER Adapter, u8 channel)
++{
++	u8 eRFPath;
++	u32 param1, param2;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	if ( Adapter->bNotifyChannelChange )
++	{
++		DBG_871X( "[%s] ch = %d\n", __FUNCTION__, channel );
++	}
++
++	//s1. pre common command - CmdID_SetTxPowerLevel
++	PHY_SetTxPowerLevel8192C(Adapter, channel);
++
++	//s2. RF dependent command - CmdID_RF_WriteReg, param1=RF_CHNLBW, param2=channel
++	param1 = RF_CHNLBW;
++	param2 = channel;
++	for(eRFPath = 0; eRFPath <pHalData->NumTotalRFPath; eRFPath++)
++	{
++		pHalData->RfRegChnlVal[eRFPath] = ((pHalData->RfRegChnlVal[eRFPath] & 0xfffffc00) | param2);
++		PHY_SetRFReg(Adapter, (RF_RADIO_PATH_E)eRFPath, param1, bRFRegOffsetMask, pHalData->RfRegChnlVal[eRFPath]);
++	}
++	
++	
++	//s3. post common command - CmdID_End, None
++
++}
++
++VOID
++PHY_SwChnl8192C(	// Call after initialization
++	IN	PADAPTER	Adapter,
++	IN	u8		channel
++	)
++{
++	//PADAPTER Adapter =  ADJUST_TO_ADAPTIVE_ADAPTER(pAdapter, _TRUE);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u8	tmpchannel = pHalData->CurrentChannel;
++	BOOLEAN  bResult = _TRUE;
++
++	if(pHalData->rf_chip == RF_PSEUDO_11N)
++	{
++		//pHalData->SwChnlInProgress=FALSE;
++		return; 								//return immediately if it is peudo-phy	
++	}
++	
++	//if(pHalData->SwChnlInProgress)
++	//	return;
++
++	//if(pHalData->SetBWModeInProgress)
++	//	return;
++
++	//--------------------------------------------
++	switch(pHalData->CurrentWirelessMode)
++	{
++		case WIRELESS_MODE_A:
++		case WIRELESS_MODE_N_5G:
++			//RT_ASSERT((channel>14), ("WIRELESS_MODE_A but channel<=14"));		
++			break;
++		
++		case WIRELESS_MODE_B:
++			//RT_ASSERT((channel<=14), ("WIRELESS_MODE_B but channel>14"));
++			break;
++		
++		case WIRELESS_MODE_G:
++		case WIRELESS_MODE_N_24G:
++			//RT_ASSERT((channel<=14), ("WIRELESS_MODE_G but channel>14"));
++			break;
++
++		default:
++			//RT_ASSERT(FALSE, ("Invalid WirelessMode(%#x)!!\n", pHalData->CurrentWirelessMode));
++			break;
++	}
++	//--------------------------------------------
++	
++	//pHalData->SwChnlInProgress = TRUE;
++	if(channel == 0)
++		channel = 1;
++	
++	pHalData->CurrentChannel=channel;
++
++	//pHalData->SwChnlStage=0;
++	//pHalData->SwChnlStep=0;
++
++	if((!Adapter->bDriverStopped) && (!Adapter->bSurpriseRemoved))
++	{
++#ifdef USE_WORKITEM	
++		//bResult = PlatformScheduleWorkItem(&(pHalData->SwChnlWorkItem));
++#else
++		#if 0		
++		//PlatformSetTimer(Adapter, &(pHalData->SwChnlTimer), 0);
++		#else
++		_PHY_SwChnl8192C(Adapter, channel);
++		#endif
++#endif
++		if(bResult)
++		{
++			//RT_TRACE(COMP_SCAN, DBG_LOUD, ("PHY_SwChnl8192C SwChnlInProgress TRUE schdule workitem done\n"));
++		}
++		else
++		{
++			//RT_TRACE(COMP_SCAN, DBG_LOUD, ("PHY_SwChnl8192C SwChnlInProgress FALSE schdule workitem error\n"));		
++			//if(IS_HARDWARE_TYPE_8192SU(Adapter))
++			//{
++			//	pHalData->SwChnlInProgress = FALSE; 	
++				pHalData->CurrentChannel = tmpchannel;			
++			//}
++		}
++
++	}
++	else
++	{
++		//RT_TRACE(COMP_SCAN, DBG_LOUD, ("PHY_SwChnl8192C SwChnlInProgress FALSE driver sleep or unload\n"));	
++		//if(IS_HARDWARE_TYPE_8192SU(Adapter))
++		//{
++		//	pHalData->SwChnlInProgress = FALSE;		
++			pHalData->CurrentChannel = tmpchannel;
++		//}
++	}
++}
++
++
++static	BOOLEAN
++phy_SwChnlStepByStep(
++	IN	PADAPTER	Adapter,
++	IN	u8		channel,
++	IN	u8		*stage,
++	IN	u8		*step,
++	OUT u32		*delay
++	)
++{
++#if 0
++	HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(Adapter);
++	PCHANNEL_ACCESS_SETTING	pChnlAccessSetting;
++	SwChnlCmd				PreCommonCmd[MAX_PRECMD_CNT];
++	u4Byte					PreCommonCmdCnt;
++	SwChnlCmd				PostCommonCmd[MAX_POSTCMD_CNT];
++	u4Byte					PostCommonCmdCnt;
++	SwChnlCmd				RfDependCmd[MAX_RFDEPENDCMD_CNT];
++	u4Byte					RfDependCmdCnt;
++	SwChnlCmd				*CurrentCmd;	
++	u1Byte					eRFPath;	
++	u4Byte					RfTXPowerCtrl;
++	BOOLEAN					bAdjRfTXPowerCtrl = _FALSE;
++	
++	
++	RT_ASSERT((Adapter != NULL), ("Adapter should not be NULL\n"));
++#if(MP_DRIVER != 1)
++	RT_ASSERT(IsLegalChannel(Adapter, channel), ("illegal channel: %d\n", channel));
++#endif
++	RT_ASSERT((pHalData != NULL), ("pHalData should not be NULL\n"));
++	
++	pChnlAccessSetting = &Adapter->MgntInfo.Info8185.ChannelAccessSetting;
++	RT_ASSERT((pChnlAccessSetting != NULL), ("pChnlAccessSetting should not be NULL\n"));
++	
++	//for(eRFPath = RF_PATH_A; eRFPath <pHalData->NumTotalRFPath; eRFPath++)
++	//for(eRFPath = 0; eRFPath <pHalData->NumTotalRFPath; eRFPath++)
++	//{
++		// <1> Fill up pre common command.
++	PreCommonCmdCnt = 0;
++	phy_SetSwChnlCmdArray(PreCommonCmd, PreCommonCmdCnt++, MAX_PRECMD_CNT, 
++				CmdID_SetTxPowerLevel, 0, 0, 0);
++	phy_SetSwChnlCmdArray(PreCommonCmd, PreCommonCmdCnt++, MAX_PRECMD_CNT, 
++				CmdID_End, 0, 0, 0);
++	
++		// <2> Fill up post common command.
++	PostCommonCmdCnt = 0;
++
++	phy_SetSwChnlCmdArray(PostCommonCmd, PostCommonCmdCnt++, MAX_POSTCMD_CNT, 
++				CmdID_End, 0, 0, 0);
++	
++		// <3> Fill up RF dependent command.
++	RfDependCmdCnt = 0;
++	switch( pHalData->RFChipID )
++	{
++		case RF_8225:		
++		RT_ASSERT((channel >= 1 && channel <= 14), ("illegal channel for Zebra: %d\n", channel));
++		// 2008/09/04 MH Change channel. 
++		if(channel==14) channel++;
++		phy_SetSwChnlCmdArray(RfDependCmd, RfDependCmdCnt++, MAX_RFDEPENDCMD_CNT, 
++			CmdID_RF_WriteReg, rZebra1_Channel, (0x10+channel-1), 10);
++		phy_SetSwChnlCmdArray(RfDependCmd, RfDependCmdCnt++, MAX_RFDEPENDCMD_CNT, 
++		CmdID_End, 0, 0, 0);
++		break;	
++		
++	case RF_8256:
++		// TEST!! This is not the table for 8256!!
++		RT_ASSERT((channel >= 1 && channel <= 14), ("illegal channel for Zebra: %d\n", channel));
++		phy_SetSwChnlCmdArray(RfDependCmd, RfDependCmdCnt++, MAX_RFDEPENDCMD_CNT, 
++			CmdID_RF_WriteReg, rRfChannel, channel, 10);
++		phy_SetSwChnlCmdArray(RfDependCmd, RfDependCmdCnt++, MAX_RFDEPENDCMD_CNT, 
++		CmdID_End, 0, 0, 0);
++		break;
++		
++	case RF_6052:
++		RT_ASSERT((channel >= 1 && channel <= 14), ("illegal channel for Zebra: %d\n", channel));
++		phy_SetSwChnlCmdArray(RfDependCmd, RfDependCmdCnt++, MAX_RFDEPENDCMD_CNT, 
++			CmdID_RF_WriteReg, RF_CHNLBW, channel, 10);		
++		phy_SetSwChnlCmdArray(RfDependCmd, RfDependCmdCnt++, MAX_RFDEPENDCMD_CNT, 
++		CmdID_End, 0, 0, 0);		
++		
++		break;
++
++	case RF_8258:
++		break;
++
++	// For FPGA two MAC verification
++	case RF_PSEUDO_11N:
++		return TRUE;
++	default:
++		RT_ASSERT(FALSE, ("Unknown RFChipID: %d\n", pHalData->RFChipID));
++		return FALSE;
++		break;
++	}
++
++	
++	do{
++		switch(*stage)
++		{
++		case 0:
++			CurrentCmd=&PreCommonCmd[*step];
++			break;
++		case 1:
++			CurrentCmd=&RfDependCmd[*step];
++			break;
++		case 2:
++			CurrentCmd=&PostCommonCmd[*step];
++			break;
++		}
++		
++		if(CurrentCmd->CmdID==CmdID_End)
++		{
++			if((*stage)==2)
++			{
++				return TRUE;
++			}
++			else
++			{
++				(*stage)++;
++				(*step)=0;
++				continue;
++			}
++		}
++		
++		switch(CurrentCmd->CmdID)
++		{
++		case CmdID_SetTxPowerLevel:
++			PHY_SetTxPowerLevel8192C(Adapter,channel);
++			break;
++		case CmdID_WritePortUlong:
++			PlatformEFIOWrite4Byte(Adapter, CurrentCmd->Para1, CurrentCmd->Para2);
++			break;
++		case CmdID_WritePortUshort:
++			PlatformEFIOWrite2Byte(Adapter, CurrentCmd->Para1, (u2Byte)CurrentCmd->Para2);
++			break;
++		case CmdID_WritePortUchar:
++			PlatformEFIOWrite1Byte(Adapter, CurrentCmd->Para1, (u1Byte)CurrentCmd->Para2);
++			break;
++		case CmdID_RF_WriteReg:	// Only modify channel for the register now !!!!!
++			for(eRFPath = 0; eRFPath <pHalData->NumTotalRFPath; eRFPath++)
++			{
++#if 1
++				pHalData->RfRegChnlVal[eRFPath] = ((pHalData->RfRegChnlVal[eRFPath] & 0xfffffc00) | CurrentCmd->Para2);
++				PHY_SetRFReg(Adapter, (RF_RADIO_PATH_E)eRFPath, CurrentCmd->Para1, bRFRegOffsetMask, pHalData->RfRegChnlVal[eRFPath]);
++#else
++				PHY_SetRFReg(Adapter, (RF_RADIO_PATH_E)eRFPath, CurrentCmd->Para1, bRFRegOffsetMask, (CurrentCmd->Para2));
++#endif
++			}
++			break;
++		}
++		
++		break;
++	}while(TRUE);
++	//cosa }/*for(Number of RF paths)*/
++
++	(*delay)=CurrentCmd->msDelay;
++	(*step)++;
++	return FALSE;
++#endif	
++	return _TRUE;
++}
++
++
++static	BOOLEAN
++phy_SetSwChnlCmdArray(
++	SwChnlCmd*		CmdTable,
++	u32			CmdTableIdx,
++	u32			CmdTableSz,
++	SwChnlCmdID		CmdID,
++	u32			Para1,
++	u32			Para2,
++	u32			msDelay
++	)
++{
++	SwChnlCmd* pCmd;
++
++	if(CmdTable == NULL)
++	{
++		//RT_ASSERT(FALSE, ("phy_SetSwChnlCmdArray(): CmdTable cannot be NULL.\n"));
++		return _FALSE;
++	}
++	if(CmdTableIdx >= CmdTableSz)
++	{
++		//RT_ASSERT(FALSE, 
++		//		("phy_SetSwChnlCmdArray(): Access invalid index, please check size of the table, CmdTableIdx:%ld, CmdTableSz:%ld\n",
++		//		CmdTableIdx, CmdTableSz));
++		return _FALSE;
++	}
++
++	pCmd = CmdTable + CmdTableIdx;
++	pCmd->CmdID = CmdID;
++	pCmd->Para1 = Para1;
++	pCmd->Para2 = Para2;
++	pCmd->msDelay = msDelay;
++
++	return _TRUE;
++}
++
++
++static	void
++phy_FinishSwChnlNow(	// We should not call this function directly
++		IN	PADAPTER	Adapter,
++		IN	u8		channel
++		)
++{
++#if 0
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u32			delay;
++  
++	while(!phy_SwChnlStepByStep(Adapter,channel,&pHalData->SwChnlStage,&pHalData->SwChnlStep,&delay))
++	{
++		if(delay>0)
++			rtw_mdelay_os(delay);
++	}
++#endif	
++}
++
++
++
++//
++// Description:
++//	Switch channel synchronously. Called by SwChnlByDelayHandler.
++//
++// Implemented by Bruce, 2008-02-14.
++// The following procedure is operted according to SwChanlCallback8190Pci().
++// However, this procedure is performed synchronously  which should be running under
++// passive level.
++// 
++VOID
++PHY_SwChnlPhy8192C(	// Only called during initialize
++	IN	PADAPTER	Adapter,
++	IN	u8		channel
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	//RT_TRACE(COMP_SCAN | COMP_RM, DBG_LOUD, ("==>PHY_SwChnlPhy8192S(), switch from channel %d to channel %d.\n", pHalData->CurrentChannel, channel));
++
++	// Cannot IO.
++	//if(RT_CANNOT_IO(Adapter))
++	//	return;
++
++	// Channel Switching is in progress.
++	//if(pHalData->SwChnlInProgress)
++	//	return;
++	
++	//return immediately if it is peudo-phy
++	if(pHalData->rf_chip == RF_PSEUDO_11N)
++	{
++		//pHalData->SwChnlInProgress=FALSE;
++		return;
++	}
++	
++	//pHalData->SwChnlInProgress = TRUE;
++	if( channel == 0)
++		channel = 1;
++	
++	pHalData->CurrentChannel=channel;
++	
++	//pHalData->SwChnlStage = 0;
++	//pHalData->SwChnlStep = 0;
++	
++	phy_FinishSwChnlNow(Adapter,channel);
++	
++	//pHalData->SwChnlInProgress = FALSE;
++}
++
++
++//
++//	Description:
++//		Configure H/W functionality to enable/disable Monitor mode.
++//		Note, because we possibly need to configure BB and RF in this function, 
++//		so caller should in PASSIVE_LEVEL. 080118, by rcnjko.
++//
++VOID
++PHY_SetMonitorMode8192C(
++	IN	PADAPTER			pAdapter,
++	IN	BOOLEAN				bEnableMonitorMode
++	)
++{
++#if 0
++	HAL_DATA_TYPE		*pHalData	= GET_HAL_DATA(pAdapter);
++	BOOLEAN				bFilterOutNonAssociatedBSSID = FALSE;
++
++	//2 Note: we may need to stop antenna diversity.
++	if(bEnableMonitorMode)
++	{
++		bFilterOutNonAssociatedBSSID = FALSE;
++		RT_TRACE(COMP_RM, DBG_LOUD, ("PHY_SetMonitorMode8192S(): enable monitor mode\n"));
++
++		pHalData->bInMonitorMode = TRUE;
++		pAdapter->HalFunc.AllowAllDestAddrHandler(pAdapter, TRUE, TRUE);
++		rtw_hal_set_hwreg(pAdapter, HW_VAR_CHECK_BSSID, (pu1Byte)&bFilterOutNonAssociatedBSSID);
++	}
++	else
++	{
++		bFilterOutNonAssociatedBSSID = TRUE;
++		RT_TRACE(COMP_RM, DBG_LOUD, ("PHY_SetMonitorMode8192S(): disable monitor mode\n"));
++
++		pAdapter->HalFunc.AllowAllDestAddrHandler(pAdapter, FALSE, TRUE);
++		pHalData->bInMonitorMode = FALSE;
++		rtw_hal_set_hwreg(pAdapter, HW_VAR_CHECK_BSSID, (pu1Byte)&bFilterOutNonAssociatedBSSID);
++	}
++#endif	
++}
++
++
++/*-----------------------------------------------------------------------------
++ * Function:	PHYCheckIsLegalRfPath8190Pci()
++ *
++ * Overview:	Check different RF type to execute legal judgement. If RF Path is illegal
++ *			We will return false.
++ *
++ * Input:		NONE
++ *
++ * Output:		NONE
++ *
++ * Return:		NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	11/15/2007	MHC		Create Version 0.  
++ *
++ *---------------------------------------------------------------------------*/
++BOOLEAN	
++PHY_CheckIsLegalRfPath8192C(	
++	IN	PADAPTER	pAdapter,
++	IN	u32	eRFPath)
++{
++//	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	BOOLEAN				rtValue = _TRUE;
++
++	// NOt check RF Path now.!
++#if 0	
++	if (pHalData->RF_Type == RF_1T2R && eRFPath != RF_PATH_A)
++	{		
++		rtValue = FALSE;
++	}
++	if (pHalData->RF_Type == RF_1T2R && eRFPath != RF_PATH_A)
++	{
++
++	}
++#endif
++	return	rtValue;
++
++}	/* PHY_CheckIsLegalRfPath8192C */
++
++//-------------------------------------------------------------------------
++//
++//	IQK
++//
++//-------------------------------------------------------------------------
++#define MAX_TOLERANCE		5
++#define IQK_DELAY_TIME		1 	//ms
++
++static u8			//bit0 = 1 => Tx OK, bit1 = 1 => Rx OK
++_PHY_PathA_IQK(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		configPathB
++	)
++{
++	u32 regEAC, regE94, regE9C, regEA4;
++	u8 result = 0x00;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	//RTPRINT(FINIT, INIT_IQK, ("Path A IQK!\n"));
++
++	//path-A IQK setting
++	//RTPRINT(FINIT, INIT_IQK, ("Path-A IQK setting!\n"));
++	PHY_SetBBReg(pAdapter, rTx_IQK_Tone_A, bMaskDWord, 0x10008c1f);
++	PHY_SetBBReg(pAdapter, rRx_IQK_Tone_A, bMaskDWord, 0x10008c1f);
++	PHY_SetBBReg(pAdapter, rTx_IQK_PI_A, bMaskDWord, 0x82140102);
++
++	PHY_SetBBReg(pAdapter, rRx_IQK_PI_A, bMaskDWord, configPathB ? 0x28160202 : 
++		IS_81xxC_VENDOR_UMC_B_CUT(pHalData->VersionID)?0x28160202:0x28160502);
++
++	//path-B IQK setting
++	if(configPathB)
++	{
++		PHY_SetBBReg(pAdapter, rTx_IQK_Tone_B, bMaskDWord, 0x10008c22);
++		PHY_SetBBReg(pAdapter, rRx_IQK_Tone_B, bMaskDWord, 0x10008c22);
++		PHY_SetBBReg(pAdapter, rTx_IQK_PI_B, bMaskDWord, 0x82140102);
++		PHY_SetBBReg(pAdapter, rRx_IQK_PI_B, bMaskDWord, 0x28160202);
++	}
++
++	//LO calibration setting
++	//RTPRINT(FINIT, INIT_IQK, ("LO calibration setting!\n"));
++	PHY_SetBBReg(pAdapter, rIQK_AGC_Rsp, bMaskDWord, 0x001028d1);
++
++	//One shot, path A LOK & IQK
++	//RTPRINT(FINIT, INIT_IQK, ("One shot, path A LOK & IQK!\n"));
++	PHY_SetBBReg(pAdapter, rIQK_AGC_Pts, bMaskDWord, 0xf9000000);
++	PHY_SetBBReg(pAdapter, rIQK_AGC_Pts, bMaskDWord, 0xf8000000);
++	
++	// delay x ms
++	//RTPRINT(FINIT, INIT_IQK, ("Delay %d ms for One shot, path A LOK & IQK.\n", IQK_DELAY_TIME));
++	rtw_udelay_os(IQK_DELAY_TIME*1000);//PlatformStallExecution(IQK_DELAY_TIME*1000);
++
++	// Check failed
++	regEAC = PHY_QueryBBReg(pAdapter, rRx_Power_After_IQK_A_2, bMaskDWord);
++	//RTPRINT(FINIT, INIT_IQK, ("0xeac = 0x%x\n", regEAC));
++	regE94 = PHY_QueryBBReg(pAdapter, rTx_Power_Before_IQK_A, bMaskDWord);
++	//RTPRINT(FINIT, INIT_IQK, ("0xe94 = 0x%x\n", regE94));
++	regE9C= PHY_QueryBBReg(pAdapter, rTx_Power_After_IQK_A, bMaskDWord);
++	//RTPRINT(FINIT, INIT_IQK, ("0xe9c = 0x%x\n", regE9C));
++	regEA4= PHY_QueryBBReg(pAdapter, rRx_Power_Before_IQK_A_2, bMaskDWord);
++	//RTPRINT(FINIT, INIT_IQK, ("0xea4 = 0x%x\n", regEA4));
++
++        if(!(regEAC & BIT28) &&		
++		(((regE94 & 0x03FF0000)>>16) != 0x142) &&
++		(((regE9C & 0x03FF0000)>>16) != 0x42) )
++		result |= 0x01;
++	else							//if Tx not OK, ignore Rx
++		return result;
++
++	if(!(regEAC & BIT27) &&		//if Tx is OK, check whether Rx is OK
++		(((regEA4 & 0x03FF0000)>>16) != 0x132) &&
++		(((regEAC & 0x03FF0000)>>16) != 0x36))
++		result |= 0x02;
++	else
++		DBG_8192C("Path A Rx IQK fail!!\n");
++	
++	return result;
++
++
++}
++
++static u8				//bit0 = 1 => Tx OK, bit1 = 1 => Rx OK
++_PHY_PathB_IQK(
++	IN	PADAPTER	pAdapter
++	)
++{
++	u32 regEAC, regEB4, regEBC, regEC4, regECC;
++	u8	result = 0x00;
++	//RTPRINT(FINIT, INIT_IQK, ("Path B IQK!\n"));
++
++	//One shot, path B LOK & IQK
++	//RTPRINT(FINIT, INIT_IQK, ("One shot, path A LOK & IQK!\n"));
++	PHY_SetBBReg(pAdapter, rIQK_AGC_Cont, bMaskDWord, 0x00000002);
++	PHY_SetBBReg(pAdapter, rIQK_AGC_Cont, bMaskDWord, 0x00000000);
++
++	// delay x ms
++	//RTPRINT(FINIT, INIT_IQK, ("Delay %d ms for One shot, path B LOK & IQK.\n", IQK_DELAY_TIME));
++	rtw_udelay_os(IQK_DELAY_TIME*1000);//PlatformStallExecution(IQK_DELAY_TIME*1000);
++
++	// Check failed
++	regEAC = PHY_QueryBBReg(pAdapter, rRx_Power_After_IQK_A_2, bMaskDWord);
++	//RTPRINT(FINIT, INIT_IQK, ("0xeac = 0x%x\n", regEAC));
++	regEB4 = PHY_QueryBBReg(pAdapter, rTx_Power_Before_IQK_B, bMaskDWord);
++	//RTPRINT(FINIT, INIT_IQK, ("0xeb4 = 0x%x\n", regEB4));
++	regEBC= PHY_QueryBBReg(pAdapter, rTx_Power_After_IQK_B, bMaskDWord);
++	//RTPRINT(FINIT, INIT_IQK, ("0xebc = 0x%x\n", regEBC));
++	regEC4= PHY_QueryBBReg(pAdapter, rRx_Power_Before_IQK_B_2, bMaskDWord);
++	//RTPRINT(FINIT, INIT_IQK, ("0xec4 = 0x%x\n", regEC4));
++	regECC= PHY_QueryBBReg(pAdapter, rRx_Power_After_IQK_B_2, bMaskDWord);
++	//RTPRINT(FINIT, INIT_IQK, ("0xecc = 0x%x\n", regECC));
++
++	if(!(regEAC & BIT31) &&
++		(((regEB4 & 0x03FF0000)>>16) != 0x142) &&
++		(((regEBC & 0x03FF0000)>>16) != 0x42))
++		result |= 0x01;
++	else
++		return result;
++
++	if(!(regEAC & BIT30) &&
++		(((regEC4 & 0x03FF0000)>>16) != 0x132) &&
++		(((regECC & 0x03FF0000)>>16) != 0x36))
++		result |= 0x02;
++	else
++		DBG_8192C("Path B Rx IQK fail!!\n");
++	
++
++	return result;
++
++}
++
++static VOID
++_PHY_PathAFillIQKMatrix(
++	IN	PADAPTER	pAdapter,
++	IN 	BOOLEAN    	bIQKOK,
++	IN	int			result[][8],
++	IN	u8			final_candidate,
++	IN 	BOOLEAN		bTxOnly
++	)
++{
++	u32	Oldval_0, X, TX0_A, reg;
++	s32	Y, TX0_C;
++
++	DBG_8192C("Path A IQ Calibration %s !\n",(bIQKOK)?"Success":"Failed");
++
++	if(final_candidate == 0xFF)
++		return;
++	else if(bIQKOK)
++	{
++		Oldval_0 = (PHY_QueryBBReg(pAdapter, rOFDM0_XATxIQImbalance, bMaskDWord) >> 22) & 0x3FF;
++
++		X = result[final_candidate][0];
++		if ((X & 0x00000200) != 0)
++			X = X | 0xFFFFFC00;
++		TX0_A = (X * Oldval_0) >> 8;
++		//RTPRINT(FINIT, INIT_IQK, ("X = 0x%lx, TX0_A = 0x%lx, Oldval_0 0x%lx\n", X, TX0_A, Oldval_0));
++		PHY_SetBBReg(pAdapter, rOFDM0_XATxIQImbalance, 0x3FF, TX0_A);
++		PHY_SetBBReg(pAdapter, rOFDM0_ECCAThreshold, BIT(31), ((X* Oldval_0>>7) & 0x1));
++
++		Y = result[final_candidate][1];
++		if ((Y & 0x00000200) != 0)
++			Y = Y | 0xFFFFFC00;
++		TX0_C = (Y * Oldval_0) >> 8;
++		//RTPRINT(FINIT, INIT_IQK, ("Y = 0x%lx, TX = 0x%lx\n", Y, TX0_C));
++		PHY_SetBBReg(pAdapter, rOFDM0_XCTxAFE, 0xF0000000, ((TX0_C&0x3C0)>>6));
++		PHY_SetBBReg(pAdapter, rOFDM0_XATxIQImbalance, 0x003F0000, (TX0_C&0x3F));
++		PHY_SetBBReg(pAdapter, rOFDM0_ECCAThreshold, BIT(29), ((Y* Oldval_0>>7) & 0x1));
++
++	        if(bTxOnly)
++		{
++			DBG_8192C("_PHY_PathAFillIQKMatrix only Tx OK\n");
++			return;
++		}
++
++		reg = result[final_candidate][2];
++		PHY_SetBBReg(pAdapter, rOFDM0_XARxIQImbalance, 0x3FF, reg);
++
++		reg = result[final_candidate][3] & 0x3F;
++		PHY_SetBBReg(pAdapter, rOFDM0_XARxIQImbalance, 0xFC00, reg);
++
++		reg = (result[final_candidate][3] >> 6) & 0xF;
++		PHY_SetBBReg(pAdapter, rOFDM0_RxIQExtAnta, 0xF0000000, reg);
++	}
++}
++
++static VOID
++_PHY_PathBFillIQKMatrix(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN   	bIQKOK,
++	IN	int			result[][8],
++	IN	u8			final_candidate,
++	IN	BOOLEAN		bTxOnly			//do Tx only
++	)
++{
++	u32	Oldval_1, X, TX1_A, reg;
++	s32	Y, TX1_C;
++	
++	DBG_8192C("Path B IQ Calibration %s !\n",(bIQKOK)?"Success":"Failed");
++
++	if(final_candidate == 0xFF)
++		return;
++	else if(bIQKOK)
++	{
++		Oldval_1 = (PHY_QueryBBReg(pAdapter, rOFDM0_XBTxIQImbalance, bMaskDWord) >> 22) & 0x3FF;
++
++		X = result[final_candidate][4];
++		if ((X & 0x00000200) != 0)
++			X = X | 0xFFFFFC00;		
++		TX1_A = (X * Oldval_1) >> 8;
++		//RTPRINT(FINIT, INIT_IQK, ("X = 0x%lx, TX1_A = 0x%lx\n", X, TX1_A));
++		PHY_SetBBReg(pAdapter, rOFDM0_XBTxIQImbalance, 0x3FF, TX1_A);
++		PHY_SetBBReg(pAdapter, rOFDM0_ECCAThreshold, BIT(27), ((X* Oldval_1>>7) & 0x1));
++
++		Y = result[final_candidate][5];
++		if ((Y & 0x00000200) != 0)
++			Y = Y | 0xFFFFFC00;		
++		TX1_C = (Y * Oldval_1) >> 8;
++		//RTPRINT(FINIT, INIT_IQK, ("Y = 0x%lx, TX1_C = 0x%lx\n", Y, TX1_C));
++		PHY_SetBBReg(pAdapter, rOFDM0_XDTxAFE, 0xF0000000, ((TX1_C&0x3C0)>>6));
++		PHY_SetBBReg(pAdapter, rOFDM0_XBTxIQImbalance, 0x003F0000, (TX1_C&0x3F));
++		PHY_SetBBReg(pAdapter, rOFDM0_ECCAThreshold, BIT(25), ((Y* Oldval_1>>7) & 0x1));
++
++		if(bTxOnly)
++			return;
++
++		reg = result[final_candidate][6];
++		PHY_SetBBReg(pAdapter, rOFDM0_XBRxIQImbalance, 0x3FF, reg);
++
++		reg = result[final_candidate][7] & 0x3F;
++		PHY_SetBBReg(pAdapter, rOFDM0_XBRxIQImbalance, 0xFC00, reg);
++
++		reg = (result[final_candidate][7] >> 6) & 0xF;
++		PHY_SetBBReg(pAdapter, rOFDM0_AGCRSSITable, 0x0000F000, reg);
++	}
++}
++
++static VOID
++_PHY_SaveADDARegisters(
++	IN	PADAPTER	pAdapter,
++	IN	u32*		ADDAReg,
++	IN	u32*		ADDABackup,
++	IN	u32			RegisterNum
++	)
++{
++	u32	i;
++	
++	//RTPRINT(FINIT, INIT_IQK, ("Save ADDA parameters.\n"));
++	for( i = 0 ; i < RegisterNum ; i++){
++		ADDABackup[i] = PHY_QueryBBReg(pAdapter, ADDAReg[i], bMaskDWord);
++	}
++}
++
++static VOID
++_PHY_SaveMACRegisters(
++	IN	PADAPTER	pAdapter,
++	IN	u32*		MACReg,
++	IN	u32*		MACBackup
++	)
++{
++	u32	i;
++	
++	//RTPRINT(FINIT, INIT_IQK, ("Save MAC parameters.\n"));
++	for( i = 0 ; i < (IQK_MAC_REG_NUM - 1); i++){
++		MACBackup[i] =rtw_read8(pAdapter, MACReg[i]);		
++	}
++	MACBackup[i] = rtw_read32(pAdapter, MACReg[i]);		
++
++}
++
++static VOID
++_PHY_ReloadADDARegisters(
++	IN	PADAPTER	pAdapter,
++	IN	u32*		ADDAReg,
++	IN	u32*		ADDABackup,
++	IN	u32			RegiesterNum
++	)
++{
++	u32	i;
++
++	//RTPRINT(FINIT, INIT_IQK, ("Reload ADDA power saving parameters !\n"));
++	for(i = 0 ; i < RegiesterNum ; i++){
++		PHY_SetBBReg(pAdapter, ADDAReg[i], bMaskDWord, ADDABackup[i]);
++	}
++}
++
++static VOID
++_PHY_ReloadMACRegisters(
++	IN	PADAPTER	pAdapter,
++	IN	u32*		MACReg,
++	IN	u32*		MACBackup
++	)
++{
++	u32	i;
++
++	//RTPRINT(FINIT, INIT_IQK, ("Reload MAC parameters !\n"));
++	for(i = 0 ; i < (IQK_MAC_REG_NUM - 1); i++){
++		rtw_write8(pAdapter, MACReg[i], (u8)MACBackup[i]);
++	}
++	rtw_write32(pAdapter, MACReg[i], MACBackup[i]);	
++}
++
++static VOID
++_PHY_PathADDAOn(
++	IN	PADAPTER	pAdapter,
++	IN	u32*		ADDAReg,
++	IN	BOOLEAN		isPathAOn,
++	IN	BOOLEAN		is2T
++	)
++{
++	u32	pathOn;
++	u32	i;
++
++	//RTPRINT(FINIT, INIT_IQK, ("ADDA ON.\n"));
++
++	pathOn = isPathAOn ? 0x04db25a4 : 0x0b1b25a4;
++	if(_FALSE == is2T){
++		pathOn = 0x0bdb25a0;
++		PHY_SetBBReg(pAdapter, ADDAReg[0], bMaskDWord, 0x0b1b25a0);
++	}
++	else{
++		PHY_SetBBReg(pAdapter, ADDAReg[0], bMaskDWord, pathOn);
++	}
++	
++	for( i = 1 ; i < IQK_ADDA_REG_NUM ; i++){
++		PHY_SetBBReg(pAdapter, ADDAReg[i], bMaskDWord, pathOn);
++	}
++	
++}
++
++static VOID
++_PHY_MACSettingCalibration(
++	IN	PADAPTER	pAdapter,
++	IN	u32*		MACReg,
++	IN	u32*		MACBackup	
++	)
++{
++	u32	i = 0;
++
++	//RTPRINT(FINIT, INIT_IQK, ("MAC settings for Calibration.\n"));
++
++	rtw_write8(pAdapter, MACReg[i], 0x3F);
++
++	for(i = 1 ; i < (IQK_MAC_REG_NUM - 1); i++){
++		rtw_write8(pAdapter, MACReg[i], (u8)(MACBackup[i]&(~BIT3)));
++	}
++	rtw_write8(pAdapter, MACReg[i], (u8)(MACBackup[i]&(~BIT5)));	
++
++}
++
++static VOID
++_PHY_PathAStandBy(
++	IN	PADAPTER	pAdapter
++	)
++{
++	//RTPRINT(FINIT, INIT_IQK, ("Path-A standby mode!\n"));
++
++	PHY_SetBBReg(pAdapter, rFPGA0_IQK, bMaskDWord, 0x0);
++	PHY_SetBBReg(pAdapter, 0x840, bMaskDWord, 0x00010000);
++	PHY_SetBBReg(pAdapter, rFPGA0_IQK, bMaskDWord, 0x80800000);
++}
++
++static VOID
++_PHY_PIModeSwitch(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		PIMode
++	)
++{
++	u32	mode;
++
++	//RTPRINT(FINIT, INIT_IQK, ("BB Switch to %s mode!\n", (PIMode ? "PI" : "SI")));
++
++	mode = PIMode ? 0x01000100 : 0x01000000;
++	PHY_SetBBReg(pAdapter, 0x820, bMaskDWord, mode);
++	PHY_SetBBReg(pAdapter, 0x828, bMaskDWord, mode);
++}
++
++/*
++return _FALSE => do IQK again
++*/
++static BOOLEAN							
++_PHY_SimularityCompare(
++	IN	PADAPTER	pAdapter,
++	IN	int 		result[][8],
++	IN	u8		 c1,
++	IN	u8		 c2
++	)
++{
++	u32		i, j, diff, SimularityBitMap, bound = 0;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);	
++	u8		final_candidate[2] = {0xFF, 0xFF};	//for path A and path B
++	BOOLEAN		bResult = _TRUE, is2T = IS_92C_SERIAL( pHalData->VersionID);
++	
++	if(is2T)
++		bound = 8;
++	else
++		bound = 4;
++
++	SimularityBitMap = 0;
++	
++	for( i = 0; i < bound; i++ )
++	{
++		diff = (result[c1][i] > result[c2][i]) ? (result[c1][i] - result[c2][i]) : (result[c2][i] - result[c1][i]);
++		if (diff > MAX_TOLERANCE)
++		{
++			if((i == 2 || i == 6) && !SimularityBitMap)
++			{
++				if(result[c1][i]+result[c1][i+1] == 0)
++					final_candidate[(i/4)] = c2;
++				else if (result[c2][i]+result[c2][i+1] == 0)
++					final_candidate[(i/4)] = c1;
++				else
++					SimularityBitMap = SimularityBitMap|(1<<i);
++			}
++			else
++				SimularityBitMap = SimularityBitMap|(1<<i);
++		}
++	}
++	
++	if ( SimularityBitMap == 0)
++	{
++		for( i = 0; i < (bound/4); i++ )
++		{
++			if(final_candidate[i] != 0xFF)
++			{
++				for( j = i*4; j < (i+1)*4-2; j++)
++					result[3][j] = result[final_candidate[i]][j];
++				bResult = _FALSE;
++			}
++		}
++		return bResult;
++	}
++	else if (!(SimularityBitMap & 0x0F))			//path A OK
++	{
++		for(i = 0; i < 4; i++)
++			result[3][i] = result[c1][i];
++		return _FALSE;
++	}
++	else if (!(SimularityBitMap & 0xF0) && is2T)	//path B OK
++	{
++		for(i = 4; i < 8; i++)
++			result[3][i] = result[c1][i];
++		return _FALSE;
++	}	
++	else		
++		return _FALSE;
++	
++}
++
++static VOID	
++_PHY_IQCalibrate(
++	IN	PADAPTER	pAdapter,
++	IN	int 		result[][8],
++	IN	u8		t,
++	IN	BOOLEAN		is2T
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	u32			i;
++	u8			PathAOK, PathBOK;
++	u32			ADDA_REG[IQK_ADDA_REG_NUM] = {	
++						rFPGA0_XCD_SwitchControl, 	rBlue_Tooth, 	
++						rRx_Wait_CCA, 		rTx_CCK_RFON,
++						rTx_CCK_BBON, 	rTx_OFDM_RFON, 	
++						rTx_OFDM_BBON, 	rTx_To_Rx,
++						rTx_To_Tx, 		rRx_CCK, 	
++						rRx_OFDM, 		rRx_Wait_RIFS,
++						rRx_TO_Rx, 		rStandby, 	
++						rSleep, 			rPMPD_ANAEN };
++
++	u32			IQK_MAC_REG[IQK_MAC_REG_NUM] = {
++						REG_TXPAUSE, 		REG_BCN_CTRL,	
++						REG_BCN_CTRL_1,	REG_GPIO_MUXCFG};
++
++	u32			IQK_BB_REG_92C[IQK_BB_REG_NUM] = {
++							rOFDM0_TRxPathEnable, 		rOFDM0_TRMuxPar,	
++							rFPGA0_XCD_RFInterfaceSW,	rConfig_AntA,	rConfig_AntB,
++							rFPGA0_XAB_RFInterfaceSW,	rFPGA0_XA_RFInterfaceOE,	
++							rFPGA0_XB_RFInterfaceOE,	rFPGA0_RFMOD	
++							};
++
++#if MP_DRIVER
++	const u32	retryCount = 9;
++#else
++	const u32	retryCount = 2;
++#endif
++
++	// Note: IQ calibration must be performed after loading 
++	// 		PHY_REG.txt , and radio_a, radio_b.txt	
++	
++	u32 bbvalue;
++
++	if(t==0)
++	{
++	 	bbvalue = PHY_QueryBBReg(pAdapter, rFPGA0_RFMOD, bMaskDWord);
++		//RTPRINT(FINIT, INIT_IQK, ("PHY_IQCalibrate()==>0x%08lx\n",bbvalue));
++
++		//RTPRINT(FINIT, INIT_IQK, ("IQ Calibration for %s\n", (is2T ? "2T2R" : "1T1R")));
++	
++	 	// Save ADDA parameters, turn Path A ADDA on
++	 	_PHY_SaveADDARegisters(pAdapter, ADDA_REG, pdmpriv->ADDA_backup,IQK_ADDA_REG_NUM);
++		_PHY_SaveMACRegisters(pAdapter, IQK_MAC_REG, pdmpriv->IQK_MAC_backup);
++		_PHY_SaveADDARegisters(pAdapter, IQK_BB_REG_92C, pdmpriv->IQK_BB_backup, IQK_BB_REG_NUM);
++	}
++ 	_PHY_PathADDAOn(pAdapter, ADDA_REG, _TRUE, is2T);
++
++	if(t==0)
++	{
++		pdmpriv->bRfPiEnable = (u8)PHY_QueryBBReg(pAdapter, rFPGA0_XA_HSSIParameter1, BIT(8));
++	}
++
++	if(!pdmpriv->bRfPiEnable){
++		// Switch BB to PI mode to do IQ Calibration.
++		_PHY_PIModeSwitch(pAdapter, _TRUE);
++	}
++
++	PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, BIT24, 0x00);
++	PHY_SetBBReg(pAdapter, rOFDM0_TRxPathEnable, bMaskDWord, 0x03a05600);
++	PHY_SetBBReg(pAdapter, rOFDM0_TRMuxPar, bMaskDWord, 0x000800e4);
++	PHY_SetBBReg(pAdapter, rFPGA0_XCD_RFInterfaceSW, bMaskDWord, 0x22204000);
++	PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT10, 0x01);
++	PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT26, 0x01);
++	PHY_SetBBReg(pAdapter, rFPGA0_XA_RFInterfaceOE, BIT10, 0x00);
++	PHY_SetBBReg(pAdapter, rFPGA0_XB_RFInterfaceOE, BIT10, 0x00);
++
++	if(is2T)
++	{
++		PHY_SetBBReg(pAdapter, rFPGA0_XA_LSSIParameter, bMaskDWord, 0x00010000);
++		PHY_SetBBReg(pAdapter, rFPGA0_XB_LSSIParameter, bMaskDWord, 0x00010000);
++	}
++	
++	//MAC settings
++	_PHY_MACSettingCalibration(pAdapter, IQK_MAC_REG, pdmpriv->IQK_MAC_backup);
++
++	//Page B init
++	PHY_SetBBReg(pAdapter, rConfig_AntA, bMaskDWord, 0x00080000);
++	
++	if(is2T)
++	{
++		PHY_SetBBReg(pAdapter, rConfig_AntB, bMaskDWord, 0x00080000);
++	}
++	
++	// IQ calibration setting
++	//RTPRINT(FINIT, INIT_IQK, ("IQK setting!\n"));		
++	PHY_SetBBReg(pAdapter, rFPGA0_IQK, bMaskDWord, 0x80800000);
++	PHY_SetBBReg(pAdapter, rTx_IQK, bMaskDWord, 0x01007c00);
++	PHY_SetBBReg(pAdapter, rRx_IQK, bMaskDWord, 0x01004800);
++
++	for(i = 0 ; i < retryCount ; i++){
++		PathAOK = _PHY_PathA_IQK(pAdapter, is2T);
++		if(PathAOK == 0x03){
++				DBG_8192C("Path A IQK Success!!\n");
++				result[t][0] = (PHY_QueryBBReg(pAdapter, rTx_Power_Before_IQK_A, bMaskDWord)&0x3FF0000)>>16;
++				result[t][1] = (PHY_QueryBBReg(pAdapter, rTx_Power_After_IQK_A, bMaskDWord)&0x3FF0000)>>16;
++				result[t][2] = (PHY_QueryBBReg(pAdapter, rRx_Power_Before_IQK_A_2, bMaskDWord)&0x3FF0000)>>16;
++				result[t][3] = (PHY_QueryBBReg(pAdapter, rRx_Power_After_IQK_A_2, bMaskDWord)&0x3FF0000)>>16;
++			break;
++		}
++		else if (i == (retryCount-1) && PathAOK == 0x01)	//Tx IQK OK
++		{
++			DBG_8192C("Path A IQK Only  Tx Success!!\n");
++			
++			result[t][0] = (PHY_QueryBBReg(pAdapter, rTx_Power_Before_IQK_A, bMaskDWord)&0x3FF0000)>>16;
++			result[t][1] = (PHY_QueryBBReg(pAdapter, rTx_Power_After_IQK_A, bMaskDWord)&0x3FF0000)>>16;			
++		}
++	}
++
++	if(0x00 == PathAOK){		
++		DBG_8192C("Path A IQK failed!!\n");
++	}
++
++	if(is2T){
++		_PHY_PathAStandBy(pAdapter);
++
++		// Turn Path B ADDA on
++		_PHY_PathADDAOn(pAdapter, ADDA_REG, _FALSE, is2T);
++
++		for(i = 0 ; i < retryCount ; i++){
++			PathBOK = _PHY_PathB_IQK(pAdapter);
++			if(PathBOK == 0x03){
++				DBG_8192C("Path B IQK Success!!\n");
++				result[t][4] = (PHY_QueryBBReg(pAdapter, rTx_Power_Before_IQK_B, bMaskDWord)&0x3FF0000)>>16;
++				result[t][5] = (PHY_QueryBBReg(pAdapter, rTx_Power_After_IQK_B, bMaskDWord)&0x3FF0000)>>16;
++				result[t][6] = (PHY_QueryBBReg(pAdapter, rRx_Power_Before_IQK_B_2, bMaskDWord)&0x3FF0000)>>16;
++				result[t][7] = (PHY_QueryBBReg(pAdapter, rRx_Power_After_IQK_B_2, bMaskDWord)&0x3FF0000)>>16;
++				break;
++			}
++			else if (i == (retryCount - 1) && PathBOK == 0x01)	//Tx IQK OK
++			{
++				DBG_8192C("Path B Only Tx IQK Success!!\n");
++				result[t][4] = (PHY_QueryBBReg(pAdapter, rTx_Power_Before_IQK_B, bMaskDWord)&0x3FF0000)>>16;
++				result[t][5] = (PHY_QueryBBReg(pAdapter, rTx_Power_After_IQK_B, bMaskDWord)&0x3FF0000)>>16;
++			}
++		}
++
++		if(0x00 == PathBOK){		
++			DBG_8192C("Path B IQK failed!!\n");
++		}
++	}
++
++	//Back to BB mode, load original value
++	//RTPRINT(FINIT, INIT_IQK, ("IQK:Back to BB mode, load original value!\n"));
++	PHY_SetBBReg(pAdapter, rFPGA0_IQK, bMaskDWord, 0);
++
++	if(t!=0)
++	{
++		if(!pdmpriv->bRfPiEnable){
++			// Switch back BB to SI mode after finish IQ Calibration.
++			_PHY_PIModeSwitch(pAdapter, _FALSE);
++		}
++
++		// Reload ADDA power saving parameters
++	 	_PHY_ReloadADDARegisters(pAdapter, ADDA_REG, pdmpriv->ADDA_backup, IQK_ADDA_REG_NUM);
++
++		// Reload MAC parameters
++		_PHY_ReloadMACRegisters(pAdapter, IQK_MAC_REG, pdmpriv->IQK_MAC_backup);
++
++	 	// Reload BB parameters
++	 	_PHY_ReloadADDARegisters(pAdapter, IQK_BB_REG_92C, pdmpriv->IQK_BB_backup, IQK_BB_REG_NUM);
++
++		// Restore RX initial gain
++		PHY_SetBBReg(pAdapter, rFPGA0_XA_LSSIParameter, bMaskDWord, 0x00032ed3);
++		if(is2T){
++			PHY_SetBBReg(pAdapter, rFPGA0_XB_LSSIParameter, bMaskDWord, 0x00032ed3);
++		}
++
++		//load 0xe30 IQC default value
++		PHY_SetBBReg(pAdapter, rTx_IQK_Tone_A, bMaskDWord, 0x01008c00);
++		PHY_SetBBReg(pAdapter, rRx_IQK_Tone_A, bMaskDWord, 0x01008c00);
++
++	}
++	//RTPRINT(FINIT, INIT_IQK, ("_PHY_IQCalibrate() <==\n"));
++
++}
++
++
++static VOID	
++_PHY_LCCalibrate(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		is2T
++	)
++{
++	u8	tmpReg;
++	u32 	RF_Amode = 0, RF_Bmode = 0, LC_Cal;
++
++	//Check continuous TX and Packet TX
++	tmpReg = rtw_read8(pAdapter, 0xd03);
++
++	if((tmpReg&0x70) != 0)			//Deal with contisuous TX case
++		rtw_write8(pAdapter, 0xd03, tmpReg&0x8F);	//disable all continuous TX
++	else 							// Deal with Packet TX case
++		rtw_write8(pAdapter, REG_TXPAUSE, 0xFF);			// block all queues
++
++	if((tmpReg&0x70) != 0)
++	{
++		//1. Read original RF mode
++		//Path-A
++		RF_Amode = PHY_QueryRFReg(pAdapter, RF_PATH_A, RF_AC, bMask12Bits);
++
++		//Path-B
++		if(is2T)
++			RF_Bmode = PHY_QueryRFReg(pAdapter, RF_PATH_B, RF_AC, bMask12Bits);	
++
++		//2. Set RF mode = standby mode
++		//Path-A
++		PHY_SetRFReg(pAdapter, RF_PATH_A, RF_AC, bMask12Bits, (RF_Amode&0x8FFFF)|0x10000);
++
++		//Path-B
++		if(is2T)
++			PHY_SetRFReg(pAdapter, RF_PATH_B, RF_AC, bMask12Bits, (RF_Bmode&0x8FFFF)|0x10000);
++	}
++	
++	//3. Read RF reg18
++	LC_Cal = PHY_QueryRFReg(pAdapter, RF_PATH_A, RF_CHNLBW, bMask12Bits);
++	
++	//4. Set LC calibration begin
++	PHY_SetRFReg(pAdapter, RF_PATH_A, RF_CHNLBW, bMask12Bits, LC_Cal|0x08000);
++
++	#ifdef CONFIG_LONG_DELAY_ISSUE
++	rtw_msleep_os(100);	
++	#else
++	rtw_mdelay_os(100);		
++	#endif
++
++	//Restore original situation
++	if((tmpReg&0x70) != 0)	//Deal with contisuous TX case 
++	{  
++		//Path-A
++		rtw_write8(pAdapter, 0xd03, tmpReg);
++		PHY_SetRFReg(pAdapter, RF_PATH_A, RF_AC, bMask12Bits, RF_Amode);
++		
++		//Path-B
++		if(is2T)
++			PHY_SetRFReg(pAdapter, RF_PATH_B, RF_AC, bMask12Bits, RF_Bmode);
++	}
++	else // Deal with Packet TX case
++	{
++		rtw_write8(pAdapter, REG_TXPAUSE, 0x00);	
++	}
++	
++}
++
++
++//Analog Pre-distortion calibration
++#define		APK_BB_REG_NUM	8
++#define		APK_CURVE_REG_NUM 4
++#define		PATH_NUM		2
++
++static VOID	
++_PHY_APCalibrate(
++	IN	PADAPTER	pAdapter,
++	IN	char 		delta,
++	IN	BOOLEAN		is2T
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++
++	u32 			regD[PATH_NUM];
++	u32			tmpReg, index, offset, i, apkbound;
++	u8			path, pathbound = PATH_NUM;
++	u32			BB_backup[APK_BB_REG_NUM];
++	u32			BB_REG[APK_BB_REG_NUM] = {	
++						rFPGA1_TxBlock, 	rOFDM0_TRxPathEnable, 
++						rFPGA0_RFMOD, 	rOFDM0_TRMuxPar, 
++						rFPGA0_XCD_RFInterfaceSW,	rFPGA0_XAB_RFInterfaceSW, 
++						rFPGA0_XA_RFInterfaceOE, 	rFPGA0_XB_RFInterfaceOE	};
++	u32			BB_AP_MODE[APK_BB_REG_NUM] = {	
++						0x00000020, 0x00a05430, 0x02040000, 
++						0x000800e4, 0x00204000 };
++	u32			BB_normal_AP_MODE[APK_BB_REG_NUM] = {	
++						0x00000020, 0x00a05430, 0x02040000, 
++						0x000800e4, 0x22204000 };						
++
++	u32			AFE_backup[IQK_ADDA_REG_NUM];
++	u32			AFE_REG[IQK_ADDA_REG_NUM] = {	
++						rFPGA0_XCD_SwitchControl, 	rBlue_Tooth, 	
++						rRx_Wait_CCA, 		rTx_CCK_RFON,
++						rTx_CCK_BBON, 	rTx_OFDM_RFON, 	
++						rTx_OFDM_BBON, 	rTx_To_Rx,
++						rTx_To_Tx, 		rRx_CCK, 	
++						rRx_OFDM, 		rRx_Wait_RIFS,
++						rRx_TO_Rx, 		rStandby, 	
++						rSleep, 			rPMPD_ANAEN };
++
++	u32			MAC_backup[IQK_MAC_REG_NUM];
++	u32			MAC_REG[IQK_MAC_REG_NUM] = {
++						REG_TXPAUSE, 		REG_BCN_CTRL,	
++						REG_BCN_CTRL_1,	REG_GPIO_MUXCFG};
++
++	u32			APK_RF_init_value[PATH_NUM][APK_BB_REG_NUM] = {
++					{0x0852c, 0x1852c, 0x5852c, 0x1852c, 0x5852c},
++					{0x2852e, 0x0852e, 0x3852e, 0x0852e, 0x0852e}
++					};	
++
++	u32			APK_normal_RF_init_value[PATH_NUM][APK_BB_REG_NUM] = {
++					{0x0852c, 0x0a52c, 0x3a52c, 0x5a52c, 0x5a52c},	//path settings equal to path b settings
++					{0x0852c, 0x0a52c, 0x5a52c, 0x5a52c, 0x5a52c}
++					};
++	
++	u32			APK_RF_value_0[PATH_NUM][APK_BB_REG_NUM] = {
++					{0x52019, 0x52014, 0x52013, 0x5200f, 0x5208d},
++					{0x5201a, 0x52019, 0x52016, 0x52033, 0x52050}
++					};
++
++	u32			APK_normal_RF_value_0[PATH_NUM][APK_BB_REG_NUM] = {
++					{0x52019, 0x52017, 0x52010, 0x5200d, 0x5206a},	//path settings equal to path b settings
++					{0x52019, 0x52017, 0x52010, 0x5200d, 0x5206a}
++					};
++#if 0
++	u32			APK_RF_value_A[PATH_NUM][APK_BB_REG_NUM] = {
++					{0x1adb0, 0x1adb0, 0x1ada0, 0x1ad90, 0x1ad80},		
++					{0x00fb0, 0x00fb0, 0x00fa0, 0x00f90, 0x00f80}						
++					};
++#endif
++	u32			AFE_on_off[PATH_NUM] = {
++					0x04db25a4, 0x0b1b25a4};	//path A on path B off / path A off path B on
++
++	u32			APK_offset[PATH_NUM] = {
++					rConfig_AntA, rConfig_AntB};
++
++	u32			APK_normal_offset[PATH_NUM] = {
++					rConfig_Pmpd_AntA, rConfig_Pmpd_AntB};
++					
++	u32			APK_value[PATH_NUM] = {
++					0x92fc0000, 0x12fc0000};					
++
++	u32			APK_normal_value[PATH_NUM] = {
++					0x92680000, 0x12680000};					
++
++	char			APK_delta_mapping[APK_BB_REG_NUM][13] = {
++					{-4, -3, -2, -2, -1, -1, 0, 1, 2, 3, 4, 5, 6},
++					{-4, -3, -2, -2, -1, -1, 0, 1, 2, 3, 4, 5, 6},
++					{-6, -4, -2, -2, -1, -1, 0, 1, 2, 3, 4, 5, 6},
++					{-1, -1, -1, -1, -1, -1, 0, 1, 2, 3, 4, 5, 6},
++					{-11, -9, -7, -5, -3, -1, 0, 0, 0, 0, 0, 0, 0}
++					};
++	
++	u32			APK_normal_setting_value_1[13] = {
++					0x01017018, 0xf7ed8f84, 0x1b1a1816, 0x2522201e, 0x322e2b28,
++					0x433f3a36, 0x5b544e49, 0x7b726a62, 0xa69a8f84, 0xdfcfc0b3,
++					0x12680000, 0x00880000, 0x00880000
++					};
++
++	u32			APK_normal_setting_value_2[16] = {
++					0x01c7021d, 0x01670183, 0x01000123, 0x00bf00e2, 0x008d00a3,
++					0x0068007b, 0x004d0059, 0x003a0042, 0x002b0031, 0x001f0025,
++					0x0017001b, 0x00110014, 0x000c000f, 0x0009000b, 0x00070008,
++					0x00050006
++					};
++	
++	u32			APK_result[PATH_NUM][APK_BB_REG_NUM];	//val_1_1a, val_1_2a, val_2a, val_3a, val_4a
++	//u32			AP_curve[PATH_NUM][APK_CURVE_REG_NUM];
++
++	int			BB_offset, delta_V, delta_offset;
++
++#if (MP_DRIVER == 1)
++	PMPT_CONTEXT	pMptCtx = &pAdapter->mppriv.MptCtx;
++
++	pMptCtx->APK_bound[0] = 45;
++	pMptCtx->APK_bound[1] = 52;
++#endif
++
++	//RTPRINT(FINIT, INIT_IQK, ("==>PHY_APCalibrate() delta %d\n", delta));
++	
++	//RTPRINT(FINIT, INIT_IQK, ("AP Calibration for %s %s\n", (is2T ? "2T2R" : "1T1R"), (isNormal ? "Normal chip" : "Test chip")));
++
++	if(!is2T)
++		pathbound = 1;
++
++	//2 FOR NORMAL CHIP SETTINGS
++
++// Temporarily do not allow normal driver to do the following settings because these offset
++// and value will cause RF internal PA to be unpredictably disabled by HW, such that RF Tx signal
++// will disappear after disable/enable card many times on 88CU. RF SD and DD have not find the
++// root cause, so we remove these actions temporarily. Added by tynli and SD3 Allen. 2010.05.31.
++#if (MP_DRIVER != 1)
++	return;
++#endif
++
++	//settings adjust for normal chip
++	for(index = 0; index < PATH_NUM; index ++)
++	{
++		APK_offset[index] = APK_normal_offset[index];
++		APK_value[index] = APK_normal_value[index];
++		AFE_on_off[index] = 0x6fdb25a4;
++	}
++
++	for(index = 0; index < APK_BB_REG_NUM; index ++)
++	{
++		for(path = 0; path < pathbound; path++)
++		{
++			APK_RF_init_value[path][index] = APK_normal_RF_init_value[path][index];
++			APK_RF_value_0[path][index] = APK_normal_RF_value_0[path][index];
++		}
++		BB_AP_MODE[index] = BB_normal_AP_MODE[index];
++	}
++
++	apkbound = 6;
++
++	//save BB default value	
++	for(index = 0; index < APK_BB_REG_NUM ; index++)
++	{
++		if(index == 0)		//skip 
++			continue;				
++		BB_backup[index] = PHY_QueryBBReg(pAdapter, BB_REG[index], bMaskDWord);
++	}
++
++	//save MAC default value													
++	_PHY_SaveMACRegisters(pAdapter, MAC_REG, MAC_backup);
++
++	//save AFE default value
++	_PHY_SaveADDARegisters(pAdapter, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);
++
++	for(path = 0; path < pathbound; path++)
++	{
++		if(path == RF_PATH_A)
++		{
++			//path A APK
++			//load APK setting
++			//path-A		
++			offset = rPdp_AntA;
++			for(index = 0; index < 11; index ++)			
++			{
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				//RTPRINT(FINIT, INIT_IQK, ("PHY_APCalibrate() offset 0x%x value 0x%x\n", offset, PHY_QueryBBReg(pAdapter, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}
++			
++			PHY_SetBBReg(pAdapter, rConfig_Pmpd_AntB, bMaskDWord, 0x12680000);
++			
++			offset = rConfig_AntA;
++			for(; index < 13; index ++) 		
++			{
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				//RTPRINT(FINIT, INIT_IQK, ("PHY_APCalibrate() offset 0x%x value 0x%x\n", offset, PHY_QueryBBReg(pAdapter, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}	
++			
++			//page-B1
++			PHY_SetBBReg(pAdapter, rFPGA0_IQK, bMaskDWord, 0x40000000);
++			
++			//path A
++			offset = rPdp_AntA;
++			for(index = 0; index < 16; index++)
++			{
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, APK_normal_setting_value_2[index]);		
++				//RTPRINT(FINIT, INIT_IQK, ("PHY_APCalibrate() offset 0x%x value 0x%x\n", offset, PHY_QueryBBReg(pAdapter, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}				
++			PHY_SetBBReg(pAdapter, rFPGA0_IQK, bMaskDWord, 0x00000000);							
++		}
++		else if(path == RF_PATH_B)
++		{
++			//path B APK
++			//load APK setting
++			//path-B		
++			offset = rPdp_AntB;
++			for(index = 0; index < 10; index ++)			
++			{
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				//RTPRINT(FINIT, INIT_IQK, ("PHY_APCalibrate() offset 0x%x value 0x%x\n", offset, PHY_QueryBBReg(pAdapter, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}
++			PHY_SetBBReg(pAdapter, rConfig_Pmpd_AntA, bMaskDWord, 0x12680000);
++			
++			PHY_SetBBReg(pAdapter, rConfig_Pmpd_AntB, bMaskDWord, 0x12680000);
++			
++			offset = rConfig_AntA;
++			index = 11;
++			for(; index < 13; index ++) //offset 0xb68, 0xb6c		
++			{
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				//RTPRINT(FINIT, INIT_IQK, ("PHY_APCalibrate() offset 0x%x value 0x%x\n", offset, PHY_QueryBBReg(pAdapter, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}	
++			
++			//page-B1
++			PHY_SetBBReg(pAdapter, rFPGA0_IQK, bMaskDWord, 0x40000000);
++			
++			//path B
++			offset = 0xb60;
++			for(index = 0; index < 16; index++)
++			{
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, APK_normal_setting_value_2[index]);		
++				//RTPRINT(FINIT, INIT_IQK, ("PHY_APCalibrate() offset 0x%x value 0x%x\n", offset, PHY_QueryBBReg(pAdapter, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}				
++			PHY_SetBBReg(pAdapter, rFPGA0_IQK, bMaskDWord, 0x00000000);							
++		}		
++
++		//save RF default value
++		regD[path] = PHY_QueryRFReg(pAdapter, (RF_RADIO_PATH_E)path, RF_TXBIAS_A, bRFRegOffsetMask);
++		
++		//Path A AFE all on, path B AFE All off or vise versa
++		for(index = 0; index < IQK_ADDA_REG_NUM ; index++)
++			PHY_SetBBReg(pAdapter, AFE_REG[index], bMaskDWord, AFE_on_off[path]);
++		//RTPRINT(FINIT, INIT_IQK, ("PHY_APCalibrate() offset 0xe70 %x\n", PHY_QueryBBReg(pAdapter, 0xe70, bMaskDWord)));		
++
++		//BB to AP mode
++		if(path == 0)
++		{
++			for(index = 0; index < APK_BB_REG_NUM ; index++)
++			{
++				if(index == 0)		//skip 
++					continue;
++				else if (index < 5)
++					PHY_SetBBReg(pAdapter, BB_REG[index], bMaskDWord, BB_AP_MODE[index]);
++				else if (BB_REG[index] == 0x870)
++					PHY_SetBBReg(pAdapter, BB_REG[index], bMaskDWord, BB_backup[index]|BIT10|BIT26);
++				else
++					PHY_SetBBReg(pAdapter, BB_REG[index], BIT10, 0x0);
++			}
++			PHY_SetBBReg(pAdapter, rTx_IQK_Tone_A, bMaskDWord, 0x01008c00);
++			PHY_SetBBReg(pAdapter, rRx_IQK_Tone_A, bMaskDWord, 0x01008c00);
++		}
++		else		//path B
++		{
++			PHY_SetBBReg(pAdapter, rTx_IQK_Tone_B, bMaskDWord, 0x01008c00);
++			PHY_SetBBReg(pAdapter, rRx_IQK_Tone_B, bMaskDWord, 0x01008c00);
++		}
++
++		//RTPRINT(FINIT, INIT_IQK, ("PHY_APCalibrate() offset 0x800 %x\n", PHY_QueryBBReg(pAdapter, 0x800, bMaskDWord)));				
++
++		//MAC settings
++		_PHY_MACSettingCalibration(pAdapter, MAC_REG, MAC_backup);
++
++		if(path == RF_PATH_A)	//Path B to standby mode
++		{
++			PHY_SetRFReg(pAdapter, RF_PATH_B, RF_AC, bRFRegOffsetMask, 0x10000);			
++		}
++		else			//Path A to standby mode
++		{
++			PHY_SetRFReg(pAdapter, RF_PATH_A, RF_AC, bRFRegOffsetMask, 0x10000);			
++			PHY_SetRFReg(pAdapter, RF_PATH_A, RF_MODE1, bRFRegOffsetMask, 0x1000f);			
++			PHY_SetRFReg(pAdapter, RF_PATH_A, RF_MODE2, bRFRegOffsetMask, 0x20103);						
++		}
++
++		delta_offset = ((delta+14)/2);
++		if(delta_offset < 0)
++			delta_offset = 0;
++		else if (delta_offset > 12)
++			delta_offset = 12;
++			
++		//AP calibration
++		for(index = 0; index < APK_BB_REG_NUM; index++)
++		{
++			if(index != 1)		//only DO PA11+PAD01001, AP RF setting
++				continue;
++					
++			tmpReg = APK_RF_init_value[path][index];
++#if 1			
++			if(!pdmpriv->bAPKThermalMeterIgnore)
++			{
++				BB_offset = (tmpReg & 0xF0000) >> 16;
++
++				if(!(tmpReg & BIT15)) //sign bit 0
++				{
++					BB_offset = -BB_offset;
++				}
++
++				delta_V = APK_delta_mapping[index][delta_offset];
++				
++				BB_offset += delta_V;
++
++				//RTPRINT(FINIT, INIT_IQK, ("PHY_APCalibrate() APK num %d delta_V %d delta_offset %d\n", index, delta_V, delta_offset));		
++				
++				if(BB_offset < 0)
++				{
++					tmpReg = tmpReg & (~BIT15);
++					BB_offset = -BB_offset;
++				}
++				else
++				{
++					tmpReg = tmpReg | BIT15;
++				}
++				tmpReg = (tmpReg & 0xFFF0FFFF) | (BB_offset << 16);
++			}
++#endif
++
++#ifdef CONFIG_PCI_HCI
++			if(IS_81xxC_VENDOR_UMC_B_CUT(pHalData->VersionID))
++				PHY_SetRFReg(pAdapter, (RF_RADIO_PATH_E)path, RF_IPA_A, bRFRegOffsetMask, 0x894ae);
++			else
++#endif
++				PHY_SetRFReg(pAdapter, (RF_RADIO_PATH_E)path, RF_IPA_A, bRFRegOffsetMask, 0x8992e);
++			//RTPRINT(FINIT, INIT_IQK, ("PHY_APCalibrate() offset 0xc %x\n", PHY_QueryRFReg(pAdapter, (RF_RADIO_PATH_E)path, 0xc, bMaskDWord)));
++			PHY_SetRFReg(pAdapter, (RF_RADIO_PATH_E)path, RF_AC, bRFRegOffsetMask, APK_RF_value_0[path][index]);
++			//RTPRINT(FINIT, INIT_IQK, ("PHY_APCalibrate() offset 0x0 %x\n", PHY_QueryRFReg(pAdapter, (RF_RADIO_PATH_E)path, 0x0, bMaskDWord)));		
++			PHY_SetRFReg(pAdapter, (RF_RADIO_PATH_E)path, RF_TXBIAS_A, bRFRegOffsetMask, tmpReg);
++			//RTPRINT(FINIT, INIT_IQK, ("PHY_APCalibrate() offset 0xd %x\n", PHY_QueryRFReg(pAdapter, (RF_RADIO_PATH_E)path, 0xd, bMaskDWord)));
++
++			// PA11+PAD01111, one shot	
++			i = 0;
++			do
++			{
++				PHY_SetBBReg(pAdapter, rFPGA0_IQK, bMaskDWord, 0x80000000);
++				{
++					PHY_SetBBReg(pAdapter, APK_offset[path], bMaskDWord, APK_value[0]);		
++					//RTPRINT(FINIT, INIT_IQK, ("PHY_APCalibrate() offset 0x%x value 0x%x\n", APK_offset[path], PHY_QueryBBReg(pAdapter, APK_offset[path], bMaskDWord)));
++					rtw_mdelay_os(3);				
++					PHY_SetBBReg(pAdapter, APK_offset[path], bMaskDWord, APK_value[1]);
++					//RTPRINT(FINIT, INIT_IQK, ("PHY_APCalibrate() offset 0x%x value 0x%x\n", APK_offset[path], PHY_QueryBBReg(pAdapter, APK_offset[path], bMaskDWord)));
++					#ifdef CONFIG_LONG_DELAY_ISSUE
++					rtw_msleep_os(20);
++					#else
++					rtw_mdelay_os(20);
++					#endif
++				}
++				PHY_SetBBReg(pAdapter, rFPGA0_IQK, bMaskDWord, 0x00000000);
++				
++				if(path == RF_PATH_A)
++					tmpReg = PHY_QueryBBReg(pAdapter, rAPK, 0x03E00000);
++				else
++					tmpReg = PHY_QueryBBReg(pAdapter, rAPK, 0xF8000000);
++				//RTPRINT(FINIT, INIT_IQK, ("PHY_APCalibrate() offset 0xbd8[25:21] %x\n", tmpReg));
++
++				i++;
++			}
++			while(tmpReg > apkbound && i < 4);
++
++			APK_result[path][index] = tmpReg;
++		}
++	}
++
++	//reload MAC default value	
++	_PHY_ReloadMACRegisters(pAdapter, MAC_REG, MAC_backup);
++
++	//reload BB default value	
++	for(index = 0; index < APK_BB_REG_NUM ; index++)
++	{
++		if(index == 0)		//skip 
++			continue;
++		PHY_SetBBReg(pAdapter, BB_REG[index], bMaskDWord, BB_backup[index]);
++	}
++
++	//reload AFE default value
++	_PHY_ReloadADDARegisters(pAdapter, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);
++
++	//reload RF path default value
++	for(path = 0; path < pathbound; path++)
++	{
++		PHY_SetRFReg(pAdapter, (RF_RADIO_PATH_E)path, RF_TXBIAS_A, bRFRegOffsetMask, regD[path]);
++		if(path == RF_PATH_B)
++		{
++			PHY_SetRFReg(pAdapter, RF_PATH_A, RF_MODE1, bRFRegOffsetMask, 0x1000f);			
++			PHY_SetRFReg(pAdapter, RF_PATH_A, RF_MODE2, bRFRegOffsetMask, 0x20101);						
++		}
++
++		//note no index == 0
++		if (APK_result[path][1] > 6)
++			APK_result[path][1] = 6;
++		//RTPRINT(FINIT, INIT_IQK, ("apk path %d result %d 0x%x \t", path, 1, APK_result[path][1]));
++	}
++
++	//RTPRINT(FINIT, INIT_IQK, ("\n"));
++	
++
++	for(path = 0; path < pathbound; path++)
++	{
++		PHY_SetRFReg(pAdapter, (RF_RADIO_PATH_E)path, RF_BS_PA_APSET_G1_G4, bRFRegOffsetMask, 
++		((APK_result[path][1] << 15) | (APK_result[path][1] << 10) | (APK_result[path][1] << 5) | APK_result[path][1]));
++		if(path == RF_PATH_A)
++			PHY_SetRFReg(pAdapter, (RF_RADIO_PATH_E)path, RF_BS_PA_APSET_G5_G8, bRFRegOffsetMask, 
++			((APK_result[path][1] << 15) | (APK_result[path][1] << 10) | (0x00 << 5) | 0x05));
++		else
++			PHY_SetRFReg(pAdapter, (RF_RADIO_PATH_E)path, RF_BS_PA_APSET_G5_G8, bRFRegOffsetMask, 
++			((APK_result[path][1] << 15) | (APK_result[path][1] << 10) | (0x02 << 5) | 0x05));
++		PHY_SetRFReg(pAdapter, (RF_RADIO_PATH_E)path, RF_BS_PA_APSET_G9_G11, bRFRegOffsetMask, 
++		((0x08 << 15) | (0x08 << 10) | (0x08 << 5) | 0x08));
++	}
++
++	pdmpriv->bAPKdone = _TRUE;
++
++	//RTPRINT(FINIT, INIT_IQK, ("<==PHY_APCalibrate()\n"));
++}
++
++static VOID _PHY_SetRFPathSwitch(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bMain,
++	IN	BOOLEAN		is2T
++	)
++{
++	u8	u1bTmp;
++
++	if(!pAdapter->hw_init_completed)
++	{
++		u1bTmp = rtw_read8(pAdapter, REG_LEDCFG2) | BIT7;
++		rtw_write8(pAdapter, REG_LEDCFG2, u1bTmp);
++		//PHY_SetBBReg(pAdapter, REG_LEDCFG0, BIT23, 0x01);
++		PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT13, 0x01);
++	}
++
++	if(is2T)
++	{
++		if(bMain)
++			PHY_SetBBReg(pAdapter, rFPGA0_XB_RFInterfaceOE, BIT5|BIT6, 0x1);	//92C_Path_A			
++		else
++			PHY_SetBBReg(pAdapter, rFPGA0_XB_RFInterfaceOE, BIT5|BIT6, 0x2);	//BT							
++	}
++	else
++	{
++	
++		if(bMain)
++			PHY_SetBBReg(pAdapter, rFPGA0_XA_RFInterfaceOE, 0x300, 0x2);	//Main
++		else
++			PHY_SetBBReg(pAdapter, rFPGA0_XA_RFInterfaceOE, 0x300, 0x1);	//Aux		
++	}
++
++}
++
++//return value TRUE => Main; FALSE => Aux
++
++static BOOLEAN _PHY_QueryRFPathSwitch(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		is2T
++	)
++{
++//	if(is2T)
++//		return _TRUE;
++	
++	if(!pAdapter->hw_init_completed)
++	{
++		PHY_SetBBReg(pAdapter, REG_LEDCFG0, BIT23, 0x01);
++		PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT13, 0x01);
++	}
++
++	if(is2T)
++	{
++		if(PHY_QueryBBReg(pAdapter, rFPGA0_XB_RFInterfaceOE, BIT5|BIT6) == 0x01)
++			return _TRUE;
++		else
++			return _FALSE;
++	}
++	else
++	{
++		if(PHY_QueryBBReg(pAdapter, rFPGA0_XA_RFInterfaceOE, 0x300) == 0x02)
++			return _TRUE;
++		else
++			return _FALSE;
++	}
++}
++
++VOID
++rtl8192c_PHY_IQCalibrate(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN 	bReCovery
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	s32			result[4][8];	//last is final result
++	u8			i, final_candidate;
++	BOOLEAN		bPathAOK, bPathBOK;
++	s32			RegE94, RegE9C, RegEA4, RegEAC, RegEB4, RegEBC, RegEC4, RegECC, RegTmp = 0;
++	BOOLEAN		is12simular, is13simular, is23simular;	
++	BOOLEAN 	bStartContTx = _FALSE, bSingleTone = _FALSE, bCarrierSuppression = _FALSE;
++	u32			IQK_BB_REG_92C[IQK_BB_REG_NUM] = {
++					rOFDM0_XARxIQImbalance, 	rOFDM0_XBRxIQImbalance, 
++					rOFDM0_ECCAThreshold, 	rOFDM0_AGCRSSITable,
++					rOFDM0_XATxIQImbalance, 	rOFDM0_XBTxIQImbalance, 
++					rOFDM0_XCTxAFE, 			rOFDM0_XDTxAFE, 
++					rOFDM0_RxIQExtAnta};
++
++
++#if MP_DRIVER == 1	
++	bStartContTx = pAdapter->mppriv.MptCtx.bStartContTx;
++	bSingleTone = pAdapter->mppriv.MptCtx.bSingleTone;
++	bCarrierSuppression = pAdapter->mppriv.MptCtx.bCarrierSuppression;	
++#endif
++
++	//ignore IQK when continuous Tx
++	if(bStartContTx || bSingleTone || bCarrierSuppression)
++		return;
++
++#if DISABLE_BB_RF
++	return;
++#endif
++
++	if(bReCovery)
++	{
++		_PHY_ReloadADDARegisters(pAdapter, IQK_BB_REG_92C, pdmpriv->IQK_BB_backup_recover, 9);
++		return;
++	}
++	DBG_8192C("IQK:Start!!!\n");
++
++	for(i = 0; i < 8; i++)
++	{
++		result[0][i] = 0;
++		result[1][i] = 0;
++		result[2][i] = 0;
++		result[3][i] = 0;
++	}
++	final_candidate = 0xff;
++	bPathAOK = _FALSE;
++	bPathBOK = _FALSE;
++	is12simular = _FALSE;
++	is23simular = _FALSE;
++	is13simular = _FALSE;
++
++	for (i=0; i<3; i++)
++	{
++	 	if(IS_92C_SERIAL( pHalData->VersionID)){
++			 _PHY_IQCalibrate(pAdapter, result, i, _TRUE);
++	 	}
++	 	else{
++	 		// For 88C 1T1R
++	 		_PHY_IQCalibrate(pAdapter, result, i, _FALSE);
++ 		}
++		
++		if(i == 1)
++		{
++			is12simular = _PHY_SimularityCompare(pAdapter, result, 0, 1);
++			if(is12simular)
++			{
++				final_candidate = 0;
++				break;
++			}
++		}
++		
++		if(i == 2)
++		{
++			is13simular = _PHY_SimularityCompare(pAdapter, result, 0, 2);
++			if(is13simular)
++			{
++				final_candidate = 0;			
++				break;
++			}
++			
++			is23simular = _PHY_SimularityCompare(pAdapter, result, 1, 2);
++			if(is23simular)
++				final_candidate = 1;
++			else
++			{
++				for(i = 0; i < 8; i++)
++					RegTmp += result[3][i];
++
++				if(RegTmp != 0)
++					final_candidate = 3;			
++				else
++					final_candidate = 0xFF;
++			}
++		}
++	}
++
++        for (i=0; i<4; i++)
++	{
++		RegE94 = result[i][0];
++		RegE9C = result[i][1];
++		RegEA4 = result[i][2];
++		RegEAC = result[i][3];
++		RegEB4 = result[i][4];
++		RegEBC = result[i][5];
++		RegEC4 = result[i][6];
++		RegECC = result[i][7];
++		//RTPRINT(FINIT, INIT_IQK, ("IQK: RegE94=%lx RegE9C=%lx RegEA4=%lx RegEAC=%lx RegEB4=%lx RegEBC=%lx RegEC4=%lx RegECC=%lx\n ", RegE94, RegE9C, RegEA4, RegEAC, RegEB4, RegEBC, RegEC4, RegECC));
++	}
++
++	if(final_candidate != 0xff)
++	{
++		pdmpriv->RegE94 = RegE94 = result[final_candidate][0];
++		pdmpriv->RegE9C = RegE9C = result[final_candidate][1];
++		RegEA4 = result[final_candidate][2];
++		RegEAC = result[final_candidate][3];
++		pdmpriv->RegEB4 = RegEB4 = result[final_candidate][4];
++		pdmpriv->RegEBC = RegEBC = result[final_candidate][5];
++		RegEC4 = result[final_candidate][6];
++		RegECC = result[final_candidate][7];
++		DBG_8192C("IQK: final_candidate is %x\n", final_candidate);
++		DBG_8192C("IQK: RegE94=%x RegE9C=%x RegEA4=%x RegEAC=%x RegEB4=%x RegEBC=%x RegEC4=%x RegECC=%x\n ", RegE94, RegE9C, RegEA4, RegEAC, RegEB4, RegEBC, RegEC4, RegECC);
++		bPathAOK = bPathBOK = _TRUE;
++	}
++	else
++	{
++		RegE94 = RegEB4 = pdmpriv->RegE94 = pdmpriv->RegEB4 = 0x100;	//X default value
++		RegE9C = RegEBC = pdmpriv->RegE9C = pdmpriv->RegEBC = 0x0;		//Y default value
++	}
++	
++	if((RegE94 != 0)/*&&(RegEA4 != 0)*/)
++		_PHY_PathAFillIQKMatrix(pAdapter, bPathAOK, result, final_candidate, (RegEA4 == 0));
++	
++	if(IS_92C_SERIAL( pHalData->VersionID)){
++		if((RegEB4 != 0)/*&&(RegEC4 != 0)*/)
++		_PHY_PathBFillIQKMatrix(pAdapter, bPathBOK, result, final_candidate, (RegEC4 == 0));
++	}
++
++	_PHY_SaveADDARegisters(pAdapter, IQK_BB_REG_92C, pdmpriv->IQK_BB_backup_recover, 9);
++
++}
++
++
++VOID
++rtl8192c_PHY_LCCalibrate(
++	IN	PADAPTER	pAdapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct mlme_ext_priv	*pmlmeext = &pAdapter->mlmeextpriv;
++	BOOLEAN 	bStartContTx = _FALSE, bSingleTone = _FALSE, bCarrierSuppression = _FALSE;
++
++#if MP_DRIVER == 1
++	bStartContTx = pAdapter->mppriv.MptCtx.bStartContTx;
++	bSingleTone = pAdapter->mppriv.MptCtx.bSingleTone;
++	bCarrierSuppression = pAdapter->mppriv.MptCtx.bCarrierSuppression;
++#endif
++
++#if DISABLE_BB_RF
++	return;
++#endif
++
++	//ignore IQK when continuous Tx
++	if(bStartContTx || bSingleTone || bCarrierSuppression)
++		return;
++
++	if(pmlmeext->sitesurvey_res.state == SCAN_PROCESS)
++		return;
++
++	if(IS_92C_SERIAL( pHalData->VersionID)){
++		_PHY_LCCalibrate(pAdapter, _TRUE);
++	}
++	else{
++		// For 88C 1T1R
++		_PHY_LCCalibrate(pAdapter, _FALSE);
++	}
++}
++
++VOID
++rtl8192c_PHY_APCalibrate(
++	IN	PADAPTER	pAdapter,
++	IN	char 		delta	
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++
++	//default disable APK, because Tx NG issue, suggest by Jenyu, 2011.11.25
++	return;
++
++#if DISABLE_BB_RF
++	return;
++#endif
++
++	if(pdmpriv->bAPKdone)
++		return;
++
++	if(IS_92C_SERIAL( pHalData->VersionID)){
++		_PHY_APCalibrate(pAdapter, delta, _TRUE);
++	}
++	else{
++		// For 88C 1T1R
++		_PHY_APCalibrate(pAdapter, delta, _FALSE);
++	}
++}
++
++VOID rtl8192c_PHY_SetRFPathSwitch(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bMain
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++#if DISABLE_BB_RF
++	return;
++#endif
++
++	if(IS_92C_SERIAL( pHalData->VersionID)){
++		_PHY_SetRFPathSwitch(pAdapter, bMain, _TRUE);
++	}
++	else{
++		// For 88C 1T1R
++		_PHY_SetRFPathSwitch(pAdapter, bMain, _FALSE);
++	}
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_rf6052.c b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_rf6052.c
+new file mode 100755
+index 0000000..cf46969
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_rf6052.c
+@@ -0,0 +1,1031 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/******************************************************************************
++ * 
++ * 
++ * Module:	rtl8192c_rf6052.c	( Source C File)
++ * 
++ * Note:	Provide RF 6052 series relative API.	 
++ *
++ * Function:	
++ * 		 
++ * Export:	
++ * 
++ * Abbrev:	
++ * 
++ * History:
++ * Data			Who		Remark
++ * 
++ * 09/25/2008	MHC		Create initial version.
++ * 11/05/2008 	MHC		Add API for tw power setting.
++ * 
++ * 	
++******************************************************************************/
++
++#define _RTL8192C_RF6052_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <rtw_byteorder.h>
++
++#include <rtl8192c_hal.h>
++
++/*---------------------------Define Local Constant---------------------------*/
++// Define local structure for debug!!!!!
++typedef struct RF_Shadow_Compare_Map {
++	// Shadow register value
++	u32		Value;
++	// Compare or not flag
++	u8		Compare;
++	// Record If it had ever modified unpredicted
++	u8		ErrorOrNot;
++	// Recorver Flag
++	u8		Recorver;
++	//
++	u8		Driver_Write;
++}RF_SHADOW_T;
++/*---------------------------Define Local Constant---------------------------*/
++
++
++/*------------------------Define global variable-----------------------------*/
++/*------------------------Define global variable-----------------------------*/
++
++
++/*------------------------Define local variable------------------------------*/
++// 2008/11/20 MH For Debug only, RF
++//static	RF_SHADOW_T	RF_Shadow[RF6052_MAX_PATH][RF6052_MAX_REG] = {0};
++static	RF_SHADOW_T	RF_Shadow[RF6052_MAX_PATH][RF6052_MAX_REG];
++/*------------------------Define local variable------------------------------*/
++
++
++/*-----------------------------------------------------------------------------
++ * Function:	RF_ChangeTxPath
++ *
++ * Overview:	For RL6052, we must change some RF settign for 1T or 2T.
++ *
++ * Input:		u2Byte DataRate		// 0x80-8f, 0x90-9f
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 09/25/2008 	MHC		Create Version 0.
++ *						Firmwaer support the utility later.
++ *
++ *---------------------------------------------------------------------------*/
++void rtl8192c_RF_ChangeTxPath(	IN	PADAPTER	Adapter, 
++										IN	u16		DataRate)
++{
++// We do not support gain table change inACUT now !!!! Delete later !!!
++#if 0//(RTL92SE_FPGA_VERIFY == 0)
++	static	u1Byte	RF_Path_Type = 2;	// 1 = 1T 2= 2T			
++	static	u4Byte	tx_gain_tbl1[6] 
++			= {0x17f50, 0x11f40, 0x0cf30, 0x08720, 0x04310, 0x00100};
++	static	u4Byte	tx_gain_tbl2[6] 
++			= {0x15ea0, 0x10e90, 0x0c680, 0x08250, 0x04040, 0x00030};
++	u1Byte	i;
++	
++	if (RF_Path_Type == 2 && (DataRate&0xF) <= 0x7)
++	{
++		// Set TX SYNC power G2G3 loop filter
++		PHY_SetRFReg(Adapter, (RF_RADIO_PATH_E)RF_PATH_A, 
++					RF_TXPA_G2, bRFRegOffsetMask, 0x0f000);
++		PHY_SetRFReg(Adapter, (RF_RADIO_PATH_E)RF_PATH_A, 
++					RF_TXPA_G3, bRFRegOffsetMask, 0xeacf1);
++
++		// Change TX AGC gain table
++		for (i = 0; i < 6; i++)					
++			PHY_SetRFReg(Adapter, (RF_RADIO_PATH_E)RF_PATH_A, 
++						RF_TX_AGC, bRFRegOffsetMask, tx_gain_tbl1[i]);
++
++		// Set PA to high value
++		PHY_SetRFReg(Adapter, (RF_RADIO_PATH_E)RF_PATH_A, 
++					RF_TXPA_G2, bRFRegOffsetMask, 0x01e39);
++	}
++	else if (RF_Path_Type == 1 && (DataRate&0xF) >= 0x8)
++	{
++		// Set TX SYNC power G2G3 loop filter
++		PHY_SetRFReg(Adapter, (RF_RADIO_PATH_E)RF_PATH_A, 
++					RF_TXPA_G2, bRFRegOffsetMask, 0x04440);
++		PHY_SetRFReg(Adapter, (RF_RADIO_PATH_E)RF_PATH_A, 
++					RF_TXPA_G3, bRFRegOffsetMask, 0xea4f1);
++
++		// Change TX AGC gain table
++		for (i = 0; i < 6; i++)
++			PHY_SetRFReg(Adapter, (RF_RADIO_PATH_E)RF_PATH_A, 
++						RF_TX_AGC, bRFRegOffsetMask, tx_gain_tbl2[i]);
++
++		// Set PA low gain
++		PHY_SetRFReg(Adapter, (RF_RADIO_PATH_E)RF_PATH_A, 
++					RF_TXPA_G2, bRFRegOffsetMask, 0x01e19);
++	}
++#endif	
++	
++}	/* RF_ChangeTxPath */
++
++
++/*-----------------------------------------------------------------------------
++ * Function:    PHY_RF6052SetBandwidth()
++ *
++ * Overview:    This function is called by SetBWModeCallback8190Pci() only
++ *
++ * Input:       PADAPTER				Adapter
++ *			WIRELESS_BANDWIDTH_E	Bandwidth	//20M or 40M
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Note:		For RF type 0222D
++ *---------------------------------------------------------------------------*/
++VOID
++rtl8192c_PHY_RF6052SetBandwidth(
++	IN	PADAPTER				Adapter,
++	IN	HT_CHANNEL_WIDTH		Bandwidth)	//20M or 40M
++{	
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	
++	switch(Bandwidth)
++	{
++		case HT_CHANNEL_WIDTH_20:
++			pHalData->RfRegChnlVal[0] = ((pHalData->RfRegChnlVal[0] & 0xfffff3ff) | 0x0400);
++			PHY_SetRFReg(Adapter, RF_PATH_A, RF_CHNLBW, bRFRegOffsetMask, pHalData->RfRegChnlVal[0]);
++			break;
++				
++		case HT_CHANNEL_WIDTH_40:
++			pHalData->RfRegChnlVal[0] = ((pHalData->RfRegChnlVal[0] & 0xfffff3ff));
++			PHY_SetRFReg(Adapter, RF_PATH_A, RF_CHNLBW, bRFRegOffsetMask, pHalData->RfRegChnlVal[0]);			
++			break;
++				
++		default:
++			//RT_TRACE(COMP_DBG, DBG_LOUD, ("PHY_SetRF8225Bandwidth(): unknown Bandwidth: %#X\n",Bandwidth ));
++			break;			
++	}
++	
++}
++
++
++/*-----------------------------------------------------------------------------
++ * Function:	PHY_RF6052SetCckTxPower
++ *
++ * Overview:	
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/05/2008 	MHC		Simulate 8192series..
++ *
++ *---------------------------------------------------------------------------*/
++
++VOID
++rtl8192c_PHY_RF6052SetCckTxPower(
++	IN	PADAPTER		Adapter,
++	IN	u8*			pPowerlevel)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	struct dm_priv		*pdmpriv = &pHalData->dmpriv;
++	struct mlme_ext_priv 		*pmlmeext = &Adapter->mlmeextpriv;
++	//PMGNT_INFO		pMgntInfo=&Adapter->MgntInfo;	
++	u32			TxAGC[2]={0, 0}, tmpval=0;
++	BOOLEAN		TurboScanOff = _FALSE;
++	u8			idx1, idx2;
++	u8*			ptr;
++
++	// 2010/10/18 MH Accorsing to SD3 eechou's suggestion, we need to disable turbo scan for RU.	
++	// Otherwise, external PA will be broken if power index > 0x20.
++#ifdef CONFIG_USB_HCI
++	if (pHalData->EEPROMRegulatory != 0 || pHalData->ExternalPA)
++#else
++	if (pHalData->EEPROMRegulatory != 0)
++#endif
++	{
++		//DbgPrint("TurboScanOff=1 EEPROMRegulatory=%d ExternalPA=%d\n", pHalData->EEPROMRegulatory, pHalData->ExternalPA);
++		TurboScanOff = _TRUE;
++	}
++
++	if(pmlmeext->sitesurvey_res.state == SCAN_PROCESS)
++	{
++		TxAGC[RF_PATH_A] = 0x3f3f3f3f;
++		TxAGC[RF_PATH_B] = 0x3f3f3f3f;
++
++		TurboScanOff = _TRUE;//disable turbo scan
++		
++		if(TurboScanOff)
++		{
++			for(idx1=RF_PATH_A; idx1<=RF_PATH_B; idx1++)
++			{
++				TxAGC[idx1] = 
++					pPowerlevel[idx1] | (pPowerlevel[idx1]<<8) |
++					(pPowerlevel[idx1]<<16) | (pPowerlevel[idx1]<<24);
++#ifdef CONFIG_USB_HCI
++				// 2010/10/18 MH For external PA module. We need to limit power index to be less than 0x20.
++				if (TxAGC[idx1] > 0x20 && pHalData->ExternalPA)
++					TxAGC[idx1] = 0x20;
++#endif
++			}
++		}
++	}
++	else
++	{
++// 20100427 Joseph: Driver dynamic Tx power shall not affect Tx power. It shall be determined by power training mechanism.
++// Currently, we cannot fully disable driver dynamic tx power mechanism because it is referenced by BT coexist mechanism.
++// In the future, two mechanism shall be separated from each other and maintained independantly. Thanks for Lanhsin's reminder.
++		if(pdmpriv->DynamicTxHighPowerLvl == TxHighPwrLevel_Level1)
++		{	
++			TxAGC[RF_PATH_A] = 0x10101010;
++			TxAGC[RF_PATH_B] = 0x10101010;
++		}
++		else if(pdmpriv->DynamicTxHighPowerLvl == TxHighPwrLevel_Level2)
++		{	
++			TxAGC[RF_PATH_A] = 0x00000000;
++			TxAGC[RF_PATH_B] = 0x00000000;
++		}
++		else
++		{
++			for(idx1=RF_PATH_A; idx1<=RF_PATH_B; idx1++)
++			{
++				TxAGC[idx1] = 
++					pPowerlevel[idx1] | (pPowerlevel[idx1]<<8) |
++					(pPowerlevel[idx1]<<16) | (pPowerlevel[idx1]<<24);
++			}
++
++			if(pHalData->EEPROMRegulatory==0)
++			{
++				tmpval = (pHalData->MCSTxPowerLevelOriginalOffset[0][6]) + 
++						(pHalData->MCSTxPowerLevelOriginalOffset[0][7]<<8);
++				TxAGC[RF_PATH_A] += tmpval;
++				
++				tmpval = (pHalData->MCSTxPowerLevelOriginalOffset[0][14]) + 
++						(pHalData->MCSTxPowerLevelOriginalOffset[0][15]<<24);
++				TxAGC[RF_PATH_B] += tmpval;
++			}
++		}
++	}
++
++	for(idx1=RF_PATH_A; idx1<=RF_PATH_B; idx1++)
++	{
++		ptr = (u8*)(&(TxAGC[idx1]));
++		for(idx2=0; idx2<4; idx2++)
++		{
++			if(*ptr > RF6052_MAX_TX_PWR)
++				*ptr = RF6052_MAX_TX_PWR;
++			ptr++;
++		}
++	}
++
++	// rf-A cck tx power
++	tmpval = TxAGC[RF_PATH_A]&0xff;
++	PHY_SetBBReg(Adapter, rTxAGC_A_CCK1_Mcs32, bMaskByte1, tmpval);
++	//RTPRINT(FPHY, PHY_TXPWR, ("CCK PWR 1M (rf-A) = 0x%x (reg 0x%x)\n", tmpval, rTxAGC_A_CCK1_Mcs32));
++	tmpval = TxAGC[RF_PATH_A]>>8;
++	PHY_SetBBReg(Adapter, rTxAGC_B_CCK11_A_CCK2_11, 0xffffff00, tmpval);
++	//RTPRINT(FPHY, PHY_TXPWR, ("CCK PWR 2~11M (rf-A) = 0x%x (reg 0x%x)\n", tmpval, rTxAGC_B_CCK11_A_CCK2_11));
++
++	// rf-B cck tx power
++	tmpval = TxAGC[RF_PATH_B]>>24;
++	PHY_SetBBReg(Adapter, rTxAGC_B_CCK11_A_CCK2_11, bMaskByte0, tmpval);
++	//RTPRINT(FPHY, PHY_TXPWR, ("CCK PWR 11M (rf-B) = 0x%x (reg 0x%x)\n", tmpval, rTxAGC_B_CCK11_A_CCK2_11));
++	tmpval = TxAGC[RF_PATH_B]&0x00ffffff;
++	PHY_SetBBReg(Adapter, rTxAGC_B_CCK1_55_Mcs32, 0xffffff00, tmpval);
++	//RTPRINT(FPHY, PHY_TXPWR, ("CCK PWR 1~5.5M (rf-B) = 0x%x (reg 0x%x)\n", 
++	//	tmpval, rTxAGC_B_CCK1_55_Mcs32));
++	
++}	/* PHY_RF6052SetCckTxPower */
++
++//
++// powerbase0 for OFDM rates
++// powerbase1 for HT MCS rates
++//
++static void getPowerBase(
++	IN	PADAPTER	Adapter,
++	IN	u8*		pPowerLevel,
++	IN	u8		Channel,
++	IN OUT u32*	OfdmBase,
++	IN OUT u32*	MCSBase
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u32			powerBase0, powerBase1;
++	u8			Legacy_pwrdiff=0;
++	s8			HT20_pwrdiff=0;
++	u8			i, powerlevel[2];
++
++	for(i=0; i<2; i++)
++	{
++		powerlevel[i] = pPowerLevel[i];
++		Legacy_pwrdiff = pHalData->TxPwrLegacyHtDiff[i][Channel-1];			
++		powerBase0 = powerlevel[i] + Legacy_pwrdiff; 
++
++		powerBase0 = (powerBase0<<24) | (powerBase0<<16) |(powerBase0<<8) |powerBase0;
++		*(OfdmBase+i) = powerBase0;
++		//RTPRINT(FPHY, PHY_TXPWR, (" [OFDM power base index rf(%c) = 0x%x]\n", ((i==0)?'A':'B'), *(OfdmBase+i)));
++	}
++
++	for(i=0; i<2; i++)
++	{
++		//Check HT20 to HT40 diff
++		if(pHalData->CurrentChannelBW == HT_CHANNEL_WIDTH_20)
++		{
++			HT20_pwrdiff = pHalData->TxPwrHt20Diff[i][Channel-1];
++			powerlevel[i] += HT20_pwrdiff;
++		}
++		powerBase1 = powerlevel[i];
++		powerBase1 = (powerBase1<<24) | (powerBase1<<16) |(powerBase1<<8) |powerBase1;
++		*(MCSBase+i) = powerBase1;
++		//RTPRINT(FPHY, PHY_TXPWR, (" [MCS power base index rf(%c) = 0x%x]\n", ((i==0)?'A':'B'), *(MCSBase+i)));
++	}
++}
++
++static void getTxPowerWriteValByRegulatory(
++	IN		PADAPTER	Adapter,
++	IN		u8		Channel,
++	IN		u8		index,
++	IN		u32*		powerBase0,
++	IN		u32*		powerBase1,
++	OUT		u32*		pOutWriteVal
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	u8	i, chnlGroup, pwr_diff_limit[4];
++	u32 	writeVal, customer_limit, rf;
++	
++	//
++	// Index 0 & 1= legacy OFDM, 2-5=HT_MCS rate
++	//
++	for(rf=0; rf<2; rf++)
++	{
++		switch(pHalData->EEPROMRegulatory)
++		{
++			case 0:	// Realtek better performance
++					// increase power diff defined by Realtek for large power
++				chnlGroup = 0;
++				//RTPRINT(FPHY, PHY_TXPWR, ("MCSTxPowerLevelOriginalOffset[%d][%d] = 0x%x\n", 
++				//	chnlGroup, index, pHalData->MCSTxPowerLevelOriginalOffset[chnlGroup][index+(rf?8:0)]));
++				writeVal = pHalData->MCSTxPowerLevelOriginalOffset[chnlGroup][index+(rf?8:0)] + 
++					((index<2)?powerBase0[rf]:powerBase1[rf]);
++				//RTPRINT(FPHY, PHY_TXPWR, ("RTK better performance, writeVal(%c) = 0x%x\n", ((rf==0)?'A':'B'), writeVal));
++				break;
++			case 1:	// Realtek regulatory
++					// increase power diff defined by Realtek for regulatory
++				{
++					if(pHalData->pwrGroupCnt == 1)
++						chnlGroup = 0;
++					if(pHalData->pwrGroupCnt >= 3)
++					{
++						if(Channel <= 3)
++							chnlGroup = 0;
++						else if(Channel >= 4 && Channel <= 9)
++							chnlGroup = 1;
++						else if(Channel > 9)
++							chnlGroup = 2;
++
++						if(pHalData->CurrentChannelBW == HT_CHANNEL_WIDTH_20)
++							chnlGroup++;
++						else
++							chnlGroup+=4;
++					}
++					//RTPRINT(FPHY, PHY_TXPWR, ("MCSTxPowerLevelOriginalOffset[%d][%d] = 0x%x\n", 
++					//chnlGroup, index, pHalData->MCSTxPowerLevelOriginalOffset[chnlGroup][index+(rf?8:0)]));
++					writeVal = pHalData->MCSTxPowerLevelOriginalOffset[chnlGroup][index+(rf?8:0)] + 
++							((index<2)?powerBase0[rf]:powerBase1[rf]);
++					//RTPRINT(FPHY, PHY_TXPWR, ("Realtek regulatory, 20MHz, writeVal(%c) = 0x%x\n", ((rf==0)?'A':'B'), writeVal));
++				}
++				break;
++			case 2:	// Better regulatory
++					// don't increase any power diff
++				writeVal = ((index<2)?powerBase0[rf]:powerBase1[rf]);
++				//RTPRINT(FPHY, PHY_TXPWR, ("Better regulatory, writeVal(%c) = 0x%x\n", ((rf==0)?'A':'B'), writeVal));
++				break;
++			case 3:	// Customer defined power diff.
++					// increase power diff defined by customer.
++				chnlGroup = 0;
++				//RTPRINT(FPHY, PHY_TXPWR, ("MCSTxPowerLevelOriginalOffset[%d][%d] = 0x%x\n", 
++				//	chnlGroup, index, pHalData->MCSTxPowerLevelOriginalOffset[chnlGroup][index+(rf?8:0)]));
++
++				if (pHalData->CurrentChannelBW == HT_CHANNEL_WIDTH_40)
++				{
++					//RTPRINT(FPHY, PHY_TXPWR, ("customer's limit, 40MHz rf(%c) = 0x%x\n", 
++					//	((rf==0)?'A':'B'), pHalData->PwrGroupHT40[rf][Channel-1]));
++				}
++				else
++				{
++					//RTPRINT(FPHY, PHY_TXPWR, ("customer's limit, 20MHz rf(%c) = 0x%x\n", 
++					//	((rf==0)?'A':'B'), pHalData->PwrGroupHT20[rf][Channel-1]));
++				}
++				for (i=0; i<4; i++)
++				{
++					pwr_diff_limit[i] = (u8)((pHalData->MCSTxPowerLevelOriginalOffset[chnlGroup][index+(rf?8:0)]&(0x7f<<(i*8)))>>(i*8));
++					if (pHalData->CurrentChannelBW == HT_CHANNEL_WIDTH_40)
++					{
++						if(pwr_diff_limit[i] > pHalData->PwrGroupHT40[rf][Channel-1])
++							pwr_diff_limit[i] = pHalData->PwrGroupHT40[rf][Channel-1];
++					}
++					else
++					{
++						if(pwr_diff_limit[i] > pHalData->PwrGroupHT20[rf][Channel-1])
++							pwr_diff_limit[i] = pHalData->PwrGroupHT20[rf][Channel-1];
++					}
++				}
++				customer_limit = (pwr_diff_limit[3]<<24) | (pwr_diff_limit[2]<<16) |
++								(pwr_diff_limit[1]<<8) | (pwr_diff_limit[0]);
++				//RTPRINT(FPHY, PHY_TXPWR, ("Customer's limit rf(%c) = 0x%x\n", ((rf==0)?'A':'B'), customer_limit));
++
++				writeVal = customer_limit + ((index<2)?powerBase0[rf]:powerBase1[rf]);
++				//RTPRINT(FPHY, PHY_TXPWR, ("Customer, writeVal rf(%c)= 0x%x\n", ((rf==0)?'A':'B'), writeVal));
++				break;
++			default:
++				chnlGroup = 0;
++				writeVal = pHalData->MCSTxPowerLevelOriginalOffset[chnlGroup][index+(rf?8:0)] + 
++						((index<2)?powerBase0[rf]:powerBase1[rf]);
++				//RTPRINT(FPHY, PHY_TXPWR, ("RTK better performance, writeVal rf(%c) = 0x%x\n", ((rf==0)?'A':'B'), writeVal));
++				break;
++		}
++
++// 20100427 Joseph: Driver dynamic Tx power shall not affect Tx power. It shall be determined by power training mechanism.
++// Currently, we cannot fully disable driver dynamic tx power mechanism because it is referenced by BT coexist mechanism.
++// In the future, two mechanism shall be separated from each other and maintained independantly. Thanks for Lanhsin's reminder.
++
++		if(pdmpriv->DynamicTxHighPowerLvl == TxHighPwrLevel_Level1)
++			writeVal = 0x14141414;
++		else if(pdmpriv->DynamicTxHighPowerLvl == TxHighPwrLevel_Level2)
++			writeVal = 0x00000000;
++
++
++		// 20100628 Joseph: High power mode for BT-Coexist mechanism.
++		// This mechanism is only applied when Driver-Highpower-Mechanism is OFF.
++		if(pdmpriv->DynamicTxHighPowerLvl == TxHighPwrLevel_BT1)
++		{
++			//RTPRINT(FBT, BT_TRACE, ("Tx Power (-6)\n"));
++			writeVal = writeVal - 0x06060606;
++		}
++		else if(pdmpriv->DynamicTxHighPowerLvl == TxHighPwrLevel_BT2)
++		{
++			//RTPRINT(FBT, BT_TRACE, ("Tx Power (-0)\n"));
++			writeVal = writeVal;
++		}
++		*(pOutWriteVal+rf) = writeVal;
++	}
++}
++
++static void writeOFDMPowerReg(
++	IN		PADAPTER	Adapter,
++	IN		u8		index,
++	IN 		u32*		pValue
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u16 RegOffset_A[6] = {	rTxAGC_A_Rate18_06, rTxAGC_A_Rate54_24, 
++							rTxAGC_A_Mcs03_Mcs00, rTxAGC_A_Mcs07_Mcs04, 
++							rTxAGC_A_Mcs11_Mcs08, rTxAGC_A_Mcs15_Mcs12};
++	u16 RegOffset_B[6] = {	rTxAGC_B_Rate18_06, rTxAGC_B_Rate54_24, 
++							rTxAGC_B_Mcs03_Mcs00, rTxAGC_B_Mcs07_Mcs04,
++							rTxAGC_B_Mcs11_Mcs08, rTxAGC_B_Mcs15_Mcs12};
++	u8 i, rf, pwr_val[4];
++	u32 writeVal;
++	u16 RegOffset;
++
++	for(rf=0; rf<2; rf++)
++	{
++		writeVal = pValue[rf];
++		for(i=0; i<4; i++)
++		{
++			pwr_val[i] = (u8)((writeVal & (0x7f<<(i*8)))>>(i*8));
++			if (pwr_val[i]  > RF6052_MAX_TX_PWR)
++				pwr_val[i]  = RF6052_MAX_TX_PWR;
++		}
++		writeVal = (pwr_val[3]<<24) | (pwr_val[2]<<16) |(pwr_val[1]<<8) |pwr_val[0];
++
++		if(rf == 0)
++			RegOffset = RegOffset_A[index];
++		else
++			RegOffset = RegOffset_B[index];
++		
++		PHY_SetBBReg(Adapter, RegOffset, bMaskDWord, writeVal);
++		//RTPRINT(FPHY, PHY_TXPWR, ("Set 0x%x = %08x\n", RegOffset, writeVal));
++
++		// 201005115 Joseph: Set Tx Power diff for Tx power training mechanism.
++		if(((pHalData->rf_type == RF_2T2R) && 
++				(RegOffset == rTxAGC_A_Mcs15_Mcs12 || RegOffset == rTxAGC_B_Mcs15_Mcs12))||
++		     ((pHalData->rf_type != RF_2T2R) && 
++				(RegOffset == rTxAGC_A_Mcs07_Mcs04 || RegOffset == rTxAGC_B_Mcs07_Mcs04))	)
++		{
++			writeVal = pwr_val[3];
++			if(RegOffset == rTxAGC_A_Mcs15_Mcs12 || RegOffset == rTxAGC_A_Mcs07_Mcs04)
++				RegOffset = 0xc90;
++			if(RegOffset == rTxAGC_B_Mcs15_Mcs12 || RegOffset == rTxAGC_B_Mcs07_Mcs04)
++				RegOffset = 0xc98;
++			for(i=0; i<3; i++)
++			{
++				if(i!=2)
++					writeVal = (writeVal>8)?(writeVal-8):0;
++				else
++					writeVal = (writeVal>6)?(writeVal-6):0;
++				rtw_write8(Adapter, (u32)(RegOffset+i), (u8)writeVal);
++			}
++		}
++	}
++}
++/*-----------------------------------------------------------------------------
++ * Function:	PHY_RF6052SetOFDMTxPower
++ *
++ * Overview:	For legacy and HY OFDM, we must read EEPROM TX power index for 
++ *			different channel and read original value in TX power register area from
++ *			0xe00. We increase offset and original value to be correct tx pwr.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/05/2008 	MHC		Simulate 8192 series method.
++ * 01/06/2009	MHC		1. Prevent Path B tx power overflow or underflow dure to
++ *						A/B pwr difference or legacy/HT pwr diff.
++ *						2. We concern with path B legacy/HT OFDM difference.
++ * 01/22/2009	MHC		Support new EPRO format from SD3.
++ *
++ *---------------------------------------------------------------------------*/
++VOID 
++rtl8192c_PHY_RF6052SetOFDMTxPower(
++	IN	PADAPTER	Adapter,
++	IN	u8*		pPowerLevel,
++	IN	u8		Channel)
++{
++	//HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u32 writeVal[2], powerBase0[2], powerBase1[2];
++	u8 index = 0;
++
++	getPowerBase(Adapter, pPowerLevel, Channel, &powerBase0[0], &powerBase1[0]);
++
++	for(index=0; index<6; index++)
++	{
++		getTxPowerWriteValByRegulatory(Adapter, Channel, index, 
++			&powerBase0[0], &powerBase1[0], &writeVal[0]);
++
++		writeOFDMPowerReg(Adapter, index, &writeVal[0]);
++	}
++	
++}
++
++
++static VOID
++phy_RF6052_Config_HardCode(
++	IN	PADAPTER		Adapter
++	)
++{
++	
++	// Set Default Bandwidth to 20M
++	//Adapter->HalFunc	.SetBWModeHandler(Adapter, HT_CHANNEL_WIDTH_20);
++
++	// TODO: Set Default Channel to channel one for RTL8225
++	
++}
++
++static int
++phy_RF6052_Config_ParaFile(
++	IN	PADAPTER		Adapter
++	)
++{
++	u32					u4RegValue;
++	u8					eRFPath;		
++	BB_REGISTER_DEFINITION_T	*pPhyReg;	
++
++	int					rtStatus = _SUCCESS;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	static char			sz88CRadioAFile[] = RTL8188C_PHY_RADIO_A;	
++	static char			sz88CRadioBFile[] = RTL8188C_PHY_RADIO_B;
++#ifdef CONFIG_USB_HCI
++	static char			sz88CRadioAFile_mCard[] = RTL8188C_PHY_RADIO_A_mCard;	
++	static char			sz88CRadioBFile_mCard[] = RTL8188C_PHY_RADIO_B_mCard;
++	static char			sz88CRadioAFile_HP[] = RTL8188C_PHY_RADIO_A_HP;	
++#endif
++	static char			sz92CRadioAFile[] = RTL8192C_PHY_RADIO_A;	
++	static char			sz92CRadioBFile[] = RTL8192C_PHY_RADIO_B;
++	static char			sz8723RadioAFile[] = RTL8723_PHY_RADIO_A;	
++	static char			sz8723RadioBFile[] = RTL8723_PHY_RADIO_B;
++	char					*pszRadioAFile, *pszRadioBFile;	
++
++
++	if(IS_HARDWARE_TYPE_8192C(Adapter))
++	{
++		if(IS_92C_SERIAL( pHalData->VersionID))// 88c's IPA  is different from 92c's
++		{
++			pszRadioAFile = sz92CRadioAFile;
++			pszRadioBFile = sz92CRadioBFile;
++		}
++		else
++		{
++			pszRadioAFile = sz88CRadioAFile;
++			pszRadioBFile = sz88CRadioBFile;
++#ifdef CONFIG_USB_HCI
++			if( BOARD_MINICARD == pHalData->BoardType)
++			{
++				pszRadioAFile = sz88CRadioAFile_mCard;
++				pszRadioBFile = sz88CRadioBFile_mCard;
++			}
++			else if( BOARD_USB_High_PA == pHalData->BoardType)
++			{
++				pszRadioAFile = sz88CRadioAFile_HP;
++			}
++#endif	
++		}
++	}
++	else if(IS_HARDWARE_TYPE_8723A(Adapter))
++	{
++		pszRadioAFile = sz8723RadioAFile;
++		pszRadioBFile = sz8723RadioBFile;	
++	}
++
++	//3//-----------------------------------------------------------------
++	//3// <2> Initialize RF
++	//3//-----------------------------------------------------------------
++	//for(eRFPath = RF_PATH_A; eRFPath <pHalData->NumTotalRFPath; eRFPath++)
++	for(eRFPath = 0; eRFPath <pHalData->NumTotalRFPath; eRFPath++)
++	{
++
++		pPhyReg = &pHalData->PHYRegDef[eRFPath];
++		
++		/*----Store original RFENV control type----*/		
++		switch(eRFPath)
++		{
++		case RF_PATH_A:
++		case RF_PATH_C:
++			u4RegValue = PHY_QueryBBReg(Adapter, pPhyReg->rfintfs, bRFSI_RFENV);
++			break;
++		case RF_PATH_B :
++		case RF_PATH_D:
++			u4RegValue = PHY_QueryBBReg(Adapter, pPhyReg->rfintfs, bRFSI_RFENV<<16);
++			break;
++		}
++
++		/*----Set RF_ENV enable----*/		
++		PHY_SetBBReg(Adapter, pPhyReg->rfintfe, bRFSI_RFENV<<16, 0x1);
++		rtw_udelay_os(1);//PlatformStallExecution(1);
++		
++		/*----Set RF_ENV output high----*/
++		PHY_SetBBReg(Adapter, pPhyReg->rfintfo, bRFSI_RFENV, 0x1);
++		rtw_udelay_os(1);//PlatformStallExecution(1);
++
++		/* Set bit number of Address and Data for RF register */
++		PHY_SetBBReg(Adapter, pPhyReg->rfHSSIPara2, b3WireAddressLength, 0x0); 	// Set 1 to 4 bits for 8255
++		rtw_udelay_os(1);//PlatformStallExecution(1);
++
++		PHY_SetBBReg(Adapter, pPhyReg->rfHSSIPara2, b3WireDataLength, 0x0);	// Set 0 to 12  bits for 8255
++		rtw_udelay_os(1);//PlatformStallExecution(1);
++
++		/*----Initialize RF fom connfiguration file----*/
++		switch(eRFPath)
++		{
++		case RF_PATH_A:
++#ifdef CONFIG_EMBEDDED_FWIMG
++			rtStatus= rtl8192c_PHY_ConfigRFWithHeaderFile(Adapter,(RF_RADIO_PATH_E)eRFPath);
++#else
++			rtStatus = rtl8192c_PHY_ConfigRFWithParaFile(Adapter, pszRadioAFile, (RF_RADIO_PATH_E)eRFPath);
++#endif
++			break;
++		case RF_PATH_B:
++#ifdef CONFIG_EMBEDDED_FWIMG
++			rtStatus = rtl8192c_PHY_ConfigRFWithHeaderFile(Adapter,(RF_RADIO_PATH_E)eRFPath);
++#else			
++			rtStatus = rtl8192c_PHY_ConfigRFWithParaFile(Adapter, pszRadioBFile, (RF_RADIO_PATH_E)eRFPath);
++#endif
++			break;
++		case RF_PATH_C:
++			break;
++		case RF_PATH_D:
++			break;
++		}
++
++		/*----Restore RFENV control type----*/;
++		switch(eRFPath)
++		{
++		case RF_PATH_A:
++		case RF_PATH_C:
++			PHY_SetBBReg(Adapter, pPhyReg->rfintfs, bRFSI_RFENV, u4RegValue);
++			break;
++		case RF_PATH_B :
++		case RF_PATH_D:
++			PHY_SetBBReg(Adapter, pPhyReg->rfintfs, bRFSI_RFENV<<16, u4RegValue);
++			break;
++		}
++
++		if(rtStatus != _SUCCESS){
++			//RT_TRACE(COMP_FPGA, DBG_LOUD, ("phy_RF6052_Config_ParaFile():Radio[%d] Fail!!", eRFPath));
++			goto phy_RF6052_Config_ParaFile_Fail;
++		}
++
++	}
++
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("<---phy_RF6052_Config_ParaFile()\n"));
++	return rtStatus;
++	
++phy_RF6052_Config_ParaFile_Fail:	
++	return rtStatus;
++}
++
++
++int
++PHY_RF6052_Config8192C(
++	IN	PADAPTER		Adapter)
++{
++	HAL_DATA_TYPE				*pHalData = GET_HAL_DATA(Adapter);
++	int					rtStatus = _SUCCESS;	
++	
++	//
++	// Initialize general global value
++	//
++	// TODO: Extend RF_PATH_C and RF_PATH_D in the future
++	if(pHalData->rf_type == RF_1T1R)
++		pHalData->NumTotalRFPath = 1;
++	else
++		pHalData->NumTotalRFPath = 2;
++
++	//
++	// Config BB and RF
++	//
++	rtStatus = phy_RF6052_Config_ParaFile(Adapter);
++#if 0	
++	switch( Adapter->MgntInfo.bRegHwParaFile )
++	{
++		case 0:
++			phy_RF6052_Config_HardCode(Adapter);
++			break;
++
++		case 1:
++			rtStatus = phy_RF6052_Config_ParaFile(Adapter);
++			break;
++
++		case 2:
++			// Partial Modify. 
++			phy_RF6052_Config_HardCode(Adapter);
++			phy_RF6052_Config_ParaFile(Adapter);
++			break;
++
++		default:
++			phy_RF6052_Config_HardCode(Adapter);
++			break;
++	}
++#endif	
++	return rtStatus;
++		
++}
++
++
++//
++// ==> RF shadow Operation API Code Section!!!
++//
++/*-----------------------------------------------------------------------------
++ * Function:	PHY_RFShadowRead
++ *				PHY_RFShadowWrite
++ *				PHY_RFShadowCompare
++ *				PHY_RFShadowRecorver
++ *				PHY_RFShadowCompareAll
++ *				PHY_RFShadowRecorverAll
++ *				PHY_RFShadowCompareFlagSet
++ *				PHY_RFShadowRecorverFlagSet
++ *
++ * Overview:	When we set RF register, we must write shadow at first.
++ *			When we are running, we must compare shadow abd locate error addr.
++ *			Decide to recorver or not.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/20/2008 	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++u32
++PHY_RFShadowRead(
++	IN	PADAPTER			Adapter,
++	IN	RF_RADIO_PATH_E	eRFPath,
++	IN	u32				Offset)
++{
++	return	RF_Shadow[eRFPath][Offset].Value;
++	
++}	/* PHY_RFShadowRead */
++
++
++VOID
++PHY_RFShadowWrite(
++	IN	PADAPTER			Adapter,
++	IN	RF_RADIO_PATH_E	eRFPath,
++	IN	u32				Offset,
++	IN	u32				Data)
++{
++	RF_Shadow[eRFPath][Offset].Value = (Data & bRFRegOffsetMask);
++	RF_Shadow[eRFPath][Offset].Driver_Write = _TRUE;
++	
++}	/* PHY_RFShadowWrite */
++
++
++BOOLEAN
++PHY_RFShadowCompare(
++	IN	PADAPTER			Adapter,
++	IN	RF_RADIO_PATH_E	eRFPath,
++	IN	u32				Offset)
++{
++	u32	reg;
++	// Check if we need to check the register
++	if (RF_Shadow[eRFPath][Offset].Compare == _TRUE)
++	{
++		reg = PHY_QueryRFReg(Adapter, eRFPath, Offset, bRFRegOffsetMask);
++		// Compare shadow and real rf register for 20bits!!
++		if (RF_Shadow[eRFPath][Offset].Value != reg)
++		{
++			// Locate error position.
++			RF_Shadow[eRFPath][Offset].ErrorOrNot = _TRUE;
++			//RT_TRACE(COMP_INIT, DBG_LOUD, 
++			//("PHY_RFShadowCompare RF-%d Addr%02lx Err = %05lx\n", 
++			//eRFPath, Offset, reg));
++		}
++		return RF_Shadow[eRFPath][Offset].ErrorOrNot ;
++	}
++	return _FALSE;
++}	/* PHY_RFShadowCompare */
++
++
++VOID
++PHY_RFShadowRecorver(
++	IN	PADAPTER			Adapter,
++	IN	RF_RADIO_PATH_E	eRFPath,
++	IN	u32				Offset)
++{
++	// Check if the address is error
++	if (RF_Shadow[eRFPath][Offset].ErrorOrNot == _TRUE)
++	{
++		// Check if we need to recorver the register.
++		if (RF_Shadow[eRFPath][Offset].Recorver == _TRUE)
++		{
++			PHY_SetRFReg(Adapter, eRFPath, Offset, bRFRegOffsetMask, 
++							RF_Shadow[eRFPath][Offset].Value);
++			//RT_TRACE(COMP_INIT, DBG_LOUD, 
++			//("PHY_RFShadowRecorver RF-%d Addr%02lx=%05lx", 
++			//eRFPath, Offset, RF_Shadow[eRFPath][Offset].Value));
++		}
++	}
++	
++}	/* PHY_RFShadowRecorver */
++
++
++VOID
++PHY_RFShadowCompareAll(
++	IN	PADAPTER			Adapter)
++{
++	u32		eRFPath;
++	u32		Offset;
++
++	for (eRFPath = 0; eRFPath < RF6052_MAX_PATH; eRFPath++)
++	{
++		for (Offset = 0; Offset <= RF6052_MAX_REG; Offset++)
++		{
++			PHY_RFShadowCompare(Adapter, (RF_RADIO_PATH_E)eRFPath, Offset);
++		}
++	}
++	
++}	/* PHY_RFShadowCompareAll */
++
++
++VOID
++PHY_RFShadowRecorverAll(
++	IN	PADAPTER			Adapter)
++{
++	u32		eRFPath;
++	u32		Offset;
++
++	for (eRFPath = 0; eRFPath < RF6052_MAX_PATH; eRFPath++)
++	{
++		for (Offset = 0; Offset <= RF6052_MAX_REG; Offset++)
++		{
++			PHY_RFShadowRecorver(Adapter, (RF_RADIO_PATH_E)eRFPath, Offset);
++		}
++	}
++	
++}	/* PHY_RFShadowRecorverAll */
++
++
++VOID
++PHY_RFShadowCompareFlagSet(
++	IN	PADAPTER			Adapter,
++	IN	RF_RADIO_PATH_E	eRFPath,
++	IN	u32				Offset,
++	IN	u8				Type)
++{
++	// Set True or False!!!
++	RF_Shadow[eRFPath][Offset].Compare = Type;
++		
++}	/* PHY_RFShadowCompareFlagSet */
++
++
++VOID
++PHY_RFShadowRecorverFlagSet(
++	IN	PADAPTER			Adapter,
++	IN	RF_RADIO_PATH_E	eRFPath,
++	IN	u32				Offset,
++	IN	u8				Type)
++{
++	// Set True or False!!!
++	RF_Shadow[eRFPath][Offset].Recorver= Type;
++		
++}	/* PHY_RFShadowRecorverFlagSet */
++
++
++VOID
++PHY_RFShadowCompareFlagSetAll(
++	IN	PADAPTER			Adapter)
++{
++	u32		eRFPath;
++	u32		Offset;
++
++	for (eRFPath = 0; eRFPath < RF6052_MAX_PATH; eRFPath++)
++	{
++		for (Offset = 0; Offset <= RF6052_MAX_REG; Offset++)
++		{
++			// 2008/11/20 MH For S3S4 test, we only check reg 26/27 now!!!!
++			if (Offset != 0x26 && Offset != 0x27)
++				PHY_RFShadowCompareFlagSet(Adapter, (RF_RADIO_PATH_E)eRFPath, Offset, _FALSE);
++			else
++				PHY_RFShadowCompareFlagSet(Adapter, (RF_RADIO_PATH_E)eRFPath, Offset, _TRUE);
++		}
++	}
++		
++}	/* PHY_RFShadowCompareFlagSetAll */
++
++
++VOID
++PHY_RFShadowRecorverFlagSetAll(
++	IN	PADAPTER			Adapter)
++{
++	u32		eRFPath;
++	u32		Offset;
++
++	for (eRFPath = 0; eRFPath < RF6052_MAX_PATH; eRFPath++)
++	{
++		for (Offset = 0; Offset <= RF6052_MAX_REG; Offset++)
++		{
++			// 2008/11/20 MH For S3S4 test, we only check reg 26/27 now!!!!
++			if (Offset != 0x26 && Offset != 0x27)
++				PHY_RFShadowRecorverFlagSet(Adapter, (RF_RADIO_PATH_E)eRFPath, Offset, _FALSE);
++			else
++				PHY_RFShadowRecorverFlagSet(Adapter, (RF_RADIO_PATH_E)eRFPath, Offset, _TRUE);
++		}
++	}
++		
++}	/* PHY_RFShadowCompareFlagSetAll */
++
++VOID
++PHY_RFShadowRefresh(
++	IN	PADAPTER			Adapter)
++{
++	u32		eRFPath;
++	u32		Offset;
++
++	for (eRFPath = 0; eRFPath < RF6052_MAX_PATH; eRFPath++)
++	{
++		for (Offset = 0; Offset <= RF6052_MAX_REG; Offset++)
++		{
++			RF_Shadow[eRFPath][Offset].Value = 0;
++			RF_Shadow[eRFPath][Offset].Compare = _FALSE;
++			RF_Shadow[eRFPath][Offset].Recorver  = _FALSE;
++			RF_Shadow[eRFPath][Offset].ErrorOrNot = _FALSE;
++			RF_Shadow[eRFPath][Offset].Driver_Write = _FALSE;
++		}
++	}
++	
++}	/* PHY_RFShadowRead */
++
++/* End of HalRf6052.c */
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_rxdesc.c b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_rxdesc.c
+new file mode 100755
+index 0000000..3e0d795
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_rxdesc.c
+@@ -0,0 +1,876 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8192C_REDESC_C_
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <rtl8192c_hal.h>
++
++static u8 evm_db2percentage(s8 value)
++{
++	//
++	// -33dB~0dB to 0%~99%
++	//
++	s8 ret_val;
++
++	ret_val = value;
++	//ret_val /= 2;
++
++	RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("EVMdbToPercentage92S Value=%d / %x \n", ret_val, ret_val));
++
++	if(ret_val >= 0)
++		ret_val = 0;
++	if(ret_val <= -33)
++		ret_val = -33;
++
++	ret_val = 0 - ret_val;
++	ret_val*=3;
++
++	if(ret_val == 99)
++		ret_val = 100;
++
++	return(ret_val);
++}
++
++
++static s32 signal_scale_mapping(_adapter *padapter, s32 cur_sig )
++{
++	s32 ret_sig;
++
++#ifdef CONFIG_USB_HCI
++	if(cur_sig >= 51 && cur_sig <= 100)
++	{
++		ret_sig = 100;
++	}
++	else if(cur_sig >= 41 && cur_sig <= 50)
++	{
++		ret_sig = 80 + ((cur_sig - 40)*2);
++	}
++	else if(cur_sig >= 31 && cur_sig <= 40)
++	{
++		ret_sig = 66 + (cur_sig - 30);
++	}
++	else if(cur_sig >= 21 && cur_sig <= 30)
++	{
++		ret_sig = 54 + (cur_sig - 20);
++	}
++	else if(cur_sig >= 10 && cur_sig <= 20)
++	{
++		ret_sig = 42 + (((cur_sig - 10) * 2) / 3);
++	}
++	else if(cur_sig >= 5 && cur_sig <= 9)
++	{
++		ret_sig = 22 + (((cur_sig - 5) * 3) / 2);
++	}
++	else if(cur_sig >= 1 && cur_sig <= 4)
++	{
++		ret_sig = 6 + (((cur_sig - 1) * 3) / 2);
++	}
++	else
++	{
++		ret_sig = cur_sig;
++	}
++#else
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	if(pHalData->CustomerID == RT_CID_819x_Lenovo)
++	{
++		// Step 1. Scale mapping.
++		// 20100611 Joseph: Re-tunning RSSI presentation for Lenovo.
++		// 20100426 Joseph: Modify Signal strength mapping.
++		// This modification makes the RSSI indication similar to Intel solution.
++		// 20100414 Joseph: Tunning RSSI for Lenovo according to RTL8191SE.
++		if(cur_sig >= 54 && cur_sig <= 100)
++		{
++			ret_sig = 100;
++		}
++		else if(cur_sig>=42 && cur_sig <= 53 )
++		{
++			ret_sig = 95;
++		}
++		else if(cur_sig>=36 && cur_sig <= 41 )
++		{
++			ret_sig = 74 + ((cur_sig - 36) *20)/6;
++		}
++		else if(cur_sig>=33 && cur_sig <= 35 )
++		{
++			ret_sig = 65 + ((cur_sig - 33) *8)/2;
++		}
++		else if(cur_sig>=18 && cur_sig <= 32 )
++		{
++			ret_sig = 62 + ((cur_sig - 18) *2)/15;
++		}
++		else if(cur_sig>=15 && cur_sig <= 17 )
++		{
++			ret_sig = 33 + ((cur_sig - 15) *28)/2;
++		}
++		else if(cur_sig>=10 && cur_sig <= 14 )
++		{
++			ret_sig = 39;
++		}
++		else if(cur_sig>=8 && cur_sig <= 9 )
++		{
++			ret_sig = 33;
++		}
++		else if(cur_sig <= 8 )
++		{
++			ret_sig = 19;
++		}
++	}
++	else
++	{
++		// Step 1. Scale mapping.
++		if(cur_sig >= 61 && cur_sig <= 100)
++		{
++			ret_sig = 90 + ((cur_sig - 60) / 4);
++		}
++		else if(cur_sig >= 41 && cur_sig <= 60)
++		{
++			ret_sig = 78 + ((cur_sig - 40) / 2);
++		}
++		else if(cur_sig >= 31 && cur_sig <= 40)
++		{
++			ret_sig = 66 + (cur_sig - 30);
++		}
++		else if(cur_sig >= 21 && cur_sig <= 30)
++		{
++			ret_sig = 54 + (cur_sig - 20);
++		}
++		else if(cur_sig >= 5 && cur_sig <= 20)
++		{
++			ret_sig = 42 + (((cur_sig - 5) * 2) / 3);
++		}
++		else if(cur_sig == 4)
++		{
++			ret_sig = 36;
++		}
++		else if(cur_sig == 3)
++		{
++			ret_sig = 27;
++		}
++		else if(cur_sig == 2)
++		{
++			ret_sig = 18;
++		}
++		else if(cur_sig == 1)
++		{
++			ret_sig = 9;
++		}
++		else
++		{
++			ret_sig = cur_sig;
++		}
++	}
++#endif
++
++	return ret_sig;
++}
++
++
++static s32  translate2dbm(u8 signal_strength_idx)
++{
++	s32	signal_power; // in dBm.
++
++
++	// Translate to dBm (x=0.5y-95).
++	signal_power = (s32)((signal_strength_idx + 1) >> 1);
++	signal_power -= 95;
++
++	return signal_power;
++}
++
++static void query_rx_phy_status(union recv_frame *prframe, struct phy_stat *pphy_stat)
++{
++	PHY_STS_OFDM_8192CD_T	*pOfdm_buf;
++	PHY_STS_CCK_8192CD_T	*pCck_buf;
++	u8	i, max_spatial_stream, evm;
++	s8	rx_pwr[4], rx_pwr_all = 0;
++	u8	pwdb_all;
++	u32	rssi,total_rssi=0;
++	u8 	bcck_rate=0, rf_rx_num = 0, cck_highpwr = 0;
++	_adapter				*padapter = prframe->u.hdr.adapter;
++	struct rx_pkt_attrib	*pattrib = &prframe->u.hdr.attrib;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(padapter);
++	struct dm_priv		*pdmpriv = &pHalData->dmpriv;
++	u8	tmp_rxsnr;
++	s8	rx_snrX;
++
++#ifdef CONFIG_HW_ANTENNA_DIVERSITY
++	PHY_RX_DRIVER_INFO_8192CD *pDrvInfo = ((PHY_RX_DRIVER_INFO_8192CD *)pphy_stat);
++	u8 	bant1_sel = (pDrvInfo->ANTSEL == 1)?_TRUE:_FALSE;	
++#endif
++
++	// Record it for next packet processing
++	bcck_rate=(pattrib->mcs_rate<=3? 1:0);
++
++	if(bcck_rate) //CCK
++	{
++		u8 report;
++#ifdef CONFIG_HW_ANTENNA_DIVERSITY		
++		if(bant1_sel == _TRUE)
++			pHalData->CCK_Ant1_Cnt++;
++		else
++			pHalData->CCK_Ant2_Cnt++;
++#endif		
++
++		// CCK Driver info Structure is not the same as OFDM packet.
++		pCck_buf = (PHY_STS_CCK_8192CD_T *)pphy_stat;
++		//Adapter->RxStats.NumQryPhyStatusCCK++;
++
++		//
++		// (1)Hardware does not provide RSSI for CCK
++		// (2)PWDB, Average PWDB cacluated by hardware (for rate adaptive)
++		//
++
++		if(padapter->pwrctrlpriv.rf_pwrstate == rf_on)
++			cck_highpwr = (u8)pHalData->bCckHighPower;
++		else
++			cck_highpwr = _FALSE;
++
++		if(!cck_highpwr)
++		{
++			report = pCck_buf->cck_agc_rpt&0xc0;
++			report = report>>6;
++			switch(report)
++			{
++				// 03312009 modified by cosa
++				// Modify the RF RNA gain value to -40, -20, -2, 14 by Jenyu's suggestion
++				// Note: different RF with the different RNA gain.
++				case 0x3:
++					rx_pwr_all = (-46) - (pCck_buf->cck_agc_rpt & 0x3e);
++					break;
++				case 0x2:
++					rx_pwr_all = (-26) - (pCck_buf->cck_agc_rpt & 0x3e);
++					break;
++				case 0x1:
++					rx_pwr_all = (-12) - (pCck_buf->cck_agc_rpt & 0x3e);
++					break;
++				case 0x0:
++					rx_pwr_all = (16) - (pCck_buf->cck_agc_rpt & 0x3e);
++					break;
++			}
++		}
++		else
++		{
++			report = pCck_buf->cck_agc_rpt & 0x60;
++			report = report>>5;
++			switch(report)
++			{
++				case 0x3:
++					rx_pwr_all = (-46) - ((pCck_buf->cck_agc_rpt & 0x1f)<<1) ;
++					break;
++				case 0x2:
++					rx_pwr_all = (-26)- ((pCck_buf->cck_agc_rpt & 0x1f)<<1);
++					break;
++				case 0x1:
++					rx_pwr_all = (-12) - ((pCck_buf->cck_agc_rpt & 0x1f)<<1) ;
++					break;
++				case 0x0:
++					rx_pwr_all = (16) - ((pCck_buf->cck_agc_rpt & 0x1f)<<1) ;
++					break;
++			}
++		}
++
++		pwdb_all= query_rx_pwr_percentage(rx_pwr_all);
++		if(pHalData->CustomerID == RT_CID_819x_Lenovo)
++		{
++			// CCK gain is smaller than OFDM/MCS gain,
++			// so we add gain diff by experiences, the val is 6
++			pwdb_all+=6;
++			if(pwdb_all > 100)
++				pwdb_all = 100;
++			// modify the offset to make the same gain index with OFDM.
++			if(pwdb_all > 34 && pwdb_all <= 42)
++				pwdb_all -= 2;
++			else if(pwdb_all > 26 && pwdb_all <= 34)
++				pwdb_all -= 6;
++			else if(pwdb_all > 14 && pwdb_all <= 26)
++				pwdb_all -= 8;
++			else if(pwdb_all > 4 && pwdb_all <= 14)
++				pwdb_all -= 4;
++		}
++
++		pattrib->RxPWDBAll = pwdb_all;	//for DIG/rate adaptive
++		pattrib->RecvSignalPower = rx_pwr_all;	//dBM
++		padapter->recvpriv.rxpwdb = rx_pwr_all;
++		//
++		// (3) Get Signal Quality (EVM)
++		//
++		//if(bPacketMatchBSSID)
++		{
++			u8	sq;
++
++			if(pHalData->CustomerID == RT_CID_819x_Lenovo)
++			{
++				// mapping to 5 bars for vista signal strength
++				// signal quality in driver will be displayed to signal strength
++				// in vista.
++				if(pwdb_all >= 50)
++					sq = 100;
++				else if(pwdb_all >= 35 && pwdb_all < 50)
++					sq = 80;
++				else if(pwdb_all >= 22 && pwdb_all < 35)
++					sq = 60;
++				else if(pwdb_all >= 18 && pwdb_all < 22)
++					sq = 40;
++				else
++					sq = 20;
++			}
++			else
++			{
++				if(pwdb_all> 40)
++				{
++					sq = 100;
++				}
++				else
++				{
++					sq = pCck_buf->SQ_rpt;
++
++					if(pCck_buf->SQ_rpt > 64)
++						sq = 0;
++					else if (pCck_buf->SQ_rpt < 20)
++						sq= 100;
++					else
++						sq = ((64-sq) * 100) / 44;
++
++				}
++			}
++
++			pattrib->signal_qual=sq;
++			pattrib->rx_mimo_signal_qual[0]=sq;
++			pattrib->rx_mimo_signal_qual[1]=(-1);
++		}
++
++	}
++	else //OFDM/HT
++	{
++#ifdef CONFIG_HW_ANTENNA_DIVERSITY	
++		if(bant1_sel == _TRUE)
++			pHalData->OFDM_Ant1_Cnt++;
++		else
++			pHalData->OFDM_Ant2_Cnt++;
++#endif
++		pdmpriv->OFDM_Pkt_Cnt++;
++
++		pOfdm_buf = (PHY_STS_OFDM_8192CD_T *)pphy_stat;
++	
++		//
++		// (1)Get RSSI per-path
++		//
++		for(i=0; i<pHalData->NumTotalRFPath; i++)
++		{
++			// 2008/01/30 MH we will judge RF RX path now.
++			if (pHalData->bRFPathRxEnable[i])
++				rf_rx_num++;
++			//else
++				//continue;
++
++			rx_pwr[i] =  ((pOfdm_buf->trsw_gain_X[i]&0x3F)*2) - 110;
++			padapter->recvpriv.RxRssi[i] = rx_pwr[i];
++			/* Translate DBM to percentage. */
++			pattrib->rx_rssi[i] = rssi = query_rx_pwr_percentage(rx_pwr[i]);
++			total_rssi += rssi;
++
++			RT_TRACE(_module_rtl871x_recv_c_, _drv_err_, ("RF-%d RXPWR=%x RSSI=%d\n", i, rx_pwr[i], rssi));
++
++			//Get Rx snr value in DB
++			tmp_rxsnr =	pOfdm_buf->rxsnr_X[i];
++			rx_snrX = (s8)(tmp_rxsnr);
++			rx_snrX >>= 1;
++			padapter->recvpriv.RxSNRdB[i] =  (int)rx_snrX;
++			pattrib->rx_snr[i]=pOfdm_buf->rxsnr_X[i];
++			/* Record Signal Strength for next packet */
++			//if(bPacketMatchBSSID)
++			{
++				//pRfd->Status.RxMIMOSignalStrength[i] =(u1Byte) RSSI;
++
++				//The following is for lenovo signal strength in vista
++				if(pHalData->CustomerID == RT_CID_819x_Lenovo)
++				{
++					u8	sq;
++
++					if(i == 0)
++					{
++						// mapping to 5 bars for vista signal strength
++						// signal quality in driver will be displayed to signal strength
++						// in vista.
++						if(rssi >= 50)
++							sq = 100;
++						else if(rssi >= 35 && rssi < 50)
++							sq = 80;
++						else if(rssi >= 22 && rssi < 35)
++							sq = 60;
++						else if(rssi >= 18 && rssi < 22)
++							sq = 40;
++						else
++							sq = 20;
++						//DbgPrint("ofdm/mcs RSSI=%d\n", RSSI);
++						//pRfd->Status.SignalQuality = SQ;
++						//DbgPrint("ofdm/mcs SQ = %d\n", pRfd->Status.SignalQuality);
++					}
++				}
++			}
++		}
++
++
++		//
++		// (2)PWDB, Average PWDB cacluated by hardware (for rate adaptive),average
++		//
++		rx_pwr_all = (((pOfdm_buf->pwdb_all ) >> 1 )& 0x7f) -110;//for OFDM Average RSSI
++		pwdb_all = query_rx_pwr_percentage(rx_pwr_all);
++
++		RT_TRACE(_module_rtl871x_recv_c_, _drv_err_, ("PWDB_ALL=%d\n",	pwdb_all));
++
++		pattrib->RxPWDBAll = pwdb_all;	//for DIG/rate adaptive
++		pattrib->RecvSignalPower = rx_pwr_all;//dBM
++		padapter->recvpriv.rxpwdb = rx_pwr_all;
++		//
++		// (3)EVM of HT rate
++		//
++		if(pHalData->CustomerID != RT_CID_819x_Lenovo)
++		{
++			if(pattrib->rxht &&  pattrib->mcs_rate >=20 && pattrib->mcs_rate<=27)
++				max_spatial_stream = 2; //both spatial stream make sense
++			else
++				max_spatial_stream = 1; //only spatial stream 1 makes sense
++
++			for(i=0; i<max_spatial_stream; i++)
++			{
++				// Do not use shift operation like "rx_evmX >>= 1" because the compilor of free build environment
++				// fill most significant bit to "zero" when doing shifting operation which may change a negative
++				// value to positive one, then the dbm value (which is supposed to be negative)  is not correct anymore.
++				evm = evm_db2percentage( (pOfdm_buf->rxevm_X[i]/*/ 2*/));//dbm
++
++				RT_TRACE(_module_rtl871x_recv_c_, _drv_err_, ("RXRATE=%x RXEVM=%x EVM=%s%d\n",
++					pattrib->mcs_rate, pOfdm_buf->rxevm_X[i], "%",evm));
++
++				//if(bPacketMatchBSSID)
++				{
++					if(i==0) // Fill value in RFD, Get the first spatial stream only
++					{
++						pattrib->signal_qual = (u8)(evm & 0xff);
++					}
++					pattrib->rx_mimo_signal_qual[i] = (u8)(evm & 0xff);
++				}
++			}
++
++		}
++
++		//
++		// 4. Record rx statistics for debug
++		//
++
++	}
++
++
++	//UI BSS List signal strength(in percentage), make it good looking, from 0~100.
++	//It is assigned to the BSS List in GetValueFromBeaconOrProbeRsp().
++	if(bcck_rate)
++	{
++		pattrib->signal_strength=(u8)signal_scale_mapping(padapter, pwdb_all);
++	}
++	else
++	{
++		if (rf_rx_num != 0)
++		{
++			pattrib->signal_strength= (u8)(signal_scale_mapping(padapter, total_rssi/=rf_rx_num));
++		}
++	}
++	//DBG_8192C("%s,rx_pwr_all(%d),RxPWDBAll(%d)\n",__FUNCTION__,rx_pwr_all,pattrib->RxPWDBAll);
++
++}
++
++
++static void process_rssi(_adapter *padapter,union recv_frame *prframe)
++{
++	u32	last_rssi, tmp_val;
++	struct rx_pkt_attrib *pattrib = &prframe->u.hdr.attrib;
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	struct signal_stat * signal_stat = &padapter->recvpriv.signal_strength_data;
++#endif //CONFIG_NEW_SIGNAL_STAT_PROCESS
++
++	//DBG_8192C("process_rssi=> pattrib->rssil(%d) signal_strength(%d)\n ",pattrib->RecvSignalPower,pattrib->signal_strength);
++	//if(pRfd->Status.bPacketToSelf || pRfd->Status.bPacketBeacon)
++	{
++	
++	#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++		if(signal_stat->update_req) {
++			signal_stat->total_num = 0;
++			signal_stat->total_val = 0;
++			signal_stat->update_req = 0;
++		}
++
++		signal_stat->total_num++;
++		signal_stat->total_val  += pattrib->signal_strength;
++		signal_stat->avg_val = signal_stat->total_val / signal_stat->total_num;		
++	#else //CONFIG_NEW_SIGNAL_STAT_PROCESS
++	
++		//Adapter->RxStats.RssiCalculateCnt++;	//For antenna Test
++		if(padapter->recvpriv.signal_strength_data.total_num++ >= PHY_RSSI_SLID_WIN_MAX)
++		{
++			padapter->recvpriv.signal_strength_data.total_num = PHY_RSSI_SLID_WIN_MAX;
++			last_rssi = padapter->recvpriv.signal_strength_data.elements[padapter->recvpriv.signal_strength_data.index];
++			padapter->recvpriv.signal_strength_data.total_val -= last_rssi;
++		}
++		padapter->recvpriv.signal_strength_data.total_val  +=pattrib->signal_strength;
++
++		padapter->recvpriv.signal_strength_data.elements[padapter->recvpriv.signal_strength_data.index++] = pattrib->signal_strength;
++		if(padapter->recvpriv.signal_strength_data.index >= PHY_RSSI_SLID_WIN_MAX)
++			padapter->recvpriv.signal_strength_data.index = 0;
++
++
++		tmp_val = padapter->recvpriv.signal_strength_data.total_val/padapter->recvpriv.signal_strength_data.total_num;
++		
++		if(padapter->recvpriv.is_signal_dbg) {
++			padapter->recvpriv.signal_strength= padapter->recvpriv.signal_strength_dbg;
++			padapter->recvpriv.rssi=(s8)translate2dbm((u8)padapter->recvpriv.signal_strength_dbg);
++		} else {
++			padapter->recvpriv.signal_strength= tmp_val;
++			padapter->recvpriv.rssi=(s8)translate2dbm((u8)tmp_val);
++		}
++
++		RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("UI RSSI = %d, ui_rssi.TotalVal = %d, ui_rssi.TotalNum = %d\n", tmp_val, padapter->recvpriv.signal_strength_data.total_val,padapter->recvpriv.signal_strength_data.total_num));
++	#endif //CONFIG_NEW_SIGNAL_STAT_PROCESS
++	}
++
++}// Process_UI_RSSI_8192C
++
++
++static void process_PWDB(_adapter *padapter, union recv_frame *prframe)
++{
++	int	UndecoratedSmoothedPWDB;
++	int	UndecoratedSmoothedCCK;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(padapter);
++	struct dm_priv		*pdmpriv = &pHalData->dmpriv;
++	struct rx_pkt_attrib	*pattrib= &prframe->u.hdr.attrib;
++	struct sta_info		*psta = prframe->u.hdr.psta;
++	u8 isCCKrate=(pattrib->mcs_rate<=3? 1:0);
++
++
++	if(psta)
++	{
++		UndecoratedSmoothedPWDB = psta->rssi_stat.UndecoratedSmoothedPWDB;
++		UndecoratedSmoothedCCK = psta->rssi_stat.UndecoratedSmoothedCCK;
++	}
++	else
++	{
++		UndecoratedSmoothedPWDB = pdmpriv->UndecoratedSmoothedPWDB;
++		UndecoratedSmoothedCCK = pdmpriv->UndecoratedSmoothedCCK;
++	}
++
++	//if(pRfd->Status.bPacketToSelf || pRfd->Status.bPacketBeacon)
++
++	if(!isCCKrate)
++	{
++		// Process OFDM RSSI
++		if(UndecoratedSmoothedPWDB < 0) // initialize
++		{
++			UndecoratedSmoothedPWDB = pattrib->RxPWDBAll;
++		}
++
++		if(pattrib->RxPWDBAll > (u32)UndecoratedSmoothedPWDB)
++		{
++			UndecoratedSmoothedPWDB =
++					( ((UndecoratedSmoothedPWDB)*(Rx_Smooth_Factor-1)) +
++					(pattrib->RxPWDBAll)) /(Rx_Smooth_Factor);
++
++			UndecoratedSmoothedPWDB = UndecoratedSmoothedPWDB + 1;
++		}
++		else
++		{
++			UndecoratedSmoothedPWDB =
++					( ((UndecoratedSmoothedPWDB)*(Rx_Smooth_Factor-1)) +
++					(pattrib->RxPWDBAll)) /(Rx_Smooth_Factor);
++		}
++	}
++	else
++	{
++		// Process CCK RSSI
++		if(UndecoratedSmoothedCCK < 0) // initialize
++		{
++			UndecoratedSmoothedCCK = pattrib->RxPWDBAll;
++		}
++
++		if(pattrib->RxPWDBAll > (u32)UndecoratedSmoothedCCK)
++		{
++			UndecoratedSmoothedCCK =
++					( ((UndecoratedSmoothedCCK)*(Rx_Smooth_Factor-1)) +
++					(pattrib->RxPWDBAll)) /(Rx_Smooth_Factor);
++
++			UndecoratedSmoothedCCK = UndecoratedSmoothedCCK + 1;
++		}
++		else
++		{
++			UndecoratedSmoothedCCK =
++					( ((UndecoratedSmoothedCCK)*(Rx_Smooth_Factor-1)) +
++					(pattrib->RxPWDBAll)) /(Rx_Smooth_Factor);
++		}
++	}
++	
++	
++	if(psta)
++	{
++		//psta->UndecoratedSmoothedPWDB = UndecoratedSmoothedPWDB;//todo:
++		pdmpriv->UndecoratedSmoothedPWDB = UndecoratedSmoothedPWDB;
++
++		if(pdmpriv->RSSI_Select == RSSI_OFDM){
++			psta->rssi_stat.UndecoratedSmoothedPWDB = UndecoratedSmoothedPWDB;
++		}
++		else if(pdmpriv->RSSI_Select == RSSI_CCK){
++			psta->rssi_stat.UndecoratedSmoothedPWDB = UndecoratedSmoothedCCK;
++		}
++		else{
++			if(UndecoratedSmoothedPWDB <0 ) 
++				pdmpriv->UndecoratedSmoothedPWDB = UndecoratedSmoothedCCK;
++			else
++				pdmpriv->UndecoratedSmoothedPWDB = UndecoratedSmoothedPWDB;
++		}
++		psta->rssi_stat.UndecoratedSmoothedCCK = UndecoratedSmoothedCCK;
++	}
++	else
++	{
++		//pdmpriv->UndecoratedSmoothedPWDB = UndecoratedSmoothedPWDB;
++
++		if(pdmpriv->RSSI_Select == RSSI_OFDM){
++			pdmpriv->UndecoratedSmoothedPWDB = UndecoratedSmoothedPWDB;
++		}
++		else if(pdmpriv->RSSI_Select == RSSI_CCK){
++			pdmpriv->UndecoratedSmoothedPWDB = UndecoratedSmoothedCCK;
++		}
++		else	{
++			if(UndecoratedSmoothedPWDB <0 ) 
++				pdmpriv->UndecoratedSmoothedPWDB = UndecoratedSmoothedCCK;
++			else
++				pdmpriv->UndecoratedSmoothedPWDB = UndecoratedSmoothedPWDB;
++			
++		}
++		pdmpriv->UndecoratedSmoothedCCK = UndecoratedSmoothedCCK;
++	}
++
++	//UpdateRxSignalStatistics8192C(padapter, prframe);
++
++}
++
++
++static void process_link_qual(_adapter *padapter,union recv_frame *prframe)
++{
++	u32	last_evm=0, tmpVal;
++ 	struct rx_pkt_attrib *pattrib;
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	struct signal_stat * signal_stat;
++#endif //CONFIG_NEW_SIGNAL_STAT_PROCESS
++
++	if(prframe == NULL || padapter==NULL){
++		return;
++	}
++
++	pattrib = &prframe->u.hdr.attrib;
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	signal_stat = &padapter->recvpriv.signal_qual_data;
++#endif //CONFIG_NEW_SIGNAL_STAT_PROCESS
++
++	//DBG_8192C("process_link_qual=> pattrib->signal_qual(%d)\n ",pattrib->signal_qual);
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	if(signal_stat->update_req) {
++		signal_stat->total_num = 0;
++		signal_stat->total_val = 0;
++		signal_stat->update_req = 0;
++	}
++
++	signal_stat->total_num++;
++	signal_stat->total_val  += pattrib->signal_qual;
++	signal_stat->avg_val = signal_stat->total_val / signal_stat->total_num;
++	
++#else //CONFIG_NEW_SIGNAL_STAT_PROCESS
++	if(pattrib->signal_qual != 0)
++	{
++			//
++			// 1. Record the general EVM to the sliding window.
++			//
++			if(padapter->recvpriv.signal_qual_data.total_num++ >= PHY_LINKQUALITY_SLID_WIN_MAX)
++			{
++				padapter->recvpriv.signal_qual_data.total_num = PHY_LINKQUALITY_SLID_WIN_MAX;
++				last_evm = padapter->recvpriv.signal_qual_data.elements[padapter->recvpriv.signal_qual_data.index];
++				padapter->recvpriv.signal_qual_data.total_val -= last_evm;
++			}
++			padapter->recvpriv.signal_qual_data.total_val += pattrib->signal_qual;
++
++			padapter->recvpriv.signal_qual_data.elements[padapter->recvpriv.signal_qual_data.index++] = pattrib->signal_qual;
++			if(padapter->recvpriv.signal_qual_data.index >= PHY_LINKQUALITY_SLID_WIN_MAX)
++				padapter->recvpriv.signal_qual_data.index = 0;
++
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("Total SQ=%d  pattrib->signal_qual= %d\n", padapter->recvpriv.signal_qual_data.total_val, pattrib->signal_qual));
++
++			// <1> Showed on UI for user, in percentage.
++			tmpVal = padapter->recvpriv.signal_qual_data.total_val/padapter->recvpriv.signal_qual_data.total_num;
++			padapter->recvpriv.signal_qual=(u8)tmpVal;
++
++	}
++	else
++	{
++		RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,(" pattrib->signal_qual =%d\n", pattrib->signal_qual));
++	}
++#endif //CONFIG_NEW_SIGNAL_STAT_PROCESS
++
++}// Process_UiLinkQuality8192S
++
++
++static void process_phy_info(_adapter *padapter, union recv_frame *prframe)
++{
++	union recv_frame *precvframe = (union recv_frame *)prframe;
++
++#ifdef CONFIG_SW_ANTENNA_DIVERSITY
++	// If we switch to the antenna for testing, the signal strength 
++	// of the packets in this time shall not be counted into total receiving power. 
++	// This prevents error counting Rx signal strength and affecting other dynamic mechanism.
++
++	// Select the packets to do RSSI checking for antenna switching.
++	SwAntDivRSSICheck8192C(padapter, precvframe->u.hdr.attrib.RxPWDBAll);
++
++	if(GET_HAL_DATA(padapter)->RSSI_test == _TRUE)
++		return;
++#endif
++	//
++	// Check RSSI
++	//
++	process_rssi(padapter, precvframe);
++	//
++	// Check PWDB.
++	//
++	process_PWDB(padapter, precvframe); 
++	//
++	// Check EVM
++	//
++	process_link_qual(padapter,  precvframe);
++
++}
++
++
++void rtl8192c_translate_rx_signal_stuff(union recv_frame *precvframe, struct phy_stat *pphy_info)
++{
++	struct rx_pkt_attrib	*pattrib = &precvframe->u.hdr.attrib;
++	_adapter				*padapter = precvframe->u.hdr.adapter;
++	u8	bPacketMatchBSSID =_FALSE;
++	u8	bPacketToSelf = _FALSE;
++	u8	bPacketBeacon = _FALSE;
++
++	if((pattrib->physt) && (pphy_info != NULL))
++	{
++		bPacketMatchBSSID = ((!IsFrameTypeCtrl(precvframe->u.hdr.rx_data)) && !(pattrib->icv_err) && !(pattrib->crc_err) &&
++			_rtw_memcmp(get_hdr_bssid(precvframe->u.hdr.rx_data), get_my_bssid(&padapter->mlmeextpriv.mlmext_info.network), ETH_ALEN));
++			
++
++		bPacketToSelf = bPacketMatchBSSID &&  (_rtw_memcmp(get_da(precvframe->u.hdr.rx_data), myid(&padapter->eeprompriv), ETH_ALEN));
++
++		bPacketBeacon =bPacketMatchBSSID && (GetFrameSubType(precvframe->u.hdr.rx_data) ==  WIFI_BEACON);
++
++		query_rx_phy_status(precvframe, pphy_info);
++
++		precvframe->u.hdr.psta = NULL;
++		if(bPacketMatchBSSID && check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE)
++		{
++			u8 *sa;
++			struct sta_info *psta=NULL;
++			struct sta_priv *pstapriv = &padapter->stapriv;
++			
++			sa = get_sa(precvframe->u.hdr.rx_data);
++
++			psta = rtw_get_stainfo(pstapriv, sa);
++			if(psta)
++			{
++				precvframe->u.hdr.psta = psta;
++				process_phy_info(padapter, precvframe);
++			}
++		}
++		else if(bPacketToSelf || bPacketBeacon)
++		{
++			if(check_fwstate(&padapter->mlmepriv, WIFI_ADHOC_STATE|WIFI_ADHOC_MASTER_STATE) == _TRUE)
++			{
++				u8 *sa;
++				struct sta_info *psta=NULL;
++				struct sta_priv *pstapriv = &padapter->stapriv;
++			
++				sa = get_sa(precvframe->u.hdr.rx_data);
++
++				psta = rtw_get_stainfo(pstapriv, sa);
++				if(psta)
++				{
++					precvframe->u.hdr.psta = psta;
++				}				
++			}
++					
++			process_phy_info(padapter, precvframe);
++		}
++	}
++}
++
++void rtl8192c_query_rx_desc_status(union recv_frame *precvframe, struct recv_stat *pdesc)
++{
++	struct rx_pkt_attrib	*pattrib = &precvframe->u.hdr.attrib;
++
++	//Offset 0
++	pattrib->physt = (u8)((le32_to_cpu(pdesc->rxdw0) >> 26) & 0x1);
++	pattrib->pkt_len =  (u16)(le32_to_cpu(pdesc->rxdw0)&0x00003fff);
++	pattrib->drvinfo_sz = (u8)((le32_to_cpu(pdesc->rxdw0) >> 16) & 0xf) * 8;//uint 2^3 = 8 bytes
++
++	pattrib->shift_sz = (u8)((le32_to_cpu(pdesc->rxdw0) >> 24) & 0x3);
++
++	pattrib->crc_err = (u8)((le32_to_cpu(pdesc->rxdw0) >> 14) & 0x1);
++	pattrib->icv_err = (u8)((le32_to_cpu(pdesc->rxdw0) >> 15) & 0x1);
++	pattrib->qos = (u8)(( le32_to_cpu( pdesc->rxdw0 ) >> 23) & 0x1);// Qos data, wireless lan header length is 26
++	pattrib->bdecrypted = (le32_to_cpu(pdesc->rxdw0) & BIT(27))? 0:1;
++
++	//Offset 4
++	pattrib->mfrag = (u8)((le32_to_cpu(pdesc->rxdw1) >> 27) & 0x1);//more fragment bit
++
++	//Offset 8
++	pattrib->frag_num = (u8)((le32_to_cpu(pdesc->rxdw2) >> 12) & 0xf);//fragmentation number
++
++	//Offset 12
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_RX
++	if ( le32_to_cpu(pdesc->rxdw3) & BIT(13)){
++		pattrib->tcpchk_valid = 1; // valid
++		if ( le32_to_cpu(pdesc->rxdw3) & BIT(11) ) {
++			pattrib->tcp_chkrpt = 1; // correct
++			//DBG_8192C("tcp csum ok\n");
++		}
++		else
++			pattrib->tcp_chkrpt = 0; // incorrect
++
++		if ( le32_to_cpu(pdesc->rxdw3) & BIT(12) )
++			pattrib->ip_chkrpt = 1; // correct
++		else
++			pattrib->ip_chkrpt = 0; // incorrect
++	}
++	else {
++		pattrib->tcpchk_valid = 0; // invalid
++	}
++#endif
++
++	pattrib->mcs_rate=(u8)((le32_to_cpu(pdesc->rxdw3))&0x3f);
++	pattrib->rxht=(u8)((le32_to_cpu(pdesc->rxdw3) >>6)&0x1);
++	pattrib->sgi=(u8)((le32_to_cpu(pdesc->rxdw3) >>8)&0x1);
++	//Offset 16
++	//Offset 20
++
++}
++
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_sreset.c b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_sreset.c
+new file mode 100755
+index 0000000..1368d66
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_sreset.c
+@@ -0,0 +1,94 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#include <rtl8192c_sreset.h>
++#include <rtl8192c_hal.h>
++#ifdef DBG_CONFIG_ERROR_DETECT
++void rtl8192c_sreset_xmit_status_check(_adapter *padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);	
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;	
++	
++	unsigned long current_time;
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	unsigned int diff_time;
++	u32 txdma_status;
++	if( (txdma_status=rtw_read32(padapter, REG_TXDMA_STATUS)) !=0x00){
++		DBG_871X("%s REG_TXDMA_STATUS:0x%08x\n", __FUNCTION__, txdma_status);
++		rtw_hal_sreset_reset(padapter);						
++	}
++	
++	//total xmit irp = 4
++	//DBG_8192C("==>%s free_xmitbuf_cnt(%d),txirp_cnt(%d)\n",__FUNCTION__,pxmitpriv->free_xmitbuf_cnt,pxmitpriv->txirp_cnt);
++	//if(pxmitpriv->txirp_cnt == NR_XMITBUFF+1)
++	current_time = rtw_get_current_time();
++
++	if(0 == pxmitpriv->free_xmitbuf_cnt || 0 == pxmitpriv->free_xmit_extbuf_cnt) {
++
++		diff_time = rtw_get_passing_time_ms(psrtpriv->last_tx_time);
++
++		if (diff_time > 2000) {
++			if (psrtpriv->last_tx_complete_time == 0) {
++				psrtpriv->last_tx_complete_time = current_time;
++			}
++			else{
++				diff_time = rtw_get_passing_time_ms(psrtpriv->last_tx_complete_time);
++				if (diff_time > 4000) {
++					//padapter->Wifi_Error_Status = WIFI_TX_HANG;
++					DBG_871X("%s tx hang\n", __FUNCTION__);
++					rtw_hal_sreset_reset(padapter);
++				}
++			}
++		}
++	}
++
++	if (psrtpriv->dbg_trigger_point == SRESET_TGP_XMIT_STATUS) {
++		psrtpriv->dbg_trigger_point = SRESET_TGP_NULL;
++		rtw_hal_sreset_reset(padapter);
++		return;
++	}
++}
++void rtl8192c_sreset_linked_status_check(_adapter *padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++
++	u32 regc50,regc58,reg824,reg800;
++	regc50 = rtw_read32(padapter,0xc50);
++	regc58 = rtw_read32(padapter,0xc58);
++	reg824 = rtw_read32(padapter,0x824);
++	reg800 = rtw_read32(padapter,0x800);	
++	if(	((regc50&0xFFFFFF00)!= 0x69543400)||
++		((regc58&0xFFFFFF00)!= 0x69543400)||
++		(((reg824&0xFFFFFF00)!= 0x00390000)&&(((reg824&0xFFFFFF00)!= 0x80390000)))||
++		( ((reg800&0xFFFFFF00)!= 0x03040000)&&((reg800&0xFFFFFF00)!= 0x83040000)))
++	{
++		DBG_8192C("%s regc50:0x%08x, regc58:0x%08x, reg824:0x%08x, reg800:0x%08x,\n", __FUNCTION__,
++			regc50, regc58, reg824, reg800);
++		rtw_hal_sreset_reset(padapter);	
++	}
++
++	if (psrtpriv->dbg_trigger_point == SRESET_TGP_LINK_STATUS) {
++		psrtpriv->dbg_trigger_point = SRESET_TGP_NULL;
++		rtw_hal_sreset_reset(padapter);
++		return;
++	}
++}
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_xmit.c b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_xmit.c
+new file mode 100755
+index 0000000..2cfd851
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/rtl8192c_xmit.c
+@@ -0,0 +1,63 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8192C_XMIT_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <rtl8192c_hal.h>
++
++#ifdef CONFIG_XMIT_ACK
++void dump_txrpt_ccx_8192c(void *buf)
++{
++	struct txrpt_ccx_8192c *txrpt_ccx = buf; 
++
++	DBG_871X("%s:\n"
++		"retry_cnt:%u, rsvd_0:%u, rts_retry_cnt:%u, rsvd_1:%u\n"
++		"ccx_qtime:%u, missed_pkt_num:%u, rsvd_4:%u\n"
++		"mac_id:%u, des1_fragssn:%u\n"
++		"rpt_pkt_num:%u, pkt_drop:%u, lifetime_over:%u, retry_over:%u\n"
++		"edca_tx_queue:%u, rsvd_7:%u, bmc:%u, pkt_ok:%u, init_ccx:%u\n"
++		, __func__
++		, txrpt_ccx->retry_cnt, txrpt_ccx->rsvd_0, txrpt_ccx->rts_retry_cnt, txrpt_ccx->rsvd_1
++		, txrpt_ccx_qtime_8192c(txrpt_ccx), txrpt_ccx->missed_pkt_num, txrpt_ccx->rsvd_4
++		, txrpt_ccx->mac_id, txrpt_ccx->des1_fragssn
++		, txrpt_ccx->rpt_pkt_num, txrpt_ccx->pkt_drop, txrpt_ccx->lifetime_over, txrpt_ccx->retry_over
++		, txrpt_ccx->edca_tx_queue, txrpt_ccx->rsvd_7, txrpt_ccx->bmc, txrpt_ccx->pkt_ok, txrpt_ccx->int_ccx
++	);
++}
++
++void handle_txrpt_ccx_8192c(_adapter *adapter, void *buf)
++{
++	struct txrpt_ccx_8192c *txrpt_ccx = buf; 
++
++	#ifdef DBG_CCX
++	dump_txrpt_ccx_8192c(buf);
++	#endif
++
++	if (txrpt_ccx->int_ccx) {
++		if (txrpt_ccx->pkt_ok)
++			rtw_ack_tx_done(&adapter->xmitpriv, RTW_SCTX_DONE_SUCCESS);
++		else
++			rtw_ack_tx_done(&adapter->xmitpriv, RTW_SCTX_DONE_CCX_PKT_FAIL);
++	}
++}
++#endif //CONFIG_XMIT_ACK
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/Hal8192CUHWImg.c b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/Hal8192CUHWImg.c
+new file mode 100755
+index 0000000..b49486b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/Hal8192CUHWImg.c
+@@ -0,0 +1,8758 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++/*Created on  2011/ 6/15,  5:45*/
++
++#include <basic_types.h>
++#include "Hal8192CUHWImg.h"
++
++#ifdef CONFIG_BT_COEXISTENCE
++// =================== v84 TSMC COMMON 2012-04-13 =======================
++u8 Rtl8192CUFwTSMCImgArray[TSMCImgArrayLength] = {
++0xc1,0x88,0x02,0x00,0x54,0x00,0x01,0x00,0x04,0x13,0x11,0x07,0x3a,0x3d,0x00,0x00,
++0x58,0x97,0x01,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x02,0x43,0xba,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x02,0x50,0xa1,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x02,0x57,0x91,0x00,0x00,0x00,0x00,0x00,0xa1,0xe8,0x00,0x00,0x00,
++0x05,0x04,0x03,0x02,0x00,0x03,0x06,0x05,0x04,0x03,0x00,0x04,0x06,0x05,0x04,0x02,
++0x00,0x04,0x08,0x07,0x06,0x04,0x00,0x06,0x0a,0x09,0x08,0x06,0x00,0x08,0x0a,0x09,
++0x08,0x04,0x00,0x08,0x0a,0x09,0x08,0x02,0x00,0x08,0x0a,0x09,0x08,0x00,0x00,0x08,
++0x12,0x11,0x10,0x08,0x00,0x10,0x1a,0x19,0x18,0x10,0x00,0x18,0x22,0x21,0x20,0x18,
++0x00,0x20,0x22,0x21,0x20,0x10,0x00,0x20,0x22,0x21,0x20,0x08,0x00,0x20,0x22,0x21,
++0x1c,0x08,0x00,0x20,0x22,0x21,0x14,0x08,0x00,0x20,0x22,0x20,0x18,0x08,0x00,0x20,
++0x31,0x30,0x20,0x10,0x00,0x30,0x31,0x30,0x18,0x00,0x00,0x30,0x31,0x2f,0x10,0x10,
++0x00,0x30,0x31,0x2c,0x10,0x10,0x00,0x30,0x31,0x28,0x10,0x00,0x00,0x30,0x31,0x20,
++0x10,0x00,0x00,0x30,0x31,0x10,0x10,0x00,0x00,0x30,0x04,0x04,0x04,0x05,0x04,0x04,
++0x04,0x05,0x05,0x05,0x06,0x06,0x04,0x04,0x04,0x05,0x05,0x05,0x06,0x06,0x04,0x04,
++0x05,0x05,0x05,0x05,0x06,0x06,0x04,0x04,0x05,0x05,0x05,0x05,0x06,0x07,0x0a,0x0b,
++0x0d,0x10,0x04,0x05,0x05,0x06,0x06,0x09,0x0c,0x11,0x08,0x08,0x09,0x09,0x0a,0x0c,
++0x10,0x11,0x04,0x04,0x04,0x05,0x04,0x04,0x05,0x07,0x07,0x07,0x08,0x0a,0x04,0x04,
++0x04,0x04,0x06,0x0a,0x0b,0x0d,0x05,0x05,0x07,0x07,0x08,0x0b,0x0d,0x0f,0x04,0x04,
++0x04,0x05,0x07,0x07,0x09,0x09,0x0c,0x0e,0x10,0x12,0x04,0x04,0x05,0x05,0x06,0x0a,
++0x11,0x13,0x09,0x09,0x09,0x09,0x0c,0x0e,0x11,0x13,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x24,0x26,0x2a,0x18,0x1a,0x1d,0x1f,0x21,0x27,0x29,0x2a,0x00,0x00,
++0x00,0x1f,0x23,0x28,0x2a,0x2c,0x00,0x04,0x00,0x04,0x00,0x08,0x00,0x10,0x00,0x18,
++0x00,0x24,0x00,0x30,0x00,0x48,0x00,0x60,0x00,0x90,0x00,0xc0,0x00,0xd8,0x00,0x50,
++0x00,0x78,0x00,0xa0,0x00,0xc8,0x01,0x40,0x01,0x90,0x01,0xe0,0x02,0x30,0x01,0x2c,
++0x01,0x40,0x01,0xe0,0x02,0xd0,0x03,0xe8,0x04,0xb0,0x06,0x40,0x07,0xd0,0x00,0x02,
++0x00,0x02,0x00,0x04,0x00,0x08,0x00,0x0c,0x00,0x12,0x00,0x18,0x00,0x24,0x00,0x30,
++0x00,0x48,0x00,0x60,0x00,0x6c,0x00,0x28,0x00,0x3c,0x00,0x50,0x00,0x64,0x00,0xa0,
++0x00,0xc8,0x00,0xf0,0x01,0x18,0x00,0x64,0x00,0xa0,0x00,0xf0,0x01,0x68,0x01,0xf4,
++0x02,0x58,0x03,0x20,0x03,0xe8,0x02,0x02,0x02,0x02,0x02,0x02,0x03,0x03,0x04,0x04,
++0x05,0x07,0x04,0x04,0x07,0x0a,0x0a,0x0c,0x0c,0x12,0x05,0x07,0x07,0x08,0x0b,0x12,
++0x24,0x3c,0x01,0x01,0x01,0x01,0x01,0x02,0x03,0x04,0x05,0x06,0x07,0x08,0x01,0x02,
++0x03,0x04,0x05,0x06,0x07,0x08,0x05,0x06,0x07,0x08,0x09,0x0a,0x0b,0x0c,0x20,0x1e,
++0x1c,0x18,0x10,0x18,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0xbb,0x01,0x0c,0xe5,0x82,0x29,0xf5,0x82,0xe5,0x83,0x3a,0xf5,0x83,0xe0,0x22,0x50,
++0x06,0xe9,0x25,0x82,0xf8,0xe6,0x22,0xbb,0xfe,0x06,0xe9,0x25,0x82,0xf8,0xe2,0x22,
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++0x55,0x74,0x80,0xf0,0x90,0x9e,0x42,0xe0,0x54,0x03,0xff,0xbf,0x03,0x05,0x7f,0x02,
++0x12,0x49,0x1a,0xe5,0x3e,0x30,0xe0,0x06,0x90,0x00,0x56,0x74,0x01,0xf0,0xe5,0x3e,
++0x30,0xe1,0x06,0x90,0x00,0x56,0x74,0x02,0xf0,0xe5,0x3e,0x30,0xe2,0x06,0x90,0x00,
++0x56,0x74,0x04,0xf0,0xe5,0x3e,0x30,0xe3,0x06,0x90,0x00,0x56,0x74,0x08,0xf0,0x90,
++0x01,0xc4,0x74,0x91,0xf0,0x74,0x57,0xa3,0xf0,0xd0,0x07,0xd0,0x06,0xd0,0x05,0xd0,
++0x04,0xd0,0x03,0xd0,0x02,0xd0,0x01,0xd0,0x00,0xd0,0xd0,0xd0,0x82,0xd0,0x83,0xd0,
++0xf0,0xd0,0xe0,0x32,0x90,0x01,0xcc,0xe0,0x54,0x0f,0x90,0x9e,0x19,0xf0,0x90,0x9e,
++0x19,0xe0,0xfd,0x70,0x02,0x21,0xb5,0x90,0x9e,0xae,0xe0,0xff,0x74,0x01,0x7e,0x00,
++0xa8,0x07,0x08,0x80,0x05,0xc3,0x33,0xce,0x33,0xce,0xd8,0xf9,0xff,0xef,0x5d,0x70,
++0x02,0x21,0xae,0x90,0x9e,0xae,0xe0,0x75,0xf0,0x04,0x90,0x01,0xd0,0x12,0x43,0x5f,
++0xe0,0x90,0x9e,0x1a,0xf0,0x75,0x23,0x01,0x75,0x24,0x9e,0x75,0x25,0x1a,0x75,0x26,
++0x01,0x7b,0x01,0x7a,0x9e,0x79,0x1b,0x12,0x45,0x09,0x90,0x9e,0x1b,0xe0,0xff,0xc4,
++0x13,0x13,0x13,0x54,0x01,0x90,0x9e,0xae,0x30,0xe0,0x59,0xe0,0x75,0xf0,0x02,0x90,
++0x00,0x88,0x12,0x43,0x5f,0xe0,0x90,0x9e,0x1c,0xf0,0x90,0x9e,0xae,0xe0,0x75,0xf0,
++0x02,0x90,0x00,0x89,0x12,0x43,0x5f,0xe0,0x90,0x9e,0x1d,0xf0,0x90,0x9e,0xae,0xe0,
++0x75,0xf0,0x04,0x90,0x01,0xd1,0x12,0x43,0x5f,0xe0,0x90,0x9e,0x1e,0xf0,0x90,0x9e,
++0xae,0xe0,0x75,0xf0,0x04,0x90,0x01,0xd2,0x12,0x43,0x5f,0xe0,0x90,0x9e,0x1f,0xf0,
++0x90,0x9e,0xae,0xe0,0x75,0xf0,0x04,0x90,0x01,0xd3,0x12,0x43,0x5f,0xe0,0x90,0x9e,
++0x20,0xf0,0x80,0x33,0xe0,0x75,0xf0,0x04,0x90,0x01,0xd1,0x12,0x43,0x5f,0xe0,0x90,
++0x9e,0x1c,0xf0,0x90,0x9e,0xae,0xe0,0x75,0xf0,0x04,0x90,0x01,0xd2,0x12,0x43,0x5f,
++0xe0,0x90,0x9e,0x1d,0xf0,0x90,0x9e,0xae,0xe0,0x75,0xf0,0x04,0x90,0x01,0xd3,0x12,
++0x43,0x5f,0xe0,0x90,0x9e,0x1e,0xf0,0xef,0x54,0x7f,0xff,0x7b,0x01,0x7a,0x9e,0x79,
++0x1c,0x31,0xb6,0x90,0x9e,0x19,0xe0,0xff,0x90,0x9e,0xae,0xe0,0xfe,0x74,0x01,0xa8,
++0x06,0x08,0x80,0x02,0xc3,0x33,0xd8,0xfc,0xf4,0x5f,0x90,0x9e,0x19,0xf0,0x90,0x9e,
++0xae,0xe0,0xff,0x74,0x01,0xa8,0x07,0x08,0x80,0x02,0xc3,0x33,0xd8,0xfc,0x90,0x01,
++0xcc,0xf0,0x90,0x9e,0xae,0xe0,0x04,0xf0,0xe0,0x54,0x03,0xf0,0x01,0x7e,0x90,0x01,
++0xc6,0xe0,0x44,0x02,0xf0,0x22,0x90,0x9e,0x21,0x12,0x43,0x8b,0xef,0x12,0x43,0x94,
++0x59,0xfc,0x01,0x59,0xf4,0x02,0x5a,0x20,0x03,0x5a,0x29,0x05,0x5a,0x32,0x06,0x5a,
++0x7e,0x07,0x5a,0x3a,0x09,0x5a,0x43,0x0b,0x5a,0x4c,0x0c,0x5a,0x55,0x0d,0x5a,0x5e,
++0x0e,0x5a,0x67,0x1b,0x5a,0x6f,0x1c,0x5a,0x05,0x2d,0x5a,0x0e,0x2e,0x5a,0x17,0x3b,
++0x00,0x00,0x5a,0x77,0x90,0x9e,0x21,0x12,0x43,0x6b,0xe1,0xe9,0x90,0x9e,0x21,0x12,
++0x43,0x6b,0x02,0x71,0xd0,0x90,0x9e,0x21,0x12,0x43,0x6b,0x02,0x72,0x0b,0x90,0x9e,
++0x21,0x12,0x43,0x6b,0x02,0x72,0x53,0x90,0x9e,0x21,0x12,0x43,0x6b,0x02,0x72,0x8c,
++0x90,0x9e,0x21,0x12,0x43,0x6b,0x02,0x72,0xb6,0x90,0x9e,0x21,0x12,0x43,0x6b,0x02,
++0x70,0x4a,0x90,0x9e,0x21,0x12,0x43,0x6b,0x80,0x45,0x90,0x9e,0x21,0x12,0x43,0x6b,
++0x02,0x72,0xfe,0x90,0x9e,0x21,0x12,0x43,0x6b,0x02,0x70,0xa2,0x90,0x9e,0x21,0x12,
++0x43,0x6b,0x02,0x49,0xc2,0x90,0x9e,0x21,0x12,0x43,0x6b,0x02,0x7b,0x29,0x90,0x9e,
++0x21,0x12,0x43,0x6b,0x02,0x4a,0xfc,0x90,0x9e,0x21,0x12,0x43,0x6b,0xe1,0xef,0x90,
++0x9e,0x21,0x12,0x43,0x6b,0xe1,0xd1,0x90,0x01,0xc6,0xe0,0x44,0x01,0xf0,0x22,0x90,
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++0xfd,0xaf,0x06,0x90,0x9e,0x24,0xef,0xf0,0xa3,0xed,0xf0,0xa3,0x12,0x43,0x8b,0x90,
++0x9e,0x26,0x12,0x43,0x6b,0x90,0x00,0x03,0x12,0x42,0x20,0x54,0xf0,0xc4,0x54,0x0f,
++0x90,0x9e,0x29,0xf0,0x90,0x00,0x04,0x12,0x42,0x20,0x54,0x40,0xc4,0x13,0x13,0x54,
++0x03,0x90,0x9e,0x2a,0xf0,0x90,0x9e,0x24,0xe0,0xff,0x75,0xf0,0x09,0x90,0x96,0x46,
++0x12,0x43,0x5f,0xad,0x82,0xac,0x83,0x90,0x9e,0x2b,0xec,0xf0,0xa3,0xed,0xf0,0xef,
++0x75,0xf0,0x09,0xa4,0x24,0x44,0xf9,0x74,0x96,0x35,0xf0,0xfa,0x7b,0x01,0xa3,0x12,
++0x43,0x8b,0x90,0x9e,0x26,0x12,0x43,0x6b,0x90,0x00,0x03,0x12,0x42,0x20,0x54,0x0f,
++0xff,0x90,0x9e,0x2d,0x12,0x43,0x6b,0xef,0x12,0x42,0x4d,0x90,0x9e,0x26,0x12,0x43,
++0x6b,0x90,0x00,0x02,0x12,0x42,0x20,0xff,0x90,0x9e,0x2d,0x12,0x43,0x6b,0x90,0x00,
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++0x24,0xe0,0xff,0x24,0x82,0xf5,0x82,0xe4,0x34,0x95,0xf5,0x83,0xee,0xf0,0x90,0x9e,
++0x25,0xe0,0xfe,0x75,0xf0,0x09,0xef,0x90,0x96,0x4a,0x12,0x43,0x5f,0xee,0xf0,0x75,
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++0x14,0x75,0xf0,0x02,0xa4,0x24,0x02,0xf9,0x74,0x95,0x35,0xf0,0x75,0x18,0x01,0xf5,
++0x19,0x89,0x1a,0x75,0xf0,0x09,0xe5,0x14,0x90,0x96,0x46,0x12,0x43,0x5f,0xaf,0x82,
++0x85,0x83,0x1b,0x8f,0x1c,0xe5,0x14,0x75,0xf0,0x09,0xa4,0x24,0x44,0xf9,0x74,0x96,
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++0x34,0x95,0xf5,0x83,0xe0,0x12,0x43,0x94,0x5c,0x0d,0x00,0x5c,0x22,0x01,0x5c,0x37,
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++0x34,0x9b,0xf5,0x83,0x74,0xf0,0xf0,0xa3,0x74,0x05,0x80,0x12,0xe5,0x14,0x25,0xe0,
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++0x14,0x25,0xe0,0x24,0xc6,0xf5,0x82,0xe4,0x34,0x9b,0xf5,0x83,0xe4,0xf0,0xa3,0x74,
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++0x42,0x4d,0x90,0x04,0x46,0xe0,0xab,0x18,0xaa,0x19,0xa9,0x1a,0x90,0x00,0x01,0x12,
++0x42,0x5f,0x90,0x04,0x45,0xe0,0x85,0x17,0x82,0x85,0x16,0x83,0xf0,0x90,0x04,0x44,
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++0x85,0x17,0x82,0x85,0x16,0x83,0xf0,0x90,0x04,0x4c,0x80,0x2b,0x90,0x04,0x53,0xe0,
++0xab,0x18,0xaa,0x19,0xa9,0x1a,0x12,0x42,0x4d,0x90,0x04,0x52,0xe0,0xab,0x18,0xaa,
++0x19,0xa9,0x1a,0x90,0x00,0x01,0x12,0x42,0x5f,0x90,0x04,0x51,0xe0,0x85,0x17,0x82,
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++0xab,0x18,0xaa,0x19,0xa9,0x1a,0xc0,0x03,0xc0,0x02,0xc0,0x01,0x12,0x29,0xd9,0xff,
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++0x82,0x85,0x16,0x83,0xc0,0x83,0xc0,0x82,0xe0,0xff,0x85,0x1c,0x82,0x85,0x1b,0x83,
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++0x5e,0xd0,0x82,0xd0,0x83,0xf0,0xe5,0x14,0x25,0xe0,0x24,0x02,0xf5,0x82,0xe4,0x34,
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++0xa8,0x15,0x08,0x80,0x05,0xc3,0x33,0xce,0x33,0xce,0xd8,0xf9,0xff,0xe5,0x14,0x25,
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++0x4e,0x60,0x08,0x90,0x9e,0x30,0xe5,0x15,0xf0,0x80,0x10,0x15,0x15,0xe5,0x15,0xc3,
++0x94,0x00,0x50,0xc8,0x80,0x05,0xe4,0x90,0x9e,0x30,0xf0,0xe5,0x14,0x25,0xe0,0x24,
++0xc6,0xf5,0x82,0xe4,0x34,0x9b,0xf5,0x83,0xe0,0xfe,0xa3,0xe0,0x4e,0x60,0x3b,0xe4,
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++0xd8,0xf9,0xff,0xe5,0x14,0x25,0xe0,0x24,0xc6,0xf5,0x82,0xe4,0x34,0x9b,0xf5,0x83,
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++0x5b,0x05,0x15,0xe5,0x15,0xb4,0x10,0xca,0x80,0x52,0xe5,0x14,0x25,0xe0,0x24,0x02,
++0xf5,0x82,0xe4,0x34,0x95,0xf5,0x83,0xe0,0xfe,0xa3,0xe0,0x4e,0x60,0x39,0xe4,0xf5,
++0x15,0x74,0x01,0x7e,0x00,0xa8,0x15,0x08,0x80,0x05,0xc3,0x33,0xce,0x33,0xce,0xd8,
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++0xff,0x75,0xf0,0x09,0xe5,0x14,0x90,0x96,0x48,0x12,0x43,0x5f,0xef,0xf0,0x90,0x9e,
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++0x74,0x84,0x25,0x14,0xf5,0x82,0xe4,0x34,0x04,0xf5,0x83,0xe0,0xd3,0x9f,0x40,0x06,
++0x90,0x9e,0x30,0x12,0x62,0x94,0x74,0x84,0x25,0x14,0xf5,0x82,0xe4,0x34,0x04,0xf5,
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++0x22,0xef,0xd3,0x94,0x0b,0x40,0x07,0x90,0x96,0x43,0x74,0x02,0xf0,0x22,0xef,0xd3,
++0x94,0x03,0x40,0x07,0x90,0x96,0x43,0x74,0x01,0xf0,0x22,0xe4,0x90,0x96,0x43,0xf0,
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++0x4a,0xf0,0xa3,0xe4,0xf0,0x90,0x9e,0x35,0xe0,0x90,0x04,0x4c,0xf0,0x90,0x9e,0x36,
++0xe0,0x90,0x04,0x4d,0xf0,0x90,0x9e,0x37,0xe0,0x90,0x04,0x4e,0xf0,0x90,0x9e,0x38,
++0xe0,0x90,0x04,0x4f,0xf0,0xe4,0x90,0x9e,0x3a,0xf0,0x90,0x9e,0x35,0x04,0xf0,0xe4,
++0xa3,0xf0,0xa3,0xf0,0xa3,0xf0,0x90,0x9e,0x49,0xf0,0xa3,0xf0,0xa3,0xf0,0xa3,0xf0,
++0xa3,0xf0,0xa3,0xf0,0x90,0x05,0x60,0xe0,0x90,0x9e,0x19,0xf0,0x90,0x05,0x61,0xe0,
++0x90,0x9e,0x1a,0xf0,0x90,0x05,0x62,0xe0,0x90,0x9e,0x1b,0xf0,0x90,0x05,0x63,0xe0,
++0x90,0x9e,0x1c,0xf0,0x90,0x9e,0x52,0xe0,0xff,0x90,0x9e,0x1c,0xe0,0xfe,0xd3,0x9f,
++0x50,0x0b,0x90,0x9e,0x52,0xe0,0xc3,0x9e,0xd3,0x94,0x01,0x40,0x11,0x90,0x9e,0x40,
++0xe0,0xb4,0x01,0x02,0x80,0x03,0x90,0x9e,0x44,0xe0,0xff,0x12,0x4c,0xf0,0x22,0x90,
++0x9e,0x53,0xe0,0x64,0x01,0x60,0x08,0x90,0x9e,0x41,0xe0,0x60,0x02,0xa1,0x36,0x90,
++0x9e,0x35,0xe0,0xc3,0x94,0xff,0x50,0x05,0xe0,0x04,0xf0,0x80,0x3b,0x90,0x9e,0x36,
++0xe0,0xc3,0x94,0xff,0x50,0x06,0xe0,0x04,0xf0,0xe4,0x80,0x28,0x90,0x9e,0x37,0xe0,
++0xc3,0x94,0xff,0x50,0x0a,0xe0,0x04,0xf0,0xe4,0x90,0x9e,0x36,0xf0,0x80,0x15,0x90,
++0x9e,0x38,0xe0,0xc3,0x94,0xff,0x50,0x10,0xe0,0x04,0xf0,0xe4,0x90,0x9e,0x37,0xf0,
++0x90,0x9e,0x36,0xf0,0x90,0x9e,0x35,0xf0,0x90,0x00,0x44,0xe0,0x54,0x0c,0x60,0x76,
++0xe0,0x30,0xe2,0x32,0x90,0x9e,0x49,0xe0,0xc3,0x94,0xff,0x50,0x05,0xe0,0x04,0xf0,
++0x80,0x24,0x90,0x9e,0x4a,0xe0,0xc3,0x94,0xff,0x50,0x06,0xe0,0x04,0xf0,0xe4,0x80,
++0x11,0x90,0x9e,0x4b,0xe0,0xc3,0x94,0xff,0x50,0x0c,0xe0,0x04,0xf0,0xe4,0x90,0x9e,
++0x4a,0xf0,0x90,0x9e,0x49,0xf0,0x90,0x00,0x44,0xe0,0x30,0xe3,0x32,0x90,0x9e,0x4c,
++0xe0,0xc3,0x94,0xff,0x50,0x05,0xe0,0x04,0xf0,0x80,0x24,0x90,0x9e,0x4d,0xe0,0xc3,
++0x94,0xff,0x50,0x06,0xe0,0x04,0xf0,0xe4,0x80,0x11,0x90,0x9e,0x4e,0xe0,0xc3,0x94,
++0xff,0x50,0x0c,0xe0,0x04,0xf0,0xe4,0x90,0x9e,0x4d,0xf0,0x90,0x9e,0x4c,0xf0,0x90,
++0x04,0xfd,0xe0,0x44,0x01,0xf0,0x22,0x00,0x37,0xda,};
++
++// =================== v79 UMC A Cut COMMON 2011-10-06 =====================
++u8 Rtl8192CUFwUMCACutImgArray[UMCACutImgArrayLength] = {
++0xc1,0x88,0x02,0x00,0x4f,0x00,0x00,0x00,0x0a,0x06,0x18,0x09,0x58,0x3f,0x01,0x00,
++0x61,0x80,0x01,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x02,0x43,0xba,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x02,0x5a,0x45,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x02,0x5f,0xfb,0x00,0x00,0x00,0x00,0x00,0xa1,0xdf,0x00,0x00,0x00,
++0x05,0x04,0x03,0x02,0x00,0x03,0x06,0x05,0x04,0x03,0x00,0x04,0x06,0x05,0x04,0x02,
++0x00,0x04,0x08,0x07,0x06,0x04,0x00,0x06,0x0a,0x09,0x08,0x06,0x00,0x08,0x0a,0x09,
++0x08,0x04,0x00,0x08,0x0a,0x09,0x08,0x02,0x00,0x08,0x0a,0x09,0x08,0x00,0x00,0x08,
++0x12,0x11,0x10,0x08,0x00,0x10,0x1a,0x19,0x18,0x10,0x00,0x18,0x22,0x21,0x20,0x18,
++0x00,0x20,0x22,0x21,0x20,0x10,0x00,0x20,0x22,0x21,0x20,0x08,0x00,0x20,0x22,0x21,
++0x1c,0x08,0x00,0x20,0x22,0x21,0x14,0x08,0x00,0x20,0x22,0x20,0x18,0x08,0x00,0x20,
++0x31,0x30,0x20,0x10,0x00,0x30,0x31,0x30,0x18,0x00,0x00,0x30,0x31,0x2f,0x10,0x10,
++0x00,0x30,0x31,0x2c,0x10,0x10,0x00,0x30,0x31,0x28,0x10,0x00,0x00,0x30,0x31,0x20,
++0x10,0x00,0x00,0x30,0x31,0x10,0x10,0x00,0x00,0x30,0x04,0x04,0x04,0x05,0x04,0x04,
++0x04,0x05,0x05,0x05,0x06,0x06,0x04,0x04,0x04,0x05,0x05,0x05,0x06,0x06,0x04,0x04,
++0x05,0x05,0x05,0x05,0x06,0x06,0x04,0x04,0x05,0x05,0x05,0x05,0x06,0x07,0x0a,0x0b,
++0x0d,0x10,0x04,0x05,0x05,0x06,0x06,0x09,0x0c,0x11,0x08,0x08,0x09,0x09,0x0a,0x0c,
++0x10,0x11,0x04,0x04,0x04,0x05,0x04,0x04,0x05,0x07,0x07,0x07,0x08,0x0a,0x04,0x04,
++0x04,0x04,0x06,0x0a,0x0b,0x0d,0x05,0x05,0x07,0x07,0x08,0x0b,0x0d,0x0f,0x04,0x04,
++0x04,0x05,0x07,0x07,0x09,0x09,0x0c,0x0e,0x10,0x12,0x04,0x04,0x05,0x05,0x06,0x0a,
++0x11,0x13,0x09,0x09,0x09,0x09,0x0c,0x0e,0x11,0x13,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x24,0x26,0x2a,0x18,0x1a,0x1d,0x1f,0x21,0x27,0x29,0x2a,0x00,0x00,
++0x00,0x1f,0x23,0x28,0x2a,0x2c,0x00,0x04,0x00,0x04,0x00,0x08,0x00,0x10,0x00,0x18,
++0x00,0x24,0x00,0x30,0x00,0x48,0x00,0x60,0x00,0x90,0x00,0xc0,0x00,0xd8,0x00,0x50,
++0x00,0x78,0x00,0xa0,0x00,0xc8,0x01,0x40,0x01,0x90,0x01,0xe0,0x02,0x30,0x01,0x2c,
++0x01,0x40,0x01,0xe0,0x02,0xd0,0x03,0xe8,0x04,0xb0,0x06,0x40,0x07,0xd0,0x00,0x02,
++0x00,0x02,0x00,0x04,0x00,0x08,0x00,0x0c,0x00,0x12,0x00,0x18,0x00,0x24,0x00,0x30,
++0x00,0x48,0x00,0x60,0x00,0x6c,0x00,0x28,0x00,0x3c,0x00,0x50,0x00,0x64,0x00,0xa0,
++0x00,0xc8,0x00,0xf0,0x01,0x18,0x00,0x64,0x00,0xa0,0x00,0xf0,0x01,0x68,0x01,0xf4,
++0x02,0x58,0x03,0x20,0x03,0xe8,0x02,0x02,0x02,0x02,0x02,0x02,0x03,0x03,0x04,0x04,
++0x05,0x07,0x04,0x04,0x07,0x0a,0x0a,0x0c,0x0c,0x12,0x05,0x07,0x07,0x08,0x0b,0x12,
++0x24,0x3c,0x01,0x01,0x01,0x01,0x01,0x02,0x03,0x04,0x05,0x06,0x07,0x08,0x01,0x02,
++0x03,0x04,0x05,0x06,0x07,0x08,0x05,0x06,0x07,0x08,0x09,0x0a,0x0b,0x0c,0x20,0x1e,
++0x1c,0x18,0x10,0x18,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0xbb,0x01,0x0c,0xe5,0x82,0x29,0xf5,0x82,0xe5,0x83,0x3a,0xf5,0x83,0xe0,0x22,0x50,
++0x06,0xe9,0x25,0x82,0xf8,0xe6,0x22,0xbb,0xfe,0x06,0xe9,0x25,0x82,0xf8,0xe2,0x22,
++0xe5,0x82,0x29,0xf5,0x82,0xe5,0x83,0x3a,0xf5,0x83,0xe4,0x93,0x22,0xbb,0x01,0x06,
++0x89,0x82,0x8a,0x83,0xf0,0x22,0x50,0x02,0xf7,0x22,0xbb,0xfe,0x01,0xf3,0x22,0xf8,
++0xbb,0x01,0x0d,0xe5,0x82,0x29,0xf5,0x82,0xe5,0x83,0x3a,0xf5,0x83,0xe8,0xf0,0x22,
++0x50,0x06,0xe9,0x25,0x82,0xc8,0xf6,0x22,0xbb,0xfe,0x05,0xe9,0x25,0x82,0xc8,0xf2,
++0x22,0xc5,0xf0,0xf8,0xa3,0xe0,0x28,0xf0,0xc5,0xf0,0xf8,0xe5,0x82,0x15,0x82,0x70,
++0x02,0x15,0x83,0xe0,0x38,0xf0,0x22,0xbb,0x01,0x0a,0x89,0x82,0x8a,0x83,0xe0,0xf5,
++0xf0,0xa3,0xe0,0x22,0x50,0x06,0x87,0xf0,0x09,0xe7,0x19,0x22,0xbb,0xfe,0x07,0xe3,
++0xf5,0xf0,0x09,0xe3,0x19,0x22,0x89,0x82,0x8a,0x83,0xe4,0x93,0xf5,0xf0,0x74,0x01,
++0x93,0x22,0xbb,0x01,0x10,0xe5,0x82,0x29,0xf5,0x82,0xe5,0x83,0x3a,0xf5,0x83,0xe0,
++0xf5,0xf0,0xa3,0xe0,0x22,0x50,0x09,0xe9,0x25,0x82,0xf8,0x86,0xf0,0x08,0xe6,0x22,
++0xbb,0xfe,0x0a,0xe9,0x25,0x82,0xf8,0xe2,0xf5,0xf0,0x08,0xe2,0x22,0xe5,0x83,0x2a,
++0xf5,0x83,0xe9,0x93,0xf5,0xf0,0xa3,0xe9,0x93,0x22,0xbb,0x01,0x0a,0x89,0x82,0x8a,
++0x83,0xf0,0xe5,0xf0,0xa3,0xf0,0x22,0x50,0x06,0xf7,0x09,0xa7,0xf0,0x19,0x22,0xbb,
++0xfe,0x06,0xf3,0xe5,0xf0,0x09,0xf3,0x19,0x22,0xf8,0xbb,0x01,0x11,0xe5,0x82,0x29,
++0xf5,0x82,0xe5,0x83,0x3a,0xf5,0x83,0xe8,0xf0,0xe5,0xf0,0xa3,0xf0,0x22,0x50,0x09,
++0xe9,0x25,0x82,0xc8,0xf6,0x08,0xa6,0xf0,0x22,0xbb,0xfe,0x09,0xe9,0x25,0x82,0xc8,
++0xf2,0xe5,0xf0,0x08,0xf2,0x22,0xef,0x4b,0xff,0xee,0x4a,0xfe,0xed,0x49,0xfd,0xec,
++0x48,0xfc,0x22,0xe0,0xfc,0xa3,0xe0,0xfd,0xa3,0xe0,0xfe,0xa3,0xe0,0xff,0x22,0xa4,
++0x25,0x82,0xf5,0x82,0xe5,0xf0,0x35,0x83,0xf5,0x83,0x22,0xe0,0xfb,0xa3,0xe0,0xfa,
++0xa3,0xe0,0xf9,0x22,0xf8,0xe0,0xfb,0xa3,0xa3,0xe0,0xf9,0x25,0xf0,0xf0,0xe5,0x82,
++0x15,0x82,0x70,0x02,0x15,0x83,0xe0,0xfa,0x38,0xf0,0x22,0xeb,0xf0,0xa3,0xea,0xf0,
++0xa3,0xe9,0xf0,0x22,0xd0,0x83,0xd0,0x82,0xf8,0xe4,0x93,0x70,0x12,0x74,0x01,0x93,
++0x70,0x0d,0xa3,0xa3,0x93,0xf8,0x74,0x01,0x93,0xf5,0x82,0x88,0x83,0xe4,0x73,0x74,
++0x02,0x93,0x68,0x60,0xef,0xa3,0xa3,0xa3,0x80,0xdf,0x02,0x43,0xf8,0x02,0x50,0xa9,
++0xe4,0x93,0xa3,0xf8,0xe4,0x93,0xa3,0x40,0x03,0xf6,0x80,0x01,0xf2,0x08,0xdf,0xf4,
++0x80,0x29,0xe4,0x93,0xa3,0xf8,0x54,0x07,0x24,0x0c,0xc8,0xc3,0x33,0xc4,0x54,0x0f,
++0x44,0x20,0xc8,0x83,0x40,0x04,0xf4,0x56,0x80,0x01,0x46,0xf6,0xdf,0xe4,0x80,0x0b,
++0x01,0x02,0x04,0x08,0x10,0x20,0x40,0x80,0x90,0x44,0x3d,0xe4,0x7e,0x01,0x93,0x60,
++0xbc,0xa3,0xff,0x54,0x3f,0x30,0xe5,0x09,0x54,0x1f,0xfe,0xe4,0x93,0xa3,0x60,0x01,
++0x0e,0xcf,0x54,0xc0,0x25,0xe0,0x60,0xa8,0x40,0xb8,0xe4,0x93,0xa3,0xfa,0xe4,0x93,
++0xa3,0xf8,0xe4,0x93,0xa3,0xc8,0xc5,0x82,0xc8,0xca,0xc5,0x83,0xca,0xf0,0xa3,0xc8,
++0xc5,0x82,0xc8,0xca,0xc5,0x83,0xca,0xdf,0xe9,0xde,0xe7,0x80,0xbe,0x41,0x9e,0x66,
++0x00,0x41,0x9e,0xae,0x00,0x41,0x9e,0x4d,0x80,0x41,0x9e,0x4e,0x80,0x41,0x9e,0xb0,
++0x00,0x00,0xf0,0x90,0x9e,0x57,0xe0,0x90,0x9e,0x8a,0xf0,0xe4,0xfb,0xfd,0x7f,0x54,
++0x7e,0x01,0xd3,0x10,0xaf,0x01,0xc3,0xc0,0xd0,0x90,0x9e,0x88,0xeb,0xf0,0xa3,0xe0,
++0xfb,0xa3,0xe0,0xf5,0x44,0xe4,0xf5,0x45,0x12,0x30,0x62,0xd0,0xd0,0x92,0xaf,0x22,
++0x90,0x01,0x5f,0xe4,0xf0,0x90,0x01,0x3c,0x74,0x08,0xf0,0xe4,0x90,0x9e,0x89,0xf0,
++0x90,0x9e,0x55,0xe0,0x90,0x9e,0x8a,0xf0,0xe4,0xfb,0xfd,0x7f,0x5c,0x7e,0x01,0x91,
++0x62,0x90,0x01,0x5f,0x74,0x05,0xf0,0x90,0x06,0x92,0x74,0x02,0xf0,0x90,0x9e,0x5c,
++0x14,0xf0,0x90,0x9e,0x5e,0xe0,0x54,0x0f,0xc3,0x94,0x0c,0x50,0x02,0xf1,0x16,0x22,
++0x8f,0x82,0x8e,0x83,0xa3,0xa3,0xa3,0xe4,0xf0,0x22,0xe4,0xf5,0x22,0x7f,0x60,0x7e,
++0x01,0x80,0xed,0x90,0x9e,0x60,0xe0,0xff,0x7d,0x01,0xe1,0x1a,0xb1,0xb1,0xbf,0x01,
++0x0f,0x90,0x9e,0x68,0xe0,0xff,0xe4,0xfd,0xf1,0xfe,0x90,0x04,0x1f,0x74,0x20,0xf0,
++0x22,0x90,0x01,0xca,0xe5,0x25,0xf0,0xef,0x60,0x03,0x12,0x4f,0x2a,0x22,0x22,0x22,
++0x22,0x22,0x00,0x02,0x60,0x8d,0x02,0x60,0x94,0xd3,0x10,0xaf,0x01,0xc3,0xc0,0xd0,
++0x8b,0x1b,0x8a,0x1c,0x89,0x1d,0x90,0x9e,0x8b,0x71,0x8b,0xab,0x1e,0xaa,0x1f,0xa9,
++0x20,0x90,0x9e,0x8e,0x71,0x8b,0xaf,0x21,0x15,0x21,0xef,0x60,0x1b,0x90,0x9e,0x8e,
++0xe4,0x75,0xf0,0x01,0x71,0x74,0x12,0x24,0x62,0xff,0x90,0x9e,0x8b,0xe4,0x75,0xf0,
++0x01,0x71,0x74,0xef,0x51,0x4d,0x80,0xde,0xab,0x1b,0xaa,0x1c,0xa9,0x1d,0xd0,0xd0,
++0x92,0xaf,0x22,0x90,0x06,0xa9,0xe0,0xf5,0x50,0x54,0xc0,0x70,0x0d,0x90,0x9e,0x63,
++0xe0,0x54,0xfe,0xf0,0xe0,0x54,0xfd,0xf0,0x91,0xd3,0xe5,0x50,0x30,0xe6,0x17,0x90,
++0x9e,0x63,0xe0,0x44,0x01,0xf0,0x90,0x9e,0x61,0xe0,0x64,0x02,0x60,0x04,0x91,0xdc,
++0x80,0x0b,0x91,0x80,0x80,0x07,0x90,0x9e,0x63,0xe0,0x54,0xfe,0xf0,0xe5,0x50,0x90,
++0x9e,0x63,0x30,0xe7,0x17,0xe0,0x44,0x02,0xf0,0xe4,0x90,0x9e,0x89,0x91,0x52,0x90,
++0x01,0x57,0x74,0x05,0xf0,0x90,0x9e,0x62,0x74,0x01,0xf0,0x22,0xe0,0x54,0xfd,0xf0,
++0x22,0xd3,0x10,0xaf,0x01,0xc3,0xc0,0xd0,0x90,0x04,0x1d,0xe0,0x60,0x1a,0x90,0x05,
++0x22,0xe0,0x54,0x90,0x60,0x07,0x90,0x01,0xc6,0xe0,0x44,0x40,0xf0,0x90,0x01,0xc7,
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++0x42,0x20,0xff,0x90,0x9e,0x46,0xe0,0xfc,0xa3,0xe0,0xfd,0xf5,0x82,0x8c,0x83,0xef,
++0xf0,0x12,0x24,0x62,0x8d,0x82,0x8c,0x83,0xa3,0xf0,0x90,0x9e,0x44,0xe0,0xfe,0x90,
++0x9e,0x3f,0xe0,0xff,0x24,0x82,0xf5,0x82,0xe4,0x34,0x95,0xf5,0x83,0xee,0xf0,0x90,
++0x9e,0x40,0xe0,0xfe,0x75,0xf0,0x09,0xef,0x90,0x96,0x4a,0x12,0x43,0x5f,0xee,0xf0,
++0x75,0xf0,0x09,0xef,0x90,0x96,0x4b,0x12,0x43,0x5f,0x74,0x01,0xf0,0x90,0x9e,0x45,
++0xe0,0xfe,0x75,0xf0,0x09,0xef,0x90,0x96,0x4c,0x12,0x43,0x5f,0xee,0xf0,0x8f,0x59,
++0xef,0x25,0xe0,0x24,0xc6,0xf5,0x82,0xe4,0x34,0x9b,0xaf,0x82,0xf5,0x5b,0x8f,0x5c,
++0xe5,0x59,0x75,0xf0,0x02,0xa4,0x24,0x02,0xf9,0x74,0x95,0x35,0xf0,0x75,0x5d,0x01,
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++0x82,0x85,0x83,0x60,0x8f,0x61,0xe5,0x59,0x75,0xf0,0x09,0xa4,0x24,0x44,0xf9,0x74,
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++0x48,0x02,0x55,0x5d,0x03,0x55,0x86,0x04,0x55,0x9b,0x05,0x55,0xb0,0x06,0x55,0xd6,
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++0x12,0x42,0x4d,0x90,0x04,0x46,0xe0,0xab,0x5d,0xaa,0x5e,0xa9,0x5f,0x90,0x00,0x01,
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++0x90,0x04,0x4a,0xe0,0xab,0x5d,0xaa,0x5e,0xa9,0x5f,0x90,0x00,0x01,0x12,0x42,0x5f,
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++0x82,0x85,0x5b,0x83,0xf0,0x90,0x04,0x50,0xe0,0x85,0x5c,0x82,0x85,0x5b,0x83,0xa3,
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++0x2f,0xff,0xe4,0x3e,0xfe,0x75,0xf0,0x0a,0xe5,0x4d,0x90,0x90,0x00,0x12,0x43,0x5f,
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++0x9e,0x75,0xe0,0xb4,0x01,0x0e,0x90,0x01,0xaf,0xe0,0x60,0x08,0x90,0x01,0xb9,0x74,
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++0x34,0x9c,0xf5,0x83,0xe0,0x54,0x3f,0x90,0x9e,0x34,0xf0,0x90,0x9e,0x34,0xe0,0xfe,
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++0x90,0x9e,0x3d,0xf0,0x74,0xe6,0x25,0x59,0xf5,0x82,0xe4,0x34,0x9c,0xf5,0x83,0xe0,
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++0x35,0xe0,0xff,0x90,0x41,0x4a,0x93,0xfe,0x74,0x44,0x25,0x59,0xf5,0x82,0xe4,0x34,
++0x9a,0xf5,0x83,0xe0,0xc3,0x9e,0x40,0x06,0xef,0x90,0x40,0xda,0x80,0x30,0x90,0x9e,
++0x35,0xe0,0x90,0x40,0xf6,0x80,0x27,0x90,0x9e,0x35,0xe0,0xff,0x90,0x41,0x4a,0x93,
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++0x35,0xf0,0x75,0x5b,0xff,0xf5,0x5c,0x89,0x5d,0x90,0x9e,0x34,0xe0,0x90,0x41,0xf2,
++0x93,0xff,0xd3,0x90,0x9e,0x3b,0xe0,0x9f,0x90,0x9e,0x3a,0xe0,0x94,0x00,0x40,0x09,
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++0x82,0xe4,0x34,0x95,0xf5,0x83,0xe0,0xf5,0x61,0xa3,0xe0,0xf5,0x62,0xab,0x5b,0xaa,
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++0x12,0x24,0x7b,0xef,0x25,0x62,0xf5,0x62,0xee,0x35,0x61,0xf5,0x61,0xab,0x5b,0xaa,
++0x5c,0xa9,0x5d,0x90,0x00,0x02,0x12,0x42,0x20,0xff,0x7e,0x00,0xab,0x5e,0xaa,0x5f,
++0xa9,0x60,0x90,0x00,0x04,0x12,0x42,0xc2,0xfd,0xac,0xf0,0x12,0x24,0x7b,0xef,0x25,
++0x62,0xf5,0x62,0xee,0x35,0x61,0xf5,0x61,0xab,0x5b,0xaa,0x5c,0xa9,0x5d,0x90,0x00,
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++0x12,0x42,0xc2,0xfd,0xac,0xf0,0x12,0x24,0x7b,0xef,0x25,0x62,0xf5,0x62,0xee,0x35,
++0x61,0xf5,0x61,0xab,0x5b,0xaa,0x5c,0xa9,0x5d,0x90,0x00,0x04,0x12,0x42,0x20,0xff,
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++0x94,0x0a,0x40,0x1b,0x80,0x0c,0xef,0x70,0x11,0x90,0x9e,0x35,0xe0,0xc3,0x94,0x03,
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++0x84,0x25,0x59,0xf5,0x82,0xe4,0x34,0x98,0xf5,0x83,0xe0,0xf5,0x63,0x74,0x44,0x25,
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++0x82,0xe4,0x34,0x9a,0xf5,0x83,0xe0,0x64,0x0a,0x60,0x51,0xef,0x24,0x05,0xff,0xe4,
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++0x34,0x9c,0xf5,0x83,0xe4,0xf0,0x74,0x85,0x25,0x59,0xf5,0x82,0xe4,0x34,0x9a,0xf5,
++0x83,0xe0,0x04,0xf0,0x80,0x10,0xe4,0xf5,0x63,0x74,0xe6,0x25,0x59,0xf5,0x82,0xe4,
++0x34,0x9c,0xf5,0x83,0xe4,0xf0,0x90,0x9e,0x35,0xe0,0xff,0x74,0x26,0x25,0x59,0xf5,
++0x82,0xe4,0x34,0x9d,0xf5,0x83,0xef,0xf0,0x74,0x84,0x25,0x59,0xf5,0x82,0xe4,0x34,
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++0x9e,0x3a,0xe0,0x94,0x00,0x40,0x03,0xe4,0xf5,0x63,0xd3,0x90,0x9e,0x3b,0xe0,0x94,
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++0x74,0xe6,0x25,0x59,0xf5,0x82,0xe4,0x34,0x9c,0xf5,0x83,0xe0,0xd3,0x94,0x05,0x74,
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++0x90,0x04,0x12,0x43,0x5f,0xe4,0xf0,0xa3,0xf0,0x75,0xf0,0x0a,0xed,0x90,0x90,0x06,
++0x12,0x43,0x5f,0xe4,0xf0,0xa3,0xf0,0x75,0xf0,0x0a,0xed,0x90,0x90,0x08,0x12,0x43,
++0x5f,0xe4,0xf0,0xa3,0xf0,0x74,0x26,0x2d,0xf5,0x82,0xe4,0x34,0x9d,0xf5,0x83,0x74,
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++0x82,0xe4,0x34,0x98,0xf5,0x83,0xe4,0xf0,0xa3,0xf0,0xed,0x25,0xe0,0x24,0xc4,0xf5,
++0x82,0xe4,0x34,0x99,0xf5,0x83,0xe4,0xf0,0xa3,0xf0,0xed,0x25,0xe0,0x24,0x44,0xf5,
++0x82,0xe4,0x34,0x99,0xf5,0x83,0xe4,0xf0,0xa3,0xf0,0xed,0x25,0xe0,0x24,0xc6,0xf5,
++0x82,0xe4,0x34,0x9a,0xf5,0x83,0xe4,0xf0,0xa3,0xf0,0xed,0x25,0xe0,0x24,0x46,0xf5,
++0x82,0xe4,0x34,0x9b,0xf5,0x83,0xe4,0xf0,0xa3,0xf0,0x74,0x86,0x2d,0xf5,0x82,0xe4,
++0x34,0x9c,0xf5,0x83,0xe4,0xf0,0x74,0x46,0x2d,0xf5,0x82,0xe4,0x34,0x9c,0xf5,0x83,
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++0x93,0x3e,0xc3,0x13,0xfe,0xef,0x13,0xff,0xed,0x25,0xe0,0x24,0xc2,0xf5,0x82,0xe4,
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++0x12,0x43,0x5f,0x74,0x01,0xf0,0x75,0xf0,0x09,0xed,0x90,0x96,0x4a,0x12,0x43,0x5f,
++0x74,0x01,0xf0,0x74,0x82,0x2d,0xf5,0x82,0xe4,0x34,0x95,0xf5,0x83,0x74,0x0c,0xf0,
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++0x80,0x96,0x12,0x25,0x08,0x7f,0xd0,0x7e,0x0e,0x12,0x2b,0x08,0x90,0x9d,0xd7,0x12,
++0x43,0x53,0x90,0x80,0x96,0x12,0x25,0x08,0x7f,0xd4,0x7e,0x0e,0x12,0x2b,0x08,0x90,
++0x9d,0xdb,0x12,0x43,0x53,0x90,0x80,0x96,0x12,0x25,0x08,0x7f,0xd8,0x7e,0x0e,0x12,
++0x2b,0x08,0x90,0x9d,0xdf,0x12,0x43,0x53,0x90,0x80,0x96,0x12,0x25,0x08,0x7f,0xdc,
++0x7e,0x0e,0x12,0x2b,0x08,0x90,0x9d,0xe3,0x12,0x43,0x53,0x90,0x80,0x96,0x12,0x25,
++0x08,0x7f,0xe0,0x7e,0x0e,0x12,0x2b,0x08,0x90,0x9d,0xe7,0x12,0x43,0x53,0x90,0x80,
++0x96,0x12,0x25,0x08,0x7f,0xec,0x7e,0x0e,0x12,0x2b,0x08,0x90,0x9d,0xeb,0x12,0x43,
++0x53,0x90,0x80,0x96,0x12,0x25,0x08,0x7f,0x04,0x7e,0x0c,0x12,0x2b,0x08,0x90,0x9d,
++0xef,0x12,0x43,0x53,0x90,0x80,0x96,0x12,0x25,0x08,0x7f,0x04,0x7e,0x0d,0x12,0x2b,
++0x08,0x90,0x9d,0xf3,0x12,0x43,0x53,0x90,0x80,0x96,0x12,0x25,0x08,0x7f,0x0c,0x7e,
++0x09,0x12,0x2b,0x08,0x90,0x9d,0xf7,0x12,0x43,0x53,0x90,0x80,0x96,0x12,0x25,0x08,
++0x7f,0x04,0x7e,0x08,0x12,0x2b,0x08,0x90,0x9e,0x0f,0x74,0x01,0xf0,0x22,0x90,0x9e,
++0x0f,0xe0,0x64,0x01,0x60,0x02,0x81,0xe9,0x7f,0x8c,0x7e,0x08,0x12,0x22,0x65,0x90,
++0x9d,0xfb,0x12,0x25,0x08,0x7f,0x44,0x7e,0x08,0x12,0x22,0x65,0x90,0x9d,0xa7,0x12,
++0x25,0x08,0x7f,0x5c,0x7e,0x08,0x12,0x22,0x65,0x90,0x9d,0xab,0x12,0x25,0x08,0x7f,
++0x6c,0x7e,0x0e,0x12,0x22,0x65,0x90,0x9d,0xaf,0x12,0x25,0x08,0x7f,0x70,0x7e,0x0e,
++0x12,0x22,0x65,0x90,0x9d,0xb3,0x12,0x25,0x08,0x7f,0x74,0x7e,0x0e,0x12,0x22,0x65,
++0x90,0x9d,0xb7,0x12,0x25,0x08,0x7f,0x78,0x7e,0x0e,0x12,0x22,0x65,0x90,0x9d,0xbb,
++0x12,0x25,0x08,0x7f,0x7c,0x7e,0x0e,0x12,0x22,0x65,0x90,0x9d,0xbf,0x12,0x25,0x08,
++0x7f,0x80,0x7e,0x0e,0x12,0x22,0x65,0x90,0x9d,0xc3,0x12,0x25,0x08,0x7f,0x84,0x7e,
++0x0e,0x12,0x22,0x65,0x90,0x9d,0xc7,0x12,0x25,0x08,0x7f,0x88,0x7e,0x0e,0x12,0x22,
++0x65,0x90,0x9d,0xcb,0x12,0x25,0x08,0x7f,0x8c,0x7e,0x0e,0x12,0x22,0x65,0x90,0x9d,
++0xcf,0x12,0x25,0x08,0x7f,0xd0,0x7e,0x0e,0x12,0x22,0x65,0x90,0x9d,0xd3,0x12,0x25,
++0x08,0x7f,0xd4,0x7e,0x0e,0x12,0x22,0x65,0x90,0x9d,0xd7,0x12,0x25,0x08,0x7f,0xd8,
++0x7e,0x0e,0x12,0x22,0x65,0x90,0x9d,0xdb,0x12,0x25,0x08,0x7f,0xdc,0x7e,0x0e,0x12,
++0x22,0x65,0x90,0x9d,0xdf,0x12,0x25,0x08,0x7f,0xe0,0x7e,0x0e,0x12,0x22,0x65,0x90,
++0x9d,0xe3,0x12,0x25,0x08,0x7f,0xec,0x7e,0x0e,0x12,0x22,0x65,0x90,0x9d,0xe7,0x12,
++0x25,0x08,0x7f,0x04,0x7e,0x0c,0x12,0x22,0x65,0x90,0x9d,0xeb,0x12,0x25,0x08,0x7f,
++0x04,0x7e,0x0d,0x12,0x22,0x65,0x90,0x9d,0xef,0x12,0x25,0x08,0x7f,0x0c,0x7e,0x09,
++0x12,0x22,0x65,0x90,0x9d,0xf3,0x12,0x25,0x08,0x7f,0x04,0x7e,0x08,0x12,0x22,0x65,
++0x90,0x9d,0xf7,0x12,0x25,0x08,0x7f,0x8c,0x7e,0x08,0x12,0x22,0x65,0x90,0x9e,0xa4,
++0x12,0x25,0x08,0x90,0x9e,0xa4,0x12,0x43,0x53,0xed,0x44,0xc0,0xfd,0xec,0x90,0x9e,
++0xa4,0x12,0x25,0x08,0x90,0x9e,0xa4,0x12,0x43,0x53,0x90,0x80,0x96,0x12,0x25,0x08,
++0x7f,0x8c,0x7e,0x08,0x12,0x2b,0x08,0x90,0x80,0x96,0x12,0x25,0x14,0x00,0x01,0x00,
++0x00,0x7f,0x44,0x7e,0x08,0x12,0x2b,0x08,0x90,0x80,0x96,0x12,0x25,0x14,0x00,0xdb,
++0x25,0xa4,0x7f,0x5c,0x7e,0x08,0x12,0x2b,0x08,0x90,0x80,0x96,0x12,0x25,0x14,0x20,
++0xdb,0x25,0xa4,0x7f,0x6c,0x7e,0x0e,0x12,0x2b,0x08,0x90,0x80,0x96,0x12,0x25,0x14,
++0x20,0xdb,0x25,0xa4,0x7f,0x70,0x7e,0x0e,0x12,0x2b,0x08,0x90,0x80,0x96,0x12,0x25,
++0x14,0x04,0x1b,0x25,0xa4,0x7f,0x74,0x7e,0x0e,0x12,0x2b,0x08,0x90,0x80,0x96,0x12,
++0x25,0x14,0x04,0x1b,0x25,0xa4,0x7f,0x78,0x7e,0x0e,0x12,0x2b,0x08,0x90,0x80,0x96,
++0x12,0x25,0x14,0x04,0x1b,0x25,0xa4,0x7f,0x7c,0x7e,0x0e,0x12,0x2b,0x08,0x90,0x80,
++0x96,0x12,0x25,0x14,0x04,0x1b,0x25,0xa4,0x7f,0x80,0x7e,0x0e,0x12,0x2b,0x08,0x90,
++0x80,0x96,0x12,0x25,0x14,0x63,0xdb,0x25,0xa4,0x7f,0x84,0x7e,0x0e,0x12,0x2b,0x08,
++0x90,0x80,0x96,0x12,0x25,0x14,0x04,0x1b,0x25,0xa4,0x7f,0x88,0x7e,0x0e,0x12,0x2b,
++0x08,0x90,0x80,0x96,0x12,0x25,0x14,0x20,0xdb,0x25,0xa4,0x7f,0x8c,0x7e,0x0e,0x12,
++0x2b,0x08,0x90,0x80,0x96,0x12,0x25,0x14,0x20,0xdb,0x25,0xa4,0x7f,0xd0,0x7e,0x0e,
++0x12,0x2b,0x08,0x90,0x80,0x96,0x12,0x25,0x14,0x20,0xdb,0x25,0xa4,0x7f,0xd4,0x7e,
++0x0e,0x12,0x2b,0x08,0x90,0x80,0x96,0x12,0x25,0x14,0x20,0xdb,0x25,0xa4,0x7f,0xd8,
++0x7e,0x0e,0x12,0x2b,0x08,0x90,0x80,0x96,0x12,0x25,0x14,0x00,0x1b,0x25,0xa4,0x7f,
++0xdc,0x7e,0x0e,0x12,0x2b,0x08,0x90,0x80,0x96,0x12,0x25,0x14,0x00,0x1b,0x25,0xa4,
++0x7f,0xe0,0x7e,0x0e,0x12,0x2b,0x08,0x90,0x80,0x96,0x12,0x25,0x14,0x24,0xdb,0x25,
++0xa4,0x7f,0xec,0x7e,0x0e,0x12,0x2b,0x08,0x7f,0x04,0x7e,0x0c,0x12,0x22,0x65,0x90,
++0x9e,0xa4,0x12,0x25,0x08,0x90,0x9e,0xa4,0x12,0x43,0x53,0xe4,0xff,0xec,0x90,0x9e,
++0xa4,0x12,0x25,0x08,0x90,0x9e,0xa4,0x12,0x43,0x53,0xef,0x44,0x11,0xff,0xec,0x90,
++0x9e,0xa4,0x12,0x25,0x08,0x90,0x9e,0xa4,0x12,0x43,0x53,0x90,0x80,0x96,0x12,0x25,
++0x08,0x7f,0x04,0x7e,0x0c,0x12,0x2b,0x08,0x7f,0x04,0x7e,0x0d,0x12,0x22,0x65,0x90,
++0x9e,0xa4,0x12,0x25,0x08,0x90,0x9e,0xa4,0x12,0x43,0x53,0xef,0x54,0xf0,0xff,0xec,
++0x90,0x9e,0xa4,0x12,0x25,0x08,0x90,0x9e,0xa4,0x12,0x43,0x53,0xef,0x44,0x01,0xff,
++0xec,0x90,0x9e,0xa4,0x12,0x25,0x08,0x90,0x9e,0xa4,0x12,0x43,0x53,0x90,0x80,0x96,
++0x12,0x25,0x08,0x7f,0x04,0x7e,0x0d,0x12,0x2b,0x08,0x7f,0x0c,0x7e,0x09,0x12,0x22,
++0x65,0x90,0x9e,0xa4,0x12,0x25,0x08,0x90,0x9e,0xa4,0x12,0x43,0x53,0xe4,0xff,0xec,
++0x90,0x9e,0xa4,0x12,0x25,0x08,0x90,0x9e,0xa4,0x12,0x43,0x53,0xef,0x44,0x11,0xff,
++0xec,0x90,0x9e,0xa4,0x12,0x25,0x08,0x90,0x9e,0xa4,0x12,0x43,0x53,0x90,0x80,0x96,
++0x12,0x25,0x08,0x7f,0x0c,0x7e,0x09,0x12,0x2b,0x08,0x7f,0x0c,0x7e,0x09,0x12,0x22,
++0x65,0x90,0x9e,0xa4,0x12,0x25,0x08,0x90,0x9e,0xa4,0x12,0x43,0x53,0xed,0x54,0x0f,
++0xfd,0xec,0x54,0xf0,0xfc,0x90,0x9e,0xa4,0x12,0x25,0x08,0x90,0x9e,0xa4,0x12,0x43,
++0x53,0xed,0x44,0x10,0xfd,0xec,0x44,0x01,0xfc,0x90,0x9e,0xa4,0x12,0x25,0x08,0x90,
++0x9e,0xa4,0x12,0x43,0x53,0x90,0x80,0x96,0x12,0x25,0x08,0x7f,0x0c,0x7e,0x09,0x12,
++0x2b,0x08,0x7f,0x04,0x7e,0x08,0x12,0x22,0x65,0x90,0x9e,0xa4,0x12,0x25,0x08,0x90,
++0x9e,0xa4,0x12,0x43,0x53,0xef,0x54,0xf0,0xff,0xec,0x90,0x9e,0xa4,0x12,0x25,0x08,
++0x90,0x9e,0xa4,0x12,0x43,0x53,0xef,0x44,0x01,0xff,0xec,0x90,0x9e,0xa4,0x12,0x25,
++0x08,0x90,0x9e,0xa4,0x12,0x43,0x53,0x90,0x80,0x96,0x12,0x25,0x08,0x7f,0x04,0x7e,
++0x08,0x12,0x2b,0x08,0xe4,0x90,0x9e,0x0f,0xf0,0x22,0x90,0x00,0x02,0x12,0x42,0x20,
++0x90,0x9e,0x1e,0xf0,0xe0,0x60,0x04,0xe0,0xf4,0x70,0x21,0xa2,0xaf,0xe4,0x33,0xf5,
++0x59,0xc2,0xaf,0x90,0x00,0x47,0xe0,0x54,0xfb,0xfd,0x7f,0x47,0x12,0x4a,0xc1,0x7d,
++0x40,0x7f,0x01,0x12,0x31,0x66,0xe5,0x59,0x24,0xff,0x92,0xaf,0x22,0xe4,0xfd,0x7f,
++0x45,0x12,0x4a,0xc1,0x90,0x04,0xfd,0xe4,0xf0,0xa3,0xf0,0x90,0x9e,0x1e,0xf0,0x90,
++0x9e,0x24,0xf0,0x90,0x9e,0x27,0xf0,0x90,0x9e,0x25,0xf0,0x90,0x9e,0x28,0xf0,0x90,
++0x9e,0x26,0xf0,0x90,0x9e,0x29,0xf0,0x90,0x9e,0x10,0x04,0xf0,0xe4,0xa3,0xf0,0xa3,
++0xf0,0xa3,0xf0,0x90,0x9e,0x15,0xf0,0x90,0x9e,0x1a,0xf0,0x90,0x9e,0x1c,0xf0,0x90,
++0x9e,0x2e,0xf0,0x90,0x9e,0x1f,0xf0,0x90,0x9e,0x1b,0xf0,0x90,0x9e,0x14,0xf0,0x90,
++0x00,0x51,0xe0,0x44,0xc0,0xfd,0x7f,0x51,0x02,0x4a,0xc1,0x90,0x9e,0x15,0xe0,0xc3,
++0x94,0x14,0x50,0x05,0xe0,0x04,0xf0,0xc1,0x33,0x90,0x9e,0x15,0xe0,0x64,0x14,0x60,
++0x02,0xc1,0x33,0x90,0x9e,0x24,0xe0,0x70,0x25,0x90,0x9e,0x27,0xe0,0x70,0x1f,0x90,
++0x9e,0x25,0xe0,0x70,0x19,0x90,0x9e,0x28,0xe0,0x70,0x13,0x90,0x9e,0x26,0xe0,0x70,
++0x0d,0x90,0x9e,0x29,0xe0,0x70,0x07,0x90,0x04,0xfd,0xe0,0x54,0xfe,0xf0,0x90,0x9e,
++0x24,0xe0,0x90,0x04,0x44,0xf0,0x90,0x9e,0x25,0xe0,0x90,0x04,0x45,0xf0,0x90,0x9e,
++0x26,0xe0,0x90,0x04,0x46,0xf0,0xa3,0xe4,0xf0,0x90,0x9e,0x27,0xe0,0x90,0x04,0x48,
++0xf0,0x90,0x9e,0x28,0xe0,0x90,0x04,0x49,0xf0,0x90,0x9e,0x29,0xe0,0x90,0x04,0x4a,
++0xf0,0xa3,0xe4,0xf0,0x90,0x9e,0x10,0xe0,0x90,0x04,0x4c,0xf0,0x90,0x9e,0x11,0xe0,
++0x90,0x04,0x4d,0xf0,0x90,0x9e,0x12,0xe0,0x90,0x04,0x4e,0xf0,0x90,0x9e,0x13,0xe0,
++0x90,0x04,0x4f,0xf0,0xe4,0x90,0x9e,0x15,0xf0,0x90,0x9e,0x10,0x04,0xf0,0xe4,0xa3,
++0xf0,0xa3,0xf0,0xa3,0xf0,0x90,0x9e,0x24,0xf0,0xa3,0xf0,0xa3,0xf0,0xa3,0xf0,0xa3,
++0xf0,0xa3,0xf0,0x90,0x05,0x60,0xe0,0x90,0x9e,0x34,0xf0,0x90,0x05,0x61,0xe0,0x90,
++0x9e,0x35,0xf0,0x90,0x05,0x62,0xe0,0x90,0x9e,0x36,0xf0,0x90,0x05,0x63,0xe0,0x90,
++0x9e,0x37,0xf0,0x90,0x9e,0x2d,0xe0,0xff,0x90,0x9e,0x37,0xe0,0xfe,0xd3,0x9f,0x50,
++0x0b,0x90,0x9e,0x2d,0xe0,0xc3,0x9e,0xd3,0x94,0x01,0x40,0x11,0x90,0x9e,0x1b,0xe0,
++0xb4,0x01,0x02,0x80,0x03,0x90,0x9e,0x1f,0xe0,0xff,0x12,0x4e,0xd8,0x22,0x90,0x9e,
++0x2e,0xe0,0x64,0x01,0x60,0x08,0x90,0x9e,0x1c,0xe0,0x60,0x02,0xe1,0x55,0x90,0x9e,
++0x10,0xe0,0xc3,0x94,0xff,0x50,0x05,0xe0,0x04,0xf0,0x80,0x3b,0x90,0x9e,0x11,0xe0,
++0xc3,0x94,0xff,0x50,0x06,0xe0,0x04,0xf0,0xe4,0x80,0x28,0x90,0x9e,0x12,0xe0,0xc3,
++0x94,0xff,0x50,0x0a,0xe0,0x04,0xf0,0xe4,0x90,0x9e,0x11,0xf0,0x80,0x15,0x90,0x9e,
++0x13,0xe0,0xc3,0x94,0xff,0x50,0x10,0xe0,0x04,0xf0,0xe4,0x90,0x9e,0x12,0xf0,0x90,
++0x9e,0x11,0xf0,0x90,0x9e,0x10,0xf0,0x90,0x00,0x44,0xe0,0x54,0x0c,0x60,0x76,0xe0,
++0x30,0xe2,0x32,0x90,0x9e,0x24,0xe0,0xc3,0x94,0xff,0x50,0x05,0xe0,0x04,0xf0,0x80,
++0x24,0x90,0x9e,0x25,0xe0,0xc3,0x94,0xff,0x50,0x06,0xe0,0x04,0xf0,0xe4,0x80,0x11,
++0x90,0x9e,0x26,0xe0,0xc3,0x94,0xff,0x50,0x0c,0xe0,0x04,0xf0,0xe4,0x90,0x9e,0x25,
++0xf0,0x90,0x9e,0x24,0xf0,0x90,0x00,0x44,0xe0,0x30,0xe3,0x32,0x90,0x9e,0x27,0xe0,
++0xc3,0x94,0xff,0x50,0x05,0xe0,0x04,0xf0,0x80,0x24,0x90,0x9e,0x28,0xe0,0xc3,0x94,
++0xff,0x50,0x06,0xe0,0x04,0xf0,0xe4,0x80,0x11,0x90,0x9e,0x29,0xe0,0xc3,0x94,0xff,
++0x50,0x0c,0xe0,0x04,0xf0,0xe4,0x90,0x9e,0x28,0xf0,0x90,0x9e,0x27,0xf0,0x90,0x04,
++0xfd,0xe0,0x44,0x01,0xf0,0x22,0xf5,0x67,};
++
++// =================== v84 UMC B Cut COMMON 2012-04-13 =====================
++u8 Rtl8192CUFwUMCBCutImgArray[UMCBCutImgArrayLength] = {
++0xc2,0x88,0x02,0x00,0x54,0x00,0x01,0x00,0x04,0x13,0x11,0x08,0x26,0x3d,0x01,0x00,
++0x58,0x97,0x01,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x02,0x43,0xba,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x02,0x50,0xa1,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
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++0x12,0x11,0x10,0x08,0x00,0x10,0x1a,0x19,0x18,0x10,0x00,0x18,0x22,0x21,0x20,0x18,
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++0x1c,0x08,0x00,0x20,0x22,0x21,0x14,0x08,0x00,0x20,0x22,0x20,0x18,0x08,0x00,0x20,
++0x31,0x30,0x20,0x10,0x00,0x30,0x31,0x30,0x18,0x00,0x00,0x30,0x31,0x2f,0x10,0x10,
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++0x10,0x11,0x04,0x04,0x04,0x05,0x04,0x04,0x05,0x07,0x07,0x07,0x08,0x0a,0x04,0x04,
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++0xd0,0x82,0xd0,0x83,0xd0,0xf0,0xd0,0xe0,0x32,0x90,0x9e,0x98,0xef,0xf0,0xa3,0xed,
++0xf0,0xe4,0xa3,0xf0,0xa3,0xf0,0xe5,0x63,0x60,0x05,0xe4,0xff,0x12,0x54,0x97,0x90,
++0x9e,0x98,0xe0,0x30,0xe0,0x09,0x90,0x9e,0x9a,0xe4,0xf0,0xa3,0x74,0x80,0xf0,0x90,
++0x9e,0x98,0xe0,0xff,0xc3,0x13,0x90,0xfd,0x10,0xf0,0x90,0x04,0x25,0xef,0xf0,0x90,
++0x9e,0x99,0xe0,0x60,0x1f,0xa3,0xa3,0xe0,0xff,0x24,0x0f,0xf5,0x82,0xe4,0x34,0xfc,
++0xf5,0x83,0xe0,0x44,0x80,0xf0,0x74,0x10,0x2f,0xf5,0x82,0xe4,0x34,0xfc,0xf5,0x83,
++0xe0,0x44,0x80,0xf0,0x90,0x9e,0x9a,0xa3,0xe0,0xff,0xfd,0x24,0x08,0xf5,0x82,0xe4,
++0x34,0xfc,0xf5,0x83,0xe4,0xf0,0x74,0x09,0x2d,0xf5,0x82,0xe4,0x34,0xfc,0xf5,0x83,
++0xe0,0x54,0xf0,0xf0,0x74,0x21,0x2f,0xf5,0x82,0xe4,0x34,0xfc,0xf5,0x83,0xe0,0x54,
++0xf7,0xf0,0x90,0x9e,0x9a,0xe0,0xfe,0xa3,0xe0,0xff,0x22,0x75,0x28,0x33,0xe4,0xf5,
++0x29,0x75,0x2a,0x07,0xf5,0x2b,0x90,0x01,0x30,0xe5,0x28,0xf0,0xa3,0xe5,0x29,0xf0,
++0xa3,0xe5,0x2a,0xf0,0xa3,0xe5,0x2b,0xf0,0x22,0xe4,0x90,0x9e,0x16,0xf0,0xa3,0xf0,
++0x75,0x8e,0x02,0xf1,0xa1,0xf1,0xe9,0x90,0x9e,0x7e,0xef,0xf0,0xf1,0xdd,0x90,0x9e,
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++0x01,0xc4,0xf0,0x74,0x48,0xa3,0xf0,0xe5,0x57,0x30,0xe4,0x0a,0xc2,0xaf,0x53,0x57,
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++0x90,0x01,0x3c,0x74,0xff,0xf0,0xa3,0xf0,0xa3,0xf0,0x90,0x01,0x34,0xf0,0xa3,0xf0,
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++0x54,0xfe,0xfd,0x7f,0x45,0xd3,0x10,0xaf,0x01,0xc3,0xc0,0xd0,0x8f,0x82,0x75,0x83,
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++0x47,0x31,0x05,0x90,0x00,0x45,0xe0,0x44,0x10,0xfd,0x7f,0x45,0x80,0x71,0xe4,0x90,
++0x9e,0x3f,0xf0,0x90,0x9e,0x3b,0x12,0x43,0x53,0x90,0x80,0x85,0x12,0x2a,0x7f,0x7f,
++0x80,0x7e,0x08,0x12,0x2f,0xd9,0x90,0x00,0x45,0xe0,0x44,0xef,0xfd,0x7f,0x45,0x31,
++0x05,0x90,0x00,0x45,0xe0,0x54,0xef,0xfd,0x7f,0x45,0x31,0x05,0x90,0x00,0x46,0xe0,
++0x44,0x10,0xfd,0x7f,0x46,0x80,0x38,0x90,0x9e,0x3f,0x74,0x01,0xf0,0x90,0x9e,0x45,
++0x12,0x43,0x53,0x90,0x80,0x85,0x12,0x2a,0x7f,0x7f,0x80,0x7e,0x08,0x12,0x2f,0xd9,
++0x90,0x00,0x45,0xe0,0x44,0x20,0xfd,0x7f,0x45,0x31,0x05,0x90,0x00,0x45,0xe0,0x44,
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++0x41,0xe0,0x70,0x02,0x41,0xc8,0x90,0x9e,0x40,0xe0,0x70,0x02,0x41,0xc8,0x90,0x9e,
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++0x4f,0xe0,0x90,0x05,0x84,0xf0,0x90,0x9e,0x50,0xe0,0x90,0x05,0x85,0xf0,0x90,0x9e,
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++0x53,0x11,0xfb,0x90,0x00,0x46,0xe0,0x54,0xfe,0xfd,0x7f,0x46,0x31,0x05,0x90,0x05,
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++0x45,0x12,0x2a,0x7f,0x90,0x05,0x22,0xe4,0xf0,0x80,0x2d,0xe4,0x90,0x9e,0x39,0xf0,
++0x7f,0x80,0x7e,0x08,0x12,0x27,0xde,0xec,0x54,0x03,0xfc,0xec,0x44,0xc0,0xfc,0x90,
++0x9e,0x3b,0x12,0x2a,0x7f,0x90,0x9e,0x3b,0x12,0x43,0x53,0x90,0x80,0x85,0x12,0x2a,
++0x7f,0x7f,0x80,0x7e,0x08,0x12,0x2f,0xd9,0x90,0x9e,0x42,0xe0,0x30,0xe1,0x19,0x7d,
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++0x90,0x00,0x46,0xe0,0x44,0x10,0x80,0x1c,0x90,0x00,0x47,0xe0,0x54,0xf3,0xfd,0x7f,
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++0x46,0xe0,0x54,0xef,0xfd,0x7f,0x46,0x31,0x05,0xe4,0x90,0x9e,0x3f,0xf0,0x22,0x90,
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++0x90,0x00,0x46,0xe0,0x54,0xfb,0xfd,0x7f,0x46,0x31,0x05,0x7f,0x02,0xd1,0xa1,0x8f,
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++0x31,0x05,0x90,0x9e,0x53,0xe0,0x70,0x31,0x90,0x9e,0x39,0xe0,0x60,0x15,0x90,0x9e,
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++0xd9,0x80,0x05,0x90,0x05,0x22,0xe4,0xf0,0x90,0x05,0x87,0xe0,0x64,0x80,0xf0,0x90,
++0x9e,0x4f,0xe0,0x90,0x05,0x84,0xf0,0x90,0x9e,0x50,0xe0,0x90,0x05,0x85,0xf0,0x90,
++0x9e,0x51,0xe0,0x90,0x05,0x86,0xf0,0x90,0x9e,0x52,0xe0,0x90,0x05,0x87,0xf0,0x22,
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++0x44,0xb0,0xfd,0x7f,0x49,0x21,0x05,0x90,0x9e,0x27,0xee,0xf0,0xa3,0xef,0xf0,0x75,
++0x65,0x01,0x8e,0x66,0xf5,0x67,0xe4,0xfd,0x7f,0x0b,0xb1,0x55,0xe4,0xfd,0x7f,0x02,
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++0xf0,0x90,0x9e,0x27,0xe0,0xfc,0xa3,0xe0,0xfd,0xec,0xfb,0x8d,0x44,0xe4,0xf5,0x45,
++0x7d,0x01,0x7f,0x60,0x7e,0x01,0x02,0x35,0xab,0x90,0x01,0xca,0xe5,0x68,0xf0,0xef,
++0x60,0x02,0xd1,0x19,0x22,0x7f,0x0b,0xd1,0xa1,0xef,0x65,0x68,0x60,0x10,0xe5,0x68,
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++0xff,0x90,0x00,0x46,0xb1,0x42,0x90,0x9e,0xb2,0xe0,0xfd,0x74,0x01,0x7e,0x00,0xa8,
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++0x1e,0x01,0x74,0x41,0x25,0x14,0xf5,0x82,0xe4,0x34,0x94,0xf5,0x83,0xef,0xf0,0x74,
++0x85,0x25,0x14,0xf5,0x82,0xe4,0x34,0x9a,0x80,0x29,0x74,0xe6,0x25,0x14,0xf5,0x82,
++0xe4,0x34,0x9c,0xf5,0x83,0xe4,0xf0,0x74,0x85,0x25,0x14,0xf5,0x82,0xe4,0x34,0x9a,
++0xf5,0x83,0xe0,0x04,0xf0,0x80,0x10,0xe4,0xf5,0x1e,0x74,0xe6,0x25,0x14,0xf5,0x82,
++0xe4,0x34,0x9c,0xf5,0x83,0xe4,0xf0,0x90,0x9e,0x1a,0xe0,0xff,0x74,0x26,0x25,0x14,
++0xf5,0x82,0xe4,0x34,0x9d,0xf5,0x83,0xef,0xf0,0x74,0x84,0x25,0x14,0xf5,0x82,0xe4,
++0x34,0x98,0xf5,0x83,0xe5,0x1e,0xf0,0x75,0xf0,0x09,0xe5,0x14,0x90,0x96,0x4c,0x12,
++0x43,0x5f,0xe0,0xb4,0x01,0x10,0xe4,0xf5,0x1e,0x74,0xe6,0x25,0x14,0xf5,0x82,0xe4,
++0x34,0x9c,0xf5,0x83,0xe4,0xf0,0xad,0x1e,0xa1,0x2c,0xec,0x64,0x06,0x60,0x02,0xa1,
++0x31,0xf5,0x1b,0xf5,0x1c,0x90,0x42,0x13,0x93,0xff,0x7e,0x00,0x90,0x9e,0x1b,0xe0,
++0xfc,0xa3,0xe0,0xfd,0x12,0x29,0xf2,0x90,0x9e,0x21,0xee,0xf0,0xa3,0xef,0xf0,0x74,
++0x84,0x25,0x14,0xf5,0x82,0xe4,0x34,0x98,0xf5,0x83,0xe0,0xf5,0x1e,0xe4,0xf5,0x1d,
++0xab,0x18,0xaa,0x19,0xa9,0x1a,0x75,0xf0,0x02,0xe5,0x1d,0xa4,0xf5,0x82,0x85,0xf0,
++0x83,0x12,0x42,0xc2,0xfd,0xac,0xf0,0xe5,0x1d,0x90,0x42,0x0e,0x93,0xff,0x7e,0x00,
++0x12,0x29,0xf2,0xef,0x25,0x1c,0xf5,0x1c,0xee,0x35,0x1b,0xf5,0x1b,0xc3,0x90,0x9e,
++0x22,0xe0,0x95,0x1c,0x90,0x9e,0x21,0xe0,0x95,0x1b,0x40,0x07,0x05,0x1d,0xe5,0x1d,
++0xb4,0x05,0xbd,0xe5,0x1d,0xc3,0x13,0xf5,0x1d,0xe5,0x1e,0xb4,0x01,0x06,0xe5,0x1d,
++0x70,0x46,0x80,0x13,0xe5,0x1e,0xb4,0x03,0x15,0xe5,0x1d,0x70,0x05,0x75,0x1e,0x03,
++0x80,0x39,0xe5,0x1d,0xb4,0x01,0x05,0x75,0x1e,0x01,0x80,0x2f,0x80,0x2a,0xe5,0x1e,
++0xb4,0x05,0x28,0xe5,0x1d,0x70,0x05,0x75,0x1e,0x05,0x80,0x0d,0xe5,0x1d,0xb4,0x01,
++0x05,0x75,0x1e,0x03,0x80,0x03,0x75,0x1e,0x01,0xd3,0x90,0x9e,0x1e,0xe0,0x94,0x03,
++0x90,0x9e,0x1d,0xe0,0x94,0x00,0x40,0x03,0xe4,0xf5,0x1e,0xd3,0x90,0x9e,0x1e,0xe0,
++0x94,0x03,0x90,0x9e,0x1d,0xe0,0x94,0x00,0x40,0x03,0xe4,0xf5,0x1e,0x74,0x84,0x25,
++0x14,0xf5,0x82,0xe4,0x34,0x98,0xf5,0x83,0xe5,0x1e,0xf0,0xfd,0xaf,0x14,0x12,0x67,
++0x61,0x74,0xe6,0x25,0x14,0xf5,0x82,0xe4,0x34,0x9c,0xf5,0x83,0xe0,0xd3,0x94,0x05,
++0x74,0xe6,0x50,0x0e,0x25,0x14,0xf5,0x82,0xe4,0x34,0x9c,0xf5,0x83,0xe0,0x04,0xf0,
++0x80,0x0b,0x25,0x14,0xf5,0x82,0xe4,0x34,0x9c,0xf5,0x83,0xe4,0xf0,0x90,0x9e,0x1d,
++0xe0,0xfe,0xa3,0xe0,0xff,0xc3,0x74,0xff,0x9f,0xfd,0x74,0xff,0x9e,0xfc,0xe5,0x14,
++0x25,0xe0,0x24,0xc6,0xf5,0x82,0xe4,0x34,0x9a,0xf5,0x83,0xe0,0xfa,0xa3,0xe0,0xd3,
++0x9d,0xea,0x9c,0xe5,0x14,0x50,0x13,0x25,0xe0,0x24,0xc6,0xf5,0x82,0xe4,0x34,0x9a,
++0xf5,0x83,0xee,0x8f,0xf0,0x12,0x42,0x81,0x80,0x10,0x25,0xe0,0x24,0xc6,0xf5,0x82,
++0xe4,0x34,0x9a,0xf5,0x83,0x74,0xff,0xf0,0xa3,0xf0,0xe5,0x14,0x25,0xe0,0x24,0x44,
++0xf5,0x82,0xe4,0x34,0x99,0xf5,0x83,0xe0,0xfe,0xa3,0xe0,0xff,0xc3,0x74,0xff,0x9f,
++0xfd,0x74,0xff,0x9e,0xfc,0xe5,0x14,0x25,0xe0,0x24,0x46,0xf5,0x82,0xe4,0x34,0x9b,
++0xf5,0x83,0xe0,0xfa,0xa3,0xe0,0xd3,0x9d,0xea,0x9c,0xe5,0x14,0x50,0x13,0x25,0xe0,
++0x24,0x46,0xf5,0x82,0xe4,0x34,0x9b,0xf5,0x83,0xee,0x8f,0xf0,0x12,0x42,0x81,0x80,
++0x10,0x25,0xe0,0x24,0x46,0xf5,0x82,0xe4,0x34,0x9b,0xf5,0x83,0x74,0xff,0xf0,0xa3,
++0xf0,0xab,0x18,0xaa,0x19,0xa9,0x1a,0xe4,0xf5,0xf0,0x12,0x42,0xfa,0xab,0x18,0xaa,
++0x19,0xa9,0x1a,0x90,0x00,0x02,0xe4,0xf5,0xf0,0x12,0x43,0x19,0x90,0x00,0x04,0xe4,
++0xf5,0xf0,0x12,0x43,0x19,0x90,0x00,0x06,0xe4,0xf5,0xf0,0x12,0x43,0x19,0x90,0x00,
++0x08,0xe4,0xf5,0xf0,0x12,0x43,0x19,0xe5,0x14,0x25,0xe0,0x24,0x80,0xf5,0x82,0xe4,
++0x34,0x93,0xf5,0x83,0xe4,0xf0,0xa3,0xf0,0xe5,0x14,0x25,0xe0,0x24,0xc4,0xf5,0x82,
++0xe4,0x34,0x98,0xf5,0x83,0xe4,0xf0,0xa3,0xf0,0xe5,0x14,0x25,0xe0,0x24,0x44,0xf5,
++0x82,0xe4,0x34,0x99,0xf5,0x83,0xe4,0xf0,0xa3,0xf0,0x05,0x14,0xe5,0x14,0xc3,0x94,
++0x40,0x50,0x03,0x02,0x67,0xa4,0x22,0x90,0x04,0x44,0x74,0x11,0xf0,0xa3,0x74,0xf0,
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++0x74,0x86,0x2d,0xf5,0x82,0xe4,0x34,0x9c,0xf5,0x83,0xe4,0xf0,0x74,0x46,0x2d,0xf5,
++0x82,0xe4,0x34,0x9c,0xf5,0x83,0xe4,0xf0,0x74,0xe6,0x2d,0xf5,0x82,0xe4,0x34,0x9c,
++0xf5,0x83,0xe4,0xf0,0x90,0x41,0xc4,0x93,0xfe,0x74,0x01,0x93,0xff,0x90,0x41,0x8c,
++0x74,0x01,0x93,0x2f,0xff,0xe4,0x93,0x3e,0xc3,0x13,0xfe,0xef,0x13,0xff,0xed,0x25,
++0xe0,0x24,0xc2,0xf5,0x82,0xe4,0x34,0x95,0xf5,0x83,0xee,0xf0,0xa3,0xef,0xf0,0x75,
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++0x95,0xf5,0x83,0x74,0x0c,0xf0,0x75,0xf0,0x09,0xed,0x90,0x96,0x46,0x12,0x43,0x5f,
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++0x82,0xe4,0x34,0x9a,0xf5,0x83,0xef,0xf0,0x22,0xe5,0x14,0xb4,0x40,0x0a,0x90,0x00,
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++0x20,0xff,0x30,0xe0,0x25,0x12,0x29,0xd9,0x90,0x9e,0x5c,0xf0,0x90,0x00,0x01,0x12,
++0x42,0x20,0x90,0x9e,0x5d,0xf0,0xef,0xc3,0x13,0x54,0x7f,0x90,0x9e,0x5b,0xf0,0x90,
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++0x90,0x9e,0x5d,0x74,0x05,0xf0,0x90,0x9e,0x5b,0x74,0x14,0xf0,0x90,0x9e,0x62,0x74,
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++0xf0,0x90,0x00,0x01,0x12,0x42,0x20,0xff,0x90,0x9e,0x5f,0xe4,0xf0,0xa3,0xef,0xf0,
++0x80,0x0f,0x90,0x9e,0x61,0x74,0x07,0xf0,0x90,0x9e,0x5f,0xe4,0xf0,0xa3,0x74,0x03,
++0xf0,0x90,0x9e,0x5f,0xe0,0xa3,0xe0,0x90,0x05,0x58,0xf0,0x22,0x90,0x9e,0x24,0x12,
++0x2a,0x8b,0x00,0x00,0x00,0x00,0x12,0x29,0xd9,0x60,0x0d,0x90,0x9e,0x5e,0xf0,0xe4,
++0xfd,0x7f,0x04,0x12,0x54,0xe7,0x80,0x05,0xe4,0x90,0x9e,0x5e,0xf0,0x90,0x9e,0x5e,
++0xe0,0x90,0x01,0xe7,0xf0,0x22,0x90,0x02,0x09,0xe0,0xfd,0x12,0x29,0xd9,0xfe,0xaf,
++0x05,0xed,0x2e,0x90,0x9e,0x78,0xf0,0x90,0x00,0x01,0x12,0x42,0x20,0xff,0xed,0x2f,
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++0x0e,0x12,0x2f,0xd9,0x7f,0x04,0x7e,0x0c,0x12,0x27,0xde,0x90,0x9e,0xa8,0x12,0x2a,
++0x7f,0x90,0x9e,0xa8,0x12,0x43,0x53,0xe4,0xff,0xec,0x90,0x9e,0xa8,0x12,0x2a,0x7f,
++0x90,0x9e,0xa8,0x12,0x43,0x53,0xef,0x44,0x11,0xff,0xec,0x90,0x9e,0xa8,0x12,0x2a,
++0x7f,0x90,0x9e,0xa8,0x12,0x43,0x53,0x90,0x80,0x85,0x12,0x2a,0x7f,0x7f,0x04,0x7e,
++0x0c,0x12,0x2f,0xd9,0x7f,0x04,0x7e,0x0d,0x12,0x27,0xde,0x90,0x9e,0xa8,0x12,0x2a,
++0x7f,0x90,0x9e,0xa8,0x12,0x43,0x53,0xef,0x54,0xf0,0xff,0xec,0x90,0x9e,0xa8,0x12,
++0x2a,0x7f,0x90,0x9e,0xa8,0x12,0x43,0x53,0xef,0x44,0x01,0xff,0xec,0x90,0x9e,0xa8,
++0x12,0x2a,0x7f,0x90,0x9e,0xa8,0x12,0x43,0x53,0x90,0x80,0x85,0x12,0x2a,0x7f,0x7f,
++0x04,0x7e,0x0d,0x12,0x2f,0xd9,0x7f,0x0c,0x7e,0x09,0x12,0x27,0xde,0x90,0x9e,0xa8,
++0x12,0x2a,0x7f,0x90,0x9e,0xa8,0x12,0x43,0x53,0xe4,0xff,0xec,0x90,0x9e,0xa8,0x12,
++0x2a,0x7f,0x90,0x9e,0xa8,0x12,0x43,0x53,0xef,0x44,0x11,0xff,0xec,0x90,0x9e,0xa8,
++0x12,0x2a,0x7f,0x90,0x9e,0xa8,0x12,0x43,0x53,0x90,0x80,0x85,0x12,0x2a,0x7f,0x7f,
++0x0c,0x7e,0x09,0x12,0x2f,0xd9,0x7f,0x0c,0x7e,0x09,0x12,0x27,0xde,0x90,0x9e,0xa8,
++0x12,0x2a,0x7f,0x90,0x9e,0xa8,0x12,0x43,0x53,0xed,0x54,0x0f,0xfd,0xec,0x54,0xf0,
++0xfc,0x90,0x9e,0xa8,0x12,0x2a,0x7f,0x90,0x9e,0xa8,0x12,0x43,0x53,0xed,0x44,0x10,
++0xfd,0xec,0x44,0x01,0xfc,0x90,0x9e,0xa8,0x12,0x2a,0x7f,0x90,0x9e,0xa8,0x12,0x43,
++0x53,0x90,0x80,0x85,0x12,0x2a,0x7f,0x7f,0x0c,0x7e,0x09,0x12,0x2f,0xd9,0x7f,0x04,
++0x7e,0x08,0x12,0x27,0xde,0x90,0x9e,0xa8,0x12,0x2a,0x7f,0x90,0x9e,0xa8,0x12,0x43,
++0x53,0xef,0x54,0xf0,0xff,0xec,0x90,0x9e,0xa8,0x12,0x2a,0x7f,0x90,0x9e,0xa8,0x12,
++0x43,0x53,0xef,0x44,0x01,0xff,0xec,0x90,0x9e,0xa8,0x12,0x2a,0x7f,0x90,0x9e,0xa8,
++0x12,0x43,0x53,0x90,0x80,0x85,0x12,0x2a,0x7f,0x7f,0x04,0x7e,0x08,0x12,0x2f,0xd9,
++0xe4,0x90,0x9e,0x0f,0xf0,0x22,0x90,0x00,0x02,0x12,0x42,0x20,0x90,0x9e,0x43,0xf0,
++0xe0,0x60,0x04,0xe0,0xf4,0x70,0x21,0xa2,0xaf,0xe4,0x33,0xf5,0x14,0xc2,0xaf,0x90,
++0x00,0x47,0xe0,0x54,0xfb,0xfd,0x7f,0x47,0x12,0x49,0x05,0x7d,0x40,0x7f,0x01,0x12,
++0x36,0xaf,0xe5,0x14,0x24,0xff,0x92,0xaf,0x22,0x90,0x9e,0x3a,0xe0,0xc3,0x94,0x14,
++0x50,0x05,0xe0,0x04,0xf0,0x81,0x01,0x90,0x9e,0x3a,0xe0,0x64,0x14,0x60,0x02,0x81,
++0x01,0x90,0x9e,0x49,0xe0,0x70,0x25,0x90,0x9e,0x4c,0xe0,0x70,0x1f,0x90,0x9e,0x4a,
++0xe0,0x70,0x19,0x90,0x9e,0x4d,0xe0,0x70,0x13,0x90,0x9e,0x4b,0xe0,0x70,0x0d,0x90,
++0x9e,0x4e,0xe0,0x70,0x07,0x90,0x04,0xfd,0xe0,0x54,0xfe,0xf0,0x90,0x9e,0x49,0xe0,
++0x90,0x04,0x44,0xf0,0x90,0x9e,0x4a,0xe0,0x90,0x04,0x45,0xf0,0x90,0x9e,0x4b,0xe0,
++0x90,0x04,0x46,0xf0,0xa3,0xe4,0xf0,0x90,0x9e,0x4c,0xe0,0x90,0x04,0x48,0xf0,0x90,
++0x9e,0x4d,0xe0,0x90,0x04,0x49,0xf0,0x90,0x9e,0x4e,0xe0,0x90,0x04,0x4a,0xf0,0xa3,
++0xe4,0xf0,0x90,0x9e,0x35,0xe0,0x90,0x04,0x4c,0xf0,0x90,0x9e,0x36,0xe0,0x90,0x04,
++0x4d,0xf0,0x90,0x9e,0x37,0xe0,0x90,0x04,0x4e,0xf0,0x90,0x9e,0x38,0xe0,0x90,0x04,
++0x4f,0xf0,0xe4,0x90,0x9e,0x3a,0xf0,0x90,0x9e,0x35,0x04,0xf0,0xe4,0xa3,0xf0,0xa3,
++0xf0,0xa3,0xf0,0x90,0x9e,0x49,0xf0,0xa3,0xf0,0xa3,0xf0,0xa3,0xf0,0xa3,0xf0,0xa3,
++0xf0,0x90,0x05,0x60,0xe0,0x90,0x9e,0x19,0xf0,0x90,0x05,0x61,0xe0,0x90,0x9e,0x1a,
++0xf0,0x90,0x05,0x62,0xe0,0x90,0x9e,0x1b,0xf0,0x90,0x05,0x63,0xe0,0x90,0x9e,0x1c,
++0xf0,0x90,0x9e,0x52,0xe0,0xff,0x90,0x9e,0x1c,0xe0,0xfe,0xd3,0x9f,0x50,0x0b,0x90,
++0x9e,0x52,0xe0,0xc3,0x9e,0xd3,0x94,0x01,0x40,0x11,0x90,0x9e,0x40,0xe0,0xb4,0x01,
++0x02,0x80,0x03,0x90,0x9e,0x44,0xe0,0xff,0x12,0x4c,0xf0,0x22,0x90,0x9e,0x53,0xe0,
++0x64,0x01,0x60,0x08,0x90,0x9e,0x41,0xe0,0x60,0x02,0xa1,0x23,0x90,0x9e,0x35,0xe0,
++0xc3,0x94,0xff,0x50,0x05,0xe0,0x04,0xf0,0x80,0x3b,0x90,0x9e,0x36,0xe0,0xc3,0x94,
++0xff,0x50,0x06,0xe0,0x04,0xf0,0xe4,0x80,0x28,0x90,0x9e,0x37,0xe0,0xc3,0x94,0xff,
++0x50,0x0a,0xe0,0x04,0xf0,0xe4,0x90,0x9e,0x36,0xf0,0x80,0x15,0x90,0x9e,0x38,0xe0,
++0xc3,0x94,0xff,0x50,0x10,0xe0,0x04,0xf0,0xe4,0x90,0x9e,0x37,0xf0,0x90,0x9e,0x36,
++0xf0,0x90,0x9e,0x35,0xf0,0x90,0x00,0x44,0xe0,0x54,0x0c,0x60,0x76,0xe0,0x30,0xe2,
++0x32,0x90,0x9e,0x49,0xe0,0xc3,0x94,0xff,0x50,0x05,0xe0,0x04,0xf0,0x80,0x24,0x90,
++0x9e,0x4a,0xe0,0xc3,0x94,0xff,0x50,0x06,0xe0,0x04,0xf0,0xe4,0x80,0x11,0x90,0x9e,
++0x4b,0xe0,0xc3,0x94,0xff,0x50,0x0c,0xe0,0x04,0xf0,0xe4,0x90,0x9e,0x4a,0xf0,0x90,
++0x9e,0x49,0xf0,0x90,0x00,0x44,0xe0,0x30,0xe3,0x32,0x90,0x9e,0x4c,0xe0,0xc3,0x94,
++0xff,0x50,0x05,0xe0,0x04,0xf0,0x80,0x24,0x90,0x9e,0x4d,0xe0,0xc3,0x94,0xff,0x50,
++0x06,0xe0,0x04,0xf0,0xe4,0x80,0x11,0x90,0x9e,0x4e,0xe0,0xc3,0x94,0xff,0x50,0x0c,
++0xe0,0x04,0xf0,0xe4,0x90,0x9e,0x4d,0xf0,0x90,0x9e,0x4c,0xf0,0x90,0x04,0xfd,0xe0,
++0x44,0x01,0xf0,0x22,0x68,0x4c,};
++#else
++// =================== v88 TSMC P2PPS with CCX report C2H 2012-12-05 =======================
++u8 Rtl8192CUFwTSMCImgArray[TSMCImgArrayLength] = {
++0xC1, 0x88, 0x02, 0x05, 0x58, 0x00, 0x02, 0x00, 0x12, 0x05, 0x17, 0x12, 0xDE, 0x3E, 0x00, 0x00,
++0x94, 0x18, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x02, 0x46, 0x30, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x02, 0x60, 0xF2, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x02, 0x68, 0x91, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x4B, 0x87, 0x00, 0x00,
++0x05, 0x04, 0x03, 0x02, 0x00, 0x03, 0x06, 0x05, 0x04, 0x03, 0x00, 0x04, 0x06, 0x05, 0x04, 0x02,
++0x00, 0x04, 0x08, 0x07, 0x06, 0x04, 0x00, 0x06, 0x0A, 0x09, 0x08, 0x06, 0x00, 0x08, 0x0A, 0x09,
++0x08, 0x04, 0x00, 0x08, 0x0A, 0x09, 0x08, 0x02, 0x00, 0x08, 0x0A, 0x09, 0x08, 0x00, 0x00, 0x08,
++0x12, 0x11, 0x10, 0x08, 0x00, 0x10, 0x1A, 0x19, 0x18, 0x10, 0x00, 0x18, 0x22, 0x21, 0x20, 0x18,
++0x00, 0x20, 0x22, 0x21, 0x20, 0x10, 0x00, 0x20, 0x22, 0x21, 0x20, 0x08, 0x00, 0x20, 0x22, 0x21,
++0x1C, 0x08, 0x00, 0x20, 0x22, 0x21, 0x14, 0x08, 0x00, 0x20, 0x22, 0x20, 0x18, 0x08, 0x00, 0x20,
++0x31, 0x30, 0x20, 0x10, 0x00, 0x30, 0x31, 0x30, 0x18, 0x00, 0x00, 0x30, 0x31, 0x2F, 0x10, 0x10,
++0x00, 0x30, 0x31, 0x2C, 0x10, 0x10, 0x00, 0x30, 0x31, 0x28, 0x10, 0x00, 0x00, 0x30, 0x31, 0x20,
++0x10, 0x00, 0x00, 0x30, 0x31, 0x10, 0x10, 0x00, 0x00, 0x30, 0x04, 0x04, 0x04, 0x05, 0x04, 0x04,
++0x05, 0x07, 0x07, 0x07, 0x08, 0x0A, 0x04, 0x04, 0x04, 0x04, 0x06, 0x0A, 0x0B, 0x0D, 0x05, 0x05,
++0x07, 0x07, 0x08, 0x0B, 0x0D, 0x0F, 0x04, 0x04, 0x04, 0x05, 0x07, 0x07, 0x09, 0x09, 0x0C, 0x0E,
++0x10, 0x12, 0x06, 0x07, 0x09, 0x0A, 0x0C, 0x0E, 0x11, 0x13, 0x09, 0x09, 0x09, 0x09, 0x0C, 0x0E,
++0x11, 0x13, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x24, 0x26, 0x2A, 0x18, 0x1A,
++0x1D, 0x1F, 0x21, 0x27, 0x29, 0x2A, 0x00, 0x00, 0x00, 0x1F, 0x23, 0x28, 0x2A, 0x2C, 0x00, 0x04,
++0x00, 0x04, 0x00, 0x08, 0x00, 0x10, 0x00, 0x18, 0x00, 0x24, 0x00, 0x30, 0x00, 0x48, 0x00, 0x60,
++0x00, 0x90, 0x00, 0xC0, 0x00, 0xD8, 0x00, 0x50, 0x00, 0x78, 0x00, 0xA0, 0x00, 0xC8, 0x01, 0x40,
++0x01, 0x90, 0x01, 0xE0, 0x02, 0x30, 0x01, 0x2C, 0x01, 0x40, 0x01, 0xE0, 0x02, 0xD0, 0x03, 0xE8,
++0x04, 0xB0, 0x06, 0x40, 0x07, 0xD0, 0x00, 0x02, 0x00, 0x02, 0x00, 0x04, 0x00, 0x08, 0x00, 0x0C,
++0x00, 0x12, 0x00, 0x18, 0x00, 0x24, 0x00, 0x30, 0x00, 0x48, 0x00, 0x60, 0x00, 0x6C, 0x00, 0x28,
++0x00, 0x3C, 0x00, 0x50, 0x00, 0x64, 0x00, 0xA0, 0x00, 0xC8, 0x00, 0xF0, 0x01, 0x18, 0x00, 0x64,
++0x00, 0xA0, 0x00, 0xF0, 0x01, 0x68, 0x01, 0xF4, 0x02, 0x58, 0x03, 0x20, 0x03, 0xE8, 0x02, 0x02,
++0x02, 0x02, 0x02, 0x02, 0x03, 0x03, 0x04, 0x04, 0x05, 0x07, 0x02, 0x03, 0x04, 0x0A, 0x0C, 0x0E,
++0x10, 0x12, 0x05, 0x07, 0x07, 0x08, 0x0B, 0x12, 0x24, 0x3C, 0x01, 0x01, 0x01, 0x01, 0x01, 0x02,
++0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x05, 0x06,
++0x07, 0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x20, 0x1E, 0x1C, 0x18, 0x10, 0x18, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0xBB, 0x01, 0x0C, 0xE5, 0x82, 0x29, 0xF5, 0x82, 0xE5, 0x83, 0x3A, 0xF5, 0x83, 0xE0, 0x22, 0x50,
++0x06, 0xE9, 0x25, 0x82, 0xF8, 0xE6, 0x22, 0xBB, 0xFE, 0x06, 0xE9, 0x25, 0x82, 0xF8, 0xE2, 0x22,
++0xE5, 0x82, 0x29, 0xF5, 0x82, 0xE5, 0x83, 0x3A, 0xF5, 0x83, 0xE4, 0x93, 0x22, 0xBB, 0x01, 0x06,
++0x89, 0x82, 0x8A, 0x83, 0xF0, 0x22, 0x50, 0x02, 0xF7, 0x22, 0xBB, 0xFE, 0x01, 0xF3, 0x22, 0xF8,
++0xBB, 0x01, 0x0D, 0xE5, 0x82, 0x29, 0xF5, 0x82, 0xE5, 0x83, 0x3A, 0xF5, 0x83, 0xE8, 0xF0, 0x22,
++0x50, 0x06, 0xE9, 0x25, 0x82, 0xC8, 0xF6, 0x22, 0xBB, 0xFE, 0x05, 0xE9, 0x25, 0x82, 0xC8, 0xF2,
++0x22, 0xC5, 0xF0, 0xF8, 0xA3, 0xE0, 0x28, 0xF0, 0xC5, 0xF0, 0xF8, 0xE5, 0x82, 0x15, 0x82, 0x70,
++0x02, 0x15, 0x83, 0xE0, 0x38, 0xF0, 0x22, 0xBB, 0x01, 0x0A, 0x89, 0x82, 0x8A, 0x83, 0xE0, 0xF5,
++0xF0, 0xA3, 0xE0, 0x22, 0x50, 0x06, 0x87, 0xF0, 0x09, 0xE7, 0x19, 0x22, 0xBB, 0xFE, 0x07, 0xE3,
++0xF5, 0xF0, 0x09, 0xE3, 0x19, 0x22, 0x89, 0x82, 0x8A, 0x83, 0xE4, 0x93, 0xF5, 0xF0, 0x74, 0x01,
++0x93, 0x22, 0xBB, 0x01, 0x10, 0xE5, 0x82, 0x29, 0xF5, 0x82, 0xE5, 0x83, 0x3A, 0xF5, 0x83, 0xE0,
++0xF5, 0xF0, 0xA3, 0xE0, 0x22, 0x50, 0x09, 0xE9, 0x25, 0x82, 0xF8, 0x86, 0xF0, 0x08, 0xE6, 0x22,
++0xBB, 0xFE, 0x0A, 0xE9, 0x25, 0x82, 0xF8, 0xE2, 0xF5, 0xF0, 0x08, 0xE2, 0x22, 0xE5, 0x83, 0x2A,
++0xF5, 0x83, 0xE9, 0x93, 0xF5, 0xF0, 0xA3, 0xE9, 0x93, 0x22, 0xBB, 0x01, 0x0A, 0x89, 0x82, 0x8A,
++0x83, 0xF0, 0xE5, 0xF0, 0xA3, 0xF0, 0x22, 0x50, 0x06, 0xF7, 0x09, 0xA7, 0xF0, 0x19, 0x22, 0xBB,
++0xFE, 0x06, 0xF3, 0xE5, 0xF0, 0x09, 0xF3, 0x19, 0x22, 0xF8, 0xBB, 0x01, 0x11, 0xE5, 0x82, 0x29,
++0xF5, 0x82, 0xE5, 0x83, 0x3A, 0xF5, 0x83, 0xE8, 0xF0, 0xE5, 0xF0, 0xA3, 0xF0, 0x22, 0x50, 0x09,
++0xE9, 0x25, 0x82, 0xC8, 0xF6, 0x08, 0xA6, 0xF0, 0x22, 0xBB, 0xFE, 0x09, 0xE9, 0x25, 0x82, 0xC8,
++0xF2, 0xE5, 0xF0, 0x08, 0xF2, 0x22, 0xEF, 0x4B, 0xFF, 0xEE, 0x4A, 0xFE, 0xED, 0x49, 0xFD, 0xEC,
++0x48, 0xFC, 0x22, 0xE0, 0xFC, 0xA3, 0xE0, 0xFD, 0xA3, 0xE0, 0xFE, 0xA3, 0xE0, 0xFF, 0x22, 0xA4,
++0x25, 0x82, 0xF5, 0x82, 0xE5, 0xF0, 0x35, 0x83, 0xF5, 0x83, 0x22, 0xE0, 0xFB, 0xA3, 0xE0, 0xFA,
++0xA3, 0xE0, 0xF9, 0x22, 0xF8, 0xE0, 0xFB, 0xA3, 0xA3, 0xE0, 0xF9, 0x25, 0xF0, 0xF0, 0xE5, 0x82,
++0x15, 0x82, 0x70, 0x02, 0x15, 0x83, 0xE0, 0xFA, 0x38, 0xF0, 0x22, 0xEB, 0xF0, 0xA3, 0xEA, 0xF0,
++0xA3, 0xE9, 0xF0, 0x22, 0xD0, 0x83, 0xD0, 0x82, 0xF8, 0xE4, 0x93, 0x70, 0x12, 0x74, 0x01, 0x93,
++0x70, 0x0D, 0xA3, 0xA3, 0x93, 0xF8, 0x74, 0x01, 0x93, 0xF5, 0x82, 0x88, 0x83, 0xE4, 0x73, 0x74,
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++0x2D, 0x95, 0xE4, 0xFD, 0xFF, 0x12, 0x34, 0x81, 0x90, 0x8B, 0x09, 0xE0, 0xB4, 0x01, 0x11, 0x90,
++0x80, 0x59, 0x12, 0x2A, 0x8B, 0x00, 0x03, 0x2D, 0x95, 0xE4, 0xFD, 0x7F, 0x01, 0x12, 0x34, 0x81,
++0x22, 0x90, 0x8B, 0x2D, 0xE0, 0x64, 0x06, 0x60, 0x3C, 0xE5, 0x22, 0x54, 0x0F, 0x14, 0x60, 0x2E,
++0x14, 0x60, 0x1E, 0x24, 0xFE, 0x60, 0x0E, 0x24, 0xF8, 0x70, 0x2A, 0xE4, 0x90, 0x8B, 0x2D, 0xF0,
++0x90, 0x05, 0x22, 0xF0, 0x22, 0x90, 0x8B, 0x2D, 0x74, 0x01, 0xF0, 0x90, 0x05, 0x22, 0xE4, 0xF0,
++0x22, 0x90, 0x8B, 0x2D, 0x74, 0x03, 0xF0, 0x90, 0x05, 0x22, 0x74, 0xFF, 0xF0, 0x22, 0x90, 0x01,
++0xC6, 0xE0, 0x44, 0x08, 0xF0, 0x22, 0xAE, 0x07, 0xE4, 0xFF, 0x12, 0x4D, 0xE0, 0xEF, 0x60, 0x18,
++0x90, 0x8B, 0x2C, 0xE0, 0xC4, 0x13, 0x13, 0x54, 0x03, 0x20, 0xE0, 0x0C, 0xAF, 0x06, 0x7D, 0x01,
++0x12, 0x45, 0xA2, 0xB1, 0xC1, 0x7F, 0x01, 0x22, 0x7F, 0x00, 0x22, 0x90, 0x01, 0x57, 0xE0, 0x60,
++0x3C, 0x90, 0x01, 0x57, 0xE4, 0xF0, 0x90, 0x01, 0x3C, 0x74, 0x02, 0xF0, 0x90, 0x8B, 0x1B, 0xE0,
++0x60, 0x07, 0xE4, 0xF0, 0x53, 0x25, 0xFD, 0x80, 0x24, 0x90, 0x8B, 0x0C, 0xE0, 0x04, 0xF0, 0x53,
++0x25, 0xEF, 0x90, 0x8B, 0x10, 0xE0, 0xFF, 0x90, 0x8B, 0x0C, 0xE0, 0xD3, 0x9F, 0x40, 0x0E, 0xE5,
++0x21, 0xB4, 0x01, 0x09, 0x90, 0x8B, 0x0D, 0xE0, 0x70, 0x03, 0xE0, 0x04, 0xF0, 0x90, 0x01, 0x5B,
++0xE0, 0x60, 0x10, 0x90, 0x01, 0x5B, 0xE4, 0xF0, 0x90, 0x01, 0x3C, 0x74, 0x04, 0xF0, 0xE4, 0x90,
++0x8B, 0x18, 0xF0, 0x90, 0x01, 0x5F, 0xE0, 0x60, 0x10, 0x90, 0x01, 0x5F, 0xE4, 0xF0, 0x90, 0x01,
++0x3C, 0x74, 0x08, 0xF0, 0xE4, 0x90, 0x8B, 0x17, 0xF0, 0x22, 0xE4, 0x90, 0x8B, 0x4F, 0xF0, 0xA3,
++0xF0, 0x90, 0x05, 0xF8, 0xE0, 0x70, 0x0F, 0xA3, 0xE0, 0x70, 0x0B, 0xA3, 0xE0, 0x70, 0x07, 0xA3,
++0xE0, 0x70, 0x03, 0x7F, 0x01, 0x22, 0xD3, 0x90, 0x8B, 0x50, 0xE0, 0x94, 0xE8, 0x90, 0x8B, 0x4F,
++0xE0, 0x94, 0x03, 0x40, 0x03, 0x7F, 0x00, 0x22, 0x7F, 0x32, 0x7E, 0x00, 0x12, 0x37, 0x54, 0x90,
++0x8B, 0x4F, 0xE4, 0x75, 0xF0, 0x01, 0x12, 0x42, 0x81, 0x80, 0xC6, 0x00, 0x92, 0x00};
++
++// =================== v88 UMC A Cut P2PPS with CCX report C2H 2012-12-05 =====================
++u8 Rtl8192CUFwUMCACutImgArray[UMCACutImgArrayLength] = {
++0xC1, 0x88, 0x02, 0x05, 0x58, 0x00, 0x02, 0x00, 0x12, 0x05, 0x17, 0x11, 0xDE, 0x3E, 0x01, 0x00,
++0x94, 0x18, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x02, 0x46, 0x30, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x02, 0x60, 0xF2, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x02, 0x68, 0x91, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x4B, 0x87, 0x00, 0x00,
++0x05, 0x04, 0x03, 0x02, 0x00, 0x03, 0x06, 0x05, 0x04, 0x03, 0x00, 0x04, 0x06, 0x05, 0x04, 0x02,
++0x00, 0x04, 0x08, 0x07, 0x06, 0x04, 0x00, 0x06, 0x0A, 0x09, 0x08, 0x06, 0x00, 0x08, 0x0A, 0x09,
++0x08, 0x04, 0x00, 0x08, 0x0A, 0x09, 0x08, 0x02, 0x00, 0x08, 0x0A, 0x09, 0x08, 0x00, 0x00, 0x08,
++0x12, 0x11, 0x10, 0x08, 0x00, 0x10, 0x1A, 0x19, 0x18, 0x10, 0x00, 0x18, 0x22, 0x21, 0x20, 0x18,
++0x00, 0x20, 0x22, 0x21, 0x20, 0x10, 0x00, 0x20, 0x22, 0x21, 0x20, 0x08, 0x00, 0x20, 0x22, 0x21,
++0x1C, 0x08, 0x00, 0x20, 0x22, 0x21, 0x14, 0x08, 0x00, 0x20, 0x22, 0x20, 0x18, 0x08, 0x00, 0x20,
++0x31, 0x30, 0x20, 0x10, 0x00, 0x30, 0x31, 0x30, 0x18, 0x00, 0x00, 0x30, 0x31, 0x2F, 0x10, 0x10,
++0x00, 0x30, 0x31, 0x2C, 0x10, 0x10, 0x00, 0x30, 0x31, 0x28, 0x10, 0x00, 0x00, 0x30, 0x31, 0x20,
++0x10, 0x00, 0x00, 0x30, 0x31, 0x10, 0x10, 0x00, 0x00, 0x30, 0x04, 0x04, 0x04, 0x05, 0x04, 0x04,
++0x05, 0x07, 0x07, 0x07, 0x08, 0x0A, 0x04, 0x04, 0x04, 0x04, 0x06, 0x0A, 0x0B, 0x0D, 0x05, 0x05,
++0x07, 0x07, 0x08, 0x0B, 0x0D, 0x0F, 0x04, 0x04, 0x04, 0x05, 0x07, 0x07, 0x09, 0x09, 0x0C, 0x0E,
++0x10, 0x12, 0x06, 0x07, 0x09, 0x0A, 0x0C, 0x0E, 0x11, 0x13, 0x09, 0x09, 0x09, 0x09, 0x0C, 0x0E,
++0x11, 0x13, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x24, 0x26, 0x2A, 0x18, 0x1A,
++0x1D, 0x1F, 0x21, 0x27, 0x29, 0x2A, 0x00, 0x00, 0x00, 0x1F, 0x23, 0x28, 0x2A, 0x2C, 0x00, 0x04,
++0x00, 0x04, 0x00, 0x08, 0x00, 0x10, 0x00, 0x18, 0x00, 0x24, 0x00, 0x30, 0x00, 0x48, 0x00, 0x60,
++0x00, 0x90, 0x00, 0xC0, 0x00, 0xD8, 0x00, 0x50, 0x00, 0x78, 0x00, 0xA0, 0x00, 0xC8, 0x01, 0x40,
++0x01, 0x90, 0x01, 0xE0, 0x02, 0x30, 0x01, 0x2C, 0x01, 0x40, 0x01, 0xE0, 0x02, 0xD0, 0x03, 0xE8,
++0x04, 0xB0, 0x06, 0x40, 0x07, 0xD0, 0x00, 0x02, 0x00, 0x02, 0x00, 0x04, 0x00, 0x08, 0x00, 0x0C,
++0x00, 0x12, 0x00, 0x18, 0x00, 0x24, 0x00, 0x30, 0x00, 0x48, 0x00, 0x60, 0x00, 0x6C, 0x00, 0x28,
++0x00, 0x3C, 0x00, 0x50, 0x00, 0x64, 0x00, 0xA0, 0x00, 0xC8, 0x00, 0xF0, 0x01, 0x18, 0x00, 0x64,
++0x00, 0xA0, 0x00, 0xF0, 0x01, 0x68, 0x01, 0xF4, 0x02, 0x58, 0x03, 0x20, 0x03, 0xE8, 0x02, 0x02,
++0x02, 0x02, 0x02, 0x02, 0x03, 0x03, 0x04, 0x04, 0x05, 0x07, 0x02, 0x03, 0x04, 0x0A, 0x0C, 0x0E,
++0x10, 0x12, 0x05, 0x07, 0x07, 0x08, 0x0B, 0x12, 0x24, 0x3C, 0x01, 0x01, 0x01, 0x01, 0x01, 0x02,
++0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x05, 0x06,
++0x07, 0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x20, 0x1E, 0x1C, 0x18, 0x10, 0x18, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0xBB, 0x01, 0x0C, 0xE5, 0x82, 0x29, 0xF5, 0x82, 0xE5, 0x83, 0x3A, 0xF5, 0x83, 0xE0, 0x22, 0x50,
++0x06, 0xE9, 0x25, 0x82, 0xF8, 0xE6, 0x22, 0xBB, 0xFE, 0x06, 0xE9, 0x25, 0x82, 0xF8, 0xE2, 0x22,
++0xE5, 0x82, 0x29, 0xF5, 0x82, 0xE5, 0x83, 0x3A, 0xF5, 0x83, 0xE4, 0x93, 0x22, 0xBB, 0x01, 0x06,
++0x89, 0x82, 0x8A, 0x83, 0xF0, 0x22, 0x50, 0x02, 0xF7, 0x22, 0xBB, 0xFE, 0x01, 0xF3, 0x22, 0xF8,
++0xBB, 0x01, 0x0D, 0xE5, 0x82, 0x29, 0xF5, 0x82, 0xE5, 0x83, 0x3A, 0xF5, 0x83, 0xE8, 0xF0, 0x22,
++0x50, 0x06, 0xE9, 0x25, 0x82, 0xC8, 0xF6, 0x22, 0xBB, 0xFE, 0x05, 0xE9, 0x25, 0x82, 0xC8, 0xF2,
++0x22, 0xC5, 0xF0, 0xF8, 0xA3, 0xE0, 0x28, 0xF0, 0xC5, 0xF0, 0xF8, 0xE5, 0x82, 0x15, 0x82, 0x70,
++0x02, 0x15, 0x83, 0xE0, 0x38, 0xF0, 0x22, 0xBB, 0x01, 0x0A, 0x89, 0x82, 0x8A, 0x83, 0xE0, 0xF5,
++0xF0, 0xA3, 0xE0, 0x22, 0x50, 0x06, 0x87, 0xF0, 0x09, 0xE7, 0x19, 0x22, 0xBB, 0xFE, 0x07, 0xE3,
++0xF5, 0xF0, 0x09, 0xE3, 0x19, 0x22, 0x89, 0x82, 0x8A, 0x83, 0xE4, 0x93, 0xF5, 0xF0, 0x74, 0x01,
++0x93, 0x22, 0xBB, 0x01, 0x10, 0xE5, 0x82, 0x29, 0xF5, 0x82, 0xE5, 0x83, 0x3A, 0xF5, 0x83, 0xE0,
++0xF5, 0xF0, 0xA3, 0xE0, 0x22, 0x50, 0x09, 0xE9, 0x25, 0x82, 0xF8, 0x86, 0xF0, 0x08, 0xE6, 0x22,
++0xBB, 0xFE, 0x0A, 0xE9, 0x25, 0x82, 0xF8, 0xE2, 0xF5, 0xF0, 0x08, 0xE2, 0x22, 0xE5, 0x83, 0x2A,
++0xF5, 0x83, 0xE9, 0x93, 0xF5, 0xF0, 0xA3, 0xE9, 0x93, 0x22, 0xBB, 0x01, 0x0A, 0x89, 0x82, 0x8A,
++0x83, 0xF0, 0xE5, 0xF0, 0xA3, 0xF0, 0x22, 0x50, 0x06, 0xF7, 0x09, 0xA7, 0xF0, 0x19, 0x22, 0xBB,
++0xFE, 0x06, 0xF3, 0xE5, 0xF0, 0x09, 0xF3, 0x19, 0x22, 0xF8, 0xBB, 0x01, 0x11, 0xE5, 0x82, 0x29,
++0xF5, 0x82, 0xE5, 0x83, 0x3A, 0xF5, 0x83, 0xE8, 0xF0, 0xE5, 0xF0, 0xA3, 0xF0, 0x22, 0x50, 0x09,
++0xE9, 0x25, 0x82, 0xC8, 0xF6, 0x08, 0xA6, 0xF0, 0x22, 0xBB, 0xFE, 0x09, 0xE9, 0x25, 0x82, 0xC8,
++0xF2, 0xE5, 0xF0, 0x08, 0xF2, 0x22, 0xEF, 0x4B, 0xFF, 0xEE, 0x4A, 0xFE, 0xED, 0x49, 0xFD, 0xEC,
++0x48, 0xFC, 0x22, 0xE0, 0xFC, 0xA3, 0xE0, 0xFD, 0xA3, 0xE0, 0xFE, 0xA3, 0xE0, 0xFF, 0x22, 0xA4,
++0x25, 0x82, 0xF5, 0x82, 0xE5, 0xF0, 0x35, 0x83, 0xF5, 0x83, 0x22, 0xE0, 0xFB, 0xA3, 0xE0, 0xFA,
++0xA3, 0xE0, 0xF9, 0x22, 0xF8, 0xE0, 0xFB, 0xA3, 0xA3, 0xE0, 0xF9, 0x25, 0xF0, 0xF0, 0xE5, 0x82,
++0x15, 0x82, 0x70, 0x02, 0x15, 0x83, 0xE0, 0xFA, 0x38, 0xF0, 0x22, 0xEB, 0xF0, 0xA3, 0xEA, 0xF0,
++0xA3, 0xE9, 0xF0, 0x22, 0xD0, 0x83, 0xD0, 0x82, 0xF8, 0xE4, 0x93, 0x70, 0x12, 0x74, 0x01, 0x93,
++0x70, 0x0D, 0xA3, 0xA3, 0x93, 0xF8, 0x74, 0x01, 0x93, 0xF5, 0x82, 0x88, 0x83, 0xE4, 0x73, 0x74,
++0x02, 0x93, 0x68, 0x60, 0xEF, 0xA3, 0xA3, 0xA3, 0x80, 0xDF, 0xD0, 0x83, 0xD0, 0x82, 0xF8, 0xE4,
++0x93, 0x70, 0x12, 0x74, 0x01, 0x93, 0x70, 0x0D, 0xA3, 0xA3, 0x93, 0xF8, 0x74, 0x01, 0x93, 0xF5,
++0x82, 0x88, 0x83, 0xE4, 0x73, 0x74, 0x02, 0x93, 0xB5, 0xF0, 0x06, 0x74, 0x03, 0x93, 0x68, 0x60,
++0xE9, 0xA3, 0xA3, 0xA3, 0xA3, 0x80, 0xD8, 0xE4, 0x90, 0x8A, 0xC5, 0xF0, 0xE5, 0x24, 0x70, 0x03,
++0x02, 0x44, 0x9D, 0xE5, 0x21, 0x64, 0x01, 0x60, 0x03, 0x02, 0x44, 0x9D, 0xE5, 0x24, 0x14, 0x60,
++0x29, 0x24, 0xFD, 0x60, 0x25, 0x24, 0x02, 0x24, 0xFB, 0x50, 0x02, 0x80, 0x23, 0x90, 0x8B, 0x0B,
++0xE0, 0x14, 0xF0, 0xE0, 0x60, 0x04, 0xA3, 0xE0, 0x60, 0x16, 0x90, 0x8B, 0x0B, 0xE0, 0x70, 0x0A,
++0x90, 0x8B, 0x19, 0xE0, 0x90, 0x8B, 0x0B, 0xF0, 0x80, 0x00, 0x90, 0x8A, 0xC5, 0x74, 0x01, 0xF0,
++0x90, 0x8B, 0x2C, 0xE0, 0x30, 0xE0, 0x16, 0xA3, 0xE0, 0xB4, 0x06, 0x05, 0xE4, 0x90, 0x8A, 0xC5,
++0xF0, 0xE4, 0xFF, 0x12, 0x4D, 0xE0, 0xEF, 0x70, 0x04, 0x90, 0x8A, 0xC5, 0xF0, 0x90, 0x8A, 0xC5,
++0xE0, 0x60, 0x4A, 0x43, 0x25, 0x10, 0xE4, 0x90, 0x8B, 0x3D, 0xF0, 0x90, 0x8B, 0x0C, 0xE0, 0x75,
++0xF0, 0x03, 0xA4, 0xFF, 0x90, 0x8B, 0x15, 0xE0, 0x2F, 0x90, 0x8B, 0x3E, 0xF0, 0xE4, 0xFB, 0xFD,
++0x7F, 0x54, 0x7E, 0x01, 0x12, 0x4B, 0x6C, 0x90, 0x01, 0x57, 0x74, 0x05, 0xF0, 0xE5, 0x22, 0x54,
++0x0F, 0xC3, 0x94, 0x04, 0x50, 0x07, 0x7D, 0x01, 0x7F, 0x04, 0x12, 0x45, 0xA2, 0x90, 0x8B, 0x2C,
++0xE0, 0x30, 0xE0, 0x09, 0x12, 0x7D, 0xC1, 0x90, 0x05, 0x22, 0x74, 0xFF, 0xF0, 0x22, 0xE4, 0xF5,
++0x25, 0xF5, 0x24, 0x75, 0x23, 0x0C, 0x75, 0x22, 0x0C, 0x90, 0x8B, 0x1A, 0xF0, 0x90, 0x8B, 0x18,
++0xF0, 0x90, 0x8B, 0x17, 0xF0, 0x90, 0x8B, 0x19, 0x04, 0xF0, 0x90, 0x8B, 0x0B, 0xF0, 0xE4, 0x90,
++0x8B, 0x1B, 0xF0, 0x90, 0x8B, 0x0D, 0xF0, 0x90, 0x8B, 0x15, 0x74, 0x05, 0xF0, 0xE4, 0x90, 0x8B,
++0x0C, 0xF0, 0x90, 0x8B, 0x13, 0xF0, 0xA3, 0x74, 0x03, 0xF0, 0x90, 0x8B, 0x10, 0xF0, 0xA3, 0x74,
++0x05, 0xF0, 0x90, 0x8B, 0x0F, 0x74, 0x14, 0xF0, 0x90, 0x8B, 0x16, 0x74, 0x05, 0xF0, 0xE4, 0x90,
++0x8B, 0x0E, 0xF0, 0x90, 0x8B, 0x0A, 0xF0, 0x90, 0x8B, 0x08, 0xF0, 0x90, 0x8B, 0x12, 0xF0, 0x22,
++0x7F, 0x00, 0x22, 0x02, 0x45, 0x03, 0x02, 0x45, 0x06, 0x8E, 0x64, 0x8F, 0x65, 0xAD, 0x65, 0xAC,
++0x64, 0xAF, 0x63, 0x12, 0x4A, 0x5B, 0xAF, 0x65, 0xAE, 0x64, 0x90, 0x04, 0x80, 0xE0, 0x54, 0x0F,
++0xFD, 0xAC, 0x07, 0x74, 0x11, 0x2C, 0xF5, 0x82, 0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 0x44, 0x01,
++0xF0, 0x74, 0x11, 0x2C, 0xF5, 0x82, 0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 0x54, 0xFB, 0xF0, 0xAC,
++0x07, 0x74, 0x16, 0x2C, 0xF5, 0x82, 0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 0x44, 0xFA, 0xF0, 0x74,
++0x15, 0x2C, 0xF5, 0x82, 0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 0x44, 0x1F, 0xF0, 0xAC, 0x07, 0x74,
++0x06, 0x2C, 0xF5, 0x82, 0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 0x44, 0x0F, 0xF0, 0x90, 0x04, 0x53,
++0xE4, 0xF0, 0x90, 0x04, 0x52, 0xF0, 0x90, 0x04, 0x51, 0x74, 0xFF, 0xF0, 0x90, 0x04, 0x50, 0x74,
++0xFD, 0xF0, 0x74, 0x14, 0x2C, 0xF5, 0x82, 0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 0x54, 0xC0, 0x4D,
++0xFD, 0x74, 0x14, 0x2F, 0xF5, 0x82, 0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xED, 0xF0, 0x22, 0x7D, 0x01,
++0x7F, 0x0C, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0x8F, 0x67, 0x8D, 0x68, 0xE5, 0x67, 0x54,
++0x0F, 0xFF, 0xE5, 0x22, 0x54, 0x0F, 0x6F, 0x60, 0x72, 0xE5, 0x67, 0x30, 0xE2, 0x30, 0xE5, 0x22,
++0x20, 0xE2, 0x05, 0x7F, 0x01, 0x12, 0x4A, 0xB2, 0xE5, 0x22, 0x30, 0xE3, 0x10, 0xE5, 0x67, 0x20,
++0xE3, 0x0B, 0x12, 0x49, 0xD5, 0xEF, 0x60, 0x53, 0x12, 0x4A, 0xCC, 0x80, 0x4E, 0xE5, 0x22, 0x20,
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++0xFF, 0x24, 0x00, 0xF5, 0x82, 0xE4, 0x34, 0x8B, 0xF5, 0x83, 0xE0, 0xFE, 0x74, 0xEB, 0x2F, 0xF5,
++0x82, 0xE4, 0x34, 0x8A, 0xF5, 0x83, 0xEE, 0xF0, 0x90, 0x8A, 0xE4, 0xE0, 0x04, 0xF0, 0xE0, 0xB4,
++0x04, 0xDA, 0x90, 0x8A, 0xE8, 0xE0, 0x12, 0x43, 0x94, 0x78, 0xF8, 0x00, 0x7A, 0x6B, 0x01, 0x79,
++0x01, 0x02, 0x79, 0x01, 0x03, 0x79, 0x01, 0x04, 0x7A, 0x6B, 0x05, 0x7A, 0x35, 0x80, 0x7A, 0x4E,
++0x81, 0x7A, 0x6B, 0x82, 0x00, 0x00, 0x7A, 0x67, 0x90, 0x8A, 0xEE, 0xE0, 0xFF, 0x51, 0x72, 0x41,
++0x6B, 0x90, 0x8A, 0xE8, 0xE0, 0xFF, 0xB4, 0x02, 0x08, 0x90, 0x8A, 0xE5, 0x74, 0x01, 0xF0, 0x80,
++0x0F, 0xEF, 0x90, 0x8A, 0xE5, 0xB4, 0x03, 0x05, 0x74, 0x02, 0xF0, 0x80, 0x03, 0x74, 0x04, 0xF0,
++0xC3, 0x90, 0x8A, 0xE9, 0xE0, 0x94, 0x08, 0x50, 0x78, 0xE4, 0x90, 0x8A, 0xE4, 0xF0, 0x90, 0x8A,
++0xE5, 0xE0, 0xFF, 0x90, 0x8A, 0xE4, 0xE0, 0xC3, 0x9F, 0x40, 0x02, 0x41, 0x6B, 0x90, 0x8A, 0xE9,
++0xE0, 0xFE, 0xA3, 0xE0, 0xFF, 0xC3, 0xEE, 0x94, 0x01, 0x90, 0x8A, 0xE4, 0xE0, 0x50, 0x1F, 0xFE,
++0x2F, 0xFF, 0xEE, 0xFD, 0xC3, 0x74, 0x03, 0x9D, 0xFD, 0xE4, 0x94, 0x00, 0xFC, 0x74, 0xEB, 0x2D,
++0xF5, 0x82, 0x74, 0x8A, 0x3C, 0xF5, 0x83, 0xE0, 0xFD, 0x12, 0x51, 0x88, 0x80, 0x2B, 0xFF, 0xFD,
++0xC3, 0x74, 0x03, 0x9D, 0xFD, 0xE4, 0x94, 0x00, 0xFC, 0x74, 0xEB, 0x2D, 0xF5, 0x82, 0x74, 0x8A,
++0x3C, 0xF5, 0x83, 0xE0, 0xFE, 0xEF, 0xFD, 0x90, 0x8A, 0xEA, 0xE0, 0x2D, 0xFD, 0x90, 0x8A, 0xE9,
++0xE0, 0x34, 0x00, 0x8D, 0x82, 0xF5, 0x83, 0xEE, 0xF0, 0x90, 0x8A, 0xE4, 0xE0, 0x04, 0xF0, 0x80,
++0x8D, 0xC3, 0x90, 0x8A, 0xE9, 0xE0, 0x94, 0x10, 0x40, 0x02, 0x41, 0x6B, 0x90, 0x8A, 0xE8, 0xE0,
++0x64, 0x04, 0x60, 0x02, 0x41, 0x6B, 0x90, 0x8A, 0xEC, 0xE0, 0xFF, 0xE4, 0xFC, 0xFD, 0xFE, 0x78,
++0x10, 0x12, 0x24, 0xF5, 0xC0, 0x04, 0xC0, 0x05, 0xC0, 0x06, 0xC0, 0x07, 0x90, 0x8A, 0xEB, 0xE0,
++0xFF, 0xE4, 0xFC, 0xFD, 0xFE, 0x78, 0x18, 0x12, 0x24, 0xF5, 0xD0, 0x03, 0xD0, 0x02, 0xD0, 0x01,
++0xD0, 0x00, 0x12, 0x43, 0x46, 0xC0, 0x04, 0xC0, 0x05, 0xC0, 0x06, 0xC0, 0x07, 0x90, 0x8A, 0xED,
++0xE0, 0xFF, 0xE4, 0xFC, 0xFD, 0xFE, 0x78, 0x08, 0x12, 0x24, 0xF5, 0xD0, 0x03, 0xD0, 0x02, 0xD0,
++0x01, 0xD0, 0x00, 0x12, 0x43, 0x46, 0xA8, 0x04, 0xA9, 0x05, 0xAA, 0x06, 0xAB, 0x07, 0xA3, 0xE0,
++0xFF, 0xE4, 0xFC, 0xFD, 0xFE, 0x12, 0x43, 0x46, 0xA3, 0x12, 0x25, 0x08, 0x90, 0x8A, 0xEF, 0x12,
++0x43, 0x53, 0x90, 0x80, 0x96, 0x12, 0x25, 0x08, 0x90, 0x8A, 0xE9, 0xE0, 0xFE, 0xA3, 0xE0, 0xFF,
++0x12, 0x2B, 0x08, 0x80, 0x36, 0x90, 0x8A, 0xED, 0xE0, 0xFE, 0xA3, 0xE0, 0x24, 0x00, 0xFF, 0xE4,
++0x3E, 0xFE, 0x90, 0x8A, 0xE6, 0xF0, 0xA3, 0xEF, 0xF0, 0x12, 0x32, 0x15, 0x80, 0x1D, 0x90, 0x8A,
++0xED, 0xE0, 0xFE, 0xA3, 0xE0, 0x24, 0x00, 0xFF, 0xE4, 0x3E, 0xFE, 0x90, 0x8A, 0xE6, 0xF0, 0xA3,
++0xEF, 0xF0, 0x12, 0x31, 0x82, 0x80, 0x04, 0x7F, 0x00, 0x80, 0x02, 0x7F, 0x01, 0xD0, 0xD0, 0x92,
++0xAF, 0x22, 0x8F, 0x0F, 0xE4, 0x90, 0x8A, 0xF3, 0xF0, 0xE5, 0x0F, 0x14, 0xFE, 0x90, 0x8A, 0xF3,
++0xE0, 0xFF, 0xC3, 0x9E, 0x50, 0x0E, 0xEF, 0x04, 0xFD, 0x12, 0x2D, 0x4D, 0x90, 0x8A, 0xF3, 0xE0,
++0x04, 0xF0, 0x80, 0xE5, 0xE5, 0x0F, 0x14, 0xFF, 0x7D, 0xFF, 0x12, 0x2D, 0x4D, 0x90, 0x8A, 0xF3,
++0xE5, 0x0F, 0xF0, 0x90, 0x8A, 0xF3, 0xE0, 0xC3, 0x94, 0xFF, 0x50, 0x0F, 0xE0, 0xFF, 0x04, 0xFD,
++0x12, 0x2D, 0x4D, 0x90, 0x8A, 0xF3, 0xE0, 0x04, 0xF0, 0x80, 0xE8, 0xAD, 0x0F, 0x7F, 0xFF, 0x02,
++0x2D, 0x4D, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0xE4, 0x90, 0x8A, 0xDD, 0xF0, 0xA3, 0x74,
++0x04, 0xF0, 0xA3, 0xE4, 0xF0, 0x90, 0x8A, 0xE2, 0xF0, 0xA3, 0xF0, 0x90, 0x02, 0x09, 0xE0, 0x90,
++0x8A, 0xE1, 0xF0, 0x12, 0x24, 0x62, 0xFF, 0x90, 0x8A, 0xE1, 0xE0, 0x2F, 0x90, 0x8A, 0xE0, 0xF0,
++0x30, 0xE0, 0x0B, 0x90, 0x8A, 0xDB, 0xE4, 0xF0, 0xA3, 0x74, 0x80, 0xF0, 0x80, 0x07, 0xE4, 0x90,
++0x8A, 0xDB, 0xF0, 0xA3, 0xF0, 0x90, 0x8A, 0xE0, 0xE0, 0xC3, 0x13, 0x90, 0xFD, 0x10, 0xF0, 0x90,
++0x8A, 0xDD, 0xE0, 0x24, 0x20, 0xF0, 0x90, 0x8A, 0xDB, 0xA3, 0xE0, 0xFD, 0xA3, 0xE0, 0xFC, 0x2D,
++0xFF, 0x24, 0x01, 0xF5, 0x82, 0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 0x90, 0x8A, 0xFD, 0xF0, 0x74,
++0x02, 0x2F, 0xF5, 0x82, 0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 0xFE, 0xEC, 0x2D, 0x24, 0x03, 0xF5,
++0x82, 0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 0x24, 0x00, 0xFF, 0xE4, 0x3E, 0x90, 0x8A, 0xFE, 0xF0,
++0xA3, 0xEF, 0xF0, 0x90, 0x8A, 0xDA, 0x74, 0x04, 0xF0, 0x90, 0x8A, 0xDB, 0xA3, 0xE0, 0xFF, 0xA3,
++0xE0, 0x2F, 0xFF, 0x90, 0x8A, 0xDA, 0xE0, 0xFE, 0x2F, 0x24, 0x00, 0xF5, 0x82, 0xE4, 0x34, 0xFC,
++0xF5, 0x83, 0xE0, 0xFF, 0x74, 0xFC, 0x2E, 0xF5, 0x82, 0xE4, 0x34, 0x8A, 0xF5, 0x83, 0xEF, 0xF0,
++0x90, 0x8A, 0xDA, 0xE0, 0x04, 0xF0, 0xE0, 0xB4, 0x08, 0xCF, 0x11, 0x89, 0xEF, 0x70, 0x45, 0x90,
++0x01, 0xC3, 0xE0, 0x60, 0x2B, 0xC3, 0x90, 0x8A, 0xE3, 0xE0, 0x94, 0xE8, 0x90, 0x8A, 0xE2, 0xE0,
++0x94, 0x03, 0x40, 0x09, 0x90, 0x01, 0xC6, 0xE0, 0x44, 0x10, 0xF0, 0x80, 0x79, 0x90, 0x8A, 0xE2,
++0xE4, 0x75, 0xF0, 0x01, 0x12, 0x42, 0x81, 0x7F, 0x0A, 0x7E, 0x00, 0x12, 0x32, 0x15, 0x80, 0xCF,
++0x90, 0x01, 0xC6, 0xE0, 0x90, 0x01, 0xC3, 0x30, 0xE2, 0x05, 0x74, 0xFE, 0xF0, 0x80, 0x57, 0x74,
++0xFF, 0xF0, 0x80, 0x52, 0x90, 0x8A, 0xDD, 0xE0, 0xB4, 0x78, 0x2E, 0xE4, 0xF0, 0x90, 0x8A, 0xE0,
++0xE0, 0x04, 0xF0, 0x90, 0x8A, 0xDB, 0xE0, 0x70, 0x04, 0xA3, 0xE0, 0x64, 0x80, 0x90, 0x8A, 0xDB,
++0x70, 0x05, 0xF0, 0xA3, 0xF0, 0x80, 0x06, 0xE4, 0xF0, 0xA3, 0x74, 0x80, 0xF0, 0x90, 0x8A, 0xE0,
++0xE0, 0xC3, 0x13, 0x90, 0xFD, 0x10, 0xF0, 0x80, 0x07, 0x90, 0x8A, 0xDD, 0xE0, 0x24, 0x08, 0xF0,
++0x90, 0x8A, 0xDE, 0x74, 0xFF, 0xF5, 0xF0, 0x12, 0x42, 0x81, 0x90, 0x8A, 0xDE, 0xE0, 0x70, 0x02,
++0xA3, 0xE0, 0x60, 0x02, 0x61, 0x16, 0xD0, 0xD0, 0x92, 0xAF, 0x22, 0x12, 0x24, 0x62, 0x90, 0x8B,
++0x05, 0xF0, 0x90, 0x00, 0x01, 0x12, 0x42, 0x20, 0x90, 0x8B, 0x06, 0xF0, 0x22, 0xE4, 0xF5, 0x61,
++0x22, 0x91, 0x4A, 0x90, 0x8B, 0x33, 0x74, 0x02, 0xF0, 0x22, 0x90, 0x05, 0x22, 0x74, 0xFF, 0xF0,
++0x7F, 0x78, 0x7E, 0x08, 0x12, 0x22, 0x65, 0x90, 0x8B, 0x1C, 0x12, 0x25, 0x08, 0x7F, 0x04, 0x7E,
++0x0C, 0x12, 0x22, 0x65, 0x90, 0x8B, 0x20, 0x12, 0x25, 0x08, 0x7F, 0x00, 0x7E, 0x08, 0x12, 0x22,
++0x65, 0x90, 0x8B, 0x24, 0x12, 0x25, 0x08, 0x90, 0x8B, 0x09, 0xE0, 0x90, 0x8B, 0x1C, 0xB4, 0x01,
++0x0D, 0x12, 0x43, 0x53, 0xEF, 0x54, 0xC7, 0xFF, 0xED, 0x54, 0xC7, 0xFD, 0x80, 0x07, 0x12, 0x43,
++0x53, 0xEF, 0x54, 0xC7, 0xFF, 0xEC, 0x90, 0x80, 0x96, 0x12, 0x25, 0x08, 0x7F, 0x78, 0x7E, 0x08,
++0x12, 0x2B, 0x08, 0x90, 0x8B, 0x20, 0x12, 0x43, 0x53, 0xEF, 0x54, 0x0F, 0xFF, 0xEC, 0x90, 0x80,
++0x96, 0x12, 0x25, 0x08, 0x7F, 0x04, 0x7E, 0x0C, 0x12, 0x2B, 0x08, 0x90, 0x8B, 0x24, 0x12, 0x43,
++0x53, 0xEF, 0x44, 0x02, 0xFF, 0xEC, 0x90, 0x80, 0x96, 0x12, 0x25, 0x08, 0x7F, 0x00, 0x7E, 0x08,
++0x12, 0x2B, 0x08, 0x7F, 0x70, 0x7E, 0x0E, 0x12, 0x22, 0x65, 0x90, 0x8B, 0x28, 0x12, 0x25, 0x08,
++0x90, 0x80, 0x96, 0x12, 0x25, 0x14, 0x00, 0x1B, 0x25, 0xA0, 0x7F, 0x70, 0x7E, 0x0E, 0x12, 0x2B,
++0x08, 0x90, 0x80, 0x68, 0x12, 0x25, 0x14, 0x00, 0x00, 0x00, 0x00, 0xE4, 0xFD, 0xFF, 0x12, 0x30,
++0x2C, 0x90, 0x8B, 0x09, 0xE0, 0xB4, 0x01, 0x11, 0x90, 0x80, 0x68, 0x12, 0x25, 0x14, 0x00, 0x00,
++0x00, 0x00, 0xE4, 0xFD, 0x7F, 0x01, 0x12, 0x30, 0x2C, 0x90, 0x00, 0x11, 0xE0, 0x54, 0xF6, 0xF0,
++0x02, 0x52, 0x0E, 0x91, 0x50, 0x90, 0x8B, 0x33, 0x74, 0x02, 0xF0, 0x22, 0x90, 0x05, 0x22, 0x74,
++0xFF, 0xF0, 0x90, 0x8B, 0x33, 0x74, 0x04, 0xF0, 0x22, 0xB1, 0x42, 0x90, 0x8B, 0x33, 0x74, 0x04,
++0xF0, 0x22, 0x90, 0x00, 0x11, 0xE0, 0x44, 0x09, 0xF0, 0x12, 0x52, 0x0E, 0x90, 0x8B, 0x1C, 0x12,
++0x43, 0x53, 0x90, 0x80, 0x96, 0x12, 0x25, 0x08, 0x7F, 0x78, 0x7E, 0x08, 0x12, 0x2B, 0x08, 0x90,
++0x8B, 0x20, 0x12, 0x43, 0x53, 0x90, 0x80, 0x96, 0x12, 0x25, 0x08, 0x7F, 0x04, 0x7E, 0x0C, 0x12,
++0x2B, 0x08, 0x90, 0x8B, 0x24, 0x12, 0x43, 0x53, 0x90, 0x80, 0x96, 0x12, 0x25, 0x08, 0x7F, 0x00,
++0x7E, 0x08, 0x12, 0x2B, 0x08, 0x90, 0x8B, 0x28, 0x12, 0x43, 0x53, 0x90, 0x80, 0x96, 0x12, 0x25,
++0x08, 0x7F, 0x70, 0x7E, 0x0E, 0x12, 0x2B, 0x08, 0x90, 0x80, 0x68, 0x12, 0x25, 0x14, 0x00, 0x03,
++0x2D, 0x95, 0xE4, 0xFD, 0xFF, 0x12, 0x30, 0x2C, 0x90, 0x8B, 0x09, 0xE0, 0xB4, 0x01, 0x11, 0x90,
++0x80, 0x68, 0x12, 0x25, 0x14, 0x00, 0x03, 0x2D, 0x95, 0xE4, 0xFD, 0x7F, 0x01, 0x12, 0x30, 0x2C,
++0x22, 0x90, 0x8B, 0x2D, 0xE0, 0x64, 0x06, 0x60, 0x3C, 0xE5, 0x22, 0x54, 0x0F, 0x14, 0x60, 0x2E,
++0x14, 0x60, 0x1E, 0x24, 0xFE, 0x60, 0x0E, 0x24, 0xF8, 0x70, 0x2A, 0xE4, 0x90, 0x8B, 0x2D, 0xF0,
++0x90, 0x05, 0x22, 0xF0, 0x22, 0x90, 0x8B, 0x2D, 0x74, 0x01, 0xF0, 0x90, 0x05, 0x22, 0xE4, 0xF0,
++0x22, 0x90, 0x8B, 0x2D, 0x74, 0x03, 0xF0, 0x90, 0x05, 0x22, 0x74, 0xFF, 0xF0, 0x22, 0x90, 0x01,
++0xC6, 0xE0, 0x44, 0x08, 0xF0, 0x22, 0xAE, 0x07, 0xE4, 0xFF, 0x12, 0x4D, 0xE0, 0xEF, 0x60, 0x18,
++0x90, 0x8B, 0x2C, 0xE0, 0xC4, 0x13, 0x13, 0x54, 0x03, 0x20, 0xE0, 0x0C, 0xAF, 0x06, 0x7D, 0x01,
++0x12, 0x45, 0xA2, 0xB1, 0xC1, 0x7F, 0x01, 0x22, 0x7F, 0x00, 0x22, 0x90, 0x01, 0x57, 0xE0, 0x60,
++0x3C, 0x90, 0x01, 0x57, 0xE4, 0xF0, 0x90, 0x01, 0x3C, 0x74, 0x02, 0xF0, 0x90, 0x8B, 0x1B, 0xE0,
++0x60, 0x07, 0xE4, 0xF0, 0x53, 0x25, 0xFD, 0x80, 0x24, 0x90, 0x8B, 0x0C, 0xE0, 0x04, 0xF0, 0x53,
++0x25, 0xEF, 0x90, 0x8B, 0x10, 0xE0, 0xFF, 0x90, 0x8B, 0x0C, 0xE0, 0xD3, 0x9F, 0x40, 0x0E, 0xE5,
++0x21, 0xB4, 0x01, 0x09, 0x90, 0x8B, 0x0D, 0xE0, 0x70, 0x03, 0xE0, 0x04, 0xF0, 0x90, 0x01, 0x5B,
++0xE0, 0x60, 0x10, 0x90, 0x01, 0x5B, 0xE4, 0xF0, 0x90, 0x01, 0x3C, 0x74, 0x04, 0xF0, 0xE4, 0x90,
++0x8B, 0x18, 0xF0, 0x90, 0x01, 0x5F, 0xE0, 0x60, 0x10, 0x90, 0x01, 0x5F, 0xE4, 0xF0, 0x90, 0x01,
++0x3C, 0x74, 0x08, 0xF0, 0xE4, 0x90, 0x8B, 0x17, 0xF0, 0x22, 0xE4, 0x90, 0x8B, 0x4F, 0xF0, 0xA3,
++0xF0, 0x90, 0x05, 0xF8, 0xE0, 0x70, 0x0F, 0xA3, 0xE0, 0x70, 0x0B, 0xA3, 0xE0, 0x70, 0x07, 0xA3,
++0xE0, 0x70, 0x03, 0x7F, 0x01, 0x22, 0xD3, 0x90, 0x8B, 0x50, 0xE0, 0x94, 0xE8, 0x90, 0x8B, 0x4F,
++0xE0, 0x94, 0x03, 0x40, 0x03, 0x7F, 0x00, 0x22, 0x7F, 0x32, 0x7E, 0x00, 0x12, 0x32, 0x15, 0x90,
++0x8B, 0x4F, 0xE4, 0x75, 0xF0, 0x01, 0x12, 0x42, 0x81, 0x80, 0xC6, 0x00, 0xFB, 0x98};
++
++// =================== v88 UMC B Cut P2PPS with CCX report C2H 2012-12-05 =====================
++u8 Rtl8192CUFwUMCBCutImgArray[UMCBCutImgArrayLength] = {
++0xC2, 0x88, 0x02, 0x05, 0x58, 0x00, 0x02, 0x00, 0x12, 0x05, 0x17, 0x10, 0xC0, 0x3E, 0x01, 0x00,
++0x94, 0x18, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x02, 0x46, 0x30, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x02, 0x60, 0xF3, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
++0x00, 0x00, 0x00, 0x02, 0x67, 0x5B, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x4B, 0x87, 0x00, 0x00,
++0x05, 0x04, 0x03, 0x02, 0x00, 0x03, 0x06, 0x05, 0x04, 0x03, 0x00, 0x04, 0x06, 0x05, 0x04, 0x02,
++0x00, 0x04, 0x08, 0x07, 0x06, 0x04, 0x00, 0x06, 0x0A, 0x09, 0x08, 0x06, 0x00, 0x08, 0x0A, 0x09,
++0x08, 0x04, 0x00, 0x08, 0x0A, 0x09, 0x08, 0x02, 0x00, 0x08, 0x0A, 0x09, 0x08, 0x00, 0x00, 0x08,
++0x12, 0x11, 0x10, 0x08, 0x00, 0x10, 0x1A, 0x19, 0x18, 0x10, 0x00, 0x18, 0x22, 0x21, 0x20, 0x18,
++0x00, 0x20, 0x22, 0x21, 0x20, 0x10, 0x00, 0x20, 0x22, 0x21, 0x20, 0x08, 0x00, 0x20, 0x22, 0x21,
++0x1C, 0x08, 0x00, 0x20, 0x22, 0x21, 0x14, 0x08, 0x00, 0x20, 0x22, 0x20, 0x18, 0x08, 0x00, 0x20,
++0x31, 0x30, 0x20, 0x10, 0x00, 0x30, 0x31, 0x30, 0x18, 0x00, 0x00, 0x30, 0x31, 0x2F, 0x10, 0x10,
++0x00, 0x30, 0x31, 0x2C, 0x10, 0x10, 0x00, 0x30, 0x31, 0x28, 0x10, 0x00, 0x00, 0x30, 0x31, 0x20,
++0x10, 0x00, 0x00, 0x30, 0x31, 0x10, 0x10, 0x00, 0x00, 0x30, 0x04, 0x04, 0x04, 0x05, 0x04, 0x04,
++0x05, 0x07, 0x07, 0x07, 0x08, 0x0A, 0x04, 0x04, 0x04, 0x04, 0x06, 0x0A, 0x0B, 0x0D, 0x05, 0x05,
++0x07, 0x07, 0x08, 0x0B, 0x0D, 0x0F, 0x04, 0x04, 0x04, 0x05, 0x07, 0x07, 0x09, 0x09, 0x0C, 0x0E,
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++0x7F, 0x70, 0x7E, 0x0E, 0x12, 0x27, 0xDE, 0x90, 0x8B, 0x28, 0x12, 0x2A, 0x7F, 0x90, 0x80, 0x85,
++0x12, 0x2A, 0x8B, 0x00, 0x1B, 0x25, 0xA0, 0x7F, 0x70, 0x7E, 0x0E, 0x12, 0x2F, 0xD9, 0x90, 0x80,
++0x59, 0x12, 0x2A, 0x8B, 0x00, 0x00, 0x00, 0x00, 0xE4, 0xFD, 0xFF, 0x12, 0x34, 0x81, 0x90, 0x8B,
++0x09, 0xE0, 0xB4, 0x01, 0x11, 0x90, 0x80, 0x59, 0x12, 0x2A, 0x8B, 0x00, 0x00, 0x00, 0x00, 0xE4,
++0xFD, 0x7F, 0x01, 0x12, 0x34, 0x81, 0x22, 0x51, 0x6D, 0x90, 0x8B, 0x33, 0x74, 0x02, 0xF0, 0x22,
++0x51, 0x67, 0x90, 0x8B, 0x2D, 0x74, 0x04, 0xF0, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0,
++0x90, 0x8B, 0x2D, 0xE0, 0xFE, 0x6F, 0x70, 0x02, 0xA1, 0x15, 0xEF, 0x12, 0x43, 0x94, 0x7B, 0x77,
++0x00, 0x7B, 0xB1, 0x01, 0x7B, 0xF7, 0x02, 0x7C, 0x31, 0x03, 0x7C, 0x69, 0x04, 0x7C, 0xA2, 0x05,
++0x7C, 0xDD, 0x06, 0x00, 0x00, 0x7D, 0x15, 0xEE, 0xB4, 0x04, 0x06, 0x7F, 0x01, 0xB1, 0x48, 0xA1,
++0x15, 0x90, 0x8B, 0x2D, 0xE0, 0xFF, 0xB4, 0x05, 0x04, 0xB1, 0x24, 0xA1, 0x15, 0xEF, 0xB4, 0x06,
++0x06, 0x7F, 0x01, 0xB1, 0x39, 0x80, 0x16, 0x90, 0x8B, 0x2D, 0xE0, 0xB4, 0x03, 0x06, 0x7F, 0x01,
++0xB1, 0x1A, 0x80, 0x09, 0x90, 0x8B, 0x2D, 0xE0, 0xB4, 0x02, 0x02, 0xB1, 0x2E, 0xB1, 0x6B, 0xA1,
++0x15, 0x90, 0x8B, 0x2D, 0xE0, 0xB4, 0x04, 0x06, 0x7F, 0x01, 0xB1, 0x48, 0x80, 0x09, 0x90, 0x8B,
++0x2D, 0xE0, 0xB4, 0x05, 0x02, 0xB1, 0x24, 0x90, 0x8B, 0x2D, 0xE0, 0x70, 0x04, 0xB1, 0x61, 0xA1,
++0x15, 0x90, 0x8B, 0x2D, 0xE0, 0xFE, 0xB4, 0x06, 0x06, 0x7F, 0x01, 0xB1, 0x39, 0xA1, 0x15, 0xEE,
++0xB4, 0x03, 0x06, 0x7F, 0x01, 0xB1, 0x1A, 0xA1, 0x15, 0x90, 0x8B, 0x2D, 0xE0, 0x64, 0x02, 0x60,
++0x02, 0xA1, 0x15, 0xB1, 0x2E, 0xA1, 0x15, 0x90, 0x8B, 0x2D, 0xE0, 0xB4, 0x04, 0x06, 0x7F, 0x01,
++0xB1, 0x48, 0x80, 0x09, 0x90, 0x8B, 0x2D, 0xE0, 0xB4, 0x05, 0x02, 0xB1, 0x24, 0x90, 0x8B, 0x2D,
++0xE0, 0x70, 0x04, 0xB1, 0x61, 0x80, 0x16, 0x90, 0x8B, 0x2D, 0xE0, 0xFE, 0xB4, 0x06, 0x06, 0x7F,
++0x01, 0xB1, 0x39, 0x80, 0x08, 0xEE, 0xB4, 0x03, 0x04, 0x7F, 0x01, 0xB1, 0x1A, 0xB1, 0x8D, 0xA1,
++0x15, 0x90, 0x8B, 0x2D, 0xE0, 0xB4, 0x04, 0x06, 0x7F, 0x01, 0xB1, 0x48, 0x80, 0x09, 0x90, 0x8B,
++0x2D, 0xE0, 0xB4, 0x05, 0x02, 0xB1, 0x24, 0x90, 0x8B, 0x2D, 0xE0, 0x70, 0x04, 0xB1, 0x61, 0x80,
++0x14, 0x90, 0x8B, 0x2D, 0xE0, 0xFE, 0xB4, 0x06, 0x06, 0xE4, 0xFF, 0xB1, 0x39, 0x80, 0x06, 0xEE,
++0xB4, 0x02, 0x02, 0xB1, 0x2E, 0xB1, 0x76, 0xA1, 0x15, 0x90, 0x8B, 0x2D, 0xE0, 0xFE, 0xB4, 0x06,
++0x06, 0xE4, 0xFF, 0xB1, 0x39, 0x80, 0x13, 0xEE, 0xB4, 0x03, 0x06, 0x7F, 0x01, 0xB1, 0x1A, 0x80,
++0x09, 0x90, 0x8B, 0x2D, 0xE0, 0xB4, 0x02, 0x02, 0xB1, 0x2E, 0x90, 0x8B, 0x2D, 0xE0, 0xB4, 0x01,
++0x04, 0xB1, 0x6B, 0x80, 0x09, 0x90, 0x8B, 0x2D, 0xE0, 0xB4, 0x05, 0x02, 0xB1, 0x24, 0x71, 0x40,
++0x80, 0x73, 0x90, 0x8B, 0x2D, 0xE0, 0xFE, 0xB4, 0x06, 0x06, 0xE4, 0xFF, 0xB1, 0x39, 0x80, 0x13,
++0xEE, 0xB4, 0x03, 0x06, 0x7F, 0x01, 0xB1, 0x1A, 0x80, 0x09, 0x90, 0x8B, 0x2D, 0xE0, 0xB4, 0x02,
++0x02, 0xB1, 0x2E, 0x90, 0x8B, 0x2D, 0xE0, 0xB4, 0x01, 0x04, 0xB1, 0x6B, 0x80, 0x0B, 0x90, 0x8B,
++0x2D, 0xE0, 0xB4, 0x04, 0x04, 0x7F, 0x01, 0xB1, 0x48, 0xB1, 0x80, 0x80, 0x38, 0x90, 0x8B, 0x2D,
++0xE0, 0xB4, 0x04, 0x06, 0x7F, 0x01, 0xB1, 0x48, 0x80, 0x09, 0x90, 0x8B, 0x2D, 0xE0, 0xB4, 0x05,
++0x02, 0xB1, 0x24, 0x90, 0x8B, 0x2D, 0xE0, 0x70, 0x04, 0xB1, 0x61, 0x80, 0x16, 0x90, 0x8B, 0x2D,
++0xE0, 0xB4, 0x03, 0x06, 0xE4, 0xFF, 0xB1, 0x1A, 0x80, 0x09, 0x90, 0x8B, 0x2D, 0xE0, 0xB4, 0x02,
++0x02, 0xB1, 0x2E, 0xB1, 0x9A, 0xD0, 0xD0, 0x92, 0xAF, 0x22, 0x12, 0x4A, 0xB2, 0x90, 0x8B, 0x2D,
++0x74, 0x01, 0xF0, 0x22, 0x90, 0x05, 0x22, 0xE4, 0xF0, 0x90, 0x8B, 0x2D, 0xF0, 0x22, 0x90, 0x05,
++0x22, 0xE4, 0xF0, 0x90, 0x8B, 0x2D, 0x04, 0xF0, 0x22, 0xEF, 0x60, 0x05, 0x90, 0x05, 0x22, 0xE4,
++0xF0, 0x90, 0x8B, 0x2D, 0x74, 0x01, 0xF0, 0x22, 0x90, 0x8B, 0x56, 0xEF, 0xF0, 0x12, 0x4F, 0xED,
++0x90, 0x8B, 0x56, 0xE0, 0x60, 0x05, 0x90, 0x05, 0x22, 0xE4, 0xF0, 0xE4, 0x90, 0x8B, 0x2D, 0xF0,
++0x22, 0x12, 0x4A, 0xCC, 0x90, 0x8B, 0x2D, 0x74, 0x01, 0xF0, 0x22, 0x7F, 0x01, 0x12, 0x4A, 0x7C,
++0xE4, 0x90, 0x8B, 0x2D, 0xF0, 0x22, 0x12, 0x4A, 0x32, 0x90, 0x8B, 0x2D, 0x74, 0x03, 0xF0, 0x22,
++0x90, 0x05, 0x22, 0x74, 0xFF, 0xF0, 0x90, 0x8B, 0x2D, 0x74, 0x05, 0xF0, 0x22, 0x90, 0x05, 0x22,
++0x74, 0xFF, 0xF0, 0x90, 0x8B, 0x2D, 0x74, 0x02, 0xF0, 0x22, 0x90, 0x05, 0x22, 0x74, 0x6F, 0xF0,
++0x90, 0x8B, 0x2D, 0x74, 0x06, 0xF0, 0x22, 0x90, 0x05, 0x22, 0x74, 0xFF, 0xF0, 0x90, 0x8B, 0x33,
++0x74, 0x04, 0xF0, 0x22, 0x12, 0x4F, 0xED, 0x90, 0x8B, 0x33, 0x74, 0x04, 0xF0, 0x22, 0x90, 0x01,
++0x57, 0xE0, 0x60, 0x3C, 0x90, 0x01, 0x57, 0xE4, 0xF0, 0x90, 0x01, 0x3C, 0x74, 0x02, 0xF0, 0x90,
++0x8B, 0x1B, 0xE0, 0x60, 0x07, 0xE4, 0xF0, 0x53, 0x25, 0xFD, 0x80, 0x24, 0x90, 0x8B, 0x0C, 0xE0,
++0x04, 0xF0, 0x53, 0x25, 0xEF, 0x90, 0x8B, 0x10, 0xE0, 0xFF, 0x90, 0x8B, 0x0C, 0xE0, 0xD3, 0x9F,
++0x40, 0x0E, 0xE5, 0x21, 0xB4, 0x01, 0x09, 0x90, 0x8B, 0x0D, 0xE0, 0x70, 0x03, 0xE0, 0x04, 0xF0,
++0x90, 0x01, 0x5B, 0xE0, 0x60, 0x10, 0x90, 0x01, 0x5B, 0xE4, 0xF0, 0x90, 0x01, 0x3C, 0x74, 0x04,
++0xF0, 0xE4, 0x90, 0x8B, 0x18, 0xF0, 0x90, 0x01, 0x5F, 0xE0, 0x60, 0x10, 0x90, 0x01, 0x5F, 0xE4,
++0xF0, 0x90, 0x01, 0x3C, 0x74, 0x08, 0xF0, 0xE4, 0x90, 0x8B, 0x17, 0xF0, 0x22, 0xE4, 0x90, 0x8B,
++0x4F, 0xF0, 0xA3, 0xF0, 0x90, 0x05, 0xF8, 0xE0, 0x70, 0x0F, 0xA3, 0xE0, 0x70, 0x0B, 0xA3, 0xE0,
++0x70, 0x07, 0xA3, 0xE0, 0x70, 0x03, 0x7F, 0x01, 0x22, 0xD3, 0x90, 0x8B, 0x50, 0xE0, 0x94, 0xE8,
++0x90, 0x8B, 0x4F, 0xE0, 0x94, 0x03, 0x40, 0x03, 0x7F, 0x00, 0x22, 0x7F, 0x32, 0x7E, 0x00, 0x12,
++0x37, 0x54, 0x90, 0x8B, 0x4F, 0xE4, 0x75, 0xF0, 0x01, 0x12, 0x42, 0x81, 0x80, 0xC6, 0x8F, 0x0F,
++0xE4, 0x90, 0x8A, 0xF3, 0xF0, 0xE5, 0x0F, 0x14, 0xFE, 0x90, 0x8A, 0xF3, 0xE0, 0xFF, 0xC3, 0x9E,
++0x50, 0x0E, 0xEF, 0x04, 0xFD, 0x12, 0x34, 0xB7, 0x90, 0x8A, 0xF3, 0xE0, 0x04, 0xF0, 0x80, 0xE5,
++0xE5, 0x0F, 0x14, 0xFF, 0x7D, 0xFF, 0x12, 0x34, 0xB7, 0x90, 0x8A, 0xF3, 0xE5, 0x0F, 0xF0, 0x90,
++0x8A, 0xF3, 0xE0, 0xC3, 0x94, 0xFF, 0x50, 0x0F, 0xE0, 0xFF, 0x04, 0xFD, 0x12, 0x34, 0xB7, 0x90,
++0x8A, 0xF3, 0xE0, 0x04, 0xF0, 0x80, 0xE8, 0xAD, 0x0F, 0x7F, 0xFF, 0x02, 0x34, 0xB7, 0xDC, 0xD3,
++};
++#endif
++
++//8188C_Formal_All_PHYforMP_111117	2011-11-23
++//8192C_Formal_92CU_PHYforMP_110817 	2011-11-23
++
++u32 Rtl8192CUPHY_REG_2TArray[PHY_REG_2TArrayLength] = {
++0x024,0x0011800f,
++0x028,0x00ffdb83,
++0x800,0x80040002,
++0x804,0x00000003,
++0x808,0x0000fc00,
++0x80c,0x0000000a,
++0x810,0x10000330, //for Broadcom AP IOT
++0x814,0x020c3d10,
++0x818,0x02200385,
++0x81c,0x00000000,
++0x820,0x01000100,
++0x824,0x00390004,
++0x828,0x01000100,
++0x82c,0x00390004,
++0x830,0x27272727,
++0x834,0x27272727,
++0x838,0x27272727,
++0x83c,0x27272727,
++0x840,0x00010000,
++0x844,0x00010000,
++0x848,0x27272727,
++0x84c,0x27272727,
++0x850,0x00000000,
++0x854,0x00000000,
++0x858,0x569a569a,
++0x85c,0x0c1b25a4,
++0x860,0x66e60230,
++0x864,0x061f0130,
++0x868,0x27272727,
++0x86c,0x2b2b2b27,
++0x870,0x07000700,
++0x874,0x22184000,
++0x878,0x08080808,
++0x87c,0x00000000,
++0x880,0xc0083070,
++0x884,0x000004d5,
++0x888,0x00000000,
++0x88c,0xcc0000c0,
++0x890,0x00000800,
++0x894,0xfffffffe,
++0x898,0x40302010,
++0x89c,0x00706050,
++0x900,0x00000000,
++0x904,0x00000023,
++0x908,0x00000000,
++0x90c,0x81121313,
++0xa00,0x00d047c8,
++0xa04,0x80ff000c,
++0xa08,0x8c838300,
++0xa0c,0x2e68120f,
++0xa10,0x9500bb78,
++0xa14,0x11144028,
++0xa18,0x00881117,
++0xa1c,0x89140f00,
++0xa20,0x1a1b0000,
++0xa24,0x090e1317,
++0xa28,0x00000204,
++0xa2c,0x00d30000,
++0xa70,0x101fbf00,
++0xa74,0x00000007,
++0xc00,0x48071d40,
++0xc04,0x03a05633,
++0xc08,0x000000e4,
++0xc0c,0x6c6c6c6c,
++0xc10,0x08800000,
++0xc14,0x40000100,
++0xc18,0x08800000,
++0xc1c,0x40000100,
++0xc20,0x00000000,
++0xc24,0x00000000,
++0xc28,0x00000000,
++0xc2c,0x00000000,
++0xc30,0x69e9ac44,
++0xc34,0x469652cf,
++0xc38,0x49795994,
++0xc3c,0x0a97971c,
++0xc40,0x1f7c403f,
++0xc44,0x000100b7,
++0xc48,0xec020107,
++0xc4c,0x007f037f,
++0xc50,0x69543420,
++0xc54,0x43bc0094,
++0xc58,0x69543420,
++0xc5c,0x433c0094,
++0xc60,0x00000000,
++0xc64,0x5116848b,
++0xc68,0x47c00bff,
++0xc6c,0x00000036,
++0xc70,0x2c7f000d,
++0xc74,0x2186115b,
++0xc78,0x0000001f,
++0xc7c,0x00b99612,
++0xc80,0x40000100,
++0xc84,0x20f60000,
++0xc88,0x40000100,
++0xc8c,0xa0e40000,
++0xc90,0x00121820,
++0xc94,0x00000000,
++0xc98,0x00121820,
++0xc9c,0x00007f7f,
++0xca0,0x00000000,
++0xca4,0x00000080,
++0xca8,0x00000000,
++0xcac,0x00000000,
++0xcb0,0x00000000,
++0xcb4,0x00000000,
++0xcb8,0x00000000,
++0xcbc,0x28000000,
++0xcc0,0x00000000,
++0xcc4,0x00000000,
++0xcc8,0x00000000,
++0xccc,0x00000000,
++0xcd0,0x00000000,
++0xcd4,0x00000000,
++0xcd8,0x64b22427,
++0xcdc,0x00766932,
++0xce0,0x00222222,
++0xce4,0x00000000,
++0xce8,0x37644302,
++0xcec,0x2f97d40c,
++0xd00,0x00080740,
++0xd04,0x00020403,
++0xd08,0x0000907f,
++0xd0c,0x20010201,
++0xd10,0xa0633333,
++0xd14,0x3333bc43,
++0xd18,0x7a8f5b6b,
++0xd2c,0xcc979975,
++0xd30,0x00000000,
++0xd34,0x80608000,
++0xd38,0x00000000,
++0xd3c,0x00027293,
++0xd40,0x00000000,
++0xd44,0x00000000,
++0xd48,0x00000000,
++0xd4c,0x00000000,
++0xd50,0x6437140a,
++0xd54,0x00000000,
++0xd58,0x00000000,
++0xd5c,0x30032064,
++0xd60,0x4653de68,
++0xd64,0x04518a3c,
++0xd68,0x00002101,
++0xd6c,0x2a201c16,
++0xd70,0x1812362e,
++0xd74,0x322c2220,
++0xd78,0x000e3c24,
++0xe00,0x2a2a2a2a,
++0xe04,0x2a2a2a2a,
++0xe08,0x03902a2a,
++0xe10,0x2a2a2a2a,
++0xe14,0x2a2a2a2a,
++0xe18,0x2a2a2a2a,
++0xe1c,0x2a2a2a2a,
++0xe28,0x00000000,
++0xe30,0x1000dc1f,
++0xe34,0x10008c1f,
++0xe38,0x02140102,
++0xe3c,0x681604c2,
++0xe40,0x01007c00,
++0xe44,0x01004800,
++0xe48,0xfb000000,
++0xe4c,0x000028d1,
++0xe50,0x1000dc1f,
++0xe54,0x10008c1f,
++0xe58,0x02140102,
++0xe5c,0x28160d05,
++0xe60,0x00000010,
++0xe68,0x001b25a4,
++0xe6c,0x63db25a4,
++0xe70,0x63db25a4,
++0xe74,0x0c1b25a4,
++0xe78,0x0c1b25a4,
++0xe7c,0x0c1b25a4,
++0xe80,0x0c1b25a4,
++0xe84,0x63db25a4,
++0xe88,0x0c1b25a4,
++0xe8c,0x63db25a4,
++0xed0,0x63db25a4,
++0xed4,0x63db25a4,
++0xed8,0x63db25a4,
++0xedc,0x001b25a4,
++0xee0,0x001b25a4,
++0xeec,0x6fdb25a4,
++0xf14,0x00000003,
++0xf4c,0x00000000,
++0xf00,0x00000300,
++};
++
++u32 Rtl8192CUPHY_REG_1TArray[PHY_REG_1TArrayLength] = {
++0x024,0x0011800f,
++0x028,0x00ffdb83,
++0x800,0x80040000,
++0x804,0x00000001,
++0x808,0x0000fc00,
++0x80c,0x0000000a,
++0x810,0x10000330, //for Broadcom AP IOT
++0x814,0x020c3d10,
++0x818,0x02200385,
++0x81c,0x00000000,
++0x820,0x01000100,
++0x824,0x00390004,
++0x828,0x00000000,
++0x82c,0x00000000,
++0x830,0x00000000,
++0x834,0x00000000,
++0x838,0x00000000,
++0x83c,0x00000000,
++0x840,0x00010000,
++0x844,0x00000000,
++0x848,0x00000000,
++0x84c,0x00000000,
++0x850,0x00000000,
++0x854,0x00000000,
++0x858,0x569a569a,
++0x85c,0x001b25a4,
++0x860,0x66e60230,
++0x864,0x061f0130,
++0x868,0x00000000,
++0x86c,0x32323200,
++0x870,0x07000700,
++0x874,0x22004000,
++0x878,0x00000808,
++0x87c,0x00000000,
++0x880,0xc0083070,
++0x884,0x000004d5,
++0x888,0x00000000,
++0x88c,0xccc000c0,
++0x890,0x00000800,
++0x894,0xfffffffe,
++0x898,0x40302010,
++0x89c,0x00706050,
++0x900,0x00000000,
++0x904,0x00000023,
++0x908,0x00000000,
++0x90c,0x81121111,
++0xa00,0x00d047c8,
++0xa04,0x80ff000c,
++0xa08,0x8c838300,
++0xa0c,0x2e68120f,
++0xa10,0x9500bb78,
++0xa14,0x11144028,
++0xa18,0x00881117,
++0xa1c,0x89140f00,
++0xa20,0x1a1b0000,
++0xa24,0x090e1317,
++0xa28,0x00000204,
++0xa2c,0x00d30000,
++0xa70,0x101fbf00,
++0xa74,0x00000007,
++0xc00,0x48071d40,
++0xc04,0x03a05611,
++0xc08,0x000000e4,
++0xc0c,0x6c6c6c6c,
++0xc10,0x08800000,
++0xc14,0x40000100,
++0xc18,0x08800000,
++0xc1c,0x40000100,
++0xc20,0x00000000,
++0xc24,0x00000000,
++0xc28,0x00000000,
++0xc2c,0x00000000,
++0xc30,0x69e9ac44,
++0xc34,0x469652cf,
++0xc38,0x49795994,
++0xc3c,0x0a97971c,
++0xc40,0x1f7c403f,
++0xc44,0x000100b7,
++0xc48,0xec020107,
++0xc4c,0x007f037f,
++0xc50,0x69543420,
++0xc54,0x43bc0094,
++0xc58,0x69543420,
++0xc5c,0x433c0094,
++0xc60,0x00000000,
++0xc64,0x5116848b,
++0xc68,0x47c00bff,
++0xc6c,0x00000036,
++0xc70,0x2c7f000d,
++0xc74,0x018610db,
++0xc78,0x0000001f,
++0xc7c,0x00b91612,
++0xc80,0x40000100,
++0xc84,0x20f60000,
++0xc88,0x40000100,
++0xc8c,0x20200000,
++0xc90,0x00121820,
++0xc94,0x00000000,
++0xc98,0x00121820,
++0xc9c,0x00007f7f,
++0xca0,0x00000000,
++0xca4,0x00000080,
++0xca8,0x00000000,
++0xcac,0x00000000,
++0xcb0,0x00000000,
++0xcb4,0x00000000,
++0xcb8,0x00000000,
++0xcbc,0x28000000,
++0xcc0,0x00000000,
++0xcc4,0x00000000,
++0xcc8,0x00000000,
++0xccc,0x00000000,
++0xcd0,0x00000000,
++0xcd4,0x00000000,
++0xcd8,0x64b22427,
++0xcdc,0x00766932,
++0xce0,0x00222222,
++0xce4,0x00000000,
++0xce8,0x37644302,
++0xcec,0x2f97d40c,
++0xd00,0x00000740,
++0xd04,0x00020401,
++0xd08,0x0000907f,
++0xd0c,0x20010201,
++0xd10,0xa0633333,
++0xd14,0x3333bc43,
++0xd18,0x7a8f5b6b,
++0xd2c,0xcc979975,
++0xd30,0x00000000,
++0xd34,0x80608000,
++0xd38,0x00000000,
++0xd3c,0x00027293,
++0xd40,0x00000000,
++0xd44,0x00000000,
++0xd48,0x00000000,
++0xd4c,0x00000000,
++0xd50,0x6437140a,
++0xd54,0x00000000,
++0xd58,0x00000000,
++0xd5c,0x30032064,
++0xd60,0x4653de68,
++0xd64,0x04518a3c,
++0xd68,0x00002101,
++0xd6c,0x2a201c16,
++0xd70,0x1812362e,
++0xd74,0x322c2220,
++0xd78,0x000e3c24,
++0xe00,0x2a2a2a2a,
++0xe04,0x2a2a2a2a,
++0xe08,0x03902a2a,
++0xe10,0x2a2a2a2a,
++0xe14,0x2a2a2a2a,
++0xe18,0x2a2a2a2a,
++0xe1c,0x2a2a2a2a,
++0xe28,0x00000000,
++0xe30,0x1000dc1f,
++0xe34,0x10008c1f,
++0xe38,0x02140102,
++0xe3c,0x681604c2,
++0xe40,0x01007c00,
++0xe44,0x01004800,
++0xe48,0xfb000000,
++0xe4c,0x000028d1,
++0xe50,0x1000dc1f,
++0xe54,0x10008c1f,
++0xe58,0x02140102,
++0xe5c,0x28160d05,
++0xe60,0x00000008,
++0xe68,0x001b25a4,
++0xe6c,0x631b25a0,
++0xe70,0x631b25a0,
++0xe74,0x081b25a0,
++0xe78,0x081b25a0,
++0xe7c,0x081b25a0,
++0xe80,0x081b25a0,
++0xe84,0x631b25a0,
++0xe88,0x081b25a0,
++0xe8c,0x631b25a0,
++0xed0,0x631b25a0,
++0xed4,0x631b25a0,
++0xed8,0x631b25a0,
++0xedc,0x001b25a0,
++0xee0,0x001b25a0,
++0xeec,0x6b1b25a0,
++0xf14,0x00000003,
++0xf4c,0x00000000,
++0xf00,0x00000300,
++};
++
++u32 Rtl8192CUPHY_ChangeTo_1T1RArray[PHY_ChangeTo_1T1RArrayLength] = {
++0x0, };
++
++u32 Rtl8192CUPHY_ChangeTo_1T2RArray[PHY_ChangeTo_1T2RArrayLength] = {
++0x0, };
++
++u32 Rtl8192CUPHY_ChangeTo_2T2RArray[PHY_ChangeTo_2T2RArrayLength] = {
++0x0, };
++
++u32 Rtl8192CUPHY_REG_Array_PG[PHY_REG_Array_PGLength] = {
++0xe00,0xffffffff,0x07090c0c,
++0xe04,0xffffffff,0x01020405,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x0b0c0c0e,
++0xe14,0xffffffff,0x01030506,
++0xe18,0xffffffff,0x0b0c0d0e,
++0xe1c,0xffffffff,0x01030509,
++0x830,0xffffffff,0x07090c0c,
++0x834,0xffffffff,0x01020405,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x0b0c0d0e,
++0x848,0xffffffff,0x01030509,
++0x84c,0xffffffff,0x0b0c0d0e,
++0x868,0xffffffff,0x01030509,
++0xe00,0xffffffff,0x00000000,
++0xe04,0xffffffff,0x00000000,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x00000000,
++0xe14,0xffffffff,0x00000000,
++0xe18,0xffffffff,0x00000000,
++0xe1c,0xffffffff,0x00000000,
++0x830,0xffffffff,0x00000000,
++0x834,0xffffffff,0x00000000,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x00000000,
++0x848,0xffffffff,0x00000000,
++0x84c,0xffffffff,0x00000000,
++0x868,0xffffffff,0x00000000,
++0xe00,0xffffffff,0x04040404,
++0xe04,0xffffffff,0x00020204,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x06060606,
++0xe14,0xffffffff,0x00020406,
++0xe18,0xffffffff,0x00000000,
++0xe1c,0xffffffff,0x00000000,
++0x830,0xffffffff,0x04040404,
++0x834,0xffffffff,0x00020204,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x06060606,
++0x848,0xffffffff,0x00020406,
++0x84c,0xffffffff,0x00000000,
++0x868,0xffffffff,0x00000000,
++0xe00,0xffffffff,0x00000000,
++0xe04,0xffffffff,0x00000000,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x00000000,
++0xe14,0xffffffff,0x00000000,
++0xe18,0xffffffff,0x00000000,
++0xe1c,0xffffffff,0x00000000,
++0x830,0xffffffff,0x00000000,
++0x834,0xffffffff,0x00000000,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x00000000,
++0x848,0xffffffff,0x00000000,
++0x84c,0xffffffff,0x00000000,
++0x868,0xffffffff,0x00000000,
++0xe00,0xffffffff,0x00000000,
++0xe04,0xffffffff,0x00000000,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x00000000,
++0xe14,0xffffffff,0x00000000,
++0xe18,0xffffffff,0x00000000,
++0xe1c,0xffffffff,0x00000000,
++0x830,0xffffffff,0x00000000,
++0x834,0xffffffff,0x00000000,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x00000000,
++0x848,0xffffffff,0x00000000,
++0x84c,0xffffffff,0x00000000,
++0x868,0xffffffff,0x00000000,
++0xe00,0xffffffff,0x04040404,
++0xe04,0xffffffff,0x00020204,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x00000000,
++0xe14,0xffffffff,0x00000000,
++0xe18,0xffffffff,0x00000000,
++0xe1c,0xffffffff,0x00000000,
++0x830,0xffffffff,0x04040404,
++0x834,0xffffffff,0x00020204,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x00000000,
++0x848,0xffffffff,0x00000000,
++0x84c,0xffffffff,0x00000000,
++0x868,0xffffffff,0x00000000,
++0xe00,0xffffffff,0x00000000,
++0xe04,0xffffffff,0x00000000,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x00000000,
++0xe14,0xffffffff,0x00000000,
++0xe18,0xffffffff,0x00000000,
++0xe1c,0xffffffff,0x00000000,
++0x830,0xffffffff,0x00000000,
++0x834,0xffffffff,0x00000000,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x00000000,
++0x848,0xffffffff,0x00000000,
++0x84c,0xffffffff,0x00000000,
++0x868,0xffffffff,0x00000000,
++};
++
++u32  Rtl8192CUPHY_REG_Array_PG_mCard[PHY_REG_Array_PG_mCardLength] = {
++0xe00,0xffffffff,0x0a0c0c0c,
++0xe04,0xffffffff,0x02040608,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x0a0c0d0e,
++0xe14,0xffffffff,0x02040608,
++0xe18,0xffffffff,0x0a0c0d0e,
++0xe1c,0xffffffff,0x02040608,
++0x830,0xffffffff,0x0a0c0c0c,
++0x834,0xffffffff,0x02040608,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x0a0c0d0e,
++0x848,0xffffffff,0x02040608,
++0x84c,0xffffffff,0x0a0c0d0e,
++0x868,0xffffffff,0x02040608,
++0xe00,0xffffffff,0x00000000,
++0xe04,0xffffffff,0x00000000,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x00000000,
++0xe14,0xffffffff,0x00000000,
++0xe18,0xffffffff,0x00000000,
++0xe1c,0xffffffff,0x00000000,
++0x830,0xffffffff,0x00000000,
++0x834,0xffffffff,0x00000000,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x00000000,
++0x848,0xffffffff,0x00000000,
++0x84c,0xffffffff,0x00000000,
++0x868,0xffffffff,0x00000000,
++0xe00,0xffffffff,0x04040404,
++0xe04,0xffffffff,0x00020204,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x06060606,
++0xe14,0xffffffff,0x00020406,
++0xe18,0xffffffff,0x00000000,
++0xe1c,0xffffffff,0x00000000,
++0x830,0xffffffff,0x04040404,
++0x834,0xffffffff,0x00020204,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x06060606,
++0x848,0xffffffff,0x00020406,
++0x84c,0xffffffff,0x00000000,
++0x868,0xffffffff,0x00000000,
++0xe00,0xffffffff,0x00000000,
++0xe04,0xffffffff,0x00000000,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x00000000,
++0xe14,0xffffffff,0x00000000,
++0xe18,0xffffffff,0x00000000,
++0xe1c,0xffffffff,0x00000000,
++0x830,0xffffffff,0x00000000,
++0x834,0xffffffff,0x00000000,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x00000000,
++0x848,0xffffffff,0x00000000,
++0x84c,0xffffffff,0x00000000,
++0x868,0xffffffff,0x00000000,
++0xe00,0xffffffff,0x00000000,
++0xe04,0xffffffff,0x00000000,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x00000000,
++0xe14,0xffffffff,0x00000000,
++0xe18,0xffffffff,0x00000000,
++0xe1c,0xffffffff,0x00000000,
++0x830,0xffffffff,0x00000000,
++0x834,0xffffffff,0x00000000,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x00000000,
++0x848,0xffffffff,0x00000000,
++0x84c,0xffffffff,0x00000000,
++0x868,0xffffffff,0x00000000,
++0xe00,0xffffffff,0x04040404,
++0xe04,0xffffffff,0x00020204,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x00000000,
++0xe14,0xffffffff,0x00000000,
++0xe18,0xffffffff,0x00000000,
++0xe1c,0xffffffff,0x00000000,
++0x830,0xffffffff,0x04040404,
++0x834,0xffffffff,0x00020204,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x00000000,
++0x848,0xffffffff,0x00000000,
++0x84c,0xffffffff,0x00000000,
++0x868,0xffffffff,0x00000000,
++0xe00,0xffffffff,0x00000000,
++0xe04,0xffffffff,0x00000000,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x00000000,
++0xe14,0xffffffff,0x00000000,
++0xe18,0xffffffff,0x00000000,
++0xe1c,0xffffffff,0x00000000,
++0x830,0xffffffff,0x00000000,
++0x834,0xffffffff,0x00000000,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x00000000,
++0x848,0xffffffff,0x00000000,
++0x84c,0xffffffff,0x00000000,
++0x868,0xffffffff,0x00000000,
++};
++
++u32 Rtl8192CUPHY_REG_Array_MP[PHY_REG_Array_MPLength] = {
++0xc30,0x69e9ac4a,
++0xc3c,0x0a979718,
++};
++
++u32 Rtl8192CUPHY_REG_1T_HPArray[PHY_REG_1T_HPArrayLength] = {
++0x024,0x0011800f,
++0x028,0x00ffdb83,
++0x040,0x000c0004,
++0x800,0x80040000,
++0x804,0x00000001,
++0x808,0x0000fc00,
++0x80c,0x0000000a,
++0x810,0x10000330, //for Broadcom AP IOT
++0x814,0x020c3d10,
++0x818,0x02200385,
++0x81c,0x00000000,
++0x820,0x01000100,
++0x824,0x00390204,
++0x828,0x00000000,
++0x82c,0x00000000,
++0x830,0x00000000,
++0x834,0x00000000,
++0x838,0x00000000,
++0x83c,0x00000000,
++0x840,0x00010000,
++0x844,0x00000000,
++0x848,0x00000000,
++0x84c,0x00000000,
++0x850,0x00000000,
++0x854,0x00000000,
++0x858,0x569a569a,
++0x85c,0x001b25a4,
++0x860,0x66e60230,
++0x864,0x061f0130,
++0x868,0x00000000,
++0x86c,0x20202000,
++0x870,0x03000300,
++0x874,0x22004000,
++0x878,0x00000808,
++0x87c,0x00ffc3f1,
++0x880,0xc0083070,
++0x884,0x000004d5,
++0x888,0x00000000,
++0x88c,0xccc000c0,
++0x890,0x00000800,
++0x894,0xfffffffe,
++0x898,0x40302010,
++0x89c,0x00706050,
++0x900,0x00000000,
++0x904,0x00000023,
++0x908,0x00000000,
++0x90c,0x81121111,
++0xa00,0x00d047c8,
++0xa04,0x80ff000c,
++0xa08,0x8c838300,
++0xa0c,0x2e68120f,
++0xa10,0x9500bb78,
++0xa14,0x11144028,
++0xa18,0x00881117,
++0xa1c,0x89140f00,
++0xa20,0x15160000,
++0xa24,0x070b0f12,
++0xa28,0x00000104,
++0xa2c,0x00d30000,
++0xa70,0x101fbf00,
++0xa74,0x00000007,
++0xc00,0x48071d40,
++0xc04,0x03a05611,
++0xc08,0x000000e4,
++0xc0c,0x6c6c6c6c,
++0xc10,0x08800000,
++0xc14,0x40000100,
++0xc18,0x08800000,
++0xc1c,0x40000100,
++0xc20,0x00000000,
++0xc24,0x00000000,
++0xc28,0x00000000,
++0xc2c,0x00000000,
++0xc30,0x69e9ac44,
++0xc34,0x469652cf,
++0xc38,0x49795994,
++0xc3c,0x0a97971c,
++0xc40,0x1f7c403f,
++0xc44,0x000100b7,
++0xc48,0xec020107,
++0xc4c,0x007f037f,
++0xc50,0x6954342e,
++0xc54,0x43bc0094,
++0xc58,0x6954342f,
++0xc5c,0x433c0094,
++0xc60,0x00000000,
++0xc64,0x5116848b,
++0xc68,0x47c00bff,
++0xc6c,0x00000036,
++0xc70,0x2c46000d,
++0xc74,0x018610db,
++0xc78,0x0000001f,
++0xc7c,0x00b91612,
++0xc80,0x24000090,
++0xc84,0x20f60000,
++0xc88,0x24000090,
++0xc8c,0x20200000,
++0xc90,0x00121820,
++0xc94,0x00000000,
++0xc98,0x00121820,
++0xc9c,0x00007f7f,
++0xca0,0x00000000,
++0xca4,0x00000080,
++0xca8,0x00000000,
++0xcac,0x00000000,
++0xcb0,0x00000000,
++0xcb4,0x00000000,
++0xcb8,0x00000000,
++0xcbc,0x28000000,
++0xcc0,0x00000000,
++0xcc4,0x00000000,
++0xcc8,0x00000000,
++0xccc,0x00000000,
++0xcd0,0x00000000,
++0xcd4,0x00000000,
++0xcd8,0x64b22427,
++0xcdc,0x00766932,
++0xce0,0x00222222,
++0xce4,0x00000000,
++0xce8,0x37644302,
++0xcec,0x2f97d40c,
++0xd00,0x00000740,
++0xd04,0x00020401,
++0xd08,0x0000907f,
++0xd0c,0x20010201,
++0xd10,0xa0633333,
++0xd14,0x3333bc43,
++0xd18,0x7a8f5b6b,
++0xd2c,0xcc979975,
++0xd30,0x00000000,
++0xd34,0x80608000,
++0xd38,0x00000000,
++0xd3c,0x00027293,
++0xd40,0x00000000,
++0xd44,0x00000000,
++0xd48,0x00000000,
++0xd4c,0x00000000,
++0xd50,0x6437140a,
++0xd54,0x00000000,
++0xd58,0x00000000,
++0xd5c,0x30032064,
++0xd60,0x4653de68,
++0xd64,0x04518a3c,
++0xd68,0x00002101,
++0xd6c,0x2a201c16,
++0xd70,0x1812362e,
++0xd74,0x322c2220,
++0xd78,0x000e3c24,
++0xe00,0x24242424,
++0xe04,0x24242424,
++0xe08,0x03902024,
++0xe10,0x24242424,
++0xe14,0x24242424,
++0xe18,0x24242424,
++0xe1c,0x24242424,
++0xe28,0x00000000,
++0xe30,0x1000dc1f,
++0xe34,0x10008c1f,
++0xe38,0x02140102,
++0xe3c,0x681604c2,
++0xe40,0x01007c00,
++0xe44,0x01004800,
++0xe48,0xfb000000,
++0xe4c,0x000028d1,
++0xe50,0x1000dc1f,
++0xe54,0x10008c1f,
++0xe58,0x02140102,
++0xe5c,0x28160d05,
++0xe60,0x00000008,
++0xe68,0x001b25a4,
++0xe6c,0x631b25a0,
++0xe70,0x631b25a0,
++0xe74,0x081b25a0,
++0xe78,0x081b25a0,
++0xe7c,0x081b25a0,
++0xe80,0x081b25a0,
++0xe84,0x631b25a0,
++0xe88,0x081b25a0,
++0xe8c,0x631b25a0,
++0xed0,0x631b25a0,
++0xed4,0x631b25a0,
++0xed8,0x631b25a0,
++0xedc,0x001b25a0,
++0xee0,0x001b25a0,
++0xeec,0x6b1b25a0,
++0xee8,0x31555448,
++0xf14,0x00000003,
++0xf4c,0x00000000,
++0xf00,0x00000300,
++};
++
++u32 Rtl8192CUPHY_REG_1T_mCardArray[PHY_REG_1T_mCardArrayLength] = {
++0x024,0x0011800d,
++0x028,0x00ffdb83,
++0x800,0x80040000,
++0x804,0x00000001,
++0x808,0x0000fc00,
++0x80c,0x0000000a,
++0x810,0x10000330, //for Broadcom AP IOT
++0x814,0x020c3d10,
++0x818,0x02200385,
++0x81c,0x00000000,
++0x820,0x01000100,
++0x824,0x00390004,
++0x828,0x00000000,
++0x82c,0x00000000,
++0x830,0x00000000,
++0x834,0x00000000,
++0x838,0x00000000,
++0x83c,0x00000000,
++0x840,0x00010000,
++0x844,0x00000000,
++0x848,0x00000000,
++0x84c,0x00000000,
++0x850,0x00000000,
++0x854,0x00000000,
++0x858,0x569a569a,
++0x85c,0x001b25a4,
++0x860,0x66e60230,
++0x864,0x061f0130,
++0x868,0x00000000,
++0x86c,0x32323200,
++0x870,0x07000700,
++0x874,0x22004000,
++0x878,0x00000808,
++0x87c,0x00000000,
++0x880,0xc0083070,
++0x884,0x000004d5,
++0x888,0x00000000,
++0x88c,0xccc000c0,
++0x890,0x00000800,
++0x894,0xfffffffe,
++0x898,0x40302010,
++0x89c,0x00706050,
++0x900,0x00000000,
++0x904,0x00000023,
++0x908,0x00000000,
++0x90c,0x81121111,
++0xa00,0x00d047c8,
++0xa04,0x80ff000c,
++0xa08,0x8c838300,
++0xa0c,0x2e68120f,
++0xa10,0x9500bb78,
++0xa14,0x11144028,
++0xa18,0x00881117,
++0xa1c,0x89140f00,
++0xa20,0x1a1b0000,
++0xa24,0x090e1317,
++0xa28,0x00000204,
++0xa2c,0x00d30000,
++0xa70,0x101fbf00,
++0xa74,0x00000007,
++0xc00,0x48071d40,
++0xc04,0x03a05611,
++0xc08,0x000000e4,
++0xc0c,0x6c6c6c6c,
++0xc10,0x08800000,
++0xc14,0x40000100,
++0xc18,0x08800000,
++0xc1c,0x40000100,
++0xc20,0x00000000,
++0xc24,0x00000000,
++0xc28,0x00000000,
++0xc2c,0x00000000,
++0xc30,0x69e9ac44,
++0xc34,0x469652cf,
++0xc38,0x49795994,
++0xc3c,0x0a97971c,
++0xc40,0x1f7c403f,
++0xc44,0x000100b7,
++0xc48,0xec020107,
++0xc4c,0x007f037f,
++0xc50,0x69543420,
++0xc54,0x43bc0094,
++0xc58,0x69543420,
++0xc5c,0x433c0094,
++0xc60,0x00000000,
++0xc64,0x5116848b,
++0xc68,0x47c00bff,
++0xc6c,0x00000036,
++0xc70,0x2c7f000d,
++0xc74,0x018610db,
++0xc78,0x0000001f,
++0xc7c,0x00b91612,
++0xc80,0x40000100,
++0xc84,0x20f60000,
++0xc88,0x40000100,
++0xc8c,0x20200000,
++0xc90,0x00121820,
++0xc94,0x00000000,
++0xc98,0x00121820,
++0xc9c,0x00007f7f,
++0xca0,0x00000000,
++0xca4,0x00000080,
++0xca8,0x00000000,
++0xcac,0x00000000,
++0xcb0,0x00000000,
++0xcb4,0x00000000,
++0xcb8,0x00000000,
++0xcbc,0x28000000,
++0xcc0,0x00000000,
++0xcc4,0x00000000,
++0xcc8,0x00000000,
++0xccc,0x00000000,
++0xcd0,0x00000000,
++0xcd4,0x00000000,
++0xcd8,0x64b22427,
++0xcdc,0x00766932,
++0xce0,0x00222222,
++0xce4,0x00000000,
++0xce8,0x37644302,
++0xcec,0x2f97d40c,
++0xd00,0x00000740,
++0xd04,0x00020401,
++0xd08,0x0000907f,
++0xd0c,0x20010201,
++0xd10,0xa0633333,
++0xd14,0x3333bc43,
++0xd18,0x7a8f5b6b,
++0xd2c,0xcc979975,
++0xd30,0x00000000,
++0xd34,0x80608000,
++0xd38,0x00000000,
++0xd3c,0x00027293,
++0xd40,0x00000000,
++0xd44,0x00000000,
++0xd48,0x00000000,
++0xd4c,0x00000000,
++0xd50,0x6437140a,
++0xd54,0x00000000,
++0xd58,0x00000000,
++0xd5c,0x30032064,
++0xd60,0x4653de68,
++0xd64,0x04518a3c,
++0xd68,0x00002101,
++0xd6c,0x2a201c16,
++0xd70,0x1812362e,
++0xd74,0x322c2220,
++0xd78,0x000e3c24,
++0xe00,0x2a2a2a2a,
++0xe04,0x2a2a2a2a,
++0xe08,0x03902a2a,
++0xe10,0x2a2a2a2a,
++0xe14,0x2a2a2a2a,
++0xe18,0x2a2a2a2a,
++0xe1c,0x2a2a2a2a,
++0xe28,0x00000000,
++0xe30,0x1000dc1f,
++0xe34,0x10008c1f,
++0xe38,0x02140102,
++0xe3c,0x681604c2,
++0xe40,0x01007c00,
++0xe44,0x01004800,
++0xe48,0xfb000000,
++0xe4c,0x000028d1,
++0xe50,0x1000dc1f,
++0xe54,0x10008c1f,
++0xe58,0x02140102,
++0xe5c,0x28160d05,
++0xe60,0x00000008,
++0xe68,0x001b25a4,
++0xe6c,0x631b25a0,
++0xe70,0x631b25a0,
++0xe74,0x081b25a0,
++0xe78,0x081b25a0,
++0xe7c,0x081b25a0,
++0xe80,0x081b25a0,
++0xe84,0x631b25a0,
++0xe88,0x081b25a0,
++0xe8c,0x631b25a0,
++0xed0,0x631b25a0,
++0xed4,0x631b25a0,
++0xed8,0x631b25a0,
++0xedc,0x001b25a0,
++0xee0,0x001b25a0,
++0xeec,0x6b1b25a0,
++0xf14,0x00000003,
++0xf4c,0x00000000,
++0xf00,0x00000300,
++};
++
++u32 Rtl8192CUPHY_REG_2T_mCardArray[PHY_REG_2T_mCardArrayLength] = {
++0x024,0x0011800d,
++0x028,0x00ffdb83,
++0x800,0x80040002,
++0x804,0x00000003,
++0x808,0x0000fc00,
++0x80c,0x0000000a,
++0x810,0x10000330, //for Broadcom AP IOT
++0x814,0x020c3d10,
++0x818,0x02200385,
++0x81c,0x00000000,
++0x820,0x01000100,
++0x824,0x00390004,
++0x828,0x01000100,
++0x82c,0x00390004,
++0x830,0x27272727,
++0x834,0x27272727,
++0x838,0x27272727,
++0x83c,0x27272727,
++0x840,0x00010000,
++0x844,0x00010000,
++0x848,0x27272727,
++0x84c,0x27272727,
++0x850,0x00000000,
++0x854,0x00000000,
++0x858,0x569a569a,
++0x85c,0x0c1b25a4,
++0x860,0x66e60230,
++0x864,0x061f0130,
++0x868,0x27272727,
++0x86c,0x2b2b2b27,
++0x870,0x07000700,
++0x874,0x22184000,
++0x878,0x08080808,
++0x87c,0x00000000,
++0x880,0xc0083070,
++0x884,0x000004d5,
++0x888,0x00000000,
++0x88c,0xcc0000c0,
++0x890,0x00000800,
++0x894,0xfffffffe,
++0x898,0x40302010,
++0x89c,0x00706050,
++0x900,0x00000000,
++0x904,0x00000023,
++0x908,0x00000000,
++0x90c,0x81121313,
++0xa00,0x00d047c8,
++0xa04,0x80ff000c,
++0xa08,0x8c838300,
++0xa0c,0x2e68120f,
++0xa10,0x9500bb78,
++0xa14,0x11144028,
++0xa18,0x00881117,
++0xa1c,0x89140f00,
++0xa20,0x1a1b0000,
++0xa24,0x090e1317,
++0xa28,0x00000204,
++0xa2c,0x00d30000,
++0xa70,0x101fbf00,
++0xa74,0x00000007,
++0xc00,0x48071d40,
++0xc04,0x03a05633,
++0xc08,0x000000e4,
++0xc0c,0x6c6c6c6c,
++0xc10,0x08800000,
++0xc14,0x40000100,
++0xc18,0x08800000,
++0xc1c,0x40000100,
++0xc20,0x00000000,
++0xc24,0x00000000,
++0xc28,0x00000000,
++0xc2c,0x00000000,
++0xc30,0x69e9ac44,
++0xc34,0x469652cf,
++0xc38,0x49795994,
++0xc3c,0x0a97971c,
++0xc40,0x1f7c403f,
++0xc44,0x000100b7,
++0xc48,0xec020107,
++0xc4c,0x007f037f,
++0xc50,0x69543420,
++0xc54,0x43bc0094,
++0xc58,0x69543420,
++0xc5c,0x433c0094,
++0xc60,0x00000000,
++0xc64,0x5116848b,
++0xc68,0x47c00bff,
++0xc6c,0x00000036,
++0xc70,0x2c7f000d,
++0xc74,0x218610db,
++0xc78,0x0000001f,
++0xc7c,0x00b91612,
++0xc80,0x40000100,
++0xc84,0x20f60000,
++0xc88,0x40000100,
++0xc8c,0xa0e40000,
++0xc90,0x00121820,
++0xc94,0x00000000,
++0xc98,0x00121820,
++0xc9c,0x00007f7f,
++0xca0,0x00000000,
++0xca4,0x00000080,
++0xca8,0x00000000,
++0xcac,0x00000000,
++0xcb0,0x00000000,
++0xcb4,0x00000000,
++0xcb8,0x00000000,
++0xcbc,0x28000000,
++0xcc0,0x00000000,
++0xcc4,0x00000000,
++0xcc8,0x00000000,
++0xccc,0x00000000,
++0xcd0,0x00000000,
++0xcd4,0x00000000,
++0xcd8,0x64b22427,
++0xcdc,0x00766932,
++0xce0,0x00222222,
++0xce4,0x00000000,
++0xce8,0x37644302,
++0xcec,0x2f97d40c,
++0xd00,0x00080740,
++0xd04,0x00020403,
++0xd08,0x0000907f,
++0xd0c,0x20010201,
++0xd10,0xa0633333,
++0xd14,0x3333bc43,
++0xd18,0x7a8f5b6b,
++0xd2c,0xcc979975,
++0xd30,0x00000000,
++0xd34,0x80608000,
++0xd38,0x00000000,
++0xd3c,0x00027293,
++0xd40,0x00000000,
++0xd44,0x00000000,
++0xd48,0x00000000,
++0xd4c,0x00000000,
++0xd50,0x6437140a,
++0xd54,0x00000000,
++0xd58,0x00000000,
++0xd5c,0x30032064,
++0xd60,0x4653de68,
++0xd64,0x04518a3c,
++0xd68,0x00002101,
++0xd6c,0x2a201c16,
++0xd70,0x1812362e,
++0xd74,0x322c2220,
++0xd78,0x000e3c24,
++0xe00,0x2a2a2a2a,
++0xe04,0x2a2a2a2a,
++0xe08,0x03902a2a,
++0xe10,0x2a2a2a2a,
++0xe14,0x2a2a2a2a,
++0xe18,0x2a2a2a2a,
++0xe1c,0x2a2a2a2a,
++0xe28,0x00000000,
++0xe30,0x1000dc1f,
++0xe34,0x10008c1f,
++0xe38,0x02140102,
++0xe3c,0x681604c2,
++0xe40,0x01007c00,
++0xe44,0x01004800,
++0xe48,0xfb000000,
++0xe4c,0x000028d1,
++0xe50,0x1000dc1f,
++0xe54,0x10008c1f,
++0xe58,0x02140102,
++0xe5c,0x28160d05,
++0xe60,0x00000010,
++0xe68,0x001b25a4,
++0xe6c,0x63db25a4,
++0xe70,0x63db25a4,
++0xe74,0x0c1b25a4,
++0xe78,0x0c1b25a4,
++0xe7c,0x0c1b25a4,
++0xe80,0x0c1b25a4,
++0xe84,0x63db25a4,
++0xe88,0x0c1b25a4,
++0xe8c,0x63db25a4,
++0xed0,0x63db25a4,
++0xed4,0x63db25a4,
++0xed8,0x63db25a4,
++0xedc,0x001b25a4,
++0xee0,0x001b25a4,
++0xeec,0x6fdb25a4,
++0xf14,0x00000003,
++0xf4c,0x00000000,
++0xf00,0x00000300,
++};
++
++u32 Rtl8192CUPHY_REG_Array_PG_HP[PHY_REG_Array_PG_HPLength] = {
++0xe00,0xffffffff,0x06080808,
++0xe04,0xffffffff,0x00040406,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x04060608,
++0xe14,0xffffffff,0x00020204,
++0xe18,0xffffffff,0x04060608,
++0xe1c,0xffffffff,0x00020204,
++0x830,0xffffffff,0x06080808,
++0x834,0xffffffff,0x00040406,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x04060608,
++0x848,0xffffffff,0x00020204,
++0x84c,0xffffffff,0x04060608,
++0x868,0xffffffff,0x00020204,
++0xe00,0xffffffff,0x00000000,
++0xe04,0xffffffff,0x00000000,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x00000000,
++0xe14,0xffffffff,0x00000000,
++0xe18,0xffffffff,0x00000000,
++0xe1c,0xffffffff,0x00000000,
++0x830,0xffffffff,0x00000000,
++0x834,0xffffffff,0x00000000,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x00000000,
++0x848,0xffffffff,0x00000000,
++0x84c,0xffffffff,0x00000000,
++0x868,0xffffffff,0x00000000,
++0xe00,0xffffffff,0x00000000,
++0xe04,0xffffffff,0x00000000,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x00000000,
++0xe14,0xffffffff,0x00000000,
++0xe18,0xffffffff,0x00000000,
++0xe1c,0xffffffff,0x00000000,
++0x830,0xffffffff,0x00000000,
++0x834,0xffffffff,0x00000000,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x00000000,
++0x848,0xffffffff,0x00000000,
++0x84c,0xffffffff,0x00000000,
++0x868,0xffffffff,0x00000000,
++0xe00,0xffffffff,0x00000000,
++0xe04,0xffffffff,0x00000000,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x00000000,
++0xe14,0xffffffff,0x00000000,
++0xe18,0xffffffff,0x00000000,
++0xe1c,0xffffffff,0x00000000,
++0x830,0xffffffff,0x00000000,
++0x834,0xffffffff,0x00000000,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x00000000,
++0x848,0xffffffff,0x00000000,
++0x84c,0xffffffff,0x00000000,
++0x868,0xffffffff,0x00000000,
++0xe00,0xffffffff,0x00000000,
++0xe04,0xffffffff,0x00000000,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x00000000,
++0xe14,0xffffffff,0x00000000,
++0xe18,0xffffffff,0x00000000,
++0xe1c,0xffffffff,0x00000000,
++0x830,0xffffffff,0x00000000,
++0x834,0xffffffff,0x00000000,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x00000000,
++0x848,0xffffffff,0x00000000,
++0x84c,0xffffffff,0x00000000,
++0x868,0xffffffff,0x00000000,
++0xe00,0xffffffff,0x00000000,
++0xe04,0xffffffff,0x00000000,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x00000000,
++0xe14,0xffffffff,0x00000000,
++0xe18,0xffffffff,0x00000000,
++0xe1c,0xffffffff,0x00000000,
++0x830,0xffffffff,0x00000000,
++0x834,0xffffffff,0x00000000,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x00000000,
++0x848,0xffffffff,0x00000000,
++0x84c,0xffffffff,0x00000000,
++0x868,0xffffffff,0x00000000,
++0xe00,0xffffffff,0x00000000,
++0xe04,0xffffffff,0x00000000,
++0xe08,0x0000ff00,0x00000000,
++0x86c,0xffffff00,0x00000000,
++0xe10,0xffffffff,0x00000000,
++0xe14,0xffffffff,0x00000000,
++0xe18,0xffffffff,0x00000000,
++0xe1c,0xffffffff,0x00000000,
++0x830,0xffffffff,0x00000000,
++0x834,0xffffffff,0x00000000,
++0x838,0xffffff00,0x00000000,
++0x86c,0x000000ff,0x00000000,
++0x83c,0xffffffff,0x00000000,
++0x848,0xffffffff,0x00000000,
++0x84c,0xffffffff,0x00000000,
++0x868,0xffffffff,0x00000000,
++};
++
++u32 Rtl8192CURadioA_2TArray[RadioA_2TArrayLength] = {
++0x000,0x00030159,
++0x001,0x00031284,
++0x002,0x00098000,
++0x003,0x00018c63,
++0x004,0x000210e7,
++0x009,0x0002044f,
++0x00a,0x0001adb1,
++0x00b,0x00054867,
++0x00c,0x0008992e,
++0x00d,0x0000e52c,
++0x00e,0x00039ce7,
++0x00f,0x00000451,
++0x019,0x00000000,
++0x01a,0x00010255,
++0x01b,0x00060a00,
++0x01c,0x000fc378,
++0x01d,0x000a1250,
++0x01e,0x0004445f,
++0x01f,0x00080001,
++0x020,0x0000b614,
++0x021,0x0006c000,
++0x022,0x00000000,
++0x023,0x00001558,
++0x024,0x00000060,
++0x025,0x00000483,
++0x026,0x0004f000,
++0x027,0x000ec7d9,
++0x028,0x000577c0,
++0x029,0x00004783,
++0x02a,0x00000001,
++0x02b,0x00021334,
++0x02a,0x00000000,
++0x02b,0x00000054,
++0x02a,0x00000001,
++0x02b,0x00000808,
++0x02b,0x00053333,
++0x02c,0x0000000c,
++0x02a,0x00000002,
++0x02b,0x00000808,
++0x02b,0x0005b333,
++0x02c,0x0000000d,
++0x02a,0x00000003,
++0x02b,0x00000808,
++0x02b,0x00063333,
++0x02c,0x0000000d,
++0x02a,0x00000004,
++0x02b,0x00000808,
++0x02b,0x0006b333,
++0x02c,0x0000000d,
++0x02a,0x00000005,
++0x02b,0x00000808,
++0x02b,0x00073333,
++0x02c,0x0000000d,
++0x02a,0x00000006,
++0x02b,0x00000709,
++0x02b,0x0005b333,
++0x02c,0x0000000d,
++0x02a,0x00000007,
++0x02b,0x00000709,
++0x02b,0x00063333,
++0x02c,0x0000000d,
++0x02a,0x00000008,
++0x02b,0x0000060a,
++0x02b,0x0004b333,
++0x02c,0x0000000d,
++0x02a,0x00000009,
++0x02b,0x0000060a,
++0x02b,0x00053333,
++0x02c,0x0000000d,
++0x02a,0x0000000a,
++0x02b,0x0000060a,
++0x02b,0x0005b333,
++0x02c,0x0000000d,
++0x02a,0x0000000b,
++0x02b,0x0000060a,
++0x02b,0x00063333,
++0x02c,0x0000000d,
++0x02a,0x0000000c,
++0x02b,0x0000060a,
++0x02b,0x0006b333,
++0x02c,0x0000000d,
++0x02a,0x0000000d,
++0x02b,0x0000060a,
++0x02b,0x00073333,
++0x02c,0x0000000d,
++0x02a,0x0000000e,
++0x02b,0x0000050b,
++0x02b,0x00066666,
++0x02c,0x0000001a,
++0x02a,0x000e0000,
++0x010,0x0004000f,
++0x011,0x000e31fc,
++0x010,0x0006000f,
++0x011,0x000ff9f8,
++0x010,0x0002000f,
++0x011,0x000203f9,
++0x010,0x0003000f,
++0x011,0x000ff500,
++0x010,0x00000000,
++0x011,0x00000000,
++0x010,0x0008000f,
++0x011,0x0003f100,
++0x010,0x0009000f,
++0x011,0x00023100,
++0x012,0x00032000,
++0x012,0x00071000,
++0x012,0x000b0000,
++0x012,0x000fc000,
++0x013,0x000287b3,
++0x013,0x000244b7,
++0x013,0x000204ab,
++0x013,0x0001c49f,
++0x013,0x00018493,
++0x013,0x0001429b,
++0x013,0x00010299,
++0x013,0x0000c29c,
++0x013,0x000081a0,
++0x013,0x000040ac,
++0x013,0x00000020,
++0x014,0x0001944c,
++0x014,0x00059444,
++0x014,0x0009944c,
++0x014,0x000d9444,
++0x015,0x0000f424,
++0x015,0x0004f424,
++0x015,0x0008f424,
++0x015,0x000cf424,
++0x016,0x000e0330,
++0x016,0x000a0330,
++0x016,0x00060330,
++0x016,0x00020330,
++0x000,0x00010159,
++0x018,0x0000f401,
++0x0fe,0x00000000,
++0x0fe,0x00000000,
++0x01f,0x00080003,
++0x0fe,0x00000000,
++0x0fe,0x00000000,
++0x01e,0x00044457,
++0x01f,0x00080000,
++0x000,0x00030159,
++};
++
++u32 Rtl8192CURadioB_2TArray[RadioB_2TArrayLength] = {
++0x000,0x00030159,
++0x001,0x00031284,
++0x002,0x00098000,
++0x003,0x00018c63,
++0x004,0x000210e7,
++0x009,0x0002044f,
++0x00a,0x0001adb1,
++0x00b,0x00054867,
++0x00c,0x0008992e,
++0x00d,0x0000e52c,
++0x00e,0x00039ce7,
++0x00f,0x00000451,
++0x012,0x00032000,
++0x012,0x00071000,
++0x012,0x000b0000,
++0x012,0x000fc000,
++0x013,0x000287af,
++0x013,0x000244b7,
++0x013,0x000204ab,
++0x013,0x0001c49f,
++0x013,0x00018493,
++0x013,0x00014297,
++0x013,0x00010295,
++0x013,0x0000c298,
++0x013,0x0000819c,
++0x013,0x000040a8,
++0x013,0x0000001c,
++0x014,0x0001944c,
++0x014,0x00059444,
++0x014,0x0009944c,
++0x014,0x000d9444,
++0x015,0x0000f424,
++0x015,0x0004f424,
++0x015,0x0008f424,
++0x015,0x000cf424,
++0x016,0x000e0330,
++0x016,0x000a0330,
++0x016,0x00060330,
++0x016,0x00020330,
++};
++
++u32 Rtl8192CURadioA_1TArray[RadioA_1TArrayLength] = {
++0x000,0x00030159,
++0x001,0x00031284,
++0x002,0x00098000,
++0x003,0x00018c63,
++0x004,0x000210e7,
++0x009,0x0002044f,
++0x00a,0x0001adb1,
++0x00b,0x00054867,
++0x00c,0x0008992e,
++0x00d,0x0000e52c,
++0x00e,0x00039ce7,
++0x00f,0x00000451,
++0x019,0x00000000,
++0x01a,0x00010255,
++0x01b,0x00060a00,
++0x01c,0x000fc378,
++0x01d,0x000a1250,
++0x01e,0x0004445f,
++0x01f,0x00080001,
++0x020,0x0000b614,
++0x021,0x0006c000,
++0x022,0x00000000,
++0x023,0x00001558,
++0x024,0x00000060,
++0x025,0x00000483,
++0x026,0x0004f000,
++0x027,0x000ec7d9,
++0x028,0x000577c0,
++0x029,0x00004783,
++0x02a,0x00000001,
++0x02b,0x00021334,
++0x02a,0x00000000,
++0x02b,0x00000054,
++0x02a,0x00000001,
++0x02b,0x00000808,
++0x02b,0x00053333,
++0x02c,0x0000000c,
++0x02a,0x00000002,
++0x02b,0x00000808,
++0x02b,0x0005b333,
++0x02c,0x0000000d,
++0x02a,0x00000003,
++0x02b,0x00000808,
++0x02b,0x00063333,
++0x02c,0x0000000d,
++0x02a,0x00000004,
++0x02b,0x00000808,
++0x02b,0x0006b333,
++0x02c,0x0000000d,
++0x02a,0x00000005,
++0x02b,0x00000808,
++0x02b,0x00073333,
++0x02c,0x0000000d,
++0x02a,0x00000006,
++0x02b,0x00000709,
++0x02b,0x0005b333,
++0x02c,0x0000000d,
++0x02a,0x00000007,
++0x02b,0x00000709,
++0x02b,0x00063333,
++0x02c,0x0000000d,
++0x02a,0x00000008,
++0x02b,0x0000060a,
++0x02b,0x0004b333,
++0x02c,0x0000000d,
++0x02a,0x00000009,
++0x02b,0x0000060a,
++0x02b,0x00053333,
++0x02c,0x0000000d,
++0x02a,0x0000000a,
++0x02b,0x0000060a,
++0x02b,0x0005b333,
++0x02c,0x0000000d,
++0x02a,0x0000000b,
++0x02b,0x0000060a,
++0x02b,0x00063333,
++0x02c,0x0000000d,
++0x02a,0x0000000c,
++0x02b,0x0000060a,
++0x02b,0x0006b333,
++0x02c,0x0000000d,
++0x02a,0x0000000d,
++0x02b,0x0000060a,
++0x02b,0x00073333,
++0x02c,0x0000000d,
++0x02a,0x0000000e,
++0x02b,0x0000050b,
++0x02b,0x00066666,
++0x02c,0x0000001a,
++0x02a,0x000e0000,
++0x010,0x0004000f,
++0x011,0x000e31fc,
++0x010,0x0006000f,
++0x011,0x000ff9f8,
++0x010,0x0002000f,
++0x011,0x000203f9,
++0x010,0x0003000f,
++0x011,0x000ff500,
++0x010,0x00000000,
++0x011,0x00000000,
++0x010,0x0008000f,
++0x011,0x0003f100,
++0x010,0x0009000f,
++0x011,0x00023100,
++0x012,0x00032000,
++0x012,0x00071000,
++0x012,0x000b0000,
++0x012,0x000fc000,
++0x013,0x000287b3,
++0x013,0x000244b7,
++0x013,0x000204ab,
++0x013,0x0001c49f,
++0x013,0x00018493,
++0x013,0x0001429b,
++0x013,0x00010299,
++0x013,0x0000c29c,
++0x013,0x000081a0,
++0x013,0x000040ac,
++0x013,0x00000020,
++0x014,0x0001944c,
++0x014,0x00059444,
++0x014,0x0009944c,
++0x014,0x000d9444,
++0x015,0x0000f405,
++0x015,0x0004f405,
++0x015,0x0008f405,
++0x015,0x000cf405,
++0x016,0x000e0330,
++0x016,0x000a0330,
++0x016,0x00060330,
++0x016,0x00020330,
++0x000,0x00010159,
++0x018,0x0000f401,
++0x0fe,0x00000000,
++0x0fe,0x00000000,
++0x01f,0x00080003,
++0x0fe,0x00000000,
++0x0fe,0x00000000,
++0x01e,0x00044457,
++0x01f,0x00080000,
++0x000,0x00030159,
++};
++
++u32 Rtl8192CURadioB_1TArray[RadioB_1TArrayLength] = {
++0x0, };
++
++
++u32 Rtl8192CURadioA_2T_mCardArray[RadioA_2T_mCardArrayLength] = {
++0x000,0x00030159,
++0x001,0x00031284,
++0x002,0x00098000,
++0x003,0x00018c63,
++0x004,0x000210e7,
++0x009,0x0002044f,
++0x00a,0x0001adb1,
++0x00b,0x00054867,
++0x00c,0x0008992e,
++0x00d,0x0000e52c,
++0x00e,0x00039ce7,
++0x00f,0x00000451,
++0x019,0x00000000,
++0x01a,0x00010255,
++0x01b,0x00060a00,
++0x01c,0x000fc378,
++0x01d,0x000a1250,
++0x01e,0x0004445f,
++0x01f,0x00080001,
++0x020,0x0000b614,
++0x021,0x0006c000,
++0x022,0x00000000,
++0x023,0x00001558,
++0x024,0x00000060,
++0x025,0x00000483,
++0x026,0x0004f000,
++0x027,0x000ec7d9,
++0x028,0x000577c0,
++0x029,0x00004783,
++0x02a,0x00000001,
++0x02b,0x00021334,
++0x02a,0x00000000,
++0x02b,0x00000054,
++0x02a,0x00000001,
++0x02b,0x00000808,
++0x02b,0x00053333,
++0x02c,0x0000000c,
++0x02a,0x00000002,
++0x02b,0x00000808,
++0x02b,0x0005b333,
++0x02c,0x0000000d,
++0x02a,0x00000003,
++0x02b,0x00000808,
++0x02b,0x00063333,
++0x02c,0x0000000d,
++0x02a,0x00000004,
++0x02b,0x00000808,
++0x02b,0x0006b333,
++0x02c,0x0000000d,
++0x02a,0x00000005,
++0x02b,0x00000808,
++0x02b,0x00073333,
++0x02c,0x0000000d,
++0x02a,0x00000006,
++0x02b,0x00000709,
++0x02b,0x0005b333,
++0x02c,0x0000000d,
++0x02a,0x00000007,
++0x02b,0x00000709,
++0x02b,0x00063333,
++0x02c,0x0000000d,
++0x02a,0x00000008,
++0x02b,0x0000060a,
++0x02b,0x0004b333,
++0x02c,0x0000000d,
++0x02a,0x00000009,
++0x02b,0x0000060a,
++0x02b,0x00053333,
++0x02c,0x0000000d,
++0x02a,0x0000000a,
++0x02b,0x0000060a,
++0x02b,0x0005b333,
++0x02c,0x0000000d,
++0x02a,0x0000000b,
++0x02b,0x0000060a,
++0x02b,0x00063333,
++0x02c,0x0000000d,
++0x02a,0x0000000c,
++0x02b,0x0000060a,
++0x02b,0x0006b333,
++0x02c,0x0000000d,
++0x02a,0x0000000d,
++0x02b,0x0000060a,
++0x02b,0x00073333,
++0x02c,0x0000000d,
++0x02a,0x0000000e,
++0x02b,0x0000050b,
++0x02b,0x00066666,
++0x02c,0x0000001a,
++0x02a,0x000e0000,
++0x010,0x0004000f,
++0x011,0x000e31fc,
++0x010,0x0006000f,
++0x011,0x000ff9f8,
++0x010,0x0002000f,
++0x011,0x000203f9,
++0x010,0x0003000f,
++0x011,0x000ff500,
++0x010,0x00000000,
++0x011,0x00000000,
++0x010,0x0008000f,
++0x011,0x0003f100,
++0x010,0x0009000f,
++0x011,0x00023100,
++0x012,0x00032000,
++0x012,0x00071000,
++0x012,0x000b0000,
++0x012,0x000fc000,
++0x013,0x000287b3,
++0x013,0x000244b7,
++0x013,0x000204ab,
++0x013,0x0001c49f,
++0x013,0x00018493,
++0x013,0x0001429b,
++0x013,0x00010299,
++0x013,0x0000c29c,
++0x013,0x000081a0,
++0x013,0x000040ac,
++0x013,0x00000020,
++0x014,0x0001944c,
++0x014,0x00059444,
++0x014,0x0009944c,
++0x014,0x000d9444,
++0x015,0x0000f424,
++0x015,0x0004f424,
++0x015,0x0008f424,
++0x015,0x000cf424,
++0x016,0x000e0330,
++0x016,0x000a0330,
++0x016,0x00060330,
++0x016,0x00020330,
++0x000,0x00010159,
++0x018,0x0000f401,
++0x0fe,0x00000000,
++0x0fe,0x00000000,
++0x01f,0x00080003,
++0x0fe,0x00000000,
++0x0fe,0x00000000,
++0x01e,0x00044457,
++0x01f,0x00080000,
++0x000,0x00030159,
++};
++
++u32 Rtl8192CURadioB_2T_mCardArray[RadioB_2T_mCardArrayLength] = {
++0x000,0x00030159,
++0x001,0x00031284,
++0x002,0x00098000,
++0x003,0x00018c63,
++0x004,0x000210e7,
++0x009,0x0002044f,
++0x00a,0x0001adb1,
++0x00b,0x00054867,
++0x00c,0x0008992e,
++0x00d,0x0000e52c,
++0x00e,0x00039ce7,
++0x00f,0x00000451,
++0x012,0x00032000,
++0x012,0x00071000,
++0x012,0x000b0000,
++0x012,0x000fc000,
++0x013,0x000287af,
++0x013,0x000244b7,
++0x013,0x000204ab,
++0x013,0x0001c49f,
++0x013,0x00018493,
++0x013,0x00014297,
++0x013,0x00010295,
++0x013,0x0000c298,
++0x013,0x0000819c,
++0x013,0x000040a8,
++0x013,0x0000001c,
++0x014,0x0001944c,
++0x014,0x00059444,
++0x014,0x0009944c,
++0x014,0x000d9444,
++0x015,0x0000f424,
++0x015,0x0004f424,
++0x015,0x0008f424,
++0x015,0x000cf424,
++0x016,0x000e0330,
++0x016,0x000a0330,
++0x016,0x00060330,
++0x016,0x00020330,
++};
++
++u32 Rtl8192CURadioA_1T_mCardArray[RadioA_1T_mCardArrayLength] = {
++0x000,0x00030159,
++0x001,0x00031284,
++0x002,0x00098000,
++0x003,0x00018c63,
++0x004,0x000210e7,
++0x009,0x0002044f,
++0x00a,0x0001adb1,
++0x00b,0x00054867,
++0x00c,0x0008992e,
++0x00d,0x0000e52c,
++0x00e,0x00039ce7,
++0x00f,0x00000451,
++0x019,0x00000000,
++0x01a,0x00010255,
++0x01b,0x00060a00,
++0x01c,0x000fc378,
++0x01d,0x000a1250,
++0x01e,0x0004445f,
++0x01f,0x00080001,
++0x020,0x0000b614,
++0x021,0x0006c000,
++0x022,0x00000000,
++0x023,0x00001558,
++0x024,0x00000060,
++0x025,0x00000483,
++0x026,0x0004f200,
++0x027,0x000ec7d9,
++0x028,0x000577c0,
++0x029,0x00004783,
++0x02a,0x00000001,
++0x02b,0x00021334,
++0x02a,0x00000000,
++0x02b,0x00000054,
++0x02a,0x00000001,
++0x02b,0x00000808,
++0x02b,0x00053333,
++0x02c,0x0000000c,
++0x02a,0x00000002,
++0x02b,0x00000808,
++0x02b,0x0005b333,
++0x02c,0x0000000d,
++0x02a,0x00000003,
++0x02b,0x00000808,
++0x02b,0x00063333,
++0x02c,0x0000000d,
++0x02a,0x00000004,
++0x02b,0x00000808,
++0x02b,0x0006b333,
++0x02c,0x0000000d,
++0x02a,0x00000005,
++0x02b,0x00000808,
++0x02b,0x00073333,
++0x02c,0x0000000d,
++0x02a,0x00000006,
++0x02b,0x00000709,
++0x02b,0x0005b333,
++0x02c,0x0000000d,
++0x02a,0x00000007,
++0x02b,0x00000709,
++0x02b,0x00063333,
++0x02c,0x0000000d,
++0x02a,0x00000008,
++0x02b,0x0000060a,
++0x02b,0x0004b333,
++0x02c,0x0000000d,
++0x02a,0x00000009,
++0x02b,0x0000060a,
++0x02b,0x00053333,
++0x02c,0x0000000d,
++0x02a,0x0000000a,
++0x02b,0x0000060a,
++0x02b,0x0005b333,
++0x02c,0x0000000d,
++0x02a,0x0000000b,
++0x02b,0x0000060a,
++0x02b,0x00063333,
++0x02c,0x0000000d,
++0x02a,0x0000000c,
++0x02b,0x0000060a,
++0x02b,0x0006b333,
++0x02c,0x0000000d,
++0x02a,0x0000000d,
++0x02b,0x0000060a,
++0x02b,0x00073333,
++0x02c,0x0000000d,
++0x02a,0x0000000e,
++0x02b,0x0000050b,
++0x02b,0x00066666,
++0x02c,0x0000001a,
++0x02a,0x000e0000,
++0x010,0x0004000f,
++0x011,0x000e31fc,
++0x010,0x0006000f,
++0x011,0x000ff9f8,
++0x010,0x0002000f,
++0x011,0x000203f9,
++0x010,0x0003000f,
++0x011,0x000ff500,
++0x010,0x00000000,
++0x011,0x00000000,
++0x010,0x0008000f,
++0x011,0x0003f100,
++0x010,0x0009000f,
++0x011,0x00023100,
++0x012,0x00032000,
++0x012,0x00071000,
++0x012,0x000b0000,
++0x012,0x000fc000,
++0x013,0x000287b3,
++0x013,0x000244b7,
++0x013,0x000204ab,
++0x013,0x0001c49f,
++0x013,0x00018493,
++0x013,0x0001429b,
++0x013,0x00010299,
++0x013,0x0000c29c,
++0x013,0x000081a0,
++0x013,0x000040ac,
++0x013,0x00000020,
++0x014,0x0001944c,
++0x014,0x00059444,
++0x014,0x0009944c,
++0x014,0x000d9444,
++0x015,0x0000f424,
++0x015,0x0004f424,
++0x015,0x0008f424,
++0x015,0x000cf424,
++0x016,0x000e0330,
++0x016,0x000a0330,
++0x016,0x00060330,
++0x016,0x00020330,
++0x000,0x00010159,
++0x018,0x0000f401,
++0x0fe,0x00000000,
++0x0fe,0x00000000,
++0x01f,0x00080003,
++0x0fe,0x00000000,
++0x0fe,0x00000000,
++0x01e,0x00044457,
++0x01f,0x00080000,
++0x000,0x00030159,
++};
++
++u32 Rtl8192CURadioB_1T_mCardArray[RadioB_1T_mCardArrayLength] = {
++0x0, };
++
++u32 Rtl8192CURadioA_1T_HPArray[RadioA_1T_HPArrayLength] = {
++0x000,0x00030159,
++0x001,0x00031284,
++0x002,0x00098000,
++0x003,0x00018c63,
++0x004,0x000210e7,
++0x009,0x0002044f,
++0x00a,0x0001adb0,
++0x00b,0x00054867,
++0x00c,0x0008992e,
++0x00d,0x0000e529,
++0x00e,0x00039ce7,
++0x00f,0x00000451,
++0x019,0x00000000,
++0x01a,0x00000255,
++0x01b,0x00060a00,
++0x01c,0x000fc378,
++0x01d,0x000a1250,
++0x01e,0x0004445f,
++0x01f,0x00080001,
++0x020,0x0000b614,
++0x021,0x0006c000,
++0x022,0x0000083c,
++0x023,0x00001558,
++0x024,0x00000060,
++0x025,0x00000483,
++0x026,0x0004f000,
++0x027,0x000ec7d9,
++0x028,0x000977c0,
++0x029,0x00004783,
++0x02a,0x00000001,
++0x02b,0x00021334,
++0x02a,0x00000000,
++0x02b,0x00000054,
++0x02a,0x00000001,
++0x02b,0x00000808,
++0x02b,0x00053333,
++0x02c,0x0000000c,
++0x02a,0x00000002,
++0x02b,0x00000808,
++0x02b,0x0005b333,
++0x02c,0x0000000d,
++0x02a,0x00000003,
++0x02b,0x00000808,
++0x02b,0x00063333,
++0x02c,0x0000000d,
++0x02a,0x00000004,
++0x02b,0x00000808,
++0x02b,0x0006b333,
++0x02c,0x0000000d,
++0x02a,0x00000005,
++0x02b,0x00000808,
++0x02b,0x00073333,
++0x02c,0x0000000d,
++0x02a,0x00000006,
++0x02b,0x00000709,
++0x02b,0x0005b333,
++0x02c,0x0000000d,
++0x02a,0x00000007,
++0x02b,0x00000709,
++0x02b,0x00063333,
++0x02c,0x0000000d,
++0x02a,0x00000008,
++0x02b,0x0000060a,
++0x02b,0x0004b333,
++0x02c,0x0000000d,
++0x02a,0x00000009,
++0x02b,0x0000060a,
++0x02b,0x00053333,
++0x02c,0x0000000d,
++0x02a,0x0000000a,
++0x02b,0x0000060a,
++0x02b,0x0005b333,
++0x02c,0x0000000d,
++0x02a,0x0000000b,
++0x02b,0x0000060a,
++0x02b,0x00063333,
++0x02c,0x0000000d,
++0x02a,0x0000000c,
++0x02b,0x0000060a,
++0x02b,0x0006b333,
++0x02c,0x0000000d,
++0x02a,0x0000000d,
++0x02b,0x0000060a,
++0x02b,0x00073333,
++0x02c,0x0000000d,
++0x02a,0x0000000e,
++0x02b,0x0000050b,
++0x02b,0x00066666,
++0x02c,0x0000001a,
++0x02a,0x000e0000,
++0x010,0x0004000f,
++0x011,0x000e31fc,
++0x010,0x0006000f,
++0x011,0x000ff9f8,
++0x010,0x0002000f,
++0x011,0x000203f9,
++0x010,0x0003000f,
++0x011,0x000ff500,
++0x010,0x00000000,
++0x011,0x00000000,
++0x010,0x0008000f,
++0x011,0x0003f100,
++0x010,0x0009000f,
++0x011,0x00023100,
++0x012,0x000d8000,
++0x012,0x00090000,
++0x012,0x00051000,
++0x012,0x00012000,
++0x013,0x00028fb4,
++0x013,0x00024fa8,
++0x013,0x000207a4,
++0x013,0x0001c3b0,
++0x013,0x000183a4,
++0x013,0x00014398,
++0x013,0x000101a4,
++0x013,0x0000c198,
++0x013,0x000080a4,
++0x013,0x00004098,
++0x013,0x00000000,
++0x014,0x0001944c,
++0x014,0x00059444,
++0x014,0x0009944c,
++0x014,0x000d9444,
++0x015,0x0000f405,
++0x015,0x0004f405,
++0x015,0x0008f405,
++0x015,0x000cf405,
++0x016,0x000e0330,
++0x016,0x000a0330,
++0x016,0x00060330,
++0x016,0x00020330,
++0x000,0x00010159,
++0x018,0x0000f401,
++0x0fe,0x00000000,
++0x0fe,0x00000000,
++0x01f,0x00080003,
++0x0fe,0x00000000,
++0x0fe,0x00000000,
++0x01e,0x00044457,
++0x01f,0x00080000,
++0x000,0x00030159,
++};
++
++u32 Rtl8192CURadioB_GM_Array[RadioB_GM_ArrayLength] = {
++0x0, };
++
++// MAC reg V14 - 2011-11-23
++u32 Rtl8192CUMAC_2T_Array[MAC_2T_ArrayLength] = {
++0x420,0x00000080,
++0x423,0x00000000,
++0x430,0x00000000,
++0x431,0x00000000,
++0x432,0x00000000,
++0x433,0x00000001,
++0x434,0x00000004,
++0x435,0x00000005,
++0x436,0x00000006,
++0x437,0x00000007,
++0x438,0x00000000,
++0x439,0x00000000,
++0x43a,0x00000000,
++0x43b,0x00000001,
++0x43c,0x00000004,
++0x43d,0x00000005,
++0x43e,0x00000006,
++0x43f,0x00000007,
++0x440,0x0000005d,
++0x441,0x00000001,
++0x442,0x00000000,
++0x444,0x00000015,
++0x445,0x000000f0,
++0x446,0x0000000f,
++0x447,0x00000000,
++0x458,0x00000041,
++0x459,0x000000a8,
++0x45a,0x00000072,
++0x45b,0x000000b9,
++0x460,0x00000066,
++0x461,0x00000066,
++0x462,0x00000008,
++0x463,0x00000003,
++0x4c8,0x000000ff,
++0x4c9,0x00000008,
++0x4cc,0x000000ff,
++0x4cd,0x000000ff,
++0x4ce,0x00000001,
++0x500,0x00000026,
++0x501,0x000000a2,
++0x502,0x0000002f,
++0x503,0x00000000,
++0x504,0x00000028,
++0x505,0x000000a3,
++0x506,0x0000005e,
++0x507,0x00000000,
++0x508,0x0000002b,
++0x509,0x000000a4,
++0x50a,0x0000005e,
++0x50b,0x00000000,
++0x50c,0x0000004f,
++0x50d,0x000000a4,
++0x50e,0x00000000,
++0x50f,0x00000000,
++0x512,0x0000001c,
++0x514,0x0000000a,
++0x515,0x00000010,
++0x516,0x0000000a,
++0x517,0x00000010,
++0x51a,0x00000016,
++0x524,0x0000000f,
++0x525,0x0000004f,
++0x546,0x00000040,
++0x547,0x00000000,
++0x550,0x00000010,
++0x551,0x00000010,
++0x559,0x00000002,
++0x55a,0x00000002,
++0x55d,0x000000ff,
++0x605,0x00000030,
++0x608,0x0000000e,
++0x609,0x0000002a,
++0x652,0x00000020,
++0x652,0x00000020,
++0x63c,0x00000008,
++0x63d,0x00000008,
++0x63e,0x0000000c,
++0x63f,0x0000000c,
++0x66e,0x00000005,
++0x700,0x00000021,
++0x701,0x00000043,
++0x702,0x00000065,
++0x703,0x00000087,
++0x708,0x00000021,
++0x709,0x00000043,
++0x70a,0x00000065,
++0x70b,0x00000087,
++};
++
++u32 Rtl8192CUMACPHY_Array_PG[MACPHY_Array_PGLength] = {
++0x0, };
++
++u32 Rtl8192CUAGCTAB_2TArray[AGCTAB_2TArrayLength] = {
++0xc78,0x7b000001,
++0xc78,0x7b010001,
++0xc78,0x7b020001,
++0xc78,0x7b030001,
++0xc78,0x7b040001,
++0xc78,0x7b050001,
++0xc78,0x7a060001,
++0xc78,0x79070001,
++0xc78,0x78080001,
++0xc78,0x77090001,
++0xc78,0x760a0001,
++0xc78,0x750b0001,
++0xc78,0x740c0001,
++0xc78,0x730d0001,
++0xc78,0x720e0001,
++0xc78,0x710f0001,
++0xc78,0x70100001,
++0xc78,0x6f110001,
++0xc78,0x6e120001,
++0xc78,0x6d130001,
++0xc78,0x6c140001,
++0xc78,0x6b150001,
++0xc78,0x6a160001,
++0xc78,0x69170001,
++0xc78,0x68180001,
++0xc78,0x67190001,
++0xc78,0x661a0001,
++0xc78,0x651b0001,
++0xc78,0x641c0001,
++0xc78,0x631d0001,
++0xc78,0x621e0001,
++0xc78,0x611f0001,
++0xc78,0x60200001,
++0xc78,0x49210001,
++0xc78,0x48220001,
++0xc78,0x47230001,
++0xc78,0x46240001,
++0xc78,0x45250001,
++0xc78,0x44260001,
++0xc78,0x43270001,
++0xc78,0x42280001,
++0xc78,0x41290001,
++0xc78,0x402a0001,
++0xc78,0x262b0001,
++0xc78,0x252c0001,
++0xc78,0x242d0001,
++0xc78,0x232e0001,
++0xc78,0x222f0001,
++0xc78,0x21300001,
++0xc78,0x20310001,
++0xc78,0x06320001,
++0xc78,0x05330001,
++0xc78,0x04340001,
++0xc78,0x03350001,
++0xc78,0x02360001,
++0xc78,0x01370001,
++0xc78,0x00380001,
++0xc78,0x00390001,
++0xc78,0x003a0001,
++0xc78,0x003b0001,
++0xc78,0x003c0001,
++0xc78,0x003d0001,
++0xc78,0x003e0001,
++0xc78,0x003f0001,
++0xc78,0x7b400001,
++0xc78,0x7b410001,
++0xc78,0x7b420001,
++0xc78,0x7b430001,
++0xc78,0x7b440001,
++0xc78,0x7b450001,
++0xc78,0x7a460001,
++0xc78,0x79470001,
++0xc78,0x78480001,
++0xc78,0x77490001,
++0xc78,0x764a0001,
++0xc78,0x754b0001,
++0xc78,0x744c0001,
++0xc78,0x734d0001,
++0xc78,0x724e0001,
++0xc78,0x714f0001,
++0xc78,0x70500001,
++0xc78,0x6f510001,
++0xc78,0x6e520001,
++0xc78,0x6d530001,
++0xc78,0x6c540001,
++0xc78,0x6b550001,
++0xc78,0x6a560001,
++0xc78,0x69570001,
++0xc78,0x68580001,
++0xc78,0x67590001,
++0xc78,0x665a0001,
++0xc78,0x655b0001,
++0xc78,0x645c0001,
++0xc78,0x635d0001,
++0xc78,0x625e0001,
++0xc78,0x615f0001,
++0xc78,0x60600001,
++0xc78,0x49610001,
++0xc78,0x48620001,
++0xc78,0x47630001,
++0xc78,0x46640001,
++0xc78,0x45650001,
++0xc78,0x44660001,
++0xc78,0x43670001,
++0xc78,0x42680001,
++0xc78,0x41690001,
++0xc78,0x406a0001,
++0xc78,0x266b0001,
++0xc78,0x256c0001,
++0xc78,0x246d0001,
++0xc78,0x236e0001,
++0xc78,0x226f0001,
++0xc78,0x21700001,
++0xc78,0x20710001,
++0xc78,0x06720001,
++0xc78,0x05730001,
++0xc78,0x04740001,
++0xc78,0x03750001,
++0xc78,0x02760001,
++0xc78,0x01770001,
++0xc78,0x00780001,
++0xc78,0x00790001,
++0xc78,0x007a0001,
++0xc78,0x007b0001,
++0xc78,0x007c0001,
++0xc78,0x007d0001,
++0xc78,0x007e0001,
++0xc78,0x007f0001,
++0xc78,0x3800001e,
++0xc78,0x3801001e,
++0xc78,0x3802001e,
++0xc78,0x3803001e,
++0xc78,0x3804001e,
++0xc78,0x3805001e,
++0xc78,0x3806001e,
++0xc78,0x3807001e,
++0xc78,0x3808001e,
++0xc78,0x3c09001e,
++0xc78,0x3e0a001e,
++0xc78,0x400b001e,
++0xc78,0x440c001e,
++0xc78,0x480d001e,
++0xc78,0x4c0e001e,
++0xc78,0x500f001e,
++0xc78,0x5210001e,
++0xc78,0x5611001e,
++0xc78,0x5a12001e,
++0xc78,0x5e13001e,
++0xc78,0x6014001e,
++0xc78,0x6015001e,
++0xc78,0x6016001e,
++0xc78,0x6217001e,
++0xc78,0x6218001e,
++0xc78,0x6219001e,
++0xc78,0x621a001e,
++0xc78,0x621b001e,
++0xc78,0x621c001e,
++0xc78,0x621d001e,
++0xc78,0x621e001e,
++0xc78,0x621f001e,
++};
++
++u32 Rtl8192CUAGCTAB_1TArray[AGCTAB_1TArrayLength] = {
++0xc78,0x7b000001,
++0xc78,0x7b010001,
++0xc78,0x7b020001,
++0xc78,0x7b030001,
++0xc78,0x7b040001,
++0xc78,0x7b050001,
++0xc78,0x7a060001,
++0xc78,0x79070001,
++0xc78,0x78080001,
++0xc78,0x77090001,
++0xc78,0x760a0001,
++0xc78,0x750b0001,
++0xc78,0x740c0001,
++0xc78,0x730d0001,
++0xc78,0x720e0001,
++0xc78,0x710f0001,
++0xc78,0x70100001,
++0xc78,0x6f110001,
++0xc78,0x6e120001,
++0xc78,0x6d130001,
++0xc78,0x6c140001,
++0xc78,0x6b150001,
++0xc78,0x6a160001,
++0xc78,0x69170001,
++0xc78,0x68180001,
++0xc78,0x67190001,
++0xc78,0x661a0001,
++0xc78,0x651b0001,
++0xc78,0x641c0001,
++0xc78,0x631d0001,
++0xc78,0x621e0001,
++0xc78,0x611f0001,
++0xc78,0x60200001,
++0xc78,0x49210001,
++0xc78,0x48220001,
++0xc78,0x47230001,
++0xc78,0x46240001,
++0xc78,0x45250001,
++0xc78,0x44260001,
++0xc78,0x43270001,
++0xc78,0x42280001,
++0xc78,0x41290001,
++0xc78,0x402a0001,
++0xc78,0x262b0001,
++0xc78,0x252c0001,
++0xc78,0x242d0001,
++0xc78,0x232e0001,
++0xc78,0x222f0001,
++0xc78,0x21300001,
++0xc78,0x20310001,
++0xc78,0x06320001,
++0xc78,0x05330001,
++0xc78,0x04340001,
++0xc78,0x03350001,
++0xc78,0x02360001,
++0xc78,0x01370001,
++0xc78,0x00380001,
++0xc78,0x00390001,
++0xc78,0x003a0001,
++0xc78,0x003b0001,
++0xc78,0x003c0001,
++0xc78,0x003d0001,
++0xc78,0x003e0001,
++0xc78,0x003f0001,
++0xc78,0x7b400001,
++0xc78,0x7b410001,
++0xc78,0x7b420001,
++0xc78,0x7b430001,
++0xc78,0x7b440001,
++0xc78,0x7b450001,
++0xc78,0x7a460001,
++0xc78,0x79470001,
++0xc78,0x78480001,
++0xc78,0x77490001,
++0xc78,0x764a0001,
++0xc78,0x754b0001,
++0xc78,0x744c0001,
++0xc78,0x734d0001,
++0xc78,0x724e0001,
++0xc78,0x714f0001,
++0xc78,0x70500001,
++0xc78,0x6f510001,
++0xc78,0x6e520001,
++0xc78,0x6d530001,
++0xc78,0x6c540001,
++0xc78,0x6b550001,
++0xc78,0x6a560001,
++0xc78,0x69570001,
++0xc78,0x68580001,
++0xc78,0x67590001,
++0xc78,0x665a0001,
++0xc78,0x655b0001,
++0xc78,0x645c0001,
++0xc78,0x635d0001,
++0xc78,0x625e0001,
++0xc78,0x615f0001,
++0xc78,0x60600001,
++0xc78,0x49610001,
++0xc78,0x48620001,
++0xc78,0x47630001,
++0xc78,0x46640001,
++0xc78,0x45650001,
++0xc78,0x44660001,
++0xc78,0x43670001,
++0xc78,0x42680001,
++0xc78,0x41690001,
++0xc78,0x406a0001,
++0xc78,0x266b0001,
++0xc78,0x256c0001,
++0xc78,0x246d0001,
++0xc78,0x236e0001,
++0xc78,0x226f0001,
++0xc78,0x21700001,
++0xc78,0x20710001,
++0xc78,0x06720001,
++0xc78,0x05730001,
++0xc78,0x04740001,
++0xc78,0x03750001,
++0xc78,0x02760001,
++0xc78,0x01770001,
++0xc78,0x00780001,
++0xc78,0x00790001,
++0xc78,0x007a0001,
++0xc78,0x007b0001,
++0xc78,0x007c0001,
++0xc78,0x007d0001,
++0xc78,0x007e0001,
++0xc78,0x007f0001,
++0xc78,0x3800001e,
++0xc78,0x3801001e,
++0xc78,0x3802001e,
++0xc78,0x3803001e,
++0xc78,0x3804001e,
++0xc78,0x3805001e,
++0xc78,0x3806001e,
++0xc78,0x3807001e,
++0xc78,0x3808001e,
++0xc78,0x3c09001e,
++0xc78,0x3e0a001e,
++0xc78,0x400b001e,
++0xc78,0x440c001e,
++0xc78,0x480d001e,
++0xc78,0x4c0e001e,
++0xc78,0x500f001e,
++0xc78,0x5210001e,
++0xc78,0x5611001e,
++0xc78,0x5a12001e,
++0xc78,0x5e13001e,
++0xc78,0x6014001e,
++0xc78,0x6015001e,
++0xc78,0x6016001e,
++0xc78,0x6217001e,
++0xc78,0x6218001e,
++0xc78,0x6219001e,
++0xc78,0x621a001e,
++0xc78,0x621b001e,
++0xc78,0x621c001e,
++0xc78,0x621d001e,
++0xc78,0x621e001e,
++0xc78,0x621f001e,
++};
++
++u32 Rtl8192CUAGCTAB_1T_HPArray[AGCTAB_1T_HPArrayLength] = {
++0xc78,0x7b000001,
++0xc78,0x7b010001,
++0xc78,0x7b020001,
++0xc78,0x7b030001,
++0xc78,0x7b040001,
++0xc78,0x7b050001,
++0xc78,0x7b060001,
++0xc78,0x7b070001,
++0xc78,0x7b080001,
++0xc78,0x7a090001,
++0xc78,0x790a0001,
++0xc78,0x780b0001,
++0xc78,0x770c0001,
++0xc78,0x760d0001,
++0xc78,0x750e0001,
++0xc78,0x740f0001,
++0xc78,0x73100001,
++0xc78,0x72110001,
++0xc78,0x71120001,
++0xc78,0x70130001,
++0xc78,0x6f140001,
++0xc78,0x6e150001,
++0xc78,0x6d160001,
++0xc78,0x6c170001,
++0xc78,0x6b180001,
++0xc78,0x6a190001,
++0xc78,0x691a0001,
++0xc78,0x681b0001,
++0xc78,0x671c0001,
++0xc78,0x661d0001,
++0xc78,0x651e0001,
++0xc78,0x641f0001,
++0xc78,0x63200001,
++0xc78,0x62210001,
++0xc78,0x61220001,
++0xc78,0x60230001,
++0xc78,0x46240001,
++0xc78,0x45250001,
++0xc78,0x44260001,
++0xc78,0x43270001,
++0xc78,0x42280001,
++0xc78,0x41290001,
++0xc78,0x402a0001,
++0xc78,0x262b0001,
++0xc78,0x252c0001,
++0xc78,0x242d0001,
++0xc78,0x232e0001,
++0xc78,0x222f0001,
++0xc78,0x21300001,
++0xc78,0x20310001,
++0xc78,0x06320001,
++0xc78,0x05330001,
++0xc78,0x04340001,
++0xc78,0x03350001,
++0xc78,0x02360001,
++0xc78,0x01370001,
++0xc78,0x00380001,
++0xc78,0x00390001,
++0xc78,0x003a0001,
++0xc78,0x003b0001,
++0xc78,0x003c0001,
++0xc78,0x003d0001,
++0xc78,0x003e0001,
++0xc78,0x003f0001,
++0xc78,0x7b400001,
++0xc78,0x7b410001,
++0xc78,0x7b420001,
++0xc78,0x7b430001,
++0xc78,0x7b440001,
++0xc78,0x7b450001,
++0xc78,0x7b460001,
++0xc78,0x7b470001,
++0xc78,0x7b480001,
++0xc78,0x7a490001,
++0xc78,0x794a0001,
++0xc78,0x784b0001,
++0xc78,0x774c0001,
++0xc78,0x764d0001,
++0xc78,0x754e0001,
++0xc78,0x744f0001,
++0xc78,0x73500001,
++0xc78,0x72510001,
++0xc78,0x71520001,
++0xc78,0x70530001,
++0xc78,0x6f540001,
++0xc78,0x6e550001,
++0xc78,0x6d560001,
++0xc78,0x6c570001,
++0xc78,0x6b580001,
++0xc78,0x6a590001,
++0xc78,0x695a0001,
++0xc78,0x685b0001,
++0xc78,0x675c0001,
++0xc78,0x665d0001,
++0xc78,0x655e0001,
++0xc78,0x645f0001,
++0xc78,0x63600001,
++0xc78,0x62610001,
++0xc78,0x61620001,
++0xc78,0x60630001,
++0xc78,0x46640001,
++0xc78,0x45650001,
++0xc78,0x44660001,
++0xc78,0x43670001,
++0xc78,0x42680001,
++0xc78,0x41690001,
++0xc78,0x406a0001,
++0xc78,0x266b0001,
++0xc78,0x256c0001,
++0xc78,0x246d0001,
++0xc78,0x236e0001,
++0xc78,0x226f0001,
++0xc78,0x21700001,
++0xc78,0x20710001,
++0xc78,0x06720001,
++0xc78,0x05730001,
++0xc78,0x04740001,
++0xc78,0x03750001,
++0xc78,0x02760001,
++0xc78,0x01770001,
++0xc78,0x00780001,
++0xc78,0x00790001,
++0xc78,0x007a0001,
++0xc78,0x007b0001,
++0xc78,0x007c0001,
++0xc78,0x007d0001,
++0xc78,0x007e0001,
++0xc78,0x007f0001,
++0xc78,0x3800001e,
++0xc78,0x3801001e,
++0xc78,0x3802001e,
++0xc78,0x3803001e,
++0xc78,0x3804001e,
++0xc78,0x3805001e,
++0xc78,0x3806001e,
++0xc78,0x3807001e,
++0xc78,0x3808001e,
++0xc78,0x3c09001e,
++0xc78,0x3e0a001e,
++0xc78,0x400b001e,
++0xc78,0x440c001e,
++0xc78,0x480d001e,
++0xc78,0x4c0e001e,
++0xc78,0x500f001e,
++0xc78,0x5210001e,
++0xc78,0x5611001e,
++0xc78,0x5a12001e,
++0xc78,0x5e13001e,
++0xc78,0x6014001e,
++0xc78,0x6015001e,
++0xc78,0x6016001e,
++0xc78,0x6217001e,
++0xc78,0x6218001e,
++0xc78,0x6219001e,
++0xc78,0x621a001e,
++0xc78,0x621b001e,
++0xc78,0x621c001e,
++0xc78,0x621d001e,
++0xc78,0x621e001e,
++0xc78,0x621f001e,
++};
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/Hal8192CUHWImg_wowlan.c b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/Hal8192CUHWImg_wowlan.c
+new file mode 100755
+index 0000000..66970f1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/Hal8192CUHWImg_wowlan.c
+@@ -0,0 +1,2564 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*Created on  2011/11/ 8, 14:15*/
++
++#include <basic_types.h>
++#include "Hal8192CUHWImg_wowlan.h"
++
++
++u8 Rtl8192CUFwTSMCWWImgArray[TSMCWWImgArrayLength] = {
++0xc1,0x88,0x02,0x00,0x51,0x00,0x00,0x00,0x03,0x23,0x16,0x43,0x72,0x34,0x00,0x00,
++0x58,0x92,0x01,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x02,0x43,0x9d,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x02,0x57,0xcb,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x02,0x5c,0xb6,0x00,0x00,0x00,0x00,0x00,0x02,0x5d,0x99,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0xbb,0x01,0x0c,0xe5,0x82,0x29,0xf5,0x82,0xe5,0x83,0x3a,0xf5,0x83,0xe0,0x22,0x50,
++0x06,0xe9,0x25,0x82,0xf8,0xe6,0x22,0xbb,0xfe,0x06,0xe9,0x25,0x82,0xf8,0xe2,0x22,
++0xe5,0x82,0x29,0xf5,0x82,0xe5,0x83,0x3a,0xf5,0x83,0xe4,0x93,0x22,0xbb,0x01,0x06,
++0x89,0x82,0x8a,0x83,0xf0,0x22,0x50,0x02,0xf7,0x22,0xbb,0xfe,0x01,0xf3,0x22,0xf8,
++0xbb,0x01,0x0d,0xe5,0x82,0x29,0xf5,0x82,0xe5,0x83,0x3a,0xf5,0x83,0xe8,0xf0,0x22,
++0x50,0x06,0xe9,0x25,0x82,0xc8,0xf6,0x22,0xbb,0xfe,0x05,0xe9,0x25,0x82,0xc8,0xf2,
++0x22,0xc5,0xf0,0xf8,0xa3,0xe0,0x28,0xf0,0xc5,0xf0,0xf8,0xe5,0x82,0x15,0x82,0x70,
++0x02,0x15,0x83,0xe0,0x38,0xf0,0x22,0xbb,0x01,0x10,0xe5,0x82,0x29,0xf5,0x82,0xe5,
++0x83,0x3a,0xf5,0x83,0xe0,0xf5,0xf0,0xa3,0xe0,0x22,0x50,0x09,0xe9,0x25,0x82,0xf8,
++0x86,0xf0,0x08,0xe6,0x22,0xbb,0xfe,0x0a,0xe9,0x25,0x82,0xf8,0xe2,0xf5,0xf0,0x08,
++0xe2,0x22,0xe5,0x83,0x2a,0xf5,0x83,0xe9,0x93,0xf5,0xf0,0xa3,0xe9,0x93,0x22,0xf8,
++0xbb,0x01,0x11,0xe5,0x82,0x29,0xf5,0x82,0xe5,0x83,0x3a,0xf5,0x83,0xe8,0xf0,0xe5,
++0xf0,0xa3,0xf0,0x22,0x50,0x09,0xe9,0x25,0x82,0xc8,0xf6,0x08,0xa6,0xf0,0x22,0xbb,
++0xfe,0x09,0xe9,0x25,0x82,0xc8,0xf2,0xe5,0xf0,0x08,0xf2,0x22,0xef,0x4b,0xff,0xee,
++0x4a,0xfe,0xed,0x49,0xfd,0xec,0x48,0xfc,0x22,0xe0,0xfc,0xa3,0xe0,0xfd,0xa3,0xe0,
++0xfe,0xa3,0xe0,0xff,0x22,0xa4,0x25,0x82,0xf5,0x82,0xe5,0xf0,0x35,0x83,0xf5,0x83,
++0x22,0xe0,0xfb,0xa3,0xe0,0xfa,0xa3,0xe0,0xf9,0x22,0xf8,0xe0,0xfb,0xa3,0xa3,0xe0,
++0xf9,0x25,0xf0,0xf0,0xe5,0x82,0x15,0x82,0x70,0x02,0x15,0x83,0xe0,0xfa,0x38,0xf0,
++0x22,0xeb,0xf0,0xa3,0xea,0xf0,0xa3,0xe9,0xf0,0x22,0xd0,0x83,0xd0,0x82,0xf8,0xe4,
++0x93,0x70,0x12,0x74,0x01,0x93,0x70,0x0d,0xa3,0xa3,0x93,0xf8,0x74,0x01,0x93,0xf5,
++0x82,0x88,0x83,0xe4,0x73,0x74,0x02,0x93,0x68,0x60,0xef,0xa3,0xa3,0xa3,0x80,0xdf,
++0xd0,0x83,0xd0,0x82,0xf8,0xe4,0x93,0x70,0x12,0x74,0x01,0x93,0x70,0x0d,0xa3,0xa3,
++0x93,0xf8,0x74,0x01,0x93,0xf5,0x82,0x88,0x83,0xe4,0x73,0x74,0x02,0x93,0xb5,0xf0,
++0x06,0x74,0x03,0x93,0x68,0x60,0xe9,0xa3,0xa3,0xa3,0xa3,0x80,0xd8,0x02,0x43,0xdb,
++0x02,0x50,0x2a,0xe4,0x93,0xa3,0xf8,0xe4,0x93,0xa3,0x40,0x03,0xf6,0x80,0x01,0xf2,
++0x08,0xdf,0xf4,0x80,0x29,0xe4,0x93,0xa3,0xf8,0x54,0x07,0x24,0x0c,0xc8,0xc3,0x33,
++0xc4,0x54,0x0f,0x44,0x20,0xc8,0x83,0x40,0x04,0xf4,0x56,0x80,0x01,0x46,0xf6,0xdf,
++0xe4,0x80,0x0b,0x01,0x02,0x04,0x08,0x10,0x20,0x40,0x80,0x90,0x44,0x20,0xe4,0x7e,
++0x01,0x93,0x60,0xbc,0xa3,0xff,0x54,0x3f,0x30,0xe5,0x09,0x54,0x1f,0xfe,0xe4,0x93,
++0xa3,0x60,0x01,0x0e,0xcf,0x54,0xc0,0x25,0xe0,0x60,0xa8,0x40,0xb8,0xe4,0x93,0xa3,
++0xfa,0xe4,0x93,0xa3,0xf8,0xe4,0x93,0xa3,0xc8,0xc5,0x82,0xc8,0xca,0xc5,0x83,0xca,
++0xf0,0xa3,0xc8,0xc5,0x82,0xc8,0xca,0xc5,0x83,0xca,0xdf,0xe9,0xde,0xe7,0x80,0xbe,
++0x41,0x91,0x40,0x00,0x41,0x91,0x9c,0x00,0x41,0x91,0x23,0x80,0x41,0x91,0x24,0x80,
++0x41,0x91,0x9e,0x00,0x41,0x91,0x52,0x00,0x41,0x91,0x93,0x00,0x41,0x91,0x91,0x00,
++0x41,0x91,0x90,0x00,0x41,0x91,0x92,0x00,0x00,0xf0,0x90,0x91,0x30,0xe0,0x90,0x91,
++0x67,0xf0,0xe4,0xfb,0xfd,0x7f,0x54,0x7e,0x01,0xd3,0x10,0xaf,0x01,0xc3,0xc0,0xd0,
++0x90,0x91,0x65,0xeb,0xf0,0xa3,0xe0,0xfb,0xa3,0xe0,0xf5,0x44,0xe4,0xf5,0x45,0x12,
++0x35,0xab,0xd0,0xd0,0x92,0xaf,0x22,0x90,0x01,0x5f,0xe4,0xf0,0x90,0x01,0x3c,0x74,
++0x08,0xf0,0xe4,0x90,0x91,0x66,0xf0,0x90,0x91,0x2d,0xe0,0x90,0x91,0x67,0xf0,0xe4,
++0xfb,0xfd,0x7f,0x5c,0x7e,0x01,0x91,0x59,0x90,0x01,0x5f,0x74,0x05,0xf0,0x90,0x06,
++0x92,0x74,0x02,0xf0,0x90,0x91,0x36,0x14,0xf0,0xe5,0x6e,0x54,0x0f,0xc3,0x94,0x0c,
++0x50,0x02,0xf1,0x23,0x22,0x90,0x02,0x84,0xef,0xf0,0xa3,0xee,0xf0,0xa3,0x74,0x05,
++0xf0,0x22,0x7d,0x01,0xaf,0x6f,0xe1,0x27,0xf1,0xe6,0xbf,0x01,0x10,0x90,0x91,0x42,
++0xe0,0xff,0xe4,0xfd,0x12,0x48,0x22,0x90,0x04,0x1f,0x74,0x20,0xf0,0x22,0x8f,0x82,
++0x8e,0x83,0xa3,0xa3,0xa3,0xe4,0xf0,0x22,0xe4,0xf5,0x72,0x7f,0x60,0x7e,0x01,0x80,
++0xed,0x7f,0x00,0x22,0x90,0x91,0x53,0xe0,0x54,0xfe,0xf0,0x02,0x50,0xd6,0x22,0xe4,
++0xf5,0x75,0x22,0x02,0x5f,0xe2,0x02,0x5f,0xe9,0xef,0x8e,0xf0,0x71,0x70,0x45,0x26,
++0x00,0x40,0x45,0x4e,0x00,0x80,0x45,0x79,0x01,0x00,0x45,0x8d,0x02,0x00,0x45,0xa5,
++0x04,0x00,0x00,0x00,0x45,0xc2,0xed,0x54,0x3f,0x70,0x04,0xfe,0xff,0x80,0x04,0x7e,
++0x00,0x7f,0x40,0xef,0x2d,0xff,0xee,0x3c,0xfe,0xef,0x78,0x06,0xce,0xc3,0x13,0xce,
++0x13,0xd8,0xf9,0x78,0x06,0xc3,0x33,0xce,0x33,0xce,0xd8,0xf9,0x80,0x26,0xed,0x54,
++0x7f,0x70,0x04,0xfe,0xff,0x80,0x04,0x7e,0x00,0x7f,0x80,0xef,0x2d,0xff,0xee,0x3c,
++0xfe,0xef,0x78,0x07,0xce,0xc3,0x13,0xce,0x13,0xd8,0xf9,0x78,0x07,0xc3,0x33,0xce,
++0x33,0xce,0xd8,0xf9,0xfd,0xac,0x06,0x80,0x49,0xed,0x70,0x04,0xfe,0xff,0x80,0x04,
++0x7e,0x01,0x7f,0x00,0xef,0x2d,0xee,0x3c,0x7d,0x00,0xfc,0x80,0x35,0xec,0x54,0x01,
++0x4d,0x70,0x04,0xfe,0xff,0x80,0x04,0x7e,0x02,0x7f,0x00,0xef,0x2d,0xee,0x3c,0xc3,
++0x13,0x7d,0x00,0x80,0x1a,0xec,0x54,0x03,0x4d,0x70,0x04,0xfe,0xff,0x80,0x04,0x7e,
++0x04,0x7f,0x00,0xef,0x2d,0xee,0x3c,0x13,0x13,0x54,0x3f,0x7d,0x00,0x25,0xe0,0x25,
++0xe0,0xfc,0xae,0x04,0xaf,0x05,0x22,0x90,0x91,0x09,0x12,0x2a,0x8b,0x00,0x00,0x00,
++0x00,0x90,0x06,0xa9,0xe0,0x90,0x91,0x08,0xf0,0xe0,0x54,0xc0,0x70,0x0a,0x53,0x71,
++0xfe,0x53,0x71,0xfd,0x91,0xc2,0x80,0x47,0x90,0x91,0x26,0xe0,0x60,0x41,0x90,0x91,
++0x38,0xe0,0x70,0x3b,0x90,0x91,0x38,0x74,0x01,0xf0,0x7f,0x00,0x7e,0x08,0x12,0x27,
++0xde,0x90,0x91,0x09,0x12,0x2a,0x7f,0x90,0x91,0x09,0x71,0x09,0xec,0x44,0x02,0xfc,
++0x90,0x91,0x09,0x12,0x2a,0x7f,0x90,0x91,0x09,0x71,0x09,0x90,0x80,0x85,0x12,0x2a,
++0x7f,0x7f,0x00,0x7e,0x08,0x12,0x2f,0xd9,0x90,0x02,0x86,0xe0,0x54,0xfb,0xf0,0x90,
++0x91,0x08,0xe0,0x30,0xe6,0x13,0x43,0x71,0x01,0x90,0x91,0x3b,0xe0,0x64,0x02,0x60,
++0x04,0x91,0xc8,0x80,0x07,0x91,0x77,0x80,0x03,0x53,0x71,0xfe,0x90,0x91,0x08,0xe0,
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++0x90,0x91,0x04,0xe0,0x90,0x05,0x85,0xf0,0x90,0x91,0x05,0xe0,0x90,0x05,0x86,0xf0,
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++0xc2,0xaf,0x90,0x01,0x3c,0xe0,0x44,0x20,0xf0,0x7d,0x20,0xe4,0xff,0x12,0x37,0x00,
++0x80,0x2b,0x90,0x90,0xf5,0xe0,0x70,0x2d,0x90,0x91,0x07,0x71,0xe4,0x90,0x00,0x46,
++0xe0,0x54,0xfe,0xfd,0x7f,0x46,0x71,0xee,0x90,0x05,0x22,0xe4,0xf0,0xa2,0xaf,0x33,
++0x90,0x91,0x1c,0xf0,0xc2,0xaf,0x7d,0x20,0xe4,0xff,0x12,0x36,0x92,0x90,0x91,0x1c,
++0xe0,0x24,0xff,0x92,0xaf,0x22,0x8b,0x0e,0x8a,0x0f,0x89,0x10,0x90,0x00,0x02,0x12,
++0x42,0x20,0x90,0x90,0xf6,0xf0,0xe0,0x30,0xe0,0x4b,0x90,0x90,0xed,0x74,0x01,0xf0,
++0x7f,0x80,0x7e,0x08,0x12,0x27,0xde,0x90,0x90,0xef,0x12,0x2a,0x7f,0xab,0x0e,0xaa,
++0x0f,0xa9,0x10,0x90,0x00,0x01,0x12,0x42,0x20,0xff,0xe4,0xfc,0xfd,0xfe,0x78,0x1a,
++0x12,0x2a,0x6c,0xa8,0x04,0xa9,0x05,0xaa,0x06,0xab,0x07,0x90,0x90,0xef,0x12,0x43,
++0x09,0xec,0x54,0x03,0xfc,0x12,0x42,0xfc,0x90,0x90,0xf9,0x12,0x2a,0x7f,0x90,0x05,
++0x22,0xe4,0xf0,0x80,0x2d,0xe4,0x90,0x90,0xed,0xf0,0x7f,0x80,0x7e,0x08,0x12,0x27,
++0xde,0xec,0x54,0x03,0xfc,0xec,0x44,0xc0,0xfc,0x90,0x90,0xef,0x12,0x2a,0x7f,0x90,
++0x90,0xef,0x12,0x43,0x09,0x90,0x80,0x85,0x12,0x2a,0x7f,0x7f,0x80,0x7e,0x08,0x12,
++0x2f,0xd9,0x90,0x90,0xf6,0xe0,0x30,0xe1,0x19,0x7d,0x0c,0x7f,0x47,0x71,0xee,0x90,
++0x00,0x48,0xe0,0x44,0x0c,0xfd,0x7f,0x48,0x71,0xee,0x90,0x00,0x46,0xe0,0x44,0x10,
++0x80,0x1c,0x90,0x00,0x47,0xe0,0x54,0xf3,0xfd,0x7f,0x47,0x71,0xee,0x90,0x00,0x48,
++0xe0,0x54,0xf3,0xfd,0x7f,0x48,0x71,0xee,0x90,0x00,0x46,0xe0,0x54,0xef,0xfd,0x7f,
++0x46,0x71,0xee,0xe4,0x90,0x90,0xf3,0xf0,0x22,0x90,0x01,0x3c,0x74,0xff,0xf0,0xa3,
++0xf0,0xa3,0xf0,0x90,0x01,0x34,0xf0,0xa3,0xf0,0xa3,0xf0,0xa3,0xf0,0xfd,0x7f,0x54,
++0x71,0xee,0x7d,0xff,0x7f,0x55,0x71,0xee,0x7d,0xff,0x7f,0x56,0x71,0xee,0x7d,0xff,
++0x7f,0x57,0x61,0xee,0x90,0x01,0x30,0xe4,0xf0,0xa3,0xf0,0xa3,0xf0,0xa3,0xf0,0x90,
++0x01,0x38,0xf0,0xa3,0xf0,0xa3,0xf0,0xa3,0xf0,0xfd,0x7f,0x50,0x71,0xee,0xe4,0xfd,
++0x7f,0x51,0x71,0xee,0xe4,0xfd,0x7f,0x52,0x71,0xee,0xe4,0xfd,0x7f,0x53,0x61,0xee,
++0xd3,0x10,0xaf,0x01,0xc3,0xc0,0xd0,0x90,0x91,0x22,0xed,0xf0,0x90,0x91,0x21,0xef,
++0xf0,0xd3,0x94,0x07,0x50,0x4e,0xa3,0xe0,0x70,0x1a,0x90,0x91,0x21,0xe0,0xff,0x74,
++0x01,0xa8,0x07,0x08,0x80,0x02,0xc3,0x33,0xd8,0xfc,0xf4,0xff,0x90,0x00,0x47,0xe0,
++0x5f,0xf0,0x80,0x17,0x90,0x91,0x21,0xe0,0xff,0x74,0x01,0xa8,0x07,0x08,0x80,0x02,
++0xc3,0x33,0xd8,0xfc,0xff,0x90,0x00,0x47,0xe0,0x4f,0xf0,0x51,0xe6,0x90,0x91,0x21,
++0xe0,0xff,0x74,0x01,0xa8,0x07,0x08,0x80,0x02,0xc3,0x33,0xd8,0xfc,0xf4,0xff,0x90,
++0x00,0x46,0x80,0x59,0x90,0x91,0x21,0xe0,0x24,0xf8,0xf0,0xa3,0xe0,0x70,0x1d,0x90,
++0x91,0x21,0xe0,0xff,0x74,0x01,0xa8,0x07,0x08,0x80,0x02,0xc3,0x33,0xd8,0xfc,0xc4,
++0x54,0xf0,0xf4,0xff,0x90,0x00,0x43,0xe0,0x5f,0xf0,0x80,0x1a,0x90,0x91,0x21,0xe0,
++0xff,0x74,0x01,0xa8,0x07,0x08,0x80,0x02,0xc3,0x33,0xd8,0xfc,0xc4,0x54,0xf0,0xff,
++0x90,0x00,0x43,0xe0,0x4f,0xf0,0x51,0xe6,0x90,0x91,0x21,0xe0,0xff,0x74,0x01,0xa8,
++0x07,0x08,0x80,0x02,0xc3,0x33,0xd8,0xfc,0xf4,0xff,0x90,0x00,0x43,0xe0,0x5f,0xf0,
++0x51,0xe6,0xd0,0xd0,0x92,0xaf,0x22,0x90,0x00,0x49,0xe0,0x90,0x91,0x9f,0xf0,0xe0,
++0x54,0x0f,0xf0,0x44,0xf0,0xfd,0x7f,0x49,0x71,0xee,0x90,0x91,0x9f,0xe0,0x44,0xb0,
++0xfd,0x7f,0x49,0x61,0xee,0x12,0x47,0xe6,0xbf,0x01,0x10,0x90,0x02,0x09,0xe0,0xff,
++0x7d,0x01,0x12,0x48,0x22,0x90,0x04,0x1f,0x74,0x20,0xf0,0x22,0x75,0x28,0x33,0xe4,
++0xf5,0x29,0x75,0x2a,0x07,0xf5,0x2b,0x90,0x01,0x30,0xe5,0x28,0xf0,0xa3,0xe5,0x29,
++0xf0,0xa3,0xe5,0x2a,0xf0,0xa3,0xe5,0x2b,0xf0,0x22,0xe4,0x90,0x91,0x0e,0xf0,0xa3,
++0xf0,0x75,0x8e,0x02,0xf1,0x25,0xd1,0xe8,0x90,0x91,0x4f,0xef,0xf0,0xf1,0x0b,0x90,
++0x91,0x51,0xef,0xf0,0xf1,0x60,0x90,0x91,0x3d,0xee,0xf0,0xa3,0xef,0xf0,0xe4,0xf5,
++0x57,0xf1,0x02,0x12,0x61,0xc4,0x12,0x32,0x3d,0x12,0x44,0xff,0x11,0x0c,0xf1,0x36,
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++0x91,0x10,0xe5,0xd9,0xf0,0x12,0x4e,0xb9,0xc2,0xaf,0x90,0x00,0x80,0xe0,0x44,0x40,
++0xf0,0x12,0x4a,0xe6,0x75,0xe8,0x03,0x43,0xa8,0x85,0xd2,0xaf,0x90,0x91,0x0e,0xe0,
++0x64,0x01,0xf0,0x24,0x2a,0x90,0x01,0xc4,0xf0,0x74,0x50,0xa3,0xf0,0xe5,0x57,0x30,
++0xe2,0x10,0x12,0x5f,0xf0,0xbf,0x01,0x0a,0xc2,0xaf,0x53,0x57,0xfb,0xd2,0xaf,0x12,
++0x71,0x97,0xe5,0x57,0x30,0xe4,0x0a,0xc2,0xaf,0x53,0x57,0xef,0xd2,0xaf,0x12,0x60,
++0x2d,0x90,0x90,0xf7,0xe0,0x70,0x03,0x12,0x70,0x74,0x11,0xe7,0x90,0x91,0x3f,0xe0,
++0x90,0x01,0xba,0xf0,0x80,0xb6,0xe4,0x90,0x91,0x55,0xf0,0x90,0x91,0x53,0xe0,0x54,
++0x7f,0xf0,0xa3,0x74,0x0a,0xf0,0x22,0x90,0x06,0x34,0xe0,0x60,0x25,0x14,0x70,0x1b,
++0x7b,0x01,0x7a,0x06,0x79,0x35,0x7f,0xf9,0x7e,0x01,0x12,0x67,0xe4,0xbf,0x01,0x09,
++0x90,0x06,0x35,0xe0,0x54,0x0f,0xf0,0x80,0x04,0x80,0x00,0xe1,0x17,0xe4,0x90,0x06,
++0x34,0xf0,0x22,0x90,0x91,0x56,0xe0,0x54,0xfe,0xf0,0xe0,0x54,0x7f,0xf0,0x90,0x01,
++0x17,0xe0,0xfe,0x90,0x01,0x16,0xe0,0x7c,0x00,0x24,0x00,0xff,0xec,0x3e,0x90,0x91,
++0x5c,0xf0,0xa3,0xef,0xf0,0x90,0x01,0x04,0xe0,0x54,0x0f,0x90,0x91,0x1c,0xf0,0xe0,
++0xff,0x74,0x40,0x7e,0x00,0xa8,0x07,0x08,0x80,0x05,0xc3,0x33,0xce,0x33,0xce,0xd8,
++0xf9,0x90,0x91,0x5b,0xf0,0xee,0x90,0x91,0x5a,0xf0,0x90,0x91,0x5e,0xe0,0x54,0xfe,
++0xf0,0xe0,0x54,0xfd,0xf0,0xe0,0x54,0xfb,0xf0,0xe0,0x54,0xf7,0xf0,0xe0,0x54,0xef,
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++0xa3,0xf0,0xa3,0xe0,0x54,0xfe,0xf0,0xe0,0x54,0xfd,0xf0,0xe0,0x54,0xf7,0xf0,0x22,
++0xd3,0x10,0xaf,0x01,0xc3,0xc0,0xd0,0x12,0x29,0xd9,0x54,0x01,0xff,0x90,0x91,0x56,
++0xe0,0x54,0xfe,0x4f,0xf0,0x90,0x00,0x01,0x12,0x42,0x20,0x90,0x91,0x57,0xf0,0x90,
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++0x90,0x06,0x09,0xe0,0x54,0xfe,0xf0,0x90,0x02,0x86,0xe0,0x44,0x04,0xf0,0x43,0x57,
++0x04,0x7d,0x08,0xe4,0xff,0x12,0x36,0xe6,0x80,0x12,0x7d,0x08,0xe4,0xff,0x12,0x36,
++0x75,0x90,0x02,0x86,0xe0,0x54,0xfb,0xf0,0x31,0xf1,0x31,0x13,0xd0,0xd0,0x92,0xaf,
++0x22,0x90,0x06,0x90,0xe4,0xf0,0x21,0x5a,0x90,0x91,0x19,0x12,0x43,0x41,0xef,0x12,
++0x43,0x4a,0x52,0x30,0x01,0x52,0x39,0x02,0x52,0x5b,0x03,0x52,0x64,0x09,0x52,0x6c,
++0x0c,0x52,0x75,0x0d,0x52,0x7d,0x0e,0x52,0x8e,0x1a,0x52,0x96,0x2c,0x52,0x41,0x2d,
++0x52,0x4a,0x2e,0x52,0x9e,0x30,0x52,0x53,0x3b,0x52,0x86,0x3c,0x00,0x00,0x52,0xa6,
++0x90,0x91,0x19,0x12,0x43,0x21,0x02,0x64,0x72,0x90,0x91,0x19,0x12,0x43,0x21,0xc1,
++0xf5,0x90,0x91,0x19,0x12,0x43,0x21,0x02,0x65,0x8d,0x90,0x91,0x19,0x12,0x43,0x21,
++0x02,0x65,0xd5,0x90,0x91,0x19,0x12,0x43,0x21,0xe1,0x4b,0x90,0x91,0x19,0x12,0x43,
++0x21,0x02,0x66,0x0e,0x90,0x91,0x19,0x12,0x43,0x21,0x80,0x42,0x90,0x91,0x19,0x12,
++0x43,0x21,0x02,0x4c,0xab,0x90,0x91,0x19,0x12,0x43,0x21,0xe1,0x98,0x90,0x91,0x19,
++0x12,0x43,0x21,0x02,0x4d,0xe6,0x90,0x91,0x19,0x12,0x43,0x21,0x21,0x90,0x90,0x91,
++0x19,0x12,0x43,0x21,0xa1,0x9b,0x90,0x91,0x19,0x12,0x43,0x21,0x81,0x7a,0x90,0x91,
++0x19,0x12,0x43,0x21,0xe1,0x78,0x90,0x01,0xc6,0xe0,0x44,0x01,0xf0,0x22,0xd3,0x10,
++0xaf,0x01,0xc3,0xc0,0xd0,0x90,0x91,0x1c,0x12,0x43,0x41,0x90,0x91,0x1c,0x12,0x43,
++0x21,0x90,0x00,0x01,0x12,0x42,0x97,0xfa,0xe5,0xf0,0x24,0x00,0xff,0xe4,0x3a,0xfe,
++0x90,0x91,0x1c,0x12,0x43,0x21,0x90,0x00,0x01,0xee,0x8f,0xf0,0x12,0x42,0xcf,0x12,
++0x29,0xd9,0xff,0x60,0x2c,0xb5,0x72,0x16,0x90,0x91,0x1c,0x12,0x43,0x21,0x90,0x00,
++0x01,0x12,0x42,0x97,0x65,0x74,0x70,0x04,0xe5,0x73,0x65,0xf0,0x60,0x23,0x90,0x91,
++0x1c,0x12,0x43,0x21,0x90,0x00,0x01,0x12,0x42,0x97,0xff,0xae,0xf0,0x71,0x26,0x80,
++0x10,0x90,0x91,0x1c,0x12,0x43,0x21,0x12,0x29,0xd9,0x65,0x72,0x60,0x03,0x12,0x44,
++0xe8,0xd0,0xd0,0x92,0xaf,0x22,0x90,0x91,0x1f,0xee,0xf0,0xa3,0xef,0xf0,0x75,0x72,
++0x01,0x8e,0x73,0xf5,0x74,0xe4,0xfd,0x7f,0x0b,0x12,0x4f,0x10,0xe4,0xfd,0x7f,0x02,
++0x12,0x4f,0x10,0x71,0x6a,0xe4,0xff,0x71,0xcc,0xe4,0xf5,0x76,0x90,0x01,0xc9,0xe5,
++0x76,0xf0,0x90,0x91,0x1f,0xe0,0xfc,0xa3,0xe0,0xfd,0xec,0xfb,0x8d,0x44,0xe4,0xf5,
++0x45,0x7d,0x01,0x7f,0x60,0x7e,0x01,0x02,0x35,0xab,0x7f,0x0b,0x71,0xd9,0xef,0x65,
++0x75,0x60,0x10,0xe5,0x75,0xb4,0x01,0x05,0xe4,0xf5,0x75,0x80,0x03,0x75,0x75,0x01,
++0x7f,0x01,0x22,0x7f,0x00,0x22,0xe5,0x72,0x64,0x01,0x70,0x3f,0x71,0x6a,0xbf,0x01,
++0x04,0x7f,0x01,0x71,0xcc,0x90,0x00,0x46,0xe0,0x44,0x04,0xfd,0x7f,0x46,0x12,0x4b,
++0xee,0x90,0x00,0x44,0xe0,0x54,0xfb,0xfd,0x7f,0x44,0x12,0x4b,0xee,0x90,0x00,0x46,
++0xe0,0x54,0xfb,0xfd,0x7f,0x46,0x12,0x4b,0xee,0x7f,0x02,0x71,0xd9,0x8f,0x76,0x90,
++0x01,0xc9,0xe5,0x76,0xf0,0xb4,0x01,0x03,0x12,0x4f,0xd7,0x22,0x90,0x01,0xca,0xe5,
++0x75,0xf0,0xef,0x60,0x03,0x12,0x4f,0xd7,0x22,0xd3,0x10,0xaf,0x01,0xc3,0xc0,0xd0,
++0x90,0x91,0xa0,0xef,0xf0,0xd3,0x94,0x07,0x50,0x47,0xe0,0xff,0x74,0x01,0xa8,0x07,
++0x08,0x80,0x02,0xc3,0x33,0xd8,0xfc,0xf4,0xff,0x90,0x00,0x46,0xe0,0x5f,0xf0,0x12,
++0x4a,0xe6,0x90,0x91,0xa0,0xe0,0xfd,0x74,0x01,0x7e,0x00,0xa8,0x05,0x08,0x80,0x05,
++0xc3,0x33,0xce,0x33,0xce,0xd8,0xf9,0xff,0x90,0x00,0x44,0xe0,0xfb,0xe4,0xfe,0xef,
++0x5b,0xa8,0x05,0x08,0x80,0x06,0xce,0xa2,0xe7,0x13,0xce,0x13,0xd8,0xf8,0xff,0x80,
++0x44,0x90,0x91,0xa0,0xe0,0x24,0xf8,0xf0,0xe0,0xff,0x74,0x01,0xa8,0x07,0x08,0x80,
++0x02,0xc3,0x33,0xd8,0xfc,0x12,0x4a,0xde,0x90,0x91,0xa0,0xe0,0xfd,0x74,0x01,0x7e,
++0x00,0xa8,0x05,0x08,0x80,0x05,0xc3,0x33,0xce,0x33,0xce,0xd8,0xf9,0xff,0x90,0x00,
++0x42,0xe0,0xfb,0xe4,0xfe,0xef,0x5b,0xa8,0x05,0x08,0x80,0x06,0xce,0xa2,0xe7,0x13,
++0xce,0x13,0xd8,0xf8,0xff,0xd0,0xd0,0x92,0xaf,0x22,0xd3,0x10,0xaf,0x01,0xc3,0xc0,
++0xd0,0xe4,0xf5,0x10,0x75,0x11,0x04,0xf5,0x12,0xf5,0x14,0xf5,0x15,0x90,0x02,0x09,
++0xe0,0xff,0x12,0x29,0xd9,0xfe,0xef,0x2e,0xf5,0x13,0x30,0xe0,0x08,0x75,0x0e,0x00,
++0x75,0x0f,0x80,0x80,0x05,0xe4,0xf5,0x0e,0xf5,0x0f,0xe5,0x13,0xc3,0x13,0x90,0xfd,
++0x10,0xf0,0x74,0x20,0x25,0x10,0xf5,0x10,0xad,0x0f,0xe5,0x10,0x2d,0xff,0x24,0x01,
++0xf5,0x82,0xe4,0x34,0xfc,0xf5,0x83,0xe0,0x90,0x91,0x47,0xf0,0x74,0x02,0x2f,0xf5,
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++0x34,0xfc,0xf5,0x83,0xe0,0x24,0x00,0xff,0xe4,0x3e,0x90,0x91,0x48,0xf0,0xa3,0xef,
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++0x83,0xe0,0xfe,0x74,0x46,0x2f,0xf5,0x82,0xe4,0x34,0x91,0xf5,0x83,0xee,0xf0,0x0f,
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++0xe5,0x15,0x94,0xe8,0xe5,0x14,0x94,0x03,0x40,0x09,0x90,0x01,0xc6,0xe0,0x44,0x10,
++0xf0,0x80,0x63,0x05,0x15,0xe5,0x15,0x70,0x02,0x05,0x14,0x7f,0x0a,0x7e,0x00,0x12,
++0x37,0x54,0x80,0xd5,0x90,0x01,0xc6,0xe0,0x90,0x01,0xc3,0x30,0xe2,0x05,0x74,0xfe,
++0xf0,0x80,0x43,0x74,0xff,0xf0,0x80,0x3e,0xe5,0x10,0xb4,0x78,0x23,0xe4,0xf5,0x10,
++0x05,0x13,0xe5,0x0f,0x64,0x80,0x45,0x0e,0x70,0x06,0xf5,0x0e,0xf5,0x0f,0x80,0x06,
++0x75,0x0e,0x00,0x75,0x0f,0x80,0xe5,0x13,0xc3,0x13,0x90,0xfd,0x10,0xf0,0x80,0x06,
++0x74,0x08,0x25,0x10,0xf5,0x10,0xe5,0x12,0x15,0x12,0x70,0x02,0x15,0x11,0xe5,0x12,
++0x45,0x11,0x60,0x02,0x81,0xb8,0xd0,0xd0,0x92,0xaf,0x22,0x90,0x91,0x1c,0x12,0x43,
++0x41,0x12,0x29,0xd9,0xff,0x54,0x01,0xfe,0x90,0x91,0x5e,0xe0,0x54,0xfe,0x4e,0xf0,
++0xef,0x54,0x04,0xff,0xe0,0x54,0xfb,0x4f,0xf0,0x12,0x29,0xd9,0xff,0x54,0x02,0xfe,
++0x90,0x91,0x5e,0xe0,0x54,0xfd,0x4e,0xf0,0xef,0x54,0x08,0xff,0xe0,0x54,0xf7,0x4f,
++0xf0,0x12,0x29,0xd9,0xff,0x54,0x10,0xfe,0x90,0x91,0x5e,0xe0,0x54,0xef,0x4e,0xf0,
++0xef,0x54,0x20,0xff,0xe0,0x54,0xdf,0x4f,0xf0,0x12,0x29,0xd9,0xff,0x54,0x40,0xfe,
++0x90,0x91,0x5e,0xe0,0x54,0xbf,0x4e,0xf0,0xef,0x54,0x80,0xff,0xe0,0x54,0x7f,0x4f,
++0xf0,0x90,0x00,0x02,0x12,0x42,0x20,0x90,0x91,0x60,0xf0,0x90,0x00,0x01,0x12,0x42,
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++0x91,0x61,0xe0,0x54,0xfe,0x4e,0xf0,0xef,0x54,0x02,0xff,0xe0,0x54,0xfd,0x4f,0xf0,
++0x90,0x00,0x03,0x12,0x42,0x20,0x54,0x04,0xff,0x90,0x91,0x61,0xe0,0x54,0xfb,0x4f,
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++0xc4,0x13,0x54,0x01,0x90,0x01,0xb9,0xf0,0x90,0x91,0x61,0xe0,0x54,0x01,0x90,0x01,
++0xba,0xf0,0xa3,0x74,0xff,0xf0,0x12,0x29,0xd9,0x20,0xe0,0x02,0x21,0xf1,0xe4,0xfd,
++0x7f,0x81,0x12,0x4b,0xee,0x90,0x91,0x1c,0x12,0x43,0x21,0x12,0x29,0xd9,0xff,0xc3,
++0x13,0x30,0xe0,0x07,0x90,0x06,0x90,0xe0,0x44,0x02,0xf0,0xef,0x13,0x13,0x54,0x3f,
++0x30,0xe0,0x07,0x90,0x06,0x90,0xe0,0x44,0x04,0xf0,0x12,0x29,0xd9,0x13,0x13,0x13,
++0x54,0x1f,0x30,0xe0,0x07,0x90,0x06,0x90,0xe0,0x44,0x08,0xf0,0x90,0x91,0x61,0xe0,
++0x30,0xe0,0x1c,0x90,0x91,0x5e,0xe0,0xc4,0x13,0x54,0x07,0x30,0xe0,0x07,0xa3,0xe0,
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++0x75,0x30,0x1f,0x75,0x31,0x01,0xe4,0xf5,0x32,0x90,0x01,0x38,0xe5,0x30,0xf0,0xa3,
++0xe5,0x31,0xf0,0xa3,0xe5,0x32,0xf0,0x22,0x90,0x00,0x02,0xe0,0x54,0xe0,0x7f,0x01,
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++0x74,0x10,0xf0,0x90,0x05,0x5a,0xf0,0xa3,0xe4,0xf0,0x22,0x12,0x29,0xd9,0x60,0x02,
++0x80,0x01,0xe4,0x90,0x91,0x31,0xf0,0x90,0x91,0x31,0xe0,0x90,0x01,0xe7,0xf0,0x22,
++0x90,0x91,0x51,0xe0,0xb4,0x01,0x0c,0x90,0x00,0xf2,0xe0,0x30,0xe7,0x05,0x7e,0xfd,
++0x7f,0x33,0x22,0x7e,0xfd,0x7f,0x2f,0x22,0x12,0x29,0xd9,0xff,0x54,0x01,0xfe,0x90,
++0x91,0x53,0xe0,0x54,0xfe,0x4e,0xf0,0xef,0xc3,0x13,0x30,0xe0,0x0a,0x90,0x00,0x01,
++0x12,0x42,0x20,0x90,0x91,0x54,0xf0,0x22,0x90,0x00,0x02,0x12,0x42,0x20,0x90,0x90,
++0xf7,0xf0,0xe0,0x60,0x04,0xe0,0xf4,0x70,0x21,0xa2,0xaf,0xe4,0x33,0xf5,0x0e,0xc2,
++0xaf,0x90,0x00,0x47,0xe0,0x54,0xfb,0xfd,0x7f,0x47,0x12,0x4b,0xee,0x7d,0x40,0x7f,
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++0x83,0xc0,0x82,0xc0,0xd0,0x75,0xd0,0x00,0xc0,0x00,0xc0,0x01,0xc0,0x02,0xc0,0x03,
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++0x74,0x01,0xf0,0x85,0xd9,0x54,0xe5,0x70,0x14,0x24,0xfd,0x50,0x02,0x80,0x48,0x90,
++0x91,0x3b,0xe0,0x60,0x3a,0x90,0x01,0x5b,0xe4,0xf0,0x90,0x01,0x3c,0x74,0x04,0xf0,
++0x51,0x30,0xef,0x64,0x01,0x70,0x30,0x90,0x91,0x66,0xf0,0x90,0x91,0x2d,0xe0,0x90,
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++0x74,0x05,0xf0,0x90,0x06,0x92,0x74,0x01,0xf0,0x90,0x91,0x37,0xf0,0x80,0x08,0x51,
++0x30,0xbf,0x01,0x03,0x12,0x44,0xc2,0xe5,0x2c,0x30,0xe1,0x20,0x90,0x01,0x34,0x74,
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++0x5c,0x85,0xd6,0x5d,0x85,0xd7,0x5e,0x85,0xd9,0x5f,0x71,0x5c,0xe5,0x2c,0x30,0xe3,
++0x10,0x90,0x01,0x34,0x74,0x08,0xf0,0x90,0x91,0x56,0xe0,0x30,0xe0,0x03,0x43,0x57,
++0x04,0xe5,0x2c,0x30,0xe4,0x09,0x90,0x01,0x34,0x74,0x10,0xf0,0x43,0x57,0x10,0xe5,
++0x2c,0x30,0xe5,0x26,0x90,0x01,0xcf,0xe0,0x30,0xe5,0x1f,0xe0,0x54,0xdf,0xf0,0x90,
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++0x03,0xe0,0x54,0xfb,0xf0,0x12,0x4a,0xe6,0x80,0xfe,0xe5,0x2c,0x30,0xe6,0x06,0x90,
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++0x90,0x01,0x36,0xf0,0x91,0x23,0x51,0x87,0x90,0x91,0x50,0xe4,0xf0,0xe5,0x2e,0x30,
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++0x91,0x40,0xe4,0xf0,0x80,0x18,0x90,0x91,0x40,0xe0,0x04,0xf0,0xe0,0xc3,0x94,0x0a,
++0x40,0x0c,0xe4,0xf0,0x90,0x04,0x19,0xe0,0x30,0xe0,0x03,0x12,0x4f,0xf5,0xe5,0x2e,
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++0x58,0x74,0x03,0xf0,0x51,0xd8,0x90,0x91,0x3f,0xe0,0x04,0xf0,0xe5,0x2e,0x30,0xe3,
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++0x37,0xe0,0x60,0x08,0x90,0x01,0xb9,0x74,0x02,0xf0,0x80,0x22,0x90,0x91,0x36,0xe0,
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++0x90,0x91,0x52,0xf0,0x90,0x91,0x55,0xe0,0xff,0x90,0x91,0x54,0xe0,0xb5,0x07,0x07,
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++0x27,0xe0,0x70,0x07,0x90,0x91,0x39,0xe0,0xff,0x80,0x05,0x90,0x91,0x27,0xe0,0xff,
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++0x42,0x22,0xd3,0x10,0xaf,0x01,0xc3,0xc0,0xd0,0xd0,0xd0,0x92,0xaf,0x22,0xe5,0x6e,
++0x30,0xe3,0x04,0xe4,0xff,0x80,0x02,0x7f,0x01,0x02,0x47,0xc9,0x90,0x91,0x08,0xe0,
++0x54,0xf0,0x44,0x03,0xf0,0x54,0x0f,0x44,0x80,0xf0,0x7b,0x00,0x7a,0x00,0x79,0x58,
++0x90,0x91,0x71,0x12,0x43,0x41,0x0b,0x7a,0x91,0x79,0x08,0x02,0x46,0xb7,0x90,0x91,
++0x80,0x12,0x2a,0x8b,0x00,0x00,0x00,0x00,0xe5,0x70,0x14,0x24,0xfd,0x50,0x02,0x80,
++0x21,0x90,0x91,0x3b,0xe0,0x60,0x06,0x7d,0x01,0x7f,0x0c,0x80,0x0d,0xe5,0x6e,0x54,
++0x0f,0xc3,0x94,0x04,0x50,0x07,0x7d,0x01,0x7f,0x04,0x12,0x47,0x27,0xe4,0xff,0x12,
++0x48,0xb3,0x22,0x51,0x30,0xef,0x64,0x01,0x60,0x08,0x90,0x01,0xb9,0x74,0x01,0xf0,
++0x80,0x58,0xe5,0x71,0x54,0x03,0x60,0x08,0x90,0x01,0xb9,0x74,0x02,0xf0,0x80,0x4a,
++0xe5,0x6f,0x54,0x0f,0xd3,0x94,0x02,0x40,0x08,0x90,0x01,0xb9,0x74,0x04,0xf0,0x80,
++0x39,0xe5,0x71,0x30,0xe2,0x08,0x90,0x01,0xb9,0x74,0x08,0xf0,0x80,0x2c,0xe5,0x71,
++0x30,0xe4,0x08,0x90,0x01,0xb9,0x74,0x10,0xf0,0x80,0x1f,0x90,0x91,0x29,0xe0,0x60,
++0x08,0x90,0x01,0xb9,0x74,0x20,0xf0,0x80,0x11,0x90,0x91,0x31,0xe0,0x60,0x08,0x90,
++0x01,0xb9,0x74,0x80,0xf0,0x80,0x03,0x7f,0x01,0x22,0x90,0x01,0xb8,0x74,0x04,0xf0,
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++0x74,0x10,0xf0,0xe5,0x3d,0x30,0xe5,0x06,0x90,0x00,0x55,0x74,0x20,0xf0,0xe5,0x3d,
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++0x2a,0x7f,0x7f,0x7c,0x7e,0x0e,0x12,0x27,0xde,0x90,0x90,0x98,0x12,0x2a,0x7f,0x7f,
++0x80,0x7e,0x0e,0x12,0x27,0xde,0x90,0x90,0x9c,0x12,0x2a,0x7f,0x7f,0x84,0x7e,0x0e,
++0x12,0x27,0xde,0x90,0x90,0xa0,0x12,0x2a,0x7f,0x7f,0x88,0x7e,0x0e,0x12,0x27,0xde,
++0x90,0x90,0xa4,0x12,0x2a,0x7f,0x7f,0x8c,0x7e,0x0e,0x12,0x27,0xde,0x90,0x90,0xa8,
++0x12,0x2a,0x7f,0x7f,0xd0,0x7e,0x0e,0x12,0x27,0xde,0x90,0x90,0xac,0x12,0x2a,0x7f,
++0x7f,0xd4,0x7e,0x0e,0x12,0x27,0xde,0x90,0x90,0xb0,0x12,0x2a,0x7f,0x7f,0xd8,0x7e,
++0x0e,0x12,0x27,0xde,0x90,0x90,0xb4,0x12,0x2a,0x7f,0x7f,0xdc,0x7e,0x0e,0x12,0x27,
++0xde,0x90,0x90,0xb8,0x12,0x2a,0x7f,0x7f,0xe0,0x7e,0x0e,0x12,0x27,0xde,0x90,0x90,
++0xbc,0x12,0x2a,0x7f,0x7f,0xec,0x7e,0x0e,0x12,0x27,0xde,0x90,0x90,0xc0,0x12,0x2a,
++0x7f,0x7f,0x04,0x7e,0x0c,0x12,0x27,0xde,0x90,0x90,0xc4,0x12,0x2a,0x7f,0x7f,0x04,
++0x7e,0x0d,0x12,0x27,0xde,0x90,0x90,0xc8,0x12,0x2a,0x7f,0x7f,0x0c,0x7e,0x09,0x12,
++0x27,0xde,0x90,0x90,0xcc,0x12,0x2a,0x7f,0x7f,0x04,0x7e,0x08,0x12,0x27,0xde,0x90,
++0x90,0xd0,0x12,0x2a,0x7f,0x7f,0x8c,0x7e,0x08,0x12,0x27,0xde,0x90,0x91,0x88,0x12,
++0x2a,0x7f,0x90,0x91,0x88,0x12,0x43,0x09,0xed,0x44,0xc0,0xfd,0xec,0x90,0x91,0x88,
++0x12,0x2a,0x7f,0x90,0x91,0x88,0x12,0x43,0x09,0x90,0x80,0x85,0x12,0x2a,0x7f,0x7f,
++0x8c,0x7e,0x08,0x12,0x2f,0xd9,0x90,0x80,0x85,0x12,0x2a,0x8b,0x00,0x01,0x00,0x00,
++0x7f,0x44,0x7e,0x08,0x12,0x2f,0xd9,0x90,0x80,0x85,0x12,0x2a,0x8b,0x00,0xdb,0x25,
++0xa4,0x7f,0x5c,0x7e,0x08,0x12,0x2f,0xd9,0x90,0x80,0x85,0x12,0x2a,0x8b,0x20,0xdb,
++0x25,0xa4,0x7f,0x6c,0x7e,0x0e,0x12,0x2f,0xd9,0x90,0x80,0x85,0x12,0x2a,0x8b,0x20,
++0xdb,0x25,0xa4,0x7f,0x70,0x7e,0x0e,0x12,0x2f,0xd9,0x90,0x80,0x85,0x12,0x2a,0x8b,
++0x04,0x1b,0x25,0xa4,0x7f,0x74,0x7e,0x0e,0x12,0x2f,0xd9,0x90,0x80,0x85,0x12,0x2a,
++0x8b,0x04,0x1b,0x25,0xa4,0x7f,0x78,0x7e,0x0e,0x12,0x2f,0xd9,0x90,0x80,0x85,0x12,
++0x2a,0x8b,0x04,0x1b,0x25,0xa4,0x7f,0x7c,0x7e,0x0e,0x12,0x2f,0xd9,0x90,0x80,0x85,
++0x12,0x2a,0x8b,0x04,0x1b,0x25,0xa4,0x7f,0x80,0x7e,0x0e,0x12,0x2f,0xd9,0x90,0x80,
++0x85,0x12,0x2a,0x8b,0x63,0xdb,0x25,0xa4,0x7f,0x84,0x7e,0x0e,0x12,0x2f,0xd9,0x90,
++0x80,0x85,0x12,0x2a,0x8b,0x04,0x1b,0x25,0xa4,0x7f,0x88,0x7e,0x0e,0x12,0x2f,0xd9,
++0x90,0x80,0x85,0x12,0x2a,0x8b,0x20,0xdb,0x25,0xa4,0x7f,0x8c,0x7e,0x0e,0x12,0x2f,
++0xd9,0x90,0x80,0x85,0x12,0x2a,0x8b,0x20,0xdb,0x25,0xa4,0x7f,0xd0,0x7e,0x0e,0x12,
++0x2f,0xd9,0x90,0x80,0x85,0x12,0x2a,0x8b,0x20,0xdb,0x25,0xa4,0x7f,0xd4,0x7e,0x0e,
++0x12,0x2f,0xd9,0x90,0x80,0x85,0x12,0x2a,0x8b,0x20,0xdb,0x25,0xa4,0x7f,0xd8,0x7e,
++0x0e,0x12,0x2f,0xd9,0x90,0x80,0x85,0x12,0x2a,0x8b,0x00,0x1b,0x25,0xa4,0x7f,0xdc,
++0x7e,0x0e,0x12,0x2f,0xd9,0x90,0x80,0x85,0x12,0x2a,0x8b,0x00,0x1b,0x25,0xa4,0x7f,
++0xe0,0x7e,0x0e,0x12,0x2f,0xd9,0x90,0x80,0x85,0x12,0x2a,0x8b,0x24,0xdb,0x25,0xa4,
++0x7f,0xec,0x7e,0x0e,0x12,0x2f,0xd9,0x7f,0x04,0x7e,0x0c,0x12,0x27,0xde,0x90,0x91,
++0x88,0x12,0x2a,0x7f,0x90,0x91,0x88,0x12,0x43,0x09,0xe4,0xff,0xec,0x90,0x91,0x88,
++0x12,0x2a,0x7f,0x90,0x91,0x88,0x12,0x43,0x09,0xef,0x44,0x11,0xff,0xec,0x90,0x91,
++0x88,0x12,0x2a,0x7f,0x90,0x91,0x88,0x12,0x43,0x09,0x90,0x80,0x85,0x12,0x2a,0x7f,
++0x7f,0x04,0x7e,0x0c,0x12,0x2f,0xd9,0x7f,0x04,0x7e,0x0d,0x12,0x27,0xde,0x90,0x91,
++0x88,0x12,0x2a,0x7f,0x90,0x91,0x88,0x12,0x43,0x09,0xef,0x54,0xf0,0xff,0xec,0x90,
++0x91,0x88,0x12,0x2a,0x7f,0x90,0x91,0x88,0x12,0x43,0x09,0xef,0x44,0x01,0xff,0xec,
++0x90,0x91,0x88,0x12,0x2a,0x7f,0x90,0x91,0x88,0x12,0x43,0x09,0x90,0x80,0x85,0x12,
++0x2a,0x7f,0x7f,0x04,0x7e,0x0d,0x12,0x2f,0xd9,0x7f,0x0c,0x7e,0x09,0x12,0x27,0xde,
++0x90,0x91,0x88,0x12,0x2a,0x7f,0x90,0x91,0x88,0x12,0x43,0x09,0xe4,0xff,0xec,0x90,
++0x91,0x88,0x12,0x2a,0x7f,0x90,0x91,0x88,0x12,0x43,0x09,0xef,0x44,0x11,0xff,0xec,
++0x90,0x91,0x88,0x12,0x2a,0x7f,0x90,0x91,0x88,0x12,0x43,0x09,0x90,0x80,0x85,0x12,
++0x2a,0x7f,0x7f,0x0c,0x7e,0x09,0x12,0x2f,0xd9,0x7f,0x0c,0x7e,0x09,0x12,0x27,0xde,
++0x90,0x91,0x88,0x12,0x2a,0x7f,0x90,0x91,0x88,0x12,0x43,0x09,0xed,0x54,0x0f,0xfd,
++0xec,0x54,0xf0,0xfc,0x90,0x91,0x88,0x12,0x2a,0x7f,0x90,0x91,0x88,0x12,0x43,0x09,
++0xed,0x44,0x10,0xfd,0xec,0x44,0x01,0xfc,0x90,0x91,0x88,0x12,0x2a,0x7f,0x90,0x91,
++0x88,0x12,0x43,0x09,0x90,0x80,0x85,0x12,0x2a,0x7f,0x7f,0x0c,0x7e,0x09,0x12,0x2f,
++0xd9,0x7f,0x04,0x7e,0x08,0x12,0x27,0xde,0x90,0x91,0x88,0x12,0x2a,0x7f,0x90,0x91,
++0x88,0x12,0x43,0x09,0xef,0x54,0xf0,0xff,0xec,0x90,0x91,0x88,0x12,0x2a,0x7f,0x90,
++0x91,0x88,0x12,0x43,0x09,0xef,0x44,0x01,0xff,0xec,0x90,0x91,0x88,0x12,0x2a,0x7f,
++0x90,0x91,0x88,0x12,0x43,0x09,0x90,0x80,0x85,0x12,0x2a,0x7f,0x7f,0x04,0x7e,0x08,
++0x12,0x2f,0xd9,0xe4,0x90,0x90,0xe8,0xf0,0x22,0xe4,0xfd,0x7f,0x45,0x12,0x4b,0xee,
++0x90,0x04,0xfd,0xe4,0xf0,0xa3,0xf0,0x90,0x90,0xf7,0xf0,0x90,0x90,0xfd,0xf0,0x90,
++0x91,0x00,0xf0,0x90,0x90,0xfe,0xf0,0x90,0x91,0x01,0xf0,0x90,0x90,0xff,0xf0,0x90,
++0x91,0x02,0xf0,0x90,0x90,0xe9,0x04,0xf0,0xe4,0xa3,0xf0,0xa3,0xf0,0xa3,0xf0,0x90,
++0x90,0xee,0xf0,0x90,0x90,0xf3,0xf0,0x90,0x90,0xf5,0xf0,0x90,0x91,0x07,0xf0,0x90,
++0x90,0xf8,0xf0,0x90,0x90,0xf4,0xf0,0x90,0x90,0xed,0xf0,0x90,0x00,0x51,0xe0,0x44,
++0xc0,0xfd,0x7f,0x51,0x02,0x4b,0xee,0x90,0x05,0x60,0xe0,0x90,0x91,0x03,0xf0,0x90,
++0x05,0x61,0xe0,0x90,0x91,0x04,0xf0,0x90,0x05,0x62,0xe0,0x90,0x91,0x05,0xf0,0x90,
++0x05,0x63,0xe0,0x90,0x91,0x06,0xf0,0xc3,0x74,0xff,0x9f,0xfe,0x90,0x91,0x04,0xe0,
++0xd3,0x9e,0x40,0x1e,0xe0,0x2f,0xf0,0xa3,0xe0,0xb4,0xff,0x0f,0xe4,0xf0,0xa3,0xe0,
++0xb4,0xff,0x03,0xe4,0xf0,0x22,0x90,0x91,0x06,0x80,0x03,0x90,0x91,0x05,0xe0,0x04,
++0xf0,0x22,0x90,0x91,0x04,0xe0,0x2f,0xf0,0x22,0x90,0x90,0xf5,0xe0,0x64,0x01,0x60,
++0x02,0xe1,0x6e,0x90,0x00,0x46,0xe0,0x44,0x01,0xfd,0x7f,0x46,0x12,0x4b,0xee,0x90,
++0x91,0x07,0xe0,0x70,0x32,0x90,0x90,0xed,0xe0,0x60,0x15,0x90,0x90,0xf9,0x12,0x43,
++0x09,0x90,0x80,0x85,0x12,0x2a,0x7f,0x7f,0x80,0x7e,0x08,0x12,0x2f,0xd9,0x80,0x06,
++0x90,0x05,0x22,0x74,0x7f,0xf0,0x90,0x90,0xf4,0xe0,0xff,0xd1,0x67,0x90,0x91,0x07,
++0x74,0x01,0x12,0x4b,0xe4,0x80,0x40,0x90,0x91,0x07,0xe0,0x64,0x01,0x70,0x38,0x90,
++0x90,0xf8,0xe0,0xff,0xd1,0x67,0xe4,0x90,0x91,0x07,0xf0,0x90,0x00,0x45,0xe0,0x44,
++0x01,0xfd,0x7f,0x45,0x12,0x4b,0xee,0x90,0x90,0xed,0xe0,0x60,0x15,0x90,0x90,0xef,
++0x12,0x43,0x09,0x90,0x80,0x85,0x12,0x2a,0x7f,0x7f,0x80,0x7e,0x08,0x12,0x2f,0xd9,
++0x80,0x05,0x90,0x05,0x22,0xe4,0xf0,0x90,0x05,0x87,0xe0,0x64,0x80,0xf0,0x90,0x91,
++0x03,0xe0,0x90,0x05,0x84,0xf0,0x90,0x91,0x04,0xe0,0x90,0x05,0x85,0xf0,0x90,0x91,
++0x05,0xe0,0x90,0x05,0x86,0xf0,0x90,0x91,0x06,0xe0,0x90,0x05,0x87,0xf0,0x22,0x90,
++0x90,0xee,0xe0,0xc3,0x94,0x14,0x50,0x06,0xe0,0x04,0xf0,0x02,0x70,0x29,0x90,0x90,
++0xee,0xe0,0x64,0x14,0x60,0x03,0x02,0x70,0x29,0x90,0x90,0xfd,0xe0,0x70,0x25,0x90,
++0x91,0x00,0xe0,0x70,0x1f,0x90,0x90,0xfe,0xe0,0x70,0x19,0x90,0x91,0x01,0xe0,0x70,
++0x13,0x90,0x90,0xff,0xe0,0x70,0x0d,0x90,0x91,0x02,0xe0,0x70,0x07,0x90,0x04,0xfd,
++0xe0,0x54,0xfe,0xf0,0x90,0x90,0xfd,0xe0,0x90,0x04,0x44,0xf0,0x90,0x90,0xfe,0xe0,
++0x90,0x04,0x45,0xf0,0x90,0x90,0xff,0xe0,0x90,0x04,0x46,0xf0,0xa3,0xe4,0xf0,0x90,
++0x91,0x00,0xe0,0x90,0x04,0x48,0xf0,0x90,0x91,0x01,0xe0,0x90,0x04,0x49,0xf0,0x90,
++0x91,0x02,0xe0,0x90,0x04,0x4a,0xf0,0xa3,0xe4,0xf0,0x90,0x90,0xe9,0xe0,0x90,0x04,
++0x4c,0xf0,0x90,0x90,0xea,0xe0,0x90,0x04,0x4d,0xf0,0x90,0x90,0xeb,0xe0,0x90,0x04,
++0x4e,0xf0,0x90,0x90,0xec,0xe0,0x90,0x04,0x4f,0xf0,0xe4,0x90,0x90,0xee,0xf0,0x90,
++0x90,0xe9,0x04,0xf0,0xe4,0xa3,0xf0,0xa3,0xf0,0xa3,0xf0,0x90,0x90,0xfd,0xf0,0xa3,
++0xf0,0xa3,0xf0,0xa3,0xf0,0xa3,0xf0,0xa3,0xf0,0x90,0x05,0x60,0xe0,0x90,0x91,0x8c,
++0xf0,0x90,0x05,0x61,0xe0,0x90,0x91,0x8d,0xf0,0x90,0x05,0x62,0xe0,0x90,0x91,0x8e,
++0xf0,0x90,0x05,0x63,0xe0,0x90,0x91,0x8f,0xf0,0x90,0x91,0x06,0xe0,0xff,0x90,0x91,
++0x8f,0xe0,0xfe,0xd3,0x9f,0x50,0x0b,0x90,0x91,0x06,0xe0,0xc3,0x9e,0xd3,0x94,0x01,
++0x40,0x11,0x90,0x90,0xf4,0xe0,0xb4,0x01,0x02,0x80,0x03,0x90,0x90,0xf8,0xe0,0xff,
++0x12,0x6e,0x67,0x22,0x90,0x91,0x07,0xe0,0x64,0x01,0x60,0x08,0x90,0x90,0xf5,0xe0,
++0x60,0x02,0x21,0x4b,0x90,0x90,0xe9,0xe0,0xc3,0x94,0xff,0x50,0x05,0xe0,0x04,0xf0,
++0x80,0x3b,0x90,0x90,0xea,0xe0,0xc3,0x94,0xff,0x50,0x06,0xe0,0x04,0xf0,0xe4,0x80,
++0x28,0x90,0x90,0xeb,0xe0,0xc3,0x94,0xff,0x50,0x0a,0xe0,0x04,0xf0,0xe4,0x90,0x90,
++0xea,0xf0,0x80,0x15,0x90,0x90,0xec,0xe0,0xc3,0x94,0xff,0x50,0x10,0xe0,0x04,0xf0,
++0xe4,0x90,0x90,0xeb,0xf0,0x90,0x90,0xea,0xf0,0x90,0x90,0xe9,0xf0,0x90,0x00,0x44,
++0xe0,0x54,0x0c,0x60,0x76,0xe0,0x30,0xe2,0x32,0x90,0x90,0xfd,0xe0,0xc3,0x94,0xff,
++0x50,0x05,0xe0,0x04,0xf0,0x80,0x24,0x90,0x90,0xfe,0xe0,0xc3,0x94,0xff,0x50,0x06,
++0xe0,0x04,0xf0,0xe4,0x80,0x11,0x90,0x90,0xff,0xe0,0xc3,0x94,0xff,0x50,0x0c,0xe0,
++0x04,0xf0,0xe4,0x90,0x90,0xfe,0xf0,0x90,0x90,0xfd,0xf0,0x90,0x00,0x44,0xe0,0x30,
++0xe3,0x32,0x90,0x91,0x00,0xe0,0xc3,0x94,0xff,0x50,0x05,0xe0,0x04,0xf0,0x80,0x24,
++0x90,0x91,0x01,0xe0,0xc3,0x94,0xff,0x50,0x06,0xe0,0x04,0xf0,0xe4,0x80,0x11,0x90,
++0x91,0x02,0xe0,0xc3,0x94,0xff,0x50,0x0c,0xe0,0x04,0xf0,0xe4,0x90,0x91,0x01,0xf0,
++0x90,0x91,0x00,0xf0,0x90,0x04,0xfd,0xe0,0x44,0x01,0xf0,0x22,0x90,0x06,0x90,0xe0,
++0x44,0x01,0xf0,0x90,0x91,0x61,0xe0,0x30,0xe0,0x3c,0x90,0x91,0x5f,0xe0,0xff,0x90,
++0x91,0x5e,0xe0,0xfe,0xc4,0x13,0x54,0x01,0xfd,0x12,0x4a,0xf6,0x90,0x91,0x60,0xe0,
++0x75,0xf0,0x20,0xa4,0xff,0xae,0xf0,0x12,0x37,0x54,0x90,0x91,0x5e,0xe0,0xc4,0x13,
++0x54,0x07,0x30,0xe0,0x07,0xa3,0xe0,0xff,0xe4,0xfd,0x80,0x07,0x90,0x91,0x5f,0xe0,
++0xff,0x7d,0x01,0x12,0x4a,0xf6,0x22,0xd3,0x10,0xaf,0x01,0xc3,0xc0,0xd0,0xe4,0x90,
++0x91,0x19,0xf0,0xa3,0x74,0x08,0xf0,0xa3,0xf0,0xe4,0xa3,0xf0,0x90,0x01,0x1f,0xe0,
++0xfe,0x90,0x01,0x1e,0xe0,0x7c,0x00,0x24,0x00,0xff,0xec,0x3e,0x90,0x91,0x11,0xf0,
++0xa3,0xef,0xf0,0x90,0x02,0x87,0xe0,0x90,0x91,0x18,0xf0,0x90,0x91,0x56,0xe0,0x20,
++0xe0,0x02,0x61,0xc4,0xe4,0x90,0x91,0x17,0xf0,0x90,0x91,0x18,0xe0,0xff,0x90,0x91,
++0x17,0xe0,0xc3,0x9f,0x40,0x02,0x61,0xc4,0x90,0x91,0x11,0xe0,0xfc,0xa3,0xe0,0xfd,
++0xec,0xff,0x90,0xfd,0x11,0xf0,0x90,0x91,0x1c,0xef,0xf0,0x74,0x02,0x2d,0xf5,0x82,
++0xe4,0x34,0xfb,0xf5,0x83,0xe0,0x54,0x0f,0xfc,0x33,0x33,0x33,0x54,0xf8,0xff,0xed,
++0x24,0x18,0x2f,0x90,0x91,0x15,0xf0,0xe0,0x24,0x00,0xf5,0x82,0xe4,0x34,0xfb,0xf5,
++0x83,0xe0,0x54,0xfc,0x90,0x91,0x16,0xf0,0x74,0x01,0x2d,0xf5,0x82,0xe4,0x34,0xfb,
++0xf5,0x83,0xe0,0xfe,0x74,0x00,0x2d,0xf5,0x82,0xe4,0x34,0xfb,0xf5,0x83,0xe0,0x7a,
++0x00,0x24,0x00,0xff,0xea,0x3e,0x54,0x3f,0xab,0x07,0xfa,0x90,0x91,0x13,0xf0,0xa3,
++0xeb,0xf0,0xaf,0x04,0xef,0x75,0xf0,0x08,0xa4,0x24,0x18,0xff,0xe4,0x35,0xf0,0xfe,
++0xef,0x2b,0xfb,0xee,0x3a,0xfa,0x90,0x91,0x5a,0xe0,0xfe,0xa3,0xe0,0xff,0xad,0x03,
++0xac,0x02,0x12,0x45,0x09,0xaa,0x06,0xab,0x07,0x90,0x91,0x15,0xe0,0x24,0x00,0xf5,
++0x82,0xe4,0x34,0xfb,0xf5,0x83,0xe0,0x30,0xe7,0x08,0x90,0x91,0x19,0x74,0x02,0xf0,
++0x80,0x05,0xe4,0x90,0x91,0x19,0xf0,0xaf,0x03,0x90,0x91,0x11,0xea,0x8f,0xf0,0x12,
++0x42,0x81,0x90,0x91,0x5c,0xe0,0xfe,0xa3,0xe0,0xff,0x90,0x91,0x11,0xe0,0xfc,0xa3,
++0xe0,0xfd,0xd3,0x9f,0xec,0x9e,0x40,0x1b,0x90,0x91,0x5d,0xe0,0x24,0x01,0xff,0x90,
++0x91,0x5c,0xe0,0x34,0x00,0xfe,0xc3,0xed,0x9f,0xff,0xec,0x9e,0x90,0x91,0x11,0xf0,
++0xa3,0xef,0xf0,0x90,0x91,0x16,0xe0,0xff,0x24,0x40,0x60,0x04,0x24,0x20,0x70,0x27,
++0x90,0x91,0x5e,0xe0,0xfe,0xc4,0x13,0x13,0x13,0x54,0x01,0x20,0xe0,0x02,0x61,0x9c,
++0xef,0x90,0x00,0x81,0xb4,0xa0,0x05,0xe0,0x44,0x04,0x80,0x03,0xe0,0x44,0x08,0xfd,
++0x7f,0x81,0x12,0x4b,0xee,0x61,0x95,0x90,0x91,0x5e,0xe0,0xc4,0x13,0x13,0x54,0x03,
++0x20,0xe0,0x02,0x61,0x9c,0x90,0x91,0x15,0xe0,0xff,0x24,0x00,0xf5,0x82,0xe4,0x34,
++0xfb,0xf5,0x83,0xe0,0x54,0x0c,0x64,0x08,0x70,0x72,0x90,0x91,0x19,0xe0,0xfe,0xef,
++0x2e,0xff,0xa3,0xe0,0x2f,0xff,0x24,0x1e,0xf5,0x82,0xe4,0x34,0xfb,0xf5,0x83,0xe0,
++0x64,0x88,0x70,0x58,0x74,0x1f,0x2f,0xf5,0x82,0xe4,0x34,0xfb,0xf5,0x83,0xe0,0x64,
++0x8e,0x70,0x49,0x90,0x91,0x19,0xe0,0xff,0x90,0x91,0x15,0xe0,0x2f,0xff,0x90,0x91,
++0x1a,0xe0,0x2f,0xff,0xa3,0xe0,0x2f,0xff,0x24,0x19,0xf5,0x82,0xe4,0x34,0xfb,0xf5,
++0x83,0xe0,0x64,0x03,0x70,0x26,0x74,0x1e,0x2f,0xf5,0x82,0xe4,0x34,0xfb,0xf5,0x83,
++0xe0,0x90,0x00,0x81,0x30,0xe3,0x05,0xe0,0x44,0x01,0x80,0x03,0xe0,0x44,0x02,0xfd,
++0x7f,0x81,0x12,0x4b,0xee,0x90,0x91,0x56,0xe0,0x44,0x80,0xf0,0x90,0x91,0x56,0xe0,
++0xff,0xc4,0x13,0x13,0x13,0x54,0x01,0x30,0xe0,0x02,0x31,0x4c,0x71,0xc9,0xbf,0x01,
++0x13,0x90,0x91,0x11,0xe0,0xfe,0xa3,0xe0,0xff,0x12,0x44,0xb5,0x90,0x91,0x17,0xe0,
++0x04,0xf0,0x21,0xd9,0xd0,0xd0,0x92,0xaf,0x22,0x90,0x91,0x56,0xe0,0xc4,0x13,0x13,
++0x13,0x54,0x01,0x30,0xe0,0x11,0xe0,0x44,0x80,0xf0,0x90,0x91,0x5e,0xe0,0xc4,0x54,
++0x0f,0x20,0xe0,0x03,0x7f,0x00,0x22,0x7f,0x01,0x22,0x8f,0x1f,0xe4,0x90,0x91,0x22,
++0xf0,0xe5,0x1f,0x14,0xfe,0x90,0x91,0x22,0xe0,0xff,0xc3,0x9e,0x50,0x0e,0xef,0x04,
++0xfd,0x12,0x34,0xb7,0x90,0x91,0x22,0xe0,0x04,0xf0,0x80,0xe5,0xe5,0x1f,0x14,0xff,
++0x7d,0xff,0x12,0x34,0xb7,0x90,0x91,0x22,0xe5,0x1f,0xf0,0x90,0x91,0x22,0xe0,0xc3,
++0x94,0xff,0x50,0x0f,0xe0,0xff,0x04,0xfd,0x12,0x34,0xb7,0x90,0x91,0x22,0xe0,0x04,
++0xf0,0x80,0xe8,0xad,0x1f,0x7f,0xff,0x02,0x34,0xb7,0xc3,0xee,0x94,0x01,0x40,0x0a,
++0x0d,0xed,0x13,0x90,0xfd,0x10,0xf0,0xe4,0x2f,0xff,0x22,0xc3,0xee,0x94,0x01,0x40,
++0x1e,0x90,0xfd,0x11,0xe0,0xb5,0x05,0x14,0x90,0x01,0x17,0xe0,0xb5,0x05,0x07,0x90,
++0xfd,0x11,0xe4,0xf0,0x80,0x06,0xed,0x04,0x90,0xfd,0x11,0xf0,0xe4,0x2f,0xff,0x22,
++0x0f,0x75,};
++
++u8 Rtl8192CUFwUMCACutWWImgArray[UMCACutWWImgArrayLength] = {
++0xc1,0x88,0x02,0x00,0x51,0x00,0x00,0x00,0x03,0x23,0x16,0x44,0x72,0x34,0x01,0x00,
++0x58,0x92,0x01,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x02,0x43,0x9d,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x02,0x57,0xcb,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x02,0x5c,0xb6,0x00,0x00,0x00,0x00,0x00,0x02,0x5d,0x99,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0xbb,0x01,0x0c,0xe5,0x82,0x29,0xf5,0x82,0xe5,0x83,0x3a,0xf5,0x83,0xe0,0x22,0x50,
++0x06,0xe9,0x25,0x82,0xf8,0xe6,0x22,0xbb,0xfe,0x06,0xe9,0x25,0x82,0xf8,0xe2,0x22,
++0xe5,0x82,0x29,0xf5,0x82,0xe5,0x83,0x3a,0xf5,0x83,0xe4,0x93,0x22,0xbb,0x01,0x06,
++0x89,0x82,0x8a,0x83,0xf0,0x22,0x50,0x02,0xf7,0x22,0xbb,0xfe,0x01,0xf3,0x22,0xf8,
++0xbb,0x01,0x0d,0xe5,0x82,0x29,0xf5,0x82,0xe5,0x83,0x3a,0xf5,0x83,0xe8,0xf0,0x22,
++0x50,0x06,0xe9,0x25,0x82,0xc8,0xf6,0x22,0xbb,0xfe,0x05,0xe9,0x25,0x82,0xc8,0xf2,
++0x22,0xc5,0xf0,0xf8,0xa3,0xe0,0x28,0xf0,0xc5,0xf0,0xf8,0xe5,0x82,0x15,0x82,0x70,
++0x02,0x15,0x83,0xe0,0x38,0xf0,0x22,0xbb,0x01,0x10,0xe5,0x82,0x29,0xf5,0x82,0xe5,
++0x83,0x3a,0xf5,0x83,0xe0,0xf5,0xf0,0xa3,0xe0,0x22,0x50,0x09,0xe9,0x25,0x82,0xf8,
++0x86,0xf0,0x08,0xe6,0x22,0xbb,0xfe,0x0a,0xe9,0x25,0x82,0xf8,0xe2,0xf5,0xf0,0x08,
++0xe2,0x22,0xe5,0x83,0x2a,0xf5,0x83,0xe9,0x93,0xf5,0xf0,0xa3,0xe9,0x93,0x22,0xf8,
++0xbb,0x01,0x11,0xe5,0x82,0x29,0xf5,0x82,0xe5,0x83,0x3a,0xf5,0x83,0xe8,0xf0,0xe5,
++0xf0,0xa3,0xf0,0x22,0x50,0x09,0xe9,0x25,0x82,0xc8,0xf6,0x08,0xa6,0xf0,0x22,0xbb,
++0xfe,0x09,0xe9,0x25,0x82,0xc8,0xf2,0xe5,0xf0,0x08,0xf2,0x22,0xef,0x4b,0xff,0xee,
++0x4a,0xfe,0xed,0x49,0xfd,0xec,0x48,0xfc,0x22,0xe0,0xfc,0xa3,0xe0,0xfd,0xa3,0xe0,
++0xfe,0xa3,0xe0,0xff,0x22,0xa4,0x25,0x82,0xf5,0x82,0xe5,0xf0,0x35,0x83,0xf5,0x83,
++0x22,0xe0,0xfb,0xa3,0xe0,0xfa,0xa3,0xe0,0xf9,0x22,0xf8,0xe0,0xfb,0xa3,0xa3,0xe0,
++0xf9,0x25,0xf0,0xf0,0xe5,0x82,0x15,0x82,0x70,0x02,0x15,0x83,0xe0,0xfa,0x38,0xf0,
++0x22,0xeb,0xf0,0xa3,0xea,0xf0,0xa3,0xe9,0xf0,0x22,0xd0,0x83,0xd0,0x82,0xf8,0xe4,
++0x93,0x70,0x12,0x74,0x01,0x93,0x70,0x0d,0xa3,0xa3,0x93,0xf8,0x74,0x01,0x93,0xf5,
++0x82,0x88,0x83,0xe4,0x73,0x74,0x02,0x93,0x68,0x60,0xef,0xa3,0xa3,0xa3,0x80,0xdf,
++0xd0,0x83,0xd0,0x82,0xf8,0xe4,0x93,0x70,0x12,0x74,0x01,0x93,0x70,0x0d,0xa3,0xa3,
++0x93,0xf8,0x74,0x01,0x93,0xf5,0x82,0x88,0x83,0xe4,0x73,0x74,0x02,0x93,0xb5,0xf0,
++0x06,0x74,0x03,0x93,0x68,0x60,0xe9,0xa3,0xa3,0xa3,0xa3,0x80,0xd8,0x02,0x43,0xdb,
++0x02,0x50,0x2a,0xe4,0x93,0xa3,0xf8,0xe4,0x93,0xa3,0x40,0x03,0xf6,0x80,0x01,0xf2,
++0x08,0xdf,0xf4,0x80,0x29,0xe4,0x93,0xa3,0xf8,0x54,0x07,0x24,0x0c,0xc8,0xc3,0x33,
++0xc4,0x54,0x0f,0x44,0x20,0xc8,0x83,0x40,0x04,0xf4,0x56,0x80,0x01,0x46,0xf6,0xdf,
++0xe4,0x80,0x0b,0x01,0x02,0x04,0x08,0x10,0x20,0x40,0x80,0x90,0x44,0x20,0xe4,0x7e,
++0x01,0x93,0x60,0xbc,0xa3,0xff,0x54,0x3f,0x30,0xe5,0x09,0x54,0x1f,0xfe,0xe4,0x93,
++0xa3,0x60,0x01,0x0e,0xcf,0x54,0xc0,0x25,0xe0,0x60,0xa8,0x40,0xb8,0xe4,0x93,0xa3,
++0xfa,0xe4,0x93,0xa3,0xf8,0xe4,0x93,0xa3,0xc8,0xc5,0x82,0xc8,0xca,0xc5,0x83,0xca,
++0xf0,0xa3,0xc8,0xc5,0x82,0xc8,0xca,0xc5,0x83,0xca,0xdf,0xe9,0xde,0xe7,0x80,0xbe,
++0x41,0x91,0x40,0x00,0x41,0x91,0x9c,0x00,0x41,0x91,0x23,0x80,0x41,0x91,0x24,0x80,
++0x41,0x91,0x9e,0x00,0x41,0x91,0x52,0x00,0x41,0x91,0x93,0x00,0x41,0x91,0x91,0x00,
++0x41,0x91,0x90,0x00,0x41,0x91,0x92,0x00,0x00,0xf0,0x90,0x91,0x30,0xe0,0x90,0x91,
++0x67,0xf0,0xe4,0xfb,0xfd,0x7f,0x54,0x7e,0x01,0xd3,0x10,0xaf,0x01,0xc3,0xc0,0xd0,
++0x90,0x91,0x65,0xeb,0xf0,0xa3,0xe0,0xfb,0xa3,0xe0,0xf5,0x44,0xe4,0xf5,0x45,0x12,
++0x30,0x62,0xd0,0xd0,0x92,0xaf,0x22,0x90,0x01,0x5f,0xe4,0xf0,0x90,0x01,0x3c,0x74,
++0x08,0xf0,0xe4,0x90,0x91,0x66,0xf0,0x90,0x91,0x2d,0xe0,0x90,0x91,0x67,0xf0,0xe4,
++0xfb,0xfd,0x7f,0x5c,0x7e,0x01,0x91,0x59,0x90,0x01,0x5f,0x74,0x05,0xf0,0x90,0x06,
++0x92,0x74,0x02,0xf0,0x90,0x91,0x36,0x14,0xf0,0xe5,0x6e,0x54,0x0f,0xc3,0x94,0x0c,
++0x50,0x02,0xf1,0x23,0x22,0x90,0x02,0x84,0xef,0xf0,0xa3,0xee,0xf0,0xa3,0x74,0x05,
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++0x92,0xaf,0x22,0xef,0x14,0x60,0x30,0x14,0x60,0x66,0x24,0x02,0x60,0x02,0x81,0xaa,
++0x90,0x90,0xf3,0x74,0x02,0xf0,0x90,0x00,0x48,0xe0,0x44,0x0c,0xfd,0x7f,0x48,0x71,
++0xee,0x90,0x00,0x47,0xe0,0x44,0x08,0xfd,0x7f,0x47,0x71,0xee,0x90,0x00,0x45,0xe0,
++0x44,0x10,0xfd,0x7f,0x45,0x80,0x71,0xe4,0x90,0x90,0xf3,0xf0,0x90,0x90,0xef,0x12,
++0x43,0x09,0x90,0x80,0x96,0x12,0x25,0x08,0x7f,0x80,0x7e,0x08,0x12,0x2b,0x08,0x90,
++0x00,0x45,0xe0,0x44,0xef,0xfd,0x7f,0x45,0x71,0xee,0x90,0x00,0x45,0xe0,0x54,0xef,
++0xfd,0x7f,0x45,0x71,0xee,0x90,0x00,0x46,0xe0,0x44,0x10,0xfd,0x7f,0x46,0x80,0x38,
++0x90,0x90,0xf3,0x74,0x01,0xf0,0x90,0x90,0xf9,0x12,0x43,0x09,0x90,0x80,0x96,0x12,
++0x25,0x08,0x7f,0x80,0x7e,0x08,0x12,0x2b,0x08,0x90,0x00,0x45,0xe0,0x44,0x20,0xfd,
++0x7f,0x45,0x71,0xee,0x90,0x00,0x45,0xe0,0x44,0x10,0xfd,0x7f,0x45,0x71,0xee,0x90,
++0x00,0x46,0xe0,0x44,0x10,0xfd,0x7f,0x46,0x71,0xee,0x22,0x90,0x00,0x02,0x12,0x42,
++0x20,0x90,0x90,0xf5,0xf0,0x90,0x00,0x01,0x12,0x42,0x20,0x25,0xe0,0x25,0xe0,0x90,
++0x90,0xf4,0xf0,0x12,0x24,0x62,0x25,0xe0,0x25,0xe0,0x90,0x90,0xf8,0xf0,0x90,0x05,
++0x60,0xe0,0x90,0x91,0x03,0xf0,0x90,0x05,0x61,0xe0,0x90,0x91,0x04,0xf0,0x90,0x05,
++0x62,0xe0,0x90,0x91,0x05,0xf0,0x90,0x05,0x63,0xe0,0x90,0x91,0x06,0xf0,0xa2,0xaf,
++0xe4,0x33,0x90,0x91,0x1c,0xf0,0xc2,0xaf,0x90,0x90,0xf4,0xe0,0xff,0x12,0x6e,0x67,
++0x90,0x91,0x1c,0xe0,0x24,0xff,0x92,0xaf,0x90,0x90,0xf5,0xe0,0x70,0x02,0xa1,0xb2,
++0x90,0x90,0xf4,0xe0,0x70,0x02,0xa1,0xb2,0x90,0x90,0xf8,0xe0,0x70,0x02,0xa1,0xb2,
++0xa2,0xaf,0xe4,0x33,0x90,0x91,0x1c,0xf0,0xc2,0xaf,0x90,0x91,0x07,0x74,0x01,0xf0,
++0x90,0x91,0x1c,0xe0,0x24,0xff,0x92,0xaf,0x71,0xe5,0x90,0x00,0x46,0xe0,0x44,0x01,
++0xfd,0x7f,0x46,0x71,0xee,0x90,0x90,0xed,0xe0,0x60,0x15,0x90,0x90,0xf9,0x12,0x43,
++0x09,0x90,0x80,0x96,0x12,0x25,0x08,0x7f,0x80,0x7e,0x08,0x12,0x2b,0x08,0x80,0x06,
++0x90,0x05,0x22,0x74,0x7f,0xf0,0x90,0x00,0x45,0xe0,0x54,0xef,0xfd,0x7f,0x45,0x71,
++0xee,0x90,0x05,0x87,0xe0,0x64,0x80,0xf0,0x90,0x91,0x03,0xe0,0x90,0x05,0x84,0xf0,
++0x90,0x91,0x04,0xe0,0x90,0x05,0x85,0xf0,0x90,0x91,0x05,0xe0,0x90,0x05,0x86,0xf0,
++0x90,0x91,0x06,0xe0,0x90,0x05,0x87,0xf0,0xa2,0xaf,0xe4,0x33,0x90,0x91,0x1c,0xf0,
++0xc2,0xaf,0x90,0x01,0x3c,0xe0,0x44,0x20,0xf0,0x7d,0x20,0xe4,0xff,0x12,0x31,0xb7,
++0x80,0x2b,0x90,0x90,0xf5,0xe0,0x70,0x2d,0x90,0x91,0x07,0x71,0xe4,0x90,0x00,0x46,
++0xe0,0x54,0xfe,0xfd,0x7f,0x46,0x71,0xee,0x90,0x05,0x22,0xe4,0xf0,0xa2,0xaf,0x33,
++0x90,0x91,0x1c,0xf0,0xc2,0xaf,0x7d,0x20,0xe4,0xff,0x12,0x31,0x49,0x90,0x91,0x1c,
++0xe0,0x24,0xff,0x92,0xaf,0x22,0x8b,0x0e,0x8a,0x0f,0x89,0x10,0x90,0x00,0x02,0x12,
++0x42,0x20,0x90,0x90,0xf6,0xf0,0xe0,0x30,0xe0,0x4b,0x90,0x90,0xed,0x74,0x01,0xf0,
++0x7f,0x80,0x7e,0x08,0x12,0x22,0x65,0x90,0x90,0xef,0x12,0x25,0x08,0xab,0x0e,0xaa,
++0x0f,0xa9,0x10,0x90,0x00,0x01,0x12,0x42,0x20,0xff,0xe4,0xfc,0xfd,0xfe,0x78,0x1a,
++0x12,0x24,0xf5,0xa8,0x04,0xa9,0x05,0xaa,0x06,0xab,0x07,0x90,0x90,0xef,0x12,0x43,
++0x09,0xec,0x54,0x03,0xfc,0x12,0x42,0xfc,0x90,0x90,0xf9,0x12,0x25,0x08,0x90,0x05,
++0x22,0xe4,0xf0,0x80,0x2d,0xe4,0x90,0x90,0xed,0xf0,0x7f,0x80,0x7e,0x08,0x12,0x22,
++0x65,0xec,0x54,0x03,0xfc,0xec,0x44,0xc0,0xfc,0x90,0x90,0xef,0x12,0x25,0x08,0x90,
++0x90,0xef,0x12,0x43,0x09,0x90,0x80,0x96,0x12,0x25,0x08,0x7f,0x80,0x7e,0x08,0x12,
++0x2b,0x08,0x90,0x90,0xf6,0xe0,0x30,0xe1,0x19,0x7d,0x0c,0x7f,0x47,0x71,0xee,0x90,
++0x00,0x48,0xe0,0x44,0x0c,0xfd,0x7f,0x48,0x71,0xee,0x90,0x00,0x46,0xe0,0x44,0x10,
++0x80,0x1c,0x90,0x00,0x47,0xe0,0x54,0xf3,0xfd,0x7f,0x47,0x71,0xee,0x90,0x00,0x48,
++0xe0,0x54,0xf3,0xfd,0x7f,0x48,0x71,0xee,0x90,0x00,0x46,0xe0,0x54,0xef,0xfd,0x7f,
++0x46,0x71,0xee,0xe4,0x90,0x90,0xf3,0xf0,0x22,0x90,0x01,0x3c,0x74,0xff,0xf0,0xa3,
++0xf0,0xa3,0xf0,0x90,0x01,0x34,0xf0,0xa3,0xf0,0xa3,0xf0,0xa3,0xf0,0xfd,0x7f,0x54,
++0x71,0xee,0x7d,0xff,0x7f,0x55,0x71,0xee,0x7d,0xff,0x7f,0x56,0x71,0xee,0x7d,0xff,
++0x7f,0x57,0x61,0xee,0x90,0x01,0x30,0xe4,0xf0,0xa3,0xf0,0xa3,0xf0,0xa3,0xf0,0x90,
++0x01,0x38,0xf0,0xa3,0xf0,0xa3,0xf0,0xa3,0xf0,0xfd,0x7f,0x50,0x71,0xee,0xe4,0xfd,
++0x7f,0x51,0x71,0xee,0xe4,0xfd,0x7f,0x52,0x71,0xee,0xe4,0xfd,0x7f,0x53,0x61,0xee,
++0xd3,0x10,0xaf,0x01,0xc3,0xc0,0xd0,0x90,0x91,0x22,0xed,0xf0,0x90,0x91,0x21,0xef,
++0xf0,0xd3,0x94,0x07,0x50,0x4e,0xa3,0xe0,0x70,0x1a,0x90,0x91,0x21,0xe0,0xff,0x74,
++0x01,0xa8,0x07,0x08,0x80,0x02,0xc3,0x33,0xd8,0xfc,0xf4,0xff,0x90,0x00,0x47,0xe0,
++0x5f,0xf0,0x80,0x17,0x90,0x91,0x21,0xe0,0xff,0x74,0x01,0xa8,0x07,0x08,0x80,0x02,
++0xc3,0x33,0xd8,0xfc,0xff,0x90,0x00,0x47,0xe0,0x4f,0xf0,0x51,0xe6,0x90,0x91,0x21,
++0xe0,0xff,0x74,0x01,0xa8,0x07,0x08,0x80,0x02,0xc3,0x33,0xd8,0xfc,0xf4,0xff,0x90,
++0x00,0x46,0x80,0x59,0x90,0x91,0x21,0xe0,0x24,0xf8,0xf0,0xa3,0xe0,0x70,0x1d,0x90,
++0x91,0x21,0xe0,0xff,0x74,0x01,0xa8,0x07,0x08,0x80,0x02,0xc3,0x33,0xd8,0xfc,0xc4,
++0x54,0xf0,0xf4,0xff,0x90,0x00,0x43,0xe0,0x5f,0xf0,0x80,0x1a,0x90,0x91,0x21,0xe0,
++0xff,0x74,0x01,0xa8,0x07,0x08,0x80,0x02,0xc3,0x33,0xd8,0xfc,0xc4,0x54,0xf0,0xff,
++0x90,0x00,0x43,0xe0,0x4f,0xf0,0x51,0xe6,0x90,0x91,0x21,0xe0,0xff,0x74,0x01,0xa8,
++0x07,0x08,0x80,0x02,0xc3,0x33,0xd8,0xfc,0xf4,0xff,0x90,0x00,0x43,0xe0,0x5f,0xf0,
++0x51,0xe6,0xd0,0xd0,0x92,0xaf,0x22,0x90,0x00,0x49,0xe0,0x90,0x91,0x9f,0xf0,0xe0,
++0x54,0x0f,0xf0,0x44,0xf0,0xfd,0x7f,0x49,0x71,0xee,0x90,0x91,0x9f,0xe0,0x44,0xb0,
++0xfd,0x7f,0x49,0x61,0xee,0x12,0x47,0xe6,0xbf,0x01,0x10,0x90,0x02,0x09,0xe0,0xff,
++0x7d,0x01,0x12,0x48,0x22,0x90,0x04,0x1f,0x74,0x20,0xf0,0x22,0x75,0x28,0x33,0xe4,
++0xf5,0x29,0x75,0x2a,0x07,0xf5,0x2b,0x90,0x01,0x30,0xe5,0x28,0xf0,0xa3,0xe5,0x29,
++0xf0,0xa3,0xe5,0x2a,0xf0,0xa3,0xe5,0x2b,0xf0,0x22,0xe4,0x90,0x91,0x0e,0xf0,0xa3,
++0xf0,0x75,0x8e,0x02,0xf1,0x25,0xd1,0xe8,0x90,0x91,0x4f,0xef,0xf0,0xf1,0x0b,0x90,
++0x91,0x51,0xef,0xf0,0xf1,0x60,0x90,0x91,0x3d,0xee,0xf0,0xa3,0xef,0xf0,0xe4,0xf5,
++0x57,0xf1,0x02,0x12,0x61,0xc4,0x12,0x2e,0x01,0x12,0x44,0xff,0x11,0x0c,0xf1,0x36,
++0xd1,0xfb,0xd1,0xd0,0x12,0x44,0xfe,0x31,0x13,0x12,0x44,0xf4,0x12,0x6e,0x09,0x90,
++0x91,0x10,0xe5,0xd9,0xf0,0x12,0x4e,0xb9,0xc2,0xaf,0x90,0x00,0x80,0xe0,0x44,0x40,
++0xf0,0x12,0x4a,0xe6,0x75,0xe8,0x03,0x43,0xa8,0x85,0xd2,0xaf,0x90,0x91,0x0e,0xe0,
++0x64,0x01,0xf0,0x24,0x2a,0x90,0x01,0xc4,0xf0,0x74,0x50,0xa3,0xf0,0xe5,0x57,0x30,
++0xe2,0x10,0x12,0x5f,0xf0,0xbf,0x01,0x0a,0xc2,0xaf,0x53,0x57,0xfb,0xd2,0xaf,0x12,
++0x71,0x97,0xe5,0x57,0x30,0xe4,0x0a,0xc2,0xaf,0x53,0x57,0xef,0xd2,0xaf,0x12,0x60,
++0x2d,0x90,0x90,0xf7,0xe0,0x70,0x03,0x12,0x70,0x74,0x11,0xe7,0x90,0x91,0x3f,0xe0,
++0x90,0x01,0xba,0xf0,0x80,0xb6,0xe4,0x90,0x91,0x55,0xf0,0x90,0x91,0x53,0xe0,0x54,
++0x7f,0xf0,0xa3,0x74,0x0a,0xf0,0x22,0x90,0x06,0x34,0xe0,0x60,0x25,0x14,0x70,0x1b,
++0x7b,0x01,0x7a,0x06,0x79,0x35,0x7f,0xf9,0x7e,0x01,0x12,0x67,0xe4,0xbf,0x01,0x09,
++0x90,0x06,0x35,0xe0,0x54,0x0f,0xf0,0x80,0x04,0x80,0x00,0xe1,0x17,0xe4,0x90,0x06,
++0x34,0xf0,0x22,0x90,0x91,0x56,0xe0,0x54,0xfe,0xf0,0xe0,0x54,0x7f,0xf0,0x90,0x01,
++0x17,0xe0,0xfe,0x90,0x01,0x16,0xe0,0x7c,0x00,0x24,0x00,0xff,0xec,0x3e,0x90,0x91,
++0x5c,0xf0,0xa3,0xef,0xf0,0x90,0x01,0x04,0xe0,0x54,0x0f,0x90,0x91,0x1c,0xf0,0xe0,
++0xff,0x74,0x40,0x7e,0x00,0xa8,0x07,0x08,0x80,0x05,0xc3,0x33,0xce,0x33,0xce,0xd8,
++0xf9,0x90,0x91,0x5b,0xf0,0xee,0x90,0x91,0x5a,0xf0,0x90,0x91,0x5e,0xe0,0x54,0xfe,
++0xf0,0xe0,0x54,0xfd,0xf0,0xe0,0x54,0xfb,0xf0,0xe0,0x54,0xf7,0xf0,0xe0,0x54,0xef,
++0xf0,0xe0,0x54,0xdf,0xf0,0xe0,0x54,0xbf,0xf0,0xe0,0x54,0x7f,0xf0,0xe4,0xa3,0xf0,
++0xa3,0xf0,0xa3,0xe0,0x54,0xfe,0xf0,0xe0,0x54,0xfd,0xf0,0xe0,0x54,0xf7,0xf0,0x22,
++0xd3,0x10,0xaf,0x01,0xc3,0xc0,0xd0,0x12,0x24,0x62,0x54,0x01,0xff,0x90,0x91,0x56,
++0xe0,0x54,0xfe,0x4f,0xf0,0x90,0x00,0x01,0x12,0x42,0x20,0x90,0x91,0x57,0xf0,0x90,
++0x00,0x02,0x12,0x42,0x20,0x90,0x91,0x58,0xf0,0x90,0x91,0x56,0xe0,0x30,0xe0,0x1a,
++0x90,0x06,0x09,0xe0,0x54,0xfe,0xf0,0x90,0x02,0x86,0xe0,0x44,0x04,0xf0,0x43,0x57,
++0x04,0x7d,0x08,0xe4,0xff,0x12,0x31,0x9d,0x80,0x12,0x7d,0x08,0xe4,0xff,0x12,0x31,
++0x2c,0x90,0x02,0x86,0xe0,0x54,0xfb,0xf0,0x31,0xf1,0x31,0x13,0xd0,0xd0,0x92,0xaf,
++0x22,0x90,0x06,0x90,0xe4,0xf0,0x21,0x5a,0x90,0x91,0x19,0x12,0x43,0x41,0xef,0x12,
++0x43,0x4a,0x52,0x30,0x01,0x52,0x39,0x02,0x52,0x5b,0x03,0x52,0x64,0x09,0x52,0x6c,
++0x0c,0x52,0x75,0x0d,0x52,0x7d,0x0e,0x52,0x8e,0x1a,0x52,0x96,0x2c,0x52,0x41,0x2d,
++0x52,0x4a,0x2e,0x52,0x9e,0x30,0x52,0x53,0x3b,0x52,0x86,0x3c,0x00,0x00,0x52,0xa6,
++0x90,0x91,0x19,0x12,0x43,0x21,0x02,0x64,0x72,0x90,0x91,0x19,0x12,0x43,0x21,0xc1,
++0xf5,0x90,0x91,0x19,0x12,0x43,0x21,0x02,0x65,0x8d,0x90,0x91,0x19,0x12,0x43,0x21,
++0x02,0x65,0xd5,0x90,0x91,0x19,0x12,0x43,0x21,0xe1,0x4b,0x90,0x91,0x19,0x12,0x43,
++0x21,0x02,0x66,0x0e,0x90,0x91,0x19,0x12,0x43,0x21,0x80,0x42,0x90,0x91,0x19,0x12,
++0x43,0x21,0x02,0x4c,0xab,0x90,0x91,0x19,0x12,0x43,0x21,0xe1,0x98,0x90,0x91,0x19,
++0x12,0x43,0x21,0x02,0x4d,0xe6,0x90,0x91,0x19,0x12,0x43,0x21,0x21,0x90,0x90,0x91,
++0x19,0x12,0x43,0x21,0xa1,0x9b,0x90,0x91,0x19,0x12,0x43,0x21,0x81,0x7a,0x90,0x91,
++0x19,0x12,0x43,0x21,0xe1,0x78,0x90,0x01,0xc6,0xe0,0x44,0x01,0xf0,0x22,0xd3,0x10,
++0xaf,0x01,0xc3,0xc0,0xd0,0x90,0x91,0x1c,0x12,0x43,0x41,0x90,0x91,0x1c,0x12,0x43,
++0x21,0x90,0x00,0x01,0x12,0x42,0x97,0xfa,0xe5,0xf0,0x24,0x00,0xff,0xe4,0x3a,0xfe,
++0x90,0x91,0x1c,0x12,0x43,0x21,0x90,0x00,0x01,0xee,0x8f,0xf0,0x12,0x42,0xcf,0x12,
++0x24,0x62,0xff,0x60,0x2c,0xb5,0x72,0x16,0x90,0x91,0x1c,0x12,0x43,0x21,0x90,0x00,
++0x01,0x12,0x42,0x97,0x65,0x74,0x70,0x04,0xe5,0x73,0x65,0xf0,0x60,0x23,0x90,0x91,
++0x1c,0x12,0x43,0x21,0x90,0x00,0x01,0x12,0x42,0x97,0xff,0xae,0xf0,0x71,0x26,0x80,
++0x10,0x90,0x91,0x1c,0x12,0x43,0x21,0x12,0x24,0x62,0x65,0x72,0x60,0x03,0x12,0x44,
++0xe8,0xd0,0xd0,0x92,0xaf,0x22,0x90,0x91,0x1f,0xee,0xf0,0xa3,0xef,0xf0,0x75,0x72,
++0x01,0x8e,0x73,0xf5,0x74,0xe4,0xfd,0x7f,0x0b,0x12,0x4f,0x10,0xe4,0xfd,0x7f,0x02,
++0x12,0x4f,0x10,0x71,0x6a,0xe4,0xff,0x71,0xcc,0xe4,0xf5,0x76,0x90,0x01,0xc9,0xe5,
++0x76,0xf0,0x90,0x91,0x1f,0xe0,0xfc,0xa3,0xe0,0xfd,0xec,0xfb,0x8d,0x44,0xe4,0xf5,
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++0x90,0x91,0x52,0xf0,0x90,0x91,0x55,0xe0,0xff,0x90,0x91,0x54,0xe0,0xb5,0x07,0x07,
++0x71,0x4e,0xe4,0x90,0x91,0x55,0xf0,0x22,0xe5,0x6d,0x64,0x01,0x70,0x63,0xe5,0x70,
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++0x90,0x91,0x27,0xef,0xf0,0x90,0x91,0x29,0xe0,0x60,0x03,0xe0,0x14,0xf0,0xe4,0x90,
++0x91,0x28,0xf0,0x90,0x01,0x57,0xf0,0x90,0x01,0x3c,0x74,0x02,0xf0,0x53,0x71,0xfd,
++0x53,0x71,0xef,0xe5,0x70,0x14,0x24,0xfd,0x50,0x02,0x80,0x03,0x12,0x45,0xc7,0x71,
++0x42,0x22,0xd3,0x10,0xaf,0x01,0xc3,0xc0,0xd0,0xd0,0xd0,0x92,0xaf,0x22,0xe5,0x6e,
++0x30,0xe3,0x04,0xe4,0xff,0x80,0x02,0x7f,0x01,0x02,0x47,0xc9,0x90,0x91,0x08,0xe0,
++0x54,0xf0,0x44,0x03,0xf0,0x54,0x0f,0x44,0x80,0xf0,0x7b,0x00,0x7a,0x00,0x79,0x58,
++0x90,0x91,0x71,0x12,0x43,0x41,0x0b,0x7a,0x91,0x79,0x08,0x02,0x46,0xb7,0x90,0x91,
++0x80,0x12,0x25,0x14,0x00,0x00,0x00,0x00,0xe5,0x70,0x14,0x24,0xfd,0x50,0x02,0x80,
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++0x0f,0xc3,0x94,0x04,0x50,0x07,0x7d,0x01,0x7f,0x04,0x12,0x47,0x27,0xe4,0xff,0x12,
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++0x39,0xe5,0x71,0x30,0xe2,0x08,0x90,0x01,0xb9,0x74,0x08,0xf0,0x80,0x2c,0xe5,0x71,
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++0x24,0xfd,0x60,0x27,0x24,0x02,0x24,0xfb,0x50,0x02,0x80,0x21,0x90,0x91,0x27,0xe0,
++0x14,0xf0,0xe0,0x60,0x04,0xa3,0xe0,0x60,0x14,0x90,0x91,0x27,0xe0,0x70,0x08,0x90,
++0x91,0x39,0xe0,0x90,0x91,0x27,0xf0,0x7b,0x01,0x80,0x02,0x7b,0x01,0xeb,0x60,0x45,
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++0x74,0x10,0xf0,0xe5,0x3d,0x30,0xe5,0x06,0x90,0x00,0x55,0x74,0x20,0xf0,0xe5,0x3d,
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++0x75,0xf0,0x04,0x90,0x01,0xd2,0x12,0x43,0x15,0xe0,0x90,0x91,0x15,0xf0,0x90,0x91,
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++0x90,0x04,0x80,0xe0,0x54,0x0f,0xfc,0x74,0x14,0x2d,0xf5,0x82,0xe4,0x34,0xfc,0xf5,
++0x83,0xe0,0x54,0xc0,0x4c,0xfd,0x74,0x14,0x2f,0xf5,0x82,0xe4,0x34,0xfc,0xf5,0x83,
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++0x54,0xef,0xf0,0x22,0xe4,0xf5,0x6d,0xf5,0x71,0xf5,0x70,0x75,0x6f,0x0c,0x75,0x6e,
++0x0c,0x90,0x91,0x3b,0xf0,0x90,0x91,0x37,0xf0,0x90,0x91,0x36,0xf0,0x90,0x91,0x39,
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++0x74,0x7e,0x0e,0x12,0x2b,0x08,0x90,0x90,0x94,0x12,0x43,0x09,0x90,0x80,0x96,0x12,
++0x25,0x08,0x7f,0x78,0x7e,0x0e,0x12,0x2b,0x08,0x90,0x90,0x98,0x12,0x43,0x09,0x90,
++0x80,0x96,0x12,0x25,0x08,0x7f,0x7c,0x7e,0x0e,0x12,0x2b,0x08,0x90,0x90,0x9c,0x12,
++0x43,0x09,0x90,0x80,0x96,0x12,0x25,0x08,0x7f,0x80,0x7e,0x0e,0x12,0x2b,0x08,0x90,
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++0x60,0x02,0x21,0x4b,0x90,0x90,0xe9,0xe0,0xc3,0x94,0xff,0x50,0x05,0xe0,0x04,0xf0,
++0x80,0x3b,0x90,0x90,0xea,0xe0,0xc3,0x94,0xff,0x50,0x06,0xe0,0x04,0xf0,0xe4,0x80,
++0x28,0x90,0x90,0xeb,0xe0,0xc3,0x94,0xff,0x50,0x0a,0xe0,0x04,0xf0,0xe4,0x90,0x90,
++0xea,0xf0,0x80,0x15,0x90,0x90,0xec,0xe0,0xc3,0x94,0xff,0x50,0x10,0xe0,0x04,0xf0,
++0xe4,0x90,0x90,0xeb,0xf0,0x90,0x90,0xea,0xf0,0x90,0x90,0xe9,0xf0,0x90,0x00,0x44,
++0xe0,0x54,0x0c,0x60,0x76,0xe0,0x30,0xe2,0x32,0x90,0x90,0xfd,0xe0,0xc3,0x94,0xff,
++0x50,0x05,0xe0,0x04,0xf0,0x80,0x24,0x90,0x90,0xfe,0xe0,0xc3,0x94,0xff,0x50,0x06,
++0xe0,0x04,0xf0,0xe4,0x80,0x11,0x90,0x90,0xff,0xe0,0xc3,0x94,0xff,0x50,0x0c,0xe0,
++0x04,0xf0,0xe4,0x90,0x90,0xfe,0xf0,0x90,0x90,0xfd,0xf0,0x90,0x00,0x44,0xe0,0x30,
++0xe3,0x32,0x90,0x91,0x00,0xe0,0xc3,0x94,0xff,0x50,0x05,0xe0,0x04,0xf0,0x80,0x24,
++0x90,0x91,0x01,0xe0,0xc3,0x94,0xff,0x50,0x06,0xe0,0x04,0xf0,0xe4,0x80,0x11,0x90,
++0x91,0x02,0xe0,0xc3,0x94,0xff,0x50,0x0c,0xe0,0x04,0xf0,0xe4,0x90,0x91,0x01,0xf0,
++0x90,0x91,0x00,0xf0,0x90,0x04,0xfd,0xe0,0x44,0x01,0xf0,0x22,0x90,0x06,0x90,0xe0,
++0x44,0x01,0xf0,0x90,0x91,0x61,0xe0,0x30,0xe0,0x3c,0x90,0x91,0x5f,0xe0,0xff,0x90,
++0x91,0x5e,0xe0,0xfe,0xc4,0x13,0x54,0x01,0xfd,0x12,0x4a,0xf6,0x90,0x91,0x60,0xe0,
++0x75,0xf0,0x20,0xa4,0xff,0xae,0xf0,0x12,0x32,0x15,0x90,0x91,0x5e,0xe0,0xc4,0x13,
++0x54,0x07,0x30,0xe0,0x07,0xa3,0xe0,0xff,0xe4,0xfd,0x80,0x07,0x90,0x91,0x5f,0xe0,
++0xff,0x7d,0x01,0x12,0x4a,0xf6,0x22,0xd3,0x10,0xaf,0x01,0xc3,0xc0,0xd0,0xe4,0x90,
++0x91,0x19,0xf0,0xa3,0x74,0x08,0xf0,0xa3,0xf0,0xe4,0xa3,0xf0,0x90,0x01,0x1f,0xe0,
++0xfe,0x90,0x01,0x1e,0xe0,0x7c,0x00,0x24,0x00,0xff,0xec,0x3e,0x90,0x91,0x11,0xf0,
++0xa3,0xef,0xf0,0x90,0x02,0x87,0xe0,0x90,0x91,0x18,0xf0,0x90,0x91,0x56,0xe0,0x20,
++0xe0,0x02,0x61,0xc4,0xe4,0x90,0x91,0x17,0xf0,0x90,0x91,0x18,0xe0,0xff,0x90,0x91,
++0x17,0xe0,0xc3,0x9f,0x40,0x02,0x61,0xc4,0x90,0x91,0x11,0xe0,0xfc,0xa3,0xe0,0xfd,
++0xec,0xff,0x90,0xfd,0x11,0xf0,0x90,0x91,0x1c,0xef,0xf0,0x74,0x02,0x2d,0xf5,0x82,
++0xe4,0x34,0xfb,0xf5,0x83,0xe0,0x54,0x0f,0xfc,0x33,0x33,0x33,0x54,0xf8,0xff,0xed,
++0x24,0x18,0x2f,0x90,0x91,0x15,0xf0,0xe0,0x24,0x00,0xf5,0x82,0xe4,0x34,0xfb,0xf5,
++0x83,0xe0,0x54,0xfc,0x90,0x91,0x16,0xf0,0x74,0x01,0x2d,0xf5,0x82,0xe4,0x34,0xfb,
++0xf5,0x83,0xe0,0xfe,0x74,0x00,0x2d,0xf5,0x82,0xe4,0x34,0xfb,0xf5,0x83,0xe0,0x7a,
++0x00,0x24,0x00,0xff,0xea,0x3e,0x54,0x3f,0xab,0x07,0xfa,0x90,0x91,0x13,0xf0,0xa3,
++0xeb,0xf0,0xaf,0x04,0xef,0x75,0xf0,0x08,0xa4,0x24,0x18,0xff,0xe4,0x35,0xf0,0xfe,
++0xef,0x2b,0xfb,0xee,0x3a,0xfa,0x90,0x91,0x5a,0xe0,0xfe,0xa3,0xe0,0xff,0xad,0x03,
++0xac,0x02,0x12,0x45,0x09,0xaa,0x06,0xab,0x07,0x90,0x91,0x15,0xe0,0x24,0x00,0xf5,
++0x82,0xe4,0x34,0xfb,0xf5,0x83,0xe0,0x30,0xe7,0x08,0x90,0x91,0x19,0x74,0x02,0xf0,
++0x80,0x05,0xe4,0x90,0x91,0x19,0xf0,0xaf,0x03,0x90,0x91,0x11,0xea,0x8f,0xf0,0x12,
++0x42,0x81,0x90,0x91,0x5c,0xe0,0xfe,0xa3,0xe0,0xff,0x90,0x91,0x11,0xe0,0xfc,0xa3,
++0xe0,0xfd,0xd3,0x9f,0xec,0x9e,0x40,0x1b,0x90,0x91,0x5d,0xe0,0x24,0x01,0xff,0x90,
++0x91,0x5c,0xe0,0x34,0x00,0xfe,0xc3,0xed,0x9f,0xff,0xec,0x9e,0x90,0x91,0x11,0xf0,
++0xa3,0xef,0xf0,0x90,0x91,0x16,0xe0,0xff,0x24,0x40,0x60,0x04,0x24,0x20,0x70,0x27,
++0x90,0x91,0x5e,0xe0,0xfe,0xc4,0x13,0x13,0x13,0x54,0x01,0x20,0xe0,0x02,0x61,0x9c,
++0xef,0x90,0x00,0x81,0xb4,0xa0,0x05,0xe0,0x44,0x04,0x80,0x03,0xe0,0x44,0x08,0xfd,
++0x7f,0x81,0x12,0x4b,0xee,0x61,0x95,0x90,0x91,0x5e,0xe0,0xc4,0x13,0x13,0x54,0x03,
++0x20,0xe0,0x02,0x61,0x9c,0x90,0x91,0x15,0xe0,0xff,0x24,0x00,0xf5,0x82,0xe4,0x34,
++0xfb,0xf5,0x83,0xe0,0x54,0x0c,0x64,0x08,0x70,0x72,0x90,0x91,0x19,0xe0,0xfe,0xef,
++0x2e,0xff,0xa3,0xe0,0x2f,0xff,0x24,0x1e,0xf5,0x82,0xe4,0x34,0xfb,0xf5,0x83,0xe0,
++0x64,0x88,0x70,0x58,0x74,0x1f,0x2f,0xf5,0x82,0xe4,0x34,0xfb,0xf5,0x83,0xe0,0x64,
++0x8e,0x70,0x49,0x90,0x91,0x19,0xe0,0xff,0x90,0x91,0x15,0xe0,0x2f,0xff,0x90,0x91,
++0x1a,0xe0,0x2f,0xff,0xa3,0xe0,0x2f,0xff,0x24,0x19,0xf5,0x82,0xe4,0x34,0xfb,0xf5,
++0x83,0xe0,0x64,0x03,0x70,0x26,0x74,0x1e,0x2f,0xf5,0x82,0xe4,0x34,0xfb,0xf5,0x83,
++0xe0,0x90,0x00,0x81,0x30,0xe3,0x05,0xe0,0x44,0x01,0x80,0x03,0xe0,0x44,0x02,0xfd,
++0x7f,0x81,0x12,0x4b,0xee,0x90,0x91,0x56,0xe0,0x44,0x80,0xf0,0x90,0x91,0x56,0xe0,
++0xff,0xc4,0x13,0x13,0x13,0x54,0x01,0x30,0xe0,0x02,0x31,0x4c,0x71,0xc9,0xbf,0x01,
++0x13,0x90,0x91,0x11,0xe0,0xfe,0xa3,0xe0,0xff,0x12,0x44,0xb5,0x90,0x91,0x17,0xe0,
++0x04,0xf0,0x21,0xd9,0xd0,0xd0,0x92,0xaf,0x22,0x90,0x91,0x56,0xe0,0xc4,0x13,0x13,
++0x13,0x54,0x01,0x30,0xe0,0x11,0xe0,0x44,0x80,0xf0,0x90,0x91,0x5e,0xe0,0xc4,0x54,
++0x0f,0x20,0xe0,0x03,0x7f,0x00,0x22,0x7f,0x01,0x22,0x8f,0x1f,0xe4,0x90,0x91,0x22,
++0xf0,0xe5,0x1f,0x14,0xfe,0x90,0x91,0x22,0xe0,0xff,0xc3,0x9e,0x50,0x0e,0xef,0x04,
++0xfd,0x12,0x2d,0x4d,0x90,0x91,0x22,0xe0,0x04,0xf0,0x80,0xe5,0xe5,0x1f,0x14,0xff,
++0x7d,0xff,0x12,0x2d,0x4d,0x90,0x91,0x22,0xe5,0x1f,0xf0,0x90,0x91,0x22,0xe0,0xc3,
++0x94,0xff,0x50,0x0f,0xe0,0xff,0x04,0xfd,0x12,0x2d,0x4d,0x90,0x91,0x22,0xe0,0x04,
++0xf0,0x80,0xe8,0xad,0x1f,0x7f,0xff,0x02,0x2d,0x4d,0xc3,0xee,0x94,0x01,0x40,0x0a,
++0x0d,0xed,0x13,0x90,0xfd,0x10,0xf0,0xe4,0x2f,0xff,0x22,0xc3,0xee,0x94,0x01,0x40,
++0x1e,0x90,0xfd,0x11,0xe0,0xb5,0x05,0x14,0x90,0x01,0x17,0xe0,0xb5,0x05,0x07,0x90,
++0xfd,0x11,0xe4,0xf0,0x80,0x06,0xed,0x04,0x90,0xfd,0x11,0xf0,0xe4,0x2f,0xff,0x22,
++0x14,0x25,};
++
++
++
++u8 Rtl8192CUFwUMCBCutWWImgArray[UMCBCutWWImgArrayLength] = {
++0xc2,0x88,0x02,0x00,0x51,0x00,0x00,0x00,0x03,0x23,0x16,0x45,0x66,0x34,0x01,0x00,
++0x58,0x92,0x01,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x02,0x43,0x9d,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x02,0x4a,0x22,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x02,0x57,0xe1,0x00,0x00,0x00,0x00,0x00,0x02,0x58,0xc4,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
++0xbb,0x01,0x0c,0xe5,0x82,0x29,0xf5,0x82,0xe5,0x83,0x3a,0xf5,0x83,0xe0,0x22,0x50,
++0x06,0xe9,0x25,0x82,0xf8,0xe6,0x22,0xbb,0xfe,0x06,0xe9,0x25,0x82,0xf8,0xe2,0x22,
++0xe5,0x82,0x29,0xf5,0x82,0xe5,0x83,0x3a,0xf5,0x83,0xe4,0x93,0x22,0xbb,0x01,0x06,
++0x89,0x82,0x8a,0x83,0xf0,0x22,0x50,0x02,0xf7,0x22,0xbb,0xfe,0x01,0xf3,0x22,0xf8,
++0xbb,0x01,0x0d,0xe5,0x82,0x29,0xf5,0x82,0xe5,0x83,0x3a,0xf5,0x83,0xe8,0xf0,0x22,
++0x50,0x06,0xe9,0x25,0x82,0xc8,0xf6,0x22,0xbb,0xfe,0x05,0xe9,0x25,0x82,0xc8,0xf2,
++0x22,0xc5,0xf0,0xf8,0xa3,0xe0,0x28,0xf0,0xc5,0xf0,0xf8,0xe5,0x82,0x15,0x82,0x70,
++0x02,0x15,0x83,0xe0,0x38,0xf0,0x22,0xbb,0x01,0x10,0xe5,0x82,0x29,0xf5,0x82,0xe5,
++0x83,0x3a,0xf5,0x83,0xe0,0xf5,0xf0,0xa3,0xe0,0x22,0x50,0x09,0xe9,0x25,0x82,0xf8,
++0x86,0xf0,0x08,0xe6,0x22,0xbb,0xfe,0x0a,0xe9,0x25,0x82,0xf8,0xe2,0xf5,0xf0,0x08,
++0xe2,0x22,0xe5,0x83,0x2a,0xf5,0x83,0xe9,0x93,0xf5,0xf0,0xa3,0xe9,0x93,0x22,0xf8,
++0xbb,0x01,0x11,0xe5,0x82,0x29,0xf5,0x82,0xe5,0x83,0x3a,0xf5,0x83,0xe8,0xf0,0xe5,
++0xf0,0xa3,0xf0,0x22,0x50,0x09,0xe9,0x25,0x82,0xc8,0xf6,0x08,0xa6,0xf0,0x22,0xbb,
++0xfe,0x09,0xe9,0x25,0x82,0xc8,0xf2,0xe5,0xf0,0x08,0xf2,0x22,0xef,0x4b,0xff,0xee,
++0x4a,0xfe,0xed,0x49,0xfd,0xec,0x48,0xfc,0x22,0xe0,0xfc,0xa3,0xe0,0xfd,0xa3,0xe0,
++0xfe,0xa3,0xe0,0xff,0x22,0xa4,0x25,0x82,0xf5,0x82,0xe5,0xf0,0x35,0x83,0xf5,0x83,
++0x22,0xe0,0xfb,0xa3,0xe0,0xfa,0xa3,0xe0,0xf9,0x22,0xf8,0xe0,0xfb,0xa3,0xa3,0xe0,
++0xf9,0x25,0xf0,0xf0,0xe5,0x82,0x15,0x82,0x70,0x02,0x15,0x83,0xe0,0xfa,0x38,0xf0,
++0x22,0xeb,0xf0,0xa3,0xea,0xf0,0xa3,0xe9,0xf0,0x22,0xd0,0x83,0xd0,0x82,0xf8,0xe4,
++0x93,0x70,0x12,0x74,0x01,0x93,0x70,0x0d,0xa3,0xa3,0x93,0xf8,0x74,0x01,0x93,0xf5,
++0x82,0x88,0x83,0xe4,0x73,0x74,0x02,0x93,0x68,0x60,0xef,0xa3,0xa3,0xa3,0x80,0xdf,
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++0x30,0xe1,0x21,0x90,0x01,0x34,0x74,0x02,0xf0,0x85,0xd1,0x58,0x85,0xd2,0x59,0x85,
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++0x5f,0x12,0x64,0x66,0xe5,0x2c,0x30,0xe3,0x10,0x90,0x01,0x34,0x74,0x08,0xf0,0x90,
++0x91,0x56,0xe0,0x30,0xe0,0x03,0x43,0x57,0x04,0xe5,0x2c,0x30,0xe4,0x09,0x90,0x01,
++0x34,0x74,0x10,0xf0,0x43,0x57,0x10,0xe5,0x2c,0x30,0xe5,0x24,0x90,0x01,0xcf,0xe0,
++0x30,0xe5,0x1d,0xe0,0x54,0xdf,0xf0,0x90,0x01,0x34,0x74,0x20,0xf0,0x75,0xa8,0x00,
++0x75,0xe8,0x00,0xd1,0x65,0x90,0x00,0x03,0xe0,0x54,0xfb,0xf0,0x91,0xa0,0x80,0xfe,
++0xe5,0x2c,0x30,0xe6,0x06,0x90,0x01,0x34,0x74,0x40,0xf0,0xe5,0x2e,0x30,0xe0,0x15,
++0x90,0x91,0x50,0x74,0x01,0xf0,0x90,0x01,0x36,0xf0,0x12,0x63,0x2e,0x12,0x70,0xee,
++0x90,0x91,0x50,0xe4,0xf0,0xe5,0x2e,0x30,0xe1,0x3b,0x90,0x01,0x36,0x74,0x02,0xf0,
++0x43,0x57,0x40,0x90,0x01,0x02,0xe0,0x54,0x03,0x64,0x01,0x70,0x28,0x90,0x01,0x37,
++0xe0,0x30,0xe0,0x0a,0x74,0x01,0xf0,0x90,0x91,0x40,0xe4,0xf0,0x80,0x17,0x90,0x91,
++0x40,0xe0,0x04,0xf0,0xe0,0xc3,0x94,0x0a,0x40,0x0b,0xe4,0xf0,0x90,0x04,0x19,0xe0,
++0x30,0xe0,0x02,0x51,0x0c,0xe5,0x2e,0x30,0xe2,0x1a,0x90,0x01,0x36,0x74,0x04,0xf0,
++0x90,0x91,0x3a,0xe4,0xf0,0x90,0x05,0x58,0x74,0x03,0xf0,0x12,0x62,0xb8,0x90,0x91,
++0x3f,0xe0,0x04,0xf0,0xe5,0x2e,0x30,0xe3,0x28,0x90,0x01,0x36,0x74,0x08,0xf0,0xe5,
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++0x14,0xe5,0x70,0x60,0x10,0x90,0x91,0x3b,0xe0,0x64,0x02,0x60,0x05,0x12,0x44,0xc8,
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++0x33,0xd8,0xfc,0xf4,0xff,0x90,0x00,0x47,0xe0,0x5f,0xf0,0x91,0xa0,0x90,0x91,0x9a,
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++0x91,0x98,0x90,0x91,0x9a,0xe0,0xff,0x74,0x01,0xa8,0x07,0x08,0x80,0x02,0xc3,0x33,
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++0x82,0x75,0x83,0x00,0xed,0xf0,0x91,0xa0,0xd0,0xd0,0x92,0xaf,0x22,0xef,0x14,0x60,
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++0x91,0x53,0xe0,0x54,0xfe,0xf0,0xe4,0x90,0x91,0x55,0xf0,0x90,0x91,0x53,0xe0,0x54,
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++0x90,0x06,0x35,0xe0,0x54,0x0f,0xf0,0x80,0x04,0x80,0x00,0xc1,0xf4,0xe4,0x90,0x06,
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++0xff,0x74,0x40,0x7e,0x00,0xa8,0x07,0x08,0x80,0x05,0xc3,0x33,0xce,0x33,0xce,0xd8,
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++0xf0,0xe0,0x54,0xfd,0xf0,0xe0,0x54,0xfb,0xf0,0xe0,0x54,0xf7,0xf0,0xe0,0x54,0xef,
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++0xd3,0x10,0xaf,0x01,0xc3,0xc0,0xd0,0x12,0x29,0xd9,0x54,0x01,0xff,0x90,0x91,0x56,
++0xe0,0x54,0xfe,0x4f,0xf0,0x90,0x00,0x01,0x12,0x42,0x20,0x90,0x91,0x57,0xf0,0x90,
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++0x90,0x06,0x09,0xe0,0x54,0xfe,0xf0,0x90,0x02,0x86,0xe0,0x44,0x04,0xf0,0x43,0x57,
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++0x75,0x90,0x02,0x86,0xe0,0x54,0xfb,0xf0,0x51,0x01,0x31,0x23,0xd0,0xd0,0x92,0xaf,
++0x22,0x90,0x06,0x90,0xe4,0xf0,0x21,0x6a,0x90,0x91,0x19,0x12,0x43,0x41,0xef,0x12,
++0x43,0x4a,0x52,0x40,0x01,0x52,0x49,0x02,0x52,0x6a,0x03,0x52,0x73,0x09,0x52,0x7b,
++0x0c,0x52,0x84,0x0d,0x52,0x8c,0x0e,0x52,0x9d,0x1a,0x52,0xa5,0x2c,0x52,0x51,0x2d,
++0x52,0x5a,0x2e,0x52,0xad,0x30,0x52,0x62,0x3b,0x52,0x95,0x3c,0x00,0x00,0x52,0xb5,
++0x90,0x91,0x19,0x12,0x43,0x21,0x02,0x64,0xde,0x90,0x91,0x19,0x12,0x43,0x21,0xc1,
++0xc5,0x90,0x91,0x19,0x12,0x43,0x21,0x02,0x65,0xf9,0x90,0x91,0x19,0x12,0x43,0x21,
++0xe1,0xa8,0x90,0x91,0x19,0x12,0x43,0x21,0xe1,0x28,0x90,0x91,0x19,0x12,0x43,0x21,
++0x02,0x66,0x41,0x90,0x91,0x19,0x12,0x43,0x21,0x80,0x42,0x90,0x91,0x19,0x12,0x43,
++0x21,0x02,0x5d,0x16,0x90,0x91,0x19,0x12,0x43,0x21,0xe1,0x75,0x90,0x91,0x19,0x12,
++0x43,0x21,0x02,0x4e,0x91,0x90,0x91,0x19,0x12,0x43,0x21,0x21,0xa0,0x90,0x91,0x19,
++0x12,0x43,0x21,0xa1,0x7f,0x90,0x91,0x19,0x12,0x43,0x21,0x81,0x5e,0x90,0x91,0x19,
++0x12,0x43,0x21,0xe1,0x55,0x90,0x01,0xc6,0xe0,0x44,0x01,0xf0,0x22,0xd3,0x10,0xaf,
++0x01,0xc3,0xc0,0xd0,0x90,0x91,0x1c,0x12,0x43,0x41,0x90,0x91,0x1c,0x12,0x43,0x21,
++0x90,0x00,0x01,0x12,0x42,0x97,0xfa,0xe5,0xf0,0x24,0x00,0xff,0xe4,0x3a,0xfe,0x90,
++0x91,0x1c,0x12,0x43,0x21,0x90,0x00,0x01,0xee,0x8f,0xf0,0x12,0x42,0xcf,0x12,0x29,
++0xd9,0xff,0x60,0x2c,0xb5,0x72,0x16,0x90,0x91,0x1c,0x12,0x43,0x21,0x90,0x00,0x01,
++0x12,0x42,0x97,0x65,0x74,0x70,0x04,0xe5,0x73,0x65,0xf0,0x60,0x23,0x90,0x91,0x1c,
++0x12,0x43,0x21,0x90,0x00,0x01,0x12,0x42,0x97,0xff,0xae,0xf0,0x71,0x35,0x80,0x10,
++0x90,0x91,0x1c,0x12,0x43,0x21,0x12,0x29,0xd9,0x65,0x72,0x60,0x03,0x12,0x44,0xe8,
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++0x8e,0x73,0xf5,0x74,0xe4,0xfd,0x7f,0x0b,0x71,0x77,0xe4,0xfd,0x7f,0x02,0x71,0x77,
++0x91,0x41,0xe4,0xff,0xd1,0xe7,0xe4,0xf5,0x76,0x90,0x01,0xc9,0xe5,0x76,0xf0,0x90,
++0x91,0x1f,0xe0,0xfc,0xa3,0xe0,0xfd,0xec,0xfb,0x8d,0x44,0xe4,0xf5,0x45,0x7d,0x01,
++0x7f,0x60,0x7e,0x01,0x02,0x35,0xab,0xd3,0x10,0xaf,0x01,0xc3,0xc0,0xd0,0x90,0x91,
++0x22,0xed,0xf0,0x90,0x91,0x21,0xef,0xf0,0xd3,0x94,0x07,0x50,0x4f,0xa3,0xe0,0x70,
++0x1a,0x90,0x91,0x21,0xe0,0xff,0x74,0x01,0xa8,0x07,0x08,0x80,0x02,0xc3,0x33,0xd8,
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++0x74,0x01,0xa8,0x07,0x08,0x80,0x02,0xc3,0x33,0xd8,0xfc,0xff,0x90,0x00,0x47,0xe0,
++0x4f,0xf0,0x12,0x4c,0xa0,0x90,0x91,0x21,0xe0,0xff,0x74,0x01,0xa8,0x07,0x08,0x80,
++0x02,0xc3,0x33,0xd8,0xfc,0xf4,0xff,0x90,0x00,0x46,0x80,0x5a,0x90,0x91,0x21,0xe0,
++0x24,0xf8,0xf0,0xa3,0xe0,0x70,0x1d,0x90,0x91,0x21,0xe0,0xff,0x74,0x01,0xa8,0x07,
++0x08,0x80,0x02,0xc3,0x33,0xd8,0xfc,0xc4,0x54,0xf0,0xf4,0xff,0x90,0x00,0x43,0xe0,
++0x5f,0xf0,0x80,0x1a,0x90,0x91,0x21,0xe0,0xff,0x74,0x01,0xa8,0x07,0x08,0x80,0x02,
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++0xfc,0xf4,0xff,0x90,0x00,0x43,0xe0,0x5f,0xf0,0x12,0x4c,0xa0,0xd0,0xd0,0x92,0xaf,
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++0x91,0x5e,0xe0,0xff,0xc4,0x13,0x54,0x01,0x90,0x01,0xb9,0xf0,0x90,0x91,0x61,0xe0,
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++0x29,0xd9,0xff,0xc3,0x13,0x30,0xe0,0x07,0x90,0x06,0x90,0xe0,0x44,0x02,0xf0,0xef,
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++0x90,0x91,0x61,0xe0,0x30,0xe0,0x1c,0x90,0x91,0x5e,0xe0,0xc4,0x13,0x54,0x07,0x30,
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++0x90,0x91,0x31,0xf0,0x90,0x91,0x31,0xe0,0x90,0x01,0xe7,0xf0,0x22,0x90,0x91,0x51,
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++0x30,0xe5,0x06,0x90,0x00,0x55,0x74,0x20,0xf0,0xe5,0x3d,0x30,0xe6,0x1b,0x90,0x00,
++0x55,0x74,0x40,0xf0,0x90,0x90,0xf6,0xe0,0x54,0x03,0xff,0xbf,0x03,0x0b,0x90,0x90,
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++0x01,0xc4,0x74,0xe1,0xf0,0x74,0x57,0xa3,0xf0,0xd0,0x07,0xd0,0x06,0xd0,0x05,0xd0,
++0x04,0xd0,0x03,0xd0,0x02,0xd0,0x01,0xd0,0x00,0xd0,0xd0,0xd0,0x82,0xd0,0x83,0xd0,
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++0x07,0x75,0x0d,0x00,0x90,0x01,0xc4,0x74,0xc4,0xf0,0x74,0x58,0xa3,0xf0,0x53,0x91,
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++0x90,0x01,0x3c,0x74,0x01,0xf0,0xe5,0x34,0x30,0xe1,0x08,0x90,0x01,0x3c,0x74,0x02,
++0xf0,0x71,0x89,0xe5,0x34,0x30,0xe2,0x3a,0x90,0x01,0x3c,0x74,0x04,0xf0,0x90,0x06,
++0x92,0xe0,0x30,0xe0,0x25,0x90,0x91,0x66,0xe4,0xf0,0x90,0x91,0x2d,0xe0,0x90,0x91,
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++0x34,0x30,0xe5,0x08,0x90,0x01,0x3c,0x74,0x20,0xf0,0x51,0x62,0xe5,0x35,0x30,0xe0,
++0x5a,0x90,0x01,0x3d,0x74,0x01,0xf0,0x90,0x01,0x2f,0xe0,0x44,0x7f,0xf0,0x90,0x00,
++0x83,0xe0,0x54,0x0f,0xf5,0x0d,0xb4,0x01,0x02,0x80,0x1c,0xe5,0x0d,0xb4,0x02,0x05,
++0x90,0x00,0x83,0x80,0x12,0xe5,0x0d,0xb4,0x04,0x05,0x90,0x00,0x83,0x80,0x08,0xe5,
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++0x90,0x01,0x3d,0x74,0x04,0xf0,0xe5,0x36,0x30,0xe0,0x06,0x90,0x01,0x3e,0x74,0x01,
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++0x90,0x90,0xed,0xe0,0x60,0x15,0x90,0x90,0xef,0x12,0x43,0x09,0x90,0x80,0x85,0x12,
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++0x91,0x04,0xe0,0x90,0x05,0x85,0xf0,0x90,0x91,0x05,0xe0,0x90,0x05,0x86,0xf0,0x90,
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++0x70,0x25,0x90,0x91,0x00,0xe0,0x70,0x1f,0x90,0x90,0xfe,0xe0,0x70,0x19,0x90,0x91,
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++0x74,0x01,0xa8,0x07,0x08,0x80,0x02,0xc3,0x33,0xd8,0xfc,0x90,0x01,0xcc,0xf0,0x90,
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++0x44,0x01,0xf0,0x90,0x04,0x80,0xe0,0x54,0x0f,0xfc,0x74,0x14,0x2d,0xf5,0x82,0xe4,
++0x34,0xfc,0xf5,0x83,0xe0,0x54,0xc0,0x4c,0xfd,0x74,0x14,0x2f,0xf5,0x82,0xe4,0x34,
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++0x0c,0x75,0x6e,0x0c,0x90,0x91,0x3b,0xf0,0x90,0x91,0x37,0xf0,0x90,0x91,0x36,0xf0,
++0x90,0x91,0x39,0x04,0xf0,0x90,0x91,0x27,0xf0,0xe4,0x90,0x91,0x3c,0xf0,0x90,0x91,
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++0xf0,0xa3,0x74,0x03,0xf0,0x90,0x91,0x2f,0x74,0x0a,0xf0,0xa3,0x74,0x05,0xf0,0x90,
++0x91,0x2d,0x74,0x14,0xf0,0x90,0x91,0x35,0x74,0x05,0xf0,0xe4,0x90,0x91,0x2b,0xf0,
++0x90,0x91,0x25,0xf0,0x90,0x91,0x50,0xf0,0x90,0x91,0x31,0xf0,0x90,0x91,0x3a,0xf0,
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++0x22,0x12,0x4c,0x89,0xef,0x64,0x01,0x60,0x08,0x90,0x01,0xb9,0x74,0x01,0xf0,0x80,
++0x30,0x90,0x91,0x37,0xe0,0x60,0x08,0x90,0x01,0xb9,0x74,0x02,0xf0,0x80,0x22,0x90,
++0x91,0x36,0xe0,0x60,0x08,0x90,0x01,0xb9,0x74,0x04,0xf0,0x80,0x14,0xe5,0x6f,0x54,
++0x0f,0xd3,0x94,0x04,0x40,0x08,0x90,0x01,0xb9,0x74,0x08,0xf0,0x80,0x03,0x7f,0x01,
++0x22,0x90,0x01,0xb8,0x74,0x08,0xf0,0x7f,0x00,0x22,0x12,0x4c,0x89,0xef,0x64,0x01,
++0x60,0x08,0x90,0x01,0xb9,0x74,0x01,0xf0,0x80,0x58,0xe5,0x71,0x54,0x03,0x60,0x08,
++0x90,0x01,0xb9,0x74,0x02,0xf0,0x80,0x4a,0xe5,0x6f,0x54,0x0f,0xd3,0x94,0x02,0x40,
++0x08,0x90,0x01,0xb9,0x74,0x04,0xf0,0x80,0x39,0xe5,0x71,0x30,0xe2,0x08,0x90,0x01,
++0xb9,0x74,0x08,0xf0,0x80,0x2c,0xe5,0x71,0x30,0xe4,0x08,0x90,0x01,0xb9,0x74,0x10,
++0xf0,0x80,0x1f,0x90,0x91,0x29,0xe0,0x60,0x08,0x90,0x01,0xb9,0x74,0x20,0xf0,0x80,
++0x11,0x90,0x91,0x31,0xe0,0x60,0x08,0x90,0x01,0xb9,0x74,0x80,0xf0,0x80,0x03,0x7f,
++0x01,0x22,0x90,0x01,0xb8,0x74,0x04,0xf0,0x7f,0x00,0x22,0x90,0x06,0x04,0xe0,0x54,
++0xbf,0xf0,0xef,0x60,0x0a,0xe5,0x6d,0xb4,0x01,0x05,0xe4,0xff,0x12,0x47,0xc9,0x53,
++0x6e,0xf0,0x43,0x6e,0x0c,0x22,0x90,0x91,0x9d,0xef,0xf0,0x31,0x9f,0x90,0x91,0x9d,
++0xe0,0x60,0x05,0x90,0x05,0x22,0xe4,0xf0,0x53,0x6e,0xf0,0x43,0x6e,0x04,0x22,0x90,
++0x90,0xd8,0x12,0x43,0x09,0x90,0x80,0x85,0x12,0x2a,0x7f,0x7f,0x78,0x7e,0x08,0x12,
++0x2f,0xd9,0x90,0x90,0xdc,0x12,0x43,0x09,0x90,0x80,0x85,0x12,0x2a,0x7f,0x7f,0x04,
++0x7e,0x0c,0x12,0x2f,0xd9,0x90,0x90,0xe0,0x12,0x43,0x09,0x90,0x80,0x85,0x12,0x2a,
++0x7f,0x7f,0x00,0x7e,0x08,0x12,0x2f,0xd9,0x90,0x90,0xe4,0x12,0x43,0x09,0x90,0x80,
++0x85,0x12,0x2a,0x7f,0x7f,0x70,0x7e,0x0e,0x12,0x2f,0xd9,0x90,0x80,0x59,0x12,0x2a,
++0x8b,0x00,0x03,0x2d,0x95,0xe4,0xfd,0xff,0x12,0x34,0x81,0x90,0x91,0x51,0xe0,0xb4,
++0x01,0x11,0x90,0x80,0x59,0x12,0x2a,0x8b,0x00,0x03,0x2d,0x95,0xe4,0xfd,0x7f,0x01,
++0x12,0x34,0x81,0x22,0x8f,0x77,0xe4,0x90,0x91,0x96,0xf0,0xa3,0xf0,0x90,0x01,0x09,
++0xe0,0x7f,0x00,0x30,0xe7,0x02,0x7f,0x01,0xef,0x65,0x77,0x60,0x3e,0xc3,0x90,0x91,
++0x97,0xe0,0x94,0x88,0x90,0x91,0x96,0xe0,0x94,0x13,0x40,0x08,0x90,0x01,0xc6,0xe0,
++0x44,0x80,0xf0,0x22,0x90,0x91,0x96,0xe4,0x75,0xf0,0x01,0x12,0x42,0x81,0x7f,0x14,
++0x7e,0x00,0x12,0x37,0x54,0xd3,0x90,0x91,0x97,0xe0,0x94,0x32,0x90,0x91,0x96,0xe0,
++0x94,0x00,0x40,0xb9,0x90,0x01,0xc7,0xe0,0x30,0xe0,0xb2,0x22,0x53,0x6e,0xf0,0x43,
++0x6e,0x01,0x12,0x45,0x00,0x12,0x45,0x01,0x53,0x6e,0xf0,0x43,0x6e,0x02,0x22,0x8f,
++0x78,0x12,0x47,0xe6,0xef,0x64,0x01,0x70,0x2e,0x90,0x91,0x44,0x12,0x48,0x1e,0xe5,
++0x78,0x60,0x10,0x74,0x21,0x2f,0xf5,0x82,0xe4,0x34,0xfc,0xf5,0x83,0xe0,0x44,0x10,
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++0xab,0xe0,0x90,0x91,0x27,0xf0,0x90,0x06,0xaa,0xe0,0x90,0x91,0x39,0xf0,0x90,0x91,
++0x27,0xe0,0x70,0x07,0x90,0x91,0x39,0xe0,0xff,0x80,0x05,0x90,0x91,0x27,0xe0,0xff,
++0x90,0x91,0x27,0xef,0xf0,0x90,0x91,0x29,0xe0,0x60,0x03,0xe0,0x14,0xf0,0xe4,0x90,
++0x91,0x28,0xf0,0x90,0x01,0x57,0xf0,0x90,0x01,0x3c,0x74,0x02,0xf0,0x53,0x71,0xfd,
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++0x22,0x22,0xd3,0x10,0xaf,0x01,0xc3,0xc0,0xd0,0xd0,0xd0,0x92,0xaf,0x22,0xe4,0xfb,
++0x90,0x91,0x78,0x12,0x2a,0x8b,0x00,0x00,0x00,0x00,0xe5,0x70,0x70,0x02,0x61,0xc0,
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++0x02,0x24,0xfb,0x50,0x02,0x80,0x21,0x90,0x91,0x27,0xe0,0x14,0xf0,0xe0,0x60,0x04,
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++0x27,0xf0,0x7b,0x01,0x80,0x02,0x7b,0x01,0xeb,0x60,0x45,0x43,0x71,0x10,0xe4,0x90,
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++0x71,0x10,0xe4,0x90,0x91,0x66,0xf0,0x90,0x91,0x3a,0xe0,0x75,0xf0,0x05,0xa4,0xff,
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++0x78,0x60,0x05,0x74,0x0d,0xf0,0x80,0x03,0x74,0x09,0xf0,0x90,0x05,0x22,0xe4,0xf0,
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++0x91,0x84,0xee,0xf0,0xa3,0xef,0xf0,0xe4,0xa3,0xf0,0xa3,0xf0,0x90,0x91,0x84,0xe0,
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++0x90,0x80,0x85,0x12,0x2a,0x7f,0x7f,0x60,0x7e,0x08,0x12,0x2f,0xd9,0x90,0x91,0x1f,
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++0x12,0x2a,0x7f,0x90,0x91,0x1f,0x12,0x43,0x09,0x90,0x80,0x85,0x12,0x2a,0x7f,0x7f,
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++0x90,0x01,0xe6,0xf0,0xd0,0xd0,0x92,0xaf,0x22,0x90,0x00,0x02,0x12,0x42,0x20,0xff,
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++0x30,0x74,0x05,0xf0,0x90,0x91,0x2d,0x74,0x14,0xf0,0x90,0x91,0x35,0x74,0x05,0xf0,
++0x22,0x90,0x02,0x09,0xe0,0xfd,0x12,0x29,0xd9,0xfe,0xaf,0x05,0xed,0x2e,0x90,0x91,
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++0x90,0x91,0x47,0xe0,0x90,0x91,0x1d,0xf0,0x90,0x91,0x48,0xe0,0xf5,0x19,0xa3,0xe0,
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++0x90,0x91,0x1d,0xe0,0x12,0x43,0x4a,0x66,0xe6,0x00,0x68,0x13,0x01,0x66,0xee,0x02,
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++0x94,0x08,0x50,0x4a,0xe4,0xf5,0x16,0x90,0x91,0x1c,0xe0,0xff,0xe5,0x16,0xc3,0x9f,
++0x40,0x03,0x02,0x68,0x13,0xc3,0xe5,0x19,0x94,0x01,0x50,0x14,0xe5,0x16,0x25,0x1a,
++0xff,0xc3,0x74,0x03,0x95,0x16,0x24,0x1b,0xf8,0xe6,0xfd,0x12,0x4d,0xa8,0x80,0x1a,
++0xc3,0x74,0x03,0x95,0x16,0x24,0x1b,0xf8,0xe6,0xff,0xe5,0x16,0x7c,0x00,0x25,0x1a,
++0xfd,0xec,0x35,0x19,0x8d,0x82,0xf5,0x83,0xef,0xf0,0x05,0x16,0x80,0xb9,0xc3,0xe5,
++0x19,0x94,0x10,0x40,0x03,0x02,0x68,0x13,0x90,0x91,0x1d,0xe0,0x64,0x04,0x60,0x03,
++0x02,0x68,0x13,0xaf,0x1c,0xfc,0xfd,0xfe,0x78,0x10,0x12,0x2a,0x6c,0xc0,0x04,0xc0,
++0x05,0xc0,0x06,0xc0,0x07,0xaf,0x1b,0xe4,0xfc,0xfd,0xfe,0x78,0x18,0x12,0x2a,0x6c,
++0xd0,0x03,0xd0,0x02,0xd0,0x01,0xd0,0x00,0x12,0x42,0xfc,0xc0,0x04,0xc0,0x05,0xc0,
++0x06,0xc0,0x07,0xaf,0x1d,0xe4,0xfc,0xfd,0xfe,0x78,0x08,0x12,0x2a,0x6c,0xd0,0x03,
++0xd0,0x02,0xd0,0x01,0xd0,0x00,0x12,0x42,0xfc,0xa8,0x04,0xa9,0x05,0xaa,0x06,0xab,
++0x07,0xaf,0x1e,0xe4,0xfc,0xfd,0xfe,0x12,0x42,0xfc,0xa3,0x12,0x2a,0x7f,0x90,0x91,
++0x1e,0x12,0x43,0x09,0x90,0x80,0x85,0x12,0x2a,0x7f,0xaf,0x1a,0xae,0x19,0x12,0x2f,
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++0x91,0x88,0x12,0x43,0x09,0xef,0x44,0x01,0xff,0xec,0x90,0x91,0x88,0x12,0x2a,0x7f,
++0x90,0x91,0x88,0x12,0x43,0x09,0x90,0x80,0x85,0x12,0x2a,0x7f,0x7f,0x04,0x7e,0x08,
++0x12,0x2f,0xd9,0xe4,0x90,0x90,0xe8,0xf0,0x22,0xd3,0x10,0xaf,0x01,0xc3,0xc0,0xd0,
++0x90,0x91,0xa0,0xef,0xf0,0xd3,0x94,0x07,0x50,0x47,0xe0,0xff,0x74,0x01,0xa8,0x07,
++0x08,0x80,0x02,0xc3,0x33,0xd8,0xfc,0xf4,0xff,0x90,0x00,0x46,0xe0,0x5f,0xf0,0x12,
++0x4c,0xa0,0x90,0x91,0xa0,0xe0,0xfd,0x74,0x01,0x7e,0x00,0xa8,0x05,0x08,0x80,0x05,
++0xc3,0x33,0xce,0x33,0xce,0xd8,0xf9,0xff,0x90,0x00,0x44,0xe0,0xfb,0xe4,0xfe,0xef,
++0x5b,0xa8,0x05,0x08,0x80,0x06,0xce,0xa2,0xe7,0x13,0xce,0x13,0xd8,0xf8,0xff,0x80,
++0x44,0x90,0x91,0xa0,0xe0,0x24,0xf8,0xf0,0xe0,0xff,0x74,0x01,0xa8,0x07,0x08,0x80,
++0x02,0xc3,0x33,0xd8,0xfc,0x12,0x4c,0x98,0x90,0x91,0xa0,0xe0,0xfd,0x74,0x01,0x7e,
++0x00,0xa8,0x05,0x08,0x80,0x05,0xc3,0x33,0xce,0x33,0xce,0xd8,0xf9,0xff,0x90,0x00,
++0x42,0xe0,0xfb,0xe4,0xfe,0xef,0x5b,0xa8,0x05,0x08,0x80,0x06,0xce,0xa2,0xe7,0x13,
++0xce,0x13,0xd8,0xf8,0xff,0xd0,0xd0,0x92,0xaf,0x22,0xe4,0xfd,0x7f,0x45,0x12,0x4d,
++0xa8,0x90,0x04,0xfd,0xe4,0xf0,0xa3,0xf0,0x90,0x90,0xf7,0xf0,0x90,0x90,0xfd,0xf0,
++0x90,0x91,0x00,0xf0,0x90,0x90,0xfe,0xf0,0x90,0x91,0x01,0xf0,0x90,0x90,0xff,0xf0,
++0x90,0x91,0x02,0xf0,0x90,0x90,0xe9,0x04,0xf0,0xe4,0xa3,0xf0,0xa3,0xf0,0xa3,0xf0,
++0x90,0x90,0xee,0xf0,0x90,0x90,0xf3,0xf0,0x90,0x90,0xf5,0xf0,0x90,0x91,0x07,0xf0,
++0x90,0x90,0xf8,0xf0,0x90,0x90,0xf4,0xf0,0x90,0x90,0xed,0xf0,0x90,0x00,0x51,0xe0,
++0x44,0xc0,0xfd,0x7f,0x51,0x02,0x4d,0xa8,0x90,0x91,0x07,0xe0,0x64,0x01,0x60,0x08,
++0x90,0x90,0xf5,0xe0,0x60,0x02,0x01,0xdf,0x90,0x90,0xe9,0xe0,0xc3,0x94,0xff,0x50,
++0x05,0xe0,0x04,0xf0,0x80,0x3b,0x90,0x90,0xea,0xe0,0xc3,0x94,0xff,0x50,0x06,0xe0,
++0x04,0xf0,0xe4,0x80,0x28,0x90,0x90,0xeb,0xe0,0xc3,0x94,0xff,0x50,0x0a,0xe0,0x04,
++0xf0,0xe4,0x90,0x90,0xea,0xf0,0x80,0x15,0x90,0x90,0xec,0xe0,0xc3,0x94,0xff,0x50,
++0x10,0xe0,0x04,0xf0,0xe4,0x90,0x90,0xeb,0xf0,0x90,0x90,0xea,0xf0,0x90,0x90,0xe9,
++0xf0,0x90,0x00,0x44,0xe0,0x54,0x0c,0x60,0x76,0xe0,0x30,0xe2,0x32,0x90,0x90,0xfd,
++0xe0,0xc3,0x94,0xff,0x50,0x05,0xe0,0x04,0xf0,0x80,0x24,0x90,0x90,0xfe,0xe0,0xc3,
++0x94,0xff,0x50,0x06,0xe0,0x04,0xf0,0xe4,0x80,0x11,0x90,0x90,0xff,0xe0,0xc3,0x94,
++0xff,0x50,0x0c,0xe0,0x04,0xf0,0xe4,0x90,0x90,0xfe,0xf0,0x90,0x90,0xfd,0xf0,0x90,
++0x00,0x44,0xe0,0x30,0xe3,0x32,0x90,0x91,0x00,0xe0,0xc3,0x94,0xff,0x50,0x05,0xe0,
++0x04,0xf0,0x80,0x24,0x90,0x91,0x01,0xe0,0xc3,0x94,0xff,0x50,0x06,0xe0,0x04,0xf0,
++0xe4,0x80,0x11,0x90,0x91,0x02,0xe0,0xc3,0x94,0xff,0x50,0x0c,0xe0,0x04,0xf0,0xe4,
++0x90,0x91,0x01,0xf0,0x90,0x91,0x00,0xf0,0x90,0x04,0xfd,0xe0,0x44,0x01,0xf0,0x22,
++0xe5,0x6e,0x30,0xe3,0x04,0xe4,0xff,0x80,0x02,0x7f,0x01,0x02,0x47,0xc9,0x90,0x91,
++0x53,0xe0,0x30,0xe0,0x49,0xe5,0x6d,0x64,0x01,0x70,0x43,0x90,0x91,0x52,0xe0,0x04,
++0xf0,0xe5,0x70,0x64,0x03,0x60,0x05,0xe5,0x70,0xb4,0x06,0x0d,0x90,0x91,0x52,0xe0,
++0xff,0x74,0x01,0xd3,0x9f,0x50,0x14,0x80,0x07,0x90,0x91,0x52,0xe0,0xb4,0x0a,0x0b,
++0x90,0x91,0x55,0xe0,0x04,0xf0,0xe4,0x90,0x91,0x52,0xf0,0x90,0x91,0x55,0xe0,0xff,
++0x90,0x91,0x54,0xe0,0xb5,0x07,0x07,0x11,0xe0,0xe4,0x90,0x91,0x55,0xf0,0x22,0x90,
++0x06,0x90,0xe0,0x44,0x01,0xf0,0x90,0x91,0x61,0xe0,0x30,0xe0,0x3c,0x90,0x91,0x5f,
++0xe0,0xff,0x90,0x91,0x5e,0xe0,0xfe,0xc4,0x13,0x54,0x01,0xfd,0x12,0x4c,0xb0,0x90,
++0x91,0x60,0xe0,0x75,0xf0,0x20,0xa4,0xff,0xae,0xf0,0x12,0x37,0x54,0x90,0x91,0x5e,
++0xe0,0xc4,0x13,0x54,0x07,0x30,0xe0,0x07,0xa3,0xe0,0xff,0xe4,0xfd,0x80,0x07,0x90,
++0x91,0x5f,0xe0,0xff,0x7d,0x01,0x12,0x4c,0xb0,0x22,0xd3,0x10,0xaf,0x01,0xc3,0xc0,
++0xd0,0xe4,0x90,0x91,0x19,0xf0,0xa3,0x74,0x08,0xf0,0xa3,0xf0,0xe4,0xa3,0xf0,0x90,
++0x01,0x1f,0xe0,0xfe,0x90,0x01,0x1e,0xe0,0x7c,0x00,0x24,0x00,0xff,0xec,0x3e,0x90,
++0x91,0x11,0xf0,0xa3,0xef,0xf0,0x90,0x02,0x87,0xe0,0x90,0x91,0x18,0xf0,0x90,0x91,
++0x56,0xe0,0x20,0xe0,0x02,0x61,0xb7,0xe4,0x90,0x91,0x17,0xf0,0x90,0x91,0x18,0xe0,
++0xff,0x90,0x91,0x17,0xe0,0xc3,0x9f,0x40,0x02,0x61,0xb7,0x90,0x91,0x11,0xe0,0xfc,
++0xa3,0xe0,0xfd,0xec,0xff,0x90,0xfd,0x11,0xf0,0x90,0x91,0x1c,0xef,0xf0,0x74,0x02,
++0x2d,0xf5,0x82,0xe4,0x34,0xfb,0xf5,0x83,0xe0,0x54,0x0f,0xfc,0x33,0x33,0x33,0x54,
++0xf8,0xff,0xed,0x24,0x18,0x2f,0x90,0x91,0x15,0xf0,0xe0,0x24,0x00,0xf5,0x82,0xe4,
++0x34,0xfb,0xf5,0x83,0xe0,0x54,0xfc,0x90,0x91,0x16,0xf0,0x74,0x01,0x2d,0xf5,0x82,
++0xe4,0x34,0xfb,0xf5,0x83,0xe0,0xfe,0x74,0x00,0x2d,0xf5,0x82,0xe4,0x34,0xfb,0xf5,
++0x83,0xe0,0x7a,0x00,0x24,0x00,0xff,0xea,0x3e,0x54,0x3f,0xab,0x07,0xfa,0x90,0x91,
++0x13,0xf0,0xa3,0xeb,0xf0,0xaf,0x04,0xef,0x75,0xf0,0x08,0xa4,0x24,0x18,0xff,0xe4,
++0x35,0xf0,0xfe,0xef,0x2b,0xfb,0xee,0x3a,0xfa,0x90,0x91,0x5a,0xe0,0xfe,0xa3,0xe0,
++0xff,0xad,0x03,0xac,0x02,0x12,0x45,0x09,0xaa,0x06,0xab,0x07,0x90,0x91,0x15,0xe0,
++0x24,0x00,0xf5,0x82,0xe4,0x34,0xfb,0xf5,0x83,0xe0,0x30,0xe7,0x08,0x90,0x91,0x19,
++0x74,0x02,0xf0,0x80,0x05,0xe4,0x90,0x91,0x19,0xf0,0xaf,0x03,0x90,0x91,0x11,0xea,
++0x8f,0xf0,0x12,0x42,0x81,0x90,0x91,0x5c,0xe0,0xfe,0xa3,0xe0,0xff,0x90,0x91,0x11,
++0xe0,0xfc,0xa3,0xe0,0xfd,0xd3,0x9f,0xec,0x9e,0x40,0x1b,0x90,0x91,0x5d,0xe0,0x24,
++0x01,0xff,0x90,0x91,0x5c,0xe0,0x34,0x00,0xfe,0xc3,0xed,0x9f,0xff,0xec,0x9e,0x90,
++0x91,0x11,0xf0,0xa3,0xef,0xf0,0x90,0x91,0x16,0xe0,0xff,0x24,0x40,0x60,0x04,0x24,
++0x20,0x70,0x27,0x90,0x91,0x5e,0xe0,0xfe,0xc4,0x13,0x13,0x13,0x54,0x01,0x20,0xe0,
++0x02,0x61,0x8f,0xef,0x90,0x00,0x81,0xb4,0xa0,0x05,0xe0,0x44,0x04,0x80,0x03,0xe0,
++0x44,0x08,0xfd,0x7f,0x81,0x12,0x4d,0xa8,0x61,0x88,0x90,0x91,0x5e,0xe0,0xc4,0x13,
++0x13,0x54,0x03,0x20,0xe0,0x02,0x61,0x8f,0x90,0x91,0x15,0xe0,0xff,0x24,0x00,0xf5,
++0x82,0xe4,0x34,0xfb,0xf5,0x83,0xe0,0x54,0x0c,0x64,0x08,0x70,0x72,0x90,0x91,0x19,
++0xe0,0xfe,0xef,0x2e,0xff,0xa3,0xe0,0x2f,0xff,0x24,0x1e,0xf5,0x82,0xe4,0x34,0xfb,
++0xf5,0x83,0xe0,0x64,0x88,0x70,0x58,0x74,0x1f,0x2f,0xf5,0x82,0xe4,0x34,0xfb,0xf5,
++0x83,0xe0,0x64,0x8e,0x70,0x49,0x90,0x91,0x19,0xe0,0xff,0x90,0x91,0x15,0xe0,0x2f,
++0xff,0x90,0x91,0x1a,0xe0,0x2f,0xff,0xa3,0xe0,0x2f,0xff,0x24,0x19,0xf5,0x82,0xe4,
++0x34,0xfb,0xf5,0x83,0xe0,0x64,0x03,0x70,0x26,0x74,0x1e,0x2f,0xf5,0x82,0xe4,0x34,
++0xfb,0xf5,0x83,0xe0,0x90,0x00,0x81,0x30,0xe3,0x05,0xe0,0x44,0x01,0x80,0x03,0xe0,
++0x44,0x02,0xfd,0x7f,0x81,0x12,0x4d,0xa8,0x90,0x91,0x56,0xe0,0x44,0x80,0xf0,0x90,
++0x91,0x56,0xe0,0xff,0xc4,0x13,0x13,0x13,0x54,0x01,0x30,0xe0,0x02,0x31,0x3f,0x71,
++0xbc,0xbf,0x01,0x13,0x90,0x91,0x11,0xe0,0xfe,0xa3,0xe0,0xff,0x12,0x44,0xb5,0x90,
++0x91,0x17,0xe0,0x04,0xf0,0x21,0xcc,0xd0,0xd0,0x92,0xaf,0x22,0x90,0x91,0x56,0xe0,
++0xc4,0x13,0x13,0x13,0x54,0x01,0x30,0xe0,0x11,0xe0,0x44,0x80,0xf0,0x90,0x91,0x5e,
++0xe0,0xc4,0x54,0x0f,0x20,0xe0,0x03,0x7f,0x00,0x22,0x7f,0x01,0x22,0x8f,0x1f,0xe4,
++0x90,0x91,0x22,0xf0,0xe5,0x1f,0x14,0xfe,0x90,0x91,0x22,0xe0,0xff,0xc3,0x9e,0x50,
++0x0e,0xef,0x04,0xfd,0x12,0x34,0xb7,0x90,0x91,0x22,0xe0,0x04,0xf0,0x80,0xe5,0xe5,
++0x1f,0x14,0xff,0x7d,0xff,0x12,0x34,0xb7,0x90,0x91,0x22,0xe5,0x1f,0xf0,0x90,0x91,
++0x22,0xe0,0xc3,0x94,0xff,0x50,0x0f,0xe0,0xff,0x04,0xfd,0x12,0x34,0xb7,0x90,0x91,
++0x22,0xe0,0x04,0xf0,0x80,0xe8,0xad,0x1f,0x7f,0xff,0x02,0x34,0xb7,0xc3,0xee,0x94,
++0x01,0x40,0x0a,0x0d,0xed,0x13,0x90,0xfd,0x10,0xf0,0xe4,0x2f,0xff,0x22,0xc3,0xee,
++0x94,0x01,0x40,0x1e,0x90,0xfd,0x11,0xe0,0xb5,0x05,0x14,0x90,0x01,0x17,0xe0,0xb5,
++0x05,0x07,0x90,0xfd,0x11,0xe4,0xf0,0x80,0x06,0xed,0x04,0x90,0xfd,0x11,0xf0,0xe4,
++0x2f,0xff,0x22,0x00,0x18,0x58,};
++
++
++
++
++
++
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/rtl8192cu_led.c b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/rtl8192cu_led.c
+new file mode 100755
+index 0000000..0d7af4a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/rtl8192cu_led.c
+@@ -0,0 +1,2675 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include "drv_types.h"
++#include "rtl8192c_hal.h"
++
++//================================================================================
++//	Constant.
++//================================================================================
++
++//
++// Default LED behavior.
++//
++#define LED_BLINK_NORMAL_INTERVAL	100
++#define LED_BLINK_SLOWLY_INTERVAL	200
++#define LED_BLINK_LONG_INTERVAL	400
++
++#define LED_BLINK_NO_LINK_INTERVAL_ALPHA		1000
++#define LED_BLINK_LINK_INTERVAL_ALPHA			500		//500
++#define LED_BLINK_SCAN_INTERVAL_ALPHA		180 	//150
++#define LED_BLINK_FASTER_INTERVAL_ALPHA		50
++#define LED_BLINK_WPS_SUCESS_INTERVAL_ALPHA	5000
++
++//================================================================================
++// LED object.
++//================================================================================
++
++
++//================================================================================
++//	Prototype of protected function.
++//================================================================================
++
++
++static void
++BlinkTimerCallback(
++	unsigned long data
++	);
++
++static void
++BlinkWorkItemCallback(
++	struct work_struct *work
++	);
++
++//
++//	Description:
++//		Reset blinking status of LED_871x object.
++//
++static void
++ResetLedStatus(PLED_871x	pLed) {
++	pLed->CurrLedState = RTW_LED_OFF; // Current LED state.
++	pLed->bLedOn = _FALSE; // true if LED is ON, false if LED is OFF.
++	
++	pLed->bLedBlinkInProgress = _FALSE; // true if it is blinking, false o.w..
++	pLed->bLedNoLinkBlinkInProgress = _FALSE;
++	pLed->bLedLinkBlinkInProgress = _FALSE;
++	pLed->bLedStartToLinkBlinkInProgress = _FALSE;
++	pLed->bLedScanBlinkInProgress = _FALSE;
++	pLed->bLedWPSBlinkInProgress = _FALSE;
++	pLed->BlinkTimes = 0; // Number of times to toggle led state for blinking.
++	pLed->BlinkingLedState = LED_UNKNOWN; // Next state for blinking, either RTW_LED_ON or RTW_LED_OFF are.
++}
++
++//================================================================================
++// LED_819xUsb routines. 
++//================================================================================
++
++//
++//	Description:
++//		Initialize an LED_871x object.
++//
++static void
++InitLed871x(
++	_adapter			*padapter,
++	PLED_871x		pLed,
++	LED_PIN_871x	LedPin
++	)
++{
++	pLed->padapter = padapter;
++	pLed->LedPin = LedPin;
++
++	ResetLedStatus(pLed);
++
++	_init_timer(&(pLed->BlinkTimer), padapter->pnetdev, BlinkTimerCallback, pLed);
++	_init_workitem(&(pLed->BlinkWorkItem), BlinkWorkItemCallback, pLed);
++}
++
++
++//
++//	Description:
++//		DeInitialize an LED_871x object.
++//
++static void
++DeInitLed871x(
++	PLED_871x			pLed
++	)
++{
++	//call _cancel_workitem_sync(&(pLed->BlinkWorkItem)) 
++    //before _cancel_timer_ex(&(pLed->BlinkTimer)) to 
++    //avoid led timer restarting when driver is removed
++
++	_cancel_workitem_sync(&(pLed->BlinkWorkItem));
++	
++	_cancel_timer_ex(&(pLed->BlinkTimer));
++	
++	// We should reset bLedBlinkInProgress if we cancel the LedControlTimer, 2005.03.10, by rcnjko.
++	ResetLedStatus(pLed);
++}
++
++//
++//	Description:
++//		Turn on LED according to LedPin specified.
++//
++static void
++SwLedOn(
++	_adapter			*padapter, 
++	PLED_871x		pLed
++)
++{
++	u8	LedCfg;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	if( (padapter->bSurpriseRemoved == _TRUE) || ( padapter->bDriverStopped == _TRUE))
++	{
++		return;
++	}
++
++	if( 	(BOARD_MINICARD == pHalData->BoardType )||
++		(BOARD_USB_SOLO == pHalData->BoardType)||
++		(BOARD_USB_COMBO == pHalData->BoardType))
++	{
++		LedCfg = rtw_read8(padapter, REG_LEDCFG2);
++		switch(pLed->LedPin)
++		{	
++			case LED_PIN_GPIO0:
++				break;
++
++			case LED_PIN_LED0:
++				rtw_write8(padapter, REG_LEDCFG2, (LedCfg&0xf0)|BIT5|BIT6); // SW control led0 on.
++				break;
++
++			case LED_PIN_LED1:
++				rtw_write8(padapter, REG_LEDCFG2, (LedCfg&0x0f)|BIT5); // SW control led1 on.
++				break;
++
++			default:
++				break;
++	
++		}
++	}
++	else
++	{	
++		switch(pLed->LedPin)
++		{
++			case LED_PIN_GPIO0:
++				break;
++
++			case LED_PIN_LED0:
++#ifdef CONFIG_SW_ANTENNA_DIVERSITY
++				if(pHalData->AntDivCfg)
++				{
++					LedCfg = rtw_read8(padapter, REG_LEDCFG2);
++					rtw_write8(padapter, REG_LEDCFG2, (LedCfg&0xe0)|BIT7|BIT6|BIT5); // SW control led0 on.
++					//RT_TRACE(COMP_LED, DBG_LOUD, ("SwLedOn LED0 0x%x\n", PlatformEFIORead4Byte(Adapter, REG_LEDCFG2)));
++				}
++				else
++#endif
++				{
++					LedCfg = rtw_read8(padapter, REG_LEDCFG0);
++					rtw_write8(padapter,REG_LEDCFG0, LedCfg&0x70); // SW control led0 on.
++					//RT_TRACE(COMP_LED, DBG_LOUD, ("SwLedOn LED0 0x%lx\n", PlatformEFIORead4Byte(Adapter, REG_LEDCFG0)));
++				}
++				break;
++
++			case LED_PIN_LED1:
++				LedCfg = rtw_read8(padapter,(REG_LEDCFG1));
++				rtw_write8(padapter,(REG_LEDCFG1), LedCfg&0x70); // SW control led1 on.
++				//RT_TRACE(COMP_LED, DBG_LOUD, ("SwLedOn LED1 0x%lx\n", PlatformEFIORead4Byte(Adapter, REG_LEDCFG0)));
++			
++				break;
++
++			default:
++				break;
++		}
++	}
++	pLed->bLedOn = _TRUE;
++	
++}
++
++
++//
++//	Description:
++//		Turn off LED according to LedPin specified.
++//
++static void
++SwLedOff(
++	_adapter			*padapter, 
++	PLED_871x		pLed
++)
++{
++	u8	LedCfg;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	if((padapter->bSurpriseRemoved == _TRUE) || ( padapter->bDriverStopped == _TRUE))	
++	{
++		goto exit;
++	}
++
++	if( 	(BOARD_MINICARD == pHalData->BoardType )||
++		(BOARD_USB_SOLO == pHalData->BoardType)||
++		(BOARD_USB_COMBO == pHalData->BoardType))
++	{
++		LedCfg = rtw_read8(padapter, REG_LEDCFG2);//0x4E
++
++		switch(pLed->LedPin)
++		{
++
++			case LED_PIN_GPIO0:
++				break;
++
++			case LED_PIN_LED0:
++				if(BOARD_USB_COMBO == pHalData->BoardType)
++				{
++					LedCfg &= 0x90; // Set to software control.				
++					rtw_write8(padapter, REG_LEDCFG2, (LedCfg|BIT3));				
++					LedCfg = rtw_read8(padapter, REG_MAC_PINMUX_CFG);
++					LedCfg &= 0xFE;
++					rtw_write8(padapter, REG_MAC_PINMUX_CFG, LedCfg);									
++				}
++				else
++				{
++					LedCfg &= 0xf0; // Set to software control.
++					if(pHalData->bLedOpenDrain == _TRUE) // Open-drain arrangement for controlling the LED
++						rtw_write8(padapter, REG_LEDCFG2, (LedCfg|BIT1|BIT5|BIT6));
++					else
++						rtw_write8(padapter, REG_LEDCFG2, (LedCfg|BIT3|BIT5|BIT6));
++				}
++				break;
++
++			case LED_PIN_LED1:
++				LedCfg &= 0x0f; // Set to software control.
++				rtw_write8(padapter, REG_LEDCFG2, (LedCfg|BIT3));
++				break;
++
++			default:
++				break;
++		}
++	}
++	else
++	{
++		switch(pLed->LedPin)
++		{
++			case LED_PIN_GPIO0:
++				break;
++
++			case LED_PIN_LED0:
++#ifdef CONFIG_SW_ANTENNA_DIVERSITY
++				if(pHalData->AntDivCfg)
++				{
++					LedCfg = rtw_read8(padapter, REG_LEDCFG2);
++					LedCfg &= 0xe0; // Set to software control. 			
++					rtw_write8(padapter, REG_LEDCFG2, (LedCfg|BIT3|BIT7|BIT6|BIT5));
++					//RT_TRACE(COMP_LED, DBG_LOUD, ("SwLedOff LED0 0x%x\n", PlatformEFIORead4Byte(Adapter, REG_LEDCFG2)));
++				}
++				else
++#endif
++				{
++					LedCfg = rtw_read8(padapter, REG_LEDCFG0);
++					LedCfg &= 0x70; // Set to software control. 			
++					rtw_write8(padapter, REG_LEDCFG0, (LedCfg|BIT3));
++					//RT_TRACE(COMP_LED, DBG_LOUD, ("SwLedOff LED0 0x%lx\n", PlatformEFIORead4Byte(Adapter, REG_LEDCFG0)));
++				}
++				break;
++
++			case LED_PIN_LED1:
++				LedCfg = rtw_read8(padapter, (REG_LEDCFG1));
++				LedCfg &= 0x70; // Set to software control.
++				rtw_write8(padapter,  (REG_LEDCFG1), (LedCfg|BIT3));
++				//RT_TRACE(COMP_LED, DBG_LOUD, ("SwLedOff LED1 0x%lx\n", PlatformEFIORead4Byte(Adapter, REG_LEDCFG0)));
++				break;
++
++			default:
++				break;
++		}
++	}
++
++exit:
++	pLed->bLedOn = _FALSE;
++	
++}
++
++//================================================================================
++// Interface to manipulate LED objects.
++//================================================================================
++
++
++//
++//	Description:
++//		Implementation of LED blinking behavior.
++//		It toggle off LED and schedule corresponding timer if necessary.
++//
++static void
++SwLedBlink(
++	PLED_871x			pLed
++	)
++{
++	_adapter			*padapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	u8				bStopBlinking = _FALSE;
++
++	// Change LED according to BlinkingLedState specified.
++	if( pLed->BlinkingLedState == RTW_LED_ON ) 
++	{
++		SwLedOn(padapter, pLed);
++		RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("Blinktimes (%d): turn on\n", pLed->BlinkTimes));
++	}
++	else 
++	{
++		SwLedOff(padapter, pLed);
++		RT_TRACE(_module_rtl8712_led_c_,_drv_info_,( "Blinktimes (%d): turn off\n", pLed->BlinkTimes));
++	}
++
++	// Determine if we shall change LED state again.
++	pLed->BlinkTimes--;
++	switch(pLed->CurrLedState)
++	{
++
++	case LED_BLINK_NORMAL: 
++		if(pLed->BlinkTimes == 0)
++		{
++			bStopBlinking = _TRUE;
++		}
++		break;
++		
++	case LED_BLINK_StartToBlink:
++		if( check_fwstate(pmlmepriv, _FW_LINKED) && check_fwstate(pmlmepriv, WIFI_STATION_STATE) )
++		{
++			bStopBlinking = _TRUE;
++		}
++		if( check_fwstate(pmlmepriv, _FW_LINKED) &&
++			(check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) || check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE)) )
++		{
++			bStopBlinking = _TRUE;
++		}
++		else if(pLed->BlinkTimes == 0)
++		{
++			bStopBlinking = _TRUE;
++		}
++		break;
++
++	case LED_BLINK_WPS:
++		if( pLed->BlinkTimes == 0 )
++		{
++			bStopBlinking = _TRUE;
++		}
++		break;
++
++
++	default:
++		bStopBlinking = _TRUE;
++		break;
++			
++	}
++	
++	if(bStopBlinking)
++	{
++		//if( padapter->pwrctrlpriv.cpwm >= PS_STATE_S2)
++		if(0)
++		{
++			SwLedOff(padapter, pLed);
++		}
++		else if( (check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE) && (pLed->bLedOn == _FALSE))
++		{
++			SwLedOn(padapter, pLed);
++		}
++		else if( (check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE) &&  pLed->bLedOn == _TRUE)
++		{
++			SwLedOff(padapter, pLed);
++		}
++
++		pLed->BlinkTimes = 0;
++		pLed->bLedBlinkInProgress = _FALSE;
++	}
++	else
++	{
++		// Assign LED state to toggle.
++		if( pLed->BlinkingLedState == RTW_LED_ON ) 
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else 
++			pLed->BlinkingLedState = RTW_LED_ON;
++
++		// Schedule a timer to toggle LED state. 
++		switch( pLed->CurrLedState )
++		{
++		case LED_BLINK_NORMAL:
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++			break;
++		
++		case LED_BLINK_SLOWLY:
++		case LED_BLINK_StartToBlink:
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++			break;
++
++		case LED_BLINK_WPS:
++			{
++				if( pLed->BlinkingLedState == RTW_LED_ON )
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_LONG_INTERVAL);
++				else
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_LONG_INTERVAL);
++			}
++			break;
++
++		default:
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++			break;
++		}
++	}
++}
++
++
++static void
++SwLedBlink1(
++	PLED_871x			pLed
++	)
++{
++	_adapter				*padapter = pLed->padapter;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(padapter);
++	struct led_priv		*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv		*pmlmepriv = &(padapter->mlmepriv);
++	PLED_871x 			pLed1 = &(ledpriv->SwLed1);	
++	u8					bStopBlinking = _FALSE;
++
++	if(pHalData->EEPROMCustomerID == RT_CID_819x_CAMEO)
++		pLed = &(ledpriv->SwLed1);	
++
++	// Change LED according to BlinkingLedState specified.
++	if( pLed->BlinkingLedState == RTW_LED_ON ) 
++	{
++		SwLedOn(padapter, pLed);
++		RT_TRACE(_module_rtl8712_led_c_,_drv_info_,( "Blinktimes (%d): turn on\n", pLed->BlinkTimes));
++	}
++	else 
++	{
++		SwLedOff(padapter, pLed);
++		RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("Blinktimes (%d): turn off\n", pLed->BlinkTimes));
++	}
++
++
++	if(pHalData->EEPROMCustomerID == RT_CID_DEFAULT)
++	{
++		if(check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE)
++		{
++			if(!pLed1->bSWLedCtrl)
++			{
++				SwLedOn(padapter, pLed1); 	
++				pLed1->bSWLedCtrl = _TRUE;
++			}
++			else if(!pLed1->bLedOn)	
++				SwLedOn(padapter, pLed1);
++			RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("Blinktimes (): turn on pLed1\n"));
++		}
++		else 
++		{
++			if(!pLed1->bSWLedCtrl)
++			{
++				SwLedOff(padapter, pLed1);
++				pLed1->bSWLedCtrl = _TRUE;
++			}
++			else if(pLed1->bLedOn)
++				SwLedOff(padapter, pLed1);
++			RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("Blinktimes (): turn off pLed1\n"));		
++		}
++	}
++
++
++	if( padapter->pwrctrlpriv.rf_pwrstate != rf_on )
++	{
++		SwLedOff(padapter, pLed);
++		ResetLedStatus(pLed);
++		return;
++	}
++				
++
++	switch(pLed->CurrLedState)
++	{
++		case LED_BLINK_SLOWLY:			
++			if( pLed->bLedOn )
++				pLed->BlinkingLedState = RTW_LED_OFF; 
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			break;
++
++		case LED_BLINK_NORMAL:
++			if( pLed->bLedOn )
++				pLed->BlinkingLedState = RTW_LED_OFF; 
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++			break;
++			
++		case LED_SCAN_BLINK:
++			pLed->BlinkTimes--;
++			if( pLed->BlinkTimes == 0 )
++			{
++				bStopBlinking = _TRUE;
++			}
++			
++			if(bStopBlinking)
++			{
++				if(check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE)
++				{
++					pLed->bLedLinkBlinkInProgress = _TRUE;
++					pLed->CurrLedState = LED_BLINK_NORMAL;
++					if( pLed->bLedOn )
++						pLed->BlinkingLedState = RTW_LED_OFF; 
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++					RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("CurrLedState %d\n", pLed->CurrLedState));
++					
++				}
++				else if(check_fwstate(pmlmepriv, _FW_LINKED)== _FALSE)
++				{
++					pLed->bLedNoLinkBlinkInProgress = _TRUE;
++					pLed->CurrLedState = LED_BLINK_SLOWLY;
++					if( pLed->bLedOn )
++						pLed->BlinkingLedState = RTW_LED_OFF; 
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++					RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("CurrLedState %d\n", pLed->CurrLedState));					
++				}
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}
++			else
++			{
++				if( pLed->bLedOn )
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			}
++			break;
++
++		case LED_TXRX_BLINK:
++			pLed->BlinkTimes--;
++			if( pLed->BlinkTimes == 0 )
++			{
++				bStopBlinking = _TRUE;
++			}
++			if(bStopBlinking)
++			{
++				if(check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE)
++				{
++					pLed->bLedLinkBlinkInProgress = _TRUE;
++					pLed->CurrLedState = LED_BLINK_NORMAL;
++					if( pLed->bLedOn )
++						pLed->BlinkingLedState = RTW_LED_OFF;
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++					RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("CurrLedState %d\n", pLed->CurrLedState));					
++				}
++				else if(check_fwstate(pmlmepriv, _FW_LINKED)== _FALSE)
++				{
++					pLed->bLedNoLinkBlinkInProgress = _TRUE;
++					pLed->CurrLedState = LED_BLINK_SLOWLY;
++					if( pLed->bLedOn )
++						pLed->BlinkingLedState = RTW_LED_OFF; 
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++					RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("CurrLedState %d\n", pLed->CurrLedState));					
++				}
++				pLed->BlinkTimes = 0;
++				pLed->bLedBlinkInProgress = _FALSE;	
++			}
++			else
++			{
++				if( pLed->bLedOn )
++					pLed->BlinkingLedState = RTW_LED_OFF; 
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++			break;
++
++		case LED_BLINK_WPS:
++			if( pLed->bLedOn )
++				pLed->BlinkingLedState = RTW_LED_OFF; 
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			break;
++
++		case LED_BLINK_WPS_STOP:	//WPS success
++			if(pLed->BlinkingLedState == RTW_LED_ON)
++				bStopBlinking = _FALSE;
++			else
++				bStopBlinking = _TRUE;				
++
++			if(bStopBlinking)
++			{
++				pLed->bLedLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_NORMAL;
++				if( pLed->bLedOn )
++					pLed->BlinkingLedState = RTW_LED_OFF; 
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++				RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("CurrLedState %d\n", pLed->CurrLedState));
++					
++				pLed->bLedWPSBlinkInProgress = _FALSE;	
++			}
++			else
++			{
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_WPS_SUCESS_INTERVAL_ALPHA);
++			}
++			break;
++					
++		default:
++			break;
++	}
++
++}
++
++static void
++SwLedBlink2(
++	PLED_871x			pLed
++	)
++{
++	_adapter				*padapter = pLed->padapter;
++	struct mlme_priv		*pmlmepriv = &(padapter->mlmepriv);
++	u8					bStopBlinking = _FALSE;
++
++	// Change LED according to BlinkingLedState specified.
++	if( pLed->BlinkingLedState == RTW_LED_ON) 
++	{
++		SwLedOn(padapter, pLed);
++		RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("Blinktimes (%d): turn on\n", pLed->BlinkTimes));
++	}
++	else 
++	{
++		SwLedOff(padapter, pLed);
++		RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("Blinktimes (%d): turn off\n", pLed->BlinkTimes));
++	}
++
++	switch(pLed->CurrLedState)
++	{	
++		case LED_SCAN_BLINK:
++			pLed->BlinkTimes--;
++			if( pLed->BlinkTimes == 0 )
++			{
++				bStopBlinking = _TRUE;
++			}
++			
++			if(bStopBlinking)
++			{
++				if( padapter->pwrctrlpriv.rf_pwrstate != rf_on )
++				{
++					SwLedOff(padapter, pLed);
++				}
++				else if(check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE)
++				{
++					pLed->CurrLedState = RTW_LED_ON;
++					pLed->BlinkingLedState = RTW_LED_ON; 
++					SwLedOn(padapter, pLed);
++					RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("stop scan blink CurrLedState %d\n", pLed->CurrLedState));
++					
++				}
++				else if(check_fwstate(pmlmepriv, _FW_LINKED)== _FALSE)
++				{
++					pLed->CurrLedState = RTW_LED_OFF;
++					pLed->BlinkingLedState = RTW_LED_OFF; 
++					SwLedOff(padapter, pLed);
++					RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("stop scan blink CurrLedState %d\n", pLed->CurrLedState));					
++				}
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}
++			else
++			{
++				if( padapter->pwrctrlpriv.rf_pwrstate != rf_on )
++				{
++					SwLedOff(padapter, pLed);
++				}
++				else
++				{
++					 if( pLed->bLedOn )
++						pLed->BlinkingLedState = RTW_LED_OFF; 
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++				}
++			}
++			break;
++
++		case LED_TXRX_BLINK:
++			pLed->BlinkTimes--;
++			if( pLed->BlinkTimes == 0 )
++			{
++				bStopBlinking = _TRUE;
++			}
++			if(bStopBlinking)
++			{
++				if( padapter->pwrctrlpriv.rf_pwrstate != rf_on )
++				{
++					SwLedOff(padapter, pLed);
++				}
++				else if(check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE)
++				{
++					pLed->CurrLedState = RTW_LED_ON;
++					pLed->BlinkingLedState = RTW_LED_ON; 
++					SwLedOn(padapter, pLed);
++					RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("stop CurrLedState %d\n", pLed->CurrLedState));
++					
++				}
++				else if(check_fwstate(pmlmepriv, _FW_LINKED)== _FALSE)
++				{
++					pLed->CurrLedState = RTW_LED_OFF;
++					pLed->BlinkingLedState = RTW_LED_OFF; 
++					SwLedOff(padapter, pLed);
++					RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("stop CurrLedState %d\n", pLed->CurrLedState));					
++				}
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			else
++			{
++				if( padapter->pwrctrlpriv.rf_pwrstate != rf_on )
++				{
++					SwLedOff(padapter, pLed);
++				}
++				else
++				{
++					 if( pLed->bLedOn )
++						pLed->BlinkingLedState = RTW_LED_OFF; 
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++				}
++			}
++			break;
++					
++		default:
++			break;
++	}
++
++}
++
++static void
++SwLedBlink3(
++	PLED_871x			pLed
++	)
++{
++	_adapter			*padapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	u8				bStopBlinking = _FALSE;
++
++	// Change LED according to BlinkingLedState specified.
++	if( pLed->BlinkingLedState == RTW_LED_ON ) 
++	{
++		SwLedOn(padapter, pLed);
++		RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("Blinktimes (%d): turn on\n", pLed->BlinkTimes));
++	}
++	else 
++	{
++		if(pLed->CurrLedState != LED_BLINK_WPS_STOP)
++			SwLedOff(padapter, pLed);
++		RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("Blinktimes (%d): turn off\n", pLed->BlinkTimes));
++	}	
++
++	switch(pLed->CurrLedState)
++	{			
++		case LED_SCAN_BLINK:
++			pLed->BlinkTimes--;
++			if( pLed->BlinkTimes == 0 )
++			{
++				bStopBlinking = _TRUE;
++			}
++			
++			if(bStopBlinking)
++			{
++				if( padapter->pwrctrlpriv.rf_pwrstate != rf_on )
++				{
++					SwLedOff(padapter, pLed);
++				}
++				else if(check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE)
++				{
++					pLed->CurrLedState = RTW_LED_ON;
++					pLed->BlinkingLedState = RTW_LED_ON;				
++					if( !pLed->bLedOn )
++						SwLedOn(padapter, pLed);
++
++					RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("CurrLedState %d\n", pLed->CurrLedState));					
++				}
++				else if(check_fwstate(pmlmepriv, _FW_LINKED)== _FALSE)
++				{
++					pLed->CurrLedState = RTW_LED_OFF;
++					pLed->BlinkingLedState = RTW_LED_OFF;									
++					if( pLed->bLedOn )
++						SwLedOff(padapter, pLed);
++
++					RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("CurrLedState %d\n", pLed->CurrLedState));					
++				}
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}
++			else
++			{
++				if( padapter->pwrctrlpriv.rf_pwrstate != rf_on )
++				{
++					SwLedOff(padapter, pLed);
++				}
++				else
++				{
++				 	if( pLed->bLedOn )
++						pLed->BlinkingLedState = RTW_LED_OFF; 
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++				}
++			}
++			break;
++
++		case LED_TXRX_BLINK:
++			pLed->BlinkTimes--;
++			if( pLed->BlinkTimes == 0 )
++			{
++				bStopBlinking = _TRUE;
++			}
++			if(bStopBlinking)
++			{
++				if( padapter->pwrctrlpriv.rf_pwrstate != rf_on )
++				{
++					SwLedOff(padapter, pLed);
++				}
++				else if(check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE)
++				{
++					pLed->CurrLedState = RTW_LED_ON;
++					pLed->BlinkingLedState = RTW_LED_ON;
++				
++					if( !pLed->bLedOn )
++						SwLedOn(padapter, pLed);
++
++					RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("CurrLedState %d\n", pLed->CurrLedState));					
++				}
++				else if(check_fwstate(pmlmepriv, _FW_LINKED)== _FALSE)
++				{
++					pLed->CurrLedState = RTW_LED_OFF;
++					pLed->BlinkingLedState = RTW_LED_OFF;					
++				
++					if( pLed->bLedOn )
++						SwLedOff(padapter, pLed);
++
++
++					RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("CurrLedState %d\n", pLed->CurrLedState));					
++				}
++				pLed->bLedBlinkInProgress = _FALSE;	
++			}
++			else
++			{
++				if( padapter->pwrctrlpriv.rf_pwrstate != rf_on )
++				{
++					SwLedOff(padapter, pLed);
++				}
++				else
++				{
++					if( pLed->bLedOn )
++						pLed->BlinkingLedState = RTW_LED_OFF; 
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++				}
++			}
++			break;
++
++		case LED_BLINK_WPS:
++			if( pLed->bLedOn )
++				pLed->BlinkingLedState = RTW_LED_OFF; 
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			break;
++
++		case LED_BLINK_WPS_STOP:	//WPS success
++			if(pLed->BlinkingLedState == RTW_LED_ON)
++			{
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_WPS_SUCESS_INTERVAL_ALPHA);
++				bStopBlinking = _FALSE;
++			}
++			else
++			{
++				bStopBlinking = _TRUE;				
++			}
++			
++			if(bStopBlinking)
++			{
++				if( padapter->pwrctrlpriv.rf_pwrstate != rf_on )
++				{
++					SwLedOff(padapter, pLed);
++				}
++				else 
++				{
++					pLed->CurrLedState = RTW_LED_ON;
++					pLed->BlinkingLedState = RTW_LED_ON; 
++					SwLedOn(padapter, pLed);
++					RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("CurrLedState %d\n", pLed->CurrLedState));					
++				}
++				pLed->bLedWPSBlinkInProgress = _FALSE;	
++			}		
++			break;
++			
++					
++		default:
++			break;
++	}
++
++}
++
++
++static void
++SwLedBlink4(
++	PLED_871x			pLed
++	)
++{
++	_adapter			*padapter = pLed->padapter;
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	PLED_871x 		pLed1 = &(ledpriv->SwLed1);	
++	u8				bStopBlinking = _FALSE;
++
++	// Change LED according to BlinkingLedState specified.
++	if( pLed->BlinkingLedState == RTW_LED_ON ) 
++	{
++		SwLedOn(padapter, pLed);
++		RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("Blinktimes (%d): turn on\n", pLed->BlinkTimes));
++	}
++	else 
++	{
++		SwLedOff(padapter, pLed);
++		RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("Blinktimes (%d): turn off\n", pLed->BlinkTimes));
++	}	
++
++	if(!pLed1->bLedWPSBlinkInProgress && pLed1->BlinkingLedState == LED_UNKNOWN)
++	{
++		pLed1->BlinkingLedState = RTW_LED_OFF;
++		pLed1->CurrLedState = RTW_LED_OFF;
++		SwLedOff(padapter, pLed1);
++	}	
++
++	switch(pLed->CurrLedState)
++	{
++		case LED_BLINK_SLOWLY:			
++			if( pLed->bLedOn )
++				pLed->BlinkingLedState = RTW_LED_OFF; 
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			break;
++
++		case LED_BLINK_StartToBlink:
++			if( pLed->bLedOn )
++			{
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++			}
++			else
++			{
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++			}
++			break;			
++			
++		case LED_SCAN_BLINK:
++			pLed->BlinkTimes--;
++			if( pLed->BlinkTimes == 0 )
++			{
++				bStopBlinking = _FALSE;
++			}
++			
++			if(bStopBlinking)
++			{
++				if( padapter->pwrctrlpriv.rf_pwrstate != rf_on && padapter->pwrctrlpriv.rfoff_reason > RF_CHANGE_BY_PS)
++				{
++					SwLedOff(padapter, pLed);
++				}
++				else 
++				{
++					pLed->bLedNoLinkBlinkInProgress = _FALSE;
++					pLed->CurrLedState = LED_BLINK_SLOWLY;
++					if( pLed->bLedOn )
++						pLed->BlinkingLedState = RTW_LED_OFF; 
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++				}
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}
++			else
++			{
++				if( padapter->pwrctrlpriv.rf_pwrstate != rf_on && padapter->pwrctrlpriv.rfoff_reason > RF_CHANGE_BY_PS)
++				{
++					SwLedOff(padapter, pLed);
++				}
++				else
++				{
++					 if( pLed->bLedOn )
++						pLed->BlinkingLedState = RTW_LED_OFF; 
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++				}
++			}
++			break;
++
++		case LED_TXRX_BLINK:
++			pLed->BlinkTimes--;
++			if( pLed->BlinkTimes == 0 )
++			{
++				bStopBlinking = _TRUE;
++			}
++			if(bStopBlinking)
++			{
++				if( padapter->pwrctrlpriv.rf_pwrstate != rf_on && padapter->pwrctrlpriv.rfoff_reason > RF_CHANGE_BY_PS)
++				{
++					SwLedOff(padapter, pLed);
++				}
++				else 
++				{
++					pLed->bLedNoLinkBlinkInProgress = _TRUE;
++					pLed->CurrLedState = LED_BLINK_SLOWLY;
++					if( pLed->bLedOn )
++						pLed->BlinkingLedState = RTW_LED_OFF; 
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++				}
++				pLed->bLedBlinkInProgress = _FALSE;	
++			}
++			else
++			{
++				if( padapter->pwrctrlpriv.rf_pwrstate != rf_on && padapter->pwrctrlpriv.rfoff_reason > RF_CHANGE_BY_PS)
++				{
++					SwLedOff(padapter, pLed);
++				}
++				else
++				{
++					 if( pLed->bLedOn )
++						pLed->BlinkingLedState = RTW_LED_OFF; 
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++				}
++			}
++			break;
++
++		case LED_BLINK_WPS:
++			if( pLed->bLedOn )
++			{
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++			}
++			else
++			{
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++			}
++			break;
++
++		case LED_BLINK_WPS_STOP:	//WPS authentication fail
++			if( pLed->bLedOn )			
++				pLed->BlinkingLedState = RTW_LED_OFF; 			
++			else			
++				pLed->BlinkingLedState = RTW_LED_ON;
++
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++			break;
++
++		case LED_BLINK_WPS_STOP_OVERLAP:	//WPS session overlap		
++			pLed->BlinkTimes--;
++			if(pLed->BlinkTimes == 0)
++			{
++				if(pLed->bLedOn)
++				{
++					pLed->BlinkTimes = 1;							
++				}
++				else
++				{
++					bStopBlinking = _TRUE;
++				}
++			}
++
++			if(bStopBlinking)
++			{				
++				pLed->BlinkTimes = 10;			
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++			}
++			else
++			{
++				if( pLed->bLedOn )			
++					pLed->BlinkingLedState = RTW_LED_OFF;			
++				else			
++					pLed->BlinkingLedState = RTW_LED_ON;
++
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++			}
++			break;
++
++					
++		default:
++			break;
++	}
++
++	RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("SwLedBlink4 CurrLedState %d\n", pLed->CurrLedState));
++
++
++}
++
++static void
++SwLedBlink5(
++	PLED_871x			pLed
++	)
++{
++	_adapter			*padapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	u8				bStopBlinking = _FALSE;
++
++	// Change LED according to BlinkingLedState specified.
++	if( pLed->BlinkingLedState == RTW_LED_ON ) 
++	{
++		SwLedOn(padapter, pLed);
++		RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("Blinktimes (%d): turn on\n", pLed->BlinkTimes));
++	}
++	else 
++	{
++		SwLedOff(padapter, pLed);
++		RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("Blinktimes (%d): turn off\n", pLed->BlinkTimes));
++	}
++
++	switch(pLed->CurrLedState)
++	{
++		case LED_SCAN_BLINK:
++			pLed->BlinkTimes--;
++			if( pLed->BlinkTimes == 0 )
++			{
++				bStopBlinking = _TRUE;
++			}
++			
++			if(bStopBlinking)
++			{
++				if( padapter->pwrctrlpriv.rf_pwrstate != rf_on && padapter->pwrctrlpriv.rfoff_reason > RF_CHANGE_BY_PS)
++				{
++					pLed->CurrLedState = RTW_LED_OFF;
++					pLed->BlinkingLedState = RTW_LED_OFF; 									
++					if(pLed->bLedOn)				
++						SwLedOff(padapter, pLed);
++				}
++				else 
++				{		pLed->CurrLedState = RTW_LED_ON;
++						pLed->BlinkingLedState = RTW_LED_ON;					
++						if(!pLed->bLedOn)
++							_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++				}
++
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}
++			else
++			{
++				if( padapter->pwrctrlpriv.rf_pwrstate != rf_on && padapter->pwrctrlpriv.rfoff_reason > RF_CHANGE_BY_PS)
++				{
++					SwLedOff(padapter, pLed);
++				}
++				else
++				{
++					if( pLed->bLedOn )
++						pLed->BlinkingLedState = RTW_LED_OFF; 
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++				}
++			}
++			break;
++
++	
++		case LED_TXRX_BLINK:
++			pLed->BlinkTimes--;
++			if( pLed->BlinkTimes == 0 )
++			{
++				bStopBlinking = _TRUE;
++			}
++			
++			if(bStopBlinking)
++			{
++				if( padapter->pwrctrlpriv.rf_pwrstate != rf_on && padapter->pwrctrlpriv.rfoff_reason > RF_CHANGE_BY_PS)
++				{
++					pLed->CurrLedState = RTW_LED_OFF;
++					pLed->BlinkingLedState = RTW_LED_OFF; 									
++					if(pLed->bLedOn)
++						SwLedOff(padapter, pLed);
++				}
++				else
++				{
++					pLed->CurrLedState = RTW_LED_ON;
++					pLed->BlinkingLedState = RTW_LED_ON; 					
++					if(!pLed->bLedOn)
++						_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++				}
++
++				pLed->bLedBlinkInProgress = _FALSE;	
++			}
++			else
++			{
++				if( padapter->pwrctrlpriv.rf_pwrstate != rf_on && padapter->pwrctrlpriv.rfoff_reason > RF_CHANGE_BY_PS)
++				{
++					SwLedOff(padapter, pLed);
++				}
++				else
++				{
++					 if( pLed->bLedOn )
++						pLed->BlinkingLedState = RTW_LED_OFF; 
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++				}
++			}
++			break;
++					
++		default:
++			break;
++	}
++
++	RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("SwLedBlink5 CurrLedState %d\n", pLed->CurrLedState));
++
++
++}
++
++static void
++SwLedBlink6(
++	PLED_871x			pLed
++	)
++{
++	_adapter			*padapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	u8				bStopBlinking = _FALSE;
++
++	// Change LED according to BlinkingLedState specified.
++	if( pLed->BlinkingLedState == RTW_LED_ON ) 
++	{
++		SwLedOn(padapter, pLed);
++		RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("Blinktimes (%d): turn on\n", pLed->BlinkTimes));
++	}
++	else 
++	{
++		SwLedOff(padapter, pLed);
++		RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("Blinktimes (%d): turn off\n", pLed->BlinkTimes));
++	}
++
++	RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("<==== blink6\n"));
++}
++
++
++//
++//	Description:
++//		Callback function of LED BlinkTimer, 
++//		it just schedules to corresponding BlinkWorkItem.
++//
++static void
++BlinkTimerCallback(
++	unsigned long data
++	)
++{
++	PLED_871x	 pLed = (PLED_871x)data;
++	_adapter		*padapter = pLed->padapter;
++
++	//DBG_871X("%s\n", __FUNCTION__);
++
++	if( (padapter->bSurpriseRemoved == _TRUE) || ( padapter->bDriverStopped == _TRUE))	
++	{
++		//DBG_871X("%s bSurpriseRemoved:%d, bDriverStopped:%d\n", __FUNCTION__, padapter->bSurpriseRemoved, padapter->bDriverStopped);
++		return;
++	}
++
++#ifdef CONFIG_LED_HANDLED_BY_CMD_THREAD
++	rtw_led_blink_cmd(padapter, pLed);
++#else
++	_set_workitem(&(pLed->BlinkWorkItem));
++#endif
++}
++
++//
++//	Description:
++//		Handler function of LED Blinking.
++//		We dispatch acture LED blink action according to LedStrategy.
++//
++void BlinkHandler(PLED_871x	 pLed)
++{
++	struct led_priv	*ledpriv = &(pLed->padapter->ledpriv);
++	_adapter		*padapter = pLed->padapter;
++
++	//DBG_871X("%s (%s:%d)\n",__FUNCTION__, current->comm, current->pid);
++
++	if( (padapter->bSurpriseRemoved == _TRUE) || ( padapter->bDriverStopped == _TRUE))	
++	{
++		//DBG_871X("%s bSurpriseRemoved:%d, bDriverStopped:%d\n", __FUNCTION__, padapter->bSurpriseRemoved, padapter->bDriverStopped);
++		return;
++	}
++
++	switch(ledpriv->LedStrategy)
++	{
++		case SW_LED_MODE0:
++			SwLedBlink(pLed);
++			break;
++		
++		case SW_LED_MODE1:
++			SwLedBlink1(pLed);
++			break;
++		
++		case SW_LED_MODE2:
++			SwLedBlink2(pLed);
++			break;
++			
++		case SW_LED_MODE3:
++			SwLedBlink3(pLed);
++			break;
++
++		case SW_LED_MODE4:
++			SwLedBlink4(pLed);
++			break;			
++
++		case SW_LED_MODE5:
++			SwLedBlink5(pLed);
++			break;
++
++		case SW_LED_MODE6:
++			SwLedBlink6(pLed);
++			break;
++
++		default:
++			//RT_TRACE(COMP_LED, DBG_LOUD, ("BlinkWorkItemCallback 0x%x \n", pHalData->LedStrategy));
++			//SwLedBlink(pLed);
++			break;
++	}
++}
++
++//
++//	Description:
++//		Callback function of LED BlinkWorkItem.
++//		We dispatch acture LED blink action according to LedStrategy.
++//
++static void BlinkWorkItemCallback(struct work_struct *work)
++{
++	PLED_871x	 pLed = container_of(work, LED_871x, BlinkWorkItem);
++	BlinkHandler(pLed);
++}
++
++
++
++//================================================================================
++// Default LED behavior.
++//================================================================================
++
++//
++//	Description:	
++//		Implement each led action for SW_LED_MODE0.
++//		This is default strategy.
++//
++static void
++SwLedControlMode0(
++	_adapter		*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	PLED_871x	pLed = &(ledpriv->SwLed1);
++
++	// Decide led state
++	switch(LedAction)
++	{
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if( pLed->bLedBlinkInProgress == _FALSE )
++		{
++			pLed->bLedBlinkInProgress = _TRUE;
++
++			pLed->CurrLedState = LED_BLINK_NORMAL;
++			pLed->BlinkTimes = 2;
++
++			if( pLed->bLedOn )
++				pLed->BlinkingLedState = RTW_LED_OFF; 
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		}
++		break;
++
++	case LED_CTL_START_TO_LINK:
++		if( pLed->bLedBlinkInProgress == _FALSE )
++		{
++			pLed->bLedBlinkInProgress = _TRUE;
++
++			pLed->CurrLedState = LED_BLINK_StartToBlink;
++			pLed->BlinkTimes = 24;
++
++			if( pLed->bLedOn )
++				pLed->BlinkingLedState = RTW_LED_OFF; 
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++		}
++		else
++		{
++			pLed->CurrLedState = LED_BLINK_StartToBlink;
++		}	
++		break;
++		
++	case LED_CTL_LINK:
++		pLed->CurrLedState = RTW_LED_ON;
++		if( pLed->bLedBlinkInProgress == _FALSE )
++		{
++			SwLedOn(padapter, pLed);
++		}
++		break;
++
++	case LED_CTL_NO_LINK:
++		pLed->CurrLedState = RTW_LED_OFF;
++		if( pLed->bLedBlinkInProgress == _FALSE )
++		{
++			SwLedOff(padapter, pLed);
++		}
++		break;
++	
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		if(pLed->bLedBlinkInProgress)
++		{
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		SwLedOff(padapter, pLed);
++		break;
++
++	case LED_CTL_START_WPS:
++		if( pLed->bLedBlinkInProgress == _FALSE || pLed->CurrLedState == RTW_LED_ON)
++		{
++			pLed->bLedBlinkInProgress = _TRUE;
++
++			pLed->CurrLedState = LED_BLINK_WPS;
++			pLed->BlinkTimes = 20;
++
++			if( pLed->bLedOn )
++			{
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LONG_INTERVAL);
++			}
++			else
++			{
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LONG_INTERVAL);
++			}
++		}
++		break;
++
++	case LED_CTL_STOP_WPS:
++		if(pLed->bLedBlinkInProgress)
++		{
++			pLed->CurrLedState = RTW_LED_OFF;
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		break;
++		
++
++	default:
++		break;
++	}
++	
++	RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("Led %d\n", pLed->CurrLedState));
++	
++}
++
++ //ALPHA, added by chiyoko, 20090106
++static void
++SwLedControlMode1(
++	_adapter		*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(padapter);
++	struct led_priv		*ledpriv = &(padapter->ledpriv);
++	PLED_871x			pLed = &(ledpriv->SwLed0);
++	struct mlme_priv		*pmlmepriv = &(padapter->mlmepriv);
++
++	if(pHalData->EEPROMCustomerID == RT_CID_819x_CAMEO)
++		pLed = &(ledpriv->SwLed1);
++	
++	switch(LedAction)
++	{		
++		case LED_CTL_POWER_ON:
++		case LED_CTL_START_TO_LINK:	
++		case LED_CTL_NO_LINK:
++			if( pLed->bLedNoLinkBlinkInProgress == _FALSE )
++			{
++				if(pLed->CurrLedState == LED_SCAN_BLINK || IS_LED_WPS_BLINKING(pLed))
++				{
++					return;
++				}
++				if( pLed->bLedLinkBlinkInProgress == _TRUE )
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedLinkBlinkInProgress = _FALSE;
++				}
++	 			if(pLed->bLedBlinkInProgress ==_TRUE)
++				{	
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedBlinkInProgress = _FALSE;
++	 			}
++				
++				pLed->bLedNoLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if( pLed->bLedOn )
++					pLed->BlinkingLedState = RTW_LED_OFF; 
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			}
++			break;		
++
++		case LED_CTL_LINK:
++			if( pLed->bLedLinkBlinkInProgress == _FALSE )
++			{
++				if(pLed->CurrLedState == LED_SCAN_BLINK || IS_LED_WPS_BLINKING(pLed))
++				{
++					return;
++				}
++				if(pLed->bLedNoLinkBlinkInProgress == _TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedNoLinkBlinkInProgress = _FALSE;
++				}
++				if(pLed->bLedBlinkInProgress ==_TRUE)
++				{	
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedBlinkInProgress = _FALSE;
++	 			}
++				pLed->bLedLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_NORMAL;
++				if( pLed->bLedOn )
++					pLed->BlinkingLedState = RTW_LED_OFF; 
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++			}
++			break;
++
++		case LED_CTL_SITE_SURVEY:
++			 if((pmlmepriv->LinkDetectInfo.bBusyTraffic) && (check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE))
++			 	;
++			 else if(pLed->bLedScanBlinkInProgress ==_FALSE)
++			 {
++			 	if(IS_LED_WPS_BLINKING(pLed))
++					return;
++				
++	  			if(pLed->bLedNoLinkBlinkInProgress == _TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedNoLinkBlinkInProgress = _FALSE;
++				}
++				if( pLed->bLedLinkBlinkInProgress == _TRUE )
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					 pLed->bLedLinkBlinkInProgress = _FALSE;
++				}
++	 			if(pLed->bLedBlinkInProgress ==_TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedBlinkInProgress = _FALSE;
++				}
++				pLed->bLedScanBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_SCAN_BLINK;
++				pLed->BlinkTimes = 24;
++				if( pLed->bLedOn )
++					pLed->BlinkingLedState = RTW_LED_OFF; 
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			 }
++			break;
++		
++		case LED_CTL_TX:
++		case LED_CTL_RX:
++			if(pLed->bLedBlinkInProgress ==_FALSE)
++			{
++				if(pLed->CurrLedState == LED_SCAN_BLINK || IS_LED_WPS_BLINKING(pLed))
++				{
++					return;
++				}
++				if(pLed->bLedNoLinkBlinkInProgress == _TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedNoLinkBlinkInProgress = _FALSE;
++				}
++				if( pLed->bLedLinkBlinkInProgress == _TRUE )
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedLinkBlinkInProgress = _FALSE;
++				}
++				pLed->bLedBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_TXRX_BLINK;
++				pLed->BlinkTimes = 2;
++				if( pLed->bLedOn )
++					pLed->BlinkingLedState = RTW_LED_OFF; 
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++			break;
++
++		case LED_CTL_START_WPS: //wait until xinpin finish
++		case LED_CTL_START_WPS_BOTTON:
++			 if(pLed->bLedWPSBlinkInProgress ==_FALSE)
++			 {
++				if(pLed->bLedNoLinkBlinkInProgress == _TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedNoLinkBlinkInProgress = _FALSE;
++				}
++				if( pLed->bLedLinkBlinkInProgress == _TRUE )
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					 pLed->bLedLinkBlinkInProgress = _FALSE;
++				}
++				if(pLed->bLedBlinkInProgress ==_TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedBlinkInProgress = _FALSE;
++				}
++				if(pLed->bLedScanBlinkInProgress ==_TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedScanBlinkInProgress = _FALSE;
++				}				
++				pLed->bLedWPSBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_WPS;
++				if( pLed->bLedOn )
++					pLed->BlinkingLedState = RTW_LED_OFF; 
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			 }
++			break;
++
++		
++		case LED_CTL_STOP_WPS:
++			if(pLed->bLedNoLinkBlinkInProgress == _TRUE)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if( pLed->bLedLinkBlinkInProgress == _TRUE )
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				 pLed->bLedLinkBlinkInProgress = _FALSE;
++			}
++			if(pLed->bLedBlinkInProgress ==_TRUE)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if(pLed->bLedScanBlinkInProgress ==_TRUE)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}			
++			if(pLed->bLedWPSBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++			}
++			else
++			{
++				pLed->bLedWPSBlinkInProgress = _TRUE;
++			}
++			
++			pLed->CurrLedState = LED_BLINK_WPS_STOP;
++			if(pLed->bLedOn)
++			{
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_WPS_SUCESS_INTERVAL_ALPHA);
++			}
++			else
++			{
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), 0);
++			}					
++			break;		
++
++		case LED_CTL_STOP_WPS_FAIL:			
++			if(pLed->bLedWPSBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedWPSBlinkInProgress = _FALSE;				
++			}			
++
++			pLed->bLedNoLinkBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SLOWLY;
++			if( pLed->bLedOn )
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			break;				
++
++		case LED_CTL_POWER_OFF:
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF; 
++			if( pLed->bLedNoLinkBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if( pLed->bLedLinkBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedLinkBlinkInProgress = _FALSE;
++			}
++			if( pLed->bLedBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if( pLed->bLedWPSBlinkInProgress )
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedWPSBlinkInProgress = _FALSE;
++			}
++			if( pLed->bLedScanBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}			
++
++			SwLedOff(padapter, pLed);
++			break;
++			
++		default:
++			break;
++
++	}
++
++	RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("Led %d\n", pLed->CurrLedState));
++}
++
++ //Arcadyan/Sitecom , added by chiyoko, 20090216
++static void
++SwLedControlMode2(
++	_adapter				*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	PLED_871x 		pLed = &(ledpriv->SwLed0);
++	
++	switch(LedAction)
++	{		
++		case LED_CTL_SITE_SURVEY:
++			 if(pmlmepriv->LinkDetectInfo.bBusyTraffic)
++			 	;		 
++			 else if(pLed->bLedScanBlinkInProgress ==_FALSE)
++			 {
++			 	if(IS_LED_WPS_BLINKING(pLed))
++					return;
++			 
++	 			if(pLed->bLedBlinkInProgress ==_TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedBlinkInProgress = _FALSE;
++				}
++				pLed->bLedScanBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_SCAN_BLINK;
++				pLed->BlinkTimes = 24;
++				if( pLed->bLedOn )
++					pLed->BlinkingLedState = RTW_LED_OFF; 
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			 }
++			break;
++		
++		case LED_CTL_TX:
++		case LED_CTL_RX:
++	 		if((pLed->bLedBlinkInProgress ==_FALSE) && (check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE))
++	  		{
++	  		  	if(pLed->CurrLedState == LED_SCAN_BLINK || IS_LED_WPS_BLINKING(pLed))
++				{
++					return;
++				}
++
++				pLed->bLedBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_TXRX_BLINK;
++				pLed->BlinkTimes = 2;
++				if( pLed->bLedOn )
++					pLed->BlinkingLedState = RTW_LED_OFF; 
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++			break;
++
++		case LED_CTL_LINK:
++			pLed->CurrLedState = RTW_LED_ON;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			if( pLed->bLedBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if( pLed->bLedScanBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}			
++
++			_set_timer(&(pLed->BlinkTimer), 0);
++			break;			
++
++		case LED_CTL_START_WPS: //wait until xinpin finish
++		case LED_CTL_START_WPS_BOTTON:		
++			if(pLed->bLedWPSBlinkInProgress ==_FALSE)
++			{
++				if(pLed->bLedBlinkInProgress ==_TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedBlinkInProgress = _FALSE;
++				}
++				if(pLed->bLedScanBlinkInProgress ==_TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedScanBlinkInProgress = _FALSE;
++				}				
++				pLed->bLedWPSBlinkInProgress = _TRUE;
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), 0);
++			 }			
++			break;
++			
++		case LED_CTL_STOP_WPS:
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++			if(padapter->pwrctrlpriv.rf_pwrstate != rf_on)
++			{
++				SwLedOff(padapter, pLed);
++			}
++			else
++			{
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), 0);
++				RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("CurrLedState %d\n", pLed->CurrLedState));
++			}
++			break;
++			
++		case LED_CTL_STOP_WPS_FAIL:			
++			pLed->bLedWPSBlinkInProgress = _FALSE;			
++			if(padapter->pwrctrlpriv.rf_pwrstate != rf_on)
++			{
++				SwLedOff(padapter, pLed);
++			}
++			else 
++			{
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), 0);
++				RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("CurrLedState %d\n", pLed->CurrLedState)); 				
++			}	
++			break;				
++
++		case LED_CTL_START_TO_LINK: 
++		case LED_CTL_NO_LINK:
++			if(!IS_LED_BLINKING(pLed))
++			{
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), 0);
++			}
++			break;
++			
++		case LED_CTL_POWER_OFF:
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			if( pLed->bLedBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if( pLed->bLedScanBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}			
++			if( pLed->bLedWPSBlinkInProgress )
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedWPSBlinkInProgress = _FALSE;
++			}
++
++			_set_timer(&(pLed->BlinkTimer), 0);
++			break;
++			
++		default:
++			break;
++
++	}
++
++	RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("CurrLedState %d\n", pLed->CurrLedState));
++}
++
++  //COREGA, added by chiyoko, 20090316
++ static void
++ SwLedControlMode3(
++	_adapter				*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	PLED_871x		pLed = &(ledpriv->SwLed0);
++	
++	switch(LedAction)
++	{		
++		case LED_CTL_SITE_SURVEY:
++			if(pmlmepriv->LinkDetectInfo.bBusyTraffic)
++				;		 
++			else if(pLed->bLedScanBlinkInProgress ==_FALSE)
++			{
++				if(IS_LED_WPS_BLINKING(pLed))
++					return;
++
++				if(pLed->bLedBlinkInProgress ==_TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedBlinkInProgress = _FALSE;
++				}
++				pLed->bLedScanBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_SCAN_BLINK;
++				pLed->BlinkTimes = 24;
++				if( pLed->bLedOn )
++					pLed->BlinkingLedState = RTW_LED_OFF; 
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			}
++			break;
++		
++		case LED_CTL_TX:
++		case LED_CTL_RX:
++	 		if((pLed->bLedBlinkInProgress ==_FALSE) && (check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE))
++	  		{
++	  		  	if(pLed->CurrLedState == LED_SCAN_BLINK || IS_LED_WPS_BLINKING(pLed))
++				{
++					return;
++				}
++
++				pLed->bLedBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_TXRX_BLINK;
++				pLed->BlinkTimes = 2;
++				if( pLed->bLedOn )
++					pLed->BlinkingLedState = RTW_LED_OFF; 
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++			break;
++
++		case LED_CTL_LINK:
++			if(IS_LED_WPS_BLINKING(pLed))
++				return;
++			
++			pLed->CurrLedState = RTW_LED_ON;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			if( pLed->bLedBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if( pLed->bLedScanBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}			
++
++			_set_timer(&(pLed->BlinkTimer), 0);
++			break;			
++
++		case LED_CTL_START_WPS: //wait until xinpin finish
++		case LED_CTL_START_WPS_BOTTON:		
++			if(pLed->bLedWPSBlinkInProgress ==_FALSE)
++			{
++				if(pLed->bLedBlinkInProgress ==_TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedBlinkInProgress = _FALSE;
++				}
++				if(pLed->bLedScanBlinkInProgress ==_TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedScanBlinkInProgress = _FALSE;
++				}				
++				pLed->bLedWPSBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_WPS;
++				if( pLed->bLedOn )
++					pLed->BlinkingLedState = RTW_LED_OFF; 
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			}			
++			break;
++			
++		case LED_CTL_STOP_WPS:			
++			if(pLed->bLedWPSBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedWPSBlinkInProgress = _FALSE;				
++			}						
++			else
++			{
++				pLed->bLedWPSBlinkInProgress = _TRUE;
++			}
++				
++			pLed->CurrLedState = LED_BLINK_WPS_STOP;
++			if(pLed->bLedOn)
++			{
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_WPS_SUCESS_INTERVAL_ALPHA);
++			}
++			else
++			{
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), 0);
++			}					
++
++			break;
++			
++		case LED_CTL_STOP_WPS_FAIL:			
++			if(pLed->bLedWPSBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedWPSBlinkInProgress = _FALSE;				
++			}			
++
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), 0);
++			break;				
++
++		case LED_CTL_START_TO_LINK: 
++		case LED_CTL_NO_LINK:
++			if(!IS_LED_BLINKING(pLed))
++			{
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), 0);
++			}
++			break;
++			
++		case LED_CTL_POWER_OFF:
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			if( pLed->bLedBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if( pLed->bLedScanBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}			
++			if( pLed->bLedWPSBlinkInProgress )
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedWPSBlinkInProgress = _FALSE;
++			}
++
++			_set_timer(&(pLed->BlinkTimer), 0);
++			break;
++			
++		default:
++			break;
++
++	}
++
++	RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("CurrLedState %d\n", pLed->CurrLedState));
++}
++
++
++ //Edimax-Belkin, added by chiyoko, 20090413
++static void
++SwLedControlMode4(
++	_adapter				*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	PLED_871x		pLed = &(ledpriv->SwLed0);
++	PLED_871x		pLed1 = &(ledpriv->SwLed1);
++	
++	switch(LedAction)
++	{		
++		case LED_CTL_START_TO_LINK:	
++			if(pLed1->bLedWPSBlinkInProgress)
++			{
++				pLed1->bLedWPSBlinkInProgress = _FALSE;
++				_cancel_timer_ex(&(pLed1->BlinkTimer));
++		
++				pLed1->BlinkingLedState = RTW_LED_OFF;
++				pLed1->CurrLedState = RTW_LED_OFF;
++
++				if(pLed1->bLedOn)
++					_set_timer(&(pLed->BlinkTimer), 0);
++			}
++				
++			if( pLed->bLedStartToLinkBlinkInProgress == _FALSE )
++			{
++				if(pLed->CurrLedState == LED_SCAN_BLINK || IS_LED_WPS_BLINKING(pLed))
++				{
++					return;
++				}
++	 			if(pLed->bLedBlinkInProgress ==_TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedBlinkInProgress = _FALSE;
++	 			}
++	 			if(pLed->bLedNoLinkBlinkInProgress ==_TRUE)
++				{	
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedNoLinkBlinkInProgress = _FALSE;
++	 			}				
++				
++				pLed->bLedStartToLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_StartToBlink;
++				if( pLed->bLedOn )
++				{
++					pLed->BlinkingLedState = RTW_LED_OFF;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++				}
++				else
++				{
++					pLed->BlinkingLedState = RTW_LED_ON;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++				}
++			}
++			break;		
++
++		case LED_CTL_LINK:			
++		case LED_CTL_NO_LINK:
++			//LED1 settings
++			if(LedAction == LED_CTL_LINK)
++			{
++				if(pLed1->bLedWPSBlinkInProgress)
++				{
++					pLed1->bLedWPSBlinkInProgress = _FALSE;
++					_cancel_timer_ex(&(pLed1->BlinkTimer));
++			
++					pLed1->BlinkingLedState = RTW_LED_OFF;
++					pLed1->CurrLedState = RTW_LED_OFF;
++
++					if(pLed1->bLedOn)
++						_set_timer(&(pLed->BlinkTimer), 0);
++				}				
++			}
++			
++			if( pLed->bLedNoLinkBlinkInProgress == _FALSE )
++			{
++				if(pLed->CurrLedState == LED_SCAN_BLINK || IS_LED_WPS_BLINKING(pLed))
++				{
++					return;
++				}
++	 			if(pLed->bLedBlinkInProgress ==_TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedBlinkInProgress = _FALSE;
++	 			}
++				
++				pLed->bLedNoLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if( pLed->bLedOn )
++					pLed->BlinkingLedState = RTW_LED_OFF; 
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			}
++			break;		
++
++		case LED_CTL_SITE_SURVEY:
++			if((pmlmepriv->LinkDetectInfo.bBusyTraffic) && (check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE))
++				;		 
++			else if(pLed->bLedScanBlinkInProgress ==_FALSE)
++			{
++				if(IS_LED_WPS_BLINKING(pLed))
++					return;
++
++				if(pLed->bLedNoLinkBlinkInProgress == _TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedNoLinkBlinkInProgress = _FALSE;
++				}
++				if(pLed->bLedBlinkInProgress ==_TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedBlinkInProgress = _FALSE;
++				}
++				pLed->bLedScanBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_SCAN_BLINK;
++				pLed->BlinkTimes = 24;
++				if( pLed->bLedOn )
++					pLed->BlinkingLedState = RTW_LED_OFF; 
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			}
++			break;
++		
++		case LED_CTL_TX:
++		case LED_CTL_RX:
++	 		if(pLed->bLedBlinkInProgress ==_FALSE)
++	  		{
++	  		  	if(pLed->CurrLedState == LED_SCAN_BLINK || IS_LED_WPS_BLINKING(pLed))
++				{
++					return;
++				}
++	  		  	if(pLed->bLedNoLinkBlinkInProgress == _TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedNoLinkBlinkInProgress = _FALSE;
++				}
++				pLed->bLedBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_TXRX_BLINK;
++				pLed->BlinkTimes = 2;
++				if( pLed->bLedOn )
++					pLed->BlinkingLedState = RTW_LED_OFF; 
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++			break;
++
++		case LED_CTL_START_WPS: //wait until xinpin finish
++		case LED_CTL_START_WPS_BOTTON:
++			if(pLed1->bLedWPSBlinkInProgress)
++			{
++				pLed1->bLedWPSBlinkInProgress = _FALSE;
++				_cancel_timer_ex(&(pLed1->BlinkTimer));
++			
++				pLed1->BlinkingLedState = RTW_LED_OFF;
++				pLed1->CurrLedState = RTW_LED_OFF;
++
++				if(pLed1->bLedOn)
++					_set_timer(&(pLed->BlinkTimer), 0);
++			}
++				
++			if(pLed->bLedWPSBlinkInProgress ==_FALSE)
++			{
++				if(pLed->bLedNoLinkBlinkInProgress == _TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedNoLinkBlinkInProgress = _FALSE;
++				}
++				if(pLed->bLedBlinkInProgress ==_TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedBlinkInProgress = _FALSE;
++				}
++				if(pLed->bLedScanBlinkInProgress ==_TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedScanBlinkInProgress = _FALSE;
++				}				
++				pLed->bLedWPSBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_WPS;
++				if( pLed->bLedOn )
++				{
++					pLed->BlinkingLedState = RTW_LED_OFF;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++				}
++				else
++				{
++					pLed->BlinkingLedState = RTW_LED_ON;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++				}
++			}
++			break;
++		
++		case LED_CTL_STOP_WPS:	//WPS connect success		
++			if(pLed->bLedWPSBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedWPSBlinkInProgress = _FALSE;								
++			}
++
++			pLed->bLedNoLinkBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SLOWLY;
++			if( pLed->bLedOn )
++				pLed->BlinkingLedState = RTW_LED_OFF; 
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++
++			break;		
++
++		case LED_CTL_STOP_WPS_FAIL:		//WPS authentication fail			
++			if(pLed->bLedWPSBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedWPSBlinkInProgress = _FALSE;				
++			}			
++
++			pLed->bLedNoLinkBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SLOWLY;
++			if( pLed->bLedOn )
++				pLed->BlinkingLedState = RTW_LED_OFF; 
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++
++			//LED1 settings
++			if(pLed1->bLedWPSBlinkInProgress)
++				_cancel_timer_ex(&(pLed1->BlinkTimer));
++			else	
++				pLed1->bLedWPSBlinkInProgress = _TRUE;				
++
++			pLed1->CurrLedState = LED_BLINK_WPS_STOP;
++			if( pLed1->bLedOn )
++				pLed1->BlinkingLedState = RTW_LED_OFF; 
++			else
++				pLed1->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++
++			break;				
++
++		case LED_CTL_STOP_WPS_FAIL_OVERLAP:	//WPS session overlap		
++			if(pLed->bLedWPSBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedWPSBlinkInProgress = _FALSE;								
++			}
++			
++			pLed->bLedNoLinkBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SLOWLY;
++			if( pLed->bLedOn )
++				pLed->BlinkingLedState = RTW_LED_OFF; 
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++
++			//LED1 settings
++			if(pLed1->bLedWPSBlinkInProgress)
++				_cancel_timer_ex(&(pLed1->BlinkTimer));
++			else	
++				pLed1->bLedWPSBlinkInProgress = _TRUE;				
++
++			pLed1->CurrLedState = LED_BLINK_WPS_STOP_OVERLAP;
++			pLed1->BlinkTimes = 10;
++			if( pLed1->bLedOn )
++				pLed1->BlinkingLedState = RTW_LED_OFF; 
++			else
++				pLed1->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++			
++			break;
++
++		case LED_CTL_POWER_OFF:
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF; 
++			
++			if( pLed->bLedNoLinkBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if( pLed->bLedLinkBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedLinkBlinkInProgress = _FALSE;
++			}
++			if( pLed->bLedBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if( pLed->bLedWPSBlinkInProgress )
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedWPSBlinkInProgress = _FALSE;
++			}
++			if( pLed->bLedScanBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}	
++			if( pLed->bLedStartToLinkBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedStartToLinkBlinkInProgress = _FALSE;
++			}			
++
++			if( pLed1->bLedWPSBlinkInProgress )
++			{
++				_cancel_timer_ex(&(pLed1->BlinkTimer));
++				pLed1->bLedWPSBlinkInProgress = _FALSE;
++			}
++
++			pLed1->BlinkingLedState = LED_UNKNOWN;				
++			SwLedOff(padapter, pLed);
++			SwLedOff(padapter, pLed1);			
++			break;
++			
++		default:
++			break;
++
++	}
++
++	RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("Led %d\n", pLed->CurrLedState));
++}
++
++
++
++ //Sercomm-Belkin, added by chiyoko, 20090415
++static void
++SwLedControlMode5(
++	_adapter				*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	PLED_871x		pLed = &(ledpriv->SwLed0);
++
++	if(pHalData->EEPROMCustomerID == RT_CID_819x_CAMEO)
++		pLed = &(ledpriv->SwLed1);
++	
++	switch(LedAction)
++	{		
++		case LED_CTL_POWER_ON:
++		case LED_CTL_NO_LINK:
++		case LED_CTL_LINK: 	//solid blue
++			pLed->CurrLedState = RTW_LED_ON;
++			pLed->BlinkingLedState = RTW_LED_ON; 
++
++			_set_timer(&(pLed->BlinkTimer), 0);
++			break;
++
++		case LED_CTL_SITE_SURVEY:
++			if((pmlmepriv->LinkDetectInfo.bBusyTraffic) && (check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE))
++				;		 
++			else if(pLed->bLedScanBlinkInProgress ==_FALSE)
++			{				
++				if(pLed->bLedBlinkInProgress ==_TRUE)
++				{
++					_cancel_timer_ex(&(pLed->BlinkTimer));
++					pLed->bLedBlinkInProgress = _FALSE;
++				}
++				pLed->bLedScanBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_SCAN_BLINK;
++				pLed->BlinkTimes = 24;
++				if( pLed->bLedOn )
++					pLed->BlinkingLedState = RTW_LED_OFF; 
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			}
++			break;
++		
++		case LED_CTL_TX:
++		case LED_CTL_RX:
++	 		if(pLed->bLedBlinkInProgress ==_FALSE)
++	  		{
++	  		  	if(pLed->CurrLedState == LED_SCAN_BLINK)
++				{
++					return;
++				}			
++				pLed->bLedBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_TXRX_BLINK;
++				pLed->BlinkTimes = 2;
++				if( pLed->bLedOn )
++					pLed->BlinkingLedState = RTW_LED_OFF; 
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++			break;				
++
++		case LED_CTL_POWER_OFF:
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF; 
++
++			if( pLed->bLedBlinkInProgress)
++			{
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}			
++				
++			SwLedOff(padapter, pLed);
++			break;
++			
++		default:
++			break;
++
++	}
++
++	RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("Led %d\n", pLed->CurrLedState));
++}
++
++ //WNC-Corega, added by chiyoko, 20090902
++static void
++SwLedControlMode6(
++	_adapter				*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	PLED_871x pLed0 = &(ledpriv->SwLed0);
++	
++	switch(LedAction)
++	{
++		case LED_CTL_POWER_ON:
++		case LED_CTL_LINK:
++		case LED_CTL_NO_LINK:
++			_cancel_timer_ex(&(pLed0->BlinkTimer));
++			pLed0->CurrLedState = RTW_LED_ON;
++			pLed0->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed0->BlinkTimer), 0);
++			break;
++
++		case LED_CTL_POWER_OFF:
++			SwLedOff(padapter, pLed0);
++			break;
++
++		default:
++			break;
++	}
++
++	RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("ledcontrol 6 Led %d\n", pLed0->CurrLedState));
++}
++
++
++//
++//	Description:	
++//		Dispatch LED action according to pHalData->LedStrategy. 
++//
++static void
++LedControl871x(
++	_adapter				*padapter,
++	LED_CTL_MODE		LedAction
++	)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++
++       if( (padapter->bSurpriseRemoved == _TRUE) || ( padapter->bDriverStopped == _TRUE) 
++	   	||(padapter->hw_init_completed == _FALSE) )	
++       {
++             return;
++       }
++
++
++	if( ledpriv->bRegUseLed == _FALSE)
++		return;
++
++	//if (!priv->up)
++	//	return;
++
++	//if(priv->bInHctTest)
++	//	return;
++
++	if( (padapter->pwrctrlpriv.rf_pwrstate != rf_on &&
++		padapter->pwrctrlpriv.rfoff_reason > RF_CHANGE_BY_PS) &&
++		(LedAction == LED_CTL_TX || LedAction == LED_CTL_RX || 
++		 LedAction == LED_CTL_SITE_SURVEY || 
++		 LedAction == LED_CTL_LINK || 
++		 LedAction == LED_CTL_NO_LINK ||
++		 LedAction == LED_CTL_POWER_ON) )
++	{
++		return;
++	}
++	
++	switch(ledpriv->LedStrategy)
++	{
++		case SW_LED_MODE0:
++			//SwLedControlMode0(padapter, LedAction);
++			break;
++
++		case SW_LED_MODE1:
++			SwLedControlMode1(padapter, LedAction);
++			break;
++		case SW_LED_MODE2:
++			SwLedControlMode2(padapter, LedAction);
++                	break;
++
++		case SW_LED_MODE3:
++			SwLedControlMode3(padapter, LedAction);
++			break;	
++
++		case SW_LED_MODE4:
++			SwLedControlMode4(padapter, LedAction);
++			break;			
++
++		case SW_LED_MODE5:
++			SwLedControlMode5(padapter, LedAction);
++			break;
++
++		case SW_LED_MODE6:
++			SwLedControlMode6(padapter, LedAction);
++			break;
++
++		default:
++			break;
++	}
++	
++	RT_TRACE(_module_rtl8712_led_c_,_drv_info_,("LedStrategy:%d, LedAction %d\n", ledpriv->LedStrategy,LedAction));
++}
++
++//
++//	Description:
++//		Initialize all LED_871x objects.
++//
++void
++rtl8192cu_InitSwLeds(
++	_adapter	*padapter
++	)
++{
++	struct led_priv *pledpriv = &(padapter->ledpriv);
++
++	pledpriv->LedControlHandler = LedControl871x;
++
++	InitLed871x(padapter, &(pledpriv->SwLed0), LED_PIN_LED0);
++
++	InitLed871x(padapter,&(pledpriv->SwLed1), LED_PIN_LED1);
++}
++
++
++//
++//	Description:
++//		DeInitialize all LED_819xUsb objects.
++//
++void
++rtl8192cu_DeInitSwLeds(
++	_adapter	*padapter
++	)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++
++	DeInitLed871x( &(ledpriv->SwLed0) );
++	DeInitLed871x( &(ledpriv->SwLed1) );
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/rtl8192cu_recv.c b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/rtl8192cu_recv.c
+new file mode 100755
+index 0000000..1119cf8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/rtl8192cu_recv.c
+@@ -0,0 +1,229 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8192CU_RECV_C_
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <recv_osdep.h>
++#include <mlme_osdep.h>
++#include <ip.h>
++#include <if_ether.h>
++#include <ethernet.h>
++
++#include <usb_ops.h>
++
++#if defined (PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++
++#error "Shall be Linux or Windows, but not both!\n"
++
++#endif
++
++#include <wifi.h>
++#include <circ_buf.h>
++
++#include <rtl8192c_hal.h>
++
++
++void rtl8192cu_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf)
++{
++
++	precvbuf->transfer_len = 0;
++
++	precvbuf->len = 0;
++
++	precvbuf->ref_cnt = 0;
++
++	if(precvbuf->pbuf)
++	{
++		precvbuf->pdata = precvbuf->phead = precvbuf->ptail = precvbuf->pbuf;
++		precvbuf->pend = precvbuf->pdata + MAX_RECVBUF_SZ;
++	}
++
++}
++
++int	rtl8192cu_init_recv_priv(_adapter *padapter)
++{
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++	int	i, res = _SUCCESS;
++	struct recv_buf *precvbuf;
++
++#ifdef CONFIG_RECV_THREAD_MODE	
++	_rtw_init_sema(&precvpriv->recv_sema, 0);//will be removed
++	_rtw_init_sema(&precvpriv->terminate_recvthread_sema, 0);//will be removed
++#endif
++
++#ifdef PLATFORM_LINUX
++	tasklet_init(&precvpriv->recv_tasklet,
++	     (void(*)(unsigned long))rtl8192cu_recv_tasklet,
++	     (unsigned long)padapter);
++#endif
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++#ifdef PLATFORM_LINUX
++	precvpriv->int_in_urb = usb_alloc_urb(0, GFP_KERNEL);
++	if(precvpriv->int_in_urb == NULL){
++		DBG_8192C("alloc_urb for interrupt in endpoint fail !!!!\n");
++	}
++#endif
++	precvpriv->int_in_buf = rtw_zmalloc(sizeof(INTERRUPT_MSG_FORMAT_EX));
++	if(precvpriv->int_in_buf == NULL){
++		DBG_8192C("alloc_mem for interrupt in endpoint fail !!!!\n");
++	}
++#endif
++
++	//init recv_buf
++	_rtw_init_queue(&precvpriv->free_recv_buf_queue);
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++	_rtw_init_queue(&precvpriv->recv_buf_pending_queue);
++#endif	// CONFIG_USE_USB_BUFFER_ALLOC_RX
++
++	precvpriv->pallocated_recv_buf = rtw_zmalloc(NR_RECVBUFF *sizeof(struct recv_buf) + 4);
++	if(precvpriv->pallocated_recv_buf==NULL){
++		res= _FAIL;
++		RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("alloc recv_buf fail!\n"));
++		goto exit;
++	}
++	_rtw_memset(precvpriv->pallocated_recv_buf, 0, NR_RECVBUFF *sizeof(struct recv_buf) + 4);
++
++	precvpriv->precv_buf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(precvpriv->pallocated_recv_buf), 4);
++	//precvpriv->precv_buf = precvpriv->pallocated_recv_buf + 4 -
++	//						((uint) (precvpriv->pallocated_recv_buf) &(4-1));
++
++
++	precvbuf = (struct recv_buf*)precvpriv->precv_buf;
++
++	for(i=0; i < NR_RECVBUFF ; i++)
++	{
++		_rtw_init_listhead(&precvbuf->list);
++
++		_rtw_spinlock_init(&precvbuf->recvbuf_lock);
++
++		precvbuf->alloc_sz = MAX_RECVBUF_SZ;
++
++		res = rtw_os_recvbuf_resource_alloc(padapter, precvbuf);
++		if(res==_FAIL)
++			break;
++
++		precvbuf->ref_cnt = 0;
++		precvbuf->adapter =padapter;
++
++
++		//rtw_list_insert_tail(&precvbuf->list, &(precvpriv->free_recv_buf_queue.queue));
++
++		precvbuf++;
++
++	}
++
++	precvpriv->free_recv_buf_queue_cnt = NR_RECVBUFF;
++
++#ifdef PLATFORM_LINUX
++
++	skb_queue_head_init(&precvpriv->rx_skb_queue);
++
++#ifdef CONFIG_PREALLOC_RECV_SKB
++	{
++		int i;
++		SIZE_PTR tmpaddr=0;
++		SIZE_PTR alignment=0;
++		struct sk_buff *pskb=NULL;
++
++		skb_queue_head_init(&precvpriv->free_recv_skb_queue);
++
++		for(i=0; i<NR_PREALLOC_RECV_SKB; i++)
++		{
++			pskb = rtw_skb_alloc(MAX_RECVBUF_SZ + RECVBUFF_ALIGN_SZ);
++
++			if(pskb)
++			{
++				pskb->dev = padapter->pnetdev;
++
++				tmpaddr = (SIZE_PTR)pskb->data;
++				alignment = tmpaddr & (RECVBUFF_ALIGN_SZ-1);
++				skb_reserve(pskb, (RECVBUFF_ALIGN_SZ - alignment));
++
++				skb_queue_tail(&precvpriv->free_recv_skb_queue, pskb);
++			}
++
++			pskb=NULL;
++
++		}
++	}
++#endif
++
++#endif
++
++exit:
++
++	return res;
++
++}
++
++void rtl8192cu_free_recv_priv (_adapter *padapter)
++{
++	int	i;
++	struct recv_buf	*precvbuf;
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++
++	precvbuf = (struct recv_buf *)precvpriv->precv_buf;
++
++	for(i=0; i < NR_RECVBUFF ; i++)
++	{
++		rtw_os_recvbuf_resource_free(padapter, precvbuf);
++		precvbuf++;
++	}
++
++	if(precvpriv->pallocated_recv_buf)
++		rtw_mfree(precvpriv->pallocated_recv_buf, NR_RECVBUFF *sizeof(struct recv_buf) + 4);
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++#ifdef PLATFORM_LINUX
++	if(precvpriv->int_in_urb)
++	{
++		usb_free_urb(precvpriv->int_in_urb);
++	}
++#endif
++	if(precvpriv->int_in_buf)
++		rtw_mfree(precvpriv->int_in_buf, sizeof(INTERRUPT_MSG_FORMAT_EX));
++#endif
++
++#ifdef PLATFORM_LINUX
++
++	if (skb_queue_len(&precvpriv->rx_skb_queue)) {
++		DBG_8192C(KERN_WARNING "rx_skb_queue not empty\n");
++	}
++
++	rtw_skb_queue_purge(&precvpriv->rx_skb_queue);
++
++#ifdef CONFIG_PREALLOC_RECV_SKB
++
++	if (skb_queue_len(&precvpriv->free_recv_skb_queue)) {
++		DBG_8192C(KERN_WARNING "free_recv_skb_queue not empty, %d\n", skb_queue_len(&precvpriv->free_recv_skb_queue));
++	}
++
++	rtw_skb_queue_purge(&precvpriv->free_recv_skb_queue);
++
++#endif
++
++#endif
++
++}
++
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/rtl8192cu_xmit.c b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/rtl8192cu_xmit.c
+new file mode 100755
+index 0000000..3a4137b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/rtl8192cu_xmit.c
+@@ -0,0 +1,1150 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8192C_XMIT_C_
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <rtw_byteorder.h>
++#include <wifi.h>
++#include <osdep_intf.h>
++#include <circ_buf.h>
++#include <usb_ops.h>
++#include <rtl8192c_hal.h>
++
++#if defined (PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++#error "Shall be Linux or Windows, but not both!\n"
++#endif
++
++
++s32	rtl8192cu_init_xmit_priv(_adapter *padapter)
++{
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++
++#ifdef PLATFORM_LINUX
++	tasklet_init(&pxmitpriv->xmit_tasklet,
++	     (void(*)(unsigned long))rtl8192cu_xmit_tasklet,
++	     (unsigned long)padapter);
++#endif
++	return _SUCCESS;
++}
++
++void	rtl8192cu_free_xmit_priv(_adapter *padapter)
++{
++}
++
++u32 rtw_get_ff_hwaddr(struct xmit_frame	*pxmitframe)
++{
++	u32 addr;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;	
++	
++	switch(pattrib->qsel)
++	{
++		case 0:
++		case 3:
++			addr = BE_QUEUE_INX;
++		 	break;
++		case 1:
++		case 2:
++			addr = BK_QUEUE_INX;
++			break;				
++		case 4:
++		case 5:
++			addr = VI_QUEUE_INX;
++			break;		
++		case 6:
++		case 7:
++			addr = VO_QUEUE_INX;
++			break;
++		case 0x10:
++			addr = BCN_QUEUE_INX;
++			break;
++		case 0x11://BC/MC in PS (HIQ)
++			addr = HIGH_QUEUE_INX;
++			break;
++		case 0x12:
++			addr = MGT_QUEUE_INX;
++			break;
++		default:
++			addr = BE_QUEUE_INX;
++			break;		
++			
++	}
++
++	return addr;
++
++}
++
++int urb_zero_packet_chk(_adapter *padapter, int sz)
++{
++	int blnSetTxDescOffset;
++	struct dvobj_priv	*pdvobj = adapter_to_dvobj(padapter);	
++
++	if ( pdvobj->ishighspeed )
++	{
++		if ( ( (sz + TXDESC_SIZE) % 512 ) == 0 ) {
++			blnSetTxDescOffset = 1;
++		} else {
++			blnSetTxDescOffset = 0;
++		}
++	}
++	else
++	{
++		if ( ( (sz + TXDESC_SIZE) % 64 ) == 0 ) 	{
++			blnSetTxDescOffset = 1;
++		} else {
++			blnSetTxDescOffset = 0;
++		}
++	}
++	
++	return blnSetTxDescOffset;
++	
++}
++
++void rtl8192cu_cal_txdesc_chksum(struct tx_desc	*ptxdesc)
++{
++		u16	*usPtr = (u16*)ptxdesc;
++		u32 count = 16;		// (32 bytes / 2 bytes per XOR) => 16 times
++		u32 index;
++		u16 checksum = 0;
++
++		//Clear first
++		ptxdesc->txdw7 &= cpu_to_le32(0xffff0000);
++	
++		for(index = 0 ; index < count ; index++){
++			checksum = checksum ^ le16_to_cpu(*(usPtr + index));
++		}
++
++		ptxdesc->txdw7 |= cpu_to_le32(0x0000ffff&checksum);	
++
++}
++
++void fill_txdesc_sectype(struct pkt_attrib *pattrib, struct tx_desc *ptxdesc)
++{
++	if ((pattrib->encrypt > 0) && !pattrib->bswenc)
++	{
++		switch (pattrib->encrypt)
++		{	
++			//SEC_TYPE
++			case _WEP40_:
++			case _WEP104_:
++					ptxdesc->txdw1 |= cpu_to_le32((0x01<<22)&0x00c00000);
++					break;				
++			case _TKIP_:
++			case _TKIP_WTMIC_:	
++					//ptxdesc->txdw1 |= cpu_to_le32((0x02<<22)&0x00c00000);
++					ptxdesc->txdw1 |= cpu_to_le32((0x01<<22)&0x00c00000);
++					break;
++			case _AES_:
++					ptxdesc->txdw1 |= cpu_to_le32((0x03<<22)&0x00c00000);
++					break;
++			case _NO_PRIVACY_:
++			default:
++					break;
++		
++		}
++		
++	}
++
++}
++
++static void fill_txdesc_vcs(struct pkt_attrib *pattrib, u32 *pdw)
++{
++	//DBG_8192C("cvs_mode=%d\n", pattrib->vcs_mode);	
++
++	switch(pattrib->vcs_mode)
++	{
++		case RTS_CTS:
++			*pdw |= cpu_to_le32(BIT(12));
++			break;
++		case CTS_TO_SELF:
++			*pdw |= cpu_to_le32(BIT(11));
++			break;
++		case NONE_VCS:
++		default:
++			break;		
++	}
++
++	if(pattrib->vcs_mode) {
++		*pdw |= cpu_to_le32(BIT(13));
++
++		// Set RTS BW
++		if(pattrib->ht_en)
++		{
++			*pdw |= (pattrib->bwmode&HT_CHANNEL_WIDTH_40)?	cpu_to_le32(BIT(27)):0;
++
++			if(pattrib->ch_offset == HAL_PRIME_CHNL_OFFSET_LOWER)
++				*pdw |= cpu_to_le32((0x01<<28)&0x30000000);
++			else if(pattrib->ch_offset == HAL_PRIME_CHNL_OFFSET_UPPER)
++				*pdw |= cpu_to_le32((0x02<<28)&0x30000000);
++			else if(pattrib->ch_offset == HAL_PRIME_CHNL_OFFSET_DONT_CARE)
++				*pdw |= 0;
++			else
++				*pdw |= cpu_to_le32((0x03<<28)&0x30000000);
++		}
++	}
++}
++
++static void fill_txdesc_phy(struct pkt_attrib *pattrib, u32 *pdw)
++{
++	//DBG_8192C("bwmode=%d, ch_off=%d\n", pattrib->bwmode, pattrib->ch_offset);
++
++	if(pattrib->ht_en)
++	{
++		*pdw |= (pattrib->bwmode&HT_CHANNEL_WIDTH_40)?	cpu_to_le32(BIT(25)):0;
++
++		if(pattrib->ch_offset == HAL_PRIME_CHNL_OFFSET_LOWER)
++			*pdw |= cpu_to_le32((0x01<<20)&0x00300000);
++		else if(pattrib->ch_offset == HAL_PRIME_CHNL_OFFSET_UPPER)
++			*pdw |= cpu_to_le32((0x02<<20)&0x00300000);
++		else if(pattrib->ch_offset == HAL_PRIME_CHNL_OFFSET_DONT_CARE)
++			*pdw |= 0;
++		else
++			*pdw |= cpu_to_le32((0x03<<20)&0x00300000);
++	}
++}
++
++static s32 update_txdesc(struct xmit_frame *pxmitframe, u8 *pmem, s32 sz, u8 bagg_pkt)
++{
++	int	pull=0;
++	uint	qsel;
++	_adapter			*padapter = pxmitframe->padapter;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;		
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	struct tx_desc	*ptxdesc = (struct tx_desc *)pmem;
++	struct ht_priv		*phtpriv = &pmlmepriv->htpriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	sint	bmcst = IS_MCAST(pattrib->ra);
++#ifdef CONFIG_P2P
++	struct wifidirect_info*	pwdinfo = &padapter->wdinfo;
++#endif //CONFIG_P2P
++
++#ifndef CONFIG_USE_USB_BUFFER_ALLOC_TX
++	if((_FALSE == bagg_pkt) && (urb_zero_packet_chk(padapter, sz)==0))
++	{
++		ptxdesc = (struct tx_desc *)(pmem+PACKET_OFFSET_SZ);
++		pull = 1;
++		pxmitframe->pkt_offset --;
++	}
++#endif	// CONFIG_USE_USB_BUFFER_ALLOC_TX
++
++	_rtw_memset(ptxdesc, 0, sizeof(struct tx_desc));
++
++	if((pxmitframe->frame_tag&0x0f) == DATA_FRAMETAG)
++	{
++		//DBG_8192C("pxmitframe->frame_tag == DATA_FRAMETAG\n");			
++
++		//offset 4
++		ptxdesc->txdw1 |= cpu_to_le32(pattrib->mac_id&0x1f);
++
++		qsel = (uint)(pattrib->qsel & 0x0000001f);
++		ptxdesc->txdw1 |= cpu_to_le32((qsel << QSEL_SHT) & 0x00001f00);
++
++		ptxdesc->txdw1 |= cpu_to_le32((pattrib->raid<< 16) & 0x000f0000);
++
++		fill_txdesc_sectype(pattrib, ptxdesc);
++
++		if(pattrib->ampdu_en==_TRUE)
++			ptxdesc->txdw1 |= cpu_to_le32(BIT(5));//AGG EN
++		else
++			ptxdesc->txdw1 |= cpu_to_le32(BIT(6));//AGG BK
++		
++		//offset 8
++
++
++		//offset 12
++		ptxdesc->txdw3 |= cpu_to_le32((pattrib->seqnum<<16)&0xffff0000);
++
++
++		//offset 16 , offset 20
++		if (pattrib->qos_en)
++			ptxdesc->txdw4 |= cpu_to_le32(BIT(6));//QoS
++
++		if ((pattrib->ether_type != 0x888e) && (pattrib->ether_type != 0x0806) && (pattrib->dhcp_pkt != 1))
++		{
++              	//Non EAP & ARP & DHCP type data packet
++              	
++			fill_txdesc_vcs(pattrib, &ptxdesc->txdw4);
++			fill_txdesc_phy(pattrib, &ptxdesc->txdw4);
++
++			ptxdesc->txdw4 |= cpu_to_le32(0x00000008);//RTS Rate=24M
++			ptxdesc->txdw5 |= cpu_to_le32(0x0001ff00);//
++			//ptxdesc->txdw5 |= cpu_to_le32(0x0000000b);//DataRate - 54M
++
++			//use REG_INIDATA_RATE_SEL value
++			ptxdesc->txdw5 |= cpu_to_le32(pdmpriv->INIDATA_RATE[pattrib->mac_id]);
++
++              	if(0)//for driver dbg
++			{
++				ptxdesc->txdw4 |= cpu_to_le32(BIT(8));//driver uses rate
++				
++				if(pattrib->ht_en)
++					ptxdesc->txdw5 |= cpu_to_le32(BIT(6));//SGI
++
++				ptxdesc->txdw5 |= cpu_to_le32(0x00000013);//init rate - mcs7
++			}
++
++		}
++		else
++		{
++			// EAP data packet and ARP packet.
++			// Use the 1M data rate to send the EAP/ARP packet.
++			// This will maybe make the handshake smooth.
++
++			ptxdesc->txdw1 |= cpu_to_le32(BIT(6));//AGG BK
++			
++		   	ptxdesc->txdw4 |= cpu_to_le32(BIT(8));//driver uses rate
++
++			if (pmlmeinfo->preamble_mode == PREAMBLE_SHORT)
++				ptxdesc->txdw4 |= cpu_to_le32(BIT(24));// DATA_SHORT
++
++			ptxdesc->txdw5 |= cpu_to_le32(MRateToHwRate(pmlmeext->tx_rate));
++		}
++		
++		//offset 24
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
++		if ( pattrib->hw_tcp_csum == 1 ) {
++			// ptxdesc->txdw6 = 0; // clear TCP_CHECKSUM and IP_CHECKSUM. It's zero already!!
++			u8 ip_hdr_offset = 32 + pattrib->hdrlen + pattrib->iv_len + 8;
++			ptxdesc->txdw7 = (1 << 31) | (ip_hdr_offset << 16);
++			DBG_8192C("ptxdesc->txdw7 = %08x\n", ptxdesc->txdw7);
++		}
++#endif
++	}
++	else if((pxmitframe->frame_tag&0x0f)== MGNT_FRAMETAG)
++	{
++		//DBG_8192C("pxmitframe->frame_tag == MGNT_FRAMETAG\n");	
++		
++		//offset 4		
++		ptxdesc->txdw1 |= cpu_to_le32(pattrib->mac_id&0x1f);
++		
++		qsel = (uint)(pattrib->qsel&0x0000001f);
++		ptxdesc->txdw1 |= cpu_to_le32((qsel<<QSEL_SHT)&0x00001f00);
++
++		ptxdesc->txdw1 |= cpu_to_le32((pattrib->raid<< 16) & 0x000f0000);
++		
++		//fill_txdesc_sectype(pattrib, ptxdesc);
++		
++		//offset 8		
++#ifdef CONFIG_XMIT_ACK
++		//CCX-TXRPT ack for xmit mgmt frames.
++		if (pxmitframe->ack_report) {
++			ptxdesc->txdw2 |= cpu_to_le32(BIT(19));
++			#ifdef DBG_CCX
++			DBG_871X("%s set ccx\n", __func__);
++			#endif
++		}
++#endif //CONFIG_XMIT_ACK
++
++		//offset 12
++		ptxdesc->txdw3 |= cpu_to_le32((pattrib->seqnum<<16)&0xffff0000);
++		
++		//offset 16
++		ptxdesc->txdw4 |= cpu_to_le32(BIT(8));//driver uses rate
++		
++		//offset 20
++		ptxdesc->txdw5 |= cpu_to_le32(BIT(17));//retry limit enable
++		if(pattrib->retry_ctrl == _TRUE)
++		{
++#ifdef CONFIG_P2P
++			if(!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++			{
++#ifdef CONFIG_INTEL_WIDI
++				if(padapter->mlmepriv.widi_enable == _TRUE)
++					ptxdesc->txdw5 |= cpu_to_le32(0x00180000);//retry limit = 6
++				else
++#endif //CONFIG_INTEL_WIDI
++					ptxdesc->txdw5 |= cpu_to_le32(0x00080000);//retry limit = 2
++			}
++			else
++#endif //CONFIG_P2P
++				ptxdesc->txdw5 |= cpu_to_le32(0x00180000);//retry limit = 6			
++		}
++		else
++			ptxdesc->txdw5 |= cpu_to_le32(0x00300000);//retry limit = 12
++
++#ifdef CONFIG_INTEL_PROXIM
++		if((padapter->proximity.proxim_on==_TRUE)&&(pattrib->intel_proxim==_TRUE)){
++			printk("\n %s pattrib->rate=%d\n",__FUNCTION__,pattrib->rate);
++			ptxdesc->txdw5 |= cpu_to_le32( pattrib->rate);
++		}
++		else
++#endif
++		{
++			ptxdesc->txdw5 |= cpu_to_le32(MRateToHwRate(pmlmeext->tx_rate));
++		}
++	}
++	else if((pxmitframe->frame_tag&0x0f) == TXAGG_FRAMETAG)
++	{
++		DBG_8192C("pxmitframe->frame_tag == TXAGG_FRAMETAG\n");
++	}
++#ifdef CONFIG_MP_INCLUDED
++	else if((pxmitframe->frame_tag&0x0f) == MP_FRAMETAG)
++	{
++		fill_txdesc_for_mp(padapter, ptxdesc);
++	}
++#endif
++	else
++	{
++		DBG_8192C("pxmitframe->frame_tag = %d\n", pxmitframe->frame_tag);
++		
++		//offset 4	
++		ptxdesc->txdw1 |= cpu_to_le32((4)&0x1f);//CAM_ID(MAC_ID)
++		
++		ptxdesc->txdw1 |= cpu_to_le32((6<< 16) & 0x000f0000);//raid
++		
++		//offset 8		
++
++		//offset 12
++		ptxdesc->txdw3 |= cpu_to_le32((pattrib->seqnum<<16)&0xffff0000);
++		
++		//offset 16
++		ptxdesc->txdw4 |= cpu_to_le32(BIT(8));//driver uses rate
++		
++		//offset 20
++		ptxdesc->txdw5 |= cpu_to_le32(MRateToHwRate(pmlmeext->tx_rate));
++	}
++
++	// 2009.11.05. tynli_test. Suggested by SD4 Filen for FW LPS.
++	// (1) The sequence number of each non-Qos frame / broadcast / multicast /
++	// mgnt frame should be controled by Hw because Fw will also send null data
++	// which we cannot control when Fw LPS enable.
++	// --> default enable non-Qos data sequense number. 2010.06.23. by tynli.
++	// (2) Enable HW SEQ control for beacon packet, because we use Hw beacon.
++	// (3) Use HW Qos SEQ to control the seq num of Ext port non-Qos packets.
++	// 2010.06.23. Added by tynli.
++	if(!pattrib->qos_en)
++	{		
++		ptxdesc->txdw4 |= cpu_to_le32(BIT(7)); // Hw set sequence number
++		ptxdesc->txdw3 |= cpu_to_le32((8 <<28)); //set bit3 to 1. Suugested by TimChen. 2009.12.29.
++	}
++
++	//offset 0
++	ptxdesc->txdw0 |= cpu_to_le32(sz&0x0000ffff);
++	ptxdesc->txdw0 |= cpu_to_le32(OWN | FSG | LSG);
++	ptxdesc->txdw0 |= cpu_to_le32(((TXDESC_SIZE+OFFSET_SZ)<<OFFSET_SHT)&0x00ff0000);//32 bytes for TX Desc
++
++	if(bmcst)	
++	{
++		ptxdesc->txdw0 |= cpu_to_le32(BIT(24));
++	}	
++
++	RT_TRACE(_module_rtl871x_xmit_c_,_drv_info_,("offset0-txdesc=0x%x\n", ptxdesc->txdw0));
++
++	//offset 4
++	// pkt_offset, unit:8 bytes padding
++	if (pxmitframe->pkt_offset > 0)
++		ptxdesc->txdw1 |= cpu_to_le32((pxmitframe->pkt_offset << 26) & 0x7c000000);
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	if (pxmitframe->agg_num > 1)
++		ptxdesc->txdw5 |= cpu_to_le32((pxmitframe->agg_num << 24) & 0xff000000);
++#endif
++
++	rtl8192cu_cal_txdesc_chksum(ptxdesc);
++		
++	return pull;
++		
++}
++
++static s32 rtw_dump_xframe(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	s32 ret = _SUCCESS;
++	s32 inner_ret = _SUCCESS;
++	int t, sz, w_sz, pull=0;
++	u8 *mem_addr;
++	u32 ff_hwaddr;
++	struct xmit_buf *pxmitbuf = pxmitframe->pxmitbuf;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++
++	if ((pxmitframe->frame_tag == DATA_FRAMETAG) &&
++	    (pxmitframe->attrib.ether_type != 0x0806) &&
++	    (pxmitframe->attrib.ether_type != 0x888e) &&
++	    (pxmitframe->attrib.dhcp_pkt != 1))
++	{
++		rtw_issue_addbareq_cmd(padapter, pxmitframe);
++	}
++	
++	mem_addr = pxmitframe->buf_addr;
++
++       RT_TRACE(_module_rtl871x_xmit_c_,_drv_info_,("rtw_dump_xframe()\n"));
++	
++	for (t = 0; t < pattrib->nr_frags; t++)
++	{
++		if (inner_ret != _SUCCESS && ret == _SUCCESS)
++			ret = _FAIL;
++
++		if (t != (pattrib->nr_frags - 1))
++		{
++			RT_TRACE(_module_rtl871x_xmit_c_,_drv_err_,("pattrib->nr_frags=%d\n", pattrib->nr_frags));
++
++			sz = pxmitpriv->frag_len;
++			sz = sz - 4 - (psecuritypriv->sw_encrypt ? 0 : pattrib->icv_len);					
++		}
++		else //no frag
++		{
++			sz = pattrib->last_txcmdsz;
++		}
++
++		pull = update_txdesc(pxmitframe, mem_addr, sz, _FALSE);
++		
++		if(pull)
++		{
++			mem_addr += PACKET_OFFSET_SZ; //pull txdesc head
++			
++			//pxmitbuf ->pbuf = mem_addr;			
++			pxmitframe->buf_addr = mem_addr;
++
++			w_sz = sz + TXDESC_SIZE;
++		}
++		else
++		{
++			w_sz = sz + TXDESC_SIZE + PACKET_OFFSET_SZ;
++		}	
++
++		ff_hwaddr = rtw_get_ff_hwaddr(pxmitframe);
++		
++		inner_ret = rtw_write_port(padapter, ff_hwaddr, w_sz, (unsigned char*)pxmitbuf);
++
++		rtw_count_tx_stats(padapter, pxmitframe, sz);
++
++
++		RT_TRACE(_module_rtl871x_xmit_c_,_drv_info_,("rtw_write_port, w_sz=%d\n", w_sz));
++		//DBG_8192C("rtw_write_port, w_sz=%d, sz=%d, txdesc_sz=%d, tid=%d\n", w_sz, sz, w_sz-sz, pattrib->priority);      
++
++		mem_addr += w_sz;
++
++		mem_addr = (u8 *)RND4(((SIZE_PTR)(mem_addr)));
++
++	}
++	
++	rtw_free_xmitframe(pxmitpriv, pxmitframe);
++
++	if  (ret != _SUCCESS)
++		rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_UNKNOWN);
++
++	return ret;
++}
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++static u32 xmitframe_need_length(struct xmit_frame *pxmitframe)
++{
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++
++	u32	len = 0;
++
++	// no consider fragement
++	len = pattrib->hdrlen + pattrib->iv_len +
++		SNAP_SIZE + sizeof(u16) +
++		pattrib->pktlen +
++		((pattrib->bswenc) ? pattrib->icv_len : 0);
++
++	if(pattrib->encrypt ==_TKIP_)
++		len += 8;
++
++	return len;
++}
++
++#define IDEA_CONDITION 1	// check all packets before enqueue
++s32 rtl8192cu_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct xmit_frame *pxmitframe = NULL;
++	struct xmit_frame *pfirstframe = NULL;
++
++	// aggregate variable
++	struct hw_xmit *phwxmit;
++	struct sta_info *psta = NULL;
++	struct tx_servq *ptxservq = NULL;
++
++	_irqL irqL;
++	_list *xmitframe_plist = NULL, *xmitframe_phead = NULL;
++
++	u32	pbuf;	// next pkt address
++	u32	pbuf_tail;	// last pkt tail
++	u32	len;	// packet length, except TXDESC_SIZE and PKT_OFFSET
++
++	u32	bulkSize = pHalData->UsbBulkOutSize;
++	u8	descCount;
++	u32	bulkPtr;
++
++	// dump frame variable
++	u32 ff_hwaddr;
++
++#ifndef IDEA_CONDITION
++	int res = _SUCCESS;
++#endif
++
++	RT_TRACE(_module_rtl8192c_xmit_c_, _drv_info_, ("+xmitframe_complete\n"));
++
++
++	// check xmitbuffer is ok
++	if (pxmitbuf == NULL) {
++		pxmitbuf = rtw_alloc_xmitbuf(pxmitpriv);
++		if (pxmitbuf == NULL) return _FALSE;
++	}
++
++
++	//3 1. pick up first frame
++	do {
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++			
++		pxmitframe = rtw_dequeue_xframe(pxmitpriv, pxmitpriv->hwxmits, pxmitpriv->hwxmit_entry);
++		if (pxmitframe == NULL) {
++			// no more xmit frame, release xmit buffer
++			rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++			return _FALSE;
++		}
++
++
++#ifndef IDEA_CONDITION
++		if (pxmitframe->frame_tag != DATA_FRAMETAG) {
++			RT_TRACE(_module_rtl8192c_xmit_c_, _drv_err_,
++				 ("xmitframe_complete: frame tag(%d) is not DATA_FRAMETAG(%d)!\n",
++				  pxmitframe->frame_tag, DATA_FRAMETAG));
++//			rtw_free_xmitframe(pxmitpriv, pxmitframe);
++			continue;
++		}
++
++		// TID 0~15
++		if ((pxmitframe->attrib.priority < 0) ||
++		    (pxmitframe->attrib.priority > 15)) {
++			RT_TRACE(_module_rtl8192c_xmit_c_, _drv_err_,
++				 ("xmitframe_complete: TID(%d) should be 0~15!\n",
++				  pxmitframe->attrib.priority));
++//			rtw_free_xmitframe(pxmitpriv, pxmitframe);
++			continue;
++		}
++#endif
++
++		pxmitframe->pxmitbuf = pxmitbuf;
++		pxmitframe->buf_addr = pxmitbuf->pbuf;
++		pxmitbuf->priv_data = pxmitframe;
++
++		//pxmitframe->agg_num = 1; // alloc xmitframe should assign to 1.
++		pxmitframe->pkt_offset = 1; // first frame of aggregation, reserve offset
++
++
++		if (rtw_xmitframe_coalesce(padapter, pxmitframe->pkt, pxmitframe) == _FALSE) {
++			DBG_871X("%s coalesce 1st xmitframe failed \n",__FUNCTION__);
++			continue;
++		}
++
++
++		// always return ndis_packet after rtw_xmitframe_coalesce
++		rtw_os_xmit_complete(padapter, pxmitframe);
++
++		break;
++	} while (1);
++
++	//3 2. aggregate same priority and same DA(AP or STA) frames
++	pfirstframe = pxmitframe;
++	len = xmitframe_need_length(pfirstframe) + TXDESC_OFFSET;
++	pbuf_tail = len;
++	pbuf = _RND8(pbuf_tail);
++
++	// check pkt amount in one bluk
++	descCount = 0;
++	bulkPtr = bulkSize;
++	if (pbuf < bulkPtr)
++		descCount++;
++	else {
++		descCount = 0;
++		bulkPtr = ((pbuf / bulkSize) + 1) * bulkSize; // round to next bulkSize
++	}
++
++	// dequeue same priority packet from station tx queue
++	psta = pfirstframe->attrib.psta;
++	switch (pfirstframe->attrib.priority) {
++		case 1:
++		case 2:
++			ptxservq = &(psta->sta_xmitpriv.bk_q);
++			phwxmit = pxmitpriv->hwxmits + 3;
++			break;
++
++		case 4:
++		case 5:
++			ptxservq = &(psta->sta_xmitpriv.vi_q);
++			phwxmit = pxmitpriv->hwxmits + 1;
++			break;
++
++		case 6:
++		case 7:
++			ptxservq = &(psta->sta_xmitpriv.vo_q);
++			phwxmit = pxmitpriv->hwxmits;
++			break;
++
++		case 0:
++		case 3:
++		default:
++			ptxservq = &(psta->sta_xmitpriv.be_q);
++			phwxmit = pxmitpriv->hwxmits + 2;
++			break;
++	}
++
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++	xmitframe_phead = get_list_head(&ptxservq->sta_pending);
++	xmitframe_plist = get_next(xmitframe_phead);
++	while (rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist) == _FALSE)
++	{
++		pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++		xmitframe_plist = get_next(xmitframe_plist);
++
++		len = xmitframe_need_length(pxmitframe) + TXDESC_SIZE; // no offset
++		if (pbuf + len > MAX_XMITBUF_SZ) break;
++
++		rtw_list_delete(&pxmitframe->list);
++		ptxservq->qcnt--;
++		phwxmit->accnt--;
++
++#ifndef IDEA_CONDITION
++		// suppose only data frames would be in queue
++		if (pxmitframe->frame_tag != DATA_FRAMETAG) {
++			RT_TRACE(_module_rtl8192c_xmit_c_, _drv_err_,
++				 ("xmitframe_complete: frame tag(%d) is not DATA_FRAMETAG(%d)!\n",
++				  pxmitframe->frame_tag, DATA_FRAMETAG));
++			rtw_free_xmitframe(pxmitpriv, pxmitframe);
++			continue;
++		}
++
++		// TID 0~15
++		if ((pxmitframe->attrib.priority < 0) ||
++		    (pxmitframe->attrib.priority > 15)) {
++			RT_TRACE(_module_rtl8192c_xmit_c_, _drv_err_,
++				 ("xmitframe_complete: TID(%d) should be 0~15!\n",
++				  pxmitframe->attrib.priority));
++			rtw_free_xmitframe(pxmitpriv, pxmitframe);
++			continue;
++		}
++#endif
++
++//		pxmitframe->pxmitbuf = pxmitbuf;
++		pxmitframe->buf_addr = pxmitbuf->pbuf + pbuf;
++
++		pxmitframe->agg_num = 0; // not first frame of aggregation
++		pxmitframe->pkt_offset = 0; // not first frame of aggregation, no need to reserve offset
++
++		if (rtw_xmitframe_coalesce(padapter, pxmitframe->pkt, pxmitframe) == _FALSE) {
++			DBG_871X("%s coalesce failed \n",__FUNCTION__);
++			rtw_free_xmitframe(pxmitpriv, pxmitframe);
++			continue;
++		}
++
++		// always return ndis_packet after rtw_xmitframe_coalesce
++		rtw_os_xmit_complete(padapter, pxmitframe);
++
++		// (len - TXDESC_SIZE) == pxmitframe->attrib.last_txcmdsz
++		update_txdesc(pxmitframe, pxmitframe->buf_addr, pxmitframe->attrib.last_txcmdsz, _TRUE);
++
++		// don't need xmitframe any more
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++
++		// handle pointer and stop condition
++		pbuf_tail = pbuf + len;
++		pbuf = _RND8(pbuf_tail);
++
++		pfirstframe->agg_num++;
++		if (MAX_TX_AGG_PACKET_NUMBER == pfirstframe->agg_num)
++			break;
++
++		if (pbuf < bulkPtr) {
++			descCount++;
++			if (descCount == pHalData->UsbTxAggDescNum)
++				break;
++		} else {
++			descCount = 0;
++			bulkPtr = ((pbuf / bulkSize) + 1) * bulkSize;
++		}
++	}
++	if (_rtw_queue_empty(&ptxservq->sta_pending) == _TRUE)
++		rtw_list_delete(&ptxservq->tx_pending);
++
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++	if ((pfirstframe->attrib.ether_type != 0x0806) &&
++	    (pfirstframe->attrib.ether_type != 0x888e) &&
++	    (pfirstframe->attrib.dhcp_pkt != 1))
++	{
++		rtw_issue_addbareq_cmd(padapter, pfirstframe);
++	}
++
++#ifndef CONFIG_USE_USB_BUFFER_ALLOC_TX
++	//3 3. update first frame txdesc
++	if ((pbuf_tail % bulkSize) == 0) {
++		// remove pkt_offset
++		pbuf_tail -= PACKET_OFFSET_SZ;
++		pfirstframe->buf_addr += PACKET_OFFSET_SZ;
++		pfirstframe->pkt_offset = 0;
++	}
++#endif	// CONFIG_USE_USB_BUFFER_ALLOC_TX
++	update_txdesc(pfirstframe, pfirstframe->buf_addr, pfirstframe->attrib.last_txcmdsz, _TRUE);
++
++	//3 4. write xmit buffer to USB FIFO
++	ff_hwaddr = rtw_get_ff_hwaddr(pfirstframe);
++
++	// xmit address == ((xmit_frame*)pxmitbuf->priv_data)->buf_addr
++	rtw_write_port(padapter, ff_hwaddr, pbuf_tail, (u8*)pxmitbuf);
++
++
++	//3 5. update statisitc
++	pbuf_tail -= (pfirstframe->agg_num * TXDESC_SIZE);
++	if (pfirstframe->pkt_offset == 1) pbuf_tail -= PACKET_OFFSET_SZ;
++	
++	rtw_count_tx_stats(padapter, pfirstframe, pbuf_tail);
++
++	rtw_free_xmitframe(pxmitpriv, pfirstframe);
++
++	return _TRUE;
++}
++
++#else
++
++s32 rtl8192cu_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf)
++{		
++
++	struct hw_xmit *phwxmits;
++	sint hwentry;
++	struct xmit_frame *pxmitframe=NULL;	
++	int res=_SUCCESS, xcnt = 0;
++
++	phwxmits = pxmitpriv->hwxmits;
++	hwentry = pxmitpriv->hwxmit_entry;
++
++	RT_TRACE(_module_rtl871x_xmit_c_,_drv_info_,("xmitframe_complete()\n"));
++
++	if(pxmitbuf==NULL)
++	{
++		pxmitbuf = rtw_alloc_xmitbuf(pxmitpriv);		
++		if(!pxmitbuf)
++		{
++			return _FALSE;
++		}			
++	}	
++
++
++	do
++	{		
++		pxmitframe =  rtw_dequeue_xframe(pxmitpriv, phwxmits, hwentry);
++		
++		if(pxmitframe)
++		{
++			pxmitframe->pxmitbuf = pxmitbuf;				
++
++			pxmitframe->buf_addr = pxmitbuf->pbuf;
++
++			pxmitbuf->priv_data = pxmitframe;	
++
++			if((pxmitframe->frame_tag&0x0f) == DATA_FRAMETAG)
++			{	
++				if(pxmitframe->attrib.priority<=15)//TID0~15
++				{
++					res = rtw_xmitframe_coalesce(padapter, pxmitframe->pkt, pxmitframe);
++				}	
++							
++				rtw_os_xmit_complete(padapter, pxmitframe);//always return ndis_packet after rtw_xmitframe_coalesce 			
++			}
++
++				
++			RT_TRACE(_module_rtl871x_xmit_c_,_drv_info_,("xmitframe_complete(): rtw_dump_xframe\n"));
++
++			
++			if(res == _SUCCESS)
++			{
++				rtw_dump_xframe(padapter, pxmitframe);
++			}
++			else
++			{
++				rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++				rtw_free_xmitframe(pxmitpriv, pxmitframe);	
++			}
++	 			 		
++			xcnt++;
++			
++		}
++		else
++		{			
++			rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++			return _FALSE;
++		}
++
++		break;
++		
++	}while(0/*xcnt < (NR_XMITFRAME >> 3)*/);
++
++	return _TRUE;
++	
++}
++#endif
++
++
++
++static s32 xmitframe_direct(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	s32 res = _SUCCESS;
++
++
++	res = rtw_xmitframe_coalesce(padapter, pxmitframe->pkt, pxmitframe);
++	if (res == _SUCCESS) {
++		rtw_dump_xframe(padapter, pxmitframe);
++	}
++
++	return res;
++}
++
++/*
++ * Return
++ *	_TRUE	dump packet directly
++ *	_FALSE	enqueue packet
++ */
++static s32 pre_xmitframe(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++        _irqL irqL;
++	s32 res;
++	struct xmit_buf *pxmitbuf = NULL;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	
++	
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++
++	if (rtw_txframes_sta_ac_pending(padapter, pattrib) > 0)
++		goto enqueue;
++
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY|_FW_UNDER_LINKING) == _TRUE)
++		goto enqueue;
++
++#ifdef CONFIG_CONCURRENT_MODE	
++	if (check_buddy_fwstate(padapter, _FW_UNDER_SURVEY|_FW_UNDER_LINKING) == _TRUE)
++		goto enqueue;
++#endif
++
++	pxmitbuf = rtw_alloc_xmitbuf(pxmitpriv);
++	if (pxmitbuf == NULL)
++		goto enqueue;
++
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++	pxmitframe->pxmitbuf = pxmitbuf;
++	pxmitframe->buf_addr = pxmitbuf->pbuf;
++	pxmitbuf->priv_data = pxmitframe;
++
++	if (xmitframe_direct(padapter, pxmitframe) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++	}
++
++	return _TRUE;
++
++enqueue:
++	res = rtw_xmitframe_enqueue(padapter, pxmitframe);
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++	if (res != _SUCCESS) {
++		RT_TRACE(_module_xmit_osdep_c_, _drv_err_, ("pre_xmitframe: enqueue xmitframe fail\n"));
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++
++		// Trick, make the statistics correct
++		pxmitpriv->tx_pkts--;
++		pxmitpriv->tx_drop++;
++		return _TRUE;
++	}
++
++	return _FALSE;
++}
++
++s32 rtl8192cu_mgnt_xmit(_adapter *padapter, struct xmit_frame *pmgntframe)
++{
++	return rtw_dump_xframe(padapter, pmgntframe);
++}
++
++/*
++ * Return
++ *	_TRUE	dump packet directly ok
++ *	_FALSE	temporary can't transmit packets to hardware
++ */
++s32 rtl8192cu_hal_xmit(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	return pre_xmitframe(padapter, pxmitframe);
++}
++
++s32	 rtl8192cu_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	struct xmit_priv 	*pxmitpriv = &padapter->xmitpriv;
++	s32 err;
++	
++	if ((err=rtw_xmitframe_enqueue(padapter, pxmitframe)) != _SUCCESS) 
++	{
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++
++		// Trick, make the statistics correct
++		pxmitpriv->tx_pkts--;
++		pxmitpriv->tx_drop++;					
++	}
++	else
++	{
++#ifdef PLATFORM_LINUX
++		tasklet_hi_schedule(&pxmitpriv->xmit_tasklet);
++#endif
++	}
++	
++	return err;
++	
++}
++
++#ifdef  CONFIG_HOSTAPD_MLME
++
++static void rtl8192cu_hostap_mgnt_xmit_cb(struct urb *urb)
++{	
++#ifdef PLATFORM_LINUX
++	struct sk_buff *skb = (struct sk_buff *)urb->context;
++
++	//DBG_8192C("%s\n", __FUNCTION__);
++
++	rtw_skb_free(skb);
++#endif	
++}
++
++s32 rtl8192cu_hostap_mgnt_xmit_entry(_adapter *padapter, _pkt *pkt)
++{
++#ifdef PLATFORM_LINUX
++	u16 fc;
++	int rc, len, pipe;	
++	unsigned int bmcst, tid, qsel;
++	struct sk_buff *skb, *pxmit_skb;
++	struct urb *urb;
++	unsigned char *pxmitbuf;
++	struct tx_desc *ptxdesc;
++	struct rtw_ieee80211_hdr *tx_hdr;
++	struct hostapd_priv *phostapdpriv = padapter->phostapdpriv;	
++	struct net_device *pnetdev = padapter->pnetdev;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	struct dvobj_priv *pdvobj = adapter_to_dvobj(padapter);	
++
++	
++	//DBG_8192C("%s\n", __FUNCTION__);
++
++	skb = pkt;
++	
++	len = skb->len;
++	tx_hdr = (struct rtw_ieee80211_hdr *)(skb->data);
++	fc = le16_to_cpu(tx_hdr->frame_ctl);
++	bmcst = IS_MCAST(tx_hdr->addr1);
++
++	if ((fc & RTW_IEEE80211_FCTL_FTYPE) != RTW_IEEE80211_FTYPE_MGMT)
++		goto _exit;
++
++	pxmit_skb = rtw_skb_alloc(len + TXDESC_SIZE);
++
++	if(!pxmit_skb)
++		goto _exit;
++
++	pxmitbuf = pxmit_skb->data;
++
++	urb = usb_alloc_urb(0, GFP_ATOMIC);
++	if (!urb) {
++		goto _exit;
++	}
++
++	// ----- fill tx desc -----	
++	ptxdesc = (struct tx_desc *)pxmitbuf;	
++	_rtw_memset(ptxdesc, 0, sizeof(*ptxdesc));
++		
++	//offset 0	
++	ptxdesc->txdw0 |= cpu_to_le32(len&0x0000ffff); 
++	ptxdesc->txdw0 |= cpu_to_le32(((TXDESC_SIZE+OFFSET_SZ)<<OFFSET_SHT)&0x00ff0000);//default = 32 bytes for TX Desc
++	ptxdesc->txdw0 |= cpu_to_le32(OWN | FSG | LSG);
++
++	if(bmcst)	
++	{
++		ptxdesc->txdw0 |= cpu_to_le32(BIT(24));
++	}	
++
++	//offset 4	
++	ptxdesc->txdw1 |= cpu_to_le32(0x00);//MAC_ID
++
++	ptxdesc->txdw1 |= cpu_to_le32((0x12<<QSEL_SHT)&0x00001f00);
++
++	ptxdesc->txdw1 |= cpu_to_le32((0x06<< 16) & 0x000f0000);//b mode
++
++	//offset 8			
++
++	//offset 12		
++	ptxdesc->txdw3 |= cpu_to_le32((le16_to_cpu(tx_hdr->seq_ctl)<<16)&0xffff0000);
++
++	//offset 16		
++	ptxdesc->txdw4 |= cpu_to_le32(BIT(8));//driver uses rate
++		
++	//offset 20
++
++
++	//HW append seq
++	ptxdesc->txdw4 |= cpu_to_le32(BIT(7)); // Hw set sequence number
++	ptxdesc->txdw3 |= cpu_to_le32((8 <<28)); //set bit3 to 1. Suugested by TimChen. 2009.12.29.
++	
++
++	rtl8192cu_cal_txdesc_chksum(ptxdesc);
++	// ----- end of fill tx desc -----
++
++	//
++	skb_put(pxmit_skb, len + TXDESC_SIZE);
++	pxmitbuf = pxmitbuf + TXDESC_SIZE;
++	_rtw_memcpy(pxmitbuf, skb->data, len);
++
++	//DBG_8192C("mgnt_xmit, len=%x\n", pxmit_skb->len);
++
++
++	// ----- prepare urb for submit -----
++	
++	//translate DMA FIFO addr to pipehandle
++	//pipe = ffaddr2pipehdl(pdvobj, MGT_QUEUE_INX);
++	pipe = usb_sndbulkpipe(pdvobj->pusbdev, pHalData->Queue2EPNum[(u8)MGT_QUEUE_INX]&0x0f);
++	
++	usb_fill_bulk_urb(urb, pdvobj->pusbdev, pipe,
++			  pxmit_skb->data, pxmit_skb->len, rtl8192cu_hostap_mgnt_xmit_cb, pxmit_skb);
++	
++	urb->transfer_flags |= URB_ZERO_PACKET;
++	usb_anchor_urb(urb, &phostapdpriv->anchored);
++	rc = usb_submit_urb(urb, GFP_ATOMIC);
++	if (rc < 0) {
++		usb_unanchor_urb(urb);
++		kfree_skb(skb);
++	}
++	usb_free_urb(urb);
++
++	
++_exit:	
++	
++	rtw_skb_free(skb);
++
++#endif
++
++	return 0;
++
++}
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/usb_halinit.c b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/usb_halinit.c
+new file mode 100755
+index 0000000..ff89473
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/usb_halinit.c
+@@ -0,0 +1,6261 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HCI_HAL_INIT_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <rtw_efuse.h>
++
++#include <rtl8192c_hal.h>
++#include <rtl8192c_led.h>
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++#include "rtl8192c_sreset.h"
++#endif
++
++#ifdef CONFIG_IOL
++#include <rtw_iol.h>
++#endif
++
++#if defined (PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++
++#error "Shall be Linux or Windows, but not both!\n"
++
++#endif
++
++#ifndef CONFIG_USB_HCI
++
++#error "CONFIG_USB_HCI shall be on!\n"
++
++#endif
++
++#include <usb_ops.h>
++#include <usb_hal.h>
++#include <usb_osintf.h>
++
++#if DISABLE_BB_RF
++	#define		HAL_MAC_ENABLE	0
++	#define		HAL_BB_ENABLE		0
++	#define		HAL_RF_ENABLE		0
++#else
++	#define		HAL_MAC_ENABLE	1
++	#define		HAL_BB_ENABLE		1
++	#define		HAL_RF_ENABLE		1
++#endif
++
++//endpoint number 1,2,3,4,5
++// bult in : 1
++// bult out: 2 (High)
++// bult out: 3 (Normal) for 3 out_ep, (Low) for 2 out_ep
++// interrupt in: 4
++// bult out: 5 (Low) for 3 out_ep
++
++
++static VOID
++_OneOutEpMapping(
++	IN	HAL_DATA_TYPE	*pHalData
++	)
++{
++	//only endpoint number 0x02
++
++	pHalData->Queue2EPNum[0] = pHalData->RtBulkOutPipe[0];//VO
++	pHalData->Queue2EPNum[1] = pHalData->RtBulkOutPipe[0];//VI
++	pHalData->Queue2EPNum[2] = pHalData->RtBulkOutPipe[0];//BE
++	pHalData->Queue2EPNum[3] = pHalData->RtBulkOutPipe[0];//BK
++	
++	pHalData->Queue2EPNum[4] = pHalData->RtBulkOutPipe[0];//BCN
++	pHalData->Queue2EPNum[5] = pHalData->RtBulkOutPipe[0];//MGT
++	pHalData->Queue2EPNum[6] = pHalData->RtBulkOutPipe[0];//HIGH
++	pHalData->Queue2EPNum[7] = pHalData->RtBulkOutPipe[0];//TXCMD
++}
++
++
++static VOID
++_TwoOutEpMapping(
++	IN	HAL_DATA_TYPE	*pHalData,
++	IN	BOOLEAN	 		bWIFICfg
++	)
++{
++
++/*
++#define VO_QUEUE_INX		0
++#define VI_QUEUE_INX		1
++#define BE_QUEUE_INX		2
++#define BK_QUEUE_INX		3
++#define BCN_QUEUE_INX	4
++#define MGT_QUEUE_INX	5
++#define HIGH_QUEUE_INX	6
++#define TXCMD_QUEUE_INX	7
++*/
++	if(bWIFICfg){ // Normal chip && wmm
++		
++		//	BK, 	BE, 	VI, 	VO, 	BCN,	CMD,MGT,HIGH,HCCA 
++		//{  0, 	1, 	0, 	1, 	0, 	0, 	0, 	0, 		0	};
++		//0:H(end_number=0x02), 1:L (end_number=0x03)
++
++		pHalData->Queue2EPNum[0] = pHalData->RtBulkOutPipe[1];//VO
++		pHalData->Queue2EPNum[1] = pHalData->RtBulkOutPipe[0];//VI
++		pHalData->Queue2EPNum[2] = pHalData->RtBulkOutPipe[1];//BE
++		pHalData->Queue2EPNum[3] = pHalData->RtBulkOutPipe[0];//BK
++		
++		pHalData->Queue2EPNum[4] = pHalData->RtBulkOutPipe[0];//BCN
++		pHalData->Queue2EPNum[5] = pHalData->RtBulkOutPipe[0];//MGT
++		pHalData->Queue2EPNum[6] = pHalData->RtBulkOutPipe[0];//HIGH
++		pHalData->Queue2EPNum[7] = pHalData->RtBulkOutPipe[0];//TXCMD
++	}
++	else{//typical setting
++		
++		//BK, 	BE, 	VI, 	VO, 	BCN,	CMD,MGT,HIGH,HCCA 
++		//{  1, 	1, 	0, 	0, 	0, 	0, 	0, 	0, 		0	};			
++		//0:H(end_number=0x02), 1:L (end_number=0x03)
++
++		pHalData->Queue2EPNum[0] = pHalData->RtBulkOutPipe[0];//VO
++		pHalData->Queue2EPNum[1] = pHalData->RtBulkOutPipe[0];//VI
++		pHalData->Queue2EPNum[2] = pHalData->RtBulkOutPipe[1];//BE
++		pHalData->Queue2EPNum[3] = pHalData->RtBulkOutPipe[1];//BK
++		
++		pHalData->Queue2EPNum[4] = pHalData->RtBulkOutPipe[0];//BCN
++		pHalData->Queue2EPNum[5] = pHalData->RtBulkOutPipe[0];//MGT
++		pHalData->Queue2EPNum[6] = pHalData->RtBulkOutPipe[0];//HIGH
++		pHalData->Queue2EPNum[7] = pHalData->RtBulkOutPipe[0];//TXCMD
++	}
++	
++}
++
++
++static VOID _ThreeOutEpMapping(
++	IN	HAL_DATA_TYPE	*pHalData,
++	IN	BOOLEAN	 		bWIFICfg
++	)
++{
++	if(bWIFICfg){//for WMM
++
++		//	BK, 	BE, 	VI, 	VO, 	BCN,	CMD,MGT,HIGH,HCCA 
++		//{  1, 	2, 	1, 	0, 	0, 	0, 	0, 	0, 		0	};
++		//0:H(end_number=0x02), 1:N(end_number=0x03), 2:L (end_number=0x05)
++
++		pHalData->Queue2EPNum[0] = pHalData->RtBulkOutPipe[0];//VO
++		pHalData->Queue2EPNum[1] = pHalData->RtBulkOutPipe[1];//VI
++		pHalData->Queue2EPNum[2] = pHalData->RtBulkOutPipe[2];//BE
++		pHalData->Queue2EPNum[3] = pHalData->RtBulkOutPipe[1];//BK
++		
++		pHalData->Queue2EPNum[4] = pHalData->RtBulkOutPipe[0];//BCN
++		pHalData->Queue2EPNum[5] = pHalData->RtBulkOutPipe[0];//MGT
++		pHalData->Queue2EPNum[6] = pHalData->RtBulkOutPipe[0];//HIGH
++		pHalData->Queue2EPNum[7] = pHalData->RtBulkOutPipe[0];//TXCMD
++	}
++	else{//typical setting
++
++		//	BK, 	BE, 	VI, 	VO, 	BCN,	CMD,MGT,HIGH,HCCA 
++		//{  2, 	2, 	1, 	0, 	0, 	0, 	0, 	0, 		0	};			
++		//0:H(end_number=0x02), 1:N(end_number=0x03), 2:L (end_number=0x05)
++		pHalData->Queue2EPNum[0] = pHalData->RtBulkOutPipe[0];//VO
++		pHalData->Queue2EPNum[1] = pHalData->RtBulkOutPipe[1];//VI
++		pHalData->Queue2EPNum[2] = pHalData->RtBulkOutPipe[2];//BE
++		pHalData->Queue2EPNum[3] = pHalData->RtBulkOutPipe[2];//BK
++		
++		pHalData->Queue2EPNum[4] = pHalData->RtBulkOutPipe[0];//BCN
++		pHalData->Queue2EPNum[5] = pHalData->RtBulkOutPipe[0];//MGT
++		pHalData->Queue2EPNum[6] = pHalData->RtBulkOutPipe[0];//HIGH
++		pHalData->Queue2EPNum[7] = pHalData->RtBulkOutPipe[0];//TXCMD
++	}
++
++}
++
++static BOOLEAN
++_MappingOutEP(
++	IN	PADAPTER	pAdapter,
++	IN	u8		NumOutPipe
++	)
++{		
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct registry_priv *pregistrypriv = &pAdapter->registrypriv;
++
++	BOOLEAN	 bWIFICfg = (pregistrypriv->wifi_spec) ?_TRUE:_FALSE;
++	
++	BOOLEAN result = _TRUE;
++
++	switch(NumOutPipe)
++	{
++		case 2:
++			_TwoOutEpMapping(pHalData, bWIFICfg);
++			break;
++		case 3:		
++			_ThreeOutEpMapping(pHalData, bWIFICfg);
++			break;
++		case 1:
++			_OneOutEpMapping(pHalData);
++			break;
++		default:
++			result = _FALSE;
++			break;
++	}
++
++	return result;
++	
++}
++
++static VOID
++_ConfigChipOutEP(
++	IN	PADAPTER	pAdapter,
++	IN	u8		NumOutPipe
++	)
++{
++	u8			value8;
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(pAdapter);
++
++	pHalData->OutEpQueueSel = 0;
++	pHalData->OutEpNumber	= 0;
++		
++	// Normal and High queue
++	value8 = rtw_read8(pAdapter, (REG_NORMAL_SIE_EP + 1));
++	
++	if(value8 & USB_NORMAL_SIE_EP_MASK){
++		pHalData->OutEpQueueSel |= TX_SELE_HQ;
++		pHalData->OutEpNumber++;
++	}
++
++#ifdef CONFIG_USB_ONE_OUT_EP
++		return;
++#endif
++		
++	if((value8 >> USB_NORMAL_SIE_EP_SHIFT) & USB_NORMAL_SIE_EP_MASK){
++		pHalData->OutEpQueueSel |= TX_SELE_NQ;
++		pHalData->OutEpNumber++;
++	}
++	
++	// Low queue
++	value8 = rtw_read8(pAdapter, (REG_NORMAL_SIE_EP + 2));
++	if(value8 & USB_NORMAL_SIE_EP_MASK){
++		pHalData->OutEpQueueSel |= TX_SELE_LQ;
++		pHalData->OutEpNumber++;
++	}
++
++	// TODO: Error recovery for this case
++	//RT_ASSERT((NumOutPipe == pHalData->OutEpNumber), ("Out EP number isn't match! %d(Descriptor) != %d (SIE reg)\n", (u4Byte)NumOutPipe, (u4Byte)pHalData->OutEpNumber));
++
++}
++
++static BOOLEAN HalUsbSetQueuePipeMapping8192CUsb(
++	IN	PADAPTER	pAdapter,
++	IN	u8		NumInPipe,
++	IN	u8		NumOutPipe
++	)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(pAdapter);
++	BOOLEAN			result		= _FALSE;
++
++	_ConfigChipOutEP(pAdapter, NumOutPipe);
++
++	#ifndef CONFIG_USB_ONE_OUT_EP
++	// Normal chip with one IN and one OUT doesn't have interrupt IN EP.
++	if(1 == pHalData->OutEpNumber){
++		if(1 != NumInPipe){
++			return result;
++		}
++	}
++	#endif
++	result = _MappingOutEP(pAdapter, NumOutPipe);
++	
++	return result;
++
++}
++
++void rtl8192cu_interface_configure(_adapter *padapter)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(padapter);
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++
++	if (pdvobjpriv->ishighspeed == _TRUE)
++	{
++		pHalData->UsbBulkOutSize = USB_HIGH_SPEED_BULK_SIZE;//512 bytes
++	}
++	else
++	{
++		pHalData->UsbBulkOutSize = USB_FULL_SPEED_BULK_SIZE;//64 bytes
++	}
++
++	pHalData->interfaceIndex = pdvobjpriv->InterfaceNumber;
++	pHalData->RtBulkInPipe = pdvobjpriv->ep_num[0];
++	pHalData->RtBulkOutPipe[0] = pdvobjpriv->ep_num[1];
++	pHalData->RtBulkOutPipe[1] = pdvobjpriv->ep_num[2];
++	pHalData->RtIntInPipe = pdvobjpriv->ep_num[3];
++	pHalData->RtBulkOutPipe[2] = pdvobjpriv->ep_num[4];
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	pHalData->UsbTxAggMode		= 1;
++	pHalData->UsbTxAggDescNum	= 0x6;	// only 4 bits
++#endif
++
++#ifdef CONFIG_USB_RX_AGGREGATION
++	pHalData->UsbRxAggMode		= USB_RX_AGG_DMA;// USB_RX_AGG_DMA;
++	pHalData->UsbRxAggBlockCount	= 8; //unit : 512b
++	pHalData->UsbRxAggBlockTimeout	= 0x6;
++	pHalData->UsbRxAggPageCount	= 48; //uint :128 b //0x0A;	// 10 = MAX_RX_DMA_BUFFER_SIZE/2/pHalData->UsbBulkOutSize
++	pHalData->UsbRxAggPageTimeout	= 0x4; //6, absolute time = 34ms/(2^6)
++#endif
++
++	HalUsbSetQueuePipeMapping8192CUsb(padapter, pdvobjpriv->RtNumInPipes,
++		#ifdef CONFIG_USB_ONE_OUT_EP
++		1
++		#else
++		pdvobjpriv->RtNumOutPipes
++		#endif
++		);
++
++}
++
++static u8 _InitPowerOn(_adapter *padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	u8	ret = _SUCCESS;
++	u16	value16=0;
++	u8	value8 = 0;
++	u32  value32 = 0;
++
++	// polling autoload done.
++	u32	pollingCount = 0;
++
++	do
++	{
++		if(rtw_read8(padapter, REG_APS_FSMCO) & PFM_ALDN){
++			//RT_TRACE(COMP_INIT,DBG_LOUD,("Autoload Done!\n"));
++			break;
++		}
++
++		if(pollingCount++ > POLLING_READY_TIMEOUT_COUNT){
++			//RT_TRACE(COMP_INIT,DBG_SERIOUS,("Failed to polling REG_APS_FSMCO[PFM_ALDN] done!\n"));
++			return _FAIL;
++		}
++				
++	}while(_TRUE);
++
++
++//	For hardware power on sequence.
++
++	//0.	RSV_CTRL 0x1C[7:0] = 0x00			// unlock ISO/CLK/Power control register
++	rtw_write8(padapter, REG_RSV_CTRL, 0x0);	
++	// Power on when re-enter from IPS/Radio off/card disable
++	rtw_write8(padapter, REG_SPS0_CTRL, 0x2b);//enable SPS into PWM mode
++/*
++	value16 = PlatformIORead2Byte(Adapter, REG_AFE_XTAL_CTRL);//enable AFE clock
++	value16 &=  (~XTAL_GATE_AFE);
++	PlatformIOWrite2Byte(Adapter,REG_AFE_XTAL_CTRL, value16 );		
++*/
++	
++	rtw_udelay_os(100);//PlatformSleepUs(150);//this is not necessary when initially power on
++
++	value8 = rtw_read8(padapter, REG_LDOV12D_CTRL);	
++	if(0== (value8 & LDV12_EN) ){
++		value8 |= LDV12_EN;
++		rtw_write8(padapter, REG_LDOV12D_CTRL, value8);	
++		//RT_TRACE(COMP_INIT, DBG_LOUD, (" power-on :REG_LDOV12D_CTRL Reg0x21:0x%02x.\n",value8));
++		rtw_udelay_os(100);//PlatformSleepUs(100);//this is not necessary when initially power on
++		value8 = rtw_read8(padapter, REG_SYS_ISO_CTRL);
++		value8 &= ~ISO_MD2PP;
++		rtw_write8(padapter, REG_SYS_ISO_CTRL, value8);			
++	}	
++	
++	// auto enable WLAN
++	pollingCount = 0;
++	value16 = rtw_read16(padapter, REG_APS_FSMCO);
++	value16 |= APFM_ONMAC;
++	rtw_write16(padapter, REG_APS_FSMCO, value16);
++
++	do
++	{
++		if(0 == (rtw_read16(padapter, REG_APS_FSMCO) & APFM_ONMAC)){
++			//RT_TRACE(COMP_INIT,DBG_LOUD,("MAC auto ON okay!\n"));
++			break;
++		}
++
++		if(pollingCount++ > POLLING_READY_TIMEOUT_COUNT){
++			//RT_TRACE(COMP_INIT,DBG_SERIOUS,("Failed to polling REG_APS_FSMCO[APFM_ONMAC] done!\n"));
++			return _FAIL;
++		}
++				
++	}while(_TRUE);
++
++	//Enable Radio ,GPIO ,and LED function
++	rtw_write16(padapter,REG_APS_FSMCO,0x0812);
++
++#ifdef CONFIG_AUTOSUSPEND
++	//for usb Combo card ,BT
++	if((BOARD_USB_COMBO == pHalData->BoardType)&&(padapter->registrypriv.usbss_enable))
++	{
++		value32 =  rtw_read32(padapter, REG_APS_FSMCO);
++		value32 |= (SOP_ABG|SOP_AMB|XOP_BTCK);
++		rtw_write32(padapter, REG_APS_FSMCO, value32);		
++	}
++#endif	
++
++	// release RF digital isolation
++	value16 = rtw_read16(padapter, REG_SYS_ISO_CTRL);
++	value16 &= ~ISO_DIOR;
++	rtw_write16(padapter, REG_SYS_ISO_CTRL, value16);
++
++	// Enable MAC DMA/WMAC/SCHEDULE/SEC block
++	value16 = rtw_read16(padapter, REG_CR);
++	value16 |= (HCI_TXDMA_EN | HCI_RXDMA_EN | TXDMA_EN | RXDMA_EN
++				| PROTOCOL_EN | SCHEDULE_EN | MACTXEN | MACRXEN | ENSEC);
++	rtw_write16(padapter, REG_CR, value16);
++	
++	//tynli_test for suspend mode.
++	{
++		rtw_write8(padapter,  0xfe10, 0x19);
++	}
++
++	// 2010/11/22 MH For slim combo debug mode check.
++	if (pHalData->BoardType == BOARD_USB_COMBO)
++	{
++		if (pHalData->SlimComboDbg == _TRUE)
++		{
++			DBG_8192C("SlimComboDbg == TRUE\n");
++
++			// 1. SIC?Test Mode ¤¤, Debug Ports ·|¦Û°Ê Enable, ©Ò¥H Driver ¤W¨Ó«á, 
++			//	­nÃö±¼½Ð³]©w 0x 00[7] -> "1", ±N¥¦ Disable.   effect if not: power consumption increase
++			rtw_write8(padapter, REG_SYS_ISO_CTRL, rtw_read8(padapter, REG_SYS_ISO_CTRL)|BIT7);
++
++			// 2. SIC?Test Mode ¤¤, GPIO-8?·| report Power State ©Ò¥H Driver ¤W¨Ó«á, ½Ð³]©w? 0x04[6] -> "1" ±N¥¦ Disable
++			// effect if not: GPIO-8 could not be GPIO or LED function
++			rtw_write8(padapter, REG_APS_FSMCO, rtw_read8(padapter, REG_APS_FSMCO)|BIT6);
++
++			// 3. SIC Test Mode ¤¤, EESK, EECS ·| report?Host Clock status, ©Ò¥H Driver ¤W¨Ó«á, ½Ð³]©w? 0x40[4] -> "1" ±N¥¦¤Á¦¨ EEPROM ¨Ï¥Î Pin (autoload still from Efuse)
++			//  effect if not:power consumption increase
++			value8 = rtw_read8(padapter, REG_GPIO_MUXCFG)|BIT4 ;
++		#ifdef CONFIG_BT_COEXIST	
++			// 2011/01/26 MH UMB-B cut bug. We need to support the modification.
++			if (IS_81xxC_VENDOR_UMC_B_CUT(pHalData->VersionID) &&
++				pHalData->bt_coexist.BT_Coexist)
++			{
++				value8 |= (BIT5);	
++			}
++		#endif
++			rtw_write8(padapter, REG_GPIO_MUXCFG,value8 );
++			
++			
++			// 4. SIC Test Mode ¤¤,?SIC Debug ports ·|¦Û°Ê Enable , ©Ò¥H Driver ¤W¨Ó«á°¨¤W, ½Ð³]©w? 0x40[15:11] -> ¡§0x00¡¨, ±N¥¦Disable
++			//  4.1Two Steps setting for safety: 0x40[15,13,12, 11] -> "0", then ?0x40[14] -> "0"
++			// effect if not: Host could not transfer packets, and GPIO-3,2 will occupied by SIC then Co-exist could not work.
++			rtw_write16(padapter, REG_GPIO_MUXCFG, (rtw_read16(padapter, REG_GPIO_MUXCFG)&0x07FF)|BIT14);
++			rtw_write16(padapter, REG_GPIO_MUXCFG, rtw_read16(padapter, REG_GPIO_MUXCFG)&0x07FF);
++		}
++	}
++
++
++	// 2011/02/18 To Fix RU LNA  power leakage problem. We need to execute below below in
++	// Adapter init and halt sequence. Accordingto EEchou's opinion, we can enable the ability for all
++	// IC. According to Johnny's opinion, only RU will meet the condition.
++	if (IS_HARDWARE_TYPE_8192C(padapter) && (pHalData->BoardType == BOARD_USB_High_PA))
++		rtw_write32(padapter, rFPGA0_XCD_RFParameter, rtw_read32(padapter, rFPGA0_XCD_RFParameter)&(~BIT1));
++	return ret;
++
++}
++
++
++static void _dbg_dump_macreg(_adapter *padapter)
++{
++	u32 offset = 0;
++	u32 val32 = 0;
++	u32 index =0 ;
++	for(index=0;index<64;index++)
++	{
++		offset = index*4;
++		val32 = rtw_read32(padapter,offset);
++		DBG_8192C("offset : 0x%02x ,val:0x%08x\n",offset,val32);
++	}
++}
++
++
++static void _InitPABias(_adapter *padapter)
++{
++	HAL_DATA_TYPE		*pHalData	= GET_HAL_DATA(padapter);
++	u8			pa_setting;
++	BOOLEAN		is92C = IS_92C_SERIAL(pHalData->VersionID);
++	
++	//FIXED PA current issue
++	//efuse_one_byte_read(padapter, 0x1FA, &pa_setting);
++	pa_setting = EFUSE_Read1Byte(padapter, 0x1FA);
++
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("_InitPABias 0x1FA 0x%x \n",pa_setting));
++
++	if(!(pa_setting & BIT0))
++	{
++		PHY_SetRFReg(padapter, RF_PATH_A, 0x15, 0x0FFFFF, 0x0F406);
++		PHY_SetRFReg(padapter, RF_PATH_A, 0x15, 0x0FFFFF, 0x4F406);		
++		PHY_SetRFReg(padapter, RF_PATH_A, 0x15, 0x0FFFFF, 0x8F406);		
++		PHY_SetRFReg(padapter, RF_PATH_A, 0x15, 0x0FFFFF, 0xCF406);		
++		//RT_TRACE(COMP_INIT, DBG_LOUD, ("PA BIAS path A\n"));
++	}	
++
++	if(!(pa_setting & BIT1) && is92C)
++	{
++		PHY_SetRFReg(padapter,RF_PATH_B, 0x15, 0x0FFFFF, 0x0F406);
++		PHY_SetRFReg(padapter,RF_PATH_B, 0x15, 0x0FFFFF, 0x4F406);		
++		PHY_SetRFReg(padapter,RF_PATH_B, 0x15, 0x0FFFFF, 0x8F406);		
++		PHY_SetRFReg(padapter,RF_PATH_B, 0x15, 0x0FFFFF, 0xCF406);
++		//RT_TRACE(COMP_INIT, DBG_LOUD, ("PA BIAS path B\n"));	
++	}
++
++	if(!(pa_setting & BIT4))
++	{
++		pa_setting = rtw_read8(padapter, 0x16);
++		pa_setting &= 0x0F;
++		rtw_write8(padapter, 0x16, pa_setting | 0x90);		
++	}
++}
++#ifdef CONFIG_BT_COEXIST
++static void _InitBTCoexist(_adapter *padapter)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(padapter);
++	struct btcoexist_priv	*pbtpriv = &(pHalData->bt_coexist);
++	u8 u1Tmp;
++
++	if(pbtpriv->BT_Coexist && pbtpriv->BT_CoexistType == BT_CSR_BC4)
++	{
++
++#if MP_DRIVER != 1
++		if(pbtpriv->BT_Ant_isolation)
++		{
++			rtw_write8( padapter,REG_GPIO_MUXCFG, 0xa0);
++			DBG_8192C("BT write 0x%x = 0x%x\n", REG_GPIO_MUXCFG, 0xa0);
++		}
++#endif		
++
++		u1Tmp = rtw_read8(padapter, 0x4fd) & BIT0;
++		u1Tmp = u1Tmp | 
++				((pbtpriv->BT_Ant_isolation==1)?0:BIT1) | 
++				((pbtpriv->BT_Service==BT_SCO)?0:BIT2);
++		rtw_write8( padapter, 0x4fd, u1Tmp);
++		DBG_8192C("BT write 0x%x = 0x%x for non-isolation\n", 0x4fd, u1Tmp);
++		
++		
++		rtw_write32(padapter, REG_BT_COEX_TABLE+4, 0xaaaa9aaa);
++		DBG_8192C("BT write 0x%x = 0x%x\n", REG_BT_COEX_TABLE+4, 0xaaaa9aaa);
++		
++		rtw_write32(padapter, REG_BT_COEX_TABLE+8, 0xffbd0040);
++		DBG_8192C("BT write 0x%x = 0x%x\n", REG_BT_COEX_TABLE+8, 0xffbd0040);
++
++		rtw_write32(padapter,  REG_BT_COEX_TABLE+0xc, 0x40000010);
++		DBG_8192C("BT write 0x%x = 0x%x\n", REG_BT_COEX_TABLE+0xc, 0x40000010);
++
++		//Config to 1T1R
++		u1Tmp =  rtw_read8(padapter,rOFDM0_TRxPathEnable);
++		u1Tmp &= ~(BIT1);
++		rtw_write8( padapter, rOFDM0_TRxPathEnable, u1Tmp);
++		DBG_8192C("BT write 0xC04 = 0x%x\n", u1Tmp);
++			
++		u1Tmp = rtw_read8(padapter, rOFDM1_TRxPathEnable);
++		u1Tmp &= ~(BIT1);
++		rtw_write8( padapter, rOFDM1_TRxPathEnable, u1Tmp);
++		DBG_8192C("BT write 0xD04 = 0x%x\n", u1Tmp);
++
++	}
++}
++#endif
++
++//-------------------------------------------------------------------------
++//
++// LLT R/W/Init function
++//
++//-------------------------------------------------------------------------
++static u8 _LLTWrite(
++	IN  PADAPTER	Adapter,
++	IN	u32		address,
++	IN	u32		data
++	)
++{
++	u8	status = _SUCCESS;
++	int 		count = 0;
++	u32 		value = _LLT_INIT_ADDR(address) | _LLT_INIT_DATA(data) | _LLT_OP(_LLT_WRITE_ACCESS);
++
++	rtw_write32(Adapter, REG_LLT_INIT, value);
++	
++	//polling
++	do{
++		
++		value = rtw_read32(Adapter, REG_LLT_INIT);
++		if(_LLT_NO_ACTIVE == _LLT_OP_VALUE(value)){
++			break;
++		}
++		
++		if(count > POLLING_LLT_THRESHOLD){
++			//RT_TRACE(COMP_INIT,DBG_SERIOUS,("Failed to polling write LLT done at address %d!\n", address));
++			status = _FAIL;
++			break;
++		}
++	}while(count++);
++
++	return status;
++	
++}
++
++
++static u8 _LLTRead(
++	IN  PADAPTER	Adapter,
++	IN	u32		address
++	)
++{
++	int		count = 0;
++	u32		value = _LLT_INIT_ADDR(address) | _LLT_OP(_LLT_READ_ACCESS);
++
++	rtw_write32(Adapter, REG_LLT_INIT, value);
++
++	//polling and get value
++	do{
++		
++		value = rtw_read32(Adapter, REG_LLT_INIT);
++		if(_LLT_NO_ACTIVE == _LLT_OP_VALUE(value)){
++			return (u8)value;
++		}
++		
++		if(count > POLLING_LLT_THRESHOLD){
++			//RT_TRACE(COMP_INIT,DBG_SERIOUS,("Failed to polling read LLT done at address %d!\n", address));
++			break;
++		}
++	}while(count++);
++
++	return 0xFF;
++
++}
++
++
++static u8 InitLLTTable(
++	IN  PADAPTER	Adapter,
++	IN	u32		boundary
++	)
++{
++	u8	status = _SUCCESS;
++	u32		i;
++
++#ifdef CONFIG_IOL_LLT
++	if(rtw_IOL_applied(Adapter))
++	{
++		struct xmit_frame	*xmit_frame;
++		if((xmit_frame=rtw_IOL_accquire_xmit_frame(Adapter)) == NULL)
++			return _FAIL;
++
++		rtw_IOL_append_LLT_cmd(xmit_frame, boundary);
++		status = rtw_IOL_exec_cmds_sync(Adapter, xmit_frame, 1000);
++	}
++	else
++#endif
++	{
++		for(i = 0 ; i < (boundary - 1) ; i++){
++			status = _LLTWrite(Adapter, i , i + 1);
++			if(_SUCCESS != status){
++				return status;
++			}
++		}
++
++		// end of list
++		status = _LLTWrite(Adapter, (boundary - 1), 0xFF); 
++		if(_SUCCESS != status){
++			return status;
++		}
++
++		// Make the other pages as ring buffer
++		// This ring buffer is used as beacon buffer if we config this MAC as two MAC transfer.
++		// Otherwise used as local loopback buffer. 
++		for(i = boundary ; i < LAST_ENTRY_OF_TX_PKT_BUFFER ; i++){
++			status = _LLTWrite(Adapter, i, (i + 1)); 
++			if(_SUCCESS != status){
++				return status;
++			}
++		}
++		
++		// Let last entry point to the start entry of ring buffer
++		status = _LLTWrite(Adapter, LAST_ENTRY_OF_TX_PKT_BUFFER, boundary);
++		if(_SUCCESS != status){
++			return status;
++		}
++	}
++
++	return status;
++	
++}
++
++
++//---------------------------------------------------------------
++//
++//	MAC init functions
++//
++//---------------------------------------------------------------
++static VOID
++_SetMacID(
++	IN  PADAPTER Adapter, u8* MacID
++	)
++{
++	u32 i;
++	for(i=0 ; i< MAC_ADDR_LEN ; i++){
++#ifdef  CONFIG_CONCURRENT_MODE		
++		if(Adapter->iface_type == IFACE_PORT1)
++			rtw_write32(Adapter, REG_MACID1+i, MacID[i]);
++		else
++#endif			
++		rtw_write32(Adapter, REG_MACID+i, MacID[i]);
++	}
++}
++
++static VOID
++_SetBSSID(
++	IN  PADAPTER Adapter, u8* BSSID
++	)
++{
++	u32 i;
++	for(i=0 ; i< MAC_ADDR_LEN ; i++){
++#ifdef  CONFIG_CONCURRENT_MODE		
++		if(Adapter->iface_type == IFACE_PORT1)
++			rtw_write32(Adapter, REG_BSSID1+i, BSSID[i]);
++		else
++#endif			
++		rtw_write32(Adapter, REG_BSSID+i, BSSID[i]);
++	}
++}
++
++
++// Shall USB interface init this?
++static VOID
++_InitInterrupt(
++	IN  PADAPTER Adapter
++	)
++{
++	u32	value32;
++
++	// HISR - turn all on
++	value32 = 0xFFFFFFFF;
++	rtw_write32(Adapter, REG_HISR, value32);
++
++	// HIMR - turn all on
++	rtw_write32(Adapter, REG_HIMR, value32);
++}
++
++
++static VOID
++_InitQueueReservedPage(
++	IN  PADAPTER Adapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(Adapter);
++	struct registry_priv *pregistrypriv = &Adapter->registrypriv;
++	
++	u32			outEPNum	= (u32)pHalData->OutEpNumber;
++	u32			numHQ		= 0;
++	u32			numLQ		= 0;
++	u32			numNQ		= 0;
++	u32			numPubQ;
++	u32			value32;
++	u8			value8;
++	BOOLEAN		bWiFiConfig	= pregistrypriv->wifi_spec;
++	//u32			txQPageNum, txQPageUnit,txQRemainPage;
++
++	{ //for WMM 
++		//RT_ASSERT((outEPNum>=2), ("for WMM ,number of out-ep must more than or equal to 2!\n"));
++
++		if(pHalData->OutEpQueueSel & TX_SELE_HQ){
++			numHQ = (bWiFiConfig)?WMM_NORMAL_PAGE_NUM_HPQ:NORMAL_PAGE_NUM_HPQ;
++		}
++
++		if(pHalData->OutEpQueueSel & TX_SELE_LQ){
++			numLQ = (bWiFiConfig)?WMM_NORMAL_PAGE_NUM_LPQ:NORMAL_PAGE_NUM_LPQ;
++		}
++		// NOTE: This step shall be proceed before writting REG_RQPN.	
++		if(pHalData->OutEpQueueSel & TX_SELE_NQ){
++			numNQ = (bWiFiConfig)?WMM_NORMAL_PAGE_NUM_NPQ:NORMAL_PAGE_NUM_NPQ;
++		}
++		value8 = (u8)_NPQ(numNQ);
++		rtw_write8(Adapter, REG_RQPN_NPQ, value8);
++
++		if (bWiFiConfig)
++			numPubQ = WMM_NORMAL_TX_TOTAL_PAGE_NUMBER - numHQ - numLQ - numNQ;
++		else
++			numPubQ = TX_TOTAL_PAGE_NUMBER - numHQ - numLQ - numNQ;
++	}
++
++	// TX DMA
++	value32 = _HPQ(numHQ) | _LPQ(numLQ) | _PUBQ(numPubQ) | LD_RQPN;	
++	rtw_write32(Adapter, REG_RQPN, value32);	
++}
++
++static VOID
++_InitTxBufferBoundary(
++	IN  PADAPTER Adapter
++	)
++{	
++	struct registry_priv *pregistrypriv = &Adapter->registrypriv;
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(Adapter);
++
++	u8	txpktbuf_bndy; 
++
++	if(!pregistrypriv->wifi_spec){
++		txpktbuf_bndy = TX_PAGE_BOUNDARY;
++	}
++	else{//for WMM
++		txpktbuf_bndy = WMM_NORMAL_TX_PAGE_BOUNDARY;
++	}
++
++	rtw_write8(Adapter, REG_TXPKTBUF_BCNQ_BDNY, txpktbuf_bndy);
++	rtw_write8(Adapter, REG_TXPKTBUF_MGQ_BDNY, txpktbuf_bndy);
++	rtw_write8(Adapter, REG_TXPKTBUF_WMAC_LBK_BF_HD, txpktbuf_bndy);
++	rtw_write8(Adapter, REG_TRXFF_BNDY, txpktbuf_bndy);	
++#if 1
++	rtw_write8(Adapter, REG_TDECTRL+1, txpktbuf_bndy);
++#else
++	txdmactrl = PlatformIORead2Byte(Adapter, REG_TDECTRL);
++	txdmactrl &= ~BCN_HEAD_MASK;
++	txdmactrl |= BCN_HEAD(txpktbuf_bndy);
++	PlatformIOWrite2Byte(Adapter, REG_TDECTRL, txdmactrl);
++#endif
++}
++
++static VOID
++_InitPageBoundary(
++	IN  PADAPTER Adapter
++	)
++{
++	// RX Page Boundary
++	//srand(static_cast<unsigned int>(time(NULL)) );
++	u16 rxff_bndy = 0x27FF;//(rand() % 1) ? 0x27FF : 0x23FF;
++
++	rtw_write16(Adapter, (REG_TRXFF_BNDY + 2), rxff_bndy);
++
++	// TODO: ?? shall we set tx boundary?
++}
++
++
++static VOID
++_InitNormalChipRegPriority(
++	IN	PADAPTER	Adapter,
++	IN	u16		beQ,
++	IN	u16		bkQ,
++	IN	u16		viQ,
++	IN	u16		voQ,
++	IN	u16		mgtQ,
++	IN	u16		hiQ
++	)
++{
++	u16 value16		= (rtw_read16(Adapter, REG_TRXDMA_CTRL) & 0x7);
++
++	value16 |=	_TXDMA_BEQ_MAP(beQ) 	| _TXDMA_BKQ_MAP(bkQ) |
++				_TXDMA_VIQ_MAP(viQ) 	| _TXDMA_VOQ_MAP(voQ) |
++				_TXDMA_MGQ_MAP(mgtQ)| _TXDMA_HIQ_MAP(hiQ);
++	
++	rtw_write16(Adapter, REG_TRXDMA_CTRL, value16);
++}
++
++static VOID
++_InitNormalChipOneOutEpPriority(
++	IN	PADAPTER Adapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(Adapter);
++
++	u16	value = 0;
++	switch(pHalData->OutEpQueueSel)
++	{
++		case TX_SELE_HQ:
++			value = QUEUE_HIGH;
++			break;
++		case TX_SELE_LQ:
++			value = QUEUE_LOW;
++			break;
++		case TX_SELE_NQ:
++			value = QUEUE_NORMAL;
++			break;
++		default:
++			//RT_ASSERT(FALSE,("Shall not reach here!\n"));
++			break;
++	}
++	
++	_InitNormalChipRegPriority(Adapter,
++								value,
++								value,
++								value,
++								value,
++								value,
++								value
++								);
++
++}
++
++static VOID
++_InitNormalChipTwoOutEpPriority(
++	IN	PADAPTER Adapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(Adapter);
++	struct registry_priv *pregistrypriv = &Adapter->registrypriv;
++	u16			beQ,bkQ,viQ,voQ,mgtQ,hiQ;
++	
++
++	u16	valueHi = 0;
++	u16	valueLow = 0;
++	
++	switch(pHalData->OutEpQueueSel)
++	{
++		case (TX_SELE_HQ | TX_SELE_LQ):
++			valueHi = QUEUE_HIGH;
++			valueLow = QUEUE_LOW;
++			break;
++		case (TX_SELE_NQ | TX_SELE_LQ):
++			valueHi = QUEUE_NORMAL;
++			valueLow = QUEUE_LOW;
++			break;
++		case (TX_SELE_HQ | TX_SELE_NQ):
++			valueHi = QUEUE_HIGH;
++			valueLow = QUEUE_NORMAL;
++			break;
++		default:
++			//RT_ASSERT(FALSE,("Shall not reach here!\n"));
++			break;
++	}
++
++	if(!pregistrypriv->wifi_spec ){
++		beQ		= valueLow;
++		bkQ		= valueLow;
++		viQ		= valueHi;
++		voQ		= valueHi;
++		mgtQ	= valueHi; 
++		hiQ		= valueHi;								
++	}
++	else{//for WMM ,CONFIG_OUT_EP_WIFI_MODE
++		beQ		= valueLow;
++		bkQ		= valueHi;		
++		viQ		= valueHi;
++		voQ		= valueLow;
++		mgtQ	= valueHi;
++		hiQ		= valueHi;							
++	}
++	
++	_InitNormalChipRegPriority(Adapter,beQ,bkQ,viQ,voQ,mgtQ,hiQ);
++
++}
++
++static VOID
++_InitNormalChipThreeOutEpPriority(
++	IN	PADAPTER Adapter
++	)
++{
++	struct registry_priv *pregistrypriv = &Adapter->registrypriv;
++	u16			beQ,bkQ,viQ,voQ,mgtQ,hiQ;
++
++	if(!pregistrypriv->wifi_spec ){// typical setting
++		beQ		= QUEUE_LOW;
++		bkQ 		= QUEUE_LOW;
++		viQ 		= QUEUE_NORMAL;
++		voQ 		= QUEUE_HIGH;
++		mgtQ 	= QUEUE_HIGH;
++		hiQ 		= QUEUE_HIGH;			
++	}
++	else{// for WMM
++		beQ		= QUEUE_LOW;
++		bkQ 		= QUEUE_NORMAL;
++		viQ 		= QUEUE_NORMAL;
++		voQ 		= QUEUE_HIGH;
++		mgtQ 	= QUEUE_HIGH;
++		hiQ 		= QUEUE_HIGH;			
++	}
++	_InitNormalChipRegPriority(Adapter,beQ,bkQ,viQ,voQ,mgtQ,hiQ);
++}
++
++static VOID
++_InitNormalChipQueuePriority(
++	IN	PADAPTER Adapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(Adapter);
++
++	switch(pHalData->OutEpNumber)
++	{
++		case 1:
++			_InitNormalChipOneOutEpPriority(Adapter);
++			break;
++		case 2:
++			_InitNormalChipTwoOutEpPriority(Adapter);
++			break;
++		case 3:
++			_InitNormalChipThreeOutEpPriority(Adapter);
++			break;
++		default:
++			//RT_ASSERT(FALSE,("Shall not reach here!\n"));
++			break;
++	}
++
++
++}
++
++static VOID
++_InitQueuePriority(
++	IN  PADAPTER Adapter
++	)
++{
++	_InitNormalChipQueuePriority(Adapter);
++}
++
++static VOID
++_InitHardwareDropIncorrectBulkOut(
++	IN  PADAPTER Adapter
++	)
++{
++	u32	value32 = rtw_read32(Adapter, REG_TXDMA_OFFSET_CHK);
++	value32 |= DROP_DATA_EN;
++	rtw_write32(Adapter, REG_TXDMA_OFFSET_CHK, value32);
++}
++
++static VOID
++_InitNetworkType(
++	IN  PADAPTER Adapter
++	)
++{
++	u32	value32;
++
++	value32 = rtw_read32(Adapter, REG_CR);
++
++	// TODO: use the other function to set network type
++#if RTL8191C_FPGA_NETWORKTYPE_ADHOC
++	value32 = (value32 & ~MASK_NETTYPE) | _NETTYPE(NT_LINK_AD_HOC);
++#else
++	value32 = (value32 & ~MASK_NETTYPE) | _NETTYPE(NT_LINK_AP);
++#endif
++	rtw_write32(Adapter, REG_CR, value32);
++//	RASSERT(pIoBase->rtw_read8(REG_CR + 2) == 0x2);
++}
++
++static VOID
++_InitTransferPageSize(
++	IN  PADAPTER Adapter
++	)
++{
++	// Tx page size is always 128.
++	
++	u8	value8;
++	value8 = _PSRX(PBP_128) | _PSTX(PBP_128);
++	rtw_write8(Adapter, REG_PBP, value8);
++}
++
++static VOID
++_InitDriverInfoSize(
++	IN  PADAPTER	Adapter,
++	IN	u8		drvInfoSize
++	)
++{
++	rtw_write8(Adapter,REG_RX_DRVINFO_SZ, drvInfoSize);
++}
++
++static VOID
++_InitWMACSetting(
++	IN  PADAPTER Adapter
++	)
++{
++	//u4Byte			value32;
++	//u16			value16;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	//pHalData->ReceiveConfig = AAP | APM | AM | AB | APP_ICV | ADF | AMF | APP_FCS | HTC_LOC_CTRL | APP_MIC | APP_PHYSTS;
++	//pHalData->ReceiveConfig = RCR_AAP | RCR_APM | RCR_AM | RCR_AB |RCR_CBSSID_DATA| RCR_CBSSID_BCN| RCR_APP_ICV | RCR_AMF | RCR_HTC_LOC_CTRL | RCR_APP_MIC | RCR_APP_PHYSTS;
++	// don't turn on AAP, it will allow all packets to driver
++	pHalData->ReceiveConfig = RCR_APM | RCR_AM | RCR_AB |RCR_CBSSID_DATA| RCR_CBSSID_BCN| RCR_APP_ICV | RCR_AMF | RCR_HTC_LOC_CTRL | RCR_APP_MIC | RCR_APP_PHYSTS;
++	
++#if (0 == RTL8192C_RX_PACKET_NO_INCLUDE_CRC)
++	pHalData->ReceiveConfig |= ACRC32;
++#endif
++
++	// some REG_RCR will be modified later by phy_ConfigMACWithHeaderFile()
++	rtw_write32(Adapter, REG_RCR, pHalData->ReceiveConfig);
++
++	// Accept all multicast address
++	rtw_write32(Adapter, REG_MAR, 0xFFFFFFFF);
++	rtw_write32(Adapter, REG_MAR + 4, 0xFFFFFFFF);
++
++
++	// Accept all data frames
++	//value16 = 0xFFFF;
++	//rtw_write16(Adapter, REG_RXFLTMAP2, value16);
++
++	// 2010.09.08 hpfan
++	// Since ADF is removed from RCR, ps-poll will not be indicate to driver,
++	// RxFilterMap should mask ps-poll to gurantee AP mode can rx ps-poll.
++	//value16 = 0x400;
++	//rtw_write16(Adapter, REG_RXFLTMAP1, value16);
++
++	// Accept all management frames
++	//value16 = 0xFFFF;
++	//rtw_write16(Adapter, REG_RXFLTMAP0, value16);
++
++	//enable RX_SHIFT bits
++	//rtw_write8(Adapter, REG_TRXDMA_CTRL, rtw_read8(Adapter, REG_TRXDMA_CTRL)|BIT(1));	
++
++}
++
++static VOID
++_InitAdaptiveCtrl(
++	IN  PADAPTER Adapter
++	)
++{
++	u16	value16;
++	u32	value32;
++
++	// Response Rate Set
++	value32 = rtw_read32(Adapter, REG_RRSR);
++	value32 &= ~RATE_BITMAP_ALL;
++	value32 |= RATE_RRSR_CCK_ONLY_1M;
++	rtw_write32(Adapter, REG_RRSR, value32);
++
++	// CF-END Threshold
++	//m_spIoBase->rtw_write8(REG_CFEND_TH, 0x1);
++
++	// SIFS (used in NAV)
++	value16 = _SPEC_SIFS_CCK(0x10) | _SPEC_SIFS_OFDM(0x10);
++	rtw_write16(Adapter, REG_SPEC_SIFS, value16);
++
++	// Retry Limit
++	value16 = _LRL(0x30) | _SRL(0x30);
++	rtw_write16(Adapter, REG_RL, value16);
++	
++}
++
++static VOID
++_InitRateFallback(
++	IN  PADAPTER Adapter
++	)
++{
++	// Set Data Auto Rate Fallback Retry Count register.
++	rtw_write32(Adapter, REG_DARFRC, 0x00000000);
++	rtw_write32(Adapter, REG_DARFRC+4, 0x10080404);
++	rtw_write32(Adapter, REG_RARFRC, 0x04030201);
++	rtw_write32(Adapter, REG_RARFRC+4, 0x08070605);
++
++}
++
++
++static VOID
++_InitEDCA(
++	IN  PADAPTER Adapter
++	)
++{
++	// Set Spec SIFS (used in NAV)
++	rtw_write16(Adapter,REG_SPEC_SIFS, 0x100a);
++	rtw_write16(Adapter,REG_MAC_SPEC_SIFS, 0x100a);
++
++    //REG514:SIFS_CCK_CTX
++    //REG515:SIFS_OFDM_CTX
++	//REG516:SIFS_CCK_TRX
++    //REG517:SIFS_OFDM_TRX    
++
++	// Set SIFS for CCK_CTS and OFDM_CTX
++	rtw_write16(Adapter,REG_SIFS_CTX, 0x100a);	
++
++	// Set SIFS for CCK_TRX and OFDM_TRX
++	rtw_write16(Adapter,REG_SIFS_TRX, 0x100a);
++
++	// TXOP
++	rtw_write32(Adapter, REG_EDCA_BE_PARAM, 0x005EA42B);
++	rtw_write32(Adapter, REG_EDCA_BK_PARAM, 0x0000A44F);
++	rtw_write32(Adapter, REG_EDCA_VI_PARAM, 0x005EA324);
++	rtw_write32(Adapter, REG_EDCA_VO_PARAM, 0x002FA226);
++}
++
++
++static VOID
++_InitBeaconMaxError(
++	IN  PADAPTER	Adapter,
++	IN	BOOLEAN		InfraMode
++	)
++{
++#ifdef RTL8192CU_ADHOC_WORKAROUND_SETTING
++	rtw_write8(Adapter, REG_BCN_MAX_ERR, 0xFF);	
++#else
++	//rtw_write8(Adapter, REG_BCN_MAX_ERR, (InfraMode ? 0xFF : 0x10));	
++#endif
++}
++
++
++#ifdef CONFIG_LED
++static void _InitHWLed(PADAPTER Adapter)
++{
++	struct led_priv *pledpriv = &(Adapter->ledpriv);
++	
++	if( pledpriv->LedStrategy != HW_LED)
++		return;
++	
++// HW led control
++// to do .... 
++//must consider cases of antenna diversity/ commbo card/solo card/mini card
++
++}
++#endif //CONFIG_LED
++
++static VOID
++_InitRDGSetting(
++	IN	PADAPTER Adapter
++	)
++{
++	rtw_write8(Adapter,REG_RD_CTRL,0xFF);
++	rtw_write16(Adapter, REG_RD_NAV_NXT, 0x200);
++	rtw_write8(Adapter,REG_RD_RESP_PKT_TH,0x05);
++}
++
++static VOID
++_InitRxSetting(
++	IN	PADAPTER Adapter
++	)
++{
++	rtw_write32(Adapter, REG_MACID, 0x87654321);
++	rtw_write32(Adapter, 0x0700, 0x87654321);
++}
++
++static VOID
++_InitRetryFunction(
++	IN  PADAPTER Adapter
++	)
++{
++	u8	value8;
++	
++	value8 = rtw_read8(Adapter, REG_FWHW_TXQ_CTRL);
++	value8 |= EN_AMPDU_RTY_NEW;
++	rtw_write8(Adapter, REG_FWHW_TXQ_CTRL, value8);
++
++	// Set ACK timeout
++	rtw_write8(Adapter, REG_ACKTO, 0x40);
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	usb_AggSettingTxUpdate()
++ *
++ * Overview:	Seperate TX/RX parameters update independent for TP detection and 
++ *			dynamic TX/RX aggreagtion parameters update.
++ *
++ * Input:			PADAPTER
++ *
++ * Output/Return:	NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	12/10/2010	MHC		Seperate to smaller function.
++ *
++ *---------------------------------------------------------------------------*/
++static VOID
++usb_AggSettingTxUpdate(
++	IN	PADAPTER			Adapter
++	)
++{
++#ifdef CONFIG_USB_TX_AGGREGATION
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	//PMGNT_INFO		pMgntInfo = &(Adapter->MgntInfo);	
++	u32			value32;
++
++	if(Adapter->registrypriv.wifi_spec)
++		pHalData->UsbTxAggMode = _FALSE;
++
++	if(pHalData->UsbTxAggMode){
++		value32 = rtw_read32(Adapter, REG_TDECTRL);
++		value32 = value32 & ~(BLK_DESC_NUM_MASK << BLK_DESC_NUM_SHIFT);
++		value32 |= ((pHalData->UsbTxAggDescNum & BLK_DESC_NUM_MASK) << BLK_DESC_NUM_SHIFT);
++		
++		rtw_write32(Adapter, REG_TDECTRL, value32);
++	}
++	
++#endif
++}	// usb_AggSettingTxUpdate
++
++
++/*-----------------------------------------------------------------------------
++ * Function:	usb_AggSettingRxUpdate()
++ *
++ * Overview:	Seperate TX/RX parameters update independent for TP detection and 
++ *			dynamic TX/RX aggreagtion parameters update.
++ *
++ * Input:			PADAPTER
++ *
++ * Output/Return:	NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	12/10/2010	MHC		Seperate to smaller function.
++ *
++ *---------------------------------------------------------------------------*/
++static VOID
++usb_AggSettingRxUpdate(
++	IN	PADAPTER			Adapter
++	)
++{
++#ifdef CONFIG_USB_RX_AGGREGATION
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	//PMGNT_INFO		pMgntInfo = &(Adapter->MgntInfo);
++	u8			valueDMA;
++	u8			valueUSB;
++
++	valueDMA = rtw_read8(Adapter, REG_TRXDMA_CTRL);
++	valueUSB = rtw_read8(Adapter, REG_USB_SPECIAL_OPTION);
++
++	switch(pHalData->UsbRxAggMode)
++	{
++		case USB_RX_AGG_DMA:
++			valueDMA |= RXDMA_AGG_EN;
++			valueUSB &= ~USB_AGG_EN;
++			break;
++		case USB_RX_AGG_USB:
++			valueDMA &= ~RXDMA_AGG_EN;
++			valueUSB |= USB_AGG_EN;
++			break;
++		case USB_RX_AGG_MIX:
++			valueDMA |= RXDMA_AGG_EN;
++			valueUSB |= USB_AGG_EN;
++			break;
++		case USB_RX_AGG_DISABLE:
++		default:
++			valueDMA &= ~RXDMA_AGG_EN;
++			valueUSB &= ~USB_AGG_EN;
++			break;
++	}
++
++	rtw_write8(Adapter, REG_TRXDMA_CTRL, valueDMA);
++	rtw_write8(Adapter, REG_USB_SPECIAL_OPTION, valueUSB);
++
++	switch(pHalData->UsbRxAggMode)
++	{
++		case USB_RX_AGG_DMA:
++			rtw_write8(Adapter, REG_RXDMA_AGG_PG_TH, pHalData->UsbRxAggPageCount);
++			rtw_write8(Adapter, REG_USB_DMA_AGG_TO, pHalData->UsbRxAggPageTimeout);
++			break;
++		case USB_RX_AGG_USB:
++			rtw_write8(Adapter, REG_USB_AGG_TH, pHalData->UsbRxAggBlockCount);
++			rtw_write8(Adapter, REG_USB_AGG_TO, pHalData->UsbRxAggBlockTimeout);
++			break;
++		case USB_RX_AGG_MIX:
++			rtw_write8(Adapter, REG_RXDMA_AGG_PG_TH, pHalData->UsbRxAggPageCount);
++			rtw_write8(Adapter, REG_USB_DMA_AGG_TO, pHalData->UsbRxAggPageTimeout);
++			rtw_write8(Adapter, REG_USB_AGG_TH, pHalData->UsbRxAggBlockCount);
++			rtw_write8(Adapter, REG_USB_AGG_TO, pHalData->UsbRxAggBlockTimeout);
++			break;
++		case USB_RX_AGG_DISABLE:
++		default:
++			// TODO: 
++			break;
++	}
++
++	switch(PBP_128)
++	{
++		case PBP_128:
++			pHalData->HwRxPageSize = 128;
++			break;
++		case PBP_64:
++			pHalData->HwRxPageSize = 64;
++			break;
++		case PBP_256:
++			pHalData->HwRxPageSize = 256;
++			break;
++		case PBP_512:
++			pHalData->HwRxPageSize = 512;
++			break;
++		case PBP_1024:
++			pHalData->HwRxPageSize = 1024;
++			break;
++		default:
++			//RT_ASSERT(FALSE, ("RX_PAGE_SIZE_REG_VALUE definition is incorrect!\n"));
++			break;
++	}
++#endif
++}	// usb_AggSettingRxUpdate
++
++static VOID
++InitUsbAggregationSetting(
++	IN  PADAPTER Adapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	// Tx aggregation setting
++	usb_AggSettingTxUpdate(Adapter);
++
++	// Rx aggregation setting
++	usb_AggSettingRxUpdate(Adapter);
++
++	// 201/12/10 MH Add for USB agg mode dynamic switch.
++	pHalData->UsbRxHighSpeedMode = _FALSE;
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	USB_AggModeSwitch()
++ *
++ * Overview:	When RX traffic is more than 40M, we need to adjust some parameters to increase
++ *			RX speed by increasing batch indication size. This will decrease TCP ACK speed, we
++ *			need to monitor the influence of FTP/network share.
++ *			For TX mode, we are still ubder investigation.
++ *
++ * Input:		PADAPTER
++ *
++ * Output:		NONE
++ *
++ * Return:		NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	12/10/2010	MHC		Create Version 0.  
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++USB_AggModeSwitch(
++	IN	PADAPTER			Adapter
++	)
++{
++#if 0
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++
++	//pHalData->UsbRxHighSpeedMode = FALSE;
++	// How to measure the RX speed? We assume that when traffic is more than 
++	if (pMgntInfo->bRegAggDMEnable == _FALSE)
++	{
++		return;	// Inf not support.
++	}
++	
++	
++	if (pmlmepriv->LinkDetectInfo.bHigherBusyTraffic == _TRUE && 
++		pHalData->UsbRxHighSpeedMode == _FALSE)
++	{
++		pHalData->UsbRxHighSpeedMode = _TRUE;
++		DBG_8192C("UsbAggModeSwitchCheck to HIGH\n");
++	}
++	else if (pmlmepriv->LinkDetectInfo.bHigherBusyTraffic == _FALSE && 
++		pHalData->UsbRxHighSpeedMode == _TRUE)
++	{
++		pHalData->UsbRxHighSpeedMode = _FALSE;
++		DBG_8192C("UsbAggModeSwitchCheck to LOW\n");
++	}
++	else
++	{
++		return; 
++	}
++	
++	// 2010/12/10 MH Add for USB Aggregation judgement we need to 
++	//if( pMgntInfo->LinkDetectInfo.NumRxOkInPeriod > 4000 ||
++		//			pMgntInfo->LinkDetectInfo.NumTxOkInPeriod > 4000 )
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	//usb_AggSettingTxUpdate(Adapter);
++#endif
++		
++#ifdef CONFIG_USB_RX_AGGREGATION
++	if (pHalData->UsbRxHighSpeedMode == _TRUE)	
++	{
++		// 2010/12/10 MH The parameter is tested by SD1 engineer and SD3 channel emulator.
++		// USB mode
++		pHalData->UsbRxAggBlockCount		= 40;
++		pHalData->UsbRxAggBlockTimeout	= 5;
++		// Mix mode
++		pHalData->UsbRxAggPageCount		= 72;
++		pHalData->UsbRxAggPageTimeout	= 6;		
++	}
++	else
++	{
++		// USB mode
++		pHalData->UsbRxAggBlockCount		= pMgntInfo->RegUsbRxAggBlockCount;
++		pHalData->UsbRxAggBlockTimeout	= pMgntInfo->RegUsbRxAggBlockTimeout;	
++		// Mix mode
++		pHalData->UsbRxAggPageCount		= pMgntInfo->RegUsbRxAggPageCount;
++		pHalData->UsbRxAggPageTimeout	= pMgntInfo->RegUsbRxAggPageTimeout;	
++	}	
++#endif
++#endif
++}	// USB_AggModeSwitch
++
++static VOID
++_InitOperationMode(
++	IN	PADAPTER			Adapter
++	)
++{
++#if 0//gtest
++	PHAL_DATA_8192CUSB	pHalData = GetHalData8192CUsb(Adapter);
++	u1Byte				regBwOpMode = 0;
++	u4Byte				regRATR = 0, regRRSR = 0;
++
++
++	//1 This part need to modified according to the rate set we filtered!!
++	//
++	// Set RRSR, RATR, and REG_BWOPMODE registers
++	//
++	switch(Adapter->RegWirelessMode)
++	{
++		case WIRELESS_MODE_B:
++			regBwOpMode = BW_OPMODE_20MHZ;
++			regRATR = RATE_ALL_CCK;
++			regRRSR = RATE_ALL_CCK;
++			break;
++		case WIRELESS_MODE_A:
++			ASSERT(FALSE);
++#if 0
++			regBwOpMode = BW_OPMODE_5G |BW_OPMODE_20MHZ;
++			regRATR = RATE_ALL_OFDM_AG;
++			regRRSR = RATE_ALL_OFDM_AG;
++#endif
++			break;
++		case WIRELESS_MODE_G:
++			regBwOpMode = BW_OPMODE_20MHZ;
++			regRATR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
++			regRRSR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
++			break;
++		case WIRELESS_MODE_AUTO:
++			if (Adapter->bInHctTest)
++			{
++			    regBwOpMode = BW_OPMODE_20MHZ;
++			    regRATR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
++			    regRRSR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
++			}
++			else
++			{
++			    regBwOpMode = BW_OPMODE_20MHZ;
++			    regRATR = RATE_ALL_CCK | RATE_ALL_OFDM_AG | RATE_ALL_OFDM_1SS | RATE_ALL_OFDM_2SS;
++			    regRRSR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
++			}
++			break;
++		case WIRELESS_MODE_N_24G:
++			// It support CCK rate by default.
++			// CCK rate will be filtered out only when associated AP does not support it.
++			regBwOpMode = BW_OPMODE_20MHZ;
++				regRATR = RATE_ALL_CCK | RATE_ALL_OFDM_AG | RATE_ALL_OFDM_1SS | RATE_ALL_OFDM_2SS;
++				regRRSR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
++			break;
++		case WIRELESS_MODE_N_5G:
++			ASSERT(FALSE);
++#if 0
++			regBwOpMode = BW_OPMODE_5G;
++			regRATR = RATE_ALL_OFDM_AG | RATE_ALL_OFDM_1SS | RATE_ALL_OFDM_2SS;
++			regRRSR = RATE_ALL_OFDM_AG;
++#endif
++			break;
++	}
++
++	// Ziv ????????
++	//PlatformEFIOWrite4Byte(Adapter, REG_INIRTS_RATE_SEL, regRRSR);
++	PlatformEFIOWrite1Byte(Adapter, REG_BWOPMODE, regBwOpMode);
++
++	// For Min Spacing configuration.
++	switch(pHalData->RF_Type)
++	{
++		case RF_1T2R:
++		case RF_1T1R:
++			RT_TRACE(COMP_INIT, DBG_LOUD, ("Initializeadapter: RF_Type%s\n", (pHalData->RF_Type==RF_1T1R? "(1T1R)":"(1T2R)")));
++			Adapter->MgntInfo.MinSpaceCfg = (MAX_MSS_DENSITY_1T<<3);						
++			break;
++		case RF_2T2R:
++		case RF_2T2R_GREEN:
++			RT_TRACE(COMP_INIT, DBG_LOUD, ("Initializeadapter:RF_Type(2T2R)\n"));
++			Adapter->MgntInfo.MinSpaceCfg = (MAX_MSS_DENSITY_2T<<3);			
++			break;
++	}
++	
++	PlatformEFIOWrite1Byte(Adapter, REG_AMPDU_MIN_SPACE, Adapter->MgntInfo.MinSpaceCfg);
++#endif
++}
++
++
++ static VOID
++_InitBeaconParameters(
++	IN  PADAPTER Adapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	rtw_write16(Adapter, REG_BCN_CTRL, 0x1010);
++
++	// TODO: Remove these magic number
++	rtw_write16(Adapter, REG_TBTT_PROHIBIT,0x6404);// ms
++
++	rtw_write8(Adapter, REG_DRVERLYINT, DRIVER_EARLY_INT_TIME);// 5ms
++	rtw_write8(Adapter, REG_BCNDMATIM, BCN_DMA_ATIME_INT_TIME); // 2ms
++
++	// Suggested by designer timchen. Change beacon AIFS to the largest number
++	// beacause test chip does not contension before sending beacon. by tynli. 2009.11.03
++	rtw_write16(Adapter, REG_BCNTCFG, 0x660F);
++}
++
++static VOID
++_InitRFType(
++	IN	PADAPTER Adapter
++	)
++{
++	struct registry_priv	 *pregpriv = &Adapter->registrypriv;
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(Adapter);
++	BOOLEAN			is92CU		= IS_92C_SERIAL(pHalData->VersionID);
++
++#if	DISABLE_BB_RF
++	pHalData->rf_chip	= RF_PSEUDO_11N;
++	return;
++#endif
++
++	pHalData->rf_chip	= RF_6052;
++
++	if(_FALSE == is92CU){
++		pHalData->rf_type = RF_1T1R;
++		DBG_8192C("Set RF Chip ID to RF_6052 and RF type to 1T1R.\n");
++		return;
++	}
++
++	// TODO: Consider that EEPROM set 92CU to 1T1R later.
++	// Force to overwrite setting according to chip version. Ignore EEPROM setting.
++	//pHalData->RF_Type = is92CU ? RF_2T2R : RF_1T1R;
++	MSG_8192C("Set RF Chip ID to RF_6052 and RF type to %d.\n", pHalData->rf_type);
++
++}
++
++static VOID _InitAdhocWorkaroundParams(IN PADAPTER Adapter)
++{
++#if RTL8192CU_ADHOC_WORKAROUND_SETTING
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);	
++	pHalData->RegBcnCtrlVal = rtw_read8(Adapter, REG_BCN_CTRL);
++	pHalData->RegTxPause = rtw_read8(Adapter, REG_TXPAUSE); 
++	pHalData->RegFwHwTxQCtrl = rtw_read8(Adapter, REG_FWHW_TXQ_CTRL+2);
++	pHalData->RegReg542 = rtw_read8(Adapter, REG_TBTT_PROHIBIT+2);
++#endif	
++}
++
++static VOID
++_BeaconFunctionEnable(
++	IN	PADAPTER		Adapter,
++	IN	BOOLEAN			Enable,
++	IN	BOOLEAN			Linked
++	)
++{
++	rtw_write8(Adapter, REG_BCN_CTRL, (BIT4 | BIT3 | BIT1));
++	//SetBcnCtrlReg(Adapter, (BIT4 | BIT3 | BIT1), 0x00);
++	//RT_TRACE(COMP_BEACON, DBG_LOUD, ("_BeaconFunctionEnable 0x550 0x%x\n", PlatformEFIORead1Byte(Adapter, 0x550)));			
++
++	rtw_write8(Adapter, REG_RD_CTRL+1, 0x6F);	
++}
++
++
++// Set CCK and OFDM Block "ON"
++static VOID _BBTurnOnBlock(
++	IN	PADAPTER		Adapter
++	)
++{
++#if (DISABLE_BB_RF)
++	return;
++#endif
++
++	PHY_SetBBReg(Adapter, rFPGA0_RFMOD, bCCKEn, 0x1);
++	PHY_SetBBReg(Adapter, rFPGA0_RFMOD, bOFDMEn, 0x1);
++}
++
++static VOID _RfPowerSave(
++	IN	PADAPTER		Adapter
++	)
++{
++#if 0
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(Adapter);
++	PMGNT_INFO		pMgntInfo	= &(Adapter->MgntInfo);
++	u1Byte			eRFPath;
++
++#if (DISABLE_BB_RF)
++	return;
++#endif
++
++	if(pMgntInfo->RegRfOff == TRUE){ // User disable RF via registry.
++		RT_TRACE((COMP_INIT|COMP_RF), DBG_LOUD, ("InitializeAdapter8192CUsb(): Turn off RF for RegRfOff.\n"));
++		MgntActSet_RF_State(Adapter, eRfOff, RF_CHANGE_BY_SW);
++		// Those action will be discard in MgntActSet_RF_State because off the same state
++		for(eRFPath = 0; eRFPath <pHalData->NumTotalRFPath; eRFPath++)
++			PHY_SetRFReg(Adapter, (RF_RADIO_PATH_E)eRFPath, 0x4, 0xC00, 0x0);
++	}
++	else if(pMgntInfo->RfOffReason > RF_CHANGE_BY_PS){ // H/W or S/W RF OFF before sleep.
++		RT_TRACE((COMP_INIT|COMP_RF), DBG_LOUD, ("InitializeAdapter8192CUsb(): Turn off RF for RfOffReason(%ld).\n", pMgntInfo->RfOffReason));
++		MgntActSet_RF_State(Adapter, eRfOff, pMgntInfo->RfOffReason);
++	}
++	else{
++		pHalData->eRFPowerState = eRfOn;
++		pMgntInfo->RfOffReason = 0; 
++		if(Adapter->bInSetPower || Adapter->bResetInProgress)
++			PlatformUsbEnableInPipes(Adapter);
++		RT_TRACE((COMP_INIT|COMP_RF), DBG_LOUD, ("InitializeAdapter8192CUsb(): RF is on.\n"));
++	}
++#endif
++}
++
++enum {
++	Antenna_Lfet = 1,
++	Antenna_Right = 2,	
++};
++
++static VOID
++_InitAntenna_Selection(IN	PADAPTER Adapter)
++{
++
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(Adapter);
++
++	if(pHalData->AntDivCfg==0)
++		return;
++	DBG_8192C("==>  %s ....\n",__FUNCTION__);
++	
++	if((RF_1T1R == pHalData->rf_type))
++	{	
++		rtw_write32(Adapter, REG_LEDCFG0, rtw_read32(Adapter, REG_LEDCFG0)|BIT23);	
++		PHY_SetBBReg(Adapter, rFPGA0_XAB_RFParameter, BIT13, 0x01);
++		
++		if(PHY_QueryBBReg(Adapter, rFPGA0_XA_RFInterfaceOE, 0x300) == Antenna_A)
++			pHalData->CurAntenna = Antenna_A;
++		else
++			pHalData->CurAntenna = Antenna_B;
++		DBG_8192C("%s,Cur_ant:(%x)%s\n",__FUNCTION__,pHalData->CurAntenna,(pHalData->CurAntenna == Antenna_A)?"Antenna_A":"Antenna_B");
++			
++}
++
++
++}
++//
++// 2010/08/09 MH Add for power down check.
++//
++static BOOLEAN
++HalDetectPwrDownMode(
++	IN PADAPTER				Adapter
++	)
++{
++	u8	tmpvalue;
++	HAL_DATA_TYPE		*pHalData	= GET_HAL_DATA(Adapter);
++	struct pwrctrl_priv		*pwrctrlpriv = &Adapter->pwrctrlpriv;
++	
++	EFUSE_ShadowRead(Adapter, 1, EEPROM_RF_OPT3, (u32 *)&tmpvalue);
++
++	// 2010/08/25 MH INF priority > PDN Efuse value.
++	if(tmpvalue & BIT4 && pwrctrlpriv->reg_pdnmode)
++	{
++		pHalData->pwrdown = _TRUE;
++	}
++	else
++	{
++		pHalData->pwrdown = _FALSE;
++	}
++
++	DBG_8192C("HalDetectPwrDownMode(): PDN=%d\n", pHalData->pwrdown);
++	return pHalData->pwrdown;
++		
++}	// HalDetectPwrDownMode
++
++
++//
++// 2010/08/26 MH Add for selective suspend mode check.
++// If Efuse 0x0e bit1 is not enabled, we can not support selective suspend for Minicard and
++// slim card.
++//
++static VOID
++HalDetectSelectiveSuspendMode(
++	IN PADAPTER				Adapter
++	)
++{
++	u8	tmpvalue;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(Adapter);
++
++	// If support HW radio detect, we need to enable WOL ability, otherwise, we 
++	// can not use FW to notify host the power state switch.
++	
++	EFUSE_ShadowRead(Adapter, 1, EEPROM_USB_OPTIONAL1, (u32 *)&tmpvalue);
++
++	DBG_8192C("HalDetectSelectiveSuspendMode(): SS ");
++	if(tmpvalue & BIT1)
++	{
++		DBG_8192C("Enable\n");
++	}
++	else
++	{
++		DBG_8192C("Disable\n");
++		pdvobjpriv->RegUsbSS = _FALSE;
++	}
++
++	// 2010/09/01 MH According to Dongle Selective Suspend INF. We can switch SS mode.
++	if (pdvobjpriv->RegUsbSS && !SUPPORT_HW_RADIO_DETECT(pHalData))
++	{
++		//PMGNT_INFO				pMgntInfo = &(Adapter->MgntInfo);
++
++		//if (!pMgntInfo->bRegDongleSS)	
++		//{
++		//	RT_TRACE(COMP_INIT, DBG_LOUD, ("Dongle disable SS\n"));
++			pdvobjpriv->RegUsbSS = _FALSE;
++		//}
++	}
++}	// HalDetectSelectiveSuspendMode
++/*-----------------------------------------------------------------------------
++ * Function:	HwSuspendModeEnable92Cu()
++ *
++ * Overview:	HW suspend mode switch.
++ *
++ * Input:		NONE
++ *
++ * Output:	NONE
++ *
++ * Return:	NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	08/23/2010	MHC		HW suspend mode switch test..
++ *---------------------------------------------------------------------------*/
++static VOID 
++HwSuspendModeEnable92Cu(
++	IN	PADAPTER	pAdapter,
++	IN	u8			Type
++	)
++{
++	//PRT_USB_DEVICE 		pDevice = GET_RT_USB_DEVICE(pAdapter);
++	u16	reg = rtw_read16(pAdapter, REG_GPIO_MUXCFG);	
++
++	//if (!pDevice->RegUsbSS)
++	{
++		return;
++	}
++
++	//
++	// 2010/08/23 MH According to Alfred's suggestion, we need to to prevent HW
++	// to enter suspend mode automatically. Otherwise, it will shut down major power 
++	// domain and 8051 will stop. When we try to enter selective suspend mode, we
++	// need to prevent HW to enter D2 mode aumotmatically. Another way, Host will
++	// issue a S10 signal to power domain. Then it will cleat SIC setting(from Yngli).
++	// We need to enable HW suspend mode when enter S3/S4 or disable. We need 
++	// to disable HW suspend mode for IPS/radio_off.
++	//
++	//RT_TRACE(COMP_RF, DBG_LOUD, ("HwSuspendModeEnable92Cu = %d\n", Type));
++	if (Type == _FALSE)
++	{
++		reg |= BIT14;
++		//RT_TRACE(COMP_RF, DBG_LOUD, ("REG_GPIO_MUXCFG = %x\n", reg));
++		rtw_write16(pAdapter, REG_GPIO_MUXCFG, reg);
++		reg |= BIT12;
++		//RT_TRACE(COMP_RF, DBG_LOUD, ("REG_GPIO_MUXCFG = %x\n", reg));
++		rtw_write16(pAdapter, REG_GPIO_MUXCFG, reg);
++	}
++	else
++	{
++		reg &= (~BIT12);
++		rtw_write16(pAdapter, REG_GPIO_MUXCFG, reg);
++		reg &= (~BIT14);
++		rtw_write16(pAdapter, REG_GPIO_MUXCFG, reg);
++	}
++	
++}	// HwSuspendModeEnable92Cu
++rt_rf_power_state RfOnOffDetect(IN	PADAPTER pAdapter )
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(pAdapter);
++	u8	val8;
++	rt_rf_power_state rfpowerstate = rf_off;
++
++	if(pAdapter->pwrctrlpriv.bHWPowerdown)
++	{
++		val8 = rtw_read8(pAdapter, REG_HSISR);
++		DBG_8192C("pwrdown, 0x5c(BIT7)=%02x\n", val8);
++		rfpowerstate = (val8 & BIT7) ? rf_off: rf_on;				
++	}
++	else // rf on/off
++	{
++		rtw_write8(	pAdapter, REG_MAC_PINMUX_CFG,rtw_read8(pAdapter, REG_MAC_PINMUX_CFG)&~(BIT3));
++		val8 = rtw_read8(pAdapter, REG_GPIO_IO_SEL);
++		DBG_8192C("GPIO_IN=%02x\n", val8);
++		rfpowerstate = (val8 & BIT3) ? rf_on : rf_off;	
++	}
++	return rfpowerstate;
++}	// HalDetectPwrDownMode
++
++void _ps_open_RF(_adapter *padapter);
++
++
++u32 rtl8192cu_hal_init(PADAPTER Adapter)
++{
++	u8	val8 = 0;
++	u32	boundary, status = _SUCCESS;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	struct pwrctrl_priv		*pwrctrlpriv = &Adapter->pwrctrlpriv;
++	struct registry_priv	*pregistrypriv = &Adapter->registrypriv;
++	u8	is92C = IS_92C_SERIAL(pHalData->VersionID);
++	rt_rf_power_state		eRfPowerStateToSet;
++#ifdef CONFIG_BT_COEXIST
++	struct btcoexist_priv	*pbtpriv = &(pHalData->bt_coexist);
++#endif
++
++	u32 init_start_time = rtw_get_current_time();
++
++
++#ifdef DBG_HAL_INIT_PROFILING
++
++	enum HAL_INIT_STAGES {
++		HAL_INIT_STAGES_BEGIN = 0,
++		HAL_INIT_STAGES_INIT_PW_ON,
++		HAL_INIT_STAGES_MISC01,
++		HAL_INIT_STAGES_DOWNLOAD_FW,
++		HAL_INIT_STAGES_INIT_LLTT,
++		HAL_INIT_STAGES_MAC,
++		HAL_INIT_STAGES_MISC02,
++		HAL_INIT_STAGES_BB,
++		HAL_INIT_STAGES_RF,
++		HAL_INIT_STAGES_TURN_ON_BLOCK,
++		HAL_INIT_STAGES_INIT_SECURITY,
++		HAL_INIT_STAGES_MISC11,
++		//HAL_INIT_STAGES_RF_PS,
++		HAL_INIT_STAGES_IQK,
++		HAL_INIT_STAGES_PW_TRACK,
++		HAL_INIT_STAGES_LCK,
++		HAL_INIT_STAGES_MISC21,
++		HAL_INIT_STAGES_INIT_PABIAS,
++		HAL_INIT_STAGES_BT_COEXIST,
++		//HAL_INIT_STAGES_ANTENNA_SEL,
++		HAL_INIT_STAGES_INIT_HAL_DM,
++		HAL_INIT_STAGES_MISC31,
++		HAL_INIT_STAGES_END,
++		HAL_INIT_STAGES_NUM
++	};
++
++	char * hal_init_stages_str[] = {
++		"HAL_INIT_STAGES_BEGIN",
++		"HAL_INIT_STAGES_INIT_PW_ON",
++		"HAL_INIT_STAGES_MISC01",
++		"HAL_INIT_STAGES_DOWNLOAD_FW",
++		"HAL_INIT_STAGES_INIT_LLTT",
++		"HAL_INIT_STAGES_MAC",
++		"HAL_INIT_STAGES_MISC02",
++		"HAL_INIT_STAGES_BB",
++		"HAL_INIT_STAGES_RF",
++		"HAL_INIT_STAGES_TURN_ON_BLOCK",
++		"HAL_INIT_STAGES_INIT_SECURITY",
++		"HAL_INIT_STAGES_MISC11",
++		//"HAL_INIT_STAGES_RF_PS",
++		"HAL_INIT_STAGES_IQK",
++		"HAL_INIT_STAGES_PW_TRACK",
++		"HAL_INIT_STAGES_LCK",
++		"HAL_INIT_STAGES_MISC21",
++		"HAL_INIT_STAGES_INIT_PABIAS",
++		"HAL_INIT_STAGES_BT_COEXIST",
++		//"HAL_INIT_STAGES_ANTENNA_SEL",
++		"HAL_INIT_STAGES_INIT_HAL_DM",
++		"HAL_INIT_STAGES_MISC31",
++		"HAL_INIT_STAGES_END",
++	};
++
++	int hal_init_profiling_i;
++	u32 hal_init_stages_timestamp[HAL_INIT_STAGES_NUM]; //used to record the time of each stage's starting point
++
++	for(hal_init_profiling_i=0;hal_init_profiling_i<HAL_INIT_STAGES_NUM;hal_init_profiling_i++)
++		hal_init_stages_timestamp[hal_init_profiling_i]=0;
++
++	#define HAL_INIT_PROFILE_TAG(stage) hal_init_stages_timestamp[(stage)]=rtw_get_current_time();
++#else
++	#define HAL_INIT_PROFILE_TAG(stage) do {} while(0)
++#endif //DBG_HAL_INIT_PROFILING
++
++
++
++_func_enter_;
++
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_BEGIN);
++	if(Adapter->pwrctrlpriv.bkeepfwalive)
++	{
++		_ps_open_RF(Adapter);
++
++		if(pHalData->bIQKInitialized ){
++			rtl8192c_PHY_IQCalibrate(Adapter,_TRUE);
++		}
++		else{
++			rtl8192c_PHY_IQCalibrate(Adapter,_FALSE);
++			pHalData->bIQKInitialized = _TRUE;
++		}
++		rtl8192c_dm_CheckTXPowerTracking(Adapter);
++		rtl8192c_PHY_LCCalibrate(Adapter);
++
++		goto exit;
++	}
++
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_INIT_PW_ON);
++	status = _InitPowerOn(Adapter);
++	if(status == _FAIL){
++		RT_TRACE(_module_hci_hal_init_c_, _drv_err_, ("Failed to init power on!\n"));
++		goto exit;
++	}
++
++
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_MISC01);
++	_InitQueueReservedPage(Adapter);
++	_InitTxBufferBoundary(Adapter);		
++	_InitQueuePriority(Adapter);
++	_InitPageBoundary(Adapter);	
++	_InitTransferPageSize(Adapter);
++
++
++#if ENABLE_USB_DROP_INCORRECT_OUT
++	_InitHardwareDropIncorrectBulkOut(Adapter);
++#endif
++
++	if(pHalData->bRDGEnable){
++		_InitRDGSetting(Adapter);
++	}
++
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_DOWNLOAD_FW);
++#if (1 == MP_DRIVER)
++	_InitRxSetting(Adapter);
++	// Don't Download Firmware
++	Adapter->bFWReady = _FALSE;
++#elif RTL8192CU_FW_DOWNLOAD_ENABLE
++	status = FirmwareDownload92C(Adapter,_FALSE);
++	if(status != _SUCCESS)
++	{
++		Adapter->bFWReady = _FALSE;
++		pHalData->fw_ractrl = _FALSE;
++		DBG_8192C("fw download fail!\n");
++		goto exit;
++	}	
++	else
++	{
++		Adapter->bFWReady = _TRUE;
++		pHalData->fw_ractrl = _TRUE;
++		DBG_8192C("fw download ok!\n");	
++	}
++#endif
++
++	InitializeFirmwareVars92C(Adapter);
++
++	if(pwrctrlpriv->reg_rfoff == _TRUE){
++		pwrctrlpriv->rf_pwrstate = rf_off;
++	}
++
++	// 2010/08/09 MH We need to check if we need to turnon or off RF after detecting
++	// HW GPIO pin. Before PHY_RFConfig8192C.
++	//HalDetectPwrDownMode(Adapter);
++	// 2010/08/26 MH If Efuse does not support sective suspend then disable the function.
++	//HalDetectSelectiveSuspendMode(Adapter);
++
++	// Set RF type for BB/RF configuration	
++	_InitRFType(Adapter);//->_ReadRFType()
++
++	// Save target channel
++	// <Roger_Notes> Current Channel will be updated again later.
++	pHalData->CurrentChannel = 6;//default set to 6
++
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_INIT_LLTT);
++	if(!pregistrypriv->wifi_spec){
++		boundary = TX_PAGE_BOUNDARY;
++	}
++	else{// for WMM
++		boundary = WMM_NORMAL_TX_PAGE_BOUNDARY;
++	}															
++	status =  InitLLTTable(Adapter, boundary);
++	if(status == _FAIL){
++		RT_TRACE(_module_hci_hal_init_c_, _drv_err_, ("Failed to init LLT table\n"));
++		goto exit;
++	}
++
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_MAC);
++#if (HAL_MAC_ENABLE == 1)
++	status = PHY_MACConfig8192C(Adapter);
++	if(status == _FAIL)
++	{
++		goto exit;
++	}
++#endif
++
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_MISC02);
++	// Get Rx PHY status in order to report RSSI and others.
++	_InitDriverInfoSize(Adapter, DRVINFO_SZ);
++
++	_InitInterrupt(Adapter);
++	hal_init_macaddr(Adapter);//set mac_address
++	_InitNetworkType(Adapter);//set msr	
++	_InitWMACSetting(Adapter);
++	_InitAdaptiveCtrl(Adapter);
++	_InitEDCA(Adapter);
++	_InitRateFallback(Adapter);
++	_InitRetryFunction(Adapter);
++	InitUsbAggregationSetting(Adapter);
++	_InitOperationMode(Adapter);//todo
++	_InitBeaconParameters(Adapter);
++	_InitBeaconMaxError(Adapter, _TRUE);
++
++#if defined(CONFIG_CONCURRENT_MODE) || defined(CONFIG_TX_MCAST2UNI)
++
++#ifdef CONFIG_CHECK_AC_LIFETIME
++	// Enable lifetime check for the four ACs
++	rtw_write8(Adapter, REG_LIFETIME_EN, 0x0F);
++#endif	// CONFIG_CHECK_AC_LIFETIME
++
++#ifdef CONFIG_TX_MCAST2UNI
++	rtw_write16(Adapter, REG_PKT_VO_VI_LIFE_TIME, 0x0400);	// unit: 256us. 256ms
++	rtw_write16(Adapter, REG_PKT_BE_BK_LIFE_TIME, 0x0400);	// unit: 256us. 256ms
++#else	// CONFIG_TX_MCAST2UNI
++	rtw_write16(Adapter, REG_PKT_VO_VI_LIFE_TIME, 0x3000);	// unit: 256us. 3s
++	rtw_write16(Adapter, REG_PKT_BE_BK_LIFE_TIME, 0x3000);	// unit: 256us. 3s
++#endif	// CONFIG_TX_MCAST2UNI
++#endif	// CONFIG_CONCURRENT_MODE || CONFIG_TX_MCAST2UNI
++	
++
++#ifdef CONFIG_LED
++	_InitHWLed(Adapter);
++#endif //CONFIG_LED
++
++	//
++	//d. Initialize BB related configurations.
++	//
++
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_BB);
++#if (HAL_BB_ENABLE == 1)
++	status = PHY_BBConfig8192C(Adapter);
++	if(status == _FAIL)
++	{
++		goto exit;
++	}
++#endif
++
++	// 92CU use 3-wire to r/w RF
++	//pHalData->Rf_Mode = RF_OP_By_SW_3wire;
++
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_RF);
++#if (HAL_RF_ENABLE == 1)
++	status = PHY_RFConfig8192C(Adapter);	
++	if(status == _FAIL)
++	{
++		goto exit;
++	}
++
++	if(IS_VENDOR_UMC_A_CUT(pHalData->VersionID) && !IS_92C_SERIAL(pHalData->VersionID))
++	{
++		PHY_SetRFReg(Adapter, RF_PATH_A, RF_RX_G1, bMaskDWord, 0x30255);
++		PHY_SetRFReg(Adapter, RF_PATH_A, RF_RX_G2, bMaskDWord, 0x50a00);		
++	}
++#endif
++
++	//
++	// Joseph Note: Keep RfRegChnlVal for later use.
++	//
++	pHalData->RfRegChnlVal[0] = PHY_QueryRFReg(Adapter, (RF_RADIO_PATH_E)0, RF_CHNLBW, bRFRegOffsetMask);
++	pHalData->RfRegChnlVal[1] = PHY_QueryRFReg(Adapter, (RF_RADIO_PATH_E)1, RF_CHNLBW, bRFRegOffsetMask);
++
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_TURN_ON_BLOCK);
++	_BBTurnOnBlock(Adapter);
++	//NicIFSetMacAddress(padapter, padapter->PermanentAddress);
++
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_INIT_SECURITY);
++	invalidate_cam_all(Adapter);
++
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_MISC11);
++	// 2010/12/17 MH We need to set TX power according to EFUSE content at first.
++	PHY_SetTxPowerLevel8192C(Adapter, pHalData->CurrentChannel);
++
++// Move by Neo for USB SS to below setp	
++//_RfPowerSave(Adapter);
++
++	if (!IS_92C_SERIAL( pHalData->VersionID) && (pHalData->AntDivCfg!=0))
++	{ //for 88CU ,1T1R
++		_InitAntenna_Selection(Adapter);
++	}
++
++
++	// 
++	// Disable BAR, suggested by Scott
++	// 2010.04.09 add by hpfan
++	//
++	rtw_write32(Adapter, REG_BAR_MODE_CTRL, 0x0201ffff);
++
++	// HW SEQ CTRL
++	//set 0x0 to 0xFF by tynli. Default enable HW SEQ NUM.
++	rtw_write8(Adapter,REG_HWSEQ_CTRL, 0xFF); 
++
++	if(pregistrypriv->wifi_spec)
++		rtw_write16(Adapter,REG_FAST_EDCA_CTRL ,0);
++
++	//Nav limit , suggest by scott
++	rtw_write8(Adapter, 0x652, 0x0);
++
++#if (MP_DRIVER == 1)
++	Adapter->mppriv.channel = pHalData->CurrentChannel;
++	MPT_InitializeAdapter(Adapter, Adapter->mppriv.channel);
++#else
++	//
++	// 2010/08/11 MH Merge from 8192SE for Minicard init. We need to confirm current radio status
++	// and then decide to enable RF or not.!!!??? For Selective suspend mode. We may not 
++	// call init_adapter. May cause some problem??
++	//
++	// Fix the bug that Hw/Sw radio off before S3/S4, the RF off action will not be executed 
++	// in MgntActSet_RF_State() after wake up, because the value of pHalData->eRFPowerState 
++	// is the same as eRfOff, we should change it to eRfOn after we config RF parameters.
++	// Added by tynli. 2010.03.30.
++	pwrctrlpriv->rf_pwrstate = rf_on;
++
++#if 0  //to do
++	RT_CLEAR_PS_LEVEL(pwrctrlpriv, RT_RF_OFF_LEVL_HALT_NIC);
++#if 1 //Todo
++	// 20100326 Joseph: Copy from GPIOChangeRFWorkItemCallBack() function to check HW radio on/off.
++	// 20100329 Joseph: Revise and integrate the HW/SW radio off code in initialization.
++
++	eRfPowerStateToSet = (rt_rf_power_state) RfOnOffDetect(Adapter);
++	pwrctrlpriv->rfoff_reason |= eRfPowerStateToSet==rf_on ? RF_CHANGE_BY_INIT : RF_CHANGE_BY_HW;
++	pwrctrlpriv->rfoff_reason |= (pwrctrlpriv->reg_rfoff) ? RF_CHANGE_BY_SW : 0;
++
++	if(pwrctrlpriv->rfoff_reason&RF_CHANGE_BY_HW)
++		pwrctrlpriv->b_hw_radio_off = _TRUE;
++
++	DBG_8192C("eRfPowerStateToSet=%d\n", eRfPowerStateToSet);
++	
++	if(pwrctrlpriv->reg_rfoff == _TRUE)
++	{	// User disable RF via registry.
++		DBG_8192C("InitializeAdapter8192CU(): Turn off RF for RegRfOff.\n");
++		//MgntActSet_RF_State(Adapter, rf_off, RF_CHANGE_BY_SW, _TRUE);
++		
++		// Those action will be discard in MgntActSet_RF_State because off the same state
++		//for(eRFPath = 0; eRFPath <pHalData->NumTotalRFPath; eRFPath++)
++			//PHY_SetRFReg(Adapter, (RF_RADIO_PATH_E)eRFPath, 0x4, 0xC00, 0x0);
++	}
++	else if(pwrctrlpriv->rfoff_reason > RF_CHANGE_BY_PS)
++	{	// H/W or S/W RF OFF before sleep.
++		DBG_8192C(" Turn off RF for RfOffReason(%x) ----------\n", pwrctrlpriv->rfoff_reason);
++		//pwrctrlpriv->rfoff_reason = RF_CHANGE_BY_INIT;
++		pwrctrlpriv->rf_pwrstate = rf_on;
++		//MgntActSet_RF_State(Adapter, rf_off, pwrctrlpriv->rfoff_reason, _TRUE);
++	}
++	else
++	{
++		// Perform GPIO polling to find out current RF state. added by Roger, 2010.04.09.
++		if(pHalData->BoardType == BOARD_MINICARD /*&& (Adapter->MgntInfo.PowerSaveControl.bGpioRfSw)*/)
++		{
++			DBG_8192C("InitializeAdapter8192CU(): RF=%d \n", eRfPowerStateToSet);
++			if (eRfPowerStateToSet == rf_off)
++			{				
++				//MgntActSet_RF_State(Adapter, rf_off, RF_CHANGE_BY_HW, _TRUE);
++				pwrctrlpriv->b_hw_radio_off = _TRUE;	
++			}
++			else
++			{
++				pwrctrlpriv->rf_pwrstate = rf_off;
++				pwrctrlpriv->rfoff_reason = RF_CHANGE_BY_INIT; 
++				pwrctrlpriv->b_hw_radio_off = _FALSE;					
++				//MgntActSet_RF_State(Adapter, rf_on, pwrctrlpriv->rfoff_reason, _TRUE);
++			}
++		}	
++		else
++		{
++			pwrctrlpriv->rf_pwrstate = rf_off;
++			pwrctrlpriv->rfoff_reason = RF_CHANGE_BY_INIT; 			
++			//MgntActSet_RF_State(Adapter, rf_on, pwrctrlpriv->rfoff_reason, _TRUE);
++		}
++	
++		pwrctrlpriv->rfoff_reason = 0; 
++		pwrctrlpriv->b_hw_radio_off = _FALSE;
++		pwrctrlpriv->rf_pwrstate = rf_on;
++		rtw_led_control(Adapter, LED_CTL_POWER_ON);
++
++	}
++
++	// 2010/-8/09 MH For power down module, we need to enable register block contrl reg at 0x1c.
++	// Then enable power down control bit of register 0x04 BIT4 and BIT15 as 1.
++	if(pHalData->pwrdown && eRfPowerStateToSet == rf_off)
++	{
++		// Enable register area 0x0-0xc.
++		rtw_write8(Adapter, REG_RSV_CTRL, 0x0);
++
++		//
++		// <Roger_Notes> We should configure HW PDn source for WiFi ONLY, and then
++		// our HW will be set in power-down mode if PDn source from all  functions are configured.
++		// 2010.10.06.
++		//
++		//if(IS_HARDWARE_TYPE_8723AU(Adapter))
++		//{			
++		//	u1bTmp = rtw_read8(Adapter, REG_MULTI_FUNC_CTRL);
++		//	rtw_write8(Adapter, REG_MULTI_FUNC_CTRL, (u1bTmp|WL_HWPDN_EN));
++		//}
++		//else
++		//{
++			rtw_write16(Adapter, REG_APS_FSMCO, 0x8812);
++		//}
++	}
++	//DrvIFIndicateCurrentPhyStatus(Adapter); // 2010/08/17 MH Disable to prevent BSOD.
++#endif
++#endif
++
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_IQK);
++	// 2010/08/26 MH Merge from 8192CE.
++	if(pwrctrlpriv->rf_pwrstate == rf_on)
++	{
++		if(pHalData->bIQKInitialized ){
++			rtl8192c_PHY_IQCalibrate(Adapter,_TRUE);
++		}
++		else
++		{
++			rtl8192c_PHY_IQCalibrate(Adapter,_FALSE);
++			pHalData->bIQKInitialized = _TRUE;
++		}
++		
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_PW_TRACK);
++		rtl8192c_dm_CheckTXPowerTracking(Adapter);
++
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_LCK);
++		rtl8192c_PHY_LCCalibrate(Adapter);
++	}
++#endif /* #if (MP_DRIVER == 1) */
++
++
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_MISC21);
++#if RTL8192CU_ADHOC_WORKAROUND_SETTING
++	_InitAdhocWorkaroundParams(Adapter);
++#endif
++
++
++#ifdef USB_INTERFERENCE_ISSUE
++ //fixed USB interface interference issue
++	rtw_write8(Adapter, 0xfe40, 0xe0);
++	rtw_write8(Adapter, 0xfe41, 0x8d);
++	rtw_write8(Adapter, 0xfe42, 0x80);
++	rtw_write32(Adapter,0x20c,0xfd0320);
++#if 1
++	//2011/01/07 ,suggest by Johnny,for solved the problem that too many protocol error on USB bus
++	if(!IS_VENDOR_UMC_A_CUT(pHalData->VersionID) )//&& !IS_92C_SERIAL(pHalData->VersionID))// TSMC , 8188
++	{		
++	    	// 0xE6=0x94
++	    	rtw_write8(Adapter, 0xFE40, 0xE6);
++		rtw_write8(Adapter, 0xFE41, 0x94);
++		rtw_write8(Adapter, 0xFE42, 0x80); 
++
++		// 0xE0=0x19
++		rtw_write8(Adapter, 0xFE40, 0xE0);
++		rtw_write8(Adapter, 0xFE41, 0x19);
++		rtw_write8(Adapter, 0xFE42, 0x80);
++
++		// 0xE5=0x91
++		rtw_write8(Adapter, 0xFE40, 0xE5);
++		rtw_write8(Adapter, 0xFE41, 0x91);
++		rtw_write8(Adapter, 0xFE42, 0x80); 
++
++		// 0xE2=0x81
++		rtw_write8(Adapter, 0xFE40, 0xE2);
++		rtw_write8(Adapter, 0xFE41, 0x81);
++		rtw_write8(Adapter, 0xFE42, 0x80);    
++	
++	}
++
++#endif
++#endif //USB_INTERFERENCE_ISSUE
++
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_INIT_PABIAS);
++	_InitPABias(Adapter);
++
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_BT_COEXIST);
++#ifdef CONFIG_BT_COEXIST
++	_InitBTCoexist(Adapter);
++#endif
++
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_INIT_HAL_DM);
++	rtl8192c_InitHalDm(Adapter);
++
++	// 2010/08/23 MH According to Alfred's suggestion, we need to to prevent HW enter
++	// suspend mode automatically.
++	//HwSuspendModeEnable92Cu(Adapter, _FALSE);
++
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_MISC31);
++	rtw_write8(Adapter, 0x15, 0xe9);//suggest by Johnny for lower temperature
++        
++        rtw_write8(Adapter, 0xc87, 0x50);//suggest by Jackson for CCA  
++
++	//_dbg_dump_macreg(padapter);
++
++	rtw_write16(Adapter, REG_BCN_CTRL, 0x1818);	// For 2 PORT TSF SYNC
++
++
++
++#ifdef CONFIG_XMIT_ACK
++	//ack for xmit mgmt frames.
++	rtw_write32(Adapter, REG_FWHW_TXQ_CTRL, rtw_read32(Adapter, REG_FWHW_TXQ_CTRL)|BIT(12));
++#endif //CONFIG_XMIT_ACK
++
++exit:
++HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_END);
++
++	DBG_871X("%s in %dms\n", __FUNCTION__, rtw_get_passing_time_ms(init_start_time));
++
++	#ifdef DBG_HAL_INIT_PROFILING
++	hal_init_stages_timestamp[HAL_INIT_STAGES_END]=rtw_get_current_time();
++
++	for(hal_init_profiling_i=0;hal_init_profiling_i<HAL_INIT_STAGES_NUM-1;hal_init_profiling_i++) {
++		DBG_871X("DBG_HAL_INIT_PROFILING: %35s, %u, %5u, %5u\n"
++			, hal_init_stages_str[hal_init_profiling_i]
++			, hal_init_stages_timestamp[hal_init_profiling_i]
++			, (hal_init_stages_timestamp[hal_init_profiling_i+1]-hal_init_stages_timestamp[hal_init_profiling_i])
++			, rtw_get_time_interval_ms(hal_init_stages_timestamp[hal_init_profiling_i], hal_init_stages_timestamp[hal_init_profiling_i+1])
++		);
++	}	
++	#endif
++
++
++_func_exit_;
++
++	return status;
++}
++
++
++#define SYNC_SD7_20110802_phy_SsPwrSwitch92CU
++#ifdef SYNC_SD7_20110802_phy_SsPwrSwitch92CU
++
++VOID
++phy_SsPwrSwitch92CU(
++	IN	PADAPTER			Adapter,
++	IN	rt_rf_power_state	eRFPowerState,
++	IN	int bRegSSPwrLvl
++	)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	u8				value8;
++	
++	switch( eRFPowerState )
++	{
++		case rf_on:								
++			if (bRegSSPwrLvl == 1)
++			{
++				// 1. Enable MAC Clock. Can not be enabled now.
++				//WriteXBYTE(REG_SYS_CLKR+1, ReadXBYTE(REG_SYS_CLKR+1) | BIT(3));
++				
++				// 2. Force PWM, Enable SPS18_LDO_Marco_Block
++				rtw_write8(Adapter, REG_SPS0_CTRL, 
++				rtw_read8(Adapter, REG_SPS0_CTRL) | (BIT0|BIT3));
++
++				// 3. restore BB, AFE control register.
++				//RF
++				if (pHalData->rf_type ==  RF_2T2R)
++					PHY_SetBBReg(Adapter, rFPGA0_XAB_RFParameter, 0x380038, 1);							
++				else								
++					PHY_SetBBReg(Adapter, rFPGA0_XAB_RFParameter, 0x38, 1);							
++				PHY_SetBBReg(Adapter, rOFDM0_TRxPathEnable, 0xf0, 1);
++				PHY_SetBBReg(Adapter, rFPGA0_RFMOD, BIT1, 0);
++
++				//AFE
++				//DbgPrint("0x0e70 = %x\n", Adapter->PS_BBRegBackup[PSBBREG_AFE0]);
++				//PHY_SetBBReg(Adapter, 0x0e70, bMaskDWord ,Adapter->PS_BBRegBackup[PSBBREG_AFE0] );
++				//PHY_SetBBReg(Adapter, 0x0e70, bMaskDWord ,0x631B25A0 );				
++				if (pHalData->rf_type ==  RF_2T2R)
++					PHY_SetBBReg(Adapter, rRx_Wait_CCA, bMaskDWord ,0x63DB25A0 );
++				else if (pHalData->rf_type ==  RF_1T1R)
++					PHY_SetBBReg(Adapter, rRx_Wait_CCA, bMaskDWord ,0x631B25A0 );
++
++				// 4. issue 3-wire command that RF set to Rx idle mode. This is used to re-write the RX idle mode.
++				// We can only prvide a usual value instead and then HW will modify the value by itself.
++				PHY_SetRFReg(Adapter,RF_PATH_A, 0, bRFRegOffsetMask,0x32D95);
++				if (pHalData->rf_type ==  RF_2T2R)
++				{
++					PHY_SetRFReg(Adapter,RF_PATH_B, 0, bRFRegOffsetMask,0x32D95);
++				}
++			}	
++			else		// Level 2 or others.
++			{
++				//h.	AFE_PLL_CTRL 0x28[7:0] = 0x80			//disable AFE PLL
++				rtw_write8(Adapter, REG_AFE_PLL_CTRL, 0x81);
++				
++				// i.	AFE_XTAL_CTRL 0x24[15:0] = 0x880F		//gated AFE DIG_CLOCK
++				rtw_write16(Adapter, REG_AFE_XTAL_CTRL, 0x800F);
++				rtw_mdelay_os(1);
++				
++				// 1. Enable MAC Clock. Can not be enabled now.
++				//WriteXBYTE(REG_SYS_CLKR+1, ReadXBYTE(REG_SYS_CLKR+1) | BIT(3));
++				
++				// 2. Force PWM, Enable SPS18_LDO_Marco_Block
++				rtw_write8(Adapter, REG_SPS0_CTRL, 
++				rtw_read8(Adapter, REG_SPS0_CTRL) | (BIT0|BIT3));
++
++				// 3. restore BB, AFE control register.
++				//RF
++				if (pHalData->rf_type ==  RF_2T2R)
++					PHY_SetBBReg(Adapter, rFPGA0_XAB_RFParameter, 0x380038, 1);							
++				else								
++					PHY_SetBBReg(Adapter, rFPGA0_XAB_RFParameter, 0x38, 1);							
++				PHY_SetBBReg(Adapter, rOFDM0_TRxPathEnable, 0xf0, 1);
++				PHY_SetBBReg(Adapter, rFPGA0_RFMOD, BIT1, 0);
++
++				//AFE
++				if (pHalData->rf_type ==  RF_2T2R)
++					PHY_SetBBReg(Adapter, rRx_Wait_CCA, bMaskDWord ,0x63DB25A0 );
++				else if (pHalData->rf_type ==  RF_1T1R)
++					PHY_SetBBReg(Adapter, rRx_Wait_CCA, bMaskDWord ,0x631B25A0 );
++
++				// 4. issue 3-wire command that RF set to Rx idle mode. This is used to re-write the RX idle mode.
++				// We can only prvide a usual value instead and then HW will modify the value by itself.
++				PHY_SetRFReg(Adapter,RF_PATH_A, 0, bRFRegOffsetMask,0x32D95);
++				if (pHalData->rf_type ==  RF_2T2R)
++				{
++					PHY_SetRFReg(Adapter,RF_PATH_B, 0, bRFRegOffsetMask,0x32D95);
++				}
++
++				// 5. gated MAC Clock
++				//WriteXBYTE(REG_SYS_CLKR+1, ReadXBYTE(REG_SYS_CLKR+1) & ~(BIT(3)));
++				//PlatformEFIOWrite1Byte(Adapter, REG_SYS_CLKR+1, PlatformEFIORead1Byte(Adapter, REG_SYS_CLKR+1)|(BIT3));
++
++				{
++					//u8 			eRFPath = RF_PATH_A,value8 = 0, retry = 0;
++					u8		bytetmp;
++					//PHY_SetRFReg(Adapter, (RF_RADIO_PATH_E)eRFPath, 0x0, bMaskByte0, 0x0);
++					// 2010/08/12 MH Add for B path under SS test. 
++					//if (pHalData->RF_Type ==  RF_2T2R)
++						//PHY_SetRFReg(Adapter, RF_PATH_B, 0x0, bMaskByte0, 0x0);
++
++					bytetmp = rtw_read8(Adapter, REG_APSD_CTRL);
++					rtw_write8(Adapter, REG_APSD_CTRL, bytetmp & ~BIT6);
++				
++					rtw_mdelay_os(10);
++
++					// Set BB reset at first
++					rtw_write8(Adapter, REG_SYS_FUNC_EN, 0x17 );//0x16		
++					//undo clock gated
++					rtw_write32(Adapter, rFPGA0_XCD_RFParameter, rtw_read32(Adapter, rFPGA0_XCD_RFParameter)&(~BIT31));
++					// Enable TX
++					rtw_write8(Adapter, REG_TXPAUSE, 0x0);
++				}
++				//Adapter->HalFunc.InitializeAdapterHandler(Adapter, Adapter->MgntInfo.dot11CurrentChannelNumber);
++				//CardSelectiveSuspendLeave(Adapter);
++			}
++
++			break;
++	   
++		case rf_sleep:
++		case rf_off:
++				value8 = rtw_read8(Adapter, REG_SPS0_CTRL) ;
++				if (IS_81xxC_VENDOR_UMC_B_CUT(pHalData->VersionID))
++					value8 &= ~(BIT0);
++				else
++					value8 &= ~(BIT0|BIT3);
++				if (bRegSSPwrLvl == 1)
++				{
++					//RT_TRACE(COMP_POWER, DBG_LOUD, ("SS LVL1\n"));
++					// Disable RF and BB only for SelectSuspend.
++					
++					// 1. Set BB/RF to shutdown.
++					//	(1) Reg878[5:3]= 0 	// RF rx_code for preamble power saving
++					//	(2)Reg878[21:19]= 0	//Turn off RF-B
++					//	(3) RegC04[7:4]= 0 	// turn off all paths for packet detection
++					//	(4) Reg800[1] = 1 		// enable preamble power saving
++					Adapter->pwrctrlpriv.PS_BBRegBackup[PSBBREG_RF0] = PHY_QueryBBReg(Adapter, rFPGA0_XAB_RFParameter, bMaskDWord);
++					Adapter->pwrctrlpriv.PS_BBRegBackup[PSBBREG_RF1] = PHY_QueryBBReg(Adapter, rOFDM0_TRxPathEnable, bMaskDWord);
++					Adapter->pwrctrlpriv.PS_BBRegBackup[PSBBREG_RF2] = PHY_QueryBBReg(Adapter, rFPGA0_RFMOD, bMaskDWord);
++					if (pHalData->rf_type ==  RF_2T2R)
++					{
++						PHY_SetBBReg(Adapter, rFPGA0_XAB_RFParameter, 0x380038, 0);							
++					}
++					else if (pHalData->rf_type ==  RF_1T1R)
++					{
++						PHY_SetBBReg(Adapter, rFPGA0_XAB_RFParameter, 0x38, 0);							
++					}
++					PHY_SetBBReg(Adapter, rOFDM0_TRxPathEnable, 0xf0, 0);						
++					PHY_SetBBReg(Adapter, rFPGA0_RFMOD, BIT1,1);
++					
++					// 2 .AFE control register to power down. bit[30:22]
++					Adapter->pwrctrlpriv.PS_BBRegBackup[PSBBREG_AFE0] = PHY_QueryBBReg(Adapter, rRx_Wait_CCA, bMaskDWord);	
++					if (pHalData->rf_type ==  RF_2T2R)
++						PHY_SetBBReg(Adapter, rRx_Wait_CCA, bMaskDWord ,0x00DB25A0);
++					else if (pHalData->rf_type ==  RF_1T1R)
++						PHY_SetBBReg(Adapter, rRx_Wait_CCA, bMaskDWord ,0x001B25A0);
++					
++					// 3. issue 3-wire command that RF set to power down.
++					PHY_SetRFReg(Adapter,RF_PATH_A, 0, bRFRegOffsetMask,0);
++					if (pHalData->rf_type ==  RF_2T2R)
++					{
++						PHY_SetRFReg(Adapter,RF_PATH_B, 0, bRFRegOffsetMask,0);
++					}
++
++					// 4. Force PFM , disable SPS18_LDO_Marco_Block					
++					rtw_write8(Adapter, REG_SPS0_CTRL, value8);
++
++					// 5. gated MAC Clock
++					//WriteXBYTE(REG_SYS_CLKR+1, ReadXBYTE(REG_SYS_CLKR+1) & ~(BIT(3)));
++				}
++				else	// Level 2 or others.
++				{
++					//RT_TRACE(COMP_POWER, DBG_LOUD, ("SS LVL2\n"));
++					{
++						u8 			eRFPath = RF_PATH_A,value8 = 0;
++						rtw_write8(Adapter, REG_TXPAUSE, 0xFF);
++						PHY_SetRFReg(Adapter, (RF_RADIO_PATH_E)eRFPath, 0x0, bMaskByte0, 0x0);
++						// 2010/08/12 MH Add for B path under SS test. 
++						//if (pHalData->RF_Type ==  RF_2T2R)
++							//PHY_SetRFReg(Adapter, RF_PATH_B, 0x0, bMaskByte0, 0x0);
++
++						value8 |= APSDOFF;
++						rtw_write8(Adapter, REG_APSD_CTRL, value8);//0x40
++
++						// After switch APSD, we need to delay for stability
++						rtw_mdelay_os(10);
++						//before BB reset should do clock gated
++						rtw_write32(Adapter, rFPGA0_XCD_RFParameter, rtw_read32(Adapter, rFPGA0_XCD_RFParameter)|(BIT31));
++						// Set BB reset at first
++						value8 = 0 ; 
++						value8 |=( FEN_USBD | FEN_USBA | FEN_BB_GLB_RSTn);
++						rtw_write8(Adapter, REG_SYS_FUNC_EN,value8 );//0x16			
++					}
++
++					// Disable RF and BB only for SelectSuspend.
++
++					// 1. Set BB/RF to shutdown.
++					//	(1) Reg878[5:3]= 0 	// RF rx_code for preamble power saving
++					//	(2)Reg878[21:19]= 0	//Turn off RF-B
++					//	(3) RegC04[7:4]= 0 	// turn off all paths for packet detection
++					//	(4) Reg800[1] = 1 		// enable preamble power saving
++					Adapter->pwrctrlpriv.PS_BBRegBackup[PSBBREG_RF0] = PHY_QueryBBReg(Adapter, rFPGA0_XAB_RFParameter, bMaskDWord);
++					Adapter->pwrctrlpriv.PS_BBRegBackup[PSBBREG_RF1] = PHY_QueryBBReg(Adapter, rOFDM0_TRxPathEnable, bMaskDWord);
++					Adapter->pwrctrlpriv.PS_BBRegBackup[PSBBREG_RF2] = PHY_QueryBBReg(Adapter, rFPGA0_RFMOD, bMaskDWord);
++					if (pHalData->rf_type ==  RF_2T2R)
++					{
++						PHY_SetBBReg(Adapter, rFPGA0_XAB_RFParameter, 0x380038, 0);							
++					}
++					else if (pHalData->rf_type ==  RF_1T1R)
++					{
++						PHY_SetBBReg(Adapter, rFPGA0_XAB_RFParameter, 0x38, 0);							
++					}
++					PHY_SetBBReg(Adapter, rOFDM0_TRxPathEnable, 0xf0, 0);						
++					PHY_SetBBReg(Adapter, rFPGA0_RFMOD, BIT1,1);
++					
++					// 2 .AFE control register to power down. bit[30:22]
++					Adapter->pwrctrlpriv.PS_BBRegBackup[PSBBREG_AFE0] = PHY_QueryBBReg(Adapter, rRx_Wait_CCA, bMaskDWord);	
++					if (pHalData->rf_type ==  RF_2T2R)
++						PHY_SetBBReg(Adapter, rRx_Wait_CCA, bMaskDWord ,0x00DB25A0);
++					else if (pHalData->rf_type ==  RF_1T1R)
++						PHY_SetBBReg(Adapter, rRx_Wait_CCA, bMaskDWord ,0x001B25A0);
++					
++					// 3. issue 3-wire command that RF set to power down.
++					PHY_SetRFReg(Adapter,RF_PATH_A, 0, bRFRegOffsetMask,0);
++					if (pHalData->rf_type ==  RF_2T2R)
++					{
++						PHY_SetRFReg(Adapter,RF_PATH_B, 0, bRFRegOffsetMask,0);
++					}
++
++					// 4. Force PFM , disable SPS18_LDO_Marco_Block
++					rtw_write8(Adapter, REG_SPS0_CTRL, value8);
++
++					// 2010/10/13 MH/Isaachsu exchange sequence.
++					//h.	AFE_PLL_CTRL 0x28[7:0] = 0x80			//disable AFE PLL
++					rtw_write8(Adapter, REG_AFE_PLL_CTRL, 0x80);
++					rtw_mdelay_os(1);
++
++					// i.	AFE_XTAL_CTRL 0x24[15:0] = 0x880F		//gated AFE DIG_CLOCK
++					rtw_write16(Adapter, REG_AFE_XTAL_CTRL, 0xA80F);
++
++					// 5. gated MAC Clock
++					//WriteXBYTE(REG_SYS_CLKR+1, ReadXBYTE(REG_SYS_CLKR+1) & ~(BIT(3)));
++					//PlatformEFIOWrite1Byte(Adapter, REG_SYS_CLKR+1, PlatformEFIORead1Byte(Adapter, REG_SYS_CLKR+1)& ~(BIT3))
++					
++					//CardSelectiveSuspendEnter(Adapter);
++				}
++
++			break;
++
++		default:
++			break;
++	} 
++	
++}	// phy_PowerSwitch92CU
++
++void _ps_open_RF(_adapter *padapter) {
++	//here call with bRegSSPwrLvl 1, bRegSSPwrLvl 2 needs to be verified
++	phy_SsPwrSwitch92CU(padapter, rf_on, 1);
++}
++
++void _ps_close_RF(_adapter *padapter){
++	//here call with bRegSSPwrLvl 1, bRegSSPwrLvl 2 needs to be verified
++	phy_SsPwrSwitch92CU(padapter, rf_off, 1);
++}
++#endif //SYNC_SD7_20110802_phy_SsPwrSwitch92CU
++
++
++
++static VOID 
++_DisableGPIO(
++	IN	PADAPTER	Adapter
++	)
++{
++/***************************************
++j. GPIO_PIN_CTRL 0x44[31:0]=0x000		// 
++k. Value = GPIO_PIN_CTRL[7:0]
++l.  GPIO_PIN_CTRL 0x44[31:0] = 0x00FF0000 | (value <<8); //write external PIN level
++m. GPIO_MUXCFG 0x42 [15:0] = 0x0780
++n. LEDCFG 0x4C[15:0] = 0x8080
++***************************************/
++	u8	value8;
++	u16	value16;
++	u32	value32;
++
++	//1. Disable GPIO[7:0]
++	rtw_write16(Adapter, REG_GPIO_PIN_CTRL+2, 0x0000);
++    	value32 = rtw_read32(Adapter, REG_GPIO_PIN_CTRL) & 0xFFFF00FF;  
++	value8 = (u8) (value32&0x000000FF);
++	value32 |= ((value8<<8) | 0x00FF0000);
++	rtw_write32(Adapter, REG_GPIO_PIN_CTRL, value32);
++	      
++	//2. Disable GPIO[10:8]          
++	rtw_write8(Adapter, REG_GPIO_MUXCFG+3, 0x00);
++	    value16 = rtw_read16(Adapter, REG_GPIO_MUXCFG+2) & 0xFF0F;  
++	value8 = (u8) (value16&0x000F);
++	value16 |= ((value8<<4) | 0x0780);
++	rtw_write16(Adapter, REG_GPIO_MUXCFG+2, value16);
++
++	//3. Disable LED0 & 1
++	rtw_write16(Adapter, REG_LEDCFG0, 0x8080);
++
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("======> Disable GPIO and LED.\n"));
++ 
++} //end of _DisableGPIO()
++
++static VOID
++_ResetFWDownloadRegister(
++	IN PADAPTER			Adapter
++	)
++{
++	u32	value32;
++
++	value32 = rtw_read32(Adapter, REG_MCUFWDL);
++	value32 &= ~(MCUFWDL_EN | MCUFWDL_RDY);
++	rtw_write32(Adapter, REG_MCUFWDL, value32);
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("Reset FW download register.\n"));
++}
++
++
++static int
++_DisableRF_AFE(
++	IN PADAPTER			Adapter
++	)
++{
++	int		rtStatus = _SUCCESS;
++	u32			pollingCount = 0;
++	u8			value8;
++	
++	//disable RF/ AFE AD/DA
++	value8 = APSDOFF;
++	rtw_write8(Adapter, REG_APSD_CTRL, value8);
++
++
++#if (RTL8192CU_ASIC_VERIFICATION)
++
++	do
++	{
++		if(rtw_read8(Adapter, REG_APSD_CTRL) & APSDOFF_STATUS){
++			//RT_TRACE(COMP_INIT, DBG_LOUD, ("Disable RF, AFE, AD, DA Done!\n"));
++			break;
++		}
++
++		if(pollingCount++ > POLLING_READY_TIMEOUT_COUNT){
++			//RT_TRACE(COMP_INIT, DBG_SERIOUS, ("Failed to polling APSDOFF_STATUS done!\n"));
++			return _FAIL;
++		}
++				
++	}while(_TRUE);
++	
++#endif
++
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("Disable RF, AFE,AD, DA.\n"));
++	return rtStatus;
++
++}
++
++static VOID
++_ResetBB(
++	IN PADAPTER			Adapter
++	)
++{
++	u16	value16;
++	
++	//before BB reset should do clock gated
++	rtw_write32(Adapter, rFPGA0_XCD_RFParameter, rtw_read32(Adapter, rFPGA0_XCD_RFParameter)|(BIT31));
++	//reset BB
++	value16 = rtw_read16(Adapter, REG_SYS_FUNC_EN);
++	value16 &= ~(FEN_BBRSTB | FEN_BB_GLB_RSTn);
++	rtw_write16(Adapter, REG_SYS_FUNC_EN, value16);
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("Reset BB.\n"));
++}
++
++static VOID
++_ResetMCU(
++	IN PADAPTER			Adapter
++	)
++{
++	u16	value16;
++	
++	// reset MCU
++	value16 = rtw_read16(Adapter, REG_SYS_FUNC_EN);
++	value16 &= ~FEN_CPUEN;
++	rtw_write16(Adapter, REG_SYS_FUNC_EN, value16);
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("Reset MCU.\n"));
++}
++
++static VOID
++_DisableMAC_AFE_PLL(
++	IN PADAPTER			Adapter
++	)
++{
++	u32	value32;
++	
++	//disable MAC/ AFE PLL
++	value32 = rtw_read32(Adapter, REG_APS_FSMCO);
++	value32 |= APDM_MAC;
++	rtw_write32(Adapter, REG_APS_FSMCO, value32);
++	
++	value32 |= APFM_OFF;
++	rtw_write32(Adapter, REG_APS_FSMCO, value32);
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("Disable MAC, AFE PLL.\n"));
++}
++
++static VOID
++_AutoPowerDownToHostOff(
++	IN	PADAPTER		Adapter
++	)
++{
++	u32			value32;
++	rtw_write8(Adapter, REG_SPS0_CTRL, 0x22);
++
++	value32 = rtw_read32(Adapter, REG_APS_FSMCO);	
++	
++	value32 |= APDM_HOST;//card disable
++	rtw_write32(Adapter, REG_APS_FSMCO, value32);
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("Auto Power Down to Host-off state.\n"));
++
++	// set USB suspend
++	value32 = rtw_read32(Adapter, REG_APS_FSMCO);
++	value32 &= ~AFSM_PCIE;
++	rtw_write32(Adapter, REG_APS_FSMCO, value32);
++
++}
++
++static VOID
++_SetUsbSuspend(
++	IN PADAPTER			Adapter
++	)
++{
++	u32			value32;
++
++	value32 = rtw_read32(Adapter, REG_APS_FSMCO);
++	
++	// set USB suspend
++	value32 |= AFSM_HSUS;
++	rtw_write32(Adapter, REG_APS_FSMCO, value32);
++
++	//RT_ASSERT(0 == (rtw_read32(Adapter, REG_APS_FSMCO) & BIT(12)),(""));
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("Set USB suspend.\n"));
++	
++}
++
++static VOID
++_DisableRFAFEAndResetBB(
++	IN PADAPTER			Adapter
++	)
++{
++/**************************************
++a.	TXPAUSE 0x522[7:0] = 0xFF             //Pause MAC TX queue
++b.	RF path 0 offset 0x00 = 0x00            // disable RF
++c. 	APSD_CTRL 0x600[7:0] = 0x40
++d.	SYS_FUNC_EN 0x02[7:0] = 0x16		//reset BB state machine
++e.	SYS_FUNC_EN 0x02[7:0] = 0x14		//reset BB state machine
++***************************************/
++	u8 eRFPath = 0,value8 = 0;
++	rtw_write8(Adapter, REG_TXPAUSE, 0xFF);
++	PHY_SetRFReg(Adapter, (RF_RADIO_PATH_E)eRFPath, 0x0, bMaskByte0, 0x0);
++
++	value8 |= APSDOFF;
++	rtw_write8(Adapter, REG_APSD_CTRL, value8);//0x40
++	//before BB reset should do clock gated
++	rtw_write32(Adapter, rFPGA0_XCD_RFParameter, rtw_read32(Adapter, rFPGA0_XCD_RFParameter)|(BIT31));
++	value8 = 0 ; 
++	value8 |=( FEN_USBD | FEN_USBA | FEN_BB_GLB_RSTn);
++	rtw_write8(Adapter, REG_SYS_FUNC_EN,value8 );//0x16		
++	
++	value8 &=( ~FEN_BB_GLB_RSTn );
++	rtw_write8(Adapter, REG_SYS_FUNC_EN, value8); //0x14		
++	
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("======> RF off and reset BB.\n"));
++}
++
++static VOID
++_ResetDigitalProcedure1(
++	IN 	PADAPTER			Adapter,
++	IN	BOOLEAN				bWithoutHWSM	
++	)
++{
++
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++
++	if(pHalData->FirmwareVersion <=  0x20){
++		#if 0
++		/*****************************
++		f.	SYS_FUNC_EN 0x03[7:0]=0x54		// reset MAC register, DCORE
++		g.	MCUFWDL 0x80[7:0]=0				// reset MCU ready status
++		******************************/
++		u4Byte	value32 = 0;
++		PlatformIOWrite1Byte(Adapter, REG_SYS_FUNC_EN+1, 0x54);
++		PlatformIOWrite1Byte(Adapter, REG_MCUFWDL, 0);	
++		#else
++		/*****************************
++		f.	MCUFWDL 0x80[7:0]=0				// reset MCU ready status
++		g.	SYS_FUNC_EN 0x02[10]= 0			// reset MCU register, (8051 reset)
++		h.	SYS_FUNC_EN 0x02[15-12]= 5		// reset MAC register, DCORE
++		i.     SYS_FUNC_EN 0x02[10]= 1			// enable MCU register, (8051 enable)
++		******************************/
++			u16 valu16 = 0;
++			rtw_write8(Adapter, REG_MCUFWDL, 0);
++
++			valu16 = rtw_read16(Adapter, REG_SYS_FUNC_EN);	
++			rtw_write16(Adapter, REG_SYS_FUNC_EN, (valu16 & (~FEN_CPUEN)));//reset MCU ,8051
++
++			valu16 = rtw_read16(Adapter, REG_SYS_FUNC_EN)&0x0FFF;	
++			rtw_write16(Adapter, REG_SYS_FUNC_EN, (valu16 |(FEN_HWPDN|FEN_ELDR)));//reset MAC
++			
++			#ifdef DBG_SHOW_MCUFWDL_BEFORE_51_ENABLE
++			{
++				u8 val;
++				if( (val=rtw_read8(Adapter, REG_MCUFWDL)))
++					DBG_871X("DBG_SHOW_MCUFWDL_BEFORE_51_ENABLE %s:%d REG_MCUFWDL:0x%02x\n", __FUNCTION__, __LINE__, val);
++			}
++			#endif
++
++			
++			valu16 = rtw_read16(Adapter, REG_SYS_FUNC_EN);	
++			rtw_write16(Adapter, REG_SYS_FUNC_EN, (valu16 | FEN_CPUEN));//enable MCU ,8051	
++
++		
++		#endif
++	}
++	else{
++		u8 retry_cnts = 0;	
++		
++		if(rtw_read8(Adapter, REG_MCUFWDL) & BIT1)
++		{ //IF fw in RAM code, do reset 
++
++			rtw_write8(Adapter, REG_MCUFWDL, 0);
++			if(Adapter->bFWReady){
++				// 2010/08/25 MH Accordign to RD alfred's suggestion, we need to disable other
++				// HRCV INT to influence 8051 reset.
++				rtw_write8(Adapter, REG_FWIMR, 0x20);
++				
++				rtw_write8(Adapter, REG_HMETFR+3, 0x20);//8051 reset by self
++
++				while( (retry_cnts++ <100) && (FEN_CPUEN &rtw_read16(Adapter, REG_SYS_FUNC_EN)))
++				{					
++					rtw_udelay_os(50);//PlatformStallExecution(50);//us
++				}
++
++				if(retry_cnts >= 100){
++					DBG_8192C("%s #####=> 8051 reset failed!.........................\n", __FUNCTION__);
++					// if 8051 reset fail we trigger GPIO 0 for LA
++					//PlatformEFIOWrite4Byte(	Adapter, 
++					//						REG_GPIO_PIN_CTRL, 
++					//						0x00010100);
++					// 2010/08/31 MH According to Filen's info, if 8051 reset fail, reset MAC directly.
++					rtw_write8(Adapter, REG_SYS_FUNC_EN+1, 0x50);	//Reset MAC and Enable 8051
++					rtw_mdelay_os(10);
++				}
++				else {
++					//DBG_871X("%s =====> 8051 reset success (%d) .\n", __FUNCTION__, retry_cnts);
++				}
++			}
++			else {
++				DBG_871X("%s =====> 8051 in RAM but !Adapter->bFWReady\n", __FUNCTION__);	
++			}
++		}
++		else{
++			//DBG_871X("%s =====> 8051 in ROM.\n", __FUNCTION__);
++		}	
++		
++		#ifdef DBG_SHOW_MCUFWDL_BEFORE_51_ENABLE
++		{
++			u8 val;
++			if( (val=rtw_read8(Adapter, REG_MCUFWDL)))
++				DBG_871X("DBG_SHOW_MCUFWDL_BEFORE_51_ENABLE %s:%d REG_MCUFWDL:0x%02x\n", __FUNCTION__, __LINE__, val);
++		}
++		#endif
++		
++		rtw_write8(Adapter, REG_SYS_FUNC_EN+1, 0x54);	//Reset MAC and Enable 8051
++	}
++
++	// Clear rpwm value for initial toggle bit trigger.
++	rtw_write8(Adapter, REG_USB_HRPWM, 0x00);
++
++	if(bWithoutHWSM){
++	/*****************************
++		Without HW auto state machine
++	g.	SYS_CLKR 0x08[15:0] = 0x30A3			//disable MAC clock
++	h.	AFE_PLL_CTRL 0x28[7:0] = 0x80			//disable AFE PLL
++	i.	AFE_XTAL_CTRL 0x24[15:0] = 0x880F		//gated AFE DIG_CLOCK
++	j.	SYS_ISO_CTRL 0x00[7:0] = 0xF9			// isolated digital to PON
++	******************************/	
++		//rtw_write16(Adapter, REG_SYS_CLKR, 0x30A3);
++		rtw_write16(Adapter, REG_SYS_CLKR, 0x70A3);//modify to 0x70A3 by Scott.
++		rtw_write8(Adapter, REG_AFE_PLL_CTRL, 0x80);		
++		rtw_write16(Adapter, REG_AFE_XTAL_CTRL, 0x880F);
++		rtw_write8(Adapter, REG_SYS_ISO_CTRL, 0xF9);		
++	}
++	else
++	{		
++		// Disable all RF/BB power 
++		rtw_write8(Adapter, REG_RF_CTRL, 0x00);
++	}
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("======> Reset Digital.\n"));
++
++}
++
++static VOID
++_ResetDigitalProcedure2(
++	IN 	PADAPTER			Adapter
++)
++{
++/*****************************
++k.	SYS_FUNC_EN 0x03[7:0] = 0x44			// disable ELDR runction
++l.	SYS_CLKR 0x08[15:0] = 0x3083			// disable ELDR clock
++m.	SYS_ISO_CTRL 0x01[7:0] = 0x83			// isolated ELDR to PON
++******************************/
++	//rtw_write8(Adapter, REG_SYS_FUNC_EN+1, 0x44);//marked by Scott.
++	//rtw_write16(Adapter, REG_SYS_CLKR, 0x3083);
++	//rtw_write8(Adapter, REG_SYS_ISO_CTRL+1, 0x83);
++
++ 	rtw_write16(Adapter, REG_SYS_CLKR, 0x70a3); //modify to 0x70a3 by Scott.
++ 	rtw_write8(Adapter, REG_SYS_ISO_CTRL+1, 0x82); //modify to 0x82 by Scott.
++}
++
++static VOID
++_DisableAnalog(
++	IN PADAPTER			Adapter,
++	IN BOOLEAN			bWithoutHWSM	
++	)
++{
++	u16 value16 = 0;
++	u8 value8=0;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	
++	if(bWithoutHWSM){
++	/*****************************
++	n.	LDOA15_CTRL 0x20[7:0] = 0x04		// disable A15 power
++	o.	LDOV12D_CTRL 0x21[7:0] = 0x54		// disable digital core power
++	r.	When driver call disable, the ASIC will turn off remaining clock automatically 
++	******************************/
++	
++		rtw_write8(Adapter, REG_LDOA15_CTRL, 0x04);
++		//PlatformIOWrite1Byte(Adapter, REG_LDOV12D_CTRL, 0x54);		
++		
++		value8 = rtw_read8(Adapter, REG_LDOV12D_CTRL);		
++		value8 &= (~LDV12_EN);
++		rtw_write8(Adapter, REG_LDOV12D_CTRL, value8);	
++		//RT_TRACE(COMP_INIT, DBG_LOUD, (" REG_LDOV12D_CTRL Reg0x21:0x%02x.\n",value8));
++	}
++	
++/*****************************
++h.	SPS0_CTRL 0x11[7:0] = 0x23			//enter PFM mode
++i.	APS_FSMCO 0x04[15:0] = 0x4802		// set USB suspend 
++******************************/	
++
++
++	value8 = 0x23;
++	if (IS_81xxC_VENDOR_UMC_B_CUT(pHalData->VersionID))
++		value8 |= BIT3;
++
++	rtw_write8(Adapter, REG_SPS0_CTRL, value8);
++
++
++	if(bWithoutHWSM)
++	{			
++		//value16 |= (APDM_HOST | /*AFSM_HSUS |*/PFM_ALDN);
++		// 2010/08/31 According to Filen description, we need to use HW to shut down 8051 automatically.
++		// Becasue suspend operatione need the asistance of 8051 to wait for 3ms.
++		value16 |= (APDM_HOST | AFSM_HSUS |PFM_ALDN);
++	}
++	else
++	{			
++		value16 |= (APDM_HOST | AFSM_HSUS |PFM_ALDN);
++	}
++
++	rtw_write16(Adapter, REG_APS_FSMCO,value16 );//0x4802 
++
++	rtw_write8(Adapter, REG_RSV_CTRL, 0x0e);
++
++ #if 0
++ 	//tynli_test for suspend mode.
++	if(!bWithoutHWSM){
++ 		rtw_write8(Adapter, 0xfe10, 0x19);
++	} 
++#endif
++
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("======> Disable Analog Reg0x04:0x%04x.\n",value16));
++}
++
++static int	
++CardDisableHWSM( // HW Auto state machine
++	IN	PADAPTER		Adapter,
++	IN	BOOLEAN			resetMCU
++	)
++{
++	int		rtStatus = _SUCCESS;
++	if(Adapter->bSurpriseRemoved){
++		return rtStatus;
++	}
++#if 1
++	//==== RF Off Sequence ====
++	_DisableRFAFEAndResetBB(Adapter);
++
++	//  ==== Reset digital sequence   ======
++	_ResetDigitalProcedure1(Adapter, _FALSE);
++	
++	//  ==== Pull GPIO PIN to balance level and LED control ======
++	_DisableGPIO(Adapter);
++
++	//  ==== Disable analog sequence ===
++	_DisableAnalog(Adapter, _FALSE);
++
++	RT_TRACE(_module_hci_hal_init_c_, _drv_info_, ("======> Card disable finished.\n"));
++#else
++	_DisableGPIO(Adapter);
++	
++	//reset FW download register
++	_ResetFWDownloadRegister(Adapter);
++
++
++	//disable RF/ AFE AD/DA
++	rtStatus = _DisableRF_AFE(Adapter);
++	if(RT_STATUS_SUCCESS != rtStatus){
++		RT_TRACE(COMP_INIT, DBG_SERIOUS, ("_DisableRF_AFE failed!\n"));
++		goto Exit;
++	}
++	_ResetBB(Adapter);
++
++	if(resetMCU){
++		_ResetMCU(Adapter);
++	}
++
++	_AutoPowerDownToHostOff(Adapter);
++	//_DisableMAC_AFE_PLL(Adapter);
++	
++	_SetUsbSuspend(Adapter);
++Exit:
++#endif
++	return rtStatus;
++	
++}
++
++static int	
++CardDisableWithoutHWSM( // without HW Auto state machine
++	IN	PADAPTER		Adapter	
++	)
++{
++	int		rtStatus = _SUCCESS;
++
++	if(Adapter->bSurpriseRemoved){
++		return rtStatus;
++	}
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("======> Card Disable Without HWSM .\n"));
++	//==== RF Off Sequence ====
++	_DisableRFAFEAndResetBB(Adapter);
++
++	//  ==== Reset digital sequence   ======
++	_ResetDigitalProcedure1(Adapter, _TRUE);
++
++	//  ==== Pull GPIO PIN to balance level and LED control ======
++	_DisableGPIO(Adapter);
++
++	//  ==== Reset digital sequence   ======
++	_ResetDigitalProcedure2(Adapter);
++
++	//  ==== Disable analog sequence ===
++	_DisableAnalog(Adapter, _TRUE);
++	//RT_TRACE(COMP_INIT, DBG_LOUD, ("<====== Card Disable Without HWSM .\n"));
++	return rtStatus;
++}
++
++static void rtl8192cu_hw_power_down(_adapter *padapter)
++{
++	// 2010/-8/09 MH For power down module, we need to enable register block contrl reg at 0x1c.
++	// Then enable power down control bit of register 0x04 BIT4 and BIT15 as 1.
++		
++	// Enable register area 0x0-0xc.
++	rtw_write8(padapter,REG_RSV_CTRL, 0x0);			
++	rtw_write16(padapter, REG_APS_FSMCO, 0x8812);
++}
++
++u32 rtl8192cu_hal_deinit(PADAPTER Adapter)
++ {
++
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++   	DBG_8192C("==> %s \n",__FUNCTION__);
++	// 2011/02/18 To Fix RU LNA  power leakage problem. We need to execute below below in
++	// Adapter init and halt sequence. Accordingto EEchou's opinion, we can enable the ability for all
++	// IC. Accord to johnny's opinion, only RU need the support.
++	if (IS_HARDWARE_TYPE_8192C(Adapter)  && (pHalData->BoardType == BOARD_USB_High_PA))
++		rtw_write32(Adapter, rFPGA0_XCD_RFParameter, rtw_read32(Adapter, rFPGA0_XCD_RFParameter)|BIT1);
++
++ #ifdef SUPPORT_HW_RFOFF_DETECTED
++ 	DBG_8192C("bkeepfwalive(%x)\n",Adapter->pwrctrlpriv.bkeepfwalive);
++ 	if(Adapter->pwrctrlpriv.bkeepfwalive)
++ 	{
++		_ps_close_RF(Adapter);		
++		if((Adapter->pwrctrlpriv.bHWPwrPindetect) && (Adapter->pwrctrlpriv.bHWPowerdown))		
++			rtl8192cu_hw_power_down(Adapter);
++ 	}
++	else
++#endif
++	{
++		if( Adapter->bCardDisableWOHSM == _FALSE)
++		{
++			DBG_8192C("card disble HWSM...........\n");
++			CardDisableHWSM(Adapter, _FALSE);
++		}
++		else
++		{
++			DBG_8192C("card disble without HWSM...........\n");
++			CardDisableWithoutHWSM(Adapter); // without HW Auto state machine		
++
++			if((Adapter->pwrctrlpriv.bHWPwrPindetect ) && (Adapter->pwrctrlpriv.bHWPowerdown))		
++				rtl8192cu_hw_power_down(Adapter);
++		}
++	}
++	
++	return _SUCCESS;
++ }
++
++
++unsigned int rtl8192cu_inirp_init(PADAPTER Adapter)
++{	
++	u8 i;	
++	struct recv_buf *precvbuf;
++	uint	status;
++	struct dvobj_priv *pdev = adapter_to_dvobj(Adapter);
++	struct intf_hdl * pintfhdl=&Adapter->iopriv.intf;
++	struct recv_priv *precvpriv = &(Adapter->recvpriv);
++	u32 (*_read_port)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++	u32 (*_read_interrupt)(struct intf_hdl *pintfhdl, u32 addr);
++#endif
++
++_func_enter_;
++
++	_read_port = pintfhdl->io_ops._read_port;
++
++	status = _SUCCESS;
++
++	RT_TRACE(_module_hci_hal_init_c_,_drv_info_,("===> usb_inirp_init \n"));	
++		
++	precvpriv->ff_hwaddr = RECV_BULK_IN_ADDR;
++
++	//issue Rx irp to receive data	
++	precvbuf = (struct recv_buf *)precvpriv->precv_buf;	
++	for(i=0; i<NR_RECVBUFF; i++)
++	{
++		if(_read_port(pintfhdl, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf) == _FALSE )
++		{
++			RT_TRACE(_module_hci_hal_init_c_,_drv_err_,("usb_rx_init: usb_read_port error \n"));
++			status = _FAIL;
++			goto exit;
++		}
++		
++		precvbuf++;		
++		precvpriv->free_recv_buf_queue_cnt--;
++	}
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++	_read_interrupt = pintfhdl->io_ops._read_interrupt;
++	if(_read_interrupt(pintfhdl, RECV_INT_IN_ADDR) == _FALSE )
++	{
++		RT_TRACE(_module_hci_hal_init_c_,_drv_err_,("usb_rx_init: usb_read_interrupt error \n"));
++		status = _FAIL;
++	}
++#endif
++
++exit:
++	
++	RT_TRACE(_module_hci_hal_init_c_,_drv_info_,("<=== usb_inirp_init \n"));
++
++_func_exit_;
++
++	return status;
++
++}
++
++unsigned int rtl8192cu_inirp_deinit(PADAPTER Adapter)
++{	
++	RT_TRACE(_module_hci_hal_init_c_,_drv_info_,("\n ===> usb_rx_deinit \n"));
++	
++	rtw_read_port_cancel(Adapter);
++
++	RT_TRACE(_module_hci_hal_init_c_,_drv_info_,("\n <=== usb_rx_deinit \n"));
++
++	return _SUCCESS;
++}
++
++
++//-------------------------------------------------------------------------
++//
++//	EEPROM Power index mapping
++//
++//-------------------------------------------------------------------------
++
++ static VOID
++_ReadPowerValueFromPROM(
++	IN	PTxPowerInfo	pwrInfo,
++	IN	u8*			PROMContent,
++	IN	BOOLEAN			AutoLoadFail
++	)
++{
++	u32 rfPath, eeAddr, group;
++
++	_rtw_memset(pwrInfo, 0, sizeof(TxPowerInfo));
++
++	if(AutoLoadFail){		
++		for(group = 0 ; group < CHANNEL_GROUP_MAX ; group++){
++			for(rfPath = 0 ; rfPath < RF_PATH_MAX ; rfPath++){
++				pwrInfo->CCKIndex[rfPath][group]		= EEPROM_Default_TxPowerLevel;	
++				pwrInfo->HT40_1SIndex[rfPath][group]	= EEPROM_Default_TxPowerLevel;
++				pwrInfo->HT40_2SIndexDiff[rfPath][group]= EEPROM_Default_HT40_2SDiff;
++				pwrInfo->HT20IndexDiff[rfPath][group]	= EEPROM_Default_HT20_Diff;
++				pwrInfo->OFDMIndexDiff[rfPath][group]	= EEPROM_Default_LegacyHTTxPowerDiff;
++				pwrInfo->HT40MaxOffset[rfPath][group]	= EEPROM_Default_HT40_PwrMaxOffset;		
++				pwrInfo->HT20MaxOffset[rfPath][group]	= EEPROM_Default_HT20_PwrMaxOffset;
++			}
++		}
++
++		pwrInfo->TSSI_A = EEPROM_Default_TSSI;
++		pwrInfo->TSSI_B = EEPROM_Default_TSSI;
++		
++		return;
++	}
++	
++	for(rfPath = 0 ; rfPath < RF_PATH_MAX ; rfPath++){
++		for(group = 0 ; group < CHANNEL_GROUP_MAX ; group++){
++			eeAddr = EEPROM_CCK_TX_PWR_INX + (rfPath * 3) + group;
++			pwrInfo->CCKIndex[rfPath][group] = PROMContent[eeAddr];
++
++			eeAddr = EEPROM_HT40_1S_TX_PWR_INX + (rfPath * 3) + group;
++			pwrInfo->HT40_1SIndex[rfPath][group] = PROMContent[eeAddr];
++		}
++	}
++
++	for(group = 0 ; group < CHANNEL_GROUP_MAX ; group++){
++		for(rfPath = 0 ; rfPath < RF_PATH_MAX ; rfPath++){
++			pwrInfo->HT40_2SIndexDiff[rfPath][group] = 
++			(PROMContent[EEPROM_HT40_2S_TX_PWR_INX_DIFF + group] >> (rfPath * 4)) & 0xF;
++
++#if 1
++			pwrInfo->HT20IndexDiff[rfPath][group] =
++			(PROMContent[EEPROM_HT20_TX_PWR_INX_DIFF + group] >> (rfPath * 4)) & 0xF;
++			if(pwrInfo->HT20IndexDiff[rfPath][group] & BIT3)	//4bit sign number to 8 bit sign number
++				pwrInfo->HT20IndexDiff[rfPath][group] |= 0xF0;
++#else
++			pwrInfo->HT20IndexDiff[rfPath][group] =
++			(PROMContent[EEPROM_HT20_TX_PWR_INX_DIFF + group] >> (rfPath * 4)) & 0xF;
++#endif
++
++			pwrInfo->OFDMIndexDiff[rfPath][group] =
++			(PROMContent[EEPROM_OFDM_TX_PWR_INX_DIFF+ group] >> (rfPath * 4)) & 0xF;
++
++			pwrInfo->HT40MaxOffset[rfPath][group] =
++			(PROMContent[EEPROM_HT40_MAX_PWR_OFFSET+ group] >> (rfPath * 4)) & 0xF;
++
++			pwrInfo->HT20MaxOffset[rfPath][group] =
++			(PROMContent[EEPROM_HT20_MAX_PWR_OFFSET+ group] >> (rfPath * 4)) & 0xF;
++		}
++	}
++
++	pwrInfo->TSSI_A = PROMContent[EEPROM_TSSI_A];
++	pwrInfo->TSSI_B = PROMContent[EEPROM_TSSI_B];
++
++}
++
++
++static u32
++_GetChannelGroup(
++	IN	u32	channel
++	)
++{
++	//RT_ASSERT((channel < 14), ("Channel %d no is supported!\n"));
++
++	if(channel < 3){ 	// Channel 1~3
++		return 0;
++	}
++	else if(channel < 9){ // Channel 4~9
++		return 1;
++	}
++
++	return 2;				// Channel 10~14	
++}
++
++
++static VOID
++ReadTxPowerInfo(
++	IN	PADAPTER 		Adapter,
++	IN	u8*			PROMContent,
++	IN	BOOLEAN			AutoLoadFail
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	TxPowerInfo		pwrInfo;
++	u32			rfPath, ch, group;
++	u8			pwr, diff;
++
++	_ReadPowerValueFromPROM(&pwrInfo, PROMContent, AutoLoadFail);
++
++	if(!AutoLoadFail)
++		pHalData->bTXPowerDataReadFromEEPORM = _TRUE;
++
++	for(rfPath = 0 ; rfPath < RF_PATH_MAX ; rfPath++){
++		for(ch = 0 ; ch < CHANNEL_MAX_NUMBER ; ch++){
++			group = _GetChannelGroup(ch);
++
++			pHalData->TxPwrLevelCck[rfPath][ch]		= pwrInfo.CCKIndex[rfPath][group];
++			pHalData->TxPwrLevelHT40_1S[rfPath][ch]	= pwrInfo.HT40_1SIndex[rfPath][group];
++
++			pHalData->TxPwrHt20Diff[rfPath][ch]		= pwrInfo.HT20IndexDiff[rfPath][group];
++			pHalData->TxPwrLegacyHtDiff[rfPath][ch]	= pwrInfo.OFDMIndexDiff[rfPath][group];
++			pHalData->PwrGroupHT20[rfPath][ch]		= pwrInfo.HT20MaxOffset[rfPath][group];
++			pHalData->PwrGroupHT40[rfPath][ch]		= pwrInfo.HT40MaxOffset[rfPath][group];
++
++			pwr		= pwrInfo.HT40_1SIndex[rfPath][group];
++			diff	= pwrInfo.HT40_2SIndexDiff[rfPath][group];
++
++			pHalData->TxPwrLevelHT40_2S[rfPath][ch]  = (pwr > diff) ? (pwr - diff) : 0;
++		}
++	}
++
++#if DBG
++
++	for(rfPath = 0 ; rfPath < RF_PATH_MAX ; rfPath++){
++		for(ch = 0 ; ch < CHANNEL_MAX_NUMBER ; ch++){
++			RTPRINT(FINIT, INIT_TxPower, 
++				("RF(%d)-Ch(%d) [CCK / HT40_1S / HT40_2S] = [0x%x / 0x%x / 0x%x]\n", 
++				rfPath, ch, pHalData->TxPwrLevelCck[rfPath][ch], 
++				pHalData->TxPwrLevelHT40_1S[rfPath][ch], 
++				pHalData->TxPwrLevelHT40_2S[rfPath][ch]));
++
++		}
++	}
++
++	for(ch = 0 ; ch < CHANNEL_MAX_NUMBER ; ch++){
++		RTPRINT(FINIT, INIT_TxPower, ("RF-A Ht20 to HT40 Diff[%d] = 0x%x\n", ch, pHalData->TxPwrHt20Diff[RF_PATH_A][ch]));
++	}
++
++	for(ch = 0 ; ch < CHANNEL_MAX_NUMBER ; ch++){
++		RTPRINT(FINIT, INIT_TxPower, ("RF-A Legacy to Ht40 Diff[%d] = 0x%x\n", ch, pHalData->TxPwrLegacyHtDiff[RF_PATH_A][ch]));
++	}
++	
++	for(ch = 0 ; ch < CHANNEL_MAX_NUMBER ; ch++){
++		RTPRINT(FINIT, INIT_TxPower, ("RF-B Ht20 to HT40 Diff[%d] = 0x%x\n", ch, pHalData->TxPwrHt20Diff[RF_PATH_B][ch]));
++	}
++	
++	for(ch = 0 ; ch < CHANNEL_MAX_NUMBER ; ch++){
++		RTPRINT(FINIT, INIT_TxPower, ("RF-B Legacy to HT40 Diff[%d] = 0x%x\n", ch, pHalData->TxPwrLegacyHtDiff[RF_PATH_B][ch]));
++	}
++	
++#endif
++	// 2010/10/19 MH Add Regulator recognize for CU.
++	if(!AutoLoadFail)
++	{
++		pHalData->EEPROMRegulatory = (PROMContent[RF_OPTION1]&0x7);	//bit0~2
++	}
++	else
++	{
++		pHalData->EEPROMRegulatory = 0;
++	}
++	DBG_8192C("EEPROMRegulatory = 0x%x\n", pHalData->EEPROMRegulatory);
++
++}
++
++
++//-------------------------------------------------------------------
++//
++//	EEPROM/EFUSE Content Parsing
++//
++//-------------------------------------------------------------------
++static void
++_ReadIDs(
++	IN	PADAPTER	Adapter,
++	IN	u8*		PROMContent,
++	IN	BOOLEAN		AutoloadFail
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	if(_FALSE == AutoloadFail){
++		// VID, PID 
++		pHalData->EEPROMVID = le16_to_cpu( *(u16 *)&PROMContent[EEPROM_VID]);
++		pHalData->EEPROMPID = le16_to_cpu( *(u16 *)&PROMContent[EEPROM_PID]);
++		
++		// Customer ID, 0x00 and 0xff are reserved for Realtek. 		
++		pHalData->EEPROMCustomerID = *(u8 *)&PROMContent[EEPROM_CUSTOMER_ID];
++		pHalData->EEPROMSubCustomerID = *(u8 *)&PROMContent[EEPROM_SUBCUSTOMER_ID];
++
++	}
++	else{
++		pHalData->EEPROMVID	 = EEPROM_Default_VID;
++		pHalData->EEPROMPID	 = EEPROM_Default_PID;
++
++		// Customer ID, 0x00 and 0xff are reserved for Realtek. 		
++		pHalData->EEPROMCustomerID	= EEPROM_Default_CustomerID;
++		pHalData->EEPROMSubCustomerID = EEPROM_Default_SubCustomerID;
++
++	}
++
++	// For customized behavior.
++	if((pHalData->EEPROMVID == 0x103C) && (pHalData->EEPROMVID == 0x1629))// HP Lite-On for RTL8188CUS Slim Combo.
++		pHalData->CustomerID = RT_CID_819x_HP;
++
++	//	Decide CustomerID according to VID/DID or EEPROM
++	switch(pHalData->EEPROMCustomerID)
++	{
++		case EEPROM_CID_DEFAULT:
++			if((pHalData->EEPROMVID == 0x2001) && (pHalData->EEPROMPID == 0x3308))
++				pHalData->CustomerID = RT_CID_DLINK;
++			else if((pHalData->EEPROMVID == 0x2001) && (pHalData->EEPROMPID == 0x3309))
++				pHalData->CustomerID = RT_CID_DLINK;
++			else if((pHalData->EEPROMVID == 0x2001) && (pHalData->EEPROMPID == 0x330a))
++				pHalData->CustomerID = RT_CID_DLINK;
++			break;
++		case EEPROM_CID_WHQL:
++/*			
++			Adapter->bInHctTest = TRUE;
++
++			pMgntInfo->bSupportTurboMode = FALSE;
++			pMgntInfo->bAutoTurboBy8186 = FALSE;
++
++			pMgntInfo->PowerSaveControl.bInactivePs = FALSE;
++			pMgntInfo->PowerSaveControl.bIPSModeBackup = FALSE;
++			pMgntInfo->PowerSaveControl.bLeisurePs = FALSE;
++				
++			pMgntInfo->keepAliveLevel = 0;
++
++			Adapter->bUnloadDriverwhenS3S4 = FALSE;
++*/				
++			break;
++		default:
++			pHalData->CustomerID = RT_CID_DEFAULT;
++			break;
++			
++	}
++
++	MSG_8192C("EEPROMVID = 0x%04x\n", pHalData->EEPROMVID);
++	MSG_8192C("EEPROMPID = 0x%04x\n", pHalData->EEPROMPID);
++	MSG_8192C("EEPROMCustomerID : 0x%02x\n", pHalData->EEPROMCustomerID);
++	MSG_8192C("EEPROMSubCustomerID: 0x%02x\n", pHalData->EEPROMSubCustomerID);
++
++	MSG_8192C("RT_CustomerID: 0x%02x\n", pHalData->CustomerID);
++
++}
++
++
++static VOID
++_ReadMACAddress(
++	IN	PADAPTER	Adapter,	
++	IN	u8*		PROMContent,
++	IN	BOOLEAN		AutoloadFail
++	)
++{
++	EEPROM_EFUSE_PRIV *pEEPROM = GET_EEPROM_EFUSE_PRIV(Adapter);
++
++	if(_FALSE == AutoloadFail){
++		//Read Permanent MAC address and set value to hardware
++		_rtw_memcpy(pEEPROM->mac_addr, &PROMContent[EEPROM_MAC_ADDR], ETH_ALEN);		
++	}
++	else{
++		//Random assigh MAC address
++		u8 sMacAddr[MAC_ADDR_LEN] = {0x00, 0xE0, 0x4C, 0x81, 0x92, 0x00};
++		//sMacAddr[5] = (u8)GetRandomNumber(1, 254);		
++		_rtw_memcpy(pEEPROM->mac_addr, sMacAddr, ETH_ALEN);	
++	}
++	DBG_8192C("%s MAC Address from EFUSE = "MAC_FMT"\n",__FUNCTION__, MAC_ARG(pEEPROM->mac_addr));
++	//NicIFSetMacAddress(Adapter, Adapter->PermanentAddress);
++	//RT_PRINT_ADDR(COMP_INIT|COMP_EFUSE, DBG_LOUD, "MAC Addr: %s", Adapter->PermanentAddress);
++
++}
++
++static VOID
++_ReadBoardType(
++	IN	PADAPTER	Adapter,	
++	IN	u8*		PROMContent,
++	IN	BOOLEAN		AutoloadFail
++	)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	u32			value32;
++	u8			boardType = BOARD_USB_DONGLE;
++
++	if(AutoloadFail){
++		if(IS_8723_SERIES(pHalData->VersionID))
++			pHalData->rf_type = RF_1T1R;
++		else
++		        pHalData->rf_type = RF_2T2R;
++
++		pHalData->BluetoothCoexist = _FALSE;
++		pHalData->BoardType = boardType;
++		return;
++	}
++
++	boardType = PROMContent[EEPROM_NORMAL_BoardType];
++	boardType &= BOARD_TYPE_NORMAL_MASK;//bit[7:5]
++	boardType >>= 5;
++
++	pHalData->BoardType = boardType;
++	MSG_8192C("_ReadBoardType(%x)\n",pHalData->BoardType);
++
++	if (boardType == BOARD_USB_High_PA)
++		pHalData->ExternalPA = 1;
++}
++
++
++static VOID
++_ReadLEDSetting(
++	IN	PADAPTER	Adapter,	
++	IN	u8*		PROMContent,
++	IN	BOOLEAN		AutoloadFail
++	)
++{
++	struct led_priv *pledpriv = &(Adapter->ledpriv);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++#ifdef CONFIG_SW_LED
++	pledpriv->bRegUseLed = _TRUE;
++
++	//
++	// Led mode
++	//
++	switch(pHalData->CustomerID)
++	{
++		case RT_CID_DEFAULT:
++			pledpriv->LedStrategy = SW_LED_MODE1;
++			pledpriv->bRegUseLed = _TRUE;
++			break;
++
++		case RT_CID_819x_HP:
++			pledpriv->LedStrategy = SW_LED_MODE6;
++			break;
++
++		default:
++			pledpriv->LedStrategy = SW_LED_MODE1;
++			break;
++	}
++
++	if( BOARD_MINICARD == pHalData->BoardType )
++	{
++		pledpriv->LedStrategy = SW_LED_MODE6;
++	}
++	pHalData->bLedOpenDrain = _TRUE;// Support Open-drain arrangement for controlling the LED. Added by Roger, 2009.10.16.
++#else // HW LED
++	pledpriv->LedStrategy = HW_LED;
++#endif //CONFIG_SW_LED
++}
++
++static VOID
++_ReadThermalMeter(
++	IN	PADAPTER	Adapter,	
++	IN	u8* 	PROMContent,
++	IN	BOOLEAN 	AutoloadFail
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	u8	tempval;
++
++	//
++	// ThermalMeter from EEPROM
++	//
++	if(!AutoloadFail)	
++		tempval = PROMContent[EEPROM_THERMAL_METER];
++	else
++		tempval = EEPROM_Default_ThermalMeter;
++	
++	pHalData->EEPROMThermalMeter = (tempval&0x1f);	//[4:0]
++
++	if(pHalData->EEPROMThermalMeter == 0x1f || AutoloadFail)
++		pdmpriv->bAPKThermalMeterIgnore = _TRUE;
++
++#if 0
++	if(pHalData->EEPROMThermalMeter < 0x06 || pHalData->EEPROMThermalMeter > 0x1c)
++		pHalData->EEPROMThermalMeter = 0x12;
++#endif
++
++	pdmpriv->ThermalMeter[0] = pHalData->EEPROMThermalMeter;
++	
++	//RTPRINT(FINIT, INIT_TxPower, ("ThermalMeter = 0x%x\n", pHalData->EEPROMThermalMeter));
++	
++}
++
++static VOID
++_ReadRFSetting(
++	IN	PADAPTER	Adapter,	
++	IN	u8* 	PROMContent,
++	IN	BOOLEAN 	AutoloadFail
++	)
++{
++}
++
++static void
++_ReadPROMVersion(
++	IN	PADAPTER	Adapter,	
++	IN	u8* 	PROMContent,
++	IN	BOOLEAN 	AutoloadFail
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	if(AutoloadFail){
++		pHalData->EEPROMVersion = EEPROM_Default_Version;		
++	}
++	else{
++		pHalData->EEPROMVersion = *(u8 *)&PROMContent[EEPROM_VERSION];
++	}
++}
++
++static VOID
++readAntennaDiversity(
++	IN	PADAPTER	pAdapter,
++	IN	u8			*hwinfo,
++	IN	BOOLEAN		AutoLoadFail
++	)
++{
++
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	struct registry_priv	*registry_par = &pAdapter->registrypriv;
++
++	if(!AutoLoadFail)
++	{
++		// Antenna Diversity setting. 
++		if(registry_par->antdiv_cfg == 2) // 2: From Efuse
++			pHalData->AntDivCfg = (hwinfo[EEPROM_RF_OPT1]&0x18)>>3;
++		else
++			pHalData->AntDivCfg = registry_par->antdiv_cfg ;  // 0:OFF , 1:ON,
++
++		DBG_8192C("### AntDivCfg(%x)\n",pHalData->AntDivCfg);	
++
++		//if(pHalData->EEPROMBluetoothCoexist!=0 && pHalData->EEPROMBluetoothAntNum==Ant_x1)
++		//	pHalData->AntDivCfg = 0;
++	}
++	else
++	{
++		pHalData->AntDivCfg = 0;
++	}
++
++}
++
++static VOID
++hal_InitPGData(
++	IN	PADAPTER	pAdapter,
++	IN	OUT	u8		*PROMContent
++	)
++{
++	EEPROM_EFUSE_PRIV *pEEPROM = GET_EEPROM_EFUSE_PRIV(pAdapter);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u32	i;
++	u16	value16;
++
++	if(_FALSE == pEEPROM->bautoload_fail_flag)
++	{ // autoload OK.
++		if (_TRUE == pEEPROM->EepromOrEfuse)
++		{
++			// Read all Content from EEPROM or EFUSE.
++			for(i = 0; i < HWSET_MAX_SIZE; i += 2)
++			{
++				//value16 = EF2Byte(ReadEEprom(pAdapter, (u2Byte) (i>>1)));
++				//*((u16 *)(&PROMContent[i])) = value16; 				
++			}
++		}
++		else
++		{
++			// Read EFUSE real map to shadow.
++			EFUSE_ShadowMapUpdate(pAdapter, EFUSE_WIFI, _FALSE);
++			_rtw_memcpy((void*)PROMContent, (void*)pEEPROM->efuse_eeprom_data, HWSET_MAX_SIZE);
++		}
++	}
++	else
++	{//autoload fail
++		//RT_TRACE(COMP_INIT, DBG_LOUD, ("AutoLoad Fail reported from CR9346!!\n")); 
++		pEEPROM->bautoload_fail_flag = _TRUE;
++		//update to default value 0xFF
++		if (_FALSE == pEEPROM->EepromOrEfuse)		
++		EFUSE_ShadowMapUpdate(pAdapter, EFUSE_WIFI, _FALSE);	
++	}
++}
++// Read HW power down mode selection 
++static void _ReadPSSetting(IN PADAPTER Adapter,IN u8*PROMContent,IN u8	AutoloadFail)
++{
++	if(AutoloadFail){
++		Adapter->pwrctrlpriv.bHWPowerdown = _FALSE;
++		Adapter->pwrctrlpriv.bSupportRemoteWakeup = _FALSE;
++	}
++	else	{
++		//if(SUPPORT_HW_RADIO_DETECT(Adapter))
++			Adapter->pwrctrlpriv.bHWPwrPindetect = Adapter->registrypriv.hwpwrp_detect;
++		//else
++			//Adapter->pwrctrlpriv.bHWPwrPindetect = _FALSE;//dongle not support new
++			
++			
++		//hw power down mode selection , 0:rf-off / 1:power down
++
++		if(Adapter->registrypriv.hwpdn_mode==2)
++			Adapter->pwrctrlpriv.bHWPowerdown = (PROMContent[EEPROM_RF_OPT3] & BIT4);
++		else
++			Adapter->pwrctrlpriv.bHWPowerdown = Adapter->registrypriv.hwpdn_mode;
++#ifdef CONFIG_WOWLAN			
++		// decide hw if support remote wakeup function
++		// if hw supported, 8051 (SIE) will generate WeakUP signal( D+/D- toggle) when autoresume
++		Adapter->pwrctrlpriv.bSupportRemoteWakeup = (PROMContent[EEPROM_TEST_USB_OPT] & BIT1)?_TRUE :_FALSE;
++#endif //CONFIG_WOWLAN
++
++		//if(SUPPORT_HW_RADIO_DETECT(Adapter))	
++			//Adapter->registrypriv.usbss_enable = Adapter->pwrctrlpriv.bSupportRemoteWakeup ;
++		
++		DBG_8192C("%s...bHWPwrPindetect(%x)-bHWPowerdown(%x) ,bSupportRemoteWakeup(%x)\n",__FUNCTION__,
++		Adapter->pwrctrlpriv.bHWPwrPindetect,Adapter->pwrctrlpriv.bHWPowerdown ,Adapter->pwrctrlpriv.bSupportRemoteWakeup);
++
++		DBG_8192C("### PS params=>  power_mgnt(%x),usbss_enable(%x) ###\n",Adapter->registrypriv.power_mgnt,Adapter->registrypriv.usbss_enable);
++		
++	}
++	
++}
++
++static VOID
++readAdapterInfo_8192CU(
++	IN	PADAPTER	Adapter
++	)
++{
++	EEPROM_EFUSE_PRIV *pEEPROM = GET_EEPROM_EFUSE_PRIV(Adapter);
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(Adapter);
++	u8	PROMContent[HWSET_MAX_SIZE]={0};
++
++	hal_InitPGData(Adapter, PROMContent);
++	rtl8192c_EfuseParseIDCode(Adapter, PROMContent);
++	
++	_ReadPROMVersion(Adapter, PROMContent, pEEPROM->bautoload_fail_flag);
++	_ReadIDs(Adapter, PROMContent, pEEPROM->bautoload_fail_flag);
++	_ReadMACAddress(Adapter, PROMContent, pEEPROM->bautoload_fail_flag);	
++	ReadTxPowerInfo(Adapter, PROMContent, pEEPROM->bautoload_fail_flag);
++	_ReadBoardType(Adapter, PROMContent, pEEPROM->bautoload_fail_flag);
++
++#ifdef CONFIG_BT_COEXIST
++	//
++	// Read Bluetooth co-exist and initialize
++	//
++	rtl8192c_ReadBluetoothCoexistInfo(Adapter, PROMContent, pEEPROM->bautoload_fail_flag);
++#endif
++	
++	rtl8192c_EfuseParseChnlPlan(Adapter, PROMContent, pEEPROM->bautoload_fail_flag);
++	_ReadThermalMeter(Adapter, PROMContent, pEEPROM->bautoload_fail_flag);
++	_ReadLEDSetting(Adapter, PROMContent, pEEPROM->bautoload_fail_flag);	
++	_ReadRFSetting(Adapter, PROMContent, pEEPROM->bautoload_fail_flag);
++	_ReadPSSetting(Adapter, PROMContent, pEEPROM->bautoload_fail_flag);
++	readAntennaDiversity(Adapter, PROMContent, pEEPROM->bautoload_fail_flag);
++
++	//hal_CustomizedBehavior_8723U(Adapter);
++
++	Adapter->bDongle = (PROMContent[EEPROM_EASY_REPLACEMENT] == 1)? 0: 1;
++	DBG_8192C("%s(): REPLACEMENT = %x\n",__FUNCTION__,Adapter->bDongle);
++#ifdef CONFIG_INTEL_PROXIM	
++		/* for intel proximity */
++	if (pHalData->rf_type== RF_1T1R) {
++		Adapter->proximity.proxim_support = _TRUE;
++	} else if (pHalData->rf_type== RF_2T2R) {
++		if ((pHalData->EEPROMPID == 0x8186) &&
++			(pHalData->EEPROMVID== 0x0bda))
++		Adapter->proximity.proxim_support = _TRUE;
++	} else {
++		Adapter->proximity.proxim_support = _FALSE;
++	}
++#endif //CONFIG_INTEL_PROXIM		
++}
++
++static void _ReadPROMContent(
++	IN PADAPTER 		Adapter
++	)
++{	
++	EEPROM_EFUSE_PRIV *pEEPROM = GET_EEPROM_EFUSE_PRIV(Adapter);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u8			PROMContent[HWSET_MAX_SIZE]={0};
++	u8			eeValue;
++	u32			i;
++	u16			value16;
++
++	eeValue = rtw_read8(Adapter, REG_9346CR);
++	// To check system boot selection.
++	pEEPROM->EepromOrEfuse		= (eeValue & BOOT_FROM_EEPROM) ? _TRUE : _FALSE;
++	pEEPROM->bautoload_fail_flag	= (eeValue & EEPROM_EN) ? _FALSE : _TRUE;
++
++
++	DBG_8192C("Boot from %s, Autoload %s !\n", (pEEPROM->EepromOrEfuse ? "EEPROM" : "EFUSE"),
++				(pEEPROM->bautoload_fail_flag ? "Fail" : "OK") );
++
++	//pHalData->EEType = IS_BOOT_FROM_EEPROM(Adapter) ? EEPROM_93C46 : EEPROM_BOOT_EFUSE;
++
++	//if(IS_HARDWARE_TYPE_8723A(Adapter))
++	//	readAdapterInfo_8723U(Adapter);
++	//else
++		readAdapterInfo_8192CU(Adapter);
++}
++
++
++static VOID
++_InitOtherVariable(
++	IN PADAPTER 		Adapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);	
++
++
++	//if(Adapter->bInHctTest){
++	//	pMgntInfo->PowerSaveControl.bInactivePs = FALSE;
++	//	pMgntInfo->PowerSaveControl.bIPSModeBackup = FALSE;
++	//	pMgntInfo->PowerSaveControl.bLeisurePs = FALSE;
++	//	pMgntInfo->keepAliveLevel = 0;
++	//}
++
++	// 2009/06/10 MH For 92S 1*1=1R/ 1*2&2*2 use 2R. We default set 1*1 use radio A
++	// So if you want to use radio B. Please modify RF path enable bit for correct signal
++	// strength calculate.
++	if (pHalData->rf_type == RF_1T1R){
++		pHalData->bRFPathRxEnable[0] = _TRUE;
++	}
++	else{
++		pHalData->bRFPathRxEnable[0] = pHalData->bRFPathRxEnable[1] = _TRUE;
++	}
++
++}
++
++static VOID
++_ReadRFType(
++	IN	PADAPTER	Adapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++#if DISABLE_BB_RF
++	pHalData->rf_chip = RF_PSEUDO_11N;
++#else
++	pHalData->rf_chip = RF_6052;
++#endif
++}
++
++void _ReadSilmComboMode(PADAPTER Adapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	pHalData->SlimComboDbg = _FALSE;	// Default is not debug mode.
++
++	// 2010/11/22 MH We need to enter debug mode for TSMA and UMC A cut
++	if ((Adapter->chip_type == RTL8188C_8192C) && 
++		(pHalData->BoardType == BOARD_USB_COMBO))
++	{			
++		switch (pHalData->VersionID)
++		{
++			case	VERSION_NORMAL_TSMC_CHIP_88C:
++			case	VERSION_NORMAL_TSMC_CHIP_92C:
++			case	VERSION_NORMAL_TSMC_CHIP_92C_1T2R:
++			case	VERSION_NORMAL_UMC_CHIP_88C_A_CUT:
++			case	VERSION_NORMAL_UMC_CHIP_92C_A_CUT:
++			case	VERSION_NORMAL_UMC_CHIP_92C_1T2R_A_CUT:
++				if ((rtw_read8(Adapter, REG_SYS_CFG+3) &0xF0) == 0x20)
++					pHalData->SlimComboDbg = _TRUE;
++				
++				break;
++
++			case	VERSION_NORMAL_UMC_CHIP_88C_B_CUT:
++			case	VERSION_NORMAL_UMC_CHIP_92C_B_CUT:
++			case	VERSION_NORMAL_UMC_CHIP_92C_1T2R_B_CUT:
++				// 2011/02/15 MH UNC-B cut ECO fail, we need to support slim combo debug mode.
++				if ((rtw_read8(Adapter, REG_SYS_CFG+3) &0xF0) == 0x20)
++					pHalData->SlimComboDbg = _TRUE;
++				break;
++				
++			default:
++				break;
++		}		
++		
++	}
++	
++}
++static int _ReadAdapterInfo8192CU(PADAPTER	Adapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u32 start=rtw_get_current_time();
++	
++	MSG_8192C("====> ReadAdapterInfo8192C\n");
++
++	//Efuse_InitSomeVar(Adapter);
++
++	//if(IS_HARDWARE_TYPE_8723A(Adapter))
++	//	_EfuseCellSel(Adapter);
++
++	_ReadRFType(Adapter);//rf_chip -> _InitRFType()
++	_ReadPROMContent(Adapter);
++
++	// 2010/10/25 MH THe function must be called after borad_type & IC-Version recognize.
++	_ReadSilmComboMode(Adapter);
++
++	_InitOtherVariable(Adapter);
++
++	//MSG_8192C("%s()(done), rf_chip=0x%x, rf_type=0x%x\n",  __FUNCTION__, pHalData->rf_chip, pHalData->rf_type);
++
++	MSG_8192C("<==== ReadAdapterInfo8192C in %d ms\n", rtw_get_passing_time_ms(start));
++
++	return _SUCCESS;
++}
++
++
++static void ReadAdapterInfo8192CU(PADAPTER Adapter)
++{
++	// Read EEPROM size before call any EEPROM function
++	//Adapter->EepromAddressSize=Adapter->HalFunc.GetEEPROMSizeHandler(Adapter);
++	Adapter->EepromAddressSize = GetEEPROMSize8192C(Adapter);
++	
++	_ReadAdapterInfo8192CU(Adapter);
++}
++
++
++#define GPIO_DEBUG_PORT_NUM 0
++static void rtl8192cu_trigger_gpio_0(_adapter *padapter)
++{
++
++	u32 gpioctrl;
++	DBG_8192C("==> trigger_gpio_0...\n");
++	rtw_write16_async(padapter,REG_GPIO_PIN_CTRL,0);
++	rtw_write8_async(padapter,REG_GPIO_PIN_CTRL+2,0xFF);
++	gpioctrl = (BIT(GPIO_DEBUG_PORT_NUM)<<24 )|(BIT(GPIO_DEBUG_PORT_NUM)<<16);
++	rtw_write32_async(padapter,REG_GPIO_PIN_CTRL,gpioctrl);
++	gpioctrl |= (BIT(GPIO_DEBUG_PORT_NUM)<<8);
++	rtw_write32_async(padapter,REG_GPIO_PIN_CTRL,gpioctrl);
++	DBG_8192C("<=== trigger_gpio_0...\n");
++
++}
++
++static void ResumeTxBeacon(_adapter *padapter)
++{
++	HAL_DATA_TYPE*	pHalData = GET_HAL_DATA(padapter);	
++
++	// 2010.03.01. Marked by tynli. No need to call workitem beacause we record the value
++	// which should be read from register to a global variable.
++
++	rtw_write8(padapter, REG_FWHW_TXQ_CTRL+2, (pHalData->RegFwHwTxQCtrl) | BIT6);
++	pHalData->RegFwHwTxQCtrl |= BIT6;	 
++}
++
++static void StopTxBeacon(_adapter *padapter)
++{
++	HAL_DATA_TYPE*	pHalData = GET_HAL_DATA(padapter);
++
++	// 2010.03.01. Marked by tynli. No need to call workitem beacause we record the value
++	// which should be read from register to a global variable.
++
++	rtw_write8(padapter, REG_FWHW_TXQ_CTRL+2, (pHalData->RegFwHwTxQCtrl) & (~BIT6));
++	pHalData->RegFwHwTxQCtrl &= (~BIT6);
++
++	 //todo: CheckFwRsvdPageContent(Adapter);  // 2010.06.23. Added by tynli.
++
++}
++
++u16 CRC16(u8 data,u16 CRC)
++{
++	unsigned char shift_in,CRC_BIT15,DataBit,CRC_BIT11,CRC_BIT4 ;
++	int index;
++	unsigned short CRC_Result;
++
++	for(index=0;index<8;index++)
++	{
++		CRC_BIT15=((CRC&BIT15) ? 1:0);
++		DataBit  =(data&(BIT0<<index) ? 1:0);
++		shift_in=CRC_BIT15^DataBit;
++		//printf("CRC_BIT15=%d, DataBit=%d, shift_in=%d \n",CRC_BIT15,DataBit,shift_in);
++		
++		CRC_Result=CRC<<1;
++		//set BIT0 
++		//	printf("CRC =%x\n",CRC_Result);
++		//CRC bit 0 =shift_in,
++		if(shift_in==0)
++		{
++			CRC_Result&=(~BIT0); 
++		}
++		else
++		{
++			CRC_Result|=BIT0;
++		}
++		//printf("CRC =%x\n",CRC_Result);
++
++		CRC_BIT11 = ((CRC&BIT11) ? 1:0)^shift_in;
++		if(CRC_BIT11==0)
++		{
++			CRC_Result&=(~BIT12); 
++		}
++		else
++		{
++			CRC_Result|=BIT12;
++		}
++		//printf("bit12 CRC =%x\n",CRC_Result);
++
++		CRC_BIT4 = ((CRC&BIT4) ? 1:0)^shift_in;
++		if(CRC_BIT4==0)
++		{
++			CRC_Result&=(~BIT5); 
++		}
++		else
++		{
++			CRC_Result|=BIT5;
++		}
++		//printf("bit5 CRC =%x\n",CRC_Result);
++
++		CRC=CRC_Result; //­«½Æ¨Ï¥Î¤W¤@¦¸ªºµ²ªG
++	}
++
++	return CRC;
++	
++}
++
++
++/////////////////////////////////////////////////
++//
++//function name :calc_crc
++//
++//input         : char* pattern , pattern size
++//
++//////////////////////////////////////////////////
++u16 calc_crc(u8 * pdata,int length)
++{
++//    unsigned char data[2]={0xC6,0xAA};
++	u16 CRC=0xffff;
++	int i;
++	
++	for(i=0;i<length;i++)
++	{
++		CRC=CRC16(pdata[i],CRC);
++	}
++
++	CRC=~CRC;                  //¨ú¸É¼Æ
++	printk("CRC =%x\n",CRC);
++	return CRC;
++}
++
++static void hw_var_set_opmode(PADAPTER Adapter, u8 variable, u8* val)
++{
++	u8	val8;
++	u8	mode = *((u8 *)val);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if(Adapter->iface_type == IFACE_PORT1)
++	{
++		// disable Port1 TSF update
++		rtw_write8(Adapter, REG_BCN_CTRL_1, rtw_read8(Adapter, REG_BCN_CTRL_1)|BIT(4));
++		
++		// set net_type
++		val8 = rtw_read8(Adapter, MSR)&0x03;
++		val8 |= (mode<<2);
++		rtw_write8(Adapter, MSR, val8);
++		
++		//reset TSF1	
++		rtw_write8(Adapter, REG_DUAL_TSF_RST, BIT(1));
++		
++		DBG_871X("%s()-%d mode = %d\n", __FUNCTION__, __LINE__, mode);
++	
++		if((mode == _HW_STATE_STATION_) || (mode == _HW_STATE_NOLINK_))
++		{
++			if(!check_buddy_mlmeinfo_state(Adapter, WIFI_FW_AP_STATE))			
++			{
++				StopTxBeacon(Adapter);
++			}
++			
++			rtw_write8(Adapter,REG_BCN_CTRL_1, 0x19);//disable atim wnd
++			//rtw_write8(Adapter,REG_BCN_CTRL_1, 0x18);
++		}
++		else if((mode == _HW_STATE_ADHOC_) /*|| (mode == _HW_STATE_AP_)*/)
++		{
++			ResumeTxBeacon(Adapter);
++			rtw_write8(Adapter,REG_BCN_CTRL_1, 0x1a);
++		}
++		else if(mode == _HW_STATE_AP_)
++		{
++			ResumeTxBeacon(Adapter);
++					
++			rtw_write8(Adapter, REG_BCN_CTRL_1, 0x12);
++					
++			//Set RCR
++			//rtw_write32(padapter, REG_RCR, 0x70002a8e);//CBSSID_DATA must set to 0
++			rtw_write32(Adapter, REG_RCR, 0x7000228e);//CBSSID_DATA must set to 0
++			//enable to rx data frame				
++			rtw_write16(Adapter, REG_RXFLTMAP2, 0xFFFF);
++			//enable to rx ps-poll
++			rtw_write16(Adapter, REG_RXFLTMAP1, 0x0400);
++
++			//Beacon Control related register for first time 
++			rtw_write8(Adapter, REG_BCNDMATIM, 0x02); // 2ms		
++			rtw_write8(Adapter, REG_DRVERLYINT, 0x05);// 5ms
++			//rtw_write8(Adapter, REG_BCN_MAX_ERR, 0xFF);
++			rtw_write8(Adapter, REG_ATIMWND_1, 0x0a); // 10ms for port1
++			rtw_write16(Adapter, REG_BCNTCFG, 0x00);
++			rtw_write16(Adapter, REG_TBTT_PROHIBIT, 0xff04);
++			rtw_write16(Adapter, REG_TSFTR_SYN_OFFSET, 0x7fff);// +32767 (~32ms)
++	
++
++		       	//enable BCN1 Function for if2
++			//don't enable update TSF1 for if2 (due to TSF update when beacon/probe rsp are received)
++			rtw_write8(Adapter, REG_BCN_CTRL_1, (DIS_TSF_UDT0_NORMAL_CHIP|EN_BCN_FUNCTION | EN_TXBCN_RPT|BIT(1)));
++
++#ifdef CONFIG_CONCURRENT_MODE
++			if(check_buddy_fwstate(Adapter, WIFI_FW_NULL_STATE))
++				rtw_write8(Adapter, REG_BCN_CTRL, 
++					rtw_read8(Adapter, REG_BCN_CTRL) & ~EN_BCN_FUNCTION);
++#endif
++
++			DBG_871X("%s()-%d: REG_BCN_CTRL_1 = %02x\n", __FUNCTION__, __LINE__, rtw_read8(Adapter, REG_BCN_CTRL_1));
++			
++                        //BCN1 TSF will sync to BCN0 TSF with offset(0x518) if if1_sta linked
++			//rtw_write8(Adapter, REG_BCN_CTRL_1, rtw_read8(Adapter, REG_BCN_CTRL_1)|BIT(5));
++			//rtw_write8(Adapter, REG_DUAL_TSF_RST, BIT(3));
++					
++			//dis BCN0 ATIM  WND if if1 is station
++			rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL)|BIT(0));
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++			// Reset TSF for STA+AP concurrent mode
++			if ( check_buddy_fwstate(Adapter, (WIFI_STATION_STATE|WIFI_ASOC_STATE)) ) {
++				if (reset_tsf(Adapter, IFACE_PORT1) == _FALSE)
++					DBG_871X("ERROR! %s()-%d: Reset port1 TSF fail\n",
++						__FUNCTION__, __LINE__);
++			}
++#endif	// CONFIG_TSF_RESET_OFFLOAD
++		}
++
++	}
++	else	// (Adapter->iface_type == IFACE_PORT1)
++#endif //CONFIG_CONCURRENT_MODE
++	{
++		// disable Port0 TSF update
++		rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL)|BIT(4));
++		
++		// set net_type
++		val8 = rtw_read8(Adapter, MSR)&0x0c;
++		val8 |= mode;
++		rtw_write8(Adapter, MSR, val8);
++		
++		//reset TSF0	
++		rtw_write8(Adapter, REG_DUAL_TSF_RST, BIT(0));
++
++		DBG_871X("%s()-%d mode = %d\n", __FUNCTION__, __LINE__, mode);
++		
++		if((mode == _HW_STATE_STATION_) || (mode == _HW_STATE_NOLINK_))
++		{
++#ifdef CONFIG_CONCURRENT_MODE
++			if(!check_buddy_mlmeinfo_state(Adapter, WIFI_FW_AP_STATE))		
++#endif //CONFIG_CONCURRENT_MODE
++			{
++				StopTxBeacon(Adapter);
++			}
++			
++			rtw_write8(Adapter,REG_BCN_CTRL, 0x19);//disable atim wnd
++			//rtw_write8(Adapter,REG_BCN_CTRL, 0x18);
++		}		
++		else if((mode == _HW_STATE_ADHOC_) /*|| (mode == _HW_STATE_AP_)*/)
++		{
++			ResumeTxBeacon(Adapter);
++			rtw_write8(Adapter,REG_BCN_CTRL, 0x1a);
++		}
++		else if(mode == _HW_STATE_AP_)
++		{
++			ResumeTxBeacon(Adapter);
++					
++			rtw_write8(Adapter, REG_BCN_CTRL, 0x12);
++					
++			//Set RCR
++			//write32(padapter, REG_RCR, 0x70002a8e);//CBSSID_DATA must set to 0
++			rtw_write32(Adapter, REG_RCR, 0x7000228e);//CBSSID_DATA must set to 0
++			//enable to rx data frame				
++			rtw_write16(Adapter, REG_RXFLTMAP2, 0xFFFF);
++			//enable to rx ps-poll
++			rtw_write16(Adapter, REG_RXFLTMAP1, 0x0400);
++
++			//Beacon Control related register for first time 
++
++			rtw_write8(Adapter, REG_BCNDMATIM, 0x02); // 2ms		
++			rtw_write8(Adapter, REG_DRVERLYINT, 0x05);// 5ms
++
++			//write8(Adapter, REG_BCN_MAX_ERR, 0xFF);
++			rtw_write8(Adapter, REG_ATIMWND, 0x0a); // 10ms for port0
++			rtw_write16(Adapter, REG_BCNTCFG, 0x00);
++			rtw_write16(Adapter, REG_TBTT_PROHIBIT, 0xff04);
++			rtw_write16(Adapter, REG_TSFTR_SYN_OFFSET, 0x7fff);// +32767 (~32ms)
++	
++		        //enable BCN0 Function for if1
++			//don't enable update TSF0 for if1 (due to TSF update when beacon/probe rsp are received)
++			rtw_write8(Adapter, REG_BCN_CTRL, (DIS_TSF_UDT0_NORMAL_CHIP|EN_BCN_FUNCTION | EN_TXBCN_RPT|BIT(1)));
++					
++#ifdef CONFIG_CONCURRENT_MODE
++			if(check_buddy_fwstate(Adapter, WIFI_FW_NULL_STATE))
++				rtw_write8(Adapter, REG_BCN_CTRL_1, 
++					rtw_read8(Adapter, REG_BCN_CTRL_1) & ~EN_BCN_FUNCTION);
++#endif
++			//BCN1 TSF will sync to BCN0 TSF with offset(0x518) if if1_sta linked
++			//only interface 2 as AP MODE need to sync
++			//rtw_write8(Adapter, REG_BCN_CTRL_1, rtw_read8(Adapter, REG_BCN_CTRL_1)|BIT(5));
++			
++							
++			//dis BCN1 ATIM  WND if if2 is station
++			rtw_write8(Adapter, REG_BCN_CTRL_1, rtw_read8(Adapter, REG_BCN_CTRL_1)|BIT(0));
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++			// Reset TSF for STA+AP concurrent mode
++			if ( check_buddy_fwstate(Adapter, (WIFI_STATION_STATE|WIFI_ASOC_STATE)) ) {
++				if (reset_tsf(Adapter, IFACE_PORT0) == _FALSE)
++					DBG_871X("ERROR! %s()-%d: Reset port0 TSF fail\n",
++						__FUNCTION__, __LINE__);
++			}
++#endif	// CONFIG_TSF_RESET_OFFLOAD			
++					
++		}
++
++
++	}
++
++}
++
++static void hw_var_set_macaddr(PADAPTER Adapter, u8 variable, u8* val)
++{
++	u8 idx = 0;
++	u32 reg_macid;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if(Adapter->iface_type == IFACE_PORT1)
++	{
++		reg_macid = REG_MACID1;
++	}
++	else
++#endif
++	{
++		reg_macid = REG_MACID;
++	}
++
++	for(idx = 0 ; idx < 6; idx++)
++	{
++		rtw_write8(Adapter, (reg_macid+idx), val[idx]);
++	}
++	
++}
++
++static void hw_var_set_bssid(PADAPTER Adapter, u8 variable, u8* val)
++{
++	u8	idx = 0;
++	u32 reg_bssid;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if(Adapter->iface_type == IFACE_PORT1)
++	{
++		reg_bssid = REG_BSSID1;
++	}
++	else
++#endif
++	{
++		reg_bssid = REG_BSSID;
++	}
++
++	for(idx = 0 ; idx < 6; idx++)
++	{
++		rtw_write8(Adapter, (reg_bssid+idx), val[idx]);
++	}
++
++}
++
++static void hw_var_set_bcn_func(PADAPTER Adapter, u8 variable, u8* val)
++{
++	u32 bcn_ctrl_reg;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if(Adapter->iface_type == IFACE_PORT1)
++	{
++		bcn_ctrl_reg = REG_BCN_CTRL_1;
++
++		if(*((u8 *)val))
++		{
++			rtw_write8(Adapter, bcn_ctrl_reg, (EN_BCN_FUNCTION | EN_TXBCN_RPT));
++		}
++		else
++		{
++			rtw_write8(Adapter, bcn_ctrl_reg, rtw_read8(Adapter, bcn_ctrl_reg)&(~(EN_BCN_FUNCTION | EN_TXBCN_RPT)));
++		}
++	}	
++	else
++#endif		
++	{		
++		bcn_ctrl_reg = REG_BCN_CTRL;
++		if(*((u8 *)val))
++		{
++			rtw_write8(Adapter, bcn_ctrl_reg, (EN_BCN_FUNCTION | EN_TXBCN_RPT));
++		}
++		else
++		{
++			//rtw_write8(Adapter, bcn_ctrl_reg, rtw_read8(Adapter, bcn_ctrl_reg)&(~(EN_BCN_FUNCTION | EN_TXBCN_RPT)));
++			rtw_write8(Adapter, bcn_ctrl_reg, (rtw_read8(Adapter, bcn_ctrl_reg)&(~(EN_TXBCN_RPT))) | DIS_TSF_UDT0_NORMAL_CHIP);
++		}
++	}
++	
++
++}
++
++#ifdef CONFIG_WOWLAN
++static int rtw_wowlan_set_pattern(_adapter *padapter ,u8* pbuf){
++	struct pwrctrl_priv *pwrpriv=&padapter->pwrctrlpriv;
++	int res=0,crc_idx;
++	u32 content=0,cmd=0;
++	u32 *pdata;
++	u8 config,crc,mc,bc,uc,idx,pattern_len,packet[200],packet_len,valid;
++	u16 crc_val=0,i;
++
++	config=pbuf[0];
++	bc=config & BIT(3)?1:0;
++	mc=config & BIT(4)?1:0;
++	uc=config & BIT(5)?1:0;
++	idx=config & 0x7;
++	crc=config & BIT(6)?1:0;
++	valid=config & BIT(7)?1:0;
++	pattern_len=pbuf[1];
++	packet_len=pattern_len*8;
++	pdata=(u32 *)pbuf;
++
++	// Write to the Wakeup CAM
++	//offset 0
++	if(pattern_len>=4){
++		content=pdata[1];
++	}
++	else{	
++		content=0;
++	}
++	DBG_8192C("\nrtw_wowlan_set_pattern offset[0]  content  0x%x  [cpu_to_le32  0x%x]\n", content,__cpu_to_le32(content));
++	//rtw_write32(padapter, REG_WKFMCAM_RWD, __cpu_to_le32(content));
++	pwrpriv->wowlan_pattern_context[idx][0]= __cpu_to_le32(content);
++	//cmd=BIT(31)|BIT(16)|(idx+0);
++	//rtw_write32(padapter, REG_WKFMCAM_CMD, cmd);
++	//offset 4
++	if(pattern_len>=8){
++		content=pdata[2];
++	}
++	else{	
++		content=0;
++	}
++	DBG_8192C("rtw_wowlan_set_pattern offset[4]  content  0x%x  [cpu_to_le32  0x%x]\n", content,__cpu_to_le32(content));
++	//rtw_write32(padapter, REG_WKFMCAM_RWD, __cpu_to_le32(content));
++	pwrpriv->wowlan_pattern_context[idx][1]= __cpu_to_le32(content);
++
++	//cmd=BIT(31)|BIT(16)|(idx+1);
++	//rtw_write32(padapter, REG_WKFMCAM_CMD, cmd);
++	//offset 8
++	if(pattern_len>=12){
++		content=pdata[3];
++	}
++	else{	
++		content=0;
++	}
++	DBG_8192C("rtw_wowlan_set_pattern offset[8]  content  0x%x  [cpu_to_le32  0x%x]\n", content,__cpu_to_le32(content));
++	//rtw_write32(padapter, REG_WKFMCAM_RWD, __cpu_to_le32(content));
++	pwrpriv->wowlan_pattern_context[idx][2]= __cpu_to_le32(content);
++	//cmd=BIT(31)|BIT(16)|(idx+2);
++	//rtw_write32(padapter, REG_WKFMCAM_CMD, cmd);
++	//offset 12
++	if(pattern_len>=16){
++		content=pdata[4];
++	}
++	else{	
++		content=0;
++	}
++	DBG_8192C("rtw_wowlan_set_pattern offset[12]  content  0x%x  [cpu_to_le32  0x%x]\n", content,__cpu_to_le32(content));
++	//rtw_write32(padapter, REG_WKFMCAM_RWD, __cpu_to_le32(content));
++	pwrpriv->wowlan_pattern_context[idx][3]= __cpu_to_le32(content);
++	//cmd=BIT(31)|BIT(16)|(idx+3);
++	//rtw_write32(padapter, REG_WKFMCAM_CMD, cmd);
++
++	if(crc){
++		// Have the CRC value
++		crc_val=*(u16 *)(&pbuf[2]);
++		DBG_8192C("rtw_wowlan_set_pattern crc_val  0x%x  \n", crc_val);
++		crc_val=__cpu_to_le16(crc_val);
++		DBG_8192C("rtw_wowlan_set_pattern crc_val  after 0x%x  \n", crc_val);
++	}
++	else{
++		DBG_8192C("+rtw_wowlan_set_pattern   crc=0[%x]  Should calculate the CRC\n", crc);
++		// calculate the CRC the write to the Wakeup CAM
++		crc_idx=0;
++		for(i=0;i<packet_len;i++){
++			if(pbuf[4+(i/8)]&(0x01<<(i%8)))
++			{
++				packet[crc_idx++]=pbuf[20+i];
++		//		printk("\n i=%d packet[i]=%x pbuf[20+i(%d)]=%x \n",i,packet[i],20+i,pbuf[20+i]);
++			}
++		}
++		crc_val=calc_crc(packet, crc_idx);
++		printk("+rtw_wowlan_set_pattern   crc_val=0x%.8x \n", crc_val);
++
++	}
++
++	//offset 16
++	content=(valid<<31)| (bc<<26)|(mc<<25)|(uc<<24) |crc_val;
++	printk("rtw_wowlan_set_pattern offset[16]  content  0x%x \n", content);
++	rtw_write32(padapter, REG_WKFMCAM_RWD,content);
++	pwrpriv->wowlan_pattern_context[idx][4]= content;
++	//cmd=BIT(31)|BIT(16)|(idx+4);
++	//rtw_write32(padapter, REG_WKFMCAM_CMD, cmd);
++	pwrpriv->wowlan_pattern_idx|=BIT(idx);
++	
++_rtw_wowlan_set_pattern_exit:
++	return res;
++}
++
++
++
++void rtw_wowlan_reload_pattern(_adapter *padapter){
++	struct pwrctrl_priv *pwrpriv=&padapter->pwrctrlpriv;
++	u32 content=0,cmd=0;
++	u8 idx;
++
++	for (idx=0;idx<8;idx ++){
++		if(pwrpriv->wowlan_pattern_idx & BIT(idx)){
++			//offset 0
++			rtw_write32(padapter, REG_WKFMCAM_RWD, pwrpriv->wowlan_pattern_context[idx][0]);
++			cmd=BIT(31)|BIT(16)|(idx+0);
++			rtw_write32(padapter, REG_WKFMCAM_CMD, cmd);
++
++			//offset 4
++			rtw_write32(padapter, REG_WKFMCAM_RWD, pwrpriv->wowlan_pattern_context[idx][1]);
++			cmd=BIT(31)|BIT(16)|(idx+1);
++			rtw_write32(padapter, REG_WKFMCAM_CMD, cmd);
++
++			//offset 8
++			rtw_write32(padapter, REG_WKFMCAM_RWD, pwrpriv->wowlan_pattern_context[idx][2]);
++			cmd=BIT(31)|BIT(16)|(idx+2);
++			rtw_write32(padapter, REG_WKFMCAM_CMD, cmd);
++
++			//offset 12
++			rtw_write32(padapter, REG_WKFMCAM_RWD, pwrpriv->wowlan_pattern_context[idx][3]);
++			cmd=BIT(31)|BIT(16)|(idx+3);
++			rtw_write32(padapter, REG_WKFMCAM_CMD, cmd);
++
++			//offset 16
++			rtw_write32(padapter, REG_WKFMCAM_RWD, pwrpriv->wowlan_pattern_context[idx][4]);
++			cmd=BIT(31)|BIT(16)|(idx+4);
++			rtw_write32(padapter, REG_WKFMCAM_CMD, cmd);
++
++		}
++		printk("print WOWCAM  idx =%d\n",idx);
++		cmd=BIT(31)|(idx+0);
++		rtw_write32(padapter, REG_WKFMCAM_CMD, cmd);
++		printk("print WOWCAM  offset[0]  =%x\n",rtw_read32(padapter, REG_WKFMCAM_RWD));
++		cmd=BIT(31)|(idx+1);
++		rtw_write32(padapter, REG_WKFMCAM_CMD, cmd);
++		printk("print WOWCAM  offset[1]  =%x\n",rtw_read32(padapter, REG_WKFMCAM_RWD));
++		cmd=BIT(31)|(idx+2);
++		rtw_write32(padapter, REG_WKFMCAM_CMD, cmd);
++		printk("print WOWCAM  offset[2]  =%x\n",rtw_read32(padapter, REG_WKFMCAM_RWD));
++		cmd=BIT(31)|(idx+3);
++		rtw_write32(padapter, REG_WKFMCAM_CMD, cmd);
++		printk("print WOWCAM  offset[3]  =%x\n",rtw_read32(padapter, REG_WKFMCAM_RWD));		
++		cmd=BIT(31)|(idx+4);
++		rtw_write32(padapter, REG_WKFMCAM_CMD, cmd);
++		printk("print WOWCAM  offset[4]  =%x\n",rtw_read32(padapter, REG_WKFMCAM_RWD));
++
++
++	}
++}
++#endif //CONFIG_WOWLAN
++
++static void hw_var_set_correct_tsf(PADAPTER Adapter, u8 variable, u8* val)
++{
++#ifdef CONFIG_CONCURRENT_MODE
++	u64	tsf;
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	//tsf = pmlmeext->TSFValue - ((u32)pmlmeext->TSFValue % (pmlmeinfo->bcn_interval*1024)) -1024; //us
++	tsf = pmlmeext->TSFValue - rtw_modular64(pmlmeext->TSFValue, (pmlmeinfo->bcn_interval*1024)) -1024; //us
++
++	if(((pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE) || ((pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE))
++	{				
++		//pHalData->RegTxPause |= STOP_BCNQ;BIT(6)
++		//rtw_write8(Adapter, REG_TXPAUSE, (rtw_read8(Adapter, REG_TXPAUSE)|BIT(6)));
++		StopTxBeacon(Adapter);
++	}
++
++	if(Adapter->iface_type == IFACE_PORT1)
++	{
++		//disable related TSF function
++		rtw_write8(Adapter, REG_BCN_CTRL_1, rtw_read8(Adapter, REG_BCN_CTRL_1)&(~BIT(3)));
++							
++		rtw_write32(Adapter, REG_TSFTR1, tsf);
++		rtw_write32(Adapter, REG_TSFTR1+4, tsf>>32);
++
++		//enable related TSF function
++		rtw_write8(Adapter, REG_BCN_CTRL_1, rtw_read8(Adapter, REG_BCN_CTRL_1)|BIT(3));
++
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++		// Update buddy port's TSF(TBTT) if it is SoftAP for beacon TX issue!
++		if ( (pmlmeinfo->state&0x03) == WIFI_FW_STATION_STATE
++			&& check_buddy_fwstate(Adapter, WIFI_AP_STATE) ) { 
++			if (reset_tsf(Adapter, IFACE_PORT0) == _FALSE)
++				DBG_871X("ERROR! %s()-%d: Reset port0 TSF fail\n",
++					__FUNCTION__, __LINE__);
++		}
++#endif	// CONFIG_TSF_RESET_OFFLOAD
++
++	}
++	else	// Adapter->iface_type == IFACE_PORT1
++	{
++		//disable related TSF function
++		rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL)&(~BIT(3)));
++		// disable TSF update instead! May induce burst beacon TX
++		//rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL)|BIT(4));
++							
++		rtw_write32(Adapter, REG_TSFTR, tsf);
++		rtw_write32(Adapter, REG_TSFTR+4, tsf>>32);
++
++		//enable related TSF function
++		rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL)|BIT(3));
++		//rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL)&(~BIT(4)));		
++		
++		// Update buddy port's TSF if it is SoftAP for beacon TX issue!
++		if ( (pmlmeinfo->state&0x03) == WIFI_FW_STATION_STATE
++			&& check_buddy_fwstate(Adapter, WIFI_AP_STATE)
++		) { 
++			//disable related TSF function
++			rtw_write8(Adapter, REG_BCN_CTRL_1, rtw_read8(Adapter, REG_BCN_CTRL_1)&(~BIT(3)));
++			// disable TSF update instead!
++			//rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL_1)|BIT(4));
++
++			rtw_write32(Adapter, REG_TSFTR1, tsf);
++			rtw_write32(Adapter, REG_TSFTR1+4, tsf>>32);
++
++			//enable related TSF function
++			rtw_write8(Adapter, REG_BCN_CTRL_1, rtw_read8(Adapter, REG_BCN_CTRL_1)|BIT(3));
++			//rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL_1)&(~BIT(4)));
++		}		
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++		// Update buddy port's TSF if it is SoftAP for beacon TX issue!
++		if ( (pmlmeinfo->state&0x03) == WIFI_FW_STATION_STATE
++			&& check_buddy_fwstate(Adapter, WIFI_AP_STATE) ) {
++			if (reset_tsf(Adapter, IFACE_PORT1) == _FALSE)
++				DBG_871X("ERROR! %s()-%d: Reset port1 TSF fail\n",
++					__FUNCTION__, __LINE__);
++		}
++#endif	// CONFIG_TSF_RESET_OFFLOAD
++	}
++
++	if(((pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE) || ((pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE))
++	{
++		//pHalData->RegTxPause  &= (~STOP_BCNQ);
++		//rtw_write8(Adapter, REG_TXPAUSE, (rtw_read8(Adapter, REG_TXPAUSE)&(~BIT(6))));
++		ResumeTxBeacon(Adapter);
++	}
++#endif	// CONFIG_CONCURRENT_MODE
++}
++
++static void hw_var_set_mlme_disconnect(PADAPTER Adapter, u8 variable, u8* val)
++{
++#ifdef CONFIG_CONCURRENT_MODE
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PADAPTER pbuddy_adapter = Adapter->pbuddy_adapter;
++
++				
++	if(check_buddy_mlmeinfo_state(Adapter, _HW_STATE_NOLINK_))	
++		rtw_write16(Adapter, REG_RXFLTMAP2, 0x00);
++	
++
++	if(Adapter->iface_type == IFACE_PORT1)
++	{
++		int i;
++		u8 reg_bcn_ctrl_1;
++
++	   	// a.Driver set 0x422 bit 6 =0
++		rtw_write8(Adapter, REG_FWHW_TXQ_CTRL+2, (pHalData->RegFwHwTxQCtrl) & (~BIT6));
++		pHalData->RegFwHwTxQCtrl &= (~BIT6);
++
++
++#ifdef CONFIG_BEACON_DISABLE_OFFLOAD
++		u8 reg_bcn_disable_cnt = rtw_read8(Adapter, REG_FW_BCN_DIS_CNT);
++		DBG_871X("%s()-%d: reg_bcn_disable_cnt=%02x\n", __FUNCTION__, __LINE__, reg_bcn_disable_cnt);
++	   	
++		reg_bcn_ctrl_1 = rtw_read8(Adapter, REG_BCN_CTRL_1); 
++		DBG_871X("%s()-%d: reg_bcn_ctrl_1=%02x\n", __FUNCTION__, __LINE__, reg_bcn_ctrl_1);
++
++	   	// b. driver set h2c cmd
++	   	rtl8192c_dis_beacon_fun_cmd(Adapter);	   
++	 
++		/*
++			// FW Job for port 0
++			
++		   c. 8051 set nettype to ap
++		   d. 8051 check dma_int
++		   e. 8051 set nettype to no_link
++		   f.8051 dis_tsf_update   0x550 bit 4
++		   g.8051 reset  beacon function test count   0x553 bit0.
++		   h.8051 disable beacon function   0x550  bit3
++		   i. 8051 sent ready to driver
++
++	 	*/
++	 	
++	 	// The worst case is 100 + 15 ms
++		rtw_msleep_os(120);
++		
++		for (i=0; i< 10; i++) {
++			reg_bcn_ctrl_1 = rtw_read8(Adapter, REG_BCN_CTRL_1); 
++			if ( (reg_bcn_ctrl_1 & BIT(3)) == 0 ) {
++				//DBG_871X("%s()-%d: BEACON_DISABLE_OFFLOAD finished! reg=%02x\n", __FUNCTION__, __LINE__, reg);
++				break;
++			}
++			DBG_871X("%s()-%d: BEACON_DISABLE_OFFLOAD not finished! REG_BCN_CTRL_1=%02x\n", __FUNCTION__, __LINE__, reg_bcn_ctrl_1);
++			DBG_871X("%s()-%d: reg_bcn_disable_cnt=%02x\n", __FUNCTION__, __LINE__, rtw_read8(Adapter, REG_FW_BCN_DIS_CNT));
++			DBG_871X("%s()-%d: REG_BCN_CTRL=%02x\n", __FUNCTION__, __LINE__, rtw_read8(Adapter, REG_BCN_CTRL));
++			DBG_871X("%s()-%d: FWISR=%08x\n", __FUNCTION__, __LINE__, rtw_read32(Adapter, REG_FWISR));
++			rtw_msleep_os(100);
++		}
++		DBG_871X("%s()-%d: reg_bcn_disable_cnt=%02x\n", __FUNCTION__, __LINE__, rtw_read8(Adapter, REG_FW_BCN_DIS_CNT));
++		DBG_871X("%s()-%d: reg_bcn_ctrl_1=%02x\n", __FUNCTION__, __LINE__, reg_bcn_ctrl_1);
++
++#else   // CONFIG_BEACON_DISABLE_OFFLOAD
++
++		//disable update TSF1
++		rtw_write8(Adapter, REG_BCN_CTRL_1, rtw_read8(Adapter, REG_BCN_CTRL_1)|BIT(4));
++
++		//reset TSF1
++		rtw_write8(Adapter, REG_DUAL_TSF_RST, BIT(1));
++
++		// disable Port1's beacon function
++		rtw_write8(Adapter, REG_BCN_CTRL_1, rtw_read8(Adapter, REG_BCN_CTRL_1)&(~BIT(3)));
++
++#endif  // CONFIG_BEACON_DISABLE_OFFLOAD
++	 	
++		// j, Driver set 0x422 bit 6 =1
++		rtw_write8(Adapter, REG_FWHW_TXQ_CTRL+2, (pHalData->RegFwHwTxQCtrl) | BIT6);
++		pHalData->RegFwHwTxQCtrl |= BIT6;
++
++		// k. re_download beacon pkt 
++		if(check_buddy_mlmeinfo_state(Adapter, WIFI_FW_AP_STATE))	
++			set_tx_beacon_cmd(pbuddy_adapter);
++		   
++
++	}
++	else	// (Adapter->iface_type == IFACE_PORT1)
++	{
++		//disable update TSF
++		rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL)|BIT(4));
++
++		//reset TSF
++		rtw_write8(Adapter, REG_DUAL_TSF_RST, BIT(0));
++
++		// Can't disable Port0's beacon function due to it is used by RA
++	}
++#endif
++}
++
++static void hw_var_set_mlme_sitesurvey(PADAPTER Adapter, u8 variable, u8* val)
++{
++	u32	value_rcr, rcr_clear_bit, reg_bcn_ctl;
++	u16	value_rxfltmap2;
++	struct mlme_priv *pmlmepriv=&(Adapter->mlmepriv);
++
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if(Adapter->iface_type == IFACE_PORT1)
++		reg_bcn_ctl = REG_BCN_CTRL_1;
++	else
++#endif
++		reg_bcn_ctl = REG_BCN_CTRL;
++
++#ifdef CONFIG_FIND_BEST_CHANNEL
++
++	if( (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++#ifdef CONFIG_CONCURRENT_MODE
++		|| (check_buddy_fwstate(Adapter, WIFI_AP_STATE) == _TRUE)
++#endif
++#ifdef CONFIG_TDLS
++		// TDLS will clear RCR_CBSSID_DATA bit for connection.
++		|| ( Adapter->tdlsinfo.setup_state & TDLS_LINKED_STATE )
++#endif // CONFIG_TDLS
++		)
++	{
++		rcr_clear_bit = RCR_CBSSID_BCN;
++	}
++	else
++	{
++		rcr_clear_bit = (RCR_CBSSID_BCN | RCR_CBSSID_DATA);
++	}
++
++	// Recieve all data frames
++	value_rxfltmap2 = 0xFFFF;
++
++#else /* CONFIG_FIND_BEST_CHANNEL */
++
++	rcr_clear_bit = RCR_CBSSID_BCN;
++
++	//config RCR to receive different BSSID & not to receive data frame
++	value_rxfltmap2 = 0;
++
++#endif /* CONFIG_FIND_BEST_CHANNEL */
++
++	value_rcr = rtw_read32(Adapter, REG_RCR);
++
++	if(*((u8 *)val))//under sitesurvey
++	{
++		value_rcr &= ~(rcr_clear_bit);
++		rtw_write32(Adapter, REG_RCR, value_rcr);
++
++		rtw_write16(Adapter, REG_RXFLTMAP2, value_rxfltmap2);
++
++		if (check_fwstate(pmlmepriv, WIFI_STATION_STATE | WIFI_ADHOC_STATE |WIFI_ADHOC_MASTER_STATE)) {
++			//disable update TSF
++			rtw_write8(Adapter, reg_bcn_ctl, rtw_read8(Adapter, reg_bcn_ctl)|BIT(4));
++		}
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if(check_buddy_mlmeinfo_state(Adapter, WIFI_FW_AP_STATE) &&
++			check_buddy_fwstate(Adapter, _FW_LINKED))
++		{
++			StopTxBeacon(Adapter);
++		}
++#endif
++	}
++	else//sitesurvey done
++	{
++		if(check_fwstate(pmlmepriv, _FW_LINKED) || check_fwstate(pmlmepriv, WIFI_AP_STATE)
++#ifdef CONFIG_CONCURRENT_MODE
++			|| check_buddy_fwstate(Adapter, _FW_LINKED) || check_buddy_fwstate(Adapter, WIFI_AP_STATE)
++#endif
++			)
++		{
++			//enable to rx data frame
++			rtw_write16(Adapter, REG_RXFLTMAP2,0xFFFF);
++		}
++
++		if (check_fwstate(pmlmepriv, WIFI_STATION_STATE | WIFI_ADHOC_STATE |WIFI_ADHOC_MASTER_STATE)) {
++			//enable update TSF
++			rtw_write8(Adapter, reg_bcn_ctl, rtw_read8(Adapter, reg_bcn_ctl)&(~BIT(4)));
++		}
++
++		value_rcr |= rcr_clear_bit;
++		rtw_write32(Adapter, REG_RCR, value_rcr);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if(check_buddy_mlmeinfo_state(Adapter, WIFI_FW_AP_STATE) &&
++			check_buddy_fwstate(Adapter, _FW_LINKED))
++		{
++			ResumeTxBeacon(Adapter);			
++		}
++#endif
++	}
++}
++
++static void hw_var_set_mlme_join(PADAPTER Adapter, u8 variable, u8* val)
++{
++#ifdef CONFIG_CONCURRENT_MODE
++	u8	RetryLimit = 0x30;
++	u8	type = *((u8 *)val);
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++
++	if(type == 0) // prepare to join
++	{		
++		if(check_buddy_mlmeinfo_state(Adapter, WIFI_FW_AP_STATE) &&
++			check_buddy_fwstate(Adapter, _FW_LINKED))		
++		{
++			StopTxBeacon(Adapter);
++		}
++	
++		//enable to rx data frame.Accept all data frame
++		//rtw_write32(padapter, REG_RCR, rtw_read32(padapter, REG_RCR)|RCR_ADF);
++		rtw_write16(Adapter, REG_RXFLTMAP2,0xFFFF);
++
++		if(check_buddy_mlmeinfo_state(Adapter, WIFI_FW_AP_STATE))
++			rtw_write32(Adapter, REG_RCR, rtw_read32(Adapter, REG_RCR)|RCR_CBSSID_BCN);
++		else
++			rtw_write32(Adapter, REG_RCR, rtw_read32(Adapter, REG_RCR)|RCR_CBSSID_DATA|RCR_CBSSID_BCN);
++
++		if(check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++		{
++			RetryLimit = (pHalData->CustomerID == RT_CID_CCX) ? 7 : 48;
++		}
++		else // Ad-hoc Mode
++		{
++			RetryLimit = 0x7;
++		}
++	}
++	else if(type == 1) //joinbss_event call back when join res < 0
++	{		
++		if(check_buddy_mlmeinfo_state(Adapter, _HW_STATE_NOLINK_))		
++			rtw_write16(Adapter, REG_RXFLTMAP2,0x00);
++
++		if(check_buddy_mlmeinfo_state(Adapter, WIFI_FW_AP_STATE) &&
++			check_buddy_fwstate(Adapter, _FW_LINKED))
++		{
++			ResumeTxBeacon(Adapter);			
++			
++			//reset TSF 1/2 after ResumeTxBeacon
++			//rtw_write8(Adapter, REG_DUAL_TSF_RST, BIT(1)|BIT(0));	
++			
++		}
++	}
++	else if(type == 2) //sta add event call back
++	{
++	 
++		//enable update TSF
++		if(Adapter->iface_type == IFACE_PORT1)
++			rtw_write8(Adapter, REG_BCN_CTRL_1, rtw_read8(Adapter, REG_BCN_CTRL_1)&(~BIT(4)));
++		else
++			rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL)&(~BIT(4)));
++		 
++	
++		if(check_fwstate(pmlmepriv, WIFI_ADHOC_STATE|WIFI_ADHOC_MASTER_STATE))
++		{
++			//fixed beacon issue for 8191su...........
++			rtw_write8(Adapter,0x542 ,0x02);
++			RetryLimit = 0x7;
++		}
++
++
++		if(check_buddy_mlmeinfo_state(Adapter, WIFI_FW_AP_STATE) &&
++			check_buddy_fwstate(Adapter, _FW_LINKED))
++		{
++			ResumeTxBeacon(Adapter);
++			
++			//reset TSF 1/2 after ResumeTxBeacon
++			//rtw_write8(Adapter, REG_DUAL_TSF_RST, BIT(1)|BIT(0));
++		}
++		
++	}
++
++	rtw_write16(Adapter, REG_RL, RetryLimit << RETRY_LIMIT_SHORT_SHIFT | RetryLimit << RETRY_LIMIT_LONG_SHIFT);
++	
++#endif
++}
++
++void SetHwReg8192CU(PADAPTER Adapter, u8 variable, u8* val)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++
++_func_enter_;
++
++	switch(variable)
++	{
++		case HW_VAR_MEDIA_STATUS:
++			{
++				u8 val8;
++
++				val8 = rtw_read8(Adapter, MSR)&0x0c;
++				val8 |= *((u8 *)val);
++				rtw_write8(Adapter, MSR, val8);
++			}
++			break;
++		case HW_VAR_MEDIA_STATUS1:
++			{
++				u8 val8;
++				
++				val8 = rtw_read8(Adapter, MSR)&0x03;
++				val8 |= *((u8 *)val) <<2;
++				rtw_write8(Adapter, MSR, val8);
++			}
++			break;
++		case HW_VAR_SET_OPMODE:
++			hw_var_set_opmode(Adapter, variable, val);
++			break;
++		case HW_VAR_MAC_ADDR:
++			hw_var_set_macaddr(Adapter, variable, val);			
++			break;
++		case HW_VAR_BSSID:
++			hw_var_set_bssid(Adapter, variable, val);
++			break;
++		case HW_VAR_BASIC_RATE:
++			{
++				u16			BrateCfg = 0;
++				u8			RateIndex = 0;
++				
++				// 2007.01.16, by Emily
++				// Select RRSR (in Legacy-OFDM and CCK)
++				// For 8190, we select only 24M, 12M, 6M, 11M, 5.5M, 2M, and 1M from the Basic rate.
++				// We do not use other rates.
++				HalSetBrateCfg( Adapter, val, &BrateCfg );
++
++				//2011.03.30 add by Luke Lee
++				//CCK 2M ACK should be disabled for some BCM and Atheros AP IOT
++				//because CCK 2M has poor TXEVM
++				//CCK 5.5M & 11M ACK should be enabled for better performance
++
++				pHalData->BasicRateSet = BrateCfg = (BrateCfg |0xd) & 0x15d;
++
++				BrateCfg |= 0x01; // default enable 1M ACK rate
++
++				DBG_8192C("HW_VAR_BASIC_RATE: BrateCfg(%#x)\n", BrateCfg);
++				
++				// Set RRSR rate table.
++				rtw_write8(Adapter, REG_RRSR, BrateCfg&0xff);
++				rtw_write8(Adapter, REG_RRSR+1, (BrateCfg>>8)&0xff);
++				rtw_write8(Adapter, REG_RRSR+2, rtw_read8(Adapter, REG_RRSR+2)&0xf0);
++
++				// Set RTS initial rate
++				while(BrateCfg > 0x1)
++				{
++					BrateCfg = (BrateCfg>> 1);
++					RateIndex++;
++				}
++				// Ziv - Check
++				rtw_write8(Adapter, REG_INIRTS_RATE_SEL, RateIndex);
++			}
++			break;
++		case HW_VAR_TXPAUSE:
++			rtw_write8(Adapter, REG_TXPAUSE, *((u8 *)val));	
++			break;
++		case HW_VAR_BCN_FUNC:
++			hw_var_set_bcn_func(Adapter, variable, val);
++			break;
++		case HW_VAR_CORRECT_TSF:
++#ifdef CONFIG_CONCURRENT_MODE
++			hw_var_set_correct_tsf(Adapter, variable, val);
++#else			
++			{
++				u64	tsf;
++				struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++				struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++				//tsf = pmlmeext->TSFValue - ((u32)pmlmeext->TSFValue % (pmlmeinfo->bcn_interval*1024)) -1024; //us
++				tsf = pmlmeext->TSFValue - rtw_modular64(pmlmeext->TSFValue, (pmlmeinfo->bcn_interval*1024)) -1024; //us
++
++				if(((pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE) || ((pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE))
++				{				
++					//pHalData->RegTxPause |= STOP_BCNQ;BIT(6)
++					//rtw_write8(Adapter, REG_TXPAUSE, (rtw_read8(Adapter, REG_TXPAUSE)|BIT(6)));
++					StopTxBeacon(Adapter);
++				}
++
++				//disable related TSF function
++				rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL)&(~BIT(3)));
++							
++				rtw_write32(Adapter, REG_TSFTR, tsf);
++				rtw_write32(Adapter, REG_TSFTR+4, tsf>>32);
++
++				//enable related TSF function
++				rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL)|BIT(3));
++				
++							
++				if(((pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE) || ((pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE))
++				{
++					//pHalData->RegTxPause  &= (~STOP_BCNQ);
++					//rtw_write8(Adapter, REG_TXPAUSE, (rtw_read8(Adapter, REG_TXPAUSE)&(~BIT(6))));
++					ResumeTxBeacon(Adapter);
++				}
++			}
++#endif
++			break;
++		case HW_VAR_CHECK_BSSID:
++			if(*((u8 *)val))
++			{
++				rtw_write32(Adapter, REG_RCR, rtw_read32(Adapter, REG_RCR)|RCR_CBSSID_DATA|RCR_CBSSID_BCN);
++			}
++			else
++			{
++				u32	val32;
++
++				val32 = rtw_read32(Adapter, REG_RCR);
++				val32 &= ~(RCR_CBSSID_DATA | RCR_CBSSID_BCN);
++				rtw_write32(Adapter, REG_RCR, val32);
++			}
++			break;
++		case HW_VAR_MLME_DISCONNECT:
++#ifdef CONFIG_CONCURRENT_MODE
++			hw_var_set_mlme_disconnect(Adapter, variable, val);
++#else
++			{
++				//Set RCR to not to receive data frame when NO LINK state
++				//rtw_write32(Adapter, REG_RCR, rtw_read32(padapter, REG_RCR) & ~RCR_ADF);
++				//reject all data frames
++				rtw_write16(Adapter, REG_RXFLTMAP2,0x00);
++
++				//reset TSF
++				rtw_write8(Adapter, REG_DUAL_TSF_RST, (BIT(0)|BIT(1)));
++
++				//disable update TSF
++				rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL)|BIT(4));
++			}
++#endif
++			break;
++		case HW_VAR_MLME_SITESURVEY:
++			hw_var_set_mlme_sitesurvey(Adapter, variable,  val);	
++			break;
++		case HW_VAR_MLME_JOIN:
++#ifdef CONFIG_CONCURRENT_MODE
++			hw_var_set_mlme_join(Adapter, variable,  val);
++#else
++			{
++				u8	RetryLimit = 0x30;
++				u8	type = *((u8 *)val);
++				struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++
++				if(type == 0) // prepare to join
++				{
++					//enable to rx data frame.Accept all data frame
++					//rtw_write32(padapter, REG_RCR, rtw_read32(padapter, REG_RCR)|RCR_ADF);
++					rtw_write16(Adapter, REG_RXFLTMAP2,0xFFFF);
++
++					rtw_write32(Adapter, REG_RCR, rtw_read32(Adapter, REG_RCR)|RCR_CBSSID_DATA|RCR_CBSSID_BCN);
++
++					if(check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++					{
++						RetryLimit = (pHalData->CustomerID == RT_CID_CCX) ? 7 : 48;
++					}
++					else // Ad-hoc Mode
++					{
++						RetryLimit = 0x7;
++					}
++				}
++				else if(type == 1) //joinbss_event call back when join res < 0
++				{
++					rtw_write16(Adapter, REG_RXFLTMAP2,0x00);
++				}
++				else if(type == 2) //sta add event call back
++				{
++					//enable update TSF
++					rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL)&(~BIT(4)));
++
++					if(check_fwstate(pmlmepriv, WIFI_ADHOC_STATE|WIFI_ADHOC_MASTER_STATE))
++					{
++						//fixed beacon issue for 8191su...........
++						rtw_write8(Adapter,0x542 ,0x02);
++						RetryLimit = 0x7;
++					}
++				}
++
++				rtw_write16(Adapter, REG_RL, RetryLimit << RETRY_LIMIT_SHORT_SHIFT | RetryLimit << RETRY_LIMIT_LONG_SHIFT);
++			}
++#endif
++			break;
++
++		case HW_VAR_ON_RCR_AM:
++			rtw_write32(Adapter, REG_RCR, rtw_read32(Adapter, REG_RCR)|RCR_AM);
++			DBG_871X("%s, %d, RCR= %x \n", __FUNCTION__,__LINE__, rtw_read32(Adapter, REG_RCR));
++			break;
++		case HW_VAR_OFF_RCR_AM:
++			rtw_write32(Adapter, REG_RCR, rtw_read32(Adapter, REG_RCR)& (~RCR_AM));
++			DBG_871X("%s, %d, RCR= %x \n", __FUNCTION__,__LINE__, rtw_read32(Adapter, REG_RCR));
++			break;
++
++		case HW_VAR_BEACON_INTERVAL:
++			rtw_write16(Adapter, REG_BCN_INTERVAL, *((u16 *)val));
++			break;
++		case HW_VAR_SLOT_TIME:
++			{
++				u8	u1bAIFS, aSifsTime;
++				struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++				struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++				
++				rtw_write8(Adapter, REG_SLOT, val[0]);
++
++				if(pmlmeinfo->WMM_enable == 0)
++				{
++					if( pmlmeext->cur_wireless_mode == WIRELESS_11B)
++						aSifsTime = 10;
++					else
++						aSifsTime = 16;
++					
++					u1bAIFS = aSifsTime + (2 * pmlmeinfo->slotTime);
++					
++					// <Roger_EXP> Temporary removed, 2008.06.20.
++					rtw_write8(Adapter, REG_EDCA_VO_PARAM, u1bAIFS);
++					rtw_write8(Adapter, REG_EDCA_VI_PARAM, u1bAIFS);
++					rtw_write8(Adapter, REG_EDCA_BE_PARAM, u1bAIFS);
++					rtw_write8(Adapter, REG_EDCA_BK_PARAM, u1bAIFS);
++				}
++			}
++			break;
++		case HW_VAR_RESP_SIFS:
++			{
++#if 0			
++				// SIFS for OFDM Data ACK
++				rtw_write8(Adapter, REG_SIFS_CTX+1, val[0]);
++				// SIFS for OFDM consecutive tx like CTS data!
++				rtw_write8(Adapter, REG_SIFS_TRX+1, val[1]);
++				
++				rtw_write8(Adapter,REG_SPEC_SIFS+1, val[0]);
++				rtw_write8(Adapter,REG_MAC_SPEC_SIFS+1, val[0]);
++
++				// 20100719 Joseph: Revise SIFS setting due to Hardware register definition change.
++				rtw_write8(Adapter, REG_R2T_SIFS+1, val[0]); //0x08 - CCK
++				rtw_write8(Adapter, REG_T2T_SIFS+1, val[0]); //0x0e - OFDM
++#else
++				//SIFS_Timer = 0x0a0a0808;
++				//RESP_SIFS for CCK
++				rtw_write8(Adapter, REG_R2T_SIFS, val[0]); // SIFS_T2T_CCK (0x08)
++				rtw_write8(Adapter, REG_R2T_SIFS+1, val[1]); //SIFS_R2T_CCK(0x08)
++				//RESP_SIFS for OFDM
++				rtw_write8(Adapter, REG_T2T_SIFS, val[2]); //SIFS_T2T_OFDM (0x0a)
++				rtw_write8(Adapter, REG_T2T_SIFS+1, val[3]); //SIFS_R2T_OFDM(0x0a)
++#endif
++			}
++			break;
++		case HW_VAR_ACK_PREAMBLE:
++			{
++				u8	regTmp;
++				u8	bShortPreamble = *( (PBOOLEAN)val );
++				// Joseph marked out for Netgear 3500 TKIP channel 7 issue.(Temporarily)
++				regTmp = (pHalData->nCur40MhzPrimeSC)<<5;
++				//regTmp = 0;
++				if(bShortPreamble)
++					regTmp |= 0x80;
++
++				rtw_write8(Adapter, REG_RRSR+2, regTmp);
++			}
++			break;
++		case HW_VAR_SEC_CFG:
++#ifdef CONFIG_CONCURRENT_MODE
++			rtw_write8(Adapter, REG_SECCFG, 0x0c|BIT(5));// enable tx enc and rx dec engine, and no key search for MC/BC				
++#else
++			rtw_write8(Adapter, REG_SECCFG, *((u8 *)val));
++#endif
++			break;
++		case HW_VAR_DM_FLAG:
++			pdmpriv->DMFlag = *((u8 *)val);
++			break;
++		case HW_VAR_DM_FUNC_OP:
++			if(val[0])
++			{// save dm flag
++				pdmpriv->DMFlag_tmp = pdmpriv->DMFlag;
++			}
++			else
++			{// restore dm flag
++				pdmpriv->DMFlag = pdmpriv->DMFlag_tmp;
++			}
++			break;
++		case HW_VAR_DM_FUNC_SET:
++			pdmpriv->DMFlag |= *((u8 *)val);
++			break;
++		case HW_VAR_DM_FUNC_CLR:
++			pdmpriv->DMFlag &= *((u8 *)val);
++			break;
++		case HW_VAR_CAM_EMPTY_ENTRY:
++			{
++				u8	ucIndex = *((u8 *)val);
++				u8	i;
++				u32	ulCommand=0;
++				u32	ulContent=0;
++				u32	ulEncAlgo=CAM_AES;
++
++				for(i=0;i<CAM_CONTENT_COUNT;i++)
++				{
++					// filled id in CAM config 2 byte
++					if( i == 0)
++					{
++						ulContent |=(ucIndex & 0x03) | ((u16)(ulEncAlgo)<<2);
++						//ulContent |= CAM_VALID;
++					}
++					else
++					{
++						ulContent = 0;
++					}
++					// polling bit, and No Write enable, and address
++					ulCommand= CAM_CONTENT_COUNT*ucIndex+i;
++					ulCommand= ulCommand | CAM_POLLINIG|CAM_WRITE;
++					// write content 0 is equall to mark invalid
++					rtw_write32(Adapter, WCAMI, ulContent);  //delay_ms(40);
++					//RT_TRACE(COMP_SEC, DBG_LOUD, ("CAM_empty_entry(): WRITE A4: %lx \n",ulContent));
++					rtw_write32(Adapter, RWCAM, ulCommand);  //delay_ms(40);
++					//RT_TRACE(COMP_SEC, DBG_LOUD, ("CAM_empty_entry(): WRITE A0: %lx \n",ulCommand));
++				}
++			}
++			break;
++		case HW_VAR_CAM_INVALID_ALL:
++			rtw_write32(Adapter, RWCAM, BIT(31)|BIT(30));
++			break;
++		case HW_VAR_CAM_WRITE:
++			{
++				u32	cmd;
++				u32	*cam_val = (u32 *)val;
++				rtw_write32(Adapter, WCAMI, cam_val[0]);
++				
++				cmd = CAM_POLLINIG | CAM_WRITE | cam_val[1];
++				rtw_write32(Adapter, RWCAM, cmd);
++			}
++			break;
++		case HW_VAR_AC_PARAM_VO:
++			rtw_write32(Adapter, REG_EDCA_VO_PARAM, ((u32 *)(val))[0]);
++			break;
++		case HW_VAR_AC_PARAM_VI:
++			rtw_write32(Adapter, REG_EDCA_VI_PARAM, ((u32 *)(val))[0]);
++			break;
++		case HW_VAR_AC_PARAM_BE:
++			pHalData->AcParam_BE = ((u32 *)(val))[0];
++			rtw_write32(Adapter, REG_EDCA_BE_PARAM, ((u32 *)(val))[0]);
++			break;
++		case HW_VAR_AC_PARAM_BK:
++			rtw_write32(Adapter, REG_EDCA_BK_PARAM, ((u32 *)(val))[0]);
++			break;
++		case HW_VAR_ACM_CTRL:
++			{
++				u8	acm_ctrl = *((u8 *)val);
++				u8	AcmCtrl = rtw_read8( Adapter, REG_ACMHWCTRL);
++
++				if(acm_ctrl > 1)
++					AcmCtrl = AcmCtrl | 0x1;
++
++				if(acm_ctrl & BIT(3))
++					AcmCtrl |= AcmHw_VoqEn;
++				else
++					AcmCtrl &= (~AcmHw_VoqEn);
++
++				if(acm_ctrl & BIT(2))
++					AcmCtrl |= AcmHw_ViqEn;
++				else
++					AcmCtrl &= (~AcmHw_ViqEn);
++
++				if(acm_ctrl & BIT(1))
++					AcmCtrl |= AcmHw_BeqEn;
++				else
++					AcmCtrl &= (~AcmHw_BeqEn);
++
++				DBG_871X("[HW_VAR_ACM_CTRL] Write 0x%X\n", AcmCtrl );
++				rtw_write8(Adapter, REG_ACMHWCTRL, AcmCtrl );
++			}
++			break;
++		case HW_VAR_AMPDU_MIN_SPACE:
++			{
++				u8	MinSpacingToSet;
++				u8	SecMinSpace;
++
++				MinSpacingToSet = *((u8 *)val);
++				if(MinSpacingToSet <= 7)
++				{
++					switch(Adapter->securitypriv.dot11PrivacyAlgrthm)
++					{
++						case _NO_PRIVACY_:
++						case _AES_:
++							SecMinSpace = 0;
++							break;
++
++						case _WEP40_:
++						case _WEP104_:
++						case _TKIP_:
++						case _TKIP_WTMIC_:
++							SecMinSpace = 6;
++							break;
++						default:
++							SecMinSpace = 7;
++							break;
++					}
++
++					if(MinSpacingToSet < SecMinSpace){
++						MinSpacingToSet = SecMinSpace;
++					}
++
++					//RT_TRACE(COMP_MLME, DBG_LOUD, ("Set HW_VAR_AMPDU_MIN_SPACE: %#x\n", Adapter->MgntInfo.MinSpaceCfg));
++					rtw_write8(Adapter, REG_AMPDU_MIN_SPACE, (rtw_read8(Adapter, REG_AMPDU_MIN_SPACE) & 0xf8) | MinSpacingToSet);
++				}
++			}
++			break;
++		case HW_VAR_AMPDU_FACTOR:
++			{
++				u8	RegToSet_Normal[4]={0x41,0xa8,0x72, 0xb9};
++				u8	RegToSet_BT[4]={0x31,0x74,0x42, 0x97};
++				u8	FactorToSet;
++				u8	*pRegToSet;
++				u8	index = 0;
++
++#ifdef CONFIG_BT_COEXIST
++				if(	(pHalData->bt_coexist.BT_Coexist) &&
++					(pHalData->bt_coexist.BT_CoexistType == BT_CSR_BC4) )
++					pRegToSet = RegToSet_BT; // 0x97427431;
++				else
++#endif
++					pRegToSet = RegToSet_Normal; // 0xb972a841;
++
++				FactorToSet = *((u8 *)val);
++				if(FactorToSet <= 3)
++				{
++					FactorToSet = (1<<(FactorToSet + 2));
++					if(FactorToSet>0xf)
++						FactorToSet = 0xf;
++
++					for(index=0; index<4; index++)
++					{
++						if((pRegToSet[index] & 0xf0) > (FactorToSet<<4))
++							pRegToSet[index] = (pRegToSet[index] & 0x0f) | (FactorToSet<<4);
++					
++						if((pRegToSet[index] & 0x0f) > FactorToSet)
++							pRegToSet[index] = (pRegToSet[index] & 0xf0) | (FactorToSet);
++						
++						rtw_write8(Adapter, (REG_AGGLEN_LMT+index), pRegToSet[index]);
++					}
++
++					//RT_TRACE(COMP_MLME, DBG_LOUD, ("Set HW_VAR_AMPDU_FACTOR: %#x\n", FactorToSet));
++				}
++			}
++			break;
++		case HW_VAR_RXDMA_AGG_PG_TH:
++			#ifdef CONFIG_USB_RX_AGGREGATION
++			{
++				u8	threshold = *((u8 *)val);
++				if( threshold == 0)
++				{
++					threshold = pHalData->UsbRxAggPageCount;
++				}
++				rtw_write8(Adapter, REG_RXDMA_AGG_PG_TH, threshold);
++			}
++			#endif
++			break;
++		case HW_VAR_SET_RPWM:
++			rtw_write8(Adapter, REG_USB_HRPWM, *((u8 *)val));
++			break;
++		case HW_VAR_H2C_FW_PWRMODE:
++			{
++				u8	psmode = (*(u8 *)val);
++			
++				// Forece leave RF low power mode for 1T1R to prevent conficting setting in Fw power
++				// saving sequence. 2010.06.07. Added by tynli. Suggested by SD3 yschang.
++				if( (psmode != PS_MODE_ACTIVE) && (!IS_92C_SERIAL(pHalData->VersionID)))
++				{
++					rtl8192c_dm_RF_Saving(Adapter, _TRUE);
++				}
++				rtl8192c_set_FwPwrMode_cmd(Adapter, psmode);
++			}
++			break;
++		case HW_VAR_H2C_FW_JOINBSSRPT:
++			{
++				u8	mstatus = (*(u8 *)val);
++				rtl8192c_set_FwJoinBssReport_cmd(Adapter, mstatus);
++			}
++			break;
++#ifdef CONFIG_P2P_PS
++		case HW_VAR_H2C_FW_P2P_PS_OFFLOAD:
++			{
++				u8	p2p_ps_state = (*(u8 *)val);
++				rtl8192c_set_p2p_ps_offload_cmd(Adapter, p2p_ps_state);
++			}
++			break;
++#endif // CONFIG_P2P_PS
++#ifdef CONFIG_TDLS
++		case HW_VAR_TDLS_WRCR:
++			rtw_write32(Adapter, REG_RCR, rtw_read32(Adapter, REG_RCR)&(~ BIT(6) ));
++			break;
++		case HW_VAR_TDLS_INIT_CH_SEN:
++			{
++				rtw_write32(Adapter, REG_RCR, rtw_read32(Adapter, REG_RCR)&(~ BIT(6) )&(~ BIT(7) ));
++				rtw_write16(Adapter, REG_RXFLTMAP2,0xffff);
++
++				//disable update TSF
++				rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL)|BIT(4));
++			}
++			break;
++		case HW_VAR_TDLS_DONE_CH_SEN:
++			{
++				//enable update TSF
++				rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL)&(~ BIT(4)));
++				rtw_write32(Adapter, REG_RCR, rtw_read32(Adapter, REG_RCR)|(BIT(7) ));
++			}
++			break;
++		case HW_VAR_TDLS_RS_RCR:
++			rtw_write32(Adapter, REG_RCR, rtw_read32(Adapter, REG_RCR)|(BIT(6)));
++			break;
++#endif //CONFIG_TDLS
++		case HW_VAR_INITIAL_GAIN:
++			{
++				DIG_T	*pDigTable = &pdmpriv->DM_DigTable;					
++				u32 		rx_gain = ((u32 *)(val))[0];
++
++				if(rx_gain == 0xff){//restore rx gain
++					pDigTable->CurIGValue = pDigTable->BackupIGValue;
++					PHY_SetBBReg(Adapter, rOFDM0_XAAGCCore1, 0x7f,pDigTable->CurIGValue );
++					PHY_SetBBReg(Adapter, rOFDM0_XBAGCCore1, 0x7f,pDigTable->CurIGValue);
++				}
++				else{
++					pDigTable->BackupIGValue = pDigTable->CurIGValue;
++					PHY_SetBBReg(Adapter, rOFDM0_XAAGCCore1, 0x7f,rx_gain );
++					PHY_SetBBReg(Adapter, rOFDM0_XBAGCCore1, 0x7f,rx_gain);
++					pDigTable->CurIGValue = (u8)rx_gain;
++				}
++
++
++			}
++			break;
++		case HW_VAR_TRIGGER_GPIO_0:
++			rtl8192cu_trigger_gpio_0(Adapter);
++			break;
++#ifdef CONFIG_BT_COEXIST
++		case HW_VAR_BT_SET_COEXIST:
++			{
++				u8	bStart = (*(u8 *)val);
++				rtl8192c_set_dm_bt_coexist(Adapter, bStart);
++			}
++			break;
++		case HW_VAR_BT_ISSUE_DELBA:
++			{
++				u8	dir = (*(u8 *)val);
++				rtl8192c_issue_delete_ba(Adapter, dir);
++			}
++			break;
++#endif
++#ifdef CONFIG_SW_ANTENNA_DIVERSITY
++
++		case HW_VAR_ANTENNA_DIVERSITY_LINK:
++			SwAntDivRestAfterLink8192C(Adapter);
++			break;
++		case HW_VAR_ANTENNA_DIVERSITY_SELECT:
++			{
++				u8	Optimum_antenna = (*(u8 *)val);
++				//switch antenna to Optimum_antenna
++		//		DBG_8192C("==> HW_VAR_ANTENNA_DIVERSITY_SELECT , Ant_(%s)\n",(Optimum_antenna==2)?"A":"B");
++				if(pHalData->CurAntenna !=  Optimum_antenna)		
++				{
++					PHY_SetBBReg(Adapter, rFPGA0_XA_RFInterfaceOE, 0x300, Optimum_antenna);
++					pHalData->CurAntenna = Optimum_antenna ;
++					//DBG_8192C("==> HW_VAR_ANTENNA_DIVERSITY_SELECT , Ant_(%s)\n",(Optimum_antenna==2)?"A":"B");
++				}
++			}
++			break;
++#endif
++		case HW_VAR_EFUSE_BYTES: // To set EFUE total used bytes, added by Roger, 2008.12.22.
++			pHalData->EfuseUsedBytes = *((u16 *)val);			
++			break;
++		case HW_VAR_FIFO_CLEARN_UP:
++			{
++				#define RW_RELEASE_EN		BIT18
++				#define RXDMA_IDLE			BIT17
++				
++				struct pwrctrl_priv *pwrpriv = &Adapter->pwrctrlpriv;
++				u8 trycnt = 100;	
++				
++				//pause tx
++				rtw_write8(Adapter,REG_TXPAUSE,0xff);
++			
++				//keep sn
++				Adapter->xmitpriv.nqos_ssn = rtw_read16(Adapter,REG_NQOS_SEQ);
++
++				if(pwrpriv->bkeepfwalive != _TRUE)
++				{
++					//RX DMA stop
++					rtw_write32(Adapter,REG_RXPKT_NUM,(rtw_read32(Adapter,REG_RXPKT_NUM)|RW_RELEASE_EN));
++					do{
++						if(!(rtw_read32(Adapter,REG_RXPKT_NUM)&RXDMA_IDLE))
++							break;
++					}while(trycnt--);
++					if(trycnt ==0)
++						DBG_8192C("Stop RX DMA failed...... \n");
++
++					//RQPN Load 0
++					rtw_write16(Adapter,REG_RQPN_NPQ,0x0);
++					rtw_write32(Adapter,REG_RQPN,0x80000000);
++					rtw_mdelay_os(10);
++				}
++			}
++			break;
++			case HW_VAR_WOWLAN:
++#ifdef CONFIG_WOWLAN			
++			{
++				struct wowlan_ioctl_param *poidparam;
++
++				int res;
++
++				poidparam = (struct wowlan_ioctl_param *)val;
++				switch (poidparam->subcode){
++					case WOWLAN_PATTERN_MATCH:
++						//Turn on the Pattern Match feature
++						DBG_8192C("\n PATTERN_MATCH poidparam->subcode_value=%d\n",poidparam->subcode_value);
++						if(poidparam->subcode_value==1){
++							//rtw_write8(Adapter, REG_WOW_CTRL, (rtw_read8(Adapter, REG_WOW_CTRL)|BIT(1)));
++							Adapter->pwrctrlpriv.wowlan_pattern=_TRUE; 
++							DBG_8192C("%s Adapter->pwrctrlpriv.wowlan_pattern=%x\n",__FUNCTION__,Adapter->pwrctrlpriv.wowlan_pattern); 
++						}
++						else{
++							//rtw_write8(Adapter, REG_WOW_CTRL, (rtw_read8(Adapter, REG_WOW_CTRL)&~BIT(1)));
++							Adapter->pwrctrlpriv.wowlan_pattern=_FALSE; 
++						}
++						break;
++					case WOWLAN_MAGIC_PACKET:
++						//Turn on the Magic Packet feature
++						DBG_8192C("\n MAGIC_PACKET poidparam->subcode_value=%d\n",poidparam->subcode_value);
++						if(poidparam->subcode_value==1){
++							//rtw_write8(Adapter, REG_WOW_CTRL, (rtw_read8(Adapter, REG_WOW_CTRL)|BIT(2)));
++							Adapter->pwrctrlpriv.wowlan_magic=_TRUE; 
++							DBG_8192C("%s Adapter->pwrctrlpriv.wowlan_magic=%x\n",__FUNCTION__,Adapter->pwrctrlpriv.wowlan_magic); 
++						}
++						else{
++							//rtw_write8(Adapter, REG_WOW_CTRL, (rtw_read8(Adapter, REG_WOW_CTRL)&~BIT(2)));
++							Adapter->pwrctrlpriv.wowlan_magic=_FALSE; 
++						}
++						break;
++					case WOWLAN_UNICAST:
++						//Turn on the Unicast wakeup feature
++						if(poidparam->subcode_value==1){
++							//rtw_write8(Adapter, REG_WOW_CTRL, (rtw_read8(Adapter, REG_WOW_CTRL)|BIT(3)));
++							Adapter->pwrctrlpriv.wowlan_unicast=_TRUE; 
++						}
++						else{
++							//rtw_write8(Adapter, REG_WOW_CTRL, (rtw_read8(Adapter, REG_WOW_CTRL)&~BIT(3)));
++							Adapter->pwrctrlpriv.wowlan_unicast=_FALSE; 
++							DBG_8192C("%s Adapter->pwrctrlpriv.wowlan_unicast=%x\n",__FUNCTION__,Adapter->pwrctrlpriv.wowlan_unicast); 
++						}
++						break;
++					case WOWLAN_SET_PATTERN:
++						//Setting the Pattern for wowlan
++						res=rtw_wowlan_set_pattern(Adapter,poidparam->pattern);
++						if(res)
++							DBG_8192C("rtw_wowlan_set_pattern retern value=0x%x",res);
++						break;
++					case WOWLAN_DUMP_REG:
++						//dump the WKFMCAM and WOW_CTRL register
++						/*DBG_8192C("\n\n\n\n rtw_wowlan_ctrl: WOW_CTRL=0x%x \n",rtw_read8(Adapter, REG_WOW_CTRL));
++						DBG_8192C("print WKFMCAM index =%d ",poidparam->data[0]);
++						{	int cmd=0,offset=0;
++							for(offset=0;offset<5;offset++){
++								cmd=BIT(31)|(poidparam->data[0]+offset);
++								rtw_write32(Adapter, REG_WKFMCAM_CMD, cmd);
++								DBG_8192C("offset[%d]=0x%.8x  ",offset,rtw_read32(Adapter, REG_WKFMCAM_RWD));
++								DBG_8192C("offset[%d]=MSB 0x%x:0x%x:0x%x:0x%x  ",offset,rtw_read8(Adapter, REG_WKFMCAM_RWD+3),rtw_read8(Adapter, REG_WKFMCAM_RWD+2),rtw_read8(Adapter, REG_WKFMCAM_RWD+1),rtw_read8(Adapter, REG_WKFMCAM_RWD));
++							}
++						}*/
++					
++						break;
++					case WOWLAN_ENABLE:
++						SetFwRelatedForWoWLAN8192CU(Adapter, _TRUE);
++						//Set Pattern
++						if(Adapter->pwrctrlpriv.wowlan_pattern==_TRUE)
++							rtw_wowlan_reload_pattern(Adapter);
++						rtl8192c_set_wowlan_cmd(Adapter);
++						rtw_write8(Adapter, 0x6, rtw_read8(Adapter, 0x6)|BIT(3));
++						rtw_msleep_os(10);
++						//DBG_8192C(" \n REG_WOW_CTRL=0x%x \n",rtw_read8(Adapter, REG_WOW_CTRL));
++//						if(rtw_read8(Adapter, REG_WOW_CTRL)==0)
++//							rtw_write8(Adapter, REG_WOW_CTRL, (rtw_read8(Adapter, REG_WOW_CTRL)|BIT(1)|BIT(2)|BIT(3)));
++						//DBG_8192C(" \n REG_WOW_CTRL=0x%x \n",rtw_read8(Adapter, REG_WOW_CTRL));
++						break;
++	
++					case WOWLAN_DISABLE:
++						Adapter->pwrctrlpriv.wowlan_mode=_FALSE;
++						rtl8192c_set_wowlan_cmd(Adapter);
++						rtw_msleep_os(10);
++						break;
++					
++					case WOWLAN_STATUS:
++						poidparam->wakeup_reason = rtw_read8(Adapter, REG_WOWLAN_REASON);
++						DBG_8192C("wake on wlan reason 0x%02x\n", poidparam->wakeup_reason);
++						break;
++	
++					default:
++						break;
++				}
++				if (Adapter->pwrctrlpriv.wowlan_unicast||Adapter->pwrctrlpriv.wowlan_magic || Adapter->pwrctrlpriv.wowlan_pattern)
++					Adapter->pwrctrlpriv.wowlan_mode =_TRUE;
++				else
++					Adapter->pwrctrlpriv.wowlan_mode =_FALSE;
++			}
++
++			break;
++#endif //CONFIG_WOWLAN
++		case HW_VAR_CHECK_TXBUF:
++#ifdef CONFIG_CONCURRENT_MODE				
++			{
++				int i;
++				u8	RetryLimit = 0x01;
++				
++				//rtw_write16(Adapter, REG_RL,0x0101);
++				rtw_write16(Adapter, REG_RL, RetryLimit << RETRY_LIMIT_SHORT_SHIFT | RetryLimit << RETRY_LIMIT_LONG_SHIFT);
++		
++				for(i=0;i<1000;i++)
++				{
++					if(rtw_read32(Adapter, 0x200) != rtw_read32(Adapter, 0x204))
++					{
++						//DBG_871X("packet in tx packet buffer - 0x204=%x, 0x200=%x (%d)\n", rtw_read32(Adapter, 0x204), rtw_read32(Adapter, 0x200), i);
++						rtw_msleep_os(10);
++					}
++					else
++					{
++						DBG_871X("no packet in tx packet buffer (%d)\n", i);
++						break;
++					}
++				}
++
++				RetryLimit = 0x30;	
++				rtw_write16(Adapter, REG_RL, RetryLimit << RETRY_LIMIT_SHORT_SHIFT | RetryLimit << RETRY_LIMIT_LONG_SHIFT);
++		
++			}
++#endif
++			break;
++		case HW_VAR_BCN_VALID:
++			//BCN_VALID, BIT16 of REG_TDECTRL = BIT0 of REG_TDECTRL+2, write 1 to clear, Clear by sw
++			rtw_write8(Adapter, REG_TDECTRL+2, rtw_read8(Adapter, REG_TDECTRL+2) | BIT0); 
++			break;
++		case HW_VAR_USB_RXAGG_PAGE_TO:
++			rtw_write8(Adapter, REG_USB_DMA_AGG_TO, *((u8 *)val));
++			break;
++		default:
++			break;
++	}
++
++_func_exit_;
++}
++
++void GetHwReg8192CU(PADAPTER Adapter, u8 variable, u8* val)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++_func_enter_;
++
++	switch(variable)
++	{
++		case HW_VAR_BASIC_RATE:
++			*((u16 *)(val)) = pHalData->BasicRateSet;
++		case HW_VAR_TXPAUSE:
++			val[0] = rtw_read8(Adapter, REG_TXPAUSE);
++			break;
++		case HW_VAR_BCN_VALID:
++			//BCN_VALID, BIT16 of REG_TDECTRL = BIT0 of REG_TDECTRL+2
++			val[0] = (BIT0 & rtw_read8(Adapter, REG_TDECTRL+2))?_TRUE:_FALSE;
++			break;
++		case HW_VAR_DM_FLAG:
++			val[0] = pHalData->dmpriv.DMFlag;
++			break;
++		case HW_VAR_RF_TYPE:
++			val[0] = pHalData->rf_type;
++			break;
++		case HW_VAR_FWLPS_RF_ON:
++			{
++				//When we halt NIC, we should check if FW LPS is leave.
++				u32	valRCR;
++				
++				if(Adapter->pwrctrlpriv.rf_pwrstate == rf_off)
++				{
++					// If it is in HW/SW Radio OFF or IPS state, we do not check Fw LPS Leave,
++					// because Fw is unload.
++					val[0] = _TRUE;
++				}
++				else
++				{
++					valRCR = rtw_read32(Adapter, REG_RCR);
++					valRCR &= 0x00070000;
++					if(valRCR)
++						val[0] = _FALSE;
++					else
++						val[0] = _TRUE;
++				}
++			}
++			break;
++#ifdef CONFIG_ANTENNA_DIVERSITY
++		case HW_VAR_CURRENT_ANTENNA:
++			val[0] = pHalData->CurAntenna;
++			break;
++#endif
++		case HW_VAR_EFUSE_BYTES: // To get EFUE total used bytes, added by Roger, 2008.12.22.
++			*((u16 *)(val)) = pHalData->EfuseUsedBytes;	
++			break;
++		case HW_VAR_VID:
++			*((u16 *)(val)) = pHalData->EEPROMVID;
++			break;
++		case HW_VAR_PID:
++			*((u16 *)(val)) = pHalData->EEPROMPID;
++			break;
++		default:
++			break;
++	}
++
++_func_exit_;
++}
++
++//
++//	Description: 
++//		Query setting of specified variable.
++//
++u8
++GetHalDefVar8192CUsb(
++	IN	PADAPTER				Adapter,
++	IN	HAL_DEF_VARIABLE		eVariable,
++	IN	PVOID					pValue
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u8			bResult = _TRUE;
++
++	switch(eVariable)
++	{
++		case HAL_DEF_UNDERCORATEDSMOOTHEDPWDB:
++#if 0 //trunk
++			{
++				struct mlme_priv *pmlmepriv = &Adapter->mlmepriv;
++				struct sta_priv * pstapriv = &Adapter->stapriv;
++				struct sta_info * psta;
++				psta = rtw_get_stainfo(pstapriv, pmlmepriv->cur_network.network.MacAddress);
++				if(psta)
++				{
++					*((int *)pValue) = psta->rssi_stat.UndecoratedSmoothedPWDB;     
++				}
++			}
++#else //v4 branch
++				//if(check_fwstate(&Adapter->mlmepriv, WIFI_STATION_STATE) == _TRUE){
++			*((int *)pValue) = pHalData->dmpriv.UndecoratedSmoothedPWDB;
++				//}
++				//else{
++    
++				//}
++#endif
++			break;
++		case HAL_DEF_IS_SUPPORT_ANT_DIV:
++			#ifdef CONFIG_ANTENNA_DIVERSITY
++			*((u8 *)pValue) = (IS_92C_SERIAL(pHalData->VersionID) ||(pHalData->AntDivCfg==0))?_FALSE:_TRUE;
++			#endif
++			break;			
++		case HAL_DEF_CURRENT_ANTENNA:
++			#ifdef CONFIG_ANTENNA_DIVERSITY
++			*(( u8*)pValue) = pHalData->CurAntenna;			
++			#endif
++			break;
++		case HAL_DEF_DRVINFO_SZ:
++			*(( u32*)pValue) = DRVINFO_SZ;
++			break;
++		case HAL_DEF_MAX_RECVBUF_SZ:
++			*(( u32*)pValue) = MAX_RECVBUF_SZ;
++			break;
++		case HAL_DEF_RX_PACKET_OFFSET:
++			*(( u32*)pValue) = RXDESC_SIZE + DRVINFO_SZ;
++			break;
++		case HAL_DEF_DBG_DUMP_RXPKT:
++			*(( u8*)pValue) = pHalData->bDumpRxPkt;
++			break;
++		case HAL_DEF_DBG_DM_FUNC:
++			*(( u8*)pValue) = pHalData->dmpriv.DMFlag;
++			break;
++		default:
++			//RT_TRACE(COMP_INIT, DBG_WARNING, ("GetHalDefVar8192CUsb(): Unkown variable: %d!\n", eVariable));
++			bResult = _FALSE;
++			break;
++	}
++
++	return bResult;
++}
++
++
++
++
++//
++//	Description:
++//		Change default setting of specified variable.
++//
++u8
++SetHalDefVar8192CUsb(
++	IN	PADAPTER				Adapter,
++	IN	HAL_DEF_VARIABLE		eVariable,
++	IN	PVOID					pValue
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u8			bResult = _TRUE;
++
++	switch(eVariable)
++	{
++		case HAL_DEF_DBG_DUMP_RXPKT:
++			pHalData->bDumpRxPkt = *(( u8*)pValue);
++			break;
++		case HAL_DEF_DBG_DM_FUNC:
++			{
++				u8 dm_func = *(( u8*)pValue);
++				struct dm_priv	*pdmpriv = &pHalData->dmpriv;	
++				
++				if(dm_func == 0){ //disable all dynamic func
++					pdmpriv->DMFlag = DYNAMIC_FUNC_DISABLE;
++					DBG_8192C("==> Disable all dynamic function...\n");
++				}
++				else if(dm_func == 1){//disable DIG
++					pdmpriv->DMFlag &= (~DYNAMIC_FUNC_DIG);
++					DBG_8192C("==> Disable DIG...\n");
++				}
++				else if(dm_func == 2){//disable High power
++					pdmpriv->DMFlag &= (~DYNAMIC_FUNC_HP);
++				}
++				else if(dm_func == 3){//disable tx power tracking
++					pdmpriv->DMFlag &= (~DYNAMIC_FUNC_SS);
++					DBG_8192C("==> Disable tx power tracking...\n");
++				}
++				else if(dm_func == 4){//disable BT coexistence
++					pdmpriv->DMFlag &= (~DYNAMIC_FUNC_BT);
++				}
++				else if(dm_func == 5){//disable antenna diversity
++					pdmpriv->DMFlag &= (~DYNAMIC_FUNC_ANT_DIV);
++				}				
++				else if(dm_func == 6){//turn on all dynamic func
++					if(!(pdmpriv->DMFlag & DYNAMIC_FUNC_DIG))
++					{
++						struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++						DIG_T	*pDigTable = &pdmpriv->DM_DigTable;
++						pDigTable->PreIGValue = rtw_read8(Adapter,0xc50);	
++					}
++						
++					pdmpriv->DMFlag |= (DYNAMIC_FUNC_DIG|DYNAMIC_FUNC_HP|DYNAMIC_FUNC_SS|
++						DYNAMIC_FUNC_BT|DYNAMIC_FUNC_ANT_DIV) ;
++					DBG_8192C("==> Turn on all dynamic function...\n");
++				}			
++			}
++			break;
++		default:
++			//RT_TRACE(COMP_INIT, DBG_TRACE, ("SetHalDefVar819xUsb(): Unkown variable: %d!\n", eVariable));
++			bResult = _FALSE;
++			break;
++	}
++
++	return bResult;
++}
++
++u32  _update_92cu_basic_rate(_adapter *padapter, unsigned int mask)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(padapter);
++#ifdef CONFIG_BT_COEXIST
++	struct btcoexist_priv	*pbtpriv = &(pHalData->bt_coexist);
++#endif
++	unsigned int BrateCfg = 0;
++
++#ifdef CONFIG_BT_COEXIST
++	if(	(pbtpriv->BT_Coexist) &&	(pbtpriv->BT_CoexistType == BT_CSR_BC4)	)
++	{
++		BrateCfg = mask  & 0x151;
++		//DBG_8192C("BT temp disable cck 2/5.5/11M, (0x%x = 0x%x)\n", REG_RRSR, BrateCfg & 0x151);
++	}
++	else
++#endif
++	{
++		if(pHalData->VersionID != VERSION_TEST_CHIP_88C)
++			BrateCfg = mask  & 0x15F;
++		else	//for 88CU 46PING setting, Disable CCK 2M, 5.5M, Others must tuning
++			BrateCfg = mask  & 0x159;
++	}
++
++	BrateCfg |= 0x01; // default enable 1M ACK rate					
++
++	return BrateCfg;
++}
++
++void _update_response_rate(_adapter *padapter,unsigned int mask)
++{
++	u8	RateIndex = 0;
++	// Set RRSR rate table.
++	rtw_write8(padapter, REG_RRSR, mask&0xff);
++	rtw_write8(padapter,REG_RRSR+1, (mask>>8)&0xff);
++	
++
++	// Set RTS initial rate
++	while(mask > 0x1)
++	{
++		mask = (mask>> 1);
++		RateIndex++;
++	}
++	rtw_write8(padapter, REG_INIRTS_RATE_SEL, RateIndex);
++}
++
++void UpdateHalRAMask8192CUsb(PADAPTER padapter, u32 mac_id)
++{
++	//volatile unsigned int result;
++	u8	init_rate=0;
++	u8	networkType, raid;	
++	u32	mask;
++	u8	shortGIrate = _FALSE;
++	int	supportRateNum = 0;
++	struct sta_info	*psta;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX 		*cur_network = &(pmlmeinfo->network);
++#ifdef CONFIG_BT_COEXIST
++	struct btcoexist_priv	*pbtpriv = &(pHalData->bt_coexist);
++#endif
++
++	if (mac_id >= NUM_STA) //CAM_SIZE
++	{
++		return;
++	}
++
++	psta = pmlmeinfo->FW_sta_info[mac_id].psta;
++	if(psta == NULL)
++	{
++		return;
++	}
++
++	switch (mac_id)
++	{
++		case 0:// for infra mode
++#ifdef CONFIG_CONCURRENT_MODE
++		case 2:// first station uses macid=0, second station uses macid=2
++#endif
++			supportRateNum = rtw_get_rateset_len(cur_network->SupportedRates);
++			networkType = judge_network_type(padapter, cur_network->SupportedRates, supportRateNum) & 0xf;
++			//pmlmeext->cur_wireless_mode = networkType;
++			raid = networktype_to_raid(networkType);
++						
++			mask = update_supported_rate(cur_network->SupportedRates, supportRateNum);
++			mask |= (pmlmeinfo->HT_enable)? update_MSC_rate(&(pmlmeinfo->HT_caps)): 0;
++			mask |= ((raid<<28)&0xf0000000);
++			
++			if (support_short_GI(padapter, &(pmlmeinfo->HT_caps)))
++			{
++				shortGIrate = _TRUE;
++			}
++			
++			break;
++
++		case 1://for broadcast/multicast
++			supportRateNum = rtw_get_rateset_len(pmlmeinfo->FW_sta_info[mac_id].SupportedRates);
++			if(pmlmeext->cur_wireless_mode & WIRELESS_11B)
++				networkType = WIRELESS_11B;
++			else
++				networkType = WIRELESS_11G;
++			raid = networktype_to_raid(networkType);
++
++			mask = update_basic_rate(cur_network->SupportedRates, supportRateNum);
++			mask |= ((raid<<28)&0xf0000000);
++
++			break;
++
++		default: //for each sta in IBSS
++#ifdef CONFIG_TDLS
++			if(psta->tdls_sta_state & TDLS_LINKED_STATE)
++			{
++				shortGIrate = update_sgi_tdls(padapter, psta);
++				mask = update_mask_tdls(padapter, psta);
++				raid = mask>>28;
++				break;
++			}
++			else
++#endif //CONFIG_TDLS
++			{
++				supportRateNum = rtw_get_rateset_len(pmlmeinfo->FW_sta_info[mac_id].SupportedRates);
++				networkType = judge_network_type(padapter, pmlmeinfo->FW_sta_info[mac_id].SupportedRates, supportRateNum) & 0xf;
++				//pmlmeext->cur_wireless_mode = networkType;
++				raid = networktype_to_raid(networkType);
++				
++				mask = update_supported_rate(cur_network->SupportedRates, supportRateNum);
++				mask |= ((raid<<28)&0xf0000000);
++
++				//todo: support HT in IBSS
++				
++				break;
++			}
++	}
++	
++#ifdef CONFIG_BT_COEXIST
++	if( (pbtpriv->BT_Coexist) &&
++		(pbtpriv->BT_CoexistType == BT_CSR_BC4) &&
++		(pbtpriv->BT_CUR_State) &&
++		(pbtpriv->BT_Ant_isolation) &&
++		((pbtpriv->BT_Service==BT_SCO)||
++		(pbtpriv->BT_Service==BT_Busy)) )
++		mask &= 0xffffcfc0;
++	else		
++#endif
++		mask &=0xffffffff;
++	
++	
++	init_rate = get_highest_rate_idx(mask)&0x3f;
++	
++	if(pHalData->fw_ractrl == _TRUE)
++	{
++		u8 arg = 0;
++
++		//arg = (cam_idx-4)&0x1f;//MACID
++		arg = mac_id&0x1f;//MACID
++		
++		arg |= BIT(7);
++		
++		if (shortGIrate==_TRUE)
++			arg |= BIT(5);
++
++		DBG_871X("update raid entry, mask=0x%x, arg=0x%x\n", mask, arg);
++		psta->ra_mask=mask;
++#ifdef CONFIG_INTEL_PROXIM
++		if(padapter->proximity.proxim_on ==_TRUE){
++			arg &= ~BIT(6);
++		}
++		else {
++			arg |= BIT(6);
++		}
++#endif //CONFIG_INTEL_PROXIM
++		rtl8192c_set_raid_cmd(padapter, mask, arg);	
++		
++	}
++	else
++	{
++		if (shortGIrate==_TRUE)
++			init_rate |= BIT(6);
++
++		rtw_write8(padapter, (REG_INIDATA_RATE_SEL+mac_id), init_rate);		
++	}
++
++
++	//set ra_id
++	psta->raid = raid;
++	psta->init_rate = init_rate;
++
++	//set correct initial date rate for each mac_id
++	pdmpriv->INIDATA_RATE[mac_id] = init_rate;
++}
++
++void SetBeaconRelatedRegisters8192CUsb(PADAPTER padapter)
++{
++	u32	value32;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	//reset TSF, enable update TSF, correcting TSF On Beacon 
++	
++	//REG_BCN_INTERVAL
++	//REG_BCNDMATIM
++	//REG_ATIMWND
++	//REG_TBTT_PROHIBIT
++	//REG_DRVERLYINT
++	//REG_BCN_MAX_ERR	
++	//REG_BCNTCFG //(0x510)
++	//REG_DUAL_TSF_RST
++	//REG_BCN_CTRL //(0x550) 
++
++	//BCN interval
++	rtw_write16(padapter, REG_BCN_INTERVAL, pmlmeinfo->bcn_interval);
++	rtw_write8(padapter, REG_ATIMWND, 0x02);// 2ms
++
++	_InitBeaconParameters(padapter);
++
++	rtw_write8(padapter, REG_SLOT, 0x09);
++
++	value32 =rtw_read32(padapter, REG_TCR); 
++	value32 &= ~TSFRST;
++	rtw_write32(padapter,  REG_TCR, value32); 
++
++	value32 |= TSFRST;
++	rtw_write32(padapter, REG_TCR, value32); 
++
++	// NOTE: Fix test chip's bug (about contention windows's randomness)
++	rtw_write8(padapter,  REG_RXTSF_OFFSET_CCK, 0x50);
++	rtw_write8(padapter, REG_RXTSF_OFFSET_OFDM, 0x50);
++
++	_BeaconFunctionEnable(padapter, _TRUE, _TRUE);
++
++	ResumeTxBeacon(padapter);
++
++	//rtw_write8(padapter, 0x422, rtw_read8(padapter, 0x422)|BIT(6));
++	
++	//rtw_write8(padapter, 0x541, 0xff);
++
++	//rtw_write8(padapter, 0x542, rtw_read8(padapter, 0x541)|BIT(0));
++
++	rtw_write8(padapter, REG_BCN_CTRL, rtw_read8(padapter, REG_BCN_CTRL)|BIT(1));
++
++}
++
++static void rtl8192cu_init_default_value(_adapter * padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct pwrctrl_priv *pwrctrlpriv = &padapter->pwrctrlpriv;
++	struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++	u8	i;
++
++	//init default value
++	pHalData->fw_ractrl = _FALSE;	
++	pHalData->bIQKInitialized = _FALSE;
++	if(!pwrctrlpriv->bkeepfwalive)
++		pHalData->LastHMEBoxNum = 0;
++	
++	pHalData->bIQKInitialized = _FALSE;
++	//init dm default value
++	pdmpriv->TM_Trigger = 0;
++	pdmpriv->binitialized = _FALSE;
++	pdmpriv->prv_traffic_idx = 3;
++	pdmpriv->initialize = 0;
++
++	pdmpriv->ThermalValue_HP_index = 0;
++	for(i = 0; i < HP_THERMAL_NUM; i++)
++		pdmpriv->ThermalValue_HP[i] = 0;
++}
++
++static u8 rtl8192cu_ps_func(PADAPTER Adapter,HAL_INTF_PS_FUNC efunc_id, u8 *val)
++{	
++	u8 bResult = _TRUE;
++	switch(efunc_id){
++
++		#if defined(CONFIG_AUTOSUSPEND) && defined(SUPPORT_HW_RFOFF_DETECTED)
++		case HAL_USB_SELECT_SUSPEND:
++			{
++				u8 bfwpoll = *(( u8*)val);
++				rtl8192c_set_FwSelectSuspend_cmd(Adapter,bfwpoll ,500);//note fw to support hw power down ping detect
++			}
++			break;
++		#endif //CONFIG_AUTOSUSPEND && SUPPORT_HW_RFOFF_DETECTED
++
++		default:
++			break;
++	}
++	return bResult;
++}
++
++void rtl8192cu_set_hal_ops(_adapter * padapter)
++{
++	struct hal_ops	*pHalFunc = &padapter->HalFunc;
++
++_func_enter_;
++
++	padapter->HalData = rtw_zmalloc(sizeof(HAL_DATA_TYPE));
++	if(padapter->HalData == NULL){
++		DBG_8192C("cant not alloc memory for HAL DATA \n");
++	}
++	//_rtw_memset(padapter->HalData, 0, sizeof(HAL_DATA_TYPE));
++	padapter->hal_data_sz = sizeof(HAL_DATA_TYPE);
++
++	pHalFunc->hal_init = &rtl8192cu_hal_init;
++	pHalFunc->hal_deinit = &rtl8192cu_hal_deinit;
++
++	//pHalFunc->free_hal_data = &rtl8192c_free_hal_data;
++
++	pHalFunc->inirp_init = &rtl8192cu_inirp_init;
++	pHalFunc->inirp_deinit = &rtl8192cu_inirp_deinit;
++
++	pHalFunc->init_xmit_priv = &rtl8192cu_init_xmit_priv;
++	pHalFunc->free_xmit_priv = &rtl8192cu_free_xmit_priv;
++
++	pHalFunc->init_recv_priv = &rtl8192cu_init_recv_priv;
++	pHalFunc->free_recv_priv = &rtl8192cu_free_recv_priv;
++#ifdef CONFIG_SW_LED
++	pHalFunc->InitSwLeds = &rtl8192cu_InitSwLeds;
++	pHalFunc->DeInitSwLeds = &rtl8192cu_DeInitSwLeds;
++#else //case of hw led or no led
++	pHalFunc->InitSwLeds = NULL;
++	pHalFunc->DeInitSwLeds = NULL;	
++#endif//CONFIG_SW_LED
++
++	//pHalFunc->dm_init = &rtl8192c_init_dm_priv;
++	//pHalFunc->dm_deinit = &rtl8192c_deinit_dm_priv;
++
++	pHalFunc->init_default_value = &rtl8192cu_init_default_value;
++	pHalFunc->intf_chip_configure = &rtl8192cu_interface_configure;
++	pHalFunc->read_adapter_info = &ReadAdapterInfo8192CU;
++
++	//pHalFunc->set_bwmode_handler = &PHY_SetBWMode8192C;
++	//pHalFunc->set_channel_handler = &PHY_SwChnl8192C;
++
++	//pHalFunc->hal_dm_watchdog = &rtl8192c_HalDmWatchDog;
++
++	pHalFunc->SetHwRegHandler = &SetHwReg8192CU;
++	pHalFunc->GetHwRegHandler = &GetHwReg8192CU;
++  	pHalFunc->GetHalDefVarHandler = &GetHalDefVar8192CUsb;
++ 	pHalFunc->SetHalDefVarHandler = &SetHalDefVar8192CUsb;
++
++	pHalFunc->UpdateRAMaskHandler = &UpdateHalRAMask8192CUsb;
++	pHalFunc->SetBeaconRelatedRegistersHandler = &SetBeaconRelatedRegisters8192CUsb;
++
++	//pHalFunc->Add_RateATid = &rtl8192c_Add_RateATid;
++
++//#ifdef CONFIG_SW_ANTENNA_DIVERSITY
++	//pHalFunc->AntDivBeforeLinkHandler = &SwAntDivBeforeLink8192C;
++	//pHalFunc->AntDivCompareHandler = &SwAntDivCompare8192C;
++//#endif
++
++	pHalFunc->hal_xmit = &rtl8192cu_hal_xmit;
++	pHalFunc->mgnt_xmit = &rtl8192cu_mgnt_xmit;
++	pHalFunc->hal_xmitframe_enqueue = &rtl8192cu_hal_xmitframe_enqueue;
++
++	//pHalFunc->read_bbreg = &rtl8192c_PHY_QueryBBReg;
++	//pHalFunc->write_bbreg = &rtl8192c_PHY_SetBBReg;
++	//pHalFunc->read_rfreg = &rtl8192c_PHY_QueryRFReg;
++	//pHalFunc->write_rfreg = &rtl8192c_PHY_SetRFReg;
++
++#ifdef CONFIG_HOSTAPD_MLME
++	pHalFunc->hostap_mgnt_xmit_entry = &rtl8192cu_hostap_mgnt_xmit_entry;
++#endif
++	pHalFunc->interface_ps_func = &rtl8192cu_ps_func;
++
++	rtl8192c_set_hal_ops(pHalFunc);
++_func_exit_;
++
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/usb_ops_ce.c b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/usb_ops_ce.c
+new file mode 100755
+index 0000000..9523337
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/usb_ops_ce.c
+@@ -0,0 +1,1207 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HCI_OPS_OS_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <osdep_intf.h>
++
++#ifndef PLATFORM_OS_CE
++    #error "PLATFORM_OS_CE shall be set \n"
++#endif
++
++#ifndef CONFIG_USB_HCI
++	#error "CONFIG_USB_HCI shall be on!\n"
++#endif
++
++#include <usb_ops.h>
++#include <recv_osdep.h>
++
++#include <circ_buf.h>
++
++
++struct zero_bulkout_context
++{
++	void *pbuf;
++	void *purb;
++	void *pirp;
++	void *padapter;
++};
++
++
++
++#define PUSB_ERROR LPDWORD
++#define USBD_HALTED(Status) ((ULONG)(Status) >> 30 == 3)
++
++
++USB_PIPE ffaddr2pipehdl(struct dvobj_priv *pNdisCEDvice, u32 addr);
++
++
++static NTSTATUS usb_async_interrupt_in_complete( LPVOID Context );
++static NTSTATUS usb_async_interrupt_out_complete( LPVOID Context );
++
++DWORD usb_write_port_complete( LPVOID Context );
++DWORD usb_read_port_complete( LPVOID Context );
++
++void usb_read_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem)
++{
++_func_enter_;
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("%s(%u)\n",__FUNCTION__, __LINE__));
++_func_exit_;
++}
++
++
++
++BOOL
++CloseTransferHandle(
++    LPCUSB_FUNCS   pUsbFuncs,
++    USB_TRANSFER   hTransfer
++    )
++{
++    BOOL bRc = TRUE;
++
++    // This assert may fail on suprise remove,
++    // but should pass during normal I/O.
++    // ASSERT( pUsbFuncs->lpIsTransferComplete(hTransfer) ); 
++
++    // CloseTransfer aborts any pending transfers
++    if ( !pUsbFuncs->lpCloseTransfer(hTransfer) ) {
++     
++	RT_TRACE( _module_hci_ops_os_c_, _drv_err_, ("*** CloseTransfer ERROR:%d ***\n", GetLastError()));	
++        bRc = FALSE;
++    }
++
++    return bRc;
++}
++
++
++BOOL
++GetTransferStatus(
++    LPCUSB_FUNCS   pUsbFuncs,
++    USB_TRANSFER   hTransfer,
++    LPDWORD        pBytesTransferred , // OPTIONAL returns number of bytes transferred
++    PUSB_ERROR     pUsbError  	 // returns USB error code
++    )
++{
++
++    BOOL bRc = TRUE;
++
++    if ( pUsbFuncs->lpGetTransferStatus(hTransfer, pBytesTransferred, pUsbError) ) {
++        if ( USB_NO_ERROR != *pUsbError ) {
++		RT_TRACE( _module_hci_ops_os_c_, _drv_err_, ("*** CloseTransfer ERROR:%d ***\n", GetLastError()));		
++            RT_TRACE( _module_hci_ops_os_c_, _drv_err_, ("GetTransferStatus (BytesTransferred:%d, UsbError:0x%x)\n", pBytesTransferred?*pBytesTransferred:-1, pUsbError?*pUsbError:-1 )); 
++        }
++    } else {
++        RT_TRACE( _module_hci_ops_os_c_, _drv_err_,("*** GetTransferStatus ERROR:%d ***\n", GetLastError())); 
++        *pUsbError = USB_CANCELED_ERROR;
++        bRc = FALSE;
++    }
++
++    return bRc;
++}
++
++
++// The driver should never read RxCmd register. We have to set
++// RCR CMDHAT0 (bit6) to append Rx status before the Rx frame.
++//
++// |<--------  pBulkUrb->TransferBufferLength  ------------>|
++// +------------------+-------------------+------------+
++//  | Rx status (16 bytes)  | Rx frame .....             | CRC(4 bytes) |
++// +------------------+-------------------+------------+
++// ^
++// ^pRfd->Buffer.VirtualAddress
++//
++/*! \brief USB RX IRP Complete Routine.
++	@param Context pointer of RT_RFD
++*/
++u32 usb_read_port(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem)
++{
++    struct intf_priv	*pintfpriv		= pintfhdl->pintfpriv;
++    struct dvobj_priv	*pdvobj_priv	= (struct dvobj_priv*)pintfpriv->intf_dev;
++    _adapter			*adapter		= (_adapter *)pdvobj_priv->padapter;
++
++	struct recv_priv	*precvpriv	= &adapter->recvpriv;
++
++	struct recv_buf		*precvbuf	= (struct recv_buf *)rmem;
++	DWORD dwErr = ERROR_SUCCESS ;
++	DWORD dwBytesTransferred = 0 ;
++	USB_TRANSFER hTransfer = NULL;
++	USB_PIPE	hPipe;
++	LPCUSB_FUNCS usb_funcs_vp = pdvobj_priv->usb_extension._lpUsbFuncs;
++
++_func_enter_;
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("usb_read_port(%u)\n", __LINE__));
++
++#if (CONFIG_PWRCTRL == 1)
++    if (adapter->pwrctrlpriv.pnp_bstop_trx)
++	{
++        return _FALSE;
++    }
++#endif
++
++	if(adapter->bDriverStopped || adapter->bSurpriseRemoved) 
++	{
++		RT_TRACE(_module_hci_ops_os_c_, _drv_info_,("usb_read_port:( padapter->bDriverStopped ||padapter->bSurpriseRemoved)!!!\n"));
++		return _FALSE;
++	}
++
++	if(precvbuf !=NULL)
++	{
++
++		// get a recv buffer
++		rtl8192cu_init_recvbuf(adapter, precvbuf);
++	
++
++
++		_rtw_spinlock(&precvpriv->lock);
++		precvpriv->rx_pending_cnt++;
++		precvbuf->irp_pending = _TRUE;
++		_rtw_spinunlock(&precvpriv->lock);
++
++
++		//translate DMA FIFO addr to pipehandle
++		hPipe = ffaddr2pipehdl(pdvobj_priv, addr);
++		
++
++		RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("usb_read_port(%u)\n", __LINE__));
++
++		precvbuf->usb_transfer_read_port = (*usb_funcs_vp->lpIssueBulkTransfer)(
++			hPipe,
++			usb_read_port_complete,
++			precvbuf,
++			USB_IN_TRANSFER|USB_SHORT_TRANSFER_OK,
++			MAX_RECVBUF_SZ,
++			precvbuf->pbuf,
++			0);
++
++
++		if(precvbuf->usb_transfer_read_port)
++		{
++			
++		//	  GetTransferStatus(usb_funcs_vp, hTransfer, &dwBytesTransferred,&UsbRc);
++
++		//	  CloseTransferHandle(usb_funcs_vp, hTransfer);
++
++		}
++		else
++		{
++
++			dwErr = GetLastError();
++			//RT_TRACE( _module_hci_ops_os_c_, _drv_err_, ("usb_read_port ERROR : %d\n", dwErr));		 
++
++		}
++
++//	 	if (  USB_NO_ERROR != UsbRc && ERROR_SUCCESS == dwErr) {
++//	        dwErr = ERROR_GEN_FAILURE;
++//	    }
++
++
++		if ( ERROR_SUCCESS != dwErr ) {
++
++			SetLastError(dwErr);
++			RT_TRACE( _module_hci_ops_os_c_, _drv_err_, ("usb_read_port ERROR : %d\n", dwErr));	
++		}
++	
++		RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("-usb_read_port(%u)\n", __LINE__));
++
++	}
++	else // if(precvbuf !=NULL)
++	{
++		
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port:precv_frame ==NULL\n"));
++	}
++
++	return _TRUE;
++
++}
++
++DWORD usb_read_port_complete( PVOID context )
++{
++	struct recv_buf 	*precvbuf	= (struct recv_buf *)context;
++	_adapter			*adapter	= (_adapter *)precvbuf->adapter;
++	struct recv_priv	*precvpriv	= &adapter->recvpriv;
++
++
++	struct intf_hdl		*pintfhdl = &adapter->pio_queue->intf;
++    struct intf_priv	*pintfpriv    = pintfhdl->pintfpriv;
++    struct dvobj_priv	*pdvobj_priv  = (struct dvobj_priv*)pintfpriv->intf_dev;
++
++
++	LPCUSB_FUNCS usb_funcs_vp = pdvobj_priv->usb_extension._lpUsbFuncs;
++
++    DWORD dwBytesTransferred    = 0;
++    DWORD dwErr                 = USB_CANCELED_ERROR;
++
++	uint isevt, *pbuf;
++	int fComplete =_FALSE;
++
++
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("usb_read_port_complete(%u)\n", __LINE__));
++
++_func_enter_;
++
++
++	_rtw_spinlock_ex(&precvpriv->lock);
++	precvbuf->irp_pending=_FALSE;
++	precvpriv->rx_pending_cnt --;
++	_rtw_spinunlock_ex(&precvpriv->lock);	
++
++
++#if 1
++		
++	(*usb_funcs_vp->lpGetTransferStatus)(precvbuf->usb_transfer_read_port, &dwBytesTransferred, &dwErr);
++	fComplete = (*usb_funcs_vp->lpIsTransferComplete)(precvbuf->usb_transfer_read_port);
++	if(fComplete!=_TRUE)
++	{
++		RT_TRACE( _module_hci_ops_os_c_, _drv_err_, ("usb_read_port_complete CloseTransfer before complete\n"));
++	}
++	(*usb_funcs_vp->lpCloseTransfer)(precvbuf->usb_transfer_read_port);
++	
++	
++#endif
++
++
++	if(USB_NO_ERROR != dwErr)
++		RT_TRACE( _module_hci_ops_os_c_, _drv_err_, ("usb_read_port_complete Fail :%d\n",dwErr));
++	
++	{
++
++		if ( dwBytesTransferred > MAX_RECVBUF_SZ || dwBytesTransferred < RXDESC_SIZE )
++		{
++			RT_TRACE(_module_hci_ops_os_c_,_drv_err_,
++				("\n usb_read_port_complete: (pbulkurb->TransferBufferLength > MAX_RECVBUF_SZ) || (pbulkurb->TransferBufferLength < RXDESC_SIZE): %d\n",dwBytesTransferred));
++			rtw_read_port(adapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++
++    	    //usb_read_port(pintfhdl, 0, 0, (unsigned char *)precvframe);
++    	}
++		else
++		{
++			precvbuf->transfer_len = dwBytesTransferred;
++
++			pbuf = (uint*)precvbuf->pbuf;
++
++			if((isevt = *(pbuf+1)&0x1ff) == 0x1ff)
++			{
++				RT_TRACE(_module_hci_ops_os_c_,_drv_info_,
++					("\n usb_read_port_complete: get a event\n"));
++				rxcmd_event_hdl(adapter, pbuf);//rx c2h events
++
++				rtw_read_port(adapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++			}
++			else
++			{
++				if(recvbuf2recvframe(adapter, precvbuf)==_FAIL)//rx packets
++				{
++					//precvbuf->reuse = _TRUE;		
++					rtw_read_port(adapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++				}
++			}
++	    }
++	}
++
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("-usb_read_port_complete(%u)\n", __LINE__));
++
++_func_exit_;
++	return ERROR_SUCCESS;
++//	return STATUS_MORE_PROCESSING_REQUIRED;
++}
++
++void usb_read_port_cancel(_adapter *padapter){
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("usb_read_port_cancel(%u)\n",__FUNCTION__, __LINE__));
++}
++
++DWORD usb_write_mem_complete( LPVOID Context )
++{
++	int fComplete =_FALSE;
++	DWORD	dwBytes 	= 0;
++	DWORD	dwErr		= USB_CANCELED_ERROR;
++
++	_irqL irqL;
++	_list	*head;
++	_list *plist;
++	struct io_req	*pio_req;	
++	struct io_queue *pio_q = (struct io_queue *) Context;
++	struct intf_hdl *pintf = &(pio_q->intf);	
++	struct intf_priv *pintfpriv = pintf->pintfpriv;	
++	_adapter *padapter = (_adapter *)pintf->adapter;
++	NTSTATUS status = STATUS_SUCCESS;
++    struct xmit_priv * pxmitpriv	= &padapter->xmitpriv;
++
++	struct dvobj_priv * pdvobj_priv	= (struct dvobj_priv*)pintfpriv->intf_dev;
++
++    USB_HANDLE		usbHandle		= pdvobj_priv->usb_extension._hDevice;
++    LPCUSB_FUNCS	usb_funcs_vp	= pdvobj_priv->usb_extension._lpUsbFuncs;
++
++	// get the head from the processing io_queue
++	head = &(pio_q->processing);
++	
++_func_enter_;
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("+usb_write_mem_complete %p\n", Context));
++
++#if 1
++	_enter_critical_bh(&(pio_q->lock), &irqL);
++	
++
++	//free irp in processing list...	
++	while(rtw_is_list_empty(head) != _TRUE)
++	{
++		plist = get_next(head);	
++		rtw_list_delete(plist);
++		pio_req = LIST_CONTAINOR(plist, struct io_req, list);
++		_rtw_up_sema(&pio_req->sema);
++	}
++
++	_exit_critical_bh(&(pio_q->lock), &irqL);
++#endif
++
++
++#if 1
++		
++	(*usb_funcs_vp->lpGetTransferStatus)(pio_req->usb_transfer_write_mem , &dwBytes, &dwErr);
++	fComplete = (*usb_funcs_vp->lpIsTransferComplete)(pio_req->usb_transfer_write_mem);
++	if(fComplete!=_TRUE)
++	{
++		RT_TRACE( _module_hci_ops_os_c_, _drv_err_, ("usb_write_mem_complete CloseTransfer before complete\n"));
++	}
++	(*usb_funcs_vp->lpCloseTransfer)(pio_req->usb_transfer_write_mem );
++	
++#endif
++	
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("-usb_write_mem_complete\n"));
++
++_func_exit_;
++
++
++	return STATUS_MORE_PROCESSING_REQUIRED;
++
++}
++
++
++void usb_write_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *wmem)
++{
++
++	NTSTATUS NtStatus = STATUS_SUCCESS;
++    USB_PIPE	hPipe;
++	_irqL	irqL;
++
++	int 	fComplete	= _FALSE;
++	DWORD	dwBytes 	= 0;
++	DWORD	dwErr		= USB_CANCELED_ERROR;
++
++
++	struct io_req 		*pio_req;
++
++	_adapter 			*adapter 	= (_adapter *)pintfhdl->adapter;
++	struct intf_priv 	*pintfpriv	= pintfhdl->pintfpriv;
++	struct dvobj_priv   * pdvobj_priv   = (struct dvobj_priv*)pintfpriv->intf_dev;
++
++	 
++    struct xmit_priv	*pxmitpriv	= &adapter->xmitpriv;
++	struct io_queue 	*pio_queue 	= (struct io_queue *)adapter->pio_queue; 
++
++	LPCUSB_FUNCS usb_funcs_vp = pdvobj_priv->usb_extension._lpUsbFuncs;
++
++
++_func_enter_;
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("usb_write_mem(%u) pintfhdl %p wmem %p\n", __LINE__, pintfhdl, wmem));
++
++	// fetch a io_request from the io_queue
++	pio_req = alloc_ioreq(pio_queue);
++		
++	if ((pio_req == NULL)||(adapter->bSurpriseRemoved))
++	{
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("async_irp_write32 : pio_req =0x%x adapter->bSurpriseRemoved=0x%x",pio_req,adapter->bSurpriseRemoved ));
++		goto exit;
++	}	
++
++	_enter_critical_bh(&(pio_queue->lock), &irqL);
++
++
++	// insert the io_request into processing io_queue
++	rtw_list_insert_tail(&(pio_req->list),&(pio_queue->processing));
++	
++	
++	if((adapter->bDriverStopped) || (adapter->bSurpriseRemoved) ||(adapter->pwrctrlpriv.pnp_bstop_trx)) 
++	{
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("\npadapter->pwrctrlpriv.pnp_bstop_trx==_TRUE\n"));
++		goto exit;
++	}
++	
++	//translate DMA FIFO addr to pipehandle
++	hPipe = ffaddr2pipehdl(pdvobj_priv, addr);	
++
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_,("usb_write_mem(%u)\n",__LINE__));
++
++	pio_req->usb_transfer_write_mem = (*usb_funcs_vp->lpIssueBulkTransfer)(
++		hPipe,
++		usb_write_mem_complete, 
++		pio_queue,
++		USB_OUT_TRANSFER,
++		cnt,
++		wmem,
++		0);
++
++#if 0
++
++	(*usb_funcs_vp->lpGetTransferStatus)(pio_req->usb_transfer_write_mem , &dwBytes, &dwErr);
++
++	while( fComplete != _TRUE)
++	{
++		fComplete = (*usb_funcs_vp->lpIsTransferComplete)(pio_req->usb_transfer_write_mem);
++		if(fComplete==_TRUE)
++		{
++			(*usb_funcs_vp->lpCloseTransfer)(pio_req->usb_transfer_write_mem );
++			RT_TRACE( _module_hci_ops_os_c_, _drv_err_, ("usb_write_mem finished\n"));
++			break;
++		}
++		else
++		{
++			RT_TRACE( _module_hci_ops_os_c_, _drv_err_, 
++				("usb_write_mem not yet finished %X\n", 
++				pio_req->usb_transfer_write_mem));
++			rtw_msleep_os(10);
++		}
++		
++	}
++
++#endif
++
++
++//	_rtw_down_sema(&pio_req->sema);	
++
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("-usb_write_mem(%X)\n",pio_req->usb_transfer_write_mem));
++
++	_exit_critical_bh(&(pio_queue->lock), &irqL);
++
++	_rtw_down_sema(&pio_req->sema); 
++	free_ioreq(pio_req, pio_queue);
++
++exit:
++_func_exit_;
++	return;
++}
++
++u32 usb_write_cnt=0;
++u32 usb_complete_cnt=0;
++
++USB_PIPE ffaddr2pipehdl(struct dvobj_priv *pNdisCEDvice, u32 addr)
++{
++	USB_PIPE	PipeHandle = NULL;
++	_adapter	*padapter = pNdisCEDvice->padapter;
++
++	
++	if(pNdisCEDvice->nr_endpoint == 11)
++	{		
++		switch(addr)
++		{	    
++	     		case RTL8712_DMA_BEQ:
++		 		PipeHandle= padapter->halpriv.pipehdls_r8712[3] ; 
++				break;
++	     		case RTL8712_DMA_BKQ:
++			 	PipeHandle=  padapter->halpriv.pipehdls_r8712[4]; 
++				break;
++	     		case RTL8712_DMA_VIQ:
++		 		PipeHandle=  padapter->halpriv.pipehdls_r8712[2]; 
++				break;
++	    		case RTL8712_DMA_VOQ:
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[1]; 
++				break;					
++                     case RTL8712_DMA_BCNQ:	
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[6]; 
++				break;	 	
++			case RTL8712_DMA_BMCQ:	//HI Queue
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[7]; 
++				break;	
++			case RTL8712_DMA_MGTQ:				
++		 		PipeHandle=  padapter->halpriv.pipehdls_r8712[8]; 
++				break;
++                     case RTL8712_DMA_RX0FF:
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[0]; 
++				break;	 	
++			case RTL8712_DMA_C2HCMD:		 	
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[5]; 
++				break;
++			case RTL8712_DMA_H2CCMD:
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[9]; 
++				break;	
++				
++		}
++
++	}
++	else if(pNdisCEDvice->nr_endpoint == 6)
++	{
++		switch(addr)
++		{	    
++			case RTL8712_DMA_BEQ:
++		 		PipeHandle=  padapter->halpriv.pipehdls_r8712[3]; 
++				break;
++	     	case RTL8712_DMA_BKQ:
++			 	PipeHandle=  padapter->halpriv.pipehdls_r8712[4]; 
++				break;
++	     	case RTL8712_DMA_VIQ:
++		 		PipeHandle=  padapter->halpriv.pipehdls_r8712[2]; 
++				break;
++	    	case RTL8712_DMA_VOQ:                   		
++		 		PipeHandle=  padapter->halpriv.pipehdls_r8712[1]; 
++				break;
++			case RTL8712_DMA_RX0FF:
++			case RTL8712_DMA_C2HCMD:		 	
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[0]; 
++				break;
++			case RTL8712_DMA_H2CCMD:
++			case RTL8712_DMA_BCNQ:					
++			case RTL8712_DMA_BMCQ:	
++			case RTL8712_DMA_MGTQ:			
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[5]; 
++				break;	
++				
++		}
++
++	}
++	else if(pNdisCEDvice->nr_endpoint == 4)
++	{
++		switch(addr)
++		{	    
++	     	case RTL8712_DMA_BEQ:
++		 	case RTL8712_DMA_BKQ:
++			 	PipeHandle=  padapter->halpriv.pipehdls_r8712[2]; 
++				break;
++     		case RTL8712_DMA_VIQ:
++		 	case RTL8712_DMA_VOQ:					
++		 		PipeHandle=  padapter->halpriv.pipehdls_r8712[1]; 
++				break;
++			case RTL8712_DMA_RX0FF:
++			case RTL8712_DMA_C2HCMD:		 	
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[0]; 
++				break;
++			case RTL8712_DMA_H2CCMD:	
++			case RTL8712_DMA_BCNQ:					
++			case RTL8712_DMA_BMCQ:	
++			case RTL8712_DMA_MGTQ:				
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[3]; 
++				break;	
++		}
++	
++	}
++	else
++	{
++	   RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("ffaddr2pipehdl():nr_endpoint=%d error!\n", pNdisCEDvice->nr_endpoint));	   
++	}
++		
++	return PipeHandle;
++
++}
++
++DWORD usb_bulkout_zero_complete( LPVOID pZeroContext )
++{
++	struct zero_bulkout_context *pcontext = (struct zero_bulkout_context *)pZeroContext;
++	_adapter * padapter = pcontext->padapter;
++    struct dvobj_priv *	pdvobj_priv = (struct dvobj_priv *)&padapter->dvobjpriv;
++	LPCUSB_FUNCS usb_funcs_vp = pdvobj_priv->usb_extension._lpUsbFuncs;
++	struct xmit_priv  * pxmitpriv	= &padapter->xmitpriv;
++
++	int 	fComplete			=_FALSE;
++	DWORD	dwBytesTransferred	= 0;
++	DWORD	dwErr				= USB_CANCELED_ERROR;
++
++_func_enter_;
++
++#if 1
++				
++	(*usb_funcs_vp->lpGetTransferStatus)(pxmitpriv->usb_transfer_write_port, &dwBytesTransferred, &dwErr);
++	fComplete = (*usb_funcs_vp->lpIsTransferComplete)(pxmitpriv->usb_transfer_write_port);
++	if(fComplete!=_TRUE)
++	{
++		RT_TRACE( _module_hci_ops_os_c_, _drv_err_, ("usb_bulkout_zero_complete CloseTransfer before complete\n"));
++	}
++	(*usb_funcs_vp->lpCloseTransfer)(pxmitpriv->usb_transfer_write_port);
++	
++#endif
++
++	if(pcontext)
++	{
++		if(pcontext->pbuf)
++		{			
++			rtw_mfree(pcontext->pbuf, sizeof(int));	
++		}	
++
++		rtw_mfree((u8*)pcontext, sizeof(struct zero_bulkout_context));	
++	}	
++
++_func_exit_;
++
++	return ERROR_SUCCESS;
++	
++
++}
++
++u32 usb_bulkout_zero(struct intf_hdl *pintfhdl, u32 addr)
++{	
++	struct zero_bulkout_context *pcontext;
++	unsigned char *pbuf;
++	u8 len = 0 ;
++	_adapter *padapter = (_adapter *)pintfhdl->adapter;
++	struct dvobj_priv	*pdvobj = (struct dvobj_priv *)&padapter->dvobjpriv;	
++	struct xmit_priv	* pxmitpriv     = &padapter->xmitpriv;
++     
++
++	LPCUSB_FUNCS usb_funcs_vp = pdvobj->usb_extension._lpUsbFuncs;
++
++	USB_PIPE	hPipe;
++
++_func_enter_;
++
++	if((padapter->bDriverStopped) || (padapter->bSurpriseRemoved) ||(padapter->pwrctrlpriv.pnp_bstop_trx))
++	{		
++		return _FAIL;
++	}
++
++
++	pcontext = (struct zero_bulkout_context *)rtw_zmalloc(sizeof(struct zero_bulkout_context));
++
++	pbuf = (unsigned char *)rtw_zmalloc(sizeof(int));	
++
++	len = 0;
++	
++	pcontext->pbuf = pbuf;
++	pcontext->purb = NULL;
++	pcontext->pirp = NULL;
++	pcontext->padapter = padapter;
++                    
++
++//translate DMA FIFO addr to pipehandle
++	hPipe = ffaddr2pipehdl(pdvobj, addr);
++
++
++
++
++	pxmitpriv->usb_transfer_write_port = (*usb_funcs_vp->lpIssueBulkTransfer)(
++						        hPipe, usb_bulkout_zero_complete, 
++						        pcontext, USB_OUT_TRANSFER,
++					    	    len, pbuf, 0);
++
++	
++_func_exit_;
++	
++	return _SUCCESS;
++
++}
++
++u32 usb_write_port(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *wmem)
++{
++
++    u32	i, bwritezero = _FALSE;
++	u32	ac_tag = addr;
++
++    u8*	ptr;
++
++	struct intf_priv    * pintfpriv     = pintfhdl->pintfpriv;
++	struct dvobj_priv   * pdvobj_priv   = (struct dvobj_priv*)pintfpriv->intf_dev;
++	_adapter            * padapter      = pdvobj_priv->padapter;
++
++    struct xmit_priv	* pxmitpriv     = &padapter->xmitpriv;
++    struct xmit_frame   * pxmitframe    = (struct xmit_frame *)wmem;
++
++	LPCUSB_FUNCS usb_funcs_vp = pdvobj_priv->usb_extension._lpUsbFuncs;
++
++    USB_PIPE	hPipe;
++
++	u32			bResult = _FALSE;
++
++_func_enter_;
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("+usb_write_port\n"));
++
++#if (CONFIG_PWRCTRL == 1)
++    if(padapter->pwrctrlpriv.pnp_bstop_trx==_TRUE){
++       	RT_TRACE( _module_hci_ops_os_c_, _drv_err_, ("\npadapter->pwrctrlpriv.pnp_bstop_trx==_TRUE\n"));
++
++    }
++#endif
++
++	if((padapter->bDriverStopped) || (padapter->bSurpriseRemoved) ||(padapter->pwrctrlpriv.pnp_bstop_trx))
++	{
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_write_port:( padapter->bDriverStopped ||padapter->bSurpriseRemoved ||adapter->pwrctrlpriv.pnp_bstop_trx)!!!\n"));
++		bResult = _FALSE;
++		goto exit;
++	}
++
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("usb_write_port(%u)\n", __LINE__));
++
++	for(i=0; i<8; i++)
++	{
++		if(pxmitframe->bpending[i] == _FALSE)
++		{
++			_rtw_spinlock(&pxmitpriv->lock);	
++			pxmitpriv->txirp_cnt++;
++			pxmitframe->bpending[i]  = _TRUE;
++			_rtw_spinunlock(&pxmitpriv->lock);
++			
++			pxmitframe->sz[i] = cnt;
++			pxmitframe->ac_tag[i] = ac_tag;
++
++			break;
++		}
++	}	
++
++
++	//TODO:
++	if (pdvobj_priv->ishighspeed)
++	{
++		if(cnt> 0 && cnt%512 == 0)
++		{
++			RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("ishighspeed, cnt=%d\n", cnt));
++		//	cnt=cnt+1;
++			bwritezero = _TRUE;
++
++		}	
++	}
++	else
++	{
++		if(cnt > 0 && cnt%64 == 0)
++		{
++			RT_TRACE(_module_hci_ops_os_c_,_drv_info_,("cnt=%d\n", cnt));
++		//	cnt=cnt+1;
++			bwritezero = _TRUE;
++
++		}	
++	}
++
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("usb_write_port: pipe handle convert\n"));
++
++	//translate DMA FIFO addr to pipehandle
++	hPipe = ffaddr2pipehdl(pdvobj_priv, addr);
++
++
++#if 0
++	// for tx fifo, the maximum payload number is 8,
++	// we workaround this issue here by separate whole fifo into 8 segments.
++	if (cnt <= 500)
++		cnt = 500;
++#endif
++
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_,
++		("usb_write_port(%u): pxmitframe %X  pxmitframe->padapter %X\n",__LINE__, pxmitframe, pxmitframe->padapter));
++
++	pxmitpriv->usb_transfer_write_port = (*usb_funcs_vp->lpIssueBulkTransfer)(
++						        hPipe, usb_write_port_complete, 
++						        pxmitframe, USB_OUT_TRANSFER,
++					    	    cnt, pxmitframe->mem_addr, 0);
++
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("%s(%u)\n",__FUNCTION__, __LINE__));
++
++	ptr=(u8 *)&pxmitframe->mem;
++
++#if 0
++	if (pdvobj_priv->ishighspeed)
++	{
++		ptr=ptr+512;
++	}
++	else
++	{
++		ptr=ptr+64;
++
++	}
++#endif
++	if(bwritezero == _TRUE)
++	{
++		usb_bulkout_zero(pintfhdl, addr);
++	}
++
++//	if (!pxmitframe->usb_transfer_xmit)
++//	    padapter->bSurpriseRemoved=_TRUE;
++
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("%s(%u)\n",__FUNCTION__, __LINE__));
++	bResult = _SUCCESS;
++
++exit:
++_func_exit_;
++	return bResult;
++}
++
++DWORD usb_write_port_complete( LPVOID Context )
++{
++
++//    u8 *ptr;
++
++    struct xmit_frame *	pxmitframe  = (struct xmit_frame *) Context;
++    _adapter          * padapter    = pxmitframe->padapter;
++    struct dvobj_priv *	pdvobj_priv = (struct dvobj_priv *)&padapter->dvobjpriv;
++	struct xmit_priv  * pxmitpriv   = &padapter->xmitpriv;
++	struct xmit_buf *pxmitbuf = pxmitframe->pxmitbuf;
++	LPCUSB_FUNCS usb_funcs_vp = pdvobj_priv->usb_extension._lpUsbFuncs;
++
++	int		fComplete			=_FALSE;
++	DWORD	dwBytesTransferred	= 0;
++	DWORD	dwErr				= USB_CANCELED_ERROR;
++
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("%s(%u), pxmitframe %X\n",__FUNCTION__, __LINE__, Context));
++
++_func_enter_;
++
++	RT_TRACE(_module_hci_ops_os_c_,_drv_info_,("+usb_write_port_complete\n"));
++
++	_rtw_spinlock_ex(&pxmitpriv->lock);	
++	pxmitpriv->txirp_cnt--;
++	_rtw_spinunlock_ex(&pxmitpriv->lock);
++
++	if(pxmitpriv->txirp_cnt==0){
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_write_port_complete: txirp_cnt== 0, set allrxreturnevt!\n"));		
++		_rtw_up_sema(&(pxmitpriv->tx_retevt));
++	}
++
++
++	//not to consider tx fragment
++	rtw_free_xmitframe(pxmitpriv, pxmitframe);		
++
++
++#if 1
++			
++	(*usb_funcs_vp->lpGetTransferStatus)(pxmitpriv->usb_transfer_write_port, &dwBytesTransferred, &dwErr);
++	fComplete = (*usb_funcs_vp->lpIsTransferComplete)(pxmitpriv->usb_transfer_write_port);
++	if(fComplete!=_TRUE)
++	{
++		RT_TRACE( _module_hci_ops_os_c_, _drv_err_, ("usb_write_port_complete CloseTransfer before complete\n"));
++	}
++	(*usb_funcs_vp->lpCloseTransfer)(pxmitpriv->usb_transfer_write_port);
++
++#else
++
++	if((*usb_funcs_vp->lpIsTransferComplete)(pxmitpriv->usb_transfer_write_port))
++	{
++		(*usb_funcs_vp->lpCloseTransfer)(pxmitpriv->usb_transfer_write_port);
++	}
++
++#endif
++
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, 
++		("%s(%u): pxmitpriv %X pxmitpriv->free_xmitframe_cnt %X pxmitframe->padapter %X pxmitframe->padapter %X\n", 
++		__LINE__, pxmitpriv, pxmitpriv->free_xmitframe_cnt, pxmitframe->padapter));
++
++    rtl8192cu_xmitframe_complete(padapter, pxmitpriv, pxmitbuf);
++
++_func_exit_;
++
++    return STATUS_SUCCESS;
++}
++
++DWORD usb_write_scsi_complete(LPVOID pTxContext) 
++{
++#ifndef PLATFORM_OS_CE
++	struct SCSI_BUFFER_ENTRY *psb_entry = (struct SCSI_BUFFER_ENTRY *)pTxContext;
++	_adapter 				 *padapter 	= psb_entry->padapter;
++	struct SCSI_BUFFER 		 *psb 		= padapter->pscsi_buf;
++	struct xmit_priv 		 *pxmitpriv = &(padapter->xmitpriv);
++    struct dvobj_priv 		*pdvobj_priv = (struct dvobj_priv *)&padapter->dvobjpriv;
++	LPCUSB_FUNCS 		  	 lpUsbFuncs = pdvobj_priv->pUsbExtension->_lpUsbFuncs;
++
++	int 	fComplete			=_FALSE;
++	DWORD	dwBytesTransferred	= 0;
++	DWORD	dwErr				= USB_CANCELED_ERROR;
++
++_func_enter_;
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("%s(%u): circ_space = %d\n",__FUNCTION__, __LINE__, CIRC_SPACE( psb->head,psb->tail,  SCSI_BUFFER_NUMBER)));
++
++#if 1
++				
++	(*lpUsbFuncs->lpGetTransferStatus)(psb_entry->usb_transfer_scsi_txcmd, &dwBytesTransferred, &dwErr);
++	fComplete = (*lpUsbFuncs->lpIsTransferComplete)(psb_entry->usb_transfer_scsi_txcmd);
++	if(fComplete!=_TRUE)
++	{
++		RT_TRACE( _module_hci_ops_os_c_, _drv_err_, ("usb_write_scsi_complete CloseTransfer before complete\n"));
++	}
++	(*lpUsbFuncs->lpCloseTransfer)(psb_entry->usb_transfer_scsi_txcmd);
++	
++#else
++
++	if((*lpUsbFuncs->lpIsTransferComplete)(psb_entry->usb_transfer_scsi_txcmd))
++		(*lpUsbFuncs->lpCloseTransfer)(psb_entry->usb_transfer_scsi_txcmd);
++#endif
++
++	memset(psb_entry->entry_memory, 0, 8);
++
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("%s(%u)\n",__FUNCTION__, __LINE__));
++	if((psb->tail+1)==SCSI_BUFFER_NUMBER)
++		psb->tail=0;
++	else 
++		psb->tail++;
++
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("%s(%u)\n",__FUNCTION__, __LINE__));
++	if(CIRC_CNT(psb->head,psb->tail,SCSI_BUFFER_NUMBER)==0){
++		RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("write_txcmd_scsififo_callback: up_sema\n"));
++		_rtw_up_sema(&pxmitpriv->xmit_sema);
++	}
++
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("%s(%u)\n",__FUNCTION__, __LINE__));
++	if(padapter->bSurpriseRemoved) {
++		return STATUS_MORE_PROCESSING_REQUIRED;
++	}
++
++_func_exit_;
++#endif
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("%s(%u)\n",__FUNCTION__, __LINE__));
++	return STATUS_MORE_PROCESSING_REQUIRED;
++}
++
++uint usb_write_scsi(struct intf_hdl *pintfhdl, u32 cnt, u8 *wmem)
++{
++
++#ifndef PLATFORM_OS_CE
++
++	_adapter 		  *padapter = (_adapter *)pintfhdl->adapter;
++	struct dvobj_priv *pdev 	= (struct dvobj_priv*)&padapter->dvobjpriv;
++
++	struct SCSI_BUFFER       *psb      =padapter->pscsi_buf;
++	struct SCSI_BUFFER_ENTRY *psb_entry=LIST_CONTAINOR(wmem,struct SCSI_BUFFER_ENTRY,entry_memory);
++
++_func_enter_;
++	if(padapter->bSurpriseRemoved||padapter->bDriverStopped)
++		return 0;
++	
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("%s(%u)\n",__FUNCTION__, __LINE__));
++	psb_entry->usb_transfer_scsi_txcmd=pdev->pUsbExtension->_lpUsbFuncs->lpIssueBulkTransfer(
++			pdev->scsi_out_pipehandle,
++			usb_write_scsi_complete,
++			psb_entry,
++			USB_OUT_TRANSFER,
++			cnt,
++			wmem,
++			0);
++	
++_func_exit_;
++#endif
++
++   return _SUCCESS;  
++}
++
++
++/*
++ */
++uint usb_init_intf_priv(struct intf_priv *pintfpriv)
++{
++	// get the dvobj_priv object
++	struct dvobj_priv * pNdisCEDvice = (struct dvobj_priv *) pintfpriv->intf_dev;
++
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("%s(%u)\n",__FUNCTION__, __LINE__));
++	// set init intf_priv init status as _IOREADY
++	pintfpriv->intf_status = _IOREADY;
++
++	//  determine the max io size by dvobj_priv.ishighspeed
++	if(pNdisCEDvice->ishighspeed)
++		pintfpriv->max_iosz =  128;
++	else
++		pintfpriv->max_iosz =  64;
++
++	//  read/write size set as 0
++	pintfpriv->io_wsz = 0;
++	pintfpriv->io_rsz = 0;
++
++	//  init io_rwmem buffer
++	pintfpriv->allocated_io_rwmem = rtw_zmalloc(pintfpriv->max_iosz +4);
++	if (pintfpriv->allocated_io_rwmem == NULL)
++	{
++		rtw_mfree((u8 *)(pintfpriv->allocated_io_rwmem), pintfpriv->max_iosz +4);
++		return _FAIL;
++	}
++	else
++	{
++		// word align the io_rwmem
++		pintfpriv->io_rwmem = pintfpriv->allocated_io_rwmem + 4 - ( (u32)(pintfpriv->allocated_io_rwmem) & 3);
++	}
++
++#ifndef PLATFORM_OS_CE
++
++	//  init io_r_mem buffer
++	pintfpriv->allocated_io_r_mem = rtw_zmalloc(pintfpriv->max_iosz +4);
++	if (pintfpriv->allocated_io_r_mem == NULL)
++	{
++		rtw_mfree((u8 *)(pintfpriv->allocated_io_r_mem), pintfpriv->max_iosz +4);
++		return _FAIL;
++	}
++	else
++	{
++		// word align the io_rwmem
++		pintfpriv->io_r_mem = pintfpriv->allocated_io_r_mem + 4 - ( (u32)(pintfpriv->allocated_io_r_mem) & 3);
++	}
++#endif
++
++	return _SUCCESS;
++}
++
++void usb_unload_intf_priv(struct intf_priv *pintfpriv)
++{
++#ifndef PLATFORM_OS_CE
++
++	rtw_mfree((u8 *)(pintfpriv->allocated_io_rwmem), pintfpriv->max_iosz+4);
++	rtw_mfree((u8 *)(pintfpriv->allocated_io_r_mem), pintfpriv->max_iosz+4);
++#endif
++
++	RT_TRACE( _module_hci_ops_os_c_, _drv_info_, ("%s(%u)\n",__FUNCTION__, __LINE__));
++}
++
++
++
++void usb_write_port_cancel(_adapter *padapter)
++{
++
++	sint i,j;
++	struct dvobj_priv   *pdev = &padapter->dvobjpriv;
++	struct xmit_priv *pxmitpriv=&padapter->xmitpriv;
++	struct xmit_frame *pxmitframe;
++
++	_rtw_spinlock(&pxmitpriv->lock);
++	pxmitpriv->txirp_cnt--; //decrease 1 for Initialize ++
++	_rtw_spinunlock(&pxmitpriv->lock);
++	
++	if (pxmitpriv->txirp_cnt) 
++	{
++		// Canceling Pending Recv Irp
++		pxmitframe= (struct xmit_frame *)pxmitpriv->pxmit_frame_buf;
++		
++		for( i = 0; i < NR_XMITFRAME; i++ )
++		{
++			for(j=0;j<8;j++)
++			{
++				if (pxmitframe->bpending[j]==_TRUE)
++				{			
++
++					RT_TRACE(_module_hci_ops_os_c_,_drv_err_,(" usb_write_port_cancel() :IoCancelIrp\n"));
++
++				}
++			}
++			
++			pxmitframe++;
++		}
++
++		_rtw_down_sema(&(pxmitpriv->tx_retevt));
++		
++	}
++
++}
++
++DWORD usbctrl_vendorreq_complete(LPVOID lpvNotifyParameter)
++{
++	struct dvobj_priv  *pdvobjpriv = (struct dvobj_priv*)lpvNotifyParameter;
++
++	RT_TRACE(_module_hci_ops_os_c_,_drv_debug_,("+usbctrl_vendorreq_complete\n"));
++	
++    return STATUS_SUCCESS;
++}
++
++
++int usbctrl_vendorreq(struct intf_priv *pintfpriv, u8 request, u16 value, u16 index, void *pdata, u16 len, u8 requesttype)
++{
++	u8			ret=_TRUE;
++//	NTSTATUS	ntstatus;
++//	int 		fComplete;
++//	LPCUSB_DEVICE		lpDeviceInfo;
++
++	struct dvobj_priv  *pdvobjpriv = (struct dvobj_priv  *)pintfpriv->intf_dev;   
++
++    USB_TRANSFER        usbTrans;
++    USB_DEVICE_REQUEST  usb_device_req;
++    USB_HANDLE      usbHandle   = pdvobjpriv->usb_extension._hDevice;
++    LPCUSB_FUNCS    usbFuncs    = pdvobjpriv->usb_extension._lpUsbFuncs;
++
++	u32	transfer_flags = 0;
++
++	_func_enter_;
++
++    memset( &usb_device_req, 0, sizeof( USB_DEVICE_REQUEST ) );
++
++    if( 0x01 == requesttype )
++	{
++        usb_device_req.bmRequestType = USB_REQUEST_DEVICE_TO_HOST | USB_REQUEST_VENDOR | USB_REQUEST_FOR_DEVICE;
++    }
++	else
++    {
++        usb_device_req.bmRequestType = USB_REQUEST_HOST_TO_DEVICE | USB_REQUEST_VENDOR | USB_REQUEST_FOR_DEVICE;
++    }
++
++	usb_device_req.bRequest 		= request;
++	usb_device_req.wValue 			= value;
++	usb_device_req.wIndex 	    	= index;
++	usb_device_req.wLength 	    	= len;    
++
++	if (requesttype == 0x01)
++	{
++		transfer_flags = USB_IN_TRANSFER;//read_in
++	}
++	else
++	{
++		transfer_flags= USB_OUT_TRANSFER;//write_out
++	}
++
++	RT_TRACE(_module_hci_ops_os_c_,_drv_debug_,("+usbctrl_vendorreq\n",__FUNCTION__,__LINE__));
++
++#if 0
++	// Remember to add callback for sync
++	usbTrans = (*usbFuncs->lpIssueVendorTransfer)(usbHandle, 
++							usbctrl_vendorreq_complete, pdvobjpriv, 
++							transfer_flags, &usb_device_req, pdata, 0);
++#else
++	// Remember to add callback for sync
++	usbTrans = (*usbFuncs->lpIssueVendorTransfer)(usbHandle, 
++							NULL, 0, 
++							transfer_flags, &usb_device_req, pdata, 0);
++#endif
++
++//	rtw_usleep_os(10);
++
++	if ( usbTrans )
++	{
++		DWORD	dwBytes 	= 0;
++		DWORD	dwErr		= USB_CANCELED_ERROR;
++		int 	fComplete;
++
++		(*usbFuncs->lpGetTransferStatus)(usbTrans, &dwBytes, &dwErr);
++
++		fComplete = (*usbFuncs->lpIsTransferComplete)(usbTrans);
++
++		if (fComplete== _TRUE)
++		{
++			(*usbFuncs->lpCloseTransfer)(usbTrans);
++			RT_TRACE(_module_hci_ops_os_c_,_drv_debug_,("usbctrl_vendorreq lpCloseTransfer\n"));
++		}
++
++		if ( dwErr != USB_NO_ERROR || fComplete != _TRUE)
++		{
++			RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usbctrl_vendorreq lpCloseTransfer without complete\n"));
++			ret = _FALSE;
++			goto exit;
++		}
++	}
++	else
++	{
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usbctrl_vendorreq without usbTrans\n"));
++		ret = _FALSE;
++		goto exit;
++
++	}
++
++exit:
++	RT_TRACE(_module_hci_ops_os_c_,_drv_debug_,("-usbctrl_vendorreq\n"));
++_func_exit_;
++	
++	return ret;	
++
++}
++
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/usb_ops_linux.c b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/usb_ops_linux.c
+new file mode 100755
+index 0000000..2d627d3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/usb_ops_linux.c
+@@ -0,0 +1,1536 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HCI_OPS_OS_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <osdep_intf.h>
++#include <usb_ops.h>
++#include <circ_buf.h>
++#include <recv_osdep.h>
++#include <rtl8192c_hal.h>
++
++#if defined (PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++
++#error "Shall be Linux or Windows, but not both!\n"
++
++#endif
++
++static int usbctrl_vendorreq(struct intf_hdl *pintfhdl, u8 request, u16 value, u16 index, void *pdata, u16 len, u8 requesttype)
++{
++	_adapter *padapter = pintfhdl->padapter;
++	struct dvobj_priv  *pdvobjpriv = adapter_to_dvobj(padapter); 
++	struct usb_device *udev = pdvobjpriv->pusbdev;
++
++	unsigned int pipe;
++	int status = 0;
++	u32 tmp_buflen=0;
++	u8 reqtype;
++	u8 *pIo_buf;
++	int vendorreq_times = 0;
++
++	#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_DYNAMIC_ALLOCATE
++	u8 *tmp_buf;
++	#else // use stack memory
++	u8 tmp_buf[MAX_USB_IO_CTL_SIZE];
++	#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if(padapter->adapter_type > PRIMARY_ADAPTER)
++	{
++		padapter = padapter->pbuddy_adapter;
++		pdvobjpriv = adapter_to_dvobj(padapter);
++		udev = pdvobjpriv->pusbdev;
++	}
++#endif
++
++
++	//DBG_871X("%s %s:%d\n",__FUNCTION__, current->comm, current->pid);
++
++	if((padapter->bSurpriseRemoved) ||(padapter->pwrctrlpriv.pnp_bstop_trx)){
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usbctrl_vendorreq:(padapter->bSurpriseRemoved ||adapter->pwrctrlpriv.pnp_bstop_trx)!!!\n"));
++		status = -EPERM; 
++		goto exit;
++	}	
++
++	if(len>MAX_VENDOR_REQ_CMD_SIZE){
++		DBG_8192C( "[%s] Buffer len error ,vendor request failed\n", __FUNCTION__ );
++		status = -EINVAL;
++		goto exit;
++	}	
++
++	#ifdef CONFIG_USB_VENDOR_REQ_MUTEX
++	_enter_critical_mutex(&pdvobjpriv->usb_vendor_req_mutex, NULL);
++	#endif
++	
++	
++	// Acquire IO memory for vendorreq
++#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC
++	pIo_buf = pdvobjpriv->usb_vendor_req_buf;
++#else
++	#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_DYNAMIC_ALLOCATE
++	tmp_buf = rtw_malloc( (u32) len + ALIGNMENT_UNIT);
++	tmp_buflen =  (u32)len + ALIGNMENT_UNIT;
++	#else // use stack memory
++	tmp_buflen = MAX_USB_IO_CTL_SIZE;
++	#endif
++
++	// Added by Albert 2010/02/09
++	// For mstar platform, mstar suggests the address for USB IO should be 16 bytes alignment.
++	// Trying to fix it here.
++	pIo_buf = (tmp_buf==NULL)?NULL:tmp_buf + ALIGNMENT_UNIT -((SIZE_PTR)(tmp_buf) & 0x0f );	
++#endif
++
++	if ( pIo_buf== NULL) {
++		DBG_8192C( "[%s] pIo_buf == NULL \n", __FUNCTION__ );
++		status = -ENOMEM;
++		goto release_mutex;
++	}
++	
++	while(++vendorreq_times<= MAX_USBCTRL_VENDORREQ_TIMES)
++	{
++		_rtw_memset(pIo_buf, 0, len);
++		
++		if (requesttype == 0x01)
++		{
++			pipe = usb_rcvctrlpipe(udev, 0);//read_in
++			reqtype =  REALTEK_USB_VENQT_READ;		
++		} 
++		else 
++		{
++			pipe = usb_sndctrlpipe(udev, 0);//write_out
++			reqtype =  REALTEK_USB_VENQT_WRITE;		
++			_rtw_memcpy( pIo_buf, pdata, len);
++		}		
++	
++		#if 0
++		//timeout test for firmware downloading
++		status = rtw_usb_control_msg(udev, pipe, request, reqtype, value, index, pIo_buf, len
++			, ((value >= FW_8192C_START_ADDRESS && value <= FW_8192C_END_ADDRESS) ||value!=0x1000) ?RTW_USB_CONTROL_MSG_TIMEOUT : RTW_USB_CONTROL_MSG_TIMEOUT_TEST
++		);
++		#else
++		status = rtw_usb_control_msg(udev, pipe, request, reqtype, value, index, pIo_buf, len, RTW_USB_CONTROL_MSG_TIMEOUT);
++		#endif
++	
++		if ( status == len)   // Success this control transfer.
++		{
++			rtw_reset_continual_urb_error(pdvobjpriv);
++			if ( requesttype == 0x01 )
++			{   // For Control read transfer, we have to copy the read data from pIo_buf to pdata.
++				_rtw_memcpy( pdata, pIo_buf,  len );
++			}
++		}
++		else { // error cases
++			DBG_8192C("reg 0x%x, usb %s %u fail, status:%d value=0x%x, vendorreq_times:%d\n"
++				, value,(requesttype == 0x01)?"read":"write" , len, status, *(u32*)pdata, vendorreq_times);
++			
++			if (status < 0) {
++				if(status == (-ESHUTDOWN)	|| status == -ENODEV	)
++				{			
++					padapter->bSurpriseRemoved = _TRUE;
++				} else {
++					#ifdef DBG_CONFIG_ERROR_DETECT
++					{
++						HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++						pHalData->srestpriv.Wifi_Error_Status = USB_VEN_REQ_CMD_FAIL;
++					}
++					#endif
++				}
++			}
++			else // status != len && status >= 0
++			{
++				if(status > 0) {
++					if ( requesttype == 0x01 )
++					{   // For Control read transfer, we have to copy the read data from pIo_buf to pdata.
++						_rtw_memcpy( pdata, pIo_buf,  len );
++					}
++				}
++			}
++
++			if(rtw_inc_and_chk_continual_urb_error(pdvobjpriv) == _TRUE ){
++				padapter->bSurpriseRemoved = _TRUE;
++				break;
++			}
++	
++		}
++	
++		// firmware download is checksumed, don't retry
++		if( (value >= FW_8192C_START_ADDRESS && value <= FW_8192C_END_ADDRESS) || status == len )
++			break;
++	
++	}
++	
++	// release IO memory used by vendorreq
++	#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_DYNAMIC_ALLOCATE
++	rtw_mfree(tmp_buf, tmp_buflen);
++	#endif
++
++release_mutex:
++	#ifdef CONFIG_USB_VENDOR_REQ_MUTEX
++	_exit_critical_mutex(&pdvobjpriv->usb_vendor_req_mutex, NULL);
++	#endif
++exit:
++	return status;
++
++}
++
++static u8 usb_read8(struct intf_hdl *pintfhdl, u32 addr)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u32 data=0; 
++	
++	_func_enter_;
++
++	request = 0x05;
++	requesttype = 0x01;//read_in
++	index = 0;//n/a
++
++	wvalue = (u16)(addr&0x0000ffff);
++	len = 1;	
++	
++	usbctrl_vendorreq(pintfhdl, request, wvalue, index, &data, len, requesttype);
++
++	_func_exit_;
++
++	return (u8)(le32_to_cpu(data)&0x0ff);
++		
++}
++
++static u16 usb_read16(struct intf_hdl *pintfhdl, u32 addr)
++{       
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u32 data=0;
++	
++	_func_enter_;
++
++	request = 0x05;
++	requesttype = 0x01;//read_in
++	index = 0;//n/a
++
++	wvalue = (u16)(addr&0x0000ffff);
++	len = 2;	
++	
++	usbctrl_vendorreq(pintfhdl, request, wvalue, index, &data, len, requesttype);
++
++	_func_exit_;
++
++	return (u16)(le32_to_cpu(data)&0xffff);
++	
++}
++
++static u32 usb_read32(struct intf_hdl *pintfhdl, u32 addr)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u32 data=0;
++	
++	_func_enter_;
++
++	request = 0x05;
++	requesttype = 0x01;//read_in
++	index = 0;//n/a
++
++	wvalue = (u16)(addr&0x0000ffff);
++	len = 4;	
++	
++	usbctrl_vendorreq(pintfhdl, request, wvalue, index, &data, len, requesttype);
++
++	_func_exit_;
++
++	return le32_to_cpu(data);
++	
++}
++
++static int usb_write8(struct intf_hdl *pintfhdl, u32 addr, u8 val)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u32 data;
++	int ret;
++	
++	_func_enter_;
++
++	request = 0x05;
++	requesttype = 0x00;//write_out
++	index = 0;//n/a
++
++	wvalue = (u16)(addr&0x0000ffff);
++	len = 1;
++	
++	data = val;
++	data = cpu_to_le32(data&0x000000ff);
++	
++	ret = usbctrl_vendorreq(pintfhdl, request, wvalue, index, &data, len, requesttype);
++	
++	_func_exit_;
++	
++	return ret;
++	
++}
++
++static int usb_write16(struct intf_hdl *pintfhdl, u32 addr, u16 val)
++{	
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u32 data;
++	int ret;
++	
++	_func_enter_;
++
++	request = 0x05;
++	requesttype = 0x00;//write_out
++	index = 0;//n/a
++
++	wvalue = (u16)(addr&0x0000ffff);
++	len = 2;
++	
++	data = val;
++	data = cpu_to_le32(data&0x0000ffff);
++	
++	ret = usbctrl_vendorreq(pintfhdl, request, wvalue, index, &data, len, requesttype);
++	
++	_func_exit_;
++	
++	return ret;
++	
++}
++
++static int usb_write32(struct intf_hdl *pintfhdl, u32 addr, u32 val)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u32 data;
++	int ret;
++	
++	_func_enter_;
++
++	request = 0x05;
++	requesttype = 0x00;//write_out
++	index = 0;//n/a
++
++	wvalue = (u16)(addr&0x0000ffff);
++	len = 4;
++	data = cpu_to_le32(val);	
++	
++
++	ret =usbctrl_vendorreq(pintfhdl, request, wvalue, index, &data, len, requesttype);
++	
++	_func_exit_;
++	
++	return ret;
++	
++}
++
++static int usb_writeN(struct intf_hdl *pintfhdl, u32 addr, u32 length, u8 *pdata)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u8 buf[VENDOR_CMD_MAX_DATA_LEN]={0};
++	int ret;
++	
++	_func_enter_;
++
++	request = 0x05;
++	requesttype = 0x00;//write_out
++	index = 0;//n/a
++
++	wvalue = (u16)(addr&0x0000ffff);
++	len = length;
++	 _rtw_memcpy(buf, pdata, len );
++	
++	ret = usbctrl_vendorreq(pintfhdl, request, wvalue, index, buf, len, requesttype);
++	
++	_func_exit_;
++	
++	return ret;
++	
++}
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++static void usb_read_interrupt_complete(struct urb *purb, struct pt_regs *regs)
++{
++	int	err;
++	_adapter		*padapter = (_adapter	 *)purb->context;
++
++	if(purb->status==0)//SUCCESS
++	{
++		if (purb->actual_length > sizeof(INTERRUPT_MSG_FORMAT_EX))
++		{
++			DBG_8192C("usb_read_interrupt_complete: purb->actual_length > sizeof(INTERRUPT_MSG_FORMAT_EX) \n");
++		}
++
++		err = usb_submit_urb(purb, GFP_ATOMIC);
++		if((err) && (err != (-EPERM)))
++		{
++			DBG_8192C("cannot submit interrupt in-token(err = 0x%08x),urb_status = %d\n",err, purb->status);
++		}
++	}
++	else
++	{
++		DBG_8192C("###=> usb_read_interrupt_complete => urb status(%d)\n", purb->status);
++
++		switch(purb->status) {
++			case -EINVAL:
++			case -EPIPE:			
++			case -ENODEV:
++			case -ESHUTDOWN:
++				//padapter->bSurpriseRemoved=_TRUE;
++				RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete:bSurpriseRemoved=TRUE\n"));
++			case -ENOENT:
++				padapter->bDriverStopped=_TRUE;			
++				RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete:bDriverStopped=TRUE\n"));
++				break;
++			case -EPROTO:
++				break;
++			case -EINPROGRESS:
++				DBG_8192C("ERROR: URB IS IN PROGRESS!/n");
++				break;
++			default:
++				break;				
++		}
++	}	
++
++}
++
++static u32 usb_read_interrupt(struct intf_hdl *pintfhdl, u32 addr)
++{
++	int	err;
++	unsigned int pipe;
++	u32	ret = _SUCCESS;
++	_adapter			*adapter = pintfhdl->padapter;
++	struct dvobj_priv	*pdvobj = adapter_to_dvobj(adapter);
++	struct recv_priv	*precvpriv = &adapter->recvpriv;
++	struct usb_device	*pusbd = pdvobj->pusbdev;
++
++_func_enter_;
++
++	//translate DMA FIFO addr to pipehandle
++	pipe = ffaddr2pipehdl(pdvobj, addr);
++
++	usb_fill_int_urb(precvpriv->int_in_urb, pusbd, pipe, 
++					precvpriv->int_in_buf,
++            				sizeof(INTERRUPT_MSG_FORMAT_EX),
++            				usb_read_interrupt_complete,
++            				adapter,
++            				1);
++
++	err = usb_submit_urb(precvpriv->int_in_urb, GFP_ATOMIC);
++	if((err) && (err != (-EPERM)))
++	{
++		DBG_8192C("cannot submit interrupt in-token(err = 0x%08x),urb_status = %d\n",err, precvpriv->int_in_urb->status);
++		ret = _FAIL;
++	}
++
++_func_exit_;
++
++	return ret;
++}
++#endif
++
++static s32 pre_recv_entry(union recv_frame *precvframe, struct recv_stat *prxstat, struct phy_stat *pphy_info)
++{	
++	s32 ret=_SUCCESS;
++#ifdef CONFIG_CONCURRENT_MODE	
++	u8 *primary_myid, *secondary_myid, *paddr1;
++	union recv_frame	*precvframe_if2 = NULL;
++	_adapter *primary_padapter = precvframe->u.hdr.adapter;
++	_adapter *secondary_padapter = primary_padapter->pbuddy_adapter;
++	struct recv_priv *precvpriv = &primary_padapter->recvpriv;
++	_queue *pfree_recv_queue = &precvpriv->free_recv_queue;
++	u8	*pbuf = precvframe->u.hdr.rx_data;
++	
++	if(!secondary_padapter)
++		return ret;
++	
++	paddr1 = GetAddr1Ptr(precvframe->u.hdr.rx_data);		
++
++	if(IS_MCAST(paddr1) == _FALSE)//unicast packets
++	{
++		//primary_myid = myid(&primary_padapter->eeprompriv);
++		secondary_myid = myid(&secondary_padapter->eeprompriv);
++
++		if(_rtw_memcmp(paddr1, secondary_myid, ETH_ALEN))
++		{			
++			//change to secondary interface
++			precvframe->u.hdr.adapter = secondary_padapter;
++		}	
++
++		//ret = recv_entry(precvframe);
++
++	}
++	else // Handle BC/MC Packets	
++	{
++		
++		u8 clone = _TRUE;
++#if 0		
++		u8 type, subtype, *paddr2, *paddr3;
++	
++		type =  GetFrameType(pbuf);
++		subtype = GetFrameSubType(pbuf); //bit(7)~bit(2)
++		
++		switch (type)
++		{
++			case WIFI_MGT_TYPE: //Handle BC/MC mgnt Packets
++				if(subtype == WIFI_BEACON)
++				{
++					paddr3 = GetAddr3Ptr(precvframe->u.hdr.rx_data);
++				
++					if (check_fwstate(&secondary_padapter->mlmepriv, _FW_LINKED) &&
++						_rtw_memcmp(paddr3, get_bssid(&secondary_padapter->mlmepriv), ETH_ALEN))
++					{
++						//change to secondary interface
++						precvframe->u.hdr.adapter = secondary_padapter;
++						clone = _FALSE;
++					}
++
++					if(check_fwstate(&primary_padapter->mlmepriv, _FW_LINKED) &&
++						_rtw_memcmp(paddr3, get_bssid(&primary_padapter->mlmepriv), ETH_ALEN))
++					{
++						if(clone==_FALSE)
++						{
++							clone = _TRUE;									
++						}	
++						else
++						{
++							clone = _FALSE;
++						}
++
++						precvframe->u.hdr.adapter = primary_padapter;	
++					}
++
++					if(check_fwstate(&primary_padapter->mlmepriv, _FW_UNDER_SURVEY|_FW_UNDER_LINKING) ||
++						check_fwstate(&secondary_padapter->mlmepriv, _FW_UNDER_SURVEY|_FW_UNDER_LINKING))
++					{
++						clone = _TRUE;
++						precvframe->u.hdr.adapter = primary_padapter;	
++					}
++				
++				}
++				else if(subtype == WIFI_PROBEREQ)
++				{
++					//probe req frame is only for interface2
++					//change to secondary interface
++					precvframe->u.hdr.adapter = secondary_padapter;
++					clone = _FALSE;
++				}			
++				break;
++			case WIFI_CTRL_TYPE: // Handle BC/MC ctrl Packets
++			
++				break;
++			case WIFI_DATA_TYPE: //Handle BC/MC data Packets
++					//Notes: AP MODE never rx BC/MC data packets
++			
++				paddr2 = GetAddr2Ptr(precvframe->u.hdr.rx_data);
++
++				if(_rtw_memcmp(paddr2, get_bssid(&secondary_padapter->mlmepriv), ETH_ALEN))
++				{
++					//change to secondary interface
++					precvframe->u.hdr.adapter = secondary_padapter;
++					clone = _FALSE;
++				}
++
++				break;
++			default:
++			
++				break;			
++		}
++#endif
++
++		if(_TRUE == clone)
++		{
++			//clone/copy to if2
++			u8 shift_sz = 0;
++			u32 alloc_sz, skb_len;
++			_pkt	 *pkt_copy = NULL;
++			struct rx_pkt_attrib *pattrib = NULL;
++		
++			precvframe_if2 = rtw_alloc_recvframe(pfree_recv_queue);
++			if(precvframe_if2)
++			{
++				precvframe_if2->u.hdr.adapter = secondary_padapter;
++		
++				_rtw_init_listhead(&precvframe_if2->u.hdr.list);	
++				precvframe_if2->u.hdr.precvbuf = NULL;	//can't access the precvbuf for new arch.
++				precvframe_if2->u.hdr.len=0;
++
++				_rtw_memcpy(&precvframe_if2->u.hdr.attrib, &precvframe->u.hdr.attrib, sizeof(struct rx_pkt_attrib));
++
++				pattrib = &precvframe_if2->u.hdr.attrib;
++
++				//	Modified by Albert 20101213
++				//	For 8 bytes IP header alignment.
++				if (pattrib->qos)	//	Qos data, wireless lan header length is 26
++				{
++					shift_sz = 6;
++				}
++				else
++				{
++					shift_sz = 0;
++				}
++
++				skb_len = pattrib->pkt_len;
++
++				// for first fragment packet, driver need allocate 1536+drvinfo_sz+RXDESC_SIZE to defrag packet.
++				// modify alloc_sz for recvive crc error packet by thomas 2011-06-02
++				if((pattrib->mfrag == 1)&&(pattrib->frag_num == 0)){
++					//alloc_sz = 1664;	//1664 is 128 alignment.
++					if(skb_len <= 1650)
++						alloc_sz = 1664;
++					else
++						alloc_sz = skb_len + 14;
++				}
++				else {
++					alloc_sz = skb_len;
++					//	6 is for IP header 8 bytes alignment in QoS packet case.
++					//	8 is for skb->data 4 bytes alignment.
++					alloc_sz += 14;
++				}
++
++				pkt_copy = rtw_skb_alloc(alloc_sz);
++
++				if(pkt_copy)
++				{
++					pkt_copy->dev = secondary_padapter->pnetdev;
++					precvframe_if2->u.hdr.pkt = pkt_copy;
++					precvframe_if2->u.hdr.rx_head = pkt_copy->data;
++					precvframe_if2->u.hdr.rx_end = pkt_copy->data + alloc_sz;
++					skb_reserve( pkt_copy, 8 - ((SIZE_PTR)( pkt_copy->data ) & 7 ));//force pkt_copy->data at 8-byte alignment address
++					skb_reserve( pkt_copy, shift_sz );//force ip_hdr at 8-byte alignment address according to shift_sz.
++					_rtw_memcpy(pkt_copy->data, pbuf, skb_len);
++					precvframe_if2->u.hdr.rx_data = precvframe_if2->u.hdr.rx_tail = pkt_copy->data;
++					
++			
++					recvframe_put(precvframe_if2, skb_len);
++					//recvframe_pull(precvframe_if2, drvinfo_sz + RXDESC_SIZE);
++
++					rtl8192c_translate_rx_signal_stuff(precvframe_if2, pphy_info);
++	
++					ret = rtw_recv_entry(precvframe_if2);
++
++				} else {
++					rtw_free_recvframe(precvframe_if2, pfree_recv_queue);
++					DBG_8192C("%s()-%d: alloc_skb() failed!\n", __FUNCTION__, __LINE__);	
++				}
++
++			}
++			
++		}
++		
++	}
++
++	rtl8192c_translate_rx_signal_stuff(precvframe, pphy_info);
++
++	ret = rtw_recv_entry(precvframe);
++
++#endif
++
++	return ret;
++
++}
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++static int recvbuf2recvframe(_adapter *padapter, struct recv_buf *precvbuf)
++{
++	u8	*pbuf;
++	u8	shift_sz = 0;
++	u16	pkt_cnt, drvinfo_sz;
++	u32	pkt_offset, skb_len, alloc_sz;
++	s32	transfer_len;
++	struct recv_stat	*prxstat;
++	struct phy_stat	*pphy_info = NULL;
++	_pkt				*pkt_copy = NULL;
++	union recv_frame	*precvframe = NULL;
++	struct rx_pkt_attrib	*pattrib = NULL;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(padapter);
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++	_queue			*pfree_recv_queue = &precvpriv->free_recv_queue;
++
++
++	transfer_len = (s32)precvbuf->transfer_len;	
++	pbuf = precvbuf->pbuf;
++
++	prxstat = (struct recv_stat *)pbuf;	
++	pkt_cnt = (le32_to_cpu(prxstat->rxdw2)>>16) & 0xff;
++	
++#if 0 //temp remove when disable usb rx aggregation
++	if((pkt_cnt > 10) || (pkt_cnt < 1) || (transfer_len<RXDESC_SIZE) ||(pkt_len<=0))
++	{		
++		return _FAIL;
++	}
++#endif
++	
++	do{		
++		RT_TRACE(_module_rtl871x_recv_c_, _drv_info_,
++			 ("recvbuf2recvframe: rxdesc=offsset 0:0x%08x, 4:0x%08x, 8:0x%08x, C:0x%08x\n",
++			  prxstat->rxdw0, prxstat->rxdw1, prxstat->rxdw2, prxstat->rxdw4));
++
++		prxstat = (struct recv_stat *)pbuf;
++
++		precvframe = rtw_alloc_recvframe(pfree_recv_queue);
++		if(precvframe==NULL)
++		{
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("recvbuf2recvframe: precvframe==NULL\n"));
++			DBG_8192C("%s()-%d: rtw_alloc_recvframe() failed! RX Drop!\n", __FUNCTION__, __LINE__);	
++			goto _exit_recvbuf2recvframe;
++		}
++
++		_rtw_init_listhead(&precvframe->u.hdr.list);	
++		precvframe->u.hdr.precvbuf = NULL;	//can't access the precvbuf for new arch.
++		precvframe->u.hdr.len=0;
++
++		rtl8192c_query_rx_desc_status(precvframe, prxstat);
++
++		pattrib = &precvframe->u.hdr.attrib;
++		if(pattrib->physt)
++		{
++			pphy_info = (struct phy_stat *)(pbuf + RXDESC_OFFSET);
++		}
++
++		pkt_offset = RXDESC_SIZE + pattrib->drvinfo_sz + pattrib->shift_sz + pattrib->pkt_len;
++
++		if((pattrib->pkt_len<=0) || (pkt_offset>transfer_len))
++		{	
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("recvbuf2recvframe: pkt_len<=0\n"));
++			DBG_8192C("%s()-%d: RX Warning!\n", __FUNCTION__, __LINE__);	
++			rtw_free_recvframe(precvframe, pfree_recv_queue);
++			goto _exit_recvbuf2recvframe;
++		}
++
++		//	Modified by Albert 20101213
++		//	For 8 bytes IP header alignment.
++		if (pattrib->qos)	//	Qos data, wireless lan header length is 26
++		{
++			shift_sz = 6;
++		}
++		else
++		{
++			shift_sz = 0;
++		}
++
++		skb_len = pattrib->pkt_len;
++
++		// for first fragment packet, driver need allocate 1536+drvinfo_sz+RXDESC_SIZE to defrag packet.
++		// modify alloc_sz for recvive crc error packet by thomas 2011-06-02
++		if((pattrib->mfrag == 1)&&(pattrib->frag_num == 0)){
++			//alloc_sz = 1664;	//1664 is 128 alignment.
++			if(skb_len <= 1650)
++				alloc_sz = 1664;
++			else
++				alloc_sz = skb_len + 14;
++		}
++		else {
++			alloc_sz = skb_len;
++			//	6 is for IP header 8 bytes alignment in QoS packet case.
++			//	8 is for skb->data 4 bytes alignment.
++			alloc_sz += 14;
++		}
++
++		pkt_copy = rtw_skb_alloc(alloc_sz);
++
++		if(pkt_copy)
++		{
++			pkt_copy->dev = padapter->pnetdev;
++			precvframe->u.hdr.pkt = pkt_copy;
++			precvframe->u.hdr.rx_head = pkt_copy->data;
++			precvframe->u.hdr.rx_end = pkt_copy->data + alloc_sz;
++			skb_reserve( pkt_copy, 8 - ((SIZE_PTR)( pkt_copy->data ) & 7 ));//force pkt_copy->data at 8-byte alignment address
++			skb_reserve( pkt_copy, shift_sz );//force ip_hdr at 8-byte alignment address according to shift_sz.
++			_rtw_memcpy(pkt_copy->data, (pbuf + pattrib->shift_sz + pattrib->drvinfo_sz + RXDESC_SIZE), skb_len);
++			precvframe->u.hdr.rx_data = precvframe->u.hdr.rx_tail = pkt_copy->data;
++		}
++		else
++		{
++			DBG_8192C("recvbuf2recvframe:can not allocate memory for skb copy\n");
++			//precvframe->u.hdr.pkt = rtw_skb_clone(pskb);
++			//precvframe->u.hdr.rx_head = precvframe->u.hdr.rx_data = precvframe->u.hdr.rx_tail = pbuf;
++			//precvframe->u.hdr.rx_end = pbuf + (pkt_offset>1612?pkt_offset:1612);
++
++			precvframe->u.hdr.pkt = NULL;
++			rtw_free_recvframe(precvframe, pfree_recv_queue);
++
++			goto _exit_recvbuf2recvframe;
++		}
++
++		recvframe_put(precvframe, skb_len);
++		//recvframe_pull(precvframe, drvinfo_sz + RXDESC_SIZE);	
++
++#ifdef CONFIG_USB_RX_AGGREGATION
++		switch(pHalData->UsbRxAggMode)
++		{
++			case USB_RX_AGG_DMA:
++			case USB_RX_AGG_MIX:
++				pkt_offset = (u16)_RND128(pkt_offset);
++				break;
++				case USB_RX_AGG_USB:
++				pkt_offset = (u16)_RND4(pkt_offset);
++				break;
++			case USB_RX_AGG_DISABLE:			
++			default:				
++				break;
++		}
++#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if(rtw_buddy_adapter_up(padapter))
++		{
++			if(pre_recv_entry(precvframe, prxstat, pphy_info) != _SUCCESS)
++			{
++				RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("recvbuf2recvframe: recv_entry(precvframe) != _SUCCESS\n"));
++			}
++		}
++		else
++		{
++			rtl8192c_translate_rx_signal_stuff(precvframe, pphy_info);
++			if(rtw_recv_entry(precvframe) != _SUCCESS)
++			{
++				RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("recvbuf2recvframe: rtw_recv_entry(precvframe) != _SUCCESS\n"));
++			}
++		}
++	
++#else
++		rtl8192c_translate_rx_signal_stuff(precvframe, pphy_info);
++		if(rtw_recv_entry(precvframe) != _SUCCESS)
++		{
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("recvbuf2recvframe: rtw_recv_entry(precvframe) != _SUCCESS\n"));
++		}
++#endif
++
++		pkt_cnt--;
++		transfer_len -= pkt_offset;
++		pbuf += pkt_offset;	
++		precvframe = NULL;
++		pkt_copy = NULL;
++
++		if(transfer_len>0 && pkt_cnt==0)
++			pkt_cnt = (le32_to_cpu(prxstat->rxdw2)>>16) & 0xff;
++
++	}while((transfer_len>0) && (pkt_cnt>0));
++
++_exit_recvbuf2recvframe:
++
++	return _SUCCESS;
++}
++
++void rtl8192cu_recv_tasklet(void *priv)
++{	
++	struct recv_buf *precvbuf = NULL;
++	_adapter	*padapter = (_adapter*)priv;
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++
++	while (NULL != (precvbuf = rtw_dequeue_recvbuf(&precvpriv->recv_buf_pending_queue)))
++	{
++		if ((padapter->bDriverStopped == _TRUE)||(padapter->bSurpriseRemoved== _TRUE))
++		{
++			DBG_8192C("recv_tasklet => bDriverStopped or bSurpriseRemoved \n");
++			
++			break;
++		}
++		
++
++		recvbuf2recvframe(padapter, precvbuf);
++
++		rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++	}	
++	
++}
++
++static void usb_read_port_complete(struct urb *purb, struct pt_regs *regs)
++{	
++	struct recv_buf	*precvbuf = (struct recv_buf *)purb->context;	
++	_adapter 			*padapter =(_adapter *)precvbuf->adapter;
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++
++	RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete!!!\n"));
++	
++	precvpriv->rx_pending_cnt --;
++		
++	if(padapter->bSurpriseRemoved || padapter->bDriverStopped||padapter->bReadPortCancel)
++	{
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete:bDriverStopped(%d) OR bSurpriseRemoved(%d)\n", padapter->bDriverStopped, padapter->bSurpriseRemoved));		
++
++		goto exit;
++	}
++
++	if(purb->status==0)//SUCCESS
++	{
++		if ((purb->actual_length > MAX_RECVBUF_SZ) || (purb->actual_length < RXDESC_SIZE))
++		{
++			RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete: (purb->actual_length > MAX_RECVBUF_SZ) || (purb->actual_length < RXDESC_SIZE)\n"));
++
++			rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++		}
++		else 
++		{			
++			rtw_reset_continual_urb_error(adapter_to_dvobj(padapter));
++			
++			precvbuf->transfer_len = purb->actual_length;	
++
++			//rtw_enqueue_rx_transfer_buffer(precvpriv, rx_transfer_buf);			
++			rtw_enqueue_recvbuf(precvbuf, &precvpriv->recv_buf_pending_queue);
++
++			tasklet_schedule(&precvpriv->recv_tasklet);			
++		}		
++	}
++	else
++	{
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete : purb->status(%d) != 0 \n", purb->status));
++	
++		DBG_8192C("###=> usb_read_port_complete => urb status(%d)\n", purb->status);
++
++		if(rtw_inc_and_chk_continual_urb_error(adapter_to_dvobj(padapter)) == _TRUE ){
++			padapter->bSurpriseRemoved = _TRUE;
++		}
++
++		switch(purb->status) {
++			case -EINVAL:
++			case -EPIPE:			
++			case -ENODEV:
++			case -ESHUTDOWN:
++				//padapter->bSurpriseRemoved=_TRUE;
++				RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete:bSurpriseRemoved=TRUE\n"));
++			case -ENOENT:
++				padapter->bDriverStopped=_TRUE;			
++				RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete:bDriverStopped=TRUE\n"));
++				break;
++			case -EPROTO:
++			case -EILSEQ:
++			case -ETIME:
++			case -ECOMM:
++			case -EOVERFLOW:
++				#ifdef DBG_CONFIG_ERROR_DETECT	
++				{	
++					HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++					pHalData->srestpriv.Wifi_Error_Status = USB_READ_PORT_FAIL;			
++				}
++				#endif
++				rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);			
++				break;
++			case -EINPROGRESS:
++				DBG_8192C("ERROR: URB IS IN PROGRESS!/n");
++				break;
++			default:
++				break;				
++		}
++		
++	}	
++
++exit:	
++	
++_func_exit_;
++	
++}
++
++static u32 usb_read_port(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem)
++{		
++	int err;
++	unsigned int pipe;
++	u32 ret = _SUCCESS;
++	PURB purb = NULL;
++	struct recv_buf	*precvbuf = (struct recv_buf *)rmem;
++	_adapter *adapter = pintfhdl->padapter;
++	struct dvobj_priv	*pdvobj = adapter_to_dvobj(adapter);
++	struct recv_priv	*precvpriv = &adapter->recvpriv;
++	struct usb_device	*pusbd = pdvobj->pusbdev;
++
++_func_enter_;
++	
++	if(adapter->bDriverStopped || adapter->bSurpriseRemoved ||adapter->pwrctrlpriv.pnp_bstop_trx)
++	{
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port:( padapter->bDriverStopped ||padapter->bSurpriseRemoved ||adapter->pwrctrlpriv.pnp_bstop_trx)!!!\n"));
++		return _FAIL;
++	}
++
++	if(precvbuf !=NULL)
++	{	
++		rtl8192cu_init_recvbuf(adapter, precvbuf);
++
++		if(precvbuf->pbuf)
++		{			
++			precvpriv->rx_pending_cnt++;
++		
++			purb = precvbuf->purb;		
++
++			//translate DMA FIFO addr to pipehandle
++			pipe = ffaddr2pipehdl(pdvobj, addr);	
++
++			usb_fill_bulk_urb(purb, pusbd, pipe, 
++						precvbuf->pbuf,
++                				MAX_RECVBUF_SZ,
++                				usb_read_port_complete,
++                				precvbuf);//context is precvbuf
++
++			purb->transfer_dma = precvbuf->dma_transfer_addr;
++			purb->transfer_flags |= URB_NO_TRANSFER_DMA_MAP;								
++
++			err = usb_submit_urb(purb, GFP_ATOMIC);	
++			if((err) && (err != (-EPERM)))
++			{
++				RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("cannot submit rx in-token(err=0x%.8x), URB_STATUS =0x%.8x", err, purb->status));
++				DBG_8192C("cannot submit rx in-token(err = 0x%08x),urb_status = %d\n",err,purb->status);
++				ret = _FAIL;
++			}
++			
++		}
++			
++	}
++	else
++	{
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port:precvbuf ==NULL\n"));
++		ret = _FAIL;
++	}
++
++_func_exit_;
++
++	return ret;
++}
++#else	// CONFIG_USE_USB_BUFFER_ALLOC_RX
++static int recvbuf2recvframe(_adapter *padapter, _pkt *pskb)
++{
++	u8	*pbuf;
++	u8	shift_sz = 0;
++	u16	pkt_cnt;
++	u32	pkt_offset, skb_len, alloc_sz;
++	s32	transfer_len;
++	struct recv_stat	*prxstat;
++	struct phy_stat	*pphy_info = NULL;
++	_pkt				*pkt_copy = NULL;
++	union recv_frame	*precvframe = NULL;
++	struct rx_pkt_attrib	*pattrib = NULL;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++	_queue			*pfree_recv_queue = &precvpriv->free_recv_queue;
++
++
++	transfer_len = (s32)pskb->len;	
++	pbuf = pskb->data;
++
++	prxstat = (struct recv_stat *)pbuf;	
++	pkt_cnt = (le32_to_cpu(prxstat->rxdw2)>>16) & 0xff;
++
++#if 0 //temp remove when disable usb rx aggregation
++	if((pkt_cnt > 10) || (pkt_cnt < 1) || (transfer_len<RXDESC_SIZE) ||(pkt_len<=0))
++	{		
++		return _FAIL;
++	}
++#endif
++
++	do{		
++		RT_TRACE(_module_rtl871x_recv_c_, _drv_info_,
++			 ("recvbuf2recvframe: rxdesc=offsset 0:0x%08x, 4:0x%08x, 8:0x%08x, C:0x%08x\n",
++			  prxstat->rxdw0, prxstat->rxdw1, prxstat->rxdw2, prxstat->rxdw4));
++
++		prxstat = (struct recv_stat *)pbuf;
++
++		precvframe = rtw_alloc_recvframe(pfree_recv_queue);
++		if(precvframe==NULL)
++		{
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("recvbuf2recvframe: precvframe==NULL\n"));
++			DBG_8192C("%s()-%d: rtw_alloc_recvframe() failed! RX Drop!\n", __FUNCTION__, __LINE__);	
++			goto _exit_recvbuf2recvframe;
++		}
++
++		_rtw_init_listhead(&precvframe->u.hdr.list);	
++		precvframe->u.hdr.precvbuf = NULL;	//can't access the precvbuf for new arch.
++		precvframe->u.hdr.len=0;
++
++		rtl8192c_query_rx_desc_status(precvframe, prxstat);
++
++		pattrib = &precvframe->u.hdr.attrib;
++		if(pattrib->physt)
++		{
++			pphy_info = (struct phy_stat *)(pbuf + RXDESC_OFFSET);
++		}
++
++		pkt_offset = RXDESC_SIZE + pattrib->drvinfo_sz + pattrib->shift_sz + pattrib->pkt_len;
++
++		if((pattrib->pkt_len<=0) || (pkt_offset>transfer_len))
++		{	
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_info_,("recvbuf2recvframe: pkt_len<=0\n"));
++			DBG_8192C("%s()-%d: RX Warning!\n", __FUNCTION__, __LINE__);	
++			rtw_free_recvframe(precvframe, pfree_recv_queue);
++			goto _exit_recvbuf2recvframe;
++		}
++
++		//	Modified by Albert 20101213
++		//	For 8 bytes IP header alignment.
++		if (pattrib->qos)	//	Qos data, wireless lan header length is 26
++		{
++			shift_sz = 6;
++		}
++		else
++		{
++			shift_sz = 0;
++		}
++
++		skb_len = pattrib->pkt_len;
++
++		// for first fragment packet, driver need allocate 1536+drvinfo_sz+RXDESC_SIZE to defrag packet.
++		// modify alloc_sz for recvive crc error packet by thomas 2011-06-02
++		if((pattrib->mfrag == 1)&&(pattrib->frag_num == 0)){
++			//alloc_sz = 1664;	//1664 is 128 alignment.
++			if(skb_len <= 1650)
++				alloc_sz = 1664;
++			else
++				alloc_sz = skb_len + 14;
++		}
++		else {
++			alloc_sz = skb_len;
++			//	6 is for IP header 8 bytes alignment in QoS packet case.
++			//	8 is for skb->data 4 bytes alignment.
++			alloc_sz += 14;
++		}
++
++		pkt_copy = rtw_skb_alloc(alloc_sz);
++
++		if(pkt_copy)
++		{
++			pkt_copy->dev = padapter->pnetdev;
++			precvframe->u.hdr.pkt = pkt_copy;
++			precvframe->u.hdr.rx_head = pkt_copy->data;
++			precvframe->u.hdr.rx_end = pkt_copy->data + alloc_sz;
++			skb_reserve( pkt_copy, 8 - ((SIZE_PTR)( pkt_copy->data ) & 7 ));//force pkt_copy->data at 8-byte alignment address
++			skb_reserve( pkt_copy, shift_sz );//force ip_hdr at 8-byte alignment address according to shift_sz.
++			_rtw_memcpy(pkt_copy->data, (pbuf + pattrib->shift_sz + pattrib->drvinfo_sz + RXDESC_SIZE), skb_len);
++			precvframe->u.hdr.rx_data = precvframe->u.hdr.rx_tail = pkt_copy->data;
++			
++		}
++		else
++		{
++			precvframe->u.hdr.pkt = rtw_skb_clone(pskb);
++			if(pkt_copy)
++			{
++				precvframe->u.hdr.rx_head = precvframe->u.hdr.rx_data = precvframe->u.hdr.rx_tail = pbuf;
++				precvframe->u.hdr.rx_end = pbuf + alloc_sz;
++			}
++			else
++			{
++				DBG_8192C("recvbuf2recvframe: rtw_skb_clone fail\n");
++				rtw_free_recvframe(precvframe, pfree_recv_queue);
++				goto _exit_recvbuf2recvframe;
++			}
++		}
++
++		recvframe_put(precvframe, skb_len);
++		//recvframe_pull(precvframe, drvinfo_sz + RXDESC_SIZE);	
++
++#ifdef CONFIG_USB_RX_AGGREGATION
++		switch(pHalData->UsbRxAggMode)
++		{
++			case USB_RX_AGG_DMA:
++			case USB_RX_AGG_MIX:
++				pkt_offset = (u16)_RND128(pkt_offset);
++				break;
++				case USB_RX_AGG_USB:
++				pkt_offset = (u16)_RND4(pkt_offset);
++				break;
++			case USB_RX_AGG_DISABLE:			
++			default:				
++				break;
++		}
++#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if(rtw_buddy_adapter_up(padapter))
++		{
++			if(pre_recv_entry(precvframe, prxstat, pphy_info) != _SUCCESS)
++			{
++				RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("recvbuf2recvframe: recv_entry(precvframe) != _SUCCESS\n"));
++			}
++		}
++		else
++		{
++			rtl8192c_translate_rx_signal_stuff(precvframe, pphy_info);
++			if(rtw_recv_entry(precvframe) != _SUCCESS)
++			{
++				RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("recvbuf2recvframe: rtw_recv_entry(precvframe) != _SUCCESS\n"));
++			}
++		}
++	
++#else
++		rtl8192c_translate_rx_signal_stuff(precvframe, pphy_info);
++		if(rtw_recv_entry(precvframe) != _SUCCESS)
++		{
++			RT_TRACE(_module_rtl871x_recv_c_,_drv_err_,("recvbuf2recvframe: rtw_recv_entry(precvframe) != _SUCCESS\n"));
++		}
++#endif		
++
++		pkt_cnt--;
++		transfer_len -= pkt_offset;
++		pbuf += pkt_offset;	
++		precvframe = NULL;
++		pkt_copy = NULL;
++
++		if(transfer_len>0 && pkt_cnt==0)
++			pkt_cnt = (le32_to_cpu(prxstat->rxdw2)>>16) & 0xff;
++
++	}while((transfer_len>0) && (pkt_cnt>0));
++
++_exit_recvbuf2recvframe:
++
++	return _SUCCESS;	
++}
++
++void rtl8192cu_recv_tasklet(void *priv)
++{
++	_pkt			*pskb;
++	_adapter		*padapter = (_adapter*)priv;
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++	
++	while (NULL != (pskb = skb_dequeue(&precvpriv->rx_skb_queue)))
++	{
++		if ((padapter->bDriverStopped == _TRUE)||(padapter->bSurpriseRemoved== _TRUE))
++		{
++			DBG_8192C("recv_tasklet => bDriverStopped or bSurpriseRemoved \n");
++			rtw_skb_free(pskb);
++			break;
++		}
++	
++		recvbuf2recvframe(padapter, pskb);
++
++#ifdef CONFIG_PREALLOC_RECV_SKB
++
++		skb_reset_tail_pointer(pskb);
++
++		pskb->len = 0;
++		
++		skb_queue_tail(&precvpriv->free_recv_skb_queue, pskb);
++		
++#else
++		rtw_skb_free(pskb);
++#endif
++				
++	}
++	
++}
++
++
++static void usb_read_port_complete(struct urb *purb, struct pt_regs *regs)
++{
++	_irqL irqL;
++	uint isevt, *pbuf;
++	struct recv_buf	*precvbuf = (struct recv_buf *)purb->context;	
++	_adapter 			*padapter =(_adapter *)precvbuf->adapter;
++	struct recv_priv	*precvpriv = &padapter->recvpriv;	
++	
++	RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete!!!\n"));
++	
++	//_enter_critical(&precvpriv->lock, &irqL);
++	//precvbuf->irp_pending=_FALSE;
++	//precvpriv->rx_pending_cnt --;
++	//_exit_critical(&precvpriv->lock, &irqL);
++		
++	precvpriv->rx_pending_cnt --;
++		
++	//if(precvpriv->rx_pending_cnt== 0)
++	//{		
++	//	RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete: rx_pending_cnt== 0, set allrxreturnevt!\n"));
++	//	_rtw_up_sema(&precvpriv->allrxreturnevt);	
++	//}
++
++	if(padapter->bSurpriseRemoved || padapter->bDriverStopped||padapter->bReadPortCancel)
++	{
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete:bDriverStopped(%d) OR bSurpriseRemoved(%d)\n", padapter->bDriverStopped, padapter->bSurpriseRemoved));		
++		
++	#ifdef CONFIG_PREALLOC_RECV_SKB
++		precvbuf->reuse = _TRUE;
++	#else
++		if(precvbuf->pskb){
++			DBG_8192C("==> free skb(%p)\n",precvbuf->pskb);
++			rtw_skb_free(precvbuf->pskb);
++		}	
++	#endif
++		DBG_8192C("%s()-%d: RX Warning! bDriverStopped(%d) OR bSurpriseRemoved(%d) bReadPortCancel(%d)\n", 
++		__FUNCTION__, __LINE__,padapter->bDriverStopped, padapter->bSurpriseRemoved,padapter->bReadPortCancel);	
++		goto exit;
++	}
++
++	if(purb->status==0)//SUCCESS
++	{
++		if ((purb->actual_length > MAX_RECVBUF_SZ) || (purb->actual_length < RXDESC_SIZE))
++		{
++			RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete: (purb->actual_length > MAX_RECVBUF_SZ) || (purb->actual_length < RXDESC_SIZE)\n"));
++			precvbuf->reuse = _TRUE;
++			rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++			DBG_8192C("%s()-%d: RX Warning!\n", __FUNCTION__, __LINE__);	
++		}
++		else 
++		{	
++			rtw_reset_continual_urb_error(adapter_to_dvobj(padapter));
++			
++			precvbuf->transfer_len = purb->actual_length;			
++			skb_put(precvbuf->pskb, purb->actual_length);	
++			skb_queue_tail(&precvpriv->rx_skb_queue, precvbuf->pskb);
++
++			if (skb_queue_len(&precvpriv->rx_skb_queue)<=1)
++				tasklet_schedule(&precvpriv->recv_tasklet);
++
++			precvbuf->pskb = NULL;
++			precvbuf->reuse = _FALSE;
++			rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);			
++		}		
++	}
++	else
++	{
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete : purb->status(%d) != 0 \n", purb->status));
++	
++		DBG_8192C("###=> usb_read_port_complete => urb status(%d)\n", purb->status);
++
++		if(rtw_inc_and_chk_continual_urb_error(adapter_to_dvobj(padapter)) == _TRUE ){
++			padapter->bSurpriseRemoved = _TRUE;
++		}
++
++		switch(purb->status) {
++			case -EINVAL:
++			case -EPIPE:			
++			case -ENODEV:
++			case -ESHUTDOWN:
++				//padapter->bSurpriseRemoved=_TRUE;
++				RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete:bSurpriseRemoved=TRUE\n"));
++			case -ENOENT:
++				padapter->bDriverStopped=_TRUE;			
++				RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete:bDriverStopped=TRUE\n"));
++				break;
++			case -EPROTO:
++			case -EILSEQ:
++			case -ETIME:
++			case -ECOMM:
++			case -EOVERFLOW:
++				#ifdef DBG_CONFIG_ERROR_DETECT	
++				{	
++					HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++					pHalData->srestpriv.Wifi_Error_Status = USB_READ_PORT_FAIL;			
++				}
++				#endif
++				precvbuf->reuse = _TRUE;
++				rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);			
++				break;
++			case -EINPROGRESS:
++				precvpriv->read_port_complete_EINPROGRESS_cnt++;
++				DBG_8192C("ERROR: URB IS IN PROGRESS!/n");
++				break;
++			default:
++				precvpriv->read_port_complete_other_urb_err_cnt++;
++				break;				
++		}
++		
++	}	
++
++exit:	
++	
++_func_exit_;
++	
++}
++
++static u32 usb_read_port(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem)
++{	
++	_irqL irqL;
++	int err;
++	unsigned int pipe;
++	SIZE_PTR tmpaddr=0;
++	SIZE_PTR alignment=0;
++	u32 ret = _SUCCESS;
++	PURB purb = NULL;
++	struct recv_buf	*precvbuf = (struct recv_buf *)rmem;
++	_adapter		*adapter = pintfhdl->padapter;
++	struct dvobj_priv	*pdvobj = adapter_to_dvobj(adapter);
++	struct recv_priv	*precvpriv = &adapter->recvpriv;
++	struct usb_device	*pusbd = pdvobj->pusbdev;
++	
++_func_enter_;
++	
++	if(adapter->bDriverStopped || adapter->bSurpriseRemoved ||adapter->pwrctrlpriv.pnp_bstop_trx)
++	{
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port:( padapter->bDriverStopped ||padapter->bSurpriseRemoved ||adapter->pwrctrlpriv.pnp_bstop_trx)!!!\n"));
++		return _FAIL;
++	}
++
++#ifdef CONFIG_PREALLOC_RECV_SKB
++	if((precvbuf->reuse == _FALSE) || (precvbuf->pskb == NULL))
++	{
++		if (NULL != (precvbuf->pskb = skb_dequeue(&precvpriv->free_recv_skb_queue)))
++		{
++			precvbuf->reuse = _TRUE;
++		}
++	}
++#endif
++	
++
++	if(precvbuf !=NULL)
++	{	
++		rtl8192cu_init_recvbuf(adapter, precvbuf);		
++
++		//re-assign for linux based on skb
++		if((precvbuf->reuse == _FALSE) || (precvbuf->pskb == NULL))
++		{
++			precvbuf->pskb = rtw_skb_alloc(MAX_RECVBUF_SZ + RECVBUFF_ALIGN_SZ);
++
++			if(precvbuf->pskb == NULL)		
++			{
++				RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("init_recvbuf(): alloc_skb fail!\n"));
++				precvpriv->recvbuf_skb_alloc_fail_cnt++;
++				return _FAIL;
++			}	
++
++			tmpaddr = (SIZE_PTR)precvbuf->pskb->data;
++	        	alignment = tmpaddr & (RECVBUFF_ALIGN_SZ-1);
++			skb_reserve(precvbuf->pskb, (RECVBUFF_ALIGN_SZ - alignment));
++
++			precvbuf->phead = precvbuf->pskb->head;
++		   	precvbuf->pdata = precvbuf->pskb->data;
++			precvbuf->ptail = skb_tail_pointer(precvbuf->pskb);
++			precvbuf->pend = skb_end_pointer(precvbuf->pskb);
++			precvbuf->pbuf = precvbuf->pskb->data;
++		}	
++		else//reuse skb
++		{
++			precvbuf->phead = precvbuf->pskb->head;
++			precvbuf->pdata = precvbuf->pskb->data;
++			precvbuf->ptail = skb_tail_pointer(precvbuf->pskb);
++			precvbuf->pend = skb_end_pointer(precvbuf->pskb);
++       		precvbuf->pbuf = precvbuf->pskb->data;
++
++			precvbuf->reuse = _FALSE;
++		}
++
++		//_enter_critical(&precvpriv->lock, &irqL);
++		//precvpriv->rx_pending_cnt++;
++		//precvbuf->irp_pending = _TRUE;
++		//_exit_critical(&precvpriv->lock, &irqL);
++
++		precvpriv->rx_pending_cnt++;
++
++		purb = precvbuf->purb;
++
++		//translate DMA FIFO addr to pipehandle
++		pipe = ffaddr2pipehdl(pdvobj, addr);
++
++		usb_fill_bulk_urb(purb, pusbd, pipe, 
++						precvbuf->pbuf,
++                				MAX_RECVBUF_SZ,
++                				usb_read_port_complete,
++                				precvbuf);//context is precvbuf
++
++		err = usb_submit_urb(purb, GFP_ATOMIC);
++		if((err) && (err != (-EPERM)))
++		{
++			RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("cannot submit rx in-token(err=0x%.8x), URB_STATUS =0x%.8x", err, purb->status));
++			DBG_8192C("cannot submit rx in-token(err = 0x%08x),urb_status = %d\n",err,purb->status);
++			ret = _FAIL;
++		}
++	}
++	else
++	{
++		precvpriv->recvbuf_null_cnt++;
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port:precvbuf ==NULL\n"));
++		ret = _FAIL;
++	}
++
++_func_exit_;
++
++	return ret;
++}
++#endif	// CONFIG_USE_USB_BUFFER_ALLOC_RX
++
++void rtl8192cu_xmit_tasklet(void *priv)
++{	
++	int ret = _FALSE;
++	_adapter *padapter = (_adapter*)priv;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	if(check_fwstate(&padapter->mlmepriv, _FW_UNDER_SURVEY) == _TRUE)
++		return;
++
++	while(1)
++	{
++		if ((padapter->bDriverStopped == _TRUE)||(padapter->bSurpriseRemoved== _TRUE) || (padapter->bWritePortCancel == _TRUE))
++		{
++			DBG_8192C("xmit_tasklet => bDriverStopped or bSurpriseRemoved or bWritePortCancel\n");
++			break;
++		}
++
++		ret = rtl8192cu_xmitframe_complete(padapter, pxmitpriv, NULL);
++
++		if(ret==_FALSE)
++			break;
++		
++	}
++	
++}
++
++void rtl8192cu_set_intf_ops(struct _io_ops	*pops)
++{
++	_func_enter_;
++	
++	_rtw_memset((u8 *)pops, 0, sizeof(struct _io_ops));	
++
++	pops->_read8 = &usb_read8;
++	pops->_read16 = &usb_read16;
++	pops->_read32 = &usb_read32;
++	pops->_read_mem = &usb_read_mem;
++	pops->_read_port = &usb_read_port;	
++	
++	pops->_write8 = &usb_write8;
++	pops->_write16 = &usb_write16;
++	pops->_write32 = &usb_write32;
++	pops->_writeN = &usb_writeN;
++	
++#ifdef CONFIG_USB_SUPPORT_ASYNC_VDN_REQ	
++	pops->_write8_async= &usb_async_write8;
++	pops->_write16_async = &usb_async_write16;
++	pops->_write32_async = &usb_async_write32;
++#endif	
++	pops->_write_mem = &usb_write_mem;
++	pops->_write_port = &usb_write_port;
++
++	pops->_read_port_cancel = &usb_read_port_cancel;
++	pops->_write_port_cancel = &usb_write_port_cancel;
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++	pops->_read_interrupt = &usb_read_interrupt;
++#endif
++
++	_func_exit_;
++
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/usb_ops_xp.c b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/usb_ops_xp.c
+new file mode 100755
+index 0000000..32ff645
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/hal/rtl8192c/usb/usb_ops_xp.c
+@@ -0,0 +1,1265 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HCI_OPS_OS_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <osdep_intf.h>
++#include <circ_buf.h>
++
++#if defined (PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++	#error "Shall be Linux or Windows, but not both!\n"
++#endif
++
++#ifndef CONFIG_USB_HCI
++	#error "CONFIG_USB_HCI shall be on!\n"
++#endif
++
++
++#include <usb.h>
++#include <usbdlib.h>
++#include <usbioctl.h>
++
++#include <usb_ops.h>
++#include <recv_osdep.h>
++
++#include <usb_osintf.h>
++
++
++struct zero_bulkout_context
++{
++	void *pbuf;
++	void *purb;
++	void *pirp;
++	void *padapter;
++};
++
++#define usb_write_cmd usb_write_mem 
++#define usb_read_cmd usb_read_mem
++#define usb_write_cmd_complete usb_write_mem_complete
++//#define usb_read_cmd_complete usb_read_mem_complete
++
++
++
++uint usb_init_intf_priv(struct intf_priv *pintfpriv)
++{
++	        
++	PURB	piorw_urb;
++	u8		NextDeviceStackSize;
++	struct dvobj_priv   *pdev = (struct dvobj_priv   *)pintfpriv->intf_dev;
++	_adapter * padapter=pdev->padapter;
++
++_func_enter_;
++	
++	RT_TRACE(_module_hci_ops_os_c_,_drv_info_,("\n +usb_init_intf_priv\n"));
++
++	pintfpriv->intf_status = _IOREADY;
++
++       if(pdev->ishighspeed) pintfpriv->max_iosz =  128;
++	else pintfpriv->max_iosz =  64;	
++
++
++	_init_timer(&pintfpriv->io_timer, padapter->hndis_adapter, io_irp_timeout_handler, pintfpriv);
++
++	
++	RT_TRACE(_module_hci_ops_os_c_,_drv_info_,("usb_init_intf_priv:pintfpriv->max_iosz:%d\n",pintfpriv->max_iosz));
++
++	pintfpriv->io_wsz = 0;
++	pintfpriv->io_rsz = 0;	
++	
++ 	pintfpriv->allocated_io_rwmem = rtw_zmalloc(pintfpriv->max_iosz +4); 
++	
++   	if (pintfpriv->allocated_io_rwmem == NULL){
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("\n usb_init_intf_priv:pintfpriv->allocated_io_rwmem == NULL\n"));
++    		goto usb_init_intf_priv_fail;
++   	}
++
++	pintfpriv->io_rwmem = pintfpriv->allocated_io_rwmem +  4 \
++					-( (u32)(pintfpriv->allocated_io_rwmem) & 3);
++	
++
++     
++     NextDeviceStackSize = (u8)pdev->nextdevstacksz;//pintfpriv->pUsbDevObj->StackSize + 1; 
++
++      piorw_urb = (PURB)ExAllocatePool(NonPagedPool, sizeof(URB) ); 
++      if(piorw_urb == NULL) 
++	  goto usb_init_intf_priv_fail;
++	  
++      pintfpriv->piorw_urb = piorw_urb;
++
++      pintfpriv->piorw_irp = IoAllocateIrp(NextDeviceStackSize , FALSE);	 
++    
++
++      pintfpriv->io_irp_cnt=1;
++      pintfpriv->bio_irp_pending=_FALSE;
++	 
++     _rtw_init_sema(&(pintfpriv->io_retevt), 0);//NdisInitializeEvent(&pintfpriv->io_irp_return_evt);
++
++_func_exit_;
++	return _SUCCESS;
++
++usb_init_intf_priv_fail:
++
++	if (pintfpriv->allocated_io_rwmem)
++		rtw_mfree((u8 *)(pintfpriv->allocated_io_rwmem), pintfpriv->max_iosz +4);
++	
++	if(piorw_urb)
++		ExFreePool(piorw_urb);	
++
++	RT_TRACE(_module_hci_ops_os_c_,_drv_info_,("\n -usb_init_intf_priv(usb_init_intf_priv_fail)\n"));
++
++_func_exit_;	
++	return _FAIL;
++		
++}
++
++void usb_unload_intf_priv(struct intf_priv *pintfpriv)
++{
++
++_func_enter_;
++	
++	RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("\n+usb_unload_intf_priv\n"));
++	
++	rtw_mfree((u8 *)(pintfpriv->allocated_io_rwmem), pintfpriv->max_iosz+4);
++	
++#ifdef PLATFORM_WINDOWS
++	if(pintfpriv->piorw_urb)
++		ExFreePool(pintfpriv->piorw_urb);	
++
++	if(pintfpriv->piorw_irp)
++		IoFreeIrp(pintfpriv->piorw_irp);
++#endif		
++
++
++#ifdef PLATFORM_LINUX
++	RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("\npintfpriv->io_irp_cnt=%d\n",pintfpriv->io_irp_cnt));
++	pintfpriv->io_irp_cnt--;
++	if(pintfpriv->io_irp_cnt){
++		if(pintfpriv->bio_irp_pending==_TRUE){
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("\nkill iorw_urb\n"));
++		usb_kill_urb(pintfpriv->piorw_urb);
++		}
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("\n wait io_retevt\n"));
++		_rtw_down_sema(&(pintfpriv->io_retevt));
++	}
++	RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("\n cancel io_urb ok\n"));
++#endif
++
++	RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("\n-usb_unload_intf_priv\n"));
++
++_func_exit_;
++	
++}
++
++void *ffaddr2pipehdl(struct dvobj_priv *pNdisCEDvice, u32 addr)
++{
++	HANDLE PipeHandle = NULL;
++	_adapter	*padapter = pNdisCEDvice->padapter;
++
++	
++	if(pNdisCEDvice->nr_endpoint == 11)
++	{		
++		switch(addr)
++		{	    
++	     		case RTL8712_DMA_BEQ:
++		 		PipeHandle= padapter->halpriv.pipehdls_r8712[3] ; 
++				break;
++	     		case RTL8712_DMA_BKQ:
++			 	PipeHandle=  padapter->halpriv.pipehdls_r8712[4]; 
++				break;
++	     		case RTL8712_DMA_VIQ:
++		 		PipeHandle=  padapter->halpriv.pipehdls_r8712[2]; 
++				break;
++	    		case RTL8712_DMA_VOQ:
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[1]; 
++				break;					
++                     case RTL8712_DMA_BCNQ:	
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[6]; 
++				break;	 	
++			case RTL8712_DMA_BMCQ:	//HI Queue
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[7]; 
++				break;	
++			case RTL8712_DMA_MGTQ:				
++		 		PipeHandle=  padapter->halpriv.pipehdls_r8712[8]; 
++				break;
++                     case RTL8712_DMA_RX0FF:
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[0]; 
++				break;	 	
++			case RTL8712_DMA_C2HCMD:		 	
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[5]; 
++				break;
++			case RTL8712_DMA_H2CCMD:
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[9]; 
++				break;	
++				
++		}
++
++	}
++	else if(pNdisCEDvice->nr_endpoint == 6)
++	{
++		switch(addr)
++		{	    
++	     		case RTL8712_DMA_BEQ:
++		 		PipeHandle=  padapter->halpriv.pipehdls_r8712[3]; 
++				break;
++	     		case RTL8712_DMA_BKQ:
++			 	PipeHandle=  padapter->halpriv.pipehdls_r8712[4]; 
++				break;
++	     		case RTL8712_DMA_VIQ:
++		 		PipeHandle=  padapter->halpriv.pipehdls_r8712[2]; 
++				break;
++	    		case RTL8712_DMA_VOQ:                   		
++		 		PipeHandle=  padapter->halpriv.pipehdls_r8712[1]; 
++				break;
++                     case RTL8712_DMA_RX0FF:
++			case RTL8712_DMA_C2HCMD:		 	
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[0]; 
++				break;
++			case RTL8712_DMA_H2CCMD:
++			case RTL8712_DMA_BCNQ:					
++			case RTL8712_DMA_BMCQ:	
++			case RTL8712_DMA_MGTQ:			
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[5]; 
++				break;	
++				
++		}
++
++	}
++	else if(pNdisCEDvice->nr_endpoint == 4)
++	{
++		switch(addr)
++		{		
++	     		case RTL8712_DMA_BEQ:
++		 	//case RTL8712_DMA_BKQ:
++			 	PipeHandle=  padapter->halpriv.pipehdls_r8712[2]; 
++				break;
++	     		//case RTL8712_DMA_VIQ:
++		 	case RTL8712_DMA_VOQ:					
++		 		PipeHandle=  padapter->halpriv.pipehdls_r8712[1]; 
++				break;
++			case RTL8712_DMA_RX0FF:
++			case RTL8712_DMA_C2HCMD:		 	
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[0]; 
++				break;
++			case RTL8712_DMA_H2CCMD:	
++			case RTL8712_DMA_BCNQ:					
++			case RTL8712_DMA_BMCQ:	
++			case RTL8712_DMA_MGTQ:				
++				PipeHandle=  padapter->halpriv.pipehdls_r8712[3]; 
++				break;	
++		}
++	
++	}
++	else
++	{
++	   RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("ffaddr2pipehdl():nr_endpoint=%d error!\n", pNdisCEDvice->nr_endpoint));	   
++	}
++		
++	return PipeHandle;
++
++}
++
++
++NTSTATUS usb_bulkout_zero_complete(
++	PDEVICE_OBJECT	pUsbDevObj, 
++	PIRP		pIrp, void*	pZeroContext)
++{	
++	struct zero_bulkout_context *pcontext = (struct zero_bulkout_context *)pZeroContext;
++			   
++_func_enter_;
++
++	if(pcontext)
++	{
++		if(pcontext->pbuf)
++		{
++			ExFreePool(pcontext->pbuf);	  
++		}	
++
++		if(pcontext->purb)
++		{
++			ExFreePool(pcontext->purb);	
++		}
++
++		if(pcontext->pirp && (pIrp ==pcontext->pirp))
++		{			
++			IoFreeIrp(pIrp);
++		}
++
++		ExFreePool(pcontext);	
++	}	
++
++_func_exit_;
++
++	return STATUS_MORE_PROCESSING_REQUIRED;
++	
++
++}
++
++u32 usb_bulkout_zero(struct intf_hdl *pintfhdl, u32 addr)
++{	
++	struct zero_bulkout_context *pcontext;
++	unsigned char *pbuf;
++	char NextDeviceStackSize, len;
++	PIO_STACK_LOCATION	nextStack;
++	USBD_STATUS		usbdstatus;
++	HANDLE				PipeHandle;	
++	PIRP					pirp = NULL;
++	PURB				purb = NULL;	
++	NDIS_STATUS			ndisStatus = NDIS_STATUS_SUCCESS;
++	_adapter *padapter = (_adapter *)pintfhdl->adapter;
++	struct dvobj_priv	*pdvobj = (struct dvobj_priv *)&padapter->dvobjpriv;	
++
++
++_func_enter_;
++
++	if((padapter->bDriverStopped) || (padapter->bSurpriseRemoved) ||(padapter->pwrctrlpriv.pnp_bstop_trx))
++	{		
++		return _FAIL;
++	}
++
++	len = 0;
++	NextDeviceStackSize = (char)pdvobj->nextdevstacksz;
++
++	pcontext = (struct zero_bulkout_context *)ExAllocatePool(NonPagedPool, sizeof(struct zero_bulkout_context));
++	pbuf = (unsigned char *)ExAllocatePool(NonPagedPool, sizeof(int));	
++    	purb = (PURB)ExAllocatePool(NonPagedPool, sizeof(URB));
++      	pirp = IoAllocateIrp(NextDeviceStackSize, FALSE);
++
++	pcontext->pbuf = pbuf;
++	pcontext->purb = purb;
++	pcontext->pirp = pirp;
++	pcontext->padapter = padapter;
++                    
++	//translate DMA FIFO addr to pipehandle
++	PipeHandle = ffaddr2pipehdl(pdvobj, addr);	
++
++
++	// Build our URB for USBD
++	UsbBuildInterruptOrBulkTransferRequest(
++				purb,
++				sizeof(struct _URB_BULK_OR_INTERRUPT_TRANSFER),
++				PipeHandle,
++				pbuf, 
++				NULL, 
++				len, 
++				0, 
++				NULL);
++	
++	//
++	// call the calss driver to perform the operation
++	// pass the URB to the USB driver stack
++	//
++	nextStack = IoGetNextIrpStackLocation(pirp);
++	nextStack->MajorFunction = IRP_MJ_INTERNAL_DEVICE_CONTROL;
++	nextStack->Parameters.Others.Argument1 = purb;
++	nextStack->Parameters.DeviceIoControl.IoControlCode = IOCTL_INTERNAL_USB_SUBMIT_URB;
++
++	//Set Completion Routine
++	IoSetCompletionRoutine(pirp,					// irp to use
++				               usb_bulkout_zero_complete,	// callback routine
++				               pcontext,				// context 
++				               TRUE,					// call on success
++				               TRUE,					// call on error
++				               TRUE);					// call on cancel
++
++	
++	// Call IoCallDriver to send the irp to the usb bus driver
++	//
++	ndisStatus = IoCallDriver(pdvobj->pnextdevobj, pirp);
++	usbdstatus = URB_STATUS(purb);
++
++	if( USBD_HALTED(usbdstatus) )
++	{		
++		padapter->bDriverStopped=_TRUE;
++		padapter->bSurpriseRemoved=_TRUE;
++	}
++
++	//
++	// The usb bus driver should always return STATUS_PENDING when bulk out irp async
++	//
++	if ( ndisStatus != STATUS_PENDING )
++	{		
++		return _FAIL;
++	} 	
++	
++_func_exit_;
++	
++	return _SUCCESS;
++
++}
++
++void usb_read_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem)
++{
++	_func_enter_;
++	
++
++	
++	_func_exit_;
++}
++
++NTSTATUS usb_write_mem_complete(PDEVICE_OBJECT	pUsbDevObj, PIRP piowrite_irp, PVOID pusb_cnxt)
++{
++		
++	_irqL irqL;
++	_list	*head, *plist;
++	struct io_req	*pio_req;	
++	struct io_queue *pio_q = (struct io_queue *) pusb_cnxt;
++	struct intf_hdl *pintf = &(pio_q->intf);	
++	struct intf_priv *pintfpriv = pintf->pintfpriv;	
++	_adapter *padapter = (_adapter *)pintf->adapter;
++	NTSTATUS status = STATUS_SUCCESS;
++
++	head = &(pio_q->processing);
++	
++	_func_enter_;
++	
++	_enter_critical_bh(&(pio_q->lock), &irqL);
++	
++	pintfpriv->io_irp_cnt--;
++	if(pintfpriv->io_irp_cnt ==0){		
++		_rtw_up_sema(&(pintfpriv->io_retevt));
++	}	
++	
++	pintfpriv->bio_irp_pending=_FALSE;
++	
++	switch(piowrite_irp->IoStatus.Status)
++	{		
++		case STATUS_SUCCESS:
++			break;
++			
++		default:
++			padapter->bSurpriseRemoved=_TRUE;
++			RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("\n usbAsynIntOutComplete:pioread_irp->IoStatus.Status !=STATUS_SUCCESS\n"));
++			break;
++	}				
++
++	//free irp in processing list...	
++	while(rtw_is_list_empty(head) != _TRUE)
++	{
++		plist = get_next(head);	
++		rtw_list_delete(plist);
++		pio_req = LIST_CONTAINOR(plist, struct io_req, list);
++		_rtw_up_sema(&pio_req->sema);
++	}	
++						
++	_exit_critical_bh(&(pio_q->lock), &irqL);
++
++	_func_exit_;
++	
++	return STATUS_MORE_PROCESSING_REQUIRED;
++
++}
++
++void usb_write_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *wmem)
++{
++	u32 bwritezero;
++	_irqL	irqL;
++	USBD_STATUS			usbdstatus;		
++	PIO_STACK_LOCATION		nextStack;
++	HANDLE				PipeHandle;	
++	struct io_req *pio_req;
++	
++	_adapter *adapter = (_adapter *)pintfhdl->adapter;
++	struct intf_priv *pintfpriv = pintfhdl->pintfpriv;
++	struct dvobj_priv   *pdev = (struct dvobj_priv   *)pintfpriv->intf_dev;      
++	PURB	piorw_urb = pintfpriv->piorw_urb;
++	PIRP		piorw_irp  = pintfpriv->piorw_irp; 	
++	struct io_queue	*pio_queue = (struct io_queue *)adapter->pio_queue;	
++	NTSTATUS NtStatus = STATUS_SUCCESS;	
++	
++	_func_enter_;	
++
++	pio_req = alloc_ioreq(pio_queue);
++	
++	if ((pio_req == NULL)||(adapter->bSurpriseRemoved)){
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("async_irp_write32 : pio_req =0x%x adapter->bSurpriseRemoved=0x%x",pio_req,adapter->bSurpriseRemoved ));
++		goto exit;
++	}	
++	
++	_enter_critical_bh(&(pio_queue->lock), &irqL);
++	
++	rtw_list_insert_tail(&(pio_req->list),&(pio_queue->processing));
++
++
++#ifdef NDIS51_MINIPORT
++	IoReuseIrp(piorw_irp, STATUS_SUCCESS);
++#else
++	piorw_irp->Cancel = _FALSE;
++#endif
++
++	if((adapter->bDriverStopped) || (adapter->bSurpriseRemoved) ||(adapter->pwrctrlpriv.pnp_bstop_trx))	
++	{
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("\npadapter->pwrctrlpriv.pnp_bstop_trx==_TRUE\n"));
++		_func_exit_;
++		return;
++	}
++
++	//translate DMA FIFO addr to pipehandle
++	PipeHandle = ffaddr2pipehdl(pdev, addr);	
++
++	
++	pintfpriv->io_irp_cnt++;
++	pintfpriv->bio_irp_pending=_TRUE;	
++	// Build our URB for USBD
++	UsbBuildInterruptOrBulkTransferRequest(
++				piorw_urb,
++				sizeof(struct _URB_BULK_OR_INTERRUPT_TRANSFER),
++				PipeHandle,
++				(PVOID)wmem,
++				NULL, 
++				cnt, 
++				0, 
++				NULL);  
++
++	//
++	// call the calss driver to perform the operation
++	// pass the URB to the USB driver stack
++	//
++	nextStack = IoGetNextIrpStackLocation(piorw_irp);
++	nextStack->MajorFunction = IRP_MJ_INTERNAL_DEVICE_CONTROL;
++	nextStack->Parameters.Others.Argument1 = (PURB)piorw_urb;
++	nextStack->Parameters.DeviceIoControl.IoControlCode = IOCTL_INTERNAL_USB_SUBMIT_URB;
++
++	IoSetCompletionRoutine(
++				piorw_irp,				// irp to use				
++				usb_write_mem_complete,		// routine to call when irp is done
++				pio_queue,				// context to pass routine
++				TRUE,					// call on success
++				TRUE,					// call on error
++				TRUE);					// call on cancel
++	
++	// 
++	// Call IoCallDriver to send the irp to the usb port
++	//
++	NtStatus	= IoCallDriver(pdev->pnextdevobj, piorw_irp);
++	usbdstatus = URB_STATUS(piorw_urb);
++
++	//
++	// The USB driver should always return STATUS_PENDING when
++	// it receives a write irp
++	//
++	if ((NtStatus != STATUS_PENDING) || USBD_HALTED(usbdstatus) ) {
++
++		if( USBD_HALTED(usbdstatus) ) {
++
++			RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_write_mem():USBD_HALTED(usbdstatus)=%X!\n",USBD_HALTED(usbdstatus)) );
++		}
++		_func_exit_;
++		return;//STATUS_UNSUCCESSFUL;
++	}
++
++	_exit_critical_bh(&(pio_queue->lock), &irqL);
++	
++	_rtw_down_sema(&pio_req->sema);	
++	free_ioreq(pio_req, pio_queue);
++	
++
++	bwritezero = _FALSE;
++       if (pdev->ishighspeed)
++	{
++		if(cnt> 0 && cnt%512 == 0)
++			bwritezero = _TRUE;
++			
++	}
++	else
++	{
++		if(cnt > 0 && cnt%64 == 0)
++			bwritezero = _TRUE;		
++	}
++
++	
++	if(bwritezero == _TRUE)
++	{
++		usb_bulkout_zero(pintfhdl, addr);
++	}
++	
++exit:
++	
++	_func_exit_;
++	
++}
++
++NTSTATUS usb_read_port_complete(PDEVICE_OBJECT pUsbDevObj, PIRP pIrp, PVOID context)
++{	
++	uint isevt, *pbuf;
++	struct _URB_BULK_OR_INTERRUPT_TRANSFER	*pbulkurb;
++	USBD_STATUS		usbdstatus;	
++	struct recv_buf		*precvbuf = (struct recv_buf *)context;	
++	_adapter 				*adapter =(_adapter *)precvbuf->adapter;
++	struct recv_priv		*precvpriv = &adapter->recvpriv;
++	struct dvobj_priv   	*dev = (struct dvobj_priv   *)&adapter->dvobjpriv;
++	PURB				purb = precvbuf->purb;
++	struct intf_hdl 		*pintfhdl = &adapter->pio_queue->intf;
++	
++	//RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete!!!\n"));
++
++	usbdstatus = URB_STATUS(purb);
++	
++	_rtw_spinlock_ex(&precvpriv->lock);
++	precvbuf->irp_pending=_FALSE;
++	precvpriv->rx_pending_cnt --;
++	_rtw_spinunlock_ex(&precvpriv->lock);	
++	
++	if(precvpriv->rx_pending_cnt== 0) {		
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete: rx_pending_cnt== 0, set allrxreturnevt!\n"));
++		_rtw_up_sema(&precvpriv->allrxreturnevt);	
++	}
++
++
++	if( pIrp->Cancel == _TRUE ) {
++		
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete: One IRP has been cancelled succesfully\n"));
++		return STATUS_MORE_PROCESSING_REQUIRED;
++	}
++	if(adapter->bSurpriseRemoved) {
++
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete:bDriverStopped(%d) OR bSurpriseRemoved(%d)", adapter->bDriverStopped, adapter->bSurpriseRemoved));
++		return STATUS_MORE_PROCESSING_REQUIRED;
++	}
++
++	switch(pIrp->IoStatus.Status) 
++	{
++		case STATUS_SUCCESS:
++			
++			pbulkurb = &(precvbuf->purb)->UrbBulkOrInterruptTransfer;
++			if((pbulkurb->TransferBufferLength >(MAX_RECVBUF_SZ)) || (pbulkurb->TransferBufferLength < RXDESC_SIZE) ) 
++			{								
++				RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("\n usb_read_port_complete: (pbulkurb->TransferBufferLength > MAX_RECVBUF_SZ) || (pbulkurb->TransferBufferLength < RXDESC_SIZE)\n"));
++				rtw_read_port(adapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++			}
++			else 
++			{	
++			       precvbuf->transfer_len = pbulkurb->TransferBufferLength;
++
++				pbuf = (uint*)precvbuf->pbuf;
++
++				if((isevt = *(pbuf+1)&0x1ff) == 0x1ff)
++				{								
++					rxcmd_event_hdl(adapter, pbuf);//rx c2h events
++					
++					rtw_read_port(adapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++				}
++				else
++				{
++					if(recvbuf2recvframe(adapter, precvbuf)==_FAIL)//rx packets
++					{
++						//precvbuf->reuse = _TRUE;		
++						rtw_read_port(adapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++					}
++				}
++				
++			}
++	
++			break;
++			
++		default:
++			
++			if( !USBD_HALTED(usbdstatus) )
++			{				
++				RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("\n usb_read_port_complete():USBD_HALTED(usbdstatus)=%x  (need to handle ) \n",USBD_HALTED(usbdstatus)));				
++			
++			}
++			else 
++			{				
++				RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("\n usb_read_port_complete(): USBD_HALTED(usbdstatus)=%x \n\n", USBD_HALTED(usbdstatus)) );
++				adapter->bDriverStopped = _TRUE;
++				adapter->bSurpriseRemoved = _TRUE;
++				RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_complete(): USBD_HALTED(usbdstatus)=%x \n\n", USBD_HALTED(usbdstatus))) ;
++			}
++
++		      break;
++			  
++	}
++
++	return STATUS_MORE_PROCESSING_REQUIRED;
++	
++}
++
++u32 usb_read_port(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem)
++{
++	u8 					*pdata;
++	u16					size;
++	PURB				purb;
++	PIRP					pirp;
++	PIO_STACK_LOCATION	nextStack;
++	NTSTATUS			ntstatus;
++	USBD_STATUS		usbdstatus;
++	HANDLE				PipeHandle;	
++	struct recv_buf		*precvbuf = (struct recv_buf *)rmem;
++	struct intf_priv		*pintfpriv = pintfhdl->pintfpriv;
++	struct dvobj_priv		*pdev = (struct dvobj_priv   *)pintfpriv->intf_dev;
++	_adapter				*adapter = (_adapter *)pdev->padapter;
++	struct recv_priv		*precvpriv = &adapter->recvpriv;
++	u32					bResult = _FALSE;
++
++_func_enter_;
++	
++	if(adapter->bDriverStopped || adapter->bSurpriseRemoved ||adapter->pwrctrlpriv.pnp_bstop_trx) {
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port:( padapter->bDriverStopped ||padapter->bSurpriseRemoved ||adapter->pwrctrlpriv.pnp_bstop_trx)!!!\n"));
++		return bResult;
++	}
++
++	if(precvbuf !=NULL)
++	{
++
++		rtl8192cu_init_recvbuf(adapter, precvbuf);
++	
++		_rtw_spinlock(&precvpriv->lock);
++		precvpriv->rx_pending_cnt++;
++		precvbuf->irp_pending = _TRUE;
++		_rtw_spinunlock(&precvpriv->lock);
++
++	       pdata = (u8*)precvbuf->pbuf;
++
++		size	 = sizeof( struct _URB_BULK_OR_INTERRUPT_TRANSFER );
++		purb = precvbuf->purb;	
++
++		//translate DMA FIFO addr to pipehandle
++		PipeHandle = ffaddr2pipehdl(pdev, addr);	
++		 
++		UsbBuildInterruptOrBulkTransferRequest(
++			purb,
++			(USHORT)size,
++			PipeHandle,
++			pdata,
++			NULL, 
++			MAX_RECVBUF_SZ,
++			USBD_TRANSFER_DIRECTION_IN | USBD_SHORT_TRANSFER_OK, 
++			NULL
++			);
++
++		pirp = precvbuf->pirp;
++
++#if NDIS51_MINIPORT
++		IoReuseIrp(pirp, STATUS_SUCCESS);
++#else
++		pirp->Cancel = _FALSE;
++#endif
++
++		// call the class driver to perform the operation
++		// and pass the URB to the USB driver stack
++		nextStack = IoGetNextIrpStackLocation(pirp);
++		nextStack->Parameters.Others.Argument1 = purb;
++		nextStack->Parameters.DeviceIoControl.IoControlCode = IOCTL_INTERNAL_USB_SUBMIT_URB;
++		nextStack->MajorFunction = IRP_MJ_INTERNAL_DEVICE_CONTROL;
++
++		IoSetCompletionRoutine(
++			pirp,					// irp to use
++			usb_read_port_complete,	// routine to call when irp is done
++			precvbuf,					// context to pass routine 
++			TRUE,					// call on success
++			TRUE,					// call on error
++			TRUE);					// call on cancel
++
++		//
++		// The IoCallDriver routine  
++		// sends an IRP to the driver associated with a specified device object.
++		//
++		ntstatus = IoCallDriver(pdev->pnextdevobj, pirp);
++		usbdstatus = URB_STATUS(purb);
++
++		if( USBD_HALTED(usbdstatus) ) {
++			RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("\n usb_read_port(): USBD_HALTED(usbdstatus=0x%.8x)=%.8x  \n\n", usbdstatus, USBD_HALTED(usbdstatus)));
++			pdev->padapter->bDriverStopped=_TRUE;
++			pdev->padapter->bSurpriseRemoved=_TRUE;
++		}
++
++		if( ntstatus == STATUS_PENDING )
++		{ 
++			bResult = _TRUE;// The IRP is pended in USBD as we expected.
++		}
++		else {
++			RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port(): IoCallDriver failed!!! IRP STATUS: %X\n", ntstatus));
++			RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port(): IoCallDriver failed!!! USB STATUS: %X\n", usbdstatus));
++		}
++
++	}
++	else{
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port:precv_frame ==NULL\n"));
++	}
++
++_func_exit_;
++	
++	return bResult;
++	
++}
++
++void usb_read_port_cancel(_adapter *padapter)
++{	
++	struct recv_buf  *precvbuf;
++	sint i;
++	struct dvobj_priv   *pdev = &padapter->dvobjpriv;
++	struct recv_priv *precvpriv=&padapter->recvpriv;	
++		
++	RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("\n ==>usb_read_port_cancel\n"));
++
++	_rtw_spinlock(&precvpriv->lock);
++	precvpriv->rx_pending_cnt--; //decrease 1 for Initialize ++ 
++	_rtw_spinunlock(&precvpriv->lock);
++
++	if (precvpriv->rx_pending_cnt)
++	{
++		// Canceling Pending Recv Irp
++		precvbuf = (struct recv_buf  *)precvpriv->precv_buf;
++		
++		for( i = 0; i < NR_RECVBUFF; i++ )
++		{
++			if (precvbuf->irp_pending == _TRUE)
++			{	
++				IoCancelIrp(precvbuf->pirp);
++				RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_cancel() :IoCancelIrp\n"));
++			}
++			
++			precvbuf++;
++		}
++		
++		_rtw_down_sema(&precvpriv->allrxreturnevt);
++		
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_read_port_cancel:down sema\n"));
++
++	}
++	
++	RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("<==usb_read_port_cancel\n"));
++	
++}
++
++NTSTATUS usb_write_port_complete(
++	PDEVICE_OBJECT	pUsbDevObj,
++	PIRP				pIrp,
++	PVOID			pTxContext
++) 
++{	
++	u32	i, bIrpSuccess, sz;
++	NTSTATUS	status = STATUS_SUCCESS;
++	u8 *ptr;
++	struct xmit_frame	*pxmitframe = (struct xmit_frame *) pTxContext;
++        struct xmit_buf *pxmitbuf = pxmitframe->pxmitbuf;
++	_adapter			*padapter = pxmitframe->padapter;
++	struct dvobj_priv	*pdev =	(struct dvobj_priv *)&padapter->dvobjpriv;	
++	struct io_queue	*pio_queue = (struct io_queue *)padapter->pio_queue;
++	struct intf_hdl	*pintfhdl = &(pio_queue->intf);
++       struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;		
++	   
++_func_enter_;
++
++	RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("+usb_write_port_complete\n"));
++
++	_rtw_spinlock_ex(&pxmitpriv->lock);	
++	pxmitpriv->txirp_cnt--;
++	_rtw_spinunlock_ex(&pxmitpriv->lock);
++	
++	if(pxmitpriv->txirp_cnt==0){
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_write_port_complete: txirp_cnt== 0, set allrxreturnevt!\n"));		
++		_rtw_up_sema(&(pxmitpriv->tx_retevt));
++	}
++	
++	status = pIrp->IoStatus.Status;
++
++	if( status == STATUS_SUCCESS ) 
++		bIrpSuccess = _TRUE;	
++	else	
++		bIrpSuccess = _FALSE;
++	
++	if( pIrp->Cancel == _TRUE )
++	{		
++	    if(pxmitframe !=NULL)
++	    {	       
++	    		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("\n usb_write_port_complete:pIrp->Cancel == _TRUE,(pxmitframe !=NULL\n"));
++			rtw_free_xmitframe(pxmitpriv, pxmitframe);			
++	    }
++		  	 
++	     return STATUS_MORE_PROCESSING_REQUIRED;
++	}
++
++	if(padapter->bSurpriseRemoved)
++	{
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_write_port_complete:bDriverStopped(%d) OR bSurpriseRemoved(%d)", padapter->bDriverStopped, padapter->bSurpriseRemoved));
++		return STATUS_MORE_PROCESSING_REQUIRED;
++	}
++
++
++	//
++	// Send 0-byte here if necessary.
++	//
++	// <Note> 
++	// 1. We MUST keep at most one IRP pending in each endpoint, otherwise USB host controler driver will hang.
++	// Besides, even 0-byte IRP shall be count into #IRP sent down, so, we send 0-byte here instead of TxFillDescriptor8187().
++	// 2. If we don't count 0-byte IRP into an #IRP sent down, Tx will stuck when we download files via BT and 
++	// play online video on XP SP1 EHCU.
++	// 2005.12.26, by rcnjko.
++	//
++
++	
++	for(i=0; i< 8; i++)
++	{
++            if(pIrp == pxmitframe->pxmit_irp[i])
++            {
++		    pxmitframe->bpending[i] = _FALSE;//
++		    //ac_tag = pxmitframe->ac_tag[i];
++                  sz = pxmitframe->sz[i];
++		    break;		  
++            }
++	}
++
++#if 0	
++	pxmitframe->fragcnt--;
++	if(pxmitframe->fragcnt == 0)// if((pxmitframe->fragcnt == 0) && (pxmitframe->irpcnt == 8)){
++	{
++		//RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("\n usb_write_port_complete:pxmitframe->fragcnt == 0\n"));
++		rtw_free_xmitframe(pxmitpriv,pxmitframe);	          
++      	}
++#else	
++
++	//not to consider tx fragment
++	rtw_free_xmitframe(pxmitpriv, pxmitframe);		
++
++#endif	
++
++	rtl8192cu_xmitframe_complete(padapter, pxmitpriv, pxmitbuf);
++
++_func_exit_;
++
++	return STATUS_MORE_PROCESSING_REQUIRED;
++
++}
++
++u32 usb_write_port(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *wmem)
++{
++       u32 i, bwritezero;      	
++	u8 *ptr;
++	PIO_STACK_LOCATION	nextStack;
++	USBD_STATUS		usbdstatus;
++	HANDLE				PipeHandle;	
++	PIRP					pirp = NULL;
++	PURB				purb = NULL;	
++	NDIS_STATUS			ndisStatus = NDIS_STATUS_SUCCESS;
++	_adapter *padapter = (_adapter *)pintfhdl->adapter;
++	struct dvobj_priv	*pNdisCEDvice = (struct dvobj_priv   *)&padapter->dvobjpriv;	
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	struct xmit_frame *pxmitframe = (struct xmit_frame *)wmem;
++
++_func_enter_;
++
++	if((padapter->bDriverStopped) || (padapter->bSurpriseRemoved) ||(padapter->pwrctrlpriv.pnp_bstop_trx))
++	{
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_write_port:( padapter->bDriverStopped ||padapter->bSurpriseRemoved ||adapter->pwrctrlpriv.pnp_bstop_trx)!!!\n"));
++		return _FAIL;
++	}
++	
++
++	for(i=0; i<8; i++)
++       {
++		if(pxmitframe->bpending[i] == _FALSE)
++		{
++			_rtw_spinlock(&pxmitpriv->lock);	
++			pxmitpriv->txirp_cnt++;
++			pxmitframe->bpending[i]  = _TRUE;
++			_rtw_spinunlock(&pxmitpriv->lock);
++			
++			pxmitframe->sz[i] = cnt;
++			purb	= pxmitframe->pxmit_urb[i];
++			pirp	= pxmitframe->pxmit_irp[i];
++			
++			//pxmitframe->ac_tag[i] = ac_tag;
++			
++			break;	 
++		}
++       }	
++
++	bwritezero = _FALSE;
++       if (pNdisCEDvice->ishighspeed)
++	{
++		if(cnt> 0 && cnt%512 == 0)
++		{
++			RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("ishighspeed, cnt=%d\n", cnt));
++			//cnt=cnt+1;
++			bwritezero = _TRUE;
++		}	
++	}
++	else
++	{
++		if(cnt > 0 && cnt%64 == 0)
++		{
++			RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("cnt=%d\n", cnt));
++			//cnt=cnt+1;
++			bwritezero = _TRUE;
++		}	
++	}
++	
++
++#ifdef NDIS51_MINIPORT
++	IoReuseIrp(pirp, STATUS_SUCCESS);
++#else
++	pirp->Cancel = _FALSE;
++#endif
++
++
++	//translate DMA FIFO addr to pipehandle
++	PipeHandle = ffaddr2pipehdl(pNdisCEDvice, addr);	
++
++
++	// Build our URB for USBD
++	UsbBuildInterruptOrBulkTransferRequest(
++				purb,
++				sizeof(struct _URB_BULK_OR_INTERRUPT_TRANSFER),
++				PipeHandle,
++				pxmitframe->mem_addr, 
++				NULL, 
++				cnt, 
++				0, 
++				NULL);
++	
++	//
++	// call the calss driver to perform the operation
++	// pass the URB to the USB driver stack
++	//
++	nextStack = IoGetNextIrpStackLocation(pirp);
++	nextStack->MajorFunction = IRP_MJ_INTERNAL_DEVICE_CONTROL;
++	nextStack->Parameters.Others.Argument1 = purb;
++	nextStack->Parameters.DeviceIoControl.IoControlCode = IOCTL_INTERNAL_USB_SUBMIT_URB;
++
++	//Set Completion Routine
++	IoSetCompletionRoutine(pirp,					// irp to use
++				               usb_write_port_complete,	// callback routine
++				               pxmitframe,				// context 
++				               TRUE,					// call on success
++				               TRUE,					// call on error
++				               TRUE);					// call on cancel
++
++	
++	// Call IoCallDriver to send the irp to the usb bus driver
++	//
++	ndisStatus = IoCallDriver(pNdisCEDvice->pnextdevobj, pirp);
++	usbdstatus = URB_STATUS(purb);
++
++	if( USBD_HALTED(usbdstatus) )
++	{
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("\n usb_write_port(): USBD_HALTED(usbdstatus)=%x set bDriverStopped TRUE!\n\n",USBD_HALTED(usbdstatus)) );
++		padapter->bDriverStopped=_TRUE;
++		padapter->bSurpriseRemoved=_TRUE;
++	}
++
++	//
++	// The usb bus driver should always return STATUS_PENDING when bulk out irp async
++	//
++	if ( ndisStatus != STATUS_PENDING )
++	{
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("\n usb_write_port(): ndisStatus(%x) != STATUS_PENDING!\n\n", ndisStatus));
++		
++		_func_exit_;
++		
++		return _FAIL;
++	} 	
++	
++	if(bwritezero == _TRUE)
++	{
++		usb_bulkout_zero(pintfhdl, addr);
++	}
++
++	
++_func_exit_;
++	
++	return _SUCCESS;
++
++}
++
++
++void usb_write_port_cancel(_adapter *padapter)
++{
++
++	sint i,j;
++	struct dvobj_priv   *pdev = &padapter->dvobjpriv;
++	struct xmit_priv *pxmitpriv=&padapter->xmitpriv;
++	struct xmit_frame *pxmitframe;
++
++	_rtw_spinlock(&pxmitpriv->lock);
++	pxmitpriv->txirp_cnt--; //decrease 1 for Initialize ++
++	_rtw_spinunlock(&pxmitpriv->lock);
++	
++	if (pxmitpriv->txirp_cnt) 
++	{
++		// Canceling Pending Recv Irp
++		pxmitframe= (struct xmit_frame *)pxmitpriv->pxmit_frame_buf;
++		
++		for( i = 0; i < NR_XMITFRAME; i++ )
++		{
++			for(j=0;j<8;j++)
++			{
++				if (pxmitframe->bpending[j]==_TRUE)
++				{			
++					IoCancelIrp(pxmitframe->pxmit_irp[j]);		
++					RT_TRACE(_module_hci_ops_os_c_,_drv_err_,(" usb_write_port_cancel() :IoCancelIrp\n"));
++
++				}
++			}
++			
++			pxmitframe++;
++		}
++
++		_rtw_down_sema(&(pxmitpriv->tx_retevt));
++		
++	}
++
++}
++
++
++/*! \brief Wrap the pUrb to an IRP and send this IRP to Bus Driver. Then wait for this IRP completion.
++	The Caller shall be at Passive Level.
++*/
++NTSTATUS  sync_callusbd(struct dvobj_priv *pdvobjpriv, PURB purb)
++{
++
++	KEVENT					kevent;
++	PIRP						irp;
++	IO_STATUS_BLOCK		iostatusblock;
++	PIO_STACK_LOCATION		nextstack;
++	USBD_STATUS			usbdstatus;
++	LARGE_INTEGER			waittime;
++	NTSTATUS ntstatus = STATUS_SUCCESS;
++	_adapter *padapter = pdvobjpriv->padapter;
++	
++
++	_func_enter_;
++
++//	if(padapter->bDriverStopped) {
++//		goto exit;
++//	}
++	
++	KeInitializeEvent(&kevent, NotificationEvent, _FALSE);
++	irp = IoBuildDeviceIoControlRequest(
++			IOCTL_INTERNAL_USB_SUBMIT_URB,
++			pdvobjpriv->pphysdevobj,//CEdevice->pUsbDevObj, 
++			NULL, 
++			0, 
++			NULL, 
++			0, 
++			_TRUE, 
++			&kevent, 
++			&iostatusblock);
++
++	if(irp == NULL) {
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("SyncCallUSBD: memory alloc for irp failed\n"));
++		ntstatus=STATUS_INSUFFICIENT_RESOURCES;
++		goto exit;
++	}
++	
++	nextstack = IoGetNextIrpStackLocation(irp);
++	if(nextstack == NULL)	
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("IoGetNextIrpStackLocation fail\n"));
++
++	nextstack->Parameters.Others.Argument1 = purb;
++	
++	// Issue an IRP for Sync IO.
++	ntstatus = IoCallDriver(pdvobjpriv->pphysdevobj, irp);
++	usbdstatus = URB_STATUS(purb);
++
++	if(ntstatus == STATUS_PENDING)
++	{		
++		// Method 1
++		waittime.QuadPart = -10000 * 50000;
++		ntstatus = KeWaitForSingleObject(&kevent, Executive, KernelMode, _FALSE, &waittime); //8150 code
++		
++		// Method 2
++		//ntStatus = KeWaitForSingleObject(&Kevent, Executive, KernelMode, FALSE, NULL); //DDK sample
++		
++		usbdstatus = URB_STATUS(purb);
++
++		if(ntstatus == STATUS_TIMEOUT) 
++		{			
++			//usbdevice->nIoStuckCnt++;
++			RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("SyncCallUSBD: TIMEOUT....5000ms\n"));
++
++			// Method 2
++			IoCancelIrp(irp);
++			ntstatus = KeWaitForSingleObject(&kevent, Executive, KernelMode, _FALSE, NULL); //DDK sample
++			usbdstatus = URB_STATUS(purb);
++
++			usbdstatus = USBD_STATUS_SUCCESS;
++		}
++		
++	}
++	
++exit:	
++	
++	_func_exit_;
++	
++	return ntstatus;
++	
++}
++int usbctrl_vendorreq(struct intf_priv *pintfpriv, u8 request, u16 value, u16 index, void *pdata, u16 len, u8 requesttype)
++{
++	PURB			purb;
++	u8				ret;
++	unsigned long		transferflags;
++	NTSTATUS		ntstatus;
++
++	struct dvobj_priv  *pdvobjpriv = (struct dvobj_priv  *)pintfpriv->intf_dev;   
++	
++	_func_enter_;
++
++	ret=_TRUE;
++	purb = (PURB)ExAllocatePool(NonPagedPool, sizeof(struct _URB_CONTROL_VENDOR_OR_CLASS_REQUEST) );
++	if(purb == NULL) {
++		
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usbctrl_vendorreq(): Failed to allocate urb !!!\n"));
++		ret =_FALSE;
++		goto exit;
++	}
++
++	if (requesttype == 0x01) {
++		transferflags = USBD_TRANSFER_DIRECTION_IN;//read_in
++	} else {
++		transferflags= 0;//write_out
++	}
++
++	UsbBuildVendorRequest(
++			purb, 		//Pointer to an URB that is to be formatted as a vendor or class request. 
++			URB_FUNCTION_VENDOR_DEVICE,	//Indicates the URB is a vendor-defined request for a USB device. 
++			sizeof(struct _URB_CONTROL_VENDOR_OR_CLASS_REQUEST),  //Specifies the length, in bytes, of the URB. 
++			transferflags, 	//TransferFlags 
++			0,			//ReservedBits 
++			request, 	//Request 
++			value, 		//Value 
++			index,		//Index
++			pdata,		//TransferBuffer 
++			NULL,		//TransferBufferMDL 
++			len,			//TransferBufferLength 
++			NULL		//Link 
++	);
++
++	ntstatus = sync_callusbd(pdvobjpriv, purb);
++	if(!NT_SUCCESS(ntstatus))
++	{
++		ExFreePool(purb);
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,(" usbctrl_vendorreq() : SOMETHING WRONG\n") );
++		ret = _FALSE;
++		goto exit;
++	}
++
++	ExFreePool(purb);
++
++exit:	
++	_func_exit_;
++	
++	return ret;	
++
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/Hal8192CEHWImg.h b/drivers/net/wireless/rtl8192cu/include/Hal8192CEHWImg.h
+new file mode 100755
+index 0000000..4ae3630
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/Hal8192CEHWImg.h
+@@ -0,0 +1,85 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8192CE_FW_IMG_H
++#define __INC_HAL8192CE_FW_IMG_H
++
++#include <basic_types.h>
++
++/*Created on  2011/ 6/15,  5:45*/
++
++#ifdef CONFIG_BT_COEXISTENCE
++#define TSMCImgArrayLength 15706 //v84 TSMC COMMON 2012-04-13
++#else //#ifdef CONFIG_P2P
++#define TSMCImgArrayLength 16126 //v88 TSMC P2PPS with CCX report C2H 2012-12-05
++#endif
++extern u8 Rtl8192CEFwTSMCImgArray[TSMCImgArrayLength];
++
++#ifdef CONFIG_BT_COEXISTENCE
++#define UMCACutImgArrayLength 16248 //v79 UMC A Cut COMMON 2011-10-06
++#else //#ifdef CONFIG_P2P
++#define UMCACutImgArrayLength 16126 //v88 UMC A Cut P2PPS with CCX report C2H 2012-12-05
++#endif
++extern u8 Rtl8192CEFwUMCACutImgArray[UMCACutImgArrayLength];
++
++#ifdef CONFIG_BT_COEXISTENCE
++#define UMCBCutImgArrayLength 15686 //v84 UMC B Cut COMMON 2012-04-13
++#else //#ifdef CONFIG_P2P
++#define UMCBCutImgArrayLength 16096 //v88 UMC B Cut P2PPS with CCX report C2H 2012-12-05
++#endif
++extern u8 Rtl8192CEFwUMCBCutImgArray[UMCBCutImgArrayLength];
++
++//8192C_Formal_92CE_PHYforMP_110804 2011-11-23
++//8188C_Formal_88CE_PHYforMP_111117 2011-11-23
++
++#define PHY_REG_2TArrayLength 374
++extern u32 Rtl8192CEPHY_REG_2TArray[PHY_REG_2TArrayLength];
++#define PHY_REG_1TArrayLength 374
++extern u32 Rtl8192CEPHY_REG_1TArray[PHY_REG_1TArrayLength];
++#define PHY_ChangeTo_1T1RArrayLength 1
++extern u32 Rtl8192CEPHY_ChangeTo_1T1RArray[PHY_ChangeTo_1T1RArrayLength];
++#define PHY_ChangeTo_1T2RArrayLength 1
++extern u32 Rtl8192CEPHY_ChangeTo_1T2RArray[PHY_ChangeTo_1T2RArrayLength];
++#define PHY_ChangeTo_2T2RArrayLength 1
++extern u32 Rtl8192CEPHY_ChangeTo_2T2RArray[PHY_ChangeTo_2T2RArrayLength];
++#define PHY_REG_Array_PGLength 336
++extern u32 Rtl8192CEPHY_REG_Array_PG[PHY_REG_Array_PGLength];
++#define PHY_REG_Array_MPLength 4
++extern u32 Rtl8192CEPHY_REG_Array_MP[PHY_REG_Array_MPLength];
++#define RadioA_2TArrayLength 282
++extern u32 Rtl8192CERadioA_2TArray[RadioA_2TArrayLength];
++#define RadioB_2TArrayLength 78
++extern u32 Rtl8192CERadioB_2TArray[RadioB_2TArrayLength];
++#define RadioA_1TArrayLength 282
++extern u32 Rtl8192CERadioA_1TArray[RadioA_1TArrayLength];
++#define RadioB_1TArrayLength 1
++extern u32 Rtl8192CERadioB_1TArray[RadioB_1TArrayLength];
++#define RadioB_GM_ArrayLength 1
++extern u32 Rtl8192CERadioB_GM_Array[RadioB_GM_ArrayLength];
++// MAC reg V14 - 2011-11-23
++#define MAC_2T_ArrayLength 174
++extern u32 Rtl8192CEMAC_2T_Array[MAC_2T_ArrayLength];
++#define MACPHY_Array_PGLength 1
++extern u32 Rtl8192CEMACPHY_Array_PG[MACPHY_Array_PGLength];
++#define AGCTAB_2TArrayLength 320
++extern u32 Rtl8192CEAGCTAB_2TArray[AGCTAB_2TArrayLength];
++#define AGCTAB_1TArrayLength 320
++extern u32 Rtl8192CEAGCTAB_1TArray[AGCTAB_1TArrayLength];
++
++#endif //__INC_HAL8192CE_FW_IMG_H
+diff --git a/drivers/net/wireless/rtl8192cu/include/Hal8192CPhyCfg.h b/drivers/net/wireless/rtl8192cu/include/Hal8192CPhyCfg.h
+new file mode 100755
+index 0000000..3afb292
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/Hal8192CPhyCfg.h
+@@ -0,0 +1,428 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*****************************************************************************
++ * Module:	__INC_HAL8192CPHYCFG_H
++ *
++ *
++ * Note:	
++ *			
++ *
++ * Export:	Constants, macro, functions(API), global variables(None).
++ *
++ * Abbrev:	
++ *
++ * History:
++ *		Data		Who		Remark 
++ *      08/07/2007  MHC    	1. Porting from 9x series PHYCFG.h.
++ *							2. Reorganize code architecture.
++ * 
++ *****************************************************************************/
++ /* Check to see if the file has been included already.  */
++#ifndef __INC_HAL8192CPHYCFG_H
++#define __INC_HAL8192CPHYCFG_H
++
++
++/*--------------------------Define Parameters-------------------------------*/
++#define LOOP_LIMIT				5
++#define MAX_STALL_TIME			50		//us
++#define AntennaDiversityValue	0x80	//(Adapter->bSoftwareAntennaDiversity ? 0x00:0x80)
++#define MAX_TXPWR_IDX_NMODE_92S	63
++#define Reset_Cnt_Limit			3
++
++#define IQK_MAC_REG_NUM		4
++#define IQK_ADDA_REG_NUM		16
++#define IQK_BB_REG_NUM			9
++#define HP_THERMAL_NUM		8
++
++#ifdef CONFIG_PCI_HCI
++#define MAX_AGGR_NUM	0x0A0A
++#else
++#define MAX_AGGR_NUM	0x0909
++#endif
++
++#ifdef CONFIG_PCI_HCI
++#define	SET_RTL8192SE_RF_SLEEP(_pAdapter)							\
++{																	\
++	u1Byte		u1bTmp;												\
++	u1bTmp = PlatformEFIORead1Byte(_pAdapter, REG_LDOV12D_CTRL);		\
++	u1bTmp |= BIT0;													\
++	PlatformEFIOWrite1Byte(_pAdapter, REG_LDOV12D_CTRL, u1bTmp);		\
++	PlatformEFIOWrite1Byte(_pAdapter, REG_SPS_OCP_CFG, 0x0);				\
++	PlatformEFIOWrite1Byte(_pAdapter, TXPAUSE, 0xFF);				\
++	PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x57FC);				\
++	delay_us(100);													\
++	PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x77FC);				\
++	PlatformEFIOWrite1Byte(_pAdapter, PHY_CCA, 0x0);				\
++	delay_us(10);													\
++	PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x37FC);				\
++	delay_us(10);													\
++	PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x77FC);				\
++	delay_us(10);													\
++	PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x57FC);				\
++}
++#endif
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++
++/*------------------------------Define structure----------------------------*/ 
++typedef enum _SwChnlCmdID{
++	CmdID_End,
++	CmdID_SetTxPowerLevel,
++	CmdID_BBRegWrite10,
++	CmdID_WritePortUlong,
++	CmdID_WritePortUshort,
++	CmdID_WritePortUchar,
++	CmdID_RF_WriteReg,
++}SwChnlCmdID;
++
++
++/* 1. Switch channel related */
++typedef struct _SwChnlCmd{
++	SwChnlCmdID	CmdID;
++	u32			Para1;
++	u32			Para2;
++	u32			msDelay;
++}SwChnlCmd;
++
++typedef enum _HW90_BLOCK{
++	HW90_BLOCK_MAC = 0,
++	HW90_BLOCK_PHY0 = 1,
++	HW90_BLOCK_PHY1 = 2,
++	HW90_BLOCK_RF = 3,
++	HW90_BLOCK_MAXIMUM = 4, // Never use this
++}HW90_BLOCK_E, *PHW90_BLOCK_E;
++
++#define	RF_PATH_MAX			2
++
++#define CHANNEL_MAX_NUMBER		14	// 14 is the max channel number
++#define CHANNEL_GROUP_MAX		3	// ch1~3, ch4~9, ch10~14 total three groups
++
++typedef enum _WIRELESS_MODE {
++	WIRELESS_MODE_UNKNOWN = 0x00,
++	WIRELESS_MODE_A = 0x01,
++	WIRELESS_MODE_B = 0x02,
++	WIRELESS_MODE_G = 0x04,
++	WIRELESS_MODE_AUTO = 0x08,
++	WIRELESS_MODE_N_24G = 0x10,
++	WIRELESS_MODE_N_5G = 0x20
++} WIRELESS_MODE;
++
++typedef enum _BaseBand_Config_Type{
++	BaseBand_Config_PHY_REG = 0,			//Radio Path A
++	BaseBand_Config_AGC_TAB = 1,			//Radio Path B
++}BaseBand_Config_Type, *PBaseBand_Config_Type;
++
++
++typedef enum _PHY_Rate_Tx_Power_Offset_Area{
++	RA_OFFSET_LEGACY_OFDM1,
++	RA_OFFSET_LEGACY_OFDM2,
++	RA_OFFSET_HT_OFDM1,
++	RA_OFFSET_HT_OFDM2,
++	RA_OFFSET_HT_OFDM3,
++	RA_OFFSET_HT_OFDM4,
++	RA_OFFSET_HT_CCK,
++}RA_OFFSET_AREA,*PRA_OFFSET_AREA;
++
++
++/* BB/RF related */
++typedef	enum _RF_TYPE_8190P{
++	RF_TYPE_MIN,	// 0
++	RF_8225=1,			// 1 11b/g RF for verification only
++	RF_8256=2,			// 2 11b/g/n 
++	RF_8258=3,			// 3 11a/b/g/n RF
++	RF_6052=4,		// 4 11b/g/n RF
++	//RF_6052=5,		// 4 11b/g/n RF
++	// TODO: We sholud remove this psudo PHY RF after we get new RF.
++	RF_PSEUDO_11N=5,	// 5, It is a temporality RF. 
++}RF_TYPE_8190P_E,*PRF_TYPE_8190P_E;
++
++typedef struct _BB_REGISTER_DEFINITION{
++	u32 rfintfs;			// set software control: 
++							//		0x870~0x877[8 bytes]
++							
++	u32 rfintfi;			// readback data: 
++							//		0x8e0~0x8e7[8 bytes]
++							
++	u32 rfintfo; 		// output data: 
++							//		0x860~0x86f [16 bytes]
++							
++	u32 rfintfe; 		// output enable: 
++							//		0x860~0x86f [16 bytes]
++							
++	u32 rf3wireOffset;	// LSSI data:
++							//		0x840~0x84f [16 bytes]
++							
++	u32 rfLSSI_Select;	// BB Band Select: 
++							//		0x878~0x87f [8 bytes]
++							
++	u32 rfTxGainStage;	// Tx gain stage: 
++							//		0x80c~0x80f [4 bytes]
++							
++	u32 rfHSSIPara1; 	// wire parameter control1 : 
++							//		0x820~0x823,0x828~0x82b, 0x830~0x833, 0x838~0x83b [16 bytes]
++							
++	u32 rfHSSIPara2; 	// wire parameter control2 : 
++							//		0x824~0x827,0x82c~0x82f, 0x834~0x837, 0x83c~0x83f [16 bytes]
++								
++	u32 rfSwitchControl; //Tx Rx antenna control : 
++							//		0x858~0x85f [16 bytes]
++								
++	u32 rfAGCControl1; 	//AGC parameter control1 : 
++							//		0xc50~0xc53,0xc58~0xc5b, 0xc60~0xc63, 0xc68~0xc6b [16 bytes] 
++								
++	u32 rfAGCControl2; 	//AGC parameter control2 : 
++							//		0xc54~0xc57,0xc5c~0xc5f, 0xc64~0xc67, 0xc6c~0xc6f [16 bytes] 
++							
++	u32 rfRxIQImbalance; //OFDM Rx IQ imbalance matrix : 
++							//		0xc14~0xc17,0xc1c~0xc1f, 0xc24~0xc27, 0xc2c~0xc2f [16 bytes]
++							
++	u32 rfRxAFE;  		//Rx IQ DC ofset and Rx digital filter, Rx DC notch filter : 
++							//		0xc10~0xc13,0xc18~0xc1b, 0xc20~0xc23, 0xc28~0xc2b [16 bytes]
++							
++	u32 rfTxIQImbalance; //OFDM Tx IQ imbalance matrix
++							//		0xc80~0xc83,0xc88~0xc8b, 0xc90~0xc93, 0xc98~0xc9b [16 bytes]
++							
++	u32 rfTxAFE; 		//Tx IQ DC Offset and Tx DFIR type
++							//		0xc84~0xc87,0xc8c~0xc8f, 0xc94~0xc97, 0xc9c~0xc9f [16 bytes]
++								
++	u32 rfLSSIReadBack; 	//LSSI RF readback data SI mode
++								//		0x8a0~0x8af [16 bytes]
++
++	u32 rfLSSIReadBackPi; 	//LSSI RF readback data PI mode 0x8b8-8bc for Path A and B
++
++}BB_REGISTER_DEFINITION_T, *PBB_REGISTER_DEFINITION_T;
++
++#ifdef CONFIG_MP_INCLUDED
++typedef enum _ANTENNA_PATH{
++        ANTENNA_NONE 	= 0x00,
++		ANTENNA_D		,
++		ANTENNA_C		,
++		ANTENNA_CD		,
++		ANTENNA_B		,
++		ANTENNA_BD		,
++		ANTENNA_BC		,
++		ANTENNA_BCD		,
++		ANTENNA_A		,
++		ANTENNA_AD		,
++		ANTENNA_AC		,
++		ANTENNA_ACD		,
++		ANTENNA_AB		,
++		ANTENNA_ABD		,
++		ANTENNA_ABC		,
++		ANTENNA_ABCD	
++} ANTENNA_PATH;
++#endif
++
++typedef struct _R_ANTENNA_SELECT_OFDM{	
++	u32			r_tx_antenna:4;	
++	u32			r_ant_l:4;
++	u32			r_ant_non_ht:4;	
++	u32			r_ant_ht1:4;
++	u32			r_ant_ht2:4;
++	u32			r_ant_ht_s1:4;
++	u32			r_ant_non_ht_s1:4;
++	u32			OFDM_TXSC:2;
++	u32			Reserved:2;
++}R_ANTENNA_SELECT_OFDM;
++
++typedef struct _R_ANTENNA_SELECT_CCK{
++	u8			r_cckrx_enable_2:2;	
++	u8			r_cckrx_enable:2;
++	u8			r_ccktx_enable:4;
++}R_ANTENNA_SELECT_CCK;
++
++/*------------------------------Define structure----------------------------*/ 
++
++
++/*------------------------Export global variable----------------------------*/
++/*------------------------Export global variable----------------------------*/
++
++
++/*------------------------Export Marco Definition---------------------------*/
++/*------------------------Export Marco Definition---------------------------*/
++
++
++/*--------------------------Exported Function prototype---------------------*/
++//
++// BB and RF register read/write
++//
++u32	rtl8192c_PHY_QueryBBReg(	IN	PADAPTER	Adapter,
++								IN	u32		RegAddr,
++								IN	u32		BitMask	);
++void	rtl8192c_PHY_SetBBReg(	IN	PADAPTER	Adapter,
++								IN	u32		RegAddr,
++								IN	u32		BitMask,
++								IN	u32		Data	);
++u32	rtl8192c_PHY_QueryRFReg(	IN	PADAPTER			Adapter,
++								IN	RF_RADIO_PATH_E	eRFPath,
++								IN	u32				RegAddr,
++								IN	u32				BitMask	);
++void	rtl8192c_PHY_SetRFReg(	IN	PADAPTER			Adapter,
++								IN	RF_RADIO_PATH_E	eRFPath,
++								IN	u32				RegAddr,
++								IN	u32				BitMask,
++								IN	u32				Data	);
++
++//
++// Initialization related function
++//
++/* MAC/BB/RF HAL config */
++int	PHY_MACConfig8192C(	IN	PADAPTER	Adapter	);
++int	PHY_BBConfig8192C(	IN	PADAPTER	Adapter	);
++int	PHY_RFConfig8192C(	IN	PADAPTER	Adapter	);
++/* RF config */
++int	rtl8192c_PHY_ConfigRFWithParaFile(	IN	PADAPTER	Adapter,
++												IN	u8* 	pFileName,
++												IN	RF_RADIO_PATH_E	eRFPath);
++int	rtl8192c_PHY_ConfigRFWithHeaderFile(	IN	PADAPTER			Adapter,
++												IN	RF_RADIO_PATH_E	eRFPath);
++
++/* BB/RF readback check for making sure init OK */
++int	rtl8192c_PHY_CheckBBAndRFOK(	IN	PADAPTER			Adapter,
++										IN	HW90_BLOCK_E		CheckBlock,
++										IN	RF_RADIO_PATH_E	eRFPath	  );
++/* Read initi reg value for tx power setting. */
++void	rtl8192c_PHY_GetHWRegOriginalValue(	IN	PADAPTER		Adapter	);
++
++//
++// RF Power setting
++//
++//extern	BOOLEAN	PHY_SetRFPowerState(IN	PADAPTER			Adapter, 
++//									IN	RT_RF_POWER_STATE	eRFPowerState);
++
++//
++// BB TX Power R/W
++//
++void	PHY_GetTxPowerLevel8192C(	IN	PADAPTER		Adapter,
++											OUT u32*    		powerlevel	);
++void	PHY_SetTxPowerLevel8192C(	IN	PADAPTER		Adapter,
++											IN	u8			channel	);
++BOOLEAN	PHY_UpdateTxPowerDbm8192C(	IN	PADAPTER	Adapter,
++											IN	int		powerInDbm	);
++
++//
++VOID 
++PHY_ScanOperationBackup8192C(IN	PADAPTER	Adapter,
++										IN	u8		Operation	);
++
++//
++// Switch bandwidth for 8192S
++//
++//extern	void	PHY_SetBWModeCallback8192C(	IN	PRT_TIMER		pTimer	);
++void	PHY_SetBWMode8192C(	IN	PADAPTER			pAdapter,
++									IN	HT_CHANNEL_WIDTH	ChnlWidth,
++									IN	unsigned char	Offset	);
++
++//
++// Set FW CMD IO for 8192S.
++//
++//extern	BOOLEAN HalSetIO8192C(	IN	PADAPTER			Adapter,
++//									IN	IO_TYPE				IOType);
++
++//
++// Set A2 entry to fw for 8192S
++//
++extern	void FillA2Entry8192C(		IN	PADAPTER			Adapter,
++										IN	u8				index,
++										IN	u8*				val);
++
++
++//
++// channel switch related funciton
++//
++//extern	void	PHY_SwChnlCallback8192C(	IN	PRT_TIMER		pTimer	);
++void	PHY_SwChnl8192C(	IN	PADAPTER		pAdapter,
++									IN	u8			channel	);
++				// Call after initialization
++void	PHY_SwChnlPhy8192C(	IN	PADAPTER		pAdapter,
++									IN	u8			channel	);
++
++void ChkFwCmdIoDone(	IN	PADAPTER	Adapter);
++
++#ifdef USE_WORKITEM	
++//extern 	void SetIOWorkItemCallback( IN PVOID            pContext );
++#else
++//extern	void SetIOTimerCallback( IN PRT_TIMER		pTimer);
++#endif	
++				
++//
++// BB/MAC/RF other monitor API
++//
++void	PHY_SetMonitorMode8192C(IN	PADAPTER	pAdapter,
++										IN	BOOLEAN		bEnableMonitorMode	);
++
++BOOLEAN	PHY_CheckIsLegalRfPath8192C(IN	PADAPTER	pAdapter,
++											IN	u32		eRFPath	);
++
++//
++// IQ calibrate
++//
++VOID rtl8192c_PHY_IQCalibrate( IN PADAPTER pAdapter , IN BOOLEAN bReCovery);
++
++//
++// LC calibrate
++//
++VOID rtl8192c_PHY_LCCalibrate(IN	PADAPTER	pAdapter);
++
++//
++// AP calibrate
++//
++VOID rtl8192c_PHY_APCalibrate(IN	PADAPTER	pAdapter, IN 	char		delta);
++
++VOID rtl8192c_PHY_SetRFPathSwitch(IN	PADAPTER	pAdapter, IN	BOOLEAN		bMain);
++
++//
++// Modify the value of the hw register when beacon interval be changed.
++//
++void	
++rtl8192c_PHY_SetBeaconHwReg(	IN	PADAPTER		Adapter,
++					IN	u16			BeaconInterval	);
++
++
++extern	VOID
++PHY_SwitchEphyParameter(
++	IN	PADAPTER			Adapter
++	);
++
++extern	VOID
++PHY_EnableHostClkReq(
++	IN	PADAPTER			Adapter
++	);
++
++BOOLEAN
++SetAntennaConfig92C(
++	IN	PADAPTER	Adapter,
++	IN	u8		DefaultAnt	
++	);
++
++
++/*--------------------------Exported Function prototype---------------------*/
++
++#define PHY_QueryBBReg(Adapter, RegAddr, BitMask) rtl8192c_PHY_QueryBBReg((Adapter), (RegAddr), (BitMask))
++#define PHY_SetBBReg(Adapter, RegAddr, BitMask, Data) rtl8192c_PHY_SetBBReg((Adapter), (RegAddr), (BitMask), (Data))
++#define PHY_QueryRFReg(Adapter, eRFPath, RegAddr, BitMask) rtl8192c_PHY_QueryRFReg((Adapter), (eRFPath), (RegAddr), (BitMask))
++#define PHY_SetRFReg(Adapter, eRFPath, RegAddr, BitMask, Data) rtl8192c_PHY_SetRFReg((Adapter), (eRFPath), (RegAddr), (BitMask), (Data))
++
++#define PHY_SetMacReg	PHY_SetBBReg
++
++#endif	// __INC_HAL8192CPHYCFG_H
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/Hal8192CPhyReg.h b/drivers/net/wireless/rtl8192cu/include/Hal8192CPhyReg.h
+new file mode 100755
+index 0000000..6364166
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/Hal8192CPhyReg.h
+@@ -0,0 +1,1123 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*****************************************************************************
++ *
++ * Module:	__INC_HAL8192CPHYREG_H
++ *
++ *
++ * Note:	1. Define PMAC/BB register map
++ *			2. Define RF register map
++ *			3. PMAC/BB register bit mask.
++ *			4. RF reg bit mask.
++ *			5. Other BB/RF relative definition.
++ *			
++ *
++ * Export:	Constants, macro, functions(API), global variables(None).
++ *
++ * Abbrev:	
++ *
++ * History:
++ *		Data		Who		Remark 
++ *      08/07/2007  MHC    	1. Porting from 9x series PHYCFG.h.
++ *							2. Reorganize code architecture.
++ *	09/25/2008	MH		1. Add RL6052 register definition
++ * 
++ *****************************************************************************/
++#ifndef __INC_HAL8192CPHYREG_H
++#define __INC_HAL8192CPHYREG_H
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++//============================================================
++//       8192S Regsiter offset definition
++//============================================================
++
++//
++// BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++// 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++// 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++// 3. RF register 0x00-2E
++// 4. Bit Mask for BB/RF register
++// 5. Other defintion for BB/RF R/W
++//
++
++
++//
++// 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++// 1. Page1(0x100)
++//
++#define		rPMAC_Reset					0x100
++#define		rPMAC_TxStart					0x104
++#define		rPMAC_TxLegacySIG				0x108
++#define		rPMAC_TxHTSIG1				0x10c
++#define		rPMAC_TxHTSIG2				0x110
++#define		rPMAC_PHYDebug				0x114
++#define		rPMAC_TxPacketNum				0x118
++#define		rPMAC_TxIdle					0x11c
++#define		rPMAC_TxMACHeader0			0x120
++#define		rPMAC_TxMACHeader1			0x124
++#define		rPMAC_TxMACHeader2			0x128
++#define		rPMAC_TxMACHeader3			0x12c
++#define		rPMAC_TxMACHeader4			0x130
++#define		rPMAC_TxMACHeader5			0x134
++#define		rPMAC_TxDataType				0x138
++#define		rPMAC_TxRandomSeed			0x13c
++#define		rPMAC_CCKPLCPPreamble			0x140
++#define		rPMAC_CCKPLCPHeader			0x144
++#define		rPMAC_CCKCRC16				0x148
++#define		rPMAC_OFDMRxCRC32OK			0x170
++#define		rPMAC_OFDMRxCRC32Er			0x174
++#define		rPMAC_OFDMRxParityEr			0x178
++#define		rPMAC_OFDMRxCRC8Er			0x17c
++#define		rPMAC_CCKCRxRC16Er			0x180
++#define		rPMAC_CCKCRxRC32Er			0x184
++#define		rPMAC_CCKCRxRC32OK			0x188
++#define		rPMAC_TxStatus					0x18c
++
++//
++// 2. Page2(0x200)
++//
++// The following two definition are only used for USB interface.
++#define		RF_BB_CMD_ADDR				0x02c0	// RF/BB read/write command address.
++#define		RF_BB_CMD_DATA				0x02c4	// RF/BB read/write command data.
++
++//
++// 3. Page8(0x800)
++//
++#define		rFPGA0_RFMOD				0x800	//RF mode & CCK TxSC // RF BW Setting??
++
++#define		rFPGA0_TxInfo				0x804	// Status report??
++#define		rFPGA0_PSDFunction			0x808
++
++#define		rFPGA0_TxGainStage			0x80c	// Set TX PWR init gain?
++
++#define		rFPGA0_RFTiming1			0x810	// Useless now
++#define		rFPGA0_RFTiming2			0x814
++
++#define		rFPGA0_XA_HSSIParameter1		0x820	// RF 3 wire register
++#define		rFPGA0_XA_HSSIParameter2		0x824
++#define		rFPGA0_XB_HSSIParameter1		0x828
++#define		rFPGA0_XB_HSSIParameter2		0x82c
++#define		rTxAGC_B_Rate18_06				0x830
++#define		rTxAGC_B_Rate54_24				0x834
++#define		rTxAGC_B_CCK1_55_Mcs32		0x838
++#define		rTxAGC_B_Mcs03_Mcs00			0x83c
++
++#define		rTxAGC_B_Mcs07_Mcs04			0x848
++#define		rTxAGC_B_Mcs11_Mcs08			0x84c
++
++#define		rFPGA0_XA_LSSIParameter		0x840
++#define		rFPGA0_XB_LSSIParameter		0x844
++
++#define		rFPGA0_RFWakeUpParameter		0x850	// Useless now
++#define		rFPGA0_RFSleepUpParameter		0x854
++
++#define		rFPGA0_XAB_SwitchControl		0x858	// RF Channel switch
++#define		rFPGA0_XCD_SwitchControl		0x85c
++
++#define		rFPGA0_XA_RFInterfaceOE		0x860	// RF Channel switch
++#define		rFPGA0_XB_RFInterfaceOE		0x864
++
++#define		rTxAGC_B_Mcs15_Mcs12			0x868
++#define		rTxAGC_B_CCK11_A_CCK2_11		0x86c
++
++#define		rFPGA0_XAB_RFInterfaceSW		0x870	// RF Interface Software Control
++#define		rFPGA0_XCD_RFInterfaceSW		0x874
++
++#define		rFPGA0_XAB_RFParameter		0x878	// RF Parameter
++#define		rFPGA0_XCD_RFParameter		0x87c
++
++#define		rFPGA0_AnalogParameter1		0x880	// Crystal cap setting RF-R/W protection for parameter4??
++#define		rFPGA0_AnalogParameter2		0x884
++#define		rFPGA0_AnalogParameter3		0x888	// Useless now
++#define		rFPGA0_AnalogParameter4		0x88c
++
++#define		rFPGA0_XA_LSSIReadBack		0x8a0	// Tranceiver LSSI Readback
++#define		rFPGA0_XB_LSSIReadBack		0x8a4
++#define		rFPGA0_XC_LSSIReadBack		0x8a8
++#define		rFPGA0_XD_LSSIReadBack		0x8ac
++
++#define		rFPGA0_PSDReport				0x8b4	// Useless now
++#define		TransceiverA_HSPI_Readback	0x8b8	// Transceiver A HSPI Readback
++#define		TransceiverB_HSPI_Readback	0x8bc	// Transceiver B HSPI Readback
++#define		rFPGA0_XAB_RFInterfaceRB		0x8e0	// Useless now // RF Interface Readback Value
++#define		rFPGA0_XCD_RFInterfaceRB		0x8e4	// Useless now
++
++//
++// 4. Page9(0x900)
++//
++#define		rFPGA1_RFMOD				0x900	//RF mode & OFDM TxSC // RF BW Setting??
++
++#define		rFPGA1_TxBlock				0x904	// Useless now
++#define		rFPGA1_DebugSelect			0x908	// Useless now
++#define		rFPGA1_TxInfo				0x90c	// Useless now // Status report??
++
++//
++// 5. PageA(0xA00)
++//
++// Set Control channel to upper or lower. These settings are required only for 40MHz
++#define		rCCK0_System				0xa00
++
++#define		rCCK0_AFESetting			0xa04	// Disable init gain now // Select RX path by RSSI
++#define		rCCK0_CCA					0xa08	// Disable init gain now // Init gain
++
++#define		rCCK0_RxAGC1				0xa0c 	//AGC default value, saturation level // Antenna Diversity, RX AGC, LNA Threshold, RX LNA Threshold useless now. Not the same as 90 series
++#define		rCCK0_RxAGC2				0xa10 	//AGC & DAGC
++
++#define		rCCK0_RxHP					0xa14
++
++#define		rCCK0_DSPParameter1		0xa18	//Timing recovery & Channel estimation threshold
++#define		rCCK0_DSPParameter2		0xa1c	//SQ threshold
++
++#define		rCCK0_TxFilter1				0xa20
++#define		rCCK0_TxFilter2				0xa24
++#define		rCCK0_DebugPort			0xa28	//debug port and Tx filter3
++#define		rCCK0_FalseAlarmReport		0xa2c	//0xa2d	useless now 0xa30-a4f channel report
++#define		rCCK0_TRSSIReport         		0xa50
++#define		rCCK0_RxReport            		0xa54  //0xa57
++#define		rCCK0_FACounterLower      	0xa5c  //0xa5b
++#define		rCCK0_FACounterUpper      	0xa58  //0xa5c
++
++//
++// PageB(0xB00)
++//
++#define		rPdp_AntA      				0xb00  
++#define		rPdp_AntA_4    				0xb04
++#define		rConfig_Pmpd_AntA 			0xb28
++#define		rConfig_AntA 				0xb68
++#define		rConfig_AntB 				0xb6c
++#define		rPdp_AntB 					0xb70
++#define		rPdp_AntB_4 				0xb74
++#define		rConfig_Pmpd_AntB			0xb98
++#define		rAPK						0xbd8
++
++//
++// 6. PageC(0xC00)
++//
++#define		rOFDM0_LSTF				0xc00
++
++#define		rOFDM0_TRxPathEnable		0xc04
++#define		rOFDM0_TRMuxPar			0xc08
++#define		rOFDM0_TRSWIsolation		0xc0c
++
++#define		rOFDM0_XARxAFE			0xc10  //RxIQ DC offset, Rx digital filter, DC notch filter
++#define		rOFDM0_XARxIQImbalance    	0xc14  //RxIQ imblance matrix
++#define		rOFDM0_XBRxAFE            		0xc18
++#define		rOFDM0_XBRxIQImbalance    	0xc1c
++#define		rOFDM0_XCRxAFE            		0xc20
++#define		rOFDM0_XCRxIQImbalance    	0xc24
++#define		rOFDM0_XDRxAFE            		0xc28
++#define		rOFDM0_XDRxIQImbalance    	0xc2c
++
++#define		rOFDM0_RxDetector1			0xc30  //PD,BW & SBD	// DM tune init gain
++#define		rOFDM0_RxDetector2			0xc34  //SBD & Fame Sync. 
++#define		rOFDM0_RxDetector3			0xc38  //Frame Sync.
++#define		rOFDM0_RxDetector4			0xc3c  //PD, SBD, Frame Sync & Short-GI
++
++#define		rOFDM0_RxDSP				0xc40  //Rx Sync Path
++#define		rOFDM0_CFOandDAGC		0xc44  //CFO & DAGC
++#define		rOFDM0_CCADropThreshold	0xc48 //CCA Drop threshold
++#define		rOFDM0_ECCAThreshold		0xc4c // energy CCA
++
++#define		rOFDM0_XAAGCCore1			0xc50	// DIG
++#define		rOFDM0_XAAGCCore2			0xc54
++#define		rOFDM0_XBAGCCore1			0xc58
++#define		rOFDM0_XBAGCCore2			0xc5c
++#define		rOFDM0_XCAGCCore1			0xc60
++#define		rOFDM0_XCAGCCore2			0xc64
++#define		rOFDM0_XDAGCCore1			0xc68
++#define		rOFDM0_XDAGCCore2			0xc6c
++
++#define		rOFDM0_AGCParameter1			0xc70
++#define		rOFDM0_AGCParameter2			0xc74
++#define		rOFDM0_AGCRSSITable			0xc78
++#define		rOFDM0_HTSTFAGC				0xc7c
++
++#define		rOFDM0_XATxIQImbalance		0xc80	// TX PWR TRACK and DIG
++#define		rOFDM0_XATxAFE				0xc84
++#define		rOFDM0_XBTxIQImbalance		0xc88
++#define		rOFDM0_XBTxAFE				0xc8c
++#define		rOFDM0_XCTxIQImbalance		0xc90
++#define		rOFDM0_XCTxAFE            			0xc94
++#define		rOFDM0_XDTxIQImbalance		0xc98
++#define		rOFDM0_XDTxAFE				0xc9c
++
++#define		rOFDM0_RxIQExtAnta			0xca0
++#define		rOFDM0_TxCoeff1				0xca4
++#define		rOFDM0_TxCoeff2				0xca8
++#define		rOFDM0_TxCoeff3				0xcac
++#define		rOFDM0_TxCoeff4				0xcb0
++#define		rOFDM0_TxCoeff5				0xcb4
++#define		rOFDM0_TxCoeff6				0xcb8
++#define		rOFDM0_RxHPParameter			0xce0
++#define		rOFDM0_TxPseudoNoiseWgt		0xce4
++#define		rOFDM0_FrameSync				0xcf0
++#define		rOFDM0_DFSReport				0xcf4
++
++//
++// 7. PageD(0xD00)
++//
++#define		rOFDM1_LSTF					0xd00
++#define		rOFDM1_TRxPathEnable			0xd04
++
++#define		rOFDM1_CFO						0xd08	// No setting now
++#define		rOFDM1_CSI1					0xd10
++#define		rOFDM1_SBD						0xd14
++#define		rOFDM1_CSI2					0xd18
++#define		rOFDM1_CFOTracking			0xd2c
++#define		rOFDM1_TRxMesaure1			0xd34
++#define		rOFDM1_IntfDet					0xd3c
++#define		rOFDM1_PseudoNoiseStateAB		0xd50
++#define		rOFDM1_PseudoNoiseStateCD		0xd54
++#define		rOFDM1_RxPseudoNoiseWgt		0xd58
++
++#define		rOFDM_PHYCounter1				0xda0  //cca, parity fail
++#define		rOFDM_PHYCounter2				0xda4  //rate illegal, crc8 fail
++#define		rOFDM_PHYCounter3				0xda8  //MCS not support
++
++#define		rOFDM_ShortCFOAB				0xdac	// No setting now
++#define		rOFDM_ShortCFOCD				0xdb0
++#define		rOFDM_LongCFOAB				0xdb4
++#define		rOFDM_LongCFOCD				0xdb8
++#define		rOFDM_TailCFOAB				0xdbc
++#define		rOFDM_TailCFOCD				0xdc0
++#define		rOFDM_PWMeasure1          		0xdc4
++#define		rOFDM_PWMeasure2          		0xdc8
++#define		rOFDM_BWReport				0xdcc
++#define		rOFDM_AGCReport				0xdd0
++#define		rOFDM_RxSNR					0xdd4
++#define		rOFDM_RxEVMCSI				0xdd8
++#define		rOFDM_SIGReport				0xddc
++
++
++//
++// 8. PageE(0xE00)
++//
++#define		rTxAGC_A_Rate18_06			0xe00
++#define		rTxAGC_A_Rate54_24			0xe04
++#define		rTxAGC_A_CCK1_Mcs32			0xe08
++#define		rTxAGC_A_Mcs03_Mcs00			0xe10
++#define		rTxAGC_A_Mcs07_Mcs04			0xe14
++#define		rTxAGC_A_Mcs11_Mcs08			0xe18
++#define		rTxAGC_A_Mcs15_Mcs12			0xe1c
++
++#define		rFPGA0_IQK					0xe28
++#define		rTx_IQK_Tone_A				0xe30
++#define		rRx_IQK_Tone_A				0xe34
++#define		rTx_IQK_PI_A					0xe38
++#define		rRx_IQK_PI_A					0xe3c
++
++#define		rTx_IQK 						0xe40
++#define		rRx_IQK						0xe44
++#define		rIQK_AGC_Pts					0xe48
++#define		rIQK_AGC_Rsp					0xe4c
++#define		rTx_IQK_Tone_B				0xe50
++#define		rRx_IQK_Tone_B				0xe54
++#define		rTx_IQK_PI_B					0xe58
++#define		rRx_IQK_PI_B					0xe5c
++#define		rIQK_AGC_Cont				0xe60
++
++#define		rBlue_Tooth					0xe6c
++#define		rRx_Wait_CCA					0xe70
++#define		rTx_CCK_RFON					0xe74
++#define		rTx_CCK_BBON				0xe78
++#define		rTx_OFDM_RFON				0xe7c
++#define		rTx_OFDM_BBON				0xe80
++#define		rTx_To_Rx					0xe84
++#define		rTx_To_Tx					0xe88
++#define		rRx_CCK						0xe8c
++
++#define		rTx_Power_Before_IQK_A		0xe94
++#define		rTx_Power_After_IQK_A			0xe9c
++
++#define		rRx_Power_Before_IQK_A		0xea0
++#define		rRx_Power_Before_IQK_A_2		0xea4
++#define		rRx_Power_After_IQK_A			0xea8
++#define		rRx_Power_After_IQK_A_2		0xeac
++
++#define		rTx_Power_Before_IQK_B		0xeb4
++#define		rTx_Power_After_IQK_B			0xebc
++
++#define		rRx_Power_Before_IQK_B		0xec0
++#define		rRx_Power_Before_IQK_B_2		0xec4
++#define		rRx_Power_After_IQK_B			0xec8
++#define		rRx_Power_After_IQK_B_2		0xecc
++
++#define		rRx_OFDM					0xed0
++#define		rRx_Wait_RIFS 				0xed4
++#define		rRx_TO_Rx 					0xed8
++#define		rStandby 						0xedc
++#define		rSleep 						0xee0
++#define		rPMPD_ANAEN				0xeec
++
++//
++// 7. RF Register 0x00-0x2E (RF 8256)
++//    RF-0222D 0x00-3F
++//
++//Zebra1
++#define		rZebra1_HSSIEnable				0x0	// Useless now
++#define		rZebra1_TRxEnable1				0x1
++#define		rZebra1_TRxEnable2				0x2
++#define		rZebra1_AGC					0x4
++#define		rZebra1_ChargePump			0x5
++#define		rZebra1_Channel				0x7	// RF channel switch
++
++//#endif
++#define		rZebra1_TxGain					0x8	// Useless now
++#define		rZebra1_TxLPF					0x9
++#define		rZebra1_RxLPF					0xb
++#define		rZebra1_RxHPFCorner			0xc
++
++//Zebra4
++#define		rGlobalCtrl						0	// Useless now
++#define		rRTL8256_TxLPF					19
++#define		rRTL8256_RxLPF					11
++
++//RTL8258
++#define		rRTL8258_TxLPF					0x11	// Useless now
++#define		rRTL8258_RxLPF					0x13
++#define		rRTL8258_RSSILPF				0xa
++
++//
++// RL6052 Register definition
++//
++#define		RF_AC						0x00	// 
++
++#define		RF_IQADJ_G1				0x01	// 
++#define		RF_IQADJ_G2				0x02	// 
++#define		RF_BS_PA_APSET_G1_G4		0x03
++#define		RF_BS_PA_APSET_G5_G8		0x04
++#define		RF_POW_TRSW				0x05	// 
++
++#define		RF_GAIN_RX					0x06	// 
++#define		RF_GAIN_TX					0x07	// 
++
++#define		RF_TXM_IDAC				0x08	// 
++#define		RF_IPA_G					0x09	// 
++#define		RF_TXBIAS_G				0x0A
++#define		RF_TXPA_AG					0x0B
++#define		RF_IPA_A					0x0C	// 
++#define		RF_TXBIAS_A				0x0D
++#define		RF_BS_PA_APSET_G9_G11	0x0E
++#define		RF_BS_IQGEN				0x0F	// 
++
++#define		RF_MODE1					0x10	// 
++#define		RF_MODE2					0x11	// 
++
++#define		RF_RX_AGC_HP				0x12	// 
++#define		RF_TX_AGC					0x13	// 
++#define		RF_BIAS						0x14	// 
++#define		RF_IPA						0x15	// 
++#define		RF_POW_ABILITY			0x17	// 
++#define		RF_MODE_AG				0x18	// 
++#define		rRfChannel					0x18	// RF channel and BW switch
++#define		RF_CHNLBW					0x18	// RF channel and BW switch
++#define		RF_TOP						0x19	// 
++
++#define		RF_RX_G1					0x1A	// 
++#define		RF_RX_G2					0x1B	// 
++
++#define		RF_RX_BB2					0x1C	// 
++#define		RF_RX_BB1					0x1D	// 
++
++#define		RF_RCK1					0x1E	// 
++#define		RF_RCK2					0x1F	// 
++
++#define		RF_TX_G1					0x20	// 
++#define		RF_TX_G2					0x21	// 
++#define		RF_TX_G3					0x22	// 
++
++#define		RF_TX_BB1					0x23	// 
++
++#define		RF_T_METER					0x24	// 
++
++#define		RF_SYN_G1					0x25	// RF TX Power control
++#define		RF_SYN_G2					0x26	// RF TX Power control
++#define		RF_SYN_G3					0x27	// RF TX Power control
++#define		RF_SYN_G4					0x28	// RF TX Power control
++#define		RF_SYN_G5					0x29	// RF TX Power control
++#define		RF_SYN_G6					0x2A	// RF TX Power control
++#define		RF_SYN_G7					0x2B	// RF TX Power control
++#define		RF_SYN_G8					0x2C	// RF TX Power control
++
++#define		RF_RCK_OS					0x30	// RF TX PA control
++
++#define		RF_TXPA_G1					0x31	// RF TX PA control
++#define		RF_TXPA_G2					0x32	// RF TX PA control
++#define		RF_TXPA_G3					0x33	// RF TX PA control
++
++//
++//Bit Mask
++//
++// 1. Page1(0x100)
++#define		bBBResetB						0x100	// Useless now?
++#define		bGlobalResetB					0x200
++#define		bOFDMTxStart					0x4
++#define		bCCKTxStart						0x8
++#define		bCRC32Debug					0x100
++#define		bPMACLoopback					0x10
++#define		bTxLSIG							0xffffff
++#define		bOFDMTxRate					0xf
++#define		bOFDMTxReserved				0x10
++#define		bOFDMTxLength					0x1ffe0
++#define		bOFDMTxParity					0x20000
++#define		bTxHTSIG1						0xffffff
++#define		bTxHTMCSRate					0x7f
++#define		bTxHTBW						0x80
++#define		bTxHTLength					0xffff00
++#define		bTxHTSIG2						0xffffff
++#define		bTxHTSmoothing					0x1
++#define		bTxHTSounding					0x2
++#define		bTxHTReserved					0x4
++#define		bTxHTAggreation				0x8
++#define		bTxHTSTBC						0x30
++#define		bTxHTAdvanceCoding			0x40
++#define		bTxHTShortGI					0x80
++#define		bTxHTNumberHT_LTF			0x300
++#define		bTxHTCRC8						0x3fc00
++#define		bCounterReset					0x10000
++#define		bNumOfOFDMTx					0xffff
++#define		bNumOfCCKTx					0xffff0000
++#define		bTxIdleInterval					0xffff
++#define		bOFDMService					0xffff0000
++#define		bTxMACHeader					0xffffffff
++#define		bTxDataInit						0xff
++#define		bTxHTMode						0x100
++#define		bTxDataType					0x30000
++#define		bTxRandomSeed					0xffffffff
++#define		bCCKTxPreamble					0x1
++#define		bCCKTxSFD						0xffff0000
++#define		bCCKTxSIG						0xff
++#define		bCCKTxService					0xff00
++#define		bCCKLengthExt					0x8000
++#define		bCCKTxLength					0xffff0000
++#define		bCCKTxCRC16					0xffff
++#define		bCCKTxStatus					0x1
++#define		bOFDMTxStatus					0x2
++
++#define 		IS_BB_REG_OFFSET_92S(_Offset)		((_Offset >= 0x800) && (_Offset <= 0xfff))
++
++// 2. Page8(0x800)
++#define		bRFMOD							0x1	// Reg 0x800 rFPGA0_RFMOD
++#define		bJapanMode						0x2
++#define		bCCKTxSC						0x30
++#define		bCCKEn							0x1000000
++#define		bOFDMEn						0x2000000
++
++#define		bOFDMRxADCPhase           		0x10000	// Useless now
++#define		bOFDMTxDACPhase           		0x40000
++#define		bXATxAGC                  			0x3f
++
++#define		bAntennaSelect                 		0x0300
++
++#define		bXBTxAGC                  			0xf00	// Reg 80c rFPGA0_TxGainStage
++#define		bXCTxAGC                  			0xf000
++#define		bXDTxAGC                  			0xf0000
++       		
++#define		bPAStart                  			0xf0000000	// Useless now
++#define		bTRStart                  			0x00f00000
++#define		bRFStart                  			0x0000f000
++#define		bBBStart                  			0x000000f0
++#define		bBBCCKStart               		0x0000000f
++#define		bPAEnd                    			0xf          //Reg0x814
++#define		bTREnd                    			0x0f000000
++#define		bRFEnd                    			0x000f0000
++#define		bCCAMask                  			0x000000f0   //T2R
++#define		bR2RCCAMask               		0x00000f00
++#define		bHSSI_R2TDelay            		0xf8000000
++#define		bHSSI_T2RDelay            		0xf80000
++#define		bContTxHSSI               		0x400     //chane gain at continue Tx
++#define		bIGFromCCK                		0x200
++#define		bAGCAddress               		0x3f
++#define		bRxHPTx                   			0x7000
++#define		bRxHPT2R                  			0x38000
++#define		bRxHPCCKIni               		0xc0000
++#define		bAGCTxCode                		0xc00000
++#define		bAGCRxCode                		0x300000
++
++#define		b3WireDataLength          		0x800	// Reg 0x820~84f rFPGA0_XA_HSSIParameter1
++#define		b3WireAddressLength       		0x400
++
++#define		b3WireRFPowerDown         		0x1	// Useless now
++//#define bHWSISelect               		0x8
++#define		b5GPAPEPolarity           		0x40000000
++#define		b2GPAPEPolarity           		0x80000000
++#define		bRFSW_TxDefaultAnt        		0x3
++#define		bRFSW_TxOptionAnt         		0x30
++#define		bRFSW_RxDefaultAnt        		0x300
++#define		bRFSW_RxOptionAnt         		0x3000
++#define		bRFSI_3WireData           		0x1
++#define		bRFSI_3WireClock          		0x2
++#define		bRFSI_3WireLoad           		0x4
++#define		bRFSI_3WireRW             		0x8
++#define		bRFSI_3Wire               			0xf
++
++#define		bRFSI_RFENV               		0x10	// Reg 0x870 rFPGA0_XAB_RFInterfaceSW
++
++#define		bRFSI_TRSW                		0x20	// Useless now
++#define		bRFSI_TRSWB               		0x40
++#define		bRFSI_ANTSW               		0x100
++#define		bRFSI_ANTSWB              		0x200
++#define		bRFSI_PAPE                			0x400
++#define		bRFSI_PAPE5G              		0x800 
++#define		bBandSelect               			0x1
++#define		bHTSIG2_GI                			0x80
++#define		bHTSIG2_Smoothing         		0x01
++#define		bHTSIG2_Sounding          		0x02
++#define		bHTSIG2_Aggreaton         		0x08
++#define		bHTSIG2_STBC              		0x30
++#define		bHTSIG2_AdvCoding         		0x40
++#define		bHTSIG2_NumOfHTLTF        	0x300
++#define		bHTSIG2_CRC8              		0x3fc
++#define		bHTSIG1_MCS               		0x7f
++#define		bHTSIG1_BandWidth         		0x80
++#define		bHTSIG1_HTLength          		0xffff
++#define		bLSIG_Rate                			0xf
++#define		bLSIG_Reserved            		0x10
++#define		bLSIG_Length              		0x1fffe
++#define		bLSIG_Parity              			0x20
++#define		bCCKRxPhase               		0x4
++
++#define		bLSSIReadAddress          		0x7f800000   // T65 RF
++
++#define		bLSSIReadEdge             		0x80000000   //LSSI "Read" edge signal
++
++#define		bLSSIReadBackData         		0xfffff		// T65 RF
++
++#define		bLSSIReadOKFlag           		0x1000	// Useless now
++#define		bCCKSampleRate            		0x8       //0: 44MHz, 1:88MHz       		
++#define		bRegulator0Standby        		0x1
++#define		bRegulatorPLLStandby      		0x2
++#define		bRegulator1Standby        		0x4
++#define		bPLLPowerUp               		0x8
++#define		bDPLLPowerUp              		0x10
++#define		bDA10PowerUp              		0x20
++#define		bAD7PowerUp               		0x200
++#define		bDA6PowerUp               		0x2000
++#define		bXtalPowerUp              		0x4000
++#define		b40MDClkPowerUP           		0x8000
++#define		bDA6DebugMode             		0x20000
++#define		bDA6Swing                 			0x380000
++
++#define		bADClkPhase               		0x4000000	// Reg 0x880 rFPGA0_AnalogParameter1 20/40 CCK support switch 40/80 BB MHZ
++
++#define		b80MClkDelay              		0x18000000	// Useless
++#define		bAFEWatchDogEnable        		0x20000000
++
++#define		bXtalCap01                			0xc0000000	// Reg 0x884 rFPGA0_AnalogParameter2 Crystal cap
++#define		bXtalCap23                			0x3
++#define		bXtalCap92x					0x0f000000
++#define 		bXtalCap                			0x0f000000
++
++#define		bIntDifClkEnable          		0x400	// Useless
++#define		bExtSigClkEnable         	 	0x800
++#define		bBandgapMbiasPowerUp      	0x10000
++#define		bAD11SHGain               		0xc0000
++#define		bAD11InputRange           		0x700000
++#define		bAD11OPCurrent            		0x3800000
++#define		bIPathLoopback            		0x4000000
++#define		bQPathLoopback            		0x8000000
++#define		bAFELoopback              		0x10000000
++#define		bDA10Swing                		0x7e0
++#define		bDA10Reverse              		0x800
++#define		bDAClkSource              		0x1000
++#define		bAD7InputRange            		0x6000
++#define		bAD7Gain                  			0x38000
++#define		bAD7OutputCMMode          		0x40000
++#define		bAD7InputCMMode           		0x380000
++#define		bAD7Current               			0xc00000
++#define		bRegulatorAdjust          		0x7000000
++#define		bAD11PowerUpAtTx          		0x1
++#define		bDA10PSAtTx               		0x10
++#define		bAD11PowerUpAtRx          		0x100
++#define		bDA10PSAtRx               		0x1000       		
++#define		bCCKRxAGCFormat           		0x200       		
++#define		bPSDFFTSamplepPoint       		0xc000
++#define		bPSDAverageNum            		0x3000
++#define		bIQPathControl            		0xc00
++#define		bPSDFreq                  			0x3ff
++#define		bPSDAntennaPath           		0x30
++#define		bPSDIQSwitch              		0x40
++#define		bPSDRxTrigger             		0x400000
++#define		bPSDTxTrigger             		0x80000000
++#define		bPSDSineToneScale        		0x7f000000
++#define		bPSDReport                			0xffff
++
++// 3. Page9(0x900)
++#define		bOFDMTxSC                 		0x30000000	// Useless
++#define		bCCKTxOn                  			0x1
++#define		bOFDMTxOn                 		0x2
++#define		bDebugPage                		0xfff  //reset debug page and also HWord, LWord
++#define		bDebugItem                		0xff   //reset debug page and LWord
++#define		bAntL              	       		0x10
++#define		bAntNonHT           	      			0x100
++#define		bAntHT1               			0x1000
++#define		bAntHT2                   			0x10000
++#define		bAntHT1S1                 			0x100000
++#define		bAntNonHTS1               		0x1000000
++
++// 4. PageA(0xA00)
++#define		bCCKBBMode				0x3	// Useless
++#define		bCCKTxPowerSaving		0x80
++#define		bCCKRxPowerSaving		0x40
++
++#define		bCCKSideBand			0x10	// Reg 0xa00 rCCK0_System 20/40 switch
++
++#define		bCCKScramble			0x8	// Useless
++#define		bCCKAntDiversity		0x8000
++#define		bCCKCarrierRecovery		0x4000
++#define		bCCKTxRate				0x3000
++#define		bCCKDCCancel			0x0800
++#define		bCCKISICancel			0x0400
++#define		bCCKMatchFilter			0x0200
++#define		bCCKEqualizer			0x0100
++#define		bCCKPreambleDetect		0x800000
++#define		bCCKFastFalseCCA		0x400000
++#define		bCCKChEstStart			0x300000
++#define		bCCKCCACount			0x080000
++#define		bCCKcs_lim				0x070000
++#define		bCCKBistMode			0x80000000
++#define		bCCKCCAMask			0x40000000
++#define		bCCKTxDACPhase		0x4
++#define		bCCKRxADCPhase		0x20000000   //r_rx_clk
++#define		bCCKr_cp_mode0		0x0100
++#define		bCCKTxDCOffset			0xf0
++#define		bCCKRxDCOffset			0xf
++#define		bCCKCCAMode			0xc000
++#define		bCCKFalseCS_lim			0x3f00
++#define		bCCKCS_ratio			0xc00000
++#define		bCCKCorgBit_sel			0x300000
++#define		bCCKPD_lim				0x0f0000
++#define		bCCKNewCCA			0x80000000
++#define		bCCKRxHPofIG			0x8000
++#define		bCCKRxIG				0x7f00
++#define		bCCKLNAPolarity			0x800000
++#define		bCCKRx1stGain			0x7f0000
++#define		bCCKRFExtend			0x20000000 //CCK Rx Iinital gain polarity
++#define		bCCKRxAGCSatLevel		0x1f000000
++#define		bCCKRxAGCSatCount		0xe0
++#define		bCCKRxRFSettle			0x1f       //AGCsamp_dly
++#define		bCCKFixedRxAGC			0x8000
++//#define bCCKRxAGCFormat         	 	0x4000   //remove to HSSI register 0x824
++#define		bCCKAntennaPolarity		0x2000
++#define		bCCKTxFilterType		0x0c00
++#define		bCCKRxAGCReportType	0x0300
++#define		bCCKRxDAGCEn			0x80000000
++#define		bCCKRxDAGCPeriod		0x20000000
++#define		bCCKRxDAGCSatLevel		0x1f000000
++#define		bCCKTimingRecovery		0x800000
++#define		bCCKTxC0				0x3f0000
++#define		bCCKTxC1				0x3f000000
++#define		bCCKTxC2				0x3f
++#define		bCCKTxC3				0x3f00
++#define		bCCKTxC4				0x3f0000
++#define		bCCKTxC5				0x3f000000
++#define		bCCKTxC6				0x3f
++#define		bCCKTxC7				0x3f00
++#define		bCCKDebugPort			0xff0000
++#define		bCCKDACDebug			0x0f000000
++#define		bCCKFalseAlarmEnable	0x8000
++#define		bCCKFalseAlarmRead		0x4000
++#define		bCCKTRSSI				0x7f
++#define		bCCKRxAGCReport		0xfe
++#define		bCCKRxReport_AntSel	0x80000000
++#define		bCCKRxReport_MFOff		0x40000000
++#define		bCCKRxRxReport_SQLoss	0x20000000
++#define		bCCKRxReport_Pktloss	0x10000000
++#define		bCCKRxReport_Lockedbit	0x08000000
++#define		bCCKRxReport_RateError	0x04000000
++#define		bCCKRxReport_RxRate	0x03000000
++#define		bCCKRxFACounterLower	0xff
++#define		bCCKRxFACounterUpper	0xff000000
++#define		bCCKRxHPAGCStart		0xe000
++#define		bCCKRxHPAGCFinal		0x1c00       		
++#define		bCCKRxFalseAlarmEnable	0x8000
++#define		bCCKFACounterFreeze	0x4000       		
++#define		bCCKTxPathSel			0x10000000
++#define		bCCKDefaultRxPath		0xc000000
++#define		bCCKOptionRxPath		0x3000000
++
++// 5. PageC(0xC00)
++#define		bNumOfSTF				0x3	// Useless
++#define		bShift_L					0xc0
++#define		bGI_TH					0xc
++#define		bRxPathA				0x1
++#define		bRxPathB				0x2
++#define		bRxPathC				0x4
++#define		bRxPathD				0x8
++#define		bTxPathA				0x1
++#define		bTxPathB				0x2
++#define		bTxPathC				0x4
++#define		bTxPathD				0x8
++#define		bTRSSIFreq				0x200
++#define		bADCBackoff				0x3000
++#define		bDFIRBackoff			0xc000
++#define		bTRSSILatchPhase		0x10000
++#define		bRxIDCOffset			0xff
++#define		bRxQDCOffset			0xff00
++#define		bRxDFIRMode			0x1800000
++#define		bRxDCNFType			0xe000000
++#define		bRXIQImb_A				0x3ff
++#define		bRXIQImb_B				0xfc00
++#define		bRXIQImb_C				0x3f0000
++#define		bRXIQImb_D				0xffc00000
++#define		bDC_dc_Notch			0x60000
++#define		bRxNBINotch			0x1f000000
++#define		bPD_TH					0xf
++#define		bPD_TH_Opt2			0xc000
++#define		bPWED_TH				0x700
++#define		bIfMF_Win_L			0x800
++#define		bPD_Option				0x1000
++#define		bMF_Win_L				0xe000
++#define		bBW_Search_L			0x30000
++#define		bwin_enh_L				0xc0000
++#define		bBW_TH					0x700000
++#define		bED_TH2				0x3800000
++#define		bBW_option				0x4000000
++#define		bRatio_TH				0x18000000
++#define		bWindow_L				0xe0000000
++#define		bSBD_Option				0x1
++#define		bFrame_TH				0x1c
++#define		bFS_Option				0x60
++#define		bDC_Slope_check		0x80
++#define		bFGuard_Counter_DC_L	0xe00
++#define		bFrame_Weight_Short	0x7000
++#define		bSub_Tune				0xe00000
++#define		bFrame_DC_Length		0xe000000
++#define		bSBD_start_offset		0x30000000
++#define		bFrame_TH_2			0x7
++#define		bFrame_GI2_TH			0x38
++#define		bGI2_Sync_en			0x40
++#define		bSarch_Short_Early		0x300
++#define		bSarch_Short_Late		0xc00
++#define		bSarch_GI2_Late		0x70000
++#define		bCFOAntSum				0x1
++#define		bCFOAcc				0x2
++#define		bCFOStartOffset			0xc
++#define		bCFOLookBack			0x70
++#define		bCFOSumWeight			0x80
++#define		bDAGCEnable			0x10000
++#define		bTXIQImb_A				0x3ff
++#define		bTXIQImb_B				0xfc00
++#define		bTXIQImb_C				0x3f0000
++#define		bTXIQImb_D				0xffc00000
++#define		bTxIDCOffset			0xff
++#define		bTxQDCOffset			0xff00
++#define		bTxDFIRMode			0x10000
++#define		bTxPesudoNoiseOn		0x4000000
++#define		bTxPesudoNoise_A		0xff
++#define		bTxPesudoNoise_B		0xff00
++#define		bTxPesudoNoise_C		0xff0000
++#define		bTxPesudoNoise_D		0xff000000
++#define		bCCADropOption			0x20000
++#define		bCCADropThres			0xfff00000
++#define		bEDCCA_H				0xf
++#define		bEDCCA_L				0xf0
++#define		bLambda_ED			0x300
++#define		bRxInitialGain			0x7f
++#define		bRxAntDivEn				0x80
++#define		bRxAGCAddressForLNA	0x7f00
++#define		bRxHighPowerFlow		0x8000
++#define		bRxAGCFreezeThres		0xc0000
++#define		bRxFreezeStep_AGC1	0x300000
++#define		bRxFreezeStep_AGC2	0xc00000
++#define		bRxFreezeStep_AGC3	0x3000000
++#define		bRxFreezeStep_AGC0	0xc000000
++#define		bRxRssi_Cmp_En			0x10000000
++#define		bRxQuickAGCEn			0x20000000
++#define		bRxAGCFreezeThresMode	0x40000000
++#define		bRxOverFlowCheckType	0x80000000
++#define		bRxAGCShift				0x7f
++#define		bTRSW_Tri_Only			0x80
++#define		bPowerThres			0x300
++#define		bRxAGCEn				0x1
++#define		bRxAGCTogetherEn		0x2
++#define		bRxAGCMin				0x4
++#define		bRxHP_Ini				0x7
++#define		bRxHP_TRLNA			0x70
++#define		bRxHP_RSSI				0x700
++#define		bRxHP_BBP1				0x7000
++#define		bRxHP_BBP2				0x70000
++#define		bRxHP_BBP3				0x700000
++#define		bRSSI_H					0x7f0000     //the threshold for high power
++#define		bRSSI_Gen				0x7f000000   //the threshold for ant diversity
++#define		bRxSettle_TRSW			0x7
++#define		bRxSettle_LNA			0x38
++#define		bRxSettle_RSSI			0x1c0
++#define		bRxSettle_BBP			0xe00
++#define		bRxSettle_RxHP			0x7000
++#define		bRxSettle_AntSW_RSSI	0x38000
++#define		bRxSettle_AntSW		0xc0000
++#define		bRxProcessTime_DAGC	0x300000
++#define		bRxSettle_HSSI			0x400000
++#define		bRxProcessTime_BBPPW	0x800000
++#define		bRxAntennaPowerShift	0x3000000
++#define		bRSSITableSelect		0xc000000
++#define		bRxHP_Final				0x7000000
++#define		bRxHTSettle_BBP			0x7
++#define		bRxHTSettle_HSSI		0x8
++#define		bRxHTSettle_RxHP		0x70
++#define		bRxHTSettle_BBPPW		0x80
++#define		bRxHTSettle_Idle		0x300
++#define		bRxHTSettle_Reserved	0x1c00
++#define		bRxHTRxHPEn			0x8000
++#define		bRxHTAGCFreezeThres	0x30000
++#define		bRxHTAGCTogetherEn	0x40000
++#define		bRxHTAGCMin			0x80000
++#define		bRxHTAGCEn				0x100000
++#define		bRxHTDAGCEn			0x200000
++#define		bRxHTRxHP_BBP			0x1c00000
++#define		bRxHTRxHP_Final		0xe0000000
++#define		bRxPWRatioTH			0x3
++#define		bRxPWRatioEn			0x4
++#define		bRxMFHold				0x3800
++#define		bRxPD_Delay_TH1		0x38
++#define		bRxPD_Delay_TH2		0x1c0
++#define		bRxPD_DC_COUNT_MAX	0x600
++//#define bRxMF_Hold               0x3800
++#define		bRxPD_Delay_TH			0x8000
++#define		bRxProcess_Delay		0xf0000
++#define		bRxSearchrange_GI2_Early	0x700000
++#define		bRxFrame_Guard_Counter_L	0x3800000
++#define		bRxSGI_Guard_L			0xc000000
++#define		bRxSGI_Search_L		0x30000000
++#define		bRxSGI_TH				0xc0000000
++#define		bDFSCnt0				0xff
++#define		bDFSCnt1				0xff00
++#define		bDFSFlag				0xf0000       		
++#define		bMFWeightSum			0x300000
++#define		bMinIdxTH				0x7f000000       		
++#define		bDAFormat				0x40000       		
++#define		bTxChEmuEnable		0x01000000       		
++#define		bTRSWIsolation_A		0x7f
++#define		bTRSWIsolation_B		0x7f00
++#define		bTRSWIsolation_C		0x7f0000
++#define		bTRSWIsolation_D		0x7f000000       		
++#define		bExtLNAGain				0x7c00          
++
++// 6. PageE(0xE00)
++#define		bSTBCEn				0x4	// Useless
++#define		bAntennaMapping		0x10
++#define		bNss					0x20
++#define		bCFOAntSumD			0x200
++#define		bPHYCounterReset		0x8000000
++#define		bCFOReportGet			0x4000000
++#define		bOFDMContinueTx		0x10000000
++#define		bOFDMSingleCarrier		0x20000000
++#define		bOFDMSingleTone		0x40000000
++//#define bRxPath1                 0x01
++//#define bRxPath2                 0x02
++//#define bRxPath3                 0x04
++//#define bRxPath4                 0x08
++//#define bTxPath1                 0x10
++//#define bTxPath2                 0x20
++#define		bHTDetect			0x100
++#define		bCFOEn				0x10000
++#define		bCFOValue			0xfff00000
++#define		bSigTone_Re		0x3f
++#define		bSigTone_Im		0x7f00
++#define		bCounter_CCA		0xffff
++#define		bCounter_ParityFail	0xffff0000
++#define		bCounter_RateIllegal		0xffff
++#define		bCounter_CRC8Fail	0xffff0000
++#define		bCounter_MCSNoSupport	0xffff
++#define		bCounter_FastSync	0xffff
++#define		bShortCFO			0xfff
++#define		bShortCFOTLength	12   //total
++#define		bShortCFOFLength	11   //fraction
++#define		bLongCFO			0x7ff
++#define		bLongCFOTLength	11
++#define		bLongCFOFLength	11
++#define		bTailCFO			0x1fff
++#define		bTailCFOTLength		13
++#define		bTailCFOFLength		12       		
++#define		bmax_en_pwdB		0xffff
++#define		bCC_power_dB		0xffff0000
++#define		bnoise_pwdB		0xffff
++#define		bPowerMeasTLength	10
++#define		bPowerMeasFLength	3
++#define		bRx_HT_BW			0x1
++#define		bRxSC				0x6
++#define		bRx_HT				0x8       		
++#define		bNB_intf_det_on		0x1
++#define		bIntf_win_len_cfg	0x30
++#define		bNB_Intf_TH_cfg		0x1c0       		
++#define		bRFGain				0x3f
++#define		bTableSel			0x40
++#define		bTRSW				0x80       		
++#define		bRxSNR_A			0xff
++#define		bRxSNR_B			0xff00
++#define		bRxSNR_C			0xff0000
++#define		bRxSNR_D			0xff000000
++#define		bSNREVMTLength		8
++#define		bSNREVMFLength		1       		
++#define		bCSI1st				0xff
++#define		bCSI2nd				0xff00
++#define		bRxEVM1st			0xff0000
++#define		bRxEVM2nd			0xff000000       		
++#define		bSIGEVM			0xff
++#define		bPWDB				0xff00
++#define		bSGIEN				0x10000
++       		
++#define		bSFactorQAM1		0xf	// Useless
++#define		bSFactorQAM2		0xf0
++#define		bSFactorQAM3		0xf00
++#define		bSFactorQAM4		0xf000
++#define		bSFactorQAM5		0xf0000
++#define		bSFactorQAM6		0xf0000
++#define		bSFactorQAM7		0xf00000
++#define		bSFactorQAM8		0xf000000
++#define		bSFactorQAM9		0xf0000000
++#define		bCSIScheme			0x100000
++       		
++#define		bNoiseLvlTopSet		0x3	// Useless
++#define		bChSmooth			0x4
++#define		bChSmoothCfg1		0x38
++#define		bChSmoothCfg2		0x1c0
++#define		bChSmoothCfg3		0xe00
++#define		bChSmoothCfg4		0x7000
++#define		bMRCMode			0x800000
++#define		bTHEVMCfg			0x7000000
++       		
++#define		bLoopFitType		0x1	// Useless
++#define		bUpdCFO			0x40
++#define		bUpdCFOOffData		0x80
++#define		bAdvUpdCFO			0x100
++#define		bAdvTimeCtrl		0x800
++#define		bUpdClko			0x1000
++#define		bFC					0x6000
++#define		bTrackingMode		0x8000
++#define		bPhCmpEnable		0x10000
++#define		bUpdClkoLTF		0x20000
++#define		bComChCFO			0x40000
++#define		bCSIEstiMode		0x80000
++#define		bAdvUpdEqz			0x100000
++#define		bUChCfg				0x7000000
++#define		bUpdEqz			0x8000000
++
++//Rx Pseduo noise
++#define		bRxPesudoNoiseOn		0x20000000	// Useless
++#define		bRxPesudoNoise_A		0xff
++#define		bRxPesudoNoise_B		0xff00
++#define		bRxPesudoNoise_C		0xff0000
++#define		bRxPesudoNoise_D		0xff000000
++#define		bPesudoNoiseState_A	0xffff
++#define		bPesudoNoiseState_B	0xffff0000
++#define		bPesudoNoiseState_C	0xffff
++#define		bPesudoNoiseState_D	0xffff0000
++
++//7. RF Register
++//Zebra1
++#define		bZebra1_HSSIEnable		0x8		// Useless
++#define		bZebra1_TRxControl		0xc00
++#define		bZebra1_TRxGainSetting	0x07f
++#define		bZebra1_RxCorner		0xc00
++#define		bZebra1_TxChargePump	0x38
++#define		bZebra1_RxChargePump	0x7
++#define		bZebra1_ChannelNum	0xf80
++#define		bZebra1_TxLPFBW		0x400
++#define		bZebra1_RxLPFBW		0x600
++
++//Zebra4
++#define		bRTL8256RegModeCtrl1	0x100	// Useless
++#define		bRTL8256RegModeCtrl0	0x40
++#define		bRTL8256_TxLPFBW		0x18
++#define		bRTL8256_RxLPFBW		0x600
++
++//RTL8258
++#define		bRTL8258_TxLPFBW		0xc	// Useless
++#define		bRTL8258_RxLPFBW		0xc00
++#define		bRTL8258_RSSILPFBW	0xc0
++
++
++//
++// Other Definition
++//
++
++//byte endable for sb_write
++#define		bByte0				0x1	// Useless
++#define		bByte1				0x2
++#define		bByte2				0x4
++#define		bByte3				0x8
++#define		bWord0				0x3
++#define		bWord1				0xc
++#define		bDWord				0xf
++
++//for PutRegsetting & GetRegSetting BitMask
++#define		bMaskByte0			0xff	// Reg 0xc50 rOFDM0_XAAGCCore~0xC6f
++#define		bMaskByte1			0xff00
++#define		bMaskByte2			0xff0000
++#define		bMaskByte3			0xff000000
++#define		bMaskHWord		0xffff0000
++#define		bMaskLWord			0x0000ffff
++#define		bMaskDWord		0xffffffff
++#define		bMask12Bits			0xfff
++#define		bMaskH4Bits			0xf0000000	
++#define		bMaskOFDM_D		0xffc00000
++#define		bMaskCCK			0x3f3f3f3f
++
++//for PutRFRegsetting & GetRFRegSetting BitMask
++//#define		bMask12Bits               0xfffff	// RF Reg mask bits
++//#define		bMask20Bits               0xfffff	// RF Reg mask bits T65 RF
++#define 		bRFRegOffsetMask	0xfffff		
++  		
++#define		bEnable			0x1	// Useless
++#define		bDisable		0x0
++       		
++#define		LeftAntenna		0x0	// Useless
++#define		RightAntenna	0x1
++       		
++#define		tCheckTxStatus		500   //500ms // Useless
++#define		tUpdateRxCounter	100   //100ms
++       		
++#define		rateCCK		0	// Useless
++#define		rateOFDM	1
++#define		rateHT		2
++
++//define Register-End
++#define		bPMAC_End			0x1ff	// Useless
++#define		bFPGAPHY0_End		0x8ff
++#define		bFPGAPHY1_End		0x9ff
++#define		bCCKPHY0_End		0xaff
++#define		bOFDMPHY0_End		0xcff
++#define		bOFDMPHY1_End		0xdff
++
++//define max debug item in each debug page
++//#define bMaxItem_FPGA_PHY0        0x9
++//#define bMaxItem_FPGA_PHY1        0x3
++//#define bMaxItem_PHY_11B          0x16
++//#define bMaxItem_OFDM_PHY0        0x29
++//#define bMaxItem_OFDM_PHY1        0x0
++
++#define		bPMACControl		0x0		// Useless
++#define		bWMACControl		0x1
++#define		bWNICControl		0x2
++       		
++#define		PathA			0x0	// Useless
++#define		PathB			0x1
++#define		PathC			0x2
++#define		PathD			0x3
++
++/*--------------------------Define Parameters-------------------------------*/
++
++
++#endif	//__INC_HAL8192SPHYREG_H
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/Hal8192CUHWImg.h b/drivers/net/wireless/rtl8192cu/include/Hal8192CUHWImg.h
+new file mode 100755
+index 0000000..ba3c282
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/Hal8192CUHWImg.h
+@@ -0,0 +1,105 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8192CU_FW_IMG_H
++#define __INC_HAL8192CU_FW_IMG_H
++
++/*Created on  2011/ 6/15,  5:45*/
++
++#ifdef CONFIG_BT_COEXISTENCE
++#define TSMCImgArrayLength 15706 //v84 TSMC COMMON 2012-04-13
++#else //#ifdef CONFIG_P2P
++#define TSMCImgArrayLength 16126 //v88 TSMC P2PPS with CCX report C2H 2012-12-05
++#endif
++extern u8 Rtl8192CUFwTSMCImgArray[TSMCImgArrayLength];
++
++#ifdef CONFIG_BT_COEXISTENCE
++#define UMCACutImgArrayLength 16248 //v79 UMC A Cut COMMON 2011-10-06
++#else //#ifdef CONFIG_P2P
++#define UMCACutImgArrayLength 16126 //v88 UMC A Cut P2PPS with CCX report C2H 2012-12-05
++#endif
++extern u8 Rtl8192CUFwUMCACutImgArray[UMCACutImgArrayLength];
++
++#ifdef CONFIG_BT_COEXISTENCE
++#define UMCBCutImgArrayLength 15686 //v84 UMC B Cut COMMON 2012-04-13
++#else //#ifdef CONFIG_P2P
++#define UMCBCutImgArrayLength 16096 //v88 UMC B Cut P2PPS with CCX report C2H 2012-12-05
++#endif
++extern u8 Rtl8192CUFwUMCBCutImgArray[UMCBCutImgArrayLength];
++
++//8188C_Formal_All_PHYforMP_111117	2011-11-23
++//8192C_Formal_92CU_PHYforMP_110817 	2011-11-23
++#define PHY_REG_2TArrayLength 374
++extern u32  Rtl8192CUPHY_REG_2TArray[PHY_REG_2TArrayLength];
++#define PHY_REG_1TArrayLength 374
++extern u32 Rtl8192CUPHY_REG_1TArray[PHY_REG_1TArrayLength];
++#define PHY_ChangeTo_1T1RArrayLength 1
++extern u32 Rtl8192CUPHY_ChangeTo_1T1RArray[PHY_ChangeTo_1T1RArrayLength];
++#define PHY_ChangeTo_1T2RArrayLength 1
++extern u32 Rtl8192CUPHY_ChangeTo_1T2RArray[PHY_ChangeTo_1T2RArrayLength];
++#define PHY_ChangeTo_2T2RArrayLength 1
++extern u32 Rtl8192CUPHY_ChangeTo_2T2RArray[PHY_ChangeTo_2T2RArrayLength];
++#define PHY_REG_Array_PGLength 336
++extern u32 Rtl8192CUPHY_REG_Array_PG[PHY_REG_Array_PGLength];
++#define PHY_REG_Array_PG_mCardLength 336
++extern u32 Rtl8192CUPHY_REG_Array_PG_mCard[PHY_REG_Array_PG_mCardLength];
++#define PHY_REG_Array_MPLength 4
++extern u32 Rtl8192CUPHY_REG_Array_MP[PHY_REG_Array_MPLength];
++#define PHY_REG_1T_HPArrayLength 378
++extern u32 Rtl8192CUPHY_REG_1T_HPArray[PHY_REG_1T_HPArrayLength];
++#define PHY_REG_1T_mCardArrayLength 374
++extern u32 Rtl8192CUPHY_REG_1T_mCardArray[PHY_REG_1T_mCardArrayLength];
++#define PHY_REG_2T_mCardArrayLength 374
++extern u32 Rtl8192CUPHY_REG_2T_mCardArray[PHY_REG_2T_mCardArrayLength];
++#define PHY_REG_Array_PG_HPLength 336
++extern u32 Rtl8192CUPHY_REG_Array_PG_HP[PHY_REG_Array_PG_HPLength];
++#define RadioA_2TArrayLength 282
++extern u32 Rtl8192CURadioA_2TArray[RadioA_2TArrayLength];
++#define RadioB_2TArrayLength 78
++extern u32 Rtl8192CURadioB_2TArray[RadioB_2TArrayLength];
++#define RadioA_1TArrayLength 282
++extern u32 Rtl8192CURadioA_1TArray[RadioA_1TArrayLength];
++#define RadioB_1TArrayLength 1
++extern u32 Rtl8192CURadioB_1TArray[RadioB_1TArrayLength];
++#define RadioA_2T_mCardArrayLength 282
++extern u32 Rtl8192CURadioA_2T_mCardArray[RadioA_2T_mCardArrayLength];
++#define RadioB_2T_mCardArrayLength 78
++extern u32 Rtl8192CURadioB_2T_mCardArray[RadioB_2T_mCardArrayLength];
++#define RadioA_1T_mCardArrayLength 282
++extern u32 Rtl8192CURadioA_1T_mCardArray[RadioA_1T_mCardArrayLength];
++#define RadioB_1T_mCardArrayLength 1
++extern u32 Rtl8192CURadioB_1T_mCardArray[RadioB_1T_mCardArrayLength];
++#define RadioA_1T_HPArrayLength 282
++extern u32 Rtl8192CURadioA_1T_HPArray[RadioA_1T_HPArrayLength];
++#define RadioB_GM_ArrayLength 1
++extern u32 Rtl8192CURadioB_GM_Array[RadioB_GM_ArrayLength];
++
++// MAC reg V14 - 2011-11-23
++#define MAC_2T_ArrayLength 174
++extern u32 Rtl8192CUMAC_2T_Array[MAC_2T_ArrayLength];
++#define MACPHY_Array_PGLength 1
++extern u32 Rtl8192CUMACPHY_Array_PG[MACPHY_Array_PGLength];
++#define AGCTAB_2TArrayLength 320
++extern u32 Rtl8192CUAGCTAB_2TArray[AGCTAB_2TArrayLength];
++#define AGCTAB_1TArrayLength 320
++extern u32 Rtl8192CUAGCTAB_1TArray[AGCTAB_1TArrayLength];
++#define AGCTAB_1T_HPArrayLength 320
++extern u32 Rtl8192CUAGCTAB_1T_HPArray[AGCTAB_1T_HPArrayLength];
++
++#endif //__INC_HAL8192CU_FW_IMG_H
+diff --git a/drivers/net/wireless/rtl8192cu/include/Hal8192CUHWImg_wowlan.h b/drivers/net/wireless/rtl8192cu/include/Hal8192CUHWImg_wowlan.h
+new file mode 100755
+index 0000000..47d4d2f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/Hal8192CUHWImg_wowlan.h
+@@ -0,0 +1,34 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8192CU_FW_IMG_WOWLAN_H
++#define __INC_HAL8192CU_FW_IMG_WOWLAN_H
++
++/*Created on  2011/11/ 8, 14:15*/
++
++
++#define TSMCWWImgArrayLength 13458
++extern u8 Rtl8192CUFwTSMCWWImgArray[TSMCWWImgArrayLength];
++#define UMCACutWWImgArrayLength 13458
++extern u8 Rtl8192CUFwUMCACutWWImgArray[UMCACutWWImgArrayLength];
++#define UMCBCutWWImgArrayLength 13446
++extern u8 Rtl8192CUFwUMCBCutWWImgArray[UMCBCutWWImgArrayLength];
++
++#endif //__INC_HAL8192CU_FW_IMG_WOWLAN_H
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/Hal8192DEHWImg.h b/drivers/net/wireless/rtl8192cu/include/Hal8192DEHWImg.h
+new file mode 100755
+index 0000000..0639775
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/Hal8192DEHWImg.h
+@@ -0,0 +1,66 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8192DE_FW_IMG_H
++#define __INC_HAL8192DE_FW_IMG_H
++
++#include <basic_types.h>
++
++/*Created on  2011/11/11,  8: 8*/
++
++#define Rtl8192DEImgArrayLength 32296
++extern const u8 Rtl8192DEFwImgArray[Rtl8192DEImgArrayLength];
++#define Rtl8192DEMainArrayLength 1
++extern const u8 Rtl8192DEFwMainArray[Rtl8192DEMainArrayLength];
++#define Rtl8192DEDataArrayLength 1
++extern const u8 Rtl8192DEFwDataArray[Rtl8192DEDataArrayLength];
++#define Rtl8192DEPHY_REG_2TArrayLength 372
++extern const u32 Rtl8192DEPHY_REG_2TArray[Rtl8192DEPHY_REG_2TArrayLength];
++#define Rtl8192DEPHY_REG_1TArrayLength 1
++extern const u32 Rtl8192DEPHY_REG_1TArray[Rtl8192DEPHY_REG_1TArrayLength];
++#define Rtl8192DEPHY_REG_Array_PGLength 624
++extern const u32 Rtl8192DEPHY_REG_Array_PG[Rtl8192DEPHY_REG_Array_PGLength];
++#define Rtl8192DEPHY_REG_Array_MPLength 12
++extern const u32 Rtl8192DEPHY_REG_Array_MP[Rtl8192DEPHY_REG_Array_MPLength];
++#define Rtl8192DERadioA_2TArrayLength 378
++extern const u32 Rtl8192DERadioA_2TArray[Rtl8192DERadioA_2TArrayLength];
++#define Rtl8192DERadioB_2TArrayLength 384
++extern const u32 Rtl8192DERadioB_2TArray[Rtl8192DERadioB_2TArrayLength];
++#define Rtl8192DERadioA_1TArrayLength 1
++extern const u32 Rtl8192DERadioA_1TArray[Rtl8192DERadioA_1TArrayLength];
++#define Rtl8192DERadioB_1TArrayLength 1
++extern const u32 Rtl8192DERadioB_1TArray[Rtl8192DERadioB_1TArrayLength];
++#define Rtl8192DERadioA_2T_intPAArrayLength 378
++extern const u32 Rtl8192DERadioA_2T_intPAArray[Rtl8192DERadioA_2T_intPAArrayLength];
++#define Rtl8192DERadioB_2T_intPAArrayLength 384
++extern const u32 Rtl8192DERadioB_2T_intPAArray[Rtl8192DERadioB_2T_intPAArrayLength];
++#define Rtl8192DEMAC_2T_ArrayLength 192
++extern const u32 Rtl8192DEMAC_2T_Array[Rtl8192DEMAC_2T_ArrayLength];
++#define Rtl8192DEAGCTAB_ArrayLength 386
++extern const u32 Rtl8192DEAGCTAB_Array[Rtl8192DEAGCTAB_ArrayLength];
++#define Rtl8192DEAGCTAB_5GArrayLength 194
++extern const u32 Rtl8192DEAGCTAB_5GArray[Rtl8192DEAGCTAB_5GArrayLength];
++#define Rtl8192DEAGCTAB_2GArrayLength 194
++extern const u32 Rtl8192DEAGCTAB_2GArray[Rtl8192DEAGCTAB_2GArrayLength];
++#define Rtl8192DEAGCTAB_2TArrayLength 1
++extern const u32 Rtl8192DEAGCTAB_2TArray[Rtl8192DEAGCTAB_2TArrayLength];
++#define Rtl8192DEAGCTAB_1TArrayLength 1
++extern const u32 Rtl8192DEAGCTAB_1TArray[Rtl8192DEAGCTAB_1TArrayLength];
++
++#endif //__INC_HAL8192CU_FW_IMG_H
+diff --git a/drivers/net/wireless/rtl8192cu/include/Hal8192DPhyCfg.h b/drivers/net/wireless/rtl8192cu/include/Hal8192DPhyCfg.h
+new file mode 100755
+index 0000000..624fbda
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/Hal8192DPhyCfg.h
+@@ -0,0 +1,528 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*****************************************************************************
++ *
++ * Module:	__INC_HAL8192DPHYCFG_H
++ *
++ *
++ * Note:	
++ *			
++ *
++ * Export:	Constants, macro, functions(API), global variables(None).
++ *
++ * Abbrev:	
++ *
++ * History:
++ *		Data		Who		Remark 
++ *      08/07/2007  MHC    	1. Porting from 9x series PHYCFG.h.
++ *							2. Reorganize code architecture.
++ * 
++ *****************************************************************************/
++ /* Check to see if the file has been included already.  */
++#ifndef __INC_HAL8192DPHYCFG_H
++#define __INC_HAL8192DPHYCFG_H
++
++
++/*--------------------------Define Parameters-------------------------------*/
++#define LOOP_LIMIT				5
++#define MAX_STALL_TIME			50		//us
++#define AntennaDiversityValue	0x80	//(Adapter->bSoftwareAntennaDiversity ? 0x00:0x80)
++#define MAX_TXPWR_IDX_NMODE_92S	63
++#define Reset_Cnt_Limit			3
++
++
++#define IQK_MAC_REG_NUM		4
++#define IQK_ADDA_REG_NUM		16
++#define IQK_BB_REG_NUM			10
++#define IQK_BB_REG_NUM_92C	9
++#define IQK_BB_REG_NUM_92D	10
++#define IQK_BB_REG_NUM_test	6
++#define index_mapping_NUM		13
++#define Rx_index_mapping_NUM	15
++#define AVG_THERMAL_NUM		8
++#define IQK_Matrix_REG_NUM	8
++#define IQK_Matrix_Settings_NUM	1+24+21
++
++#ifdef CONFIG_PCI_HCI
++#define	SET_RTL8192SE_RF_SLEEP(_pAdapter)							\
++{																	\
++	u1Byte		u1bTmp;												\
++	u1bTmp = PlatformEFIORead1Byte(_pAdapter, REG_LDOV12D_CTRL);		\
++	u1bTmp |= BIT0;													\
++	PlatformEFIOWrite1Byte(_pAdapter, REG_LDOV12D_CTRL, u1bTmp);		\
++	PlatformEFIOWrite1Byte(_pAdapter, REG_SPS_OCP_CFG, 0x0);				\
++	PlatformEFIOWrite1Byte(_pAdapter, TXPAUSE, 0xFF);				\
++	PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x57FC);				\
++	delay_us(100);													\
++	PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x77FC);				\
++	PlatformEFIOWrite1Byte(_pAdapter, PHY_CCA, 0x0);				\
++	delay_us(10);													\
++	PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x37FC);				\
++	delay_us(10);													\
++	PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x77FC);				\
++	delay_us(10);													\
++	PlatformEFIOWrite2Byte(_pAdapter, CMDR, 0x57FC);				\
++}
++#endif
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++
++/*------------------------------Define structure----------------------------*/ 
++typedef enum _SwChnlCmdID{
++	CmdID_End,
++	CmdID_SetTxPowerLevel,
++	CmdID_BBRegWrite10,
++	CmdID_WritePortUlong,
++	CmdID_WritePortUshort,
++	CmdID_WritePortUchar,
++	CmdID_RF_WriteReg,
++}SwChnlCmdID;
++
++
++/* 1. Switch channel related */
++typedef struct _SwChnlCmd{
++	SwChnlCmdID	CmdID;
++	u32			Para1;
++	u32			Para2;
++	u32			msDelay;
++}SwChnlCmd;
++
++typedef enum _HW90_BLOCK{
++	HW90_BLOCK_MAC = 0,
++	HW90_BLOCK_PHY0 = 1,
++	HW90_BLOCK_PHY1 = 2,
++	HW90_BLOCK_RF = 3,
++	HW90_BLOCK_MAXIMUM = 4, // Never use this
++}HW90_BLOCK_E, *PHW90_BLOCK_E;
++
++//vivi added this for read parameter from header, 20100908
++typedef enum _RF_CONTENT{
++	radioa_txt = 0x1000,
++	radiob_txt = 0x1001,
++	radioc_txt = 0x1002,
++	radiod_txt = 0x1003
++} RF_CONTENT;
++
++#define	RF_PATH_MAX			2
++
++typedef enum _WIRELESS_MODE {
++	WIRELESS_MODE_UNKNOWN = 0x00,
++	WIRELESS_MODE_A = 0x01,
++	WIRELESS_MODE_B = 0x02,
++	WIRELESS_MODE_G = 0x04,
++	WIRELESS_MODE_AUTO = 0x08,
++	WIRELESS_MODE_N_24G = 0x10,
++	WIRELESS_MODE_N_5G = 0x20
++} WIRELESS_MODE;
++
++
++#define CHANNEL_MAX_NUMBER		14+24+21	// 14 is the max channel number
++#define CHANNEL_GROUP_MAX		3+9	// ch1~3, ch4~9, ch10~14 total three groups
++#define MAX_PG_GROUP 13
++
++#define	CHANNEL_GROUP_MAX_2G		3
++#define	CHANNEL_GROUP_IDX_5GL		3
++#define	CHANNEL_GROUP_IDX_5GM		6
++#define	CHANNEL_GROUP_IDX_5GH		9
++#define	CHANNEL_GROUP_MAX_5G		9
++#define	CHANNEL_MAX_NUMBER_2G		14
++
++typedef enum _BaseBand_Config_Type{
++	BaseBand_Config_PHY_REG = 0,			//Radio Path A
++	BaseBand_Config_AGC_TAB = 1,			//Radio Path B
++}BaseBand_Config_Type, *PBaseBand_Config_Type;
++
++typedef enum _MACPHY_MODE_8192D{
++	SINGLEMAC_SINGLEPHY,
++	DUALMAC_DUALPHY,
++	DUALMAC_SINGLEPHY,
++}MACPHY_MODE_8192D,*PMACPHY_MODE_8192D;
++
++typedef enum _MACPHY_MODE_CHANGE_ACTION{
++	DMDP2DMSP = 0,
++	DMSP2DMDP = 1,
++	DMDP2SMSP = 2,
++	SMSP2DMDP = 3,
++	DMSP2SMSP = 4,
++	SMSP2DMSP = 5,
++	MAXACTION
++}MACPHY_MODE_CHANGE_ACTION,*PMACPHY_MODE_CHANGE_ACTION;
++
++typedef enum _BAND_TYPE{
++	BAND_ON_2_4G = 0,
++	BAND_ON_5G,
++	BAND_ON_BOTH,
++	BANDMAX
++}BAND_TYPE,*PBAND_TYPE;
++
++typedef enum _PHY_Rate_Tx_Power_Offset_Area{
++	RA_OFFSET_LEGACY_OFDM1,
++	RA_OFFSET_LEGACY_OFDM2,
++	RA_OFFSET_HT_OFDM1,
++	RA_OFFSET_HT_OFDM2,
++	RA_OFFSET_HT_OFDM3,
++	RA_OFFSET_HT_OFDM4,
++	RA_OFFSET_HT_CCK,
++}RA_OFFSET_AREA,*PRA_OFFSET_AREA;
++
++
++/* BB/RF related */
++typedef	enum _RF_TYPE_8190P{
++	RF_TYPE_MIN,	// 0
++	RF_8225=1,			// 1 11b/g RF for verification only
++	RF_8256=2,			// 2 11b/g/n 
++	RF_8258=3,			// 3 11a/b/g/n RF
++	RF_6052=4,		// 4 11b/g/n RF
++	//RF_6052=5,		// 4 11b/g/n RF
++	// TODO: We sholud remove this psudo PHY RF after we get new RF.
++	RF_PSEUDO_11N=5,	// 5, It is a temporality RF. 
++}RF_TYPE_8190P_E,*PRF_TYPE_8190P_E;
++
++typedef struct _BB_REGISTER_DEFINITION{
++	u32 rfintfs;			// set software control: 
++							//		0x870~0x877[8 bytes]
++							
++	u32 rfintfi;			// readback data: 
++							//		0x8e0~0x8e7[8 bytes]
++							
++	u32 rfintfo; 		// output data: 
++							//		0x860~0x86f [16 bytes]
++							
++	u32 rfintfe; 		// output enable: 
++							//		0x860~0x86f [16 bytes]
++							
++	u32 rf3wireOffset;	// LSSI data:
++							//		0x840~0x84f [16 bytes]
++							
++	u32 rfLSSI_Select;	// BB Band Select: 
++							//		0x878~0x87f [8 bytes]
++							
++	u32 rfTxGainStage;	// Tx gain stage: 
++							//		0x80c~0x80f [4 bytes]
++							
++	u32 rfHSSIPara1; 	// wire parameter control1 : 
++							//		0x820~0x823,0x828~0x82b, 0x830~0x833, 0x838~0x83b [16 bytes]
++							
++	u32 rfHSSIPara2; 	// wire parameter control2 : 
++							//		0x824~0x827,0x82c~0x82f, 0x834~0x837, 0x83c~0x83f [16 bytes]
++								
++	u32 rfSwitchControl; //Tx Rx antenna control : 
++							//		0x858~0x85f [16 bytes]
++								
++	u32 rfAGCControl1; 	//AGC parameter control1 : 
++							//		0xc50~0xc53,0xc58~0xc5b, 0xc60~0xc63, 0xc68~0xc6b [16 bytes] 
++								
++	u32 rfAGCControl2; 	//AGC parameter control2 : 
++							//		0xc54~0xc57,0xc5c~0xc5f, 0xc64~0xc67, 0xc6c~0xc6f [16 bytes] 
++							
++	u32 rfRxIQImbalance; //OFDM Rx IQ imbalance matrix : 
++							//		0xc14~0xc17,0xc1c~0xc1f, 0xc24~0xc27, 0xc2c~0xc2f [16 bytes]
++							
++	u32 rfRxAFE;  		//Rx IQ DC ofset and Rx digital filter, Rx DC notch filter : 
++							//		0xc10~0xc13,0xc18~0xc1b, 0xc20~0xc23, 0xc28~0xc2b [16 bytes]
++							
++	u32 rfTxIQImbalance; //OFDM Tx IQ imbalance matrix
++							//		0xc80~0xc83,0xc88~0xc8b, 0xc90~0xc93, 0xc98~0xc9b [16 bytes]
++							
++	u32 rfTxAFE; 		//Tx IQ DC Offset and Tx DFIR type
++							//		0xc84~0xc87,0xc8c~0xc8f, 0xc94~0xc97, 0xc9c~0xc9f [16 bytes]
++								
++	u32 rfLSSIReadBack; 	//LSSI RF readback data SI mode
++								//		0x8a0~0x8af [16 bytes]
++
++	u32 rfLSSIReadBackPi; 	//LSSI RF readback data PI mode 0x8b8-8bc for Path A and B
++
++}BB_REGISTER_DEFINITION_T, *PBB_REGISTER_DEFINITION_T;
++
++#ifdef CONFIG_MP_INCLUDED
++typedef enum _ANTENNA_PATH{
++        ANTENNA_NONE 	= 0x00,
++		ANTENNA_D		,
++		ANTENNA_C		,
++		ANTENNA_CD		,
++		ANTENNA_B		,
++		ANTENNA_BD		,
++		ANTENNA_BC		,
++		ANTENNA_BCD		,
++		ANTENNA_A		,
++		ANTENNA_AD		,
++		ANTENNA_AC		,
++		ANTENNA_ACD		,
++		ANTENNA_AB		,
++		ANTENNA_ABD		,
++		ANTENNA_ABC		,
++		ANTENNA_ABCD	
++} ANTENNA_PATH;
++#endif
++
++typedef struct _R_ANTENNA_SELECT_OFDM{	
++	u32			r_tx_antenna:4;	
++	u32			r_ant_l:4;
++	u32			r_ant_non_ht:4;	
++	u32			r_ant_ht1:4;
++	u32			r_ant_ht2:4;
++	u32			r_ant_ht_s1:4;
++	u32			r_ant_non_ht_s1:4;
++	u32			OFDM_TXSC:2;
++	u32			Reserved:2;
++}R_ANTENNA_SELECT_OFDM;
++
++typedef struct _R_ANTENNA_SELECT_CCK{
++	u8			r_cckrx_enable_2:2;	
++	u8			r_cckrx_enable:2;
++	u8			r_ccktx_enable:4;
++}R_ANTENNA_SELECT_CCK;
++
++/*------------------------------Define structure----------------------------*/ 
++
++
++/*------------------------Export global variable----------------------------*/
++/*------------------------Export global variable----------------------------*/
++
++
++/*------------------------Export Marco Definition---------------------------*/
++/*------------------------Export Marco Definition---------------------------*/
++
++//Added for TX Power
++//u8 GetRightChnlPlace(u8 chnl);
++u8 rtl8192d_GetRightChnlPlaceforIQK(u8 chnl);
++u8 rtl8192d_getChnlGroupfromArray(u8 chnl);
++/*--------------------------Exported Function prototype---------------------*/
++//
++// BB and RF register read/write
++//
++void	rtl8192d_PHY_SetBBReg1Byte(	IN	PADAPTER	Adapter,
++								IN	u32		RegAddr,
++								IN	u32		BitMask,
++								IN	u32		Data	);
++u32	rtl8192d_PHY_QueryBBReg(	IN	PADAPTER	Adapter,
++								IN	u32		RegAddr,
++								IN	u32		BitMask	);
++void	rtl8192d_PHY_SetBBReg(	IN	PADAPTER	Adapter,
++								IN	u32		RegAddr,
++								IN	u32		BitMask,
++								IN	u32		Data	);
++u32	rtl8192d_PHY_QueryRFReg(	IN	PADAPTER			Adapter,
++								IN	RF_RADIO_PATH_E	eRFPath,
++								IN	u32				RegAddr,
++								IN	u32				BitMask	);
++void	rtl8192d_PHY_SetRFReg(	IN	PADAPTER			Adapter,
++								IN	RF_RADIO_PATH_E	eRFPath,
++								IN	u32				RegAddr,
++								IN	u32				BitMask,
++								IN	u32				Data	);
++
++//
++// Initialization related function
++//
++/* MAC/BB/RF HAL config */
++extern	int	PHY_MACConfig8192D(	IN	PADAPTER	Adapter	);
++extern	int	PHY_BBConfig8192D(	IN	PADAPTER	Adapter	);
++extern	int	PHY_RFConfig8192D(	IN	PADAPTER	Adapter	);
++/* RF config */
++int	rtl8192d_PHY_ConfigRFWithParaFile(	IN	PADAPTER	Adapter,
++												IN	u8* 	pFileName,
++												IN	RF_RADIO_PATH_E	eRFPath);
++int	rtl8192d_PHY_ConfigRFWithHeaderFile(	IN	PADAPTER			Adapter,
++												IN	RF_CONTENT			Content,
++												IN	RF_RADIO_PATH_E	eRFPath);
++/* BB/RF readback check for making sure init OK */
++int	rtl8192d_PHY_CheckBBAndRFOK(	IN	PADAPTER			Adapter,
++										IN	HW90_BLOCK_E		CheckBlock,
++										IN	RF_RADIO_PATH_E	eRFPath	  );
++/* Read initi reg value for tx power setting. */
++void	rtl8192d_PHY_GetHWRegOriginalValue(	IN	PADAPTER		Adapter	);
++
++//
++// RF Power setting
++//
++//extern	BOOLEAN	PHY_SetRFPowerState(IN	PADAPTER			Adapter, 
++//									IN	RT_RF_POWER_STATE	eRFPowerState);
++
++//
++// BB TX Power R/W
++//
++void	PHY_GetTxPowerLevel8192D(	IN	PADAPTER		Adapter,
++											OUT u32*    		powerlevel	);
++void	PHY_SetTxPowerLevel8192D(	IN	PADAPTER		Adapter,
++											IN	u8			channel	);
++BOOLEAN	PHY_UpdateTxPowerDbm8192D(	IN	PADAPTER	Adapter,
++											IN	int		powerInDbm	);
++
++//
++VOID 
++PHY_ScanOperationBackup8192D(IN	PADAPTER	Adapter,
++										IN	u8		Operation	);
++
++//
++// Switch bandwidth for 8192S
++//
++//void	PHY_SetBWModeCallback8192C(	IN	PRT_TIMER		pTimer	);
++void	PHY_SetBWMode8192D(	IN	PADAPTER			pAdapter,
++									IN	HT_CHANNEL_WIDTH	ChnlWidth,
++									IN	unsigned char	Offset	);
++
++//
++// Set FW CMD IO for 8192S.
++//
++//extern	BOOLEAN HalSetIO8192C(	IN	PADAPTER			Adapter,
++//									IN	IO_TYPE				IOType);
++
++//
++// Set A2 entry to fw for 8192S
++//
++extern	void FillA2Entry8192C(		IN	PADAPTER			Adapter,
++										IN	u8				index,
++										IN	u8*				val);
++
++
++//
++// channel switch related funciton
++//
++//extern	void	PHY_SwChnlCallback8192C(	IN	PRT_TIMER		pTimer	);
++void	PHY_SwChnl8192D(	IN	PADAPTER		pAdapter,
++									IN	u8			channel	);
++				// Call after initialization
++void	PHY_SwChnlPhy8192D(	IN	PADAPTER		pAdapter,
++									IN	u8			channel	);
++
++extern void ChkFwCmdIoDone(	IN	PADAPTER	Adapter);
++
++#ifdef USE_WORKITEM	
++//extern 	void SetIOWorkItemCallback( IN PVOID            pContext );
++#else
++//extern	void SetIOTimerCallback( IN PRT_TIMER		pTimer);
++#endif	
++				
++//
++// BB/MAC/RF other monitor API
++//
++void	PHY_SetMonitorMode8192D(IN	PADAPTER	pAdapter,
++										IN	BOOLEAN		bEnableMonitorMode	);
++
++BOOLEAN	PHY_CheckIsLegalRfPath8192D(IN	PADAPTER	pAdapter,
++											IN	u32		eRFPath	);
++
++//
++// IQ calibrate
++//
++void	rtl8192d_PHY_IQCalibrate(	IN	PADAPTER	pAdapter);
++
++
++//
++// LC calibrate
++//
++void	rtl8192d_PHY_LCCalibrate(IN	PADAPTER	pAdapter);
++
++//
++// AP calibrate
++//
++void	rtl8192d_PHY_APCalibrate(IN	PADAPTER	pAdapter, IN 	char		delta);
++
++
++//
++// Modify the value of the hw register when beacon interval be changed.
++//
++void	
++rtl8192d_PHY_SetBeaconHwReg(	IN	PADAPTER		Adapter,
++					IN	u16			BeaconInterval	);
++
++
++extern	VOID
++PHY_SwitchEphyParameter(
++	IN	PADAPTER			Adapter
++	);
++
++extern	VOID
++PHY_EnableHostClkReq(
++	IN	PADAPTER			Adapter
++	);
++
++BOOLEAN
++SetAntennaConfig92C(
++	IN	PADAPTER	Adapter,
++	IN	u8		DefaultAnt	
++	);
++
++VOID 
++PHY_StopTRXBeforeChangeBand8192D(
++	  PADAPTER		Adapter
++);
++
++VOID
++PHY_UpdateBBRFConfiguration8192D(
++	IN PADAPTER Adapter,
++	IN BOOLEAN bisBandSwitch
++);
++
++VOID PHY_ReadMacPhyMode92D(
++	IN PADAPTER	Adapter,
++	IN BOOLEAN 	AutoloadFail	
++);
++
++VOID PHY_ConfigMacPhyMode92D(
++	IN PADAPTER	Adapter
++);
++
++VOID PHY_ConfigMacPhyModeInfo92D(
++	IN PADAPTER	Adapter
++);
++
++VOID PHY_ConfigMacCoexist_RFPage92D(
++	IN PADAPTER	Adapter
++);
++
++VOID
++rtl8192d_PHY_InitRxSetting(
++	IN	PADAPTER Adapter
++);
++
++VOID
++rtl8192d_PHY_ResetIQKResult(
++	IN	PADAPTER Adapter
++);
++
++
++VOID 
++rtl8192d_PHY_SetRFPathSwitch(IN	PADAPTER	pAdapter, IN	BOOLEAN		bMain);
++
++VOID
++HalChangeCCKStatus8192D(
++	IN	PADAPTER	Adapter,
++	IN	BOOLEAN		bCCKDisable
++);
++
++VOID 
++PHY_InitPABias92D(IN	PADAPTER Adapter);
++
++/*--------------------------Exported Function prototype---------------------*/
++
++#define PHY_SetBBReg1Byte(Adapter, RegAddr, BitMask, Data) rtl8192d_PHY_SetBBReg1Byte((Adapter), (RegAddr), (BitMask), (Data))
++#define PHY_QueryBBReg(Adapter, RegAddr, BitMask) rtl8192d_PHY_QueryBBReg((Adapter), (RegAddr), (BitMask))
++#define PHY_SetBBReg(Adapter, RegAddr, BitMask, Data) rtl8192d_PHY_SetBBReg((Adapter), (RegAddr), (BitMask), (Data))
++#define PHY_QueryRFReg(Adapter, eRFPath, RegAddr, BitMask) rtl8192d_PHY_QueryRFReg((Adapter), (eRFPath), (RegAddr), (BitMask))
++#define PHY_SetRFReg(Adapter, eRFPath, RegAddr, BitMask, Data) rtl8192d_PHY_SetRFReg((Adapter), (eRFPath), (RegAddr), (BitMask), (Data))
++
++#define PHY_SetMacReg	PHY_SetBBReg
++
++#endif	// __INC_HAL8192SPHYCFG_H
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/Hal8192DPhyReg.h b/drivers/net/wireless/rtl8192cu/include/Hal8192DPhyReg.h
+new file mode 100755
+index 0000000..f28aa03
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/Hal8192DPhyReg.h
+@@ -0,0 +1,1171 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*****************************************************************************
++ *
++ * Module:	__INC_HAL8192DPHYREG_H
++ *
++ *
++ * Note:	1. Define PMAC/BB register map
++ *			2. Define RF register map
++ *			3. PMAC/BB register bit mask.
++ *			4. RF reg bit mask.
++ *			5. Other BB/RF relative definition.
++ *			
++ *
++ * Export:	Constants, macro, functions(API), global variables(None).
++ *
++ * Abbrev:	
++ *
++ * History:
++ *		Data		Who		Remark 
++ *      08/07/2007  MHC    	1. Porting from 9x series PHYCFG.h.
++ *							2. Reorganize code architecture.
++ *	09/25/2008	MH		1. Add RL6052 register definition
++ * 
++ *****************************************************************************/
++#ifndef __INC_HAL8192DPHYREG_H
++#define __INC_HAL8192DPHYREG_H
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++//============================================================
++//       8192S Regsiter offset definition
++//============================================================
++
++//
++// BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++// 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++// 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++// 3. RF register 0x00-2E
++// 4. Bit Mask for BB/RF register
++// 5. Other defintion for BB/RF R/W
++//
++
++
++//
++// 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++// 1. Page1(0x100)
++//
++#define		rPMAC_Reset					0x100
++#define		rPMAC_TxStart					0x104
++#define		rPMAC_TxLegacySIG				0x108
++#define		rPMAC_TxHTSIG1				0x10c
++#define		rPMAC_TxHTSIG2				0x110
++#define		rPMAC_PHYDebug				0x114
++#define		rPMAC_TxPacketNum				0x118
++#define		rPMAC_TxIdle					0x11c
++#define		rPMAC_TxMACHeader0			0x120
++#define		rPMAC_TxMACHeader1			0x124
++#define		rPMAC_TxMACHeader2			0x128
++#define		rPMAC_TxMACHeader3			0x12c
++#define		rPMAC_TxMACHeader4			0x130
++#define		rPMAC_TxMACHeader5			0x134
++#define		rPMAC_TxDataType				0x138
++#define		rPMAC_TxRandomSeed			0x13c
++#define		rPMAC_CCKPLCPPreamble			0x140
++#define		rPMAC_CCKPLCPHeader			0x144
++#define		rPMAC_CCKCRC16				0x148
++#define		rPMAC_OFDMRxCRC32OK			0x170
++#define		rPMAC_OFDMRxCRC32Er			0x174
++#define		rPMAC_OFDMRxParityEr			0x178
++#define		rPMAC_OFDMRxCRC8Er			0x17c
++#define		rPMAC_CCKCRxRC16Er			0x180
++#define		rPMAC_CCKCRxRC32Er			0x184
++#define		rPMAC_CCKCRxRC32OK			0x188
++#define		rPMAC_TxStatus					0x18c
++
++//
++// 2. Page2(0x200)
++//
++// The following two definition are only used for USB interface.
++#define		RF_BB_CMD_ADDR				0x02c0	// RF/BB read/write command address.
++#define		RF_BB_CMD_DATA				0x02c4	// RF/BB read/write command data.
++
++//
++// 3. Page8(0x800)
++//
++#define		rFPGA0_RFMOD				0x800	//RF mode & CCK TxSC // RF BW Setting??
++
++#define		rFPGA0_TxInfo				0x804	// Status report??
++#define		rFPGA0_PSDFunction			0x808
++
++#define		rFPGA0_TxGainStage			0x80c	// Set TX PWR init gain?
++
++#define		rFPGA0_RFTiming1			0x810	// Useless now
++#define		rFPGA0_RFTiming2			0x814
++
++#define		rFPGA0_XA_HSSIParameter1		0x820	// RF 3 wire register
++#define		rFPGA0_XA_HSSIParameter2		0x824
++#define		rFPGA0_XB_HSSIParameter1		0x828
++#define		rFPGA0_XB_HSSIParameter2		0x82c
++
++#define		rFPGA0_XA_LSSIParameter		0x840
++#define		rFPGA0_XB_LSSIParameter		0x844
++
++#define		rFPGA0_RFWakeUpParameter		0x850	// Useless now
++#define		rFPGA0_RFSleepUpParameter		0x854
++
++#define		rFPGA0_XAB_SwitchControl		0x858	// RF Channel switch
++#define		rFPGA0_XCD_SwitchControl		0x85c
++
++#define		rFPGA0_XA_RFInterfaceOE		0x860	// RF Channel switch
++#define		rFPGA0_XB_RFInterfaceOE		0x864
++
++#define		rFPGA0_XAB_RFInterfaceSW		0x870	// RF Interface Software Control
++#define		rFPGA0_XCD_RFInterfaceSW		0x874
++
++#define		rFPGA0_XAB_RFParameter		0x878	// RF Parameter
++#define		rFPGA0_XCD_RFParameter		0x87c
++
++#define		rFPGA0_AnalogParameter1		0x880	// Crystal cap setting RF-R/W protection for parameter4??
++#define		rFPGA0_AnalogParameter2		0x884
++#define		rFPGA0_AnalogParameter3		0x888
++#define		rFPGA0_AdDaClockEn			0x888	// enable ad/da clock1 for dual-phy
++#define		rFPGA0_AnalogParameter4		0x88c
++
++#define		rFPGA0_XA_LSSIReadBack		0x8a0	// Tranceiver LSSI Readback
++#define		rFPGA0_XB_LSSIReadBack		0x8a4
++#define		rFPGA0_XC_LSSIReadBack		0x8a8
++#define		rFPGA0_XD_LSSIReadBack		0x8ac
++
++#define		rFPGA0_PSDReport				0x8b4	// Useless now
++#define		TransceiverA_HSPI_Readback	0x8b8	// Transceiver A HSPI Readback
++#define		TransceiverB_HSPI_Readback	0x8bc	// Transceiver B HSPI Readback
++#define		rFPGA0_XAB_RFInterfaceRB		0x8e0	// Useless now // RF Interface Readback Value
++#define		rFPGA0_XCD_RFInterfaceRB		0x8e4	// Useless now
++
++//
++// 4. Page9(0x900)
++//
++#define		rFPGA1_RFMOD				0x900	//RF mode & OFDM TxSC // RF BW Setting??
++
++#define		rFPGA1_TxBlock				0x904	// Useless now
++#define		rFPGA1_DebugSelect			0x908	// Useless now
++#define		rFPGA1_TxInfo				0x90c	// Useless now // Status report??
++
++//
++// 5. PageA(0xA00)
++//
++// Set Control channel to upper or lower. These settings are required only for 40MHz
++#define		rCCK0_System				0xa00
++
++#define		rCCK0_AFESetting			0xa04	// Disable init gain now // Select RX path by RSSI
++#define		rCCK0_CCA					0xa08	// Disable init gain now // Init gain
++
++#define		rCCK0_RxAGC1				0xa0c 	//AGC default value, saturation level // Antenna Diversity, RX AGC, LNA Threshold, RX LNA Threshold useless now. Not the same as 90 series
++#define		rCCK0_RxAGC2				0xa10 	//AGC & DAGC
++
++#define		rCCK0_RxHP					0xa14
++
++#define		rCCK0_DSPParameter1		0xa18	//Timing recovery & Channel estimation threshold
++#define		rCCK0_DSPParameter2		0xa1c	//SQ threshold
++
++#define		rCCK0_TxFilter1				0xa20
++#define		rCCK0_TxFilter2				0xa24
++#define		rCCK0_DebugPort			0xa28	//debug port and Tx filter3
++#define		rCCK0_FalseAlarmReport		0xa2c	//0xa2d	useless now 0xa30-a4f channel report
++#define		rCCK0_TRSSIReport         		0xa50
++#define		rCCK0_RxReport            		0xa54  //0xa57
++#define		rCCK0_FACounterLower      	0xa5c  //0xa5b
++#define		rCCK0_FACounterUpper      	0xa58  //0xa5c
++
++//
++// PageB(0xB00)
++//
++#define		rPdp_AntA      					0xb00  
++#define		rPdp_AntA_4    				0xb04
++#define		rPdp_AntA_8    				0xb08
++#define		rPdp_AntA_C    				0xb0c
++#define		rPdp_AntA_10    				0xb10
++#define		rPdp_AntA_14    				0xb14
++#define		rPdp_AntA_18    				0xb18
++#define		rPdp_AntA_1C    				0xb1c
++#define		rPdp_AntA_20    				0xb20
++#define		rPdp_AntA_24    				0xb24
++
++#define		rConfig_Pmpd_AntA 			0xb28
++#define		rConfig_ram64x16				0xb2c
++
++#define		rBndA						0xb30
++#define		rHssiPar						0xb34
++
++#define		rConfig_AntA 					0xb68
++#define		rConfig_AntB 					0xb6c
++
++#define		rPdp_AntB 					0xb70
++#define		rPdp_AntB_4 					0xb74
++#define		rPdp_AntB_8 					0xb78
++#define		rPdp_AntB_C 					0xb7c
++#define		rPdp_AntB_10 					0xb80
++#define		rPdp_AntB_14 					0xb84
++#define		rPdp_AntB_18 					0xb88
++#define		rPdp_AntB_1C 					0xb8c
++#define		rPdp_AntB_20 					0xb90
++#define		rPdp_AntB_24 					0xb94
++
++#define		rConfig_Pmpd_AntB			0xb98
++
++#define		rBndB						0xba0
++
++#define		rAPK							0xbd8
++#define		rPm_Rx0_AntA				0xbdc
++#define		rPm_Rx1_AntA				0xbe0
++#define		rPm_Rx2_AntA				0xbe4
++#define		rPm_Rx3_AntA				0xbe8
++#define		rPm_Rx0_AntB				0xbec
++#define		rPm_Rx1_AntB				0xbf0
++#define		rPm_Rx2_AntB				0xbf4
++#define		rPm_Rx3_AntB				0xbf8
++
++//
++// 6. PageC(0xC00)
++//
++#define		rOFDM0_LSTF				0xc00
++
++#define		rOFDM0_TRxPathEnable		0xc04
++#define		rOFDM0_TRMuxPar			0xc08
++#define		rOFDM0_TRSWIsolation		0xc0c
++
++#define		rOFDM0_XARxAFE			0xc10  //RxIQ DC offset, Rx digital filter, DC notch filter
++#define		rOFDM0_XARxIQImbalance    	0xc14  //RxIQ imblance matrix
++#define		rOFDM0_XBRxAFE            		0xc18
++#define		rOFDM0_XBRxIQImbalance    	0xc1c
++#define		rOFDM0_XCRxAFE            		0xc20
++#define		rOFDM0_XCRxIQImbalance    	0xc24
++#define		rOFDM0_XDRxAFE            		0xc28
++#define		rOFDM0_XDRxIQImbalance    	0xc2c
++
++#define		rOFDM0_RxDetector1			0xc30  //PD,BW & SBD	// DM tune init gain
++#define		rOFDM0_RxDetector2			0xc34  //SBD & Fame Sync. 
++#define		rOFDM0_RxDetector3			0xc38  //Frame Sync.
++#define		rOFDM0_RxDetector4			0xc3c  //PD, SBD, Frame Sync & Short-GI
++
++#define		rOFDM0_RxDSP				0xc40  //Rx Sync Path
++#define		rOFDM0_CFOandDAGC		0xc44  //CFO & DAGC
++#define		rOFDM0_CCADropThreshold	0xc48 //CCA Drop threshold
++#define		rOFDM0_ECCAThreshold		0xc4c // energy CCA
++
++#define		rOFDM0_XAAGCCore1			0xc50	// DIG
++#define		rOFDM0_XAAGCCore2			0xc54
++#define		rOFDM0_XBAGCCore1			0xc58
++#define		rOFDM0_XBAGCCore2			0xc5c
++#define		rOFDM0_XCAGCCore1			0xc60
++#define		rOFDM0_XCAGCCore2			0xc64
++#define		rOFDM0_XDAGCCore1			0xc68
++#define		rOFDM0_XDAGCCore2			0xc6c
++
++#define		rOFDM0_AGCParameter1			0xc70
++#define		rOFDM0_AGCParameter2			0xc74
++#define		rOFDM0_AGCRSSITable			0xc78
++#define		rOFDM0_HTSTFAGC				0xc7c
++
++#define		rOFDM0_XATxIQImbalance		0xc80	// TX PWR TRACK and DIG
++#define		rOFDM0_XATxAFE				0xc84
++#define		rOFDM0_XBTxIQImbalance		0xc88
++#define		rOFDM0_XBTxAFE				0xc8c
++#define		rOFDM0_XCTxIQImbalance		0xc90
++#define		rOFDM0_XCTxAFE            			0xc94
++#define		rOFDM0_XDTxIQImbalance		0xc98
++#define		rOFDM0_XDTxAFE				0xc9c
++
++#define		rOFDM0_RxIQExtAnta			0xca0
++#define		rOFDM0_TxCoeff1				0xca4
++#define		rOFDM0_TxCoeff2				0xca8
++#define		rOFDM0_TxCoeff3				0xcac
++#define		rOFDM0_TxCoeff4				0xcb0
++#define		rOFDM0_TxCoeff5				0xcb4
++#define		rOFDM0_TxCoeff6				0xcb8
++#define		rOFDM0_RxHPParameter			0xce0
++#define		rOFDM0_TxPseudoNoiseWgt		0xce4
++#define		rOFDM0_FrameSync				0xcf0
++#define		rOFDM0_DFSReport				0xcf4
++
++//
++// 7. PageD(0xD00)
++//
++#define		rOFDM1_LSTF					0xd00
++#define		rOFDM1_TRxPathEnable			0xd04
++
++#define		rOFDM1_CFO						0xd08	// No setting now
++#define		rOFDM1_CSI1					0xd10
++#define		rOFDM1_SBD						0xd14
++#define		rOFDM1_CSI2					0xd18
++#define		rOFDM1_CFOTracking			0xd2c
++#define		rOFDM1_TRxMesaure1			0xd34
++#define		rOFDM1_IntfDet					0xd3c
++#define		rOFDM1_PseudoNoiseStateAB		0xd50
++#define		rOFDM1_PseudoNoiseStateCD		0xd54
++#define		rOFDM1_RxPseudoNoiseWgt		0xd58
++
++#define		rOFDM_PHYCounter1				0xda0  //cca, parity fail
++#define		rOFDM_PHYCounter2				0xda4  //rate illegal, crc8 fail
++#define		rOFDM_PHYCounter3				0xda8  //MCS not support
++
++#define		rOFDM_ShortCFOAB				0xdac	// No setting now
++#define		rOFDM_ShortCFOCD				0xdb0
++#define		rOFDM_LongCFOAB				0xdb4
++#define		rOFDM_LongCFOCD				0xdb8
++#define		rOFDM_TailCFOAB				0xdbc
++#define		rOFDM_TailCFOCD				0xdc0
++#define		rOFDM_PWMeasure1          		0xdc4
++#define		rOFDM_PWMeasure2          		0xdc8
++#define		rOFDM_BWReport				0xdcc
++#define		rOFDM_AGCReport				0xdd0
++#define		rOFDM_RxSNR					0xdd4
++#define		rOFDM_RxEVMCSI				0xdd8
++#define		rOFDM_SIGReport				0xddc
++
++
++//
++// 8. PageE(0xE00)
++//
++#define		rTxAGC_A_Rate18_06			0xe00
++#define		rTxAGC_A_Rate54_24			0xe04
++#define		rTxAGC_A_CCK1_Mcs32			0xe08
++#define		rTxAGC_A_Mcs03_Mcs00			0xe10
++#define		rTxAGC_A_Mcs07_Mcs04			0xe14
++#define		rTxAGC_A_Mcs11_Mcs08			0xe18
++#define		rTxAGC_A_Mcs15_Mcs12			0xe1c
++
++#define		rTxAGC_B_Rate18_06			0x830
++#define		rTxAGC_B_Rate54_24			0x834
++#define		rTxAGC_B_CCK1_55_Mcs32		0x838
++#define		rTxAGC_B_Mcs03_Mcs00			0x83c
++#define		rTxAGC_B_Mcs07_Mcs04			0x848
++#define		rTxAGC_B_Mcs11_Mcs08			0x84c
++#define		rTxAGC_B_Mcs15_Mcs12			0x868
++#define		rTxAGC_B_CCK11_A_CCK2_11		0x86c
++
++#define		rFPGA0_IQK						0xe28
++#define		rTx_IQK_Tone_A					0xe30
++#define		rRx_IQK_Tone_A					0xe34
++#define		rTx_IQK_PI_A					0xe38
++#define		rRx_IQK_PI_A					0xe3c
++
++#define		rTx_IQK 						0xe40
++#define		rRx_IQK							0xe44
++#define		rIQK_AGC_Pts					0xe48
++#define		rIQK_AGC_Rsp					0xe4c
++#define		rTx_IQK_Tone_B					0xe50
++#define		rRx_IQK_Tone_B					0xe54
++#define		rTx_IQK_PI_B					0xe58
++#define		rRx_IQK_PI_B					0xe5c
++#define		rIQK_AGC_Cont					0xe60
++
++#define		rBlue_Tooth						0xe6c
++#define		rRx_Wait_CCA					0xe70
++#define		rTx_CCK_RFON					0xe74
++#define		rTx_CCK_BBON					0xe78
++#define		rTx_OFDM_RFON					0xe7c
++#define		rTx_OFDM_BBON					0xe80
++#define		rTx_To_Rx						0xe84
++#define		rTx_To_Tx						0xe88
++#define		rRx_CCK							0xe8c
++
++#define		rTx_Power_Before_IQK_A		0xe94
++#define		rTx_Power_After_IQK_A			0xe9c
++
++#define		rRx_Power_Before_IQK_A		0xea0
++#define		rRx_Power_Before_IQK_A_2		0xea4
++#define		rRx_Power_After_IQK_A			0xea8
++#define		rRx_Power_After_IQK_A_2		0xeac
++
++#define		rTx_Power_Before_IQK_B		0xeb4
++#define		rTx_Power_After_IQK_B			0xebc
++
++#define		rRx_Power_Before_IQK_B		0xec0
++#define		rRx_Power_Before_IQK_B_2		0xec4
++#define		rRx_Power_After_IQK_B			0xec8
++#define		rRx_Power_After_IQK_B_2		0xecc
++
++#define		rRx_OFDM						0xed0
++#define		rRx_Wait_RIFS 					0xed4
++#define		rRx_TO_Rx 						0xed8
++#define		rStandby 						0xedc
++#define		rSleep 							0xee0
++#define		rPMPD_ANAEN					0xeec
++
++//
++// 7. RF Register 0x00-0x2E (RF 8256)
++//    RF-0222D 0x00-3F
++//
++//Zebra1
++#define		rZebra1_HSSIEnable				0x0	// Useless now
++#define		rZebra1_TRxEnable1				0x1
++#define		rZebra1_TRxEnable2				0x2
++#define		rZebra1_AGC					0x4
++#define		rZebra1_ChargePump			0x5
++#define		rZebra1_Channel				0x7	// RF channel switch
++
++//#endif
++#define		rZebra1_TxGain					0x8	// Useless now
++#define		rZebra1_TxLPF					0x9
++#define		rZebra1_RxLPF					0xb
++#define		rZebra1_RxHPFCorner			0xc
++
++//Zebra4
++#define		rGlobalCtrl						0	// Useless now
++#define		rRTL8256_TxLPF					19
++#define		rRTL8256_RxLPF					11
++
++//RTL8258
++#define		rRTL8258_TxLPF					0x11	// Useless now
++#define		rRTL8258_RxLPF					0x13
++#define		rRTL8258_RSSILPF				0xa
++
++//
++// RL6052 Register definition
++//
++#define		RF_AC						0x00	// 
++
++#define		RF_IQADJ_G1				0x01	// 
++#define		RF_IQADJ_G2				0x02	// 
++#define		RF_BS_PA_APSET_G1_G4		0x03
++#define		RF_BS_PA_APSET_G5_G8		0x04
++#define		RF_POW_TRSW				0x05	// 
++
++#define		RF_GAIN_RX					0x06	// 
++#define		RF_GAIN_TX					0x07	// 
++
++#define		RF_TXM_IDAC				0x08	// 
++#define		RF_IPA_G					0x09	// 
++#define		RF_TXBIAS_G				0x0A
++#define		RF_TXPA_AG					0x0B
++#define		RF_IPA_A					0x0C	// 
++#define		RF_TXBIAS_A				0x0D
++#define		RF_BS_PA_APSET_G9_G11	0x0E
++#define		RF_BS_IQGEN				0x0F	// 
++
++#define		RF_MODE1					0x10	// 
++#define		RF_MODE2					0x11	// 
++
++#define		RF_RX_AGC_HP				0x12	// 
++#define		RF_TX_AGC					0x13	// 
++#define		RF_BIAS						0x14	// 
++#define		RF_IPA						0x15	// 
++#define		RF_POW_ABILITY			0x17	// 
++#define		RF_MODE_AG				0x18	// 
++#define		rRfChannel					0x18	// RF channel and BW switch
++#define		RF_CHNLBW					0x18	// RF channel and BW switch
++#define		RF_TOP						0x19	// 
++
++#define		RF_RX_G1					0x1A	// 
++#define		RF_RX_G2					0x1B	// 
++
++#define		RF_RX_BB2					0x1C	// 
++#define		RF_RX_BB1					0x1D	// 
++
++#define		RF_RCK1					0x1E	// 
++#define		RF_RCK2					0x1F	// 
++
++#define		RF_TX_G1					0x20	// 
++#define		RF_TX_G2					0x21	// 
++#define		RF_TX_G3					0x22	// 
++
++#define		RF_TX_BB1					0x23	// 
++
++#define		RF_T_METER					0x42	// 
++
++#define		RF_SYN_G1					0x25	// RF TX Power control
++#define		RF_SYN_G2					0x26	// RF TX Power control
++#define		RF_SYN_G3					0x27	// RF TX Power control
++#define		RF_SYN_G4					0x28	// RF TX Power control
++#define		RF_SYN_G5					0x29	// RF TX Power control
++#define		RF_SYN_G6					0x2A	// RF TX Power control
++#define		RF_SYN_G7					0x2B	// RF TX Power control
++#define		RF_SYN_G8					0x2C	// RF TX Power control
++
++#define		RF_RCK_OS					0x30	// RF TX PA control
++
++#define		RF_TXPA_G1					0x31	// RF TX PA control
++#define		RF_TXPA_G2					0x32	// RF TX PA control
++#define		RF_TXPA_G3					0x33	// RF TX PA control
++#define		RF_LOBF_9					0x38
++#define		RF_RXRF_A3					0x3C	//
++#define		RF_TRSW					0x3F
++
++#define		RF_TXRF_A2					0x41
++#define		RF_TXPA_G4					0x46
++#define		RF_TXPA_A4					0x4B
++
++//
++//Bit Mask
++//
++// 1. Page1(0x100)
++#define		bBBResetB						0x100	// Useless now?
++#define		bGlobalResetB					0x200
++#define		bOFDMTxStart					0x4
++#define		bCCKTxStart						0x8
++#define		bCRC32Debug					0x100
++#define		bPMACLoopback					0x10
++#define		bTxLSIG							0xffffff
++#define		bOFDMTxRate					0xf
++#define		bOFDMTxReserved				0x10
++#define		bOFDMTxLength					0x1ffe0
++#define		bOFDMTxParity					0x20000
++#define		bTxHTSIG1						0xffffff
++#define		bTxHTMCSRate					0x7f
++#define		bTxHTBW						0x80
++#define		bTxHTLength					0xffff00
++#define		bTxHTSIG2						0xffffff
++#define		bTxHTSmoothing					0x1
++#define		bTxHTSounding					0x2
++#define		bTxHTReserved					0x4
++#define		bTxHTAggreation				0x8
++#define		bTxHTSTBC						0x30
++#define		bTxHTAdvanceCoding			0x40
++#define		bTxHTShortGI					0x80
++#define		bTxHTNumberHT_LTF			0x300
++#define		bTxHTCRC8						0x3fc00
++#define		bCounterReset					0x10000
++#define		bNumOfOFDMTx					0xffff
++#define		bNumOfCCKTx					0xffff0000
++#define		bTxIdleInterval					0xffff
++#define		bOFDMService					0xffff0000
++#define		bTxMACHeader					0xffffffff
++#define		bTxDataInit						0xff
++#define		bTxHTMode						0x100
++#define		bTxDataType					0x30000
++#define		bTxRandomSeed					0xffffffff
++#define		bCCKTxPreamble					0x1
++#define		bCCKTxSFD						0xffff0000
++#define		bCCKTxSIG						0xff
++#define		bCCKTxService					0xff00
++#define		bCCKLengthExt					0x8000
++#define		bCCKTxLength					0xffff0000
++#define		bCCKTxCRC16					0xffff
++#define		bCCKTxStatus					0x1
++#define		bOFDMTxStatus					0x2
++
++#define 		IS_BB_REG_OFFSET_92S(_Offset)		((_Offset >= 0x800) && (_Offset <= 0xfff))
++
++// 2. Page8(0x800)
++#define		bRFMOD							0x1	// Reg 0x800 rFPGA0_RFMOD
++#define		bJapanMode						0x2
++#define		bCCKTxSC						0x30
++#define		bCCKEn							0x1000000
++#define		bOFDMEn						0x2000000
++
++#define		bOFDMRxADCPhase           		0x10000	// Useless now
++#define		bOFDMTxDACPhase           		0x40000
++#define		bXATxAGC                  			0x3f
++
++#define		bAntennaSelect                 		0x0300
++
++#define		bXBTxAGC                  			0xf00	// Reg 80c rFPGA0_TxGainStage
++#define		bXCTxAGC                  			0xf000
++#define		bXDTxAGC                  			0xf0000
++       		
++#define		bPAStart                  			0xf0000000	// Useless now
++#define		bTRStart                  			0x00f00000
++#define		bRFStart                  			0x0000f000
++#define		bBBStart                  			0x000000f0
++#define		bBBCCKStart               		0x0000000f
++#define		bPAEnd                    			0xf          //Reg0x814
++#define		bTREnd                    			0x0f000000
++#define		bRFEnd                    			0x000f0000
++#define		bCCAMask                  			0x000000f0   //T2R
++#define		bR2RCCAMask               		0x00000f00
++#define		bHSSI_R2TDelay            		0xf8000000
++#define		bHSSI_T2RDelay            		0xf80000
++#define		bContTxHSSI               		0x400     //chane gain at continue Tx
++#define		bIGFromCCK                		0x200
++#define		bAGCAddress               		0x3f
++#define		bRxHPTx                   			0x7000
++#define		bRxHPT2R                  			0x38000
++#define		bRxHPCCKIni               		0xc0000
++#define		bAGCTxCode                		0xc00000
++#define		bAGCRxCode                		0x300000
++
++#define		b3WireDataLength          		0x800	// Reg 0x820~84f rFPGA0_XA_HSSIParameter1
++#define		b3WireAddressLength       		0x400
++
++#define		b3WireRFPowerDown         		0x1	// Useless now
++//#define bHWSISelect               		0x8
++#define		b5GPAPEPolarity           		0x40000000
++#define		b2GPAPEPolarity           		0x80000000
++#define		bRFSW_TxDefaultAnt        		0x3
++#define		bRFSW_TxOptionAnt         		0x30
++#define		bRFSW_RxDefaultAnt        		0x300
++#define		bRFSW_RxOptionAnt         		0x3000
++#define		bRFSI_3WireData           		0x1
++#define		bRFSI_3WireClock          		0x2
++#define		bRFSI_3WireLoad           		0x4
++#define		bRFSI_3WireRW             		0x8
++#define		bRFSI_3Wire               			0xf
++
++#define		bRFSI_RFENV               		0x10	// Reg 0x870 rFPGA0_XAB_RFInterfaceSW
++
++#define		bRFSI_TRSW                		0x20	// Useless now
++#define		bRFSI_TRSWB               		0x40
++#define		bRFSI_ANTSW               		0x100
++#define		bRFSI_ANTSWB              		0x200
++#define		bRFSI_PAPE                			0x400
++#define		bRFSI_PAPE5G              		0x800 
++#define		bBandSelect               			0x1
++#define		bHTSIG2_GI                			0x80
++#define		bHTSIG2_Smoothing         		0x01
++#define		bHTSIG2_Sounding          		0x02
++#define		bHTSIG2_Aggreaton         		0x08
++#define		bHTSIG2_STBC              		0x30
++#define		bHTSIG2_AdvCoding         		0x40
++#define		bHTSIG2_NumOfHTLTF        	0x300
++#define		bHTSIG2_CRC8              		0x3fc
++#define		bHTSIG1_MCS               		0x7f
++#define		bHTSIG1_BandWidth         		0x80
++#define		bHTSIG1_HTLength          		0xffff
++#define		bLSIG_Rate                			0xf
++#define		bLSIG_Reserved            		0x10
++#define		bLSIG_Length              		0x1fffe
++#define		bLSIG_Parity              			0x20
++#define		bCCKRxPhase               		0x4
++
++#define		bLSSIReadAddress          		0x7f800000   // T65 RF
++
++#define		bLSSIReadEdge             		0x80000000   //LSSI "Read" edge signal
++
++#define		bLSSIReadBackData         		0xfffff		// T65 RF
++
++#define		bLSSIReadOKFlag           		0x1000	// Useless now
++#define		bCCKSampleRate            		0x8       //0: 44MHz, 1:88MHz       		
++#define		bRegulator0Standby        		0x1
++#define		bRegulatorPLLStandby      		0x2
++#define		bRegulator1Standby        		0x4
++#define		bPLLPowerUp               		0x8
++#define		bDPLLPowerUp              		0x10
++#define		bDA10PowerUp              		0x20
++#define		bAD7PowerUp               		0x200
++#define		bDA6PowerUp               		0x2000
++#define		bXtalPowerUp              		0x4000
++#define		b40MDClkPowerUP           		0x8000
++#define		bDA6DebugMode             		0x20000
++#define		bDA6Swing                 			0x380000
++
++#define		bADClkPhase               		0x4000000	// Reg 0x880 rFPGA0_AnalogParameter1 20/40 CCK support switch 40/80 BB MHZ
++
++#define		b80MClkDelay              		0x18000000	// Useless
++#define		bAFEWatchDogEnable        		0x20000000
++
++#define		bXtalCap01                			0xc0000000	// Reg 0x884 rFPGA0_AnalogParameter2 Crystal cap
++#define		bXtalCap23                			0x3
++#define		bXtalCap92x					0x0f000000
++#define 		bXtalCap                			0x0f000000
++
++#define		bIntDifClkEnable          		0x400	// Useless
++#define		bExtSigClkEnable         	 	0x800
++#define		bBandgapMbiasPowerUp      	0x10000
++#define		bAD11SHGain               		0xc0000
++#define		bAD11InputRange           		0x700000
++#define		bAD11OPCurrent            		0x3800000
++#define		bIPathLoopback            		0x4000000
++#define		bQPathLoopback            		0x8000000
++#define		bAFELoopback              		0x10000000
++#define		bDA10Swing                		0x7e0
++#define		bDA10Reverse              		0x800
++#define		bDAClkSource              		0x1000
++#define		bAD7InputRange            		0x6000
++#define		bAD7Gain                  			0x38000
++#define		bAD7OutputCMMode          		0x40000
++#define		bAD7InputCMMode           		0x380000
++#define		bAD7Current               			0xc00000
++#define		bRegulatorAdjust          		0x7000000
++#define		bAD11PowerUpAtTx          		0x1
++#define		bDA10PSAtTx               		0x10
++#define		bAD11PowerUpAtRx          		0x100
++#define		bDA10PSAtRx               		0x1000       		
++#define		bCCKRxAGCFormat           		0x200       		
++#define		bPSDFFTSamplepPoint       		0xc000
++#define		bPSDAverageNum            		0x3000
++#define		bIQPathControl            		0xc00
++#define		bPSDFreq                  			0x3ff
++#define		bPSDAntennaPath           		0x30
++#define		bPSDIQSwitch              		0x40
++#define		bPSDRxTrigger             		0x400000
++#define		bPSDTxTrigger             		0x80000000
++#define		bPSDSineToneScale        		0x7f000000
++#define		bPSDReport                			0xffff
++
++// 3. Page9(0x900)
++#define		bOFDMTxSC                 		0x30000000	// Useless
++#define		bCCKTxOn                  			0x1
++#define		bOFDMTxOn                 		0x2
++#define		bDebugPage                		0xfff  //reset debug page and also HWord, LWord
++#define		bDebugItem                		0xff   //reset debug page and LWord
++#define		bAntL              	       		0x10
++#define		bAntNonHT           	      			0x100
++#define		bAntHT1               			0x1000
++#define		bAntHT2                   			0x10000
++#define		bAntHT1S1                 			0x100000
++#define		bAntNonHTS1               		0x1000000
++
++// 4. PageA(0xA00)
++#define		bCCKBBMode				0x3	// Useless
++#define		bCCKTxPowerSaving		0x80
++#define		bCCKRxPowerSaving		0x40
++
++#define		bCCKSideBand			0x10	// Reg 0xa00 rCCK0_System 20/40 switch
++
++#define		bCCKScramble			0x8	// Useless
++#define		bCCKAntDiversity		0x8000
++#define		bCCKCarrierRecovery		0x4000
++#define		bCCKTxRate				0x3000
++#define		bCCKDCCancel			0x0800
++#define		bCCKISICancel			0x0400
++#define		bCCKMatchFilter			0x0200
++#define		bCCKEqualizer			0x0100
++#define		bCCKPreambleDetect		0x800000
++#define		bCCKFastFalseCCA		0x400000
++#define		bCCKChEstStart			0x300000
++#define		bCCKCCACount			0x080000
++#define		bCCKcs_lim				0x070000
++#define		bCCKBistMode			0x80000000
++#define		bCCKCCAMask			0x40000000
++#define		bCCKTxDACPhase		0x4
++#define		bCCKRxADCPhase		0x20000000   //r_rx_clk
++#define		bCCKr_cp_mode0		0x0100
++#define		bCCKTxDCOffset			0xf0
++#define		bCCKRxDCOffset			0xf
++#define		bCCKCCAMode			0xc000
++#define		bCCKFalseCS_lim			0x3f00
++#define		bCCKCS_ratio			0xc00000
++#define		bCCKCorgBit_sel			0x300000
++#define		bCCKPD_lim				0x0f0000
++#define		bCCKNewCCA			0x80000000
++#define		bCCKRxHPofIG			0x8000
++#define		bCCKRxIG				0x7f00
++#define		bCCKLNAPolarity			0x800000
++#define		bCCKRx1stGain			0x7f0000
++#define		bCCKRFExtend			0x20000000 //CCK Rx Iinital gain polarity
++#define		bCCKRxAGCSatLevel		0x1f000000
++#define		bCCKRxAGCSatCount		0xe0
++#define		bCCKRxRFSettle			0x1f       //AGCsamp_dly
++#define		bCCKFixedRxAGC			0x8000
++//#define bCCKRxAGCFormat         	 	0x4000   //remove to HSSI register 0x824
++#define		bCCKAntennaPolarity		0x2000
++#define		bCCKTxFilterType		0x0c00
++#define		bCCKRxAGCReportType	0x0300
++#define		bCCKRxDAGCEn			0x80000000
++#define		bCCKRxDAGCPeriod		0x20000000
++#define		bCCKRxDAGCSatLevel		0x1f000000
++#define		bCCKTimingRecovery		0x800000
++#define		bCCKTxC0				0x3f0000
++#define		bCCKTxC1				0x3f000000
++#define		bCCKTxC2				0x3f
++#define		bCCKTxC3				0x3f00
++#define		bCCKTxC4				0x3f0000
++#define		bCCKTxC5				0x3f000000
++#define		bCCKTxC6				0x3f
++#define		bCCKTxC7				0x3f00
++#define		bCCKDebugPort			0xff0000
++#define		bCCKDACDebug			0x0f000000
++#define		bCCKFalseAlarmEnable	0x8000
++#define		bCCKFalseAlarmRead		0x4000
++#define		bCCKTRSSI				0x7f
++#define		bCCKRxAGCReport		0xfe
++#define		bCCKRxReport_AntSel	0x80000000
++#define		bCCKRxReport_MFOff		0x40000000
++#define		bCCKRxRxReport_SQLoss	0x20000000
++#define		bCCKRxReport_Pktloss	0x10000000
++#define		bCCKRxReport_Lockedbit	0x08000000
++#define		bCCKRxReport_RateError	0x04000000
++#define		bCCKRxReport_RxRate	0x03000000
++#define		bCCKRxFACounterLower	0xff
++#define		bCCKRxFACounterUpper	0xff000000
++#define		bCCKRxHPAGCStart		0xe000
++#define		bCCKRxHPAGCFinal		0x1c00       		
++#define		bCCKRxFalseAlarmEnable	0x8000
++#define		bCCKFACounterFreeze	0x4000       		
++#define		bCCKTxPathSel			0x10000000
++#define		bCCKDefaultRxPath		0xc000000
++#define		bCCKOptionRxPath		0x3000000
++
++// 5. PageC(0xC00)
++#define		bNumOfSTF				0x3	// Useless
++#define		bShift_L					0xc0
++#define		bGI_TH					0xc
++#define		bRxPathA				0x1
++#define		bRxPathB				0x2
++#define		bRxPathC				0x4
++#define		bRxPathD				0x8
++#define		bTxPathA				0x1
++#define		bTxPathB				0x2
++#define		bTxPathC				0x4
++#define		bTxPathD				0x8
++#define		bTRSSIFreq				0x200
++#define		bADCBackoff				0x3000
++#define		bDFIRBackoff			0xc000
++#define		bTRSSILatchPhase		0x10000
++#define		bRxIDCOffset			0xff
++#define		bRxQDCOffset			0xff00
++#define		bRxDFIRMode			0x1800000
++#define		bRxDCNFType			0xe000000
++#define		bRXIQImb_A				0x3ff
++#define		bRXIQImb_B				0xfc00
++#define		bRXIQImb_C				0x3f0000
++#define		bRXIQImb_D				0xffc00000
++#define		bDC_dc_Notch			0x60000
++#define		bRxNBINotch			0x1f000000
++#define		bPD_TH					0xf
++#define		bPD_TH_Opt2			0xc000
++#define		bPWED_TH				0x700
++#define		bIfMF_Win_L			0x800
++#define		bPD_Option				0x1000
++#define		bMF_Win_L				0xe000
++#define		bBW_Search_L			0x30000
++#define		bwin_enh_L				0xc0000
++#define		bBW_TH					0x700000
++#define		bED_TH2				0x3800000
++#define		bBW_option				0x4000000
++#define		bRatio_TH				0x18000000
++#define		bWindow_L				0xe0000000
++#define		bSBD_Option				0x1
++#define		bFrame_TH				0x1c
++#define		bFS_Option				0x60
++#define		bDC_Slope_check		0x80
++#define		bFGuard_Counter_DC_L	0xe00
++#define		bFrame_Weight_Short	0x7000
++#define		bSub_Tune				0xe00000
++#define		bFrame_DC_Length		0xe000000
++#define		bSBD_start_offset		0x30000000
++#define		bFrame_TH_2			0x7
++#define		bFrame_GI2_TH			0x38
++#define		bGI2_Sync_en			0x40
++#define		bSarch_Short_Early		0x300
++#define		bSarch_Short_Late		0xc00
++#define		bSarch_GI2_Late		0x70000
++#define		bCFOAntSum				0x1
++#define		bCFOAcc				0x2
++#define		bCFOStartOffset			0xc
++#define		bCFOLookBack			0x70
++#define		bCFOSumWeight			0x80
++#define		bDAGCEnable			0x10000
++#define		bTXIQImb_A				0x3ff
++#define		bTXIQImb_B				0xfc00
++#define		bTXIQImb_C				0x3f0000
++#define		bTXIQImb_D				0xffc00000
++#define		bTxIDCOffset			0xff
++#define		bTxQDCOffset			0xff00
++#define		bTxDFIRMode			0x10000
++#define		bTxPesudoNoiseOn		0x4000000
++#define		bTxPesudoNoise_A		0xff
++#define		bTxPesudoNoise_B		0xff00
++#define		bTxPesudoNoise_C		0xff0000
++#define		bTxPesudoNoise_D		0xff000000
++#define		bCCADropOption			0x20000
++#define		bCCADropThres			0xfff00000
++#define		bEDCCA_H				0xf
++#define		bEDCCA_L				0xf0
++#define		bLambda_ED			0x300
++#define		bRxInitialGain			0x7f
++#define		bRxAntDivEn				0x80
++#define		bRxAGCAddressForLNA	0x7f00
++#define		bRxHighPowerFlow		0x8000
++#define		bRxAGCFreezeThres		0xc0000
++#define		bRxFreezeStep_AGC1	0x300000
++#define		bRxFreezeStep_AGC2	0xc00000
++#define		bRxFreezeStep_AGC3	0x3000000
++#define		bRxFreezeStep_AGC0	0xc000000
++#define		bRxRssi_Cmp_En			0x10000000
++#define		bRxQuickAGCEn			0x20000000
++#define		bRxAGCFreezeThresMode	0x40000000
++#define		bRxOverFlowCheckType	0x80000000
++#define		bRxAGCShift				0x7f
++#define		bTRSW_Tri_Only			0x80
++#define		bPowerThres			0x300
++#define		bRxAGCEn				0x1
++#define		bRxAGCTogetherEn		0x2
++#define		bRxAGCMin				0x4
++#define		bRxHP_Ini				0x7
++#define		bRxHP_TRLNA			0x70
++#define		bRxHP_RSSI				0x700
++#define		bRxHP_BBP1				0x7000
++#define		bRxHP_BBP2				0x70000
++#define		bRxHP_BBP3				0x700000
++#define		bRSSI_H					0x7f0000     //the threshold for high power
++#define		bRSSI_Gen				0x7f000000   //the threshold for ant diversity
++#define		bRxSettle_TRSW			0x7
++#define		bRxSettle_LNA			0x38
++#define		bRxSettle_RSSI			0x1c0
++#define		bRxSettle_BBP			0xe00
++#define		bRxSettle_RxHP			0x7000
++#define		bRxSettle_AntSW_RSSI	0x38000
++#define		bRxSettle_AntSW		0xc0000
++#define		bRxProcessTime_DAGC	0x300000
++#define		bRxSettle_HSSI			0x400000
++#define		bRxProcessTime_BBPPW	0x800000
++#define		bRxAntennaPowerShift	0x3000000
++#define		bRSSITableSelect		0xc000000
++#define		bRxHP_Final				0x7000000
++#define		bRxHTSettle_BBP			0x7
++#define		bRxHTSettle_HSSI		0x8
++#define		bRxHTSettle_RxHP		0x70
++#define		bRxHTSettle_BBPPW		0x80
++#define		bRxHTSettle_Idle		0x300
++#define		bRxHTSettle_Reserved	0x1c00
++#define		bRxHTRxHPEn			0x8000
++#define		bRxHTAGCFreezeThres	0x30000
++#define		bRxHTAGCTogetherEn	0x40000
++#define		bRxHTAGCMin			0x80000
++#define		bRxHTAGCEn				0x100000
++#define		bRxHTDAGCEn			0x200000
++#define		bRxHTRxHP_BBP			0x1c00000
++#define		bRxHTRxHP_Final		0xe0000000
++#define		bRxPWRatioTH			0x3
++#define		bRxPWRatioEn			0x4
++#define		bRxMFHold				0x3800
++#define		bRxPD_Delay_TH1		0x38
++#define		bRxPD_Delay_TH2		0x1c0
++#define		bRxPD_DC_COUNT_MAX	0x600
++//#define bRxMF_Hold               0x3800
++#define		bRxPD_Delay_TH			0x8000
++#define		bRxProcess_Delay		0xf0000
++#define		bRxSearchrange_GI2_Early	0x700000
++#define		bRxFrame_Guard_Counter_L	0x3800000
++#define		bRxSGI_Guard_L			0xc000000
++#define		bRxSGI_Search_L		0x30000000
++#define		bRxSGI_TH				0xc0000000
++#define		bDFSCnt0				0xff
++#define		bDFSCnt1				0xff00
++#define		bDFSFlag				0xf0000       		
++#define		bMFWeightSum			0x300000
++#define		bMinIdxTH				0x7f000000       		
++#define		bDAFormat				0x40000       		
++#define		bTxChEmuEnable		0x01000000       		
++#define		bTRSWIsolation_A		0x7f
++#define		bTRSWIsolation_B		0x7f00
++#define		bTRSWIsolation_C		0x7f0000
++#define		bTRSWIsolation_D		0x7f000000       		
++#define		bExtLNAGain				0x7c00          
++
++// 6. PageE(0xE00)
++#define		bSTBCEn				0x4	// Useless
++#define		bAntennaMapping		0x10
++#define		bNss					0x20
++#define		bCFOAntSumD			0x200
++#define		bPHYCounterReset		0x8000000
++#define		bCFOReportGet			0x4000000
++#define		bOFDMContinueTx		0x10000000
++#define		bOFDMSingleCarrier		0x20000000
++#define		bOFDMSingleTone		0x40000000
++//#define bRxPath1                 0x01
++//#define bRxPath2                 0x02
++//#define bRxPath3                 0x04
++//#define bRxPath4                 0x08
++//#define bTxPath1                 0x10
++//#define bTxPath2                 0x20
++#define		bHTDetect			0x100
++#define		bCFOEn				0x10000
++#define		bCFOValue			0xfff00000
++#define		bSigTone_Re		0x3f
++#define		bSigTone_Im		0x7f00
++#define		bCounter_CCA		0xffff
++#define		bCounter_ParityFail	0xffff0000
++#define		bCounter_RateIllegal		0xffff
++#define		bCounter_CRC8Fail	0xffff0000
++#define		bCounter_MCSNoSupport	0xffff
++#define		bCounter_FastSync	0xffff
++#define		bShortCFO			0xfff
++#define		bShortCFOTLength	12   //total
++#define		bShortCFOFLength	11   //fraction
++#define		bLongCFO			0x7ff
++#define		bLongCFOTLength	11
++#define		bLongCFOFLength	11
++#define		bTailCFO			0x1fff
++#define		bTailCFOTLength		13
++#define		bTailCFOFLength		12       		
++#define		bmax_en_pwdB		0xffff
++#define		bCC_power_dB		0xffff0000
++#define		bnoise_pwdB		0xffff
++#define		bPowerMeasTLength	10
++#define		bPowerMeasFLength	3
++#define		bRx_HT_BW			0x1
++#define		bRxSC				0x6
++#define		bRx_HT				0x8       		
++#define		bNB_intf_det_on		0x1
++#define		bIntf_win_len_cfg	0x30
++#define		bNB_Intf_TH_cfg		0x1c0       		
++#define		bRFGain				0x3f
++#define		bTableSel			0x40
++#define		bTRSW				0x80       		
++#define		bRxSNR_A			0xff
++#define		bRxSNR_B			0xff00
++#define		bRxSNR_C			0xff0000
++#define		bRxSNR_D			0xff000000
++#define		bSNREVMTLength		8
++#define		bSNREVMFLength		1       		
++#define		bCSI1st				0xff
++#define		bCSI2nd				0xff00
++#define		bRxEVM1st			0xff0000
++#define		bRxEVM2nd			0xff000000       		
++#define		bSIGEVM			0xff
++#define		bPWDB				0xff00
++#define		bSGIEN				0x10000
++       		
++#define		bSFactorQAM1		0xf	// Useless
++#define		bSFactorQAM2		0xf0
++#define		bSFactorQAM3		0xf00
++#define		bSFactorQAM4		0xf000
++#define		bSFactorQAM5		0xf0000
++#define		bSFactorQAM6		0xf0000
++#define		bSFactorQAM7		0xf00000
++#define		bSFactorQAM8		0xf000000
++#define		bSFactorQAM9		0xf0000000
++#define		bCSIScheme			0x100000
++       		
++#define		bNoiseLvlTopSet		0x3	// Useless
++#define		bChSmooth			0x4
++#define		bChSmoothCfg1		0x38
++#define		bChSmoothCfg2		0x1c0
++#define		bChSmoothCfg3		0xe00
++#define		bChSmoothCfg4		0x7000
++#define		bMRCMode			0x800000
++#define		bTHEVMCfg			0x7000000
++       		
++#define		bLoopFitType		0x1	// Useless
++#define		bUpdCFO			0x40
++#define		bUpdCFOOffData		0x80
++#define		bAdvUpdCFO			0x100
++#define		bAdvTimeCtrl		0x800
++#define		bUpdClko			0x1000
++#define		bFC					0x6000
++#define		bTrackingMode		0x8000
++#define		bPhCmpEnable		0x10000
++#define		bUpdClkoLTF		0x20000
++#define		bComChCFO			0x40000
++#define		bCSIEstiMode		0x80000
++#define		bAdvUpdEqz			0x100000
++#define		bUChCfg				0x7000000
++#define		bUpdEqz			0x8000000
++
++//Rx Pseduo noise
++#define		bRxPesudoNoiseOn		0x20000000	// Useless
++#define		bRxPesudoNoise_A		0xff
++#define		bRxPesudoNoise_B		0xff00
++#define		bRxPesudoNoise_C		0xff0000
++#define		bRxPesudoNoise_D		0xff000000
++#define		bPesudoNoiseState_A	0xffff
++#define		bPesudoNoiseState_B	0xffff0000
++#define		bPesudoNoiseState_C	0xffff
++#define		bPesudoNoiseState_D	0xffff0000
++
++//7. RF Register
++//Zebra1
++#define		bZebra1_HSSIEnable		0x8		// Useless
++#define		bZebra1_TRxControl		0xc00
++#define		bZebra1_TRxGainSetting	0x07f
++#define		bZebra1_RxCorner		0xc00
++#define		bZebra1_TxChargePump	0x38
++#define		bZebra1_RxChargePump	0x7
++#define		bZebra1_ChannelNum	0xf80
++#define		bZebra1_TxLPFBW		0x400
++#define		bZebra1_RxLPFBW		0x600
++
++//Zebra4
++#define		bRTL8256RegModeCtrl1	0x100	// Useless
++#define		bRTL8256RegModeCtrl0	0x40
++#define		bRTL8256_TxLPFBW		0x18
++#define		bRTL8256_RxLPFBW		0x600
++
++//RTL8258
++#define		bRTL8258_TxLPFBW		0xc	// Useless
++#define		bRTL8258_RxLPFBW		0xc00
++#define		bRTL8258_RSSILPFBW	0xc0
++
++
++//
++// Other Definition
++//
++
++//byte endable for sb_write
++#define		bByte0				0x1	// Useless
++#define		bByte1				0x2
++#define		bByte2				0x4
++#define		bByte3				0x8
++#define		bWord0				0x3
++#define		bWord1				0xc
++#define		bDWord				0xf
++
++//for PutRegsetting & GetRegSetting BitMask
++#define		bMaskByte0			0xff	// Reg 0xc50 rOFDM0_XAAGCCore~0xC6f
++#define		bMaskByte1			0xff00
++#define		bMaskByte2			0xff0000
++#define		bMaskByte3			0xff000000
++#define		bMaskHWord		0xffff0000
++#define		bMaskLWord			0x0000ffff
++#define		bMaskDWord		0xffffffff
++#define		bMask12Bits			0xfff
++#define		bMaskH4Bits			0xf0000000	
++#define		bMaskOFDM_D		0xffc00000
++#define		bMaskCCK			0x3f3f3f3f
++
++//for PutRFRegsetting & GetRFRegSetting BitMask
++//#define		bMask12Bits               	0xfffff	// RF Reg mask bits
++//#define		bMask20Bits               	0xfffff	// RF Reg mask bits T65 RF
++#define 		bRFRegOffsetMask		0xfffff
++//#define 		bRFRegOffsetMask		0xfff	
++
++//MAC0 will wirte PHY1
++#define	MAC0_ACCESS_PHY1	0x4000
++//MAC1 will wirte PHY0
++#define	MAC1_ACCESS_PHY0	0x2000
++
++#define		bEnable			0x1	// Useless
++#define		bDisable		0x0
++       		
++#define		LeftAntenna		0x0	// Useless
++#define		RightAntenna	0x1
++       		
++#define		tCheckTxStatus		500   //500ms // Useless
++#define		tUpdateRxCounter	100   //100ms
++       		
++#define		rateCCK		0	// Useless
++#define		rateOFDM	1
++#define		rateHT		2
++
++//define Register-End
++#define		bPMAC_End			0x1ff	// Useless
++#define		bFPGAPHY0_End		0x8ff
++#define		bFPGAPHY1_End		0x9ff
++#define		bCCKPHY0_End		0xaff
++#define		bOFDMPHY0_End		0xcff
++#define		bOFDMPHY1_End		0xdff
++
++//define max debug item in each debug page
++//#define bMaxItem_FPGA_PHY0        0x9
++//#define bMaxItem_FPGA_PHY1        0x3
++//#define bMaxItem_PHY_11B          0x16
++//#define bMaxItem_OFDM_PHY0        0x29
++//#define bMaxItem_OFDM_PHY1        0x0
++
++#define		bPMACControl		0x0		// Useless
++#define		bWMACControl		0x1
++#define		bWNICControl		0x2
++       		
++#define		PathA			0x0	// Useless
++#define		PathB			0x1
++#define		PathC			0x2
++#define		PathD			0x3
++
++/*--------------------------Define Parameters-------------------------------*/
++
++
++#endif	//__INC_HAL8192SPHYREG_H
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/Hal8192DUHWImg.h b/drivers/net/wireless/rtl8192cu/include/Hal8192DUHWImg.h
+new file mode 100755
+index 0000000..d6c66d9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/Hal8192DUHWImg.h
+@@ -0,0 +1,66 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8192DU_FW_IMG_H
++#define __INC_HAL8192DU_FW_IMG_H
++
++#include <basic_types.h>
++
++/*Created on  2011/11/11,  8: 8*/
++
++#define Rtl8192DUImgArrayLength 31452
++extern const u8 Rtl8192DUFwImgArray[Rtl8192DUImgArrayLength];
++#define Rtl8192DUMainArrayLength 1
++extern const u8 Rtl8192DUFwMainArray[Rtl8192DUMainArrayLength];
++#define Rtl8192DUDataArrayLength 1
++extern const u8 Rtl8192DUFwDataArray[Rtl8192DUDataArrayLength];
++#define Rtl8192DUPHY_REG_2TArrayLength 372
++extern const u32 Rtl8192DUPHY_REG_2TArray[Rtl8192DUPHY_REG_2TArrayLength];
++#define Rtl8192DUPHY_REG_1TArrayLength 1
++extern const u32 Rtl8192DUPHY_REG_1TArray[Rtl8192DUPHY_REG_1TArrayLength];
++#define Rtl8192DUPHY_REG_Array_PGLength 624
++extern const u32 Rtl8192DUPHY_REG_Array_PG[Rtl8192DUPHY_REG_Array_PGLength];
++#define Rtl8192DUPHY_REG_Array_MPLength 14
++extern const u32 Rtl8192DUPHY_REG_Array_MP[Rtl8192DUPHY_REG_Array_MPLength];
++#define Rtl8192DURadioA_2TArrayLength 378
++extern const u32 Rtl8192DURadioA_2TArray[Rtl8192DURadioA_2TArrayLength];
++#define Rtl8192DURadioB_2TArrayLength 384
++extern const u32 Rtl8192DURadioB_2TArray[Rtl8192DURadioB_2TArrayLength];
++#define Rtl8192DURadioA_1TArrayLength 1
++extern const u32 Rtl8192DURadioA_1TArray[Rtl8192DURadioA_1TArrayLength];
++#define Rtl8192DURadioB_1TArrayLength 1
++extern const u32 Rtl8192DURadioB_1TArray[Rtl8192DURadioB_1TArrayLength];
++#define Rtl8192DURadioA_2T_intPAArrayLength 378
++extern const u32 Rtl8192DURadioA_2T_intPAArray[Rtl8192DURadioA_2T_intPAArrayLength];
++#define Rtl8192DURadioB_2T_intPAArrayLength 384
++extern const u32 Rtl8192DURadioB_2T_intPAArray[Rtl8192DURadioB_2T_intPAArrayLength];
++#define Rtl8192DUMAC_2T_ArrayLength 192
++extern const u32 Rtl8192DUMAC_2T_Array[Rtl8192DUMAC_2T_ArrayLength];
++#define Rtl8192DUAGCTAB_ArrayLength 386
++extern const u32 Rtl8192DUAGCTAB_Array[Rtl8192DUAGCTAB_ArrayLength];
++#define Rtl8192DUAGCTAB_5GArrayLength 194
++extern const u32 Rtl8192DUAGCTAB_5GArray[Rtl8192DUAGCTAB_5GArrayLength];
++#define Rtl8192DUAGCTAB_2GArrayLength 194
++extern const u32 Rtl8192DUAGCTAB_2GArray[Rtl8192DUAGCTAB_2GArrayLength];
++#define Rtl8192DUAGCTAB_2TArrayLength 1
++extern const u32 Rtl8192DUAGCTAB_2TArray[Rtl8192DUAGCTAB_2TArrayLength];
++#define Rtl8192DUAGCTAB_1TArrayLength 1
++extern const u32 Rtl8192DUAGCTAB_1TArray[Rtl8192DUAGCTAB_1TArrayLength];
++
++#endif //__INC_HAL8192CU_FW_IMG_H
+diff --git a/drivers/net/wireless/rtl8192cu/include/Hal8192DUHWImg_wowlan.h b/drivers/net/wireless/rtl8192cu/include/Hal8192DUHWImg_wowlan.h
+new file mode 100755
+index 0000000..cc27a77
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/Hal8192DUHWImg_wowlan.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8192DU_FW_IMG_WOWLAN_H
++#define __INC_HAL8192DU_FW_IMG_WOWLAN_H
++
++/*Created on  2011/11/ 8, 14:15*/
++
++
++#define DUWWImgArrayLength 24818
++extern u8 Rtl8192DUFwWWImgArray[DUWWImgArrayLength];
++
++#endif //__INC_HAL8192DU_FW_IMG_WOWLAN_H
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/HalPwrSeqCmd.h b/drivers/net/wireless/rtl8192cu/include/HalPwrSeqCmd.h
+new file mode 100755
+index 0000000..e5d151c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/HalPwrSeqCmd.h
+@@ -0,0 +1,137 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HALPWRSEQCMD_H__
++#define __HALPWRSEQCMD_H__
++
++#include <drv_types.h>
++
++/*---------------------------------------------*/
++//3 The value of cmd: 4 bits
++/*---------------------------------------------*/
++#define PWR_CMD_READ			0x00
++     // offset: the read register offset
++     // msk: the mask of the read value
++     // value: N/A, left by 0
++     // note: dirver shall implement this function by read & msk
++
++#define PWR_CMD_WRITE			0x01
++     // offset: the read register offset
++     // msk: the mask of the write bits
++     // value: write value
++     // note: driver shall implement this cmd by read & msk after write
++
++#define PWR_CMD_POLLING			0x02
++     // offset: the read register offset
++     // msk: the mask of the polled value
++     // value: the value to be polled, masked by the msd field.
++     // note: driver shall implement this cmd by
++     // do{
++     // if( (Read(offset) & msk) == (value & msk) )
++     // break;
++     // } while(not timeout);
++
++#define PWR_CMD_DELAY			0x03
++     // offset: the value to delay
++     // msk: N/A
++     // value: the unit of delay, 0: us, 1: ms
++
++#define PWR_CMD_END				0x04
++     // offset: N/A
++     // msk: N/A
++     // value: N/A
++
++/*---------------------------------------------*/
++//3 The value of base: 4 bits
++/*---------------------------------------------*/
++   // define the base address of each block
++#define PWR_BASEADDR_MAC		0x00
++#define PWR_BASEADDR_USB		0x01
++#define PWR_BASEADDR_PCIE		0x02
++#define PWR_BASEADDR_SDIO		0x03
++
++/*---------------------------------------------*/
++//3 The value of interface_msk: 4 bits
++/*---------------------------------------------*/
++#define	PWR_INTF_SDIO_MSK		BIT(0)
++#define	PWR_INTF_USB_MSK		BIT(1)
++#define	PWR_INTF_PCI_MSK		BIT(2)
++#define	PWR_INTF_ALL_MSK		(BIT(0)|BIT(1)|BIT(2)|BIT(3))
++
++/*---------------------------------------------*/
++//3 The value of fab_msk: 4 bits
++/*---------------------------------------------*/
++#define	PWR_FAB_TSMC_MSK		BIT(0)
++#define	PWR_FAB_UMC_MSK			BIT(1)
++#define	PWR_FAB_ALL_MSK			(BIT(0)|BIT(1)|BIT(2)|BIT(3))
++
++/*---------------------------------------------*/
++//3 The value of cut_msk: 8 bits
++/*---------------------------------------------*/
++#define	PWR_CUT_TESTCHIP_MSK	BIT(0)
++#define	PWR_CUT_A_MSK			BIT(1)
++#define	PWR_CUT_B_MSK			BIT(2)
++#define	PWR_CUT_C_MSK			BIT(3)
++#define	PWR_CUT_D_MSK			BIT(4)
++#define	PWR_CUT_E_MSK			BIT(5)
++#define	PWR_CUT_F_MSK			BIT(6)
++#define	PWR_CUT_G_MSK			BIT(7)
++#define	PWR_CUT_ALL_MSK			0xFF
++
++
++typedef enum _PWRSEQ_CMD_DELAY_UNIT_
++{
++	PWRSEQ_DELAY_US,
++	PWRSEQ_DELAY_MS,
++} PWRSEQ_DELAY_UNIT;
++
++typedef struct _WL_PWR_CFG_
++{
++	u16 offset;
++	u8 cut_msk;
++	u8 fab_msk:4;
++	u8 interface_msk:4;
++	u8 base:4;
++	u8 cmd:4;
++	u8 msk;
++	u8 value;
++} WLAN_PWR_CFG, *PWLAN_PWR_CFG;
++
++
++#define GET_PWR_CFG_OFFSET(__PWR_CMD)		__PWR_CMD.offset
++#define GET_PWR_CFG_CUT_MASK(__PWR_CMD)		__PWR_CMD.cut_msk
++#define GET_PWR_CFG_FAB_MASK(__PWR_CMD)		__PWR_CMD.fab_msk
++#define GET_PWR_CFG_INTF_MASK(__PWR_CMD)	__PWR_CMD.interface_msk
++#define GET_PWR_CFG_BASE(__PWR_CMD)			__PWR_CMD.base
++#define GET_PWR_CFG_CMD(__PWR_CMD)			__PWR_CMD.cmd
++#define GET_PWR_CFG_MASK(__PWR_CMD)			__PWR_CMD.msk
++#define GET_PWR_CFG_VALUE(__PWR_CMD)		__PWR_CMD.value
++
++
++//================================================================================
++//	Prototype of protected function.
++//================================================================================
++u8 HalPwrSeqCmdParsing(
++	PADAPTER		padapter,
++	u8				CutVersion,
++	u8				FabVersion,
++	u8				InterfaceType,
++	WLAN_PWR_CFG	PwrCfgCmd[]);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8192cu/include/autoconf.h b/drivers/net/wireless/rtl8192cu/include/autoconf.h
+new file mode 100755
+index 0000000..f62231b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/autoconf.h
+@@ -0,0 +1,336 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++/*
++ * Public  General Config
++ */
++#define AUTOCONF_INCLUDED
++#define RTL871X_MODULE_NAME "92CU"
++#define DRV_NAME "rtl8192cu"
++
++#define CONFIG_USB_HCI	1
++
++#define CONFIG_RTL8192C	1
++
++#define PLATFORM_LINUX	1
++
++//#define CONFIG_IOCTL_CFG80211 1
++#ifdef CONFIG_IOCTL_CFG80211
++	//#define RTW_USE_CFG80211_STA_EVENT /* Indecate new sta asoc through cfg80211_new_sta */
++	#define CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER
++	//#define CONFIG_DEBUG_CFG80211 1
++	//#define CONFIG_DRV_ISSUE_PROV_REQ // IOT FOR S2
++	#define CONFIG_SET_SCAN_DENY_TIMER
++#endif
++
++/*
++ * Internal  General Config
++ */
++//#define CONFIG_PWRCTRL
++//#define CONFIG_H2CLBK
++
++#define CONFIG_EMBEDDED_FWIMG	1
++//#define CONFIG_FILE_FWIMG
++
++#ifdef CONFIG_WAKE_ON_WLAN
++#define CONFIG_WOWLAN 1
++#endif //CONFIG_WAKE_ON_WLAN
++
++#define CONFIG_R871X_TEST	1
++
++#define CONFIG_XMIT_ACK
++#ifdef CONFIG_XMIT_ACK
++	#define CONFIG_XMIT_ACK_POLLING
++	#define CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++#endif
++
++#define CONFIG_80211N_HT	1
++
++#define CONFIG_RECV_REORDERING_CTRL	1
++
++//#define CONFIG_TCP_CSUM_OFFLOAD_RX	1
++
++//#define CONFIG_BEFORE_LINKED_DIG	
++//#define CONFIG_DRVEXT_MODULE	1
++
++#ifndef CONFIG_MP_INCLUDED
++	#define CONFIG_IPS	1
++	#ifdef CONFIG_IPS
++		//#define CONFIG_IPS_LEVEL_2	1 //enable this to set default IPS mode to IPS_LEVEL_2
++	#endif
++	
++	#define SUPPORT_HW_RFOFF_DETECTED	1
++
++	#define CONFIG_LPS	1
++	#define CONFIG_BT_COEXIST	1
++
++	//befor link
++	#define CONFIG_ANTENNA_DIVERSITY
++	
++	//after link
++	#ifdef CONFIG_ANTENNA_DIVERSITY
++		#define CONFIG_SW_ANTENNA_DIVERSITY	 
++		//#define CONFIG_HW_ANTENNA_DIVERSITY	
++	#endif
++
++	#define CONFIG_IOL
++#else 	//#ifndef CONFIG_MP_INCLUDED
++	#define CONFIG_MP_IWPRIV_SUPPORT	1
++#endif 	//#ifndef CONFIG_MP_INCLUDED
++
++#define CONFIG_AP_MODE	1
++#ifdef CONFIG_AP_MODE
++	#define CONFIG_NATIVEAP_MLME	1
++	#ifndef CONFIG_NATIVEAP_MLME
++		#define CONFIG_HOSTAPD_MLME	1
++	#endif			
++	#define CONFIG_FIND_BEST_CHANNEL	1
++	//#define CONFIG_NO_WIRELESS_HANDLERS	1
++#endif
++
++//	Added by Albert 20110314
++#define CONFIG_P2P	1
++#ifdef CONFIG_P2P
++	//Added by Albert 20110812
++	//The CONFIG_WFD is for supporting the Wi-Fi display
++	#define CONFIG_WFD
++	
++	#ifndef CONFIG_WIFI_TEST
++		#define CONFIG_P2P_REMOVE_GROUP_INFO
++	#endif
++	//#define CONFIG_DBG_P2P
++
++	//#define CONFIG_P2P_PS
++	//#define CONFIG_P2P_IPS
++
++	#define P2P_OP_CHECK_SOCIAL_CH
++		// Added comment by Borg 2013/06/21
++		// Issue:  Nexus 4 is hard to do miracast.
++		// Root Cause: After group formation, 
++		//			Nexus 4 is possible to be not at OP channel of Invitation Resp/Nego Confirm but at social channel. 
++		// Patch: While scan OP channel, 
++		//		 not only scan OP channel of Invitation Resp/Nego Confirm, 
++		//		 but also scan social channel(1, 6, 11)
++#endif
++
++//	Added by Kurt 20110511
++//#define CONFIG_TDLS	1
++#ifdef CONFIG_TDLS
++//	#ifndef CONFIG_WFD
++//		#define CONFIG_WFD	1
++//	#endif
++//	#define CONFIG_TDLS_AUTOSETUP			1
++//	#define CONFIG_TDLS_AUTOCHECKALIVE		1
++#endif
++
++#define CONFIG_SKB_COPY	1//for amsdu
++
++#define CONFIG_LED
++#ifdef CONFIG_LED
++	#define CONFIG_SW_LED
++	#ifdef CONFIG_SW_LED
++		//#define CONFIG_LED_HANDLED_BY_CMD_THREAD
++	#endif
++#endif // CONFIG_LED
++
++
++
++#define USB_INTERFERENCE_ISSUE // this should be checked in all usb interface
++#define CONFIG_GLOBAL_UI_PID
++
++#define CONFIG_LAYER2_ROAMING
++#define CONFIG_LAYER2_ROAMING_RESUME
++//#define CONFIG_ADAPTOR_INFO_CACHING_FILE // now just applied on 8192cu only, should make it general...
++//#define CONFIG_RESUME_IN_WORKQUEUE
++//#define CONFIG_SET_SCAN_DENY_TIMER
++#define CONFIG_LONG_DELAY_ISSUE
++#define CONFIG_NEW_SIGNAL_STAT_PROCESS
++//#define CONFIG_SIGNAL_DISPLAY_DBM //display RX signal with dbm
++#define RTW_NOTCH_FILTER 0 /* 0:Disable, 1:Enable */
++#define CONFIG_DEAUTH_BEFORE_CONNECT
++
++#ifdef CONFIG_IOL
++	#define CONFIG_IOL_LLT
++	#define CONFIG_IOL_MAC
++	#define CONFIG_IOL_BB_PHY_REG
++	#define CONFIG_IOL_BB_AGC_TAB
++	#define CONFIG_IOL_RF_RF90_PATH_A
++	#define CONFIG_IOL_RF_RF90_PATH_B
++#endif
++
++#define CONFIG_BR_EXT	1	// Enable NAT2.5 support for STA mode interface with a L2 Bridge
++#ifdef CONFIG_BR_EXT
++#define CONFIG_BR_EXT_BRNAME	"br0"
++#endif	// CONFIG_BR_EXT
++
++#define CONFIG_TX_MCAST2UNI	1	// Support IP multicast->unicast
++//#define CONFIG_DM_ADAPTIVITY
++//#define CONFIG_CHECK_AC_LIFETIME 1	// Check packet lifetime of 4 ACs.
++
++//#define CONFIG_CONCURRENT_MODE 1
++#ifdef CONFIG_CONCURRENT_MODE
++	#define CONFIG_TSF_RESET_OFFLOAD 1			// For 2 PORT TSF SYNC.
++	//#define CONFIG_HWPORT_SWAP				//Port0->Sec , Port1 -> Pri
++	//#define CONFIG_STA_MODE_SCAN_UNDER_AP_MODE
++	//#define CONFIG_MULTI_VIR_IFACES //besides primary&secondary interfaces, extend to support more interfaces
++#endif	// CONFIG_CONCURRENT_MODE
++
++#define CONFIG_80211D
++
++/*
++ * Interface  Related Config
++ */
++ 
++//#define CONFIG_USB_ONE_OUT_EP
++//#define CONFIG_USB_INTERRUPT_IN_PIPE	1
++
++#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++	#define CONFIG_USB_TX_AGGREGATION	1
++	#define CONFIG_USB_RX_AGGREGATION	1
++#endif
++
++#define CONFIG_PREALLOC_RECV_SKB	1
++//#define CONFIG_REDUCE_USB_TX_INT	1	// Trade-off: Improve performance, but may cause TX URBs blocked by USB Host/Bus driver on few platforms.
++//#define CONFIG_EASY_REPLACEMENT	1
++
++/* 
++ * CONFIG_USE_USB_BUFFER_ALLOC_XX uses Linux USB Buffer alloc API and is for Linux platform only now!
++ */
++//#define CONFIG_USE_USB_BUFFER_ALLOC_TX 1	// Trade-off: For TX path, improve stability on some platforms, but may cause performance degrade on other platforms.
++//#define CONFIG_USE_USB_BUFFER_ALLOC_RX 1	// For RX path
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++#undef CONFIG_PREALLOC_RECV_SKB
++#endif
++
++/* 
++ * USB VENDOR REQ BUFFER ALLOCATION METHOD
++ * if not set we'll use function local variable (stack memory)
++ */
++//#define CONFIG_USB_VENDOR_REQ_BUFFER_DYNAMIC_ALLOCATE
++#define CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC
++
++#define CONFIG_USB_VENDOR_REQ_MUTEX
++#define CONFIG_VENDOR_REQ_RETRY
++
++//#define CONFIG_USB_SUPPORT_ASYNC_VDN_REQ 1
++
++
++/*
++ * HAL  Related Config
++ */
++
++#define RTL8192C_RX_PACKET_NO_INCLUDE_CRC	1
++
++#define SUPPORTED_BLOCK_IO
++
++
++
++#define RTL8192CU_FW_DOWNLOAD_ENABLE	1
++
++#define CONFIG_ONLY_ONE_OUT_EP_TO_LOW	0
++
++#define CONFIG_OUT_EP_WIFI_MODE	0
++
++#define ENABLE_USB_DROP_INCORRECT_OUT	0
++
++#define RTL8192CU_ASIC_VERIFICATION	0	// For ASIC verification.
++
++#define RTL8192CU_ADHOC_WORKAROUND_SETTING	1
++
++#define DISABLE_BB_RF	0
++
++#define RTL8191C_FPGA_NETWORKTYPE_ADHOC 0
++
++#ifdef CONFIG_MP_INCLUDED
++	#define MP_DRIVER 1
++	#undef CONFIG_USB_TX_AGGREGATION
++	#undef CONFIG_USB_RX_AGGREGATION
++#else
++	#define MP_DRIVER 0
++#endif
++
++
++/*
++ * Platform  Related Config
++ */
++#ifdef CONFIG_PLATFORM_MN10300
++#define CONFIG_SPECIAL_SETTING_FOR_FUNAI_TV
++
++#if	defined (CONFIG_SW_ANTENNA_DIVERSITY)
++	#undef CONFIG_SW_ANTENNA_DIVERSITY
++	#define CONFIG_HW_ANTENNA_DIVERSITY
++#endif
++
++#endif
++
++#ifdef CONFIG_WISTRON_PLATFORM
++
++#endif
++
++#ifdef CONFIG_PLATFORM_TI_DM365
++#define CONFIG_USE_USB_BUFFER_ALLOC_RX 1
++#endif
++
++#define CONFIG_ATTEMPT_TO_FIX_AP_BEACON_ERROR
++
++/*
++ * Debug  Related Config
++ */
++//#define CONFIG_DEBUG_RTL871X
++
++#define DBG	0
++//#define CONFIG_DEBUG_RTL819X
++
++//#define CONFIG_PROC_DEBUG	1
++
++//#define DBG_IO
++//#define DBG_DELAY_OS
++//#define DBG_MEM_ALLOC
++//#define DBG_IOCTL
++
++//#define DBG_TX
++//#define DBG_XMIT_BUF
++//#define DBG_TX_DROP_FRAME
++
++//#define DBG_RX_DROP_FRAME
++//#define DBG_RX_SEQ
++//#define DBG_RX_SIGNAL_DISPLAY_PROCESSING
++//#define DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED "jeff-ap"
++
++//#define DBG_EXPIRATION_CHK
++
++
++//#define DBG_SHOW_MCUFWDL_BEFORE_51_ENABLE
++//#define DBG_ROAMING_TEST
++
++//#define DBG_HAL_INIT_PROFILING
++
++//#define DBG_MEMORY_LEAK	1
++
++#define DBG_CONFIG_ERROR_DETECT
++//#define DBG_CONFIG_ERROR_RESET
++
++//TX use 1 urb
++//#define CONFIG_SINGLE_XMIT_BUF
++//RX use 1 urb
++//#define CONFIG_SINGLE_RECV_BUF
++
++//turn off power tracking when traffic is busy
++//#define CONFIG_BUSY_TRAFFIC_SKIP_PWR_TRACK
+diff --git a/drivers/net/wireless/rtl8192cu/include/basic_types.h b/drivers/net/wireless/rtl8192cu/include/basic_types.h
+new file mode 100755
+index 0000000..f76e68f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/basic_types.h
+@@ -0,0 +1,321 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __BASIC_TYPES_H__
++#define __BASIC_TYPES_H__
++
++#include <drv_conf.h>
++
++
++#define SUCCESS	0
++#define FAIL	(-1)
++
++#ifndef TRUE
++	#define _TRUE	1
++#else
++	#define _TRUE	TRUE	
++#endif
++		
++#ifndef FALSE		
++	#define _FALSE	0
++#else
++	#define _FALSE	FALSE	
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++	typedef signed char s8;
++	typedef unsigned char u8;
++
++	typedef signed short s16;
++	typedef unsigned short u16;
++
++	typedef signed long s32;
++	typedef unsigned long u32;
++	
++	typedef unsigned int	uint;
++	typedef	signed int		sint;
++
++
++	typedef signed long long s64;
++	typedef unsigned long long u64;
++
++	#ifdef NDIS50_MINIPORT
++	
++		#define NDIS_MAJOR_VERSION       5
++		#define NDIS_MINOR_VERSION       0
++
++	#endif
++
++	#ifdef NDIS51_MINIPORT
++
++		#define NDIS_MAJOR_VERSION       5
++		#define NDIS_MINOR_VERSION       1
++
++	#endif
++
++	typedef NDIS_PROC proc_t;
++
++	typedef LONG atomic_t;
++
++#endif
++
++
++#ifdef PLATFORM_LINUX
++
++	#include <linux/types.h>
++	#define IN
++	#define OUT
++	#define VOID void
++	#define NDIS_OID uint
++	#define NDIS_STATUS uint
++
++	typedef	signed int sint;
++
++	#ifndef	PVOID
++	typedef void * PVOID;
++	//#define PVOID	(void *)
++	#endif
++
++        #define UCHAR u8
++	#define USHORT u16
++	#define UINT u32
++	#define ULONG u32	
++
++	typedef void (*proc_t)(void*);
++
++	typedef 	__kernel_size_t	SIZE_T;	
++	typedef	__kernel_ssize_t	SSIZE_T;
++	#define FIELD_OFFSET(s,field)	((SSIZE_T)&((s*)(0))->field)
++	
++#endif
++
++
++#ifdef PLATFORM_FREEBSD
++
++	typedef signed char s8;
++	typedef unsigned char u8;
++
++	typedef signed short s16;
++	typedef unsigned short u16;
++
++	typedef signed int s32;
++	typedef unsigned int u32;
++	
++	typedef unsigned int	uint;
++	typedef	signed int		sint;
++	typedef long atomic_t;
++
++	typedef signed long long s64;
++	typedef unsigned long long u64;
++	#define IN
++	#define OUT
++	#define VOID void
++	#define NDIS_OID uint
++	#define NDIS_STATUS uint
++	
++	#ifndef	PVOID
++	typedef void * PVOID;
++	//#define PVOID	(void *)
++	#endif
++	typedef u32 dma_addr_t;
++    #define UCHAR u8
++	#define USHORT u16
++	#define UINT u32
++	#define ULONG u32	
++
++	typedef void (*proc_t)(void*);
++  
++  typedef unsigned int __kernel_size_t;
++  typedef int __kernel_ssize_t;
++  
++	typedef 	__kernel_size_t	SIZE_T;	
++	typedef	__kernel_ssize_t	SSIZE_T;
++	#define FIELD_OFFSET(s,field)	((SSIZE_T)&((s*)(0))->field)
++	
++#endif
++
++#define MEM_ALIGNMENT_OFFSET	(sizeof (SIZE_T))
++#define MEM_ALIGNMENT_PADDING	(sizeof(SIZE_T) - 1)
++
++#define SIZE_PTR SIZE_T
++#define SSIZE_PTR SSIZE_T
++
++//port from fw by thomas
++// TODO: Belows are Sync from SD7-Driver. It is necessary to check correctness
++
++/*
++ *	Call endian free function when
++ *		1. Read/write packet content.
++ *		2. Before write integer to IO.
++ *		3. After read integer from IO.
++*/
++
++//
++// Byte Swapping routine.
++//
++#define EF1Byte	
++#define EF2Byte 	le16_to_cpu
++#define EF4Byte	le32_to_cpu
++
++//
++// Read LE format data from memory
++//
++#define ReadEF1Byte(_ptr)		EF1Byte(*((u8 *)(_ptr)))
++#define ReadEF2Byte(_ptr)		EF2Byte(*((u16 *)(_ptr)))
++#define ReadEF4Byte(_ptr)		EF4Byte(*((u32 *)(_ptr)))
++
++//
++// Write LE data to memory
++//
++#define WriteEF1Byte(_ptr, _val)	(*((u8 *)(_ptr)))=EF1Byte(_val)
++#define WriteEF2Byte(_ptr, _val)	(*((u16 *)(_ptr)))=EF2Byte(_val)
++#define WriteEF4Byte(_ptr, _val)	(*((u32 *)(_ptr)))=EF4Byte(_val)									
++
++//
++//	Example:
++//		BIT_LEN_MASK_32(0) => 0x00000000
++//		BIT_LEN_MASK_32(1) => 0x00000001
++//		BIT_LEN_MASK_32(2) => 0x00000003
++//		BIT_LEN_MASK_32(32) => 0xFFFFFFFF
++//
++#define BIT_LEN_MASK_32(__BitLen) \
++	(0xFFFFFFFF >> (32 - (__BitLen)))
++//
++//	Example:
++//		BIT_OFFSET_LEN_MASK_32(0, 2) => 0x00000003
++//		BIT_OFFSET_LEN_MASK_32(16, 2) => 0x00030000
++//
++#define BIT_OFFSET_LEN_MASK_32(__BitOffset, __BitLen) \
++	(BIT_LEN_MASK_32(__BitLen) << (__BitOffset)) 
++
++//
++//	Description:
++//		Return 4-byte value in host byte ordering from
++//		4-byte pointer in litten-endian system.
++//
++#define LE_P4BYTE_TO_HOST_4BYTE(__pStart) \
++	(EF4Byte(*((u32 *)(__pStart))))
++
++//
++//	Description:
++//		Translate subfield (continuous bits in little-endian) of 4-byte value in litten byte to
++//		4-byte value in host byte ordering.
++//
++#define LE_BITS_TO_4BYTE(__pStart, __BitOffset, __BitLen) \
++	( \
++		( LE_P4BYTE_TO_HOST_4BYTE(__pStart) >> (__BitOffset) ) \
++		& \
++		BIT_LEN_MASK_32(__BitLen) \
++	)
++
++//
++//	Description:
++//		Mask subfield (continuous bits in little-endian) of 4-byte value in litten byte oredering  
++//		and return the result in 4-byte value in host byte ordering.
++//
++#define LE_BITS_CLEARED_TO_4BYTE(__pStart, __BitOffset, __BitLen) \
++	( \
++		LE_P4BYTE_TO_HOST_4BYTE(__pStart) \
++		& \
++		( ~BIT_OFFSET_LEN_MASK_32(__BitOffset, __BitLen) ) \
++	)
++
++//
++//	Description:
++//		Set subfield of little-endian 4-byte value to specified value.	
++//
++#define SET_BITS_TO_LE_4BYTE(__pStart, __BitOffset, __BitLen, __Value) \
++	*((u32 *)(__pStart)) = \
++		EF4Byte( \
++			LE_BITS_CLEARED_TO_4BYTE(__pStart, __BitOffset, __BitLen) \
++			| \
++			( (((u32)__Value) & BIT_LEN_MASK_32(__BitLen)) << (__BitOffset) ) \
++		);
++
++		
++#define BIT_LEN_MASK_16(__BitLen) \
++		(0xFFFF >> (16 - (__BitLen)))
++		
++#define BIT_OFFSET_LEN_MASK_16(__BitOffset, __BitLen) \
++	(BIT_LEN_MASK_16(__BitLen) << (__BitOffset))
++	
++#define LE_P2BYTE_TO_HOST_2BYTE(__pStart) \
++	(EF2Byte(*((u16 *)(__pStart))))
++	
++#define LE_BITS_TO_2BYTE(__pStart, __BitOffset, __BitLen) \
++	( \
++		( LE_P2BYTE_TO_HOST_2BYTE(__pStart) >> (__BitOffset) ) \
++		& \
++		BIT_LEN_MASK_16(__BitLen) \
++	)
++	
++#define LE_BITS_CLEARED_TO_2BYTE(__pStart, __BitOffset, __BitLen) \
++	( \
++		LE_P2BYTE_TO_HOST_2BYTE(__pStart) \
++		& \
++		( ~BIT_OFFSET_LEN_MASK_16(__BitOffset, __BitLen) ) \
++	)
++
++#define SET_BITS_TO_LE_2BYTE(__pStart, __BitOffset, __BitLen, __Value) \
++	*((u16 *)(__pStart)) = \
++		EF2Byte( \
++			LE_BITS_CLEARED_TO_2BYTE(__pStart, __BitOffset, __BitLen) \
++			| \
++			( (((u16)__Value) & BIT_LEN_MASK_16(__BitLen)) << (__BitOffset) ) \
++		);
++			
++#define BIT_LEN_MASK_8(__BitLen) \
++		(0xFF >> (8 - (__BitLen)))
++
++#define BIT_OFFSET_LEN_MASK_8(__BitOffset, __BitLen) \
++	(BIT_LEN_MASK_8(__BitLen) << (__BitOffset))
++
++#define LE_P1BYTE_TO_HOST_1BYTE(__pStart) \
++	(EF1Byte(*((u8 *)(__pStart))))
++
++#define LE_BITS_TO_1BYTE(__pStart, __BitOffset, __BitLen) \
++	( \
++		( LE_P1BYTE_TO_HOST_1BYTE(__pStart) >> (__BitOffset) ) \
++		& \
++		BIT_LEN_MASK_8(__BitLen) \
++	)
++
++#define LE_BITS_CLEARED_TO_1BYTE(__pStart, __BitOffset, __BitLen) \
++	( \
++		LE_P1BYTE_TO_HOST_1BYTE(__pStart) \
++		& \
++		( ~BIT_OFFSET_LEN_MASK_8(__BitOffset, __BitLen) ) \
++	)
++
++#define SET_BITS_TO_LE_1BYTE(__pStart, __BitOffset, __BitLen, __Value) \
++	*((u8 *)(__pStart)) = \
++		EF1Byte( \
++			LE_BITS_CLEARED_TO_1BYTE(__pStart, __BitOffset, __BitLen) \
++			| \
++			( (((u8)__Value) & BIT_LEN_MASK_8(__BitLen)) << (__BitOffset) ) \
++		);
++
++// Get the N-bytes aligment offset from the current length
++#define N_BYTE_ALIGMENT(__Value, __Aligment) ((__Aligment == 1) ? (__Value) : (((__Value + __Aligment - 1) / __Aligment) * __Aligment))
++
++typedef unsigned char	BOOLEAN,*PBOOLEAN;
++
++#endif //__BASIC_TYPES_H__
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/byteorder/big_endian.h b/drivers/net/wireless/rtl8192cu/include/byteorder/big_endian.h
+new file mode 100755
+index 0000000..eca68a6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/byteorder/big_endian.h
+@@ -0,0 +1,87 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _LINUX_BYTEORDER_BIG_ENDIAN_H
++#define _LINUX_BYTEORDER_BIG_ENDIAN_H
++
++#ifndef __BIG_ENDIAN
++#define __BIG_ENDIAN 4321
++#endif
++#ifndef __BIG_ENDIAN_BITFIELD
++#define __BIG_ENDIAN_BITFIELD
++#endif
++
++#include <byteorder/swab.h>
++
++#define __constant_htonl(x) ((__u32)(x))
++#define __constant_ntohl(x) ((__u32)(x))
++#define __constant_htons(x) ((__u16)(x))
++#define __constant_ntohs(x) ((__u16)(x))
++#define __constant_cpu_to_le64(x) ___constant_swab64((x))
++#define __constant_le64_to_cpu(x) ___constant_swab64((x))
++#define __constant_cpu_to_le32(x) ___constant_swab32((x))
++#define __constant_le32_to_cpu(x) ___constant_swab32((x))
++#define __constant_cpu_to_le16(x) ___constant_swab16((x))
++#define __constant_le16_to_cpu(x) ___constant_swab16((x))
++#define __constant_cpu_to_be64(x) ((__u64)(x))
++#define __constant_be64_to_cpu(x) ((__u64)(x))
++#define __constant_cpu_to_be32(x) ((__u32)(x))
++#define __constant_be32_to_cpu(x) ((__u32)(x))
++#define __constant_cpu_to_be16(x) ((__u16)(x))
++#define __constant_be16_to_cpu(x) ((__u16)(x))
++#define __cpu_to_le64(x) __swab64((x))
++#define __le64_to_cpu(x) __swab64((x))
++#define __cpu_to_le32(x) __swab32((x))
++#define __le32_to_cpu(x) __swab32((x))
++#define __cpu_to_le16(x) __swab16((x))
++#define __le16_to_cpu(x) __swab16((x))
++#define __cpu_to_be64(x) ((__u64)(x))
++#define __be64_to_cpu(x) ((__u64)(x))
++#define __cpu_to_be32(x) ((__u32)(x))
++#define __be32_to_cpu(x) ((__u32)(x))
++#define __cpu_to_be16(x) ((__u16)(x))
++#define __be16_to_cpu(x) ((__u16)(x))
++#define __cpu_to_le64p(x) __swab64p((x))
++#define __le64_to_cpup(x) __swab64p((x))
++#define __cpu_to_le32p(x) __swab32p((x))
++#define __le32_to_cpup(x) __swab32p((x))
++#define __cpu_to_le16p(x) __swab16p((x))
++#define __le16_to_cpup(x) __swab16p((x))
++#define __cpu_to_be64p(x) (*(__u64*)(x))
++#define __be64_to_cpup(x) (*(__u64*)(x))
++#define __cpu_to_be32p(x) (*(__u32*)(x))
++#define __be32_to_cpup(x) (*(__u32*)(x))
++#define __cpu_to_be16p(x) (*(__u16*)(x))
++#define __be16_to_cpup(x) (*(__u16*)(x))
++#define __cpu_to_le64s(x) __swab64s((x))
++#define __le64_to_cpus(x) __swab64s((x))
++#define __cpu_to_le32s(x) __swab32s((x))
++#define __le32_to_cpus(x) __swab32s((x))
++#define __cpu_to_le16s(x) __swab16s((x))
++#define __le16_to_cpus(x) __swab16s((x))
++#define __cpu_to_be64s(x) do {} while (0)
++#define __be64_to_cpus(x) do {} while (0)
++#define __cpu_to_be32s(x) do {} while (0)
++#define __be32_to_cpus(x) do {} while (0)
++#define __cpu_to_be16s(x) do {} while (0)
++#define __be16_to_cpus(x) do {} while (0)
++
++#include <byteorder/generic.h>
++
++#endif /* _LINUX_BYTEORDER_BIG_ENDIAN_H */
+diff --git a/drivers/net/wireless/rtl8192cu/include/byteorder/generic.h b/drivers/net/wireless/rtl8192cu/include/byteorder/generic.h
+new file mode 100755
+index 0000000..7c8d4d7
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/byteorder/generic.h
+@@ -0,0 +1,212 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _LINUX_BYTEORDER_GENERIC_H
++#define _LINUX_BYTEORDER_GENERIC_H
++
++/*
++ * linux/byteorder_generic.h
++ * Generic Byte-reordering support
++ *
++ * Francois-Rene Rideau <fare@tunes.org> 19970707
++ *    gathered all the good ideas from all asm-foo/byteorder.h into one file,
++ *    cleaned them up.
++ *    I hope it is compliant with non-GCC compilers.
++ *    I decided to put __BYTEORDER_HAS_U64__ in byteorder.h,
++ *    because I wasn't sure it would be ok to put it in types.h
++ *    Upgraded it to 2.1.43
++ * Francois-Rene Rideau <fare@tunes.org> 19971012
++ *    Upgraded it to 2.1.57
++ *    to please Linus T., replaced huge #ifdef's between little/big endian
++ *    by nestedly #include'd files.
++ * Francois-Rene Rideau <fare@tunes.org> 19971205
++ *    Made it to 2.1.71; now a facelift:
++ *    Put files under include/linux/byteorder/
++ *    Split swab from generic support.
++ *
++ * TODO:
++ *   = Regular kernel maintainers could also replace all these manual
++ *    byteswap macros that remain, disseminated among drivers,
++ *    after some grep or the sources...
++ *   = Linus might want to rename all these macros and files to fit his taste,
++ *    to fit his personal naming scheme.
++ *   = it seems that a few drivers would also appreciate
++ *    nybble swapping support...
++ *   = every architecture could add their byteswap macro in asm/byteorder.h
++ *    see how some architectures already do (i386, alpha, ppc, etc)
++ *   = cpu_to_beXX and beXX_to_cpu might some day need to be well
++ *    distinguished throughout the kernel. This is not the case currently,
++ *    since little endian, big endian, and pdp endian machines needn't it.
++ *    But this might be the case for, say, a port of Linux to 20/21 bit
++ *    architectures (and F21 Linux addict around?).
++ */
++
++/*
++ * The following macros are to be defined by <asm/byteorder.h>:
++ *
++ * Conversion of long and short int between network and host format
++ *	ntohl(__u32 x)
++ *	ntohs(__u16 x)
++ *	htonl(__u32 x)
++ *	htons(__u16 x)
++ * It seems that some programs (which? where? or perhaps a standard? POSIX?)
++ * might like the above to be functions, not macros (why?).
++ * if that's true, then detect them, and take measures.
++ * Anyway, the measure is: define only ___ntohl as a macro instead,
++ * and in a separate file, have
++ * unsigned long inline ntohl(x){return ___ntohl(x);}
++ *
++ * The same for constant arguments
++ *	__constant_ntohl(__u32 x)
++ *	__constant_ntohs(__u16 x)
++ *	__constant_htonl(__u32 x)
++ *	__constant_htons(__u16 x)
++ *
++ * Conversion of XX-bit integers (16- 32- or 64-)
++ * between native CPU format and little/big endian format
++ * 64-bit stuff only defined for proper architectures
++ *	cpu_to_[bl]eXX(__uXX x)
++ *	[bl]eXX_to_cpu(__uXX x)
++ *
++ * The same, but takes a pointer to the value to convert
++ *	cpu_to_[bl]eXXp(__uXX x)
++ *	[bl]eXX_to_cpup(__uXX x)
++ *
++ * The same, but change in situ
++ *	cpu_to_[bl]eXXs(__uXX x)
++ *	[bl]eXX_to_cpus(__uXX x)
++ *
++ * See asm-foo/byteorder.h for examples of how to provide
++ * architecture-optimized versions
++ *
++ */
++
++
++#if defined(PLATFORM_LINUX) || defined(PLATFORM_WINDOWS) || defined(PLATFORM_MPIXEL) || defined(PLATFORM_FREEBSD)
++/*
++ * inside the kernel, we can use nicknames;
++ * outside of it, we must avoid POSIX namespace pollution...
++ */
++#define cpu_to_le64 __cpu_to_le64
++#define le64_to_cpu __le64_to_cpu
++#define cpu_to_le32 __cpu_to_le32
++#define le32_to_cpu __le32_to_cpu
++#define cpu_to_le16 __cpu_to_le16
++#define le16_to_cpu __le16_to_cpu
++#define cpu_to_be64 __cpu_to_be64
++#define be64_to_cpu __be64_to_cpu
++#define cpu_to_be32 __cpu_to_be32
++#define be32_to_cpu __be32_to_cpu
++#define cpu_to_be16 __cpu_to_be16
++#define be16_to_cpu __be16_to_cpu
++#define cpu_to_le64p __cpu_to_le64p
++#define le64_to_cpup __le64_to_cpup
++#define cpu_to_le32p __cpu_to_le32p
++#define le32_to_cpup __le32_to_cpup
++#define cpu_to_le16p __cpu_to_le16p
++#define le16_to_cpup __le16_to_cpup
++#define cpu_to_be64p __cpu_to_be64p
++#define be64_to_cpup __be64_to_cpup
++#define cpu_to_be32p __cpu_to_be32p
++#define be32_to_cpup __be32_to_cpup
++#define cpu_to_be16p __cpu_to_be16p
++#define be16_to_cpup __be16_to_cpup
++#define cpu_to_le64s __cpu_to_le64s
++#define le64_to_cpus __le64_to_cpus
++#define cpu_to_le32s __cpu_to_le32s
++#define le32_to_cpus __le32_to_cpus
++#define cpu_to_le16s __cpu_to_le16s
++#define le16_to_cpus __le16_to_cpus
++#define cpu_to_be64s __cpu_to_be64s
++#define be64_to_cpus __be64_to_cpus
++#define cpu_to_be32s __cpu_to_be32s
++#define be32_to_cpus __be32_to_cpus
++#define cpu_to_be16s __cpu_to_be16s
++#define be16_to_cpus __be16_to_cpus
++#endif
++
++
++/*
++ * Handle ntohl and suches. These have various compatibility
++ * issues - like we want to give the prototype even though we
++ * also have a macro for them in case some strange program
++ * wants to take the address of the thing or something..
++ *
++ * Note that these used to return a "long" in libc5, even though
++ * long is often 64-bit these days.. Thus the casts.
++ *
++ * They have to be macros in order to do the constant folding
++ * correctly - if the argument passed into a inline function
++ * it is no longer constant according to gcc..
++ */
++
++#undef ntohl
++#undef ntohs
++#undef htonl
++#undef htons
++
++/*
++ * Do the prototypes. Somebody might want to take the
++ * address or some such sick thing..
++ */
++#if defined(PLATFORM_LINUX) || (defined (__GLIBC__) && __GLIBC__ >= 2)
++extern __u32			ntohl(__u32);
++extern __u32			htonl(__u32);
++#else //defined(PLATFORM_LINUX) || (defined (__GLIBC__) && __GLIBC__ >= 2)
++#ifndef PLATFORM_FREEBSD
++extern unsigned long int	ntohl(unsigned long int);
++extern unsigned long int	htonl(unsigned long int);
++#endif
++#endif
++#ifndef PLATFORM_FREEBSD
++extern unsigned short int	ntohs(unsigned short int);
++extern unsigned short int	htons(unsigned short int);
++#endif
++
++#if defined(__GNUC__) && (__GNUC__ >= 2) && defined(__OPTIMIZE__) ||  defined(PLATFORM_MPIXEL)
++
++#define ___htonl(x) __cpu_to_be32(x)
++#define ___htons(x) __cpu_to_be16(x)
++#define ___ntohl(x) __be32_to_cpu(x)
++#define ___ntohs(x) __be16_to_cpu(x)
++
++#if defined(PLATFORM_LINUX) || (defined (__GLIBC__) && __GLIBC__ >= 2)
++#define htonl(x) ___htonl(x)
++#define ntohl(x) ___ntohl(x)
++#else
++#define htonl(x) ((unsigned long)___htonl(x))
++#define ntohl(x) ((unsigned long)___ntohl(x))
++#endif
++#define htons(x) ___htons(x)
++#define ntohs(x) ___ntohs(x)
++
++#endif /* OPTIMIZE */
++
++
++#if defined (PLATFORM_WINDOWS)
++
++#define htonl(x) __cpu_to_be32(x)
++#define ntohl(x) __be32_to_cpu(x)
++#define htons(x) __cpu_to_be16(x)
++#define ntohs(x) __be16_to_cpu(x)
++
++
++#endif
++
++#endif /* _LINUX_BYTEORDER_GENERIC_H */
+diff --git a/drivers/net/wireless/rtl8192cu/include/byteorder/little_endian.h b/drivers/net/wireless/rtl8192cu/include/byteorder/little_endian.h
+new file mode 100755
+index 0000000..433045e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/byteorder/little_endian.h
+@@ -0,0 +1,89 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _LINUX_BYTEORDER_LITTLE_ENDIAN_H
++#define _LINUX_BYTEORDER_LITTLE_ENDIAN_H
++
++#ifndef __LITTLE_ENDIAN
++#define __LITTLE_ENDIAN 1234
++#endif
++#ifndef __LITTLE_ENDIAN_BITFIELD
++#define __LITTLE_ENDIAN_BITFIELD
++#endif
++
++#include <byteorder/swab.h>
++
++#ifndef __constant_htonl
++#define __constant_htonl(x) ___constant_swab32((x))
++#define __constant_ntohl(x) ___constant_swab32((x))
++#define __constant_htons(x) ___constant_swab16((x))
++#define __constant_ntohs(x) ___constant_swab16((x))
++#define __constant_cpu_to_le64(x) ((__u64)(x))
++#define __constant_le64_to_cpu(x) ((__u64)(x))
++#define __constant_cpu_to_le32(x) ((__u32)(x))
++#define __constant_le32_to_cpu(x) ((__u32)(x))
++#define __constant_cpu_to_le16(x) ((__u16)(x))
++#define __constant_le16_to_cpu(x) ((__u16)(x))
++#define __constant_cpu_to_be64(x) ___constant_swab64((x))
++#define __constant_be64_to_cpu(x) ___constant_swab64((x))
++#define __constant_cpu_to_be32(x) ___constant_swab32((x))
++#define __constant_be32_to_cpu(x) ___constant_swab32((x))
++#define __constant_cpu_to_be16(x) ___constant_swab16((x))
++#define __constant_be16_to_cpu(x) ___constant_swab16((x))
++#define __cpu_to_le64(x) ((__u64)(x))
++#define __le64_to_cpu(x) ((__u64)(x))
++#define __cpu_to_le32(x) ((__u32)(x))
++#define __le32_to_cpu(x) ((__u32)(x))
++#define __cpu_to_le16(x) ((__u16)(x))
++#define __le16_to_cpu(x) ((__u16)(x))
++#define __cpu_to_be64(x) __swab64((x))
++#define __be64_to_cpu(x) __swab64((x))
++#define __cpu_to_be32(x) __swab32((x))
++#define __be32_to_cpu(x) __swab32((x))
++#define __cpu_to_be16(x) __swab16((x))
++#define __be16_to_cpu(x) __swab16((x))
++#define __cpu_to_le64p(x) (*(__u64*)(x))
++#define __le64_to_cpup(x) (*(__u64*)(x))
++#define __cpu_to_le32p(x) (*(__u32*)(x))
++#define __le32_to_cpup(x) (*(__u32*)(x))
++#define __cpu_to_le16p(x) (*(__u16*)(x))
++#define __le16_to_cpup(x) (*(__u16*)(x))
++#define __cpu_to_be64p(x) __swab64p((x))
++#define __be64_to_cpup(x) __swab64p((x))
++#define __cpu_to_be32p(x) __swab32p((x))
++#define __be32_to_cpup(x) __swab32p((x))
++#define __cpu_to_be16p(x) __swab16p((x))
++#define __be16_to_cpup(x) __swab16p((x))
++#define __cpu_to_le64s(x) do {} while (0)
++#define __le64_to_cpus(x) do {} while (0)
++#define __cpu_to_le32s(x) do {} while (0)
++#define __le32_to_cpus(x) do {} while (0)
++#define __cpu_to_le16s(x) do {} while (0)
++#define __le16_to_cpus(x) do {} while (0)
++#define __cpu_to_be64s(x) __swab64s((x))
++#define __be64_to_cpus(x) __swab64s((x))
++#define __cpu_to_be32s(x) __swab32s((x))
++#define __be32_to_cpus(x) __swab32s((x))
++#define __cpu_to_be16s(x) __swab16s((x))
++#define __be16_to_cpus(x) __swab16s((x))
++#endif	// __constant_htonl
++
++#include <byteorder/generic.h>
++
++#endif /* _LINUX_BYTEORDER_LITTLE_ENDIAN_H */
+diff --git a/drivers/net/wireless/rtl8192cu/include/byteorder/swab.h b/drivers/net/wireless/rtl8192cu/include/byteorder/swab.h
+new file mode 100755
+index 0000000..a3ca9ea
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/byteorder/swab.h
+@@ -0,0 +1,140 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _LINUX_BYTEORDER_SWAB_H
++#define _LINUX_BYTEORDER_SWAB_H
++
++#if !defined(CONFIG_PLATFORM_MSTAR)
++#ifndef __u16
++typedef unsigned short __u16;
++#endif
++
++#ifndef __u32
++typedef unsigned int	__u32;
++#endif
++
++#ifndef __u8
++typedef unsigned char __u8;
++#endif
++
++#ifndef __u64
++typedef unsigned long long	__u64;	
++#endif
++
++
++__inline static __u16  ___swab16(__u16 x)
++{
++	__u16 __x = x; 
++	return 
++	((__u16)( 
++		(((__u16)(__x) & (__u16)0x00ffU) << 8) |
++		(((__u16)(__x) & (__u16)0xff00U) >> 8) ));
++
++}
++
++__inline static __u32  ___swab32(__u32 x)
++{
++	__u32 __x = (x);
++	return ((__u32)(
++		(((__u32)(__x) & (__u32)0x000000ffUL) << 24) |
++		(((__u32)(__x) & (__u32)0x0000ff00UL) <<  8) |
++		(((__u32)(__x) & (__u32)0x00ff0000UL) >>  8) |
++		(((__u32)(__x) & (__u32)0xff000000UL) >> 24) ));
++}
++
++__inline static __u64  ___swab64(__u64 x)
++{
++	__u64 __x = (x);
++	
++	return 
++	((__u64)( \
++		(__u64)(((__u64)(__x) & (__u64)0x00000000000000ffULL) << 56) | \
++		(__u64)(((__u64)(__x) & (__u64)0x000000000000ff00ULL) << 40) | \
++		(__u64)(((__u64)(__x) & (__u64)0x0000000000ff0000ULL) << 24) | \
++		(__u64)(((__u64)(__x) & (__u64)0x00000000ff000000ULL) <<  8) | \
++	        (__u64)(((__u64)(__x) & (__u64)0x000000ff00000000ULL) >>  8) | \
++		(__u64)(((__u64)(__x) & (__u64)0x0000ff0000000000ULL) >> 24) | \
++		(__u64)(((__u64)(__x) & (__u64)0x00ff000000000000ULL) >> 40) | \
++		(__u64)(((__u64)(__x) & (__u64)0xff00000000000000ULL) >> 56) )); \
++}
++#endif // CONFIG_PLATFORM_MSTAR
++
++#ifndef __arch__swab16
++__inline static __u16 __arch__swab16(__u16 x)
++{
++	return ___swab16(x);
++}
++
++#endif
++
++#ifndef __arch__swab32
++__inline static __u32 __arch__swab32(__u32 x)
++{
++	__u32 __tmp = (x) ; 
++	return ___swab32(__tmp);
++}
++#endif
++
++#ifndef __arch__swab64
++
++__inline static __u64 __arch__swab64(__u64 x)
++{
++	__u64 __tmp = (x) ; 
++	return ___swab64(__tmp);
++}
++
++
++#endif
++
++#ifndef __swab16
++#define __swab16(x) __fswab16(x)
++#define __swab32(x) __fswab32(x)
++#define __swab64(x) __fswab64(x)
++#endif	// __swab16
++
++#ifdef PLATFORM_FREEBSD
++__inline static __u16 __fswab16(__u16 x)
++#else
++__inline static const __u16 __fswab16(__u16 x)
++#endif //PLATFORM_FREEBSD
++{
++	return __arch__swab16(x);
++}
++#ifdef PLATFORM_FREEBSD
++__inline static __u32 __fswab32(__u32 x)
++#else
++__inline static const __u32 __fswab32(__u32 x)
++#endif //PLATFORM_FREEBSD
++{
++	return __arch__swab32(x);
++}
++
++#if defined(PLATFORM_LINUX) || defined(PLATFORM_WINDOWS)
++#define swab16 __swab16
++#define swab32 __swab32
++#define swab64 __swab64
++#define swab16p __swab16p
++#define swab32p __swab32p
++#define swab64p __swab64p
++#define swab16s __swab16s
++#define swab32s __swab32s
++#define swab64s __swab64s
++#endif
++
++#endif /* _LINUX_BYTEORDER_SWAB_H */
+diff --git a/drivers/net/wireless/rtl8192cu/include/byteorder/swabb.h b/drivers/net/wireless/rtl8192cu/include/byteorder/swabb.h
+new file mode 100755
+index 0000000..7e2a118
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/byteorder/swabb.h
+@@ -0,0 +1,156 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _LINUX_BYTEORDER_SWABB_H
++#define _LINUX_BYTEORDER_SWABB_H
++
++/*
++ * linux/byteorder/swabb.h
++ * SWAp Bytes Bizarrely
++ *	swaHHXX[ps]?(foo)
++ *
++ * Support for obNUXIous pdp-endian and other bizarre architectures.
++ * Will Linux ever run on such ancient beasts? if not, this file
++ * will be but a programming pearl. Still, it's a reminder that we
++ * shouldn't be making too many assumptions when trying to be portable.
++ *
++ */
++
++/*
++ * Meaning of the names I chose (vaxlinux people feel free to correct them):
++ * swahw32	swap 16-bit half-words in a 32-bit word
++ * swahb32	swap 8-bit halves of each 16-bit half-word in a 32-bit word
++ *
++ * No 64-bit support yet. I don't know NUXI conventions for long longs.
++ * I guarantee it will be a mess when it's there, though :->
++ * It will be even worse if there are conflicting 64-bit conventions.
++ * Hopefully, no one ever used 64-bit objects on NUXI machines.
++ *
++ */
++
++#define ___swahw32(x) \
++({ \
++	__u32 __x = (x); \
++	((__u32)( \
++		(((__u32)(__x) & (__u32)0x0000ffffUL) << 16) | \
++		(((__u32)(__x) & (__u32)0xffff0000UL) >> 16) )); \
++})
++#define ___swahb32(x) \
++({ \
++	__u32 __x = (x); \
++	((__u32)( \
++		(((__u32)(__x) & (__u32)0x00ff00ffUL) << 8) | \
++		(((__u32)(__x) & (__u32)0xff00ff00UL) >> 8) )); \
++})
++
++#define ___constant_swahw32(x) \
++	((__u32)( \
++		(((__u32)(x) & (__u32)0x0000ffffUL) << 16) | \
++		(((__u32)(x) & (__u32)0xffff0000UL) >> 16) ))
++#define ___constant_swahb32(x) \
++	((__u32)( \
++		(((__u32)(x) & (__u32)0x00ff00ffUL) << 8) | \
++		(((__u32)(x) & (__u32)0xff00ff00UL) >> 8) ))
++
++/*
++ * provide defaults when no architecture-specific optimization is detected
++ */
++#ifndef __arch__swahw32
++#  define __arch__swahw32(x) ___swahw32(x)
++#endif
++#ifndef __arch__swahb32
++#  define __arch__swahb32(x) ___swahb32(x)
++#endif
++
++#ifndef __arch__swahw32p
++#  define __arch__swahw32p(x) __swahw32(*(x))
++#endif
++#ifndef __arch__swahb32p
++#  define __arch__swahb32p(x) __swahb32(*(x))
++#endif
++
++#ifndef __arch__swahw32s
++#  define __arch__swahw32s(x) do { *(x) = __swahw32p((x)); } while (0)
++#endif
++#ifndef __arch__swahb32s
++#  define __arch__swahb32s(x) do { *(x) = __swahb32p((x)); } while (0)
++#endif
++
++
++/*
++ * Allow constant folding
++ */
++#if defined(__GNUC__) && (__GNUC__ >= 2) && defined(__OPTIMIZE__)
++#  define __swahw32(x) \
++(__builtin_constant_p((__u32)(x)) ? \
++ ___swahw32((x)) : \
++ __fswahw32((x)))
++#  define __swahb32(x) \
++(__builtin_constant_p((__u32)(x)) ? \
++ ___swahb32((x)) : \
++ __fswahb32((x)))
++#else
++#  define __swahw32(x) __fswahw32(x)
++#  define __swahb32(x) __fswahb32(x)
++#endif /* OPTIMIZE */
++
++
++__inline static__ __const__ __u32 __fswahw32(__u32 x)
++{
++	return __arch__swahw32(x);
++}
++__inline static__ __u32 __swahw32p(__u32 *x)
++{
++	return __arch__swahw32p(x);
++}
++__inline static__ void __swahw32s(__u32 *addr)
++{
++	__arch__swahw32s(addr);
++}
++
++
++__inline static__ __const__ __u32 __fswahb32(__u32 x)
++{
++	return __arch__swahb32(x);
++}
++__inline static__ __u32 __swahb32p(__u32 *x)
++{
++	return __arch__swahb32p(x);
++}
++__inline static__ void __swahb32s(__u32 *addr)
++{
++	__arch__swahb32s(addr);
++}
++
++#ifdef __BYTEORDER_HAS_U64__
++/*
++ * Not supported yet
++ */
++#endif /* __BYTEORDER_HAS_U64__ */
++
++#if defined(PLATFORM_LINUX)
++#define swahw32 __swahw32
++#define swahb32 __swahb32
++#define swahw32p __swahw32p
++#define swahb32p __swahb32p
++#define swahw32s __swahw32s
++#define swahb32s __swahb32s
++#endif
++
++#endif /* _LINUX_BYTEORDER_SWABB_H */
+diff --git a/drivers/net/wireless/rtl8192cu/include/circ_buf.h b/drivers/net/wireless/rtl8192cu/include/circ_buf.h
+new file mode 100755
+index 0000000..1bd4704
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/circ_buf.h
+@@ -0,0 +1,27 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __CIRC_BUF_H_
++#define __CIRC_BUF_H_ 1
++
++#define CIRC_CNT(head,tail,size) (((head) - (tail)) & ((size)-1))
++
++#define CIRC_SPACE(head,tail,size) CIRC_CNT((tail),((head)+1),(size))
++
++#endif //_CIRC_BUF_H_
+diff --git a/drivers/net/wireless/rtl8192cu/include/cmd_osdep.h b/drivers/net/wireless/rtl8192cu/include/cmd_osdep.h
+new file mode 100755
+index 0000000..077efa7
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/cmd_osdep.h
+@@ -0,0 +1,36 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __CMD_OSDEP_H_
++#define __CMD_OSDEP_H_
++
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++extern sint _rtw_init_cmd_priv (struct	cmd_priv *pcmdpriv);
++extern sint _rtw_init_evt_priv(struct evt_priv *pevtpriv);
++extern void _rtw_free_evt_priv (struct	evt_priv *pevtpriv);
++extern void _rtw_free_cmd_priv (struct	cmd_priv *pcmdpriv);
++extern sint _rtw_enqueue_cmd(_queue *queue, struct cmd_obj *obj);
++extern struct	cmd_obj	*_rtw_dequeue_cmd(_queue *queue);
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/drv_conf.h b/drivers/net/wireless/rtl8192cu/include/drv_conf.h
+new file mode 100755
+index 0000000..1317687
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/drv_conf.h
+@@ -0,0 +1,78 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __DRV_CONF_H__
++#define __DRV_CONF_H__
++#include "autoconf.h"
++
++#if defined (PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++
++#error "Shall be Linux or Windows, but not both!\n"
++
++#endif
++
++//Older Android kernel doesn't has CONFIG_ANDROID defined,
++//add this to force CONFIG_ANDROID defined
++#ifdef CONFIG_PLATFORM_ANDROID
++#define CONFIG_ANDROID
++#endif
++
++#ifdef CONFIG_ANDROID
++//Some Android build will restart the UI while non-printable ascii is passed
++//between java and c/c++ layer (JNI). We force CONFIG_VALIDATE_SSID
++//for Android here. If you are sure there is no risk on your system about this,
++//mask this macro define to support non-printable ascii ssid.
++//#define CONFIG_VALIDATE_SSID
++
++//Android expect dbm as the rx signal strength unit
++#define CONFIG_SIGNAL_DISPLAY_DBM
++#endif
++
++#if defined(CONFIG_HAS_EARLYSUSPEND) && defined (CONFIG_RESUME_IN_WORKQUEUE)
++	#warning "You have CONFIG_HAS_EARLYSUSPEND enabled in your system, we disable CONFIG_RESUME_IN_WORKQUEUE automatically"
++	#undef CONFIG_RESUME_IN_WORKQUEUE
++#endif
++
++#if defined(CONFIG_ANDROID_POWER) && defined (CONFIG_RESUME_IN_WORKQUEUE)
++	#warning "You have CONFIG_ANDROID_POWER enabled in your system, we disable CONFIG_RESUME_IN_WORKQUEUE automatically"
++	#undef CONFIG_RESUME_IN_WORKQUEUE
++#endif
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE //this can be removed, because there is no case for this...
++	#if !defined( CONFIG_WAKELOCK) && !defined(CONFIG_ANDROID_POWER)
++	#error "enable CONFIG_RESUME_IN_WORKQUEUE without CONFIG_WAKELOCK or CONFIG_ANDROID_POWER will suffer from the danger of wifi's unfunctionality..."
++	#error "If you still want to enable CONFIG_RESUME_IN_WORKQUEUE in this case, mask this preprossor checking and GOOD LUCK..."
++	#endif
++#endif
++
++//About USB VENDOR REQ
++#if defined(CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC) && !defined(CONFIG_USB_VENDOR_REQ_MUTEX) 
++	#warning "define CONFIG_USB_VENDOR_REQ_MUTEX for CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC automatically"
++	#define CONFIG_USB_VENDOR_REQ_MUTEX
++#endif
++#if defined(CONFIG_VENDOR_REQ_RETRY) &&  !defined(CONFIG_USB_VENDOR_REQ_MUTEX)
++	#warning "define CONFIG_USB_VENDOR_REQ_MUTEX for CONFIG_VENDOR_REQ_RETRY automatically"
++	#define CONFIG_USB_VENDOR_REQ_MUTEX
++#endif
++
++
++//#include <rtl871x_byteorder.h>
++
++#endif // __DRV_CONF_H__
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/drv_types.h b/drivers/net/wireless/rtl8192cu/include/drv_types.h
+new file mode 100755
+index 0000000..0ac34f2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/drv_types.h
+@@ -0,0 +1,662 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*-------------------------------------------------------------------------------
++
++	For type defines and data structure defines
++
++--------------------------------------------------------------------------------*/
++
++
++#ifndef __DRV_TYPES_H__
++#define __DRV_TYPES_H__
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <wlan_bssdef.h>
++
++
++#ifdef PLATFORM_OS_XP
++#include <drv_types_xp.h>
++#endif
++
++#ifdef PLATFORM_OS_CE
++#include <drv_types_ce.h>
++#endif
++
++#ifdef PLATFORM_LINUX
++#include <drv_types_linux.h>
++#endif
++
++enum _NIC_VERSION {
++
++	RTL8711_NIC,
++	RTL8712_NIC,
++	RTL8713_NIC,
++	RTL8716_NIC
++
++};
++
++enum{
++	UP_LINK,
++	DOWN_LINK,
++};
++typedef struct _ADAPTER _adapter, ADAPTER,*PADAPTER;
++
++#ifdef CONFIG_80211N_HT
++#include <rtw_ht.h>
++#endif
++
++#include <rtw_cmd.h>
++#include <wlan_bssdef.h>
++#include <rtw_security.h>
++#include <rtw_xmit.h>
++#include <rtw_recv.h>
++#include <hal_intf.h>
++#include <hal_com.h>
++#include <rtw_qos.h>
++#include <rtw_pwrctrl.h>
++#include <rtw_io.h>
++#include <rtw_eeprom.h>
++#include <sta_info.h>
++#include <rtw_mlme.h>
++#include <rtw_debug.h>
++#include <rtw_rf.h>
++#include <rtw_event.h>
++#include <rtw_led.h>
++#include <rtw_mlme_ext.h>
++#include <rtw_p2p.h>
++#include <rtw_tdls.h>
++#include <rtw_ap.h>
++
++#ifdef CONFIG_DRVEXT_MODULE
++#include <drvext_api.h>
++#endif
++
++#ifdef CONFIG_MP_INCLUDED
++#include <rtw_mp.h>
++#endif
++
++#ifdef CONFIG_BR_EXT
++#include <rtw_br_ext.h>
++#endif	// CONFIG_BR_EXT
++
++#ifdef CONFIG_IOCTL_CFG80211
++	#include "ioctl_cfg80211.h"	
++#endif //CONFIG_IOCTL_CFG80211
++
++#define SPEC_DEV_ID_NONE BIT(0)
++#define SPEC_DEV_ID_DISABLE_HT BIT(1)
++#define SPEC_DEV_ID_ENABLE_PS BIT(2)
++#define SPEC_DEV_ID_RF_CONFIG_1T1R BIT(3)
++#define SPEC_DEV_ID_RF_CONFIG_2T2R BIT(4)
++#define SPEC_DEV_ID_ASSIGN_IFNAME BIT(5)
++
++struct specific_device_id{
++
++	u32		flags;
++
++	u16		idVendor;
++	u16		idProduct;
++
++};
++
++struct registry_priv
++{
++	u8	chip_version;
++	u8	rfintfs;
++	u8	lbkmode;
++	u8	hci;
++	NDIS_802_11_SSID	ssid;
++	u8	network_mode;	//infra, ad-hoc, auto
++	u8	channel;//ad-hoc support requirement
++	u8	wireless_mode;//A, B, G, auto
++	u8 	scan_mode;//active, passive
++	u8	radio_enable;
++	u8	preamble;//long, short, auto
++	u8	vrtl_carrier_sense;//Enable, Disable, Auto
++	u8	vcs_type;//RTS/CTS, CTS-to-self
++	u16	rts_thresh;
++	u16  frag_thresh;
++	u8	adhoc_tx_pwr;
++	u8	soft_ap;
++	u8	power_mgnt;
++	u8	ips_mode;
++	u8	smart_ps;
++	u8	long_retry_lmt;
++	u8	short_retry_lmt;
++	u16	busy_thresh;
++	u8	ack_policy;
++	u8	mp_mode;
++	u8	software_encrypt;
++	u8	software_decrypt;
++
++	u8	acm_method;
++	  //UAPSD
++	u8	wmm_enable;
++	u8	uapsd_enable;
++	u8	uapsd_max_sp;
++	u8	uapsd_acbk_en;
++	u8	uapsd_acbe_en;
++	u8	uapsd_acvi_en;
++	u8	uapsd_acvo_en;
++
++	WLAN_BSSID_EX    dev_network;
++
++#ifdef CONFIG_80211N_HT
++	u8	ht_enable;
++	u8	cbw40_enable;
++	u8	ampdu_enable;//for tx
++	u8 	rx_stbc;
++	u8	ampdu_amsdu;//A-MPDU Supports A-MSDU is permitted
++#endif
++	u8	lowrate_two_xmit;
++
++	u8	rf_config ;
++	u8	low_power ;
++
++	u8	wifi_spec;// !turbo_mode
++
++	u8	channel_plan;
++#ifdef CONFIG_BT_COEXIST
++	u8	bt_iso;
++	u8	bt_sco;
++	u8	bt_ampdu;
++#endif
++	BOOLEAN	bAcceptAddbaReq;
++
++	u8	antdiv_cfg;
++
++	u8	usbss_enable;//0:disable,1:enable
++	u8	hwpdn_mode;//0:disable,1:enable,2:decide by EFUSE config
++	u8	hwpwrp_detect;//0:disable,1:enable
++
++	u8	hw_wps_pbc;//0:disable,1:enable
++
++#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++	char	adaptor_info_caching_file_path[PATH_LENGTH_MAX];
++#endif
++
++#ifdef CONFIG_LAYER2_ROAMING
++	u8	max_roaming_times; // the max number driver will try to roaming
++#endif
++
++#ifdef CONFIG_IOL
++	bool force_iol; //enable iol without other concern
++#endif
++	u8  special_rf_path; //0: 2T2R ,1: only turn on path A 1T1R, 2: only turn on path B 1T1R
++	u8	mac_phy_mode; //0:by efuse, 1:smsp, 2:dmdp, 3:dmsp.
++
++#ifdef CONFIG_80211D
++	u8 enable80211d;
++#endif
++
++	u8 ifname[16];
++	u8 if2name[16];
++
++	u8 notch_filter;
++
++#ifdef CONFIG_MULTI_VIR_IFACES
++	u8 ext_iface_num;//primary/secondary iface is excluded
++#endif
++};
++
++
++//For registry parameters
++#define RGTRY_OFT(field) ((ULONG)FIELD_OFFSET(struct registry_priv,field))
++#define RGTRY_SZ(field)   sizeof(((struct registry_priv*) 0)->field)
++#define BSSID_OFT(field) ((ULONG)FIELD_OFFSET(WLAN_BSSID_EX,field))
++#define BSSID_SZ(field)   sizeof(((PWLAN_BSSID_EX) 0)->field)
++
++#define MAX_CONTINUAL_URB_ERR 4
++
++#ifdef CONFIG_SDIO_HCI
++#include <drv_types_sdio.h>
++#define INTF_DATA SDIO_DATA
++#endif
++
++#define GET_PRIMARY_ADAPTER(padapter) (((_adapter *)padapter)->dvobj->if1)
++
++#define GET_IFACE_NUMS(padapter) (((_adapter *)padapter)->dvobj->iface_nums)
++#define GET_ADAPTER(padapter, iface_id) (((_adapter *)padapter)->dvobj->padapters[iface_id])
++
++enum _IFACE_ID {
++	IFACE_ID0, //maping to PRIMARY_ADAPTER
++	IFACE_ID1, //maping to SECONDARY_ADAPTER
++	IFACE_ID2, 
++	IFACE_ID3, 
++	IFACE_ID_MAX,
++};
++
++struct dvobj_priv
++{
++	_adapter *if1; //PRIMARY_ADAPTER
++	_adapter *if2; //SECONDARY_ADAPTER
++
++	s32 processing_dev_remove;
++
++	//for local/global synchronization
++	_mutex hw_init_mutex;
++	_mutex h2c_fwcmd_mutex;
++	_mutex setch_mutex;
++	_mutex setbw_mutex;
++
++	unsigned char	oper_channel; //saved channel info when call set_channel_bw
++	unsigned char	oper_bwmode;
++	unsigned char	oper_ch_offset;//PRIME_CHNL_OFFSET
++	u32 on_oper_ch_time;
++
++	//extend to support mulitu interface
++	//padapters[IFACE_ID0] == if1
++	//padapters[IFACE_ID1] == if2	
++	_adapter *padapters[IFACE_ID_MAX];
++	u8 iface_nums; // total number of ifaces used runtime
++
++	//For 92D, DMDP have 2 interface.
++	u8	InterfaceNumber;
++	u8	NumInterfaces;
++	u8	DualMacMode;
++	u8	irq_alloc;
++
++/*-------- below is for SDIO INTERFACE --------*/
++
++#ifdef INTF_DATA
++	INTF_DATA intf_data;
++#endif
++
++/*-------- below is for USB INTERFACE --------*/
++
++#ifdef CONFIG_USB_HCI
++
++	u8	nr_endpoint;
++	u8	ishighspeed;
++	u8	RtNumInPipes;
++	u8	RtNumOutPipes;
++	int	ep_num[5]; //endpoint number
++
++	int	RegUsbSS;
++
++	_sema	usb_suspend_sema;
++
++#ifdef CONFIG_USB_VENDOR_REQ_MUTEX
++	_mutex  usb_vendor_req_mutex;
++#endif
++
++#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC
++	u8 * usb_alloc_vendor_req_buf;
++	u8 * usb_vendor_req_buf;
++#endif
++
++#ifdef PLATFORM_WINDOWS
++	//related device objects
++	PDEVICE_OBJECT	pphysdevobj;//pPhysDevObj;
++	PDEVICE_OBJECT	pfuncdevobj;//pFuncDevObj;
++	PDEVICE_OBJECT	pnextdevobj;//pNextDevObj;
++
++	u8	nextdevstacksz;//unsigned char NextDeviceStackSize;	//= (CHAR)CEdevice->pUsbDevObj->StackSize + 1;
++
++	//urb for control diescriptor request
++
++#ifdef PLATFORM_OS_XP
++	struct _URB_CONTROL_DESCRIPTOR_REQUEST descriptor_urb;
++	PUSB_CONFIGURATION_DESCRIPTOR	pconfig_descriptor;//UsbConfigurationDescriptor;
++#endif
++
++#ifdef PLATFORM_OS_CE
++	WCHAR			active_path[MAX_ACTIVE_REG_PATH];	// adapter regpath
++	USB_EXTENSION	usb_extension;
++
++	_nic_hdl		pipehdls_r8192c[0x10];
++#endif
++
++	u32	config_descriptor_len;//ULONG UsbConfigurationDescriptorLength;
++#endif//PLATFORM_WINDOWS
++
++#ifdef PLATFORM_LINUX
++	struct usb_interface *pusbintf;
++	struct usb_device *pusbdev;
++#endif//PLATFORM_LINUX
++
++#ifdef PLATFORM_FREEBSD
++	struct usb_interface *pusbintf;
++	struct usb_device *pusbdev;
++#endif//PLATFORM_FREEBSD
++	ATOMIC_T continual_urb_error;
++#endif//CONFIG_USB_HCI
++
++/*-------- below is for PCIE INTERFACE --------*/
++
++#ifdef CONFIG_PCI_HCI
++
++#ifdef PLATFORM_LINUX
++	struct pci_dev *ppcidev;
++
++	//PCI MEM map
++	unsigned long	pci_mem_end;	/* shared mem end	*/
++	unsigned long	pci_mem_start;	/* shared mem start	*/
++
++	//PCI IO map
++	unsigned long	pci_base_addr;	/* device I/O address	*/
++
++	//PciBridge
++	struct pci_priv	pcipriv;
++
++	u16	irqline;
++	u8	irq_enabled;
++	RT_ISR_CONTENT	isr_content;
++	_lock	irq_th_lock;
++
++	//ASPM
++	u8	const_pci_aspm;
++	u8	const_amdpci_aspm;
++	u8	const_hwsw_rfoff_d3;
++	u8	const_support_pciaspm;
++	// pci-e bridge */
++	u8 	const_hostpci_aspm_setting;
++	// pci-e device */
++	u8 	const_devicepci_aspm_setting;
++	u8 	b_support_aspm; // If it supports ASPM, Offset[560h] = 0x40, otherwise Offset[560h] = 0x00.
++	u8	b_support_backdoor;
++	u8 bdma64;
++#endif//PLATFORM_LINUX
++
++#endif//CONFIG_PCI_HCI
++};
++
++#ifdef PLATFORM_LINUX
++static struct device *dvobj_to_dev(struct dvobj_priv *dvobj)
++{
++	/* todo: get interface type from dvobj and the return the dev accordingly */
++#ifdef RTW_DVOBJ_CHIP_HW_TYPE
++#endif
++
++#ifdef CONFIG_USB_HCI
++	return &dvobj->pusbintf->dev;
++#endif
++#ifdef CONFIG_SDIO_HCI
++	return &dvobj->intf_data.func->dev;
++#endif
++#ifdef CONFIG_PCI_HCI
++	return &dvobj->ppcidev->dev;
++#endif
++}
++#endif
++
++
++enum _IFACE_TYPE {
++	IFACE_PORT0, //mapping to port0 for C/D series chips
++	IFACE_PORT1, //mapping to port1 for C/D series chip
++	MAX_IFACE_PORT,
++};
++
++enum _ADAPTER_TYPE {
++	PRIMARY_ADAPTER,
++	SECONDARY_ADAPTER,
++	MAX_ADAPTER = 0xFF,	
++};
++
++typedef enum _DRIVER_STATE{
++	DRIVER_NORMAL = 0,
++	DRIVER_DISAPPEAR = 1,
++	DRIVER_REPLACE_DONGLE = 2,
++}DRIVER_STATE;
++
++#ifdef CONFIG_INTEL_PROXIM	
++struct proxim {
++	bool proxim_support;
++	bool proxim_on;
++
++	void *proximity_priv;
++	int (*proxim_rx)(_adapter *padapter,
++		union recv_frame *precv_frame);
++	u8	(*proxim_get_var)(_adapter* padapter, u8 type);
++};
++#endif	//CONFIG_INTEL_PROXIM
++
++#ifdef RTL8723A_SDIO_LOOPBACK
++typedef struct loopbackdata
++{
++	_sema	sema;
++	_thread_hdl_ lbkthread;
++	u8 bstop;
++	u32 cnt;
++	u16 size;
++	u16 txsize;
++	u8 txbuf[0x8000];
++	u16 rxsize;
++	u8 rxbuf[0x8000];
++	u8 msg[100];
++
++}LOOPBACKDATA, *PLOOPBACKDATA;
++#endif
++
++struct _ADAPTER{
++	int	DriverState;// for disable driver using module, use dongle to replace module.
++	int	pid[3];//process id from UI, 0:wps, 1:hostapd, 2:dhcpcd
++	int	bDongle;//build-in module or external dongle
++	u16 	chip_type;
++	u16	HardwareType;
++	u16	interface_type;//USB,SDIO,PCI
++
++	struct dvobj_priv *dvobj;
++	struct	mlme_priv mlmepriv;
++	struct	mlme_ext_priv mlmeextpriv;
++	struct	cmd_priv	cmdpriv;
++	struct	evt_priv	evtpriv;
++	//struct	io_queue	*pio_queue;
++	struct 	io_priv	iopriv;
++	struct	xmit_priv	xmitpriv;
++	struct	recv_priv	recvpriv;
++	struct	sta_priv	stapriv;
++	struct	security_priv	securitypriv;
++	_lock   security_key_mutex; // add for CONFIG_IEEE80211W, none 11w also can use
++	struct	registry_priv	registrypriv;	
++	struct	pwrctrl_priv	pwrctrlpriv;
++	struct 	eeprom_priv eeprompriv;
++	struct	led_priv	ledpriv;
++
++#ifdef CONFIG_MP_INCLUDED
++       struct	mp_priv	mppriv;
++#endif
++
++#ifdef CONFIG_DRVEXT_MODULE
++	struct	drvext_priv	drvextpriv;
++#endif
++
++#ifdef CONFIG_AP_MODE
++	struct	hostapd_priv	*phostapdpriv;
++#endif
++
++#ifdef CONFIG_IOCTL_CFG80211
++#ifdef CONFIG_P2P
++	struct cfg80211_wifidirect_info	cfg80211_wdinfo;
++#endif //CONFIG_P2P
++#endif //CONFIG_IOCTL_CFG80211
++	u32	setband;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	wdinfo;
++#endif //CONFIG_P2P
++
++#ifdef CONFIG_TDLS
++	struct tdls_info	tdlsinfo;
++#endif //CONFIG_TDLS
++
++#ifdef CONFIG_WFD
++	struct wifi_display_info wfd_info;
++#endif //CONFIG_WFD
++
++	PVOID			HalData;
++	u32 hal_data_sz;
++	struct hal_ops	HalFunc;
++
++#ifdef CONFIG_BT_COEXIST
++	//struct	btcoexist_priv	bt_coexist;
++#endif
++	s32	bDriverStopped;
++	s32	bSurpriseRemoved;
++	s32  bCardDisableWOHSM;
++
++	u32	IsrContent;
++	u32	ImrContent;
++
++	u8	EepromAddressSize;
++	u8	hw_init_completed;
++	u8	bDriverIsGoingToUnload;
++	u8	init_adpt_in_progress;
++	u8	bHaltInProgress;
++
++	_thread_hdl_ cmdThread;
++	_thread_hdl_ evtThread;
++	_thread_hdl_ xmitThread;
++	_thread_hdl_ recvThread;
++
++#ifndef PLATFORM_LINUX
++	NDIS_STATUS (*dvobj_init)(struct dvobj_priv	*dvobj);
++	void (*dvobj_deinit)(struct dvobj_priv *dvobj);
++#endif
++
++	void (*intf_start)(_adapter * adapter);
++	void (*intf_stop)(_adapter * adapter);
++
++#ifdef PLATFORM_WINDOWS
++	_nic_hdl		hndis_adapter;//hNdisAdapter(NDISMiniportAdapterHandle);
++	_nic_hdl		hndis_config;//hNdisConfiguration;
++	NDIS_STRING fw_img;
++
++	u32	NdisPacketFilter;
++	u8	MCList[MAX_MCAST_LIST_NUM][6];
++	u32	MCAddrCount;
++#endif //end of PLATFORM_WINDOWS
++
++
++#ifdef PLATFORM_LINUX
++	_nic_hdl pnetdev;
++
++	// used by rtw_rereg_nd_name related function
++	struct rereg_nd_name_data {
++		_nic_hdl old_pnetdev;
++		char old_ifname[IFNAMSIZ];
++		u8 old_ips_mode;
++		u8 old_bRegUseLed;
++	} rereg_nd_name_priv;
++
++	int bup;
++	struct net_device_stats stats;
++	struct iw_statistics iwstats;
++	struct proc_dir_entry *dir_dev;// for proc directory
++
++#ifdef CONFIG_IOCTL_CFG80211
++	struct wireless_dev *rtw_wdev;
++#endif //CONFIG_IOCTL_CFG80211
++
++#endif //end of PLATFORM_LINUX
++
++#ifdef PLATFORM_FREEBSD
++	_nic_hdl pifp;
++	int bup;
++	_lock glock;
++#endif //PLATFORM_FREEBSD
++	int net_closed;
++
++	u8 bFWReady;
++	u8 bReadPortCancel;
++	u8 bWritePortCancel;
++	u8 bRxRSSIDisplay;
++	//	Added by Albert 2012/07/26
++	//	The driver will write the initial gain everytime when running in the DM_Write_DIG function.
++	u8 bForceWriteInitGain;
++	//	Added by Albert 2012/10/26
++	//	The driver will show up the desired channel number when this flag is 1.
++	u8 bNotifyChannelChange;
++#ifdef CONFIG_P2P
++	//	Added by Albert 2012/12/06
++	//	The driver will show the current P2P status when the upper application reads it.
++	u8 bShowGetP2PState;
++#endif
++#ifdef CONFIG_AUTOSUSPEND
++	u8	bDisableAutosuspend;
++#endif
++
++	//pbuddy_adapter is used only in  two inteface case, (iface_nums=2 in struct dvobj_priv)
++	//PRIMARY_ADAPTER's buddy is SECONDARY_ADAPTER
++	//SECONDARY_ADAPTER's buddy is PRIMARY_ADAPTER
++	//for iface_id > SECONDARY_ADAPTER(IFACE_ID1), refer to padapters[iface_id]  in struct dvobj_priv
++	//and their pbuddy_adapter is PRIMARY_ADAPTER.
++	//for PRIMARY_ADAPTER(IFACE_ID0) can directly refer to if1 in struct dvobj_priv
++	_adapter *pbuddy_adapter;
++	
++#if defined(CONFIG_CONCURRENT_MODE) || defined(CONFIG_DUALMAC_CONCURRENT)
++	u8 isprimary; //is primary adapter or not
++	//notes: 
++	// if isprimary is true, the adapter_type value is 0, iface_id is IFACE_ID0 for PRIMARY_ADAPTER
++	// if isprimary is false, the adapter_type value is 1, iface_id is IFACE_ID1 for SECONDARY_ADAPTER
++	// refer to iface_id if iface_nums>2 and isprimary is false and the adapter_type value is 0xff.
++	u8 adapter_type;//used only in  two inteface case(PRIMARY_ADAPTER and SECONDARY_ADAPTER) . 
++	u8 iface_type; //interface port type, it depends on HW port 
++#endif
++
++	//extend to support multi interface
++       //IFACE_ID0 is equals to PRIMARY_ADAPTER
++       //IFACE_ID1 is equals to SECONDARY_ADAPTER	
++	u8 iface_id;
++
++#ifdef CONFIG_DUALMAC_CONCURRENT
++	u8 DualMacConcurrent; // 1: DMSP 0:DMDP
++#endif
++
++#ifdef CONFIG_BR_EXT
++	_lock					br_ext_lock;
++	//unsigned int			macclone_completed;
++	struct nat25_network_db_entry	*nethash[NAT25_HASH_SIZE];
++	int				pppoe_connection_in_progress;
++	unsigned char			pppoe_addr[MACADDRLEN];
++	unsigned char			scdb_mac[MACADDRLEN];
++	unsigned char			scdb_ip[4];
++	struct nat25_network_db_entry	*scdb_entry;
++	unsigned char			br_mac[MACADDRLEN];
++	unsigned char			br_ip[4];
++
++	struct br_ext_info		ethBrExtInfo;
++#endif	// CONFIG_BR_EXT
++
++#ifdef CONFIG_INTEL_PROXIM	
++	/* intel Proximity, should be alloc mem
++	 * in intel Proximity module and can only 
++	 * be used in intel Proximity mode */
++	struct proxim proximity;
++#endif	//CONFIG_INTEL_PROXIM
++
++#ifdef RTL8723A_SDIO_LOOPBACK
++	PLOOPBACKDATA ploopback;
++#endif
++
++};
++
++#define adapter_to_dvobj(adapter) (adapter->dvobj)
++
++int rtw_handle_dualmac(_adapter *adapter, bool init);
++
++__inline static u8 *myid(struct eeprom_priv *peepriv)
++{
++	return (peepriv->mac_addr);
++}
++
++
++#endif //__DRV_TYPES_H__
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/drv_types_ce.h b/drivers/net/wireless/rtl8192cu/include/drv_types_ce.h
+new file mode 100755
+index 0000000..be0459d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/drv_types_ce.h
+@@ -0,0 +1,92 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __DRV_TYPES_CE_H__
++#define __DRV_TYPES_CE_H__
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++
++#include <Sdcardddk.h>
++
++#define MAX_ACTIVE_REG_PATH 256
++
++#define MAX_MCAST_LIST_NUM					32
++
++
++
++//for ioctl
++#define MAKE_DRIVER_VERSION(_MainVer,_MinorVer)	((((u32)(_MainVer))<<16)+_MinorVer)
++
++#define NIC_HEADER_SIZE				14			//!< can be moved to typedef.h
++#define NIC_MAX_PACKET_SIZE			1514		//!< can be moved to typedef.h
++#define NIC_MAX_SEND_PACKETS			10		// max number of send packets the MiniportSendPackets function can accept, can be moved to typedef.h
++#define NIC_VENDOR_DRIVER_VERSION       MAKE_DRIVER_VERSION(0,001)	//!< can be moved to typedef.h
++#define NIC_MAX_PACKET_SIZE			1514		//!< can be moved to typedef.h
++
++typedef struct _MP_REG_ENTRY
++{
++
++	NDIS_STRING		RegName;	// variable name text
++	BOOLEAN			bRequired;	// 1 -> required, 0 -> optional
++
++	u8			Type;		// NdisParameterInteger/NdisParameterHexInteger/NdisParameterStringle/NdisParameterMultiString
++	uint			FieldOffset;	// offset to MP_ADAPTER field
++	uint			FieldSize;	// size (in bytes) of the field
++	
++#ifdef UNDER_AMD64
++	u64			Default;
++#else
++	u32			Default;		// default value to use
++#endif
++
++	u32			Min;			// minimum value allowed
++	u32			Max;		// maximum value allowed
++} MP_REG_ENTRY, *PMP_REG_ENTRY;
++
++#ifdef CONFIG_USB_HCI
++typedef struct _USB_EXTENSION {
++    LPCUSB_FUNCS    _lpUsbFuncs;
++	USB_HANDLE	    _hDevice;
++    PVOID 		    pAdapter;
++
++#if 0
++	USB_ENDPOINT_DESCRIPTOR		_endpACLIn;
++    USB_ENDPOINT_DESCRIPTOR		_endpACLOutHigh;
++	USB_ENDPOINT_DESCRIPTOR		_endpACLOutNormal;
++
++	USB_PIPE        pPipeIn;
++    USB_PIPE        pPipeOutNormal;
++    USB_PIPE        pPipeOutHigh;
++#endif
++
++} USB_EXTENSION, *PUSB_EXTENSION;
++#endif
++
++
++typedef struct _OCTET_STRING{
++	u8      *Octet;
++	u16      Length;
++} OCTET_STRING, *POCTET_STRING;
++
++
++
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8192cu/include/drv_types_linux.h b/drivers/net/wireless/rtl8192cu/include/drv_types_linux.h
+new file mode 100755
+index 0000000..db1c585
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/drv_types_linux.h
+@@ -0,0 +1,25 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __DRV_TYPES_LINUX_H__
++#define __DRV_TYPES_LINUX_H__
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/drv_types_sdio.h b/drivers/net/wireless/rtl8192cu/include/drv_types_sdio.h
+new file mode 100755
+index 0000000..fd467ca
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/drv_types_sdio.h
+@@ -0,0 +1,70 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __DRV_TYPES_SDIO_H__
++#define __DRV_TYPES_SDIO_H__
++
++#include <drv_conf.h>
++#include <basic_types.h>
++
++// SDIO Header Files
++#ifdef PLATFORM_LINUX
++#include <linux/mmc/sdio_func.h>
++#endif
++#ifdef PLATFORM_OS_XP
++#include <wdm.h>
++#include <ntddsd.h>
++#endif
++#ifdef PLATFORM_OS_CE
++#include <sdcardddk.h>
++#endif
++
++
++typedef struct sdio_data
++{
++	u8  func_number;
++ 
++	u8  tx_block_mode;
++	u8  rx_block_mode;
++	u32 block_transfer_len;
++
++#ifdef PLATFORM_LINUX
++	struct sdio_func	 *func;
++#endif
++
++#ifdef PLATFORM_OS_XP
++	PDEVICE_OBJECT				pphysdevobj;
++	PDEVICE_OBJECT				pfuncdevobj;
++	PDEVICE_OBJECT				pnextdevobj;
++	SDBUS_INTERFACE_STANDARD	sdbusinft;
++	u8							nextdevstacksz;
++#endif
++
++#ifdef PLATFORM_OS_CE
++	SD_DEVICE_HANDLE			hDevice;
++	SD_CARD_RCA					sd_rca;
++	SD_CARD_INTERFACE			card_intf;
++	BOOLEAN						enableIsarWithStatus;
++	WCHAR						active_path[MAX_ACTIVE_REG_PATH];
++	SD_HOST_BLOCK_CAPABILITY	sd_host_blk_cap;
++#endif
++} SDIO_DATA, *PSDIO_DATA;
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/drv_types_xp.h b/drivers/net/wireless/rtl8192cu/include/drv_types_xp.h
+new file mode 100755
+index 0000000..2d51b1d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/drv_types_xp.h
+@@ -0,0 +1,95 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __DRV_TYPES_XP_H__
++#define __DRV_TYPES_XP_H__
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++
++
++
++#define MAX_MCAST_LIST_NUM					32
++
++
++
++//for ioctl
++#define MAKE_DRIVER_VERSION(_MainVer,_MinorVer)	((((u32)(_MainVer))<<16)+_MinorVer)
++
++#define NIC_HEADER_SIZE				14			//!< can be moved to typedef.h
++#define NIC_MAX_PACKET_SIZE			1514		//!< can be moved to typedef.h
++#define NIC_MAX_SEND_PACKETS			10		// max number of send packets the MiniportSendPackets function can accept, can be moved to typedef.h
++#define NIC_VENDOR_DRIVER_VERSION       MAKE_DRIVER_VERSION(0,001)	//!< can be moved to typedef.h
++#define NIC_MAX_PACKET_SIZE			1514		//!< can be moved to typedef.h
++
++
++#undef ON_VISTA
++//added by Jackson
++#ifndef ON_VISTA
++//
++// Bus driver versions
++//
++
++#define SDBUS_DRIVER_VERSION_1          0x100
++#define SDBUS_DRIVER_VERSION_2          0x200
++
++#define    SDP_FUNCTION_TYPE	4
++#define    SDP_BUS_DRIVER_VERSION 5
++#define    SDP_BUS_WIDTH 6
++#define    SDP_BUS_CLOCK 7
++#define    SDP_BUS_INTERFACE_CONTROL 8
++#define    SDP_HOST_BLOCK_LENGTH 9
++#define    SDP_FUNCTION_BLOCK_LENGTH 10
++#define    SDP_FN0_BLOCK_LENGTH 11
++#define    SDP_FUNCTION_INT_ENABLE 12
++#endif
++
++
++typedef struct _MP_REG_ENTRY
++{
++
++	NDIS_STRING		RegName;	// variable name text
++	BOOLEAN			bRequired;	// 1 -> required, 0 -> optional
++
++	u8			Type;		// NdisParameterInteger/NdisParameterHexInteger/NdisParameterStringle/NdisParameterMultiString
++	uint			FieldOffset;	// offset to MP_ADAPTER field
++	uint			FieldSize;	// size (in bytes) of the field
++	
++#ifdef UNDER_AMD64
++	u64			Default;
++#else
++	u32			Default;		// default value to use
++#endif
++
++	u32			Min;			// minimum value allowed
++	u32			Max;		// maximum value allowed
++} MP_REG_ENTRY, *PMP_REG_ENTRY;
++
++
++typedef struct _OCTET_STRING{
++	u8      *Octet;
++	u16      Length;
++} OCTET_STRING, *POCTET_STRING;
++
++
++
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/ethernet.h b/drivers/net/wireless/rtl8192cu/include/ethernet.h
+new file mode 100755
+index 0000000..36e29c0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/ethernet.h
+@@ -0,0 +1,41 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*! \file */ 
++#ifndef __INC_ETHERNET_H
++#define __INC_ETHERNET_H
++
++#define ETHERNET_ADDRESS_LENGTH				6		//!< Ethernet Address Length
++#define ETHERNET_HEADER_SIZE				14		//!< Ethernet Header Length
++#define LLC_HEADER_SIZE						6		//!< LLC Header Length
++#define TYPE_LENGTH_FIELD_SIZE				2		//!< Type/Length Size
++#define MINIMUM_ETHERNET_PACKET_SIZE		60		//!< Minimum Ethernet Packet Size
++#define MAXIMUM_ETHERNET_PACKET_SIZE		1514	//!< Maximum Ethernet Packet Size
++
++#define RT_ETH_IS_MULTICAST(_pAddr)	((((UCHAR *)(_pAddr))[0]&0x01)!=0)		//!< Is Multicast Address?
++#define RT_ETH_IS_BROADCAST(_pAddr)	(										\
++											((UCHAR *)(_pAddr))[0]==0xff	&& 		\
++											((UCHAR *)(_pAddr))[1]==0xff	&&		\
++											((UCHAR *)(_pAddr))[2]==0xff	&&		\
++											((UCHAR *)(_pAddr))[3]==0xff	&&		\
++											((UCHAR *)(_pAddr))[4]==0xff	&&		\
++											((UCHAR *)(_pAddr))[5]==0xff		)	//!< Is Broadcast Address?
++
++
++#endif // #ifndef __INC_ETHERNET_H
+diff --git a/drivers/net/wireless/rtl8192cu/include/h2clbk.h b/drivers/net/wireless/rtl8192cu/include/h2clbk.h
+new file mode 100755
+index 0000000..359c9e7
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/h2clbk.h
+@@ -0,0 +1,35 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#define _H2CLBK_H_
++
++
++#include <rtl8711_spec.h>
++#include <TypeDef.h>
++
++
++void _lbk_cmd(PADAPTER Adapter);
++
++void _lbk_rsp(PADAPTER Adapter);
++
++void _lbk_evt(IN PADAPTER Adapter);
++
++void h2c_event_callback(unsigned char *dev, unsigned char *pbuf);
+diff --git a/drivers/net/wireless/rtl8192cu/include/hal_com.h b/drivers/net/wireless/rtl8192cu/include/hal_com.h
+new file mode 100755
+index 0000000..42aae0e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/hal_com.h
+@@ -0,0 +1,146 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_COMMON_H__
++#define __HAL_COMMON_H__
++
++//CCK
++#define RATE_1M						BIT(0)
++#define RATE_2M						BIT(1)
++#define RATE_5_5M					BIT(2)
++#define RATE_11M					BIT(3)
++//OFDM 
++#define RATE_6M						BIT(4)
++#define RATE_9M						BIT(5)
++#define RATE_12M					BIT(6)
++#define RATE_18M					BIT(7)
++#define RATE_24M					BIT(8)
++#define RATE_36M					BIT(9)
++#define RATE_48M					BIT(10)
++#define RATE_54M					BIT(11)
++//MCS 1 Spatial Stream
++#define RATE_MCS0					BIT(12)
++#define RATE_MCS1					BIT(13)
++#define RATE_MCS2					BIT(14)
++#define RATE_MCS3					BIT(15)
++#define RATE_MCS4					BIT(16)
++#define RATE_MCS5					BIT(17)
++#define RATE_MCS6					BIT(18)
++#define RATE_MCS7					BIT(19)
++//MCS 2 Spatial Stream
++#define RATE_MCS8					BIT(20)
++#define RATE_MCS9					BIT(21)
++#define RATE_MCS10					BIT(22)
++#define RATE_MCS11					BIT(23)
++#define RATE_MCS12					BIT(24)
++#define RATE_MCS13					BIT(25)
++#define RATE_MCS14					BIT(26)
++#define RATE_MCS15					BIT(27)
++
++// ALL CCK Rate
++#define	RATE_ALL_CCK				RATR_1M|RATR_2M|RATR_55M|RATR_11M 
++#define	RATE_ALL_OFDM_AG			RATR_6M|RATR_9M|RATR_12M|RATR_18M|RATR_24M|\
++									RATR_36M|RATR_48M|RATR_54M	
++#define	RATE_ALL_OFDM_1SS			RATR_MCS0|RATR_MCS1|RATR_MCS2|RATR_MCS3 |\
++									RATR_MCS4|RATR_MCS5|RATR_MCS6	|RATR_MCS7	
++#define	RATE_ALL_OFDM_2SS			RATR_MCS8|RATR_MCS9	|RATR_MCS10|RATR_MCS11|\
++									RATR_MCS12|RATR_MCS13|RATR_MCS14|RATR_MCS15
++
++/*------------------------------ Tx Desc definition Macro ------------------------*/ 
++//#pragma mark -- Tx Desc related definition. --
++//----------------------------------------------------------------------------
++//-----------------------------------------------------------
++//	Rate
++//-----------------------------------------------------------
++// CCK Rates, TxHT = 0
++#define DESC_RATE1M				0x00
++#define DESC_RATE2M				0x01
++#define DESC_RATE5_5M				0x02
++#define DESC_RATE11M				0x03
++
++// OFDM Rates, TxHT = 0
++#define DESC_RATE6M				0x04
++#define DESC_RATE9M				0x05
++#define DESC_RATE12M				0x06
++#define DESC_RATE18M				0x07
++#define DESC_RATE24M				0x08
++#define DESC_RATE36M				0x09
++#define DESC_RATE48M				0x0a
++#define DESC_RATE54M				0x0b
++
++// MCS Rates, TxHT = 1
++#define DESC_RATEMCS0				0x0c
++#define DESC_RATEMCS1				0x0d
++#define DESC_RATEMCS2				0x0e
++#define DESC_RATEMCS3				0x0f
++#define DESC_RATEMCS4				0x10
++#define DESC_RATEMCS5				0x11
++#define DESC_RATEMCS6				0x12
++#define DESC_RATEMCS7				0x13
++#define DESC_RATEMCS8				0x14
++#define DESC_RATEMCS9				0x15
++#define DESC_RATEMCS10				0x16
++#define DESC_RATEMCS11				0x17
++#define DESC_RATEMCS12				0x18
++#define DESC_RATEMCS13				0x19
++#define DESC_RATEMCS14				0x1a
++#define DESC_RATEMCS15				0x1b
++#define DESC_RATEMCS15_SG			0x1c
++#define DESC_RATEMCS32				0x20
++
++//============================================================
++// Global var
++//============================================================
++#define	OFDM_TABLE_SIZE_92C 	37
++#define	OFDM_TABLE_SIZE_92D 	43
++#define	CCK_TABLE_SIZE		33
++
++extern u32 OFDMSwingTable[OFDM_TABLE_SIZE_92D] ;
++
++extern u8 CCKSwingTable_Ch1_Ch13[CCK_TABLE_SIZE][8];
++
++extern u8 CCKSwingTable_Ch14 [CCK_TABLE_SIZE][8];
++
++#ifdef CONFIG_CHIP_VER_INTEGRATION
++void dump_chip_info(HAL_VERSION	ChipVersion);
++#endif
++
++u8	//return the final channel plan decision
++hal_com_get_channel_plan(
++	IN	PADAPTER	padapter,
++	IN	u8			hw_channel_plan,	//channel plan from HW (efuse/eeprom)
++	IN	u8			sw_channel_plan,	//channel plan from SW (registry/module param)
++	IN	u8			def_channel_plan,	//channel plan used when the former two is invalid
++	IN	BOOLEAN		AutoLoadFail
++	);
++
++void	HalSetBrateCfg(
++	IN PADAPTER		Adapter,
++	IN u8			*mBratesOS,
++	OUT u16			*pBrateCfg);
++
++u8	MRateToHwRate(u8 rate);
++
++void hal_init_macaddr(_adapter *adapter);
++
++void c2h_evt_clear(_adapter *adapter);
++s32 c2h_evt_read(_adapter *adapter, u8 *buf);
++
++#endif //__HAL_COMMON_H__
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/hal_intf.h b/drivers/net/wireless/rtl8192cu/include/hal_intf.h
+new file mode 100755
+index 0000000..dd82662
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/hal_intf.h
+@@ -0,0 +1,432 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_INTF_H__
++#define __HAL_INTF_H__
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++#ifdef CONFIG_PCI_HCI
++#include <pci_hal.h>
++#endif
++
++
++enum RTL871X_HCI_TYPE {
++
++	RTW_SDIO,
++	RTW_USB,
++	RTW_PCIE
++};
++
++enum _CHIP_TYPE {
++
++	NULL_CHIP_TYPE,
++	RTL8712_8188S_8191S_8192S,
++	RTL8188C_8192C,
++	RTL8192D,
++	RTL8723A,
++	RTL8188E,	
++	MAX_CHIP_TYPE
++};
++
++
++typedef enum _HW_VARIABLES{
++	HW_VAR_MEDIA_STATUS,
++	HW_VAR_MEDIA_STATUS1,
++	HW_VAR_SET_OPMODE,
++	HW_VAR_MAC_ADDR,
++	HW_VAR_BSSID,
++	HW_VAR_INIT_RTS_RATE,
++	HW_VAR_INIT_DATA_RATE,
++	HW_VAR_BASIC_RATE,
++	HW_VAR_TXPAUSE,
++	HW_VAR_BCN_FUNC,
++	HW_VAR_CORRECT_TSF,
++	HW_VAR_CHECK_BSSID,
++	HW_VAR_MLME_DISCONNECT,
++	HW_VAR_MLME_SITESURVEY,
++	HW_VAR_MLME_JOIN,
++	HW_VAR_ON_RCR_AM,
++	HW_VAR_OFF_RCR_AM,
++	HW_VAR_BEACON_INTERVAL,
++	HW_VAR_SLOT_TIME,
++	HW_VAR_RESP_SIFS,
++	HW_VAR_ACK_PREAMBLE,
++	HW_VAR_SEC_CFG,
++	HW_VAR_BCN_VALID,
++	HW_VAR_RF_TYPE,
++	HW_VAR_DM_FLAG,
++	HW_VAR_DM_FUNC_OP,
++	HW_VAR_DM_FUNC_SET,
++	HW_VAR_DM_FUNC_CLR,
++	HW_VAR_DM_INIT_PWDB,
++	HW_VAR_CAM_EMPTY_ENTRY,
++	HW_VAR_CAM_INVALID_ALL,
++	HW_VAR_CAM_WRITE,
++	HW_VAR_CAM_READ,
++	HW_VAR_AC_PARAM_VO,
++	HW_VAR_AC_PARAM_VI,
++	HW_VAR_AC_PARAM_BE,
++	HW_VAR_AC_PARAM_BK,
++	HW_VAR_ACM_CTRL,
++	HW_VAR_AMPDU_MIN_SPACE,
++	HW_VAR_AMPDU_FACTOR,
++	HW_VAR_RXDMA_AGG_PG_TH,
++	HW_VAR_SET_RPWM,
++	HW_VAR_H2C_FW_PWRMODE,
++	HW_VAR_H2C_FW_JOINBSSRPT,
++	HW_VAR_FWLPS_RF_ON,
++	HW_VAR_H2C_FW_P2P_PS_OFFLOAD,
++	HW_VAR_TDLS_WRCR,
++	HW_VAR_TDLS_INIT_CH_SEN,
++	HW_VAR_TDLS_RS_RCR,
++	HW_VAR_TDLS_DONE_CH_SEN,	
++	HW_VAR_INITIAL_GAIN,
++	HW_VAR_TRIGGER_GPIO_0,
++	HW_VAR_BT_SET_COEXIST,
++	HW_VAR_BT_ISSUE_DELBA,	
++	HW_VAR_CURRENT_ANTENNA,
++	HW_VAR_ANTENNA_DIVERSITY_LINK,
++	HW_VAR_ANTENNA_DIVERSITY_SELECT,
++	HW_VAR_SWITCH_EPHY_WoWLAN,
++	HW_VAR_EFUSE_BYTES,
++	HW_VAR_FIFO_CLEARN_UP,
++	HW_VAR_CHECK_TXBUF,
++	HW_VAR_APFM_ON_MAC, //Auto FSM to Turn On, include clock, isolation, power control for MAC only
++	HW_VAR_WOWLAN,
++	HW_VAR_VID,
++	HW_VAR_PID,
++	HW_VAR_MBSSID_CAM_WRITE,
++	HW_VAR_MBSSID_CAM_CLEAR,
++	HW_VAR_RCR_MBSSID_EN,
++	HW_VAR_USB_RXAGG_PAGE_TO,
++}HW_VARIABLES;
++
++typedef enum _HAL_DEF_VARIABLE{
++	HAL_DEF_UNDERCORATEDSMOOTHEDPWDB,
++	HAL_DEF_IS_SUPPORT_ANT_DIV,
++	HAL_DEF_CURRENT_ANTENNA,
++	HAL_DEF_DRVINFO_SZ,
++	HAL_DEF_MAX_RECVBUF_SZ,
++	HAL_DEF_RX_PACKET_OFFSET,
++	HAL_DEF_DBG_DUMP_RXPKT,//for dbg
++	HAL_DEF_DBG_DM_FUNC,//for dbg
++	HAL_DEF_DUAL_MAC_MODE,
++}HAL_DEF_VARIABLE;
++
++typedef enum _HAL_INTF_PS_FUNC{
++	HAL_USB_SELECT_SUSPEND,
++	HAL_MAX_ID,
++}HAL_INTF_PS_FUNC;
++
++typedef s32 (*c2h_id_filter)(u8 id);
++
++struct hal_ops {
++	u32	(*hal_init)(PADAPTER Adapter);
++	u32	(*hal_deinit)(PADAPTER Adapter);
++
++	void	(*free_hal_data)(PADAPTER Adapter);
++
++	u32	(*inirp_init)(PADAPTER Adapter);
++	u32	(*inirp_deinit)(PADAPTER Adapter);
++
++	s32	(*init_xmit_priv)(PADAPTER Adapter);
++	void	(*free_xmit_priv)(PADAPTER Adapter);
++
++	s32	(*init_recv_priv)(PADAPTER Adapter);
++	void	(*free_recv_priv)(PADAPTER Adapter);
++
++	void	(*InitSwLeds)(PADAPTER Adapter);
++	void	(*DeInitSwLeds)(PADAPTER Adapter);
++
++	void	(*dm_init)(PADAPTER Adapter);
++	void	(*dm_deinit)(PADAPTER Adapter);
++	void	(*read_chip_version)(PADAPTER Adapter);
++
++	void	(*init_default_value)(PADAPTER Adapter);
++
++	void	(*intf_chip_configure)(PADAPTER Adapter);
++
++	void	(*read_adapter_info)(PADAPTER Adapter);
++
++	void	(*enable_interrupt)(PADAPTER Adapter);
++	void	(*disable_interrupt)(PADAPTER Adapter);
++	s32	(*interrupt_handler)(PADAPTER Adapter);
++
++	void	(*set_bwmode_handler)(PADAPTER Adapter, HT_CHANNEL_WIDTH Bandwidth, u8 Offset);
++	void	(*set_channel_handler)(PADAPTER Adapter, u8 channel);
++
++	void	(*hal_dm_watchdog)(PADAPTER Adapter);
++
++	void	(*SetHwRegHandler)(PADAPTER Adapter, u8	variable,u8* val);
++	void	(*GetHwRegHandler)(PADAPTER Adapter, u8	variable,u8* val);
++
++	u8	(*GetHalDefVarHandler)(PADAPTER Adapter, HAL_DEF_VARIABLE eVariable, PVOID pValue);
++	u8	(*SetHalDefVarHandler)(PADAPTER Adapter, HAL_DEF_VARIABLE eVariable, PVOID pValue);
++
++	void	(*UpdateRAMaskHandler)(PADAPTER Adapter, u32 mac_id);
++	void	(*SetBeaconRelatedRegistersHandler)(PADAPTER Adapter);
++
++	void	(*Add_RateATid)(PADAPTER Adapter, u32 bitmap, u8 arg);
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	u8	(*AntDivBeforeLinkHandler)(PADAPTER Adapter);
++	void	(*AntDivCompareHandler)(PADAPTER Adapter, WLAN_BSSID_EX *dst, WLAN_BSSID_EX *src);
++#endif
++	u8	(*interface_ps_func)(PADAPTER Adapter,HAL_INTF_PS_FUNC efunc_id, u8* val);
++
++	s32	(*hal_xmit)(PADAPTER Adapter, struct xmit_frame *pxmitframe);
++	s32	(*mgnt_xmit)(PADAPTER Adapter, struct xmit_frame *pmgntframe);
++        s32	(*hal_xmitframe_enqueue)(_adapter *padapter, struct xmit_frame *pxmitframe);
++
++	u32	(*read_bbreg)(PADAPTER Adapter, u32 RegAddr, u32 BitMask);
++	void	(*write_bbreg)(PADAPTER Adapter, u32 RegAddr, u32 BitMask, u32 Data);
++	u32	(*read_rfreg)(PADAPTER Adapter, u32 eRFPath, u32 RegAddr, u32 BitMask);
++	void	(*write_rfreg)(PADAPTER Adapter, u32 eRFPath, u32 RegAddr, u32 BitMask, u32 Data);
++
++#ifdef CONFIG_HOSTAPD_MLME
++	s32	(*hostap_mgnt_xmit_entry)(PADAPTER Adapter, _pkt *pkt);
++#endif
++	void (*EfusePowerSwitch)(PADAPTER pAdapter, u8 bWrite, u8 PwrState);
++	void (*ReadEFuse)(PADAPTER Adapter, u8 efuseType, u16 _offset, u16 _size_byte, u8 *pbuf, BOOLEAN bPseudoTest);
++	void (*EFUSEGetEfuseDefinition)(PADAPTER pAdapter, u8 efuseType, u8 type, PVOID *pOut, BOOLEAN bPseudoTest);
++	u16	(*EfuseGetCurrentSize)(PADAPTER pAdapter, u8 efuseType, BOOLEAN bPseudoTest);
++	int 	(*Efuse_PgPacketRead)(PADAPTER pAdapter, u8 offset, u8 *data, BOOLEAN bPseudoTest);
++	int 	(*Efuse_PgPacketWrite)(PADAPTER pAdapter, u8 offset, u8 word_en, u8 *data, BOOLEAN bPseudoTest);
++	u8	(*Efuse_WordEnableDataWrite)(PADAPTER pAdapter, u16 efuse_addr, u8 word_en, u8 *data, BOOLEAN bPseudoTest);
++	
++#ifdef DBG_CONFIG_ERROR_DETECT
++	void (*sreset_init_value)(_adapter *padapter);
++	void (*sreset_reset_value)(_adapter *padapter);		
++	void (*silentreset)(_adapter *padapter);
++	void (*sreset_xmit_status_check)(_adapter *padapter);
++	void (*sreset_linked_status_check) (_adapter *padapter);
++	u8 (*sreset_get_wifi_status)(_adapter *padapter);
++	bool (*sreset_inprogress)(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_IOL
++	int (*IOL_exec_cmds_sync)(ADAPTER *adapter, struct xmit_frame *xmit_frame, u32 max_wating_ms);
++#endif
++	void (*hal_notch_filter)(_adapter * adapter, bool enable);
++	void (*hal_reset_security_engine)(_adapter * adapter);
++
++	s32 (*c2h_handler)(_adapter *padapter, struct c2h_evt_hdr *c2h_evt);
++	c2h_id_filter c2h_id_filter_ccx;
++};
++
++typedef	enum _RT_EEPROM_TYPE{
++	EEPROM_93C46,
++	EEPROM_93C56,
++	EEPROM_BOOT_EFUSE,
++}RT_EEPROM_TYPE,*PRT_EEPROM_TYPE;
++
++#define USB_HIGH_SPEED_BULK_SIZE	512
++#define USB_FULL_SPEED_BULK_SIZE	64
++
++#define RF_CHANGE_BY_INIT	0
++#define RF_CHANGE_BY_IPS 	BIT28
++#define RF_CHANGE_BY_PS 	BIT29
++#define RF_CHANGE_BY_HW 	BIT30
++#define RF_CHANGE_BY_SW 	BIT31
++
++typedef enum _HARDWARE_TYPE{
++	HARDWARE_TYPE_RTL8180,
++	HARDWARE_TYPE_RTL8185,
++	HARDWARE_TYPE_RTL8187,
++	HARDWARE_TYPE_RTL8188,
++	HARDWARE_TYPE_RTL8190P,
++	HARDWARE_TYPE_RTL8192E,
++	HARDWARE_TYPE_RTL819xU,
++	HARDWARE_TYPE_RTL8192SE,
++	HARDWARE_TYPE_RTL8192SU,
++	HARDWARE_TYPE_RTL8192CE,
++	HARDWARE_TYPE_RTL8192CU,
++	HARDWARE_TYPE_RTL8192DE,
++	HARDWARE_TYPE_RTL8192DU,
++	HARDWARE_TYPE_RTL8723AE,
++	HARDWARE_TYPE_RTL8723AU,
++	HARDWARE_TYPE_RTL8723AS,
++	HARDWARE_TYPE_RTL8188EE,
++	HARDWARE_TYPE_RTL8188EU,
++	HARDWARE_TYPE_RTL8188ES,
++	HARDWARE_TYPE_MAX,
++}HARDWARE_TYPE;
++
++//
++// RTL8192C Series
++//
++#define IS_HARDWARE_TYPE_8192CE(_Adapter)	(((PADAPTER)_Adapter)->HardwareType==HARDWARE_TYPE_RTL8192CE)
++#define IS_HARDWARE_TYPE_8192CU(_Adapter)	(((PADAPTER)_Adapter)->HardwareType==HARDWARE_TYPE_RTL8192CU)
++#define	IS_HARDWARE_TYPE_8192C(_Adapter)			\
++(IS_HARDWARE_TYPE_8192CE(_Adapter) || IS_HARDWARE_TYPE_8192CU(_Adapter))
++
++//
++// RTL8192D Series
++//
++#define IS_HARDWARE_TYPE_8192DE(_Adapter)	(((PADAPTER)_Adapter)->HardwareType==HARDWARE_TYPE_RTL8192DE)
++#define IS_HARDWARE_TYPE_8192DU(_Adapter)	(((PADAPTER)_Adapter)->HardwareType==HARDWARE_TYPE_RTL8192DU)
++#define	IS_HARDWARE_TYPE_8192D(_Adapter)			\
++(IS_HARDWARE_TYPE_8192DE(_Adapter) || IS_HARDWARE_TYPE_8192DU(_Adapter))
++
++//
++// RTL8723A Series
++//
++#define IS_HARDWARE_TYPE_8723AE(_Adapter)	(((PADAPTER)_Adapter)->HardwareType==HARDWARE_TYPE_RTL8723AE)
++#define IS_HARDWARE_TYPE_8723AU(_Adapter)	(((PADAPTER)_Adapter)->HardwareType==HARDWARE_TYPE_RTL8723AU)
++#define IS_HARDWARE_TYPE_8723AS(_Adapter)	(((PADAPTER)_Adapter)->HardwareType==HARDWARE_TYPE_RTL8723AS)
++#define	IS_HARDWARE_TYPE_8723A(_Adapter)	\
++(IS_HARDWARE_TYPE_8723AE(_Adapter) || IS_HARDWARE_TYPE_8723AU(_Adapter) || IS_HARDWARE_TYPE_8723AS(_Adapter))
++
++//
++// RTL8188E Series
++//
++#define IS_HARDWARE_TYPE_8188EE(_Adapter)	(((PADAPTER)_Adapter)->HardwareType==HARDWARE_TYPE_RTL8188EE)
++#define IS_HARDWARE_TYPE_8188EU(_Adapter)	(((PADAPTER)_Adapter)->HardwareType==HARDWARE_TYPE_RTL8188EU)
++#define IS_HARDWARE_TYPE_8188ES(_Adapter)	(((PADAPTER)_Adapter)->HardwareType==HARDWARE_TYPE_RTL8188ES)
++#define	IS_HARDWARE_TYPE_8188E(_Adapter)	\
++(IS_HARDWARE_TYPE_8188EE(_Adapter) || IS_HARDWARE_TYPE_8188EU(_Adapter) || IS_HARDWARE_TYPE_8188ES(_Adapter))
++
++
++typedef struct eeprom_priv EEPROM_EFUSE_PRIV, *PEEPROM_EFUSE_PRIV;
++#define GET_EEPROM_EFUSE_PRIV(priv)	(&priv->eeprompriv)
++
++#ifdef CONFIG_WOWLAN
++typedef enum _wowlan_subcode{
++	WOWLAN_PATTERN_MATCH = 1,
++	WOWLAN_MAGIC_PACKET  = 2,
++	WOWLAN_UNICAST       = 3,
++	WOWLAN_SET_PATTERN   = 4,
++	WOWLAN_DUMP_REG      = 5,
++	WOWLAN_ENABLE        = 6,
++	WOWLAN_DISABLE       = 7,
++	WOWLAN_STATUS		= 8,
++	WOWLAN_DEBUG_RELOAD_FW	= 9,
++	WOWLAN_DEBUG_1		=10,
++	WOWLAN_DEBUG_2		=11
++}wowlan_subcode;
++
++struct wowlan_ioctl_param{
++	unsigned int subcode;
++	unsigned int subcode_value;
++	unsigned int wakeup_reason;
++	unsigned int len;
++	unsigned char pattern[0];
++};
++
++#define Rx_Pairwisekey			BIT(0)
++#define Rx_GTK					BIT(1)
++#define Rx_DisAssoc				BIT(2)
++#define Rx_DeAuth				BIT(3)
++#define FWDecisionDisconnect	BIT(4)
++#define Rx_MagicPkt				BIT(5)
++#define FinishBtFwPatch			BIT(7)
++
++#endif // CONFIG_WOWLAN
++
++void rtw_hal_def_value_init(_adapter *padapter);
++void rtw_hal_free_data(_adapter *padapter);
++
++void rtw_hal_dm_init(_adapter *padapter);
++void rtw_hal_dm_deinit(_adapter *padapter);
++void rtw_hal_sw_led_init(_adapter *padapter);
++void rtw_hal_sw_led_deinit(_adapter *padapter);
++
++uint rtw_hal_init(_adapter *padapter);
++uint rtw_hal_deinit(_adapter *padapter);
++void rtw_hal_stop(_adapter *padapter);
++
++void rtw_hal_set_hwreg(PADAPTER padapter, u8 variable, u8 *val);
++void rtw_hal_get_hwreg(PADAPTER padapter, u8 variable, u8 *val);
++
++void rtw_hal_chip_configure(_adapter *padapter);
++void rtw_hal_read_chip_info(_adapter *padapter);
++void rtw_hal_read_chip_version(_adapter *padapter);
++
++u8 rtw_hal_set_def_var(_adapter *padapter, HAL_DEF_VARIABLE eVariable, PVOID pValue);
++u8 rtw_hal_get_def_var(_adapter *padapter, HAL_DEF_VARIABLE eVariable, PVOID pValue);
++
++void rtw_hal_enable_interrupt(_adapter *padapter);
++void rtw_hal_disable_interrupt(_adapter *padapter);
++
++u32 rtw_hal_inirp_init(_adapter *padapter);
++u32 rtw_hal_inirp_deinit(_adapter *padapter);
++
++u8 rtw_hal_intf_ps_func(_adapter *padapter,HAL_INTF_PS_FUNC efunc_id, u8* val);
++
++s32	rtw_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++s32 rtw_hal_xmit(_adapter *padapter, struct xmit_frame *pxmitframe);
++s32 rtw_hal_mgnt_xmit(_adapter *padapter, struct xmit_frame *pmgntframe);
++
++s32 rtw_hal_init_xmit_priv(_adapter *padapter);
++void rtw_hal_free_xmit_priv(_adapter *padapter);
++
++s32 rtw_hal_init_recv_priv(_adapter *padapter);
++void rtw_hal_free_recv_priv(_adapter *padapter);
++
++void rtw_hal_update_ra_mask(_adapter *padapter, u32 mac_id);
++void rtw_hal_add_ra_tid(_adapter *padapter, u32 bitmap, u8 arg);
++
++void rtw_hal_bcn_related_reg_setting(_adapter *padapter);
++
++u32 rtw_hal_read_bbreg(_adapter *padapter, u32 RegAddr, u32 BitMask);
++void rtw_hal_write_bbreg(_adapter *padapter, u32 RegAddr, u32 BitMask, u32 Data);
++u32 rtw_hal_read_rfreg(_adapter *padapter, u32 eRFPath, u32 RegAddr, u32 BitMask);
++void rtw_hal_write_rfreg(_adapter *padapter, u32 eRFPath, u32 RegAddr, u32 BitMask, u32 Data);
++
++s32 rtw_hal_interrupt_handler(_adapter *padapter);
++
++void rtw_hal_set_bwmode(_adapter *padapter, HT_CHANNEL_WIDTH Bandwidth, u8 Offset);
++void rtw_hal_set_chan(_adapter *padapter, u8 channel);
++
++void rtw_hal_dm_watchdog(_adapter *padapter);
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++u8 rtw_hal_antdiv_before_linked(_adapter *padapter);
++void rtw_hal_antdiv_rssi_compared(_adapter *padapter, WLAN_BSSID_EX *dst, WLAN_BSSID_EX *src);
++#endif
++
++#ifdef CONFIG_HOSTAPD_MLME
++s32 rtw_hal_hostap_mgnt_xmit_entry(_adapter *padapter, _pkt *pkt);
++#endif
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++void rtw_hal_sreset_init(_adapter *padapter);
++void rtw_hal_sreset_reset(_adapter *padapter);
++void rtw_hal_sreset_reset_value(_adapter *padapter);
++void rtw_hal_sreset_xmit_status_check(_adapter *padapter);
++void rtw_hal_sreset_linked_status_check(_adapter *padapter);
++u8 rtw_hal_sreset_get_wifi_status(_adapter *padapter);
++bool rtw_hal_sreset_inprogress(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_IOL
++int rtw_hal_iol_cmd(ADAPTER *adapter, struct xmit_frame *xmit_frame, u32 max_wating_ms);
++#endif
++
++void rtw_hal_notch_filter(_adapter * adapter, bool enable);
++void rtw_hal_reset_security_engine(_adapter * adapter);
++
++s32 rtw_hal_c2h_handler(_adapter *adapter, struct c2h_evt_hdr *c2h_evt);
++c2h_id_filter rtw_hal_c2h_id_filter_ccx(_adapter *adapter);
++
++#endif //__HAL_INTF_H__
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/ieee80211.h b/drivers/net/wireless/rtl8192cu/include/ieee80211.h
+new file mode 100755
+index 0000000..e283a5f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/ieee80211.h
+@@ -0,0 +1,1580 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __IEEE80211_H
++#define __IEEE80211_H
++
++
++#ifndef CONFIG_RTL8711FW
++
++	#include <drv_conf.h>
++	#include <osdep_service.h>
++	#include <drv_types.h>
++	#include "wifi.h"
++
++	#if defined PLATFORM_OS_XP
++	#include <ntstrsafe.h>
++	#endif
++	#if defined PLATFORM_LINUX
++	#include <linux/wireless.h>
++	#endif
++#else
++	
++	#include <list.h>
++
++#endif
++
++#define MGMT_QUEUE_NUM 5
++
++#define ETH_ALEN	6
++#define ETH_TYPE_LEN		2
++#define PAYLOAD_TYPE_LEN	1
++
++#ifdef CONFIG_AP_MODE
++
++#define RTL_IOCTL_HOSTAPD (SIOCIWFIRSTPRIV + 28)
++
++/* RTL871X_IOCTL_HOSTAPD ioctl() cmd: */
++enum {
++	RTL871X_HOSTAPD_FLUSH = 1,
++	RTL871X_HOSTAPD_ADD_STA = 2,
++	RTL871X_HOSTAPD_REMOVE_STA = 3,
++	RTL871X_HOSTAPD_GET_INFO_STA = 4,
++	/* REMOVED: PRISM2_HOSTAPD_RESET_TXEXC_STA = 5, */
++	RTL871X_HOSTAPD_GET_WPAIE_STA = 5,
++	RTL871X_SET_ENCRYPTION = 6,
++	RTL871X_GET_ENCRYPTION = 7,
++	RTL871X_HOSTAPD_SET_FLAGS_STA = 8,
++	RTL871X_HOSTAPD_GET_RID = 9,
++	RTL871X_HOSTAPD_SET_RID = 10,
++	RTL871X_HOSTAPD_SET_ASSOC_AP_ADDR = 11,
++	RTL871X_HOSTAPD_SET_GENERIC_ELEMENT = 12,
++	RTL871X_HOSTAPD_MLME = 13,
++	RTL871X_HOSTAPD_SCAN_REQ = 14,
++	RTL871X_HOSTAPD_STA_CLEAR_STATS = 15,
++	RTL871X_HOSTAPD_SET_BEACON=16,
++	RTL871X_HOSTAPD_SET_WPS_BEACON = 17,
++	RTL871X_HOSTAPD_SET_WPS_PROBE_RESP = 18,
++	RTL871X_HOSTAPD_SET_WPS_ASSOC_RESP = 19,
++	RTL871X_HOSTAPD_SET_HIDDEN_SSID = 20,
++	RTL871X_HOSTAPD_SET_MACADDR_ACL = 21,
++	RTL871X_HOSTAPD_ACL_ADD_STA = 22,
++	RTL871X_HOSTAPD_ACL_REMOVE_STA = 23,
++};
++
++/* STA flags */
++#define WLAN_STA_AUTH BIT(0)
++#define WLAN_STA_ASSOC BIT(1)
++#define WLAN_STA_PS BIT(2)
++#define WLAN_STA_TIM BIT(3)
++#define WLAN_STA_PERM BIT(4)
++#define WLAN_STA_AUTHORIZED BIT(5)
++#define WLAN_STA_PENDING_POLL BIT(6) /* pending activity poll not ACKed */
++#define WLAN_STA_SHORT_PREAMBLE BIT(7)
++#define WLAN_STA_PREAUTH BIT(8)
++#define WLAN_STA_WME BIT(9)
++#define WLAN_STA_MFP BIT(10)
++#define WLAN_STA_HT BIT(11)
++#define WLAN_STA_WPS BIT(12)
++#define WLAN_STA_MAYBE_WPS BIT(13)
++#define WLAN_STA_NONERP BIT(31)
++
++#endif
++
++#define IEEE_CMD_SET_WPA_PARAM			1
++#define IEEE_CMD_SET_WPA_IE				2
++#define IEEE_CMD_SET_ENCRYPTION			3
++#define IEEE_CMD_MLME						4
++
++#define IEEE_PARAM_WPA_ENABLED				1
++#define IEEE_PARAM_TKIP_COUNTERMEASURES		2
++#define IEEE_PARAM_DROP_UNENCRYPTED			3
++#define IEEE_PARAM_PRIVACY_INVOKED			4
++#define IEEE_PARAM_AUTH_ALGS					5
++#define IEEE_PARAM_IEEE_802_1X				6
++#define IEEE_PARAM_WPAX_SELECT				7
++
++#define AUTH_ALG_OPEN_SYSTEM			0x1
++#define AUTH_ALG_SHARED_KEY			0x2
++#define AUTH_ALG_LEAP				0x00000004
++
++#define IEEE_MLME_STA_DEAUTH				1
++#define IEEE_MLME_STA_DISASSOC			2
++
++#define IEEE_CRYPT_ERR_UNKNOWN_ALG			2
++#define IEEE_CRYPT_ERR_UNKNOWN_ADDR			3
++#define IEEE_CRYPT_ERR_CRYPT_INIT_FAILED		4
++#define IEEE_CRYPT_ERR_KEY_SET_FAILED			5
++#define IEEE_CRYPT_ERR_TX_KEY_SET_FAILED		6
++#define IEEE_CRYPT_ERR_CARD_CONF_FAILED		7
++
++
++#define	IEEE_CRYPT_ALG_NAME_LEN			16
++
++#define WPA_CIPHER_NONE 	BIT(0)
++#define WPA_CIPHER_WEP40 	BIT(1)
++#define WPA_CIPHER_WEP104 BIT(2)
++#define WPA_CIPHER_TKIP 	BIT(3)
++#define WPA_CIPHER_CCMP 	BIT(4)
++
++
++
++#define WPA_SELECTOR_LEN 4
++extern u8 RTW_WPA_OUI_TYPE[] ;
++extern u16 RTW_WPA_VERSION ;
++extern u8 WPA_AUTH_KEY_MGMT_NONE[];
++extern u8 WPA_AUTH_KEY_MGMT_UNSPEC_802_1X[];
++extern u8 WPA_AUTH_KEY_MGMT_PSK_OVER_802_1X[];
++extern u8 WPA_CIPHER_SUITE_NONE[];
++extern u8 WPA_CIPHER_SUITE_WEP40[];
++extern u8 WPA_CIPHER_SUITE_TKIP[];
++extern u8 WPA_CIPHER_SUITE_WRAP[];
++extern u8 WPA_CIPHER_SUITE_CCMP[];
++extern u8 WPA_CIPHER_SUITE_WEP104[];
++
++
++#define RSN_HEADER_LEN 4
++#define RSN_SELECTOR_LEN 4
++
++extern u16 RSN_VERSION_BSD;
++extern u8 RSN_AUTH_KEY_MGMT_UNSPEC_802_1X[];
++extern u8 RSN_AUTH_KEY_MGMT_PSK_OVER_802_1X[];
++extern u8 RSN_CIPHER_SUITE_NONE[];
++extern u8 RSN_CIPHER_SUITE_WEP40[];
++extern u8 RSN_CIPHER_SUITE_TKIP[];
++extern u8 RSN_CIPHER_SUITE_WRAP[];
++extern u8 RSN_CIPHER_SUITE_CCMP[];
++extern u8 RSN_CIPHER_SUITE_WEP104[];
++
++typedef enum _RATR_TABLE_MODE{
++	RATR_INX_WIRELESS_NGB = 0,	// BGN 40 Mhz 2SS 1SS
++	RATR_INX_WIRELESS_NG = 1,		// GN or N
++	RATR_INX_WIRELESS_NB = 2,		// BGN 20 Mhz 2SS 1SS  or BN
++	RATR_INX_WIRELESS_N = 3,
++	RATR_INX_WIRELESS_GB = 4,
++	RATR_INX_WIRELESS_G = 5,
++	RATR_INX_WIRELESS_B = 6,
++	RATR_INX_WIRELESS_MC = 7,
++	RATR_INX_WIRELESS_AC_N = 8,
++}RATR_TABLE_MODE, *PRATR_TABLE_MODE;
++
++enum NETWORK_TYPE
++{
++    WIRELESS_INVALID = 0,
++    //Sub-Element
++    WIRELESS_11B = BIT(0), // tx: cck only , rx: cck only, hw: cck
++    WIRELESS_11G = BIT(1), // tx: ofdm only, rx: ofdm & cck, hw: cck & ofdm
++    WIRELESS_11A = BIT(2), // tx: ofdm only, rx: ofdm only, hw: ofdm only
++    WIRELESS_11_24N = BIT(3), // tx: MCS only, rx: MCS & cck, hw: MCS & cck
++    WIRELESS_11_5N = BIT(4), // tx: MCS only, rx: MCS & ofdm, hw: ofdm only
++	//WIRELESS_AUTO 	= BIT(5), 
++	WIRELESS_AC 		= BIT(6), 
++
++    //Combination
++    WIRELESS_11BG = (WIRELESS_11B|WIRELESS_11G), // tx: cck & ofdm, rx: cck & ofdm & MCS, hw: cck & ofdm
++    WIRELESS_11G_24N = (WIRELESS_11G|WIRELESS_11_24N), // tx: ofdm & MCS, rx: ofdm & cck & MCS, hw: cck & ofdm
++    WIRELESS_11A_5N = (WIRELESS_11A|WIRELESS_11_5N), // tx: ofdm & MCS, rx: ofdm & MCS, hw: ofdm only
++    WIRELESS_11BG_24N = (WIRELESS_11B|WIRELESS_11G|WIRELESS_11_24N), // tx: ofdm & cck & MCS, rx: ofdm & cck & MCS, hw: ofdm & cck
++    WIRELESS_11AGN = (WIRELESS_11A|WIRELESS_11G|WIRELESS_11_24N|WIRELESS_11_5N), // tx: ofdm & MCS, rx: ofdm & MCS, hw: ofdm only
++    WIRELESS_11ABGN = (WIRELESS_11A|WIRELESS_11B|WIRELESS_11G|WIRELESS_11_24N|WIRELESS_11_5N),
++};
++
++#define SUPPORTED_24G_NETTYPE_MSK (WIRELESS_11B | WIRELESS_11G | WIRELESS_11_24N)
++#define SUPPORTED_5G_NETTYPE_MSK (WIRELESS_11A | WIRELESS_11_5N)
++
++#define IsSupported24G(NetType) ((NetType) & SUPPORTED_24G_NETTYPE_MSK ? _TRUE : _FALSE)
++#define IsSupported5G(NetType) ((NetType) & SUPPORTED_5G_NETTYPE_MSK ? _TRUE : _FALSE)
++
++#define IsEnableHWCCK(NetType) IsSupported24G(NetType)
++#define IsEnableHWOFDM(NetType) ((NetType) & (WIRELESS_11G|WIRELESS_11_24N|SUPPORTED_5G_NETTYPE_MSK) ? _TRUE : _FALSE)
++
++#define IsSupportedRxCCK(NetType) IsEnableHWCCK(NetType)
++#define IsSupportedRxOFDM(NetType) IsEnableHWOFDM(NetType)
++#define IsSupportedRxMCS(NetType) IsEnableHWOFDM(NetType)
++
++#define IsSupportedTxCCK(NetType) ((NetType) & (WIRELESS_11B) ? _TRUE : _FALSE)
++#define IsSupportedTxOFDM(NetType) ((NetType) & (WIRELESS_11G|WIRELESS_11A) ? _TRUE : _FALSE)
++#define IsSupportedTxMCS(NetType) ((NetType) & (WIRELESS_11_24N|WIRELESS_11_5N) ? _TRUE : _FALSE) 
++
++
++typedef struct ieee_param {
++	u32 cmd;
++	u8 sta_addr[ETH_ALEN];
++	union {
++		struct {
++			u8 name;
++			u32 value;
++		} wpa_param;
++		struct {
++			u32 len;
++			u8 reserved[32];
++			u8 data[0];
++		} wpa_ie;
++	        struct{
++			int command;
++    			int reason_code;
++		} mlme;
++		struct {
++			u8 alg[IEEE_CRYPT_ALG_NAME_LEN];
++			u8 set_tx;
++			u32 err;
++			u8 idx;
++			u8 seq[8]; /* sequence counter (set: RX, get: TX) */
++			u16 key_len;
++			u8 key[0];
++		} crypt;
++#ifdef CONFIG_AP_MODE
++		struct {
++			u16 aid;
++			u16 capability;
++			int flags;
++			u8 tx_supp_rates[16];		
++			struct rtw_ieee80211_ht_cap ht_cap;
++		} add_sta;
++		struct {
++			u8	reserved[2];//for set max_num_sta
++			u8	buf[0];
++		} bcn_ie;
++#endif
++
++	} u;	   
++}ieee_param;
++
++#ifdef CONFIG_AP_MODE
++typedef struct ieee_param_ex {
++	u32 cmd;
++	u8 sta_addr[ETH_ALEN];
++	u8 data[0];
++}ieee_param_ex;
++
++struct sta_data{
++	u16 aid;
++	u16 capability;
++	int flags;
++	u32 sta_set;
++	u8 tx_supp_rates[16];	
++	u32 tx_supp_rates_len;
++	struct rtw_ieee80211_ht_cap ht_cap;
++	u64	rx_pkts;
++	u64	rx_bytes;
++	u64	rx_drops;
++	u64	tx_pkts;
++	u64	tx_bytes;
++	u64	tx_drops;
++};
++#endif
++
++
++#if WIRELESS_EXT < 17
++#define IW_QUAL_QUAL_INVALID   0x10
++#define IW_QUAL_LEVEL_INVALID  0x20
++#define IW_QUAL_NOISE_INVALID  0x40
++#define IW_QUAL_QUAL_UPDATED   0x1
++#define IW_QUAL_LEVEL_UPDATED  0x2
++#define IW_QUAL_NOISE_UPDATED  0x4
++#endif
++
++#define IEEE80211_DATA_LEN		2304
++/* Maximum size for the MA-UNITDATA primitive, 802.11 standard section
++   6.2.1.1.2.
++
++   The figure in section 7.1.2 suggests a body size of up to 2312
++   bytes is allowed, which is a bit confusing, I suspect this
++   represents the 2304 bytes of real data, plus a possible 8 bytes of
++   WEP IV and ICV. (this interpretation suggested by Ramiro Barreiro) */
++
++
++#define IEEE80211_HLEN			30
++#define IEEE80211_FRAME_LEN		(IEEE80211_DATA_LEN + IEEE80211_HLEN)
++
++
++/* this is stolen from ipw2200 driver */
++#define IEEE_IBSS_MAC_HASH_SIZE 31
++
++struct ieee_ibss_seq {
++	u8 mac[ETH_ALEN];
++	u16 seq_num;
++	u16 frag_num;
++	unsigned long packet_time;
++	_list	list;
++};
++
++#if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8711FW)||defined(PLATFORM_FREEBSD) 
++
++struct rtw_ieee80211_hdr {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[ETH_ALEN];
++	u8 addr2[ETH_ALEN];
++	u8 addr3[ETH_ALEN];
++	u16 seq_ctl;
++	u8 addr4[ETH_ALEN];
++} __attribute__ ((packed));
++
++struct rtw_ieee80211_hdr_3addr {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[ETH_ALEN];
++	u8 addr2[ETH_ALEN];
++	u8 addr3[ETH_ALEN];
++	u16 seq_ctl;
++} __attribute__ ((packed));
++
++
++struct rtw_ieee80211_hdr_qos {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[ETH_ALEN];
++	u8 addr2[ETH_ALEN];
++	u8 addr3[ETH_ALEN];
++	u16 seq_ctl;
++	u8 addr4[ETH_ALEN];
++	u16	qc;
++}  __attribute__ ((packed));
++
++struct rtw_ieee80211_hdr_3addr_qos {
++        u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[ETH_ALEN];
++	u8 addr2[ETH_ALEN];
++	u8 addr3[ETH_ALEN];
++	u16 seq_ctl;
++       u16     qc;
++}  __attribute__ ((packed));
++
++struct eapol {
++	u8 snap[6];
++	u16 ethertype;
++	u8 version;
++	u8 type;
++	u16 length;
++} __attribute__ ((packed));
++
++#endif
++
++
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++struct rtw_ieee80211_hdr {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[ETH_ALEN];
++	u8 addr2[ETH_ALEN];
++	u8 addr3[ETH_ALEN];
++	u16 seq_ctl;
++	u8 addr4[ETH_ALEN];
++};
++
++struct rtw_ieee80211_hdr_3addr {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[ETH_ALEN];
++	u8 addr2[ETH_ALEN];
++	u8 addr3[ETH_ALEN];
++	u16 seq_ctl;
++};
++
++
++struct rtw_ieee80211_hdr_qos {
++	struct rtw_ieee80211_hdr wlan_hdr;
++	u16	qc;
++};
++
++struct rtw_ieee80211_hdr_3addr_qos {
++        struct  rtw_ieee80211_hdr_3addr wlan_hdr;
++        u16     qc;
++};
++
++struct eapol {
++	u8 snap[6];
++	u16 ethertype;
++	u8 version;
++	u8 type;
++	u16 length;
++};
++#pragma pack()
++
++#endif
++
++
++
++enum eap_type {
++	EAP_PACKET = 0,
++	EAPOL_START,
++	EAPOL_LOGOFF,
++	EAPOL_KEY,
++	EAPOL_ENCAP_ASF_ALERT
++};
++
++#define IEEE80211_3ADDR_LEN 24
++#define IEEE80211_4ADDR_LEN 30
++#define IEEE80211_FCS_LEN    4
++
++#define MIN_FRAG_THRESHOLD     256U
++#define	MAX_FRAG_THRESHOLD     2346U
++
++/* Frame control field constants */
++#define RTW_IEEE80211_FCTL_VERS		0x0003
++#define RTW_IEEE80211_FCTL_FTYPE		0x000c
++#define RTW_IEEE80211_FCTL_STYPE		0x00f0
++#define RTW_IEEE80211_FCTL_TODS		0x0100
++#define RTW_IEEE80211_FCTL_FROMDS	0x0200
++#define RTW_IEEE80211_FCTL_MOREFRAGS	0x0400
++#define RTW_IEEE80211_FCTL_RETRY		0x0800
++#define RTW_IEEE80211_FCTL_PM		0x1000
++#define RTW_IEEE80211_FCTL_MOREDATA	0x2000
++#define RTW_IEEE80211_FCTL_PROTECTED	0x4000
++#define RTW_IEEE80211_FCTL_ORDER		0x8000
++#define RTW_IEEE80211_FCTL_CTL_EXT	0x0f00
++
++#define RTW_IEEE80211_FTYPE_MGMT		0x0000
++#define RTW_IEEE80211_FTYPE_CTL		0x0004
++#define RTW_IEEE80211_FTYPE_DATA		0x0008
++#define RTW_IEEE80211_FTYPE_EXT		0x000c
++
++/* management */
++#define RTW_IEEE80211_STYPE_ASSOC_REQ	0x0000
++#define RTW_IEEE80211_STYPE_ASSOC_RESP 	0x0010
++#define RTW_IEEE80211_STYPE_REASSOC_REQ	0x0020
++#define RTW_IEEE80211_STYPE_REASSOC_RESP	0x0030
++#define RTW_IEEE80211_STYPE_PROBE_REQ	0x0040
++#define RTW_IEEE80211_STYPE_PROBE_RESP	0x0050
++#define RTW_IEEE80211_STYPE_BEACON		0x0080
++#define RTW_IEEE80211_STYPE_ATIM		0x0090
++#define RTW_IEEE80211_STYPE_DISASSOC	0x00A0
++#define RTW_IEEE80211_STYPE_AUTH		0x00B0
++#define RTW_IEEE80211_STYPE_DEAUTH		0x00C0
++#define RTW_IEEE80211_STYPE_ACTION		0x00D0
++
++/* control */
++#define RTW_IEEE80211_STYPE_CTL_EXT		0x0060
++#define RTW_IEEE80211_STYPE_BACK_REQ		0x0080
++#define RTW_IEEE80211_STYPE_BACK		0x0090
++#define RTW_IEEE80211_STYPE_PSPOLL		0x00A0
++#define RTW_IEEE80211_STYPE_RTS		0x00B0
++#define RTW_IEEE80211_STYPE_CTS		0x00C0
++#define RTW_IEEE80211_STYPE_ACK		0x00D0
++#define RTW_IEEE80211_STYPE_CFEND		0x00E0
++#define RTW_IEEE80211_STYPE_CFENDACK		0x00F0
++
++/* data */
++#define RTW_IEEE80211_STYPE_DATA		0x0000
++#define RTW_IEEE80211_STYPE_DATA_CFACK	0x0010
++#define RTW_IEEE80211_STYPE_DATA_CFPOLL	0x0020
++#define RTW_IEEE80211_STYPE_DATA_CFACKPOLL	0x0030
++#define RTW_IEEE80211_STYPE_NULLFUNC	0x0040
++#define RTW_IEEE80211_STYPE_CFACK		0x0050
++#define RTW_IEEE80211_STYPE_CFPOLL		0x0060
++#define RTW_IEEE80211_STYPE_CFACKPOLL	0x0070
++#define RTW_IEEE80211_STYPE_QOS_DATA		0x0080
++#define RTW_IEEE80211_STYPE_QOS_DATA_CFACK		0x0090
++#define RTW_IEEE80211_STYPE_QOS_DATA_CFPOLL		0x00A0
++#define RTW_IEEE80211_STYPE_QOS_DATA_CFACKPOLL	0x00B0
++#define RTW_IEEE80211_STYPE_QOS_NULLFUNC	0x00C0
++#define RTW_IEEE80211_STYPE_QOS_CFACK		0x00D0
++#define RTW_IEEE80211_STYPE_QOS_CFPOLL		0x00E0
++#define RTW_IEEE80211_STYPE_QOS_CFACKPOLL	0x00F0
++
++/* sequence control field */
++#define RTW_IEEE80211_SCTL_FRAG	0x000F
++#define RTW_IEEE80211_SCTL_SEQ	0xFFF0
++
++
++#define RTW_ERP_INFO_NON_ERP_PRESENT BIT(0)
++#define RTW_ERP_INFO_USE_PROTECTION BIT(1)
++#define RTW_ERP_INFO_BARKER_PREAMBLE_MODE BIT(2)
++
++/* QoS,QOS */
++#define NORMAL_ACK			0
++#define NO_ACK				1
++#define NON_EXPLICIT_ACK	2
++#define BLOCK_ACK			3
++
++#ifndef ETH_P_PAE
++#define ETH_P_PAE 0x888E /* Port Access Entity (IEEE 802.1X) */
++#endif /* ETH_P_PAE */
++
++#define ETH_P_PREAUTH 0x88C7 /* IEEE 802.11i pre-authentication */
++
++#define ETH_P_ECONET	0x0018
++
++#ifndef ETH_P_80211_RAW
++#define ETH_P_80211_RAW (ETH_P_ECONET + 1)
++#endif
++
++/* IEEE 802.11 defines */
++
++#define P80211_OUI_LEN 3
++
++#if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8711FW) || defined(PLATFORM_FREEBSD)
++
++struct ieee80211_snap_hdr {
++
++        u8    dsap;   /* always 0xAA */
++        u8    ssap;   /* always 0xAA */
++        u8    ctrl;   /* always 0x03 */
++        u8    oui[P80211_OUI_LEN];    /* organizational universal id */
++
++} __attribute__ ((packed));
++
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++struct ieee80211_snap_hdr {
++
++        u8    dsap;   /* always 0xAA */
++        u8    ssap;   /* always 0xAA */
++        u8    ctrl;   /* always 0x03 */
++        u8    oui[P80211_OUI_LEN];    /* organizational universal id */
++
++};
++#pragma pack()
++
++#endif
++
++
++#define SNAP_SIZE sizeof(struct ieee80211_snap_hdr)
++
++#define WLAN_FC_GET_TYPE(fc) ((fc) & RTW_IEEE80211_FCTL_FTYPE)
++#define WLAN_FC_GET_STYPE(fc) ((fc) & RTW_IEEE80211_FCTL_STYPE)
++
++#define WLAN_QC_GET_TID(qc) ((qc) & 0x0f)
++
++#define WLAN_GET_SEQ_FRAG(seq) ((seq) & RTW_IEEE80211_SCTL_FRAG)
++#define WLAN_GET_SEQ_SEQ(seq)  ((seq) & RTW_IEEE80211_SCTL_SEQ)
++
++/* Authentication algorithms */
++#define WLAN_AUTH_OPEN 0
++#define WLAN_AUTH_SHARED_KEY 1
++
++#define WLAN_AUTH_CHALLENGE_LEN 128
++
++#define WLAN_CAPABILITY_BSS (1<<0)
++#define WLAN_CAPABILITY_IBSS (1<<1)
++#define WLAN_CAPABILITY_CF_POLLABLE (1<<2)
++#define WLAN_CAPABILITY_CF_POLL_REQUEST (1<<3)
++#define WLAN_CAPABILITY_PRIVACY (1<<4)
++#define WLAN_CAPABILITY_SHORT_PREAMBLE (1<<5)
++#define WLAN_CAPABILITY_PBCC (1<<6)
++#define WLAN_CAPABILITY_CHANNEL_AGILITY (1<<7)
++#define WLAN_CAPABILITY_SHORT_SLOT (1<<10)
++
++/* Status codes */
++#define WLAN_STATUS_SUCCESS 0
++#define WLAN_STATUS_UNSPECIFIED_FAILURE 1
++#define WLAN_STATUS_CAPS_UNSUPPORTED 10
++#define WLAN_STATUS_REASSOC_NO_ASSOC 11
++#define WLAN_STATUS_ASSOC_DENIED_UNSPEC 12
++#define WLAN_STATUS_NOT_SUPPORTED_AUTH_ALG 13
++#define WLAN_STATUS_UNKNOWN_AUTH_TRANSACTION 14
++#define WLAN_STATUS_CHALLENGE_FAIL 15
++#define WLAN_STATUS_AUTH_TIMEOUT 16
++#define WLAN_STATUS_AP_UNABLE_TO_HANDLE_NEW_STA 17
++#define WLAN_STATUS_ASSOC_DENIED_RATES 18
++/* 802.11b */
++#define WLAN_STATUS_ASSOC_DENIED_NOSHORT 19
++#define WLAN_STATUS_ASSOC_DENIED_NOPBCC 20
++#define WLAN_STATUS_ASSOC_DENIED_NOAGILITY 21
++
++/* Reason codes */
++#define WLAN_REASON_UNSPECIFIED 1
++#define WLAN_REASON_PREV_AUTH_NOT_VALID 2
++#define WLAN_REASON_DEAUTH_LEAVING 3
++#define WLAN_REASON_DISASSOC_DUE_TO_INACTIVITY 4
++#define WLAN_REASON_DISASSOC_AP_BUSY 5
++#define WLAN_REASON_CLASS2_FRAME_FROM_NONAUTH_STA 6
++#define WLAN_REASON_CLASS3_FRAME_FROM_NONASSOC_STA 7
++#define WLAN_REASON_DISASSOC_STA_HAS_LEFT 8
++#define WLAN_REASON_STA_REQ_ASSOC_WITHOUT_AUTH 9
++#define WLAN_REASON_JOIN_WRONG_CHANNEL       65534
++#define WLAN_REASON_EXPIRATION_CHK 65535
++
++/* Information Element IDs */
++#define WLAN_EID_SSID 0
++#define WLAN_EID_SUPP_RATES 1
++#define WLAN_EID_FH_PARAMS 2
++#define WLAN_EID_DS_PARAMS 3
++#define WLAN_EID_CF_PARAMS 4
++#define WLAN_EID_TIM 5
++#define WLAN_EID_IBSS_PARAMS 6
++#define WLAN_EID_CHALLENGE 16
++/* EIDs defined by IEEE 802.11h - START */
++#define WLAN_EID_PWR_CONSTRAINT 32
++#define WLAN_EID_PWR_CAPABILITY 33
++#define WLAN_EID_TPC_REQUEST 34
++#define WLAN_EID_TPC_REPORT 35
++#define WLAN_EID_SUPPORTED_CHANNELS 36
++#define WLAN_EID_CHANNEL_SWITCH 37
++#define WLAN_EID_MEASURE_REQUEST 38
++#define WLAN_EID_MEASURE_REPORT 39
++#define WLAN_EID_QUITE 40
++#define WLAN_EID_IBSS_DFS 41
++/* EIDs defined by IEEE 802.11h - END */
++#define WLAN_EID_ERP_INFO 42
++#define WLAN_EID_HT_CAP 45
++#define WLAN_EID_RSN 48
++#define WLAN_EID_EXT_SUPP_RATES 50
++#define WLAN_EID_MOBILITY_DOMAIN 54
++#define WLAN_EID_FAST_BSS_TRANSITION 55
++#define WLAN_EID_TIMEOUT_INTERVAL 56
++#define WLAN_EID_RIC_DATA 57
++#define WLAN_EID_HT_OPERATION 61
++#define WLAN_EID_SECONDARY_CHANNEL_OFFSET 62
++#define WLAN_EID_20_40_BSS_COEXISTENCE 72
++#define WLAN_EID_20_40_BSS_INTOLERANT 73
++#define WLAN_EID_OVERLAPPING_BSS_SCAN_PARAMS 74
++#define WLAN_EID_MMIE 76
++#define WLAN_EID_VENDOR_SPECIFIC 221
++#define WLAN_EID_GENERIC (WLAN_EID_VENDOR_SPECIFIC)
++
++#define IEEE80211_MGMT_HDR_LEN 24
++#define IEEE80211_DATA_HDR3_LEN 24
++#define IEEE80211_DATA_HDR4_LEN 30
++
++
++#define IEEE80211_STATMASK_SIGNAL (1<<0)
++#define IEEE80211_STATMASK_RSSI (1<<1)
++#define IEEE80211_STATMASK_NOISE (1<<2)
++#define IEEE80211_STATMASK_RATE (1<<3)
++#define IEEE80211_STATMASK_WEMASK 0x7
++
++
++#define IEEE80211_CCK_MODULATION    (1<<0)
++#define IEEE80211_OFDM_MODULATION   (1<<1)
++
++#define IEEE80211_24GHZ_BAND     (1<<0)
++#define IEEE80211_52GHZ_BAND     (1<<1)
++
++#define IEEE80211_CCK_RATE_LEN  		4
++#define IEEE80211_NUM_OFDM_RATESLEN	8
++
++
++#define IEEE80211_CCK_RATE_1MB		        0x02
++#define IEEE80211_CCK_RATE_2MB		        0x04
++#define IEEE80211_CCK_RATE_5MB		        0x0B
++#define IEEE80211_CCK_RATE_11MB		        0x16
++#define IEEE80211_OFDM_RATE_LEN 		8
++#define IEEE80211_OFDM_RATE_6MB		        0x0C
++#define IEEE80211_OFDM_RATE_9MB		        0x12
++#define IEEE80211_OFDM_RATE_12MB		0x18
++#define IEEE80211_OFDM_RATE_18MB		0x24
++#define IEEE80211_OFDM_RATE_24MB		0x30
++#define IEEE80211_OFDM_RATE_36MB		0x48
++#define IEEE80211_OFDM_RATE_48MB		0x60
++#define IEEE80211_OFDM_RATE_54MB		0x6C
++#define IEEE80211_BASIC_RATE_MASK		0x80
++
++#define IEEE80211_CCK_RATE_1MB_MASK		(1<<0)
++#define IEEE80211_CCK_RATE_2MB_MASK		(1<<1)
++#define IEEE80211_CCK_RATE_5MB_MASK		(1<<2)
++#define IEEE80211_CCK_RATE_11MB_MASK		(1<<3)
++#define IEEE80211_OFDM_RATE_6MB_MASK		(1<<4)
++#define IEEE80211_OFDM_RATE_9MB_MASK		(1<<5)
++#define IEEE80211_OFDM_RATE_12MB_MASK		(1<<6)
++#define IEEE80211_OFDM_RATE_18MB_MASK		(1<<7)
++#define IEEE80211_OFDM_RATE_24MB_MASK		(1<<8)
++#define IEEE80211_OFDM_RATE_36MB_MASK		(1<<9)
++#define IEEE80211_OFDM_RATE_48MB_MASK		(1<<10)
++#define IEEE80211_OFDM_RATE_54MB_MASK		(1<<11)
++
++#define IEEE80211_CCK_RATES_MASK	        0x0000000F
++#define IEEE80211_CCK_BASIC_RATES_MASK	(IEEE80211_CCK_RATE_1MB_MASK | \
++	IEEE80211_CCK_RATE_2MB_MASK)
++#define IEEE80211_CCK_DEFAULT_RATES_MASK	(IEEE80211_CCK_BASIC_RATES_MASK | \
++        IEEE80211_CCK_RATE_5MB_MASK | \
++        IEEE80211_CCK_RATE_11MB_MASK)
++
++#define IEEE80211_OFDM_RATES_MASK		0x00000FF0
++#define IEEE80211_OFDM_BASIC_RATES_MASK	(IEEE80211_OFDM_RATE_6MB_MASK | \
++	IEEE80211_OFDM_RATE_12MB_MASK | \
++	IEEE80211_OFDM_RATE_24MB_MASK)
++#define IEEE80211_OFDM_DEFAULT_RATES_MASK	(IEEE80211_OFDM_BASIC_RATES_MASK | \
++	IEEE80211_OFDM_RATE_9MB_MASK  | \
++	IEEE80211_OFDM_RATE_18MB_MASK | \
++	IEEE80211_OFDM_RATE_36MB_MASK | \
++	IEEE80211_OFDM_RATE_48MB_MASK | \
++	IEEE80211_OFDM_RATE_54MB_MASK)
++#define IEEE80211_DEFAULT_RATES_MASK (IEEE80211_OFDM_DEFAULT_RATES_MASK | \
++                                IEEE80211_CCK_DEFAULT_RATES_MASK)
++
++#define IEEE80211_NUM_OFDM_RATES	    8
++#define IEEE80211_NUM_CCK_RATES	            4
++#define IEEE80211_OFDM_SHIFT_MASK_A         4
++
++
++
++
++/* NOTE: This data is for statistical purposes; not all hardware provides this
++ *       information for frames received.  Not setting these will not cause
++ *       any adverse affects. */
++struct ieee80211_rx_stats {
++	//u32 mac_time[2];
++	s8 rssi;
++	u8 signal;
++	u8 noise;
++	u8 received_channel;
++	u16 rate; /* in 100 kbps */
++	//u8 control;
++	u8 mask;
++	u8 freq;
++	u16 len;
++};
++
++/* IEEE 802.11 requires that STA supports concurrent reception of at least
++ * three fragmented frames. This define can be increased to support more
++ * concurrent frames, but it should be noted that each entry can consume about
++ * 2 kB of RAM and increasing cache size will slow down frame reassembly. */
++#define IEEE80211_FRAG_CACHE_LEN 4
++
++struct ieee80211_frag_entry {
++	u32 first_frag_time;
++	uint seq;
++	uint last_frag;
++	uint qos;   //jackson
++	uint tid;	//jackson
++	struct sk_buff *skb;
++	u8 src_addr[ETH_ALEN];
++	u8 dst_addr[ETH_ALEN];
++};
++
++#ifndef PLATFORM_FREEBSD //Baron BSD has already defined
++struct ieee80211_stats {
++	uint tx_unicast_frames;
++	uint tx_multicast_frames;
++	uint tx_fragments;
++	uint tx_unicast_octets;
++	uint tx_multicast_octets;
++	uint tx_deferred_transmissions;
++	uint tx_single_retry_frames;
++	uint tx_multiple_retry_frames;
++	uint tx_retry_limit_exceeded;
++	uint tx_discards;
++	uint rx_unicast_frames;
++	uint rx_multicast_frames;
++	uint rx_fragments;
++	uint rx_unicast_octets;
++	uint rx_multicast_octets;
++	uint rx_fcs_errors;
++	uint rx_discards_no_buffer;
++	uint tx_discards_wrong_sa;
++	uint rx_discards_undecryptable;
++	uint rx_message_in_msg_fragments;
++	uint rx_message_in_bad_msg_fragments;
++};
++#endif //PLATFORM_FREEBSD
++struct ieee80211_softmac_stats{
++	uint rx_ass_ok;
++	uint rx_ass_err;
++	uint rx_probe_rq;
++	uint tx_probe_rs;
++	uint tx_beacons;
++	uint rx_auth_rq;
++	uint rx_auth_rs_ok;
++	uint rx_auth_rs_err;
++	uint tx_auth_rq;
++	uint no_auth_rs;
++	uint no_ass_rs;
++	uint tx_ass_rq;
++	uint rx_ass_rq;
++	uint tx_probe_rq;
++	uint reassoc;
++	uint swtxstop;
++	uint swtxawake;
++};
++
++#define SEC_KEY_1         (1<<0)
++#define SEC_KEY_2         (1<<1)
++#define SEC_KEY_3         (1<<2)
++#define SEC_KEY_4         (1<<3)
++#define SEC_ACTIVE_KEY    (1<<4)
++#define SEC_AUTH_MODE     (1<<5)
++#define SEC_UNICAST_GROUP (1<<6)
++#define SEC_LEVEL         (1<<7)
++#define SEC_ENABLED       (1<<8)
++
++#define SEC_LEVEL_0      0 /* None */
++#define SEC_LEVEL_1      1 /* WEP 40 and 104 bit */
++#define SEC_LEVEL_2      2 /* Level 1 + TKIP */
++#define SEC_LEVEL_2_CKIP 3 /* Level 1 + CKIP */
++#define SEC_LEVEL_3      4 /* Level 2 + CCMP */
++
++#define WEP_KEYS 4
++#define WEP_KEY_LEN 13
++
++#ifdef CONFIG_IEEE80211W
++#define BIP_MAX_KEYID 5
++#define BIP_AAD_SIZE  20
++#endif //CONFIG_IEEE80211W
++
++#if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8711FW)
++
++struct ieee80211_security {
++	u16 active_key:2,
++            enabled:1,
++	    auth_mode:2,
++            auth_algo:4,
++            unicast_uses_group:1;
++	u8 key_sizes[WEP_KEYS];
++	u8 keys[WEP_KEYS][WEP_KEY_LEN];
++	u8 level;
++	u16 flags;
++} __attribute__ ((packed));
++
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++struct ieee80211_security {
++	u16 active_key:2,
++            enabled:1,
++	    auth_mode:2,
++            auth_algo:4,
++            unicast_uses_group:1;
++	u8 key_sizes[WEP_KEYS];
++	u8 keys[WEP_KEYS][WEP_KEY_LEN];
++	u8 level;
++	u16 flags;
++} ;
++#pragma pack()
++
++#endif
++
++/*
++
++ 802.11 data frame from AP
++
++      ,-------------------------------------------------------------------.
++Bytes |  2   |  2   |    6    |    6    |    6    |  2   | 0..2312 |   4  |
++      |------|------|---------|---------|---------|------|---------|------|
++Desc. | ctrl | dura |  DA/RA  |   TA    |    SA   | Sequ |  frame  |  fcs |
++      |      | tion | (BSSID) |         |         | ence |  data   |      |
++      `-------------------------------------------------------------------'
++
++Total: 28-2340 bytes
++
++*/
++
++struct ieee80211_header_data {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[6];
++	u8 addr2[6];
++	u8 addr3[6];
++	u16 seq_ctrl;
++};
++
++#define BEACON_PROBE_SSID_ID_POSITION 12
++
++/* Management Frame Information Element Types */
++#define MFIE_TYPE_SSID       0
++#define MFIE_TYPE_RATES      1
++#define MFIE_TYPE_FH_SET     2
++#define MFIE_TYPE_DS_SET     3
++#define MFIE_TYPE_CF_SET     4
++#define MFIE_TYPE_TIM        5
++#define MFIE_TYPE_IBSS_SET   6
++#define MFIE_TYPE_CHALLENGE  16
++#define MFIE_TYPE_ERP        42
++#define MFIE_TYPE_RSN	     48
++#define MFIE_TYPE_RATES_EX   50
++#define MFIE_TYPE_GENERIC    221
++
++#if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8711FW)
++
++struct ieee80211_info_element_hdr {
++	u8 id;
++	u8 len;
++} __attribute__ ((packed));
++
++struct ieee80211_info_element {
++	u8 id;
++	u8 len;
++	u8 data[0];
++} __attribute__ ((packed));
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++struct ieee80211_info_element_hdr {
++	u8 id;
++	u8 len;
++} ;
++
++struct ieee80211_info_element {
++	u8 id;
++	u8 len;
++	u8 data[0];
++} ;
++#pragma pack()
++
++#endif
++
++
++/*
++ * These are the data types that can make up management packets
++ *
++	u16 auth_algorithm;
++	u16 auth_sequence;
++	u16 beacon_interval;
++	u16 capability;
++	u8 current_ap[ETH_ALEN];
++	u16 listen_interval;
++	struct {
++		u16 association_id:14, reserved:2;
++	} __attribute__ ((packed));
++	u32 time_stamp[2];
++	u16 reason;
++	u16 status;
++*/
++
++#define IEEE80211_DEFAULT_TX_ESSID "Penguin"
++#define IEEE80211_DEFAULT_BASIC_RATE 10
++
++
++#if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8711FW)
++
++
++struct ieee80211_authentication {
++	struct ieee80211_header_data header;
++	u16 algorithm;
++	u16 transaction;
++	u16 status;
++	//struct ieee80211_info_element_hdr info_element;
++} __attribute__ ((packed));
++
++
++struct ieee80211_probe_response {
++	struct ieee80211_header_data header;
++	u32 time_stamp[2];
++	u16 beacon_interval;
++	u16 capability;
++	struct ieee80211_info_element info_element;
++} __attribute__ ((packed));
++
++struct ieee80211_probe_request {
++	struct ieee80211_header_data header;
++	/*struct ieee80211_info_element info_element;*/
++} __attribute__ ((packed));
++
++struct ieee80211_assoc_request_frame {
++	struct rtw_ieee80211_hdr_3addr header;
++	u16 capability;
++	u16 listen_interval;
++	//u8 current_ap[ETH_ALEN];
++	struct ieee80211_info_element_hdr info_element;
++} __attribute__ ((packed));
++
++struct ieee80211_assoc_response_frame {
++	struct rtw_ieee80211_hdr_3addr header;
++	u16 capability;
++	u16 status;
++	u16 aid;
++//	struct ieee80211_info_element info_element; /* supported rates */
++} __attribute__ ((packed));
++#endif
++
++
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++
++struct ieee80211_authentication {
++	struct ieee80211_header_data header;
++	u16 algorithm;
++	u16 transaction;
++	u16 status;
++	//struct ieee80211_info_element_hdr info_element;
++} ;
++
++
++struct ieee80211_probe_response {
++	struct ieee80211_header_data header;
++	u32 time_stamp[2];
++	u16 beacon_interval;
++	u16 capability;
++	struct ieee80211_info_element info_element;
++} ;
++
++struct ieee80211_probe_request {
++	struct ieee80211_header_data header;
++	/*struct ieee80211_info_element info_element;*/
++} ;
++
++struct ieee80211_assoc_request_frame {
++	struct rtw_ieee80211_hdr_3addr header;
++	u16 capability;
++	u16 listen_interval;
++	//u8 current_ap[ETH_ALEN];
++	struct ieee80211_info_element_hdr info_element;
++} ;
++
++struct ieee80211_assoc_response_frame {
++	struct rtw_ieee80211_hdr_3addr header;
++	u16 capability;
++	u16 status;
++	u16 aid;
++//	struct ieee80211_info_element info_element; /* supported rates */
++};
++
++#pragma pack()
++
++#endif
++
++
++
++
++struct ieee80211_txb {
++	u8 nr_frags;
++	u8 encrypted;
++	u16 reserved;
++	u16 frag_size;
++	u16 payload_size;
++	struct sk_buff *fragments[0];
++};
++
++
++/* SWEEP TABLE ENTRIES NUMBER*/
++#define MAX_SWEEP_TAB_ENTRIES		  42
++#define MAX_SWEEP_TAB_ENTRIES_PER_PACKET  7
++/* MAX_RATES_LENGTH needs to be 12.  The spec says 8, and many APs
++ * only use 8, and then use extended rates for the remaining supported
++ * rates.  Other APs, however, stick all of their supported rates on the
++ * main rates information element... */
++#define MAX_RATES_LENGTH                  ((u8)12)
++#define MAX_RATES_EX_LENGTH               ((u8)16)
++#define MAX_NETWORK_COUNT                  128
++#define MAX_CHANNEL_NUMBER                 161
++#define IEEE80211_SOFTMAC_SCAN_TIME	  400
++//(HZ / 2)
++#define IEEE80211_SOFTMAC_ASSOC_RETRY_TIME (HZ * 2)
++
++#define CRC_LENGTH                 4U
++
++#define MAX_WPA_IE_LEN (256)
++#define MAX_WPS_IE_LEN (512)
++#define MAX_P2P_IE_LEN (256)
++#define MAX_WFD_IE_LEN (128)
++
++#define NETWORK_EMPTY_ESSID (1<<0)
++#define NETWORK_HAS_OFDM    (1<<1)
++#define NETWORK_HAS_CCK     (1<<2)
++
++#define IEEE80211_DTIM_MBCAST 4
++#define IEEE80211_DTIM_UCAST 2
++#define IEEE80211_DTIM_VALID 1
++#define IEEE80211_DTIM_INVALID 0
++
++#define IEEE80211_PS_DISABLED 0
++#define IEEE80211_PS_UNICAST IEEE80211_DTIM_UCAST
++#define IEEE80211_PS_MBCAST IEEE80211_DTIM_MBCAST
++#define IW_ESSID_MAX_SIZE 32
++#if 0
++struct ieee80211_network {
++	/* These entries are used to identify a unique network */
++	u8 bssid[ETH_ALEN];
++	u8 channel;
++	/* Ensure null-terminated for any debug msgs */
++	u8 ssid[IW_ESSID_MAX_SIZE + 1];
++	u8 ssid_len;
++	u8	rssi;	//relative signal strength
++	u8	sq;		//signal quality
++
++	/* These are network statistics */
++	//struct ieee80211_rx_stats stats;
++	u16 capability;
++	u16	aid;
++	u8 rates[MAX_RATES_LENGTH];
++	u8 rates_len;
++	u8 rates_ex[MAX_RATES_EX_LENGTH];
++	u8 rates_ex_len;
++	
++	u8 edca_parmsets[18];
++		
++	u8 mode;
++	u8 flags;
++	u8 time_stamp[8];
++	u16 beacon_interval;
++	u16 listen_interval;
++	u16 atim_window;
++	u8 wpa_ie[MAX_WPA_IE_LEN];
++	size_t wpa_ie_len;
++	u8 rsn_ie[MAX_WPA_IE_LEN];
++	size_t rsn_ie_len;
++	u8 country[6];
++	u8 dtim_period;
++	u8 dtim_data;
++	u8 power_constraint;
++	u8 qosinfo;
++	u8 qbssload[5];
++	u8 network_type;
++	int join_res;
++	unsigned long	last_scanned;	
++};
++#endif
++/*
++join_res:
++-1: authentication fail
++-2: association fail
++> 0: TID
++*/
++
++#ifndef PLATFORM_FREEBSD //Baron BSD has already defined
++
++enum ieee80211_state {
++
++	/* the card is not linked at all */
++	IEEE80211_NOLINK = 0,
++	
++	/* IEEE80211_ASSOCIATING* are for BSS client mode
++	 * the driver shall not perform RX filtering unless
++	 * the state is LINKED.
++	 * The driver shall just check for the state LINKED and
++	 * defaults to NOLINK for ALL the other states (including
++	 * LINKED_SCANNING)
++	 */
++	
++	/* the association procedure will start (wq scheduling)*/
++	IEEE80211_ASSOCIATING,
++	IEEE80211_ASSOCIATING_RETRY,
++	
++	/* the association procedure is sending AUTH request*/
++	IEEE80211_ASSOCIATING_AUTHENTICATING,
++	
++	/* the association procedure has successfully authentcated
++	 * and is sending association request
++	 */
++	IEEE80211_ASSOCIATING_AUTHENTICATED,
++	
++	/* the link is ok. the card associated to a BSS or linked
++	 * to a ibss cell or acting as an AP and creating the bss
++	 */
++	IEEE80211_LINKED,
++	
++	/* same as LINKED, but the driver shall apply RX filter
++	 * rules as we are in NO_LINK mode. As the card is still
++	 * logically linked, but it is doing a syncro site survey
++	 * then it will be back to LINKED state.
++	 */
++	IEEE80211_LINKED_SCANNING,
++	
++};
++#endif //PLATFORM_FREEBSD
++
++#define DEFAULT_MAX_SCAN_AGE (15 * HZ)
++#define DEFAULT_FTS 2346
++#define MAC_FMT "%02x:%02x:%02x:%02x:%02x:%02x"
++#define MAC_ARG(x) ((u8*)(x))[0],((u8*)(x))[1],((u8*)(x))[2],((u8*)(x))[3],((u8*)(x))[4],((u8*)(x))[5]
++
++#ifdef PLATFORM_FREEBSD //Baron change func to macro
++#define is_multicast_mac_addr(Addr) ((((Addr[0]) & 0x01) == 0x01) && ((Addr[0]) != 0xff))
++#define is_broadcast_mac_addr(Addr) ((((Addr[0]) & 0xff) == 0xff) && (((Addr[1]) & 0xff) == 0xff) && \
++(((Addr[2]) & 0xff) == 0xff) && (((Addr[3]) & 0xff) == 0xff) && (((Addr[4]) & 0xff) == 0xff) && \
++(((Addr[5]) & 0xff) == 0xff))
++#else
++extern __inline int is_multicast_mac_addr(const u8 *addr)
++{
++        return ((addr[0] != 0xff) && (0x01 & addr[0]));
++}
++
++extern __inline int is_broadcast_mac_addr(const u8 *addr)
++{
++	return ((addr[0] == 0xff) && (addr[1] == 0xff) && (addr[2] == 0xff) &&   \
++		(addr[3] == 0xff) && (addr[4] == 0xff) && (addr[5] == 0xff));
++}
++
++extern __inline int is_zero_mac_addr(const u8 *addr)
++{
++	return ((addr[0] == 0x00) && (addr[1] == 0x00) && (addr[2] == 0x00) &&   \
++		(addr[3] == 0x00) && (addr[4] == 0x00) && (addr[5] == 0x00));
++}
++#endif //PLATFORM_FREEBSD
++
++#define CFG_IEEE80211_RESERVE_FCS (1<<0)
++#define CFG_IEEE80211_COMPUTE_FCS (1<<1)
++
++typedef struct tx_pending_t{
++	int frag;
++	struct ieee80211_txb *txb;
++}tx_pending_t;
++
++
++
++#define MAXTID	16
++
++#define IEEE_A            (1<<0)
++#define IEEE_B            (1<<1)
++#define IEEE_G            (1<<2)
++#define IEEE_MODE_MASK    (IEEE_A|IEEE_B|IEEE_G)
++
++//Baron move to ieee80211.c
++int ieee80211_is_empty_essid(const char *essid, int essid_len);
++int ieee80211_get_hdrlen(u16 fc);
++
++#if 0
++/* Action frame categories (IEEE 802.11-2007, 7.3.1.11, Table 7-24) */
++#define WLAN_ACTION_SPECTRUM_MGMT 0
++#define WLAN_ACTION_QOS 1
++#define WLAN_ACTION_DLS 2
++#define WLAN_ACTION_BLOCK_ACK 3
++#define WLAN_ACTION_RADIO_MEASUREMENT 5
++#define WLAN_ACTION_FT 6
++#define WLAN_ACTION_SA_QUERY 8
++#define WLAN_ACTION_WMM 17
++#endif
++
++
++/* Action category code */
++enum rtw_ieee80211_category {
++	RTW_WLAN_CATEGORY_SPECTRUM_MGMT = 0,
++	RTW_WLAN_CATEGORY_QOS = 1,
++	RTW_WLAN_CATEGORY_DLS = 2,
++	RTW_WLAN_CATEGORY_BACK = 3,
++	RTW_WLAN_CATEGORY_PUBLIC = 4, //IEEE 802.11 public action frames
++	RTW_WLAN_CATEGORY_RADIO_MEASUREMENT  = 5,
++	RTW_WLAN_CATEGORY_FT = 6,
++	RTW_WLAN_CATEGORY_HT = 7,
++	RTW_WLAN_CATEGORY_SA_QUERY = 8,
++	RTW_WLAN_CATEGORY_UNPROTECTED_WNM = 11, // add for CONFIG_IEEE80211W, none 11w also can use
++	RTW_WLAN_CATEGORY_TDLS = 12,
++	RTW_WLAN_CATEGORY_SELF_PROTECTED = 15, // add for CONFIG_IEEE80211W, none 11w also can use
++	RTW_WLAN_CATEGORY_WMM = 17,
++	RTW_WLAN_CATEGORY_P2P = 0x7f,//P2P action frames
++};
++
++/* SPECTRUM_MGMT action code */
++enum rtw_ieee80211_spectrum_mgmt_actioncode {
++	RTW_WLAN_ACTION_SPCT_MSR_REQ = 0,
++	RTW_WLAN_ACTION_SPCT_MSR_RPRT = 1,
++	RTW_WLAN_ACTION_SPCT_TPC_REQ = 2,
++	RTW_WLAN_ACTION_SPCT_TPC_RPRT = 3,
++	RTW_WLAN_ACTION_SPCT_CHL_SWITCH = 4,
++	RTW_WLAN_ACTION_SPCT_EXT_CHL_SWITCH = 5,
++};
++
++enum _PUBLIC_ACTION{
++	ACT_PUBLIC_BSSCOEXIST = 0, // 20/40 BSS Coexistence
++	ACT_PUBLIC_DSE_ENABLE = 1,
++	ACT_PUBLIC_DSE_DEENABLE = 2,
++	ACT_PUBLIC_DSE_REG_LOCATION = 3,
++	ACT_PUBLIC_EXT_CHL_SWITCH = 4,
++	ACT_PUBLIC_DSE_MSR_REQ = 5,
++	ACT_PUBLIC_DSE_MSR_RPRT = 6,
++	ACT_PUBLIC_MP = 7, // Measurement Pilot
++	ACT_PUBLIC_DSE_PWR_CONSTRAINT = 8,
++	ACT_PUBLIC_VENDOR = 9, // for WIFI_DIRECT
++	ACT_PUBLIC_GAS_INITIAL_REQ = 10,
++	ACT_PUBLIC_GAS_INITIAL_RSP = 11,
++	ACT_PUBLIC_GAS_COMEBACK_REQ = 12,
++	ACT_PUBLIC_GAS_COMEBACK_RSP = 13,
++	ACT_PUBLIC_TDLS_DISCOVERY_RSP = 14,
++	ACT_PUBLIC_LOCATION_TRACK = 15,
++	ACT_PUBLIC_MAX
++};
++
++#ifdef CONFIG_TDLS
++enum TDLS_ACTION_FIELD{
++	TDLS_SETUP_REQUEST = 0,
++	TDLS_SETUP_RESPONSE = 1,
++	TDLS_SETUP_CONFIRM = 2,
++	TDLS_TEARDOWN = 3,
++	TDLS_PEER_TRAFFIC_INDICATION = 4,
++	TDLS_CHANNEL_SWITCH_REQUEST = 5,
++	TDLS_CHANNEL_SWITCH_RESPONSE = 6,
++	TDLS_PEER_PSM_REQUEST = 7,
++	TDLS_PEER_PSM_RESPONSE = 8,
++	TDLS_PEER_TRAFFIC_RESPONSE = 9,
++	TDLS_DISCOVERY_REQUEST = 10,
++	TDLS_DISCOVERY_RESPONSE = 14,	//it's used in public action frame
++};
++
++#define	TUNNELED_PROBE_REQ	15
++#define	TUNNELED_PROBE_RSP	16
++#endif //CONFIG_TDLS
++
++/* BACK action code */
++enum rtw_ieee80211_back_actioncode {
++	RTW_WLAN_ACTION_ADDBA_REQ = 0,
++	RTW_WLAN_ACTION_ADDBA_RESP = 1,
++	RTW_WLAN_ACTION_DELBA = 2,
++};
++
++/* HT features action code */
++enum rtw_ieee80211_ht_actioncode {
++	RTW_WLAN_ACTION_NOTIFY_CH_WIDTH = 0,
++       RTW_WLAN_ACTION_SM_PS = 1,
++       RTW_WLAN_ACTION_PSPM = 2,
++       RTW_WLAN_ACTION_PCO_PHASE = 3,
++       RTW_WLAN_ACTION_MIMO_CSI_MX = 4,
++       RTW_WLAN_ACTION_MIMO_NONCP_BF = 5,
++       RTW_WLAN_ACTION_MIMP_CP_BF = 6,
++       RTW_WLAN_ACTION_ASEL_INDICATES_FB = 7,
++       RTW_WLAN_ACTION_HI_INFO_EXCHG = 8,
++};
++
++/* BACK (block-ack) parties */
++enum rtw_ieee80211_back_parties {
++	RTW_WLAN_BACK_RECIPIENT = 0,
++	RTW_WLAN_BACK_INITIATOR = 1,
++	RTW_WLAN_BACK_TIMER = 2,
++};
++
++
++#define OUI_MICROSOFT 0x0050f2 /* Microsoft (also used in Wi-Fi specs)
++				* 00:50:F2 */
++#ifndef PLATFORM_FREEBSD //Baron BSD has defined
++#define WME_OUI_TYPE 2
++#endif //PLATFORM_FREEBSD
++#define WME_OUI_SUBTYPE_INFORMATION_ELEMENT 0
++#define WME_OUI_SUBTYPE_PARAMETER_ELEMENT 1
++#define WME_OUI_SUBTYPE_TSPEC_ELEMENT 2
++#define WME_VERSION 1
++
++#define WME_ACTION_CODE_SETUP_REQUEST 0
++#define WME_ACTION_CODE_SETUP_RESPONSE 1
++#define WME_ACTION_CODE_TEARDOWN 2
++
++#define WME_SETUP_RESPONSE_STATUS_ADMISSION_ACCEPTED 0
++#define WME_SETUP_RESPONSE_STATUS_INVALID_PARAMETERS 1
++#define WME_SETUP_RESPONSE_STATUS_REFUSED 3
++
++#define WME_TSPEC_DIRECTION_UPLINK 0
++#define WME_TSPEC_DIRECTION_DOWNLINK 1
++#define WME_TSPEC_DIRECTION_BI_DIRECTIONAL 3
++
++
++#define OUI_BROADCOM 0x00904c /* Broadcom (Epigram) */
++
++#define VENDOR_HT_CAPAB_OUI_TYPE 0x33 /* 00-90-4c:0x33 */
++
++/**
++ * enum rtw_ieee80211_channel_flags - channel flags
++ *
++ * Channel flags set by the regulatory control code.
++ *
++ * @RTW_IEEE80211_CHAN_DISABLED: This channel is disabled.
++ * @RTW_IEEE80211_CHAN_PASSIVE_SCAN: Only passive scanning is permitted
++ *      on this channel.
++ * @RTW_IEEE80211_CHAN_NO_IBSS: IBSS is not allowed on this channel.
++ * @RTW_IEEE80211_CHAN_RADAR: Radar detection is required on this channel.
++ * @RTW_IEEE80211_CHAN_NO_HT40PLUS: extension channel above this channel
++ *      is not permitted.
++ * @RTW_IEEE80211_CHAN_NO_HT40MINUS: extension channel below this channel
++ *      is not permitted.
++ */
++  enum rtw_ieee80211_channel_flags {
++          RTW_IEEE80211_CHAN_DISABLED         = 1<<0,
++          RTW_IEEE80211_CHAN_PASSIVE_SCAN     = 1<<1,
++          RTW_IEEE80211_CHAN_NO_IBSS          = 1<<2,
++          RTW_IEEE80211_CHAN_RADAR            = 1<<3,
++          RTW_IEEE80211_CHAN_NO_HT40PLUS      = 1<<4,
++          RTW_IEEE80211_CHAN_NO_HT40MINUS     = 1<<5,
++  };
++  
++  #define RTW_IEEE80211_CHAN_NO_HT40 \
++          (RTW_IEEE80211_CHAN_NO_HT40PLUS | RTW_IEEE80211_CHAN_NO_HT40MINUS)
++
++/* Represent channel details, subset of ieee80211_channel */
++struct rtw_ieee80211_channel {
++	//enum ieee80211_band band;
++	//u16 center_freq;
++	u16 hw_value;
++	u32 flags;
++	//int max_antenna_gain;
++	//int max_power;
++	//int max_reg_power;
++	//bool beacon_found;
++	//u32 orig_flags;
++	//int orig_mag;
++	//int orig_mpwr;
++}; 
++
++#define CHAN_FMT \
++	/*"band:%d, "*/ \
++	/*"center_freq:%u, "*/ \
++	"hw_value:%u, " \
++	"flags:0x%08x" \
++	/*"max_antenna_gain:%d\n"*/ \
++	/*"max_power:%d\n"*/ \
++	/*"max_reg_power:%d\n"*/ \
++	/*"beacon_found:%u\n"*/ \
++	/*"orig_flags:0x%08x\n"*/ \
++	/*"orig_mag:%d\n"*/ \
++	/*"orig_mpwr:%d\n"*/ 
++
++#define CHAN_ARG(channel) \
++	/*(channel)->band*/ \
++	/*, (channel)->center_freq*/ \
++	(channel)->hw_value \
++	, (channel)->flags \
++	/*, (channel)->max_antenna_gain*/ \
++	/*, (channel)->max_power*/ \
++	/*, (channel)->max_reg_power*/ \
++	/*, (channel)->beacon_found*/ \
++	/*, (channel)->orig_flags*/ \
++	/*, (channel)->orig_mag*/ \
++	/*, (channel)->orig_mpwr*/ \
++
++/* Parsed Information Elements */
++struct rtw_ieee802_11_elems {
++	u8 *ssid;
++	u8 ssid_len;
++	u8 *supp_rates;
++	u8 supp_rates_len;
++	u8 *fh_params;
++	u8 fh_params_len;
++	u8 *ds_params;
++	u8 ds_params_len;
++	u8 *cf_params;
++	u8 cf_params_len;
++	u8 *tim;
++	u8 tim_len;
++	u8 *ibss_params;
++	u8 ibss_params_len;
++	u8 *challenge;
++	u8 challenge_len;
++	u8 *erp_info;
++	u8 erp_info_len;
++	u8 *ext_supp_rates;
++	u8 ext_supp_rates_len;
++	u8 *wpa_ie;
++	u8 wpa_ie_len;
++	u8 *rsn_ie;
++	u8 rsn_ie_len;
++	u8 *wme;
++	u8 wme_len;
++	u8 *wme_tspec;
++	u8 wme_tspec_len;
++	u8 *wps_ie;
++	u8 wps_ie_len;
++	u8 *power_cap;
++	u8 power_cap_len;
++	u8 *supp_channels;
++	u8 supp_channels_len;
++	u8 *mdie;
++	u8 mdie_len;
++	u8 *ftie;
++	u8 ftie_len;
++	u8 *timeout_int;
++	u8 timeout_int_len;
++	u8 *ht_capabilities;
++	u8 ht_capabilities_len;
++	u8 *ht_operation;
++	u8 ht_operation_len;
++	u8 *vendor_ht_cap;
++	u8 vendor_ht_cap_len;
++};
++
++typedef enum { ParseOK = 0, ParseUnknown = 1, ParseFailed = -1 } ParseRes;
++
++ParseRes rtw_ieee802_11_parse_elems(u8 *start, uint len,
++				struct rtw_ieee802_11_elems *elems,
++				int show_errors);
++
++u8 *rtw_set_fixed_ie(unsigned char *pbuf, unsigned int len, unsigned char *source, unsigned int *frlen);
++u8 *rtw_set_ie(u8 *pbuf, sint index, uint len, u8 *source, uint *frlen);
++
++enum secondary_ch_offset {
++	SCN = 0, /* no secondary channel */
++	SCA = 1, /* secondary channel above */
++	SCB = 3,  /* secondary channel below */
++};
++u8 secondary_ch_offset_to_hal_ch_offset(u8 ch_offset);
++u8 hal_ch_offset_to_secondary_ch_offset(u8 ch_offset);
++u8 *rtw_set_ie_ch_switch(u8 *buf, u32 *buf_len, u8 ch_switch_mode, u8 new_ch, u8 ch_switch_cnt);
++u8 *rtw_set_ie_secondary_ch_offset(u8 *buf, u32 *buf_len, u8 secondary_ch_offset);
++u8 *rtw_set_ie_mesh_ch_switch_parm(u8 *buf, u32 *buf_len, u8 ttl, u8 flags, u16 reason, u16 precedence);
++
++u8 *rtw_get_ie(u8*pbuf, sint index, sint *len, sint limit);
++u8 *rtw_get_ie_ex(u8 *in_ie, uint in_len, u8 eid, u8 *oui, u8 oui_len, u8 *ie, uint *ielen);
++int rtw_ies_remove_ie(u8 *ies, uint *ies_len, uint offset, u8 eid, u8 *oui, u8 oui_len);
++
++void rtw_set_supported_rate(u8* SupportedRates, uint mode) ;
++
++unsigned char *rtw_get_wpa_ie(unsigned char *pie, int *wpa_ie_len, int limit);
++unsigned char *rtw_get_wpa2_ie(unsigned char *pie, int *rsn_ie_len, int limit);
++int rtw_get_wpa_cipher_suite(u8 *s);
++int rtw_get_wpa2_cipher_suite(u8 *s);
++int rtw_parse_wpa_ie(u8* wpa_ie, int wpa_ie_len, int *group_cipher, int *pairwise_cipher);
++int rtw_parse_wpa2_ie(u8* wpa_ie, int wpa_ie_len, int *group_cipher, int *pairwise_cipher);
++
++int rtw_get_sec_ie(u8 *in_ie,uint in_len,u8 *rsn_ie,u16 *rsn_len,u8 *wpa_ie,u16 *wpa_len);
++
++u8 rtw_is_wps_ie(u8 *ie_ptr, uint *wps_ielen);
++u8 *rtw_get_wps_ie(u8 *in_ie, uint in_len, u8 *wps_ie, uint *wps_ielen);
++u8 *rtw_get_wps_attr(u8 *wps_ie, uint wps_ielen, u16 target_attr_id ,u8 *buf_attr, u32 *len_attr);
++u8 *rtw_get_wps_attr_content(u8 *wps_ie, uint wps_ielen, u16 target_attr_id ,u8 *buf_content, uint *len_content);
++
++/**
++ * for_each_ie - iterate over continuous IEs
++ * @ie:
++ * @buf:
++ * @buf_len:
++ */
++#define for_each_ie(ie, buf, buf_len) \
++	for (ie = (void*)buf; (((u8*)ie) - ((u8*)buf) + 1) < buf_len; ie = (void*)(((u8*)ie) + *(((u8*)ie)+1) + 2))
++
++void dump_ies(u8 *buf, u32 buf_len);
++void dump_wps_ie(u8 *ie, u32 ie_len);
++
++#ifdef CONFIG_P2P
++u32 rtw_get_p2p_merged_ies_len(u8 *in_ie, u32 in_len);
++int rtw_p2p_merge_ies(u8 *in_ie, u32 in_len, u8 *merge_ie);
++void dump_p2p_ie(u8 *ie, u32 ie_len);
++u8 *rtw_get_p2p_ie(u8 *in_ie, int in_len, u8 *p2p_ie, uint *p2p_ielen);
++u8 *rtw_get_p2p_attr(u8 *p2p_ie, uint p2p_ielen, u8 target_attr_id ,u8 *buf_attr, u32 *len_attr);
++u8 *rtw_get_p2p_attr_content(u8 *p2p_ie, uint p2p_ielen, u8 target_attr_id ,u8 *buf_content, uint *len_content);
++u32 rtw_set_p2p_attr_content(u8 *pbuf, u8 attr_id, u16 attr_len, u8 *pdata_attr);
++void rtw_WLAN_BSSID_EX_remove_p2p_attr(WLAN_BSSID_EX *bss_ex, u8 attr_id);
++#endif
++
++#ifdef CONFIG_WFD
++int rtw_get_wfd_ie(u8 *in_ie, int in_len, u8 *wfd_ie, uint *wfd_ielen);
++int rtw_get_wfd_attr_content(u8 *wfd_ie, uint wfd_ielen, u8 target_attr_id ,u8 *attr_content, uint *attr_contentlen);
++#endif // CONFIG_WFD
++
++uint	rtw_get_rateset_len(u8	*rateset);
++
++struct registry_priv;
++int rtw_generate_ie(struct registry_priv *pregistrypriv);
++
++
++int rtw_get_bit_value_from_ieee_value(u8 val);
++
++uint	rtw_is_cckrates_included(u8 *rate);
++
++uint	rtw_is_cckratesonly_included(u8 *rate);
++
++int rtw_check_network_type(unsigned char *rate, int ratelen, int channel);
++
++void rtw_macaddr_cfg(u8 *mac_addr);
++
++u16 rtw_mcs_rate(u8 rf_type, u8 bw_40MHz, u8 short_GI_20, u8 short_GI_40, unsigned char * MCS_rate);
++
++int rtw_action_frame_parse(const u8 *frame, u32 frame_len, u8* category, u8 *action);
++const char *action_public_str(u8 action);
++
++#endif /* IEEE80211_H */
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/ieee80211_ext.h b/drivers/net/wireless/rtl8192cu/include/ieee80211_ext.h
+new file mode 100755
+index 0000000..3e55305
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/ieee80211_ext.h
+@@ -0,0 +1,477 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __IEEE80211_EXT_H
++#define __IEEE80211_EXT_H
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++#define WMM_OUI_TYPE 2
++#define WMM_OUI_SUBTYPE_INFORMATION_ELEMENT 0
++#define WMM_OUI_SUBTYPE_PARAMETER_ELEMENT 1
++#define WMM_OUI_SUBTYPE_TSPEC_ELEMENT 2
++#define WMM_VERSION 1
++
++#define WPA_PROTO_WPA BIT(0)
++#define WPA_PROTO_RSN BIT(1)
++
++#define WPA_KEY_MGMT_IEEE8021X BIT(0)
++#define WPA_KEY_MGMT_PSK BIT(1)
++#define WPA_KEY_MGMT_NONE BIT(2)
++#define WPA_KEY_MGMT_IEEE8021X_NO_WPA BIT(3)
++#define WPA_KEY_MGMT_WPA_NONE BIT(4)
++
++
++#define WPA_CAPABILITY_PREAUTH BIT(0)
++#define WPA_CAPABILITY_MGMT_FRAME_PROTECTION BIT(6)
++#define WPA_CAPABILITY_PEERKEY_ENABLED BIT(9)
++
++
++#define PMKID_LEN 16
++
++
++#ifdef PLATFORM_LINUX
++struct wpa_ie_hdr {
++	u8 elem_id;
++	u8 len;
++	u8 oui[4]; /* 24-bit OUI followed by 8-bit OUI type */
++	u8 version[2]; /* little endian */
++}__attribute__ ((packed));
++
++struct rsn_ie_hdr {
++	u8 elem_id; /* WLAN_EID_RSN */
++	u8 len;
++	u8 version[2]; /* little endian */
++}__attribute__ ((packed));
++
++struct wme_ac_parameter {
++#if defined(CONFIG_LITTLE_ENDIAN)
++	/* byte 1 */
++	u8 	aifsn:4,
++		acm:1,
++	 	aci:2,
++	 	reserved:1;
++
++	/* byte 2 */
++	u8 	eCWmin:4,
++	 	eCWmax:4;
++#elif defined(CONFIG_BIG_ENDIAN)
++	/* byte 1 */
++	u8 	reserved:1,
++	 	aci:2,
++	 	acm:1,
++	 	aifsn:4;
++
++	/* byte 2 */
++	u8 	eCWmax:4,
++	 	eCWmin:4;
++#else
++#error	"Please fix <endian.h>"
++#endif
++
++	/* bytes 3 & 4 */
++	u16 txopLimit;
++} __attribute__ ((packed));
++
++struct wme_parameter_element {
++	/* required fields for WME version 1 */
++	u8 oui[3];
++	u8 oui_type;
++	u8 oui_subtype;
++	u8 version;
++	u8 acInfo;
++	u8 reserved;
++	struct wme_ac_parameter ac[4];
++
++} __attribute__ ((packed));
++
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++
++struct wpa_ie_hdr {
++	u8 elem_id;
++	u8 len;
++	u8 oui[4]; /* 24-bit OUI followed by 8-bit OUI type */
++	u8 version[2]; /* little endian */
++};
++
++struct rsn_ie_hdr {
++	u8 elem_id; /* WLAN_EID_RSN */
++	u8 len;
++	u8 version[2]; /* little endian */
++};
++
++#pragma pack()
++
++#endif
++
++#define WPA_PUT_LE16(a, val)			\
++	do {					\
++		(a)[1] = ((u16) (val)) >> 8;	\
++		(a)[0] = ((u16) (val)) & 0xff;	\
++	} while (0)
++
++#define WPA_PUT_BE32(a, val)					\
++	do {							\
++		(a)[0] = (u8) ((((u32) (val)) >> 24) & 0xff);	\
++		(a)[1] = (u8) ((((u32) (val)) >> 16) & 0xff);	\
++		(a)[2] = (u8) ((((u32) (val)) >> 8) & 0xff);	\
++		(a)[3] = (u8) (((u32) (val)) & 0xff);		\
++	} while (0)
++
++#define WPA_PUT_LE32(a, val)					\
++	do {							\
++		(a)[3] = (u8) ((((u32) (val)) >> 24) & 0xff);	\
++		(a)[2] = (u8) ((((u32) (val)) >> 16) & 0xff);	\
++		(a)[1] = (u8) ((((u32) (val)) >> 8) & 0xff);	\
++		(a)[0] = (u8) (((u32) (val)) & 0xff);		\
++	} while (0)
++
++#define RSN_SELECTOR_PUT(a, val) WPA_PUT_BE32((u8 *) (a), (val))
++//#define RSN_SELECTOR_PUT(a, val) WPA_PUT_LE32((u8 *) (a), (val))
++
++
++
++/* Action category code */
++enum ieee80211_category {
++	WLAN_CATEGORY_SPECTRUM_MGMT = 0,
++	WLAN_CATEGORY_QOS = 1,
++	WLAN_CATEGORY_DLS = 2,
++	WLAN_CATEGORY_BACK = 3,
++	WLAN_CATEGORY_HT = 7,
++	WLAN_CATEGORY_WMM = 17,
++};
++
++/* SPECTRUM_MGMT action code */
++enum ieee80211_spectrum_mgmt_actioncode {
++	WLAN_ACTION_SPCT_MSR_REQ = 0,
++	WLAN_ACTION_SPCT_MSR_RPRT = 1,
++	WLAN_ACTION_SPCT_TPC_REQ = 2,
++	WLAN_ACTION_SPCT_TPC_RPRT = 3,
++	WLAN_ACTION_SPCT_CHL_SWITCH = 4,
++	WLAN_ACTION_SPCT_EXT_CHL_SWITCH = 5,
++};
++
++/* BACK action code */
++enum ieee80211_back_actioncode {
++	WLAN_ACTION_ADDBA_REQ = 0,
++	WLAN_ACTION_ADDBA_RESP = 1,
++	WLAN_ACTION_DELBA = 2,
++};
++
++/* HT features action code */
++enum ieee80211_ht_actioncode {
++	WLAN_ACTION_NOTIFY_CH_WIDTH = 0,
++       WLAN_ACTION_SM_PS = 1,
++       WLAN_ACTION_PSPM = 2,
++       WLAN_ACTION_PCO_PHASE = 3,
++       WLAN_ACTION_MIMO_CSI_MX = 4,
++       WLAN_ACTION_MIMO_NONCP_BF = 5,
++       WLAN_ACTION_MIMP_CP_BF = 6,
++       WLAN_ACTION_ASEL_INDICATES_FB = 7,
++       WLAN_ACTION_HI_INFO_EXCHG = 8,
++};
++
++/* BACK (block-ack) parties */
++enum ieee80211_back_parties {
++	WLAN_BACK_RECIPIENT = 0,
++	WLAN_BACK_INITIATOR = 1,
++	WLAN_BACK_TIMER = 2,
++};
++
++#ifdef PLATFORM_LINUX
++
++struct ieee80211_mgmt {
++	u16 frame_control;
++	u16 duration;
++	u8 da[6];
++	u8 sa[6];
++	u8 bssid[6];
++	u16 seq_ctrl;
++	union {
++		struct {
++			u16 auth_alg;
++			u16 auth_transaction;
++			u16 status_code;
++			/* possibly followed by Challenge text */
++			u8 variable[0];
++		}  __attribute__ ((packed)) auth;
++		struct {
++			u16 reason_code;
++		}  __attribute__ ((packed)) deauth;
++		struct {
++			u16 capab_info;
++			u16 listen_interval;
++			/* followed by SSID and Supported rates */
++			u8 variable[0];
++		}  __attribute__ ((packed)) assoc_req;
++		struct {
++			u16 capab_info;
++			u16 status_code;
++			u16 aid;
++			/* followed by Supported rates */
++			u8 variable[0];
++		}  __attribute__ ((packed)) assoc_resp, reassoc_resp;
++		struct {
++			u16 capab_info;
++			u16 listen_interval;
++			u8 current_ap[6];
++			/* followed by SSID and Supported rates */
++			u8 variable[0];
++		}  __attribute__ ((packed)) reassoc_req;
++		struct {
++			u16 reason_code;
++		}  __attribute__ ((packed)) disassoc;
++		struct {
++			__le64 timestamp;
++			u16 beacon_int;
++			u16 capab_info;
++			/* followed by some of SSID, Supported rates,
++			 * FH Params, DS Params, CF Params, IBSS Params, TIM */
++			u8 variable[0];
++		}  __attribute__ ((packed)) beacon;
++		struct {
++			/* only variable items: SSID, Supported rates */
++			u8 variable[0];
++		}  __attribute__ ((packed)) probe_req;
++		struct {
++			__le64 timestamp;
++			u16 beacon_int;
++			u16 capab_info;
++			/* followed by some of SSID, Supported rates,
++			 * FH Params, DS Params, CF Params, IBSS Params */
++			u8 variable[0];
++		}  __attribute__ ((packed)) probe_resp;
++		struct {
++			u8 category;
++			union {
++				struct {
++					u8 action_code;
++					u8 dialog_token;
++					u8 status_code;
++					u8 variable[0];
++				}  __attribute__ ((packed)) wme_action;
++#if 0
++				struct{
++					u8 action_code;
++					u8 element_id;
++					u8 length;
++					struct ieee80211_channel_sw_ie sw_elem;
++				}  __attribute__ ((packed)) chan_switch;
++				struct{
++					u8 action_code;
++					u8 dialog_token;
++					u8 element_id;
++					u8 length;
++					struct ieee80211_msrment_ie msr_elem;
++				}  __attribute__ ((packed)) measurement;
++#endif
++				struct{
++					u8 action_code;
++					u8 dialog_token;
++					u16 capab;
++					u16 timeout;
++					u16 start_seq_num;
++				}  __attribute__ ((packed)) addba_req;
++				struct{
++					u8 action_code;
++					u8 dialog_token;
++					u16 status;
++					u16 capab;
++					u16 timeout;
++				}  __attribute__ ((packed)) addba_resp;
++				struct{
++					u8 action_code;
++					u16 params;
++					u16 reason_code;
++				}  __attribute__ ((packed)) delba;
++				struct{
++					u8 action_code;
++					/* capab_info for open and confirm,
++					 * reason for close
++					 */
++					u16 aux;
++					/* Followed in plink_confirm by status
++					 * code, AID and supported rates,
++					 * and directly by supported rates in
++					 * plink_open and plink_close
++					 */
++					u8 variable[0];
++				}  __attribute__ ((packed)) plink_action;
++				struct{
++					u8 action_code;
++					u8 variable[0];
++				}  __attribute__ ((packed)) mesh_action;
++			} __attribute__ ((packed)) u;
++		}  __attribute__ ((packed)) action;
++	} __attribute__ ((packed)) u;
++}__attribute__ ((packed));
++
++#endif
++
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++
++struct ieee80211_mgmt {
++	u16 frame_control;
++	u16 duration;
++	u8 da[6];
++	u8 sa[6];
++	u8 bssid[6];
++	u16 seq_ctrl;
++	union {
++		struct {
++			u16 auth_alg;
++			u16 auth_transaction;
++			u16 status_code;
++			/* possibly followed by Challenge text */
++			u8 variable[0];
++		}  auth;
++		struct {
++			u16 reason_code;
++		}  deauth;
++		struct {
++			u16 capab_info;
++			u16 listen_interval;
++			/* followed by SSID and Supported rates */
++			u8 variable[0];
++		}  assoc_req;
++		struct {
++			u16 capab_info;
++			u16 status_code;
++			u16 aid;
++			/* followed by Supported rates */
++			u8 variable[0];
++		}  assoc_resp, reassoc_resp;
++		struct {
++			u16 capab_info;
++			u16 listen_interval;
++			u8 current_ap[6];
++			/* followed by SSID and Supported rates */
++			u8 variable[0];
++		}  reassoc_req;
++		struct {
++			u16 reason_code;
++		}  disassoc;
++#if 0		
++		struct {
++			__le64 timestamp;
++			u16 beacon_int;
++			u16 capab_info;
++			/* followed by some of SSID, Supported rates,
++			 * FH Params, DS Params, CF Params, IBSS Params, TIM */
++			u8 variable[0];
++		}  beacon;
++		struct {
++			/* only variable items: SSID, Supported rates */
++			u8 variable[0];
++		}  probe_req;
++		
++		struct {
++			__le64 timestamp;
++			u16 beacon_int;
++			u16 capab_info;
++			/* followed by some of SSID, Supported rates,
++			 * FH Params, DS Params, CF Params, IBSS Params */
++			u8 variable[0];
++		}  probe_resp;
++#endif	
++		struct {
++			u8 category;
++			union {
++				struct {
++					u8 action_code;
++					u8 dialog_token;
++					u8 status_code;
++					u8 variable[0];
++				}  wme_action;
++/*				
++				struct{
++					u8 action_code;
++					u8 element_id;
++					u8 length;
++					struct ieee80211_channel_sw_ie sw_elem;
++				}  chan_switch;
++				struct{
++					u8 action_code;
++					u8 dialog_token;
++					u8 element_id;
++					u8 length;
++					struct ieee80211_msrment_ie msr_elem;
++				}  measurement;
++*/				
++				struct{
++					u8 action_code;
++					u8 dialog_token;
++					u16 capab;
++					u16 timeout;
++					u16 start_seq_num;
++				}  addba_req;
++				struct{
++					u8 action_code;
++					u8 dialog_token;
++					u16 status;
++					u16 capab;
++					u16 timeout;
++				}  addba_resp;
++				struct{
++					u8 action_code;
++					u16 params;
++					u16 reason_code;
++				}  delba;
++				struct{
++					u8 action_code;
++					/* capab_info for open and confirm,
++					 * reason for close
++					 */
++					u16 aux;
++					/* Followed in plink_confirm by status
++					 * code, AID and supported rates,
++					 * and directly by supported rates in
++					 * plink_open and plink_close
++					 */
++					u8 variable[0];
++				}  plink_action;
++				struct{
++					u8 action_code;
++					u8 variable[0];
++				}  mesh_action;
++			} u;
++		}  action;
++	} u;
++} ;
++
++#pragma pack()
++
++#endif
++
++/* mgmt header + 1 byte category code */
++#define IEEE80211_MIN_ACTION_SIZE FIELD_OFFSET(struct ieee80211_mgmt, u.action.u)
++
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/if_ether.h b/drivers/net/wireless/rtl8192cu/include/if_ether.h
+new file mode 100755
+index 0000000..9e36d7f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/if_ether.h
+@@ -0,0 +1,112 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef _LINUX_IF_ETHER_H
++#define _LINUX_IF_ETHER_H
++
++/*
++ *	IEEE 802.3 Ethernet magic constants.  The frame sizes omit the preamble
++ *	and FCS/CRC (frame check sequence). 
++ */
++
++#define ETH_ALEN	6		/* Octets in one ethernet addr	 */
++#define ETH_HLEN	14		/* Total octets in header.	 */
++#define ETH_ZLEN	60		/* Min. octets in frame sans FCS */
++#define ETH_DATA_LEN	1500		/* Max. octets in payload	 */
++#define ETH_FRAME_LEN	1514		/* Max. octets in frame sans FCS */
++
++/*
++ *	These are the defined Ethernet Protocol ID's.
++ */
++
++#define ETH_P_LOOP	0x0060		/* Ethernet Loopback packet	*/
++#define ETH_P_PUP	0x0200		/* Xerox PUP packet		*/
++#define ETH_P_PUPAT	0x0201		/* Xerox PUP Addr Trans packet	*/
++#define ETH_P_IP	0x0800		/* Internet Protocol packet	*/
++#define ETH_P_X25	0x0805		/* CCITT X.25			*/
++#define ETH_P_ARP	0x0806		/* Address Resolution packet	*/
++#define	ETH_P_BPQ	0x08FF		/* G8BPQ AX.25 Ethernet Packet	[ NOT AN OFFICIALLY REGISTERED ID ] */
++#define ETH_P_IEEEPUP	0x0a00		/* Xerox IEEE802.3 PUP packet */
++#define ETH_P_IEEEPUPAT	0x0a01		/* Xerox IEEE802.3 PUP Addr Trans packet */
++#define ETH_P_DEC       0x6000          /* DEC Assigned proto           */
++#define ETH_P_DNA_DL    0x6001          /* DEC DNA Dump/Load            */
++#define ETH_P_DNA_RC    0x6002          /* DEC DNA Remote Console       */
++#define ETH_P_DNA_RT    0x6003          /* DEC DNA Routing              */
++#define ETH_P_LAT       0x6004          /* DEC LAT                      */
++#define ETH_P_DIAG      0x6005          /* DEC Diagnostics              */
++#define ETH_P_CUST      0x6006          /* DEC Customer use             */
++#define ETH_P_SCA       0x6007          /* DEC Systems Comms Arch       */
++#define ETH_P_RARP      0x8035		/* Reverse Addr Res packet	*/
++#define ETH_P_ATALK	0x809B		/* Appletalk DDP		*/
++#define ETH_P_AARP	0x80F3		/* Appletalk AARP		*/
++#define ETH_P_8021Q	0x8100          /* 802.1Q VLAN Extended Header  */
++#define ETH_P_IPX	0x8137		/* IPX over DIX			*/
++#define ETH_P_IPV6	0x86DD		/* IPv6 over bluebook		*/
++#define ETH_P_PPP_DISC	0x8863		/* PPPoE discovery messages     */
++#define ETH_P_PPP_SES	0x8864		/* PPPoE session messages	*/
++#define ETH_P_ATMMPOA	0x884c		/* MultiProtocol Over ATM	*/
++#define ETH_P_ATMFATE	0x8884		/* Frame-based ATM Transport
++					 * over Ethernet
++					 */
++
++/*
++ *	Non DIX types. Won't clash for 1500 types.
++ */
++ 
++#define ETH_P_802_3	0x0001		/* Dummy type for 802.3 frames  */
++#define ETH_P_AX25	0x0002		/* Dummy protocol id for AX.25  */
++#define ETH_P_ALL	0x0003		/* Every packet (be careful!!!) */
++#define ETH_P_802_2	0x0004		/* 802.2 frames 		*/
++#define ETH_P_SNAP	0x0005		/* Internal only		*/
++#define ETH_P_DDCMP     0x0006          /* DEC DDCMP: Internal only     */
++#define ETH_P_WAN_PPP   0x0007          /* Dummy type for WAN PPP frames*/
++#define ETH_P_PPP_MP    0x0008          /* Dummy type for PPP MP frames */
++#define ETH_P_LOCALTALK 0x0009		/* Localtalk pseudo type 	*/
++#define ETH_P_PPPTALK	0x0010		/* Dummy type for Atalk over PPP*/
++#define ETH_P_TR_802_2	0x0011		/* 802.2 frames 		*/
++#define ETH_P_MOBITEX	0x0015		/* Mobitex (kaz@cafe.net)	*/
++#define ETH_P_CONTROL	0x0016		/* Card specific control frames */
++#define ETH_P_IRDA	0x0017		/* Linux-IrDA			*/
++#define ETH_P_ECONET	0x0018		/* Acorn Econet			*/
++
++/*
++ *	This is an Ethernet frame header.
++ */
++ 
++struct ethhdr 
++{
++	unsigned char	h_dest[ETH_ALEN];	/* destination eth addr	*/
++	unsigned char	h_source[ETH_ALEN];	/* source ether addr	*/
++	unsigned short	h_proto;		/* packet type ID field	*/
++};
++
++struct _vlan {
++   unsigned short       h_vlan_TCI;                // Encapsulates priority and VLAN ID
++   unsigned short       h_vlan_encapsulated_proto;
++};
++
++
++
++#define get_vlan_id(pvlan) ((ntohs((unsigned short )pvlan->h_vlan_TCI)) & 0xfff)
++#define get_vlan_priority(pvlan) ((ntohs((unsigned short )pvlan->h_vlan_TCI))>>13)
++#define get_vlan_encap_proto(pvlan) (ntohs((unsigned short )pvlan->h_vlan_encapsulated_proto))
++
++
++#endif	/* _LINUX_IF_ETHER_H */
+diff --git a/drivers/net/wireless/rtl8192cu/include/ioctl_cfg80211.h b/drivers/net/wireless/rtl8192cu/include/ioctl_cfg80211.h
+new file mode 100755
+index 0000000..ceb0db8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/ioctl_cfg80211.h
+@@ -0,0 +1,180 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __IOCTL_CFG80211_H__
++#define __IOCTL_CFG80211_H__ 
++
++#if defined(CONFIG_IOCTL_CFG80211) && !defined(CONFIG_CFG80211) && !defined(CONFIG_CFG80211_MODULE)
++	#error "Can't define CONFIG_IOCTL_CFG80211 because neither CONFIG_CFG80211 nor CONFIG_CFG80211_MODULE is defined in kernel"
++#endif
++#if defined(CONFIG_IOCTL_CFG80211) && LINUX_VERSION_CODE < KERNEL_VERSION(2,6,35)
++	#error "We haven't verify our cfg80211 solution below kernel version 2.6.35"
++#endif
++
++#if defined(RTW_USE_CFG80211_STA_EVENT)
++	#undef CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER
++#endif
++
++struct rtw_wdev_invit_info {
++	u8 state; /* 0: req, 1:rep */
++	u8 peer_mac[ETH_ALEN];
++	u8 active;
++	u8 token;
++	u8 flags;
++	u8 status;
++	u8 req_op_ch;
++	u8 rsp_op_ch;
++};
++
++#define rtw_wdev_invit_info_init(invit_info) \
++	do { \
++		(invit_info)->state = 0xff; \
++		_rtw_memset((invit_info)->peer_mac, 0, ETH_ALEN); \
++		(invit_info)->active = 0xff; \
++		(invit_info)->token = 0; \
++		(invit_info)->flags = 0x00; \
++		(invit_info)->status = 0xff; \
++		(invit_info)->req_op_ch = 0; \
++		(invit_info)->rsp_op_ch = 0; \
++	} while (0)
++
++struct rtw_wdev_nego_info {
++	u8 state; /* 0: req, 1:rep, 3:conf */
++	u8 peer_mac[ETH_ALEN];
++	u8 active;
++	u8 token;
++	u8 status;
++	u8 req_intent;
++	u8 req_op_ch;
++	u8 req_listen_ch;
++	u8 rsp_intent;
++	u8 rsp_op_ch;
++	u8 conf_op_ch;
++};
++
++#define rtw_wdev_nego_info_init(nego_info) \
++	do { \
++		(nego_info)->state = 0xff; \
++		_rtw_memset((nego_info)->peer_mac, 0, ETH_ALEN); \
++		(nego_info)->active = 0xff; \
++		(nego_info)->token = 0; \
++		(nego_info)->status = 0xff; \
++		(nego_info)->req_intent = 0xff; \
++		(nego_info)->req_op_ch = 0; \
++		(nego_info)->req_listen_ch = 0; \
++		(nego_info)->rsp_intent = 0xff; \
++		(nego_info)->rsp_op_ch = 0; \
++		(nego_info)->conf_op_ch = 0; \
++	} while (0)
++
++struct rtw_wdev_priv
++{	
++	struct wireless_dev *rtw_wdev;
++	
++	_adapter *padapter;
++
++	struct cfg80211_scan_request *scan_request;
++	_lock scan_req_lock;
++
++	struct net_device *pmon_ndev;//for monitor interface
++	char ifname_mon[IFNAMSIZ + 1]; //interface name for monitor interface
++
++	u8 p2p_enabled;
++
++	u8 provdisc_req_issued;
++
++	struct rtw_wdev_invit_info invit_info;
++	struct rtw_wdev_nego_info nego_info;
++
++	u8 bandroid_scan;
++	bool block;
++	bool power_mgmt;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	ATOMIC_T ro_ch_to;
++	ATOMIC_T switch_ch_to;	
++#endif	
++	
++};
++
++#define wdev_to_priv(w) ((struct rtw_wdev_priv *)(wdev_priv(w)))
++
++#define wiphy_to_adapter(x) (_adapter *)(((struct rtw_wdev_priv*)wiphy_priv(x))->padapter)
++
++#define wiphy_to_wdev(x) (struct wireless_dev *)(((struct rtw_wdev_priv*)wiphy_priv(x))->rtw_wdev)
++
++int rtw_wdev_alloc(_adapter *padapter, struct device *dev);
++void rtw_wdev_free(struct wireless_dev *wdev);
++void rtw_wdev_unregister(struct wireless_dev *wdev);
++
++void rtw_cfg80211_init_wiphy(_adapter *padapter);
++
++void rtw_cfg80211_surveydone_event_callback(_adapter *padapter);
++int rtw_cfg80211_check_bss(_adapter *padapter);
++void rtw_cfg80211_indicate_connect(_adapter *padapter);
++void rtw_cfg80211_indicate_disconnect(_adapter *padapter);
++void rtw_cfg80211_indicate_scan_done(struct rtw_wdev_priv *pwdev_priv, bool aborted);
++
++#ifdef CONFIG_AP_MODE
++void rtw_cfg80211_indicate_sta_assoc(_adapter *padapter, u8 *pmgmt_frame, uint frame_len);
++void rtw_cfg80211_indicate_sta_disassoc(_adapter *padapter, unsigned char *da, unsigned short reason);
++#endif //CONFIG_AP_MODE
++
++void rtw_cfg80211_issue_p2p_provision_request(_adapter *padapter, const u8 *buf, size_t len);
++void rtw_cfg80211_rx_p2p_action_public(_adapter *padapter, u8 *pmgmt_frame, uint frame_len);
++void rtw_cfg80211_rx_action_p2p(_adapter *padapter, u8 *pmgmt_frame, uint frame_len);
++void rtw_cfg80211_rx_action(_adapter *adapter, u8 *frame, uint frame_len, const char*msg);
++
++int rtw_cfg80211_set_mgnt_wpsp2pie(struct net_device *net, char *buf, int len, int type);
++
++bool rtw_cfg80211_pwr_mgmt(_adapter *adapter);
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3,4,0))  && !defined(COMPAT_KERNEL_RELEASE)
++#define rtw_cfg80211_rx_mgmt(adapter, freq, sig_dbm, buf, len, gfp) cfg80211_rx_mgmt((adapter)->pnetdev, freq, buf, len, gfp)
++#elif (LINUX_VERSION_CODE < KERNEL_VERSION(3,6,0))
++#define rtw_cfg80211_rx_mgmt(adapter, freq, sig_dbm, buf, len, gfp) cfg80211_rx_mgmt((adapter)->pnetdev, freq, sig_dbm, buf, len, gfp)
++#else
++#define rtw_cfg80211_rx_mgmt(adapter, freq, sig_dbm, buf, len, gfp) cfg80211_rx_mgmt((adapter)->rtw_wdev, freq, sig_dbm, buf, len, gfp)
++#endif
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3,4,0))  && !defined(COMPAT_KERNEL_RELEASE)
++#define rtw_cfg80211_send_rx_assoc(adapter, bss, buf, len) cfg80211_send_rx_assoc((adapter)->pnetdev, buf, len)
++#else
++#define rtw_cfg80211_send_rx_assoc(adapter, bss, buf, len) cfg80211_send_rx_assoc((adapter)->pnetdev, bss, buf, len)
++#endif
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3,6,0))
++#define rtw_cfg80211_mgmt_tx_status(adapter, cookie, buf, len, ack, gfp) cfg80211_mgmt_tx_status((adapter)->pnetdev, cookie, buf, len, ack, gfp)
++#else
++#define rtw_cfg80211_mgmt_tx_status(adapter, cookie, buf, len, ack, gfp) cfg80211_mgmt_tx_status((adapter)->rtw_wdev, cookie, buf, len, ack, gfp)
++#endif
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3,6,0))
++#define rtw_cfg80211_ready_on_channel(adapter, cookie, chan, channel_type, duration, gfp)  cfg80211_ready_on_channel((adapter)->pnetdev, cookie, chan, channel_type, duration, gfp)
++#define rtw_cfg80211_remain_on_channel_expired(adapter, cookie, chan, chan_type, gfp) cfg80211_remain_on_channel_expired((adapter)->pnetdev, cookie, chan, chan_type, gfp)
++#elif (LINUX_VERSION_CODE < KERNEL_VERSION(3,8,0))
++#define rtw_cfg80211_ready_on_channel(adapter, cookie, chan, channel_type, duration, gfp)  cfg80211_ready_on_channel((adapter)->rtw_wdev, cookie, chan, channel_type, duration, gfp)
++#define rtw_cfg80211_remain_on_channel_expired(adapter, cookie, chan, chan_type, gfp) cfg80211_remain_on_channel_expired((adapter)->rtw_wdev, cookie, chan, chan_type, gfp)
++#else
++#define rtw_cfg80211_ready_on_channel(adapter, cookie, chan, channel_type, duration, gfp)  cfg80211_ready_on_channel((adapter)->rtw_wdev, cookie, chan, duration, gfp)
++#define rtw_cfg80211_remain_on_channel_expired(adapter, cookie, chan, chan_type, gfp) cfg80211_remain_on_channel_expired((adapter)->rtw_wdev, cookie, chan, gfp)
++#endif
++
++#endif //__IOCTL_CFG80211_H__
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/ip.h b/drivers/net/wireless/rtl8192cu/include/ip.h
+new file mode 100755
+index 0000000..d7f723d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/ip.h
+@@ -0,0 +1,141 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _LINUX_IP_H
++#define _LINUX_IP_H
++#include <rtw_byteorder.h>
++
++/* SOL_IP socket options */
++
++#define IPTOS_TOS_MASK		0x1E
++#define IPTOS_TOS(tos)		((tos)&IPTOS_TOS_MASK)
++#define	IPTOS_LOWDELAY		0x10
++#define	IPTOS_THROUGHPUT	0x08
++#define	IPTOS_RELIABILITY	0x04
++#define	IPTOS_MINCOST		0x02
++
++#define IPTOS_PREC_MASK		0xE0
++#define IPTOS_PREC(tos)		((tos)&IPTOS_PREC_MASK)
++#define IPTOS_PREC_NETCONTROL           0xe0
++#define IPTOS_PREC_INTERNETCONTROL      0xc0
++#define IPTOS_PREC_CRITIC_ECP           0xa0
++#define IPTOS_PREC_FLASHOVERRIDE        0x80
++#define IPTOS_PREC_FLASH                0x60
++#define IPTOS_PREC_IMMEDIATE            0x40
++#define IPTOS_PREC_PRIORITY             0x20
++#define IPTOS_PREC_ROUTINE              0x00
++
++
++/* IP options */
++#define IPOPT_COPY		0x80
++#define IPOPT_CLASS_MASK	0x60
++#define IPOPT_NUMBER_MASK	0x1f
++
++#define	IPOPT_COPIED(o)		((o)&IPOPT_COPY)
++#define	IPOPT_CLASS(o)		((o)&IPOPT_CLASS_MASK)
++#define	IPOPT_NUMBER(o)		((o)&IPOPT_NUMBER_MASK)
++
++#define	IPOPT_CONTROL		0x00
++#define	IPOPT_RESERVED1		0x20
++#define	IPOPT_MEASUREMENT	0x40
++#define	IPOPT_RESERVED2		0x60
++
++#define IPOPT_END	(0 |IPOPT_CONTROL)
++#define IPOPT_NOOP	(1 |IPOPT_CONTROL)
++#define IPOPT_SEC	(2 |IPOPT_CONTROL|IPOPT_COPY)
++#define IPOPT_LSRR	(3 |IPOPT_CONTROL|IPOPT_COPY)
++#define IPOPT_TIMESTAMP	(4 |IPOPT_MEASUREMENT)
++#define IPOPT_RR	(7 |IPOPT_CONTROL)
++#define IPOPT_SID	(8 |IPOPT_CONTROL|IPOPT_COPY)
++#define IPOPT_SSRR	(9 |IPOPT_CONTROL|IPOPT_COPY)
++#define IPOPT_RA	(20|IPOPT_CONTROL|IPOPT_COPY)
++
++#define IPVERSION	4
++#define MAXTTL		255
++#define IPDEFTTL	64
++
++/* struct timestamp, struct route and MAX_ROUTES are removed.
++
++   REASONS: it is clear that nobody used them because:
++   - MAX_ROUTES value was wrong.
++   - "struct route" was wrong.
++   - "struct timestamp" had fatally misaligned bitfields and was completely unusable.
++ */
++
++#define IPOPT_OPTVAL 0
++#define IPOPT_OLEN   1
++#define IPOPT_OFFSET 2
++#define IPOPT_MINOFF 4
++#define MAX_IPOPTLEN 40
++#define IPOPT_NOP IPOPT_NOOP
++#define IPOPT_EOL IPOPT_END
++#define IPOPT_TS  IPOPT_TIMESTAMP
++
++#define	IPOPT_TS_TSONLY		0		/* timestamps only */
++#define	IPOPT_TS_TSANDADDR	1		/* timestamps and addresses */
++#define	IPOPT_TS_PRESPEC	3		/* specified modules only */
++
++#ifdef PLATFORM_LINUX
++
++struct ip_options {
++  __u32		faddr;				/* Saved first hop address */
++  unsigned char	optlen;
++  unsigned char srr;
++  unsigned char rr;
++  unsigned char ts;
++  unsigned char is_setbyuser:1,			/* Set by setsockopt?			*/
++                is_data:1,			/* Options in __data, rather than skb	*/
++                is_strictroute:1,		/* Strict source route			*/
++                srr_is_hit:1,			/* Packet destination addr was our one	*/
++                is_changed:1,			/* IP checksum more not valid		*/	
++                rr_needaddr:1,			/* Need to record addr of outgoing dev	*/
++                ts_needtime:1,			/* Need to record timestamp		*/
++                ts_needaddr:1;			/* Need to record addr of outgoing dev  */
++  unsigned char router_alert;
++  unsigned char __pad1;
++  unsigned char __pad2;
++  unsigned char __data[0];
++};
++
++#define optlength(opt) (sizeof(struct ip_options) + opt->optlen)
++#endif
++
++struct iphdr {
++#if defined(__LITTLE_ENDIAN_BITFIELD)
++	__u8	ihl:4,
++		version:4;
++#elif defined (__BIG_ENDIAN_BITFIELD)
++	__u8	version:4,
++  		ihl:4;
++#else
++#error	"Please fix <asm/byteorder.h>"
++#endif
++	__u8	tos;
++	__u16	tot_len;
++	__u16	id;
++	__u16	frag_off;
++	__u8	ttl;
++	__u8	protocol;
++	__u16	check;
++	__u32	saddr;
++	__u32	daddr;
++	/*The options start here. */
++};
++
++#endif	/* _LINUX_IP_H */
+diff --git a/drivers/net/wireless/rtl8192cu/include/linux/wireless.h b/drivers/net/wireless/rtl8192cu/include/linux/wireless.h
+new file mode 100755
+index 0000000..24a22d6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/linux/wireless.h
+@@ -0,0 +1,90 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef _LINUX_WIRELESS_H
++#define _LINUX_WIRELESS_H
++
++/***************************** INCLUDES *****************************/
++
++#if 0
++#include <linux/types.h>		/* for __u* and __s* typedefs */
++#include <linux/socket.h>		/* for "struct sockaddr" et al	*/
++#include <linux/if.h>			/* for IFNAMSIZ and co... */
++#else
++#define __user
++//typedef uint16_t	__u16;
++#include <sys/socket.h>			/* for "struct sockaddr" et al	*/
++#include <net/if.h>			/* for IFNAMSIZ and co... */
++#endif
++
++/****************************** TYPES ******************************/
++
++/* --------------------------- SUBTYPES --------------------------- */
++/*
++ *	For all data larger than 16 octets, we need to use a
++ *	pointer to memory allocated in user space.
++ */
++struct	iw_point
++{
++  void __user	*pointer;	/* Pointer to the data  (in user space) */
++  __u16		length;		/* number of fields or size in bytes */
++  __u16		flags;		/* Optional params */
++};
++
++
++/* ------------------------ IOCTL REQUEST ------------------------ */
++/*
++ * This structure defines the payload of an ioctl, and is used 
++ * below.
++ *
++ * Note that this structure should fit on the memory footprint
++ * of iwreq (which is the same as ifreq), which mean a max size of
++ * 16 octets = 128 bits. Warning, pointers might be 64 bits wide...
++ * You should check this when increasing the structures defined
++ * above in this file...
++ */
++union	iwreq_data
++{
++	/* Config - generic */
++	char		name[IFNAMSIZ];
++	/* Name : used to verify the presence of  wireless extensions.
++	 * Name of the protocol/provider... */
++
++	struct iw_point	data;		/* Other large parameters */
++};
++
++/*
++ * The structure to exchange data for ioctl.
++ * This structure is the same as 'struct ifreq', but (re)defined for
++ * convenience...
++ * Do I need to remind you about structure size (32 octets) ?
++ */
++struct	iwreq 
++{
++	union
++	{
++		char	ifrn_name[IFNAMSIZ];	/* if name, e.g. "eth0" */
++	} ifr_ifrn;
++
++	/* Data part (defined just above) */
++	union	iwreq_data	u;
++};
++
++#endif	/* _LINUX_WIRELESS_H */
+diff --git a/drivers/net/wireless/rtl8192cu/include/mlme_osdep.h b/drivers/net/wireless/rtl8192cu/include/mlme_osdep.h
+new file mode 100755
+index 0000000..75754db
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/mlme_osdep.h
+@@ -0,0 +1,40 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef	__MLME_OSDEP_H_
++#define __MLME_OSDEP_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++#if defined(PLATFORM_WINDOWS) || defined(PLATFORM_MPIXEL)
++extern int time_after(u32 now, u32 old);
++#endif
++
++extern void rtw_init_mlme_timer(_adapter *padapter);
++extern void rtw_os_indicate_disconnect( _adapter *adapter );
++extern void rtw_os_indicate_connect( _adapter *adapter );
++void rtw_os_indicate_scan_done( _adapter *padapter, bool aborted);
++extern void rtw_report_sec_ie(_adapter *adapter,u8 authmode,u8 *sec_ie);
++
++void rtw_reset_securitypriv( _adapter *adapter );
++
++#endif	//_MLME_OSDEP_H_
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/mp_custom_oid.h b/drivers/net/wireless/rtl8192cu/include/mp_custom_oid.h
+new file mode 100755
+index 0000000..5f86738
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/mp_custom_oid.h
+@@ -0,0 +1,353 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef	__CUSTOM_OID_H
++#define __CUSTOM_OID_H
++
++// by Owen
++// 0xFF818000 - 0xFF81802F		RTL8180 Mass Production Kit
++// 0xFF818500 - 0xFF81850F		RTL8185 Setup Utility
++// 0xFF818580 - 0xFF81858F		RTL8185 Phy Status Utility
++
++//
++
++// by Owen for Production Kit
++// For Production Kit with Agilent Equipments
++// in order to make our custom oids hopefully somewhat unique
++// we will use 0xFF (indicating implementation specific OID)
++//               81(first byte of non zero Realtek unique identifier)
++//               80 (second byte of non zero Realtek unique identifier)
++//               XX (the custom OID number - providing 255 possible custom oids)
++
++#define OID_RT_PRO_RESET_DUT				0xFF818000
++#define OID_RT_PRO_SET_DATA_RATE			0xFF818001
++#define OID_RT_PRO_START_TEST				0xFF818002
++#define OID_RT_PRO_STOP_TEST    			0xFF818003
++#define OID_RT_PRO_SET_PREAMBLE				0xFF818004
++#define OID_RT_PRO_SET_SCRAMBLER			0xFF818005
++#define OID_RT_PRO_SET_FILTER_BB			0xFF818006
++#define OID_RT_PRO_SET_MANUAL_DIVERSITY_BB		0xFF818007
++#define OID_RT_PRO_SET_CHANNEL_DIRECT_CALL		0xFF818008
++#define OID_RT_PRO_SET_SLEEP_MODE_DIRECT_CALL		0xFF818009
++#define OID_RT_PRO_SET_WAKE_MODE_DIRECT_CALL		0xFF81800A
++
++#define OID_RT_PRO_SET_TX_ANTENNA_BB			0xFF81800D
++#define OID_RT_PRO_SET_ANTENNA_BB			0xFF81800E
++#define OID_RT_PRO_SET_CR_SCRAMBLER			0xFF81800F
++#define OID_RT_PRO_SET_CR_NEW_FILTER			0xFF818010
++#define OID_RT_PRO_SET_TX_POWER_CONTROL			0xFF818011
++#define OID_RT_PRO_SET_CR_TX_CONFIG			0xFF818012
++#define OID_RT_PRO_GET_TX_POWER_CONTROL			0xFF818013
++#define OID_RT_PRO_GET_CR_SIGNAL_QUALITY		0xFF818014
++#define OID_RT_PRO_SET_CR_SETPOINT			0xFF818015
++#define OID_RT_PRO_SET_INTEGRATOR			0xFF818016
++#define OID_RT_PRO_SET_SIGNAL_QUALITY			0xFF818017
++#define OID_RT_PRO_GET_INTEGRATOR			0xFF818018
++#define OID_RT_PRO_GET_SIGNAL_QUALITY			0xFF818019
++#define OID_RT_PRO_QUERY_EEPROM_TYPE			0xFF81801A
++#define OID_RT_PRO_WRITE_MAC_ADDRESS			0xFF81801B
++#define OID_RT_PRO_READ_MAC_ADDRESS			0xFF81801C
++#define OID_RT_PRO_WRITE_CIS_DATA			0xFF81801D
++#define OID_RT_PRO_READ_CIS_DATA			0xFF81801E
++#define OID_RT_PRO_WRITE_POWER_CONTROL			0xFF81801F
++#define OID_RT_PRO_READ_POWER_CONTROL			0xFF818020
++#define OID_RT_PRO_WRITE_EEPROM				0xFF818021
++#define OID_RT_PRO_READ_EEPROM				0xFF818022
++#define OID_RT_PRO_RESET_TX_PACKET_SENT			0xFF818023
++#define OID_RT_PRO_QUERY_TX_PACKET_SENT			0xFF818024
++#define OID_RT_PRO_RESET_RX_PACKET_RECEIVED		0xFF818025 
++#define OID_RT_PRO_QUERY_RX_PACKET_RECEIVED		0xFF818026
++#define OID_RT_PRO_QUERY_RX_PACKET_CRC32_ERROR		0xFF818027
++#define OID_RT_PRO_QUERY_CURRENT_ADDRESS		0xFF818028
++#define OID_RT_PRO_QUERY_PERMANENT_ADDRESS		0xFF818029
++#define OID_RT_PRO_SET_PHILIPS_RF_PARAMETERS		0xFF81802A
++#define OID_RT_PRO_RECEIVE_PACKET			0xFF81802C
++// added by Owen on 04/08/03 for Cameo's request
++#define OID_RT_PRO_WRITE_EEPROM_BYTE			0xFF81802D
++#define OID_RT_PRO_READ_EEPROM_BYTE			0xFF81802E
++#define OID_RT_PRO_SET_MODULATION			0xFF81802F
++//
++
++//Sean		
++#define OID_RT_DRIVER_OPTION				0xFF818080
++#define OID_RT_RF_OFF					0xFF818081
++#define OID_RT_AUTH_STATUS				0xFF818082
++
++//========================================================================
++#define OID_RT_PRO_SET_CONTINUOUS_TX			0xFF81800B
++#define OID_RT_PRO_SET_SINGLE_CARRIER_TX		0xFF81800C
++#define OID_RT_PRO_SET_CARRIER_SUPPRESSION_TX		0xFF81802B
++#define OID_RT_PRO_SET_SINGLE_TONE_TX			0xFF818043
++//========================================================================
++
++
++// by Owen for RTL8185 Phy Status Report Utility
++#define OID_RT_UTILITY_FALSE_ALARM_COUNTERS				0xFF818580
++#define OID_RT_UTILITY_SELECT_DEBUG_MODE				0xFF818581
++#define OID_RT_UTILITY_SELECT_SUBCARRIER_NUMBER				0xFF818582
++#define OID_RT_UTILITY_GET_RSSI_STATUS					0xFF818583
++#define OID_RT_UTILITY_GET_FRAME_DETECTION_STATUS			0xFF818584
++#define OID_RT_UTILITY_GET_AGC_AND_FREQUENCY_OFFSET_ESTIMATION_STATUS	0xFF818585
++#define OID_RT_UTILITY_GET_CHANNEL_ESTIMATION_STATUS			0xFF818586
++//
++
++// by Owen on 03/09/19-03/09/22 for RTL8185
++#define OID_RT_WIRELESS_MODE				0xFF818500
++#define OID_RT_SUPPORTED_RATES				0xFF818501
++#define OID_RT_DESIRED_RATES				0xFF818502
++#define OID_RT_WIRELESS_MODE_STARTING_ADHOC		0xFF818503
++//
++
++#define OID_RT_GET_CONNECT_STATE                	0xFF030001
++#define OID_RT_RESCAN	                        	0xFF030002
++#define OID_RT_SET_KEY_LENGTH				0xFF030003
++#define OID_RT_SET_DEFAULT_KEY_ID			0xFF030004
++
++#define OID_RT_SET_CHANNEL				0xFF010182
++#define OID_RT_SET_SNIFFER_MODE                 	0xFF010183
++#define OID_RT_GET_SIGNAL_QUALITY               	0xFF010184
++#define OID_RT_GET_SMALL_PACKET_CRC			0xFF010185		
++#define OID_RT_GET_MIDDLE_PACKET_CRC			0xFF010186
++#define OID_RT_GET_LARGE_PACKET_CRC			0xFF010187
++#define OID_RT_GET_TX_RETRY				0xFF010188
++#define OID_RT_GET_RX_RETRY				0xFF010189
++#define OID_RT_PRO_SET_FW_DIG_STATE			0xFF01018A//S
++#define OID_RT_PRO_SET_FW_RA_STATE			0xFF01018B//S
++
++#define OID_RT_GET_RX_TOTAL_PACKET			0xFF010190
++#define OID_RT_GET_TX_BEACON_OK				0xFF010191
++#define OID_RT_GET_TX_BEACON_ERR			0xFF010192
++#define OID_RT_GET_RX_ICV_ERR				0xFF010193
++#define OID_RT_SET_ENCRYPTION_ALGORITHM			0xFF010194
++#define OID_RT_SET_NO_AUTO_RESCAN			0xFF010195
++#define OID_RT_GET_PREAMBLE_MODE			0xFF010196
++#define OID_RT_GET_DRIVER_UP_DELTA_TIME			0xFF010197
++#define OID_RT_GET_AP_IP				0xFF010198
++#define OID_RT_GET_CHANNELPLAN				0xFF010199
++#define OID_RT_SET_PREAMBLE_MODE			0xFF01019A
++#define OID_RT_SET_BCN_INTVL				0xFF01019B
++#define OID_RT_GET_RF_VENDER				0xFF01019C
++#define OID_RT_DEDICATE_PROBE				0xFF01019D
++#define OID_RT_PRO_RX_FILTER_PATTERN			0xFF01019E
++
++#define OID_RT_GET_DCST_CURRENT_THRESHOLD		0xFF01019F
++
++#define OID_RT_GET_CCA_ERR				0xFF0101A0
++#define OID_RT_GET_CCA_UPGRADE_THRESHOLD		0xFF0101A1
++#define OID_RT_GET_CCA_FALLBACK_THRESHOLD		0xFF0101A2
++
++#define OID_RT_GET_CCA_UPGRADE_EVALUATE_TIMES		0xFF0101A3
++#define OID_RT_GET_CCA_FALLBACK_EVALUATE_TIMES		0xFF0101A4
++
++// by Owen on 03/31/03 for Cameo's request
++#define OID_RT_SET_RATE_ADAPTIVE			0xFF0101A5
++//
++#define OID_RT_GET_DCST_EVALUATE_PERIOD			0xFF0101A5
++#define OID_RT_GET_DCST_TIME_UNIT_INDEX			0xFF0101A6
++#define OID_RT_GET_TOTAL_TX_BYTES			0xFF0101A7
++#define OID_RT_GET_TOTAL_RX_BYTES			0xFF0101A8
++#define OID_RT_CURRENT_TX_POWER_LEVEL			0xFF0101A9
++#define OID_RT_GET_ENC_KEY_MISMATCH_COUNT		0xFF0101AA
++#define OID_RT_GET_ENC_KEY_MATCH_COUNT			0xFF0101AB
++#define OID_RT_GET_CHANNEL				0xFF0101AC
++
++#define OID_RT_SET_CHANNELPLAN				0xFF0101AD
++#define OID_RT_GET_HARDWARE_RADIO_OFF			0xFF0101AE
++#define OID_RT_CHANNELPLAN_BY_COUNTRY			0xFF0101AF
++#define OID_RT_SCAN_AVAILABLE_BSSID			0xFF0101B0
++#define OID_RT_GET_HARDWARE_VERSION			0xFF0101B1
++#define OID_RT_GET_IS_ROAMING				0xFF0101B2
++#define OID_RT_GET_IS_PRIVACY				0xFF0101B3
++#define OID_RT_GET_KEY_MISMATCH				0xFF0101B4
++#define OID_RT_SET_RSSI_ROAM_TRAFFIC_TH			0xFF0101B5
++#define OID_RT_SET_RSSI_ROAM_SIGNAL_TH			0xFF0101B6
++#define OID_RT_RESET_LOG				0xFF0101B7
++#define OID_RT_GET_LOG					0xFF0101B8
++#define OID_RT_SET_INDICATE_HIDDEN_AP			0xFF0101B9
++#define OID_RT_GET_HEADER_FAIL				0xFF0101BA
++#define OID_RT_SUPPORTED_WIRELESS_MODE			0xFF0101BB
++#define OID_RT_GET_CHANNEL_LIST				0xFF0101BC
++#define OID_RT_GET_SCAN_IN_PROGRESS			0xFF0101BD
++#define OID_RT_GET_TX_INFO				0xFF0101BE
++#define OID_RT_RF_READ_WRITE_OFFSET			0xFF0101BF
++#define OID_RT_RF_READ_WRITE				0xFF0101C0
++
++// For Netgear request. 2005.01.13, by rcnjko.
++#define OID_RT_FORCED_DATA_RATE				0xFF0101C1
++#define OID_RT_WIRELESS_MODE_FOR_SCAN_LIST		0xFF0101C2
++// For Netgear request. 2005.02.17, by rcnjko.
++#define OID_RT_GET_BSS_WIRELESS_MODE			0xFF0101C3
++// For AZ project. 2005.06.27, by rcnjko.
++#define OID_RT_SCAN_WITH_MAGIC_PACKET			0xFF0101C4
++
++// Vincent 8185MP
++#define OID_RT_PRO_RX_FILTER				0xFF0111C0
++
++//Andy TEST
++//#define OID_RT_PRO_WRITE_REGISTRY			0xFF0111C1
++//#define OID_RT_PRO_READ_REGISTRY			0xFF0111C2
++#define OID_CE_USB_WRITE_REGISTRY			0xFF0111C1
++#define OID_CE_USB_READ_REGISTRY			0xFF0111C2
++
++
++#define OID_RT_PRO_SET_INITIAL_GAIN			0xFF0111C3
++#define OID_RT_PRO_SET_BB_RF_STANDBY_MODE		0xFF0111C4
++#define OID_RT_PRO_SET_BB_RF_SHUTDOWN_MODE		0xFF0111C5
++#define OID_RT_PRO_SET_TX_CHARGE_PUMP			0xFF0111C6
++#define OID_RT_PRO_SET_RX_CHARGE_PUMP			0xFF0111C7
++#define OID_RT_PRO_RF_WRITE_REGISTRY			0xFF0111C8
++#define OID_RT_PRO_RF_READ_REGISTRY			0xFF0111C9
++#define OID_RT_PRO_QUERY_RF_TYPE			0xFF0111CA
++
++// AP OID
++#define OID_RT_AP_GET_ASSOCIATED_STATION_LIST		0xFF010300
++#define OID_RT_AP_GET_CURRENT_TIME_STAMP		0xFF010301
++#define OID_RT_AP_SWITCH_INTO_AP_MODE			0xFF010302
++#define OID_RT_AP_SET_DTIM_PERIOD			0xFF010303
++#define OID_RT_AP_SUPPORTED				0xFF010304	// Determine if driver supports AP mode. 2004.08.27, by rcnjko.
++#define OID_RT_AP_SET_PASSPHRASE			0xFF010305	// Set WPA-PSK passphrase into authenticator. 2005.07.08, byrcnjko.
++
++// 8187MP. 2004.09.06, by rcnjko.
++#define OID_RT_PRO8187_WI_POLL				0xFF818780
++#define OID_RT_PRO_WRITE_BB_REG				0xFF818781
++#define OID_RT_PRO_READ_BB_REG				0xFF818782
++#define OID_RT_PRO_WRITE_RF_REG				0xFF818783
++#define OID_RT_PRO_READ_RF_REG				0xFF818784
++
++// Meeting House. added by Annie, 2005-07-20.
++#define OID_RT_MH_VENDER_ID				0xFFEDC100
++
++//8711 MP OID added 20051230.
++#define OID_RT_PRO8711_JOIN_BSS				0xFF871100//S
++
++#define OID_RT_PRO_READ_REGISTER			0xFF871101 //Q
++#define OID_RT_PRO_WRITE_REGISTER			0xFF871102 //S
++
++#define OID_RT_PRO_BURST_READ_REGISTER			0xFF871103 //Q		
++#define OID_RT_PRO_BURST_WRITE_REGISTER 		0xFF871104 //S
++
++#define OID_RT_PRO_WRITE_TXCMD				0xFF871105 //S
++
++#define OID_RT_PRO_READ16_EEPROM			0xFF871106 //Q
++#define OID_RT_PRO_WRITE16_EEPROM			0xFF871107 //S
++
++#define OID_RT_PRO_H2C_SET_COMMAND			0xFF871108 //S
++#define OID_RT_PRO_H2C_QUERY_RESULT			0xFF871109 //Q
++
++#define OID_RT_PRO8711_WI_POLL				0xFF87110A //Q
++#define OID_RT_PRO8711_PKT_LOSS				0xFF87110B //Q
++#define OID_RT_RD_ATTRIB_MEM				0xFF87110C//Q
++#define OID_RT_WR_ATTRIB_MEM				0xFF87110D//S
++
++
++//Method 2 for H2C/C2H
++#define OID_RT_PRO_H2C_CMD_MODE				0xFF871110 //S
++#define OID_RT_PRO_H2C_CMD_RSP_MODE			0xFF871111 //Q
++#define OID_RT_PRO_H2C_CMD_EVENT_MODE			0xFF871112 //S
++#define OID_RT_PRO_WAIT_C2H_EVENT			0xFF871113 //Q
++#define OID_RT_PRO_RW_ACCESS_PROTOCOL_TEST		0xFF871114//Q
++
++#define OID_RT_PRO_SCSI_ACCESS_TEST			0xFF871115 //Q, S
++
++#define OID_RT_PRO_SCSI_TCPIPOFFLOAD_OUT		0xFF871116 //S
++#define OID_RT_PRO_SCSI_TCPIPOFFLOAD_IN			0xFF871117 //Q,S
++#define OID_RT_RRO_RX_PKT_VIA_IOCTRL			0xFF871118 //Q
++#define OID_RT_RRO_RX_PKTARRAY_VIA_IOCTRL		0xFF871119 //Q
++
++#define OID_RT_RPO_SET_PWRMGT_TEST			0xFF87111A //S
++#define OID_RT_PRO_QRY_PWRMGT_TEST			0XFF87111B //Q
++#define OID_RT_RPO_ASYNC_RWIO_TEST			0xFF87111C //S
++#define OID_RT_RPO_ASYNC_RWIO_POLL			0xFF87111D //Q
++#define OID_RT_PRO_SET_RF_INTFS				0xFF87111E //S
++#define OID_RT_POLL_RX_STATUS				0xFF87111F //Q
++
++#define OID_RT_PRO_CFG_DEBUG_MESSAGE			0xFF871120 //Q,S
++#define OID_RT_PRO_SET_DATA_RATE_EX			0xFF871121//S
++#define OID_RT_PRO_SET_BASIC_RATE			0xFF871122//S
++#define OID_RT_PRO_READ_TSSI				0xFF871123//S
++#define OID_RT_PRO_SET_POWER_TRACKING			0xFF871124//S
++
++ 
++#define OID_RT_PRO_QRY_PWRSTATE				0xFF871150 //Q
++#define OID_RT_PRO_SET_PWRSTATE				0xFF871151 //S 
++
++//Method 2 , using workitem
++#define OID_RT_SET_READ_REG				0xFF871181 //S
++#define OID_RT_SET_WRITE_REG				0xFF871182 //S
++#define OID_RT_SET_BURST_READ_REG			0xFF871183 //S
++#define OID_RT_SET_BURST_WRITE_REG			0xFF871184 //S
++#define OID_RT_SET_WRITE_TXCMD				0xFF871185 //S
++#define OID_RT_SET_READ16_EEPROM			0xFF871186 //S
++#define OID_RT_SET_WRITE16_EEPROM			0xFF871187 //S
++#define OID_RT_QRY_POLL_WKITEM				0xFF871188 //Q
++
++//For SDIO INTERFACE only
++#define OID_RT_PRO_SYNCPAGERW_SRAM			0xFF8711A0 //Q, S
++#define OID_RT_PRO_871X_DRV_EXT 			0xFF8711A1
++
++//For USB INTERFACE only
++#define OID_RT_PRO_USB_VENDOR_REQ			0xFF8711B0 //Q, S
++#define OID_RT_PRO_SCSI_AUTO_TEST			0xFF8711B1 //S
++#define OID_RT_PRO_USB_MAC_AC_FIFO_WRITE		0xFF8711B2 //S
++#define OID_RT_PRO_USB_MAC_RX_FIFO_READ			0xFF8711B3 //Q
++#define OID_RT_PRO_USB_MAC_RX_FIFO_POLLING		0xFF8711B4 //Q
++
++#define OID_RT_PRO_H2C_SET_RATE_TABLE			0xFF8711FB //S
++#define OID_RT_PRO_H2C_GET_RATE_TABLE			0xFF8711FC //S
++#define OID_RT_PRO_H2C_C2H_LBK_TEST			0xFF8711FE
++
++#define OID_RT_PRO_ENCRYPTION_CTRL			0xFF871200 //Q, S
++#define OID_RT_PRO_ADD_STA_INFO				0xFF871201 //S
++#define OID_RT_PRO_DELE_STA_INFO    			0xFF871202 //S
++#define OID_RT_PRO_QUERY_DR_VARIABLE   			0xFF871203 //Q
++
++#define OID_RT_PRO_RX_PACKET_TYPE			0xFF871204 //Q, S
++
++#define OID_RT_PRO_READ_EFUSE				0xFF871205 //Q
++#define OID_RT_PRO_WRITE_EFUSE				0xFF871206 //S
++#define OID_RT_PRO_RW_EFUSE_PGPKT			0xFF871207 //Q, S
++#define OID_RT_GET_EFUSE_CURRENT_SIZE			0xFF871208 //Q
++
++#define OID_RT_SET_BANDWIDTH				0xFF871209 //S
++#define OID_RT_SET_CRYSTAL_CAP				0xFF87120A //S
++
++#define OID_RT_SET_RX_PACKET_TYPE    			0xFF87120B //S
++
++#define OID_RT_GET_EFUSE_MAX_SIZE			0xFF87120C //Q
++
++#define OID_RT_PRO_SET_TX_AGC_OFFSET			0xFF87120D //S
++
++#define OID_RT_PRO_SET_PKT_TEST_MODE			0xFF87120E //S
++
++#define OID_RT_PRO_FOR_EVM_TEST_SETTING			0xFF87120F //S
++
++#define OID_RT_PRO_GET_THERMAL_METER			0xFF871210 //Q
++
++#define OID_RT_RESET_PHY_RX_PACKET_COUNT		0xFF871211 //S
++#define OID_RT_GET_PHY_RX_PACKET_RECEIVED		0xFF871212 //Q
++#define OID_RT_GET_PHY_RX_PACKET_CRC32_ERROR		0xFF871213 //Q
++
++#define OID_RT_SET_POWER_DOWN				0xFF871214 //S
++
++#define OID_RT_GET_POWER_MODE				0xFF871215 //Q
++
++#define OID_RT_PRO_EFUSE				0xFF871216 //Q, S
++#define OID_RT_PRO_EFUSE_MAP				0xFF871217 //Q, S
++
++#endif //#ifndef	__CUSTOM_OID_H
+diff --git a/drivers/net/wireless/rtl8192cu/include/nic_spec.h b/drivers/net/wireless/rtl8192cu/include/nic_spec.h
+new file mode 100755
+index 0000000..18e7b2c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/nic_spec.h
+@@ -0,0 +1,47 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/	
++
++
++#ifndef __NIC_SPEC_H__
++#define __NIC_SPEC_H__
++
++#include <drv_conf.h>
++
++#define RTL8711_MCTRL_		(0x20000)
++#define RTL8711_UART_		(0x30000)
++#define RTL8711_TIMER_		(0x40000)
++#define RTL8711_FINT_		(0x50000)
++#define RTL8711_HINT_		(0x50000)
++#define RTL8711_GPIO_		(0x60000)
++#define RTL8711_WLANCTRL_	(0x200000)
++#define RTL8711_WLANFF_		(0xe00000)
++#define RTL8711_HCICTRL_	(0x600000)
++#define RTL8711_SYSCFG_		(0x620000)
++#define RTL8711_SYSCTRL_	(0x620000)
++#define RTL8711_MCCTRL_		(0x020000)
++
++
++#include <rtl8711_regdef.h>
++
++#include <rtl8711_bitdef.h>
++
++
++#endif // __RTL8711_SPEC_H__
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/osdep_ce_service.h b/drivers/net/wireless/rtl8192cu/include/osdep_ce_service.h
+new file mode 100755
+index 0000000..e374077
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/osdep_ce_service.h
+@@ -0,0 +1,171 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __OSDEP_CE_SERVICE_H_
++#define __OSDEP_CE_SERVICE_H_
++
++
++#include <ndis.h>
++#include <ntddndis.h>
++
++#ifdef CONFIG_SDIO_HCI
++#include "SDCardDDK.h"
++#endif
++
++#ifdef CONFIG_USB_HCI
++#include <usbdi.h>
++#endif
++
++typedef HANDLE 	_sema;
++typedef	LIST_ENTRY	_list;
++typedef NDIS_STATUS _OS_STATUS;
++
++typedef NDIS_SPIN_LOCK	_lock;
++
++typedef HANDLE 		_rwlock; //Mutex
++
++typedef u32	_irqL;
++
++typedef NDIS_HANDLE  _nic_hdl;
++
++
++typedef NDIS_MINIPORT_TIMER    _timer;
++
++struct	__queue	{
++	LIST_ENTRY	queue;
++	_lock	lock;
++};
++
++typedef	NDIS_PACKET	_pkt;
++typedef NDIS_BUFFER	_buffer;
++typedef struct	__queue	_queue;
++
++typedef HANDLE 	_thread_hdl_;
++typedef DWORD thread_return;
++typedef void*	thread_context;
++typedef NDIS_WORK_ITEM _workitem;
++
++#define thread_exit() ExitThread(STATUS_SUCCESS); return 0;
++
++
++#define SEMA_UPBND	(0x7FFFFFFF)   //8192
++
++__inline static _list *get_prev(_list	*list)
++{
++	return list->Blink;
++}
++	
++__inline static _list *get_next(_list	*list)
++{
++	return list->Flink;
++}
++
++__inline static _list	*get_list_head(_queue	*queue)
++{
++	return (&(queue->queue));
++}
++
++#define LIST_CONTAINOR(ptr, type, member) CONTAINING_RECORD(ptr, type, member)
++
++__inline static void _enter_critical(_lock *plock, _irqL *pirqL)
++{
++	NdisAcquireSpinLock(plock);
++}
++
++__inline static void _exit_critical(_lock *plock, _irqL *pirqL)
++{
++	NdisReleaseSpinLock(plock);
++}
++
++__inline static _enter_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	NdisDprAcquireSpinLock(plock);	
++}
++
++__inline static _exit_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	NdisDprReleaseSpinLock(plock);	
++}
++
++
++__inline static void _enter_hwio_critical(_rwlock *prwlock, _irqL *pirqL)
++{
++	WaitForSingleObject(*prwlock, INFINITE );
++
++}
++
++__inline static void _exit_hwio_critical(_rwlock *prwlock, _irqL *pirqL)
++{
++	ReleaseMutex(*prwlock);
++}
++
++__inline static void rtw_list_delete(_list *plist)
++{
++	RemoveEntryList(plist);
++	InitializeListHead(plist);
++}
++
++__inline static void _init_timer(_timer *ptimer,_nic_hdl nic_hdl,void *pfunc,PVOID cntx)
++{
++	NdisMInitializeTimer(ptimer, nic_hdl, pfunc, cntx);
++}
++
++__inline static void _set_timer(_timer *ptimer,u32 delay_time)
++{
++ 	NdisMSetTimer(ptimer,delay_time);
++}
++
++__inline static void _cancel_timer(_timer *ptimer,u8 *bcancelled)
++{
++	NdisMCancelTimer(ptimer,bcancelled);
++}
++
++__inline static void _init_workitem(_workitem *pwork, void *pfunc, PVOID cntx)
++{
++
++	NdisInitializeWorkItem(pwork, pfunc, cntx);
++}
++
++__inline static void _set_workitem(_workitem *pwork)
++{
++	NdisScheduleWorkItem(pwork);
++}
++
++#define ATOMIC_INIT(i)  { (i) }
++
++//
++// Global Mutex: can only be used at PASSIVE level.
++//
++
++#define ACQUIRE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++    while (NdisInterlockedIncrement((PULONG)&(_MutexCounter)) != 1)\
++    {                                                           \
++        NdisInterlockedDecrement((PULONG)&(_MutexCounter));        \
++        NdisMSleep(10000);                          \
++    }                                                           \
++}
++
++#define RELEASE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++    NdisInterlockedDecrement((PULONG)&(_MutexCounter));              \
++}
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/osdep_intf.h b/drivers/net/wireless/rtl8192cu/include/osdep_intf.h
+new file mode 100755
+index 0000000..3cd1659
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/osdep_intf.h
+@@ -0,0 +1,155 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __OSDEP_INTF_H_
++#define __OSDEP_INTF_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++struct intf_priv {
++
++	u8 *intf_dev;
++	u32	max_iosz; 	//USB2.0: 128, USB1.1: 64, SDIO:64
++	u32	max_xmitsz; //USB2.0: unlimited, SDIO:512
++	u32	max_recvsz; //USB2.0: unlimited, SDIO:512
++
++	volatile u8 *io_rwmem;
++	volatile u8 *allocated_io_rwmem;
++	u32	io_wsz; //unit: 4bytes
++	u32	io_rsz;//unit: 4bytes
++	u8 intf_status;
++
++	void (*_bus_io)(u8 *priv);
++
++/*
++Under Sync. IRP (SDIO/USB)
++A protection mechanism is necessary for the io_rwmem(read/write protocol)
++
++Under Async. IRP (SDIO/USB)
++The protection mechanism is through the pending queue.
++*/
++
++	_mutex ioctl_mutex;
++
++
++#ifdef PLATFORM_LINUX
++	#ifdef CONFIG_USB_HCI
++	// when in USB, IO is through interrupt in/out endpoints
++	struct usb_device 	*udev;
++	PURB	piorw_urb;
++	u8 io_irp_cnt;
++	u8 bio_irp_pending;
++	_sema io_retevt;
++	_timer	io_timer;
++	u8 bio_irp_timeout;
++	u8 bio_timer_cancel;
++	#endif
++#endif
++
++#ifdef PLATFORM_OS_XP
++	#ifdef CONFIG_SDIO_HCI
++		// below is for io_rwmem...
++		PMDL pmdl;
++		PSDBUS_REQUEST_PACKET  sdrp;
++		PSDBUS_REQUEST_PACKET  recv_sdrp;
++		PSDBUS_REQUEST_PACKET  xmit_sdrp;
++
++			PIRP		piorw_irp;
++
++	#endif
++	#ifdef CONFIG_USB_HCI
++		PURB	piorw_urb;
++		PIRP		piorw_irp;
++		u8 io_irp_cnt;
++		u8 bio_irp_pending;
++		_sema io_retevt;
++	#endif
++#endif
++
++};
++
++
++#ifdef CONFIG_R871X_TEST
++int rtw_start_pseudo_adhoc(_adapter *padapter);
++int rtw_stop_pseudo_adhoc(_adapter *padapter);
++#endif
++
++struct dvobj_priv *devobj_init(void);
++void devobj_deinit(struct dvobj_priv *pdvobj);
++
++u8 rtw_init_drv_sw(_adapter *padapter);
++u8 rtw_free_drv_sw(_adapter *padapter);
++u8 rtw_reset_drv_sw(_adapter *padapter);
++
++u32 rtw_start_drv_threads(_adapter *padapter);
++void rtw_stop_drv_threads (_adapter *padapter);
++void rtw_cancel_all_timer(_adapter *padapter);
++
++#ifdef PLATFORM_LINUX
++int rtw_ioctl(struct net_device *dev, struct ifreq *rq, int cmd);
++
++int rtw_init_netdev_name(struct net_device *pnetdev, const char *ifname);
++struct net_device *rtw_init_netdev(_adapter *padapter);
++void rtw_unregister_netdevs(struct dvobj_priv *dvobj);
++
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35))
++u16 rtw_recv_select_queue(struct sk_buff *skb);
++#endif //LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35)
++
++#ifdef CONFIG_PROC_DEBUG
++void rtw_proc_init_one(struct net_device *dev);
++void rtw_proc_remove_one(struct net_device *dev);
++#else //!CONFIG_PROC_DEBUG
++static void rtw_proc_init_one(struct net_device *dev){}
++static void rtw_proc_remove_one(struct net_device *dev){}
++#endif //!CONFIG_PROC_DEBUG
++#endif //PLATFORM_LINUX
++
++
++#ifdef PLATFORM_FREEBSD
++extern int rtw_ioctl(struct ifnet * ifp, u_long cmd, caddr_t data);
++#endif
++
++void rtw_ips_dev_unload(_adapter *padapter);
++#ifdef CONFIG_IPS
++int rtw_ips_pwr_up(_adapter *padapter);
++void rtw_ips_pwr_down(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++struct _io_ops;
++_adapter *rtw_drv_if2_init(_adapter *primary_padapter, void (*set_intf_ops)(struct _io_ops *pops));
++void rtw_drv_if2_free(_adapter *if2);
++void rtw_drv_if2_stop(_adapter *if2);
++#ifdef CONFIG_MULTI_VIR_IFACES
++struct dvobj_priv;
++_adapter *rtw_drv_add_vir_if(_adapter *primary_padapter, void (*set_intf_ops)(struct _io_ops *pops));
++void rtw_drv_stop_vir_ifaces(struct dvobj_priv *dvobj);
++void rtw_drv_free_vir_ifaces(struct dvobj_priv *dvobj);
++#endif //CONFIG_MULTI_VIR_IFACES
++#endif
++
++int rtw_drv_register_netdev(_adapter *padapter);
++void rtw_ndev_destructor(_nic_hdl ndev);
++
++#endif	//_OSDEP_INTF_H_
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/osdep_service.h b/drivers/net/wireless/rtl8192cu/include/osdep_service.h
+new file mode 100755
+index 0000000..579fe4f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/osdep_service.h
+@@ -0,0 +1,1819 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __OSDEP_SERVICE_H_
++#define __OSDEP_SERVICE_H_
++
++#include <linux/version.h>
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(4, 11, 0)
++#include <linux/sched/signal.h>
++#endif
++#include <drv_conf.h>
++#include <basic_types.h>
++//#include <rtl871x_byteorder.h>
++
++#define _FAIL		0
++#define _SUCCESS	1
++#define RTW_RX_HANDLED 2
++//#define RTW_STATUS_TIMEDOUT -110
++
++#undef _TRUE
++#define _TRUE		1
++
++#undef _FALSE
++#define _FALSE		0
++	
++
++#ifdef PLATFORM_FREEBSD
++#include <sys/cdefs.h>
++#include <sys/types.h>
++#include <sys/systm.h>
++#include <sys/param.h>
++#include <sys/sockio.h>
++#include <sys/sysctl.h>
++#include <sys/lock.h>
++#include <sys/mutex.h>
++#include <sys/mbuf.h>
++#include <sys/kernel.h>
++#include <sys/socket.h>
++#include <sys/systm.h>
++#include <sys/malloc.h>
++#include <sys/module.h>
++#include <sys/bus.h>
++#include <sys/endian.h>
++#include <sys/kdb.h>
++#include <sys/kthread.h>
++#include <machine/atomic.h>
++
++#include <machine/bus.h>
++#include <machine/resource.h>
++#include <sys/rman.h>
++
++#include <net/bpf.h>
++#include <net/if.h>
++#include <net/if_arp.h>
++#include <net/ethernet.h>
++#include <net/if_dl.h>
++#include <net/if_media.h>
++#include <net/if_types.h>
++#include <net/route.h>
++
++
++#include <netinet/in.h>
++#include <netinet/in_systm.h>
++#include <netinet/in_var.h>
++#include <netinet/if_ether.h>
++
++#include <net80211/ieee80211_var.h>
++#include <net80211/ieee80211_regdomain.h>
++#include <net80211/ieee80211_radiotap.h>
++#include <net80211/ieee80211_ratectl.h>
++
++#include <dev/usb/usb.h>
++#include <dev/usb/usbdi.h>
++#include "usbdevs.h"
++
++#define	USB_DEBUG_VAR rum_debug
++#include <dev/usb/usb_debug.h>
++
++#if 1 //Baron porting from linux, it's all temp solution, needs to check again
++#include <sys/sema.h>
++#include <sys/pcpu.h> /* XXX for PCPU_GET */
++//	typedef struct 	semaphore _sema;
++	typedef struct 	sema _sema;
++//	typedef	spinlock_t	_lock;
++	typedef	struct mtx	_lock;
++	typedef struct mtx 		_mutex;
++	typedef struct timer_list _timer;
++	struct list_head {
++	struct list_head *next, *prev;
++	};
++	struct	__queue	{
++		struct	list_head	queue;	
++		_lock	lock;
++	};
++
++	//typedef	struct sk_buff	_pkt;
++	typedef	struct mbuf	_pkt;
++	typedef struct mbuf	_buffer;
++	
++	typedef struct	__queue	_queue;
++	typedef struct	list_head	_list;
++	typedef	int	_OS_STATUS;
++	//typedef u32	_irqL;
++	typedef unsigned long _irqL;
++	typedef	struct	ifnet * _nic_hdl;
++	
++	typedef pid_t		_thread_hdl_;
++//	typedef struct thread		_thread_hdl_;
++	typedef void		thread_return;
++	typedef void*	thread_context;
++
++	//#define thread_exit() complete_and_exit(NULL, 0)
++
++	typedef void timer_hdl_return;
++	typedef void* timer_hdl_context;
++	typedef struct work_struct _workitem;
++
++#define   KERNEL_VERSION(a,b,c) (((a) << 16) + ((b) << 8) + (c))
++/* emulate a modern version */
++#define LINUX_VERSION_CODE KERNEL_VERSION(2, 6, 35)
++
++#define WIRELESS_EXT -1
++#define HZ hz
++#define spin_lock_irqsave mtx_lock_irqsave
++#define spin_lock_bh mtx_lock_irqsave
++#define mtx_lock_irqsave(lock, x) mtx_lock(lock)//{local_irq_save((x)); mtx_lock_spin((lock));}
++//#define IFT_RTW	0xf9 //ifnet allocate type for RTW
++#define free_netdev if_free
++#define LIST_CONTAINOR(ptr, type, member) \
++        ((type *)((char *)(ptr)-(SIZE_T)(&((type *)0)->member)))
++#define container_of(p,t,n) (t*)((p)-&(((t*)0)->n))
++/* 
++ * Linux timers are emulated using FreeBSD callout functions
++ * (and taskqueue functionality).
++ *
++ * Currently no timer stats functionality.
++ *
++ * See (linux_compat) processes.c
++ *
++ */
++struct timer_list {
++
++        /* FreeBSD callout related fields */
++        struct callout callout;
++
++ 	//timeout function
++        void (*function)(void*);
++	//argument
++	 void *arg;
++        
++};
++struct workqueue_struct;
++struct work_struct;
++typedef void (*work_func_t)(struct work_struct *work);
++/* Values for the state of an item of work (work_struct) */
++typedef enum work_state {
++        WORK_STATE_UNSET = 0,
++        WORK_STATE_CALLOUT_PENDING = 1,
++        WORK_STATE_TASK_PENDING = 2,
++        WORK_STATE_WORK_CANCELLED = 3        
++} work_state_t;
++
++struct work_struct {
++        struct task task; /* FreeBSD task */
++        work_state_t state; /* the pending or otherwise state of work. */
++        work_func_t func;       
++};
++#define spin_unlock_irqrestore mtx_unlock_irqrestore
++#define spin_unlock_bh mtx_unlock_irqrestore
++#define mtx_unlock_irqrestore(lock,x)    mtx_unlock(lock);
++extern void	_rtw_spinlock_init(_lock *plock);
++
++//modify private structure to match freebsd
++#define BITS_PER_LONG 32
++union ktime {
++	s64	tv64;
++#if BITS_PER_LONG != 64 && !defined(CONFIG_KTIME_SCALAR)
++	struct {
++#ifdef __BIG_ENDIAN
++	s32	sec, nsec;
++#else
++	s32	nsec, sec;
++#endif
++	} tv;
++#endif
++};
++#define kmemcheck_bitfield_begin(name)
++#define kmemcheck_bitfield_end(name)
++#define CHECKSUM_NONE 0
++typedef unsigned char *sk_buff_data_t;
++typedef union ktime ktime_t;		/* Kill this */
++
++void rtw_mtx_lock(_lock *plock);
++	
++void rtw_mtx_unlock(_lock *plock);
++
++/** 
++ *	struct sk_buff - socket buffer
++ *	@next: Next buffer in list
++ *	@prev: Previous buffer in list
++ *	@sk: Socket we are owned by
++ *	@tstamp: Time we arrived
++ *	@dev: Device we arrived on/are leaving by
++ *	@transport_header: Transport layer header
++ *	@network_header: Network layer header
++ *	@mac_header: Link layer header
++ *	@_skb_refdst: destination entry (with norefcount bit)
++ *	@sp: the security path, used for xfrm
++ *	@cb: Control buffer. Free for use by every layer. Put private vars here
++ *	@len: Length of actual data
++ *	@data_len: Data length
++ *	@mac_len: Length of link layer header
++ *	@hdr_len: writable header length of cloned skb
++ *	@csum: Checksum (must include start/offset pair)
++ *	@csum_start: Offset from skb->head where checksumming should start
++ *	@csum_offset: Offset from csum_start where checksum should be stored
++ *	@local_df: allow local fragmentation
++ *	@cloned: Head may be cloned (check refcnt to be sure)
++ *	@nohdr: Payload reference only, must not modify header
++ *	@pkt_type: Packet class
++ *	@fclone: skbuff clone status
++ *	@ip_summed: Driver fed us an IP checksum
++ *	@priority: Packet queueing priority
++ *	@users: User count - see {datagram,tcp}.c
++ *	@protocol: Packet protocol from driver
++ *	@truesize: Buffer size 
++ *	@head: Head of buffer
++ *	@data: Data head pointer
++ *	@tail: Tail pointer
++ *	@end: End pointer
++ *	@destructor: Destruct function
++ *	@mark: Generic packet mark
++ *	@nfct: Associated connection, if any
++ *	@ipvs_property: skbuff is owned by ipvs
++ *	@peeked: this packet has been seen already, so stats have been
++ *		done for it, don't do them again
++ *	@nf_trace: netfilter packet trace flag
++ *	@nfctinfo: Relationship of this skb to the connection
++ *	@nfct_reasm: netfilter conntrack re-assembly pointer
++ *	@nf_bridge: Saved data about a bridged frame - see br_netfilter.c
++ *	@skb_iif: ifindex of device we arrived on
++ *	@rxhash: the packet hash computed on receive
++ *	@queue_mapping: Queue mapping for multiqueue devices
++ *	@tc_index: Traffic control index
++ *	@tc_verd: traffic control verdict
++ *	@ndisc_nodetype: router type (from link layer)
++ *	@dma_cookie: a cookie to one of several possible DMA operations
++ *		done by skb DMA functions
++ *	@secmark: security marking
++ *	@vlan_tci: vlan tag control information
++ */
++
++struct sk_buff {
++	/* These two members must be first. */
++	struct sk_buff		*next;
++	struct sk_buff		*prev;
++
++	ktime_t			tstamp;
++
++	struct sock		*sk;
++	//struct net_device	*dev;
++	struct ifnet *dev;
++
++	/*
++	 * This is the control buffer. It is free to use for every
++	 * layer. Please put your private variables there. If you
++	 * want to keep them across layers you have to do a skb_clone()
++	 * first. This is owned by whoever has the skb queued ATM.
++	 */
++	char			cb[48] __aligned(8);
++
++	unsigned long		_skb_refdst;
++#ifdef CONFIG_XFRM
++	struct	sec_path	*sp;
++#endif
++	unsigned int		len,
++				data_len;
++	u16			mac_len,
++				hdr_len;
++	union {
++		u32		csum;
++		struct {
++			u16	csum_start;
++			u16	csum_offset;
++		}smbol2;
++	}smbol1;
++	u32			priority;
++	kmemcheck_bitfield_begin(flags1);
++	u8			local_df:1,
++				cloned:1,
++				ip_summed:2,
++				nohdr:1,
++				nfctinfo:3;
++	u8			pkt_type:3,
++				fclone:2,
++				ipvs_property:1,
++				peeked:1,
++				nf_trace:1;
++	kmemcheck_bitfield_end(flags1);
++	u16			protocol;
++
++	void			(*destructor)(struct sk_buff *skb);
++#if defined(CONFIG_NF_CONNTRACK) || defined(CONFIG_NF_CONNTRACK_MODULE)
++	struct nf_conntrack	*nfct;
++	struct sk_buff		*nfct_reasm;
++#endif
++#ifdef CONFIG_BRIDGE_NETFILTER
++	struct nf_bridge_info	*nf_bridge;
++#endif
++
++	int			skb_iif;
++#ifdef CONFIG_NET_SCHED
++	u16			tc_index;	/* traffic control index */
++#ifdef CONFIG_NET_CLS_ACT
++	u16			tc_verd;	/* traffic control verdict */
++#endif
++#endif
++
++	u32			rxhash;
++
++	kmemcheck_bitfield_begin(flags2);
++	u16			queue_mapping:16;
++#ifdef CONFIG_IPV6_NDISC_NODETYPE
++	u8			ndisc_nodetype:2,
++				deliver_no_wcard:1;
++#else
++	u8			deliver_no_wcard:1;
++#endif
++	kmemcheck_bitfield_end(flags2);
++
++	/* 0/14 bit hole */
++
++#ifdef CONFIG_NET_DMA
++	dma_cookie_t		dma_cookie;
++#endif
++#ifdef CONFIG_NETWORK_SECMARK
++	u32			secmark;
++#endif
++	union {
++		u32		mark;
++		u32		dropcount;
++	}symbol3;
++
++	u16			vlan_tci;
++
++	sk_buff_data_t		transport_header;
++	sk_buff_data_t		network_header;
++	sk_buff_data_t		mac_header;
++	/* These elements must be at the end, see alloc_skb() for details.  */
++	sk_buff_data_t		tail;
++	sk_buff_data_t		end;
++	unsigned char		*head,
++				*data;
++	unsigned int		truesize;
++	atomic_t		users;
++};
++struct sk_buff_head {
++	/* These two members must be first. */
++	struct sk_buff	*next;
++	struct sk_buff	*prev;
++
++	u32		qlen;
++	_lock	lock;
++};
++#define skb_tail_pointer(skb)	skb->tail
++static inline unsigned char *skb_put(struct sk_buff *skb, unsigned int len)
++{
++	unsigned char *tmp = skb_tail_pointer(skb);
++	//SKB_LINEAR_ASSERT(skb);
++	skb->tail += len;
++	skb->len  += len;
++	return tmp;
++}
++
++static inline unsigned char *__skb_pull(struct sk_buff *skb, unsigned int len)
++{
++	skb->len -= len;
++	if(skb->len < skb->data_len)
++		printf("%s(),%d,error!\n",__FUNCTION__,__LINE__);
++	return skb->data += len;
++}
++static inline unsigned char *skb_pull(struct sk_buff *skb, unsigned int len)
++{
++	#ifdef PLATFORM_FREEBSD
++	return __skb_pull(skb, len);
++	#else
++	return unlikely(len > skb->len) ? NULL : __skb_pull(skb, len);
++	#endif //PLATFORM_FREEBSD
++}
++static inline u32 skb_queue_len(const struct sk_buff_head *list_)
++{
++	return list_->qlen;
++}
++static inline void __skb_insert(struct sk_buff *newsk,
++				struct sk_buff *prev, struct sk_buff *next,
++				struct sk_buff_head *list)
++{
++	newsk->next = next;
++	newsk->prev = prev;
++	next->prev  = prev->next = newsk;
++	list->qlen++;
++}
++static inline void __skb_queue_before(struct sk_buff_head *list,
++				      struct sk_buff *next,
++				      struct sk_buff *newsk)
++{
++	__skb_insert(newsk, next->prev, next, list);
++}
++static inline void skb_queue_tail(struct sk_buff_head *list,
++				   struct sk_buff *newsk)
++{
++	mtx_lock(&list->lock);
++	__skb_queue_before(list, (struct sk_buff *)list, newsk);
++	mtx_unlock(&list->lock);
++}
++static inline struct sk_buff *skb_peek(struct sk_buff_head *list_)
++{
++	struct sk_buff *list = ((struct sk_buff *)list_)->next;
++	if (list == (struct sk_buff *)list_)
++		list = NULL;
++	return list;
++}
++static inline void __skb_unlink(struct sk_buff *skb, struct sk_buff_head *list)
++{
++	struct sk_buff *next, *prev;
++
++	list->qlen--;
++	next	   = skb->next;
++	prev	   = skb->prev;
++	skb->next  = skb->prev = NULL;
++	next->prev = prev;
++	prev->next = next;
++}
++
++static inline struct sk_buff *skb_dequeue(struct sk_buff_head *list)
++{
++	mtx_lock(&list->lock);
++
++	struct sk_buff *skb = skb_peek(list);
++	if (skb)
++		__skb_unlink(skb, list);
++
++	mtx_unlock(&list->lock);
++
++	return skb;
++}
++static inline void skb_reserve(struct sk_buff *skb, int len)
++{
++	skb->data += len;
++	skb->tail += len;
++}
++static inline void __skb_queue_head_init(struct sk_buff_head *list)
++{
++	list->prev = list->next = (struct sk_buff *)list;
++	list->qlen = 0;
++}
++/*
++ * This function creates a split out lock class for each invocation;
++ * this is needed for now since a whole lot of users of the skb-queue
++ * infrastructure in drivers have different locking usage (in hardirq)
++ * than the networking core (in softirq only). In the long run either the
++ * network layer or drivers should need annotation to consolidate the
++ * main types of usage into 3 classes.
++ */
++static inline void skb_queue_head_init(struct sk_buff_head *list)
++{
++	_rtw_spinlock_init(&list->lock);
++	__skb_queue_head_init(list);
++}
++unsigned long copy_from_user(void *to, const void *from, unsigned long n);
++unsigned long copy_to_user(void *to, const void *from, unsigned long n);
++struct sk_buff * dev_alloc_skb(unsigned int size);
++struct sk_buff *skb_clone(const struct sk_buff *skb);
++void dev_kfree_skb_any(struct sk_buff *skb);
++#endif //Baron porting from linux, it's all temp solution, needs to check again
++
++
++#if 1 // kenny add Linux compatibility code for Linux USB driver
++#include <dev/usb/usb_compat_linux.h>
++
++#define __init		// __attribute ((constructor))
++#define __exit		// __attribute ((destructor))
++
++/*
++ * Definitions for module_init and module_exit macros.
++ *
++ * These macros will use the SYSINIT framework to call a specified
++ * function (with no arguments) on module loading or unloading.
++ * 
++ */
++
++void module_init_exit_wrapper(void *arg);
++
++#define module_init(initfn)                             \
++        SYSINIT(mod_init_ ## initfn,                    \
++                SI_SUB_KLD, SI_ORDER_FIRST,             \
++                module_init_exit_wrapper, initfn)
++
++#define module_exit(exitfn)                             \
++        SYSUNINIT(mod_exit_ ## exitfn,                  \
++                  SI_SUB_KLD, SI_ORDER_ANY,             \
++                  module_init_exit_wrapper, exitfn)
++
++/*
++ * The usb_register and usb_deregister functions are used to register
++ * usb drivers with the usb subsystem. 
++ */
++int usb_register(struct usb_driver *driver);
++int usb_deregister(struct usb_driver *driver);
++
++/*
++ * usb_get_dev and usb_put_dev - increment/decrement the reference count 
++ * of the usb device structure.
++ *
++ * Original body of usb_get_dev:
++ *
++ *       if (dev)
++ *               get_device(&dev->dev);
++ *       return dev;
++ *
++ * Reference counts are not currently used in this compatibility
++ * layer. So these functions will do nothing.
++ */
++static inline struct usb_device *
++usb_get_dev(struct usb_device *dev)
++{
++        return dev;
++}
++
++static inline void 
++usb_put_dev(struct usb_device *dev)
++{
++        return;
++}
++
++
++// rtw_usb_compat_linux
++int rtw_usb_submit_urb(struct urb *urb, uint16_t mem_flags);
++int rtw_usb_unlink_urb(struct urb *urb);
++int rtw_usb_clear_halt(struct usb_device *dev, struct usb_host_endpoint *uhe);
++int rtw_usb_control_msg(struct usb_device *dev, struct usb_host_endpoint *uhe,
++    uint8_t request, uint8_t requesttype,
++    uint16_t value, uint16_t index, void *data,
++    uint16_t size, usb_timeout_t timeout);
++int rtw_usb_set_interface(struct usb_device *dev, uint8_t iface_no, uint8_t alt_index);
++int rtw_usb_setup_endpoint(struct usb_device *dev,
++    struct usb_host_endpoint *uhe, usb_size_t bufsize);
++struct urb *rtw_usb_alloc_urb(uint16_t iso_packets, uint16_t mem_flags);
++struct usb_host_endpoint *rtw_usb_find_host_endpoint(struct usb_device *dev, uint8_t type, uint8_t ep);
++struct usb_host_interface *rtw_usb_altnum_to_altsetting(const struct usb_interface *intf, uint8_t alt_index);
++struct usb_interface *rtw_usb_ifnum_to_if(struct usb_device *dev, uint8_t iface_no);
++void *rtw_usb_buffer_alloc(struct usb_device *dev, usb_size_t size, uint8_t *dma_addr);
++void *rtw_usbd_get_intfdata(struct usb_interface *intf);
++void rtw_usb_linux_register(void *arg);
++void rtw_usb_linux_deregister(void *arg);
++void rtw_usb_linux_free_device(struct usb_device *dev);
++void rtw_usb_buffer_free(struct usb_device *dev, usb_size_t size,
++    void *addr, uint8_t dma_addr);
++void rtw_usb_free_urb(struct urb *urb);
++void rtw_usb_init_urb(struct urb *urb);
++void rtw_usb_kill_urb(struct urb *urb);
++void rtw_usb_set_intfdata(struct usb_interface *intf, void *data);
++void rtw_usb_fill_bulk_urb(struct urb *urb, struct usb_device *udev,
++    struct usb_host_endpoint *uhe, void *buf,
++    int length, usb_complete_t callback, void *arg);
++int rtw_usb_bulk_msg(struct usb_device *udev, struct usb_host_endpoint *uhe,
++    void *data, int len, uint16_t *pactlen, usb_timeout_t timeout);
++void *usb_get_intfdata(struct usb_interface *intf);
++int usb_linux_init_endpoints(struct usb_device *udev);
++
++
++
++typedef struct urb *  PURB;
++
++typedef unsigned gfp_t;
++#define __GFP_WAIT      ((gfp_t)0x10u)  /* Can wait and reschedule? */
++#define __GFP_HIGH      ((gfp_t)0x20u)  /* Should access emergency pools? */
++#define __GFP_IO        ((gfp_t)0x40u)  /* Can start physical IO? */
++#define __GFP_FS        ((gfp_t)0x80u)  /* Can call down to low-level FS? */
++#define __GFP_COLD      ((gfp_t)0x100u) /* Cache-cold page required */
++#define __GFP_NOWARN    ((gfp_t)0x200u) /* Suppress page allocation failure warning */
++#define __GFP_REPEAT    ((gfp_t)0x400u) /* Retry the allocation.  Might fail */
++#define __GFP_NOFAIL    ((gfp_t)0x800u) /* Retry for ever.  Cannot fail */
++#define __GFP_NORETRY   ((gfp_t)0x1000u)/* Do not retry.  Might fail */
++#define __GFP_NO_GROW   ((gfp_t)0x2000u)/* Slab internal usage */
++#define __GFP_COMP      ((gfp_t)0x4000u)/* Add compound page metadata */
++#define __GFP_ZERO      ((gfp_t)0x8000u)/* Return zeroed page on success */
++#define __GFP_NOMEMALLOC ((gfp_t)0x10000u) /* Don't use emergency reserves */
++#define __GFP_HARDWALL   ((gfp_t)0x20000u) /* Enforce hardwall cpuset memory allocs */
++
++/* This equals 0, but use constants in case they ever change */
++#define GFP_NOWAIT      (GFP_ATOMIC & ~__GFP_HIGH)
++/* GFP_ATOMIC means both !wait (__GFP_WAIT not set) and use emergency pool */
++#define GFP_ATOMIC      (__GFP_HIGH)
++#define GFP_NOIO        (__GFP_WAIT)
++#define GFP_NOFS        (__GFP_WAIT | __GFP_IO)
++#define GFP_KERNEL      (__GFP_WAIT | __GFP_IO | __GFP_FS)
++#define GFP_USER        (__GFP_WAIT | __GFP_IO | __GFP_FS | __GFP_HARDWALL)
++#define GFP_HIGHUSER    (__GFP_WAIT | __GFP_IO | __GFP_FS | __GFP_HARDWALL | \
++                         __GFP_HIGHMEM)
++
++
++#endif // kenny add Linux compatibility code for Linux USB
++
++
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,24))
++	#define DMA_BIT_MASK(n) (((n) == 64) ? ~0ULL : ((1ULL<<(n))-1))
++#endif
++
++__inline static _list *get_next(_list	*list)
++{
++	return list->next;
++}	
++
++__inline static _list	*get_list_head(_queue	*queue)
++{
++	return (&(queue->queue));
++}
++
++	
++#define LIST_CONTAINOR(ptr, type, member) \
++        ((type *)((char *)(ptr)-(SIZE_T)(&((type *)0)->member)))	
++
++        
++__inline static void _enter_critical(_lock *plock, _irqL *pirqL)
++{
++	spin_lock_irqsave(plock, *pirqL);
++}
++
++__inline static void _exit_critical(_lock *plock, _irqL *pirqL)
++{
++	spin_unlock_irqrestore(plock, *pirqL);
++}
++
++__inline static void _enter_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	spin_lock_irqsave(plock, *pirqL);
++}
++
++__inline static void _exit_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	spin_unlock_irqrestore(plock, *pirqL);
++}
++
++__inline static void _enter_critical_bh(_lock *plock, _irqL *pirqL)
++{
++	spin_lock_bh(plock, *pirqL);
++}
++
++__inline static void _exit_critical_bh(_lock *plock, _irqL *pirqL)
++{
++	spin_unlock_bh(plock, *pirqL);
++}
++
++__inline static void _enter_critical_mutex(_mutex *pmutex, _irqL *pirqL)
++{
++
++		mtx_lock(pmutex);
++
++}
++
++
++__inline static void _exit_critical_mutex(_mutex *pmutex, _irqL *pirqL)
++{
++
++		mtx_unlock(pmutex);
++
++}
++static inline void __list_del(struct list_head * prev, struct list_head * next)
++{
++	next->prev = prev;
++	prev->next = next;
++}
++static inline void INIT_LIST_HEAD(struct list_head *list)
++{
++	list->next = list;
++	list->prev = list;
++}
++__inline static void rtw_list_delete(_list *plist)
++{
++	__list_del(plist->prev, plist->next);
++	INIT_LIST_HEAD(plist);
++}
++
++__inline static void _init_timer(_timer *ptimer,_nic_hdl padapter,void *pfunc,void* cntx)
++{
++	ptimer->function = pfunc;
++	ptimer->arg = cntx;
++	callout_init(&ptimer->callout, CALLOUT_MPSAFE);
++}
++
++__inline static void _set_timer(_timer *ptimer,u32 delay_time)
++{	
++	//	mod_timer(ptimer , (jiffies+(delay_time*HZ/1000)));
++	if(ptimer->function && ptimer->arg){
++		rtw_mtx_lock(NULL);
++		callout_reset(&ptimer->callout, delay_time,ptimer->function, ptimer->arg);
++		rtw_mtx_unlock(NULL);
++	}
++}
++
++__inline static void _cancel_timer(_timer *ptimer,u8 *bcancelled)
++{
++	//	del_timer_sync(ptimer); 	
++	//	*bcancelled=  _TRUE;//TRUE ==1; FALSE==0	
++	rtw_mtx_lock(NULL);
++	callout_drain(&ptimer->callout);
++	rtw_mtx_unlock(NULL);
++}
++
++__inline static void _init_workitem(_workitem *pwork, void *pfunc, PVOID cntx)
++{
++	printf("%s Not implement yet! \n",__FUNCTION__);
++}
++
++__inline static void _set_workitem(_workitem *pwork)
++{
++	printf("%s Not implement yet! \n",__FUNCTION__);
++//	schedule_work(pwork);
++}
++
++//
++// Global Mutex: can only be used at PASSIVE level.
++//
++
++#define ACQUIRE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++}
++
++#define RELEASE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++}
++
++#define ATOMIC_INIT(i)  { (i) }
++
++#endif //PLATFORM_FREEBSD
++
++
++#ifdef PLATFORM_LINUX
++	#include <linux/version.h>
++	#include <linux/spinlock.h>
++	#include <linux/compiler.h>
++	#include <linux/kernel.h>
++	#include <linux/errno.h>
++	#include <linux/init.h>
++	#include <linux/slab.h>
++	#include <linux/module.h>
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,5))
++	#include <linux/kref.h>
++#endif
++	//#include <linux/smp_lock.h>
++	#include <linux/netdevice.h>
++	#include <linux/skbuff.h>
++	#include <linux/circ_buf.h>
++	#include <asm/uaccess.h>
++	#include <asm/byteorder.h>
++	#include <asm/atomic.h>
++	#include <asm/io.h>
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,26))
++	#include <asm/semaphore.h>
++#else
++	#include <linux/semaphore.h>
++#endif
++	#include <linux/sem.h>
++	#include <linux/sched.h>
++	#include <linux/etherdevice.h>
++	#include <linux/wireless.h>
++	#include <net/iw_handler.h>
++	#include <linux/if_arp.h>
++	#include <linux/rtnetlink.h>
++	#include <linux/delay.h>
++	#include <linux/proc_fs.h>	// Necessary because we use the proc fs
++	#include <linux/interrupt.h>	// for struct tasklet_struct
++	#include <linux/ip.h>
++	#include <linux/kthread.h>
++
++#ifdef CONFIG_IOCTL_CFG80211	
++//	#include <linux/ieee80211.h>        
++        #include <net/ieee80211_radiotap.h>
++	#include <net/cfg80211.h>	
++#endif //CONFIG_IOCTL_CFG80211
++
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
++	#include <linux/in.h>
++	#include <linux/udp.h>
++#endif
++
++#ifdef CONFIG_USB_HCI
++	#include <linux/usb.h>
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,21))
++	#include <linux/usb_ch9.h>
++#else
++	#include <linux/usb/ch9.h>
++#endif
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	#include <linux/pci.h>
++#endif
++
++	
++#ifdef CONFIG_USB_HCI
++	typedef struct urb *  PURB;
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,22))
++#ifdef CONFIG_USB_SUSPEND
++#define CONFIG_AUTOSUSPEND	1
++#endif
++#endif
++#endif
++
++	typedef struct 	semaphore _sema;
++	typedef	spinlock_t	_lock;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37))
++	typedef struct mutex 		_mutex;
++#else
++	typedef struct semaphore	_mutex;
++#endif
++	typedef struct timer_list _timer;
++
++	struct	__queue	{
++		struct	list_head	queue;	
++		_lock	lock;
++	};
++
++	typedef	struct sk_buff	_pkt;
++	typedef unsigned char	_buffer;
++	
++	typedef struct	__queue	_queue;
++	typedef struct	list_head	_list;
++	typedef	int	_OS_STATUS;
++	//typedef u32	_irqL;
++	typedef unsigned long _irqL;
++	typedef	struct	net_device * _nic_hdl;
++	
++	typedef void*		_thread_hdl_;
++	typedef int		thread_return;
++	typedef void*	thread_context;
++
++	#define thread_exit() complete_and_exit(NULL, 0)
++
++	typedef void timer_hdl_return;
++	typedef void* timer_hdl_context;
++	typedef struct work_struct _workitem;
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,24))
++	#define DMA_BIT_MASK(n) (((n) == 64) ? ~0ULL : ((1ULL<<(n))-1))
++#endif
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,22))
++// Porting from linux kernel, for compatible with old kernel.
++static inline unsigned char *skb_tail_pointer(const struct sk_buff *skb)
++{
++	return skb->tail;
++}
++
++static inline void skb_reset_tail_pointer(struct sk_buff *skb)
++{
++	skb->tail = skb->data;
++}
++
++static inline void skb_set_tail_pointer(struct sk_buff *skb, const int offset)
++{
++	skb->tail = skb->data + offset;
++}
++
++static inline unsigned char *skb_end_pointer(const struct sk_buff *skb)
++{
++	return skb->end;
++}
++#endif
++
++__inline static _list *get_next(_list	*list)
++{
++	return list->next;
++}	
++
++__inline static _list	*get_list_head(_queue	*queue)
++{
++	return (&(queue->queue));
++}
++
++	
++#define LIST_CONTAINOR(ptr, type, member) \
++        ((type *)((char *)(ptr)-(SIZE_T)(&((type *)0)->member)))	
++
++        
++__inline static void _enter_critical(_lock *plock, _irqL *pirqL)
++{
++	spin_lock_irqsave(plock, *pirqL);
++}
++
++__inline static void _exit_critical(_lock *plock, _irqL *pirqL)
++{
++	spin_unlock_irqrestore(plock, *pirqL);
++}
++
++__inline static void _enter_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	spin_lock_irqsave(plock, *pirqL);
++}
++
++__inline static void _exit_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	spin_unlock_irqrestore(plock, *pirqL);
++}
++
++__inline static void _enter_critical_bh(_lock *plock, _irqL *pirqL)
++{
++	spin_lock_bh(plock);
++}
++
++__inline static void _exit_critical_bh(_lock *plock, _irqL *pirqL)
++{
++	spin_unlock_bh(plock);
++}
++
++__inline static void _enter_critical_mutex(_mutex *pmutex, _irqL *pirqL)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37))
++		mutex_lock(pmutex);
++#else
++		down(pmutex);
++#endif
++}
++
++
++__inline static void _exit_critical_mutex(_mutex *pmutex, _irqL *pirqL)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37))
++		mutex_unlock(pmutex);
++#else
++		up(pmutex);
++#endif
++}
++
++__inline static void rtw_list_delete(_list *plist)
++{
++	list_del_init(plist);
++}
++
++__inline static void _init_timer(_timer *ptimer,_nic_hdl nic_hdl,void *pfunc,void* cntx)
++{
++	//setup_timer(ptimer, pfunc,(u32)cntx);	
++	ptimer->function = pfunc;
++	ptimer->data = (unsigned long)cntx;
++	init_timer(ptimer);
++}
++
++__inline static void _set_timer(_timer *ptimer,u32 delay_time)
++{	
++	mod_timer(ptimer , (jiffies+(delay_time*HZ/1000)));	
++}
++
++__inline static void _cancel_timer(_timer *ptimer,u8 *bcancelled)
++{
++	del_timer_sync(ptimer); 	
++	*bcancelled=  _TRUE;//TRUE ==1; FALSE==0
++}
++
++#ifdef PLATFORM_LINUX
++#define RTW_TIMER_HDL_ARGS void *FunctionContext
++#elif defined(PLATFORM_OS_CE) || defined(PLATFORM_WINDOWS)
++#define RTW_TIMER_HDL_ARGS IN PVOID SystemSpecific1, IN PVOID FunctionContext, IN PVOID SystemSpecific2, IN PVOID SystemSpecific3
++#endif
++
++#define RTW_TIMER_HDL_NAME(name) rtw_##name##_timer_hdl
++#define RTW_DECLARE_TIMER_HDL(name) void RTW_TIMER_HDL_NAME(name)(RTW_TIMER_HDL_ARGS)
++
++
++__inline static void _init_workitem(_workitem *pwork, void *pfunc, PVOID cntx)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,20))
++	INIT_WORK(pwork, pfunc);
++#else
++	INIT_WORK(pwork, pfunc,pwork);
++#endif
++}
++
++__inline static void _set_workitem(_workitem *pwork)
++{
++	schedule_work(pwork);
++}
++
++__inline static void _cancel_workitem_sync(_workitem *pwork)
++{
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,22))
++	cancel_work_sync(pwork);
++#else
++	flush_scheduled_work();
++#endif
++}
++
++//
++// Global Mutex: can only be used at PASSIVE level.
++//
++
++#define ACQUIRE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++	while (atomic_inc_return((atomic_t *)&(_MutexCounter)) != 1)\
++	{                                                           \
++		atomic_dec((atomic_t *)&(_MutexCounter));        \
++		msleep(10);                          \
++	}                                                           \
++}
++
++#define RELEASE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++	atomic_dec((atomic_t *)&(_MutexCounter));        \
++}
++
++static inline int rtw_netif_queue_stopped(struct net_device *pnetdev)
++{
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35))
++	return (netif_tx_queue_stopped(netdev_get_tx_queue(pnetdev, 0)) &&
++		netif_tx_queue_stopped(netdev_get_tx_queue(pnetdev, 1)) &&
++		netif_tx_queue_stopped(netdev_get_tx_queue(pnetdev, 2)) &&
++		netif_tx_queue_stopped(netdev_get_tx_queue(pnetdev, 3)) );
++#else
++	return netif_queue_stopped(pnetdev);
++#endif
++}
++
++static inline void rtw_netif_wake_queue(struct net_device *pnetdev)
++{
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35))
++	netif_tx_wake_all_queues(pnetdev);
++#else
++	netif_wake_queue(pnetdev);
++#endif
++}
++
++static inline void rtw_netif_start_queue(struct net_device *pnetdev)
++{
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35))
++	netif_tx_start_all_queues(pnetdev);
++#else
++	netif_start_queue(pnetdev);
++#endif
++}
++
++static inline void rtw_netif_stop_queue(struct net_device *pnetdev)
++{
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35))
++	netif_tx_stop_all_queues(pnetdev);
++#else
++	netif_stop_queue(pnetdev);
++#endif
++}
++
++#endif	// PLATFORM_LINUX
++
++
++#ifdef PLATFORM_OS_XP
++
++	#include <ndis.h>
++	#include <ntddk.h>
++	#include <ntddndis.h>
++	#include <ntdef.h>
++
++#ifdef CONFIG_USB_HCI
++	#include <usb.h>
++	#include <usbioctl.h>
++	#include <usbdlib.h>
++#endif
++
++	typedef KSEMAPHORE 	_sema;
++	typedef	LIST_ENTRY	_list;
++	typedef NDIS_STATUS _OS_STATUS;
++	
++
++	typedef NDIS_SPIN_LOCK	_lock;
++
++	typedef KMUTEX 			_mutex;
++
++	typedef KIRQL	_irqL;
++
++	// USB_PIPE for WINCE , but handle can be use just integer under windows
++	typedef NDIS_HANDLE  _nic_hdl;
++
++
++	typedef NDIS_MINIPORT_TIMER    _timer;
++
++	struct	__queue	{
++		LIST_ENTRY	queue;	
++		_lock	lock;
++	};
++
++	typedef	NDIS_PACKET	_pkt;
++	typedef NDIS_BUFFER	_buffer;
++	typedef struct	__queue	_queue;
++	
++	typedef PKTHREAD _thread_hdl_;
++	typedef void	thread_return;
++	typedef void* thread_context;
++
++	typedef NDIS_WORK_ITEM _workitem;
++
++	#define thread_exit() PsTerminateSystemThread(STATUS_SUCCESS);
++
++	#define HZ			10000000
++	#define SEMA_UPBND	(0x7FFFFFFF)   //8192
++	
++__inline static _list *get_next(_list	*list)
++{
++	return list->Flink;
++}	
++
++__inline static _list	*get_list_head(_queue	*queue)
++{
++	return (&(queue->queue));
++}
++	
++
++#define LIST_CONTAINOR(ptr, type, member) CONTAINING_RECORD(ptr, type, member)
++     
++
++__inline static _enter_critical(_lock *plock, _irqL *pirqL)
++{
++	NdisAcquireSpinLock(plock);	
++}
++
++__inline static _exit_critical(_lock *plock, _irqL *pirqL)
++{
++	NdisReleaseSpinLock(plock);	
++}
++
++
++__inline static _enter_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	NdisDprAcquireSpinLock(plock);	
++}
++
++__inline static _exit_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	NdisDprReleaseSpinLock(plock);	
++}
++
++__inline static void _enter_critical_bh(_lock *plock, _irqL *pirqL)
++{
++	NdisDprAcquireSpinLock(plock);
++}
++
++__inline static void _exit_critical_bh(_lock *plock, _irqL *pirqL)
++{
++	NdisDprReleaseSpinLock(plock);
++}
++
++__inline static _enter_critical_mutex(_mutex *pmutex, _irqL *pirqL)
++{
++	KeWaitForSingleObject(pmutex, Executive, KernelMode, FALSE, NULL);
++}
++
++
++__inline static _exit_critical_mutex(_mutex *pmutex, _irqL *pirqL)
++{
++	KeReleaseMutex(pmutex, FALSE);
++}
++
++
++__inline static void rtw_list_delete(_list *plist)
++{
++	RemoveEntryList(plist);
++	InitializeListHead(plist);	
++}
++
++__inline static void _init_timer(_timer *ptimer,_nic_hdl nic_hdl,void *pfunc,PVOID cntx)
++{
++	NdisMInitializeTimer(ptimer, nic_hdl, pfunc, cntx);
++}
++
++__inline static void _set_timer(_timer *ptimer,u32 delay_time)
++{	
++ 	NdisMSetTimer(ptimer,delay_time);	
++}
++
++__inline static void _cancel_timer(_timer *ptimer,u8 *bcancelled)
++{
++	NdisMCancelTimer(ptimer,bcancelled);
++}
++
++__inline static void _init_workitem(_workitem *pwork, void *pfunc, PVOID cntx)
++{
++
++	NdisInitializeWorkItem(pwork, pfunc, cntx);
++}
++
++__inline static void _set_workitem(_workitem *pwork)
++{
++	NdisScheduleWorkItem(pwork);
++}
++
++
++#define ATOMIC_INIT(i)  { (i) }
++
++//
++// Global Mutex: can only be used at PASSIVE level.
++//
++
++#define ACQUIRE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++    while (NdisInterlockedIncrement((PULONG)&(_MutexCounter)) != 1)\
++    {                                                           \
++        NdisInterlockedDecrement((PULONG)&(_MutexCounter));        \
++        NdisMSleep(10000);                          \
++    }                                                           \
++}
++
++#define RELEASE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++    NdisInterlockedDecrement((PULONG)&(_MutexCounter));              \
++}
++
++#endif // PLATFORM_OS_XP
++
++
++#ifdef PLATFORM_OS_CE
++#include <osdep_ce_service.h>
++#endif
++
++#include <rtw_byteorder.h>
++
++#ifndef BIT
++	#define BIT(x)	( 1 << (x))
++#endif
++
++extern int RTW_STATUS_CODE(int error_code);
++
++#define CONFIG_USE_VMALLOC
++
++/* flags used for rtw_mstat_update() */
++enum mstat_f {
++	/* type: 0x00ff */
++	MSTAT_TYPE_VIR = 0x00,
++	MSTAT_TYPE_PHY= 0x01,
++	MSTAT_TYPE_SKB = 0x02,
++	MSTAT_TYPE_USB = 0x03,
++	MSTAT_TYPE_MAX = 0x04,
++
++	/* func: 0xff00 */
++	MSTAT_FUNC_UNSPECIFIED = 0x00<<8,
++	MSTAT_FUNC_IO = 0x01<<8,
++	MSTAT_FUNC_TX_IO = 0x02<<8,
++	MSTAT_FUNC_RX_IO = 0x03<<8,
++	MSTAT_FUNC_TX = 0x04<<8,
++	MSTAT_FUNC_RX = 0x05<<8,
++	MSTAT_FUNC_MAX = 0x06<<8,
++};
++
++#define mstat_tf_idx(flags) ((flags)&0xff)
++#define mstat_ff_idx(flags) (((flags)&0xff00) >> 8)
++
++typedef enum mstat_status{
++	MSTAT_ALLOC_SUCCESS = 0,
++	MSTAT_ALLOC_FAIL,
++	MSTAT_FREE
++} MSTAT_STATUS;
++
++#ifdef DBG_MEM_ALLOC
++void rtw_mstat_update(const enum mstat_f flags, const MSTAT_STATUS status, u32 sz);
++int _rtw_mstat_dump(char *buf, int len);
++void rtw_mstat_dump (void);
++u8* dbg_rtw_vmalloc(u32 sz, const enum mstat_f flags, const char *func, const int line);
++u8* dbg_rtw_zvmalloc(u32 sz, const enum mstat_f flags, const char *func, const int line);
++void dbg_rtw_vmfree(u8 *pbuf, const enum mstat_f flags, u32 sz, const char *func, const int line);
++u8* dbg_rtw_malloc(u32 sz, const enum mstat_f flags, const char *func, const int line);
++u8* dbg_rtw_zmalloc(u32 sz, const enum mstat_f flags, const char *func, const int line);
++void dbg_rtw_mfree(u8 *pbuf, const enum mstat_f flags, u32 sz, const char *func, const int line);
++
++struct sk_buff * dbg_rtw_skb_alloc(unsigned int size, const enum mstat_f flags, const char *func, const int line);
++void dbg_rtw_skb_free(struct sk_buff *skb, const enum mstat_f flags, const char *func, const int line);
++struct sk_buff *dbg_rtw_skb_copy(const struct sk_buff *skb, const enum mstat_f flags, const char *func, const int line);
++struct sk_buff *dbg_rtw_skb_clone(struct sk_buff *skb, const enum mstat_f flags, const char *func, const int line);
++int dbg_rtw_netif_rx(_nic_hdl ndev, struct sk_buff *skb, const enum mstat_f flags, const char *func, int line);
++void dbg_rtw_skb_queue_purge(struct sk_buff_head *list, enum mstat_f flags, const char *func, int line);
++
++#ifdef CONFIG_USB_HCI
++void *dbg_rtw_usb_buffer_alloc(struct usb_device *dev, size_t size, dma_addr_t *dma, const enum mstat_f flags, const char *func, const int line);
++void dbg_rtw_usb_buffer_free(struct usb_device *dev, size_t size, void *addr, dma_addr_t dma, const enum mstat_f flags, const char *func, const int line);
++#endif /* CONFIG_USB_HCI */
++
++#ifdef CONFIG_USE_VMALLOC
++#define rtw_vmalloc(sz)			dbg_rtw_vmalloc((sz), MSTAT_TYPE_VIR, __FUNCTION__, __LINE__)
++#define rtw_zvmalloc(sz)			dbg_rtw_zvmalloc((sz), MSTAT_TYPE_VIR, __FUNCTION__, __LINE__)
++#define rtw_vmfree(pbuf, sz)		dbg_rtw_vmfree((pbuf), (sz), MSTAT_TYPE_VIR, __FUNCTION__, __LINE__)
++#define rtw_vmalloc_f(sz, mstat_f)			dbg_rtw_vmalloc((sz), ((mstat_f)&0xff00)|MSTAT_TYPE_VIR, __FUNCTION__, __LINE__)
++#define rtw_zvmalloc_f(sz, mstat_f)		dbg_rtw_zvmalloc((sz), ((mstat_f)&0xff00)|MSTAT_TYPE_VIR, __FUNCTION__, __LINE__)
++#define rtw_vmfree_f(pbuf, sz, mstat_f)	dbg_rtw_vmfree((pbuf), (sz), ((mstat_f)&0xff00)|MSTAT_TYPE_VIR, __FUNCTION__, __LINE__)
++#else /* CONFIG_USE_VMALLOC */
++#define rtw_vmalloc(sz)			dbg_rtw_malloc((sz), MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_zvmalloc(sz)			dbg_rtw_zmalloc((sz), MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_vmfree(pbuf, sz)		dbg_rtw_mfree((pbuf), (sz), MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_vmalloc_f(sz, mstat_f)			dbg_rtw_malloc((sz), ((mstat_f)&0xff00)|MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_zvmalloc_f(sz, mstat_f)		dbg_rtw_zmalloc((sz), ((mstat_f)&0xff00)|MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_vmfree_f(pbuf, sz, mstat_f)	dbg_rtw_mfree((pbuf), (sz), ((mstat_f)&0xff00)|MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#endif /* CONFIG_USE_VMALLOC */
++#define rtw_malloc(sz)			dbg_rtw_malloc((sz), MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_zmalloc(sz)			dbg_rtw_zmalloc((sz), MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_mfree(pbuf, sz)		dbg_rtw_mfree((pbuf), (sz), MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_malloc_f(sz, mstat_f)			dbg_rtw_malloc((sz), ((mstat_f)&0xff00)|MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_zmalloc_f(sz, mstat_f)			dbg_rtw_zmalloc((sz), ((mstat_f)&0xff00)|MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_mfree_f(pbuf, sz, mstat_f)		dbg_rtw_mfree((pbuf), (sz), ((mstat_f)&0xff00)|MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++
++#define rtw_skb_alloc(size)	dbg_rtw_skb_alloc((size), MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_free(skb)	dbg_rtw_skb_free((skb), MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_alloc_f(size, mstat_f)	dbg_rtw_skb_alloc((size), ((mstat_f)&0xff00)|MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_free_f(skb, mstat_f)	dbg_rtw_skb_free((skb), ((mstat_f)&0xff00)|MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_copy(skb)	dbg_rtw_skb_copy((skb), MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_clone(skb)	dbg_rtw_skb_clone((skb), MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_copy_f(skb, mstat_f)	dbg_rtw_skb_copy((skb), ((mstat_f)&0xff00)|MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_clone_f(skb, mstat_f)	dbg_rtw_skb_clone((skb), ((mstat_f)&0xff00)|MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_netif_rx(ndev, skb)	dbg_rtw_netif_rx(ndev, skb, MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_queue_purge(sk_buff_head) dbg_rtw_skb_queue_purge(sk_buff_head, MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#ifdef CONFIG_USB_HCI
++#define rtw_usb_buffer_alloc(dev, size, dma)		dbg_rtw_usb_buffer_alloc((dev), (size), (dma), MSTAT_TYPE_USB, __FUNCTION__, __LINE__)
++#define rtw_usb_buffer_free(dev, size, addr, dma)	dbg_rtw_usb_buffer_free((dev), (size), (addr), (dma), MSTAT_TYPE_USB, __FUNCTION__, __LINE__)
++#define rtw_usb_buffer_alloc_f(dev, size, dma, mstat_f)			dbg_rtw_usb_buffer_alloc((dev), (size), (dma), ((mstat_f)&0xff00)|MSTAT_TYPE_USB, __FUNCTION__, __LINE__)
++#define rtw_usb_buffer_free_f(dev, size, addr, dma, mstat_f)	dbg_rtw_usb_buffer_free((dev), (size), (addr), (dma), ((mstat_f)&0xff00)|MSTAT_TYPE_USB, __FUNCTION__, __LINE__)
++#endif /* CONFIG_USB_HCI */
++
++#else /* DBG_MEM_ALLOC */
++#define rtw_mstat_update(flag, status, sz) do {} while(0)
++#define rtw_mstat_dump() do {} while(0)
++u8*	_rtw_vmalloc(u32 sz);
++u8*	_rtw_zvmalloc(u32 sz);
++void	_rtw_vmfree(u8 *pbuf, u32 sz);
++u8*	_rtw_zmalloc(u32 sz);
++u8*	_rtw_malloc(u32 sz);
++void	_rtw_mfree(u8 *pbuf, u32 sz);
++
++struct sk_buff *_rtw_skb_alloc(u32 sz);
++void _rtw_skb_free(struct sk_buff *skb);
++struct sk_buff *_rtw_skb_copy(const struct sk_buff *skb);
++struct sk_buff *_rtw_skb_clone(struct sk_buff *skb);
++int _rtw_netif_rx(_nic_hdl ndev, struct sk_buff *skb);
++void _rtw_skb_queue_purge(struct sk_buff_head *list);
++
++#ifdef CONFIG_USB_HCI
++void *_rtw_usb_buffer_alloc(struct usb_device *dev, size_t size, dma_addr_t *dma);
++void _rtw_usb_buffer_free(struct usb_device *dev, size_t size, void *addr, dma_addr_t dma);
++#endif /* CONFIG_USB_HCI */
++
++#ifdef CONFIG_USE_VMALLOC
++#define rtw_vmalloc(sz)			_rtw_vmalloc((sz))
++#define rtw_zvmalloc(sz)			_rtw_zvmalloc((sz))
++#define rtw_vmfree(pbuf, sz)		_rtw_vmfree((pbuf), (sz))
++#define rtw_vmalloc_f(sz, mstat_f)			_rtw_vmalloc((sz))
++#define rtw_zvmalloc_f(sz, mstat_f)		_rtw_zvmalloc((sz))
++#define rtw_vmfree_f(pbuf, sz, mstat_f)	_rtw_vmfree((pbuf), (sz))
++#else /* CONFIG_USE_VMALLOC */
++#define rtw_vmalloc(sz)			_rtw_malloc((sz))
++#define rtw_zvmalloc(sz)			_rtw_zmalloc((sz))
++#define rtw_vmfree(pbuf, sz)		_rtw_mfree((pbuf), (sz))
++#define rtw_vmalloc_f(sz, mstat_f)			_rtw_malloc((sz))
++#define rtw_zvmalloc_f(sz, mstat_f)		_rtw_zmalloc((sz))
++#define rtw_vmfree_f(pbuf, sz, mstat_f)	_rtw_mfree((pbuf), (sz))
++#endif /* CONFIG_USE_VMALLOC */
++#define rtw_malloc(sz)			_rtw_malloc((sz))
++#define rtw_zmalloc(sz)			_rtw_zmalloc((sz))
++#define rtw_mfree(pbuf, sz)		_rtw_mfree((pbuf), (sz))
++#define rtw_malloc_f(sz, mstat_f)			_rtw_malloc((sz))
++#define rtw_zmalloc_f(sz, mstat_f)			_rtw_zmalloc((sz))
++#define rtw_mfree_f(pbuf, sz, mstat_f)		_rtw_mfree((pbuf), (sz))
++
++#define rtw_skb_alloc(size) _rtw_skb_alloc((size))
++#define rtw_skb_free(skb) _rtw_skb_free((skb))
++#define rtw_skb_alloc_f(size, mstat_f)	_rtw_skb_alloc((size))
++#define rtw_skb_free_f(skb, mstat_f)	_rtw_skb_free((skb))
++#define rtw_skb_copy(skb)	_rtw_skb_copy((skb))
++#define rtw_skb_clone(skb)	_rtw_skb_clone((skb))
++#define rtw_skb_copy_f(skb, mstat_f)	_rtw_skb_copy((skb))
++#define rtw_skb_clone_f(skb, mstat_f)	_rtw_skb_clone((skb))
++#define rtw_netif_rx(ndev, skb) _rtw_netif_rx(ndev, skb)
++#define rtw_skb_queue_purge(sk_buff_head) _rtw_skb_queue_purge(sk_buff_head)
++#ifdef CONFIG_USB_HCI
++#define rtw_usb_buffer_alloc(dev, size, dma) _rtw_usb_buffer_alloc((dev), (size), (dma))
++#define rtw_usb_buffer_free(dev, size, addr, dma) _rtw_usb_buffer_free((dev), (size), (addr), (dma))
++#define rtw_usb_buffer_alloc_f(dev, size, dma, mstat_f) _rtw_usb_buffer_alloc((dev), (size), (dma))
++#define rtw_usb_buffer_free_f(dev, size, addr, dma, mstat_f) _rtw_usb_buffer_free((dev), (size), (addr), (dma))
++#endif /* CONFIG_USB_HCI */
++#endif /* DBG_MEM_ALLOC */
++
++extern void*	rtw_malloc2d(int h, int w, int size);
++extern void	rtw_mfree2d(void *pbuf, int h, int w, int size);
++
++extern void	_rtw_memcpy(void* dec, void* sour, u32 sz);
++extern int	_rtw_memcmp(void *dst, void *src, u32 sz);
++extern void	_rtw_memset(void *pbuf, int c, u32 sz);
++
++extern void	_rtw_init_listhead(_list *list);
++extern u32	rtw_is_list_empty(_list *phead);
++extern void	rtw_list_insert_head(_list *plist, _list *phead);
++extern void	rtw_list_insert_tail(_list *plist, _list *phead);
++#ifndef PLATFORM_FREEBSD
++extern void	rtw_list_delete(_list *plist);
++#endif //PLATFORM_FREEBSD
++
++extern void	_rtw_init_sema(_sema *sema, int init_val);
++extern void	_rtw_free_sema(_sema	*sema);
++extern void	_rtw_up_sema(_sema	*sema);
++extern u32	_rtw_down_sema(_sema *sema);
++extern void	_rtw_mutex_init(_mutex *pmutex);
++extern void	_rtw_mutex_free(_mutex *pmutex);
++#ifndef PLATFORM_FREEBSD
++extern void	_rtw_spinlock_init(_lock *plock);
++#endif //PLATFORM_FREEBSD
++extern void	_rtw_spinlock_free(_lock *plock);
++extern void	_rtw_spinlock(_lock	*plock);
++extern void	_rtw_spinunlock(_lock	*plock);
++extern void	_rtw_spinlock_ex(_lock	*plock);
++extern void	_rtw_spinunlock_ex(_lock	*plock);
++
++extern void	_rtw_init_queue(_queue	*pqueue);
++extern u32	_rtw_queue_empty(_queue	*pqueue);
++extern u32	rtw_end_of_queue_search(_list *queue, _list *pelement);
++
++extern u32	rtw_get_current_time(void);
++extern u32	rtw_systime_to_ms(u32 systime);
++extern u32	rtw_ms_to_systime(u32 ms);
++extern s32	rtw_get_passing_time_ms(u32 start);
++extern s32	rtw_get_time_interval_ms(u32 start, u32 end);
++
++extern void	rtw_sleep_schedulable(int ms);
++
++extern void	rtw_msleep_os(int ms);
++extern void	rtw_usleep_os(int us);
++
++extern u32 	rtw_atoi(u8* s);
++
++#ifdef DBG_DELAY_OS
++#define rtw_mdelay_os(ms) _rtw_mdelay_os((ms), __FUNCTION__, __LINE__)
++#define rtw_udelay_os(ms) _rtw_udelay_os((ms), __FUNCTION__, __LINE__)
++extern void _rtw_mdelay_os(int ms, const char *func, const int line);
++extern void _rtw_udelay_os(int us, const char *func, const int line);
++#else
++extern void	rtw_mdelay_os(int ms);
++extern void	rtw_udelay_os(int us);
++#endif
++
++extern void rtw_yield_os(void);
++
++
++__inline static unsigned char _cancel_timer_ex(_timer *ptimer)
++{
++#ifdef PLATFORM_LINUX
++	return del_timer_sync(ptimer);
++#endif
++#ifdef PLATFORM_FREEBSD
++	_cancel_timer(ptimer,0);
++	return 0;
++#endif
++#ifdef PLATFORM_WINDOWS
++	u8 bcancelled;
++	
++	_cancel_timer(ptimer, &bcancelled);
++	
++	return bcancelled;
++#endif
++}
++
++#ifdef PLATFORM_FREEBSD
++static __inline void thread_enter(void *context);
++#endif //PLATFORM_FREEBSD
++static __inline void thread_enter(char *name)
++{
++#ifdef PLATFORM_LINUX
++	#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++	daemonize("%s", name);
++	#endif
++	allow_signal(SIGTERM);
++#endif
++#ifdef PLATFORM_FREEBSD
++	printf("%s", "RTKTHREAD_enter");
++#endif
++}
++
++#ifdef PLATFORM_FREEBSD
++#define thread_exit() do{printf("%s", "RTKTHREAD_exit");}while(0)
++#endif //PLATFORM_FREEBSD
++__inline static void flush_signals_thread(void) 
++{
++#ifdef PLATFORM_LINUX
++	if (signal_pending (current)) 
++	{
++		flush_signals(current);
++	}
++#endif
++}
++
++__inline static _OS_STATUS res_to_status(sint res)
++{
++
++
++#if defined (PLATFORM_LINUX) || defined (PLATFORM_MPIXEL) || defined (PLATFORM_FREEBSD)
++	return res;
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++	if (res == _SUCCESS)
++		return NDIS_STATUS_SUCCESS;
++	else
++		return NDIS_STATUS_FAILURE;
++
++#endif	
++	
++}
++
++__inline static void rtw_dump_stack(void)
++{
++#ifdef PLATFORM_LINUX
++	dump_stack();
++#endif
++}
++
++#ifdef PLATFORM_LINUX
++#define rtw_warn_on(condition) WARN_ON(condition)
++#else
++#define rtw_warn_on(condition) do {} while (0)
++#endif
++
++#define _RND(sz, r) ((((sz)+((r)-1))/(r))*(r))
++#define RND4(x)	(((x >> 2) + (((x & 3) == 0) ?  0: 1)) << 2)
++
++__inline static u32 _RND4(u32 sz)
++{
++
++	u32	val;
++
++	val = ((sz >> 2) + ((sz & 3) ? 1: 0)) << 2;
++	
++	return val;
++
++}
++
++__inline static u32 _RND8(u32 sz)
++{
++
++	u32	val;
++
++	val = ((sz >> 3) + ((sz & 7) ? 1: 0)) << 3;
++	
++	return val;
++
++}
++
++__inline static u32 _RND128(u32 sz)
++{
++
++	u32	val;
++
++	val = ((sz >> 7) + ((sz & 127) ? 1: 0)) << 7;
++	
++	return val;
++
++}
++
++__inline static u32 _RND256(u32 sz)
++{
++
++	u32	val;
++
++	val = ((sz >> 8) + ((sz & 255) ? 1: 0)) << 8;
++	
++	return val;
++
++}
++
++__inline static u32 _RND512(u32 sz)
++{
++
++	u32	val;
++
++	val = ((sz >> 9) + ((sz & 511) ? 1: 0)) << 9;
++	
++	return val;
++
++}
++
++__inline static u32 bitshift(u32 bitmask)
++{
++	u32 i;
++
++	for (i = 0; i <= 31; i++)
++		if (((bitmask>>i) &  0x1) == 1) break;
++
++	return i;
++}
++
++#ifndef MAC_FMT
++#define MAC_FMT "%02x:%02x:%02x:%02x:%02x:%02x"
++#endif
++#ifndef MAC_ARG
++#define MAC_ARG(x) ((u8*)(x))[0],((u8*)(x))[1],((u8*)(x))[2],((u8*)(x))[3],((u8*)(x))[4],((u8*)(x))[5]
++#endif
++
++//#ifdef __GNUC__
++#ifdef PLATFORM_LINUX
++#define STRUCT_PACKED __attribute__ ((packed))
++#else
++#define STRUCT_PACKED
++#endif
++
++
++// limitation of path length
++#ifdef PLATFORM_LINUX
++	#define PATH_LENGTH_MAX PATH_MAX
++#elif defined(PLATFORM_WINDOWS)
++	#define PATH_LENGTH_MAX MAX_PATH
++#endif
++
++
++// Suspend lock prevent system from going suspend
++#ifdef CONFIG_WAKELOCK
++#include <linux/wakelock.h>
++#elif defined(CONFIG_ANDROID_POWER)
++#include <linux/android_power.h>
++#endif
++
++extern void rtw_suspend_lock_init(void);
++extern void rtw_suspend_lock_uninit(void);
++extern void rtw_lock_suspend(void);
++extern void rtw_unlock_suspend(void);
++extern void rtw_lock_suspend_timeout(u32 timeout_ms);
++
++
++//Atomic integer operations
++#ifdef PLATFORM_LINUX
++	#define ATOMIC_T atomic_t
++#elif defined(PLATFORM_WINDOWS)
++	#define ATOMIC_T LONG
++#elif defined(PLATFORM_FREEBSD)
++	typedef uint32_t ATOMIC_T ;
++#endif
++
++extern void ATOMIC_SET(ATOMIC_T *v, int i);
++extern int ATOMIC_READ(ATOMIC_T *v);
++extern void ATOMIC_ADD(ATOMIC_T *v, int i);
++extern void ATOMIC_SUB(ATOMIC_T *v, int i);
++extern void ATOMIC_INC(ATOMIC_T *v);
++extern void ATOMIC_DEC(ATOMIC_T *v);
++extern int ATOMIC_ADD_RETURN(ATOMIC_T *v, int i);
++extern int ATOMIC_SUB_RETURN(ATOMIC_T *v, int i);
++extern int ATOMIC_INC_RETURN(ATOMIC_T *v);
++extern int ATOMIC_DEC_RETURN(ATOMIC_T *v);
++
++//File operation APIs, just for linux now
++extern int rtw_is_file_readable(char *path);
++extern int rtw_retrive_from_file(char *path, u8* buf, u32 sz);
++extern int rtw_store_to_file(char *path, u8* buf, u32 sz);
++
++
++#if 1 //#ifdef MEM_ALLOC_REFINE_ADAPTOR
++struct rtw_netdev_priv_indicator {
++	void *priv;
++	u32 sizeof_priv;
++};
++struct net_device *rtw_alloc_etherdev_with_old_priv(int sizeof_priv, void *old_priv);
++extern struct net_device * rtw_alloc_etherdev(int sizeof_priv);
++
++#ifndef PLATFORM_FREEBSD
++#define rtw_netdev_priv(netdev) ( ((struct rtw_netdev_priv_indicator *)netdev_priv(netdev))->priv )
++#else //PLATFORM_FREEBSD
++#define rtw_netdev_priv(netdev) (((struct ifnet *)netdev)->if_softc)
++#endif //PLATFORM_FREEBSD
++
++#ifndef PLATFORM_FREEBSD
++extern void rtw_free_netdev(struct net_device * netdev);
++#else //PLATFORM_FREEBSD
++#define rtw_free_netdev(netdev) if_free((netdev))
++#endif //PLATFORM_FREEBSD
++
++#else //MEM_ALLOC_REFINE_ADAPTOR
++
++#define rtw_alloc_etherdev(sizeof_priv) alloc_etherdev((sizeof_priv))
++
++#ifndef PLATFORM_FREEBSD
++#define rtw_netdev_priv(netdev) netdev_priv((netdev))
++#define rtw_free_netdev(netdev) free_netdev((netdev))
++#else //PLATFORM_FREEBSD
++#define rtw_netdev_priv(netdev) (((struct ifnet *)netdev)->if_softc)
++#define rtw_free_netdev(netdev) if_free((netdev))
++#endif //PLATFORM_FREEBSD
++#endif
++
++#ifdef PLATFORM_LINUX
++#define NDEV_FMT "%s"
++#define NDEV_ARG(ndev) ndev->name
++#define ADPT_FMT "%s"
++#define ADPT_ARG(adapter) adapter->pnetdev->name
++#define FUNC_NDEV_FMT "%s(%s)"
++#define FUNC_NDEV_ARG(ndev) __func__, ndev->name
++#define FUNC_ADPT_FMT "%s(%s)"
++#define FUNC_ADPT_ARG(adapter) __func__, adapter->pnetdev->name
++#else
++#define NDEV_FMT "%s"
++#define NDEV_ARG(ndev) ""
++#define ADPT_FMT "%s"
++#define ADPT_ARG(adapter) ""
++#define FUNC_NDEV_FMT "%s"
++#define FUNC_NDEV_ARG(ndev) __func__
++#define FUNC_ADPT_FMT "%s"
++#define FUNC_ADPT_ARG(adapter) __func__
++#endif
++
++#ifdef PLATFORM_LINUX
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,27))
++#define rtw_signal_process(pid, sig) kill_pid(find_vpid((pid)),(sig), 1)
++#else //(LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,27))
++#define rtw_signal_process(pid, sig) kill_proc((pid), (sig), 1)
++#endif //(LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,27))
++#endif //PLATFORM_LINUX
++
++extern u64 rtw_modular64(u64 x, u64 y);
++extern u64 rtw_division64(u64 x, u64 y);
++
++
++/* Macros for handling unaligned memory accesses */
++
++#define RTW_GET_BE16(a) ((u16) (((a)[0] << 8) | (a)[1]))
++#define RTW_PUT_BE16(a, val)			\
++	do {					\
++		(a)[0] = ((u16) (val)) >> 8;	\
++		(a)[1] = ((u16) (val)) & 0xff;	\
++	} while (0)
++
++#define RTW_GET_LE16(a) ((u16) (((a)[1] << 8) | (a)[0]))
++#define RTW_PUT_LE16(a, val)			\
++	do {					\
++		(a)[1] = ((u16) (val)) >> 8;	\
++		(a)[0] = ((u16) (val)) & 0xff;	\
++	} while (0)
++
++#define RTW_GET_BE24(a) ((((u32) (a)[0]) << 16) | (((u32) (a)[1]) << 8) | \
++			 ((u32) (a)[2]))			 
++#define RTW_PUT_BE24(a, val)					\
++	do {							\
++		(a)[0] = (u8) ((((u32) (val)) >> 16) & 0xff);	\
++		(a)[1] = (u8) ((((u32) (val)) >> 8) & 0xff);	\
++		(a)[2] = (u8) (((u32) (val)) & 0xff);		\
++	} while (0)
++
++#define RTW_GET_BE32(a) ((((u32) (a)[0]) << 24) | (((u32) (a)[1]) << 16) | \
++			 (((u32) (a)[2]) << 8) | ((u32) (a)[3]))			 
++#define RTW_PUT_BE32(a, val)					\
++	do {							\
++		(a)[0] = (u8) ((((u32) (val)) >> 24) & 0xff);	\
++		(a)[1] = (u8) ((((u32) (val)) >> 16) & 0xff);	\
++		(a)[2] = (u8) ((((u32) (val)) >> 8) & 0xff);	\
++		(a)[3] = (u8) (((u32) (val)) & 0xff);		\
++	} while (0)
++
++#define RTW_GET_LE32(a) ((((u32) (a)[3]) << 24) | (((u32) (a)[2]) << 16) | \
++			 (((u32) (a)[1]) << 8) | ((u32) (a)[0]))			 
++#define RTW_PUT_LE32(a, val)					\
++	do {							\
++		(a)[3] = (u8) ((((u32) (val)) >> 24) & 0xff);	\
++		(a)[2] = (u8) ((((u32) (val)) >> 16) & 0xff);	\
++		(a)[1] = (u8) ((((u32) (val)) >> 8) & 0xff);	\
++		(a)[0] = (u8) (((u32) (val)) & 0xff);		\
++	} while (0)
++
++#define RTW_GET_BE64(a) ((((u64) (a)[0]) << 56) | (((u64) (a)[1]) << 48) | \
++			 (((u64) (a)[2]) << 40) | (((u64) (a)[3]) << 32) | \
++			 (((u64) (a)[4]) << 24) | (((u64) (a)[5]) << 16) | \
++			 (((u64) (a)[6]) << 8) | ((u64) (a)[7]))			 
++#define RTW_PUT_BE64(a, val)				\
++	do {						\
++		(a)[0] = (u8) (((u64) (val)) >> 56);	\
++		(a)[1] = (u8) (((u64) (val)) >> 48);	\
++		(a)[2] = (u8) (((u64) (val)) >> 40);	\
++		(a)[3] = (u8) (((u64) (val)) >> 32);	\
++		(a)[4] = (u8) (((u64) (val)) >> 24);	\
++		(a)[5] = (u8) (((u64) (val)) >> 16);	\
++		(a)[6] = (u8) (((u64) (val)) >> 8);	\
++		(a)[7] = (u8) (((u64) (val)) & 0xff);	\
++	} while (0)
++
++#define RTW_GET_LE64(a) ((((u64) (a)[7]) << 56) | (((u64) (a)[6]) << 48) | \
++			 (((u64) (a)[5]) << 40) | (((u64) (a)[4]) << 32) | \
++			 (((u64) (a)[3]) << 24) | (((u64) (a)[2]) << 16) | \
++			 (((u64) (a)[1]) << 8) | ((u64) (a)[0]))
++
++void rtw_buf_free(u8 **buf, u32 *buf_len);
++void rtw_buf_update(u8 **buf, u32 *buf_len, u8 *src, u32 src_len);
++
++struct rtw_cbuf {
++	u32 write;
++	u32 read;
++	u32 size;
++	void *bufs[0];
++};
++
++bool rtw_cbuf_full(struct rtw_cbuf *cbuf);
++bool rtw_cbuf_empty(struct rtw_cbuf *cbuf);
++bool rtw_cbuf_push(struct rtw_cbuf *cbuf, void *buf);
++void *rtw_cbuf_pop(struct rtw_cbuf *cbuf);
++struct rtw_cbuf *rtw_cbuf_alloc(u32 size);
++void rtw_cbuf_free(struct rtw_cbuf *cbuf);
++
++#endif
++
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/pci_hal.h b/drivers/net/wireless/rtl8192cu/include/pci_hal.h
+new file mode 100755
+index 0000000..1ee0ee2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/pci_hal.h
+@@ -0,0 +1,168 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __PCI_HAL_H__
++#define __PCI_HAL_H__
++
++
++#define	INTEL_VENDOR_ID				0x8086
++#define	SIS_VENDOR_ID					0x1039
++#define	ATI_VENDOR_ID					0x1002
++#define	ATI_DEVICE_ID					0x7914
++#define	AMD_VENDOR_ID					0x1022
++
++#define	PCI_MAX_BRIDGE_NUMBER			255
++#define	PCI_MAX_DEVICES				32
++#define	PCI_MAX_FUNCTION				8
++
++#define	PCI_CONF_ADDRESS   				0x0CF8   // PCI Configuration Space Address 
++#define	PCI_CONF_DATA					0x0CFC   // PCI Configuration Space Data 
++
++#define	PCI_CLASS_BRIDGE_DEV			0x06
++#define	PCI_SUBCLASS_BR_PCI_TO_PCI	0x04
++
++#define 	PCI_CAPABILITY_ID_PCI_EXPRESS	0x10
++
++#define	U1DONTCARE 					0xFF	
++#define	U2DONTCARE 					0xFFFF	
++#define	U4DONTCARE 					0xFFFFFFFF
++
++#define PCI_VENDER_ID_REALTEK		0x10ec
++
++#define HAL_HW_PCI_8180_DEVICE_ID           	0x8180
++#define HAL_HW_PCI_8185_DEVICE_ID           	0x8185	//8185 or 8185b
++#define HAL_HW_PCI_8188_DEVICE_ID           	0x8188	//8185b		
++#define HAL_HW_PCI_8198_DEVICE_ID           	0x8198	//8185b		
++#define HAL_HW_PCI_8190_DEVICE_ID           	0x8190	//8190
++#define HAL_HW_PCI_8723E_DEVICE_ID		0x8723	//8723E
++#define HAL_HW_PCI_8192_DEVICE_ID           	0x8192	//8192 PCI-E
++#define HAL_HW_PCI_8192SE_DEVICE_ID		0x8192	//8192 SE
++#define HAL_HW_PCI_8174_DEVICE_ID           	0x8174	//8192 SE 
++#define HAL_HW_PCI_8173_DEVICE_ID           	0x8173	//8191 SE Crab
++#define HAL_HW_PCI_8172_DEVICE_ID           	0x8172	//8191 SE RE
++#define HAL_HW_PCI_8171_DEVICE_ID           	0x8171	//8191 SE Unicron
++#define HAL_HW_PCI_0045_DEVICE_ID			0x0045	//8190 PCI for Ceraga
++#define HAL_HW_PCI_0046_DEVICE_ID			0x0046	//8190 Cardbus for Ceraga
++#define HAL_HW_PCI_0044_DEVICE_ID			0x0044	//8192e PCIE for Ceraga
++#define HAL_HW_PCI_0047_DEVICE_ID			0x0047	//8192e Express Card for Ceraga
++#define HAL_HW_PCI_700F_DEVICE_ID			0x700F
++#define HAL_HW_PCI_701F_DEVICE_ID			0x701F
++#define HAL_HW_PCI_DLINK_DEVICE_ID		0x3304
++#define HAL_HW_PCI_8192CET_DEVICE_ID		0x8191	//8192ce
++#define HAL_HW_PCI_8192CE_DEVICE_ID		0x8178	//8192ce
++#define HAL_HW_PCI_8191CE_DEVICE_ID		0x8177	//8192ce
++#define HAL_HW_PCI_8188CE_DEVICE_ID		0x8176	//8192ce
++#define HAL_HW_PCI_8192CU_DEVICE_ID      	0x8191	//8192ce
++#define HAL_HW_PCI_8192DE_DEVICE_ID		0x8193	//8192de
++#define HAL_HW_PCI_002B_DEVICE_ID			0x002B	//8192de, provided by HW SD
++
++#define HAL_MEMORY_MAPPED_IO_RANGE_8190PCI 		0x1000     //8190 support 16 pages of IO registers
++#define HAL_HW_PCI_REVISION_ID_8190PCI			0x00
++#define HAL_MEMORY_MAPPED_IO_RANGE_8192PCIE	0x4000	//8192 support 16 pages of IO registers
++#define HAL_HW_PCI_REVISION_ID_8192PCIE			0x01
++#define HAL_MEMORY_MAPPED_IO_RANGE_8192SE		0x4000	//8192 support 16 pages of IO registers
++#define HAL_HW_PCI_REVISION_ID_8192SE			0x10
++#define HAL_HW_PCI_REVISION_ID_8192CE			0x1
++#define HAL_MEMORY_MAPPED_IO_RANGE_8192CE		0x4000	//8192 support 16 pages of IO registers
++#define HAL_HW_PCI_REVISION_ID_8192DE			0x0
++#define HAL_MEMORY_MAPPED_IO_RANGE_8192DE		0x4000	//8192 support 16 pages of IO registers
++
++enum pci_bridge_vendor {
++	PCI_BRIDGE_VENDOR_INTEL = 0x0,//0b'0000,0001
++	PCI_BRIDGE_VENDOR_ATI, //= 0x02,//0b'0000,0010
++	PCI_BRIDGE_VENDOR_AMD, //= 0x04,//0b'0000,0100
++	PCI_BRIDGE_VENDOR_SIS ,//= 0x08,//0b'0000,1000
++	PCI_BRIDGE_VENDOR_UNKNOWN, //= 0x40,//0b'0100,0000
++	PCI_BRIDGE_VENDOR_MAX ,//= 0x80
++} ;
++
++struct rt_pci_capabilities_header {
++	u8	capability_id;
++	u8	next;
++};
++
++struct pci_priv{
++	u8	linkctrl_reg;
++	
++	u8	busnumber;
++	u8	devnumber;	
++	u8	funcnumber;	
++
++	u8	pcibridge_busnum;
++	u8	pcibridge_devnum;
++	u8	pcibridge_funcnum;
++	u8	pcibridge_vendor;
++	u16	pcibridge_vendorid;
++	u16	pcibridge_deviceid;
++	u8	pcibridge_pciehdr_offset;
++	u8	pcibridge_linkctrlreg;	
++
++	u8	amd_l1_patch;
++};
++
++typedef struct _RT_ISR_CONTENT
++{
++	union{
++		u32			IntArray[2];
++		u32			IntReg4Byte;
++		u16			IntReg2Byte;
++	};
++}RT_ISR_CONTENT, *PRT_ISR_CONTENT;
++
++//#define RegAddr(addr)           (addr + 0xB2000000UL)
++//some platform macros will def here
++static inline void NdisRawWritePortUlong(u32 port,  u32 val) 		
++{
++	outl(val, port);
++	//writel(val, (u8 *)RegAddr(port));	
++}
++
++static inline void NdisRawWritePortUchar(u32 port,  u8 val)
++{
++	outb(val, port);
++	//writeb(val, (u8 *)RegAddr(port));
++}
++
++static inline void NdisRawReadPortUchar(u32 port, u8 *pval)
++{
++	*pval = inb(port);
++	//*pval = readb((u8 *)RegAddr(port));
++}
++
++static inline void NdisRawReadPortUshort(u32 port, u16 *pval)
++{
++	*pval = inw(port);
++	//*pval = readw((u8 *)RegAddr(port));
++}
++
++static inline void NdisRawReadPortUlong(u32 port, u32 *pval)
++{
++	*pval = inl(port);
++	//*pval = readl((u8 *)RegAddr(port));
++}
++
++#ifdef CONFIG_RTL8192C
++void rtl8192ce_set_hal_ops(_adapter * padapter);
++#endif
++#ifdef CONFIG_RTL8192D
++void rtl8192de_set_hal_ops(_adapter * padapter);
++#endif
++
++#endif //__PCIE_HAL_H__
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/pci_ops.h b/drivers/net/wireless/rtl8192cu/include/pci_ops.h
+new file mode 100755
+index 0000000..9404ff4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/pci_ops.h
+@@ -0,0 +1,60 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __PCI_OPS_H_
++#define __PCI_OPS_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <osdep_intf.h>
++
++#ifdef CONFIG_RTL8192C
++u32	rtl8192ce_init_desc_ring(_adapter * padapter);
++u32	rtl8192ce_free_desc_ring(_adapter * padapter);
++void	rtl8192ce_reset_desc_ring(_adapter * padapter);
++#ifdef CONFIG_64BIT_DMA
++u8	PlatformEnable92CEDMA64(PADAPTER Adapter);
++#endif
++int	rtl8192ce_interrupt(PADAPTER Adapter);
++void	rtl8192ce_xmit_tasklet(void *priv);
++void	rtl8192ce_recv_tasklet(void *priv);
++void	rtl8192ce_prepare_bcn_tasklet(void *priv);
++void	rtl8192ce_set_intf_ops(struct _io_ops	*pops);
++#define pci_set_intf_ops	rtl8192ce_set_intf_ops
++#endif
++
++#ifdef CONFIG_RTL8192D
++u32	rtl8192de_init_desc_ring(_adapter * padapter);
++u32	rtl8192de_free_desc_ring(_adapter * padapter);
++void	rtl8192de_reset_desc_ring(_adapter * padapter);
++#ifdef CONFIG_64BIT_DMA
++u8	PlatformEnable92DEDMA64(PADAPTER Adapter);
++#endif
++int	rtl8192de_interrupt(PADAPTER Adapter);
++void	rtl8192de_xmit_tasklet(void *priv);
++void	rtl8192de_recv_tasklet(void *priv);
++void	rtl8192de_prepare_bcn_tasklet(void *priv);
++void	rtl8192de_set_intf_ops(struct _io_ops	*pops);
++#define pci_set_intf_ops	rtl8192de_set_intf_ops
++u32	MpReadPCIDwordDBI8192D(IN PADAPTER Adapter, IN u16 Offset, IN u8 Direct);
++void	MpWritePCIDwordDBI8192D(IN PADAPTER Adapter, IN u16 Offset, IN u32 Value, IN u8 Direct);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8192cu/include/pci_osintf.h b/drivers/net/wireless/rtl8192cu/include/pci_osintf.h
+new file mode 100755
+index 0000000..09715af
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/pci_osintf.h
+@@ -0,0 +1,33 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __PCI_OSINTF_H
++#define __PCI_OSINTF_H
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++
++void rtw_pci_disable_aspm(_adapter *padapter);
++void rtw_pci_enable_aspm(_adapter *padapter);
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/recv_osdep.h b/drivers/net/wireless/rtl8192cu/include/recv_osdep.h
+new file mode 100755
+index 0000000..536ed31
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/recv_osdep.h
+@@ -0,0 +1,58 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RECV_OSDEP_H_
++#define __RECV_OSDEP_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++
++extern sint _rtw_init_recv_priv(struct recv_priv *precvpriv, _adapter *padapter);
++extern void _rtw_free_recv_priv (struct recv_priv *precvpriv);
++
++
++extern s32  rtw_recv_entry(union recv_frame *precv_frame);	
++extern int rtw_recv_indicatepkt(_adapter *adapter, union recv_frame *precv_frame);
++extern void rtw_recv_returnpacket(IN _nic_hdl cnxt, IN _pkt *preturnedpkt);
++
++extern void rtw_hostapd_mlme_rx(_adapter *padapter, union recv_frame *precv_frame);
++extern void rtw_handle_tkip_mic_err(_adapter *padapter,u8 bgroup);
++		
++
++int	rtw_init_recv_priv(struct recv_priv *precvpriv, _adapter *padapter);
++void rtw_free_recv_priv (struct recv_priv *precvpriv);
++
++
++int rtw_os_recv_resource_init(struct recv_priv *precvpriv, _adapter *padapter);
++int rtw_os_recv_resource_alloc(_adapter *padapter, union recv_frame *precvframe);
++void rtw_os_recv_resource_free(struct recv_priv *precvpriv);
++
++
++int rtw_os_recvbuf_resource_alloc(_adapter *padapter, struct recv_buf *precvbuf);
++int rtw_os_recvbuf_resource_free(_adapter *padapter, struct recv_buf *precvbuf);
++
++void rtw_os_read_port(_adapter *padapter, struct recv_buf *precvbuf);
++
++void rtw_init_recv_timer(struct recv_reorder_ctrl *preorder_ctrl);
++
++
++#endif //
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtl8192c_cmd.h b/drivers/net/wireless/rtl8192cu/include/rtl8192c_cmd.h
+new file mode 100755
+index 0000000..c54cc31
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtl8192c_cmd.h
+@@ -0,0 +1,153 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192C_CMD_H_
++#define __RTL8192C_CMD_H_
++
++
++enum cmd_msg_element_id
++{	
++	NONE_CMDMSG_EID,
++	AP_OFFLOAD_EID=0,
++	SET_PWRMODE_EID=1,
++	JOINBSS_RPT_EID=2,
++	RSVD_PAGE_EID=3,
++	RSSI_4_EID = 4,
++	RSSI_SETTING_EID=5,
++	MACID_CONFIG_EID=6,
++	MACID_PS_MODE_EID=7,
++	P2P_PS_OFFLOAD_EID=8,
++	SELECTIVE_SUSPEND_ROF_CMD=9,
++#ifdef CONFIG_WOWLAN
++	H2C_WO_WLAN_CMD = 26,	// Wake on Wlan.
++	EXT_MACID_PERIOD_EID = 27,	// support macid to 64
++	MACID64_CONFIG_EID = 28,	// support macid to 64
++#endif // CONFIG_WOWLAN
++	P2P_PS_CTW_CMD_EID=32,
++	H2C_92C_IO_OFFLOAD=44,
++#ifdef CONFIG_WOWLAN
++	KEEP_ALIVE_CONTROL_CMD=48,
++	DISCONNECT_DECISION_CTRL_CMD=49,
++	REMOTE_WAKE_CTRL_CMD=60,
++#endif // CONFIG_WOWLAN
++	H2C_92C_TSF_SYNC=67,
++	H2C_92C_DISABLE_BCN_FUNC=68,
++	H2C_92C_RESET_TSF = 75,
++	H2C_92C_CMD_MAX
++};
++
++struct cmd_msg_parm {
++	u8 eid; //element id
++	u8 sz; // sz
++	u8 buf[6];
++};
++
++typedef struct _SETPWRMODE_PARM{
++	u8 	Mode;
++	u8 	SmartPS;
++	u8	BcnPassTime;	// unit: 100ms
++}SETPWRMODE_PARM, *PSETPWRMODE_PARM;
++
++#ifdef CONFIG_WOWLAN
++typedef struct _SETWOWLAN_PARM{
++	u8 	mode;
++	u8 	gpio_index;
++	u8	gpio_duration;	
++	u8  second_mode;
++	u8  reserve;
++}SETWOWLAN_PARM, *PSETWOWLAN_PARM;
++
++#define FW_WOWLAN_FUN_EN			BIT(0)
++#define FW_WOWLAN_PATTERN_MATCH		BIT(1)
++#define FW_WOWLAN_MAGIC_PKT			BIT(2)
++#define FW_WOWLAN_UNICAST			BIT(3)
++#define FW_WOWLAN_ALL_PKT_DROP		BIT(4)
++#define FW_WOWLAN_GPIO_ACTIVE		BIT(5)
++#define FW_WOWLAN_REKEY_WAKEUP		BIT(6)
++#define FW_WOWLAN_DEAUTH_WAKEUP		BIT(7)
++
++#define FW_WOWLAN_GPIO_WAKEUP_EN	BIT(0)
++#define FW_FW_PARSE_MAGIC_PKT		BIT(1)
++#endif // CONFIG_WOWLAN
++
++struct H2C_SS_RFOFF_PARAM{
++	u8 	ROFOn; // 1: on, 0:off
++	u16	gpio_period; // unit: 1024 us
++}__attribute__ ((packed));
++
++
++typedef struct JOINBSSRPT_PARM{
++	u8	OpMode;	// RT_MEDIA_STATUS
++}JOINBSSRPT_PARM, *PJOINBSSRPT_PARM;
++
++typedef struct _RSVDPAGE_LOC{
++	u8 	LocProbeRsp;
++	u8 	LocPsPoll;
++	u8	LocNullData;
++}RSVDPAGE_LOC, *PRSVDPAGE_LOC;
++
++struct P2P_PS_Offload_t {
++ unsigned char Offload_En:1;
++ unsigned char role:1; // 1: Owner, 0: Client
++ unsigned char CTWindow_En:1;
++ unsigned char NoA0_En:1;
++ unsigned char NoA1_En:1;
++ unsigned char AllStaSleep:1; // Only valid in Owner
++ unsigned char discovery:1;
++ unsigned char rsvd:1;
++};
++
++struct P2P_PS_CTWPeriod_t {
++    unsigned char CTWPeriod;	//TU
++};
++
++// host message to firmware cmd
++void	rtl8192c_set_FwPwrMode_cmd(_adapter*padapter, u8 Mode);
++void	rtl8192c_set_FwJoinBssReport_cmd(_adapter* padapter, u8 mstatus);
++u8	rtl8192c_set_rssi_cmd(_adapter*padapter, u8 *param);
++u8	rtl8192c_set_raid_cmd(_adapter*padapter, u32 mask, u8 arg);
++void	rtl8192c_Add_RateATid(PADAPTER pAdapter, u32 bitmap, u8 arg);
++u8	rtl8192c_set_FwSelectSuspend_cmd(_adapter*padapter,u8 bfwpoll, u16 period);
++#ifdef CONFIG_P2P
++void	rtl8192c_set_p2p_ps_offload_cmd(_adapter* padapter, u8 p2p_ps_state);
++#endif //CONFIG_P2P
++
++#ifdef CONFIG_IOL
++typedef struct _IO_OFFLOAD_LOC{
++	u8 	LocCmd;
++}IO_OFFLOAD_LOC, *PIO_OFFLOAD_LOC;
++int rtl8192c_IOL_exec_cmds_sync(ADAPTER *adapter, struct xmit_frame *xmit_frame, u32 max_wating_ms);
++#endif //CONFIG_IOL
++
++#ifdef CONFIG_BEACON_DISABLE_OFFLOAD
++u8 rtl8192c_dis_beacon_fun_cmd(_adapter* padapter);
++#endif  // CONFIG_BEACON_DISABLE_OFFLOAD
++
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++int reset_tsf(PADAPTER Adapter, u8 reset_port );
++#endif	// CONFIG_TSF_RESET_OFFLOAD
++
++#ifdef CONFIG_WOWLAN
++void rtl8192c_set_wowlan_cmd(_adapter* padapter);
++void SetFwRelatedForWoWLAN8192CU(_adapter* 	padapter,u8 bHostIsGoingtoSleep);
++#endif // CONFIG_WOWLAN
++
++#endif	// __RTL8192C_CMD_H_
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtl8192c_dm.h b/drivers/net/wireless/rtl8192cu/include/rtl8192c_dm.h
+new file mode 100755
+index 0000000..9d06540
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtl8192c_dm.h
+@@ -0,0 +1,516 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef	__RTL8192C_DM_H__
++#define __RTL8192C_DM_H__
++//============================================================
++// Description:
++//
++// This file is for 92CE/92CU dynamic mechanism only
++//
++//
++//============================================================
++
++#define	RSSI_CCK		0
++#define	RSSI_OFDM		1
++#define	RSSI_DEFAULT	2
++
++//============================================================
++// structure and define
++//============================================================
++
++typedef struct _FALSE_ALARM_STATISTICS{
++	u32	Cnt_Parity_Fail;
++	u32	Cnt_Rate_Illegal;
++	u32	Cnt_Crc8_fail;
++	u32	Cnt_Mcs_fail;
++	u32	Cnt_Ofdm_fail;
++	u32	Cnt_Cck_fail;
++	u32	Cnt_all;
++	u32	Cnt_Fast_Fsync;
++	u32	Cnt_SB_Search_fail;
++}FALSE_ALARM_STATISTICS, *PFALSE_ALARM_STATISTICS;
++
++typedef struct _Dynamic_Power_Saving_
++{
++	u8		PreCCAState;
++	u8		CurCCAState;
++
++	u8		PreRFState;
++	u8		CurRFState;
++
++	s32		Rssi_val_min;
++	
++}PS_T;
++
++typedef struct _Dynamic_Initial_Gain_Threshold_
++{
++	u8		Dig_Enable_Flag;
++	u8		Dig_Ext_Port_Stage;
++
++	int		RssiLowThresh;
++	int		RssiHighThresh;
++
++	u32		FALowThresh;
++	u32		FAHighThresh;
++
++	u8		CurSTAConnectState;
++	u8		PreSTAConnectState;
++	u8		CurMultiSTAConnectState;
++
++	u8		PreIGValue;
++	u8		CurIGValue;
++	u8		BackupIGValue;
++
++	char		BackoffVal;
++	char		BackoffVal_range_max;
++	char		BackoffVal_range_min;
++	u8		rx_gain_range_max;
++	u8		rx_gain_range_min;
++	u8		Rssi_val_min;
++
++	u8		PreCCKPDState;
++	u8		CurCCKPDState;
++        u8		PreCCKFAState;
++	u8		CurCCKFAState;
++	u8		PreCCAState;
++	u8		CurCCAState;
++
++	u8		LargeFAHit;
++	u8		ForbiddenIGI;
++	u32		Recover_cnt;
++	u8		rx_gain_range_min_nolink;
++
++}DIG_T;
++
++typedef enum tag_Dynamic_Init_Gain_Operation_Type_Definition
++{
++	DIG_TYPE_THRESH_HIGH	= 0,
++	DIG_TYPE_THRESH_LOW	= 1,
++	DIG_TYPE_BACKOFF		= 2,
++	DIG_TYPE_RX_GAIN_MIN	= 3,
++	DIG_TYPE_RX_GAIN_MAX	= 4,
++	DIG_TYPE_ENABLE 		= 5,
++	DIG_TYPE_DISABLE 		= 6,
++	DIG_OP_TYPE_MAX
++}DM_DIG_OP_E;
++
++typedef enum tag_CCK_Packet_Detection_Threshold_Type_Definition
++{
++	CCK_PD_STAGE_LowRssi = 0,
++	CCK_PD_STAGE_HighRssi = 1,
++	CCK_PD_STAGE_MAX = 3,
++}DM_CCK_PDTH_E;
++
++typedef enum tag_1R_CCA_Type_Definition
++{
++	CCA_1R =0,
++	CCA_2R = 1,
++	CCA_MAX = 2,
++}DM_1R_CCA_E;
++
++typedef enum tag_RF_Type_Definition
++{
++	RF_Save =0,
++	RF_Normal = 1,
++	RF_MAX = 2,
++}DM_RF_E;
++
++typedef enum tag_DIG_EXT_PORT_ALGO_Definition
++{
++	DIG_EXT_PORT_STAGE_0 = 0,
++	DIG_EXT_PORT_STAGE_1 = 1,
++	DIG_EXT_PORT_STAGE_2 = 2,
++	DIG_EXT_PORT_STAGE_3 = 3,
++	DIG_EXT_PORT_STAGE_MAX = 4,
++}DM_DIG_EXT_PORT_ALG_E;
++
++
++typedef enum tag_DIG_Connect_Definition
++{
++	DIG_STA_DISCONNECT = 0,	
++	DIG_STA_CONNECT = 1,
++	DIG_STA_BEFORE_CONNECT = 2,
++	DIG_MultiSTA_DISCONNECT = 3,
++	DIG_MultiSTA_CONNECT = 4,
++	DIG_CONNECT_MAX
++}DM_DIG_CONNECT_E;
++
++
++
++typedef	enum _BT_Ant_NUM{
++	Ant_x2	= 0,		
++	Ant_x1	= 1
++} BT_Ant_NUM, *PBT_Ant_NUM;
++
++typedef	enum _BT_CoType{
++	BT_2Wire		= 0,		
++	BT_ISSC_3Wire	= 1,
++	BT_Accel		= 2,
++	BT_CSR_BC4		= 3,
++	BT_CSR_BC8		= 4,
++	BT_RTL8756		= 5,
++} BT_CoType, *PBT_CoType;
++
++typedef	enum _BT_CurState{
++	BT_OFF		= 0,	
++	BT_ON		= 1,
++} BT_CurState, *PBT_CurState;
++
++typedef	enum _BT_ServiceType{
++	BT_SCO		= 0,	
++	BT_A2DP		= 1,
++	BT_HID		= 2,
++	BT_HID_Idle	= 3,
++	BT_Scan		= 4,
++	BT_Idle		= 5,
++	BT_OtherAction	= 6,
++	BT_Busy			= 7,
++	BT_OtherBusy		= 8,
++	BT_PAN			= 9,
++} BT_ServiceType, *PBT_ServiceType;
++
++typedef	enum _BT_RadioShared{
++	BT_Radio_Shared 	= 0,	
++	BT_Radio_Individual	= 1,
++} BT_RadioShared, *PBT_RadioShared;
++
++struct btcoexist_priv	{
++	u8					BT_Coexist;
++	u8					BT_Ant_Num;
++	u8					BT_CoexistType;
++	u8					BT_State;
++	u8					BT_CUR_State;		//0:on, 1:off
++	u8					BT_Ant_isolation;	//0:good, 1:bad
++	u8					BT_PapeCtrl;		//0:SW, 1:SW/HW dynamic
++	u8					BT_Service;
++	u8					BT_Ampdu;	// 0:Disable BT control A-MPDU, 1:Enable BT control A-MPDU.
++	u8					BT_RadioSharedType;
++	u32					Ratio_Tx;
++	u32					Ratio_PRI;
++	u8					BtRfRegOrigin1E;
++	u8					BtRfRegOrigin1F;
++	u8					BtRssiState;
++	u32					BtEdcaUL;
++	u32					BtEdcaDL;
++	u32					BT_EDCA[2];
++	u8					bCOBT;
++
++	u8					bInitSet;
++	u8					bBTBusyTraffic;
++	u8					bBTTrafficModeSet;
++	u8					bBTNonTrafficModeSet;
++	//BTTraffic				BT21TrafficStatistics;
++	u32					CurrentState;
++	u32					PreviousState;
++	u8					BtPreRssiState;
++	u8					bFWCoexistAllOff;
++	u8					bSWCoexistAllOff;
++};
++
++#define		BW_AUTO_SWITCH_HIGH_LOW	25
++#define		BW_AUTO_SWITCH_LOW_HIGH	30
++
++#define		DM_DIG_THRESH_HIGH			40
++#define		DM_DIG_THRESH_LOW			35
++
++#define		DM_FALSEALARM_THRESH_LOW	400
++#define		DM_FALSEALARM_THRESH_HIGH	1000
++
++#define		DM_DIG_MAX					0x3e
++#define		DM_DIG_MIN					0x1e //0x22//0x1c
++
++#define		DM_DIG_FA_UPPER				0x3e
++#define		DM_DIG_FA_LOWER				0x20
++#define		DM_DIG_FA_TH0					0x20
++#define		DM_DIG_FA_TH1					0x100
++#define		DM_DIG_FA_TH2					0x200
++
++#define		DM_DIG_BACKOFF_MAX			12
++#define		DM_DIG_BACKOFF_MIN			(-4)
++#define		DM_DIG_BACKOFF_DEFAULT		10
++
++#define		RxPathSelection_SS_TH_low		30
++#define		RxPathSelection_diff_TH			18
++
++#define		DM_RATR_STA_INIT			0
++#define		DM_RATR_STA_HIGH			1
++#define 		DM_RATR_STA_MIDDLE		2
++#define 		DM_RATR_STA_LOW			3
++
++#define		CTSToSelfTHVal					30
++#define		RegC38_TH						20
++
++#define		WAIotTHVal						25
++
++//Dynamic Tx Power Control Threshold
++#define		TX_POWER_NEAR_FIELD_THRESH_LVL2	74
++#define		TX_POWER_NEAR_FIELD_THRESH_LVL1	67
++
++#define		TxHighPwrLevel_Normal		0	
++#define		TxHighPwrLevel_Level1		1
++#define		TxHighPwrLevel_Level2		2
++#define		TxHighPwrLevel_BT1			3
++#define		TxHighPwrLevel_BT2			4
++#define		TxHighPwrLevel_15			5
++#define		TxHighPwrLevel_35			6
++#define		TxHighPwrLevel_50			7
++#define		TxHighPwrLevel_70			8
++#define		TxHighPwrLevel_100			9
++
++#define		DM_Type_ByFW			0
++#define		DM_Type_ByDriver		1
++
++
++typedef struct _RATE_ADAPTIVE
++{
++	u8				RateAdaptiveDisabled;
++	u8				RATRState;
++	u16				reserve;	
++	
++	u32				HighRSSIThreshForRA;
++	u32				High2LowRSSIThreshForRA;
++	u8				Low2HighRSSIThreshForRA40M;
++	u32				LowRSSIThreshForRA40M;	
++	u8				Low2HighRSSIThreshForRA20M;
++	u32				LowRSSIThreshForRA20M;	
++	u32				UpperRSSIThresholdRATR;
++	u32				MiddleRSSIThresholdRATR;
++	u32				LowRSSIThresholdRATR;
++	u32				LowRSSIThresholdRATR40M;
++	u32				LowRSSIThresholdRATR20M;
++	u8				PingRSSIEnable;	//cosa add for Netcore long range ping issue
++	u32				PingRSSIRATR;	//cosa add for Netcore long range ping issue
++	u32				PingRSSIThreshForRA;//cosa add for Netcore long range ping issue
++	u32				LastRATR;
++	u8				PreRATRState;
++	
++} RATE_ADAPTIVE, *PRATE_ADAPTIVE;
++
++typedef enum tag_SW_Antenna_Switch_Definition
++{
++	Antenna_B = 1,
++	Antenna_A = 2,
++	Antenna_MAX = 3,
++}DM_SWAS_E;
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++// This indicates two different the steps. 
++// In SWAW_STEP_PEAK, driver needs to switch antenna and listen to the signal on the air.
++// In SWAW_STEP_DETERMINE, driver just compares the signal captured in SWAW_STEP_PEAK
++// with original RSSI to determine if it is necessary to switch antenna.
++#define SWAW_STEP_PEAK		0
++#define SWAW_STEP_DETERMINE	1
++
++#define	TP_MODE		0
++#define	RSSI_MODE		1
++#define	TRAFFIC_LOW	0
++#define	TRAFFIC_HIGH	1
++
++typedef struct _SW_Antenna_Switch_
++{
++	u8		try_flag;
++	s32		PreRSSI;
++	u8		CurAntenna;
++	u8		PreAntenna;
++	u8		RSSI_Trying;
++	u8		TestMode;
++	u8		bTriggerAntennaSwitch;
++	u8		SelectAntennaMap;
++	// Before link Antenna Switch check
++	u8		SWAS_NoLink_State;
++
++}SWAT_T;
++
++
++#endif
++
++
++struct 	dm_priv	
++{
++	u8	DM_Type;
++	u8	DMFlag, DMFlag_tmp;
++	
++
++	//for DIG
++	u8	bDMInitialGainEnable;
++	u8	binitialized; // for dm_initial_gain_Multi_STA use.
++	DIG_T	DM_DigTable;
++
++	PS_T	DM_PSTable;
++
++	FALSE_ALARM_STATISTICS FalseAlmCnt;
++	
++	//for rate adaptive, in fact,  88c/92c fw will handle this
++	u8 bUseRAMask;
++	RATE_ADAPTIVE RateAdaptive;
++
++	//* Upper and Lower Signal threshold for Rate Adaptive*/
++	int	UndecoratedSmoothedPWDB;
++	int	UndecoratedSmoothedCCK;
++	int	EntryMinUndecoratedSmoothedPWDB;
++	int	EntryMaxUndecoratedSmoothedPWDB;
++
++
++	//for High Power
++	u8 bDynamicTxPowerEnable;
++	u8 LastDTPLvl;
++	u8 DynamicTxHighPowerLvl;//Add by Jacken Tx Power Control for Near/Far Range 2008/03/06
++		
++	//for tx power tracking
++	//u8	bTXPowerTracking;
++	u8	TXPowercount;
++	u8	bTXPowerTrackingInit;	
++	u8	TxPowerTrackControl;	//for mp mode, turn off txpwrtracking as default
++	u8	TM_Trigger;
++
++	u8	ThermalMeter[2];				// ThermalMeter, index 0 for RFIC0, and 1 for RFIC1
++	u8	ThermalValue;
++	u8	ThermalValue_LCK;
++	u8	ThermalValue_IQK;
++	u8	ThermalValue_DPK;
++
++	u8	bRfPiEnable;
++
++	//for APK
++	u32	APKoutput[2][2];	//path A/B; output1_1a/output1_2a
++	u8	bAPKdone;
++	u8	bAPKThermalMeterIgnore;
++	u8	bDPdone;
++	u8	bDPPathAOK;
++	u8	bDPPathBOK;
++
++	//for IQK
++	u32	RegC04;
++	u32	Reg874;
++	u32	RegC08;
++	u32	RegB68;
++	u32	RegB6C;
++	u32	Reg870;
++	u32	Reg860;
++	u32	Reg864;
++	u32	ADDA_backup[IQK_ADDA_REG_NUM];
++	u32	IQK_MAC_backup[IQK_MAC_REG_NUM];
++	u32	IQK_BB_backup_recover[9];
++	u32	IQK_BB_backup[IQK_BB_REG_NUM];
++	u8	PowerIndex_backup[6];
++
++	u8	bCCKinCH14;
++
++	char	CCK_index;
++	char	OFDM_index[2];
++
++	BOOLEAN		bDoneTxpower;
++	char	CCK_index_HP;
++	char	OFDM_index_HP[2];
++	u8	ThermalValue_HP[HP_THERMAL_NUM];
++	u8	ThermalValue_HP_index;
++
++	//for TxPwrTracking
++	int	RegE94;
++	int 	RegE9C;
++	int	RegEB4;
++	int	RegEBC;
++
++	u32	TXPowerTrackingCallbackCnt;	//cosa add for debug
++
++	u32	prv_traffic_idx; // edca turbo
++
++	// for dm_RF_Saving
++	u8	initialize;
++	u32	rf_saving_Reg874;
++	u32	rf_saving_RegC70;
++	u32	rf_saving_Reg85C;
++	u32	rf_saving_RegA74;
++
++	//for Antenna diversity
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	SWAT_T DM_SWAT_Table;
++#endif	
++#ifdef CONFIG_SW_ANTENNA_DIVERSITY
++	_timer SwAntennaSwitchTimer;
++	
++	u64	lastTxOkCnt;
++	u64	lastRxOkCnt;
++	u64	TXByteCnt_A;
++	u64	TXByteCnt_B;
++	u64	RXByteCnt_A;
++	u64	RXByteCnt_B;
++	u8	DoubleComfirm;
++	u8	TrafficLoad;
++#endif
++
++	s32	OFDM_Pkt_Cnt;
++	u8	RSSI_Select;
++	u8 	DIG_Dynamic_MIN ;
++
++	// Add for Reading Initial Data Rate SEL Register 0x484 during watchdog. Using for fill tx desc. 2011.3.21 by Thomas
++	u8	INIDATA_RATE[32];
++
++#ifdef CONFIG_DM_ADAPTIVITY
++	/* Ported from ODM, for ESTI Adaptivity test */
++	s8 TH_L2H_ini;
++	s8 TH_EDCCA_HL_diff;
++	s8 IGI_Base;
++	u8 IGI_target;
++	bool ForceEDCCA;
++	u8 AdapEn_RSSI;
++	s8 Force_TH_H;
++	s8 Force_TH_L;
++	u8 IGI_LowerBound;
++
++	bool	bPreEdccaEnable;
++#endif
++};
++
++
++/*------------------------Export global variable----------------------------*/
++/*------------------------Export global variable----------------------------*/
++/*------------------------Export Marco Definition---------------------------*/
++//#define DM_MultiSTA_InitGainChangeNotify(Event) {DM_DigTable.CurMultiSTAConnectState = Event;}
++
++
++//============================================================
++// function prototype
++//============================================================
++void rtl8192c_init_dm_priv(IN PADAPTER Adapter);
++void rtl8192c_deinit_dm_priv(IN PADAPTER Adapter);
++void rtl8192c_InitHalDm(IN PADAPTER Adapter);
++void rtl8192c_HalDmWatchDog(IN PADAPTER Adapter);
++
++VOID rtl8192c_dm_CheckTXPowerTracking(IN PADAPTER Adapter);
++
++void rtl8192c_dm_RF_Saving(IN PADAPTER pAdapter, IN u8 bForceInNormal);
++
++#ifdef CONFIG_BT_COEXIST
++void rtl8192c_set_dm_bt_coexist(_adapter *padapter, u8 bStart);
++void rtl8192c_issue_delete_ba(_adapter *padapter, u8 dir);
++#endif
++
++#ifdef CONFIG_SW_ANTENNA_DIVERSITY
++void SwAntDivRSSICheck8192C(_adapter *padapter ,u32 RxPWDBAll); 
++void SwAntDivRestAfterLink8192C(IN	PADAPTER Adapter);
++#endif
++#ifdef CONFIG_ANTENNA_DIVERSITY
++void	SwAntDivCompare8192C(PADAPTER Adapter, WLAN_BSSID_EX *dst, WLAN_BSSID_EX *src);
++u8 SwAntDivBeforeLink8192C(IN PADAPTER Adapter);
++#endif
++
++#endif	//__HAL8190PCIDM_H__
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtl8192c_event.h b/drivers/net/wireless/rtl8192cu/include/rtl8192c_event.h
+new file mode 100755
+index 0000000..1013f74
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtl8192c_event.h
+@@ -0,0 +1,28 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8192C_EVENT_H_
++#define _RTL8192C_EVENT_H_
++
++
++
++
++#endif
++
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtl8192c_hal.h b/drivers/net/wireless/rtl8192cu/include/rtl8192c_hal.h
+new file mode 100755
+index 0000000..3348971
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtl8192c_hal.h
+@@ -0,0 +1,937 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192C_HAL_H__
++#define __RTL8192C_HAL_H__
++
++#include "hal_com.h"
++#include "rtl8192c_spec.h"
++#include "Hal8192CPhyReg.h"
++#include "Hal8192CPhyCfg.h"
++#include "rtl8192c_rf.h"
++#include "rtl8192c_dm.h"
++#include "rtl8192c_recv.h"
++#include "rtl8192c_xmit.h"
++#include "rtl8192c_cmd.h"
++#ifdef DBG_CONFIG_ERROR_DETECT
++#include "rtl8192c_sreset.h"
++#endif
++
++#ifdef CONFIG_PCI_HCI
++
++	#include "Hal8192CEHWImg.h"
++
++	#define RTL819X_DEFAULT_RF_TYPE			RF_2T2R
++	//#define RTL819X_DEFAULT_RF_TYPE			RF_1T2R
++	#define RTL819X_TOTAL_RF_PATH				2
++
++	//2TODO:  The following need to check!!
++	#define RTL8192C_FW_TSMC_IMG				"rtl8192CE\\rtl8192cfwT.bin"
++	#define RTL8192C_FW_UMC_IMG				"rtl8192CE\\rtl8192cfwU.bin"
++	#define RTL8192C_FW_UMC_B_IMG				"rtl8192CE\\rtl8192cfwU_B.bin"
++
++	#define RTL8188C_PHY_REG					"rtl8192CE\\PHY_REG_1T.txt"
++	#define RTL8188C_PHY_RADIO_A				"rtl8192CE\\radio_a_1T.txt"
++	#define RTL8188C_PHY_RADIO_B				"rtl8192CE\\radio_b_1T.txt"
++	#define RTL8188C_AGC_TAB					"rtl8192CE\\AGC_TAB_1T.txt"
++	#define RTL8188C_PHY_MACREG				"rtl8192CE\\MACREG_1T.txt"
++
++	#define RTL8192C_PHY_REG					"rtl8192CE\\PHY_REG_2T.txt"
++	#define RTL8192C_PHY_RADIO_A				"rtl8192CE\\radio_a_2T.txt"
++	#define RTL8192C_PHY_RADIO_B				"rtl8192CE\\radio_b_2T.txt"
++	#define RTL8192C_AGC_TAB					"rtl8192CE\\AGC_TAB_2T.txt"
++	#define RTL8192C_PHY_MACREG				"rtl8192CE\\MACREG_2T.txt"
++
++	#define RTL819X_PHY_MACPHY_REG			"rtl8192CE\\MACPHY_reg.txt"
++	#define RTL819X_PHY_MACPHY_REG_PG		"rtl8192CE\\MACPHY_reg_PG.txt"
++	#define RTL819X_PHY_MACREG				"rtl8192CE\\MAC_REG.txt"
++	#define RTL819X_PHY_REG					"rtl8192CE\\PHY_REG.txt"
++	#define RTL819X_PHY_REG_1T2R				"rtl8192CE\\PHY_REG_1T2R.txt"
++	#define RTL819X_PHY_REG_to1T1R				"rtl8192CE\\phy_to1T1R_a.txt"
++	#define RTL819X_PHY_REG_to1T2R				"rtl8192CE\\phy_to1T2R.txt"
++	#define RTL819X_PHY_REG_to2T2R				"rtl8192CE\\phy_to2T2R.txt"
++	#define RTL819X_PHY_REG_PG					"rtl8192CE\\PHY_REG_PG.txt"
++	#define RTL819X_AGC_TAB					"rtl8192CE\\AGC_TAB.txt"
++	#define RTL819X_PHY_RADIO_A				"rtl8192CE\\radio_a.txt"
++	#define RTL819X_PHY_RADIO_A_1T			"rtl8192CE\\radio_a_1t.txt"
++	#define RTL819X_PHY_RADIO_A_2T			"rtl8192CE\\radio_a_2t.txt"
++	#define RTL819X_PHY_RADIO_B				"rtl8192CE\\radio_b.txt"
++	#define RTL819X_PHY_RADIO_B_GM			"rtl8192CE\\radio_b_gm.txt"
++	#define RTL819X_PHY_RADIO_C				"rtl8192CE\\radio_c.txt"
++	#define RTL819X_PHY_RADIO_D				"rtl8192CE\\radio_d.txt"
++	#define RTL819X_EEPROM_MAP				"rtl8192CE\\8192ce.map"
++	#define RTL819X_EFUSE_MAP					"rtl8192CE\\8192ce.map"
++
++//---------------------------------------------------------------------
++//		RTL8723E From file
++//---------------------------------------------------------------------
++	#define RTL8723_FW_UMC_IMG				"rtl8723E\\rtl8723fw.bin"
++	#define RTL8723_PHY_REG					"rtl8723E\\PHY_REG_1T.txt" 
++	#define RTL8723_PHY_RADIO_A				"rtl8723E\\radio_a_1T.txt"
++	#define RTL8723_PHY_RADIO_B				"rtl8723E\\radio_b_1T.txt" 
++	#define RTL8723_AGC_TAB					"rtl8723E\\AGC_TAB_1T.txt"
++	#define RTL8723_PHY_MACREG 				"rtl8723E\\MAC_REG.txt"
++	#define RTL8723_PHY_MACREG 				"rtl8723E\\MAC_REG.txt"
++	#define RTL8723_PHY_REG_PG					"rtl8723E\\PHY_REG_PG.txt"
++	#define RTL8723_PHY_REG_MP 				"rtl8723E\\PHY_REG_MP.txt" 	
++
++	// The file name "_2T" is for 92CE, "_1T"  is for 88CE. Modified by tynli. 2009.11.24.
++	#define Rtl819XFwTSMCImageArray			Rtl8192CEFwTSMCImgArray
++	#define Rtl819XFwUMCACutImageArray			Rtl8192CEFwUMCACutImgArray
++	#define Rtl819XFwUMCBCutImageArray			Rtl8192CEFwUMCBCutImgArray
++	
++	#define Rtl8723FwUMCImageArray				Rtl8192CEFwUMC8723ImgArray
++	#define Rtl819XMAC_Array					Rtl8192CEMAC_2T_Array
++	#define Rtl819XAGCTAB_2TArray				Rtl8192CEAGCTAB_2TArray
++	#define Rtl819XAGCTAB_1TArray				Rtl8192CEAGCTAB_1TArray
++	#define Rtl819XPHY_REG_2TArray				Rtl8192CEPHY_REG_2TArray
++	#define Rtl819XPHY_REG_1TArray				Rtl8192CEPHY_REG_1TArray
++	#define Rtl819XRadioA_2TArray				Rtl8192CERadioA_2TArray
++	#define Rtl819XRadioA_1TArray				Rtl8192CERadioA_1TArray
++	#define Rtl819XRadioB_2TArray				Rtl8192CERadioB_2TArray
++	#define Rtl819XRadioB_1TArray				Rtl8192CERadioB_1TArray
++	#define Rtl819XPHY_REG_Array_PG 			Rtl8192CEPHY_REG_Array_PG
++	#define Rtl819XPHY_REG_Array_MP 			Rtl8192CEPHY_REG_Array_MP
++
++#elif defined(CONFIG_USB_HCI)
++
++	#include "Hal8192CUHWImg.h"
++#ifdef CONFIG_WOWLAN
++	#include "Hal8192CUHWImg_wowlan.h"
++#endif //CONFIG_WOWLAN
++	//2TODO: We should define 8192S firmware related macro settings here!!
++	#define RTL819X_DEFAULT_RF_TYPE			RF_1T2R
++	#define RTL819X_TOTAL_RF_PATH				2
++
++	//TODO:  The following need to check!!
++	#define RTL8192C_FW_TSMC_IMG				"rtl8192CU\\rtl8192cfwT.bin"
++	#define RTL8192C_FW_UMC_IMG				"rtl8192CU\\rtl8192cfwU.bin"
++	#define RTL8192C_FW_UMC_B_IMG				"rtl8192CU\\rtl8192cfwU_B.bin"
++#ifdef CONFIG_WOWLAN
++	#define 	RTL8192C_FW_TSMC_WW_IMG			"rtl8192CU\\rtl8192cfwTww.bin"
++	#define 	RTL8192C_FW_UMC_WW_IMG			"rtl8192CU\\rtl8192cfwUww.bin"
++	#define 	RTL8192C_FW_UMC_B_WW_IMG		"rtl8192CU\\rtl8192cfwU_Bww.bin"
++#endif // CONFIG_WOWLAN
++	//#define RTL819X_FW_BOOT_IMG   				"rtl8192CU\\boot.img"
++	//#define RTL819X_FW_MAIN_IMG				"rtl8192CU\\main.img"
++	//#define RTL819X_FW_DATA_IMG				"rtl8192CU\\data.img"
++
++	#define RTL8188C_PHY_REG					"rtl8188CU\\PHY_REG.txt"
++	#define RTL8188C_PHY_RADIO_A				"rtl8188CU\\radio_a.txt"
++	#define RTL8188C_PHY_RADIO_B				"rtl8188CU\\radio_b.txt"
++	#define RTL8188C_PHY_RADIO_A_mCard		"rtl8192CU\\radio_a_1T_mCard.txt"
++	#define RTL8188C_PHY_RADIO_B_mCard		"rtl8192CU\\radio_b_1T_mCard.txt" 
++	#define RTL8188C_PHY_RADIO_A_HP			"rtl8192CU\\radio_a_1T_HP.txt"
++	#define RTL8188C_AGC_TAB					"rtl8188CU\\AGC_TAB.txt"
++	#define RTL8188C_PHY_MACREG				"rtl8188CU\\MACREG.txt"
++
++	#define RTL8192C_PHY_REG					"rtl8192CU\\PHY_REG.txt"
++	#define RTL8192C_PHY_RADIO_A				"rtl8192CU\\radio_a.txt"
++	#define RTL8192C_PHY_RADIO_B				"rtl8192CU\\radio_b.txt"
++	#define RTL8192C_AGC_TAB					"rtl8192CU\\AGC_TAB.txt"
++	#define RTL8192C_PHY_MACREG				"rtl8192CU\\MACREG.txt"
++
++	#define RTL819X_PHY_REG_PG					"rtl8192CU\\PHY_REG_PG.txt"
++
++//---------------------------------------------------------------------
++//		RTL8723U From file
++//---------------------------------------------------------------------
++	#define RTL8723_FW_UMC_IMG				"rtl8723U\\rtl8723fw.bin"
++	#define RTL8723_PHY_REG					"rtl8723U\\PHY_REG_1T.txt" 
++	#define RTL8723_PHY_RADIO_A				"rtl8723U\\radio_a_1T.txt"
++	#define RTL8723_PHY_RADIO_B				"rtl8723U\\radio_b_1T.txt" 
++	#define RTL8723_AGC_TAB					"rtl8723U\\AGC_TAB_1T.txt"
++	#define RTL8723_PHY_MACREG 				"rtl8723U\\MAC_REG.txt"
++	#define RTL8723_PHY_MACREG 				"rtl8723U\\MAC_REG.txt"
++	#define RTL8723_PHY_REG_PG					"rtl8723U\\PHY_REG_PG.txt"
++	#define RTL8723_PHY_REG_MP					"rtl8723U\\PHY_REG_MP.txt"	
++
++	// The file name "_2T" is for 92CU, "_1T"  is for 88CU. Modified by tynli. 2009.11.24.
++	#define Rtl819XFwImageArray					Rtl8192CUFwTSMCImgArray
++	#define Rtl819XFwTSMCImageArray			Rtl8192CUFwTSMCImgArray
++	#define Rtl819XFwUMCACutImageArray			Rtl8192CUFwUMCACutImgArray
++	#define Rtl819XFwUMCBCutImageArray			Rtl8192CUFwUMCBCutImgArray
++#ifdef CONFIG_WOWLAN
++	#define Rtl8192C_FwTSMCWWImageArray		Rtl8192CUFwTSMCWWImgArray
++	#define Rtl8192C_FwUMCWWImageArray		Rtl8192CUFwUMCACutWWImgArray
++	#define Rtl8192C_FwUMCBCutWWImageArray	Rtl8192CUFwUMCBCutWWImgArray		
++#endif //CONFIG_WOWLAN
++	#define Rtl819XMAC_Array					Rtl8192CUMAC_2T_Array
++	#define Rtl819XAGCTAB_2TArray				Rtl8192CUAGCTAB_2TArray
++	#define Rtl819XAGCTAB_1TArray				Rtl8192CUAGCTAB_1TArray
++	#define Rtl819XAGCTAB_1T_HPArray			Rtl8192CUAGCTAB_1T_HPArray
++	#define Rtl819XPHY_REG_2TArray				Rtl8192CUPHY_REG_2TArray
++	#define Rtl819XPHY_REG_1TArray				Rtl8192CUPHY_REG_1TArray
++	#define Rtl819XPHY_REG_1T_mCardArray		Rtl8192CUPHY_REG_1T_mCardArray 					
++	#define Rtl819XPHY_REG_2T_mCardArray		Rtl8192CUPHY_REG_2T_mCardArray	
++	#define Rtl819XPHY_REG_1T_HPArray			Rtl8192CUPHY_REG_1T_HPArray
++	#define Rtl819XRadioA_2TArray				Rtl8192CURadioA_2TArray
++	#define Rtl819XRadioA_1TArray				Rtl8192CURadioA_1TArray
++	#define Rtl819XRadioA_1T_mCardArray		Rtl8192CURadioA_1T_mCardArray			
++	#define Rtl819XRadioB_2TArray				Rtl8192CURadioB_2TArray
++	#define Rtl819XRadioB_1TArray				Rtl8192CURadioB_1TArray	
++	#define Rtl819XRadioB_1T_mCardArray		Rtl8192CURadioB_1T_mCardArray
++	#define Rtl819XRadioA_1T_HPArray			Rtl8192CURadioA_1T_HPArray	
++	#define Rtl819XPHY_REG_Array_PG 			Rtl8192CUPHY_REG_Array_PG
++	#define Rtl819XPHY_REG_Array_PG_mCard 		Rtl8192CUPHY_REG_Array_PG_mCard			
++	#define Rtl819XPHY_REG_Array_PG_HP			Rtl8192CUPHY_REG_Array_PG_HP
++	#define Rtl819XPHY_REG_Array_MP 			Rtl8192CUPHY_REG_Array_MP
++#endif
++
++#define DRVINFO_SZ	4 // unit is 8bytes
++#define PageNum_128(_Len)		(u32)(((_Len)>>7) + ((_Len)&0x7F ? 1:0))
++
++#define FW_8192C_SIZE					16384+32//16k
++#define FW_8192C_START_ADDRESS		0x1000
++//#define FW_8192C_END_ADDRESS		0x3FFF //Filen said this is for test chip
++#define FW_8192C_END_ADDRESS		0x1FFF
++
++#define MAX_PAGE_SIZE			4096	// @ page : 4k bytes
++
++#define IS_FW_HEADER_EXIST(_pFwHdr)	((le16_to_cpu(_pFwHdr->Signature)&0xFFF0) == 0x92C0 ||\
++									(le16_to_cpu(_pFwHdr->Signature)&0xFFF0) == 0x88C0 ||\
++									(le16_to_cpu(_pFwHdr->Signature)&0xFFF0) == 0x2300)
++
++typedef enum _FIRMWARE_SOURCE{
++	FW_SOURCE_IMG_FILE = 0,
++	FW_SOURCE_HEADER_FILE = 1,		//from header file
++}FIRMWARE_SOURCE, *PFIRMWARE_SOURCE;
++
++typedef struct _RT_FIRMWARE{
++	FIRMWARE_SOURCE	eFWSource;
++	u8*			szFwBuffer;
++	u32			ulFwLength;
++#ifdef CONFIG_WOWLAN
++	u8*			szWoWLANFwBuffer;
++	u32			ulWoWLANFwLength;
++#endif //CONFIG_WOWLAN
++}RT_FIRMWARE, *PRT_FIRMWARE, RT_FIRMWARE_92C, *PRT_FIRMWARE_92C;
++
++//
++// This structure must be cared byte-ordering
++//
++// Added by tynli. 2009.12.04.
++typedef struct _RT_8192C_FIRMWARE_HDR {//8-byte alinment required
++
++	//--- LONG WORD 0 ----
++	u16		Signature;	// 92C0: test chip; 92C, 88C0: test chip; 88C1: MP A-cut; 92C1: MP A-cut
++	u8		Category;	// AP/NIC and USB/PCI
++	u8		Function;	// Reserved for different FW function indcation, for further use when driver needs to download different FW in different conditions
++	u16		Version;		// FW Version
++	u8		Subversion;	// FW Subversion, default 0x00
++	u16		Rsvd1;
++
++
++	//--- LONG WORD 1 ----
++	u8		Month;	// Release time Month field
++	u8		Date;	// Release time Date field
++	u8		Hour;	// Release time Hour field
++	u8		Minute;	// Release time Minute field
++	u16		RamCodeSize;	// The size of RAM code
++	u16		Rsvd2;
++
++	//--- LONG WORD 2 ----
++	u32		SvnIdx;	// The SVN entry index
++	u32		Rsvd3;
++
++	//--- LONG WORD 3 ----
++	u32		Rsvd4;
++	u32		Rsvd5;
++
++}RT_8192C_FIRMWARE_HDR, *PRT_8192C_FIRMWARE_HDR;
++
++#define DRIVER_EARLY_INT_TIME		0x05
++#define BCN_DMA_ATIME_INT_TIME		0x02
++
++#ifdef CONFIG_USB_RX_AGGREGATION
++
++typedef enum _USB_RX_AGG_MODE{
++	USB_RX_AGG_DISABLE,
++	USB_RX_AGG_DMA,
++	USB_RX_AGG_USB,
++	USB_RX_AGG_MIX
++}USB_RX_AGG_MODE;
++
++#define MAX_RX_DMA_BUFFER_SIZE	10240		// 10K for 8192C RX DMA buffer
++
++#endif
++
++
++#define TX_SELE_HQ			BIT(0)		// High Queue
++#define TX_SELE_LQ			BIT(1)		// Low Queue
++#define TX_SELE_NQ			BIT(2)		// Normal Queue
++
++
++// Note: We will divide number of page equally for each queue other than public queue!
++
++#define TX_TOTAL_PAGE_NUMBER		0xF8
++#define TX_PAGE_BOUNDARY		(TX_TOTAL_PAGE_NUMBER + 1)
++
++// For Normal Chip Setting
++// (HPQ + LPQ + NPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER
++#define NORMAL_PAGE_NUM_PUBQ			0xE7
++#define NORMAL_PAGE_NUM_HPQ			0x0C
++#define NORMAL_PAGE_NUM_LPQ			0x02
++#define NORMAL_PAGE_NUM_NPQ			0x02
++
++
++// For Test Chip Setting
++// (HPQ + LPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER
++#define TEST_PAGE_NUM_PUBQ		0x7E
++
++
++// For Test Chip Setting
++#define WMM_TEST_TX_TOTAL_PAGE_NUMBER	0xF5
++#define WMM_TEST_TX_PAGE_BOUNDARY	(WMM_TEST_TX_TOTAL_PAGE_NUMBER + 1) //F6
++
++#define WMM_TEST_PAGE_NUM_PUBQ		0xA3
++#define WMM_TEST_PAGE_NUM_HPQ		0x29
++#define WMM_TEST_PAGE_NUM_LPQ		0x29
++
++
++//Note: For Normal Chip Setting ,modify later
++#define WMM_NORMAL_TX_TOTAL_PAGE_NUMBER	0xF5
++#define WMM_NORMAL_TX_PAGE_BOUNDARY	(WMM_TEST_TX_TOTAL_PAGE_NUMBER + 1) //F6
++
++#define WMM_NORMAL_PAGE_NUM_PUBQ		0x65
++#define WMM_NORMAL_PAGE_NUM_HPQ		0x30
++#define WMM_NORMAL_PAGE_NUM_LPQ			0x30
++#define WMM_NORMAL_PAGE_NUM_NPQ		0x30
++
++//-------------------------------------------------------------------------
++//	Chip specific
++//-------------------------------------------------------------------------
++#define CHIP_BONDING_IDENTIFIER(_value)	(((_value)>>22)&0x3)
++#define CHIP_BONDING_92C_1T2R	0x1
++#define CHIP_BONDING_88C_USB_MCARD	0x2
++#define CHIP_BONDING_88C_USB_HP	0x1
++
++//
++// 2011.01.06. Define new structure of chip version for RTL8723 and so on. Added by tynli.
++//
++/*
++     | BIT15:12           |  BIT11:8        | BIT 7              |  BIT6:4  |      BIT3          | BIT2:0  |
++     |-------------+-----------+-----------+-------+-----------+-------|
++     | IC version(CUT)  | ROM version  | Manufacturer  | RF type  |  Chip type       | IC Type |
++     |                           |                      | TSMC/UMC    |              | TEST/NORMAL|             |
++*/
++// [15:12] IC version(CUT): A-cut=0, B-cut=1, C-cut=2, D-cut=3
++// [7] Manufacturer: TSMC=0, UMC=1
++// [6:4] RF type: 1T1R=0, 1T2R=1, 2T2R=2
++// [3] Chip type: TEST=0, NORMAL=1
++// [2:0] IC type: 81xxC=0, 8723=1, 92D=2
++
++#define CHIP_8723						BIT(0)
++#define CHIP_92D						BIT(1)
++#define NORMAL_CHIP  					BIT(3)
++#define RF_TYPE_1T1R					(~(BIT(4)|BIT(5)|BIT(6)))
++#define RF_TYPE_1T2R					BIT(4)
++#define RF_TYPE_2T2R					BIT(5)
++#define CHIP_VENDOR_UMC				BIT(7)
++#define B_CUT_VERSION					BIT(12)
++#define C_CUT_VERSION					BIT(13)
++#define D_CUT_VERSION					((BIT(13)|BIT(14)))
++
++
++// MASK
++#define IC_TYPE_MASK					(BIT(0)|BIT(1)|BIT(2))
++#define CHIP_TYPE_MASK 				BIT(3)
++#define RF_TYPE_MASK					(BIT(4)|BIT(5)|BIT(6))
++#define MANUFACTUER_MASK			BIT(7)	
++#define ROM_VERSION_MASK				(BIT(11)|BIT(10)|BIT(9)|BIT(8))
++#define CUT_VERSION_MASK				(BIT(15)|BIT(14)|BIT(13)|BIT(12))
++
++// Get element
++#define GET_CVID_IC_TYPE(version)			((version) & IC_TYPE_MASK)
++#define GET_CVID_CHIP_TYPE(version)			((version) & CHIP_TYPE_MASK)
++#define GET_CVID_RF_TYPE(version)			((version) & RF_TYPE_MASK)
++#define GET_CVID_MANUFACTUER(version)		((version) & MANUFACTUER_MASK)
++#define GET_CVID_ROM_VERSION(version)		((version) & ROM_VERSION_MASK)
++#define GET_CVID_CUT_VERSION(version)		((version) & CUT_VERSION_MASK)
++
++#define IS_81XXC(version)					((GET_CVID_IC_TYPE(version) == 0)? _TRUE : _FALSE)
++#define IS_8723_SERIES(version)				((GET_CVID_IC_TYPE(version) == CHIP_8723)? _TRUE : _FALSE)
++#define IS_92D(version)						((GET_CVID_IC_TYPE(version) == CHIP_92D)? _TRUE : _FALSE)
++#define IS_1T1R(version)						((GET_CVID_RF_TYPE(version))? _FALSE : _TRUE)
++#define IS_1T2R(version)						((GET_CVID_RF_TYPE(version) == RF_TYPE_1T2R)? _TRUE : _FALSE)
++#define IS_2T2R(version)						((GET_CVID_RF_TYPE(version) == RF_TYPE_2T2R)? _TRUE : _FALSE)
++#define IS_NORMAL_CHIP(version)				((GET_CVID_CHIP_TYPE(version))? _TRUE: _FALSE)
++#define IS_CHIP_VENDOR_UMC(version)			((GET_CVID_MANUFACTUER(version))? _TRUE: _FALSE)
++
++#define IS_81XXC_TEST_CHIP(version)			((IS_81XXC(version) && (!IS_NORMAL_CHIP(version)))? _TRUE: _FALSE)
++#define IS_92D_TEST_CHIP(version)				((IS_92D(version) && (!IS_NORMAL_CHIP(version)))? _TRUE: _FALSE)
++#define IS_92C_SERIAL(version)   				((IS_81XXC(version) && IS_2T2R(version)) ? _TRUE : _FALSE)
++#define IS_VENDOR_UMC_A_CUT(version)		((IS_CHIP_VENDOR_UMC(version)) ? ((GET_CVID_CUT_VERSION(version)) ? _FALSE : _TRUE) : _FALSE)
++#define IS_VENDOR_8723_A_CUT(version)		((IS_8723_SERIES(version)) ? ((GET_CVID_CUT_VERSION(version)) ? _FALSE : _TRUE) : _FALSE)
++// <tynli_Note> 88/92C UMC B-cut vendor is set to TSMC so we need to check CHIP_VENDOR_UMC bit is not 1. 
++#define IS_81xxC_VENDOR_UMC_B_CUT(version)	((IS_CHIP_VENDOR_UMC(version)) ? ((GET_CVID_CUT_VERSION(version) == B_CUT_VERSION) ? _TRUE : _FALSE):_FALSE)
++#define IS_92D_SINGLEPHY(version)     			((IS_92D(version)) ? (IS_2T2R(version) ? _TRUE: _FALSE) : _FALSE)
++#define IS_92D_C_CUT(version)    				((IS_92D(version)) ? ((GET_CVID_CUT_VERSION(version) == 0x2) ? _TRUE : _FALSE) : _FALSE)
++#define IS_92D_D_CUT(version)    				((IS_92D(version)) ? ((GET_CVID_CUT_VERSION(version) == 0x3) ? _TRUE : _FALSE) : _FALSE)
++
++typedef enum _VERSION_8192C{
++	VERSION_TEST_CHIP_88C = 0x0000,
++	VERSION_TEST_CHIP_92C = 0x0020,
++	VERSION_TEST_UMC_CHIP_8723 = 0x0081,
++	VERSION_NORMAL_TSMC_CHIP_88C = 0x0008, 
++	VERSION_NORMAL_TSMC_CHIP_92C = 0x0028,
++	VERSION_NORMAL_TSMC_CHIP_92C_1T2R = 0x0018,
++	VERSION_NORMAL_UMC_CHIP_88C_A_CUT = 0x0088,
++	VERSION_NORMAL_UMC_CHIP_92C_A_CUT = 0x00a8,
++	VERSION_NORMAL_UMC_CHIP_92C_1T2R_A_CUT = 0x0098,		
++	VERSION_NORMAL_UMC_CHIP_8723_1T1R_A_CUT = 0x0089,
++	VERSION_NORMAL_UMC_CHIP_8723_1T1R_B_CUT = 0x1089,	
++	VERSION_NORMAL_UMC_CHIP_88C_B_CUT = 0x1088, 
++	VERSION_NORMAL_UMC_CHIP_92C_B_CUT = 0x10a8, 
++	VERSION_NORMAL_UMC_CHIP_92C_1T2R_B_CUT = 0x1090, 
++	VERSION_TEST_CHIP_92D_SINGLEPHY= 0x0022,
++	VERSION_TEST_CHIP_92D_DUALPHY = 0x0002,
++	VERSION_NORMAL_CHIP_92D_SINGLEPHY= 0x002a,
++	VERSION_NORMAL_CHIP_92D_DUALPHY = 0x000a,
++	VERSION_NORMAL_CHIP_92D_C_CUT_SINGLEPHY = 0x202a,
++	VERSION_NORMAL_CHIP_92D_C_CUT_DUALPHY = 0x200a,
++	VERSION_NORMAL_CHIP_92D_D_CUT_SINGLEPHY = 0x302a,
++	VERSION_NORMAL_CHIP_92D_D_CUT_DUALPHY = 0x300a,
++}VERSION_8192C,*PVERSION_8192C;
++
++
++
++//-------------------------------------------------------------------------
++//	Channel Plan
++//-------------------------------------------------------------------------
++enum ChannelPlan{
++	CHPL_FCC	= 0,
++	CHPL_IC		= 1,
++	CHPL_ETSI	= 2,
++	CHPL_SPAIN	= 3,
++	CHPL_FRANCE	= 4,
++	CHPL_MKK	= 5,
++	CHPL_MKK1	= 6,
++	CHPL_ISRAEL	= 7,
++	CHPL_TELEC	= 8,
++	CHPL_GLOBAL	= 9,
++	CHPL_WORLD	= 10,
++};
++
++typedef struct _TxPowerInfo{
++	u8 CCKIndex[RF_PATH_MAX][CHANNEL_GROUP_MAX];
++	u8 HT40_1SIndex[RF_PATH_MAX][CHANNEL_GROUP_MAX];
++	u8 HT40_2SIndexDiff[RF_PATH_MAX][CHANNEL_GROUP_MAX];
++	s8 HT20IndexDiff[RF_PATH_MAX][CHANNEL_GROUP_MAX];
++	u8 OFDMIndexDiff[RF_PATH_MAX][CHANNEL_GROUP_MAX];
++	u8 HT40MaxOffset[RF_PATH_MAX][CHANNEL_GROUP_MAX];
++	u8 HT20MaxOffset[RF_PATH_MAX][CHANNEL_GROUP_MAX];
++	u8 TSSI_A;
++	u8 TSSI_B;
++}TxPowerInfo, *PTxPowerInfo;
++
++#define		EFUSE_REAL_CONTENT_LEN		512
++#define		EFUSE_MAP_LEN					128
++#define		EFUSE_MAX_SECTION			16
++#define		EFUSE_IC_ID_OFFSET			506	//For some inferiority IC purpose. added by Roger, 2009.09.02.
++#define 		AVAILABLE_EFUSE_ADDR(addr) 	(addr < EFUSE_REAL_CONTENT_LEN)
++//
++// <Roger_Notes> To prevent out of boundary programming case, leave 1byte and program full section
++// 9bytes + 1byt + 5bytes and pre 1byte.
++// For worst case:
++// | 1byte|----8bytes----|1byte|--5bytes--| 
++// |         |            Reserved(14bytes)	      |
++//
++#define		EFUSE_OOB_PROTECT_BYTES 		15	// PG data exclude header, dummy 6 bytes frome CP test and reserved 1byte.
++
++
++#define		EFUSE_MAP_LEN_8723			256
++#define		EFUSE_MAX_SECTION_8723		32
++
++//========================================================
++//			EFUSE for BT definition
++//========================================================
++#define		EFUSE_BT_REAL_CONTENT_LEN		1536	// 512*3
++#define		EFUSE_BT_MAP_LEN					1024	// 1k bytes
++#define		EFUSE_BT_MAX_SECTION				128		// 1024/8
++
++#define		EFUSE_PROTECT_BYTES_BANK			16
++
++//
++// <Roger_Notes> For RTL8723 WiFi/BT/GPS multi-function configuration. 2010.10.06.
++//
++typedef enum _RT_MULTI_FUNC{
++	RT_MULTI_FUNC_NONE = 0x00,
++	RT_MULTI_FUNC_WIFI = 0x01,
++	RT_MULTI_FUNC_BT = 0x02,
++	RT_MULTI_FUNC_GPS = 0x04,
++}RT_MULTI_FUNC,*PRT_MULTI_FUNC;
++
++//
++// <Roger_Notes> For RTL8723 WiFi PDn/GPIO polarity control configuration. 2010.10.08.
++//
++typedef enum _RT_POLARITY_CTL{
++	RT_POLARITY_LOW_ACT = 0,
++	RT_POLARITY_HIGH_ACT = 1,	
++}RT_POLARITY_CTL,*PRT_POLARITY_CTL;
++
++// For RTL8723 regulator mode. by tynli. 2011.01.14.
++typedef enum _RT_REGULATOR_MODE{
++	RT_SWITCHING_REGULATOR = 0,
++	RT_LDO_REGULATOR = 1,	
++}RT_REGULATOR_MODE,*PRT_REGULATOR_MODE;
++
++enum c2h_id_8192c {
++	C2H_DBG = 0,
++	C2H_TSF = 1,
++	C2H_AP_RPT_RSP = 2,
++	C2H_CCX_TX_RPT = 3,
++	C2H_BT_RSSI = 4,
++	C2H_BT_OP_MODE = 5,
++	C2H_EXT_RA_RPT = 6,
++	C2H_HW_INFO_EXCH = 10,
++	C2H_C2H_H2C_TEST = 11,
++	C2H_BT_INFO = 12,
++	C2H_BT_MP_INFO = 15,
++	MAX_C2HEVENT
++};
++
++#ifdef CONFIG_PCI_HCI
++struct hal_data_8192ce
++{
++	VERSION_8192C		VersionID;
++	RT_MULTI_FUNC		MultiFunc; // For multi-function consideration.
++	RT_POLARITY_CTL		PolarityCtl; // For Wifi PDn Polarity control.
++	RT_REGULATOR_MODE	RegulatorMode; // switching regulator or LDO
++	u16	CustomerID;
++
++	u16	FirmwareVersion;
++	u16	FirmwareVersionRev;
++	u16	FirmwareSubVersion;
++
++	u32	IntrMask[2];
++	u32	IntrMaskToSet[2];
++
++	u32	DisabledFunctions;
++	
++	//current WIFI_PHY values
++	u32	ReceiveConfig;
++	u32	TransmitConfig;
++	WIRELESS_MODE		CurrentWirelessMode;
++	HT_CHANNEL_WIDTH	CurrentChannelBW;
++	u8	CurrentChannel;
++	u8	nCur40MhzPrimeSC;// Control channel sub-carrier
++
++	u16	BasicRateSet;
++
++	//rf_ctrl
++	_lock	rf_lock;
++	u8	rf_chip;
++	u8	rf_type;
++	u8	NumTotalRFPath;
++
++	INTERFACE_SELECT_8192CPCIe	InterfaceSel;
++
++	//
++	// EEPROM setting.
++	//
++	u16	EEPROMVID;
++	u16	EEPROMDID;
++	u16	EEPROMSVID;
++	u16	EEPROMSMID;
++	u16	EEPROMChannelPlan;
++	u16	EEPROMVersion;
++
++	u8	EEPROMChnlAreaTxPwrCCK[2][3];	
++	u8	EEPROMChnlAreaTxPwrHT40_1S[2][3];	
++	u8	EEPROMChnlAreaTxPwrHT40_2SDiff[2][3];
++	u8	EEPROMPwrLimitHT20[3];
++	u8	EEPROMPwrLimitHT40[3];
++
++	u8	bTXPowerDataReadFromEEPORM;
++	u8	EEPROMThermalMeter;
++	u8	EEPROMTSSI[2];
++
++	u8	EEPROMCustomerID;
++	u8	EEPROMBoardType;
++	u8	EEPROMRegulatory;
++
++	u8	bDefaultAntenna;
++	u8	bIQKInitialized;
++
++	u8	TxPwrLevelCck[RF_PATH_MAX][CHANNEL_MAX_NUMBER];
++	u8	TxPwrLevelHT40_1S[RF_PATH_MAX][CHANNEL_MAX_NUMBER];	// For HT 40MHZ pwr
++	u8	TxPwrLevelHT40_2S[RF_PATH_MAX][CHANNEL_MAX_NUMBER];	// For HT 40MHZ pwr	
++	s8	TxPwrHt20Diff[RF_PATH_MAX][CHANNEL_MAX_NUMBER];// HT 20<->40 Pwr diff
++	u8	TxPwrLegacyHtDiff[RF_PATH_MAX][CHANNEL_MAX_NUMBER];// For HT<->legacy pwr diff
++	// For power group
++	u8	PwrGroupHT20[RF_PATH_MAX][CHANNEL_MAX_NUMBER];
++	u8	PwrGroupHT40[RF_PATH_MAX][CHANNEL_MAX_NUMBER];
++
++	u8	LegacyHTTxPowerDiff;// Legacy to HT rate power diff
++
++#ifdef CONFIG_BT_COEXIST
++	struct btcoexist_priv	bt_coexist;
++#endif
++
++	// Read/write are allow for following hardware information variables
++	u8	framesync;
++	u32	framesyncC34;
++	u8	framesyncMonitor;
++	u8	DefaultInitialGain[4];
++	u8	pwrGroupCnt;
++	u32	MCSTxPowerLevelOriginalOffset[7][16];
++	u32	CCKTxPowerLevelOriginalOffset;
++
++	u32	AntennaTxPath;					// Antenna path Tx
++	u32	AntennaRxPath;					// Antenna path Rx
++	u8	BluetoothCoexist;
++	u8	ExternalPA;
++
++	//u32	LedControlNum;
++	//u32	LedControlMode;
++	u8	bLedOpenDrain; // Support Open-drain arrangement for controlling the LED. Added by Roger, 2009.10.16.
++	//u32	TxPowerTrackControl;
++	u8	b1x1RecvCombine;	// for 1T1R receive combining
++
++	u8	bCurrentTurboEDCA;
++	u32	AcParam_BE; //Original parameter for BE, use for EDCA turbo.
++
++	//vivi, for tx power tracking, 20080407
++	//u16	TSSI_13dBm;
++	//u32	Pwr_Track;
++	// The current Tx Power Level
++	u8	CurrentCckTxPwrIdx;
++	u8	CurrentOfdm24GTxPwrIdx;
++
++	BB_REGISTER_DEFINITION_T	PHYRegDef[4];	//Radio A/B/C/D
++
++	BOOLEAN		bRFPathRxEnable[4];	// We support 4 RF path now.
++
++	u32	RfRegChnlVal[2];
++
++	u8	bCckHighPower;
++
++	//RDG enable
++	BOOLEAN	 bRDGEnable;
++
++	//for host message to fw
++	u8	LastHMEBoxNum;
++
++	u8	fw_ractrl;
++	u8	RegTxPause;
++	// Beacon function related global variable.
++	u32	RegBcnCtrlVal;
++	u8	RegFwHwTxQCtrl;
++	u8	RegReg542;
++	u8	CurAntenna;	
++	u8	AntDivCfg;
++
++#ifdef CONFIG_SW_ANTENNA_DIVERSITY
++	//SW Antenna Switch
++	s32				RSSI_sum_A;
++	s32				RSSI_sum_B;
++	s32				RSSI_cnt_A;
++	s32				RSSI_cnt_B;
++	BOOLEAN		RSSI_test;
++#endif
++#ifdef CONFIG_HW_ANTENNA_DIVERSITY
++	//Hybrid Antenna Diversity
++	u32				CCK_Ant1_Cnt;
++	u32				CCK_Ant2_Cnt;
++	u32				OFDM_Ant1_Cnt;
++	u32				OFDM_Ant2_Cnt;
++#endif
++
++	struct dm_priv	dmpriv;
++	u8	bDumpRxPkt;//for debug
++#ifdef DBG_CONFIG_ERROR_DETECT
++	struct sreset_priv srestpriv;
++#endif
++	u8	bInterruptMigration;
++	u8	bDisableTxInt;
++	u8	bGpioHwWpsPbc;
++
++	u8	FwRsvdPageStartOffset; //2010.06.23. Added by tynli. Reserve page start offset except beacon in TxQ.
++
++	u16	EfuseUsedBytes;
++	
++#ifdef CONFIG_P2P
++	struct P2P_PS_Offload_t	p2p_ps_offload;
++#endif //CONFIG_P2P
++};
++
++typedef struct hal_data_8192ce HAL_DATA_TYPE, *PHAL_DATA_TYPE;
++
++//
++// Function disabled.
++//
++#define DF_TX_BIT		BIT0
++#define DF_RX_BIT		BIT1
++#define DF_IO_BIT		BIT2
++#define DF_IO_D3_BIT			BIT3
++
++#define RT_DF_TYPE		u32
++#define RT_DISABLE_FUNC(__pAdapter, __FuncBits) ((__pAdapter)->DisabledFunctions |= ((RT_DF_TYPE)(__FuncBits)))
++#define RT_ENABLE_FUNC(__pAdapter, __FuncBits) ((__pAdapter)->DisabledFunctions &= (~((RT_DF_TYPE)(__FuncBits))))
++#define RT_IS_FUNC_DISABLED(__pAdapter, __FuncBits) ( (__pAdapter)->DisabledFunctions & (__FuncBits) )
++#define IS_MULTI_FUNC_CHIP(_Adapter)	(((((PHAL_DATA_TYPE)(_Adapter->HalData))->MultiFunc) & (RT_MULTI_FUNC_BT|RT_MULTI_FUNC_GPS)) ? _TRUE : _FALSE)
++
++void InterruptRecognized8192CE(PADAPTER Adapter, PRT_ISR_CONTENT pIsrContent);
++VOID UpdateInterruptMask8192CE(PADAPTER Adapter, u32 AddMSR, u32 AddMSR1, u32 RemoveMSR, u32 RemoveMSR1);
++#endif
++
++#ifdef CONFIG_USB_HCI
++struct hal_data_8192cu
++{
++	VERSION_8192C		VersionID;
++	RT_MULTI_FUNC		MultiFunc; // For multi-function consideration.
++	RT_POLARITY_CTL		PolarityCtl; // For Wifi PDn Polarity control.
++	RT_REGULATOR_MODE	RegulatorMode; // switching regulator or LDO
++	u16	CustomerID;
++
++	u16	FirmwareVersion;
++	u16	FirmwareVersionRev;
++	u16	FirmwareSubVersion;
++
++	//current WIFI_PHY values
++	u32	ReceiveConfig;
++	WIRELESS_MODE		CurrentWirelessMode;
++	HT_CHANNEL_WIDTH	CurrentChannelBW;
++	u8	CurrentChannel;
++	u8	nCur40MhzPrimeSC;// Control channel sub-carrier
++
++	u16	BasicRateSet;
++
++	//rf_ctrl
++	u8	rf_chip;
++	u8	rf_type;
++	u8	NumTotalRFPath;
++
++	u8	BoardType;
++	//INTERFACE_SELECT_8192CUSB	InterfaceSel;
++
++	//
++	// EEPROM setting.
++	//
++	u16	EEPROMVID;
++	u16	EEPROMPID;
++	u16	EEPROMSVID;
++	u16	EEPROMSDID;
++	u8	EEPROMCustomerID;
++	u8	EEPROMSubCustomerID;
++	u8	EEPROMVersion;
++	u8	EEPROMRegulatory;
++
++	u8	bTXPowerDataReadFromEEPORM;
++	u8	EEPROMThermalMeter;
++
++	u8	bIQKInitialized;
++
++	u8	TxPwrLevelCck[RF_PATH_MAX][CHANNEL_MAX_NUMBER];
++	u8	TxPwrLevelHT40_1S[RF_PATH_MAX][CHANNEL_MAX_NUMBER];	// For HT 40MHZ pwr
++	u8	TxPwrLevelHT40_2S[RF_PATH_MAX][CHANNEL_MAX_NUMBER];	// For HT 40MHZ pwr	
++	s8	TxPwrHt20Diff[RF_PATH_MAX][CHANNEL_MAX_NUMBER];// HT 20<->40 Pwr diff
++	u8	TxPwrLegacyHtDiff[RF_PATH_MAX][CHANNEL_MAX_NUMBER];// For HT<->legacy pwr diff
++	// For power group
++	u8	PwrGroupHT20[RF_PATH_MAX][CHANNEL_MAX_NUMBER];
++	u8	PwrGroupHT40[RF_PATH_MAX][CHANNEL_MAX_NUMBER];
++
++	u8	LegacyHTTxPowerDiff;// Legacy to HT rate power diff
++
++	// Read/write are allow for following hardware information variables
++	u8	framesync;
++	u32	framesyncC34;
++	u8	framesyncMonitor;
++	u8	DefaultInitialGain[4];
++	u8	pwrGroupCnt;
++	u32	MCSTxPowerLevelOriginalOffset[7][16];
++	u32	CCKTxPowerLevelOriginalOffset;
++
++	u32	AntennaTxPath;					// Antenna path Tx
++	u32	AntennaRxPath;					// Antenna path Rx
++	u8	BluetoothCoexist;
++	u8	ExternalPA;
++
++	u8	bLedOpenDrain; // Support Open-drain arrangement for controlling the LED. Added by Roger, 2009.10.16.
++
++	//u32	LedControlNum;
++	//u32	LedControlMode;
++	//u32	TxPowerTrackControl;
++	u8	b1x1RecvCombine;	// for 1T1R receive combining
++
++	u8	bCurrentTurboEDCA;
++	u32	AcParam_BE; //Original parameter for BE, use for EDCA turbo.
++
++	//vivi, for tx power tracking, 20080407
++	//u16	TSSI_13dBm;
++	//u32	Pwr_Track;
++	// The current Tx Power Level
++	u8	CurrentCckTxPwrIdx;
++	u8	CurrentOfdm24GTxPwrIdx;
++
++	BB_REGISTER_DEFINITION_T	PHYRegDef[4];	//Radio A/B/C/D
++
++	BOOLEAN		bRFPathRxEnable[4];	// We support 4 RF path now.
++
++	u32	RfRegChnlVal[2];
++
++	u8	bCckHighPower;
++
++	//RDG enable
++	BOOLEAN	 bRDGEnable;
++
++	//for host message to fw
++	u8	LastHMEBoxNum;
++
++	u8	fw_ractrl;
++	u8	RegTxPause;
++	// Beacon function related global variable.
++	u32	RegBcnCtrlVal;
++	u8	RegFwHwTxQCtrl;
++	u8	RegReg542;
++
++	struct dm_priv	dmpriv;
++#ifdef DBG_CONFIG_ERROR_DETECT
++	struct sreset_priv srestpriv;
++#endif	
++
++#ifdef CONFIG_BT_COEXIST
++	struct btcoexist_priv	bt_coexist;
++#endif
++	u8	CurAntenna;	
++	u8	AntDivCfg;
++
++#ifdef CONFIG_SW_ANTENNA_DIVERSITY
++	//SW Antenna Switch
++	s32				RSSI_sum_A;
++	s32				RSSI_sum_B;
++	s32				RSSI_cnt_A;
++	s32				RSSI_cnt_B;
++	BOOLEAN		RSSI_test;
++#endif
++#ifdef CONFIG_HW_ANTENNA_DIVERSITY
++	//Hybrid Antenna Diversity
++	u32				CCK_Ant1_Cnt;
++	u32				CCK_Ant2_Cnt;
++	u32				OFDM_Ant1_Cnt;
++	u32				OFDM_Ant2_Cnt;
++#endif
++
++	u8	bDumpRxPkt;//for debug
++	u8	FwRsvdPageStartOffset; //2010.06.23. Added by tynli. Reserve page start offset except beacon in TxQ.
++
++	// 2010/08/09 MH Add CU power down mode.
++	BOOLEAN		pwrdown;
++
++	// For 92C USB endpoint setting
++	//
++
++	u32	UsbBulkOutSize;
++
++	int	RtBulkOutPipe[3];
++	int	RtBulkInPipe;
++	int	RtIntInPipe;
++	// Add for dual MAC  0--Mac0 1--Mac1
++	u32	interfaceIndex;
++
++	u8	OutEpQueueSel;
++	u8	OutEpNumber;
++
++	u8	Queue2EPNum[8];//for out endpoint number mapping
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	u8	UsbTxAggMode;
++	u8	UsbTxAggDescNum;
++#endif
++#ifdef CONFIG_USB_RX_AGGREGATION
++	u16	HwRxPageSize;				// Hardware setting
++	u32	MaxUsbRxAggBlock;
++
++	USB_RX_AGG_MODE	UsbRxAggMode;
++	u8	UsbRxAggBlockCount;			// USB Block count. Block size is 512-byte in hight speed and 64-byte in full speed
++	u8	UsbRxAggBlockTimeout;
++	u8	UsbRxAggPageCount;			// 8192C DMA page count
++	u8	UsbRxAggPageTimeout;
++#endif
++
++	// 2010/12/10 MH Add for USB aggreation mode dynamic shceme.
++	BOOLEAN		UsbRxHighSpeedMode;
++
++	// 2010/11/22 MH Add for slim combo debug mode selective.
++	// This is used for fix the drawback of CU TSMC-A/UMC-A cut. HW auto suspend ability. Close BT clock.
++	BOOLEAN		SlimComboDbg;
++
++	u16	EfuseUsedBytes;
++
++#ifdef CONFIG_P2P
++	struct P2P_PS_Offload_t	p2p_ps_offload;
++#endif //CONFIG_P2P
++};
++
++typedef struct hal_data_8192cu HAL_DATA_TYPE, *PHAL_DATA_TYPE;
++#endif
++
++#define GET_HAL_DATA(__pAdapter)	((HAL_DATA_TYPE *)((__pAdapter)->HalData))
++#define GET_RF_TYPE(priv)	(GET_HAL_DATA(priv)->rf_type)
++
++#define INCLUDE_MULTI_FUNC_BT(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_BT)
++#define INCLUDE_MULTI_FUNC_GPS(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_GPS)
++
++VOID rtl8192c_FirmwareSelfReset(IN PADAPTER Adapter);
++int FirmwareDownload92C(IN PADAPTER Adapter,IN	BOOLEAN			bUsedWoWLANFw);
++VOID InitializeFirmwareVars92C(PADAPTER Adapter);
++u8 GetEEPROMSize8192C(PADAPTER Adapter);
++void rtl8192c_EfuseParseChnlPlan(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++VERSION_8192C rtl8192c_ReadChipVersion(IN PADAPTER Adapter);
++void rtl8192c_ReadBluetoothCoexistInfo(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++//void rtl8192c_free_hal_data(_adapter * padapter);
++VOID rtl8192c_EfuseParseIDCode(PADAPTER pAdapter, u8 *hwinfo);
++void rtl8192c_set_hal_ops(struct hal_ops *pHalFunc);
++
++s32 c2h_id_filter_ccx_8192c(u8 id);
++#endif
++
++#ifdef CONFIG_MP_INCLUDED
++
++extern void Hal_SetAntenna(PADAPTER pAdapter);
++extern void Hal_SetBandwidth(PADAPTER pAdapter);
++
++extern void Hal_SetTxPower(PADAPTER pAdapter);
++extern void Hal_SetCarrierSuppressionTx(PADAPTER pAdapter, u8 bStart);
++extern void Hal_SetSingleToneTx ( PADAPTER pAdapter , u8 bStart );
++extern void Hal_SetSingleCarrierTx (PADAPTER pAdapter, u8 bStart);
++extern void Hal_SetContinuousTx (PADAPTER pAdapter, u8 bStart);
++
++extern void Hal_SetDataRate(PADAPTER pAdapter);
++extern void Hal_SetChannel(PADAPTER pAdapter);
++extern void Hal_SetAntennaPathPower(PADAPTER pAdapter);
++extern s32 Hal_SetThermalMeter(PADAPTER pAdapter, u8 target_ther);
++extern s32 Hal_SetPowerTracking(PADAPTER padapter, u8 enable);
++extern void Hal_GetPowerTracking(PADAPTER padapter, u8 * enable);
++extern void Hal_GetThermalMeter(PADAPTER pAdapter, u8 *value);
++extern void Hal_mpt_SwitchRfSetting(PADAPTER pAdapter);
++extern void Hal_MPT_CCKTxPowerAdjust(PADAPTER Adapter, BOOLEAN bInCH14);
++extern void Hal_MPT_CCKTxPowerAdjustbyIndex(PADAPTER pAdapter, BOOLEAN beven);
++extern void Hal_SetCCKTxPower(PADAPTER pAdapter, u8 * TxPower);
++extern void Hal_SetOFDMTxPower(PADAPTER pAdapter, u8 * TxPower);
++extern void Hal_TriggerRFThermalMeter(PADAPTER pAdapter);
++extern u8 Hal_ReadRFThermalMeter(PADAPTER pAdapter);
++extern void Hal_SetCCKContinuousTx(PADAPTER pAdapter, u8 bStart);
++extern void Hal_SetOFDMContinuousTx(PADAPTER pAdapter, u8 bStart);
++
++#endif
++
++
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtl8192c_led.h b/drivers/net/wireless/rtl8192cu/include/rtl8192c_led.h
+new file mode 100755
+index 0000000..1ccf935
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtl8192c_led.h
+@@ -0,0 +1,42 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192C_LED_H_
++#define __RTL8192C_LED_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++
++//================================================================================
++// Interface to manipulate LED objects.
++//================================================================================
++#ifdef CONFIG_USB_HCI
++void rtl8192cu_InitSwLeds(_adapter *padapter);
++void rtl8192cu_DeInitSwLeds(_adapter *padapter);
++#endif
++#ifdef CONFIG_PCI_HCI
++void rtl8192ce_gen_RefreshLedState(PADAPTER Adapter);
++void rtl8192ce_InitSwLeds(_adapter *padapter);
++void rtl8192ce_DeInitSwLeds(_adapter *padapter);
++#endif
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtl8192c_recv.h b/drivers/net/wireless/rtl8192cu/include/rtl8192c_recv.h
+new file mode 100755
+index 0000000..d5656f5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtl8192c_recv.h
+@@ -0,0 +1,184 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8192C_RECV_H_
++#define _RTL8192C_RECV_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++
++#ifdef PLATFORM_OS_XP
++	#define NR_RECVBUFF (16)
++#elif defined(PLATFORM_OS_CE)
++	#define NR_RECVBUFF (4)
++#else
++#ifdef CONFIG_SINGLE_RECV_BUF
++	#define NR_RECVBUFF (1)
++#else
++	#define NR_RECVBUFF (4)
++#endif //CONFIG_SINGLE_RECV_BUF
++
++	#define NR_PREALLOC_RECV_SKB (8)
++#endif
++
++
++#define RECV_BLK_SZ 512
++#define RECV_BLK_CNT 16
++#define RECV_BLK_TH RECV_BLK_CNT
++
++#if defined(CONFIG_USB_HCI)
++
++#ifdef PLATFORM_OS_CE
++#define MAX_RECVBUF_SZ (8192+1024) // 8K+1k
++#else
++	#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++		//#define MAX_RECVBUF_SZ (32768) // 32k
++		//#define MAX_RECVBUF_SZ (16384) //16K
++		//#define MAX_RECVBUF_SZ (10240) //10K
++		#ifdef CONFIG_PLATFORM_MSTAR
++			#define MAX_RECVBUF_SZ (8192) // 8K
++		#else
++			#define MAX_RECVBUF_SZ (15360) // 15k < 16k
++		#endif
++		//#define MAX_RECVBUF_SZ (8192+1024) // 8K+1k
++	#else
++		#define MAX_RECVBUF_SZ (4000) // about 4K
++	#endif
++#endif
++
++#elif defined(CONFIG_PCI_HCI)
++//#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++//	#define MAX_RECVBUF_SZ (9100)
++//#else
++	#define MAX_RECVBUF_SZ (4000) // about 4K
++//#endif
++
++#define RX_MPDU_QUEUE				0
++#define RX_CMD_QUEUE				1
++#define RX_MAX_QUEUE				2
++#endif
++
++
++#define RECV_BULK_IN_ADDR		0x80
++#define RECV_INT_IN_ADDR		0x81
++
++#define PHY_RSSI_SLID_WIN_MAX				100
++#define PHY_LINKQUALITY_SLID_WIN_MAX		20
++
++
++struct phy_stat
++{
++	unsigned int phydw0;
++
++	unsigned int phydw1;
++
++	unsigned int phydw2;
++
++	unsigned int phydw3;
++
++	unsigned int phydw4;
++
++	unsigned int phydw5;
++
++	unsigned int phydw6;
++
++	unsigned int phydw7;
++};
++
++typedef struct _Phy_OFDM_Rx_Status_Report_8192cd
++{
++	unsigned char	trsw_gain_X[4];
++	unsigned char	pwdb_all;
++	unsigned char	cfosho_X[4];
++	unsigned char	cfotail_X[4];
++	unsigned char	rxevm_X[2];
++	unsigned char	rxsnr_X[4];
++	unsigned char	pdsnr_X[2];
++	unsigned char	csi_current_X[2];
++	unsigned char	csi_target_X[2];
++	unsigned char	sigevm;
++	unsigned char	max_ex_pwr;
++//#ifdef RTL8192SE
++#ifdef CONFIG_LITTLE_ENDIAN
++	unsigned char ex_intf_flg:1;
++	unsigned char sgi_en:1;
++	unsigned char rxsc:2;
++	//unsigned char rsvd:4;
++	unsigned char idle_long:1;
++	unsigned char r_ant_train_en:1;
++	unsigned char ANTSELB:1;
++	unsigned char ANTSEL:1;	
++#else	// _BIG_ENDIAN_
++	//unsigned char rsvd:4;
++	unsigned char ANTSEL:1;	
++	unsigned char ANTSELB:1;
++	unsigned char r_ant_train_en:1;
++	unsigned char idle_long:1;
++	unsigned char rxsc:2;
++	unsigned char sgi_en:1;
++	unsigned char ex_intf_flg:1;
++#endif
++//#else	// RTL8190, RTL8192E
++//	unsigned char	sgi_en;
++//	unsigned char	rxsc_sgien_exflg;
++//#endif
++} __attribute__ ((packed))PHY_STS_OFDM_8192CD_T,PHY_RX_DRIVER_INFO_8192CD;
++
++typedef struct _Phy_CCK_Rx_Status_Report_8192cd
++{
++	/* For CCK rate descriptor. This is a signed 8:1 variable. LSB bit presend
++		0.5. And MSB 7 bts presend a signed value. Range from -64~+63.5. */
++	u8	adc_pwdb_X[4];
++	u8	SQ_rpt;
++	u8	cck_agc_rpt;
++} PHY_STS_CCK_8192CD_T;
++
++
++// Rx smooth factor
++#define	Rx_Smooth_Factor (20)
++
++
++#ifdef CONFIG_USB_HCI
++typedef struct _INTERRUPT_MSG_FORMAT_EX{
++	unsigned int C2H_MSG0;
++	unsigned int C2H_MSG1;
++	unsigned int C2H_MSG2;
++	unsigned int C2H_MSG3;
++	unsigned int HISR; // from HISR Reg0x124, read to clear
++	unsigned int HISRE;// from HISRE Reg0x12c, read to clear
++	unsigned int  MSG_EX;
++}INTERRUPT_MSG_FORMAT_EX,*PINTERRUPT_MSG_FORMAT_EX;
++
++void rtl8192cu_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf);
++int	rtl8192cu_init_recv_priv(_adapter * padapter);
++void rtl8192cu_free_recv_priv(_adapter * padapter);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++int	rtl8192ce_init_recv_priv(_adapter * padapter);
++void rtl8192ce_free_recv_priv(_adapter * padapter);
++#endif
++
++void rtl8192c_translate_rx_signal_stuff(union recv_frame *precvframe, struct phy_stat *pphy_info);
++void rtl8192c_query_rx_desc_status(union recv_frame *precvframe, struct recv_stat *pdesc);
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtl8192c_rf.h b/drivers/net/wireless/rtl8192cu/include/rtl8192c_rf.h
+new file mode 100755
+index 0000000..26c678a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtl8192c_rf.h
+@@ -0,0 +1,92 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/******************************************************************************
++ * 
++ * 
++ * Module:	rtl8192c_rf.h	( Header File)
++ * 
++ * Note:	Collect every HAL RF type exter API or constant.	 
++ *
++ * Function:	
++ * 		 
++ * Export:	
++ * 
++ * Abbrev:	
++ * 
++ * History:
++ * Data			Who		Remark
++ * 
++ * 09/25/2008	MHC		Create initial version.
++ * 
++ * 
++******************************************************************************/
++#ifndef _RTL8192C_RF_H_
++#define _RTL8192C_RF_H_
++/* Check to see if the file has been included already.  */
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++//
++// For RF 6052 Series
++//
++#define		RF6052_MAX_TX_PWR			0x3F
++#define		RF6052_MAX_REG				0x3F
++#define		RF6052_MAX_PATH				2
++/*--------------------------Define Parameters-------------------------------*/
++
++
++/*------------------------------Define structure----------------------------*/ 
++
++/*------------------------------Define structure----------------------------*/ 
++
++
++/*------------------------Export global variable----------------------------*/
++/*------------------------Export global variable----------------------------*/
++
++/*------------------------Export Marco Definition---------------------------*/
++
++/*------------------------Export Marco Definition---------------------------*/
++
++
++/*--------------------------Exported Function prototype---------------------*/
++
++//
++// RF RL6052 Series API
++//
++void		rtl8192c_RF_ChangeTxPath(	IN	PADAPTER	Adapter, 
++										IN	u16		DataRate);
++void		rtl8192c_PHY_RF6052SetBandwidth(	
++										IN	PADAPTER				Adapter,
++										IN	HT_CHANNEL_WIDTH		Bandwidth);	
++VOID	rtl8192c_PHY_RF6052SetCckTxPower(
++										IN	PADAPTER	Adapter,
++										IN	u8*		pPowerlevel);
++VOID	rtl8192c_PHY_RF6052SetOFDMTxPower(
++										IN	PADAPTER	Adapter,
++										IN	u8*		pPowerLevel,
++										IN	u8		Channel);
++int	PHY_RF6052_Config8192C(	IN	PADAPTER		Adapter	);
++
++/*--------------------------Exported Function prototype---------------------*/
++
++
++#endif/* End of HalRf.h */
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtl8192c_spec.h b/drivers/net/wireless/rtl8192cu/include/rtl8192c_spec.h
+new file mode 100755
+index 0000000..8ff13a7
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtl8192c_spec.h
+@@ -0,0 +1,1865 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192C_SPEC_H__
++#define __RTL8192C_SPEC_H__
++
++#include <drv_conf.h>
++
++#ifndef BIT
++#define BIT(x)		(1 << (x))
++#endif
++
++#define BIT0		0x00000001
++#define BIT1		0x00000002
++#define BIT2		0x00000004
++#define BIT3		0x00000008
++#define BIT4		0x00000010
++#define BIT5		0x00000020
++#define BIT6		0x00000040
++#define BIT7		0x00000080
++#define BIT8		0x00000100
++#define BIT9		0x00000200
++#define BIT10	0x00000400
++#define BIT11	0x00000800
++#define BIT12	0x00001000
++#define BIT13	0x00002000
++#define BIT14	0x00004000
++#define BIT15	0x00008000
++#define BIT16	0x00010000
++#define BIT17	0x00020000
++#define BIT18	0x00040000
++#define BIT19	0x00080000
++#define BIT20	0x00100000
++#define BIT21	0x00200000
++#define BIT22	0x00400000
++#define BIT23	0x00800000
++#define BIT24	0x01000000
++#define BIT25	0x02000000
++#define BIT26	0x04000000
++#define BIT27	0x08000000
++#define BIT28	0x10000000
++#define BIT29	0x20000000
++#define BIT30	0x40000000
++#define BIT31	0x80000000
++
++
++//============================================================
++//       8192C Regsiter offset definition
++//============================================================
++
++
++//============================================================
++//
++//============================================================
++
++//-----------------------------------------------------
++//
++//	0x0000h ~ 0x00FFh	System Configuration
++//
++//-----------------------------------------------------
++#define REG_SYS_ISO_CTRL			0x0000
++#define REG_SYS_FUNC_EN			0x0002
++#define REG_APS_FSMCO				0x0004
++#define REG_SYS_CLKR				0x0008
++#define REG_9346CR					0x000A
++#define REG_EE_VPD					0x000C
++#define REG_AFE_MISC				0x0010
++#define REG_SPS0_CTRL				0x0011
++#define REG_SPS_OCP_CFG			0x0018
++#define REG_RSV_CTRL				0x001C
++#define REG_RF_CTRL					0x001F
++#define REG_LDOA15_CTRL			0x0020
++#define REG_LDOV12D_CTRL			0x0021
++#define REG_LDOHCI12_CTRL			0x0022
++#define REG_LPLDO_CTRL				0x0023
++#define REG_AFE_XTAL_CTRL			0x0024
++#define REG_AFE_PLL_CTRL			0x0028
++#define REG_EFUSE_CTRL				0x0030
++#define REG_EFUSE_TEST				0x0034
++#define REG_PWR_DATA				0x0038
++#define REG_CAL_TIMER				0x003C
++#define REG_ACLK_MON				0x003E
++#define REG_GPIO_MUXCFG			0x0040
++#define REG_GPIO_IO_SEL				0x0042
++#define REG_MAC_PINMUX_CFG		0x0043
++#define REG_GPIO_PIN_CTRL			0x0044
++#define REG_GPIO_INTM				0x0048
++#define REG_LEDCFG0					0x004C
++#define REG_LEDCFG1					0x004D
++#define REG_LEDCFG2					0x004E
++#define REG_LEDCFG3					0x004F
++#define REG_LEDCFG					REG_LEDCFG2
++#define REG_FSIMR					0x0050
++#define REG_FSISR					0x0054
++#define REG_HSIMR					0x0058
++#define REG_HSISR					0x005c
++#define REG_GPIO_PIN_CTRL_2		0x0060 // RTL8723 WIFI/BT/GPS Multi-Function GPIO Pin Control.
++#define REG_GPIO_IO_SEL_2			0x0062 // RTL8723 WIFI/BT/GPS Multi-Function GPIO Select.
++#define REG_MULTI_FUNC_CTRL		0x0068 // RTL8723 WIFI/BT/GPS Multi-Function control source.
++#define REG_MCUFWDL				0x0080
++#ifdef CONFIG_WOWLAN
++#define REG_WOWLAN_REASON			0x0081
++#endif //CONFIG_WOWLAN
++#define REG_HMEBOX_EXT_0			0x0088
++#define REG_HMEBOX_EXT_1			0x008A
++#define REG_HMEBOX_EXT_2			0x008C
++#define REG_HMEBOX_EXT_3			0x008E
++#define REG_HOST_SUSP_CNT			0x00BC	// Host suspend counter on FPGA platform
++#define REG_EFUSE_ACCESS			0x00CF	// Efuse access protection for RTL8723
++#define REG_BIST_SCAN				0x00D0
++#define REG_BIST_RPT				0x00D4
++#define REG_BIST_ROM_RPT			0x00D8
++#define REG_USB_SIE_INTF			0x00E0
++#define REG_PCIE_MIO_INTF			0x00E4
++#define REG_PCIE_MIO_INTD			0x00E8
++#define REG_HPON_FSM				0x00EC
++#define REG_SYS_CFG					0x00F0
++#define REG_GPIO_OUTSTS			0x00F4	// For RTL8723 only.
++
++//-----------------------------------------------------
++//
++//	0x0100h ~ 0x01FFh	MACTOP General Configuration
++//
++//-----------------------------------------------------
++#define REG_CR						0x0100
++#define REG_PBP						0x0104
++#define REG_TRXDMA_CTRL			0x010C
++#define REG_TRXFF_BNDY				0x0114
++#define REG_TRXFF_STATUS			0x0118
++#define REG_RXFF_PTR				0x011C
++#define REG_HIMR					0x0120
++#define REG_HISR					0x0124
++#define REG_HIMRE					0x0128
++#define REG_HISRE					0x012C
++#define REG_CPWM					0x012F
++#define REG_FWIMR					0x0130
++#define REG_FWISR					0x0134
++#define REG_PKTBUF_DBG_CTRL		0x0140
++#define REG_PKTBUF_DBG_DATA_L		0x0144
++#define REG_PKTBUF_DBG_DATA_H	0x0148
++
++#define REG_TC0_CTRL				0x0150
++#define REG_TC1_CTRL				0x0154
++#define REG_TC2_CTRL				0x0158
++#define REG_TC3_CTRL				0x015C
++#define REG_TC4_CTRL				0x0160
++#define REG_TCUNIT_BASE			0x0164
++#define REG_MBIST_START			0x0174
++#define REG_MBIST_DONE				0x0178
++#define REG_MBIST_FAIL				0x017C
++#define REG_C2HEVT_MSG_NORMAL	0x01A0
++#define REG_C2HEVT_CLEAR			0x01AF
++#define REG_C2HEVT_MSG_TEST		0x01B8
++#define REG_MCUTST_1				0x01c0
++#define REG_FMETHR					0x01C8
++#define REG_HMETFR					0x01CC
++#define REG_HMEBOX_0				0x01D0
++#define REG_HMEBOX_1				0x01D4
++#define REG_HMEBOX_2				0x01D8
++#define REG_HMEBOX_3				0x01DC
++
++#define REG_LLT_INIT				0x01E0
++#define REG_BB_ACCEESS_CTRL		0x01E8
++#define REG_BB_ACCESS_DATA		0x01EC
++
++
++//-----------------------------------------------------
++//
++//	0x0200h ~ 0x027Fh	TXDMA Configuration
++//
++//-----------------------------------------------------
++#define REG_RQPN					0x0200
++#define REG_FIFOPAGE				0x0204
++#define REG_TDECTRL					0x0208
++#define REG_TXDMA_OFFSET_CHK		0x020C
++#define REG_TXDMA_STATUS			0x0210
++#define REG_RQPN_NPQ				0x0214
++
++//-----------------------------------------------------
++//
++//	0x0280h ~ 0x02FFh	RXDMA Configuration
++//
++//-----------------------------------------------------
++#define REG_RXDMA_AGG_PG_TH		0x0280
++#define REG_RXPKT_NUM				0x0284
++#define REG_RXDMA_STATUS			0x0288
++
++
++//-----------------------------------------------------
++//
++//	0x0300h ~ 0x03FFh	PCIe
++//
++//-----------------------------------------------------
++#define	REG_PCIE_CTRL_REG			0x0300
++#define	REG_INT_MIG				0x0304	// Interrupt Migration 
++#define	REG_BCNQ_DESA				0x0308	// TX Beacon Descriptor Address
++#define	REG_HQ_DESA				0x0310	// TX High Queue Descriptor Address
++#define	REG_MGQ_DESA				0x0318	// TX Manage Queue Descriptor Address
++#define	REG_VOQ_DESA				0x0320	// TX VO Queue Descriptor Address
++#define	REG_VIQ_DESA				0x0328	// TX VI Queue Descriptor Address
++#define	REG_BEQ_DESA				0x0330	// TX BE Queue Descriptor Address
++#define	REG_BKQ_DESA				0x0338	// TX BK Queue Descriptor Address
++#define	REG_RX_DESA				0x0340	// RX Queue	Descriptor Address
++#define	REG_DBI					0x0348	// Backdoor REG for Access Configuration
++#define	REG_MDIO					0x0354	// MDIO for Access PCIE PHY
++#define	REG_DBG_SEL				0x0360	// Debug Selection Register
++#define	REG_PCIE_HRPWM			0x0361	//PCIe RPWM
++#define	REG_PCIE_HCPWM			0x0363	//PCIe CPWM
++#define	REG_UART_CTRL				0x0364	// UART	Control
++#define	REG_UART_TX_DESA			0x0370	// UART TX Descriptor Address
++#define	REG_UART_RX_DESA			0x0378	// UART Rx Descriptor Address
++
++
++// spec version 11
++//-----------------------------------------------------
++//
++//	0x0400h ~ 0x047Fh	Protocol Configuration
++//
++//-----------------------------------------------------
++#define REG_VOQ_INFORMATION			0x0400
++#define REG_VIQ_INFORMATION			0x0404
++#define REG_BEQ_INFORMATION			0x0408
++#define REG_BKQ_INFORMATION			0x040C
++#define REG_MGQ_INFORMATION			0x0410
++#define REG_HGQ_INFORMATION			0x0414
++#define REG_BCNQ_INFORMATION			0x0418
++
++
++#define REG_CPU_MGQ_INFORMATION		0x041C
++#define REG_FWHW_TXQ_CTRL				0x0420
++#define REG_HWSEQ_CTRL					0x0423
++#define REG_TXPKTBUF_BCNQ_BDNY		0x0424
++#define REG_TXPKTBUF_MGQ_BDNY		0x0425
++#define REG_LIFETIME_EN				0x0426
++#define REG_MULTI_BCNQ_OFFSET			0x0427
++#define REG_SPEC_SIFS					0x0428
++#define REG_RL							0x042A
++#define REG_DARFRC						0x0430
++#define REG_RARFRC						0x0438
++#define REG_RRSR						0x0440
++#define REG_ARFR0						0x0444
++#define REG_ARFR1						0x0448
++#define REG_ARFR2						0x044C
++#define REG_ARFR3						0x0450
++#define REG_AGGLEN_LMT					0x0458
++#define REG_AMPDU_MIN_SPACE			0x045C
++#define REG_TXPKTBUF_WMAC_LBK_BF_HD	0x045D
++#define REG_FAST_EDCA_CTRL				0x0460
++#define REG_RD_RESP_PKT_TH				0x0463
++#define REG_INIRTS_RATE_SEL			0x0480
++#define REG_INIDATA_RATE_SEL			0x0484
++
++//#define REG_FW_TSF_SYNC_CNT				0x04A0
++#define REG_FW_RESET_TSF_CNT_1				0x05FC
++#define REG_FW_RESET_TSF_CNT_0				0x05FD
++#define REG_FW_BCN_DIS_CNT				0x05FE
++
++#define REG_POWER_STATUS				0x04A4
++#define REG_POWER_STAGE1				0x04B4
++#define REG_POWER_STAGE2				0x04B8
++#define REG_PKT_VO_VI_LIFE_TIME		0x04C0
++#define REG_PKT_BE_BK_LIFE_TIME		0x04C2
++#define REG_STBC_SETTING				0x04C4
++#define REG_PROT_MODE_CTRL			0x04C8
++#define REG_MAX_AGGR_NUM				0x04CA
++#define REG_RTS_MAX_AGGR_NUM			0x04CB
++#define REG_BAR_MODE_CTRL				0x04CC
++#define REG_RA_TRY_RATE_AGG_LMT		0x04CF
++#define REG_NQOS_SEQ					0x04DC
++#define REG_QOS_SEQ					0x04DE
++#define REG_NEED_CPU_HANDLE			0x04E0
++#define REG_PKT_LOSE_RPT				0x04E1
++#define REG_PTCL_ERR_STATUS			0x04E2
++#define REG_DUMMY						0x04FC
++
++
++
++//-----------------------------------------------------
++//
++//	0x0500h ~ 0x05FFh	EDCA Configuration
++//
++//-----------------------------------------------------
++#define REG_EDCA_VO_PARAM			0x0500
++#define REG_EDCA_VI_PARAM			0x0504
++#define REG_EDCA_BE_PARAM			0x0508
++#define REG_EDCA_BK_PARAM			0x050C
++#define REG_BCNTCFG					0x0510
++#define REG_PIFS						0x0512
++#define REG_RDG_PIFS				0x0513
++#define REG_SIFS_CCK				0x0514
++#define REG_SIFS_OFDM				0x0516
++#define REG_SIFS_CTX				0x0514
++#define REG_SIFS_TRX				0x0516
++#define REG_TSFTR_SYN_OFFSET		0x0518
++#define REG_AGGR_BREAK_TIME		0x051A
++#define REG_SLOT					0x051B
++#define REG_TX_PTCL_CTRL			0x0520
++#define REG_TXPAUSE					0x0522
++#define REG_DIS_TXREQ_CLR			0x0523
++#define REG_RD_CTRL					0x0524
++#define REG_TBTT_PROHIBIT			0x0540
++#define REG_RD_NAV_NXT				0x0544
++#define REG_NAV_PROT_LEN			0x0546
++#define REG_BCN_CTRL				0x0550
++#define REG_BCN_CTRL_1				0x0551
++#define REG_MBID_NUM				0x0552
++#define REG_DUAL_TSF_RST			0x0553
++#define REG_BCN_INTERVAL			0x0554	// The same as REG_MBSSID_BCN_SPACE
++#define REG_MBSSID_BCN_SPACE		0x0554
++#define REG_DRVERLYINT				0x0558
++#define REG_BCNDMATIM				0x0559
++#define REG_ATIMWND				0x055A
++#define REG_BCN_MAX_ERR			0x055D
++#define REG_RXTSF_OFFSET_CCK		0x055E
++#define REG_RXTSF_OFFSET_OFDM		0x055F	
++#define REG_TSFTR					0x0560
++#define REG_TSFTR1					0x0568
++#define REG_INIT_TSFTR				0x0564
++#define REG_ATIMWND_1				0x0570
++#define REG_PSTIMER					0x0580
++#define REG_TIMER0					0x0584
++#define REG_TIMER1					0x0588
++#define REG_ACMHWCTRL				0x05C0
++#define REG_ACMRSTCTRL				0x05C1
++#define REG_ACMAVG					0x05C2
++#define REG_VO_ADMTIME				0x05C4
++#define REG_VI_ADMTIME				0x05C6
++#define REG_BE_ADMTIME				0x05C8
++#define REG_EDCA_RANDOM_GEN		0x05CC
++#define REG_SCH_TXCMD				0x05D0
++
++
++//-----------------------------------------------------
++//
++//	0x0600h ~ 0x07FFh	WMAC Configuration
++//
++//-----------------------------------------------------
++#define REG_APSD_CTRL				0x0600
++#define REG_BWOPMODE				0x0603
++#define REG_TCR						0x0604
++#define REG_RCR						0x0608
++#define REG_RX_PKT_LIMIT			0x060C
++#define REG_RX_DLK_TIME			0x060D
++#define REG_RX_DRVINFO_SZ			0x060F
++
++#define REG_MACID					0x0610
++#define REG_BSSID					0x0618
++#define REG_MAR						0x0620
++#define REG_MBIDCAMCFG				0x0628
++
++#define REG_USTIME_EDCA			0x0638
++#define REG_MAC_SPEC_SIFS			0x063A
++
++// 20100719 Joseph: Hardware register definition change. (HW datasheet v54)
++#define REG_R2T_SIFS				0x063C	// [15:8]SIFS_R2T_OFDM, [7:0]SIFS_R2T_CCK
++#define REG_T2T_SIFS				0x063E	// [15:8]SIFS_T2T_OFDM, [7:0]SIFS_T2T_CCK
++#define REG_ACKTO					0x0640
++#define REG_CTS2TO					0x0641
++#define REG_EIFS						0x0642
++
++//WMA, BA, CCX
++#define REG_NAV_CTRL				0x0650
++#define REG_BACAMCMD				0x0654
++#define REG_BACAMCONTENT			0x0658
++#define REG_LBDLY					0x0660
++#define REG_FWDLY					0x0661
++#define REG_RXERR_RPT				0x0664
++#define REG_WMAC_TRXPTCL_CTL		0x0668
++
++
++// Security
++#define REG_CAMCMD					0x0670
++#define REG_CAMWRITE				0x0674
++#define REG_CAMREAD				0x0678
++#define REG_CAMDBG					0x067C
++#define REG_SECCFG					0x0680
++
++// Power
++#define REG_WOW_CTRL				0x0690
++#define REG_PSSTATUS				0x0691
++#define REG_PS_RX_INFO				0x0692
++#define REG_LPNAV_CTRL				0x0694
++#define REG_WKFMCAM_CMD			0x0698
++#define REG_WKFMCAM_RWD			0x069C
++#define REG_RXFLTMAP0				0x06A0
++#define REG_RXFLTMAP1				0x06A2
++#define REG_RXFLTMAP2				0x06A4
++#define REG_BCN_PSR_RPT			0x06A8
++#define REG_CALB32K_CTRL			0x06AC
++#define REG_PKT_MON_CTRL			0x06B4
++#define REG_BT_COEX_TABLE			0x06C0
++#define REG_WMAC_RESP_TXINFO		0x06D8
++
++#define REG_MACID1					0x0700
++#define REG_BSSID1					0x0708
++
++
++//-----------------------------------------------------
++//
++//	0xFE00h ~ 0xFE55h	USB Configuration
++//
++//-----------------------------------------------------
++#define REG_USB_INFO				0xFE17
++#define REG_USB_SPECIAL_OPTION	0xFE55
++#define REG_USB_DMA_AGG_TO		0xFE5B
++#define REG_USB_AGG_TO				0xFE5C
++#define REG_USB_AGG_TH				0xFE5D
++
++// For test chip
++#define REG_TEST_USB_TXQS			0xFE48
++#define REG_TEST_SIE_VID			0xFE60		// 0xFE60~0xFE61
++#define REG_TEST_SIE_PID			0xFE62		// 0xFE62~0xFE63
++#define REG_TEST_SIE_OPTIONAL		0xFE64
++#define REG_TEST_SIE_CHIRP_K		0xFE65
++#define REG_TEST_SIE_PHY			0xFE66		// 0xFE66~0xFE6B
++#define REG_TEST_SIE_MAC_ADDR		0xFE70		// 0xFE70~0xFE75
++#define REG_TEST_SIE_STRING		0xFE80		// 0xFE80~0xFEB9
++
++
++// For normal chip
++#define REG_NORMAL_SIE_VID			0xFE60		// 0xFE60~0xFE61
++#define REG_NORMAL_SIE_PID			0xFE62		// 0xFE62~0xFE63
++#define REG_NORMAL_SIE_OPTIONAL	0xFE64
++#define REG_NORMAL_SIE_EP			0xFE65		// 0xFE65~0xFE67
++#define REG_NORMAL_SIE_PHY		0xFE68		// 0xFE68~0xFE6B
++#define REG_NORMAL_SIE_OPTIONAL2	0xFE6C
++#define REG_NORMAL_SIE_GPS_EP		0xFE6D		// 0xFE6D, for RTL8723 only.
++#define REG_NORMAL_SIE_MAC_ADDR	0xFE70		// 0xFE70~0xFE75
++#define REG_NORMAL_SIE_STRING		0xFE80		// 0xFE80~0xFEDF
++
++
++//-----------------------------------------------------
++//
++//	Redifine 8192C register definition for compatibility
++//
++//-----------------------------------------------------
++
++// TODO: use these definition when using REG_xxx naming rule.
++// NOTE: DO NOT Remove these definition. Use later.
++
++#define	SYS_ISO_CTRL				REG_SYS_ISO_CTRL	// System Isolation Interface Control.
++#define	SYS_FUNC_EN				REG_SYS_FUNC_EN		// System Function Enable.
++#define	SYS_CLK						REG_SYS_CLKR
++#define	CR9346						REG_9346CR			// 93C46/93C56 Command Register.
++#define	EFUSE_CTRL					REG_EFUSE_CTRL		// E-Fuse Control.
++#define	EFUSE_TEST					REG_EFUSE_TEST		// E-Fuse Test.
++#define	MSR							(REG_CR + 2)		// Media Status register
++#define	ISR							REG_HISR
++#define	TSFR						REG_TSFTR			// Timing Sync Function Timer Register.
++
++#define	MACIDR0					REG_MACID			// MAC ID Register, Offset 0x0050-0x0053
++#define	MACIDR4					(REG_MACID + 4)		// MAC ID Register, Offset 0x0054-0x0055
++
++#define	PBP							REG_PBP
++
++// Redifine MACID register, to compatible prior ICs.
++#define	IDR0						MACIDR0
++#define	IDR4						MACIDR4
++
++
++//
++// 9. Security Control Registers	(Offset: )
++//
++#define	RWCAM						REG_CAMCMD		//IN 8190 Data Sheet is called CAMcmd
++#define	WCAMI						REG_CAMWRITE	// Software write CAM input content
++#define	RCAMO						REG_CAMREAD		// Software read/write CAM config
++#define	CAMDBG						REG_CAMDBG
++#define	SECR						REG_SECCFG		//Security Configuration Register
++
++// Unused register
++#define	UnusedRegister				0x1BF
++#define	DCAM						UnusedRegister
++#define	PSR							UnusedRegister
++#define	BBAddr						UnusedRegister
++#define	PhyDataR					UnusedRegister
++
++#define	InvalidBBRFValue			0x12345678
++
++// Min Spacing related settings.
++#define	MAX_MSS_DENSITY_2T 			0x13
++#define	MAX_MSS_DENSITY_1T 			0x0A
++
++//----------------------------------------------------------------------------
++//       8192C Cmd9346CR bits					(Offset 0xA, 16bit)
++//----------------------------------------------------------------------------
++#define	CmdEEPROM_En				BIT5	 // EEPROM enable when set 1
++#define	CmdEERPOMSEL				BIT4 	// System EEPROM select, 0: boot from E-FUSE, 1: The EEPROM used is 9346
++#define	Cmd9346CR_9356SEL			BIT4
++#define	AutoLoadEEPROM			(CmdEEPROM_En|CmdEERPOMSEL)
++#define	AutoLoadEFUSE				CmdEEPROM_En
++
++//----------------------------------------------------------------------------
++//       8192C GPIO MUX Configuration Register (offset 0x40, 4 byte)
++//----------------------------------------------------------------------------
++#define	GPIOSEL_GPIO				0
++#define	GPIOSEL_ENBT				BIT5
++
++//----------------------------------------------------------------------------
++//       8192C GPIO PIN Control Register (offset 0x44, 4 byte)
++//----------------------------------------------------------------------------
++#define	GPIO_IN						REG_GPIO_PIN_CTRL		// GPIO pins input value
++#define	GPIO_OUT					(REG_GPIO_PIN_CTRL+1)	// GPIO pins output value
++#define	GPIO_IO_SEL				(REG_GPIO_PIN_CTRL+2)	// GPIO pins output enable when a bit is set to "1"; otherwise, input is configured.
++#define	GPIO_MOD					(REG_GPIO_PIN_CTRL+3)
++
++//----------------------------------------------------------------------------
++//       8192C (MSR) Media Status Register	(Offset 0x4C, 8 bits)  
++//----------------------------------------------------------------------------
++/*
++Network Type
++00: No link
++01: Link in ad hoc network
++10: Link in infrastructure network
++11: AP mode
++Default: 00b.
++*/
++#define	MSR_NOLINK					0x00
++#define	MSR_ADHOC					0x01
++#define	MSR_INFRA					0x02
++#define	MSR_AP						0x03
++
++//
++// 6. Adaptive Control Registers  (Offset: 0x0160 - 0x01CF)
++//
++//----------------------------------------------------------------------------
++//       8192C Response Rate Set Register	(offset 0x181, 24bits)
++//----------------------------------------------------------------------------
++#define	RRSR_RSC_OFFSET			21
++#define	RRSR_SHORT_OFFSET			23
++#define	RRSR_RSC_BW_40M			0x600000
++#define	RRSR_RSC_UPSUBCHNL		0x400000
++#define	RRSR_RSC_LOWSUBCHNL		0x200000
++#define	RRSR_SHORT					0x800000
++#define	RRSR_1M					BIT0
++#define	RRSR_2M					BIT1 
++#define	RRSR_5_5M					BIT2 
++#define	RRSR_11M					BIT3 
++#define	RRSR_6M					BIT4 
++#define	RRSR_9M					BIT5 
++#define	RRSR_12M					BIT6 
++#define	RRSR_18M					BIT7 
++#define	RRSR_24M					BIT8 
++#define	RRSR_36M					BIT9 
++#define	RRSR_48M					BIT10 
++#define	RRSR_54M					BIT11
++#define	RRSR_MCS0					BIT12
++#define	RRSR_MCS1					BIT13
++#define	RRSR_MCS2					BIT14
++#define	RRSR_MCS3					BIT15
++#define	RRSR_MCS4					BIT16
++#define	RRSR_MCS5					BIT17
++#define	RRSR_MCS6					BIT18
++#define	RRSR_MCS7					BIT19
++#define	BRSR_AckShortPmb			BIT23	
++// CCK ACK: use Short Preamble or not
++
++
++//----------------------------------------------------------------------------
++//       8192C Rate Definition
++//----------------------------------------------------------------------------
++//CCK
++#define	RATR_1M					0x00000001
++#define	RATR_2M					0x00000002
++#define	RATR_55M					0x00000004
++#define	RATR_11M					0x00000008
++//OFDM 		
++#define	RATR_6M					0x00000010
++#define	RATR_9M					0x00000020
++#define	RATR_12M					0x00000040
++#define	RATR_18M					0x00000080
++#define	RATR_24M					0x00000100
++#define	RATR_36M					0x00000200
++#define	RATR_48M					0x00000400
++#define	RATR_54M					0x00000800
++//MCS 1 Spatial Stream	
++#define	RATR_MCS0					0x00001000
++#define	RATR_MCS1					0x00002000
++#define	RATR_MCS2					0x00004000
++#define	RATR_MCS3					0x00008000
++#define	RATR_MCS4					0x00010000
++#define	RATR_MCS5					0x00020000
++#define	RATR_MCS6					0x00040000
++#define	RATR_MCS7					0x00080000
++//MCS 2 Spatial Stream
++#define	RATR_MCS8					0x00100000
++#define	RATR_MCS9					0x00200000
++#define	RATR_MCS10					0x00400000
++#define	RATR_MCS11					0x00800000
++#define	RATR_MCS12					0x01000000
++#define	RATR_MCS13					0x02000000
++#define	RATR_MCS14					0x04000000
++#define	RATR_MCS15					0x08000000
++
++//----------------------------------------------------------------------------
++//       8192C BW_OPMODE bits					(Offset 0x203, 8bit)
++//----------------------------------------------------------------------------
++#define	BW_OPMODE_20MHZ			BIT2
++#define	BW_OPMODE_5G				BIT1
++#define	BW_OPMODE_11J				BIT0
++
++
++//----------------------------------------------------------------------------
++//       8192C CAM Config Setting (offset 0x250, 1 byte)
++//----------------------------------------------------------------------------
++#define	CAM_VALID					BIT15
++#define	CAM_NOTVALID				0x0000
++#define	CAM_USEDK					BIT5
++
++#define	CAM_CONTENT_COUNT 		8
++       	       		
++#define	CAM_NONE					0x0
++#define	CAM_WEP40					0x01
++#define	CAM_TKIP					0x02
++#define	CAM_AES					0x04
++#define	CAM_WEP104				0x05
++        		
++#define	TOTAL_CAM_ENTRY			32
++#define	HALF_CAM_ENTRY			16	
++       		
++#define	CAM_CONFIG_USEDK			_TRUE
++#define	CAM_CONFIG_NO_USEDK		_FALSE
++       		
++#define	CAM_WRITE					BIT16
++#define	CAM_READ					0x00000000
++#define	CAM_POLLINIG				BIT31
++
++#define	SCR_UseDK					0x01
++#define	SCR_TxSecEnable			0x02
++#define	SCR_RxSecEnable			0x04
++
++
++//
++// 12. Host Interrupt Status Registers	 (Offset: 0x0300 - 0x030F)
++//
++//----------------------------------------------------------------------------
++//       8190 IMR/ISR bits						(offset 0xfd,  8bits)
++//----------------------------------------------------------------------------
++#define	IMR8190_DISABLED				0x0
++// IMR DW0 Bit 0-31
++#define	IMR_BCNDMAINT6				BIT31		// Beacon DMA Interrupt 6
++#define	IMR_BCNDMAINT5				BIT30		// Beacon DMA Interrupt 5
++#define	IMR_BCNDMAINT4				BIT29		// Beacon DMA Interrupt 4
++#define	IMR_BCNDMAINT3				BIT28		// Beacon DMA Interrupt 3
++#define	IMR_BCNDMAINT2				BIT27		// Beacon DMA Interrupt 2
++#define	IMR_BCNDMAINT1				BIT26		// Beacon DMA Interrupt 1
++#define	IMR_BCNDOK8					BIT25		// Beacon Queue DMA OK Interrup 8
++#define	IMR_BCNDOK7					BIT24		// Beacon Queue DMA OK Interrup 7
++#define	IMR_BCNDOK6					BIT23		// Beacon Queue DMA OK Interrup 6
++#define	IMR_BCNDOK5					BIT22		// Beacon Queue DMA OK Interrup 5
++#define	IMR_BCNDOK4					BIT21		// Beacon Queue DMA OK Interrup 4
++#define	IMR_BCNDOK3					BIT20		// Beacon Queue DMA OK Interrup 3
++#define	IMR_BCNDOK2					BIT19		// Beacon Queue DMA OK Interrup 2
++#define	IMR_BCNDOK1					BIT18		// Beacon Queue DMA OK Interrup 1
++#define	IMR_TIMEOUT2					BIT17		// Timeout interrupt 2
++#define	IMR_TIMEOUT1					BIT16		// Timeout interrupt 1
++#define	IMR_TXFOVW					BIT15		// Transmit FIFO Overflow
++#define	IMR_PSTIMEOUT					BIT14		// Power save time out interrupt 
++#define	IMR_BcnInt						BIT13		// Beacon DMA Interrupt 0
++#define	IMR_RXFOVW					BIT12		// Receive FIFO Overflow
++#define	IMR_RDU						BIT11		// Receive Descriptor Unavailable
++#define	IMR_ATIMEND					BIT10		// For 92C,ATIM Window End Interrupt
++#define	IMR_BDOK						BIT9		// Beacon Queue DMA OK Interrup
++#define	IMR_HIGHDOK					BIT8		// High Queue DMA OK Interrupt
++#define	IMR_TBDOK						BIT7		// Transmit Beacon OK interrup
++#define	IMR_MGNTDOK					BIT6		// Management Queue DMA OK Interrupt
++#define	IMR_TBDER						BIT5		// For 92C,Transmit Beacon Error Interrupt
++#define	IMR_BKDOK						BIT4		// AC_BK DMA OK Interrupt
++#define	IMR_BEDOK						BIT3		// AC_BE DMA OK Interrupt
++#define	IMR_VIDOK						BIT2		// AC_VI DMA OK Interrupt
++#define	IMR_VODOK						BIT1		// AC_VO DMA Interrupt
++#define	IMR_ROK						BIT0		// Receive DMA OK Interrupt
++
++#define	IMR_RX_MASK		(IMR_ROK|IMR_RDU|IMR_RXFOVW)
++#define	IMR_TX_MASK		(IMR_VODOK|IMR_VIDOK|IMR_BEDOK|IMR_BKDOK|IMR_MGNTDOK|IMR_HIGHDOK|IMR_BDOK)
++
++// 13. Host Interrupt Status Extension Register	 (Offset: 0x012C-012Eh)
++#define	IMR_BcnInt_E				BIT12
++#define	IMR_TXERR				BIT11
++#define	IMR_RXERR				BIT10
++#define	IMR_C2HCMD			BIT9
++#define	IMR_CPWM				BIT8
++//RSVD [2-7]
++#define	IMR_OCPINT				BIT1
++#define	IMR_WLANOFF			BIT0
++
++
++
++//----------------------------------------------------------------------------
++// 8192C EFUSE
++//----------------------------------------------------------------------------
++#define	HWSET_MAX_SIZE				128
++
++
++//----------------------------------------------------------------------------
++//       8192C EEPROM/EFUSE share register definition.
++//----------------------------------------------------------------------------
++
++//
++// Default Value for EEPROM or EFUSE!!!
++//
++#define EEPROM_Default_TSSI					0x0
++#define EEPROM_Default_TxPowerDiff			0x0
++#define EEPROM_Default_CrystalCap			0x5
++#define EEPROM_Default_BoardType			0x02 // Default: 2X2, RTL8192CE(QFPN68)
++#define EEPROM_Default_TxPower				0x1010
++#define EEPROM_Default_HT2T_TxPwr			0x10
++
++#define EEPROM_Default_LegacyHTTxPowerDiff	0x3
++#define EEPROM_Default_ThermalMeter			0x12
++
++#define EEPROM_Default_AntTxPowerDiff		0x0
++#define EEPROM_Default_TxPwDiff_CrystalCap	0x5
++#define EEPROM_Default_TxPowerLevel		0x22
++#define EEPROM_Default_HT40_2SDiff			0x0
++#define EEPROM_Default_HT20_Diff			2	// HT20<->40 default Tx Power Index Difference
++#define EEPROM_Default_LegacyHTTxPowerDiff	0x3
++#define EEPROM_Default_HT40_PwrMaxOffset	0
++#define EEPROM_Default_HT20_PwrMaxOffset	0
++
++// For debug
++#define EEPROM_Default_PID					0x1234
++#define EEPROM_Default_VID					0x5678
++#define EEPROM_Default_CustomerID			0xAB
++#define EEPROM_Default_SubCustomerID		0xCD
++#define EEPROM_Default_Version				0
++
++#define EEPROM_CHANNEL_PLAN_FCC				0x0
++#define EEPROM_CHANNEL_PLAN_IC				0x1
++#define EEPROM_CHANNEL_PLAN_ETSI				0x2
++#define EEPROM_CHANNEL_PLAN_SPAIN			0x3
++#define EEPROM_CHANNEL_PLAN_FRANCE			0x4
++#define EEPROM_CHANNEL_PLAN_MKK				0x5
++#define EEPROM_CHANNEL_PLAN_MKK1				0x6
++#define EEPROM_CHANNEL_PLAN_ISRAEL			0x7
++#define EEPROM_CHANNEL_PLAN_TELEC			0x8
++#define EEPROM_CHANNEL_PLAN_GLOBAL_DOMAIN	0x9
++#define EEPROM_CHANNEL_PLAN_WORLD_WIDE_13	0xA
++#define EEPROM_CHANNEL_PLAN_NCC				0xB
++#define EEPROM_USB_OPTIONAL1					0xE
++#define EEPROM_CHANNEL_PLAN_BY_HW_MASK		0x80
++
++
++#define EEPROM_CID_DEFAULT				0x0
++#define EEPROM_CID_TOSHIBA					0x4
++#define EEPROM_CID_CCX						0x10 // CCX test. By Bruce, 2009-02-25.
++#define EEPROM_CID_QMI						0x0D
++#define EEPROM_CID_WHQL 					0xFE // added by chiyoko for dtm, 20090108
++
++
++#define	RTL_EEPROM_ID						0x8129
++
++
++#ifdef CONFIG_PCI_HCI
++#define RT_IBSS_INT_MASKS				(IMR_BcnInt | IMR_TBDOK | IMR_TBDER)
++#define RT_AC_INT_MASKS				(IMR_VIDOK | IMR_VODOK | IMR_BEDOK|IMR_BKDOK)
++#define RT_BSS_INT_MASKS				(RT_IBSS_INT_MASKS)
++
++//
++// Interface type.
++//
++typedef	enum _INTERFACE_SELECT_8192CPCIe{
++	INTF_SEL0_SOLO_MINICARD			= 0,		// WiFi solo-mCard
++	INTF_SEL1_BT_COMBO_MINICARD		= 1,		// WiFi+BT combo-mCard
++	INTF_SEL2_PCIe					= 2,		// PCIe Card
++} INTERFACE_SELECT_8192CPCIe, *PINTERFACE_SELECT_8192CPCIe;
++
++#define RTL8190_EEPROM_ID					0x8129	// 0-1
++#define EEPROM_HPON						0x02 // LDO settings.2-5
++#define EEPROM_CLK							0x06 // Clock settings.6-7
++#define EEPROM_TESTR						0x08 // SE Test mode.8
++
++#define EEPROM_VID							0x0A // SE Vendor ID.A-B
++#define EEPROM_DID							0x0C // SE Device ID. C-D
++#define EEPROM_SVID							0x0E // SE Vendor ID.E-F
++#define EEPROM_SMID						0x10 // SE PCI Subsystem ID. 10-11
++
++#define EEPROM_MAC_ADDR					0x16 // SEMAC Address. 12-17
++
++//----------------------------------------------------------------
++// Ziv - Let PCIe and USB use the same define. Modify address mapping later.
++#define EEPROM_CCK_TX_PWR_INX					0x5A
++#define EEPROM_HT40_1S_TX_PWR_INX			0x60
++#define EEPROM_HT40_2S_TX_PWR_INX_DIFF		0x66
++#define EEPROM_HT20_TX_PWR_INX_DIFF			0x69
++#define EEPROM_OFDM_TX_PWR_INX_DIFF			0x6C
++#define EEPROM_HT40_MAX_PWR_OFFSET			0x6F
++#define EEPROM_HT20_MAX_PWR_OFFSET			0x72
++
++#define EEPROM_CHANNEL_PLAN 				0x75
++#define EEPROM_TSSI_A						0x76
++#define EEPROM_TSSI_B						0x77
++#define EEPROM_THERMAL_METER				0x78
++#define EEPROM_RF_OPT1						0x79
++#define EEPROM_RF_OPT2						0x7A
++#define EEPROM_RF_OPT3						0x7B
++#define EEPROM_RF_OPT4						0x7C
++#define EEPROM_VERSION						0x7E
++#define EEPROM_CUSTOMER_ID				0x7F
++
++#define EEPROM_NORMAL_BoardType			EEPROM_RF_OPT1	//[7:5]
++
++#endif 
++
++#ifdef CONFIG_USB_HCI
++
++//should be renamed and moved to another file
++typedef	enum _BOARD_TYPE_8192CUSB{
++	BOARD_USB_DONGLE 			= 0,		// USB dongle
++	BOARD_USB_High_PA 		= 1,		// USB dongle with high power PA
++	BOARD_MINICARD		  	= 2,		// Minicard
++	BOARD_USB_SOLO 		 	= 3,		// USB solo-Slim module
++	BOARD_USB_COMBO			= 4,		// USB Combo-Slim module
++} BOARD_TYPE_8192CUSB, *PBOARD_TYPE_8192CUSB;
++
++#define	SUPPORT_HW_RADIO_DETECT(pHalData)	(pHalData->BoardType == BOARD_MINICARD||\
++													pHalData->BoardType == BOARD_USB_SOLO||\
++													pHalData->BoardType == BOARD_USB_COMBO)
++
++//---------------------------------------------------------------
++// EEPROM address for Test chip
++//---------------------------------------------------------------
++#define EEPROM_TEST_USB_OPT						0x0E
++#define EEPROM_TEST_CHIRP_K						0x0F
++#define EEPROM_TEST_EP_SETTING					0x0E
++#define EEPROM_TEST_USB_PHY						0x10
++
++
++//---------------------------------------------------------------
++// EEPROM address for Normal chip
++//---------------------------------------------------------------
++#define EEPROM_NORMAL_USB_OPT					0x0E
++#define EEPROM_NORMAL_CHIRP_K						0x0E	// Changed
++#define EEPROM_NORMAL_EP_SETTING					0x0F	// Changed
++#define EEPROM_NORMAL_USB_PHY					0x12	// Changed
++
++
++// Test chip and normal chip common define
++//---------------------------------------------------------------
++// EEPROM address for both
++//---------------------------------------------------------------
++#define EEPROM_ID0								0x00
++#define EEPROM_ID1								0x01
++#define EEPROM_RTK_RSV1						0x02
++#define EEPROM_RTK_RSV2						0x03
++#define EEPROM_RTK_RSV3						0x04
++#define EEPROM_RTK_RSV4						0x05
++#define EEPROM_RTK_RSV5						0x06
++#define EEPROM_DBG_SEL							0x07
++#define EEPROM_RTK_RSV6						0x08
++#define EEPROM_VID								0x0A
++#define EEPROM_PID								0x0C
++
++#define EEPROM_MAC_ADDR						0x16
++#define EEPROM_STRING							0x1C
++#define EEPROM_SUBCUSTOMER_ID					0x59
++#define EEPROM_CCK_TX_PWR_INX					0x5A
++#define EEPROM_HT40_1S_TX_PWR_INX			0x60
++#define EEPROM_HT40_2S_TX_PWR_INX_DIFF		0x66
++#define EEPROM_HT20_TX_PWR_INX_DIFF			0x69
++#define EEPROM_OFDM_TX_PWR_INX_DIFF			0x6C
++#define EEPROM_HT40_MAX_PWR_OFFSET			0x6F
++#define EEPROM_HT20_MAX_PWR_OFFSET			0x72
++
++#define EEPROM_CHANNEL_PLAN					0x75
++#define EEPROM_TSSI_A							0x76
++#define EEPROM_TSSI_B							0x77
++#define EEPROM_THERMAL_METER					0x78
++#define EEPROM_RF_OPT1							0x79
++#define EEPROM_RF_OPT2							0x7A
++#define EEPROM_RF_OPT3							0x7B
++#define EEPROM_RF_OPT4							0x7C
++#define EEPROM_VERSION							0x7E
++#define EEPROM_CUSTOMER_ID					0x7F
++
++#define EEPROM_BoardType						0x54 //0x0: RTL8188SU, 0x1: RTL8191SU, 0x2: RTL8192SU, 0x3: RTL8191GU
++#define EEPROM_TxPwIndex						0x5C //0x5C-0x76, Tx Power index.
++#define EEPROM_PwDiff							0x67 // Difference of gain index between legacy and high throughput OFDM.
++
++#define EEPROM_TxPowerCCK						0x5A // CCK Tx Power
++
++// 2009/02/09 Cosa Add for SD3 requirement 
++#define EEPROM_TX_PWR_HT20_DIFF				0x6e// HT20 Tx Power Index Difference
++#define DEFAULT_HT20_TXPWR_DIFF				2	// HT20<->40 default Tx Power Index Difference
++#define EEPROM_TX_PWR_OFDM_DIFF				0x71// OFDM Tx Power Index Difference
++
++#define EEPROM_TxPWRGroup						0x73// Power diff for channel group
++#define EEPROM_Regulatory						0x79// Check if power safety is need
++
++#define EEPROM_BLUETOOTH_COEXIST				0x7E // 92cu, 0x7E[4]
++#define EEPROM_NORMAL_BoardType				EEPROM_RF_OPT1	//[7:5]
++#define BOARD_TYPE_NORMAL_MASK				0xE0
++#define BOARD_TYPE_TEST_MASK					0x0F
++#define EEPROM_EASY_REPLACEMENT				0x50//BIT0 1 for build-in module, 0 for external dongle
++//-------------------------------------------------------------
++//	EEPROM content definitions
++//-------------------------------------------------------------
++#define OS_LINK_SPEED							BIT(5)
++
++#define BOARD_TYPE_MASK						0xF
++
++#define BT_COEXISTENCE							BIT(4)
++#define BT_CO_SHIFT								4
++
++#define EP_NUMBER_MASK							0x30	//bit 4:5 0Eh
++#define EP_NUMBER_SHIFT						4
++
++
++#define USB_PHY_PARA_SIZE						5
++
++
++//-------------------------------------------------------------
++//	EEPROM default value definitions
++//-------------------------------------------------------------
++// Use 0xABCD instead of 0x8192 for debug
++#define EEPROM_DEF_ID_0						0xCD	// Byte 0x00
++#define EEPROM_DEF_ID_1						0xAB	// Byte 0x01
++
++#define EEPROM_DEF_RTK_RSV_A3					0x74	// Byte 0x03
++#define EEPROM_DEF_RTK_RSV_A4					0x6D	// Byte 0x04
++#define EEPROM_DEF_RTK_RSV_A8					0xFF	// Byte 0x08
++
++#define EEPROM_DEF_VID_0						0x0A	// Byte 0x0A
++#define EEPROM_DEF_VID_1						0x0B
++
++#define EEPROM_DEF_PID_0						0x92	// Byte 0x0C
++#define EEPROM_DEF_PID_1						0x81
++
++
++#define EEPROM_TEST_DEF_USB_OPT				0x80	// Byte 0x0E
++#define EEPROM_NORMAL_DEF_USB_OPT			0x00	// Byte 0x0E
++
++#define EEPROM_DEF_CHIRPK						0x15	// Byte 0x0F
++
++#define EEPROM_DEF_USB_PHY_0					0x85	// Byte 0x10
++#define EEPROM_DEF_USB_PHY_1					0x62	// Byte 0x11
++#define EEPROM_DEF_USB_PHY_2					0x9E	// Byte 0x12
++#define EEPROM_DEF_USB_PHY_3					0x06	// Byte 0x13
++
++#define EEPROM_DEF_TSSI_A						0x09	// Byte 0x78
++#define EEPROM_DEF_TSSI_B						0x09	// Byte 0x79
++
++
++#define EEPROM_DEF_THERMAL_METER				0x12	// Byte 0x7A
++
++#define RF_OPTION1					0x79// Check if power safety spec is need
++#define RF_OPTION2					0x7A
++#define RF_OPTION3					0x7B
++#define RF_OPTION4					0x7C
++
++
++#define	EEPROM_USB_SN							BIT(0)
++#define	EEPROM_USB_REMOTE_WAKEUP			BIT(1)
++#define	EEPROM_USB_DEVICE_PWR				BIT(2)
++#define	EEPROM_EP_NUMBER						(BIT(3)|BIT(4))
++
++#if 0
++#define	EEPROM_CHANNEL_PLAN_FCC					0x0
++#define	EEPROM_CHANNEL_PLAN_IC					0x1
++#define	EEPROM_CHANNEL_PLAN_ETSI				0x2
++#define	EEPROM_CHANNEL_PLAN_SPAIN				0x3
++#define	EEPROM_CHANNEL_PLAN_FRANCE				0x4
++#define	EEPROM_CHANNEL_PLAN_MKK					0x5
++#define	EEPROM_CHANNEL_PLAN_MKK1				0x6
++#define	EEPROM_CHANNEL_PLAN_ISRAEL				0x7
++#define	EEPROM_CHANNEL_PLAN_TELEC				0x8
++#define	EEPROM_CHANNEL_PLAN_GLOBAL_DOMAIN		0x9
++#define	EEPROM_CHANNEL_PLAN_WORLD_WIDE_13		0xA
++#define	EEPROM_CHANNEL_PLAN_BY_HW_MASK			0x80
++
++#define	EEPROM_CID_DEFAULT						0x0
++
++#define	EEPROM_CID_WHQL 						0xFE // added by chiyoko for dtm, 20090108
++
++
++#define	EEPROM_CID_CCX							0x10 // CCX test. By Bruce, 2009-02-25.
++#endif
++
++#endif
++
++
++/*===================================================================
++=====================================================================
++Here the register defines are for 92C. When the define is as same with 92C, 
++we will use the 92C's define for the consistency
++So the following defines for 92C is not entire!!!!!!
++=====================================================================
++=====================================================================*/
++/*
++Based on Datasheet V33---090401
++Register Summary
++Current IOREG MAP
++0x0000h ~ 0x00FFh   System Configuration (256 Bytes)
++0x0100h ~ 0x01FFh   MACTOP General Configuration (256 Bytes)
++0x0200h ~ 0x027Fh   TXDMA Configuration (128 Bytes)
++0x0280h ~ 0x02FFh   RXDMA Configuration (128 Bytes)
++0x0300h ~ 0x03FFh   PCIE EMAC Reserved Region (256 Bytes)
++0x0400h ~ 0x04FFh   Protocol Configuration (256 Bytes)
++0x0500h ~ 0x05FFh   EDCA Configuration (256 Bytes)
++0x0600h ~ 0x07FFh   WMAC Configuration (512 Bytes)
++0x2000h ~ 0x3FFFh   8051 FW Download Region (8196 Bytes)
++*/
++
++//----------------------------------------------------------------------------
++//       8192C (RCR) Receive Configuration Register	(Offset 0x608, 32 bits)
++//----------------------------------------------------------------------------
++#define	RCR_APPFCS					BIT31		//WMAC append FCS after pauload
++#define	RCR_APP_MIC				BIT30		//
++#define	RCR_APP_PHYSTS			BIT28//
++#define	RCR_APP_ICV				BIT29       //
++#define	RCR_APP_PHYST_RXFF		BIT28       //
++#define	RCR_APP_BA_SSN			BIT27		//Accept BA SSN
++#define	RCR_ENMBID					BIT24		//Enable Multiple BssId.
++#define	RCR_LSIGEN					BIT23
++#define	RCR_MFBEN					BIT22
++#define	RCR_HTC_LOC_CTRL			BIT14       //MFC<--HTC=1 MFC-->HTC=0
++#define	RCR_AMF					BIT13		//Accept management type frame
++#define	RCR_ACF					BIT12		//Accept control type frame
++#define	RCR_ADF					BIT11		//Accept data type frame
++#define	RCR_AICV					BIT9		//Accept ICV error packet
++#define	RCR_ACRC32					BIT8		//Accept CRC32 error packet 
++#define	RCR_CBSSID_BCN			BIT7		//Accept BSSID match packet (Rx beacon, probe rsp)
++#define	RCR_CBSSID_DATA			BIT6		//Accept BSSID match packet (Data)
++#define	RCR_CBSSID					RCR_CBSSID_DATA		//Accept BSSID match packet
++#define	RCR_APWRMGT				BIT5		//Accept power management packet
++#define	RCR_ADD3					BIT4		//Accept address 3 match packet
++#define	RCR_AB						BIT3		//Accept broadcast packet 
++#define	RCR_AM						BIT2		//Accept multicast packet 
++#define	RCR_APM					BIT1		//Accept physical match packet
++#define	RCR_AAP					BIT0		//Accept all unicast packet 
++#define	RCR_MXDMA_OFFSET			8
++#define	RCR_FIFO_OFFSET			13
++
++
++
++//============================================================================
++//       8192c USB specific Regsiter Offset and Content definition, 
++//       2009.08.18, added by vivi. for merge 92c and 92C into one driver
++//============================================================================
++//#define APS_FSMCO				0x0004  same with 92Ce
++#define RSV_CTRL					0x001C
++#define RD_CTRL					0x0524
++
++//-----------------------------------------------------
++//
++//	0xFE00h ~ 0xFE55h	USB Configuration
++//
++//-----------------------------------------------------
++#define REG_USB_INFO				0xFE17
++#define REG_USB_SPECIAL_OPTION	0xFE55
++#define REG_USB_DMA_AGG_TO		0xFE5B
++#define REG_USB_AGG_TO				0xFE5C
++#define REG_USB_AGG_TH				0xFE5D
++
++#define REG_USB_VID					0xFE60
++#define REG_USB_PID					0xFE62
++#define REG_USB_OPTIONAL			0xFE64
++#define REG_USB_CHIRP_K			0xFE65
++#define REG_USB_PHY					0xFE66
++#define REG_USB_MAC_ADDR			0xFE70
++
++#define REG_USB_HRPWM				0xFE58
++#define REG_USB_HCPWM				0xFE57
++
++#define	InvalidBBRFValue			0x12345678
++
++//============================================================================
++//       8192C Regsiter Bit and Content definition 
++//============================================================================
++//-----------------------------------------------------
++//
++//	0x0000h ~ 0x00FFh	System Configuration
++//
++//-----------------------------------------------------
++
++//2 SPS0_CTRL
++#define SW18_FPWM					BIT(3)
++
++
++//2 SYS_ISO_CTRL
++#define ISO_MD2PP					BIT(0)
++#define ISO_UA2USB					BIT(1)
++#define ISO_UD2CORE					BIT(2)
++#define ISO_PA2PCIE					BIT(3)
++#define ISO_PD2CORE					BIT(4)
++#define ISO_IP2MAC					BIT(5)
++#define ISO_DIOP						BIT(6)
++#define ISO_DIOE						BIT(7)
++#define ISO_EB2CORE					BIT(8)
++#define ISO_DIOR						BIT(9)
++
++#define PWC_EV25V					BIT(14)
++#define PWC_EV12V					BIT(15)
++
++
++//2 SYS_FUNC_EN
++#define FEN_BBRSTB					BIT(0)
++#define FEN_BB_GLB_RSTn			BIT(1)
++#define FEN_USBA					BIT(2)
++#define FEN_UPLL					BIT(3)
++#define FEN_USBD					BIT(4)
++#define FEN_DIO_PCIE				BIT(5)
++#define FEN_PCIEA					BIT(6)
++#define FEN_PPLL						BIT(7)
++#define FEN_PCIED					BIT(8)
++#define FEN_DIOE					BIT(9)
++#define FEN_CPUEN					BIT(10)
++#define FEN_DCORE					BIT(11)
++#define FEN_ELDR					BIT(12)
++#define FEN_DIO_RF					BIT(13)
++#define FEN_HWPDN					BIT(14)
++#define FEN_MREGEN					BIT(15)
++
++//2 APS_FSMCO
++#define PFM_LDALL					BIT(0)
++#define PFM_ALDN					BIT(1)
++#define PFM_LDKP					BIT(2)
++#define PFM_WOWL					BIT(3)
++#define EnPDN						BIT(4)
++#define PDN_PL						BIT(5)
++#define APFM_ONMAC					BIT(8)
++#define APFM_OFF					BIT(9)
++#define APFM_RSM					BIT(10)
++#define AFSM_HSUS					BIT(11)
++#define AFSM_PCIE					BIT(12)
++#define APDM_MAC					BIT(13)
++#define APDM_HOST					BIT(14)
++#define APDM_HPDN					BIT(15)
++#define RDY_MACON					BIT(16)
++#define SUS_HOST					BIT(17)
++#define ROP_ALD						BIT(20)
++#define ROP_PWR						BIT(21)
++#define ROP_SPS						BIT(22)
++#define SOP_MRST					BIT(25)
++#define SOP_FUSE					BIT(26)
++#define SOP_ABG						BIT(27)
++#define SOP_AMB						BIT(28)
++#define SOP_RCK						BIT(29)
++#define SOP_A8M						BIT(30)
++#define XOP_BTCK					BIT(31)
++
++//2 SYS_CLKR
++#define ANAD16V_EN					BIT(0)
++#define ANA8M						BIT(1)
++#define MACSLP						BIT(4)
++#define LOADER_CLK_EN				BIT(5)
++#define _80M_SSC_DIS				BIT(7)
++#define _80M_SSC_EN_HO				BIT(8)
++#define PHY_SSC_RSTB				BIT(9)
++#define SEC_CLK_EN					BIT(10)
++#define MAC_CLK_EN					BIT(11)
++#define SYS_CLK_EN					BIT(12)
++#define RING_CLK_EN					BIT(13)
++
++
++//2 9346CR
++
++
++#define 	EEDO					BIT(0)
++#define 	EEDI					BIT(1)
++#define 	EESK					BIT(2)
++#define 	EECS					BIT(3)
++//#define 	EERPROMSEL			BIT(4)
++//#define 	EEPROM_EN			BIT(5)
++#define		BOOT_FROM_EEPROM		BIT(4)
++#define		EEPROM_EN				BIT(5)
++#define 	EEM0					BIT(6)
++#define 	EEM1					BIT(7)
++
++
++//2 AFE_MISC
++#define AFE_BGEN					BIT(0)
++#define AFE_MBEN					BIT(1)
++#define MAC_ID_EN					BIT(7)
++
++
++//2 SPS0_CTRL
++
++
++//2 SPS_OCP_CFG
++
++
++//2 RSV_CTRL
++#define WLOCK_ALL					BIT(0)
++#define WLOCK_00					BIT(1)
++#define WLOCK_04					BIT(2)
++#define WLOCK_08					BIT(3)
++#define WLOCK_40					BIT(4)
++#define R_DIS_PRST_0				BIT(5)
++#define R_DIS_PRST_1				BIT(6)
++#define LOCK_ALL_EN					BIT(7)
++
++//2 RF_CTRL
++#define RF_EN						BIT(0)
++#define RF_RSTB						BIT(1)
++#define RF_SDMRSTB					BIT(2)
++
++
++
++//2 LDOA15_CTRL
++#define LDA15_EN					BIT(0)
++#define LDA15_STBY					BIT(1)
++#define LDA15_OBUF					BIT(2)
++#define LDA15_REG_VOS				BIT(3)
++#define _LDA15_VOADJ(x)				(((x) & 0x7) << 4)
++
++
++
++//2 LDOV12D_CTRL
++#define LDV12_EN					BIT(0)
++#define LDV12_SDBY					BIT(1)
++#define LPLDO_HSM					BIT(2)
++#define LPLDO_LSM_DIS				BIT(3)
++#define _LDV12_VADJ(x)				(((x) & 0xF) << 4)
++
++
++//2 AFE_XTAL_CTRL
++#define XTAL_EN						BIT(0)
++#define XTAL_BSEL					BIT(1)
++#define _XTAL_BOSC(x)				(((x) & 0x3) << 2)
++#define _XTAL_CADJ(x)				(((x) & 0xF) << 4)
++#define XTAL_GATE_USB				BIT(8)
++#define _XTAL_USB_DRV(x)			(((x) & 0x3) << 9)
++#define XTAL_GATE_AFE				BIT(11)
++#define _XTAL_AFE_DRV(x)			(((x) & 0x3) << 12)
++#define XTAL_RF_GATE				BIT(14)
++#define _XTAL_RF_DRV(x)				(((x) & 0x3) << 15)
++#define XTAL_GATE_DIG				BIT(17)
++#define _XTAL_DIG_DRV(x)			(((x) & 0x3) << 18)
++#define XTAL_BT_GATE				BIT(20)
++#define _XTAL_BT_DRV(x)				(((x) & 0x3) << 21)
++#define _XTAL_GPIO(x)				(((x) & 0x7) << 23)
++
++
++#define CKDLY_AFE					BIT(26)
++#define CKDLY_USB					BIT(27)
++#define CKDLY_DIG					BIT(28)
++#define CKDLY_BT					BIT(29)
++
++
++//2 AFE_PLL_CTRL
++#define APLL_EN						BIT(0)
++#define APLL_320_EN					BIT(1)
++#define APLL_FREF_SEL				BIT(2)
++#define APLL_EDGE_SEL				BIT(3)
++#define APLL_WDOGB					BIT(4)
++#define APLL_LPFEN					BIT(5)
++
++#define APLL_REF_CLK_13MHZ			0x1
++#define APLL_REF_CLK_19_2MHZ		0x2
++#define APLL_REF_CLK_20MHZ			0x3
++#define APLL_REF_CLK_25MHZ			0x4
++#define APLL_REF_CLK_26MHZ			0x5
++#define APLL_REF_CLK_38_4MHZ		0x6
++#define APLL_REF_CLK_40MHZ			0x7
++
++#define APLL_320EN					BIT(14)
++#define APLL_80EN					BIT(15)
++#define APLL_1MEN					BIT(24)
++
++
++//2 EFUSE_CTRL
++#define ALD_EN						BIT(18)
++#define EF_PD						BIT(19)
++#define EF_FLAG						BIT(31)
++
++//2 EFUSE_TEST (For RTL8723 partially)
++#define EF_TRPT						BIT(7)
++#define EF_CELL_SEL					(BIT(8)|BIT(9)) // 00: Wifi Efuse, 01: BT Efuse0, 10: BT Efuse1, 11: BT Efuse2
++#define LDOE25_EN					BIT(31)
++#define EFUSE_SEL(x)					(((x) & 0x3) << 8)
++#define EFUSE_SEL_MASK				0x300
++#define EFUSE_WIFI_SEL_0			0x0
++#define EFUSE_BT_SEL_0				0x1
++#define EFUSE_BT_SEL_1				0x2
++#define EFUSE_BT_SEL_2				0x3
++
++#define EFUSE_ACCESS_ON			0x69	// For RTL8723 only.
++#define EFUSE_ACCESS_OFF			0x00	// For RTL8723 only.
++
++//2 PWR_DATA 
++
++//2 CAL_TIMER
++
++//2 ACLK_MON
++#define RSM_EN						BIT(0)
++#define Timer_EN						BIT(4)
++
++
++//2 GPIO_MUXCFG
++#define TRSW0EN						BIT(2)
++#define TRSW1EN						BIT(3)
++#define EROM_EN						BIT(4)
++#define EnBT							BIT(5)
++#define EnUart						BIT(8)
++#define Uart_910						BIT(9)
++#define EnPMAC						BIT(10)
++#define SIC_SWRST					BIT(11)
++#define EnSIC						BIT(12)
++#define SIC_23						BIT(13)
++#define EnHDP						BIT(14)
++#define SIC_LBK						BIT(15)
++
++//2 GPIO_PIN_CTRL
++
++// GPIO BIT
++#define HAL_8192C_HW_GPIO_WPS_BIT		BIT(2)
++
++//2 GPIO_INTM
++
++//2 LEDCFG
++#define LED0PL 						BIT(4)  
++#define LED0DIS						BIT(7)
++#define LED1DIS						BIT(15)
++#define LED1PL 						BIT(12)
++
++#define  SECCAM_CLR					BIT(30)
++
++
++//2 FSIMR
++
++//2 FSISR
++
++
++//2 8051FWDL
++//2 MCUFWDL
++#define MCUFWDL_EN					BIT(0)
++#define MCUFWDL_RDY				BIT(1)
++#define FWDL_ChkSum_rpt			BIT(2)
++#define MACINI_RDY					BIT(3)
++#define BBINI_RDY					BIT(4)
++#define RFINI_RDY					BIT(5)
++#define WINTINI_RDY					BIT(6)
++#define CPRST						BIT(23)
++
++//2REG_HPON_FSM
++#define BOND92CE_1T2R_CFG			BIT(22)
++
++
++//2 REG_SYS_CFG
++#define XCLK_VLD						BIT(0)
++#define ACLK_VLD					BIT(1)
++#define UCLK_VLD					BIT(2)
++#define PCLK_VLD						BIT(3)
++#define PCIRSTB						BIT(4)
++#define V15_VLD						BIT(5)
++#define TRP_B15V_EN					BIT(7)
++#define SIC_IDLE						BIT(8)
++#define BD_MAC2						BIT(9)
++#define BD_MAC1						BIT(10)
++#define IC_MACPHY_MODE				BIT(11)
++#define CHIP_VER						(BIT(12)|BIT(13)|BIT(14)|BIT(15))
++#define BT_FUNC						BIT(16)
++#define VENDOR_ID					BIT(19)
++#define PAD_HWPD_IDN				BIT(22)
++#define TRP_VAUX_EN					BIT(23)
++#define TRP_BT_EN					BIT(24)
++#define BD_PKG_SEL					BIT(25)
++#define BD_HCI_SEL					BIT(26)
++#define TYPE_ID						BIT(27)
++
++#define CHIP_VER_RTL_MASK			0xF000	//Bit 12 ~ 15
++#define CHIP_VER_RTL_SHIFT			12
++
++//2REG_GPIO_OUTSTS (For RTL8723 only)
++#define	EFS_HCI_SEL				(BIT(0)|BIT(1))
++#define	PAD_HCI_SEL				(BIT(2)|BIT(3))
++#define	HCI_SEL						(BIT(4)|BIT(5)) 
++#define	PKG_SEL_HCI				BIT(6)
++#define	FEN_GPS					BIT(7)
++#define	FEN_BT						BIT(8)
++#define	FEN_WL						BIT(9)
++#define	FEN_PCI						BIT(10)
++#define	FEN_USB					BIT(11)
++#define	BTRF_HWPDN_N				BIT(12)
++#define	WLRF_HWPDN_N				BIT(13)
++#define	PDN_BT_N					BIT(14)
++#define	PDN_GPS_N					BIT(15)
++#define	BT_CTL_HWPDN				BIT(16)
++#define	GPS_CTL_HWPDN				BIT(17)
++#define	PPHY_SUSB					BIT(20)
++#define	UPHY_SUSB					BIT(21)
++#define	PCI_SUSEN					BIT(22)
++#define	USB_SUSEN					BIT(23)
++#define	RF_RL_ID					(BIT(31)|BIT(30)|BIT(29)|BIT(28))
++
++//-----------------------------------------------------
++//
++//	0x0100h ~ 0x01FFh	MACTOP General Configuration
++//
++//-----------------------------------------------------
++
++
++//2 Function Enable Registers
++//2 CR
++
++#define REG_LBMODE					(REG_CR + 3)
++
++
++#define HCI_TXDMA_EN				BIT(0)
++#define HCI_RXDMA_EN				BIT(1)
++#define TXDMA_EN					BIT(2)
++#define RXDMA_EN					BIT(3)
++#define PROTOCOL_EN					BIT(4)
++#define SCHEDULE_EN					BIT(5)
++#define MACTXEN						BIT(6)
++#define MACRXEN						BIT(7)
++#define ENSWBCN						BIT(8)
++#define ENSEC						BIT(9)
++
++// Network type
++#define _NETTYPE(x)					(((x) & 0x3) << 16)
++#define MASK_NETTYPE				0x30000
++#define NT_NO_LINK					0x0
++#define NT_LINK_AD_HOC				0x1
++#define NT_LINK_AP					0x2
++#define NT_AS_AP					0x3
++
++#define _LBMODE(x)					(((x) & 0xF) << 24)
++#define MASK_LBMODE				0xF000000
++#define LOOPBACK_NORMAL			0x0
++#define LOOPBACK_IMMEDIATELY		0xB
++#define LOOPBACK_MAC_DELAY		0x3
++#define LOOPBACK_PHY				0x1
++#define LOOPBACK_DMA				0x7
++
++
++//2 PBP - Page Size Register
++#define GET_RX_PAGE_SIZE(value)		((value) & 0xF)
++#define GET_TX_PAGE_SIZE(value)		(((value) & 0xF0) >> 4)
++#define _PSRX_MASK					0xF
++#define _PSTX_MASK					0xF0
++#define _PSRX(x)						(x)
++#define _PSTX(x)						((x) << 4)
++
++#define PBP_64						0x0
++#define PBP_128						0x1
++#define PBP_256						0x2
++#define PBP_512						0x3
++#define PBP_1024					0x4
++
++
++//2 TX/RXDMA
++#define RXDMA_ARBBW_EN			BIT(0)
++#define RXSHFT_EN					BIT(1)
++#define RXDMA_AGG_EN				BIT(2)
++#define QS_VO_QUEUE				BIT(8)
++#define QS_VI_QUEUE					BIT(9)
++#define QS_BE_QUEUE				BIT(10)
++#define QS_BK_QUEUE				BIT(11)
++#define QS_MANAGER_QUEUE			BIT(12)
++#define QS_HIGH_QUEUE				BIT(13)
++
++#define HQSEL_VOQ					BIT(0)
++#define HQSEL_VIQ					BIT(1)
++#define HQSEL_BEQ					BIT(2)
++#define HQSEL_BKQ					BIT(3)
++#define HQSEL_MGTQ					BIT(4)
++#define HQSEL_HIQ					BIT(5)
++
++// For normal driver, 0x10C
++#define _TXDMA_HIQ_MAP(x) 	 		(((x)&0x3) << 14)
++#define _TXDMA_MGQ_MAP(x) 	 		(((x)&0x3) << 12)
++#define _TXDMA_BKQ_MAP(x) 	 		(((x)&0x3) << 10)		
++#define _TXDMA_BEQ_MAP(x) 	 		(((x)&0x3) << 8 )
++#define _TXDMA_VIQ_MAP(x) 	 		(((x)&0x3) << 6 )
++#define _TXDMA_VOQ_MAP(x) 	 		(((x)&0x3) << 4 )
++
++#define QUEUE_LOW					1
++#define QUEUE_NORMAL				2
++#define QUEUE_HIGH					3
++
++
++
++//2 TRXFF_BNDY
++
++
++//2 LLT_INIT
++#define _LLT_NO_ACTIVE				0x0
++#define _LLT_WRITE_ACCESS			0x1
++#define _LLT_READ_ACCESS			0x2
++
++#define _LLT_INIT_DATA(x)			((x) & 0xFF)
++#define _LLT_INIT_ADDR(x)			(((x) & 0xFF) << 8)
++#define _LLT_OP(x)					(((x) & 0x3) << 30)
++#define _LLT_OP_VALUE(x)			(((x) >> 30) & 0x3)
++
++
++//2 BB_ACCESS_CTRL
++#define BB_WRITE_READ_MASK		(BIT(31) | BIT(30))
++#define BB_WRITE_EN					BIT(30)
++#define BB_READ_EN					BIT(31)
++//#define BB_ADDR_MASK				0xFFF
++//#define _BB_ADDR(x)					((x) & BB_ADDR_MASK)
++
++//-----------------------------------------------------
++//
++//	0x0200h ~ 0x027Fh	TXDMA Configuration
++//
++//-----------------------------------------------------
++//2 RQPN
++#define _HPQ(x)						((x) & 0xFF)
++#define _LPQ(x)						(((x) & 0xFF) << 8)
++#define _PUBQ(x)						(((x) & 0xFF) << 16)
++#define _NPQ(x)						((x) & 0xFF)			// NOTE: in RQPN_NPQ register
++
++
++#define HPQ_PUBLIC_DIS				BIT(24)
++#define LPQ_PUBLIC_DIS				BIT(25)
++#define LD_RQPN						BIT(31)
++
++
++//2 TDECTRL
++#define BCN_VALID					BIT(16)
++#define BCN_HEAD(x)					(((x) & 0xFF) << 8)
++#define	BCN_HEAD_MASK				0xFF00
++
++//2 TDECTL
++#define BLK_DESC_NUM_SHIFT			4
++#define BLK_DESC_NUM_MASK			0xF
++
++
++//2 TXDMA_OFFSET_CHK
++#define DROP_DATA_EN				BIT(9)
++
++//-----------------------------------------------------
++//
++//	0x0400h ~ 0x047Fh	Protocol Configuration
++//
++//-----------------------------------------------------
++//2 FWHW_TXQ_CTRL
++#define EN_AMPDU_RTY_NEW			BIT(7)
++
++//2 INIRTSMCS_SEL
++#define _INIRTSMCS_SEL(x)			((x) & 0x3F)
++
++
++//2 SPEC SIFS
++#define _SPEC_SIFS_CCK(x)			((x) & 0xFF)
++#define _SPEC_SIFS_OFDM(x)			(((x) & 0xFF) << 8)
++
++
++//2 RRSR
++
++#define RATE_REG_BITMAP_ALL			0xFFFFF
++
++#define _RRSC_BITMAP(x)					((x) & 0xFFFFF)
++
++#define _RRSR_RSC(x)						(((x) & 0x3) << 21)
++#define RRSR_RSC_RESERVED				0x0
++#define RRSR_RSC_UPPER_SUBCHANNEL	0x1
++#define RRSR_RSC_LOWER_SUBCHANNEL	0x2
++#define RRSR_RSC_DUPLICATE_MODE		0x3
++
++
++//2 ARFR
++#define USE_SHORT_G1				BIT(20)
++
++//2 AGGLEN_LMT_L
++#define _AGGLMT_MCS0(x)				((x) & 0xF)
++#define _AGGLMT_MCS1(x)				(((x) & 0xF) << 4)
++#define _AGGLMT_MCS2(x)				(((x) & 0xF) << 8)
++#define _AGGLMT_MCS3(x)				(((x) & 0xF) << 12)
++#define _AGGLMT_MCS4(x)				(((x) & 0xF) << 16)
++#define _AGGLMT_MCS5(x)				(((x) & 0xF) << 20)
++#define _AGGLMT_MCS6(x)				(((x) & 0xF) << 24)
++#define _AGGLMT_MCS7(x)				(((x) & 0xF) << 28)
++
++
++//2 RL
++#define	RETRY_LIMIT_SHORT_SHIFT		8
++#define	RETRY_LIMIT_LONG_SHIFT		0
++
++
++//2 DARFRC
++#define _DARF_RC1(x)				((x) & 0x1F)
++#define _DARF_RC2(x)				(((x) & 0x1F) << 8)
++#define _DARF_RC3(x)				(((x) & 0x1F) << 16)
++#define _DARF_RC4(x)				(((x) & 0x1F) << 24)
++// NOTE: shift starting from address (DARFRC + 4)
++#define _DARF_RC5(x)				((x) & 0x1F)
++#define _DARF_RC6(x)				(((x) & 0x1F) << 8)
++#define _DARF_RC7(x)				(((x) & 0x1F) << 16)
++#define _DARF_RC8(x)				(((x) & 0x1F) << 24)
++
++
++//2 RARFRC
++#define _RARF_RC1(x)				((x) & 0x1F)
++#define _RARF_RC2(x)				(((x) & 0x1F) << 8)
++#define _RARF_RC3(x)				(((x) & 0x1F) << 16)
++#define _RARF_RC4(x)				(((x) & 0x1F) << 24)
++// NOTE: shift starting from address (RARFRC + 4)
++#define _RARF_RC5(x)				((x) & 0x1F)
++#define _RARF_RC6(x)				(((x) & 0x1F) << 8)
++#define _RARF_RC7(x)				(((x) & 0x1F) << 16)
++#define _RARF_RC8(x)				(((x) & 0x1F) << 24)
++
++
++
++
++//-----------------------------------------------------
++//
++//	0x0500h ~ 0x05FFh	EDCA Configuration
++//
++//-----------------------------------------------------
++
++
++
++//2 EDCA setting
++#define AC_PARAM_TXOP_LIMIT_OFFSET	16
++#define AC_PARAM_ECW_MAX_OFFSET		12
++#define AC_PARAM_ECW_MIN_OFFSET		8
++#define AC_PARAM_AIFS_OFFSET			0
++
++
++//2 EDCA_VO_PARAM
++#define _AIFS(x)						(x)
++#define _ECW_MAX_MIN(x)			((x) << 8)
++#define _TXOP_LIMIT(x)				((x) << 16)
++
++
++#define _BCNIFS(x)					((x) & 0xFF)
++#define _BCNECW(x)					(((x) & 0xF))<< 8)
++
++
++#define _LRL(x)						((x) & 0x3F)
++#define _SRL(x)						(((x) & 0x3F) << 8)
++
++
++//2 SIFS_CCK
++#define _SIFS_CCK_CTX(x)			((x) & 0xFF)
++#define _SIFS_CCK_TRX(x)			(((x) & 0xFF) << 8);
++
++
++//2 SIFS_OFDM
++#define _SIFS_OFDM_CTX(x)			((x) & 0xFF)
++#define _SIFS_OFDM_TRX(x)			(((x) & 0xFF) << 8);
++
++
++//2 TBTT PROHIBIT
++#define _TBTT_PROHIBIT_HOLD(x)		(((x) & 0xFF) << 8)
++
++
++//2 REG_RD_CTRL
++#define DIS_EDCA_CNT_DWN			BIT(11)
++
++
++//2 BCN_CTRL
++#define EN_MBSSID						BIT(1)
++#define EN_TXBCN_RPT					BIT(2)
++#define	EN_BCN_FUNCTION				BIT(3)
++// The same function but different bit field.
++#define	DIS_TSF_UDT0_NORMAL_CHIP	BIT(4)
++#define	DIS_TSF_UDT0_TEST_CHIP		BIT(5)
++
++//2 ACMHWCTRL
++#define	AcmHw_HwEn					BIT(0)
++#define	AcmHw_BeqEn					BIT(1)
++#define	AcmHw_ViqEn					BIT(2)
++#define	AcmHw_VoqEn					BIT(3)
++#define	AcmHw_BeqStatus				BIT(4)
++#define	AcmHw_ViqStatus				BIT(5)
++#define	AcmHw_VoqStatus				BIT(6)
++
++
++
++//-----------------------------------------------------
++//
++//	0x0600h ~ 0x07FFh	WMAC Configuration
++//
++//-----------------------------------------------------
++
++//2 APSD_CTRL
++#define APSDOFF						BIT(6)
++#define APSDOFF_STATUS				BIT(7)
++
++
++//2 BWOPMODE
++#define BW_20MHZ					BIT(2)
++//#define BW_OPMODE_20MHZ				BIT(2)	// For compability
++
++
++#define RATE_BITMAP_ALL			0xFFFFF
++
++// Only use CCK 1M rate for ACK
++#define RATE_RRSR_CCK_ONLY_1M		0xFFFF1
++
++//2 TCR
++#define TSFRST						BIT(0)
++#define DIS_GCLK						BIT(1)
++#define PAD_SEL						BIT(2)
++#define PWR_ST						BIT(6)
++#define PWRBIT_OW_EN				BIT(7)
++#define ACRC							BIT(8)
++#define CFENDFORM					BIT(9)
++#define ICV							BIT(10)
++
++
++
++//2 RCR
++#define AAP							BIT(0)
++#define APM							BIT(1)
++#define AM							BIT(2)
++#define AB							BIT(3)
++#define ADD3							BIT(4)
++#define APWRMGT					BIT(5)
++#define CBSSID						BIT(6)
++#define CBSSID_BCN					BIT(7)
++#define ACRC32						BIT(8)
++#define AICV							BIT(9)
++#define ADF							BIT(11)
++#define ACF							BIT(12)
++#define AMF							BIT(13)
++#define HTC_LOC_CTRL				BIT(14)
++#define UC_DATA_EN					BIT(16)
++#define BM_DATA_EN					BIT(17)
++#define MFBEN						BIT(22)
++#define LSIGEN						BIT(23)
++#define EnMBID						BIT(24)
++#define APP_BASSN					BIT(27)
++#define APP_PHYSTS					BIT(28)
++#define APP_ICV						BIT(29)
++#define APP_MIC						BIT(30)
++#define APP_FCS						BIT(31)
++
++//2 RX_PKT_LIMIT
++
++//2 RX_DLK_TIME
++
++//2 MBIDCAMCFG
++
++
++
++//2 AMPDU_MIN_SPACE
++#define _MIN_SPACE(x)				((x) & 0x7)
++#define _SHORT_GI_PADDING(x)		(((x) & 0x1F) << 3)
++
++
++//2 RXERR_RPT
++#define RXERR_TYPE_OFDM_PPDU				0
++#define RXERR_TYPE_OFDM_FALSE_ALARM		1
++#define	RXERR_TYPE_OFDM_MPDU_OK			2
++#define RXERR_TYPE_OFDM_MPDU_FAIL		3
++#define RXERR_TYPE_CCK_PPDU				4
++#define RXERR_TYPE_CCK_FALSE_ALARM		5
++#define RXERR_TYPE_CCK_MPDU_OK			6
++#define RXERR_TYPE_CCK_MPDU_FAIL			7
++#define RXERR_TYPE_HT_PPDU					8
++#define RXERR_TYPE_HT_FALSE_ALARM		9
++#define RXERR_TYPE_HT_MPDU_TOTAL			10
++#define RXERR_TYPE_HT_MPDU_OK				11
++#define RXERR_TYPE_HT_MPDU_FAIL			12
++#define RXERR_TYPE_RX_FULL_DROP			15
++
++#define RXERR_COUNTER_MASK				0xFFFFF
++#define RXERR_RPT_RST						BIT(27)
++#define _RXERR_RPT_SEL(type)				((type) << 28)
++
++
++//2 SECCFG
++#define	SCR_TxUseDK						BIT(0)			//Force Tx Use Default Key
++#define	SCR_RxUseDK						BIT(1)			//Force Rx Use Default Key
++#define	SCR_TxEncEnable					BIT(2)			//Enable Tx Encryption
++#define	SCR_RxDecEnable					BIT(3)			//Enable Rx Decryption
++#define	SCR_SKByA2							BIT(4)			//Search kEY BY A2
++#define	SCR_NoSKMC							BIT(5)			//No Key Search Multicast
++
++
++
++//-----------------------------------------------------
++//
++//	0xFE00h ~ 0xFE55h	USB Configuration
++//
++//-----------------------------------------------------
++
++//2 USB Information (0xFE17)
++#define USB_IS_HIGH_SPEED				0
++#define USB_IS_FULL_SPEED				1
++#define USB_SPEED_MASK					BIT(5)
++
++#define USB_NORMAL_SIE_EP_MASK		0xF
++#define USB_NORMAL_SIE_EP_SHIFT		4
++
++#define USB_TEST_EP_MASK				0x30
++#define USB_TEST_EP_SHIFT				4
++
++//2 Special Option
++#define USB_AGG_EN						BIT(3)
++
++
++//2REG_C2HEVT_CLEAR
++#define		C2H_EVT_HOST_CLOSE		0x00	// Set by driver and notify FW that the driver has read the C2H command message
++#define		C2H_EVT_FW_CLOSE		0xFF	// Set by FW indicating that FW had set the C2H command message and it's not yet read by driver.
++
++
++//2REG_MULTI_FUNC_CTRL(For RTL8723 Only)
++#define	WL_HWPDN_EN				BIT0		// Enable GPIO[9] as WiFi HW PDn source
++#define	WL_HWPDN_SL				BIT1		// WiFi HW PDn polarity control
++#define	WL_FUNC_EN				BIT2		// WiFi function enable
++#define	WL_HWROF_EN				BIT3		// Enable GPIO[9] as WiFi RF HW PDn source
++#define	BT_HWPDN_EN				BIT16	// Enable GPIO[11] as BT HW PDn source
++#define	BT_HWPDN_SL				BIT17	// BT HW PDn polarity control
++#define	BT_FUNC_EN					BIT18	// BT function enable
++#define	BT_HWROF_EN				BIT19	// Enable GPIO[11] as BT/GPS RF HW PDn source
++#define	GPS_HWPDN_EN				BIT20	// Enable GPIO[10] as GPS HW PDn source
++#define	GPS_HWPDN_SL				BIT21	// GPS HW PDn polarity control
++#define	GPS_FUNC_EN				BIT22	// GPS function enable
++
++//3 REG_LIFECTRL_CTRL
++#define	HAL92C_EN_PKT_LIFE_TIME_BK		BIT3
++#define	HAL92C_EN_PKT_LIFE_TIME_BE		BIT2
++#define	HAL92C_EN_PKT_LIFE_TIME_VI		BIT1
++#define	HAL92C_EN_PKT_LIFE_TIME_VO		BIT0
++
++#define	HAL92C_MSDU_LIFE_TIME_UNIT		128		// in us, said by Tim.
++
++//========================================================
++// General definitions
++//========================================================
++
++#define MAC_ADDR_LEN					6
++#define LAST_ENTRY_OF_TX_PKT_BUFFER	255
++
++#define POLLING_LLT_THRESHOLD			20
++#define POLLING_READY_TIMEOUT_COUNT	1000
++
++// Min Spacing related settings.
++#define	MAX_MSS_DENSITY_2T				0x13
++#define	MAX_MSS_DENSITY_1T				0x0A
++
++//----------------------------------------------------------------------------
++//       8192C GPIO MUX Configuration Register (offset 0x40, 4 byte)
++//----------------------------------------------------------------------------
++#define	GPIOSEL_GPIO				0
++#define	GPIOSEL_ENBT				BIT5
++
++//----------------------------------------------------------------------------
++//       8192C GPIO PIN Control Register (offset 0x44, 4 byte)
++//----------------------------------------------------------------------------
++#define	GPIO_IN						REG_GPIO_PIN_CTRL		// GPIO pins input value
++#define	GPIO_OUT					(REG_GPIO_PIN_CTRL+1)	// GPIO pins output value
++#define	GPIO_IO_SEL				(REG_GPIO_PIN_CTRL+2)	// GPIO pins output enable when a bit is set to "1"; otherwise, input is configured.
++#define	GPIO_MOD					(REG_GPIO_PIN_CTRL+3)
++
++
++
++#include "basic_types.h"
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtl8192c_sreset.h b/drivers/net/wireless/rtl8192cu/include/rtl8192c_sreset.h
+new file mode 100755
+index 0000000..20e88b5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtl8192c_sreset.h
+@@ -0,0 +1,32 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8192C_SRESET_C_
++#define _RTL8192C_SRESET_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <rtw_sreset.h>
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++extern void rtl8192c_sreset_xmit_status_check(_adapter *padapter);
++extern void rtl8192c_sreset_linked_status_check(_adapter *padapter);
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtl8192c_xmit.h b/drivers/net/wireless/rtl8192cu/include/rtl8192c_xmit.h
+new file mode 100755
+index 0000000..7d2059d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtl8192c_xmit.h
+@@ -0,0 +1,129 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8192C_XMIT_H_
++#define _RTL8192C_XMIT_H_
++
++//
++// Queue Select Value in TxDesc
++//
++#define QSLT_BK							0x2//0x01
++#define QSLT_BE							0x0
++#define QSLT_VI							0x5//0x4
++#define QSLT_VO							0x7//0x6
++#define QSLT_BEACON						0x10
++#define QSLT_HIGH						0x11
++#define QSLT_MGNT						0x12
++#define QSLT_CMD						0x13
++
++struct txrpt_ccx_8192c {
++	/* offset 0 */
++	u8 retry_cnt:6;
++	u8 rsvd_0:2;
++
++	/* offset 1 */
++	u8 rts_retry_cnt:6;
++	u8 rsvd_1:2;
++
++	/* offset 2 */
++	u8 ccx_qtime0;
++	u8 ccx_qtime1;
++
++	/* offset 4 */
++	u8 missed_pkt_num:5;
++	u8 rsvd_4:3;
++
++	/* offset 5 */
++	u8 mac_id:5;
++	u8 des1_fragssn:3;
++
++	/* offset 6 */
++	u8 rpt_pkt_num:5;
++	u8 pkt_drop:1;
++	u8 lifetime_over:1;
++	u8 retry_over:1;
++
++	/* offset 7*/
++	u8 edca_tx_queue:4;
++	u8 rsvd_7:1;
++	u8 bmc:1;
++	u8 pkt_ok:1;
++	u8 int_ccx:1;
++};
++
++#define txrpt_ccx_qtime_8192c(txrpt_ccx) ((txrpt_ccx)->ccx_qtime0+((txrpt_ccx)->ccx_qtime1<<8))
++
++#ifdef CONFIG_XMIT_ACK
++void dump_txrpt_ccx_8192c(void *buf);
++void handle_txrpt_ccx_8192c(_adapter *adapter, void *buf);
++#else
++#define dump_txrpt_ccx_8192c(buf) do {} while(0)
++#define handle_txrpt_ccx_8192c(adapter, buf) do {} while(0)
++#endif
++
++#ifdef CONFIG_USB_HCI
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++#define MAX_TX_AGG_PACKET_NUMBER 0xFF
++#endif
++
++s32	rtl8192cu_init_xmit_priv(_adapter * padapter);
++
++void	rtl8192cu_free_xmit_priv(_adapter * padapter);
++
++void rtl8192cu_cal_txdesc_chksum(struct tx_desc	*ptxdesc);
++
++s32 rtl8192cu_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++
++s32 rtl8192cu_mgnt_xmit(_adapter *padapter, struct xmit_frame *pmgntframe);
++
++s32 rtl8192cu_hal_xmit(_adapter *padapter, struct xmit_frame *pxmitframe);
++
++s32	 rtl8192cu_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++
++#ifdef CONFIG_HOSTAPD_MLME
++s32 rtl8192cu_hostap_mgnt_xmit_entry(_adapter *padapter, _pkt *pkt);
++#endif
++
++#endif
++
++#ifdef CONFIG_PCI_HCI
++s32	rtl8192ce_init_xmit_priv(_adapter * padapter);
++void	rtl8192ce_free_xmit_priv(_adapter * padapter);
++
++s32	rtl8192ce_enqueue_xmitbuf(struct rtw_tx_ring *ring, struct xmit_buf *pxmitbuf);
++struct xmit_buf *rtl8192ce_dequeue_xmitbuf(struct rtw_tx_ring *ring);
++
++void	rtl8192ce_xmitframe_resume(_adapter *padapter);
++
++s32	rtl8192ce_mgnt_xmit(_adapter *padapter, struct xmit_frame *pmgntframe);
++
++s32	rtl8192ce_hal_xmit(_adapter *padapter, struct xmit_frame *pxmitframe);
++
++s32	 rtl8192ce_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++
++
++#ifdef CONFIG_HOSTAPD_MLME
++s32	rtl8192ce_hostap_mgnt_xmit_entry(_adapter *padapter, _pkt *pkt);
++#endif
++
++#endif
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtl8192d_cmd.h b/drivers/net/wireless/rtl8192cu/include/rtl8192d_cmd.h
+new file mode 100755
+index 0000000..ad7e783
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtl8192d_cmd.h
+@@ -0,0 +1,142 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192D_CMD_H_
++#define __RTL8192D_CMD_H_
++
++
++//--------------------------------------------
++//3				Host Message Box 
++//--------------------------------------------
++
++// User Define Message [31:8]
++
++//_SETPWRMODE_PARM
++#define SET_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_H2CCMD_PWRMODE_PARM_SMART_PS(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++
++//JOINBSSRPT_PARM
++#define SET_H2CCMD_JOINBSSRPT_PARM_OPMODE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++
++//_RSVDPAGE_LOC
++#define SET_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_H2CCMD_RSVDPAGE_LOC_PSPOLL(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_H2CCMD_RSVDPAGE_LOC_NULL_DATA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++
++//P2P_PS_OFFLOAD
++
++struct P2P_PS_Offload_t {
++ unsigned char Offload_En:1;
++ unsigned char role:1; // 1: Owner, 0: Client
++ unsigned char CTWindow_En:1;
++ unsigned char NoA0_En:1;
++ unsigned char NoA1_En:1;
++ unsigned char AllStaSleep:1; // Only valid in Owner
++ unsigned char discovery:1;
++ unsigned char rsvd:1;
++};
++
++#define SET_H2CCMD_P2P_PS_OFFLOAD_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_H2CCMD_P2P_PS_OFFLOAD_ROLE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_H2CCMD_P2P_PS_OFFLOAD_CTW(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_H2CCMD_P2P_PS_OFFLOAD_NOA0(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 3, 1, __Value)
++#define SET_H2CCMD_P2P_PS_OFFLOAD_NOA1(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 1, __Value)
++#define SET_H2CCMD_P2P_PS_OFFLOAD_ALLSTASLEEP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 5, 1, __Value)
++#define SET_H2CCMD_P2P_PS_OFFLOAD_DISCOVERY(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 6, 1, __Value)
++
++// Description: Determine the types of H2C commands that are the same in driver and Fw.
++// Fisrt constructed by tynli. 2009.10.09.
++typedef enum _RTL8192D_H2C_CMD 
++{
++	H2C_AP_OFFLOAD = 0,		/*0*/
++	H2C_SETPWRMODE = 1,		/*1*/
++	H2C_JOINBSSRPT = 2,		/*2*/
++	H2C_RSVDPAGE = 3,
++	H2C_RSSI_REPORT = 5,
++	H2C_RA_MASK = 6,
++	H2C_P2P_PS_OFFLOAD = 8,
++	H2C_MAC_MODE_SEL = 9,
++	H2C_PWRM=15,
++#ifdef CONFIG_WOWLAN
++	H2C_WO_WLAN_CMD = 20,	// Wake on Wlan.
++#endif // CONFIG_WOWLAN
++	H2C_P2P_PS_CTW_CMD = 24,
++	H2C_PathDiv = 26,                  //PathDiv--NeilChen--2011.07.15
++#ifdef CONFIG_WOWLAN
++	KEEP_ALIVE_CONTROL_CMD=31, //keep alive for wake on wlan
++	DISCONNECT_DECISION_CTRL_CMD=32,
++	REMOTE_WAKE_CTRL_CMD=34,
++#endif // CONFIG_WOWLAN
++	H2C_92D_TSF_SYNC=36,
++	H2C_92D_RESET_TSF = 43,
++	H2C_CMD_MAX
++}RTL8192D_H2C_CMD;
++
++struct cmd_msg_parm {
++	u8 eid; //element id
++	u8 sz; // sz
++	u8 buf[6];
++};
++
++
++void	FillH2CCmd92D(_adapter* padapter, u8 ElementID, u32 CmdLen, u8* pCmdBuffer);
++
++// host message to firmware cmd
++void	rtl8192d_set_FwPwrMode_cmd(_adapter*padapter, u8 Mode);
++void	rtl8192d_set_FwJoinBssReport_cmd(_adapter* padapter, u8 mstatus);
++u8	rtl8192d_set_rssi_cmd(_adapter*padapter, u8 *param);
++u8	rtl8192d_set_raid_cmd(_adapter*padapter, u32 mask, u8 arg);
++void	rtl8192d_Add_RateATid(PADAPTER pAdapter, u32 bitmap, u8 arg);
++#ifdef CONFIG_P2P
++void	rtl8192d_set_p2p_ps_offload_cmd(_adapter* padapter, u8 p2p_ps_state);
++#endif //CONFIG_P2P
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++int reset_tsf(PADAPTER Adapter, u8 reset_port );
++#endif	// CONFIG_TSF_RESET_OFFLOAD
++
++#ifdef CONFIG_WOWLAN
++typedef struct _SETWOWLAN_PARM{
++	u8 	mode;
++	u8 	gpio_index;
++	u8	gpio_duration;	
++	u8  second_mode;
++	u8  reserve;
++}SETWOWLAN_PARM, *PSETWOWLAN_PARM;
++
++#define FW_WOWLAN_FUN_EN			BIT(0)
++#define FW_WOWLAN_PATTERN_MATCH		BIT(1)
++#define FW_WOWLAN_MAGIC_PKT			BIT(2)
++#define FW_WOWLAN_UNICAST			BIT(3)
++#define FW_WOWLAN_ALL_PKT_DROP		BIT(4)
++#define FW_WOWLAN_GPIO_ACTIVE		BIT(5)
++#define FW_WOWLAN_REKEY_WAKEUP		BIT(6)
++#define FW_WOWLAN_DEAUTH_WAKEUP		BIT(7)
++
++#define FW_WOWLAN_GPIO_WAKEUP_EN	BIT(0)
++#define FW_FW_PARSE_MAGIC_PKT		BIT(1)
++
++void rtl8192d_set_wowlan_cmd(_adapter* padapter);
++void SetFwRelatedForWoWLAN8192DU(_adapter* 	padapter,u8 bHostIsGoingtoSleep);
++#endif // CONFIG_WOWLAN
++
++#endif	// __RTL8192D_CMD_H_
++
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtl8192d_dm.h b/drivers/net/wireless/rtl8192cu/include/rtl8192d_dm.h
+new file mode 100755
+index 0000000..ab5e5f7
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtl8192d_dm.h
+@@ -0,0 +1,420 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef	__RTL8192D_DM_H__
++#define __RTL8192D_DM_H__
++//============================================================
++// Description:
++//
++// This file is for 92CE/92CU dynamic mechanism only
++//
++//
++//============================================================
++//============================================================
++// Global var
++//============================================================
++
++extern u32 EDCAParam[maxAP][3] ;
++
++//============================================================
++// structure and define
++//============================================================
++
++typedef struct _FALSE_ALARM_STATISTICS{
++	u32	Cnt_Parity_Fail;
++	u32	Cnt_Rate_Illegal;
++	u32	Cnt_Crc8_fail;
++	u32	Cnt_Mcs_fail;
++	u32	Cnt_Ofdm_fail;
++	u32	Cnt_Cck_fail;
++	u32	Cnt_all;
++	u32	Cnt_Fast_Fsync;
++	u32	Cnt_SB_Search_fail;
++}FALSE_ALARM_STATISTICS, *PFALSE_ALARM_STATISTICS;
++
++typedef struct _Dynamic_Power_Saving_
++{
++	u8		PreCCAState;
++	u8		CurCCAState;
++
++	u8		PreRFState;
++	u8		CurRFState;
++
++	//int		Rssi_val_min;
++	
++}PS_T,*pPS_T;
++
++typedef struct _Dynamic_Initial_Gain_Threshold_
++{
++	u8		Dig_Enable_Flag;
++	u8		Dig_Ext_Port_Stage;
++	
++	int		RssiLowThresh;
++	int		RssiHighThresh;
++
++	u32		FALowThresh;
++	u32		FAHighThresh;
++
++	u8		CurSTAConnectState;
++	u8		PreSTAConnectState;
++	u8		CurMultiSTAConnectState;
++
++	u8		PreIGValue;
++	u8		CurIGValue;
++	u8	       BackupIGValue;
++
++	char		BackoffVal;
++	char		BackoffVal_range_max;
++	char		BackoffVal_range_min;
++	u8		rx_gain_range_max;
++	u8		rx_gain_range_min;
++	u8		Rssi_val_min;
++
++	u8		PreCCKPDState;
++	u8		CurCCKPDState;
++
++	u8		LargeFAHit;
++	u8		ForbiddenIGI;
++	u32		Recover_cnt;
++	u8		rx_gain_range_min_nolink;
++}DIG_T,*pDIG_T;
++
++typedef enum tag_Dynamic_Init_Gain_Operation_Type_Definition
++{
++	DIG_TYPE_THRESH_HIGH	= 0,
++	DIG_TYPE_THRESH_LOW	= 1,
++	DIG_TYPE_BACKOFF		= 2,
++	DIG_TYPE_RX_GAIN_MIN	= 3,
++	DIG_TYPE_RX_GAIN_MAX	= 4,
++	DIG_TYPE_ENABLE 		= 5,
++	DIG_TYPE_DISABLE 		= 6,
++	DIG_OP_TYPE_MAX
++}DM_DIG_OP_E;
++
++typedef enum tag_CCK_Packet_Detection_Threshold_Type_Definition
++{
++	CCK_PD_STAGE_LowRssi = 0,
++	CCK_PD_STAGE_HighRssi = 1,
++	CCK_PD_STAGE_MAX = 3,
++}DM_CCK_PDTH_E;
++
++typedef enum tag_1R_CCA_Type_Definition
++{
++	CCA_MIN = 0,
++	CCA_1R =1,
++	CCA_2R = 2,
++	CCA_MAX = 3,
++}DM_1R_CCA_E;
++
++typedef enum tag_RF_Type_Definition
++{
++	RF_Save =0,
++	RF_Normal = 1,
++	RF_MAX = 2,
++}DM_RF_E;
++
++typedef enum tag_DIG_EXT_PORT_ALGO_Definition
++{
++	DIG_EXT_PORT_STAGE_0 = 0,
++	DIG_EXT_PORT_STAGE_1 = 1,
++	DIG_EXT_PORT_STAGE_2 = 2,
++	DIG_EXT_PORT_STAGE_3 = 3,
++	DIG_EXT_PORT_STAGE_MAX = 4,
++}DM_DIG_EXT_PORT_ALG_E;
++
++
++typedef enum tag_DIG_Connect_Definition
++{
++	DIG_STA_DISCONNECT = 0,	
++	DIG_STA_CONNECT = 1,
++	DIG_STA_BEFORE_CONNECT = 2,
++	DIG_MultiSTA_DISCONNECT = 3,
++	DIG_MultiSTA_CONNECT = 4,
++	DIG_CONNECT_MAX
++}DM_DIG_CONNECT_E;
++
++
++#define		DM_DIG_THRESH_HIGH			40
++#define		DM_DIG_THRESH_LOW			35
++
++#define		DM_FALSEALARM_THRESH_LOW	400
++#define		DM_FALSEALARM_THRESH_HIGH	1000
++
++#define		DM_DIG_MAX					0x3e
++#define		DM_DIG_MIN					0x1e //0x22//0x1c
++
++#define		DM_DIG_FA_UPPER				0x32
++#define		DM_DIG_FA_LOWER				0x20
++
++//vivi 92c&92d has different definition, 20110504
++//this is for 92c
++#define		DM_DIG_FA_TH0				0x200//0x20
++#define		DM_DIG_FA_TH1				0x300//0x100
++#define		DM_DIG_FA_TH2				0x400//0x200
++//this is for 92d
++#define		DM_DIG_FA_TH0_92D			0x100
++#define		DM_DIG_FA_TH1_92D			0x150
++#define		DM_DIG_FA_TH2_92D			0x250
++
++#define		DM_DIG_BACKOFF_MAX			12
++#define		DM_DIG_BACKOFF_MIN			(-4)
++#define		DM_DIG_BACKOFF_DEFAULT		10
++
++#define		RxPathSelection_SS_TH_low		30
++#define		RxPathSelection_diff_TH			18
++
++#define		DM_RATR_STA_INIT			0
++#define		DM_RATR_STA_HIGH			1
++#define 		DM_RATR_STA_MIDDLE		2
++#define 		DM_RATR_STA_LOW			3
++
++#define		CTSToSelfTHVal					30
++#define		RegC38_TH						20
++
++#define		WAIotTHVal						25
++
++//Dynamic Tx Power Control Threshold
++#define		TX_POWER_NEAR_FIELD_THRESH_LVL2	74
++#define		TX_POWER_NEAR_FIELD_THRESH_LVL1	67
++
++#define		TxHighPwrLevel_Normal		0	
++#define		TxHighPwrLevel_Level1		1
++#define		TxHighPwrLevel_Level2		2
++#define		TxHighPwrLevel_BT1			3
++#define		TxHighPwrLevel_BT2			4
++#define		TxHighPwrLevel_15			5
++#define		TxHighPwrLevel_35			6
++#define		TxHighPwrLevel_50			7
++#define		TxHighPwrLevel_70			8
++#define		TxHighPwrLevel_100			9
++
++#define		DM_Type_ByFW			0
++#define		DM_Type_ByDriver		1
++
++typedef struct _RATE_ADAPTIVE
++{
++	u8				RateAdaptiveDisabled;
++	u8				RATRState;
++	u16				reserve;	
++	
++	u32				HighRSSIThreshForRA;
++	u32				High2LowRSSIThreshForRA;
++	u8				Low2HighRSSIThreshForRA40M;
++	u32				LowRSSIThreshForRA40M;	
++	u8				Low2HighRSSIThreshForRA20M;
++	u32				LowRSSIThreshForRA20M;	
++	u32				UpperRSSIThresholdRATR;
++	u32				MiddleRSSIThresholdRATR;
++	u32				LowRSSIThresholdRATR;
++	u32				LowRSSIThresholdRATR40M;
++	u32				LowRSSIThresholdRATR20M;
++	u8				PingRSSIEnable;	//cosa add for Netcore long range ping issue
++	u32				PingRSSIRATR;	//cosa add for Netcore long range ping issue
++	u32				PingRSSIThreshForRA;//cosa add for Netcore long range ping issue
++	u32				LastRATR;
++	u8				PreRATRState;
++	
++} RATE_ADAPTIVE, *PRATE_ADAPTIVE;
++
++typedef enum tag_SW_Antenna_Switch_Definition
++{
++	Antenna_B = 1,
++	Antenna_A = 2,
++	Antenna_MAX = 3,
++}DM_SWAS_E;
++
++// 20100514 Joseph: Add definition for antenna switching test after link.
++// This indicates two different the steps. 
++// In SWAW_STEP_PEAK, driver needs to switch antenna and listen to the signal on the air.
++// In SWAW_STEP_DETERMINE, driver just compares the signal captured in SWAW_STEP_PEAK
++// with original RSSI to determine if it is necessary to switch antenna.
++#define SWAW_STEP_PEAK		0
++#define SWAW_STEP_DETERMINE	1
++
++#define	TP_MODE		0
++#define	RSSI_MODE		1
++#define	TRAFFIC_LOW	0
++#define	TRAFFIC_HIGH	1
++
++//=============================
++//Neil Chen---2011--06--15--
++//==============================
++//3 PathDiv 
++typedef struct _SW_Antenna_Switch_
++{
++	u8		try_flag;
++	s32		PreRSSI;
++	u8		CurAntenna;
++	u8		PreAntenna;
++	u8		RSSI_Trying;
++	u8		TestMode;
++	u8		bTriggerAntennaSwitch;
++	u8		SelectAntennaMap;
++
++	// Before link Antenna Switch check
++	u8		SWAS_NoLink_State;
++	u32		SWAS_NoLink_BK_Reg860;
++}SWAT_T, *pSWAT_T;
++//========================================
++
++struct 	dm_priv	
++{
++	u8	DM_Type;
++	u8	DMFlag, DMFlag_tmp;
++
++	//for DIG
++	u8	bDMInitialGainEnable;
++	//u8	binitialized; // for dm_initial_gain_Multi_STA use.
++	DIG_T	DM_DigTable;
++
++	PS_T	DM_PSTable;
++
++	FALSE_ALARM_STATISTICS	FalseAlmCnt;	
++	
++	//for rate adaptive, in fact,  88c/92c fw will handle this
++	u8	bUseRAMask;
++	RATE_ADAPTIVE	RateAdaptive;
++
++	//* Upper and Lower Signal threshold for Rate Adaptive*/
++	int	UndecoratedSmoothedPWDB;
++	int	EntryMinUndecoratedSmoothedPWDB;
++	int	EntryMaxUndecoratedSmoothedPWDB;
++	int	MinUndecoratedPWDBForDM;
++	int	LastMinUndecoratedPWDBForDM;
++#ifdef CONFIG_DUALMAC_CONCURRENT
++	int	RssiValMinForAnotherMacOfDMSP;
++	u32	CurDigValueForAnotherMacOfDMSP;
++	BOOLEAN		bWriteDigForAnotherMacOfDMSP;
++	BOOLEAN		bChangeCCKPDStateForAnotherMacOfDMSP;
++	u8	CurCCKPDStateForAnotherMacOfDMSP;
++	BOOLEAN		bChangeTxHighPowerLvlForAnotherMacOfDMSP;
++	u8	CurTxHighLvlForAnotherMacOfDMSP;
++#endif
++
++	//for High Power
++	u8	bDynamicTxPowerEnable;
++	u8	LastDTPLvl;
++	u8	DynamicTxHighPowerLvl;//Add by Jacken Tx Power Control for Near/Far Range 2008/03/06
++		
++	//for tx power tracking
++	u8	bTXPowerTracking;
++	u8	TXPowercount;
++	u8	bTXPowerTrackingInit;	
++	u8	TxPowerTrackControl;	//for mp mode, turn off txpwrtracking as default
++	u8	TM_Trigger;
++
++	u8	ThermalMeter[2];	// ThermalMeter, index 0 for RFIC0, and 1 for RFIC1
++	u8	ThermalValue;
++	u8	ThermalValue_LCK;
++	u8	ThermalValue_IQK;
++	u8	ThermalValue_AVG[AVG_THERMAL_NUM];
++	u8	ThermalValue_AVG_index;
++	u8	ThermalValue_RxGain;
++	u8	ThermalValue_Crystal;
++	u8	Delta_IQK;
++	u8	Delta_LCK;
++	u8	bRfPiEnable;
++	u8	bReloadtxpowerindex;
++	u8	bDoneTxpower;
++
++	//for APK
++	u32	APKoutput[2][2];	//path A/B; output1_1a/output1_2a
++	u8	bAPKdone;
++	u8	bAPKThermalMeterIgnore;
++	BOOLEAN		bDPKdone[2];
++	BOOLEAN		bDPKstore;
++	BOOLEAN		bDPKworking;
++	u8	OFDM_min_index_internalPA_DPK[2];
++	u8	TxPowerLevelDPK[2];
++
++	u32	RegA24;
++
++	//for IQK
++	u32	Reg874;
++	u32	RegC08;
++	u32	Reg88C;
++	u8	Reg522;
++	u8	Reg550;
++	u8	Reg551;
++	u32	Reg870;
++	u32	ADDA_backup[IQK_ADDA_REG_NUM];
++	u32	IQK_MAC_backup[IQK_MAC_REG_NUM];
++	u32	IQK_BB_backup[IQK_BB_REG_NUM];
++
++	u8	bCCKinCH14;
++
++	char	CCK_index;
++	//u8 Record_CCK_20Mindex;
++	//u8 Record_CCK_40Mindex;
++	char	OFDM_index[2];
++
++	SWAT_T DM_SWAT_Table;
++
++	//for TxPwrTracking
++	int	RegE94;
++	int 	RegE9C;
++	int	RegEB4;
++	int	RegEBC;
++#if MP_DRIVER == 1
++	u8	RegC04_MP;
++	u32	RegD04_MP;
++#endif
++	u32	TXPowerTrackingCallbackCnt;	//cosa add for debug
++
++	u32	prv_traffic_idx; // edca turbo
++
++	u32	RegRF3C[2];	//pathA / pathB
++
++	// Add for Reading Initial Data Rate SEL Register 0x484 during watchdog. Using for fill tx desc. 2011.3.21 by Thomas
++	u8	INIDATA_RATE[32];
++
++#ifdef CONFIG_DM_ADAPTIVITY
++	/* Ported from ODM, for ESTI Adaptivity test */
++	s8 TH_L2H_ini;
++	s8 TH_EDCCA_HL_diff;
++	s8 IGI_Base;
++	u8 IGI_target;
++	bool ForceEDCCA;
++	u8 AdapEn_RSSI;
++	s8 Force_TH_H;
++	s8 Force_TH_L;
++	u8 IGI_LowerBound;
++
++	bool	bPreEdccaEnable;
++#endif
++};
++
++
++/*------------------------Export global variable----------------------------*/
++/*------------------------Export global variable----------------------------*/
++/*------------------------Export Marco Definition---------------------------*/
++//#define DM_MultiSTA_InitGainChangeNotify(Event) {DM_DigTable.CurMultiSTAConnectState = Event;}
++
++
++//============================================================
++// function prototype
++//============================================================
++void rtl8192d_init_dm_priv(IN PADAPTER Adapter);
++void rtl8192d_deinit_dm_priv(IN PADAPTER Adapter);
++void	rtl8192d_InitHalDm(IN PADAPTER Adapter);
++void	rtl8192d_HalDmWatchDog(IN PADAPTER Adapter);
++
++VOID rtl8192d_dm_CheckTXPowerTracking(IN PADAPTER Adapter);
++
++#endif	//__HAL8190PCIDM_H__
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtl8192d_hal.h b/drivers/net/wireless/rtl8192cu/include/rtl8192d_hal.h
+new file mode 100755
+index 0000000..1ab5f98
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtl8192d_hal.h
+@@ -0,0 +1,1126 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192D_HAL_H__
++#define __RTL8192D_HAL_H__
++
++#include "hal_com.h"
++#include "rtl8192d_spec.h"
++#include "Hal8192DPhyReg.h"
++#include "Hal8192DPhyCfg.h"
++#include "rtl8192d_rf.h"
++#include "rtl8192d_dm.h"
++#include "rtl8192d_recv.h"
++#include "rtl8192d_xmit.h"
++#include "rtl8192d_cmd.h"
++
++/*---------------------------Define Local Constant---------------------------*/
++/* Channel switch:The size of command tables for switch channel*/
++#define MAX_PRECMD_CNT 16
++#define MAX_RFDEPENDCMD_CNT 16
++#define MAX_POSTCMD_CNT 16
++
++#define MAX_DOZE_WAITING_TIMES_9x 64
++
++#define MAX_RF_IMR_INDEX 12
++#define MAX_RF_IMR_INDEX_NORMAL 13
++#define RF_REG_NUM_for_C_CUT_5G 	6
++#define RF_REG_NUM_for_C_CUT_5G_internalPA	7
++#define RF_REG_NUM_for_C_CUT_2G 	5
++#define RF_CHNL_NUM_5G			19	
++#define RF_CHNL_NUM_5G_40M		17
++#define TARGET_CHNL_NUM_5G	221
++#define TARGET_CHNL_NUM_2G	14
++#define TARGET_CHNL_NUM_2G_5G	59
++#define CV_CURVE_CNT			64
++
++//static u32	 RF_REG_FOR_5G_SWCHNL[MAX_RF_IMR_INDEX]={0,0x2f,0x30,0x31,0x32,0x33,0x34,0x35,0x36,0x38,0x39,0x0};
++static u32	   RF_REG_FOR_5G_SWCHNL_NORMAL[MAX_RF_IMR_INDEX_NORMAL]={0,0x2f,0x30,0x31,0x32,0x33,0x34,0x35,0x36,0x37,0x38,0x39,0x0};
++
++static u8	RF_REG_for_C_CUT_5G[RF_REG_NUM_for_C_CUT_5G] = 
++			{RF_SYN_G1, RF_SYN_G2,	RF_SYN_G3,	RF_SYN_G4,	RF_SYN_G5,	RF_SYN_G6};
++
++static u8	RF_REG_for_C_CUT_5G_internalPA[RF_REG_NUM_for_C_CUT_5G_internalPA] = 
++			{0x0B,	0x48,	0x49,	0x4B,	0x03,	0x04,	0x0E};
++static u8	RF_REG_for_C_CUT_2G[RF_REG_NUM_for_C_CUT_2G] = 
++			{RF_SYN_G1, RF_SYN_G2,	RF_SYN_G3,	RF_SYN_G7,	RF_SYN_G8};
++
++#if DBG
++static u32	RF_REG_MASK_for_C_CUT_2G[RF_REG_NUM_for_C_CUT_2G] = 
++			{BIT19|BIT18|BIT17|BIT14|BIT1,	BIT10|BIT9, 
++			BIT18|BIT17|BIT16|BIT1, 	BIT2|BIT1,	
++			BIT15|BIT14|BIT13|BIT12|BIT11};
++#endif	//amy, temp remove
++static u8	RF_CHNL_5G[RF_CHNL_NUM_5G] = 
++			{36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140};
++static u8	RF_CHNL_5G_40M[RF_CHNL_NUM_5G_40M] = 
++			{38,42,46,50,54,58,62,102,106,110,114,118,122,126,130,134,138};
++
++static u32	RF_REG_Param_for_C_CUT_5G[5][RF_REG_NUM_for_C_CUT_5G] = {
++			{0xE43BE,	0xFC638,	0x77C0A,	0xDE471,	0xd7110,	0x8EB04},
++			{0xE43BE,	0xFC078,	0xF7C1A,	0xE0C71,	0xD7550,	0xAEB04},	
++			{0xE43BF,	0xFF038,	0xF7C0A,	0xDE471,	0xE5550,	0xAEB04},
++			{0xE43BF,	0xFF079,	0xF7C1A,	0xDE471,	0xE5550,	0xAEB04},
++			{0xE43BF,	0xFF038,	0xF7C1A,	0xDE471,	0xd7550,	0xAEB04}};
++
++static u32	RF_REG_Param_for_C_CUT_2G[3][RF_REG_NUM_for_C_CUT_2G] = {
++			{0x643BC,	0xFC038,	0x77C1A,	0x41289,	0x01840},
++			{0x643BC,	0xFC038,	0x07C1A,	0x41289,	0x01840},
++			{0x243BC,	0xFC438,	0x07C1A,	0x4128B,	0x0FC41}};
++
++#if SWLCK == 1
++static u32 RF_REG_SYN_G4_for_C_CUT_2G = 0xD1C31&0x7FF;
++#endif
++
++static u32	RF_REG_Param_for_C_CUT_5G_internalPA[3][RF_REG_NUM_for_C_CUT_5G_internalPA] = {
++			{0x01a00,	0x40443,	0x00eb5,	0x89bec,	0x94a12,	0x94a12,	0x94a12},
++			{0x01800,	0xc0443,	0x00730,	0x896ee,	0x94a52,	0x94a52,	0x94a52},	
++			{0x01800,	0xc0443,	0x00730,	0x896ee,	0x94a12,	0x94a12,	0x94a12}};
++
++
++
++//[mode][patha+b][reg]
++static u32 RF_IMR_Param_Normal[1][3][MAX_RF_IMR_INDEX_NORMAL]={{
++	{0x70000,0x00ff0,0x4400f,0x00ff0,0x0,0x0,0x0,0x0,0x0,0x64888,0xe266c,0x00090,0x22fff},// channel 1-14.
++	{0x70000,0x22880,0x4470f,0x55880,0x00070, 0x88000, 0x0,0x88080,0x70000,0x64a82,0xe466c,0x00090,0x32c9a}, //path 36-64
++	{0x70000,0x44880,0x4477f,0x77880,0x00070, 0x88000, 0x0,0x880b0,0x0,0x64b82,0xe466c,0x00090,0x32c9a} //100 -165
++}
++};
++
++//static u32 CurveIndex_5G[TARGET_CHNL_NUM_5G]={0};
++//static u32 CurveIndex_2G[TARGET_CHNL_NUM_2G]={0};
++static u32 CurveIndex[TARGET_CHNL_NUM_2G_5G]={0};
++
++static u32 TargetChnl_5G[TARGET_CHNL_NUM_5G] = {
++25141,	25116,	25091,	25066,	25041,
++25016,	24991,	24966,	24941,	24917,
++24892,	24867,	24843,	24818,	24794,
++24770,	24765,	24721,	24697,	24672,
++24648,	24624,	24600,	24576,	24552,
++24528,	24504,	24480,	24457,	24433,
++24409,	24385,	24362,	24338,	24315,
++24291,	24268,	24245,	24221,	24198,
++24175,	24151,	24128,	24105,	24082,
++24059,	24036,	24013,	23990,	23967,
++23945,	23922,	23899,	23876,	23854,
++23831,	23809,	23786,	23764,	23741,
++23719,	23697,	23674,	23652,	23630,
++23608,	23586,	23564,	23541,	23519,
++23498,	23476,	23454,	23432,	23410,
++23388,	23367,	23345,	23323,	23302,
++23280,	23259,	23237,	23216,	23194,
++23173,	23152,	23130,	23109,	23088,
++23067,	23046,	23025,	23003,	22982,
++22962,	22941,	22920,	22899,	22878,
++22857,	22837,	22816,	22795,	22775,
++22754,	22733,	22713,	22692,	22672,
++22652,	22631,	22611,	22591,	22570,
++22550,	22530,	22510,	22490,	22469,
++22449,	22429,	22409,	22390,	22370,
++22350,	22336,	22310,	22290,	22271,
++22251,	22231,	22212,	22192,	22173,
++22153,	22134,	22114,	22095,	22075,
++22056,	22037,	22017,	21998,	21979,
++21960,	21941,	21921,	21902,	21883,
++21864,	21845,	21826,	21807,	21789,
++21770,	21751,	21732,	21713,	21695,
++21676,	21657,	21639,	21620,	21602,
++21583,	21565,	21546,	21528,	21509,
++21491,	21473,	21454,	21436,	21418,
++21400,	21381,	21363,	21345,	21327,
++21309,	21291,	21273,	21255,	21237,
++21219,	21201,	21183,	21166,	21148,
++21130,	21112,	21095,	21077,	21059,
++21042,	21024,	21007,	20989,	20972,
++25679,	25653,	25627,	25601,	25575,
++25549,	25523,	25497,	25471,	25446,
++25420,	25394,	25369,	25343,	25318,
++25292,	25267,	25242,	25216,	25191,
++25166	};
++
++static u32 TargetChnl_2G[TARGET_CHNL_NUM_2G] = {	// channel 1~14
++26084, 26030, 25976, 25923, 25869, 25816, 25764,
++25711, 25658, 25606, 25554, 25502, 25451, 25328
++};
++
++
++#ifdef CONFIG_PCI_HCI
++	#include <pci_ops.h>
++	#include "Hal8192DEHWImg.h"
++
++	#define RTL819X_DEFAULT_RF_TYPE			RF_2T2R
++
++//---------------------------------------------------------------------
++//		RTL8192DE From file
++//---------------------------------------------------------------------
++	#define RTL8192D_FW_IMG 					"rtl8192DE\\rtl8192dfw.bin"
++
++	#define RTL8192D_PHY_REG					"rtl8192DE\\PHY_REG.txt"
++	#define RTL8192D_PHY_REG_PG				"rtl8192DE\\PHY_REG_PG.txt"
++	#define RTL8192D_PHY_REG_MP				"rtl8192DE\\PHY_REG_MP.txt"
++	
++	#define RTL8192D_AGC_TAB					"rtl8192DE\\AGC_TAB.txt"
++	#define RTL8192D_AGC_TAB_2G				"rtl8192DE\\AGC_TAB_2G.txt"
++	#define RTL8192D_AGC_TAB_5G				"rtl8192DE\\AGC_TAB_5G.txt"
++	#define RTL8192D_PHY_RADIO_A				"rtl8192DE\\radio_a.txt"
++	#define RTL8192D_PHY_RADIO_B				"rtl8192DE\\radio_b.txt"
++	#define RTL8192D_PHY_RADIO_A_intPA		"rtl8192DE\\radio_a_intPA.txt"
++	#define RTL8192D_PHY_RADIO_B_intPA		"rtl8192DE\\radio_b_intPA.txt"			
++	#define RTL8192D_PHY_MACREG				"rtl8192DE\\MAC_REG.txt"
++
++//---------------------------------------------------------------------
++//		RTL8192DE From header
++//---------------------------------------------------------------------
++
++	// Fw Array
++	#define Rtl8192D_FwImageArray 				Rtl8192DEFwImgArray
++
++	// MAC/BB/PHY Array
++	#define Rtl8192D_MAC_Array					Rtl8192DEMAC_2T_Array
++	#define Rtl8192D_AGCTAB_Array				Rtl8192DEAGCTAB_Array
++	#define Rtl8192D_AGCTAB_5GArray			Rtl8192DEAGCTAB_5GArray
++	#define Rtl8192D_AGCTAB_2GArray			Rtl8192DEAGCTAB_2GArray
++	#define Rtl8192D_AGCTAB_2TArray 			Rtl8192DEAGCTAB_2TArray
++	#define Rtl8192D_AGCTAB_1TArray 			Rtl8192DEAGCTAB_1TArray
++	#define Rtl8192D_PHY_REG_2TArray			Rtl8192DEPHY_REG_2TArray		
++	#define Rtl8192D_PHY_REG_1TArray			Rtl8192DEPHY_REG_1TArray
++	#define Rtl8192D_PHY_REG_Array_PG			Rtl8192DEPHY_REG_Array_PG
++	#define Rtl8192D_PHY_REG_Array_MP			Rtl8192DEPHY_REG_Array_MP
++	#define Rtl8192D_RadioA_2TArray				Rtl8192DERadioA_2TArray
++	#define Rtl8192D_RadioA_1TArray				Rtl8192DERadioA_1TArray
++	#define Rtl8192D_RadioB_2TArray				Rtl8192DERadioB_2TArray
++	#define Rtl8192D_RadioB_1TArray				Rtl8192DERadioB_1TArray
++	#define Rtl8192D_RadioA_2T_intPAArray		Rtl8192DERadioA_2T_intPAArray
++	#define Rtl8192D_RadioB_2T_intPAArray 		Rtl8192DERadioB_2T_intPAArray
++
++	// Array length
++	#define Rtl8192D_FwImageArrayLength				Rtl8192DEImgArrayLength
++	#define Rtl8192D_MAC_ArrayLength				Rtl8192DEMAC_2T_ArrayLength
++	#define Rtl8192D_AGCTAB_5GArrayLength			Rtl8192DEAGCTAB_5GArrayLength
++	#define Rtl8192D_AGCTAB_2GArrayLength			Rtl8192DEAGCTAB_2GArrayLength
++	#define Rtl8192D_AGCTAB_2TArrayLength			Rtl8192DEAGCTAB_2TArrayLength
++	#define Rtl8192D_AGCTAB_1TArrayLength			Rtl8192DEAGCTAB_1TArrayLength
++	#define Rtl8192D_AGCTAB_ArrayLength 			Rtl8192DEAGCTAB_ArrayLength
++	#define Rtl8192D_PHY_REG_2TArrayLength			Rtl8192DEPHY_REG_2TArrayLength
++	#define Rtl8192D_PHY_REG_1TArrayLength			Rtl8192DEPHY_REG_1TArrayLength
++	#define Rtl8192D_PHY_REG_Array_PGLength		Rtl8192DEPHY_REG_Array_PGLength
++	#define Rtl8192D_PHY_REG_Array_MPLength		Rtl8192DEPHY_REG_Array_MPLength
++	#define Rtl8192D_RadioA_2TArrayLength			Rtl8192DERadioA_2TArrayLength
++	#define Rtl8192D_RadioB_2TArrayLength			Rtl8192DERadioB_2TArrayLength
++	#define Rtl8192D_RadioA_2T_intPAArrayLength		Rtl8192DERadioA_2T_intPAArrayLength
++	#define Rtl8192D_RadioB_2T_intPAArrayLength		Rtl8192DERadioB_2T_intPAArrayLength
++
++#elif defined(CONFIG_USB_HCI)
++
++	#include "Hal8192DUHWImg.h"
++#ifdef CONFIG_WOWLAN
++	#include "Hal8192DUHWImg_wowlan.h"
++#endif //CONFIG_WOWLAN
++	#define RTL819X_DEFAULT_RF_TYPE		RF_1T2R
++
++//---------------------------------------------------------------------
++//		RTL8192DU From file
++//---------------------------------------------------------------------
++	#define RTL8192D_FW_IMG					"rtl8192DU\\rtl8192dfw.bin"
++
++	#define RTL8192D_PHY_REG					"rtl8192DU\\PHY_REG.txt"
++	#define RTL8192D_PHY_REG_PG				"rtl8192DU\\PHY_REG_PG.txt"
++	#define RTL8192D_PHY_REG_MP				"rtl8192DU\\PHY_REG_MP.txt"			
++	
++	#define RTL8192D_AGC_TAB					"rtl8192DU\\AGC_TAB.txt"
++	#define RTL8192D_AGC_TAB_2G				"rtl8192DU\\AGC_TAB_2G.txt"
++	#define RTL8192D_AGC_TAB_5G				"rtl8192DU\\AGC_TAB_5G.txt"
++	#define RTL8192D_PHY_RADIO_A				"rtl8192DU\\radio_a.txt"
++	#define RTL8192D_PHY_RADIO_B				"rtl8192DU\\radio_b.txt"
++	#define RTL8192D_PHY_RADIO_A_intPA		"rtl8192DU\\radio_a_intPA.txt"
++	#define RTL8192D_PHY_RADIO_B_intPA		"rtl8192DU\\radio_b_intPA.txt"
++	#define RTL8192D_PHY_MACREG				"rtl8192DU\\MAC_REG.txt"
++
++//---------------------------------------------------------------------
++//		RTL8192DU From header
++//---------------------------------------------------------------------
++		
++	// Fw Array
++	#define Rtl8192D_FwImageArray 					Rtl8192DUFwImgArray
++#ifdef CONFIG_WOWLAN
++	#define Rtl8192D_FwWWImageArray				Rtl8192DUFwWWImgArray
++#endif //CONFIG_WOWLAN
++	// MAC/BB/PHY Array
++	#define Rtl8192D_MAC_Array						Rtl8192DUMAC_2T_Array
++	#define Rtl8192D_AGCTAB_Array					Rtl8192DUAGCTAB_Array
++	#define Rtl8192D_AGCTAB_5GArray				Rtl8192DUAGCTAB_5GArray
++	#define Rtl8192D_AGCTAB_2GArray				Rtl8192DUAGCTAB_2GArray
++	#define Rtl8192D_AGCTAB_2TArray 				Rtl8192DUAGCTAB_2TArray
++	#define Rtl8192D_AGCTAB_1TArray 				Rtl8192DUAGCTAB_1TArray
++	#define Rtl8192D_PHY_REG_2TArray				Rtl8192DUPHY_REG_2TArray			
++	#define Rtl8192D_PHY_REG_1TArray				Rtl8192DUPHY_REG_1TArray
++	#define Rtl8192D_PHY_REG_Array_PG				Rtl8192DUPHY_REG_Array_PG
++	#define Rtl8192D_PHY_REG_Array_MP				Rtl8192DUPHY_REG_Array_MP
++	#define Rtl8192D_RadioA_2TArray					Rtl8192DURadioA_2TArray
++	#define Rtl8192D_RadioA_1TArray					Rtl8192DURadioA_1TArray
++	#define Rtl8192D_RadioB_2TArray					Rtl8192DURadioB_2TArray
++	#define Rtl8192D_RadioB_1TArray					Rtl8192DURadioB_1TArray
++	#define Rtl8192D_RadioA_2T_intPAArray			Rtl8192DURadioA_2T_intPAArray
++	#define Rtl8192D_RadioB_2T_intPAArray 			Rtl8192DURadioB_2T_intPAArray
++	
++	// Array length
++	#define Rtl8192D_FwImageArrayLength			Rtl8192DUImgArrayLength
++	#define Rtl8192D_MAC_ArrayLength				Rtl8192DUMAC_2T_ArrayLength
++	#define Rtl8192D_AGCTAB_5GArrayLength			Rtl8192DUAGCTAB_5GArrayLength
++	#define Rtl8192D_AGCTAB_2GArrayLength			Rtl8192DUAGCTAB_2GArrayLength
++	#define Rtl8192D_AGCTAB_2TArrayLength			Rtl8192DUAGCTAB_2TArrayLength
++	#define Rtl8192D_AGCTAB_1TArrayLength			Rtl8192DUAGCTAB_1TArrayLength
++	#define Rtl8192D_AGCTAB_ArrayLength 			Rtl8192DUAGCTAB_ArrayLength
++	#define Rtl8192D_PHY_REG_2TArrayLength			Rtl8192DUPHY_REG_2TArrayLength
++	#define Rtl8192D_PHY_REG_1TArrayLength			Rtl8192DUPHY_REG_1TArrayLength
++	#define Rtl8192D_PHY_REG_Array_PGLength		Rtl8192DUPHY_REG_Array_PGLength
++	#define Rtl8192D_PHY_REG_Array_MPLength		Rtl8192DUPHY_REG_Array_MPLength
++	#define Rtl8192D_RadioA_2TArrayLength			Rtl8192DURadioA_2TArrayLength
++	#define Rtl8192D_RadioB_2TArrayLength			Rtl8192DURadioB_2TArrayLength
++	#define Rtl8192D_RadioA_2T_intPAArrayLength		Rtl8192DURadioA_2T_intPAArrayLength			
++	#define Rtl8192D_RadioB_2T_intPAArrayLength		Rtl8192DURadioB_2T_intPAArrayLength
++
++	// The file name "_2T" is for 92CU, "_1T"  is for 88CU. Modified by tynli. 2009.11.24.
++/*	#define Rtl819XFwImageArray					Rtl8192DUFwImgArray
++	#define Rtl819XMAC_Array					Rtl8192DUMAC_2TArray
++	#define Rtl819XAGCTAB_Array					Rtl8192DUAGCTAB_Array
++	#define Rtl819XAGCTAB_5GArray				Rtl8192DUAGCTAB_5GArray
++	#define Rtl819XAGCTAB_2GArray				Rtl8192DUAGCTAB_2GArray
++	#define Rtl819XPHY_REG_2TArray				Rtl8192DUPHY_REG_2TArray
++	#define Rtl819XPHY_REG_1TArray				Rtl8192DUPHY_REG_1TArray
++	#define Rtl819XRadioA_2TArray				Rtl8192DURadioA_2TArray
++	#define Rtl819XRadioA_1TArray				Rtl8192DURadioA_1TArray
++	#define Rtl819XRadioA_2T_intPAArray 			Rtl8192DURadioA_2T_intPAArray
++	#define Rtl819XRadioB_2TArray				Rtl8192DURadioB_2TArray
++	#define Rtl819XRadioB_1TArray				Rtl8192DURadioB_1TArray
++	#define Rtl819XRadioB_2T_intPAArray 			Rtl8192DURadioB_2T_intPAArray
++	#define Rtl819XPHY_REG_Array_PG 			Rtl8192DUPHY_REG_Array_PG
++	#define Rtl819XPHY_REG_Array_MP 			Rtl8192DUPHY_REG_Array_MP
++
++	#define Rtl819XAGCTAB_2TArray				Rtl8192DUAGCTAB_2TArray
++	#define Rtl819XAGCTAB_1TArray				Rtl8192DUAGCTAB_1TArray*/
++
++#endif
++
++#define DRVINFO_SZ	4 // unit is 8bytes
++#define PageNum_128(_Len)		(u32)(((_Len)>>7) + ((_Len)&0x7F ? 1:0))
++
++//
++// Check if FW header exists. We do not consider the lower 4 bits in this case. 
++// By tynli. 2009.12.04.
++//
++#define IS_FW_HEADER_EXIST(_pFwHdr)	((le16_to_cpu(_pFwHdr->Signature)&0xFFF0) == 0x92C0 ||\
++									(le16_to_cpu(_pFwHdr->Signature)&0xFFF0) == 0x88C0 ||\
++									(le16_to_cpu(_pFwHdr->Signature)&0xFFFF) == 0x92D0 ||\
++									(le16_to_cpu(_pFwHdr->Signature)&0xFFFF) == 0x92D1 ||\
++									(le16_to_cpu(_pFwHdr->Signature)&0xFFFF) == 0x92D2 ||\
++									(le16_to_cpu(_pFwHdr->Signature)&0xFFFF) == 0x92D3 )
++
++#define FW_8192D_SIZE				0x8020 // Max FW len = 32k + 32(FW header length).
++#define FW_8192D_START_ADDRESS	0x1000
++#define FW_8192D_END_ADDRESS		0x1FFF
++
++#define MAX_PAGE_SIZE				4096	// @ page : 4k bytes
++
++typedef enum _FIRMWARE_SOURCE{
++	FW_SOURCE_IMG_FILE = 0,
++	FW_SOURCE_HEADER_FILE = 1,		//from header file
++}FIRMWARE_SOURCE, *PFIRMWARE_SOURCE;
++
++typedef struct _RT_FIRMWARE{
++	FIRMWARE_SOURCE	eFWSource;
++	u8*			szFwBuffer;
++	u32			ulFwLength;
++#ifdef CONFIG_WOWLAN
++	u8*			szWoWLANFwBuffer;
++	u32			ulWoWLANFwLength;
++#endif //CONFIG_WOWLAN
++}RT_FIRMWARE, *PRT_FIRMWARE, RT_FIRMWARE_92D, *PRT_FIRMWARE_92D;
++
++//
++// This structure must be cared byte-ordering
++//
++// Added by tynli. 2009.12.04.
++typedef struct _RT_8192D_FIRMWARE_HDR {//8-byte alinment required
++
++	//--- LONG WORD 0 ----
++	u16		Signature;	// 92C0: test chip; 92C, 88C0: test chip; 88C1: MP A-cut; 92C1: MP A-cut
++	u8		Category;	// AP/NIC and USB/PCI
++	u8		Function;	// Reserved for different FW function indcation, for further use when driver needs to download different FW in different conditions
++	u16		Version;		// FW Version
++	u8		Subversion;	// FW Subversion, default 0x00
++	u8		Rsvd1;
++
++
++	//--- LONG WORD 1 ----
++	u8		Month;	// Release time Month field
++	u8		Date;	// Release time Date field
++	u8		Hour;	// Release time Hour field
++	u8		Minute;	// Release time Minute field
++	u16		RamCodeSize;	// The size of RAM code
++	u16		Rsvd2;
++
++	//--- LONG WORD 2 ----
++	u32		SvnIdx;	// The SVN entry index
++	u32		Rsvd3;
++
++	//--- LONG WORD 3 ----
++	u32		Rsvd4;
++	u32		Rsvd5;
++
++}RT_8192D_FIRMWARE_HDR, *PRT_8192D_FIRMWARE_HDR;
++
++#define DRIVER_EARLY_INT_TIME		0x05
++#define BCN_DMA_ATIME_INT_TIME		0x02
++
++typedef	enum _BT_CoType{
++	BT_2Wire			= 0,		
++	BT_ISSC_3Wire	= 1,
++	BT_Accel			= 2,
++	BT_CSR			= 3,
++	BT_CSR_ENHAN	= 4,
++	BT_RTL8756		= 5,
++} BT_CoType, *PBT_CoType;
++
++typedef	enum _BT_CurState{
++	BT_OFF		= 0,	
++	BT_ON		= 1,
++} BT_CurState, *PBT_CurState;
++
++typedef	enum _BT_ServiceType{
++	BT_SCO			= 0,	
++	BT_A2DP			= 1,
++	BT_HID			= 2,
++	BT_HID_Idle		= 3,
++	BT_Scan			= 4,
++	BT_Idle			= 5,
++	BT_OtherAction	= 6,
++	BT_Busy			= 7,
++	BT_OtherBusy		= 8,
++} BT_ServiceType, *PBT_ServiceType;
++
++typedef	enum _BT_RadioShared{
++	BT_Radio_Shared 	= 0,	
++	BT_Radio_Individual	= 1,
++} BT_RadioShared, *PBT_RadioShared;
++
++typedef struct _BT_COEXIST_STR{
++	u8					BluetoothCoexist;
++	u8					BT_Ant_Num;
++	u8					BT_CoexistType;
++	u8					BT_State;
++	u8					BT_CUR_State;		//0:on, 1:off
++	u8					BT_Ant_isolation;	//0:good, 1:bad
++	u8					BT_PapeCtrl;		//0:SW, 1:SW/HW dynamic
++	u8					BT_Service;			
++	u8					BT_RadioSharedType;
++	u8					Ratio_Tx;
++	u8					Ratio_PRI;
++}BT_COEXIST_STR, *PBT_COEXIST_STR;
++
++//Added for 92D IQK setting.
++typedef struct _IQK_MATRIX_REGS_SETTING{
++	BOOLEAN 	bIQKDone;
++#if 1
++	int		Value[1][IQK_Matrix_REG_NUM];
++#else	
++	u32		Mark[IQK_Matrix_REG_NUM];
++	u32		Value[IQK_Matrix_REG_NUM];
++#endif	
++}IQK_MATRIX_REGS_SETTING,*PIQK_MATRIX_REGS_SETTING;
++
++#ifdef CONFIG_USB_RX_AGGREGATION
++
++typedef enum _USB_RX_AGG_MODE{
++	USB_RX_AGG_DISABLE,
++	USB_RX_AGG_DMA,
++	USB_RX_AGG_USB,
++	USB_RX_AGG_DMA_USB
++}USB_RX_AGG_MODE;
++
++#define MAX_RX_DMA_BUFFER_SIZE	10240		// 10K for 8192C RX DMA buffer
++
++#endif
++
++
++#define TX_SELE_HQ			BIT(0)		// High Queue
++#define TX_SELE_LQ			BIT(1)		// Low Queue
++#define TX_SELE_NQ			BIT(2)		// Normal Queue
++
++
++// Note: We will divide number of page equally for each queue other than public queue!
++
++#define TX_TOTAL_PAGE_NUMBER		0xF8
++#define TX_PAGE_BOUNDARY			(TX_TOTAL_PAGE_NUMBER + 1)
++
++// For Normal Chip Setting
++// (HPQ + LPQ + NPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER
++#define NORMAL_PAGE_NUM_PUBQ		0x56
++
++
++// For Test Chip Setting
++// (HPQ + LPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER
++#define TEST_PAGE_NUM_PUBQ_92DU			0x89
++#define TX_TOTAL_PAGE_NUMBER_92D_DUAL_MAC		0x7A
++#define NORMAL_PAGE_NUM_PUBQ_92D_DUAL_MAC			0x5A
++#define NORMAL_PAGE_NUM_HPQ_92D_DUAL_MAC			0x10
++#define NORMAL_PAGE_NUM_LPQ_92D_DUAL_MAC			0x10
++#define NORMAL_PAGE_NUM_NORMALQ_92D_DUAL_MAC		0
++
++#define TX_PAGE_BOUNDARY_DUAL_MAC			(TX_TOTAL_PAGE_NUMBER_92D_DUAL_MAC + 1)
++
++// For Test Chip Setting
++#define WMM_TEST_TX_TOTAL_PAGE_NUMBER	0xF5
++#define WMM_TEST_TX_PAGE_BOUNDARY	(WMM_TEST_TX_TOTAL_PAGE_NUMBER + 1) //F6
++
++#define WMM_TEST_PAGE_NUM_PUBQ		0xA3
++#define WMM_TEST_PAGE_NUM_HPQ		0x29
++#define WMM_TEST_PAGE_NUM_LPQ		0x29
++
++
++//Note: For Normal Chip Setting ,modify later
++#define WMM_NORMAL_TX_TOTAL_PAGE_NUMBER	0xF5
++#define WMM_NORMAL_TX_PAGE_BOUNDARY	(WMM_TEST_TX_TOTAL_PAGE_NUMBER + 1) //F6
++
++#define WMM_NORMAL_PAGE_NUM_PUBQ_92D		0X65//0x82
++#define WMM_NORMAL_PAGE_NUM_HPQ_92D		0X30//0x29
++#define WMM_NORMAL_PAGE_NUM_LPQ_92D		0X30
++#define WMM_NORMAL_PAGE_NUM_NPQ_92D		0X30
++
++#define WMM_NORMAL_PAGE_NUM_PUBQ_92D_DUAL_MAC		0X32
++#define WMM_NORMAL_PAGE_NUM_HPQ_92D_DUAL_MAC		0X18
++#define WMM_NORMAL_PAGE_NUM_LPQ_92D_DUAL_MAC		0X18
++#define WMM_NORMAL_PAGE_NUM_NPQ_92D_DUAL_MAC		0X18
++
++//-------------------------------------------------------------------------
++//	Chip specific
++//-------------------------------------------------------------------------
++
++#define CHIP_BONDING_IDENTIFIER(_value)	(((_value)>>22)&0x3)
++#define CHIP_BONDING_92C_1T2R	0x1
++#define CHIP_BONDING_88C_USB_MCARD	0x2
++#define CHIP_BONDING_88C_USB_HP	0x1
++
++//
++// 2011.01.06. Define new structure of chip version for RTL8723 and so on. Added by tynli.
++//
++/*
++     | BIT15:12           |  BIT11:8        | BIT 7              |  BIT6:4  |      BIT3          | BIT2:0  |
++     |-------------+-----------+-----------+-------+-----------+-------|
++     | IC version(CUT)  | ROM version  | Manufacturer  | RF type  |  Chip type       | IC Type |
++     |                           |                      | TSMC/UMC    |              | TEST/NORMAL|             |
++*/
++// [15:12] IC version(CUT): A-cut=0, B-cut=1, C-cut=2, D-cut=3
++// [7] Manufacturer: TSMC=0, UMC=1
++// [6:4] RF type: 1T1R=0, 1T2R=1, 2T2R=2
++// [3] Chip type: TEST=0, NORMAL=1
++// [2:0] IC type: 81xxC=0, 8723=1, 92D=2
++
++#define CHIP_8723						BIT(0)
++#define CHIP_92D						BIT(1)
++#define NORMAL_CHIP  					BIT(3)
++#define RF_TYPE_1T1R					(~(BIT(4)|BIT(5)|BIT(6)))
++#define RF_TYPE_1T2R					BIT(4)
++#define RF_TYPE_2T2R					BIT(5)
++#define CHIP_VENDOR_UMC				BIT(7)
++#define B_CUT_VERSION					BIT(12)
++#define C_CUT_VERSION					BIT(13)
++#define D_CUT_VERSION					((BIT(12)|BIT(13)))
++#define E_CUT_VERSION					BIT(14)
++
++
++// MASK
++#define IC_TYPE_MASK					(BIT(0)|BIT(1)|BIT(2))
++#define CHIP_TYPE_MASK 				BIT(3)
++#define RF_TYPE_MASK					(BIT(4)|BIT(5)|BIT(6))
++#define MANUFACTUER_MASK			BIT(7)	
++#define ROM_VERSION_MASK				(BIT(11)|BIT(10)|BIT(9)|BIT(8))
++#define CUT_VERSION_MASK				(BIT(15)|BIT(14)|BIT(13)|BIT(12))
++
++// Get element
++#define GET_CVID_IC_TYPE(version)			((version) & IC_TYPE_MASK)
++#define GET_CVID_CHIP_TYPE(version)			((version) & CHIP_TYPE_MASK)
++#define GET_CVID_RF_TYPE(version)			((version) & RF_TYPE_MASK)
++#define GET_CVID_MANUFACTUER(version)		((version) & MANUFACTUER_MASK)
++#define GET_CVID_ROM_VERSION(version)		((version) & ROM_VERSION_MASK)
++#define GET_CVID_CUT_VERSION(version)		((version) & CUT_VERSION_MASK)
++
++#define IS_81XXC(version)					((GET_CVID_IC_TYPE(version) == 0)? _TRUE : _FALSE)
++#define IS_8723_SERIES(version)				((GET_CVID_IC_TYPE(version) == CHIP_8723)? _TRUE : _FALSE)
++#define IS_92D(version)						((GET_CVID_IC_TYPE(version) == CHIP_92D)? _TRUE : _FALSE)
++#define IS_1T1R(version)						((GET_CVID_RF_TYPE(version))? _FALSE : _TRUE)
++#define IS_1T2R(version)						((GET_CVID_RF_TYPE(version) == RF_TYPE_1T2R)? _TRUE : _FALSE)
++#define IS_2T2R(version)						((GET_CVID_RF_TYPE(version) == RF_TYPE_2T2R)? _TRUE : _FALSE)
++#define IS_CHIP_VENDOR_UMC(version)			((GET_CVID_MANUFACTUER(version))? _TRUE: _FALSE)
++
++#define IS_92C_SERIAL(version)   				((IS_81XXC(version) && IS_2T2R(version)) ? _TRUE : _FALSE)
++#define IS_VENDOR_UMC_A_CUT(version)		((IS_CHIP_VENDOR_UMC(version)) ? ((GET_CVID_CUT_VERSION(version)) ? _FALSE : _TRUE) : _FALSE)
++#define IS_VENDOR_8723_A_CUT(version)		((IS_8723_SERIES(version)) ? ((GET_CVID_CUT_VERSION(version)) ? _FALSE : _TRUE) : _FALSE)
++// <tynli_Note> 88/92C UMC B-cut vendor is set to TSMC so we need to check CHIP_VENDOR_UMC bit is not 1. 
++#define IS_81xxC_VENDOR_UMC_B_CUT(version)	((IS_CHIP_VENDOR_UMC(version)) ? ((GET_CVID_CUT_VERSION(version) == B_CUT_VERSION) ? _TRUE : _FALSE):_FALSE)
++#define IS_92D_SINGLEPHY(version)     			((IS_92D(version)) ? (IS_2T2R(version) ? _TRUE: _FALSE) : _FALSE)
++
++#define IS_92D_C_CUT(version)    			((IS_92D(version)) ? ((GET_CVID_CUT_VERSION(version) == C_CUT_VERSION) ? _TRUE : _FALSE) : _FALSE)
++#define IS_92D_D_CUT(version)    			((IS_92D(version)) ? ((GET_CVID_CUT_VERSION(version) == D_CUT_VERSION) ? _TRUE : _FALSE) : _FALSE)
++#define IS_92D_E_CUT(version)    			((IS_92D(version)) ? ((GET_CVID_CUT_VERSION(version) == E_CUT_VERSION) ? _TRUE : _FALSE) : _FALSE)
++#define IS_NORMAL_CHIP92D(version)		((GET_CVID_CHIP_TYPE(version))? _TRUE: _FALSE)
++
++typedef enum _VERSION_8192D{
++	VERSION_TEST_CHIP_88C = 0x0000,
++	VERSION_TEST_CHIP_92C = 0x0020,
++	VERSION_TEST_UMC_CHIP_8723 = 0x0081,
++	VERSION_NORMAL_TSMC_CHIP_88C = 0x0008, 
++	VERSION_NORMAL_TSMC_CHIP_92C = 0x0028,
++	VERSION_NORMAL_TSMC_CHIP_92C_1T2R = 0x0018,
++	VERSION_NORMAL_UMC_CHIP_88C_A_CUT = 0x0088,
++	VERSION_NORMAL_UMC_CHIP_92C_A_CUT = 0x00a8,
++	VERSION_NORMAL_UMC_CHIP_92C_1T2R_A_CUT = 0x0098,		
++	VERSION_NORMAL_UMC_CHIP_8723_1T1R_A_CUT = 0x0089,
++	VERSION_NORMAL_UMC_CHIP_8723_1T1R_B_CUT = 0x1089,	
++	VERSION_NORMAL_UMC_CHIP_88C_B_CUT = 0x1088, 
++	VERSION_NORMAL_UMC_CHIP_92C_B_CUT = 0x10a8, 
++	VERSION_NORMAL_UMC_CHIP_92C_1T2R_B_CUT = 0x1090, 
++	VERSION_TEST_CHIP_92D_SINGLEPHY= 0x0022,
++	VERSION_TEST_CHIP_92D_DUALPHY = 0x0002,
++	VERSION_NORMAL_CHIP_92D_SINGLEPHY= 0x002a,
++	VERSION_NORMAL_CHIP_92D_DUALPHY = 0x000a,
++	VERSION_NORMAL_CHIP_92D_C_CUT_SINGLEPHY = 0x202a,
++	VERSION_NORMAL_CHIP_92D_C_CUT_DUALPHY = 0x200a,
++	VERSION_NORMAL_CHIP_92D_D_CUT_SINGLEPHY = 0x302a,
++	VERSION_NORMAL_CHIP_92D_D_CUT_DUALPHY = 0x300a,
++	VERSION_NORMAL_CHIP_92D_E_CUT_SINGLEPHY = 0x402a,
++	VERSION_NORMAL_CHIP_92D_E_CUT_DUALPHY = 0x400a,
++}VERSION_8192D,*PVERSION_8192D;
++
++
++//-------------------------------------------------------------------------
++//	Channel Plan
++//-------------------------------------------------------------------------
++enum ChannelPlan{
++	CHPL_FCC	= 0,
++	CHPL_IC		= 1,
++	CHPL_ETSI	= 2,
++	CHPL_SPAIN	= 3,
++	CHPL_FRANCE	= 4,
++	CHPL_MKK	= 5,
++	CHPL_MKK1	= 6,
++	CHPL_ISRAEL	= 7,
++	CHPL_TELEC	= 8,
++	CHPL_GLOBAL	= 9,
++	CHPL_WORLD	= 10,
++};
++
++typedef struct _TxPowerInfo{
++	u8 CCKIndex[RF_PATH_MAX][CHANNEL_GROUP_MAX];
++	u8 HT40_1SIndex[RF_PATH_MAX][CHANNEL_GROUP_MAX];
++	u8 HT40_2SIndexDiff[RF_PATH_MAX][CHANNEL_GROUP_MAX];
++	s8 HT20IndexDiff[RF_PATH_MAX][CHANNEL_GROUP_MAX];
++	u8 OFDMIndexDiff[RF_PATH_MAX][CHANNEL_GROUP_MAX];
++	u8 HT40MaxOffset[RF_PATH_MAX][CHANNEL_GROUP_MAX];
++	u8 HT20MaxOffset[RF_PATH_MAX][CHANNEL_GROUP_MAX];
++	u8 TSSI_A[3];
++	u8 TSSI_B[3];
++	u8 TSSI_A_5G[3];		//5GL/5GM/5GH
++	u8 TSSI_B_5G[3];
++}TxPowerInfo, *PTxPowerInfo;
++
++#define EFUSE_REAL_CONTENT_LEN	1024
++#define EFUSE_MAP_LEN				256
++#define EFUSE_MAX_SECTION			32
++#define EFUSE_MAX_SECTION_BASE	16
++// <Roger_Notes> To prevent out of boundary programming case, leave 1byte and program full section
++// 9bytes + 1byt + 5bytes and pre 1byte.
++// For worst case:
++// | 2byte|----8bytes----|1byte|--7bytes--| //92D
++#define EFUSE_OOB_PROTECT_BYTES 	18 // PG data exclude header, dummy 7 bytes frome CP test and reserved 1byte.
++
++typedef enum _PA_MODE {
++	PA_MODE_EXTERNAL = 0x00,
++	PA_MODE_INTERNAL_SP3T = 0x01,
++	PA_MODE_INTERNAL_SPDT = 0x02	
++} PA_MODE;
++
++/* Copy from rtl8192c */
++enum c2h_id_8192d {
++	C2H_DBG = 0,
++	C2H_TSF = 1,
++	C2H_AP_RPT_RSP = 2,
++	C2H_CCX_TX_RPT = 3,
++	C2H_BT_RSSI = 4,
++	C2H_BT_OP_MODE = 5,
++	C2H_EXT_RA_RPT = 6,
++	C2H_HW_INFO_EXCH = 10,
++	C2H_C2H_H2C_TEST = 11,
++	C2H_BT_INFO = 12,
++	C2H_BT_MP_INFO = 15,
++	MAX_C2HEVENT
++};
++
++#ifdef CONFIG_PCI_HCI
++struct hal_data_8192de
++{
++	VERSION_8192D	VersionID;
++
++	// add for 92D Phy mode/mac/Band mode 
++	MACPHY_MODE_8192D	MacPhyMode92D;
++	BAND_TYPE	CurrentBandType92D;	//0:2.4G, 1:5G
++	BAND_TYPE	BandSet92D;
++	BOOLEAN		bIsVS;
++	BOOLEAN		bSupportRemoteWakeUp;
++	u8	AutoLoadStatusFor8192D;
++
++	BOOLEAN		bNOPG;
++
++	BOOLEAN       bMasterOfDMSP;
++	BOOLEAN       bSlaveOfDMSP;
++
++	u16	CustomerID;
++
++	u16	FirmwareVersion;
++	u16	FirmwareVersionRev;
++	u16	FirmwareSubVersion;
++
++	u32	IntrMask[2];
++	u32	IntrMaskToSet[2];
++
++	u32	DisabledFunctions;
++
++	//current WIFI_PHY values
++	u32	ReceiveConfig;
++	u32	TransmitConfig;
++	WIRELESS_MODE	CurrentWirelessMode;
++	HT_CHANNEL_WIDTH	CurrentChannelBW;
++	u8	CurrentChannel;
++	u8	nCur40MhzPrimeSC;// Control channel sub-carrier
++	u16	BasicRateSet;
++
++	//rf_ctrl
++	u8	rf_chip;
++	u8	rf_type;
++	u8	NumTotalRFPath;
++
++	//
++	// EEPROM setting.
++	//
++	u16	EEPROMVID;
++	u16	EEPROMDID;
++	u16	EEPROMSVID;
++	u16	EEPROMSMID;
++	u16	EEPROMChannelPlan;
++	u16	EEPROMVersion;
++
++	u8	EEPROMCustomerID;
++	u8	EEPROMBoardType;
++	u8	EEPROMRegulatory;
++
++	u8	EEPROMThermalMeter;
++
++	u8	EEPROMC9;
++	u8	EEPROMCC;
++	u8	PAMode;
++
++	u8	TxPwrLevelCck[RF_PATH_MAX][CHANNEL_MAX_NUMBER_2G];
++	u8	TxPwrLevelHT40_1S[RF_PATH_MAX][CHANNEL_MAX_NUMBER];	// For HT 40MHZ pwr
++	u8	TxPwrLevelHT40_2S[RF_PATH_MAX][CHANNEL_MAX_NUMBER];	// For HT 40MHZ pwr	
++	s8	TxPwrHt20Diff[RF_PATH_MAX][CHANNEL_MAX_NUMBER];// HT 20<->40 Pwr diff
++	u8	TxPwrLegacyHtDiff[RF_PATH_MAX][CHANNEL_MAX_NUMBER];// For HT<->legacy pwr diff
++	// For power group
++	u8	PwrGroupHT20[RF_PATH_MAX][CHANNEL_MAX_NUMBER];
++	u8	PwrGroupHT40[RF_PATH_MAX][CHANNEL_MAX_NUMBER];
++
++	u8	LegacyHTTxPowerDiff;// Legacy to HT rate power diff
++
++	u8	CrystalCap;	// CrystalCap.
++
++#ifdef CONFIG_BT_COEXIST
++	struct btcoexist_priv	bt_coexist;
++#endif
++
++	// Read/write are allow for following hardware information variables
++	u8	framesync;
++	u32	framesyncC34;
++	u8	framesyncMonitor;
++	u8	DefaultInitialGain[4];
++	u8	pwrGroupCnt;
++	u32	MCSTxPowerLevelOriginalOffset[MAX_PG_GROUP][16];
++	u32	CCKTxPowerLevelOriginalOffset;
++
++	u32	AntennaTxPath;					// Antenna path Tx
++	u32	AntennaRxPath;					// Antenna path Rx
++	u8	BluetoothCoexist;
++	u8	ExternalPA;
++	u8	InternalPA5G[2];	//pathA / pathB
++
++	//u32	LedControlNum;
++	//u32	LedControlMode;
++	//u32	TxPowerTrackControl;
++	u8	b1x1RecvCombine;	// for 1T1R receive combining
++
++	u8	bCurrentTurboEDCA;
++	u32	AcParam_BE; //Original parameter for BE, use for EDCA turbo.
++
++	//vivi, for tx power tracking, 20080407
++	//u16	TSSI_13dBm;
++	//u32	Pwr_Track;
++	// The current Tx Power Level
++	u8	CurrentCckTxPwrIdx;
++	u8	CurrentOfdm24GTxPwrIdx;
++
++	BB_REGISTER_DEFINITION_T	PHYRegDef[4];	//Radio A/B/C/D
++
++	BOOLEAN		bRFPathRxEnable[4];	// We support 4 RF path now.
++
++	u32	RfRegChnlVal[2];
++
++	u8	bCckHighPower;
++
++	BOOLEAN		bPhyValueInitReady;
++
++	BOOLEAN		bTXPowerDataReadFromEEPORM;
++
++	BOOLEAN		bInSetPower;
++
++	//RDG enable
++	BOOLEAN		bRDGEnable;
++
++	BOOLEAN		bLoadIMRandIQKSettingFor2G;// True if IMR or IQK  have done  for 2.4G in scan progress
++	BOOLEAN		bNeedIQK;
++
++	BOOLEAN		bLCKInProgress;
++
++	BOOLEAN		bEarlyModeEnable;
++
++#if 1
++	IQK_MATRIX_REGS_SETTING IQKMatrixRegSetting[IQK_Matrix_Settings_NUM];
++#else
++	//regc80¡¢regc94¡¢regc4c¡¢regc88¡¢regc9c¡¢regc14¡¢regca0¡¢regc1c¡¢regc78
++	u4Byte				IQKMatrixReg[IQK_Matrix_REG_NUM];
++	IQK_MATRIX_REGS_SETTING			   IQKMatrixRegSetting[IQK_Matrix_Settings_NUM];	// 1->2G,24->5G 20M channel,21->5G 40M channel.													
++#endif
++
++	//for host message to fw
++	u8	LastHMEBoxNum;
++
++	u8	fw_ractrl;
++	// Beacon function related global variable.
++	u32	RegBcnCtrlVal;
++	u8	RegTxPause;
++	u8	RegFwHwTxQCtrl;
++	u8	RegReg542;
++	u8	RegCR_1;
++
++	struct dm_priv	dmpriv;
++
++	u8	bInterruptMigration;
++
++	u8	FwRsvdPageStartOffset; //2010.06.23. Added by tynli. Reserve page start offset except beacon in TxQ.
++
++	// Add for dual MAC  0--Mac0 1--Mac1
++	u32	interfaceIndex;
++
++	u16	RegRRSR;
++
++	u16	EfuseUsedBytes;
++	u8	RTSInitRate;	 // 2010.11.24.by tynli.
++#ifdef CONFIG_P2P
++	struct P2P_PS_Offload_t	p2p_ps_offload;
++#endif //CONFIG_P2P
++};
++
++typedef struct hal_data_8192de HAL_DATA_TYPE, *PHAL_DATA_TYPE;
++
++//
++// Function disabled.
++//
++#define DF_TX_BIT		BIT0
++#define DF_RX_BIT		BIT1
++#define DF_IO_BIT		BIT2
++#define DF_IO_D3_BIT			BIT3
++
++#define RT_DF_TYPE		u32
++#define RT_DISABLE_FUNC(__pAdapter, __FuncBits) ((__pAdapter)->DisabledFunctions |= ((RT_DF_TYPE)(__FuncBits)))
++#define RT_ENABLE_FUNC(__pAdapter, __FuncBits) ((__pAdapter)->DisabledFunctions &= (~((RT_DF_TYPE)(__FuncBits))))
++#define RT_IS_FUNC_DISABLED(__pAdapter, __FuncBits) ( (__pAdapter)->DisabledFunctions & (__FuncBits) )
++
++void InterruptRecognized8192DE(PADAPTER Adapter, PRT_ISR_CONTENT pIsrContent);
++VOID UpdateInterruptMask8192DE(PADAPTER Adapter, u32 AddMSR, u32 RemoveMSR);
++#endif
++
++#ifdef CONFIG_USB_HCI
++
++//should be renamed and moved to another file
++typedef	enum _INTERFACE_SELECT_8192DUSB{
++	INTF_SEL0_USB 			= 0,		// USB
++	INTF_SEL1_MINICARD	= 1,		// Minicard
++	INTF_SEL2_EKB_PRO		= 2,		// Eee keyboard proprietary
++	INTF_SEL3_PRO			= 3,		// Customized proprietary
++} INTERFACE_SELECT_8192DUSB, *PINTERFACE_SELECT_8192DUSB;
++
++typedef INTERFACE_SELECT_8192DUSB INTERFACE_SELECT_USB;
++
++struct hal_data_8192du
++{
++	VERSION_8192D	VersionID;
++
++	// add for 92D Phy mode/mac/Band mode 
++	MACPHY_MODE_8192D	MacPhyMode92D;
++	BAND_TYPE	CurrentBandType92D;	//0:2.4G, 1:5G
++	BAND_TYPE	BandSet92D;
++	BOOLEAN		bIsVS;
++
++	BOOLEAN		bNOPG;
++
++	BOOLEAN		bSupportRemoteWakeUp;
++	BOOLEAN		bMasterOfDMSP;
++	BOOLEAN		bSlaveOfDMSP;
++#ifdef CONFIG_DUALMAC_CONCURRENT
++	BOOLEAN		bInModeSwitchProcess;
++#endif
++
++	u16	CustomerID;
++
++	u16	FirmwareVersion;
++	u16	FirmwareVersionRev;
++	u16	FirmwareSubVersion;
++
++	//current WIFI_PHY values
++	u32	ReceiveConfig;
++	WIRELESS_MODE	CurrentWirelessMode;
++	HT_CHANNEL_WIDTH	CurrentChannelBW;
++	u8	CurrentChannel;
++	u8	nCur40MhzPrimeSC;// Control channel sub-carrier
++	u16	BasicRateSet;
++
++	INTERFACE_SELECT_8192DUSB	InterfaceSel;
++
++	//rf_ctrl
++	u8	rf_chip;
++	u8	rf_type;
++	u8	NumTotalRFPath;
++
++	//
++	// EEPROM setting.
++	//
++	u8	EEPROMVersion;
++	u16	EEPROMVID;
++	u16	EEPROMPID;
++	u16	EEPROMSVID;
++	u16	EEPROMSDID;
++	u8	EEPROMCustomerID;
++	u8	EEPROMSubCustomerID;	
++	u8	EEPROMRegulatory;
++
++	u8	EEPROMThermalMeter;
++
++	u8	EEPROMC9;
++	u8	EEPROMCC;
++	u8	PAMode;
++
++	u8	TxPwrLevelCck[RF_PATH_MAX][CHANNEL_MAX_NUMBER_2G];
++	u8	TxPwrLevelHT40_1S[RF_PATH_MAX][CHANNEL_MAX_NUMBER];	// For HT 40MHZ pwr
++	u8	TxPwrLevelHT40_2S[RF_PATH_MAX][CHANNEL_MAX_NUMBER];	// For HT 40MHZ pwr	
++	s8	TxPwrHt20Diff[RF_PATH_MAX][CHANNEL_MAX_NUMBER];// HT 20<->40 Pwr diff
++	u8	TxPwrLegacyHtDiff[RF_PATH_MAX][CHANNEL_MAX_NUMBER];// For HT<->legacy pwr diff
++	// For power group
++	u8	PwrGroupHT20[RF_PATH_MAX][CHANNEL_MAX_NUMBER];
++	u8	PwrGroupHT40[RF_PATH_MAX][CHANNEL_MAX_NUMBER];
++
++	u8	LegacyHTTxPowerDiff;// Legacy to HT rate power diff
++
++	u8	CrystalCap;	// CrystalCap.
++
++#ifdef CONFIG_BT_COEXIST
++	struct btcoexist_priv	bt_coexist;
++#endif
++
++	// Read/write are allow for following hardware information variables
++	u8	framesync;
++	u32	framesyncC34;
++	u8	framesyncMonitor;
++	u8	DefaultInitialGain[4];
++	u8	pwrGroupCnt;
++	u32	MCSTxPowerLevelOriginalOffset[MAX_PG_GROUP][16];
++	u32	CCKTxPowerLevelOriginalOffset;
++
++	u32	AntennaTxPath;					// Antenna path Tx
++	u32	AntennaRxPath;					// Antenna path Rx
++	u8	BluetoothCoexist;
++	u8	ExternalPA;
++	u8	InternalPA5G[2];	//pathA / pathB
++
++	//u32	LedControlNum;
++	//u32	LedControlMode;
++	//u32	TxPowerTrackControl;
++	u8	b1x1RecvCombine;	// for 1T1R receive combining
++
++	u8	bCurrentTurboEDCA;
++	u32	AcParam_BE; //Original parameter for BE, use for EDCA turbo.
++
++	//vivi, for tx power tracking, 20080407
++	//u16	TSSI_13dBm;
++	//u32	Pwr_Track;
++	// The current Tx Power Level
++	u8	CurrentCckTxPwrIdx;
++	u8	CurrentOfdm24GTxPwrIdx;
++
++	BB_REGISTER_DEFINITION_T	PHYRegDef[4];	//Radio A/B/C/D
++
++	BOOLEAN		bRFPathRxEnable[4];	// We support 4 RF path now.
++
++	u32	RfRegChnlVal[2];
++
++	u8	bCckHighPower;
++
++	BOOLEAN		bPhyValueInitReady;
++
++	BOOLEAN		bTXPowerDataReadFromEEPORM;
++
++	BOOLEAN		bInSetPower;
++
++	//RDG enable
++	BOOLEAN		bRDGEnable;
++
++	BOOLEAN		bLoadIMRandIQKSettingFor2G;// True if IMR or IQK  have done  for 2.4G in scan progress
++	BOOLEAN		bNeedIQK;
++
++	BOOLEAN		bLCKInProgress;
++
++	BOOLEAN		bEarlyModeEnable;
++
++#if 1
++	IQK_MATRIX_REGS_SETTING IQKMatrixRegSetting[IQK_Matrix_Settings_NUM];
++#else
++	//regc80¡¢regc94¡¢regc4c¡¢regc88¡¢regc9c¡¢regc14¡¢regca0¡¢regc1c¡¢regc78
++	u4Byte				IQKMatrixReg[IQK_Matrix_REG_NUM];
++	IQK_MATRIX_REGS_SETTING			   IQKMatrixRegSetting[IQK_Matrix_Settings_NUM];	// 1->2G,24->5G 20M channel,21->5G 40M channel.													
++#endif
++
++	//for host message to fw
++	u8	LastHMEBoxNum;
++
++	u8	fw_ractrl;
++	// Beacon function related global variable.
++	u32	RegBcnCtrlVal;
++	u8	RegTxPause;
++	u8	RegFwHwTxQCtrl;
++	u8	RegReg542;
++	u8	RegCR_1;
++
++	struct dm_priv	dmpriv;
++
++	u8	FwRsvdPageStartOffset; //2010.06.23. Added by tynli. Reserve page start offset except beacon in TxQ.
++
++	//Query RF by FW
++	BOOLEAN		bReadRFbyFW;
++
++	// For 92C USB endpoint setting
++	//
++
++	u32	UsbBulkOutSize;
++
++	int	RtBulkOutPipe[3];
++	int	RtBulkInPipe;
++	int	RtIntInPipe;
++
++	// Add for dual MAC  0--Mac0 1--Mac1
++	u32	interfaceIndex;
++
++	u8	OutEpQueueSel;
++	u8	OutEpNumber;
++
++	u8	Queue2EPNum[8];//for out endpoint number mapping
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	u8	UsbTxAggMode;
++	u8	UsbTxAggDescNum;
++#endif
++#ifdef CONFIG_USB_RX_AGGREGATION
++	u16	HwRxPageSize;				// Hardware setting
++	u32	MaxUsbRxAggBlock;
++
++	USB_RX_AGG_MODE	UsbRxAggMode;
++	u8	UsbRxAggBlockCount;			// USB Block count. Block size is 512-byte in hight speed and 64-byte in full speed
++	u8	UsbRxAggBlockTimeout;
++	u8	UsbRxAggPageCount;			// 8192C DMA page count
++	u8	UsbRxAggPageTimeout;
++#endif
++
++	u16	RegRRSR;
++
++	u16	EfuseUsedBytes;
++	u8	RTSInitRate;	 // 2010.11.24.by tynli.
++#ifdef CONFIG_P2P
++	struct P2P_PS_Offload_t	p2p_ps_offload;
++#endif //CONFIG_P2P
++};
++
++typedef struct hal_data_8192du HAL_DATA_TYPE, *PHAL_DATA_TYPE;
++#endif
++
++#define GET_HAL_DATA(__pAdapter)	((HAL_DATA_TYPE *)((__pAdapter)->HalData))
++#define GET_RF_TYPE(priv)	(GET_HAL_DATA(priv)->rf_type)
++
++int FirmwareDownload92D(IN	PADAPTER Adapter,IN	BOOLEAN  bUsedWoWLANFw);
++VOID rtl8192d_FirmwareSelfReset(IN PADAPTER Adapter);
++void rtl8192d_ReadChipVersion(IN PADAPTER Adapter);
++VOID rtl8192d_EfuseParseChnlPlan(PADAPTER Adapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++VOID rtl8192d_ReadTxPowerInfo(PADAPTER Adapter, u8* PROMContent, BOOLEAN AutoLoadFail);
++VOID rtl8192d_ResetDualMacSwitchVariables(IN PADAPTER Adapter);
++u8 GetEEPROMSize8192D(PADAPTER Adapter);
++BOOLEAN PHY_CheckPowerOffFor8192D(PADAPTER Adapter);
++VOID PHY_SetPowerOnFor8192D(PADAPTER Adapter);
++//void PHY_ConfigMacPhyMode92D(PADAPTER Adapter);
++void rtl8192d_free_hal_data(_adapter * padapter);
++void rtl8192d_set_hal_ops(struct hal_ops *pHalFunc);
++
++#endif
++
++#ifdef CONFIG_MP_INCLUDED
++
++
++extern void Hal_SetAntenna(PADAPTER pAdapter);
++extern void Hal_SetBandwidth(PADAPTER pAdapter);
++
++extern void Hal_SetTxPower(PADAPTER pAdapter);
++extern void Hal_SetCarrierSuppressionTx(PADAPTER pAdapter, u8 bStart);
++extern void Hal_SetSingleToneTx ( PADAPTER pAdapter , u8 bStart );
++extern void Hal_SetSingleCarrierTx (PADAPTER pAdapter, u8 bStart);
++extern void Hal_SetContinuousTx (PADAPTER pAdapter, u8 bStart);
++extern void Hal_SetBandwidth(PADAPTER pAdapter);
++
++extern void Hal_SetDataRate(PADAPTER pAdapter);
++extern void Hal_SetChannel(PADAPTER pAdapter);
++extern void Hal_SetAntennaPathPower(PADAPTER pAdapter);
++extern s32 Hal_SetThermalMeter(PADAPTER pAdapter, u8 target_ther);
++extern s32 Hal_SetPowerTracking(PADAPTER padapter, u8 enable);
++extern void Hal_GetPowerTracking(PADAPTER padapter, u8 * enable);
++extern void Hal_GetThermalMeter(PADAPTER pAdapter, u8 *value);
++extern void Hal_mpt_SwitchRfSetting(PADAPTER pAdapter);
++extern void Hal_MPT_CCKTxPowerAdjust(PADAPTER Adapter, BOOLEAN bInCH14);
++extern void Hal_MPT_CCKTxPowerAdjustbyIndex(PADAPTER pAdapter, BOOLEAN beven);
++extern void Hal_SetCCKTxPower(PADAPTER pAdapter, u8 * TxPower);
++extern void Hal_SetOFDMTxPower(PADAPTER pAdapter, u8 * TxPower);
++extern void Hal_TriggerRFThermalMeter(PADAPTER pAdapter);
++extern u8 Hal_ReadRFThermalMeter(PADAPTER pAdapter);
++extern void Hal_SetCCKContinuousTx(PADAPTER pAdapter, u8 bStart);
++extern void Hal_SetOFDMContinuousTx(PADAPTER pAdapter, u8 bStart);
++
++
++#endif //end CONFIG_MP_INCLUDED
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtl8192d_led.h b/drivers/net/wireless/rtl8192cu/include/rtl8192d_led.h
+new file mode 100755
+index 0000000..d736bda
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtl8192d_led.h
+@@ -0,0 +1,43 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192D_LED_H_
++#define __RTL8192D_LED_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++
++//================================================================================
++// Interface to manipulate LED objects.
++//================================================================================
++#ifdef CONFIG_USB_HCI
++void rtl8192du_InitSwLeds(_adapter *padapter);
++void rtl8192du_DeInitSwLeds(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++void rtl8192de_gen_RefreshLedState(PADAPTER Adapter);
++void rtl8192de_InitSwLeds(_adapter *padapter);
++void rtl8192de_DeInitSwLeds(_adapter *padapter);
++#endif
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtl8192d_recv.h b/drivers/net/wireless/rtl8192cu/include/rtl8192d_recv.h
+new file mode 100755
+index 0000000..36cc232
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtl8192d_recv.h
+@@ -0,0 +1,187 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8192D_RECV_H_
++#define _RTL8192D_RECV_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++
++#ifdef PLATFORM_OS_XP
++	#ifdef CONFIG_SDIO_HCI
++		#define NR_RECVBUFF 1024//512//128
++	#else
++		#define NR_RECVBUFF (16)
++	#endif
++#elif defined(PLATFORM_OS_CE)
++	#ifdef CONFIG_SDIO_HCI
++		#define NR_RECVBUFF (128)
++	#else
++		#define NR_RECVBUFF (4)
++	#endif
++#else
++#ifdef CONFIG_SINGLE_RECV_BUF
++	#define NR_RECVBUFF (1)
++#else
++	#define NR_RECVBUFF (4)
++#endif //CONFIG_SINGLE_RECV_BUF
++	#define NR_PREALLOC_RECV_SKB (8)
++#endif
++
++
++
++#define RECV_BLK_SZ 512
++#define RECV_BLK_CNT 16
++#define RECV_BLK_TH RECV_BLK_CNT
++
++#if defined(CONFIG_USB_HCI)
++
++#ifdef PLATFORM_OS_CE
++#define MAX_RECVBUF_SZ (8192+1024) // 8K+1k
++#else
++	#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++		//#define MAX_RECVBUF_SZ (32768) // 32k
++		//#define MAX_RECVBUF_SZ (16384) //16K
++		//#define MAX_RECVBUF_SZ (10240) //10K
++		#ifdef CONFIG_PLATFORM_MSTAR
++			#define MAX_RECVBUF_SZ (8192) // 8K
++		#else
++			#define MAX_RECVBUF_SZ (15360) // 15k < 16k
++		#endif
++	#else
++		#define MAX_RECVBUF_SZ (4000) // about 4K
++	#endif
++#endif
++
++#elif defined(CONFIG_PCI_HCI)
++//#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++//	#define MAX_RECVBUF_SZ (9100)
++//#else
++	#define MAX_RECVBUF_SZ (4000) // about 4K
++//#endif
++
++#define RX_MPDU_QUEUE				0
++#define RX_CMD_QUEUE				1
++#define RX_MAX_QUEUE				2
++#endif
++
++#define RECV_BULK_IN_ADDR		0x80
++#define RECV_INT_IN_ADDR		0x81
++
++#define PHY_RSSI_SLID_WIN_MAX				100
++#define PHY_LINKQUALITY_SLID_WIN_MAX		20
++
++struct phy_stat
++{
++	unsigned int phydw0;
++
++	unsigned int phydw1;
++
++	unsigned int phydw2;
++
++	unsigned int phydw3;
++
++	unsigned int phydw4;
++
++	unsigned int phydw5;
++
++	unsigned int phydw6;
++
++	unsigned int phydw7;
++};
++
++typedef struct _Phy_OFDM_Rx_Status_Report_8192cd
++{
++	unsigned char	trsw_gain_X[4];
++	unsigned char	pwdb_all;
++	unsigned char	cfosho_X[4];
++	unsigned char	cfotail_X[4];
++	unsigned char	rxevm_X[2];
++	unsigned char	rxsnr_X[4];
++	unsigned char	pdsnr_X[2];
++	unsigned char	csi_current_X[2];
++	unsigned char	csi_target_X[2];
++	unsigned char	sigevm;
++	unsigned char	max_ex_pwr;
++//#ifdef RTL8192SE
++#ifdef CONFIG_LITTLE_ENDIAN
++	unsigned char ex_intf_flg:1;
++	unsigned char sgi_en:1;
++	unsigned char rxsc:2;
++	//unsigned char rsvd:4;
++	unsigned char idle_long:1;
++	unsigned char r_ant_train_en:1;
++	unsigned char ANTSELB:1;
++	unsigned char ANTSEL:1;	
++#else	// _BIG_ENDIAN_
++	//unsigned char rsvd:4;
++	unsigned char ANTSEL:1;	
++	unsigned char ANTSELB:1;
++	unsigned char r_ant_train_en:1;
++	unsigned char idle_long:1;
++	unsigned char rxsc:2;
++	unsigned char sgi_en:1;
++	unsigned char ex_intf_flg:1;
++#endif
++//#else	// RTL8190, RTL8192E
++//	unsigned char	sgi_en;
++//	unsigned char	rxsc_sgien_exflg;
++//#endif
++}__attribute__ ((packed)) PHY_STS_OFDM_8192CD_T,PHY_RX_DRIVER_INFO_8192CD;
++
++typedef struct _Phy_CCK_Rx_Status_Report_8192cd
++{
++	/* For CCK rate descriptor. This is a signed 8:1 variable. LSB bit presend
++		0.5. And MSB 7 bts presend a signed value. Range from -64~+63.5. */
++	u8	adc_pwdb_X[4];
++	u8	SQ_rpt;
++	u8	cck_agc_rpt;
++} PHY_STS_CCK_8192CD_T;
++
++// Rx smooth factor
++#define	Rx_Smooth_Factor (20)
++
++#ifdef CONFIG_USB_HCI
++typedef struct _INTERRUPT_MSG_FORMAT_EX{
++	unsigned int C2H_MSG0;
++	unsigned int C2H_MSG1;
++	unsigned int C2H_MSG2;
++	unsigned int C2H_MSG3;
++	unsigned int HISR; // from HISR Reg0x124, read to clear
++	unsigned int HISRE;// from HISRE Reg0x12c, read to clear
++	unsigned int  MSG_EX;
++}INTERRUPT_MSG_FORMAT_EX,*PINTERRUPT_MSG_FORMAT_EX;
++
++void rtl8192du_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf);
++int	rtl8192du_init_recv_priv(_adapter * padapter);
++void	rtl8192du_free_recv_priv(_adapter * padapter);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++int	rtl8192de_init_recv_priv(_adapter * padapter);
++void rtl8192de_free_recv_priv(_adapter * padapter);
++#endif
++
++void rtl8192d_translate_rx_signal_stuff(union recv_frame *precvframe, struct phy_stat *pphy_info);
++void rtl8192d_query_rx_desc_status(union recv_frame *precvframe, struct recv_stat *pdesc);
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtl8192d_rf.h b/drivers/net/wireless/rtl8192cu/include/rtl8192d_rf.h
+new file mode 100755
+index 0000000..0b439a3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtl8192d_rf.h
+@@ -0,0 +1,97 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/******************************************************************************
++ * 
++ * 
++ * Module:	rtl8192d_rf.h	( Header File)
++ * 
++ * Note:	Collect every HAL RF type exter API or constant.	 
++ *
++ * Function:	
++ * 		 
++ * Export:	
++ * 
++ * Abbrev:	
++ * 
++ * History:
++ * Data			Who		Remark
++ * 
++ * 09/25/2008	MHC		Create initial version.
++ * 
++ * 
++******************************************************************************/
++#ifndef _RTL8192D_RF_H_
++#define _RTL8192D_RF_H_
++/* Check to see if the file has been included already.  */
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++//
++// For RF 6052 Series
++//
++#define		RF6052_MAX_TX_PWR			0x3F
++#define		RF6052_MAX_REG				0x3F
++#define		RF6052_MAX_PATH				2
++/*--------------------------Define Parameters-------------------------------*/
++
++
++/*------------------------------Define structure----------------------------*/ 
++
++/*------------------------------Define structure----------------------------*/ 
++
++
++/*------------------------Export global variable----------------------------*/
++/*------------------------Export global variable----------------------------*/
++
++/*------------------------Export Marco Definition---------------------------*/
++
++/*------------------------Export Marco Definition---------------------------*/
++
++
++/*--------------------------Exported Function prototype---------------------*/
++
++//
++// RF RL6052 Series API
++//
++void		rtl8192d_RF_ChangeTxPath(	IN	PADAPTER	Adapter, 
++										IN	u16		DataRate);
++void		rtl8192d_PHY_RF6052SetBandwidth(	
++										IN	PADAPTER				Adapter,
++										IN	HT_CHANNEL_WIDTH		Bandwidth);	
++VOID	rtl8192d_PHY_RF6052SetCckTxPower(
++										IN	PADAPTER	Adapter,
++										IN	u8*		pPowerlevel);
++VOID	rtl8192d_PHY_RF6052SetOFDMTxPower(
++										IN	PADAPTER	Adapter,
++										IN	u8*		pPowerLevel,
++										IN	u8		Channel);
++int	PHY_RF6052_Config8192D(	IN	PADAPTER		Adapter	);
++
++BOOLEAN	rtl8192d_PHY_EnableAnotherPHY(IN	PADAPTER Adapter, IN	BOOLEAN	 bMac0);
++
++void	rtl8192d_PHY_PowerDownAnotherPHY(IN PADAPTER Adapter, IN BOOLEAN bMac0);
++
++
++/*--------------------------Exported Function prototype---------------------*/
++
++
++#endif/* End of HalRf.h */
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtl8192d_spec.h b/drivers/net/wireless/rtl8192cu/include/rtl8192d_spec.h
+new file mode 100755
+index 0000000..bef7184
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtl8192d_spec.h
+@@ -0,0 +1,1841 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __RTL8192D_SPEC_H__
++#define __RTL8192D_SPEC_H__
++
++#include <drv_conf.h>
++
++#ifndef BIT
++#define BIT(x)		(1 << (x))
++#endif
++
++#define BIT0		0x00000001
++#define BIT1		0x00000002
++#define BIT2		0x00000004
++#define BIT3		0x00000008
++#define BIT4		0x00000010
++#define BIT5		0x00000020
++#define BIT6		0x00000040
++#define BIT7		0x00000080
++#define BIT8		0x00000100
++#define BIT9		0x00000200
++#define BIT10	0x00000400
++#define BIT11	0x00000800
++#define BIT12	0x00001000
++#define BIT13	0x00002000
++#define BIT14	0x00004000
++#define BIT15	0x00008000
++#define BIT16	0x00010000
++#define BIT17	0x00020000
++#define BIT18	0x00040000
++#define BIT19	0x00080000
++#define BIT20	0x00100000
++#define BIT21	0x00200000
++#define BIT22	0x00400000
++#define BIT23	0x00800000
++#define BIT24	0x01000000
++#define BIT25	0x02000000
++#define BIT26	0x04000000
++#define BIT27	0x08000000
++#define BIT28	0x10000000
++#define BIT29	0x20000000
++#define BIT30	0x40000000
++#define BIT31	0x80000000
++
++
++//============================================================
++//       8192D Regsiter offset definition
++//============================================================
++
++
++//============================================================
++//
++//============================================================
++
++//-----------------------------------------------------
++//
++//	0x0000h ~ 0x00FFh	System Configuration
++//
++//-----------------------------------------------------
++#define REG_SYS_ISO_CTRL			0x0000
++#define REG_SYS_FUNC_EN			0x0002
++#define REG_APS_FSMCO				0x0004
++#define REG_SYS_CLKR				0x0008
++#define REG_9346CR					0x000A
++#define REG_EE_VPD					0x000C
++#define REG_AFE_MISC				0x0010
++#define REG_SPS0_CTRL				0x0011
++#define REG_POWER_OFF_IN_PROCESS 0x0017
++#define REG_SPS_OCP_CFG			0x0018
++#define REG_RSV_CTRL				0x001C
++#define REG_RF_CTRL					0x001F
++#define REG_LDOA15_CTRL			0x0020
++#define REG_LDOV12D_CTRL			0x0021
++#define REG_LDOHCI12_CTRL			0x0022
++#define REG_LPLDO_CTRL				0x0023
++#define REG_AFE_XTAL_CTRL			0x0024
++#define REG_AFE_PLL_CTRL			0x0028
++#define REG_MAC_PHY_CTRL			0x002c //for 92d, DMDP,SMSP,DMSP contrl
++#define REG_EFUSE_CTRL				0x0030
++#define REG_EFUSE_TEST				0x0034
++#define REG_PWR_DATA				0x0038
++#define REG_CAL_TIMER				0x003C
++#define REG_ACLK_MON				0x003E
++#define REG_GPIO_MUXCFG			0x0040
++//#define REG_GPIO_MUXCFG				0x0041
++#define REG_GPIO_IO_SEL				0x0042
++#define REG_MAC_PINMUX_CFG		0x0043
++#define REG_GPIO_PIN_CTRL			0x0044
++#define REG_GPIO_INTM				0x0048
++#define REG_LEDCFG0					0x004C
++#define REG_LEDCFG1					0x004D
++#define REG_LEDCFG2					0x004E
++#define REG_LEDCFG3					0x004F
++#define REG_FSIMR					0x0050
++#define REG_FSISR					0x0054
++
++#define REG_MCUFWDL				0x0080
++#ifdef CONFIG_WOWLAN
++#define REG_WOWLAN_REASON			0x00FC
++#endif // CONFIG_WOWLAN
++#define REG_HMEBOX_EXT_0			0x0088
++#define REG_HMEBOX_EXT_1			0x008A
++#define REG_HMEBOX_EXT_2			0x008C
++#define REG_HMEBOX_EXT_3			0x008E
++
++#define REG_BIST_SCAN				0x00D0
++#define REG_BIST_RPT				0x00D4
++#define REG_BIST_ROM_RPT			0x00D8
++#define REG_USB_SIE_INTF			0x00E0
++#define REG_PCIE_MIO_INTF			0x00E4
++#define REG_PCIE_MIO_INTD			0x00E8
++#define REG_HPON_FSM				0x00EC
++#define REG_SYS_CFG					0x00F0
++#define REG_MAC_PHY_CTRL_NORMAL	0x00f8
++
++#define  REG_MAC0                                	0x0081
++#define  REG_MAC1                                	0x0053
++#define  FW_MAC0_ready                      	0x18
++#define  FW_MAC1_ready                      	0x1A
++#define  MAC0_ON                                  	BIT7
++#define  MAC1_ON                                  	BIT0
++#define  mac0_ready                             	BIT0
++#define  mac1_ready                             	BIT0
++
++
++//-----------------------------------------------------
++//
++//	0x0100h ~ 0x01FFh	MACTOP General Configuration
++//
++//-----------------------------------------------------
++#define REG_CR						0x0100
++#define REG_PBP						0x0104
++#define REG_TRXDMA_CTRL			0x010C
++#define REG_TRXFF_BNDY				0x0114
++#define REG_TRXFF_STATUS			0x0118
++#define REG_RXFF_PTR				0x011C
++#define REG_HIMR					0x0120
++#define REG_HISR					0x0124
++#define REG_HIMRE					0x0128
++#define REG_HISRE					0x012C
++#define REG_CPWM					0x012F
++#define REG_FWIMR					0x0130
++#define REG_FWISR					0x0134
++#define REG_FTIMR					0x0138
++#define REG_PKTBUF_DBG_CTRL		0x0140
++#define REG_PKTBUF_DBG_DATA_L		0x0144
++#define REG_PKTBUF_DBG_DATA_H	0x0148
++
++#define REG_TC0_CTRL				0x0150
++#define REG_TC1_CTRL				0x0154
++#define REG_TC2_CTRL				0x0158
++#define REG_TC3_CTRL				0x015C
++#define REG_TC4_CTRL				0x0160
++#define REG_TCUNIT_BASE			0x0164
++#define REG_MBIST_START			0x0174
++#define REG_MBIST_DONE				0x0178
++#define REG_MBIST_FAIL				0x017C
++#define REG_C2HEVT_MSG_NORMAL	0x01A0
++#define REG_C2HEVT_CLEAR			0x01AF
++#define REG_C2HEVT_MSG_TEST		0x01B8
++#define REG_MCUTST_1				0x01c0
++#define REG_FMETHR					0x01C8
++#define REG_HMETFR					0x01CC
++#define REG_HMEBOX_0				0x01D0
++#define REG_HMEBOX_1				0x01D4
++#define REG_HMEBOX_2				0x01D8
++#define REG_HMEBOX_3				0x01DC
++
++#define REG_LLT_INIT				0x01E0
++#define REG_BB_ACCEESS_CTRL		0x01E8
++#define REG_BB_ACCESS_DATA		0x01EC
++
++
++//-----------------------------------------------------
++//
++//	0x0200h ~ 0x027Fh	TXDMA Configuration
++//
++//-----------------------------------------------------
++#define REG_RQPN					0x0200
++#define REG_FIFOPAGE				0x0204
++#define REG_TDECTRL					0x0208
++#define REG_TXDMA_OFFSET_CHK		0x020C
++#define REG_TXDMA_STATUS			0x0210
++#define REG_RQPN_NPQ				0x0214
++
++//-----------------------------------------------------
++//
++//	0x0280h ~ 0x02FFh	RXDMA Configuration
++//
++//-----------------------------------------------------
++#define REG_RXDMA_AGG_PG_TH		0x0280
++#define REG_RXPKT_NUM				0x0284
++#define REG_RXDMA_STATUS			0x0288
++
++
++//-----------------------------------------------------
++//
++//	0x0300h ~ 0x03FFh	PCIe
++//
++//-----------------------------------------------------
++#define	REG_PCIE_CTRL_REG			0x0300
++#define	REG_INT_MIG				0x0304	// Interrupt Migration 
++#define	REG_BCNQ_DESA				0x0308	// TX Beacon Descriptor Address
++#define	REG_HQ_DESA				0x0310	// TX High Queue Descriptor Address
++#define	REG_MGQ_DESA				0x0318	// TX Manage Queue Descriptor Address
++#define	REG_VOQ_DESA				0x0320	// TX VO Queue Descriptor Address
++#define	REG_VIQ_DESA				0x0328	// TX VI Queue Descriptor Address
++#define	REG_BEQ_DESA				0x0330	// TX BE Queue Descriptor Address
++#define	REG_BKQ_DESA				0x0338	// TX BK Queue Descriptor Address
++#define	REG_RX_DESA				0x0340	// RX Queue	Descriptor Address
++#define	REG_DBI					0x0348	// Backdoor REG for Access Configuration
++//sherry added for DBI Read/Write  20091126
++#define	REG_DBI_WDATA				0x0348	// Backdoor REG for Access Configuration
++#define  	REG_DBI_RDATA				0x034C //Backdoor REG for Access Configuration
++#define	REG_DBI_CTRL				0x0350  //Backdoor REG for Access Configuration
++#define	REG_DBI_FLAG				0x0352 //Backdoor REG for Access Configuration#define	REG_MDIO					0x0354	// MDIO for Access PCIE PHY
++#define	REG_MDIO					0x0354	// MDIO for Access PCIE PHY
++#define	REG_DBG_SEL				0x0360	// Debug Selection Register
++#define	REG_PCIE_HRPWM			0x0361	//PCIe RPWM
++#define	REG_PCIE_HCPWM			0x0363	//PCIe CPWM
++#define	REG_UART_CTRL				0x0364	// UART	Control
++#define	REG_UART_TX_DESA			0x0370	// UART TX Descriptor Address
++#define	REG_UART_RX_DESA			0x0378	// UART Rx Descriptor Address
++
++
++// spec version 11
++//-----------------------------------------------------
++//
++//	0x0400h ~ 0x047Fh	Protocol Configuration
++//
++//-----------------------------------------------------
++#define REG_VOQ_INFORMATION			0x0400
++#define REG_VIQ_INFORMATION			0x0404
++#define REG_BEQ_INFORMATION			0x0408
++#define REG_BKQ_INFORMATION			0x040C
++#define REG_MGQ_INFORMATION			0x0410
++#define REG_HGQ_INFORMATION			0x0414
++#define REG_BCNQ_INFORMATION			0x0418
++
++
++#define REG_CPU_MGQ_INFORMATION		0x041C
++#define REG_FWHW_TXQ_CTRL				0x0420
++#define REG_HWSEQ_CTRL					0x0423
++#define REG_TXPKTBUF_BCNQ_BDNY		0x0424
++#define REG_TXPKTBUF_MGQ_BDNY		0x0425
++#define REG_LIFETIME_EN				0x0426
++#define REG_MULTI_BCNQ_OFFSET			0x0427
++#define REG_SPEC_SIFS					0x0428
++#define REG_RL							0x042A
++#define REG_DARFRC						0x0430
++#define REG_RARFRC						0x0438
++#define REG_RRSR						0x0440
++#define REG_ARFR0						0x0444
++#define REG_ARFR1						0x0448
++#define REG_ARFR2						0x044C
++#define REG_ARFR3						0x0450
++#define REG_AGGLEN_LMT					0x0458
++#define REG_AMPDU_MIN_SPACE			0x045C
++#define REG_TXPKTBUF_WMAC_LBK_BF_HD	0x045D
++#define REG_FAST_EDCA_CTRL				0x0460
++#define REG_RD_RESP_PKT_TH				0x0463
++#define REG_INIRTS_RATE_SEL			0x0480
++#define REG_INIDATA_RATE_SEL			0x0484
++
++//#define REG_FW_TSF_SYNC_CNT				0x04A0
++#define REG_FW_RESET_TSF_CNT_1				0x05FC
++#define REG_FW_RESET_TSF_CNT_0				0x05FD
++#define REG_FW_BCN_DIS_CNT				0x05FE
++
++#define REG_POWER_STATUS				0x04A4
++#define REG_POWER_STAGE1				0x04B4
++#define REG_POWER_STAGE2				0x04B8
++#define REG_PKT_VO_VI_LIFE_TIME			0x04C0
++#define REG_PKT_BE_BK_LIFE_TIME			0x04C2
++#define REG_STBC_SETTING				0x04C4
++#define REG_PROT_MODE_CTRL			0x04C8
++#define REG_MAX_AGGR_NUM				0x04CA
++#define REG_RTS_MAX_AGGR_NUM			0x04CB
++#define REG_BAR_MODE_CTRL				0x04CC
++#define REG_RA_TRY_RATE_AGG_LMT		0x04CF
++#define REG_EARLY_MODE_CONTROL		0x04D0
++#define REG_NQOS_SEQ					0x04DC
++#define REG_QOS_SEQ					0x04DE
++#define REG_NEED_CPU_HANDLE			0x04E0
++#define REG_PKT_LOSE_RPT				0x04E1
++#define REG_PTCL_ERR_STATUS			0x04E2
++#define REG_DUMMY						0x04FC
++
++
++
++//-----------------------------------------------------
++//
++//	0x0500h ~ 0x05FFh	EDCA Configuration
++//
++//-----------------------------------------------------
++#define REG_EDCA_VO_PARAM			0x0500
++#define REG_EDCA_VI_PARAM			0x0504
++#define REG_EDCA_BE_PARAM			0x0508
++#define REG_EDCA_BK_PARAM			0x050C
++#define REG_BCNTCFG					0x0510
++#define REG_PIFS						0x0512
++#define REG_RDG_PIFS				0x0513
++#define REG_SIFS_CTX				0x0514
++#define REG_SIFS_TRX				0x0516
++#define REG_TSFTR_SYN_OFFSET		0x0518
++#define REG_AGGR_BREAK_TIME		0x051A
++#define REG_SLOT					0x051B
++#define REG_TX_PTCL_CTRL			0x0520
++#define REG_TXPAUSE					0x0522
++#define REG_DIS_TXREQ_CLR			0x0523
++#define REG_RD_CTRL					0x0524
++#define REG_TBTT_PROHIBIT			0x0540
++#define REG_RD_NAV_NXT				0x0544
++#define REG_NAV_PROT_LEN			0x0546
++#define REG_BCN_CTRL				0x0550
++#define REG_BCN_CTRL_1				0x0551
++#define REG_MBID_NUM				0x0552
++#define REG_DUAL_TSF_RST			0x0553
++#define REG_BCN_INTERVAL			0x0554	// The same as REG_MBSSID_BCN_SPACE
++#define REG_MBSSID_BCN_SPACE		0x0554
++#define REG_DRVERLYINT				0x0558
++#define REG_BCNDMATIM				0x0559
++#define REG_ATIMWND				0x055A
++#define REG_USTIME_TSF				0x055C
++#define REG_BCN_MAX_ERR			0x055D
++#define REG_RXTSF_OFFSET_CCK		0x055E
++#define REG_RXTSF_OFFSET_OFDM		0x055F	
++#define REG_TSFTR					0x0560
++#define REG_TSFTR1					0x0568
++#define REG_INIT_TSFTR				0x0564
++#define REG_ATIMWND_1				0x0570
++#define REG_PSTIMER					0x0580
++#define REG_TIMER0					0x0584
++#define REG_TIMER1					0x0588
++#define REG_ACMHWCTRL				0x05C0
++#define REG_ACMRSTCTRL				0x05C1
++#define REG_ACMAVG					0x05C2
++#define REG_VO_ADMTIME				0x05C4
++#define REG_VI_ADMTIME				0x05C6
++#define REG_BE_ADMTIME				0x05C8
++#define REG_EDCA_RANDOM_GEN		0x05CC
++#define REG_SCH_TXCMD				0x05D0
++
++#define REG_DMC						0x05F0	//Dual MAC Co-Existence Register
++
++
++//-----------------------------------------------------
++//
++//	0x0600h ~ 0x07FFh	WMAC Configuration
++//
++//-----------------------------------------------------
++#define REG_APSD_CTRL				0x0600
++#define REG_BWOPMODE				0x0603
++#define REG_TCR						0x0604
++#define REG_RCR						0x0608
++#define REG_RX_PKT_LIMIT			0x060C
++#define REG_RX_DLK_TIME			0x060D
++#define REG_RX_DRVINFO_SZ			0x060F
++
++#define REG_MACID					0x0610
++#define REG_BSSID					0x0618
++#define REG_MAR						0x0620
++#define REG_MBIDCAMCFG				0x0628
++
++#define REG_USTIME_EDCA			0x0638
++#define REG_MAC_SPEC_SIFS			0x063A
++#define REG_RESP_SIFS_CCK			0x063C
++#define REG_RESP_SIFS_OFDM			0x063E
++#define REG_ACKTO					0x0640
++#define REG_CTS2TO					0x0641
++#define REG_EIFS						0x0642
++
++
++//WMA, BA, CCX
++#define REG_NAV_CTRL				0x0650
++#define REG_BACAMCMD				0x0654
++#define REG_BACAMCONTENT			0x0658
++#define REG_LBDLY					0x0660
++#define REG_FWDLY					0x0661
++#define REG_RXERR_RPT				0x0664
++#define REG_WMAC_TRXPTCL_CTL		0x0668
++
++
++// Security
++#define REG_CAMCMD					0x0670
++#define REG_CAMWRITE				0x0674
++#define REG_CAMREAD				0x0678
++#define REG_CAMDBG					0x067C
++#define REG_SECCFG					0x0680
++
++// Power
++#define REG_WOW_CTRL				0x0690
++#define REG_PSSTATUS				0x0691
++#define REG_PS_RX_INFO				0x0692
++#define REG_LPNAV_CTRL				0x0694
++#define REG_WKFMCAM_CMD			0x0698
++#define REG_WKFMCAM_RWD			0x069C
++#define REG_RXFLTMAP0				0x06A0
++#define REG_RXFLTMAP1				0x06A2
++#define REG_RXFLTMAP2				0x06A4
++#define REG_BCN_PSR_RPT			0x06A8
++#define REG_CALB32K_CTRL			0x06AC
++#define REG_PKT_MON_CTRL			0x06B4
++#define REG_BT_COEX_TABLE			0x06C0
++#define REG_WMAC_RESP_TXINFO		0x06D8
++
++#define REG_MACID1					0x0700
++#define REG_BSSID1					0x0708
++
++//-----------------------------------------------------
++//
++//	0xFE00h ~ 0xFE55h	USB Configuration
++//
++//-----------------------------------------------------
++#define REG_USB_INFO				0xFE17
++#define REG_USB_SPECIAL_OPTION	0xFE55
++#define REG_USB_DMA_AGG_TO		0xFE5B
++#define REG_USB_AGG_TO				0xFE5C
++#define REG_USB_AGG_TH				0xFE5D
++
++// for 92DU high_Queue low_Queue Normal_Queue select 
++#define REG_USB_High_NORMAL_Queue_Select_MAC0  0xFE44
++//#define REG_USB_LOW_Queue_Select_MAC0       0xFE45
++#define REG_USB_High_NORMAL_Queue_Select_MAC1  0xFE47
++//#define REG_USB_LOW_Queue_Select_MAC1       0xFE48
++
++// For test chip
++#define REG_TEST_USB_TXQS			0xFE48
++#define REG_TEST_SIE_VID			0xFE60		// 0xFE60~0xFE61
++#define REG_TEST_SIE_PID			0xFE62		// 0xFE62~0xFE63
++#define REG_TEST_SIE_OPTIONAL		0xFE64
++#define REG_TEST_SIE_CHIRP_K		0xFE65
++#define REG_TEST_SIE_PHY			0xFE66		// 0xFE66~0xFE6B
++#define REG_TEST_SIE_MAC_ADDR		0xFE70		// 0xFE70~0xFE75
++#define REG_TEST_SIE_STRING		0xFE80		// 0xFE80~0xFEB9
++
++
++// For normal chip
++#define REG_NORMAL_SIE_VID			0xFE60		// 0xFE60~0xFE61
++#define REG_NORMAL_SIE_PID			0xFE62		// 0xFE62~0xFE63
++#define REG_NORMAL_SIE_OPTIONAL	0xFE64
++#define REG_NORMAL_SIE_EP			0xFE65		// 0xFE65~0xFE67
++#define REG_NORMAL_SIE_PHY		0xFE68		// 0xFE68~0xFE6B
++#define REG_NORMAL_SIE_MAC_ADDR	0xFE70		// 0xFE70~0xFE75
++#define REG_NORMAL_SIE_STRING		0xFE80		// 0xFE80~0xFEDF
++
++
++//-----------------------------------------------------
++//
++//	Redifine 8192C register definition for compatibility
++//
++//-----------------------------------------------------
++
++// TODO: use these definition when using REG_xxx naming rule.
++// NOTE: DO NOT Remove these definition. Use later.
++
++#define	SYS_ISO_CTRL				REG_SYS_ISO_CTRL	// System Isolation Interface Control.
++#define	SYS_FUNC_EN				REG_SYS_FUNC_EN		// System Function Enable.
++#define	SYS_CLK						REG_SYS_CLKR
++#define	CR9346						REG_9346CR			// 93C46/93C56 Command Register.
++#define	EFUSE_CTRL					REG_EFUSE_CTRL		// E-Fuse Control.
++#define	EFUSE_TEST					REG_EFUSE_TEST		// E-Fuse Test.
++#define	MSR							(REG_CR + 2)		// Media Status register
++#define	ISR							REG_HISR
++#define	TSFR						REG_TSFTR			// Timing Sync Function Timer Register.
++
++#define	MACIDR0					REG_MACID			// MAC ID Register, Offset 0x0050-0x0053
++#define	MACIDR4					(REG_MACID + 4)		// MAC ID Register, Offset 0x0054-0x0055
++
++#define 	PBP							REG_PBP
++
++// Redifine MACID register, to compatible prior ICs.
++#define	IDR0						MACIDR0
++#define	IDR4						MACIDR4
++
++
++//
++// 9. Security Control Registers	(Offset: )
++//
++#define	RWCAM						REG_CAMCMD		//IN 8190 Data Sheet is called CAMcmd
++#define	WCAMI						REG_CAMWRITE	// Software write CAM input content
++#define	RCAMO						REG_CAMREAD		// Software read/write CAM config
++#define	CAMDBG						REG_CAMDBG
++#define	SECR						REG_SECCFG		//Security Configuration Register
++
++// Unused register
++#define	UnusedRegister				0x1BF
++#define	DCAM						UnusedRegister
++#define	PSR							UnusedRegister
++#define 	BBAddr						UnusedRegister
++#define	PhyDataR					UnusedRegister
++
++#define	InvalidBBRFValue			0x12345678
++
++// Min Spacing related settings.
++#define	MAX_MSS_DENSITY_2T 			0x13
++#define	MAX_MSS_DENSITY_1T 			0x0A
++
++//----------------------------------------------------------------------------
++//       8192C Cmd9346CR bits					(Offset 0xA, 16bit)
++//----------------------------------------------------------------------------
++#define	CmdEEPROM_En				BIT5	 // EEPROM enable when set 1
++#define	CmdEERPOMSEL				BIT4 	// System EEPROM select, 0: boot from E-FUSE, 1: The EEPROM used is 9346
++#define	Cmd9346CR_9356SEL			BIT4
++#define	AutoLoadEEPROM			(CmdEEPROM_En|CmdEERPOMSEL)
++#define	AutoLoadEFUSE				CmdEEPROM_En
++
++//       8192C GPIO MUX Configuration Register (offset 0x40, 4 byte)
++//----------------------------------------------------------------------------
++#define	GPIOSEL_GPIO				0
++#define	GPIOSEL_ENBT				BIT5
++
++//----------------------------------------------------------------------------
++//       8192C GPIO PIN Control Register (offset 0x44, 4 byte)
++//----------------------------------------------------------------------------
++#define	GPIO_IN						REG_GPIO_PIN_CTRL		// GPIO pins input value
++#define	GPIO_OUT					(REG_GPIO_PIN_CTRL+1)	// GPIO pins output value
++#define	GPIO_IO_SEL				(REG_GPIO_PIN_CTRL+2)	// GPIO pins output enable when a bit is set to "1"; otherwise, input is configured.
++#define	GPIO_MOD					(REG_GPIO_PIN_CTRL+3)
++
++
++//----------------------------------------------------------------------------
++//       8192C (MSR) Media Status Register	(Offset 0x4C, 8 bits)  
++//----------------------------------------------------------------------------
++/*
++Network Type
++00: No link
++01: Link in ad hoc network
++10: Link in infrastructure network
++11: AP mode
++Default: 00b.
++*/
++#define	MSR_NOLINK					0x00
++#define	MSR_ADHOC					0x01
++#define	MSR_INFRA					0x02
++#define	MSR_AP						0x03
++
++//
++// 6. Adaptive Control Registers  (Offset: 0x0160 - 0x01CF)
++//
++//----------------------------------------------------------------------------
++//       8192C Response Rate Set Register	(offset 0x181, 24bits)
++//----------------------------------------------------------------------------
++#define	RRSR_RSC_OFFSET			21
++#define	RRSR_SHORT_OFFSET			23
++#define	RRSR_RSC_BW_40M			0x600000
++#define	RRSR_RSC_UPSUBCHNL		0x400000
++#define	RRSR_RSC_LOWSUBCHNL		0x200000
++#define	RRSR_SHORT					0x800000
++#define	RRSR_1M					BIT0
++#define	RRSR_2M					BIT1 
++#define	RRSR_5_5M					BIT2 
++#define	RRSR_11M					BIT3 
++#define	RRSR_6M					BIT4 
++#define	RRSR_9M					BIT5 
++#define	RRSR_12M					BIT6 
++#define	RRSR_18M					BIT7 
++#define	RRSR_24M					BIT8 
++#define	RRSR_36M					BIT9 
++#define	RRSR_48M					BIT10 
++#define	RRSR_54M					BIT11
++#define	RRSR_MCS0					BIT12
++#define	RRSR_MCS1					BIT13
++#define	RRSR_MCS2					BIT14
++#define	RRSR_MCS3					BIT15
++#define	RRSR_MCS4					BIT16
++#define	RRSR_MCS5					BIT17
++#define	RRSR_MCS6					BIT18
++#define	RRSR_MCS7					BIT19
++#define	BRSR_AckShortPmb			BIT23	
++// CCK ACK: use Short Preamble or not
++
++
++//----------------------------------------------------------------------------
++//       8192C Rate Definition
++//----------------------------------------------------------------------------
++//CCK
++#define	RATR_1M					0x00000001
++#define	RATR_2M					0x00000002
++#define	RATR_55M					0x00000004
++#define	RATR_11M					0x00000008
++//OFDM 		
++#define	RATR_6M					0x00000010
++#define	RATR_9M					0x00000020
++#define	RATR_12M					0x00000040
++#define	RATR_18M					0x00000080
++#define	RATR_24M					0x00000100
++#define	RATR_36M					0x00000200
++#define	RATR_48M					0x00000400
++#define	RATR_54M					0x00000800
++//MCS 1 Spatial Stream	
++#define	RATR_MCS0					0x00001000
++#define	RATR_MCS1					0x00002000
++#define	RATR_MCS2					0x00004000
++#define	RATR_MCS3					0x00008000
++#define	RATR_MCS4					0x00010000
++#define	RATR_MCS5					0x00020000
++#define	RATR_MCS6					0x00040000
++#define	RATR_MCS7					0x00080000
++//MCS 2 Spatial Stream
++#define	RATR_MCS8					0x00100000
++#define	RATR_MCS9					0x00200000
++#define	RATR_MCS10					0x00400000
++#define	RATR_MCS11					0x00800000
++#define	RATR_MCS12					0x01000000
++#define	RATR_MCS13					0x02000000
++#define	RATR_MCS14					0x04000000
++#define	RATR_MCS15					0x08000000
++
++//----------------------------------------------------------------------------
++//       8192C BW_OPMODE bits					(Offset 0x203, 8bit)
++//----------------------------------------------------------------------------
++#define	BW_OPMODE_20MHZ			BIT2
++#define	BW_OPMODE_5G				BIT1
++#define	BW_OPMODE_11J				BIT0
++
++
++//----------------------------------------------------------------------------
++//       8192C CAM Config Setting (offset 0x250, 1 byte)
++//----------------------------------------------------------------------------
++#define	CAM_VALID					BIT15
++#define	CAM_NOTVALID				0x0000
++#define	CAM_USEDK					BIT5
++
++#define	CAM_CONTENT_COUNT 		8
++
++#define	CAM_NONE					0x0
++#define	CAM_WEP40					0x01
++#define	CAM_TKIP					0x02
++#define	CAM_AES					0x04
++#define	CAM_WEP104				0x05
++#define	CAM_SMS4					0x6
++
++
++#define	TOTAL_CAM_ENTRY			32
++#define	HALF_CAM_ENTRY			16	
++       		
++#define	CAM_CONFIG_USEDK			_TRUE
++#define	CAM_CONFIG_NO_USEDK		_FALSE
++       		
++#define	CAM_WRITE					BIT16
++#define	CAM_READ					0x00000000
++#define	CAM_POLLINIG				BIT31
++
++#define	SCR_UseDK					0x01
++#define	SCR_TxSecEnable			0x02
++#define	SCR_RxSecEnable			0x04
++
++
++//
++// 12. Host Interrupt Status Registers	 (Offset: 0x0300 - 0x030F)
++//
++//----------------------------------------------------------------------------
++//       8190 IMR/ISR bits						(offset 0xfd,  8bits)
++//----------------------------------------------------------------------------
++#define	IMR8190_DISABLED			0x0
++// IMR DW0 Bit 0-31
++#define	IMR_BCNDMAINT6			BIT31		// Beacon DMA Interrupt 6
++#define	IMR_BCNDMAINT5			BIT30		// Beacon DMA Interrupt 5
++#define	IMR_BCNDMAINT4			BIT29		// Beacon DMA Interrupt 4
++#define	IMR_BCNDMAINT3			BIT28		// Beacon DMA Interrupt 3
++#define	IMR_BCNDMAINT2			BIT27		// Beacon DMA Interrupt 2
++#define	IMR_BCNDMAINT1			BIT26		// Beacon DMA Interrupt 1
++#define	IMR_BCNDOK8				BIT25		// Beacon Queue DMA OK Interrup 8
++#define	IMR_BCNDOK7				BIT24		// Beacon Queue DMA OK Interrup 7
++#define	IMR_BCNDOK6				BIT23		// Beacon Queue DMA OK Interrup 6
++#define	IMR_BCNDOK5				BIT22		// Beacon Queue DMA OK Interrup 5
++#define	IMR_BCNDOK4				BIT21		// Beacon Queue DMA OK Interrup 4
++#define	IMR_BCNDOK3				BIT20		// Beacon Queue DMA OK Interrup 3
++#define	IMR_BCNDOK2				BIT19		// Beacon Queue DMA OK Interrup 2
++#define	IMR_BCNDOK1				BIT18		// Beacon Queue DMA OK Interrup 1
++#define	IMR_TIMEOUT2				BIT17		// Timeout interrupt 2
++#define	IMR_TIMEOUT1				BIT16		// Timeout interrupt 1
++#define	IMR_TXFOVW				BIT15		// Transmit FIFO Overflow
++#define	IMR_PSTIMEOUT				BIT14		// Power save time out interrupt 
++#define	IMR_BcnInt					BIT13		// Beacon DMA Interrupt 0
++#define	IMR_RXFOVW				BIT12		// Receive FIFO Overflow
++#define	IMR_RDU					BIT11		// Receive Descriptor Unavailable
++#define	IMR_ATIMEND				BIT10		// For 92C,ATIM Window End Interrupt
++#define	IMR_BDOK					BIT9		// Beacon Queue DMA OK Interrup
++#define	IMR_HIGHDOK				BIT8		// High Queue DMA OK Interrupt
++#define	IMR_TBDOK					BIT7		// Transmit Beacon OK interrup
++#define	IMR_MGNTDOK				BIT6		// Management Queue DMA OK Interrupt
++#define	IMR_TBDER					BIT5		// For 92C,Transmit Beacon Error Interrupt
++#define	IMR_BKDOK					BIT4		// AC_BK DMA OK Interrupt
++#define	IMR_BEDOK					BIT3		// AC_BE DMA OK Interrupt
++#define	IMR_VIDOK					BIT2		// AC_VI DMA OK Interrupt
++#define	IMR_VODOK					BIT1		// AC_VO DMA Interrupt
++#define	IMR_ROK					BIT0		// Receive DMA OK Interrupt
++
++// 13. Host Interrupt Status Extension Register	 (Offset: 0x012C-012Eh)
++#define	IMR_TXERR					BIT11
++#define	IMR_RXERR					BIT10
++#define	IMR_C2HCMD				BIT9
++#define	IMR_CPWM					BIT8
++//RSVD [2-7]
++#define	IMR_OCPINT					BIT1
++#define	IMR_WLANOFF				BIT0
++
++
++
++//----------------------------------------------------------------------------
++// 8192D EFUSE
++//----------------------------------------------------------------------------
++#define	HWSET_MAX_SIZE				256
++
++//----------------------------------------------------------------------------
++//       8192C EEPROM/EFUSE share register definition.
++//----------------------------------------------------------------------------
++
++//
++// Default Value for EEPROM or EFUSE!!!
++//
++#define	EEPROM_Default_TSSI					0x0
++#define 	EEPROM_Default_TxPowerDiff				0x0
++#define 	EEPROM_Default_CrystalCap				0x0		//92D default 0x0
++#define 	EEPROM_Default_BoardType				0x02 // Default: 2X2, RTL8192CE(QFPN68)
++#define 	EEPROM_Default_TxPower				0x1010
++#define	EEPROM_Default_HT2T_TxPwr				0x10
++
++#define	EEPROM_Default_LegacyHTTxPowerDiff	0x4
++#define	EEPROM_Default_ThermalMeter			0x12
++
++#define	EEPROM_Default_AntTxPowerDiff			0x0
++//#define	EEPROM_Default_TxPwDiff_CrystalCap		0x5
++#define	EEPROM_Default_TxPowerLevel_2G		0x2C
++#define	EEPROM_Default_TxPowerLevel_5G		0x22
++
++#define	EEPROM_Default_HT40_2SDiff				0x0
++#define 	EEPROM_Default_HT20_Diff				2	// HT20<->40 default Tx Power Index Difference
++#define	EEPROM_Default_LegacyHTTxPowerDiff	0x4	//OFDM Tx Power index diff
++#define 	EEPROM_Default_HT40_PwrMaxOffset		0
++#define 	EEPROM_Default_HT20_PwrMaxOffset		0
++
++// For debug
++#define 	EEPROM_Default_PID						0x1234
++#define 	EEPROM_Default_VID						0x5678
++#define 	EEPROM_Default_CustomerID				0xAB
++#define 	EEPROM_Default_SubCustomerID			0xCD
++#define 	EEPROM_Default_Version					0
++
++#define	EEPROM_Default_externalPA_C9		0x00
++#define	EEPROM_Default_externalPA_CC		0xFF
++#define	EEPROM_Default_internalPA_SP3T_C9	0xAA
++#define	EEPROM_Default_internalPA_SP3T_CC	0xAF
++#define	EEPROM_Default_internalPA_SPDT_C9	0xAA
++#ifdef CONFIG_PCI_HCI
++#define	EEPROM_Default_internalPA_SPDT_CC	0xA0
++#else
++#define	EEPROM_Default_internalPA_SPDT_CC	0xFA
++#endif
++
++#define	EEPROM_CHANNEL_PLAN_FCC				0x0
++#define	EEPROM_CHANNEL_PLAN_IC				0x1
++#define	EEPROM_CHANNEL_PLAN_ETSI			0x2
++#define	EEPROM_CHANNEL_PLAN_SPAIN			0x3
++#define	EEPROM_CHANNEL_PLAN_FRANCE			0x4
++#define	EEPROM_CHANNEL_PLAN_MKK				0x5
++#define	EEPROM_CHANNEL_PLAN_MKK1			0x6
++#define	EEPROM_CHANNEL_PLAN_ISRAEL			0x7
++#define	EEPROM_CHANNEL_PLAN_TELEC			0x8
++#define	EEPROM_CHANNEL_PLAN_GLOBAL_DOMAIN	0x9
++#define	EEPROM_CHANNEL_PLAN_WORLD_WIDE_13	0xA
++#define	EEPROM_CHANNEL_PLAN_NCC				0xB
++#define	EEPROM_CHANNEL_PLAN_BY_HW_MASK	0x80
++
++
++#define 	EEPROM_CID_DEFAULT					0x0
++#define 	EEPROM_CID_TOSHIBA					0x4
++#define	EEPROM_CID_CCX						0x10 // CCX test. By Bruce, 2009-02-25.
++#define	EEPROM_CID_QMI						0x0D
++#define 	EEPROM_CID_WHQL 						0xFE // added by chiyoko for dtm, 20090108
++
++
++#define	RTL8192_EEPROM_ID						0x8129
++#define	EEPROM_WAPI_SUPPORT					0x78
++
++
++#ifdef CONFIG_PCI_HCI
++#define RT_IBSS_INT_MASKS				(IMR_BcnInt | IMR_TBDOK | IMR_TBDER)
++#define RT_AC_INT_MASKS				(IMR_VIDOK | IMR_VODOK | IMR_BEDOK|IMR_BKDOK)
++#define RT_BSS_INT_MASKS				(RT_IBSS_INT_MASKS)
++
++#define RTL8190_EEPROM_ID						0x8129	// 0-1
++#define EEPROM_HPON							0x02 // LDO settings.2-5
++#define EEPROM_CLK								0x06 // Clock settings.6-7
++#define EEPROM_MAC_FUNCTION					0x08 // SE Test mode.8
++
++#define EEPROM_VID								0x28 // SE Vendor ID.A-B
++#define EEPROM_DID								0x2A // SE Device ID. C-D
++#define EEPROM_SVID								0x2C // SE Vendor ID.E-F
++#define EEPROM_SMID							0x2E // SE PCI Subsystem ID. 10-11
++
++#define EEPROM_MAC_ADDR						0x16 // SEMAC Address. 12-17
++#define EEPROM_MAC_ADDR_MAC0_92D			0x55
++#define EEPROM_MAC_ADDR_MAC1_92D			0x5B
++//----------------------------------------------------------------
++// 2.4G band Tx power index setting
++#define EEPROM_CCK_TX_PWR_INX_2G				0x61
++#define EEPROM_HT40_1S_TX_PWR_INX_2G		0x67
++#define EEPROM_HT40_2S_TX_PWR_INX_DIFF_2G	0x6D
++#define EEPROM_HT20_TX_PWR_INX_DIFF_2G		0x70
++#define EEPROM_OFDM_TX_PWR_INX_DIFF_2G		0x73
++#define EEPROM_HT40_MAX_PWR_OFFSET_2G		0x76
++#define EEPROM_HT20_MAX_PWR_OFFSET_2G		0x79
++
++//5GL channel 32-64
++#define EEPROM_HT40_1S_TX_PWR_INX_5GL		0x7C
++#define EEPROM_HT40_2S_TX_PWR_INX_DIFF_5GL	0x82
++#define EEPROM_HT20_TX_PWR_INX_DIFF_5GL		0x85
++#define EEPROM_OFDM_TX_PWR_INX_DIFF_5GL		0x88
++#define EEPROM_HT40_MAX_PWR_OFFSET_5GL		0x8B
++#define EEPROM_HT20_MAX_PWR_OFFSET_5GL		0x8E
++
++//5GM channel 100-140
++#define EEPROM_HT40_1S_TX_PWR_INX_5GM		0x91
++#define EEPROM_HT40_2S_TX_PWR_INX_DIFF_5GM	0x97
++#define EEPROM_HT20_TX_PWR_INX_DIFF_5GM		0x9A
++#define EEPROM_OFDM_TX_PWR_INX_DIFF_5GM	0x9D
++#define EEPROM_HT40_MAX_PWR_OFFSET_5GM		0xA0
++#define EEPROM_HT20_MAX_PWR_OFFSET_5GM		0xA3
++
++//5GH channel 149-165
++#define EEPROM_HT40_1S_TX_PWR_INX_5GH		0xA6
++#define EEPROM_HT40_2S_TX_PWR_INX_DIFF_5GH	0xAC
++#define EEPROM_HT20_TX_PWR_INX_DIFF_5GH		0xAF
++#define EEPROM_OFDM_TX_PWR_INX_DIFF_5GH		0xB2
++#define EEPROM_HT40_MAX_PWR_OFFSET_5GH		0xB5
++#define EEPROM_HT20_MAX_PWR_OFFSET_5GH		0xB8
++
++#define EEPROM_CHANNEL_PLAN					0xBB // Map of supported channels.	
++#define EEPROM_IQK_DELTA						0xBC
++#define EEPROM_LCK_DELTA						0xBC
++#define EEPROM_XTAL_K							0xBD	//[7:5]
++#define EEPROM_TSSI_A_5G						0xBE
++#define EEPROM_TSSI_B_5G						0xBF
++#define EEPROM_TSSI_AB_5G						0xC0
++#define EEPROM_THERMAL_METER					0xC3	//[4:0]
++#define EEPROM_PATHDIV							0xC4
++#define EEPROM_RF_OPT1							0xC4
++#define EEPROM_RF_OPT2							0xC5
++#define EEPROM_RF_OPT3							0xC6
++#define EEPROM_RF_OPT4							0xC7
++#define EEPROM_RF_OPT5							0xC8
++#define EEPROM_RF_OPT6							0xC9
++#define EEPROM_VERSION							0xCA
++#define EEPROM_CUSTOMER_ID					0xCB
++#define EEPROM_RF_OPT7							0xCC
++
++#define EEPROM_WIDIPAIRING_ADDR				0xF0
++#define EEPROM_WIDIPAIRING_KEY				0xF6
++
++#define EEPROM_DEF_PART_NO					0x3FD  //Byte
++#define EEPROME_CHIP_VERSION_L				0x3FF
++#define EEPROME_CHIP_VERSION_H				0x3FE
++#endif 
++
++#ifdef CONFIG_USB_HCI
++#define RTL8190_EEPROM_ID						0x8129	// 0-1
++#define EEPROM_HPON							0x02 // LDO settings.2-5
++#define EEPROM_CLK								0x06 // Clock settings.6-7
++#define EEPROM_MAC_FUNCTION					0x08 // SE Test mode.8
++
++#define EEPROM_VID								0xC // SE Vendor ID.A-B
++#define EEPROM_PID								0xE // SE Device ID. C-D
++#define EEPROM_ENDPOINT_SETTING				0x10
++#ifdef CONFIG_WOWLAN
++#define EEPROM_Option_Setting				0x11
++#endif // CONFIG_WOWLAN
++#define EEPROM_CHIRP_K							0x12	// Changed
++#define EEPROM_USB_PHY							0x13	// Changed
++#define EEPROM_NORMAL_BoardType				EEPROM_RF_OPT1	//[7:5]
++#define EEPROM_MAC_ADDR						0x16 // SEMAC Address. 12-17
++#define EEPROM_STRING							0x1F
++#define EEPROM_SUBCUSTOMER_ID					0x59
++
++#define EEPROM_MAC_ADDR_MAC0_92D			0x19
++#define EEPROM_MAC_ADDR_MAC1_92D			0x5B
++//----------------------------------------------------------------
++// 2.4G band Tx power index setting
++#define EEPROM_CCK_TX_PWR_INX_2G				0x61
++#define EEPROM_HT40_1S_TX_PWR_INX_2G		0x67
++#define EEPROM_HT40_2S_TX_PWR_INX_DIFF_2G	0x6D
++#define EEPROM_HT20_TX_PWR_INX_DIFF_2G		0x70
++#define EEPROM_OFDM_TX_PWR_INX_DIFF_2G		0x73
++#define EEPROM_HT40_MAX_PWR_OFFSET_2G		0x76
++#define EEPROM_HT20_MAX_PWR_OFFSET_2G		0x79
++
++//5GL channel 32-64
++#define EEPROM_HT40_1S_TX_PWR_INX_5GL		0x7C
++#define EEPROM_HT40_2S_TX_PWR_INX_DIFF_5GL	0x82
++#define EEPROM_HT20_TX_PWR_INX_DIFF_5GL		0x85
++#define EEPROM_OFDM_TX_PWR_INX_DIFF_5GL		0x88
++#define EEPROM_HT40_MAX_PWR_OFFSET_5GL		0x8B
++#define EEPROM_HT20_MAX_PWR_OFFSET_5GL		0x8E
++
++//5GM channel 100-140
++#define EEPROM_HT40_1S_TX_PWR_INX_5GM		0x91
++#define EEPROM_HT40_2S_TX_PWR_INX_DIFF_5GM	0x97
++#define EEPROM_HT20_TX_PWR_INX_DIFF_5GM		0x9A
++#define EEPROM_OFDM_TX_PWR_INX_DIFF_5GM	0x9D
++#define EEPROM_HT40_MAX_PWR_OFFSET_5GM		0xA0
++#define EEPROM_HT20_MAX_PWR_OFFSET_5GM		0xA3
++
++//5GH channel 149-165
++#define EEPROM_HT40_1S_TX_PWR_INX_5GH		0xA6
++#define EEPROM_HT40_2S_TX_PWR_INX_DIFF_5GH	0xAC
++#define EEPROM_HT20_TX_PWR_INX_DIFF_5GH		0xAF
++#define EEPROM_OFDM_TX_PWR_INX_DIFF_5GH		0xB2
++#define EEPROM_HT40_MAX_PWR_OFFSET_5GH		0xB5
++#define EEPROM_HT20_MAX_PWR_OFFSET_5GH		0xB8
++
++#define EEPROM_CHANNEL_PLAN					0xBB // Map of supported channels.	
++#define EEPROM_TEST_CHANNEL_PLAN				0xBB
++#define EEPROM_IQK_DELTA						0xBC
++#define EEPROM_LCK_DELTA						0xBC
++#define EEPROM_XTAL_K							0xBD	//[7:5]
++#define EEPROM_TSSI_A_5G						0xBE
++#define EEPROM_TSSI_B_5G						0xBF
++#define EEPROM_TSSI_AB_5G						0xC0
++#define EEPROM_THERMAL_METER					0xC3	//[4:0]
++#define EEPROM_RF_OPT1							0xC4
++#define EEPROM_RF_OPT2							0xC5
++#define EEPROM_RF_OPT3							0xC6
++#define EEPROM_RF_OPT4							0xC7
++#define EEPROM_RF_OPT5							0xC8
++#define EEPROM_RF_OPT6							0xC9
++#define EEPROM_VERSION							0xCA
++#define EEPROM_CUSTOMER_ID					0xCB
++#define EEPROM_RF_OPT7							0xCC
++
++#define EEPROM_DEF_PART_NO					0x3FD  //Byte
++#define EEPROME_CHIP_VERSION_L				0x3FF
++#define EEPROME_CHIP_VERSION_H				0x3FE
++
++//-------------------------------------------------------------
++//	EEPROM content definitions
++//-------------------------------------------------------------
++#define OS_LINK_SPEED_NORMAL_MASK			BIT3 | BIT2
++#define OS_LINK_SPEED_TEST_MASK				BIT3 | BIT4
++
++#define BOARD_TYPE_NORMAL_MASK				0xE0
++#define BOARD_TYPE_TEST_MASK					0xF
++
++#define BT_COEXISTENCE_TEST					BIT4
++#define BT_COEXISTENCE_NORMAL					BIT5
++
++#define BT_CO_SHIFT_TEST						4
++#define BT_CO_SHIFT_NORMAL					5
++
++#define EP_NUMBER_MASK_TEST					0x30	//bit 4:5 0Eh
++#define EP_NUMBER_SHIFT_TEST					4
++
++#define USB_PHY_PARA_SIZE_TEST				6
++#define USB_PHY_PARA_SIZE_NORMAL				4
++
++//-------------------------------------------------------------
++//	EEPROM default value definitions
++//-------------------------------------------------------------
++// Use 0xABCD instead of 0x8192 for debug
++#define	EEPROM_DEF_ID_0						0xCD	// Byte 0x00
++#define	EEPROM_DEF_ID_1						0xAB	// Byte 0x01
++
++#define EEPROM_DEF_RTK_RSV_A3					0x74	// Byte 0x03
++#define EEPROM_DEF_RTK_RSV_A4					0x6D	// Byte 0x04
++#define EEPROM_DEF_RTK_RSV_A8					0xFF	// Byte 0x08
++
++#define EEPROM_DEF_VID_0						0x0A	// Byte 0x0A
++#define EEPROM_DEF_VID_1						0x0B
++
++#define EEPROM_DEF_PID_0						0x92	// Byte 0x0C
++#define EEPROM_DEF_PID_1						0x81
++
++
++#define EEPROM_TEST_DEF_USB_OPT				0x80	// Byte 0x0E
++#define EEPROM_NORMAL_DEF_USB_OPT			0x00	// Byte 0x0E
++
++#define EEPROM_DEF_CHIRPK						0x15	// Byte 0x0F
++
++#define EEPROM_DEF_USB_PHY_0					0x85	// Byte 0x10
++#define EEPROM_DEF_USB_PHY_1					0x62	// Byte 0x11
++#define EEPROM_DEF_USB_PHY_2					0x9E	// Byte 0x12
++#define EEPROM_DEF_USB_PHY_3					0x06	// Byte 0x13
++
++#define EEPROM_DEF_TSSI_A						0x09	// Byte 0x78
++#define EEPROM_DEF_TSSI_B						0x09	// Byte 0x79
++
++
++#define EEPROM_DEF_THERMAL_METER				0x12	// Byte 0x7A
++
++
++#define	EEPROM_USB_SN							BIT(0)
++#define	EEPROM_USB_REMOTE_WAKEUP			BIT(1)
++#define	EEPROM_USB_DEVICE_PWR				BIT(2)
++#define	EEPROM_EP_NUMBER						(BIT(3)|BIT(4))
++
++#if 0
++#define	EEPROM_CHANNEL_PLAN_FCC					0x0
++#define	EEPROM_CHANNEL_PLAN_IC					0x1
++#define	EEPROM_CHANNEL_PLAN_ETSI				0x2
++#define	EEPROM_CHANNEL_PLAN_SPAIN				0x3
++#define	EEPROM_CHANNEL_PLAN_FRANCE				0x4
++#define	EEPROM_CHANNEL_PLAN_MKK					0x5
++#define	EEPROM_CHANNEL_PLAN_MKK1				0x6
++#define	EEPROM_CHANNEL_PLAN_ISRAEL				0x7
++#define	EEPROM_CHANNEL_PLAN_TELEC				0x8
++#define	EEPROM_CHANNEL_PLAN_GLOBAL_DOMAIN		0x9
++#define	EEPROM_CHANNEL_PLAN_WORLD_WIDE_13		0xA
++#define	EEPROM_CHANNEL_PLAN_BY_HW_MASK			0x80
++
++#define	EEPROM_CID_DEFAULT						0x0
++
++#define	EEPROM_CID_WHQL 						0xFE // added by chiyoko for dtm, 20090108
++
++
++#define	EEPROM_CID_CCX							0x10 // CCX test. By Bruce, 2009-02-25.
++
++#endif
++#endif
++
++
++/*===================================================================
++=====================================================================
++Here the register defines are for 92C. When the define is as same with 92C, 
++we will use the 92C's define for the consistency
++So the following defines for 92C is not entire!!!!!!
++=====================================================================
++=====================================================================*/
++/*
++Based on Datasheet V33---090401
++Register Summary
++Current IOREG MAP
++0x0000h ~ 0x00FFh   System Configuration (256 Bytes)
++0x0100h ~ 0x01FFh   MACTOP General Configuration (256 Bytes)
++0x0200h ~ 0x027Fh   TXDMA Configuration (128 Bytes)
++0x0280h ~ 0x02FFh   RXDMA Configuration (128 Bytes)
++0x0300h ~ 0x03FFh   PCIE EMAC Reserved Region (256 Bytes)
++0x0400h ~ 0x04FFh   Protocol Configuration (256 Bytes)
++0x0500h ~ 0x05FFh   EDCA Configuration (256 Bytes)
++0x0600h ~ 0x07FFh   WMAC Configuration (512 Bytes)
++0x2000h ~ 0x3FFFh   8051 FW Download Region (8196 Bytes)
++*/
++
++//----------------------------------------------------------------------------
++//       8192C (RCR) Receive Configuration Register	(Offset 0x608, 32 bits)
++//----------------------------------------------------------------------------
++#define	RCR_APPFCS					BIT31		//WMAC append FCS after pauload
++#define	RCR_APP_MIC				BIT30		//
++#define	RCR_APP_ICV				BIT29       //
++#define	RCR_APP_PHYST_RXFF		BIT28       //
++#define	RCR_APP_BA_SSN			BIT27		//Accept BA SSN
++#define	RCR_ENMBID					BIT24		//Enable Multiple BssId.
++#define	RCR_LSIGEN					BIT23
++#define	RCR_MFBEN					BIT22
++#define	RCR_HTC_LOC_CTRL			BIT14       //MFC<--HTC=1 MFC-->HTC=0
++#define	RCR_AMF					BIT13		//Accept management type frame
++#define	RCR_ACF					BIT12		//Accept control type frame
++#define	RCR_ADF					BIT11		//Accept data type frame
++#define	RCR_AICV					BIT9		//Accept ICV error packet
++#define	RCR_ACRC32					BIT8		//Accept CRC32 error packet 
++#define	RCR_CBSSID_BCN			BIT7		//Accept BSSID match packet (Rx beacon, probe rsp)
++#define	RCR_CBSSID_DATA			BIT6		//Accept BSSID match packet (Data)
++#define	RCR_CBSSID					RCR_CBSSID_DATA		//Accept BSSID match packet
++#define	RCR_APWRMGT				BIT5		//Accept power management packet
++#define	RCR_ADD3					BIT4		//Accept address 3 match packet
++#define	RCR_AB						BIT3		//Accept broadcast packet 
++#define	RCR_AM						BIT2		//Accept multicast packet 
++#define	RCR_APM					BIT1		//Accept physical match packet
++#define	RCR_AAP					BIT0		//Accept all unicast packet 
++#define	RCR_MXDMA_OFFSET			8
++#define	RCR_FIFO_OFFSET			13
++
++
++
++//============================================================================
++//       8192c USB specific Regsiter Offset and Content definition, 
++//       2009.08.18, added by vivi. for merge 92c and 92C into one driver
++//============================================================================
++//#define APS_FSMCO				0x0004  same with 92Ce
++#define RSV_CTRL					0x001C
++#define RD_CTRL					0x0524
++
++//-----------------------------------------------------
++//
++//	0xFE00h ~ 0xFE55h	USB Configuration
++//
++//-----------------------------------------------------
++#define REG_USB_INFO				0xFE17
++#define REG_USB_SPECIAL_OPTION	0xFE55
++#define REG_USB_DMA_AGG_TO		0xFE5B
++#define REG_USB_AGG_TO				0xFE5C
++#define REG_USB_AGG_TH				0xFE5D
++
++#define REG_USB_VID					0xFE60
++#define REG_USB_PID					0xFE62
++#define REG_USB_OPTIONAL			0xFE64
++#define REG_USB_CHIRP_K			0xFE65
++#define REG_USB_PHY					0xFE66
++#define REG_USB_MAC_ADDR			0xFE70
++
++#define REG_USB_HRPWM				0xFE58
++#define REG_USB_HCPWM				0xFE57
++
++#define InvalidBBRFValue			0x12345678
++
++//============================================================================
++//       8192C Regsiter Bit and Content definition 
++//============================================================================
++//-----------------------------------------------------
++//
++//	0x0000h ~ 0x00FFh	System Configuration
++//
++//-----------------------------------------------------
++
++//2 SPS0_CTRL
++#define SW18_FPWM					BIT(3)
++
++
++//2 SYS_ISO_CTRL
++#define ISO_MD2PP					BIT(0)
++#define ISO_UA2USB					BIT(1)
++#define ISO_UD2CORE					BIT(2)
++#define ISO_PA2PCIE					BIT(3)
++#define ISO_PD2CORE					BIT(4)
++#define ISO_IP2MAC					BIT(5)
++#define ISO_DIOP						BIT(6)
++#define ISO_DIOE						BIT(7)
++#define ISO_EB2CORE					BIT(8)
++#define ISO_DIOR						BIT(9)
++
++#define PWC_EV25V					BIT(14)
++#define PWC_EV12V					BIT(15)
++
++
++//2 SYS_FUNC_EN
++#define FEN_BBRSTB					BIT(0)
++#define FEN_BB_GLB_RSTn			BIT(1)
++#define FEN_USBA					BIT(2)
++#define FEN_UPLL					BIT(3)
++#define FEN_USBD					BIT(4)
++#define FEN_DIO_PCIE				BIT(5)
++#define FEN_PCIEA					BIT(6)
++#define FEN_PPLL						BIT(7)
++#define FEN_PCIED					BIT(8)
++#define FEN_DIOE					BIT(9)
++#define FEN_CPUEN					BIT(10)
++#define FEN_DCORE					BIT(11)
++#define FEN_ELDR					BIT(12)
++#define FEN_DIO_RF					BIT(13)
++#define FEN_HWPDN					BIT(14)
++#define FEN_MREGEN					BIT(15)
++
++//2 APS_FSMCO
++#define PFM_LDALL					BIT(0)
++#define PFM_ALDN					BIT(1)
++#define PFM_LDKP					BIT(2)
++#define PFM_WOWL					BIT(3)
++#define EnPDN						BIT(4)
++#define PDN_PL						BIT(5)
++#define APFM_ONMAC					BIT(8)
++#define APFM_OFF					BIT(9)
++#define APFM_RSM					BIT(10)
++#define AFSM_HSUS					BIT(11)
++#define AFSM_PCIE					BIT(12)
++#define APDM_MAC					BIT(13)
++#define APDM_HOST					BIT(14)
++#define APDM_HPDN					BIT(15)
++#define RDY_MACON					BIT(16)
++#define SUS_HOST					BIT(17)
++#define ROP_ALD						BIT(20)
++#define ROP_PWR						BIT(21)
++#define ROP_SPS						BIT(22)
++#define SOP_MRST					BIT(25)
++#define SOP_FUSE					BIT(26)
++#define SOP_ABG						BIT(27)
++#define SOP_AMB						BIT(28)
++#define SOP_RCK						BIT(29)
++#define SOP_A8M						BIT(30)
++#define XOP_BTCK					BIT(31)
++
++//2 SYS_CLKR
++#define ANAD16V_EN					BIT(0)
++#define ANA8M						BIT(1)
++#define MACSLP						BIT(4)
++#define LOADER_CLK_EN				BIT(5)
++#define _80M_SSC_DIS				BIT(7)
++#define _80M_SSC_EN_HO				BIT(8)
++#define PHY_SSC_RSTB				BIT(9)
++#define SEC_CLK_EN					BIT(10)
++#define MAC_CLK_EN					BIT(11)
++#define SYS_CLK_EN					BIT(12)
++#define RING_CLK_EN					BIT(13)
++
++
++//2 9346CR
++
++#define BOOT_FROM_EEPROM			BIT(4)
++#define EEPROM_EN					BIT(5)
++
++
++//2 AFE_MISC
++#define AFE_BGEN					BIT(0)
++#define AFE_MBEN					BIT(1)
++#define MAC_ID_EN					BIT(7)
++
++
++//2 SPS0_CTRL
++
++
++//2 SPS_OCP_CFG
++
++
++//2 RSV_CTRL
++#define WLOCK_ALL					BIT(0)
++#define WLOCK_00					BIT(1)
++#define WLOCK_04					BIT(2)
++#define WLOCK_08					BIT(3)
++#define WLOCK_40					BIT(4)
++#define R_DIS_PRST_0				BIT(5)
++#define R_DIS_PRST_1				BIT(6)
++#define LOCK_ALL_EN					BIT(7)
++
++//2 RF_CTRL
++#define RF_EN						BIT(0)
++#define RF_RSTB						BIT(1)
++#define RF_SDMRSTB					BIT(2)
++
++
++
++//2 LDOA15_CTRL
++#define LDA15_EN					BIT(0)
++#define LDA15_STBY					BIT(1)
++#define LDA15_OBUF					BIT(2)
++#define LDA15_REG_VOS				BIT(3)
++#define _LDA15_VOADJ(x)				(((x) & 0x7) << 4)
++
++
++
++//2 LDOV12D_CTRL
++#define LDV12_EN					BIT(0)
++#define LDV12_SDBY					BIT(1)
++#define LPLDO_HSM					BIT(2)
++#define LPLDO_LSM_DIS				BIT(3)
++#define _LDV12_VADJ(x)				(((x) & 0xF) << 4)
++
++
++//2 AFE_XTAL_CTRL
++#define XTAL_EN						BIT(0)
++#define XTAL_BSEL					BIT(1)
++#define _XTAL_BOSC(x)				(((x) & 0x3) << 2)
++#define _XTAL_CADJ(x)				(((x) & 0xF) << 4)
++#define XTAL_GATE_USB				BIT(8)
++#define _XTAL_USB_DRV(x)			(((x) & 0x3) << 9)
++#define XTAL_GATE_AFE				BIT(11)
++#define _XTAL_AFE_DRV(x)			(((x) & 0x3) << 12)
++#define XTAL_RF_GATE				BIT(14)
++#define _XTAL_RF_DRV(x)				(((x) & 0x3) << 15)
++#define XTAL_GATE_DIG				BIT(17)
++#define _XTAL_DIG_DRV(x)			(((x) & 0x3) << 18)
++#define XTAL_BT_GATE				BIT(20)
++#define _XTAL_BT_DRV(x)				(((x) & 0x3) << 21)
++#define _XTAL_GPIO(x)				(((x) & 0x7) << 23)
++
++
++#define CKDLY_AFE					BIT(26)
++#define CKDLY_USB					BIT(27)
++#define CKDLY_DIG					BIT(28)
++#define CKDLY_BT					BIT(29)
++
++
++//2 AFE_PLL_CTRL
++#define APLL_EN						BIT(0)
++#define APLL_320_EN					BIT(1)
++#define APLL_FREF_SEL				BIT(2)
++#define APLL_EDGE_SEL				BIT(3)
++#define APLL_WDOGB					BIT(4)
++#define APLL_LPFEN					BIT(5)
++
++#define APLL_REF_CLK_13MHZ			0x1
++#define APLL_REF_CLK_19_2MHZ		0x2
++#define APLL_REF_CLK_20MHZ			0x3
++#define APLL_REF_CLK_25MHZ			0x4
++#define APLL_REF_CLK_26MHZ			0x5
++#define APLL_REF_CLK_38_4MHZ		0x6
++#define APLL_REF_CLK_40MHZ			0x7
++
++#define APLL_320EN					BIT(14)
++#define APLL_80EN					BIT(15)
++#define APLL_1MEN					BIT(24)
++
++
++//2 EFUSE_CTRL
++#define ALD_EN						BIT(18)
++#define EF_PD						BIT(19)
++#define EF_FLAG						BIT(31)
++
++//2 EFUSE_TEST 
++#define EF_TRPT						BIT(7)
++#define LDOE25_EN					BIT(31)
++
++//2 PWR_DATA 
++
++//2 CAL_TIMER
++
++//2 ACLK_MON
++#define RSM_EN						BIT(0)
++#define Timer_EN						BIT(4)
++
++
++//2 GPIO_MUXCFG
++#define TRSW0EN						BIT(2)
++#define TRSW1EN						BIT(3)
++#define EROM_EN						BIT(4)
++#define EnBT							BIT(5)
++#define EnUart						BIT(8)
++#define Uart_910						BIT(9)
++#define EnPMAC						BIT(10)
++#define SIC_SWRST					BIT(11)
++#define EnSIC						BIT(12)
++#define SIC_23						BIT(13)
++#define EnHDP						BIT(14)
++#define SIC_LBK						BIT(15)
++
++//2 GPIO_PIN_CTRL
++
++
++
++//2 GPIO_INTM
++
++//2 LEDCFG
++#define LED0PL 					BIT(4)  
++#define LED1PL 					BIT(12)
++#define LED0DIS					BIT(7)
++
++#define  SECCAM_CLR				BIT(30)
++
++//2 FSIMR
++
++//2 FSISR
++
++
++//2 8051FWDL
++//2 MCUFWDL
++#define MCUFWDL_EN					BIT(0)
++#define MCUFWDL_RDY				BIT(1)
++#define FWDL_ChkSum_rpt			BIT(2)
++#define MACINI_RDY					BIT(3)
++#define BBINI_RDY					BIT(4)
++#define RFINI_RDY					BIT(5)
++#define WINTINI_RDY					BIT(6)
++#define MAC1_WINTINI_RDY			BIT(11)// 0X81 BIT3
++#define CPRST						BIT(23)
++
++
++
++
++//2 REG_SYS_CFG
++#define XCLK_VLD						BIT(0)
++#define ACLK_VLD					BIT(1)
++#define UCLK_VLD					BIT(2)
++#define PCLK_VLD						BIT(3)
++#define PCIRSTB						BIT(4)
++#define V15_VLD						BIT(5)
++#define TRP_B15V_EN					BIT(7)
++#define SIC_IDLE						BIT(8)
++#define BD_MAC2						BIT(9)
++#define BD_MAC1						BIT(10)
++#define IC_MACPHY_MODE				BIT(11)
++#define PAD_HWPD_IDN				BIT(22)
++#define TRP_VAUX_EN					BIT(23)
++#define TRP_BT_EN					BIT(24)
++#define BD_PKG_SEL					BIT(25)
++#define BD_HCI_SEL					BIT(26)
++#define TYPE_ID						BIT(27)
++
++#define CHIP_VER_RTL_MASK			0xF000	//Bit 12 ~ 15
++#define CHIP_VER_RTL_SHIFT			12
++
++//-----------------------------------------------------
++//
++//	0x0100h ~ 0x01FFh	MACTOP General Configuration
++//
++//-----------------------------------------------------
++
++
++//2 Function Enable Registers
++//2 CR
++
++#define REG_LBMODE					(REG_CR + 3)
++
++
++#define HCI_TXDMA_EN				BIT(0)
++#define HCI_RXDMA_EN				BIT(1)
++#define TXDMA_EN					BIT(2)
++#define RXDMA_EN					BIT(3)
++#define PROTOCOL_EN					BIT(4)
++#define SCHEDULE_EN					BIT(5)
++#define MACTXEN						BIT(6)
++#define MACRXEN						BIT(7)
++#define ENSWBCN						BIT(8)
++#define ENSEC						BIT(9)
++
++// Network type
++#define _NETTYPE(x)					(((x) & 0x3) << 16)
++#define MASK_NETTYPE				0x30000
++#define NT_NO_LINK					0x0
++#define NT_LINK_AD_HOC				0x1
++#define NT_LINK_AP					0x2
++#define NT_AS_AP					0x3
++
++#define _LBMODE(x)					(((x) & 0xF) << 24)
++#define MASK_LBMODE				0xF000000
++#define LOOPBACK_NORMAL			0x0
++#define LOOPBACK_IMMEDIATELY		0xB
++#define LOOPBACK_MAC_DELAY		0x3
++#define LOOPBACK_PHY				0x1
++#define LOOPBACK_DMA				0x7
++
++
++//2 PBP - Page Size Register
++#define GET_RX_PAGE_SIZE(value)		((value) & 0xF)
++#define GET_TX_PAGE_SIZE(value)		(((value) & 0xF0) >> 4)
++#define _PSRX_MASK					0xF
++#define _PSTX_MASK					0xF0
++#define _PSRX(x)						(x)
++#define _PSTX(x)						((x) << 4)
++
++#define PBP_64						0x0
++#define PBP_128						0x1
++#define PBP_256						0x2
++#define PBP_512						0x3
++#define PBP_1024					0x4
++
++
++//2 TX/RXDMA
++#define RXDMA_ARBBW_EN			BIT(0)
++#define RXSHFT_EN					BIT(1)
++#define RXDMA_AGG_EN				BIT(2)
++#define QS_VO_QUEUE				BIT(8)
++#define QS_VI_QUEUE					BIT(9)
++#define QS_BE_QUEUE				BIT(10)
++#define QS_BK_QUEUE				BIT(11)
++#define QS_MANAGER_QUEUE			BIT(12)
++#define QS_HIGH_QUEUE				BIT(13)
++
++#define HQSEL_VOQ					BIT(0)
++#define HQSEL_VIQ					BIT(1)
++#define HQSEL_BEQ					BIT(2)
++#define HQSEL_BKQ					BIT(3)
++#define HQSEL_MGTQ					BIT(4)
++#define HQSEL_HIQ					BIT(5)
++
++// For normal driver, 0x10C
++#define _TXDMA_HIQ_MAP(x) 	 		(((x)&0x3) << 14)
++#define _TXDMA_MGQ_MAP(x) 	 		(((x)&0x3) << 12)
++#define _TXDMA_BKQ_MAP(x) 	 		(((x)&0x3) << 10)		
++#define _TXDMA_BEQ_MAP(x) 	 		(((x)&0x3) << 8 )
++#define _TXDMA_VIQ_MAP(x) 	 		(((x)&0x3) << 6 )
++#define _TXDMA_VOQ_MAP(x) 	 		(((x)&0x3) << 4 )
++
++#define QUEUE_LOW					1
++#define QUEUE_NORMAL				2
++#define QUEUE_HIGH					3
++
++
++
++//2 TRXFF_BNDY
++
++
++//2 LLT_INIT
++#define _LLT_NO_ACTIVE				0x0
++#define _LLT_WRITE_ACCESS			0x1
++#define _LLT_READ_ACCESS			0x2
++
++#define _LLT_INIT_DATA(x)			((x) & 0xFF)
++#define _LLT_INIT_ADDR(x)			(((x) & 0xFF) << 8)
++#define _LLT_OP(x)					(((x) & 0x3) << 30)
++#define _LLT_OP_VALUE(x)			(((x) >> 30) & 0x3)
++
++
++//2 BB_ACCESS_CTRL
++#define BB_WRITE_READ_MASK		(BIT(31) | BIT(30))
++#define BB_WRITE_EN					BIT(30)
++#define BB_READ_EN					BIT(31)
++//#define BB_ADDR_MASK				0xFFF
++//#define _BB_ADDR(x)					((x) & BB_ADDR_MASK)
++
++//-----------------------------------------------------
++//
++//	0x0200h ~ 0x027Fh	TXDMA Configuration
++//
++//-----------------------------------------------------
++//2 RQPN
++#define _HPQ(x)						((x) & 0xFF)
++#define _LPQ(x)						(((x) & 0xFF) << 8)
++#define _PUBQ(x)						(((x) & 0xFF) << 16)
++#define _NPQ(x)						((x) & 0xFF)			// NOTE: in RQPN_NPQ register
++
++
++#define HPQ_PUBLIC_DIS				BIT(24)
++#define LPQ_PUBLIC_DIS				BIT(25)
++#define LD_RQPN						BIT(31)
++
++
++//2 TDECTRL
++#define BCN_VALID					BIT(16)
++#define BCN_HEAD(x)					(((x) & 0xFF) << 8)
++#define	BCN_HEAD_MASK				0xFF00
++
++//2 TDECTL
++#define BLK_DESC_NUM_SHIFT			4
++#define BLK_DESC_NUM_MASK			0xF
++
++
++//2 TXDMA_OFFSET_CHK
++#define DROP_DATA_EN				BIT(9)
++
++//-----------------------------------------------------
++//
++//	0x0400h ~ 0x047Fh	Protocol Configuration
++//
++//-----------------------------------------------------
++//2 FWHW_TXQ_CTRL
++#define EN_AMPDU_RTY_NEW			BIT(7)
++
++//2 INIRTSMCS_SEL
++#define _INIRTSMCS_SEL(x)			((x) & 0x3F)
++
++
++//2 SPEC SIFS
++#define _SPEC_SIFS_CCK(x)			((x) & 0xFF)
++#define _SPEC_SIFS_OFDM(x)			(((x) & 0xFF) << 8)
++
++
++//2 RRSR
++
++#define RATE_REG_BITMAP_ALL			0xFFFFF
++
++#define _RRSC_BITMAP(x)					((x) & 0xFFFFF)
++
++#define _RRSR_RSC(x)						(((x) & 0x3) << 21)
++#define RRSR_RSC_RESERVED				0x0
++#define RRSR_RSC_UPPER_SUBCHANNEL	0x1
++#define RRSR_RSC_LOWER_SUBCHANNEL	0x2
++#define RRSR_RSC_DUPLICATE_MODE		0x3
++
++
++//2 ARFR
++#define USE_SHORT_G1				BIT(20)
++
++//2 AGGLEN_LMT_L
++#define _AGGLMT_MCS0(x)				((x) & 0xF)
++#define _AGGLMT_MCS1(x)				(((x) & 0xF) << 4)
++#define _AGGLMT_MCS2(x)				(((x) & 0xF) << 8)
++#define _AGGLMT_MCS3(x)				(((x) & 0xF) << 12)
++#define _AGGLMT_MCS4(x)				(((x) & 0xF) << 16)
++#define _AGGLMT_MCS5(x)				(((x) & 0xF) << 20)
++#define _AGGLMT_MCS6(x)				(((x) & 0xF) << 24)
++#define _AGGLMT_MCS7(x)				(((x) & 0xF) << 28)
++
++
++//2 RL
++#define	RETRY_LIMIT_SHORT_SHIFT		8
++#define	RETRY_LIMIT_LONG_SHIFT		0
++
++
++//2 DARFRC
++#define _DARF_RC1(x)				((x) & 0x1F)
++#define _DARF_RC2(x)				(((x) & 0x1F) << 8)
++#define _DARF_RC3(x)				(((x) & 0x1F) << 16)
++#define _DARF_RC4(x)				(((x) & 0x1F) << 24)
++// NOTE: shift starting from address (DARFRC + 4)
++#define _DARF_RC5(x)				((x) & 0x1F)
++#define _DARF_RC6(x)				(((x) & 0x1F) << 8)
++#define _DARF_RC7(x)				(((x) & 0x1F) << 16)
++#define _DARF_RC8(x)				(((x) & 0x1F) << 24)
++
++
++//2 RARFRC
++#define _RARF_RC1(x)				((x) & 0x1F)
++#define _RARF_RC2(x)				(((x) & 0x1F) << 8)
++#define _RARF_RC3(x)				(((x) & 0x1F) << 16)
++#define _RARF_RC4(x)				(((x) & 0x1F) << 24)
++// NOTE: shift starting from address (RARFRC + 4)
++#define _RARF_RC5(x)				((x) & 0x1F)
++#define _RARF_RC6(x)				(((x) & 0x1F) << 8)
++#define _RARF_RC7(x)				(((x) & 0x1F) << 16)
++#define _RARF_RC8(x)				(((x) & 0x1F) << 24)
++
++
++
++
++//-----------------------------------------------------
++//
++//	0x0500h ~ 0x05FFh	EDCA Configuration
++//
++//-----------------------------------------------------
++
++
++
++//2 EDCA setting
++#define AC_PARAM_TXOP_LIMIT_OFFSET	16
++#define AC_PARAM_ECW_MAX_OFFSET		12
++#define AC_PARAM_ECW_MIN_OFFSET		8
++#define AC_PARAM_AIFS_OFFSET			0
++
++
++//2 EDCA_VO_PARAM
++#define _AIFS(x)						(x)
++#define _ECW_MAX_MIN(x)			((x) << 8)
++#define _TXOP_LIMIT(x)				((x) << 16)
++
++
++#define _BCNIFS(x)					((x) & 0xFF)
++#define _BCNECW(x)					(((x) & 0xF))<< 8)
++
++
++#define _LRL(x)						((x) & 0x3F)
++#define _SRL(x)						(((x) & 0x3F) << 8)
++
++
++//2 SIFS_CCK
++#define _SIFS_CCK_CTX(x)			((x) & 0xFF)
++#define _SIFS_CCK_TRX(x)			(((x) & 0xFF) << 8);
++
++
++//2 SIFS_OFDM
++#define _SIFS_OFDM_CTX(x)			((x) & 0xFF)
++#define _SIFS_OFDM_TRX(x)			(((x) & 0xFF) << 8);
++
++
++//2 TBTT PROHIBIT
++#define _TBTT_PROHIBIT_HOLD(x)		(((x) & 0xFF) << 8)
++
++
++//2 REG_RD_CTRL
++#define DIS_EDCA_CNT_DWN			BIT(11)
++
++
++//2 BCN_CTRL
++#define EN_MBSSID						BIT(1)
++#define EN_TXBCN_RPT					BIT(2)
++#define EN_BCN_FUNCTION				BIT(3)
++// The same function but different bit field.
++#define DIS_TSF_UDT0_NORMAL_CHIP		BIT(4)
++#define DIS_TSF_UDT0_TEST_CHIP		BIT(5)
++
++//2 ACMHWCTRL
++#define	AcmHw_HwEn					BIT(0)
++#define	AcmHw_BeqEn					BIT(1)
++#define	AcmHw_ViqEn					BIT(2)
++#define	AcmHw_VoqEn					BIT(3)
++#define	AcmHw_BeqStatus				BIT(4)
++#define	AcmHw_ViqStatus				BIT(5)
++#define	AcmHw_VoqStatus				BIT(6)
++
++
++
++//-----------------------------------------------------
++//
++//	0x0600h ~ 0x07FFh	WMAC Configuration
++//
++//-----------------------------------------------------
++
++//2 APSD_CTRL
++#define APSDOFF						BIT(6)
++#define APSDOFF_STATUS				BIT(7)
++
++
++//2 BWOPMODE
++#define BW_20MHZ					BIT(2)
++//#define BW_OPMODE_20MHZ				BIT(2)	// For compability
++
++
++#define RATE_BITMAP_ALL			0xFFFFF
++
++// Only use CCK 1M rate for ACK
++#define RATE_RRSR_CCK_ONLY_1M		0xFFFF1
++#define RATE_RRSR_WITHOUT_CCK		0xFFFF0
++
++//2 TCR
++#define TSFRST						BIT(0)
++#define DIS_GCLK						BIT(1)
++#define PAD_SEL						BIT(2)
++#define PWR_ST						BIT(6)
++#define PWRBIT_OW_EN				BIT(7)
++#define ACRC							BIT(8)
++#define CFENDFORM					BIT(9)
++#define ICV							BIT(10)
++
++
++
++//2 RCR
++#define AAP							BIT(0)
++#define APM							BIT(1)
++#define AM							BIT(2)
++#define AB							BIT(3)
++#define ADD3							BIT(4)
++#define APWRMGT					BIT(5)
++#define CBSSID						BIT(6)
++#define CBSSID_BCN					BIT(7)
++#define ACRC32						BIT(8)
++#define AICV							BIT(9)
++#define ADF							BIT(11)
++#define ACF							BIT(12)
++#define AMF							BIT(13)
++#define HTC_LOC_CTRL				BIT(14)
++#define UC_DATA_EN					BIT(16)
++#define BM_DATA_EN					BIT(17)
++#define MFBEN						BIT(22)
++#define LSIGEN						BIT(23)
++#define EnMBID						BIT(24)
++#define APP_BASSN					BIT(27)
++#define APP_PHYSTS					BIT(28)
++#define APP_ICV						BIT(29)
++#define APP_MIC						BIT(30)
++#define APP_FCS						BIT(31)
++
++//2 RX_PKT_LIMIT
++
++//2 RX_DLK_TIME
++
++//2 MBIDCAMCFG
++
++
++
++//2 AMPDU_MIN_SPACE
++#define _MIN_SPACE(x)				((x) & 0x7)
++#define _SHORT_GI_PADDING(x)		(((x) & 0x1F) << 3)
++
++
++//2 RXERR_RPT
++#define RXERR_TYPE_OFDM_PPDU			0
++#define RXERR_TYPE_OFDM_FALSE_ALARM	1
++#define RXERR_TYPE_OFDM_MPDU_OK		2
++#define RXERR_TYPE_OFDM_MPDU_FAIL	3
++#define RXERR_TYPE_CCK_PPDU			4
++#define RXERR_TYPE_CCK_FALSE_ALARM	5
++#define RXERR_TYPE_CCK_MPDU_OK		6
++#define RXERR_TYPE_CCK_MPDU_FAIL		7
++#define RXERR_TYPE_HT_PPDU				8
++#define RXERR_TYPE_HT_FALSE_ALARM	9
++#define RXERR_TYPE_HT_MPDU_TOTAL		10
++#define RXERR_TYPE_HT_MPDU_OK			11
++#define RXERR_TYPE_HT_MPDU_FAIL		12
++#define RXERR_TYPE_RX_FULL_DROP		15
++
++#define RXERR_COUNTER_MASK			0xFFFFF
++#define RXERR_RPT_RST					BIT(27)
++#define _RXERR_RPT_SEL(type)			((type) << 28)
++
++
++//2 SECCFG
++#define	SCR_TxUseDK					BIT(0)			//Force Tx Use Default Key
++#define	SCR_RxUseDK					BIT(1)			//Force Rx Use Default Key
++#define	SCR_TxEncEnable				BIT(2)			//Enable Tx Encryption
++#define	SCR_RxDecEnable				BIT(3)			//Enable Rx Decryption
++#define	SCR_SKByA2						BIT(4)			//Search kEY BY A2
++#define	SCR_NoSKMC						BIT(5)			//No Key Search Multicast
++#define 	SCR_TXBCUSEDK					BIT(6)			// Force Tx Broadcast packets Use Default Key
++#define 	SCR_RXBCUSEDK					BIT(7)			// Force Rx Broadcast packets Use Default Key
++
++//vivi added for new cam search flow, 20091028
++#ifdef HW_EN_DE_CRYPTION_FOR_NEW_CAM_SEARCH_FLOW
++#define	SCR_TxUseBroadcastDK			BIT6			//Force Tx Use Broadcast Default Key
++#define	SCR_RxUseBroadcastDK			BIT7			//Force Rx Use Broadcast Default Key
++#endif
++
++
++//-----------------------------------------------------
++//
++//	0xFE00h ~ 0xFE55h	USB Configuration
++//
++//-----------------------------------------------------
++
++//2 USB Information (0xFE17)
++#define USB_IS_HIGH_SPEED				0
++#define USB_IS_FULL_SPEED				1
++#define USB_SPEED_MASK					BIT(5)
++
++#define USB_NORMAL_SIE_EP_MASK		0xF
++#define USB_NORMAL_SIE_EP_SHIFT		4
++
++#define USB_TEST_EP_MASK				0x30
++#define USB_TEST_EP_SHIFT				4
++
++//2 Special Option
++#define USB_AGG_EN						BIT(3)
++
++
++//2REG_C2HEVT_CLEAR
++#define C2H_EVT_HOST_CLOSE				0x00	// Set by driver and notify FW that the driver has read the C2H command message
++#define C2H_EVT_FW_CLOSE				0xFF	// Set by FW indicating that FW had set the C2H command message and it's not yet read by driver.
++
++//2 8192D PartNo.
++#define		PARTNO_92D_NIC			(BIT7|BIT6)
++#define		PARTNO_92D_NIC_REMARK (BIT5|BIT4)
++#define		PARTNO_SINGLE_BAND_VS  BIT3
++#define		PARTNO_SINGLE_BAND_VS_REMARK BIT1
++#define		PARTNO_CONCURRENT_BAND_VC (BIT3|BIT2)
++#define		PARTNO_CONCURRENT_BAND_VC_REMARK (BIT1|BIT0)
++//========================================================
++// General definitions
++//========================================================
++
++#define MAC_ADDR_LEN						6
++#define LAST_ENTRY_OF_TX_PKT_BUFFER		255
++#define LAST_ENTRY_OF_TX_PKT_BUFFER_DUAL_MAC	127
++
++#define POLLING_LLT_THRESHOLD				20
++#define POLLING_READY_TIMEOUT_COUNT		1000
++
++// Min Spacing related settings.
++#define	MAX_MSS_DENSITY_2T				0x13
++#define	MAX_MSS_DENSITY_1T				0x0A
++// GPIO BIT
++#define	HAL_8192C_HW_GPIO_WPS_BIT		BIT2
++
++
++#include "basic_types.h"
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtl8192d_xmit.h b/drivers/net/wireless/rtl8192cu/include/rtl8192d_xmit.h
+new file mode 100755
+index 0000000..d01fb4a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtl8192d_xmit.h
+@@ -0,0 +1,145 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8192D_XMIT_H_
++#define _RTL8192D_XMIT_H_
++
++//
++// Queue Select Value in TxDesc
++//
++#define QSLT_BK							0x2//0x01
++#define QSLT_BE							0x0
++#define QSLT_VI							0x5//0x4
++#define QSLT_VO							0x7//0x6
++#define QSLT_BEACON						0x10
++#define QSLT_HIGH						0x11
++#define QSLT_MGNT						0x12
++#define QSLT_CMD						0x13
++
++//Because we open EM for normal case, we just always insert 2*8 bytes.by wl
++#define USB_92D_DUMMY_OFFSET		2
++#define USB_92D_DUMMY_LENGTH		(USB_92D_DUMMY_OFFSET * PACKET_OFFSET_SZ)
++#define USB_HWDESC_HEADER_LEN	(TXDESC_SIZE + USB_92D_DUMMY_LENGTH)
++
++//For 92D early mode
++#define SET_EARLYMODE_PKTNUM(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 0, 3, __Value)
++#define SET_EARLYMODE_LEN0(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 4, 12, __Value)
++#define SET_EARLYMODE_LEN1(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 16, 12, __Value)
++#define SET_EARLYMODE_LEN2_1(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 28, 4, __Value)
++#define SET_EARLYMODE_LEN2_2(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 8, __Value)
++#define SET_EARLYMODE_LEN3(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 8, 12, __Value)
++#define SET_EARLYMODE_LEN4(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 20, 12, __Value)
++
++/* Copy from rtl8192c */
++struct txrpt_ccx_8192d {
++	/* offset 0 */
++	u8 retry_cnt:6;
++	u8 rsvd_0:2;
++
++	/* offset 1 */
++	u8 rts_retry_cnt:6;
++	u8 rsvd_1:2;
++
++	/* offset 2 */
++	u8 ccx_qtime0;
++	u8 ccx_qtime1;
++
++	/* offset 4 */
++	u8 missed_pkt_num:5;
++	u8 rsvd_4:3;
++
++	/* offset 5 */
++	u8 mac_id:5;
++	u8 des1_fragssn:3;
++
++	/* offset 6 */
++	u8 rpt_pkt_num:5;
++	u8 pkt_drop:1;
++	u8 lifetime_over:1;
++	u8 retry_over:1;
++
++	/* offset 7*/
++	u8 edca_tx_queue:4;
++	u8 rsvd_7:1;
++	u8 bmc:1;
++	u8 pkt_ok:1;
++	u8 int_ccx:1;
++};
++
++#define txrpt_ccx_qtime_8192d(txrpt_ccx) ((txrpt_ccx)->ccx_qtime0+((txrpt_ccx)->ccx_qtime1<<8))
++
++#ifdef CONFIG_XMIT_ACK
++void dump_txrpt_ccx_8192d(void *buf);
++void handle_txrpt_ccx_8192d(_adapter *adapter, void *buf);
++#else
++#define dump_txrpt_ccx_8192d(buf) do {} while(0)
++#define handle_txrpt_ccx_8192d(adapter, buf) do {} while(0)
++#endif
++
++#ifdef CONFIG_USB_HCI
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++#define MAX_TX_AGG_PACKET_NUMBER 0xFF
++#endif
++
++s32	rtl8192du_init_xmit_priv(_adapter * padapter);
++
++void	rtl8192du_free_xmit_priv(_adapter * padapter);
++
++void rtl8192du_cal_txdesc_chksum(struct tx_desc	*ptxdesc);
++
++s32 rtl8192du_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++
++s32 rtl8192du_mgnt_xmit(_adapter *padapter, struct xmit_frame *pmgntframe);
++
++s32 rtl8192du_hal_xmit(_adapter *padapter, struct xmit_frame *pxmitframe);
++
++s32	 rtl8192du_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++
++
++#ifdef CONFIG_HOSTAPD_MLME
++s32	rtl8192du_hostap_mgnt_xmit_entry(_adapter *padapter, _pkt *pkt);
++#endif
++
++#endif
++
++#ifdef CONFIG_PCI_HCI
++s32	rtl8192de_init_xmit_priv(_adapter * padapter);
++void	rtl8192de_free_xmit_priv(_adapter * padapter);
++
++s32	rtl8192de_enqueue_xmitbuf(struct rtw_tx_ring *ring, struct xmit_buf *pxmitbuf);
++struct xmit_buf *rtl8192de_dequeue_xmitbuf(struct rtw_tx_ring *ring);
++
++void	rtl8192de_xmitframe_resume(_adapter *padapter);
++
++s32	rtl8192de_mgnt_xmit(_adapter *padapter, struct xmit_frame *pmgntframe);
++
++s32	rtl8192de_hal_xmit(_adapter *padapter, struct xmit_frame *pxmitframe);
++
++s32	 rtl8192de_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++
++#ifdef CONFIG_HOSTAPD_MLME
++s32	rtl8192de_hostap_mgnt_xmit_entry(_adapter *padapter, _pkt *pkt);
++#endif
++
++#endif
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_android.h b/drivers/net/wireless/rtl8192cu/include/rtw_android.h
+new file mode 100755
+index 0000000..f9214c2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_android.h
+@@ -0,0 +1,90 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef __RTW_ANDROID_H__
++#define __RTW_ANDROID_H__
++
++#include <linux/module.h>
++#include <linux/netdevice.h>
++
++enum ANDROID_WIFI_CMD {
++	ANDROID_WIFI_CMD_START,				
++	ANDROID_WIFI_CMD_STOP,			
++	ANDROID_WIFI_CMD_SCAN_ACTIVE,
++	ANDROID_WIFI_CMD_SCAN_PASSIVE,		
++	ANDROID_WIFI_CMD_RSSI,	
++	ANDROID_WIFI_CMD_LINKSPEED,
++	ANDROID_WIFI_CMD_RXFILTER_START,
++	ANDROID_WIFI_CMD_RXFILTER_STOP,	
++	ANDROID_WIFI_CMD_RXFILTER_ADD,	
++	ANDROID_WIFI_CMD_RXFILTER_REMOVE,
++	ANDROID_WIFI_CMD_BTCOEXSCAN_START,
++	ANDROID_WIFI_CMD_BTCOEXSCAN_STOP,
++	ANDROID_WIFI_CMD_BTCOEXMODE,
++	ANDROID_WIFI_CMD_SETSUSPENDOPT,
++	ANDROID_WIFI_CMD_P2P_DEV_ADDR,	
++	ANDROID_WIFI_CMD_SETFWPATH,		
++	ANDROID_WIFI_CMD_SETBAND,		
++	ANDROID_WIFI_CMD_GETBAND,			
++	ANDROID_WIFI_CMD_COUNTRY,			
++	ANDROID_WIFI_CMD_P2P_SET_NOA,
++	ANDROID_WIFI_CMD_P2P_GET_NOA,	
++	ANDROID_WIFI_CMD_P2P_SET_PS,	
++	ANDROID_WIFI_CMD_SET_AP_WPS_P2P_IE,
++#ifdef PNO_SUPPORT
++	ANDROID_WIFI_CMD_PNOSSIDCLR_SET,
++	ANDROID_WIFI_CMD_PNOSETUP_SET,
++	ANDROID_WIFI_CMD_PNOENABLE_SET,
++	ANDROID_WIFI_CMD_PNODEBUG_SET,
++#endif
++
++	ANDROID_WIFI_CMD_MACADDR,
++
++	ANDROID_WIFI_CMD_BLOCK,
++
++	ANDROID_WIFI_CMD_WFD_ENABLE,
++	ANDROID_WIFI_CMD_WFD_DISABLE,
++	
++	ANDROID_WIFI_CMD_WFD_SET_TCPPORT,
++	ANDROID_WIFI_CMD_WFD_SET_MAX_TPUT,
++	ANDROID_WIFI_CMD_WFD_SET_DEVTYPE,
++
++	ANDROID_WIFI_CMD_MAX
++};
++
++int rtw_android_cmdstr_to_num(char *cmdstr);
++int rtw_android_priv_cmd(struct net_device *net, struct ifreq *ifr, int cmd);
++
++#if defined(RTW_ENABLE_WIFI_CONTROL_FUNC)
++int rtw_android_wifictrl_func_add(void);
++void rtw_android_wifictrl_func_del(void);
++void* wl_android_prealloc(int section, unsigned long size);
++
++int wifi_get_irq_number(unsigned long *irq_flags_ptr);
++int wifi_set_power(int on, unsigned long msec);
++int wifi_get_mac_addr(unsigned char *buf);
++void *wifi_get_country_code(char *ccode);
++#else
++static int rtw_android_wifictrl_func_add(void) { return 0; }
++static void rtw_android_wifictrl_func_del(void) {}
++#endif /* defined(RTW_ENABLE_WIFI_CONTROL_FUNC) */
++
++#endif //__RTW_ANDROID_H__
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_ap.h b/drivers/net/wireless/rtl8192cu/include/rtw_ap.h
+new file mode 100755
+index 0000000..42be4c6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_ap.h
+@@ -0,0 +1,64 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_AP_H_
++#define __RTW_AP_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++
++#ifdef CONFIG_AP_MODE
++
++//external function
++extern void rtw_indicate_sta_assoc_event(_adapter *padapter, struct sta_info *psta);
++extern void rtw_indicate_sta_disassoc_event(_adapter *padapter, struct sta_info *psta);
++
++
++void init_mlme_ap_info(_adapter *padapter);
++void free_mlme_ap_info(_adapter *padapter);
++//void update_BCNTIM(_adapter *padapter);
++void rtw_add_bcn_ie(_adapter *padapter, WLAN_BSSID_EX *pnetwork, u8 index, u8 *data, u8 len);
++void rtw_remove_bcn_ie(_adapter *padapter, WLAN_BSSID_EX *pnetwork, u8 index);
++void update_beacon(_adapter *padapter, u8 ie_id, u8 *oui, u8 tx);
++void expire_timeout_chk(_adapter *padapter);	
++void update_sta_info_apmode(_adapter *padapter, struct sta_info *psta);
++int rtw_check_beacon_data(_adapter *padapter, u8 *pbuf,  int len);
++void rtw_ap_restore_network(_adapter *padapter);
++void rtw_set_macaddr_acl(_adapter *padapter, int mode);
++int rtw_acl_add_sta(_adapter *padapter, u8 *addr);
++int rtw_acl_remove_sta(_adapter *padapter, u8 *addr);
++
++#ifdef CONFIG_NATIVEAP_MLME
++void associated_clients_update(_adapter *padapter, u8 updated);
++void bss_cap_update_on_sta_join(_adapter *padapter, struct sta_info *psta);
++u8 bss_cap_update_on_sta_leave(_adapter *padapter, struct sta_info *psta);
++void sta_info_update(_adapter *padapter, struct sta_info *psta);
++void ap_sta_info_defer_update(_adapter *padapter, struct sta_info *psta);
++u8 ap_free_sta(_adapter *padapter, struct sta_info *psta, bool active, u16 reason);
++int rtw_sta_flush(_adapter *padapter);
++int rtw_ap_inform_ch_switch(_adapter *padapter, u8 new_ch, u8 ch_offset);
++void start_ap_mode(_adapter *padapter);
++void stop_ap_mode(_adapter *padapter);
++#endif
++#endif //end of CONFIG_AP_MODE
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_br_ext.h b/drivers/net/wireless/rtl8192cu/include/rtw_br_ext.h
+new file mode 100755
+index 0000000..9da3fdd
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_br_ext.h
+@@ -0,0 +1,76 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_BR_EXT_H_
++#define _RTW_BR_EXT_H_
++
++#if 1	// rtw_wifi_driver
++#define CL_IPV6_PASS    	1
++#define MACADDRLEN		6
++#define _DEBUG_ERR		printk
++#define _DEBUG_INFO		//printk
++#define DEBUG_WARN		printk
++#define DEBUG_INFO		//printk
++#define DEBUG_ERR		printk
++//#define GET_MY_HWADDR		((GET_MIB(priv))->dot11OperationEntry.hwaddr)
++#define GET_MY_HWADDR(padapter)		((padapter)->eeprompriv.mac_addr)
++#endif	// rtw_wifi_driver
++
++#define NAT25_HASH_BITS		4
++#define NAT25_HASH_SIZE		(1 << NAT25_HASH_BITS)
++#define NAT25_AGEING_TIME	300
++
++#ifdef CL_IPV6_PASS
++#define MAX_NETWORK_ADDR_LEN	17
++#else
++#define MAX_NETWORK_ADDR_LEN	11
++#endif
++
++struct nat25_network_db_entry
++{
++	struct nat25_network_db_entry	*next_hash;
++	struct nat25_network_db_entry	**pprev_hash;
++	atomic_t						use_count;
++	unsigned char					macAddr[6];
++	unsigned long					ageing_timer;
++	unsigned char    				networkAddr[MAX_NETWORK_ADDR_LEN];
++};
++
++enum NAT25_METHOD {
++	NAT25_MIN,
++	NAT25_CHECK,
++	NAT25_INSERT,
++	NAT25_LOOKUP,
++	NAT25_PARSE,
++	NAT25_MAX
++};
++
++struct br_ext_info {
++	unsigned int	nat25_disable;
++	unsigned int	macclone_enable;
++	unsigned int	dhcp_bcst_disable;
++	int		addPPPoETag;		// 1: Add PPPoE relay-SID, 0: disable
++	unsigned char	nat25_dmzMac[MACADDRLEN];
++	unsigned int	nat25sc_disable;
++};
++
++void nat25_db_cleanup(_adapter *priv);
++
++#endif // _RTW_BR_EXT_H_
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_byteorder.h b/drivers/net/wireless/rtl8192cu/include/rtw_byteorder.h
+new file mode 100755
+index 0000000..0f06b7a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_byteorder.h
+@@ -0,0 +1,40 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL871X_BYTEORDER_H_
++#define _RTL871X_BYTEORDER_H_
++
++#include <drv_conf.h>
++
++#if defined (CONFIG_LITTLE_ENDIAN) && defined (CONFIG_BIG_ENDIAN)
++#error "Shall be CONFIG_LITTLE_ENDIAN or CONFIG_BIG_ENDIAN, but not both!\n"
++#endif
++
++#if defined (CONFIG_LITTLE_ENDIAN)
++#ifndef CONFIG_PLATFORM_MSTAR389
++#  include <byteorder/little_endian.h>
++#endif
++#elif defined (CONFIG_BIG_ENDIAN)
++#  include <byteorder/big_endian.h>
++#else
++#  error "Must be LITTLE/BIG Endian Host"
++#endif
++
++#endif /* _RTL871X_BYTEORDER_H_ */
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_cmd.h b/drivers/net/wireless/rtl8192cu/include/rtw_cmd.h
+new file mode 100755
+index 0000000..ab115c5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_cmd.h
+@@ -0,0 +1,1167 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_CMD_H_
++#define __RTW_CMD_H_
++
++#include <drv_conf.h>
++#include <wlan_bssdef.h>
++#include <rtw_rf.h>
++#include <rtw_led.h>
++
++#define C2H_MEM_SZ (16*1024)
++
++#ifndef CONFIG_RTL8711FW
++
++	#include <osdep_service.h>
++	#include <ieee80211.h> // <ieee80211/ieee80211.h>
++
++
++	#define FREE_CMDOBJ_SZ	128
++	
++	#define MAX_CMDSZ	1024
++	#define MAX_RSPSZ	512
++	#define MAX_EVTSZ	1024
++
++#ifdef PLATFORM_OS_CE
++	#define CMDBUFF_ALIGN_SZ 4
++#else
++	#define CMDBUFF_ALIGN_SZ 512
++#endif
++
++	struct cmd_obj {
++		_adapter *padapter;
++		u16	cmdcode;
++		u8	res;
++		u8	*parmbuf;
++		u32	cmdsz;
++		u8	*rsp;
++		u32	rspsz;
++		//_sema 	cmd_sem;
++		_list	list;
++	};
++
++	struct cmd_priv {
++		_sema	cmd_queue_sema;
++		//_sema	cmd_done_sema;
++		_sema	terminate_cmdthread_sema;		
++		_queue	cmd_queue;
++		u8	cmd_seq;
++		u8	*cmd_buf;	//shall be non-paged, and 4 bytes aligned
++		u8	*cmd_allocated_buf;
++		u8	*rsp_buf;	//shall be non-paged, and 4 bytes aligned		
++		u8	*rsp_allocated_buf;
++		u32	cmd_issued_cnt;
++		u32	cmd_done_cnt;
++		u32	rsp_cnt;
++		u8 cmdthd_running;
++		u8 stop_req;
++		_adapter *padapter;
++	};
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++	struct evt_obj {
++		u16	evtcode;
++		u8	res;
++		u8	*parmbuf;
++		u32	evtsz;		
++		_list	list;
++	};
++#endif
++
++	struct	evt_priv {
++#ifdef CONFIG_EVENT_THREAD_MODE
++		_sema	evt_notify;
++		_sema	terminate_evtthread_sema;
++		_queue	evt_queue;
++#endif
++
++//#define CONFIG_C2H_WK
++#ifdef CONFIG_C2H_WK
++		_workitem c2h_wk;
++		bool c2h_wk_alive;
++		struct rtw_cbuf *c2h_queue;
++		#define C2H_QUEUE_MAX_LEN 10
++#endif
++		
++#ifdef CONFIG_H2CLBK
++		_sema	lbkevt_done;
++		u8	lbkevt_limit;
++		u8	lbkevt_num;
++		u8	*cmdevt_parm;		
++#endif
++		ATOMIC_T event_seq;
++		u8	*evt_buf;	//shall be non-paged, and 4 bytes aligned		
++		u8	*evt_allocated_buf;
++		u32	evt_done_cnt;
++#ifdef CONFIG_SDIO_HCI
++		u8	*c2h_mem;
++		u8	*allocated_c2h_mem;
++#ifdef PLATFORM_OS_XP
++		PMDL	pc2h_mdl;
++#endif
++#endif
++
++	};
++
++#define init_h2fwcmd_w_parm_no_rsp(pcmd, pparm, code) \
++do {\
++	_rtw_init_listhead(&pcmd->list);\
++	pcmd->cmdcode = code;\
++	pcmd->parmbuf = (u8 *)(pparm);\
++	pcmd->cmdsz = sizeof (*pparm);\
++	pcmd->rsp = NULL;\
++	pcmd->rspsz = 0;\
++} while(0)
++
++struct c2h_evt_hdr {
++	u8 id:4;
++	u8 plen:4;
++	u8 seq;
++	u8 payload[0];
++};
++
++#define c2h_evt_exist(c2h_evt) ((c2h_evt)->id || (c2h_evt)->plen)
++
++extern u32 rtw_enqueue_cmd(struct cmd_priv *pcmdpriv, struct cmd_obj *obj);
++extern struct cmd_obj *rtw_dequeue_cmd(struct cmd_priv *pcmdpriv);
++extern void rtw_free_cmd_obj(struct cmd_obj *pcmd);
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++extern u32 rtw_enqueue_evt(struct evt_priv *pevtpriv, struct evt_obj *obj);
++extern struct evt_obj *rtw_dequeue_evt(_queue *queue);
++extern void rtw_free_evt_obj(struct evt_obj *pcmd);
++#endif
++
++void rtw_stop_cmd_thread(_adapter *adapter);
++thread_return rtw_cmd_thread(thread_context context);
++
++extern u32 rtw_init_cmd_priv (struct cmd_priv *pcmdpriv);
++extern void rtw_free_cmd_priv (struct cmd_priv *pcmdpriv);
++
++extern u32 rtw_init_evt_priv (struct evt_priv *pevtpriv);
++extern void rtw_free_evt_priv (struct evt_priv *pevtpriv);
++extern void rtw_cmd_clr_isr(struct cmd_priv *pcmdpriv);
++extern void rtw_evt_notify_isr(struct evt_priv *pevtpriv);
++#ifdef CONFIG_P2P
++u8 p2p_protocol_wk_cmd(_adapter*padapter, int intCmdType );
++#endif //CONFIG_P2P
++
++#else
++	#include <ieee80211.h>
++#endif	/* CONFIG_RTL8711FW */
++
++enum rtw_drvextra_cmd_id
++{	
++	NONE_WK_CID,
++	DYNAMIC_CHK_WK_CID,
++	DM_CTRL_WK_CID,
++	PBC_POLLING_WK_CID,
++	POWER_SAVING_CTRL_WK_CID,//IPS,AUTOSuspend
++	LPS_CTRL_WK_CID,
++	ANT_SELECT_WK_CID,
++	P2P_PS_WK_CID,
++	P2P_PROTO_WK_CID,
++	CHECK_HIQ_WK_CID,//for softap mode, check hi queue if empty
++	INTEl_WIDI_WK_CID,
++	C2H_WK_CID,
++	RESET_SECURITYPRIV, // add for CONFIG_IEEE80211W, none 11w also can use
++	FREE_ASSOC_RESOURCES, // add for CONFIG_IEEE80211W, none 11w also can use
++	MAX_WK_CID
++};
++
++enum LPS_CTRL_TYPE
++{
++	LPS_CTRL_SCAN=0,
++	LPS_CTRL_JOINBSS=1,
++	LPS_CTRL_CONNECT=2,
++	LPS_CTRL_DISCONNECT=3,
++	LPS_CTRL_SPECIAL_PACKET=4,
++};
++
++enum RFINTFS {
++	SWSI,
++	HWSI,
++	HWPI,
++};
++
++/*
++Caller Mode: Infra, Ad-HoC(C)
++
++Notes: To enter USB suspend mode
++
++Command Mode
++
++*/
++struct usb_suspend_parm {
++	u32 action;// 1: sleep, 0:resume
++};
++
++/*
++Caller Mode: Infra, Ad-HoC
++
++Notes: To join a known BSS.
++
++Command-Event Mode
++
++*/
++
++/*
++Caller Mode: Infra, Ad-Hoc
++
++Notes: To join the specified bss
++
++Command Event Mode
++
++*/
++struct joinbss_parm {
++	WLAN_BSSID_EX network;
++};
++
++/*
++Caller Mode: Infra, Ad-HoC(C)
++
++Notes: To disconnect the current associated BSS
++
++Command Mode
++
++*/
++struct disconnect_parm {
++	u32 deauth_timeout_ms;
++};
++
++/*
++Caller Mode: AP, Ad-HoC(M)
++
++Notes: To create a BSS
++
++Command Mode
++*/
++struct createbss_parm {
++	WLAN_BSSID_EX network;
++};
++
++/*
++Caller Mode: AP, Ad-HoC, Infra
++
++Notes: To set the NIC mode of RTL8711
++
++Command Mode
++
++The definition of mode:
++
++#define IW_MODE_AUTO	0	// Let the driver decides which AP to join
++#define IW_MODE_ADHOC	1	// Single cell network (Ad-Hoc Clients)
++#define IW_MODE_INFRA	2	// Multi cell network, roaming, ..
++#define IW_MODE_MASTER	3	// Synchronisation master or Access Point
++#define IW_MODE_REPEAT	4	// Wireless Repeater (forwarder)
++#define IW_MODE_SECOND	5	// Secondary master/repeater (backup)
++#define IW_MODE_MONITOR	6	// Passive monitor (listen only)
++
++*/
++struct	setopmode_parm {
++	u8	mode;
++	u8	rsvd[3];
++};
++
++/*
++Caller Mode: AP, Ad-HoC, Infra
++
++Notes: To ask RTL8711 performing site-survey
++
++Command-Event Mode 
++
++*/
++
++#define RTW_SSID_SCAN_AMOUNT 9 // for WEXT_CSCAN_AMOUNT 9
++#define RTW_CHANNEL_SCAN_AMOUNT (14+37)
++struct sitesurvey_parm {
++	sint scan_mode;	//active: 1, passive: 0 
++	/* sint bsslimit;	// 1 ~ 48 */
++	u8 ssid_num;
++	u8 ch_num;
++	NDIS_802_11_SSID ssid[RTW_SSID_SCAN_AMOUNT];
++	struct rtw_ieee80211_channel ch[RTW_CHANNEL_SCAN_AMOUNT];
++};
++
++/*
++Caller Mode: Any
++
++Notes: To set the auth type of RTL8711. open/shared/802.1x
++
++Command Mode
++
++*/
++struct setauth_parm {
++	u8 mode;  //0: legacy open, 1: legacy shared 2: 802.1x
++	u8 _1x;   //0: PSK, 1: TLS
++	u8 rsvd[2];
++};
++
++/*
++Caller Mode: Infra
++
++a. algorithm: wep40, wep104, tkip & aes
++b. keytype: grp key/unicast key
++c. key contents
++
++when shared key ==> keyid is the camid
++when 802.1x ==> keyid [0:1] ==> grp key
++when 802.1x ==> keyid > 2 ==> unicast key
++
++*/
++struct setkey_parm {
++	u8	algorithm;	// encryption algorithm, could be none, wep40, TKIP, CCMP, wep104
++	u8	keyid;		
++	u8 	grpkey;		// 1: this is the grpkey for 802.1x. 0: this is the unicast key for 802.1x
++	u8 	set_tx;		// 1: main tx key for wep. 0: other key.
++	u8	key[16];	// this could be 40 or 104
++};
++
++/*
++When in AP or Ad-Hoc mode, this is used to 
++allocate an sw/hw entry for a newly associated sta.
++
++Command
++
++when shared key ==> algorithm/keyid 
++
++*/
++struct set_stakey_parm {
++	u8	addr[ETH_ALEN];
++	u8	algorithm;
++	u8 	id;// currently for erasing cam entry if algorithm == _NO_PRIVACY_ 
++	u8	key[16];
++};
++
++struct set_stakey_rsp {
++	u8	addr[ETH_ALEN];
++	u8	keyid;
++	u8	rsvd;
++};
++
++/*
++Caller Ad-Hoc/AP
++
++Command -Rsp(AID == CAMID) mode
++
++This is to force fw to add an sta_data entry per driver's request.
++
++FW will write an cam entry associated with it.
++
++*/
++struct set_assocsta_parm {
++	u8	addr[ETH_ALEN];
++};
++
++struct set_assocsta_rsp {
++	u8	cam_id;
++	u8	rsvd[3];
++};
++
++/*
++	Caller Ad-Hoc/AP
++	
++	Command mode
++	
++	This is to force fw to del an sta_data entry per driver's request
++	
++	FW will invalidate the cam entry associated with it.
++
++*/
++struct del_assocsta_parm {
++	u8  	addr[ETH_ALEN];
++};
++
++/*
++Caller Mode: AP/Ad-HoC(M)
++
++Notes: To notify fw that given staid has changed its power state
++
++Command Mode
++
++*/
++struct setstapwrstate_parm {
++	u8	staid;
++	u8	status;
++	u8	hwaddr[6];
++};
++
++/*
++Caller Mode: Any
++
++Notes: To setup the basic rate of RTL8711
++
++Command Mode
++
++*/
++struct	setbasicrate_parm {
++	u8	basicrates[NumRates];
++};
++
++/*
++Caller Mode: Any
++
++Notes: To read the current basic rate
++
++Command-Rsp Mode
++
++*/
++struct getbasicrate_parm {
++	u32 rsvd;
++};
++
++struct getbasicrate_rsp {
++	u8 basicrates[NumRates];
++};
++
++/*
++Caller Mode: Any
++
++Notes: To setup the data rate of RTL8711
++
++Command Mode
++
++*/
++struct setdatarate_parm {
++#ifdef MP_FIRMWARE_OFFLOAD
++	u32	curr_rateidx;
++#else
++	u8	mac_id;
++	u8	datarates[NumRates];
++#endif
++};
++
++/*
++Caller Mode: Any
++
++Notes: To read the current data rate
++
++Command-Rsp Mode
++
++*/
++struct getdatarate_parm {
++	u32 rsvd;
++	
++};
++struct getdatarate_rsp {
++	u8 datarates[NumRates];
++};
++
++
++/*
++Caller Mode: Any
++AP: AP can use the info for the contents of beacon frame
++Infra: STA can use the info when sitesurveying
++Ad-HoC(M): Like AP
++Ad-HoC(C): Like STA
++
++
++Notes: To set the phy capability of the NIC
++
++Command Mode
++
++*/
++
++struct	setphyinfo_parm {
++	struct regulatory_class class_sets[NUM_REGULATORYS];
++	u8	status;
++};
++
++struct	getphyinfo_parm {
++	u32 rsvd;
++};
++
++struct	getphyinfo_rsp {
++	struct regulatory_class class_sets[NUM_REGULATORYS];
++	u8	status;
++};
++
++/*
++Caller Mode: Any
++
++Notes: To set the channel/modem/band
++This command will be used when channel/modem/band is changed.
++
++Command Mode
++
++*/
++struct	setphy_parm {
++	u8	rfchannel;
++	u8	modem;
++};
++
++/*
++Caller Mode: Any
++
++Notes: To get the current setting of channel/modem/band
++
++Command-Rsp Mode
++
++*/
++struct	getphy_parm {
++	u32 rsvd;
++
++};
++struct	getphy_rsp {
++	u8	rfchannel;
++	u8	modem;
++};
++
++struct readBB_parm {
++	u8	offset;
++};
++struct readBB_rsp {
++	u8	value;
++};
++
++struct readTSSI_parm {
++	u8	offset;
++};
++struct readTSSI_rsp {
++	u8	value;
++};
++
++struct writeBB_parm {
++	u8	offset;
++	u8	value;
++};
++
++struct readRF_parm {
++	u8	offset;
++};
++struct readRF_rsp {
++	u32	value;
++};
++
++struct writeRF_parm {
++	u32	offset;
++	u32	value;
++};
++
++struct getrfintfs_parm {
++	u8	rfintfs;
++};
++
++
++struct Tx_Beacon_param
++{
++	WLAN_BSSID_EX network;
++};
++
++/*
++	Notes: This command is used for H2C/C2H loopback testing
++
++	mac[0] == 0 
++	==> CMD mode, return H2C_SUCCESS.
++	The following condition must be ture under CMD mode
++		mac[1] == mac[4], mac[2] == mac[3], mac[0]=mac[5]= 0;
++		s0 == 0x1234, s1 == 0xabcd, w0 == 0x78563412, w1 == 0x5aa5def7;
++		s2 == (b1 << 8 | b0);
++	
++	mac[0] == 1
++	==> CMD_RSP mode, return H2C_SUCCESS_RSP
++	
++	The rsp layout shall be:
++	rsp: 			parm:
++		mac[0]  =   mac[5];
++		mac[1]  =   mac[4];
++		mac[2]  =   mac[3];
++		mac[3]  =   mac[2];
++		mac[4]  =   mac[1];
++		mac[5]  =   mac[0];
++		s0		=   s1;
++		s1		=   swap16(s0);
++		w0		=  	swap32(w1);
++		b0		= 	b1
++		s2		= 	s0 + s1
++		b1		= 	b0
++		w1		=	w0
++		
++	mac[0] == 	2
++	==> CMD_EVENT mode, return 	H2C_SUCCESS
++	The event layout shall be:
++	event:			parm:
++		mac[0]  =   mac[5];
++		mac[1]  =   mac[4];
++		mac[2]  =   event's sequence number, starting from 1 to parm's marc[3]
++		mac[3]  =   mac[2];
++		mac[4]  =   mac[1];
++		mac[5]  =   mac[0];
++		s0		=   swap16(s0) - event.mac[2];
++		s1		=   s1 + event.mac[2];
++		w0		=  	swap32(w0);
++		b0		= 	b1
++		s2		= 	s0 + event.mac[2]
++		b1		= 	b0 
++		w1		=	swap32(w1) - event.mac[2];	
++	
++		parm->mac[3] is the total event counts that host requested.
++		
++	
++	event will be the same with the cmd's param.
++		
++*/
++
++#ifdef CONFIG_H2CLBK
++
++struct seth2clbk_parm {
++	u8 mac[6];
++	u16	s0;
++	u16	s1;
++	u32	w0;
++	u8	b0;
++	u16  s2;
++	u8	b1;
++	u32	w1;
++};
++
++struct geth2clbk_parm {
++	u32 rsv;	
++};
++
++struct geth2clbk_rsp {
++	u8	mac[6];
++	u16	s0;
++	u16	s1;
++	u32	w0;
++	u8	b0;
++	u16	s2;
++	u8	b1;
++	u32	w1;
++};
++
++#endif	/* CONFIG_H2CLBK */
++
++// CMD param Formart for driver extra cmd handler
++struct drvextra_cmd_parm {
++	int ec_id; //extra cmd id
++	int type_size; // Can use this field as the type id or command size
++	unsigned char *pbuf;
++};
++
++/*------------------- Below are used for RF/BB tunning ---------------------*/
++
++struct	setantenna_parm {
++	u8	tx_antset;		
++	u8	rx_antset;
++	u8	tx_antenna;		
++	u8	rx_antenna;		
++};
++
++struct	enrateadaptive_parm {
++	u32	en;
++};
++
++struct settxagctbl_parm {
++	u32	txagc[MAX_RATES_LENGTH];
++};
++
++struct gettxagctbl_parm {
++	u32 rsvd;
++};
++struct gettxagctbl_rsp {
++	u32	txagc[MAX_RATES_LENGTH];
++};
++
++struct setagcctrl_parm {
++	u32	agcctrl;		// 0: pure hw, 1: fw
++};
++
++
++struct setssup_parm	{
++	u32	ss_ForceUp[MAX_RATES_LENGTH];
++};
++
++struct getssup_parm	{
++	u32 rsvd;
++};
++struct getssup_rsp	{
++	u8	ss_ForceUp[MAX_RATES_LENGTH];
++};
++
++
++struct setssdlevel_parm	{
++	u8	ss_DLevel[MAX_RATES_LENGTH];
++};
++
++struct getssdlevel_parm	{
++	u32 rsvd;
++};
++struct getssdlevel_rsp	{
++	u8	ss_DLevel[MAX_RATES_LENGTH];
++};
++
++struct setssulevel_parm	{
++	u8	ss_ULevel[MAX_RATES_LENGTH];
++};
++
++struct getssulevel_parm	{
++	u32 rsvd;
++};
++struct getssulevel_rsp	{
++	u8	ss_ULevel[MAX_RATES_LENGTH];
++};
++
++
++struct	setcountjudge_parm {
++	u8	count_judge[MAX_RATES_LENGTH];
++};
++
++struct	getcountjudge_parm {
++	u32 rsvd;
++};
++struct	getcountjudge_rsp {
++	u8	count_judge[MAX_RATES_LENGTH];
++};
++
++
++struct setratable_parm {
++	u8 ss_ForceUp[NumRates];
++	u8 ss_ULevel[NumRates];
++	u8 ss_DLevel[NumRates];
++	u8 count_judge[NumRates];
++};
++
++struct getratable_parm {
++                uint rsvd;
++};
++struct getratable_rsp {
++        u8 ss_ForceUp[NumRates];
++        u8 ss_ULevel[NumRates];
++        u8 ss_DLevel[NumRates];
++        u8 count_judge[NumRates];
++};
++
++
++//to get TX,RX retry count
++struct gettxretrycnt_parm{
++	unsigned int rsvd;
++};
++struct gettxretrycnt_rsp{
++	unsigned long tx_retrycnt;
++};
++
++struct getrxretrycnt_parm{
++	unsigned int rsvd;
++};
++struct getrxretrycnt_rsp{
++	unsigned long rx_retrycnt;
++};
++
++//to get BCNOK,BCNERR count
++struct getbcnokcnt_parm{
++	unsigned int rsvd;
++};
++struct getbcnokcnt_rsp{
++	unsigned long  bcnokcnt;
++};
++
++struct getbcnerrcnt_parm{
++	unsigned int rsvd;
++};
++struct getbcnerrcnt_rsp{
++	unsigned long bcnerrcnt;
++};
++
++// to get current TX power level
++struct getcurtxpwrlevel_parm{
++	unsigned int rsvd;
++};
++struct getcurtxpwrlevel_rsp{
++	unsigned short tx_power;
++};
++
++struct setprobereqextraie_parm {
++	unsigned char e_id;
++	unsigned char ie_len;
++	unsigned char ie[0];
++};
++
++struct setassocreqextraie_parm {
++	unsigned char e_id;
++	unsigned char ie_len;
++	unsigned char ie[0];
++};
++
++struct setproberspextraie_parm {
++	unsigned char e_id;
++	unsigned char ie_len;
++	unsigned char ie[0];
++};
++
++struct setassocrspextraie_parm {
++	unsigned char e_id;
++	unsigned char ie_len;
++	unsigned char ie[0];
++};
++
++
++struct addBaReq_parm
++{
++ 	unsigned int tid;
++	u8	addr[ETH_ALEN];
++};
++
++/*H2C Handler index: 46 */
++struct set_ch_parm {
++	u8 ch;
++	u8 bw;
++	u8 ch_offset;
++};
++
++#ifdef MP_FIRMWARE_OFFLOAD
++/*H2C Handler index: 47 */
++struct SetTxPower_parm
++{
++	u8 TxPower;
++};
++
++/*H2C Handler index: 48 */
++struct SwitchAntenna_parm
++{
++	u16 antenna_tx;
++	u16 antenna_rx;
++//	R_ANTENNA_SELECT_CCK cck_txrx;
++	u8 cck_txrx;
++};
++
++/*H2C Handler index: 49 */
++struct SetCrystalCap_parm
++{
++	u32 curr_crystalcap;
++};
++
++/*H2C Handler index: 50 */
++struct SetSingleCarrierTx_parm
++{
++	u8 bStart;
++};
++
++/*H2C Handler index: 51 */
++struct SetSingleToneTx_parm
++{
++	u8 bStart;
++	u8 curr_rfpath;
++};
++
++/*H2C Handler index: 52 */
++struct SetCarrierSuppressionTx_parm
++{
++	u8 bStart;
++	u32 curr_rateidx;
++};
++
++/*H2C Handler index: 53 */
++struct SetContinuousTx_parm
++{
++	u8 bStart;
++	u8 CCK_flag; /*1:CCK 2:OFDM*/
++	u32 curr_rateidx;
++};
++
++/*H2C Handler index: 54 */
++struct SwitchBandwidth_parm
++{
++	u8 curr_bandwidth;
++};
++
++#endif	/* MP_FIRMWARE_OFFLOAD */
++
++/*H2C Handler index: 59 */ 
++struct SetChannelPlan_param
++{
++	u8 channel_plan;
++};
++
++/*H2C Handler index: 60 */ 
++struct LedBlink_param
++{
++	PLED_871x	 pLed;
++};
++
++/*H2C Handler index: 61 */ 
++struct SetChannelSwitch_param
++{
++	u8 new_ch_no;
++};
++
++/*H2C Handler index: 62 */ 
++struct TDLSoption_param
++{
++	u8 addr[ETH_ALEN];
++	u8 option;
++};
++
++#define GEN_CMD_CODE(cmd)	cmd ## _CMD_
++
++
++/*
++
++Result: 
++0x00: success
++0x01: sucess, and check Response.
++0x02: cmd ignored due to duplicated sequcne number
++0x03: cmd dropped due to invalid cmd code
++0x04: reserved.
++
++*/
++
++#define H2C_RSP_OFFSET			512
++
++#define H2C_SUCCESS			0x00
++#define H2C_SUCCESS_RSP			0x01
++#define H2C_DUPLICATED			0x02
++#define H2C_DROPPED			0x03
++#define H2C_PARAMETERS_ERROR		0x04
++#define H2C_REJECTED			0x05
++#define H2C_CMD_OVERFLOW		0x06
++#define H2C_RESERVED			0x07
++
++extern u8 rtw_setassocsta_cmd(_adapter  *padapter, u8 *mac_addr);
++extern u8 rtw_setstandby_cmd(_adapter *padapter, uint action);
++u8 rtw_sitesurvey_cmd(_adapter  *padapter, NDIS_802_11_SSID *ssid, int ssid_num, struct rtw_ieee80211_channel *ch, int ch_num);
++extern u8 rtw_createbss_cmd(_adapter  *padapter);
++extern u8 rtw_createbss_cmd_ex(_adapter  *padapter, unsigned char *pbss, unsigned int sz);
++extern u8 rtw_setphy_cmd(_adapter  *padapter, u8 modem, u8 ch);
++extern u8 rtw_setstakey_cmd(_adapter  *padapter, u8 *psta, u8 unicast_key);
++extern u8 rtw_clearstakey_cmd(_adapter *padapter, u8 *psta, u8 entry, u8 enqueue);
++extern u8 rtw_joinbss_cmd(_adapter  *padapter, struct wlan_network* pnetwork);
++u8 rtw_disassoc_cmd(_adapter *padapter, u32 deauth_timeout_ms, bool enqueue);
++extern u8 rtw_setopmode_cmd(_adapter  *padapter, NDIS_802_11_NETWORK_INFRASTRUCTURE networktype);
++extern u8 rtw_setdatarate_cmd(_adapter  *padapter, u8 *rateset);
++extern u8 rtw_setbasicrate_cmd(_adapter  *padapter, u8 *rateset);
++extern u8 rtw_setbbreg_cmd(_adapter * padapter, u8 offset, u8 val);
++extern u8 rtw_setrfreg_cmd(_adapter * padapter, u8 offset, u32 val);
++extern u8 rtw_getbbreg_cmd(_adapter * padapter, u8 offset, u8 * pval);
++extern u8 rtw_getrfreg_cmd(_adapter * padapter, u8 offset, u8 * pval);
++extern u8 rtw_setrfintfs_cmd(_adapter  *padapter, u8 mode);
++extern u8 rtw_setrttbl_cmd(_adapter  *padapter, struct setratable_parm *prate_table);
++extern u8 rtw_getrttbl_cmd(_adapter  *padapter, struct getratable_rsp *pval);
++
++extern u8 rtw_gettssi_cmd(_adapter  *padapter, u8 offset,u8 *pval);
++extern u8 rtw_setfwdig_cmd(_adapter*padapter, u8 type);
++extern u8 rtw_setfwra_cmd(_adapter*padapter, u8 type);
++
++extern u8 rtw_addbareq_cmd(_adapter*padapter, u8 tid, u8 *addr);
++// add for CONFIG_IEEE80211W, none 11w also can use
++extern u8 rtw_reset_securitypriv_cmd(_adapter*padapter);
++extern u8 rtw_free_assoc_resources_cmd(_adapter *padapter);
++extern u8 rtw_dynamic_chk_wk_cmd(_adapter *adapter);
++
++u8 rtw_lps_ctrl_wk_cmd(_adapter*padapter, u8 lps_ctrl_type, u8 enqueue);
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++extern  u8 rtw_antenna_select_cmd(_adapter*padapter, u8 antenna,u8 enqueue);
++#endif
++
++extern u8 rtw_ps_cmd(_adapter*padapter);
++
++
++#ifdef CONFIG_AP_MODE
++u8 rtw_chk_hi_queue_cmd(_adapter*padapter);
++#endif
++
++u8 rtw_set_ch_cmd(_adapter*padapter, u8 ch, u8 bw, u8 ch_offset, u8 enqueue);
++extern u8 rtw_set_chplan_cmd(_adapter*padapter, u8 chplan, u8 enqueue);
++extern u8 rtw_led_blink_cmd(_adapter*padapter, PLED_871x pLed);
++extern u8 rtw_set_csa_cmd(_adapter*padapter, u8 new_ch_no);
++extern u8 rtw_tdls_cmd(_adapter*padapter, u8 *addr, u8 option);
++
++extern u8 rtw_c2h_wk_cmd(PADAPTER padapter, u8 *c2h_evt);
++
++u8 rtw_drvextra_cmd_hdl(_adapter *padapter, unsigned char *pbuf);
++
++extern void rtw_survey_cmd_callback(_adapter  *padapter, struct cmd_obj *pcmd);
++extern void rtw_disassoc_cmd_callback(_adapter  *padapter, struct cmd_obj *pcmd);
++extern void rtw_joinbss_cmd_callback(_adapter  *padapter, struct cmd_obj *pcmd);	
++extern void rtw_createbss_cmd_callback(_adapter  *padapter, struct cmd_obj *pcmd);
++extern void rtw_getbbrfreg_cmdrsp_callback(_adapter  *padapter, struct cmd_obj *pcmd);
++extern void rtw_readtssi_cmdrsp_callback(_adapter*	padapter,  struct cmd_obj *pcmd);
++
++extern void rtw_setstaKey_cmdrsp_callback(_adapter  *padapter,  struct cmd_obj *pcmd);
++extern void rtw_setassocsta_cmdrsp_callback(_adapter  *padapter,  struct cmd_obj *pcmd);
++extern void rtw_getrttbl_cmdrsp_callback(_adapter  *padapter,  struct cmd_obj *pcmd);
++
++
++struct _cmd_callback {
++	u32	cmd_code;
++	void (*callback)(_adapter  *padapter, struct cmd_obj *cmd);
++};
++
++enum rtw_h2c_cmd
++{
++	GEN_CMD_CODE(_Read_MACREG) ,	/*0*/
++ 	GEN_CMD_CODE(_Write_MACREG) ,    
++ 	GEN_CMD_CODE(_Read_BBREG) ,  
++ 	GEN_CMD_CODE(_Write_BBREG) ,  
++ 	GEN_CMD_CODE(_Read_RFREG) ,  
++ 	GEN_CMD_CODE(_Write_RFREG) , /*5*/
++ 	GEN_CMD_CODE(_Read_EEPROM) ,  
++ 	GEN_CMD_CODE(_Write_EEPROM) ,  
++ 	GEN_CMD_CODE(_Read_EFUSE) ,  
++ 	GEN_CMD_CODE(_Write_EFUSE) , 
++ 	
++ 	GEN_CMD_CODE(_Read_CAM) ,	/*10*/
++ 	GEN_CMD_CODE(_Write_CAM) ,   
++ 	GEN_CMD_CODE(_setBCNITV),
++ 	GEN_CMD_CODE(_setMBIDCFG),
++ 	GEN_CMD_CODE(_JoinBss),   /*14*/
++ 	GEN_CMD_CODE(_DisConnect) , /*15*/
++ 	GEN_CMD_CODE(_CreateBss) ,
++	GEN_CMD_CODE(_SetOpMode) , 
++	GEN_CMD_CODE(_SiteSurvey),  /*18*/
++ 	GEN_CMD_CODE(_SetAuth) ,
++ 	
++ 	GEN_CMD_CODE(_SetKey) ,	/*20*/
++ 	GEN_CMD_CODE(_SetStaKey) ,
++ 	GEN_CMD_CODE(_SetAssocSta) ,
++ 	GEN_CMD_CODE(_DelAssocSta) ,
++ 	GEN_CMD_CODE(_SetStaPwrState) , 
++ 	GEN_CMD_CODE(_SetBasicRate) , /*25*/
++ 	GEN_CMD_CODE(_GetBasicRate) ,
++ 	GEN_CMD_CODE(_SetDataRate) ,
++ 	GEN_CMD_CODE(_GetDataRate) ,
++	GEN_CMD_CODE(_SetPhyInfo) ,
++	
++ 	GEN_CMD_CODE(_GetPhyInfo) ,	/*30*/
++	GEN_CMD_CODE(_SetPhy) ,
++ 	GEN_CMD_CODE(_GetPhy) ,
++ 	GEN_CMD_CODE(_readRssi) ,
++ 	GEN_CMD_CODE(_readGain) ,
++ 	GEN_CMD_CODE(_SetAtim) , /*35*/
++ 	GEN_CMD_CODE(_SetPwrMode) , 
++ 	GEN_CMD_CODE(_JoinbssRpt),
++ 	GEN_CMD_CODE(_SetRaTable) ,
++ 	GEN_CMD_CODE(_GetRaTable) ,  	
++ 	
++ 	GEN_CMD_CODE(_GetCCXReport), /*40*/
++ 	GEN_CMD_CODE(_GetDTMReport),
++ 	GEN_CMD_CODE(_GetTXRateStatistics),
++ 	GEN_CMD_CODE(_SetUsbSuspend),
++ 	GEN_CMD_CODE(_SetH2cLbk),
++ 	GEN_CMD_CODE(_AddBAReq) , /*45*/
++	GEN_CMD_CODE(_SetChannel), /*46*/
++	GEN_CMD_CODE(_SetTxPower), 
++	GEN_CMD_CODE(_SwitchAntenna),
++	GEN_CMD_CODE(_SetCrystalCap),
++	GEN_CMD_CODE(_SetSingleCarrierTx), /*50*/
++	
++	GEN_CMD_CODE(_SetSingleToneTx),/*51*/
++	GEN_CMD_CODE(_SetCarrierSuppressionTx),
++	GEN_CMD_CODE(_SetContinuousTx),
++	GEN_CMD_CODE(_SwitchBandwidth), /*54*/
++	GEN_CMD_CODE(_TX_Beacon), /*55*/
++	
++	GEN_CMD_CODE(_Set_MLME_EVT), /*56*/
++	GEN_CMD_CODE(_Set_Drv_Extra), /*57*/
++	GEN_CMD_CODE(_Set_H2C_MSG), /*58*/
++	
++	GEN_CMD_CODE(_SetChannelPlan), /*59*/
++	GEN_CMD_CODE(_LedBlink), /*60*/
++
++	GEN_CMD_CODE(_SetChannelSwitch), /*61*/
++	GEN_CMD_CODE(_TDLS), /*62*/
++	
++	MAX_H2CCMD
++};
++
++#define _GetBBReg_CMD_		_Read_BBREG_CMD_
++#define _SetBBReg_CMD_ 		_Write_BBREG_CMD_
++#define _GetRFReg_CMD_ 		_Read_RFREG_CMD_
++#define _SetRFReg_CMD_ 		_Write_RFREG_CMD_
++
++#ifdef _RTW_CMD_C_
++struct _cmd_callback 	rtw_cmd_callback[] = 
++{
++	{GEN_CMD_CODE(_Read_MACREG), NULL}, /*0*/
++	{GEN_CMD_CODE(_Write_MACREG), NULL}, 
++	{GEN_CMD_CODE(_Read_BBREG), &rtw_getbbrfreg_cmdrsp_callback},
++	{GEN_CMD_CODE(_Write_BBREG), NULL},
++	{GEN_CMD_CODE(_Read_RFREG), &rtw_getbbrfreg_cmdrsp_callback},
++	{GEN_CMD_CODE(_Write_RFREG), NULL}, /*5*/
++	{GEN_CMD_CODE(_Read_EEPROM), NULL},
++	{GEN_CMD_CODE(_Write_EEPROM), NULL},
++	{GEN_CMD_CODE(_Read_EFUSE), NULL},
++	{GEN_CMD_CODE(_Write_EFUSE), NULL},
++	
++	{GEN_CMD_CODE(_Read_CAM),	NULL},	/*10*/
++	{GEN_CMD_CODE(_Write_CAM),	 NULL},	
++	{GEN_CMD_CODE(_setBCNITV), NULL},
++ 	{GEN_CMD_CODE(_setMBIDCFG), NULL},
++	{GEN_CMD_CODE(_JoinBss), &rtw_joinbss_cmd_callback},  /*14*/
++	{GEN_CMD_CODE(_DisConnect), &rtw_disassoc_cmd_callback}, /*15*/
++	{GEN_CMD_CODE(_CreateBss), &rtw_createbss_cmd_callback},
++	{GEN_CMD_CODE(_SetOpMode), NULL},
++	{GEN_CMD_CODE(_SiteSurvey), &rtw_survey_cmd_callback}, /*18*/
++	{GEN_CMD_CODE(_SetAuth), NULL},
++	
++	{GEN_CMD_CODE(_SetKey), NULL},	/*20*/
++	{GEN_CMD_CODE(_SetStaKey), &rtw_setstaKey_cmdrsp_callback},
++	{GEN_CMD_CODE(_SetAssocSta), &rtw_setassocsta_cmdrsp_callback},
++	{GEN_CMD_CODE(_DelAssocSta), NULL},	
++	{GEN_CMD_CODE(_SetStaPwrState), NULL},	
++	{GEN_CMD_CODE(_SetBasicRate), NULL}, /*25*/
++	{GEN_CMD_CODE(_GetBasicRate), NULL},
++	{GEN_CMD_CODE(_SetDataRate), NULL},
++	{GEN_CMD_CODE(_GetDataRate), NULL},
++	{GEN_CMD_CODE(_SetPhyInfo), NULL},
++	
++	{GEN_CMD_CODE(_GetPhyInfo), NULL}, /*30*/
++	{GEN_CMD_CODE(_SetPhy), NULL},
++	{GEN_CMD_CODE(_GetPhy), NULL},	
++	{GEN_CMD_CODE(_readRssi), NULL},
++	{GEN_CMD_CODE(_readGain), NULL},
++	{GEN_CMD_CODE(_SetAtim), NULL}, /*35*/
++	{GEN_CMD_CODE(_SetPwrMode), NULL},
++	{GEN_CMD_CODE(_JoinbssRpt), NULL},
++	{GEN_CMD_CODE(_SetRaTable), NULL},
++	{GEN_CMD_CODE(_GetRaTable) , NULL},
++ 	
++	{GEN_CMD_CODE(_GetCCXReport), NULL}, /*40*/
++ 	{GEN_CMD_CODE(_GetDTMReport),	NULL},
++ 	{GEN_CMD_CODE(_GetTXRateStatistics), NULL}, 
++ 	{GEN_CMD_CODE(_SetUsbSuspend), NULL}, 
++ 	{GEN_CMD_CODE(_SetH2cLbk), NULL},
++ 	{GEN_CMD_CODE(_AddBAReq), NULL}, /*45*/
++	{GEN_CMD_CODE(_SetChannel), NULL},		/*46*/
++	{GEN_CMD_CODE(_SetTxPower), NULL},
++	{GEN_CMD_CODE(_SwitchAntenna), NULL},
++	{GEN_CMD_CODE(_SetCrystalCap), NULL},
++	{GEN_CMD_CODE(_SetSingleCarrierTx), NULL},	/*50*/
++	
++	{GEN_CMD_CODE(_SetSingleToneTx), NULL}, /*51*/
++	{GEN_CMD_CODE(_SetCarrierSuppressionTx), NULL},
++	{GEN_CMD_CODE(_SetContinuousTx), NULL},
++	{GEN_CMD_CODE(_SwitchBandwidth), NULL},		/*54*/
++	{GEN_CMD_CODE(_TX_Beacon), NULL},/*55*/
++
++	{GEN_CMD_CODE(_Set_MLME_EVT), NULL},/*56*/
++	{GEN_CMD_CODE(_Set_Drv_Extra), NULL},/*57*/
++	{GEN_CMD_CODE(_Set_H2C_MSG), NULL},/*58*/
++	{GEN_CMD_CODE(_SetChannelPlan), NULL},/*59*/
++	{GEN_CMD_CODE(_LedBlink), NULL},/*60*/
++	
++	{GEN_CMD_CODE(_SetChannelSwitch), NULL},/*61*/
++	{GEN_CMD_CODE(_TDLS), NULL},/*62*/
++};
++#endif
++
++#endif // _CMD_H_
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_debug.h b/drivers/net/wireless/rtl8192cu/include/rtw_debug.h
+new file mode 100755
+index 0000000..4453736
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_debug.h
+@@ -0,0 +1,538 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_DEBUG_H__
++#define __RTW_DEBUG_H__
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++
++#define	_no_debug_			0
++#define _drv_emerg_			1
++#define _drv_alert_			2
++#define _drv_crit_			3
++#define _drv_err_			4
++#define	_drv_warning_		5
++#define _drv_notice_			6
++#define _drv_info_			7
++#define _drv_dump_			8
++#define	_drv_debug_		9
++#define _drv_always_ _drv_emerg_
++
++#define _module_rtl871x_xmit_c_		BIT(0)
++#define _module_xmit_osdep_c_		BIT(1)
++#define _module_rtl871x_recv_c_		BIT(2)
++#define _module_recv_osdep_c_		BIT(3)
++#define _module_rtl871x_mlme_c_		BIT(4)
++#define _module_mlme_osdep_c_		BIT(5)
++#define _module_rtl871x_sta_mgt_c_		BIT(6)
++#define _module_rtl871x_cmd_c_			BIT(7)
++#define _module_cmd_osdep_c_		BIT(8)
++#define _module_rtl871x_io_c_				BIT(9)
++#define _module_io_osdep_c_		BIT(10)
++#define _module_os_intfs_c_			BIT(11)
++#define _module_rtl871x_security_c_		BIT(12)
++#define _module_rtl871x_eeprom_c_			BIT(13)
++#define _module_hal_init_c_		BIT(14)
++#define _module_hci_hal_init_c_		BIT(15)
++#define _module_rtl871x_ioctl_c_		BIT(16)
++#define _module_rtl871x_ioctl_set_c_		BIT(17)
++#define _module_rtl871x_ioctl_query_c_	BIT(18)
++#define _module_rtl871x_pwrctrl_c_			BIT(19)
++#define _module_hci_intfs_c_			BIT(20)
++#define _module_hci_ops_c_			BIT(21)
++#define _module_osdep_service_c_			BIT(22)
++#define _module_mp_			BIT(23)
++#define _module_hci_ops_os_c_			BIT(24)
++#define _module_rtl871x_ioctl_os_c		BIT(25)
++#define _module_rtl8712_cmd_c_		BIT(26)
++//#define _module_efuse_			BIT(27)
++#define	_module_rtl8192c_xmit_c_ BIT(28)
++#define _module_hal_xmit_c_	BIT(28)
++#define _module_efuse_			BIT(29)
++#define _module_rtl8712_recv_c_		BIT(30)
++#define _module_rtl8712_led_c_		BIT(31)
++
++#undef _MODULE_DEFINE_
++
++#if defined _RTW_XMIT_C_
++	#define _MODULE_DEFINE_	_module_rtl871x_xmit_c_
++#elif defined _XMIT_OSDEP_C_
++	#define _MODULE_DEFINE_	_module_xmit_osdep_c_
++#elif defined _RTW_RECV_C_
++	#define _MODULE_DEFINE_	_module_rtl871x_recv_c_
++#elif defined _RECV_OSDEP_C_
++	#define _MODULE_DEFINE_	_module_recv_osdep_c_
++#elif defined _RTW_MLME_C_
++	#define _MODULE_DEFINE_	_module_rtl871x_mlme_c_
++#elif defined _MLME_OSDEP_C_
++	#define _MODULE_DEFINE_	_module_mlme_osdep_c_
++#elif defined _RTW_MLME_EXT_C_
++	#define _MODULE_DEFINE_ 1
++#elif defined _RTW_STA_MGT_C_
++	#define _MODULE_DEFINE_	_module_rtl871x_sta_mgt_c_
++#elif defined _RTW_CMD_C_
++	#define _MODULE_DEFINE_	_module_rtl871x_cmd_c_
++#elif defined _CMD_OSDEP_C_
++	#define _MODULE_DEFINE_	_module_cmd_osdep_c_
++#elif defined _RTW_IO_C_
++	#define _MODULE_DEFINE_	_module_rtl871x_io_c_
++#elif defined _IO_OSDEP_C_
++	#define _MODULE_DEFINE_	_module_io_osdep_c_
++#elif defined _OS_INTFS_C_
++	#define	_MODULE_DEFINE_	_module_os_intfs_c_
++#elif defined _RTW_SECURITY_C_
++	#define	_MODULE_DEFINE_	_module_rtl871x_security_c_
++#elif defined _RTW_EEPROM_C_
++	#define	_MODULE_DEFINE_	_module_rtl871x_eeprom_c_
++#elif defined _HAL_INTF_C_
++	#define	_MODULE_DEFINE_	_module_hal_init_c_
++#elif defined _HCI_HAL_INIT_C_
++	#define	_MODULE_DEFINE_	_module_hci_hal_init_c_
++#elif defined _RTL871X_IOCTL_C_
++	#define	_MODULE_DEFINE_	_module_rtl871x_ioctl_c_
++#elif defined _RTL871X_IOCTL_SET_C_
++	#define	_MODULE_DEFINE_	_module_rtl871x_ioctl_set_c_
++#elif defined _RTL871X_IOCTL_QUERY_C_
++	#define	_MODULE_DEFINE_	_module_rtl871x_ioctl_query_c_
++#elif defined _RTL871X_PWRCTRL_C_
++	#define	_MODULE_DEFINE_	_module_rtl871x_pwrctrl_c_
++#elif defined _RTW_PWRCTRL_C_
++	#define	_MODULE_DEFINE_	1
++#elif defined _HCI_INTF_C_
++	#define	_MODULE_DEFINE_	_module_hci_intfs_c_
++#elif defined _HCI_OPS_C_
++	#define	_MODULE_DEFINE_	_module_hci_ops_c_
++#elif defined _SDIO_OPS_C_
++	#define	_MODULE_DEFINE_ 1
++#elif defined _OSDEP_HCI_INTF_C_
++	#define	_MODULE_DEFINE_	_module_hci_intfs_c_
++#elif defined _OSDEP_SERVICE_C_
++	#define	_MODULE_DEFINE_	_module_osdep_service_c_
++#elif defined _HCI_OPS_OS_C_
++	#define	_MODULE_DEFINE_	_module_hci_ops_os_c_
++#elif defined _RTL871X_IOCTL_LINUX_C_
++	#define	_MODULE_DEFINE_	_module_rtl871x_ioctl_os_c
++#elif defined _RTL8712_CMD_C_
++	#define	_MODULE_DEFINE_	_module_rtl8712_cmd_c_
++#elif defined _RTL8192C_XMIT_C_
++	#define	_MODULE_DEFINE_	1
++#elif defined _RTL8723AS_XMIT_C_
++	#define	_MODULE_DEFINE_	1
++#elif defined _RTL8712_RECV_C_
++	#define	_MODULE_DEFINE_	_module_rtl8712_recv_c_
++#elif defined _RTL8192CU_RECV_C_
++	#define	_MODULE_DEFINE_	_module_rtl8712_recv_c_
++#elif defined _RTL871X_MLME_EXT_C_
++	#define _MODULE_DEFINE_	_module_mlme_osdep_c_
++#elif defined _RTW_MP_C_
++	#define	_MODULE_DEFINE_	_module_mp_
++#elif defined _RTW_MP_IOCTL_C_
++	#define	_MODULE_DEFINE_	_module_mp_
++#elif defined _RTW_EFUSE_C_
++	#define	_MODULE_DEFINE_	_module_efuse_
++#endif
++
++#ifdef PLATFORM_OS_CE
++extern void rtl871x_cedbg(const char *fmt, ...);
++#endif
++
++#define RT_TRACE(_Comp, _Level, Fmt) do{}while(0)
++#define _func_enter_ do{}while(0)
++#define _func_exit_ do{}while(0)
++#define RT_PRINT_DATA(_Comp, _Level, _TitleString, _HexData, _HexDataLen) do{}while(0)
++
++#undef	_dbgdump
++
++#ifdef CONFIG_DEBUG_RTL871X
++
++#ifndef _RTL871X_DEBUG_C_
++	extern u32 GlobalDebugLevel;
++	extern u64 GlobalDebugComponents;
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++	#ifdef PLATFORM_OS_XP
++
++	#define _dbgdump	DbgPrint
++
++	#elif defined PLATFORM_OS_CE
++
++	#define _dbgdump	rtl871x_cedbg
++
++	#endif
++
++#elif defined PLATFORM_LINUX
++
++	#define _dbgdump	printk
++
++#elif defined PLATFORM_FREEBSD
++
++	#define _dbgdump	printf
++
++#endif
++
++#endif /* CONFIG_DEBUG_RTL871X */
++
++
++#if	defined (_dbgdump) && defined (_MODULE_DEFINE_)
++
++		#undef RT_TRACE
++		#define RT_TRACE(_Comp, _Level, Fmt)\
++		do {\
++			if((_Comp & GlobalDebugComponents) && (_Level <= GlobalDebugLevel)) {\
++				_dbgdump("%s [0x%08x,%d]", RTL871X_MODULE_NAME, (unsigned int)_Comp, _Level);\
++				_dbgdump Fmt;\
++			}\
++		}while(0)
++
++#endif
++
++
++#if	defined (_dbgdump)
++
++		#undef  _func_enter_
++		#define _func_enter_ \
++		do {	\
++			if (GlobalDebugLevel >= _drv_debug_) \
++			{																	\
++				_dbgdump("\n %s : %s enters at %d\n", RTL871X_MODULE_NAME, __FUNCTION__, __LINE__);\
++			}		\
++		} while(0)
++
++		#undef  _func_exit_
++		#define _func_exit_ \
++		do {	\
++			if (GlobalDebugLevel >= _drv_debug_) \
++			{																	\
++				_dbgdump("\n %s : %s exits at %d\n", RTL871X_MODULE_NAME, __FUNCTION__, __LINE__); \
++			}	\
++		} while(0)
++
++		#undef RT_PRINT_DATA
++		#define RT_PRINT_DATA(_Comp, _Level, _TitleString, _HexData, _HexDataLen)			\
++			if(((_Comp) & GlobalDebugComponents) && (_Level <= GlobalDebugLevel))	\
++			{									\
++				int __i;								\
++				u8	*ptr = (u8 *)_HexData;				\
++				_dbgdump("Rtl871x: ");						\
++				_dbgdump(_TitleString);						\
++				for( __i=0; __i<(int)_HexDataLen; __i++ )				\
++				{								\
++					_dbgdump("%02X%s", ptr[__i], (((__i + 1) % 4) == 0)?"  ":" ");	\
++					if (((__i + 1) % 16) == 0)	_dbgdump("\n");			\
++				}								\
++				_dbgdump("\n");							\
++			}
++#endif
++
++
++#ifdef CONFIG_DEBUG_RTL819X
++
++#undef	_dbgdump
++
++#ifdef PLATFORM_WINDOWS
++
++	#ifdef PLATFORM_OS_XP
++
++	#define _dbgdump	DbgPrint
++
++	#elif defined PLATFORM_OS_CE
++
++	#define _dbgdump	rtl871x_cedbg
++
++	#endif
++
++#elif defined PLATFORM_LINUX
++
++	#define _dbgdump	printk
++
++#elif defined PLATFORM_FREEBSD
++
++	#define _dbgdump	printf
++
++#endif
++
++#endif /* CONFIG_DEBUG_RTL819X */
++
++
++#ifdef PLATFORM_WINDOWS
++	#define DBG_871X do {} while(0)
++	#define MSG_8192C do {} while(0)
++	#define DBG_8192C do {} while(0)
++	#define WRN_8192C do {} while(0)
++	#define ERR_8192C do {} while(0)
++#endif
++
++#ifdef PLATFORM_LINUX
++	#define DBG_871X(x, ...) do {} while(0)
++	#define MSG_8192C(x, ...) do {} while(0)
++	#define DBG_8192C(x,...) do {} while(0)
++	#define WRN_8192C(x,...) do {} while(0)
++	#define ERR_8192C(x,...) do {} while(0)
++#endif
++
++#ifdef PLATFORM_FREEBSD
++	#define _dbgdump	printf
++	#define DBG_871X(x, ...) do {} while(0)
++	#define MSG_8192C(x, ...) do {} while(0)
++	#define DBG_8192C(x,...) do {} while(0)
++	#define WRN_8192C(x,...) do {} while(0)
++	#define ERR_8192C(x,...) do {} while(0)
++#endif
++
++extern u32 GlobalDebugLevel;
++#define LOG_LEVEL(level, ...)\
++                do {\
++                        if(level <= GlobalDebugLevel) {\
++                                printk(__VA_ARGS__);\
++                        }\
++                }while(0)
++
++#define DBG_871X_LEVEL LOG_LEVEL
++
++#if     defined (_dbgdump)
++        #undef DBG_871X
++//      #define DBG_871X _dbgdump
++        #define DBG_871X(...) LOG_LEVEL(_drv_debug_ , __VA_ARGS__)
++
++        #undef MSG_8192C
++//      #define MSG_8192C _dbgdump
++        #define MSG_8192C(...) LOG_LEVEL(_drv_info_ , __VA_ARGS__)
++
++        #undef DBG_8192C
++//      #define DBG_8192C _dbgdump
++        #define DBG_8192C(...) LOG_LEVEL(_drv_debug_ ,  __VA_ARGS__)
++
++
++	#undef WRN_8192C
++	#define WRN_8192C _dbgdump
++
++	#undef ERR_8192C
++	#define ERR_8192C _dbgdump
++#endif
++
++
++#ifdef CONFIG_PROC_DEBUG
++
++	int proc_get_drv_version(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_get_log_level(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++			  
++	int proc_set_log_level(struct file *file, const char *buffer,
++			unsigned long count, void *data);
++
++#ifdef DBG_MEM_ALLOC
++	int proc_get_mstat(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++#endif /* DBG_MEM_ALLOC */
++
++	int proc_get_write_reg(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++ 	int proc_set_write_reg(struct file *file, const char *buffer,
++		unsigned long count, void *data);
++
++	int proc_get_read_reg(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_set_read_reg(struct file *file, const char *buffer,
++		unsigned long count, void *data);
++
++
++	int proc_get_fwstate(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_get_sec_info(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_get_mlmext_state(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_get_qos_option(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_get_ht_option(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_get_rf_info(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_get_ap_info(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_get_adapter_state(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_get_trx_info(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_get_mac_reg_dump1(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_get_mac_reg_dump2(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_get_mac_reg_dump3(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++	
++	int proc_get_bb_reg_dump1(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_get_bb_reg_dump2(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++	
++	int proc_get_bb_reg_dump3(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++	
++	int proc_get_rf_reg_dump1(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_get_rf_reg_dump2(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_get_rf_reg_dump3(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_get_rf_reg_dump4(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++#ifdef CONFIG_AP_MODE
++
++	int proc_get_all_sta_info(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++#endif
++
++#ifdef DBG_MEMORY_LEAK
++	int proc_get_malloc_cnt(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++#endif
++
++#ifdef CONFIG_FIND_BEST_CHANNEL
++	int proc_get_best_channel(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++	int proc_set_best_channel(struct file *file, const char *buffer,
++		unsigned long count, void *data);
++#endif
++
++	int proc_get_rx_signal(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_set_rx_signal(struct file *file, const char *buffer,
++		unsigned long count, void *data);
++		
++	int proc_get_ht_enable(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++			  
++	int proc_set_ht_enable(struct file *file, const char *buffer,
++		unsigned long count, void *data);
++			  
++	int proc_get_cbw40_enable(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_set_cbw40_enable(struct file *file, const char *buffer,
++		unsigned long count, void *data);
++	
++	int proc_get_ampdu_enable(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++			  
++	int proc_set_ampdu_enable(struct file *file, const char *buffer,
++		unsigned long count, void *data);
++	
++	int proc_get_two_path_rssi(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++	
++	int proc_get_rx_stbc(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++		
++	int proc_set_rx_stbc(struct file *file, const char *buffer,
++		unsigned long count, void *data);
++
++
++	int proc_get_vid(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_get_pid(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_get_rssi_disp(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++
++	int proc_set_rssi_disp(struct file *file, const char *buffer,
++		unsigned long count, void *data);
++
++#if defined(DBG_CONFIG_ERROR_DETECT)
++int proc_get_sreset(char *page, char **start, off_t offset, int count, int *eof, void *data);
++int proc_set_sreset(struct file *file, const char *buffer, unsigned long count, void *data);
++#endif /* DBG_CONFIG_ERROR_DETECT */
++
++#ifdef CONFIG_DM_ADAPTIVITY
++int proc_get_dm_adaptivity(char *page, char **start,
++			  off_t offset, int count,
++			  int *eof, void *data);
++int proc_set_dm_adaptivity(struct file *file, const char *buffer,
++		unsigned long count, void *data);
++#endif /* CONFIG_DM_ADAPTIVITY */
++
++#endif //CONFIG_PROC_DEBUG
++
++#endif	//__RTW_DEBUG_H__
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_eeprom.h b/drivers/net/wireless/rtl8192cu/include/rtw_eeprom.h
+new file mode 100755
+index 0000000..ce834dd
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_eeprom.h
+@@ -0,0 +1,152 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_EEPROM_H__
++#define __RTW_EEPROM_H__
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++#define	RTL8712_EEPROM_ID			0x8712
++#define	EEPROM_MAX_SIZE			256
++#define	CLOCK_RATE					50			//100us		
++
++//- EEPROM opcodes
++#define EEPROM_READ_OPCODE		06
++#define EEPROM_WRITE_OPCODE		05
++#define EEPROM_ERASE_OPCODE		07
++#define EEPROM_EWEN_OPCODE		19      // Erase/write enable
++#define EEPROM_EWDS_OPCODE		16      // Erase/write disable
++
++//Country codes
++#define USA							0x555320
++#define EUROPE						0x1 //temp, should be provided later	
++#define JAPAN						0x2 //temp, should be provided later
++
++#ifdef CONFIG_SDIO_HCI
++#define eeprom_cis0_sz	17
++#define eeprom_cis1_sz	50
++#endif
++
++#define	EEPROM_CID_DEFAULT			0x0
++#define	EEPROM_CID_ALPHA				0x1
++#define	EEPROM_CID_Senao				0x3
++#define	EEPROM_CID_NetCore				0x5
++#define	EEPROM_CID_CAMEO				0X8
++#define	EEPROM_CID_SITECOM				0x9
++#define	EEPROM_CID_COREGA				0xB
++#define	EEPROM_CID_EDIMAX_BELKIN		0xC
++#define	EEPROM_CID_SERCOMM_BELKIN		0xE
++#define	EEPROM_CID_CAMEO1				0xF
++#define	EEPROM_CID_WNC_COREGA		0x12
++#define	EEPROM_CID_CLEVO				0x13
++#define	EEPROM_CID_WHQL				0xFE // added by chiyoko for dtm, 20090108
++
++//
++// Customer ID, note that: 
++// This variable is initiailzed through EEPROM or registry, 
++// however, its definition may be different with that in EEPROM for 
++// EEPROM size consideration. So, we have to perform proper translation between them.
++// Besides, CustomerID of registry has precedence of that of EEPROM.
++// defined below. 060703, by rcnjko.
++//
++typedef enum _RT_CUSTOMER_ID
++{
++	RT_CID_DEFAULT = 0,
++	RT_CID_8187_ALPHA0 = 1,
++	RT_CID_8187_SERCOMM_PS = 2,
++	RT_CID_8187_HW_LED = 3,
++	RT_CID_8187_NETGEAR = 4,
++	RT_CID_WHQL = 5,
++	RT_CID_819x_CAMEO  = 6, 
++	RT_CID_819x_RUNTOP = 7,
++	RT_CID_819x_Senao = 8,
++	RT_CID_TOSHIBA = 9,	// Merge by Jacken, 2008/01/31.
++	RT_CID_819x_Netcore = 10,
++	RT_CID_Nettronix = 11,
++	RT_CID_DLINK = 12,
++	RT_CID_PRONET = 13,
++	RT_CID_COREGA = 14,
++	RT_CID_CHINA_MOBILE = 15,
++	RT_CID_819x_ALPHA = 16,
++	RT_CID_819x_Sitecom = 17,
++	RT_CID_CCX = 18, // It's set under CCX logo test and isn't demanded for CCX functions, but for test behavior like retry limit and tx report. By Bruce, 2009-02-17.
++	RT_CID_819x_Lenovo = 19,	
++	RT_CID_819x_QMI = 20,
++	RT_CID_819x_Edimax_Belkin = 21,		
++	RT_CID_819x_Sercomm_Belkin = 22,			
++	RT_CID_819x_CAMEO1 = 23,
++	RT_CID_819x_MSI = 24,
++	RT_CID_819x_Acer = 25,
++	RT_CID_819x_AzWave_ASUS = 26,
++	RT_CID_819x_AzWave = 27, // For AzWave in PCIe, The ID is AzWave use and not only Asus
++	RT_CID_819x_HP = 28,
++	RT_CID_819x_WNC_COREGA = 29,
++	RT_CID_819x_Arcadyan_Belkin = 30,
++	RT_CID_819x_SAMSUNG = 31,
++	RT_CID_819x_CLEVO = 32,
++	RT_CID_819x_DELL = 33,
++	RT_CID_819x_PRONETS = 34,
++	RT_CID_819x_Edimax_ASUS = 35,
++	RT_CID_819x_CAMEO_NETGEAR = 36,
++}RT_CUSTOMER_ID, *PRT_CUSTOMER_ID;
++
++struct eeprom_priv 
++{    
++	u8		bautoload_fail_flag;
++	//u8		bempty;
++	//u8		sys_config;
++	u8		mac_addr[6];	//PermanentAddress
++	//u8		config0;
++	u16		channel_plan;
++	//u8		country_string[3];	
++	//u8		tx_power_b[15];
++	//u8		tx_power_g[15];
++	//u8		tx_power_a[201];
++
++	u8		EepromOrEfuse;
++
++	u8		efuse_eeprom_data[EEPROM_MAX_SIZE];
++
++#ifdef CONFIG_SDIO_HCI
++	u8		sdio_setting;	
++	u32		ocr;
++	u8		cis0[eeprom_cis0_sz];
++	u8		cis1[eeprom_cis1_sz];	
++#endif
++};
++
++
++extern void eeprom_write16(_adapter *padapter, u16 reg, u16 data);
++extern u16 eeprom_read16(_adapter *padapter, u16 reg);
++extern void read_eeprom_content(_adapter *padapter);
++extern void eeprom_read_sz(_adapter * padapter, u16 reg,u8* data, u32 sz); 
++
++extern void read_eeprom_content_by_attrib(_adapter *	padapter	);
++
++#ifdef PLATFORM_LINUX
++#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++extern int isAdaptorInfoFileValid(void);
++extern int storeAdaptorInfoFile(char *path, struct eeprom_priv * eeprom_priv);
++extern int retriveAdaptorInfoFile(char *path, struct eeprom_priv * eeprom_priv);
++#endif //CONFIG_ADAPTOR_INFO_CACHING_FILE
++#endif //PLATFORM_LINUX
++
++#endif  //__RTL871X_EEPROM_H__
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_efuse.h b/drivers/net/wireless/rtl8192cu/include/rtw_efuse.h
+new file mode 100755
+index 0000000..224aa4f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_efuse.h
+@@ -0,0 +1,124 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_EFUSE_H__
++#define __RTW_EFUSE_H__
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++
++#define	EFUSE_ERROE_HANDLE		1
++
++#define	PG_STATE_HEADER 		0x01
++#define	PG_STATE_WORD_0		0x02
++#define	PG_STATE_WORD_1		0x04
++#define	PG_STATE_WORD_2		0x08
++#define	PG_STATE_WORD_3		0x10
++#define	PG_STATE_DATA			0x20
++
++#define	PG_SWBYTE_H			0x01
++#define	PG_SWBYTE_L			0x02
++
++#define	PGPKT_DATA_SIZE		8
++
++#define	EFUSE_WIFI				0
++#define	EFUSE_BT				1
++
++enum _EFUSE_DEF_TYPE {
++	TYPE_EFUSE_MAX_SECTION				= 0,
++	TYPE_EFUSE_REAL_CONTENT_LEN			= 1,
++	TYPE_AVAILABLE_EFUSE_BYTES_BANK		= 2,
++	TYPE_AVAILABLE_EFUSE_BYTES_TOTAL	= 3,
++	TYPE_EFUSE_MAP_LEN					= 4,
++	TYPE_EFUSE_PROTECT_BYTES_BANK		= 5,
++};
++
++#define		EFUSE_MAX_MAP_LEN		256
++#define		EFUSE_MAX_HW_SIZE		512
++#define		EFUSE_MAX_SECTION_BASE	16
++
++#define EXT_HEADER(header) ((header & 0x1F ) == 0x0F)
++#define ALL_WORDS_DISABLED(wde)	((wde & 0x0F) == 0x0F)
++#define GET_HDR_OFFSET_2_0(header) ( (header & 0xE0) >> 5)
++
++#define		EFUSE_REPEAT_THRESHOLD_			3
++
++//=============================================
++//	The following is for BT Efuse definition
++//=============================================
++#define		EFUSE_BT_MAX_MAP_LEN		1024
++#define		EFUSE_MAX_BANK			4
++#define		EFUSE_MAX_BT_BANK		(EFUSE_MAX_BANK-1)
++//=============================================
++/*--------------------------Define Parameters-------------------------------*/
++#define		EFUSE_MAX_WORD_UNIT			4
++
++/*------------------------------Define structure----------------------------*/ 
++typedef struct PG_PKT_STRUCT_A{
++	u8 offset;
++	u8 word_en;
++	u8 data[8];	
++	u8 word_cnts;
++}PGPKT_STRUCT,*PPGPKT_STRUCT;
++/*------------------------------Define structure----------------------------*/ 
++
++
++/*------------------------Export global variable----------------------------*/
++extern u8 fakeEfuseBank;
++extern u32 fakeEfuseUsedBytes;
++extern u8 fakeEfuseContent[];
++extern u8 fakeEfuseInitMap[];
++extern u8 fakeEfuseModifiedMap[];
++
++extern u32 BTEfuseUsedBytes;
++extern u8 BTEfuseContent[EFUSE_MAX_BT_BANK][EFUSE_MAX_HW_SIZE];
++extern u8 BTEfuseInitMap[];
++extern u8 BTEfuseModifiedMap[];
++
++extern u32 fakeBTEfuseUsedBytes;
++extern u8 fakeBTEfuseContent[EFUSE_MAX_BT_BANK][EFUSE_MAX_HW_SIZE];
++extern u8 fakeBTEfuseInitMap[];
++extern u8 fakeBTEfuseModifiedMap[];
++/*------------------------Export global variable----------------------------*/
++
++u8	efuse_GetCurrentSize(PADAPTER padapter, u16 *size);
++u16	efuse_GetMaxSize(PADAPTER padapter);
++u8	rtw_efuse_access(PADAPTER padapter, u8 bRead, u16 start_addr, u16 cnts, u8 *data);
++u8	rtw_efuse_map_read(PADAPTER padapter, u16 addr, u16 cnts, u8 *data);
++u8	rtw_efuse_map_write(PADAPTER padapter, u16 addr, u16 cnts, u8 *data);
++
++u16	Efuse_GetCurrentSize(PADAPTER pAdapter, u8 efuseType, BOOLEAN bPseudoTest);
++u8	Efuse_CalculateWordCnts(u8 word_en);
++void	ReadEFuseByte(PADAPTER Adapter, u16 _offset, u8 *pbuf, BOOLEAN bPseudoTest) ;
++void	EFUSE_GetEfuseDefinition(PADAPTER pAdapter, u8 efuseType, u8 type, void *pOut, BOOLEAN bPseudoTest);
++u8	efuse_OneByteRead(PADAPTER pAdapter, u16 addr, u8 *data, BOOLEAN	 bPseudoTest);
++u8	efuse_OneByteWrite(PADAPTER pAdapter, u16 addr, u8 data, BOOLEAN	 bPseudoTest);
++
++void	Efuse_PowerSwitch(PADAPTER pAdapter,u8	bWrite,u8	 PwrState);
++int 	Efuse_PgPacketRead(PADAPTER pAdapter, u8 offset, u8 *data, BOOLEAN bPseudoTest);
++int 	Efuse_PgPacketWrite(PADAPTER pAdapter, u8 offset, u8 word_en, u8 *data, BOOLEAN bPseudoTest);
++void	efuse_WordEnableDataRead(u8 word_en, u8 *sourdata, u8 *targetdata);
++u8	Efuse_WordEnableDataWrite(PADAPTER pAdapter, u16 efuse_addr, u8 word_en, u8 *data, BOOLEAN bPseudoTest);
++
++u8	EFUSE_Read1Byte(PADAPTER pAdapter, u16 Address);
++void	EFUSE_ShadowMapUpdate(PADAPTER pAdapter, u8 efuseType, BOOLEAN bPseudoTest);
++void	EFUSE_ShadowRead(PADAPTER pAdapter, u8 Type, u16 Offset, u32 *Value);
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_event.h b/drivers/net/wireless/rtl8192cu/include/rtw_event.h
+new file mode 100755
+index 0000000..4299ddc
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_event.h
+@@ -0,0 +1,154 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_EVENT_H_
++#define _RTW_EVENT_H_
++#include <drv_conf.h>
++#include <osdep_service.h>
++
++#ifndef CONFIG_RTL8711FW
++#ifdef PLATFORM_LINUX
++#include <wlan_bssdef.h>
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,26))
++#include <asm/semaphore.h>
++#else
++#include <linux/semaphore.h>
++#endif
++#include <linux/sem.h>
++#endif
++#else
++#include <wlan_bssdef.h>
++#endif//CONFIG_RTL8711FW
++
++
++
++#ifdef CONFIG_H2CLBK
++#include <h2clbk.h>
++#endif
++
++/*
++Used to report a bss has been scanned
++
++*/
++struct survey_event	{
++	WLAN_BSSID_EX bss;
++};
++
++/*
++Used to report that the requested site survey has been done.
++
++bss_cnt indicates the number of bss that has been reported.
++
++
++*/
++struct surveydone_event {
++	unsigned int	bss_cnt;	
++	
++};
++
++/*
++Used to report the link result of joinning the given bss
++
++
++join_res:
++-1: authentication fail
++-2: association fail
++> 0: TID
++
++*/
++struct joinbss_event {
++	struct	wlan_network	network;
++};
++
++/*
++Used to report a given STA has joinned the created BSS.
++It is used in AP/Ad-HoC(M) mode.
++
++
++*/
++struct stassoc_event {
++	unsigned char macaddr[6];
++	unsigned char rsvd[2];
++	int    cam_id;
++	
++};
++
++struct stadel_event {
++ unsigned char macaddr[6];
++ unsigned char rsvd[2]; //for reason
++ int mac_id;
++};
++
++struct addba_event
++{
++ 	unsigned int tid;
++};
++
++
++#ifdef CONFIG_H2CLBK
++struct c2hlbk_event{
++	unsigned char mac[6];
++	unsigned short	s0;
++	unsigned short	s1;
++	unsigned int	w0;
++	unsigned char	b0;
++	unsigned short  s2;
++	unsigned char	b1;
++	unsigned int	w1;	
++};
++#endif//CONFIG_H2CLBK
++
++#define GEN_EVT_CODE(event)	event ## _EVT_
++
++
++
++struct fwevent {
++	u32	parmsize;
++	void (*event_callback)(_adapter *dev, u8 *pbuf);
++};
++
++
++#define C2HEVENT_SZ			32	
++
++struct event_node{
++	unsigned char *node;
++	unsigned char evt_code;
++	unsigned short evt_sz;
++	volatile int	*caller_ff_tail;
++	int	caller_ff_sz;
++};
++
++struct c2hevent_queue {
++	volatile int	head;
++	volatile int	tail;
++	struct	event_node	nodes[C2HEVENT_SZ];
++	unsigned char	seq;
++};
++
++#define NETWORK_QUEUE_SZ	4
++
++struct network_queue {
++	volatile int	head;
++	volatile int	tail;
++	WLAN_BSSID_EX networks[NETWORK_QUEUE_SZ];	
++};
++
++
++#endif // _WLANEVENT_H_
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_ht.h b/drivers/net/wireless/rtl8192cu/include/rtw_ht.h
+new file mode 100755
+index 0000000..3cd904d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_ht.h
+@@ -0,0 +1,50 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_HT_H_
++#define _RTW_HT_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include "wifi.h"
++
++struct ht_priv
++{
++	u32	ht_option;	
++	u32	ampdu_enable;//for enable Tx A-MPDU
++	//u8	baddbareq_issued[16];
++	u32	tx_amsdu_enable;//for enable Tx A-MSDU
++	u32	tx_amdsu_maxlen; // 1: 8k, 0:4k ; default:8k, for tx
++	u32	rx_ampdu_maxlen; //for rx reordering ctrl win_sz, updated when join_callback.
++	
++	u8	bwmode;//
++	u8	ch_offset;//PRIME_CHNL_OFFSET
++	u8	sgi;//short GI
++
++	//for processing Tx A-MPDU
++	u8	agg_enable_bitmap;
++	//u8	ADDBA_retry_count;
++	u8	candidate_tid_bitmap;
++
++	struct rtw_ieee80211_ht_cap ht_cap;
++	
++};
++
++#endif	//_RTL871X_HT_H_
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_io.h b/drivers/net/wireless/rtl8192cu/include/rtw_io.h
+new file mode 100755
+index 0000000..c66845c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_io.h
+@@ -0,0 +1,504 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef _RTW_IO_H_
++#define _RTW_IO_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <osdep_intf.h>
++
++#ifdef PLATFORM_LINUX
++#include <asm/byteorder.h>
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,26))
++#include <asm/semaphore.h>
++#else
++#include <linux/semaphore.h>
++#endif
++#include <linux/list.h>
++//#include <linux/smp_lock.h>
++#include <linux/spinlock.h>
++#include <asm/atomic.h>
++
++#ifdef CONFIG_USB_HCI
++#include <linux/usb.h>
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,21))
++#include <linux/usb_ch9.h>
++#else
++#include <linux/usb/ch9.h>
++#endif
++#endif //CONFIG_USB_HCI
++
++#endif //PLATFORM_LINUX
++
++
++#define NUM_IOREQ		8
++
++#ifdef PLATFORM_WINDOWS
++#define MAX_PROT_SZ	64
++#endif
++#ifdef PLATFORM_LINUX
++#define MAX_PROT_SZ	(64-16)
++#endif
++
++#define _IOREADY			0
++#define _IO_WAIT_COMPLETE   1
++#define _IO_WAIT_RSP        2
++
++// IO COMMAND TYPE
++#define _IOSZ_MASK_		(0x7F)
++#define _IO_WRITE_		BIT(7)
++#define _IO_FIXED_		BIT(8)
++#define _IO_BURST_		BIT(9)
++#define _IO_BYTE_		BIT(10)
++#define _IO_HW_			BIT(11)
++#define _IO_WORD_		BIT(12)
++#define _IO_SYNC_		BIT(13)
++#define _IO_CMDMASK_	(0x1F80)
++
++
++/* 
++	For prompt mode accessing, caller shall free io_req
++	Otherwise, io_handler will free io_req
++*/
++
++
++
++// IO STATUS TYPE
++#define _IO_ERR_		BIT(2)
++#define _IO_SUCCESS_	BIT(1)
++#define _IO_DONE_		BIT(0)
++
++
++#define IO_RD32			(_IO_SYNC_ | _IO_WORD_)
++#define IO_RD16			(_IO_SYNC_ | _IO_HW_)
++#define IO_RD8			(_IO_SYNC_ | _IO_BYTE_)
++
++#define IO_RD32_ASYNC	(_IO_WORD_)
++#define IO_RD16_ASYNC	(_IO_HW_)
++#define IO_RD8_ASYNC	(_IO_BYTE_)
++
++#define IO_WR32			(_IO_WRITE_ | _IO_SYNC_ | _IO_WORD_)
++#define IO_WR16			(_IO_WRITE_ | _IO_SYNC_ | _IO_HW_)
++#define IO_WR8			(_IO_WRITE_ | _IO_SYNC_ | _IO_BYTE_)
++
++#define IO_WR32_ASYNC	(_IO_WRITE_ | _IO_WORD_)
++#define IO_WR16_ASYNC	(_IO_WRITE_ | _IO_HW_)
++#define IO_WR8_ASYNC	(_IO_WRITE_ | _IO_BYTE_)
++
++/*
++
++	Only Sync. burst accessing is provided.
++
++*/
++
++#define IO_WR_BURST(x)		(_IO_WRITE_ | _IO_SYNC_ | _IO_BURST_ | ( (x) & _IOSZ_MASK_))
++#define IO_RD_BURST(x)		(_IO_SYNC_ | _IO_BURST_ | ( (x) & _IOSZ_MASK_))
++
++
++
++//below is for the intf_option bit defition...
++
++#define _INTF_ASYNC_	BIT(0)	//support async io
++
++struct intf_priv;
++struct intf_hdl;
++struct io_queue;
++
++struct _io_ops
++{
++		u8 (*_read8)(struct intf_hdl *pintfhdl, u32 addr);
++		u16 (*_read16)(struct intf_hdl *pintfhdl, u32 addr);
++		u32 (*_read32)(struct intf_hdl *pintfhdl, u32 addr);
++
++		int (*_write8)(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++		int (*_write16)(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++		int (*_write32)(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++		int (*_writeN)(struct intf_hdl *pintfhdl, u32 addr, u32 length, u8 *pdata);
++
++		int (*_write8_async)(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++		int (*_write16_async)(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++		int (*_write32_async)(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++
++		void (*_read_mem)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++		void (*_write_mem)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++
++		void (*_sync_irp_protocol_rw)(struct io_queue *pio_q);
++
++		u32 (*_read_interrupt)(struct intf_hdl *pintfhdl, u32 addr);
++
++		u32 (*_read_port)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++		u32 (*_write_port)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++
++		u32 (*_write_scsi)(struct intf_hdl *pintfhdl,u32 cnt, u8 *pmem);
++
++		void (*_read_port_cancel)(struct intf_hdl *pintfhdl);
++		void (*_write_port_cancel)(struct intf_hdl *pintfhdl);
++		
++};
++
++struct io_req {	
++	_list	list;
++	u32	addr;	
++	volatile u32	val;
++	u32	command;
++	u32	status;
++	u8	*pbuf;	
++	_sema	sema;
++
++#ifdef PLATFORM_OS_CE
++#ifdef CONFIG_USB_HCI
++	// URB handler for rtw_write_mem
++	USB_TRANSFER usb_transfer_write_mem;
++#endif
++#endif
++	
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt);
++	u8 *cnxt;	
++
++#ifdef PLATFORM_OS_XP	
++	PMDL pmdl;
++	PIRP  pirp; 
++
++#ifdef CONFIG_SDIO_HCI
++	PSDBUS_REQUEST_PACKET sdrp;
++#endif	
++
++#endif	
++
++
++};
++
++struct	intf_hdl {
++
++/*	
++	u32	intf_option;
++	u32	bus_status;
++	u32	do_flush;
++	u8	*adapter;
++	u8	*intf_dev;	
++	struct intf_priv	*pintfpriv;
++	u8	cnt;
++	void (*intf_hdl_init)(u8 *priv);
++	void (*intf_hdl_unload)(u8 *priv);
++	void (*intf_hdl_open)(u8 *priv);
++	void (*intf_hdl_close)(u8 *priv);
++	struct	_io_ops	io_ops;
++	//u8 intf_status;//moved to struct intf_priv
++	u16 len;
++	u16 done_len;	
++*/
++	_adapter *padapter;
++	struct dvobj_priv *pintf_dev;//	pointer to &(padapter->dvobjpriv);
++
++	struct _io_ops	io_ops;
++
++};
++
++struct reg_protocol_rd {
++
++#ifdef CONFIG_LITTLE_ENDIAN	
++
++	//DW1
++	u32		NumOfTrans:4;
++	u32		Reserved1:4;
++	u32		Reserved2:24;
++	//DW2
++	u32		ByteCount:7;
++	u32		WriteEnable:1;		//0:read, 1:write
++	u32		FixOrContinuous:1;	//0:continuous, 1: Fix
++	u32		BurstMode:1;
++	u32		Byte1Access:1;
++	u32		Byte2Access:1;
++	u32		Byte4Access:1;
++	u32		Reserved3:3;
++	u32		Reserved4:16;
++	//DW3
++	u32		BusAddress;
++	//DW4
++	//u32		Value;
++#else
++
++
++//DW1
++	u32 Reserved1  :4;
++	u32 NumOfTrans :4;	
++
++	u32 Reserved2  :24;	
++
++	//DW2
++	u32 WriteEnable : 1;
++	u32 ByteCount :7;	
++
++
++	u32 Reserved3 : 3;
++	u32 Byte4Access : 1;	
++
++	u32 Byte2Access : 1;
++	u32 Byte1Access : 1;	
++	u32 BurstMode :1 ;	
++	u32 FixOrContinuous : 1;	
++
++	u32 Reserved4 : 16;
++
++	//DW3
++	u32		BusAddress;
++
++	//DW4
++	//u32		Value;
++
++#endif
++	
++};
++
++
++struct reg_protocol_wt {
++	
++
++#ifdef CONFIG_LITTLE_ENDIAN
++
++	//DW1
++	u32		NumOfTrans:4;
++	u32		Reserved1:4;
++	u32		Reserved2:24;
++	//DW2
++	u32		ByteCount:7;
++	u32		WriteEnable:1;		//0:read, 1:write
++	u32		FixOrContinuous:1;	//0:continuous, 1: Fix
++	u32		BurstMode:1;
++	u32		Byte1Access:1;
++	u32		Byte2Access:1;
++	u32		Byte4Access:1;
++	u32		Reserved3:3;
++	u32		Reserved4:16;
++	//DW3
++	u32		BusAddress;
++	//DW4
++	u32		Value;
++
++#else
++	//DW1
++	u32 Reserved1  :4;
++	u32 NumOfTrans :4;	
++
++	u32 Reserved2  :24;	
++
++	//DW2
++	u32 WriteEnable : 1;
++	u32 ByteCount :7;	
++		
++	u32 Reserved3 : 3;
++	u32 Byte4Access : 1;	
++
++	u32 Byte2Access : 1;
++	u32 Byte1Access : 1;	
++	u32 BurstMode :1 ;	
++	u32 FixOrContinuous : 1;	
++
++	u32 Reserved4 : 16;
++
++	//DW3
++	u32		BusAddress;
++
++	//DW4
++	u32		Value;
++
++#endif
++
++};
++
++
++
++/*
++Below is the data structure used by _io_handler
++
++*/
++
++struct io_queue {	
++	_lock	lock;	
++	_list  	free_ioreqs;	
++	_list		pending;		//The io_req list that will be served in the single protocol read/write.	
++	_list		processing;
++	u8	*free_ioreqs_buf; // 4-byte aligned
++	u8	*pallocated_free_ioreqs_buf;
++	struct	intf_hdl	intf;
++};
++
++struct io_priv{
++	
++	_adapter *padapter;	
++		
++	struct intf_hdl intf;
++
++};
++
++extern uint ioreq_flush(_adapter *adapter, struct io_queue *ioqueue);
++extern void sync_ioreq_enqueue(struct io_req *preq,struct io_queue *ioqueue);
++extern uint sync_ioreq_flush(_adapter *adapter, struct io_queue *ioqueue);
++
++
++extern uint free_ioreq(struct io_req *preq, struct io_queue *pio_queue);
++extern struct io_req *alloc_ioreq(struct io_queue *pio_q);
++
++extern uint register_intf_hdl(u8 *dev, struct intf_hdl *pintfhdl);
++extern void unregister_intf_hdl(struct intf_hdl *pintfhdl);
++
++extern void _rtw_attrib_read(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++extern void _rtw_attrib_write(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++
++extern u8 _rtw_read8(_adapter *adapter, u32 addr);
++extern u16 _rtw_read16(_adapter *adapter, u32 addr);
++extern u32 _rtw_read32(_adapter *adapter, u32 addr);
++extern void _rtw_read_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++extern void _rtw_read_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++extern void _rtw_read_port_cancel(_adapter *adapter);
++
++
++extern int _rtw_write8(_adapter *adapter, u32 addr, u8 val);
++extern int _rtw_write16(_adapter *adapter, u32 addr, u16 val);
++extern int _rtw_write32(_adapter *adapter, u32 addr, u32 val);
++extern int _rtw_writeN(_adapter *adapter, u32 addr, u32 length, u8 *pdata);
++
++extern int _rtw_write8_async(_adapter *adapter, u32 addr, u8 val);
++extern int _rtw_write16_async(_adapter *adapter, u32 addr, u16 val);
++extern int _rtw_write32_async(_adapter *adapter, u32 addr, u32 val);
++
++extern void _rtw_write_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++extern u32 _rtw_write_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++u32 _rtw_write_port_and_wait(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem, int timeout_ms);
++extern void _rtw_write_port_cancel(_adapter *adapter);
++
++#ifdef DBG_IO
++bool match_read_sniff_ranges(u16 addr, u16 len);
++bool match_write_sniff_ranges(u16 addr, u16 len);
++
++extern u8 dbg_rtw_read8(_adapter *adapter, u32 addr, const char *caller, const int line);
++extern u16 dbg_rtw_read16(_adapter *adapter, u32 addr, const char *caller, const int line);
++extern u32 dbg_rtw_read32(_adapter *adapter, u32 addr, const char *caller, const int line);
++
++extern int dbg_rtw_write8(_adapter *adapter, u32 addr, u8 val, const char *caller, const int line);
++extern int dbg_rtw_write16(_adapter *adapter, u32 addr, u16 val, const char *caller, const int line);
++extern int dbg_rtw_write32(_adapter *adapter, u32 addr, u32 val, const char *caller, const int line);
++extern int dbg_rtw_writeN(_adapter *adapter, u32 addr ,u32 length , u8 *data, const char *caller, const int line);
++
++#define rtw_read8(adapter, addr) dbg_rtw_read8((adapter), (addr), __FUNCTION__, __LINE__)
++#define rtw_read16(adapter, addr) dbg_rtw_read16((adapter), (addr), __FUNCTION__, __LINE__)
++#define rtw_read32(adapter, addr) dbg_rtw_read32((adapter), (addr), __FUNCTION__, __LINE__)
++#define rtw_read_mem(adapter, addr, cnt, mem) _rtw_read_mem((adapter), (addr), (cnt), (mem))
++#define rtw_read_port(adapter, addr, cnt, mem) _rtw_read_port((adapter), (addr), (cnt), (mem))
++#define rtw_read_port_cancel(adapter) _rtw_read_port_cancel((adapter))
++
++#define  rtw_write8(adapter, addr, val) dbg_rtw_write8((adapter), (addr), (val), __FUNCTION__, __LINE__)
++#define  rtw_write16(adapter, addr, val) dbg_rtw_write16((adapter), (addr), (val), __FUNCTION__, __LINE__)
++#define  rtw_write32(adapter, addr, val) dbg_rtw_write32((adapter), (addr), (val), __FUNCTION__, __LINE__)
++#define  rtw_writeN(adapter, addr, length, data) dbg_rtw_writeN((adapter), (addr), (length), (data), __FUNCTION__, __LINE__)
++
++#define rtw_write8_async(adapter, addr, val) _rtw_write8_async((adapter), (addr), (val))
++#define rtw_write16_async(adapter, addr, val) _rtw_write16_async((adapter), (addr), (val))
++#define rtw_write32_async(adapter, addr, val) _rtw_write32_async((adapter), (addr), (val))
++
++#define rtw_write_mem(adapter, addr, cnt, mem) _rtw_write_mem((adapter), addr, cnt, mem)
++#define rtw_write_port(adapter, addr, cnt, mem) _rtw_write_port(adapter, addr, cnt, mem)
++#define rtw_write_port_and_wait(adapter, addr, cnt, mem, timeout_ms) _rtw_write_port_and_wait((adapter), (addr), (cnt), (mem), (timeout_ms))
++#define rtw_write_port_cancel(adapter) _rtw_write_port_cancel(adapter)
++#else //DBG_IO
++#define rtw_read8(adapter, addr) _rtw_read8((adapter), (addr))
++#define rtw_read16(adapter, addr) _rtw_read16((adapter), (addr))
++#define rtw_read32(adapter, addr) _rtw_read32((adapter), (addr))
++#define rtw_read_mem(adapter, addr, cnt, mem) _rtw_read_mem((adapter), (addr), (cnt), (mem))
++#define rtw_read_port(adapter, addr, cnt, mem) _rtw_read_port((adapter), (addr), (cnt), (mem))
++#define rtw_read_port_cancel(adapter) _rtw_read_port_cancel((adapter))
++
++#define  rtw_write8(adapter, addr, val) _rtw_write8((adapter), (addr), (val))
++#define  rtw_write16(adapter, addr, val) _rtw_write16((adapter), (addr), (val))
++#define  rtw_write32(adapter, addr, val) _rtw_write32((adapter), (addr), (val))
++#define  rtw_writeN(adapter, addr, length, data) _rtw_writeN((adapter), (addr), (length), (data))
++
++#define rtw_write8_async(adapter, addr, val) _rtw_write8_async((adapter), (addr), (val))
++#define rtw_write16_async(adapter, addr, val) _rtw_write16_async((adapter), (addr), (val))
++#define rtw_write32_async(adapter, addr, val) _rtw_write32_async((adapter), (addr), (val))
++
++#define rtw_write_mem(adapter, addr, cnt, mem) _rtw_write_mem((adapter), (addr), (cnt), (mem))
++#define rtw_write_port(adapter, addr, cnt, mem) _rtw_write_port((adapter), (addr), (cnt), (mem))
++#define rtw_write_port_and_wait(adapter, addr, cnt, mem, timeout_ms) _rtw_write_port_and_wait((adapter), (addr), (cnt), (mem), (timeout_ms))
++#define rtw_write_port_cancel(adapter) _rtw_write_port_cancel((adapter))
++#endif //DBG_IO
++
++extern void rtw_write_scsi(_adapter *adapter, u32 cnt, u8 *pmem);
++
++//ioreq 
++extern void ioreq_read8(_adapter *adapter, u32 addr, u8 *pval);
++extern void ioreq_read16(_adapter *adapter, u32 addr, u16 *pval);	
++extern void ioreq_read32(_adapter *adapter, u32 addr, u32 *pval);
++extern void ioreq_write8(_adapter *adapter, u32 addr, u8 val);
++extern void ioreq_write16(_adapter *adapter, u32 addr, u16 val);
++extern void ioreq_write32(_adapter *adapter, u32 addr, u32 val);
++
++
++extern uint async_read8(_adapter *adapter, u32 addr, u8 *pbuff,
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt), u8 *cnxt); 
++extern uint async_read16(_adapter *adapter, u32 addr,  u8 *pbuff,
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt), u8 *cnxt); 
++extern uint async_read32(_adapter *adapter, u32 addr,  u8 *pbuff,
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt), u8 *cnxt); 
++
++extern void async_read_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++extern void async_read_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++
++extern void async_write8(_adapter *adapter, u32 addr, u8 val,
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt), u8 *cnxt);
++extern void async_write16(_adapter *adapter, u32 addr, u16 val,
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt), u8 *cnxt);
++extern void async_write32(_adapter *adapter, u32 addr, u32 val,
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt), u8 *cnxt);
++
++extern void async_write_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++extern void async_write_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++
++
++int rtw_init_io_priv(_adapter *padapter, void (*set_intf_ops)(struct _io_ops *pops));
++
++
++extern uint alloc_io_queue(_adapter *adapter);
++extern void free_io_queue(_adapter *adapter);
++extern void async_bus_io(struct io_queue *pio_q);
++extern void bus_sync_io(struct io_queue *pio_q);
++extern u32 _ioreq2rwmem(struct io_queue *pio_q);
++extern void dev_power_down(_adapter * Adapter, u8 bpwrup);
++
++/*
++#define RTL_R8(reg)		rtw_read8(padapter, reg)
++#define RTL_R16(reg)            rtw_read16(padapter, reg)
++#define RTL_R32(reg)            rtw_read32(padapter, reg)
++#define RTL_W8(reg, val8)       rtw_write8(padapter, reg, val8)
++#define RTL_W16(reg, val16)     rtw_write16(padapter, reg, val16)
++#define RTL_W32(reg, val32)     rtw_write32(padapter, reg, val32)
++*/
++
++/*
++#define RTL_W8_ASYNC(reg, val8) rtw_write32_async(padapter, reg, val8)
++#define RTL_W16_ASYNC(reg, val16) rtw_write32_async(padapter, reg, val16)
++#define RTL_W32_ASYNC(reg, val32) rtw_write32_async(padapter, reg, val32)
++
++#define RTL_WRITE_BB(reg, val32)	phy_SetUsbBBReg(padapter, reg, val32)
++#define RTL_READ_BB(reg)	phy_QueryUsbBBReg(padapter, reg)
++*/
++
++#endif	//_RTL8711_IO_H_
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_ioctl.h b/drivers/net/wireless/rtl8192cu/include/rtw_ioctl.h
+new file mode 100755
+index 0000000..c4da301
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_ioctl.h
+@@ -0,0 +1,269 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_IOCTL_H_
++#define _RTW_IOCTL_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++#ifndef OID_802_11_CAPABILITY
++	#define OID_802_11_CAPABILITY                   0x0d010122
++#endif
++
++#ifndef OID_802_11_PMKID
++	#define OID_802_11_PMKID                        0x0d010123
++#endif
++
++
++// For DDK-defined OIDs
++#define OID_NDIS_SEG1	0x00010100
++#define OID_NDIS_SEG2	0x00010200
++#define OID_NDIS_SEG3	0x00020100
++#define OID_NDIS_SEG4	0x01010100
++#define OID_NDIS_SEG5	0x01020100
++#define OID_NDIS_SEG6	0x01020200
++#define OID_NDIS_SEG7	0xFD010100
++#define OID_NDIS_SEG8	0x0D010100
++#define OID_NDIS_SEG9	0x0D010200
++#define OID_NDIS_SEG10	0x0D020200
++
++#define SZ_OID_NDIS_SEG1		  23
++#define SZ_OID_NDIS_SEG2		    3
++#define SZ_OID_NDIS_SEG3		    6
++#define SZ_OID_NDIS_SEG4		    6
++#define SZ_OID_NDIS_SEG5		    4
++#define SZ_OID_NDIS_SEG6		    8
++#define SZ_OID_NDIS_SEG7		    7
++#define SZ_OID_NDIS_SEG8		  36
++#define SZ_OID_NDIS_SEG9		  24
++#define SZ_OID_NDIS_SEG10		  19
++
++// For Realtek-defined OIDs
++#define OID_MP_SEG1		0xFF871100
++#define OID_MP_SEG2		0xFF818000
++
++#define OID_MP_SEG3		0xFF818700
++#define OID_MP_SEG4		0xFF011100
++
++#define DEBUG_OID(dbg, str)     		\
++       if((!dbg))				    			\
++      	{					    			\
++	   RT_TRACE(_module_rtl871x_ioctl_c_,_drv_info_,("%s(%d): %s", __FUNCTION__, __LINE__, str));	\
++      	}			
++
++
++enum oid_type
++{
++	QUERY_OID,
++	SET_OID
++};
++
++struct oid_funs_node {
++	unsigned int oid_start; //the starting number for OID
++	unsigned int oid_end; //the ending number for OID
++	struct oid_obj_priv *node_array; 
++	unsigned int array_sz; //the size of node_array
++	int query_counter; //count the number of query hits for this segment  
++	int set_counter; //count the number of set hits for this segment  
++};
++
++struct oid_par_priv
++{
++	void		*adapter_context;
++	NDIS_OID	oid;
++	void		*information_buf;
++	u32		information_buf_len;
++	u32		*bytes_rw;
++	u32		*bytes_needed;
++	enum oid_type	type_of_oid;
++	u32		dbg;
++};
++
++struct oid_obj_priv {
++	unsigned char	dbg; // 0: without OID debug message  1: with OID debug message 
++	NDIS_STATUS (*oidfuns)(struct oid_par_priv *poid_par_priv);	
++};
++
++#if (defined(CONFIG_MP_INCLUDED) && defined(_RTW_MP_IOCTL_C_)) || \
++	(defined(PLATFORM_WINDOWS) && defined(_RTW_IOCTL_RTL_C_))
++static NDIS_STATUS oid_null_function(struct oid_par_priv* poid_par_priv)
++{
++	_func_enter_;
++	_func_exit_;
++	return NDIS_STATUS_SUCCESS;
++}
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++int TranslateNdisPsToRtPs(IN NDIS_802_11_POWER_MODE	ndisPsMode);
++
++//OID Handler for Segment 1
++NDIS_STATUS oid_gen_supported_list_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_hardware_status_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_media_supported_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_media_in_use_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_maximum_lookahead_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_maximum_frame_size_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_link_speed_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_transmit_buffer_space_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_receive_buffer_space_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_transmit_block_size_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_receive_block_size_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_vendor_id_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_vendor_description_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_current_packet_filter_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_current_lookahead_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_driver_version_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_maximum_total_size_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_protocol_options_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_mac_options_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_media_connect_status_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_maximum_send_packets_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_vendor_driver_version_hdl(struct oid_par_priv* poid_par_priv);
++
++
++//OID Handler for Segment 2
++NDIS_STATUS oid_gen_physical_medium_hdl(struct oid_par_priv* poid_par_priv);
++
++//OID Handler for Segment 3
++NDIS_STATUS oid_gen_xmit_ok_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_rcv_ok_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_xmit_error_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_rcv_error_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_gen_rcv_no_buffer_hdl(struct oid_par_priv* poid_par_priv);
++
++
++//OID Handler for Segment 4
++NDIS_STATUS oid_802_3_permanent_address_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_3_current_address_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_3_multicast_list_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_3_maximum_list_size_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_3_mac_options_hdl(struct oid_par_priv* poid_par_priv);
++
++
++
++//OID Handler for Segment 5
++NDIS_STATUS oid_802_3_rcv_error_alignment_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_one_collision_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_more_collisions_hdl(struct oid_par_priv* poid_par_priv);
++
++
++//OID Handler for Segment 6
++NDIS_STATUS oid_802_3_xmit_deferred_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_max_collisions_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_3_rcv_overrun_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_underrun_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_heartbeat_failure_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_times_crs_lost_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_late_collisions_hdl(struct oid_par_priv* poid_par_priv);
++
++
++
++//OID Handler for Segment 7
++NDIS_STATUS oid_pnp_capabilities_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_pnp_set_power_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_pnp_query_power_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_pnp_add_wake_up_pattern_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_pnp_remove_wake_up_pattern_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_pnp_wake_up_pattern_list_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_pnp_enable_wake_up_hdl(struct oid_par_priv* poid_par_priv);
++
++
++
++//OID Handler for Segment 8
++NDIS_STATUS oid_802_11_bssid_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_ssid_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_infrastructure_mode_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_add_wep_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_remove_wep_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_disassociate_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_authentication_mode_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_privacy_filter_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_bssid_list_scan_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_encryption_status_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_reload_defaults_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_add_key_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_remove_key_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_association_information_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_test_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_media_stream_mode_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_capability_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_pmkid_hdl(struct oid_par_priv* poid_par_priv);
++
++
++
++
++
++//OID Handler for Segment 9
++NDIS_STATUS oid_802_11_network_types_supported_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_network_type_in_use_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_tx_power_level_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_rssi_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_rssi_trigger_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_fragmentation_threshold_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_rts_threshold_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_number_of_antennas_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_rx_antenna_selected_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_tx_antenna_selected_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_supported_rates_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_desired_rates_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_configuration_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_power_mode_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_802_11_bssid_list_hdl(struct oid_par_priv* poid_par_priv);
++
++
++//OID Handler for Segment 10
++NDIS_STATUS oid_802_11_statistics_hdl(struct oid_par_priv* poid_par_priv);
++
++
++//OID Handler for Segment ED 
++NDIS_STATUS oid_rt_mh_vender_id_hdl(struct oid_par_priv* poid_par_priv);
++
++void Set_802_3_MULTICAST_LIST(ADAPTER *pAdapter, UCHAR *MCListbuf, ULONG MCListlen, BOOLEAN bAcceptAllMulticast);
++
++#endif// end of PLATFORM_WINDOWS
++
++
++#if defined(PLATFORM_LINUX) && defined(CONFIG_WIRELESS_EXT)
++extern struct iw_handler_def  rtw_handlers_def;
++#endif
++
++extern	NDIS_STATUS drv_query_info(
++	IN	_nic_hdl		MiniportAdapterContext,
++	IN	NDIS_OID		Oid,
++	IN	void *			InformationBuffer,
++	IN	u32			InformationBufferLength,
++	OUT	u32*			BytesWritten,
++	OUT	u32*			BytesNeeded
++	);
++
++extern	NDIS_STATUS 	drv_set_info(
++	IN	_nic_hdl		MiniportAdapterContext,
++	IN	NDIS_OID		Oid,
++	IN	void *			InformationBuffer,
++	IN	u32			InformationBufferLength,
++	OUT	u32*			BytesRead,
++	OUT	u32*			BytesNeeded
++	);
++
++#endif // #ifndef __INC_CEINFO_
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_ioctl_query.h b/drivers/net/wireless/rtl8192cu/include/rtw_ioctl_query.h
+new file mode 100755
+index 0000000..5b6018a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_ioctl_query.h
+@@ -0,0 +1,36 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_IOCTL_QUERY_H_
++#define _RTW_IOCTL_QUERY_H_
++
++#include <drv_conf.h>
++#include <drv_types.h>
++
++
++#ifdef PLATFORM_WINDOWS
++
++u8 query_802_11_capability(_adapter*	padapter,u8*	pucBuf,u32 *	pulOutLen);
++u8 query_802_11_association_information (_adapter * padapter, PNDIS_802_11_ASSOCIATION_INFORMATION pAssocInfo);
++
++#endif
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_ioctl_rtl.h b/drivers/net/wireless/rtl8192cu/include/rtw_ioctl_rtl.h
+new file mode 100755
+index 0000000..3bff766
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_ioctl_rtl.h
+@@ -0,0 +1,83 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_IOCTL_RTL_H_
++#define _RTW_IOCTL_RTL_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++//************** oid_rtl_seg_01_01 ************** 
++NDIS_STATUS oid_rt_get_signal_quality_hdl(struct oid_par_priv* poid_par_priv);//84
++NDIS_STATUS oid_rt_get_small_packet_crc_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_middle_packet_crc_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_large_packet_crc_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_tx_retry_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_rx_retry_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_rx_total_packet_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_tx_beacon_ok_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_tx_beacon_err_hdl(struct oid_par_priv* poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_set_fw_dig_state_hdl(struct oid_par_priv* poid_par_priv);	//8a
++NDIS_STATUS oid_rt_pro_set_fw_ra_state_hdl(struct oid_par_priv* poid_par_priv);	//8b
++
++NDIS_STATUS oid_rt_get_rx_icv_err_hdl(struct oid_par_priv* poid_par_priv);//93
++NDIS_STATUS oid_rt_set_encryption_algorithm_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_preamble_mode_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_ap_ip_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_channelplan_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_set_channelplan_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_set_preamble_mode_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_set_bcn_intvl_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_dedicate_probe_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_total_tx_bytes_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_total_rx_bytes_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_current_tx_power_level_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_enc_key_mismatch_count_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_enc_key_match_count_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_channel_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_hardware_radio_off_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_key_mismatch_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_supported_wireless_mode_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_channel_list_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_scan_in_progress_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_forced_data_rate_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_wireless_mode_for_scan_list_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_bss_wireless_mode_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_scan_with_magic_packet_hdl(struct oid_par_priv* poid_par_priv);
++
++//**************  oid_rtl_seg_01_03 section start ************** 
++NDIS_STATUS oid_rt_ap_get_associated_station_list_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_ap_switch_into_ap_mode_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_ap_supported_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_ap_set_passphrase_hdl(struct oid_par_priv* poid_par_priv);
++
++// oid_rtl_seg_01_11 
++NDIS_STATUS oid_rt_pro_rf_write_registry_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_rf_read_registry_hdl(struct oid_par_priv* poid_par_priv);
++
++//**************  oid_rtl_seg_03_00 section start **************  
++NDIS_STATUS oid_rt_get_connect_state_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_set_default_key_id_hdl(struct oid_par_priv* poid_par_priv);
++
++
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_ioctl_set.h b/drivers/net/wireless/rtl8192cu/include/rtw_ioctl_set.h
+new file mode 100755
+index 0000000..82f9810
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_ioctl_set.h
+@@ -0,0 +1,79 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_IOCTL_SET_H_
++#define __RTW_IOCTL_SET_H_
++
++#include <drv_conf.h>
++#include <drv_types.h>
++
++
++typedef u8 NDIS_802_11_PMKID_VALUE[16];
++
++typedef struct _BSSIDInfo {
++	NDIS_802_11_MAC_ADDRESS  BSSID;
++	NDIS_802_11_PMKID_VALUE  PMKID;
++} BSSIDInfo, *PBSSIDInfo;
++
++
++#ifdef PLATFORM_OS_XP
++typedef struct _NDIS_802_11_PMKID {
++	u32	Length;
++	u32	BSSIDInfoCount;
++	BSSIDInfo BSSIDInfo[1];
++} NDIS_802_11_PMKID, *PNDIS_802_11_PMKID;
++#endif
++
++
++#ifdef PLATFORM_WINDOWS
++u8 rtw_set_802_11_reload_defaults(_adapter * padapter, NDIS_802_11_RELOAD_DEFAULTS reloadDefaults);
++u8 rtw_set_802_11_test(_adapter * padapter, NDIS_802_11_TEST * test);
++u8 rtw_set_802_11_pmkid(_adapter *pdapter, NDIS_802_11_PMKID *pmkid);
++
++u8 rtw_pnp_set_power_sleep(_adapter* padapter);
++u8 rtw_pnp_set_power_wakeup(_adapter* padapter);
++
++void rtw_pnp_resume_wk(void *context);
++void rtw_pnp_sleep_wk(void * context);
++
++#endif
++
++u8 rtw_set_802_11_add_key(_adapter * padapter, NDIS_802_11_KEY * key);
++u8 rtw_set_802_11_authentication_mode(_adapter *pdapter, NDIS_802_11_AUTHENTICATION_MODE authmode);
++u8 rtw_set_802_11_bssid(_adapter* padapter, u8 *bssid);
++u8 rtw_set_802_11_add_wep(_adapter * padapter, NDIS_802_11_WEP * wep);
++u8 rtw_set_802_11_disassociate(_adapter * padapter);
++u8 rtw_set_802_11_bssid_list_scan(_adapter* padapter, NDIS_802_11_SSID *pssid, int ssid_max_num);
++u8 rtw_set_802_11_infrastructure_mode(_adapter * padapter, NDIS_802_11_NETWORK_INFRASTRUCTURE networktype);
++u8 rtw_set_802_11_remove_wep(_adapter * padapter, u32 keyindex);
++u8 rtw_set_802_11_ssid(_adapter * padapter, NDIS_802_11_SSID * ssid);
++u8 rtw_set_802_11_connect(_adapter* padapter, u8 *bssid, NDIS_802_11_SSID *ssid);
++u8 rtw_set_802_11_remove_key(_adapter * padapter, NDIS_802_11_REMOVE_KEY * key);
++
++u8 rtw_validate_bssid(u8 *bssid);
++u8 rtw_validate_ssid(NDIS_802_11_SSID *ssid);
++
++u16 rtw_get_cur_max_rate(_adapter *adapter);
++int rtw_set_scan_mode(_adapter *adapter, RT_SCAN_TYPE scan_mode);
++int rtw_set_channel_plan(_adapter *adapter, u8 channel_plan);
++int rtw_set_country(_adapter *adapter, const char *country_code);
++int rtw_set_band(_adapter *adapter, enum _BAND band);
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_iol.h b/drivers/net/wireless/rtl8192cu/include/rtw_iol.h
+new file mode 100755
+index 0000000..45fa5a2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_iol.h
+@@ -0,0 +1,89 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_IOL_H_
++#define __RTW_IOL_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++typedef struct _io_offload_cmd {
++	u8 rsvd0;
++	u8 cmd;
++	u16 address;
++	u32 value;
++} IO_OFFLOAD_CMD, IOL_CMD;
++
++#define IOL_CMD_LLT			0x00
++//#define IOL_CMD_R_EFUSE	0x01
++#define IOL_CMD_WB_REG		0x02
++#define IOL_CMD_WW_REG 	0x03
++#define IOL_CMD_WD_REG		0x04
++//#define IOL_CMD_W_RF		0x05
++#define IOL_CMD_DELAY_US	0x80
++#define IOL_CMD_DELAY_MS	0x81
++//#define IOL_CMD_DELAY_S	0x82
++#define IOL_CMD_END			0x83
++
++/*****************************************************
++CMD					Address			Value
++(B1)					(B2/B3:H/L addr)	(B4:B7 : MSB:LSB)
++******************************************************
++IOL_CMD_LLT			-				B7: PGBNDY
++//IOL_CMD_R_EFUSE	-				-
++IOL_CMD_WB_REG		0x0~0xFFFF		B7
++IOL_CMD_WW_REG	0x0~0xFFFF		B6~B7
++IOL_CMD_WD_REG	0x0~0xFFFF		B4~B7
++//IOL_CMD_W_RF		RF Reg			B5~B7
++IOL_CMD_DELAY_US	-				B6~B7
++IOL_CMD_DELAY_MS	-				B6~B7
++//IOL_CMD_DELAY_S	-				B6~B7
++IOL_CMD_END		-				-
++******************************************************/
++
++struct xmit_frame	*rtw_IOL_accquire_xmit_frame(ADAPTER *adapter);
++int rtw_IOL_append_cmds(struct xmit_frame *xmit_frame, u8 *IOL_cmds, u32 cmd_len);
++int rtw_IOL_append_LLT_cmd(struct xmit_frame *xmit_frame, u8 page_boundary);
++int _rtw_IOL_append_WB_cmd(struct xmit_frame *xmit_frame, u16 addr, u8 value);
++int _rtw_IOL_append_WW_cmd(struct xmit_frame *xmit_frame, u16 addr, u16 value);
++int _rtw_IOL_append_WD_cmd(struct xmit_frame *xmit_frame, u16 addr, u32 value);
++int rtw_IOL_append_DELAY_US_cmd(struct xmit_frame *xmit_frame, u16 us);
++int rtw_IOL_append_DELAY_MS_cmd(struct xmit_frame *xmit_frame, u16 ms);
++int rtw_IOL_append_END_cmd(struct xmit_frame *xmit_frame);
++int rtw_IOL_exec_cmds_sync(ADAPTER *adapter, struct xmit_frame *xmit_frame, u32 max_wating_ms);
++int rtw_IOL_exec_cmd_array_sync(PADAPTER adapter, u8 *IOL_cmds, u32 cmd_num, u32 max_wating_ms);
++int rtw_IOL_exec_empty_cmds_sync(ADAPTER *adapter, u32 max_wating_ms);
++
++#ifdef DBG_IO
++int dbg_rtw_IOL_append_WB_cmd(struct xmit_frame *xmit_frame, u16 addr, u8 value, const char *caller, const int line);
++int dbg_rtw_IOL_append_WW_cmd(struct xmit_frame *xmit_frame, u16 addr, u16 value, const char *caller, const int line);
++int dbg_rtw_IOL_append_WD_cmd(struct xmit_frame *xmit_frame, u16 addr, u32 value, const char *caller, const int line);
++#define rtw_IOL_append_WB_cmd(xmit_frame, addr, value) dbg_rtw_IOL_append_WB_cmd((xmit_frame), (addr), (value), __FUNCTION__, __LINE__)
++#define rtw_IOL_append_WW_cmd(xmit_frame, addr, value) dbg_rtw_IOL_append_WW_cmd((xmit_frame), (addr), (value), __FUNCTION__, __LINE__)
++#define rtw_IOL_append_WD_cmd(xmit_frame, addr, value) dbg_rtw_IOL_append_WD_cmd((xmit_frame), (addr), (value), __FUNCTION__, __LINE__)
++#else
++#define rtw_IOL_append_WB_cmd(xmit_frame, addr, value) _rtw_IOL_append_WB_cmd((xmit_frame), (addr), (value))
++#define rtw_IOL_append_WW_cmd(xmit_frame, addr, value) _rtw_IOL_append_WW_cmd((xmit_frame), (addr), (value))
++#define rtw_IOL_append_WD_cmd(xmit_frame, addr, value) _rtw_IOL_append_WD_cmd((xmit_frame), (addr), (value))
++#endif
++
++bool rtw_IOL_applied(ADAPTER *adapter);
++
++#endif //__RTW_IOL_H_
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_led.h b/drivers/net/wireless/rtl8192cu/include/rtw_led.h
+new file mode 100755
+index 0000000..b5365ba
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_led.h
+@@ -0,0 +1,217 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_LED_H_
++#define __RTW_LED_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++#define MSECS(t)        (HZ * ((t) / 1000) + (HZ * ((t) % 1000)) / 1000)
++
++typedef enum _LED_CTL_MODE{
++        LED_CTL_POWER_ON = 1,
++        LED_CTL_LINK = 2,
++        LED_CTL_NO_LINK = 3,
++        LED_CTL_TX = 4,
++        LED_CTL_RX = 5,
++        LED_CTL_SITE_SURVEY = 6,
++        LED_CTL_POWER_OFF = 7,
++        LED_CTL_START_TO_LINK = 8,
++        LED_CTL_START_WPS = 9,
++        LED_CTL_STOP_WPS = 10,
++        LED_CTL_START_WPS_BOTTON = 11, //added for runtop
++        LED_CTL_STOP_WPS_FAIL = 12, //added for ALPHA	
++	 LED_CTL_STOP_WPS_FAIL_OVERLAP = 13, //added for BELKIN
++}LED_CTL_MODE;
++
++
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI)
++//================================================================================
++// LED object.
++//================================================================================
++
++typedef enum _LED_STATE_871x{
++	LED_UNKNOWN = 0,
++	RTW_LED_ON = 1,
++	RTW_LED_OFF = 2,
++	LED_BLINK_NORMAL = 3,
++	LED_BLINK_SLOWLY = 4,
++	LED_POWER_ON_BLINK = 5,
++	LED_SCAN_BLINK = 6, // LED is blinking during scanning period, the # of times to blink is depend on time for scanning.
++	LED_NO_LINK_BLINK = 7, // LED is blinking during no link state.
++	LED_BLINK_StartToBlink = 8,// Customzied for Sercomm Printer Server case
++	LED_BLINK_WPS = 9,	// LED is blinkg during WPS communication	
++	LED_TXRX_BLINK = 10,
++	LED_BLINK_WPS_STOP = 11,	//for ALPHA	
++	LED_BLINK_WPS_STOP_OVERLAP = 12,	//for BELKIN
++}LED_STATE_871x;
++
++#define IS_LED_WPS_BLINKING(_LED_871x)	(((PLED_871x)_LED_871x)->CurrLedState==LED_BLINK_WPS \
++					|| ((PLED_871x)_LED_871x)->CurrLedState==LED_BLINK_WPS_STOP \
++					|| ((PLED_871x)_LED_871x)->bLedWPSBlinkInProgress)
++
++#define IS_LED_BLINKING(_LED_871x) 	(((PLED_871x)_LED_871x)->bLedWPSBlinkInProgress \
++					||((PLED_871x)_LED_871x)->bLedScanBlinkInProgress)
++
++typedef enum _LED_PIN_871x{
++	LED_PIN_GPIO0,
++	LED_PIN_LED0,
++	LED_PIN_LED1
++}LED_PIN_871x;
++
++typedef struct _LED_871x{
++	_adapter				*padapter;
++	LED_PIN_871x		LedPin;	// Identify how to implement this SW led.
++	LED_STATE_871x		CurrLedState; // Current LED state.
++	u8					bLedOn; // true if LED is ON, false if LED is OFF.
++
++	u8					bSWLedCtrl;
++
++	u8					bLedBlinkInProgress; // true if it is blinking, false o.w..
++	// ALPHA, added by chiyoko, 20090106
++	u8					bLedNoLinkBlinkInProgress;
++	u8					bLedLinkBlinkInProgress;
++	u8					bLedStartToLinkBlinkInProgress;
++	u8					bLedScanBlinkInProgress;
++	u8					bLedWPSBlinkInProgress;
++	
++	u32					BlinkTimes; // Number of times to toggle led state for blinking.
++	LED_STATE_871x		BlinkingLedState; // Next state for blinking, either RTW_LED_ON or RTW_LED_OFF are.
++
++	_timer				BlinkTimer; // Timer object for led blinking.
++#if LINUX_VERSION_CODE > KERNEL_VERSION(2,5,0)|| defined PLATFORM_FREEBSD
++	_workitem			BlinkWorkItem; // Workitem used by BlinkTimer to manipulate H/W to blink LED.
++#endif
++} LED_871x, *PLED_871x;
++
++
++//================================================================================
++// LED customization.
++//================================================================================
++
++typedef	enum _LED_STRATEGY_871x{
++	SW_LED_MODE0, // SW control 1 LED via GPIO0. It is default option.
++	SW_LED_MODE1, // 2 LEDs, through LED0 and LED1. For ALPHA.
++	SW_LED_MODE2, // SW control 1 LED via GPIO0, customized for AzWave 8187 minicard.
++	SW_LED_MODE3, // SW control 1 LED via GPIO0, customized for Sercomm Printer Server case.
++	SW_LED_MODE4, //for Edimax / Belkin
++	SW_LED_MODE5, //for Sercomm / Belkin
++	SW_LED_MODE6, //for 88CU minicard, porting from ce SW_LED_MODE7
++	HW_LED, // HW control 2 LEDs, LED0 and LED1 (there are 4 different control modes, see MAC.CONFIG1 for details.)
++}LED_STRATEGY_871x, *PLED_STRATEGY_871x;
++#endif //CONFIG_USB_HCI
++
++#ifdef CONFIG_PCI_HCI
++//================================================================================
++// LED object.
++//================================================================================
++
++typedef	enum _LED_STATE_871x{
++	LED_UNKNOWN = 0,
++	RTW_LED_ON = 1,
++	RTW_LED_OFF = 2,
++	LED_BLINK_NORMAL = 3,
++	LED_BLINK_SLOWLY = 4,
++	LED_POWER_ON_BLINK = 5,
++	LED_SCAN_BLINK = 6, // LED is blinking during scanning period, the # of times to blink is depend on time for scanning.
++	LED_NO_LINK_BLINK = 7, // LED is blinking during no link state.
++	LED_BLINK_StartToBlink = 8, 
++	LED_BLINK_TXRX = 9,
++	LED_BLINK_RUNTOP = 10, // Customized for RunTop
++	LED_BLINK_CAMEO = 11,
++}LED_STATE_871x;
++
++typedef enum _LED_PIN_871x{
++	LED_PIN_GPIO0,
++	LED_PIN_LED0,
++	LED_PIN_LED1,
++	LED_PIN_LED2
++}LED_PIN_871x;
++
++typedef struct _LED_871x{
++	_adapter				*padapter;
++
++	LED_PIN_871x		LedPin;	// Identify how to implement this SW led.
++
++	LED_STATE_871x		CurrLedState; // Current LED state.
++	u8					bLedOn; // TRUE if LED is ON, FALSE if LED is OFF.
++
++	u8					bLedBlinkInProgress; // TRUE if it is blinking, FALSE o.w..
++	u8					bLedWPSBlinkInProgress; // TRUE if it is blinking, FALSE o.w..
++
++	u8					bLedSlowBlinkInProgress;//added by vivi, for led new mode
++	u32					BlinkTimes; // Number of times to toggle led state for blinking.
++	LED_STATE_871x		BlinkingLedState; // Next state for blinking, either RTW_LED_ON or RTW_LED_OFF are.
++
++	_timer				BlinkTimer; // Timer object for led blinking.
++	
++	u8					bLedLinkBlinkInProgress;
++	u8					bLedNoLinkBlinkInProgress;
++	u8 					bLedScanBlinkInProgress;
++} LED_871x, *PLED_871x;
++
++
++//================================================================================
++// LED customization.
++//================================================================================
++
++typedef	enum _LED_STRATEGY_871x{
++	SW_LED_MODE0, // SW control 1 LED via GPIO0. It is default option.
++	SW_LED_MODE1, // SW control for PCI Express
++	SW_LED_MODE2, // SW control for Cameo.
++	SW_LED_MODE3, // SW contorl for RunTop.
++	SW_LED_MODE4, // SW control for Netcore
++	SW_LED_MODE5, //added by vivi, for led new mode, DLINK
++	SW_LED_MODE6, //added by vivi, for led new mode, PRONET
++	SW_LED_MODE7, //added by chiyokolin, for Lenovo, PCI Express Minicard Spec Rev.1.2 spec
++	SW_LED_MODE8, //added by chiyokolin, for QMI
++	SW_LED_MODE9, //added by chiyokolin, for BITLAND, PCI Express Minicard Spec Rev.1.1 
++	SW_LED_MODE10, //added by chiyokolin, for Edimax-ASUS
++	HW_LED, // HW control 2 LEDs, LED0 and LED1 (there are 4 different control modes)
++}LED_STRATEGY_871x, *PLED_STRATEGY_871x;
++
++#define LED_CM8_BLINK_INTERVAL		500	//for QMI
++#endif //CONFIG_PCI_HCI
++
++struct led_priv{
++	/* add for led controll */
++	LED_871x			SwLed0;
++	LED_871x			SwLed1;
++	LED_STRATEGY_871x	LedStrategy;
++	u8					bRegUseLed;
++	void (*LedControlHandler)(_adapter *padapter, LED_CTL_MODE LedAction);
++	/* add for led controll */
++};
++
++#ifdef CONFIG_SW_LED
++#define rtw_led_control(adapter, LedAction) \
++	do { \
++		if((adapter)->ledpriv.LedControlHandler) \
++			(adapter)->ledpriv.LedControlHandler((adapter), (LedAction)); \
++	} while(0)
++#else //CONFIG_SW_LED
++#define rtw_led_control(adapter, LedAction)
++#endif //CONFIG_SW_LED
++
++extern void BlinkHandler(PLED_871x	 pLed);
++
++#endif //__RTW_LED_H_
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_mlme.h b/drivers/net/wireless/rtl8192cu/include/rtw_mlme.h
+new file mode 100755
+index 0000000..d9d6456
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_mlme.h
+@@ -0,0 +1,844 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_MLME_H_
++#define __RTW_MLME_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <mlme_osdep.h>
++#include <drv_types.h>
++#include <wlan_bssdef.h>
++
++#ifdef CONFIG_INTEL_WIDI
++#include <rtw_intel_widi.h>
++#endif
++
++#define	MAX_BSS_CNT	128
++//#define   MAX_JOIN_TIMEOUT	2000
++//#define   MAX_JOIN_TIMEOUT	2500
++#define   MAX_JOIN_TIMEOUT	6500
++
++//	Commented by Albert 20101105
++//	Increase the scanning timeout because of increasing the SURVEY_TO value.
++
++#define 	SCANNING_TIMEOUT 	8000
++
++#define	SCAN_INTERVAL	(30) // unit:2sec, 30*2=60sec
++
++#ifdef PALTFORM_OS_WINCE
++#define	SCANQUEUE_LIFETIME 12000000 // unit:us
++#else
++#define	SCANQUEUE_LIFETIME 20 // unit:sec
++#endif
++
++#define 	WIFI_NULL_STATE			0x00000000
++
++#define	WIFI_ASOC_STATE			0x00000001		// Under Linked state...
++#define 	WIFI_REASOC_STATE	       	0x00000002
++#define	WIFI_SLEEP_STATE			0x00000004
++#define	WIFI_STATION_STATE		0x00000008
++
++#define	WIFI_AP_STATE				0x00000010
++#define	WIFI_ADHOC_STATE			0x00000020
++#define   WIFI_ADHOC_MASTER_STATE 0x00000040
++#define   WIFI_UNDER_LINKING		0x00000080
++
++#define	WIFI_UNDER_WPS			0x00000100
++//#define	WIFI_UNDER_CMD			0x00000200
++//#define	WIFI_UNDER_P2P			0x00000400
++#define	WIFI_STA_ALIVE_CHK_STATE	0x00000400
++#define	WIFI_SITE_MONITOR			0x00000800		//to indicate the station is under site surveying
++
++#ifdef WDS
++#define	WIFI_WDS					0x00001000
++#define	WIFI_WDS_RX_BEACON		0x00002000		// already rx WDS AP beacon
++#endif
++#ifdef AUTO_CONFIG
++#define	WIFI_AUTOCONF				0x00004000
++#define	WIFI_AUTOCONF_IND		0x00008000
++#endif
++
++/*
++// ========== P2P Section Start ===============
++#define	WIFI_P2P_LISTEN_STATE		0x00010000
++#define	WIFI_P2P_GROUP_FORMATION_STATE		0x00020000
++// ========== P2P Section End ===============
++*/
++
++//#ifdef UNDER_MPTEST
++#define	WIFI_MP_STATE							0x00010000
++#define	WIFI_MP_CTX_BACKGROUND				0x00020000	// in continous tx background
++#define	WIFI_MP_CTX_ST						0x00040000	// in continous tx with single-tone
++#define	WIFI_MP_CTX_BACKGROUND_PENDING	0x00080000	// pending in continous tx background due to out of skb
++#define	WIFI_MP_CTX_CCK_HW					0x00100000	// in continous tx
++#define	WIFI_MP_CTX_CCK_CS					0x00200000	// in continous tx with carrier suppression
++#define   WIFI_MP_LPBK_STATE					0x00400000
++//#endif
++
++//#define _FW_UNDER_CMD		WIFI_UNDER_CMD
++#define _FW_UNDER_LINKING	WIFI_UNDER_LINKING
++#define _FW_LINKED			WIFI_ASOC_STATE
++#define _FW_UNDER_SURVEY	WIFI_SITE_MONITOR
++
++
++enum dot11AuthAlgrthmNum {
++ dot11AuthAlgrthm_Open = 0,
++ dot11AuthAlgrthm_Shared,
++ dot11AuthAlgrthm_8021X,
++ dot11AuthAlgrthm_Auto,
++ dot11AuthAlgrthm_MaxNum
++};
++
++// Scan type including active and passive scan.
++typedef enum _RT_SCAN_TYPE
++{
++	SCAN_PASSIVE,
++	SCAN_ACTIVE,
++	SCAN_MIX,
++}RT_SCAN_TYPE, *PRT_SCAN_TYPE;
++
++enum DriverInterface {
++	DRIVER_WEXT =  1,
++	DRIVER_CFG80211 = 2
++};
++
++enum  _BAND
++{
++	GHZ24_50 = 0,
++	GHZ_50,
++	GHZ_24,
++	GHZ_MAX,
++};
++
++#define rtw_band_valid(band) ((band) >= GHZ24_50 && (band) < GHZ_MAX)
++
++enum SCAN_RESULT_TYPE
++{
++	SCAN_RESULT_P2P_ONLY = 0,		//	Will return all the P2P devices.
++	SCAN_RESULT_ALL = 1,			//	Will return all the scanned device, include AP.
++	SCAN_RESULT_WFD_TYPE = 2		//	Will just return the correct WFD device.
++									//	If this device is Miracast sink device, it will just return all the Miracast source devices.
++};
++
++/*
++
++there are several "locks" in mlme_priv,
++since mlme_priv is a shared resource between many threads,
++like ISR/Call-Back functions, the OID handlers, and even timer functions.
++
++
++Each _queue has its own locks, already.
++Other items are protected by mlme_priv.lock.
++
++To avoid possible dead lock, any thread trying to modifiying mlme_priv
++SHALL not lock up more than one locks at a time!
++
++*/
++
++
++#define traffic_threshold	10
++#define	traffic_scan_period	500
++
++struct sitesurvey_ctrl {
++	u64	last_tx_pkts;
++	uint	last_rx_pkts;
++	sint	traffic_busy;
++	_timer	sitesurvey_ctrl_timer;
++};
++
++typedef struct _RT_LINK_DETECT_T{
++	u32				NumTxOkInPeriod;
++	u32				NumRxOkInPeriod;
++	u32				NumRxUnicastOkInPeriod;
++	BOOLEAN			bBusyTraffic;
++	BOOLEAN			bTxBusyTraffic;
++	BOOLEAN			bRxBusyTraffic;
++	BOOLEAN			bHigherBusyTraffic; // For interrupt migration purpose.
++	BOOLEAN			bHigherBusyRxTraffic; // We may disable Tx interrupt according as Rx traffic.
++	BOOLEAN			bHigherBusyTxTraffic; // We may disable Tx interrupt according as Tx traffic.
++}RT_LINK_DETECT_T, *PRT_LINK_DETECT_T;
++
++struct profile_info {
++	u8	ssidlen;
++	u8	ssid[ WLAN_SSID_MAXLEN ];
++	u8	peermac[ ETH_ALEN ];
++};
++
++struct tx_invite_req_info{
++	u8					token;
++	u8					benable;
++	u8					go_ssid[ WLAN_SSID_MAXLEN ];
++	u8					ssidlen;
++	u8					go_bssid[ ETH_ALEN ];
++	u8					peer_macaddr[ ETH_ALEN ];
++	u8					operating_ch;	//	This information will be set by using the p2p_set op_ch=x
++	u8					peer_ch;		//	The listen channel for peer P2P device
++
++};
++
++struct tx_invite_resp_info{
++	u8					token;	//	Used to record the dialog token of p2p invitation request frame.
++};
++
++#ifdef CONFIG_WFD
++
++struct wifi_display_info{
++	u16							wfd_enable;			//	Eanble/Disable the WFD function.
++	u16							rtsp_ctrlport;		//	TCP port number at which the this WFD device listens for RTSP messages
++	u16							peer_rtsp_ctrlport;	//	TCP port number at which the peer WFD device listens for RTSP messages
++													//	This filed should be filled when receiving the gropu negotiation request
++
++	u8							peer_session_avail;	//	WFD session is available or not for the peer wfd device.
++													//	This variable will be set when sending the provisioning discovery request to peer WFD device.
++													//	And this variable will be reset when it is read by using the iwpriv p2p_get wfd_sa command.
++
++	u8							ip_address[4];
++	u8							peer_ip_address[4];
++	u8							wfd_pc;				//	WFD preferred connection
++													//	0 -> Prefer to use the P2P for WFD connection on peer side.
++													//	1 -> Prefer to use the TDLS for WFD connection on peer side.
++											
++	u8							wfd_device_type;	//	WFD Device Type
++													//	0 -> WFD Source Device
++													//	1 -> WFD Primary Sink Device
++	enum	SCAN_RESULT_TYPE	scan_result_type;	//	Used when P2P is enable. This parameter will impact the scan result.
++};
++#endif //CONFIG_WFD
++
++struct tx_provdisc_req_info{
++	u16					wps_config_method_request;	//	Used when sending the provisioning request frame
++	u16					peer_channel_num[2];		//	The channel number which the receiver stands.
++	NDIS_802_11_SSID	ssid;
++	u8					peerDevAddr[ ETH_ALEN ];		//	Peer device address
++	u8					peerIFAddr[ ETH_ALEN ];		//	Peer interface address
++	u8					benable;					//	This provision discovery request frame is trigger to send or not
++};
++
++struct rx_provdisc_req_info{	//When peer device issue prov_disc_req first, we should store the following informations
++	u8					peerDevAddr[ ETH_ALEN ];		//	Peer device address
++	u8					strconfig_method_desc_of_prov_disc_req[4];	//	description for the config method located in the provisioning discovery request frame.	
++																	//	The UI must know this information to know which config method the remote p2p device is requiring.
++};
++
++struct tx_nego_req_info{
++	u16					peer_channel_num[2];		//	The channel number which the receiver stands.
++	u8					peerDevAddr[ ETH_ALEN ];		//	Peer device address
++	u8					benable;					//	This negoitation request frame is trigger to send or not
++};
++
++struct group_id_info{
++	u8					go_device_addr[ ETH_ALEN ];	//	The GO's device address of this P2P group
++	u8					ssid[ WLAN_SSID_MAXLEN ];	//	The SSID of this P2P group
++};
++
++struct scan_limit_info{
++	u8					scan_op_ch_only;			//	When this flag is set, the driver should just scan the operation channel
++#ifndef P2P_OP_CHECK_SOCIAL_CH
++	u8					operation_ch[2];				//	Store the operation channel of invitation request frame
++#else
++	u8					operation_ch[5];				//	Store additional channel 1,6,11  for Android 4.2 IOT & Nexus 4
++#endif //P2P_OP_CHECK_SOCIAL_CH
++};
++
++#ifdef CONFIG_IOCTL_CFG80211
++struct cfg80211_wifidirect_info{
++	_timer					remain_on_ch_timer;
++	u8						restore_channel;
++	struct ieee80211_channel	remain_on_ch_channel;
++	enum nl80211_channel_type	remain_on_ch_type;
++	u64						remain_on_ch_cookie;
++	bool is_ro_ch;
++};
++#endif //CONFIG_IOCTL_CFG80211
++
++struct wifidirect_info{
++	_adapter*				padapter;
++	_timer					find_phase_timer;
++	_timer					restore_p2p_state_timer;
++	
++	//	Used to do the scanning. After confirming the peer is availalble, the driver transmits the P2P frame to peer.
++	_timer					pre_tx_scan_timer;
++	_timer					reset_ch_sitesurvey;
++	_timer					reset_ch_sitesurvey2;	//	Just for resetting the scan limit function by using p2p nego
++#ifdef CONFIG_CONCURRENT_MODE
++	//	Used to switch the channel between legacy AP and listen state.
++	_timer					ap_p2p_switch_timer;
++#endif
++	struct tx_provdisc_req_info	tx_prov_disc_info;
++	struct rx_provdisc_req_info rx_prov_disc_info;
++	struct tx_invite_req_info	invitereq_info;
++	struct profile_info			profileinfo[ P2P_MAX_PERSISTENT_GROUP_NUM ];	//	Store the profile information of persistent group
++	struct tx_invite_resp_info	inviteresp_info;
++	struct tx_nego_req_info	nego_req_info;
++	struct group_id_info		groupid_info;	//	Store the group id information when doing the group negotiation handshake.
++	struct scan_limit_info		rx_invitereq_info;	//	Used for get the limit scan channel from the Invitation procedure
++	struct scan_limit_info		p2p_info;		//	Used for get the limit scan channel from the P2P negotiation handshake
++#ifdef CONFIG_WFD
++	struct wifi_display_info		*wfd_info;
++#endif	
++	enum P2P_ROLE			role;
++	enum P2P_STATE			pre_p2p_state;
++	enum P2P_STATE			p2p_state;
++	u8 						device_addr[ETH_ALEN];	//	The device address should be the mac address of this device.
++	u8						interface_addr[ETH_ALEN];
++	u8						social_chan[4];
++	u8						listen_channel;
++	u8						operating_channel;
++	u8						listen_dwell;		//	This value should be between 1 and 3
++	u8						support_rate[8];
++	u8						p2p_wildcard_ssid[P2P_WILDCARD_SSID_LEN];
++	u8						intent;		//	should only include the intent value.
++	u8						p2p_peer_interface_addr[ ETH_ALEN ];
++	u8						p2p_peer_device_addr[ ETH_ALEN ];
++	u8						peer_intent;	//	Included the intent value and tie breaker value.
++	u8						device_name[ WPS_MAX_DEVICE_NAME_LEN ];	//	Device name for displaying on searching device screen
++	u8						device_name_len;
++	u8						profileindex;	//	Used to point to the index of profileinfo array
++	u8						peer_operating_ch;
++	u8						find_phase_state_exchange_cnt;
++	u16						device_password_id_for_nego;	//	The device password ID for group negotation
++	u8						negotiation_dialog_token;
++	u8						nego_ssid[ WLAN_SSID_MAXLEN ];	//	SSID information for group negotitation
++	u8						nego_ssidlen;
++	u8 						p2p_group_ssid[WLAN_SSID_MAXLEN];
++	u8 						p2p_group_ssid_len;
++	u8						persistent_supported;		//	Flag to know the persistent function should be supported or not.
++														//	In the Sigma test, the Sigma will provide this enable from the sta_set_p2p CAPI.
++														//	0: disable
++														//	1: enable
++	u8						session_available;			//	Flag to set the WFD session available to enable or disable "by Sigma"
++														//	In the Sigma test, the Sigma will disable the session available by using the sta_preset CAPI.
++														//	0: disable
++														//	1: enable
++	u8						wfd_tdls_enable;			//	Flag to enable or disable the TDLS by WFD Sigma
++														//	0: disable
++														//	1: enable
++	u8						wfd_tdls_weaksec;			//	Flag to enable or disable the weak security function for TDLS by WFD Sigma
++														//	0: disable
++														//	In this case, the driver can't issue the tdsl setup request frame.
++														//	1: enable
++														//	In this case, the driver can issue the tdls setup request frame
++														//	even the current security is weak security.
++
++	enum	P2P_WPSINFO		ui_got_wps_info;			//	This field will store the WPS value (PIN value or PBC) that UI had got from the user.
++	u16						supported_wps_cm;			//	This field describes the WPS config method which this driver supported.
++														//	The value should be the combination of config method defined in page104 of WPS v2.0 spec.	
++	u8						external_uuid;				//  UUID flag
++	u8						uuid[16];					//  UUID
++	uint						channel_list_attr_len;		//	This field will contain the length of body of P2P Channel List attribute of group negotitation response frame.
++	u8						channel_list_attr[100];		//	This field will contain the body of P2P Channel List attribute of group negotitation response frame.
++														//	We will use the channel_cnt and channel_list fields when constructing the group negotitation confirm frame.
++	u8						driver_interface; 			// Indicate DRIVER_WEXT or DRIVER_CFG80211
++
++#ifdef CONFIG_CONCURRENT_MODE
++	u16						ext_listen_interval;	//	The interval to be available with legacy AP (ms)
++	u16						ext_listen_period;	//	The time period to be available for P2P listen state (ms)
++#endif
++#ifdef CONFIG_P2P_PS
++	enum P2P_PS_MODE		p2p_ps_mode; // indicate p2p ps mode
++	enum P2P_PS_STATE		p2p_ps_state; // indicate p2p ps state
++	u8						noa_index; // Identifies and instance of Notice of Absence timing.
++	u8						ctwindow; // Client traffic window. A period of time in TU after TBTT.
++	u8						opp_ps; // opportunistic power save.
++	u8						noa_num; // number of NoA descriptor in P2P IE.
++	u8						noa_count[P2P_MAX_NOA_NUM]; // Count for owner, Type of client.
++	u32						noa_duration[P2P_MAX_NOA_NUM]; // Max duration for owner, preferred or min acceptable duration for client.
++	u32						noa_interval[P2P_MAX_NOA_NUM]; // Length of interval for owner, preferred or max acceptable interval of client.
++	u32						noa_start_time[P2P_MAX_NOA_NUM]; // schedule expressed in terms of the lower 4 bytes of the TSF timer.
++#endif // CONFIG_P2P_PS
++};
++
++struct tdls_ss_record{	//signal strength record; recording the tdls sta with lowerest ss
++	u8		macaddr[ETH_ALEN];
++	u8		RxPWDBAll;
++	u8		is_tdls_sta;	// _TRUE: direct link sta, _FALSE: else
++};
++
++struct tdls_info{
++	u8					ap_prohibited;
++	uint					setup_state;
++	u8					sta_cnt;
++	u8					sta_maximum;	// 1:tdls sta is equal (NUM_STA-1), reach max direct link number; 0: else;
++	struct tdls_ss_record	ss_record;
++	u8					macid_index;	//macid entry that is ready to write
++	u8					clear_cam;	//cam entry that is trying to clear, using it in direct link teardown
++	u8					ch_sensing;
++	u8					cur_channel;
++	u8					candidate_ch;
++	u8					collect_pkt_num[MAX_CHANNEL_NUM];
++	_lock				cmd_lock;
++	_lock				hdl_lock;
++	u8					watchdog_count;
++	u8					dev_discovered;		//WFD_TDLS: for sigma test
++	u8					enable;
++#ifdef CONFIG_WFD
++	struct wifi_display_info		*wfd_info;
++#endif		
++};
++
++struct mlme_priv {
++
++	_lock	lock;
++	sint	fw_state;	//shall we protect this variable? maybe not necessarily...
++
++	u8	to_join; //flag
++	#ifdef CONFIG_LAYER2_ROAMING
++	u8 to_roaming; // roaming trying times
++	#endif
++
++	u8	*nic_hdl;
++
++	u8	not_indic_disco;
++	_list		*pscanned;
++	_queue	free_bss_pool;
++	_queue	scanned_queue;
++	u8		*free_bss_buf;
++	u32	num_of_scanned;
++
++	NDIS_802_11_SSID	assoc_ssid;
++	u8	assoc_bssid[6];
++
++	struct wlan_network	cur_network;
++
++	//uint wireless_mode; no used, remove it
++
++	u32	scan_interval;
++
++	_timer assoc_timer;
++
++	uint assoc_by_bssid;
++	uint assoc_by_rssi;
++
++	_timer scan_to_timer; // driver itself handles scan_timeout status.
++	u32 scan_start_time; // used to evaluate the time spent in scanning
++
++	#ifdef CONFIG_SET_SCAN_DENY_TIMER
++	_timer set_scan_deny_timer;
++	ATOMIC_T set_scan_deny; //0: allowed, 1: deny
++	#endif
++
++	struct qos_priv qospriv;
++
++#ifdef CONFIG_80211N_HT
++
++	/* Number of non-HT AP/stations */
++	int num_sta_no_ht;
++
++	/* Number of HT AP/stations 20 MHz */
++	//int num_sta_ht_20mhz; 
++
++
++	int num_FortyMHzIntolerant;
++
++	struct ht_priv	htpriv;
++
++#endif
++
++	RT_LINK_DETECT_T	LinkDetectInfo;
++	_timer	dynamic_chk_timer; //dynamic/periodic check timer
++
++	u8	acm_mask; // for wmm acm mask
++	u8	ChannelPlan;
++	RT_SCAN_TYPE 	scan_mode; // active: 1, passive: 0
++
++	//u8 probereq_wpsie[MAX_WPS_IE_LEN];//added in probe req	
++	//int probereq_wpsie_len;
++	u8 *wps_probe_req_ie;
++	u32 wps_probe_req_ie_len;
++
++#if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	/* Number of associated Non-ERP stations (i.e., stations using 802.11b
++	 * in 802.11g BSS) */
++	int num_sta_non_erp;
++
++	/* Number of associated stations that do not support Short Slot Time */
++	int num_sta_no_short_slot_time;
++
++	/* Number of associated stations that do not support Short Preamble */
++	int num_sta_no_short_preamble;
++
++	int olbc; /* Overlapping Legacy BSS Condition */
++
++	/* Number of HT associated stations that do not support greenfield */
++	int num_sta_ht_no_gf;
++
++	/* Number of associated non-HT stations */
++	//int num_sta_no_ht;
++
++	/* Number of HT associated stations 20 MHz */
++	int num_sta_ht_20mhz;
++
++	/* Overlapping BSS information */
++	int olbc_ht;
++	
++#ifdef CONFIG_80211N_HT
++	u16 ht_op_mode;
++#endif /* CONFIG_80211N_HT */	
++
++	u8 *assoc_req;
++	u32 assoc_req_len;
++	u8 *assoc_rsp;
++	u32 assoc_rsp_len;
++
++	u8 *wps_beacon_ie;	
++	//u8 *wps_probe_req_ie;
++	u8 *wps_probe_resp_ie;
++	u8 *wps_assoc_resp_ie; // for CONFIG_IOCTL_CFG80211, this IE could include p2p ie / wfd ie
++
++	u32 wps_beacon_ie_len;
++	//u32 wps_probe_req_ie_len;
++	u32 wps_probe_resp_ie_len;
++	u32 wps_assoc_resp_ie_len; // for CONFIG_IOCTL_CFG80211, this IE len could include p2p ie / wfd ie
++	
++	u8 *p2p_beacon_ie;
++	u8 *p2p_probe_req_ie;
++	u8 *p2p_probe_resp_ie;	
++	u8 *p2p_go_probe_resp_ie; //for GO	
++	u8 *p2p_assoc_req_ie;
++
++	u32 p2p_beacon_ie_len;
++	u32 p2p_probe_req_ie_len;
++	u32 p2p_probe_resp_ie_len;
++	u32 p2p_go_probe_resp_ie_len; //for GO
++	u32 p2p_assoc_req_ie_len;
++/*
++#if defined(CONFIG_P2P) && defined(CONFIG_IOCTL_CFG80211)
++	//u8 *wps_p2p_beacon_ie;
++	u8 *p2p_beacon_ie;
++	u8 *wps_p2p_probe_resp_ie;
++	u8 *wps_p2p_assoc_resp_ie;
++	//u32 wps_p2p_beacon_ie_len;
++	u32 p2p_beacon_ie_len;
++	u32 wps_p2p_probe_resp_ie_len;
++	u32 wps_p2p_assoc_resp_ie_len;
++#endif
++*/
++	
++	_lock	bcn_update_lock;
++	u8		update_bcn;
++	
++	
++#endif //#if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++
++#if defined(CONFIG_WFD) && defined(CONFIG_IOCTL_CFG80211)
++	
++	u8 *wfd_beacon_ie;
++	u8 *wfd_probe_req_ie;
++	u8 *wfd_probe_resp_ie;	
++	u8 *wfd_go_probe_resp_ie; //for GO	
++	u8 *wfd_assoc_req_ie;
++
++	u32 wfd_beacon_ie_len;
++	u32 wfd_probe_req_ie_len;
++	u32 wfd_probe_resp_ie_len;
++	u32 wfd_go_probe_resp_ie_len; //for GO
++	u32 wfd_assoc_req_ie_len;
++
++#endif
++
++#ifdef RTK_DMP_PLATFORM
++	// DMP kobject_hotplug function  signal need in passive level
++	_workitem	Linkup_workitem;
++	_workitem	Linkdown_workitem;
++#endif
++
++#ifdef CONFIG_INTEL_WIDI
++	int	widi_state;
++	int	listen_state;
++	_timer	listen_timer;
++	ATOMIC_T	rx_probe_rsp; // 1:receive probe respone from RDS source.
++	u8	*l2sdTaBuffer;
++	u8	channel_idx;
++	s8	group_cnt;	//For WiDi 3.5, they specified another scan algo. for WFD/RDS co-existed
++	u8	sa_ext[L2SDTA_SERVICE_VE_LEN];
++
++	u8	widi_enable;
++	/**
++	 * For WiDi 4; upper layer would set
++	 * p2p_primary_device_type_category_id
++	 * p2p_primary_device_type_sub_category_id
++	 * p2p_secondary_device_type_category_id
++	 * p2p_secondary_device_type_sub_category_id
++	 */
++	u16	p2p_pdt_cid;
++	u16	p2p_pdt_scid;
++	u8	num_p2p_sdt;
++	u16	p2p_sdt_cid[MAX_NUM_P2P_SDT];
++	u16	p2p_sdt_scid[MAX_NUM_P2P_SDT];
++	u8	p2p_reject_disable;	//When starting NL80211 wpa_supplicant/hostapd, it will call netdev_close
++							//such that it will cause p2p disabled. Use this flag to reject.
++#endif // CONFIG_INTEL_WIDI
++
++#ifdef CONFIG_CONCURRENT_MODE
++	u8	scanning_via_buddy_intf;
++#endif
++};
++
++#ifdef CONFIG_AP_MODE
++
++struct hostapd_priv
++{
++	_adapter *padapter;
++
++#ifdef CONFIG_HOSTAPD_MLME
++	struct net_device *pmgnt_netdev;
++	struct usb_anchor anchored;
++#endif	
++	
++};
++
++extern int hostapd_mode_init(_adapter *padapter);
++extern void hostapd_mode_unload(_adapter *padapter);
++#endif
++
++
++extern void rtw_joinbss_event_prehandle(_adapter *adapter, u8 *pbuf);
++extern void rtw_survey_event_callback(_adapter *adapter, u8 *pbuf);
++extern void rtw_surveydone_event_callback(_adapter *adapter, u8 *pbuf);
++extern void rtw_joinbss_event_callback(_adapter *adapter, u8 *pbuf);
++extern void rtw_stassoc_event_callback(_adapter *adapter, u8 *pbuf);
++extern void rtw_stadel_event_callback(_adapter *adapter, u8 *pbuf);
++extern void rtw_atimdone_event_callback(_adapter *adapter, u8 *pbuf);
++extern void rtw_cpwm_event_callback(_adapter *adapter, u8 *pbuf);
++
++#ifdef PLATFORM_WINDOWS
++extern thread_return event_thread(void *context);
++
++extern void rtw_join_timeout_handler (
++	IN	PVOID					SystemSpecific1,
++	IN	PVOID					FunctionContext,
++	IN	PVOID					SystemSpecific2,
++	IN	PVOID					SystemSpecific3
++	);
++
++extern void _rtw_scan_timeout_handler (
++	IN	PVOID					SystemSpecific1,
++	IN	PVOID					FunctionContext,
++	IN	PVOID					SystemSpecific2,
++	IN	PVOID					SystemSpecific3
++	);
++
++#endif
++
++#if defined (PLATFORM_LINUX)|| defined (PLATFORM_FREEBSD)
++extern int event_thread(void *context);
++extern void rtw_join_timeout_handler(void* FunctionContext);
++extern void _rtw_scan_timeout_handler(void* FunctionContext);
++#endif
++
++extern void rtw_free_network_queue(_adapter *adapter,u8 isfreeall);
++extern int rtw_init_mlme_priv(_adapter *adapter);// (struct mlme_priv *pmlmepriv);
++
++extern void rtw_free_mlme_priv (struct mlme_priv *pmlmepriv);
++
++
++extern sint rtw_select_and_join_from_scanned_queue(struct mlme_priv *pmlmepriv);
++extern sint rtw_set_key(_adapter *adapter,struct security_priv *psecuritypriv,sint keyid, u8 set_tx);
++extern sint rtw_set_auth(_adapter *adapter,struct security_priv *psecuritypriv);
++
++__inline static u8 *get_bssid(struct mlme_priv *pmlmepriv)
++{	//if sta_mode:pmlmepriv->cur_network.network.MacAddress=> bssid
++	// if adhoc_mode:pmlmepriv->cur_network.network.MacAddress=> ibss mac address
++	return pmlmepriv->cur_network.network.MacAddress;
++}
++
++__inline static sint check_fwstate(struct mlme_priv *pmlmepriv, sint state)
++{
++	if (pmlmepriv->fw_state & state)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++__inline static sint get_fwstate(struct mlme_priv *pmlmepriv)
++{
++	return pmlmepriv->fw_state;
++}
++
++/*
++ * No Limit on the calling context,
++ * therefore set it to be the critical section...
++ *
++ * ### NOTE:#### (!!!!)
++ * MUST TAKE CARE THAT BEFORE CALLING THIS FUNC, YOU SHOULD HAVE LOCKED pmlmepriv->lock
++ */
++__inline static void set_fwstate(struct mlme_priv *pmlmepriv, sint state)
++{
++	pmlmepriv->fw_state |= state;
++}
++
++__inline static void _clr_fwstate_(struct mlme_priv *pmlmepriv, sint state)
++{
++	pmlmepriv->fw_state &= ~state;
++}
++
++/*
++ * No Limit on the calling context,
++ * therefore set it to be the critical section...
++ */
++__inline static void clr_fwstate(struct mlme_priv *pmlmepriv, sint state)
++{
++	_irqL irqL;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	if (check_fwstate(pmlmepriv, state) == _TRUE)
++		pmlmepriv->fw_state ^= state;
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++
++__inline static void clr_fwstate_ex(struct mlme_priv *pmlmepriv, sint state)
++{
++	_irqL irqL;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	_clr_fwstate_(pmlmepriv, state);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++
++__inline static void up_scanned_network(struct mlme_priv *pmlmepriv)
++{
++	_irqL irqL;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	pmlmepriv->num_of_scanned++;
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++
++#ifdef CONFIG_CONCURRENT_MODE
++sint rtw_buddy_adapter_up(_adapter *padapter);
++sint check_buddy_fwstate(_adapter *padapter, sint state);
++#endif //CONFIG_CONCURRENT_MODE
++
++__inline static void down_scanned_network(struct mlme_priv *pmlmepriv)
++{
++	_irqL irqL;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	pmlmepriv->num_of_scanned--;
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++
++__inline static void set_scanned_network_val(struct mlme_priv *pmlmepriv, sint val)
++{
++	_irqL irqL;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	pmlmepriv->num_of_scanned = val;
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++
++extern u16 rtw_get_capability(WLAN_BSSID_EX *bss);
++extern void rtw_update_scanned_network(_adapter *adapter, WLAN_BSSID_EX *target);
++extern void rtw_disconnect_hdl_under_linked(_adapter* adapter, struct sta_info *psta, u8 free_assoc);
++extern void rtw_generate_random_ibss(u8 *pibss);
++extern struct wlan_network* rtw_find_network(_queue *scanned_queue, u8 *addr);
++extern struct wlan_network* rtw_get_oldest_wlan_network(_queue *scanned_queue);
++
++extern void rtw_free_assoc_resources(_adapter* adapter, int lock_scanned_queue);
++extern void rtw_indicate_disconnect(_adapter* adapter);
++extern void rtw_indicate_connect(_adapter* adapter);
++void rtw_indicate_scan_done( _adapter *padapter, bool aborted);
++void rtw_scan_abort(_adapter *adapter);
++
++extern int rtw_restruct_sec_ie(_adapter *adapter,u8 *in_ie,u8 *out_ie,uint in_len);
++extern int rtw_restruct_wmm_ie(_adapter *adapter, u8 *in_ie, u8 *out_ie, uint in_len, uint initial_out_len);
++extern void rtw_init_registrypriv_dev_network(_adapter *adapter);
++
++extern void rtw_update_registrypriv_dev_network(_adapter *adapter);
++
++extern void rtw_get_encrypt_decrypt_from_registrypriv(_adapter *adapter);
++
++extern void _rtw_join_timeout_handler(_adapter *adapter);
++extern void rtw_scan_timeout_handler(_adapter *adapter);
++
++extern void rtw_dynamic_check_timer_handlder(_adapter *adapter);
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++bool rtw_is_scan_deny(_adapter *adapter);
++void rtw_clear_scan_deny(_adapter *adapter);
++void rtw_set_scan_deny_timer_hdl(_adapter *adapter);
++void rtw_set_scan_deny(_adapter *adapter, u32 ms);
++#else
++#define rtw_is_scan_deny(adapter) _FALSE
++#define rtw_clear_scan_deny(adapter) do {} while (0)
++#define rtw_set_scan_deny_timer_hdl(adapter) do {} while (0)
++#define rtw_set_scan_deny(adapter, ms) do {} while (0)
++#endif
++
++
++extern int _rtw_init_mlme_priv(_adapter *padapter);
++
++void rtw_free_mlme_priv_ie_data(struct mlme_priv *pmlmepriv);
++
++extern void _rtw_free_mlme_priv(struct mlme_priv *pmlmepriv);
++
++extern int _rtw_enqueue_network(_queue *queue, struct wlan_network *pnetwork);
++
++extern struct wlan_network* _rtw_dequeue_network(_queue *queue);
++
++extern struct wlan_network* _rtw_alloc_network(struct mlme_priv *pmlmepriv);
++
++
++extern void _rtw_free_network(struct mlme_priv *pmlmepriv, struct wlan_network *pnetwork, u8 isfreeall);
++extern void _rtw_free_network_nolock(struct mlme_priv *pmlmepriv, struct wlan_network *pnetwork);
++
++
++extern struct wlan_network* _rtw_find_network(_queue *scanned_queue, u8 *addr);
++
++extern void _rtw_free_network_queue(_adapter* padapter, u8 isfreeall);
++
++extern sint rtw_if_up(_adapter *padapter);
++
++
++u8 *rtw_get_capability_from_ie(u8 *ie);
++u8 *rtw_get_timestampe_from_ie(u8 *ie);
++u8 *rtw_get_beacon_interval_from_ie(u8 *ie);
++
++
++void rtw_joinbss_reset(_adapter *padapter);
++
++#ifdef CONFIG_80211N_HT
++unsigned int rtw_restructure_ht_ie(_adapter *padapter, u8 *in_ie, u8 *out_ie, uint in_len, uint *pout_len, u8 channel);
++void rtw_update_ht_cap(_adapter *padapter, u8 *pie, uint ie_len, u8 channel);
++void rtw_issue_addbareq_cmd(_adapter *padapter, struct xmit_frame *pxmitframe);
++#endif
++
++int rtw_is_same_ibss(_adapter *adapter, struct wlan_network *pnetwork);
++int is_same_network(WLAN_BSSID_EX *src, WLAN_BSSID_EX *dst);
++
++#ifdef CONFIG_LAYER2_ROAMING
++void _rtw_roaming(_adapter *adapter, struct wlan_network *tgt_network);
++void rtw_roaming(_adapter *adapter, struct wlan_network *tgt_network);
++void rtw_set_roaming(_adapter *adapter, u8 to_roaming);
++u8 rtw_to_roaming(_adapter *adapter);
++#else
++#define _rtw_roaming(adapter, tgt_network) do {} while(0)
++#define rtw_roaming(adapter, tgt_network) do {} while(0)
++#define rtw_set_roaming(adapter, to_roaming) do {} while(0)
++#define rtw_to_roaming(adapter) 0
++#endif
++
++
++#ifdef CONFIG_INTEL_PROXIM
++void rtw_proxim_enable(_adapter *padapter);
++void rtw_proxim_disable(_adapter *padapter);
++void rtw_proxim_send_packet(_adapter *padapter,u8 *pbuf,u16 len,u8 hw_rate);
++#endif //CONFIG_INTEL_PROXIM
++#endif //__RTL871X_MLME_H_
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_mlme_ext.h b/drivers/net/wireless/rtl8192cu/include/rtw_mlme_ext.h
+new file mode 100755
+index 0000000..5cddca4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_mlme_ext.h
+@@ -0,0 +1,963 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_MLME_EXT_H_
++#define __RTW_MLME_EXT_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <wlan_bssdef.h>
++
++
++//	Commented by Albert 20101105
++//	Increase the SURVEY_TO value from 100 to 150  ( 100ms to 150ms )
++//	The Realtek 8188CE SoftAP will spend around 100ms to send the probe response after receiving the probe request.
++//	So, this driver tried to extend the dwell time for each scanning channel.
++//	This will increase the chance to receive the probe response from SoftAP.
++
++#define SURVEY_TO		(100)
++#define REAUTH_TO		(300) //(50)
++#define REASSOC_TO		(300) //(50)
++//#define DISCONNECT_TO	(3000)
++#define ADDBA_TO			(2000)
++
++#define LINKED_TO (1) //unit:2 sec, 1x2=2 sec
++
++#define REAUTH_LIMIT	(4)
++#define REASSOC_LIMIT	(4)
++#define READDBA_LIMIT	(2)
++
++//#define	IOCMD_REG0		0x10250370		 	
++//#define	IOCMD_REG1		0x10250374
++//#define	IOCMD_REG2		0x10250378
++
++//#define	FW_DYNAMIC_FUN_SWITCH	0x10250364
++
++//#define	WRITE_BB_CMD		0xF0000001
++//#define	SET_CHANNEL_CMD	0xF3000000
++//#define	UPDATE_RA_CMD	0xFD0000A2
++
++#define	DYNAMIC_FUNC_DISABLE		(0x0)
++#define	DYNAMIC_FUNC_DIG			BIT(0)
++#define	DYNAMIC_FUNC_HP			BIT(1)
++#define	DYNAMIC_FUNC_SS			BIT(2) //Tx Power Tracking
++#define DYNAMIC_FUNC_BT			BIT(3)
++#define DYNAMIC_FUNC_ANT_DIV		BIT(4)
++#define DYNAMIC_FUNC_ADAPTIVITY	BIT(5)
++
++#define _HW_STATE_NOLINK_		0x00
++#define _HW_STATE_ADHOC_		0x01
++#define _HW_STATE_STATION_ 	0x02
++#define _HW_STATE_AP_			0x03
++
++
++#define		_1M_RATE_	0
++#define		_2M_RATE_	1
++#define		_5M_RATE_	2
++#define		_11M_RATE_	3
++#define		_6M_RATE_	4
++#define		_9M_RATE_	5
++#define		_12M_RATE_	6
++#define		_18M_RATE_	7
++#define		_24M_RATE_	8
++#define		_36M_RATE_	9
++#define		_48M_RATE_	10
++#define		_54M_RATE_	11
++
++
++extern unsigned char RTW_WPA_OUI[];
++extern unsigned char WMM_OUI[];
++extern unsigned char WPS_OUI[];
++extern unsigned char WFD_OUI[];
++extern unsigned char P2P_OUI[];
++
++extern unsigned char WMM_INFO_OUI[];
++extern unsigned char WMM_PARA_OUI[];
++
++
++//
++// Channel Plan Type.
++// Note: 
++//	We just add new channel plan when the new channel plan is different from any of the following 
++//	channel plan. 
++//	If you just wnat to customize the acitions(scan period or join actions) about one of the channel plan,
++//	customize them in RT_CHANNEL_INFO in the RT_CHANNEL_LIST.
++// 
++typedef enum _RT_CHANNEL_DOMAIN
++{
++	//===== old channel plan mapping =====//
++	RT_CHANNEL_DOMAIN_FCC = 0x00,
++	RT_CHANNEL_DOMAIN_IC = 0x01,
++	RT_CHANNEL_DOMAIN_ETSI = 0x02,
++	RT_CHANNEL_DOMAIN_SPAIN = 0x03,
++	RT_CHANNEL_DOMAIN_FRANCE = 0x04,
++	RT_CHANNEL_DOMAIN_MKK = 0x05,
++	RT_CHANNEL_DOMAIN_MKK1 = 0x06,
++	RT_CHANNEL_DOMAIN_ISRAEL = 0x07,
++	RT_CHANNEL_DOMAIN_TELEC = 0x08,
++	RT_CHANNEL_DOMAIN_GLOBAL_DOAMIN = 0x09,
++	RT_CHANNEL_DOMAIN_WORLD_WIDE_13 = 0x0A,
++	RT_CHANNEL_DOMAIN_TAIWAN = 0x0B,
++	RT_CHANNEL_DOMAIN_CHINA = 0x0C,
++	RT_CHANNEL_DOMAIN_SINGAPORE_INDIA_MEXICO = 0x0D,
++	RT_CHANNEL_DOMAIN_KOREA = 0x0E,
++	RT_CHANNEL_DOMAIN_TURKEY = 0x0F,
++	RT_CHANNEL_DOMAIN_JAPAN = 0x10,
++	RT_CHANNEL_DOMAIN_FCC_NO_DFS = 0x11,
++	RT_CHANNEL_DOMAIN_JAPAN_NO_DFS = 0x12,
++	RT_CHANNEL_DOMAIN_WORLD_WIDE_5G = 0x13,
++	RT_CHANNEL_DOMAIN_TAIWAN_NO_DFS = 0x14,	
++
++	//===== new channel plan mapping, (2GDOMAIN_5GDOMAIN) =====//
++	RT_CHANNEL_DOMAIN_WORLD_NULL = 0x20,
++	RT_CHANNEL_DOMAIN_ETSI1_NULL = 0x21,
++	RT_CHANNEL_DOMAIN_FCC1_NULL = 0x22,
++	RT_CHANNEL_DOMAIN_MKK1_NULL = 0x23,
++	RT_CHANNEL_DOMAIN_ETSI2_NULL = 0x24,
++	RT_CHANNEL_DOMAIN_FCC1_FCC1 = 0x25,
++	RT_CHANNEL_DOMAIN_WORLD_ETSI1 = 0x26,
++	RT_CHANNEL_DOMAIN_MKK1_MKK1 = 0x27,
++	RT_CHANNEL_DOMAIN_WORLD_KCC1 = 0x28,
++	RT_CHANNEL_DOMAIN_WORLD_FCC2 = 0x29,
++	RT_CHANNEL_DOMAIN_WORLD_FCC3 = 0x30,
++	RT_CHANNEL_DOMAIN_WORLD_FCC4 = 0x31,
++	RT_CHANNEL_DOMAIN_WORLD_FCC5 = 0x32,
++	RT_CHANNEL_DOMAIN_WORLD_FCC6 = 0x33,
++	RT_CHANNEL_DOMAIN_FCC1_FCC7 = 0x34,
++	RT_CHANNEL_DOMAIN_WORLD_ETSI2 = 0x35,
++	RT_CHANNEL_DOMAIN_WORLD_ETSI3 = 0x36,
++	RT_CHANNEL_DOMAIN_MKK1_MKK2 = 0x37,
++	RT_CHANNEL_DOMAIN_MKK1_MKK3 = 0x38,
++	RT_CHANNEL_DOMAIN_FCC1_NCC1 = 0x39,
++	RT_CHANNEL_DOMAIN_FCC1_NCC2 = 0x40,
++
++	//===== Add new channel plan above this line===============//
++	RT_CHANNEL_DOMAIN_MAX,
++	RT_CHANNEL_DOMAIN_REALTEK_DEFINE = 0x7F,
++}RT_CHANNEL_DOMAIN, *PRT_CHANNEL_DOMAIN;
++
++typedef enum _RT_CHANNEL_DOMAIN_2G
++{
++	RT_CHANNEL_DOMAIN_2G_WORLD = 0x00,		//Worldwird 13
++	RT_CHANNEL_DOMAIN_2G_ETSI1 = 0x01,		//Europe
++	RT_CHANNEL_DOMAIN_2G_FCC1 = 0x02,		//US
++	RT_CHANNEL_DOMAIN_2G_MKK1 = 0x03,		//Japan
++	RT_CHANNEL_DOMAIN_2G_ETSI2 = 0x04,		//France
++	RT_CHANNEL_DOMAIN_2G_NULL = 0x05,
++	//===== Add new channel plan above this line===============//
++	RT_CHANNEL_DOMAIN_2G_MAX,
++}RT_CHANNEL_DOMAIN_2G, *PRT_CHANNEL_DOMAIN_2G;
++
++typedef enum _RT_CHANNEL_DOMAIN_5G
++{
++	RT_CHANNEL_DOMAIN_5G_NULL = 0x00,
++	RT_CHANNEL_DOMAIN_5G_ETSI1 = 0x01,		//Europe
++	RT_CHANNEL_DOMAIN_5G_ETSI2 = 0x02,		//Australia, New Zealand
++	RT_CHANNEL_DOMAIN_5G_ETSI3 = 0x03,		//Russia
++	RT_CHANNEL_DOMAIN_5G_FCC1 = 0x04,		//US
++	RT_CHANNEL_DOMAIN_5G_FCC2 = 0x05,		//FCC o/w DFS Channels
++	RT_CHANNEL_DOMAIN_5G_FCC3 = 0x06,		//India, Mexico
++	RT_CHANNEL_DOMAIN_5G_FCC4 = 0x07,		//Venezuela
++	RT_CHANNEL_DOMAIN_5G_FCC5 = 0x08,		//China
++	RT_CHANNEL_DOMAIN_5G_FCC6 = 0x09,		//Israel
++	RT_CHANNEL_DOMAIN_5G_FCC7_IC1 = 0x0A,	//US, Canada
++	RT_CHANNEL_DOMAIN_5G_KCC1 = 0x0B,		//Korea
++	RT_CHANNEL_DOMAIN_5G_MKK1 = 0x0C,		//Japan
++	RT_CHANNEL_DOMAIN_5G_MKK2 = 0x0D,		//Japan (W52, W53)
++	RT_CHANNEL_DOMAIN_5G_MKK3 = 0x0E,		//Japan (W56)
++	RT_CHANNEL_DOMAIN_5G_NCC1 = 0x0F,		//Taiwan
++	RT_CHANNEL_DOMAIN_5G_NCC2 = 0x10,		//Taiwan o/w DFS
++	//===== Add new channel plan above this line===============//
++	//===== Driver Self Defined =====//
++	RT_CHANNEL_DOMAIN_5G_FCC = 0x11,
++	RT_CHANNEL_DOMAIN_5G_JAPAN_NO_DFS = 0x12,
++	RT_CHANNEL_DOMAIN_5G_FCC4_NO_DFS = 0x13,
++	RT_CHANNEL_DOMAIN_5G_MAX,
++}RT_CHANNEL_DOMAIN_5G, *PRT_CHANNEL_DOMAIN_5G;
++
++#define rtw_is_channel_plan_valid(chplan) (chplan<RT_CHANNEL_DOMAIN_MAX || chplan == RT_CHANNEL_DOMAIN_REALTEK_DEFINE)
++
++typedef struct _RT_CHANNEL_PLAN
++{
++	unsigned char	Channel[MAX_CHANNEL_NUM];
++	unsigned char	Len;
++}RT_CHANNEL_PLAN, *PRT_CHANNEL_PLAN;
++
++typedef struct _RT_CHANNEL_PLAN_2G
++{
++	unsigned char	Channel[MAX_CHANNEL_NUM_2G];
++	unsigned char	Len;
++}RT_CHANNEL_PLAN_2G, *PRT_CHANNEL_PLAN_2G;
++
++typedef struct _RT_CHANNEL_PLAN_5G
++{
++	unsigned char	Channel[MAX_CHANNEL_NUM_5G];
++	unsigned char	Len;
++}RT_CHANNEL_PLAN_5G, *PRT_CHANNEL_PLAN_5G;
++
++typedef struct _RT_CHANNEL_PLAN_MAP
++{
++	unsigned char	Index2G;
++	unsigned char	Index5G;
++}RT_CHANNEL_PLAN_MAP, *PRT_CHANNEL_PLAN_MAP;
++
++enum Associated_AP
++{
++	atherosAP	= 0,
++	broadcomAP	= 1,
++	ciscoAP		= 2,
++	marvellAP	= 3,
++	ralinkAP	= 4,
++	realtekAP	= 5,
++	airgocapAP 	= 6,
++	unknownAP	= 7,
++	maxAP,
++};
++
++enum SCAN_STATE
++{
++	SCAN_DISABLE = 0,
++	SCAN_START = 1,
++	SCAN_TXNULL = 2,
++	SCAN_PROCESS = 3,
++	SCAN_COMPLETE = 4,
++	SCAN_STATE_MAX,
++};
++
++struct mlme_handler {
++	unsigned int   num;
++	char* str;
++	unsigned int (*func)(_adapter *padapter, union recv_frame *precv_frame);
++};
++
++struct action_handler {
++	unsigned int   num;
++	char* str;
++	unsigned int (*func)(_adapter *padapter, union recv_frame *precv_frame);
++};
++
++struct	ss_res	
++{
++	int	state;
++	int	bss_cnt;
++	int	channel_idx;
++	int	scan_mode;
++	u8 ssid_num;
++	u8 ch_num;
++	NDIS_802_11_SSID ssid[RTW_SSID_SCAN_AMOUNT];
++	struct rtw_ieee80211_channel ch[RTW_CHANNEL_SCAN_AMOUNT];
++};
++
++//#define AP_MODE				0x0C
++//#define STATION_MODE	0x08
++//#define AD_HOC_MODE		0x04
++//#define NO_LINK_MODE	0x00
++
++#define 	WIFI_FW_NULL_STATE			_HW_STATE_NOLINK_
++#define	WIFI_FW_STATION_STATE		_HW_STATE_STATION_
++#define	WIFI_FW_AP_STATE				_HW_STATE_AP_
++#define	WIFI_FW_ADHOC_STATE			_HW_STATE_ADHOC_
++
++#define	WIFI_FW_AUTH_NULL			0x00000100
++#define	WIFI_FW_AUTH_STATE			0x00000200
++#define	WIFI_FW_AUTH_SUCCESS			0x00000400
++
++#define	WIFI_FW_ASSOC_STATE			0x00002000
++#define	WIFI_FW_ASSOC_SUCCESS		0x00004000
++
++#define	WIFI_FW_LINKING_STATE		(WIFI_FW_AUTH_NULL | WIFI_FW_AUTH_STATE | WIFI_FW_AUTH_SUCCESS |WIFI_FW_ASSOC_STATE)
++
++#ifdef CONFIG_TDLS
++// 1: Write RCR DATA BIT
++// 2: Issue peer traffic indication
++// 3: Go back to the channel linked with AP, terminating channel switch procedure
++// 4: Init channel sensing, receive all data and mgnt frame
++// 5: Channel sensing and report candidate channel
++// 6: First time set channel to off channel
++// 7: Go back tp the channel linked with AP when set base channel as target channel
++// 8: Set channel back to base channel
++// 9: Set channel back to off channel
++// 10: Restore RCR DATA BIT
++// 11: Check alive
++// 12: Check alive
++// 13: Free TDLS sta
++enum TDLS_option
++{
++	TDLS_WRCR			= 	1,
++	TDLS_SD_PTI		= 	2,
++	TDLS_CS_OFF		= 	3,
++	TDLS_INIT_CH_SEN	= 	4,
++	TDLS_DONE_CH_SEN	=	5,
++	TDLS_OFF_CH		=	6,
++	TDLS_BASE_CH 		=	7,
++	TDLS_P_OFF_CH		=	8,
++	TDLS_P_BASE_CH	= 	9,
++	TDLS_RS_RCR		=	10,
++	TDLS_CKALV_PH1	=	11,
++	TDLS_CKALV_PH2	=	12,
++	TDLS_FREE_STA		=	13,
++	maxTDLS,
++};
++
++#endif //CONFIG_TDLS
++
++struct FW_Sta_Info
++{
++	struct sta_info	*psta;
++	u32	status;
++	u32	rx_pkt;
++	u32	retry;
++	NDIS_802_11_RATES_EX  SupportedRates;
++};
++
++/*
++ * Usage:
++ * When one iface acted as AP mode and the other iface is STA mode and scanning, 
++ * it should switch back to AP's operating channel periodically.
++ * Parameters info:
++ * When the driver scanned RTW_SCAN_NUM_OF_CH channels, it would switch back to AP's operating channel for
++ * RTW_STAY_AP_CH_MILLISECOND * SURVEY_TO milliseconds.
++ * Example:
++ * For chip supports 2.4G + 5GHz and AP mode is operating in channel 1, 
++ * RTW_SCAN_NUM_OF_CH is 8, RTW_STAY_AP_CH_MILLISECOND is 3 and SURVEY_TO is 100.
++ * When it's STA mode gets set_scan command, 
++ * it would 
++ * 1. Doing the scan on channel 1.2.3.4.5.6.7.8 
++ * 2. Back to channel 1 for 300 milliseconds
++ * 3. Go through doing site survey on channel 9.10.11.36.40.44.48.52
++ * 4. Back to channel 1 for 300 milliseconds
++ * 5. ... and so on, till survey done.
++ */
++#if defined CONFIG_STA_MODE_SCAN_UNDER_AP_MODE && defined CONFIG_CONCURRENT_MODE
++#define RTW_SCAN_NUM_OF_CH			8
++#define RTW_STAY_AP_CH_MILLISECOND	3	// this value is a multiplier,for example, when this value is 3, it would stay AP's op ch for 
++											// 3 * SURVEY_TO millisecond. 
++#endif //defined CONFIG_STA_MODE_SCAN_UNDER_AP_MODE && defined CONFIG_CONCURRENT_MODE
++
++struct mlme_ext_info
++{
++	u32	state;
++	u32	reauth_count;
++	u32	reassoc_count;
++	u32	link_count;
++	u32	auth_seq;
++	u32	auth_algo;	// 802.11 auth, could be open, shared, auto
++	u32	authModeToggle;
++	u32	enc_algo;//encrypt algorithm;
++	u32	key_index;	// this is only valid for legendary wep, 0~3 for key id.
++	u32	iv;
++	u8	chg_txt[128];
++	u16	aid;
++	u16	bcn_interval;
++	u16	capability;
++	u8	assoc_AP_vendor;
++	u8	slotTime;
++	u8	preamble_mode;
++	u8	WMM_enable;
++	u8	ERP_enable;
++	u8	ERP_IE;
++	u8	HT_enable;
++	u8	HT_caps_enable;	
++	u8	HT_info_enable;
++	u8	HT_protection;
++	u8	turboMode_cts2self;
++	u8	turboMode_rtsen;
++	u8	SM_PS;
++	u8	agg_enable_bitmap;
++	u8	ADDBA_retry_count;
++	u8	candidate_tid_bitmap;
++	u8	dialogToken;
++	// Accept ADDBA Request
++	BOOLEAN bAcceptAddbaReq;
++	u8	bwmode_updated;
++	u8	hidden_ssid_mode;
++
++	struct ADDBA_request		ADDBA_req;
++	struct WMM_para_element	WMM_param;
++	struct HT_caps_element	HT_caps;
++	struct HT_info_element		HT_info;
++	WLAN_BSSID_EX			network;//join network or bss_network, if in ap mode, it is the same to cur_network.network
++	struct FW_Sta_Info		FW_sta_info[NUM_STA];
++
++#ifdef CONFIG_STA_MODE_SCAN_UNDER_AP_MODE
++	u8 scan_cnt;
++#endif //CONFIG_STA_MODE_SCAN_UNDER_AP_MODE
++};
++
++// The channel information about this channel including joining, scanning, and power constraints.
++typedef struct _RT_CHANNEL_INFO
++{
++	u8				ChannelNum;		// The channel number.
++	RT_SCAN_TYPE	ScanType;		// Scan type such as passive or active scan.
++	//u16				ScanPeriod;		// Listen time in millisecond in this channel.
++	//s32				MaxTxPwrDbm;	// Max allowed tx power.
++	//u32				ExInfo;			// Extended Information for this channel.
++#ifdef CONFIG_FIND_BEST_CHANNEL
++	u32				rx_count;
++#endif
++}RT_CHANNEL_INFO, *PRT_CHANNEL_INFO;
++
++int rtw_ch_set_search_ch(RT_CHANNEL_INFO *ch_set, const u32 ch);
++bool rtw_mlme_band_check(_adapter *adapter, const u32 ch);
++
++// P2P_MAX_REG_CLASSES - Maximum number of regulatory classes
++#define P2P_MAX_REG_CLASSES 10
++
++// P2P_MAX_REG_CLASS_CHANNELS - Maximum number of channels per regulatory class
++#define P2P_MAX_REG_CLASS_CHANNELS 20
++
++//  struct p2p_channels - List of supported channels
++struct p2p_channels {
++	// struct p2p_reg_class - Supported regulatory class
++	struct p2p_reg_class {
++		// reg_class - Regulatory class (IEEE 802.11-2007, Annex J)
++		u8 reg_class;
++
++		// channel - Supported channels
++		u8 channel[P2P_MAX_REG_CLASS_CHANNELS];
++
++		// channels - Number of channel entries in use
++		size_t channels;
++	} reg_class[P2P_MAX_REG_CLASSES];
++
++	// reg_classes - Number of reg_class entries in use
++	size_t reg_classes;
++};
++
++struct p2p_oper_class_map {
++	enum hw_mode {IEEE80211G,IEEE80211A} mode;
++	u8 op_class;
++	u8 min_chan;
++	u8 max_chan;
++	u8 inc;
++	enum { BW20, BW40PLUS, BW40MINUS } bw;
++};
++
++struct mlme_ext_priv
++{
++	_adapter	*padapter;
++	u8	mlmeext_init;
++	ATOMIC_T		event_seq;
++	u16	mgnt_seq;
++#ifdef CONFIG_IEEE80211W
++	u16	sa_query_seq;
++	u64 mgnt_80211w_IPN;
++	u64 mgnt_80211w_IPN_rx;
++#endif //CONFIG_IEEE80211W
++	//struct fw_priv 	fwpriv;
++	
++	unsigned char	cur_channel;
++	unsigned char	cur_bwmode;
++	unsigned char	cur_ch_offset;//PRIME_CHNL_OFFSET
++	unsigned char	cur_wireless_mode;	
++
++	unsigned char	max_chan_nums;
++	RT_CHANNEL_INFO		channel_set[MAX_CHANNEL_NUM];
++	struct p2p_channels channel_list;
++	unsigned char	basicrate[NumRates];
++	unsigned char	datarate[NumRates];
++	
++	struct ss_res		sitesurvey_res;		
++	struct mlme_ext_info	mlmext_info;//for sta/adhoc mode, including current scanning/connecting/connected related info.
++                                                     //for ap mode, network includes ap's cap_info
++	_timer		survey_timer;
++	_timer		link_timer;
++#ifdef CONFIG_IEEE80211W
++	_timer		sa_query_timer;
++#endif //CONFIG_IEEE80211W
++	//_timer		ADDBA_timer;
++	u16			chan_scan_time;
++
++	u8	scan_abort;
++	u8	tx_rate; // TXRATE when USERATE is set.
++
++	u32	retry; //retry for issue probereq
++	
++	u64 TSFValue;
++
++#ifdef CONFIG_AP_MODE	
++	unsigned char bstart_bss;
++#endif
++
++	//recv_decache check for Action_public frame
++        u8 action_public_dialog_token;
++	u16 	 action_public_rxseq;
++
++#ifdef CONFIG_80211D
++	u8 update_channel_plan_by_ap_done;
++#endif
++
++#ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++	u8 active_keep_alive_check;
++#endif
++	
++};
++
++int init_mlme_ext_priv(_adapter* padapter);
++int init_hw_mlme_ext(_adapter *padapter);
++void free_mlme_ext_priv (struct mlme_ext_priv *pmlmeext);
++extern void init_mlme_ext_timer(_adapter *padapter);
++extern void init_addba_retry_timer(_adapter *padapter, struct sta_info *psta);
++extern struct xmit_frame *alloc_mgtxmitframe(struct xmit_priv *pxmitpriv);
++struct xmit_frame *alloc_mgtxmitframe_once(struct xmit_priv *pxmitpriv);
++
++//void fill_fwpriv(_adapter * padapter, struct fw_priv *pfwpriv);
++
++unsigned char networktype_to_raid(unsigned char network_type);
++int judge_network_type(_adapter *padapter, unsigned char *rate, int ratelen);
++void get_rate_set(_adapter *padapter, unsigned char *pbssrate, int *bssrate_len);
++void UpdateBrateTbl(_adapter *padapter,u8 *mBratesOS);
++void UpdateBrateTblForSoftAP(u8 *bssrateset, u32 bssratelen);
++void change_band_update_ie(_adapter *padapter, WLAN_BSSID_EX *pnetwork);
++
++void Save_DM_Func_Flag(_adapter *padapter);
++void Restore_DM_Func_Flag(_adapter *padapter);
++void Switch_DM_Func(_adapter *padapter, u8 mode, u8 enable);
++
++//void Set_NETYPE1_MSR(_adapter *padapter, u8 type);
++//void Set_NETYPE0_MSR(_adapter *padapter, u8 type);
++void Set_MSR(_adapter *padapter, u8 type);
++
++u8 rtw_get_oper_ch(_adapter *adapter);
++void rtw_set_oper_ch(_adapter *adapter, u8 ch);
++u8 rtw_get_oper_bw(_adapter *adapter);
++void rtw_set_oper_bw(_adapter *adapter, u8 bw);
++u8 rtw_get_oper_choffset(_adapter *adapter);
++void rtw_set_oper_choffset(_adapter *adapter, u8 offset);
++u32 rtw_get_on_oper_ch_time(_adapter *adapter);
++u32 rtw_get_on_cur_ch_time(_adapter *adapter);
++
++void set_channel_bwmode(_adapter *padapter, unsigned char channel, unsigned char channel_offset, unsigned short bwmode);
++void SelectChannel(_adapter *padapter, unsigned char channel);
++void SetBWMode(_adapter *padapter, unsigned short bwmode, unsigned char channel_offset);
++
++unsigned int decide_wait_for_beacon_timeout(unsigned int bcn_interval);
++
++void write_cam(_adapter *padapter, u8 entry, u16 ctrl, u8 *mac, u8 *key);
++void clear_cam_entry(_adapter *padapter, u8 entry);
++
++void invalidate_cam_all(_adapter *padapter);
++void CAM_empty_entry(PADAPTER Adapter, u8 ucIndex);
++
++
++int allocate_fw_sta_entry(_adapter *padapter);
++void flush_all_cam_entry(_adapter *padapter);
++
++BOOLEAN IsLegal5GChannel(PADAPTER Adapter, u8 channel);
++
++void site_survey(_adapter *padapter);
++u8 collect_bss_info(_adapter *padapter, union recv_frame *precv_frame, WLAN_BSSID_EX *bssid);
++
++int get_bsstype(unsigned short capability);
++u8* get_my_bssid(WLAN_BSSID_EX *pnetwork);
++u16 get_beacon_interval(WLAN_BSSID_EX *bss);
++
++int is_client_associated_to_ap(_adapter *padapter);
++int is_client_associated_to_ibss(_adapter *padapter);
++int is_IBSS_empty(_adapter *padapter);
++
++unsigned char check_assoc_AP(u8 *pframe, uint len);
++
++int WMM_param_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs	pIE);
++#ifdef CONFIG_WFD
++int WFD_info_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs	pIE);
++#endif
++void WMMOnAssocRsp(_adapter *padapter);
++
++void HT_caps_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE);
++void HT_info_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE);
++void HTOnAssocRsp(_adapter *padapter);
++
++void ERP_IE_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE);
++void VCS_update(_adapter *padapter, struct sta_info *psta);
++
++void update_beacon_info(_adapter *padapter, u8 *pframe, uint len, struct sta_info *psta);
++#ifdef CONFIG_DFS
++void process_csa_ie(_adapter *padapter, u8 *pframe, uint len);
++#endif //CONFIG_DFS
++void update_IOT_info(_adapter *padapter);
++void update_capinfo(PADAPTER Adapter, u16 updateCap);
++void update_wireless_mode(_adapter * padapter);
++void update_tx_basic_rate(_adapter *padapter, u8 modulation);
++void update_bmc_sta_support_rate(_adapter *padapter, u32 mac_id);
++int update_sta_support_rate(_adapter *padapter, u8* pvar_ie, uint var_ie_len, int cam_idx);
++
++//for sta/adhoc mode
++void update_sta_info(_adapter *padapter, struct sta_info *psta);
++unsigned int update_basic_rate(unsigned char *ptn, unsigned int ptn_sz);
++unsigned int update_supported_rate(unsigned char *ptn, unsigned int ptn_sz);
++unsigned int update_MSC_rate(struct HT_caps_element *pHT_caps);
++void Update_RA_Entry(_adapter *padapter, u32 mac_id);
++void set_sta_rate(_adapter *padapter, struct sta_info *psta);
++
++unsigned int receive_disconnect(_adapter *padapter, unsigned char *MacAddr, unsigned short reason);
++
++unsigned char get_highest_rate_idx(u32 mask);
++int support_short_GI(_adapter *padapter, struct HT_caps_element *pHT_caps);
++unsigned int is_ap_in_tkip(_adapter *padapter);
++
++
++void report_join_res(_adapter *padapter, int res);
++void report_survey_event(_adapter *padapter, union recv_frame *precv_frame);
++void report_surveydone_event(_adapter *padapter);
++void report_del_sta_event(_adapter *padapter, unsigned char* MacAddr, unsigned short reason);
++void report_add_sta_event(_adapter *padapter, unsigned char* MacAddr, int cam_idx);
++
++void beacon_timing_control(_adapter *padapter);
++extern u8 set_tx_beacon_cmd(_adapter*padapter);
++unsigned int setup_beacon_frame(_adapter *padapter, unsigned char *beacon_frame);
++void update_mgnt_tx_rate(_adapter *padapter, u8 rate);
++void update_mgntframe_attrib(_adapter *padapter, struct pkt_attrib *pattrib);
++void dump_mgntframe(_adapter *padapter, struct xmit_frame *pmgntframe);
++s32 dump_mgntframe_and_wait(_adapter *padapter, struct xmit_frame *pmgntframe, int timeout_ms);
++s32 dump_mgntframe_and_wait_ack(_adapter *padapter, struct xmit_frame *pmgntframe);
++
++#ifdef CONFIG_P2P
++void issue_probersp_p2p(_adapter *padapter, unsigned char *da);
++void issue_p2p_provision_request( _adapter *padapter, u8* pssid, u8 ussidlen, u8* pdev_raddr);
++void issue_p2p_GO_request(_adapter *padapter, u8* raddr);
++void issue_probereq_p2p(_adapter *padapter, u8 *da);
++int issue_probereq_p2p_ex(_adapter *adapter, u8 *da, int try_cnt, int wait_ms);
++void issue_p2p_invitation_response(_adapter *padapter, u8* raddr, u8 dialogToken, u8 success);
++void issue_p2p_invitation_request(_adapter *padapter, u8* raddr );
++#endif //CONFIG_P2P
++void issue_beacon(_adapter *padapter);
++void issue_probersp(_adapter *padapter, unsigned char *da, u8 is_valid_p2p_probereq);
++void issue_assocreq(_adapter *padapter);
++void issue_asocrsp(_adapter *padapter, unsigned short status, struct sta_info *pstat, int pkt_type);
++void issue_auth(_adapter *padapter, struct sta_info *psta, unsigned short status);
++void issue_probereq(_adapter *padapter, NDIS_802_11_SSID *pssid, u8 *da);
++s32 issue_probereq_ex(_adapter *padapter, NDIS_802_11_SSID *pssid, u8* da, int try_cnt, int wait_ms);
++int issue_nulldata(_adapter *padapter, unsigned char *da, unsigned int power_mode, int try_cnt, int wait_ms);
++int issue_qos_nulldata(_adapter *padapter, unsigned char *da, u16 tid, int try_cnt, int wait_ms);
++int issue_deauth(_adapter *padapter, unsigned char *da, unsigned short reason);
++int issue_deauth_ex(_adapter *padapter, u8 *da, unsigned short reason, int try_cnt, int wait_ms);
++void issue_action_spct_ch_switch(_adapter *padapter, u8 *ra, u8 new_ch, u8 ch_offset);
++void issue_action_BA(_adapter *padapter, unsigned char *raddr, unsigned char action, unsigned short status);
++#ifdef CONFIG_IEEE80211W
++void issue_action_SA_Query(_adapter *padapter, unsigned char *raddr, unsigned char action, unsigned short tid);
++#endif //CONFIG_IEEE80211W
++unsigned int send_delba(_adapter *padapter, u8 initiator, u8 *addr);
++unsigned int send_beacon(_adapter *padapter);
++
++void start_clnt_assoc(_adapter *padapter);
++void start_clnt_auth(_adapter* padapter);
++void start_clnt_join(_adapter* padapter);
++void start_create_ibss(_adapter* padapter);
++
++unsigned int OnAssocReq(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAssocRsp(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnProbeReq(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnProbeRsp(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int DoReserved(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnBeacon(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAtim(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnDisassoc(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAuth(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAuthClient(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnDeAuth(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAction(_adapter *padapter, union recv_frame *precv_frame);
++
++unsigned int on_action_spct(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAction_qos(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAction_dls(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAction_back(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int on_action_public(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAction_ht(_adapter *padapter, union recv_frame *precv_frame);
++#ifdef CONFIG_IEEE80211W
++unsigned int OnAction_sa_query(_adapter *padapter, union recv_frame *precv_frame);
++#endif //CONFIG_IEEE80211W
++unsigned int OnAction_wmm(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAction_p2p(_adapter *padapter, union recv_frame *precv_frame);
++
++
++void mlmeext_joinbss_event_callback(_adapter *padapter, int join_res);
++void mlmeext_sta_del_event_callback(_adapter *padapter);
++void mlmeext_sta_add_event_callback(_adapter *padapter, struct sta_info *psta);
++
++void linked_status_chk(_adapter *padapter);
++
++void survey_timer_hdl (_adapter *padapter);
++void link_timer_hdl (_adapter *padapter);
++void addba_timer_hdl(struct sta_info *psta);
++#ifdef CONFIG_IEEE80211W
++void sa_query_timer_hdl(_adapter *padapter);
++#endif //CONFIG_IEEE80211W
++//void reauth_timer_hdl(_adapter *padapter);
++//void reassoc_timer_hdl(_adapter *padapter);
++
++#define set_survey_timer(mlmeext, ms) \
++	do { \
++		/*DBG_871X("%s set_survey_timer(%p, %d)\n", __FUNCTION__, (mlmeext), (ms));*/ \
++		_set_timer(&(mlmeext)->survey_timer, (ms)); \
++	} while(0)
++
++#define set_link_timer(mlmeext, ms) \
++	do { \
++		/*DBG_871X("%s set_link_timer(%p, %d)\n", __FUNCTION__, (mlmeext), (ms));*/ \
++		_set_timer(&(mlmeext)->link_timer, (ms)); \
++	} while(0)
++#ifdef CONFIG_IEEE80211W
++#define set_sa_query_timer(mlmeext, ms) \
++	do { \
++		DBG_871X("%s set_sa_query_timer(%p, %d)\n", __FUNCTION__, (mlmeext), (ms)); \
++		_set_timer(&(mlmeext)->sa_query_timer, (ms)); \
++	} while(0)
++#endif //CONFIG_IEEE80211W
++extern int cckrates_included(unsigned char *rate, int ratelen);
++extern int cckratesonly_included(unsigned char *rate, int ratelen);
++
++extern void process_addba_req(_adapter *padapter, u8 *paddba_req, u8 *addr);
++
++extern void update_TSF(struct mlme_ext_priv *pmlmeext, u8 *pframe, uint len);
++extern void correct_TSF(_adapter *padapter, struct mlme_ext_priv *pmlmeext);
++
++
++#ifdef CONFIG_CONCURRENT_MODE
++ sint check_buddy_mlmeinfo_state(_adapter *padapter, u32 state);
++void concurrent_chk_joinbss_done(_adapter *padapter, int join_res);
++#endif //CONFIG_CONCURRENT_MODE
++
++#ifdef CONFIG_DUALMAC_CONCURRENT
++void	dc_SelectChannel(_adapter *padapter, unsigned char channel);
++void	dc_SetBWMode(_adapter *padapter, unsigned short bwmode, unsigned char channel_offset);
++void	dc_set_channel_bwmode_disconnect(_adapter *padapter);
++u8	dc_handle_join_request(_adapter *padapter);
++void	dc_handle_join_done(_adapter *padapter, u8 join_res);
++sint	dc_check_fwstate(_adapter *padapter, sint fw_state);
++u8	dc_handle_site_survey(_adapter *padapter);
++void	dc_report_survey_event(_adapter *padapter, union recv_frame *precv_frame);
++void	dc_set_channel_bwmode_survey_done(_adapter *padapter);
++void	dc_set_ap_channel_bandwidth(_adapter *padapter, u8 channel, u8 channel_offset, u8 bwmode);
++void	dc_resume_xmit(_adapter *padapter);
++u8	dc_check_xmit(_adapter *padapter);
++#endif
++
++int rtw_chk_start_clnt_join(_adapter *padapter);
++int rtw_get_ch_setting_union(_adapter *adapter, u8 *ch, u8 *bw, u8 *offset);
++
++struct cmd_hdl {
++	uint	parmsize;
++	u8 (*h2cfuns)(struct _ADAPTER *padapter, u8 *pbuf);	
++};
++
++
++u8 read_macreg_hdl(_adapter *padapter, u8 *pbuf);
++u8 write_macreg_hdl(_adapter *padapter, u8 *pbuf);
++u8 read_bbreg_hdl(_adapter *padapter, u8 *pbuf);
++u8 write_bbreg_hdl(_adapter *padapter, u8 *pbuf);
++u8 read_rfreg_hdl(_adapter *padapter, u8 *pbuf);
++u8 write_rfreg_hdl(_adapter *padapter, u8 *pbuf);
++
++
++u8 NULL_hdl(_adapter *padapter, u8 *pbuf);
++u8 join_cmd_hdl(_adapter *padapter, u8 *pbuf);
++u8 disconnect_hdl(_adapter *padapter, u8 *pbuf);
++u8 createbss_hdl(_adapter *padapter, u8 *pbuf);
++u8 setopmode_hdl(_adapter *padapter, u8 *pbuf);
++u8 sitesurvey_cmd_hdl(_adapter *padapter, u8 *pbuf);	
++u8 setauth_hdl(_adapter *padapter, u8 *pbuf);
++u8 setkey_hdl(_adapter *padapter, u8 *pbuf);
++u8 set_stakey_hdl(_adapter *padapter, u8 *pbuf);
++u8 set_assocsta_hdl(_adapter *padapter, u8 *pbuf);
++u8 del_assocsta_hdl(_adapter *padapter, u8 *pbuf);
++u8 add_ba_hdl(_adapter *padapter, unsigned char *pbuf);
++
++u8 mlme_evt_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 h2c_msg_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 tx_beacon_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 set_ch_hdl(_adapter *padapter, u8 *pbuf);
++u8 set_chplan_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 led_blink_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 set_csa_hdl(_adapter *padapter, unsigned char *pbuf);	//Kurt: Handling DFS channel switch announcement ie.
++u8 tdls_hdl(_adapter *padapter, unsigned char *pbuf);
++
++
++#define GEN_DRV_CMD_HANDLER(size, cmd)	{size, &cmd ## _hdl},
++#define GEN_MLME_EXT_HANDLER(size, cmd)	{size, cmd},
++
++#ifdef _RTW_CMD_C_
++
++struct cmd_hdl wlancmds[] = 
++{
++	GEN_DRV_CMD_HANDLER(0, NULL) /*0*/
++	GEN_DRV_CMD_HANDLER(0, NULL)
++	GEN_DRV_CMD_HANDLER(0, NULL)
++	GEN_DRV_CMD_HANDLER(0, NULL)
++	GEN_DRV_CMD_HANDLER(0, NULL)
++	GEN_DRV_CMD_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL) /*10*/
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)		
++	GEN_MLME_EXT_HANDLER(sizeof (struct joinbss_parm), join_cmd_hdl) /*14*/
++	GEN_MLME_EXT_HANDLER(sizeof (struct disconnect_parm), disconnect_hdl)
++	GEN_MLME_EXT_HANDLER(sizeof (struct createbss_parm), createbss_hdl)
++	GEN_MLME_EXT_HANDLER(sizeof (struct setopmode_parm), setopmode_hdl)
++	GEN_MLME_EXT_HANDLER(sizeof (struct sitesurvey_parm), sitesurvey_cmd_hdl) /*18*/
++	GEN_MLME_EXT_HANDLER(sizeof (struct setauth_parm), setauth_hdl)
++	GEN_MLME_EXT_HANDLER(sizeof (struct setkey_parm), setkey_hdl) /*20*/
++	GEN_MLME_EXT_HANDLER(sizeof (struct set_stakey_parm), set_stakey_hdl)
++	GEN_MLME_EXT_HANDLER(sizeof (struct set_assocsta_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof (struct del_assocsta_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof (struct setstapwrstate_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof (struct setbasicrate_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof (struct getbasicrate_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof (struct setdatarate_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof (struct getdatarate_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof (struct setphyinfo_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof (struct getphyinfo_parm), NULL)  /*30*/
++	GEN_MLME_EXT_HANDLER(sizeof (struct setphy_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof (struct getphy_parm), NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)	/*40*/
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct addBaReq_parm), add_ba_hdl)	
++	GEN_MLME_EXT_HANDLER(sizeof(struct set_ch_parm), set_ch_hdl) /* 46 */
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL) /*50*/
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL) 
++	GEN_MLME_EXT_HANDLER(sizeof(struct Tx_Beacon_param), tx_beacon_hdl) /*55*/
++
++	GEN_MLME_EXT_HANDLER(0, mlme_evt_hdl) /*56*/
++	GEN_MLME_EXT_HANDLER(0, rtw_drvextra_cmd_hdl) /*57*/
++
++	GEN_MLME_EXT_HANDLER(0, h2c_msg_hdl) /*58*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct SetChannelPlan_param), set_chplan_hdl) /*59*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct LedBlink_param), led_blink_hdl) /*60*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct SetChannelSwitch_param), set_csa_hdl) /*61*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct TDLSoption_param), tdls_hdl) /*62*/
++};
++
++#endif
++
++struct C2HEvent_Header
++{
++
++#ifdef CONFIG_LITTLE_ENDIAN
++
++	unsigned int len:16;
++	unsigned int ID:8;
++	unsigned int seq:8;
++	
++#elif defined(CONFIG_BIG_ENDIAN)
++
++	unsigned int seq:8;
++	unsigned int ID:8;
++	unsigned int len:16;
++	
++#else
++
++#  error "Must be LITTLE or BIG Endian"
++
++#endif
++
++	unsigned int rsvd;
++
++};
++
++void rtw_dummy_event_callback(_adapter *adapter , u8 *pbuf);
++void rtw_fwdbg_event_callback(_adapter *adapter , u8 *pbuf);
++
++enum rtw_c2h_event
++{
++	GEN_EVT_CODE(_Read_MACREG)=0, /*0*/
++	GEN_EVT_CODE(_Read_BBREG),
++ 	GEN_EVT_CODE(_Read_RFREG),
++ 	GEN_EVT_CODE(_Read_EEPROM),
++ 	GEN_EVT_CODE(_Read_EFUSE),
++	GEN_EVT_CODE(_Read_CAM),			/*5*/
++ 	GEN_EVT_CODE(_Get_BasicRate),  
++ 	GEN_EVT_CODE(_Get_DataRate),   
++ 	GEN_EVT_CODE(_Survey),	 /*8*/
++ 	GEN_EVT_CODE(_SurveyDone),	 /*9*/
++ 	
++ 	GEN_EVT_CODE(_JoinBss) , /*10*/
++ 	GEN_EVT_CODE(_AddSTA),
++ 	GEN_EVT_CODE(_DelSTA),
++ 	GEN_EVT_CODE(_AtimDone) ,
++ 	GEN_EVT_CODE(_TX_Report),  
++	GEN_EVT_CODE(_CCX_Report),			/*15*/
++ 	GEN_EVT_CODE(_DTM_Report),
++ 	GEN_EVT_CODE(_TX_Rate_Statistics),
++ 	GEN_EVT_CODE(_C2HLBK), 
++ 	GEN_EVT_CODE(_FWDBG),
++	GEN_EVT_CODE(_C2HFEEDBACK),               /*20*/
++	GEN_EVT_CODE(_ADDBA),
++	GEN_EVT_CODE(_C2HBCN),
++	GEN_EVT_CODE(_ReportPwrState),		//filen: only for PCIE, USB	
++	GEN_EVT_CODE(_CloseRF),				//filen: only for PCIE, work around ASPM
++ 	MAX_C2HEVT
++};
++
++
++#ifdef _RTW_MLME_EXT_C_		
++
++static struct fwevent wlanevents[] = 
++{
++	{0, rtw_dummy_event_callback}, 	/*0*/
++	{0, NULL},
++	{0, NULL},
++	{0, NULL},
++	{0, NULL},
++	{0, NULL},
++	{0, NULL},
++	{0, NULL},
++	{0, &rtw_survey_event_callback},		/*8*/
++	{sizeof (struct surveydone_event), &rtw_surveydone_event_callback},	/*9*/
++		
++	{0, &rtw_joinbss_event_callback},		/*10*/
++	{sizeof(struct stassoc_event), &rtw_stassoc_event_callback},
++	{sizeof(struct stadel_event), &rtw_stadel_event_callback},	
++	{0, &rtw_atimdone_event_callback},
++	{0, rtw_dummy_event_callback},
++	{0, NULL},	/*15*/
++	{0, NULL},
++	{0, NULL},
++	{0, NULL},
++	{0, rtw_fwdbg_event_callback},
++	{0, NULL},	 /*20*/
++	{0, NULL},
++	{0, NULL},	
++	{0, &rtw_cpwm_event_callback},
++};
++
++#endif//_RTL8192C_CMD_C_
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_mp.h b/drivers/net/wireless/rtl8192cu/include/rtw_mp.h
+new file mode 100755
+index 0000000..0ebb1ba
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_mp.h
+@@ -0,0 +1,712 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_MP_H_
++#define _RTW_MP_H_
++
++#ifndef PLATFORM_WINDOWS
++//	00 - Success
++//	11 - Error
++#define STATUS_SUCCESS				(0x00000000L)
++#define STATUS_PENDING				(0x00000103L)
++
++#define STATUS_UNSUCCESSFUL			(0xC0000001L)
++#define STATUS_INSUFFICIENT_RESOURCES		(0xC000009AL)
++#define STATUS_NOT_SUPPORTED			(0xC00000BBL)
++
++#define NDIS_STATUS_SUCCESS			((NDIS_STATUS)STATUS_SUCCESS)
++#define NDIS_STATUS_PENDING			((NDIS_STATUS)STATUS_PENDING)
++#define NDIS_STATUS_NOT_RECOGNIZED		((NDIS_STATUS)0x00010001L)
++#define NDIS_STATUS_NOT_COPIED			((NDIS_STATUS)0x00010002L)
++#define NDIS_STATUS_NOT_ACCEPTED		((NDIS_STATUS)0x00010003L)
++#define NDIS_STATUS_CALL_ACTIVE			((NDIS_STATUS)0x00010007L)
++
++#define NDIS_STATUS_FAILURE			((NDIS_STATUS)STATUS_UNSUCCESSFUL)
++#define NDIS_STATUS_RESOURCES			((NDIS_STATUS)STATUS_INSUFFICIENT_RESOURCES)
++#define NDIS_STATUS_CLOSING			((NDIS_STATUS)0xC0010002L)
++#define NDIS_STATUS_BAD_VERSION			((NDIS_STATUS)0xC0010004L)
++#define NDIS_STATUS_BAD_CHARACTERISTICS		((NDIS_STATUS)0xC0010005L)
++#define NDIS_STATUS_ADAPTER_NOT_FOUND		((NDIS_STATUS)0xC0010006L)
++#define NDIS_STATUS_OPEN_FAILED			((NDIS_STATUS)0xC0010007L)
++#define NDIS_STATUS_DEVICE_FAILED		((NDIS_STATUS)0xC0010008L)
++#define NDIS_STATUS_MULTICAST_FULL		((NDIS_STATUS)0xC0010009L)
++#define NDIS_STATUS_MULTICAST_EXISTS		((NDIS_STATUS)0xC001000AL)
++#define NDIS_STATUS_MULTICAST_NOT_FOUND		((NDIS_STATUS)0xC001000BL)
++#define NDIS_STATUS_REQUEST_ABORTED		((NDIS_STATUS)0xC001000CL)
++#define NDIS_STATUS_RESET_IN_PROGRESS		((NDIS_STATUS)0xC001000DL)
++#define NDIS_STATUS_CLOSING_INDICATING		((NDIS_STATUS)0xC001000EL)
++#define NDIS_STATUS_NOT_SUPPORTED		((NDIS_STATUS)STATUS_NOT_SUPPORTED)
++#define NDIS_STATUS_INVALID_PACKET		((NDIS_STATUS)0xC001000FL)
++#define NDIS_STATUS_OPEN_LIST_FULL		((NDIS_STATUS)0xC0010010L)
++#define NDIS_STATUS_ADAPTER_NOT_READY		((NDIS_STATUS)0xC0010011L)
++#define NDIS_STATUS_ADAPTER_NOT_OPEN		((NDIS_STATUS)0xC0010012L)
++#define NDIS_STATUS_NOT_INDICATING		((NDIS_STATUS)0xC0010013L)
++#define NDIS_STATUS_INVALID_LENGTH		((NDIS_STATUS)0xC0010014L)
++#define NDIS_STATUS_INVALID_DATA		((NDIS_STATUS)0xC0010015L)
++#define NDIS_STATUS_BUFFER_TOO_SHORT		((NDIS_STATUS)0xC0010016L)
++#define NDIS_STATUS_INVALID_OID			((NDIS_STATUS)0xC0010017L)
++#define NDIS_STATUS_ADAPTER_REMOVED		((NDIS_STATUS)0xC0010018L)
++#define NDIS_STATUS_UNSUPPORTED_MEDIA		((NDIS_STATUS)0xC0010019L)
++#define NDIS_STATUS_GROUP_ADDRESS_IN_USE	((NDIS_STATUS)0xC001001AL)
++#define NDIS_STATUS_FILE_NOT_FOUND		((NDIS_STATUS)0xC001001BL)
++#define NDIS_STATUS_ERROR_READING_FILE		((NDIS_STATUS)0xC001001CL)
++#define NDIS_STATUS_ALREADY_MAPPED		((NDIS_STATUS)0xC001001DL)
++#define NDIS_STATUS_RESOURCE_CONFLICT		((NDIS_STATUS)0xC001001EL)
++#define NDIS_STATUS_NO_CABLE			((NDIS_STATUS)0xC001001FL)
++
++#define NDIS_STATUS_INVALID_SAP			((NDIS_STATUS)0xC0010020L)
++#define NDIS_STATUS_SAP_IN_USE			((NDIS_STATUS)0xC0010021L)
++#define NDIS_STATUS_INVALID_ADDRESS		((NDIS_STATUS)0xC0010022L)
++#define NDIS_STATUS_VC_NOT_ACTIVATED		((NDIS_STATUS)0xC0010023L)
++#define NDIS_STATUS_DEST_OUT_OF_ORDER		((NDIS_STATUS)0xC0010024L)  // cause 27
++#define NDIS_STATUS_VC_NOT_AVAILABLE		((NDIS_STATUS)0xC0010025L)  // cause 35,45
++#define NDIS_STATUS_CELLRATE_NOT_AVAILABLE	((NDIS_STATUS)0xC0010026L)  // cause 37
++#define NDIS_STATUS_INCOMPATABLE_QOS		((NDIS_STATUS)0xC0010027L)  // cause 49
++#define NDIS_STATUS_AAL_PARAMS_UNSUPPORTED	((NDIS_STATUS)0xC0010028L)  // cause 93
++#define NDIS_STATUS_NO_ROUTE_TO_DESTINATION	((NDIS_STATUS)0xC0010029L)  // cause 3
++#endif /* #ifndef PLATFORM_WINDOWS */
++
++#if 0
++#define MPT_NOOP			0
++#define MPT_READ_MAC_1BYTE		1
++#define MPT_READ_MAC_2BYTE		2
++#define MPT_READ_MAC_4BYTE		3
++#define MPT_WRITE_MAC_1BYTE		4
++#define MPT_WRITE_MAC_2BYTE		5
++#define MPT_WRITE_MAC_4BYTE		6
++#define MPT_READ_BB_CCK			7
++#define MPT_WRITE_BB_CCK		8
++#define MPT_READ_BB_OFDM		9
++#define MPT_WRITE_BB_OFDM		10
++#define MPT_READ_RF			11
++#define MPT_WRITE_RF			12
++#define MPT_READ_EEPROM_1BYTE		13
++#define MPT_WRITE_EEPROM_1BYTE		14
++#define MPT_READ_EEPROM_2BYTE		15
++#define MPT_WRITE_EEPROM_2BYTE		16
++#define MPT_SET_CSTHRESHOLD		21
++#define MPT_SET_INITGAIN		22
++#define MPT_SWITCH_BAND			23
++#define MPT_SWITCH_CHANNEL		24
++#define MPT_SET_DATARATE		25
++#define MPT_SWITCH_ANTENNA		26
++#define MPT_SET_TX_POWER		27
++#define MPT_SET_CONT_TX			28
++#define MPT_SET_SINGLE_CARRIER		29
++#define MPT_SET_CARRIER_SUPPRESSION	30
++#define MPT_GET_RATE_TABLE		31
++#define MPT_READ_TSSI			32
++#define MPT_GET_THERMAL_METER		33
++#endif
++
++#define MAX_MP_XMITBUF_SZ 	2048
++#define NR_MP_XMITFRAME		8
++
++struct mp_xmit_frame
++{
++	_list	list;
++
++	struct pkt_attrib attrib;
++
++	_pkt *pkt;
++
++	int frame_tag;
++
++	_adapter *padapter;
++
++#ifdef CONFIG_USB_HCI
++
++	//insert urb, irp, and irpcnt info below...
++	//max frag_cnt = 8
++
++	u8 *mem_addr;
++	u32 sz[8];
++
++#if defined(PLATFORM_OS_XP) || defined(PLATFORM_LINUX)
++	PURB pxmit_urb[8];
++#endif
++
++#ifdef PLATFORM_OS_XP
++	PIRP pxmit_irp[8];
++#endif
++
++	u8 bpending[8];
++	sint ac_tag[8];
++	sint last[8];
++	uint irpcnt;
++	uint fragcnt;
++#endif /* CONFIG_USB_HCI */
++
++	uint mem[(MAX_MP_XMITBUF_SZ >> 2)];
++};
++
++struct mp_wiparam
++{
++	u32 bcompleted;
++	u32 act_type;
++	u32 io_offset;
++	u32 io_value;
++};
++
++typedef void(*wi_act_func)(void* padapter);
++
++#ifdef PLATFORM_WINDOWS
++struct mp_wi_cntx
++{
++	u8 bmpdrv_unload;
++
++	// Work Item
++	NDIS_WORK_ITEM mp_wi;
++	NDIS_EVENT mp_wi_evt;
++	_lock mp_wi_lock;
++	u8 bmp_wi_progress;
++	wi_act_func curractfunc;
++	// Variable needed in each implementation of CurrActFunc.
++	struct mp_wiparam param;
++};
++#endif
++
++struct mp_tx
++{
++	u8 stop;
++	u32 count, sended;
++	u8 payload;
++	struct pkt_attrib attrib;
++	struct tx_desc desc;
++	u8 *pallocated_buf;
++	u8 *buf;
++	u32 buf_size, write_size;
++	_thread_hdl_  PktTxThread;
++};
++
++//#if (MP_DRIVER == 1)
++#if defined(CONFIG_RTL8192C) || defined(CONFIG_RTL8192D) || defined(CONFIG_RTL8723A) || defined(CONFIG_RTL8188E)
++#ifdef CONFIG_RTL8192C
++#include <Hal8192CPhyCfg.h>
++#endif
++#ifdef CONFIG_RTL8192D
++#include <Hal8192DPhyCfg.h>
++#endif
++#ifdef CONFIG_RTL8723A
++#include <Hal8723APhyCfg.h>
++#endif
++#ifdef CONFIG_RTL8188E
++#include <rtl8188e_hal.h>
++#endif
++#define MP_MAX_LINES		1000
++#define MP_MAX_LINES_BYTES	256
++#define u1Byte u8
++#define s1Byte s8
++#define u4Byte u32
++#define s4Byte s32
++typedef VOID (*MPT_WORK_ITEM_HANDLER)(IN PVOID Adapter);
++typedef struct _MPT_CONTEXT
++{
++	// Indicate if we have started Mass Production Test.
++	BOOLEAN			bMassProdTest;
++
++	// Indicate if the driver is unloading or unloaded.
++	BOOLEAN			bMptDrvUnload;
++
++	/* 8190 PCI does not support NDIS_WORK_ITEM. */
++	// Work Item for Mass Production Test.
++	//NDIS_WORK_ITEM	MptWorkItem;
++//	RT_WORK_ITEM		MptWorkItem;
++	// Event used to sync the case unloading driver and MptWorkItem is still in progress.
++//	NDIS_EVENT		MptWorkItemEvent;
++	// To protect the following variables.
++//	NDIS_SPIN_LOCK		MptWorkItemSpinLock;
++	// Indicate a MptWorkItem is scheduled and not yet finished.
++	BOOLEAN			bMptWorkItemInProgress;
++	// An instance which implements function and context of MptWorkItem.
++	MPT_WORK_ITEM_HANDLER	CurrMptAct;
++
++	// 1=Start, 0=Stop from UI.
++	ULONG			MptTestStart;
++	// _TEST_MODE, defined in MPT_Req2.h
++	ULONG			MptTestItem;
++	// Variable needed in each implementation of CurrMptAct.
++	ULONG			MptActType; 	// Type of action performed in CurrMptAct.
++	// The Offset of IO operation is depend of MptActType.
++	ULONG			MptIoOffset;
++	// The Value of IO operation is depend of MptActType.
++	ULONG			MptIoValue;
++	// The RfPath of IO operation is depend of MptActType.
++	ULONG			MptRfPath;
++
++	WIRELESS_MODE		MptWirelessModeToSw;	// Wireless mode to switch.
++	u8			MptChannelToSw; 	// Channel to switch.
++	u8			MptInitGainToSet; 	// Initial gain to set.
++	//ULONG			bMptAntennaA; 		// TRUE if we want to use antenna A.
++	ULONG			MptBandWidth;		// bandwidth to switch.
++	ULONG			MptRateIndex;		// rate index.
++	// Register value kept for Single Carrier Tx test.
++	u8			btMpCckTxPower;
++	// Register value kept for Single Carrier Tx test.
++	u8			btMpOfdmTxPower;
++	// For MP Tx Power index
++	u8			TxPwrLevel[2];	// rf-A, rf-B
++
++	// Content of RCR Regsiter for Mass Production Test.
++	ULONG			MptRCR;
++	// TRUE if we only receive packets with specific pattern.
++	BOOLEAN			bMptFilterPattern;
++ 	// Rx OK count, statistics used in Mass Production Test.
++ 	ULONG			MptRxOkCnt;
++ 	// Rx CRC32 error count, statistics used in Mass Production Test.
++ 	ULONG			MptRxCrcErrCnt;
++
++	BOOLEAN			bCckContTx;	// TRUE if we are in CCK Continuous Tx test.
++ 	BOOLEAN			bOfdmContTx;	// TRUE if we are in OFDM Continuous Tx test.
++	BOOLEAN			bStartContTx; 	// TRUE if we have start Continuous Tx test.
++	// TRUE if we are in Single Carrier Tx test.
++	BOOLEAN			bSingleCarrier;
++	// TRUE if we are in Carrier Suppression Tx Test.
++	BOOLEAN			bCarrierSuppression;
++	//TRUE if we are in Single Tone Tx test.
++	BOOLEAN			bSingleTone;
++
++	// ACK counter asked by K.Y..
++	BOOLEAN			bMptEnableAckCounter;
++	ULONG			MptAckCounter;
++
++	// SD3 Willis For 8192S to save 1T/2T RF table for ACUT	Only fro ACUT delete later ~~~!
++	//s1Byte		BufOfLines[2][MAX_LINES_HWCONFIG_TXT][MAX_BYTES_LINE_HWCONFIG_TXT];
++	//s1Byte			BufOfLines[2][MP_MAX_LINES][MP_MAX_LINES_BYTES];
++	//s4Byte			RfReadLine[2];
++
++	u8		APK_bound[2];	//for APK	path A/path B
++	BOOLEAN		bMptIndexEven;
++
++	u8		backup0xc50;
++	u8		backup0xc58;
++	u8		backup0xc30;
++}MPT_CONTEXT, *PMPT_CONTEXT;
++#endif
++//#endif
++
++/* E-Fuse */
++#ifdef CONFIG_RTL8192D
++#define EFUSE_MAP_SIZE		255
++#endif
++#ifdef CONFIG_RTL8192C
++#define EFUSE_MAP_SIZE		128
++#endif
++#ifdef CONFIG_RTL8723A
++#define EFUSE_MAP_SIZE		256
++#endif
++#ifdef CONFIG_RTL8188E
++#define EFUSE_MAP_SIZE		256
++#endif
++#define EFUSE_MAX_SIZE		512
++
++/* end of E-Fuse */
++
++//#define RTPRIV_IOCTL_MP 					( SIOCIWFIRSTPRIV + 0x17)
++enum {	  
++	WRITE_REG = 1,
++	READ_REG,
++	WRITE_RF,
++	READ_RF,
++	MP_START,
++	MP_STOP,
++	MP_RATE,
++	MP_CHANNEL,
++	MP_BANDWIDTH,
++	MP_TXPOWER,
++	MP_ANT_TX,
++	MP_ANT_RX,
++	MP_CTX,
++	MP_QUERY,
++	MP_ARX,
++	MP_PSD,
++	MP_PWRTRK,
++	MP_THER,
++	MP_IOCTL,
++	EFUSE_GET,
++	EFUSE_SET,
++	MP_RESET_STATS,
++	MP_DUMP,
++	MP_PHYPARA,
++	MP_NULL,
++};
++
++struct mp_priv
++{
++	_adapter *papdater;
++
++	//Testing Flag
++	u32 mode;//0 for normal type packet, 1 for loopback packet (16bytes TXCMD)
++
++	u32 prev_fw_state;
++
++	//OID cmd handler
++	struct mp_wiparam workparam;
++//	u8 act_in_progress;
++
++	//Tx Section
++	u8 TID;
++	u32 tx_pktcount;
++	struct mp_tx tx;
++
++	//Rx Section
++	u32 rx_pktcount;
++	u32 rx_crcerrpktcount;
++	u32 rx_pktloss;
++
++	struct recv_stat rxstat;
++
++	//RF/BB relative
++	u8 channel;
++	u8 bandwidth;
++	u8 prime_channel_offset;
++	u8 txpoweridx;
++	u8 txpoweridx_b;
++	u8 rateidx;
++	u32 preamble;
++//	u8 modem;
++	u32 CrystalCap;
++//	u32 curr_crystalcap;
++
++	u16 antenna_tx;
++	u16 antenna_rx;
++//	u8 curr_rfpath;
++
++	u8 check_mp_pkt;
++
++//	uint ForcedDataRate;
++
++	struct wlan_network mp_network;
++	NDIS_802_11_MAC_ADDRESS network_macaddr;
++
++#ifdef PLATFORM_WINDOWS
++	u32 rx_testcnt;
++	u32 rx_testcnt1;
++	u32 rx_testcnt2;
++	u32 tx_testcnt;
++	u32 tx_testcnt1;
++
++	struct mp_wi_cntx wi_cntx;
++
++	u8 h2c_result;
++	u8 h2c_seqnum;
++	u16 h2c_cmdcode;
++	u8 h2c_resp_parambuf[512];
++	_lock h2c_lock;
++	_lock wkitm_lock;
++	u32 h2c_cmdcnt;
++	NDIS_EVENT h2c_cmd_evt;
++	NDIS_EVENT c2h_set;
++	NDIS_EVENT h2c_clr;
++	NDIS_EVENT cpwm_int;
++
++	NDIS_EVENT scsir_full_evt;
++	NDIS_EVENT scsiw_empty_evt;
++#endif
++
++	u8 *pallocated_mp_xmitframe_buf;
++	u8 *pmp_xmtframe_buf;
++	_queue free_mp_xmitqueue;
++	u32 free_mp_xmitframe_cnt;
++
++	MPT_CONTEXT MptCtx;
++};
++
++typedef struct _IOCMD_STRUCT_ {
++	u8	cmdclass;
++	u16	value;
++	u8	index;
++}IOCMD_STRUCT;
++
++struct rf_reg_param {
++	u32 path;
++	u32 offset;
++	u32 value;
++};
++
++struct bb_reg_param {
++	u32 offset;
++	u32 value;
++};
++//=======================================================================
++
++#define LOWER 	_TRUE
++#define RAISE	_FALSE
++
++/* Hardware Registers */
++#if 0
++#if 0
++#define IOCMD_CTRL_REG			0x102502C0
++#define IOCMD_DATA_REG			0x102502C4
++#else
++#define IOCMD_CTRL_REG			0x10250370
++#define IOCMD_DATA_REG			0x10250374
++#endif
++
++#define IOCMD_GET_THERMAL_METER		0xFD000028
++
++#define IOCMD_CLASS_BB_RF		0xF0
++#define IOCMD_BB_READ_IDX		0x00
++#define IOCMD_BB_WRITE_IDX		0x01
++#define IOCMD_RF_READ_IDX		0x02
++#define IOCMD_RF_WRIT_IDX		0x03
++#endif
++#define BB_REG_BASE_ADDR		0x800
++
++/* MP variables */
++#if 0
++#define _2MAC_MODE_	0
++#define _LOOPBOOK_MODE_	1
++#endif
++typedef enum _MP_MODE_ {
++	MP_OFF,
++	MP_ON,
++	MP_ERR,
++	MP_CONTINUOUS_TX,
++	MP_SINGLE_CARRIER_TX,
++	MP_CARRIER_SUPPRISSION_TX,
++	MP_SINGLE_TONE_TX,
++	MP_PACKET_TX,
++	MP_PACKET_RX
++} MP_MODE;
++
++#ifdef CONFIG_RTL8192C
++#define RF_PATH_A 	RF_PATH_A
++#define RF_PATH_B 	RF_PATH_B
++#define RF_PATH_C 	RF_PATH_C
++#define RF_PATH_D 	RF_PATH_D
++
++#define MAX_RF_PATH_NUMS	RF_PATH_MAX
++#else
++#define RF_PATH_A 	0
++#define RF_PATH_B 	1
++#define RF_PATH_C 	2
++#define RF_PATH_D 	3
++
++#define MAX_RF_PATH_NUMS	2
++#endif
++
++extern u8 mpdatarate[NumRates];
++
++/* MP set force data rate base on the definition. */
++typedef enum _MPT_RATE_INDEX
++{
++	/* CCK rate. */
++	MPT_RATE_1M,	/* 0 */
++	MPT_RATE_2M,
++	MPT_RATE_55M,
++	MPT_RATE_11M,	/* 3 */
++
++	/* OFDM rate. */
++	MPT_RATE_6M,	/* 4 */
++	MPT_RATE_9M,
++	MPT_RATE_12M,
++	MPT_RATE_18M,
++	MPT_RATE_24M,
++	MPT_RATE_36M,
++	MPT_RATE_48M,
++	MPT_RATE_54M,	/* 11 */
++
++	/* HT rate. */
++	MPT_RATE_MCS0,	/* 12 */
++	MPT_RATE_MCS1,
++	MPT_RATE_MCS2,
++	MPT_RATE_MCS3,
++	MPT_RATE_MCS4,
++	MPT_RATE_MCS5,
++	MPT_RATE_MCS6,
++	MPT_RATE_MCS7,	/* 19 */
++	MPT_RATE_MCS8,
++	MPT_RATE_MCS9,
++	MPT_RATE_MCS10,
++	MPT_RATE_MCS11,
++	MPT_RATE_MCS12,
++	MPT_RATE_MCS13,
++	MPT_RATE_MCS14,
++	MPT_RATE_MCS15,	/* 27 */
++	MPT_RATE_LAST
++}MPT_RATE_E, *PMPT_RATE_E;
++
++#if 0
++// Represent Channel Width in HT Capabilities
++typedef enum _HT_CHANNEL_WIDTH {
++	HT_CHANNEL_WIDTH_20 = 0,
++	HT_CHANNEL_WIDTH_40 = 1,
++}HT_CHANNEL_WIDTH, *PHT_CHANNEL_WIDTH;
++#endif
++
++#define MAX_TX_PWR_INDEX_N_MODE 64	// 0x3F
++
++typedef enum _POWER_MODE_ {
++	POWER_LOW = 0,
++	POWER_NORMAL
++}POWER_MODE;
++
++
++#define RX_PKT_BROADCAST	1
++#define RX_PKT_DEST_ADDR	2
++#define RX_PKT_PHY_MATCH	3
++
++#if 0
++#define RPTMaxCount 0x000FFFFF;
++
++// parameter 1 : BitMask
++// 	bit 0  : OFDM PPDU
++//	bit 1  : OFDM False Alarm
++//	bit 2  : OFDM MPDU OK
++//	bit 3  : OFDM MPDU Fail
++//	bit 4  : CCK PPDU
++//	bit 5  : CCK False Alarm
++//	bit 6  : CCK MPDU ok
++//	bit 7  : CCK MPDU fail
++//	bit 8  : HT PPDU counter
++//	bit 9  : HT false alarm
++//	bit 10 : HT MPDU total
++//	bit 11 : HT MPDU OK
++//	bit 12 : HT MPDU fail
++//	bit 15 : RX full drop
++typedef enum _RXPHY_BITMASK_
++{
++	OFDM_PPDU_BIT = 0,
++	OFDM_FALSE_BIT,
++	OFDM_MPDU_OK_BIT,
++	OFDM_MPDU_FAIL_BIT,
++	CCK_PPDU_BIT,
++	CCK_FALSE_BIT,
++	CCK_MPDU_OK_BIT,
++	CCK_MPDU_FAIL_BIT,
++	HT_PPDU_BIT,
++	HT_FALSE_BIT,
++	HT_MPDU_BIT,
++	HT_MPDU_OK_BIT,
++	HT_MPDU_FAIL_BIT,
++} RXPHY_BITMASK;
++#endif
++
++typedef enum _ENCRY_CTRL_STATE_ {
++	HW_CONTROL,		//hw encryption& decryption
++	SW_CONTROL,		//sw encryption& decryption
++	HW_ENCRY_SW_DECRY,	//hw encryption & sw decryption
++	SW_ENCRY_HW_DECRY	//sw encryption & hw decryption
++}ENCRY_CTRL_STATE;
++
++typedef enum _OFDM_TX_MODE {
++	OFDM_ALL_OFF		= 0,	
++	OFDM_ContinuousTx	= 1,
++	OFDM_SingleCarrier	= 2,
++	OFDM_SingleTone 	= 4,
++} OFDM_TX_MODE;
++
++//=======================================================================
++//extern struct mp_xmit_frame *alloc_mp_xmitframe(struct mp_priv *pmp_priv);
++//extern int free_mp_xmitframe(struct xmit_priv *pxmitpriv, struct mp_xmit_frame *pmp_xmitframe);
++
++extern s32 init_mp_priv(PADAPTER padapter);
++extern void free_mp_priv(struct mp_priv *pmp_priv);
++extern s32 MPT_InitializeAdapter(PADAPTER padapter, u8 Channel);
++extern void MPT_DeInitAdapter(PADAPTER padapter);
++extern s32 mp_start_test(PADAPTER padapter);
++extern void mp_stop_test(PADAPTER padapter);
++
++//=======================================================================
++//extern void	IQCalibrateBcut(PADAPTER pAdapter);
++
++//extern u32	bb_reg_read(PADAPTER Adapter, u16 offset);
++//extern u8	bb_reg_write(PADAPTER Adapter, u16 offset, u32 value);
++//extern u32	rf_reg_read(PADAPTER Adapter, u8 path, u8 offset);
++//extern u8	rf_reg_write(PADAPTER Adapter, u8 path, u8 offset, u32 value);
++
++//extern u32	get_bb_reg(PADAPTER Adapter, u16 offset, u32 bitmask);
++//extern u8	set_bb_reg(PADAPTER Adapter, u16 offset, u32 bitmask, u32 value);
++//extern u32	get_rf_reg(PADAPTER Adapter, u8 path, u8 offset, u32 bitmask);
++//extern u8	set_rf_reg(PADAPTER Adapter, u8 path, u8 offset, u32 bitmask, u32 value);
++
++extern u32 _read_rfreg(PADAPTER padapter, u8 rfpath, u32 addr, u32 bitmask);
++extern void _write_rfreg(PADAPTER padapter, u8 rfpath, u32 addr, u32 bitmask, u32 val);
++
++extern u32 read_macreg(_adapter *padapter, u32 addr, u32 sz);
++extern void write_macreg(_adapter *padapter, u32 addr, u32 val, u32 sz);
++extern u32 read_bbreg(_adapter *padapter, u32 addr, u32 bitmask);
++extern void write_bbreg(_adapter *padapter, u32 addr, u32 bitmask, u32 val);
++extern u32 read_rfreg(PADAPTER padapter, u8 rfpath, u32 addr);
++extern void write_rfreg(PADAPTER padapter, u8 rfpath, u32 addr, u32 val);
++
++extern void	SetChannel(PADAPTER pAdapter);
++extern void	SetBandwidth(PADAPTER pAdapter);
++extern void	SetTxPower(PADAPTER pAdapter);
++extern void	SetAntennaPathPower(PADAPTER pAdapter);
++//extern void	SetTxAGCOffset(PADAPTER pAdapter, u32 ulTxAGCOffset);
++extern void	SetDataRate(PADAPTER pAdapter);
++
++extern void	SetAntenna(PADAPTER pAdapter);
++
++//extern void	SetCrystalCap(PADAPTER pAdapter);
++
++extern s32	SetThermalMeter(PADAPTER pAdapter, u8 target_ther);
++extern void	GetThermalMeter(PADAPTER pAdapter, u8 *value);
++
++extern void	SetContinuousTx(PADAPTER pAdapter, u8 bStart);
++extern void	SetSingleCarrierTx(PADAPTER pAdapter, u8 bStart);
++extern void	SetSingleToneTx(PADAPTER pAdapter, u8 bStart);
++extern void	SetCarrierSuppressionTx(PADAPTER pAdapter, u8 bStart);
++
++extern void	fill_txdesc_for_mp(PADAPTER padapter, struct tx_desc *ptxdesc);
++extern void	SetPacketTx(PADAPTER padapter);
++extern void	SetPacketRx(PADAPTER pAdapter, u8 bStartRx);
++
++extern void	ResetPhyRxPktCount(PADAPTER pAdapter);
++extern u32	GetPhyRxPktReceived(PADAPTER pAdapter);
++extern u32	GetPhyRxPktCRC32Error(PADAPTER pAdapter);
++
++extern s32	SetPowerTracking(PADAPTER padapter, u8 enable);
++extern void	GetPowerTracking(PADAPTER padapter, u8 *enable);
++
++extern u32	mp_query_psd(PADAPTER pAdapter, u8 *data);
++
++
++extern void Hal_SetAntenna(PADAPTER pAdapter);
++extern void Hal_SetBandwidth(PADAPTER pAdapter);
++
++extern void Hal_SetTxPower(PADAPTER pAdapter);
++extern void Hal_SetCarrierSuppressionTx(PADAPTER pAdapter, u8 bStart);
++extern void Hal_SetSingleToneTx ( PADAPTER pAdapter , u8 bStart );
++extern void Hal_SetSingleCarrierTx (PADAPTER pAdapter, u8 bStart);
++extern void Hal_SetContinuousTx (PADAPTER pAdapter, u8 bStart);
++extern void Hal_SetBandwidth(PADAPTER pAdapter);
++
++extern void Hal_SetDataRate(PADAPTER pAdapter);
++extern void Hal_SetChannel(PADAPTER pAdapter);
++extern void Hal_SetAntennaPathPower(PADAPTER pAdapter);
++extern s32 Hal_SetThermalMeter(PADAPTER pAdapter, u8 target_ther);
++extern s32 Hal_SetPowerTracking(PADAPTER padapter, u8 enable);
++extern void Hal_GetPowerTracking(PADAPTER padapter, u8 * enable);
++extern void Hal_GetThermalMeter(PADAPTER pAdapter, u8 *value);
++extern void Hal_mpt_SwitchRfSetting(PADAPTER pAdapter);
++extern void Hal_MPT_CCKTxPowerAdjust(PADAPTER Adapter, BOOLEAN bInCH14);
++extern void Hal_MPT_CCKTxPowerAdjustbyIndex(PADAPTER pAdapter, BOOLEAN beven);
++extern void Hal_SetCCKTxPower(PADAPTER pAdapter, u8 * TxPower);
++extern void Hal_SetOFDMTxPower(PADAPTER pAdapter, u8 * TxPower);
++extern void Hal_TriggerRFThermalMeter(PADAPTER pAdapter);
++extern u8 Hal_ReadRFThermalMeter(PADAPTER pAdapter);
++extern void Hal_SetCCKContinuousTx(PADAPTER pAdapter, u8 bStart);
++extern void Hal_SetOFDMContinuousTx(PADAPTER pAdapter, u8 bStart);
++extern void Hal_ProSetCrystalCap (PADAPTER pAdapter , u32 CrystalCapVal);
++
++#endif //_RTW_MP_H_
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_mp_ioctl.h b/drivers/net/wireless/rtl8192cu/include/rtw_mp_ioctl.h
+new file mode 100755
+index 0000000..962bc38
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_mp_ioctl.h
+@@ -0,0 +1,596 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_MP_IOCTL_H_
++#define _RTW_MP_IOCTL_H_
++
++//#include <drv_conf.h>
++//#include <osdep_service.h>
++#include <drv_types.h>
++#include <mp_custom_oid.h>
++#include <rtw_ioctl.h>
++#include <rtw_ioctl_rtl.h>
++#include <rtw_efuse.h>
++#include <rtw_mp.h>
++
++#if 0
++#define TESTFWCMDNUMBER			1000000
++#define TEST_H2CINT_WAIT_TIME		500
++#define TEST_C2HINT_WAIT_TIME		500
++#define HCI_TEST_SYSCFG_HWMASK		1
++#define _BUSCLK_40M			(4 << 2)
++#endif
++//------------------------------------------------------------------------------
++typedef struct CFG_DBG_MSG_STRUCT {
++	u32 DebugLevel;
++	u32 DebugComponent_H32;
++	u32 DebugComponent_L32;
++}CFG_DBG_MSG_STRUCT,*PCFG_DBG_MSG_STRUCT;
++
++typedef struct _RW_REG {
++	u32 offset;
++	u32 width;
++	u32 value;
++}mp_rw_reg,RW_Reg, *pRW_Reg;
++
++//for OID_RT_PRO_READ16_EEPROM & OID_RT_PRO_WRITE16_EEPROM
++typedef struct _EEPROM_RW_PARAM {
++	u32 offset;
++	u16 value;
++}eeprom_rw_param,EEPROM_RWParam, *pEEPROM_RWParam;
++
++typedef struct _EFUSE_ACCESS_STRUCT_ {
++	u16	start_addr;
++	u16	cnts;
++	u8	data[0];
++}EFUSE_ACCESS_STRUCT, *PEFUSE_ACCESS_STRUCT;
++
++typedef struct _BURST_RW_REG {
++	u32 offset;
++	u32 len;
++	u8 Data[256];
++}burst_rw_reg,Burst_RW_Reg, *pBurst_RW_Reg;
++
++typedef struct _USB_VendorReq{
++	u8	bRequest;
++	u16	wValue;
++	u16	wIndex;
++	u16	wLength;
++	u8	u8Dir;//0:OUT, 1:IN
++	u8	u8InData;
++}usb_vendor_req, USB_VendorReq, *pUSB_VendorReq;
++
++typedef struct _DR_VARIABLE_STRUCT_ {
++	u8 offset;
++	u32 variable;
++}DR_VARIABLE_STRUCT;
++
++//int mp_start_joinbss(_adapter *padapter, NDIS_802_11_SSID *pssid);
++
++//void _irqlevel_changed_(_irqL *irqlevel, /*BOOLEAN*/unsigned char bLower);
++#ifdef PLATFORM_OS_XP
++static void _irqlevel_changed_(_irqL *irqlevel, u8 bLower)
++{
++
++	if (bLower == LOWER) {
++		*irqlevel = KeGetCurrentIrql();
++
++		if (*irqlevel > PASSIVE_LEVEL) {
++			KeLowerIrql(PASSIVE_LEVEL);
++		}
++	} else {
++		if (KeGetCurrentIrql() == PASSIVE_LEVEL) {
++			KeRaiseIrql(DISPATCH_LEVEL, irqlevel);
++		}
++	}
++
++}
++#else
++#define _irqlevel_changed_(a,b)
++#endif
++
++//oid_rtl_seg_81_80_00
++NDIS_STATUS oid_rt_pro_set_data_rate_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_start_test_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_stop_test_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_channel_direct_call_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_antenna_bb_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_tx_power_control_hdl(struct oid_par_priv* poid_par_priv);
++//oid_rtl_seg_81_80_20
++NDIS_STATUS oid_rt_pro_query_tx_packet_sent_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_query_rx_packet_received_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_query_rx_packet_crc32_error_hdl(struct oid_par_priv* poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_reset_tx_packet_sent_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_reset_rx_packet_received_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_modulation_hdl(struct oid_par_priv* poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_set_continuous_tx_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_single_carrier_tx_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_carrier_suppression_tx_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_single_tone_tx_hdl(struct oid_par_priv* poid_par_priv);
++
++
++//oid_rtl_seg_81_87
++NDIS_STATUS oid_rt_pro_write_bb_reg_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_read_bb_reg_hdl(struct oid_par_priv* poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_write_rf_reg_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_read_rf_reg_hdl(struct oid_par_priv* poid_par_priv);
++
++
++//oid_rtl_seg_81_85
++NDIS_STATUS oid_rt_wireless_mode_hdl(struct oid_par_priv* poid_par_priv);
++
++
++// oid_rtl_seg_87_11_00
++NDIS_STATUS oid_rt_pro8711_join_bss_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_read_register_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_write_register_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_burst_read_register_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_burst_write_register_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_write_txcmd_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_read16_eeprom_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_write16_eeprom_hdl (struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro8711_wi_poll_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro8711_pkt_loss_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_rd_attrib_mem_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_wr_attrib_mem_hdl (struct oid_par_priv* poid_par_priv);
++NDIS_STATUS  oid_rt_pro_set_rf_intfs_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_poll_rx_status_hdl(struct oid_par_priv* poid_par_priv);
++// oid_rtl_seg_87_11_20
++NDIS_STATUS oid_rt_pro_cfg_debug_message_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_data_rate_ex_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_basic_rate_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_read_tssi_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_power_tracking_hdl(struct oid_par_priv* poid_par_priv);
++//oid_rtl_seg_87_11_50
++NDIS_STATUS oid_rt_pro_qry_pwrstate_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_pwrstate_hdl(struct oid_par_priv* poid_par_priv);
++//oid_rtl_seg_87_11_F0
++NDIS_STATUS oid_rt_pro_h2c_set_rate_table_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_h2c_get_rate_table_hdl(struct oid_par_priv* poid_par_priv);
++
++
++//oid_rtl_seg_87_12_00
++NDIS_STATUS oid_rt_pro_encryption_ctrl_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_add_sta_info_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_dele_sta_info_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_query_dr_variable_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_rx_packet_type_hdl(struct oid_par_priv* poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_read_efuse_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_write_efuse_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_rw_efuse_pgpkt_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_efuse_current_size_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_efuse_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_efuse_map_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_set_bandwidth_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_set_crystal_cap_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_set_rx_packet_type_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_efuse_max_size_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_tx_agc_offset_hdl(struct oid_par_priv* poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_set_pkt_test_mode_hdl(struct oid_par_priv* poid_par_priv);
++
++NDIS_STATUS oid_rt_get_thermal_meter_hdl(struct oid_par_priv* poid_par_priv);
++
++NDIS_STATUS oid_rt_reset_phy_rx_packet_count_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_phy_rx_packet_received_hdl(struct oid_par_priv* poid_par_priv);
++NDIS_STATUS oid_rt_get_phy_rx_packet_crc32_error_hdl(struct oid_par_priv* poid_par_priv);
++
++NDIS_STATUS oid_rt_set_power_down_hdl(struct oid_par_priv* poid_par_priv);
++
++NDIS_STATUS oid_rt_get_power_mode_hdl(struct oid_par_priv* poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_trigger_gpio_hdl(struct oid_par_priv *poid_par_priv);
++
++#ifdef _RTW_MP_IOCTL_C_
++
++const struct oid_obj_priv oid_rtl_seg_81_80_00[] =
++{
++	{1, &oid_null_function},			//0x00	OID_RT_PRO_RESET_DUT
++	{1, &oid_rt_pro_set_data_rate_hdl},		//0x01
++	{1, &oid_rt_pro_start_test_hdl},		//0x02
++	{1, &oid_rt_pro_stop_test_hdl},			//0x03
++	{1, &oid_null_function},			//0x04	OID_RT_PRO_SET_PREAMBLE
++	{1, &oid_null_function},			//0x05	OID_RT_PRO_SET_SCRAMBLER
++	{1, &oid_null_function},			//0x06	OID_RT_PRO_SET_FILTER_BB
++	{1, &oid_null_function},			//0x07	OID_RT_PRO_SET_MANUAL_DIVERSITY_BB
++	{1, &oid_rt_pro_set_channel_direct_call_hdl},	//0x08
++	{1, &oid_null_function},			//0x09	OID_RT_PRO_SET_SLEEP_MODE_DIRECT_CALL
++	{1, &oid_null_function},			//0x0A	OID_RT_PRO_SET_WAKE_MODE_DIRECT_CALL
++	{1, &oid_rt_pro_set_continuous_tx_hdl},		//0x0B	OID_RT_PRO_SET_TX_CONTINUOUS_DIRECT_CALL
++	{1, &oid_rt_pro_set_single_carrier_tx_hdl},	//0x0C	OID_RT_PRO_SET_SINGLE_CARRIER_TX_CONTINUOUS
++	{1, &oid_null_function},			//0x0D	OID_RT_PRO_SET_TX_ANTENNA_BB
++	{1, &oid_rt_pro_set_antenna_bb_hdl},		//0x0E
++	{1, &oid_null_function},			//0x0F	OID_RT_PRO_SET_CR_SCRAMBLER
++	{1, &oid_null_function},			//0x10	OID_RT_PRO_SET_CR_NEW_FILTER
++	{1, &oid_rt_pro_set_tx_power_control_hdl},	//0x11	OID_RT_PRO_SET_TX_POWER_CONTROL
++	{1, &oid_null_function},			//0x12	OID_RT_PRO_SET_CR_TX_CONFIG
++	{1, &oid_null_function},			//0x13	OID_RT_PRO_GET_TX_POWER_CONTROL
++	{1, &oid_null_function},			//0x14	OID_RT_PRO_GET_CR_SIGNAL_QUALITY
++	{1, &oid_null_function},			//0x15	OID_RT_PRO_SET_CR_SETPOINT
++	{1, &oid_null_function},			//0x16	OID_RT_PRO_SET_INTEGRATOR
++	{1, &oid_null_function},			//0x17	OID_RT_PRO_SET_SIGNAL_QUALITY
++	{1, &oid_null_function},			//0x18	OID_RT_PRO_GET_INTEGRATOR
++	{1, &oid_null_function},			//0x19	OID_RT_PRO_GET_SIGNAL_QUALITY
++	{1, &oid_null_function},			//0x1A	OID_RT_PRO_QUERY_EEPROM_TYPE
++	{1, &oid_null_function},			//0x1B	OID_RT_PRO_WRITE_MAC_ADDRESS
++	{1, &oid_null_function},			//0x1C	OID_RT_PRO_READ_MAC_ADDRESS
++	{1, &oid_null_function},			//0x1D	OID_RT_PRO_WRITE_CIS_DATA
++	{1, &oid_null_function},			//0x1E	OID_RT_PRO_READ_CIS_DATA
++	{1, &oid_null_function}				//0x1F	OID_RT_PRO_WRITE_POWER_CONTROL
++
++};
++
++const struct oid_obj_priv oid_rtl_seg_81_80_20[] =
++{
++	{1, &oid_null_function},			//0x20	OID_RT_PRO_READ_POWER_CONTROL
++	{1, &oid_null_function},			//0x21	OID_RT_PRO_WRITE_EEPROM
++	{1, &oid_null_function},			//0x22	OID_RT_PRO_READ_EEPROM
++	{1, &oid_rt_pro_reset_tx_packet_sent_hdl},	//0x23
++	{1, &oid_rt_pro_query_tx_packet_sent_hdl},	//0x24
++	{1, &oid_rt_pro_reset_rx_packet_received_hdl},	//0x25
++	{1, &oid_rt_pro_query_rx_packet_received_hdl},	//0x26
++	{1, &oid_rt_pro_query_rx_packet_crc32_error_hdl},	//0x27
++	{1, &oid_null_function},			//0x28	OID_RT_PRO_QUERY_CURRENT_ADDRESS
++	{1, &oid_null_function},			//0x29	OID_RT_PRO_QUERY_PERMANENT_ADDRESS
++	{1, &oid_null_function},			//0x2A	OID_RT_PRO_SET_PHILIPS_RF_PARAMETERS
++	{1, &oid_rt_pro_set_carrier_suppression_tx_hdl},//0x2B	OID_RT_PRO_SET_CARRIER_SUPPRESSION_TX
++	{1, &oid_null_function},			//0x2C	OID_RT_PRO_RECEIVE_PACKET
++	{1, &oid_null_function},			//0x2D	OID_RT_PRO_WRITE_EEPROM_BYTE
++	{1, &oid_null_function},			//0x2E	OID_RT_PRO_READ_EEPROM_BYTE
++	{1, &oid_rt_pro_set_modulation_hdl}		//0x2F
++
++};
++
++const struct oid_obj_priv oid_rtl_seg_81_80_40[] =
++{
++	{1, &oid_null_function},			//0x40
++	{1, &oid_null_function},			//0x41
++	{1, &oid_null_function},			//0x42
++	{1, &oid_rt_pro_set_single_tone_tx_hdl},	//0x43
++	{1, &oid_null_function},			//0x44
++	{1, &oid_null_function}				//0x45
++};
++
++const struct oid_obj_priv oid_rtl_seg_81_80_80[] =
++{
++	{1, &oid_null_function},			//0x80	OID_RT_DRIVER_OPTION
++	{1, &oid_null_function},			//0x81	OID_RT_RF_OFF
++	{1, &oid_null_function}				//0x82	OID_RT_AUTH_STATUS
++
++};
++
++const struct oid_obj_priv oid_rtl_seg_81_85[] =
++{
++	{1, &oid_rt_wireless_mode_hdl}			//0x00	OID_RT_WIRELESS_MODE
++};
++
++struct oid_obj_priv oid_rtl_seg_81_87[] =
++{
++	{1, &oid_null_function},			//0x80	OID_RT_PRO8187_WI_POLL
++	{1, &oid_rt_pro_write_bb_reg_hdl},		//0x81
++	{1, &oid_rt_pro_read_bb_reg_hdl},		//0x82
++	{1, &oid_rt_pro_write_rf_reg_hdl},		//0x82
++	{1, &oid_rt_pro_read_rf_reg_hdl}		//0x83
++};
++
++struct oid_obj_priv oid_rtl_seg_87_11_00[] =
++{
++	{1, &oid_rt_pro8711_join_bss_hdl},		//0x00  //S
++	{1, &oid_rt_pro_read_register_hdl},		//0x01
++	{1, &oid_rt_pro_write_register_hdl},		//0x02
++	{1, &oid_rt_pro_burst_read_register_hdl},	//0x03
++	{1, &oid_rt_pro_burst_write_register_hdl},	//0x04
++	{1, &oid_rt_pro_write_txcmd_hdl},		//0x05
++	{1, &oid_rt_pro_read16_eeprom_hdl},		//0x06
++	{1, &oid_rt_pro_write16_eeprom_hdl},		//0x07
++	{1, &oid_null_function},			//0x08	OID_RT_PRO_H2C_SET_COMMAND
++	{1, &oid_null_function},			//0x09	OID_RT_PRO_H2C_QUERY_RESULT
++	{1, &oid_rt_pro8711_wi_poll_hdl},		//0x0A
++	{1, &oid_rt_pro8711_pkt_loss_hdl},		//0x0B
++	{1, &oid_rt_rd_attrib_mem_hdl},			//0x0C
++	{1, &oid_rt_wr_attrib_mem_hdl},			//0x0D
++	{1, &oid_null_function},			//0x0E
++	{1, &oid_null_function},			//0x0F
++	{1, &oid_null_function},			//0x10	OID_RT_PRO_H2C_CMD_MODE
++	{1, &oid_null_function},			//0x11	OID_RT_PRO_H2C_CMD_RSP_MODE
++	{1, &oid_null_function},			//0X12	OID_RT_PRO_WAIT_C2H_EVENT
++	{1, &oid_null_function},			//0X13	OID_RT_PRO_RW_ACCESS_PROTOCOL_TEST
++	{1, &oid_null_function},			//0X14	OID_RT_PRO_SCSI_ACCESS_TEST
++	{1, &oid_null_function},			//0X15	OID_RT_PRO_SCSI_TCPIPOFFLOAD_OUT
++	{1, &oid_null_function},			//0X16	OID_RT_PRO_SCSI_TCPIPOFFLOAD_IN
++	{1, &oid_null_function},			//0X17	OID_RT_RRO_RX_PKT_VIA_IOCTRL
++	{1, &oid_null_function},			//0X18	OID_RT_RRO_RX_PKTARRAY_VIA_IOCTRL
++	{1, &oid_null_function},			//0X19	OID_RT_RPO_SET_PWRMGT_TEST
++	{1, &oid_null_function},			//0X1A
++	{1, &oid_null_function},			//0X1B	OID_RT_PRO_QRY_PWRMGT_TEST
++	{1, &oid_null_function},			//0X1C	OID_RT_RPO_ASYNC_RWIO_TEST
++	{1, &oid_null_function},			//0X1D	OID_RT_RPO_ASYNC_RWIO_POLL
++	{1, &oid_rt_pro_set_rf_intfs_hdl},		//0X1E
++	{1, &oid_rt_poll_rx_status_hdl}			//0X1F
++};
++
++struct oid_obj_priv oid_rtl_seg_87_11_20[] =
++{
++	{1, &oid_rt_pro_cfg_debug_message_hdl},		//0x20
++	{1, &oid_rt_pro_set_data_rate_ex_hdl},		//0x21
++	{1, &oid_rt_pro_set_basic_rate_hdl},		//0x22
++	{1, &oid_rt_pro_read_tssi_hdl},			//0x23
++	{1, &oid_rt_pro_set_power_tracking_hdl}		//0x24
++};
++
++
++struct oid_obj_priv oid_rtl_seg_87_11_50[] =
++{
++	{1, &oid_rt_pro_qry_pwrstate_hdl},		//0x50
++	{1, &oid_rt_pro_set_pwrstate_hdl}		//0x51
++};
++
++struct oid_obj_priv oid_rtl_seg_87_11_80[] =
++{
++	{1, &oid_null_function}				//0x80
++};
++
++struct oid_obj_priv oid_rtl_seg_87_11_B0[] =
++{
++	{1, &oid_null_function}				//0xB0
++};
++
++struct oid_obj_priv oid_rtl_seg_87_11_F0[] =
++{
++	{1, &oid_null_function},			//0xF0
++	{1, &oid_null_function},			//0xF1
++	{1, &oid_null_function},			//0xF2
++	{1, &oid_null_function},			//0xF3
++	{1, &oid_null_function},			//0xF4
++	{1, &oid_null_function},			//0xF5
++	{1, &oid_null_function},			//0xF6
++	{1, &oid_null_function},			//0xF7
++	{1, &oid_null_function},			//0xF8
++	{1, &oid_null_function},			//0xF9
++	{1, &oid_null_function},			//0xFA
++	{1, &oid_rt_pro_h2c_set_rate_table_hdl},	//0xFB
++	{1, &oid_rt_pro_h2c_get_rate_table_hdl},	//0xFC
++	{1, &oid_null_function},			//0xFD
++	{1, &oid_null_function},			//0xFE	OID_RT_PRO_H2C_C2H_LBK_TEST
++	{1, &oid_null_function}				//0xFF
++
++};
++
++struct oid_obj_priv oid_rtl_seg_87_12_00[]=
++{
++	{1, &oid_rt_pro_encryption_ctrl_hdl},		//0x00	Q&S
++	{1, &oid_rt_pro_add_sta_info_hdl},		//0x01	S
++	{1, &oid_rt_pro_dele_sta_info_hdl},		//0x02	S
++	{1, &oid_rt_pro_query_dr_variable_hdl},		//0x03	Q
++	{1, &oid_rt_pro_rx_packet_type_hdl},		//0x04	Q,S
++	{1, &oid_rt_pro_read_efuse_hdl},		//0x05	Q	OID_RT_PRO_READ_EFUSE
++	{1, &oid_rt_pro_write_efuse_hdl},		//0x06	S	OID_RT_PRO_WRITE_EFUSE
++	{1, &oid_rt_pro_rw_efuse_pgpkt_hdl},		//0x07	Q,S
++	{1, &oid_rt_get_efuse_current_size_hdl},	//0x08 	Q
++	{1, &oid_rt_set_bandwidth_hdl},			//0x09
++	{1, &oid_rt_set_crystal_cap_hdl},		//0x0a
++	{1, &oid_rt_set_rx_packet_type_hdl},		//0x0b	S
++	{1, &oid_rt_get_efuse_max_size_hdl},		//0x0c
++	{1, &oid_rt_pro_set_tx_agc_offset_hdl},		//0x0d
++	{1, &oid_rt_pro_set_pkt_test_mode_hdl},		//0x0e
++	{1, &oid_null_function},			//0x0f		OID_RT_PRO_FOR_EVM_TEST_SETTING
++	{1, &oid_rt_get_thermal_meter_hdl},		//0x10	Q	OID_RT_PRO_GET_THERMAL_METER
++	{1, &oid_rt_reset_phy_rx_packet_count_hdl},	//0x11	S	OID_RT_RESET_PHY_RX_PACKET_COUNT
++	{1, &oid_rt_get_phy_rx_packet_received_hdl},	//0x12	Q	OID_RT_GET_PHY_RX_PACKET_RECEIVED
++	{1, &oid_rt_get_phy_rx_packet_crc32_error_hdl},	//0x13	Q	OID_RT_GET_PHY_RX_PACKET_CRC32_ERROR
++	{1, &oid_rt_set_power_down_hdl},		//0x14	Q	OID_RT_SET_POWER_DOWN
++	{1, &oid_rt_get_power_mode_hdl}			//0x15	Q	OID_RT_GET_POWER_MODE
++};
++
++#else /* _RTL871X_MP_IOCTL_C_ */
++
++extern struct oid_obj_priv oid_rtl_seg_81_80_00[32];
++extern struct oid_obj_priv oid_rtl_seg_81_80_20[16];
++extern struct oid_obj_priv oid_rtl_seg_81_80_40[6];
++extern struct oid_obj_priv oid_rtl_seg_81_80_80[3];
++
++extern struct oid_obj_priv oid_rtl_seg_81_85[1];
++extern struct oid_obj_priv oid_rtl_seg_81_87[5];
++
++extern struct oid_obj_priv oid_rtl_seg_87_11_00[32];
++extern struct oid_obj_priv oid_rtl_seg_87_11_20[5];
++extern struct oid_obj_priv oid_rtl_seg_87_11_50[2];
++extern struct oid_obj_priv oid_rtl_seg_87_11_80[1];
++extern struct oid_obj_priv oid_rtl_seg_87_11_B0[1];
++extern struct oid_obj_priv oid_rtl_seg_87_11_F0[16];
++
++extern struct oid_obj_priv oid_rtl_seg_87_12_00[32];
++
++#endif /* _RTL871X_MP_IOCTL_C_ */
++
++struct rwreg_param{
++	u32 offset;
++	u32 width;
++	u32 value;
++};
++
++struct bbreg_param{
++	u32 offset;
++	u32 phymask;
++	u32 value;
++};
++/*
++struct rfchannel_param{
++	u32 ch;
++	u32 modem;
++};
++*/
++struct txpower_param{
++	u32 pwr_index;
++};
++
++
++struct datarate_param{
++	u32 rate_index;
++};
++
++
++struct rfintfs_parm {
++	u32 rfintfs;
++};
++
++typedef struct _mp_xmit_parm_ {
++	u8 enable;
++	u32 count;
++	u16 length;
++	u8 payload_type;
++	u8 da[ETH_ALEN];
++}MP_XMIT_PARM, *PMP_XMIT_PARM;
++
++struct mp_xmit_packet {
++	u32 len;
++	u32 mem[MAX_MP_XMITBUF_SZ >> 2];
++};
++
++struct psmode_param {
++	u32 ps_mode;
++	u32 smart_ps;
++};
++
++//for OID_RT_PRO_READ16_EEPROM & OID_RT_PRO_WRITE16_EEPROM
++struct eeprom_rw_param {
++	u32 offset;
++	u16 value;
++};
++
++struct mp_ioctl_handler {
++	u32 paramsize;
++	u32 (*handler)(struct oid_par_priv* poid_par_priv);
++	u32 oid;
++};
++
++struct mp_ioctl_param{
++	u32 subcode;
++	u32 len;
++	u8 data[0];
++};
++
++#define GEN_MP_IOCTL_SUBCODE(code) _MP_IOCTL_ ## code ## _CMD_
++
++enum RTL871X_MP_IOCTL_SUBCODE {
++	GEN_MP_IOCTL_SUBCODE(MP_START),			/*0*/
++	GEN_MP_IOCTL_SUBCODE(MP_STOP),
++	GEN_MP_IOCTL_SUBCODE(READ_REG),
++	GEN_MP_IOCTL_SUBCODE(WRITE_REG),
++	GEN_MP_IOCTL_SUBCODE(READ_BB_REG),
++	GEN_MP_IOCTL_SUBCODE(WRITE_BB_REG),		/*5*/
++	GEN_MP_IOCTL_SUBCODE(READ_RF_REG),
++	GEN_MP_IOCTL_SUBCODE(WRITE_RF_REG),
++	GEN_MP_IOCTL_SUBCODE(SET_CHANNEL),
++	GEN_MP_IOCTL_SUBCODE(SET_TXPOWER),
++	GEN_MP_IOCTL_SUBCODE(SET_DATARATE),		/*10*/
++	GEN_MP_IOCTL_SUBCODE(SET_BANDWIDTH),
++	GEN_MP_IOCTL_SUBCODE(SET_ANTENNA),
++	GEN_MP_IOCTL_SUBCODE(CNTU_TX),
++	GEN_MP_IOCTL_SUBCODE(SC_TX),
++	GEN_MP_IOCTL_SUBCODE(CS_TX),			/*15*/
++	GEN_MP_IOCTL_SUBCODE(ST_TX),
++	GEN_MP_IOCTL_SUBCODE(IOCTL_XMIT_PACKET),
++	GEN_MP_IOCTL_SUBCODE(SET_RX_PKT_TYPE),
++	GEN_MP_IOCTL_SUBCODE(RESET_PHY_RX_PKT_CNT),
++	GEN_MP_IOCTL_SUBCODE(GET_PHY_RX_PKT_RECV),	/*20*/
++	GEN_MP_IOCTL_SUBCODE(GET_PHY_RX_PKT_ERROR),
++	GEN_MP_IOCTL_SUBCODE(READ16_EEPROM),
++	GEN_MP_IOCTL_SUBCODE(WRITE16_EEPROM),
++	GEN_MP_IOCTL_SUBCODE(EFUSE),
++	GEN_MP_IOCTL_SUBCODE(EFUSE_MAP),		/*25*/
++	GEN_MP_IOCTL_SUBCODE(GET_EFUSE_MAX_SIZE),
++	GEN_MP_IOCTL_SUBCODE(GET_EFUSE_CURRENT_SIZE),
++	GEN_MP_IOCTL_SUBCODE(GET_THERMAL_METER),
++	GEN_MP_IOCTL_SUBCODE(SET_PTM),
++	GEN_MP_IOCTL_SUBCODE(SET_POWER_DOWN),		/*30*/
++	GEN_MP_IOCTL_SUBCODE(TRIGGER_GPIO),
++	GEN_MP_IOCTL_SUBCODE(SET_DM_BT),		/*35*/
++	GEN_MP_IOCTL_SUBCODE(DEL_BA),			/*36*/
++	GEN_MP_IOCTL_SUBCODE(GET_WIFI_STATUS),	/*37*/	
++	MAX_MP_IOCTL_SUBCODE,
++};
++
++u32 mp_ioctl_xmit_packet_hdl(struct oid_par_priv* poid_par_priv);
++
++#ifdef _RTW_MP_IOCTL_C_
++
++#define GEN_MP_IOCTL_HANDLER(sz, hdl, oid) {sz, hdl, oid},
++
++#define EXT_MP_IOCTL_HANDLER(sz, subcode, oid) {sz, mp_ioctl_ ## subcode ## _hdl, oid},
++
++
++struct mp_ioctl_handler mp_ioctl_hdl[] = {
++
++/*0*/	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_start_test_hdl, OID_RT_PRO_START_TEST)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_stop_test_hdl, OID_RT_PRO_STOP_TEST)
++
++	GEN_MP_IOCTL_HANDLER(sizeof(struct rwreg_param), oid_rt_pro_read_register_hdl, OID_RT_PRO_READ_REGISTER)
++	GEN_MP_IOCTL_HANDLER(sizeof(struct rwreg_param), oid_rt_pro_write_register_hdl, OID_RT_PRO_WRITE_REGISTER)
++	GEN_MP_IOCTL_HANDLER(sizeof(struct bb_reg_param), oid_rt_pro_read_bb_reg_hdl, OID_RT_PRO_READ_BB_REG)
++/*5*/	GEN_MP_IOCTL_HANDLER(sizeof(struct bb_reg_param), oid_rt_pro_write_bb_reg_hdl, OID_RT_PRO_WRITE_BB_REG)
++	GEN_MP_IOCTL_HANDLER(sizeof(struct rf_reg_param), oid_rt_pro_read_rf_reg_hdl, OID_RT_PRO_RF_READ_REGISTRY)
++	GEN_MP_IOCTL_HANDLER(sizeof(struct rf_reg_param), oid_rt_pro_write_rf_reg_hdl, OID_RT_PRO_RF_WRITE_REGISTRY)
++
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_channel_direct_call_hdl, OID_RT_PRO_SET_CHANNEL_DIRECT_CALL)
++	GEN_MP_IOCTL_HANDLER(sizeof(struct txpower_param), oid_rt_pro_set_tx_power_control_hdl, OID_RT_PRO_SET_TX_POWER_CONTROL)
++/*10*/	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_data_rate_hdl, OID_RT_PRO_SET_DATA_RATE)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_set_bandwidth_hdl, OID_RT_SET_BANDWIDTH)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_antenna_bb_hdl, OID_RT_PRO_SET_ANTENNA_BB)
++
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_continuous_tx_hdl, OID_RT_PRO_SET_CONTINUOUS_TX)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_single_carrier_tx_hdl, OID_RT_PRO_SET_SINGLE_CARRIER_TX)
++/*15*/	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_carrier_suppression_tx_hdl, OID_RT_PRO_SET_CARRIER_SUPPRESSION_TX)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_single_tone_tx_hdl, OID_RT_PRO_SET_SINGLE_TONE_TX)
++
++	EXT_MP_IOCTL_HANDLER(0, xmit_packet, 0)
++
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_set_rx_packet_type_hdl, OID_RT_SET_RX_PACKET_TYPE)
++	GEN_MP_IOCTL_HANDLER(0, oid_rt_reset_phy_rx_packet_count_hdl, OID_RT_RESET_PHY_RX_PACKET_COUNT)
++/*20*/	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_get_phy_rx_packet_received_hdl, OID_RT_GET_PHY_RX_PACKET_RECEIVED)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_get_phy_rx_packet_crc32_error_hdl, OID_RT_GET_PHY_RX_PACKET_CRC32_ERROR)
++
++	GEN_MP_IOCTL_HANDLER(sizeof(struct eeprom_rw_param), NULL, 0)
++	GEN_MP_IOCTL_HANDLER(sizeof(struct eeprom_rw_param), NULL, 0)
++	GEN_MP_IOCTL_HANDLER(sizeof(EFUSE_ACCESS_STRUCT), oid_rt_pro_efuse_hdl, OID_RT_PRO_EFUSE)
++/*25*/	GEN_MP_IOCTL_HANDLER(0, oid_rt_pro_efuse_map_hdl, OID_RT_PRO_EFUSE_MAP)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_get_efuse_max_size_hdl, OID_RT_GET_EFUSE_MAX_SIZE)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_get_efuse_current_size_hdl, OID_RT_GET_EFUSE_CURRENT_SIZE)
++
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_get_thermal_meter_hdl, OID_RT_PRO_GET_THERMAL_METER)
++	GEN_MP_IOCTL_HANDLER(sizeof(u8), oid_rt_pro_set_power_tracking_hdl, OID_RT_PRO_SET_POWER_TRACKING)
++/*30*/	GEN_MP_IOCTL_HANDLER(sizeof(u8), oid_rt_set_power_down_hdl, OID_RT_SET_POWER_DOWN)
++/*31*/	GEN_MP_IOCTL_HANDLER(0, oid_rt_pro_trigger_gpio_hdl, 0)
++
++
++};
++
++#else /* _RTW_MP_IOCTL_C_ */
++
++extern struct mp_ioctl_handler mp_ioctl_hdl[];
++
++#endif /* _RTW_MP_IOCTL_C_ */
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_mp_phy_regdef.h b/drivers/net/wireless/rtl8192cu/include/rtw_mp_phy_regdef.h
+new file mode 100755
+index 0000000..0b47cb5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_mp_phy_regdef.h
+@@ -0,0 +1,1097 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*****************************************************************************
++ *
++ * Module:	__RTW_MP_PHY_REGDEF_H_
++ *
++ *
++ * Note:	1. Define PMAC/BB register map
++ *			2. Define RF register map
++ *			3. PMAC/BB register bit mask.
++ *			4. RF reg bit mask.
++ *			5. Other BB/RF relative definition.
++ *			
++ *
++ * Export:	Constants, macro, functions(API), global variables(None).
++ *
++ * Abbrev:	
++ *
++ * History:
++ *	Data			Who		Remark 
++ *	08/07/2007	MHC		1. Porting from 9x series PHYCFG.h.
++ *						2. Reorganize code architecture.
++ *	09/25/2008	MH		1. Add RL6052 register definition
++ * 
++ *****************************************************************************/
++#ifndef __RTW_MP_PHY_REGDEF_H_
++#define __RTW_MP_PHY_REGDEF_H_
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++//============================================================
++//       8192S Regsiter offset definition
++//============================================================
++
++//
++// BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++// 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++// 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++// 3. RF register 0x00-2E
++// 4. Bit Mask for BB/RF register
++// 5. Other defintion for BB/RF R/W
++//
++
++
++//
++// 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++// 1. Page1(0x100)
++//
++#define		rPMAC_Reset					0x100
++#define		rPMAC_TxStart					0x104
++#define		rPMAC_TxLegacySIG				0x108
++#define		rPMAC_TxHTSIG1				0x10c
++#define		rPMAC_TxHTSIG2				0x110
++#define		rPMAC_PHYDebug				0x114
++#define		rPMAC_TxPacketNum				0x118
++#define		rPMAC_TxIdle					0x11c
++#define		rPMAC_TxMACHeader0			0x120
++#define		rPMAC_TxMACHeader1			0x124
++#define		rPMAC_TxMACHeader2			0x128
++#define		rPMAC_TxMACHeader3			0x12c
++#define		rPMAC_TxMACHeader4			0x130
++#define		rPMAC_TxMACHeader5			0x134
++#define		rPMAC_TxDataType				0x138
++#define		rPMAC_TxRandomSeed			0x13c
++#define		rPMAC_CCKPLCPPreamble			0x140
++#define		rPMAC_CCKPLCPHeader			0x144
++#define		rPMAC_CCKCRC16				0x148
++#define		rPMAC_OFDMRxCRC32OK			0x170
++#define		rPMAC_OFDMRxCRC32Er			0x174
++#define		rPMAC_OFDMRxParityEr			0x178
++#define		rPMAC_OFDMRxCRC8Er			0x17c
++#define		rPMAC_CCKCRxRC16Er			0x180
++#define		rPMAC_CCKCRxRC32Er			0x184
++#define		rPMAC_CCKCRxRC32OK			0x188
++#define		rPMAC_TxStatus					0x18c
++
++//
++// 2. Page2(0x200)
++//
++// The following two definition are only used for USB interface.
++//#define		RF_BB_CMD_ADDR				0x02c0	// RF/BB read/write command address.
++//#define		RF_BB_CMD_DATA				0x02c4	// RF/BB read/write command data.
++
++//
++// 3. Page8(0x800)
++//
++#define		rFPGA0_RFMOD				0x800	//RF mode & CCK TxSC // RF BW Setting??
++
++#define		rFPGA0_TxInfo				0x804	// Status report??
++#define		rFPGA0_PSDFunction			0x808
++
++#define		rFPGA0_TxGainStage			0x80c	// Set TX PWR init gain?
++
++#define		rFPGA0_RFTiming1			0x810	// Useless now
++#define		rFPGA0_RFTiming2			0x814
++//#define rFPGA0_XC_RFTiming        		0x818
++//#define rFPGA0_XD_RFTiming        		0x81c
++
++#define		rFPGA0_XA_HSSIParameter1		0x820	// RF 3 wire register
++#define		rFPGA0_XA_HSSIParameter2		0x824
++#define		rFPGA0_XB_HSSIParameter1		0x828
++#define		rFPGA0_XB_HSSIParameter2		0x82c
++#define		rFPGA0_XC_HSSIParameter1		0x830
++#define		rFPGA0_XC_HSSIParameter2		0x834
++#define		rFPGA0_XD_HSSIParameter1		0x838
++#define		rFPGA0_XD_HSSIParameter2		0x83c
++#define		rFPGA0_XA_LSSIParameter		0x840
++#define		rFPGA0_XB_LSSIParameter		0x844
++#define		rFPGA0_XC_LSSIParameter		0x848
++#define		rFPGA0_XD_LSSIParameter		0x84c
++
++#define		rFPGA0_RFWakeUpParameter		0x850	// Useless now
++#define		rFPGA0_RFSleepUpParameter		0x854
++
++#define		rFPGA0_XAB_SwitchControl		0x858	// RF Channel switch
++#define		rFPGA0_XCD_SwitchControl		0x85c
++
++#define		rFPGA0_XA_RFInterfaceOE		0x860	// RF Channel switch
++#define		rFPGA0_XB_RFInterfaceOE		0x864
++#define		rFPGA0_XC_RFInterfaceOE		0x868
++#define		rFPGA0_XD_RFInterfaceOE		0x86c
++
++#define		rFPGA0_XAB_RFInterfaceSW		0x870	// RF Interface Software Control
++#define		rFPGA0_XCD_RFInterfaceSW		0x874
++
++#define		rFPGA0_XAB_RFParameter		0x878	// RF Parameter
++#define		rFPGA0_XCD_RFParameter		0x87c
++
++#define		rFPGA0_AnalogParameter1		0x880	// Crystal cap setting RF-R/W protection for parameter4??
++#define		rFPGA0_AnalogParameter2		0x884
++#define		rFPGA0_AnalogParameter3		0x888	// Useless now
++#define		rFPGA0_AnalogParameter4		0x88c
++
++#define		rFPGA0_XA_LSSIReadBack		0x8a0	// Tranceiver LSSI Readback
++#define		rFPGA0_XB_LSSIReadBack		0x8a4
++#define		rFPGA0_XC_LSSIReadBack		0x8a8
++#define		rFPGA0_XD_LSSIReadBack		0x8ac
++
++#define		rFPGA0_PSDReport				0x8b4	// Useless now
++#define		rFPGA0_XAB_RFInterfaceRB		0x8e0	// Useless now // RF Interface Readback Value
++#define		rFPGA0_XCD_RFInterfaceRB		0x8e4	// Useless now
++
++//
++// 4. Page9(0x900)
++//
++#define		rFPGA1_RFMOD				0x900	//RF mode & OFDM TxSC // RF BW Setting??
++
++#define		rFPGA1_TxBlock				0x904	// Useless now
++#define		rFPGA1_DebugSelect			0x908	// Useless now
++#define		rFPGA1_TxInfo				0x90c	// Useless now // Status report??
++
++//
++// 5. PageA(0xA00)
++//
++// Set Control channel to upper or lower. These settings are required only for 40MHz
++#define		rCCK0_System				0xa00
++
++#define		rCCK0_AFESetting			0xa04	// Disable init gain now // Select RX path by RSSI
++#define		rCCK0_CCA					0xa08	// Disable init gain now // Init gain
++
++#define		rCCK0_RxAGC1				0xa0c 	//AGC default value, saturation level // Antenna Diversity, RX AGC, LNA Threshold, RX LNA Threshold useless now. Not the same as 90 series
++#define		rCCK0_RxAGC2				0xa10 	//AGC & DAGC
++
++#define		rCCK0_RxHP					0xa14
++
++#define		rCCK0_DSPParameter1		0xa18	//Timing recovery & Channel estimation threshold
++#define		rCCK0_DSPParameter2		0xa1c	//SQ threshold
++
++#define		rCCK0_TxFilter1				0xa20
++#define		rCCK0_TxFilter2				0xa24
++#define		rCCK0_DebugPort			0xa28	//debug port and Tx filter3
++#define		rCCK0_FalseAlarmReport		0xa2c	//0xa2d	useless now 0xa30-a4f channel report
++#define		rCCK0_TRSSIReport         		0xa50
++#define		rCCK0_RxReport            		0xa54  //0xa57
++#define		rCCK0_FACounterLower      	0xa5c  //0xa5b
++#define		rCCK0_FACounterUpper      	0xa58  //0xa5c
++
++//
++// 6. PageC(0xC00)
++//
++#define		rOFDM0_LSTF				0xc00
++
++#define		rOFDM0_TRxPathEnable		0xc04
++#define		rOFDM0_TRMuxPar			0xc08
++#define		rOFDM0_TRSWIsolation		0xc0c
++
++#define		rOFDM0_XARxAFE			0xc10  //RxIQ DC offset, Rx digital filter, DC notch filter
++#define		rOFDM0_XARxIQImbalance    	0xc14  //RxIQ imblance matrix
++#define		rOFDM0_XBRxAFE            		0xc18
++#define		rOFDM0_XBRxIQImbalance    	0xc1c
++#define		rOFDM0_XCRxAFE            		0xc20
++#define		rOFDM0_XCRxIQImbalance    	0xc24
++#define		rOFDM0_XDRxAFE            		0xc28
++#define		rOFDM0_XDRxIQImbalance    	0xc2c
++
++#define		rOFDM0_RxDetector1			0xc30  //PD,BW & SBD	// DM tune init gain
++#define		rOFDM0_RxDetector2			0xc34  //SBD & Fame Sync. 
++#define		rOFDM0_RxDetector3			0xc38  //Frame Sync.
++#define		rOFDM0_RxDetector4			0xc3c  //PD, SBD, Frame Sync & Short-GI
++
++#define		rOFDM0_RxDSP				0xc40  //Rx Sync Path
++#define		rOFDM0_CFOandDAGC		0xc44  //CFO & DAGC
++#define		rOFDM0_CCADropThreshold	0xc48 //CCA Drop threshold
++#define		rOFDM0_ECCAThreshold		0xc4c // energy CCA
++
++#define		rOFDM0_XAAGCCore1			0xc50	// DIG  
++#define		rOFDM0_XAAGCCore2			0xc54
++#define		rOFDM0_XBAGCCore1			0xc58
++#define		rOFDM0_XBAGCCore2			0xc5c
++#define		rOFDM0_XCAGCCore1			0xc60
++#define		rOFDM0_XCAGCCore2			0xc64
++#define		rOFDM0_XDAGCCore1			0xc68
++#define		rOFDM0_XDAGCCore2			0xc6c
++
++#define		rOFDM0_AGCParameter1			0xc70
++#define		rOFDM0_AGCParameter2			0xc74
++#define		rOFDM0_AGCRSSITable			0xc78
++#define		rOFDM0_HTSTFAGC				0xc7c
++
++#define		rOFDM0_XATxIQImbalance		0xc80	// TX PWR TRACK and DIG
++#define		rOFDM0_XATxAFE				0xc84
++#define		rOFDM0_XBTxIQImbalance		0xc88
++#define		rOFDM0_XBTxAFE				0xc8c
++#define		rOFDM0_XCTxIQImbalance		0xc90
++#define		rOFDM0_XCTxAFE            			0xc94
++#define		rOFDM0_XDTxIQImbalance		0xc98
++#define		rOFDM0_XDTxAFE				0xc9c
++#define		rOFDM0_RxIQExtAnta			0xca0
++
++#define		rOFDM0_RxHPParameter			0xce0
++#define		rOFDM0_TxPseudoNoiseWgt		0xce4
++#define		rOFDM0_FrameSync				0xcf0
++#define		rOFDM0_DFSReport				0xcf4
++#define		rOFDM0_TxCoeff1				0xca4
++#define		rOFDM0_TxCoeff2				0xca8
++#define		rOFDM0_TxCoeff3				0xcac
++#define		rOFDM0_TxCoeff4				0xcb0
++#define		rOFDM0_TxCoeff5				0xcb4
++#define		rOFDM0_TxCoeff6				0xcb8
++
++
++//
++// 7. PageD(0xD00)
++//
++#define		rOFDM1_LSTF					0xd00
++#define		rOFDM1_TRxPathEnable			0xd04
++
++#define		rOFDM1_CFO						0xd08	// No setting now
++#define		rOFDM1_CSI1					0xd10
++#define		rOFDM1_SBD						0xd14
++#define		rOFDM1_CSI2					0xd18
++#define		rOFDM1_CFOTracking			0xd2c
++#define		rOFDM1_TRxMesaure1			0xd34
++#define		rOFDM1_IntfDet					0xd3c
++#define		rOFDM1_PseudoNoiseStateAB		0xd50
++#define		rOFDM1_PseudoNoiseStateCD		0xd54
++#define		rOFDM1_RxPseudoNoiseWgt		0xd58
++
++#define		rOFDM_PHYCounter1				0xda0  //cca, parity fail
++#define		rOFDM_PHYCounter2				0xda4  //rate illegal, crc8 fail
++#define		rOFDM_PHYCounter3				0xda8  //MCS not support
++
++#define		rOFDM_ShortCFOAB				0xdac	// No setting now
++#define		rOFDM_ShortCFOCD				0xdb0
++#define		rOFDM_LongCFOAB				0xdb4
++#define		rOFDM_LongCFOCD				0xdb8
++#define		rOFDM_TailCFOAB				0xdbc
++#define		rOFDM_TailCFOCD				0xdc0
++#define		rOFDM_PWMeasure1          		0xdc4
++#define		rOFDM_PWMeasure2          		0xdc8
++#define		rOFDM_BWReport				0xdcc
++#define		rOFDM_AGCReport				0xdd0
++#define		rOFDM_RxSNR					0xdd4
++#define		rOFDM_RxEVMCSI				0xdd8
++#define		rOFDM_SIGReport				0xddc
++
++
++//
++// 8. PageE(0xE00)
++//
++#define		rTxAGC_Rate18_06				0xe00
++#define		rTxAGC_Rate54_24				0xe04
++#define		rTxAGC_CCK_Mcs32				0xe08
++#define		rTxAGC_Mcs03_Mcs00			0xe10
++#define		rTxAGC_Mcs07_Mcs04			0xe14
++#define		rTxAGC_Mcs11_Mcs08			0xe18
++#define		rTxAGC_Mcs15_Mcs12			0xe1c
++
++// Analog- control in RX_WAIT_CCA : REG: EE0 [Analog- Power & Control Register]
++#define 		rRx_Wait_CCCA					0xe70
++#define		rAnapar_Ctrl_BB					0xee0
++
++//
++// 7. RF Register 0x00-0x2E (RF 8256)
++//    RF-0222D 0x00-3F
++//
++//Zebra1
++#define RTL92SE_FPGA_VERIFY 0
++#define		rZebra1_HSSIEnable				0x0	// Useless now
++#define		rZebra1_TRxEnable1				0x1
++#define		rZebra1_TRxEnable2				0x2
++#define		rZebra1_AGC					0x4
++#define		rZebra1_ChargePump			0x5
++//#if (RTL92SE_FPGA_VERIFY == 1)
++#define		rZebra1_Channel				0x7	// RF channel switch
++//#else
++
++//#endif
++#define		rZebra1_TxGain					0x8	// Useless now
++#define		rZebra1_TxLPF					0x9
++#define		rZebra1_RxLPF					0xb
++#define		rZebra1_RxHPFCorner			0xc
++
++//Zebra4
++#define		rGlobalCtrl						0	// Useless now
++#define		rRTL8256_TxLPF					19
++#define		rRTL8256_RxLPF					11
++
++//RTL8258
++#define		rRTL8258_TxLPF					0x11	// Useless now
++#define		rRTL8258_RxLPF					0x13
++#define		rRTL8258_RSSILPF				0xa
++
++//
++// RL6052 Register definition
++//
++#define		RF_AC						0x00	// 
++
++#define		RF_IQADJ_G1				0x01	// 
++#define		RF_IQADJ_G2				0x02	// 
++#define		RF_POW_TRSW				0x05	// 
++
++#define		RF_GAIN_RX					0x06	// 
++#define		RF_GAIN_TX					0x07	// 
++
++#define		RF_TXM_IDAC				0x08	// 
++#define		RF_BS_IQGEN				0x0F	// 
++
++#define		RF_MODE1					0x10	// 
++#define		RF_MODE2					0x11	// 
++
++#define		RF_RX_AGC_HP				0x12	// 
++#define		RF_TX_AGC					0x13	// 
++#define		RF_BIAS						0x14	// 
++#define		RF_IPA						0x15	// 
++#define		RF_POW_ABILITY			0x17	// 
++#define		RF_MODE_AG				0x18	// 
++#define		rRfChannel					0x18	// RF channel and BW switch
++#define		RF_CHNLBW					0x18	// RF channel and BW switch
++#define		RF_TOP						0x19	// 
++
++#define		RF_RX_G1					0x1A	// 
++#define		RF_RX_G2					0x1B	// 
++
++#define		RF_RX_BB2					0x1C	// 
++#define		RF_RX_BB1					0x1D	// 
++
++#define		RF_RCK1					0x1E	// 
++#define		RF_RCK2					0x1F	// 
++
++#define		RF_TX_G1					0x20	// 
++#define		RF_TX_G2					0x21	// 
++#define		RF_TX_G3					0x22	// 
++
++#define		RF_TX_BB1					0x23	// 
++
++#define		RF_T_METER					0x24	// 
++
++#define		RF_SYN_G1					0x25	// RF TX Power control
++#define		RF_SYN_G2					0x26	// RF TX Power control
++#define		RF_SYN_G3					0x27	// RF TX Power control
++#define		RF_SYN_G4					0x28	// RF TX Power control
++#define		RF_SYN_G5					0x29	// RF TX Power control
++#define		RF_SYN_G6					0x2A	// RF TX Power control
++#define		RF_SYN_G7					0x2B	// RF TX Power control
++#define		RF_SYN_G8					0x2C	// RF TX Power control
++
++#define		RF_RCK_OS					0x30	// RF TX PA control
++
++#define		RF_TXPA_G1					0x31	// RF TX PA control
++#define		RF_TXPA_G2					0x32	// RF TX PA control
++#define		RF_TXPA_G3					0x33	// RF TX PA control
++
++//
++//Bit Mask
++//
++// 1. Page1(0x100)
++#define		bBBResetB						0x100	// Useless now?
++#define		bGlobalResetB					0x200
++#define		bOFDMTxStart					0x4
++#define		bCCKTxStart						0x8
++#define		bCRC32Debug					0x100
++#define		bPMACLoopback					0x10
++#define		bTxLSIG							0xffffff
++#define		bOFDMTxRate					0xf
++#define		bOFDMTxReserved				0x10
++#define		bOFDMTxLength					0x1ffe0
++#define		bOFDMTxParity					0x20000
++#define		bTxHTSIG1						0xffffff
++#define		bTxHTMCSRate					0x7f
++#define		bTxHTBW						0x80
++#define		bTxHTLength					0xffff00
++#define		bTxHTSIG2						0xffffff
++#define		bTxHTSmoothing					0x1
++#define		bTxHTSounding					0x2
++#define		bTxHTReserved					0x4
++#define		bTxHTAggreation				0x8
++#define		bTxHTSTBC						0x30
++#define		bTxHTAdvanceCoding			0x40
++#define		bTxHTShortGI					0x80
++#define		bTxHTNumberHT_LTF			0x300
++#define		bTxHTCRC8						0x3fc00
++#define		bCounterReset					0x10000
++#define		bNumOfOFDMTx					0xffff
++#define		bNumOfCCKTx					0xffff0000
++#define		bTxIdleInterval					0xffff
++#define		bOFDMService					0xffff0000
++#define		bTxMACHeader					0xffffffff
++#define		bTxDataInit						0xff
++#define		bTxHTMode						0x100
++#define		bTxDataType					0x30000
++#define		bTxRandomSeed					0xffffffff
++#define		bCCKTxPreamble					0x1
++#define		bCCKTxSFD						0xffff0000
++#define		bCCKTxSIG						0xff
++#define		bCCKTxService					0xff00
++#define		bCCKLengthExt					0x8000
++#define		bCCKTxLength					0xffff0000
++#define		bCCKTxCRC16					0xffff
++#define		bCCKTxStatus					0x1
++#define		bOFDMTxStatus					0x2
++
++#define 		IS_BB_REG_OFFSET_92S(_Offset)		((_Offset >= 0x800) && (_Offset <= 0xfff))
++
++// 2. Page8(0x800)
++#define		bRFMOD							0x1	// Reg 0x800 rFPGA0_RFMOD
++#define		bJapanMode						0x2
++#define		bCCKTxSC						0x30
++#define		bCCKEn							0x1000000
++#define		bOFDMEn						0x2000000
++
++#define		bOFDMRxADCPhase           		0x10000	// Useless now
++#define		bOFDMTxDACPhase           		0x40000
++#define		bXATxAGC                  			0x3f
++
++#define		bXBTxAGC                  			0xf00	// Reg 80c rFPGA0_TxGainStage
++#define		bXCTxAGC                  			0xf000
++#define		bXDTxAGC                  			0xf0000
++       		
++#define		bPAStart                  			0xf0000000	// Useless now
++#define		bTRStart                  			0x00f00000
++#define		bRFStart                  			0x0000f000
++#define		bBBStart                  			0x000000f0
++#define		bBBCCKStart               		0x0000000f
++#define		bPAEnd                    			0xf          //Reg0x814
++#define		bTREnd                    			0x0f000000
++#define		bRFEnd                    			0x000f0000
++#define		bCCAMask                  			0x000000f0   //T2R
++#define		bR2RCCAMask               		0x00000f00
++#define		bHSSI_R2TDelay            		0xf8000000
++#define		bHSSI_T2RDelay            		0xf80000
++#define		bContTxHSSI               		0x400     //chane gain at continue Tx
++#define		bIGFromCCK                		0x200
++#define		bAGCAddress               		0x3f
++#define		bRxHPTx                   			0x7000
++#define		bRxHPT2R                  			0x38000
++#define		bRxHPCCKIni               		0xc0000
++#define		bAGCTxCode                		0xc00000
++#define		bAGCRxCode                		0x300000
++
++#define		b3WireDataLength          		0x800	// Reg 0x820~84f rFPGA0_XA_HSSIParameter1
++#define		b3WireAddressLength       		0x400
++
++#define		b3WireRFPowerDown         		0x1	// Useless now
++//#define bHWSISelect               		0x8
++#define		b5GPAPEPolarity           		0x40000000
++#define		b2GPAPEPolarity           		0x80000000
++#define		bRFSW_TxDefaultAnt        		0x3
++#define		bRFSW_TxOptionAnt         		0x30
++#define		bRFSW_RxDefaultAnt        		0x300
++#define		bRFSW_RxOptionAnt         		0x3000
++#define		bRFSI_3WireData           		0x1
++#define		bRFSI_3WireClock          		0x2
++#define		bRFSI_3WireLoad           		0x4
++#define		bRFSI_3WireRW             		0x8
++#define		bRFSI_3Wire               			0xf
++
++#define		bRFSI_RFENV               		0x10	// Reg 0x870 rFPGA0_XAB_RFInterfaceSW
++
++#define		bRFSI_TRSW                		0x20	// Useless now
++#define		bRFSI_TRSWB               		0x40
++#define		bRFSI_ANTSW               		0x100
++#define		bRFSI_ANTSWB              		0x200
++#define		bRFSI_PAPE                			0x400
++#define		bRFSI_PAPE5G              		0x800 
++#define		bBandSelect               			0x1
++#define		bHTSIG2_GI                			0x80
++#define		bHTSIG2_Smoothing         		0x01
++#define		bHTSIG2_Sounding          		0x02
++#define		bHTSIG2_Aggreaton         		0x08
++#define		bHTSIG2_STBC              		0x30
++#define		bHTSIG2_AdvCoding         		0x40
++#define		bHTSIG2_NumOfHTLTF        	0x300
++#define		bHTSIG2_CRC8              		0x3fc
++#define		bHTSIG1_MCS               		0x7f
++#define		bHTSIG1_BandWidth         		0x80
++#define		bHTSIG1_HTLength          		0xffff
++#define		bLSIG_Rate                			0xf
++#define		bLSIG_Reserved            		0x10
++#define		bLSIG_Length              		0x1fffe
++#define		bLSIG_Parity              			0x20
++#define		bCCKRxPhase               		0x4
++#if (RTL92SE_FPGA_VERIFY == 1)
++#define		bLSSIReadAddress          		0x3f000000   //LSSI "Read" Address	// Reg 0x824 rFPGA0_XA_HSSIParameter2
++#else
++#define		bLSSIReadAddress          		0x7f800000   // T65 RF
++#endif
++#define		bLSSIReadEdge             		0x80000000   //LSSI "Read" edge signal
++#if (RTL92SE_FPGA_VERIFY == 1)
++#define		bLSSIReadBackData         		0xfff		// Reg 0x8a0 rFPGA0_XA_LSSIReadBack
++#else
++#define		bLSSIReadBackData         		0xfffff		// T65 RF
++#endif
++#define		bLSSIReadOKFlag           		0x1000	// Useless now
++#define		bCCKSampleRate            		0x8       //0: 44MHz, 1:88MHz       		
++#define		bRegulator0Standby        		0x1
++#define		bRegulatorPLLStandby      		0x2
++#define		bRegulator1Standby        		0x4
++#define		bPLLPowerUp               		0x8
++#define		bDPLLPowerUp              		0x10
++#define		bDA10PowerUp              		0x20
++#define		bAD7PowerUp               		0x200
++#define		bDA6PowerUp               		0x2000
++#define		bXtalPowerUp              		0x4000
++#define		b40MDClkPowerUP           		0x8000
++#define		bDA6DebugMode             		0x20000
++#define		bDA6Swing                 			0x380000
++
++#define		bADClkPhase               		0x4000000	// Reg 0x880 rFPGA0_AnalogParameter1 20/40 CCK support switch 40/80 BB MHZ
++
++#define		b80MClkDelay              		0x18000000	// Useless
++#define		bAFEWatchDogEnable        		0x20000000
++
++#define		bXtalCap01                			0xc0000000	// Reg 0x884 rFPGA0_AnalogParameter2 Crystal cap
++#define		bXtalCap23                			0x3
++#define		bXtalCap92x					0x0f000000
++#define 		bXtalCap                			0x0f000000
++
++#define		bIntDifClkEnable          		0x400	// Useless
++#define		bExtSigClkEnable         	 	0x800
++#define		bBandgapMbiasPowerUp      	0x10000
++#define		bAD11SHGain               		0xc0000
++#define		bAD11InputRange           		0x700000
++#define		bAD11OPCurrent            		0x3800000
++#define		bIPathLoopback            		0x4000000
++#define		bQPathLoopback            		0x8000000
++#define		bAFELoopback              		0x10000000
++#define		bDA10Swing                		0x7e0
++#define		bDA10Reverse              		0x800
++#define		bDAClkSource              		0x1000
++#define		bAD7InputRange            		0x6000
++#define		bAD7Gain                  			0x38000
++#define		bAD7OutputCMMode          		0x40000
++#define		bAD7InputCMMode           		0x380000
++#define		bAD7Current               			0xc00000
++#define		bRegulatorAdjust          		0x7000000
++#define		bAD11PowerUpAtTx          		0x1
++#define		bDA10PSAtTx               		0x10
++#define		bAD11PowerUpAtRx          		0x100
++#define		bDA10PSAtRx               		0x1000       		
++#define		bCCKRxAGCFormat           		0x200       		
++#define		bPSDFFTSamplepPoint       		0xc000
++#define		bPSDAverageNum            		0x3000
++#define		bIQPathControl            		0xc00
++#define		bPSDFreq                  			0x3ff
++#define		bPSDAntennaPath           		0x30
++#define		bPSDIQSwitch              		0x40
++#define		bPSDRxTrigger             		0x400000
++#define		bPSDTxTrigger             		0x80000000
++#define		bPSDSineToneScale        		0x7f000000
++#define		bPSDReport                			0xffff
++
++// 3. Page9(0x900)
++#define		bOFDMTxSC                 		0x30000000	// Useless
++#define		bCCKTxOn                  			0x1
++#define		bOFDMTxOn                 		0x2
++#define		bDebugPage                		0xfff  //reset debug page and also HWord, LWord
++#define		bDebugItem                		0xff   //reset debug page and LWord
++#define		bAntL              	       		0x10
++#define		bAntNonHT           	      			0x100
++#define		bAntHT1               			0x1000
++#define		bAntHT2                   			0x10000
++#define		bAntHT1S1                 			0x100000
++#define		bAntNonHTS1               		0x1000000
++
++// 4. PageA(0xA00)
++#define		bCCKBBMode                		0x3	// Useless
++#define		bCCKTxPowerSaving         		0x80
++#define		bCCKRxPowerSaving         		0x40
++
++#define		bCCKSideBand              		0x10	// Reg 0xa00 rCCK0_System 20/40 switch
++
++#define		bCCKScramble              		0x8	// Useless
++#define		bCCKAntDiversity    		      	0x8000
++#define		bCCKCarrierRecovery   	    	0x4000
++#define		bCCKTxRate           		     	0x3000
++#define		bCCKDCCancel             	 	0x0800
++#define		bCCKISICancel             		0x0400
++#define		bCCKMatchFilter           		0x0200
++#define		bCCKEqualizer             		0x0100
++#define		bCCKPreambleDetect       	 	0x800000
++#define		bCCKFastFalseCCA          		0x400000
++#define		bCCKChEstStart            		0x300000
++#define		bCCKCCACount              		0x080000
++#define		bCCKcs_lim                			0x070000
++#define		bCCKBistMode              		0x80000000
++#define		bCCKCCAMask             	  	0x40000000
++#define		bCCKTxDACPhase         	   	0x4
++#define		bCCKRxADCPhase         	   	0x20000000   //r_rx_clk
++#define		bCCKr_cp_mode0         	   	0x0100
++#define		bCCKTxDCOffset           	 	0xf0
++#define		bCCKRxDCOffset           	 	0xf
++#define		bCCKCCAMode              	 	0xc000
++#define		bCCKFalseCS_lim           		0x3f00
++#define		bCCKCS_ratio              		0xc00000
++#define		bCCKCorgBit_sel           		0x300000
++#define		bCCKPD_lim                			0x0f0000
++#define		bCCKNewCCA                		0x80000000
++#define		bCCKRxHPofIG              		0x8000
++#define		bCCKRxIG                  			0x7f00
++#define		bCCKLNAPolarity           		0x800000
++#define		bCCKRx1stGain             		0x7f0000
++#define		bCCKRFExtend              		0x20000000 //CCK Rx Iinital gain polarity
++#define		bCCKRxAGCSatLevel        	 	0x1f000000
++#define		bCCKRxAGCSatCount       	  	0xe0
++#define		bCCKRxRFSettle            		0x1f       //AGCsamp_dly
++#define		bCCKFixedRxAGC           	 	0x8000
++//#define bCCKRxAGCFormat         	 	0x4000   //remove to HSSI register 0x824
++#define		bCCKAntennaPolarity      	 	0x2000
++#define		bCCKTxFilterType          		0x0c00
++#define		bCCKRxAGCReportType   	   	0x0300
++#define		bCCKRxDAGCEn              		0x80000000
++#define		bCCKRxDAGCPeriod        	  	0x20000000
++#define		bCCKRxDAGCSatLevel     	   	0x1f000000
++#define		bCCKTimingRecovery       	 	0x800000
++#define		bCCKTxC0                  			0x3f0000
++#define		bCCKTxC1                  			0x3f000000
++#define		bCCKTxC2                  			0x3f
++#define		bCCKTxC3                  			0x3f00
++#define		bCCKTxC4                  			0x3f0000
++#define		bCCKTxC5                  			0x3f000000
++#define		bCCKTxC6                  			0x3f
++#define		bCCKTxC7                  			0x3f00
++#define		bCCKDebugPort             		0xff0000
++#define		bCCKDACDebug              		0x0f000000
++#define		bCCKFalseAlarmEnable      		0x8000
++#define		bCCKFalseAlarmRead        		0x4000
++#define		bCCKTRSSI                 			0x7f
++#define		bCCKRxAGCReport           		0xfe
++#define		bCCKRxReport_AntSel       		0x80000000
++#define		bCCKRxReport_MFOff        		0x40000000
++#define		bCCKRxRxReport_SQLoss     	0x20000000
++#define		bCCKRxReport_Pktloss      		0x10000000
++#define		bCCKRxReport_Lockedbit    	0x08000000
++#define		bCCKRxReport_RateError    	0x04000000
++#define		bCCKRxReport_RxRate       		0x03000000
++#define		bCCKRxFACounterLower      	0xff
++#define		bCCKRxFACounterUpper      	0xff000000
++#define		bCCKRxHPAGCStart          		0xe000
++#define		bCCKRxHPAGCFinal          		0x1c00       		
++#define		bCCKRxFalseAlarmEnable    	0x8000
++#define		bCCKFACounterFreeze       		0x4000       		
++#define		bCCKTxPathSel             		0x10000000
++#define		bCCKDefaultRxPath         		0xc000000
++#define		bCCKOptionRxPath          		0x3000000
++
++// 5. PageC(0xC00)
++#define		bNumOfSTF                			0x3	// Useless
++#define		bShift_L                 			0xc0
++#define		bGI_TH                   			0xc
++#define		bRxPathA                 			0x1
++#define		bRxPathB                 			0x2
++#define		bRxPathC                 			0x4
++#define		bRxPathD                 			0x8
++#define		bTxPathA                 			0x1
++#define		bTxPathB                 			0x2
++#define		bTxPathC                 			0x4
++#define		bTxPathD                 			0x8
++#define		bTRSSIFreq               			0x200
++#define		bADCBackoff              			0x3000
++#define		bDFIRBackoff             			0xc000
++#define		bTRSSILatchPhase         		0x10000
++#define		bRxIDCOffset             			0xff
++#define		bRxQDCOffset             			0xff00
++#define		bRxDFIRMode              		0x1800000
++#define		bRxDCNFType              		0xe000000
++#define		bRXIQImb_A               			0x3ff
++#define		bRXIQImb_B               			0xfc00
++#define		bRXIQImb_C               			0x3f0000
++#define		bRXIQImb_D               			0xffc00000
++#define		bDC_dc_Notch             		0x60000
++#define		bRxNBINotch              			0x1f000000
++#define		bPD_TH                   			0xf
++#define		bPD_TH_Opt2              		0xc000
++#define		bPWED_TH                 			0x700
++#define		bIfMF_Win_L              			0x800
++#define		bPD_Option               			0x1000
++#define		bMF_Win_L                			0xe000
++#define		bBW_Search_L             		0x30000
++#define		bwin_enh_L               			0xc0000
++#define		bBW_TH                   			0x700000
++#define		bED_TH2                  			0x3800000
++#define		bBW_option               			0x4000000
++#define		bRatio_TH                			0x18000000
++#define		bWindow_L                			0xe0000000
++#define		bSBD_Option              			0x1
++#define		bFrame_TH                			0x1c
++#define		bFS_Option               			0x60
++#define		bDC_Slope_check          		0x80
++#define		bFGuard_Counter_DC_L     		0xe00
++#define		bFrame_Weight_Short      		0x7000
++#define		bSub_Tune                			0xe00000
++#define		bFrame_DC_Length         		0xe000000
++#define		bSBD_start_offset        		0x30000000
++#define		bFrame_TH_2              		0x7
++#define		bFrame_GI2_TH            		0x38
++#define		bGI2_Sync_en             		0x40
++#define		bSarch_Short_Early       		0x300
++#define		bSarch_Short_Late        		0xc00
++#define		bSarch_GI2_Late          		0x70000
++#define		bCFOAntSum               		0x1
++#define		bCFOAcc                  			0x2
++#define		bCFOStartOffset          		0xc
++#define		bCFOLookBack             		0x70
++#define		bCFOSumWeight            		0x80
++#define		bDAGCEnable              			0x10000
++#define		bTXIQImb_A               			0x3ff
++#define		bTXIQImb_B               			0xfc00
++#define		bTXIQImb_C               			0x3f0000
++#define		bTXIQImb_D               			0xffc00000
++#define		bTxIDCOffset             			0xff
++#define		bTxQDCOffset             			0xff00
++#define		bTxDFIRMode              		0x10000
++#define		bTxPesudoNoiseOn         		0x4000000
++#define		bTxPesudoNoise_A         		0xff
++#define		bTxPesudoNoise_B         		0xff00
++#define		bTxPesudoNoise_C         		0xff0000
++#define		bTxPesudoNoise_D         		0xff000000
++#define		bCCADropOption           		0x20000
++#define		bCCADropThres            		0xfff00000
++#define		bEDCCA_H                 			0xf
++#define		bEDCCA_L                 			0xf0
++#define		bLambda_ED               0x300
++#define		bRxInitialGain           0x7f
++#define		bRxAntDivEn              0x80
++#define		bRxAGCAddressForLNA      0x7f00
++#define		bRxHighPowerFlow         0x8000
++#define		bRxAGCFreezeThres        0xc0000
++#define		bRxFreezeStep_AGC1       0x300000
++#define		bRxFreezeStep_AGC2       0xc00000
++#define		bRxFreezeStep_AGC3       0x3000000
++#define		bRxFreezeStep_AGC0       0xc000000
++#define		bRxRssi_Cmp_En           0x10000000
++#define		bRxQuickAGCEn            0x20000000
++#define		bRxAGCFreezeThresMode    0x40000000
++#define		bRxOverFlowCheckType     0x80000000
++#define		bRxAGCShift              0x7f
++#define		bTRSW_Tri_Only           0x80
++#define		bPowerThres              0x300
++#define		bRxAGCEn                 0x1
++#define		bRxAGCTogetherEn         0x2
++#define		bRxAGCMin                0x4
++#define		bRxHP_Ini                0x7
++#define		bRxHP_TRLNA              0x70
++#define		bRxHP_RSSI               0x700
++#define		bRxHP_BBP1               0x7000
++#define		bRxHP_BBP2               0x70000
++#define		bRxHP_BBP3               0x700000
++#define		bRSSI_H                  0x7f0000     //the threshold for high power
++#define		bRSSI_Gen                0x7f000000   //the threshold for ant diversity
++#define		bRxSettle_TRSW           0x7
++#define		bRxSettle_LNA            0x38
++#define		bRxSettle_RSSI           0x1c0
++#define		bRxSettle_BBP            0xe00
++#define		bRxSettle_RxHP           0x7000
++#define		bRxSettle_AntSW_RSSI     0x38000
++#define		bRxSettle_AntSW          0xc0000
++#define		bRxProcessTime_DAGC      0x300000
++#define		bRxSettle_HSSI           0x400000
++#define		bRxProcessTime_BBPPW     0x800000
++#define		bRxAntennaPowerShift     0x3000000
++#define		bRSSITableSelect         0xc000000
++#define		bRxHP_Final              0x7000000
++#define		bRxHTSettle_BBP          0x7
++#define		bRxHTSettle_HSSI         0x8
++#define		bRxHTSettle_RxHP         0x70
++#define		bRxHTSettle_BBPPW        0x80
++#define		bRxHTSettle_Idle         0x300
++#define		bRxHTSettle_Reserved     0x1c00
++#define		bRxHTRxHPEn              0x8000
++#define		bRxHTAGCFreezeThres      0x30000
++#define		bRxHTAGCTogetherEn       0x40000
++#define		bRxHTAGCMin              0x80000
++#define		bRxHTAGCEn               0x100000
++#define		bRxHTDAGCEn              0x200000
++#define		bRxHTRxHP_BBP            0x1c00000
++#define		bRxHTRxHP_Final          0xe0000000
++#define		bRxPWRatioTH             0x3
++#define		bRxPWRatioEn             0x4
++#define		bRxMFHold                0x3800
++#define		bRxPD_Delay_TH1          0x38
++#define		bRxPD_Delay_TH2          0x1c0
++#define		bRxPD_DC_COUNT_MAX       0x600
++//#define bRxMF_Hold               0x3800
++#define		bRxPD_Delay_TH           0x8000
++#define		bRxProcess_Delay         0xf0000
++#define		bRxSearchrange_GI2_Early 0x700000
++#define		bRxFrame_Guard_Counter_L 0x3800000
++#define		bRxSGI_Guard_L           0xc000000
++#define		bRxSGI_Search_L          0x30000000
++#define		bRxSGI_TH                0xc0000000
++#define		bDFSCnt0                 0xff
++#define		bDFSCnt1                 0xff00
++#define		bDFSFlag                 0xf0000       		
++#define		bMFWeightSum             0x300000
++#define		bMinIdxTH                0x7f000000       		
++#define		bDAFormat                0x40000       		
++#define		bTxChEmuEnable           0x01000000       		
++#define		bTRSWIsolation_A         0x7f
++#define		bTRSWIsolation_B         0x7f00
++#define		bTRSWIsolation_C         0x7f0000
++#define		bTRSWIsolation_D         0x7f000000       		
++#define		bExtLNAGain              0x7c00          
++
++// 6. PageE(0xE00)
++#define		bSTBCEn                  0x4	// Useless
++#define		bAntennaMapping          0x10
++#define		bNss                     0x20
++#define		bCFOAntSumD              0x200
++#define		bPHYCounterReset         0x8000000
++#define		bCFOReportGet            0x4000000
++#define		bOFDMContinueTx          0x10000000
++#define		bOFDMSingleCarrier       0x20000000
++#define		bOFDMSingleTone          0x40000000
++//#define bRxPath1                 0x01
++//#define bRxPath2                 0x02
++//#define bRxPath3                 0x04
++//#define bRxPath4                 0x08
++//#define bTxPath1                 0x10
++//#define bTxPath2                 0x20
++#define		bHTDetect                0x100
++#define		bCFOEn                   0x10000
++#define		bCFOValue                0xfff00000
++#define		bSigTone_Re              0x3f
++#define		bSigTone_Im              0x7f00
++#define		bCounter_CCA             0xffff
++#define		bCounter_ParityFail      0xffff0000
++#define		bCounter_RateIllegal     0xffff
++#define		bCounter_CRC8Fail        0xffff0000
++#define		bCounter_MCSNoSupport    0xffff
++#define		bCounter_FastSync        0xffff
++#define		bShortCFO                0xfff
++#define		bShortCFOTLength         12   //total
++#define		bShortCFOFLength         11   //fraction
++#define		bLongCFO                 0x7ff
++#define		bLongCFOTLength          11
++#define		bLongCFOFLength          11
++#define		bTailCFO                 0x1fff
++#define		bTailCFOTLength          13
++#define		bTailCFOFLength          12       		
++#define		bmax_en_pwdB             0xffff
++#define		bCC_power_dB             0xffff0000
++#define		bnoise_pwdB              0xffff
++#define		bPowerMeasTLength        10
++#define		bPowerMeasFLength        3
++#define		bRx_HT_BW                0x1
++#define		bRxSC                    0x6
++#define		bRx_HT                   0x8       		
++#define		bNB_intf_det_on          0x1
++#define		bIntf_win_len_cfg        0x30
++#define		bNB_Intf_TH_cfg          0x1c0       		
++#define		bRFGain                  0x3f
++#define		bTableSel                0x40
++#define		bTRSW                    0x80       		
++#define		bRxSNR_A                 0xff
++#define		bRxSNR_B                 0xff00
++#define		bRxSNR_C                 0xff0000
++#define		bRxSNR_D                 0xff000000
++#define		bSNREVMTLength           8
++#define		bSNREVMFLength           1       		
++#define		bCSI1st                  0xff
++#define		bCSI2nd                  0xff00
++#define		bRxEVM1st                0xff0000
++#define		bRxEVM2nd                0xff000000       		
++#define		bSIGEVM                  0xff
++#define		bPWDB                    0xff00
++#define		bSGIEN                   0x10000
++       		
++#define		bSFactorQAM1             0xf	// Useless
++#define		bSFactorQAM2             0xf0
++#define		bSFactorQAM3             0xf00
++#define		bSFactorQAM4             0xf000
++#define		bSFactorQAM5             0xf0000
++#define		bSFactorQAM6             0xf0000
++#define		bSFactorQAM7             0xf00000
++#define		bSFactorQAM8             0xf000000
++#define		bSFactorQAM9             0xf0000000
++#define		bCSIScheme               0x100000
++       		
++#define		bNoiseLvlTopSet          0x3	// Useless
++#define		bChSmooth                0x4
++#define		bChSmoothCfg1            0x38
++#define		bChSmoothCfg2            0x1c0
++#define		bChSmoothCfg3            0xe00
++#define		bChSmoothCfg4            0x7000
++#define		bMRCMode                 0x800000
++#define		bTHEVMCfg                0x7000000
++       		
++#define		bLoopFitType             0x1	// Useless
++#define		bUpdCFO                  0x40
++#define		bUpdCFOOffData           0x80
++#define		bAdvUpdCFO               0x100
++#define		bAdvTimeCtrl             0x800
++#define		bUpdClko                 0x1000
++#define		bFC                      0x6000
++#define		bTrackingMode            0x8000
++#define		bPhCmpEnable             0x10000
++#define		bUpdClkoLTF              0x20000
++#define		bComChCFO                0x40000
++#define		bCSIEstiMode             0x80000
++#define		bAdvUpdEqz               0x100000
++#define		bUChCfg                  0x7000000
++#define		bUpdEqz                  0x8000000
++
++#define		bTxAGCRate18_06			0x7f7f7f7f	// Useless
++#define		bTxAGCRate54_24			0x7f7f7f7f
++#define		bTxAGCRateMCS32			0x7f
++#define		bTxAGCRateCCK			0x7f00
++#define		bTxAGCRateMCS3_MCS0		0x7f7f7f7f
++#define		bTxAGCRateMCS7_MCS4		0x7f7f7f7f
++#define		bTxAGCRateMCS11_MCS8	0x7f7f7f7f
++#define		bTxAGCRateMCS15_MCS12	0x7f7f7f7f
++
++//Rx Pseduo noise
++#define		bRxPesudoNoiseOn         0x20000000	// Useless
++#define		bRxPesudoNoise_A         0xff
++#define		bRxPesudoNoise_B         0xff00
++#define		bRxPesudoNoise_C         0xff0000
++#define		bRxPesudoNoise_D         0xff000000
++#define		bPesudoNoiseState_A      0xffff
++#define		bPesudoNoiseState_B      0xffff0000
++#define		bPesudoNoiseState_C      0xffff
++#define		bPesudoNoiseState_D      0xffff0000
++
++//7. RF Register
++//Zebra1
++#define		bZebra1_HSSIEnable        0x8		// Useless
++#define		bZebra1_TRxControl        0xc00
++#define		bZebra1_TRxGainSetting    0x07f
++#define		bZebra1_RxCorner          0xc00
++#define		bZebra1_TxChargePump      0x38
++#define		bZebra1_RxChargePump      0x7
++#define		bZebra1_ChannelNum        0xf80
++#define		bZebra1_TxLPFBW           0x400
++#define		bZebra1_RxLPFBW           0x600
++
++//Zebra4
++#define		bRTL8256RegModeCtrl1      0x100	// Useless
++#define		bRTL8256RegModeCtrl0      0x40
++#define		bRTL8256_TxLPFBW          0x18
++#define		bRTL8256_RxLPFBW          0x600
++
++//RTL8258
++#define		bRTL8258_TxLPFBW          0xc	// Useless
++#define		bRTL8258_RxLPFBW          0xc00
++#define		bRTL8258_RSSILPFBW        0xc0
++
++
++//
++// Other Definition
++//
++
++//byte endable for sb_write
++#define		bByte0                    0x1	// Useless
++#define		bByte1                    0x2
++#define		bByte2                    0x4
++#define		bByte3                    0x8
++#define		bWord0                    0x3
++#define		bWord1                    0xc
++#define		bDWord                    0xf
++
++//for PutRegsetting & GetRegSetting BitMask
++#define		bMaskByte0		0xff	// Reg 0xc50 rOFDM0_XAAGCCore~0xC6f
++#define		bMaskByte1		0xff00
++#define		bMaskByte2		0xff0000
++#define		bMaskByte3		0xff000000
++#define		bMaskHWord		0xffff0000
++#define		bMaskLWord		0x0000ffff
++#define		bMaskDWord		0xffffffff
++#define		bMaskH4Bits		0xf0000000	
++#define 	bMaskOFDM_D		0xffc00000
++#define		bMaskCCK		0x3f3f3f3f
++#define		bMask12Bits		0xfff
++
++//for PutRFRegsetting & GetRFRegSetting BitMask
++#if (RTL92SE_FPGA_VERIFY == 1)
++//#define		bMask12Bits               0xfff	// RF Reg mask bits
++//#define		bMask20Bits               0xfff	// RF Reg mask bits T65 RF
++#define 		bRFRegOffsetMask	0xfff		
++#else
++//#define		bMask12Bits               0xfffff	// RF Reg mask bits
++//#define		bMask20Bits               0xfffff	// RF Reg mask bits T65 RF
++#define 		bRFRegOffsetMask	0xfffff		
++#endif       		
++#define		bEnable                   0x1	// Useless
++#define		bDisable                  0x0
++       		
++#define		LeftAntenna               0x0	// Useless
++#define		RightAntenna              0x1
++       		
++#define		tCheckTxStatus            500   //500ms // Useless
++#define		tUpdateRxCounter          100   //100ms
++       		
++#define		rateCCK     0	// Useless
++#define		rateOFDM    1
++#define		rateHT      2
++
++//define Register-End
++#define		bPMAC_End                 0x1ff	// Useless
++#define		bFPGAPHY0_End             0x8ff
++#define		bFPGAPHY1_End             0x9ff
++#define		bCCKPHY0_End              0xaff
++#define		bOFDMPHY0_End             0xcff
++#define		bOFDMPHY1_End             0xdff
++
++//define max debug item in each debug page
++//#define bMaxItem_FPGA_PHY0        0x9
++//#define bMaxItem_FPGA_PHY1        0x3
++//#define bMaxItem_PHY_11B          0x16
++//#define bMaxItem_OFDM_PHY0        0x29
++//#define bMaxItem_OFDM_PHY1        0x0
++
++#define		bPMACControl	0x0		// Useless
++#define		bWMACControl	0x1
++#define		bWNICControl	0x2
++
++#if 0
++#define		ANTENNA_A	0x1	// Useless
++#define		ANTENNA_B	0x2
++#define		ANTENNA_AB	0x3	// ANTENNA_A|ANTENNA_B
++
++#define		ANTENNA_C	0x4
++#define		ANTENNA_D	0x8
++#endif
++
++#define RCR_AAP			BIT(0)				// accept all physical address
++#define RCR_APM			BIT(1)				// accept physical match
++#define RCR_AM			BIT(2)				// accept multicast
++#define RCR_AB			BIT(3)				// accept broadcast
++#define RCR_ACRC32		BIT(5)				// accept error packet
++#define RCR_9356SEL		BIT(6)
++#define RCR_AICV		BIT(12)				// Accept ICV error packet
++#define RCR_RXFTH0		(BIT(13)|BIT(14)|BIT(15))	// Rx FIFO threshold
++#define RCR_ADF			BIT(18)				// Accept Data(frame type) frame
++#define RCR_ACF			BIT(19)				// Accept control frame
++#define RCR_AMF			BIT(20)				// Accept management frame
++#define RCR_ADD3		BIT(21)
++#define RCR_APWRMGT		BIT(22)				// Accept power management packet
++#define RCR_CBSSID		BIT(23)				// Accept BSSID match packet
++#define RCR_ENMARP		BIT(28)				// enable mac auto reset phy
++#define RCR_EnCS1		BIT(29)				// enable carrier sense method 1
++#define RCR_EnCS2		BIT(30)				// enable carrier sense method 2
++#define RCR_OnlyErlPkt		BIT(31)				// Rx Early mode is performed for packet size greater than 1536
++
++/*--------------------------Define Parameters-------------------------------*/
++
++
++#endif	//__INC_HAL8192SPHYREG_H
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_p2p.h b/drivers/net/wireless/rtl8192cu/include/rtw_p2p.h
+new file mode 100755
+index 0000000..4249bc9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_p2p.h
+@@ -0,0 +1,161 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_P2P_H_
++#define __RTW_P2P_H_
++
++#include <drv_types.h>
++
++u32 build_beacon_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_probe_resp_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_prov_disc_request_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf, u8* pssid, u8 ussidlen, u8* pdev_raddr );
++u32 build_assoc_resp_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf, u8 status_code);
++u32 build_deauth_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++#ifdef CONFIG_WFD
++u32 build_probe_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_probe_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf, u8 tunneled);
++u32 build_beacon_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_nego_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_nego_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_nego_confirm_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_invitation_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_invitation_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_assoc_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_assoc_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_provdisc_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_provdisc_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++#endif //CONFIG_WFD
++
++u32 process_probe_req_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pframe, uint len);
++u32 process_assoc_req_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pframe, uint len, struct sta_info *psta);
++u32 process_p2p_devdisc_req(struct wifidirect_info *pwdinfo, u8 *pframe, uint len);
++u32 process_p2p_devdisc_resp(struct wifidirect_info *pwdinfo, u8 *pframe, uint len);
++u8 process_p2p_provdisc_req(struct wifidirect_info *pwdinfo,  u8 *pframe, uint len);
++u8 process_p2p_provdisc_resp(struct wifidirect_info *pwdinfo,  u8 *pframe);
++u8 process_p2p_group_negotation_req( struct wifidirect_info *pwdinfo, u8 *pframe, uint len );
++u8 process_p2p_group_negotation_resp( struct wifidirect_info *pwdinfo, u8 *pframe, uint len );
++u8 process_p2p_group_negotation_confirm( struct wifidirect_info *pwdinfo, u8 *pframe, uint len );
++u8 process_p2p_presence_req(struct wifidirect_info *pwdinfo, u8 *pframe, uint len);
++
++void p2p_protocol_wk_hdl(_adapter *padapter, int intCmdType);
++
++#ifdef CONFIG_P2P_PS
++void	process_p2p_ps_ie(PADAPTER padapter, u8 *IEs, u32 IELength);
++void	p2p_ps_wk_hdl(_adapter *padapter, u8 p2p_ps_state);
++u8	p2p_ps_wk_cmd(_adapter*padapter, u8 p2p_ps_state, u8 enqueue);
++#endif // CONFIG_P2P_PS
++
++#ifdef CONFIG_IOCTL_CFG80211
++void rtw_init_cfg80211_wifidirect_info( _adapter*	padapter);
++int rtw_p2p_check_frames(_adapter *padapter, const u8 *buf, u32 len, u8 tx);
++void rtw_append_wfd_ie(_adapter *padapter, u8 *buf, u32 *len);
++#endif //CONFIG_IOCTL_CFG80211
++
++void reset_global_wifidirect_info( _adapter* padapter );
++int rtw_init_wifi_display_info(_adapter* padapter);
++void rtw_init_wifidirect_timers(_adapter* padapter);
++void rtw_init_wifidirect_addrs(_adapter* padapter, u8 *dev_addr, u8 *iface_addr);
++void init_wifidirect_info( _adapter* padapter, enum P2P_ROLE role);
++int rtw_p2p_enable(_adapter *padapter, enum P2P_ROLE role);
++
++static inline void _rtw_p2p_set_state(struct wifidirect_info *wdinfo, enum P2P_STATE state)
++{
++	if(wdinfo->p2p_state != state) {
++		//wdinfo->pre_p2p_state = wdinfo->p2p_state;
++		wdinfo->p2p_state = state;
++	}
++}
++static inline void _rtw_p2p_set_pre_state(struct wifidirect_info *wdinfo, enum P2P_STATE state)
++{
++	if(wdinfo->pre_p2p_state != state) {
++		wdinfo->pre_p2p_state = state;
++	}
++}
++#if 0
++static inline void _rtw_p2p_restore_state(struct wifidirect_info *wdinfo)
++{
++	if(wdinfo->pre_p2p_state != -1) {
++		wdinfo->p2p_state = wdinfo->pre_p2p_state;
++		wdinfo->pre_p2p_state = -1;
++	}
++}
++#endif
++static inline void _rtw_p2p_set_role(struct wifidirect_info *wdinfo, enum P2P_ROLE role)
++{
++	if(wdinfo->role != role) {
++		wdinfo->role = role;
++	}
++}
++static inline int _rtw_p2p_state(struct wifidirect_info *wdinfo)
++{
++	return wdinfo->p2p_state;
++}
++static inline int _rtw_p2p_pre_state(struct wifidirect_info *wdinfo)
++{
++	return wdinfo->pre_p2p_state;
++}
++static inline int _rtw_p2p_role(struct wifidirect_info *wdinfo)
++{
++	return wdinfo->role;
++}
++static inline bool _rtw_p2p_chk_state(struct wifidirect_info *wdinfo, enum P2P_STATE state)
++{
++	return wdinfo->p2p_state == state;
++}
++static inline bool _rtw_p2p_chk_role(struct wifidirect_info *wdinfo, enum P2P_ROLE role)
++{
++	return wdinfo->role == role;
++}
++
++#ifdef CONFIG_DBG_P2P
++void dbg_rtw_p2p_set_state(struct wifidirect_info *wdinfo, enum P2P_STATE state, const char *caller, int line);
++void dbg_rtw_p2p_set_pre_state(struct wifidirect_info *wdinfo, enum P2P_STATE state, const char *caller, int line);
++//void dbg_rtw_p2p_restore_state(struct wifidirect_info *wdinfo, const char *caller, int line);
++void dbg_rtw_p2p_set_role(struct wifidirect_info *wdinfo, enum P2P_ROLE role, const char *caller, int line);
++#define rtw_p2p_set_state(wdinfo, state) dbg_rtw_p2p_set_state(wdinfo, state, __FUNCTION__, __LINE__)
++#define rtw_p2p_set_pre_state(wdinfo, state) dbg_rtw_p2p_set_pre_state(wdinfo, state, __FUNCTION__, __LINE__)
++#define rtw_p2p_set_role(wdinfo, role) dbg_rtw_p2p_set_role(wdinfo, role, __FUNCTION__, __LINE__)
++//#define rtw_p2p_restore_state(wdinfo) dbg_rtw_p2p_restore_state(wdinfo, __FUNCTION__, __LINE__)
++#else //CONFIG_DBG_P2P
++#define rtw_p2p_set_state(wdinfo, state) _rtw_p2p_set_state(wdinfo, state)
++#define rtw_p2p_set_pre_state(wdinfo, state) _rtw_p2p_set_pre_state(wdinfo, state)
++#define rtw_p2p_set_role(wdinfo, role) _rtw_p2p_set_role(wdinfo, role)
++//#define rtw_p2p_restore_state(wdinfo) _rtw_p2p_restore_state(wdinfo)
++#endif //CONFIG_DBG_P2P
++
++#define rtw_p2p_state(wdinfo) _rtw_p2p_state(wdinfo)
++#define rtw_p2p_pre_state(wdinfo) _rtw_p2p_pre_state(wdinfo)
++#define rtw_p2p_role(wdinfo) _rtw_p2p_role(wdinfo)
++#define rtw_p2p_chk_state(wdinfo, state) _rtw_p2p_chk_state(wdinfo, state)
++#define rtw_p2p_chk_role(wdinfo, role) _rtw_p2p_chk_role(wdinfo, role)
++
++#define rtw_p2p_findphase_ex_set(wdinfo, value) \
++	(wdinfo)->find_phase_state_exchange_cnt = (value)
++
++//is this find phase exchange for social channel scan?
++#define rtw_p2p_findphase_ex_is_social(wdinfo)   \
++	(wdinfo)->find_phase_state_exchange_cnt >= P2P_FINDPHASE_EX_SOCIAL_FIRST
++
++//should we need find phase exchange anymore?
++#define rtw_p2p_findphase_ex_is_needed(wdinfo) \
++	((wdinfo)->find_phase_state_exchange_cnt < P2P_FINDPHASE_EX_MAX && \
++	(wdinfo)->find_phase_state_exchange_cnt != P2P_FINDPHASE_EX_NONE)
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_pwrctrl.h b/drivers/net/wireless/rtl8192cu/include/rtw_pwrctrl.h
+new file mode 100755
+index 0000000..a4cb292
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_pwrctrl.h
+@@ -0,0 +1,362 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_PWRCTRL_H_
++#define __RTW_PWRCTRL_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>		
++#include <drv_types.h>
++
++#ifdef CONFIG_HAS_EARLYSUSPEND
++#include <linux/earlysuspend.h>
++#endif //CONFIG_HAS_EARLYSUSPEND
++
++
++#define FW_PWR0	0	
++#define FW_PWR1 	1
++#define FW_PWR2 	2
++#define FW_PWR3 	3
++
++
++#define HW_PWR0	7	
++#define HW_PWR1 	6
++#define HW_PWR2 	2
++#define HW_PWR3	0
++#define HW_PWR4	8
++
++#define FW_PWRMSK	0x7
++
++
++#define XMIT_ALIVE	BIT(0)
++#define RECV_ALIVE	BIT(1)
++#define CMD_ALIVE	BIT(2)
++#define EVT_ALIVE	BIT(3)
++
++
++enum Power_Mgnt
++{
++	PS_MODE_ACTIVE	= 0	,
++	PS_MODE_MIN			,
++	PS_MODE_MAX			,
++	PS_MODE_DTIM			,
++	PS_MODE_VOIP			,
++	PS_MODE_UAPSD_WMM	,
++	PS_MODE_UAPSD			,
++	PS_MODE_IBSS			,
++	PS_MODE_WWLAN		,
++	PM_Radio_Off			,
++	PM_Card_Disable		,
++	PS_MODE_NUM
++};
++
++
++/*
++	BIT[2:0] = HW state
++	BIT[3] = Protocol PS state,   0: register active state , 1: register sleep state
++	BIT[4] = sub-state
++*/
++
++#define PS_DPS				BIT(0)
++#define PS_LCLK				(PS_DPS)
++#define PS_RF_OFF			BIT(1)
++#define PS_ALL_ON			BIT(2)
++#define PS_ST_ACTIVE		BIT(3)
++
++#define PS_ISR_ENABLE		BIT(4)
++#define PS_IMR_ENABLE		BIT(5)
++#define PS_ACK				BIT(6)
++#define PS_TOGGLE			BIT(7)
++
++#define PS_STATE_MASK		(0x0F)
++#define PS_STATE_HW_MASK	(0x07)
++#define PS_SEQ_MASK			(0xc0)
++
++#define PS_STATE(x)		(PS_STATE_MASK & (x))
++#define PS_STATE_HW(x)	(PS_STATE_HW_MASK & (x))
++#define PS_SEQ(x)		(PS_SEQ_MASK & (x))
++
++#define PS_STATE_S0		(PS_DPS)
++#define PS_STATE_S1		(PS_LCLK)
++#define PS_STATE_S2		(PS_RF_OFF)
++#define PS_STATE_S3		(PS_ALL_ON)
++#define PS_STATE_S4		((PS_ST_ACTIVE) | (PS_ALL_ON))
++
++
++#define PS_IS_RF_ON(x)	((x) & (PS_ALL_ON))
++#define PS_IS_ACTIVE(x)	((x) & (PS_ST_ACTIVE))
++#define CLR_PS_STATE(x)	((x) = ((x) & (0xF0)))
++
++
++struct reportpwrstate_parm {
++	unsigned char mode;
++	unsigned char state; //the CPWM value
++	unsigned short rsvd;
++}; 
++
++
++typedef _sema _pwrlock;
++
++
++__inline static void _init_pwrlock(_pwrlock *plock)
++{
++	_rtw_init_sema(plock, 1);
++}
++
++__inline static void _free_pwrlock(_pwrlock *plock)
++{
++	_rtw_free_sema(plock);
++}
++
++
++__inline static void _enter_pwrlock(_pwrlock *plock)
++{
++	_rtw_down_sema(plock);
++}
++
++
++__inline static void _exit_pwrlock(_pwrlock *plock)
++{
++	_rtw_up_sema(plock);
++}
++
++#define LPS_DELAY_TIME	1*HZ // 1 sec
++
++#define EXE_PWR_NONE	0x01
++#define EXE_PWR_IPS		0x02
++#define EXE_PWR_LPS		0x04
++
++// RF state.
++typedef enum _rt_rf_power_state
++{
++	rf_on,		// RF is on after RFSleep or RFOff
++	rf_sleep,	// 802.11 Power Save mode
++	rf_off,		// HW/SW Radio OFF or Inactive Power Save
++	//=====Add the new RF state above this line=====//
++	rf_max
++}rt_rf_power_state;
++
++// RF Off Level for IPS or HW/SW radio off
++#define	RT_RF_OFF_LEVL_ASPM			BIT(0)	// PCI ASPM
++#define	RT_RF_OFF_LEVL_CLK_REQ		BIT(1)	// PCI clock request
++#define	RT_RF_OFF_LEVL_PCI_D3			BIT(2)	// PCI D3 mode
++#define	RT_RF_OFF_LEVL_HALT_NIC		BIT(3)	// NIC halt, re-initialize hw parameters
++#define	RT_RF_OFF_LEVL_FREE_FW		BIT(4)	// FW free, re-download the FW
++#define	RT_RF_OFF_LEVL_FW_32K		BIT(5)	// FW in 32k
++#define	RT_RF_PS_LEVEL_ALWAYS_ASPM	BIT(6)	// Always enable ASPM and Clock Req in initialization.
++#define	RT_RF_LPS_DISALBE_2R			BIT(30)	// When LPS is on, disable 2R if no packet is received or transmittd.
++#define	RT_RF_LPS_LEVEL_ASPM			BIT(31)	// LPS with ASPM
++
++#define	RT_IN_PS_LEVEL(ppsc, _PS_FLAG)		((ppsc->cur_ps_level & _PS_FLAG) ? _TRUE : _FALSE)
++#define	RT_CLEAR_PS_LEVEL(ppsc, _PS_FLAG)	(ppsc->cur_ps_level &= (~(_PS_FLAG)))
++#define	RT_SET_PS_LEVEL(ppsc, _PS_FLAG)		(ppsc->cur_ps_level |= _PS_FLAG)
++
++
++enum _PS_BBRegBackup_ {
++	PSBBREG_RF0 = 0,
++	PSBBREG_RF1,
++	PSBBREG_RF2,
++	PSBBREG_AFE0,
++	PSBBREG_TOTALCNT
++};
++
++enum { // for ips_mode
++	IPS_NONE=0,
++	IPS_NORMAL,
++	IPS_LEVEL_2,	
++};
++
++struct pwrctrl_priv
++{
++	_pwrlock	lock;
++	volatile u8 rpwm; // requested power state for fw
++	volatile u8 cpwm; // fw current power state. updated when 1. read from HCPWM 2. driver lowers power level
++	volatile u8 tog; // toggling
++	volatile u8 cpwm_tog; // toggling
++	u8	pwr_mode;
++	u8	smart_ps;
++	u32 alives;
++
++	u8	b_hw_radio_off;
++	u8	reg_rfoff;
++	u8	reg_pdnmode; //powerdown mode
++	u32	rfoff_reason;
++
++	//RF OFF Level
++	u32	cur_ps_level;
++	u32	reg_rfps_level;
++
++
++
++#ifdef CONFIG_PCI_HCI
++	//just for PCIE ASPM
++	u8	b_support_aspm; // If it supports ASPM, Offset[560h] = 0x40, otherwise Offset[560h] = 0x00. 
++	u8	b_support_backdoor;
++
++	//just for PCIE ASPM
++	u8	const_amdpci_aspm;
++#endif
++
++	uint 	ips_enter_cnts;
++	uint 	ips_leave_cnts;
++
++	u8	ips_mode; 
++	u8	ips_mode_req; // used to accept the mode setting request, will update to ipsmode later
++	uint bips_processing;
++	u32 ips_deny_time; /* will deny IPS when system time is smaller than this */
++	u8 ps_processing; /* temporarily used to mark whether in rtw_ps_processor */
++
++	u8	bLeisurePs;
++	u8	LpsIdleCount;
++	u8	power_mgnt;
++	u8	bFwCurrentInPSMode;
++	u32	DelayLPSLastTimeStamp;
++
++	s32		pnp_current_pwr_state;
++	u8		pnp_bstop_trx;
++
++
++	u8		bInternalAutoSuspend;
++	u8		bInSuspend;
++	u8		bSupportRemoteWakeup;	
++#ifdef CONFIG_WOWLAN
++	u8		wowlan_mode;
++	u8		wowlan_pattern;
++	u8		wowlan_magic;
++	u8		wowlan_unicast;
++	u8		wowlan_pattern_idx;
++	u32		wowlan_pattern_context[8][5];
++#endif // CONFIG_WOWLAN
++	_timer 	pwr_state_check_timer;
++	int		pwr_state_check_interval;
++	u8		pwr_state_check_cnts;
++
++	int 		ps_flag;
++	
++	rt_rf_power_state	rf_pwrstate;//cur power state
++	//rt_rf_power_state 	current_rfpwrstate;
++	rt_rf_power_state	change_rfpwrstate;
++
++	u8		bHWPowerdown;//if support hw power down
++	u8		bHWPwrPindetect;
++	u8		bkeepfwalive;		
++	u8		brfoffbyhw;
++	unsigned long PS_BBRegBackup[PSBBREG_TOTALCNT];
++	
++	#ifdef CONFIG_RESUME_IN_WORKQUEUE
++	struct workqueue_struct *rtw_workqueue;
++	_workitem resume_work;
++	#endif
++
++	#ifdef CONFIG_HAS_EARLYSUSPEND
++	struct early_suspend early_suspend;
++	u8 do_late_resume;
++	#endif //CONFIG_HAS_EARLYSUSPEND
++	
++	#ifdef CONFIG_ANDROID_POWER
++	android_early_suspend_t early_suspend;
++	u8 do_late_resume;
++	#endif
++	
++};
++
++#define rtw_get_ips_mode_req(pwrctrlpriv) \
++	(pwrctrlpriv)->ips_mode_req
++
++#define rtw_ips_mode_req(pwrctrlpriv, ips_mode) \
++	(pwrctrlpriv)->ips_mode_req = (ips_mode)
++
++#define RTW_PWR_STATE_CHK_INTERVAL 2000
++
++#define _rtw_set_pwr_state_check_timer(pwrctrlpriv, ms) \
++	do { \
++		/*DBG_871X("%s _rtw_set_pwr_state_check_timer(%p, %d)\n", __FUNCTION__, (pwrctrlpriv), (ms));*/ \
++		_set_timer(&(pwrctrlpriv)->pwr_state_check_timer, (ms)); \
++	} while(0)
++	
++#define rtw_set_pwr_state_check_timer(pwrctrlpriv) \
++	_rtw_set_pwr_state_check_timer((pwrctrlpriv), (pwrctrlpriv)->pwr_state_check_interval)
++
++extern void rtw_init_pwrctrl_priv(_adapter *adapter);
++extern void rtw_free_pwrctrl_priv(_adapter * adapter);
++
++#ifdef CONFIG_LPS_LCLK
++extern s32 rtw_register_tx_alive(PADAPTER padapter);
++extern void rtw_unregister_tx_alive(PADAPTER padapter);
++extern s32 rtw_register_rx_alive(PADAPTER padapter);
++extern void rtw_unregister_rx_alive(PADAPTER padapter);
++extern s32 rtw_register_cmd_alive(PADAPTER padapter);
++extern void rtw_unregister_cmd_alive(PADAPTER padapter);
++extern s32 rtw_register_evt_alive(PADAPTER padapter);
++extern void rtw_unregister_evt_alive(PADAPTER padapter);
++extern void cpwm_int_hdl(PADAPTER padapter, struct reportpwrstate_parm *preportpwrstate);
++#endif
++
++extern void rtw_set_ps_mode(_adapter * padapter, u8 ps_mode, u8 smart_ps);
++extern void rtw_set_rpwm(_adapter * padapter, u8 val8);
++extern void LeaveAllPowerSaveMode(PADAPTER Adapter);
++#ifdef CONFIG_IPS
++void _ips_enter(_adapter * padapter);
++void ips_enter(_adapter * padapter);
++int _ips_leave(_adapter * padapter);
++int ips_leave(_adapter * padapter);
++#endif
++
++void rtw_ps_processor(_adapter*padapter);
++
++#ifdef CONFIG_AUTOSUSPEND
++int autoresume_enter(_adapter* padapter);
++#endif
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++rt_rf_power_state RfOnOffDetect(IN	PADAPTER pAdapter );
++#endif
++
++
++#ifdef CONFIG_LPS
++void LPS_Enter(PADAPTER padapter);
++void LPS_Leave(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++void rtw_resume_in_workqueue(struct pwrctrl_priv *pwrpriv);
++#endif //CONFIG_RESUME_IN_WORKQUEUE
++
++#if defined(CONFIG_HAS_EARLYSUSPEND ) || defined(CONFIG_ANDROID_POWER)
++bool rtw_is_earlysuspend_registered(struct pwrctrl_priv *pwrpriv);
++bool rtw_is_do_late_resume(struct pwrctrl_priv *pwrpriv);
++void rtw_set_do_late_resume(struct pwrctrl_priv *pwrpriv, bool enable);
++void rtw_register_early_suspend(struct pwrctrl_priv *pwrpriv);
++void rtw_unregister_early_suspend(struct pwrctrl_priv *pwrpriv);
++#else
++#define rtw_is_earlysuspend_registered(pwrpriv) _FALSE
++#define rtw_is_do_late_resume(pwrpriv) _FALSE
++#define rtw_set_do_late_resume(pwrpriv, enable) do {} while (0)
++#define rtw_register_early_suspend(pwrpriv) do {} while (0)
++#define rtw_unregister_early_suspend(pwrpriv) do {} while (0)
++#endif /* CONFIG_HAS_EARLYSUSPEND || CONFIG_ANDROID_POWER */
++
++u8 rtw_interface_ps_func(_adapter *padapter,HAL_INTF_PS_FUNC efunc_id,u8* val);
++void rtw_set_ips_deny(_adapter *padapter, u32 ms);
++int _rtw_pwr_wakeup(_adapter *padapter, u32 ips_deffer_ms, const char *caller);
++#define rtw_pwr_wakeup(adapter) _rtw_pwr_wakeup(adapter, RTW_PWR_STATE_CHK_INTERVAL, __FUNCTION__)
++#define rtw_pwr_wakeup_ex(adapter, ips_deffer_ms) _rtw_pwr_wakeup(adapter, ips_deffer_ms, __FUNCTION__)
++int rtw_pm_set_ips(_adapter *padapter, u8 mode);
++int rtw_pm_set_lps(_adapter *padapter, u8 mode);
++
++#endif  //__RTL871X_PWRCTRL_H_
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_qos.h b/drivers/net/wireless/rtl8192cu/include/rtw_qos.h
+new file mode 100755
+index 0000000..a359c5f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_qos.h
+@@ -0,0 +1,40 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#ifndef _RTW_QOS_H_
++#define _RTW_QOS_H_
++#include <drv_conf.h>
++#include <osdep_service.h>
++
++
++
++
++
++
++struct	qos_priv	{
++	
++	unsigned int	  qos_option;	//bit mask option: u-apsd, s-apsd, ts, block ack...		
++
++};
++
++
++#endif	//_RTL871X_QOS_H_
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_recv.h b/drivers/net/wireless/rtl8192cu/include/rtw_recv.h
+new file mode 100755
+index 0000000..3a4b14b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_recv.h
+@@ -0,0 +1,731 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_RECV_H_
++#define _RTW_RECV_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++
++#define NR_RECVFRAME 256
++
++#define RXFRAME_ALIGN	8
++#define RXFRAME_ALIGN_SZ	(1<<RXFRAME_ALIGN)
++
++#define MAX_RXFRAME_CNT	512
++#define MAX_RX_NUMBLKS		(32)
++#define RECVFRAME_HDR_ALIGN 128
++
++#define SNAP_SIZE sizeof(struct ieee80211_snap_hdr)
++
++static u8 SNAP_ETH_TYPE_IPX[2] = {0x81, 0x37};
++
++static u8 SNAP_ETH_TYPE_APPLETALK_AARP[2] = {0x80, 0xf3};
++static u8 SNAP_ETH_TYPE_APPLETALK_DDP[2] = {0x80, 0x9b};
++static u8 SNAP_ETH_TYPE_TDLS[2] = {0x89, 0x0d};
++static u8 SNAP_HDR_APPLETALK_DDP[3] = {0x08, 0x00, 0x07}; // Datagram Delivery Protocol
++
++static u8 oui_8021h[] = {0x00, 0x00, 0xf8};
++static u8 oui_rfc1042[]= {0x00,0x00,0x00};
++
++#define MAX_SUBFRAME_COUNT	64
++static u8 rtw_rfc1042_header[] =
++{ 0xaa, 0xaa, 0x03, 0x00, 0x00, 0x00 };
++/* Bridge-Tunnel header (for EtherTypes ETH_P_AARP and ETH_P_IPX) */
++static u8 rtw_bridge_tunnel_header[] =
++{ 0xaa, 0xaa, 0x03, 0x00, 0x00, 0xf8 };
++
++//for Rx reordering buffer control
++struct recv_reorder_ctrl
++{
++	_adapter	*padapter;
++	u8 enable;
++	u16 indicate_seq;//=wstart_b, init_value=0xffff
++	u16 wend_b;
++	u8 wsize_b;
++	_queue pending_recvframe_queue;
++	_timer reordering_ctrl_timer;
++};
++
++struct	stainfo_rxcache	{
++	u16 	tid_rxseq[16];
++/*
++	unsigned short 	tid0_rxseq;
++	unsigned short 	tid1_rxseq;
++	unsigned short 	tid2_rxseq;
++	unsigned short 	tid3_rxseq;
++	unsigned short 	tid4_rxseq;
++	unsigned short 	tid5_rxseq;
++	unsigned short 	tid6_rxseq;
++	unsigned short 	tid7_rxseq;
++	unsigned short 	tid8_rxseq;
++	unsigned short 	tid9_rxseq;
++	unsigned short 	tid10_rxseq;
++	unsigned short 	tid11_rxseq;
++	unsigned short 	tid12_rxseq;
++	unsigned short 	tid13_rxseq;
++	unsigned short 	tid14_rxseq;
++	unsigned short 	tid15_rxseq;
++*/
++};
++
++
++struct smooth_rssi_data {
++	u32	elements[100];	//array to store values
++	u32	index;			//index to current array to store
++	u32	total_num;		//num of valid elements
++	u32	total_val;		//sum of valid elements
++};
++
++struct signal_stat {
++	u8	update_req;		//used to indicate 
++	u8	avg_val;		//avg of valid elements
++	u32	total_num;		//num of valid elements
++	u32	total_val;		//sum of valid elements	
++};
++
++struct rx_pkt_attrib
++{
++	u16	pkt_len;
++	u8	physt;
++	u8	drvinfo_sz;
++	u8	shift_sz;
++	u8	hdrlen; //the WLAN Header Len
++	u8 	to_fr_ds;
++	u8 	amsdu;
++	u8	qos;
++	u8	priority;
++	u8	pw_save;
++	u8	mdata;
++	u16	seq_num;
++	u8	frag_num;
++	u8	mfrag;
++	u8	order;
++	u8	privacy; //in frame_ctrl field
++	u8	bdecrypted;
++	u8	encrypt; //when 0 indicate no encrypt. when non-zero, indicate the encrypt algorith
++	u8	iv_len;
++	u8	icv_len;
++	u8	crc_err;
++	u8	icv_err;
++
++	u16 eth_type;
++
++	u8 	dst[ETH_ALEN];
++	u8 	src[ETH_ALEN];
++	u8 	ta[ETH_ALEN];
++	u8 	ra[ETH_ALEN];
++	u8 	bssid[ETH_ALEN];
++	
++	u8 ack_policy;
++	
++//#ifdef CONFIG_TCP_CSUM_OFFLOAD_RX
++	u8	tcpchk_valid; // 0: invalid, 1: valid
++	u8	ip_chkrpt; //0: incorrect, 1: correct
++	u8	tcp_chkrpt; //0: incorrect, 1: correct
++//#endif
++	u8 	key_index;
++
++	u8	mcs_rate;
++	u8	rxht;
++	u8 	sgi;
++	u8	signal_qual;
++	s8	rx_mimo_signal_qual[2];
++	u8	signal_strength;
++	u8	rx_rssi[2];  //This value is percentage
++	u8	rx_snr[2];
++	u32	RxPWDBAll;
++	s32	RecvSignalPower;
++};
++
++
++//These definition is used for Rx packet reordering.
++#define SN_LESS(a, b)		(((a-b)&0x800)!=0)
++#define SN_EQUAL(a, b)	(a == b)
++//#define REORDER_WIN_SIZE	128
++//#define REORDER_ENTRY_NUM	128
++#define REORDER_WAIT_TIME	(50) // (ms)
++
++#define RECVBUFF_ALIGN_SZ 8
++
++#define RXDESC_SIZE	24
++#define RXDESC_OFFSET RXDESC_SIZE
++
++struct recv_stat
++{
++	unsigned int rxdw0;
++
++	unsigned int rxdw1;
++
++	unsigned int rxdw2;
++
++	unsigned int rxdw3;
++
++	unsigned int rxdw4;
++
++	unsigned int rxdw5;
++
++#ifdef CONFIG_PCI_HCI
++	unsigned int rxdw6;
++
++	unsigned int rxdw7;
++#endif
++};
++
++#define EOR BIT(30)
++
++#ifdef CONFIG_PCI_HCI
++#define PCI_MAX_RX_QUEUE		1// MSDU packet queue, Rx Command Queue
++#define PCI_MAX_RX_COUNT		128
++
++struct rtw_rx_ring {
++	struct recv_stat	*desc;
++	dma_addr_t		dma;
++	unsigned int		idx;
++	struct sk_buff	*rx_buf[PCI_MAX_RX_COUNT];
++};
++#endif
++
++/*
++accesser of recv_priv: rtw_recv_entry(dispatch / passive level); recv_thread(passive) ; returnpkt(dispatch)
++; halt(passive) ;
++
++using enter_critical section to protect
++*/
++struct recv_priv
++{
++  	  _lock	lock;
++
++#ifdef CONFIG_RECV_THREAD_MODE
++	_sema	recv_sema;
++	_sema	terminate_recvthread_sema;
++#endif
++
++	//_queue	blk_strms[MAX_RX_NUMBLKS];    // keeping the block ack frame until return ack
++	_queue	free_recv_queue;
++	_queue	recv_pending_queue;
++	_queue	uc_swdec_pending_queue;
++
++
++	u8 *pallocated_frame_buf;
++	u8 *precv_frame_buf;
++
++	uint free_recvframe_cnt;
++
++	_adapter	*adapter;
++
++#ifdef PLATFORM_WINDOWS
++	_nic_hdl  RxPktPoolHdl;
++	_nic_hdl  RxBufPoolHdl;
++
++#ifdef PLATFORM_OS_XP
++	PMDL	pbytecnt_mdl;
++#endif
++	uint	counter; //record the number that up-layer will return to drv; only when counter==0 can we  release recv_priv
++	NDIS_EVENT 	recv_resource_evt ;
++#endif
++
++	u32	bIsAnyNonBEPkts;
++	u64	rx_bytes;
++	u64	rx_pkts;
++	u64	rx_drop;
++	u64	last_rx_bytes;
++
++	uint  rx_icv_err;
++	uint  rx_largepacket_crcerr;
++	uint  rx_smallpacket_crcerr;
++	uint  rx_middlepacket_crcerr;
++
++#ifdef CONFIG_USB_HCI
++	//u8 *pallocated_urb_buf;
++	_sema allrxreturnevt;
++	uint	ff_hwaddr;
++	u8	rx_pending_cnt;
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++#ifdef PLATFORM_LINUX
++	PURB	int_in_urb;
++#endif
++
++	u8	*int_in_buf;
++#endif
++
++#endif
++#if defined(PLATFORM_LINUX) || defined(PLATFORM_FREEBSD)
++#ifdef PLATFORM_FREEBSD
++	struct task irq_prepare_beacon_tasklet;
++	struct task recv_tasklet;
++#else //PLATFORM_FREEBSD
++	struct tasklet_struct irq_prepare_beacon_tasklet;
++	struct tasklet_struct recv_tasklet;
++#endif //PLATFORM_FREEBSD
++	struct sk_buff_head free_recv_skb_queue;
++	struct sk_buff_head rx_skb_queue;
++#ifdef CONFIG_RX_INDICATE_QUEUE
++	struct task rx_indicate_tasklet;
++	struct ifqueue rx_indicate_queue;
++#endif	// CONFIG_RX_INDICATE_QUEUE
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++	_queue	recv_buf_pending_queue;
++#endif	// CONFIG_USE_USB_BUFFER_ALLOC_RX
++#endif //defined(PLATFORM_LINUX) || defined(PLATFORM_FREEBSD)
++
++	u8 *pallocated_recv_buf;
++	u8 *precv_buf;    // 4 alignment
++	_queue	free_recv_buf_queue;
++	u32	free_recv_buf_queue_cnt;
++
++#ifdef CONFIG_SDIO_HCI
++	_queue	recv_buf_pending_queue;
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	// Rx
++	struct rtw_rx_ring	rx_ring[PCI_MAX_RX_QUEUE];
++	int 	rxringcount;
++	u16	rxbuffersize;
++#endif
++
++	//For display the phy informatiom
++	u8 is_signal_dbg;	// for debug
++	u8 signal_strength_dbg;	// for debug
++	s8 rssi;
++	s8 rxpwdb;
++	u8 signal_strength;
++	u8 signal_qual;
++	u8 noise;
++	int RxSNRdB[2];
++	s8 RxRssi[2];
++	int FalseAlmCnt_all;
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	_timer signal_stat_timer;
++	u32 signal_stat_sampling_interval;
++	//u32 signal_stat_converging_constant;
++	struct signal_stat signal_qual_data;
++	struct signal_stat signal_strength_data;
++#else //CONFIG_NEW_SIGNAL_STAT_PROCESS
++	struct smooth_rssi_data signal_qual_data;
++	struct smooth_rssi_data signal_strength_data;
++#endif //CONFIG_NEW_SIGNAL_STAT_PROCESS
++
++	u32 recvbuf_skb_alloc_fail_cnt;
++	u32 recvbuf_null_cnt;
++	u32 read_port_complete_EINPROGRESS_cnt;
++	u32 read_port_complete_other_urb_err_cnt;
++	
++
++};
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++#define rtw_set_signal_stat_timer(recvpriv) _set_timer(&(recvpriv)->signal_stat_timer, (recvpriv)->signal_stat_sampling_interval)
++#endif //CONFIG_NEW_SIGNAL_STAT_PROCESS
++
++struct sta_recv_priv {
++
++	_lock	lock;
++	sint	option;
++
++	//_queue	blk_strms[MAX_RX_NUMBLKS];
++	_queue defrag_q;	 //keeping the fragment frame until defrag
++
++	struct	stainfo_rxcache rxcache;
++
++	//uint	sta_rx_bytes;
++	//uint	sta_rx_pkts;
++	//uint	sta_rx_fail;
++
++};
++
++
++struct recv_buf
++{
++	_list list;
++
++	_lock recvbuf_lock;
++
++	u32	ref_cnt;
++
++	PADAPTER adapter;
++
++	u8	*pbuf;
++	u8	*pallocated_buf;
++
++	u32	len;
++	u8	*phead;
++	u8	*pdata;
++	u8	*ptail;
++	u8	*pend;
++
++#ifdef CONFIG_USB_HCI
++
++	#if defined(PLATFORM_OS_XP)||defined(PLATFORM_LINUX)||defined(PLATFORM_FREEBSD)
++	PURB	purb;
++	dma_addr_t dma_transfer_addr;	/* (in) dma addr for transfer_buffer */
++	u32 alloc_sz;
++	#endif
++
++	#ifdef PLATFORM_OS_XP
++	PIRP		pirp;
++	#endif
++
++	#ifdef PLATFORM_OS_CE
++	USB_TRANSFER	usb_transfer_read_port;
++	#endif
++
++	u8  irp_pending;
++	int  transfer_len;
++
++#endif
++
++#ifdef PLATFORM_LINUX
++	_pkt *pskb;
++	u8	reuse;
++#endif
++#ifdef PLATFORM_FREEBSD //skb solution
++	struct sk_buff *pskb;
++	u8	reuse;
++#endif //PLATFORM_FREEBSD //skb solution
++};
++
++
++/*
++	head  ----->
++
++		data  ----->
++
++			payload
++
++		tail  ----->
++
++
++	end   ----->
++
++	len = (unsigned int )(tail - data);
++
++*/
++struct recv_frame_hdr
++{
++	_list	list;
++#ifndef CONFIG_BSD_RX_USE_MBUF
++	struct sk_buff	 *pkt;
++	struct sk_buff	 *pkt_newalloc;
++#else // CONFIG_BSD_RX_USE_MBUF
++	_pkt	*pkt;
++	_pkt *pkt_newalloc;
++#endif // CONFIG_BSD_RX_USE_MBUF
++
++	_adapter  *adapter;
++
++	u8 fragcnt;
++
++	int frame_tag;
++
++	struct rx_pkt_attrib attrib;
++
++	uint  len;
++	u8 *rx_head;
++	u8 *rx_data;
++	u8 *rx_tail;
++	u8 *rx_end;
++
++	void *precvbuf;
++
++
++	//
++	struct sta_info *psta;
++
++	//for A-MPDU Rx reordering buffer control
++	struct recv_reorder_ctrl *preorder_ctrl;
++
++};
++
++
++union recv_frame{
++
++	union{
++		_list list;
++		struct recv_frame_hdr hdr;
++		uint mem[RECVFRAME_HDR_ALIGN>>2];
++	}u;
++
++	//uint mem[MAX_RXSZ>>2];
++
++};
++
++
++extern union recv_frame *_rtw_alloc_recvframe (_queue *pfree_recv_queue);  //get a free recv_frame from pfree_recv_queue
++extern union recv_frame *rtw_alloc_recvframe (_queue *pfree_recv_queue);  //get a free recv_frame from pfree_recv_queue
++extern void rtw_init_recvframe(union recv_frame *precvframe ,struct recv_priv *precvpriv);
++extern int	 rtw_free_recvframe(union recv_frame *precvframe, _queue *pfree_recv_queue);
++
++#define rtw_dequeue_recvframe(queue) rtw_alloc_recvframe(queue)
++extern int _rtw_enqueue_recvframe(union recv_frame *precvframe, _queue *queue);
++extern int rtw_enqueue_recvframe(union recv_frame *precvframe, _queue *queue);
++
++extern void rtw_free_recvframe_queue(_queue *pframequeue,  _queue *pfree_recv_queue);
++u32 rtw_free_uc_swdec_pending_queue(_adapter *adapter);
++
++sint rtw_enqueue_recvbuf_to_head(struct recv_buf *precvbuf, _queue *queue);
++sint rtw_enqueue_recvbuf(struct recv_buf *precvbuf, _queue *queue);
++struct recv_buf *rtw_dequeue_recvbuf (_queue *queue);
++
++void rtw_reordering_ctrl_timeout_handler(void *pcontext);
++
++__inline static u8 *get_rxmem(union recv_frame *precvframe)
++{
++	//always return rx_head...
++	if(precvframe==NULL)
++		return NULL;
++
++	return precvframe->u.hdr.rx_head;
++}
++
++__inline static u8 *get_rx_status(union recv_frame *precvframe)
++{
++
++	return get_rxmem(precvframe);
++
++}
++
++__inline static u8 *get_recvframe_data(union recv_frame *precvframe)
++{
++
++	//alwasy return rx_data
++	if(precvframe==NULL)
++		return NULL;
++
++	return precvframe->u.hdr.rx_data;
++
++}
++
++__inline static u8 *recvframe_push(union recv_frame *precvframe, sint sz)
++{
++	// append data before rx_data
++
++	/* add data to the start of recv_frame
++ *
++ *      This function extends the used data area of the recv_frame at the buffer
++ *      start. rx_data must be still larger than rx_head, after pushing.
++ */
++
++	if(precvframe==NULL)
++		return NULL;
++
++
++	precvframe->u.hdr.rx_data -= sz ;
++	if( precvframe->u.hdr.rx_data < precvframe->u.hdr.rx_head )
++	{
++		precvframe->u.hdr.rx_data += sz ;
++		return NULL;
++	}
++
++	precvframe->u.hdr.len +=sz;
++
++	return precvframe->u.hdr.rx_data;
++
++}
++
++
++__inline static u8 *recvframe_pull(union recv_frame *precvframe, sint sz)
++{
++	// rx_data += sz; move rx_data sz bytes  hereafter
++
++	//used for extract sz bytes from rx_data, update rx_data and return the updated rx_data to the caller
++
++
++	if(precvframe==NULL)
++		return NULL;
++
++
++	precvframe->u.hdr.rx_data += sz;
++
++	if(precvframe->u.hdr.rx_data > precvframe->u.hdr.rx_tail)
++	{
++		precvframe->u.hdr.rx_data -= sz;
++		return NULL;
++	}
++
++	precvframe->u.hdr.len -=sz;
++
++	return precvframe->u.hdr.rx_data;
++
++}
++
++__inline static u8 *recvframe_put(union recv_frame *precvframe, sint sz)
++{
++	// rx_tai += sz; move rx_tail sz bytes  hereafter
++
++	//used for append sz bytes from ptr to rx_tail, update rx_tail and return the updated rx_tail to the caller
++	//after putting, rx_tail must be still larger than rx_end.
++ 	unsigned char * prev_rx_tail;
++
++	if(precvframe==NULL)
++		return NULL;
++
++	prev_rx_tail = precvframe->u.hdr.rx_tail;
++
++	precvframe->u.hdr.rx_tail += sz;
++
++	if(precvframe->u.hdr.rx_tail > precvframe->u.hdr.rx_end)
++	{
++		precvframe->u.hdr.rx_tail -= sz;
++		return NULL;
++	}
++
++	precvframe->u.hdr.len +=sz;
++
++	return precvframe->u.hdr.rx_tail;
++
++}
++
++
++
++__inline static u8 *recvframe_pull_tail(union recv_frame *precvframe, sint sz)
++{
++	// rmv data from rx_tail (by yitsen)
++
++	//used for extract sz bytes from rx_end, update rx_end and return the updated rx_end to the caller
++	//after pulling, rx_end must be still larger than rx_data.
++
++	if(precvframe==NULL)
++		return NULL;
++
++	precvframe->u.hdr.rx_tail -= sz;
++
++	if(precvframe->u.hdr.rx_tail < precvframe->u.hdr.rx_data)
++	{
++		precvframe->u.hdr.rx_tail += sz;
++		return NULL;
++	}
++
++	precvframe->u.hdr.len -=sz;
++
++	return precvframe->u.hdr.rx_tail;
++
++}
++
++
++
++__inline static _buffer * get_rxbuf_desc(union recv_frame *precvframe)
++{
++	_buffer * buf_desc;
++
++	if(precvframe==NULL)
++		return NULL;
++#ifdef PLATFORM_WINDOWS
++	NdisQueryPacket(precvframe->u.hdr.pkt, NULL, NULL, &buf_desc, NULL);
++#endif
++
++	return buf_desc;
++}
++
++
++__inline static union recv_frame *rxmem_to_recvframe(u8 *rxmem)
++{
++	//due to the design of 2048 bytes alignment of recv_frame, we can reference the union recv_frame
++	//from any given member of recv_frame.
++	// rxmem indicates the any member/address in recv_frame
++
++	return (union recv_frame*)(((SIZE_PTR)rxmem >> RXFRAME_ALIGN) << RXFRAME_ALIGN);
++
++}
++
++__inline static union recv_frame *pkt_to_recvframe(_pkt *pkt)
++{
++
++	u8 * buf_star;
++	union recv_frame * precv_frame;
++#ifdef PLATFORM_WINDOWS
++	_buffer * buf_desc;
++	uint len;
++
++	NdisQueryPacket(pkt, NULL, NULL, &buf_desc, &len);
++	NdisQueryBufferSafe(buf_desc, &buf_star, &len, HighPagePriority);
++#endif
++	precv_frame = rxmem_to_recvframe((unsigned char*)buf_star);
++
++	return precv_frame;
++}
++
++__inline static u8 *pkt_to_recvmem(_pkt *pkt)
++{
++	// return the rx_head
++
++	union recv_frame * precv_frame = pkt_to_recvframe(pkt);
++
++	return 	precv_frame->u.hdr.rx_head;
++
++}
++
++__inline static u8 *pkt_to_recvdata(_pkt *pkt)
++{
++	// return the rx_data
++
++	union recv_frame * precv_frame =pkt_to_recvframe(pkt);
++
++	return 	precv_frame->u.hdr.rx_data;
++
++}
++
++
++__inline static sint get_recvframe_len(union recv_frame *precvframe)
++{
++	return precvframe->u.hdr.len;
++}
++
++__inline static u8 query_rx_pwr_percentage(s8 antpower )
++{
++	if ((antpower <= -100) || (antpower >= 20))
++	{
++		return	0;
++	}
++	else if (antpower >= 0)
++	{
++		return	100;
++	}
++	else
++	{
++		return	(100+antpower);
++	}
++}
++
++__inline static s32 translate_percentage_to_dbm(u32 SignalStrengthIndex)
++{
++	s32	SignalPower; // in dBm.
++
++	// Translate to dBm (x=0.5y-95).
++	SignalPower = (s32)((SignalStrengthIndex + 1) >> 1);
++	SignalPower -= 95;
++
++	return SignalPower;
++}
++
++
++struct sta_info;
++
++extern void _rtw_init_sta_recv_priv(struct sta_recv_priv *psta_recvpriv);
++
++extern void  mgt_dispatcher(_adapter *padapter, union recv_frame *precv_frame);
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_rf.h b/drivers/net/wireless/rtl8192cu/include/rtw_rf.h
+new file mode 100755
+index 0000000..697dd4e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_rf.h
+@@ -0,0 +1,152 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef	__RTW_RF_H_ 
++#define __RTW_RF_H_
++
++#include <drv_conf.h>
++#include <rtw_cmd.h>
++
++#define OFDM_PHY		1
++#define MIXED_PHY		2
++#define CCK_PHY		3
++
++#define NumRates	(13)
++
++// slot time for 11g
++#define SHORT_SLOT_TIME					9
++#define NON_SHORT_SLOT_TIME				20
++
++#define RTL8711_RF_MAX_SENS 6
++#define RTL8711_RF_DEF_SENS 4
++
++//
++// We now define the following channels as the max channels in each channel plan.
++// 2G, total 14 chnls
++// {1,2,3,4,5,6,7,8,9,10,11,12,13,14}
++// 5G, total 24 chnls
++// {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140,149,153,157,161,165}
++#define	MAX_CHANNEL_NUM_2G				14
++#define	MAX_CHANNEL_NUM_5G				24
++#define	MAX_CHANNEL_NUM					38//14+24
++
++//#define NUM_REGULATORYS	21
++#define NUM_REGULATORYS	1
++
++//Country codes
++#define USA							0x555320
++#define EUROPE						0x1 //temp, should be provided later	
++#define JAPAN						0x2 //temp, should be provided later	
++
++struct	regulatory_class {
++	u32	starting_freq;					//MHz, 
++	u8	channel_set[MAX_CHANNEL_NUM];
++	u8	channel_cck_power[MAX_CHANNEL_NUM];//dbm
++	u8	channel_ofdm_power[MAX_CHANNEL_NUM];//dbm
++	u8	txpower_limit;  				//dbm
++	u8	channel_spacing;				//MHz
++	u8	modem;
++};
++
++typedef enum _CAPABILITY{
++	cESS			= 0x0001,
++	cIBSS			= 0x0002,
++	cPollable		= 0x0004,
++	cPollReq			= 0x0008,
++	cPrivacy		= 0x0010,
++	cShortPreamble	= 0x0020,
++	cPBCC			= 0x0040,
++	cChannelAgility	= 0x0080,
++	cSpectrumMgnt	= 0x0100,
++	cQos			= 0x0200,	// For HCCA, use with CF-Pollable and CF-PollReq
++	cShortSlotTime	= 0x0400,
++	cAPSD			= 0x0800,
++	cRM				= 0x1000,	// RRM (Radio Request Measurement)
++	cDSSS_OFDM	= 0x2000,
++	cDelayedBA		= 0x4000,
++	cImmediateBA	= 0x8000,
++}CAPABILITY, *PCAPABILITY;
++
++enum	_REG_PREAMBLE_MODE{
++	PREAMBLE_LONG	= 1,
++	PREAMBLE_AUTO	= 2,
++	PREAMBLE_SHORT	= 3,
++};
++
++
++enum _RTL8712_RF_MIMO_CONFIG_{
++ RTL8712_RFCONFIG_1T=0x10,
++ RTL8712_RFCONFIG_2T=0x20,
++ RTL8712_RFCONFIG_1R=0x01,
++ RTL8712_RFCONFIG_2R=0x02,
++ RTL8712_RFCONFIG_1T1R=0x11,
++ RTL8712_RFCONFIG_1T2R=0x12,
++ RTL8712_RFCONFIG_TURBO=0x92,
++ RTL8712_RFCONFIG_2T2R=0x22
++};
++
++
++// Bandwidth Offset
++#define HAL_PRIME_CHNL_OFFSET_DONT_CARE	0
++#define HAL_PRIME_CHNL_OFFSET_LOWER	1
++#define HAL_PRIME_CHNL_OFFSET_UPPER	2
++
++// Represent Channel Width in HT Capabilities
++//
++typedef enum _HT_CHANNEL_WIDTH {
++	HT_CHANNEL_WIDTH_20 = 0,
++	HT_CHANNEL_WIDTH_40 = 1,
++}HT_CHANNEL_WIDTH, *PHT_CHANNEL_WIDTH;
++
++//
++// Represent Extention Channel Offset in HT Capabilities
++// This is available only in 40Mhz mode.
++//
++typedef enum _HT_EXTCHNL_OFFSET{
++	HT_EXTCHNL_OFFSET_NO_EXT = 0,
++	HT_EXTCHNL_OFFSET_UPPER = 1,
++	HT_EXTCHNL_OFFSET_NO_DEF = 2,
++	HT_EXTCHNL_OFFSET_LOWER = 3,
++}HT_EXTCHNL_OFFSET, *PHT_EXTCHNL_OFFSET;
++
++/* 2007/11/15 MH Define different RF type. */
++typedef	enum _RT_RF_TYPE_DEFINITION
++{
++	RF_1T2R = 0,
++	RF_2T4R = 1,
++	RF_2T2R = 2,
++	RF_1T1R = 3,
++	RF_2T2R_GREEN = 4,
++	RF_819X_MAX_TYPE = 5,
++}RT_RF_TYPE_DEF_E;
++
++typedef enum _RF_RADIO_PATH{
++	RF_PATH_A = 0,			//Radio Path A
++	RF_PATH_B = 1,			//Radio Path B
++	RF_PATH_C = 2,			//Radio Path C
++	RF_PATH_D = 3,			//Radio Path D
++	//RF_PATH_MAX				//Max RF number 90 support 
++}RF_RADIO_PATH_E, *PRF_RADIO_PATH_E;
++
++u32 rtw_ch2freq(u32 ch);
++u32 rtw_freq2ch(u32 freq);
++
++
++#endif //_RTL8711_RF_H_
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_security.h b/drivers/net/wireless/rtl8192cu/include/rtw_security.h
+new file mode 100755
+index 0000000..835677c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_security.h
+@@ -0,0 +1,447 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_SECURITY_H_
++#define __RTW_SECURITY_H_
++
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++
++#define _NO_PRIVACY_	0x0
++#define _WEP40_			0x1
++#define _TKIP_			0x2
++#define _TKIP_WTMIC_	0x3
++#define _AES_			0x4
++#define _WEP104_		0x5
++#ifdef CONFIG_IEEE80211W
++#define _BIP_				0x8 
++#endif //CONFIG_IEEE80211W
++#define is_wep_enc(alg) (((alg) == _WEP40_) || ((alg) == _WEP104_))
++
++#define _WPA_IE_ID_	0xdd
++#define _WPA2_IE_ID_	0x30
++
++#define SHA256_MAC_LEN 32
++#define AES_BLOCK_SIZE 16
++#define AES_PRIV_SIZE (4 * 44)
++
++#ifndef Ndis802_11AuthModeWPA2
++#define Ndis802_11AuthModeWPA2 (Ndis802_11AuthModeWPANone + 1)
++#endif
++
++#ifndef Ndis802_11AuthModeWPA2PSK
++#define Ndis802_11AuthModeWPA2PSK (Ndis802_11AuthModeWPANone + 2)
++#endif
++
++union pn48	{
++	
++	u64	val;
++	
++#ifdef CONFIG_LITTLE_ENDIAN
++
++struct {
++  u8 TSC0;
++  u8 TSC1;
++  u8 TSC2;
++  u8 TSC3;
++  u8 TSC4;
++  u8 TSC5;
++  u8 TSC6;
++  u8 TSC7;
++} _byte_;
++ 
++#elif defined(CONFIG_BIG_ENDIAN)
++
++struct {
++  u8 TSC7;
++  u8 TSC6;
++  u8 TSC5;
++  u8 TSC4;
++  u8 TSC3;
++  u8 TSC2;
++  u8 TSC1;
++  u8 TSC0;
++} _byte_;
++ 
++#endif
++
++};
++
++union Keytype {
++        u8   skey[16];
++        u32    lkey[4];
++};
++
++
++typedef struct _RT_PMKID_LIST
++{
++	u8						bUsed;
++	u8 						Bssid[6];
++	u8						PMKID[16];
++	u8						SsidBuf[33];
++	u8*						ssid_octet;
++	u16 						ssid_length;
++} RT_PMKID_LIST, *PRT_PMKID_LIST;
++
++
++struct security_priv
++{
++	u32	  dot11AuthAlgrthm;		// 802.11 auth, could be open, shared, 8021x and authswitch 
++	u32	  dot11PrivacyAlgrthm;	// This specify the privacy for shared auth. algorithm.
++
++	/* WEP */
++	u32	  dot11PrivacyKeyIndex;	// this is only valid for legendary wep, 0~3 for key id. (tx key index)
++	union Keytype dot11DefKey[4];			// this is only valid for def. key	
++	u32 	dot11DefKeylen[4];
++	u8 	key_mask; /* use to restore wep key after hal_init */
++
++	u32 dot118021XGrpPrivacy;	// This specify the privacy algthm. used for Grp key 
++	u32	dot118021XGrpKeyid;		// key id used for Grp Key ( tx key index)
++	union Keytype	dot118021XGrpKey[4];	// 802.1x Group Key, for inx0 and inx1	
++	union Keytype	dot118021XGrptxmickey[4];
++	union Keytype	dot118021XGrprxmickey[4];
++	union pn48		dot11Grptxpn;			// PN48 used for Grp Key xmit.
++	union pn48		dot11Grprxpn;			// PN48 used for Grp Key recv.
++#ifdef CONFIG_IEEE80211W
++	u32	dot11wBIPKeyid;						// key id used for BIP Key ( tx key index)
++	union Keytype	dot11wBIPKey[6];		// BIP Key, for index4 and index5
++	union pn48		dot11wBIPtxpn;			// PN48 used for Grp Key xmit.
++	union pn48		dot11wBIPrxpn;			// PN48 used for Grp Key recv.
++#endif //CONFIG_IEEE80211W
++#ifdef CONFIG_AP_MODE
++	//extend security capabilities for AP_MODE 
++	unsigned int dot8021xalg;//0:disable, 1:psk, 2:802.1x
++	unsigned int wpa_psk;//0:disable, bit(0): WPA, bit(1):WPA2
++	unsigned int wpa_group_cipher;
++	unsigned int wpa2_group_cipher;
++	unsigned int wpa_pairwise_cipher;
++	unsigned int wpa2_pairwise_cipher;	
++#endif
++
++	u8 wps_ie[MAX_WPS_IE_LEN];//added in assoc req
++	int wps_ie_len;
++	
++	
++	u8	binstallGrpkey;
++#ifdef CONFIG_IEEE80211W
++	u8	binstallBIPkey;
++#endif //CONFIG_IEEE80211W
++	u8	busetkipkey;
++	//_timer tkip_timer;
++	u8	bcheck_grpkey;
++	u8	bgrpkey_handshake;
++	
++	//u8	packet_cnt;//unused, removed
++	
++	s32	sw_encrypt;//from registry_priv
++	s32	sw_decrypt;//from registry_priv
++	
++	s32 	hw_decrypted;//if the rx packets is hw_decrypted==_FALSE, it means the hw has not been ready.
++
++
++	//keeps the auth_type & enc_status from upper layer ioctl(wpa_supplicant or wzc)
++	u32 ndisauthtype;	// NDIS_802_11_AUTHENTICATION_MODE
++	u32 ndisencryptstatus;	// NDIS_802_11_ENCRYPTION_STATUS
++
++	WLAN_BSSID_EX sec_bss;  //for joinbss (h2c buffer) usage
++
++	NDIS_802_11_WEP ndiswep;
++#ifdef PLATFORM_WINDOWS
++	u8 KeyMaterial[16];// variable length depending on above field.
++#endif
++
++	u8 assoc_info[600];
++	u8 szofcapability[256]; //for wpa2 usage
++	u8 oidassociation[512]; //for wpa/wpa2 usage
++	u8 authenticator_ie[256];  //store ap security information element
++	u8 supplicant_ie[256];  //store sta security information element
++
++
++	//for tkip countermeasure
++	u32 last_mic_err_time;	
++	u8	btkip_countermeasure;
++	u8	btkip_wait_report;
++	u32 btkip_countermeasure_time;
++
++	//---------------------------------------------------------------------------
++	// For WPA2 Pre-Authentication.
++	//---------------------------------------------------------------------------
++	//u8				RegEnablePreAuth;				// Default value: Pre-Authentication enabled or not, from registry "EnablePreAuth". Added by Annie, 2005-11-01.
++	//u8				EnablePreAuthentication;			// Current Value: Pre-Authentication enabled or not.
++	RT_PMKID_LIST		PMKIDList[NUM_PMKID_CACHE];	// Renamed from PreAuthKey[NUM_PRE_AUTH_KEY]. Annie, 2006-10-13.
++	u8				PMKIDIndex;
++	//u32				PMKIDCount;						// Added by Annie, 2006-10-13.
++	//u8				szCapability[256];				// For WPA2-PSK using zero-config, by Annie, 2005-09-20.
++
++	u8 bWepDefaultKeyIdxSet;
++};
++
++struct sha256_state {
++	u64 length;
++	u32 state[8], curlen;
++	u8 buf[64];
++};
++
++#define GET_ENCRY_ALGO(psecuritypriv, psta, encry_algo, bmcst)\
++do{\
++	switch(psecuritypriv->dot11AuthAlgrthm)\
++	{\
++		case dot11AuthAlgrthm_Open:\
++		case dot11AuthAlgrthm_Shared:\
++		case dot11AuthAlgrthm_Auto:\
++			encry_algo = (u8)psecuritypriv->dot11PrivacyAlgrthm;\
++			break;\
++		case dot11AuthAlgrthm_8021X:\
++			if(bmcst)\
++				encry_algo = (u8)psecuritypriv->dot118021XGrpPrivacy;\
++			else\
++				encry_algo =(u8) psta->dot118021XPrivacy;\
++			break;\
++	}\
++}while(0)
++
++
++#define SET_ICE_IV_LEN( iv_len, icv_len, encrypt)\
++do{\
++	switch(encrypt)\
++	{\
++		case _WEP40_:\
++		case _WEP104_:\
++			iv_len = 4;\
++			icv_len = 4;\
++			break;\
++		case _TKIP_:\
++			iv_len = 8;\
++			icv_len = 4;\
++			break;\
++		case _AES_:\
++			iv_len = 8;\
++			icv_len = 8;\
++			break;\
++		default:\
++			iv_len = 0;\
++			icv_len = 0;\
++			break;\
++	}\
++}while(0)
++
++
++#define GET_TKIP_PN(iv,dot11txpn)\
++do{\
++	dot11txpn._byte_.TSC0=iv[2];\
++	dot11txpn._byte_.TSC1=iv[0];\
++	dot11txpn._byte_.TSC2=iv[4];\
++	dot11txpn._byte_.TSC3=iv[5];\
++	dot11txpn._byte_.TSC4=iv[6];\
++	dot11txpn._byte_.TSC5=iv[7];\
++}while(0)
++
++
++#define ROL32( A, n )	( ((A) << (n)) | ( ((A)>>(32-(n)))  & ( (1UL << (n)) - 1 ) ) )
++#define ROR32( A, n ) 	ROL32( (A), 32-(n) )
++
++struct mic_data
++{
++	u32  K0, K1;         // Key
++	u32  L, R;           // Current state
++	u32  M;              // Message accumulator (single word)
++	u32     nBytesInM;      // # bytes in M
++};
++
++extern const u32 Te0[256];
++extern const u32 Te1[256];
++extern const u32 Te2[256];
++extern const u32 Te3[256];
++extern const u32 Te4[256];
++extern const u32 Td0[256];
++extern const u32 Td1[256];
++extern const u32 Td2[256];
++extern const u32 Td3[256];
++extern const u32 Td4[256];
++extern const u32 rcon[10];
++extern const u8 Td4s[256];
++extern const u8 rcons[10];
++
++#define RCON(i) (rcons[(i)] << 24)
++
++static inline u32 rotr(u32 val, int bits)
++{
++	return (val >> bits) | (val << (32 - bits));
++}
++
++#define TE0(i) Te0[((i) >> 24) & 0xff]
++#define TE1(i) rotr(Te0[((i) >> 16) & 0xff], 8)
++#define TE2(i) rotr(Te0[((i) >> 8) & 0xff], 16)
++#define TE3(i) rotr(Te0[(i) & 0xff], 24)
++#define TE41(i) ((Te0[((i) >> 24) & 0xff] << 8) & 0xff000000)
++#define TE42(i) (Te0[((i) >> 16) & 0xff] & 0x00ff0000)
++#define TE43(i) (Te0[((i) >> 8) & 0xff] & 0x0000ff00)
++#define TE44(i) ((Te0[(i) & 0xff] >> 8) & 0x000000ff)
++#define TE421(i) ((Te0[((i) >> 16) & 0xff] << 8) & 0xff000000)
++#define TE432(i) (Te0[((i) >> 8) & 0xff] & 0x00ff0000)
++#define TE443(i) (Te0[(i) & 0xff] & 0x0000ff00)
++#define TE414(i) ((Te0[((i) >> 24) & 0xff] >> 8) & 0x000000ff)
++#define TE4(i) ((Te0[(i)] >> 8) & 0x000000ff)
++
++#define TD0(i) Td0[((i) >> 24) & 0xff]
++#define TD1(i) rotr(Td0[((i) >> 16) & 0xff], 8)
++#define TD2(i) rotr(Td0[((i) >> 8) & 0xff], 16)
++#define TD3(i) rotr(Td0[(i) & 0xff], 24)
++#define TD41(i) (Td4s[((i) >> 24) & 0xff] << 24)
++#define TD42(i) (Td4s[((i) >> 16) & 0xff] << 16)
++#define TD43(i) (Td4s[((i) >> 8) & 0xff] << 8)
++#define TD44(i) (Td4s[(i) & 0xff])
++#define TD0_(i) Td0[(i) & 0xff]
++#define TD1_(i) rotr(Td0[(i) & 0xff], 8)
++#define TD2_(i) rotr(Td0[(i) & 0xff], 16)
++#define TD3_(i) rotr(Td0[(i) & 0xff], 24)
++
++#define GETU32(pt) (((u32)(pt)[0] << 24) ^ ((u32)(pt)[1] << 16) ^ \
++			((u32)(pt)[2] <<  8) ^ ((u32)(pt)[3]))
++
++#define PUTU32(ct, st) { \
++(ct)[0] = (u8)((st) >> 24); (ct)[1] = (u8)((st) >> 16); \
++(ct)[2] = (u8)((st) >>  8); (ct)[3] = (u8)(st); }
++
++#define WPA_GET_BE32(a) ((((u32) (a)[0]) << 24) | (((u32) (a)[1]) << 16) | \
++			 (((u32) (a)[2]) << 8) | ((u32) (a)[3]))
++
++#define WPA_PUT_LE16(a, val)			\
++	do {					\
++		(a)[1] = ((u16) (val)) >> 8;	\
++		(a)[0] = ((u16) (val)) & 0xff;	\
++	} while (0)
++
++#define WPA_PUT_BE32(a, val)					\
++	do {							\
++		(a)[0] = (u8) ((((u32) (val)) >> 24) & 0xff);	\
++		(a)[1] = (u8) ((((u32) (val)) >> 16) & 0xff);	\
++		(a)[2] = (u8) ((((u32) (val)) >> 8) & 0xff);	\
++		(a)[3] = (u8) (((u32) (val)) & 0xff);		\
++	} while (0)
++
++#define WPA_PUT_BE64(a, val)				\
++	do {						\
++		(a)[0] = (u8) (((u64) (val)) >> 56);	\
++		(a)[1] = (u8) (((u64) (val)) >> 48);	\
++		(a)[2] = (u8) (((u64) (val)) >> 40);	\
++		(a)[3] = (u8) (((u64) (val)) >> 32);	\
++		(a)[4] = (u8) (((u64) (val)) >> 24);	\
++		(a)[5] = (u8) (((u64) (val)) >> 16);	\
++		(a)[6] = (u8) (((u64) (val)) >> 8);	\
++		(a)[7] = (u8) (((u64) (val)) & 0xff);	\
++	} while (0)
++	
++/* ===== start - public domain SHA256 implementation ===== */
++
++/* This is based on SHA256 implementation in LibTomCrypt that was released into
++ * public domain by Tom St Denis. */
++
++/* the K array */
++static const unsigned long K[64] = {
++	0x428a2f98UL, 0x71374491UL, 0xb5c0fbcfUL, 0xe9b5dba5UL, 0x3956c25bUL,
++	0x59f111f1UL, 0x923f82a4UL, 0xab1c5ed5UL, 0xd807aa98UL, 0x12835b01UL,
++	0x243185beUL, 0x550c7dc3UL, 0x72be5d74UL, 0x80deb1feUL, 0x9bdc06a7UL,
++	0xc19bf174UL, 0xe49b69c1UL, 0xefbe4786UL, 0x0fc19dc6UL, 0x240ca1ccUL,
++	0x2de92c6fUL, 0x4a7484aaUL, 0x5cb0a9dcUL, 0x76f988daUL, 0x983e5152UL,
++	0xa831c66dUL, 0xb00327c8UL, 0xbf597fc7UL, 0xc6e00bf3UL, 0xd5a79147UL,
++	0x06ca6351UL, 0x14292967UL, 0x27b70a85UL, 0x2e1b2138UL, 0x4d2c6dfcUL,
++	0x53380d13UL, 0x650a7354UL, 0x766a0abbUL, 0x81c2c92eUL, 0x92722c85UL,
++	0xa2bfe8a1UL, 0xa81a664bUL, 0xc24b8b70UL, 0xc76c51a3UL, 0xd192e819UL,
++	0xd6990624UL, 0xf40e3585UL, 0x106aa070UL, 0x19a4c116UL, 0x1e376c08UL,
++	0x2748774cUL, 0x34b0bcb5UL, 0x391c0cb3UL, 0x4ed8aa4aUL, 0x5b9cca4fUL,
++	0x682e6ff3UL, 0x748f82eeUL, 0x78a5636fUL, 0x84c87814UL, 0x8cc70208UL,
++	0x90befffaUL, 0xa4506cebUL, 0xbef9a3f7UL, 0xc67178f2UL
++};
++
++
++/* Various logical functions */
++#define RORc(x, y) \
++( ((((unsigned long) (x) & 0xFFFFFFFFUL) >> (unsigned long) ((y) & 31)) | \
++   ((unsigned long) (x) << (unsigned long) (32 - ((y) & 31)))) & 0xFFFFFFFFUL)
++#define Ch(x,y,z)       (z ^ (x & (y ^ z)))
++#define Maj(x,y,z)      (((x | y) & z) | (x & y)) 
++#define S(x, n)         RORc((x), (n))
++#define R(x, n)         (((x)&0xFFFFFFFFUL)>>(n))
++#define Sigma0(x)       (S(x, 2) ^ S(x, 13) ^ S(x, 22))
++#define Sigma1(x)       (S(x, 6) ^ S(x, 11) ^ S(x, 25))
++#define Gamma0(x)       (S(x, 7) ^ S(x, 18) ^ R(x, 3))
++#define Gamma1(x)       (S(x, 17) ^ S(x, 19) ^ R(x, 10))
++#ifndef MIN
++#define MIN(x, y) (((x) < (y)) ? (x) : (y))
++#endif
++#ifdef CONFIG_IEEE80211W
++int omac1_aes_128(u8 *key, u8 *data, size_t data_len, u8 *mac);
++#endif //CONFIG_IEEE80211W
++void rtw_secmicsetkey(struct mic_data *pmicdata, u8 * key );
++void rtw_secmicappendbyte(struct mic_data *pmicdata, u8 b );
++void rtw_secmicappend(struct mic_data *pmicdata, u8 * src, u32 nBytes );
++void rtw_secgetmic(struct mic_data *pmicdata, u8 * dst );
++
++void rtw_seccalctkipmic(
++	u8 * key,
++	u8 *header,
++	u8 *data,
++	u32 data_len,
++	u8 *Miccode,
++	u8   priority);
++
++u32 rtw_aes_encrypt(_adapter *padapter, u8 *pxmitframe);
++u32 rtw_tkip_encrypt(_adapter *padapter, u8 *pxmitframe);
++void rtw_wep_encrypt(_adapter *padapter, u8  *pxmitframe);
++
++u32 rtw_aes_decrypt(_adapter *padapter, u8  *precvframe);
++u32 rtw_tkip_decrypt(_adapter *padapter, u8  *precvframe);
++void rtw_wep_decrypt(_adapter *padapter, u8  *precvframe);
++#ifdef CONFIG_IEEE80211W
++u32	rtw_BIP_verify(_adapter *padapter, u8 *precvframe);
++#endif //CONFIG_IEEE80211W
++#ifdef CONFIG_TDLS
++void wpa_tdls_generate_tpk(_adapter *padapter, struct sta_info *psta);
++int wpa_tdls_ftie_mic(u8 *kck, u8 trans_seq, 
++						u8 *lnkid, u8 *rsnie, u8 *timeoutie, u8 *ftie,
++						u8 *mic);
++int tdls_verify_mic(u8 *kck, u8 trans_seq, 
++						u8 *lnkid, u8 *rsnie, u8 *timeoutie, u8 *ftie);
++#endif //CONFIG_TDLS
++
++#ifdef PLATFORM_WINDOWS
++void rtw_use_tkipkey_handler (
++	IN	PVOID					SystemSpecific1,
++	IN	PVOID					FunctionContext,
++	IN	PVOID					SystemSpecific2,
++	IN	PVOID					SystemSpecific3
++	);
++#endif
++#ifdef PLATFORM_LINUX
++void rtw_use_tkipkey_handler(void* FunctionContext);
++#endif
++
++#ifdef PLATFORM_FREEBSD
++void rtw_use_tkipkey_handler(void* FunctionContext);
++#endif //PLATFORM_FREEBSD
++
++void rtw_sec_restore_wep_key(_adapter *adapter);
++u8 rtw_handle_tkip_countermeasure(_adapter* adapter, const char *caller);
++
++#endif	//__RTL871X_SECURITY_H_
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_sreset.h b/drivers/net/wireless/rtl8192cu/include/rtw_sreset.h
+new file mode 100755
+index 0000000..45dd2bf
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_sreset.h
+@@ -0,0 +1,74 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_SRESET_C_
++#define _RTW_SRESET_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++enum {
++	SRESET_TGP_NULL = 0,
++	SRESET_TGP_XMIT_STATUS = 1,
++	SRESET_TGP_LINK_STATUS = 2,
++};
++
++struct sreset_priv {
++	_mutex 	silentreset_mutex;
++	u8 	silent_reset_inprogress;
++	u8	Wifi_Error_Status;
++	unsigned long last_tx_time;
++	unsigned long last_tx_complete_time;
++
++	s32 dbg_trigger_point;
++};
++
++#ifdef CONFIG_RTL8192C
++#include <rtl8192c_hal.h>
++#endif
++#ifdef CONFIG_RTL8192D
++#include <rtl8192d_hal.h>
++#endif
++#ifdef CONFIG_RTL8723A
++#include <rtl8723a_hal.h>
++#endif
++#ifdef CONFIG_RTL8188E
++#include <rtl8188e_hal.h>
++#endif
++
++#define	WIFI_STATUS_SUCCESS 		0
++#define	USB_VEN_REQ_CMD_FAIL 	BIT0
++#define	USB_READ_PORT_FAIL 		BIT1
++#define	USB_WRITE_PORT_FAIL		BIT2
++#define	WIFI_MAC_TXDMA_ERROR 	BIT3			
++#define   WIFI_TX_HANG				BIT4
++#define	WIFI_RX_HANG				BIT5
++#define 	WIFI_IF_NOT_EXIST			BIT6
++
++void sreset_init_value(_adapter *padapter);
++void sreset_reset_value(_adapter *padapter);
++u8 sreset_get_wifi_status(_adapter *padapter);
++void sreset_set_wifi_error_status(_adapter *padapter, u32 status);
++void sreset_set_trigger_point(_adapter *padapter, s32 tgp);
++bool sreset_inprogress(_adapter *padapter);
++void sreset_reset(_adapter *padapter);
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_tdls.h b/drivers/net/wireless/rtl8192cu/include/rtw_tdls.h
+new file mode 100755
+index 0000000..1005331
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_tdls.h
+@@ -0,0 +1,143 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_TDLS_H_
++#define __RTW_TDLS_H_
++
++#include <drv_types.h>
++
++#ifdef CONFIG_TDLS
++/* TDLS STA state */
++#define	TDLS_STATE_NONE				0x00000000	//default state
++#define	TDLS_INITIATOR_STATE			0x10000000
++#define	TDLS_RESPONDER_STATE			0x20000000
++#define	TDLS_LINKED_STATE				0x40000000
++#define	TDLS_CH_SWITCH_ON_STATE		0x01000000
++#define	TDLS_PEER_AT_OFF_STATE		0x02000000	//could send pkt on target ch
++#define	TDLS_AT_OFF_CH_STATE			0x04000000
++#define	TDLS_CH_SW_INITIATOR_STATE	0x08000000	//avoiding duplicated or unconditional ch. switch rsp.
++#define	TDLS_APSD_CHSW_STATE		0x00100000	//in APSD and want to setup channel switch
++#define	TDLS_PEER_SLEEP_STATE		0x00200000	//peer sta is sleeping
++#define	TDLS_SW_OFF_STATE			0x00400000	//terminate channel swithcing
++#define	TDLS_ALIVE_STATE				0x00010000	//Check if peer sta is alived.
++
++#define	TPK_RESEND_COUNT				301
++#define 	CH_SWITCH_TIME				10
++#define 	CH_SWITCH_TIMEOUT			30
++#define	TDLS_STAY_TIME				500
++#define	TDLS_SIGNAL_THRESH			0x20
++#define	TDLS_WATCHDOG_PERIOD		10	//Periodically sending tdls discovery request in TDLS_WATCHDOG_PERIOD * 2 sec
++#define	TDLS_ALIVE_TIMER_PH1			5000
++#define	TDLS_ALIVE_TIMER_PH2			2000
++#define	TDLS_STAY_TIME				500
++#define	TDLS_HANDSHAKE_TIME			2000
++#define	TDLS_ALIVE_COUNT				3
++#define	TDLS_INI_MACID_ENTRY			6
++
++/* TDLS */
++#define TDLS_MIC_LEN 16
++#define WPA_NONCE_LEN 32
++#define TDLS_TIMEOUT_LEN 4
++
++struct wpa_tdls_ftie {
++	u8 ie_type; /* FTIE */
++	u8 ie_len;
++	u8 mic_ctrl[2];
++	u8 mic[TDLS_MIC_LEN];
++	u8 Anonce[WPA_NONCE_LEN]; /* Responder Nonce in TDLS */
++	u8 Snonce[WPA_NONCE_LEN]; /* Initiator Nonce in TDLS */
++	/* followed by optional elements */
++} ;
++
++struct wpa_tdls_lnkid {
++	u8 ie_type; /* Link Identifier IE */
++	u8 ie_len;
++	u8 bssid[ETH_ALEN];
++	u8 init_sta[ETH_ALEN];
++	u8 resp_sta[ETH_ALEN];
++} ;
++
++static u8 TDLS_RSNIE[]={	0x01, 0x00,	//version shall be set to 1
++						0x00, 0x0f, 0xac, 0x07,	//group sipher suite
++						0x01, 0x00,	//pairwise cipher suite count
++						0x00, 0x0f, 0xac, 0x04,	//pairwise cipher suite list; CCMP only
++						0x01, 0x00,	//AKM suite count
++						0x00, 0x0f, 0xac, 0x07,	//TPK Handshake
++						0x00, 0x02,
++						//PMKID shall not be present
++						};
++
++static u8 TDLS_WMMIE[]={0x00, 0x50, 0xf2, 0x02, 0x00, 0x01, 0x00};	//Qos info all set zero
++
++static u8 TDLS_EXT_CAPIE[] = {0x00, 0x00, 0x00, 0x50, 0x20};	//bit(28), bit(30), bit(37)
++
++//	SRC: Supported Regulatory Classes
++static u8 TDLS_SRC[] = { 0x01, 0x01, 0x02, 0x03, 0x04, 0x0c, 0x16, 0x17, 0x18, 0x19, 0x1b, 0x1c, 0x1d, 0x1e, 0x20, 0x21 };
++
++void rtw_reset_tdls_info(_adapter* padapter);
++int rtw_init_tdls_info(_adapter* padapter);
++void rtw_free_tdls_info(struct tdls_info *ptdlsinfo);
++void issue_nulldata_to_TDLS_peer_STA(_adapter *padapter, struct sta_info *ptdls_sta, unsigned int power_mode);
++void init_TPK_timer(_adapter *padapter, struct sta_info *psta);
++void init_ch_switch_timer(_adapter *padapter, struct sta_info *psta);
++void init_base_ch_timer(_adapter *padapter, struct sta_info *psta);
++void init_off_ch_timer(_adapter *padapter, struct sta_info *psta);
++void init_tdls_alive_timer(_adapter *padapter, struct sta_info *psta);
++void init_handshake_timer(_adapter *padapter, struct sta_info *psta);
++void free_tdls_sta(_adapter *padapter, struct sta_info *ptdls_sta);
++#ifdef CONFIG_WFD
++void issue_tunneled_probe_req(_adapter *padapter);
++void issue_tunneled_probe_rsp(_adapter *padapter, union recv_frame *precv_frame);
++#endif //CONFIG_WFD
++void issue_tdls_dis_req(_adapter *padapter, u8 *mac_addr);
++void issue_tdls_setup_req(_adapter *padapter, u8 *mac_addr);
++void issue_tdls_setup_rsp(_adapter *padapter, union recv_frame *precv_frame);
++void issue_tdls_setup_cfm(_adapter *padapter, union recv_frame *precv_frame);
++void issue_tdls_dis_rsp(_adapter * padapter, union recv_frame * precv_frame, u8 dialog);
++void issue_tdls_teardown(_adapter *padapter, u8 *mac_addr);
++void issue_tdls_peer_traffic_indication(_adapter *padapter, struct sta_info *psta);
++void issue_tdls_ch_switch_req(_adapter *padapter, u8 *mac_addr);
++void issue_tdls_ch_switch_rsp(_adapter *padapter, u8 *mac_addr);
++sint On_TDLS_Dis_Rsp(_adapter *adapter, union recv_frame *precv_frame);
++sint On_TDLS_Setup_Req(_adapter *adapter, union recv_frame *precv_frame);
++sint On_TDLS_Setup_Rsp(_adapter *adapter, union recv_frame *precv_frame);
++sint On_TDLS_Setup_Cfm(_adapter *adapter, union recv_frame *precv_frame);
++sint On_TDLS_Dis_Req(_adapter *adapter, union recv_frame *precv_frame);
++sint On_TDLS_Teardown(_adapter *adapter, union recv_frame *precv_frame);
++sint On_TDLS_Peer_Traffic_Rsp(_adapter *adapter, union recv_frame *precv_frame);
++sint On_TDLS_Ch_Switch_Req(_adapter *adapter, union recv_frame *precv_frame);
++sint On_TDLS_Ch_Switch_Rsp(_adapter *adapter, union recv_frame *precv_frame);
++void rtw_build_tdls_setup_req_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe);
++void rtw_build_tdls_setup_rsp_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe);
++void rtw_build_tdls_setup_cfm_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe);
++void rtw_build_tdls_teardown_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe);
++void rtw_build_tdls_dis_req_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe);
++void rtw_build_tdls_dis_rsp_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe, u8 dialog);
++void rtw_build_tdls_peer_traffic_indication_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe);
++void rtw_build_tdls_ch_switch_req_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe);
++void rtw_build_tdls_ch_switch_rsp_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe);
++void rtw_build_tunneled_probe_req_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe);
++void rtw_build_tunneled_probe_rsp_ies(_adapter * padapter, struct xmit_frame * pxmitframe, u8 *pframe);
++
++int update_sgi_tdls(_adapter *padapter, struct sta_info *psta);
++u32 update_mask_tdls(_adapter *padapter, struct sta_info *psta);
++#endif //CONFIG_TDLS
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_version.h b/drivers/net/wireless/rtl8192cu/include/rtw_version.h
+new file mode 100644
+index 0000000..4fb9dd4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_version.h
+@@ -0,0 +1 @@
++#define DRIVERVERSION	"v4.0.2_9000.20130911"
+diff --git a/drivers/net/wireless/rtl8192cu/include/rtw_xmit.h b/drivers/net/wireless/rtl8192cu/include/rtw_xmit.h
+new file mode 100755
+index 0000000..f7eaf4a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/rtw_xmit.h
+@@ -0,0 +1,754 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_XMIT_H_
++#define _RTW_XMIT_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#ifdef PLATFORM_FREEBSD
++#include <if_ether.h>
++#endif //PLATFORM_FREEBSD
++
++#ifdef CONFIG_SDIO_HCI
++//#define MAX_XMITBUF_SZ (30720)//	(2048)
++#define MAX_XMITBUF_SZ (12288)
++#define NR_XMITBUFF	(16)
++
++#elif defined (CONFIG_USB_HCI)
++#ifdef CONFIG_USB_TX_AGGREGATION
++	#if defined(CONFIG_PLATFORM_ARM_SUNxI) || defined(CONFIG_PLATFORM_ARM_SUN6I)
++		#define MAX_XMITBUF_SZ (12288)  //12k 1536*8
++	#elif defined (CONFIG_PLATFORM_MSTAR)
++		#define MAX_XMITBUF_SZ	7680	// 7.5k
++	#else
++		#define MAX_XMITBUF_SZ	(20480)	// 20k
++	#endif
++#else
++#define MAX_XMITBUF_SZ	(2048)
++#endif //CONFIG_USB_TX_AGGREGATION
++#ifdef CONFIG_SINGLE_XMIT_BUF
++#define NR_XMITBUFF	(1)
++#else
++#define NR_XMITBUFF	(4)
++#endif //CONFIG_SINGLE_XMIT_BUF
++
++#elif defined (CONFIG_PCI_HCI)
++#define MAX_XMITBUF_SZ	(1664)
++#define NR_XMITBUFF	(128)
++#endif
++
++#ifdef PLATFORM_OS_CE
++#define XMITBUF_ALIGN_SZ 4
++#else
++#ifdef CONFIG_PCI_HCI
++#define XMITBUF_ALIGN_SZ 4
++#else
++#define XMITBUF_ALIGN_SZ 512
++#endif
++#endif
++
++// xmit extension buff defination
++#define MAX_XMIT_EXTBUF_SZ	(1536)
++#ifdef CONFIG_SINGLE_XMIT_BUF
++#define NR_XMIT_EXTBUFF	(1)
++#else
++#define NR_XMIT_EXTBUFF	(32)
++#endif //CONFIG_SINGLE_XMIT_BUF
++
++#define MAX_NUMBLKS		(1)
++
++#define XMIT_VO_QUEUE (0)
++#define XMIT_VI_QUEUE (1)
++#define XMIT_BE_QUEUE (2)
++#define XMIT_BK_QUEUE (3)
++
++#define VO_QUEUE_INX		0
++#define VI_QUEUE_INX		1
++#define BE_QUEUE_INX		2
++#define BK_QUEUE_INX		3
++#define BCN_QUEUE_INX		4
++#define MGT_QUEUE_INX		5
++#define HIGH_QUEUE_INX		6
++#define TXCMD_QUEUE_INX	7
++
++#define HW_QUEUE_ENTRY	8
++
++#ifdef CONFIG_PCI_HCI
++//#define TXDESC_NUM						64
++#define TXDESC_NUM						128
++#define TXDESC_NUM_BE_QUEUE			128
++#endif
++
++#define WEP_IV(pattrib_iv, dot11txpn, keyidx)\
++do{\
++	pattrib_iv[0] = dot11txpn._byte_.TSC0;\
++	pattrib_iv[1] = dot11txpn._byte_.TSC1;\
++	pattrib_iv[2] = dot11txpn._byte_.TSC2;\
++	pattrib_iv[3] = ((keyidx & 0x3)<<6);\
++	dot11txpn.val = (dot11txpn.val == 0xffffff) ? 0: (dot11txpn.val+1);\
++}while(0)
++
++
++#define TKIP_IV(pattrib_iv, dot11txpn, keyidx)\
++do{\
++	pattrib_iv[0] = dot11txpn._byte_.TSC1;\
++	pattrib_iv[1] = (dot11txpn._byte_.TSC1 | 0x20) & 0x7f;\
++	pattrib_iv[2] = dot11txpn._byte_.TSC0;\
++	pattrib_iv[3] = BIT(5) | ((keyidx & 0x3)<<6);\
++	pattrib_iv[4] = dot11txpn._byte_.TSC2;\
++	pattrib_iv[5] = dot11txpn._byte_.TSC3;\
++	pattrib_iv[6] = dot11txpn._byte_.TSC4;\
++	pattrib_iv[7] = dot11txpn._byte_.TSC5;\
++	dot11txpn.val = dot11txpn.val == 0xffffffffffffULL ? 0: (dot11txpn.val+1);\
++}while(0)
++
++#define AES_IV(pattrib_iv, dot11txpn, keyidx)\
++do{\
++	pattrib_iv[0] = dot11txpn._byte_.TSC0;\
++	pattrib_iv[1] = dot11txpn._byte_.TSC1;\
++	pattrib_iv[2] = 0;\
++	pattrib_iv[3] = BIT(5) | ((keyidx & 0x3)<<6);\
++	pattrib_iv[4] = dot11txpn._byte_.TSC2;\
++	pattrib_iv[5] = dot11txpn._byte_.TSC3;\
++	pattrib_iv[6] = dot11txpn._byte_.TSC4;\
++	pattrib_iv[7] = dot11txpn._byte_.TSC5;\
++	dot11txpn.val = dot11txpn.val == 0xffffffffffffULL ? 0: (dot11txpn.val+1);\
++}while(0)
++
++
++#define HWXMIT_ENTRY	4
++
++#define TXDESC_SIZE 32
++
++#ifdef CONFIG_SDIO_HCI
++#define TXDESC_OFFSET TXDESC_SIZE
++#endif
++
++#ifdef CONFIG_USB_HCI
++#define PACKET_OFFSET_SZ (8)
++#define TXDESC_OFFSET (TXDESC_SIZE + PACKET_OFFSET_SZ)
++#endif
++
++#ifdef CONFIG_PCI_HCI
++#define TXDESC_OFFSET 0
++#define TX_DESC_NEXT_DESC_OFFSET	40
++#endif
++
++//
++//defined for TX DESC Operation
++//
++
++#define MAX_TID (15)
++
++//OFFSET 0
++#define OFFSET_SZ	0
++#define OFFSET_SHT	16
++#define BMC		BIT(24)
++#define LSG		BIT(26)
++#define FSG		BIT(27)
++#define OWN 		BIT(31)
++
++//OFFSET 4
++#define PKT_OFFSET_SZ	0
++#define BK		BIT(6)
++#define QSEL_SHT	8
++#define Rate_ID_SHT	16
++#define NAVUSEHDR	BIT(20)
++#define PKT_OFFSET_SHT	26
++#define HWPC		BIT(31)
++
++//OFFSET 8
++#define AGG_EN		BIT(29)
++
++//OFFSET 12
++#define SEQ_SHT		16
++
++//OFFSET 16
++#define QoS		BIT(6)
++#define HW_SEQ_EN	BIT(7)
++#define USERATE		BIT(8)
++#define DISDATAFB	BIT(10)
++#define DATA_SHORT	BIT(24)
++#define DATA_BW		BIT(25)
++
++//OFFSET 20
++#define SGI		BIT(6)
++
++struct tx_desc{
++
++	//DWORD 0
++	unsigned int txdw0;
++
++	unsigned int txdw1;
++
++	unsigned int txdw2;
++
++	unsigned int txdw3;
++
++	unsigned int txdw4;
++
++	unsigned int txdw5;
++
++	unsigned int txdw6;
++
++	unsigned int txdw7;
++#ifdef CONFIG_PCI_HCI
++	unsigned int txdw8;
++
++	unsigned int txdw9;
++
++	unsigned int txdw10;
++
++	unsigned int txdw11;
++
++	// 2008/05/15 MH Because PCIE HW memory R/W 4K limit. And now,  our descriptor
++	// size is 40 bytes. If you use more than 102 descriptor( 103*40>4096), HW will execute
++	// memoryR/W CRC error. And then all DMA fetch will fail. We must decrease descriptor
++	// number or enlarge descriptor size as 64 bytes.
++	unsigned int txdw12;
++
++	unsigned int txdw13;
++
++	unsigned int txdw14;
++
++	unsigned int txdw15;
++#endif
++};
++
++
++union txdesc {
++	struct tx_desc txdesc;
++	unsigned int value[TXDESC_SIZE>>2];
++};
++
++#ifdef CONFIG_PCI_HCI
++#define PCI_MAX_TX_QUEUE_COUNT	8
++
++struct rtw_tx_ring {
++	struct tx_desc	*desc;
++	dma_addr_t		dma;
++	unsigned int		idx;
++	unsigned int		entries;
++	_queue			queue;
++	u32				qlen;
++};
++#endif
++
++struct	hw_xmit	{
++	//_lock xmit_lock;
++	//_list	pending;
++	_queue *sta_queue;
++	//struct hw_txqueue *phwtxqueue;
++	//sint	txcmdcnt;
++	int	accnt;
++};
++
++#if 0
++struct pkt_attrib
++{
++	u8	type;
++	u8	subtype;
++	u8	bswenc;
++	u8	dhcp_pkt;
++	u16	ether_type;
++	int	pktlen;		//the original 802.3 pkt raw_data len (not include ether_hdr data)
++	int	pkt_hdrlen;	//the original 802.3 pkt header len
++	int	hdrlen;		//the WLAN Header Len
++	int	nr_frags;
++	int	last_txcmdsz;
++	int	encrypt;	//when 0 indicate no encrypt. when non-zero, indicate the encrypt algorith
++	u8	iv[8];
++	int	iv_len;
++	u8	icv[8];
++	int	icv_len;
++	int	priority;
++	int	ack_policy;
++	int	mac_id;
++	int	vcs_mode;	//virtual carrier sense method
++
++	u8 	dst[ETH_ALEN];
++	u8	src[ETH_ALEN];
++	u8	ta[ETH_ALEN];
++	u8 	ra[ETH_ALEN];
++
++	u8	key_idx;
++
++	u8	qos_en;
++	u8	ht_en;
++	u8	raid;//rate adpative id
++	u8	bwmode;
++	u8	ch_offset;//PRIME_CHNL_OFFSET
++	u8	sgi;//short GI
++	u8	ampdu_en;//tx ampdu enable
++	u8	mdata;//more data bit
++	u8	eosp;
++
++	u8	pctrl;//per packet txdesc control enable
++	u8	triggered;//for ap mode handling Power Saving sta
++
++	u32	qsel;
++	u16	seqnum;
++
++	struct sta_info * psta;
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
++	u8	hw_tcp_csum;
++#endif
++};
++#else
++//reduce size
++struct pkt_attrib
++{
++	u8	type;
++	u8	subtype;
++	u8	bswenc;
++	u8	dhcp_pkt;
++	u16	ether_type;
++	u16	seqnum;
++	u16	pkt_hdrlen;	//the original 802.3 pkt header len
++	u16	hdrlen;		//the WLAN Header Len
++	u32	pktlen;		//the original 802.3 pkt raw_data len (not include ether_hdr data)
++	u32	last_txcmdsz;
++	u8	nr_frags;
++	u8	encrypt;	//when 0 indicate no encrypt. when non-zero, indicate the encrypt algorith
++	u8	iv_len;
++	u8	icv_len;
++	u8	iv[8];
++	u8	icv[8];
++	u8	priority;
++	u8	ack_policy;
++	u8	mac_id;
++	u8	vcs_mode;	//virtual carrier sense method
++	u8 	dst[ETH_ALEN];
++	u8	src[ETH_ALEN];
++	u8	ta[ETH_ALEN];
++	u8 	ra[ETH_ALEN];
++	u8	key_idx;
++	u8	qos_en;
++	u8	ht_en;
++	u8	raid;//rate adpative id
++	u8	bwmode;
++	u8	ch_offset;//PRIME_CHNL_OFFSET
++	u8	sgi;//short GI
++	u8	ampdu_en;//tx ampdu enable
++	u8	mdata;//more data bit
++	u8	pctrl;//per packet txdesc control enable
++	u8	triggered;//for ap mode handling Power Saving sta
++	u8	qsel;
++	u8	eosp;
++	u8	rate;
++	u8	intel_proxim;
++	u8 	retry_ctrl;
++	struct sta_info * psta;
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
++	u8	hw_tcp_csum;
++#endif
++	union Keytype	dot11tkiptxmickey;
++	//union Keytype	dot11tkiprxmickey;
++	union Keytype	dot118021x_UncstKey;
++};
++#endif
++
++#ifdef PLATFORM_FREEBSD
++#define ETH_ALEN	6		/* Octets in one ethernet addr	 */
++#define ETH_HLEN	14		/* Total octets in header.	 */
++#define ETH_P_IP	0x0800		/* Internet Protocol packet	*/
++
++/*struct rtw_ieee80211_hdr {
++	uint16_t frame_control;
++	uint16_t duration_id;
++	u8 addr1[6];
++	u8 addr2[6];
++	u8 addr3[6];
++	uint16_t seq_ctrl;
++	u8 addr4[6];
++} ;*/
++#endif //PLATFORM_FREEBSD
++
++#define WLANHDR_OFFSET	64
++
++#define NULL_FRAMETAG		(0x0)
++#define DATA_FRAMETAG		0x01
++#define L2_FRAMETAG		0x02
++#define MGNT_FRAMETAG		0x03
++#define AMSDU_FRAMETAG	0x04
++
++#define EII_FRAMETAG		0x05
++#define IEEE8023_FRAMETAG  0x06
++
++#define MP_FRAMETAG		0x07
++
++#define TXAGG_FRAMETAG 	0x08
++
++struct  submit_ctx{
++	u32 submit_time; /* */
++	u32 timeout_ms; /* <0: not synchronous, 0: wait forever, >0: up to ms waiting */
++	int status; /* status for operation */
++#ifdef PLATFORM_LINUX
++	struct completion done;
++#endif
++};
++
++enum {
++	RTW_SCTX_SUBMITTED = -1,
++	RTW_SCTX_DONE_SUCCESS = 0,
++	RTW_SCTX_DONE_UNKNOWN,
++	RTW_SCTX_DONE_TIMEOUT,
++	RTW_SCTX_DONE_BUF_ALLOC,
++	RTW_SCTX_DONE_BUF_FREE,
++	RTW_SCTX_DONE_WRITE_PORT_ERR,
++	RTW_SCTX_DONE_TX_DESC_NA,
++	RTW_SCTX_DONE_TX_DENY,
++	RTW_SCTX_DONE_CCX_PKT_FAIL,
++	RTW_SCTX_DONE_DRV_STOP,
++	RTW_SCTX_DONE_DEV_REMOVE,
++};
++
++
++void rtw_sctx_init(struct submit_ctx *sctx, int timeout_ms);
++int rtw_sctx_wait(struct submit_ctx *sctx);
++void rtw_sctx_done_err(struct submit_ctx **sctx, int status);
++void rtw_sctx_done(struct submit_ctx **sctx);
++
++struct xmit_buf
++{
++	_list	list;
++
++	_adapter *padapter;
++
++	u8 *pallocated_buf;
++
++	u8 *pbuf;
++
++	void *priv_data;
++
++	u16 ext_tag; // 0: Normal xmitbuf, 1: extension xmitbuf.
++	u16 flags;
++	u32 alloc_sz;
++
++	struct submit_ctx *sctx;
++
++#ifdef CONFIG_USB_HCI
++
++	u32 sz[8];
++
++#if defined(PLATFORM_OS_XP)||defined(PLATFORM_LINUX) || defined(PLATFORM_FREEBSD)
++	PURB	pxmit_urb[8];
++	dma_addr_t dma_transfer_addr;	/* (in) dma addr for transfer_buffer */
++#endif
++
++#ifdef PLATFORM_OS_XP
++	PIRP		pxmit_irp[8];
++#endif
++
++#ifdef PLATFORM_OS_CE
++	USB_TRANSFER	usb_transfer_write_port;
++#endif
++
++	u8 bpending[8];
++
++	sint last[8];
++
++#endif
++
++#ifdef CONFIG_SDIO_HCI
++	u32  len;
++	u8 *phead;
++	u8 *pdata;
++	u8 *ptail;
++	u8 *pend;
++	u32 ff_hwaddr;
++#ifdef PLATFORM_OS_XP
++	PMDL pxmitbuf_mdl;
++	PIRP  pxmitbuf_irp;
++	PSDBUS_REQUEST_PACKET pxmitbuf_sdrp;
++#endif
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	u32  len;
++#endif
++
++#ifdef DBG_XMIT_BUF
++	u8 no;
++#endif
++
++};
++
++struct xmit_frame
++{
++	_list	list;
++
++	struct pkt_attrib attrib;
++
++	_pkt *pkt;
++
++	int	frame_tag;
++
++	_adapter *padapter;
++
++	u8	*buf_addr;
++
++	struct xmit_buf *pxmitbuf;
++
++#ifdef CONFIG_SDIO_HCI
++	u8	pg_num;
++	u8	agg_num;
++#endif
++
++#ifdef CONFIG_USB_HCI
++#ifdef CONFIG_USB_TX_AGGREGATION
++	u8	agg_num;
++#endif
++	u8	pkt_offset;
++#ifdef CONFIG_RTL8192D
++	u8	EMPktNum;
++	u16	EMPktLen[5];//The max value by HW
++#endif
++#endif
++#ifdef CONFIG_XMIT_ACK
++	u8 ack_report;
++#endif
++
++	u8 *alloc_addr; /* the actual address this xmitframe allocated */
++	u8 ext_tag; /* 0:data, 1:mgmt */
++
++};
++
++struct tx_servq {
++	_list	tx_pending;
++	_queue	sta_pending;
++	int qcnt;
++};
++
++
++
++struct sta_xmit_priv
++{
++	_lock	lock;
++	sint	option;
++	sint	apsd_setting;	//When bit mask is on, the associated edca queue supports APSD.
++
++
++	//struct tx_servq blk_q[MAX_NUMBLKS];
++	struct tx_servq	be_q;			//priority == 0,3
++	struct tx_servq	bk_q;			//priority == 1,2
++	struct tx_servq	vi_q;			//priority == 4,5
++	struct tx_servq	vo_q;			//priority == 6,7
++	_list 	legacy_dz;
++	_list  apsd;
++
++	u16 txseq_tid[16];
++
++	//uint	sta_tx_bytes;
++	//u64	sta_tx_pkts;
++	//uint	sta_tx_fail;
++
++};
++
++
++struct	hw_txqueue	{
++	volatile sint	head;
++	volatile sint	tail;
++	volatile sint 	free_sz;	//in units of 64 bytes
++	volatile sint      free_cmdsz;
++	volatile sint	 txsz[8];
++	uint	ff_hwaddr;
++	uint	cmd_hwaddr;
++	sint	ac_tag;
++};
++
++
++struct	xmit_priv	{
++
++	_lock	lock;
++
++	_sema	xmit_sema;
++	_sema	terminate_xmitthread_sema;
++
++	//_queue	blk_strms[MAX_NUMBLKS];
++	_queue	be_pending;
++	_queue	bk_pending;
++	_queue	vi_pending;
++	_queue	vo_pending;
++	_queue	bm_pending;
++
++	//_queue	legacy_dz_queue;
++	//_queue	apsd_queue;
++
++	u8 *pallocated_frame_buf;
++	u8 *pxmit_frame_buf;
++	uint free_xmitframe_cnt;
++	_queue	free_xmit_queue;
++
++	//uint mapping_addr;
++	//uint pkt_sz;
++
++	u8 *xframe_ext_alloc_addr;
++	u8 *xframe_ext;
++	uint free_xframe_ext_cnt;
++	_queue free_xframe_ext_queue;
++
++	//struct	hw_txqueue	be_txqueue;
++	//struct	hw_txqueue	bk_txqueue;
++	//struct	hw_txqueue	vi_txqueue;
++	//struct	hw_txqueue	vo_txqueue;
++	//struct	hw_txqueue	bmc_txqueue;
++
++	uint	frag_len;
++
++	_adapter	*adapter;
++
++	u8   vcs_setting;
++	u8	vcs;
++	u8	vcs_type;
++	//u16  rts_thresh;
++
++	u64	tx_bytes;
++	u64	tx_pkts;
++	u64	tx_drop;
++	u64	last_tx_bytes;
++	u64	last_tx_pkts;
++
++	struct hw_xmit *hwxmits;
++	u8	hwxmit_entry;
++
++#ifdef CONFIG_USB_HCI
++	_sema	tx_retevt;//all tx return event;
++	u8		txirp_cnt;//
++
++#ifdef PLATFORM_OS_CE
++	USB_TRANSFER	usb_transfer_write_port;
++//	USB_TRANSFER	usb_transfer_write_mem;
++#endif
++#ifdef PLATFORM_LINUX
++	struct tasklet_struct xmit_tasklet;
++#endif
++#ifdef PLATFORM_FREEBSD
++	struct task xmit_tasklet;
++#endif
++	//per AC pending irp
++	int beq_cnt;
++	int bkq_cnt;
++	int viq_cnt;
++	int voq_cnt;
++
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	// Tx
++	struct rtw_tx_ring	tx_ring[PCI_MAX_TX_QUEUE_COUNT];
++	int	txringcount[PCI_MAX_TX_QUEUE_COUNT];
++#ifdef PLATFORM_LINUX
++	struct tasklet_struct xmit_tasklet;
++#endif
++#endif
++
++	_queue free_xmitbuf_queue;
++	_queue pending_xmitbuf_queue;
++	u8 *pallocated_xmitbuf;
++	u8 *pxmitbuf;
++	uint free_xmitbuf_cnt;
++
++	_queue free_xmit_extbuf_queue;
++	u8 *pallocated_xmit_extbuf;
++	u8 *pxmit_extbuf;
++	uint free_xmit_extbuf_cnt;
++
++	u16	nqos_ssn;
++
++#ifdef CONFIG_XMIT_ACK
++	int	ack_tx;
++	_mutex ack_tx_mutex;
++	struct submit_ctx ack_tx_ops;
++#endif
++	_lock lock_sctx;
++};
++
++extern struct xmit_buf *rtw_alloc_xmitbuf_ext(struct xmit_priv *pxmitpriv);
++extern s32 rtw_free_xmitbuf_ext(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++
++extern struct xmit_buf *rtw_alloc_xmitbuf(struct xmit_priv *pxmitpriv);
++extern s32 rtw_free_xmitbuf(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++
++void rtw_count_tx_stats(_adapter *padapter, struct xmit_frame *pxmitframe, int sz);
++extern void rtw_update_protection(_adapter *padapter, u8 *ie, uint ie_len);
++extern s32 rtw_make_wlanhdr(_adapter *padapter, u8 *hdr, struct pkt_attrib *pattrib);
++extern s32 rtw_put_snap(u8 *data, u16 h_proto);
++
++extern struct xmit_frame *rtw_alloc_xmitframe(struct xmit_priv *pxmitpriv);
++struct xmit_frame *rtw_alloc_xmitframe_ext(struct xmit_priv *pxmitpriv);
++struct xmit_frame *rtw_alloc_xmitframe_once(struct xmit_priv *pxmitpriv);
++extern s32 rtw_free_xmitframe(struct xmit_priv *pxmitpriv, struct xmit_frame *pxmitframe);
++extern void rtw_free_xmitframe_queue(struct xmit_priv *pxmitpriv, _queue *pframequeue);
++struct tx_servq *rtw_get_sta_pending(_adapter *padapter, struct sta_info *psta, sint up, u8 *ac);
++extern s32 rtw_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++extern struct xmit_frame* rtw_dequeue_xframe(struct xmit_priv *pxmitpriv, struct hw_xmit *phwxmit_i, sint entry);
++
++extern s32 rtw_xmit_classifier(_adapter *padapter, struct xmit_frame *pxmitframe);
++extern thread_return rtw_xmit_thread(thread_context context);
++extern u32 rtw_calculate_wlan_pkt_size_by_attribue(struct pkt_attrib *pattrib);
++#define rtw_wlan_pkt_size(f) rtw_calculate_wlan_pkt_size_by_attribue(&f->attrib)
++extern s32 rtw_xmitframe_coalesce(_adapter *padapter, _pkt *pkt, struct xmit_frame *pxmitframe);
++#ifdef CONFIG_IEEE80211W
++extern s32 rtw_mgmt_xmitframe_coalesce(_adapter *padapter, _pkt *pkt, struct xmit_frame *pxmitframe);
++#endif //CONFIG_IEEE80211W
++#ifdef CONFIG_TDLS
++s32 rtw_xmit_tdls_coalesce(_adapter *padapter, struct xmit_frame *pxmitframe, u8 action);
++#endif //CONFIG_TDLS
++s32 _rtw_init_hw_txqueue(struct hw_txqueue* phw_txqueue, u8 ac_tag);
++void _rtw_init_sta_xmit_priv(struct sta_xmit_priv *psta_xmitpriv);
++
++
++s32 rtw_txframes_pending(_adapter *padapter);
++s32 rtw_txframes_sta_ac_pending(_adapter *padapter, struct pkt_attrib *pattrib);
++void rtw_init_hwxmits(struct hw_xmit *phwxmit, sint entry);
++
++
++s32 _rtw_init_xmit_priv(struct xmit_priv *pxmitpriv, _adapter *padapter);
++void _rtw_free_xmit_priv (struct xmit_priv *pxmitpriv);
++
++
++void rtw_alloc_hwxmits(_adapter *padapter);
++void rtw_free_hwxmits(_adapter *padapter);
++
++
++s32 rtw_xmit(_adapter *padapter, _pkt **pkt);
++
++#if defined(CONFIG_AP_MODE) || defined(CONFIG_TDLS)
++sint xmitframe_enqueue_for_sleeping_sta(_adapter *padapter, struct xmit_frame *pxmitframe);
++void stop_sta_xmit(_adapter *padapter, struct sta_info *psta);
++void wakeup_sta_to_xmit(_adapter *padapter, struct sta_info *psta);
++void xmit_delivery_enabled_frames(_adapter *padapter, struct sta_info *psta);
++#endif
++
++u8	qos_acm(u8 acm_mask, u8 priority);
++
++#ifdef CONFIG_XMIT_ACK
++int rtw_ack_tx_wait(struct xmit_priv *pxmitpriv, u32 timeout_ms);
++void rtw_ack_tx_done(struct xmit_priv *pxmitpriv, int status);
++#endif //CONFIG_XMIT_ACK
++
++
++//include after declaring struct xmit_buf, in order to avoid warning
++#include <xmit_osdep.h>
++
++#endif	//_RTL871X_XMIT_H_
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/sta_info.h b/drivers/net/wireless/rtl8192cu/include/sta_info.h
+new file mode 100755
+index 0000000..75763db
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/sta_info.h
+@@ -0,0 +1,432 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __STA_INFO_H_
++#define __STA_INFO_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <wifi.h>
++
++#define IBSS_START_MAC_ID	2
++#define NUM_STA 32
++#define NUM_ACL 16
++
++
++//if mode ==0, then the sta is allowed once the addr is hit.
++//if mode ==1, then the sta is rejected once the addr is non-hit.
++struct rtw_wlan_acl_node {
++        _list		        list;
++        u8       addr[ETH_ALEN];
++        u8       valid;
++};
++
++//mode=0, disable
++//mode=1, accept unless in deny list
++//mode=2, deny unless in accept list
++struct wlan_acl_pool {
++	int mode;
++	int num;
++	struct rtw_wlan_acl_node aclnode[NUM_ACL];
++	_queue	acl_node_q;
++};
++
++typedef struct _RSSI_STA{
++	s32	UndecoratedSmoothedPWDB;
++	s32	UndecoratedSmoothedCCK;
++	s32	UndecoratedSmoothedOFDM;
++	u64	PacketMap;
++	u8	ValidBit;
++}RSSI_STA, *PRSSI_STA;
++
++struct	stainfo_stats	{
++
++	u64 rx_mgnt_pkts;
++		u64 rx_beacon_pkts;
++		u64 rx_probereq_pkts;
++		u64 rx_probersp_pkts;
++		u64 rx_probersp_bm_pkts;
++		u64 rx_probersp_uo_pkts;
++	u64 rx_ctrl_pkts;
++	u64 rx_data_pkts;
++
++	u64	last_rx_mgnt_pkts;
++		u64 last_rx_beacon_pkts;
++		u64 last_rx_probereq_pkts;
++		u64 last_rx_probersp_pkts;
++		u64 last_rx_probersp_bm_pkts;
++		u64 last_rx_probersp_uo_pkts;
++	u64	last_rx_ctrl_pkts;
++	u64	last_rx_data_pkts;
++	
++	u64	rx_bytes;
++	u64	rx_drops;
++
++	u64	tx_pkts;
++	u64	tx_bytes;
++	u64  tx_drops;
++
++};
++
++#ifdef CONFIG_TDLS
++struct TDLS_PeerKey {
++	u8 kck[16]; /* TPK-KCK */
++	u8 tk[16]; /* TPK-TK; only CCMP will be used */
++} ;
++#endif //CONFIG_TDLS
++
++struct sta_info {
++
++	_lock	lock;
++	_list	list; //free_sta_queue
++	_list	hash_list; //sta_hash
++	//_list asoc_list; //20061114
++	//_list sleep_list;//sleep_q
++	//_list wakeup_list;//wakeup_q
++	
++	struct sta_xmit_priv sta_xmitpriv;
++	struct sta_recv_priv sta_recvpriv;
++	
++	_queue sleep_q;
++	unsigned int sleepq_len;
++	
++	uint state;
++	uint aid;
++	uint mac_id;
++	uint qos_option;
++	u8	hwaddr[ETH_ALEN];
++
++	uint	ieee8021x_blocked;	//0: allowed, 1:blocked 
++	uint	dot118021XPrivacy; //aes, tkip...
++	union Keytype	dot11tkiptxmickey;
++	union Keytype	dot11tkiprxmickey;
++	union Keytype	dot118021x_UncstKey;	
++	union pn48		dot11txpn;			// PN48 used for Unicast xmit.
++#ifdef CONFIG_IEEE80211W
++	union pn48		dot11wtxpn;			// PN48 used for Unicast mgmt xmit.
++#endif //CONFIG_IEEE80211W
++	union pn48		dot11rxpn;			// PN48 used for Unicast recv.
++
++
++	u8	bssrateset[16];
++	u32	bssratelen;
++	s32  rssi;
++	s32	signal_quality;
++	
++	u8	cts2self;
++	u8	rtsen;
++
++	u8	raid;
++	u8 	init_rate;
++	u32	ra_mask;
++	struct stainfo_stats sta_stats;
++
++#ifdef CONFIG_TDLS
++	u32	tdls_sta_state;
++	u8	dialog;
++	u8	SNonce[32];
++	u8	ANonce[32];
++	u32	TDLS_PeerKey_Lifetime;
++	u16	TPK_count;
++	_timer	TPK_timer;
++	struct TDLS_PeerKey	tpk;
++	_adapter *padapter;
++	u16	stat_code;
++	u8	off_ch;
++	u16	ch_switch_time;
++	u16	ch_switch_timeout;
++	u8	option;
++	_timer	option_timer;
++	_timer	base_ch_timer;
++	_timer	off_ch_timer;
++
++	_timer handshake_timer;
++	_timer alive_timer1;
++	_timer alive_timer2;
++	u8 timer_flag;
++	u8 alive_count;
++#endif //CONFIG_TDLS
++
++	//for A-MPDU TX, ADDBA timeout check	
++	_timer addba_retry_timer;
++	
++	//for A-MPDU Rx reordering buffer control 
++	struct recv_reorder_ctrl recvreorder_ctrl[16];
++
++	//for A-MPDU Tx
++	//unsigned char		ampdu_txen_bitmap;
++	u16	BA_starting_seqctrl[16];
++	
++
++#ifdef CONFIG_80211N_HT
++	struct ht_priv	htpriv;	
++#endif
++	
++	//Notes:	
++	//STA_Mode:
++	//curr_network(mlme_priv/security_priv/qos/ht) + sta_info: (STA & AP) CAP/INFO	
++	//scan_q: AP CAP/INFO
++
++	//AP_Mode:
++	//curr_network(mlme_priv/security_priv/qos/ht) : AP CAP/INFO
++	//sta_info: (AP & STA) CAP/INFO
++		
++#ifdef CONFIG_AP_MODE
++
++	_list asoc_list;
++	_list auth_list;
++	 
++	unsigned int expire_to;
++	unsigned int auth_seq;
++	unsigned int authalg;
++	unsigned char chg_txt[128];
++
++	u16 capability;	
++	int flags;	
++
++	int dot8021xalg;//0:disable, 1:psk, 2:802.1x
++	int wpa_psk;//0:disable, bit(0): WPA, bit(1):WPA2
++	int wpa_group_cipher;
++	int wpa2_group_cipher;
++	int wpa_pairwise_cipher;
++	int wpa2_pairwise_cipher;	
++
++	u8 bpairwise_key_installed;
++
++#ifdef CONFIG_NATIVEAP_MLME
++	u8 wpa_ie[32];
++
++	u8 nonerp_set;
++	u8 no_short_slot_time_set;
++	u8 no_short_preamble_set;
++	u8 no_ht_gf_set;
++	u8 no_ht_set;
++	u8 ht_20mhz_set;
++#endif	// CONFIG_NATIVEAP_MLME
++
++	unsigned int tx_ra_bitmap;
++	u8 qos_info;
++
++	u8 max_sp_len;
++	u8 uapsd_bk;//BIT(0): Delivery enabled, BIT(1): Trigger enabled
++	u8 uapsd_be;
++	u8 uapsd_vi;
++	u8 uapsd_vo;	
++
++	u8 has_legacy_ac;
++	unsigned int sleepq_ac_len;
++
++#ifdef CONFIG_P2P
++	//p2p priv data
++	u8 is_p2p_device;
++	u8 p2p_status_code;
++
++	//p2p client info
++	u8 dev_addr[ETH_ALEN];
++	//u8 iface_addr[ETH_ALEN];//= hwaddr[ETH_ALEN]
++	u8 dev_cap;
++	u16 config_methods;
++	u8 primary_dev_type[8];
++	u8 num_of_secdev_type;
++	u8 secdev_types_list[32];// 32/8 == 4;
++	u16 dev_name_len;
++	u8 dev_name[32];	
++#endif //CONFIG_P2P
++
++#ifdef CONFIG_TX_MCAST2UNI
++	u8 under_exist_checking;
++#endif	// CONFIG_TX_MCAST2UNI
++	
++	u8 keep_alive_trycnt;
++
++#endif	// CONFIG_AP_MODE	
++
++#ifdef CONFIG_IOCTL_CFG80211
++	u8 *passoc_req;
++	u32 assoc_req_len;
++#endif
++
++	//for DM
++	RSSI_STA	 rssi_stat;
++	
++        /* To store the sequence number of received management frame */
++	u16 RxMgmtFrameSeqNum;
++};
++
++#define sta_rx_pkts(sta) \
++	(sta->sta_stats.rx_mgnt_pkts \
++	+ sta->sta_stats.rx_ctrl_pkts \
++	+ sta->sta_stats.rx_data_pkts)
++
++#define sta_last_rx_pkts(sta) \
++	(sta->sta_stats.last_rx_mgnt_pkts \
++	+ sta->sta_stats.last_rx_ctrl_pkts \
++	+ sta->sta_stats.last_rx_data_pkts)
++
++#define sta_rx_data_pkts(sta) \
++	(sta->sta_stats.rx_data_pkts)
++
++#define sta_last_rx_data_pkts(sta) \
++	(sta->sta_stats.last_rx_data_pkts)
++
++#define sta_rx_mgnt_pkts(sta) \
++	(sta->sta_stats.rx_mgnt_pkts)
++
++#define sta_last_rx_mgnt_pkts(sta) \
++	(sta->sta_stats.last_rx_mgnt_pkts)
++
++#define sta_rx_beacon_pkts(sta) \
++	(sta->sta_stats.rx_beacon_pkts)
++
++#define sta_last_rx_beacon_pkts(sta) \
++	(sta->sta_stats.last_rx_beacon_pkts)
++
++#define sta_rx_probereq_pkts(sta) \
++	(sta->sta_stats.rx_probereq_pkts)
++
++#define sta_last_rx_probereq_pkts(sta) \
++	(sta->sta_stats.last_rx_probereq_pkts)
++
++#define sta_rx_probersp_pkts(sta) \
++	(sta->sta_stats.rx_probersp_pkts)
++
++#define sta_last_rx_probersp_pkts(sta) \
++	(sta->sta_stats.last_rx_probersp_pkts)
++
++#define sta_rx_probersp_bm_pkts(sta) \
++	(sta->sta_stats.rx_probersp_bm_pkts)
++
++#define sta_last_rx_probersp_bm_pkts(sta) \
++	(sta->sta_stats.last_rx_probersp_bm_pkts)
++
++#define sta_rx_probersp_uo_pkts(sta) \
++	(sta->sta_stats.rx_probersp_uo_pkts)
++
++#define sta_last_rx_probersp_uo_pkts(sta) \
++	(sta->sta_stats.last_rx_probersp_uo_pkts)
++
++#define sta_update_last_rx_pkts(sta) \
++	do { \
++		sta->sta_stats.last_rx_mgnt_pkts = sta->sta_stats.rx_mgnt_pkts; \
++		sta->sta_stats.last_rx_beacon_pkts = sta->sta_stats.rx_beacon_pkts; \
++		sta->sta_stats.last_rx_probereq_pkts = sta->sta_stats.rx_probereq_pkts; \
++		sta->sta_stats.last_rx_probersp_pkts = sta->sta_stats.rx_probersp_pkts; \
++		sta->sta_stats.last_rx_probersp_bm_pkts = sta->sta_stats.rx_probersp_bm_pkts; \
++		sta->sta_stats.last_rx_probersp_uo_pkts = sta->sta_stats.rx_probersp_uo_pkts; \
++		sta->sta_stats.last_rx_ctrl_pkts = sta->sta_stats.rx_ctrl_pkts; \
++		sta->sta_stats.last_rx_data_pkts = sta->sta_stats.rx_data_pkts; \
++	} while(0)
++
++#define STA_RX_PKTS_ARG(sta) \
++	sta->sta_stats.rx_mgnt_pkts \
++	, sta->sta_stats.rx_ctrl_pkts \
++	, sta->sta_stats.rx_data_pkts
++
++#define STA_LAST_RX_PKTS_ARG(sta) \
++	sta->sta_stats.last_rx_mgnt_pkts \
++	, sta->sta_stats.last_rx_ctrl_pkts \
++	, sta->sta_stats.last_rx_data_pkts
++
++#define STA_RX_PKTS_DIFF_ARG(sta) \
++	sta->sta_stats.rx_mgnt_pkts - sta->sta_stats.last_rx_mgnt_pkts \
++	, sta->sta_stats.rx_ctrl_pkts - sta->sta_stats.last_rx_ctrl_pkts \
++	, sta->sta_stats.rx_data_pkts -sta->sta_stats.last_rx_data_pkts
++
++#define STA_PKTS_FMT "(m:%llu, c:%llu, d:%llu)"
++	
++struct	sta_priv {
++	
++	u8 *pallocated_stainfo_buf;
++	u8 *pstainfo_buf;
++	_queue	free_sta_queue;
++	
++	_lock sta_hash_lock;
++	_list   sta_hash[NUM_STA];
++	int asoc_sta_count;
++	_queue sleep_q;
++	_queue wakeup_q;
++	
++	_adapter *padapter;
++	
++
++#ifdef CONFIG_AP_MODE
++	_list asoc_list;
++	_list auth_list;
++	_lock asoc_list_lock;
++	_lock auth_list_lock;
++	u8 asoc_list_cnt;
++	u8 auth_list_cnt;
++
++	unsigned int auth_to;  //sec, time to expire in authenticating.
++	unsigned int assoc_to; //sec, time to expire before associating.
++	unsigned int expire_to; //sec , time to expire after associated.
++	
++	/* pointers to STA info; based on allocated AID or NULL if AID free
++	 * AID is in the range 1-2007, so sta_aid[0] corresponders to AID 1
++	 * and so on
++	 */
++	struct sta_info *sta_aid[NUM_STA];
++
++	u16 sta_dz_bitmap;//only support 15 stations, staion aid bitmap for sleeping sta.
++	u16 tim_bitmap;//only support 15 stations, aid=0~15 mapping bit0~bit15	
++
++	u16 max_num_sta;
++
++	struct wlan_acl_pool acl_list;
++#endif		
++	
++};
++
++
++__inline static u32 wifi_mac_hash(u8 *mac)
++{
++        u32 x;
++
++        x = mac[0];
++        x = (x << 2) ^ mac[1];
++        x = (x << 2) ^ mac[2];
++        x = (x << 2) ^ mac[3];
++        x = (x << 2) ^ mac[4];
++        x = (x << 2) ^ mac[5];
++
++        x ^= x >> 8;
++        x  = x & (NUM_STA - 1);
++		
++        return x;
++}
++
++
++extern u32	_rtw_init_sta_priv(struct sta_priv *pstapriv);
++extern u32	_rtw_free_sta_priv(struct sta_priv *pstapriv);
++
++#define stainfo_offset_valid(offset) (offset < NUM_STA && offset >= 0)
++int rtw_stainfo_offset(struct sta_priv *stapriv, struct sta_info *sta);
++struct sta_info *rtw_get_stainfo_by_offset(struct sta_priv *stapriv, int offset);
++
++extern struct sta_info *rtw_alloc_stainfo(struct	sta_priv *pstapriv, u8 *hwaddr);
++extern u32	rtw_free_stainfo(_adapter *padapter , struct sta_info *psta);
++extern void rtw_free_all_stainfo(_adapter *padapter);
++extern struct sta_info *rtw_get_stainfo(struct sta_priv *pstapriv, u8 *hwaddr);
++extern u32 rtw_init_bcmc_stainfo(_adapter* padapter);
++extern struct sta_info* rtw_get_bcmc_stainfo(_adapter* padapter);
++extern u8 rtw_access_ctrl(_adapter *padapter, u8 *mac_addr);
++
++#endif //_STA_INFO_H_
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/usb_hal.h b/drivers/net/wireless/rtl8192cu/include/usb_hal.h
+new file mode 100755
+index 0000000..d765b82
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/usb_hal.h
+@@ -0,0 +1,37 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __USB_HAL_H__
++#define __USB_HAL_H__
++
++
++void rtl8192cu_set_hal_ops(_adapter * padapter);
++
++void rtl8192du_set_hal_ops(_adapter * padapter);
++#ifdef CONFIG_INTEL_PROXIM	
++extern _adapter  *rtw_usb_get_sw_pointer(void);
++#endif	//CONFIG_INTEL_PROXIM
++#ifdef CONFIG_WOWLAN
++#ifdef CONFIG_WOWLAN_MANUAL
++extern int rtw_suspend_toshiba(PADAPTER Adapter);
++extern int rtw_resume_toshiba(PADAPTER Adapter);
++#endif // CONFIG_WOWLAN_MANUAL
++#endif //CONFIG_WOWLAN
++#endif //__USB_HAL_H__
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/usb_ops.h b/drivers/net/wireless/rtl8192cu/include/usb_ops.h
+new file mode 100755
+index 0000000..8bbec2d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/usb_ops.h
+@@ -0,0 +1,110 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __USB_OPS_H_
++#define __USB_OPS_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <osdep_intf.h>
++
++#define REALTEK_USB_VENQT_READ		0xC0
++#define REALTEK_USB_VENQT_WRITE		0x40
++#define REALTEK_USB_VENQT_CMD_REQ	0x05
++#define REALTEK_USB_VENQT_CMD_IDX	0x00
++
++enum{
++	VENDOR_WRITE = 0x00,
++	VENDOR_READ = 0x01,
++};
++#define ALIGNMENT_UNIT				16
++#define MAX_VENDOR_REQ_CMD_SIZE	254		//8188cu SIE Support
++#define MAX_USB_IO_CTL_SIZE		(MAX_VENDOR_REQ_CMD_SIZE +ALIGNMENT_UNIT)
++
++#ifdef PLATFORM_LINUX
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,12)) 
++#define rtw_usb_control_msg(dev, pipe, request, requesttype, value, index, data, size, timeout_ms) \
++	usb_control_msg((dev), (pipe), (request), (requesttype), (value), (index), (data), (size), (timeout_ms)) 
++#define rtw_usb_bulk_msg(usb_dev, pipe, data, len, actual_length, timeout_ms) \
++	usb_bulk_msg((usb_dev), (pipe), (data), (len), (actual_length), (timeout_ms))
++#else
++#define rtw_usb_control_msg(dev, pipe, request, requesttype, value, index, data, size,timeout_ms) \
++	usb_control_msg((dev), (pipe), (request), (requesttype), (value), (index), (data), (size), \
++		((timeout_ms) == 0) ||((timeout_ms)*HZ/1000>0)?((timeout_ms)*HZ/1000):1) 
++#define rtw_usb_bulk_msg(usb_dev, pipe, data, len, actual_length, timeout_ms) \
++	usb_bulk_msg((usb_dev), (pipe), (data), (len), (actual_length), \
++		((timeout_ms) == 0) ||((timeout_ms)*HZ/1000>0)?((timeout_ms)*HZ/1000):1) 
++#endif
++#include <usb_ops_linux.h>
++#endif //PLATFORM_LINUX
++
++#ifdef CONFIG_RTL8192C
++void rtl8192cu_set_intf_ops(struct _io_ops *pops);
++#define usb_set_intf_ops	rtl8192cu_set_intf_ops
++
++void rtl8192cu_recv_tasklet(void *priv);
++
++void rtl8192cu_xmit_tasklet(void *priv);
++#endif
++
++#ifdef CONFIG_RTL8192D
++void rtl8192du_set_intf_ops(struct _io_ops *pops);
++#define usb_set_intf_ops	rtl8192du_set_intf_ops
++
++#ifndef PLATFORM_FREEBSD
++void rtl8192du_recv_tasklet(void *priv);
++#else	// PLATFORM_FREEBSD
++void rtl8192du_recv_tasklet(void *priv, int npending);
++#ifdef CONFIG_RX_INDICATE_QUEUE
++void rtw_rx_indicate_tasklet(void *priv, int npending);
++#endif	// CONFIG_RX_INDICATE_QUEUE
++#endif	// PLATFORM_FREEBSD
++
++void rtl8192du_xmit_tasklet(void *priv);
++#endif
++
++/*
++* Increase and check if the continual_urb_error of this @param dvobjprive is larger than MAX_CONTINUAL_URB_ERR
++* @return _TRUE:
++* @return _FALSE:
++*/
++static inline int rtw_inc_and_chk_continual_urb_error(struct dvobj_priv *dvobj)
++{
++	int ret = _FALSE;
++	int value;
++	if( (value=ATOMIC_INC_RETURN(&dvobj->continual_urb_error)) > MAX_CONTINUAL_URB_ERR) {
++		DBG_871X("[dvobj:%p][ERROR] continual_urb_error:%d > %d\n", dvobj, value, MAX_CONTINUAL_URB_ERR);
++		ret = _TRUE;
++	} else {
++		//DBG_871X("[dvobj:%p] continual_urb_error:%d\n", dvobj, value);
++	}
++	return ret;
++}
++
++/*
++* Set the continual_urb_error of this @param dvobjprive to 0
++*/
++static inline void rtw_reset_continual_urb_error(struct dvobj_priv *dvobj)
++{
++	ATOMIC_SET(&dvobj->continual_urb_error, 0);	
++}
++
++#endif //__USB_OPS_H_
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/usb_ops_linux.h b/drivers/net/wireless/rtl8192cu/include/usb_ops_linux.h
+new file mode 100755
+index 0000000..d418ba2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/usb_ops_linux.h
+@@ -0,0 +1,63 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __USB_OPS_LINUX_H__
++#define __USB_OPS_LINUX_H__
++
++#define VENDOR_CMD_MAX_DATA_LEN	254
++
++#define RTW_USB_CONTROL_MSG_TIMEOUT_TEST	10//ms
++#define RTW_USB_CONTROL_MSG_TIMEOUT	500//ms
++
++#if defined(CONFIG_VENDOR_REQ_RETRY) && defined(CONFIG_USB_VENDOR_REQ_MUTEX)
++/* vendor req retry should be in the situation when each vendor req is atomically submitted from others */
++#define MAX_USBCTRL_VENDORREQ_TIMES	10
++#else
++#define MAX_USBCTRL_VENDORREQ_TIMES	1
++#endif
++
++#define RTW_USB_BULKOUT_TIMEOUT	5000//ms
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,5,0)) || (LINUX_VERSION_CODE > KERNEL_VERSION(2,6,18))
++#define _usbctrl_vendorreq_async_callback(urb, regs)	_usbctrl_vendorreq_async_callback(urb)
++#define usb_bulkout_zero_complete(purb, regs)	usb_bulkout_zero_complete(purb)
++#define usb_write_mem_complete(purb, regs)	usb_write_mem_complete(purb)
++#define usb_write_port_complete(purb, regs)	usb_write_port_complete(purb)
++#define usb_read_port_complete(purb, regs)	usb_read_port_complete(purb)
++#define usb_read_interrupt_complete(purb, regs)	usb_read_interrupt_complete(purb)
++#endif
++
++#ifdef CONFIG_USB_SUPPORT_ASYNC_VDN_REQ
++int usb_async_write8(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++int usb_async_write16(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++int usb_async_write32(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++#endif /* CONFIG_USB_SUPPORT_ASYNC_VDN_REQ */
++
++unsigned int ffaddr2pipehdl(struct dvobj_priv *pdvobj, u32 addr);
++
++void usb_read_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem);
++void usb_write_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *wmem);
++
++void usb_read_port_cancel(struct intf_hdl *pintfhdl);
++
++u32 usb_write_port(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *wmem);
++void usb_write_port_cancel(struct intf_hdl *pintfhdl);
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/usb_osintf.h b/drivers/net/wireless/rtl8192cu/include/usb_osintf.h
+new file mode 100755
+index 0000000..753013d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/usb_osintf.h
+@@ -0,0 +1,38 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __USB_OSINTF_H
++#define __USB_OSINTF_H
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <usb_vendor_req.h>
++
++#define USBD_HALTED(Status) ((ULONG)(Status) >> 30 == 3)
++
++
++//uint usb_dvobj_init(_adapter * adapter);
++//void usb_dvobj_deinit(_adapter * adapter);
++
++u8 usbvendorrequest(struct dvobj_priv *pdvobjpriv, RT_USB_BREQUEST brequest, RT_USB_WVALUE wvalue, u8 windex, void* data, u8 datalen, u8 isdirectionin);
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/usb_vendor_req.h b/drivers/net/wireless/rtl8192cu/include/usb_vendor_req.h
+new file mode 100755
+index 0000000..f33e982
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/usb_vendor_req.h
+@@ -0,0 +1,59 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _USB_VENDOR_REQUEST_H_
++#define _USB_VENDOR_REQUEST_H_
++
++//4	Set/Get Register related wIndex/Data
++#define	RT_USB_RESET_MASK_OFF		0
++#define	RT_USB_RESET_MASK_ON		1
++#define	RT_USB_SLEEP_MASK_OFF		0
++#define	RT_USB_SLEEP_MASK_ON		1
++#define	RT_USB_LDO_ON				1
++#define	RT_USB_LDO_OFF				0
++
++//4	Set/Get SYSCLK related	wValue or Data
++#define	RT_USB_SYSCLK_32KHZ		0
++#define	RT_USB_SYSCLK_40MHZ		1
++#define	RT_USB_SYSCLK_60MHZ		2
++
++
++typedef enum _RT_USB_BREQUEST {
++	RT_USB_SET_REGISTER		= 1,
++	RT_USB_SET_SYSCLK		= 2,
++	RT_USB_GET_SYSCLK		= 3,
++	RT_USB_GET_REGISTER		= 4
++} RT_USB_BREQUEST;
++
++
++typedef enum _RT_USB_WVALUE {
++	RT_USB_RESET_MASK	=	1,
++	RT_USB_SLEEP_MASK	=	2,
++	RT_USB_USB_HRCPWM	=	3,
++	RT_USB_LDO			=	4,
++	RT_USB_BOOT_TYPE	=	5
++} RT_USB_WVALUE;
++
++
++//BOOLEAN usbvendorrequest(PCE_USB_DEVICE	CEdevice, RT_USB_BREQUEST bRequest, RT_USB_WVALUE wValue, UCHAR wIndex, PVOID Data, UCHAR DataLength, BOOLEAN isDirectionIn);
++//BOOLEAN CEusbGetStatusRequest(PCE_USB_DEVICE CEdevice, IN USHORT Op, IN USHORT Index, PVOID Data);
++//BOOLEAN CEusbFeatureRequest(PCE_USB_DEVICE CEdevice, IN USHORT Op, IN USHORT FeatureSelector, IN USHORT Index);
++//BOOLEAN CEusbGetDescriptorRequest(PCE_USB_DEVICE CEdevice, IN short urbLength, IN UCHAR DescriptorType, IN UCHAR Index, IN USHORT LanguageId, IN PVOID  TransferBuffer, IN ULONG TransferBufferLength);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8192cu/include/wifi.h b/drivers/net/wireless/rtl8192cu/include/wifi.h
+new file mode 100755
+index 0000000..0bb55bb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/wifi.h
+@@ -0,0 +1,1246 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _WIFI_H_
++#define _WIFI_H_
++
++#include <rtw_byteorder.h>
++
++#ifdef BIT
++//#error	"BIT define occurred earlier elsewhere!\n"
++#undef BIT
++#endif
++#define BIT(x)	(1 << (x))
++
++
++#define WLAN_ETHHDR_LEN		14
++#define WLAN_ETHADDR_LEN	6
++#define WLAN_IEEE_OUI_LEN	3
++#define WLAN_ADDR_LEN		6
++#define WLAN_CRC_LEN		4
++#define WLAN_BSSID_LEN		6
++#define WLAN_BSS_TS_LEN		8
++#define WLAN_HDR_A3_LEN		24
++#define WLAN_HDR_A4_LEN		30
++#define WLAN_HDR_A3_QOS_LEN	26
++#define WLAN_HDR_A4_QOS_LEN	32
++#define WLAN_SSID_MAXLEN	32
++#define WLAN_DATA_MAXLEN	2312
++
++#define WLAN_A3_PN_OFFSET	24
++#define WLAN_A4_PN_OFFSET	30
++
++#define WLAN_MIN_ETHFRM_LEN	60
++#define WLAN_MAX_ETHFRM_LEN	1514
++#define WLAN_ETHHDR_LEN		14
++
++#define P80211CAPTURE_VERSION	0x80211001
++
++#ifdef GREEN_HILL
++#pragma pack(1)
++#endif
++
++enum WIFI_FRAME_TYPE {
++	WIFI_MGT_TYPE  =	(0),
++	WIFI_CTRL_TYPE =	(BIT(2)),
++	WIFI_DATA_TYPE =	(BIT(3)),
++	WIFI_QOS_DATA_TYPE	= (BIT(7)|BIT(3)),	//!< QoS Data	
++};
++
++enum WIFI_FRAME_SUBTYPE {
++
++    // below is for mgt frame
++    WIFI_ASSOCREQ       = (0 | WIFI_MGT_TYPE),
++    WIFI_ASSOCRSP       = (BIT(4) | WIFI_MGT_TYPE),
++    WIFI_REASSOCREQ     = (BIT(5) | WIFI_MGT_TYPE),
++    WIFI_REASSOCRSP     = (BIT(5) | BIT(4) | WIFI_MGT_TYPE),
++    WIFI_PROBEREQ       = (BIT(6) | WIFI_MGT_TYPE),
++    WIFI_PROBERSP       = (BIT(6) | BIT(4) | WIFI_MGT_TYPE),
++    WIFI_BEACON         = (BIT(7) | WIFI_MGT_TYPE),
++    WIFI_ATIM           = (BIT(7) | BIT(4) | WIFI_MGT_TYPE),
++    WIFI_DISASSOC       = (BIT(7) | BIT(5) | WIFI_MGT_TYPE),
++    WIFI_AUTH           = (BIT(7) | BIT(5) | BIT(4) | WIFI_MGT_TYPE),
++    WIFI_DEAUTH         = (BIT(7) | BIT(6) | WIFI_MGT_TYPE),
++    WIFI_ACTION         = (BIT(7) | BIT(6) | BIT(4) | WIFI_MGT_TYPE),
++
++    // below is for control frame
++    WIFI_PSPOLL         = (BIT(7) | BIT(5) | WIFI_CTRL_TYPE),
++    WIFI_RTS            = (BIT(7) | BIT(5) | BIT(4) | WIFI_CTRL_TYPE),
++    WIFI_CTS            = (BIT(7) | BIT(6) | WIFI_CTRL_TYPE),
++    WIFI_ACK            = (BIT(7) | BIT(6) | BIT(4) | WIFI_CTRL_TYPE),
++    WIFI_CFEND          = (BIT(7) | BIT(6) | BIT(5) | WIFI_CTRL_TYPE),
++    WIFI_CFEND_CFACK    = (BIT(7) | BIT(6) | BIT(5) | BIT(4) | WIFI_CTRL_TYPE),
++
++    // below is for data frame
++    WIFI_DATA           = (0 | WIFI_DATA_TYPE),
++    WIFI_DATA_CFACK     = (BIT(4) | WIFI_DATA_TYPE),
++    WIFI_DATA_CFPOLL    = (BIT(5) | WIFI_DATA_TYPE),
++    WIFI_DATA_CFACKPOLL = (BIT(5) | BIT(4) | WIFI_DATA_TYPE),
++    WIFI_DATA_NULL      = (BIT(6) | WIFI_DATA_TYPE),
++    WIFI_CF_ACK         = (BIT(6) | BIT(4) | WIFI_DATA_TYPE),
++    WIFI_CF_POLL        = (BIT(6) | BIT(5) | WIFI_DATA_TYPE),
++    WIFI_CF_ACKPOLL     = (BIT(6) | BIT(5) | BIT(4) | WIFI_DATA_TYPE),
++    WIFI_QOS_DATA_NULL	= (BIT(6) | WIFI_QOS_DATA_TYPE),
++};
++
++enum WIFI_REASON_CODE	{
++	_RSON_RESERVED_					= 0,
++	_RSON_UNSPECIFIED_				= 1,
++	_RSON_AUTH_NO_LONGER_VALID_		= 2,
++	_RSON_DEAUTH_STA_LEAVING_		= 3,
++	_RSON_INACTIVITY_				= 4,
++	_RSON_UNABLE_HANDLE_			= 5,
++	_RSON_CLS2_						= 6,
++	_RSON_CLS3_						= 7,
++	_RSON_DISAOC_STA_LEAVING_		= 8,
++	_RSON_ASOC_NOT_AUTH_			= 9,
++
++	// WPA reason
++	_RSON_INVALID_IE_				= 13,
++	_RSON_MIC_FAILURE_				= 14,
++	_RSON_4WAY_HNDSHK_TIMEOUT_		= 15,
++	_RSON_GROUP_KEY_UPDATE_TIMEOUT_	= 16,
++	_RSON_DIFF_IE_					= 17,
++	_RSON_MLTCST_CIPHER_NOT_VALID_	= 18,
++	_RSON_UNICST_CIPHER_NOT_VALID_	= 19,
++	_RSON_AKMP_NOT_VALID_			= 20,
++	_RSON_UNSUPPORT_RSNE_VER_		= 21,
++	_RSON_INVALID_RSNE_CAP_			= 22,
++	_RSON_IEEE_802DOT1X_AUTH_FAIL_	= 23,
++
++	//belowing are Realtek definition
++	_RSON_PMK_NOT_AVAILABLE_		= 24,
++	_RSON_TDLS_TEAR_TOOFAR_			= 25,
++	_RSON_TDLS_TEAR_UN_RSN_			= 26,
++};
++
++/* Reason codes (IEEE 802.11-2007, 7.3.1.7, Table 7-22) */
++#if 0
++#define WLAN_REASON_UNSPECIFIED 1
++#define WLAN_REASON_PREV_AUTH_NOT_VALID 2
++#define WLAN_REASON_DEAUTH_LEAVING 3
++#define WLAN_REASON_DISASSOC_DUE_TO_INACTIVITY 4
++#define WLAN_REASON_DISASSOC_AP_BUSY 5
++#define WLAN_REASON_CLASS2_FRAME_FROM_NONAUTH_STA 6
++#define WLAN_REASON_CLASS3_FRAME_FROM_NONASSOC_STA 7
++#define WLAN_REASON_DISASSOC_STA_HAS_LEFT 8
++#define WLAN_REASON_STA_REQ_ASSOC_WITHOUT_AUTH 9
++#endif
++/* IEEE 802.11h */
++#define WLAN_REASON_PWR_CAPABILITY_NOT_VALID 10
++#define WLAN_REASON_SUPPORTED_CHANNEL_NOT_VALID 11
++#if 0
++/* IEEE 802.11i */
++#define WLAN_REASON_INVALID_IE 13
++#define WLAN_REASON_MICHAEL_MIC_FAILURE 14
++#define WLAN_REASON_4WAY_HANDSHAKE_TIMEOUT 15
++#define WLAN_REASON_GROUP_KEY_UPDATE_TIMEOUT 16
++#define WLAN_REASON_IE_IN_4WAY_DIFFERS 17
++#define WLAN_REASON_GROUP_CIPHER_NOT_VALID 18
++#define WLAN_REASON_PAIRWISE_CIPHER_NOT_VALID 19
++#define WLAN_REASON_AKMP_NOT_VALID 20
++#define WLAN_REASON_UNSUPPORTED_RSN_IE_VERSION 21
++#define WLAN_REASON_INVALID_RSN_IE_CAPAB 22
++#define WLAN_REASON_IEEE_802_1X_AUTH_FAILED 23
++#define WLAN_REASON_CIPHER_SUITE_REJECTED 24
++#endif
++
++enum WIFI_STATUS_CODE {
++	_STATS_SUCCESSFUL_			= 0,
++	_STATS_FAILURE_				= 1,
++	_STATS_CAP_FAIL_			= 10,
++	_STATS_NO_ASOC_				= 11,
++	_STATS_OTHER_				= 12,
++	_STATS_NO_SUPP_ALG_			= 13,
++	_STATS_OUT_OF_AUTH_SEQ_		= 14,
++	_STATS_CHALLENGE_FAIL_		= 15,
++	_STATS_AUTH_TIMEOUT_		= 16,
++	_STATS_UNABLE_HANDLE_STA_	= 17,
++	_STATS_RATE_FAIL_			= 18,
++};
++
++/* Status codes (IEEE 802.11-2007, 7.3.1.9, Table 7-23) */
++#if 0
++#define WLAN_STATUS_SUCCESS 0
++#define WLAN_STATUS_UNSPECIFIED_FAILURE 1
++#define WLAN_STATUS_CAPS_UNSUPPORTED 10
++#define WLAN_STATUS_REASSOC_NO_ASSOC 11
++#define WLAN_STATUS_ASSOC_DENIED_UNSPEC 12
++#define WLAN_STATUS_NOT_SUPPORTED_AUTH_ALG 13
++#define WLAN_STATUS_UNKNOWN_AUTH_TRANSACTION 14
++#define WLAN_STATUS_CHALLENGE_FAIL 15
++#define WLAN_STATUS_AUTH_TIMEOUT 16
++#define WLAN_STATUS_AP_UNABLE_TO_HANDLE_NEW_STA 17
++#define WLAN_STATUS_ASSOC_DENIED_RATES 18
++#endif
++//entended 
++/* IEEE 802.11b */
++#define WLAN_STATUS_ASSOC_DENIED_NOSHORT 19
++#define WLAN_STATUS_ASSOC_DENIED_NOPBCC 20
++#define WLAN_STATUS_ASSOC_DENIED_NOAGILITY 21
++/* IEEE 802.11h */
++#define WLAN_STATUS_SPEC_MGMT_REQUIRED 22
++#define WLAN_STATUS_PWR_CAPABILITY_NOT_VALID 23
++#define WLAN_STATUS_SUPPORTED_CHANNEL_NOT_VALID 24
++/* IEEE 802.11g */
++#define WLAN_STATUS_ASSOC_DENIED_NO_SHORT_SLOT_TIME 25
++#define WLAN_STATUS_ASSOC_DENIED_NO_ER_PBCC 26
++#define WLAN_STATUS_ASSOC_DENIED_NO_DSSS_OFDM 27
++/* IEEE 802.11w */
++#define WLAN_STATUS_ASSOC_REJECTED_TEMPORARILY 30
++#define WLAN_STATUS_ROBUST_MGMT_FRAME_POLICY_VIOLATION 31
++/* IEEE 802.11i */
++#define WLAN_STATUS_INVALID_IE 40
++#define WLAN_STATUS_GROUP_CIPHER_NOT_VALID 41
++#define WLAN_STATUS_PAIRWISE_CIPHER_NOT_VALID 42
++#define WLAN_STATUS_AKMP_NOT_VALID 43
++#define WLAN_STATUS_UNSUPPORTED_RSN_IE_VERSION 44
++#define WLAN_STATUS_INVALID_RSN_IE_CAPAB 45
++#define WLAN_STATUS_CIPHER_REJECTED_PER_POLICY 46
++#define WLAN_STATUS_TS_NOT_CREATED 47
++#define WLAN_STATUS_DIRECT_LINK_NOT_ALLOWED 48
++#define WLAN_STATUS_DEST_STA_NOT_PRESENT 49
++#define WLAN_STATUS_DEST_STA_NOT_QOS_STA 50
++#define WLAN_STATUS_ASSOC_DENIED_LISTEN_INT_TOO_LARGE 51
++/* IEEE 802.11r */
++#define WLAN_STATUS_INVALID_FT_ACTION_FRAME_COUNT 52
++#define WLAN_STATUS_INVALID_PMKID 53
++#define WLAN_STATUS_INVALID_MDIE 54
++#define WLAN_STATUS_INVALID_FTIE 55
++
++
++enum WIFI_REG_DOMAIN {
++	DOMAIN_FCC		= 1,
++	DOMAIN_IC		= 2,
++	DOMAIN_ETSI		= 3,
++	DOMAIN_SPAIN	= 4,
++	DOMAIN_FRANCE	= 5,
++	DOMAIN_MKK		= 6,
++	DOMAIN_ISRAEL	= 7,
++	DOMAIN_MKK1		= 8,
++	DOMAIN_MKK2		= 9,
++	DOMAIN_MKK3		= 10,
++	DOMAIN_MAX
++};
++
++#define _TO_DS_		BIT(8)
++#define _FROM_DS_	BIT(9)
++#define _MORE_FRAG_	BIT(10)
++#define _RETRY_		BIT(11)
++#define _PWRMGT_	BIT(12)
++#define _MORE_DATA_	BIT(13)
++#define _PRIVACY_	BIT(14)
++#define _ORDER_			BIT(15)
++
++#define SetToDs(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_TO_DS_); \
++	} while(0)
++
++#define GetToDs(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_TO_DS_)) != 0)
++
++#define ClearToDs(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_TO_DS_)); \
++	} while(0)
++
++#define SetFrDs(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_FROM_DS_); \
++	} while(0)
++
++#define GetFrDs(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_FROM_DS_)) != 0)
++
++#define ClearFrDs(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_FROM_DS_)); \
++	} while(0)
++
++#define get_tofr_ds(pframe)	((GetToDs(pframe) << 1) | GetFrDs(pframe))
++
++
++#define SetMFrag(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_MORE_FRAG_); \
++	} while(0)
++
++#define GetMFrag(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_MORE_FRAG_)) != 0)
++
++#define ClearMFrag(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_MORE_FRAG_)); \
++	} while(0)
++
++#define SetRetry(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_RETRY_); \
++	} while(0)
++
++#define GetRetry(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_RETRY_)) != 0)
++
++#define ClearRetry(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_RETRY_)); \
++	} while(0)
++
++#define SetPwrMgt(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_PWRMGT_); \
++	} while(0)
++
++#define GetPwrMgt(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_PWRMGT_)) != 0)
++
++#define ClearPwrMgt(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_PWRMGT_)); \
++	} while(0)
++
++#define SetMData(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_MORE_DATA_); \
++	} while(0)
++
++#define GetMData(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_MORE_DATA_)) != 0)
++
++#define ClearMData(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_MORE_DATA_)); \
++	} while(0)
++
++#define SetPrivacy(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_PRIVACY_); \
++	} while(0)
++
++#define GetPrivacy(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_PRIVACY_)) != 0)
++
++#define ClearPrivacy(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_PRIVACY_)); \
++	} while(0)
++
++
++#define GetOrder(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_ORDER_)) != 0)
++
++#define GetFrameType(pbuf)	(le16_to_cpu(*(unsigned short *)(pbuf)) & (BIT(3) | BIT(2)))
++
++#define SetFrameType(pbuf,type)	\
++	do { 	\
++		*(unsigned short *)(pbuf) &= __constant_cpu_to_le16(~(BIT(3) | BIT(2))); \
++		*(unsigned short *)(pbuf) |= __constant_cpu_to_le16(type); \
++	} while(0)
++
++#define GetFrameSubType(pbuf)	(cpu_to_le16(*(unsigned short *)(pbuf)) & (BIT(7) | BIT(6) | BIT(5) | BIT(4) | BIT(3) | BIT(2)))
++
++#define SetFrameSubType(pbuf,type) \
++	do {    \
++		*(unsigned short *)(pbuf) &= cpu_to_le16(~(BIT(7) | BIT(6) | BIT(5) | BIT(4) | BIT(3) | BIT(2))); \
++		*(unsigned short *)(pbuf) |= cpu_to_le16(type); \
++	} while(0)
++
++#define GetSequence(pbuf)	(cpu_to_le16(*(unsigned short *)((SIZE_PTR)(pbuf) + 22)) >> 4)
++
++#define GetFragNum(pbuf)	(cpu_to_le16(*(unsigned short *)((SIZE_PTR)(pbuf) + 22)) & 0x0f)
++
++#define GetTupleCache(pbuf)	(cpu_to_le16(*(unsigned short *)((SIZE_PTR)(pbuf) + 22)))
++
++#define SetFragNum(pbuf, num) \
++	do {    \
++		*(unsigned short *)((SIZE_PTR)(pbuf) + 22) = \
++			((*(unsigned short *)((SIZE_PTR)(pbuf) + 22)) & le16_to_cpu(~(0x000f))) | \
++			cpu_to_le16(0x0f & (num));     \
++	} while(0)
++
++#define SetSeqNum(pbuf, num) \
++	do {    \
++		*(unsigned short *)((SIZE_PTR)(pbuf) + 22) = \
++			((*(unsigned short *)((SIZE_PTR)(pbuf) + 22)) & le16_to_cpu((unsigned short)~0xfff0)) | \
++			le16_to_cpu((unsigned short)(0xfff0 & (num << 4))); \
++	} while(0)
++
++#define SetDuration(pbuf, dur) \
++	do {    \
++		*(unsigned short *)((SIZE_PTR)(pbuf) + 2) = cpu_to_le16(0xffff & (dur)); \
++	} while(0)
++
++
++#define SetPriority(pbuf, tid)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(tid & 0xf); \
++	} while(0)
++
++#define GetPriority(pbuf)	((le16_to_cpu(*(unsigned short *)(pbuf))) & 0xf)
++
++#define SetEOSP(pbuf, eosp)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16( (eosp & 1) << 4); \
++	} while(0)
++
++#define SetAckpolicy(pbuf, ack)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16( (ack & 3) << 5); \
++	} while(0)
++
++#define GetAckpolicy(pbuf) (((le16_to_cpu(*(unsigned short *)pbuf)) >> 5) & 0x3)
++
++#define GetAMsdu(pbuf) (((le16_to_cpu(*(unsigned short *)pbuf)) >> 7) & 0x1)
++
++#define SetAMsdu(pbuf, amsdu)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16( (amsdu & 1) << 7); \
++	} while(0)	
++
++#define GetAid(pbuf)	(cpu_to_le16(*(unsigned short *)((SIZE_PTR)(pbuf) + 2)) & 0x3fff)
++
++#define GetTid(pbuf)	(cpu_to_le16(*(unsigned short *)((SIZE_PTR)(pbuf) + (((GetToDs(pbuf)<<1)|GetFrDs(pbuf))==3?30:24))) & 0x000f)
++
++#define GetAddr1Ptr(pbuf)	((unsigned char *)((SIZE_PTR)(pbuf) + 4))
++
++#define GetAddr2Ptr(pbuf)	((unsigned char *)((SIZE_PTR)(pbuf) + 10))
++
++#define GetAddr3Ptr(pbuf)	((unsigned char *)((SIZE_PTR)(pbuf) + 16))
++
++#define GetAddr4Ptr(pbuf)	((unsigned char *)((SIZE_PTR)(pbuf) + 24))
++
++#define MacAddr_isBcst(addr) \
++( \
++	( (addr[0] == 0xff) && (addr[1] == 0xff) && \
++		(addr[2] == 0xff) && (addr[3] == 0xff) && \
++		(addr[4] == 0xff) && (addr[5] == 0xff) )  ? _TRUE : _FALSE \
++)
++
++__inline static int IS_MCAST(unsigned char *da)
++{
++	if ((*da) & 0x01)
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++
++__inline static unsigned char * get_da(unsigned char *pframe)
++{
++	unsigned char 	*da;
++	unsigned int	to_fr_ds	= (GetToDs(pframe) << 1) | GetFrDs(pframe);
++
++	switch (to_fr_ds) {
++		case 0x00:	// ToDs=0, FromDs=0
++			da = GetAddr1Ptr(pframe);
++			break;
++		case 0x01:	// ToDs=0, FromDs=1
++			da = GetAddr1Ptr(pframe);
++			break;
++		case 0x02:	// ToDs=1, FromDs=0
++			da = GetAddr3Ptr(pframe);
++			break;
++		default:	// ToDs=1, FromDs=1
++			da = GetAddr3Ptr(pframe);
++			break;
++	}
++
++	return da;
++}
++
++
++__inline static unsigned char * get_sa(unsigned char *pframe)
++{
++	unsigned char 	*sa;
++	unsigned int	to_fr_ds	= (GetToDs(pframe) << 1) | GetFrDs(pframe);
++
++	switch (to_fr_ds) {
++		case 0x00:	// ToDs=0, FromDs=0
++			sa = GetAddr2Ptr(pframe);
++			break;
++		case 0x01:	// ToDs=0, FromDs=1
++			sa = GetAddr3Ptr(pframe);
++			break;
++		case 0x02:	// ToDs=1, FromDs=0
++			sa = GetAddr2Ptr(pframe);
++			break;
++		default:	// ToDs=1, FromDs=1
++			sa = GetAddr4Ptr(pframe);
++			break;
++	}
++
++	return sa;
++}
++
++__inline static unsigned char * get_hdr_bssid(unsigned char *pframe)
++{
++	unsigned char 	*sa;
++	unsigned int	to_fr_ds	= (GetToDs(pframe) << 1) | GetFrDs(pframe);
++
++	switch (to_fr_ds) {
++		case 0x00:	// ToDs=0, FromDs=0
++			sa = GetAddr3Ptr(pframe);
++			break;
++		case 0x01:	// ToDs=0, FromDs=1
++			sa = GetAddr2Ptr(pframe);
++			break;
++		case 0x02:	// ToDs=1, FromDs=0
++			sa = GetAddr1Ptr(pframe);
++			break;
++		case 0x03:	// ToDs=1, FromDs=1
++			sa = GetAddr1Ptr(pframe);
++			break;
++		default:	
++			sa =NULL; //???????
++			break;
++	}
++
++	return sa;
++}
++
++
++__inline static int IsFrameTypeCtrl(unsigned char *pframe)
++{
++	if(WIFI_CTRL_TYPE == GetFrameType(pframe))
++		return _TRUE;
++	else
++		return _FALSE;
++}
++/*-----------------------------------------------------------------------------
++			Below is for the security related definition
++------------------------------------------------------------------------------*/
++#define _RESERVED_FRAME_TYPE_	0
++#define _SKB_FRAME_TYPE_		2
++#define _PRE_ALLOCMEM_			1
++#define _PRE_ALLOCHDR_			3
++#define _PRE_ALLOCLLCHDR_		4
++#define _PRE_ALLOCICVHDR_		5
++#define _PRE_ALLOCMICHDR_		6
++
++#define _SIFSTIME_				((priv->pmib->dot11BssType.net_work_type&WIRELESS_11A)?16:10)
++#define _ACKCTSLNG_				14	//14 bytes long, including crclng
++#define _CRCLNG_				4
++
++#define _ASOCREQ_IE_OFFSET_		4	// excluding wlan_hdr
++#define	_ASOCRSP_IE_OFFSET_		6
++#define _REASOCREQ_IE_OFFSET_	10
++#define _REASOCRSP_IE_OFFSET_	6
++#define _PROBEREQ_IE_OFFSET_	0
++#define	_PROBERSP_IE_OFFSET_	12
++#define _AUTH_IE_OFFSET_		6
++#define _DEAUTH_IE_OFFSET_		0
++#define _BEACON_IE_OFFSET_		12
++#define _PUBLIC_ACTION_IE_OFFSET_	8
++
++#define _FIXED_IE_LENGTH_			_BEACON_IE_OFFSET_
++
++#define _SSID_IE_				0
++#define _SUPPORTEDRATES_IE_	1
++#define _DSSET_IE_				3
++#define _TIM_IE_					5
++#define _IBSS_PARA_IE_			6
++#define _COUNTRY_IE_			7
++#define _CHLGETXT_IE_			16
++#define _POW_CAP_IE_			33
++#define _SUPPORTED_CH_IE_		36
++#define _CH_SWTICH_ANNOUNCE_	37	//Secondary Channel Offset
++#define _RSN_IE_2_				48
++#define _SSN_IE_1_					221
++#define _ERPINFO_IE_			42
++#define _EXT_SUPPORTEDRATES_IE_	50
++
++#define _HT_CAPABILITY_IE_			45
++#define _FTIE_						55
++#define _TIMEOUT_ITVL_IE_			56
++#define _SRC_IE_				59
++#define _HT_EXTRA_INFO_IE_			61
++#define _HT_ADD_INFO_IE_			61 //_HT_EXTRA_INFO_IE_
++
++#define	EID_BSSCoexistence			72 // 20/40 BSS Coexistence
++#define	EID_BSSIntolerantChlReport	73
++#define _RIC_Descriptor_IE_			75
++
++#ifdef CONFIG_IEEE80211W
++#define _MME_IE_					76 //802.11w Management MIC element
++#endif //CONFIG_IEEE80211W
++#define _LINK_ID_IE_					101
++#define _CH_SWITCH_TIMING_		104
++#define _PTI_BUFFER_STATUS_		106
++#define _EXT_CAP_IE_				127
++#define _VENDOR_SPECIFIC_IE_		221
++
++#define	_RESERVED47_				47
++
++/* ---------------------------------------------------------------------------
++					Below is the fixed elements...
++-----------------------------------------------------------------------------*/
++#define _AUTH_ALGM_NUM_			2
++#define _AUTH_SEQ_NUM_			2
++#define _BEACON_ITERVAL_		2
++#define _CAPABILITY_			2
++#define _CURRENT_APADDR_		6
++#define _LISTEN_INTERVAL_		2
++#define _RSON_CODE_				2
++#define _ASOC_ID_				2
++#define _STATUS_CODE_			2
++#define _TIMESTAMP_				8
++
++#define AUTH_ODD_TO				0
++#define AUTH_EVEN_TO			1
++
++#define WLAN_ETHCONV_ENCAP		1
++#define WLAN_ETHCONV_RFC1042	2
++#define WLAN_ETHCONV_8021h		3
++
++#define cap_ESS BIT(0)
++#define cap_IBSS BIT(1)
++#define cap_CFPollable BIT(2)
++#define cap_CFRequest BIT(3)
++#define cap_Privacy BIT(4)
++#define cap_ShortPremble BIT(5)
++#define cap_PBCC	BIT(6)
++#define cap_ChAgility	BIT(7)
++#define cap_SpecMgmt	BIT(8)
++#define cap_QoS	BIT(9)
++#define cap_ShortSlot	BIT(10)
++
++/*-----------------------------------------------------------------------------
++				Below is the definition for 802.11i / 802.1x
++------------------------------------------------------------------------------*/
++#define _IEEE8021X_MGT_			1		// WPA
++#define _IEEE8021X_PSK_			2		// WPA with pre-shared key
++
++/*
++#define _NO_PRIVACY_			0
++#define _WEP_40_PRIVACY_		1
++#define _TKIP_PRIVACY_			2
++#define _WRAP_PRIVACY_			3
++#define _CCMP_PRIVACY_			4
++#define _WEP_104_PRIVACY_		5
++#define _WEP_WPA_MIXED_PRIVACY_ 6	// WEP + WPA
++*/
++
++#ifdef CONFIG_IEEE80211W
++#define _MME_IE_LENGTH_  18
++#endif //CONFIG_IEEE80211W				
++/*-----------------------------------------------------------------------------
++				Below is the definition for WMM
++------------------------------------------------------------------------------*/
++#define _WMM_IE_Length_				7  // for WMM STA
++#define _WMM_Para_Element_Length_		24
++
++
++/*-----------------------------------------------------------------------------
++				Below is the definition for 802.11n 
++------------------------------------------------------------------------------*/
++
++/* block-ack parameters */
++#define IEEE80211_ADDBA_PARAM_POLICY_MASK 0x0002
++#define IEEE80211_ADDBA_PARAM_TID_MASK 0x003C
++#define RTW_IEEE80211_ADDBA_PARAM_BUF_SIZE_MASK 0xFFA0
++#define IEEE80211_DELBA_PARAM_TID_MASK 0xF000
++#define IEEE80211_DELBA_PARAM_INITIATOR_MASK 0x0800
++
++//#ifdef CONFIG_80211N_HT
++
++#define SetOrderBit(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_ORDER_); \
++	} while(0)
++
++#define GetOrderBit(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_ORDER_)) != 0)
++
++
++/**
++ * struct rtw_ieee80211_bar - HT Block Ack Request
++ *
++ * This structure refers to "HT BlockAckReq" as
++ * described in 802.11n draft section 7.2.1.7.1
++ */
++ #if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8712FW)
++struct rtw_ieee80211_bar {
++	unsigned short frame_control;
++	unsigned short duration;
++	unsigned char ra[6];
++	unsigned char ta[6];
++	unsigned short control;
++	unsigned short start_seq_num;
++} __attribute__((packed));
++ #endif
++
++/* 802.11 BAR control masks */
++#define IEEE80211_BAR_CTRL_ACK_POLICY_NORMAL     0x0000
++#define IEEE80211_BAR_CTRL_CBMTID_COMPRESSED_BA  0x0004
++
++
++ #if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8712FW) || defined(PLATFORM_FREEBSD)
++
++
++
++ /**
++ * struct rtw_ieee80211_ht_cap - HT capabilities
++ *
++ * This structure refers to "HT capabilities element" as
++ * described in 802.11n draft section 7.3.2.52
++ */
++ 
++struct rtw_ieee80211_ht_cap {
++	unsigned short 	cap_info;
++	unsigned char 	ampdu_params_info;
++	unsigned char 	supp_mcs_set[16];
++	unsigned short 	extended_ht_cap_info;
++	unsigned int		tx_BF_cap_info;
++	unsigned char	       antenna_selection_info;
++} __attribute__ ((packed));
++
++/**
++ * struct rtw_ieee80211_ht_cap - HT additional information
++ *
++ * This structure refers to "HT information element" as
++ * described in 802.11n draft section 7.3.2.53
++ */
++struct ieee80211_ht_addt_info {
++	unsigned char 	control_chan;
++	unsigned char		ht_param;
++	unsigned short	operation_mode;
++	unsigned short	stbc_param;
++	unsigned char		basic_set[16];
++} __attribute__ ((packed));
++
++
++struct HT_caps_element
++{
++	union
++	{ 
++		struct 
++		{ 	
++			unsigned short	HT_caps_info;
++			unsigned char	AMPDU_para;
++			unsigned char	MCS_rate[16];
++			unsigned short	HT_ext_caps;
++			unsigned int	Beamforming_caps;
++			unsigned char	ASEL_caps;
++		} HT_cap_element;
++		unsigned char HT_cap[26];
++	}u;
++} __attribute__ ((packed));
++
++struct HT_info_element
++{
++	unsigned char	primary_channel;
++	unsigned char	infos[5];
++	unsigned char	MCS_rate[16];
++}  __attribute__ ((packed));
++
++struct AC_param
++{
++	unsigned char		ACI_AIFSN;
++	unsigned char		CW;
++	unsigned short	TXOP_limit;
++}  __attribute__ ((packed));
++
++struct WMM_para_element
++{
++	unsigned char		QoS_info;
++	unsigned char		reserved;
++	struct AC_param	ac_param[4];
++}  __attribute__ ((packed));
++
++struct ADDBA_request
++{
++	unsigned char		dialog_token;
++	unsigned short	BA_para_set;
++	unsigned short	BA_timeout_value;
++	unsigned short	BA_starting_seqctrl;
++}  __attribute__ ((packed));
++
++
++
++#endif
++
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++
++struct rtw_ieee80211_ht_cap {
++	unsigned short 	cap_info;
++	unsigned char 	ampdu_params_info;
++	unsigned char 	supp_mcs_set[16];
++	unsigned short 	extended_ht_cap_info;
++	unsigned int		tx_BF_cap_info;
++	unsigned char	       antenna_selection_info;
++};
++
++
++struct ieee80211_ht_addt_info {
++	unsigned char 	control_chan;
++	unsigned char		ht_param;
++	unsigned short	operation_mode;
++	unsigned short	stbc_param;
++	unsigned char		basic_set[16];
++};
++
++struct HT_caps_element
++{
++	union
++	{ 
++		struct 
++		{ 	
++			unsigned short	HT_caps_info;
++			unsigned char	AMPDU_para;
++			unsigned char	MCS_rate[16];
++			unsigned short	HT_ext_caps;
++			unsigned int	Beamforming_caps;
++			unsigned char	ASEL_caps;
++		} HT_cap_element;
++		unsigned char HT_cap[26];
++	};
++};
++
++struct HT_info_element
++{
++	unsigned char	primary_channel;
++	unsigned char	infos[5];
++	unsigned char	MCS_rate[16];
++};
++
++struct AC_param
++{
++	unsigned char		ACI_AIFSN;
++	unsigned char		CW;
++	unsigned short	TXOP_limit;
++};
++
++struct WMM_para_element
++{
++	unsigned char		QoS_info;
++	unsigned char		reserved;
++	struct AC_param	ac_param[4];
++};
++
++struct ADDBA_request
++{
++	unsigned char		dialog_token;
++	unsigned short	BA_para_set;
++	unsigned short	BA_timeout_value;
++	unsigned short	BA_starting_seqctrl;
++};
++
++
++#pragma pack()
++
++#endif
++
++
++/* 802.11n HT capabilities masks */
++#define IEEE80211_HT_CAP_SUP_WIDTH		0x0002
++#define IEEE80211_HT_CAP_SM_PS			0x000C
++#define IEEE80211_HT_CAP_GRN_FLD		0x0010
++#define IEEE80211_HT_CAP_SGI_20			0x0020
++#define IEEE80211_HT_CAP_SGI_40			0x0040
++#define IEEE80211_HT_CAP_TX_STBC			0x0080
++#define IEEE80211_HT_CAP_RX_STBC		0x0300
++#define IEEE80211_HT_CAP_DELAY_BA		0x0400
++#define IEEE80211_HT_CAP_MAX_AMSDU		0x0800
++#define IEEE80211_HT_CAP_DSSSCCK40		0x1000
++/* 802.11n HT capability AMPDU settings */
++#define IEEE80211_HT_CAP_AMPDU_FACTOR		0x03
++#define IEEE80211_HT_CAP_AMPDU_DENSITY		0x1C
++/* 802.11n HT capability MSC set */
++#define IEEE80211_SUPP_MCS_SET_UEQM		4
++#define IEEE80211_HT_CAP_MAX_STREAMS		4
++#define IEEE80211_SUPP_MCS_SET_LEN		10
++/* maximum streams the spec allows */
++#define IEEE80211_HT_CAP_MCS_TX_DEFINED		0x01
++#define IEEE80211_HT_CAP_MCS_TX_RX_DIFF		0x02
++#define IEEE80211_HT_CAP_MCS_TX_STREAMS		0x0C
++#define IEEE80211_HT_CAP_MCS_TX_UEQM		0x10
++/* 802.11n HT IE masks */
++#define IEEE80211_HT_IE_CHA_SEC_OFFSET		0x03
++#define IEEE80211_HT_IE_CHA_SEC_NONE	 	0x00
++#define IEEE80211_HT_IE_CHA_SEC_ABOVE 		0x01
++#define IEEE80211_HT_IE_CHA_SEC_BELOW 		0x03
++#define IEEE80211_HT_IE_CHA_WIDTH		0x04
++#define IEEE80211_HT_IE_HT_PROTECTION		0x0003
++#define IEEE80211_HT_IE_NON_GF_STA_PRSNT	0x0004
++#define IEEE80211_HT_IE_NON_HT_STA_PRSNT	0x0010
++
++/* block-ack parameters */
++#define IEEE80211_ADDBA_PARAM_POLICY_MASK 0x0002
++#define IEEE80211_ADDBA_PARAM_TID_MASK 0x003C
++#define RTW_IEEE80211_ADDBA_PARAM_BUF_SIZE_MASK 0xFFA0
++#define IEEE80211_DELBA_PARAM_TID_MASK 0xF000
++#define IEEE80211_DELBA_PARAM_INITIATOR_MASK 0x0800
++
++/*
++ * A-PMDU buffer sizes
++ * According to IEEE802.11n spec size varies from 8K to 64K (in powers of 2)
++ */
++#define IEEE80211_MIN_AMPDU_BUF 0x8
++#define IEEE80211_MAX_AMPDU_BUF 0x40
++
++
++/* Spatial Multiplexing Power Save Modes */
++#define WLAN_HT_CAP_SM_PS_STATIC		0
++#define WLAN_HT_CAP_SM_PS_DYNAMIC	1
++#define WLAN_HT_CAP_SM_PS_INVALID	2
++#define WLAN_HT_CAP_SM_PS_DISABLED	3
++
++
++#define OP_MODE_PURE                    0
++#define OP_MODE_MAY_BE_LEGACY_STAS      1
++#define OP_MODE_20MHZ_HT_STA_ASSOCED    2
++#define OP_MODE_MIXED                   3
++
++#define HT_INFO_HT_PARAM_SECONDARY_CHNL_OFF_MASK	((u8) BIT(0) | BIT(1))
++#define HT_INFO_HT_PARAM_SECONDARY_CHNL_ABOVE		((u8) BIT(0))
++#define HT_INFO_HT_PARAM_SECONDARY_CHNL_BELOW		((u8) BIT(0) | BIT(1))
++#define HT_INFO_HT_PARAM_REC_TRANS_CHNL_WIDTH		((u8) BIT(2))
++#define HT_INFO_HT_PARAM_RIFS_MODE			((u8) BIT(3))
++#define HT_INFO_HT_PARAM_CTRL_ACCESS_ONLY		((u8) BIT(4))
++#define HT_INFO_HT_PARAM_SRV_INTERVAL_GRANULARITY	((u8) BIT(5))
++
++#define HT_INFO_OPERATION_MODE_OP_MODE_MASK	\
++		((u16) (0x0001 | 0x0002))
++#define HT_INFO_OPERATION_MODE_OP_MODE_OFFSET		0
++#define HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT	((u8) BIT(2))
++#define HT_INFO_OPERATION_MODE_TRANSMIT_BURST_LIMIT	((u8) BIT(3))
++#define HT_INFO_OPERATION_MODE_NON_HT_STA_PRESENT	((u8) BIT(4))
++
++#define HT_INFO_STBC_PARAM_DUAL_BEACON			((u16) BIT(6))
++#define HT_INFO_STBC_PARAM_DUAL_STBC_PROTECT		((u16) BIT(7))
++#define HT_INFO_STBC_PARAM_SECONDARY_BCN		((u16) BIT(8))
++#define HT_INFO_STBC_PARAM_LSIG_TXOP_PROTECT_ALLOWED	((u16) BIT(9))
++#define HT_INFO_STBC_PARAM_PCO_ACTIVE			((u16) BIT(10))
++#define HT_INFO_STBC_PARAM_PCO_PHASE			((u16) BIT(11))
++
++
++
++//#endif
++
++//	===============WPS Section===============
++//	For WPSv1.0
++#define WPSOUI							0x0050f204
++//	WPS attribute ID
++#define WPS_ATTR_VER1					0x104A
++#define WPS_ATTR_SIMPLE_CONF_STATE	0x1044
++#define WPS_ATTR_RESP_TYPE			0x103B
++#define WPS_ATTR_UUID_E				0x1047
++#define WPS_ATTR_MANUFACTURER		0x1021
++#define WPS_ATTR_MODEL_NAME			0x1023
++#define WPS_ATTR_MODEL_NUMBER		0x1024
++#define WPS_ATTR_SERIAL_NUMBER		0x1042
++#define WPS_ATTR_PRIMARY_DEV_TYPE	0x1054
++#define WPS_ATTR_SEC_DEV_TYPE_LIST	0x1055
++#define WPS_ATTR_DEVICE_NAME			0x1011
++#define WPS_ATTR_CONF_METHOD			0x1008
++#define WPS_ATTR_RF_BANDS				0x103C
++#define WPS_ATTR_DEVICE_PWID			0x1012
++#define WPS_ATTR_REQUEST_TYPE			0x103A
++#define WPS_ATTR_ASSOCIATION_STATE	0x1002
++#define WPS_ATTR_CONFIG_ERROR			0x1009
++#define WPS_ATTR_VENDOR_EXT			0x1049
++#define WPS_ATTR_SELECTED_REGISTRAR	0x1041
++
++//	Value of WPS attribute "WPS_ATTR_DEVICE_NAME
++#define WPS_MAX_DEVICE_NAME_LEN		32
++
++//	Value of WPS Request Type Attribute
++#define WPS_REQ_TYPE_ENROLLEE_INFO_ONLY			0x00
++#define WPS_REQ_TYPE_ENROLLEE_OPEN_8021X		0x01
++#define WPS_REQ_TYPE_REGISTRAR					0x02
++#define WPS_REQ_TYPE_WLAN_MANAGER_REGISTRAR	0x03
++
++//	Value of WPS Response Type Attribute
++#define WPS_RESPONSE_TYPE_INFO_ONLY	0x00
++#define WPS_RESPONSE_TYPE_8021X		0x01
++#define WPS_RESPONSE_TYPE_REGISTRAR	0x02
++#define WPS_RESPONSE_TYPE_AP			0x03
++
++//	Value of WPS WiFi Simple Configuration State Attribute
++#define WPS_WSC_STATE_NOT_CONFIG	0x01
++#define WPS_WSC_STATE_CONFIG			0x02
++
++//	Value of WPS Version Attribute
++#define WPS_VERSION_1					0x10
++
++//	Value of WPS Configuration Method Attribute
++#define WPS_CONFIG_METHOD_FLASH		0x0001
++#define WPS_CONFIG_METHOD_ETHERNET	0x0002
++#define WPS_CONFIG_METHOD_LABEL		0x0004
++#define WPS_CONFIG_METHOD_DISPLAY	0x0008
++#define WPS_CONFIG_METHOD_E_NFC		0x0010
++#define WPS_CONFIG_METHOD_I_NFC		0x0020
++#define WPS_CONFIG_METHOD_NFC		0x0040
++#define WPS_CONFIG_METHOD_PBC		0x0080
++#define WPS_CONFIG_METHOD_KEYPAD	0x0100
++#define WPS_CONFIG_METHOD_VPBC		0x0280
++#define WPS_CONFIG_METHOD_PPBC		0x0480
++#define WPS_CONFIG_METHOD_VDISPLAY	0x2008
++#define WPS_CONFIG_METHOD_PDISPLAY	0x4008
++
++//	Value of Category ID of WPS Primary Device Type Attribute
++#define WPS_PDT_CID_DISPLAYS			0x0007
++#define WPS_PDT_CID_MULIT_MEDIA		0x0008
++#define WPS_PDT_CID_RTK_WIDI			WPS_PDT_CID_MULIT_MEDIA
++
++//	Value of Sub Category ID of WPS Primary Device Type Attribute
++#define WPS_PDT_SCID_MEDIA_SERVER	0x0005
++#define WPS_PDT_SCID_RTK_DMP			WPS_PDT_SCID_MEDIA_SERVER
++
++//	Value of Device Password ID
++#define WPS_DPID_PIN					0x0000
++#define WPS_DPID_USER_SPEC			0x0001
++#define WPS_DPID_MACHINE_SPEC			0x0002
++#define WPS_DPID_REKEY					0x0003
++#define WPS_DPID_PBC					0x0004
++#define WPS_DPID_REGISTRAR_SPEC		0x0005
++
++//	Value of WPS RF Bands Attribute
++#define WPS_RF_BANDS_2_4_GHZ		0x01
++#define WPS_RF_BANDS_5_GHZ		0x02
++
++//	Value of WPS Association State Attribute
++#define WPS_ASSOC_STATE_NOT_ASSOCIATED			0x00
++#define WPS_ASSOC_STATE_CONNECTION_SUCCESS		0x01
++#define WPS_ASSOC_STATE_CONFIGURATION_FAILURE	0x02
++#define WPS_ASSOC_STATE_ASSOCIATION_FAILURE		0x03
++#define WPS_ASSOC_STATE_IP_FAILURE				0x04
++
++//	=====================P2P Section=====================
++//	For P2P
++#define	P2POUI							0x506F9A09
++
++//	P2P Attribute ID
++#define	P2P_ATTR_STATUS					0x00
++#define	P2P_ATTR_MINOR_REASON_CODE		0x01
++#define	P2P_ATTR_CAPABILITY				0x02
++#define	P2P_ATTR_DEVICE_ID				0x03
++#define	P2P_ATTR_GO_INTENT				0x04
++#define	P2P_ATTR_CONF_TIMEOUT			0x05
++#define	P2P_ATTR_LISTEN_CH				0x06
++#define	P2P_ATTR_GROUP_BSSID				0x07
++#define	P2P_ATTR_EX_LISTEN_TIMING		0x08
++#define	P2P_ATTR_INTENTED_IF_ADDR		0x09
++#define	P2P_ATTR_MANAGEABILITY			0x0A
++#define	P2P_ATTR_CH_LIST					0x0B
++#define	P2P_ATTR_NOA						0x0C
++#define	P2P_ATTR_DEVICE_INFO				0x0D
++#define	P2P_ATTR_GROUP_INFO				0x0E
++#define	P2P_ATTR_GROUP_ID					0x0F
++#define	P2P_ATTR_INTERFACE				0x10
++#define	P2P_ATTR_OPERATING_CH			0x11
++#define	P2P_ATTR_INVITATION_FLAGS		0x12
++
++//	Value of Status Attribute
++#define	P2P_STATUS_SUCCESS						0x00
++#define	P2P_STATUS_FAIL_INFO_UNAVAILABLE		0x01
++#define	P2P_STATUS_FAIL_INCOMPATIBLE_PARAM		0x02
++#define	P2P_STATUS_FAIL_LIMIT_REACHED			0x03
++#define	P2P_STATUS_FAIL_INVALID_PARAM			0x04
++#define	P2P_STATUS_FAIL_REQUEST_UNABLE			0x05
++#define	P2P_STATUS_FAIL_PREVOUS_PROTO_ERR		0x06
++#define	P2P_STATUS_FAIL_NO_COMMON_CH			0x07
++#define	P2P_STATUS_FAIL_UNKNOWN_P2PGROUP		0x08
++#define	P2P_STATUS_FAIL_BOTH_GOINTENT_15		0x09
++#define	P2P_STATUS_FAIL_INCOMPATIBLE_PROVSION	0x0A
++#define	P2P_STATUS_FAIL_USER_REJECT				0x0B
++
++//	Value of Inviation Flags Attribute
++#define	P2P_INVITATION_FLAGS_PERSISTENT			BIT(0)
++
++#define	DMP_P2P_DEVCAP_SUPPORT	(P2P_DEVCAP_SERVICE_DISCOVERY | \
++									P2P_DEVCAP_CLIENT_DISCOVERABILITY | \
++									P2P_DEVCAP_CONCURRENT_OPERATION | \
++									P2P_DEVCAP_INVITATION_PROC)
++
++#define	DMP_P2P_GRPCAP_SUPPORT	(P2P_GRPCAP_INTRABSS)
++
++//	Value of Device Capability Bitmap
++#define	P2P_DEVCAP_SERVICE_DISCOVERY		BIT(0)
++#define	P2P_DEVCAP_CLIENT_DISCOVERABILITY	BIT(1)
++#define	P2P_DEVCAP_CONCURRENT_OPERATION	BIT(2)
++#define	P2P_DEVCAP_INFRA_MANAGED			BIT(3)
++#define	P2P_DEVCAP_DEVICE_LIMIT				BIT(4)
++#define	P2P_DEVCAP_INVITATION_PROC			BIT(5)
++
++//	Value of Group Capability Bitmap
++#define	P2P_GRPCAP_GO							BIT(0)
++#define	P2P_GRPCAP_PERSISTENT_GROUP			BIT(1)
++#define	P2P_GRPCAP_GROUP_LIMIT				BIT(2)
++#define	P2P_GRPCAP_INTRABSS					BIT(3)
++#define	P2P_GRPCAP_CROSS_CONN				BIT(4)
++#define	P2P_GRPCAP_PERSISTENT_RECONN		BIT(5)
++#define	P2P_GRPCAP_GROUP_FORMATION			BIT(6)
++
++//	P2P Public Action Frame ( Management Frame )
++#define	P2P_PUB_ACTION_ACTION				0x09
++
++//	P2P Public Action Frame Type
++#define	P2P_GO_NEGO_REQ						0
++#define	P2P_GO_NEGO_RESP						1
++#define	P2P_GO_NEGO_CONF						2
++#define	P2P_INVIT_REQ							3
++#define	P2P_INVIT_RESP							4
++#define	P2P_DEVDISC_REQ						5
++#define	P2P_DEVDISC_RESP						6
++#define	P2P_PROVISION_DISC_REQ				7
++#define	P2P_PROVISION_DISC_RESP				8
++
++//	P2P Action Frame Type
++#define	P2P_NOTICE_OF_ABSENCE	0
++#define	P2P_PRESENCE_REQUEST		1
++#define	P2P_PRESENCE_RESPONSE	2
++#define	P2P_GO_DISC_REQUEST		3
++
++
++#define	P2P_MAX_PERSISTENT_GROUP_NUM		10
++
++#define	P2P_PROVISIONING_SCAN_CNT			3
++
++#define	P2P_WILDCARD_SSID_LEN				7
++
++#define	P2P_FINDPHASE_EX_NONE				0	// default value, used when: (1)p2p disabed or (2)p2p enabled but only do 1 scan phase
++#define	P2P_FINDPHASE_EX_FULL				1	// used when p2p enabled and want to do 1 scan phase and P2P_FINDPHASE_EX_MAX-1 find phase
++#define	P2P_FINDPHASE_EX_SOCIAL_FIRST		(P2P_FINDPHASE_EX_FULL+1) 
++#define	P2P_FINDPHASE_EX_MAX					4
++#define	P2P_FINDPHASE_EX_SOCIAL_LAST		P2P_FINDPHASE_EX_MAX
++
++#define	P2P_PROVISION_TIMEOUT				5000	//	5 seconds timeout for sending the provision discovery request
++#define	P2P_CONCURRENT_PROVISION_TIMEOUT	3000	//	3 seconds timeout for sending the provision discovery request under concurrent mode
++#define	P2P_GO_NEGO_TIMEOUT					5000	//	5 seconds timeout for receiving the group negotation response
++#define	P2P_CONCURRENT_GO_NEGO_TIMEOUT		3000	//	3 seconds timeout for sending the negotiation request under concurrent mode
++#define	P2P_TX_PRESCAN_TIMEOUT				100		//	100ms
++#define	P2P_INVITE_TIMEOUT					5000	//	5 seconds timeout for sending the invitation request
++#define	P2P_CONCURRENT_INVITE_TIMEOUT		3000	//	3 seconds timeout for sending the invitation request under concurrent mode
++#define	P2P_RESET_SCAN_CH						15000	//	15 seconds timeout to reset the scan channel ( based on channel plan )
++#define	P2P_MAX_INTENT						15
++
++#define	P2P_MAX_NOA_NUM						2
++
++//	WPS Configuration Method
++#define	WPS_CM_NONE							0x0000
++#define	WPS_CM_LABEL							0x0004
++#define	WPS_CM_DISPLYA						0x0008
++#define	WPS_CM_EXTERNAL_NFC_TOKEN			0x0010
++#define	WPS_CM_INTEGRATED_NFC_TOKEN		0x0020
++#define	WPS_CM_NFC_INTERFACE					0x0040
++#define	WPS_CM_PUSH_BUTTON					0x0080
++#define	WPS_CM_KEYPAD						0x0100
++#define	WPS_CM_SW_PUHS_BUTTON				0x0280
++#define	WPS_CM_HW_PUHS_BUTTON				0x0480
++#define	WPS_CM_SW_DISPLAY_PIN				0x2008
++#define	WPS_CM_LCD_DISPLAY_PIN				0x4008
++
++enum P2P_ROLE {
++	P2P_ROLE_DISABLE = 0,
++	P2P_ROLE_DEVICE = 1,
++	P2P_ROLE_CLIENT = 2,
++	P2P_ROLE_GO = 3	
++};
++
++enum P2P_STATE {
++	P2P_STATE_NONE = 0,							//	P2P disable
++	P2P_STATE_IDLE = 1,								//	P2P had enabled and do nothing
++	P2P_STATE_LISTEN = 2,							//	In pure listen state
++	P2P_STATE_SCAN = 3,							//	In scan phase
++	P2P_STATE_FIND_PHASE_LISTEN = 4,				//	In the listen state of find phase
++	P2P_STATE_FIND_PHASE_SEARCH = 5,				//	In the search state of find phase
++	P2P_STATE_TX_PROVISION_DIS_REQ = 6,			//	In P2P provisioning discovery
++	P2P_STATE_RX_PROVISION_DIS_RSP = 7,
++	P2P_STATE_RX_PROVISION_DIS_REQ = 8,	
++	P2P_STATE_GONEGO_ING = 9,						//	Doing the group owner negoitation handshake
++	P2P_STATE_GONEGO_OK = 10,						//	finish the group negoitation handshake with success
++	P2P_STATE_GONEGO_FAIL = 11,					//	finish the group negoitation handshake with failure
++	P2P_STATE_RECV_INVITE_REQ_MATCH = 12,		//	receiving the P2P Inviation request and match with the profile.
++	P2P_STATE_PROVISIONING_ING = 13,				//	Doing the P2P WPS
++	P2P_STATE_PROVISIONING_DONE = 14,			//	Finish the P2P WPS
++	P2P_STATE_TX_INVITE_REQ = 15,					//	Transmit the P2P Invitation request
++	P2P_STATE_RX_INVITE_RESP_OK = 16,				//	Receiving the P2P Invitation response with sucess
++	P2P_STATE_RECV_INVITE_REQ_DISMATCH = 17,	//	receiving the P2P Inviation request and dismatch with the profile.
++	P2P_STATE_RECV_INVITE_REQ_GO = 18,			//	receiving the P2P Inviation request and this wifi is GO.
++	P2P_STATE_RECV_INVITE_REQ_JOIN = 19,			//	receiving the P2P Inviation request to join an existing P2P Group.
++	P2P_STATE_RX_INVITE_RESP_FAIL = 20,			//	recveing the P2P Inviation response with failure
++	P2P_STATE_RX_INFOR_NOREADY = 21, 			// receiving p2p negoitation response with information is not available
++	P2P_STATE_TX_INFOR_NOREADY = 22, 			// sending p2p negoitation response with information is not available
++};
++
++enum P2P_WPSINFO {
++	P2P_NO_WPSINFO						= 0,
++	P2P_GOT_WPSINFO_PEER_DISPLAY_PIN	= 1,
++	P2P_GOT_WPSINFO_SELF_DISPLAY_PIN	= 2,
++	P2P_GOT_WPSINFO_PBC					= 3,
++};
++
++#define	P2P_PRIVATE_IOCTL_SET_LEN		64
++
++enum P2P_PROTO_WK_ID
++{
++	P2P_FIND_PHASE_WK = 0,
++	P2P_RESTORE_STATE_WK = 1,
++	P2P_PRE_TX_PROVDISC_PROCESS_WK = 2,
++	P2P_PRE_TX_NEGOREQ_PROCESS_WK = 3,	
++	P2P_PRE_TX_INVITEREQ_PROCESS_WK = 4,
++	P2P_AP_P2P_CH_SWITCH_PROCESS_WK =5,
++	P2P_RO_CH_WK = 6,
++};
++
++#ifdef CONFIG_P2P_PS
++enum P2P_PS_STATE
++{
++	P2P_PS_DISABLE = 0,
++	P2P_PS_ENABLE = 1,
++	P2P_PS_SCAN = 2,
++	P2P_PS_SCAN_DONE = 3,
++	P2P_PS_ALLSTASLEEP = 4, // for P2P GO
++};
++
++enum P2P_PS_MODE
++{
++	P2P_PS_NONE = 0,
++	P2P_PS_CTWINDOW = 1,
++	P2P_PS_NOA	 = 2,
++	P2P_PS_MIX = 3, // CTWindow and NoA
++};
++#endif // CONFIG_P2P_PS
++
++//	=====================WFD Section=====================
++//	For Wi-Fi Display
++#define	WFD_ATTR_DEVICE_INFO			0x00
++#define	WFD_ATTR_ASSOC_BSSID			0x01
++#define	WFD_ATTR_COUPLED_SINK_INFO	0x06
++#define	WFD_ATTR_LOCAL_IP_ADDR		0x08
++#define	WFD_ATTR_SESSION_INFO		0x09
++#define	WFD_ATTR_ALTER_MAC			0x0a
++
++//	For WFD Device Information Attribute
++#define	WFD_DEVINFO_SOURCE					0x0000
++#define	WFD_DEVINFO_PSINK					0x0001
++#define	WFD_DEVINFO_SSINK					0x0002
++#define	WFD_DEVINFO_DUAL 					0x0003
++
++#define	WFD_DEVINFO_SESSION_AVAIL			0x0010
++#define	WFD_DEVINFO_WSD						0x0040
++#define	WFD_DEVINFO_PC_TDLS					0x0080
++#define	WFD_DEVINFO_HDCP_SUPPORT			0x0100
++
++
++#ifdef  CONFIG_TX_MCAST2UNI
++#define IP_MCAST_MAC(mac)		((mac[0]==0x01)&&(mac[1]==0x00)&&(mac[2]==0x5e))
++#define ICMPV6_MCAST_MAC(mac)	((mac[0]==0x33)&&(mac[1]==0x33)&&(mac[2]!=0xff))
++#endif	// CONFIG_TX_MCAST2UNI
++
++
++
++#endif // _WIFI_H_
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/wlan_bssdef.h b/drivers/net/wireless/rtl8192cu/include/wlan_bssdef.h
+new file mode 100755
+index 0000000..1cf93dc
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/wlan_bssdef.h
+@@ -0,0 +1,703 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __WLAN_BSSDEF_H__
++#define __WLAN_BSSDEF_H__
++
++
++#define MAX_IE_SZ	768
++
++
++#ifdef PLATFORM_LINUX
++
++#define NDIS_802_11_LENGTH_SSID         32
++#define NDIS_802_11_LENGTH_RATES        8
++#define NDIS_802_11_LENGTH_RATES_EX     16
++
++typedef unsigned char   NDIS_802_11_MAC_ADDRESS[6];
++typedef long    		NDIS_802_11_RSSI;           // in dBm
++typedef unsigned char   NDIS_802_11_RATES[NDIS_802_11_LENGTH_RATES];        // Set of 8 data rates
++typedef unsigned char   NDIS_802_11_RATES_EX[NDIS_802_11_LENGTH_RATES_EX];  // Set of 16 data rates
++
++
++typedef  ULONG  NDIS_802_11_KEY_INDEX;
++typedef unsigned long long NDIS_802_11_KEY_RSC;
++
++
++typedef struct _NDIS_802_11_SSID
++{
++  ULONG  SsidLength;
++  UCHAR  Ssid[32];
++} NDIS_802_11_SSID, *PNDIS_802_11_SSID;
++
++typedef enum _NDIS_802_11_NETWORK_TYPE
++{
++    Ndis802_11FH,
++    Ndis802_11DS,
++    Ndis802_11OFDM5,
++    Ndis802_11OFDM24,
++    Ndis802_11NetworkTypeMax    // not a real type, defined as an upper bound
++} NDIS_802_11_NETWORK_TYPE, *PNDIS_802_11_NETWORK_TYPE;
++
++typedef struct _NDIS_802_11_CONFIGURATION_FH
++{
++    ULONG           Length;             // Length of structure
++    ULONG           HopPattern;         // As defined by 802.11, MSB set
++    ULONG           HopSet;             // to one if non-802.11
++    ULONG           DwellTime;          // units are Kusec
++} NDIS_802_11_CONFIGURATION_FH, *PNDIS_802_11_CONFIGURATION_FH;
++ 
++
++/*
++	FW will only save the channel number in DSConfig.
++	ODI Handler will convert the channel number to freq. number.	
++*/
++typedef struct _NDIS_802_11_CONFIGURATION
++{
++    ULONG           Length;             // Length of structure
++    ULONG           BeaconPeriod;       // units are Kusec
++    ULONG           ATIMWindow;         // units are Kusec
++    ULONG           DSConfig;           // Frequency, units are kHz
++    NDIS_802_11_CONFIGURATION_FH    FHConfig;
++} NDIS_802_11_CONFIGURATION, *PNDIS_802_11_CONFIGURATION;
++
++
++
++typedef enum _NDIS_802_11_NETWORK_INFRASTRUCTURE
++{
++    Ndis802_11IBSS,
++    Ndis802_11Infrastructure,
++    Ndis802_11AutoUnknown,
++    Ndis802_11InfrastructureMax,     // Not a real value, defined as upper bound
++    Ndis802_11APMode
++} NDIS_802_11_NETWORK_INFRASTRUCTURE, *PNDIS_802_11_NETWORK_INFRASTRUCTURE;
++
++
++
++
++
++typedef struct _NDIS_802_11_FIXED_IEs
++{
++  UCHAR  Timestamp[8];
++  USHORT  BeaconInterval;
++  USHORT  Capabilities;
++} NDIS_802_11_FIXED_IEs, *PNDIS_802_11_FIXED_IEs;
++
++
++
++typedef struct _NDIS_802_11_VARIABLE_IEs
++{
++  UCHAR  ElementID;
++  UCHAR  Length;
++  UCHAR  data[1];
++} NDIS_802_11_VARIABLE_IEs, *PNDIS_802_11_VARIABLE_IEs;
++
++
++
++/*
++
++
++
++Length is the 4 bytes multiples of the sume of
++	sizeof (NDIS_802_11_MAC_ADDRESS) + 2 + sizeof (NDIS_802_11_SSID) + sizeof (ULONG)
+++   sizeof (NDIS_802_11_RSSI) + sizeof (NDIS_802_11_NETWORK_TYPE) + sizeof (NDIS_802_11_CONFIGURATION)
+++   sizeof (NDIS_802_11_RATES_EX) + IELength
++
++Except the IELength, all other fields are fixed length. Therefore, we can define a marco to present the
++partial sum.
++
++*/
++#if 0
++typedef struct _NDIS_WLAN_BSSID_EX
++{
++  ULONG  Length;
++  NDIS_802_11_MAC_ADDRESS  MacAddress;
++  UCHAR  Reserved[2];//[0]: IS beacon frame, [1]:optimum_antenna=>For antenna diversity;
++  NDIS_802_11_SSID  Ssid;
++  ULONG  Privacy;
++  NDIS_802_11_RSSI  Rssi;
++  NDIS_802_11_NETWORK_TYPE  NetworkTypeInUse;
++  NDIS_802_11_CONFIGURATION  Configuration;
++  NDIS_802_11_NETWORK_INFRASTRUCTURE  InfrastructureMode;
++  NDIS_802_11_RATES_EX  SupportedRates;
++  ULONG  IELength;
++  UCHAR  IEs[MAX_IE_SZ];	//(timestamp, beacon interval, and capability information)
++} NDIS_WLAN_BSSID_EX, *PNDIS_WLAN_BSSID_EX;
++
++
++typedef struct _NDIS_802_11_BSSID_LIST_EX
++{
++  ULONG  NumberOfItems;
++  NDIS_WLAN_BSSID_EX  Bssid[1];
++} NDIS_802_11_BSSID_LIST_EX, *PNDIS_802_11_BSSID_LIST_EX;
++#endif
++
++typedef enum _NDIS_802_11_AUTHENTICATION_MODE
++{
++    Ndis802_11AuthModeOpen,
++    Ndis802_11AuthModeShared,
++    Ndis802_11AuthModeAutoSwitch,
++    Ndis802_11AuthModeWPA,
++    Ndis802_11AuthModeWPAPSK,
++    Ndis802_11AuthModeWPANone,
++    Ndis802_11AuthModeMax               // Not a real mode, defined as upper bound
++} NDIS_802_11_AUTHENTICATION_MODE, *PNDIS_802_11_AUTHENTICATION_MODE;
++
++typedef enum _NDIS_802_11_WEP_STATUS
++{
++    Ndis802_11WEPEnabled,
++    Ndis802_11Encryption1Enabled = Ndis802_11WEPEnabled,
++    Ndis802_11WEPDisabled,
++    Ndis802_11EncryptionDisabled = Ndis802_11WEPDisabled,
++    Ndis802_11WEPKeyAbsent,
++    Ndis802_11Encryption1KeyAbsent = Ndis802_11WEPKeyAbsent,
++    Ndis802_11WEPNotSupported,
++    Ndis802_11EncryptionNotSupported = Ndis802_11WEPNotSupported,
++    Ndis802_11Encryption2Enabled,
++    Ndis802_11Encryption2KeyAbsent,
++    Ndis802_11Encryption3Enabled,
++    Ndis802_11Encryption3KeyAbsent
++} NDIS_802_11_WEP_STATUS, *PNDIS_802_11_WEP_STATUS,
++  NDIS_802_11_ENCRYPTION_STATUS, *PNDIS_802_11_ENCRYPTION_STATUS;
++
++
++#define NDIS_802_11_AI_REQFI_CAPABILITIES      1
++#define NDIS_802_11_AI_REQFI_LISTENINTERVAL    2
++#define NDIS_802_11_AI_REQFI_CURRENTAPADDRESS  4
++
++#define NDIS_802_11_AI_RESFI_CAPABILITIES      1
++#define NDIS_802_11_AI_RESFI_STATUSCODE        2
++#define NDIS_802_11_AI_RESFI_ASSOCIATIONID     4
++
++typedef struct _NDIS_802_11_AI_REQFI
++{
++    USHORT Capabilities;
++    USHORT ListenInterval;
++    NDIS_802_11_MAC_ADDRESS  CurrentAPAddress;
++} NDIS_802_11_AI_REQFI, *PNDIS_802_11_AI_REQFI;
++
++typedef struct _NDIS_802_11_AI_RESFI
++{
++    USHORT Capabilities;
++    USHORT StatusCode;
++    USHORT AssociationId;
++} NDIS_802_11_AI_RESFI, *PNDIS_802_11_AI_RESFI;
++
++typedef struct _NDIS_802_11_ASSOCIATION_INFORMATION
++{
++    ULONG                   Length;
++    USHORT                  AvailableRequestFixedIEs;
++    NDIS_802_11_AI_REQFI    RequestFixedIEs;
++    ULONG                   RequestIELength;
++    ULONG                   OffsetRequestIEs;
++    USHORT                  AvailableResponseFixedIEs;
++    NDIS_802_11_AI_RESFI    ResponseFixedIEs;
++    ULONG                   ResponseIELength;
++    ULONG                   OffsetResponseIEs;
++} NDIS_802_11_ASSOCIATION_INFORMATION, *PNDIS_802_11_ASSOCIATION_INFORMATION;
++
++typedef enum _NDIS_802_11_RELOAD_DEFAULTS
++{
++   Ndis802_11ReloadWEPKeys
++} NDIS_802_11_RELOAD_DEFAULTS, *PNDIS_802_11_RELOAD_DEFAULTS;
++
++
++// Key mapping keys require a BSSID
++typedef struct _NDIS_802_11_KEY
++{
++    ULONG           Length;             // Length of this structure
++    ULONG           KeyIndex;           
++    ULONG           KeyLength;          // length of key in bytes
++    NDIS_802_11_MAC_ADDRESS BSSID;
++    NDIS_802_11_KEY_RSC KeyRSC;
++    UCHAR           KeyMaterial[32];     // variable length depending on above field
++} NDIS_802_11_KEY, *PNDIS_802_11_KEY;
++
++typedef struct _NDIS_802_11_REMOVE_KEY
++{
++    ULONG                   Length;        // Length of this structure
++    ULONG                   KeyIndex;           
++    NDIS_802_11_MAC_ADDRESS BSSID;      
++} NDIS_802_11_REMOVE_KEY, *PNDIS_802_11_REMOVE_KEY;
++
++typedef struct _NDIS_802_11_WEP
++{
++    ULONG     Length;        // Length of this structure
++    ULONG     KeyIndex;      // 0 is the per-client key, 1-N are the global keys
++    ULONG     KeyLength;     // length of key in bytes
++    UCHAR     KeyMaterial[16];// variable length depending on above field
++} NDIS_802_11_WEP, *PNDIS_802_11_WEP;
++
++typedef struct _NDIS_802_11_AUTHENTICATION_REQUEST
++{
++    ULONG Length;            // Length of structure
++    NDIS_802_11_MAC_ADDRESS Bssid;
++    ULONG Flags;
++} NDIS_802_11_AUTHENTICATION_REQUEST, *PNDIS_802_11_AUTHENTICATION_REQUEST;
++
++typedef enum _NDIS_802_11_STATUS_TYPE
++{
++	Ndis802_11StatusType_Authentication,
++	Ndis802_11StatusType_MediaStreamMode,
++	Ndis802_11StatusType_PMKID_CandidateList,		
++	Ndis802_11StatusTypeMax    // not a real type, defined as an upper bound
++} NDIS_802_11_STATUS_TYPE, *PNDIS_802_11_STATUS_TYPE;
++
++typedef struct _NDIS_802_11_STATUS_INDICATION
++{
++    NDIS_802_11_STATUS_TYPE StatusType;
++} NDIS_802_11_STATUS_INDICATION, *PNDIS_802_11_STATUS_INDICATION;
++
++// mask for authentication/integrity fields
++#define NDIS_802_11_AUTH_REQUEST_AUTH_FIELDS        0x0f
++#define NDIS_802_11_AUTH_REQUEST_REAUTH			0x01
++#define NDIS_802_11_AUTH_REQUEST_KEYUPDATE		0x02
++#define NDIS_802_11_AUTH_REQUEST_PAIRWISE_ERROR		0x06
++#define NDIS_802_11_AUTH_REQUEST_GROUP_ERROR		0x0E
++
++// MIC check time, 60 seconds.
++#define MIC_CHECK_TIME	60000000
++
++typedef struct _NDIS_802_11_AUTHENTICATION_EVENT
++{
++    NDIS_802_11_STATUS_INDICATION       Status;
++    NDIS_802_11_AUTHENTICATION_REQUEST  Request[1];
++} NDIS_802_11_AUTHENTICATION_EVENT, *PNDIS_802_11_AUTHENTICATION_EVENT;
++        
++typedef struct _NDIS_802_11_TEST
++{
++    ULONG Length;
++    ULONG Type;
++    union
++    {
++        NDIS_802_11_AUTHENTICATION_EVENT AuthenticationEvent;
++        NDIS_802_11_RSSI RssiTrigger;
++    }tt;
++} NDIS_802_11_TEST, *PNDIS_802_11_TEST;
++
++
++#endif //end of #ifdef PLATFORM_LINUX
++
++#ifdef PLATFORM_FREEBSD
++
++#define NDIS_802_11_LENGTH_SSID         32
++#define NDIS_802_11_LENGTH_RATES        8
++#define NDIS_802_11_LENGTH_RATES_EX     16
++
++typedef unsigned char   NDIS_802_11_MAC_ADDRESS[6];
++typedef long    		NDIS_802_11_RSSI;           // in dBm
++typedef unsigned char   NDIS_802_11_RATES[NDIS_802_11_LENGTH_RATES];        // Set of 8 data rates
++typedef unsigned char   NDIS_802_11_RATES_EX[NDIS_802_11_LENGTH_RATES_EX];  // Set of 16 data rates
++
++
++typedef  ULONG  NDIS_802_11_KEY_INDEX;
++typedef unsigned long long NDIS_802_11_KEY_RSC;
++
++
++typedef struct _NDIS_802_11_SSID
++{
++  ULONG  SsidLength;
++  UCHAR  Ssid[32];
++} NDIS_802_11_SSID, *PNDIS_802_11_SSID;
++
++typedef enum _NDIS_802_11_NETWORK_TYPE
++{
++    Ndis802_11FH,
++    Ndis802_11DS,
++    Ndis802_11OFDM5,
++    Ndis802_11OFDM24,
++    Ndis802_11NetworkTypeMax    // not a real type, defined as an upper bound
++} NDIS_802_11_NETWORK_TYPE, *PNDIS_802_11_NETWORK_TYPE;
++
++typedef struct _NDIS_802_11_CONFIGURATION_FH
++{
++    ULONG           Length;             // Length of structure
++    ULONG           HopPattern;         // As defined by 802.11, MSB set
++    ULONG           HopSet;             // to one if non-802.11
++    ULONG           DwellTime;          // units are Kusec
++} NDIS_802_11_CONFIGURATION_FH, *PNDIS_802_11_CONFIGURATION_FH;
++ 
++
++/*
++	FW will only save the channel number in DSConfig.
++	ODI Handler will convert the channel number to freq. number.	
++*/
++typedef struct _NDIS_802_11_CONFIGURATION
++{
++    ULONG           Length;             // Length of structure
++    ULONG           BeaconPeriod;       // units are Kusec
++    ULONG           ATIMWindow;         // units are Kusec
++    ULONG           DSConfig;           // Frequency, units are kHz
++    NDIS_802_11_CONFIGURATION_FH    FHConfig;
++} NDIS_802_11_CONFIGURATION, *PNDIS_802_11_CONFIGURATION;
++
++
++
++typedef enum _NDIS_802_11_NETWORK_INFRASTRUCTURE
++{
++    Ndis802_11IBSS,
++    Ndis802_11Infrastructure,
++    Ndis802_11AutoUnknown,
++    Ndis802_11InfrastructureMax,     // Not a real value, defined as upper bound
++    Ndis802_11APMode
++} NDIS_802_11_NETWORK_INFRASTRUCTURE, *PNDIS_802_11_NETWORK_INFRASTRUCTURE;
++
++
++
++
++
++typedef struct _NDIS_802_11_FIXED_IEs
++{
++  UCHAR  Timestamp[8];
++  USHORT  BeaconInterval;
++  USHORT  Capabilities;
++} NDIS_802_11_FIXED_IEs, *PNDIS_802_11_FIXED_IEs;
++
++
++
++typedef struct _NDIS_802_11_VARIABLE_IEs
++{
++  UCHAR  ElementID;
++  UCHAR  Length;
++  UCHAR  data[1];
++} NDIS_802_11_VARIABLE_IEs, *PNDIS_802_11_VARIABLE_IEs;
++
++
++
++/*
++
++
++
++Length is the 4 bytes multiples of the sume of
++	sizeof (NDIS_802_11_MAC_ADDRESS) + 2 + sizeof (NDIS_802_11_SSID) + sizeof (ULONG)
+++   sizeof (NDIS_802_11_RSSI) + sizeof (NDIS_802_11_NETWORK_TYPE) + sizeof (NDIS_802_11_CONFIGURATION)
+++   sizeof (NDIS_802_11_RATES_EX) + IELength
++
++Except the IELength, all other fields are fixed length. Therefore, we can define a marco to present the
++partial sum.
++
++*/
++#if 0
++typedef struct _NDIS_WLAN_BSSID_EX
++{
++  ULONG  Length;
++  NDIS_802_11_MAC_ADDRESS  MacAddress;
++  UCHAR  Reserved[2];//[0]: IS beacon frame, [1]:optimum_antenna=>For antenna diversity;
++  NDIS_802_11_SSID  Ssid;
++  ULONG  Privacy;
++  NDIS_802_11_RSSI  Rssi;
++  NDIS_802_11_NETWORK_TYPE  NetworkTypeInUse;
++  NDIS_802_11_CONFIGURATION  Configuration;
++  NDIS_802_11_NETWORK_INFRASTRUCTURE  InfrastructureMode;
++  NDIS_802_11_RATES_EX  SupportedRates;
++  ULONG  IELength;
++  UCHAR  IEs[MAX_IE_SZ];	//(timestamp, beacon interval, and capability information)
++} NDIS_WLAN_BSSID_EX, *PNDIS_WLAN_BSSID_EX;
++
++
++typedef struct _NDIS_802_11_BSSID_LIST_EX
++{
++  ULONG  NumberOfItems;
++  NDIS_WLAN_BSSID_EX  Bssid[1];
++} NDIS_802_11_BSSID_LIST_EX, *PNDIS_802_11_BSSID_LIST_EX;
++#endif
++
++typedef enum _NDIS_802_11_AUTHENTICATION_MODE
++{
++    Ndis802_11AuthModeOpen,
++    Ndis802_11AuthModeShared,
++    Ndis802_11AuthModeAutoSwitch,
++    Ndis802_11AuthModeWPA,
++    Ndis802_11AuthModeWPAPSK,
++    Ndis802_11AuthModeWPANone,
++    Ndis802_11AuthModeMax               // Not a real mode, defined as upper bound
++} NDIS_802_11_AUTHENTICATION_MODE, *PNDIS_802_11_AUTHENTICATION_MODE;
++
++typedef enum _NDIS_802_11_WEP_STATUS
++{
++    Ndis802_11WEPEnabled,
++    Ndis802_11Encryption1Enabled = Ndis802_11WEPEnabled,
++    Ndis802_11WEPDisabled,
++    Ndis802_11EncryptionDisabled = Ndis802_11WEPDisabled,
++    Ndis802_11WEPKeyAbsent,
++    Ndis802_11Encryption1KeyAbsent = Ndis802_11WEPKeyAbsent,
++    Ndis802_11WEPNotSupported,
++    Ndis802_11EncryptionNotSupported = Ndis802_11WEPNotSupported,
++    Ndis802_11Encryption2Enabled,
++    Ndis802_11Encryption2KeyAbsent,
++    Ndis802_11Encryption3Enabled,
++    Ndis802_11Encryption3KeyAbsent
++} NDIS_802_11_WEP_STATUS, *PNDIS_802_11_WEP_STATUS,
++  NDIS_802_11_ENCRYPTION_STATUS, *PNDIS_802_11_ENCRYPTION_STATUS;
++
++
++#define NDIS_802_11_AI_REQFI_CAPABILITIES      1
++#define NDIS_802_11_AI_REQFI_LISTENINTERVAL    2
++#define NDIS_802_11_AI_REQFI_CURRENTAPADDRESS  4
++
++#define NDIS_802_11_AI_RESFI_CAPABILITIES      1
++#define NDIS_802_11_AI_RESFI_STATUSCODE        2
++#define NDIS_802_11_AI_RESFI_ASSOCIATIONID     4
++
++typedef struct _NDIS_802_11_AI_REQFI
++{
++    USHORT Capabilities;
++    USHORT ListenInterval;
++    NDIS_802_11_MAC_ADDRESS  CurrentAPAddress;
++} NDIS_802_11_AI_REQFI, *PNDIS_802_11_AI_REQFI;
++
++typedef struct _NDIS_802_11_AI_RESFI
++{
++    USHORT Capabilities;
++    USHORT StatusCode;
++    USHORT AssociationId;
++} NDIS_802_11_AI_RESFI, *PNDIS_802_11_AI_RESFI;
++
++typedef struct _NDIS_802_11_ASSOCIATION_INFORMATION
++{
++    ULONG                   Length;
++    USHORT                  AvailableRequestFixedIEs;
++    NDIS_802_11_AI_REQFI    RequestFixedIEs;
++    ULONG                   RequestIELength;
++    ULONG                   OffsetRequestIEs;
++    USHORT                  AvailableResponseFixedIEs;
++    NDIS_802_11_AI_RESFI    ResponseFixedIEs;
++    ULONG                   ResponseIELength;
++    ULONG                   OffsetResponseIEs;
++} NDIS_802_11_ASSOCIATION_INFORMATION, *PNDIS_802_11_ASSOCIATION_INFORMATION;
++
++typedef enum _NDIS_802_11_RELOAD_DEFAULTS
++{
++   Ndis802_11ReloadWEPKeys
++} NDIS_802_11_RELOAD_DEFAULTS, *PNDIS_802_11_RELOAD_DEFAULTS;
++
++
++// Key mapping keys require a BSSID
++typedef struct _NDIS_802_11_KEY
++{
++    ULONG           Length;             // Length of this structure
++    ULONG           KeyIndex;           
++    ULONG           KeyLength;          // length of key in bytes
++    NDIS_802_11_MAC_ADDRESS BSSID;
++    NDIS_802_11_KEY_RSC KeyRSC;
++    UCHAR           KeyMaterial[32];     // variable length depending on above field
++} NDIS_802_11_KEY, *PNDIS_802_11_KEY;
++
++typedef struct _NDIS_802_11_REMOVE_KEY
++{
++    ULONG                   Length;        // Length of this structure
++    ULONG                   KeyIndex;           
++    NDIS_802_11_MAC_ADDRESS BSSID;      
++} NDIS_802_11_REMOVE_KEY, *PNDIS_802_11_REMOVE_KEY;
++
++typedef struct _NDIS_802_11_WEP
++{
++    ULONG     Length;        // Length of this structure
++    ULONG     KeyIndex;      // 0 is the per-client key, 1-N are the global keys
++    ULONG     KeyLength;     // length of key in bytes
++    UCHAR     KeyMaterial[16];// variable length depending on above field
++} NDIS_802_11_WEP, *PNDIS_802_11_WEP;
++
++typedef struct _NDIS_802_11_AUTHENTICATION_REQUEST
++{
++    ULONG Length;            // Length of structure
++    NDIS_802_11_MAC_ADDRESS Bssid;
++    ULONG Flags;
++} NDIS_802_11_AUTHENTICATION_REQUEST, *PNDIS_802_11_AUTHENTICATION_REQUEST;
++
++typedef enum _NDIS_802_11_STATUS_TYPE
++{
++	Ndis802_11StatusType_Authentication,
++	Ndis802_11StatusType_MediaStreamMode,
++	Ndis802_11StatusType_PMKID_CandidateList,		
++	Ndis802_11StatusTypeMax    // not a real type, defined as an upper bound
++} NDIS_802_11_STATUS_TYPE, *PNDIS_802_11_STATUS_TYPE;
++
++typedef struct _NDIS_802_11_STATUS_INDICATION
++{
++    NDIS_802_11_STATUS_TYPE StatusType;
++} NDIS_802_11_STATUS_INDICATION, *PNDIS_802_11_STATUS_INDICATION;
++
++// mask for authentication/integrity fields
++#define NDIS_802_11_AUTH_REQUEST_AUTH_FIELDS        0x0f
++#define NDIS_802_11_AUTH_REQUEST_REAUTH			0x01
++#define NDIS_802_11_AUTH_REQUEST_KEYUPDATE		0x02
++#define NDIS_802_11_AUTH_REQUEST_PAIRWISE_ERROR		0x06
++#define NDIS_802_11_AUTH_REQUEST_GROUP_ERROR		0x0E
++
++// MIC check time, 60 seconds.
++#define MIC_CHECK_TIME	60000000
++
++typedef struct _NDIS_802_11_AUTHENTICATION_EVENT
++{
++    NDIS_802_11_STATUS_INDICATION       Status;
++    NDIS_802_11_AUTHENTICATION_REQUEST  Request[1];
++} NDIS_802_11_AUTHENTICATION_EVENT, *PNDIS_802_11_AUTHENTICATION_EVENT;
++        
++typedef struct _NDIS_802_11_TEST
++{
++    ULONG Length;
++    ULONG Type;
++    union
++    {
++        NDIS_802_11_AUTHENTICATION_EVENT AuthenticationEvent;
++        NDIS_802_11_RSSI RssiTrigger;
++    }tt;
++} NDIS_802_11_TEST, *PNDIS_802_11_TEST;
++
++
++#endif //PLATFORM_FREEBSD
++#ifndef Ndis802_11APMode
++#define Ndis802_11APMode (Ndis802_11InfrastructureMax+1)
++#endif
++
++typedef struct _WLAN_PHY_INFO
++{
++	u8	SignalStrength;//(in percentage)
++  	u8	SignalQuality;//(in percentage)
++  	u8	Optimum_antenna;  //for Antenna diversity
++  	u8  	Reserved_0;
++}WLAN_PHY_INFO,*PWLAN_PHY_INFO;
++
++/* temporally add #pragma pack for structure alignment issue of
++*   WLAN_BSSID_EX and get_WLAN_BSSID_EX_sz()
++*/
++#ifdef PLATFORM_WINDOWS
++#pragma pack(push)
++#pragma pack(1)
++#endif
++typedef struct _WLAN_BSSID_EX
++{
++  ULONG  Length;
++  NDIS_802_11_MAC_ADDRESS  MacAddress;
++  UCHAR  Reserved[2];//[0]: IS beacon frame
++  NDIS_802_11_SSID  Ssid;
++  ULONG  Privacy;
++  NDIS_802_11_RSSI  Rssi;//(in dBM,raw data ,get from PHY)
++  NDIS_802_11_NETWORK_TYPE  NetworkTypeInUse;
++  NDIS_802_11_CONFIGURATION  Configuration;
++  NDIS_802_11_NETWORK_INFRASTRUCTURE  InfrastructureMode;
++  NDIS_802_11_RATES_EX  SupportedRates;
++  WLAN_PHY_INFO	PhyInfo;
++  ULONG  IELength;
++  UCHAR  IEs[MAX_IE_SZ];	//(timestamp, beacon interval, and capability information)
++} 
++#ifndef PLATFORM_WINDOWS
++__attribute__((packed))
++#endif
++WLAN_BSSID_EX, *PWLAN_BSSID_EX;
++#ifdef PLATFORM_WINDOWS
++#pragma pack(pop)
++#endif
++
++__inline  static uint get_WLAN_BSSID_EX_sz(WLAN_BSSID_EX *bss)
++{
++	return (sizeof(WLAN_BSSID_EX) - MAX_IE_SZ + bss->IELength);
++}
++
++struct	wlan_network {
++	_list	list;	
++	int	network_type;	//refer to ieee80211.h for WIRELESS_11A/B/G
++	int	fixed;			// set to fixed when not to be removed as site-surveying
++	unsigned long	last_scanned; //timestamp for the network
++	int	aid;			//will only be valid when a BSS is joinned.
++	int	join_res;
++	WLAN_BSSID_EX	network; //must be the last item
++#ifdef PLATFORM_WINDOWS	
++	unsigned char  iebuf[MAX_IE_SZ];
++#endif
++
++};
++
++enum VRTL_CARRIER_SENSE
++{
++    DISABLE_VCS,	
++    ENABLE_VCS,	
++    AUTO_VCS
++};
++
++enum VCS_TYPE
++{
++    NONE_VCS,	
++    RTS_CTS,
++    CTS_TO_SELF 
++};
++
++
++
++
++#define PWR_CAM 0
++#define PWR_MINPS 1
++#define PWR_MAXPS 2
++#define PWR_UAPSD 3
++#define PWR_VOIP 4
++
++
++enum UAPSD_MAX_SP
++{
++	NO_LIMIT,
++       TWO_MSDU,
++       FOUR_MSDU,
++       SIX_MSDU
++};
++
++
++//john
++#define NUM_PRE_AUTH_KEY 16
++#define NUM_PMKID_CACHE NUM_PRE_AUTH_KEY
++
++/*
++* 	WPA2
++*/
++
++#ifndef PLATFORM_OS_CE
++typedef struct _PMKID_CANDIDATE {
++    NDIS_802_11_MAC_ADDRESS BSSID;
++    ULONG Flags;
++} PMKID_CANDIDATE, *PPMKID_CANDIDATE;
++
++typedef struct _NDIS_802_11_PMKID_CANDIDATE_LIST
++{
++    ULONG Version;       // Version of the structure
++    ULONG NumCandidates; // No. of pmkid candidates
++    PMKID_CANDIDATE CandidateList[1];
++} NDIS_802_11_PMKID_CANDIDATE_LIST, *PNDIS_802_11_PMKID_CANDIDATE_LIST;
++
++
++typedef struct _NDIS_802_11_AUTHENTICATION_ENCRYPTION
++{
++	NDIS_802_11_AUTHENTICATION_MODE AuthModeSupported;
++	NDIS_802_11_ENCRYPTION_STATUS EncryptStatusSupported;
++	
++} NDIS_802_11_AUTHENTICATION_ENCRYPTION, *PNDIS_802_11_AUTHENTICATION_ENCRYPTION;
++
++typedef struct _NDIS_802_11_CAPABILITY 
++{
++	ULONG  Length;
++	ULONG  Version;
++	ULONG  NoOfPMKIDs;
++	ULONG  NoOfAuthEncryptPairsSupported;
++	NDIS_802_11_AUTHENTICATION_ENCRYPTION AuthenticationEncryptionSupported[1];
++	
++} NDIS_802_11_CAPABILITY, *PNDIS_802_11_CAPABILITY;
++#endif
++
++
++#endif //#ifndef WLAN_BSSDEF_H_
++
+diff --git a/drivers/net/wireless/rtl8192cu/include/xmit_osdep.h b/drivers/net/wireless/rtl8192cu/include/xmit_osdep.h
+new file mode 100755
+index 0000000..e5848ec
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/include/xmit_osdep.h
+@@ -0,0 +1,95 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __XMIT_OSDEP_H_
++#define __XMIT_OSDEP_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++struct pkt_file {
++	_pkt *pkt;
++	SIZE_T pkt_len;	 //the remainder length of the open_file
++	_buffer *cur_buffer;
++	u8 *buf_start;
++	u8 *cur_addr;
++	SIZE_T buf_len;
++};
++
++#ifdef PLATFORM_WINDOWS
++
++#ifdef PLATFORM_OS_XP
++#ifdef CONFIG_USB_HCI
++#include <usb.h>
++#include <usbdlib.h>
++#include <usbioctl.h>
++#endif
++#endif
++
++#define NR_XMITFRAME     128
++
++#define ETH_ALEN	6
++
++extern NDIS_STATUS rtw_xmit_entry(
++IN _nic_hdl		cnxt,
++IN NDIS_PACKET		*pkt,
++IN UINT				flags
++);
++
++#endif
++
++#ifdef PLATFORM_FREEBSD
++#define NR_XMITFRAME	256
++extern int rtw_xmit_entry(_pkt *pkt, _nic_hdl pnetdev);
++extern void rtw_xmit_entry_wrap (struct ifnet * pifp);
++#endif //PLATFORM_FREEBSD
++
++#ifdef PLATFORM_LINUX
++
++#define NR_XMITFRAME	256
++
++struct xmit_priv;
++struct pkt_attrib;
++struct sta_xmit_priv;
++struct xmit_frame;
++struct xmit_buf;
++
++extern int _rtw_xmit_entry(_pkt *pkt, _nic_hdl pnetdev);
++extern int rtw_xmit_entry(_pkt *pkt, _nic_hdl pnetdev);
++
++#endif
++
++void rtw_os_xmit_schedule(_adapter *padapter);
++
++int rtw_os_xmit_resource_alloc(_adapter *padapter, struct xmit_buf *pxmitbuf,u32 alloc_sz);
++void rtw_os_xmit_resource_free(_adapter *padapter, struct xmit_buf *pxmitbuf,u32 free_sz);
++
++extern void rtw_set_tx_chksum_offload(_pkt *pkt, struct pkt_attrib *pattrib);
++
++extern uint rtw_remainder_len(struct pkt_file *pfile);
++extern void _rtw_open_pktfile(_pkt *pkt, struct pkt_file *pfile);
++extern uint _rtw_pktfile_read (struct pkt_file *pfile, u8 *rmem, uint rlen);
++extern sint rtw_endofpktfile (struct pkt_file *pfile);
++
++extern void rtw_os_pkt_complete(_adapter *padapter, _pkt *pkt);
++extern void rtw_os_xmit_complete(_adapter *padapter, struct xmit_frame *pxframe);
++
++#endif //__XMIT_OSDEP_H_
++
+diff --git a/drivers/net/wireless/rtl8192cu/os_dep/linux/ioctl_cfg80211.c b/drivers/net/wireless/rtl8192cu/os_dep/linux/ioctl_cfg80211.c
+new file mode 100755
+index 0000000..f488cab
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/os_dep/linux/ioctl_cfg80211.c
+@@ -0,0 +1,5521 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define  _IOCTL_CFG80211_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <rtw_ioctl.h>
++#include <rtw_ioctl_set.h>
++#include <rtw_ioctl_query.h>
++#include <xmit_osdep.h>
++
++#ifdef CONFIG_IOCTL_CFG80211
++
++#include "ioctl_cfg80211.h"	
++
++#define RTW_MAX_MGMT_TX_CNT (8)
++
++#define RTW_SCAN_IE_LEN_MAX      2304
++#define RTW_MAX_REMAIN_ON_CHANNEL_DURATION 65535 //ms
++#define RTW_MAX_NUM_PMKIDS 4
++
++#define RTW_CH_MAX_2G_CHANNEL               14      /* Max channel in 2G band */
++
++static const u32 rtw_cipher_suites[] = {
++	WLAN_CIPHER_SUITE_WEP40,
++	WLAN_CIPHER_SUITE_WEP104,
++	WLAN_CIPHER_SUITE_TKIP,
++	WLAN_CIPHER_SUITE_CCMP,
++#ifdef CONFIG_IEEE80211W
++	WLAN_CIPHER_SUITE_AES_CMAC,
++#endif //CONFIG_IEEE80211W
++};
++
++#define RATETAB_ENT(_rate, _rateid, _flags) \
++	{								\
++		.bitrate	= (_rate),				\
++		.hw_value	= (_rateid),				\
++		.flags		= (_flags),				\
++	}
++
++#define CHAN2G(_channel, _freq, _flags) {			\
++	.band			= IEEE80211_BAND_2GHZ,		\
++	.center_freq		= (_freq),			\
++	.hw_value		= (_channel),			\
++	.flags			= (_flags),			\
++	.max_antenna_gain	= 0,				\
++	.max_power		= 30,				\
++}
++
++#define CHAN5G(_channel, _flags) {				\
++	.band			= IEEE80211_BAND_5GHZ,		\
++	.center_freq		= 5000 + (5 * (_channel)),	\
++	.hw_value		= (_channel),			\
++	.flags			= (_flags),			\
++	.max_antenna_gain	= 0,				\
++	.max_power		= 30,				\
++}
++
++static struct ieee80211_rate rtw_rates[] = {
++	RATETAB_ENT(10,  0x1,   0),
++	RATETAB_ENT(20,  0x2,   0),
++	RATETAB_ENT(55,  0x4,   0),
++	RATETAB_ENT(110, 0x8,   0),
++	RATETAB_ENT(60,  0x10,  0),
++	RATETAB_ENT(90,  0x20,  0),
++	RATETAB_ENT(120, 0x40,  0),
++	RATETAB_ENT(180, 0x80,  0),
++	RATETAB_ENT(240, 0x100, 0),
++	RATETAB_ENT(360, 0x200, 0),
++	RATETAB_ENT(480, 0x400, 0),
++	RATETAB_ENT(540, 0x800, 0),
++};
++
++#define rtw_a_rates		(rtw_rates + 4)
++#define RTW_A_RATES_NUM	8
++#define rtw_g_rates		(rtw_rates + 0)
++#define RTW_G_RATES_NUM	12
++
++#define RTW_2G_CHANNELS_NUM 14
++#define RTW_5G_CHANNELS_NUM 37
++
++static struct ieee80211_channel rtw_2ghz_channels[] = {
++	CHAN2G(1, 2412, 0),
++	CHAN2G(2, 2417, 0),
++	CHAN2G(3, 2422, 0),
++	CHAN2G(4, 2427, 0),
++	CHAN2G(5, 2432, 0),
++	CHAN2G(6, 2437, 0),
++	CHAN2G(7, 2442, 0),
++	CHAN2G(8, 2447, 0),
++	CHAN2G(9, 2452, 0),
++	CHAN2G(10, 2457, 0),
++	CHAN2G(11, 2462, 0),
++	CHAN2G(12, 2467, 0),
++	CHAN2G(13, 2472, 0),
++	CHAN2G(14, 2484, 0),
++};
++
++static struct ieee80211_channel rtw_5ghz_a_channels[] = {
++	CHAN5G(34, 0),		CHAN5G(36, 0),
++	CHAN5G(38, 0),		CHAN5G(40, 0),
++	CHAN5G(42, 0),		CHAN5G(44, 0),
++	CHAN5G(46, 0),		CHAN5G(48, 0),
++	CHAN5G(52, 0),		CHAN5G(56, 0),
++	CHAN5G(60, 0),		CHAN5G(64, 0),
++	CHAN5G(100, 0),		CHAN5G(104, 0),
++	CHAN5G(108, 0),		CHAN5G(112, 0),
++	CHAN5G(116, 0),		CHAN5G(120, 0),
++	CHAN5G(124, 0),		CHAN5G(128, 0),
++	CHAN5G(132, 0),		CHAN5G(136, 0),
++	CHAN5G(140, 0),		CHAN5G(149, 0),
++	CHAN5G(153, 0),		CHAN5G(157, 0),
++	CHAN5G(161, 0),		CHAN5G(165, 0),
++	CHAN5G(184, 0),		CHAN5G(188, 0),
++	CHAN5G(192, 0),		CHAN5G(196, 0),
++	CHAN5G(200, 0),		CHAN5G(204, 0),
++	CHAN5G(208, 0),		CHAN5G(212, 0),
++	CHAN5G(216, 0),
++};
++
++
++void rtw_2g_channels_init(struct ieee80211_channel *channels)
++{
++	_rtw_memcpy((void*)channels, (void*)rtw_2ghz_channels,
++		sizeof(struct ieee80211_channel)*RTW_2G_CHANNELS_NUM
++	);
++}
++
++void rtw_5g_channels_init(struct ieee80211_channel *channels)
++{
++	_rtw_memcpy((void*)channels, (void*)rtw_5ghz_a_channels,
++		sizeof(struct ieee80211_channel)*RTW_5G_CHANNELS_NUM
++	);
++}
++
++void rtw_2g_rates_init(struct ieee80211_rate *rates)
++{
++	_rtw_memcpy(rates, rtw_g_rates,
++		sizeof(struct ieee80211_rate)*RTW_G_RATES_NUM
++	);
++}
++
++void rtw_5g_rates_init(struct ieee80211_rate *rates)
++{
++	_rtw_memcpy(rates, rtw_a_rates,
++		sizeof(struct ieee80211_rate)*RTW_A_RATES_NUM
++	);
++}
++
++struct ieee80211_supported_band *rtw_spt_band_alloc(
++	enum ieee80211_band band
++	)
++{
++	struct ieee80211_supported_band *spt_band = NULL;
++	int n_channels, n_bitrates;
++
++	if(band == IEEE80211_BAND_2GHZ)
++	{
++		n_channels = RTW_2G_CHANNELS_NUM;
++		n_bitrates = RTW_G_RATES_NUM;
++	}
++	else if(band == IEEE80211_BAND_5GHZ)
++	{
++		n_channels = RTW_5G_CHANNELS_NUM;
++		n_bitrates = RTW_A_RATES_NUM;
++	}
++	else
++	{
++		goto exit;
++	}
++
++	spt_band = (struct ieee80211_supported_band *)rtw_zmalloc(
++		sizeof(struct ieee80211_supported_band)
++		+ sizeof(struct ieee80211_channel)*n_channels
++		+ sizeof(struct ieee80211_rate)*n_bitrates
++	);
++	if(!spt_band)
++		goto exit;
++
++	spt_band->channels = (struct ieee80211_channel*)(((u8*)spt_band)+sizeof(struct ieee80211_supported_band));
++	spt_band->bitrates= (struct ieee80211_rate*)(((u8*)spt_band->channels)+sizeof(struct ieee80211_channel)*n_channels);
++	spt_band->band = band;
++	spt_band->n_channels = n_channels;
++	spt_band->n_bitrates = n_bitrates;
++
++	if(band == IEEE80211_BAND_2GHZ)
++	{
++		rtw_2g_channels_init(spt_band->channels);
++		rtw_2g_rates_init(spt_band->bitrates);
++	}
++	else if(band == IEEE80211_BAND_5GHZ)
++	{
++		rtw_5g_channels_init(spt_band->channels);
++		rtw_5g_rates_init(spt_band->bitrates);
++	}
++
++	//spt_band.ht_cap
++	
++exit:
++
++	return spt_band;
++}
++
++void rtw_spt_band_free(struct ieee80211_supported_band *spt_band)
++{
++	u32 size;
++
++	if(!spt_band)
++		return;
++	
++	if(spt_band->band == IEEE80211_BAND_2GHZ)
++	{
++		size = sizeof(struct ieee80211_supported_band)
++			+ sizeof(struct ieee80211_channel)*RTW_2G_CHANNELS_NUM
++			+ sizeof(struct ieee80211_rate)*RTW_G_RATES_NUM;
++	}
++	else if(spt_band->band == IEEE80211_BAND_5GHZ)
++	{
++		size = sizeof(struct ieee80211_supported_band)
++			+ sizeof(struct ieee80211_channel)*RTW_5G_CHANNELS_NUM
++			+ sizeof(struct ieee80211_rate)*RTW_A_RATES_NUM;		
++	}
++	else
++	{
++		
++	}
++	rtw_mfree((u8*)spt_band, size);
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE)
++static const struct ieee80211_txrx_stypes
++rtw_cfg80211_default_mgmt_stypes[NUM_NL80211_IFTYPES] = {
++	[NL80211_IFTYPE_ADHOC] = {
++		.tx = 0xffff,
++		.rx = BIT(IEEE80211_STYPE_ACTION >> 4)
++	},
++	[NL80211_IFTYPE_STATION] = {
++		.tx = 0xffff,
++		.rx = BIT(IEEE80211_STYPE_ACTION >> 4) |
++		BIT(IEEE80211_STYPE_PROBE_REQ >> 4)
++	},
++	[NL80211_IFTYPE_AP] = {
++		.tx = 0xffff,
++		.rx = BIT(IEEE80211_STYPE_ASSOC_REQ >> 4) |
++		BIT(IEEE80211_STYPE_REASSOC_REQ >> 4) |
++		BIT(IEEE80211_STYPE_PROBE_REQ >> 4) |
++		BIT(IEEE80211_STYPE_DISASSOC >> 4) |
++		BIT(IEEE80211_STYPE_AUTH >> 4) |
++		BIT(IEEE80211_STYPE_DEAUTH >> 4) |
++		BIT(IEEE80211_STYPE_ACTION >> 4)
++	},
++	[NL80211_IFTYPE_AP_VLAN] = {
++		/* copy AP */
++		.tx = 0xffff,
++		.rx = BIT(IEEE80211_STYPE_ASSOC_REQ >> 4) |
++		BIT(IEEE80211_STYPE_REASSOC_REQ >> 4) |
++		BIT(IEEE80211_STYPE_PROBE_REQ >> 4) |
++		BIT(IEEE80211_STYPE_DISASSOC >> 4) |
++		BIT(IEEE80211_STYPE_AUTH >> 4) |
++		BIT(IEEE80211_STYPE_DEAUTH >> 4) |
++		BIT(IEEE80211_STYPE_ACTION >> 4)
++	},
++	[NL80211_IFTYPE_P2P_CLIENT] = {
++		.tx = 0xffff,
++		.rx = BIT(IEEE80211_STYPE_ACTION >> 4) |
++		BIT(IEEE80211_STYPE_PROBE_REQ >> 4)
++	},
++	[NL80211_IFTYPE_P2P_GO] = {
++		.tx = 0xffff,
++		.rx = BIT(IEEE80211_STYPE_ASSOC_REQ >> 4) |
++		BIT(IEEE80211_STYPE_REASSOC_REQ >> 4) |
++		BIT(IEEE80211_STYPE_PROBE_REQ >> 4) |
++		BIT(IEEE80211_STYPE_DISASSOC >> 4) |
++		BIT(IEEE80211_STYPE_AUTH >> 4) |
++		BIT(IEEE80211_STYPE_DEAUTH >> 4) |
++		BIT(IEEE80211_STYPE_ACTION >> 4)
++	},
++};
++#endif
++
++static int rtw_ieee80211_channel_to_frequency(int chan, int band)
++{
++	/* see 802.11 17.3.8.3.2 and Annex J
++	* there are overlapping channel numbers in 5GHz and 2GHz bands */
++           
++	if (band == IEEE80211_BAND_5GHZ) {
++       	if (chan >= 182 && chan <= 196)
++			return 4000 + chan * 5;
++             else
++                    return 5000 + chan * 5;
++       } else { /* IEEE80211_BAND_2GHZ */
++		if (chan == 14)
++			return 2484;
++             else if (chan < 14)
++			return 2407 + chan * 5;
++             else
++			return 0; /* not supported */
++	}
++}
++
++#define MAX_BSSINFO_LEN 1000
++static int rtw_cfg80211_inform_bss(_adapter *padapter, struct wlan_network *pnetwork)
++{
++	int ret=0;	
++	struct ieee80211_channel *notify_channel;
++	struct cfg80211_bss *bss;
++	//struct ieee80211_supported_band *band;       
++	u16 channel;
++	u32 freq;
++	u64 notify_timestamp;
++	u16 notify_capability;
++	u16 notify_interval;
++	u8 *notify_ie;
++	size_t notify_ielen;
++	s32 notify_signal;
++	u8 buf[MAX_BSSINFO_LEN], *pbuf;
++	size_t len,bssinf_len=0;
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	unsigned short *fctrl;
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++		
++	struct wireless_dev *wdev = padapter->rtw_wdev;
++	struct wiphy *wiphy = wdev->wiphy;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++
++	//DBG_8192C("%s\n", __func__);
++
++	bssinf_len = pnetwork->network.IELength+sizeof (struct rtw_ieee80211_hdr_3addr);
++	if(bssinf_len > MAX_BSSINFO_LEN){
++		DBG_871X("%s IE Length too long > %d byte \n",__FUNCTION__,MAX_BSSINFO_LEN);
++		goto exit;
++	}
++
++	//To reduce PBC Overlap rate
++	//_enter_critical_bh(&pwdev_priv->scan_req_lock, &irqL);
++	if(wdev_to_priv(wdev)->scan_request != NULL)
++	{
++		u8 *psr=NULL, sr = 0;
++		NDIS_802_11_SSID *pssid = &pnetwork->network.Ssid;
++		struct cfg80211_scan_request *request = wdev_to_priv(wdev)->scan_request;
++		struct cfg80211_ssid *ssids = request->ssids;
++		u32 wpsielen=0;
++		u8 *wpsie=NULL;	
++		
++		wpsie = rtw_get_wps_ie(pnetwork->network.IEs+_FIXED_IE_LENGTH_, pnetwork->network.IELength-_FIXED_IE_LENGTH_, NULL, &wpsielen);
++		
++		if(wpsie && wpsielen>0)
++			psr = rtw_get_wps_attr_content(wpsie,  wpsielen, WPS_ATTR_SELECTED_REGISTRAR, (u8*)(&sr), NULL);
++		
++		if (sr != 0)
++		{			
++			if(request->n_ssids == 1  && request->n_channels == 1) // it means under processing WPS
++			{
++				DBG_8192C("ssid=%s, len=%d\n", pssid->Ssid, pssid->SsidLength);
++			
++				if(pssid->SsidLength == ssids[0].ssid_len &&
++					_rtw_memcmp(pssid->Ssid, ssids[0].ssid, ssids[0].ssid_len))
++				{
++					DBG_871X("%s, got sr and ssid match!\n", __func__);
++				}
++				else
++				{
++					if(psr !=NULL)
++						*psr = 0; //clear sr
++				
++#if 0			
++					WLAN_BSSID_EX  *pselect_network = &pnetwork->network;
++					struct cfg80211_bss *pselect_bss = NULL;
++					struct ieee80211_channel *notify_channel = NULL;
++					u32 freq;
++
++					DBG_871X("%s, got sr, but ssid mismatch, to remove this bss\n", __func__);
++
++					if (pselect_network->Configuration.DSConfig <= RTW_CH_MAX_2G_CHANNEL)
++						freq = rtw_ieee80211_channel_to_frequency(pselect_network->Configuration.DSConfig, IEEE80211_BAND_2GHZ);
++					else
++						freq = rtw_ieee80211_channel_to_frequency(pselect_network->Configuration.DSConfig, IEEE80211_BAND_5GHZ);
++
++					notify_channel = ieee80211_get_channel(wiphy, freq);
++					pselect_bss = cfg80211_get_bss(wiphy, NULL/*notify_channel*/,
++								pselect_network->MacAddress, pselect_network->Ssid.Ssid,
++								pselect_network->Ssid.SsidLength, 0/*WLAN_CAPABILITY_ESS*/, 
++								0/*WLAN_CAPABILITY_ESS*/);
++
++					if(pselect_bss)
++					{
++						DBG_871X("%s, got bss for cfg80211 for unlinking bss\n", __func__);
++
++						cfg80211_unlink_bss(wiphy, pselect_bss);
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(3, 9, 0)
++						cfg80211_put_bss(wiphy, pselect_bss);
++#else
++						cfg80211_put_bss(pselect_bss);
++#endif
++						
++					}
++					
++					goto exit;
++#endif 					
++				}			
++			}			
++		}		
++	}
++	//_exit_critical_bh(&pwdev_priv->scan_req_lock, &irqL);
++
++	channel = pnetwork->network.Configuration.DSConfig;
++	if (channel <= RTW_CH_MAX_2G_CHANNEL)
++		freq = rtw_ieee80211_channel_to_frequency(channel, IEEE80211_BAND_2GHZ);
++	else
++		freq = rtw_ieee80211_channel_to_frequency(channel, IEEE80211_BAND_5GHZ);
++	
++	notify_channel = ieee80211_get_channel(wiphy, freq);
++
++	//rtw_get_timestampe_from_ie()
++	notify_timestamp = jiffies_to_msecs(jiffies)*1000; /* uSec */
++
++	notify_interval = le16_to_cpu(*(u16*)rtw_get_beacon_interval_from_ie(pnetwork->network.IEs));
++	notify_capability = le16_to_cpu(*(u16*)rtw_get_capability_from_ie(pnetwork->network.IEs));		
++
++	
++	notify_ie = pnetwork->network.IEs+_FIXED_IE_LENGTH_;
++	notify_ielen = pnetwork->network.IELength-_FIXED_IE_LENGTH_;
++
++	//We've set wiphy's signal_type as CFG80211_SIGNAL_TYPE_MBM: signal strength in mBm (100*dBm)
++	if ( check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE &&
++		is_same_network(&pmlmepriv->cur_network.network, &pnetwork->network)) {
++		notify_signal = 100*translate_percentage_to_dbm(padapter->recvpriv.signal_strength);//dbm
++	} else {
++		notify_signal = 100*translate_percentage_to_dbm(pnetwork->network.PhyInfo.SignalStrength);//dbm
++	}
++		
++/*
++	DBG_8192C("bssid: %2.2X:%2.2X:%2.2X:%2.2X:%2.2X:%2.2X\n",
++                        pnetwork->network.MacAddress[0], pnetwork->network.MacAddress[1], pnetwork->network.MacAddress[2],
++                        pnetwork->network.MacAddress[3], pnetwork->network.MacAddress[4], pnetwork->network.MacAddress[5]);
++	DBG_8192C("Channel: %d(%d)\n", channel, freq);
++	DBG_8192C("Capability: %X\n", notify_capability);
++	DBG_8192C("Beacon interval: %d\n", notify_interval);
++	DBG_8192C("Signal: %d\n", notify_signal);
++	DBG_8192C("notify_timestamp: %#018llx\n", notify_timestamp);
++*/
++
++	pbuf = buf;
++	
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pbuf;	
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;	
++
++	SetSeqNum(pwlanhdr, 0/*pmlmeext->mgnt_seq*/);
++	//pmlmeext->mgnt_seq++;
++
++	if (pnetwork->network.Reserved[0] == 1) { // WIFI_BEACON
++		_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);		
++		SetFrameSubType(pbuf, WIFI_BEACON);
++	} else {
++		_rtw_memcpy(pwlanhdr->addr1, myid(&(padapter->eeprompriv)), ETH_ALEN);
++		SetFrameSubType(pbuf, WIFI_PROBERSP);
++	}
++
++	_rtw_memcpy(pwlanhdr->addr2, pnetwork->network.MacAddress, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, pnetwork->network.MacAddress, ETH_ALEN);
++
++
++	pbuf += sizeof(struct rtw_ieee80211_hdr_3addr);	
++	len = sizeof (struct rtw_ieee80211_hdr_3addr);
++
++	_rtw_memcpy(pbuf, pnetwork->network.IEs, pnetwork->network.IELength);
++	len += pnetwork->network.IELength;
++
++	//#ifdef CONFIG_P2P
++	//if(rtw_get_p2p_ie(pnetwork->network.IEs+12, pnetwork->network.IELength-12, NULL, NULL))
++	//{
++	//	DBG_8192C("%s, got p2p_ie\n", __func__);
++	//}
++	//#endif
++	
++
++#if 1	
++	bss = cfg80211_inform_bss_frame(wiphy, notify_channel, (struct ieee80211_mgmt *)buf,
++		len, notify_signal, GFP_ATOMIC);
++#else			 
++			
++	bss = cfg80211_inform_bss(wiphy, notify_channel, (const u8 *)pnetwork->network.MacAddress,
++                notify_timestamp, notify_capability, notify_interval, notify_ie,
++                notify_ielen, notify_signal, GFP_ATOMIC/*GFP_KERNEL*/);
++#endif
++
++	if (unlikely(!bss)) {
++		DBG_8192C("rtw_cfg80211_inform_bss error\n");
++		return -EINVAL;
++	}
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,38))
++#ifndef COMPAT_KERNEL_RELEASE
++	//patch for cfg80211, update beacon ies to information_elements
++	if (pnetwork->network.Reserved[0] == 1) { // WIFI_BEACON
++	
++		 if(bss->len_information_elements != bss->len_beacon_ies)
++		 {
++			bss->information_elements = bss->beacon_ies;			
++			bss->len_information_elements =  bss->len_beacon_ies;
++		 }		
++	}
++#endif //COMPAT_KERNEL_RELEASE
++#endif //LINUX_VERSION_CODE < KERNEL_VERSION(2,6,38)
++
++/*	
++	{
++		if( bss->information_elements == bss->proberesp_ies) 
++		{
++			if( bss->len_information_elements !=  bss->len_proberesp_ies)
++			{
++				DBG_8192C("error!, len_information_elements !=  bss->len_proberesp_ies\n");
++			}
++							
++		}
++		else if(bss->len_information_elements <  bss->len_beacon_ies)
++		{
++			bss->information_elements = bss->beacon_ies;			
++			bss->len_information_elements =  bss->len_beacon_ies;
++		}
++	}
++*/
++
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(3, 9, 0)
++	cfg80211_put_bss(wiphy, bss);
++#else
++	cfg80211_put_bss(bss);
++#endif
++
++exit:	
++	return ret;
++	
++}
++
++/*
++	Check the given bss is valid by kernel API cfg80211_get_bss()
++	@padapter : the given adapter
++	
++	return _TRUE if bss is valid,  _FALSE for not found.
++*/
++int rtw_cfg80211_check_bss(_adapter *padapter)
++{
++	WLAN_BSSID_EX  *pnetwork = &(padapter->mlmeextpriv.mlmext_info.network);
++	struct cfg80211_bss *bss = NULL;
++	struct ieee80211_channel *notify_channel = NULL;
++	u32 freq;
++
++	if (!(pnetwork) || !(padapter->rtw_wdev))
++		return _FALSE;
++
++	if (pnetwork->Configuration.DSConfig <= RTW_CH_MAX_2G_CHANNEL)
++		freq = rtw_ieee80211_channel_to_frequency(pnetwork->Configuration.DSConfig, IEEE80211_BAND_2GHZ);
++	else
++		freq = rtw_ieee80211_channel_to_frequency(pnetwork->Configuration.DSConfig, IEEE80211_BAND_5GHZ);
++
++	notify_channel = ieee80211_get_channel(padapter->rtw_wdev->wiphy, freq);
++	bss = cfg80211_get_bss(padapter->rtw_wdev->wiphy, notify_channel,
++			pnetwork->MacAddress, pnetwork->Ssid.Ssid,
++			pnetwork->Ssid.SsidLength,
++			WLAN_CAPABILITY_ESS, WLAN_CAPABILITY_ESS);
++
++	return 	(bss!=NULL);
++}
++
++void rtw_cfg80211_indicate_connect(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network  *cur_network = &(pmlmepriv->cur_network);
++	struct wireless_dev *pwdev = padapter->rtw_wdev;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++#endif
++	struct cfg80211_bss *bss = NULL;
++
++	DBG_871X(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++	if (pwdev->iftype != NL80211_IFTYPE_STATION
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE)
++		&& pwdev->iftype != NL80211_IFTYPE_P2P_CLIENT
++		#endif
++	) {
++		return;
++	}
++
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		return;
++
++#ifdef CONFIG_P2P
++	if(pwdinfo->driver_interface == DRIVER_CFG80211 )
++	{
++		if(!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		{
++			rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++			rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++			DBG_8192C("%s, role=%d, p2p_state=%d, pre_p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo), rtw_p2p_pre_state(pwdinfo));
++		}
++	}
++#endif //CONFIG_P2P
++
++	#ifdef CONFIG_LAYER2_ROAMING
++	if (rtw_to_roaming(padapter) > 0) {
++		#if LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 39) || defined(COMPAT_KERNEL_RELEASE)
++		struct wiphy *wiphy = pwdev->wiphy;
++		struct ieee80211_channel *notify_channel;
++		u32 freq;
++		u16 channel = cur_network->network.Configuration.DSConfig;
++
++		if (channel <= RTW_CH_MAX_2G_CHANNEL)
++			freq = rtw_ieee80211_channel_to_frequency(channel, IEEE80211_BAND_2GHZ);
++		else
++			freq = rtw_ieee80211_channel_to_frequency(channel, IEEE80211_BAND_5GHZ);
++
++		notify_channel = ieee80211_get_channel(wiphy, freq);
++		#endif
++
++		DBG_871X("%s call cfg80211_roamed\n", __FUNCTION__);
++		#if LINUX_VERSION_CODE >= KERNEL_VERSION(4, 12, 0)
++		{
++			struct cfg80211_roam_info roam_info = {
++				.channel = notify_channel,
++				.bssid = cur_network->network.MacAddress,
++				.req_ie = pmlmepriv->assoc_req+sizeof(struct rtw_ieee80211_hdr_3addr)+2,
++				.req_ie_len = pmlmepriv->assoc_req_len-sizeof(struct rtw_ieee80211_hdr_3addr)-2,
++				.resp_ie = pmlmepriv->assoc_rsp+sizeof(struct rtw_ieee80211_hdr_3addr)+6,
++				.resp_ie_len = pmlmepriv->assoc_rsp_len-sizeof(struct rtw_ieee80211_hdr_3addr)-6,
++			};
++			cfg80211_roamed(padapter->pnetdev, &roam_info, GFP_ATOMIC);
++		}
++		#else
++		cfg80211_roamed(padapter->pnetdev
++			#if LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 39) || defined(COMPAT_KERNEL_RELEASE)
++			, notify_channel
++			#endif
++			, cur_network->network.MacAddress
++			, pmlmepriv->assoc_req+sizeof(struct rtw_ieee80211_hdr_3addr)+2
++			, pmlmepriv->assoc_req_len-sizeof(struct rtw_ieee80211_hdr_3addr)-2
++			, pmlmepriv->assoc_rsp+sizeof(struct rtw_ieee80211_hdr_3addr)+6
++			, pmlmepriv->assoc_rsp_len-sizeof(struct rtw_ieee80211_hdr_3addr)-6
++			, GFP_ATOMIC);
++		#endif
++	}
++	else 
++	#endif
++	{
++		DBG_8192C("pwdev->sme_state(b)=%d\n", pwdev->sme_state);
++		cfg80211_connect_result(padapter->pnetdev, cur_network->network.MacAddress
++			, pmlmepriv->assoc_req+sizeof(struct rtw_ieee80211_hdr_3addr)+2
++			, pmlmepriv->assoc_req_len-sizeof(struct rtw_ieee80211_hdr_3addr)-2
++			, pmlmepriv->assoc_rsp+sizeof(struct rtw_ieee80211_hdr_3addr)+6
++			, pmlmepriv->assoc_rsp_len-sizeof(struct rtw_ieee80211_hdr_3addr)-6
++			, WLAN_STATUS_SUCCESS, GFP_ATOMIC);
++		DBG_8192C("pwdev->sme_state(a)=%d\n", pwdev->sme_state);
++	}
++}
++
++void rtw_cfg80211_indicate_disconnect(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct wireless_dev *pwdev = padapter->rtw_wdev;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++#endif
++
++	DBG_871X(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++	if (pwdev->iftype != NL80211_IFTYPE_STATION 
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE)
++		&& pwdev->iftype != NL80211_IFTYPE_P2P_CLIENT
++		#endif
++	) {
++		return;
++	}
++
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		return;
++
++#ifdef CONFIG_P2P	
++	if( pwdinfo->driver_interface == DRIVER_CFG80211 )
++	{
++		if(!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		{
++			_cancel_timer_ex( &pwdinfo->find_phase_timer );
++			_cancel_timer_ex( &pwdinfo->restore_p2p_state_timer );
++			_cancel_timer_ex( &pwdinfo->pre_tx_scan_timer);
++	
++			rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++			rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++
++			DBG_8192C("%s, role=%d, p2p_state=%d, pre_p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo), rtw_p2p_pre_state(pwdinfo));
++		}
++	}
++#endif //CONFIG_P2P
++
++	if (!padapter->mlmepriv.not_indic_disco) {
++		DBG_8192C("pwdev->sme_state(b)=%d\n", pwdev->sme_state);
++
++		if(pwdev->sme_state==CFG80211_SME_CONNECTING)
++			cfg80211_connect_result(padapter->pnetdev, NULL, NULL, 0, NULL, 0, 
++				WLAN_STATUS_UNSPECIFIED_FAILURE, GFP_ATOMIC/*GFP_KERNEL*/);
++		else if(pwdev->sme_state==CFG80211_SME_CONNECTED)
++			cfg80211_disconnected(padapter->pnetdev, 0, NULL, 0, GFP_ATOMIC);
++		//else
++			//DBG_8192C("pwdev->sme_state=%d\n", pwdev->sme_state);
++
++		DBG_8192C("pwdev->sme_state(a)=%d\n", pwdev->sme_state);
++	}
++}
++ 	
++
++#ifdef CONFIG_AP_MODE
++static u8 set_pairwise_key(_adapter *padapter, struct sta_info *psta)
++{
++	struct cmd_obj*			ph2c;
++	struct set_stakey_parm	*psetstakey_para;
++	struct cmd_priv 			*pcmdpriv=&padapter->cmdpriv;	
++	u8	res=_SUCCESS;
++
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++	if ( ph2c == NULL){
++		res= _FAIL;
++		goto exit;
++	}
++
++	psetstakey_para = (struct set_stakey_parm*)rtw_zmalloc(sizeof(struct set_stakey_parm));
++	if(psetstakey_para==NULL){
++		rtw_mfree((u8 *) ph2c, sizeof(struct cmd_obj));
++		res=_FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psetstakey_para, _SetStaKey_CMD_);
++
++
++	psetstakey_para->algorithm = (u8)psta->dot118021XPrivacy;
++
++	_rtw_memcpy(psetstakey_para->addr, psta->hwaddr, ETH_ALEN);	
++	
++	_rtw_memcpy(psetstakey_para->key, &psta->dot118021x_UncstKey, 16);
++
++	
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);	
++
++exit:
++
++	return res;
++	
++}
++
++static int set_group_key(_adapter *padapter, u8 *key, u8 alg, int keyid)
++{
++	u8 keylen;
++	struct cmd_obj* pcmd;
++	struct setkey_parm *psetkeyparm;
++	struct cmd_priv	*pcmdpriv=&(padapter->cmdpriv);	
++	int res=_SUCCESS;
++
++	DBG_8192C("%s\n", __FUNCTION__);
++	
++	pcmd = (struct cmd_obj*)rtw_zmalloc(sizeof(struct	cmd_obj));
++	if(pcmd==NULL){
++		res= _FAIL;
++		goto exit;
++	}
++	psetkeyparm=(struct setkey_parm*)rtw_zmalloc(sizeof(struct setkey_parm));
++	if(psetkeyparm==NULL){
++		rtw_mfree((unsigned char *)pcmd, sizeof(struct cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	_rtw_memset(psetkeyparm, 0, sizeof(struct setkey_parm));
++		
++	psetkeyparm->keyid=(u8)keyid;
++	if (is_wep_enc(alg))
++		padapter->securitypriv.key_mask |= BIT(psetkeyparm->keyid);
++
++	psetkeyparm->algorithm = alg;
++
++	psetkeyparm->set_tx = 1;
++
++	switch(alg)
++	{
++		case _WEP40_:					
++			keylen = 5;
++			break;
++		case _WEP104_:
++			keylen = 13;			
++			break;
++		case _TKIP_:
++		case _TKIP_WTMIC_:		
++		case _AES_:
++			keylen = 16;		
++		default:
++			keylen = 16;		
++	}
++
++	_rtw_memcpy(&(psetkeyparm->key[0]), key, keylen);
++	
++	pcmd->cmdcode = _SetKey_CMD_;
++	pcmd->parmbuf = (u8 *)psetkeyparm;   
++	pcmd->cmdsz =  (sizeof(struct setkey_parm));  
++	pcmd->rsp = NULL;
++	pcmd->rspsz = 0;
++
++
++	_rtw_init_listhead(&pcmd->list);
++
++	res = rtw_enqueue_cmd(pcmdpriv, pcmd);
++
++exit:
++
++	return res;
++	
++
++}
++
++static int set_wep_key(_adapter *padapter, u8 *key, u8 keylen, int keyid)
++{	
++	u8 alg;
++
++	switch(keylen)
++	{
++		case 5:
++			alg =_WEP40_;			
++			break;
++		case 13:
++			alg =_WEP104_;			
++			break;
++		default:
++			alg =_NO_PRIVACY_;			
++	}
++
++	return set_group_key(padapter, key, alg, keyid);
++
++}
++
++static int rtw_cfg80211_ap_set_encryption(struct net_device *dev, struct ieee_param *param, u32 param_len)
++{
++	int ret = 0;
++	u32 wep_key_idx, wep_key_len,wep_total_len;
++	struct sta_info *psta = NULL, *pbcmc_sta = NULL;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv 	*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv* psecuritypriv=&(padapter->securitypriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	DBG_8192C("%s\n", __FUNCTION__);
++
++	param->u.crypt.err = 0;
++	param->u.crypt.alg[IEEE_CRYPT_ALG_NAME_LEN - 1] = '\0';
++
++	//sizeof(struct ieee_param) = 64 bytes;
++	//if (param_len !=  (u32) ((u8 *) param->u.crypt.key - (u8 *) param) + param->u.crypt.key_len)
++	if (param_len !=  sizeof(struct ieee_param) + param->u.crypt.key_len)
++	{
++		ret =  -EINVAL;
++		goto exit;
++	}
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff) 
++	{
++		if (param->u.crypt.idx >= WEP_KEYS)
++		{
++			ret = -EINVAL;
++			goto exit;
++		}	
++	}
++	else 
++	{		
++		psta = rtw_get_stainfo(pstapriv, param->sta_addr);
++		if(!psta)
++		{
++			//ret = -EINVAL;
++			DBG_8192C("rtw_set_encryption(), sta has already been removed or never been added\n");
++			goto exit;
++		}			
++	}
++
++	if (strcmp(param->u.crypt.alg, "none") == 0 && (psta==NULL))
++	{
++		//todo:clear default encryption keys
++
++		DBG_8192C("clear default encryption keys, keyid=%d\n", param->u.crypt.idx);
++		
++		goto exit;
++	}
++
++
++	if (strcmp(param->u.crypt.alg, "WEP") == 0 && (psta==NULL))
++	{		
++		DBG_8192C("r871x_set_encryption, crypt.alg = WEP\n");
++		
++		wep_key_idx = param->u.crypt.idx;
++		wep_key_len = param->u.crypt.key_len;
++					
++		DBG_8192C("r871x_set_encryption, wep_key_idx=%d, len=%d\n", wep_key_idx, wep_key_len);
++
++		if((wep_key_idx >= WEP_KEYS) || (wep_key_len<=0))
++		{
++			ret = -EINVAL;
++			goto exit;
++		}
++			
++		if (wep_key_len > 0) 
++		{			
++		 	wep_key_len = wep_key_len <= 5 ? 5 : 13;
++		}
++		
++		if (psecuritypriv->bWepDefaultKeyIdxSet == 0)
++		{
++			//wep default key has not been set, so use this key index as default key.
++
++			psecuritypriv->ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			psecuritypriv->dot11PrivacyAlgrthm=_WEP40_;
++			psecuritypriv->dot118021XGrpPrivacy=_WEP40_;
++			
++			if(wep_key_len == 13)
++			{
++				psecuritypriv->dot11PrivacyAlgrthm=_WEP104_;
++				psecuritypriv->dot118021XGrpPrivacy=_WEP104_;
++			}
++
++			psecuritypriv->dot11PrivacyKeyIndex = wep_key_idx;
++		}
++			
++		_rtw_memcpy(&(psecuritypriv->dot11DefKey[wep_key_idx].skey[0]), param->u.crypt.key, wep_key_len);
++					
++		psecuritypriv->dot11DefKeylen[wep_key_idx] = wep_key_len;
++
++		set_wep_key(padapter, param->u.crypt.key, wep_key_len, wep_key_idx);
++
++		goto exit;
++		
++	}
++
++	
++	if(!psta && check_fwstate(pmlmepriv, WIFI_AP_STATE)) // //group key
++	{
++		if(param->u.crypt.set_tx == 0) //group key
++		{
++			if(strcmp(param->u.crypt.alg, "WEP") == 0)
++			{
++				DBG_8192C("%s, set group_key, WEP\n", __FUNCTION__);
++				
++				_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++					
++				psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++				if(param->u.crypt.key_len==13)
++				{						
++						psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++				}
++				
++			}
++			else if(strcmp(param->u.crypt.alg, "TKIP") == 0)
++			{						
++				DBG_8192C("%s, set group_key, TKIP\n", __FUNCTION__);
++				
++				psecuritypriv->dot118021XGrpPrivacy = _TKIP_;
++
++				_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++				
++				//DEBUG_ERR("set key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len);
++				//set mic key
++				_rtw_memcpy(psecuritypriv->dot118021XGrptxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[16]), 8);
++				_rtw_memcpy(psecuritypriv->dot118021XGrprxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[24]), 8);
++
++				psecuritypriv->busetkipkey = _TRUE;
++											
++			}
++			else if(strcmp(param->u.crypt.alg, "CCMP") == 0)
++			{
++				DBG_8192C("%s, set group_key, CCMP\n", __FUNCTION__);
++			
++				psecuritypriv->dot118021XGrpPrivacy = _AES_;
++
++				_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++			}
++			else
++			{
++				DBG_8192C("%s, set group_key, none\n", __FUNCTION__);
++				
++				psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++			}
++
++			psecuritypriv->dot118021XGrpKeyid = param->u.crypt.idx;
++
++			psecuritypriv->binstallGrpkey = _TRUE;
++
++			psecuritypriv->dot11PrivacyAlgrthm = psecuritypriv->dot118021XGrpPrivacy;//!!!
++								
++			set_group_key(padapter, param->u.crypt.key, psecuritypriv->dot118021XGrpPrivacy, param->u.crypt.idx);
++			
++			pbcmc_sta=rtw_get_bcmc_stainfo(padapter);
++			if(pbcmc_sta)
++			{
++				pbcmc_sta->ieee8021x_blocked = _FALSE;
++				pbcmc_sta->dot118021XPrivacy= psecuritypriv->dot118021XGrpPrivacy;//rx will use bmc_sta's dot118021XPrivacy			
++			}	
++						
++		}
++
++		goto exit;
++		
++	}	
++
++	if(psecuritypriv->dot11AuthAlgrthm == dot11AuthAlgrthm_8021X && psta) // psk/802_1x
++	{
++		if(check_fwstate(pmlmepriv, WIFI_AP_STATE))
++		{
++			if(param->u.crypt.set_tx ==1) //pairwise key
++			{ 
++				_rtw_memcpy(psta->dot118021x_UncstKey.skey,  param->u.crypt.key, (param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++				
++				if(strcmp(param->u.crypt.alg, "WEP") == 0)
++				{
++					DBG_8192C("%s, set pairwise key, WEP\n", __FUNCTION__);
++					
++					psta->dot118021XPrivacy = _WEP40_;
++					if(param->u.crypt.key_len==13)
++					{						
++						psta->dot118021XPrivacy = _WEP104_;
++					}
++				}
++				else if(strcmp(param->u.crypt.alg, "TKIP") == 0)
++				{						
++					DBG_8192C("%s, set pairwise key, TKIP\n", __FUNCTION__);
++					
++					psta->dot118021XPrivacy = _TKIP_;
++				
++					//DEBUG_ERR("set key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len);
++					//set mic key
++					_rtw_memcpy(psta->dot11tkiptxmickey.skey, &(param->u.crypt.key[16]), 8);
++					_rtw_memcpy(psta->dot11tkiprxmickey.skey, &(param->u.crypt.key[24]), 8);
++
++					psecuritypriv->busetkipkey = _TRUE;
++											
++				}
++				else if(strcmp(param->u.crypt.alg, "CCMP") == 0)
++				{
++
++					DBG_8192C("%s, set pairwise key, CCMP\n", __FUNCTION__);
++					
++					psta->dot118021XPrivacy = _AES_;
++				}
++				else
++				{
++					DBG_8192C("%s, set pairwise key, none\n", __FUNCTION__);
++					
++					psta->dot118021XPrivacy = _NO_PRIVACY_;
++				}
++						
++				set_pairwise_key(padapter, psta);
++					
++				psta->ieee8021x_blocked = _FALSE;
++					
++				psta->bpairwise_key_installed = _TRUE;
++					
++			}			
++			else//group key???
++			{ 
++				if(strcmp(param->u.crypt.alg, "WEP") == 0)
++				{
++					_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++					
++					psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++					if(param->u.crypt.key_len==13)
++					{						
++						psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++					}
++				}
++				else if(strcmp(param->u.crypt.alg, "TKIP") == 0)
++				{						
++					psecuritypriv->dot118021XGrpPrivacy = _TKIP_;
++
++					_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++				
++					//DEBUG_ERR("set key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len);
++					//set mic key
++					_rtw_memcpy(psecuritypriv->dot118021XGrptxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[16]), 8);
++					_rtw_memcpy(psecuritypriv->dot118021XGrprxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[24]), 8);
++
++					psecuritypriv->busetkipkey = _TRUE;
++											
++				}
++				else if(strcmp(param->u.crypt.alg, "CCMP") == 0)
++				{
++					psecuritypriv->dot118021XGrpPrivacy = _AES_;
++
++					_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++				}
++				else
++				{
++					psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++				}
++
++				psecuritypriv->dot118021XGrpKeyid = param->u.crypt.idx;
++
++				psecuritypriv->binstallGrpkey = _TRUE;	
++								
++				psecuritypriv->dot11PrivacyAlgrthm = psecuritypriv->dot118021XGrpPrivacy;//!!!
++								
++				set_group_key(padapter, param->u.crypt.key, psecuritypriv->dot118021XGrpPrivacy, param->u.crypt.idx);
++			
++				pbcmc_sta=rtw_get_bcmc_stainfo(padapter);
++				if(pbcmc_sta)
++				{
++					pbcmc_sta->ieee8021x_blocked = _FALSE;
++					pbcmc_sta->dot118021XPrivacy= psecuritypriv->dot118021XGrpPrivacy;//rx will use bmc_sta's dot118021XPrivacy			
++				}					
++
++			}
++			
++		}
++				
++	}
++
++exit:
++
++	return ret;
++	
++}
++#endif
++
++static int rtw_cfg80211_set_encryption(struct net_device *dev, struct ieee_param *param, u32 param_len)
++{
++	int ret = 0;
++	u32 wep_key_idx, wep_key_len,wep_total_len;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv 	*pmlmepriv = &padapter->mlmepriv;		
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info* pwdinfo = &padapter->wdinfo;
++#endif //CONFIG_P2P
++
++_func_enter_;
++
++	DBG_8192C("%s\n", __func__);
++
++	param->u.crypt.err = 0;
++	param->u.crypt.alg[IEEE_CRYPT_ALG_NAME_LEN - 1] = '\0';
++
++	if (param_len < (u32) ((u8 *) param->u.crypt.key - (u8 *) param) + param->u.crypt.key_len)
++	{
++		ret =  -EINVAL;		
++		goto exit;
++	}
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff) 
++	{
++		if (param->u.crypt.idx >= WEP_KEYS
++#ifdef CONFIG_IEEE80211W
++			&& param->u.crypt.idx > BIP_MAX_KEYID
++#endif //CONFIG_IEEE80211W
++		)
++		{
++			ret = -EINVAL;
++			goto exit;
++		}
++	} else {
++		ret = -EINVAL;		
++		goto exit;
++	}
++
++	if (strcmp(param->u.crypt.alg, "WEP") == 0)
++	{
++		RT_TRACE(_module_rtl871x_ioctl_os_c,_drv_err_,("wpa_set_encryption, crypt.alg = WEP\n"));
++		DBG_8192C("wpa_set_encryption, crypt.alg = WEP\n");
++
++		wep_key_idx = param->u.crypt.idx;
++		wep_key_len = param->u.crypt.key_len;
++
++		if ((wep_key_idx > WEP_KEYS) || (wep_key_len <= 0))
++		{
++			ret = -EINVAL;
++			goto exit;
++		}
++
++		if (psecuritypriv->bWepDefaultKeyIdxSet == 0)
++		{
++			//wep default key has not been set, so use this key index as default key.
++
++			wep_key_len = wep_key_len <= 5 ? 5 : 13;
++
++              	psecuritypriv->ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			psecuritypriv->dot11PrivacyAlgrthm = _WEP40_;
++			psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++
++			if(wep_key_len==13)
++			{
++				psecuritypriv->dot11PrivacyAlgrthm = _WEP104_;
++				psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++			}
++
++			psecuritypriv->dot11PrivacyKeyIndex = wep_key_idx;
++		}
++			
++		_rtw_memcpy(&(psecuritypriv->dot11DefKey[wep_key_idx].skey[0]), param->u.crypt.key, wep_key_len);
++			
++		psecuritypriv->dot11DefKeylen[wep_key_idx] = wep_key_len;
++			
++		rtw_set_key(padapter, psecuritypriv, wep_key_idx, 0);
++
++		goto exit;		
++	}
++
++	if(padapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X) // 802_1x
++	{
++		struct sta_info * psta,*pbcmc_sta;
++		struct sta_priv * pstapriv = &padapter->stapriv;
++
++		//DBG_8192C("%s, : dot11AuthAlgrthm == dot11AuthAlgrthm_8021X \n", __func__);
++
++		if (check_fwstate(pmlmepriv, WIFI_STATION_STATE | WIFI_MP_STATE) == _TRUE) //sta mode
++		{
++			psta = rtw_get_stainfo(pstapriv, get_bssid(pmlmepriv));				
++			if (psta == NULL) {
++				//DEBUG_ERR( ("Set wpa_set_encryption: Obtain Sta_info fail \n"));
++				DBG_8192C("%s, : Obtain Sta_info fail \n", __func__);
++			}
++			else
++			{
++				//Jeff: don't disable ieee8021x_blocked while clearing key
++				if (strcmp(param->u.crypt.alg, "none") != 0) 
++					psta->ieee8021x_blocked = _FALSE;
++
++				
++				if((padapter->securitypriv.ndisencryptstatus == Ndis802_11Encryption2Enabled)||
++						(padapter->securitypriv.ndisencryptstatus ==  Ndis802_11Encryption3Enabled))
++				{
++					psta->dot118021XPrivacy = padapter->securitypriv.dot11PrivacyAlgrthm;
++				}		
++
++				if(param->u.crypt.set_tx ==1)//pairwise key
++				{ 
++
++					DBG_8192C("%s, : param->u.crypt.set_tx ==1 \n", __func__);
++					
++					_rtw_memcpy(psta->dot118021x_UncstKey.skey,  param->u.crypt.key, (param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++					
++					if(strcmp(param->u.crypt.alg, "TKIP") == 0)//set mic key
++					{						
++						//DEBUG_ERR(("\nset key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len));
++						_rtw_memcpy(psta->dot11tkiptxmickey.skey, &(param->u.crypt.key[16]), 8);
++						_rtw_memcpy(psta->dot11tkiprxmickey.skey, &(param->u.crypt.key[24]), 8);
++
++						padapter->securitypriv.busetkipkey=_FALSE;
++						//_set_timer(&padapter->securitypriv.tkip_timer, 50);						
++					}
++
++					//DEBUG_ERR((" param->u.crypt.key_len=%d\n",param->u.crypt.key_len));
++					DBG_871X(" ~~~~set sta key:unicastkey\n");
++					
++					rtw_setstakey_cmd(padapter, (unsigned char *)psta, _TRUE);
++				}
++				else//group key
++				{
++					if(strcmp(param->u.crypt.alg, "TKIP") == 0 || strcmp(param->u.crypt.alg, "CCMP") == 0)
++					{
++						_rtw_memcpy(padapter->securitypriv.dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key,(param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++						_rtw_memcpy(padapter->securitypriv.dot118021XGrptxmickey[param->u.crypt.idx].skey,&(param->u.crypt.key[16]),8);
++						_rtw_memcpy(padapter->securitypriv.dot118021XGrprxmickey[param->u.crypt.idx].skey,&(param->u.crypt.key[24]),8);
++	                                        padapter->securitypriv.binstallGrpkey = _TRUE;	
++						//DEBUG_ERR((" param->u.crypt.key_len=%d\n", param->u.crypt.key_len));
++						DBG_871X(" ~~~~set sta key:groupkey\n");
++	
++						padapter->securitypriv.dot118021XGrpKeyid = param->u.crypt.idx;
++	
++						rtw_set_key(padapter,&padapter->securitypriv,param->u.crypt.idx, 1);
++					}
++#ifdef CONFIG_IEEE80211W
++					else if(strcmp(param->u.crypt.alg, "BIP") == 0)
++					{
++						int no;
++						//DBG_871X("BIP key_len=%d , index=%d @@@@@@@@@@@@@@@@@@\n", param->u.crypt.key_len, param->u.crypt.idx);
++						//save the IGTK key, length 16 bytes
++						_rtw_memcpy(padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey,  param->u.crypt.key,(param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++						/*DBG_871X("IGTK key below:\n");
++						for(no=0;no<16;no++)
++							printk(" %02x ", padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey[no]);
++						DBG_871X("\n");*/
++						padapter->securitypriv.dot11wBIPKeyid = param->u.crypt.idx;
++						padapter->securitypriv.binstallBIPkey = _TRUE;
++						DBG_871X(" ~~~~set sta key:IGKT\n");
++					}
++#endif //CONFIG_IEEE80211W
++					
++#ifdef CONFIG_P2P
++					if(pwdinfo->driver_interface == DRIVER_CFG80211 )
++					{
++						if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_PROVISIONING_ING))
++						{
++							rtw_p2p_set_state(pwdinfo, P2P_STATE_PROVISIONING_DONE);
++						}
++					}
++#endif //CONFIG_P2P
++					
++				}						
++			}
++
++			pbcmc_sta=rtw_get_bcmc_stainfo(padapter);
++			if(pbcmc_sta==NULL)
++			{
++				//DEBUG_ERR( ("Set OID_802_11_ADD_KEY: bcmc stainfo is null \n"));
++			}
++			else
++			{
++				//Jeff: don't disable ieee8021x_blocked while clearing key
++				if (strcmp(param->u.crypt.alg, "none") != 0) 
++					pbcmc_sta->ieee8021x_blocked = _FALSE;
++				
++				if((padapter->securitypriv.ndisencryptstatus == Ndis802_11Encryption2Enabled)||
++						(padapter->securitypriv.ndisencryptstatus ==  Ndis802_11Encryption3Enabled))
++				{							
++					pbcmc_sta->dot118021XPrivacy = padapter->securitypriv.dot11PrivacyAlgrthm;
++				}					
++			}				
++		}
++		else if(check_fwstate(pmlmepriv, WIFI_ADHOC_STATE)) //adhoc mode
++		{		
++		}			
++	}
++
++exit:
++
++	DBG_8192C("%s, ret=%d\n", __func__, ret);
++	
++	_func_exit_;
++	
++	return ret;	
++}
++
++static int cfg80211_rtw_add_key(struct wiphy *wiphy, struct net_device *ndev,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE)
++				u8 key_index, bool pairwise, const u8 *mac_addr,
++#else	// (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37))
++				u8 key_index, const u8 *mac_addr,
++#endif	// (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37))
++				struct key_params *params)
++{
++	char *alg_name;
++	u32 param_len;
++	struct ieee_param *param = NULL;	
++	int ret=0;
++	struct wireless_dev *rtw_wdev = wiphy_to_wdev(wiphy);
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	
++	DBG_871X(FUNC_NDEV_FMT" adding key for %pM\n", FUNC_NDEV_ARG(ndev), mac_addr);
++	DBG_871X("cipher=0x%x\n", params->cipher);
++	DBG_871X("key_len=0x%x\n", params->key_len);
++	DBG_871X("seq_len=0x%x\n", params->seq_len);
++	DBG_871X("key_index=%d\n", key_index);
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE)
++	DBG_871X("pairwise=%d\n", pairwise);
++#endif	// (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37))
++
++	param_len = sizeof(struct ieee_param) + params->key_len;
++	param = (struct ieee_param *)rtw_malloc(param_len);
++	if (param == NULL)
++		return -1;
++	
++	_rtw_memset(param, 0, param_len);
++
++	param->cmd = IEEE_CMD_SET_ENCRYPTION;
++	_rtw_memset(param->sta_addr, 0xff, ETH_ALEN);
++
++	switch (params->cipher) {
++	case IW_AUTH_CIPHER_NONE:
++		//todo: remove key 
++		//remove = 1;	
++		alg_name = "none";
++		break;
++	case WLAN_CIPHER_SUITE_WEP40:
++	case WLAN_CIPHER_SUITE_WEP104:
++		alg_name = "WEP";
++		break;
++	case WLAN_CIPHER_SUITE_TKIP:
++		alg_name = "TKIP";
++		break;
++	case WLAN_CIPHER_SUITE_CCMP:
++		alg_name = "CCMP";
++		break;
++#ifdef CONFIG_IEEE80211W
++	case WLAN_CIPHER_SUITE_AES_CMAC:
++		alg_name = "BIP";
++		break;
++#endif //CONFIG_IEEE80211W
++	default:	
++		return -ENOTSUPP;
++	}
++	
++	strncpy((char *)param->u.crypt.alg, alg_name, IEEE_CRYPT_ALG_NAME_LEN);
++	
++
++	if (!mac_addr || is_broadcast_ether_addr(mac_addr))
++	{
++		param->u.crypt.set_tx = 0; //for wpa/wpa2 group key
++	} else {
++		param->u.crypt.set_tx = 1; //for wpa/wpa2 pairwise key
++	}
++	
++	
++	//param->u.crypt.idx = key_index - 1;
++	param->u.crypt.idx = key_index;
++	
++	if (params->seq_len && params->seq) 
++	{	
++		_rtw_memcpy(param->u.crypt.seq, params->seq, params->seq_len);
++	}
++
++	if(params->key_len && params->key)
++	{
++		param->u.crypt.key_len = params->key_len;		
++		_rtw_memcpy(param->u.crypt.key, params->key, params->key_len);
++	}	
++
++	if(check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++	{
++		ret =  rtw_cfg80211_set_encryption(ndev, param, param_len);	
++	}
++	else if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++	{
++#ifdef CONFIG_AP_MODE
++		if(mac_addr)
++			_rtw_memcpy(param->sta_addr, (void*)mac_addr, ETH_ALEN);
++	
++		ret = rtw_cfg80211_ap_set_encryption(ndev, param, param_len);
++#endif
++	}
++	else
++	{
++		DBG_8192C("error! fw_state=0x%x, iftype=%d\n", pmlmepriv->fw_state, rtw_wdev->iftype);
++		
++	}
++
++	if(param)
++	{
++		rtw_mfree((u8*)param, param_len);
++	}
++
++	return ret;
++
++}
++
++static int cfg80211_rtw_get_key(struct wiphy *wiphy, struct net_device *ndev,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE)
++				u8 key_index, bool pairwise, const u8 *mac_addr,
++#else	// (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37))
++				u8 key_index, const u8 *mac_addr,
++#endif	// (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37))
++				void *cookie,
++				void (*callback)(void *cookie,
++						 struct key_params*))
++{
++#if 0
++	struct iwm_priv *iwm = ndev_to_iwm(ndev);
++	struct iwm_key *key = &iwm->keys[key_index];
++	struct key_params params;
++
++	IWM_DBG_WEXT(iwm, DBG, "Getting key %d\n", key_index);
++
++	memset(&params, 0, sizeof(params));
++
++	params.cipher = key->cipher;
++	params.key_len = key->key_len;
++	params.seq_len = key->seq_len;
++	params.seq = key->seq;
++	params.key = key->key;
++
++	callback(cookie, &params);
++
++	return key->key_len ? 0 : -ENOENT;
++#endif
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++	return 0;
++}
++
++static int cfg80211_rtw_del_key(struct wiphy *wiphy, struct net_device *ndev,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE)
++				u8 key_index, bool pairwise, const u8 *mac_addr)
++#else	// (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37))
++				u8 key_index, const u8 *mac_addr)
++#endif	// (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37))
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);		
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++
++	DBG_871X(FUNC_NDEV_FMT" key_index=%d\n", FUNC_NDEV_ARG(ndev), key_index);
++
++	if (key_index == psecuritypriv->dot11PrivacyKeyIndex)
++	{
++		//clear the flag of wep default key set.
++		psecuritypriv->bWepDefaultKeyIdxSet = 0;
++	}
++
++	return 0;
++}
++
++static int cfg80211_rtw_set_default_key(struct wiphy *wiphy,
++	struct net_device *ndev, u8 key_index
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,38)) || defined(COMPAT_KERNEL_RELEASE)
++	, bool unicast, bool multicast
++	#endif
++	)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);		
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++
++		DBG_871X(FUNC_NDEV_FMT" key_index=%d"
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,38)) || defined(COMPAT_KERNEL_RELEASE)
++		", unicast=%d, multicast=%d"
++		#endif
++		".\n", FUNC_NDEV_ARG(ndev), key_index
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,38)) || defined(COMPAT_KERNEL_RELEASE)
++		, unicast, multicast
++		#endif
++		);
++
++	if ((key_index < WEP_KEYS) && ((psecuritypriv->dot11PrivacyAlgrthm == _WEP40_) || (psecuritypriv->dot11PrivacyAlgrthm == _WEP104_))) //set wep default key
++	{
++		psecuritypriv->ndisencryptstatus = Ndis802_11Encryption1Enabled;
++
++		psecuritypriv->dot11PrivacyKeyIndex = key_index;
++
++		psecuritypriv->dot11PrivacyAlgrthm = _WEP40_;
++		psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++		if (psecuritypriv->dot11DefKeylen[key_index] == 13)
++		{
++			psecuritypriv->dot11PrivacyAlgrthm = _WEP104_;
++			psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++		}
++
++		psecuritypriv->bWepDefaultKeyIdxSet = 1; //set the flag to represent that wep default key has been set
++	}
++
++	return 0;
++
++}
++
++static int cfg80211_rtw_get_station(struct wiphy *wiphy,
++				    struct net_device *ndev,
++				    u8 *mac, struct station_info *sinfo)
++{
++	int ret = 0;
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct sta_info *psta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	sinfo->filled = 0;
++
++	if (!mac) {
++		DBG_871X(FUNC_NDEV_FMT" mac==%p\n", FUNC_NDEV_ARG(ndev), mac);
++		ret = -ENOENT;
++		goto exit;
++	}
++
++	psta = rtw_get_stainfo(pstapriv, mac);
++	if (psta == NULL) {
++		DBG_8192C("%s, sta_info is null\n", __func__);
++		ret = -ENOENT;
++		goto exit;
++	}
++
++#ifdef CONFIG_DEBUG_CFG80211
++	DBG_871X(FUNC_NDEV_FMT" mac="MAC_FMT"\n", FUNC_NDEV_ARG(ndev), MAC_ARG(mac));
++#endif
++
++	//for infra./P2PClient mode
++	if(	check_fwstate(pmlmepriv, WIFI_STATION_STATE)
++		&& check_fwstate(pmlmepriv, _FW_LINKED)
++	)
++	{
++		struct wlan_network  *cur_network = &(pmlmepriv->cur_network);
++
++		if (_rtw_memcmp(mac, cur_network->network.MacAddress, ETH_ALEN) == _FALSE) {
++			DBG_871X("%s, mismatch bssid="MAC_FMT"\n", __func__, MAC_ARG(cur_network->network.MacAddress));
++			ret = -ENOENT;
++			goto exit;
++		}
++
++		sinfo->filled |= STATION_INFO_SIGNAL;
++		sinfo->signal = translate_percentage_to_dbm(padapter->recvpriv.signal_strength);
++
++		sinfo->filled |= STATION_INFO_TX_BITRATE;
++		sinfo->txrate.legacy = rtw_get_cur_max_rate(padapter);
++
++		sinfo->filled |= STATION_INFO_RX_PACKETS;
++		sinfo->rx_packets = sta_rx_data_pkts(psta);
++
++		sinfo->filled |= STATION_INFO_TX_PACKETS;
++		sinfo->tx_packets = psta->sta_stats.tx_pkts;
++
++	}
++
++	//for Ad-Hoc/AP mode
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_STATE)
++			||check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE)
++			||check_fwstate(pmlmepriv, WIFI_AP_STATE))
++		&& check_fwstate(pmlmepriv, _FW_LINKED)
++	)
++	{
++		//TODO: should acquire station info...
++	}
++
++exit:
++	return ret;
++}
++
++extern int netdev_open(struct net_device *pnetdev);
++#ifdef CONFIG_CONCURRENT_MODE
++extern int netdev_if2_open(struct net_device *pnetdev);
++#endif
++
++/*
++enum nl80211_iftype {
++	NL80211_IFTYPE_UNSPECIFIED,
++       NL80211_IFTYPE_ADHOC, //1
++       NL80211_IFTYPE_STATION, //2
++       NL80211_IFTYPE_AP, //3
++       NL80211_IFTYPE_AP_VLAN,
++       NL80211_IFTYPE_WDS,
++       NL80211_IFTYPE_MONITOR, //6
++       NL80211_IFTYPE_MESH_POINT,
++       NL80211_IFTYPE_P2P_CLIENT, //8
++	NL80211_IFTYPE_P2P_GO, //9
++       //keep last 
++       NUM_NL80211_IFTYPES,
++       NL80211_IFTYPE_MAX = NUM_NL80211_IFTYPES - 1
++};
++*/
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(4, 12, 0)
++static int cfg80211_rtw_change_iface(struct wiphy *wiphy,
++				     struct net_device *ndev,
++				     enum nl80211_iftype type,
++				     struct vif_params *params)
++#else
++static int cfg80211_rtw_change_iface(struct wiphy *wiphy,
++				     struct net_device *ndev,
++				     enum nl80211_iftype type, u32 *flags,
++				     struct vif_params *params)
++#endif
++{
++	enum nl80211_iftype old_type;
++	NDIS_802_11_NETWORK_INFRASTRUCTURE networkType ;
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct wireless_dev *rtw_wdev = wiphy_to_wdev(wiphy);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_irqL irqL;
++	_queue *queue = &pmlmepriv->scanned_queue;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++#endif
++	int ret = 0;
++	u8 change = _FALSE;
++
++	if (adapter_to_dvobj(padapter)->processing_dev_remove == _TRUE) {
++		ret= -EPERM;
++		goto exit;
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if(padapter->adapter_type == SECONDARY_ADAPTER)
++	{
++		DBG_871X(FUNC_NDEV_FMT" call netdev_if2_open\n", FUNC_NDEV_ARG(ndev));
++		if(netdev_if2_open(ndev) != 0) {
++			ret= -EPERM;
++			goto exit;
++		}
++	}
++	else if(padapter->adapter_type == PRIMARY_ADAPTER)
++#endif //CONFIG_CONCURRENT_MODE
++	{
++		DBG_871X(FUNC_NDEV_FMT" call netdev_open\n", FUNC_NDEV_ARG(ndev));
++		if(netdev_open(ndev) != 0) {
++			ret= -EPERM;
++			goto exit;
++		}
++	}
++
++	if(_FAIL == rtw_pwr_wakeup(padapter)) {
++		ret= -EPERM;
++		goto exit;
++	}
++
++	old_type = rtw_wdev->iftype;
++	DBG_871X(FUNC_NDEV_FMT" old_iftype=%d, new_iftype=%d\n",
++		FUNC_NDEV_ARG(ndev), old_type, type);
++
++	if(old_type != type)
++	{
++		change = _TRUE;
++		pmlmeext->action_public_rxseq = 0xffff;
++		pmlmeext->action_public_dialog_token = 0xff;
++	}	
++		
++	switch (type) {
++	case NL80211_IFTYPE_ADHOC:
++		networkType = Ndis802_11IBSS;
++		break;
++#if defined(CONFIG_P2P) && ((LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE))
++	case NL80211_IFTYPE_P2P_CLIENT:
++#endif
++	case NL80211_IFTYPE_STATION:
++		networkType = Ndis802_11Infrastructure;
++		#ifdef CONFIG_P2P
++		if(pwdinfo->driver_interface == DRIVER_CFG80211 )
++		{
++			if(change && rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++			{
++				_cancel_timer_ex( &pwdinfo->find_phase_timer );
++				_cancel_timer_ex( &pwdinfo->restore_p2p_state_timer );
++				_cancel_timer_ex( &pwdinfo->pre_tx_scan_timer);
++
++				//it means remove GO and change mode from AP(GO) to station(P2P DEVICE)
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++				rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++
++				DBG_8192C("%s, role=%d, p2p_state=%d, pre_p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo), rtw_p2p_pre_state(pwdinfo));
++			}
++		}
++		#endif //CONFIG_P2P
++		break;
++#if defined(CONFIG_P2P) && ((LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE))
++	case NL80211_IFTYPE_P2P_GO:
++#endif
++	case NL80211_IFTYPE_AP:
++		networkType = Ndis802_11APMode;
++		#ifdef CONFIG_P2P
++		if(pwdinfo->driver_interface == DRIVER_CFG80211 )
++		{
++			if(change && !rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++			{
++				//it means P2P Group created, we will be GO and change mode from  P2P DEVICE to AP(GO)
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++			}
++		}
++		#endif //CONFIG_P2P
++		break;		
++	default:
++		return -EOPNOTSUPP;
++	}
++
++	rtw_wdev->iftype = type;
++	
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	_enter_critical_bh(&queue->lock, &irqL);
++	
++	if (rtw_set_802_11_infrastructure_mode(padapter, networkType) ==_FALSE)
++	{
++		rtw_wdev->iftype = old_type;
++		ret = -EPERM;
++		_exit_critical_bh(&queue->lock, &irqL);
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++		goto exit;
++	}
++	_exit_critical_bh(&queue->lock, &irqL);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++	rtw_setopmode_cmd(padapter, networkType);	
++	
++exit:
++
++	return ret;
++}
++
++void rtw_cfg80211_indicate_scan_done(struct rtw_wdev_priv *pwdev_priv, bool aborted)
++{
++	_irqL	irqL;
++
++	_enter_critical_bh(&pwdev_priv->scan_req_lock, &irqL);
++	if(pwdev_priv->scan_request != NULL)
++	{
++		//struct cfg80211_scan_request *scan_request = pwdev_priv->scan_request;
++	
++		#ifdef CONFIG_DEBUG_CFG80211
++		DBG_871X("%s with scan req\n", __FUNCTION__);	
++		#endif
++
++		//avoid WARN_ON(request != wiphy_to_dev(request->wiphy)->scan_req);
++		//if(scan_request == wiphy_to_dev(scan_request->wiphy)->scan_req)
++		if(pwdev_priv->scan_request->wiphy != pwdev_priv->rtw_wdev->wiphy)
++		{
++			DBG_8192C("error wiphy compare\n");
++		}
++		else
++		{
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(4,8,0)
++			struct cfg80211_scan_info info = {
++				.aborted = aborted
++			};
++			cfg80211_scan_done(pwdev_priv->scan_request, &info);
++#else			
++			cfg80211_scan_done(pwdev_priv->scan_request, aborted);
++#endif
++		}
++
++		pwdev_priv->scan_request = NULL;
++		
++	} else {
++		#ifdef CONFIG_DEBUG_CFG80211
++		DBG_871X("%s without scan req\n", __FUNCTION__);
++		#endif
++	}
++	_exit_critical_bh(&pwdev_priv->scan_req_lock, &irqL);
++}
++
++void rtw_cfg80211_surveydone_event_callback(_adapter *padapter)
++{
++	_irqL	irqL;
++	_list					*plist, *phead;	
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);	
++	_queue				*queue	= &(pmlmepriv->scanned_queue);	
++	struct	wlan_network	*pnetwork = NULL;
++	u32 cnt=0;
++	u32 wait_for_surveydone;
++	sint wait_status;
++#ifdef CONFIG_P2P
++	struct	wifidirect_info*	pwdinfo = &padapter->wdinfo;
++#endif //CONFIG_P2P
++	struct rtw_wdev_priv *pwdev_priv = wdev_to_priv(padapter->rtw_wdev);
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++
++#ifdef CONFIG_DEBUG_CFG80211
++	DBG_8192C("%s\n", __func__);
++#endif
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++       
++	while(1)
++	{
++		if (rtw_end_of_queue_search(phead,plist)== _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		//report network only if the current channel set contains the channel to which this network belongs
++		if(rtw_ch_set_search_ch(padapter->mlmeextpriv.channel_set, pnetwork->network.Configuration.DSConfig) >= 0
++			&& rtw_mlme_band_check(padapter, pnetwork->network.Configuration.DSConfig) == _TRUE
++			&& _TRUE == rtw_validate_ssid(&(pnetwork->network.Ssid))
++		)
++		{		
++			//ev=translate_scan(padapter, a, pnetwork, ev, stop);
++			rtw_cfg80211_inform_bss(padapter, pnetwork);		
++		}
++
++		plist = get_next(plist);
++	
++	}
++	
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++	
++	//call this after other things have been done
++	rtw_cfg80211_indicate_scan_done(wdev_to_priv(padapter->rtw_wdev), _FALSE);
++}
++
++static int rtw_cfg80211_set_probe_req_wpsp2pie(_adapter *padapter, char *buf, int len)
++{
++	int ret = 0;
++	uint wps_ielen = 0;
++	u8 *wps_ie;
++	u32	p2p_ielen = 0;	
++	u8 *p2p_ie;
++	u32	wfd_ielen = 0;	
++	u8 *wfd_ie;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);	
++
++#ifdef CONFIG_DEBUG_CFG80211
++	DBG_8192C("%s, ielen=%d\n", __func__, len);
++#endif
++	
++	if(len>0)
++	{
++		if((wps_ie = rtw_get_wps_ie(buf, len, NULL, &wps_ielen)))
++		{
++			#ifdef CONFIG_DEBUG_CFG80211
++			DBG_8192C("probe_req_wps_ielen=%d\n", wps_ielen);
++			#endif
++			
++			if(pmlmepriv->wps_probe_req_ie)
++			{
++				u32 free_len = pmlmepriv->wps_probe_req_ie_len;
++				pmlmepriv->wps_probe_req_ie_len = 0;
++				rtw_mfree(pmlmepriv->wps_probe_req_ie, free_len);
++				pmlmepriv->wps_probe_req_ie = NULL;			
++			}	
++
++			pmlmepriv->wps_probe_req_ie = rtw_malloc(wps_ielen);
++			if ( pmlmepriv->wps_probe_req_ie == NULL) {
++				DBG_8192C("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				return -EINVAL;
++			
++			}
++			_rtw_memcpy(pmlmepriv->wps_probe_req_ie, wps_ie, wps_ielen);
++			pmlmepriv->wps_probe_req_ie_len = wps_ielen;
++		}
++
++		//buf += wps_ielen;
++		//len -= wps_ielen;
++
++		#ifdef CONFIG_P2P
++		if((p2p_ie=rtw_get_p2p_ie(buf, len, NULL, &p2p_ielen))) 
++		{
++			struct wifidirect_info *wdinfo = &padapter->wdinfo;
++			u32 attr_contentlen = 0;
++			u8 listen_ch_attr[5];
++
++			#ifdef CONFIG_DEBUG_CFG80211
++			DBG_8192C("probe_req_p2p_ielen=%d\n", p2p_ielen);
++			#endif
++			
++			if(pmlmepriv->p2p_probe_req_ie)
++			{
++				u32 free_len = pmlmepriv->p2p_probe_req_ie_len;
++				pmlmepriv->p2p_probe_req_ie_len = 0;
++				rtw_mfree(pmlmepriv->p2p_probe_req_ie, free_len);
++				pmlmepriv->p2p_probe_req_ie = NULL;
++			}	
++
++			pmlmepriv->p2p_probe_req_ie = rtw_malloc(p2p_ielen);
++			if ( pmlmepriv->p2p_probe_req_ie == NULL) {
++				DBG_8192C("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				return -EINVAL;
++			
++			}
++			_rtw_memcpy(pmlmepriv->p2p_probe_req_ie, p2p_ie, p2p_ielen);
++			pmlmepriv->p2p_probe_req_ie_len = p2p_ielen;
++
++			if(rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_LISTEN_CH, (u8*)listen_ch_attr, (uint*) &attr_contentlen)
++				&& attr_contentlen == 5)
++			{
++				if (wdinfo->listen_channel !=  listen_ch_attr[4]) {
++					DBG_871X(FUNC_ADPT_FMT" listen channel - country:%c%c%c, class:%u, ch:%u\n",
++						FUNC_ADPT_ARG(padapter), listen_ch_attr[0], listen_ch_attr[1], listen_ch_attr[2],
++						listen_ch_attr[3], listen_ch_attr[4]);
++					wdinfo->listen_channel = listen_ch_attr[4];
++				}
++			}
++		}
++		#endif //CONFIG_P2P
++		
++		//buf += p2p_ielen;
++		//len -= p2p_ielen;
++
++		#ifdef CONFIG_WFD
++		if(rtw_get_wfd_ie(buf, len, NULL, &wfd_ielen)) 
++		{
++			#ifdef CONFIG_DEBUG_CFG80211
++			DBG_8192C("probe_req_wfd_ielen=%d\n", wfd_ielen);
++			#endif
++			
++			if(pmlmepriv->wfd_probe_req_ie)
++			{
++				u32 free_len = pmlmepriv->wfd_probe_req_ie_len;
++				pmlmepriv->wfd_probe_req_ie_len = 0;
++				rtw_mfree(pmlmepriv->wfd_probe_req_ie, free_len);
++				pmlmepriv->wfd_probe_req_ie = NULL;
++			}	
++
++			pmlmepriv->wfd_probe_req_ie = rtw_malloc(wfd_ielen);
++			if ( pmlmepriv->wfd_probe_req_ie == NULL) {
++				DBG_8192C("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				return -EINVAL;
++			
++			}
++			rtw_get_wfd_ie(buf, len, pmlmepriv->wfd_probe_req_ie, &pmlmepriv->wfd_probe_req_ie_len);			
++		}
++		#endif //CONFIG_WFD
++		
++	}
++
++	return ret;
++	
++}
++
++static int cfg80211_rtw_scan(struct wiphy *wiphy
++	#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 6, 0))
++	, struct net_device *ndev
++	#endif
++	, struct cfg80211_scan_request *request)
++{
++	int i;
++	u8 _status = _FALSE;
++	int ret = 0;	
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++	struct mlme_priv *pmlmepriv= &padapter->mlmepriv;
++	NDIS_802_11_SSID ssid[RTW_SSID_SCAN_AMOUNT];
++	struct rtw_ieee80211_channel ch[RTW_CHANNEL_SCAN_AMOUNT];
++	_irqL	irqL;
++	u8 *wps_ie=NULL;
++	uint wps_ielen=0;	
++	u8 *p2p_ie=NULL;
++	uint p2p_ielen=0;
++	u8 survey_times=3;
++	u8 survey_times_for_one_ch=6;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);	
++#endif //CONFIG_P2P
++	struct rtw_wdev_priv *pwdev_priv = wdev_to_priv(padapter->rtw_wdev);
++	struct cfg80211_ssid *ssids = request->ssids;
++	int social_channel = 0, j = 0;
++	bool need_indicate_scan_done = _FALSE;
++#ifdef CONFIG_CONCURRENT_MODE	
++	PADAPTER pbuddy_adapter = NULL;
++	struct mlme_priv *pbuddy_mlmepriv = NULL;
++#endif //CONFIG_CONCURRENT_MODE
++
++//#ifdef CONFIG_DEBUG_CFG80211
++	DBG_871X(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++//#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->pbuddy_adapter) {
++		pbuddy_adapter = padapter->pbuddy_adapter;
++		pbuddy_mlmepriv = &(pbuddy_adapter->mlmepriv);	
++	}
++#endif //CONFIG_CONCURRENT_MODE
++
++#ifdef CONFIG_MP_INCLUDED
++	if (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE)
++	{
++		ret = -EPERM;
++		goto exit;
++	}
++#endif
++
++	_enter_critical_bh(&pwdev_priv->scan_req_lock, &irqL);
++	pwdev_priv->scan_request = request;
++	_exit_critical_bh(&pwdev_priv->scan_req_lock, &irqL);
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++	{
++#ifdef CONFIG_DEBUG_CFG80211
++		DBG_871X("%s under WIFI_AP_STATE\n", __FUNCTION__);
++#endif
++
++		if (check_fwstate(pmlmepriv, WIFI_UNDER_WPS|_FW_UNDER_SURVEY|_FW_UNDER_LINKING) == _TRUE)
++		{
++			DBG_8192C("%s, fwstate=0x%x\n", __func__, pmlmepriv->fw_state);
++
++			if(check_fwstate(pmlmepriv, WIFI_UNDER_WPS))
++			{
++				DBG_8192C("AP mode process WPS \n");
++			}
++
++			need_indicate_scan_done = _TRUE;
++			goto check_need_indicate_scan_done;
++		}
++	}
++
++	if(_FAIL == rtw_pwr_wakeup(padapter)) {
++		need_indicate_scan_done = _TRUE;
++		goto check_need_indicate_scan_done;
++	}
++
++	#ifdef CONFIG_P2P
++	if( pwdinfo->driver_interface == DRIVER_CFG80211 )
++	{
++		if(ssids->ssid != NULL
++			&& _rtw_memcmp(ssids->ssid, "DIRECT-", 7)
++			&& rtw_get_p2p_ie((u8 *)request->ie, request->ie_len, NULL, NULL)
++		)
++		{
++			if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++			{
++				u32 initialgain = 0x30;
++				rtw_p2p_enable(padapter, P2P_ROLE_DEVICE);
++				wdev_to_priv(padapter->rtw_wdev)->p2p_enabled = _TRUE;
++				padapter->HalFunc.SetHwRegHandler(padapter, HW_VAR_INITIAL_GAIN, (u8 *)&(initialgain));
++				padapter->HalFunc.SetHwRegHandler(padapter, HW_VAR_INITIAL_GAIN, (u8 *)&(initialgain));
++			}
++			else
++			{
++				rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++				#ifdef CONFIG_DEBUG_CFG80211
++				DBG_8192C("%s, role=%d, p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo));
++				#endif
++			}
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_LISTEN);
++		
++			if(request->n_channels == 3 &&
++				request->channels[0]->hw_value == 1 &&
++				request->channels[1]->hw_value == 6 &&
++				request->channels[2]->hw_value == 11
++			)
++			{
++				social_channel = 1;
++			}
++		}
++	}
++	#endif //CONFIG_P2P
++
++	if(request->ie && request->ie_len>0)
++	{
++		rtw_cfg80211_set_probe_req_wpsp2pie(padapter, (u8 *)request->ie, request->ie_len );
++	}
++
++	if (pmlmepriv->LinkDetectInfo.bBusyTraffic == _TRUE)
++	{
++		DBG_8192C("%s, bBusyTraffic == _TRUE\n", __func__);
++		need_indicate_scan_done = _TRUE;
++		goto check_need_indicate_scan_done;
++	}
++	if (rtw_is_scan_deny(padapter)){
++		DBG_871X(FUNC_ADPT_FMT  ": scan deny\n", FUNC_ADPT_ARG(padapter));
++		need_indicate_scan_done = _TRUE;
++		goto check_need_indicate_scan_done;
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if(pbuddy_mlmepriv && (pbuddy_mlmepriv->LinkDetectInfo.bBusyTraffic == _TRUE))	
++	{
++		DBG_8192C("%s, bBusyTraffic == _TRUE at buddy_intf\n", __func__);
++		need_indicate_scan_done = _TRUE;
++		goto check_need_indicate_scan_done;
++	}
++#endif //CONFIG_CONCURRENT_MODE
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY|_FW_UNDER_LINKING) == _TRUE)
++	{
++		DBG_8192C("%s, fwstate=0x%x\n", __func__, pmlmepriv->fw_state);
++		need_indicate_scan_done = _TRUE;
++		goto check_need_indicate_scan_done;
++	} 
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (check_buddy_fwstate(padapter,
++		_FW_UNDER_SURVEY|_FW_UNDER_LINKING|WIFI_UNDER_WPS) == _TRUE)
++	{		
++		if(check_buddy_fwstate(padapter, _FW_UNDER_SURVEY))
++		{
++			DBG_8192C("scanning_via_buddy_intf\n");
++			pmlmepriv->scanning_via_buddy_intf = _TRUE;
++		}		
++
++		DBG_8192C("buddy_intf's mlme state:0x%x\n", pbuddy_mlmepriv->fw_state);
++		
++		need_indicate_scan_done = _TRUE;
++		goto check_need_indicate_scan_done;
++	}
++#endif
++
++
++#ifdef CONFIG_P2P
++	if( pwdinfo->driver_interface == DRIVER_CFG80211 )
++	{
++		if(!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE) && !rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE))
++		{
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH);
++			rtw_free_network_queue(padapter, _TRUE);
++
++			if(social_channel == 0)
++				rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_NONE);
++			else
++				rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_SOCIAL_LAST);
++		}
++	}
++#endif //CONFIG_P2P
++
++
++	_rtw_memset(ssid, 0, sizeof(NDIS_802_11_SSID)*RTW_SSID_SCAN_AMOUNT);
++	//parsing request ssids, n_ssids
++	for (i = 0; i < request->n_ssids && i < RTW_SSID_SCAN_AMOUNT; i++) {
++		#ifdef CONFIG_DEBUG_CFG80211
++		DBG_8192C("ssid=%s, len=%d\n", ssids[i].ssid, ssids[i].ssid_len);
++		#endif
++		_rtw_memcpy(ssid[i].Ssid, ssids[i].ssid, ssids[i].ssid_len);
++		ssid[i].SsidLength = ssids[i].ssid_len;	
++	}
++	
++
++	/* parsing channels, n_channels */
++	_rtw_memset(ch, 0, sizeof(struct rtw_ieee80211_channel)*RTW_CHANNEL_SCAN_AMOUNT);
++	for (i=0;i<request->n_channels && i<RTW_CHANNEL_SCAN_AMOUNT;i++) {
++		#ifdef CONFIG_DEBUG_CFG80211
++		DBG_871X(FUNC_ADPT_FMT CHAN_FMT"\n", FUNC_ADPT_ARG(padapter), CHAN_ARG(request->channels[i]));
++		#endif
++		ch[i].hw_value = request->channels[i]->hw_value;
++		ch[i].flags = request->channels[i]->flags;
++	}
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	if (request->n_channels == 1) {
++		for(i=1;i<survey_times_for_one_ch;i++)
++			_rtw_memcpy(&ch[i], &ch[0], sizeof(struct rtw_ieee80211_channel));
++		_status = rtw_sitesurvey_cmd(padapter, ssid, RTW_SSID_SCAN_AMOUNT, ch, survey_times_for_one_ch);
++	} else if (request->n_channels == 2) {
++		_rtw_memcpy(&ch[3], &ch[1], sizeof(struct rtw_ieee80211_channel));
++		for(i=1;i<survey_times;i++) {
++			_rtw_memcpy(&ch[i], &ch[0], sizeof(struct rtw_ieee80211_channel));
++			_rtw_memcpy(&ch[i+3], &ch[3], sizeof(struct rtw_ieee80211_channel));
++		}
++		_status = rtw_sitesurvey_cmd(padapter, ssid, RTW_SSID_SCAN_AMOUNT, ch, survey_times * 2);
++	} else {
++		_status = rtw_sitesurvey_cmd(padapter, ssid, RTW_SSID_SCAN_AMOUNT, NULL, 0);
++	}
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++	if(_status == _FALSE)
++	{
++		ret = -1;
++	}
++
++check_need_indicate_scan_done:
++	if(need_indicate_scan_done)
++		rtw_cfg80211_surveydone_event_callback(padapter);
++
++exit:
++
++	return ret;
++	
++}
++
++static int cfg80211_rtw_set_wiphy_params(struct wiphy *wiphy, u32 changed)
++{
++#if 0
++	struct iwm_priv *iwm = wiphy_to_iwm(wiphy);
++
++	if (changed & WIPHY_PARAM_RTS_THRESHOLD &&
++	    (iwm->conf.rts_threshold != wiphy->rts_threshold)) {
++		int ret;
++
++		iwm->conf.rts_threshold = wiphy->rts_threshold;
++
++		ret = iwm_umac_set_config_fix(iwm, UMAC_PARAM_TBL_CFG_FIX,
++					     CFG_RTS_THRESHOLD,
++					     iwm->conf.rts_threshold);
++		if (ret < 0)
++			return ret;
++	}
++
++	if (changed & WIPHY_PARAM_FRAG_THRESHOLD &&
++	    (iwm->conf.frag_threshold != wiphy->frag_threshold)) {
++		int ret;
++
++		iwm->conf.frag_threshold = wiphy->frag_threshold;
++
++		ret = iwm_umac_set_config_fix(iwm, UMAC_PARAM_TBL_FA_CFG_FIX,
++					     CFG_FRAG_THRESHOLD,
++					     iwm->conf.frag_threshold);
++		if (ret < 0)
++			return ret;
++	}
++#endif
++	DBG_8192C("%s\n", __func__);
++	return 0;
++}
++
++static int cfg80211_rtw_join_ibss(struct wiphy *wiphy, struct net_device *ndev,
++				  struct cfg80211_ibss_params *params)
++{
++#if 0
++	struct iwm_priv *iwm = wiphy_to_iwm(wiphy);
++	struct ieee80211_channel *chan = params->channel;
++
++	if (!test_bit(IWM_STATUS_READY, &iwm->status))
++		return -EIO;
++
++	/* UMAC doesn't support creating or joining an IBSS network
++	 * with specified bssid. */
++	if (params->bssid)
++		return -EOPNOTSUPP;
++
++	iwm->channel = ieee80211_frequency_to_channel(chan->center_freq);
++	iwm->umac_profile->ibss.band = chan->band;
++	iwm->umac_profile->ibss.channel = iwm->channel;
++	iwm->umac_profile->ssid.ssid_len = params->ssid_len;
++	memcpy(iwm->umac_profile->ssid.ssid, params->ssid, params->ssid_len);
++
++	return iwm_send_mlme_profile(iwm);
++#endif	
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++	return 0;
++}
++
++static int cfg80211_rtw_leave_ibss(struct wiphy *wiphy, struct net_device *ndev)
++{
++#if 0
++	struct iwm_priv *iwm = wiphy_to_iwm(wiphy);
++
++	if (iwm->umac_profile_active)
++		return iwm_invalidate_mlme_profile(iwm);
++#endif
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++	return 0;
++}
++
++static int rtw_cfg80211_set_wpa_version(struct security_priv *psecuritypriv, u32 wpa_version)
++{	
++	DBG_8192C("%s, wpa_version=%d\n", __func__, wpa_version);
++	
++	if (!wpa_version) {		
++		psecuritypriv->ndisauthtype = Ndis802_11AuthModeOpen;		
++		return 0;
++	}
++
++
++	if (wpa_version & (NL80211_WPA_VERSION_1 | NL80211_WPA_VERSION_2))
++	{		
++		psecuritypriv->ndisauthtype = Ndis802_11AuthModeWPAPSK;		
++	}
++
++/*
++	if (wpa_version & NL80211_WPA_VERSION_2)
++	{		
++		psecuritypriv->ndisauthtype = Ndis802_11AuthModeWPA2PSK;
++	}
++*/
++
++	return 0;
++
++}
++
++static int rtw_cfg80211_set_auth_type(struct security_priv *psecuritypriv,
++			     enum nl80211_auth_type sme_auth_type)
++{
++	DBG_8192C("%s, nl80211_auth_type=%d\n", __func__, sme_auth_type);
++
++
++	switch (sme_auth_type) {
++	case NL80211_AUTHTYPE_AUTOMATIC:
++
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++
++		break;
++	case NL80211_AUTHTYPE_OPEN_SYSTEM:
++	
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Open;
++
++		if(psecuritypriv->ndisauthtype>Ndis802_11AuthModeWPA)
++			psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++		
++		break;
++	case NL80211_AUTHTYPE_SHARED_KEY:
++
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Shared;
++
++		psecuritypriv->ndisencryptstatus = Ndis802_11Encryption1Enabled;
++
++
++		break;
++	default:		
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Open;
++		//return -ENOTSUPP;
++	}
++
++	return 0;
++
++}
++
++static int rtw_cfg80211_set_cipher(struct security_priv *psecuritypriv, u32 cipher, bool ucast)
++{
++	u32 ndisencryptstatus = Ndis802_11EncryptionDisabled;
++
++	u32 *profile_cipher = ucast ? &psecuritypriv->dot11PrivacyAlgrthm :
++		&psecuritypriv->dot118021XGrpPrivacy;
++
++	DBG_8192C("%s, ucast=%d, cipher=0x%x\n", __func__, ucast, cipher);
++
++
++	if (!cipher) {
++		*profile_cipher = _NO_PRIVACY_;
++		psecuritypriv->ndisencryptstatus = ndisencryptstatus;
++		return 0;
++	}
++	
++	switch (cipher) {
++	case IW_AUTH_CIPHER_NONE:
++		*profile_cipher = _NO_PRIVACY_;
++		ndisencryptstatus = Ndis802_11EncryptionDisabled;
++		break;
++	case WLAN_CIPHER_SUITE_WEP40:
++		*profile_cipher = _WEP40_;
++		ndisencryptstatus = Ndis802_11Encryption1Enabled;
++		break;
++	case WLAN_CIPHER_SUITE_WEP104:
++		*profile_cipher = _WEP104_;
++		ndisencryptstatus = Ndis802_11Encryption1Enabled;
++		break;
++	case WLAN_CIPHER_SUITE_TKIP:
++		*profile_cipher = _TKIP_;
++		ndisencryptstatus = Ndis802_11Encryption2Enabled;
++		break;
++	case WLAN_CIPHER_SUITE_CCMP:
++		*profile_cipher = _AES_;
++		ndisencryptstatus = Ndis802_11Encryption3Enabled;
++		break;
++	default:
++		DBG_8192C("Unsupported cipher: 0x%x\n", cipher);
++		return -ENOTSUPP;
++	}
++
++	if(ucast)
++	{
++		psecuritypriv->ndisencryptstatus = ndisencryptstatus;
++		
++		//if(psecuritypriv->dot11PrivacyAlgrthm >= _AES_)
++		//	psecuritypriv->ndisauthtype = Ndis802_11AuthModeWPA2PSK;
++	}	
++
++	return 0;
++}
++
++static int rtw_cfg80211_set_key_mgt(struct security_priv *psecuritypriv, u32 key_mgt)
++{
++	DBG_8192C("%s, key_mgt=0x%x\n", __func__, key_mgt);
++
++	if (key_mgt == WLAN_AKM_SUITE_8021X)
++		//*auth_type = UMAC_AUTH_TYPE_8021X;
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++	else if (key_mgt == WLAN_AKM_SUITE_PSK) {
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++	} else {
++		DBG_8192C("Invalid key mgt: 0x%x\n", key_mgt);
++		//return -EINVAL;
++	}
++
++	return 0;
++}
++
++static int rtw_cfg80211_set_wpa_ie(_adapter *padapter, u8 *pie, size_t ielen)
++{
++	u8 *buf=NULL, *pos=NULL;	
++	u32 left; 	
++	int group_cipher = 0, pairwise_cipher = 0;
++	int ret = 0;
++	int wpa_ielen=0;
++	int wpa2_ielen=0;
++	u8 *pwpa, *pwpa2;
++	u8 null_addr[]= {0,0,0,0,0,0};
++
++	if (pie == NULL || !ielen) {
++		/* Treat this as normal case, but need to clear WIFI_UNDER_WPS */
++		_clr_fwstate_(&padapter->mlmepriv, WIFI_UNDER_WPS);
++		goto exit;
++	}
++
++	if (ielen > MAX_WPA_IE_LEN+MAX_WPS_IE_LEN+MAX_P2P_IE_LEN) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	buf = rtw_zmalloc(ielen);
++	if (buf == NULL){
++		ret =  -ENOMEM;
++		goto exit;
++	}
++
++	_rtw_memcpy(buf, pie , ielen);
++
++	//dump
++	{
++		int i;
++		DBG_8192C("set wpa_ie(length:%zu):\n", ielen);
++		for(i=0;i<ielen;i=i+8)
++			DBG_8192C("0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x \n",buf[i],buf[i+1],buf[i+2],buf[i+3],buf[i+4],buf[i+5],buf[i+6],buf[i+7]);
++	}
++
++	pos = buf;
++	if(ielen < RSN_HEADER_LEN){
++		RT_TRACE(_module_rtl871x_ioctl_os_c,_drv_err_,("Ie len too short %d\n", ielen));
++		ret  = -1;
++		goto exit;
++	}
++
++	pwpa = rtw_get_wpa_ie(buf, &wpa_ielen, ielen);
++	if(pwpa && wpa_ielen>0)
++	{
++		if(rtw_parse_wpa_ie(pwpa, wpa_ielen+2, &group_cipher, &pairwise_cipher) == _SUCCESS)
++		{
++			padapter->securitypriv.dot11AuthAlgrthm= dot11AuthAlgrthm_8021X;
++			padapter->securitypriv.ndisauthtype=Ndis802_11AuthModeWPAPSK;
++			_rtw_memcpy(padapter->securitypriv.supplicant_ie, &pwpa[0], wpa_ielen+2);
++			
++			DBG_8192C("got wpa_ie, wpa_ielen:%u\n", wpa_ielen);
++		}
++	}
++
++	pwpa2 = rtw_get_wpa2_ie(buf, &wpa2_ielen, ielen);
++	if(pwpa2 && wpa2_ielen>0)
++	{
++		if(rtw_parse_wpa2_ie(pwpa2, wpa2_ielen+2, &group_cipher, &pairwise_cipher) == _SUCCESS)
++		{
++			padapter->securitypriv.dot11AuthAlgrthm= dot11AuthAlgrthm_8021X;
++			padapter->securitypriv.ndisauthtype=Ndis802_11AuthModeWPA2PSK;	
++			_rtw_memcpy(padapter->securitypriv.supplicant_ie, &pwpa2[0], wpa2_ielen+2);
++
++			DBG_8192C("got wpa2_ie, wpa2_ielen:%u\n", wpa2_ielen);
++		}
++	}
++
++	if (group_cipher == 0)
++	{
++		group_cipher = WPA_CIPHER_NONE;
++	}
++	if (pairwise_cipher == 0)
++	{
++		pairwise_cipher = WPA_CIPHER_NONE;
++	}
++	
++	switch(group_cipher)
++	{
++		case WPA_CIPHER_NONE:
++			padapter->securitypriv.dot118021XGrpPrivacy=_NO_PRIVACY_;
++			padapter->securitypriv.ndisencryptstatus=Ndis802_11EncryptionDisabled;
++			break;
++		case WPA_CIPHER_WEP40:
++			padapter->securitypriv.dot118021XGrpPrivacy=_WEP40_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			break;
++		case WPA_CIPHER_TKIP:
++			padapter->securitypriv.dot118021XGrpPrivacy=_TKIP_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption2Enabled;
++			break;
++		case WPA_CIPHER_CCMP:
++			padapter->securitypriv.dot118021XGrpPrivacy=_AES_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption3Enabled;
++			break;
++		case WPA_CIPHER_WEP104:	
++			padapter->securitypriv.dot118021XGrpPrivacy=_WEP104_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			break;
++	}
++
++	switch(pairwise_cipher)
++	{
++		case WPA_CIPHER_NONE:
++			padapter->securitypriv.dot11PrivacyAlgrthm=_NO_PRIVACY_;
++			padapter->securitypriv.ndisencryptstatus=Ndis802_11EncryptionDisabled;
++			break;
++		case WPA_CIPHER_WEP40:
++			padapter->securitypriv.dot11PrivacyAlgrthm=_WEP40_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			break;
++		case WPA_CIPHER_TKIP:
++			padapter->securitypriv.dot11PrivacyAlgrthm=_TKIP_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption2Enabled;
++			break;
++		case WPA_CIPHER_CCMP:
++			padapter->securitypriv.dot11PrivacyAlgrthm=_AES_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption3Enabled;
++			break;
++		case WPA_CIPHER_WEP104:	
++			padapter->securitypriv.dot11PrivacyAlgrthm=_WEP104_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			break;
++	}
++	
++	{/* handle wps_ie */
++		uint wps_ielen;	
++		u8 *wps_ie;
++
++		wps_ie = rtw_get_wps_ie(buf, ielen, NULL, &wps_ielen);
++		if (wps_ie && wps_ielen > 0) {
++			DBG_8192C("got wps_ie, wps_ielen:%u\n", wps_ielen);
++			padapter->securitypriv.wps_ie_len = wps_ielen<MAX_WPS_IE_LEN?wps_ielen:MAX_WPS_IE_LEN;
++			_rtw_memcpy(padapter->securitypriv.wps_ie, wps_ie, padapter->securitypriv.wps_ie_len);
++			set_fwstate(&padapter->mlmepriv, WIFI_UNDER_WPS);
++		} else {
++			_clr_fwstate_(&padapter->mlmepriv, WIFI_UNDER_WPS);
++		}
++	}
++
++	#ifdef CONFIG_P2P
++	{//check p2p_ie for assoc req; 
++		uint p2p_ielen=0;
++		u8 *p2p_ie;
++		struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++		if((p2p_ie=rtw_get_p2p_ie(buf, ielen, NULL, &p2p_ielen)))
++		{
++			#ifdef CONFIG_DEBUG_CFG80211
++			DBG_8192C("%s p2p_assoc_req_ielen=%d\n", __FUNCTION__, p2p_ielen);
++			#endif
++
++			if(pmlmepriv->p2p_assoc_req_ie)
++			{
++				u32 free_len = pmlmepriv->p2p_assoc_req_ie_len;
++				pmlmepriv->p2p_assoc_req_ie_len = 0;
++				rtw_mfree(pmlmepriv->p2p_assoc_req_ie, free_len);
++				pmlmepriv->p2p_assoc_req_ie = NULL;
++			}
++
++			pmlmepriv->p2p_assoc_req_ie = rtw_malloc(p2p_ielen);
++			if ( pmlmepriv->p2p_assoc_req_ie == NULL) {
++				DBG_8192C("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				goto exit;
++			}
++			_rtw_memcpy(pmlmepriv->p2p_assoc_req_ie, p2p_ie, p2p_ielen);
++			pmlmepriv->p2p_assoc_req_ie_len = p2p_ielen;
++		}
++	}
++	#endif //CONFIG_P2P
++
++	#ifdef CONFIG_WFD
++	{//check wfd_ie for assoc req; 
++		uint wfd_ielen=0;
++		u8 *wfd_ie;
++		struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++		if(rtw_get_wfd_ie(buf, ielen, NULL, &wfd_ielen))
++		{
++			#ifdef CONFIG_DEBUG_CFG80211
++			DBG_8192C("%s wfd_assoc_req_ielen=%d\n", __FUNCTION__, wfd_ielen);
++			#endif
++
++			if(pmlmepriv->wfd_assoc_req_ie)
++			{
++				u32 free_len = pmlmepriv->wfd_assoc_req_ie_len;
++				pmlmepriv->wfd_assoc_req_ie_len = 0;
++				rtw_mfree(pmlmepriv->wfd_assoc_req_ie, free_len);
++				pmlmepriv->wfd_assoc_req_ie = NULL;
++			}
++
++			pmlmepriv->wfd_assoc_req_ie = rtw_malloc(wfd_ielen);
++			if ( pmlmepriv->wfd_assoc_req_ie == NULL) {
++				DBG_8192C("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				goto exit;
++			}
++			rtw_get_wfd_ie(buf, ielen, pmlmepriv->wfd_assoc_req_ie, &pmlmepriv->wfd_assoc_req_ie_len);			
++		}
++	}
++	#endif //CONFIG_WFD
++
++	//TKIP and AES disallow multicast packets until installing group key
++	if(padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_
++		|| padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_WTMIC_
++		|| padapter->securitypriv.dot11PrivacyAlgrthm == _AES_)
++		//WPS open need to enable multicast
++		//|| check_fwstate(&padapter->mlmepriv, WIFI_UNDER_WPS) == _TRUE)
++		rtw_hal_set_hwreg(padapter, HW_VAR_OFF_RCR_AM, null_addr);
++
++	RT_TRACE(_module_rtl871x_ioctl_os_c, _drv_info_,
++		("rtw_set_wpa_ie: pairwise_cipher=0x%08x padapter->securitypriv.ndisencryptstatus=%d padapter->securitypriv.ndisauthtype=%d\n",
++		pairwise_cipher, padapter->securitypriv.ndisencryptstatus, padapter->securitypriv.ndisauthtype));
++
++exit:
++	if (buf)
++		rtw_mfree(buf, ielen);
++	if (ret)
++		_clr_fwstate_(&padapter->mlmepriv, WIFI_UNDER_WPS);
++	return ret;
++}
++
++static int cfg80211_rtw_connect(struct wiphy *wiphy, struct net_device *ndev,
++				 struct cfg80211_connect_params *sme)
++{
++	int ret=0;
++	_irqL irqL;	
++	_list *phead;	
++	struct wlan_network *pnetwork = NULL;
++	NDIS_802_11_AUTHENTICATION_MODE authmode;	
++	NDIS_802_11_SSID ndis_ssid;	
++	u8 *dst_ssid, *src_ssid;
++	u8 *dst_bssid, *src_bssid;
++	//u8 matched_by_bssid=_FALSE;
++	//u8 matched_by_ssid=_FALSE;
++	u8 matched=_FALSE;
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;	
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	_queue *queue = &pmlmepriv->scanned_queue;	
++	
++	DBG_871X("=>"FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++	DBG_871X("privacy=%d, key=%p, key_len=%d, key_idx=%d\n",
++		sme->privacy, sme->key, sme->key_len, sme->key_idx);
++
++
++	if(wdev_to_priv(padapter->rtw_wdev)->block == _TRUE)
++	{
++		ret = -EBUSY;
++		DBG_871X("%s wdev_priv.block is set\n", __FUNCTION__);
++		goto exit;
++	}
++
++#ifdef CONFIG_PLATFORM_MSTAR
++	printk("MStar Android!\n");
++	if((wdev_to_priv(padapter->rtw_wdev))->bandroid_scan == _FALSE)
++	{
++#ifdef CONFIG_P2P
++		struct wifidirect_info *pwdinfo= &(padapter->wdinfo);	
++		if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++#endif //CONFIG_P2P
++		{
++			ret = -EBUSY;
++			printk("Android hasn't attached yet!\n");
++			goto exit;
++		}	
++	}
++#endif
++
++	if(_FAIL == rtw_pwr_wakeup(padapter)) {
++		ret= -EPERM;
++		goto exit;
++	}
++
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++		ret = -EPERM;
++		goto exit;
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (check_buddy_fwstate(padapter, _FW_UNDER_LINKING) == _TRUE) {
++		DBG_8192C("%s, but buddy_intf is under linking\n", __FUNCTION__);
++		ret = -EINVAL;
++		goto exit;
++	}
++	if (check_buddy_fwstate(padapter, _FW_UNDER_SURVEY) == _TRUE) {
++		rtw_scan_abort(padapter->pbuddy_adapter);
++	}
++#endif
++
++	if (!sme->ssid || !sme->ssid_len)
++	{
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	if (sme->ssid_len > IW_ESSID_MAX_SIZE){
++
++		ret= -E2BIG;
++		goto exit;
++	}
++	
++	_rtw_memset(&ndis_ssid, 0, sizeof(NDIS_802_11_SSID));			
++	ndis_ssid.SsidLength = sme->ssid_len;
++	_rtw_memcpy(ndis_ssid.Ssid, sme->ssid, sme->ssid_len);
++
++	DBG_8192C("ssid=%s, len=%zu\n", ndis_ssid.Ssid, sme->ssid_len);
++	
++
++	if (sme->bssid)
++		DBG_8192C("bssid="MAC_FMT"\n", MAC_ARG(sme->bssid));
++
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE) {
++		ret = -EBUSY;
++		DBG_8192C("%s, fw_state=0x%x, goto exit\n", __FUNCTION__, pmlmepriv->fw_state);
++		goto exit;		
++	}
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE) {
++		rtw_scan_abort(padapter);
++	}
++
++	psecuritypriv->ndisencryptstatus = Ndis802_11EncryptionDisabled;
++	psecuritypriv->dot11PrivacyAlgrthm = _NO_PRIVACY_;
++	psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++	psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Open; //open system
++	psecuritypriv->ndisauthtype = Ndis802_11AuthModeOpen;
++
++
++	ret = rtw_cfg80211_set_wpa_version(psecuritypriv, sme->crypto.wpa_versions);
++	if (ret < 0)
++		goto exit;
++
++	ret = rtw_cfg80211_set_auth_type(psecuritypriv, sme->auth_type);
++	if (ret < 0)
++		goto exit;
++
++	DBG_8192C("%s, ie_len=%zu\n", __func__, sme->ie_len);
++			
++	ret = rtw_cfg80211_set_wpa_ie(padapter, sme->ie, sme->ie_len);
++	if (ret < 0)
++		goto exit;
++
++	if (sme->crypto.n_ciphers_pairwise) {		
++		ret = rtw_cfg80211_set_cipher(psecuritypriv, sme->crypto.ciphers_pairwise[0], _TRUE);
++		if (ret < 0)
++			goto exit;
++	}
++
++	//For WEP Shared auth
++	if((psecuritypriv->dot11AuthAlgrthm == dot11AuthAlgrthm_Shared
++		|| psecuritypriv->dot11AuthAlgrthm == dot11AuthAlgrthm_Auto) && sme->key
++	)
++	{
++		u32 wep_key_idx, wep_key_len,wep_total_len;
++		NDIS_802_11_WEP	 *pwep = NULL;
++		DBG_871X("%s(): Shared/Auto WEP\n",__FUNCTION__);
++
++		wep_key_idx = sme->key_idx;
++		wep_key_len = sme->key_len;
++
++		if (sme->key_idx > WEP_KEYS) {
++			ret = -EINVAL;
++			goto exit;
++		}
++
++		if (wep_key_len > 0) 
++		{
++		 	wep_key_len = wep_key_len <= 5 ? 5 : 13;
++			wep_total_len = wep_key_len + FIELD_OFFSET(NDIS_802_11_WEP, KeyMaterial);
++		 	pwep =(NDIS_802_11_WEP	 *) rtw_malloc(wep_total_len);
++			if(pwep == NULL){
++				DBG_871X(" wpa_set_encryption: pwep allocate fail !!!\n");
++				ret = -ENOMEM;
++				goto exit;
++			}
++
++		 	_rtw_memset(pwep, 0, wep_total_len);
++
++		 	pwep->KeyLength = wep_key_len;
++			pwep->Length = wep_total_len;
++
++			if(wep_key_len==13)
++			{
++				padapter->securitypriv.dot11PrivacyAlgrthm=_WEP104_;
++				padapter->securitypriv.dot118021XGrpPrivacy=_WEP104_;
++			}
++		}
++		else {		
++			ret = -EINVAL;
++			goto exit;
++		}
++
++		pwep->KeyIndex = wep_key_idx;
++		pwep->KeyIndex |= 0x80000000;
++
++		_rtw_memcpy(pwep->KeyMaterial,  (void *)sme->key, pwep->KeyLength);
++
++		if(rtw_set_802_11_add_wep(padapter, pwep) == (u8)_FAIL)
++		{
++			ret = -EOPNOTSUPP ;
++		}
++
++		if (pwep) {
++			rtw_mfree((u8 *)pwep,wep_total_len);		
++		}
++
++		if(ret < 0)
++			goto exit;
++	}
++
++	ret = rtw_cfg80211_set_cipher(psecuritypriv, sme->crypto.cipher_group, _FALSE);
++	if (ret < 0)
++		return ret;
++
++	if (sme->crypto.n_akm_suites) {
++		ret = rtw_cfg80211_set_key_mgt(psecuritypriv, sme->crypto.akm_suites[0]);
++		if (ret < 0)
++			goto exit;
++	}
++
++	authmode = psecuritypriv->ndisauthtype;
++	rtw_set_802_11_authentication_mode(padapter, authmode);
++
++	//rtw_set_802_11_encryption_mode(padapter, padapter->securitypriv.ndisencryptstatus);
++
++	if (rtw_set_802_11_connect(padapter, sme->bssid, &ndis_ssid) == _FALSE) {
++		ret = -1;
++		goto exit;
++	}
++
++	DBG_8192C("set ssid:dot11AuthAlgrthm=%d, dot11PrivacyAlgrthm=%d, dot118021XGrpPrivacy=%d\n", psecuritypriv->dot11AuthAlgrthm, psecuritypriv->dot11PrivacyAlgrthm, psecuritypriv->dot118021XGrpPrivacy);
++	
++exit:
++
++	DBG_8192C("<=%s, ret %d\n",__FUNCTION__, ret);
++	
++	return ret;
++}
++
++static int cfg80211_rtw_disconnect(struct wiphy *wiphy, struct net_device *ndev,
++				   u16 reason_code)
++{
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	rtw_set_roaming(padapter, 0);
++
++	if(check_fwstate(&padapter->mlmepriv, _FW_LINKED)) 
++	{
++		rtw_scan_abort(padapter);
++		LeaveAllPowerSaveMode(padapter);
++		rtw_disassoc_cmd(padapter, 500, _FALSE);
++		
++		DBG_871X("%s...call rtw_indicate_disconnect\n", __FUNCTION__);
++		
++		padapter->mlmepriv.not_indic_disco = _TRUE;
++		rtw_indicate_disconnect(padapter);
++		padapter->mlmepriv.not_indic_disco = _FALSE;
++		
++		rtw_free_assoc_resources(padapter, 1);
++	}
++	
++	return 0;
++}
++
++static int cfg80211_rtw_set_txpower(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3,8,0))
++	struct wireless_dev *wdev,
++#endif
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,36)) || defined(COMPAT_KERNEL_RELEASE)
++	enum nl80211_tx_power_setting type, int mbm)
++#else
++	enum tx_power_setting type, int dbm)
++#endif
++{
++#if 0
++	struct iwm_priv *iwm = wiphy_to_iwm(wiphy);
++	int ret;
++
++	switch (type) {
++	case NL80211_TX_POWER_AUTOMATIC:
++		return 0;
++	case NL80211_TX_POWER_FIXED:
++		if (mbm < 0 || (mbm % 100))
++			return -EOPNOTSUPP;
++
++		if (!test_bit(IWM_STATUS_READY, &iwm->status))
++			return 0;
++
++		ret = iwm_umac_set_config_fix(iwm, UMAC_PARAM_TBL_CFG_FIX,
++					      CFG_TX_PWR_LIMIT_USR,
++					      MBM_TO_DBM(mbm) * 2);
++		if (ret < 0)
++			return ret;
++
++		return iwm_tx_power_trigger(iwm);
++	default:
++		IWM_ERR(iwm, "Unsupported power type: %d\n", type);
++		return -EOPNOTSUPP;
++	}
++#endif
++	DBG_8192C("%s\n", __func__);
++	return 0;
++}
++
++static int cfg80211_rtw_get_txpower(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3,8,0))
++	struct wireless_dev *wdev,
++#endif
++	int *dbm)
++{
++	//_adapter *padapter = wiphy_to_adapter(wiphy);
++
++	DBG_8192C("%s\n", __func__);
++
++	*dbm = (12);
++	
++	return 0;
++}
++
++inline bool rtw_cfg80211_pwr_mgmt(_adapter *adapter)
++{
++	struct rtw_wdev_priv *rtw_wdev_priv = wdev_to_priv(adapter->rtw_wdev);
++	return rtw_wdev_priv->power_mgmt;
++}
++
++static int cfg80211_rtw_set_power_mgmt(struct wiphy *wiphy,
++				       struct net_device *ndev,
++				       bool enabled, int timeout)
++{
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++	struct rtw_wdev_priv *rtw_wdev_priv = wdev_to_priv(padapter->rtw_wdev);
++	
++	DBG_871X(FUNC_NDEV_FMT" enabled:%u, timeout:%d\n", FUNC_NDEV_ARG(ndev),
++		enabled, timeout);
++
++	rtw_wdev_priv->power_mgmt = enabled;
++
++	#ifdef CONFIG_LPS
++	if (!enabled)
++		LPS_Leave(padapter);
++	#endif
++
++	return 0;
++}
++
++static int cfg80211_rtw_set_pmksa(struct wiphy *wiphy,
++				  struct net_device *netdev,
++				  struct cfg80211_pmksa *pmksa)
++{
++	u8	index,blInserted = _FALSE;
++	_adapter	*padapter = wiphy_to_adapter(wiphy);
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++	u8	strZeroMacAddress[ ETH_ALEN ] = { 0x00 };
++
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(netdev));
++
++	if ( _rtw_memcmp( pmksa->bssid, strZeroMacAddress, ETH_ALEN ) == _TRUE )
++	{
++		return -EINVAL;
++	}
++
++	blInserted = _FALSE;
++	
++	//overwrite PMKID
++	for(index=0 ; index<NUM_PMKID_CACHE; index++)
++	{
++		if( _rtw_memcmp( psecuritypriv->PMKIDList[index].Bssid, pmksa->bssid, ETH_ALEN) ==_TRUE )
++		{ // BSSID is matched, the same AP => rewrite with new PMKID.
++			DBG_871X(FUNC_NDEV_FMT" BSSID exists in the PMKList.\n", FUNC_NDEV_ARG(netdev));
++
++			_rtw_memcpy( psecuritypriv->PMKIDList[index].PMKID, pmksa->pmkid, WLAN_PMKID_LEN);
++			psecuritypriv->PMKIDList[index].bUsed = _TRUE;
++			psecuritypriv->PMKIDIndex = index+1;
++			blInserted = _TRUE;
++			break;
++		}	
++	}
++
++	if(!blInserted)
++	{
++		// Find a new entry
++		DBG_871X(FUNC_NDEV_FMT" Use the new entry index = %d for this PMKID.\n",
++			FUNC_NDEV_ARG(netdev), psecuritypriv->PMKIDIndex );
++
++		_rtw_memcpy(psecuritypriv->PMKIDList[psecuritypriv->PMKIDIndex].Bssid, pmksa->bssid, ETH_ALEN);
++		_rtw_memcpy(psecuritypriv->PMKIDList[psecuritypriv->PMKIDIndex].PMKID, pmksa->pmkid, WLAN_PMKID_LEN);
++
++		psecuritypriv->PMKIDList[psecuritypriv->PMKIDIndex].bUsed = _TRUE;
++		psecuritypriv->PMKIDIndex++ ;
++		if(psecuritypriv->PMKIDIndex==16)
++		{
++			psecuritypriv->PMKIDIndex =0;
++		} 
++	} 
++
++	return 0;
++}
++
++static int cfg80211_rtw_del_pmksa(struct wiphy *wiphy,
++				  struct net_device *netdev,
++				  struct cfg80211_pmksa *pmksa)
++{
++	u8	index, bMatched = _FALSE;
++	_adapter	*padapter = wiphy_to_adapter(wiphy);
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(netdev));
++
++	for(index=0 ; index<NUM_PMKID_CACHE; index++)
++	{
++		if( _rtw_memcmp( psecuritypriv->PMKIDList[index].Bssid, pmksa->bssid, ETH_ALEN) ==_TRUE )
++		{ // BSSID is matched, the same AP => Remove this PMKID information and reset it. 
++			_rtw_memset( psecuritypriv->PMKIDList[index].Bssid, 0x00, ETH_ALEN );
++			_rtw_memset( psecuritypriv->PMKIDList[index].PMKID, 0x00, WLAN_PMKID_LEN );
++			psecuritypriv->PMKIDList[index].bUsed = _FALSE;
++			bMatched = _TRUE;
++			break;
++		}	
++	}
++
++	if(_FALSE == bMatched)
++	{
++		DBG_871X(FUNC_NDEV_FMT" do not have matched BSSID\n"
++			, FUNC_NDEV_ARG(netdev));
++		return -EINVAL;
++	}
++
++	return 0;
++}
++
++static int cfg80211_rtw_flush_pmksa(struct wiphy *wiphy,
++				    struct net_device *netdev)
++{
++	_adapter	*padapter = wiphy_to_adapter(wiphy);
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(netdev));
++
++	_rtw_memset( &psecuritypriv->PMKIDList[ 0 ], 0x00, sizeof( RT_PMKID_LIST ) * NUM_PMKID_CACHE );
++	psecuritypriv->PMKIDIndex = 0;
++
++	return 0;
++}
++
++#ifdef CONFIG_AP_MODE
++void rtw_cfg80211_indicate_sta_assoc(_adapter *padapter, u8 *pmgmt_frame, uint frame_len)
++{
++	s32 freq;
++	int channel;
++	struct wireless_dev *pwdev = padapter->rtw_wdev;
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);	
++	struct net_device *ndev = padapter->pnetdev;
++
++	DBG_871X(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++#if defined(RTW_USE_CFG80211_STA_EVENT) || defined(COMPAT_KERNEL_RELEASE)
++	{
++		struct station_info sinfo;
++		u8 ie_offset;
++		if (GetFrameSubType(pmgmt_frame) == WIFI_ASSOCREQ)
++			ie_offset = _ASOCREQ_IE_OFFSET_;
++		else // WIFI_REASSOCREQ
++			ie_offset = _REASOCREQ_IE_OFFSET_;
++	
++		sinfo.filled = 0;
++		sinfo.filled = STATION_INFO_ASSOC_REQ_IES;
++		sinfo.assoc_req_ies = pmgmt_frame + WLAN_HDR_A3_LEN + ie_offset;
++		sinfo.assoc_req_ies_len = frame_len - WLAN_HDR_A3_LEN - ie_offset;
++		cfg80211_new_sta(ndev, GetAddr2Ptr(pmgmt_frame), &sinfo, GFP_ATOMIC);
++	}
++#else /* defined(RTW_USE_CFG80211_STA_EVENT) */
++	channel = pmlmeext->cur_channel;
++	if (channel <= RTW_CH_MAX_2G_CHANNEL)
++		freq = rtw_ieee80211_channel_to_frequency(channel, IEEE80211_BAND_2GHZ);
++	else
++		freq = rtw_ieee80211_channel_to_frequency(channel, IEEE80211_BAND_5GHZ);
++
++	#ifdef COMPAT_KERNEL_RELEASE
++	rtw_cfg80211_rx_mgmt(padapter, freq, 0, pmgmt_frame, frame_len, GFP_ATOMIC);
++	#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) && !defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++	rtw_cfg80211_rx_mgmt(padapter, freq, 0, pmgmt_frame, frame_len, GFP_ATOMIC);
++	#else //COMPAT_KERNEL_RELEASE
++	{
++		//to avoid WARN_ON(wdev->iftype != NL80211_IFTYPE_STATION)  when calling cfg80211_send_rx_assoc()
++		#ifndef CONFIG_PLATFORM_MSTAR
++		pwdev->iftype = NL80211_IFTYPE_STATION;
++		#endif //CONFIG_PLATFORM_MSTAR
++		DBG_8192C("iftype=%d before call cfg80211_send_rx_assoc()\n", pwdev->iftype);
++		rtw_cfg80211_send_rx_assoc(padapter, NULL, pmgmt_frame, frame_len);
++		DBG_8192C("iftype=%d after call cfg80211_send_rx_assoc()\n", pwdev->iftype);
++		pwdev->iftype = NL80211_IFTYPE_AP;
++		//cfg80211_rx_action(padapter->pnetdev, freq, pmgmt_frame, frame_len, GFP_ATOMIC);
++	}
++	#endif //COMPAT_KERNEL_RELEASE
++#endif /* defined(RTW_USE_CFG80211_STA_EVENT) */
++
++}
++
++void rtw_cfg80211_indicate_sta_disassoc(_adapter *padapter, unsigned char *da, unsigned short reason)
++{
++	s32 freq;
++	int channel;
++	u8 *pmgmt_frame;
++	uint frame_len;
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	unsigned short *fctrl;	
++	u8 mgmt_buf[128] = {0};
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct net_device *ndev = padapter->pnetdev;
++	
++	DBG_871X(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++#if defined(RTW_USE_CFG80211_STA_EVENT) || defined(COMPAT_KERNEL_RELEASE)
++	cfg80211_del_sta(ndev, da, GFP_ATOMIC);
++#else /* defined(RTW_USE_CFG80211_STA_EVENT) */
++	channel = pmlmeext->cur_channel;
++	if (channel <= RTW_CH_MAX_2G_CHANNEL)
++		freq = rtw_ieee80211_channel_to_frequency(channel, IEEE80211_BAND_2GHZ);
++	else
++		freq = rtw_ieee80211_channel_to_frequency(channel, IEEE80211_BAND_5GHZ);
++
++	pmgmt_frame = mgmt_buf;	
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pmgmt_frame;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	//_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	//_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr1, myid(&(padapter->eeprompriv)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, da, ETH_ALEN);	
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pmgmt_frame, WIFI_DEAUTH);
++
++	pmgmt_frame += sizeof(struct rtw_ieee80211_hdr_3addr);
++	frame_len = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	reason = cpu_to_le16(reason);
++	pmgmt_frame = rtw_set_fixed_ie(pmgmt_frame, _RSON_CODE_ , (unsigned char *)&reason, &frame_len);
++
++	#ifdef COMPAT_KERNEL_RELEASE
++	rtw_cfg80211_rx_mgmt(padapter, freq, 0, mgmt_buf, frame_len, GFP_ATOMIC);
++	#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) && !defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++	rtw_cfg80211_rx_mgmt(padapter, freq, 0, mgmt_buf, frame_len, GFP_ATOMIC);
++	#else //COMPAT_KERNEL_RELEASE
++	cfg80211_send_disassoc(padapter->pnetdev, mgmt_buf, frame_len);	
++	//cfg80211_rx_action(padapter->pnetdev, freq, mgmt_buf, frame_len, GFP_ATOMIC);
++	#endif //COMPAT_KERNEL_RELEASE
++#endif /* defined(RTW_USE_CFG80211_STA_EVENT) */
++}
++
++static int rtw_cfg80211_monitor_if_open(struct net_device *ndev)
++{
++	int ret = 0;
++
++	DBG_8192C("%s\n", __func__);
++	
++	return ret;
++}
++
++static int rtw_cfg80211_monitor_if_close(struct net_device *ndev)
++{
++	int ret = 0;
++
++	DBG_8192C("%s\n", __func__);
++	
++	return ret;
++}
++
++static int rtw_cfg80211_monitor_if_xmit_entry(struct sk_buff *skb, struct net_device *ndev)
++{	
++	int ret = 0;
++	int rtap_len;
++	int qos_len = 0;
++	int dot11_hdr_len = 24;
++	int snap_len = 6;
++	unsigned char *pdata;
++	u16 frame_ctl;
++	unsigned char src_mac_addr[6];
++	unsigned char dst_mac_addr[6];
++	struct ieee80211_hdr *dot11_hdr;
++	struct ieee80211_radiotap_header *rtap_hdr;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	if (skb)
++		rtw_mstat_update(MSTAT_TYPE_SKB, MSTAT_ALLOC_SUCCESS, skb->truesize);
++
++	if (unlikely(skb->len < sizeof(struct ieee80211_radiotap_header)))
++		goto fail;
++
++	rtap_hdr = (struct ieee80211_radiotap_header *)skb->data;
++	if (unlikely(rtap_hdr->it_version))
++		goto fail;
++
++	rtap_len = ieee80211_get_radiotap_len(skb->data);
++	if (unlikely(skb->len < rtap_len))
++		goto fail;
++
++	if(rtap_len != 14)
++	{
++		DBG_8192C("radiotap len (should be 14): %d\n", rtap_len);
++		goto fail;
++	}	
++
++	/* Skip the ratio tap header */
++	skb_pull(skb, rtap_len);
++
++	dot11_hdr = (struct ieee80211_hdr *)skb->data;
++	frame_ctl = le16_to_cpu(dot11_hdr->frame_control);
++	/* Check if the QoS bit is set */
++	if ((frame_ctl & RTW_IEEE80211_FCTL_FTYPE) == RTW_IEEE80211_FTYPE_DATA) {
++		/* Check if this ia a Wireless Distribution System (WDS) frame
++		 * which has 4 MAC addresses
++		 */
++		if (dot11_hdr->frame_control & 0x0080)
++			qos_len = 2;
++		if ((dot11_hdr->frame_control & 0x0300) == 0x0300)
++			dot11_hdr_len += 6;
++
++		memcpy(dst_mac_addr, dot11_hdr->addr1, sizeof(dst_mac_addr));
++		memcpy(src_mac_addr, dot11_hdr->addr2, sizeof(src_mac_addr));
++
++		/* Skip the 802.11 header, QoS (if any) and SNAP, but leave spaces for
++		 * for two MAC addresses
++		 */
++		skb_pull(skb, dot11_hdr_len + qos_len + snap_len - sizeof(src_mac_addr) * 2);
++		pdata = (unsigned char*)skb->data;
++		memcpy(pdata, dst_mac_addr, sizeof(dst_mac_addr));
++		memcpy(pdata + sizeof(dst_mac_addr), src_mac_addr, sizeof(src_mac_addr));
++
++		DBG_8192C("should be eapol packet\n");
++
++		/* Use the real net device to transmit the packet */		
++		ret = _rtw_xmit_entry(skb, padapter->pnetdev);
++
++		return ret;
++
++	}
++	else if ((frame_ctl & (RTW_IEEE80211_FCTL_FTYPE|RTW_IEEE80211_FCTL_STYPE))
++		== (RTW_IEEE80211_FTYPE_MGMT|RTW_IEEE80211_STYPE_ACTION)
++	) 
++	{
++		//only for action frames
++		struct xmit_frame		*pmgntframe;
++		struct pkt_attrib	*pattrib;
++		unsigned char	*pframe;	
++		//u8 category, action, OUI_Subtype, dialogToken=0;
++		//unsigned char	*frame_body;
++		struct rtw_ieee80211_hdr *pwlanhdr;	
++		struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++		struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++		u8 *buf = skb->data;
++		u32 len = skb->len;
++		u8 category, action;
++		int type = -1;
++
++		if (rtw_action_frame_parse(buf, len, &category, &action) == _FALSE) {
++			DBG_8192C(FUNC_NDEV_FMT" frame_control:0x%x\n", FUNC_NDEV_ARG(ndev),
++				le16_to_cpu(((struct rtw_ieee80211_hdr_3addr *)buf)->frame_ctl));
++			goto fail;
++		}
++		
++		DBG_8192C("RTW_Tx:da="MAC_FMT" via "FUNC_NDEV_FMT"\n",
++			MAC_ARG(GetAddr1Ptr(buf)), FUNC_NDEV_ARG(ndev));
++		#ifdef CONFIG_P2P
++		if((type = rtw_p2p_check_frames(padapter, buf, len, _TRUE)) >= 0)
++			goto dump;
++		#endif
++		if (category == RTW_WLAN_CATEGORY_PUBLIC)
++			DBG_871X("RTW_Tx:%s\n", action_public_str(action));
++		else
++			DBG_871X("RTW_Tx:category(%u), action(%u)\n", category, action);
++
++dump:
++		//starting alloc mgmt frame to dump it
++		if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++		{			
++			goto fail;
++		}
++
++		//update attribute
++		pattrib = &pmgntframe->attrib;
++		update_mgntframe_attrib(padapter, pattrib);
++		pattrib->retry_ctrl = _FALSE;
++
++		_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++		pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++		_rtw_memcpy(pframe, (void*)buf, len);
++		#ifdef CONFIG_WFD
++		if (type >= 0)
++		{
++			struct wifi_display_info		*pwfd_info;
++			
++			pwfd_info = padapter->wdinfo.wfd_info;
++			
++			if ( _TRUE == pwfd_info->wfd_enable )
++			{
++				rtw_append_wfd_ie( padapter, pframe, &len );
++			}
++		}
++		#endif // CONFIG_WFD
++		pattrib->pktlen = len;	
++	
++		pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++		//update seq number
++		pmlmeext->mgnt_seq = GetSequence(pwlanhdr);
++		pattrib->seqnum = pmlmeext->mgnt_seq;
++		pmlmeext->mgnt_seq++;
++
++	
++		pattrib->last_txcmdsz = pattrib->pktlen;
++	
++		dump_mgntframe(padapter, pmgntframe);
++		
++	}
++	else
++	{
++		DBG_8192C("frame_ctl=0x%x\n", frame_ctl & (RTW_IEEE80211_FCTL_FTYPE|RTW_IEEE80211_FCTL_STYPE));
++	}
++
++	
++fail:
++	
++	dev_kfree_skb(skb);
++
++	return 0;
++	
++}
++
++static void rtw_cfg80211_monitor_if_set_multicast_list(struct net_device *ndev)
++{
++	DBG_8192C("%s\n", __func__);
++}
++
++static int rtw_cfg80211_monitor_if_set_mac_address(struct net_device *ndev, void *addr)
++{
++	int ret = 0;
++	
++	DBG_8192C("%s\n", __func__);
++	
++	return ret;
++}
++
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,29))
++static const struct net_device_ops rtw_cfg80211_monitor_if_ops = {
++	.ndo_open = rtw_cfg80211_monitor_if_open,
++       .ndo_stop = rtw_cfg80211_monitor_if_close,
++       .ndo_start_xmit = rtw_cfg80211_monitor_if_xmit_entry,
++       #if (LINUX_VERSION_CODE < KERNEL_VERSION(3,2,0))
++       .ndo_set_multicast_list = rtw_cfg80211_monitor_if_set_multicast_list,
++       #endif
++       .ndo_set_mac_address = rtw_cfg80211_monitor_if_set_mac_address,       
++};
++#endif
++
++static int rtw_cfg80211_add_monitor_if(_adapter *padapter, char *name, struct net_device **ndev)
++{
++	int ret = 0;
++	struct net_device* mon_ndev = NULL;
++	struct wireless_dev* mon_wdev = NULL;
++	struct rtw_netdev_priv_indicator *pnpi;
++	struct rtw_wdev_priv *pwdev_priv = wdev_to_priv(padapter->rtw_wdev);
++		
++	if (!name ) {
++		DBG_871X(FUNC_ADPT_FMT" without specific name\n", FUNC_ADPT_ARG(padapter));
++		ret = -EINVAL;
++		goto out;
++	}
++
++	if (pwdev_priv->pmon_ndev) {
++		DBG_871X(FUNC_ADPT_FMT" monitor interface exist: "NDEV_FMT"\n",
++			FUNC_ADPT_ARG(padapter), NDEV_ARG(pwdev_priv->pmon_ndev));
++		ret = -EBUSY;
++		goto out;
++	}
++
++	mon_ndev = alloc_etherdev(sizeof(struct rtw_netdev_priv_indicator));
++	if (!mon_ndev) {
++		DBG_871X(FUNC_ADPT_FMT" allocate ndev fail\n", FUNC_ADPT_ARG(padapter));
++		ret = -ENOMEM;
++		goto out;
++	}
++
++	mon_ndev->type = ARPHRD_IEEE80211_RADIOTAP;
++	strncpy(mon_ndev->name, name, IFNAMSIZ);
++	mon_ndev->name[IFNAMSIZ - 1] = 0;
++	mon_ndev->destructor = rtw_ndev_destructor;
++	
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,29))
++	mon_ndev->netdev_ops = &rtw_cfg80211_monitor_if_ops;
++#else
++	mon_ndev->open = rtw_cfg80211_monitor_if_open;
++	mon_ndev->stop = rtw_cfg80211_monitor_if_close;
++	mon_ndev->hard_start_xmit = rtw_cfg80211_monitor_if_xmit_entry;
++	mon_ndev->set_mac_address = rtw_cfg80211_monitor_if_set_mac_address;
++#endif
++
++	pnpi = netdev_priv(mon_ndev);
++	pnpi->priv = padapter;
++	pnpi->sizeof_priv = sizeof(_adapter);
++
++	/*  wdev */
++	mon_wdev = (struct wireless_dev *)rtw_zmalloc(sizeof(struct wireless_dev));
++	if (!mon_wdev) {
++		DBG_871X(FUNC_ADPT_FMT" allocate mon_wdev fail\n", FUNC_ADPT_ARG(padapter));
++		ret = -ENOMEM;
++		goto out;
++	}
++
++	mon_wdev->wiphy = padapter->rtw_wdev->wiphy;
++	mon_wdev->netdev = mon_ndev;
++	mon_wdev->iftype = NL80211_IFTYPE_MONITOR;
++	mon_ndev->ieee80211_ptr = mon_wdev;
++
++	ret = register_netdevice(mon_ndev);
++	if (ret) {
++		goto out;
++	}
++
++	*ndev = pwdev_priv->pmon_ndev = mon_ndev;
++	_rtw_memcpy(pwdev_priv->ifname_mon, name, IFNAMSIZ+1);
++
++out:
++	if (ret && mon_wdev) {
++		rtw_mfree((u8*)mon_wdev, sizeof(struct wireless_dev));
++		mon_wdev = NULL;
++	}
++
++	if (ret && mon_ndev) {
++		free_netdev(mon_ndev);
++		*ndev = mon_ndev = NULL;
++	}
++
++	return ret;
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3,6,0))
++static struct wireless_dev *
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,38)) || defined(COMPAT_KERNEL_RELEASE)
++static struct net_device *
++#else
++static int
++#endif
++	cfg80211_rtw_add_virtual_intf(
++		struct wiphy *wiphy,
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3,7,0))
++		const char *name,
++	#else
++		char *name,
++	#endif
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 12, 0))
++		enum nl80211_iftype type, struct vif_params *params)
++	#else
++		enum nl80211_iftype type, u32 *flags, struct vif_params *params)
++	#endif
++{
++	int ret = 0;
++	struct net_device* ndev = NULL;
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++
++	DBG_871X(FUNC_ADPT_FMT " wiphy:%s, name:%s, type:%d\n",
++		FUNC_ADPT_ARG(padapter), wiphy_name(wiphy), name, type);
++
++	switch (type) {
++	case NL80211_IFTYPE_ADHOC:
++	case NL80211_IFTYPE_AP_VLAN:
++	case NL80211_IFTYPE_WDS:
++	case NL80211_IFTYPE_MESH_POINT:
++		ret = -ENODEV;
++		break;
++	case NL80211_IFTYPE_MONITOR:
++		ret = rtw_cfg80211_add_monitor_if(padapter, (char *)name, &ndev);
++		break;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE)
++	case NL80211_IFTYPE_P2P_CLIENT:
++#endif
++	case NL80211_IFTYPE_STATION:
++		ret = -ENODEV;
++		break;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE)
++	case NL80211_IFTYPE_P2P_GO:
++#endif
++	case NL80211_IFTYPE_AP:
++		ret = -ENODEV;
++		break;
++	default:
++		ret = -ENODEV;
++		DBG_871X("Unsupported interface type\n");
++		break;
++	}
++
++	DBG_871X(FUNC_ADPT_FMT" ndev:%p, ret:%d\n", FUNC_ADPT_ARG(padapter), ndev, ret);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3,6,0))
++	return ndev ? ndev->ieee80211_ptr : ERR_PTR(ret);
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,38)) || defined(COMPAT_KERNEL_RELEASE)
++	return ndev ? ndev : ERR_PTR(ret);
++#else
++	return ret;
++#endif
++}
++
++static int cfg80211_rtw_del_virtual_intf(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3,6,0))
++	struct wireless_dev *wdev
++#else
++	struct net_device *ndev
++#endif
++)
++{
++	struct rtw_wdev_priv *pwdev_priv = (struct rtw_wdev_priv *)wiphy_priv(wiphy);
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3,6,0))
++	struct net_device *ndev;
++	ndev = wdev ? wdev->netdev : NULL;
++#endif
++
++	if (!ndev)
++		goto exit;
++
++	unregister_netdevice(ndev);
++
++	if (ndev == pwdev_priv->pmon_ndev) {
++		pwdev_priv->pmon_ndev = NULL;
++		pwdev_priv->ifname_mon[0] = '\0';
++		DBG_871X(FUNC_NDEV_FMT" remove monitor interface\n", FUNC_NDEV_ARG(ndev));
++	}
++
++exit:
++	return 0;
++}
++
++static int rtw_add_beacon(_adapter *adapter, const u8 *head, size_t head_len, const u8 *tail, size_t tail_len)
++{
++	int ret=0;
++	u8 *pbuf = NULL;
++	uint len, wps_ielen=0;	
++	uint p2p_ielen=0;
++	u8 *p2p_ie;
++	u8 got_p2p_ie = _FALSE;
++	struct mlme_priv *pmlmepriv = &(adapter->mlmepriv);
++	//struct sta_priv *pstapriv = &padapter->stapriv;
++	
++
++	DBG_8192C("%s beacon_head_len=%zu, beacon_tail_len=%zu\n", __FUNCTION__, head_len, tail_len);
++
++	
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	if(head_len<24)
++		return -EINVAL;
++	
++
++	pbuf = rtw_zmalloc(head_len+tail_len);
++	if(!pbuf)
++		return -ENOMEM;
++	
++
++	//_rtw_memcpy(&pstapriv->max_num_sta, param->u.bcn_ie.reserved, 2);
++
++	//if((pstapriv->max_num_sta>NUM_STA) || (pstapriv->max_num_sta<=0))
++	//	pstapriv->max_num_sta = NUM_STA;
++
++	
++	_rtw_memcpy(pbuf, (void *)head+24, head_len-24);// 24=beacon header len.
++	_rtw_memcpy(pbuf+head_len-24, (void *)tail, tail_len);
++
++	len = head_len+tail_len-24;
++
++	//check wps ie if inclued
++	if(rtw_get_wps_ie(pbuf+_FIXED_IE_LENGTH_, len-_FIXED_IE_LENGTH_, NULL, &wps_ielen))
++		DBG_8192C("add bcn, wps_ielen=%d\n", wps_ielen);
++
++#ifdef CONFIG_P2P
++	//check p2p ie if inclued
++	if( adapter->wdinfo.driver_interface == DRIVER_CFG80211 )
++	{
++		//check p2p if enable
++		if(rtw_get_p2p_ie(pbuf+_FIXED_IE_LENGTH_, len-_FIXED_IE_LENGTH_, NULL, &p2p_ielen))
++		{
++			struct mlme_ext_priv *pmlmeext = &adapter->mlmeextpriv;
++			struct wifidirect_info *pwdinfo= &(adapter->wdinfo);
++
++			DBG_8192C("got p2p_ie, len=%d\n", p2p_ielen);
++			got_p2p_ie = _TRUE;
++		
++			if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++			{			
++				DBG_8192C("Enable P2P function for the first time\n");
++				rtw_p2p_enable(adapter, P2P_ROLE_GO);
++				wdev_to_priv(adapter->rtw_wdev)->p2p_enabled = _TRUE;
++			}
++			else
++			{
++				_cancel_timer_ex( &pwdinfo->find_phase_timer );
++				_cancel_timer_ex( &pwdinfo->restore_p2p_state_timer );
++				_cancel_timer_ex( &pwdinfo->pre_tx_scan_timer);	
++
++				DBG_8192C("enter GO Mode, p2p_ielen=%d\n", p2p_ielen);			
++
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++				rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++				pwdinfo->intent = 15;		
++			}
++		}
++	}
++#endif // CONFIG_P2P
++
++	/* pbss_network->IEs will not include p2p_ie, wfd ie */
++	rtw_ies_remove_ie(pbuf, &len, _BEACON_IE_OFFSET_, _VENDOR_SPECIFIC_IE_, P2P_OUI, 4);
++	rtw_ies_remove_ie(pbuf, &len, _BEACON_IE_OFFSET_, _VENDOR_SPECIFIC_IE_, WFD_OUI, 4);
++
++	if (rtw_check_beacon_data(adapter, pbuf,  len) == _SUCCESS)
++	{
++#ifdef  CONFIG_P2P		
++		//check p2p if enable
++		if(got_p2p_ie == _TRUE)
++		{
++			struct mlme_ext_priv *pmlmeext = &adapter->mlmeextpriv;
++			struct wifidirect_info *pwdinfo= &(adapter->wdinfo);
++			pwdinfo->operating_channel = pmlmeext->cur_channel;
++		}
++#endif //CONFIG_P2P
++		ret = 0;
++	}	
++	else
++	{
++		ret = -EINVAL;
++	}	
++	
++
++	rtw_mfree(pbuf, head_len+tail_len);	
++	
++	return ret;	
++}
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3,4,0)) && !defined(COMPAT_KERNEL_RELEASE)
++static int	cfg80211_rtw_add_beacon(struct wiphy *wiphy, struct net_device *ndev,
++			      struct beacon_parameters *info)
++{
++	int ret=0;
++	_adapter *adapter = wiphy_to_adapter(wiphy);
++
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++	ret = rtw_add_beacon(adapter, info->head, info->head_len, info->tail, info->tail_len);
++
++	return ret;
++}
++
++static int	cfg80211_rtw_set_beacon(struct wiphy *wiphy, struct net_device *ndev,
++			      struct beacon_parameters *info)
++{
++	_adapter *padapter = wiphy_to_adapter(wiphy);	
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	pmlmeext->bstart_bss = _TRUE;
++
++	cfg80211_rtw_add_beacon(wiphy, ndev, info);
++	
++	return 0;
++}
++
++static int	cfg80211_rtw_del_beacon(struct wiphy *wiphy, struct net_device *ndev)
++{
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++	
++	return 0;
++}
++#else
++static int cfg80211_rtw_start_ap(struct wiphy *wiphy, struct net_device *ndev,
++								struct cfg80211_ap_settings *settings)
++{
++	int ret = 0;
++	_adapter *adapter = wiphy_to_adapter(wiphy);
++	
++	DBG_871X(FUNC_NDEV_FMT" hidden_ssid:%d, auth_type:%d\n", FUNC_NDEV_ARG(ndev),
++		settings->hidden_ssid, settings->auth_type);
++
++	ret = rtw_add_beacon(adapter, settings->beacon.head, settings->beacon.head_len,
++		settings->beacon.tail, settings->beacon.tail_len);
++
++	adapter->mlmeextpriv.mlmext_info.hidden_ssid_mode = settings->hidden_ssid;
++	
++	if (settings->ssid && settings->ssid_len) {
++		WLAN_BSSID_EX *pbss_network = &adapter->mlmepriv.cur_network.network;
++		WLAN_BSSID_EX *pbss_network_ext = &adapter->mlmeextpriv.mlmext_info.network;
++
++		if(0)
++		DBG_871X(FUNC_ADPT_FMT" ssid:(%s,%d), from ie:(%s,%d)\n", FUNC_ADPT_ARG(adapter),
++			settings->ssid, settings->ssid_len,
++			pbss_network->Ssid.Ssid, pbss_network->Ssid.SsidLength);
++
++		_rtw_memcpy(pbss_network->Ssid.Ssid, (void *)settings->ssid, settings->ssid_len);
++		pbss_network->Ssid.SsidLength = settings->ssid_len;
++		_rtw_memcpy(pbss_network_ext->Ssid.Ssid, (void *)settings->ssid, settings->ssid_len);
++		pbss_network_ext->Ssid.SsidLength = settings->ssid_len;
++
++		if(0)
++		DBG_871X(FUNC_ADPT_FMT" after ssid:(%s,%d), (%s,%d)\n", FUNC_ADPT_ARG(adapter),
++			pbss_network->Ssid.Ssid, pbss_network->Ssid.SsidLength,
++			pbss_network_ext->Ssid.Ssid, pbss_network_ext->Ssid.SsidLength);
++	}
++
++	return ret;
++}
++
++static int cfg80211_rtw_change_beacon(struct wiphy *wiphy, struct net_device *ndev,
++                                struct cfg80211_beacon_data *info)
++{
++	int ret = 0;
++	_adapter *adapter = wiphy_to_adapter(wiphy);
++
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	ret = rtw_add_beacon(adapter, info->head, info->head_len, info->tail, info->tail_len);
++
++	return ret;
++}
++
++static int cfg80211_rtw_stop_ap(struct wiphy *wiphy, struct net_device *ndev)
++{
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++	return 0;
++}
++
++#endif //(LINUX_VERSION_CODE < KERNEL_VERSION(3,4,0))
++
++static int	cfg80211_rtw_add_station(struct wiphy *wiphy, struct net_device *ndev,
++			       u8 *mac, struct station_parameters *params)
++{
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++	
++	return 0;
++}
++
++static int	cfg80211_rtw_del_station(struct wiphy *wiphy, struct net_device *ndev,
++			       u8 *mac)
++{
++	int ret=0;	
++	_irqL irqL;
++	_list	*phead, *plist;
++	u8 updated;
++	struct sta_info *psta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	DBG_871X("+"FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	if(check_fwstate(pmlmepriv, (_FW_LINKED|WIFI_AP_STATE)) != _TRUE)		
++	{
++		DBG_8192C("%s, fw_state != FW_LINKED|WIFI_AP_STATE\n", __func__);
++		return -EINVAL;		
++	}
++
++
++	if(!mac)
++	{
++		DBG_8192C("flush all sta, and cam_entry\n");
++
++		flush_all_cam_entry(padapter);	//clear CAM
++
++		ret = rtw_sta_flush(padapter);
++		
++		return ret;
++	}	
++
++
++	DBG_8192C("free sta macaddr =" MAC_FMT "\n", MAC_ARG(mac));
++
++	if (mac[0] == 0xff && mac[1] == 0xff &&
++	    mac[2] == 0xff && mac[3] == 0xff &&
++	    mac[4] == 0xff && mac[5] == 0xff) 
++	{
++		return -EINVAL;	
++	}
++
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++
++	//check asoc_queue
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)	
++	{
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		
++		plist = get_next(plist);	
++	
++		if(_rtw_memcmp(mac, psta->hwaddr, ETH_ALEN))		
++		{
++			if(psta->dot8021xalg == 1 && psta->bpairwise_key_installed == _FALSE)
++			{
++				DBG_8192C("%s, sta's dot8021xalg = 1 and key_installed = _FALSE\n", __func__);
++			}
++			else
++			{
++				DBG_8192C("free psta=%p, aid=%d\n", psta, psta->aid);
++
++				rtw_list_delete(&psta->asoc_list);
++				pstapriv->asoc_list_cnt--;
++
++				//_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++				updated = ap_free_sta(padapter, psta, _TRUE, WLAN_REASON_DEAUTH_LEAVING);
++				//_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++				psta = NULL;
++
++				break;
++			}		
++					
++		}
++		
++	}
++
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	associated_clients_update(padapter, updated);
++
++	DBG_871X("-"FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++	
++	return ret;	
++
++}
++
++static int	cfg80211_rtw_change_station(struct wiphy *wiphy, struct net_device *ndev,
++				  u8 *mac, struct station_parameters *params)
++{
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++	
++	return 0;
++}
++
++static int	cfg80211_rtw_dump_station(struct wiphy *wiphy, struct net_device *ndev,
++			       int idx, u8 *mac, struct station_info *sinfo)
++{
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	//TODO: dump scanned queue
++
++	return -ENOENT;
++}
++
++static int	cfg80211_rtw_change_bss(struct wiphy *wiphy, struct net_device *ndev,
++			      struct bss_parameters *params)
++{
++	u8 i;
++
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++/*
++	DBG_8192C("use_cts_prot=%d\n", params->use_cts_prot);
++	DBG_8192C("use_short_preamble=%d\n", params->use_short_preamble);
++	DBG_8192C("use_short_slot_time=%d\n", params->use_short_slot_time);
++	DBG_8192C("ap_isolate=%d\n", params->ap_isolate);
++
++	DBG_8192C("basic_rates_len=%d\n", params->basic_rates_len);
++	for(i=0; i<params->basic_rates_len; i++)
++	{		
++		DBG_8192C("basic_rates=%d\n", params->basic_rates[i]);
++		
++	}	
++*/	
++	return 0;
++	
++}
++
++static int	cfg80211_rtw_set_channel(struct wiphy *wiphy
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,35))
++	, struct net_device *ndev
++	#endif
++	, struct ieee80211_channel *chan, enum nl80211_channel_type channel_type)
++{
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,35))
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++	#endif
++	
++	return 0;
++}
++
++static int	cfg80211_rtw_auth(struct wiphy *wiphy, struct net_device *ndev,
++			struct cfg80211_auth_request *req)
++{
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++	
++	return 0;
++}
++
++static int	cfg80211_rtw_assoc(struct wiphy *wiphy, struct net_device *ndev,
++			 struct cfg80211_assoc_request *req)
++{
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++	
++	return 0;
++}
++#endif //CONFIG_AP_MODE
++
++void rtw_cfg80211_rx_action_p2p(_adapter *padapter, u8 *pmgmt_frame, uint frame_len)
++{
++	int type;
++	s32 freq;
++	int channel;
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++	u8 category, action;
++
++	channel = rtw_get_oper_ch(padapter);
++
++	DBG_8192C("RTW_Rx:cur_ch=%d\n", channel);
++	#ifdef CONFIG_P2P
++	type = rtw_p2p_check_frames(padapter, pmgmt_frame, frame_len, _FALSE);
++	if (type >= 0)
++		goto indicate;
++	#endif
++	rtw_action_frame_parse(pmgmt_frame, frame_len, &category, &action);
++	DBG_871X("RTW_Rx:category(%u), action(%u)\n", category, action);
++
++indicate:
++	if (channel <= RTW_CH_MAX_2G_CHANNEL)
++		freq = rtw_ieee80211_channel_to_frequency(channel, IEEE80211_BAND_2GHZ);
++	else
++		freq = rtw_ieee80211_channel_to_frequency(channel, IEEE80211_BAND_5GHZ);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE)
++	rtw_cfg80211_rx_mgmt(padapter, freq, 0, pmgmt_frame, frame_len, GFP_ATOMIC);
++#else
++	cfg80211_rx_action(padapter->pnetdev, freq, pmgmt_frame, frame_len, GFP_ATOMIC);
++#endif
++}
++
++void rtw_cfg80211_rx_p2p_action_public(_adapter *padapter, u8 *pmgmt_frame, uint frame_len)
++{
++	int type;
++	s32 freq;
++	int channel;
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++	u8 category, action;
++
++	channel = rtw_get_oper_ch(padapter);
++
++	DBG_8192C("RTW_Rx:cur_ch=%d\n", channel);
++	#ifdef CONFIG_P2P
++	type = rtw_p2p_check_frames(padapter, pmgmt_frame, frame_len, _FALSE);
++	if (type >= 0) {
++		switch (type) {
++		case P2P_GO_NEGO_CONF:
++		case P2P_PROVISION_DISC_RESP:
++		case P2P_INVIT_RESP:
++			rtw_set_scan_deny(padapter, 2000);
++			rtw_clear_scan_deny(padapter);
++		}
++		goto indicate;
++	}
++	#endif
++	rtw_action_frame_parse(pmgmt_frame, frame_len, &category, &action);
++	DBG_871X("RTW_Rx:category(%u), action(%u)\n", category, action);
++
++indicate:
++	if (channel <= RTW_CH_MAX_2G_CHANNEL)
++		freq = rtw_ieee80211_channel_to_frequency(channel, IEEE80211_BAND_2GHZ);
++	else
++		freq = rtw_ieee80211_channel_to_frequency(channel, IEEE80211_BAND_5GHZ);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE)
++	rtw_cfg80211_rx_mgmt(padapter, freq, 0, pmgmt_frame, frame_len, GFP_ATOMIC);
++#else
++	cfg80211_rx_action(padapter->pnetdev, freq, pmgmt_frame, frame_len, GFP_ATOMIC);
++#endif
++}
++
++void rtw_cfg80211_rx_action(_adapter *adapter, u8 *frame, uint frame_len, const char*msg)
++{
++	s32 freq;
++	int channel;
++	struct mlme_ext_priv *pmlmeext = &(adapter->mlmeextpriv);	
++	struct rtw_wdev_priv *pwdev_priv = wdev_to_priv(adapter->rtw_wdev);
++	u8 category, action;
++
++	channel = rtw_get_oper_ch(adapter);
++
++	rtw_action_frame_parse(frame, frame_len, &category, &action);
++
++	DBG_8192C("RTW_Rx:cur_ch=%d\n", channel);
++	if (msg)
++		DBG_871X("RTW_Rx:%s\n", msg);
++	else
++		DBG_871X("RTW_Rx:category(%u), action(%u)\n", category, action);
++
++	if (channel <= RTW_CH_MAX_2G_CHANNEL)
++		freq = rtw_ieee80211_channel_to_frequency(channel, IEEE80211_BAND_2GHZ);
++	else
++		freq = rtw_ieee80211_channel_to_frequency(channel, IEEE80211_BAND_5GHZ);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE)
++	rtw_cfg80211_rx_mgmt(adapter, freq, 0, frame, frame_len, GFP_ATOMIC);
++#else
++	cfg80211_rx_action(adapter->pnetdev, freq, frame, frame_len, GFP_ATOMIC);
++#endif
++
++}
++
++#ifdef CONFIG_P2P
++void rtw_cfg80211_issue_p2p_provision_request(_adapter *padapter, const u8 *buf, size_t len)
++{
++	u16	wps_devicepassword_id = 0x0000;
++	uint	wps_devicepassword_id_len = 0;
++	u8			wpsie[ 255 ] = { 0x00 }, p2p_ie[ 255 ] = { 0x00 };
++	uint			p2p_ielen = 0;
++	uint			wpsielen = 0;
++	u32	devinfo_contentlen = 0;
++	u8	devinfo_content[64] = { 0x00 };
++	u16	capability = 0;
++	uint capability_len = 0;
++	
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u8			dialogToken = 1;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_PROVISION_DISC_REQ;	
++	u32			p2pielen = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif //CONFIG_WFD		
++	
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++	u8 *frame_body = (unsigned char *)(buf + sizeof(struct rtw_ieee80211_hdr_3addr));
++	size_t frame_body_len = len - sizeof(struct rtw_ieee80211_hdr_3addr);
++
++
++	DBG_871X( "[%s] In\n", __FUNCTION__ );
++
++	//prepare for building provision_request frame	
++	_rtw_memcpy(pwdinfo->tx_prov_disc_info.peerIFAddr, GetAddr1Ptr(buf), ETH_ALEN);
++	_rtw_memcpy(pwdinfo->tx_prov_disc_info.peerDevAddr, GetAddr1Ptr(buf), ETH_ALEN);
++	
++	pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_PUSH_BUTTON;
++		
++	rtw_get_wps_ie( frame_body + _PUBLIC_ACTION_IE_OFFSET_, frame_body_len - _PUBLIC_ACTION_IE_OFFSET_, wpsie, &wpsielen);
++	rtw_get_wps_attr_content( wpsie, wpsielen, WPS_ATTR_DEVICE_PWID, (u8*) &wps_devicepassword_id, &wps_devicepassword_id_len);
++	wps_devicepassword_id = be16_to_cpu( wps_devicepassword_id );
++
++	switch(wps_devicepassword_id) 
++	{
++		case WPS_DPID_PIN:
++			pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_LABEL;
++			break;
++		case WPS_DPID_USER_SPEC:
++			pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_DISPLYA;
++			break;
++		case WPS_DPID_MACHINE_SPEC:
++			break;
++		case WPS_DPID_REKEY:
++			break;
++		case WPS_DPID_PBC:
++			pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_PUSH_BUTTON;
++			break;
++		case WPS_DPID_REGISTRAR_SPEC:
++			pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_KEYPAD;
++			break;
++		default:
++			break;
++	}
++
++
++	if ( rtw_get_p2p_ie( frame_body + _PUBLIC_ACTION_IE_OFFSET_, frame_body_len - _PUBLIC_ACTION_IE_OFFSET_, p2p_ie, &p2p_ielen ) )
++	{	
++
++		rtw_get_p2p_attr_content( p2p_ie, p2p_ielen, P2P_ATTR_DEVICE_INFO, devinfo_content, &devinfo_contentlen);					
++		rtw_get_p2p_attr_content( p2p_ie, p2p_ielen, P2P_ATTR_CAPABILITY, (u8*)&capability, &capability_len);
++						
++	}
++
++
++	//start to build provision_request frame	
++	_rtw_memset(wpsie, 0, sizeof(wpsie));
++	_rtw_memset(p2p_ie, 0, sizeof(p2p_ie));
++	p2p_ielen = 0;	
++	
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		return;
++	}
++
++	
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, pwdinfo->tx_prov_disc_info.peerDevAddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, myid(&(padapter->eeprompriv)), ETH_ALEN);	
++	_rtw_memcpy(pwlanhdr->addr3, pwdinfo->tx_prov_disc_info.peerDevAddr, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));	
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));		
++
++
++	//build_prov_disc_request_p2p_ie	
++	//	P2P OUI
++	p2pielen = 0;
++	p2p_ie[ p2pielen++ ] = 0x50;
++	p2p_ie[ p2pielen++ ] = 0x6F;
++	p2p_ie[ p2pielen++ ] = 0x9A;
++	p2p_ie[ p2pielen++ ] = 0x09;	//	WFA P2P v1.0
++
++	//	Commented by Albert 20110301
++	//	According to the P2P Specification, the provision discovery request frame should contain 3 P2P attributes
++	//	1. P2P Capability
++	//	2. Device Info
++	//	3. Group ID ( When joining an operating P2P Group )
++
++	//	P2P Capability ATTR
++	//	Type:	
++	p2p_ie[ p2pielen++ ] = P2P_ATTR_CAPABILITY;
++
++	//	Length:
++	//*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0002 );
++	RTW_PUT_LE16(p2p_ie + p2pielen, 0x0002);
++	p2pielen += 2;
++
++	//	Value:
++	//	Device Capability Bitmap, 1 byte
++	//	Group Capability Bitmap, 1 byte
++	_rtw_memcpy(p2p_ie + p2pielen, &capability, 2);
++	p2pielen += 2;
++	
++
++	//	Device Info ATTR
++	//	Type:
++	p2p_ie[ p2pielen++ ] = P2P_ATTR_DEVICE_INFO;
++
++	//	Length:
++	//	21 -> P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes) 
++	//	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes)
++	//*(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 21 + pwdinfo->device_name_len );
++	RTW_PUT_LE16(p2p_ie + p2pielen, devinfo_contentlen);
++	p2pielen += 2;
++
++	//	Value:
++	_rtw_memcpy(p2p_ie + p2pielen, devinfo_content, devinfo_contentlen);
++	p2pielen += devinfo_contentlen;
++
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2p_ie, &p2p_ielen);			
++	//p2pielen = build_prov_disc_request_p2p_ie( pwdinfo, pframe, NULL, 0, pwdinfo->tx_prov_disc_info.peerDevAddr);
++	//pframe += p2pielen;
++	pattrib->pktlen += p2p_ielen;
++
++	wpsielen = 0;
++	//	WPS OUI
++	*(u32*) ( wpsie ) = cpu_to_be32( WPSOUI );
++	wpsielen += 4;
++
++	//	WPS version
++	//	Type:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_VER1 );
++	wpsielen += 2;
++
++	//	Length:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0001 );
++	wpsielen += 2;
++
++	//	Value:
++	wpsie[wpsielen++] = WPS_VERSION_1;	//	Version 1.0
++
++	//	Config Method
++	//	Type:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_CONF_METHOD );
++	wpsielen += 2;
++
++	//	Length:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0002 );
++	wpsielen += 2;
++
++	//	Value:
++	*(u16*) ( wpsie + wpsielen ) = cpu_to_be16( pwdinfo->tx_prov_disc_info.wps_config_method_request );
++	wpsielen += 2;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen );
++
++
++#ifdef CONFIG_WFD
++	wfdielen = build_provdisc_req_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif //CONFIG_WFD
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	//dump_mgntframe(padapter, pmgntframe);
++	if (dump_mgntframe_and_wait_ack(padapter, pmgntframe) != _SUCCESS)
++		DBG_8192C("%s, ack to\n", __func__);
++
++	//if(wps_devicepassword_id == WPS_DPID_REGISTRAR_SPEC)
++	//{
++	//	DBG_8192C("waiting for p2p peer key-in PIN CODE\n");
++	//	rtw_msleep_os(15000); // 15 sec for key in PIN CODE, workaround for GS2 before issuing Nego Req.
++	//}	
++
++}
++
++static s32 cfg80211_rtw_remain_on_channel(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3,6,0))
++	struct wireless_dev *wdev,
++#else
++	struct net_device *ndev,
++#endif
++	struct ieee80211_channel * channel,
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3,8,0))
++	enum nl80211_channel_type channel_type,
++#endif
++	unsigned int duration, u64 *cookie)
++{
++	s32 err = 0;
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++	struct rtw_wdev_priv *pwdev_priv = wdev_to_priv(padapter->rtw_wdev);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++	struct cfg80211_wifidirect_info *pcfg80211_wdinfo = &padapter->cfg80211_wdinfo;
++	u8 remain_ch = (u8) ieee80211_frequency_to_channel(channel->center_freq);
++	u8 ready_on_channel = _FALSE;
++
++	DBG_871X(FUNC_ADPT_FMT" ch:%u duration:%d\n", FUNC_ADPT_ARG(padapter), remain_ch, duration);
++
++	if(pcfg80211_wdinfo->is_ro_ch == _TRUE)
++	{
++		DBG_8192C("%s, cancel ro ch timer\n", __func__);
++		
++		_cancel_timer_ex(&padapter->cfg80211_wdinfo.remain_on_ch_timer);
++
++#ifdef CONFIG_CONCURRENT_MODE
++                ATOMIC_SET(&pwdev_priv->ro_ch_to, 1);			
++#endif //CONFIG_CONCURRENT_MODE	
++
++		p2p_protocol_wk_hdl(padapter, P2P_RO_CH_WK);
++	}
++
++	pcfg80211_wdinfo->is_ro_ch = _TRUE;
++
++	if(_FAIL == rtw_pwr_wakeup(padapter)) {
++		err = -EFAULT;
++		goto exit;
++	}
++
++	_rtw_memcpy(&pcfg80211_wdinfo->remain_on_ch_channel, channel, sizeof(struct ieee80211_channel));
++	#if (LINUX_VERSION_CODE < KERNEL_VERSION(3,8,0))
++	pcfg80211_wdinfo->remain_on_ch_type= channel_type;
++	#endif
++	pcfg80211_wdinfo->remain_on_ch_cookie= *cookie;
++
++	rtw_scan_abort(padapter);
++#ifdef CONFIG_CONCURRENT_MODE		
++	if(rtw_buddy_adapter_up(padapter))	
++		rtw_scan_abort(padapter->pbuddy_adapter);			
++#endif //CONFIG_CONCURRENT_MODE
++
++	//if(!rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT) && !rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++	{
++		rtw_p2p_enable(padapter, P2P_ROLE_DEVICE);
++		wdev_to_priv(padapter->rtw_wdev)->p2p_enabled = _TRUE;
++	}
++	else
++	{
++		rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++#ifdef CONFIG_DEBUG_CFG80211		
++		DBG_8192C("%s, role=%d, p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo));
++#endif
++	}
++
++
++	rtw_p2p_set_state(pwdinfo, P2P_STATE_LISTEN);
++	
++	
++	if(duration < 400)
++		duration = duration*3;//extend from exper.
++
++
++#ifdef	CONFIG_CONCURRENT_MODE
++	if(check_buddy_fwstate(padapter, _FW_LINKED) &&
++		(duration<pwdinfo->ext_listen_interval)) 
++	{
++		duration = duration + 	pwdinfo->ext_listen_interval;
++	}
++#endif
++
++	pcfg80211_wdinfo->restore_channel = rtw_get_oper_ch(padapter);
++
++	if(rtw_ch_set_search_ch(pmlmeext->channel_set, remain_ch) >= 0) {
++#ifdef	CONFIG_CONCURRENT_MODE
++		if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++		{
++			PADAPTER pbuddy_adapter = padapter->pbuddy_adapter;			
++			struct mlme_ext_priv *pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;	
++
++			if(remain_ch != pbuddy_mlmeext->cur_channel)
++			{	
++				if(ATOMIC_READ(&pwdev_priv->switch_ch_to)==1 ||
++					(remain_ch != pmlmeext->cur_channel))
++				{
++					DBG_8192C("%s, issue nulldata pwrbit=1\n", __func__);		
++					issue_nulldata(padapter->pbuddy_adapter, NULL, 1, 3, 500);
++				
++					ATOMIC_SET(&pwdev_priv->switch_ch_to, 0);
++			
++					DBG_8192C("%s, set switch ch timer, duration=%d\n", __func__, duration-pwdinfo->ext_listen_interval);
++					_set_timer(&pwdinfo->ap_p2p_switch_timer, duration-pwdinfo->ext_listen_interval);	
++				}			
++			}
++		
++			ready_on_channel = _TRUE;
++			//pmlmeext->cur_channel = remain_ch;			
++			//set_channel_bwmode(padapter, remain_ch, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++		}else 
++#endif //CONFIG_CONCURRENT_MODE
++		if(remain_ch != pmlmeext->cur_channel )
++		{
++			ready_on_channel = _TRUE;
++			//pmlmeext->cur_channel = remain_ch;			
++			//set_channel_bwmode(padapter, remain_ch, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++		}
++	} else {
++		DBG_871X("%s remain_ch:%u not in channel plan!!!!\n", __FUNCTION__, remain_ch);
++	}
++	
++
++	//call this after other things have been done
++#ifdef	CONFIG_CONCURRENT_MODE	
++	if(ATOMIC_READ(&pwdev_priv->ro_ch_to)==1 ||
++		(remain_ch != pmlmeext->cur_channel))
++	{
++		u8 co_channel = 0xff;
++		ATOMIC_SET(&pwdev_priv->ro_ch_to, 0);
++#endif
++
++		if(ready_on_channel == _TRUE)
++		{			
++			if ( !check_fwstate(&padapter->mlmepriv, _FW_LINKED ) )
++				pmlmeext->cur_channel = remain_ch;
++			
++#ifdef	CONFIG_CONCURRENT_MODE
++			co_channel = rtw_get_oper_ch(padapter);
++
++			if(co_channel !=remain_ch)
++#endif
++			{
++				if (!padapter->mlmepriv.LinkDetectInfo.bBusyTraffic)
++					set_channel_bwmode(padapter, remain_ch, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);			
++			}
++		}
++		DBG_8192C("%s, set ro ch timer, duration=%d\n", __func__, duration);
++		_set_timer( &pcfg80211_wdinfo->remain_on_ch_timer, duration);
++
++#ifdef	CONFIG_CONCURRENT_MODE
++	}
++#endif
++
++	rtw_cfg80211_ready_on_channel(padapter, *cookie, channel, channel_type, duration, GFP_KERNEL);
++
++exit:
++	if (err)
++		pcfg80211_wdinfo->is_ro_ch = _FALSE;
++
++	return err;
++}
++
++static s32 cfg80211_rtw_cancel_remain_on_channel(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3,6,0))
++	struct wireless_dev *wdev,
++#else
++	struct net_device *ndev,
++#endif
++	u64 cookie)
++{
++	s32 err = 0;
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++	struct rtw_wdev_priv *pwdev_priv = wdev_to_priv(padapter->rtw_wdev);
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++	struct cfg80211_wifidirect_info *pcfg80211_wdinfo = &padapter->cfg80211_wdinfo;
++
++	DBG_871X(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++	if (pcfg80211_wdinfo->is_ro_ch == _TRUE) {
++		DBG_8192C("%s, cancel ro ch timer\n", __func__);
++		_cancel_timer_ex(&padapter->cfg80211_wdinfo.remain_on_ch_timer);
++		#ifdef CONFIG_CONCURRENT_MODE
++		ATOMIC_SET(&pwdev_priv->ro_ch_to, 1);
++		#endif
++		p2p_protocol_wk_hdl(padapter, P2P_RO_CH_WK);
++	}
++
++	#if 0
++	//	Disable P2P Listen State
++	if(!rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT) && !rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++	{
++		if(!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		{
++			_cancel_timer_ex( &pwdinfo->find_phase_timer );
++			_cancel_timer_ex( &pwdinfo->restore_p2p_state_timer );
++			_cancel_timer_ex( &pwdinfo->pre_tx_scan_timer);
++			
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_NONE);
++			_rtw_memset(pwdinfo, 0x00, sizeof(struct wifidirect_info));
++		}
++	}
++	else
++	#endif
++	{
++		 rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++#ifdef CONFIG_DEBUG_CFG80211		 
++		 DBG_8192C("%s, role=%d, p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo));
++#endif
++	}
++	pcfg80211_wdinfo->is_ro_ch = _FALSE;
++
++	return err;
++}
++
++#endif //CONFIG_P2P
++
++static int _cfg80211_rtw_mgmt_tx(_adapter *padapter, u8 tx_ch, const u8 *buf, size_t len)
++{
++	struct xmit_frame	*pmgntframe;
++	struct pkt_attrib	*pattrib;
++	unsigned char	*pframe;
++	int ret = _FAIL;
++	bool ack = _TRUE;
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	struct rtw_wdev_priv *pwdev_priv = wdev_to_priv(padapter->rtw_wdev);
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);	
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++	//struct cfg80211_wifidirect_info *pcfg80211_wdinfo = &padapter->cfg80211_wdinfo;
++
++	if(_FAIL == rtw_pwr_wakeup(padapter)) {
++		ret = -EFAULT;
++		goto exit;
++	}
++
++	rtw_set_scan_deny(padapter, 1000);
++
++	rtw_scan_abort(padapter);
++	#ifdef CONFIG_CONCURRENT_MODE		
++	if(rtw_buddy_adapter_up(padapter))	
++		rtw_scan_abort(padapter->pbuddy_adapter);
++	#endif /* CONFIG_CONCURRENT_MODE */
++
++	if (padapter->cfg80211_wdinfo.is_ro_ch == _TRUE) {
++		//DBG_8192C("%s, cancel ro ch timer\n", __func__);
++		//_cancel_timer_ex(&padapter->cfg80211_wdinfo.remain_on_ch_timer);
++		//padapter->cfg80211_wdinfo.is_ro_ch = _FALSE;
++		#ifdef CONFIG_CONCURRENT_MODE			
++		if (!check_fwstate(&padapter->mlmepriv, _FW_LINKED ))
++		{
++			DBG_8192C("%s, extend ro ch time\n", __func__);
++			_set_timer( &padapter->cfg80211_wdinfo.remain_on_ch_timer, pwdinfo->ext_listen_period);
++		}	
++		#endif //CONFIG_CONCURRENT_MODE			
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (check_buddy_fwstate(padapter, _FW_LINKED )) {
++		u8 co_channel=0xff;
++		PADAPTER pbuddy_adapter = padapter->pbuddy_adapter;			
++		struct mlme_ext_priv *pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;	
++
++		co_channel = rtw_get_oper_ch(padapter);
++
++		if (tx_ch != pbuddy_mlmeext->cur_channel) {
++
++			u16 ext_listen_period;
++
++			if (ATOMIC_READ(&pwdev_priv->switch_ch_to)==1) {
++				DBG_8192C("%s, issue nulldata pwrbit=1\n", __func__);
++				issue_nulldata(padapter->pbuddy_adapter, NULL, 1, 3, 500);
++
++				ATOMIC_SET(&pwdev_priv->switch_ch_to, 0);
++
++				//DBG_8192C("%s, set switch ch timer, period=%d\n", __func__, pwdinfo->ext_listen_period);
++				//_set_timer(&pwdinfo->ap_p2p_switch_timer, pwdinfo->ext_listen_period);
++			}
++
++			if (check_fwstate(&padapter->mlmepriv, _FW_LINKED ))
++			{
++				ext_listen_period = 500;// 500ms
++			}	
++			else
++			{				
++				ext_listen_period = pwdinfo->ext_listen_period;
++			}
++
++			DBG_8192C("%s, set switch ch timer, period=%d\n", __func__, ext_listen_period);
++			_set_timer(&pwdinfo->ap_p2p_switch_timer, ext_listen_period);	
++			
++		}
++
++		if (!check_fwstate(&padapter->mlmepriv, _FW_LINKED ))
++			pmlmeext->cur_channel = tx_ch;
++
++		if (tx_ch != co_channel)
++			set_channel_bwmode(padapter, tx_ch, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++	}else 
++#endif //CONFIG_CONCURRENT_MODE
++	//if (tx_ch != pmlmeext->cur_channel) {
++	if(tx_ch != rtw_get_oper_ch(padapter)) {
++		if (!check_fwstate(&padapter->mlmepriv, _FW_LINKED ))
++			pmlmeext->cur_channel = tx_ch;
++		set_channel_bwmode(padapter, tx_ch, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++	}
++
++	//starting alloc mgmt frame to dump it
++	if ((pmgntframe = alloc_mgtxmitframe(pxmitpriv)) == NULL)
++	{
++		//ret = -ENOMEM;
++		ret = _FAIL;
++		goto exit;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++	pattrib->retry_ctrl = _FALSE;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	_rtw_memcpy(pframe, (void*)buf, len);
++	pattrib->pktlen = len;	
++	
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++	//update seq number
++	pmlmeext->mgnt_seq = GetSequence(pwlanhdr);
++	pattrib->seqnum = pmlmeext->mgnt_seq;
++	pmlmeext->mgnt_seq++;
++
++#ifdef CONFIG_WFD
++	{
++		struct wifi_display_info	*pwfd_info;
++			
++		pwfd_info = padapter->wdinfo.wfd_info;
++			
++		if ( _TRUE == pwfd_info->wfd_enable )
++		{
++			rtw_append_wfd_ie( padapter, pframe, &pattrib->pktlen );
++		}
++	}
++#endif // CONFIG_WFD
++	
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	if (dump_mgntframe_and_wait_ack(padapter, pmgntframe) != _SUCCESS) 
++	{
++		ack = _FALSE;
++		ret = _FAIL;
++
++		#ifdef CONFIG_DEBUG_CFG80211
++		DBG_8192C("%s, ack == _FAIL\n", __func__);
++		#endif
++	}
++	else 
++	{
++		#ifdef CONFIG_DEBUG_CFG80211
++		DBG_8192C("%s, ack=%d, ok!\n", __func__, ack);
++		#endif
++		ret = _SUCCESS;
++	}
++	
++exit:
++
++	#ifdef CONFIG_DEBUG_CFG80211
++	DBG_8192C("%s, ret=%d\n", __func__, ret);
++	#endif
++	
++	return ret;		
++	
++}
++
++static int cfg80211_rtw_mgmt_tx(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3,6,0))
++	struct wireless_dev *wdev,
++#else
++	struct net_device *ndev,
++#endif
++	struct ieee80211_channel *chan,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,38)) || defined(COMPAT_KERNEL_RELEASE)
++	bool offchan,
++#endif
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3,8,0))
++	enum nl80211_channel_type channel_type,
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE)
++	bool channel_type_valid,
++	#endif
++#endif
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,38)) || defined(COMPAT_KERNEL_RELEASE)
++	unsigned int wait,
++#endif
++	const u8 *buf, size_t len,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3,2,0))
++	bool no_cck,
++#endif
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3,3,0))
++	bool dont_wait_for_ack,
++#endif
++	u64 *cookie)
++{
++	_adapter *padapter = (_adapter *)wiphy_to_adapter(wiphy);
++	struct rtw_wdev_priv *pwdev_priv = wdev_to_priv(padapter->rtw_wdev);
++	int ret = 0;
++	int tx_ret;
++	u32 dump_limit = RTW_MAX_MGMT_TX_CNT;
++	u32 dump_cnt = 0;
++	bool ack = _TRUE;
++	u8 tx_ch = (u8)ieee80211_frequency_to_channel(chan->center_freq);
++	u8 category, action;
++	int type = (-1);
++	u32 start = rtw_get_current_time();
++
++	/* cookie generation */
++	*cookie = (unsigned long) buf;
++
++#ifdef CONFIG_DEBUG_CFG80211
++	DBG_871X(FUNC_ADPT_FMT" len=%zu, ch=%d"
++	#if (LINUX_VERSION_CODE < KERNEL_VERSION(3,8,0))
++		", ch_type=%d"
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE)	
++		", channel_type_valid=%d"
++		#endif
++	#endif
++		"\n", FUNC_ADPT_ARG(padapter),
++		len, tx_ch
++	#if (LINUX_VERSION_CODE < KERNEL_VERSION(3,8,0))
++		, channel_type
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE)	
++		, channel_type_valid
++		#endif
++	#endif
++	);
++#endif /* CONFIG_DEBUG_CFG80211 */
++
++	/* indicate ack before issue frame to avoid racing with rsp frame */
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE)
++	rtw_cfg80211_mgmt_tx_status(padapter, *cookie, buf, len, ack, GFP_KERNEL);
++#elif  (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,34) && LINUX_VERSION_CODE<=KERNEL_VERSION(2,6,35))
++	cfg80211_action_tx_status(ndev, *cookie, buf, len, ack, GFP_KERNEL);
++#endif
++
++	if (rtw_action_frame_parse(buf, len, &category, &action) == _FALSE) {
++		DBG_8192C(FUNC_ADPT_FMT" frame_control:0x%x\n", FUNC_ADPT_ARG(padapter),
++			le16_to_cpu(((struct rtw_ieee80211_hdr_3addr *)buf)->frame_ctl));
++		goto exit;
++	}
++
++	DBG_8192C("RTW_Tx:tx_ch=%d, da="MAC_FMT"\n", tx_ch, MAC_ARG(GetAddr1Ptr(buf)));
++	#ifdef CONFIG_P2P
++	if((type = rtw_p2p_check_frames(padapter, buf, len, _TRUE)) >= 0) {
++		goto dump;
++	}
++	#endif
++	if (category == RTW_WLAN_CATEGORY_PUBLIC)
++		DBG_871X("RTW_Tx:%s\n", action_public_str(action));
++	else
++		DBG_871X("RTW_Tx:category(%u), action(%u)\n", category, action);
++
++dump:
++	do {
++		dump_cnt++;
++		tx_ret = _cfg80211_rtw_mgmt_tx(padapter, tx_ch, buf, len);
++	} while (dump_cnt < dump_limit && tx_ret != _SUCCESS);
++
++	if (tx_ret != _SUCCESS || dump_cnt > 1) {
++		DBG_871X(FUNC_ADPT_FMT" %s (%d/%d) in %d ms\n", FUNC_ADPT_ARG(padapter),
++			tx_ret==_SUCCESS?"OK":"FAIL", dump_cnt, dump_limit, rtw_get_passing_time_ms(start));
++	}
++
++	switch (type) {
++	case P2P_GO_NEGO_CONF:
++		rtw_clear_scan_deny(padapter);
++		break;
++	case P2P_INVIT_RESP:
++		if (pwdev_priv->invit_info.flags & BIT(0)
++			&& pwdev_priv->invit_info.status == 0) 
++		{
++			DBG_871X(FUNC_ADPT_FMT" agree with invitation of persistent group\n",
++				FUNC_ADPT_ARG(padapter));
++			rtw_set_scan_deny(padapter, 5000);
++			rtw_pwr_wakeup_ex(padapter, 5000);
++			rtw_clear_scan_deny(padapter);
++		}
++		break;
++	}	
++
++exit:
++	return ret;
++}
++
++static void cfg80211_rtw_mgmt_frame_register(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct wireless_dev *wdev,
++#else
++	struct net_device *ndev,
++#endif
++	u16 frame_type, bool reg)
++{
++	_adapter *adapter = wiphy_to_adapter(wiphy);
++
++#ifdef CONFIG_DEBUG_CFG80211
++	DBG_871X(FUNC_ADPT_FMT" frame_type:%x, reg:%d\n", FUNC_ADPT_ARG(adapter),
++		frame_type, reg);
++#endif
++
++	if (frame_type != (IEEE80211_FTYPE_MGMT | IEEE80211_STYPE_PROBE_REQ))
++		return;
++
++	return;
++}
++
++static int rtw_cfg80211_set_beacon_wpsp2pie(struct net_device *ndev, char *buf, int len)
++{	
++	int ret = 0;
++	uint wps_ielen = 0;
++	u8 *wps_ie;
++	u32	p2p_ielen = 0;
++	u8 wps_oui[8]={0x0,0x50,0xf2,0x04};	
++	u8 *p2p_ie;
++	u32	wfd_ielen = 0;	
++	u8 *wfd_ie;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++
++	DBG_871X(FUNC_NDEV_FMT" ielen=%d\n", FUNC_NDEV_ARG(ndev), len);
++	
++	if(len>0)
++	{
++		if((wps_ie = rtw_get_wps_ie(buf, len, NULL, &wps_ielen)))
++		{	
++			#ifdef CONFIG_DEBUG_CFG80211
++			DBG_8192C("bcn_wps_ielen=%d\n", wps_ielen);
++			#endif
++		
++			if(pmlmepriv->wps_beacon_ie)
++			{
++				u32 free_len = pmlmepriv->wps_beacon_ie_len;
++				pmlmepriv->wps_beacon_ie_len = 0;
++				rtw_mfree(pmlmepriv->wps_beacon_ie, free_len);
++				pmlmepriv->wps_beacon_ie = NULL;			
++			}	
++
++			pmlmepriv->wps_beacon_ie = rtw_malloc(wps_ielen);
++			if ( pmlmepriv->wps_beacon_ie == NULL) {
++				DBG_8192C("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				return -EINVAL;
++			
++			}
++			
++			_rtw_memcpy(pmlmepriv->wps_beacon_ie, wps_ie, wps_ielen);
++			pmlmepriv->wps_beacon_ie_len = wps_ielen;
++	
++			update_beacon(padapter, _VENDOR_SPECIFIC_IE_, wps_oui, _TRUE);
++
++		}
++
++		//buf += wps_ielen;
++		//len -= wps_ielen;
++
++		#ifdef CONFIG_P2P
++		if((p2p_ie=rtw_get_p2p_ie(buf, len, NULL, &p2p_ielen)))
++		{
++			#ifdef CONFIG_DEBUG_CFG80211
++			DBG_8192C("bcn_p2p_ielen=%d\n", p2p_ielen);
++			#endif
++		
++			if(pmlmepriv->p2p_beacon_ie)
++			{
++				u32 free_len = pmlmepriv->p2p_beacon_ie_len;
++				pmlmepriv->p2p_beacon_ie_len = 0;
++				rtw_mfree(pmlmepriv->p2p_beacon_ie, free_len);
++				pmlmepriv->p2p_beacon_ie = NULL;			
++			}	
++
++			pmlmepriv->p2p_beacon_ie = rtw_malloc(p2p_ielen);
++			if ( pmlmepriv->p2p_beacon_ie == NULL) {
++				DBG_8192C("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				return -EINVAL;
++			
++			}
++			
++			_rtw_memcpy(pmlmepriv->p2p_beacon_ie, p2p_ie, p2p_ielen);
++			pmlmepriv->p2p_beacon_ie_len = p2p_ielen;
++			
++		}
++		#endif //CONFIG_P2P
++		
++		//buf += p2p_ielen;
++		//len -= p2p_ielen;
++
++		#ifdef CONFIG_WFD
++		if(rtw_get_wfd_ie(buf, len, NULL, &wfd_ielen)) 
++		{
++			#ifdef CONFIG_DEBUG_CFG80211
++			DBG_8192C("bcn_wfd_ielen=%d\n", wfd_ielen);
++			#endif
++			
++			if(pmlmepriv->wfd_beacon_ie)
++			{
++				u32 free_len = pmlmepriv->wfd_beacon_ie_len;
++				pmlmepriv->wfd_beacon_ie_len = 0;
++				rtw_mfree(pmlmepriv->wfd_beacon_ie, free_len);
++				pmlmepriv->wfd_beacon_ie = NULL;
++			}	
++
++			pmlmepriv->wfd_beacon_ie = rtw_malloc(wfd_ielen);
++			if ( pmlmepriv->wfd_beacon_ie == NULL) {
++				DBG_8192C("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				return -EINVAL;
++			
++			}
++			rtw_get_wfd_ie(buf, len, pmlmepriv->wfd_beacon_ie, &pmlmepriv->wfd_beacon_ie_len);			
++		}
++		#endif //CONFIG_WFD
++		
++		pmlmeext->bstart_bss = _TRUE;
++		
++	}
++
++	return ret;
++	
++}
++
++static int rtw_cfg80211_set_probe_resp_wpsp2pie(struct net_device *net, char *buf, int len)
++{
++	int ret = 0;
++	uint wps_ielen = 0;
++	u8 *wps_ie;
++	u32	p2p_ielen = 0;	
++	u8 *p2p_ie;
++	u32	wfd_ielen = 0;	
++	u8 *wfd_ie;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);	
++
++#ifdef CONFIG_DEBUG_CFG80211
++	DBG_8192C("%s, ielen=%d\n", __func__, len);
++#endif
++	
++	if(len>0)
++	{
++		if((wps_ie = rtw_get_wps_ie(buf, len, NULL, &wps_ielen)))
++		{	
++			uint	attr_contentlen = 0;
++			u16	uconfig_method, *puconfig_method = NULL;
++
++			#ifdef CONFIG_DEBUG_CFG80211			
++			DBG_8192C("probe_resp_wps_ielen=%d\n", wps_ielen);
++			#endif
++
++			if(check_fwstate(pmlmepriv, WIFI_UNDER_WPS))
++			{
++				u8 sr = 0;
++				rtw_get_wps_attr_content(wps_ie,  wps_ielen, WPS_ATTR_SELECTED_REGISTRAR, (u8*)(&sr), NULL);
++
++				if (sr != 0)
++				{
++					DBG_871X("%s, got sr\n", __func__);
++				}
++				else
++				{
++					DBG_8192C("GO mode process WPS under site-survey,  sr no set\n");
++					return ret;
++				}
++			}
++
++			if(pmlmepriv->wps_probe_resp_ie)
++			{
++				u32 free_len = pmlmepriv->wps_probe_resp_ie_len;
++				pmlmepriv->wps_probe_resp_ie_len = 0;
++				rtw_mfree(pmlmepriv->wps_probe_resp_ie, free_len);
++				pmlmepriv->wps_probe_resp_ie = NULL;			
++			}	
++
++			pmlmepriv->wps_probe_resp_ie = rtw_malloc(wps_ielen);
++			if ( pmlmepriv->wps_probe_resp_ie == NULL) {
++				DBG_8192C("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				return -EINVAL;
++			
++			}
++			
++			//add PUSH_BUTTON config_method by driver self in wpsie of probe_resp at GO Mode 
++			if ( (puconfig_method = (u16*)rtw_get_wps_attr_content( wps_ie, wps_ielen, WPS_ATTR_CONF_METHOD , NULL, &attr_contentlen)) != NULL )
++			{
++				#ifdef CONFIG_DEBUG_CFG80211		
++				//printk("config_method in wpsie of probe_resp = 0x%x\n", be16_to_cpu(*puconfig_method));
++				#endif
++				
++				uconfig_method = WPS_CM_PUSH_BUTTON;
++				uconfig_method = cpu_to_be16( uconfig_method );
++
++				*puconfig_method |= uconfig_method;			
++			}
++			
++			_rtw_memcpy(pmlmepriv->wps_probe_resp_ie, wps_ie, wps_ielen);
++			pmlmepriv->wps_probe_resp_ie_len = wps_ielen;
++			
++		}
++
++		//buf += wps_ielen;
++		//len -= wps_ielen;
++
++		#ifdef CONFIG_P2P
++		if((p2p_ie=rtw_get_p2p_ie(buf, len, NULL, &p2p_ielen))) 
++		{
++			u8 is_GO = _FALSE;			
++			u32 attr_contentlen = 0;
++			u16 cap_attr=0;
++
++			#ifdef CONFIG_DEBUG_CFG80211
++			DBG_8192C("probe_resp_p2p_ielen=%d\n", p2p_ielen);
++			#endif			
++
++			//Check P2P Capability ATTR
++			if( rtw_get_p2p_attr_content( p2p_ie, p2p_ielen, P2P_ATTR_CAPABILITY, (u8*)&cap_attr, (uint*) &attr_contentlen) )
++			{
++				u8 grp_cap=0;
++				//DBG_8192C( "[%s] Got P2P Capability Attr!!\n", __FUNCTION__ );
++				cap_attr = le16_to_cpu(cap_attr);
++				grp_cap = (u8)((cap_attr >> 8)&0xff);
++				
++				is_GO = (grp_cap&BIT(0)) ? _TRUE:_FALSE;
++
++				if(is_GO)
++					DBG_8192C("Got P2P Capability Attr, grp_cap=0x%x, is_GO\n", grp_cap);
++			}
++
++
++			if(is_GO == _FALSE)
++			{
++				if(pmlmepriv->p2p_probe_resp_ie)
++				{
++					u32 free_len = pmlmepriv->p2p_probe_resp_ie_len;
++					pmlmepriv->p2p_probe_resp_ie_len = 0;
++					rtw_mfree(pmlmepriv->p2p_probe_resp_ie, free_len);
++					pmlmepriv->p2p_probe_resp_ie = NULL;		
++				}	
++
++				pmlmepriv->p2p_probe_resp_ie = rtw_malloc(p2p_ielen);
++				if ( pmlmepriv->p2p_probe_resp_ie == NULL) {
++					DBG_8192C("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++					return -EINVAL;
++				
++				}
++				_rtw_memcpy(pmlmepriv->p2p_probe_resp_ie, p2p_ie, p2p_ielen);
++				pmlmepriv->p2p_probe_resp_ie_len = p2p_ielen;
++			}		
++			else
++			{
++				if(pmlmepriv->p2p_go_probe_resp_ie)
++				{
++					u32 free_len = pmlmepriv->p2p_go_probe_resp_ie_len;
++					pmlmepriv->p2p_go_probe_resp_ie_len = 0;
++					rtw_mfree(pmlmepriv->p2p_go_probe_resp_ie, free_len);
++					pmlmepriv->p2p_go_probe_resp_ie = NULL;			
++				}	
++
++				pmlmepriv->p2p_go_probe_resp_ie = rtw_malloc(p2p_ielen);
++				if ( pmlmepriv->p2p_go_probe_resp_ie == NULL) {
++					DBG_8192C("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++					return -EINVAL;
++			
++				}
++				_rtw_memcpy(pmlmepriv->p2p_go_probe_resp_ie, p2p_ie, p2p_ielen);
++				pmlmepriv->p2p_go_probe_resp_ie_len = p2p_ielen;
++			}
++			
++		}
++		#endif //CONFIG_P2P
++		
++		//buf += p2p_ielen;
++		//len -= p2p_ielen;
++
++		#ifdef CONFIG_WFD
++		if(rtw_get_wfd_ie(buf, len, NULL, &wfd_ielen)) 
++		{
++			#ifdef CONFIG_DEBUG_CFG80211
++			DBG_8192C("probe_resp_wfd_ielen=%d\n", wfd_ielen);
++			#endif
++			
++			if(pmlmepriv->wfd_probe_resp_ie)
++			{
++				u32 free_len = pmlmepriv->wfd_probe_resp_ie_len;
++				pmlmepriv->wfd_probe_resp_ie_len = 0;
++				rtw_mfree(pmlmepriv->wfd_probe_resp_ie, free_len);
++				pmlmepriv->wfd_probe_resp_ie = NULL;
++			}	
++
++			pmlmepriv->wfd_probe_resp_ie = rtw_malloc(wfd_ielen);
++			if ( pmlmepriv->wfd_probe_resp_ie == NULL) {
++				DBG_8192C("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				return -EINVAL;
++			
++			}
++			rtw_get_wfd_ie(buf, len, pmlmepriv->wfd_probe_resp_ie, &pmlmepriv->wfd_probe_resp_ie_len);			
++		}
++		#endif //CONFIG_WFD
++		
++	}
++
++	return ret;
++	
++}
++
++static int rtw_cfg80211_set_assoc_resp_wpsp2pie(struct net_device *net, char *buf, int len)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	DBG_8192C("%s, ielen=%d\n", __func__, len);
++	
++	if(len>0)
++	{
++		if(pmlmepriv->wps_assoc_resp_ie)
++		{
++			u32 free_len = pmlmepriv->wps_assoc_resp_ie_len;
++			pmlmepriv->wps_assoc_resp_ie_len = 0;
++			rtw_mfree(pmlmepriv->wps_assoc_resp_ie, free_len);
++			pmlmepriv->wps_assoc_resp_ie = NULL;
++		}	
++
++		pmlmepriv->wps_assoc_resp_ie = rtw_malloc(len);
++		if ( pmlmepriv->wps_assoc_resp_ie == NULL) {
++			DBG_8192C("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++			return -EINVAL;
++			
++		}
++		_rtw_memcpy(pmlmepriv->wps_assoc_resp_ie, buf, len);
++		pmlmepriv->wps_assoc_resp_ie_len = len;
++	}
++
++	return ret;
++	
++}
++
++int rtw_cfg80211_set_mgnt_wpsp2pie(struct net_device *net, char *buf, int len,
++	int type)
++{
++	int ret = 0;
++	uint wps_ielen = 0;
++	u32	p2p_ielen = 0;
++
++#ifdef CONFIG_DEBUG_CFG80211
++	DBG_8192C("%s, ielen=%d\n", __func__, len);
++#endif
++
++	if(	(rtw_get_wps_ie(buf, len, NULL, &wps_ielen) && (wps_ielen>0))
++		#ifdef CONFIG_P2P
++		|| (rtw_get_p2p_ie(buf, len, NULL, &p2p_ielen) && (p2p_ielen>0))
++		#endif
++	)		
++	{	
++		if (net != NULL) 
++		{
++			switch (type) 
++			{
++				case 0x1: //BEACON
++				ret = rtw_cfg80211_set_beacon_wpsp2pie(net, buf, len);
++				break;
++				case 0x2: //PROBE_RESP
++				ret = rtw_cfg80211_set_probe_resp_wpsp2pie(net, buf, len);
++				break;
++				case 0x4: //ASSOC_RESP
++				ret = rtw_cfg80211_set_assoc_resp_wpsp2pie(net, buf, len);
++				break;
++			}		
++		}
++	}	
++
++	return ret;
++	
++}
++
++static struct cfg80211_ops rtw_cfg80211_ops = {
++	.change_virtual_intf = cfg80211_rtw_change_iface,
++	.add_key = cfg80211_rtw_add_key,
++	.get_key = cfg80211_rtw_get_key,
++	.del_key = cfg80211_rtw_del_key,
++	.set_default_key = cfg80211_rtw_set_default_key,
++	.get_station = cfg80211_rtw_get_station,
++	.scan = cfg80211_rtw_scan,
++	.set_wiphy_params = cfg80211_rtw_set_wiphy_params,
++	.connect = cfg80211_rtw_connect,
++	.disconnect = cfg80211_rtw_disconnect,
++	.join_ibss = cfg80211_rtw_join_ibss,
++	.leave_ibss = cfg80211_rtw_leave_ibss,
++	.set_tx_power = cfg80211_rtw_set_txpower,
++	.get_tx_power = cfg80211_rtw_get_txpower,
++	.set_power_mgmt = cfg80211_rtw_set_power_mgmt,
++	.set_pmksa = cfg80211_rtw_set_pmksa,
++	.del_pmksa = cfg80211_rtw_del_pmksa,
++	.flush_pmksa = cfg80211_rtw_flush_pmksa,
++	
++#ifdef CONFIG_AP_MODE
++	.add_virtual_intf = cfg80211_rtw_add_virtual_intf,
++	.del_virtual_intf = cfg80211_rtw_del_virtual_intf,
++
++	#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 4, 0)) && !defined(COMPAT_KERNEL_RELEASE)
++	.add_beacon = cfg80211_rtw_add_beacon,
++	.set_beacon = cfg80211_rtw_set_beacon,
++	.del_beacon = cfg80211_rtw_del_beacon,
++	#else
++	.start_ap = cfg80211_rtw_start_ap,
++	.change_beacon = cfg80211_rtw_change_beacon,
++	.stop_ap = cfg80211_rtw_stop_ap,
++	#endif
++	
++	.add_station = cfg80211_rtw_add_station,
++	.del_station = cfg80211_rtw_del_station,
++	.change_station = cfg80211_rtw_change_station,
++	.dump_station = cfg80211_rtw_dump_station,
++	.change_bss = cfg80211_rtw_change_bss,
++	#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 6, 0))
++	.set_channel = cfg80211_rtw_set_channel,
++	#endif
++	//.auth = cfg80211_rtw_auth,
++	//.assoc = cfg80211_rtw_assoc,	
++#endif //CONFIG_AP_MODE
++
++#ifdef CONFIG_P2P
++	.remain_on_channel = cfg80211_rtw_remain_on_channel,
++	.cancel_remain_on_channel = cfg80211_rtw_cancel_remain_on_channel,
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE)	 
++	.mgmt_tx = cfg80211_rtw_mgmt_tx,
++	.mgmt_frame_register = cfg80211_rtw_mgmt_frame_register,
++#elif  (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,34) && LINUX_VERSION_CODE<=KERNEL_VERSION(2,6,35))
++	.action = cfg80211_rtw_mgmt_tx,
++#endif
++};
++
++static void rtw_cfg80211_init_ht_capab(struct ieee80211_sta_ht_cap *ht_cap, enum ieee80211_band band, u8 rf_type)
++{
++
++#define MAX_BIT_RATE_40MHZ_MCS15 	300	/* Mbps */
++#define MAX_BIT_RATE_40MHZ_MCS7 	150	/* Mbps */
++
++	ht_cap->ht_supported = _TRUE;
++
++	ht_cap->cap = IEEE80211_HT_CAP_SUP_WIDTH_20_40 |
++	    				IEEE80211_HT_CAP_SGI_40 | IEEE80211_HT_CAP_SGI_20 |
++	    				IEEE80211_HT_CAP_DSSSCCK40 | IEEE80211_HT_CAP_MAX_AMSDU;
++
++	/*
++	 *Maximum length of AMPDU that the STA can receive.
++	 *Length = 2 ^ (13 + max_ampdu_length_exp) - 1 (octets)
++	 */
++	ht_cap->ampdu_factor = IEEE80211_HT_MAX_AMPDU_64K;
++
++	/*Minimum MPDU start spacing , */
++	ht_cap->ampdu_density = IEEE80211_HT_MPDU_DENSITY_16;
++
++	ht_cap->mcs.tx_params = IEEE80211_HT_MCS_TX_DEFINED;
++
++	/*
++	 *hw->wiphy->bands[IEEE80211_BAND_2GHZ]
++	 *base on ant_num
++	 *rx_mask: RX mask
++	 *if rx_ant =1 rx_mask[0]=0xff;==>MCS0-MCS7
++	 *if rx_ant =2 rx_mask[1]=0xff;==>MCS8-MCS15
++	 *if rx_ant >=3 rx_mask[2]=0xff;
++	 *if BW_40 rx_mask[4]=0x01;
++	 *highest supported RX rate
++	 */
++	if(rf_type == RF_1T1R)
++	{
++		ht_cap->mcs.rx_mask[0] = 0xFF;
++		ht_cap->mcs.rx_mask[1] = 0x00;
++		ht_cap->mcs.rx_mask[4] = 0x01;
++
++		ht_cap->mcs.rx_highest = MAX_BIT_RATE_40MHZ_MCS7;
++	}
++	else if((rf_type == RF_1T2R) || (rf_type==RF_2T2R))
++	{
++		ht_cap->mcs.rx_mask[0] = 0xFF;
++		ht_cap->mcs.rx_mask[1] = 0xFF;
++		ht_cap->mcs.rx_mask[4] = 0x01;
++
++		ht_cap->mcs.rx_highest = MAX_BIT_RATE_40MHZ_MCS15;
++	}
++	else
++	{
++		DBG_8192C("%s, error rf_type=%d\n", __func__, rf_type);
++	}	
++	
++}
++
++void rtw_cfg80211_init_wiphy(_adapter *padapter)
++{
++	u8 rf_type;
++	struct ieee80211_supported_band *bands;
++	struct wireless_dev *pwdev = padapter->rtw_wdev;
++	struct wiphy *wiphy = pwdev->wiphy;
++	
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++	DBG_8192C("%s:rf_type=%d\n", __func__, rf_type);
++
++	/* if (padapter->registrypriv.wireless_mode & WIRELESS_11G) */
++	{
++		bands = wiphy->bands[IEEE80211_BAND_2GHZ];
++		if(bands)
++			rtw_cfg80211_init_ht_capab(&bands->ht_cap, IEEE80211_BAND_2GHZ, rf_type);
++	}
++
++	/* if (padapter->registrypriv.wireless_mode & WIRELESS_11A) */
++	{
++		bands = wiphy->bands[IEEE80211_BAND_5GHZ];
++		if(bands)
++			rtw_cfg80211_init_ht_capab(&bands->ht_cap, IEEE80211_BAND_5GHZ, rf_type);
++	}
++}
++
++/*
++struct ieee80211_iface_limit rtw_limits[] = {
++	{ .max = 1, .types = BIT(NL80211_IFTYPE_STATION)
++					| BIT(NL80211_IFTYPE_ADHOC)
++#ifdef CONFIG_AP_MODE
++					| BIT(NL80211_IFTYPE_AP)
++#endif
++#if defined(CONFIG_P2P) && ((LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE))
++					| BIT(NL80211_IFTYPE_P2P_CLIENT)
++					| BIT(NL80211_IFTYPE_P2P_GO)
++#endif
++	},
++	{.max = 1, .types = BIT(NL80211_IFTYPE_MONITOR)},
++};
++
++struct ieee80211_iface_combination rtw_combinations = {
++	.limits = rtw_limits,
++	.n_limits = ARRAY_SIZE(rtw_limits),
++	.max_interfaces = 2,
++	.num_different_channels = 1,
++};
++*/
++
++static void rtw_cfg80211_preinit_wiphy(_adapter *padapter, struct wiphy *wiphy)
++{
++
++	wiphy->signal_type = CFG80211_SIGNAL_TYPE_MBM;
++
++	wiphy->max_scan_ssids = RTW_SSID_SCAN_AMOUNT;
++	wiphy->max_scan_ie_len = RTW_SCAN_IE_LEN_MAX;	
++	wiphy->max_num_pmkids = RTW_MAX_NUM_PMKIDS;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,38)) || defined(COMPAT_KERNEL_RELEASE)	 
++	wiphy->max_remain_on_channel_duration = RTW_MAX_REMAIN_ON_CHANNEL_DURATION;
++#endif
++	
++	wiphy->interface_modes =	BIT(NL80211_IFTYPE_STATION)
++								| BIT(NL80211_IFTYPE_ADHOC)
++#ifdef CONFIG_AP_MODE
++								| BIT(NL80211_IFTYPE_AP)
++								| BIT(NL80211_IFTYPE_MONITOR)
++#endif
++#if defined(CONFIG_P2P) && ((LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE))
++								| BIT(NL80211_IFTYPE_P2P_CLIENT)
++								| BIT(NL80211_IFTYPE_P2P_GO)
++#endif
++								;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE)	
++#ifdef CONFIG_AP_MODE
++	wiphy->mgmt_stypes = rtw_cfg80211_default_mgmt_stypes;
++#endif //CONFIG_AP_MODE	
++#endif		
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3,0,0))
++	wiphy->software_iftypes |= BIT(NL80211_IFTYPE_MONITOR);
++#endif
++
++	/*
++	wiphy->iface_combinations = &rtw_combinations;
++	wiphy->n_iface_combinations = 1;
++	*/
++
++	wiphy->cipher_suites = rtw_cipher_suites;
++	wiphy->n_cipher_suites = ARRAY_SIZE(rtw_cipher_suites);
++
++	/* if (padapter->registrypriv.wireless_mode & WIRELESS_11G) */
++		wiphy->bands[IEEE80211_BAND_2GHZ] = rtw_spt_band_alloc(IEEE80211_BAND_2GHZ);
++	/* if (padapter->registrypriv.wireless_mode & WIRELESS_11A) */
++		wiphy->bands[IEEE80211_BAND_5GHZ] = rtw_spt_band_alloc(IEEE80211_BAND_5GHZ);
++	
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,38) && LINUX_VERSION_CODE < KERNEL_VERSION(3,0,0))
++	wiphy->flags |= WIPHY_FLAG_SUPPORTS_SEPARATE_DEFAULT_KEYS;
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3,3,0))
++	wiphy->flags |= WIPHY_FLAG_HAS_REMAIN_ON_CHANNEL;
++	wiphy->flags |= WIPHY_FLAG_OFFCHAN_TX | WIPHY_FLAG_HAVE_AP_SME;
++#endif
++
++	if(padapter->registrypriv.power_mgnt != PS_MODE_ACTIVE)
++		wiphy->flags |= WIPHY_FLAG_PS_ON_BY_DEFAULT;
++	else 
++		wiphy->flags &= ~WIPHY_FLAG_PS_ON_BY_DEFAULT;
++}
++
++int rtw_wdev_alloc(_adapter *padapter, struct device *dev)
++{
++	int ret = 0;
++	struct wiphy *wiphy;
++	struct wireless_dev *wdev;
++	struct rtw_wdev_priv *pwdev_priv;
++	struct net_device *pnetdev = padapter->pnetdev;
++	
++	DBG_8192C("%s(padapter=%p)\n", __func__, padapter);
++
++	/* wiphy */
++	wiphy = wiphy_new(&rtw_cfg80211_ops, sizeof(struct rtw_wdev_priv));
++	if (!wiphy) {
++		DBG_8192C("Couldn't allocate wiphy device\n");
++		ret = -ENOMEM;
++		goto exit;
++	}
++	set_wiphy_dev(wiphy, dev);
++	rtw_cfg80211_preinit_wiphy(padapter, wiphy);
++
++	ret = wiphy_register(wiphy);
++	if (ret < 0) {
++		DBG_8192C("Couldn't register wiphy device\n");
++		goto free_wiphy;
++	}
++
++	/*  wdev */
++	wdev = (struct wireless_dev *)rtw_zmalloc(sizeof(struct wireless_dev));
++	if (!wdev) {
++		DBG_8192C("Couldn't allocate wireless device\n");
++		ret = -ENOMEM;
++		goto unregister_wiphy;
++	}
++	wdev->wiphy = wiphy;
++	wdev->netdev = pnetdev;
++	//wdev->iftype = NL80211_IFTYPE_STATION;
++	wdev->iftype = NL80211_IFTYPE_MONITOR; // for rtw_setopmode_cmd() in cfg80211_rtw_change_iface()
++	padapter->rtw_wdev = wdev;
++	pnetdev->ieee80211_ptr = wdev;
++
++	//init pwdev_priv
++	pwdev_priv = wdev_to_priv(wdev);
++	pwdev_priv->rtw_wdev = wdev;
++	pwdev_priv->pmon_ndev = NULL;
++	pwdev_priv->ifname_mon[0] = '\0';
++	pwdev_priv->padapter = padapter;
++	pwdev_priv->scan_request = NULL;
++	_rtw_spinlock_init(&pwdev_priv->scan_req_lock);
++		
++	pwdev_priv->p2p_enabled = _FALSE;
++	pwdev_priv->provdisc_req_issued = _FALSE;
++	rtw_wdev_invit_info_init(&pwdev_priv->invit_info);
++	rtw_wdev_nego_info_init(&pwdev_priv->nego_info);
++		
++	pwdev_priv->bandroid_scan = _FALSE;
++
++	if(padapter->registrypriv.power_mgnt != PS_MODE_ACTIVE)
++		pwdev_priv->power_mgmt = _TRUE;
++	else
++		pwdev_priv->power_mgmt = _FALSE;
++	
++#ifdef CONFIG_CONCURRENT_MODE
++	ATOMIC_SET(&pwdev_priv->switch_ch_to, 1);	
++	ATOMIC_SET(&pwdev_priv->ro_ch_to, 1);	
++#endif
++
++	return ret;
++
++	rtw_mfree((u8*)wdev, sizeof(struct wireless_dev));
++unregister_wiphy:
++	wiphy_unregister(wiphy);
++ free_wiphy:
++ 	wiphy_free(wiphy);
++exit:
++	return ret;
++	
++}
++
++void rtw_wdev_free(struct wireless_dev *wdev)
++{
++	struct rtw_wdev_priv *pwdev_priv;
++
++	DBG_8192C("%s(wdev=%p)\n", __func__, wdev);
++
++	if (!wdev)
++		return;
++
++	pwdev_priv = wdev_to_priv(wdev);
++
++	rtw_spt_band_free(wdev->wiphy->bands[IEEE80211_BAND_2GHZ]);
++	rtw_spt_band_free(wdev->wiphy->bands[IEEE80211_BAND_5GHZ]);
++	
++	wiphy_free(wdev->wiphy);
++
++	rtw_mfree((u8*)wdev, sizeof(struct wireless_dev));
++}
++
++void rtw_wdev_unregister(struct wireless_dev *wdev)
++{
++	struct rtw_wdev_priv *pwdev_priv;
++
++	DBG_8192C("%s(wdev=%p)\n", __func__, wdev);
++
++	if (!wdev)
++		return;
++
++	pwdev_priv = wdev_to_priv(wdev);
++
++	rtw_cfg80211_indicate_scan_done(pwdev_priv, _TRUE);
++
++	if (pwdev_priv->pmon_ndev) {
++		DBG_8192C("%s, unregister monitor interface\n", __func__);
++		unregister_netdev(pwdev_priv->pmon_ndev);
++	}
++
++	wiphy_unregister(wdev->wiphy);
++}
++
++#endif //CONFIG_IOCTL_CFG80211
++
+diff --git a/drivers/net/wireless/rtl8192cu/os_dep/linux/ioctl_linux.c b/drivers/net/wireless/rtl8192cu/os_dep/linux/ioctl_linux.c
+new file mode 100755
+index 0000000..9adbeaf
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/os_dep/linux/ioctl_linux.c
+@@ -0,0 +1,11909 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define  _IOCTL_LINUX_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <wlan_bssdef.h>
++#include <rtw_debug.h>
++#include <wifi.h>
++#include <rtw_mlme.h>
++#include <rtw_mlme_ext.h>
++#include <rtw_ioctl.h>
++#include <rtw_ioctl_set.h>
++#include <rtw_ioctl_query.h>
++
++//#ifdef CONFIG_MP_INCLUDED
++#include <rtw_mp_ioctl.h>
++//#endif
++
++#ifdef CONFIG_USB_HCI
++#include <usb_ops.h>
++#endif //CONFIG_USB_HCI
++#include <rtw_version.h>
++
++#ifdef CONFIG_MP_INCLUDED
++#include <rtw_mp.h>
++#endif
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,27))
++#define  iwe_stream_add_event(a, b, c, d, e)  iwe_stream_add_event(b, c, d, e)
++#define  iwe_stream_add_point(a, b, c, d, e)  iwe_stream_add_point(b, c, d, e)
++#endif
++
++
++#define RTL_IOCTL_WPA_SUPPLICANT	SIOCIWFIRSTPRIV+30
++
++#define SCAN_ITEM_SIZE 768
++#define MAX_CUSTOM_LEN 64
++#define RATE_COUNT 4
++
++#ifdef CONFIG_GLOBAL_UI_PID
++extern int ui_pid[3];
++#endif
++
++// combo scan
++#define WEXT_CSCAN_AMOUNT 9
++#define WEXT_CSCAN_BUF_LEN		360
++#define WEXT_CSCAN_HEADER		"CSCAN S\x01\x00\x00S\x00"
++#define WEXT_CSCAN_HEADER_SIZE		12
++#define WEXT_CSCAN_SSID_SECTION		'S'
++#define WEXT_CSCAN_CHANNEL_SECTION	'C'
++#define WEXT_CSCAN_NPROBE_SECTION	'N'
++#define WEXT_CSCAN_ACTV_DWELL_SECTION	'A'
++#define WEXT_CSCAN_PASV_DWELL_SECTION	'P'
++#define WEXT_CSCAN_HOME_DWELL_SECTION	'H'
++#define WEXT_CSCAN_TYPE_SECTION		'T'
++
++
++extern u8 key_2char2num(u8 hch, u8 lch);
++extern u8 str_2char2num(u8 hch, u8 lch);
++extern u8 convert_ip_addr(u8 hch, u8 mch, u8 lch);
++
++u32 rtw_rates[] = {1000000,2000000,5500000,11000000,
++	6000000,9000000,12000000,18000000,24000000,36000000,48000000,54000000};
++
++static const char * const iw_operation_mode[] = 
++{ 
++	"Auto", "Ad-Hoc", "Managed",  "Master", "Repeater", "Secondary", "Monitor" 
++};
++
++static int hex2num_i(char c)
++{
++	if (c >= '0' && c <= '9')
++		return c - '0';
++	if (c >= 'a' && c <= 'f')
++		return c - 'a' + 10;
++	if (c >= 'A' && c <= 'F')
++		return c - 'A' + 10;
++	return -1;
++}
++
++static int hex2byte_i(const char *hex)
++{
++	int a, b;
++	a = hex2num_i(*hex++);
++	if (a < 0)
++		return -1;
++	b = hex2num_i(*hex++);
++	if (b < 0)
++		return -1;
++	return (a << 4) | b;
++}
++
++/**
++ * hwaddr_aton - Convert ASCII string to MAC address
++ * @txt: MAC address as a string (e.g., "00:11:22:33:44:55")
++ * @addr: Buffer for the MAC address (ETH_ALEN = 6 bytes)
++ * Returns: 0 on success, -1 on failure (e.g., string not a MAC address)
++ */
++static int hwaddr_aton_i(const char *txt, u8 *addr)
++{
++	int i;
++
++	for (i = 0; i < 6; i++) {
++		int a, b;
++
++		a = hex2num_i(*txt++);
++		if (a < 0)
++			return -1;
++		b = hex2num_i(*txt++);
++		if (b < 0)
++			return -1;
++		*addr++ = (a << 4) | b;
++		if (i < 5 && *txt++ != ':')
++			return -1;
++	}
++
++	return 0;
++}
++
++static void indicate_wx_custom_event(_adapter *padapter, char *msg)
++{
++#ifndef CONFIG_IOCTL_CFG80211
++	u8 *buff, *p;
++	union iwreq_data wrqu;
++
++	if ((u32)strlen(msg) > IW_CUSTOM_MAX) {
++		DBG_871X("%s strlen(msg):%u > IW_CUSTOM_MAX:%u\n", __FUNCTION__ ,(u32)strlen(msg), IW_CUSTOM_MAX);
++		return;
++	}
++
++	buff = rtw_zmalloc(IW_CUSTOM_MAX+1);
++	if(!buff)
++		return;
++
++	_rtw_memcpy(buff, msg, strlen(msg));
++
++	_rtw_memset(&wrqu,0,sizeof(wrqu));
++	wrqu.data.length = strlen(msg);
++
++	DBG_871X("%s %s\n", __FUNCTION__, buff);
++	wireless_send_event(padapter->pnetdev, IWEVCUSTOM, &wrqu, buff);
++
++	rtw_mfree(buff, IW_CUSTOM_MAX+1);
++#endif
++}
++
++
++static void request_wps_pbc_event(_adapter *padapter)
++{
++#ifndef CONFIG_IOCTL_CFG80211
++	u8 *buff, *p;
++	union iwreq_data wrqu;
++
++	buff = rtw_malloc(IW_CUSTOM_MAX);
++	if(!buff)
++		return;
++
++	_rtw_memset(buff, 0, IW_CUSTOM_MAX);
++
++	p=buff;
++
++	p+=sprintf(p, "WPS_PBC_START.request=TRUE");
++
++	_rtw_memset(&wrqu,0,sizeof(wrqu));
++
++	wrqu.data.length = p-buff;
++
++	wrqu.data.length = (wrqu.data.length<IW_CUSTOM_MAX) ? wrqu.data.length:IW_CUSTOM_MAX;
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	wireless_send_event(padapter->pnetdev, IWEVCUSTOM, &wrqu, buff);
++
++	if(buff)
++	{
++		rtw_mfree(buff, IW_CUSTOM_MAX);
++	}
++#endif
++}
++
++
++void indicate_wx_scan_complete_event(_adapter *padapter)
++{
++#ifndef CONFIG_IOCTL_CFG80211
++	union iwreq_data wrqu;
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	_rtw_memset(&wrqu, 0, sizeof(union iwreq_data));
++
++	//DBG_871X("+rtw_indicate_wx_scan_complete_event\n");
++	wireless_send_event(padapter->pnetdev, SIOCGIWSCAN, &wrqu, NULL);
++#endif
++}
++
++
++void rtw_indicate_wx_assoc_event(_adapter *padapter)
++{
++#ifndef CONFIG_IOCTL_CFG80211
++	union iwreq_data wrqu;
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	_rtw_memset(&wrqu, 0, sizeof(union iwreq_data));
++
++	wrqu.ap_addr.sa_family = ARPHRD_ETHER;
++
++	_rtw_memcpy(wrqu.ap_addr.sa_data, pmlmepriv->cur_network.network.MacAddress, ETH_ALEN);
++
++	//DBG_871X("+rtw_indicate_wx_assoc_event\n");
++	wireless_send_event(padapter->pnetdev, SIOCGIWAP, &wrqu, NULL);
++#endif
++}
++
++void rtw_indicate_wx_disassoc_event(_adapter *padapter)
++{
++#ifndef CONFIG_IOCTL_CFG80211
++	union iwreq_data wrqu;
++
++	_rtw_memset(&wrqu, 0, sizeof(union iwreq_data));
++
++	wrqu.ap_addr.sa_family = ARPHRD_ETHER;
++	_rtw_memset(wrqu.ap_addr.sa_data, 0, ETH_ALEN);
++
++	//DBG_871X("+rtw_indicate_wx_disassoc_event\n");
++	wireless_send_event(padapter->pnetdev, SIOCGIWAP, &wrqu, NULL);
++#endif
++}
++
++/*
++uint	rtw_is_cckrates_included(u8 *rate)
++{	
++		u32	i = 0;			
++
++		while(rate[i]!=0)
++		{		
++			if  (  (((rate[i]) & 0x7f) == 2)	|| (((rate[i]) & 0x7f) == 4) ||		
++			(((rate[i]) & 0x7f) == 11)  || (((rate[i]) & 0x7f) == 22) )		
++			return _TRUE;	
++			i++;
++		}
++		
++		return _FALSE;
++}
++
++uint	rtw_is_cckratesonly_included(u8 *rate)
++{
++	u32 i = 0;
++
++	while(rate[i]!=0)
++	{
++			if  (  (((rate[i]) & 0x7f) != 2) && (((rate[i]) & 0x7f) != 4) &&
++				(((rate[i]) & 0x7f) != 11)  && (((rate[i]) & 0x7f) != 22) )
++			return _FALSE;		
++			i++;
++	}
++	
++	return _TRUE;
++}
++*/
++
++static char *translate_scan(_adapter *padapter, 
++				struct iw_request_info* info, struct wlan_network *pnetwork,
++				char *start, char *stop)
++{
++	struct iw_event iwe;
++	u16 cap;
++	u32 ht_ielen = 0;
++	char custom[MAX_CUSTOM_LEN];
++	char *p;
++	u16 max_rate=0, rate, ht_cap=_FALSE;
++	u32 i = 0;	
++	char	*current_val;
++	long rssi;
++	u8 bw_40MHz=0, short_GI=0;
++	u16 mcs_rate=0;
++	struct registry_priv *pregpriv = &padapter->registrypriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &padapter->wdinfo;
++#endif //CONFIG_P2P
++
++#ifdef CONFIG_P2P
++#ifdef CONFIG_WFD
++	if ( SCAN_RESULT_ALL == pwdinfo->wfd_info->scan_result_type )
++	{
++
++	}
++	else if ( ( SCAN_RESULT_P2P_ONLY == pwdinfo->wfd_info->scan_result_type ) || 
++		      ( SCAN_RESULT_WFD_TYPE == pwdinfo->wfd_info->scan_result_type ) )
++#endif // CONFIG_WFD
++	{
++		if(!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		{
++			u32	blnGotP2PIE = _FALSE;
++			
++			//	User is doing the P2P device discovery
++			//	The prefix of SSID should be "DIRECT-" and the IE should contains the P2P IE.
++			//	If not, the driver should ignore this AP and go to the next AP.
++
++			//	Verifying the SSID
++			if ( _rtw_memcmp( pnetwork->network.Ssid.Ssid, pwdinfo->p2p_wildcard_ssid, P2P_WILDCARD_SSID_LEN ) )
++			{
++				u32	p2pielen = 0;
++
++				//	Verifying the P2P IE
++				if ( rtw_get_p2p_ie( &pnetwork->network.IEs[12], pnetwork->network.IELength - 12, NULL, &p2pielen) )
++				{
++					blnGotP2PIE = _TRUE;
++				}
++			}
++
++			if ( blnGotP2PIE == _FALSE )
++			{
++				return start;
++			}
++			
++		}
++	}
++
++#ifdef CONFIG_WFD
++	if ( SCAN_RESULT_WFD_TYPE == pwdinfo->wfd_info->scan_result_type )
++	{
++		u32	blnGotWFD = _FALSE;
++		u8	wfd_ie[ 128 ] = { 0x00 };
++		uint	wfd_ielen = 0;
++		
++		if ( rtw_get_wfd_ie( &pnetwork->network.IEs[12], pnetwork->network.IELength - 12,  wfd_ie, &wfd_ielen ) )
++		{
++			u8	wfd_devinfo[ 6 ] = { 0x00 };
++			uint	wfd_devlen = 6;
++			
++			if ( rtw_get_wfd_attr_content( wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, wfd_devinfo, &wfd_devlen) )
++			{
++				if ( pwdinfo->wfd_info->wfd_device_type == WFD_DEVINFO_PSINK )
++				{
++					//	the first two bits will indicate the WFD device type
++					if ( ( wfd_devinfo[ 1 ] & 0x03 ) == WFD_DEVINFO_SOURCE )
++					{
++						//	If this device is Miracast PSink device, the scan reuslt should just provide the Miracast source.
++						blnGotWFD = _TRUE;
++					}
++				}
++				else if ( pwdinfo->wfd_info->wfd_device_type == WFD_DEVINFO_SOURCE )
++				{
++					//	the first two bits will indicate the WFD device type
++					if ( ( wfd_devinfo[ 1 ] & 0x03 ) == WFD_DEVINFO_PSINK )
++					{
++						//	If this device is Miracast source device, the scan reuslt should just provide the Miracast PSink.
++						//	Todo: How about the SSink?!
++						blnGotWFD = _TRUE;
++					}
++				}
++			}
++		}
++		
++		if ( blnGotWFD == _FALSE )
++		{
++			return start;
++		}
++	}
++#endif // CONFIG_WFD
++
++#endif //CONFIG_P2P
++	/*  AP MAC address  */
++	iwe.cmd = SIOCGIWAP;
++	iwe.u.ap_addr.sa_family = ARPHRD_ETHER;
++
++	_rtw_memcpy(iwe.u.ap_addr.sa_data, pnetwork->network.MacAddress, ETH_ALEN);
++	start = iwe_stream_add_event(info, start, stop, &iwe, IW_EV_ADDR_LEN);
++
++	/* Add the ESSID */
++	iwe.cmd = SIOCGIWESSID;
++	iwe.u.data.flags = 1;	
++	iwe.u.data.length = min((u16)pnetwork->network.Ssid.SsidLength, (u16)32);
++	start = iwe_stream_add_point(info, start, stop, &iwe, pnetwork->network.Ssid.Ssid);
++
++	//parsing HT_CAP_IE
++		p = rtw_get_ie(&pnetwork->network.IEs[12], _HT_CAPABILITY_IE_, &ht_ielen, pnetwork->network.IELength-12);
++
++	if(p && ht_ielen>0)
++	{
++		struct rtw_ieee80211_ht_cap *pht_capie;
++		ht_cap = _TRUE;			
++		pht_capie = (struct rtw_ieee80211_ht_cap *)(p+2);		
++		_rtw_memcpy(&mcs_rate , pht_capie->supp_mcs_set, 2);
++		bw_40MHz = (pht_capie->cap_info&IEEE80211_HT_CAP_SUP_WIDTH) ? 1:0;
++		short_GI = (pht_capie->cap_info&(IEEE80211_HT_CAP_SGI_20|IEEE80211_HT_CAP_SGI_40)) ? 1:0;
++	}
++
++	/* Add the protocol name */
++	iwe.cmd = SIOCGIWNAME;
++	if ((rtw_is_cckratesonly_included((u8*)&pnetwork->network.SupportedRates)) == _TRUE)		
++	{
++		if(ht_cap == _TRUE)
++			snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11bn");
++		else
++		snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11b");
++	}	
++	else if ((rtw_is_cckrates_included((u8*)&pnetwork->network.SupportedRates)) == _TRUE)	
++	{
++		if(ht_cap == _TRUE)
++			snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11bgn");
++		else
++		snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11bg");
++	}	
++	else
++	{
++		if(pnetwork->network.Configuration.DSConfig > 14)
++		{
++			if(ht_cap == _TRUE)
++				snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11an");
++			else
++				snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11a");
++		}
++		else
++		{
++			if(ht_cap == _TRUE)
++				snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11gn");
++			else
++				snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11g");
++		}
++	}	
++
++	start = iwe_stream_add_event(info, start, stop, &iwe, IW_EV_CHAR_LEN);
++
++	  /* Add mode */
++        iwe.cmd = SIOCGIWMODE;
++	_rtw_memcpy((u8 *)&cap, rtw_get_capability_from_ie(pnetwork->network.IEs), 2);
++
++
++	cap = le16_to_cpu(cap);
++
++	if(cap & (WLAN_CAPABILITY_IBSS |WLAN_CAPABILITY_BSS)){
++		if (cap & WLAN_CAPABILITY_BSS)
++			iwe.u.mode = IW_MODE_MASTER;
++		else
++			iwe.u.mode = IW_MODE_ADHOC;
++
++		start = iwe_stream_add_event(info, start, stop, &iwe, IW_EV_UINT_LEN);
++	}
++
++	if(pnetwork->network.Configuration.DSConfig<1 /*|| pnetwork->network.Configuration.DSConfig>14*/)
++		pnetwork->network.Configuration.DSConfig = 1;
++
++	 /* Add frequency/channel */
++	iwe.cmd = SIOCGIWFREQ;
++	iwe.u.freq.m = rtw_ch2freq(pnetwork->network.Configuration.DSConfig) * 100000;
++	iwe.u.freq.e = 1;
++	iwe.u.freq.i = pnetwork->network.Configuration.DSConfig;
++	start = iwe_stream_add_event(info, start, stop, &iwe, IW_EV_FREQ_LEN);
++
++	/* Add encryption capability */
++	iwe.cmd = SIOCGIWENCODE;
++	if (cap & WLAN_CAPABILITY_PRIVACY)
++		iwe.u.data.flags = IW_ENCODE_ENABLED | IW_ENCODE_NOKEY;
++	else
++		iwe.u.data.flags = IW_ENCODE_DISABLED;
++	iwe.u.data.length = 0;
++	start = iwe_stream_add_point(info, start, stop, &iwe, pnetwork->network.Ssid.Ssid);
++
++	/*Add basic and extended rates */
++	max_rate = 0;
++	p = custom;
++	p += snprintf(p, MAX_CUSTOM_LEN - (p - custom), " Rates (Mb/s): ");
++	while(pnetwork->network.SupportedRates[i]!=0)
++	{
++		rate = pnetwork->network.SupportedRates[i]&0x7F; 
++		if (rate > max_rate)
++			max_rate = rate;
++		p += snprintf(p, MAX_CUSTOM_LEN - (p - custom),
++			      "%d%s ", rate >> 1, (rate & 1) ? ".5" : "");
++		i++;
++	}
++	
++	if(ht_cap == _TRUE)
++	{
++		if(mcs_rate&0x8000)//MCS15
++		{
++			max_rate = (bw_40MHz) ? ((short_GI)?300:270):((short_GI)?144:130);
++			
++		}
++		else if(mcs_rate&0x0080)//MCS7
++		{
++			max_rate = (bw_40MHz) ? ((short_GI)?150:135):((short_GI)?72:65);
++		}
++		else//default MCS7
++		{
++			DBG_871X("wx_get_scan, mcs_rate_bitmap=0x%x\n", mcs_rate);
++			max_rate = (bw_40MHz) ? ((short_GI)?150:135):((short_GI)?72:65);
++		}
++
++		max_rate = max_rate*2;//Mbps/2;		
++	}
++
++	iwe.cmd = SIOCGIWRATE;
++	iwe.u.bitrate.fixed = iwe.u.bitrate.disabled = 0;
++	iwe.u.bitrate.value = max_rate * 500000;
++	start = iwe_stream_add_event(info, start, stop, &iwe, IW_EV_PARAM_LEN);
++
++	//parsing WPA/WPA2 IE
++	{
++		u8 buf[MAX_WPA_IE_LEN];
++		u8 wpa_ie[255],rsn_ie[255];
++		u16 wpa_len=0,rsn_len=0;
++		u8 *p;
++		sint out_len=0;
++		out_len=rtw_get_sec_ie(pnetwork->network.IEs ,pnetwork->network.IELength,rsn_ie,&rsn_len,wpa_ie,&wpa_len);
++		RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("rtw_wx_get_scan: ssid=%s\n",pnetwork->network.Ssid.Ssid));
++		RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("rtw_wx_get_scan: wpa_len=%d rsn_len=%d\n",wpa_len,rsn_len));
++
++		if (wpa_len > 0)
++		{
++			p=buf;
++			_rtw_memset(buf, 0, MAX_WPA_IE_LEN);
++			p += sprintf(p, "wpa_ie=");
++			for (i = 0; i < wpa_len; i++) {
++				p += sprintf(p, "%02x", wpa_ie[i]);
++			}
++	
++			_rtw_memset(&iwe, 0, sizeof(iwe));
++			iwe.cmd = IWEVCUSTOM;
++			iwe.u.data.length = strlen(buf);
++			start = iwe_stream_add_point(info, start, stop, &iwe,buf);
++			
++			_rtw_memset(&iwe, 0, sizeof(iwe));
++			iwe.cmd =IWEVGENIE;
++			iwe.u.data.length = wpa_len;
++			start = iwe_stream_add_point(info, start, stop, &iwe, wpa_ie);			
++		}
++		if (rsn_len > 0)
++		{
++			p = buf;
++			_rtw_memset(buf, 0, MAX_WPA_IE_LEN);
++			p += sprintf(p, "rsn_ie=");
++			for (i = 0; i < rsn_len; i++) {
++				p += sprintf(p, "%02x", rsn_ie[i]);
++			}
++			_rtw_memset(&iwe, 0, sizeof(iwe));
++			iwe.cmd = IWEVCUSTOM;
++			iwe.u.data.length = strlen(buf);
++			start = iwe_stream_add_point(info, start, stop, &iwe,buf);
++		
++			_rtw_memset(&iwe, 0, sizeof(iwe));
++			iwe.cmd =IWEVGENIE;
++			iwe.u.data.length = rsn_len;
++			start = iwe_stream_add_point(info, start, stop, &iwe, rsn_ie);		
++		}
++	}
++
++	{ //parsing WPS IE
++		uint cnt = 0,total_ielen;	
++		u8 *wpsie_ptr=NULL;
++		uint wps_ielen = 0;		
++
++		u8 *ie_ptr = pnetwork->network.IEs +_FIXED_IE_LENGTH_;
++		total_ielen= pnetwork->network.IELength - _FIXED_IE_LENGTH_;
++
++		while(cnt < total_ielen)
++		{
++			if(rtw_is_wps_ie(&ie_ptr[cnt], &wps_ielen) && (wps_ielen>2))			
++			{
++				wpsie_ptr = &ie_ptr[cnt];
++				iwe.cmd =IWEVGENIE;
++				iwe.u.data.length = (u16)wps_ielen;
++				start = iwe_stream_add_point(info, start, stop, &iwe, wpsie_ptr);						
++			}			
++			cnt+=ie_ptr[cnt+1]+2; //goto next		
++		}
++	}
++
++
++{
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	u8 ss, sq;
++	
++	/* Add quality statistics */
++	iwe.cmd = IWEVQUAL;
++	iwe.u.qual.updated = IW_QUAL_QUAL_UPDATED | IW_QUAL_LEVEL_UPDATED | IW_QUAL_NOISE_INVALID
++	#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++		| IW_QUAL_DBM
++	#endif
++	;
++
++	if ( check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE &&
++		is_same_network(&pmlmepriv->cur_network.network, &pnetwork->network)) {
++		ss = padapter->recvpriv.signal_strength;
++		sq = padapter->recvpriv.signal_qual;
++	} else {
++		ss = pnetwork->network.PhyInfo.SignalStrength;
++		sq = pnetwork->network.PhyInfo.SignalQuality;
++	}
++	
++	
++	#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++	iwe.u.qual.level = (u8) translate_percentage_to_dbm(ss);//dbm
++	#else
++	iwe.u.qual.level = (u8)ss;//%
++	#endif
++	
++	iwe.u.qual.qual = (u8)sq;   // signal quality
++
++	#ifdef CONFIG_PLATFORM_ROCKCHIPS
++	iwe.u.qual.noise = -100; // noise level suggest by zhf@rockchips
++	#else 
++	iwe.u.qual.noise = 0; // noise level
++	#endif //CONFIG_PLATFORM_ROCKCHIPS
++	
++	//DBG_871X("iqual=%d, ilevel=%d, inoise=%d, iupdated=%d\n", iwe.u.qual.qual, iwe.u.qual.level , iwe.u.qual.noise, iwe.u.qual.updated);
++
++	start = iwe_stream_add_event(info, start, stop, &iwe, IW_EV_QUAL_LEN);
++}
++	
++	return start;	
++}
++
++static int wpa_set_auth_algs(struct net_device *dev, u32 value)
++{	
++	_adapter *padapter = (_adapter *) rtw_netdev_priv(dev);
++	int ret = 0;
++
++	if ((value & AUTH_ALG_SHARED_KEY)&&(value & AUTH_ALG_OPEN_SYSTEM))
++	{
++		DBG_871X("wpa_set_auth_algs, AUTH_ALG_SHARED_KEY and  AUTH_ALG_OPEN_SYSTEM [value:0x%x]\n",value);
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++		padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeAutoSwitch;
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++	} 
++	else if (value & AUTH_ALG_SHARED_KEY)
++	{
++		DBG_871X("wpa_set_auth_algs, AUTH_ALG_SHARED_KEY  [value:0x%x]\n",value);
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++
++#ifdef CONFIG_PLATFORM_MT53XX
++		padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeAutoSwitch;
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++#else
++		padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeShared;
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Shared;
++#endif
++	} 
++	else if(value & AUTH_ALG_OPEN_SYSTEM)
++	{
++		DBG_871X("wpa_set_auth_algs, AUTH_ALG_OPEN_SYSTEM\n");
++		//padapter->securitypriv.ndisencryptstatus = Ndis802_11EncryptionDisabled;
++		if(padapter->securitypriv.ndisauthtype < Ndis802_11AuthModeWPAPSK)
++		{
++#ifdef CONFIG_PLATFORM_MT53XX
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeAutoSwitch;
++			padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++#else
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeOpen;
++ 			padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Open;
++#endif
++		}
++		
++	}
++	else if(value & AUTH_ALG_LEAP)
++	{
++		DBG_871X("wpa_set_auth_algs, AUTH_ALG_LEAP\n");
++	}
++	else
++	{
++		DBG_871X("wpa_set_auth_algs, error!\n");
++		ret = -EINVAL;
++	}
++
++	return ret;
++	
++}
++
++static int wpa_set_encryption(struct net_device *dev, struct ieee_param *param, u32 param_len)
++{
++	int ret = 0;
++	u32 wep_key_idx, wep_key_len,wep_total_len;
++	NDIS_802_11_WEP	 *pwep = NULL;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv 	*pmlmepriv = &padapter->mlmepriv;		
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info* pwdinfo = &padapter->wdinfo;
++#endif //CONFIG_P2P
++
++_func_enter_;
++
++	param->u.crypt.err = 0;
++	param->u.crypt.alg[IEEE_CRYPT_ALG_NAME_LEN - 1] = '\0';
++
++	if (param_len < (u32) ((u8 *) param->u.crypt.key - (u8 *) param) + param->u.crypt.key_len)
++	{
++		ret =  -EINVAL;
++		goto exit;
++	}
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff) 
++	{
++
++		if (param->u.crypt.idx >= WEP_KEYS
++#ifdef CONFIG_IEEE80211W
++			&& param->u.crypt.idx > BIP_MAX_KEYID
++#endif //CONFIG_IEEE80211W
++			)
++		{
++			ret = -EINVAL;
++			goto exit;
++		}
++	} 
++	else 
++	{
++
++		{
++			ret = -EINVAL;
++			goto exit;
++		}
++	}
++
++	if (strcmp(param->u.crypt.alg, "WEP") == 0)
++	{
++		RT_TRACE(_module_rtl871x_ioctl_os_c,_drv_err_,("wpa_set_encryption, crypt.alg = WEP\n"));
++		DBG_871X("wpa_set_encryption, crypt.alg = WEP\n");
++
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++		padapter->securitypriv.dot11PrivacyAlgrthm=_WEP40_;
++		padapter->securitypriv.dot118021XGrpPrivacy=_WEP40_;
++
++		wep_key_idx = param->u.crypt.idx;
++		wep_key_len = param->u.crypt.key_len;
++
++		RT_TRACE(_module_rtl871x_ioctl_os_c,_drv_info_,("(1)wep_key_idx=%d\n", wep_key_idx));
++		DBG_871X("(1)wep_key_idx=%d\n", wep_key_idx);
++
++		if (wep_key_idx > WEP_KEYS)
++			return -EINVAL;
++
++		RT_TRACE(_module_rtl871x_ioctl_os_c,_drv_info_,("(2)wep_key_idx=%d\n", wep_key_idx));
++
++		if (wep_key_len > 0) 
++		{
++		 	wep_key_len = wep_key_len <= 5 ? 5 : 13;
++			wep_total_len = wep_key_len + FIELD_OFFSET(NDIS_802_11_WEP, KeyMaterial);
++		 	pwep =(NDIS_802_11_WEP	 *) rtw_malloc(wep_total_len);
++			if(pwep == NULL){
++				RT_TRACE(_module_rtl871x_ioctl_os_c,_drv_err_,(" wpa_set_encryption: pwep allocate fail !!!\n"));
++				goto exit;
++			}
++
++		 	_rtw_memset(pwep, 0, wep_total_len);
++
++		 	pwep->KeyLength = wep_key_len;
++			pwep->Length = wep_total_len;
++
++			if(wep_key_len==13)
++			{
++				padapter->securitypriv.dot11PrivacyAlgrthm=_WEP104_;
++				padapter->securitypriv.dot118021XGrpPrivacy=_WEP104_;
++			}
++		}
++		else {		
++			ret = -EINVAL;
++			goto exit;
++		}
++
++		pwep->KeyIndex = wep_key_idx;
++		pwep->KeyIndex |= 0x80000000;
++
++		_rtw_memcpy(pwep->KeyMaterial,  param->u.crypt.key, pwep->KeyLength);
++
++		if(param->u.crypt.set_tx)
++		{
++			DBG_871X("wep, set_tx=1\n");
++
++			if(rtw_set_802_11_add_wep(padapter, pwep) == (u8)_FAIL)
++			{
++				ret = -EOPNOTSUPP ;
++			}
++		}
++		else
++		{
++			DBG_871X("wep, set_tx=0\n");
++			
++			//don't update "psecuritypriv->dot11PrivacyAlgrthm" and 
++			//"psecuritypriv->dot11PrivacyKeyIndex=keyid", but can rtw_set_key to fw/cam
++			
++			if (wep_key_idx >= WEP_KEYS) {
++				ret = -EOPNOTSUPP ;
++				goto exit;
++			}				
++			
++		      _rtw_memcpy(&(psecuritypriv->dot11DefKey[wep_key_idx].skey[0]), pwep->KeyMaterial, pwep->KeyLength);
++			psecuritypriv->dot11DefKeylen[wep_key_idx]=pwep->KeyLength;	
++			rtw_set_key(padapter, psecuritypriv, wep_key_idx, 0);
++		}
++
++		goto exit;		
++	}
++
++	if(padapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X) // 802_1x
++	{
++		struct sta_info * psta,*pbcmc_sta;
++		struct sta_priv * pstapriv = &padapter->stapriv;
++
++		if (check_fwstate(pmlmepriv, WIFI_STATION_STATE | WIFI_MP_STATE) == _TRUE) //sta mode
++		{
++			psta = rtw_get_stainfo(pstapriv, get_bssid(pmlmepriv));				
++			if (psta == NULL) {
++				//DEBUG_ERR( ("Set wpa_set_encryption: Obtain Sta_info fail \n"));
++			}
++			else
++			{
++				//Jeff: don't disable ieee8021x_blocked while clearing key
++				if (strcmp(param->u.crypt.alg, "none") != 0) 
++					psta->ieee8021x_blocked = _FALSE;
++				
++				if((padapter->securitypriv.ndisencryptstatus == Ndis802_11Encryption2Enabled)||
++						(padapter->securitypriv.ndisencryptstatus ==  Ndis802_11Encryption3Enabled))
++				{
++					psta->dot118021XPrivacy = padapter->securitypriv.dot11PrivacyAlgrthm;
++				}		
++
++				if(param->u.crypt.set_tx ==1)//pairwise key
++				{ 
++					_rtw_memcpy(psta->dot118021x_UncstKey.skey,  param->u.crypt.key, (param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++					
++					if(strcmp(param->u.crypt.alg, "TKIP") == 0)//set mic key
++					{						
++						//DEBUG_ERR(("\nset key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len));
++						_rtw_memcpy(psta->dot11tkiptxmickey.skey, &(param->u.crypt.key[16]), 8);
++						_rtw_memcpy(psta->dot11tkiprxmickey.skey, &(param->u.crypt.key[24]), 8);
++
++						padapter->securitypriv.busetkipkey=_FALSE;
++						//_set_timer(&padapter->securitypriv.tkip_timer, 50);						
++					}
++
++					//DEBUG_ERR(("\n param->u.crypt.key_len=%d\n",param->u.crypt.key_len));
++					//DEBUG_ERR(("\n ~~~~stastakey:unicastkey\n"));
++					DBG_871X("\n ~~~~stastakey:unicastkey\n");
++					
++					rtw_setstakey_cmd(padapter, (unsigned char *)psta, _TRUE);
++				}
++				else//group key
++				{ 					
++					if(strcmp(param->u.crypt.alg, "TKIP") == 0 || strcmp(param->u.crypt.alg, "CCMP") == 0)
++					{
++						_rtw_memcpy(padapter->securitypriv.dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key,(param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++						//only TKIP group key need to install this
++						if(param->u.crypt.key_len > 16)
++						{
++							_rtw_memcpy(padapter->securitypriv.dot118021XGrptxmickey[param->u.crypt.idx].skey,&(param->u.crypt.key[16]),8);
++							_rtw_memcpy(padapter->securitypriv.dot118021XGrprxmickey[param->u.crypt.idx].skey,&(param->u.crypt.key[24]),8);
++						}
++						padapter->securitypriv.binstallGrpkey = _TRUE;	
++						//DEBUG_ERR((" param->u.crypt.key_len=%d\n", param->u.crypt.key_len));
++						DBG_871X(" ~~~~set sta key:groupkey\n");
++	
++						padapter->securitypriv.dot118021XGrpKeyid = param->u.crypt.idx;
++	
++						rtw_set_key(padapter,&padapter->securitypriv,param->u.crypt.idx, 1);
++					}
++#ifdef CONFIG_IEEE80211W
++					else if(strcmp(param->u.crypt.alg, "BIP") == 0)
++					{
++						int no;
++						//printk("BIP key_len=%d , index=%d @@@@@@@@@@@@@@@@@@\n", param->u.crypt.key_len, param->u.crypt.idx);
++						//save the IGTK key, length 16 bytes
++						_rtw_memcpy(padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey,  param->u.crypt.key,(param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++						/*printk("IGTK key below:\n");
++						for(no=0;no<16;no++)
++							printk(" %02x ", padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey[no]);
++						printk("\n");*/
++						padapter->securitypriv.dot11wBIPKeyid = param->u.crypt.idx;
++						padapter->securitypriv.binstallBIPkey = _TRUE;
++						DBG_871X(" ~~~~set sta key:IGKT\n");
++					}
++#endif //CONFIG_IEEE80211W
++					
++#ifdef CONFIG_P2P
++					if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_PROVISIONING_ING))
++					{
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_PROVISIONING_DONE);
++					}
++#endif //CONFIG_P2P
++					
++				}						
++			}
++
++			pbcmc_sta=rtw_get_bcmc_stainfo(padapter);
++			if(pbcmc_sta==NULL)
++			{
++				//DEBUG_ERR( ("Set OID_802_11_ADD_KEY: bcmc stainfo is null \n"));
++			}
++			else
++			{
++				//Jeff: don't disable ieee8021x_blocked while clearing key
++				if (strcmp(param->u.crypt.alg, "none") != 0) 
++					pbcmc_sta->ieee8021x_blocked = _FALSE;
++				
++				if((padapter->securitypriv.ndisencryptstatus == Ndis802_11Encryption2Enabled)||
++						(padapter->securitypriv.ndisencryptstatus ==  Ndis802_11Encryption3Enabled))
++				{							
++					pbcmc_sta->dot118021XPrivacy = padapter->securitypriv.dot11PrivacyAlgrthm;
++				}					
++			}				
++		}
++		else if(check_fwstate(pmlmepriv, WIFI_ADHOC_STATE)) //adhoc mode
++		{		
++		}			
++	}
++
++exit:
++	
++	if (pwep) {
++		rtw_mfree((u8 *)pwep, wep_total_len);		
++	}	
++	
++	_func_exit_;
++	
++	return ret;	
++}
++
++static int rtw_set_wpa_ie(_adapter *padapter, char *pie, unsigned short ielen)
++{
++	u8 *buf=NULL, *pos=NULL;	
++	u32 left; 	
++	int group_cipher = 0, pairwise_cipher = 0;
++	int ret = 0;
++	u8	null_addr[]= {0,0,0,0,0,0};
++#ifdef CONFIG_P2P
++	struct wifidirect_info* pwdinfo = &padapter->wdinfo;
++#endif //CONFIG_P2P
++
++	if((ielen > MAX_WPA_IE_LEN) || (pie == NULL)){
++		_clr_fwstate_(&padapter->mlmepriv, WIFI_UNDER_WPS);
++		if(pie == NULL)	
++			return ret;
++		else
++			return -EINVAL;
++	}
++
++	if(ielen)
++	{		
++		buf = rtw_zmalloc(ielen);
++		if (buf == NULL){
++			ret =  -ENOMEM;
++			goto exit;
++		}
++	
++		_rtw_memcpy(buf, pie , ielen);
++
++		//dump
++		{
++			int i;
++			DBG_871X("\n wpa_ie(length:%d):\n", ielen);
++			for(i=0;i<ielen;i=i+8)
++				DBG_871X("0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x \n",buf[i],buf[i+1],buf[i+2],buf[i+3],buf[i+4],buf[i+5],buf[i+6],buf[i+7]);
++		}
++	
++		pos = buf;
++		if(ielen < RSN_HEADER_LEN){
++			RT_TRACE(_module_rtl871x_ioctl_os_c,_drv_err_,("Ie len too short %d\n", ielen));
++			ret  = -1;
++			goto exit;
++		}
++
++#if 0
++		pos += RSN_HEADER_LEN;
++		left  = ielen - RSN_HEADER_LEN;
++		
++		if (left >= RSN_SELECTOR_LEN){
++			pos += RSN_SELECTOR_LEN;
++			left -= RSN_SELECTOR_LEN;
++		}		
++		else if (left > 0){
++			RT_TRACE(_module_rtl871x_ioctl_os_c,_drv_err_,("Ie length mismatch, %u too much \n", left));
++			ret =-1;
++			goto exit;
++		}
++#endif		
++		
++		if(rtw_parse_wpa_ie(buf, ielen, &group_cipher, &pairwise_cipher) == _SUCCESS)
++		{
++			padapter->securitypriv.dot11AuthAlgrthm= dot11AuthAlgrthm_8021X;
++			padapter->securitypriv.ndisauthtype=Ndis802_11AuthModeWPAPSK;
++			_rtw_memcpy(padapter->securitypriv.supplicant_ie, &buf[0], ielen);	
++		}
++	
++		if(rtw_parse_wpa2_ie(buf, ielen, &group_cipher, &pairwise_cipher) == _SUCCESS)
++		{
++			padapter->securitypriv.dot11AuthAlgrthm= dot11AuthAlgrthm_8021X;
++			padapter->securitypriv.ndisauthtype=Ndis802_11AuthModeWPA2PSK;	
++			_rtw_memcpy(padapter->securitypriv.supplicant_ie, &buf[0], ielen);	
++		}
++			
++		if (group_cipher == 0)
++		{
++			group_cipher = WPA_CIPHER_NONE;
++		}
++		if (pairwise_cipher == 0)
++		{
++			pairwise_cipher = WPA_CIPHER_NONE;
++		}
++			
++		switch(group_cipher)
++		{
++			case WPA_CIPHER_NONE:
++				padapter->securitypriv.dot118021XGrpPrivacy=_NO_PRIVACY_;
++				padapter->securitypriv.ndisencryptstatus=Ndis802_11EncryptionDisabled;
++				break;
++			case WPA_CIPHER_WEP40:
++				padapter->securitypriv.dot118021XGrpPrivacy=_WEP40_;
++				padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++				break;
++			case WPA_CIPHER_TKIP:
++				padapter->securitypriv.dot118021XGrpPrivacy=_TKIP_;
++				padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption2Enabled;
++				break;
++			case WPA_CIPHER_CCMP:
++				padapter->securitypriv.dot118021XGrpPrivacy=_AES_;
++				padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption3Enabled;
++				break;
++			case WPA_CIPHER_WEP104:	
++				padapter->securitypriv.dot118021XGrpPrivacy=_WEP104_;
++				padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++				break;
++		}
++
++		switch(pairwise_cipher)
++		{
++			case WPA_CIPHER_NONE:
++				padapter->securitypriv.dot11PrivacyAlgrthm=_NO_PRIVACY_;
++				padapter->securitypriv.ndisencryptstatus=Ndis802_11EncryptionDisabled;
++				break;
++			case WPA_CIPHER_WEP40:
++				padapter->securitypriv.dot11PrivacyAlgrthm=_WEP40_;
++				padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++				break;
++			case WPA_CIPHER_TKIP:
++				padapter->securitypriv.dot11PrivacyAlgrthm=_TKIP_;
++				padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption2Enabled;
++				break;
++			case WPA_CIPHER_CCMP:
++				padapter->securitypriv.dot11PrivacyAlgrthm=_AES_;
++				padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption3Enabled;
++				break;
++			case WPA_CIPHER_WEP104:	
++				padapter->securitypriv.dot11PrivacyAlgrthm=_WEP104_;
++				padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++				break;
++		}
++		
++		_clr_fwstate_(&padapter->mlmepriv, WIFI_UNDER_WPS);
++		{//set wps_ie	
++			u16 cnt = 0;	
++			u8 eid, wps_oui[4]={0x0,0x50,0xf2,0x04};
++			 
++			while( cnt < ielen )
++			{
++				eid = buf[cnt];
++		
++				if((eid==_VENDOR_SPECIFIC_IE_)&&(_rtw_memcmp(&buf[cnt+2], wps_oui, 4)==_TRUE))
++				{
++					DBG_871X("SET WPS_IE\n");
++
++					padapter->securitypriv.wps_ie_len = ( (buf[cnt+1]+2) < (MAX_WPA_IE_LEN<<2)) ? (buf[cnt+1]+2):(MAX_WPA_IE_LEN<<2);
++					
++					_rtw_memcpy(padapter->securitypriv.wps_ie, &buf[cnt], padapter->securitypriv.wps_ie_len);
++					
++					set_fwstate(&padapter->mlmepriv, WIFI_UNDER_WPS);
++					
++#ifdef CONFIG_P2P
++					if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_OK))
++					{
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_PROVISIONING_ING);
++					}
++#endif //CONFIG_P2P
++					cnt += buf[cnt+1]+2;
++					
++					break;
++				} else {
++					cnt += buf[cnt+1]+2; //goto next	
++				}				
++			}			
++		}		
++	}
++
++	//TKIP and AES disallow multicast packets until installing group key
++	if(padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_ 
++		|| padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_WTMIC_ 
++		|| padapter->securitypriv.dot11PrivacyAlgrthm == _AES_)
++		//WPS open need to enable multicast
++		//|| check_fwstate(&padapter->mlmepriv, WIFI_UNDER_WPS) == _TRUE)
++		rtw_hal_set_hwreg(padapter, HW_VAR_OFF_RCR_AM, null_addr);
++
++	RT_TRACE(_module_rtl871x_ioctl_os_c, _drv_info_,
++		 ("rtw_set_wpa_ie: pairwise_cipher=0x%08x padapter->securitypriv.ndisencryptstatus=%d padapter->securitypriv.ndisauthtype=%d\n",
++		  pairwise_cipher, padapter->securitypriv.ndisencryptstatus, padapter->securitypriv.ndisauthtype));
++ 	
++exit:
++
++	if (buf) rtw_mfree(buf, ielen);
++	
++	return ret;	
++}
++
++static int rtw_wx_get_name(struct net_device *dev, 
++			     struct iw_request_info *info, 
++			     union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u16 cap;
++	u32 ht_ielen = 0;
++	char *p;
++	u8 ht_cap=_FALSE;
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX  *pcur_bss = &pmlmepriv->cur_network.network;
++	NDIS_802_11_RATES_EX* prates = NULL;
++
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("cmd_code=%x\n", info->cmd));
++
++	_func_enter_;	
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED|WIFI_ADHOC_MASTER_STATE) == _TRUE)
++	{
++		//parsing HT_CAP_IE
++		p = rtw_get_ie(&pcur_bss->IEs[12], _HT_CAPABILITY_IE_, &ht_ielen, pcur_bss->IELength-12);
++		if(p && ht_ielen>0)
++		{
++			ht_cap = _TRUE;
++		}
++
++		prates = &pcur_bss->SupportedRates;
++
++		if (rtw_is_cckratesonly_included((u8*)prates) == _TRUE)
++		{
++			if(ht_cap == _TRUE)
++				snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11bn");
++			else
++				snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11b");
++		}
++		else if ((rtw_is_cckrates_included((u8*)prates)) == _TRUE)
++		{
++			if(ht_cap == _TRUE)
++				snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11bgn");
++			else
++				snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11bg");
++		}
++		else
++		{
++			if(pcur_bss->Configuration.DSConfig > 14)
++			{
++				if(ht_cap == _TRUE)
++					snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11an");
++				else
++					snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11a");
++			}
++			else
++			{
++				if(ht_cap == _TRUE)
++					snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11gn");
++				else
++					snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11g");
++			}
++		}
++	}
++	else
++	{
++		//prates = &padapter->registrypriv.dev_network.SupportedRates;
++		//snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11g");
++		snprintf(wrqu->name, IFNAMSIZ, "unassociated");
++	}
++
++	_func_exit_;
++
++	return 0;
++}
++
++static int rtw_wx_set_freq(struct net_device *dev, 
++			     struct iw_request_info *info, 
++			     union iwreq_data *wrqu, char *extra)
++{	
++	_func_enter_;
++
++	RT_TRACE(_module_rtl871x_mlme_c_, _drv_notice_, ("+rtw_wx_set_freq\n"));
++
++	_func_exit_;
++	
++	return 0;
++}
++
++static int rtw_wx_get_freq(struct net_device *dev, 
++			     struct iw_request_info *info, 
++			     union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX  *pcur_bss = &pmlmepriv->cur_network.network;
++	
++	if(check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++	{
++		//wrqu->freq.m = ieee80211_wlan_frequencies[pcur_bss->Configuration.DSConfig-1] * 100000;
++		wrqu->freq.m = rtw_ch2freq(pcur_bss->Configuration.DSConfig) * 100000;
++		wrqu->freq.e = 1;
++		wrqu->freq.i = pcur_bss->Configuration.DSConfig;
++
++	}
++	else{
++		wrqu->freq.m = rtw_ch2freq(padapter->mlmeextpriv.cur_channel) * 100000;
++		wrqu->freq.e = 1;
++		wrqu->freq.i = padapter->mlmeextpriv.cur_channel;
++	}
++
++	return 0;
++}
++
++static int rtw_wx_set_mode(struct net_device *dev, struct iw_request_info *a,
++			     union iwreq_data *wrqu, char *b)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	NDIS_802_11_NETWORK_INFRASTRUCTURE networkType ;
++	int ret = 0;
++	_irqL irqL;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_queue *queue = &pmlmepriv->scanned_queue;
++	_func_enter_;
++	
++	if(_FAIL == rtw_pwr_wakeup(padapter)) {
++		ret= -EPERM;
++		goto exit;
++	}
++
++	if (padapter->hw_init_completed==_FALSE){
++		ret = -EPERM;
++		goto exit;
++	}
++	
++	switch(wrqu->mode)
++	{
++		case IW_MODE_AUTO:
++			networkType = Ndis802_11AutoUnknown;
++			DBG_871X("set_mode = IW_MODE_AUTO\n");	
++			break;				
++		case IW_MODE_ADHOC:		
++			networkType = Ndis802_11IBSS;
++			DBG_871X("set_mode = IW_MODE_ADHOC\n");			
++			break;
++		case IW_MODE_MASTER:		
++			networkType = Ndis802_11APMode;
++			DBG_871X("set_mode = IW_MODE_MASTER\n");
++                        //rtw_setopmode_cmd(padapter, networkType);	
++			break;				
++		case IW_MODE_INFRA:
++			networkType = Ndis802_11Infrastructure;
++			DBG_871X("set_mode = IW_MODE_INFRA\n");			
++			break;
++	
++		default :
++			ret = -EINVAL;;
++			RT_TRACE(_module_rtl871x_ioctl_os_c,_drv_err_,("\n Mode: %s is not supported  \n", iw_operation_mode[wrqu->mode]));
++			goto exit;
++	}
++	
++/*	
++	if(Ndis802_11APMode == networkType)
++	{
++		rtw_setopmode_cmd(padapter, networkType);
++	}	
++	else
++	{
++		rtw_setopmode_cmd(padapter, Ndis802_11AutoUnknown);	
++	}
++*/
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	_enter_critical_bh(&queue->lock, &irqL);
++	if (rtw_set_802_11_infrastructure_mode(padapter, networkType) ==_FALSE){
++
++		ret = -EPERM;
++		_exit_critical_bh(&queue->lock, &irqL);
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++		goto exit;
++
++	}
++	_exit_critical_bh(&queue->lock, &irqL);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++	rtw_setopmode_cmd(padapter, networkType);
++
++exit:
++	
++	_func_exit_;
++	
++	return ret;
++	
++}
++
++static int rtw_wx_get_mode(struct net_device *dev, struct iw_request_info *a,
++			     union iwreq_data *wrqu, char *b)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,(" rtw_wx_get_mode \n"));
++
++	_func_enter_;
++	
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++	{
++		wrqu->mode = IW_MODE_INFRA;
++	}
++	else if  ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) ||
++		       (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE))
++		
++	{
++		wrqu->mode = IW_MODE_ADHOC;
++	}
++	else if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++	{
++		wrqu->mode = IW_MODE_MASTER;
++	}
++	else
++	{
++		wrqu->mode = IW_MODE_AUTO;
++	}
++
++	_func_exit_;
++	
++	return 0;
++	
++}
++
++
++static int rtw_wx_set_pmkid(struct net_device *dev,
++	                     struct iw_request_info *a,
++			     union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8          j,blInserted = _FALSE;
++	int         intReturn = _FALSE;
++	struct mlme_priv  *pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++        struct iw_pmksa*  pPMK = ( struct iw_pmksa* ) extra;
++        u8     strZeroMacAddress[ ETH_ALEN ] = { 0x00 };
++        u8     strIssueBssid[ ETH_ALEN ] = { 0x00 };
++        
++/*
++        struct iw_pmksa
++        {
++            __u32   cmd;
++            struct sockaddr bssid;
++            __u8    pmkid[IW_PMKID_LEN];   //IW_PMKID_LEN=16
++        }
++        There are the BSSID information in the bssid.sa_data array.
++        If cmd is IW_PMKSA_FLUSH, it means the wpa_suppplicant wants to clear all the PMKID information.
++        If cmd is IW_PMKSA_ADD, it means the wpa_supplicant wants to add a PMKID/BSSID to driver.
++        If cmd is IW_PMKSA_REMOVE, it means the wpa_supplicant wants to remove a PMKID/BSSID from driver.
++        */
++
++	_rtw_memcpy( strIssueBssid, pPMK->bssid.sa_data, ETH_ALEN);
++        if ( pPMK->cmd == IW_PMKSA_ADD )
++        {
++                DBG_871X( "[rtw_wx_set_pmkid] IW_PMKSA_ADD!\n" );
++                if ( _rtw_memcmp( strIssueBssid, strZeroMacAddress, ETH_ALEN ) == _TRUE )
++                {
++                    return( intReturn );
++                }
++                else
++                {
++                    intReturn = _TRUE;
++                }
++		blInserted = _FALSE;
++		
++		//overwrite PMKID
++		for(j=0 ; j<NUM_PMKID_CACHE; j++)
++		{
++			if( _rtw_memcmp( psecuritypriv->PMKIDList[j].Bssid, strIssueBssid, ETH_ALEN) ==_TRUE )
++			{ // BSSID is matched, the same AP => rewrite with new PMKID.
++                                
++                                DBG_871X( "[rtw_wx_set_pmkid] BSSID exists in the PMKList.\n" );
++
++				_rtw_memcpy( psecuritypriv->PMKIDList[j].PMKID, pPMK->pmkid, IW_PMKID_LEN);
++                                psecuritypriv->PMKIDList[ j ].bUsed = _TRUE;
++				psecuritypriv->PMKIDIndex = j+1;
++				blInserted = _TRUE;
++				break;
++			}	
++	        }
++
++	        if(!blInserted)
++                {
++		    // Find a new entry
++                    DBG_871X( "[rtw_wx_set_pmkid] Use the new entry index = %d for this PMKID.\n",
++                            psecuritypriv->PMKIDIndex );
++
++	            _rtw_memcpy(psecuritypriv->PMKIDList[psecuritypriv->PMKIDIndex].Bssid, strIssueBssid, ETH_ALEN);
++		    _rtw_memcpy(psecuritypriv->PMKIDList[psecuritypriv->PMKIDIndex].PMKID, pPMK->pmkid, IW_PMKID_LEN);
++
++                    psecuritypriv->PMKIDList[ psecuritypriv->PMKIDIndex ].bUsed = _TRUE;
++		    psecuritypriv->PMKIDIndex++ ;
++		    if(psecuritypriv->PMKIDIndex==16)
++                    {
++		        psecuritypriv->PMKIDIndex =0;
++                    }
++		}
++        }
++        else if ( pPMK->cmd == IW_PMKSA_REMOVE )
++        {
++                DBG_871X( "[rtw_wx_set_pmkid] IW_PMKSA_REMOVE!\n" );
++                intReturn = _TRUE;
++		for(j=0 ; j<NUM_PMKID_CACHE; j++)
++		{
++			if( _rtw_memcmp( psecuritypriv->PMKIDList[j].Bssid, strIssueBssid, ETH_ALEN) ==_TRUE )
++			{ // BSSID is matched, the same AP => Remove this PMKID information and reset it. 
++                                _rtw_memset( psecuritypriv->PMKIDList[ j ].Bssid, 0x00, ETH_ALEN );
++                                psecuritypriv->PMKIDList[ j ].bUsed = _FALSE;
++				break;
++			}	
++	        }
++        }
++        else if ( pPMK->cmd == IW_PMKSA_FLUSH ) 
++        {
++            DBG_871X( "[rtw_wx_set_pmkid] IW_PMKSA_FLUSH!\n" );
++            _rtw_memset( &psecuritypriv->PMKIDList[ 0 ], 0x00, sizeof( RT_PMKID_LIST ) * NUM_PMKID_CACHE );
++            psecuritypriv->PMKIDIndex = 0;
++            intReturn = _TRUE;
++        }
++    return( intReturn );
++}
++
++static int rtw_wx_get_sens(struct net_device *dev, 
++			     struct iw_request_info *info, 
++			     union iwreq_data *wrqu, char *extra)
++{
++	#ifdef CONFIG_PLATFORM_ROCKCHIPS
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv); 
++	
++	/*
++	*  20110311 Commented by Jeff
++	*  For rockchip platform's wpa_driver_wext_get_rssi
++	*/
++	if(check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++		//wrqu->sens.value=-padapter->recvpriv.signal_strength;
++		wrqu->sens.value=-padapter->recvpriv.rssi;
++		//DBG_871X("%s: %d\n", __FUNCTION__, wrqu->sens.value);
++		wrqu->sens.fixed = 0; /* no auto select */ 
++	} else 
++	#endif
++	{
++		wrqu->sens.value = 0;
++		wrqu->sens.fixed = 0;	/* no auto select */
++		wrqu->sens.disabled = 1;
++	}
++	return 0;
++}
++
++static int rtw_wx_get_range(struct net_device *dev, 
++				struct iw_request_info *info, 
++				union iwreq_data *wrqu, char *extra)
++{
++	struct iw_range *range = (struct iw_range *)extra;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	u16 val;
++	int i;
++	
++	_func_enter_;
++	
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("rtw_wx_get_range. cmd_code=%x\n", info->cmd));
++
++	wrqu->data.length = sizeof(*range);
++	_rtw_memset(range, 0, sizeof(*range));
++
++	/* Let's try to keep this struct in the same order as in
++	 * linux/include/wireless.h
++	 */
++
++	/* TODO: See what values we can set, and remove the ones we can't
++	 * set, or fill them with some default data.
++	 */
++
++	/* ~5 Mb/s real (802.11b) */
++	range->throughput = 5 * 1000 * 1000;     
++
++	// TODO: Not used in 802.11b?
++//	range->min_nwid;	/* Minimal NWID we are able to set */
++	// TODO: Not used in 802.11b?
++//	range->max_nwid;	/* Maximal NWID we are able to set */
++
++        /* Old Frequency (backward compat - moved lower ) */
++//	range->old_num_channels; 
++//	range->old_num_frequency;
++//	range->old_freq[6]; /* Filler to keep "version" at the same offset */
++
++	/* signal level threshold range */
++
++	//percent values between 0 and 100.
++	range->max_qual.qual = 100;	
++	range->max_qual.level = 100;
++	range->max_qual.noise = 100;
++	range->max_qual.updated = 7; /* Updated all three */
++
++
++	range->avg_qual.qual = 92; /* > 8% missed beacons is 'bad' */
++	/* TODO: Find real 'good' to 'bad' threshol value for RSSI */
++	range->avg_qual.level = 20 + -98;
++	range->avg_qual.noise = 0;
++	range->avg_qual.updated = 7; /* Updated all three */
++
++	range->num_bitrates = RATE_COUNT;
++
++	for (i = 0; i < RATE_COUNT && i < IW_MAX_BITRATES; i++) {
++		range->bitrate[i] = rtw_rates[i];
++	}
++
++	range->min_frag = MIN_FRAG_THRESHOLD;
++	range->max_frag = MAX_FRAG_THRESHOLD;
++
++	range->pm_capa = 0;
++
++	range->we_version_compiled = WIRELESS_EXT;
++	range->we_version_source = 16;
++
++//	range->retry_capa;	/* What retry options are supported */
++//	range->retry_flags;	/* How to decode max/min retry limit */
++//	range->r_time_flags;	/* How to decode max/min retry life */
++//	range->min_retry;	/* Minimal number of retries */
++//	range->max_retry;	/* Maximal number of retries */
++//	range->min_r_time;	/* Minimal retry lifetime */
++//	range->max_r_time;	/* Maximal retry lifetime */
++
++	for (i = 0, val = 0; i < MAX_CHANNEL_NUM; i++) {
++
++		// Include only legal frequencies for some countries
++		if(pmlmeext->channel_set[i].ChannelNum != 0)
++		{
++			range->freq[val].i = pmlmeext->channel_set[i].ChannelNum;
++			range->freq[val].m = rtw_ch2freq(pmlmeext->channel_set[i].ChannelNum) * 100000;
++			range->freq[val].e = 1;
++			val++;
++		}
++
++		if (val == IW_MAX_FREQUENCIES)
++			break;
++	}
++
++	range->num_channels = val;
++	range->num_frequency = val;
++
++// Commented by Albert 2009/10/13
++// The following code will proivde the security capability to network manager.
++// If the driver doesn't provide this capability to network manager,
++// the WPA/WPA2 routers can't be choosen in the network manager.
++
++/*
++#define IW_SCAN_CAPA_NONE		0x00
++#define IW_SCAN_CAPA_ESSID		0x01
++#define IW_SCAN_CAPA_BSSID		0x02
++#define IW_SCAN_CAPA_CHANNEL	0x04
++#define IW_SCAN_CAPA_MODE		0x08
++#define IW_SCAN_CAPA_RATE		0x10
++#define IW_SCAN_CAPA_TYPE		0x20
++#define IW_SCAN_CAPA_TIME		0x40
++*/
++
++#if WIRELESS_EXT > 17
++	range->enc_capa = IW_ENC_CAPA_WPA|IW_ENC_CAPA_WPA2|
++			  IW_ENC_CAPA_CIPHER_TKIP|IW_ENC_CAPA_CIPHER_CCMP;
++#endif
++
++#ifdef IW_SCAN_CAPA_ESSID //WIRELESS_EXT > 21
++	range->scan_capa = IW_SCAN_CAPA_ESSID | IW_SCAN_CAPA_TYPE |IW_SCAN_CAPA_BSSID|
++					IW_SCAN_CAPA_CHANNEL|IW_SCAN_CAPA_MODE|IW_SCAN_CAPA_RATE;
++#endif
++
++
++	_func_exit_;
++
++	return 0;
++
++}
++
++//set bssid flow
++//s1. rtw_set_802_11_infrastructure_mode()
++//s2. rtw_set_802_11_authentication_mode()
++//s3. set_802_11_encryption_mode()
++//s4. rtw_set_802_11_bssid()
++static int rtw_wx_set_wap(struct net_device *dev,
++			 struct iw_request_info *info,
++			 union iwreq_data *awrq,
++			 char *extra)
++{
++	_irqL	irqL;
++	uint ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct sockaddr *temp = (struct sockaddr *)awrq;
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	_list	*phead;
++	u8 *dst_bssid, *src_bssid;
++	_queue	*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	NDIS_802_11_AUTHENTICATION_MODE	authmode;
++	
++	_func_enter_;
++/*
++#ifdef CONFIG_CONCURRENT_MODE
++	if(padapter->iface_type > PRIMARY_IFACE)
++	{
++		ret = -EINVAL;
++		goto exit;
++	}
++#endif	
++*/	
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (check_buddy_fwstate(padapter, _FW_UNDER_SURVEY|_FW_UNDER_LINKING) == _TRUE)
++	{		
++		printk("set bssid, but buddy_intf is under scanning or linking\n");
++
++		ret = -EINVAL;
++		
++		goto exit;
++	}
++#endif
++
++#ifdef CONFIG_DUALMAC_CONCURRENT
++	if (dc_check_fwstate(padapter, _FW_UNDER_SURVEY|_FW_UNDER_LINKING)== _TRUE)
++	{
++		printk("set bssid, but buddy_intf is under scanning or linking\n");
++		ret = -EINVAL;
++		goto exit;
++	}
++#endif
++
++	if(_FAIL == rtw_pwr_wakeup(padapter))
++	{
++		ret= -1;
++		goto exit;
++	}
++	
++	if(!padapter->bup){
++		ret = -1;
++		goto exit;
++	}
++
++	
++	if (temp->sa_family != ARPHRD_ETHER){
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	authmode = padapter->securitypriv.ndisauthtype;
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	_enter_critical_bh(&queue->lock, &irqL);
++       phead = get_list_head(queue);
++       pmlmepriv->pscanned = get_next(phead);
++
++	while (1)
++	 {
++			
++		if ((rtw_end_of_queue_search(phead, pmlmepriv->pscanned)) == _TRUE)
++		{
++#if 0		
++			ret = -EINVAL;
++			goto exit;
++
++			if(check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE)
++			{
++	            		rtw_set_802_11_bssid(padapter, temp->sa_data);
++	    			goto exit;                    
++			}
++			else
++			{
++				ret = -EINVAL;
++				goto exit;
++			}
++#endif
++
++			break;
++		}
++	
++		pnetwork = LIST_CONTAINOR(pmlmepriv->pscanned, struct wlan_network, list);
++
++		pmlmepriv->pscanned = get_next(pmlmepriv->pscanned);
++
++		dst_bssid = pnetwork->network.MacAddress;
++
++		src_bssid = temp->sa_data;
++
++		if ((_rtw_memcmp(dst_bssid, src_bssid, ETH_ALEN)) == _TRUE)
++		{			
++			if(!rtw_set_802_11_infrastructure_mode(padapter, pnetwork->network.InfrastructureMode))
++			{
++				ret = -1;
++				_exit_critical_bh(&queue->lock, &irqL);
++				_exit_critical_bh(&pmlmepriv->lock, &irqL);
++				goto exit;
++			}
++
++				break;			
++		}
++
++	}		
++	_exit_critical_bh(&queue->lock, &irqL);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++	rtw_set_802_11_authentication_mode(padapter, authmode);
++	//set_802_11_encryption_mode(padapter, padapter->securitypriv.ndisencryptstatus);
++	if (rtw_set_802_11_bssid(padapter, temp->sa_data) == _FALSE) {
++		ret = -1;
++		goto exit;		
++	}	
++	
++exit:
++	
++	_func_exit_;
++	
++	return ret;	
++}
++
++static int rtw_wx_get_wap(struct net_device *dev, 
++			    struct iw_request_info *info, 
++			    union iwreq_data *wrqu, char *extra)
++{
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX  *pcur_bss = &pmlmepriv->cur_network.network;	
++	
++	wrqu->ap_addr.sa_family = ARPHRD_ETHER;
++	
++	_rtw_memset(wrqu->ap_addr.sa_data, 0, ETH_ALEN);
++	
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("rtw_wx_get_wap\n"));
++
++	_func_enter_;
++
++	if  ( ((check_fwstate(pmlmepriv, _FW_LINKED)) == _TRUE) || 
++			((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE)) == _TRUE) ||
++			((check_fwstate(pmlmepriv, WIFI_AP_STATE)) == _TRUE) )
++	{
++
++		_rtw_memcpy(wrqu->ap_addr.sa_data, pcur_bss->MacAddress, ETH_ALEN);
++	}
++	else
++	{
++	 	_rtw_memset(wrqu->ap_addr.sa_data, 0, ETH_ALEN);
++	}		
++
++	_func_exit_;
++	
++	return 0;
++	
++}
++
++static int rtw_wx_set_mlme(struct net_device *dev, 
++			     struct iw_request_info *info, 
++			     union iwreq_data *wrqu, char *extra)
++{
++#if 0
++/* SIOCSIWMLME data */
++struct	iw_mlme
++{
++	__u16		cmd; /* IW_MLME_* */
++	__u16		reason_code;
++	struct sockaddr	addr;
++};
++#endif
++
++	int ret=0;
++	u16 reason;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_mlme *mlme = (struct iw_mlme *) extra;
++	
++
++	if(mlme==NULL)
++		return -1;
++
++	printk("%s\n", __FUNCTION__);
++
++	reason = cpu_to_le16(mlme->reason_code);
++
++
++	printk("%s, cmd=%d, reason=%d\n", __FUNCTION__, mlme->cmd, reason);
++
++	switch (mlme->cmd) 
++	{
++		case IW_MLME_DEAUTH:			
++				if(!rtw_set_802_11_disassociate(padapter))
++				ret = -1;						
++				break;
++				
++		case IW_MLME_DISASSOC:			
++				if(!rtw_set_802_11_disassociate(padapter))
++						ret = -1;		
++				
++				break;
++				
++		default:
++			return -EOPNOTSUPP;
++	}
++	
++	return ret;
++	
++}
++
++static int rtw_wx_set_scan(struct net_device *dev, struct iw_request_info *a,
++			     union iwreq_data *wrqu, char *extra)
++{
++	u8 _status = _FALSE;
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv= &padapter->mlmepriv;
++	NDIS_802_11_SSID ssid[RTW_SSID_SCAN_AMOUNT];
++	_irqL	irqL;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);	
++#endif //CONFIG_P2P
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("rtw_wx_set_scan\n"));
++
++_func_enter_;
++
++	#ifdef DBG_IOCTL
++	DBG_871X("DBG_IOCTL %s:%d\n",__FUNCTION__, __LINE__);
++	#endif
++/*
++#ifdef CONFIG_CONCURRENT_MODE
++	if(padapter->iface_type > PRIMARY_IFACE)
++	{
++		ret = -1;
++		goto exit;
++	}
++#endif
++*/
++
++#ifdef CONFIG_MP_INCLUDED
++	if (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE)
++	{
++		ret = -1;
++		goto exit;
++	}
++#endif
++
++	if(_FAIL == rtw_pwr_wakeup(padapter))
++	{
++		ret= -1;
++		goto exit;
++	}
++
++	if(padapter->bDriverStopped){
++           DBG_871X("bDriverStopped=%d\n", padapter->bDriverStopped);
++		ret= -1;
++		goto exit;
++	}
++	
++	if(!padapter->bup){
++		ret = -1;
++		goto exit;
++	}
++	
++	if (padapter->hw_init_completed==_FALSE){
++		ret = -1;
++		goto exit;
++	}
++
++	// When Busy Traffic, driver do not site survey. So driver return success.
++	// wpa_supplicant will not issue SIOCSIWSCAN cmd again after scan timeout.
++	// modify by thomas 2011-02-22.
++	if (pmlmepriv->LinkDetectInfo.bBusyTraffic == _TRUE)
++	{
++		indicate_wx_scan_complete_event(padapter);
++		goto exit;
++	} 
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY|_FW_UNDER_LINKING) == _TRUE)
++	{
++		indicate_wx_scan_complete_event(padapter);
++		goto exit;
++	} 
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (check_buddy_fwstate(padapter,
++		_FW_UNDER_SURVEY|_FW_UNDER_LINKING|WIFI_UNDER_WPS) == _TRUE)
++	{		
++		if(check_buddy_fwstate(padapter, _FW_UNDER_SURVEY))
++		{
++			printk("scanning_via_buddy_intf\n");
++			pmlmepriv->scanning_via_buddy_intf = _TRUE;
++		}		
++
++		indicate_wx_scan_complete_event(padapter);
++		
++		goto exit;
++	}
++#endif
++
++#ifdef CONFIG_DUALMAC_CONCURRENT
++	if (dc_check_fwstate(padapter, _FW_UNDER_SURVEY|_FW_UNDER_LINKING)== _TRUE)
++	{
++		indicate_wx_scan_complete_event(padapter);
++		goto exit;
++	}
++#endif
++
++//	Mareded by Albert 20101103
++//	For the DMP WiFi Display project, the driver won't to scan because
++//	the pmlmepriv->scan_interval is always equal to 3.
++//	So, the wpa_supplicant won't find out the WPS SoftAP.
++
++/*
++	if(pmlmepriv->scan_interval>10)
++		pmlmepriv->scan_interval = 0;
++
++	if(pmlmepriv->scan_interval > 0)
++	{
++		DBG_871X("scan done\n");
++		ret = 0;
++		goto exit;
++	}
++		
++*/
++#ifdef CONFIG_P2P
++	if(!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++	{
++		rtw_p2p_set_pre_state( pwdinfo, rtw_p2p_state( pwdinfo ) );
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH);
++		rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_FULL);
++		rtw_free_network_queue(padapter, _TRUE);
++	}
++#endif //CONFIG_P2P
++
++	_rtw_memset(ssid, 0, sizeof(NDIS_802_11_SSID)*RTW_SSID_SCAN_AMOUNT);
++
++#if WIRELESS_EXT >= 17
++	if (wrqu->data.length == sizeof(struct iw_scan_req)) 
++	{
++		struct iw_scan_req *req = (struct iw_scan_req *)extra;
++	
++		if (wrqu->data.flags & IW_SCAN_THIS_ESSID)
++		{
++			int len = min((int)req->essid_len, IW_ESSID_MAX_SIZE);
++
++			_rtw_memcpy(ssid[0].Ssid, req->essid, len);
++			ssid[0].SsidLength = len;	
++
++			DBG_871X("IW_SCAN_THIS_ESSID, ssid=%s, len=%d\n", req->essid, req->essid_len);
++		
++			_enter_critical_bh(&pmlmepriv->lock, &irqL);				
++		
++			_status = rtw_sitesurvey_cmd(padapter, ssid, 1, NULL, 0);
++		
++			_exit_critical_bh(&pmlmepriv->lock, &irqL);
++			
++		}
++		else if (req->scan_type == IW_SCAN_TYPE_PASSIVE)
++		{
++			DBG_871X("rtw_wx_set_scan, req->scan_type == IW_SCAN_TYPE_PASSIVE\n");
++		}
++		
++	}
++	else
++#endif
++
++	if(	wrqu->data.length >= WEXT_CSCAN_HEADER_SIZE
++		&& _rtw_memcmp(extra, WEXT_CSCAN_HEADER, WEXT_CSCAN_HEADER_SIZE) == _TRUE
++	)
++	{
++		int len = wrqu->data.length -WEXT_CSCAN_HEADER_SIZE;
++		char *pos = extra+WEXT_CSCAN_HEADER_SIZE;
++		char section;
++		char sec_len;
++		int ssid_index = 0;
++
++		//DBG_871X("%s COMBO_SCAN header is recognized\n", __FUNCTION__);
++		
++		while(len >= 1) {
++			section = *(pos++); len-=1;
++
++			switch(section) {
++				case WEXT_CSCAN_SSID_SECTION:
++					//DBG_871X("WEXT_CSCAN_SSID_SECTION\n");
++					if(len < 1) {
++						len = 0;
++						break;
++					}
++					
++					sec_len = *(pos++); len-=1;
++
++					if(sec_len>0 && sec_len<=len) {
++						ssid[ssid_index].SsidLength = sec_len;
++						_rtw_memcpy(ssid[ssid_index].Ssid, pos, ssid[ssid_index].SsidLength);
++						//DBG_871X("%s COMBO_SCAN with specific ssid:%s, %d\n", __FUNCTION__
++						//	, ssid[ssid_index].Ssid, ssid[ssid_index].SsidLength);
++						ssid_index++;
++					}
++					
++					pos+=sec_len; len-=sec_len;
++					break;
++					
++				
++				case WEXT_CSCAN_CHANNEL_SECTION:
++					//DBG_871X("WEXT_CSCAN_CHANNEL_SECTION\n");
++					pos+=1; len-=1;
++					break;
++				case WEXT_CSCAN_ACTV_DWELL_SECTION:
++					//DBG_871X("WEXT_CSCAN_ACTV_DWELL_SECTION\n");
++					pos+=2; len-=2;
++					break;
++				case WEXT_CSCAN_PASV_DWELL_SECTION:
++					//DBG_871X("WEXT_CSCAN_PASV_DWELL_SECTION\n");
++					pos+=2; len-=2;					
++					break;
++				case WEXT_CSCAN_HOME_DWELL_SECTION:
++					//DBG_871X("WEXT_CSCAN_HOME_DWELL_SECTION\n");
++					pos+=2; len-=2;
++					break;
++				case WEXT_CSCAN_TYPE_SECTION:
++					//DBG_871X("WEXT_CSCAN_TYPE_SECTION\n");
++					pos+=1; len-=1;
++					break;
++				#if 0
++				case WEXT_CSCAN_NPROBE_SECTION:
++					DBG_871X("WEXT_CSCAN_NPROBE_SECTION\n");
++					break;
++				#endif
++				
++				default:
++					//DBG_871X("Unknown CSCAN section %c\n", section);
++					len = 0; // stop parsing
++			}
++			//DBG_871X("len:%d\n", len);
++			
++		}
++		
++		//jeff: it has still some scan paramater to parse, we only do this now...
++		_status = rtw_set_802_11_bssid_list_scan(padapter, ssid, RTW_SSID_SCAN_AMOUNT);
++		
++	} else
++	
++	{
++		_status = rtw_set_802_11_bssid_list_scan(padapter, NULL, 0);
++	}
++
++	if(_status == _FALSE)
++		ret = -1;
++
++exit:
++	#ifdef DBG_IOCTL
++	DBG_871X("DBG_IOCTL %s:%d return %d\n",__FUNCTION__, __LINE__, ret);
++	#endif
++
++_func_exit_;
++
++	return ret;	
++}
++
++static int rtw_wx_get_scan(struct net_device *dev, struct iw_request_info *a,
++			     union iwreq_data *wrqu, char *extra)
++{
++	_irqL	irqL;
++	_list					*plist, *phead;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	_queue				*queue	= &(pmlmepriv->scanned_queue);	
++	struct	wlan_network	*pnetwork = NULL;
++	char *ev = extra;
++	char *stop = ev + wrqu->data.length;
++	u32 ret = 0;	
++	u32 cnt=0;
++	u32 wait_for_surveydone;
++	sint wait_status;
++#ifdef CONFIG_CONCURRENT_MODE	
++	//PADAPTER pbuddy_adapter = padapter->pbuddy_adapter;
++	//struct mlme_priv *pbuddy_mlmepriv = &(pbuddy_adapter->mlmepriv);	
++#endif	
++#ifdef CONFIG_P2P
++	struct	wifidirect_info*	pwdinfo = &padapter->wdinfo;
++#endif //CONFIG_P2P
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("rtw_wx_get_scan\n"));
++	RT_TRACE(_module_rtl871x_ioctl_os_c,_drv_info_, (" Start of Query SIOCGIWSCAN .\n"));
++
++	_func_enter_;
++	
++	#ifdef DBG_IOCTL
++	DBG_871X("DBG_IOCTL %s:%d\n",__FUNCTION__, __LINE__);
++	#endif
++	
++/*
++#ifdef CONFIG_CONCURRENT_MODE
++	if(padapter->iface_type > PRIMARY_IFACE)
++	{
++		ret = -EINVAL;
++		goto exit;
++	}
++#endif
++*/	
++	if(padapter->pwrctrlpriv.brfoffbyhw && padapter->bDriverStopped)
++	{
++		ret = -EINVAL;
++		goto exit;
++	}
++  
++#ifdef CONFIG_P2P
++	if(!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++	{
++		//	P2P is enabled
++		if ( padapter->chip_type == RTL8192D )
++			wait_for_surveydone = 300;	//	Because the 8192du supports more channels.
++		else
++			wait_for_surveydone = 200;
++	}
++	else
++	{
++		//	P2P is disabled
++		wait_for_surveydone = 100;
++	}
++#else
++	{
++		wait_for_surveydone = 100;
++	}
++#endif //CONFIG_P2P
++
++/*
++#ifdef CONFIG_CONCURRENT_MODE	
++	if(pmlmepriv->scanning_via_buddy_intf == _TRUE)
++	{
++		pmlmepriv->scanning_via_buddy_intf = _FALSE;//reset
++
++		// change pointers to buddy interface
++		padapter = pbuddy_adapter;
++		pmlmepriv = pbuddy_mlmepriv;
++		queue = &(pbuddy_mlmepriv->scanned_queue);		
++		
++	}
++#endif // CONFIG_CONCURRENT_MODE			
++*/
++
++	wait_status = _FW_UNDER_SURVEY
++		#ifndef CONFIG_ANDROID
++		|_FW_UNDER_LINKING
++		#endif
++	;
++
++#ifdef CONFIG_DUALMAC_CONCURRENT
++	while(dc_check_fwstate(padapter, wait_status)== _TRUE)
++	{
++		rtw_msleep_os(30);
++		cnt++;
++		if(cnt > wait_for_surveydone )
++			break;
++	}
++#endif // CONFIG_DUALMAC_CONCURRENT
++
++ 	while(check_fwstate(pmlmepriv, wait_status) == _TRUE)
++	{	
++		rtw_msleep_os(30);
++		cnt++;
++		if(cnt > wait_for_surveydone )
++			break;
++	}
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++       
++	while(1)
++	{
++		if (rtw_end_of_queue_search(phead,plist)== _TRUE)
++			break;
++
++		if((stop - ev) < SCAN_ITEM_SIZE) {
++			ret = -E2BIG;
++			break;
++		}
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		//report network only if the current channel set contains the channel to which this network belongs
++		if(rtw_ch_set_search_ch(padapter->mlmeextpriv.channel_set, pnetwork->network.Configuration.DSConfig) >= 0
++			&& rtw_mlme_band_check(padapter, pnetwork->network.Configuration.DSConfig) == _TRUE
++			&& _TRUE == rtw_validate_ssid(&(pnetwork->network.Ssid))
++		)
++		{
++			ev=translate_scan(padapter, a, pnetwork, ev, stop);
++		}
++
++		plist = get_next(plist);
++	
++	}        
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++       wrqu->data.length = ev-extra;
++	wrqu->data.flags = 0;
++	
++exit:		
++	
++	_func_exit_;	
++	
++	#ifdef DBG_IOCTL
++	DBG_871X("DBG_IOCTL %s:%d return %d\n",__FUNCTION__, __LINE__, ret);
++	#endif
++	
++	return ret ;
++	
++}
++
++//set ssid flow
++//s1. rtw_set_802_11_infrastructure_mode()
++//s2. set_802_11_authenticaion_mode()
++//s3. set_802_11_encryption_mode()
++//s4. rtw_set_802_11_ssid()
++static int rtw_wx_set_essid(struct net_device *dev, 
++			      struct iw_request_info *a,
++			      union iwreq_data *wrqu, char *extra)
++{
++	_irqL irqL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_queue *queue = &pmlmepriv->scanned_queue;
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++	_list *phead;
++	s8 status = _TRUE;
++	struct wlan_network *pnetwork = NULL;
++	NDIS_802_11_AUTHENTICATION_MODE authmode;	
++	NDIS_802_11_SSID ndis_ssid;	
++	u8 *dst_ssid, *src_ssid;
++
++	uint ret = 0, len;
++
++	_func_enter_;
++	
++	#ifdef DBG_IOCTL
++	DBG_871X("DBG_IOCTL %s:%d\n",__FUNCTION__, __LINE__);
++	#endif
++	
++/*
++#ifdef CONFIG_CONCURRENT_MODE
++	if(padapter->iface_type > PRIMARY_IFACE)
++	{
++		ret = -EINVAL;
++		goto exit;
++	}
++#endif
++*/
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (check_buddy_fwstate(padapter, _FW_UNDER_SURVEY|_FW_UNDER_LINKING) == _TRUE)
++	{		
++		printk("set ssid, but buddy_intf is under scanning or linking\n");
++		
++		ret = -EINVAL;
++		
++		goto exit;
++	}
++#endif
++
++#ifdef CONFIG_DUALMAC_CONCURRENT
++	if (dc_check_fwstate(padapter, _FW_UNDER_SURVEY|_FW_UNDER_LINKING)== _TRUE)
++	{
++		printk("set bssid, but buddy_intf is under scanning or linking\n");
++		ret = -EINVAL;
++		goto exit;
++	}
++#endif
++
++	RT_TRACE(_module_rtl871x_ioctl_os_c, _drv_info_,
++		 ("+rtw_wx_set_essid: fw_state=0x%08x\n", get_fwstate(pmlmepriv)));
++	if(_FAIL == rtw_pwr_wakeup(padapter))
++	{		
++		ret = -1;
++		goto exit;
++	}
++
++	if(!padapter->bup){
++		ret = -1;
++		goto exit;
++	}
++
++#if WIRELESS_EXT <= 20
++	if ((wrqu->essid.length-1) > IW_ESSID_MAX_SIZE){
++#else
++	if (wrqu->essid.length > IW_ESSID_MAX_SIZE){
++#endif
++		ret= -E2BIG;
++		goto exit;
++	}
++	
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++		ret = -1;
++		goto exit;
++	}		
++	
++	authmode = padapter->securitypriv.ndisauthtype;
++	DBG_871X("=>%s\n",__FUNCTION__);
++	if (wrqu->essid.flags && wrqu->essid.length)
++	{
++		// Commented by Albert 20100519
++		// We got the codes in "set_info" function of iwconfig source code.
++		//	=========================================
++		//	wrq.u.essid.length = strlen(essid) + 1;
++	  	//	if(we_kernel_version > 20)
++		//		wrq.u.essid.length--;
++		//	=========================================
++		//	That means, if the WIRELESS_EXT less than or equal to 20, the correct ssid len should subtract 1.
++#if WIRELESS_EXT <= 20
++		len = ((wrqu->essid.length-1) < IW_ESSID_MAX_SIZE) ? (wrqu->essid.length-1) : IW_ESSID_MAX_SIZE;
++#else
++		len = (wrqu->essid.length < IW_ESSID_MAX_SIZE) ? wrqu->essid.length : IW_ESSID_MAX_SIZE;
++#endif
++
++		if( wrqu->essid.length != 33 )
++			DBG_871X("ssid=%s, len=%d\n", extra, wrqu->essid.length);
++
++		_rtw_memset(&ndis_ssid, 0, sizeof(NDIS_802_11_SSID));
++		ndis_ssid.SsidLength = len;
++		_rtw_memcpy(ndis_ssid.Ssid, extra, len);		
++		src_ssid = ndis_ssid.Ssid;
++		
++		RT_TRACE(_module_rtl871x_ioctl_os_c, _drv_info_, ("rtw_wx_set_essid: ssid=[%s]\n", src_ssid));
++		_enter_critical_bh(&pmlmepriv->lock, &irqL);
++		_enter_critical_bh(&queue->lock, &irqL);
++	       phead = get_list_head(queue);
++              pmlmepriv->pscanned = get_next(phead);
++
++		while (1)
++		{			
++			if (rtw_end_of_queue_search(phead, pmlmepriv->pscanned) == _TRUE)
++			{
++#if 0			
++				if(check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE)
++				{
++	            			rtw_set_802_11_ssid(padapter, &ndis_ssid);
++
++		    			goto exit;                    
++				}
++				else
++				{
++					RT_TRACE(_module_rtl871x_ioctl_os_c,_drv_info_,("rtw_wx_set_ssid(): scanned_queue is empty\n"));
++					ret = -EINVAL;
++					goto exit;
++				}
++#endif			
++			        RT_TRACE(_module_rtl871x_ioctl_os_c, _drv_warning_,
++					 ("rtw_wx_set_essid: scan_q is empty, set ssid to check if scanning again!\n"));
++
++				break;
++			}
++	
++			pnetwork = LIST_CONTAINOR(pmlmepriv->pscanned, struct wlan_network, list);
++
++			pmlmepriv->pscanned = get_next(pmlmepriv->pscanned);
++
++			dst_ssid = pnetwork->network.Ssid.Ssid;
++
++			RT_TRACE(_module_rtl871x_ioctl_os_c, _drv_info_,
++				 ("rtw_wx_set_essid: dst_ssid=%s\n",
++				  pnetwork->network.Ssid.Ssid));
++
++			if ((_rtw_memcmp(dst_ssid, src_ssid, ndis_ssid.SsidLength) == _TRUE) &&
++				(pnetwork->network.Ssid.SsidLength==ndis_ssid.SsidLength))
++			{
++				RT_TRACE(_module_rtl871x_ioctl_os_c, _drv_info_,
++					 ("rtw_wx_set_essid: find match, set infra mode\n"));
++				
++				if(check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE)
++				{
++					if(pnetwork->network.InfrastructureMode != pmlmepriv->cur_network.network.InfrastructureMode)
++						continue;
++				}	
++					
++				if (rtw_set_802_11_infrastructure_mode(padapter, pnetwork->network.InfrastructureMode) == _FALSE)
++				{
++					ret = -1;
++					_exit_critical_bh(&queue->lock, &irqL);
++					_exit_critical_bh(&pmlmepriv->lock, &irqL);
++					goto exit;
++				}
++
++				break;			
++			}
++		}
++		_exit_critical_bh(&queue->lock, &irqL);
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++		RT_TRACE(_module_rtl871x_ioctl_os_c, _drv_info_,
++			 ("set ssid: set_802_11_auth. mode=%d\n", authmode));
++		rtw_set_802_11_authentication_mode(padapter, authmode);
++		//set_802_11_encryption_mode(padapter, padapter->securitypriv.ndisencryptstatus);
++		if (rtw_set_802_11_ssid(padapter, &ndis_ssid) == _FALSE) {
++			ret = -1;
++			goto exit;
++		}	
++	}			
++	
++exit:
++
++	DBG_871X("<=%s, ret %d\n",__FUNCTION__, ret);
++	
++	#ifdef DBG_IOCTL
++	DBG_871X("DBG_IOCTL %s:%d return %d\n",__FUNCTION__, __LINE__, ret);
++	#endif
++	
++	_func_exit_;
++	
++	return ret;	
++}
++
++static int rtw_wx_get_essid(struct net_device *dev, 
++			      struct iw_request_info *a,
++			      union iwreq_data *wrqu, char *extra)
++{
++	u32 len,ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX  *pcur_bss = &pmlmepriv->cur_network.network;
++
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,("rtw_wx_get_essid\n"));
++
++	_func_enter_;
++
++	if ( (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) ||
++	      (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE))
++	{
++		len = pcur_bss->Ssid.SsidLength;
++
++		wrqu->essid.length = len;
++			
++		_rtw_memcpy(extra, pcur_bss->Ssid.Ssid, len);
++
++		wrqu->essid.flags = 1;
++	}
++	else
++	{
++		ret = -1;
++		goto exit;
++	}
++
++exit:
++	
++	_func_exit_;
++	
++	return ret;
++	
++}
++
++static int rtw_wx_set_rate(struct net_device *dev, 
++			      struct iw_request_info *a,
++			      union iwreq_data *wrqu, char *extra)
++{
++	int	i, ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8	datarates[NumRates];
++	u32	target_rate = wrqu->bitrate.value;
++	u32	fixed = wrqu->bitrate.fixed;
++	u32	ratevalue = 0;
++	 u8 mpdatarate[NumRates]={11, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1, 0, 0xff};
++
++_func_enter_;
++
++	RT_TRACE(_module_rtl871x_mlme_c_,_drv_info_,(" rtw_wx_set_rate \n"));
++	RT_TRACE(_module_rtl871x_ioctl_os_c,_drv_info_,("target_rate = %d, fixed = %d\n",target_rate,fixed));
++	
++	if(target_rate == -1){
++		ratevalue = 11;
++		goto set_rate;
++	}
++	target_rate = target_rate/100000;
++
++	switch(target_rate){
++		case 10:
++			ratevalue = 0;
++			break;
++		case 20:
++			ratevalue = 1;
++			break;
++		case 55:
++			ratevalue = 2;
++			break;
++		case 60:
++			ratevalue = 3;
++			break;
++		case 90:
++			ratevalue = 4;
++			break;
++		case 110:
++			ratevalue = 5;
++			break;
++		case 120:
++			ratevalue = 6;
++			break;
++		case 180:
++			ratevalue = 7;
++			break;
++		case 240:
++			ratevalue = 8;
++			break;
++		case 360:
++			ratevalue = 9;
++			break;
++		case 480:
++			ratevalue = 10;
++			break;
++		case 540:
++			ratevalue = 11;
++			break;
++		default:
++			ratevalue = 11;
++			break;
++	}
++
++set_rate:
++
++	for(i=0; i<NumRates; i++)
++	{
++		if(ratevalue==mpdatarate[i])
++		{
++			datarates[i] = mpdatarate[i];
++			if(fixed == 0)
++				break;
++		}
++		else{
++			datarates[i] = 0xff;
++		}
++
++		RT_TRACE(_module_rtl871x_ioctl_os_c,_drv_info_,("datarate_inx=%d\n",datarates[i]));
++	}
++
++	if( rtw_setdatarate_cmd(padapter, datarates) !=_SUCCESS){
++		RT_TRACE(_module_rtl871x_ioctl_os_c,_drv_err_,("rtw_wx_set_rate Fail!!!\n"));
++		ret = -1;
++	}
++
++_func_exit_;
++
++	return ret;
++}
++
++static int rtw_wx_get_rate(struct net_device *dev, 
++			     struct iw_request_info *info, 
++			     union iwreq_data *wrqu, char *extra)
++{	
++	u16 max_rate = 0;
++
++	max_rate = rtw_get_cur_max_rate((_adapter *)rtw_netdev_priv(dev));
++
++	if(max_rate == 0)
++		return -EPERM;
++	
++	wrqu->bitrate.fixed = 0;	/* no auto select */
++	wrqu->bitrate.value = max_rate * 100000;
++
++	return 0;
++}
++
++static int rtw_wx_set_rts(struct net_device *dev, 
++			     struct iw_request_info *info, 
++			     union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	_func_enter_;
++	
++	if (wrqu->rts.disabled)
++		padapter->registrypriv.rts_thresh = 2347;
++	else {
++		if (wrqu->rts.value < 0 ||
++		    wrqu->rts.value > 2347)
++			return -EINVAL;
++		
++		padapter->registrypriv.rts_thresh = wrqu->rts.value;
++	}
++
++	DBG_871X("%s, rts_thresh=%d\n", __func__, padapter->registrypriv.rts_thresh);
++	
++	_func_exit_;
++	
++	return 0;
++
++}
++
++static int rtw_wx_get_rts(struct net_device *dev, 
++			     struct iw_request_info *info, 
++			     union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	
++	_func_enter_;
++
++	DBG_871X("%s, rts_thresh=%d\n", __func__, padapter->registrypriv.rts_thresh);	
++	
++	wrqu->rts.value = padapter->registrypriv.rts_thresh;
++	wrqu->rts.fixed = 0;	/* no auto select */
++	//wrqu->rts.disabled = (wrqu->rts.value == DEFAULT_RTS_THRESHOLD);
++	
++	_func_exit_;
++	
++	return 0;
++}
++
++static int rtw_wx_set_frag(struct net_device *dev, 
++			     struct iw_request_info *info, 
++			     union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	_func_enter_;
++	
++	if (wrqu->frag.disabled)
++		padapter->xmitpriv.frag_len = MAX_FRAG_THRESHOLD;
++	else {
++		if (wrqu->frag.value < MIN_FRAG_THRESHOLD ||
++		    wrqu->frag.value > MAX_FRAG_THRESHOLD)
++			return -EINVAL;
++		
++		padapter->xmitpriv.frag_len = wrqu->frag.value & ~0x1;
++	}
++
++	DBG_871X("%s, frag_len=%d\n", __func__, padapter->xmitpriv.frag_len);
++	
++	_func_exit_;
++	
++	return 0;
++	
++}
++
++static int rtw_wx_get_frag(struct net_device *dev, 
++			     struct iw_request_info *info, 
++			     union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	
++	_func_enter_;
++
++	DBG_871X("%s, frag_len=%d\n", __func__, padapter->xmitpriv.frag_len);
++	
++	wrqu->frag.value = padapter->xmitpriv.frag_len;
++	wrqu->frag.fixed = 0;	/* no auto select */
++	//wrqu->frag.disabled = (wrqu->frag.value == DEFAULT_FRAG_THRESHOLD);
++	
++	_func_exit_;
++	
++	return 0;
++}
++
++static int rtw_wx_get_retry(struct net_device *dev, 
++			     struct iw_request_info *info, 
++			     union iwreq_data *wrqu, char *extra)
++{
++	//_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	
++	wrqu->retry.value = 7;
++	wrqu->retry.fixed = 0;	/* no auto select */
++	wrqu->retry.disabled = 1;
++	
++	return 0;
++
++}	
++
++#if 0
++#define IW_ENCODE_INDEX		0x00FF	/* Token index (if needed) */
++#define IW_ENCODE_FLAGS		0xFF00	/* Flags defined below */
++#define IW_ENCODE_MODE		0xF000	/* Modes defined below */
++#define IW_ENCODE_DISABLED	0x8000	/* Encoding disabled */
++#define IW_ENCODE_ENABLED	0x0000	/* Encoding enabled */
++#define IW_ENCODE_RESTRICTED	0x4000	/* Refuse non-encoded packets */
++#define IW_ENCODE_OPEN		0x2000	/* Accept non-encoded packets */
++#define IW_ENCODE_NOKEY		0x0800  /* Key is write only, so not present */
++#define IW_ENCODE_TEMP		0x0400  /* Temporary key */
++/*
++iwconfig wlan0 key on -> flags = 0x6001 -> maybe it means auto
++iwconfig wlan0 key off -> flags = 0x8800
++iwconfig wlan0 key open -> flags = 0x2800
++iwconfig wlan0 key open 1234567890 -> flags = 0x2000
++iwconfig wlan0 key restricted -> flags = 0x4800
++iwconfig wlan0 key open [3] 1234567890 -> flags = 0x2003
++iwconfig wlan0 key restricted [2] 1234567890 -> flags = 0x4002
++iwconfig wlan0 key open [3] -> flags = 0x2803
++iwconfig wlan0 key restricted [2] -> flags = 0x4802
++*/
++#endif
++
++static int rtw_wx_set_enc(struct net_device *dev, 
++			    struct iw_request_info *info, 
++			    union iwreq_data *wrqu, char *keybuf)
++{	
++	u32 key, ret = 0;
++	u32 keyindex_provided;
++	NDIS_802_11_WEP	 wep;	
++	NDIS_802_11_AUTHENTICATION_MODE authmode;
++
++	struct iw_point *erq = &(wrqu->encoding);
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++	DBG_871X("+rtw_wx_set_enc, flags=0x%x\n", erq->flags);
++
++	_rtw_memset(&wep, 0, sizeof(NDIS_802_11_WEP));
++	
++	key = erq->flags & IW_ENCODE_INDEX;
++	
++	_func_enter_;	
++
++	if (erq->flags & IW_ENCODE_DISABLED)
++	{
++		DBG_871X("EncryptionDisabled\n");
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11EncryptionDisabled;
++		padapter->securitypriv.dot11PrivacyAlgrthm=_NO_PRIVACY_;
++		padapter->securitypriv.dot118021XGrpPrivacy=_NO_PRIVACY_;
++		padapter->securitypriv.dot11AuthAlgrthm= dot11AuthAlgrthm_Open; //open system
++  		authmode = Ndis802_11AuthModeOpen;
++		padapter->securitypriv.ndisauthtype=authmode;
++     		
++		goto exit;
++	}
++
++	if (key) {
++		if (key > WEP_KEYS)
++			return -EINVAL;
++		key--;
++		keyindex_provided = 1;
++	} 
++	else
++	{
++		keyindex_provided = 0;
++		key = padapter->securitypriv.dot11PrivacyKeyIndex;
++		DBG_871X("rtw_wx_set_enc, key=%d\n", key);
++	}
++	
++	//set authentication mode	
++	if(erq->flags & IW_ENCODE_OPEN)
++	{
++		DBG_871X("rtw_wx_set_enc():IW_ENCODE_OPEN\n");
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;//Ndis802_11EncryptionDisabled;
++
++#ifdef CONFIG_PLATFORM_MT53XX
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++#else
++		padapter->securitypriv.dot11AuthAlgrthm= dot11AuthAlgrthm_Open;
++#endif
++
++		padapter->securitypriv.dot11PrivacyAlgrthm=_NO_PRIVACY_;
++		padapter->securitypriv.dot118021XGrpPrivacy=_NO_PRIVACY_;
++  		authmode = Ndis802_11AuthModeOpen;
++		padapter->securitypriv.ndisauthtype=authmode;
++	}	
++	else if(erq->flags & IW_ENCODE_RESTRICTED)
++	{		
++		DBG_871X("rtw_wx_set_enc():IW_ENCODE_RESTRICTED\n");
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++
++#ifdef CONFIG_PLATFORM_MT53XX
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++#else
++		padapter->securitypriv.dot11AuthAlgrthm= dot11AuthAlgrthm_Shared;
++#endif
++
++		padapter->securitypriv.dot11PrivacyAlgrthm=_WEP40_;
++		padapter->securitypriv.dot118021XGrpPrivacy=_WEP40_;			
++		authmode = Ndis802_11AuthModeShared;
++		padapter->securitypriv.ndisauthtype=authmode;
++	}
++	else
++	{
++		DBG_871X("rtw_wx_set_enc():erq->flags=0x%x\n", erq->flags);
++
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;//Ndis802_11EncryptionDisabled;
++		padapter->securitypriv.dot11AuthAlgrthm= dot11AuthAlgrthm_Open; //open system
++		padapter->securitypriv.dot11PrivacyAlgrthm=_NO_PRIVACY_;
++		padapter->securitypriv.dot118021XGrpPrivacy=_NO_PRIVACY_;
++  		authmode = Ndis802_11AuthModeOpen;
++		padapter->securitypriv.ndisauthtype=authmode;
++	}
++	
++	wep.KeyIndex = key;
++	if (erq->length > 0)
++	{
++		wep.KeyLength = erq->length <= 5 ? 5 : 13;
++
++		wep.Length = wep.KeyLength + FIELD_OFFSET(NDIS_802_11_WEP, KeyMaterial);
++	}
++	else
++	{
++		wep.KeyLength = 0 ;
++		
++		if(keyindex_provided == 1)// set key_id only, no given KeyMaterial(erq->length==0).
++		{
++			padapter->securitypriv.dot11PrivacyKeyIndex = key;
++
++			DBG_871X("(keyindex_provided == 1), keyid=%d, key_len=%d\n", key, padapter->securitypriv.dot11DefKeylen[key]);
++
++			switch(padapter->securitypriv.dot11DefKeylen[key])
++			{
++				case 5:
++					padapter->securitypriv.dot11PrivacyAlgrthm=_WEP40_;					
++					break;
++				case 13:
++					padapter->securitypriv.dot11PrivacyAlgrthm=_WEP104_;					
++					break;
++				default:
++					padapter->securitypriv.dot11PrivacyAlgrthm=_NO_PRIVACY_;					
++					break;
++			}
++				
++			goto exit;
++			
++		}
++		
++	}
++
++	wep.KeyIndex |= 0x80000000;
++
++	_rtw_memcpy(wep.KeyMaterial, keybuf, wep.KeyLength);
++	
++	if (rtw_set_802_11_add_wep(padapter, &wep) == _FALSE) {
++		if(rf_on == pwrpriv->rf_pwrstate )
++			ret = -EOPNOTSUPP;
++		goto exit;
++	}	
++
++exit:
++	
++	_func_exit_;
++	
++	return ret;
++	
++}
++
++static int rtw_wx_get_enc(struct net_device *dev, 
++			    struct iw_request_info *info, 
++			    union iwreq_data *wrqu, char *keybuf)
++{
++	uint key, ret =0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *erq = &(wrqu->encoding);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++
++	_func_enter_;
++	
++	if(check_fwstate(pmlmepriv, _FW_LINKED) != _TRUE)
++	{
++		 if(check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) != _TRUE)
++		 {
++		erq->length = 0;
++		erq->flags |= IW_ENCODE_DISABLED;
++		return 0;
++	}	
++	}	
++
++	
++	key = erq->flags & IW_ENCODE_INDEX;
++
++	if (key) {
++		if (key > WEP_KEYS)
++			return -EINVAL;
++		key--;
++	} else
++	{
++		key = padapter->securitypriv.dot11PrivacyKeyIndex;
++	}	
++
++	erq->flags = key + 1;
++
++	//if(padapter->securitypriv.ndisauthtype == Ndis802_11AuthModeOpen)
++	//{
++	//      erq->flags |= IW_ENCODE_OPEN;
++	//}	  
++	
++	switch(padapter->securitypriv.ndisencryptstatus)
++	{
++		case Ndis802_11EncryptionNotSupported:
++		case Ndis802_11EncryptionDisabled:
++
++		erq->length = 0;
++		erq->flags |= IW_ENCODE_DISABLED;
++	
++		break;
++		
++		case Ndis802_11Encryption1Enabled:					
++		
++		erq->length = padapter->securitypriv.dot11DefKeylen[key];		
++
++		if(erq->length)
++		{
++			_rtw_memcpy(keybuf, padapter->securitypriv.dot11DefKey[key].skey, padapter->securitypriv.dot11DefKeylen[key]);
++		
++		erq->flags |= IW_ENCODE_ENABLED;
++
++			if(padapter->securitypriv.ndisauthtype == Ndis802_11AuthModeOpen)
++			{
++	     			erq->flags |= IW_ENCODE_OPEN;
++			}
++			else if(padapter->securitypriv.ndisauthtype == Ndis802_11AuthModeShared)
++			{
++		erq->flags |= IW_ENCODE_RESTRICTED;
++			}	
++		}	
++		else
++		{
++			erq->length = 0;
++			erq->flags |= IW_ENCODE_DISABLED;
++		}
++
++		break;
++
++		case Ndis802_11Encryption2Enabled:
++		case Ndis802_11Encryption3Enabled:
++
++		erq->length = 16;
++		erq->flags |= (IW_ENCODE_ENABLED | IW_ENCODE_OPEN | IW_ENCODE_NOKEY);
++
++		break;
++	
++		default:
++		erq->length = 0;
++		erq->flags |= IW_ENCODE_DISABLED;
++
++		break;
++		
++	}
++	
++	_func_exit_;
++	
++	return ret;
++	
++}				     
++
++static int rtw_wx_get_power(struct net_device *dev, 
++			     struct iw_request_info *info, 
++			     union iwreq_data *wrqu, char *extra)
++{
++	//_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	
++	wrqu->power.value = 0;
++	wrqu->power.fixed = 0;	/* no auto select */
++	wrqu->power.disabled = 1;
++	
++	return 0;
++
++}
++
++static int rtw_wx_set_gen_ie(struct net_device *dev, 
++			     struct iw_request_info *info, 
++			     union iwreq_data *wrqu, char *extra)
++{
++	int ret;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	
++       ret = rtw_set_wpa_ie(padapter, extra, wrqu->data.length);
++	   
++	return ret;
++}	
++
++static int rtw_wx_set_auth(struct net_device *dev, 
++			     struct iw_request_info *info, 
++			     union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_param *param = (struct iw_param*)&(wrqu->param);
++	int ret = 0;
++	
++	switch (param->flags & IW_AUTH_INDEX) {
++	case IW_AUTH_WPA_VERSION:
++		break;
++	case IW_AUTH_CIPHER_PAIRWISE:
++		
++		break;
++	case IW_AUTH_CIPHER_GROUP:
++		
++		break;
++	case IW_AUTH_KEY_MGMT:
++		/*
++		 *  ??? does not use these parameters
++		 */
++		break;
++
++	case IW_AUTH_TKIP_COUNTERMEASURES:
++        {
++	    if ( param->value )
++            {  // wpa_supplicant is enabling the tkip countermeasure.
++               padapter->securitypriv.btkip_countermeasure = _TRUE; 
++            }
++            else
++            {  // wpa_supplicant is disabling the tkip countermeasure.
++               padapter->securitypriv.btkip_countermeasure = _FALSE; 
++            }
++		break;
++        }
++	case IW_AUTH_DROP_UNENCRYPTED:
++		{
++			/* HACK:
++			 *
++			 * wpa_supplicant calls set_wpa_enabled when the driver
++			 * is loaded and unloaded, regardless of if WPA is being
++			 * used.  No other calls are made which can be used to
++			 * determine if encryption will be used or not prior to
++			 * association being expected.  If encryption is not being
++			 * used, drop_unencrypted is set to false, else true -- we
++			 * can use this to determine if the CAP_PRIVACY_ON bit should
++			 * be set.
++			 */
++
++			if(padapter->securitypriv.ndisencryptstatus == Ndis802_11Encryption1Enabled)
++			{
++				break;//it means init value, or using wep, ndisencryptstatus = Ndis802_11Encryption1Enabled, 
++						// then it needn't reset it;
++			}
++			
++			if(param->value){
++				padapter->securitypriv.ndisencryptstatus = Ndis802_11EncryptionDisabled;
++				padapter->securitypriv.dot11PrivacyAlgrthm=_NO_PRIVACY_;
++				padapter->securitypriv.dot118021XGrpPrivacy=_NO_PRIVACY_;
++				padapter->securitypriv.dot11AuthAlgrthm= dot11AuthAlgrthm_Open; //open system
++				padapter->securitypriv.ndisauthtype=Ndis802_11AuthModeOpen;
++			}
++			
++			break;
++		}
++
++	case IW_AUTH_80211_AUTH_ALG:
++
++		#if defined(CONFIG_ANDROID) || 1
++		/*
++		 *  It's the starting point of a link layer connection using wpa_supplicant
++		*/
++		if(check_fwstate(&padapter->mlmepriv, _FW_LINKED)) {
++			LeaveAllPowerSaveMode(padapter);
++			rtw_disassoc_cmd(padapter, 500, _FALSE);
++			DBG_871X("%s...call rtw_indicate_disconnect\n ",__FUNCTION__);
++			rtw_indicate_disconnect(padapter);
++			rtw_free_assoc_resources(padapter, 1);
++		}
++		#endif
++
++
++		ret = wpa_set_auth_algs(dev, (u32)param->value);		
++	
++		break;
++
++	case IW_AUTH_WPA_ENABLED:
++
++		//if(param->value)
++		//	padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_8021X; //802.1x
++		//else
++		//	padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Open;//open system
++		
++		//_disassociate(priv);
++		
++		break;
++
++	case IW_AUTH_RX_UNENCRYPTED_EAPOL:
++		//ieee->ieee802_1x = param->value;
++		break;
++
++	case IW_AUTH_PRIVACY_INVOKED:
++		//ieee->privacy_invoked = param->value;
++		break;
++
++	default:
++		return -EOPNOTSUPP;
++		
++	}
++	
++	return ret;
++	
++}
++
++static int rtw_wx_set_enc_ext(struct net_device *dev, 
++			     struct iw_request_info *info, 
++			     union iwreq_data *wrqu, char *extra)
++{
++	char *alg_name;
++	u32 param_len;
++	struct ieee_param *param = NULL;
++	struct iw_point *pencoding = &wrqu->encoding;
++ 	struct iw_encode_ext *pext = (struct iw_encode_ext *)extra;
++	int ret=0;
++
++	param_len = sizeof(struct ieee_param) + pext->key_len;
++	param = (struct ieee_param *)rtw_malloc(param_len);
++	if (param == NULL)
++		return -1;
++	
++	_rtw_memset(param, 0, param_len);
++
++	param->cmd = IEEE_CMD_SET_ENCRYPTION;
++	_rtw_memset(param->sta_addr, 0xff, ETH_ALEN);
++
++
++	switch (pext->alg) {
++	case IW_ENCODE_ALG_NONE:
++		//todo: remove key 
++		//remove = 1;	
++		alg_name = "none";
++		break;
++	case IW_ENCODE_ALG_WEP:
++		alg_name = "WEP";
++		break;
++	case IW_ENCODE_ALG_TKIP:
++		alg_name = "TKIP";
++		break;
++	case IW_ENCODE_ALG_CCMP:
++		alg_name = "CCMP";
++		break;
++#ifdef CONFIG_IEEE80211W
++	case IW_ENCODE_ALG_AES_CMAC:
++		alg_name = "BIP";
++		break;
++#endif //CONFIG_IEEE80211W
++	default:	
++		return -1;
++	}
++	
++	strncpy((char *)param->u.crypt.alg, alg_name, IEEE_CRYPT_ALG_NAME_LEN);
++
++	
++	if((pext->ext_flags & IW_ENCODE_EXT_GROUP_KEY)//?
++#ifdef CONFIG_IEEE80211W
++		|| (pext->ext_flags & IW_ENCODE_ALG_AES_CMAC)
++#endif //CONFIG_IEEE80211W
++	)
++	{
++		param->u.crypt.set_tx = 0;
++	}
++
++	if (pext->ext_flags & IW_ENCODE_EXT_SET_TX_KEY)//?
++	{
++		param->u.crypt.set_tx = 1;
++	}
++
++	param->u.crypt.idx = (pencoding->flags&0x00FF) -1 ;
++	
++	if (pext->ext_flags & IW_ENCODE_EXT_RX_SEQ_VALID) 
++	{	
++		_rtw_memcpy(param->u.crypt.seq, pext->rx_seq, 8);
++	}
++
++	if(pext->key_len)
++	{
++		param->u.crypt.key_len = pext->key_len;
++		//_rtw_memcpy(param + 1, pext + 1, pext->key_len);
++		_rtw_memcpy(param->u.crypt.key, pext + 1, pext->key_len);
++	}	
++
++	
++	if (pencoding->flags & IW_ENCODE_DISABLED)
++	{		
++		//todo: remove key 
++		//remove = 1;		
++	}	
++	
++	ret =  wpa_set_encryption(dev, param, param_len);	
++	
++
++	if(param)
++	{
++		rtw_mfree((u8*)param, param_len);
++	}
++		
++	
++	return ret;		
++
++}
++
++
++static int rtw_wx_get_nick(struct net_device *dev, 
++			     struct iw_request_info *info, 
++			     union iwreq_data *wrqu, char *extra)
++{	
++	//_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	 //struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	 //struct security_priv *psecuritypriv = &padapter->securitypriv;
++
++	if(extra)
++	{
++		wrqu->data.length = 14;
++		wrqu->data.flags = 1;
++		_rtw_memcpy(extra, "<WIFI@REALTEK>", 14);
++	}
++
++	//rtw_signal_process(pid, SIGUSR1); //for test
++
++	//dump debug info here	
++/*
++	u32 dot11AuthAlgrthm;		// 802.11 auth, could be open, shared, and 8021x
++	u32 dot11PrivacyAlgrthm;	// This specify the privacy for shared auth. algorithm.
++	u32 dot118021XGrpPrivacy;	// This specify the privacy algthm. used for Grp key 
++	u32 ndisauthtype;
++	u32 ndisencryptstatus;
++*/
++
++	//DBG_871X("auth_alg=0x%x, enc_alg=0x%x, auth_type=0x%x, enc_type=0x%x\n", 
++	//		psecuritypriv->dot11AuthAlgrthm, psecuritypriv->dot11PrivacyAlgrthm,
++	//		psecuritypriv->ndisauthtype, psecuritypriv->ndisencryptstatus);
++	
++	//DBG_871X("enc_alg=0x%x\n", psecuritypriv->dot11PrivacyAlgrthm);
++	//DBG_871X("auth_type=0x%x\n", psecuritypriv->ndisauthtype);
++	//DBG_871X("enc_type=0x%x\n", psecuritypriv->ndisencryptstatus);
++
++#if 0
++	DBG_871X("dbg(0x210)=0x%x\n", rtw_read32(padapter, 0x210));
++	DBG_871X("dbg(0x608)=0x%x\n", rtw_read32(padapter, 0x608));
++	DBG_871X("dbg(0x280)=0x%x\n", rtw_read32(padapter, 0x280));
++	DBG_871X("dbg(0x284)=0x%x\n", rtw_read32(padapter, 0x284));
++	DBG_871X("dbg(0x288)=0x%x\n", rtw_read32(padapter, 0x288));
++	
++	DBG_871X("dbg(0x664)=0x%x\n", rtw_read32(padapter, 0x664));
++
++
++	DBG_871X("\n");
++
++	DBG_871X("dbg(0x430)=0x%x\n", rtw_read32(padapter, 0x430));
++	DBG_871X("dbg(0x438)=0x%x\n", rtw_read32(padapter, 0x438));
++
++	DBG_871X("dbg(0x440)=0x%x\n", rtw_read32(padapter, 0x440));
++	
++	DBG_871X("dbg(0x458)=0x%x\n", rtw_read32(padapter, 0x458));
++	
++	DBG_871X("dbg(0x484)=0x%x\n", rtw_read32(padapter, 0x484));
++	DBG_871X("dbg(0x488)=0x%x\n", rtw_read32(padapter, 0x488));
++	
++	DBG_871X("dbg(0x444)=0x%x\n", rtw_read32(padapter, 0x444));
++	DBG_871X("dbg(0x448)=0x%x\n", rtw_read32(padapter, 0x448));
++	DBG_871X("dbg(0x44c)=0x%x\n", rtw_read32(padapter, 0x44c));
++	DBG_871X("dbg(0x450)=0x%x\n", rtw_read32(padapter, 0x450));
++#endif
++	
++	return 0;
++
++}
++
++static int rtw_wx_read32(struct net_device *dev,
++                            struct iw_request_info *info,
++                            union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter;
++	struct iw_point *p;
++	u16 len;
++	u32 addr;
++	u32 data32;
++	u32 bytes;
++	u8 *ptmp;
++
++
++	padapter = (PADAPTER)rtw_netdev_priv(dev);
++	p = &wrqu->data;
++	len = p->length;
++	ptmp = (u8*)rtw_malloc(len);
++	if (NULL == ptmp)
++		return -ENOMEM;
++
++	if (copy_from_user(ptmp, p->pointer, len)) {
++		rtw_mfree(ptmp, len);
++		return -EFAULT;
++	}
++
++	bytes = 0;
++	addr = 0;
++	sscanf(ptmp, "%d,%x", &bytes, &addr);
++
++	switch (bytes) {
++		case 1:
++			data32 = rtw_read8(padapter, addr);
++			sprintf(extra, "0x%02X", data32);
++			break;
++		case 2:
++			data32 = rtw_read16(padapter, addr);
++			sprintf(extra, "0x%04X", data32);
++			break;
++		case 4:
++			data32 = rtw_read32(padapter, addr);
++			sprintf(extra, "0x%08X", data32);
++			break;
++		default:
++			printk(KERN_INFO "%s: usage> read [bytes],[address(hex)]\n", __func__);
++			return -EINVAL;
++	}
++	printk(KERN_INFO "%s: addr=0x%08X data=%s\n", __func__, addr, extra);
++
++	rtw_mfree(ptmp, len);
++
++	return 0;
++}
++
++static int rtw_wx_write32(struct net_device *dev,
++                            struct iw_request_info *info,
++                            union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = (PADAPTER)rtw_netdev_priv(dev);
++
++	u32 addr;
++	u32 data32;
++	u32 bytes;
++
++
++	bytes = 0;
++	addr = 0;
++	data32 = 0;
++	sscanf(extra, "%d,%x,%x", &bytes, &addr, &data32);
++
++	switch (bytes) {
++		case 1:
++			rtw_write8(padapter, addr, (u8)data32);
++			printk(KERN_INFO "%s: addr=0x%08X data=0x%02X\n", __func__, addr, (u8)data32);
++			break;
++		case 2:
++			rtw_write16(padapter, addr, (u16)data32);
++			printk(KERN_INFO "%s: addr=0x%08X data=0x%04X\n", __func__, addr, (u16)data32);
++			break;
++		case 4:
++			rtw_write32(padapter, addr, data32);
++			printk(KERN_INFO "%s: addr=0x%08X data=0x%08X\n", __func__, addr, data32);
++			break;
++		default:
++			printk(KERN_INFO "%s: usage> write [bytes],[address(hex)],[data(hex)]\n", __func__);
++			return -EINVAL;
++	}
++
++	return 0;
++}
++
++static int rtw_wx_read_rf(struct net_device *dev,
++                            struct iw_request_info *info,
++                            union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u32 path, addr, data32;
++
++
++	path = *(u32*)extra;
++	addr = *((u32*)extra + 1);
++	data32 = rtw_hal_read_rfreg(padapter, path, addr, 0xFFFFF);
++//	DBG_871X("%s: path=%d addr=0x%02x data=0x%05x\n", __func__, path, addr, data32);
++	/*
++	 * IMPORTANT!!
++	 * Only when wireless private ioctl is at odd order,
++	 * "extra" would be copied to user space.
++	 */
++	sprintf(extra, "0x%05x", data32);
++
++	return 0;
++}
++
++static int rtw_wx_write_rf(struct net_device *dev,
++                            struct iw_request_info *info,
++                            union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u32 path, addr, data32;
++
++
++	path = *(u32*)extra;
++	addr = *((u32*)extra + 1);
++	data32 = *((u32*)extra + 2);
++//	DBG_871X("%s: path=%d addr=0x%02x data=0x%05x\n", __func__, path, addr, data32);
++	rtw_hal_write_rfreg(padapter, path, addr, 0xFFFFF, data32);
++
++	return 0;
++}
++
++static int rtw_wx_priv_null(struct net_device *dev, struct iw_request_info *a,
++		 union iwreq_data *wrqu, char *b)
++{
++	return -1;
++}
++
++static int dummy(struct net_device *dev, struct iw_request_info *a,
++		 union iwreq_data *wrqu, char *b)
++{
++	//_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	//struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	//DBG_871X("cmd_code=%x, fwstate=0x%x\n", a->cmd, get_fwstate(pmlmepriv));
++	
++	return -1;
++	
++}
++
++static int rtw_wx_set_channel_plan(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	extern int rtw_channel_plan;
++	u8 channel_plan_req = (u8) (*((int *)wrqu));
++
++	#if 0
++	rtw_channel_plan = (int)wrqu->data.pointer;
++	pregistrypriv->channel_plan = rtw_channel_plan;
++	pmlmepriv->ChannelPlan = pregistrypriv->channel_plan;
++	#endif
++
++	if( _SUCCESS == rtw_set_chplan_cmd(padapter, channel_plan_req, 1) ) {
++		DBG_871X("%s set channel_plan = 0x%02X\n", __func__, pmlmepriv->ChannelPlan);
++	} else 
++		return -EPERM;
++
++	return 0;
++}
++
++static int rtw_wx_set_mtk_wps_probe_ie(struct net_device *dev,
++		struct iw_request_info *a,
++		union iwreq_data *wrqu, char *b)
++{
++#ifdef CONFIG_PLATFORM_MT53XX
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	RT_TRACE(_module_rtl871x_ioctl_os_c, _drv_notice_,
++		 ("WLAN IOCTL: cmd_code=%x, fwstate=0x%x\n",
++		  a->cmd, get_fwstate(pmlmepriv)));
++#endif
++	return 0;
++}
++
++static int rtw_wx_get_sensitivity(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *buf)
++{
++#ifdef CONFIG_PLATFORM_MT53XX
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	//	Modified by Albert 20110914
++	//	This is in dbm format for MTK platform.
++	wrqu->qual.level = padapter->recvpriv.rssi;
++	DBG_871X(" level = %u\n",  wrqu->qual.level );
++#endif
++	return 0;
++}
++
++static int rtw_wx_set_mtk_wps_ie(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++#ifdef CONFIG_PLATFORM_MT53XX
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	return rtw_set_wpa_ie(padapter, wrqu->data.pointer, wrqu->data.length);
++#else
++	return 0;
++#endif
++}
++
++/*
++typedef int (*iw_handler)(struct net_device *dev, struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra);
++*/
++/*
++ *	For all data larger than 16 octets, we need to use a
++ *	pointer to memory allocated in user space.
++ */
++static  int rtw_drvext_hdl(struct net_device *dev, struct iw_request_info *info,
++						union iwreq_data *wrqu, char *extra)
++{
++
++ #if 0
++struct	iw_point
++{
++  void __user	*pointer;	/* Pointer to the data  (in user space) */
++  __u16		length;		/* number of fields or size in bytes */
++  __u16		flags;		/* Optional params */
++};
++ #endif
++
++#ifdef CONFIG_DRVEXT_MODULE
++	u8 res;
++	struct drvext_handler *phandler;	
++	struct drvext_oidparam *poidparam;		
++	int ret;
++	u16 len;
++	u8 *pparmbuf, bset;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *p = &wrqu->data;
++
++	if( (!p->length) || (!p->pointer)){
++		ret = -EINVAL;
++		goto _rtw_drvext_hdl_exit;
++	}
++	
++	
++	bset = (u8)(p->flags&0xFFFF);
++	len = p->length;
++	pparmbuf = (u8*)rtw_malloc(len);
++	if (pparmbuf == NULL){
++		ret = -ENOMEM;
++		goto _rtw_drvext_hdl_exit;
++	}
++	
++	if(bset)//set info
++	{
++		if (copy_from_user(pparmbuf, p->pointer,len)) {
++			rtw_mfree(pparmbuf, len);
++			ret = -EFAULT;
++			goto _rtw_drvext_hdl_exit;
++		}		
++	}
++	else//query info
++	{
++	
++	}
++
++	
++	//
++	poidparam = (struct drvext_oidparam *)pparmbuf;	
++	
++	RT_TRACE(_module_rtl871x_ioctl_os_c,_drv_info_,("drvext set oid subcode [%d], len[%d], InformationBufferLength[%d]\r\n",
++        					 poidparam->subcode, poidparam->len, len));
++
++
++	//check subcode	
++	if ( poidparam->subcode >= MAX_DRVEXT_HANDLERS)
++	{
++		RT_TRACE(_module_rtl871x_ioctl_os_c,_drv_err_,("no matching drvext handlers\r\n"));		
++		ret = -EINVAL;
++		goto _rtw_drvext_hdl_exit;
++	}
++
++
++	if ( poidparam->subcode >= MAX_DRVEXT_OID_SUBCODES)
++	{
++		RT_TRACE(_module_rtl871x_ioctl_os_c,_drv_err_,("no matching drvext subcodes\r\n"));		
++		ret = -EINVAL;
++		goto _rtw_drvext_hdl_exit;
++	}
++
++
++	phandler = drvextoidhandlers + poidparam->subcode;
++
++	if (poidparam->len != phandler->parmsize)
++	{
++		RT_TRACE(_module_rtl871x_ioctl_os_c,_drv_err_,("no matching drvext param size %d vs %d\r\n",			
++						poidparam->len , phandler->parmsize));		
++		ret = -EINVAL;		
++		goto _rtw_drvext_hdl_exit;
++	}
++
++
++	res = phandler->handler(&padapter->drvextpriv, bset, poidparam->data);
++
++	if(res==0)
++	{
++		ret = 0;
++			
++		if (bset == 0x00) {//query info
++			//_rtw_memcpy(p->pointer, pparmbuf, len);
++			if (copy_to_user(p->pointer, pparmbuf, len))
++				ret = -EFAULT;
++		}		
++	}		
++	else
++		ret = -EFAULT;
++
++	
++_rtw_drvext_hdl_exit:	
++	
++	return ret;	
++	
++#endif
++
++	return 0;
++
++}
++
++static void rtw_dbg_mode_hdl(_adapter *padapter, u32 id, u8 *pdata, u32 len)
++{
++	pRW_Reg 	RegRWStruct;
++	struct rf_reg_param *prfreg;
++	u8 path;
++	u8 offset;
++	u32 value;
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	switch(id)
++	{
++		case GEN_MP_IOCTL_SUBCODE(MP_START):
++			DBG_871X("871x_driver is only for normal mode, can't enter mp mode\n");
++			break;
++		case GEN_MP_IOCTL_SUBCODE(READ_REG):
++			RegRWStruct = (pRW_Reg)pdata;
++			switch (RegRWStruct->width)
++			{
++				case 1:
++					RegRWStruct->value = rtw_read8(padapter, RegRWStruct->offset);
++					break;
++				case 2:
++					RegRWStruct->value = rtw_read16(padapter, RegRWStruct->offset);
++					break;
++				case 4:
++					RegRWStruct->value = rtw_read32(padapter, RegRWStruct->offset);
++					break;
++				default:
++					break;
++			}
++		
++			break;
++		case GEN_MP_IOCTL_SUBCODE(WRITE_REG):
++			RegRWStruct = (pRW_Reg)pdata;
++			switch (RegRWStruct->width)
++			{
++				case 1:
++					rtw_write8(padapter, RegRWStruct->offset, (u8)RegRWStruct->value);
++					break;
++				case 2:
++					rtw_write16(padapter, RegRWStruct->offset, (u16)RegRWStruct->value);
++					break;
++				case 4:
++					rtw_write32(padapter, RegRWStruct->offset, (u32)RegRWStruct->value);
++					break;
++				default:					
++				break;
++			}
++				
++			break;
++		case GEN_MP_IOCTL_SUBCODE(READ_RF_REG):
++
++			prfreg = (struct rf_reg_param *)pdata;
++
++			path = (u8)prfreg->path;		
++			offset = (u8)prfreg->offset;	
++
++			value = rtw_hal_read_rfreg(padapter, path, offset, 0xffffffff);
++
++			prfreg->value = value;
++
++			break;			
++		case GEN_MP_IOCTL_SUBCODE(WRITE_RF_REG):
++
++			prfreg = (struct rf_reg_param *)pdata;
++
++			path = (u8)prfreg->path;
++			offset = (u8)prfreg->offset;	
++			value = prfreg->value;
++
++			rtw_hal_write_rfreg(padapter, path, offset, 0xffffffff, value);
++			
++			break;			
++                case GEN_MP_IOCTL_SUBCODE(TRIGGER_GPIO):
++			DBG_871X("==> trigger gpio 0\n");
++			rtw_hal_set_hwreg(padapter, HW_VAR_TRIGGER_GPIO_0, 0);
++			break;	
++#ifdef CONFIG_BT_COEXIST
++		case GEN_MP_IOCTL_SUBCODE(SET_DM_BT):			
++			DBG_871X("==> set dm_bt_coexist:%x\n",*(u8 *)pdata);
++			rtw_hal_set_hwreg(padapter, HW_VAR_BT_SET_COEXIST, pdata);
++			break;
++		case GEN_MP_IOCTL_SUBCODE(DEL_BA):
++			DBG_871X("==> delete ba:%x\n",*(u8 *)pdata);
++			rtw_hal_set_hwreg(padapter, HW_VAR_BT_ISSUE_DELBA, pdata);
++			break;
++#endif
++#ifdef DBG_CONFIG_ERROR_DETECT
++		case GEN_MP_IOCTL_SUBCODE(GET_WIFI_STATUS):	
++			*pdata = rtw_hal_sreset_get_wifi_status(padapter);
++			break;
++#endif
++	
++		default:
++			break;
++	}
++	
++}
++
++static int rtw_mp_ioctl_hdl(struct net_device *dev, struct iw_request_info *info,
++						union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++	u32 BytesRead, BytesWritten, BytesNeeded;
++	struct oid_par_priv	oid_par;
++	struct mp_ioctl_handler	*phandler;
++	struct mp_ioctl_param	*poidparam;
++	uint status=0;
++	u16 len;
++	u8 *pparmbuf = NULL, bset;
++	PADAPTER padapter = (PADAPTER)rtw_netdev_priv(dev);
++	struct iw_point *p = &wrqu->data;
++
++	//DBG_871X("+rtw_mp_ioctl_hdl\n");
++
++	//mutex_lock(&ioctl_mutex);
++
++	if ((!p->length) || (!p->pointer)) {
++		ret = -EINVAL;
++		goto _rtw_mp_ioctl_hdl_exit;
++	}
++
++	pparmbuf = NULL;
++	bset = (u8)(p->flags & 0xFFFF);
++	len = p->length;
++	pparmbuf = (u8*)rtw_malloc(len);
++	if (pparmbuf == NULL){
++		ret = -ENOMEM;
++		goto _rtw_mp_ioctl_hdl_exit;
++	}
++
++	if (copy_from_user(pparmbuf, p->pointer, len)) {
++		ret = -EFAULT;
++		goto _rtw_mp_ioctl_hdl_exit;
++	}
++
++	poidparam = (struct mp_ioctl_param *)pparmbuf;
++	RT_TRACE(_module_rtl871x_ioctl_os_c, _drv_info_,
++		 ("rtw_mp_ioctl_hdl: subcode [%d], len[%d], buffer_len[%d]\r\n",
++		  poidparam->subcode, poidparam->len, len));
++
++	if (poidparam->subcode >= MAX_MP_IOCTL_SUBCODE) {
++		RT_TRACE(_module_rtl871x_ioctl_os_c, _drv_err_, ("no matching drvext subcodes\r\n"));
++		ret = -EINVAL;
++		goto _rtw_mp_ioctl_hdl_exit;
++	}
++
++	//DBG_871X("%s: %d\n", __func__, poidparam->subcode);
++
++#ifdef CONFIG_MP_INCLUDED 
++	phandler = mp_ioctl_hdl + poidparam->subcode;
++
++	if ((phandler->paramsize != 0) && (poidparam->len < phandler->paramsize))
++	{
++		RT_TRACE(_module_rtl871x_ioctl_os_c, _drv_err_,
++			 ("no matching drvext param size %d vs %d\r\n",
++			  poidparam->len, phandler->paramsize));
++		ret = -EINVAL;
++		goto _rtw_mp_ioctl_hdl_exit;
++	}
++
++	if (phandler->handler)
++	{
++		oid_par.adapter_context = padapter;
++		oid_par.oid = phandler->oid;
++		oid_par.information_buf = poidparam->data;
++		oid_par.information_buf_len = poidparam->len;
++		oid_par.dbg = 0;
++
++		BytesWritten = 0;
++		BytesNeeded = 0;
++
++		if (bset) {
++			oid_par.bytes_rw = &BytesRead;
++			oid_par.bytes_needed = &BytesNeeded;
++			oid_par.type_of_oid = SET_OID;
++		} else {
++			oid_par.bytes_rw = &BytesWritten;
++			oid_par.bytes_needed = &BytesNeeded;
++			oid_par.type_of_oid = QUERY_OID;
++		}
++
++		status = phandler->handler(&oid_par);
++
++		//todo:check status, BytesNeeded, etc.
++	}
++	else {
++		DBG_871X("rtw_mp_ioctl_hdl(): err!, subcode=%d, oid=%d, handler=%p\n", 
++			poidparam->subcode, phandler->oid, phandler->handler);
++		ret = -EFAULT;
++		goto _rtw_mp_ioctl_hdl_exit;
++	}
++#else
++
++	rtw_dbg_mode_hdl(padapter, poidparam->subcode, poidparam->data, poidparam->len);
++	
++#endif
++
++	if (bset == 0x00) {//query info
++		if (copy_to_user(p->pointer, pparmbuf, len))
++			ret = -EFAULT;
++	}
++
++	if (status) {
++		ret = -EFAULT;
++		goto _rtw_mp_ioctl_hdl_exit;
++	}
++
++_rtw_mp_ioctl_hdl_exit:
++
++	if (pparmbuf)
++		rtw_mfree(pparmbuf, len);
++
++	//mutex_unlock(&ioctl_mutex);
++
++	return ret;
++}
++
++static int rtw_get_ap_info(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	int bssid_match, ret = 0;
++	u32 cnt=0, wpa_ielen;
++	_irqL	irqL;
++	_list	*plist, *phead;
++	unsigned char *pbuf;
++	u8 bssid[ETH_ALEN];
++	char data[32];
++	struct wlan_network *pnetwork = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);	
++	_queue *queue = &(pmlmepriv->scanned_queue);
++	struct iw_point *pdata = &wrqu->data;	
++
++	DBG_871X("+rtw_get_aplist_info\n");
++
++	if((padapter->bDriverStopped) || (pdata==NULL))
++	{                
++		ret= -EINVAL;
++		goto exit;
++	}		
++  
++ 	while((check_fwstate(pmlmepriv, (_FW_UNDER_SURVEY|_FW_UNDER_LINKING))) == _TRUE)
++	{	
++		rtw_msleep_os(30);
++		cnt++;
++		if(cnt > 100)
++			break;
++	}
++	
++
++	//pdata->length = 0;//?	
++	pdata->flags = 0;
++	if(pdata->length>=32)
++	{
++		if(copy_from_user(data, pdata->pointer, 32))
++		{
++			ret= -EINVAL;
++			goto exit;
++		}
++	}	
++	else
++	{
++		ret= -EINVAL;
++		goto exit;
++	}	
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++	
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++       
++	while(1)
++	{
++		if (rtw_end_of_queue_search(phead,plist)== _TRUE)
++			break;
++
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		//if(hwaddr_aton_i(pdata->pointer, bssid)) 
++		if(hwaddr_aton_i(data, bssid)) 
++		{			
++			DBG_871X("Invalid BSSID '%s'.\n", (u8*)data);
++			_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			return -EINVAL;
++		}		
++		
++	
++		if(_rtw_memcmp(bssid, pnetwork->network.MacAddress, ETH_ALEN) == _TRUE)//BSSID match, then check if supporting wpa/wpa2
++		{
++			DBG_871X("BSSID:" MAC_FMT "\n", MAC_ARG(bssid));
++			
++			pbuf = rtw_get_wpa_ie(&pnetwork->network.IEs[12], &wpa_ielen, pnetwork->network.IELength-12);				
++			if(pbuf && (wpa_ielen>0))
++			{
++				pdata->flags = 1;
++				break;
++			}
++
++			pbuf = rtw_get_wpa2_ie(&pnetwork->network.IEs[12], &wpa_ielen, pnetwork->network.IELength-12);
++			if(pbuf && (wpa_ielen>0))
++			{
++				pdata->flags = 2;
++				break;
++			}
++			
++		}
++
++		plist = get_next(plist);		
++	
++	}        
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if(pdata->length>=34)
++	{
++		if(copy_to_user((u8*)pdata->pointer+32, (u8*)&pdata->flags, 1))
++		{
++			ret= -EINVAL;
++			goto exit;
++		}
++	}	
++	
++exit:
++	
++	return ret;
++		
++}
++
++static int rtw_set_pid(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter *padapter = rtw_netdev_priv(dev);	
++	int *pdata = (int *)wrqu;
++	int selector;
++
++	if((padapter->bDriverStopped) || (pdata==NULL))
++	{                
++		ret= -EINVAL;
++		goto exit;
++	}		
++  
++	selector = *pdata;
++	if(selector < 3 && selector >=0) {
++		padapter->pid[selector] = *(pdata+1);
++		#ifdef CONFIG_GLOBAL_UI_PID
++		ui_pid[selector] = *(pdata+1);
++		#endif
++		DBG_871X("%s set pid[%d]=%d\n", __FUNCTION__, selector ,padapter->pid[selector]);
++	}
++	else
++		DBG_871X("%s selector %d error\n", __FUNCTION__, selector);
++
++exit:
++	
++	return ret;
++		
++}
++
++static int rtw_wps_start(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct iw_point *pdata = &wrqu->data;
++	u32   u32wps_start = 0;
++        unsigned int uintRet = 0;
++
++        uintRet = copy_from_user( ( void* ) &u32wps_start, pdata->pointer, 4 );
++
++	if((padapter->bDriverStopped) || (pdata==NULL))
++	{                
++		ret= -EINVAL;
++		goto exit;
++	}		
++
++	if ( u32wps_start == 0 )
++	{
++		u32wps_start = *extra;
++	}
++
++	DBG_871X( "[%s] wps_start = %d\n", __FUNCTION__, u32wps_start );
++
++	if ( u32wps_start == 1 ) // WPS Start
++	{
++		rtw_led_control(padapter, LED_CTL_START_WPS);
++	}
++	else if ( u32wps_start == 2 ) // WPS Stop because of wps success
++	{
++		rtw_led_control(padapter, LED_CTL_STOP_WPS);
++	}
++	else if ( u32wps_start == 3 ) // WPS Stop because of wps fail
++	{
++		rtw_led_control(padapter, LED_CTL_STOP_WPS_FAIL);
++	}
++
++#ifdef CONFIG_INTEL_WIDI
++	process_intel_widi_wps_status(padapter, u32wps_start);
++#endif //CONFIG_INTEL_WIDI
++	
++exit:
++	
++	return ret;
++		
++}
++
++#ifdef CONFIG_P2P
++static int rtw_wext_p2p_enable(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);	
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++	enum P2P_ROLE init_role = P2P_ROLE_DISABLE;
++
++	if(*extra == '0' )
++		init_role = P2P_ROLE_DISABLE;
++	else if(*extra == '1')
++		init_role = P2P_ROLE_DEVICE;
++	else if(*extra == '2')
++		init_role = P2P_ROLE_CLIENT;
++	else if(*extra == '3')
++		init_role = P2P_ROLE_GO;
++
++	if(_FAIL == rtw_p2p_enable(padapter, init_role))
++	{
++		ret = -EFAULT;
++		goto exit;
++	}
++
++	//set channel/bandwidth
++	if(init_role != P2P_ROLE_DISABLE) 
++	{	
++		u8 channel, ch_offset;
++		u16 bwmode;
++
++		if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_LISTEN))
++		{
++			//	Stay at the listen state and wait for discovery.
++			channel = pwdinfo->listen_channel;
++			pwdinfo->operating_channel = pwdinfo->listen_channel;
++			ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++			bwmode = HT_CHANNEL_WIDTH_20;
++		}
++#ifdef CONFIG_CONCURRENT_MODE
++		else if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE))
++		{
++			_adapter				*pbuddy_adapter = padapter->pbuddy_adapter;
++			//struct wifidirect_info	*pbuddy_wdinfo = &pbuddy_adapter->wdinfo;
++			struct mlme_priv		*pbuddy_mlmepriv = &pbuddy_adapter->mlmepriv;
++			struct mlme_ext_priv	*pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++			
++			_set_timer( &pwdinfo->ap_p2p_switch_timer, pwdinfo->ext_listen_interval );
++			if ( check_fwstate( pbuddy_mlmepriv, _FW_LINKED ) )
++			{
++				pwdinfo->operating_channel = pbuddy_mlmeext->cur_channel;
++				//	How about the ch_offset and bwmode ??
++			}
++			else
++			{
++				pwdinfo->operating_channel = pwdinfo->listen_channel;
++			}
++
++			channel = pbuddy_mlmeext->cur_channel;
++			ch_offset = pbuddy_mlmeext->cur_ch_offset;
++			bwmode = pbuddy_mlmeext->cur_bwmode;
++		}
++#endif
++		else
++		{
++			pwdinfo->operating_channel = pmlmeext->cur_channel;
++		
++			channel = pwdinfo->operating_channel;
++			ch_offset = pmlmeext->cur_ch_offset;
++			bwmode = pmlmeext->cur_bwmode;						
++		}
++
++		set_channel_bwmode(padapter, channel, ch_offset, bwmode);
++	}
++
++exit:
++	return ret;
++		
++}
++
++static int rtw_p2p_set_go_nego_ssid(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);	
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++
++	DBG_871X( "[%s] ssid = %s, len = %d\n", __FUNCTION__, extra, (u32)strlen( extra ) );
++	_rtw_memcpy( pwdinfo->nego_ssid, extra, strlen( extra ) );
++	pwdinfo->nego_ssidlen = strlen( extra );
++	
++	return ret;
++		
++}
++
++
++static int rtw_p2p_set_intent(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	int 							ret = 0;
++	_adapter 						*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info 			*pwdinfo= &(padapter->wdinfo);
++	u8							intent = pwdinfo->intent;
++
++	extra[ wrqu->data.length ] = 0x00;
++
++	intent = rtw_atoi( extra );
++	
++	if ( intent <= 15 )
++	{
++		pwdinfo->intent= intent;
++	}
++	else
++	{
++		ret = -1;
++	}
++	
++	DBG_871X( "[%s] intent = %d\n", __FUNCTION__, intent);
++
++	return ret;
++
++}
++
++static int rtw_p2p_set_listen_ch(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++	u8	listen_ch = pwdinfo->listen_channel;	//	Listen channel number
++
++	extra[ wrqu->data.length ] = 0x00;
++	listen_ch = rtw_atoi( extra );
++
++	if ( ( listen_ch == 1 ) || ( listen_ch == 6 ) || ( listen_ch == 11 ) )
++	{
++		pwdinfo->listen_channel = listen_ch;
++		set_channel_bwmode(padapter, pwdinfo->listen_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++	}
++	else
++	{
++		ret = -1;
++	}
++	
++	DBG_871X( "[%s] listen_ch = %d\n", __FUNCTION__, pwdinfo->listen_channel );
++	
++	return ret;
++		
++}
++
++static int rtw_p2p_set_op_ch(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++//	Commented by Albert 20110524
++//	This function is used to set the operating channel if the driver will become the group owner
++
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++	u8	op_ch = pwdinfo->operating_channel;	//	Operating channel number
++
++	extra[ wrqu->data.length ] = 0x00;
++
++	op_ch = ( u8 ) rtw_atoi( extra );
++	if ( op_ch > 0 )
++	{
++		pwdinfo->operating_channel = op_ch;
++	}
++	else
++	{
++		ret = -1;
++	}
++	
++	DBG_871X( "[%s] op_ch = %d\n", __FUNCTION__, pwdinfo->operating_channel );
++	
++	return ret;
++
++}
++
++
++static int rtw_p2p_profilefound(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++
++	//	Comment by Albert 2010/10/13
++	//	Input data format:
++	//	Ex:  0
++	//	Ex:  1XX:XX:XX:XX:XX:XXYYSSID
++	//	0 => Reflush the profile record list.
++	//	1 => Add the profile list
++	//	XX:XX:XX:XX:XX:XX => peer's MAC Address ( ex: 00:E0:4C:00:00:01 )
++	//	YY => SSID Length
++	//	SSID => SSID for persistence group
++
++	DBG_871X( "[%s] In value = %s, len = %d \n", __FUNCTION__, extra, wrqu->data.length -1);
++
++	
++	//	The upper application should pass the SSID to driver by using this rtw_p2p_profilefound function.
++	if(!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++	{
++		if ( extra[ 0 ] == '0' )
++		{
++			//	Remove all the profile information of wifidirect_info structure.
++			_rtw_memset( &pwdinfo->profileinfo[ 0 ], 0x00, sizeof( struct profile_info ) * P2P_MAX_PERSISTENT_GROUP_NUM );
++			pwdinfo->profileindex = 0;
++		}
++		else
++		{
++			if ( pwdinfo->profileindex >= P2P_MAX_PERSISTENT_GROUP_NUM )
++		{
++				ret = -1;
++		}
++		else
++		{
++				int jj, kk;
++				
++				//	Add this profile information into pwdinfo->profileinfo
++				//	Ex:  1XX:XX:XX:XX:XX:XXYYSSID
++				for( jj = 0, kk = 1; jj < ETH_ALEN; jj++, kk += 3 )
++				{
++					pwdinfo->profileinfo[ pwdinfo->profileindex ].peermac[ jj ] = key_2char2num(extra[ kk ], extra[ kk+ 1 ]);
++				}
++
++				//pwdinfo->profileinfo[ pwdinfo->profileindex ].ssidlen = ( extra[18] - '0' ) * 10 + ( extra[ 19 ] - '0' );
++				//_rtw_memcpy( pwdinfo->profileinfo[ pwdinfo->profileindex ].ssid, &extra[ 20 ], pwdinfo->profileinfo[ pwdinfo->profileindex ].ssidlen );
++				pwdinfo->profileindex++;
++			}
++		}
++	}	
++	
++	return ret;
++		
++}
++
++static int rtw_p2p_setDN(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++
++
++	DBG_871X( "[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length -1  );
++
++	_rtw_memset( pwdinfo->device_name, 0x00, WPS_MAX_DEVICE_NAME_LEN );
++	_rtw_memcpy( pwdinfo->device_name, extra, wrqu->data.length - 1 );
++	pwdinfo->device_name_len = wrqu->data.length - 1;
++	return ret;
++		
++}
++
++
++static int rtw_p2p_get_status(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++
++
++	if ( padapter->bShowGetP2PState )
++	{
++		DBG_871X( "[%s] Role = %d, Status = %d, peer addr = %.2X:%.2X:%.2X:%.2X:%.2X:%.2X\n", __FUNCTION__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo),
++				pwdinfo->p2p_peer_interface_addr[ 0 ], pwdinfo->p2p_peer_interface_addr[ 1 ], pwdinfo->p2p_peer_interface_addr[ 2 ],
++				pwdinfo->p2p_peer_interface_addr[ 3 ], pwdinfo->p2p_peer_interface_addr[ 4 ], pwdinfo->p2p_peer_interface_addr[ 5 ]);
++	}
++ 
++	//	Commented by Albert 2010/10/12
++	//	Because of the output size limitation, I had removed the "Role" information.
++	//	About the "Role" information, we will use the new private IOCTL to get the "Role" information.
++	sprintf( extra, "\n\nStatus=%.2d\n", rtw_p2p_state(pwdinfo) );
++	wrqu->data.length = strlen( extra );
++
++	return ret;
++		
++}
++
++//	Commented by Albert 20110520
++//	This function will return the config method description 
++//	This config method description will show us which config method the remote P2P device is intented to use
++//	by sending the provisioning discovery request frame.
++
++static int rtw_p2p_get_req_cm(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++
++	sprintf( extra, "\n\nCM=%s\n", pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req );
++	wrqu->data.length = strlen( extra );
++	return ret;
++		
++}
++
++
++static int rtw_p2p_get_role(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++
++	
++	DBG_871X( "[%s] Role = %d, Status = %d, peer addr = %.2X:%.2X:%.2X:%.2X:%.2X:%.2X\n", __FUNCTION__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo),
++			pwdinfo->p2p_peer_interface_addr[ 0 ], pwdinfo->p2p_peer_interface_addr[ 1 ], pwdinfo->p2p_peer_interface_addr[ 2 ],
++			pwdinfo->p2p_peer_interface_addr[ 3 ], pwdinfo->p2p_peer_interface_addr[ 4 ], pwdinfo->p2p_peer_interface_addr[ 5 ]);
++
++	sprintf( extra, "\n\nRole=%.2d\n", rtw_p2p_role(pwdinfo) );
++	wrqu->data.length = strlen( extra );
++	return ret;
++		
++}
++
++
++static int rtw_p2p_get_peer_ifaddr(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++
++
++	DBG_871X( "[%s] Role = %d, Status = %d, peer addr = %.2X:%.2X:%.2X:%.2X:%.2X:%.2X\n", __FUNCTION__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo),
++			pwdinfo->p2p_peer_interface_addr[ 0 ], pwdinfo->p2p_peer_interface_addr[ 1 ], pwdinfo->p2p_peer_interface_addr[ 2 ],
++			pwdinfo->p2p_peer_interface_addr[ 3 ], pwdinfo->p2p_peer_interface_addr[ 4 ], pwdinfo->p2p_peer_interface_addr[ 5 ]);
++
++	sprintf( extra, "\nMAC %.2X:%.2X:%.2X:%.2X:%.2X:%.2X",
++			pwdinfo->p2p_peer_interface_addr[ 0 ], pwdinfo->p2p_peer_interface_addr[ 1 ], pwdinfo->p2p_peer_interface_addr[ 2 ],
++			pwdinfo->p2p_peer_interface_addr[ 3 ], pwdinfo->p2p_peer_interface_addr[ 4 ], pwdinfo->p2p_peer_interface_addr[ 5 ]);
++	wrqu->data.length = strlen( extra );
++	return ret;
++		
++}
++
++static int rtw_p2p_get_peer_devaddr(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++
++{
++	
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++
++	DBG_871X( "[%s] Role = %d, Status = %d, peer addr = %.2X:%.2X:%.2X:%.2X:%.2X:%.2X\n", __FUNCTION__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo),
++			pwdinfo->rx_prov_disc_info.peerDevAddr[ 0 ], pwdinfo->rx_prov_disc_info.peerDevAddr[ 1 ], 
++			pwdinfo->rx_prov_disc_info.peerDevAddr[ 2 ], pwdinfo->rx_prov_disc_info.peerDevAddr[ 3 ],
++			pwdinfo->rx_prov_disc_info.peerDevAddr[ 4 ], pwdinfo->rx_prov_disc_info.peerDevAddr[ 5 ]);
++	sprintf( extra, "\n%.2X%.2X%.2X%.2X%.2X%.2X",
++			pwdinfo->rx_prov_disc_info.peerDevAddr[ 0 ], pwdinfo->rx_prov_disc_info.peerDevAddr[ 1 ], 
++			pwdinfo->rx_prov_disc_info.peerDevAddr[ 2 ], pwdinfo->rx_prov_disc_info.peerDevAddr[ 3 ],
++			pwdinfo->rx_prov_disc_info.peerDevAddr[ 4 ], pwdinfo->rx_prov_disc_info.peerDevAddr[ 5 ]);
++	wrqu->data.length = strlen( extra );	
++	return ret;
++		
++}
++
++static int rtw_p2p_get_peer_devaddr_by_invitation(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++
++{
++	
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++
++	DBG_871X( "[%s] Role = %d, Status = %d, peer addr = %.2X:%.2X:%.2X:%.2X:%.2X:%.2X\n", __FUNCTION__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo),
++			pwdinfo->p2p_peer_device_addr[ 0 ], pwdinfo->p2p_peer_device_addr[ 1 ], 
++			pwdinfo->p2p_peer_device_addr[ 2 ], pwdinfo->p2p_peer_device_addr[ 3 ],
++			pwdinfo->p2p_peer_device_addr[ 4 ], pwdinfo->p2p_peer_device_addr[ 5 ]);
++	sprintf( extra, "\nMAC %.2X:%.2X:%.2X:%.2X:%.2X:%.2X",
++			pwdinfo->p2p_peer_device_addr[ 0 ], pwdinfo->p2p_peer_device_addr[ 1 ], 
++			pwdinfo->p2p_peer_device_addr[ 2 ], pwdinfo->p2p_peer_device_addr[ 3 ],
++			pwdinfo->p2p_peer_device_addr[ 4 ], pwdinfo->p2p_peer_device_addr[ 5 ]);
++	wrqu->data.length = strlen( extra );	
++	return ret;
++		
++}
++
++static int rtw_p2p_get_groupid(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++
++{
++	
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++
++	sprintf( extra, "\n%.2X:%.2X:%.2X:%.2X:%.2X:%.2X %s",
++			pwdinfo->groupid_info.go_device_addr[ 0 ], pwdinfo->groupid_info.go_device_addr[ 1 ], 
++			pwdinfo->groupid_info.go_device_addr[ 2 ], pwdinfo->groupid_info.go_device_addr[ 3 ],
++			pwdinfo->groupid_info.go_device_addr[ 4 ], pwdinfo->groupid_info.go_device_addr[ 5 ],
++			pwdinfo->groupid_info.ssid);
++	wrqu->data.length = strlen( extra );	
++	return ret;
++		
++}
++
++static int rtw_p2p_get_op_ch(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++
++{
++	
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++
++	
++	DBG_871X( "[%s] Op_ch = %02x\n", __FUNCTION__, pwdinfo->operating_channel);
++	
++	sprintf( extra, "\n\nOp_ch=%.2d\n", pwdinfo->operating_channel );
++	wrqu->data.length = strlen( extra );
++	return ret;
++		
++}
++
++inline static void macstr2num(u8 *dst, u8 *src)
++{
++	int	jj, kk;
++	for (jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3)
++	{
++		dst[jj] = key_2char2num(src[kk], src[kk + 1]);
++	}
++}
++
++static int rtw_p2p_get_wps_configmethod(struct net_device *dev,
++										struct iw_request_info *info,
++										union iwreq_data *wrqu, char *extra, char *subcmd)
++{ 
++	
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 peerMAC[ETH_ALEN] = { 0x00 };
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_irqL irqL;
++	_list * plist,*phead;
++	_queue *queue = &(pmlmepriv->scanned_queue);
++	struct wlan_network *pnetwork = NULL;
++	u8 blnMatch = 0;
++	u16	attr_content = 0;
++	uint attr_contentlen = 0;
++	u8	attr_content_str[P2P_PRIVATE_IOCTL_SET_LEN] = { 0x00 };
++
++	//	Commented by Albert 20110727
++	//	The input data is the MAC address which the application wants to know its WPS config method.
++	//	After knowing its WPS config method, the application can decide the config method for provisioning discovery.
++	//	Format: iwpriv wlanx p2p_get_wpsCM 00:E0:4C:00:00:05
++
++	DBG_871X("[%s] data = %s\n", __FUNCTION__, subcmd);
++
++	macstr2num(peerMAC, subcmd);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1)
++	{
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE) break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if (_rtw_memcmp(pnetwork->network.MacAddress, peerMAC, ETH_ALEN))
++		{
++			u8 *wpsie;
++			uint	wpsie_len = 0;
++
++			//	The mac address is matched.
++
++			if ((wpsie = rtw_get_wps_ie(&pnetwork->network.IEs[12], pnetwork->network.IELength - 12, NULL, &wpsie_len)))
++			{
++				rtw_get_wps_attr_content(wpsie, wpsie_len, WPS_ATTR_CONF_METHOD, (u8 *)&attr_content, &attr_contentlen);
++				if (attr_contentlen)
++				{
++					attr_content = be16_to_cpu(attr_content);
++					sprintf(attr_content_str, "\n\nM=%.4d", attr_content);
++					blnMatch = 1;
++				}
++			}
++
++			break;
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (!blnMatch)
++	{
++		sprintf(attr_content_str, "\n\nM=0000");
++	}
++
++	wrqu->data.length = strlen(attr_content_str);
++	_rtw_memcpy(extra, attr_content_str, wrqu->data.length);
++
++	return ret; 
++		
++}
++
++#ifdef CONFIG_WFD
++static int rtw_p2p_get_peer_wfd_port(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++
++	DBG_871X( "[%s] p2p_state = %d\n", __FUNCTION__, rtw_p2p_state(pwdinfo) );
++
++	sprintf( extra, "\n\nPort=%d\n", pwdinfo->wfd_info->peer_rtsp_ctrlport );
++	DBG_871X( "[%s] remote port = %d\n", __FUNCTION__, pwdinfo->wfd_info->peer_rtsp_ctrlport );
++	
++	wrqu->data.length = strlen( extra );
++	return ret;
++		
++}
++
++static int rtw_p2p_get_peer_wfd_preferred_connection(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++
++	sprintf( extra, "\n\nwfd_pc=%d\n", pwdinfo->wfd_info->wfd_pc );
++	DBG_871X( "[%s] wfd_pc = %d\n", __FUNCTION__, pwdinfo->wfd_info->wfd_pc );
++
++	wrqu->data.length = strlen( extra );
++	pwdinfo->wfd_info->wfd_pc = _FALSE;	//	Reset the WFD preferred connection to P2P
++	return ret;
++		
++}
++
++static int rtw_p2p_get_peer_wfd_session_available(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++
++	sprintf( extra, "\n\nwfd_sa=%d\n", pwdinfo->wfd_info->peer_session_avail );
++	DBG_871X( "[%s] wfd_sa = %d\n", __FUNCTION__, pwdinfo->wfd_info->peer_session_avail );
++
++	wrqu->data.length = strlen( extra );
++	pwdinfo->wfd_info->peer_session_avail = _TRUE;	//	Reset the WFD session available
++	return ret;
++		
++}
++
++#endif // CONFIG_WFD
++
++static int rtw_p2p_get_go_device_address(struct net_device *dev,
++										 struct iw_request_info *info,
++										 union iwreq_data *wrqu, char *extra, char *subcmd)
++{
++
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 peerMAC[ETH_ALEN] = { 0x00 };
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_irqL irqL;
++	_list *plist, *phead;
++	_queue *queue	= &(pmlmepriv->scanned_queue);
++	struct wlan_network *pnetwork = NULL;
++	u8 blnMatch = 0;
++	u8 *p2pie;
++	uint p2pielen = 0, attr_contentlen = 0;
++	u8 attr_content[100] = { 0x00 };
++	u8 go_devadd_str[P2P_PRIVATE_IOCTL_SET_LEN] = { 0x00 };
++
++	//	Commented by Albert 20121209
++	//	The input data is the GO's interface address which the application wants to know its device address.
++	//	Format: iwpriv wlanx p2p_get2 go_devadd=00:E0:4C:00:00:05
++
++	DBG_871X("[%s] data = %s\n", __FUNCTION__, subcmd);
++
++	macstr2num(peerMAC, subcmd);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1)
++	{
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE) break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if (_rtw_memcmp(pnetwork->network.MacAddress, peerMAC, ETH_ALEN))
++		{
++			//	Commented by Albert 2011/05/18
++			//	Match the device address located in the P2P IE
++			//	This is for the case that the P2P device address is not the same as the P2P interface address.
++
++			if ((p2pie = rtw_get_p2p_ie(&pnetwork->network.IEs[12], pnetwork->network.IELength - 12, NULL, &p2pielen)))
++			{
++				while (p2pie)
++				{
++					//	The P2P Device ID attribute is included in the Beacon frame.
++					//	The P2P Device Info attribute is included in the probe response frame.
++
++					_rtw_memset(attr_content, 0x00, 100);
++					if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_DEVICE_ID, attr_content, &attr_contentlen))
++					{
++						//	Handle the P2P Device ID attribute of Beacon first
++						blnMatch = 1;
++						break;
++
++					} else if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_DEVICE_INFO, attr_content, &attr_contentlen))
++					{
++						//	Handle the P2P Device Info attribute of probe response
++						blnMatch = 1;
++						break;
++					}
++
++					//Get the next P2P IE
++					p2pie = rtw_get_p2p_ie(p2pie + p2pielen, pnetwork->network.IELength - 12 - (p2pie - &pnetwork->network.IEs[12] + p2pielen), NULL, &p2pielen);
++				}
++			}
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (!blnMatch)
++	{
++		sprintf(go_devadd_str, "\n\ndev_add=NULL");
++	} else
++	{
++		sprintf(go_devadd_str, "\n\ndev_add=%.2X:%.2X:%.2X:%.2X:%.2X:%.2X",
++				attr_content[0], attr_content[1], attr_content[2], attr_content[3], attr_content[4], attr_content[5]);
++	}
++
++	wrqu->data.length = strlen(go_devadd_str);
++	_rtw_memcpy(extra, go_devadd_str, wrqu->data.length);
++
++	return ret; 
++		
++}
++
++static int rtw_p2p_get_device_type(struct net_device *dev,
++								   struct iw_request_info *info,
++								   union iwreq_data *wrqu, char *extra, char *subcmd)
++{ 
++	
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 peerMAC[ETH_ALEN] = { 0x00 };
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_irqL irqL;
++	_list *plist, *phead;
++	_queue *queue = &(pmlmepriv->scanned_queue);
++	struct wlan_network *pnetwork = NULL;
++	u8 blnMatch = 0;
++	u8 dev_type[8] = { 0x00 };
++	uint dev_type_len = 0;
++	u8 dev_type_str[P2P_PRIVATE_IOCTL_SET_LEN] = { 0x00 };    // +9 is for the str "dev_type=", we have to clear it at wrqu->data.pointer
++
++	//	Commented by Albert 20121209
++	//	The input data is the MAC address which the application wants to know its device type.
++	//	Such user interface could know the device type.
++	//	Format: iwpriv wlanx p2p_get2 dev_type=00:E0:4C:00:00:05
++
++	DBG_871X("[%s] data = %s\n", __FUNCTION__, subcmd);
++
++	macstr2num(peerMAC, subcmd);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1)
++	{
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE) break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if (_rtw_memcmp(pnetwork->network.MacAddress, peerMAC, ETH_ALEN))
++		{
++			u8 *wpsie;
++			uint	wpsie_len = 0;
++
++			//	The mac address is matched.
++
++			if ((wpsie = rtw_get_wps_ie(&pnetwork->network.IEs[12], pnetwork->network.IELength - 12, NULL, &wpsie_len)))
++			{
++				rtw_get_wps_attr_content(wpsie, wpsie_len, WPS_ATTR_PRIMARY_DEV_TYPE, dev_type, &dev_type_len);
++				if (dev_type_len)
++				{
++					u16	type = 0;
++
++					_rtw_memcpy(&type, dev_type, 2);
++					type = be16_to_cpu(type);
++					sprintf(dev_type_str, "\n\nN=%.2d", type);
++					blnMatch = 1;
++				}
++			}
++			break;
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (!blnMatch)
++	{
++		sprintf(dev_type_str, "\n\nN=00");
++	}
++
++	wrqu->data.length = strlen(dev_type_str);
++	_rtw_memcpy(extra, dev_type_str, wrqu->data.length);
++
++	return ret; 
++		
++}
++
++static int rtw_p2p_get_device_name(struct net_device *dev,
++								   struct iw_request_info *info,
++								   union iwreq_data *wrqu, char *extra, char *subcmd)
++{ 
++	
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 peerMAC[ETH_ALEN] = { 0x00 };
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_irqL irqL;
++	_list *plist, *phead;
++	_queue *queue = &(pmlmepriv->scanned_queue);
++	struct wlan_network *pnetwork = NULL;
++	u8 blnMatch = 0;
++	u8 dev_name[WPS_MAX_DEVICE_NAME_LEN] = { 0x00 };
++	uint dev_len = 0;
++	u8 dev_name_str[P2P_PRIVATE_IOCTL_SET_LEN] = { 0x00 };
++
++	//	Commented by Albert 20121225
++	//	The input data is the MAC address which the application wants to know its device name.
++	//	Such user interface could show peer device's device name instead of ssid.
++	//	Format: iwpriv wlanx p2p_get2 devN=00:E0:4C:00:00:05
++
++	DBG_871X("[%s] data = %s\n", __FUNCTION__, subcmd);
++
++	macstr2num(peerMAC, subcmd);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1)
++	{
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE) break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if (_rtw_memcmp(pnetwork->network.MacAddress, peerMAC, ETH_ALEN))
++		{
++			u8 *wpsie;
++			uint	wpsie_len = 0;
++
++			//	The mac address is matched.
++
++			if ((wpsie = rtw_get_wps_ie(&pnetwork->network.IEs[12], pnetwork->network.IELength - 12, NULL, &wpsie_len)))
++			{
++				rtw_get_wps_attr_content(wpsie, wpsie_len, WPS_ATTR_DEVICE_NAME, dev_name, &dev_len);
++				if (dev_len)
++				{
++					sprintf(dev_name_str, "\n\nN=%s", dev_name);
++					blnMatch = 1;
++				}
++			}
++			break;
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (!blnMatch)
++	{
++		sprintf(dev_name_str, "\n\nN=0000");
++	}
++
++	wrqu->data.length = strlen(dev_name_str);
++	_rtw_memcpy(extra, dev_name_str, wrqu->data.length);
++
++	return ret; 
++		
++}
++
++static int rtw_p2p_get_invitation_procedure(struct net_device *dev,
++											struct iw_request_info *info,
++											union iwreq_data *wrqu, char *extra, char *subcmd)
++{
++
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 peerMAC[ETH_ALEN] = { 0x00 };
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_irqL irqL;
++	_list *plist, *phead;
++	_queue *queue	= &(pmlmepriv->scanned_queue);
++	struct wlan_network *pnetwork = NULL;
++	u8 blnMatch = 0;
++	u8 *p2pie;
++	uint p2pielen = 0, attr_contentlen = 0;
++	u8 attr_content[2] = { 0x00 };
++	u8 inv_proc_str[P2P_PRIVATE_IOCTL_SET_LEN] = { 0x00 };
++
++	//	Commented by Ouden 20121226
++	//	The application wants to know P2P initation procedure is support or not.
++	//	Format: iwpriv wlanx p2p_get2 InvProc=00:E0:4C:00:00:05
++
++	DBG_871X("[%s] data = %s\n", __FUNCTION__, subcmd);
++
++	macstr2num(peerMAC, subcmd);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1)
++	{
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE) break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if (_rtw_memcmp(pnetwork->network.MacAddress, peerMAC, ETH_ALEN))
++		{
++			//	Commented by Albert 20121226
++			//	Match the device address located in the P2P IE
++			//	This is for the case that the P2P device address is not the same as the P2P interface address.
++
++			if ((p2pie = rtw_get_p2p_ie(&pnetwork->network.IEs[12], pnetwork->network.IELength - 12, NULL, &p2pielen)))
++			{
++				while (p2pie)
++				{
++					//_rtw_memset( attr_content, 0x00, 2);
++					if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_CAPABILITY, attr_content, &attr_contentlen))
++					{
++						//	Handle the P2P capability attribute
++						blnMatch = 1;
++						break;
++
++					}
++
++					//Get the next P2P IE
++					p2pie = rtw_get_p2p_ie(p2pie + p2pielen, pnetwork->network.IELength - 12 - (p2pie - &pnetwork->network.IEs[12] + p2pielen), NULL, &p2pielen);
++				}
++			}
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (!blnMatch)
++	{
++		sprintf(inv_proc_str, "\nIP=-1");
++	} else
++	{
++		if (attr_content[0] && 0x20)
++		{
++			sprintf(inv_proc_str, "\nIP=1");
++		} else
++		{
++			sprintf(inv_proc_str, "\nIP=0");
++		}
++	}
++
++	wrqu->data.length = strlen(inv_proc_str);
++	_rtw_memcpy(extra, inv_proc_str, wrqu->data.length);
++
++	return ret; 
++		
++}
++
++static int rtw_p2p_connect(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter 				*padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++	u8					peerMAC[ ETH_ALEN ] = { 0x00 };
++	int 					jj,kk;
++	u8   					peerMACStr[ ETH_ALEN * 2 ] = { 0x00 };
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	_irqL				irqL;
++	_list					*plist, *phead;
++	_queue				*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	uint					uintPeerChannel = 0;
++#ifdef CONFIG_CONCURRENT_MODE
++	_adapter				*pbuddy_adapter = padapter->pbuddy_adapter;
++	struct mlme_ext_priv	*pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++#endif // CONFIG_CONCURRENT_MODE	
++	
++	
++	//	Commented by Albert 20110304
++	//	The input data contains two informations.
++	//	1. First information is the MAC address which wants to formate with
++	//	2. Second information is the WPS PINCode or "pbc" string for push button method
++	//	Format: 00:E0:4C:00:00:05
++	//	Format: 00:E0:4C:00:00:05
++
++	DBG_871X( "[%s] data = %s\n", __FUNCTION__, extra );
++
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++	{
++		DBG_871X( "[%s] WiFi Direct is disable!\n", __FUNCTION__ );
++		return ret;
++	}
++	
++	if ( pwdinfo->ui_got_wps_info == P2P_NO_WPSINFO )
++	{
++		return -1;
++	}
++	
++	for( jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3 )
++	{
++		peerMAC[ jj ] = key_2char2num( extra[kk], extra[kk+ 1] );
++	}
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++       
++	while(1)
++	{
++		if (rtw_end_of_queue_search(phead,plist)== _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if ( _rtw_memcmp( pnetwork->network.MacAddress, peerMAC, ETH_ALEN ) )
++		{
++			uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++			break;
++              }
++
++		plist = get_next(plist);
++	
++	}        
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if ( uintPeerChannel )
++	{
++#ifdef CONFIG_CONCURRENT_MODE
++		if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++		{
++			_cancel_timer_ex( &pwdinfo->ap_p2p_switch_timer );
++		}
++#endif // CONFIG_CONCURRENT_MODE
++
++		_rtw_memset( &pwdinfo->nego_req_info, 0x00, sizeof( struct tx_nego_req_info ) );
++		_rtw_memset( &pwdinfo->groupid_info, 0x00, sizeof( struct group_id_info ) );
++		
++		pwdinfo->nego_req_info.peer_channel_num[ 0 ] = uintPeerChannel;
++		_rtw_memcpy( pwdinfo->nego_req_info.peerDevAddr, pnetwork->network.MacAddress, ETH_ALEN );
++		pwdinfo->nego_req_info.benable = _TRUE;
++
++		_cancel_timer_ex( &pwdinfo->restore_p2p_state_timer );
++		if ( rtw_p2p_state(pwdinfo) != P2P_STATE_GONEGO_OK )
++		{
++			//	Restore to the listen state if the current p2p state is not nego OK
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_LISTEN );
++		}
++
++		rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_ING);
++		
++#ifdef CONFIG_CONCURRENT_MODE
++		if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++		{
++			//	Have to enter the power saving with the AP
++			set_channel_bwmode(padapter, pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_ch_offset, pbuddy_mlmeext->cur_bwmode);
++			
++			issue_nulldata(pbuddy_adapter, NULL, 1, 3, 500);
++		}
++#endif // CONFIG_CONCURRENT_MODE
++
++		DBG_871X( "[%s] Start PreTx Procedure!\n", __FUNCTION__ );
++		_set_timer( &pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT );
++		
++#ifdef CONFIG_CONCURRENT_MODE
++		if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++		{
++			_set_timer( &pwdinfo->restore_p2p_state_timer, P2P_CONCURRENT_GO_NEGO_TIMEOUT );
++		}
++		else
++		{
++			_set_timer( &pwdinfo->restore_p2p_state_timer, P2P_GO_NEGO_TIMEOUT );
++		}
++#else
++		_set_timer( &pwdinfo->restore_p2p_state_timer, P2P_GO_NEGO_TIMEOUT );
++#endif // CONFIG_CONCURRENT_MODE		
++
++	}
++	else
++	{
++		DBG_871X( "[%s] Not Found in Scanning Queue~\n", __FUNCTION__ );
++		ret = -1;
++	}
++exit:	
++	return ret;
++}
++
++static int rtw_p2p_invite_req(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter 					*padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct iw_point 			*pdata = &wrqu->data;
++	struct wifidirect_info		*pwdinfo = &( padapter->wdinfo );
++	int 						jj,kk;
++	u8   						peerMACStr[ ETH_ALEN * 2 ] = { 0x00 };
++	struct mlme_priv			*pmlmepriv = &padapter->mlmepriv;
++	_list						*plist, *phead;
++	_queue					*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network		*pnetwork = NULL;
++	uint						uintPeerChannel = 0;
++	u8						attr_content[50] = { 0x00 }, _status = 0;
++	u8 						*p2pie;
++	uint						p2pielen = 0, attr_contentlen = 0;
++	_irqL					irqL;
++	struct tx_invite_req_info*	pinvite_req_info = &pwdinfo->invitereq_info;
++#ifdef CONFIG_CONCURRENT_MODE
++	_adapter					*pbuddy_adapter = padapter->pbuddy_adapter;
++	struct mlme_priv			*pbuddy_mlmepriv = &pbuddy_adapter->mlmepriv;
++	struct mlme_ext_priv		*pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++#endif // CONFIG_CONCURRENT_MODE
++
++#ifdef CONFIG_WFD
++	struct wifi_display_info*	pwfd_info = pwdinfo->wfd_info;
++#endif // CONFIG_WFD
++	
++	//	Commented by Albert 20120321
++	//	The input data contains two informations.
++	//	1. First information is the P2P device address which you want to send to.	
++	//	2. Second information is the group id which combines with GO's mac address, space and GO's ssid.
++	//	Command line sample: iwpriv wlan0 p2p_set invite="00:11:22:33:44:55 00:E0:4C:00:00:05 DIRECT-xy"
++	//	Format: 00:11:22:33:44:55 00:E0:4C:00:00:05 DIRECT-xy
++
++	DBG_871X( "[%s] data = %s\n", __FUNCTION__, extra );
++
++	if ( wrqu->data.length <=  37 )
++	{
++		DBG_871X( "[%s] Wrong format!\n", __FUNCTION__ );
++		return ret;
++	}
++
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++	{
++		DBG_871X( "[%s] WiFi Direct is disable!\n", __FUNCTION__ );
++		return ret;
++	}
++	else
++	{
++		//	Reset the content of struct tx_invite_req_info
++		pinvite_req_info->benable = _FALSE;
++		_rtw_memset( pinvite_req_info->go_bssid, 0x00, ETH_ALEN );
++		_rtw_memset( pinvite_req_info->go_ssid, 0x00, WLAN_SSID_MAXLEN );
++		pinvite_req_info->ssidlen = 0x00;
++		pinvite_req_info->operating_ch = pwdinfo->operating_channel;
++		_rtw_memset( pinvite_req_info->peer_macaddr, 0x00, ETH_ALEN );
++		pinvite_req_info->token = 3;
++	}
++	
++	for( jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3 )
++	{
++		pinvite_req_info->peer_macaddr[ jj ] = key_2char2num( extra[kk], extra[kk+ 1] );
++	}
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++       
++	while(1)
++	{
++		if (rtw_end_of_queue_search(phead,plist)== _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		//	Commented by Albert 2011/05/18
++		//	Match the device address located in the P2P IE
++		//	This is for the case that the P2P device address is not the same as the P2P interface address.
++
++		if ( (p2pie=rtw_get_p2p_ie( &pnetwork->network.IEs[12], pnetwork->network.IELength - 12, NULL, &p2pielen)) )
++		{
++			//	The P2P Device ID attribute is included in the Beacon frame.
++			//	The P2P Device Info attribute is included in the probe response frame.
++
++			if ( rtw_get_p2p_attr_content( p2pie, p2pielen, P2P_ATTR_DEVICE_ID, attr_content, &attr_contentlen) )
++			{
++				//	Handle the P2P Device ID attribute of Beacon first
++				if ( _rtw_memcmp( attr_content, pinvite_req_info->peer_macaddr, ETH_ALEN ) )
++				{
++					uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++					break;
++				}
++			}
++			else if ( rtw_get_p2p_attr_content( p2pie, p2pielen, P2P_ATTR_DEVICE_INFO, attr_content, &attr_contentlen) )
++			{
++				//	Handle the P2P Device Info attribute of probe response
++				if ( _rtw_memcmp( attr_content, pinvite_req_info->peer_macaddr, ETH_ALEN ) )
++				{
++					uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++					break;
++				}					
++			}
++
++		}
++
++		plist = get_next(plist);
++	
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++#ifdef CONFIG_WFD
++	if ( uintPeerChannel )
++	{
++		u8	wfd_ie[ 128 ] = { 0x00 };
++		uint	wfd_ielen = 0;
++		
++		if ( rtw_get_wfd_ie( &pnetwork->network.IEs[12], pnetwork->network.IELength - 12,  wfd_ie, &wfd_ielen ) )
++		{
++			u8	wfd_devinfo[ 6 ] = { 0x00 };
++			uint	wfd_devlen = 6;
++
++			DBG_871X( "[%s] Found WFD IE!\n", __FUNCTION__ );
++			if ( rtw_get_wfd_attr_content( wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, wfd_devinfo, &wfd_devlen ) )
++			{
++				u16	wfd_devinfo_field = 0;
++				
++				//	Commented by Albert 20120319
++				//	The first two bytes are the WFD device information field of WFD device information subelement.
++				//	In big endian format.
++				wfd_devinfo_field = RTW_GET_BE16(wfd_devinfo);
++				if ( wfd_devinfo_field & WFD_DEVINFO_SESSION_AVAIL )
++				{
++					pwfd_info->peer_session_avail = _TRUE;
++				}
++				else
++				{
++					pwfd_info->peer_session_avail = _FALSE;
++				}
++			}
++		}
++		
++		if ( _FALSE == pwfd_info->peer_session_avail )
++		{
++			DBG_871X( "[%s] WFD Session not avaiable!\n", __FUNCTION__ );
++			goto exit;
++		}
++	}
++#endif // CONFIG_WFD
++
++	if ( uintPeerChannel )
++	{
++#ifdef CONFIG_CONCURRENT_MODE
++		if ( check_fwstate( pbuddy_mlmepriv, _FW_LINKED ) )
++		{
++			_cancel_timer_ex( &pwdinfo->ap_p2p_switch_timer );
++		}
++#endif // CONFIG_CONCURRENT_MODE
++
++		//	Store the GO's bssid
++		for( jj = 0, kk = 18; jj < ETH_ALEN; jj++, kk += 3 )
++		{
++			pinvite_req_info->go_bssid[ jj ] = key_2char2num( extra[kk], extra[kk+ 1] );
++		}
++
++		//	Store the GO's ssid
++		pinvite_req_info->ssidlen = wrqu->data.length - 36;
++		_rtw_memcpy( pinvite_req_info->go_ssid, &extra[ 36 ], (u32) pinvite_req_info->ssidlen );
++		pinvite_req_info->benable = _TRUE;
++		pinvite_req_info->peer_ch = uintPeerChannel;
++
++		rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_TX_INVITE_REQ);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if ( check_fwstate( pbuddy_mlmepriv, _FW_LINKED ) )
++		{
++			//	Have to enter the power saving with the AP
++			set_channel_bwmode(padapter, pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_ch_offset, pbuddy_mlmeext->cur_bwmode);
++			
++			issue_nulldata(pbuddy_adapter, NULL, 1, 3, 500);
++		}
++		else
++		{
++			set_channel_bwmode(padapter, uintPeerChannel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++		}
++#else
++		set_channel_bwmode(padapter, uintPeerChannel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++#endif
++
++		_set_timer( &pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT );
++		
++#ifdef CONFIG_CONCURRENT_MODE
++		if ( check_fwstate( pbuddy_mlmepriv, _FW_LINKED ) )
++		{
++			_set_timer( &pwdinfo->restore_p2p_state_timer, P2P_CONCURRENT_INVITE_TIMEOUT );
++		}
++		else
++		{
++			_set_timer( &pwdinfo->restore_p2p_state_timer, P2P_INVITE_TIMEOUT );
++		}
++#else
++		_set_timer( &pwdinfo->restore_p2p_state_timer, P2P_INVITE_TIMEOUT );
++#endif // CONFIG_CONCURRENT_MODE		
++
++		
++	}
++	else
++	{
++		DBG_871X( "[%s] NOT Found in the Scanning Queue!\n", __FUNCTION__ );
++	}
++exit:
++	
++	return ret;
++		
++}
++
++static int rtw_p2p_set_persistent(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter 					*padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct iw_point 			*pdata = &wrqu->data;
++	struct wifidirect_info		*pwdinfo = &( padapter->wdinfo );
++	int 						jj,kk;
++	u8   						peerMACStr[ ETH_ALEN * 2 ] = { 0x00 };
++	struct mlme_priv			*pmlmepriv = &padapter->mlmepriv;
++	_list						*plist, *phead;
++	_queue					*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network		*pnetwork = NULL;
++	uint						uintPeerChannel = 0;
++	u8						attr_content[50] = { 0x00 }, _status = 0;
++	u8 						*p2pie;
++	uint						p2pielen = 0, attr_contentlen = 0;
++	_irqL					irqL;
++	struct tx_invite_req_info*	pinvite_req_info = &pwdinfo->invitereq_info;
++#ifdef CONFIG_CONCURRENT_MODE
++	_adapter					*pbuddy_adapter = padapter->pbuddy_adapter;
++	struct mlme_priv			*pbuddy_mlmepriv = &pbuddy_adapter->mlmepriv;
++	struct mlme_ext_priv		*pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++#endif // CONFIG_CONCURRENT_MODE
++
++#ifdef CONFIG_WFD
++	struct wifi_display_info*	pwfd_info = pwdinfo->wfd_info;
++#endif // CONFIG_WFD
++	
++	//	Commented by Albert 20120328
++	//	The input data is 0 or 1
++	//	0: disable persistent group functionality
++	//	1: enable persistent group founctionality
++	
++	DBG_871X( "[%s] data = %s\n", __FUNCTION__, extra );
++
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++	{
++		DBG_871X( "[%s] WiFi Direct is disable!\n", __FUNCTION__ );
++		return ret;
++	}
++	else
++	{
++		if ( extra[ 0 ] == '0' )	//	Disable the persistent group function.
++		{
++			pwdinfo->persistent_supported = _FALSE;
++		}
++		else if ( extra[ 0 ] == '1' )	//	Enable the persistent group function.
++		{
++			pwdinfo->persistent_supported = _TRUE;
++		}
++		else
++		{
++			pwdinfo->persistent_supported = _FALSE;
++		}
++	}
++	printk( "[%s] persistent_supported = %d\n", __FUNCTION__, pwdinfo->persistent_supported );
++	
++exit:
++	
++	return ret;
++		
++}
++
++static int hexstr2bin(const char *hex, u8 *buf, size_t len)
++{
++	size_t i;
++	int a;
++	const char *ipos = hex;
++	u8 *opos = buf;
++
++	for (i = 0; i < len; i++) {
++		a = hex2byte_i(ipos);
++		if (a < 0)
++			return -1;
++		*opos++ = a;
++		ipos += 2;
++	}
++	return 0;
++}
++
++static int uuid_str2bin(const char *str, u8 *bin)
++{
++	const char *pos;
++	u8 *opos;
++
++	pos = str;
++	opos = bin;
++
++	if (hexstr2bin(pos, opos, 4))
++		return -1;
++	pos += 8;
++	opos += 4;
++
++	if (*pos++ != '-' || hexstr2bin(pos, opos, 2))
++		return -1;
++	pos += 4;
++	opos += 2;
++
++	if (*pos++ != '-' || hexstr2bin(pos, opos, 2))
++		return -1;
++	pos += 4;
++	opos += 2;
++
++	if (*pos++ != '-' || hexstr2bin(pos, opos, 2))
++		return -1;
++	pos += 4;
++	opos += 2;
++
++	if (*pos++ != '-' || hexstr2bin(pos, opos, 6))
++		return -1;
++
++	return 0;
++}
++
++static int rtw_p2p_set_wps_uuid(struct net_device *dev,
++	struct iw_request_info *info,
++	union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter				*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info			*pwdinfo = &(padapter->wdinfo);
++
++	DBG_871X("[%s] data = %s\n", __FUNCTION__, extra);
++
++	if ((36 == strlen(extra)) && (uuid_str2bin(extra, pwdinfo->uuid) == 0)) 
++	{
++		pwdinfo->external_uuid = 1;
++	} else {
++		pwdinfo->external_uuid = 0;
++		ret = -EINVAL;
++	}
++
++	return ret;
++
++}
++#ifdef CONFIG_WFD
++static int rtw_p2p_set_pc(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter 				*padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct iw_point 		*pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++	u8					peerMAC[ ETH_ALEN ] = { 0x00 };
++	int 					jj,kk;
++	u8   					peerMACStr[ ETH_ALEN * 2 ] = { 0x00 };
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	_list					*plist, *phead;
++	_queue				*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	u8					attr_content[50] = { 0x00 }, _status = 0;
++	u8 *p2pie;
++	uint					p2pielen = 0, attr_contentlen = 0;
++	_irqL				irqL;
++	uint					uintPeerChannel = 0;
++#ifdef CONFIG_CONCURRENT_MODE
++	_adapter				*pbuddy_adapter = padapter->pbuddy_adapter;
++	struct mlme_ext_priv	*pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++#endif // CONFIG_CONCURRENT_MODE	
++	struct wifi_display_info*	pwfd_info = pwdinfo->wfd_info;
++	
++	//	Commented by Albert 20120512
++	//	1. Input information is the MAC address which wants to know the Preferred Connection bit (PC bit)
++	//	Format: 00:E0:4C:00:00:05
++
++	DBG_871X( "[%s] data = %s\n", __FUNCTION__, extra );
++
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++	{
++		DBG_871X( "[%s] WiFi Direct is disable!\n", __FUNCTION__ );
++		return ret;
++	}
++	
++	for( jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3 )
++	{
++		peerMAC[ jj ] = key_2char2num( extra[kk], extra[kk+ 1] );
++	}
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++       
++	while(1)
++	{
++		if (rtw_end_of_queue_search(phead,plist)== _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		//	Commented by Albert 2011/05/18
++		//	Match the device address located in the P2P IE
++		//	This is for the case that the P2P device address is not the same as the P2P interface address.
++
++		if ( (p2pie=rtw_get_p2p_ie( &pnetwork->network.IEs[12], pnetwork->network.IELength - 12, NULL, &p2pielen)) )
++		{
++			//	The P2P Device ID attribute is included in the Beacon frame.
++			//	The P2P Device Info attribute is included in the probe response frame.
++			printk( "[%s] Got P2P IE\n", __FUNCTION__ );
++			if ( rtw_get_p2p_attr_content( p2pie, p2pielen, P2P_ATTR_DEVICE_ID, attr_content, &attr_contentlen) )
++			{
++				//	Handle the P2P Device ID attribute of Beacon first
++				printk( "[%s] P2P_ATTR_DEVICE_ID \n", __FUNCTION__ );
++				if ( _rtw_memcmp( attr_content, peerMAC, ETH_ALEN ) )
++				{
++					uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++					break;
++				}
++			}
++			else if ( rtw_get_p2p_attr_content( p2pie, p2pielen, P2P_ATTR_DEVICE_INFO, attr_content, &attr_contentlen) )
++			{
++				//	Handle the P2P Device Info attribute of probe response
++				printk( "[%s] P2P_ATTR_DEVICE_INFO \n", __FUNCTION__ );
++				if ( _rtw_memcmp( attr_content, peerMAC, ETH_ALEN ) )
++				{
++					uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++					break;
++				}					
++			}
++
++		}
++
++		plist = get_next(plist);
++	
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++	printk( "[%s] channel = %d\n", __FUNCTION__, uintPeerChannel );
++
++	if ( uintPeerChannel )
++	{
++		u8	wfd_ie[ 128 ] = { 0x00 };
++		uint	wfd_ielen = 0;
++		
++		if ( rtw_get_wfd_ie( &pnetwork->network.IEs[12], pnetwork->network.IELength - 12,  wfd_ie, &wfd_ielen ) )
++		{
++			u8	wfd_devinfo[ 6 ] = { 0x00 };
++			uint	wfd_devlen = 6;
++
++			DBG_871X( "[%s] Found WFD IE!\n", __FUNCTION__ );
++			if ( rtw_get_wfd_attr_content( wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, wfd_devinfo, &wfd_devlen ) )
++			{
++				u16	wfd_devinfo_field = 0;
++				
++				//	Commented by Albert 20120319
++				//	The first two bytes are the WFD device information field of WFD device information subelement.
++				//	In big endian format.
++				wfd_devinfo_field = RTW_GET_BE16(wfd_devinfo);
++				if ( wfd_devinfo_field & WFD_DEVINFO_PC_TDLS )
++				{
++					pwfd_info->wfd_pc = _TRUE;
++				}
++				else
++				{
++					pwfd_info->wfd_pc = _FALSE;
++				}
++			}
++		}
++	}	
++	else
++	{
++		DBG_871X( "[%s] NOT Found in the Scanning Queue!\n", __FUNCTION__ );
++	}
++
++exit:
++	
++	return ret;
++		
++}
++
++static int rtw_p2p_set_wfd_device_type(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter 					*padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct iw_point 			*pdata = &wrqu->data;
++	struct wifidirect_info		*pwdinfo = &( padapter->wdinfo );
++	struct wifi_display_info		*pwfd_info = pwdinfo->wfd_info;
++
++	//	Commented by Albert 20120328
++	//	The input data is 0 or 1
++	//	0: specify to Miracast source device
++	//	1 or others: specify to Miracast sink device (display device)
++	
++	DBG_871X( "[%s] data = %s\n", __FUNCTION__, extra );
++
++	if ( extra[ 0 ] == '0' )	//	Set to Miracast source device.
++	{
++		pwfd_info->wfd_device_type = WFD_DEVINFO_SOURCE;
++	}
++	else					//	Set to Miracast sink device.
++	{
++		pwfd_info->wfd_device_type = WFD_DEVINFO_PSINK;
++	}
++	
++exit:
++
++	return ret;
++		
++}
++
++static int rtw_p2p_set_scan_result_type(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter 					*padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct iw_point 			*pdata = &wrqu->data;
++	struct wifidirect_info		*pwdinfo = &( padapter->wdinfo );
++	struct wifi_display_info		*pwfd_info = pwdinfo->wfd_info;
++	
++	//	Commented by Albert 20120328
++	//	The input data is 0 , 1 , 2
++	//	0: when the P2P is enabled, the scan result will return all the found P2P device.
++	//	1: when the P2P is enabled, the scan result will return all the found P2P device and AP.
++	//	2: when the P2P is enabled, the scan result will show up the found Miracast devices base on...
++	//	It will show up all the Miracast source device if this device is sink.
++	//	It will show up all the Miracast sink device if this device is source.
++	
++	DBG_871X( "[%s] data = %s\n", __FUNCTION__, extra );
++
++	if ( extra[ 0 ] == '0' )
++	{
++		pwfd_info->scan_result_type = SCAN_RESULT_P2P_ONLY;
++	}
++	else if ( extra[ 0 ] == '1' )
++	{
++		pwfd_info->scan_result_type = SCAN_RESULT_ALL;
++	}
++	else if ( extra[ 0 ] == '2' )
++	{
++		pwfd_info->scan_result_type = SCAN_RESULT_WFD_TYPE;
++	}
++	else
++	{
++		pwfd_info->scan_result_type = SCAN_RESULT_P2P_ONLY;
++	}
++	
++exit:
++	
++	return ret;
++		
++}
++
++static int rtw_p2p_set_wfd_enable(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++//	Commented by Kurt 20121206
++//	This function is used to set wfd enabled
++
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++
++	if(*extra == '0' )
++		pwdinfo->wfd_info->wfd_enable = _FALSE;
++	else if(*extra == '1')
++		pwdinfo->wfd_info->wfd_enable = _TRUE;
++
++	DBG_871X( "[%s] wfd_enable = %d\n", __FUNCTION__, pwdinfo->wfd_info->wfd_enable );
++	
++	return ret;
++		
++}
++
++static int rtw_p2p_set_driver_iface(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++//	Commented by Kurt 20121206
++//	This function is used to set driver iface is WEXT or CFG80211
++	int ret = 0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++
++	if(*extra == '1' )
++	{
++		pwdinfo->driver_interface = DRIVER_WEXT;
++		DBG_871X( "[%s] driver_interface = WEXT\n", __FUNCTION__);
++	}
++	else if(*extra == '2')
++	{
++		pwdinfo->driver_interface = DRIVER_CFG80211;
++		DBG_871X( "[%s] driver_interface = CFG80211\n", __FUNCTION__);
++	}
++	
++	return ret;
++		
++}
++
++//	To set the WFD session available to enable or disable
++static int rtw_p2p_set_sa(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter 					*padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct iw_point 			*pdata = &wrqu->data;
++	struct wifidirect_info		*pwdinfo = &( padapter->wdinfo );
++	struct wifi_display_info		*pwfd_info = pwdinfo->wfd_info;
++	
++	DBG_871X( "[%s] data = %s\n", __FUNCTION__, extra );
++
++	if( 0 )
++	{
++		DBG_871X( "[%s] WiFi Direct is disable!\n", __FUNCTION__ );
++		return ret;
++	}
++	else
++	{
++		if ( extra[ 0 ] == '0' )	//	Disable the session available.
++		{
++			pwdinfo->session_available = _FALSE;
++		}
++		else if ( extra[ 0 ] == '1' )	//	Enable the session available.
++		{
++			pwdinfo->session_available = _TRUE;
++		}
++		else
++		{
++			pwdinfo->session_available = _FALSE;
++		}
++	}
++	printk( "[%s] session available = %d\n", __FUNCTION__, pwdinfo->session_available );
++	
++exit:
++	
++	return ret;
++		
++}
++#endif //CONFIG_WFD
++
++static int rtw_p2p_prov_disc(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{	
++	int ret = 0;	
++	_adapter 				*padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++	u8					peerMAC[ ETH_ALEN ] = { 0x00 };
++	int 					jj,kk;
++	u8   					peerMACStr[ ETH_ALEN * 2 ] = { 0x00 };
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	_list					*plist, *phead;
++	_queue				*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	uint					uintPeerChannel = 0;
++	u8					attr_content[100] = { 0x00 }, _status = 0;
++	u8 *p2pie;
++	uint					p2pielen = 0, attr_contentlen = 0;
++	_irqL				irqL;
++	u8 					ie_offset;
++#ifdef CONFIG_CONCURRENT_MODE
++	_adapter				*pbuddy_adapter = padapter->pbuddy_adapter;
++	struct mlme_ext_priv	*pbuddy_mlmeext = &pbuddy_adapter->mlmeextpriv;
++#endif // CONFIG_CONCURRENT_MODE	
++	
++#ifdef CONFIG_WFD
++	struct wifi_display_info*	pwfd_info = pwdinfo->wfd_info;
++#endif // CONFIG_WFD
++	
++	//	Commented by Albert 20110301
++	//	The input data contains two informations.
++	//	1. First information is the MAC address which wants to issue the provisioning discovery request frame.
++	//	2. Second information is the WPS configuration method which wants to discovery
++	//	Format: 00:E0:4C:00:00:05_display
++	//	Format: 00:E0:4C:00:00:05_keypad
++	//	Format: 00:E0:4C:00:00:05_pbc
++	//	Format: 00:E0:4C:00:00:05_label
++
++	DBG_871X( "[%s] data = %s\n", __FUNCTION__, extra );
++
++	if(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++	{
++		DBG_871X( "[%s] WiFi Direct is disable!\n", __FUNCTION__ );
++		return ret;
++	}
++	else
++	{
++#ifdef CONFIG_INTEL_WIDI
++		if(check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE){
++			DBG_871X( "[%s] WiFi is under survey!\n", __FUNCTION__ );
++			return ret;
++		}
++#endif //CONFIG_INTEL_WIDI
++
++		//	Reset the content of struct tx_provdisc_req_info excluded the wps_config_method_request.
++		_rtw_memset( pwdinfo->tx_prov_disc_info.peerDevAddr, 0x00, ETH_ALEN );
++		_rtw_memset( pwdinfo->tx_prov_disc_info.peerIFAddr, 0x00, ETH_ALEN );
++		_rtw_memset( &pwdinfo->tx_prov_disc_info.ssid, 0x00, sizeof( NDIS_802_11_SSID ) );		
++		pwdinfo->tx_prov_disc_info.peer_channel_num[ 0 ] = 0;
++		pwdinfo->tx_prov_disc_info.peer_channel_num[ 1 ] = 0;
++		pwdinfo->tx_prov_disc_info.benable = _FALSE;
++	}
++	
++	for( jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3 )
++	{
++		peerMAC[ jj ] = key_2char2num( extra[kk], extra[kk+ 1] );
++	}
++
++	if ( _rtw_memcmp( &extra[ 18 ], "display", 7 ) )
++	{
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_DISPLYA;
++	}
++	else if ( _rtw_memcmp( &extra[ 18 ], "keypad", 7 ) )
++	{
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_KEYPAD;
++	}
++	else if ( _rtw_memcmp( &extra[ 18 ], "pbc", 3 ) )
++	{
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_PUSH_BUTTON;
++	}
++	else if ( _rtw_memcmp( &extra[ 18 ], "label", 5 ) )
++	{
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_LABEL;
++	}
++	else
++	{
++		DBG_871X( "[%s] Unknown WPS config methodn", __FUNCTION__ );
++		return( ret );
++	}
++
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++       
++	while(1)
++	{
++		if (rtw_end_of_queue_search(phead,plist)== _TRUE)
++			break;
++
++		if( uintPeerChannel != 0 )
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		//	Commented by Albert 2011/05/18
++		//	Match the device address located in the P2P IE
++		//	This is for the case that the P2P device address is not the same as the P2P interface address.
++
++		if (pnetwork->network.Reserved[0] == 2) { // Probe Request
++			ie_offset = 0;
++		} else { // Beacon or Probe Respones
++			ie_offset = 12;
++		}
++		if ( (p2pie=rtw_get_p2p_ie( &pnetwork->network.IEs[ie_offset], pnetwork->network.IELength - ie_offset, NULL, &p2pielen)) )
++		{
++			while ( p2pie )
++			{
++				//	The P2P Device ID attribute is included in the Beacon frame.
++				//	The P2P Device Info attribute is included in the probe response frame.
++
++				if ( rtw_get_p2p_attr_content( p2pie, p2pielen, P2P_ATTR_DEVICE_ID, attr_content, &attr_contentlen) )
++				{
++					//	Handle the P2P Device ID attribute of Beacon first
++					if ( _rtw_memcmp( attr_content, peerMAC, ETH_ALEN ) )
++					{
++						uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++						break;
++					}
++				}
++				else if ( rtw_get_p2p_attr_content( p2pie, p2pielen, P2P_ATTR_DEVICE_INFO, attr_content, &attr_contentlen) )
++				{
++					//	Handle the P2P Device Info attribute of probe response
++					if ( _rtw_memcmp( attr_content, peerMAC, ETH_ALEN ) )
++					{
++						uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++						break;
++					}					
++				}
++
++				//Get the next P2P IE
++				p2pie = rtw_get_p2p_ie(p2pie+p2pielen, pnetwork->network.IELength - ie_offset -(p2pie -&pnetwork->network.IEs[ie_offset] + p2pielen), NULL, &p2pielen);
++			}
++		}
++
++#ifdef CONFIG_INTEL_WIDI
++			// Some Intel WiDi source may not provide P2P IE, 
++			// so we could only compare mac addr by 802.11 Source Address
++			if( pmlmepriv->widi_state == INTEL_WIDI_STATE_WFD_CONNECTION 
++				&& uintPeerChannel == 0 )
++			{
++				if ( _rtw_memcmp( pnetwork->network.MacAddress, peerMAC, ETH_ALEN ) )
++				{
++					uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++					break;
++				}
++			}
++#endif //CONFIG_INTEL_WIDI
++
++		plist = get_next(plist);
++	
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if ( uintPeerChannel )
++	{
++#ifdef CONFIG_WFD
++	{
++		u8	wfd_ie[ 128 ] = { 0x00 };
++		uint	wfd_ielen = 0;
++		
++		if ( rtw_get_wfd_ie( &pnetwork->network.IEs[12], pnetwork->network.IELength - 12,  wfd_ie, &wfd_ielen ) )
++		{
++			u8	wfd_devinfo[ 6 ] = { 0x00 };
++			uint	wfd_devlen = 6;
++
++			DBG_871X( "[%s] Found WFD IE!\n", __FUNCTION__ );
++			if ( rtw_get_wfd_attr_content( wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, wfd_devinfo, &wfd_devlen ) )
++			{
++				u16	wfd_devinfo_field = 0;
++				
++				//	Commented by Albert 20120319
++				//	The first two bytes are the WFD device information field of WFD device information subelement.
++				//	In big endian format.
++				wfd_devinfo_field = RTW_GET_BE16(wfd_devinfo);
++				if ( wfd_devinfo_field & WFD_DEVINFO_SESSION_AVAIL )
++				{
++					pwfd_info->peer_session_avail = _TRUE;
++				}
++				else
++				{
++					pwfd_info->peer_session_avail = _FALSE;
++				}
++			}
++		}
++		
++		if ( _FALSE == pwfd_info->peer_session_avail )
++		{
++			DBG_871X( "[%s] WFD Session not avaiable!\n", __FUNCTION__ );
++			goto exit;
++		}
++	}	
++#endif // CONFIG_WFD
++
++		DBG_871X( "[%s] peer channel: %d!\n", __FUNCTION__, uintPeerChannel );
++#ifdef CONFIG_CONCURRENT_MODE
++		if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++		{
++			_cancel_timer_ex( &pwdinfo->ap_p2p_switch_timer );
++		}
++#endif // CONFIG_CONCURRENT_MODE
++		_rtw_memcpy( pwdinfo->tx_prov_disc_info.peerIFAddr, pnetwork->network.MacAddress, ETH_ALEN );
++		_rtw_memcpy( pwdinfo->tx_prov_disc_info.peerDevAddr, peerMAC, ETH_ALEN );
++		pwdinfo->tx_prov_disc_info.peer_channel_num[0] = ( u16 ) uintPeerChannel;
++		pwdinfo->tx_prov_disc_info.benable = _TRUE;
++		rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_TX_PROVISION_DIS_REQ);
++
++		if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT))
++		{
++			_rtw_memcpy( &pwdinfo->tx_prov_disc_info.ssid, &pnetwork->network.Ssid, sizeof( NDIS_802_11_SSID ) );
++		}
++		else if(rtw_p2p_chk_role(pwdinfo, P2P_ROLE_DEVICE) || rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++		{
++			_rtw_memcpy( pwdinfo->tx_prov_disc_info.ssid.Ssid, pwdinfo->p2p_wildcard_ssid, P2P_WILDCARD_SSID_LEN );
++			pwdinfo->tx_prov_disc_info.ssid.SsidLength= P2P_WILDCARD_SSID_LEN;
++		}
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++		{
++			//	Have to enter the power saving with the AP
++			set_channel_bwmode(padapter, pbuddy_mlmeext->cur_channel, pbuddy_mlmeext->cur_ch_offset, pbuddy_mlmeext->cur_bwmode);
++			
++			issue_nulldata(pbuddy_adapter, NULL, 1, 3, 500);
++		}
++		else
++		{
++			set_channel_bwmode(padapter, uintPeerChannel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++		}
++#else
++		set_channel_bwmode(padapter, uintPeerChannel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HT_CHANNEL_WIDTH_20);
++#endif
++
++		_set_timer( &pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT );
++		
++#ifdef CONFIG_CONCURRENT_MODE
++		if ( check_buddy_fwstate(padapter, _FW_LINKED ) )
++		{
++			_set_timer( &pwdinfo->restore_p2p_state_timer, P2P_CONCURRENT_PROVISION_TIMEOUT );
++		}
++		else
++		{
++			_set_timer( &pwdinfo->restore_p2p_state_timer, P2P_PROVISION_TIMEOUT );
++		}
++#else
++		_set_timer( &pwdinfo->restore_p2p_state_timer, P2P_PROVISION_TIMEOUT );
++#endif // CONFIG_CONCURRENT_MODE		
++
++		
++	}
++	else
++	{
++		DBG_871X( "[%s] NOT Found in the Scanning Queue!\n", __FUNCTION__ );
++#ifdef CONFIG_INTEL_WIDI
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH);
++		rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_NONE);
++		rtw_free_network_queue(padapter, _TRUE);		
++		_enter_critical_bh(&pmlmepriv->lock, &irqL);				
++		rtw_sitesurvey_cmd(padapter, NULL, 0, NULL, 0);
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++#endif //CONFIG_INTEL_WIDI
++	}
++exit:
++	
++	return ret;
++		
++}
++
++//	Added by Albert 20110328
++//	This function is used to inform the driver the user had specified the pin code value or pbc
++//	to application.
++
++static int rtw_p2p_got_wpsinfo(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	_adapter 				*padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct wifidirect_info	*pwdinfo = &( padapter->wdinfo );
++	
++
++	DBG_871X( "[%s] data = %s\n", __FUNCTION__, extra );
++	//	Added by Albert 20110328
++	//	if the input data is P2P_NO_WPSINFO -> reset the wpsinfo
++	//	if the input data is P2P_GOT_WPSINFO_PEER_DISPLAY_PIN -> the utility just input the PIN code got from the peer P2P device.
++	//	if the input data is P2P_GOT_WPSINFO_SELF_DISPLAY_PIN -> the utility just got the PIN code from itself.
++	//	if the input data is P2P_GOT_WPSINFO_PBC -> the utility just determine to use the PBC
++	
++	if ( *extra == '0' )
++	{
++		pwdinfo->ui_got_wps_info = P2P_NO_WPSINFO;
++	}
++	else if ( *extra == '1' )
++	{
++		pwdinfo->ui_got_wps_info = P2P_GOT_WPSINFO_PEER_DISPLAY_PIN;
++	}
++	else if ( *extra == '2' )
++	{
++		pwdinfo->ui_got_wps_info = P2P_GOT_WPSINFO_SELF_DISPLAY_PIN;
++	}
++	else if ( *extra == '3' )
++	{
++		pwdinfo->ui_got_wps_info = P2P_GOT_WPSINFO_PBC;
++	}
++	else
++	{
++		pwdinfo->ui_got_wps_info = P2P_NO_WPSINFO;
++	}
++	
++	return ret;
++		
++}
++
++#endif //CONFIG_P2P
++
++static int rtw_p2p_set(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;
++#ifdef CONFIG_P2P
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);	
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	DBG_871X( "[%s] extra = %s\n", __FUNCTION__, extra );
++
++	if ( _rtw_memcmp( extra, "enable=", 7 ) )
++	{
++		rtw_wext_p2p_enable( dev, info, wrqu, &extra[7] );
++	}
++	else if ( _rtw_memcmp( extra, "setDN=", 6 ) )
++	{
++		wrqu->data.length -= 6;
++		rtw_p2p_setDN( dev, info, wrqu, &extra[6] );
++	}
++	else if ( _rtw_memcmp( extra, "profilefound=", 13 ) )
++	{
++		wrqu->data.length -= 13;
++		rtw_p2p_profilefound( dev, info, wrqu, &extra[13] );
++	}
++	else if ( _rtw_memcmp( extra, "prov_disc=", 10 ) )
++	{
++		wrqu->data.length -= 10;
++		rtw_p2p_prov_disc( dev, info, wrqu, &extra[10] );
++	}
++	else if ( _rtw_memcmp( extra, "nego=", 5 ) )
++	{
++		wrqu->data.length -= 5;
++		rtw_p2p_connect( dev, info, wrqu, &extra[5] );
++	}
++	else if ( _rtw_memcmp( extra, "intent=", 7 ) )
++	{
++		//	Commented by Albert 2011/03/23
++		//	The wrqu->data.length will include the null character
++		//	So, we will decrease 7 + 1
++		wrqu->data.length -= 8;
++		rtw_p2p_set_intent( dev, info, wrqu, &extra[7] );
++	}
++	else if ( _rtw_memcmp( extra, "ssid=", 5 ) )
++	{
++		wrqu->data.length -= 5;
++		rtw_p2p_set_go_nego_ssid( dev, info, wrqu, &extra[5] );
++	}
++	else if ( _rtw_memcmp( extra, "got_wpsinfo=", 12 ) )
++	{
++		wrqu->data.length -= 12;
++		rtw_p2p_got_wpsinfo( dev, info, wrqu, &extra[12] );
++	}
++	else if ( _rtw_memcmp( extra, "listen_ch=", 10 ) )
++	{
++		//	Commented by Albert 2011/05/24
++		//	The wrqu->data.length will include the null character
++		//	So, we will decrease (10 + 1)	
++		wrqu->data.length -= 11;
++		rtw_p2p_set_listen_ch( dev, info, wrqu, &extra[10] );
++	}
++	else if ( _rtw_memcmp( extra, "op_ch=", 6 ) )
++	{
++		//	Commented by Albert 2011/05/24
++		//	The wrqu->data.length will include the null character
++		//	So, we will decrease (6 + 1)	
++		wrqu->data.length -= 7;
++		rtw_p2p_set_op_ch( dev, info, wrqu, &extra[6] );
++	}
++	else if ( _rtw_memcmp( extra, "invite=", 7 ) )
++	{
++		wrqu->data.length -= 8;
++		rtw_p2p_invite_req( dev, info, wrqu, &extra[7] );
++	}
++	else if ( _rtw_memcmp( extra, "persistent=", 11 ) )
++	{
++		wrqu->data.length -= 11;
++		rtw_p2p_set_persistent( dev, info, wrqu, &extra[11] );
++	}
++	else if ( _rtw_memcmp ( extra, "uuid=", 5) )
++	{
++		wrqu->data.length -= 5;
++		ret = rtw_p2p_set_wps_uuid( dev, info, wrqu, &extra[5] );
++	}
++#ifdef CONFIG_WFD
++	else if ( _rtw_memcmp( extra, "sa=", 3 ) )
++	{
++		//	sa: WFD Session Available information
++		wrqu->data.length -= 3;
++		rtw_p2p_set_sa( dev, info, wrqu, &extra[3] );
++	}
++	else if ( _rtw_memcmp( extra, "pc=", 3 ) )
++	{
++		//	pc: WFD Preferred Connection
++		wrqu->data.length -= 3;
++		rtw_p2p_set_pc( dev, info, wrqu, &extra[3] );
++	}
++	else if ( _rtw_memcmp( extra, "wfd_type=", 9 ) )
++	{
++		//	Specify this device is Mircast source or sink
++		wrqu->data.length -= 9;
++		rtw_p2p_set_wfd_device_type( dev, info, wrqu, &extra[9] );
++	}
++	else if ( _rtw_memcmp( extra, "scan_type=", 10 ) )
++	{
++		wrqu->data.length -= 10;
++		rtw_p2p_set_scan_result_type( dev, info, wrqu, &extra[10] );
++	}
++	else if ( _rtw_memcmp( extra, "wfd_enable=", 11 ) )
++	{
++		wrqu->data.length -= 11;
++		rtw_p2p_set_wfd_enable( dev, info, wrqu, &extra[11] );
++	}
++	else if ( _rtw_memcmp( extra, "driver_iface=", 13 ) )
++	{
++		wrqu->data.length -= 13;
++		rtw_p2p_set_driver_iface( dev, info, wrqu, &extra[13] );
++	}
++#endif //CONFIG_WFD
++#endif //CONFIG_P2P
++
++	return ret;
++		
++}
++
++static int rtw_p2p_get(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++	
++#ifdef CONFIG_P2P
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);	
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	if ( padapter->bShowGetP2PState )
++	{
++		DBG_871X( "[%s] extra = %s\n", __FUNCTION__, (char*) wrqu->data.pointer );
++	}
++	
++	if ( _rtw_memcmp( wrqu->data.pointer, "status", 6 ) )
++	{
++		rtw_p2p_get_status( dev, info, wrqu, extra );
++	}
++	else if ( _rtw_memcmp( wrqu->data.pointer, "role", 4 ) )
++	{
++		rtw_p2p_get_role( dev, info, wrqu, extra);
++	}
++	else if ( _rtw_memcmp( wrqu->data.pointer, "peer_ifa", 8 ) )
++	{
++		rtw_p2p_get_peer_ifaddr( dev, info, wrqu, extra);
++	}
++	else if ( _rtw_memcmp( wrqu->data.pointer, "req_cm", 6 ) )
++	{
++		rtw_p2p_get_req_cm( dev, info, wrqu, extra);
++	}
++	else if ( _rtw_memcmp( wrqu->data.pointer, "peer_deva", 9 ) )
++	{
++		//	Get the P2P device address when receiving the provision discovery request frame.
++		rtw_p2p_get_peer_devaddr( dev, info, wrqu, extra);
++	}
++	else if ( _rtw_memcmp( wrqu->data.pointer, "group_id", 8 ) )
++	{
++		rtw_p2p_get_groupid( dev, info, wrqu, extra);
++	}
++	else if ( _rtw_memcmp( wrqu->data.pointer, "inv_peer_deva", 13 ) )
++	{
++		//	Get the P2P device address when receiving the P2P Invitation request frame.
++		rtw_p2p_get_peer_devaddr_by_invitation( dev, info, wrqu, extra);
++	}
++	else if ( _rtw_memcmp( wrqu->data.pointer, "op_ch", 5 ) )
++	{
++		rtw_p2p_get_op_ch( dev, info, wrqu, extra);
++	}
++#ifdef CONFIG_WFD
++	else if ( _rtw_memcmp( wrqu->data.pointer, "peer_port", 9 ) )
++	{
++		rtw_p2p_get_peer_wfd_port( dev, info, wrqu, extra );
++	}
++	else if ( _rtw_memcmp( wrqu->data.pointer, "wfd_sa", 6 ) )
++	{
++		rtw_p2p_get_peer_wfd_session_available( dev, info, wrqu, extra );
++	}
++	else if ( _rtw_memcmp( wrqu->data.pointer, "wfd_pc", 6 ) )
++	{
++		rtw_p2p_get_peer_wfd_preferred_connection( dev, info, wrqu, extra );
++	}
++#endif // CONFIG_WFD	
++	
++#endif //CONFIG_P2P
++
++	return ret;
++		
++}
++
++static int rtw_p2p_get2(struct net_device *dev,
++						struct iw_request_info *info,
++						union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++
++#ifdef CONFIG_P2P
++
++	int length = wrqu->data.length;
++	char *buffer = (u8 *)rtw_malloc(length);
++
++	if (buffer == NULL)
++	{
++		ret = -ENOMEM;
++		goto bad;
++	}
++
++	if (copy_from_user(buffer, wrqu->data.pointer, wrqu->data.length))
++	{
++		ret - EFAULT;
++		goto bad;
++	}
++
++	DBG_871X("[%s] buffer = %s\n", __FUNCTION__, buffer);
++
++	if (_rtw_memcmp(buffer, "wpsCM=", 6))
++	{
++		ret = rtw_p2p_get_wps_configmethod(dev, info, wrqu, extra, &buffer[6]);
++	} else if (_rtw_memcmp(buffer, "devN=", 5))
++	{
++		ret = rtw_p2p_get_device_name(dev, info, wrqu, extra, &buffer[5]);
++	} else if (_rtw_memcmp(buffer, "dev_type=", 9))
++	{
++		ret = rtw_p2p_get_device_type(dev, info, wrqu, extra, &buffer[9]);
++	} else if (_rtw_memcmp(buffer, "go_devadd=", 10))
++	{
++		ret = rtw_p2p_get_go_device_address(dev, info, wrqu, extra, &buffer[10]);
++	} else if (_rtw_memcmp(buffer, "InvProc=", 8))
++	{
++		ret = rtw_p2p_get_invitation_procedure(dev, info, wrqu, extra, &buffer[8]);
++	} else
++	{
++		snprintf(extra, sizeof("Command not found."), "Command not found.");
++		wrqu->data.length = strlen(extra);
++	}
++
++bad:
++	if (buffer)
++	{
++		rtw_mfree(buffer, length);
++	}
++
++#endif //CONFIG_P2P
++
++	return ret;
++
++}
++
++extern int rtw_change_ifname(_adapter *padapter, const char *ifname);
++static int rtw_rereg_nd_name(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;	
++	_adapter *padapter = rtw_netdev_priv(dev);
++	struct rereg_nd_name_data *rereg_priv = &padapter->rereg_nd_name_priv;
++	char new_ifname[IFNAMSIZ];
++
++	if(rereg_priv->old_ifname[0] == 0) {
++		char *reg_ifname;
++#ifdef CONFIG_CONCURRENT_MODE 
++		if (padapter->isprimary)
++			reg_ifname = padapter->registrypriv.ifname;
++		else
++#endif
++		reg_ifname = padapter->registrypriv.if2name;
++
++		strncpy(rereg_priv->old_ifname, reg_ifname, IFNAMSIZ);
++		rereg_priv->old_ifname[IFNAMSIZ-1] = 0;
++	}
++
++	//DBG_871X("%s wrqu->data.length:%d\n", __FUNCTION__, wrqu->data.length);
++	if(wrqu->data.length > IFNAMSIZ)
++		return -EFAULT;
++
++	if ( copy_from_user(new_ifname, wrqu->data.pointer, IFNAMSIZ) ) {
++		return -EFAULT;
++	}
++
++	if( 0 == strcmp(rereg_priv->old_ifname, new_ifname) ) {
++		return ret;
++	}
++
++	DBG_871X("%s new_ifname:%s\n", __FUNCTION__, new_ifname);
++	if( 0 != (ret = rtw_change_ifname(padapter, new_ifname)) ) {
++		goto exit;
++	}
++
++	if(_rtw_memcmp(rereg_priv->old_ifname, "disable%d", 9) == _TRUE) {
++		padapter->ledpriv.bRegUseLed= rereg_priv->old_bRegUseLed;
++		rtw_hal_sw_led_init(padapter);
++		rtw_ips_mode_req(&padapter->pwrctrlpriv, rereg_priv->old_ips_mode);
++	}
++
++	strncpy(rereg_priv->old_ifname, new_ifname, IFNAMSIZ);
++	rereg_priv->old_ifname[IFNAMSIZ-1] = 0;
++	
++	if(_rtw_memcmp(new_ifname, "disable%d", 9) == _TRUE) {
++
++		DBG_871X("%s disable\n", __FUNCTION__);
++		// free network queue for Android's timming issue
++		rtw_free_network_queue(padapter, _TRUE);
++		
++		// close led
++		rtw_led_control(padapter, LED_CTL_POWER_OFF);
++		rereg_priv->old_bRegUseLed = padapter->ledpriv.bRegUseLed;
++		padapter->ledpriv.bRegUseLed= _FALSE;
++		rtw_hal_sw_led_deinit(padapter);
++		
++		// the interface is being "disabled", we can do deeper IPS
++		rereg_priv->old_ips_mode = rtw_get_ips_mode_req(&padapter->pwrctrlpriv);
++		rtw_ips_mode_req(&padapter->pwrctrlpriv, IPS_NORMAL);
++	}
++exit:
++	return ret;
++
++}
++
++#if 0
++void mac_reg_dump(_adapter *padapter)
++{
++	int i,j=1;		
++	DBG_871X("\n======= MAC REG =======\n");
++	for(i=0x0;i<0x300;i+=4)
++	{	
++		if(j%4==1)	DBG_871X("0x%02x",i);
++		DBG_871X(" 0x%08x ",rtw_read32(padapter,i));		
++		if((j++)%4 == 0)	DBG_871X("\n");	
++	}
++	for(i=0x400;i<0x800;i+=4)
++	{	
++		if(j%4==1)	DBG_871X("0x%02x",i);
++		DBG_871X(" 0x%08x ",rtw_read32(padapter,i));		
++		if((j++)%4 == 0)	DBG_871X("\n");	
++	}									
++}
++void bb_reg_dump(_adapter *padapter)
++{
++	int i,j=1;		
++	DBG_871X("\n======= BB REG =======\n");
++	for(i=0x800;i<0x1000;i+=4)
++	{
++		if(j%4==1) DBG_871X("0x%02x",i);
++				
++		DBG_871X(" 0x%08x ",rtw_read32(padapter,i));		
++		if((j++)%4 == 0)	DBG_871X("\n");	
++	}		
++}
++void rf_reg_dump(_adapter *padapter)
++{	
++	int i,j=1,path;
++	u32 value;			
++	DBG_871X("\n======= RF REG =======\n");
++	for(path=0;path<2;path++)
++	{
++		DBG_871X("\nRF_Path(%x)\n",path);
++		for(i=0;i<0x100;i++)
++		{								
++			value = PHY_QueryRFReg(padapter, (RF90_RADIO_PATH_E)path,i, bMaskDWord);
++			if(j%4==1)	DBG_871X("0x%02x ",i);
++			DBG_871X(" 0x%08x ",value);
++			if((j++)%4==0)	DBG_871X("\n");	
++		}	
++	}
++}
++
++#endif
++
++void mac_reg_dump(_adapter *padapter)
++{
++	int i,j=1;		
++	DBG_871X("\n======= MAC REG =======\n");
++	for(i=0x0;i<0x300;i+=4)
++	{	
++		if(j%4==1)	DBG_871X("0x%02x",i);
++		DBG_871X(" 0x%08x ",rtw_read32(padapter,i));		
++		if((j++)%4 == 0)	DBG_871X("\n");	
++	}
++	for(i=0x400;i<0x800;i+=4)
++	{	
++		if(j%4==1)	DBG_871X("0x%02x",i);
++		DBG_871X(" 0x%08x ",rtw_read32(padapter,i));		
++		if((j++)%4 == 0)	DBG_871X("\n");	
++	}									
++}
++void bb_reg_dump(_adapter *padapter)
++{
++	int i,j=1;		
++	DBG_871X("\n======= BB REG =======\n");
++	for(i=0x800;i<0x1000;i+=4)
++	{
++		if(j%4==1) DBG_871X("0x%02x",i);
++				
++		DBG_871X(" 0x%08x ",rtw_read32(padapter,i));		
++		if((j++)%4 == 0)	DBG_871X("\n");	
++	}		
++}
++void rf_reg_dump(_adapter *padapter)
++{	
++	int i,j=1,path;
++	u32 value;	
++	u8 rf_type,path_nums = 0;
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++		
++	DBG_871X("\n======= RF REG =======\n");
++	if((RF_1T2R == rf_type) ||(RF_1T1R ==rf_type ))	
++		path_nums = 1;
++	else	
++		path_nums = 2;
++		
++	for(path=0;path<path_nums;path++)
++	{
++		DBG_871X("\nRF_Path(%x)\n",path);
++		for(i=0;i<0x100;i++)
++		{								
++			//value = PHY_QueryRFReg(padapter, (RF90_RADIO_PATH_E)path,i, bMaskDWord);
++			value =rtw_hal_read_rfreg(padapter, path, i, 0xffffffff);
++			if(j%4==1)	DBG_871X("0x%02x ",i);
++			DBG_871X(" 0x%08x ",value);
++			if((j++)%4==0)	DBG_871X("\n");	
++		}	
++	}
++}
++
++#ifdef CONFIG_IOL
++#include <rtw_iol.h>
++#endif
++#ifdef DBG_CONFIG_ERROR_DETECT
++#include <rtw_sreset.h>
++#endif
++static int rtw_dbg_port(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{	
++	_irqL irqL;
++	int ret = 0;
++	u8 major_cmd, minor_cmd;
++	u16 arg;
++	u32 extra_arg, *pdata, val32;
++	struct sta_info *psta;						
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct wlan_network *cur_network = &(pmlmepriv->cur_network);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	
++
++	pdata = (u32*)&wrqu->data;	
++
++	val32 = *pdata;
++	arg = (u16)(val32&0x0000ffff);
++	major_cmd = (u8)(val32>>24);
++	minor_cmd = (u8)((val32>>16)&0x00ff);
++
++	extra_arg = *(pdata+1);
++	
++	switch(major_cmd)
++	{
++		case 0x70://read_reg
++			switch(minor_cmd)
++			{
++				case 1:
++					DBG_871X("rtw_read8(0x%x)=0x%02x\n", arg, rtw_read8(padapter, arg));
++					break;
++				case 2:
++					DBG_871X("rtw_read16(0x%x)=0x%04x\n", arg, rtw_read16(padapter, arg));
++					break;
++				case 4:
++					DBG_871X("rtw_read32(0x%x)=0x%08x\n", arg, rtw_read32(padapter, arg));
++					break;
++			}			
++			break;
++		case 0x71://write_reg
++			switch(minor_cmd)
++			{
++				case 1:
++					rtw_write8(padapter, arg, extra_arg);
++					DBG_871X("rtw_write8(0x%x)=0x%02x\n", arg, rtw_read8(padapter, arg));
++					break;
++				case 2:
++					rtw_write16(padapter, arg, extra_arg);
++					DBG_871X("rtw_write16(0x%x)=0x%04x\n", arg, rtw_read16(padapter, arg));
++					break;
++				case 4:
++					rtw_write32(padapter, arg, extra_arg);
++					DBG_871X("rtw_write32(0x%x)=0x%08x\n", arg, rtw_read32(padapter, arg));
++					break;
++			}			
++			break;
++		case 0x72://read_bb
++			DBG_871X("read_bbreg(0x%x)=0x%x\n", arg, rtw_hal_read_bbreg(padapter, arg, 0xffffffff));
++			break;
++		case 0x73://write_bb
++			rtw_hal_write_bbreg(padapter, arg, 0xffffffff, extra_arg);
++			DBG_871X("write_bbreg(0x%x)=0x%x\n", arg, rtw_hal_read_bbreg(padapter, arg, 0xffffffff));
++			break;
++		case 0x74://read_rf
++			DBG_871X("read RF_reg path(0x%02x),offset(0x%x),value(0x%08x)\n",minor_cmd,arg,rtw_hal_read_rfreg(padapter, minor_cmd, arg, 0xffffffff));	
++			break;
++		case 0x75://write_rf
++			rtw_hal_write_rfreg(padapter, minor_cmd, arg, 0xffffffff, extra_arg);
++			DBG_871X("write RF_reg path(0x%02x),offset(0x%x),value(0x%08x)\n",minor_cmd,arg, rtw_hal_read_rfreg(padapter, minor_cmd, arg, 0xffffffff));
++			break;	
++
++		case 0x76:
++			switch(minor_cmd)
++			{
++				case 0x00: //normal mode, 
++					padapter->recvpriv.is_signal_dbg = 0;
++					break;
++				case 0x01: //dbg mode
++					padapter->recvpriv.is_signal_dbg = 1;
++					extra_arg = extra_arg>100?100:extra_arg;
++					extra_arg = extra_arg<0?0:extra_arg;
++					padapter->recvpriv.signal_strength_dbg=extra_arg;
++					break;
++			}
++			break;
++		case 0x78: //IOL test
++			switch(minor_cmd)
++			{
++				#ifdef CONFIG_IOL
++				case 0x04: //LLT table initialization test
++				{
++					u8 page_boundary = 0xf9;
++					{
++						struct xmit_frame	*xmit_frame;
++
++						if((xmit_frame=rtw_IOL_accquire_xmit_frame(padapter)) == NULL) {
++							ret = -ENOMEM;	
++							break;
++						}
++						
++						rtw_IOL_append_LLT_cmd(xmit_frame, page_boundary);
++
++
++						if(_SUCCESS != rtw_IOL_exec_cmds_sync(padapter, xmit_frame, 500) )
++							ret = -EPERM;
++					}
++				}
++					break;
++				case 0x05: //blink LED test
++				{
++					u16 reg = 0x4c;
++					u32 blink_num = 50;
++					u32 blink_delay_ms = 200;
++					int i;
++					
++					{
++						struct xmit_frame	*xmit_frame;
++
++						if((xmit_frame=rtw_IOL_accquire_xmit_frame(padapter)) == NULL) {
++							ret = -ENOMEM;	
++							break;
++						}
++
++						for(i=0;i<blink_num;i++){
++							rtw_IOL_append_WB_cmd(xmit_frame, reg, 0x00);
++							rtw_IOL_append_DELAY_MS_cmd(xmit_frame, blink_delay_ms);
++							rtw_IOL_append_WB_cmd(xmit_frame, reg, 0x08);
++							rtw_IOL_append_DELAY_MS_cmd(xmit_frame, blink_delay_ms);
++						}
++						if(_SUCCESS != rtw_IOL_exec_cmds_sync(padapter, xmit_frame, (blink_delay_ms*blink_num*2)+200) )
++							ret = -EPERM;
++					}
++				}
++					break;
++					
++				case 0x06: //continuous wirte byte test
++				{
++					u16 reg = arg;
++					u16 start_value = 0;
++					u32 write_num = extra_arg;
++					int i;
++					u8 final;
++					
++					{
++						struct xmit_frame	*xmit_frame;
++
++						if((xmit_frame=rtw_IOL_accquire_xmit_frame(padapter)) == NULL) {
++							ret = -ENOMEM;	
++							break;
++						}
++
++						for(i=0;i<write_num;i++){
++							rtw_IOL_append_WB_cmd(xmit_frame, reg, i+start_value);
++						}
++						if(_SUCCESS != rtw_IOL_exec_cmds_sync(padapter, xmit_frame, 5000))
++							ret = -EPERM;
++					}
++
++					if(start_value+write_num-1 == (final=rtw_read8(padapter, reg)) ) {
++						DBG_871X("continuous IOL_CMD_WB_REG to 0x%x %u times Success, start:%u, final:%u\n", reg, write_num, start_value, final);
++					} else {
++						DBG_871X("continuous IOL_CMD_WB_REG to 0x%x %u times Fail, start:%u, final:%u\n", reg, write_num, start_value, final);
++					}
++				}
++					break;
++					
++				case 0x07: //continuous wirte word test
++				{
++					u16 reg = arg;
++					u16 start_value = 200;
++					u32 write_num = extra_arg;
++				
++					int i;
++					u16 final;
++
++					{
++						struct xmit_frame	*xmit_frame;
++
++						if((xmit_frame=rtw_IOL_accquire_xmit_frame(padapter)) == NULL) {
++							ret = -ENOMEM;	
++							break;
++						}
++
++						for(i=0;i<write_num;i++){
++							rtw_IOL_append_WW_cmd(xmit_frame, reg, i+start_value);
++						}
++						if(_SUCCESS !=rtw_IOL_exec_cmds_sync(padapter, xmit_frame, 5000))
++							ret = -EPERM;
++					}
++
++					if(start_value+write_num-1 == (final=rtw_read16(padapter, reg)) ) {
++						DBG_871X("continuous IOL_CMD_WW_REG to 0x%x %u times Success, start:%u, final:%u\n", reg, write_num, start_value, final);
++					} else {
++						DBG_871X("continuous IOL_CMD_WW_REG to 0x%x %u times Fail, start:%u, final:%u\n", reg, write_num, start_value, final);
++					}
++				}
++					break;
++					
++				case 0x08: //continuous wirte dword test
++				{
++					u16 reg = arg;
++					u32 start_value = 0x110000c7;
++					u32 write_num = extra_arg;
++				
++					int i;
++					u32 final;
++
++					{
++						struct xmit_frame	*xmit_frame;
++
++						if((xmit_frame=rtw_IOL_accquire_xmit_frame(padapter)) == NULL) {
++							ret = -ENOMEM;	
++							break;
++						}
++
++						for(i=0;i<write_num;i++){
++							rtw_IOL_append_WD_cmd(xmit_frame, reg, i+start_value);
++						}
++						if(_SUCCESS !=rtw_IOL_exec_cmds_sync(padapter, xmit_frame, 5000))
++							ret = -EPERM;
++							
++					}
++
++					if(start_value+write_num-1 == (final=rtw_read32(padapter, reg)) ) {
++						DBG_871X("continuous IOL_CMD_WD_REG to 0x%x %u times Success, start:%u, final:%u\n", reg, write_num, start_value, final);
++					} else {
++						DBG_871X("continuous IOL_CMD_WD_REG to 0x%x %u times Fail, start:%u, final:%u\n", reg, write_num, start_value, final);
++					}
++				}
++					break;
++				#endif //CONFIG_IOL
++			}
++			break;
++		case 0x7a:
++			receive_disconnect(padapter, pmlmeinfo->network.MacAddress
++				, WLAN_REASON_EXPIRATION_CHK);
++			break;
++
++		case 0x7F:
++			switch(minor_cmd)
++			{
++				case 0x0:
++					DBG_871X("fwstate=0x%x\n", get_fwstate(pmlmepriv));
++					break;
++				case 0x01:
++					DBG_871X("auth_alg=0x%x, enc_alg=0x%x, auth_type=0x%x, enc_type=0x%x\n", 
++						psecuritypriv->dot11AuthAlgrthm, psecuritypriv->dot11PrivacyAlgrthm,
++						psecuritypriv->ndisauthtype, psecuritypriv->ndisencryptstatus);
++					break;
++				case 0x02:
++					DBG_871X("pmlmeinfo->state=0x%x\n", pmlmeinfo->state);
++					break;
++				case 0x03:
++					DBG_871X("qos_option=%d\n", pmlmepriv->qospriv.qos_option);
++					DBG_871X("ht_option=%d\n", pmlmepriv->htpriv.ht_option);
++					break;
++				case 0x04:
++					DBG_871X("cur_ch=%d\n", pmlmeext->cur_channel);
++					DBG_871X("cur_bw=%d\n", pmlmeext->cur_bwmode);
++					DBG_871X("cur_ch_off=%d\n", pmlmeext->cur_ch_offset);
++					break;
++				case 0x05:
++					psta = rtw_get_stainfo(pstapriv, cur_network->network.MacAddress);
++					if(psta)
++					{
++						int i;
++						struct recv_reorder_ctrl *preorder_ctrl;
++					
++						DBG_871X("SSID=%s\n", cur_network->network.Ssid.Ssid);
++						DBG_871X("sta's macaddr:" MAC_FMT "\n", MAC_ARG(psta->hwaddr));
++						DBG_871X("cur_channel=%d, cur_bwmode=%d, cur_ch_offset=%d\n", pmlmeext->cur_channel, pmlmeext->cur_bwmode, pmlmeext->cur_ch_offset);
++						DBG_871X("rtsen=%d, cts2slef=%d\n", psta->rtsen, psta->cts2self);
++						DBG_871X("qos_en=%d, ht_en=%d, init_rate=%d\n", psta->qos_option, psta->htpriv.ht_option, psta->init_rate);	
++						DBG_871X("state=0x%x, aid=%d, macid=%d, raid=%d\n", psta->state, psta->aid, psta->mac_id, psta->raid);	
++						DBG_871X("bwmode=%d, ch_offset=%d, sgi=%d\n", psta->htpriv.bwmode, psta->htpriv.ch_offset, psta->htpriv.sgi);						
++						DBG_871X("ampdu_enable = %d\n", psta->htpriv.ampdu_enable);	
++						DBG_871X("agg_enable_bitmap=%x, candidate_tid_bitmap=%x\n", psta->htpriv.agg_enable_bitmap, psta->htpriv.candidate_tid_bitmap);
++						
++						for(i=0;i<16;i++)
++						{							
++							preorder_ctrl = &psta->recvreorder_ctrl[i];
++							if(preorder_ctrl->enable)
++							{
++								DBG_871X("tid=%d, indicate_seq=%d\n", i, preorder_ctrl->indicate_seq);
++							}
++						}	
++							
++					}
++					else
++					{							
++						DBG_871X("can't get sta's macaddr, cur_network's macaddr:" MAC_FMT "\n", MAC_ARG(cur_network->network.MacAddress));
++					}					
++					break;
++				case 0x06:
++					{
++						u8	DMFlag;
++						rtw_hal_get_hwreg(padapter, HW_VAR_DM_FLAG, (u8 *)(&DMFlag));
++						DBG_871X("(B)DMFlag=0x%x, arg=0x%x\n", DMFlag, arg);
++						DMFlag = (u8)(0x0f&arg);
++						DBG_871X("(A)DMFlag=0x%x\n", DMFlag);
++						rtw_hal_set_hwreg(padapter, HW_VAR_DM_FLAG, (u8 *)(&DMFlag));
++					}
++					break;
++				case 0x07:
++					DBG_871X("bSurpriseRemoved=%d, bDriverStopped=%d\n", 
++						padapter->bSurpriseRemoved, padapter->bDriverStopped);
++					break;
++                                case 0x08:
++					{
++						struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++						struct recv_priv  *precvpriv = &padapter->recvpriv;
++						
++						DBG_871X("free_xmitbuf_cnt=%d, free_xmitframe_cnt=%d"
++							", free_xmit_extbuf_cnt=%d, free_xframe_ext_cnt=%d"
++							", free_recvframe_cnt=%d\n",
++							pxmitpriv->free_xmitbuf_cnt, pxmitpriv->free_xmitframe_cnt,
++							pxmitpriv->free_xmit_extbuf_cnt, pxmitpriv->free_xframe_ext_cnt,
++							precvpriv->free_recvframe_cnt);
++						#ifdef CONFIG_USB_HCI
++						DBG_871X("rx_urb_pending_cn=%d\n", precvpriv->rx_pending_cnt);
++						#endif
++					}
++					break;	
++				case 0x09:
++					{
++						int i, j;
++						_list	*plist, *phead;
++						struct recv_reorder_ctrl *preorder_ctrl;
++						
++#ifdef CONFIG_AP_MODE
++						DBG_871X("sta_dz_bitmap=0x%x, tim_bitmap=0x%x\n", pstapriv->sta_dz_bitmap, pstapriv->tim_bitmap);
++#endif						
++						_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++						for(i=0; i< NUM_STA; i++)
++						{
++							phead = &(pstapriv->sta_hash[i]);
++							plist = get_next(phead);
++		
++							while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
++							{
++								psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++
++								plist = get_next(plist);
++
++								if(extra_arg == psta->aid)
++								{
++									DBG_871X("sta's macaddr:" MAC_FMT "\n", MAC_ARG(psta->hwaddr));
++									DBG_871X("rtsen=%d, cts2slef=%d\n", psta->rtsen, psta->cts2self);
++									DBG_871X("qos_en=%d, ht_en=%d, init_rate=%d\n", psta->qos_option, psta->htpriv.ht_option, psta->init_rate);	
++									DBG_871X("state=0x%x, aid=%d, macid=%d, raid=%d\n", psta->state, psta->aid, psta->mac_id, psta->raid);	
++									DBG_871X("bwmode=%d, ch_offset=%d, sgi=%d\n", psta->htpriv.bwmode, psta->htpriv.ch_offset, psta->htpriv.sgi);						
++									DBG_871X("ampdu_enable = %d\n", psta->htpriv.ampdu_enable);									
++									DBG_871X("agg_enable_bitmap=%x, candidate_tid_bitmap=%x\n", psta->htpriv.agg_enable_bitmap, psta->htpriv.candidate_tid_bitmap);
++#ifdef CONFIG_AP_MODE
++									DBG_871X("capability=0x%x\n", psta->capability);
++									DBG_871X("flags=0x%x\n", psta->flags);
++									DBG_871X("wpa_psk=0x%x\n", psta->wpa_psk);
++									DBG_871X("wpa2_group_cipher=0x%x\n", psta->wpa2_group_cipher);
++									DBG_871X("wpa2_pairwise_cipher=0x%x\n", psta->wpa2_pairwise_cipher);
++									DBG_871X("qos_info=0x%x\n", psta->qos_info);
++#endif
++									DBG_871X("dot118021XPrivacy=0x%x\n", psta->dot118021XPrivacy);
++									
++									
++						
++									for(j=0;j<16;j++)
++									{							
++										preorder_ctrl = &psta->recvreorder_ctrl[j];
++										if(preorder_ctrl->enable)
++										{
++											DBG_871X("tid=%d, indicate_seq=%d\n", j, preorder_ctrl->indicate_seq);
++										}
++									}		
++									
++								}							
++			
++							}
++						}
++	
++						_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++					}
++					break;
++
++                                case 0x0c://dump rx packet
++					{
++						DBG_871X("dump rx packet (%d)\n",extra_arg);						
++						//pHalData->bDumpRxPkt =extra_arg;						
++						rtw_hal_set_def_var(padapter, HAL_DEF_DBG_DUMP_RXPKT, &(extra_arg));
++					}
++					break;
++#if 0				
++					case 0x0d://dump cam
++					{
++						//u8 entry = (u8) extra_arg;
++						u8 entry=0;
++						//dump cam
++						for(entry=0;entry<32;entry++)
++							read_cam(padapter,entry);
++					}				
++					break;
++#endif
++		#ifdef DBG_CONFIG_ERROR_DETECT
++				case 0x0f:
++						{
++							if(extra_arg == 0){	
++								DBG_871X("###### silent reset test.......#####\n");
++								rtw_hal_sreset_reset(padapter);
++							} else {
++								sreset_set_trigger_point(padapter, extra_arg);
++							}
++							
++						}
++				break;
++				case 0x15:
++					{
++						struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;	
++						DBG_871X("==>silent resete cnts:%d\n",pwrpriv->ips_enter_cnts);
++					}
++					break;	
++					
++		#endif	
++
++				case 0x10:// driver version display
++					DBG_871X("rtw driver version=%s\n", DRIVERVERSION);
++					break;
++				case 0x11:
++					{
++						DBG_871X("turn %s Rx RSSI display function\n",(extra_arg==1)?"on":"off");
++						padapter->bRxRSSIDisplay = extra_arg ;						
++					}
++					break;
++				case 0x12: //set rx_stbc
++				{
++					struct registry_priv	*pregpriv = &padapter->registrypriv;
++					// 0: disable, bit(0):enable 2.4g, bit(1):enable 5g, 0x3: enable both 2.4g and 5g
++					//default is set to enable 2.4GHZ for IOT issue with bufflao's AP at 5GHZ
++					if( pregpriv && (extra_arg == 0 || extra_arg == 1|| extra_arg == 2 || extra_arg == 3))
++					{
++						pregpriv->rx_stbc= extra_arg;
++						DBG_871X("set rx_stbc=%d\n",pregpriv->rx_stbc);
++					}
++					else
++						DBG_871X("get rx_stbc=%d\n",pregpriv->rx_stbc);
++					
++				}
++				break;
++				case 0x13: //set ampdu_enable
++				{
++					struct registry_priv	*pregpriv = &padapter->registrypriv;
++					// 0: disable, 0x1:enable (but wifi_spec should be 0), 0x2: force enable (don't care wifi_spec)
++					if( pregpriv && extra_arg >= 0 && extra_arg < 3 )
++					{
++						pregpriv->ampdu_enable= extra_arg;
++						DBG_871X("set ampdu_enable=%d\n",pregpriv->ampdu_enable);
++					}
++					else
++						DBG_871X("get ampdu_enable=%d\n",pregpriv->ampdu_enable);
++					
++				}
++				break;
++				case 0x14: //get wifi_spec
++				{
++					struct registry_priv	*pregpriv = &padapter->registrypriv;
++					DBG_871X("get wifi_spec=%d\n",pregpriv->wifi_spec);
++					
++				}
++				break;
++				case 0x22:
++					{
++						DBG_871X("turn %s the ForceWriteInitGain Variable\n",(extra_arg==1)?"on":"off");
++						padapter->bForceWriteInitGain = extra_arg;
++						break;
++					}
++				case 0x23:
++					{
++						DBG_871X("turn %s the bNotifyChannelChange Variable\n",(extra_arg==1)?"on":"off");
++						padapter->bNotifyChannelChange = extra_arg;
++						break;
++					}
++				case 0x24:
++					{
++#ifdef CONFIG_P2P
++						DBG_871X("turn %s the bShowGetP2PState Variable\n",(extra_arg==1)?"on":"off");
++						padapter->bShowGetP2PState = extra_arg;
++#endif // CONFIG_P2P
++						break;						
++					}
++#if 1
++				case 0xdd://registers dump , 0 for mac reg,1 for bb reg, 2 for rf reg
++					{						
++						if(extra_arg==0){
++							mac_reg_dump(padapter);
++						}
++						else if(extra_arg==1){
++							bb_reg_dump(padapter);
++						}
++						else if(extra_arg==2){
++							rf_reg_dump(padapter);
++						}
++																				
++					}
++					break;		
++#endif
++				case 0xee://turn on/off dynamic funcs
++					{
++						u8 dm_flag;
++
++						if(0xf==extra_arg){
++							rtw_hal_get_def_var(padapter, HAL_DEF_DBG_DM_FUNC,&dm_flag);							
++							DBG_871X(" === DMFlag(0x%02x) === \n",dm_flag);
++							DBG_871X("extra_arg = 0  - disable all dynamic func \n");
++							DBG_871X("extra_arg = 1  - disable DIG- BIT(0)\n");
++							DBG_871X("extra_arg = 2  - disable High power - BIT(1)\n");
++							DBG_871X("extra_arg = 3  - disable tx power tracking - BIT(2)\n");
++							DBG_871X("extra_arg = 4  - disable BT coexistence - BIT(3)\n");
++							DBG_871X("extra_arg = 5  - disable antenna diversity - BIT(4)\n");
++							DBG_871X("extra_arg = 6  - enable all dynamic func \n");							
++						}
++						else{
++							/*	extra_arg = 0  - disable all dynamic func
++								extra_arg = 1  - disable DIG
++								extra_arg = 2  - disable tx power tracking
++								extra_arg = 3  - turn on all dynamic func
++							*/			
++							rtw_hal_set_def_var(padapter, HAL_DEF_DBG_DM_FUNC, &(extra_arg));
++							rtw_hal_get_def_var(padapter, HAL_DEF_DBG_DM_FUNC,&dm_flag);							
++							DBG_871X(" === DMFlag(0x%02x) === \n",dm_flag);
++						}
++					}
++					break;
++
++				case 0xfd:
++					rtw_write8(padapter, 0xc50, arg);
++					DBG_871X("wr(0xc50)=0x%x\n", rtw_read8(padapter, 0xc50));
++					rtw_write8(padapter, 0xc58, arg);
++					DBG_871X("wr(0xc58)=0x%x\n", rtw_read8(padapter, 0xc58));
++					break;
++				case 0xfe:
++					DBG_871X("rd(0xc50)=0x%x\n", rtw_read8(padapter, 0xc50));
++					DBG_871X("rd(0xc58)=0x%x\n", rtw_read8(padapter, 0xc58));
++					break;
++				case 0xff:
++					{
++						DBG_871X("dbg(0x210)=0x%x\n", rtw_read32(padapter, 0x210));
++						DBG_871X("dbg(0x608)=0x%x\n", rtw_read32(padapter, 0x608));
++						DBG_871X("dbg(0x280)=0x%x\n", rtw_read32(padapter, 0x280));
++						DBG_871X("dbg(0x284)=0x%x\n", rtw_read32(padapter, 0x284));
++						DBG_871X("dbg(0x288)=0x%x\n", rtw_read32(padapter, 0x288));
++	
++						DBG_871X("dbg(0x664)=0x%x\n", rtw_read32(padapter, 0x664));
++
++
++						DBG_871X("\n");
++		
++						DBG_871X("dbg(0x430)=0x%x\n", rtw_read32(padapter, 0x430));
++						DBG_871X("dbg(0x438)=0x%x\n", rtw_read32(padapter, 0x438));
++
++						DBG_871X("dbg(0x440)=0x%x\n", rtw_read32(padapter, 0x440));
++	
++						DBG_871X("dbg(0x458)=0x%x\n", rtw_read32(padapter, 0x458));
++	
++						DBG_871X("dbg(0x484)=0x%x\n", rtw_read32(padapter, 0x484));
++						DBG_871X("dbg(0x488)=0x%x\n", rtw_read32(padapter, 0x488));
++	
++						DBG_871X("dbg(0x444)=0x%x\n", rtw_read32(padapter, 0x444));
++						DBG_871X("dbg(0x448)=0x%x\n", rtw_read32(padapter, 0x448));
++						DBG_871X("dbg(0x44c)=0x%x\n", rtw_read32(padapter, 0x44c));
++						DBG_871X("dbg(0x450)=0x%x\n", rtw_read32(padapter, 0x450));
++					}
++					break;
++			}			
++			break;
++		default:
++			DBG_871X("error dbg cmd!\n");
++			break;	
++	}
++	
++
++	return ret;
++
++}
++
++static int wpa_set_param(struct net_device *dev, u8 name, u32 value)
++{
++	uint ret=0;
++	u32 flags;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	
++	switch (name){
++	case IEEE_PARAM_WPA_ENABLED:
++
++		padapter->securitypriv.dot11AuthAlgrthm= dot11AuthAlgrthm_8021X; //802.1x
++		
++		//ret = ieee80211_wpa_enable(ieee, value);
++		
++		switch((value)&0xff)
++		{
++			case 1 : //WPA
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeWPAPSK; //WPA_PSK
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption2Enabled;
++				break;
++			case 2: //WPA2
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeWPA2PSK; //WPA2_PSK
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption3Enabled;
++				break;
++		}
++		
++		RT_TRACE(_module_rtl871x_ioctl_os_c,_drv_info_,("wpa_set_param:padapter->securitypriv.ndisauthtype=%d\n", padapter->securitypriv.ndisauthtype));
++		
++		break;
++
++	case IEEE_PARAM_TKIP_COUNTERMEASURES:
++		//ieee->tkip_countermeasures=value;
++		break;
++
++	case IEEE_PARAM_DROP_UNENCRYPTED: 
++	{
++		/* HACK:
++		 *
++		 * wpa_supplicant calls set_wpa_enabled when the driver
++		 * is loaded and unloaded, regardless of if WPA is being
++		 * used.  No other calls are made which can be used to
++		 * determine if encryption will be used or not prior to
++		 * association being expected.  If encryption is not being
++		 * used, drop_unencrypted is set to false, else true -- we
++		 * can use this to determine if the CAP_PRIVACY_ON bit should
++		 * be set.
++		 */
++		 
++#if 0	 
++		struct ieee80211_security sec = {
++			.flags = SEC_ENABLED,
++			.enabled = value,
++		};
++ 		ieee->drop_unencrypted = value;
++		/* We only change SEC_LEVEL for open mode. Others
++		 * are set by ipw_wpa_set_encryption.
++		 */
++		if (!value) {
++			sec.flags |= SEC_LEVEL;
++			sec.level = SEC_LEVEL_0;
++		}
++		else {
++			sec.flags |= SEC_LEVEL;
++			sec.level = SEC_LEVEL_1;
++		}
++		if (ieee->set_security)
++			ieee->set_security(ieee->dev, &sec);
++#endif		
++		break;
++
++	}
++	case IEEE_PARAM_PRIVACY_INVOKED:	
++		
++		//ieee->privacy_invoked=value;
++		
++		break;
++
++	case IEEE_PARAM_AUTH_ALGS:
++		
++		ret = wpa_set_auth_algs(dev, value);
++		
++		break;
++
++	case IEEE_PARAM_IEEE_802_1X:
++		
++		//ieee->ieee802_1x=value;		
++		
++		break;
++		
++	case IEEE_PARAM_WPAX_SELECT:
++		
++		// added for WPA2 mixed mode
++		//DBG_871X(KERN_WARNING "------------------------>wpax value = %x\n", value);
++		/*
++		spin_lock_irqsave(&ieee->wpax_suitlist_lock,flags);
++		ieee->wpax_type_set = 1;
++		ieee->wpax_type_notify = value;
++		spin_unlock_irqrestore(&ieee->wpax_suitlist_lock,flags);
++		*/
++		
++		break;
++
++	default:		
++
++
++		
++		ret = -EOPNOTSUPP;
++
++		
++		break;
++	
++	}
++
++	return ret;
++	
++}
++
++static int wpa_mlme(struct net_device *dev, u32 command, u32 reason)
++{	
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	switch (command)
++	{
++		case IEEE_MLME_STA_DEAUTH:
++
++			if(!rtw_set_802_11_disassociate(padapter))
++				ret = -1;		
++			
++			break;
++
++		case IEEE_MLME_STA_DISASSOC:
++		
++			if(!rtw_set_802_11_disassociate(padapter))
++				ret = -1;		
++	
++			break;
++
++		default:
++			ret = -EOPNOTSUPP;
++			break;
++	}
++
++	return ret;
++	
++}
++
++static int wpa_supplicant_ioctl(struct net_device *dev, struct iw_point *p)
++{
++	struct ieee_param *param;
++	uint ret=0;
++
++	//down(&ieee->wx_sem);	
++
++	if (p->length < sizeof(struct ieee_param) || !p->pointer){
++		ret = -EINVAL;
++		goto out;
++	}
++	
++	param = (struct ieee_param *)rtw_malloc(p->length);
++	if (param == NULL)
++	{
++		ret = -ENOMEM;
++		goto out;
++	}
++	
++	if (copy_from_user(param, p->pointer, p->length))
++	{
++		rtw_mfree((u8*)param, p->length);
++		ret = -EFAULT;
++		goto out;
++	}
++
++	switch (param->cmd) {
++
++	case IEEE_CMD_SET_WPA_PARAM:
++		ret = wpa_set_param(dev, param->u.wpa_param.name, param->u.wpa_param.value);
++		break;
++
++	case IEEE_CMD_SET_WPA_IE:
++		//ret = wpa_set_wpa_ie(dev, param, p->length);
++		ret =  rtw_set_wpa_ie((_adapter *)rtw_netdev_priv(dev), (char*)param->u.wpa_ie.data, (u16)param->u.wpa_ie.len);
++		break;
++
++	case IEEE_CMD_SET_ENCRYPTION:
++		ret = wpa_set_encryption(dev, param, p->length);
++		break;
++
++	case IEEE_CMD_MLME:
++		ret = wpa_mlme(dev, param->u.mlme.command, param->u.mlme.reason_code);
++		break;
++
++	default:
++		DBG_871X("Unknown WPA supplicant request: %d\n", param->cmd);
++		ret = -EOPNOTSUPP;
++		break;
++		
++	}
++
++	if (ret == 0 && copy_to_user(p->pointer, param, p->length))
++		ret = -EFAULT;
++
++	rtw_mfree((u8 *)param, p->length);
++	
++out:
++	
++	//up(&ieee->wx_sem);
++	
++	return ret;
++	
++}
++
++#ifdef CONFIG_AP_MODE
++static u8 set_pairwise_key(_adapter *padapter, struct sta_info *psta)
++{
++	struct cmd_obj*			ph2c;
++	struct set_stakey_parm	*psetstakey_para;
++	struct cmd_priv 			*pcmdpriv=&padapter->cmdpriv;	
++	u8	res=_SUCCESS;
++
++	ph2c = (struct cmd_obj*)rtw_zmalloc(sizeof(struct cmd_obj));
++	if ( ph2c == NULL){
++		res= _FAIL;
++		goto exit;
++	}
++
++	psetstakey_para = (struct set_stakey_parm*)rtw_zmalloc(sizeof(struct set_stakey_parm));
++	if(psetstakey_para==NULL){
++		rtw_mfree((u8 *) ph2c, sizeof(struct cmd_obj));
++		res=_FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psetstakey_para, _SetStaKey_CMD_);
++
++
++	psetstakey_para->algorithm = (u8)psta->dot118021XPrivacy;
++
++	_rtw_memcpy(psetstakey_para->addr, psta->hwaddr, ETH_ALEN);	
++	
++	_rtw_memcpy(psetstakey_para->key, &psta->dot118021x_UncstKey, 16);
++
++	
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);	
++
++exit:
++
++	return res;
++	
++}
++
++static int set_group_key(_adapter *padapter, u8 *key, u8 alg, int keyid)
++{
++	u8 keylen;
++	struct cmd_obj* pcmd;
++	struct setkey_parm *psetkeyparm;
++	struct cmd_priv	*pcmdpriv=&(padapter->cmdpriv);	
++	int res=_SUCCESS;
++
++	DBG_871X("%s\n", __FUNCTION__);
++	
++	pcmd = (struct cmd_obj*)rtw_zmalloc(sizeof(struct	cmd_obj));
++	if(pcmd==NULL){
++		res= _FAIL;
++		goto exit;
++	}
++	psetkeyparm=(struct setkey_parm*)rtw_zmalloc(sizeof(struct setkey_parm));
++	if(psetkeyparm==NULL){
++		rtw_mfree((unsigned char *)pcmd, sizeof(struct cmd_obj));
++		res= _FAIL;
++		goto exit;
++	}
++
++	_rtw_memset(psetkeyparm, 0, sizeof(struct setkey_parm));
++		
++	psetkeyparm->keyid=(u8)keyid;
++	if (is_wep_enc(alg))
++		padapter->securitypriv.key_mask |= BIT(psetkeyparm->keyid);
++
++	psetkeyparm->algorithm = alg;
++
++	psetkeyparm->set_tx = 1;
++
++	switch(alg)
++	{
++		case _WEP40_:					
++			keylen = 5;
++			break;
++		case _WEP104_:
++			keylen = 13;			
++			break;
++		case _TKIP_:
++		case _TKIP_WTMIC_:		
++		case _AES_:
++			keylen = 16;		
++		default:
++			keylen = 16;		
++	}
++
++	_rtw_memcpy(&(psetkeyparm->key[0]), key, keylen);
++	
++	pcmd->cmdcode = _SetKey_CMD_;
++	pcmd->parmbuf = (u8 *)psetkeyparm;   
++	pcmd->cmdsz =  (sizeof(struct setkey_parm));  
++	pcmd->rsp = NULL;
++	pcmd->rspsz = 0;
++
++
++	_rtw_init_listhead(&pcmd->list);
++
++	res = rtw_enqueue_cmd(pcmdpriv, pcmd);
++
++exit:
++
++	return res;
++	
++
++}
++
++static int set_wep_key(_adapter *padapter, u8 *key, u8 keylen, int keyid)
++{	
++	u8 alg;
++
++	switch(keylen)
++	{
++		case 5:
++			alg =_WEP40_;			
++			break;
++		case 13:
++			alg =_WEP104_;			
++			break;
++		default:
++			alg =_NO_PRIVACY_;			
++	}
++
++	return set_group_key(padapter, key, alg, keyid);
++
++}
++
++
++static int rtw_set_encryption(struct net_device *dev, struct ieee_param *param, u32 param_len)
++{
++	int ret = 0;
++	u32 wep_key_idx, wep_key_len,wep_total_len;
++	NDIS_802_11_WEP	 *pwep = NULL;
++	struct sta_info *psta = NULL, *pbcmc_sta = NULL;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv 	*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv* psecuritypriv=&(padapter->securitypriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	param->u.crypt.err = 0;
++	param->u.crypt.alg[IEEE_CRYPT_ALG_NAME_LEN - 1] = '\0';
++
++	//sizeof(struct ieee_param) = 64 bytes;
++	//if (param_len !=  (u32) ((u8 *) param->u.crypt.key - (u8 *) param) + param->u.crypt.key_len)
++	if (param_len !=  sizeof(struct ieee_param) + param->u.crypt.key_len)
++	{
++		ret =  -EINVAL;
++		goto exit;
++	}
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff) 
++	{
++		if (param->u.crypt.idx >= WEP_KEYS)
++		{
++			ret = -EINVAL;
++			goto exit;
++		}	
++	}
++	else 
++	{		
++		psta = rtw_get_stainfo(pstapriv, param->sta_addr);
++		if(!psta)
++		{
++			//ret = -EINVAL;
++			DBG_871X("rtw_set_encryption(), sta has already been removed or never been added\n");
++			goto exit;
++		}			
++	}
++
++	if (strcmp(param->u.crypt.alg, "none") == 0 && (psta==NULL))
++	{
++		//todo:clear default encryption keys
++
++		DBG_871X("clear default encryption keys, keyid=%d\n", param->u.crypt.idx);
++		
++		goto exit;
++	}
++
++
++	if (strcmp(param->u.crypt.alg, "WEP") == 0 && (psta==NULL))
++	{		
++		DBG_871X("r871x_set_encryption, crypt.alg = WEP\n");
++		
++		wep_key_idx = param->u.crypt.idx;
++		wep_key_len = param->u.crypt.key_len;
++					
++		DBG_871X("r871x_set_encryption, wep_key_idx=%d, len=%d\n", wep_key_idx, wep_key_len);
++
++		if((wep_key_idx >= WEP_KEYS) || (wep_key_len<=0))
++		{
++			ret = -EINVAL;
++			goto exit;
++		}
++			
++
++		if (wep_key_len > 0) 
++		{			
++		 	wep_key_len = wep_key_len <= 5 ? 5 : 13;
++			wep_total_len = wep_key_len + FIELD_OFFSET(NDIS_802_11_WEP, KeyMaterial);
++		 	pwep =(NDIS_802_11_WEP *)rtw_malloc(wep_total_len);
++			if(pwep == NULL){
++				DBG_871X(" r871x_set_encryption: pwep allocate fail !!!\n");
++				goto exit;
++			}
++			
++		 	_rtw_memset(pwep, 0, wep_total_len);
++		
++		 	pwep->KeyLength = wep_key_len;
++			pwep->Length = wep_total_len;
++			
++		}
++		
++		pwep->KeyIndex = wep_key_idx;
++
++		_rtw_memcpy(pwep->KeyMaterial,  param->u.crypt.key, pwep->KeyLength);
++
++		if(param->u.crypt.set_tx)
++		{
++			DBG_871X("wep, set_tx=1\n");
++
++			psecuritypriv->ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			psecuritypriv->dot11PrivacyAlgrthm=_WEP40_;
++			psecuritypriv->dot118021XGrpPrivacy=_WEP40_;
++			
++			if(pwep->KeyLength==13)
++			{
++				psecuritypriv->dot11PrivacyAlgrthm=_WEP104_;
++				psecuritypriv->dot118021XGrpPrivacy=_WEP104_;
++			}
++
++		
++			psecuritypriv->dot11PrivacyKeyIndex = wep_key_idx;
++			
++			_rtw_memcpy(&(psecuritypriv->dot11DefKey[wep_key_idx].skey[0]), pwep->KeyMaterial, pwep->KeyLength);
++
++			psecuritypriv->dot11DefKeylen[wep_key_idx]=pwep->KeyLength;
++
++			set_wep_key(padapter, pwep->KeyMaterial, pwep->KeyLength, wep_key_idx);		
++
++			
++		}
++		else
++		{
++			DBG_871X("wep, set_tx=0\n");
++			
++			//don't update "psecuritypriv->dot11PrivacyAlgrthm" and 
++			//"psecuritypriv->dot11PrivacyKeyIndex=keyid", but can rtw_set_key to cam
++					
++		      _rtw_memcpy(&(psecuritypriv->dot11DefKey[wep_key_idx].skey[0]), pwep->KeyMaterial, pwep->KeyLength);
++
++			psecuritypriv->dot11DefKeylen[wep_key_idx] = pwep->KeyLength;			
++
++			set_wep_key(padapter, pwep->KeyMaterial, pwep->KeyLength, wep_key_idx);
++			
++		}
++
++		goto exit;
++		
++	}
++
++	
++	if(!psta && check_fwstate(pmlmepriv, WIFI_AP_STATE)) // //group key
++	{
++		if(param->u.crypt.set_tx ==1)
++		{
++			if(strcmp(param->u.crypt.alg, "WEP") == 0)
++			{
++				DBG_871X("%s, set group_key, WEP\n", __FUNCTION__);
++				
++				_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++					
++				psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++				if(param->u.crypt.key_len==13)
++				{						
++						psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++				}
++				
++			}
++			else if(strcmp(param->u.crypt.alg, "TKIP") == 0)
++			{						
++				DBG_871X("%s, set group_key, TKIP\n", __FUNCTION__);
++				
++				psecuritypriv->dot118021XGrpPrivacy = _TKIP_;
++
++				_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++				
++				//DEBUG_ERR("set key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len);
++				//set mic key
++				_rtw_memcpy(psecuritypriv->dot118021XGrptxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[16]), 8);
++				_rtw_memcpy(psecuritypriv->dot118021XGrprxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[24]), 8);
++
++				psecuritypriv->busetkipkey = _TRUE;
++											
++			}
++			else if(strcmp(param->u.crypt.alg, "CCMP") == 0)
++			{
++				DBG_871X("%s, set group_key, CCMP\n", __FUNCTION__);
++			
++				psecuritypriv->dot118021XGrpPrivacy = _AES_;
++
++				_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++			}
++			else
++			{
++				DBG_871X("%s, set group_key, none\n", __FUNCTION__);
++				
++				psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++			}
++
++			psecuritypriv->dot118021XGrpKeyid = param->u.crypt.idx;
++
++			psecuritypriv->binstallGrpkey = _TRUE;
++
++			psecuritypriv->dot11PrivacyAlgrthm = psecuritypriv->dot118021XGrpPrivacy;//!!!
++								
++			set_group_key(padapter, param->u.crypt.key, psecuritypriv->dot118021XGrpPrivacy, param->u.crypt.idx);
++			
++			pbcmc_sta=rtw_get_bcmc_stainfo(padapter);
++			if(pbcmc_sta)
++			{
++				pbcmc_sta->ieee8021x_blocked = _FALSE;
++				pbcmc_sta->dot118021XPrivacy= psecuritypriv->dot118021XGrpPrivacy;//rx will use bmc_sta's dot118021XPrivacy			
++			}	
++						
++		}
++
++		goto exit;
++		
++	}	
++
++	if(psecuritypriv->dot11AuthAlgrthm == dot11AuthAlgrthm_8021X && psta) // psk/802_1x
++	{
++		if(check_fwstate(pmlmepriv, WIFI_AP_STATE))
++		{
++			if(param->u.crypt.set_tx ==1)
++			{ 
++				_rtw_memcpy(psta->dot118021x_UncstKey.skey,  param->u.crypt.key, (param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++				
++				if(strcmp(param->u.crypt.alg, "WEP") == 0)
++				{
++					DBG_871X("%s, set pairwise key, WEP\n", __FUNCTION__);
++					
++					psta->dot118021XPrivacy = _WEP40_;
++					if(param->u.crypt.key_len==13)
++					{						
++						psta->dot118021XPrivacy = _WEP104_;
++					}
++				}
++				else if(strcmp(param->u.crypt.alg, "TKIP") == 0)
++				{						
++					DBG_871X("%s, set pairwise key, TKIP\n", __FUNCTION__);
++					
++					psta->dot118021XPrivacy = _TKIP_;
++				
++					//DEBUG_ERR("set key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len);
++					//set mic key
++					_rtw_memcpy(psta->dot11tkiptxmickey.skey, &(param->u.crypt.key[16]), 8);
++					_rtw_memcpy(psta->dot11tkiprxmickey.skey, &(param->u.crypt.key[24]), 8);
++
++					psecuritypriv->busetkipkey = _TRUE;
++											
++				}
++				else if(strcmp(param->u.crypt.alg, "CCMP") == 0)
++				{
++
++					DBG_871X("%s, set pairwise key, CCMP\n", __FUNCTION__);
++					
++					psta->dot118021XPrivacy = _AES_;
++				}
++				else
++				{
++					DBG_871X("%s, set pairwise key, none\n", __FUNCTION__);
++					
++					psta->dot118021XPrivacy = _NO_PRIVACY_;
++				}
++						
++				set_pairwise_key(padapter, psta);
++					
++				psta->ieee8021x_blocked = _FALSE;
++					
++			}			
++			else//group key???
++			{ 
++				if(strcmp(param->u.crypt.alg, "WEP") == 0)
++				{
++					_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++					
++					psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++					if(param->u.crypt.key_len==13)
++					{						
++						psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++					}
++				}
++				else if(strcmp(param->u.crypt.alg, "TKIP") == 0)
++				{						
++					psecuritypriv->dot118021XGrpPrivacy = _TKIP_;
++
++					_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++				
++					//DEBUG_ERR("set key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len);
++					//set mic key
++					_rtw_memcpy(psecuritypriv->dot118021XGrptxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[16]), 8);
++					_rtw_memcpy(psecuritypriv->dot118021XGrprxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[24]), 8);
++
++					psecuritypriv->busetkipkey = _TRUE;
++											
++				}
++				else if(strcmp(param->u.crypt.alg, "CCMP") == 0)
++				{
++					psecuritypriv->dot118021XGrpPrivacy = _AES_;
++
++					_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len>16 ?16:param->u.crypt.key_len));
++				}
++				else
++				{
++					psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++				}
++
++				psecuritypriv->dot118021XGrpKeyid = param->u.crypt.idx;
++
++				psecuritypriv->binstallGrpkey = _TRUE;	
++								
++				psecuritypriv->dot11PrivacyAlgrthm = psecuritypriv->dot118021XGrpPrivacy;//!!!
++								
++				set_group_key(padapter, param->u.crypt.key, psecuritypriv->dot118021XGrpPrivacy, param->u.crypt.idx);
++			
++				pbcmc_sta=rtw_get_bcmc_stainfo(padapter);
++				if(pbcmc_sta)
++				{
++					pbcmc_sta->ieee8021x_blocked = _FALSE;
++					pbcmc_sta->dot118021XPrivacy= psecuritypriv->dot118021XGrpPrivacy;//rx will use bmc_sta's dot118021XPrivacy			
++				}					
++
++			}
++			
++		}
++				
++	}
++
++exit:
++
++	if(pwep)
++	{
++		rtw_mfree((u8 *)pwep,wep_total_len);		
++	}	
++	
++	return ret;
++	
++}
++
++static int rtw_set_beacon(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret=0;	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	unsigned char *pbuf = param->u.bcn_ie.buf;
++
++
++	DBG_871X("%s, len=%d\n", __FUNCTION__, len);
++
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	_rtw_memcpy(&pstapriv->max_num_sta, param->u.bcn_ie.reserved, 2);
++
++	if((pstapriv->max_num_sta>NUM_STA) || (pstapriv->max_num_sta<=0))
++		pstapriv->max_num_sta = NUM_STA;
++
++
++	if(rtw_check_beacon_data(padapter, pbuf,  (len-12-2)) == _SUCCESS)// 12 = param header, 2:no packed
++		ret = 0;
++	else
++		ret = -EINVAL;
++	
++
++	return ret;
++	
++}
++
++static int rtw_hostapd_sta_flush(struct net_device *dev)
++{
++	//_irqL irqL;
++	//_list	*phead, *plist;
++	int ret=0;	
++	//struct sta_info *psta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	//struct sta_priv *pstapriv = &padapter->stapriv;
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	flush_all_cam_entry(padapter);	//clear CAM
++
++	ret = rtw_sta_flush(padapter);	
++
++	return ret;
++
++}
++
++static int rtw_add_sta(struct net_device *dev, struct ieee_param *param)
++{
++	_irqL irqL;
++	int ret=0;	
++	struct sta_info *psta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	DBG_871X("rtw_add_sta(aid=%d)=" MAC_FMT "\n", param->u.add_sta.aid, MAC_ARG(param->sta_addr));
++	
++	if(check_fwstate(pmlmepriv, (_FW_LINKED|WIFI_AP_STATE)) != _TRUE)	
++	{
++		return -EINVAL;		
++	}
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff) 
++	{
++		return -EINVAL;	
++	}
++
++/*
++	psta = rtw_get_stainfo(pstapriv, param->sta_addr);
++	if(psta)
++	{
++		DBG_871X("rtw_add_sta(), free has been added psta=%p\n", psta);
++		_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		
++		rtw_free_stainfo(padapter,  psta);		
++		_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);
++
++		psta = NULL;
++	}	
++*/
++	//psta = rtw_alloc_stainfo(pstapriv, param->sta_addr);
++	psta = rtw_get_stainfo(pstapriv, param->sta_addr);
++	if(psta)
++	{
++		int flags = param->u.add_sta.flags;			
++		
++		//DBG_871X("rtw_add_sta(), init sta's variables, psta=%p\n", psta);
++		
++		psta->aid = param->u.add_sta.aid;//aid=1~2007
++
++		_rtw_memcpy(psta->bssrateset, param->u.add_sta.tx_supp_rates, 16);
++		
++		
++		//check wmm cap.
++		if(WLAN_STA_WME&flags)
++			psta->qos_option = 1;
++		else
++			psta->qos_option = 0;
++
++		if(pmlmepriv->qospriv.qos_option == 0)	
++			psta->qos_option = 0;
++
++		
++#ifdef CONFIG_80211N_HT		
++		//chec 802.11n ht cap.
++		if(WLAN_STA_HT&flags)
++		{
++			psta->htpriv.ht_option = _TRUE;
++			psta->qos_option = 1;
++			_rtw_memcpy((void*)&psta->htpriv.ht_cap, (void*)&param->u.add_sta.ht_cap, sizeof(struct rtw_ieee80211_ht_cap));
++		}
++		else		
++		{
++			psta->htpriv.ht_option = _FALSE;
++		}
++		
++		if(pmlmepriv->htpriv.ht_option == _FALSE)	
++			psta->htpriv.ht_option = _FALSE;
++#endif		
++
++
++		update_sta_info_apmode(padapter, psta);
++		
++		
++	}
++	else
++	{
++		ret = -ENOMEM;
++	}	
++	
++	return ret;
++	
++}
++
++static int rtw_del_sta(struct net_device *dev, struct ieee_param *param)
++{
++	_irqL irqL;
++	int ret=0;	
++	struct sta_info *psta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	DBG_871X("rtw_del_sta=" MAC_FMT "\n", MAC_ARG(param->sta_addr));
++		
++	if(check_fwstate(pmlmepriv, (_FW_LINKED|WIFI_AP_STATE)) != _TRUE)		
++	{
++		return -EINVAL;		
++	}
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff) 
++	{
++		return -EINVAL;	
++	}
++
++	psta = rtw_get_stainfo(pstapriv, param->sta_addr);
++	if(psta)
++	{
++		u8 updated=_FALSE;
++	
++		//DBG_871X("free psta=%p, aid=%d\n", psta, psta->aid);
++
++		_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++		if(rtw_is_list_empty(&psta->asoc_list)==_FALSE)
++		{			
++			rtw_list_delete(&psta->asoc_list);
++			pstapriv->asoc_list_cnt--;
++			updated = ap_free_sta(padapter, psta, _TRUE, WLAN_REASON_DEAUTH_LEAVING);
++
++		}
++		_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++		
++		associated_clients_update(padapter, updated);
++	
++		psta = NULL;
++		
++	}
++	else
++	{
++		DBG_871X("rtw_del_sta(), sta has already been removed or never been added\n");
++		
++		//ret = -1;
++	}
++	
++	
++	return ret;
++	
++}
++
++static int rtw_ioctl_get_sta_data(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret=0;	
++	struct sta_info *psta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct ieee_param_ex *param_ex = (struct ieee_param_ex *)param;
++	struct sta_data *psta_data = (struct sta_data *)param_ex->data;
++
++	DBG_871X("rtw_ioctl_get_sta_info, sta_addr: " MAC_FMT "\n", MAC_ARG(param_ex->sta_addr));
++
++	if(check_fwstate(pmlmepriv, (_FW_LINKED|WIFI_AP_STATE)) != _TRUE)		
++	{
++		return -EINVAL;		
++	}
++
++	if (param_ex->sta_addr[0] == 0xff && param_ex->sta_addr[1] == 0xff &&
++	    param_ex->sta_addr[2] == 0xff && param_ex->sta_addr[3] == 0xff &&
++	    param_ex->sta_addr[4] == 0xff && param_ex->sta_addr[5] == 0xff) 
++	{
++		return -EINVAL;	
++	}
++
++	psta = rtw_get_stainfo(pstapriv, param_ex->sta_addr);
++	if(psta)
++	{
++#if 0
++		struct {
++			u16 aid;
++			u16 capability;
++			int flags;
++			u32 sta_set;
++			u8 tx_supp_rates[16];	
++			u32 tx_supp_rates_len;
++			struct rtw_ieee80211_ht_cap ht_cap;
++			u64	rx_pkts;
++			u64	rx_bytes;
++			u64	rx_drops;
++			u64	tx_pkts;
++			u64	tx_bytes;
++			u64	tx_drops;
++		} get_sta;		
++#endif
++		psta_data->aid = (u16)psta->aid;
++		psta_data->capability = psta->capability;
++		psta_data->flags = psta->flags;
++
++/*
++		nonerp_set : BIT(0)
++		no_short_slot_time_set : BIT(1)
++		no_short_preamble_set : BIT(2)
++		no_ht_gf_set : BIT(3)
++		no_ht_set : BIT(4)
++		ht_20mhz_set : BIT(5)
++*/
++
++		psta_data->sta_set =((psta->nonerp_set) |
++							(psta->no_short_slot_time_set <<1) |
++							(psta->no_short_preamble_set <<2) |
++							(psta->no_ht_gf_set <<3) |
++							(psta->no_ht_set <<4) |
++							(psta->ht_20mhz_set <<5));
++
++		psta_data->tx_supp_rates_len =  psta->bssratelen;
++		_rtw_memcpy(psta_data->tx_supp_rates, psta->bssrateset, psta->bssratelen);
++
++		_rtw_memcpy(&psta_data->ht_cap, &psta->htpriv.ht_cap, sizeof(struct rtw_ieee80211_ht_cap));
++
++		psta_data->rx_pkts = psta->sta_stats.rx_data_pkts;
++		psta_data->rx_bytes = psta->sta_stats.rx_bytes;
++		psta_data->rx_drops = psta->sta_stats.rx_drops;
++
++		psta_data->tx_pkts = psta->sta_stats.tx_pkts;
++		psta_data->tx_bytes = psta->sta_stats.tx_bytes;
++		psta_data->tx_drops = psta->sta_stats.tx_drops;
++		
++
++	}
++	else
++	{
++		ret = -1;
++	}
++
++	return ret;
++
++}
++
++static int rtw_get_sta_wpaie(struct net_device *dev, struct ieee_param *param)
++{
++	int ret=0;	
++	struct sta_info *psta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	DBG_871X("rtw_get_sta_wpaie, sta_addr: " MAC_FMT "\n", MAC_ARG(param->sta_addr));
++
++	if(check_fwstate(pmlmepriv, (_FW_LINKED|WIFI_AP_STATE)) != _TRUE)		
++	{
++		return -EINVAL;		
++	}
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff) 
++	{
++		return -EINVAL;	
++	}
++
++	psta = rtw_get_stainfo(pstapriv, param->sta_addr);
++	if(psta)
++	{
++		if((psta->wpa_ie[0] == WLAN_EID_RSN) || (psta->wpa_ie[0] == WLAN_EID_GENERIC))
++		{
++			int wpa_ie_len;
++			int copy_len;
++
++			wpa_ie_len = psta->wpa_ie[1];
++			
++			copy_len = ((wpa_ie_len+2) > sizeof(psta->wpa_ie)) ? (sizeof(psta->wpa_ie)):(wpa_ie_len+2);
++				
++			param->u.wpa_ie.len = copy_len;
++
++			_rtw_memcpy(param->u.wpa_ie.reserved, psta->wpa_ie, copy_len);
++		}
++		else
++		{
++			//ret = -1;
++			DBG_871X("sta's wpa_ie is NONE\n");
++		}		
++	}
++	else
++	{
++		ret = -1;
++	}
++
++	return ret;
++
++}
++
++static int rtw_set_wps_beacon(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret=0;
++	unsigned char wps_oui[4]={0x0,0x50,0xf2,0x04};
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	int ie_len;
++
++	DBG_871X("%s, len=%d\n", __FUNCTION__, len);
++
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	ie_len = len-12-2;// 12 = param header, 2:no packed
++
++
++	if(pmlmepriv->wps_beacon_ie)
++	{
++		rtw_mfree(pmlmepriv->wps_beacon_ie, pmlmepriv->wps_beacon_ie_len);
++		pmlmepriv->wps_beacon_ie = NULL;			
++	}	
++
++	if(ie_len>0)
++	{
++		pmlmepriv->wps_beacon_ie = rtw_malloc(ie_len);
++		pmlmepriv->wps_beacon_ie_len = ie_len;
++		if ( pmlmepriv->wps_beacon_ie == NULL) {
++			DBG_871X("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++			return -EINVAL;
++		}
++
++		_rtw_memcpy(pmlmepriv->wps_beacon_ie, param->u.bcn_ie.buf, ie_len);
++
++		update_beacon(padapter, _VENDOR_SPECIFIC_IE_, wps_oui, _TRUE);
++		
++		pmlmeext->bstart_bss = _TRUE;
++		
++	}
++	
++	
++	return ret;		
++
++}
++
++static int rtw_set_wps_probe_resp(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret=0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	int ie_len;
++
++	DBG_871X("%s, len=%d\n", __FUNCTION__, len);
++
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	ie_len = len-12-2;// 12 = param header, 2:no packed
++
++
++	if(pmlmepriv->wps_probe_resp_ie)
++	{
++		rtw_mfree(pmlmepriv->wps_probe_resp_ie, pmlmepriv->wps_probe_resp_ie_len);
++		pmlmepriv->wps_probe_resp_ie = NULL;			
++	}	
++
++	if(ie_len>0)
++	{
++		pmlmepriv->wps_probe_resp_ie = rtw_malloc(ie_len);
++		pmlmepriv->wps_probe_resp_ie_len = ie_len;
++		if ( pmlmepriv->wps_probe_resp_ie == NULL) {
++			DBG_871X("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++			return -EINVAL;
++		}
++		_rtw_memcpy(pmlmepriv->wps_probe_resp_ie, param->u.bcn_ie.buf, ie_len);		
++	}
++	
++	
++	return ret;
++
++}
++
++static int rtw_set_wps_assoc_resp(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret=0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	int ie_len;
++
++	DBG_871X("%s, len=%d\n", __FUNCTION__, len);
++
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	ie_len = len-12-2;// 12 = param header, 2:no packed
++
++
++	if(pmlmepriv->wps_assoc_resp_ie)
++	{
++		rtw_mfree(pmlmepriv->wps_assoc_resp_ie, pmlmepriv->wps_assoc_resp_ie_len);
++		pmlmepriv->wps_assoc_resp_ie = NULL;			
++	}	
++
++	if(ie_len>0)
++	{
++		pmlmepriv->wps_assoc_resp_ie = rtw_malloc(ie_len);
++		pmlmepriv->wps_assoc_resp_ie_len = ie_len;
++		if ( pmlmepriv->wps_assoc_resp_ie == NULL) {
++			DBG_871X("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++			return -EINVAL;
++		}
++		
++		_rtw_memcpy(pmlmepriv->wps_assoc_resp_ie, param->u.bcn_ie.buf, ie_len);		
++	}
++	
++	
++	return ret;
++
++}
++
++static int rtw_set_hidden_ssid(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret=0;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *mlmepriv = &(adapter->mlmepriv);
++	struct mlme_ext_priv	*mlmeext = &(adapter->mlmeextpriv);
++	struct mlme_ext_info	*mlmeinfo = &(mlmeext->mlmext_info);
++	int ie_len;
++	u8 *ssid_ie;
++	char ssid[NDIS_802_11_LENGTH_SSID + 1];
++	sint ssid_len;
++	u8 ignore_broadcast_ssid;
++
++	if(check_fwstate(mlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EPERM;
++
++	if (param->u.bcn_ie.reserved[0] != 0xea)
++		return -EINVAL;
++
++	mlmeinfo->hidden_ssid_mode = ignore_broadcast_ssid = param->u.bcn_ie.reserved[1];
++
++	ie_len = len-12-2;// 12 = param header, 2:no packed
++	ssid_ie = rtw_get_ie(param->u.bcn_ie.buf,  WLAN_EID_SSID, &ssid_len, ie_len);
++
++	if (ssid_ie && ssid_len) {
++		WLAN_BSSID_EX *pbss_network = &mlmepriv->cur_network.network;
++		WLAN_BSSID_EX *pbss_network_ext = &mlmeinfo->network;
++
++		_rtw_memcpy(ssid, ssid_ie+2, ssid_len);
++		ssid[ssid_len>NDIS_802_11_LENGTH_SSID?NDIS_802_11_LENGTH_SSID:ssid_len] = 0x0;
++
++		if(0)
++		DBG_871X(FUNC_ADPT_FMT" ssid:(%s,%d), from ie:(%s,%d), (%s,%d)\n", FUNC_ADPT_ARG(adapter),
++			ssid, ssid_len,
++			pbss_network->Ssid.Ssid, pbss_network->Ssid.SsidLength,
++			pbss_network_ext->Ssid.Ssid, pbss_network_ext->Ssid.SsidLength);
++
++		_rtw_memcpy(pbss_network->Ssid.Ssid, (void *)ssid, ssid_len);
++		pbss_network->Ssid.SsidLength = ssid_len;
++		_rtw_memcpy(pbss_network_ext->Ssid.Ssid, (void *)ssid, ssid_len);
++		pbss_network_ext->Ssid.SsidLength = ssid_len;
++
++		if(0)
++		DBG_871X(FUNC_ADPT_FMT" after ssid:(%s,%d), (%s,%d)\n", FUNC_ADPT_ARG(adapter),
++			pbss_network->Ssid.Ssid, pbss_network->Ssid.SsidLength,
++			pbss_network_ext->Ssid.Ssid, pbss_network_ext->Ssid.SsidLength);
++	}
++
++	DBG_871X(FUNC_ADPT_FMT" ignore_broadcast_ssid:%d, %s,%d\n", FUNC_ADPT_ARG(adapter),
++		ignore_broadcast_ssid, ssid, ssid_len);
++
++	return ret;
++}
++
++static int rtw_ioctl_acl_remove_sta(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret=0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);	
++
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff) 
++	{
++		return -EINVAL;	
++	}
++
++	ret = rtw_acl_remove_sta(padapter, param->sta_addr);	
++
++	return ret;		
++
++}
++
++static int rtw_ioctl_acl_add_sta(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret=0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff) 
++	{
++		return -EINVAL;	
++	}
++
++	ret = rtw_acl_add_sta(padapter, param->sta_addr);	
++
++	return ret;		
++
++}
++
++static int rtw_ioctl_set_macaddr_acl(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret=0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;	
++	
++	rtw_set_macaddr_acl(padapter, param->u.mlme.command);	
++
++	return ret;
++}
++
++static int rtw_hostapd_ioctl(struct net_device *dev, struct iw_point *p)
++{
++	struct ieee_param *param;
++	int ret=0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	//DBG_871X("%s\n", __FUNCTION__);
++
++	/*
++	* this function is expect to call in master mode, which allows no power saving
++	* so, we just check hw_init_completed instead of call rfpwrstate_check()
++	*/
++
++	if (padapter->hw_init_completed==_FALSE){
++		ret = -EPERM;
++		goto out;
++	}
++
++
++	//if (p->length < sizeof(struct ieee_param) || !p->pointer){
++	if(!p->pointer){
++		ret = -EINVAL;
++		goto out;
++	}
++	
++	param = (struct ieee_param *)rtw_malloc(p->length);
++	if (param == NULL)
++	{
++		ret = -ENOMEM;
++		goto out;
++	}
++	
++	if (copy_from_user(param, p->pointer, p->length))
++	{
++		rtw_mfree((u8*)param, p->length);
++		ret = -EFAULT;
++		goto out;
++	}
++
++	//DBG_871X("%s, cmd=%d\n", __FUNCTION__, param->cmd);
++
++	switch (param->cmd) 
++	{	
++		case RTL871X_HOSTAPD_FLUSH:
++
++			ret = rtw_hostapd_sta_flush(dev);
++
++			break;
++	
++		case RTL871X_HOSTAPD_ADD_STA:	
++			
++			ret = rtw_add_sta(dev, param);					
++			
++			break;
++
++		case RTL871X_HOSTAPD_REMOVE_STA:
++
++			ret = rtw_del_sta(dev, param);
++
++			break;
++	
++		case RTL871X_HOSTAPD_SET_BEACON:
++
++			ret = rtw_set_beacon(dev, param, p->length);
++
++			break;
++			
++		case RTL871X_SET_ENCRYPTION:
++
++			ret = rtw_set_encryption(dev, param, p->length);
++			
++			break;
++			
++		case RTL871X_HOSTAPD_GET_WPAIE_STA:
++
++			ret = rtw_get_sta_wpaie(dev, param);
++	
++			break;
++			
++		case RTL871X_HOSTAPD_SET_WPS_BEACON:
++
++			ret = rtw_set_wps_beacon(dev, param, p->length);
++
++			break;
++
++		case RTL871X_HOSTAPD_SET_WPS_PROBE_RESP:
++
++			ret = rtw_set_wps_probe_resp(dev, param, p->length);
++			
++	 		break;
++			
++		case RTL871X_HOSTAPD_SET_WPS_ASSOC_RESP:
++
++			ret = rtw_set_wps_assoc_resp(dev, param, p->length);
++			
++	 		break;
++
++		case RTL871X_HOSTAPD_SET_HIDDEN_SSID:
++
++			ret = rtw_set_hidden_ssid(dev, param, p->length);
++
++			break;
++
++		case RTL871X_HOSTAPD_GET_INFO_STA:
++
++			ret = rtw_ioctl_get_sta_data(dev, param, p->length);
++
++			break;
++			
++		case RTL871X_HOSTAPD_SET_MACADDR_ACL:
++
++			ret = rtw_ioctl_set_macaddr_acl(dev, param, p->length);
++
++			break;
++
++		case RTL871X_HOSTAPD_ACL_ADD_STA:
++
++			ret = rtw_ioctl_acl_add_sta(dev, param, p->length);
++
++			break;
++
++		case RTL871X_HOSTAPD_ACL_REMOVE_STA:
++
++			ret = rtw_ioctl_acl_remove_sta(dev, param, p->length);
++
++			break;
++			
++		default:
++			DBG_871X("Unknown hostapd request: %d\n", param->cmd);
++			ret = -EOPNOTSUPP;
++			break;
++		
++	}
++
++	if (ret == 0 && copy_to_user(p->pointer, param, p->length))
++		ret = -EFAULT;
++
++
++	rtw_mfree((u8 *)param, p->length);
++	
++out:
++		
++	return ret;
++	
++}
++#endif
++
++#include <rtw_android.h>
++static int rtw_wx_set_priv(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *awrq,
++				char *extra)
++{
++
++#ifdef CONFIG_DEBUG_RTW_WX_SET_PRIV
++	char *ext_dbg;
++#endif
++
++	int ret = 0;
++	int len = 0;
++	char *ext;
++	int i;
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *dwrq = (struct iw_point*)awrq;
++
++	//RT_TRACE(_module_rtl871x_ioctl_os_c, _drv_notice_, ("+rtw_wx_set_priv\n"));
++	if(dwrq->length == 0)
++		return -EFAULT;
++	len = dwrq->length;
++	if (!(ext = rtw_vmalloc(len)))
++		return -ENOMEM;
++
++	if (copy_from_user(ext, dwrq->pointer, len)) {
++		rtw_vmfree(ext, len);
++		return -EFAULT;
++	}
++
++
++	//RT_TRACE(_module_rtl871x_ioctl_os_c, _drv_notice_,
++	//	 ("rtw_wx_set_priv: %s req=%s\n",
++	//	  dev->name, ext));
++
++	#ifdef CONFIG_DEBUG_RTW_WX_SET_PRIV	
++	if (!(ext_dbg = rtw_vmalloc(len)))
++	{
++		rtw_vmfree(ext, len);
++		return -ENOMEM;
++	}	
++	
++	_rtw_memcpy(ext_dbg, ext, len);
++	#endif
++
++	//added for wps2.0 @20110524
++	if(dwrq->flags == 0x8766 && len > 8)
++	{
++		u32 cp_sz;		
++		struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++		u8 *probereq_wpsie = ext;
++		int probereq_wpsie_len = len;
++		u8 wps_oui[4]={0x0,0x50,0xf2,0x04};		
++	
++		if((_VENDOR_SPECIFIC_IE_ == probereq_wpsie[0]) &&
++			(_rtw_memcmp(&probereq_wpsie[2], wps_oui, 4) ==_TRUE))
++		{
++			cp_sz = probereq_wpsie_len>MAX_WPS_IE_LEN ? MAX_WPS_IE_LEN:probereq_wpsie_len;
++
++			//_rtw_memcpy(pmlmepriv->probereq_wpsie, probereq_wpsie, cp_sz);
++			//pmlmepriv->probereq_wpsie_len = cp_sz;
++					
++			printk("probe_req_wps_ielen=%d\n", cp_sz);
++						
++			if(pmlmepriv->wps_probe_req_ie)
++			{
++				u32 free_len = pmlmepriv->wps_probe_req_ie_len;
++				pmlmepriv->wps_probe_req_ie_len = 0;
++				rtw_mfree(pmlmepriv->wps_probe_req_ie, free_len);
++				pmlmepriv->wps_probe_req_ie = NULL;			
++			}	
++
++			pmlmepriv->wps_probe_req_ie = rtw_malloc(cp_sz);
++			if ( pmlmepriv->wps_probe_req_ie == NULL) {
++				printk("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				ret =  -EINVAL;
++				goto FREE_EXT;
++			
++			}
++			
++			_rtw_memcpy(pmlmepriv->wps_probe_req_ie, probereq_wpsie, cp_sz);
++			pmlmepriv->wps_probe_req_ie_len = cp_sz;					
++			
++		}	
++		
++		goto FREE_EXT;
++		
++	}
++
++	if(	len >= WEXT_CSCAN_HEADER_SIZE
++		&& _rtw_memcmp(ext, WEXT_CSCAN_HEADER, WEXT_CSCAN_HEADER_SIZE) == _TRUE
++	){
++		ret = rtw_wx_set_scan(dev, info, awrq, ext);
++		goto FREE_EXT;
++	}
++	
++#ifdef CONFIG_ANDROID
++	//DBG_871X("rtw_wx_set_priv: %s req=%s\n", dev->name, ext);
++
++	i = rtw_android_cmdstr_to_num(ext);
++
++	switch(i) {
++		case ANDROID_WIFI_CMD_START :
++			indicate_wx_custom_event(padapter, "START");
++			break;
++		case ANDROID_WIFI_CMD_STOP :
++			indicate_wx_custom_event(padapter, "STOP");
++			break;
++		case ANDROID_WIFI_CMD_RSSI :
++			{
++				struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);	
++				struct	wlan_network	*pcur_network = &pmlmepriv->cur_network;
++
++				if(check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++					sprintf(ext, "%s rssi %d", pcur_network->network.Ssid.Ssid, padapter->recvpriv.rssi);
++				} else {
++					sprintf(ext, "OK");
++				}
++			}
++			break;
++		case ANDROID_WIFI_CMD_LINKSPEED :
++			{
++				u16 mbps = rtw_get_cur_max_rate(padapter)/10;
++				sprintf(ext, "LINKSPEED %d", mbps);
++			}
++			break;
++		case ANDROID_WIFI_CMD_MACADDR :
++			sprintf(ext, "MACADDR = " MAC_FMT, MAC_ARG(dev->dev_addr));
++			break;
++		case ANDROID_WIFI_CMD_SCAN_ACTIVE :
++			{
++				//rtw_set_scan_mode(padapter, SCAN_ACTIVE);
++				sprintf(ext, "OK");
++			}
++			break;
++		case ANDROID_WIFI_CMD_SCAN_PASSIVE :
++			{
++				//rtw_set_scan_mode(padapter, SCAN_PASSIVE);
++				sprintf(ext, "OK");
++			}
++			break;
++
++		case ANDROID_WIFI_CMD_COUNTRY :
++			{
++				char country_code[10];
++				sscanf(ext, "%*s %s", country_code);
++				rtw_set_country(padapter, country_code);
++				sprintf(ext, "OK");
++			}
++			break;
++		default :
++			#ifdef  CONFIG_DEBUG_RTW_WX_SET_PRIV
++			DBG_871X("%s: %s unknowned req=%s\n", __FUNCTION__,
++				dev->name, ext_dbg);
++			#endif
++
++			sprintf(ext, "OK");
++		
++	}
++
++	if (copy_to_user(dwrq->pointer, ext, min(dwrq->length, (u16)(strlen(ext)+1)) ) )
++		ret = -EFAULT;
++
++	#ifdef CONFIG_DEBUG_RTW_WX_SET_PRIV
++	DBG_871X("%s: %s req=%s rep=%s dwrq->length=%d, strlen(ext)+1=%d\n", __FUNCTION__,
++		dev->name, ext_dbg ,ext, dwrq->length, (u16)(strlen(ext)+1));
++	#endif
++#endif //end of CONFIG_ANDROID
++
++
++FREE_EXT:
++
++	rtw_vmfree(ext, len);
++	#ifdef CONFIG_DEBUG_RTW_WX_SET_PRIV
++	rtw_vmfree(ext_dbg, len);
++	#endif
++
++	//DBG_871X("rtw_wx_set_priv: (SIOCSIWPRIV) %s ret=%d\n", 
++	//		dev->name, ret);
++
++	return ret;
++	
++}
++
++static int rtw_mp_efuse_get(struct net_device *dev,
++			struct iw_request_info *info,
++			union iwreq_data *wdata, char *extra)
++{
++	struct iw_point *wrqu = (struct iw_point *)wdata;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	struct mp_priv *pmp_priv;	
++	
++	int i,j =0;
++	u8 data[EFUSE_MAP_SIZE];
++	u8 rawdata[EFUSE_MAX_SIZE];
++	u16 mapLen=0;
++	char *pch, *ptmp, *token, *tmp[3]={0x00,0x00,0x00};
++	u16 addr = 0, cnts = 0, max_available_size = 0,raw_cursize = 0 ,raw_maxsize = 0;
++	
++	_rtw_memset(data, '\0', sizeof(data));
++	_rtw_memset(rawdata, '\0', sizeof(rawdata));
++	
++	if (copy_from_user(extra, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	pch = extra;
++	DBG_871X("%s: in=%s\n", __func__, extra);
++	
++	i=0;
++	//mac 16 "00e04c871200" rmap,00,2
++	while ( (token = strsep (&pch,",") )!=NULL )
++	{
++			if(i>2) break;
++			tmp[i] = token; 	  
++			i++;
++	}
++	
++	if ( strcmp(tmp[0],"realmap") == 0 ) {
++		
++		DBG_871X("strcmp OK =	%s \n" ,tmp[0]);
++
++		mapLen = EFUSE_MAP_SIZE;
++		 
++		if (rtw_efuse_map_read(padapter, 0, mapLen, data) == _SUCCESS){
++			DBG_871X("\t  rtw_efuse_map_read \n"); 
++		}else {
++			DBG_871X("\t  rtw_efuse_map_read : Fail \n");
++			return -EFAULT;
++		} 
++		_rtw_memset(extra, '\0', sizeof(extra));
++		DBG_871X("\tOFFSET\tVALUE(hex)\n");
++		sprintf(extra, "%s \n", extra);
++		for ( i = 0; i < EFUSE_MAP_SIZE; i += 16 )
++		{
++			DBG_871X("\t0x%02x\t", i);
++			sprintf(extra, "%s \t0x%02x\t", extra,i);
++			for (j = 0; j < 8; j++)
++			{	  
++				DBG_871X("%02X ", data[i+j]);
++				sprintf(extra, "%s %02X", extra, data[i+j]);
++			}
++			DBG_871X("\t");
++			sprintf(extra,"%s\t",extra);
++			for (; j < 16; j++){
++				DBG_871X("%02X ", data[i+j]);
++				sprintf(extra, "%s %02X", extra, data[i+j]);
++			}
++			DBG_871X("\n");
++			sprintf(extra,"%s\n",extra);	
++		}
++		DBG_871X("\n");
++		wrqu->length = strlen(extra);
++	
++		return 0;
++	}
++	else if ( strcmp(tmp[0],"rmap") == 0 ) {
++		if ( tmp[1]==NULL || tmp[2]==NULL ) return	-EINVAL;
++		// rmap addr cnts
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++
++		DBG_871X("addr = %x \n" ,addr);
++
++		cnts=simple_strtoul(tmp[2], &ptmp,10);
++		if(cnts==0) return -EINVAL;
++
++		DBG_871X("cnts = %d \n" ,cnts);
++		//_rtw_memset(extra, '\0', wrqu->data.length);
++
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_available_size, _FALSE);
++		if ((addr + cnts) > max_available_size) {
++			DBG_871X("(addr + cnts parameter error \n");
++			return -EFAULT;
++		}
++				
++		if (rtw_efuse_map_read(padapter, addr, cnts, data) == _FAIL) 
++		{
++			DBG_871X("rtw_efuse_access error \n"); 		
++		}
++		else{
++			DBG_871X("rtw_efuse_access ok \n");
++		}	
++
++		_rtw_memset(extra, '\0', sizeof(extra));	 
++		for ( i = 0; i < cnts; i ++) {
++			DBG_871X("0x%02x", data[i]);
++			sprintf(extra, "%s 0x%02X", extra, data[i]);
++			DBG_871X(" ");
++			sprintf(extra,"%s ",extra);
++		}
++
++		wrqu->length = strlen(extra)+1;
++
++		DBG_871X("extra = %s ", extra);
++
++		return 0;	
++	}
++	else if ( strcmp(tmp[0],"realraw") == 0 ) {
++		addr=0;
++		mapLen = EFUSE_MAX_SIZE;
++
++		if (rtw_efuse_access(padapter, _FALSE, addr, mapLen, rawdata) == _FAIL)
++		{
++			DBG_871X("\t  rtw_efuse_map_read : Fail \n");
++			return -EFAULT;
++		} else
++		{
++			DBG_871X("\t  rtw_efuse_access raw ok \n");	
++		}
++				
++		_rtw_memset(extra, '\0', sizeof(extra));
++		for ( i=0; i<mapLen; i++ ) {
++			DBG_871X(" %02x", rawdata[i]);
++			sprintf(extra, "%s %02x", extra, rawdata[i] );
++
++			if ((i & 0xF) == 0xF){ 
++				DBG_871X("\n\t");
++				sprintf(extra, "%s\n\t", extra);
++			}
++			else if ((i & 0x7) == 0x7){ 
++				DBG_871X("\t");
++				sprintf(extra, "%s\t", extra);
++			}
++		}
++		wrqu->length = strlen(extra);
++		return 0;
++	}
++	else if ( strcmp(tmp[0],"mac") == 0 ) {
++		if ( tmp[1]==NULL || tmp[2]==NULL ) return	-EINVAL;
++		#ifdef CONFIG_RTL8192C
++		addr = 0x16;
++		cnts = 6;
++		#endif
++		#ifdef CONFIG_RTL8192D
++		addr = 0x19;
++		cnts = 6;
++		#endif
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_available_size, _FALSE);
++		if ((addr + mapLen) > max_available_size) {
++			DBG_871X("(addr + cnts parameter error \n");
++			return -EFAULT;
++		}
++		if (rtw_efuse_map_read(padapter, addr, cnts, data) == _FAIL)
++		{
++			DBG_871X("rtw_efuse_access error \n"); 		
++		}
++		else{
++			DBG_871X("rtw_efuse_access ok \n");
++		}	
++		_rtw_memset(extra, '\0', sizeof(extra));		 
++		for ( i = 0; i < cnts; i ++) {
++			DBG_871X("0x%02x", data[i]);
++			sprintf(extra, "%s 0x%02X", extra, data[i+j]);
++			DBG_871X(" ");
++			sprintf(extra,"%s ",extra);
++		}
++		wrqu->length = strlen(extra);
++		return 0;
++	}
++	else if ( strcmp(tmp[0],"vidpid") == 0 ) {
++		if ( tmp[1]==NULL || tmp[2]==NULL ) return	-EINVAL;
++		#ifdef CONFIG_RTL8192C
++		addr=0x0a;
++		#endif
++		#ifdef CONFIG_RTL8192D
++		addr = 0x0c;
++		#endif
++		cnts = 4;
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_available_size, _FALSE);
++		if ((addr + mapLen) > max_available_size) {
++			DBG_871X("(addr + cnts parameter error \n");
++			return -EFAULT;
++		}
++		if (rtw_efuse_map_read(padapter, addr, cnts, data) == _FAIL) 
++		{
++			DBG_871X("rtw_efuse_access error \n"); 		
++		}
++		else{
++			DBG_871X("rtw_efuse_access ok \n");
++		}	
++		_rtw_memset(extra, '\0', sizeof(extra));		 
++		for ( i = 0; i < cnts; i ++) {
++			DBG_871X("0x%02x", data[i]);
++			sprintf(extra, "%s 0x%02X", extra, data[i+j]);
++			DBG_871X(" ");
++			sprintf(extra,"%s ",extra);
++		}
++		wrqu->length = strlen(extra);
++		return 0;
++	}
++	else if ( strcmp(tmp[0],"ableraw") == 0 ) {
++		efuse_GetCurrentSize(padapter,&raw_cursize);
++		raw_maxsize = efuse_GetMaxSize(padapter);
++		sprintf(extra, "%s : [ available raw size] = %d",extra,raw_maxsize-raw_cursize);
++		wrqu->length = strlen(extra);
++
++		return 0;
++	}else
++	{
++		 sprintf(extra, "%s : Command not found\n",extra);
++		  wrqu->length = strlen(extra);
++		  return 0;
++	}
++	
++	return 0;
++}
++
++static int rtw_mp_efuse_set(struct net_device *dev,
++			struct iw_request_info *info,
++			union iwreq_data *wdata, char *extra)
++{
++	struct iw_point *wrqu = (struct iw_point *)wdata;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	
++	u8 buffer[40];
++	u32 i,jj,kk;
++	u8 setdata[EFUSE_MAP_SIZE];
++	u8 setrawdata[EFUSE_MAX_SIZE];
++	char *pch, *ptmp, *token, *edata,*tmp[3]={0x00,0x00,0x00};
++
++	u16 addr = 0, max_available_size = 0;
++	u32  cnts = 0;
++	
++	pch = extra;
++	DBG_871X("%s: in=%s\n", __func__, extra);
++	
++	i=0;
++	while ( (token = strsep (&pch,",") )!=NULL )
++	{
++		if(i>2) break;
++		tmp[i] = token;
++		i++;
++	}
++
++	// tmp[0],[1],[2]
++	// wmap,addr,00e04c871200
++	if ( strcmp(tmp[0],"wmap") == 0 ) {
++		 if ( tmp[1]==NULL || tmp[2]==NULL ) return 	-EINVAL;
++			if ( ! strlen( tmp[2] )/2 > 1 ) return -EFAULT; 			
++				  
++			addr = simple_strtoul( tmp[1], &ptmp, 16 );
++			addr = addr & 0xFF;
++			DBG_871X("addr = %x \n" ,addr);
++					
++			cnts = strlen( tmp[2] )/2;	
++			if ( cnts == 0) return -EFAULT;
++					
++			DBG_871X("cnts = %d \n" ,cnts);
++			DBG_871X("target data = %s \n" ,tmp[2]);
++					
++			for( jj = 0, kk = 0; jj < cnts; jj++, kk += 2 )
++			{
++				setdata[jj] = key_2char2num( tmp[2][kk], tmp[2][kk+ 1] );
++			}
++	
++			EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_available_size, _FALSE);
++			
++			if ((addr + cnts) > max_available_size) {
++						DBG_871X("parameter error \n");
++						return -EFAULT;
++			}	
++			if (rtw_efuse_map_write(padapter, addr, cnts, setdata) == _FAIL) {			
++					DBG_871X("rtw_efuse_map_write error \n");
++					return -EFAULT;
++			} else
++			   DBG_871X("rtw_efuse_map_write ok \n");
++		
++		return 0;
++	}
++	else if ( strcmp(tmp[0],"wraw") == 0 ) {
++			 if ( tmp[1]==NULL || tmp[2]==NULL ) return 	-EINVAL;
++			 if ( ! strlen( tmp[2] )/2 > 1 ) return -EFAULT;			 
++			addr = simple_strtoul( tmp[1], &ptmp, 16 );
++			addr = addr & 0xFF;
++			DBG_871X("addr = %x \n" ,addr);
++				
++			cnts=strlen( tmp[2] )/2;
++			if ( cnts == 0) return -EFAULT;
++
++			DBG_871X(" cnts = %d \n" ,cnts );		
++			DBG_871X("target data = %s \n" ,tmp[2] );
++			
++			for( jj = 0, kk = 0; jj < cnts; jj++, kk += 2 )
++			{
++					setrawdata[jj] = key_2char2num( tmp[2][kk], tmp[2][kk+ 1] );
++			}
++					
++			if ( rtw_efuse_access( padapter, _TRUE, addr, cnts, setrawdata ) == _FAIL ){
++					DBG_871X("\t  rtw_efuse_map_read : Fail \n");
++						return -EFAULT;
++			} else
++			  DBG_871X("\t  rtw_efuse_access raw ok \n");	
++			
++					return 0;
++		}
++	else if ( strcmp(tmp[0],"mac") == 0 ) { 
++			 if ( tmp[1]==NULL || tmp[2]==NULL ) return 	-EINVAL;
++			//mac,00e04c871200
++			#ifdef CONFIG_RTL8192C
++				addr = 0x16;
++			#endif
++			#ifdef CONFIG_RTL8192D
++				addr = 0x19;
++			#endif
++				cnts = strlen( tmp[1] )/2;
++				if ( cnts == 0) return -EFAULT;
++				if ( cnts > 6 ){
++						DBG_871X("error data for mac addr = %s \n" ,tmp[1]);
++						return -EFAULT;
++				}
++				
++				DBG_871X("target data = %s \n" ,tmp[1]);
++				
++				for( jj = 0, kk = 0; jj < cnts; jj++, kk += 2 )
++				{
++					setdata[jj] = key_2char2num(tmp[1][kk], tmp[1][kk+ 1]);
++				}
++				
++				EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_available_size, _FALSE);
++		
++				if ((addr + cnts) > max_available_size) {
++						DBG_871X("parameter error \n");
++						return -EFAULT;
++					}	
++				if ( rtw_efuse_map_write(padapter, addr, cnts, setdata) == _FAIL ) {
++					DBG_871X("rtw_efuse_map_write error \n");
++					return -EFAULT;
++				} else
++					DBG_871X("rtw_efuse_map_write ok \n");
++				
++			return 0;
++		}
++		else if ( strcmp(tmp[0],"vidpid") == 0 ) { 
++			 if ( tmp[1]==NULL || tmp[2]==NULL ) return 	-EINVAL;
++				// pidvid,da0b7881
++				#ifdef CONFIG_RTL8192C
++					   addr=0x0a;
++				#endif
++				#ifdef CONFIG_RTL8192D
++					addr = 0x0c;
++				#endif
++				
++				cnts=strlen( tmp[1] )/2;
++				if ( cnts == 0) return -EFAULT;
++				DBG_871X("target data = %s \n" ,tmp[1]);
++				
++				for( jj = 0, kk = 0; jj < cnts; jj++, kk += 2 )
++				{
++					setdata[jj] = key_2char2num(tmp[1][kk], tmp[1][kk+ 1]);
++				}
++
++				EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_available_size, _FALSE);
++				
++				if ((addr + cnts) > max_available_size) {
++						DBG_871X("parameter error \n");
++						return -EFAULT;
++					}	
++				
++				if ( rtw_efuse_map_write(padapter, addr, cnts, setdata) == _FAIL ) {
++					DBG_871X("rtw_efuse_map_write error \n");
++					return -EFAULT;
++				} else
++					DBG_871X("rtw_efuse_map_write ok \n");
++			
++				return 0;
++		}
++		else{
++				 DBG_871X("Command not found\n");
++			   return 0;
++		}
++		
++	  return 0;
++}
++
++
++
++#if defined(CONFIG_MP_INCLUDED) && defined(CONFIG_MP_IWPRIV_SUPPORT)
++
++/*
++ * Input Format: %s,%d,%d
++ *	%s is width, could be
++ *		"b" for 1 byte
++ *		"w" for WORD (2 bytes)
++ *		"dw" for DWORD (4 bytes)
++ *	1st %d is address(offset)
++ *	2st %d is data to write
++ */
++static int rtw_mp_write_reg(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++	char *pch, *pnext, *ptmp;
++	char *width_str;
++	char width;
++	u32 addr, data;
++	int ret;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++
++	pch = extra;
++	pnext = strpbrk(pch, " ,.-");
++	if (pnext == NULL) return -EINVAL;
++	*pnext = 0;
++	width_str = pch;
++
++	pch = pnext + 1;
++	pnext = strpbrk(pch, " ,.-");
++	if (pnext == NULL) return -EINVAL;
++	*pnext = 0;
++	addr = simple_strtoul(pch, &ptmp, 16);
++	if (addr > 0x3FFF) return -EINVAL;
++
++	pch = pnext + 1;
++	if ((pch - extra) >= wrqu->length) return -EINVAL;
++	data = simple_strtoul(pch, &ptmp, 16);
++
++	ret = 0;
++	width = width_str[0];
++	switch (width) {
++		case 'b':
++			// 1 byte
++			if (data > 0xFF) {
++				ret = -EINVAL;
++				break;
++			}
++			rtw_write8(padapter, addr, data);
++			break;
++		case 'w':
++			// 2 bytes
++			if (data > 0xFFFF) {
++				ret = -EINVAL;
++				break;
++			}
++			rtw_write16(padapter, addr, data);
++			break;
++		case 'd':
++			// 4 bytes
++			rtw_write32(padapter, addr, data);
++			break;
++		default:
++			ret = -EINVAL;
++			break;
++	}
++
++	return ret;
++}
++
++/*
++ * Input Format: %s,%d
++ *	%s is width, could be
++ *		"b" for 1 byte
++ *		"w" for WORD (2 bytes)
++ *		"dw" for DWORD (4 bytes)
++ *	%d is address(offset)
++ *
++ * Return:
++ *	%d for data readed
++ */
++static int rtw_mp_read_reg(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++	char input[wrqu->length];
++	char *pch, *pnext, *ptmp;
++	char *width_str;
++	char width;
++	char data[20],tmp[20];
++	u32 addr;
++	//u32 *data = (u32*)extra;
++	u32 ret, i=0, j=0, strtout=0;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	if (wrqu->length > 128) return -EFAULT;
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	_rtw_memset(data, 0, 20);
++	_rtw_memset(tmp, 0, 20);
++	_rtw_memset(extra, 0, wrqu->length);
++
++	pch = input;
++	pnext = strpbrk(pch, " ,.-");
++	if (pnext == NULL) return -EINVAL;
++	*pnext = 0;
++	width_str = pch;
++
++	pch = pnext + 1;
++	if ((pch - input) >= wrqu->length) return -EINVAL;
++	
++	addr = simple_strtoul(pch, &ptmp, 16);
++	if (addr > 0x3FFF) return -EINVAL;
++
++	ret = 0;
++	width = width_str[0];
++	switch (width) {
++		case 'b':
++			// 1 byte
++			// *(u8*)data = rtw_read8(padapter, addr);
++			sprintf(extra, "%d\n",  rtw_read8(padapter, addr));
++			wrqu->length = strlen(extra);
++			break;
++		case 'w':
++			// 2 bytes
++			//*(u16*)data = rtw_read16(padapter, addr);
++			sprintf(data, "%04d\n", rtw_read16(padapter, addr));
++			for( i=0 ; i <= strlen(data) ; i++)
++				{
++					  if( i%2==0 )
++					  {
++						   tmp[j]=' ';
++						   j++;
++					  }
++					  if ( data[i] != '\0' )
++					 	 tmp[j] = data[i];
++					 	
++					  	 j++;
++				}
++				pch = tmp;		
++				DBG_871X("pch=%s",pch);
++				
++				while( *pch != '\0' )
++				{
++					pnext = strpbrk(pch, " ");
++					pnext++;
++					if ( *pnext != '\0' )
++					{
++						  strtout = simple_strtoul (pnext , &ptmp, 16);
++						  sprintf( extra, "%s %d" ,extra ,strtout );
++					}
++					else{
++						  break;
++					}
++					pch = pnext;
++				}
++			wrqu->length = 6;
++			break;
++		case 'd':
++			// 4 bytes
++			//*data = rtw_read32(padapter, addr);
++			sprintf(data, "%08x", rtw_read32(padapter, addr));
++				//add read data format blank
++				for( i=0 ; i <= strlen(data) ; i++)
++				{
++					  if( i%2==0 )
++					  {
++						   tmp[j]=' ';
++						   j++;
++					  }
++					  tmp[j] = data[i];
++					  j++;
++				}
++				pch = tmp;		
++				DBG_871X("pch=%s",pch);
++				
++				while( *pch != '\0' )
++				{
++					pnext = strpbrk(pch, " ");
++					pnext++;
++					if ( *pnext != '\0' )
++					{
++						  strtout = simple_strtoul (pnext , &ptmp, 16);
++						  sprintf( extra, "%s %d" ,extra ,strtout );
++					}
++					else{
++			break;
++					}
++					pch = pnext;
++				}
++			wrqu->length = strlen(extra);
++			break;
++			
++		default:
++			wrqu->length = 0;
++			ret = -EINVAL;
++			break;
++			
++	}
++
++	return ret;
++}
++
++/*
++ * Input Format: %d,%x,%x
++ *	%d is RF path, should be smaller than MAX_RF_PATH_NUMS
++ *	1st %x is address(offset)
++ *	2st %x is data to write
++ */
++ static int rtw_mp_write_rf(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{			
++/*static int rtw_mp_write_rf(struct net_device *dev,
++			struct iw_request_info *info,
++			union iwreq_data *wrqu, char *extra)
++*/
++	u32 path, addr, data;
++	int ret;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++
++	ret = sscanf(extra, "%d,%x,%x", &path, &addr, &data);
++	if (ret < 3) return -EINVAL;
++
++	if (path >= MAX_RF_PATH_NUMS) return -EINVAL;
++	if (addr > 0xFF) return -EINVAL;
++	if (data > 0xFFFFF) return -EINVAL;
++	_rtw_memset(extra, 0, wrqu->length);
++
++	write_rfreg(padapter, path, addr, data);
++
++	sprintf(extra, "write_rf completed \n");
++	
++	return 0;
++}
++
++/*
++ * Input Format: %d,%x
++ *	%d is RF path, should be smaller than MAX_RF_PATH_NUMS
++ *	%x is address(offset)
++ *
++ * Return:
++ *	%d for data readed
++ */
++static int rtw_mp_read_rf(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++	char input[wrqu->length];
++	char *pch, *pnext, *ptmp;
++	char data[20],tmp[20];
++	//u32 *data = (u32*)extra;
++	u32 path, addr;
++	u32 ret,i=0 ,j=0,strtou=0;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++
++	if (wrqu->length > 128) return -EFAULT;
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	ret = sscanf(input, "%d,%x", &path, &addr);
++	if (ret < 2) return -EINVAL;
++
++	if (path >= MAX_RF_PATH_NUMS) return -EINVAL;
++	if (addr > 0xFF) return -EINVAL;
++
++	_rtw_memset(extra, 0, wrqu->length);
++	
++	//*data = read_rfreg(padapter, path, addr);
++	sprintf(data, "%08x", read_rfreg(padapter, path, addr));
++				//add read data format blank
++				for( i=0 ; i <= strlen(data) ; i++)
++				{
++					  if( i%2==0 )
++					  {
++						   tmp[j]=' ';
++						   j++;
++					  }
++					  tmp[j] = data[i];
++					  j++;
++				}
++				pch = tmp;		
++				DBG_871X("pch=%s",pch);
++				
++				while( *pch != '\0' )
++				{
++					pnext = strpbrk(pch, " ");
++					pnext++;
++					if ( *pnext != '\0' )
++					{
++						  strtou = simple_strtoul (pnext , &ptmp, 16);
++						  sprintf( extra, "%s %d" ,extra ,strtou );
++					}
++					else{
++						  break;
++					}
++					pch = pnext;
++				}
++			wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++static int rtw_mp_start(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++	u8 val8;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++
++	if (padapter->registrypriv.mp_mode == 0)
++		return -EPERM;
++
++	if (padapter->mppriv.mode == MP_OFF) {
++		if (mp_start_test(padapter) == _FAIL)
++			return -EPERM;
++		padapter->mppriv.mode = MP_ON;
++	}
++
++	return 0;
++}
++
++static int rtw_mp_stop(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++
++	if (padapter->mppriv.mode != MP_OFF) {
++		mp_stop_test(padapter);
++		padapter->mppriv.mode = MP_OFF;
++	}
++
++	return 0;
++}
++
++extern int wifirate2_ratetbl_inx(unsigned char rate);
++
++static int rtw_mp_rate(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++	u32 rate = MPT_RATE_1M;
++	u8 		input[wrqu->length];
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++			return -EFAULT;
++			
++	rate = rtw_atoi(input);
++	sprintf( extra, "Set data rate to %d" , rate );
++		
++	if(rate <= 0x7f)
++		rate = wifirate2_ratetbl_inx( (u8)rate);	
++	else 
++		rate =(rate-0x80+MPT_RATE_MCS0);
++
++	//DBG_871X("%s: rate=%d\n", __func__, rate);
++	
++	if (rate >= MPT_RATE_LAST )	
++	return -EINVAL;
++
++	padapter->mppriv.rateidx = rate;
++	Hal_SetDataRate(padapter);
++
++	wrqu->length = strlen(extra) + 1;
++	return 0;
++}
++
++static int rtw_mp_channel(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	u8 		input[wrqu->length];
++	u32 	channel = 1;
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++			return -EFAULT;
++	
++	channel = rtw_atoi(input);
++	//DBG_871X("%s: channel=%d\n", __func__, channel);
++	sprintf( extra, "Change channel %d to channel %d", padapter->mppriv.channel , channel );
++
++	padapter->mppriv.channel = channel;
++	Hal_SetChannel(padapter);
++
++	wrqu->length = strlen(extra) + 1;
++	return 0;
++}
++
++static int rtw_mp_bandwidth(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++	u32 bandwidth=0, sg=0;
++	//u8 buffer[40];
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	//if (copy_from_user(buffer, (void*)wrqu->data.pointer, wrqu->data.length))
++    //            return -EFAULT;
++                
++	//DBG_871X("%s:iwpriv in=%s\n", __func__, extra);
++	
++	sscanf(extra, "40M=%d,shortGI=%d", &bandwidth, &sg);
++	
++	if (bandwidth != HT_CHANNEL_WIDTH_40)
++		bandwidth = HT_CHANNEL_WIDTH_20;
++
++	//DBG_871X("%s: bw=%d sg=%d \n", __func__, bandwidth , sg);
++	
++	padapter->mppriv.bandwidth = (u8)bandwidth;
++	padapter->mppriv.preamble = sg;
++	
++	SetBandwidth(padapter);
++
++	return 0;
++}
++
++static int rtw_mp_txpower(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++	u32		idx_a=0,idx_b=0;
++	u8 		input[wrqu->length];
++
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++			return -EFAULT;
++
++	sscanf(input,"patha=%d,pathb=%d",&idx_a,&idx_b);
++	//DBG_871X("%s: tx_pwr_idx_a=%x b=%x\n", __func__, idx_a, idx_b);
++
++	sprintf( extra, "Set power level path_A:%d path_B:%d", idx_a , idx_b );
++	padapter->mppriv.txpoweridx = (u8)idx_a;
++	padapter->mppriv.txpoweridx_b = (u8)idx_b;
++	
++	Hal_SetAntennaPathPower(padapter);
++	
++	wrqu->length = strlen(extra) + 1;
++	return 0;
++}
++
++static int rtw_mp_ant_tx(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++	u8 i;
++	u8 		input[wrqu->length];
++	u16 antenna = 0;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++			return -EFAULT;
++			
++	//DBG_871X("%s: input=%s\n", __func__, input);	
++	
++	sprintf( extra, "switch Tx antenna to %s", input );
++	
++	for (i=0; i < strlen(input); i++)
++	{
++		switch(input[i])
++			{
++				case 'a' :
++								antenna|=ANTENNA_A;
++								break;
++				case 'b':
++								antenna|=ANTENNA_B;
++								break;
++			}
++	}
++	//antenna |= BIT(extra[i]-'a');
++	//DBG_871X("%s: antenna=0x%x\n", __func__, antenna);		
++	padapter->mppriv.antenna_tx = antenna;
++	//DBG_871X("%s:mppriv.antenna_rx=%d\n", __func__, padapter->mppriv.antenna_tx);
++	
++	Hal_SetAntenna(padapter);
++
++	wrqu->length = strlen(extra) + 1;
++	return 0;
++}
++
++static int rtw_mp_ant_rx(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++	u8 i;
++	u16 antenna = 0;
++	u8 		input[wrqu->length];
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++			return -EFAULT;
++	//DBG_871X("%s: input=%s\n", __func__, input);
++	_rtw_memset(extra, 0, wrqu->length);
++	
++	sprintf( extra, "switch Rx antenna to %s", input );
++	
++	for (i=0; i < strlen(input); i++) {
++	
++	switch( input[i] )
++			{
++				case 'a' :
++								antenna|=ANTENNA_A;
++								break;
++				case 'b':
++								antenna|=ANTENNA_B;
++								break;
++			}
++	}
++	
++	//DBG_871X("%s: antenna=0x%x\n", __func__, antenna);		
++	padapter->mppriv.antenna_rx = antenna;
++	//DBG_871X("%s:mppriv.antenna_rx=%d\n", __func__, padapter->mppriv.antenna_rx);
++	Hal_SetAntenna(padapter);
++	wrqu->length = strlen(extra);
++	
++	return 0;
++}
++
++static int rtw_mp_ctx(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++	u32 pkTx = 1, countPkTx = 1, cotuTx = 1, CarrSprTx = 1, scTx = 1, sgleTx = 1, stop = 1;
++	u32 bStartTest = 1;
++	u32 count = 0;
++	struct mp_priv *pmp_priv;
++	struct pkt_attrib *pattrib;
++
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++
++	pmp_priv = &padapter->mppriv;
++
++	if (copy_from_user(extra, wrqu->pointer, wrqu->length))
++			return -EFAULT;
++			
++	DBG_871X("%s: in=%s\n", __func__, extra);
++
++	countPkTx = strncmp(extra, "count=", 5); // strncmp TRUE is 0
++	cotuTx = strncmp(extra, "background", 20);
++	CarrSprTx = strncmp(extra, "background,cs", 20);
++	scTx = strncmp(extra, "background,sc", 20);
++	sgleTx = strncmp(extra, "background,stone", 20);
++	pkTx = strncmp(extra, "background,pkt", 20);
++	stop = strncmp(extra, "stop", 5);
++	sscanf(extra, "count=%d,pkt", &count);
++	
++	//DBG_871X("%s: count=%d countPkTx=%d cotuTx=%d CarrSprTx=%d scTx=%d sgleTx=%d pkTx=%d stop=%d\n", __func__, count, countPkTx, cotuTx, CarrSprTx, pkTx, sgleTx, scTx, stop);
++	_rtw_memset(extra, '\0', sizeof(extra));
++	
++	if (stop == 0) {
++		bStartTest = 0; // To set Stop
++		pmp_priv->tx.stop = 1;
++		sprintf( extra, "Stop continuous Tx");
++	} else {
++		bStartTest = 1;
++		if (pmp_priv->mode != MP_ON) {
++			if (pmp_priv->tx.stop != 1) {
++				DBG_871X("%s: MP_MODE != ON %d\n", __func__, pmp_priv->mode);
++				return  -EFAULT;
++			}
++		}
++	}
++
++	if (pkTx == 0 || countPkTx == 0)
++		pmp_priv->mode = MP_PACKET_TX;
++	if (sgleTx == 0)
++		pmp_priv->mode = MP_SINGLE_TONE_TX;
++	if (cotuTx == 0)
++		pmp_priv->mode = MP_CONTINUOUS_TX;
++	if (CarrSprTx == 0)
++		pmp_priv->mode = MP_CARRIER_SUPPRISSION_TX;
++	if (scTx == 0)
++		pmp_priv->mode = MP_SINGLE_CARRIER_TX;
++
++	switch (pmp_priv->mode)
++	{
++		case MP_PACKET_TX:
++		
++			//DBG_871X("%s:pkTx %d\n", __func__,bStartTest);
++			if (bStartTest == 0)
++			{
++				pmp_priv->tx.stop = 1;
++				pmp_priv->mode = MP_ON;
++				sprintf( extra, "Stop continuous Tx");
++			}
++			else if (pmp_priv->tx.stop == 1)
++			{
++				sprintf( extra, "Start continuous DA=ffffffffffff len=1500 count=%u,\n",count);
++				//DBG_871X("%s:countPkTx %d\n", __func__,count);
++				pmp_priv->tx.stop = 0;
++				pmp_priv->tx.count = count;
++				pmp_priv->tx.payload = 2;
++				pattrib = &pmp_priv->tx.attrib;
++				pattrib->pktlen = 1460;
++				_rtw_memset(pattrib->dst, 0xFF, ETH_ALEN);
++				SetPacketTx(padapter);
++			} 
++			else {
++				//DBG_871X("%s: pkTx not stop\n", __func__);
++				return -EFAULT;
++			}
++				wrqu->length = strlen(extra);
++				return 0;
++
++		case MP_SINGLE_TONE_TX:
++			//DBG_871X("%s: sgleTx %d \n", __func__, bStartTest);
++			if (bStartTest != 0){
++				sprintf( extra, "Start continuous DA=ffffffffffff len=1500 \n infinite=yes.");
++            		
++           		 }
++			Hal_SetSingleToneTx(padapter, (u8)bStartTest);
++			break;
++
++		case MP_CONTINUOUS_TX:
++			DBG_871X("%s: cotuTx %d\n", __func__, bStartTest);
++			if (bStartTest != 0){
++				sprintf( extra, "Start continuous DA=ffffffffffff len=1500 \n infinite=yes.");
++           		 }
++			 Hal_SetContinuousTx(padapter, (u8)bStartTest);
++			break;
++
++		case MP_CARRIER_SUPPRISSION_TX:
++			//DBG_871X("%s: CarrSprTx %d\n", __func__, bStartTest);
++			if (bStartTest != 0){
++				if( pmp_priv->rateidx <= MPT_RATE_11M ) 
++				{
++					sprintf( extra, "Start continuous DA=ffffffffffff len=1500 \n infinite=yes.");
++				}else
++					sprintf( extra, "Specify carrier suppression but not CCK rate");
++			}
++			Hal_SetCarrierSuppressionTx(padapter, (u8)bStartTest);
++			break;
++
++		case MP_SINGLE_CARRIER_TX:
++			//DBG_871X("%s: scTx %d\n", __func__, bStartTest);
++			if (bStartTest != 0){
++				sprintf( extra, "Start continuous DA=ffffffffffff len=1500 \n infinite=yes.");
++			}
++			Hal_SetSingleCarrierTx(padapter, (u8)bStartTest);
++			break;
++
++		default:
++			//DBG_871X("%s:No Match MP_MODE\n", __func__);
++			sprintf( extra, "Error! Continuous-Tx is not on-going.");
++			return -EFAULT;
++	}
++
++	if (bStartTest) {
++		struct mp_priv *pmp_priv = &padapter->mppriv;
++		if (pmp_priv->tx.stop == 0) {
++			pmp_priv->tx.stop = 1;
++			//DBG_871X("%s: pkt tx is running...\n", __func__);
++			rtw_msleep_os(5);
++		}
++		pmp_priv->tx.stop = 0;
++		pmp_priv->tx.count = 1;
++		SetPacketTx(padapter);
++	} else {
++		pmp_priv->mode = MP_ON;
++	}
++
++	wrqu->length = strlen(extra);
++	return 0;
++}
++
++static int rtw_mp_arx(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++	u8 bStartRx=0,bStopRx=0;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	u8 		input[wrqu->length];
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++			return -EFAULT;
++
++	DBG_871X("%s: %s\n", __func__, input);
++
++	bStartRx = (strncmp(input, "start", 5)==0)?1:0; // strncmp TRUE is 0
++	bStopRx = (strncmp(input, "stop", 5)==0)?1:0; // strncmp TRUE is 0
++	SetPacketRx(padapter, bStartRx);
++
++	if(bStartRx)
++	{
++		sprintf( extra, "start");
++		wrqu->length = strlen(extra) + 1;
++	}
++	else if(bStopRx)
++	{
++		sprintf( extra, "Received packet OK:%d CRC error:%d",padapter->mppriv.rx_pktcount,
++														padapter->mppriv.rx_crcerrpktcount);
++		wrqu->length = strlen(extra) + 1;
++	}
++	
++
++	return 0;
++}
++
++static int rtw_mp_trx_query(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++	u32 txok,txfail,rxok,rxfail;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	//if (copy_from_user(extra, wrqu->data.pointer, wrqu->data.length))
++	//	return -EFAULT;
++
++	txok=padapter->mppriv.tx.sended;
++	txfail=0;
++	rxok = padapter->mppriv.rx_pktcount;
++	rxfail = padapter->mppriv.rx_crcerrpktcount;
++
++	_rtw_memset(extra, '\0', 128);
++
++	sprintf(extra, "Tx OK:%d, Tx Fail:%d, Rx OK:%d, CRC error:%d ", txok, txfail,rxok,rxfail);
++
++	wrqu->length=strlen(extra)+1;
++
++	return 0;
++}
++
++static int rtw_mp_pwrtrk(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++	u8 enable;
++	u32 thermal;
++	s32 ret;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	u8 		input[wrqu->length];
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++			return -EFAULT;
++
++	_rtw_memset(extra, 0, wrqu->length);
++		
++	enable = 1;
++	if (wrqu->length > 1) { // not empty string
++		if (strncmp(input, "stop", 4) == 0)
++		{	
++			enable = 0;
++			sprintf(extra, "mp tx power tracking stop");
++		}
++		else if (sscanf(input, "ther=%d", &thermal)) {
++				ret = Hal_SetThermalMeter(padapter, (u8)thermal);
++				if (ret == _FAIL) return -EPERM;
++				sprintf(extra, "mp tx power tracking start,target value=%d ok ",thermal);
++		}else	{
++			return -EINVAL;
++		}
++	}
++
++	ret = Hal_SetPowerTracking(padapter, enable);
++	if (ret == _FAIL) return -EPERM;
++	
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++static int rtw_mp_psd(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	u8 		input[wrqu->length];
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++	
++	strcpy(extra,input);
++
++	wrqu->length = mp_query_psd(padapter, extra);
++	
++	return 0;
++}
++
++static int rtw_mp_thermal(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++	u8 val;
++	u16 bwrite=1;
++	#ifdef CONFIG_RTL8192C
++		u16 addr=0x78;
++	#endif
++	#ifdef CONFIG_RTL8192D
++		u16 addr=0xc3;
++	#endif
++	u16 cnt=1;
++	u16 max_available_size=0;
++	PADAPTER padapter = rtw_netdev_priv(dev);	
++
++	if (copy_from_user(extra, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	//DBG_871X("print extra %s \n",extra); 
++	 
++	 bwrite = strncmp(extra, "write", 6); // strncmp TRUE is 0
++	 
++	 Hal_GetThermalMeter(padapter, &val);
++	 
++	 if( bwrite == 0 )	
++	 {
++		 //DBG_871X("to write val:%d",val);
++			EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_available_size, _FALSE);
++			if( 2 > max_available_size )
++			{			
++				DBG_871X("no available efuse!\n");
++				return -EFAULT;
++			}	
++			if ( rtw_efuse_map_write(padapter, addr, cnt, &val) == _FAIL )
++			{
++				DBG_871X("rtw_efuse_map_write error \n");			
++				return -EFAULT;
++			} 
++			else
++			{
++				 sprintf(extra, " efuse write ok :%d", val);	
++			}
++	  }
++	  else
++	  {
++			 sprintf(extra, "%d", val);
++	  }
++	wrqu->length = strlen(extra);
++	
++	return 0;
++}
++
++static int rtw_mp_reset_stats(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++	struct mp_priv *pmp_priv;
++	struct pkt_attrib *pattrib;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	
++	pmp_priv = &padapter->mppriv;
++	
++	pmp_priv->tx.sended = 0;
++	padapter->mppriv.rx_pktcount = 0;
++	padapter->mppriv.rx_crcerrpktcount = 0;
++
++	return 0;
++}
++
++static int rtw_mp_dump(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++	struct mp_priv *pmp_priv;
++	struct pkt_attrib *pattrib;
++        u32 value;
++	u8 rf_type,path_nums = 0;
++	u32 i,j=1,path;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	
++	pmp_priv = &padapter->mppriv;
++
++	
++	//if (copy_from_user(extra, wrqu->data.pointer, wrqu->data.length))
++	//	return -EFAULT;
++	
++	if ( strncmp(extra, "all", 4)==0 )
++	{
++			DBG_871X("\n======= MAC REG =======\n");
++			for ( i=0x0;i<0x300;i+=4 )
++			{	
++				if(j%4==1)	DBG_871X("0x%02x",i);
++				DBG_871X(" 0x%08x ",rtw_read32(padapter,i));		
++				if((j++)%4 == 0)	DBG_871X("\n");	
++			}
++			for( i=0x400;i<0x800;i+=4 )
++			{	
++				if(j%4==1)	DBG_871X("0x%02x",i);
++				DBG_871X(" 0x%08x ",rtw_read32(padapter,i));		
++				if((j++)%4 == 0)	DBG_871X("\n");	
++			}
++			
++			i,j=1;
++			rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++				
++			DBG_871X("\n======= RF REG =======\n");
++			if(( RF_1T2R == rf_type ) ||( RF_1T1R ==rf_type ))	
++				path_nums = 1;
++			else	
++				path_nums = 2;
++				
++			for(path=0;path<path_nums;path++)
++			{
++#ifdef CONFIG_RTL8192D
++			  for (i = 0; i < 0x50; i++)
++#else
++	   		 for (i = 0; i < 0x34; i++)
++#endif
++				{								
++					//value = PHY_QueryRFReg(padapter, (RF90_RADIO_PATH_E)path,i, bMaskDWord);
++					value =rtw_hal_read_rfreg(padapter, path, i, 0xffffffff);
++					if(j%4==1)	DBG_871X("0x%02x ",i);
++					DBG_871X(" 0x%08x ",value);
++					if((j++)%4==0)	DBG_871X("\n");	
++				}	
++			}
++	}
++	return 0;
++}
++
++static int rtw_mp_phypara(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	char 	input[wrqu->length];
++	u32		valxcap;
++	
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++			return -EFAULT;
++	
++	DBG_871X("%s:iwpriv in=%s\n", __func__, input);
++	
++	sscanf(input, "xcap=%d", &valxcap);
++
++	if (!IS_HARDWARE_TYPE_8192D(padapter))
++			return 0;
++#ifdef CONFIG_RTL8192D
++	Hal_ProSetCrystalCap( padapter , valxcap );
++#endif
++
++	sprintf( extra, "Set xcap=%d",valxcap );
++	wrqu->length = strlen(extra) + 1;
++	
++return 0;
++
++}
++
++
++/* update Tx AGC offset */
++static int rtw_mp_antBdiff(struct net_device *dev,
++			struct iw_request_info *info,
++			struct iw_point *wrqu, char *extra)
++{
++
++
++	// MPT_ProSetTxAGCOffset
++	return 0;
++}
++
++
++static int rtw_mp_set(struct net_device *dev,
++			struct iw_request_info *info,
++			union iwreq_data *wdata, char *extra)
++{
++	struct iw_point *wrqu = (struct iw_point *)wdata;
++	u32 subcmd = wrqu->flags;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	if (padapter == NULL)
++	{
++		return -ENETDOWN;
++	}
++
++	//_rtw_memset(extra, 0x00, IW_PRIV_SIZE_MASK);
++
++	if (extra == NULL)
++	{
++		wrqu->length = 0;
++		return -EIO;
++	}
++
++	switch(subcmd)
++	{
++	case WRITE_REG :
++			rtw_mp_write_reg (dev,info,wrqu,extra);
++			 break;
++			 
++	case WRITE_RF:
++			rtw_mp_write_rf (dev,info,wrqu,extra);
++			 break; 
++			 
++	case MP_START:
++			DBG_871X("set case mp_start \n");
++			rtw_mp_start (dev,info,wrqu,extra);
++			 break; 
++			 
++	case MP_STOP:
++			DBG_871X("set case mp_stop \n");
++			rtw_mp_stop (dev,info,wrqu,extra);
++			 break; 
++			 
++	case MP_BANDWIDTH:
++			DBG_871X("set case mp_bandwidth \n");
++			rtw_mp_bandwidth (dev,info,wrqu,extra);
++			break;
++			
++	case MP_RESET_STATS:
++			DBG_871X("set case MP_RESET_STATS \n");
++			rtw_mp_reset_stats	(dev,info,wrqu,extra);
++			break;
++			
++	case EFUSE_SET:
++			DBG_871X("efuse set \n");
++			rtw_mp_efuse_set (dev,info,wdata,extra);
++			break;	
++		 		
++	}
++
++	  
++	return 0;		
++}
++
++
++static int rtw_mp_get(struct net_device *dev,
++			struct iw_request_info *info,
++			union iwreq_data *wdata, char *extra)
++{
++	struct iw_point *wrqu = (struct iw_point *)wdata;
++	u32 subcmd = wrqu->flags;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	//DBG_871X("in mp_get extra= %s \n",extra);
++
++	if (padapter == NULL)
++	{
++		return -ENETDOWN;
++	}
++	if (extra == NULL)
++	{
++		wrqu->length = 0;
++		return -EIO;
++	}
++	
++	switch(subcmd)
++	{
++	case MP_PHYPARA:
++			DBG_871X("mp_get  MP_PHYPARA \n");
++			rtw_mp_phypara(dev,info,wrqu,extra);	
++			break;
++
++	case MP_CHANNEL:
++			DBG_871X("set case mp_channel \n");
++			rtw_mp_channel (dev,info,wrqu,extra);
++			break;
++			
++	case READ_REG:
++			DBG_871X("mp_get  READ_REG \n");
++			rtw_mp_read_reg (dev,info,wrqu,extra);
++			 break; 
++	case READ_RF:
++			DBG_871X("mp_get  READ_RF \n");
++			rtw_mp_read_rf (dev,info,wrqu,extra);
++			break; 
++			
++	case MP_RATE:
++			DBG_871X("set case mp_rate \n");
++			rtw_mp_rate (dev,info,wrqu,extra);
++			break;
++			
++	case MP_TXPOWER:
++			DBG_871X("set case MP_TXPOWER \n");
++			rtw_mp_txpower (dev,info,wrqu,extra);
++			break;
++			
++	case MP_ANT_TX:
++			DBG_871X("set case MP_ANT_TX \n");
++			rtw_mp_ant_tx (dev,info,wrqu,extra);
++			break;
++			
++	case MP_ANT_RX:
++			DBG_871X("set case MP_ANT_RX \n");
++			rtw_mp_ant_rx (dev,info,wrqu,extra);
++			break;
++			
++	case MP_QUERY:
++			DBG_871X("mp_get mp_query MP_QUERY \n");
++			rtw_mp_trx_query(dev,info,wrqu,extra);
++			break;
++					
++	case MP_CTX:
++			DBG_871X("set case MP_CTX \n");
++			rtw_mp_ctx (dev,info,wrqu,extra);
++			break;
++			
++	case MP_ARX:
++			DBG_871X("set case MP_ARX \n");
++			rtw_mp_arx (dev,info,wrqu,extra);
++			break;
++			
++	case EFUSE_GET:
++			DBG_871X("efuse get EFUSE_GET \n");
++			rtw_mp_efuse_get(dev,info,wdata,extra);
++		 break; 
++		 
++	case MP_DUMP:
++			DBG_871X("set case MP_DUMP \n");
++			rtw_mp_dump (dev,info,wrqu,extra);
++		 break; 
++	case MP_PSD:
++			DBG_871X("set case MP_PSD \n");
++			rtw_mp_psd (dev,info,wrqu,extra);
++		 break;
++		 
++	case MP_THER:
++			DBG_871X("set case MP_THER \n");
++			rtw_mp_thermal (dev,info,wrqu,extra);
++		break;
++		
++	case MP_PWRTRK:
++			DBG_871X("set case MP_PWRTRK \n");
++			rtw_mp_pwrtrk (dev,info,wrqu,extra);
++			break;			 
++	}
++
++return 0;	
++}
++
++#endif //#if defined(CONFIG_MP_INCLUDED) && defined(CONFIG_MP_IWPRIV_SUPPORT)
++
++static int rtw_wfd_tdls_enable(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_WFD
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	printk( "[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length -1  );
++
++	if ( extra[ 0 ] == '0' )
++	{
++		padapter->wdinfo.wfd_tdls_enable = 0;
++	}
++	else
++	{
++		padapter->wdinfo.wfd_tdls_enable = 1;
++	}
++
++#endif //CONFIG_WFD
++#endif //CONFIG_TDLS
++	
++	return ret;
++}
++
++static int rtw_tdls_weaksec(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	u8 i, j;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	DBG_871X( "[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length -1  );
++
++	if ( extra[ 0 ] == '0' )
++	{
++		padapter->wdinfo.wfd_tdls_weaksec = 0;
++	}
++	else
++	{
++		padapter->wdinfo.wfd_tdls_weaksec = 1;
++	}
++#endif
++	
++	return ret;
++}
++
++
++static int rtw_tdls_enable(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info	*ptdlsinfo = &padapter->tdlsinfo;
++	_irqL	 irqL;
++	_list	*plist, *phead;
++	s32	index;
++	struct sta_info *psta = NULL;
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	u8 tdls_sta[NUM_STA][ETH_ALEN];
++	u8 empty_hwaddr[ETH_ALEN] = { 0x00 };
++
++	printk( "[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length -1  );
++
++	_rtw_memset(tdls_sta, 0x00, sizeof(tdls_sta));
++
++	if ( extra[ 0 ] == '0' )
++	{
++		ptdlsinfo->enable = 0;
++
++		if(pstapriv->asoc_sta_count==1)
++			return ret;
++
++		_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++		for(index=0; index< NUM_STA; index++)
++		{
++			phead = &(pstapriv->sta_hash[index]);
++			plist = get_next(phead);
++			
++			while ((rtw_end_of_queue_search(phead, plist)) == _FALSE)
++			{
++				psta = LIST_CONTAINOR(plist, struct sta_info ,hash_list);
++
++				plist = get_next(plist);
++
++				if(psta->tdls_sta_state != TDLS_STATE_NONE)
++				{
++					_rtw_memcpy(tdls_sta[index], psta->hwaddr, ETH_ALEN);
++				}
++			}
++		}
++		_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++		for(index=0; index< NUM_STA; index++)
++		{
++			if( !_rtw_memcmp(tdls_sta[index], empty_hwaddr, ETH_ALEN) )
++			{
++				printk("issue tear down to "MAC_FMT"\n", MAC_ARG(tdls_sta[index]));
++				issue_tdls_teardown(padapter, tdls_sta[index]);
++			}
++		}
++		rtw_tdls_cmd(padapter, myid(&(padapter->eeprompriv)), TDLS_RS_RCR);
++		rtw_reset_tdls_info(padapter);
++	}
++	else if ( extra[ 0 ] == '1' )
++	{
++		ptdlsinfo->enable = 1;
++	}
++#endif //CONFIG_TDLS
++	
++	return ret;
++}
++
++static int rtw_tdls_setup(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	u8 i, j;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 mac_addr[ETH_ALEN];
++
++#ifdef CONFIG_WFD
++	struct wifidirect_info *pwdinfo= &(padapter->wdinfo);
++#endif // CONFIG_WFD
++
++	printk( "[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length -1  );
++
++	for( i=0, j=0 ; i < ETH_ALEN; i++, j+=3 ){
++		mac_addr[i]=key_2char2num(*(extra+j), *(extra+j+1));
++	}
++
++#ifdef CONFIG_WFD
++	if ( _AES_ != padapter->securitypriv.dot11PrivacyAlgrthm )
++	{
++		//	Weak Security situation with AP.
++		if ( 0 == pwdinfo->wfd_tdls_weaksec )
++		{
++			//	Can't send the tdls setup request out!!
++			DBG_871X( "[%s] Current link is not AES, SKIP sending the tdls setup request!!\n", __FUNCTION__ );
++		}
++		else
++		{
++			issue_tdls_setup_req(padapter, mac_addr);
++		}
++	}
++	else
++#endif // CONFIG_WFD
++	{
++		issue_tdls_setup_req(padapter, mac_addr);
++	}
++#endif
++	
++	return ret;
++}
++
++static int rtw_tdls_teardown(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	u8 i,j;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct sta_info *ptdls_sta = NULL;
++	u8 mac_addr[ETH_ALEN];
++
++	printk( "[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length -1  );
++
++	for( i=0, j=0 ; i < ETH_ALEN; i++, j+=3 ){
++		mac_addr[i]=key_2char2num(*(extra+j), *(extra+j+1));
++	}
++
++	ptdls_sta = rtw_get_stainfo( &(padapter->stapriv), mac_addr);
++	
++	if(ptdls_sta != NULL)
++	{
++		ptdls_sta->stat_code = _RSON_TDLS_TEAR_UN_RSN_;
++		issue_tdls_teardown(padapter, mac_addr);
++	}
++
++#endif //CONFIG_TDLS
++	
++	return ret;
++}
++
++static int rtw_tdls_discovery(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	printk( "[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length -1  );
++
++	issue_tdls_dis_req(padapter, NULL);
++
++#endif //CONFIG_TDLS
++
++	return ret;
++}
++
++static int rtw_tdls_ch_switch(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info	*ptdlsinfo = &padapter->tdlsinfo;
++	u8 i, j, mac_addr[ETH_ALEN];
++	struct sta_info *ptdls_sta = NULL;
++
++	printk( "[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length -1  );
++
++	for( i=0, j=0 ; i < ETH_ALEN; i++, j+=3 ){
++		mac_addr[i]=key_2char2num(*(extra+j), *(extra+j+1));
++	}
++
++	ptdls_sta = rtw_get_stainfo(&padapter->stapriv, mac_addr);
++	if( ptdls_sta == NULL )
++		return ret;
++	ptdlsinfo->ch_sensing=1;
++
++	rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_INIT_CH_SEN);
++
++#endif //CONFIG_TDLS
++
++		return ret;
++}
++	
++static int rtw_tdls_pson(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 i, j, mac_addr[ETH_ALEN];
++	struct sta_info *ptdls_sta = NULL;
++
++	printk( "[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length -1  );
++
++	for( i=0, j=0 ; i < ETH_ALEN; i++, j+=3 ){
++		mac_addr[i]=key_2char2num(*(extra+j), *(extra+j+1));
++	}
++
++	ptdls_sta = rtw_get_stainfo(&padapter->stapriv, mac_addr);
++
++	issue_nulldata_to_TDLS_peer_STA(padapter, ptdls_sta, 1);
++	
++#endif //CONFIG_TDLS
++
++		return ret;
++}
++	
++static int rtw_tdls_psoff(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 i, j, mac_addr[ETH_ALEN];
++	struct sta_info *ptdls_sta = NULL;
++	
++	printk( "[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length -1  );
++
++	for( i=0, j=0 ; i < ETH_ALEN; i++, j+=3 ){
++		mac_addr[i]=key_2char2num(*(extra+j), *(extra+j+1));
++	}
++
++	ptdls_sta = rtw_get_stainfo(&padapter->stapriv, mac_addr);
++
++	issue_nulldata_to_TDLS_peer_STA(padapter, ptdls_sta, 0);
++	
++#endif //CONFIG_TDLS
++
++	return ret;
++}
++
++static int rtw_tdls_setip(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_WFD
++	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct wifi_display_info *pwfd_info = ptdlsinfo->wfd_info;
++	u8 i=0, j=0, k=0, tag=0, ip[3] = { 0xff }, *ptr = extra;
++	
++	printk( "[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1  );
++
++
++	while( i < 4 )
++	{
++		for( j=0; j < 4; j++)
++		{
++			if( *( extra + j + tag ) == '.' || *( extra + j + tag ) == '\0' )
++			{
++				if( j == 1 )
++					pwfd_info->ip_address[i]=convert_ip_addr( '0', '0', *(extra+(j-1)+tag));
++				if( j == 2 )
++					pwfd_info->ip_address[i]=convert_ip_addr( '0', *(extra+(j-2)+tag), *(extra+(j-1)+tag));
++				if( j == 3 )
++					pwfd_info->ip_address[i]=convert_ip_addr( *(extra+(j-3)+tag), *(extra+(j-2)+tag), *(extra+(j-1)+tag));	
++
++				tag += j + 1;
++				break;
++			}
++		}
++		i++;
++	}
++
++	printk( "[%s] Set IP = %u.%u.%u.%u \n", __FUNCTION__, 
++		ptdlsinfo->wfd_info->ip_address[0], ptdlsinfo->wfd_info->ip_address[1],
++		ptdlsinfo->wfd_info->ip_address[2], ptdlsinfo->wfd_info->ip_address[3]
++	);
++
++#endif //CONFIG_WFD	
++#endif //CONFIG_TDLS
++
++	return ret;
++}
++
++static int rtw_tdls_getip(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_WFD
++	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct wifi_display_info *pwfd_info = ptdlsinfo->wfd_info;
++	
++	printk( "[%s]\n", __FUNCTION__);
++
++	sprintf( extra, "\n\n%u.%u.%u.%u\n", 
++		pwfd_info->peer_ip_address[0], pwfd_info->peer_ip_address[1], 
++		pwfd_info->peer_ip_address[2], pwfd_info->peer_ip_address[3]
++		);
++
++	printk( "[%s] IP=%u.%u.%u.%u\n", __FUNCTION__,
++		pwfd_info->peer_ip_address[0], pwfd_info->peer_ip_address[1], 
++		pwfd_info->peer_ip_address[2], pwfd_info->peer_ip_address[3]
++		);
++	
++	wrqu->data.length = strlen( extra );
++
++#endif //CONFIG_WFD	
++#endif //CONFIG_TDLS
++
++	return ret;
++}
++
++static int rtw_tdls_getport(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_WFD
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct wifi_display_info *pwfd_info = ptdlsinfo->wfd_info;
++
++	printk( "[%s]\n", __FUNCTION__);
++
++	sprintf( extra, "\n\n%d\n", pwfd_info->peer_rtsp_ctrlport );
++	printk( "[%s] remote port = %d\n", __FUNCTION__, pwfd_info->peer_rtsp_ctrlport );
++	
++	wrqu->data.length = strlen( extra );
++
++#endif //CONFIG_WFD
++#endif //CONFIG_TDLS
++
++	return ret;
++		
++}
++
++//WFDTDLS, for sigma test
++static int rtw_tdls_dis_result(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_WFD
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct wifi_display_info *pwfd_info = ptdlsinfo->wfd_info;
++
++	printk( "[%s]\n", __FUNCTION__);
++
++	if(ptdlsinfo->dev_discovered == 1 )
++	{
++		sprintf( extra, "\n\nDis=1\n" );
++		ptdlsinfo->dev_discovered = 0;
++	}
++	
++	wrqu->data.length = strlen( extra );
++
++#endif //CONFIG_WFD
++#endif //CONFIG_TDLS
++
++	return ret;
++		
++}
++
++//WFDTDLS, for sigma test
++static int rtw_wfd_tdls_status(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	
++	int ret = 0;	
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_WFD
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct wifi_display_info *pwfd_info = ptdlsinfo->wfd_info;
++
++	printk( "[%s]\n", __FUNCTION__);
++
++	if(ptdlsinfo->setup_state == TDLS_LINKED_STATE )
++	{
++		sprintf( extra, "\n\nStatus=1\n" );
++	}
++	else
++	{
++		sprintf( extra, "\n\nStatus=0\n" );
++	}
++	
++	wrqu->data.length = strlen( extra );
++
++#endif //CONFIG_WFD
++#endif //CONFIG_TDLS
++
++	return ret;
++		
++}
++
++static int rtw_tdls_ch_switch_off(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++	
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 i, j, mac_addr[ETH_ALEN];
++	struct sta_info *ptdls_sta = NULL;
++	
++	printk( "[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length -1  );
++
++	for( i=0, j=0 ; i < ETH_ALEN; i++, j+=3 ){
++		mac_addr[i]=key_2char2num(*(extra+j), *(extra+j+1));
++	}
++
++	ptdls_sta = rtw_get_stainfo(&padapter->stapriv, mac_addr);
++
++	ptdls_sta->tdls_sta_state |= TDLS_SW_OFF_STATE;
++/*
++	if((ptdls_sta->tdls_sta_state & TDLS_AT_OFF_CH_STATE) && (ptdls_sta->tdls_sta_state & TDLS_PEER_AT_OFF_STATE)){
++		pmlmeinfo->tdls_candidate_ch= pmlmeext->cur_channel;
++		issue_tdls_ch_switch_req(padapter, mac_addr);
++		DBG_871X("issue tdls ch switch req back to base channel\n");
++	}
++*/
++	
++#endif //CONFIG_TDLS
++
++	return ret;
++}
++
++static int rtw_tdls(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	printk( "[%s] extra = %s\n", __FUNCTION__, extra );
++	//	WFD Sigma will use the tdls enable command to let the driver know we want to test the tdls now!
++	if ( _rtw_memcmp( extra, "wfdenable=", 10 ) )
++	{
++		wrqu->data.length -=10;
++		rtw_wfd_tdls_enable( dev, info, wrqu, &extra[10] );
++		return ret;
++	}
++	else if ( _rtw_memcmp( extra, "weaksec=", 8 ) )
++	{
++		wrqu->data.length -=8;
++		rtw_tdls_weaksec( dev, info, wrqu, &extra[8] );
++		return ret;
++	}
++	else if ( _rtw_memcmp( extra, "tdlsenable=", 11 ) )
++	{
++		wrqu->data.length -=11;
++		rtw_tdls_enable( dev, info, wrqu, &extra[11] );
++		return ret;
++	}
++
++	if( padapter->tdlsinfo.enable == 0 )
++	{
++		printk("tdls haven't enabled\n");
++		return 0;
++	}
++
++	if ( _rtw_memcmp( extra, "setup=", 6 ) )
++	{
++		wrqu->data.length -=6;
++		rtw_tdls_setup( dev, info, wrqu, &extra[6] );
++	}
++	else if (_rtw_memcmp( extra, "tear=", 5 ) )
++	{
++		wrqu->data.length -= 5;
++		rtw_tdls_teardown( dev, info, wrqu, &extra[5] );
++	}
++	else if (_rtw_memcmp( extra, "dis=", 4 ) )
++	{
++		wrqu->data.length -= 4;
++		rtw_tdls_discovery( dev, info, wrqu, &extra[4] );
++	}
++	else if (_rtw_memcmp( extra, "sw=", 3 ) )
++	{
++		wrqu->data.length -= 3;
++		rtw_tdls_ch_switch( dev, info, wrqu, &extra[3] );
++	}
++	else if (_rtw_memcmp( extra, "swoff=", 6 ) )
++	{
++		wrqu->data.length -= 6;
++		rtw_tdls_ch_switch_off( dev, info, wrqu, &extra[6] );
++	}	
++	else if (_rtw_memcmp( extra, "pson=", 5 ) )
++	{
++		wrqu->data.length -= 5;
++		rtw_tdls_pson( dev, info, wrqu, &extra[5] );
++	}
++	else if (_rtw_memcmp( extra, "psoff=", 6 ) )
++	{
++		wrqu->data.length -= 6;
++		rtw_tdls_psoff( dev, info, wrqu, &extra[6] );
++	}
++#ifdef CONFIG_WFD
++	else if (_rtw_memcmp( extra, "setip=", 6 ) )
++	{
++		wrqu->data.length -= 6;
++		rtw_tdls_setip( dev, info, wrqu, &extra[6] );
++	}
++	else if (_rtw_memcmp( extra, "tprobe=", 6 ) )
++	{
++		issue_tunneled_probe_req((_adapter *)rtw_netdev_priv(dev));
++	}
++#endif //CONFIG_WFD
++
++#endif //CONFIG_TDLS
++	
++	return ret;
++}
++
++
++static int rtw_tdls_get(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_WFD
++
++	DBG_871X( "[%s] extra = %s\n", __FUNCTION__, (char*) wrqu->data.pointer );
++
++	if ( _rtw_memcmp( wrqu->data.pointer, "ip", 2 ) )
++	{
++		rtw_tdls_getip( dev, info, wrqu, extra );
++	}
++	if ( _rtw_memcmp( wrqu->data.pointer, "port", 4 ) )
++	{
++		rtw_tdls_getport( dev, info, wrqu, extra );
++	}
++
++	//WFDTDLS, for sigma test
++	if ( _rtw_memcmp( wrqu->data.pointer, "dis", 3 ) )
++	{
++		rtw_tdls_dis_result( dev, info, wrqu, extra );
++	}
++	if ( _rtw_memcmp( wrqu->data.pointer, "status", 6 ) )
++	{
++		rtw_wfd_tdls_status( dev, info, wrqu, extra );
++	}
++
++#endif //CONFIG_WFD
++
++	return ret;
++}
++
++static int rtw_pm_set(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++	unsigned	mode = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	DBG_871X( "[%s] extra = %s\n", __FUNCTION__, extra );
++
++	if ( _rtw_memcmp( extra, "lps=", 4 ) )
++	{
++		sscanf(extra+4, "%u", &mode);	
++		ret = rtw_pm_set_lps(padapter,mode);
++	}
++	else if ( _rtw_memcmp( extra, "ips=", 4 ) )
++	{
++		sscanf(extra+4, "%u", &mode);
++		ret = rtw_pm_set_ips(padapter,mode);
++	}
++	else{
++		ret = -EINVAL;
++	}
++
++	return ret;
++}
++
++#ifdef CONFIG_WOWLAN
++static int rtw_wowlan_ctrl(struct net_device *dev,
++	struct iw_request_info *info,
++	union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++	struct oid_par_priv	oid_par;
++	struct wowlan_ioctl_param *poidparam;
++	uint status=0;
++	u16 len;
++	u8 *pparmbuf = NULL, bset;
++	_adapter *padapter =  (_adapter *)rtw_netdev_priv(dev);
++
++	struct iw_point *p = &wrqu->data;
++
++	//DBG_871X("+rtw_wowlan_ctrl\n");
++
++	//mutex_lock(&ioctl_mutex);
++
++	if ((!p->length) || (!p->pointer)) {
++		ret = -EINVAL;
++		goto _rtw_wowlan_ctrl_exit;
++	}
++
++	pparmbuf = NULL;
++	bset = (u8)(p->flags & 0xFFFF);
++	len = p->length;
++	pparmbuf = (u8*)rtw_malloc(len);
++	if (pparmbuf == NULL){
++		ret = -ENOMEM;
++		goto _rtw_wowlan_ctrl_exit;
++	}
++
++	if (copy_from_user(pparmbuf, p->pointer, len)) {
++		ret = -EFAULT;
++		goto _rtw_wowlan_ctrl_exit_free;
++	}
++	poidparam = (struct wowlan_ioctl_param *)pparmbuf;	
++
++	if(padapter->pwrctrlpriv.bSupportRemoteWakeup==_FALSE){
++		ret = -EPERM;
++		DBG_871X("+rtw_wowlan_ctrl: Device didn't support the remote wakeup!!\n");
++		goto _rtw_wowlan_ctrl_exit_free;
++	}
++	rtw_hal_set_hwreg(padapter,HW_VAR_WOWLAN,(u8 *)poidparam);
++	
++	DBG_871X("rtw_wowlan_ctrl: subcode [%d], len[%d], buffer_len[%d]\r\n",
++        	  poidparam->subcode, poidparam->len, len);
++	
++	if (copy_to_user(p->pointer, pparmbuf, len)) {
++		ret = -EFAULT;
++	}
++	
++	
++_rtw_wowlan_ctrl_exit_free:
++	//DBG_871X("-rtw_wowlan_ctrl( subcode = %d)\n", poidparam->subcode);
++	rtw_mfree(pparmbuf, len);
++_rtw_wowlan_ctrl_exit:
++	
++	
++	return ret;
++}
++#endif //CONFIG_WOWLAN
++
++#ifdef CONFIG_INTEL_WIDI
++static int rtw_widi_set(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	process_intel_widi_cmd(padapter, extra);
++
++	return ret;
++}
++
++static int rtw_widi_set_probe_request(struct net_device *dev,
++                               struct iw_request_info *info,
++                               union iwreq_data *wrqu, char *extra)
++{
++	int	ret = 0;
++	u8	*pbuf = NULL;
++	_adapter	*padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	pbuf = rtw_malloc(sizeof(l2_msg_t));
++	if(pbuf)
++	{
++		copy_from_user(pbuf, wrqu->data.pointer, wrqu->data.length);
++		//_rtw_memcpy(pbuf, wrqu->data.pointer, wrqu->data.length);
++
++		if( wrqu->data.flags == 0 )
++		intel_widi_wk_cmd(padapter, INTEL_WIDI_ISSUE_PROB_WK, pbuf);
++		else if( wrqu->data.flags == 1 )
++			rtw_set_wfd_rds_sink_info( padapter, (l2_msg_t *)pbuf );
++	}
++	return ret;
++}
++
++#endif // CONFIG_INTEL_WIDI
++
++#ifdef RTL8723A_SDIO_LOOPBACK
++#include <rtl8723a_hal.h>
++
++static s32 initLoopback(PADAPTER padapter)
++{
++	PLOOPBACKDATA ploopback;
++
++
++	if (padapter->ploopback == NULL) {
++		ploopback = (PLOOPBACKDATA)rtw_zmalloc(sizeof(LOOPBACKDATA));
++		if (ploopback == NULL) return -ENOMEM;
++
++		_rtw_init_sema(&ploopback->sema, 0);
++
++		ploopback->bstop = _TRUE;
++		ploopback->cnt = 0;
++		ploopback->size = 300;
++		_rtw_memset(ploopback->msg, 0, sizeof(ploopback->msg));
++
++		padapter->ploopback = ploopback;
++	}
++
++	return 0;
++}
++
++static void freeLoopback(PADAPTER padapter)
++{
++	PLOOPBACKDATA ploopback;
++
++
++	ploopback = padapter->ploopback;
++	if (ploopback) {
++		rtw_mfree((u8*)ploopback, sizeof(LOOPBACKDATA));
++		padapter->ploopback = NULL;
++	}
++}
++
++static s32 initpseudoadhoc(PADAPTER padapter)
++{
++	NDIS_802_11_NETWORK_INFRASTRUCTURE networkType;
++	s32 err;
++	_irqL irqL;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_queue *queue = &pmlmepriv->scanned_queue;
++	
++	networkType = Ndis802_11IBSS;
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	_enter_critical_bh(&queue->lock, &irqL);	
++	err = rtw_set_802_11_infrastructure_mode(padapter, networkType);
++	_exit_critical_bh(&queue->lock, &irqL);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++	if (err == _FALSE) return _FAIL;
++
++	err = rtw_setopmode_cmd(padapter, networkType);
++	if (err == _FAIL) return _FAIL;
++
++	return _SUCCESS;
++}
++
++static s32 createpseudoadhoc(PADAPTER padapter)
++{
++	NDIS_802_11_AUTHENTICATION_MODE authmode;
++	struct mlme_priv *pmlmepriv;
++	NDIS_802_11_SSID *passoc_ssid;
++	WLAN_BSSID_EX *pdev_network;
++	u8 *pibss;
++	u8 ssid[] = "pseduo_ad-hoc";
++	s32 err;
++	_irqL irqL;
++
++
++	pmlmepriv = &padapter->mlmepriv;
++
++	authmode = Ndis802_11AuthModeOpen;
++	err = rtw_set_802_11_authentication_mode(padapter, authmode);
++	if (err == _FALSE) return _FAIL;
++
++	passoc_ssid = &pmlmepriv->assoc_ssid;
++	_rtw_memset(passoc_ssid, 0, sizeof(NDIS_802_11_SSID));
++	passoc_ssid->SsidLength = sizeof(ssid) - 1;
++	_rtw_memcpy(passoc_ssid->Ssid, ssid, passoc_ssid->SsidLength);
++
++	pdev_network = &padapter->registrypriv.dev_network;
++	pibss = padapter->registrypriv.dev_network.MacAddress;
++	_rtw_memcpy(&pdev_network->Ssid, passoc_ssid, sizeof(NDIS_802_11_SSID));
++
++	rtw_update_registrypriv_dev_network(padapter);
++	rtw_generate_random_ibss(pibss);
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	pmlmepriv->fw_state = WIFI_ADHOC_MASTER_STATE;
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++#if 0
++	err = rtw_createbss_cmd(padapter);
++	if (err == _FAIL) return _FAIL;
++#else
++{
++	struct wlan_network *pcur_network;
++	struct sta_info *psta;
++
++	//3  create a new psta
++	pcur_network = &pmlmepriv->cur_network;
++
++	//clear psta in the cur_network, if any
++	psta = rtw_get_stainfo(&padapter->stapriv, pcur_network->network.MacAddress);
++	if (psta) rtw_free_stainfo(padapter, psta);
++
++	psta = rtw_alloc_stainfo(&padapter->stapriv, pibss);
++	if (psta == NULL) return _FAIL;
++
++	//3  join psudo AdHoc
++	pcur_network->join_res = 1;
++	pcur_network->aid = psta->aid = 1;
++	_rtw_memcpy(&pcur_network->network, pdev_network, get_WLAN_BSSID_EX_sz(pdev_network));
++
++	// set msr to WIFI_FW_ADHOC_STATE
++#if 0
++	Set_NETYPE0_MSR(padapter, WIFI_FW_ADHOC_STATE);
++#else
++	{
++		u8 val8;
++
++		val8 = rtw_read8(padapter, MSR);
++		val8 &= 0xFC; // clear NETYPE0
++		val8 |= WIFI_FW_ADHOC_STATE & 0x3;
++		rtw_write8(padapter, MSR, val8);
++	}
++#endif
++}
++#endif
++
++	return _SUCCESS;
++}
++
++extern void rtl8723a_cal_txdesc_chksum(struct tx_desc *ptxdesc);
++extern void rtl8723a_fill_default_txdesc(struct xmit_frame *pxmitframe, u8 *pbuf);
++
++static struct xmit_frame* createloopbackpkt(PADAPTER padapter, u32 size)
++{
++	struct xmit_priv *pxmitpriv;
++	struct xmit_frame *pframe;
++	struct xmit_buf *pxmitbuf;
++	struct pkt_attrib *pattrib;
++	struct tx_desc *desc;
++	u8 *pkt_start, *pkt_end, *ptr;
++	struct rtw_ieee80211_hdr *hdr;
++	s32 bmcast;
++	_irqL irqL;
++
++
++	if ((TXDESC_SIZE + WLANHDR_OFFSET + size) > MAX_XMITBUF_SZ) return NULL;
++
++	pxmitpriv = &padapter->xmitpriv;
++	pframe = NULL;
++
++	//2 1. allocate xmit frame
++	pframe = rtw_alloc_xmitframe(pxmitpriv);
++	if (pframe == NULL) return NULL;
++	pframe->padapter = padapter;
++
++	//2 2. allocate xmit buffer
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++	pxmitbuf = rtw_alloc_xmitbuf(pxmitpriv);
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++	if (pxmitbuf == NULL) {
++		rtw_free_xmitframe(pxmitpriv, pframe);
++		return NULL;
++	}
++
++	pframe->pxmitbuf = pxmitbuf;
++	pframe->buf_addr = pxmitbuf->pbuf;
++	pxmitbuf->priv_data = pframe;
++
++	//2 3. update_attrib()
++	pattrib = &pframe->attrib;
++
++	// init xmitframe attribute
++	_rtw_memset(pattrib, 0, sizeof(struct pkt_attrib));
++
++	pattrib->ether_type = 0x8723;
++	_rtw_memcpy(pattrib->src, padapter->eeprompriv.mac_addr, ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++	_rtw_memset(pattrib->dst, 0xFF, ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++//	pattrib->pctrl = 0;
++//	pattrib->dhcp_pkt = 0;
++//	pattrib->pktlen = 0;
++	pattrib->ack_policy = 0;
++//	pattrib->pkt_hdrlen = ETH_HLEN;
++	pattrib->hdrlen = WLAN_HDR_A3_LEN;
++	pattrib->subtype = WIFI_DATA;
++	pattrib->priority = 0;
++	pattrib->qsel = pattrib->priority;
++//	do_queue_select(padapter, pattrib);
++	pattrib->nr_frags = 1;
++	pattrib->encrypt = 0;
++	pattrib->bswenc = _FALSE;
++	pattrib->qos_en = _FALSE;
++
++	bmcast = IS_MCAST(pattrib->ra);
++	if (bmcast) {
++		pattrib->mac_id = 1;
++		pattrib->psta = rtw_get_bcmc_stainfo(padapter);
++	} else {
++		pattrib->mac_id = 0;
++		pattrib->psta = rtw_get_stainfo(&padapter->stapriv, get_bssid(&padapter->mlmepriv));
++	}
++
++	pattrib->pktlen = size;
++	pattrib->last_txcmdsz = pattrib->hdrlen + pattrib->pktlen;
++
++	//2 4. fill TX descriptor
++	desc = (struct tx_desc*)pframe->buf_addr;
++	_rtw_memset(desc, 0, TXDESC_SIZE);
++
++	rtl8723a_fill_default_txdesc(pframe, (u8*)desc);
++
++	// Hw set sequence number
++	((PTXDESC)desc)->hwseq_en = 0; // HWSEQ_EN, 0:disable, 1:enable
++//	((PTXDESC)desc)->hwseq_sel = 0; // HWSEQ_SEL
++
++	((PTXDESC)desc)->disdatafb = 1;
++
++	// convert to little endian
++	desc->txdw0 = cpu_to_le32(desc->txdw0);
++	desc->txdw1 = cpu_to_le32(desc->txdw1);
++	desc->txdw2 = cpu_to_le32(desc->txdw2);
++	desc->txdw3 = cpu_to_le32(desc->txdw3);
++	desc->txdw4 = cpu_to_le32(desc->txdw4);
++	desc->txdw5 = cpu_to_le32(desc->txdw5);
++	desc->txdw6 = cpu_to_le32(desc->txdw6);
++	desc->txdw7 = cpu_to_le32(desc->txdw7);
++#ifdef CONFIG_PCI_HCI
++	desc->txdw8 = cpu_to_le32(desc->txdw8);
++	desc->txdw9 = cpu_to_le32(desc->txdw9);
++	desc->txdw10 = cpu_to_le32(desc->txdw10);
++	desc->txdw11 = cpu_to_le32(desc->txdw11);
++	desc->txdw12 = cpu_to_le32(desc->txdw12);
++	desc->txdw13 = cpu_to_le32(desc->txdw13);
++	desc->txdw14 = cpu_to_le32(desc->txdw14);
++	desc->txdw15 = cpu_to_le32(desc->txdw15);
++#endif
++
++	rtl8723a_cal_txdesc_chksum(desc);
++
++	//2 5. coalesce
++	pkt_start = pframe->buf_addr + TXDESC_SIZE;
++	pkt_end = pkt_start + pattrib->last_txcmdsz;
++
++	//3 5.1. make wlan header, make_wlanhdr()
++	hdr = (struct rtw_ieee80211_hdr *)pkt_start;
++	SetFrameSubType(&hdr->frame_ctl, pattrib->subtype);
++	_rtw_memcpy(hdr->addr1, pattrib->dst, ETH_ALEN); // DA
++	_rtw_memcpy(hdr->addr2, pattrib->src, ETH_ALEN); // SA
++	_rtw_memcpy(hdr->addr3, get_bssid(&padapter->mlmepriv), ETH_ALEN); // RA, BSSID
++
++	//3 5.2. make payload
++	ptr = pkt_start + pattrib->hdrlen;
++	get_random_bytes(ptr, pkt_end - ptr);
++
++	pxmitbuf->len = TXDESC_SIZE + pattrib->last_txcmdsz;
++	pxmitbuf->ptail += pxmitbuf->len;
++
++	return pframe;
++}
++
++static void freeloopbackpkt(PADAPTER padapter, struct xmit_frame *pframe)
++{
++	struct xmit_priv *pxmitpriv;
++	struct xmit_buf *pxmitbuf;
++
++
++	pxmitpriv = &padapter->xmitpriv;
++	pxmitbuf = pframe->pxmitbuf;
++
++	rtw_free_xmitframe(pxmitpriv, pframe);
++	rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++}
++
++extern u32 get_txfifo_hwaddr(struct xmit_frame *pxmitframe);
++
++thread_return lbk_thread(thread_context context)
++{
++	s32 err;
++	PADAPTER padapter;
++	PLOOPBACKDATA ploopback;
++	struct xmit_frame *pxmitframe;
++	u32 cnt, ok, fail, i, headerlen;
++	u32 pktsize;
++	u32 ff_hwaddr;
++
++
++	padapter = (PADAPTER)context;
++	ploopback = padapter->ploopback;
++	if (ploopback == NULL) return -1;
++	cnt = 0;
++	ok = 0;
++	fail = 0;
++
++	daemonize("%s", "RTW_LBK_THREAD");
++	allow_signal(SIGTERM);
++
++	do {
++		if (ploopback->size == 0) {
++			get_random_bytes(&pktsize, 4);
++			pktsize = (pktsize % 1535) + 1; // 1~1535
++		} else
++			pktsize = ploopback->size;
++		
++		pxmitframe = createloopbackpkt(padapter, pktsize);
++		if (pxmitframe == NULL) {
++			sprintf(ploopback->msg, "loopback FAIL! 3. create Packet FAIL!");
++			break;
++		}
++		
++		ploopback->txsize = TXDESC_SIZE + pxmitframe->attrib.last_txcmdsz;
++		_rtw_memcpy(ploopback->txbuf, pxmitframe->buf_addr, ploopback->txsize);
++		
++		ff_hwaddr = get_txfifo_hwaddr(pxmitframe);
++		rtw_write_port(padapter, ff_hwaddr, ploopback->txsize, ploopback->txbuf);
++		cnt++;
++
++		_rtw_down_sema(&ploopback->sema);
++
++{
++		PHAL_DATA_TYPE phal;
++		struct recv_stat *prxstat;
++		struct recv_stat report;
++		PRXREPORT prxreport;
++		u32 drvinfosize;
++		u32 rxpktsize;
++		u8 fcssize;
++
++		prxstat = (struct recv_stat*)ploopback->rxbuf;
++		report.rxdw0 = le32_to_cpu(prxstat->rxdw0);
++		report.rxdw1 = le32_to_cpu(prxstat->rxdw1);
++		report.rxdw2 = le32_to_cpu(prxstat->rxdw2);
++		report.rxdw3 = le32_to_cpu(prxstat->rxdw3);
++		report.rxdw4 = le32_to_cpu(prxstat->rxdw4);
++		report.rxdw5 = le32_to_cpu(prxstat->rxdw5);
++
++		prxreport = (PRXREPORT)&report;
++		drvinfosize = prxreport->drvinfosize << 3;
++		rxpktsize = prxreport->pktlen;
++
++		phal = GET_HAL_DATA(padapter);
++		if (phal->ReceiveConfig & RCR_APPFCS) fcssize = IEEE80211_FCS_LEN;
++		else fcssize = 0;
++
++		if ((ploopback->txsize - TXDESC_SIZE) != (rxpktsize - fcssize)) {
++			printk("%s: cnt=%d, size not match! tx=%d rx=%d\n",
++				__func__, i, ploopback->txsize - TXDESC_SIZE,
++				rxpktsize - fcssize);
++			err = _FALSE;
++		} else {
++			err = _rtw_memcmp(ploopback->txbuf + TXDESC_SIZE,\
++							  ploopback->rxbuf + RXDESC_SIZE + drvinfosize,\
++							  ploopback->txsize - TXDESC_SIZE);
++		}
++}
++
++		if (err == _TRUE)
++			ok++;
++		else
++			fail++;
++
++		ploopback->txsize = 0;
++		_rtw_memset(ploopback->txbuf, 0, 0x8000);
++		ploopback->rxsize = 0;
++		_rtw_memset(ploopback->rxbuf, 0, 0x8000);
++
++		freeloopbackpkt(padapter, pxmitframe);
++		pxmitframe = NULL;
++
++		if (signal_pending(current)) {
++			flush_signals(current);
++		}
++
++		if ((ploopback->bstop == _TRUE) ||
++			((ploopback->cnt != 0) && (ploopback->cnt == cnt)))
++		{
++			u32 ok_rate, fail_rate;
++			ok_rate = (ok*100)/cnt;
++			fail_rate = (fail*100)/cnt;
++			sprintf(ploopback->msg, "loopback result: ok=%d%%(%d/%d),error=%d%%(%d/%d)", ok_rate, ok, cnt, fail_rate, fail, cnt);
++			break;
++		}
++	} while (1);
++
++	ploopback->bstop = _TRUE;
++
++	thread_exit();
++}
++
++static void loopbackTest(PADAPTER padapter, u32 cnt, u32 size, u8* pmsg)
++{
++	PLOOPBACKDATA ploopback;
++	u32 len;
++	s32 err;
++
++
++	ploopback = padapter->ploopback;
++
++	if (ploopback)
++	{
++		ploopback->bstop = _TRUE;
++		len = 0;
++		do {
++			len = strlen(ploopback->msg);
++			if (len) break;
++			rtw_msleep_os(1);
++		} while (1);
++		_rtw_memcpy(pmsg, ploopback->msg, len+1);
++		freeLoopback(padapter);
++		return;
++	}
++	
++	// create pseudo ad-hoc connection
++	err = initpseudoadhoc(padapter);
++	if (err == _FAIL) {
++		sprintf(pmsg, "loopback FAIL! 1.1 init ad-hoc FAIL!");
++		return;
++	}
++
++	err = createpseudoadhoc(padapter);
++	if (err == _FAIL) {
++		sprintf(pmsg, "loopback FAIL! 1.2 create ad-hoc master FAIL!");
++		return;
++	}
++
++	err = initLoopback(padapter);
++	if (err) {
++		sprintf(pmsg, "loopback FAIL! 2. init FAIL! error code=%d", err);
++		return;
++	}
++
++	ploopback = padapter->ploopback;
++
++	ploopback->bstop = _FALSE;
++	ploopback->cnt = cnt;
++	ploopback->size = size;
++	ploopback->lbkthread = kthread_run(lbk_thread, padapter, "RTW_LBK_THREAD");
++	if (IS_ERR(padapter->lbkthread))
++	{
++		freeLoopback(padapter);
++		sprintf(pmsg, "loopback start FAIL! cnt=%d", cnt);
++		return;
++	}
++
++	sprintf(pmsg, "loopback start! cnt=%d", cnt);
++}
++
++extern u8 _InitPowerOn(PADAPTER padapter);
++extern s32 rtl8723a_FirmwareDownload(PADAPTER padapter);
++
++static int rtw_test(
++	struct net_device *dev,
++	struct iw_request_info *info,
++	union iwreq_data *wrqu, char *extra)
++{
++	u32 len;
++	u8 *pbuf, *pch;
++	char *ptmp;
++	u8 *delim = ",";
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++
++	printk("+%s\n", __func__);
++	len = wrqu->data.length;
++
++	pbuf = (u8*)rtw_zmalloc(len);
++	if (pbuf == NULL) {
++		printk("%s: no memory!\n", __func__);
++		return -ENOMEM;
++	}
++
++	if (copy_from_user(pbuf, wrqu->data.pointer, len)) {
++		rtw_mfree(pbuf, len);
++		printk("%s: copy from user fail!\n", __func__);
++		return -EFAULT;
++	}
++	printk("%s: string=\"%s\"\n", __func__, pbuf);
++
++	ptmp = (char*)pbuf;
++	pch = strsep(&ptmp, delim);
++	if ((pch == NULL) || (strlen(pch) == 0)) {
++		rtw_mfree(pbuf, len);
++		printk("%s: parameter error(level 1)!\n", __func__);
++		return -EFAULT;
++	}
++
++#ifdef RTL8723A_SDIO_LOOPBACK
++	if (strcmp(pch, "loopback") == 0)
++	{
++		s32 cnt = 0;
++		u32 size = 64;
++
++		pch = strsep(&ptmp, delim);
++		if ((pch == NULL) || (strlen(pch) == 0)) {
++			rtw_mfree(pbuf, len);
++			printk("%s: parameter error(level 2)!\n", __func__);
++			return -EFAULT;
++		}
++
++		sscanf(pch, "%d", &cnt);
++		printk("%s: loopback cnt=%d\n", __func__, cnt);
++
++		pch = strsep(&ptmp, delim);
++		if ((pch == NULL) || (strlen(pch) == 0)) {
++			rtw_mfree(pbuf, len);
++			printk("%s: parameter error(level 2)!\n", __func__);
++			return -EFAULT;
++		}
++
++		sscanf(pch, "%d", &size);
++		printk("%s: loopback size=%d\n", __func__, size);
++
++		loopbackTest(padapter, cnt, size, extra);
++		wrqu->data.length = strlen(extra) + 1;
++
++		rtw_mfree(pbuf, len);
++		return 0;
++	}
++#endif
++
++	if (strcmp(pch, "poweron") == 0)
++	{
++		s32 ret;
++
++		ret = _InitPowerOn(padapter);
++		if (_FAIL == ret)
++			printk("%s: power on FAIL!\n", __func__);
++		else
++			printk("%s: power on OK.\n", __func__);
++
++		rtw_mfree(pbuf, len);
++		return 0;
++	}
++
++	if (strcmp(pch, "dlfw") == 0)
++	{
++		s32 ret;
++
++		ret = rtl8723a_FirmwareDownload(padapter);
++		if (_FAIL == ret)
++			printk("%s: download FW FAIL!\n", __func__);
++		else
++			printk("%s: download FW OK.\n", __func__);
++
++		rtw_mfree(pbuf, len);
++		return 0;
++	}
++
++	rtw_mfree(pbuf, len);
++	return 0;
++}
++#else
++static int rtw_test(
++	struct net_device *dev,
++	struct iw_request_info *info,
++	union iwreq_data *wrqu, char *extra)
++{
++	printk("%s\n", __func__);
++	return 0;
++}
++#endif //RTL8723A_SDIO_LOOPBACK
++
++#include <rtw_android.h>
++int rtw_ioctl(struct net_device *dev, struct ifreq *rq, int cmd)
++{
++	struct iwreq *wrq = (struct iwreq *)rq;
++	int ret=0;
++
++	switch (cmd)
++	{
++	    case RTL_IOCTL_WPA_SUPPLICANT:	
++			ret = wpa_supplicant_ioctl(dev, &wrq->u.data);
++			break;
++#ifdef CONFIG_AP_MODE
++		case RTL_IOCTL_HOSTAPD:
++			ret = rtw_hostapd_ioctl(dev, &wrq->u.data);			
++			break;
++#ifdef CONFIG_NO_WIRELESS_HANDLERS			
++		case SIOCSIWMODE:
++			ret = rtw_wx_set_mode(dev, NULL, &wrq->u, NULL);
++			break;
++#endif			
++#endif
++		case (SIOCDEVPRIVATE+1):
++			ret = rtw_android_priv_cmd(dev, rq, cmd);
++			break;
++	    default:
++			ret = -EOPNOTSUPP;
++			break;
++	}
++	
++	return ret;
++}
++
++static iw_handler rtw_handlers[] =
++{
++	NULL,					/* SIOCSIWCOMMIT */
++	rtw_wx_get_name,		/* SIOCGIWNAME */
++	dummy,					/* SIOCSIWNWID */
++	dummy,					/* SIOCGIWNWID */
++	rtw_wx_set_freq,		/* SIOCSIWFREQ */
++	rtw_wx_get_freq,		/* SIOCGIWFREQ */
++	rtw_wx_set_mode,		/* SIOCSIWMODE */
++	rtw_wx_get_mode,		/* SIOCGIWMODE */
++	dummy,					/* SIOCSIWSENS */
++	rtw_wx_get_sens,		/* SIOCGIWSENS */
++	NULL,					/* SIOCSIWRANGE */
++	rtw_wx_get_range,		/* SIOCGIWRANGE */
++	rtw_wx_set_priv,		/* SIOCSIWPRIV */
++	NULL,					/* SIOCGIWPRIV */
++	NULL,					/* SIOCSIWSTATS */
++	NULL,					/* SIOCGIWSTATS */
++	dummy,					/* SIOCSIWSPY */
++	dummy,					/* SIOCGIWSPY */
++	NULL,					/* SIOCGIWTHRSPY */
++	NULL,					/* SIOCWIWTHRSPY */
++	rtw_wx_set_wap,		/* SIOCSIWAP */
++	rtw_wx_get_wap,		/* SIOCGIWAP */
++	rtw_wx_set_mlme,		/* request MLME operation; uses struct iw_mlme */
++	dummy,					/* SIOCGIWAPLIST -- depricated */
++	rtw_wx_set_scan,		/* SIOCSIWSCAN */
++	rtw_wx_get_scan,		/* SIOCGIWSCAN */
++	rtw_wx_set_essid,		/* SIOCSIWESSID */
++	rtw_wx_get_essid,		/* SIOCGIWESSID */
++	dummy,					/* SIOCSIWNICKN */
++	rtw_wx_get_nick,		/* SIOCGIWNICKN */
++	NULL,					/* -- hole -- */
++	NULL,					/* -- hole -- */
++	rtw_wx_set_rate,		/* SIOCSIWRATE */
++	rtw_wx_get_rate,		/* SIOCGIWRATE */
++	rtw_wx_set_rts,			/* SIOCSIWRTS */
++	rtw_wx_get_rts,			/* SIOCGIWRTS */
++	rtw_wx_set_frag,		/* SIOCSIWFRAG */
++	rtw_wx_get_frag,		/* SIOCGIWFRAG */
++	dummy,					/* SIOCSIWTXPOW */
++	dummy,					/* SIOCGIWTXPOW */
++	dummy,					/* SIOCSIWRETRY */
++	rtw_wx_get_retry,		/* SIOCGIWRETRY */
++	rtw_wx_set_enc,			/* SIOCSIWENCODE */
++	rtw_wx_get_enc,			/* SIOCGIWENCODE */
++	dummy,					/* SIOCSIWPOWER */
++	rtw_wx_get_power,		/* SIOCGIWPOWER */
++	NULL,					/*---hole---*/
++	NULL,					/*---hole---*/
++	rtw_wx_set_gen_ie,		/* SIOCSIWGENIE */
++	NULL,					/* SIOCGWGENIE */
++	rtw_wx_set_auth,		/* SIOCSIWAUTH */
++	NULL,					/* SIOCGIWAUTH */
++	rtw_wx_set_enc_ext,		/* SIOCSIWENCODEEXT */
++	NULL,					/* SIOCGIWENCODEEXT */
++	rtw_wx_set_pmkid,		/* SIOCSIWPMKSA */
++	NULL,					/*---hole---*/
++}; 
++
++#if defined(CONFIG_MP_INCLUDED) && defined(CONFIG_MP_IWPRIV_SUPPORT)
++
++static const struct iw_priv_args rtw_private_args[] =
++{	
++	{ SIOCIWFIRSTPRIV + 0x00, IW_PRIV_TYPE_CHAR | 1024, 0 , ""},  //set 
++	{ SIOCIWFIRSTPRIV + 0x01, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK , ""},//get
++/* --- sub-ioctls definitions --- */   
++		{ MP_START , IW_PRIV_TYPE_CHAR | 1024, 0, "mp_start" }, //set
++		{ MP_PHYPARA, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_phypara" },//get
++		{ MP_STOP , IW_PRIV_TYPE_CHAR | 1024, 0, "mp_stop" }, //set
++		{ MP_CHANNEL , IW_PRIV_TYPE_CHAR | 1024 , IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_channel" },//get
++		{ MP_BANDWIDTH , IW_PRIV_TYPE_CHAR | 1024, 0, "mp_bandwidth"}, //set
++		{ MP_RATE , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_rate" },//get
++		{ MP_RESET_STATS , IW_PRIV_TYPE_CHAR | 1024, 0, "mp_reset_stats"},
++		{ MP_QUERY , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK , "mp_query"}, //get
++		{ MP_NULL, IW_PRIV_TYPE_CHAR | 128, 0,"NULL"},//set
++		{ READ_REG , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "read_reg" },
++		{ MP_NULL, IW_PRIV_TYPE_CHAR | 128, 0,"NULL"},//set
++		{ MP_RATE , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_rate" },
++		{ MP_NULL, IW_PRIV_TYPE_CHAR | 128, 0,"NULL"},//set
++		{ READ_RF , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "read_rf" },
++		{ MP_NULL, IW_PRIV_TYPE_CHAR | 128, 0,"NULL"},//set
++		{ MP_PSD , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_psd"}, 
++		{ MP_NULL, IW_PRIV_TYPE_CHAR | 128, 0,"NULL"},//set
++		{ MP_DUMP, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_dump" },
++		{ MP_NULL, IW_PRIV_TYPE_CHAR | 128, 0,"NULL"},//set
++		{ MP_TXPOWER , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_txpower"},
++		{ MP_NULL, IW_PRIV_TYPE_CHAR | 128, 0,"NULL"},//set
++		{ MP_ANT_TX , IW_PRIV_TYPE_CHAR | 1024,  IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_ant_tx"},
++		{ MP_NULL, IW_PRIV_TYPE_CHAR | 128, 0,"NULL"},//set
++		{ MP_ANT_RX , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_ant_rx"},
++		{ MP_NULL, IW_PRIV_TYPE_CHAR | 128, 0,"NULL"},//set
++		{ WRITE_REG , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "write_reg" },
++		{ MP_NULL, IW_PRIV_TYPE_CHAR | 128, 0,"NULL"},//set
++		{ WRITE_RF , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "write_rf" },
++		{ MP_NULL, IW_PRIV_TYPE_CHAR | 128, 0,"NULL"},//set
++		{ MP_CTX , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_ctx"},
++		{ MP_NULL, IW_PRIV_TYPE_CHAR | 128, 0,"NULL"},//set
++		{ MP_ARX , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_arx"},
++		{ MP_ANT_RX , IW_PRIV_TYPE_CHAR | 1024, 0, "mp_ant_rx"},
++		{ MP_THER , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_ther"},
++		{ EFUSE_SET, IW_PRIV_TYPE_CHAR | 1024, 0, "efuse_set" },
++		{ EFUSE_GET, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "efuse_get" },
++		{ MP_NULL , IW_PRIV_TYPE_CHAR | 1024, 0, "NULL"},
++		{ MP_PWRTRK, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_pwrtrk" },
++		{ MP_IOCTL, IW_PRIV_TYPE_CHAR | 1024, 0, "mp_ioctl"}, // mp_ioctl	
++		
++	
++	{ SIOCIWFIRSTPRIV + 0x02, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK , "test"},//set
++};
++
++
++static iw_handler rtw_private_handler[] = 
++{
++	rtw_mp_set,
++	rtw_mp_get,
++};
++
++#else // not inlucde MP
++
++static const struct iw_priv_args rtw_private_args[] = {
++	{
++		SIOCIWFIRSTPRIV + 0x0,
++		IW_PRIV_TYPE_CHAR | 0x7FF, 0, "write"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x1,
++		IW_PRIV_TYPE_CHAR | 0x7FF,
++		IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_FIXED | IFNAMSIZ, "read"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x2, 0, 0, "driver_ext"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x3, 0, 0, "mp_ioctl"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x4,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, 0, "apinfo"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x5,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 2, 0, "setpid"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x6,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, 0, "wps_start"
++	},
++//for PLATFORM_MT53XX	
++	{
++		SIOCIWFIRSTPRIV + 0x7,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, 0, "get_sensitivity"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x8,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, 0, "wps_prob_req_ie"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x9,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, 0, "wps_assoc_req_ie"
++	},
++
++//for RTK_DMP_PLATFORM	
++	{
++		SIOCIWFIRSTPRIV + 0xA,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, 0, "channel_plan"
++	},
++
++	{
++		SIOCIWFIRSTPRIV + 0xB,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 2, 0, "dbg"
++	},	
++	{
++		SIOCIWFIRSTPRIV + 0xC,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 3, 0, "rfw"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0xD,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 2, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_FIXED | IFNAMSIZ, "rfr"
++	},
++#ifdef CONFIG_WOWLAN
++	{
++		SIOCIWFIRSTPRIV + 0xE,0,0, "wowlan_ctrl"
++	},
++#endif // CONFIG_WOWLAN
++	{
++		SIOCIWFIRSTPRIV + 0x10,
++		IW_PRIV_TYPE_CHAR | 1024, 0, "p2p_set"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x11,
++		IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK , "p2p_get"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x12, 0, 0, "NULL"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x13,
++		IW_PRIV_TYPE_CHAR | 64, IW_PRIV_TYPE_CHAR | 64 , "p2p_get2"
++	},	
++	{
++		SIOCIWFIRSTPRIV + 0x14,
++		IW_PRIV_TYPE_CHAR  | 64, 0, "tdls"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x15,
++		IW_PRIV_TYPE_CHAR | P2P_PRIVATE_IOCTL_SET_LEN, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_FIXED | P2P_PRIVATE_IOCTL_SET_LEN , "tdls_get"
++	},	
++	{
++		SIOCIWFIRSTPRIV + 0x16,
++		IW_PRIV_TYPE_CHAR | 64, 0, "pm_set"
++	},
++
++	{SIOCIWFIRSTPRIV + 0x18, IW_PRIV_TYPE_CHAR | IFNAMSIZ , 0 , "rereg_nd_name"},
++
++	{SIOCIWFIRSTPRIV + 0x1A, IW_PRIV_TYPE_CHAR | 128, 0, "efuse_set"},
++	{SIOCIWFIRSTPRIV + 0x1B, IW_PRIV_TYPE_CHAR | 128, IW_PRIV_TYPE_CHAR |IW_PRIV_SIZE_FIXED |0x700 ,"efuse_get"},
++	{
++		SIOCIWFIRSTPRIV + 0x1D,
++		IW_PRIV_TYPE_CHAR | 40, IW_PRIV_TYPE_CHAR | 0x7FF, "test"
++	},
++#ifdef CONFIG_INTEL_WIDI
++	{
++		SIOCIWFIRSTPRIV + 0x1E,
++		IW_PRIV_TYPE_CHAR | 1024, 0, "widi_set"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x1F,
++		IW_PRIV_TYPE_CHAR | 128, 0, "widi_prob_req"
++	},
++#endif // CONFIG_INTEL_WIDI
++};
++
++static iw_handler rtw_private_handler[] = 
++{
++	rtw_wx_write32,					//0x00
++	rtw_wx_read32,					//0x01
++	rtw_drvext_hdl,					//0x02
++	rtw_mp_ioctl_hdl,				//0x03
++
++// for MM DTV platform
++	rtw_get_ap_info,					//0x04
++
++	rtw_set_pid,						//0x05
++	rtw_wps_start,					//0x06
++
++// for PLATFORM_MT53XX
++	rtw_wx_get_sensitivity,			//0x07
++	rtw_wx_set_mtk_wps_probe_ie,	//0x08
++	rtw_wx_set_mtk_wps_ie,			//0x09
++
++// for RTK_DMP_PLATFORM
++// Set Channel depend on the country code
++	rtw_wx_set_channel_plan,		//0x0A
++
++	rtw_dbg_port,					//0x0B
++	rtw_wx_write_rf,					//0x0C
++	rtw_wx_read_rf,					//0x0D
++
++#ifdef CONFIG_WOWLAN
++	rtw_wowlan_ctrl,					//0x0E
++#else
++	rtw_wx_priv_null,				//0x0E
++#endif //CONFIG_WOWLAN
++	rtw_wx_priv_null,				//0x0F
++
++	rtw_p2p_set,					//0x10
++	rtw_p2p_get,					//0x11
++	NULL,							//0x12
++	rtw_p2p_get2,					//0x13
++
++	rtw_tdls,						//0x14
++	rtw_tdls_get,					//0x15
++
++	rtw_pm_set,						//0x16
++	rtw_wx_priv_null,				//0x17
++	rtw_rereg_nd_name,				//0x18
++	rtw_wx_priv_null,				//0x19
++
++	rtw_mp_efuse_set,				//0x1A
++	rtw_mp_efuse_get,				//0x1B
++	NULL,							// 0x1C is reserved for hostapd
++	rtw_test	,						// 0x1D
++#ifdef CONFIG_INTEL_WIDI
++	rtw_widi_set,					//0x1E
++	rtw_widi_set_probe_request,		//0x1F
++#endif // CONFIG_INTEL_WIDI
++};
++
++#endif // #if defined(CONFIG_MP_INCLUDED) && defined(CONFIG_MP_IWPRIV_SUPPORT)
++
++#if WIRELESS_EXT >= 17	
++static struct iw_statistics *rtw_get_wireless_stats(struct net_device *dev)
++{
++       _adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	   struct iw_statistics *piwstats=&padapter->iwstats;
++	int tmp_level = 0;
++	int tmp_qual = 0;
++	int tmp_noise = 0;
++
++	if (check_fwstate(&padapter->mlmepriv, _FW_LINKED) != _TRUE)
++	{
++		piwstats->qual.qual = 0;
++		piwstats->qual.level = 0;
++		piwstats->qual.noise = 0;
++		//DBG_871X("No link  level:%d, qual:%d, noise:%d\n", tmp_level, tmp_qual, tmp_noise);
++	}
++	else{
++		#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++		tmp_level = translate_percentage_to_dbm(padapter->recvpriv.signal_strength); 
++		#else
++		tmp_level = padapter->recvpriv.signal_strength;
++		#endif
++		
++		tmp_qual = padapter->recvpriv.signal_qual;
++		tmp_noise =padapter->recvpriv.noise;		
++		//DBG_871X("level:%d, qual:%d, noise:%d, rssi (%d)\n", tmp_level, tmp_qual, tmp_noise,padapter->recvpriv.rssi);
++
++		piwstats->qual.level = tmp_level;
++		piwstats->qual.qual = tmp_qual;
++		piwstats->qual.noise = tmp_noise;
++	}
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,14))
++	piwstats->qual.updated = IW_QUAL_ALL_UPDATED ;//|IW_QUAL_DBM;
++#else
++#ifdef RTK_DMP_PLATFORM
++	//IW_QUAL_DBM= 0x8, if driver use this flag, wireless extension will show value of dbm.
++	//remove this flag for show percentage 0~100
++	piwstats->qual.updated = 0x07;
++#else
++	piwstats->qual.updated = 0x0f;
++#endif
++#endif
++
++	#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++	piwstats->qual.updated = piwstats->qual.updated | IW_QUAL_DBM;
++	#endif
++
++	return &padapter->iwstats;
++}
++#endif
++
++#ifdef CONFIG_WIRELESS_EXT
++struct iw_handler_def rtw_handlers_def =
++{
++	.standard = rtw_handlers,
++	.num_standard = sizeof(rtw_handlers) / sizeof(iw_handler),
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,33)) || defined(CONFIG_WEXT_PRIV)
++	.private = rtw_private_handler,
++	.private_args = (struct iw_priv_args *)rtw_private_args,
++	.num_private = sizeof(rtw_private_handler) / sizeof(iw_handler),
++ 	.num_private_args = sizeof(rtw_private_args) / sizeof(struct iw_priv_args),
++#endif
++#if WIRELESS_EXT >= 17
++	.get_wireless_stats = rtw_get_wireless_stats,
++#endif
++};
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/os_dep/linux/mlme_linux.c b/drivers/net/wireless/rtl8192cu/os_dep/linux/mlme_linux.c
+new file mode 100755
+index 0000000..6fc9f03
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/os_dep/linux/mlme_linux.c
+@@ -0,0 +1,586 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#define _MLME_OSDEP_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <mlme_osdep.h>
++
++
++#ifdef RTK_DMP_PLATFORM
++void Linkup_workitem_callback(struct work_struct *work)
++{
++	struct mlme_priv *pmlmepriv = container_of(work, struct mlme_priv, Linkup_workitem);
++	_adapter *padapter = container_of(pmlmepriv, _adapter, mlmepriv);
++
++_func_enter_;
++
++	RT_TRACE(_module_mlme_osdep_c_,_drv_info_,("+ Linkup_workitem_callback\n"));
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2,6,12))
++	kobject_uevent(&padapter->pnetdev->dev.kobj, KOBJ_LINKUP);
++#else
++	kobject_hotplug(&padapter->pnetdev->class_dev.kobj, KOBJ_LINKUP);
++#endif
++
++_func_exit_;
++}
++
++void Linkdown_workitem_callback(struct work_struct *work)
++{
++	struct mlme_priv *pmlmepriv = container_of(work, struct mlme_priv, Linkdown_workitem);
++	_adapter *padapter = container_of(pmlmepriv, _adapter, mlmepriv);
++
++_func_enter_;
++
++	RT_TRACE(_module_mlme_osdep_c_,_drv_info_,("+ Linkdown_workitem_callback\n"));
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2,6,12))
++	kobject_uevent(&padapter->pnetdev->dev.kobj, KOBJ_LINKDOWN);
++#else
++	kobject_hotplug(&padapter->pnetdev->class_dev.kobj, KOBJ_LINKDOWN);
++#endif
++
++_func_exit_;
++}
++#endif
++
++
++/*
++void sitesurvey_ctrl_handler(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++
++	_sitesurvey_ctrl_handler(adapter);
++
++	_set_timer(&adapter->mlmepriv.sitesurveyctrl.sitesurvey_ctrl_timer, 3000);
++}
++*/
++
++void rtw_join_timeout_handler (void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	_rtw_join_timeout_handler(adapter);
++}
++
++
++void _rtw_scan_timeout_handler (void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	rtw_scan_timeout_handler(adapter);
++}
++
++
++void _dynamic_check_timer_handlder (void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++		 
++	rtw_dynamic_check_timer_handlder(adapter);
++	
++	_set_timer(&adapter->mlmepriv.dynamic_chk_timer, 2000);
++}
++
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++void _rtw_set_scan_deny_timer_hdl(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;	 
++	rtw_set_scan_deny_timer_hdl(adapter);
++}
++#endif
++
++
++void rtw_init_mlme_timer(_adapter *padapter)
++{
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	_init_timer(&(pmlmepriv->assoc_timer), padapter->pnetdev, rtw_join_timeout_handler, padapter);
++	//_init_timer(&(pmlmepriv->sitesurveyctrl.sitesurvey_ctrl_timer), padapter->pnetdev, sitesurvey_ctrl_handler, padapter);
++	_init_timer(&(pmlmepriv->scan_to_timer), padapter->pnetdev, _rtw_scan_timeout_handler, padapter);
++
++	_init_timer(&(pmlmepriv->dynamic_chk_timer), padapter->pnetdev, _dynamic_check_timer_handlder, padapter);
++
++	#ifdef CONFIG_SET_SCAN_DENY_TIMER
++	_init_timer(&(pmlmepriv->set_scan_deny_timer), padapter->pnetdev, _rtw_set_scan_deny_timer_hdl, padapter);
++	#endif
++
++#ifdef RTK_DMP_PLATFORM
++	_init_workitem(&(pmlmepriv->Linkup_workitem), Linkup_workitem_callback, padapter);
++	_init_workitem(&(pmlmepriv->Linkdown_workitem), Linkdown_workitem_callback, padapter);
++#endif
++
++}
++
++extern void rtw_indicate_wx_assoc_event(_adapter *padapter);
++extern void rtw_indicate_wx_disassoc_event(_adapter *padapter);
++
++void rtw_os_indicate_connect(_adapter *adapter)
++{
++
++_func_enter_;	
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_cfg80211_indicate_connect(adapter);
++#endif //CONFIG_IOCTL_CFG80211
++
++	rtw_indicate_wx_assoc_event(adapter);
++	netif_carrier_on(adapter->pnetdev);
++
++	if(adapter->pid[2] !=0)
++		rtw_signal_process(adapter->pid[2], SIGALRM);
++
++#ifdef RTK_DMP_PLATFORM
++	_set_workitem(&adapter->mlmepriv.Linkup_workitem);
++#endif
++
++_func_exit_;	
++
++}
++
++extern void indicate_wx_scan_complete_event(_adapter *padapter);
++void rtw_os_indicate_scan_done( _adapter *padapter, bool aborted)
++{
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_cfg80211_indicate_scan_done(wdev_to_priv(padapter->rtw_wdev), aborted);
++#endif
++	indicate_wx_scan_complete_event(padapter);
++}
++
++static RT_PMKID_LIST   backupPMKIDList[ NUM_PMKID_CACHE ];
++void rtw_reset_securitypriv( _adapter *adapter )
++{
++	u8	backupPMKIDIndex = 0;
++	u8	backupTKIPCountermeasure = 0x00;
++	u32	backupTKIPcountermeasure_time = 0;
++	// add for CONFIG_IEEE80211W, none 11w also can use
++	_irqL irqL;
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++	
++	_enter_critical_bh(&adapter->security_key_mutex, &irqL);
++	
++	if(adapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X)//802.1x
++	{		 
++		// Added by Albert 2009/02/18
++		// We have to backup the PMK information for WiFi PMK Caching test item.
++		//
++		// Backup the btkip_countermeasure information.
++		// When the countermeasure is trigger, the driver have to disconnect with AP for 60 seconds.
++
++		_rtw_memset( &backupPMKIDList[ 0 ], 0x00, sizeof( RT_PMKID_LIST ) * NUM_PMKID_CACHE );
++
++		_rtw_memcpy( &backupPMKIDList[ 0 ], &adapter->securitypriv.PMKIDList[ 0 ], sizeof( RT_PMKID_LIST ) * NUM_PMKID_CACHE );
++		backupPMKIDIndex = adapter->securitypriv.PMKIDIndex;
++		backupTKIPCountermeasure = adapter->securitypriv.btkip_countermeasure;
++		backupTKIPcountermeasure_time = adapter->securitypriv.btkip_countermeasure_time;		
++#ifdef CONFIG_IEEE80211W
++		//reset RX BIP packet number
++		pmlmeext->mgnt_80211w_IPN_rx = 0;
++#endif //CONFIG_IEEE80211W
++		_rtw_memset((unsigned char *)&adapter->securitypriv, 0, sizeof (struct security_priv));
++		//_init_timer(&(adapter->securitypriv.tkip_timer),adapter->pnetdev, rtw_use_tkipkey_handler, adapter);
++
++		// Added by Albert 2009/02/18
++		// Restore the PMK information to securitypriv structure for the following connection.
++		_rtw_memcpy( &adapter->securitypriv.PMKIDList[ 0 ], &backupPMKIDList[ 0 ], sizeof( RT_PMKID_LIST ) * NUM_PMKID_CACHE );
++		adapter->securitypriv.PMKIDIndex = backupPMKIDIndex;
++		adapter->securitypriv.btkip_countermeasure = backupTKIPCountermeasure;
++		adapter->securitypriv.btkip_countermeasure_time = backupTKIPcountermeasure_time;		
++
++		adapter->securitypriv.ndisauthtype = Ndis802_11AuthModeOpen;
++		adapter->securitypriv.ndisencryptstatus = Ndis802_11WEPDisabled;
++
++	}
++	else //reset values in securitypriv 
++	{
++		//if(adapter->mlmepriv.fw_state & WIFI_STATION_STATE)
++		//{
++		struct security_priv *psec_priv=&adapter->securitypriv;
++
++		psec_priv->dot11AuthAlgrthm =dot11AuthAlgrthm_Open;  //open system
++		psec_priv->dot11PrivacyAlgrthm = _NO_PRIVACY_;
++		psec_priv->dot11PrivacyKeyIndex = 0;
++
++		psec_priv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++		psec_priv->dot118021XGrpKeyid = 1;
++
++		psec_priv->ndisauthtype = Ndis802_11AuthModeOpen;
++		psec_priv->ndisencryptstatus = Ndis802_11WEPDisabled;
++		//}
++	}
++	// add for CONFIG_IEEE80211W, none 11w also can use
++	_exit_critical_bh(&adapter->security_key_mutex, &irqL);
++}
++
++void rtw_os_indicate_disconnect( _adapter *adapter )
++{
++   //RT_PMKID_LIST   backupPMKIDList[ NUM_PMKID_CACHE ];
++  
++_func_enter_;
++
++	netif_carrier_off(adapter->pnetdev); // Do it first for tx broadcast pkt after disconnection issue!
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_cfg80211_indicate_disconnect(adapter); 	
++#endif //CONFIG_IOCTL_CFG80211
++
++	rtw_indicate_wx_disassoc_event(adapter);	
++
++#ifdef RTK_DMP_PLATFORM
++	_set_workitem(&adapter->mlmepriv.Linkdown_workitem);
++#endif
++	 //modify for CONFIG_IEEE80211W, none 11w also can use the same command
++	 rtw_reset_securitypriv_cmd(adapter);
++
++_func_exit_;
++
++}
++
++void rtw_report_sec_ie(_adapter *adapter,u8 authmode,u8 *sec_ie)
++{
++	uint	len;
++	u8	*buff,*p,i;
++	union iwreq_data wrqu;
++
++_func_enter_;
++
++	RT_TRACE(_module_mlme_osdep_c_,_drv_info_,("+rtw_report_sec_ie, authmode=%d\n", authmode));
++
++	buff = NULL;
++	if(authmode==_WPA_IE_ID_)
++	{
++		RT_TRACE(_module_mlme_osdep_c_,_drv_info_,("rtw_report_sec_ie, authmode=%d\n", authmode));
++		
++		buff = rtw_malloc(IW_CUSTOM_MAX);
++		
++		_rtw_memset(buff,0,IW_CUSTOM_MAX);
++		
++		p=buff;
++		
++		p+=sprintf(p,"ASSOCINFO(ReqIEs=");
++
++		len = sec_ie[1]+2;
++		len =  (len < IW_CUSTOM_MAX) ? len:IW_CUSTOM_MAX;
++			
++		for(i=0;i<len;i++){
++			p+=sprintf(p,"%02x",sec_ie[i]);
++		}
++
++		p+=sprintf(p,")");
++		
++		_rtw_memset(&wrqu,0,sizeof(wrqu));
++		
++		wrqu.data.length=p-buff;
++		
++		wrqu.data.length = (wrqu.data.length<IW_CUSTOM_MAX) ? wrqu.data.length:IW_CUSTOM_MAX;
++		
++		wireless_send_event(adapter->pnetdev,IWEVCUSTOM,&wrqu,buff);
++
++		if(buff)
++		    rtw_mfree(buff, IW_CUSTOM_MAX);
++		
++	}
++
++_func_exit_;
++
++}
++
++void _survey_timer_hdl (void *FunctionContext)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++	
++	survey_timer_hdl(padapter);
++}
++
++void _link_timer_hdl (void *FunctionContext)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++	link_timer_hdl(padapter);
++}
++
++void _addba_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *psta = (struct sta_info *)FunctionContext;
++	addba_timer_hdl(psta);
++}
++
++#ifdef CONFIG_IEEE80211W
++void _sa_query_timer_hdl (void *FunctionContext)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++	sa_query_timer_hdl(padapter);
++}
++#endif //CONFIG_IEEE80211W
++
++void init_addba_retry_timer(_adapter *padapter, struct sta_info *psta)
++{
++
++	_init_timer(&psta->addba_retry_timer, padapter->pnetdev, _addba_timer_hdl, psta);
++}
++
++/*
++void _reauth_timer_hdl(void *FunctionContext)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++	reauth_timer_hdl(padapter);
++}
++
++void _reassoc_timer_hdl(void *FunctionContext)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++	reassoc_timer_hdl(padapter);
++}
++*/
++
++void init_mlme_ext_timer(_adapter *padapter)
++{	
++	struct	mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	_init_timer(&pmlmeext->survey_timer, padapter->pnetdev, _survey_timer_hdl, padapter);
++	_init_timer(&pmlmeext->link_timer, padapter->pnetdev, _link_timer_hdl, padapter);
++#ifdef CONFIG_IEEE80211W
++	_init_timer(&pmlmeext->sa_query_timer, padapter->pnetdev, _sa_query_timer_hdl, padapter);
++#endif //CONFIG_IEEE80211W
++	//_init_timer(&pmlmeext->ADDBA_timer, padapter->pnetdev, _addba_timer_hdl, padapter);
++
++	//_init_timer(&pmlmeext->reauth_timer, padapter->pnetdev, _reauth_timer_hdl, padapter);
++	//_init_timer(&pmlmeext->reassoc_timer, padapter->pnetdev, _reassoc_timer_hdl, padapter);
++}
++
++#ifdef CONFIG_AP_MODE
++
++void rtw_indicate_sta_assoc_event(_adapter *padapter, struct sta_info *psta)
++{
++	union iwreq_data wrqu;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	if(psta==NULL)
++		return;
++
++	if(psta->aid > NUM_STA)
++		return;
++
++	if(pstapriv->sta_aid[psta->aid - 1] != psta)
++		return;
++	
++	
++	wrqu.addr.sa_family = ARPHRD_ETHER;	
++	
++	_rtw_memcpy(wrqu.addr.sa_data, psta->hwaddr, ETH_ALEN);
++
++	DBG_871X("+rtw_indicate_sta_assoc_event\n");
++	
++	wireless_send_event(padapter->pnetdev, IWEVREGISTERED, &wrqu, NULL);
++
++}
++
++void rtw_indicate_sta_disassoc_event(_adapter *padapter, struct sta_info *psta)
++{
++	union iwreq_data wrqu;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	if(psta==NULL)
++		return;
++
++	if(psta->aid > NUM_STA)
++		return;
++
++	if(pstapriv->sta_aid[psta->aid - 1] != psta)
++		return;
++	
++	
++	wrqu.addr.sa_family = ARPHRD_ETHER;	
++	
++	_rtw_memcpy(wrqu.addr.sa_data, psta->hwaddr, ETH_ALEN);
++
++	DBG_871X("+rtw_indicate_sta_disassoc_event\n");
++	
++	wireless_send_event(padapter->pnetdev, IWEVEXPIRED, &wrqu, NULL);
++	
++}
++
++
++#ifdef CONFIG_HOSTAPD_MLME
++
++static int mgnt_xmit_entry(struct sk_buff *skb, struct net_device *pnetdev)
++{
++	struct hostapd_priv *phostapdpriv = rtw_netdev_priv(pnetdev);
++	_adapter *padapter = (_adapter *)phostapdpriv->padapter;
++
++	//DBG_871X("%s\n", __FUNCTION__);
++
++	return rtw_hal_hostap_mgnt_xmit_entry(padapter, skb);
++}
++
++static int mgnt_netdev_open(struct net_device *pnetdev)
++{
++	struct hostapd_priv *phostapdpriv = rtw_netdev_priv(pnetdev);
++
++	DBG_871X("mgnt_netdev_open: MAC Address:" MAC_FMT "\n", MAC_ARG(pnetdev->dev_addr));
++
++
++	init_usb_anchor(&phostapdpriv->anchored);
++	
++ 	if(!rtw_netif_queue_stopped(pnetdev))
++      		rtw_netif_start_queue(pnetdev);
++	else
++		rtw_netif_wake_queue(pnetdev);
++
++
++	netif_carrier_on(pnetdev);
++		
++	//rtw_write16(phostapdpriv->padapter, 0x0116, 0x0100);//only excluding beacon 
++		
++	return 0;	
++}
++static int mgnt_netdev_close(struct net_device *pnetdev)
++{
++	struct hostapd_priv *phostapdpriv = rtw_netdev_priv(pnetdev);
++
++	DBG_871X("%s\n", __FUNCTION__);
++
++	usb_kill_anchored_urbs(&phostapdpriv->anchored);
++
++	netif_carrier_off(pnetdev);
++
++	if (!rtw_netif_queue_stopped(pnetdev))
++		rtw_netif_stop_queue(pnetdev);
++	
++	//rtw_write16(phostapdpriv->padapter, 0x0116, 0x3f3f);
++	
++	return 0;	
++}
++
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,29))
++static const struct net_device_ops rtl871x_mgnt_netdev_ops = {
++	.ndo_open = mgnt_netdev_open,
++       .ndo_stop = mgnt_netdev_close,
++       .ndo_start_xmit = mgnt_xmit_entry,
++       //.ndo_set_mac_address = r871x_net_set_mac_address,
++       //.ndo_get_stats = r871x_net_get_stats,
++       //.ndo_do_ioctl = r871x_mp_ioctl,
++};
++#endif
++
++int hostapd_mode_init(_adapter *padapter)
++{
++	unsigned char mac[ETH_ALEN];
++	struct hostapd_priv *phostapdpriv;
++	struct net_device *pnetdev;
++	
++	pnetdev = rtw_alloc_etherdev(sizeof(struct hostapd_priv));	
++	if (!pnetdev)
++	   return -ENOMEM;
++
++	//SET_MODULE_OWNER(pnetdev);
++       ether_setup(pnetdev);
++
++	//pnetdev->type = ARPHRD_IEEE80211;
++	
++	phostapdpriv = rtw_netdev_priv(pnetdev);
++	phostapdpriv->pmgnt_netdev = pnetdev;
++	phostapdpriv->padapter= padapter;
++	padapter->phostapdpriv = phostapdpriv;
++	
++	//pnetdev->init = NULL;
++	
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,29))
++
++	DBG_871X("register rtl871x_mgnt_netdev_ops to netdev_ops\n");
++
++	pnetdev->netdev_ops = &rtl871x_mgnt_netdev_ops;
++	
++#else
++
++	pnetdev->open = mgnt_netdev_open;
++
++	pnetdev->stop = mgnt_netdev_close;	
++	
++	pnetdev->hard_start_xmit = mgnt_xmit_entry;
++	
++	//pnetdev->set_mac_address = r871x_net_set_mac_address;
++	
++	//pnetdev->get_stats = r871x_net_get_stats;
++
++	//pnetdev->do_ioctl = r871x_mp_ioctl;
++	
++#endif
++
++	pnetdev->watchdog_timeo = HZ; /* 1 second timeout */	
++
++	//pnetdev->wireless_handlers = NULL;
++
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
++	pnetdev->features |= NETIF_F_IP_CSUM;
++#endif	
++
++	
++	
++	if(dev_alloc_name(pnetdev,"mgnt.wlan%d") < 0)
++	{
++		DBG_871X("hostapd_mode_init(): dev_alloc_name, fail! \n");		
++	}
++
++
++	//SET_NETDEV_DEV(pnetdev, pintfpriv->udev);
++
++
++	mac[0]=0x00;
++	mac[1]=0xe0;
++	mac[2]=0x4c;
++	mac[3]=0x87;
++	mac[4]=0x11;
++	mac[5]=0x12;
++				
++	_rtw_memcpy(pnetdev->dev_addr, mac, ETH_ALEN);
++	
++
++	netif_carrier_off(pnetdev);
++
++
++	/* Tell the network stack we exist */
++	if (register_netdev(pnetdev) != 0)
++	{
++		DBG_871X("hostapd_mode_init(): register_netdev fail!\n");
++		
++		if(pnetdev)
++      		{	 
++			rtw_free_netdev(pnetdev);
++      		}
++	}
++	
++	return 0;
++	
++}
++
++void hostapd_mode_unload(_adapter *padapter)
++{
++	struct hostapd_priv *phostapdpriv = padapter->phostapdpriv;
++	struct net_device *pnetdev = phostapdpriv->pmgnt_netdev;
++
++	unregister_netdev(pnetdev);
++	rtw_free_netdev(pnetdev);
++	
++}
++
++#endif
++#endif
++
+diff --git a/drivers/net/wireless/rtl8192cu/os_dep/linux/os_intfs.c b/drivers/net/wireless/rtl8192cu/os_dep/linux/os_intfs.c
+new file mode 100755
+index 0000000..87901aa
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/os_dep/linux/os_intfs.c
+@@ -0,0 +1,2764 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _OS_INTFS_C_
++
++#include <drv_conf.h>
++
++#if defined (PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++
++#error "Shall be Linux or Windows, but not both!\n"
++
++#endif
++
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <xmit_osdep.h>
++#include <recv_osdep.h>
++#include <hal_intf.h>
++#include <rtw_ioctl.h>
++#include <rtw_version.h>
++
++#ifdef CONFIG_USB_HCI
++#include <usb_osintf.h>
++#endif
++
++#ifdef CONFIG_PCI_HCI
++#include <pci_osintf.h>
++#endif
++
++#ifdef CONFIG_BR_EXT
++#include <rtw_br_ext.h>
++#endif //CONFIG_BR_EXT
++
++MODULE_LICENSE("GPL");
++MODULE_DESCRIPTION("Realtek Wireless Lan Driver");
++MODULE_AUTHOR("Realtek Semiconductor Corp.");
++MODULE_VERSION(DRIVERVERSION);
++
++/* module param defaults */
++int rtw_chip_version = 0x00;
++int rtw_rfintfs = HWPI;
++int rtw_lbkmode = 0;//RTL8712_AIR_TRX;
++
++
++int rtw_network_mode = Ndis802_11IBSS;//Ndis802_11Infrastructure;//infra, ad-hoc, auto
++//NDIS_802_11_SSID	ssid;
++int rtw_channel = 1;//ad-hoc support requirement
++int rtw_wireless_mode = WIRELESS_11BG_24N;
++int rtw_vrtl_carrier_sense = AUTO_VCS;
++int rtw_vcs_type = RTS_CTS;//*
++int rtw_rts_thresh = 2347;//*
++int rtw_frag_thresh = 2346;//*
++int rtw_preamble = PREAMBLE_LONG;//long, short, auto
++int rtw_scan_mode = 1;//active, passive
++int rtw_adhoc_tx_pwr = 1;
++int rtw_soft_ap = 0;
++//int smart_ps = 1;
++#ifdef CONFIG_POWER_SAVING
++int rtw_power_mgnt = 1;
++#ifdef CONFIG_IPS_LEVEL_2
++int rtw_ips_mode = IPS_LEVEL_2;
++#else
++int rtw_ips_mode = IPS_NORMAL;
++#endif
++#else
++int rtw_power_mgnt = PS_MODE_ACTIVE;
++int rtw_ips_mode = IPS_NONE;
++#endif
++module_param(rtw_ips_mode, int, 0644);
++MODULE_PARM_DESC(rtw_ips_mode,"The default IPS mode");
++
++int rtw_radio_enable = 1;
++int rtw_long_retry_lmt = 7;
++int rtw_short_retry_lmt = 7;
++int rtw_busy_thresh = 40;
++//int qos_enable = 0; //*
++int rtw_ack_policy = NORMAL_ACK;
++#ifdef CONFIG_MP_INCLUDED
++int rtw_mp_mode = 1;
++#else
++int rtw_mp_mode = 0;
++#endif
++int rtw_software_encrypt = 0;
++int rtw_software_decrypt = 0;
++
++int rtw_acm_method = 0;// 0:By SW 1:By HW.
++
++int rtw_wmm_enable = 1;// default is set to enable the wmm.
++int rtw_uapsd_enable = 0;
++int rtw_uapsd_max_sp = NO_LIMIT;
++int rtw_uapsd_acbk_en = 0;
++int rtw_uapsd_acbe_en = 0;
++int rtw_uapsd_acvi_en = 0;
++int rtw_uapsd_acvo_en = 0;
++
++#ifdef CONFIG_80211N_HT
++int rtw_ht_enable = 1;
++int rtw_cbw40_enable = 3; // 0 :diable, bit(0): enable 2.4g, bit(1): enable 5g
++int rtw_ampdu_enable = 1;//for enable tx_ampdu
++int rtw_rx_stbc = 1;// 0: disable, bit(0):enable 2.4g, bit(1):enable 5g, default is set to enable 2.4GHZ for IOT issue with bufflao's AP at 5GHZ
++int rtw_ampdu_amsdu = 0;// 0: disabled, 1:enabled, 2:auto
++#endif
++
++int rtw_lowrate_two_xmit = 1;//Use 2 path Tx to transmit MCS0~7 and legacy mode
++
++//int rf_config = RF_1T2R;  // 1T2R
++int rtw_rf_config = RF_819X_MAX_TYPE;  //auto
++int rtw_low_power = 0;
++#ifdef CONFIG_WIFI_TEST
++int rtw_wifi_spec = 1;//for wifi test
++#else
++int rtw_wifi_spec = 0;
++#endif
++
++int rtw_special_rf_path = 0; //0: 2T2R ,1: only turn on path A 1T1R, 2: only turn on path B 1T1R
++
++int rtw_channel_plan = RT_CHANNEL_DOMAIN_MAX;
++
++#ifdef CONFIG_BT_COEXIST
++int rtw_bt_iso = 2;// 0:Low, 1:High, 2:From Efuse
++int rtw_bt_sco = 3;// 0:Idle, 1:None-SCO, 2:SCO, 3:From Counter, 4.Busy, 5.OtherBusy
++int rtw_bt_ampdu =1 ;// 0:Disable BT control A-MPDU, 1:Enable BT control A-MPDU.
++#endif
++int rtw_AcceptAddbaReq = _TRUE;// 0:Reject AP's Add BA req, 1:Accept AP's Add BA req.
++
++int  rtw_antdiv_cfg = 2; // 0:OFF , 1:ON, 2:decide by Efuse config
++
++#ifdef CONFIG_USB_AUTOSUSPEND
++int rtw_enusbss = 1;//0:disable,1:enable
++#else
++int rtw_enusbss = 0;//0:disable,1:enable
++#endif
++
++int rtw_hwpdn_mode=2;//0:disable,1:enable,2: by EFUSE config
++
++#ifdef CONFIG_HW_PWRP_DETECTION
++int rtw_hwpwrp_detect = 1;
++#else
++int rtw_hwpwrp_detect = 0; //HW power  ping detect 0:disable , 1:enable
++#endif
++
++#ifdef CONFIG_USB_HCI
++int rtw_hw_wps_pbc = 1;
++#else
++int rtw_hw_wps_pbc = 0;
++#endif
++
++#ifdef CONFIG_TX_MCAST2UNI
++int rtw_mc2u_disable = 0;
++#endif	// CONFIG_TX_MCAST2UNI
++
++int rtw_mac_phy_mode = 0; //0:by efuse, 1:smsp, 2:dmdp, 3:dmsp.
++
++#ifdef CONFIG_80211D
++int rtw_80211d = 0;
++#endif
++
++char* ifname = "wlan%d";
++module_param(ifname, charp, 0644);
++MODULE_PARM_DESC(ifname, "The default name to allocate for first interface");
++
++char* if2name = "wlan%d";
++module_param(if2name, charp, 0644);
++MODULE_PARM_DESC(if2name, "The default name to allocate for second interface");
++
++char* rtw_initmac = 0;  // temp mac address if users want to use instead of the mac address in Efuse
++
++#ifdef CONFIG_MULTI_VIR_IFACES
++int rtw_ext_iface_num  = 1;//primary/secondary iface is excluded
++module_param(rtw_ext_iface_num, int, 0644);
++#endif //CONFIG_MULTI_VIR_IFACES
++
++module_param(rtw_initmac, charp, 0644);
++module_param(rtw_channel_plan, int, 0644);
++module_param(rtw_chip_version, int, 0644);
++module_param(rtw_rfintfs, int, 0644);
++module_param(rtw_lbkmode, int, 0644);
++module_param(rtw_network_mode, int, 0644);
++module_param(rtw_channel, int, 0644);
++module_param(rtw_mp_mode, int, 0644);
++module_param(rtw_wmm_enable, int, 0644);
++module_param(rtw_vrtl_carrier_sense, int, 0644);
++module_param(rtw_vcs_type, int, 0644);
++module_param(rtw_busy_thresh, int, 0644);
++#ifdef CONFIG_80211N_HT
++module_param(rtw_ht_enable, int, 0644);
++module_param(rtw_cbw40_enable, int, 0644);
++module_param(rtw_ampdu_enable, int, 0644);
++module_param(rtw_rx_stbc, int, 0644);
++module_param(rtw_ampdu_amsdu, int, 0644);
++#endif
++
++module_param(rtw_lowrate_two_xmit, int, 0644);
++
++module_param(rtw_rf_config, int, 0644);
++module_param(rtw_power_mgnt, int, 0644);
++module_param(rtw_low_power, int, 0644);
++module_param(rtw_wifi_spec, int, 0644);
++
++module_param(rtw_special_rf_path, int, 0644);
++
++module_param(rtw_antdiv_cfg, int, 0644);
++
++
++module_param(rtw_enusbss, int, 0644);
++module_param(rtw_hwpdn_mode, int, 0644);
++module_param(rtw_hwpwrp_detect, int, 0644);
++
++module_param(rtw_hw_wps_pbc, int, 0644);
++
++#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++char *rtw_adaptor_info_caching_file_path= "/data/misc/wifi/rtw_cache";
++module_param(rtw_adaptor_info_caching_file_path, charp, 0644);
++MODULE_PARM_DESC(rtw_adaptor_info_caching_file_path, "The path of adapter info cache file");
++#endif //CONFIG_ADAPTOR_INFO_CACHING_FILE
++
++#ifdef CONFIG_LAYER2_ROAMING
++uint rtw_max_roaming_times=2;
++module_param(rtw_max_roaming_times, uint, 0644);
++MODULE_PARM_DESC(rtw_max_roaming_times,"The max roaming times to try");
++#endif //CONFIG_LAYER2_ROAMING
++
++#ifdef CONFIG_IOL
++bool rtw_force_iol=_FALSE;
++module_param(rtw_force_iol, bool, 0644);
++MODULE_PARM_DESC(rtw_force_iol,"Force to enable IOL");
++#endif //CONFIG_IOL
++
++#ifdef CONFIG_FILE_FWIMG
++char *rtw_fw_file_path= "";
++module_param(rtw_fw_file_path, charp, 0644);
++MODULE_PARM_DESC(rtw_fw_file_path, "The path of fw image");
++#endif //CONFIG_FILE_FWIMG
++
++#ifdef CONFIG_TX_MCAST2UNI
++module_param(rtw_mc2u_disable, int, 0644);
++#endif	// CONFIG_TX_MCAST2UNI
++
++module_param(rtw_mac_phy_mode, int, 0644);
++
++#ifdef CONFIG_80211D
++module_param(rtw_80211d, int, 0644);
++#endif
++
++uint rtw_notch_filter = RTW_NOTCH_FILTER;
++module_param(rtw_notch_filter, uint, 0644);
++MODULE_PARM_DESC(rtw_notch_filter, "0:Disable, 1:Enable, 2:Enable only for P2P");
++
++static uint loadparam( _adapter *padapter,  _nic_hdl	pnetdev);
++int _netdev_open(struct net_device *pnetdev);
++int netdev_open (struct net_device *pnetdev);
++static int netdev_close (struct net_device *pnetdev);
++
++//#ifdef RTK_DMP_PLATFORM
++#ifdef CONFIG_PROC_DEBUG
++#define RTL8192C_PROC_NAME "rtl819xC"
++#define RTL8192D_PROC_NAME "rtl819xD"
++static char rtw_proc_name[IFNAMSIZ];
++static struct proc_dir_entry *rtw_proc = NULL;
++static int	rtw_proc_cnt = 0;
++
++#define RTW_PROC_NAME DRV_NAME
++
++void rtw_proc_init_one(struct net_device *dev)
++{
++#if(LINUX_VERSION_CODE < KERNEL_VERSION(3,10,0))
++	struct proc_dir_entry *dir_dev = NULL;
++	struct proc_dir_entry *entry=NULL;
++	_adapter	*padapter = rtw_netdev_priv(dev);
++	u8 rf_type;
++
++	if(rtw_proc == NULL)
++	{
++		if(padapter->chip_type == RTL8188C_8192C)
++		{
++			_rtw_memcpy(rtw_proc_name, RTL8192C_PROC_NAME, sizeof(RTL8192C_PROC_NAME));
++		}
++		else if(padapter->chip_type == RTL8192D)
++		{
++			_rtw_memcpy(rtw_proc_name, RTL8192D_PROC_NAME, sizeof(RTL8192D_PROC_NAME));
++		}
++		else if(padapter->chip_type == RTL8723A)
++		{
++			_rtw_memcpy(rtw_proc_name, RTW_PROC_NAME, sizeof(RTW_PROC_NAME));
++		}
++		else if(padapter->chip_type == RTL8188E)
++		{
++			_rtw_memcpy(rtw_proc_name, RTW_PROC_NAME, sizeof(RTW_PROC_NAME));
++		}
++		else
++		{
++			_rtw_memcpy(rtw_proc_name, RTW_PROC_NAME, sizeof(RTW_PROC_NAME));
++		}
++
++#if(LINUX_VERSION_CODE < KERNEL_VERSION(2,6,24))
++		rtw_proc=create_proc_entry(rtw_proc_name, S_IFDIR, proc_net);
++#else
++		rtw_proc=create_proc_entry(rtw_proc_name, S_IFDIR, init_net.proc_net);
++#endif
++		if (rtw_proc == NULL) {
++			DBG_871X(KERN_ERR "Unable to create rtw_proc directory\n");
++			return;
++		}
++
++		entry = create_proc_read_entry("ver_info", S_IFREG | S_IRUGO, rtw_proc, proc_get_drv_version, dev);
++		if (!entry) {
++			DBG_871X("Unable to create_proc_read_entry!\n");
++			return;
++		}
++
++		entry = create_proc_read_entry("log_level", S_IFREG | S_IRUGO,
++				   rtw_proc, proc_get_log_level, dev);
++		if (!entry) {
++			DBG_871X("Unable to create_proc_read_entry!\n");
++			return;
++		}
++		entry->write_proc = proc_set_log_level;
++
++#ifdef DBG_MEM_ALLOC
++		entry = create_proc_read_entry("mstat", S_IFREG | S_IRUGO,
++				   rtw_proc, proc_get_mstat, dev);
++		if (!entry) {
++			DBG_871X("Unable to create_proc_read_entry!\n");
++			return;
++		}
++#endif /* DBG_MEM_ALLOC */
++	}
++
++
++
++	if(padapter->dir_dev == NULL)
++	{
++		padapter->dir_dev = create_proc_entry(dev->name,
++					  S_IFDIR | S_IRUGO | S_IXUGO,
++					  rtw_proc);
++
++		dir_dev = padapter->dir_dev;
++
++		if(dir_dev==NULL)
++		{
++			if(rtw_proc_cnt == 0)
++			{
++				if(rtw_proc){
++#if(LINUX_VERSION_CODE < KERNEL_VERSION(2,6,24))
++					remove_proc_entry(rtw_proc_name, proc_net);
++#else
++					remove_proc_entry(rtw_proc_name, init_net.proc_net);
++#endif
++					rtw_proc = NULL;
++				}
++			}
++
++			DBG_871X("Unable to create dir_dev directory\n");
++			return;
++		}
++	}
++	else
++	{
++		return;
++	}
++
++	rtw_proc_cnt++;
++
++	entry = create_proc_read_entry("write_reg", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_write_reg, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++	entry->write_proc = proc_set_write_reg;
++
++	entry = create_proc_read_entry("read_reg", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_read_reg, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++	entry->write_proc = proc_set_read_reg;
++
++
++	entry = create_proc_read_entry("fwstate", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_fwstate, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++
++
++	entry = create_proc_read_entry("sec_info", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_sec_info, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++
++
++	entry = create_proc_read_entry("mlmext_state", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_mlmext_state, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++
++
++	entry = create_proc_read_entry("qos_option", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_qos_option, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++
++	entry = create_proc_read_entry("ht_option", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_ht_option, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++
++	entry = create_proc_read_entry("rf_info", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_rf_info, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++
++	entry = create_proc_read_entry("ap_info", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_ap_info, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++
++	entry = create_proc_read_entry("adapter_state", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_adapter_state, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++
++	entry = create_proc_read_entry("trx_info", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_trx_info, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++
++	entry = create_proc_read_entry("mac_reg_dump1", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_mac_reg_dump1, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++
++	entry = create_proc_read_entry("mac_reg_dump2", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_mac_reg_dump2, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++
++	entry = create_proc_read_entry("mac_reg_dump3", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_mac_reg_dump3, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++
++	entry = create_proc_read_entry("bb_reg_dump1", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_bb_reg_dump1, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++
++	entry = create_proc_read_entry("bb_reg_dump2", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_bb_reg_dump2, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++
++	entry = create_proc_read_entry("bb_reg_dump3", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_bb_reg_dump3, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++
++	entry = create_proc_read_entry("rf_reg_dump1", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_rf_reg_dump1, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++
++	entry = create_proc_read_entry("rf_reg_dump2", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_rf_reg_dump2, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++	if((RF_1T2R == rf_type) ||(RF_1T1R ==rf_type ))	{
++		entry = create_proc_read_entry("rf_reg_dump3", S_IFREG | S_IRUGO,
++					   dir_dev, proc_get_rf_reg_dump3, dev);
++		if (!entry) {
++			DBG_871X("Unable to create_proc_read_entry!\n");
++			return;
++		}
++
++		entry = create_proc_read_entry("rf_reg_dump4", S_IFREG | S_IRUGO,
++					   dir_dev, proc_get_rf_reg_dump4, dev);
++		if (!entry) {
++			DBG_871X("Unable to create_proc_read_entry!\n");
++			return;
++		}
++	}
++
++#ifdef CONFIG_AP_MODE
++
++	entry = create_proc_read_entry("all_sta_info", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_all_sta_info, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++#endif
++
++#ifdef DBG_MEMORY_LEAK
++	entry = create_proc_read_entry("_malloc_cnt", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_malloc_cnt, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++#endif
++
++#ifdef CONFIG_FIND_BEST_CHANNEL
++	entry = create_proc_read_entry("best_channel", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_best_channel, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++	entry->write_proc = proc_set_best_channel;
++#endif
++
++	entry = create_proc_read_entry("rx_signal", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_rx_signal, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++	entry->write_proc = proc_set_rx_signal;
++
++	entry = create_proc_read_entry("ht_enable", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_ht_enable, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++	entry->write_proc = proc_set_ht_enable;
++
++	entry = create_proc_read_entry("cbw40_enable", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_cbw40_enable, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++	entry->write_proc = proc_set_cbw40_enable;
++
++	entry = create_proc_read_entry("ampdu_enable", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_ampdu_enable, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++	entry->write_proc = proc_set_ampdu_enable;
++
++	entry = create_proc_read_entry("rx_stbc", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_rx_stbc, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++	entry->write_proc = proc_set_rx_stbc;
++
++
++	entry = create_proc_read_entry("path_rssi", S_IFREG | S_IRUGO,
++					dir_dev, proc_get_two_path_rssi, dev);
++
++	entry = create_proc_read_entry("vid", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_vid, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++
++	entry = create_proc_read_entry("pid", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_pid, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++
++	entry = create_proc_read_entry("rssi_disp", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_rssi_disp, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++	entry->write_proc = proc_set_rssi_disp;
++
++#if defined(DBG_CONFIG_ERROR_DETECT)
++	entry = create_proc_read_entry("sreset", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_sreset, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++	entry->write_proc = proc_set_sreset;
++#endif /* DBG_CONFIG_ERROR_DETECT */
++
++#ifdef CONFIG_DM_ADAPTIVITY
++	entry = create_proc_read_entry("dm_adaptivity", S_IFREG | S_IRUGO,
++				   dir_dev, proc_get_dm_adaptivity, dev);
++	if (!entry) {
++		DBG_871X("Unable to create_proc_read_entry!\n");
++		return;
++	}
++	entry->write_proc = proc_set_dm_adaptivity;
++#endif /* CONFIG_DM_ADAPTIVITY */
++
++#else /* kernel version < 3.10 */
++		DBG_871X(KERN_ERR "Unable to create /proc entry in this kernel version\n");
++#endif
++}
++
++void rtw_proc_remove_one(struct net_device *dev)
++{
++	struct proc_dir_entry *dir_dev = NULL;
++	_adapter	*padapter = rtw_netdev_priv(dev);
++	u8 rf_type;
++
++	dir_dev = padapter->dir_dev;
++	padapter->dir_dev = NULL;
++
++	if (dir_dev) {
++
++		remove_proc_entry("write_reg", dir_dev);
++		remove_proc_entry("read_reg", dir_dev);
++		remove_proc_entry("fwstate", dir_dev);
++		remove_proc_entry("sec_info", dir_dev);
++		remove_proc_entry("mlmext_state", dir_dev);
++		remove_proc_entry("qos_option", dir_dev);
++		remove_proc_entry("ht_option", dir_dev);
++		remove_proc_entry("rf_info", dir_dev);
++		remove_proc_entry("ap_info", dir_dev);
++		remove_proc_entry("adapter_state", dir_dev);
++		remove_proc_entry("trx_info", dir_dev);
++
++		remove_proc_entry("mac_reg_dump1", dir_dev);
++		remove_proc_entry("mac_reg_dump2", dir_dev);
++		remove_proc_entry("mac_reg_dump3", dir_dev);
++		remove_proc_entry("bb_reg_dump1", dir_dev);
++		remove_proc_entry("bb_reg_dump2", dir_dev);
++		remove_proc_entry("bb_reg_dump3", dir_dev);
++		remove_proc_entry("rf_reg_dump1", dir_dev);
++		remove_proc_entry("rf_reg_dump2", dir_dev);
++		rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++		if((RF_1T2R == rf_type) ||(RF_1T1R ==rf_type ))	{
++			remove_proc_entry("rf_reg_dump3", dir_dev);
++			remove_proc_entry("rf_reg_dump4", dir_dev);
++		}
++#ifdef CONFIG_AP_MODE
++		remove_proc_entry("all_sta_info", dir_dev);
++#endif
++
++#ifdef DBG_MEMORY_LEAK
++		remove_proc_entry("_malloc_cnt", dir_dev);
++#endif
++
++#ifdef CONFIG_FIND_BEST_CHANNEL
++		remove_proc_entry("best_channel", dir_dev);
++#endif
++		remove_proc_entry("rx_signal", dir_dev);
++
++		remove_proc_entry("cbw40_enable", dir_dev);
++
++		remove_proc_entry("ht_enable", dir_dev);
++
++		remove_proc_entry("ampdu_enable", dir_dev);
++
++		remove_proc_entry("rx_stbc", dir_dev);
++
++		remove_proc_entry("path_rssi", dir_dev);
++
++		remove_proc_entry("vid", dir_dev);
++
++		remove_proc_entry("pid", dir_dev);
++
++		remove_proc_entry("rssi_disp", dir_dev);
++
++#if defined(DBG_CONFIG_ERROR_DETECT)
++		remove_proc_entry("sreset", dir_dev);
++#endif /* DBG_CONFIG_ERROR_DETECT */
++
++#ifdef CONFIG_DM_ADAPTIVITY
++		remove_proc_entry("dm_adaptivity", dir_dev);
++#endif
++
++		remove_proc_entry(dev->name, rtw_proc);
++		dir_dev = NULL;
++
++	}
++	else
++	{
++		return;
++	}
++
++	rtw_proc_cnt--;
++
++	if(rtw_proc_cnt == 0)
++	{
++		if(rtw_proc){
++			remove_proc_entry("ver_info", rtw_proc);
++
++			remove_proc_entry("log_level", rtw_proc);
++			#ifdef DBG_MEM_ALLOC
++			remove_proc_entry("mstat", rtw_proc);
++			#endif /* DBG_MEM_ALLOC */
++#if(LINUX_VERSION_CODE < KERNEL_VERSION(2,6,24))
++			remove_proc_entry(rtw_proc_name, proc_net);
++#else
++			remove_proc_entry(rtw_proc_name, init_net.proc_net);
++#endif
++			rtw_proc = NULL;
++		}
++	}
++}
++#endif
++
++uint loadparam( _adapter *padapter,  _nic_hdl	pnetdev);
++uint loadparam( _adapter *padapter,  _nic_hdl	pnetdev)
++{
++
++	uint status = _SUCCESS;
++	struct registry_priv  *registry_par = &padapter->registrypriv;
++
++_func_enter_;
++
++	registry_par->chip_version = (u8)rtw_chip_version;
++	registry_par->rfintfs = (u8)rtw_rfintfs;
++	registry_par->lbkmode = (u8)rtw_lbkmode;
++	//registry_par->hci = (u8)hci;
++	registry_par->network_mode  = (u8)rtw_network_mode;
++
++	_rtw_memcpy(registry_par->ssid.Ssid, "ANY", 3);
++	registry_par->ssid.SsidLength = 3;
++
++	registry_par->channel = (u8)rtw_channel;
++	registry_par->wireless_mode = (u8)rtw_wireless_mode;
++	registry_par->vrtl_carrier_sense = (u8)rtw_vrtl_carrier_sense ;
++	registry_par->vcs_type = (u8)rtw_vcs_type;
++	registry_par->rts_thresh=(u16)rtw_rts_thresh;
++	registry_par->frag_thresh=(u16)rtw_frag_thresh;
++	registry_par->preamble = (u8)rtw_preamble;
++	registry_par->scan_mode = (u8)rtw_scan_mode;
++	registry_par->adhoc_tx_pwr = (u8)rtw_adhoc_tx_pwr;
++	registry_par->soft_ap=  (u8)rtw_soft_ap;
++	//registry_par->smart_ps =  (u8)rtw_smart_ps;
++	registry_par->power_mgnt = (u8)rtw_power_mgnt;
++	registry_par->ips_mode = (u8)rtw_ips_mode;
++	registry_par->radio_enable = (u8)rtw_radio_enable;
++	registry_par->long_retry_lmt = (u8)rtw_long_retry_lmt;
++	registry_par->short_retry_lmt = (u8)rtw_short_retry_lmt;
++  	registry_par->busy_thresh = (u16)rtw_busy_thresh;
++  	//registry_par->qos_enable = (u8)rtw_qos_enable;
++	registry_par->ack_policy = (u8)rtw_ack_policy;
++	registry_par->mp_mode = (u8)rtw_mp_mode;
++	registry_par->software_encrypt = (u8)rtw_software_encrypt;
++	registry_par->software_decrypt = (u8)rtw_software_decrypt;
++
++	registry_par->acm_method = (u8)rtw_acm_method;
++
++	 //UAPSD
++	registry_par->wmm_enable = (u8)rtw_wmm_enable;
++	registry_par->uapsd_enable = (u8)rtw_uapsd_enable;
++	registry_par->uapsd_max_sp = (u8)rtw_uapsd_max_sp;
++	registry_par->uapsd_acbk_en = (u8)rtw_uapsd_acbk_en;
++	registry_par->uapsd_acbe_en = (u8)rtw_uapsd_acbe_en;
++	registry_par->uapsd_acvi_en = (u8)rtw_uapsd_acvi_en;
++	registry_par->uapsd_acvo_en = (u8)rtw_uapsd_acvo_en;
++
++#ifdef CONFIG_80211N_HT
++	registry_par->ht_enable = (u8)rtw_ht_enable;
++	registry_par->cbw40_enable = (u8)rtw_cbw40_enable;
++	registry_par->ampdu_enable = (u8)rtw_ampdu_enable;
++	registry_par->rx_stbc = (u8)rtw_rx_stbc;
++	registry_par->ampdu_amsdu = (u8)rtw_ampdu_amsdu;
++#endif
++
++	registry_par->lowrate_two_xmit = (u8)rtw_lowrate_two_xmit;
++	registry_par->rf_config = (u8)rtw_rf_config;
++	registry_par->low_power = (u8)rtw_low_power;
++
++
++	registry_par->wifi_spec = (u8)rtw_wifi_spec;
++	registry_par->special_rf_path = (u8)rtw_special_rf_path;
++	registry_par->channel_plan = (u8)rtw_channel_plan;
++
++#ifdef CONFIG_BT_COEXIST
++	registry_par->bt_iso = (u8)rtw_bt_iso;
++	registry_par->bt_sco = (u8)rtw_bt_sco;
++	registry_par->bt_ampdu = (u8)rtw_bt_ampdu;
++#endif
++	registry_par->bAcceptAddbaReq = (u8)rtw_AcceptAddbaReq;
++
++	registry_par->antdiv_cfg = (u8)rtw_antdiv_cfg;
++
++#ifdef CONFIG_AUTOSUSPEND
++	registry_par->usbss_enable = (u8)rtw_enusbss;//0:disable,1:enable
++#endif
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++	registry_par->hwpdn_mode = (u8)rtw_hwpdn_mode;//0:disable,1:enable,2:by EFUSE config
++	registry_par->hwpwrp_detect = (u8)rtw_hwpwrp_detect;//0:disable,1:enable
++#endif
++
++	registry_par->hw_wps_pbc = (u8)rtw_hw_wps_pbc;
++
++#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++	snprintf(registry_par->adaptor_info_caching_file_path, PATH_LENGTH_MAX, "%s", rtw_adaptor_info_caching_file_path);
++	registry_par->adaptor_info_caching_file_path[PATH_LENGTH_MAX-1]=0;
++#endif
++
++#ifdef CONFIG_LAYER2_ROAMING
++	registry_par->max_roaming_times = (u8)rtw_max_roaming_times;
++#ifdef CONFIG_INTEL_WIDI
++	registry_par->max_roaming_times = (u8)rtw_max_roaming_times + 2;
++#endif // CONFIG_INTEL_WIDI
++#endif
++
++#ifdef CONFIG_IOL
++	registry_par->force_iol = rtw_force_iol;
++#endif
++
++	registry_par->mac_phy_mode = rtw_mac_phy_mode;
++
++#ifdef CONFIG_80211D
++	registry_par->enable80211d = (u8)rtw_80211d;
++#endif
++
++	snprintf(registry_par->ifname, 16, "%s", ifname);
++	snprintf(registry_par->if2name, 16, "%s", if2name);
++
++	registry_par->notch_filter = (u8)rtw_notch_filter;
++
++#ifdef CONFIG_MULTI_VIR_IFACES
++	registry_par->ext_iface_num = (u8)rtw_ext_iface_num;
++#endif //CONFIG_MULTI_VIR_IFACES
++
++_func_exit_;
++
++	return status;
++}
++
++static int rtw_net_set_mac_address(struct net_device *pnetdev, void *p)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct sockaddr *addr = p;
++
++	if(padapter->bup == _FALSE)
++	{
++		//DBG_871X("r8711_net_set_mac_address(), MAC=%x:%x:%x:%x:%x:%x\n", addr->sa_data[0], addr->sa_data[1], addr->sa_data[2], addr->sa_data[3],
++		//addr->sa_data[4], addr->sa_data[5]);
++		_rtw_memcpy(padapter->eeprompriv.mac_addr, addr->sa_data, ETH_ALEN);
++		//_rtw_memcpy(pnetdev->dev_addr, addr->sa_data, ETH_ALEN);
++		//padapter->bset_hwaddr = _TRUE;
++	}
++
++	return 0;
++}
++
++static struct net_device_stats *rtw_net_get_stats(struct net_device *pnetdev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct xmit_priv *pxmitpriv = &(padapter->xmitpriv);
++	struct recv_priv *precvpriv = &(padapter->recvpriv);
++
++	padapter->stats.tx_packets = pxmitpriv->tx_pkts;//pxmitpriv->tx_pkts++;
++	padapter->stats.rx_packets = precvpriv->rx_pkts;//precvpriv->rx_pkts++;
++	padapter->stats.tx_dropped = pxmitpriv->tx_drop;
++	padapter->stats.rx_dropped = precvpriv->rx_drop;
++	padapter->stats.tx_bytes = pxmitpriv->tx_bytes;
++	padapter->stats.rx_bytes = precvpriv->rx_bytes;
++
++	return &padapter->stats;
++}
++
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35))
++/*
++ * AC to queue mapping
++ *
++ * AC_VO -> queue 0
++ * AC_VI -> queue 1
++ * AC_BE -> queue 2
++ * AC_BK -> queue 3
++ */
++static const u16 rtw_1d_to_queue[8] = { 2, 3, 3, 2, 1, 1, 0, 0 };
++
++/* Given a data frame determine the 802.1p/1d tag to use. */
++unsigned int rtw_classify8021d(struct sk_buff *skb)
++{
++	unsigned int dscp;
++
++	/* skb->priority values from 256->263 are magic values to
++	 * directly indicate a specific 802.1d priority.  This is used
++	 * to allow 802.1d priority to be passed directly in from VLAN
++	 * tags, etc.
++	 */
++	if (skb->priority >= 256 && skb->priority <= 263)
++		return skb->priority - 256;
++
++	switch (skb->protocol) {
++	case htons(ETH_P_IP):
++		dscp = ip_hdr(skb)->tos & 0xfc;
++		break;
++	default:
++		return 0;
++	}
++
++	return dscp >> 5;
++}
++
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(3,14,0))
++static u16 rtw_select_queue(struct net_device *dev, struct sk_buff *skb,
++			    void *accel_priv,
++			    select_queue_fallback_t fallback)
++#else
++static u16 rtw_select_queue(struct net_device *dev, struct sk_buff *skb)
++#endif
++{
++	_adapter	*padapter = rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	skb->priority = rtw_classify8021d(skb);
++
++	if(pmlmepriv->acm_mask != 0)
++	{
++		skb->priority = qos_acm(pmlmepriv->acm_mask, skb->priority);
++	}
++
++	return rtw_1d_to_queue[skb->priority];
++}
++
++u16 rtw_recv_select_queue(struct sk_buff *skb)
++{
++	struct iphdr *piphdr;
++	unsigned int dscp;
++	u16	eth_type;
++	u32 priority;
++	u8 *pdata = skb->data;
++
++	_rtw_memcpy(&eth_type, pdata+(ETH_ALEN<<1), 2);
++
++	switch (eth_type) {
++		case htons(ETH_P_IP):
++
++			piphdr = (struct iphdr *)(pdata+ETH_HLEN);
++
++			dscp = piphdr->tos & 0xfc;
++
++			priority = dscp >> 5;
++
++			break;
++		default:
++			priority = 0;
++	}
++
++	return rtw_1d_to_queue[priority];
++
++}
++
++#endif
++
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,29))
++static const struct net_device_ops rtw_netdev_ops = {
++	.ndo_open = netdev_open,
++	.ndo_stop = netdev_close,
++	.ndo_start_xmit = rtw_xmit_entry,
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35))
++	.ndo_select_queue	= rtw_select_queue,
++#endif
++	.ndo_set_mac_address = rtw_net_set_mac_address,
++	.ndo_get_stats = rtw_net_get_stats,
++	.ndo_do_ioctl = rtw_ioctl,
++};
++#endif
++
++int rtw_init_netdev_name(struct net_device *pnetdev, const char *ifname)
++{
++	_adapter *padapter = rtw_netdev_priv(pnetdev);
++
++#ifdef CONFIG_EASY_REPLACEMENT
++	struct net_device	*TargetNetdev = NULL;
++	_adapter			*TargetAdapter = NULL;
++	struct net 		*devnet = NULL;
++
++	if(padapter->bDongle == 1)
++	{
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,24))
++		TargetNetdev = dev_get_by_name("wlan0");
++#else
++	#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,26))
++		devnet = pnetdev->nd_net;
++	#else
++		devnet = dev_net(pnetdev);
++	#endif
++		TargetNetdev = dev_get_by_name(devnet, "wlan0");
++#endif
++		if(TargetNetdev) {
++			DBG_871X("Force onboard module driver disappear !!!\n");
++			TargetAdapter = rtw_netdev_priv(TargetNetdev);
++			TargetAdapter->DriverState = DRIVER_DISAPPEAR;
++
++			padapter->pid[0] = TargetAdapter->pid[0];
++			padapter->pid[1] = TargetAdapter->pid[1];
++			padapter->pid[2] = TargetAdapter->pid[2];
++
++			dev_put(TargetNetdev);
++			unregister_netdev(TargetNetdev);
++
++			if(TargetAdapter->chip_type == padapter->chip_type)
++				rtw_proc_remove_one(TargetNetdev);
++
++			padapter->DriverState = DRIVER_REPLACE_DONGLE;
++		}
++	}
++#endif //CONFIG_EASY_REPLACEMENT
++
++	if(dev_alloc_name(pnetdev, ifname) < 0)
++	{
++		RT_TRACE(_module_os_intfs_c_,_drv_err_,("dev_alloc_name, fail! \n"));
++	}
++
++	netif_carrier_off(pnetdev);
++	//rtw_netif_stop_queue(pnetdev);
++
++	return 0;
++}
++
++static const struct device_type wlan_type = {
++	.name = "wlan",
++};
++
++struct net_device *rtw_init_netdev(_adapter *old_padapter)
++{
++	_adapter *padapter;
++	struct net_device *pnetdev;
++
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("+init_net_dev\n"));
++
++	if(old_padapter != NULL)
++		pnetdev = rtw_alloc_etherdev_with_old_priv(sizeof(_adapter), (void *)old_padapter);
++	else
++		pnetdev = rtw_alloc_etherdev(sizeof(_adapter));
++
++	if (!pnetdev)
++		return NULL;
++
++	pnetdev->dev.type = &wlan_type;
++	padapter = rtw_netdev_priv(pnetdev);
++	padapter->pnetdev = pnetdev;
++
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,24)
++	SET_MODULE_OWNER(pnetdev);
++#endif
++
++	//pnetdev->init = NULL;
++
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,29))
++	DBG_871X("register rtw_netdev_ops to netdev_ops\n");
++	pnetdev->netdev_ops = &rtw_netdev_ops;
++#else
++	pnetdev->open = netdev_open;
++	pnetdev->stop = netdev_close;
++	pnetdev->hard_start_xmit = rtw_xmit_entry;
++	pnetdev->set_mac_address = rtw_net_set_mac_address;
++	pnetdev->get_stats = rtw_net_get_stats;
++	pnetdev->do_ioctl = rtw_ioctl;
++#endif
++
++
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
++	pnetdev->features |= NETIF_F_IP_CSUM;
++#endif
++	//pnetdev->tx_timeout = NULL;
++	pnetdev->watchdog_timeo = HZ*3; /* 3 second timeout */
++#ifdef CONFIG_WIRELESS_EXT
++	pnetdev->wireless_handlers = (struct iw_handler_def *)&rtw_handlers_def;
++#endif
++
++#ifdef WIRELESS_SPY
++	//priv->wireless_data.spy_data = &priv->spy_data;
++	//pnetdev->wireless_data = &priv->wireless_data;
++#endif
++
++	//step 2.
++   	loadparam(padapter, pnetdev);
++
++	return pnetdev;
++
++}
++
++void rtw_unregister_netdevs(struct dvobj_priv *dvobj)
++{
++	int i;
++	_adapter *padapter = NULL;
++
++	for (i=0;i<dvobj->iface_nums;i++) {
++		struct net_device *pnetdev = NULL;
++
++		padapter = dvobj->padapters[i];
++
++		if (padapter == NULL)
++			continue;
++
++		pnetdev = padapter->pnetdev;
++
++		if((padapter->DriverState != DRIVER_DISAPPEAR) && pnetdev) {
++			unregister_netdev(pnetdev); //will call netdev_close()
++			rtw_proc_remove_one(pnetdev);
++		}
++
++		#ifdef CONFIG_IOCTL_CFG80211
++		rtw_wdev_unregister(padapter->rtw_wdev);
++		#endif
++	}
++
++}
++
++u32 rtw_start_drv_threads(_adapter *padapter)
++{
++
++	u32 _status = _SUCCESS;
++
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("+rtw_start_drv_threads\n"));
++#ifdef CONFIG_XMIT_THREAD_MODE
++	padapter->xmitThread = kthread_run(rtw_xmit_thread, padapter, "RTW_XMIT_THREAD");
++	if(IS_ERR(padapter->xmitThread))
++		_status = _FAIL;
++#endif
++
++#ifdef CONFIG_RECV_THREAD_MODE
++	padapter->recvThread = kthread_run(rtw_recv_thread, padapter, "RTW_RECV_THREAD");
++	if(IS_ERR(padapter->recvThread))
++		_status = _FAIL;
++#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if(padapter->isprimary == _TRUE)
++#endif //CONFIG_CONCURRENT_MODE
++	{
++		padapter->cmdThread = kthread_run(rtw_cmd_thread, padapter, "RTW_CMD_THREAD");
++		if(IS_ERR(padapter->cmdThread))
++			_status = _FAIL;
++		else
++			_rtw_down_sema(&padapter->cmdpriv.terminate_cmdthread_sema); //wait for cmd_thread to run
++	}
++
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++	padapter->evtThread = kthread_run(event_thread, padapter, "RTW_EVENT_THREAD");
++	if(IS_ERR(padapter->evtThread))
++		_status = _FAIL;
++#endif
++
++	return _status;
++
++}
++
++void rtw_stop_drv_threads (_adapter *padapter)
++{
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("+rtw_stop_drv_threads\n"));
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if(padapter->isprimary == _TRUE)
++#endif //CONFIG_CONCURRENT_MODE
++	{
++		rtw_stop_cmd_thread(padapter);
++	}
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++        _rtw_up_sema(&padapter->evtpriv.evt_notify);
++	if(padapter->evtThread){
++		_rtw_down_sema(&padapter->evtpriv.terminate_evtthread_sema);
++	}
++#endif
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++	// Below is to termindate tx_thread...
++	_rtw_up_sema(&padapter->xmitpriv.xmit_sema);
++	_rtw_down_sema(&padapter->xmitpriv.terminate_xmitthread_sema);
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("\n drv_halt: rtw_xmit_thread can be terminated ! \n"));
++#endif
++
++#ifdef CONFIG_RECV_THREAD_MODE
++	// Below is to termindate rx_thread...
++	_rtw_up_sema(&padapter->recvpriv.recv_sema);
++	_rtw_down_sema(&padapter->recvpriv.terminate_recvthread_sema);
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("\n drv_halt:recv_thread can be terminated! \n"));
++#endif
++
++
++}
++
++u8 rtw_init_default_value(_adapter *padapter);
++u8 rtw_init_default_value(_adapter *padapter)
++{
++	u8 ret  = _SUCCESS;
++	struct registry_priv* pregistrypriv = &padapter->registrypriv;
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	struct mlme_priv *pmlmepriv= &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++
++	//xmit_priv
++	pxmitpriv->vcs_setting = pregistrypriv->vrtl_carrier_sense;
++	pxmitpriv->vcs = pregistrypriv->vcs_type;
++	pxmitpriv->vcs_type = pregistrypriv->vcs_type;
++	//pxmitpriv->rts_thresh = pregistrypriv->rts_thresh;
++	pxmitpriv->frag_len = pregistrypriv->frag_thresh;
++
++
++
++	//recv_priv
++
++
++	//mlme_priv
++	pmlmepriv->scan_interval = SCAN_INTERVAL;// 30*2 sec = 60sec
++	pmlmepriv->scan_mode = SCAN_ACTIVE;
++
++	//qos_priv
++	//pmlmepriv->qospriv.qos_option = pregistrypriv->wmm_enable;
++
++	//ht_priv
++#ifdef CONFIG_80211N_HT
++	pmlmepriv->htpriv.ampdu_enable = _FALSE;//set to disabled
++#endif
++
++	//security_priv
++	//rtw_get_encrypt_decrypt_from_registrypriv(padapter);
++	psecuritypriv->binstallGrpkey = _FAIL;
++	psecuritypriv->sw_encrypt=pregistrypriv->software_encrypt;
++	psecuritypriv->sw_decrypt=pregistrypriv->software_decrypt;
++
++	psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Open; //open system
++	psecuritypriv->dot11PrivacyAlgrthm = _NO_PRIVACY_;
++
++	psecuritypriv->dot11PrivacyKeyIndex = 0;
++
++	psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++	psecuritypriv->dot118021XGrpKeyid = 1;
++
++	psecuritypriv->ndisauthtype = Ndis802_11AuthModeOpen;
++	psecuritypriv->ndisencryptstatus = Ndis802_11WEPDisabled;
++
++
++	//pwrctrl_priv
++
++
++	//registry_priv
++	rtw_init_registrypriv_dev_network(padapter);
++	rtw_update_registrypriv_dev_network(padapter);
++
++
++	//hal_priv
++	rtw_hal_def_value_init(padapter);
++
++	//misc.
++	padapter->bReadPortCancel = _FALSE;
++	padapter->bWritePortCancel = _FALSE;
++	padapter->bRxRSSIDisplay = 0;
++	padapter->bForceWriteInitGain = 1;
++	padapter->bNotifyChannelChange = 0;
++#ifdef CONFIG_P2P
++	padapter->bShowGetP2PState = 1;
++#endif
++	return ret;
++}
++
++struct dvobj_priv *devobj_init(void)
++{
++	struct dvobj_priv *pdvobj = NULL;
++
++	if ((pdvobj = (struct dvobj_priv*)rtw_zmalloc(sizeof(*pdvobj))) == NULL)
++		return NULL;
++
++	_rtw_mutex_init(&pdvobj->hw_init_mutex);
++	_rtw_mutex_init(&pdvobj->h2c_fwcmd_mutex);
++	_rtw_mutex_init(&pdvobj->setch_mutex);
++	_rtw_mutex_init(&pdvobj->setbw_mutex);
++
++	pdvobj->processing_dev_remove = _FALSE;
++
++	return pdvobj;
++}
++
++void devobj_deinit(struct dvobj_priv *pdvobj)
++{
++	if(!pdvobj)
++		return;
++
++	_rtw_mutex_free(&pdvobj->hw_init_mutex);
++	_rtw_mutex_free(&pdvobj->h2c_fwcmd_mutex);
++	_rtw_mutex_free(&pdvobj->setch_mutex);
++	_rtw_mutex_free(&pdvobj->setbw_mutex);
++
++	rtw_mfree((u8*)pdvobj, sizeof(*pdvobj));
++}
++
++u8 rtw_reset_drv_sw(_adapter *padapter)
++{
++	u8	ret8=_SUCCESS;
++	struct mlme_priv *pmlmepriv= &padapter->mlmepriv;
++	struct pwrctrl_priv *pwrctrlpriv = &padapter->pwrctrlpriv;
++
++	//hal_priv
++	rtw_hal_def_value_init(padapter);
++	padapter->bReadPortCancel = _FALSE;
++	padapter->bWritePortCancel = _FALSE;
++	padapter->bRxRSSIDisplay = 0;
++	pmlmepriv->scan_interval = SCAN_INTERVAL;// 30*2 sec = 60sec
++
++	pwrctrlpriv->bips_processing = _FALSE;
++	pwrctrlpriv->rf_pwrstate = rf_on;
++
++	padapter->xmitpriv.tx_pkts = 0;
++	padapter->recvpriv.rx_pkts = 0;
++
++	pmlmepriv->LinkDetectInfo.bBusyTraffic = _FALSE;
++
++	_clr_fwstate_(pmlmepriv, _FW_UNDER_SURVEY |_FW_UNDER_LINKING);
++
++#ifdef CONFIG_AUTOSUSPEND
++	#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,22) && LINUX_VERSION_CODE<=KERNEL_VERSION(2,6,34))
++		adapter_to_dvobj(padapter)->pusbdev->autosuspend_disabled = 1;//autosuspend disabled by the user
++	#endif
++#endif
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	rtw_hal_sreset_reset_value(padapter);
++#endif
++	pwrctrlpriv->pwr_state_check_cnts = 0;
++
++	//mlmeextpriv
++	padapter->mlmeextpriv.sitesurvey_res.state= SCAN_DISABLE;
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	rtw_set_signal_stat_timer(&padapter->recvpriv);
++#endif
++
++	return ret8;
++}
++
++
++u8 rtw_init_drv_sw(_adapter *padapter)
++{
++
++	u8	ret8=_SUCCESS;
++
++_func_enter_;
++
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("+rtw_init_drv_sw\n"));
++
++	if ((rtw_init_cmd_priv(&padapter->cmdpriv)) == _FAIL)
++	{
++		RT_TRACE(_module_os_intfs_c_,_drv_err_,("\n Can't init cmd_priv\n"));
++		ret8=_FAIL;
++		goto exit;
++	}
++
++	padapter->cmdpriv.padapter=padapter;
++
++	if ((rtw_init_evt_priv(&padapter->evtpriv)) == _FAIL)
++	{
++		RT_TRACE(_module_os_intfs_c_,_drv_err_,("\n Can't init evt_priv\n"));
++		ret8=_FAIL;
++		goto exit;
++	}
++
++
++	if (rtw_init_mlme_priv(padapter) == _FAIL)
++	{
++		RT_TRACE(_module_os_intfs_c_,_drv_err_,("\n Can't init mlme_priv\n"));
++		ret8=_FAIL;
++		goto exit;
++	}
++
++#ifdef CONFIG_P2P
++	rtw_init_wifidirect_timers(padapter);
++	init_wifidirect_info(padapter, P2P_ROLE_DISABLE);
++	reset_global_wifidirect_info(padapter);
++	#ifdef CONFIG_IOCTL_CFG80211
++	rtw_init_cfg80211_wifidirect_info(padapter);
++	#endif
++#ifdef CONFIG_WFD
++	if(rtw_init_wifi_display_info(padapter) == _FAIL)
++		RT_TRACE(_module_os_intfs_c_,_drv_err_,("\n Can't init init_wifi_display_info\n"));
++#endif
++#endif /* CONFIG_P2P */
++
++	if(init_mlme_ext_priv(padapter) == _FAIL)
++	{
++		RT_TRACE(_module_os_intfs_c_,_drv_err_,("\n Can't init mlme_ext_priv\n"));
++		ret8=_FAIL;
++		goto exit;
++	}
++
++#ifdef CONFIG_TDLS
++	if(rtw_init_tdls_info(padapter) == _FAIL)
++	{
++		DBG_871X("Can't rtw_init_tdls_info\n");
++		ret8=_FAIL;
++		goto exit;
++	}
++#endif //CONFIG_TDLS
++
++	if(_rtw_init_xmit_priv(&padapter->xmitpriv, padapter) == _FAIL)
++	{
++		DBG_871X("Can't _rtw_init_xmit_priv\n");
++		ret8=_FAIL;
++		goto exit;
++	}
++
++	if(_rtw_init_recv_priv(&padapter->recvpriv, padapter) == _FAIL)
++	{
++		DBG_871X("Can't _rtw_init_recv_priv\n");
++		ret8=_FAIL;
++		goto exit;
++	}
++	// add for CONFIG_IEEE80211W, none 11w also can use
++	_rtw_spinlock_init(&padapter->security_key_mutex);
++
++	// We don't need to memset padapter->XXX to zero, because adapter is allocated by rtw_zvmalloc().
++	//_rtw_memset((unsigned char *)&padapter->securitypriv, 0, sizeof (struct security_priv));
++
++	//_init_timer(&(padapter->securitypriv.tkip_timer), padapter->pifp, rtw_use_tkipkey_handler, padapter);
++
++	if(_rtw_init_sta_priv(&padapter->stapriv) == _FAIL)
++	{
++		DBG_871X("Can't _rtw_init_sta_priv\n");
++		ret8=_FAIL;
++		goto exit;
++	}
++
++	padapter->stapriv.padapter = padapter;
++	padapter->setband = GHZ24_50;
++	rtw_init_bcmc_stainfo(padapter);
++
++	rtw_init_pwrctrl_priv(padapter);
++
++	//_rtw_memset((u8 *)&padapter->qospriv, 0, sizeof (struct qos_priv));//move to mlme_priv
++
++#ifdef CONFIG_MP_INCLUDED
++	if (init_mp_priv(padapter) == _FAIL) {
++		DBG_871X("%s: initialize MP private data Fail!\n", __func__);
++	}
++#endif
++
++	ret8 = rtw_init_default_value(padapter);
++
++	rtw_hal_dm_init(padapter);
++	rtw_hal_sw_led_init(padapter);
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	rtw_hal_sreset_init(padapter);
++#endif
++
++#ifdef CONFIG_INTEL_WIDI
++	if(rtw_init_intel_widi(padapter) == _FAIL)
++	{
++		DBG_871X("Can't rtw_init_intel_widi\n");
++		ret8=_FAIL;
++		goto exit;
++	}
++#endif //CONFIG_INTEL_WIDI
++
++#ifdef CONFIG_BR_EXT
++	_rtw_spinlock_init(&padapter->br_ext_lock);
++#endif	// CONFIG_BR_EXT
++
++exit:
++
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("-rtw_init_drv_sw\n"));
++
++	_func_exit_;
++
++	return ret8;
++
++}
++
++void rtw_cancel_all_timer(_adapter *padapter)
++{
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("+rtw_cancel_all_timer\n"));
++
++	_cancel_timer_ex(&padapter->mlmepriv.assoc_timer);
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("rtw_cancel_all_timer:cancel association timer complete! \n"));
++
++	//_cancel_timer_ex(&padapter->securitypriv.tkip_timer);
++	//RT_TRACE(_module_os_intfs_c_,_drv_info_,("rtw_cancel_all_timer:cancel tkip_timer! \n"));
++
++	_cancel_timer_ex(&padapter->mlmepriv.scan_to_timer);
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("rtw_cancel_all_timer:cancel scan_to_timer! \n"));
++
++	_cancel_timer_ex(&padapter->mlmepriv.dynamic_chk_timer);
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("rtw_cancel_all_timer:cancel dynamic_chk_timer! \n"));
++
++	// cancel sw led timer
++	rtw_hal_sw_led_deinit(padapter);
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("rtw_cancel_all_timer:cancel DeInitSwLeds! \n"));
++
++	_cancel_timer_ex(&padapter->pwrctrlpriv.pwr_state_check_timer);
++
++#ifdef CONFIG_IOCTL_CFG80211
++#ifdef CONFIG_P2P
++	_cancel_timer_ex(&padapter->cfg80211_wdinfo.remain_on_ch_timer);
++#endif //CONFIG_P2P
++#endif //CONFIG_IOCTL_CFG80211
++
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++	_cancel_timer_ex(&padapter->mlmepriv.set_scan_deny_timer);
++	rtw_clear_scan_deny(padapter);
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("rtw_cancel_all_timer:cancel set_scan_deny_timer! \n"));
++#endif
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	_cancel_timer_ex(&padapter->recvpriv.signal_stat_timer);
++#endif
++
++	// cancel dm  timer
++	rtw_hal_dm_deinit(padapter);
++
++#ifdef CONFIG_PLATFORM_FS_MX61
++	msleep(50);
++#endif
++}
++
++u8 rtw_free_drv_sw(_adapter *padapter)
++{
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("==>rtw_free_drv_sw"));
++
++
++	//we can call rtw_p2p_enable here, but:
++	// 1. rtw_p2p_enable may have IO operation
++	// 2. rtw_p2p_enable is bundled with wext interface
++	#ifdef CONFIG_P2P
++	{
++		struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++		if(!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		{
++			_cancel_timer_ex( &pwdinfo->find_phase_timer );
++			_cancel_timer_ex( &pwdinfo->restore_p2p_state_timer );
++			_cancel_timer_ex( &pwdinfo->pre_tx_scan_timer);
++#ifdef CONFIG_CONCURRENT_MODE
++			_cancel_timer_ex( &pwdinfo->ap_p2p_switch_timer );
++#endif // CONFIG_CONCURRENT_MODE
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_NONE);
++		}
++	}
++	#endif
++	// add for CONFIG_IEEE80211W, none 11w also can use
++	_rtw_spinlock_free(&padapter->security_key_mutex);
++
++#ifdef CONFIG_BR_EXT
++	_rtw_spinlock_free(&padapter->br_ext_lock);
++#endif	// CONFIG_BR_EXT
++
++#ifdef CONFIG_INTEL_WIDI
++	rtw_free_intel_widi(padapter);
++#endif //CONFIG_INTEL_WIDI
++
++	free_mlme_ext_priv(&padapter->mlmeextpriv);
++
++#ifdef CONFIG_TDLS
++	//rtw_free_tdls_info(&padapter->tdlsinfo);
++#endif //CONFIG_TDLS
++
++	rtw_free_cmd_priv(&padapter->cmdpriv);
++
++	rtw_free_evt_priv(&padapter->evtpriv);
++
++	rtw_free_mlme_priv(&padapter->mlmepriv);
++
++	//free_io_queue(padapter);
++
++	_rtw_free_xmit_priv(&padapter->xmitpriv);
++
++	_rtw_free_sta_priv(&padapter->stapriv); //will free bcmc_stainfo here
++
++	_rtw_free_recv_priv(&padapter->recvpriv);
++
++	rtw_free_pwrctrl_priv(padapter);
++
++	//rtw_mfree((void *)padapter, sizeof (padapter));
++
++#ifdef CONFIG_DRVEXT_MODULE
++	free_drvext(&padapter->drvextpriv);
++#endif
++
++	rtw_hal_free_data(padapter);
++
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("<==rtw_free_drv_sw\n"));
++
++	//free the old_pnetdev
++	if(padapter->rereg_nd_name_priv.old_pnetdev) {
++		free_netdev(padapter->rereg_nd_name_priv.old_pnetdev);
++		padapter->rereg_nd_name_priv.old_pnetdev = NULL;
++	}
++
++	// clear pbuddy_adapter to avoid access wrong pointer.
++	if(padapter->pbuddy_adapter != NULL)
++	{
++		padapter->pbuddy_adapter->pbuddy_adapter = NULL;
++	}
++
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("-rtw_free_drv_sw\n"));
++
++	return _SUCCESS;
++
++}
++
++#ifdef CONFIG_CONCURRENT_MODE
++
++#ifdef CONFIG_USB_HCI
++	#include <usb_hal.h>
++#endif
++
++#ifdef CONFIG_MULTI_VIR_IFACES
++int _netdev_vir_if_open(struct net_device *pnetdev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	_adapter *primary_padapter = GET_PRIMARY_ADAPTER(padapter);
++
++	DBG_871X(FUNC_NDEV_FMT" enter\n", FUNC_NDEV_ARG(pnetdev));
++
++	if(!primary_padapter)
++		goto _netdev_virtual_iface_open_error;
++
++	if(primary_padapter->bup == _FALSE || primary_padapter->hw_init_completed == _FALSE)
++	{
++		_netdev_open(primary_padapter->pnetdev);
++	}
++
++	if(padapter->bup == _FALSE && primary_padapter->bup == _TRUE &&
++		primary_padapter->hw_init_completed == _TRUE)
++	{
++		int i;
++
++		padapter->bDriverStopped = _FALSE;
++	 	padapter->bSurpriseRemoved = _FALSE;
++		padapter->bCardDisableWOHSM = _FALSE;
++
++		_rtw_memcpy(padapter->HalData, primary_padapter->HalData, padapter->hal_data_sz);
++
++		padapter->bFWReady = primary_padapter->bFWReady;
++
++		if(rtw_start_drv_threads(padapter) == _FAIL)
++		{
++			goto _netdev_virtual_iface_open_error;
++		}
++
++		padapter->dir_dev = NULL;
++		rtw_proc_init_one(pnetdev);
++
++#ifdef CONFIG_IOCTL_CFG80211
++		rtw_cfg80211_init_wiphy(padapter);
++#endif
++
++		padapter->bup = _TRUE;
++		padapter->hw_init_completed = _TRUE;
++
++		rtw_start_mbssid_cam(padapter);//start mbssid_cam after bup = _TRUE & hw_init_completed = _TRUE
++
++	}
++
++	padapter->net_closed = _FALSE;
++
++	_set_timer(&padapter->mlmepriv.dynamic_chk_timer, 2000);
++
++	if(!rtw_netif_queue_stopped(pnetdev))
++		rtw_netif_start_queue(pnetdev);
++	else
++		rtw_netif_wake_queue(pnetdev);
++
++
++	DBG_871X(FUNC_NDEV_FMT" exit\n", FUNC_NDEV_ARG(pnetdev));
++	return 0;
++
++_netdev_virtual_iface_open_error:
++
++	padapter->bup = _FALSE;
++
++	netif_carrier_off(pnetdev);
++	rtw_netif_stop_queue(pnetdev);
++
++	return (-1);
++
++}
++
++int netdev_vir_if_open(struct net_device *pnetdev)
++{
++	int ret;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++
++	_enter_critical_mutex(&(adapter_to_dvobj(padapter)->hw_init_mutex), NULL);
++	ret = _netdev_vir_if_open(pnetdev);
++	_exit_critical_mutex(&(adapter_to_dvobj(padapter)->hw_init_mutex), NULL);
++	return ret;
++}
++
++static int netdev_vir_if_close(struct net_device *pnetdev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++
++	padapter->net_closed = _TRUE;
++
++	if(pnetdev)
++	{
++		if (!rtw_netif_queue_stopped(pnetdev))
++			rtw_netif_stop_queue(pnetdev);
++	}
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_scan_abort(padapter);
++	wdev_to_priv(padapter->rtw_wdev)->bandroid_scan = _FALSE;
++#endif
++
++	return 0;
++}
++
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,29))
++static const struct net_device_ops rtw_netdev_vir_if_ops = {
++	 .ndo_open = netdev_vir_if_open,
++        .ndo_stop = netdev_vir_if_close,
++        .ndo_start_xmit = rtw_xmit_entry,
++        .ndo_set_mac_address = rtw_net_set_mac_address,
++        .ndo_get_stats = rtw_net_get_stats,
++        .ndo_do_ioctl = rtw_ioctl,
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35))
++	.ndo_select_queue	= rtw_select_queue,
++#endif
++};
++#endif
++
++_adapter *rtw_drv_add_vir_if(_adapter *primary_padapter, void (*set_intf_ops)(struct _io_ops *pops))
++{
++
++	int res = _FAIL;
++	struct net_device *pnetdev=NULL;
++	_adapter *padapter = NULL;
++	struct dvobj_priv *pdvobjpriv;
++	u8 mac[ETH_ALEN];
++
++/*
++	if((primary_padapter->bup == _FALSE) ||
++		(rtw_buddy_adapter_up(primary_padapter) == _FALSE))
++	{
++		goto error_rtw_drv_add_iface;
++	}
++
++*/
++	/****** init netdev ******/
++	pnetdev = rtw_init_netdev(NULL);
++	if (!pnetdev)
++		goto error_rtw_drv_add_iface;
++
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,29))
++	DBG_871X("register rtw_netdev_virtual_iface_ops to netdev_ops\n");
++	pnetdev->netdev_ops = &rtw_netdev_vir_if_ops;
++#else
++	pnetdev->open = netdev_vir_if_open;
++	pnetdev->stop = netdev_vir_if_close;
++#endif
++
++#ifdef CONFIG_NO_WIRELESS_HANDLERS
++	pnetdev->wireless_handlers = NULL;
++#endif
++
++	/****** init adapter ******/
++	padapter = rtw_netdev_priv(pnetdev);
++	_rtw_memcpy(padapter, primary_padapter, sizeof(_adapter));
++
++	//
++	padapter->bup = _FALSE;
++	padapter->net_closed = _TRUE;
++	padapter->hw_init_completed = _FALSE;
++
++
++	//set adapter_type/iface type
++	padapter->isprimary = _FALSE;
++	padapter->adapter_type = MAX_ADAPTER;
++	padapter->pbuddy_adapter = primary_padapter;
++#if 0
++#ifndef CONFIG_HWPORT_SWAP	//Port0 -> Pri , Port1 -> Sec
++	padapter->iface_type = IFACE_PORT1;
++#else
++	padapter->iface_type = IFACE_PORT0;
++#endif  //CONFIG_HWPORT_SWAP
++#else
++	//extended virtual interfaces always are set to port0
++	padapter->iface_type = IFACE_PORT0;
++#endif
++	//
++	padapter->pnetdev = pnetdev;
++
++	/****** setup dvobj ******/
++	pdvobjpriv = adapter_to_dvobj(padapter);
++	padapter->iface_id = pdvobjpriv->iface_nums;
++	pdvobjpriv->padapters[pdvobjpriv->iface_nums++] = padapter;
++
++	SET_NETDEV_DEV(pnetdev, dvobj_to_dev(pdvobjpriv));
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_wdev_alloc(padapter, dvobj_to_dev(pdvobjpriv));
++#endif //CONFIG_IOCTL_CFG80211
++
++	//set interface_type/chip_type/HardwareType
++	padapter->interface_type = primary_padapter->interface_type;
++	padapter->chip_type = primary_padapter->chip_type;
++	padapter->HardwareType = primary_padapter->HardwareType;
++
++	//set hal data & hal ops
++#if defined(CONFIG_RTL8192C)
++	#if defined(CONFIG_PCI_HCI)
++		rtl8192ce_set_hal_ops(padapter);
++	#elif defined(CONFIG_USB_HCI)
++		rtl8192cu_set_hal_ops(padapter);
++	#endif
++#elif defined(CONFIG_RTL8192D)
++	#if defined(CONFIG_PCI_HCI)
++		rtl8192de_set_hal_ops(padapter);
++	#elif defined(CONFIG_USB_HCI)
++		rtl8192du_set_hal_ops(padapter);
++	#endif
++#endif
++
++	padapter->HalFunc.inirp_init = NULL;
++	padapter->HalFunc.inirp_deinit = NULL;
++	padapter->intf_start = NULL;
++	padapter->intf_stop = NULL;
++
++	//step init_io_priv
++	if ((rtw_init_io_priv(padapter, set_intf_ops)) == _FAIL) {
++		RT_TRACE(_module_hci_intfs_c_,_drv_err_,(" \n Can't init io_reqs\n"));
++	}
++
++	//step read_chip_version
++	rtw_hal_read_chip_version(padapter);
++
++	//step usb endpoint mapping
++	rtw_hal_chip_configure(padapter);
++
++
++	//init drv data
++	if(rtw_init_drv_sw(padapter)!= _SUCCESS)
++		goto error_rtw_drv_add_iface;
++
++
++	//get mac address from primary_padapter
++	_rtw_memcpy(mac, primary_padapter->eeprompriv.mac_addr, ETH_ALEN);
++
++	if (((mac[0]==0xff) &&(mac[1]==0xff) && (mac[2]==0xff) &&
++	     (mac[3]==0xff) && (mac[4]==0xff) &&(mac[5]==0xff)) ||
++	    ((mac[0]==0x0) && (mac[1]==0x0) && (mac[2]==0x0) &&
++	     (mac[3]==0x0) && (mac[4]==0x0) &&(mac[5]==0x0)))
++	{
++		mac[0] = 0x00;
++		mac[1] = 0xe0;
++		mac[2] = 0x4c;
++		mac[3] = 0x87;
++		mac[4] = 0x11;
++		mac[5] = 0x22;
++	}
++	else
++	{
++		//If the BIT1 is 0, the address is universally administered.
++		//If it is 1, the address is locally administered
++#if 1 //needs enable MBSSID CAM
++		mac[0] |= BIT(1); // locally administered
++		mac[0] |= (padapter->iface_id-1)<<4;
++#endif
++	}
++
++	_rtw_memcpy(padapter->eeprompriv.mac_addr, mac, ETH_ALEN);
++
++	padapter->dir_dev = NULL;
++
++	res = _SUCCESS;
++
++	return padapter;
++
++
++error_rtw_drv_add_iface:
++
++	if(padapter)
++		rtw_free_drv_sw(padapter);
++
++	if (pnetdev)
++		rtw_free_netdev(pnetdev);
++
++	return NULL;
++
++}
++
++void rtw_drv_stop_vir_if(_adapter *padapter)
++{
++	struct net_device *pnetdev=NULL;
++
++	if (padapter == NULL)
++		return;
++
++	pnetdev = padapter->pnetdev;
++
++	rtw_cancel_all_timer(padapter);
++
++	if(padapter->bup == _TRUE)
++	{
++		padapter->bDriverStopped = _TRUE;
++
++		#ifdef CONFIG_XMIT_ACK
++		if (padapter->xmitpriv.ack_tx)
++			rtw_ack_tx_done(&padapter->xmitpriv, RTW_SCTX_DONE_DRV_STOP);
++		#endif
++
++		if(padapter->intf_stop)
++		{
++			padapter->intf_stop(padapter);
++		}
++
++		rtw_stop_drv_threads(padapter);
++
++		padapter->bup = _FALSE;
++	}
++}
++
++void rtw_drv_free_vir_if(_adapter *padapter)
++{
++	struct net_device *pnetdev=NULL;
++
++	if (padapter == NULL)
++		return;
++
++	padapter->pbuddy_adapter = NULL;
++
++	pnetdev = padapter->pnetdev;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_wdev_free(padapter->rtw_wdev);
++#endif //CONFIG_IOCTL_CFG80211
++
++	rtw_free_drv_sw(padapter);
++
++	rtw_free_netdev(pnetdev);
++}
++
++void rtw_drv_stop_vir_ifaces(struct dvobj_priv *dvobj)
++{
++	int i;
++	//struct dvobj_priv *dvobj = primary_padapter->dvobj;
++
++	for(i=2;i<dvobj->iface_nums;i++)
++	{
++		rtw_drv_stop_vir_if(dvobj->padapters[i]);
++	}
++}
++
++void rtw_drv_free_vir_ifaces(struct dvobj_priv *dvobj)
++{
++	int i;
++	//struct dvobj_priv *dvobj = primary_padapter->dvobj;
++
++	for(i=2;i<dvobj->iface_nums;i++)
++	{
++		rtw_drv_free_vir_if(dvobj->padapters[i]);
++	}
++}
++
++void rtw_drv_del_vir_if(_adapter *padapter)
++{
++	rtw_drv_stop_vir_if(padapter);
++	rtw_drv_free_vir_if(padapter);
++}
++
++void rtw_drv_del_vir_ifaces(_adapter *primary_padapter)
++{
++	int i;
++	struct dvobj_priv *dvobj = primary_padapter->dvobj;
++
++	for(i=2;i<dvobj->iface_nums;i++)
++	{
++		rtw_drv_del_vir_if(dvobj->padapters[i]);
++	}
++}
++#endif //CONFIG_MULTI_VIR_IFACES
++
++int _netdev_if2_open(struct net_device *pnetdev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	_adapter *primary_padapter = padapter->pbuddy_adapter;
++
++	DBG_871X("+871x_drv - if2_open, bup=%d\n", padapter->bup);
++
++	if(primary_padapter->bup == _FALSE || primary_padapter->hw_init_completed == _FALSE)
++	{
++		_netdev_open(primary_padapter->pnetdev);
++	}
++
++	if(padapter->bup == _FALSE && primary_padapter->bup == _TRUE &&
++		primary_padapter->hw_init_completed == _TRUE)
++	{
++		int i;
++
++		padapter->bDriverStopped = _FALSE;
++	 	padapter->bSurpriseRemoved = _FALSE;
++		padapter->bCardDisableWOHSM = _FALSE;
++
++		_rtw_memcpy(padapter->HalData, primary_padapter->HalData, padapter->hal_data_sz);
++
++		padapter->bFWReady = primary_padapter->bFWReady;
++
++		rtw_hal_set_hwreg(padapter, HW_VAR_DM_INIT_PWDB, NULL);
++
++		//if (init_mlme_ext_priv(padapter) == _FAIL)
++		//	goto netdev_if2_open_error;
++
++
++		if(rtw_start_drv_threads(padapter) == _FAIL)
++		{
++			goto netdev_if2_open_error;
++		}
++
++
++		if(padapter->intf_start)
++		{
++			padapter->intf_start(padapter);
++		}
++
++
++		padapter->hw_init_completed = _TRUE;
++
++		padapter->dir_dev = NULL;
++		rtw_proc_init_one(pnetdev);
++
++
++#ifdef CONFIG_IOCTL_CFG80211
++		rtw_cfg80211_init_wiphy(padapter);
++#endif
++
++		padapter->bup = _TRUE;
++
++	}
++
++	padapter->net_closed = _FALSE;
++
++	_set_timer(&padapter->mlmepriv.dynamic_chk_timer, 2000);
++
++	if(!rtw_netif_queue_stopped(pnetdev))
++		rtw_netif_start_queue(pnetdev);
++	else
++		rtw_netif_wake_queue(pnetdev);
++
++	DBG_871X("-871x_drv - if2_open, bup=%d\n", padapter->bup);
++	return 0;
++
++netdev_if2_open_error:
++
++	padapter->bup = _FALSE;
++
++	netif_carrier_off(pnetdev);
++	rtw_netif_stop_queue(pnetdev);
++
++	return (-1);
++
++}
++
++int netdev_if2_open(struct net_device *pnetdev)
++{
++	int ret;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++
++	_enter_critical_mutex(&(adapter_to_dvobj(padapter)->hw_init_mutex), NULL);
++	ret = _netdev_if2_open(pnetdev);
++	_exit_critical_mutex(&(adapter_to_dvobj(padapter)->hw_init_mutex), NULL);
++	return ret;
++}
++
++static int netdev_if2_close(struct net_device *pnetdev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++
++	padapter->net_closed = _TRUE;
++
++	if(pnetdev)
++	{
++		if (!rtw_netif_queue_stopped(pnetdev))
++			rtw_netif_stop_queue(pnetdev);
++	}
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_scan_abort(padapter);
++	wdev_to_priv(padapter->rtw_wdev)->bandroid_scan = _FALSE;
++#endif
++
++	return 0;
++}
++
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,29))
++static const struct net_device_ops rtw_netdev_if2_ops = {
++	.ndo_open = netdev_if2_open,
++        .ndo_stop = netdev_if2_close,
++        .ndo_start_xmit = rtw_xmit_entry,
++        .ndo_set_mac_address = rtw_net_set_mac_address,
++        .ndo_get_stats = rtw_net_get_stats,
++        .ndo_do_ioctl = rtw_ioctl,
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35))
++	.ndo_select_queue	= rtw_select_queue,
++#endif
++};
++#endif
++
++_adapter *rtw_drv_if2_init(_adapter *primary_padapter, void (*set_intf_ops)(struct _io_ops *pops))
++{
++	int res = _FAIL;
++	struct net_device *pnetdev =  NULL;
++	_adapter *padapter = NULL;
++	struct dvobj_priv *pdvobjpriv;
++	u8 mac[ETH_ALEN];
++
++	/****** init netdev ******/
++	pnetdev = rtw_init_netdev(NULL);
++	if (!pnetdev)
++		goto error_rtw_drv_if2_init;
++
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,29))
++	DBG_871X("register rtw_netdev_if2_ops to netdev_ops\n");
++	pnetdev->netdev_ops = &rtw_netdev_if2_ops;
++#else
++	pnetdev->open = netdev_if2_open;
++	pnetdev->stop = netdev_if2_close;
++#endif
++
++#ifdef CONFIG_NO_WIRELESS_HANDLERS
++	pnetdev->wireless_handlers = NULL;
++#endif
++
++	/****** init adapter ******/
++	padapter = rtw_netdev_priv(pnetdev);
++	_rtw_memcpy(padapter, primary_padapter, sizeof(_adapter));
++
++	//
++	padapter->bup = _FALSE;
++	padapter->net_closed = _TRUE;
++	padapter->hw_init_completed = _FALSE;
++
++	//set adapter_type/iface type
++	padapter->isprimary = _FALSE;
++	padapter->adapter_type = SECONDARY_ADAPTER;
++	padapter->pbuddy_adapter = primary_padapter;
++        padapter->iface_id = IFACE_ID1;
++#ifndef CONFIG_HWPORT_SWAP			//Port0 -> Pri , Port1 -> Sec
++	padapter->iface_type = IFACE_PORT1;
++#else
++	padapter->iface_type = IFACE_PORT0;
++#endif  //CONFIG_HWPORT_SWAP
++	//
++	padapter->pnetdev = pnetdev;
++
++	/****** setup dvobj ******/
++	pdvobjpriv = adapter_to_dvobj(padapter);
++	pdvobjpriv->if2 = padapter;
++	pdvobjpriv->padapters[pdvobjpriv->iface_nums++] = padapter;
++
++	SET_NETDEV_DEV(pnetdev, dvobj_to_dev(pdvobjpriv));
++	#ifdef CONFIG_IOCTL_CFG80211
++	rtw_wdev_alloc(padapter, dvobj_to_dev(pdvobjpriv));
++	#endif //CONFIG_IOCTL_CFG80211
++
++	//set interface_type/chip_type/HardwareType
++	padapter->interface_type = primary_padapter->interface_type;
++	padapter->chip_type = primary_padapter->chip_type;
++	padapter->HardwareType = primary_padapter->HardwareType;
++
++	//set hal data & hal ops
++#if defined(CONFIG_RTL8192C)
++	#if defined(CONFIG_PCI_HCI)
++		rtl8192ce_set_hal_ops(padapter);
++	#elif defined(CONFIG_USB_HCI)
++		rtl8192cu_set_hal_ops(padapter);
++	#endif
++#elif defined(CONFIG_RTL8192D)
++	#if defined(CONFIG_PCI_HCI)
++		rtl8192de_set_hal_ops(padapter);
++	#elif defined(CONFIG_USB_HCI)
++		rtl8192du_set_hal_ops(padapter);
++	#endif
++#endif
++
++	padapter->HalFunc.inirp_init = NULL;
++	padapter->HalFunc.inirp_deinit = NULL;
++
++	//
++	padapter->intf_start = primary_padapter->intf_start;
++	padapter->intf_stop = primary_padapter->intf_stop;
++
++	//step init_io_priv
++	if ((rtw_init_io_priv(padapter, set_intf_ops)) == _FAIL) {
++		RT_TRACE(_module_hci_intfs_c_,_drv_err_,(" \n Can't init io_reqs\n"));
++	}
++
++	//step read_chip_version
++	rtw_hal_read_chip_version(padapter);
++
++	//step usb endpoint mapping
++	rtw_hal_chip_configure(padapter);
++
++
++	//init drv data
++	if(rtw_init_drv_sw(padapter)!= _SUCCESS)
++		goto error_rtw_drv_if2_init;
++
++	//get mac address from primary_padapter
++	_rtw_memcpy(mac, primary_padapter->eeprompriv.mac_addr, ETH_ALEN);
++
++	if (((mac[0]==0xff) &&(mac[1]==0xff) && (mac[2]==0xff) &&
++	     (mac[3]==0xff) && (mac[4]==0xff) &&(mac[5]==0xff)) ||
++	    ((mac[0]==0x0) && (mac[1]==0x0) && (mac[2]==0x0) &&
++	     (mac[3]==0x0) && (mac[4]==0x0) &&(mac[5]==0x0)))
++	{
++		mac[0] = 0x00;
++		mac[1] = 0xe0;
++		mac[2] = 0x4c;
++		mac[3] = 0x87;
++		mac[4] = 0x11;
++		mac[5] = 0x22;
++	}
++	else
++	{
++		//If the BIT1 is 0, the address is universally administered.
++		//If it is 1, the address is locally administered
++		mac[0] |= BIT(1); // locally administered
++
++	}
++
++	_rtw_memcpy(padapter->eeprompriv.mac_addr, mac, ETH_ALEN);
++	rtw_init_wifidirect_addrs(padapter, padapter->eeprompriv.mac_addr, padapter->eeprompriv.mac_addr);
++
++	primary_padapter->pbuddy_adapter = padapter;
++
++	padapter->dir_dev = NULL;
++
++	res = _SUCCESS;
++
++	return padapter;
++
++
++error_rtw_drv_if2_init:
++
++	if(padapter)
++		rtw_free_drv_sw(padapter);
++
++	if (pnetdev)
++		rtw_free_netdev(pnetdev);
++
++	return NULL;
++
++}
++
++void rtw_drv_if2_free(_adapter *if2)
++{
++	_adapter *padapter = if2;
++	struct net_device *pnetdev = NULL;
++
++	if (padapter == NULL)
++		return;
++
++	pnetdev = padapter->pnetdev;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_wdev_free(padapter->rtw_wdev);
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++
++	rtw_free_drv_sw(padapter);
++
++	rtw_free_netdev(pnetdev);
++
++}
++
++void rtw_drv_if2_stop(_adapter *if2)
++{
++	_adapter *padapter = if2;
++
++	if (padapter == NULL)
++		return;
++
++	rtw_cancel_all_timer(padapter);
++
++	if (padapter->bup == _TRUE) {
++		padapter->bDriverStopped = _TRUE;
++		#ifdef CONFIG_XMIT_ACK
++		if (padapter->xmitpriv.ack_tx)
++			rtw_ack_tx_done(&padapter->xmitpriv, RTW_SCTX_DONE_DRV_STOP);
++		#endif
++
++		if(padapter->intf_stop)
++		{
++			padapter->intf_stop(padapter);
++		}
++
++		rtw_stop_drv_threads(padapter);
++
++		padapter->bup = _FALSE;
++	}
++}
++#endif //end of CONFIG_CONCURRENT_MODE
++
++#ifdef CONFIG_BR_EXT
++void netdev_br_init(struct net_device *netdev)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(netdev);
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
++	rcu_read_lock();
++#endif	// (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
++
++	//if(check_fwstate(pmlmepriv, WIFI_STATION_STATE|WIFI_ADHOC_STATE) == _TRUE)
++	{
++		//struct net_bridge	*br = netdev->br_port->br;//->dev->dev_addr;
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++		if (netdev->br_port)
++#else   // (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++		if (rcu_dereference(adapter->pnetdev->rx_handler_data))
++#endif  // (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++		{
++			struct net_device *br_netdev;
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,24))
++			br_netdev = dev_get_by_name(CONFIG_BR_EXT_BRNAME);
++#else	// (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,24))
++			struct net *devnet = NULL;
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,26))
++			devnet = netdev->nd_net;
++#else	// (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,26))
++			devnet = dev_net(netdev);
++#endif	// (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,26))
++
++			br_netdev = dev_get_by_name(devnet, CONFIG_BR_EXT_BRNAME);
++#endif	// (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,24))
++
++			if (br_netdev) {
++				memcpy(adapter->br_mac, br_netdev->dev_addr, ETH_ALEN);
++				dev_put(br_netdev);
++			} else
++				printk("%s()-%d: dev_get_by_name(%s) failed!", __FUNCTION__, __LINE__, CONFIG_BR_EXT_BRNAME);
++		}
++
++		adapter->ethBrExtInfo.addPPPoETag = 1;
++	}
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
++	rcu_read_unlock();
++#endif	// (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
++}
++#endif //CONFIG_BR_EXT
++
++static int _rtw_drv_register_netdev(_adapter *padapter, char *name)
++{
++	int ret = _SUCCESS;
++	struct net_device *pnetdev = padapter->pnetdev;
++
++	/* alloc netdev name */
++	rtw_init_netdev_name(pnetdev, name);
++
++	_rtw_memcpy(pnetdev->dev_addr, padapter->eeprompriv.mac_addr, ETH_ALEN);
++
++	/* Tell the network stack we exist */
++	if (register_netdev(pnetdev) != 0) {
++		DBG_871X(FUNC_NDEV_FMT "Failed!\n", FUNC_NDEV_ARG(pnetdev));
++		ret = _FAIL;
++		goto error_register_netdev;
++	}
++
++	DBG_871X("%s, MAC Address (if%d) = " MAC_FMT "\n", __FUNCTION__, (padapter->iface_id+1), MAC_ARG(pnetdev->dev_addr));
++
++	return ret;
++
++error_register_netdev:
++
++	if(padapter->iface_id > IFACE_ID0)
++	{
++		rtw_free_drv_sw(padapter);
++
++		rtw_free_netdev(pnetdev);
++	}
++
++	return ret;
++}
++
++int rtw_drv_register_netdev(_adapter *if1)
++{
++	int i, status = _SUCCESS;
++	struct dvobj_priv *dvobj = if1->dvobj;
++
++	if(dvobj->iface_nums < IFACE_ID_MAX)
++	{
++		for(i=0; i<dvobj->iface_nums; i++)
++		{
++			_adapter *padapter = dvobj->padapters[i];
++
++			if(padapter)
++			{
++				char *name;
++
++				if(padapter->iface_id == IFACE_ID0)
++					name = if1->registrypriv.ifname;
++				else if(padapter->iface_id == IFACE_ID1)
++					name = if1->registrypriv.if2name;
++				else
++					name = "wlan%d";
++
++				if((status = _rtw_drv_register_netdev(padapter, name)) != _SUCCESS) {
++					break;
++				}
++			}
++		}
++	}
++
++	return status;
++}
++
++int _netdev_open(struct net_device *pnetdev)
++{
++	uint status;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct pwrctrl_priv *pwrctrlpriv = &padapter->pwrctrlpriv;
++
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("+871x_drv - dev_open\n"));
++	DBG_871X("+871x_drv - drv_open, bup=%d\n", padapter->bup);
++
++	if(pwrctrlpriv->ps_flag == _TRUE){
++		padapter->net_closed = _FALSE;
++		goto netdev_open_normal_process;
++	}
++
++	if(padapter->bup == _FALSE)
++	{
++		padapter->bDriverStopped = _FALSE;
++		padapter->bSurpriseRemoved = _FALSE;
++		padapter->bCardDisableWOHSM = _FALSE;
++
++		status = rtw_hal_init(padapter);
++		if (status ==_FAIL)
++		{
++			RT_TRACE(_module_os_intfs_c_,_drv_err_,("rtl871x_hal_init(): Can't init h/w!\n"));
++			goto netdev_open_error;
++		}
++
++		DBG_871X("MAC Address = "MAC_FMT"\n", MAC_ARG(pnetdev->dev_addr));
++
++
++		status=rtw_start_drv_threads(padapter);
++		if(status ==_FAIL)
++		{
++			RT_TRACE(_module_os_intfs_c_,_drv_err_,("Initialize driver software resource Failed!\n"));
++			goto netdev_open_error;
++		}
++
++#ifdef CONFIG_DRVEXT_MODULE
++		init_drvext(padapter);
++#endif
++
++		if(padapter->intf_start)
++		{
++			padapter->intf_start(padapter);
++		}
++
++#ifndef RTK_DMP_PLATFORM
++		rtw_proc_init_one(pnetdev);
++#endif
++
++#ifdef CONFIG_IOCTL_CFG80211
++		rtw_cfg80211_init_wiphy(padapter);
++#endif
++
++		rtw_led_control(padapter, LED_CTL_NO_LINK);
++
++		padapter->bup = _TRUE;
++	}
++	padapter->net_closed = _FALSE;
++
++	_set_timer(&padapter->mlmepriv.dynamic_chk_timer, 2000);
++
++	padapter->pwrctrlpriv.bips_processing = _FALSE;
++	rtw_set_pwr_state_check_timer(&padapter->pwrctrlpriv);
++
++	//netif_carrier_on(pnetdev);//call this func when rtw_joinbss_event_callback return success
++	if(!rtw_netif_queue_stopped(pnetdev))
++		rtw_netif_start_queue(pnetdev);
++	else
++		rtw_netif_wake_queue(pnetdev);
++
++#ifdef CONFIG_BR_EXT
++	netdev_br_init(pnetdev);
++#endif	// CONFIG_BR_EXT
++
++netdev_open_normal_process:
++
++	#ifdef CONFIG_CONCURRENT_MODE
++	{
++		_adapter *sec_adapter = padapter->pbuddy_adapter;
++		if(sec_adapter && (sec_adapter->bup == _FALSE || sec_adapter->hw_init_completed == _FALSE))
++			_netdev_if2_open(sec_adapter->pnetdev);
++	}
++	#endif
++
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("-871x_drv - dev_open\n"));
++	DBG_871X("-871x_drv - drv_open, bup=%d\n", padapter->bup);
++
++	return 0;
++
++netdev_open_error:
++
++	padapter->bup = _FALSE;
++
++	netif_carrier_off(pnetdev);
++	rtw_netif_stop_queue(pnetdev);
++
++	RT_TRACE(_module_os_intfs_c_,_drv_err_,("-871x_drv - dev_open, fail!\n"));
++	DBG_871X("-871x_drv - drv_open fail, bup=%d\n", padapter->bup);
++
++	return (-1);
++
++}
++
++int netdev_open(struct net_device *pnetdev)
++{
++	int ret;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++
++	_enter_critical_mutex(&(adapter_to_dvobj(padapter)->hw_init_mutex), NULL);
++	ret = _netdev_open(pnetdev);
++	_exit_critical_mutex(&(adapter_to_dvobj(padapter)->hw_init_mutex), NULL);
++
++	return ret;
++}
++
++#ifdef CONFIG_IPS
++int  ips_netdrv_open(_adapter *padapter)
++{
++	int status = _SUCCESS;
++	padapter->net_closed = _FALSE;
++	DBG_871X("===> %s.........\n",__FUNCTION__);
++
++
++	padapter->bDriverStopped = _FALSE;
++	padapter->bCardDisableWOHSM = _FALSE;
++	//padapter->bup = _TRUE;
++
++	status = rtw_hal_init(padapter);
++	if (status ==_FAIL)
++	{
++		RT_TRACE(_module_os_intfs_c_,_drv_err_,("ips_netdrv_open(): Can't init h/w!\n"));
++		goto netdev_open_error;
++	}
++
++	if(padapter->intf_start)
++	{
++		padapter->intf_start(padapter);
++	}
++
++	rtw_set_pwr_state_check_timer(&padapter->pwrctrlpriv);
++  	_set_timer(&padapter->mlmepriv.dynamic_chk_timer,5000);
++
++	 return _SUCCESS;
++
++netdev_open_error:
++	//padapter->bup = _FALSE;
++	DBG_871X("-ips_netdrv_open - drv_open failure, bup=%d\n", padapter->bup);
++
++	return _FAIL;
++}
++
++
++int rtw_ips_pwr_up(_adapter *padapter)
++{
++	int result;
++	u32 start_time = rtw_get_current_time();
++	DBG_871X("===>  rtw_ips_pwr_up..............\n");
++	rtw_reset_drv_sw(padapter);
++
++	result = ips_netdrv_open(padapter);
++
++	rtw_led_control(padapter, LED_CTL_NO_LINK);
++
++ 	DBG_871X("<===  rtw_ips_pwr_up.............. in %dms\n", rtw_get_passing_time_ms(start_time));
++	return result;
++
++}
++
++void rtw_ips_pwr_down(_adapter *padapter)
++{
++	u32 start_time = rtw_get_current_time();
++	DBG_871X("===> rtw_ips_pwr_down...................\n");
++
++	padapter->bCardDisableWOHSM = _TRUE;
++	padapter->net_closed = _TRUE;
++
++	rtw_led_control(padapter, LED_CTL_POWER_OFF);
++
++	rtw_ips_dev_unload(padapter);
++	padapter->bCardDisableWOHSM = _FALSE;
++	DBG_871X("<=== rtw_ips_pwr_down..................... in %dms\n", rtw_get_passing_time_ms(start_time));
++}
++#endif
++void rtw_ips_dev_unload(_adapter *padapter)
++{
++	struct net_device *pnetdev= (struct net_device*)padapter->pnetdev;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++	DBG_871X("====> %s...\n",__FUNCTION__);
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_FIFO_CLEARN_UP, 0);
++
++	if(padapter->intf_stop)
++	{
++		padapter->intf_stop(padapter);
++	}
++
++	//s5.
++	if(padapter->bSurpriseRemoved == _FALSE)
++	{
++		rtw_hal_deinit(padapter);
++	}
++
++}
++
++int pm_netdev_open(struct net_device *pnetdev,u8 bnormal)
++{
++	int status;
++	if(bnormal)
++		status = netdev_open(pnetdev);
++#ifdef CONFIG_IPS
++	else
++		status =  (_SUCCESS == ips_netdrv_open((_adapter *)rtw_netdev_priv(pnetdev)))?(0):(-1);
++#endif
++
++	return status;
++}
++
++static int netdev_close(struct net_device *pnetdev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("+871x_drv - drv_close\n"));
++
++	if(padapter->pwrctrlpriv.bInternalAutoSuspend == _TRUE)
++	{
++		//rtw_pwr_wakeup(padapter);
++		if(padapter->pwrctrlpriv.rf_pwrstate == rf_off)
++			padapter->pwrctrlpriv.ps_flag = _TRUE;
++	}
++	padapter->net_closed = _TRUE;
++
++/*	if(!padapter->hw_init_completed)
++	{
++		DBG_871X("(1)871x_drv - drv_close, bup=%d, hw_init_completed=%d\n", padapter->bup, padapter->hw_init_completed);
++
++		padapter->bDriverStopped = _TRUE;
++
++		rtw_dev_unload(padapter);
++	}
++	else*/
++	if(padapter->pwrctrlpriv.rf_pwrstate == rf_on){
++		DBG_871X("(2)871x_drv - drv_close, bup=%d, hw_init_completed=%d\n", padapter->bup, padapter->hw_init_completed);
++
++		//s1.
++		if(pnetdev)
++		{
++			if (!rtw_netif_queue_stopped(pnetdev))
++				rtw_netif_stop_queue(pnetdev);
++		}
++
++#ifndef CONFIG_ANDROID
++		//s2.
++		LeaveAllPowerSaveMode(padapter);
++		rtw_disassoc_cmd(padapter, 500, _FALSE);
++		//s2-2.  indicate disconnect to os
++		rtw_indicate_disconnect(padapter);
++		//s2-3.
++		rtw_free_assoc_resources(padapter, 1);
++		//s2-4.
++		rtw_free_network_queue(padapter,_TRUE);
++#endif
++		// Close LED
++		rtw_led_control(padapter, LED_CTL_POWER_OFF);
++	}
++
++#ifdef CONFIG_BR_EXT
++	//if (OPMODE & (WIFI_STATION_STATE | WIFI_ADHOC_STATE))
++	{
++		//void nat25_db_cleanup(_adapter *priv);
++		nat25_db_cleanup(padapter);
++	}
++#endif	// CONFIG_BR_EXT
++
++#ifdef CONFIG_P2P
++#ifdef CONFIG_IOCTL_CFG80211
++	if( padapter->wdinfo.driver_interface == DRIVER_CFG80211 )
++	{
++		if(wdev_to_priv(padapter->rtw_wdev)->p2p_enabled == _TRUE)
++			wdev_to_priv(padapter->rtw_wdev)->p2p_enabled = _FALSE;
++	}
++#endif //CONFIG_IOCTL_CFG80211
++	rtw_p2p_enable(padapter, P2P_ROLE_DISABLE);
++#endif //CONFIG_P2P
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_scan_abort(padapter);
++	wdev_to_priv(padapter->rtw_wdev)->bandroid_scan = _FALSE;
++	padapter->rtw_wdev->iftype = NL80211_IFTYPE_MONITOR; //set this at the end
++#endif //CONFIG_IOCTL_CFG80211
++
++	RT_TRACE(_module_os_intfs_c_,_drv_info_,("-871x_drv - drv_close\n"));
++	DBG_871X("-871x_drv - drv_close, bup=%d\n", padapter->bup);
++
++	return 0;
++}
++
++void rtw_ndev_destructor(struct net_device *ndev)
++{
++	DBG_871X(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (ndev->ieee80211_ptr)
++		rtw_mfree((u8 *)ndev->ieee80211_ptr, sizeof(struct wireless_dev));
++#endif
++	free_netdev(ndev);
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/os_dep/linux/pci_intf.c b/drivers/net/wireless/rtl8192cu/os_dep/linux/pci_intf.c
+new file mode 100755
+index 0000000..5bf576f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/os_dep/linux/pci_intf.c
+@@ -0,0 +1,1997 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HCI_INTF_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <recv_osdep.h>
++#include <xmit_osdep.h>
++#include <hal_intf.h>
++#include <rtw_version.h>
++
++#ifndef CONFIG_PCI_HCI
++
++#error "CONFIG_PCI_HCI shall be on!\n"
++
++#endif
++
++#include <pci_ops.h>
++#include <pci_osintf.h>
++#include <pci_hal.h>
++
++#if defined (PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++
++#error "Shall be Linux or Windows, but not both!\n"
++
++#endif
++
++#ifdef CONFIG_80211N_HT
++extern int rtw_ht_enable;
++extern int rtw_cbw40_enable;
++extern int rtw_ampdu_enable;//for enable tx_ampdu
++#endif
++
++#ifdef CONFIG_PM
++extern int pm_netdev_open(struct net_device *pnetdev);
++static int rtw_suspend(struct pci_dev *pdev, pm_message_t state);
++static int rtw_resume(struct pci_dev *pdev);
++#endif
++
++
++static int rtw_drv_init(struct pci_dev *pdev, const struct pci_device_id *pdid);
++static void rtw_dev_remove(struct pci_dev *pdev);
++
++static struct specific_device_id specific_device_id_tbl[] = {
++	{.idVendor=0x0b05, .idProduct=0x1791, .flags=SPEC_DEV_ID_DISABLE_HT},
++	{.idVendor=0x13D3, .idProduct=0x3311, .flags=SPEC_DEV_ID_DISABLE_HT},
++	{}
++};
++
++struct pci_device_id rtw_pci_id_tbl[] = {
++#ifdef CONFIG_RTL8192C
++	{PCI_DEVICE(PCI_VENDER_ID_REALTEK, 0x8191)},
++	{PCI_DEVICE(PCI_VENDER_ID_REALTEK, 0x8178)},
++	{PCI_DEVICE(PCI_VENDER_ID_REALTEK, 0x8177)},
++	{PCI_DEVICE(PCI_VENDER_ID_REALTEK, 0x8176)},
++#endif
++#ifdef CONFIG_RTL8192D
++	{PCI_DEVICE(PCI_VENDER_ID_REALTEK, 0x8193)},
++	{PCI_DEVICE(PCI_VENDER_ID_REALTEK, 0x002B)},
++#endif
++	{},
++};
++
++struct pci_drv_priv {
++	struct pci_driver rtw_pci_drv;
++	int drv_registered;
++};
++
++
++static struct pci_drv_priv pci_drvpriv = {
++	.rtw_pci_drv.name = (char*)DRV_NAME,
++	.rtw_pci_drv.probe = rtw_drv_init,
++	.rtw_pci_drv.remove = rtw_dev_remove,
++	.rtw_pci_drv.id_table = rtw_pci_id_tbl,
++#ifdef CONFIG_PM
++	.rtw_pci_drv.suspend = rtw_suspend,
++	.rtw_pci_drv.resume = rtw_resume,
++#else
++	.rtw_pci_drv.suspend = NULL,
++	.rtw_pci_drv.resume = NULL,
++#endif
++};
++
++
++MODULE_DEVICE_TABLE(pci, rtw_pci_id_tbl);
++
++
++static u16 pcibridge_vendors[PCI_BRIDGE_VENDOR_MAX] = {
++	INTEL_VENDOR_ID,
++	ATI_VENDOR_ID,
++	AMD_VENDOR_ID,
++	SIS_VENDOR_ID
++};
++
++static u8 rtw_pci_platform_switch_device_pci_aspm(_adapter *padapter, u8 value)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	u8	bresult = _SUCCESS;
++	int	error;
++
++	value |= 0x40;
++
++	error = pci_write_config_byte(pdvobjpriv->ppcidev, 0x80, value);
++
++	if(error != 0)
++	{
++		bresult = _FALSE;
++		DBG_871X("rtw_pci_platform_switch_device_pci_aspm error (%d)\n",error);
++	}
++
++	return bresult;
++}
++
++//
++// When we set 0x01 to enable clk request. Set 0x0 to disable clk req.
++//
++static u8 rtw_pci_switch_clk_req(_adapter *padapter, u8 value)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	u8	buffer, bresult = _SUCCESS;
++	int	error;
++
++	buffer = value;
++
++	if(!padapter->hw_init_completed)
++		return bresult;
++
++	error = pci_write_config_byte(pdvobjpriv->ppcidev, 0x81, value);
++
++	if(error != 0)
++	{
++		bresult = _FALSE;
++		DBG_871X("rtw_pci_switch_clk_req error (%d)\n",error);
++	}
++
++	return bresult;
++}
++
++#if 0
++//Description:
++//Disable RTL8192SE ASPM & Disable Pci Bridge ASPM
++void rtw_pci_disable_aspm(_adapter *padapter)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv	*pwrpriv = &padapter->pwrctrlpriv;
++	struct pci_priv	*pcipriv = &(pdvobjpriv->pcipriv);
++	u32	pcicfg_addrport = 0;
++	u8	num4bytes;
++	u8	linkctrl_reg;
++	u16	pcibridge_linkctrlreg, aspmlevel = 0;
++
++	// When there exists anyone's busnum, devnum, and funcnum that are set to 0xff,
++	// we do not execute any action and return.
++	// if it is not intel bus then don't enable ASPM.
++	if ((pcipriv->busnumber == 0xff
++		&& pcipriv->devnumber == 0xff
++		&& pcipriv->funcnumber == 0xff)
++		|| (pcipriv->pcibridge_busnum == 0xff
++		&& pcipriv->pcibridge_devnum == 0xff
++		&& pcipriv->pcibridge_funcnum == 0xff))
++	{
++		DBG_871X("PlatformEnableASPM(): Fail to enable ASPM. Cannot find the Bus of PCI(Bridge).\n");
++		return;
++	}
++
++	if (pcipriv->pcibridge_vendor == PCI_BRIDGE_VENDOR_UNKNOWN) {
++		DBG_871X("%s(): Disable ASPM. Recognize the Bus of PCI(Bridge) as UNKNOWN.\n", __func__);
++	}
++
++	if (pwrpriv->reg_rfps_level & RT_RF_OFF_LEVL_CLK_REQ) {
++		RT_CLEAR_PS_LEVEL(pwrpriv, RT_RF_OFF_LEVL_CLK_REQ);
++		rtw_pci_switch_clk_req(padapter, 0x0);
++	}
++
++	{
++		// Suggested by SD1 for promising device will in L0 state after an I/O.
++		u8 tmp_u1b;
++
++		pci_read_config_byte(pdvobjpriv->ppcidev, 0x80, &tmp_u1b);
++	}
++
++	// Retrieve original configuration settings.
++	linkctrl_reg = pcipriv->linkctrl_reg;
++	pcibridge_linkctrlreg = pcipriv->pcibridge_linkctrlreg;
++
++	// Set corresponding value.
++	aspmlevel |= BIT(0) | BIT(1);
++	linkctrl_reg &= ~aspmlevel;
++	pcibridge_linkctrlreg &= ~(BIT(0) | BIT(1));
++
++	rtw_pci_platform_switch_device_pci_aspm(padapter, linkctrl_reg);
++	rtw_udelay_os(50);
++
++	//When there exists anyone's busnum, devnum, and funcnum that are set to 0xff,
++	// we do not execute any action and return.
++	if ((pcipriv->busnumber == 0xff &&
++		pcipriv->devnumber == 0xff &&
++		pcipriv->funcnumber == 0xff) ||
++		(pcipriv->pcibridge_busnum == 0xff &&
++		pcipriv->pcibridge_devnum == 0xff
++		&& pcipriv->pcibridge_funcnum == 0xff))
++	{
++		//Do Nothing!!
++	}
++	else
++	{
++		//4 //Disable Pci Bridge ASPM
++		pcicfg_addrport = (pcipriv->pcibridge_busnum << 16) |
++						(pcipriv->pcibridge_devnum << 11) |
++						(pcipriv->pcibridge_funcnum << 8) | (1 << 31);
++		num4bytes = (pcipriv->pcibridge_pciehdr_offset + 0x10) / 4;
++
++		// set up address port at 0xCF8 offset field= 0 (dev|vend)
++		NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport + (num4bytes << 2));
++
++		// now grab data port with device|vendor 4 byte dword
++		NdisRawWritePortUchar(PCI_CONF_DATA, pcibridge_linkctrlreg);
++
++		DBG_871X("rtw_pci_disable_aspm():PciBridge busnumber[%x], DevNumbe[%x], funcnumber[%x], Write reg[%x] = %x\n",
++			pcipriv->pcibridge_busnum, pcipriv->pcibridge_devnum,
++			pcipriv->pcibridge_funcnum,
++			(pcipriv->pcibridge_pciehdr_offset+0x10), pcibridge_linkctrlreg);
++
++		rtw_udelay_os(50);
++	}
++}
++
++//[ASPM]
++//Description:
++//              Enable RTL8192SE ASPM & Enable Pci Bridge ASPM for power saving
++//              We should follow the sequence to enable RTL8192SE first then enable Pci Bridge ASPM
++//              or the system will show bluescreen.
++void rtw_pci_enable_aspm(_adapter *padapter)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv	*pwrpriv = &padapter->pwrctrlpriv;
++	struct pci_priv	*pcipriv = &(pdvobjpriv->pcipriv);
++	u16	aspmlevel = 0;
++	u32	pcicfg_addrport = 0;
++	u8	num4bytes;
++	u8	u_pcibridge_aspmsetting = 0;
++	u8	u_device_aspmsetting = 0;
++
++	// When there exists anyone's busnum, devnum, and funcnum that are set to 0xff,
++	// we do not execute any action and return.
++	// if it is not intel bus then don't enable ASPM.
++
++	if ((pcipriv->busnumber == 0xff
++		&& pcipriv->devnumber == 0xff
++		&& pcipriv->funcnumber == 0xff)
++		|| (pcipriv->pcibridge_busnum == 0xff
++		&& pcipriv->pcibridge_devnum == 0xff
++		&& pcipriv->pcibridge_funcnum == 0xff))
++	{
++		DBG_871X("PlatformEnableASPM(): Fail to enable ASPM. Cannot find the Bus of PCI(Bridge).\n");
++		return;
++	}
++
++	//4 Enable Pci Bridge ASPM
++	pcicfg_addrport = (pcipriv->pcibridge_busnum << 16)
++					| (pcipriv->pcibridge_devnum << 11)
++					| (pcipriv->pcibridge_funcnum << 8) | (1 << 31);
++	num4bytes = (pcipriv->pcibridge_pciehdr_offset + 0x10) / 4;
++	// set up address port at 0xCF8 offset field= 0 (dev|vend)
++	NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport + (num4bytes << 2));
++	// now grab data port with device|vendor 4 byte dword
++
++	u_pcibridge_aspmsetting = pcipriv->pcibridge_linkctrlreg | pdvobjpriv->const_hostpci_aspm_setting;
++
++	if (pcipriv->pcibridge_vendor == PCI_BRIDGE_VENDOR_INTEL ||
++		pcipriv->pcibridge_vendor == PCI_BRIDGE_VENDOR_SIS)
++		u_pcibridge_aspmsetting &= ~BIT(0);
++
++	NdisRawWritePortUchar(PCI_CONF_DATA, u_pcibridge_aspmsetting);
++
++	DBG_871X("PlatformEnableASPM():PciBridge busnumber[%x], DevNumbe[%x], funcnumber[%x], Write reg[%x] = %x\n",
++		pcipriv->pcibridge_busnum,
++		pcipriv->pcibridge_devnum,
++		pcipriv->pcibridge_funcnum,
++		(pcipriv->pcibridge_pciehdr_offset+0x10),
++		u_pcibridge_aspmsetting);
++
++	rtw_udelay_os(50);
++
++	// Get ASPM level (with/without Clock Req)
++	aspmlevel |= pdvobjpriv->const_devicepci_aspm_setting;
++	u_device_aspmsetting = pcipriv->linkctrl_reg;
++	u_device_aspmsetting |= aspmlevel;
++
++	rtw_pci_platform_switch_device_pci_aspm(padapter, u_device_aspmsetting);	//(priv->linkctrl_reg | ASPMLevel));
++
++	if (pwrpriv->reg_rfps_level & RT_RF_OFF_LEVL_CLK_REQ) {
++		rtw_pci_switch_clk_req(padapter, (pwrpriv->reg_rfps_level & RT_RF_OFF_LEVL_CLK_REQ) ? 1 : 0);
++		RT_SET_PS_LEVEL(pwrpriv, RT_RF_OFF_LEVL_CLK_REQ);
++	}
++
++	rtw_udelay_os(50);
++}
++
++//
++//Description:
++//To get link control field by searching from PCIe capability lists.
++//
++static u8
++rtw_get_link_control_field(_adapter *padapter, u8 busnum, u8 devnum,
++				u8 funcnum)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct pci_priv	*pcipriv = &(pdvobjpriv->pcipriv);
++	struct rt_pci_capabilities_header capability_hdr;
++	u8	capability_offset, num4bytes;
++	u32	pcicfg_addrport = 0;
++	u8	linkctrl_reg;
++	u8	status = _FALSE;
++
++	//If busnum, devnum, funcnum are set to 0xff.
++	if (busnum == 0xff && devnum == 0xff && funcnum == 0xff) {
++		DBG_871X("GetLinkControlField(): Fail to find PCIe Capability\n");
++		return _FALSE;
++	}
++
++	pcicfg_addrport = (busnum << 16) | (devnum << 11) | (funcnum << 8) | (1 << 31);
++
++	//2PCIeCap
++
++	// The device supports capability lists. Find the capabilities.
++	num4bytes = 0x34 / 4;
++	//get capability_offset
++	// set up address port at 0xCF8 offset field= 0 (dev|vend)
++	NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport + (num4bytes << 2));
++	// now grab data port with device|vendor 4 byte dword
++	NdisRawReadPortUchar(PCI_CONF_DATA, &capability_offset);
++
++	// Loop through the capabilities in search of the power management capability.
++	// The list is NULL-terminated, so the last offset will always be zero.
++
++	while (capability_offset != 0) {
++		// First find the number of 4 Byte.
++		num4bytes = capability_offset / 4;
++
++		// Read the header of the capability at  this offset. If the retrieved capability is not
++		// the power management capability that we are looking for, follow the link to the
++		// next capability and continue looping.
++
++		//4 get capability_hdr
++		// set up address port at 0xCF8 offset field= 0 (dev|vend)
++		NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport + (num4bytes << 2));
++		// now grab data port with device|vendor 4 byte dword
++		NdisRawReadPortUshort(PCI_CONF_DATA, (u16 *) & capability_hdr);
++
++		// Found the PCI express capability
++		if (capability_hdr.capability_id == PCI_CAPABILITY_ID_PCI_EXPRESS)
++		{
++			break;
++		}
++		else
++		{
++			// This is some other capability. Keep looking for the PCI express capability.
++			capability_offset = capability_hdr.next;
++		}
++	}
++
++	if (capability_hdr.capability_id == PCI_CAPABILITY_ID_PCI_EXPRESS)	//
++	{
++		num4bytes = (capability_offset + 0x10) / 4;
++
++		//4 Read  Link Control Register
++		// set up address port at 0xCF8 offset field= 0 (dev|vend)
++		NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport + (num4bytes << 2));
++		// now grab data port with device|vendor 4 byte dword
++		NdisRawReadPortUchar(PCI_CONF_DATA, &linkctrl_reg);
++
++		pcipriv->pcibridge_pciehdr_offset = capability_offset;
++		pcipriv->pcibridge_linkctrlreg = linkctrl_reg;
++
++		status = _TRUE;
++	}
++	else
++	{
++		// We didn't find a PCIe capability.
++		DBG_871X("GetLinkControlField(): Cannot Find PCIe Capability\n");
++	}
++
++	return status;
++}
++
++//
++//Description:
++//To get PCI bus infomation and return busnum, devnum, and funcnum about
++//the bus(bridge) which the device binds.
++//
++static u8
++rtw_get_pci_bus_info(_adapter *padapter,
++			  u16 vendorid,
++			  u16 deviceid,
++			  u8 irql, u8 basecode, u8 subclass, u8 filed19val,
++			  u8 * busnum, u8 * devnum, u8 * funcnum)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct pci_dev	*pdev = pdvobjpriv->ppcidev;
++	u8	busnum_idx, devicenum_idx, functionnum_idx;
++	u32	pcicfg_addrport = 0;
++	u32	dev_venid = 0, classcode, field19, headertype;
++	u16	venId, devId;
++	u8	basec, subc, irqline;
++	u16	regoffset;
++	u8	b_singlefunc = _FALSE;
++	u8	b_bridgechk = _FALSE;
++
++	*busnum = 0xFF;
++	*devnum = 0xFF;
++	*funcnum = 0xFF;
++
++	//DBG_871X("==============>vendorid:%x,deviceid:%x,irql:%x\n", vendorid,deviceid,irql);
++	if ((basecode == PCI_CLASS_BRIDGE_DEV) &&
++		(subclass == PCI_SUBCLASS_BR_PCI_TO_PCI)
++		&& (filed19val == U1DONTCARE))
++		b_bridgechk = _TRUE;
++
++	// perform a complete pci bus scan operation
++	for (busnum_idx = 0; busnum_idx < PCI_MAX_BRIDGE_NUMBER; busnum_idx++)	//255
++	{
++		for (devicenum_idx = 0; devicenum_idx < PCI_MAX_DEVICES; devicenum_idx++)	//32
++		{
++			b_singlefunc = _FALSE;
++			for (functionnum_idx = 0; functionnum_idx < PCI_MAX_FUNCTION; functionnum_idx++)	//8
++			{
++				//
++				// <Roger_Notes> We have to skip redundant Bus scan to prevent unexpected system hang
++				// if single function is present in this device.
++				// 2009.02.26.
++				//
++				if (functionnum_idx == 0) {
++					//4 get header type (DWORD #3)
++					pcicfg_addrport = (busnum_idx << 16) | (devicenum_idx << 11) | (functionnum_idx << 8) | (1 << 31);
++					NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport + (3 << 2));
++					NdisRawReadPortUlong(PCI_CONF_DATA, &headertype);
++					headertype = ((headertype >> 16) & 0x0080) >> 7;	// address 0x0e[7].
++					if (headertype == 0)	//Single function
++						b_singlefunc = _TRUE;
++				}
++				else
++				{//By pass the following scan process.
++					if (b_singlefunc == _TRUE)
++						break;
++				}
++
++				// Set access enable control.
++				pcicfg_addrport = (busnum_idx << 16) | (devicenum_idx << 11) | (functionnum_idx << 8) | (1 << 31);
++
++				//4 // Get vendorid/ deviceid
++				// set up address port at 0xCF8 offset field= 0 (dev|vend)
++				NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport);
++				// now grab data port with device|vendor 4 byte dword
++				NdisRawReadPortUlong(PCI_CONF_DATA, &dev_venid);
++
++				// if data port is full of 1s, no device is present
++				// some broken boards return 0 if a slot is empty:
++				if (dev_venid == 0xFFFFFFFF || dev_venid == 0)
++					continue;	//PCI_INVALID_VENDORID
++
++				// 4 // Get irql
++				regoffset = 0x3C;
++				pcicfg_addrport = (busnum_idx << 16) | (devicenum_idx << 11) | (functionnum_idx << 8) | (1 << 31) | (regoffset & 0xFFFFFFFC);
++				NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport);
++				NdisRawReadPortUchar((PCI_CONF_DATA +(regoffset & 0x3)), &irqline);
++
++				venId = (u16) (dev_venid >> 0) & 0xFFFF;
++				devId = (u16) (dev_venid >> 16) & 0xFFFF;
++
++				// Check Vendor ID
++				if (!b_bridgechk && (venId != vendorid) && (vendorid != U2DONTCARE))
++					continue;
++
++				// Check Device ID
++				if (!b_bridgechk && (devId != deviceid) && (deviceid != U2DONTCARE))
++					continue;
++
++				// Check irql
++				if (!b_bridgechk && (irqline != irql) && (irql != U1DONTCARE))
++					continue;
++
++				//4 get Class Code
++				pcicfg_addrport = (busnum_idx << 16) | (devicenum_idx << 11) | (functionnum_idx << 8) | (1 << 31);
++				NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport + (2 << 2));
++				NdisRawReadPortUlong(PCI_CONF_DATA, &classcode);
++				classcode = classcode >> 8;
++
++				basec = (u8) (classcode >> 16) & 0xFF;
++				subc = (u8) (classcode >> 8) & 0xFF;
++				if (b_bridgechk && (venId != vendorid) && (basec == basecode) && (subc == subclass))
++					return _TRUE;
++
++				// Check Vendor ID
++				if (b_bridgechk && (venId != vendorid) && (vendorid != U2DONTCARE))
++					continue;
++
++				// Check Device ID
++				if (b_bridgechk && (devId != deviceid) && (deviceid != U2DONTCARE))
++					continue;
++
++				// Check irql
++				if (b_bridgechk && (irqline != irql) && (irql != U1DONTCARE))
++					continue;
++
++				//4 get field 0x19 value  (DWORD #6)
++				NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport + (6 << 2));
++				NdisRawReadPortUlong(PCI_CONF_DATA, &field19);
++				field19 = (field19 >> 8) & 0xFF;
++
++				//4 Matching Class Code and filed19.
++				if ((basec == basecode) && (subc == subclass) && ((field19 == filed19val) || (filed19val == U1DONTCARE))) {
++					*busnum = busnum_idx;
++					*devnum = devicenum_idx;
++					*funcnum = functionnum_idx;
++
++					DBG_871X("GetPciBusInfo(): Find Device(%X:%X)  bus=%d dev=%d, func=%d\n",
++						vendorid, deviceid, busnum_idx, devicenum_idx, functionnum_idx);
++					return _TRUE;
++				}
++			}
++		}
++	}
++
++	DBG_871X("GetPciBusInfo(): Cannot Find Device(%X:%X:%X)\n", vendorid, deviceid, dev_venid);
++
++	return _FALSE;
++}
++
++static u8
++rtw_get_pci_brideg_info(_adapter *padapter,
++			     u8 basecode,
++			     u8 subclass,
++			     u8 filed19val, u8 * busnum, u8 * devnum,
++			     u8 * funcnum, u16 * vendorid, u16 * deviceid)
++{
++	u8	busnum_idx, devicenum_idx, functionnum_idx;
++	u32	pcicfg_addrport = 0;
++	u32	dev_venid, classcode, field19, headertype;
++	u16	venId, devId;
++	u8	basec, subc, irqline;
++	u16	regoffset;
++	u8	b_singlefunc = _FALSE;
++
++	*busnum = 0xFF;
++	*devnum = 0xFF;
++	*funcnum = 0xFF;
++
++	// perform a complete pci bus scan operation
++	for (busnum_idx = 0; busnum_idx < PCI_MAX_BRIDGE_NUMBER; busnum_idx++)	//255
++	{
++		for (devicenum_idx = 0; devicenum_idx < PCI_MAX_DEVICES; devicenum_idx++)	//32
++		{
++			b_singlefunc = _FALSE;
++			for (functionnum_idx = 0; functionnum_idx < PCI_MAX_FUNCTION; functionnum_idx++)	//8
++			{
++				//
++				// <Roger_Notes> We have to skip redundant Bus scan to prevent unexpected system hang
++				// if single function is present in this device.
++				// 2009.02.26.
++				//
++				if (functionnum_idx == 0)
++				{
++					//4 get header type (DWORD #3)
++					pcicfg_addrport = (busnum_idx << 16) | (devicenum_idx << 11) | (functionnum_idx << 8) | (1 << 31);
++					//NdisRawWritePortUlong((ULONG_PTR)PCI_CONF_ADDRESS ,  pcicfg_addrport + (3 << 2));
++					//NdisRawReadPortUlong((ULONG_PTR)PCI_CONF_DATA, &headertype);
++					NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport + (3 << 2));
++					NdisRawReadPortUlong(PCI_CONF_DATA, &headertype);
++					headertype = ((headertype >> 16) & 0x0080) >> 7;	// address 0x0e[7].
++					if (headertype == 0)	//Single function
++						b_singlefunc = _TRUE;
++				}
++				else
++				{//By pass the following scan process.
++					if (b_singlefunc == _TRUE)
++						break;
++				}
++
++				pcicfg_addrport = (busnum_idx << 16) | (devicenum_idx << 11) | (functionnum_idx << 8) | (1 << 31);
++
++				//4 // Get vendorid/ deviceid
++				// set up address port at 0xCF8 offset field= 0 (dev|vend)
++				NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport);
++				// now grab data port with device|vendor 4 byte dword
++				NdisRawReadPortUlong(PCI_CONF_DATA, &dev_venid);
++
++				//4 Get irql
++				regoffset = 0x3C;
++				pcicfg_addrport = (busnum_idx << 16) | (devicenum_idx << 11) | (functionnum_idx << 8) | (1 << 31) | (regoffset & 0xFFFFFFFC);
++				NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport);
++				NdisRawReadPortUchar((PCI_CONF_DATA + (regoffset & 0x3)), &irqline);
++
++				venId = (u16) (dev_venid >> 0) & 0xFFFF;
++				devId = (u16) (dev_venid >> 16) & 0xFFFF;
++
++				//4 get Class Code
++				pcicfg_addrport = (busnum_idx << 16) | (devicenum_idx << 11) | (functionnum_idx << 8) | (1 << 31);
++				NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport + (2 << 2));
++				NdisRawReadPortUlong(PCI_CONF_DATA, &classcode);
++				classcode = classcode >> 8;
++
++				basec = (u8) (classcode >> 16) & 0xFF;
++				subc = (u8) (classcode >> 8) & 0xFF;
++
++				//4 get field 0x19 value  (DWORD #6)
++				NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport + (6 << 2));
++				NdisRawReadPortUlong(PCI_CONF_DATA, &field19);
++				field19 = (field19 >> 8) & 0xFF;
++
++				//4 Matching Class Code and filed19.
++				if ((basec == basecode) && (subc == subclass) && ((field19 == filed19val) || (filed19val == U1DONTCARE))) {
++					*busnum = busnum_idx;
++					*devnum = devicenum_idx;
++					*funcnum = functionnum_idx;
++					*vendorid = venId;
++					*deviceid = devId;
++
++					DBG_871X("GetPciBridegInfo : Find Device(%X:%X)  bus=%d dev=%d, func=%d\n",
++						venId, devId, busnum_idx, devicenum_idx, functionnum_idx);
++
++					return _TRUE;
++				}
++			}
++		}
++	}
++
++	DBG_871X("GetPciBridegInfo(): Cannot Find PciBridge for Device\n");
++
++	return _FALSE;
++}				// end of GetPciBridegInfo
++
++//
++//Description:
++//To find specific bridge information.
++//
++static void rtw_find_bridge_info(_adapter *padapter)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct pci_priv	*pcipriv = &(pdvobjpriv->pcipriv);
++	u8	pcibridge_busnum = 0xff;
++	u8	pcibridge_devnum = 0xff;
++	u8	pcibridge_funcnum = 0xff;
++	u16	pcibridge_vendorid = 0xff;
++	u16	pcibridge_deviceid = 0xff;
++	u8	tmp = 0;
++
++	rtw_get_pci_brideg_info(padapter,
++				     PCI_CLASS_BRIDGE_DEV,
++				     PCI_SUBCLASS_BR_PCI_TO_PCI,
++				     pcipriv->busnumber,
++				     &pcibridge_busnum,
++				     &pcibridge_devnum, &pcibridge_funcnum,
++				     &pcibridge_vendorid, &pcibridge_deviceid);
++
++	// match the array of vendor id and regonize which chipset is used.
++	pcipriv->pcibridge_vendor = PCI_BRIDGE_VENDOR_UNKNOWN;
++
++	for (tmp = 0; tmp < PCI_BRIDGE_VENDOR_MAX; tmp++) {
++		if (pcibridge_vendorid == pcibridge_vendors[tmp]) {
++			pcipriv->pcibridge_vendor = tmp;
++			DBG_871X("Pci Bridge Vendor is found index: %d\n", tmp);
++			break;
++		}
++	}
++	DBG_871X("Pci Bridge Vendor is %x\n", pcibridge_vendors[tmp]);
++
++	// Update corresponding PCI bus info.
++	pcipriv->pcibridge_busnum = pcibridge_busnum;
++	pcipriv->pcibridge_devnum = pcibridge_devnum;
++	pcipriv->pcibridge_funcnum = pcibridge_funcnum;
++	pcipriv->pcibridge_vendorid = pcibridge_vendorid;
++	pcipriv->pcibridge_deviceid = pcibridge_deviceid;
++
++}
++
++static u8
++rtw_get_amd_l1_patch(_adapter *padapter, u8 busnum, u8 devnum,
++			  u8 funcnum)
++{
++	u8	status = _FALSE;
++	u8	offset_e0;
++	unsigned	offset_e4;
++	u32	pcicfg_addrport = 0;
++
++	pcicfg_addrport = (busnum << 16) | (devnum << 11) | (funcnum << 8) | (1 << 31);
++
++	NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport + 0xE0);
++	NdisRawWritePortUchar(PCI_CONF_DATA, 0xA0);
++
++	NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport + 0xE0);
++	NdisRawReadPortUchar(PCI_CONF_DATA, &offset_e0);
++
++	if (offset_e0 == 0xA0)
++	{
++		NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport + 0xE4);
++		NdisRawReadPortUlong(PCI_CONF_DATA, &offset_e4);
++		//DbgPrint("Offset E4 %x\n", offset_e4);
++		if (offset_e4 & BIT(23))
++			status = _TRUE;
++	}
++
++	return status;
++}
++#else
++/*Disable RTL8192SE ASPM & Disable Pci Bridge ASPM*/
++void rtw_pci_disable_aspm(_adapter *padapter)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv	*pwrpriv = &padapter->pwrctrlpriv;
++	struct pci_dev	*pdev = pdvobjpriv->ppcidev;
++	struct pci_dev	*bridge_pdev = pdev->bus->self;
++	struct pci_priv	*pcipriv = &(pdvobjpriv->pcipriv);
++	u8	linkctrl_reg;
++	u16	pcibridge_linkctrlreg;
++	u16	aspmlevel = 0;
++
++	// We do not diable/enable ASPM by driver, in the future, the BIOS will enable host and NIC ASPM.
++	// Advertised by SD1 victorh. Added by tynli. 2009.11.23.
++	if(pdvobjpriv->const_pci_aspm == 0)
++		return;
++
++	if(!padapter->hw_init_completed)
++		return;
++
++	if (pcipriv->pcibridge_vendor == PCI_BRIDGE_VENDOR_UNKNOWN) {
++		RT_TRACE(_module_hci_intfs_c_, _drv_err_, ("%s(): PCI(Bridge) UNKNOWN.\n", __FUNCTION__));
++		return;
++	}
++
++	linkctrl_reg = pcipriv->linkctrl_reg;
++	pcibridge_linkctrlreg = pcipriv->pcibridge_linkctrlreg;
++
++	// Set corresponding value.
++	aspmlevel |= BIT(0) | BIT(1);
++	linkctrl_reg &=~aspmlevel;
++	pcibridge_linkctrlreg &=~aspmlevel;
++
++	if (pwrpriv->reg_rfps_level & RT_RF_OFF_LEVL_CLK_REQ) {
++		RT_CLEAR_PS_LEVEL(pwrpriv, RT_RF_OFF_LEVL_CLK_REQ);
++		rtw_pci_switch_clk_req(padapter, 0x0);
++	}
++
++	{
++		/*for promising device will in L0 state after an I/O.*/
++		u8 tmp_u1b;
++		pci_read_config_byte(pdev, 0x80, &tmp_u1b);
++	}
++
++	rtw_pci_platform_switch_device_pci_aspm(padapter, linkctrl_reg);
++	rtw_udelay_os(50);
++
++	//When there exists anyone's BusNum, DevNum, and FuncNum that are set to 0xff,
++	// we do not execute any action and return. Added by tynli.
++	if( (pcipriv->busnumber == 0xff && pcipriv->devnumber == 0xff && pcipriv->funcnumber == 0xff) ||
++		(pcipriv->pcibridge_busnum == 0xff && pcipriv->pcibridge_devnum == 0xff && pcipriv->pcibridge_funcnum == 0xff) )
++	{
++		// Do Nothing!!
++	}
++	else
++	{
++		/*Disable Pci Bridge ASPM*/
++		//NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport + (num4bytes << 2));
++		//NdisRawWritePortUchar(PCI_CONF_DATA, pcibridge_linkctrlreg);
++		pci_write_config_byte(bridge_pdev, pcipriv->pcibridge_pciehdr_offset + 0x10, pcibridge_linkctrlreg);
++
++		DBG_871X("rtw_pci_disable_aspm():PciBridge busnumber[%x], DevNumbe[%x], funcnumber[%x], Write reg[%x] = %x\n",
++			pcipriv->pcibridge_busnum, pcipriv->pcibridge_devnum,
++			pcipriv->pcibridge_funcnum,
++			(pcipriv->pcibridge_pciehdr_offset+0x10), pcibridge_linkctrlreg);
++
++		rtw_udelay_os(50);
++	}
++
++}
++
++/*Enable RTL8192SE ASPM & Enable Pci Bridge ASPM for
++power saving We should follow the sequence to enable
++RTL8192SE first then enable Pci Bridge ASPM
++or the system will show bluescreen.*/
++void rtw_pci_enable_aspm(_adapter *padapter)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv	*pwrpriv = &padapter->pwrctrlpriv;
++	struct pci_dev	*pdev = pdvobjpriv->ppcidev;
++	struct pci_dev	*bridge_pdev = pdev->bus->self;
++	struct pci_priv	*pcipriv = &(pdvobjpriv->pcipriv);
++	u16	aspmlevel = 0;
++	u8	u_pcibridge_aspmsetting = 0;
++	u8	u_device_aspmsetting = 0;
++	u32	u_device_aspmsupportsetting = 0;
++
++	// We do not diable/enable ASPM by driver, in the future, the BIOS will enable host and NIC ASPM.
++	// Advertised by SD1 victorh. Added by tynli. 2009.11.23.
++	if(pdvobjpriv->const_pci_aspm == 0)
++		return;
++
++	//When there exists anyone's BusNum, DevNum, and FuncNum that are set to 0xff,
++	// we do not execute any action and return. Added by tynli.
++	if( (pcipriv->busnumber == 0xff && pcipriv->devnumber == 0xff && pcipriv->funcnumber == 0xff) ||
++		(pcipriv->pcibridge_busnum == 0xff && pcipriv->pcibridge_devnum == 0xff && pcipriv->pcibridge_funcnum == 0xff) )
++	{
++		DBG_871X("rtw_pci_enable_aspm(): Fail to enable ASPM. Cannot find the Bus of PCI(Bridge).\n");
++		return;
++	}
++
++//Get Bridge ASPM Support
++//not to enable bridge aspm if bridge does not support
++//Added by sherry 20100803
++	if (IS_HARDWARE_TYPE_8192DE(padapter))
++	{
++		//PciCfgAddrPort = (pcipriv->pcibridge_busnum << 16)|(pcipriv->pcibridge_devnum<< 11)|(pcipriv->pcibridge_funcnum <<  8)|(1 << 31);
++		//Num4Bytes = (pcipriv->pcibridge_pciehdr_offset+0x0C)/4;
++		//NdisRawWritePortUlong((ULONG_PTR)PCI_CONF_ADDRESS , PciCfgAddrPort+(Num4Bytes << 2));
++		//NdisRawReadPortUlong((ULONG_PTR)PCI_CONF_DATA,&uDeviceASPMSupportSetting);
++		pci_read_config_dword(bridge_pdev, (pcipriv->pcibridge_pciehdr_offset+0x0C), &u_device_aspmsupportsetting);
++		DBG_871X("rtw_pci_enable_aspm(): Bridge ASPM support %x \n",u_device_aspmsupportsetting);
++		if(((u_device_aspmsupportsetting & BIT(11)) != BIT(11)) || ((u_device_aspmsupportsetting & BIT(10)) != BIT(10)))
++		{
++			if(pdvobjpriv->const_devicepci_aspm_setting == 3)
++			{
++				DBG_871X("rtw_pci_enable_aspm(): Bridge not support L0S or L1\n");
++				return;
++			}
++			else if(pdvobjpriv->const_devicepci_aspm_setting == 2)
++			{
++				if((u_device_aspmsupportsetting & BIT(11)) != BIT(11))
++				{
++					DBG_871X("rtw_pci_enable_aspm(): Bridge not support L1 \n");
++					return;
++				}
++			}
++			else if(pdvobjpriv->const_devicepci_aspm_setting == 1)
++			{
++				if((u_device_aspmsupportsetting & BIT(10)) != BIT(10))
++				{
++					DBG_871X("rtw_pci_enable_aspm(): Bridge not support L0s \n");
++					return;
++				}
++
++			}
++		}
++		else
++		{
++			DBG_871X("rtw_pci_enable_aspm(): Bridge support L0s and L1 \n");
++		}
++	}
++
++
++	/*Enable Pci Bridge ASPM*/
++	//PciCfgAddrPort = (pcipriv->pcibridge_busnum << 16)|(pcipriv->pcibridge_devnum<< 11) |(pcipriv->pcibridge_funcnum <<  8)|(1 << 31);
++	//Num4Bytes = (pcipriv->pcibridge_pciehdr_offset+0x10)/4;
++	// set up address port at 0xCF8 offset field= 0 (dev|vend)
++	//NdisRawWritePortUlong(PCI_CONF_ADDRESS, PciCfgAddrPort + (Num4Bytes << 2));
++	// now grab data port with device|vendor 4 byte dword
++
++	u_pcibridge_aspmsetting = pcipriv->pcibridge_linkctrlreg;
++	u_pcibridge_aspmsetting |= pdvobjpriv->const_hostpci_aspm_setting;
++
++	if (pcipriv->pcibridge_vendor == PCI_BRIDGE_VENDOR_INTEL ||
++		pcipriv->pcibridge_vendor == PCI_BRIDGE_VENDOR_SIS )
++		u_pcibridge_aspmsetting &= ~BIT(0); // for intel host 42 device 43
++
++	//NdisRawWritePortUchar(PCI_CONF_DATA, u_pcibridge_aspmsetting);
++	pci_write_config_byte(bridge_pdev, (pcipriv->pcibridge_pciehdr_offset+0x10), u_pcibridge_aspmsetting);
++
++	DBG_871X("PlatformEnableASPM():PciBridge busnumber[%x], DevNumbe[%x], funcnumber[%x], Write reg[%x] = %x\n",
++		pcipriv->pcibridge_busnum, pcipriv->pcibridge_devnum, pcipriv->pcibridge_funcnum,
++		(pcipriv->pcibridge_pciehdr_offset+0x10),
++		u_pcibridge_aspmsetting);
++
++	rtw_udelay_os(50);
++
++	/*Get ASPM level (with/without Clock Req)*/
++	aspmlevel |= pdvobjpriv->const_devicepci_aspm_setting;
++	u_device_aspmsetting = pcipriv->linkctrl_reg;
++	u_device_aspmsetting |= aspmlevel; // device 43
++
++	rtw_pci_platform_switch_device_pci_aspm(padapter, u_device_aspmsetting);
++
++	if (pwrpriv->reg_rfps_level & RT_RF_OFF_LEVL_CLK_REQ) {
++		rtw_pci_switch_clk_req(padapter, (pwrpriv->reg_rfps_level & RT_RF_OFF_LEVL_CLK_REQ) ? 1 : 0);
++		RT_SET_PS_LEVEL(pwrpriv, RT_RF_OFF_LEVL_CLK_REQ);
++	}
++
++	rtw_udelay_os(50);
++}
++
++static u8 rtw_pci_get_amd_l1_patch(struct dvobj_priv *dvobj)
++{
++	struct pci_dev	*pdev = dvobj->ppcidev;
++	struct pci_dev	*bridge_pdev = pdev->bus->self;
++	u8	status = _FALSE;
++	u8	offset_e0;
++	u32	offset_e4;
++
++	//NdisRawWritePortUlong(PCI_CONF_ADDRESS,pcicfg_addrport + 0xE0);
++	//NdisRawWritePortUchar(PCI_CONF_DATA, 0xA0);
++	pci_write_config_byte(bridge_pdev, 0xE0, 0xA0);
++
++	//NdisRawWritePortUlong(PCI_CONF_ADDRESS,pcicfg_addrport + 0xE0);
++	//NdisRawReadPortUchar(PCI_CONF_DATA, &offset_e0);
++	pci_read_config_byte(bridge_pdev, 0xE0, &offset_e0);
++
++	if (offset_e0 == 0xA0) {
++		//NdisRawWritePortUlong(PCI_CONF_ADDRESS, pcicfg_addrport + 0xE4);
++		//NdisRawReadPortUlong(PCI_CONF_DATA, &offset_e4);
++		pci_read_config_dword(bridge_pdev, 0xE4, &offset_e4);
++		if (offset_e4 & BIT(23))
++			status = _TRUE;
++	}
++
++	return status;
++}
++
++static void rtw_pci_get_linkcontrol_field(struct dvobj_priv *dvobj)
++{
++	struct pci_priv	*pcipriv = &(dvobj->pcipriv);
++	struct pci_dev	*pdev = dvobj->ppcidev;
++	struct pci_dev	*bridge_pdev = pdev->bus->self;
++	u8	capabilityoffset = pcipriv->pcibridge_pciehdr_offset;
++	u8	linkctrl_reg;
++
++	/*Read  Link Control Register*/
++	pci_read_config_byte(bridge_pdev, capabilityoffset + PCI_EXP_LNKCTL, &linkctrl_reg);
++
++	pcipriv->pcibridge_linkctrlreg = linkctrl_reg;
++}
++#endif
++
++static void rtw_pci_parse_configuration(struct dvobj_priv *dvobj)
++{
++	struct pci_dev	*pdev = dvobj->ppcidev;
++	struct pci_priv	*pcipriv = &(dvobj->pcipriv);
++	u8 tmp;
++	int pos;
++	u8 linkctrl_reg;
++
++	//Link Control Register
++	pos = pci_find_capability(pdev, PCI_CAP_ID_EXP);
++	pci_read_config_byte(pdev, pos + PCI_EXP_LNKCTL, &linkctrl_reg);
++	pcipriv->linkctrl_reg = linkctrl_reg;
++
++	//DBG_871X("Link Control Register = %x\n", pcipriv->linkctrl_reg);
++
++	pci_read_config_byte(pdev, 0x98, &tmp);
++	tmp |= BIT(4);
++	pci_write_config_byte(pdev, 0x98, tmp);
++
++	//tmp = 0x17;
++	//pci_write_config_byte(pdev, 0x70f, tmp);
++}
++
++//
++// Update PCI dependent default settings.
++//
++static void rtw_pci_update_default_setting(_adapter *padapter)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct pci_priv	*pcipriv = &(pdvobjpriv->pcipriv);
++	struct pwrctrl_priv	*pwrpriv = &padapter->pwrctrlpriv;
++
++	//reset pPSC->reg_rfps_level & priv->b_support_aspm
++	pwrpriv->reg_rfps_level = 0;
++	pwrpriv->b_support_aspm = 0;
++
++	// Dynamic Mechanism,
++	//rtw_hal_set_def_var(pAdapter, HAL_DEF_INIT_GAIN, &(pDevice->InitGainState));
++
++	// Update PCI ASPM setting
++	pwrpriv->const_amdpci_aspm = pdvobjpriv->const_amdpci_aspm;
++	switch (pdvobjpriv->const_pci_aspm) {
++		case 0:		// No ASPM
++			break;
++
++		case 1:		// ASPM dynamically enabled/disable.
++			pwrpriv->reg_rfps_level |= RT_RF_LPS_LEVEL_ASPM;
++			break;
++
++		case 2:		// ASPM with Clock Req dynamically enabled/disable.
++			pwrpriv->reg_rfps_level |= (RT_RF_LPS_LEVEL_ASPM | RT_RF_OFF_LEVL_CLK_REQ);
++			break;
++
++		case 3:		// Always enable ASPM and Clock Req from initialization to halt.
++			pwrpriv->reg_rfps_level &= ~(RT_RF_LPS_LEVEL_ASPM);
++			pwrpriv->reg_rfps_level |= (RT_RF_PS_LEVEL_ALWAYS_ASPM | RT_RF_OFF_LEVL_CLK_REQ);
++			break;
++
++		case 4:		// Always enable ASPM without Clock Req from initialization to halt.
++			pwrpriv->reg_rfps_level &= ~(RT_RF_LPS_LEVEL_ASPM | RT_RF_OFF_LEVL_CLK_REQ);
++			pwrpriv->reg_rfps_level |= RT_RF_PS_LEVEL_ALWAYS_ASPM;
++			break;
++	}
++
++	pwrpriv->reg_rfps_level |= RT_RF_OFF_LEVL_HALT_NIC;
++
++	// Update Radio OFF setting
++	switch (pdvobjpriv->const_hwsw_rfoff_d3) {
++		case 1:
++			if (pwrpriv->reg_rfps_level & RT_RF_LPS_LEVEL_ASPM)
++				pwrpriv->reg_rfps_level |= RT_RF_OFF_LEVL_ASPM;
++			break;
++
++		case 2:
++			if (pwrpriv->reg_rfps_level & RT_RF_LPS_LEVEL_ASPM)
++				pwrpriv->reg_rfps_level |= RT_RF_OFF_LEVL_ASPM;
++			pwrpriv->reg_rfps_level |= RT_RF_OFF_LEVL_HALT_NIC;
++			break;
++
++		case 3:
++			pwrpriv->reg_rfps_level |= RT_RF_OFF_LEVL_PCI_D3;
++			break;
++	}
++
++	// Update Rx 2R setting
++	//pPSC->reg_rfps_level |= ((pDevice->RegLPS2RDisable) ? RT_RF_LPS_DISALBE_2R : 0);
++
++	//
++	// Set HW definition to determine if it supports ASPM.
++	//
++	switch (pdvobjpriv->const_support_pciaspm) {
++		case 0:	// Not support ASPM.
++			{
++				u8	b_support_aspm = _FALSE;
++				pwrpriv->b_support_aspm = b_support_aspm;
++			}
++			break;
++
++		case 1:	// Support ASPM.
++			{
++				u8	b_support_aspm = _TRUE;
++				u8	b_support_backdoor = _TRUE;
++
++				pwrpriv->b_support_aspm = b_support_aspm;
++
++				/*if(pAdapter->MgntInfo.CustomerID == RT_CID_TOSHIBA &&
++					pcipriv->pcibridge_vendor == PCI_BRIDGE_VENDOR_AMD &&
++					!pcipriv->amd_l1_patch)
++					b_support_backdoor = _FALSE;*/
++
++				pwrpriv->b_support_backdoor = b_support_backdoor;
++			}
++			break;
++
++		case 2:	// Set by Chipset.
++			// ASPM value set by chipset.
++			if (pcipriv->pcibridge_vendor == PCI_BRIDGE_VENDOR_INTEL) {
++				u8	b_support_aspm = _TRUE;
++				pwrpriv->b_support_aspm = b_support_aspm;
++			}
++			break;
++
++		default:
++			// Do nothing. Set when finding the chipset.
++			break;
++	}
++}
++
++static void rtw_pci_initialize_adapter_common(_adapter *padapter)
++{
++	struct pwrctrl_priv	*pwrpriv = &padapter->pwrctrlpriv;
++
++	rtw_pci_update_default_setting(padapter);
++
++	if (pwrpriv->reg_rfps_level & RT_RF_PS_LEVEL_ALWAYS_ASPM) {
++		// Always enable ASPM & Clock Req.
++		rtw_pci_enable_aspm(padapter);
++		RT_SET_PS_LEVEL(pwrpriv, RT_RF_PS_LEVEL_ALWAYS_ASPM);
++	}
++
++}
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,5,0)) || (LINUX_VERSION_CODE > KERNEL_VERSION(2,6,18))
++#define rtw_pci_interrupt(x,y,z) rtw_pci_interrupt(x,y)
++#endif
++
++static irqreturn_t rtw_pci_interrupt(int irq, void *priv, struct pt_regs *regs)
++{
++	struct dvobj_priv *dvobj = (struct dvobj_priv *)priv;
++	_adapter *adapter = dvobj->if1;
++
++	if (dvobj->irq_enabled == 0) {
++		return IRQ_HANDLED;
++	}
++
++	if(rtw_hal_interrupt_handler(adapter) == _FAIL)
++		return IRQ_HANDLED;
++		//return IRQ_NONE;
++
++	return IRQ_HANDLED;
++}
++
++#ifdef RTK_DMP_PLATFORM
++#define pci_iounmap(x,y) iounmap(y)
++#endif
++
++int pci_alloc_irq(struct dvobj_priv *dvobj)
++{
++	int err;
++	struct pci_dev *pdev = dvobj->ppcidev;
++
++#if defined(IRQF_SHARED)
++	err = request_irq(pdev->irq, &rtw_pci_interrupt, IRQF_SHARED, DRV_NAME, dvobj);
++#else
++	err = request_irq(pdev->irq, &rtw_pci_interrupt, SA_SHIRQ, DRV_NAME, dvobj);
++#endif
++	if (err) {
++		DBG_871X("Error allocating IRQ %d",pdev->irq);
++	} else {
++		dvobj->irq_alloc = 1;
++		DBG_871X("Request_irq OK, IRQ %d\n",pdev->irq);
++	}
++
++	return err?_FAIL:_SUCCESS;
++}
++
++static struct dvobj_priv *pci_dvobj_init(struct pci_dev *pdev)
++{
++	int err;
++	u32	status = _FAIL;
++	struct dvobj_priv *dvobj = NULL;
++	struct pci_priv	*pcipriv = NULL;
++	struct pci_dev *bridge_pdev = pdev->bus->self;
++	unsigned long pmem_start, pmem_len, pmem_flags;
++	u8	tmp;
++
++_func_enter_;
++
++	if ((dvobj = devobj_init()) == NULL) {
++		goto exit;
++	}
++	dvobj->ppcidev = pdev;
++	pcipriv = &(dvobj->pcipriv);
++	pci_set_drvdata(pdev, dvobj);
++
++	if ( (err = pci_enable_device(pdev)) != 0) {
++		DBG_871X(KERN_ERR "%s : Cannot enable new PCI device\n", pci_name(pdev));
++		goto free_dvobj;
++	}
++
++#ifdef CONFIG_64BIT_DMA
++	if (!pci_set_dma_mask(pdev, DMA_BIT_MASK(64))) {
++		DBG_871X("RTL819xCE: Using 64bit DMA\n");
++		if ((err = pci_set_consistent_dma_mask(pdev, DMA_BIT_MASK(64))) != 0) {
++			DBG_871X(KERN_ERR "Unable to obtain 64bit DMA for consistent allocations\n");
++			goto disable_picdev;
++		}
++		dvobj->bdma64 = _TRUE;
++	} else
++#endif
++	{
++		if (!pci_set_dma_mask(pdev, DMA_BIT_MASK(32))) {
++			if ((err = pci_set_consistent_dma_mask(pdev, DMA_BIT_MASK(32))) != 0) {
++				DBG_871X(KERN_ERR "Unable to obtain 32bit DMA for consistent allocations\n");
++				goto disable_picdev;
++			}
++		}
++	}
++
++	pci_set_master(pdev);
++
++	if ((err = pci_request_regions(pdev, DRV_NAME)) != 0) {
++		DBG_871X(KERN_ERR "Can't obtain PCI resources\n");
++		goto disable_picdev;
++	}
++	//MEM map
++	pmem_start = pci_resource_start(pdev, 2);
++	pmem_len = pci_resource_len(pdev, 2);
++	pmem_flags = pci_resource_flags(pdev, 2);
++
++#ifdef RTK_DMP_PLATFORM
++	dvobj->pci_mem_start = (unsigned long)ioremap_nocache(pmem_start, pmem_len);
++#else
++	dvobj->pci_mem_start = (unsigned long)pci_iomap(pdev, 2, pmem_len); /* shared mem start */
++#endif
++	if (dvobj->pci_mem_start == 0) {
++		DBG_871X(KERN_ERR "Can't map PCI mem\n");
++		goto release_regions;
++	}
++
++	DBG_871X("Memory mapped space start: 0x%08lx len:%08lx flags:%08lx, after map:0x%08lx\n",
++		pmem_start, pmem_len, pmem_flags, dvobj->pci_mem_start);
++
++	// Disable Clk Request */
++	pci_write_config_byte(pdev, 0x81, 0);
++	// leave D3 mode */
++	pci_write_config_byte(pdev, 0x44, 0);
++	pci_write_config_byte(pdev, 0x04, 0x06);
++	pci_write_config_byte(pdev, 0x04, 0x07);
++
++
++#if 1
++	/*find bus info*/
++	pcipriv->busnumber = pdev->bus->number;
++	pcipriv->devnumber = PCI_SLOT(pdev->devfn);
++	pcipriv->funcnumber = PCI_FUNC(pdev->devfn);
++
++	/*find bridge info*/
++	pcipriv->pcibridge_vendor = PCI_BRIDGE_VENDOR_UNKNOWN;
++	if(bridge_pdev){
++		pcipriv->pcibridge_vendorid = bridge_pdev->vendor;
++		for (tmp = 0; tmp < PCI_BRIDGE_VENDOR_MAX; tmp++) {
++			if (bridge_pdev->vendor == pcibridge_vendors[tmp]) {
++				pcipriv->pcibridge_vendor = tmp;
++				DBG_871X("Pci Bridge Vendor is found index: %d, %x\n", tmp, pcibridge_vendors[tmp]);
++				break;
++			}
++		}
++	}
++
++	//if (pcipriv->pcibridge_vendor != PCI_BRIDGE_VENDOR_UNKNOWN) {
++	if(bridge_pdev){
++		pcipriv->pcibridge_busnum = bridge_pdev->bus->number;
++		pcipriv->pcibridge_devnum = PCI_SLOT(bridge_pdev->devfn);
++		pcipriv->pcibridge_funcnum = PCI_FUNC(bridge_pdev->devfn);
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,34))
++		pcipriv->pcibridge_pciehdr_offset = pci_find_capability(bridge_pdev, PCI_CAP_ID_EXP);
++#else
++		pcipriv->pcibridge_pciehdr_offset = bridge_pdev->pcie_cap;
++#endif
++
++		rtw_pci_get_linkcontrol_field(dvobj);
++
++		if (pcipriv->pcibridge_vendor == PCI_BRIDGE_VENDOR_AMD) {
++			pcipriv->amd_l1_patch = rtw_pci_get_amd_l1_patch(dvobj);
++		}
++	}
++#else
++	//
++	// Find bridge related info.
++	//
++	rtw_get_pci_bus_info(padapter,
++				  pdev->vendor,
++				  pdev->device,
++				  (u8) pdvobjpriv->irqline,
++				  0x02, 0x80, U1DONTCARE,
++				  &pcipriv->busnumber,
++				  &pcipriv->devnumber,
++				  &pcipriv->funcnumber);
++
++	rtw_find_bridge_info(padapter);
++
++	if (pcipriv->pcibridge_vendor != PCI_BRIDGE_VENDOR_UNKNOWN) {
++		rtw_get_link_control_field(padapter,
++						pcipriv->pcibridge_busnum,
++						pcipriv->pcibridge_devnum,
++						pcipriv->pcibridge_funcnum);
++
++		if (pcipriv->pcibridge_vendor == PCI_BRIDGE_VENDOR_AMD) {
++			pcipriv->amd_l1_patch =
++				rtw_get_amd_l1_patch(padapter,
++							pcipriv->pcibridge_busnum,
++							pcipriv->pcibridge_devnum,
++							pcipriv->pcibridge_funcnum);
++		}
++	}
++#endif
++
++	//
++	// Allow the hardware to look at PCI config information.
++	//
++	rtw_pci_parse_configuration(dvobj);
++
++	DBG_871X("pcidev busnumber:devnumber:funcnumber:"
++		"vendor:link_ctl %d:%d:%d:%x:%x\n",
++		pcipriv->busnumber,
++		pcipriv->devnumber,
++		pcipriv->funcnumber,
++		pdev->vendor,
++		pcipriv->linkctrl_reg);
++
++	DBG_871X("pci_bridge busnumber:devnumber:funcnumber:vendor:"
++		"pcie_cap:link_ctl_reg: %d:%d:%d:%x:%x:%x:%x\n",
++		pcipriv->pcibridge_busnum,
++		pcipriv->pcibridge_devnum,
++		pcipriv->pcibridge_funcnum,
++		pcibridge_vendors[pcipriv->pcibridge_vendor],
++		pcipriv->pcibridge_pciehdr_offset,
++		pcipriv->pcibridge_linkctrlreg,
++		pcipriv->amd_l1_patch);
++
++	status = _SUCCESS;
++
++iounmap:
++	if (status != _SUCCESS && dvobj->pci_mem_start != 0) {
++		pci_iounmap(pdev, (void *)dvobj->pci_mem_start);
++		dvobj->pci_mem_start = 0;
++	}
++release_regions:
++	if (status != _SUCCESS)
++		pci_release_regions(pdev);
++disable_picdev:
++	if (status != _SUCCESS)
++		pci_disable_device(pdev);
++free_dvobj:
++	if (status != _SUCCESS && dvobj) {
++		pci_set_drvdata(pdev, NULL);
++		devobj_deinit(dvobj);
++		dvobj = NULL;
++	}
++exit:
++_func_exit_;
++	return dvobj;
++}
++
++static void pci_dvobj_deinit(struct pci_dev *pdev)
++{
++	struct dvobj_priv *dvobj = pci_get_drvdata(pdev);
++_func_enter_;
++
++	pci_set_drvdata(pdev, NULL);
++	if (dvobj) {
++		if (dvobj->irq_alloc) {
++			free_irq(pdev->irq, dvobj);
++			dvobj->irq_alloc = 0;
++		}
++
++		if (dvobj->pci_mem_start != 0) {
++			pci_iounmap(pdev, (void *)dvobj->pci_mem_start);
++			dvobj->pci_mem_start = 0;
++		}
++
++		devobj_deinit(dvobj);
++	}
++
++	pci_release_regions(pdev);
++	pci_disable_device(pdev);
++
++_func_exit_;
++}
++
++static void decide_chip_type_by_pci_device_id(_adapter *padapter, struct pci_dev *pdev)
++{
++	u16	venderid, deviceid, irqline;
++	u8	revisionid;
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++
++
++	venderid = pdev->vendor;
++	deviceid = pdev->device;
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,23))
++	pci_read_config_byte(pdev, PCI_REVISION_ID, &revisionid); // PCI_REVISION_ID 0x08
++#else
++	revisionid = pdev->revision;
++#endif
++	pci_read_config_word(pdev, PCI_INTERRUPT_LINE, &irqline); // PCI_INTERRUPT_LINE 0x3c
++	pdvobjpriv->irqline = irqline;
++
++
++	//
++	// Decide hardware type here.
++	//
++	if( deviceid == HAL_HW_PCI_8185_DEVICE_ID ||
++	    deviceid == HAL_HW_PCI_8188_DEVICE_ID ||
++	    deviceid == HAL_HW_PCI_8198_DEVICE_ID)
++	{
++		DBG_871X("Adapter (8185/8185B) is found- VendorID/DeviceID=%x/%x\n", venderid, deviceid);
++		padapter->HardwareType=HARDWARE_TYPE_RTL8185;
++	}
++	else if (deviceid == HAL_HW_PCI_8190_DEVICE_ID ||
++		deviceid == HAL_HW_PCI_0045_DEVICE_ID ||
++		deviceid == HAL_HW_PCI_0046_DEVICE_ID ||
++		deviceid == HAL_HW_PCI_DLINK_DEVICE_ID)
++	{
++		DBG_871X("Adapter(8190 PCI) is found - vendorid/deviceid=%x/%x\n", venderid, deviceid);
++		padapter->HardwareType = HARDWARE_TYPE_RTL8190P;
++	}
++	else if (deviceid == HAL_HW_PCI_8192_DEVICE_ID ||
++		deviceid == HAL_HW_PCI_0044_DEVICE_ID ||
++		deviceid == HAL_HW_PCI_0047_DEVICE_ID ||
++		deviceid == HAL_HW_PCI_8192SE_DEVICE_ID ||
++		deviceid == HAL_HW_PCI_8174_DEVICE_ID ||
++		deviceid == HAL_HW_PCI_8173_DEVICE_ID ||
++		deviceid == HAL_HW_PCI_8172_DEVICE_ID ||
++		deviceid == HAL_HW_PCI_8171_DEVICE_ID)
++	{
++		// 8192e and and 8192se may have the same device ID 8192. However, their Revision
++		// ID is different
++		// Added for 92DE. We deferentiate it from SVID,SDID.
++		if( pdev->subsystem_vendor == 0x10EC && pdev->subsystem_device == 0xE020){
++			padapter->HardwareType = HARDWARE_TYPE_RTL8192DE;
++			DBG_871X("Adapter(8192DE) is found - VendorID/DeviceID/RID=%X/%X/%X\n", venderid, deviceid, revisionid);
++		}else{
++			switch (revisionid) {
++				case HAL_HW_PCI_REVISION_ID_8192PCIE:
++					DBG_871X("Adapter(8192 PCI-E) is found - vendorid/deviceid=%x/%x\n", venderid, deviceid);
++					padapter->HardwareType = HARDWARE_TYPE_RTL8192E;
++					break;
++				case HAL_HW_PCI_REVISION_ID_8192SE:
++					DBG_871X("Adapter(8192SE) is found - vendorid/deviceid=%x/%x\n", venderid, deviceid);
++					padapter->HardwareType = HARDWARE_TYPE_RTL8192SE;
++					break;
++				default:
++					DBG_871X("Err: Unknown device - vendorid/deviceid=%x/%x\n", venderid, deviceid);
++					padapter->HardwareType = HARDWARE_TYPE_RTL8192SE;
++					break;
++			}
++		}
++	}
++	else if(deviceid==HAL_HW_PCI_8723E_DEVICE_ID )
++	{//RTL8723E may have the same device ID with RTL8192CET
++		padapter->HardwareType = HARDWARE_TYPE_RTL8723AE;
++		DBG_871X("Adapter(8723 PCI-E) is found - VendorID/DeviceID=%x/%x\n", venderid, deviceid);
++	}
++	else if (deviceid == HAL_HW_PCI_8192CET_DEVICE_ID ||
++		deviceid == HAL_HW_PCI_8192CE_DEVICE_ID ||
++		deviceid == HAL_HW_PCI_8191CE_DEVICE_ID ||
++		deviceid == HAL_HW_PCI_8188CE_DEVICE_ID)
++	{
++		DBG_871X("Adapter(8192C PCI-E) is found - vendorid/deviceid=%x/%x\n", venderid, deviceid);
++		padapter->HardwareType = HARDWARE_TYPE_RTL8192CE;
++	}
++	else if (deviceid == HAL_HW_PCI_8192DE_DEVICE_ID ||
++		deviceid == HAL_HW_PCI_002B_DEVICE_ID ){
++		padapter->HardwareType = HARDWARE_TYPE_RTL8192DE;
++		DBG_871X("Adapter(8192DE) is found - VendorID/DeviceID/RID=%X/%X/%X\n", venderid, deviceid, revisionid);
++	}
++	else
++	{
++		DBG_871X("Err: Unknown device - vendorid/deviceid=%x/%x\n", venderid, deviceid);
++		//padapter->HardwareType = HAL_DEFAULT_HARDWARE_TYPE;
++	}
++
++
++	padapter->chip_type = NULL_CHIP_TYPE;
++
++	//TODO:
++#ifdef CONFIG_RTL8192C
++	padapter->chip_type = RTL8188C_8192C;
++	padapter->HardwareType = HARDWARE_TYPE_RTL8192CE;
++#endif
++#ifdef CONFIG_RTL8192D
++	pdvobjpriv->InterfaceNumber = revisionid;
++
++	padapter->chip_type = RTL8192D;
++	padapter->HardwareType = HARDWARE_TYPE_RTL8192DE;
++#endif
++
++}
++
++static void pci_intf_start(_adapter *padapter)
++{
++
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("+pci_intf_start\n"));
++	DBG_871X("+pci_intf_start\n");
++
++#ifdef CONFIG_PCILED_BLINK
++	rtw_led_control(padapter, LED_CTL_NO_LINK);
++#endif
++	//Enable hw interrupt
++	rtw_hal_enable_interrupt(padapter);
++
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("-pci_intf_start\n"));
++	DBG_871X("-pci_intf_start\n");
++}
++
++static void pci_intf_stop(_adapter *padapter)
++{
++
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("+pci_intf_stop\n"));
++
++	//Disable hw interrupt
++	if(padapter->bSurpriseRemoved == _FALSE)
++	{
++		//device still exists, so driver can do i/o operation
++		rtw_hal_disable_interrupt(padapter);
++		tasklet_disable(&(padapter->recvpriv.recv_tasklet));
++		tasklet_disable(&(padapter->recvpriv.irq_prepare_beacon_tasklet));
++		tasklet_disable(&(padapter->xmitpriv.xmit_tasklet));
++
++#ifdef CONFIG_CONCURRENT_MODE
++		/*	This function only be called at driver removing. disable buddy_adapter too
++			don't disable interrupt of buddy_adapter because it is same as primary.
++		*/
++		if (padapter->pbuddy_adapter){
++			tasklet_disable(&(padapter->pbuddy_adapter->recvpriv.recv_tasklet));
++			tasklet_disable(&(padapter->pbuddy_adapter->recvpriv.irq_prepare_beacon_tasklet));
++			tasklet_disable(&(padapter->pbuddy_adapter->xmitpriv.xmit_tasklet));
++		}
++#endif
++		RT_TRACE(_module_hci_intfs_c_,_drv_err_,("pci_intf_stop: SurpriseRemoved==_FALSE\n"));
++	}
++	else
++	{
++		// Clear irq_enabled to prevent handle interrupt function.
++		adapter_to_dvobj(padapter)->irq_enabled = 0;
++	}
++
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("-pci_intf_stop\n"));
++
++}
++
++
++static void rtw_dev_unload(_adapter *padapter)
++{
++	struct net_device *pnetdev= (struct net_device*)padapter->pnetdev;
++
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("+rtw_dev_unload\n"));
++
++	if(padapter->bup == _TRUE)
++	{
++		DBG_871X("+rtw_dev_unload\n");
++
++		padapter->bDriverStopped = _TRUE;
++		#ifdef CONFIG_XMIT_ACK
++		if (padapter->xmitpriv.ack_tx)
++			rtw_ack_tx_done(&padapter->xmitpriv, RTW_SCTX_DONE_DRV_STOP);
++		#endif
++
++		//s3.
++		if(padapter->intf_stop)
++		{
++			padapter->intf_stop(padapter);
++		}
++
++		//s4.
++		rtw_stop_drv_threads(padapter);
++
++
++		//s5.
++		if(padapter->bSurpriseRemoved == _FALSE)
++		{
++			DBG_871X("r871x_dev_unload()->rtl871x_hal_deinit()\n");
++			rtw_hal_deinit(padapter);
++
++			padapter->bSurpriseRemoved = _TRUE;
++		}
++
++		padapter->bup = _FALSE;
++
++	}
++	else
++	{
++		RT_TRACE(_module_hci_intfs_c_,_drv_err_,("r871x_dev_unload():padapter->bup == _FALSE\n" ));
++	}
++
++	DBG_871X("-rtw_dev_unload\n");
++
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("-rtw_dev_unload\n"));
++
++}
++
++static void disable_ht_for_spec_devid(const struct pci_device_id *pdid)
++{
++#ifdef CONFIG_80211N_HT
++	u16 vid, pid;
++	u32 flags;
++	int i;
++	int num = sizeof(specific_device_id_tbl)/sizeof(struct specific_device_id);
++
++	for(i=0; i<num; i++)
++	{
++		vid = specific_device_id_tbl[i].idVendor;
++		pid = specific_device_id_tbl[i].idProduct;
++		flags = specific_device_id_tbl[i].flags;
++
++		if((pdid->vendor==vid) && (pdid->device==pid) && (flags&SPEC_DEV_ID_DISABLE_HT))
++		{
++			 rtw_ht_enable = 0;
++			 rtw_cbw40_enable = 0;
++			 rtw_ampdu_enable = 0;
++		}
++
++	}
++#endif
++}
++
++#ifdef CONFIG_PM
++static int rtw_suspend(struct pci_dev *pdev, pm_message_t state)
++{
++	_func_enter_;
++
++
++	_func_exit_;
++	return 0;
++}
++
++static int rtw_resume(struct pci_dev *pdev)
++{
++	_func_enter_;
++
++
++	_func_exit_;
++
++	return 0;
++}
++#endif
++
++_adapter *rtw_pci_if1_init(struct dvobj_priv * dvobj, struct pci_dev *pdev,
++	const struct pci_device_id *pdid)
++{
++	_adapter *padapter = NULL;
++	struct net_device *pnetdev = NULL;
++	int status = _FAIL;
++
++	if ((padapter = (_adapter *)rtw_zvmalloc(sizeof(*padapter))) == NULL) {
++		goto exit;
++	}
++	padapter->dvobj = dvobj;
++	dvobj->if1 = padapter;
++
++	padapter->bDriverStopped=_TRUE;
++
++	dvobj->padapters[dvobj->iface_nums++] = padapter;
++	padapter->iface_id = IFACE_ID0;
++
++#if defined(CONFIG_CONCURRENT_MODE) || defined(CONFIG_DUALMAC_CONCURRENT)
++	//set adapter_type/iface type for primary padapter
++	padapter->isprimary = _TRUE;
++	padapter->adapter_type = PRIMARY_ADAPTER;
++	#ifndef CONFIG_HWPORT_SWAP
++	padapter->iface_type = IFACE_PORT0;
++	#else
++	padapter->iface_type = IFACE_PORT1;
++	#endif
++#endif
++
++	//step 1-1., decide the chip_type via vid/pid
++	padapter->interface_type = RTW_PCIE;
++	decide_chip_type_by_pci_device_id(padapter, pdev);
++
++	if((pnetdev = rtw_init_netdev(padapter)) == NULL) {
++		goto free_adapter;
++	}
++	if (dvobj->bdma64)
++		pnetdev->features |= NETIF_F_HIGHDMA;
++	pnetdev->irq = pdev->irq;
++	SET_NETDEV_DEV(pnetdev, dvobj_to_dev(dvobj));
++	padapter = rtw_netdev_priv(pnetdev);
++
++	//step 2. hook HalFunc, allocate HalData
++	if (padapter->chip_type == RTL8188C_8192C) {
++		#ifdef CONFIG_RTL8192C
++		rtl8192ce_set_hal_ops(padapter);
++		#endif
++	} else if (padapter->chip_type == RTL8192D) {
++		#ifdef CONFIG_RTL8192D
++		rtl8192de_set_hal_ops(padapter);
++		#endif
++	} else {
++		DBG_871X("Detect NULL_CHIP_TYPE\n");
++		goto free_hal_data;
++	}
++
++	//step 3.	initialize the dvobj_priv
++	padapter->intf_start=&pci_intf_start;
++	padapter->intf_stop=&pci_intf_stop;
++
++
++	//.2
++	if ((rtw_init_io_priv(padapter, pci_set_intf_ops)) == _FAIL) {
++		RT_TRACE(_module_hci_intfs_c_,_drv_err_,(" \n Can't init io_reqs\n"));
++		goto free_hal_data;
++	}
++
++	//.3
++	rtw_hal_read_chip_version(padapter);
++
++	//.4
++	rtw_hal_chip_configure(padapter);
++
++	//step 4. read efuse/eeprom data and get mac_addr
++	rtw_hal_read_chip_info(padapter);
++
++	if (rtw_handle_dualmac(padapter, 1) != _SUCCESS)
++		goto free_hal_data;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if(rtw_wdev_alloc(padapter, dvobj_to_dev(dvobj)) != 0) {
++		goto handle_dualmac;
++	}
++#endif
++
++	//step 5.
++	if (rtw_init_drv_sw(padapter) == _FAIL) {
++		RT_TRACE(_module_hci_intfs_c_,_drv_err_,("Initialize driver software resource Failed!\n"));
++		goto free_wdev;
++	}
++
++	status = rtw_hal_inirp_init(padapter);
++	if(status ==_FAIL){
++		RT_TRACE(_module_hci_intfs_c_,_drv_err_,("Initialize PCI desc ring Failed!\n"));
++		goto free_drv_sw;
++	}
++
++	rtw_macaddr_cfg(padapter->eeprompriv.mac_addr);
++	rtw_init_wifidirect_addrs(padapter, padapter->eeprompriv.mac_addr, padapter->eeprompriv.mac_addr);
++
++
++	rtw_hal_disable_interrupt(padapter);
++
++	//step 6. Init pci related configuration
++	rtw_pci_initialize_adapter_common(padapter);
++
++	DBG_871X("bDriverStopped:%d, bSurpriseRemoved:%d, bup:%d, hw_init_completed:%d\n"
++		,padapter->bDriverStopped
++		,padapter->bSurpriseRemoved
++		,padapter->bup
++		,padapter->hw_init_completed
++	);
++
++	status = _SUCCESS;
++
++inirp_deinit:
++	if (status != _SUCCESS)
++		rtw_hal_inirp_deinit(padapter);
++free_drv_sw:
++	if (status != _SUCCESS)
++		rtw_free_drv_sw(padapter);
++free_wdev:
++	if (status != _SUCCESS) {
++		#ifdef CONFIG_IOCTL_CFG80211
++		rtw_wdev_unregister(padapter->rtw_wdev);
++		rtw_wdev_free(padapter->rtw_wdev);
++		#endif
++	}
++handle_dualmac:
++	if (status != _SUCCESS)
++		rtw_handle_dualmac(padapter, 0);
++free_hal_data:
++	if (status != _SUCCESS && padapter->HalData)
++		rtw_mfree(padapter->HalData, sizeof(*(padapter->HalData)));
++free_adapter:
++	if (status != _SUCCESS) {
++		if (pnetdev)
++			rtw_free_netdev(pnetdev);
++		else if (padapter)
++			rtw_vmfree((u8*)padapter, sizeof(*padapter));
++		padapter = NULL;
++	}
++exit:
++	return padapter;
++}
++
++static void rtw_pci_if1_deinit(_adapter *if1)
++{
++	struct net_device *pnetdev = if1->pnetdev;
++	struct mlme_priv *pmlmepriv= &if1->mlmepriv;
++
++	//	padapter->intf_stop(padapter);
++
++	if(check_fwstate(pmlmepriv, _FW_LINKED))
++		rtw_disassoc_cmd(if1, 0, _FALSE);
++
++#ifdef CONFIG_AP_MODE
++	free_mlme_ap_info(if1);
++	#ifdef CONFIG_HOSTAPD_MLME
++	hostapd_mode_unload(if1);
++	#endif
++#endif
++
++	rtw_cancel_all_timer(if1);
++#ifdef CONFIG_WOWLAN
++	if1->pwrctrlpriv.wowlan_mode=_FALSE;
++#endif //CONFIG_WOWLAN
++	rtw_dev_unload(if1);
++
++	DBG_871X("%s, hw_init_completed=%d\n", __func__, if1->hw_init_completed);
++
++	//s6.
++	rtw_handle_dualmac(if1, 0);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (if1->rtw_wdev)
++		rtw_wdev_free(if1->rtw_wdev);
++#endif //CONFIG_IOCTL_CFG80211
++
++	rtw_hal_inirp_deinit(if1);
++	rtw_free_drv_sw(if1);
++
++	if(pnetdev)
++		rtw_free_netdev(pnetdev);
++
++#ifdef CONFIG_PLATFORM_RTD2880B
++	DBG_871X("wlan link down\n");
++	rtd2885_wlan_netlink_sendMsg("linkdown", "8712");
++#endif
++}
++
++/*
++ * drv_init() - a device potentially for us
++ *
++ * notes: drv_init() is called when the bus driver has located a card for us to support.
++ *        We accept the new device by returning 0.
++*/
++static int rtw_drv_init(struct pci_dev *pdev, const struct pci_device_id *did)
++{
++	int i, err = -ENODEV;
++
++	int status;
++	_adapter *if1 = NULL, *if2 = NULL;
++	struct dvobj_priv *dvobj;
++
++	RT_TRACE(_module_hci_intfs_c_, _drv_err_, ("+rtw_drv_init\n"));
++
++	//step 0.
++	disable_ht_for_spec_devid(did);
++
++	/* Initialize dvobj_priv */
++	if ((dvobj = pci_dvobj_init(pdev)) == NULL) {
++		RT_TRACE(_module_hci_intfs_c_, _drv_err_, ("initialize device object priv Failed!\n"));
++		goto exit;
++	}
++
++	/* Initialize if1 */
++	if ((if1 = rtw_pci_if1_init(dvobj, pdev, did)) == NULL) {
++		DBG_871X("rtw_pci_if1_init Failed!\n");
++		goto free_dvobj;
++	}
++
++	/* Initialize if2 */
++#ifdef CONFIG_CONCURRENT_MODE
++	if((if2 = rtw_drv_if2_init(if1, pci_set_intf_ops)) == NULL) {
++		goto free_if1;
++	}
++#endif
++
++#ifdef CONFIG_GLOBAL_UI_PID
++	if (ui_pid[1]!=0) {
++		DBG_871X("ui_pid[1]:%d\n",ui_pid[1]);
++		rtw_signal_process(ui_pid[1], SIGUSR2);
++	}
++#endif
++
++	//dev_alloc_name && register_netdev
++	if((status = rtw_drv_register_netdev(if1)) != _SUCCESS) {
++		goto free_if1;
++	}
++
++#ifdef CONFIG_HOSTAPD_MLME
++	hostapd_mode_init(if1);
++#endif
++
++#ifdef CONFIG_PLATFORM_RTD2880B
++	DBG_871X("wlan link up\n");
++	rtd2885_wlan_netlink_sendMsg("linkup", "8712");
++#endif
++
++#ifdef RTK_DMP_PLATFORM
++	rtw_proc_init_one(if1->pnetdev);
++#endif
++
++
++	/* alloc irq */
++	if (pci_alloc_irq(dvobj) != _SUCCESS)
++		goto free_if2;
++
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("-871x_drv - drv_init, success!\n"));
++	//DBG_871X("-871x_drv - drv_init, success!\n");
++
++	status = _SUCCESS;
++
++free_if2:
++	if(status != _SUCCESS && if2) {
++		#ifdef CONFIG_CONCURRENT_MODE
++		rtw_drv_if2_stop(if2);
++		rtw_drv_if2_free(if2);
++		#endif
++	}
++free_if1:
++	if (status != _SUCCESS && if1) {
++		rtw_pci_if1_deinit(if1);
++	}
++free_dvobj:
++	if (status != _SUCCESS)
++		pci_dvobj_deinit(pdev);
++exit:
++	return status == _SUCCESS?0:-ENODEV;
++}
++
++/*
++ * dev_remove() - our device is being removed
++*/
++//rmmod module & unplug(SurpriseRemoved) will call r871xu_dev_remove() => how to recognize both
++static void rtw_dev_remove(struct pci_dev *pdev)
++{
++	struct dvobj_priv *pdvobjpriv = pci_get_drvdata(pdev);
++	_adapter *padapter = pdvobjpriv->if1;
++	struct net_device *pnetdev = padapter->pnetdev;
++
++_func_exit_;
++
++	DBG_871X("+rtw_dev_remove\n");
++
++	pdvobjpriv->processing_dev_remove = _TRUE;
++
++	if (unlikely(!padapter)) {
++		return;
++	}
++
++	rtw_unregister_netdevs(pdvobjpriv);
++
++	#if 0
++#ifdef RTK_DMP_PLATFORM
++	padapter->bSurpriseRemoved = _FALSE;	// always trate as device exists
++											// this will let the driver to disable it's interrupt
++#else
++	if(pci_drvpriv.drv_registered == _TRUE)
++	{
++		//DBG_871X("r871xu_dev_remove():padapter->bSurpriseRemoved == _TRUE\n");
++		padapter->bSurpriseRemoved = _TRUE;
++	}
++	/*else
++	{
++		//DBG_871X("r871xu_dev_remove():module removed\n");
++		padapter->hw_init_completed = _FALSE;
++	}*/
++#endif
++	#endif
++
++#if defined(CONFIG_HAS_EARLYSUSPEND) || defined(CONFIG_ANDROID_POWER)
++	rtw_unregister_early_suspend(&padapter->pwrctrlpriv);
++#endif
++
++	rtw_pm_set_ips(padapter, IPS_NONE);
++	rtw_pm_set_lps(padapter, PS_MODE_ACTIVE);
++
++	LeaveAllPowerSaveMode(padapter);
++
++	rtw_hal_disable_interrupt(padapter);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	rtw_drv_if2_stop(pdvobjpriv->if2);
++#endif //CONFIG_CONCURRENT_MODE
++
++	rtw_pci_if1_deinit(padapter);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	rtw_drv_if2_free(pdvobjpriv->if2);
++#endif
++
++	pci_dvobj_deinit(pdev);
++
++	DBG_871X("-r871xu_dev_remove, done\n");
++
++_func_exit_;
++	return;
++}
++
++
++static int __init rtw_drv_entry(void)
++{
++	int ret = 0;
++
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("+rtw_drv_entry\n"));
++	DBG_871X("rtw driver version=%s\n", DRIVERVERSION);
++	DBG_871X("Build at: %s %s\n", __DATE__, __TIME__);
++	pci_drvpriv.drv_registered = _TRUE;
++
++	rtw_suspend_lock_init();
++
++	ret = pci_register_driver(&pci_drvpriv.rtw_pci_drv);
++	if (ret) {
++		RT_TRACE(_module_hci_intfs_c_, _drv_err_, (": No device found\n"));
++	}
++
++	return ret;
++}
++
++static void __exit rtw_drv_halt(void)
++{
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("+rtw_drv_halt\n"));
++	DBG_871X("+rtw_drv_halt\n");
++
++	pci_drvpriv.drv_registered = _FALSE;
++
++	pci_unregister_driver(&pci_drvpriv.rtw_pci_drv);
++
++	rtw_suspend_lock_uninit();
++	DBG_871X("-rtw_drv_halt\n");
++
++	rtw_mstat_dump();
++}
++
++
++module_init(rtw_drv_entry);
++module_exit(rtw_drv_halt);
++
+diff --git a/drivers/net/wireless/rtl8192cu/os_dep/linux/pci_ops_linux.c b/drivers/net/wireless/rtl8192cu/os_dep/linux/pci_ops_linux.c
+new file mode 100755
+index 0000000..7d671df
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/os_dep/linux/pci_ops_linux.c
+@@ -0,0 +1,24 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#define _PCI_OPS_LINUX_C_
++
++#include <drv_types.h>
++
++
++
+diff --git a/drivers/net/wireless/rtl8192cu/os_dep/linux/recv_linux.c b/drivers/net/wireless/rtl8192cu/os_dep/linux/recv_linux.c
+new file mode 100755
+index 0000000..9c92019
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/os_dep/linux/recv_linux.c
+@@ -0,0 +1,448 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RECV_OSDEP_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++#include <wifi.h>
++#include <recv_osdep.h>
++
++#include <osdep_intf.h>
++#include <ethernet.h>
++
++#ifdef CONFIG_USB_HCI
++#include <usb_ops.h>
++#endif
++
++//init os related resource in struct recv_priv
++int rtw_os_recv_resource_init(struct recv_priv *precvpriv, _adapter *padapter)
++{
++	int	res=_SUCCESS;
++
++	return res;
++}
++
++//alloc os related resource in union recv_frame
++int rtw_os_recv_resource_alloc(_adapter *padapter, union recv_frame *precvframe)
++{
++	int	res=_SUCCESS;
++	
++	precvframe->u.hdr.pkt_newalloc = precvframe->u.hdr.pkt = NULL;
++
++	return res;
++
++}
++
++//free os related resource in union recv_frame
++void rtw_os_recv_resource_free(struct recv_priv *precvpriv)
++{
++
++}
++
++
++//alloc os related resource in struct recv_buf
++int rtw_os_recvbuf_resource_alloc(_adapter *padapter, struct recv_buf *precvbuf)
++{
++	int res=_SUCCESS;
++
++#ifdef CONFIG_USB_HCI
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct usb_device	*pusbd = pdvobjpriv->pusbdev;
++
++	precvbuf->irp_pending = _FALSE;
++	precvbuf->purb = usb_alloc_urb(0, GFP_KERNEL);
++	if(precvbuf->purb == NULL){
++		res = _FAIL;
++	}
++
++	precvbuf->pskb = NULL;
++
++	precvbuf->reuse = _FALSE;
++
++	precvbuf->pallocated_buf  = precvbuf->pbuf = NULL;
++
++	precvbuf->pdata = precvbuf->phead = precvbuf->ptail = precvbuf->pend = NULL;
++
++	precvbuf->transfer_len = 0;
++
++	precvbuf->len = 0;
++
++	#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++	precvbuf->pallocated_buf = rtw_usb_buffer_alloc(pusbd, (size_t)precvbuf->alloc_sz, &precvbuf->dma_transfer_addr);
++	precvbuf->pbuf = precvbuf->pallocated_buf;
++	if(precvbuf->pallocated_buf == NULL)
++		return _FAIL;
++	#endif //CONFIG_USE_USB_BUFFER_ALLOC_RX
++	
++#endif //CONFIG_USB_HCI
++
++	return res;
++}
++
++//free os related resource in struct recv_buf
++int rtw_os_recvbuf_resource_free(_adapter *padapter, struct recv_buf *precvbuf)
++{
++	int ret = _SUCCESS;
++
++#ifdef CONFIG_USB_HCI
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct usb_device	*pusbd = pdvobjpriv->pusbdev;
++
++	rtw_usb_buffer_free(pusbd, (size_t)precvbuf->alloc_sz, precvbuf->pallocated_buf, precvbuf->dma_transfer_addr);
++	precvbuf->pallocated_buf =  NULL;
++	precvbuf->dma_transfer_addr = 0;
++
++#endif //CONFIG_USE_USB_BUFFER_ALLOC_RX
++
++	if(precvbuf->purb)
++	{
++		//usb_kill_urb(precvbuf->purb);
++		usb_free_urb(precvbuf->purb);
++	}
++
++#endif //CONFIG_USB_HCI
++
++
++	if(precvbuf->pskb)
++		rtw_skb_free(precvbuf->pskb);
++
++
++	return ret;
++
++}
++
++void rtw_handle_tkip_mic_err(_adapter *padapter,u8 bgroup)
++{
++#ifdef CONFIG_IOCTL_CFG80211
++	enum nl80211_key_type key_type;
++#endif
++	union iwreq_data wrqu;
++	struct iw_michaelmicfailure    ev;
++	struct mlme_priv*              pmlmepriv  = &padapter->mlmepriv;
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;	
++	u32 cur_time = 0;
++
++	if( psecuritypriv->last_mic_err_time == 0 )
++	{
++		psecuritypriv->last_mic_err_time = rtw_get_current_time();
++	}
++	else
++	{
++		cur_time = rtw_get_current_time();
++
++		if( cur_time - psecuritypriv->last_mic_err_time < 60*HZ )
++		{
++			psecuritypriv->btkip_countermeasure = _TRUE;
++			psecuritypriv->last_mic_err_time = 0;
++			psecuritypriv->btkip_countermeasure_time = cur_time;
++		}
++		else
++		{
++			psecuritypriv->last_mic_err_time = rtw_get_current_time();
++		}
++	}
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if ( bgroup )
++	{
++		key_type |= NL80211_KEYTYPE_GROUP;
++	}
++	else
++	{
++		key_type |= NL80211_KEYTYPE_PAIRWISE;
++	}
++
++	cfg80211_michael_mic_failure(padapter->pnetdev, (u8 *)&pmlmepriv->assoc_bssid[ 0 ], key_type, -1,
++		NULL, GFP_ATOMIC);
++#endif
++
++	_rtw_memset( &ev, 0x00, sizeof( ev ) );
++	if ( bgroup )
++	{
++	    ev.flags |= IW_MICFAILURE_GROUP;
++	}
++	else
++	{
++	    ev.flags |= IW_MICFAILURE_PAIRWISE;
++	}
++
++	ev.src_addr.sa_family = ARPHRD_ETHER;
++	_rtw_memcpy( ev.src_addr.sa_data, &pmlmepriv->assoc_bssid[ 0 ], ETH_ALEN );
++
++	_rtw_memset( &wrqu, 0x00, sizeof( wrqu ) );
++	wrqu.data.length = sizeof( ev );
++
++	wireless_send_event( padapter->pnetdev, IWEVMICHAELMICFAILURE, &wrqu, (char*) &ev );
++}
++
++void rtw_hostapd_mlme_rx(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_HOSTAPD_MLME
++	_pkt *skb;
++	struct hostapd_priv *phostapdpriv  = padapter->phostapdpriv;
++	struct net_device *pmgnt_netdev = phostapdpriv->pmgnt_netdev;
++
++	RT_TRACE(_module_recv_osdep_c_, _drv_info_, ("+rtw_hostapd_mlme_rx\n"));
++
++	skb = precv_frame->u.hdr.pkt;
++
++	if (skb == NULL)
++		return;
++
++	skb->data = precv_frame->u.hdr.rx_data;
++	skb->tail = precv_frame->u.hdr.rx_tail;
++	skb->len = precv_frame->u.hdr.len;
++
++	//pskb_copy = rtw_skb_copy(skb);
++//	if(skb == NULL) goto _exit;
++
++	skb->dev = pmgnt_netdev;
++	skb->ip_summed = CHECKSUM_NONE;
++	skb->pkt_type = PACKET_OTHERHOST;
++	//skb->protocol = __constant_htons(0x0019); /*ETH_P_80211_RAW*/
++	skb->protocol = __constant_htons(0x0003); /*ETH_P_80211_RAW*/
++
++	//DBG_871X("(1)data=0x%x, head=0x%x, tail=0x%x, mac_header=0x%x, len=%d\n", skb->data, skb->head, skb->tail, skb->mac_header, skb->len);
++
++	//skb->mac.raw = skb->data;
++	skb_reset_mac_header(skb);
++
++       //skb_pull(skb, 24);
++       _rtw_memset(skb->cb, 0, sizeof(skb->cb));
++
++	rtw_netif_rx(pmgnt_netdev, skb);
++
++	precv_frame->u.hdr.pkt = NULL; // set pointer to NULL before rtw_free_recvframe() if call rtw_netif_rx()
++#endif
++}
++
++int rtw_recv_indicatepkt(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct recv_priv *precvpriv;
++	_queue	*pfree_recv_queue;
++	_pkt *skb;
++	struct mlme_priv*pmlmepriv = &padapter->mlmepriv;
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_RX
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++#endif
++
++#ifdef CONFIG_BR_EXT
++	void *br_port = NULL;
++#endif
++
++_func_enter_;
++
++	precvpriv = &(padapter->recvpriv);
++	pfree_recv_queue = &(precvpriv->free_recv_queue);
++
++#ifdef CONFIG_DRVEXT_MODULE
++	if (drvext_rx_handler(padapter, precv_frame->u.hdr.rx_data, precv_frame->u.hdr.len) == _SUCCESS)
++	{
++		goto _recv_indicatepkt_drop;
++	}
++#endif
++
++	skb = precv_frame->u.hdr.pkt;
++	if(skb == NULL)
++	{
++		RT_TRACE(_module_recv_osdep_c_,_drv_err_,("rtw_recv_indicatepkt():skb==NULL something wrong!!!!\n"));
++		goto _recv_indicatepkt_drop;
++	}
++
++	RT_TRACE(_module_recv_osdep_c_,_drv_info_,("rtw_recv_indicatepkt():skb != NULL !!!\n"));		
++	RT_TRACE(_module_recv_osdep_c_,_drv_info_,("rtw_recv_indicatepkt():precv_frame->u.hdr.rx_head=%p  precv_frame->hdr.rx_data=%p\n", precv_frame->u.hdr.rx_head, precv_frame->u.hdr.rx_data));
++	RT_TRACE(_module_recv_osdep_c_,_drv_info_,("precv_frame->hdr.rx_tail=%p precv_frame->u.hdr.rx_end=%p precv_frame->hdr.len=%d \n", precv_frame->u.hdr.rx_tail, precv_frame->u.hdr.rx_end, precv_frame->u.hdr.len));
++
++	skb->data = precv_frame->u.hdr.rx_data;
++
++	skb_set_tail_pointer(skb, precv_frame->u.hdr.len);
++
++	skb->len = precv_frame->u.hdr.len;
++
++	RT_TRACE(_module_recv_osdep_c_,_drv_info_,("\n skb->head=%p skb->data=%p skb->tail=%p skb->end=%p skb->len=%d\n", skb->head, skb->data, skb->tail, skb->end, skb->len));
++
++	if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++	{
++	 	_pkt *pskb2=NULL;
++	 	struct sta_info *psta = NULL;
++	 	struct sta_priv *pstapriv = &padapter->stapriv;
++		struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++		int bmcast = IS_MCAST(pattrib->dst);
++
++		//DBG_871X("bmcast=%d\n", bmcast);
++
++		if(_rtw_memcmp(pattrib->dst, myid(&padapter->eeprompriv), ETH_ALEN)==_FALSE)
++		{
++			//DBG_871X("not ap psta=%p, addr=%pM\n", psta, pattrib->dst);
++
++			if(bmcast)
++			{
++				psta = rtw_get_bcmc_stainfo(padapter);
++				pskb2 = rtw_skb_clone(skb);
++			} else {
++				psta = rtw_get_stainfo(pstapriv, pattrib->dst);
++			}
++
++			if(psta)
++			{
++				struct net_device *pnetdev= (struct net_device*)padapter->pnetdev;			
++
++				//DBG_871X("directly forwarding to the rtw_xmit_entry\n");
++
++				//skb->ip_summed = CHECKSUM_NONE;
++				skb->dev = pnetdev;			
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35))
++				skb_set_queue_mapping(skb, rtw_recv_select_queue(skb));
++#endif //LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35)
++			
++				_rtw_xmit_entry(skb, pnetdev);
++			
++				if(bmcast)
++					skb = pskb2;
++				else
++					goto _recv_indicatepkt_end;
++			}
++
++
++		}
++		else// to APself
++		{
++			//DBG_871X("to APSelf\n");
++		}
++	}
++	
++
++#ifdef CONFIG_BR_EXT
++
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++	br_port = padapter->pnetdev->br_port;
++#else   // (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++	rcu_read_lock();
++	br_port = rcu_dereference(padapter->pnetdev->rx_handler_data);
++	rcu_read_unlock();
++#endif  // (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++
++	if( br_port	&& (check_fwstate(pmlmepriv, WIFI_STATION_STATE|WIFI_ADHOC_STATE) == _TRUE) )	 	
++	{
++		int nat25_handle_frame(_adapter *priv, struct sk_buff *skb);
++		if (nat25_handle_frame(padapter, skb) == -1) {
++			//priv->ext_stats.rx_data_drops++;
++			//DEBUG_ERR("RX DROP: nat25_handle_frame fail!\n");
++			//return FAIL;
++#if 1			
++			// bypass this frame to upper layer!!
++#else
++			goto _recv_indicatepkt_drop;
++#endif
++		}	
++	}
++
++#endif	// CONFIG_BR_EXT
++
++
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_RX
++	if ( (pattrib->tcpchk_valid == 1) && (pattrib->tcp_chkrpt == 1) ) {
++		skb->ip_summed = CHECKSUM_UNNECESSARY;
++		//DBG_871X("CHECKSUM_UNNECESSARY \n");
++	} else {
++		skb->ip_summed = CHECKSUM_NONE;
++		//DBG_871X("CHECKSUM_NONE(%d, %d) \n", pattrib->tcpchk_valid, pattrib->tcp_chkrpt);
++	}
++#else /* !CONFIG_TCP_CSUM_OFFLOAD_RX */
++
++	skb->ip_summed = CHECKSUM_NONE;
++
++#endif
++
++	skb->dev = padapter->pnetdev;
++	skb->protocol = eth_type_trans(skb, padapter->pnetdev);
++
++	rtw_netif_rx(padapter->pnetdev, skb);
++
++_recv_indicatepkt_end:
++
++	precv_frame->u.hdr.pkt = NULL; // pointers to NULL before rtw_free_recvframe()
++
++	rtw_free_recvframe(precv_frame, pfree_recv_queue);
++
++	RT_TRACE(_module_recv_osdep_c_,_drv_info_,("\n rtw_recv_indicatepkt :after rtw_netif_rx!!!!\n"));
++
++_func_exit_;
++
++        return _SUCCESS;
++
++_recv_indicatepkt_drop:
++
++	 //enqueue back to free_recv_queue
++	 if(precv_frame)
++		 rtw_free_recvframe(precv_frame, pfree_recv_queue);
++
++	 return _FAIL;
++
++_func_exit_;
++
++}
++
++void rtw_os_read_port(_adapter *padapter, struct recv_buf *precvbuf)
++{
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++
++#ifdef CONFIG_USB_HCI
++
++	precvbuf->ref_cnt--;
++
++	//free skb in recv_buf
++	rtw_skb_free(precvbuf->pskb);
++
++	precvbuf->pskb = NULL;
++	precvbuf->reuse = _FALSE;
++
++	if(precvbuf->irp_pending == _FALSE)
++	{
++		rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++	}
++
++
++#endif
++#ifdef CONFIG_SDIO_HCI
++		precvbuf->pskb = NULL;
++#endif
++
++}
++void _rtw_reordering_ctrl_timeout_handler (void *FunctionContext);
++void _rtw_reordering_ctrl_timeout_handler (void *FunctionContext)
++{
++	struct recv_reorder_ctrl *preorder_ctrl = (struct recv_reorder_ctrl *)FunctionContext;
++	rtw_reordering_ctrl_timeout_handler(preorder_ctrl);
++}
++
++void rtw_init_recv_timer(struct recv_reorder_ctrl *preorder_ctrl)
++{
++	_adapter *padapter = preorder_ctrl->padapter;
++
++	_init_timer(&(preorder_ctrl->reordering_ctrl_timer), padapter->pnetdev, _rtw_reordering_ctrl_timeout_handler, preorder_ctrl);
++
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/os_dep/linux/rtw_android.c b/drivers/net/wireless/rtl8192cu/os_dep/linux/rtw_android.c
+new file mode 100755
+index 0000000..d6ac16c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/os_dep/linux/rtw_android.c
+@@ -0,0 +1,839 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include <linux/module.h>
++#include <linux/netdevice.h>
++
++#include <rtw_android.h>
++#include <osdep_service.h>
++#include <rtw_debug.h>
++#include <ioctl_cfg80211.h>
++#include <rtw_ioctl_set.h>
++
++#if defined(RTW_ENABLE_WIFI_CONTROL_FUNC)
++#include <linux/platform_device.h>
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++#include <linux/wlan_plat.h>
++#else
++#include <linux/wifi_tiwlan.h>
++#endif
++#endif /* defined(RTW_ENABLE_WIFI_CONTROL_FUNC) */
++
++const char *android_wifi_cmd_str[ANDROID_WIFI_CMD_MAX] = {
++	"START",
++	"STOP",
++	"SCAN-ACTIVE",
++	"SCAN-PASSIVE",
++	"RSSI",
++	"LINKSPEED",
++	"RXFILTER-START",
++	"RXFILTER-STOP",
++	"RXFILTER-ADD",
++	"RXFILTER-REMOVE",
++	"BTCOEXSCAN-START",
++	"BTCOEXSCAN-STOP",
++	"BTCOEXMODE",
++	"SETSUSPENDOPT",
++	"P2P_DEV_ADDR",
++	"SETFWPATH",
++	"SETBAND",
++	"GETBAND",
++	"COUNTRY",
++	"P2P_SET_NOA",
++	"P2P_GET_NOA",
++	"P2P_SET_PS",
++	"SET_AP_WPS_P2P_IE",
++#ifdef PNO_SUPPORT
++	"PNOSSIDCLR",
++	"PNOSETUP ",
++	"PNOFORCE",
++	"PNODEBUG",
++#endif
++
++	"MACADDR",
++
++	"BLOCK",
++	"WFD-ENABLE",
++	"WFD-DISABLE",
++	"WFD-SET-TCPPORT",
++	"WFD-SET-MAXTPUT",
++	"WFD-SET-DEVTYPE",	
++};
++
++#ifdef PNO_SUPPORT
++#define PNO_TLV_PREFIX			'S'
++#define PNO_TLV_VERSION			'1'
++#define PNO_TLV_SUBVERSION 		'2'
++#define PNO_TLV_RESERVED		'0'
++#define PNO_TLV_TYPE_SSID_IE		'S'
++#define PNO_TLV_TYPE_TIME		'T'
++#define PNO_TLV_FREQ_REPEAT		'R'
++#define PNO_TLV_FREQ_EXPO_MAX		'M'
++
++typedef struct cmd_tlv {
++	char prefix;
++	char version;
++	char subver;
++	char reserved;
++} cmd_tlv_t;
++#endif /* PNO_SUPPORT */
++
++typedef struct android_wifi_priv_cmd {
++
++#ifdef CONFIG_COMPAT
++	compat_uptr_t buf;
++#else
++	char *buf;
++#endif
++
++	int used_len;
++	int total_len;
++} android_wifi_priv_cmd;
++
++/**
++ * Local (static) functions and variables
++ */
++
++/* Initialize g_wifi_on to 1 so dhd_bus_start will be called for the first
++ * time (only) in dhd_open, subsequential wifi on will be handled by
++ * wl_android_wifi_on
++ */
++static int g_wifi_on = _TRUE;
++
++
++#ifdef PNO_SUPPORT
++static int wl_android_set_pno_setup(struct net_device *dev, char *command, int total_len)
++{
++	wlc_ssid_t ssids_local[MAX_PFN_LIST_COUNT];
++	int res = -1;
++	int nssid = 0;
++	cmd_tlv_t *cmd_tlv_temp;
++	char *str_ptr;
++	int tlv_size_left;
++	int pno_time = 0;
++	int pno_repeat = 0;
++	int pno_freq_expo_max = 0;
++
++#ifdef PNO_SET_DEBUG
++	int i;
++	char pno_in_example[] = {
++		'P', 'N', 'O', 'S', 'E', 'T', 'U', 'P', ' ',
++		'S', '1', '2', '0',
++		'S',
++		0x05,
++		'd', 'l', 'i', 'n', 'k',
++		'S',
++		0x04,
++		'G', 'O', 'O', 'G',
++		'T',
++		'0', 'B',
++		'R',
++		'2',
++		'M',
++		'2',
++		0x00
++		};
++#endif /* PNO_SET_DEBUG */
++
++	DHD_INFO(("%s: command=%s, len=%d\n", __FUNCTION__, command, total_len));
++
++	if (total_len < (strlen(CMD_PNOSETUP_SET) + sizeof(cmd_tlv_t))) {
++		DBG_871X("%s argument=%d less min size\n", __FUNCTION__, total_len);
++		goto exit_proc;
++	}
++
++#ifdef PNO_SET_DEBUG
++	memcpy(command, pno_in_example, sizeof(pno_in_example));
++	for (i = 0; i < sizeof(pno_in_example); i++)
++		printf("%02X ", command[i]);
++	printf("\n");
++	total_len = sizeof(pno_in_example);
++#endif
++
++	str_ptr = command + strlen(CMD_PNOSETUP_SET);
++	tlv_size_left = total_len - strlen(CMD_PNOSETUP_SET);
++
++	cmd_tlv_temp = (cmd_tlv_t *)str_ptr;
++	memset(ssids_local, 0, sizeof(ssids_local));
++
++	if ((cmd_tlv_temp->prefix == PNO_TLV_PREFIX) &&
++		(cmd_tlv_temp->version == PNO_TLV_VERSION) &&
++		(cmd_tlv_temp->subver == PNO_TLV_SUBVERSION)) {
++
++		str_ptr += sizeof(cmd_tlv_t);
++		tlv_size_left -= sizeof(cmd_tlv_t);
++
++		if ((nssid = wl_iw_parse_ssid_list_tlv(&str_ptr, ssids_local,
++			MAX_PFN_LIST_COUNT, &tlv_size_left)) <= 0) {
++			DBG_871X("SSID is not presented or corrupted ret=%d\n", nssid);
++			goto exit_proc;
++		} else {
++			if ((str_ptr[0] != PNO_TLV_TYPE_TIME) || (tlv_size_left <= 1)) {
++				DBG_871X("%s scan duration corrupted field size %d\n",
++					__FUNCTION__, tlv_size_left);
++				goto exit_proc;
++			}
++			str_ptr++;
++			pno_time = simple_strtoul(str_ptr, &str_ptr, 16);
++			DHD_INFO(("%s: pno_time=%d\n", __FUNCTION__, pno_time));
++
++			if (str_ptr[0] != 0) {
++				if ((str_ptr[0] != PNO_TLV_FREQ_REPEAT)) {
++					DBG_871X("%s pno repeat : corrupted field\n",
++						__FUNCTION__);
++					goto exit_proc;
++				}
++				str_ptr++;
++				pno_repeat = simple_strtoul(str_ptr, &str_ptr, 16);
++				DHD_INFO(("%s :got pno_repeat=%d\n", __FUNCTION__, pno_repeat));
++				if (str_ptr[0] != PNO_TLV_FREQ_EXPO_MAX) {
++					DBG_871X("%s FREQ_EXPO_MAX corrupted field size\n",
++						__FUNCTION__);
++					goto exit_proc;
++				}
++				str_ptr++;
++				pno_freq_expo_max = simple_strtoul(str_ptr, &str_ptr, 16);
++				DHD_INFO(("%s: pno_freq_expo_max=%d\n",
++					__FUNCTION__, pno_freq_expo_max));
++			}
++		}
++	} else {
++		DBG_871X("%s get wrong TLV command\n", __FUNCTION__);
++		goto exit_proc;
++	}
++
++	res = dhd_dev_pno_set(dev, ssids_local, nssid, pno_time, pno_repeat, pno_freq_expo_max);
++
++exit_proc:
++	return res;
++}
++#endif /* PNO_SUPPORT */
++
++int rtw_android_cmdstr_to_num(char *cmdstr)
++{
++	int cmd_num;
++	for(cmd_num=0 ; cmd_num<ANDROID_WIFI_CMD_MAX; cmd_num++)
++		if(0 == strncasecmp(cmdstr , android_wifi_cmd_str[cmd_num], strlen(android_wifi_cmd_str[cmd_num])) )
++			break;
++		
++	return cmd_num;
++}
++
++int rtw_android_get_rssi(struct net_device *net, char *command, int total_len)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);	
++	struct	wlan_network	*pcur_network = &pmlmepriv->cur_network;
++	int bytes_written = 0;
++
++	if(check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {	
++		bytes_written += snprintf(&command[bytes_written], total_len, "%s rssi %d", 
++			pcur_network->network.Ssid.Ssid, padapter->recvpriv.rssi);
++	}
++
++	return bytes_written;
++}
++
++int rtw_android_get_link_speed(struct net_device *net, char *command, int total_len)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);	
++	struct	wlan_network	*pcur_network = &pmlmepriv->cur_network;
++	int bytes_written = 0;
++	u16 link_speed = 0;
++
++	link_speed = rtw_get_cur_max_rate(padapter)/10;
++	bytes_written = snprintf(command, total_len, "LinkSpeed %d", link_speed);
++
++	return bytes_written;
++}
++
++int rtw_android_get_macaddr(struct net_device *net, char *command, int total_len)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(net);
++	int bytes_written = 0;
++	
++	bytes_written = snprintf(command, total_len, "Macaddr = "MAC_FMT, MAC_ARG(net->dev_addr));
++	return bytes_written;
++}
++
++int rtw_android_set_country(struct net_device *net, char *command, int total_len)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(net);
++	char *country_code = command + strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_COUNTRY]) + 1;
++	int ret = _FAIL;
++	
++	ret = rtw_set_country(adapter, country_code);
++
++	return (ret==_SUCCESS)?0:-1;
++}
++
++int rtw_android_get_p2p_dev_addr(struct net_device *net, char *command, int total_len)
++{
++	int bytes_written = 0;
++
++	//We use the same address as our HW MAC address
++	_rtw_memcpy(command, net->dev_addr, ETH_ALEN);
++	
++	bytes_written = ETH_ALEN;
++	return bytes_written;
++}
++
++int rtw_android_set_block(struct net_device *net, char *command, int total_len)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(net);
++	char *block_value = command + strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_BLOCK]) + 1;
++
++	#ifdef CONFIG_IOCTL_CFG80211
++	wdev_to_priv(adapter->rtw_wdev)->block = (*block_value=='0')?_FALSE:_TRUE;
++	#endif
++	
++	return 0;
++}
++
++int rtw_android_setband(struct net_device *net, char *command, int total_len)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(net);
++	char *arg = command + strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_SETBAND]) + 1;
++	u32 band = GHZ_MAX;
++	int ret = _FAIL;
++
++	sscanf(arg, "%u", &band);
++	ret = rtw_set_band(adapter, band);
++
++	return (ret==_SUCCESS)?0:-1;
++}
++
++int rtw_android_getband(struct net_device *net, char *command, int total_len)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(net);
++	int bytes_written = 0;
++
++	bytes_written = snprintf(command, total_len, "%u", adapter->setband);
++
++	return bytes_written;
++}
++
++int get_int_from_command( char* pcmd )
++{
++	int i = 0;
++
++	for( i = 0; i < strlen( pcmd ); i++ )
++	{
++		if ( pcmd[ i ] == '=' )
++		{
++			//	Skip the '=' and space characters.
++			i += 2;
++			break;
++		}
++	}
++	return ( rtw_atoi( pcmd + i ) );
++}
++
++int rtw_android_priv_cmd(struct net_device *net, struct ifreq *ifr, int cmd)
++{
++	int ret = 0;
++	char *command = NULL;
++	int cmd_num;
++	int bytes_written = 0;
++	android_wifi_priv_cmd priv_cmd;
++
++	rtw_lock_suspend();
++
++	if (!ifr->ifr_data) {
++		ret = -EINVAL;
++		goto exit;
++	}
++	if (copy_from_user(&priv_cmd, ifr->ifr_data, sizeof(android_wifi_priv_cmd))) {
++		ret = -EFAULT;
++		goto exit;
++	}
++
++	command = rtw_zmalloc(priv_cmd.total_len);
++	if (!command)
++	{
++		DBG_871X("%s: failed to allocate memory\n", __FUNCTION__);
++		ret = -ENOMEM;
++		goto exit;
++	}
++
++	if (!access_ok(VERIFY_READ, priv_cmd.buf, priv_cmd.total_len)){
++	 	DBG_871X("%s: failed to access memory\n", __FUNCTION__);
++		ret = -EFAULT;
++		goto exit;
++	 }
++	if (copy_from_user(command, (void *)priv_cmd.buf, priv_cmd.total_len)) {
++		ret = -EFAULT;
++		goto exit;
++	}
++
++	DBG_871X("%s: Android private cmd \"%s\" on %s\n"
++		, __FUNCTION__, command, ifr->ifr_name);
++
++	cmd_num = rtw_android_cmdstr_to_num(command);
++	
++	switch(cmd_num) {
++	case ANDROID_WIFI_CMD_START:
++		//bytes_written = wl_android_wifi_on(net);
++		goto response;
++	case ANDROID_WIFI_CMD_SETFWPATH:
++		goto response;
++	}
++
++	if (!g_wifi_on) {
++		DBG_871X("%s: Ignore private cmd \"%s\" - iface %s is down\n"
++			,__FUNCTION__, command, ifr->ifr_name);
++		ret = 0;
++		goto exit;
++	}
++
++	switch(cmd_num) {
++
++	case ANDROID_WIFI_CMD_STOP:
++		//bytes_written = wl_android_wifi_off(net);
++		break;
++		
++	case ANDROID_WIFI_CMD_SCAN_ACTIVE:
++		//rtw_set_scan_mode((_adapter *)rtw_netdev_priv(net), SCAN_ACTIVE);
++#ifdef CONFIG_PLATFORM_MSTAR
++#ifdef CONFIG_IOCTL_CFG80211
++		(wdev_to_priv(net->ieee80211_ptr))->bandroid_scan = _TRUE;	
++#endif //CONFIG_IOCTL_CFG80211
++#endif //CONFIG_PLATFORM_MSTAR
++		break;
++	case ANDROID_WIFI_CMD_SCAN_PASSIVE:
++		//rtw_set_scan_mode((_adapter *)rtw_netdev_priv(net), SCAN_PASSIVE);
++		break;
++		
++	case ANDROID_WIFI_CMD_RSSI:
++		bytes_written = rtw_android_get_rssi(net, command, priv_cmd.total_len);
++		break;
++	case ANDROID_WIFI_CMD_LINKSPEED:
++		bytes_written = rtw_android_get_link_speed(net, command, priv_cmd.total_len);
++		break;
++
++	case ANDROID_WIFI_CMD_MACADDR:
++		bytes_written = rtw_android_get_macaddr(net, command, priv_cmd.total_len);
++		break;
++		
++	case ANDROID_WIFI_CMD_BLOCK:
++		bytes_written = rtw_android_set_block(net, command, priv_cmd.total_len);
++		break;
++		
++	case ANDROID_WIFI_CMD_RXFILTER_START:
++		//bytes_written = net_os_set_packet_filter(net, 1);
++		break;
++	case ANDROID_WIFI_CMD_RXFILTER_STOP:
++		//bytes_written = net_os_set_packet_filter(net, 0);
++		break;
++	case ANDROID_WIFI_CMD_RXFILTER_ADD:
++		//int filter_num = *(command + strlen(CMD_RXFILTER_ADD) + 1) - '0';
++		//bytes_written = net_os_rxfilter_add_remove(net, TRUE, filter_num);
++		break;
++	case ANDROID_WIFI_CMD_RXFILTER_REMOVE:
++		//int filter_num = *(command + strlen(CMD_RXFILTER_REMOVE) + 1) - '0';
++		//bytes_written = net_os_rxfilter_add_remove(net, FALSE, filter_num);
++		break;
++		
++	case ANDROID_WIFI_CMD_BTCOEXSCAN_START:
++		/* TBD: BTCOEXSCAN-START */
++		break;
++	case ANDROID_WIFI_CMD_BTCOEXSCAN_STOP:
++		/* TBD: BTCOEXSCAN-STOP */
++		break;
++	case ANDROID_WIFI_CMD_BTCOEXMODE:
++		#if 0
++		uint mode = *(command + strlen(CMD_BTCOEXMODE) + 1) - '0';
++		if (mode == 1)
++			net_os_set_packet_filter(net, 0); /* DHCP starts */
++		else
++			net_os_set_packet_filter(net, 1); /* DHCP ends */
++#ifdef WL_CFG80211
++		bytes_written = wl_cfg80211_set_btcoex_dhcp(net, command);
++#endif
++		#endif
++		break;
++		
++	case ANDROID_WIFI_CMD_SETSUSPENDOPT:
++		//bytes_written = wl_android_set_suspendopt(net, command, priv_cmd.total_len);
++		break;
++		
++	case ANDROID_WIFI_CMD_SETBAND:
++		bytes_written = rtw_android_setband(net, command, priv_cmd.total_len);
++		break;
++
++	case ANDROID_WIFI_CMD_GETBAND:
++		bytes_written = rtw_android_getband(net, command, priv_cmd.total_len);
++		break;
++		
++	case ANDROID_WIFI_CMD_COUNTRY:
++		bytes_written = rtw_android_set_country(net, command, priv_cmd.total_len);
++		break;
++		
++#ifdef PNO_SUPPORT
++	case ANDROID_WIFI_CMD_PNOSSIDCLR_SET:
++		//bytes_written = dhd_dev_pno_reset(net);
++		break;
++	case ANDROID_WIFI_CMD_PNOSETUP_SET:
++		//bytes_written = wl_android_set_pno_setup(net, command, priv_cmd.total_len);
++		break;
++	case ANDROID_WIFI_CMD_PNOENABLE_SET:
++		//uint pfn_enabled = *(command + strlen(CMD_PNOENABLE_SET) + 1) - '0';
++		//bytes_written = dhd_dev_pno_enable(net, pfn_enabled);
++		break;
++#endif
++
++	case ANDROID_WIFI_CMD_P2P_DEV_ADDR:
++		bytes_written = rtw_android_get_p2p_dev_addr(net, command, priv_cmd.total_len);
++		break;
++	case ANDROID_WIFI_CMD_P2P_SET_NOA:
++		//int skip = strlen(CMD_P2P_SET_NOA) + 1;
++		//bytes_written = wl_cfg80211_set_p2p_noa(net, command + skip, priv_cmd.total_len - skip);
++		break;
++	case ANDROID_WIFI_CMD_P2P_GET_NOA:
++		//bytes_written = wl_cfg80211_get_p2p_noa(net, command, priv_cmd.total_len);
++		break;
++	case ANDROID_WIFI_CMD_P2P_SET_PS:
++		//int skip = strlen(CMD_P2P_SET_PS) + 1;
++		//bytes_written = wl_cfg80211_set_p2p_ps(net, command + skip, priv_cmd.total_len - skip);
++		break;
++		
++#ifdef CONFIG_IOCTL_CFG80211
++	case ANDROID_WIFI_CMD_SET_AP_WPS_P2P_IE:
++	{
++		int skip = strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_SET_AP_WPS_P2P_IE]) + 3;
++		bytes_written = rtw_cfg80211_set_mgnt_wpsp2pie(net, command + skip, priv_cmd.total_len - skip, *(command + skip - 2) - '0');
++		break;
++	}
++#endif //CONFIG_IOCTL_CFG80211
++
++#ifdef CONFIG_WFD
++	case ANDROID_WIFI_CMD_WFD_ENABLE:
++	{
++		//	Commented by Albert 2012/07/24
++		//	We can enable the WFD function by using the following command:
++		//	wpa_cli driver wfd-enable
++		
++		struct wifi_display_info		*pwfd_info;
++		_adapter*	padapter = ( _adapter * ) rtw_netdev_priv(net);
++	
++		pwfd_info = &padapter->wfd_info;
++		if( padapter->wdinfo.driver_interface == DRIVER_CFG80211 )
++			pwfd_info->wfd_enable = _TRUE;
++		break;
++	}
++
++	case ANDROID_WIFI_CMD_WFD_DISABLE:
++	{
++		//	Commented by Albert 2012/07/24
++		//	We can disable the WFD function by using the following command:
++		//	wpa_cli driver wfd-disable
++				
++		struct wifi_display_info		*pwfd_info;
++		_adapter*	padapter = ( _adapter * ) rtw_netdev_priv(net);
++	
++		pwfd_info = &padapter->wfd_info;
++		if( padapter->wdinfo.driver_interface == DRIVER_CFG80211 )
++			pwfd_info->wfd_enable = _FALSE;
++		break;
++	}
++	case ANDROID_WIFI_CMD_WFD_SET_TCPPORT:
++	{
++		//	Commented by Albert 2012/07/24
++		//	We can set the tcp port number by using the following command:
++		//	wpa_cli driver wfd-set-tcpport = 554
++		
++		struct wifi_display_info		*pwfd_info;
++		_adapter*	padapter = ( _adapter * ) rtw_netdev_priv(net);
++	
++		pwfd_info = &padapter->wfd_info;
++		if( padapter->wdinfo.driver_interface == DRIVER_CFG80211 )
++			pwfd_info->rtsp_ctrlport = ( u16 ) get_int_from_command( priv_cmd.buf );
++		break;
++	}
++	case ANDROID_WIFI_CMD_WFD_SET_MAX_TPUT:
++	{
++		
++		
++		break;
++	}
++	case ANDROID_WIFI_CMD_WFD_SET_DEVTYPE:
++	{
++		//	Commented by Albert 2012/08/28
++		//	Specify the WFD device type ( WFD source/primary sink )
++		
++		struct wifi_display_info		*pwfd_info;
++		_adapter*	padapter = ( _adapter * ) rtw_netdev_priv(net);
++	
++		pwfd_info = &padapter->wfd_info;
++		if( padapter->wdinfo.driver_interface == DRIVER_CFG80211 )
++		{
++			pwfd_info->wfd_device_type = ( u8 ) get_int_from_command( priv_cmd.buf );
++
++			pwfd_info->wfd_device_type &= WFD_DEVINFO_DUAL;
++		}
++		break;
++	}
++#endif
++	default:
++		DBG_871X("Unknown PRIVATE command %s - ignored\n", command);
++		snprintf(command, 3, "OK");
++		bytes_written = strlen("OK");
++	}
++
++response:
++	if (bytes_written >= 0) {
++		if ((bytes_written == 0) && (priv_cmd.total_len > 0))
++			command[0] = '\0';
++		if (bytes_written >= priv_cmd.total_len) {
++			DBG_871X("%s: bytes_written = %d\n", __FUNCTION__, bytes_written);
++			bytes_written = priv_cmd.total_len;
++		} else {
++			bytes_written++;
++		}
++		priv_cmd.used_len = bytes_written;
++		if (copy_to_user((void *)priv_cmd.buf, command, bytes_written)) {
++			DBG_871X("%s: failed to copy data to user buffer\n", __FUNCTION__);
++			ret = -EFAULT;
++		}
++	}
++	else {
++		ret = bytes_written;
++	}
++
++exit:
++	rtw_unlock_suspend();
++	if (command) {
++		rtw_mfree(command, priv_cmd.total_len);
++	}
++
++	return ret;
++}
++
++
++/**
++ * Functions for Android WiFi card detection
++ */
++#if defined(RTW_ENABLE_WIFI_CONTROL_FUNC)
++
++static int g_wifidev_registered = 0;
++static struct semaphore wifi_control_sem;
++static struct wifi_platform_data *wifi_control_data = NULL;
++static struct resource *wifi_irqres = NULL;
++
++static int wifi_add_dev(void);
++static void wifi_del_dev(void);
++
++int rtw_android_wifictrl_func_add(void)
++{
++	int ret = 0;
++	sema_init(&wifi_control_sem, 0);
++
++	ret = wifi_add_dev();
++	if (ret) {
++		DBG_871X("%s: platform_driver_register failed\n", __FUNCTION__);
++		return ret;
++	}
++	g_wifidev_registered = 1;
++
++	/* Waiting callback after platform_driver_register is done or exit with error */
++	if (down_timeout(&wifi_control_sem,  msecs_to_jiffies(1000)) != 0) {
++		ret = -EINVAL;
++		DBG_871X("%s: platform_driver_register timeout\n", __FUNCTION__);
++	}
++
++	return ret;
++}
++
++void rtw_android_wifictrl_func_del(void)
++{
++	if (g_wifidev_registered)
++	{
++		wifi_del_dev();
++		g_wifidev_registered = 0;
++	}
++}
++
++void *wl_android_prealloc(int section, unsigned long size)
++{
++	void *alloc_ptr = NULL;
++	if (wifi_control_data && wifi_control_data->mem_prealloc) {
++		alloc_ptr = wifi_control_data->mem_prealloc(section, size);
++		if (alloc_ptr) {
++			DBG_871X("success alloc section %d\n", section);
++			if (size != 0L)
++				memset(alloc_ptr, 0, size);
++			return alloc_ptr;
++		}
++	}
++
++	DBG_871X("can't alloc section %d\n", section);
++	return NULL;
++}
++
++int wifi_get_irq_number(unsigned long *irq_flags_ptr)
++{
++	if (wifi_irqres) {
++		*irq_flags_ptr = wifi_irqres->flags & IRQF_TRIGGER_MASK;
++		return (int)wifi_irqres->start;
++	}
++#ifdef CUSTOM_OOB_GPIO_NUM
++	return CUSTOM_OOB_GPIO_NUM;
++#else
++	return -1;
++#endif
++}
++
++int wifi_set_power(int on, unsigned long msec)
++{
++	DBG_871X("%s = %d\n", __FUNCTION__, on);
++	if (wifi_control_data && wifi_control_data->set_power) {
++		wifi_control_data->set_power(on);
++	}
++	if (msec)
++		msleep(msec);
++	return 0;
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++int wifi_get_mac_addr(unsigned char *buf)
++{
++	DBG_871X("%s\n", __FUNCTION__);
++	if (!buf)
++		return -EINVAL;
++	if (wifi_control_data && wifi_control_data->get_mac_addr) {
++		return wifi_control_data->get_mac_addr(buf);
++	}
++	return -EOPNOTSUPP;
++}
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35)) */
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 39)) || defined(COMPAT_KERNEL_RELEASE)
++void *wifi_get_country_code(char *ccode)
++{
++	DBG_871X("%s\n", __FUNCTION__);
++	if (!ccode)
++		return NULL;
++	if (wifi_control_data && wifi_control_data->get_country_code) {
++		return wifi_control_data->get_country_code(ccode);
++	}
++	return NULL;
++}
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 39)) */
++
++static int wifi_set_carddetect(int on)
++{
++	DBG_871X("%s = %d\n", __FUNCTION__, on);
++	if (wifi_control_data && wifi_control_data->set_carddetect) {
++		wifi_control_data->set_carddetect(on);
++	}
++	return 0;
++}
++
++static int wifi_probe(struct platform_device *pdev)
++{
++	struct wifi_platform_data *wifi_ctrl =
++		(struct wifi_platform_data *)(pdev->dev.platform_data);
++
++	DBG_871X("## %s\n", __FUNCTION__);
++	wifi_irqres = platform_get_resource_byname(pdev, IORESOURCE_IRQ, "bcmdhd_wlan_irq");
++	if (wifi_irqres == NULL)
++		wifi_irqres = platform_get_resource_byname(pdev,
++			IORESOURCE_IRQ, "bcm4329_wlan_irq");
++	wifi_control_data = wifi_ctrl;
++
++	wifi_set_power(1, 0);	/* Power On */
++	wifi_set_carddetect(1);	/* CardDetect (0->1) */
++
++	up(&wifi_control_sem);
++	return 0;
++}
++
++static int wifi_remove(struct platform_device *pdev)
++{
++	struct wifi_platform_data *wifi_ctrl =
++		(struct wifi_platform_data *)(pdev->dev.platform_data);
++
++	DBG_871X("## %s\n", __FUNCTION__);
++	wifi_control_data = wifi_ctrl;
++
++	wifi_set_power(0, 0);	/* Power Off */
++	wifi_set_carddetect(0);	/* CardDetect (1->0) */
++
++	up(&wifi_control_sem);
++	return 0;
++}
++
++static int wifi_suspend(struct platform_device *pdev, pm_message_t state)
++{
++	DBG_871X("##> %s\n", __FUNCTION__);
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 39)) && defined(OOB_INTR_ONLY)
++	bcmsdh_oob_intr_set(0);
++#endif
++	return 0;
++}
++
++static int wifi_resume(struct platform_device *pdev)
++{
++	DBG_871X("##> %s\n", __FUNCTION__);
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 39)) && defined(OOB_INTR_ONLY)
++	if (dhd_os_check_if_up(bcmsdh_get_drvdata()))
++		bcmsdh_oob_intr_set(1);
++#endif
++	return 0;
++}
++
++/* temporarily use these two */
++static struct platform_driver wifi_device = {
++	.probe          = wifi_probe,
++	.remove         = wifi_remove,
++	.suspend        = wifi_suspend,
++	.resume         = wifi_resume,
++	.driver         = {
++	.name   = "bcmdhd_wlan",
++	}
++};
++
++static struct platform_driver wifi_device_legacy = {
++	.probe          = wifi_probe,
++	.remove         = wifi_remove,
++	.suspend        = wifi_suspend,
++	.resume         = wifi_resume,
++	.driver         = {
++	.name   = "bcm4329_wlan",
++	}
++};
++
++static int wifi_add_dev(void)
++{
++	DBG_871X("## Calling platform_driver_register\n");
++	platform_driver_register(&wifi_device);
++	platform_driver_register(&wifi_device_legacy);
++	return 0;
++}
++
++static void wifi_del_dev(void)
++{
++	DBG_871X("## Unregister platform_driver_register\n");
++	platform_driver_unregister(&wifi_device);
++	platform_driver_unregister(&wifi_device_legacy);
++}
++#endif /* defined(RTW_ENABLE_WIFI_CONTROL_FUNC) */
++
+diff --git a/drivers/net/wireless/rtl8192cu/os_dep/linux/usb_intf.c b/drivers/net/wireless/rtl8192cu/os_dep/linux/usb_intf.c
+new file mode 100755
+index 0000000..47f9513
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/os_dep/linux/usb_intf.c
+@@ -0,0 +1,1661 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HCI_INTF_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <recv_osdep.h>
++#include <xmit_osdep.h>
++#include <hal_intf.h>
++#include <rtw_version.h>
++
++#ifndef CONFIG_USB_HCI
++
++#error "CONFIG_USB_HCI shall be on!\n"
++
++#endif
++
++#include <usb_vendor_req.h>
++#include <usb_ops.h>
++#include <usb_osintf.h>
++#include <usb_hal.h>
++#ifdef CONFIG_PLATFORM_RTK_DMP
++#include <asm/io.h>
++#endif
++
++#if defined (PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++
++#error "Shall be Linux or Windows, but not both!\n"
++
++#endif
++
++#ifdef CONFIG_80211N_HT
++extern int rtw_ht_enable;
++extern int rtw_cbw40_enable;
++extern int rtw_ampdu_enable;//for enable tx_ampdu
++#endif
++
++#ifdef CONFIG_GLOBAL_UI_PID
++int ui_pid[3] = {0, 0, 0};
++#endif
++
++
++extern int pm_netdev_open(struct net_device *pnetdev,u8 bnormal);
++static int rtw_suspend(struct usb_interface *intf, pm_message_t message);
++static int rtw_resume(struct usb_interface *intf);
++int rtw_resume_process(_adapter *padapter);
++
++
++static int rtw_drv_init(struct usb_interface *pusb_intf,const struct usb_device_id *pdid);
++static void rtw_dev_remove(struct usb_interface *pusb_intf);
++
++#define USB_VENDER_ID_REALTEK		0x0BDA
++
++/* DID_USB_v915_20121224 */
++#define RTL8192C_USB_IDS \
++	/*=== Realtek demoboard ===*/ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8191)},/* Default ID */ \
++	/****** 8188CUS ********/ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8176)},/* 8188cu 1*1 dongole */ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8170)},/* 8188CE-VAU USB minCard */ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x817E)},/* 8188CE-VAU USB minCard */ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x817A)},/* 8188cu Slim Solo */ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x817B)},/* 8188cu Slim Combo */ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x817D)},/* 8188RU High-power USB Dongle */ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8754)},/* 8188 Combo for BC4 */ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x817F)},/* 8188RU */ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x818A)},/* RTL8188CUS-VL */ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x018A)},/* RTL8188CTV */ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x17C0)}, /* RTK demoboard - USB-N10E */ \
++	/****** 8192CUS ********/ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8177)},/* 8191cu 1*2 */ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8178)},/* 8192cu 2*2 */ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x817C)},/* 8192CE-VAU USB minCard */ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8191)},/* 8192CU 2*2 */ \
++	{USB_DEVICE(0x1058, 0x0631)},/* Alpha, 8192CU */ \
++	/*=== Customer ID ===*/	 \
++	/****** 8188CUS Dongle ********/ \
++	{USB_DEVICE(0x2019, 0xED17)},/* PCI - Edimax */ \
++	{USB_DEVICE(0x0DF6, 0x0052)},/* Sitecom - Edimax */ \
++	{USB_DEVICE(0x7392, 0x7811)},/* Edimax - Edimax */ \
++	{USB_DEVICE(0x07B8, 0x8188)},/* Abocom - Abocom */ \
++	{USB_DEVICE(0x07B8, 0x8189)},/* Abocom - Abocom */ \
++	{USB_DEVICE(0x0EB0, 0x9071)},/* NO Brand - Etop */ \
++	{USB_DEVICE(0x06F8, 0xE033)},/* Hercules - Edimax */ \
++	{USB_DEVICE(0x103C, 0x1629)},/* HP - Lite-On ,8188CUS Slim Combo */ \
++	{USB_DEVICE(0x2001, 0x3308)},/* D-Link - Alpha */ \
++	{USB_DEVICE(0x050D, 0x1102)},/* Belkin - Edimax */ \
++	{USB_DEVICE(0x050D, 0x11F2)},/* ISY - Edimax */ \
++	{USB_DEVICE(0x2019, 0xAB2A)},/* Planex - Abocom */ \
++	{USB_DEVICE(0x20F4, 0x648B)},/* TRENDnet - Cameo */ \
++	{USB_DEVICE(0x4855, 0x0090)},/*  - Feixun */ \
++	{USB_DEVICE(0x13D3, 0x3357)},/*  - AzureWave */ \
++	{USB_DEVICE(0x0DF6, 0x005C)},/* Sitecom - Edimax */ \
++	{USB_DEVICE(0x0BDA, 0x5088)},/* Thinkware - CC&C */ \
++	{USB_DEVICE(0x4856, 0x0091)},/* NetweeN - Feixun */ \
++	{USB_DEVICE(0x0846, 0x9041)}, /* Netgear - Cameo */ \
++	{USB_DEVICE(0x0846, 0x9042)}, /* On Networks - N150MA */ \
++	{USB_DEVICE(0x0846, 0x9043)}, /* Netgear N150 -WNA1000M */ \
++	{USB_DEVICE(0x2019, 0x4902)},/* Planex - Etop */ \
++	{USB_DEVICE(0x2019, 0xAB2E)},/* SW-WF02-AD15 -Abocom */ \
++	{USB_DEVICE(0x2001, 0x330B)}, /* D-LINK - T&W */ \
++	{USB_DEVICE(0xCDAB, 0x8010)}, /* - - compare */ \
++	{USB_DEVICE(0x0B05, 0x17BA)}, /* ASUS - Edimax */ \
++	{USB_DEVICE(0x0BDA, 0x1E1E)}, /* Intel - - */ \
++	{USB_DEVICE(0x04BB, 0x094c)}, /* I-O DATA - Edimax */ \
++	/****** 8188CTV ********/ \
++	{USB_DEVICE(0xCDAB, 0x8011)}, /* - - compare */ \
++	{USB_DEVICE(0x0BDA, 0x0A8A)}, /* Sony - Foxconn */ \
++	/****** 8188 RU ********/ \
++	{USB_DEVICE(0x0BDA, 0x317F)},/* Netcore,Netcore */ \
++	/****** 8188CE-VAU ********/ \
++	{USB_DEVICE(0x13D3, 0x3359)},/*  - Azwave */ \
++	{USB_DEVICE(0x13D3, 0x3358)},/*  - Azwave */ \
++	/****** 8188CUS Slim Solo********/ \
++	{USB_DEVICE(0x04F2, 0xAFF7)},/* XAVI - XAVI */ \
++	{USB_DEVICE(0x04F2, 0xAFF9)},/* XAVI - XAVI */ \
++	{USB_DEVICE(0x04F2, 0xAFFA)},/* XAVI - XAVI */ \
++	/****** 8188CUS Slim Combo ********/ \
++	{USB_DEVICE(0x04F2, 0xAFF8)},/* XAVI - XAVI */ \
++	{USB_DEVICE(0x04F2, 0xAFFB)},/* XAVI - XAVI */ \
++	{USB_DEVICE(0x04F2, 0xAFFC)},/* XAVI - XAVI */ \
++	{USB_DEVICE(0x2019, 0x1201)},/* Planex - Vencer */ \
++	/****** 8192CUS Dongle ********/ \
++	{USB_DEVICE(0x2001, 0x3307)},/* D-Link - Cameo */ \
++	{USB_DEVICE(0x2001, 0x330A)},/* D-Link - Alpha */ \
++	{USB_DEVICE(0x2001, 0x3309)},/* D-Link - Alpha */ \
++	{USB_DEVICE(0x2001, 0x330D)},/* D-Link DWA-131 (H/W Ver. B1) */ \
++	{USB_DEVICE(0x0586, 0x341F)},/* Zyxel - Abocom */ \
++	{USB_DEVICE(0x7392, 0x7822)},/* Edimax - Edimax */ \
++	{USB_DEVICE(0x2019, 0xAB2B)},/* Planex - Abocom */ \
++	{USB_DEVICE(0x07B8, 0x8178)},/* Abocom - Abocom */ \
++	{USB_DEVICE(0x07AA, 0x0056)},/* ATKK - Gemtek */ \
++	{USB_DEVICE(0x4855, 0x0091)},/*  - Feixun */ \
++	{USB_DEVICE(0x050D, 0x2102)},/* Belkin - Sercomm */ \
++	{USB_DEVICE(0x050D, 0x2103)},/* Belkin - Edimax */ \
++	{USB_DEVICE(0x050D, 0x21F2)},/* Belkin - Edimax */ \
++	{USB_DEVICE(0x20F4, 0x624D)},/* TRENDnet */ \
++	{USB_DEVICE(0x0DF6, 0x0061)},/* Sitecom - Edimax */ \
++	{USB_DEVICE(0x0B05, 0x17AB)},/* ASUS - Edimax */ \
++	{USB_DEVICE(0x0846, 0x9021)},/* Netgear - Sercomm */ \
++	{USB_DEVICE(0x0846, 0xF001)}, /* Netgear - Sercomm */ \
++	{USB_DEVICE(0x0E66, 0x0019)},/* Hawking,Edimax */ \
++	{USB_DEVICE(0x0E66, 0x0020)}, /* Hawking  - Edimax */ \
++	{USB_DEVICE(0x050D, 0x1004)}, /* Belkin - Edimax */ \
++	{USB_DEVICE(0x0BDA, 0x2E2E)}, /* Intel - - */ \
++	{USB_DEVICE(0x2357, 0x0100)}, /* TP-Link - TP-Link */ \
++	{USB_DEVICE(0x06F8, 0xE035)}, /* Hercules - Edimax */ \
++	{USB_DEVICE(0x04BB, 0x0950)}, /* IO-DATA - Edimax */ \
++	{USB_DEVICE(0x0DF6, 0x0070)}, /* Sitecom - Edimax */ \
++	{USB_DEVICE(0x0789, 0x016D)}, /* LOGITEC - Edimax */ \
++	/****** 8192CE-VAU  ********/ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8186)},/* Intel-Xavi( Azwave) */
++
++#define RTL8192D_USB_IDS \
++	/*=== Realtek demoboard ===*/ \
++	/****** 8192DU ********/ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8193)},/* 8192DU-VC */ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8194)},/* 8192DU-VS */ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8111)},/* Realtek 5G dongle for WiFi Display */ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x0193)},/* 8192DE-VAU */ \
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8171)},/* 8192DU-VC */ \
++	/*=== Customer ID ===*/ \
++	/****** 8192DU-VC ********/ \
++	{USB_DEVICE(0x2019, 0xAB2C)},/* PCI - Abocm */ \
++	{USB_DEVICE(0x2019, 0x4903)},/* PCI - ETOP */ \
++	{USB_DEVICE(0x2019, 0x4904)},/* PCI - ETOP */ \
++	{USB_DEVICE(0x07B8, 0x8193)},/* Abocom - Abocom */ \
++	/****** 8192DU-VS ********/ \
++	{USB_DEVICE(0x20F4, 0x664B)}, /* TRENDnet - Cameo */ \
++	{USB_DEVICE(0x04DD, 0x954F)},  /* Sharp */ \
++	{USB_DEVICE(0x04DD, 0x96A6)},  /* Sharp */ \
++	{USB_DEVICE(0x050D, 0x110A)}, /* Belkin - Edimax */ \
++	{USB_DEVICE(0x050D, 0x1105)}, /* Belkin - Edimax */ \
++	{USB_DEVICE(0x050D, 0x120A)}, /* Belkin - Edimax */ \
++	{USB_DEVICE(0x1668, 0x8102)}, /*  -  */ \
++	{USB_DEVICE(0x0BDA, 0xE194)}, /*  - Edimax */ \
++	/****** 8192DU-WiFi Display Dongle ********/ \
++	{USB_DEVICE(0x2019, 0xAB2D)},/* Planex - Abocom ,5G dongle for WiFi Display */
++
++#ifndef CONFIG_RTL8192C
++	#undef RTL8192C_USB_IDS
++	#define RTL8192C_USB_IDS
++#endif
++#ifndef CONFIG_RTL8192D
++	#undef RTL8192D_USB_IDS
++	#define RTL8192D_USB_IDS
++#endif
++
++
++static struct usb_device_id rtw_usb_id_tbl[] ={
++	RTL8192C_USB_IDS
++	RTL8192D_USB_IDS
++	{}	/* Terminating entry */
++};
++MODULE_DEVICE_TABLE(usb, rtw_usb_id_tbl);
++
++int const rtw_usb_id_len = sizeof(rtw_usb_id_tbl) / sizeof(struct usb_device_id);
++
++static struct specific_device_id specific_device_id_tbl[] = {
++	{.idVendor=USB_VENDER_ID_REALTEK, .idProduct=0x8177, .flags=SPEC_DEV_ID_DISABLE_HT},//8188cu 1*1 dongole, (b/g mode only)
++	{.idVendor=USB_VENDER_ID_REALTEK, .idProduct=0x817E, .flags=SPEC_DEV_ID_DISABLE_HT},//8188CE-VAU USB minCard (b/g mode only)
++	{.idVendor=0x0b05, .idProduct=0x1791, .flags=SPEC_DEV_ID_DISABLE_HT},
++	{.idVendor=0x13D3, .idProduct=0x3311, .flags=SPEC_DEV_ID_DISABLE_HT},
++	{.idVendor=0x13D3, .idProduct=0x3359, .flags=SPEC_DEV_ID_DISABLE_HT},//Russian customer -Azwave (8188CE-VAU  g mode)
++#ifdef RTK_DMP_PLATFORM
++	{.idVendor=USB_VENDER_ID_REALTEK, .idProduct=0x8111, .flags=SPEC_DEV_ID_ASSIGN_IFNAME}, // Realtek 5G dongle for WiFi Display
++	{.idVendor=0x2019, .idProduct=0xAB2D, .flags=SPEC_DEV_ID_ASSIGN_IFNAME}, // PCI-Abocom 5G dongle for WiFi Display
++#endif /* RTK_DMP_PLATFORM */
++	{}
++};
++
++struct rtw_usb_drv {
++	struct usb_driver usbdrv;
++	int drv_registered;
++};
++
++static void rtw_dev_shutdown(struct device *dev)
++{
++	struct usb_interface *usb_intf = container_of(dev, struct usb_interface, dev);
++	struct dvobj_priv *dvobj = usb_get_intfdata(usb_intf);
++	_adapter *adapter = dvobj->if1;
++	int i;
++
++	DBG_871X("%s\n", __func__);
++
++	for (i = 0; i<dvobj->iface_nums; i++) {
++		adapter = dvobj->padapters[i];
++		adapter->bSurpriseRemoved = _TRUE;
++	}
++
++	ATOMIC_SET(&dvobj->continual_urb_error, MAX_CONTINUAL_URB_ERR+1);
++}
++
++#ifdef CONFIG_RTL8192C
++static struct usb_device_id rtl8192c_usb_id_tbl[] ={
++	RTL8192C_USB_IDS
++	{}	/* Terminating entry */
++};
++
++struct rtw_usb_drv rtl8192c_usb_drv = {
++	.usbdrv.name = (char*)"rtl8192cu",
++	.usbdrv.probe = rtw_drv_init,
++	.usbdrv.disconnect = rtw_dev_remove,
++	.usbdrv.id_table = rtl8192c_usb_id_tbl,
++	.usbdrv.suspend =  rtw_suspend,
++	.usbdrv.resume = rtw_resume,
++	#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 22))
++  	.usbdrv.reset_resume   = rtw_resume,
++	#endif
++	#ifdef CONFIG_AUTOSUSPEND
++	.usbdrv.supports_autosuspend = 1,
++	#endif
++
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 19))
++	.usbdrv.drvwrap.driver.shutdown = rtw_dev_shutdown,
++	#else
++	.usbdrv.driver.shutdown = rtw_dev_shutdown,
++	#endif
++};
++
++static struct rtw_usb_drv *usb_drv = &rtl8192c_usb_drv;
++#endif /* CONFIG_RTL8192C */
++
++#ifdef CONFIG_RTL8192D
++static struct usb_device_id rtl8192d_usb_id_tbl[] ={
++	RTL8192D_USB_IDS
++	{}	/* Terminating entry */
++};
++
++struct rtw_usb_drv rtl8192d_usb_drv = {
++	.usbdrv.name = (char*)"rtl8192du",
++	.usbdrv.probe = rtw_drv_init,
++	.usbdrv.disconnect = rtw_dev_remove,
++	.usbdrv.id_table = rtl8192d_usb_id_tbl,
++	.usbdrv.suspend =  rtw_suspend,
++	.usbdrv.resume = rtw_resume,
++	#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 22))
++  	.usbdrv.reset_resume   = rtw_resume,
++	#endif
++	#ifdef CONFIG_AUTOSUSPEND
++	.usbdrv.supports_autosuspend = 1,
++	#endif
++
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 19))
++	.usbdrv.drvwrap.driver.shutdown = rtw_dev_shutdown,
++	#else
++	.usbdrv.driver.shutdown = rtw_dev_shutdown,
++	#endif
++};
++static struct rtw_usb_drv *usb_drv = &rtl8192d_usb_drv;
++#endif /* CONFIG_RTL8192D */
++
++static inline int RT_usb_endpoint_dir_in(const struct usb_endpoint_descriptor *epd)
++{
++	return ((epd->bEndpointAddress & USB_ENDPOINT_DIR_MASK) == USB_DIR_IN);
++}
++
++static inline int RT_usb_endpoint_dir_out(const struct usb_endpoint_descriptor *epd)
++{
++	return ((epd->bEndpointAddress & USB_ENDPOINT_DIR_MASK) == USB_DIR_OUT);
++}
++
++static inline int RT_usb_endpoint_xfer_int(const struct usb_endpoint_descriptor *epd)
++{
++	return ((epd->bmAttributes & USB_ENDPOINT_XFERTYPE_MASK) == USB_ENDPOINT_XFER_INT);
++}
++
++static inline int RT_usb_endpoint_xfer_bulk(const struct usb_endpoint_descriptor *epd)
++{
++ 	return ((epd->bmAttributes & USB_ENDPOINT_XFERTYPE_MASK) == USB_ENDPOINT_XFER_BULK);
++}
++
++static inline int RT_usb_endpoint_is_bulk_in(const struct usb_endpoint_descriptor *epd)
++{
++	return (RT_usb_endpoint_xfer_bulk(epd) && RT_usb_endpoint_dir_in(epd));
++}
++
++static inline int RT_usb_endpoint_is_bulk_out(const struct usb_endpoint_descriptor *epd)
++{
++	return (RT_usb_endpoint_xfer_bulk(epd) && RT_usb_endpoint_dir_out(epd));
++}
++
++static inline int RT_usb_endpoint_is_int_in(const struct usb_endpoint_descriptor *epd)
++{
++	return (RT_usb_endpoint_xfer_int(epd) && RT_usb_endpoint_dir_in(epd));
++}
++
++static inline int RT_usb_endpoint_num(const struct usb_endpoint_descriptor *epd)
++{
++	return epd->bEndpointAddress & USB_ENDPOINT_NUMBER_MASK;
++}
++
++static u8 rtw_init_intf_priv(struct dvobj_priv *dvobj)
++{
++	u8 rst = _SUCCESS;
++
++	#ifdef CONFIG_USB_VENDOR_REQ_MUTEX
++	_rtw_mutex_init(&dvobj->usb_vendor_req_mutex);
++	#endif
++
++
++	#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC
++	dvobj->usb_alloc_vendor_req_buf = rtw_zmalloc(MAX_USB_IO_CTL_SIZE);
++	if (dvobj->usb_alloc_vendor_req_buf == NULL) {
++		DBG_871X("alloc usb_vendor_req_buf failed... /n");
++		rst = _FAIL;
++		goto exit;
++	}
++	dvobj->usb_vendor_req_buf  =
++		(u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(dvobj->usb_alloc_vendor_req_buf ), ALIGNMENT_UNIT);
++exit:
++	#endif
++
++	return rst;
++
++}
++
++static u8 rtw_deinit_intf_priv(struct dvobj_priv *dvobj)
++{
++	u8 rst = _SUCCESS;
++
++	#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC
++	if(dvobj->usb_vendor_req_buf)
++		rtw_mfree(dvobj->usb_alloc_vendor_req_buf, MAX_USB_IO_CTL_SIZE);
++	#endif
++
++	#ifdef CONFIG_USB_VENDOR_REQ_MUTEX
++	_rtw_mutex_free(&dvobj->usb_vendor_req_mutex);
++	#endif
++
++	return rst;
++}
++
++static struct dvobj_priv *usb_dvobj_init(struct usb_interface *usb_intf)
++{
++	int	i;
++	u8	val8;
++	int	status = _FAIL;
++	struct dvobj_priv *pdvobjpriv = NULL;
++	struct usb_device				*pusbd;
++	struct usb_device_descriptor 	*pdev_desc;
++	struct usb_host_config			*phost_conf;
++	struct usb_config_descriptor		*pconf_desc;
++	struct usb_host_interface		*phost_iface;
++	struct usb_interface_descriptor	*piface_desc;
++	struct usb_host_endpoint		*phost_endp;
++	struct usb_endpoint_descriptor	*pendp_desc;
++
++_func_enter_;
++
++	if((pdvobjpriv = devobj_init()) == NULL) {
++		goto exit;
++	}
++
++	pdvobjpriv->pusbintf = usb_intf ;
++	pusbd = pdvobjpriv->pusbdev = interface_to_usbdev(usb_intf);
++	usb_set_intfdata(usb_intf, pdvobjpriv);
++
++	pdvobjpriv->RtNumInPipes = 0;
++	pdvobjpriv->RtNumOutPipes = 0;
++
++
++	pdev_desc = &pusbd->descriptor;
++#if 0
++	DBG_871X("\n8712_usb_device_descriptor:\n");
++	DBG_871X("bLength=%x\n", pdev_desc->bLength);
++	DBG_871X("bDescriptorType=%x\n", pdev_desc->bDescriptorType);
++	DBG_871X("bcdUSB=%x\n", pdev_desc->bcdUSB);
++	DBG_871X("bDeviceClass=%x\n", pdev_desc->bDeviceClass);
++	DBG_871X("bDeviceSubClass=%x\n", pdev_desc->bDeviceSubClass);
++	DBG_871X("bDeviceProtocol=%x\n", pdev_desc->bDeviceProtocol);
++	DBG_871X("bMaxPacketSize0=%x\n", pdev_desc->bMaxPacketSize0);
++	DBG_871X("idVendor=%x\n", pdev_desc->idVendor);
++	DBG_871X("idProduct=%x\n", pdev_desc->idProduct);
++	DBG_871X("bcdDevice=%x\n", pdev_desc->bcdDevice);
++	DBG_871X("iManufacturer=%x\n", pdev_desc->iManufacturer);
++	DBG_871X("iProduct=%x\n", pdev_desc->iProduct);
++	DBG_871X("iSerialNumber=%x\n", pdev_desc->iSerialNumber);
++	DBG_871X("bNumConfigurations=%x\n", pdev_desc->bNumConfigurations);
++#endif
++
++	phost_conf = pusbd->actconfig;
++	pconf_desc = &phost_conf->desc;
++
++#if 0
++	DBG_871X("\n8712_usb_configuration_descriptor:\n");
++	DBG_871X("bLength=%x\n", pconf_desc->bLength);
++	DBG_871X("bDescriptorType=%x\n", pconf_desc->bDescriptorType);
++	DBG_871X("wTotalLength=%x\n", pconf_desc->wTotalLength);
++	DBG_871X("bNumInterfaces=%x\n", pconf_desc->bNumInterfaces);
++	DBG_871X("bConfigurationValue=%x\n", pconf_desc->bConfigurationValue);
++	DBG_871X("iConfiguration=%x\n", pconf_desc->iConfiguration);
++	DBG_871X("bmAttributes=%x\n", pconf_desc->bmAttributes);
++	DBG_871X("bMaxPower=%x\n", pconf_desc->bMaxPower);
++#endif
++
++	//DBG_871X("\n/****** num of altsetting = (%d) ******/\n", usb_intf->num_altsetting);
++
++	phost_iface = &usb_intf->altsetting[0];
++	piface_desc = &phost_iface->desc;
++
++#if 0
++	DBG_871X("\n8712_usb_interface_descriptor:\n");
++	DBG_871X("bLength=%x\n", piface_desc->bLength);
++	DBG_871X("bDescriptorType=%x\n", piface_desc->bDescriptorType);
++	DBG_871X("bInterfaceNumber=%x\n", piface_desc->bInterfaceNumber);
++	DBG_871X("bAlternateSetting=%x\n", piface_desc->bAlternateSetting);
++	DBG_871X("bNumEndpoints=%x\n", piface_desc->bNumEndpoints);
++	DBG_871X("bInterfaceClass=%x\n", piface_desc->bInterfaceClass);
++	DBG_871X("bInterfaceSubClass=%x\n", piface_desc->bInterfaceSubClass);
++	DBG_871X("bInterfaceProtocol=%x\n", piface_desc->bInterfaceProtocol);
++	DBG_871X("iInterface=%x\n", piface_desc->iInterface);
++#endif
++
++	pdvobjpriv->NumInterfaces = pconf_desc->bNumInterfaces;
++	pdvobjpriv->InterfaceNumber = piface_desc->bInterfaceNumber;
++	pdvobjpriv->nr_endpoint = piface_desc->bNumEndpoints;
++
++	//DBG_871X("\ndump usb_endpoint_descriptor:\n");
++
++	for (i = 0; i < pdvobjpriv->nr_endpoint; i++)
++	{
++		phost_endp = phost_iface->endpoint + i;
++		if (phost_endp)
++		{
++			pendp_desc = &phost_endp->desc;
++
++			DBG_871X("\nusb_endpoint_descriptor(%d):\n", i);
++			DBG_871X("bLength=%x\n",pendp_desc->bLength);
++			DBG_871X("bDescriptorType=%x\n",pendp_desc->bDescriptorType);
++			DBG_871X("bEndpointAddress=%x\n",pendp_desc->bEndpointAddress);
++			//DBG_871X("bmAttributes=%x\n",pendp_desc->bmAttributes);
++			//DBG_871X("wMaxPacketSize=%x\n",pendp_desc->wMaxPacketSize);
++			DBG_871X("wMaxPacketSize=%x\n",le16_to_cpu(pendp_desc->wMaxPacketSize));
++			DBG_871X("bInterval=%x\n",pendp_desc->bInterval);
++			//DBG_871X("bRefresh=%x\n",pendp_desc->bRefresh);
++			//DBG_871X("bSynchAddress=%x\n",pendp_desc->bSynchAddress);
++
++			if (RT_usb_endpoint_is_bulk_in(pendp_desc))
++			{
++				DBG_871X("RT_usb_endpoint_is_bulk_in = %x\n", RT_usb_endpoint_num(pendp_desc));
++				pdvobjpriv->RtNumInPipes++;
++			}
++			else if (RT_usb_endpoint_is_int_in(pendp_desc))
++			{
++				DBG_871X("RT_usb_endpoint_is_int_in = %x, Interval = %x\n", RT_usb_endpoint_num(pendp_desc),pendp_desc->bInterval);
++				pdvobjpriv->RtNumInPipes++;
++			}
++			else if (RT_usb_endpoint_is_bulk_out(pendp_desc))
++			{
++				DBG_871X("RT_usb_endpoint_is_bulk_out = %x\n", RT_usb_endpoint_num(pendp_desc));
++				pdvobjpriv->RtNumOutPipes++;
++			}
++			pdvobjpriv->ep_num[i] = RT_usb_endpoint_num(pendp_desc);
++		}
++	}
++
++	DBG_871X("nr_endpoint=%d, in_num=%d, out_num=%d\n\n", pdvobjpriv->nr_endpoint, pdvobjpriv->RtNumInPipes, pdvobjpriv->RtNumOutPipes);
++
++	if (pusbd->speed == USB_SPEED_HIGH) {
++		pdvobjpriv->ishighspeed = _TRUE;
++		DBG_871X("USB_SPEED_HIGH\n");
++	} else {
++		pdvobjpriv->ishighspeed = _FALSE;
++		DBG_871X("NON USB_SPEED_HIGH\n");
++	}
++
++	if (rtw_init_intf_priv(pdvobjpriv) == _FAIL) {
++		RT_TRACE(_module_os_intfs_c_,_drv_err_,("\n Can't INIT rtw_init_intf_priv\n"));
++		goto free_dvobj;
++	}
++
++	//.3 misc
++	_rtw_init_sema(&(pdvobjpriv->usb_suspend_sema), 0);
++
++	rtw_reset_continual_urb_error(pdvobjpriv);
++
++	usb_get_dev(pusbd);
++
++	//DBG_871X("%s %d\n", __func__, ATOMIC_READ(&usb_intf->dev.kobj.kref.refcount));
++
++	status = _SUCCESS;
++
++free_dvobj:
++	if (status != _SUCCESS && pdvobjpriv) {
++		usb_set_intfdata(usb_intf, NULL);
++		devobj_deinit(pdvobjpriv);
++		pdvobjpriv = NULL;
++	}
++exit:
++_func_exit_;
++	return pdvobjpriv;
++}
++
++static void usb_dvobj_deinit(struct usb_interface *usb_intf)
++{
++	struct dvobj_priv *dvobj = usb_get_intfdata(usb_intf);
++
++_func_enter_;
++
++	usb_set_intfdata(usb_intf, NULL);
++	if (dvobj) {
++		//Modify condition for 92DU DMDP 2010.11.18, by Thomas
++		/*if ((dvobj->NumInterfaces == 1)
++			|| ((dvobj->InterfaceNumber == 1) && (dvobj->DualMacMode == _TRUE))) {
++			if (interface_to_usbdev(usb_intf)->state != USB_STATE_NOTATTACHED) {
++				//If we didn't unplug usb dongle and remove/insert modlue, driver fails on sitesurvey for the first time when device is up .
++				//Reset usb port for sitesurvey fail issue. 2009.8.13, by Thomas
++				DBG_871X("usb attached..., try to reset usb device\n");
++				usb_reset_device(interface_to_usbdev(usb_intf));
++			}
++		}*/
++		rtw_deinit_intf_priv(dvobj);
++		devobj_deinit(dvobj);
++	}
++
++	//DBG_871X("%s %d\n", __func__, ATOMIC_READ(&usb_intf->dev.kobj.kref.refcount));
++	usb_put_dev(interface_to_usbdev(usb_intf));
++
++_func_exit_;
++}
++
++static void decide_chip_type_by_usb_device_id(_adapter *padapter, const struct usb_device_id *pdid)
++{
++	padapter->chip_type = NULL_CHIP_TYPE;
++#ifdef CONFIG_RTL8192C
++	padapter->chip_type = RTL8188C_8192C;
++	padapter->HardwareType = HARDWARE_TYPE_RTL8192CU;
++	DBG_871X("CHIP TYPE: RTL8188C_8192C\n");
++#endif
++
++#ifdef CONFIG_RTL8192D
++	padapter->chip_type = RTL8192D;
++	padapter->HardwareType = HARDWARE_TYPE_RTL8192DU;
++	DBG_871X("CHIP TYPE: RTL8192D\n");
++#endif
++}
++
++static void usb_intf_start(_adapter *padapter)
++{
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("+usb_intf_start\n"));
++	rtw_hal_inirp_init(padapter);
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("-usb_intf_start\n"));
++}
++
++static void usb_intf_stop(_adapter *padapter)
++{
++
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("+usb_intf_stop\n"));
++
++	//disabel_hw_interrupt
++	if(padapter->bSurpriseRemoved == _FALSE)
++	{
++		//device still exists, so driver can do i/o operation
++		//TODO:
++		RT_TRACE(_module_hci_intfs_c_,_drv_err_,("SurpriseRemoved==_FALSE\n"));
++	}
++
++	//cancel in irp
++	rtw_hal_inirp_deinit(padapter);
++
++	//cancel out irp
++	rtw_write_port_cancel(padapter);
++
++	//todo:cancel other irps
++
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("-usb_intf_stop\n"));
++
++}
++
++static void rtw_dev_unload(_adapter *padapter)
++{
++	struct net_device *pnetdev= (struct net_device*)padapter->pnetdev;
++	u8 val8;
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("+rtw_dev_unload\n"));
++
++	if(padapter->bup == _TRUE)
++	{
++		DBG_871X("===> rtw_dev_unload\n");
++
++		padapter->bDriverStopped = _TRUE;
++		#ifdef CONFIG_XMIT_ACK
++		if (padapter->xmitpriv.ack_tx)
++			rtw_ack_tx_done(&padapter->xmitpriv, RTW_SCTX_DONE_DRV_STOP);
++		#endif
++
++		//s3.
++		if(padapter->intf_stop)
++		{
++			padapter->intf_stop(padapter);
++		}
++
++		//s4.
++		if(!padapter->pwrctrlpriv.bInternalAutoSuspend )
++		rtw_stop_drv_threads(padapter);
++
++
++		//s5.
++		if(padapter->bSurpriseRemoved == _FALSE)
++		{
++			//DBG_871X("r871x_dev_unload()->rtl871x_hal_deinit()\n");
++#ifdef CONFIG_WOWLAN
++			if((padapter->pwrctrlpriv.bSupportRemoteWakeup==_TRUE)&&(padapter->pwrctrlpriv.wowlan_mode==_TRUE)){
++				DBG_871X("%s bSupportWakeOnWlan==_TRUE  do not run rtw_hal_deinit()\n",__FUNCTION__);
++			}
++			else
++#endif //CONFIG_WOWLAN
++			{
++				rtw_hal_deinit(padapter);
++			}
++			padapter->bSurpriseRemoved = _TRUE;
++		}
++
++		padapter->bup = _FALSE;
++#ifdef CONFIG_WOWLAN
++		padapter->hw_init_completed=_FALSE;
++#endif //CONFIG_WOWLAN
++	}
++	else
++	{
++		RT_TRACE(_module_hci_intfs_c_,_drv_err_,("r871x_dev_unload():padapter->bup == _FALSE\n" ));
++	}
++
++	DBG_871X("<=== rtw_dev_unload\n");
++
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("-rtw_dev_unload\n"));
++
++}
++
++static void process_spec_devid(const struct usb_device_id *pdid)
++{
++	u16 vid, pid;
++	u32 flags;
++	int i;
++	int num = sizeof(specific_device_id_tbl)/sizeof(struct specific_device_id);
++
++	for(i=0; i<num; i++)
++	{
++		vid = specific_device_id_tbl[i].idVendor;
++		pid = specific_device_id_tbl[i].idProduct;
++		flags = specific_device_id_tbl[i].flags;
++
++#ifdef CONFIG_80211N_HT
++		if((pdid->idVendor==vid) && (pdid->idProduct==pid) && (flags&SPEC_DEV_ID_DISABLE_HT))
++		{
++			 rtw_ht_enable = 0;
++			 rtw_cbw40_enable = 0;
++			 rtw_ampdu_enable = 0;
++		}
++#endif
++
++#ifdef RTK_DMP_PLATFORM
++		// Change the ifname to wlan10 when PC side WFD dongle plugin on DMP platform.
++		// It is used to distinguish between normal and PC-side wifi dongle/module.
++		if((pdid->idVendor==vid) && (pdid->idProduct==pid) && (flags&SPEC_DEV_ID_ASSIGN_IFNAME))
++		{
++			extern char* ifname;
++			strncpy(ifname, "wlan10", 6);
++			//DBG_871X("%s()-%d: ifname=%s, vid=%04X, pid=%04X\n", __FUNCTION__, __LINE__, ifname, vid, pid);
++		}
++#endif /* RTK_DMP_PLATFORM */
++
++	}
++}
++
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++int rtw_hw_suspend(_adapter *padapter )
++{
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++	struct usb_interface *pusb_intf = adapter_to_dvobj(padapter)->pusbintf;
++	struct net_device *pnetdev = padapter->pnetdev;
++
++	_func_enter_;
++
++	if((!padapter->bup) || (padapter->bDriverStopped)||(padapter->bSurpriseRemoved))
++	{
++		DBG_871X("padapter->bup=%d bDriverStopped=%d bSurpriseRemoved = %d\n",
++			padapter->bup, padapter->bDriverStopped,padapter->bSurpriseRemoved);
++		goto error_exit;
++	}
++
++	if(padapter)//system suspend
++	{
++		LeaveAllPowerSaveMode(padapter);
++
++		DBG_871X("==> rtw_hw_suspend\n");
++		_enter_pwrlock(&pwrpriv->lock);
++		pwrpriv->bips_processing = _TRUE;
++		//padapter->net_closed = _TRUE;
++		//s1.
++		if(pnetdev)
++		{
++			netif_carrier_off(pnetdev);
++			rtw_netif_stop_queue(pnetdev);
++		}
++
++		//s2.
++		rtw_disassoc_cmd(padapter, 500, _FALSE);
++
++		//s2-2.  indicate disconnect to os
++		//rtw_indicate_disconnect(padapter);
++		{
++			struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++			if(check_fwstate(pmlmepriv, _FW_LINKED))
++			{
++				_clr_fwstate_(pmlmepriv, _FW_LINKED);
++
++				rtw_led_control(padapter, LED_CTL_NO_LINK);
++
++				rtw_os_indicate_disconnect(padapter);
++
++				#ifdef CONFIG_LPS
++				//donnot enqueue cmd
++				rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_DISCONNECT, 0);
++				#endif
++			}
++
++		}
++		//s2-3.
++		rtw_free_assoc_resources(padapter, 1);
++
++		//s2-4.
++		rtw_free_network_queue(padapter,_TRUE);
++		#ifdef CONFIG_IPS
++		rtw_ips_dev_unload(padapter);
++		#endif
++		pwrpriv->rf_pwrstate = rf_off;
++		pwrpriv->bips_processing = _FALSE;
++
++		_exit_pwrlock(&pwrpriv->lock);
++	}
++	else
++		goto error_exit;
++
++	_func_exit_;
++	return 0;
++
++error_exit:
++	DBG_871X("%s, failed \n",__FUNCTION__);
++	return (-1);
++
++}
++
++int rtw_hw_resume(_adapter *padapter)
++{
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++	struct usb_interface *pusb_intf = adapter_to_dvobj(padapter)->pusbintf;
++	struct net_device *pnetdev = padapter->pnetdev;
++
++	_func_enter_;
++
++	if(padapter)//system resume
++	{
++		DBG_871X("==> rtw_hw_resume\n");
++		_enter_pwrlock(&pwrpriv->lock);
++		pwrpriv->bips_processing = _TRUE;
++		rtw_reset_drv_sw(padapter);
++
++		if(pm_netdev_open(pnetdev,_FALSE) != 0)
++		{
++			_exit_pwrlock(&pwrpriv->lock);
++			goto error_exit;
++		}
++
++		netif_device_attach(pnetdev);
++		netif_carrier_on(pnetdev);
++
++		if(!rtw_netif_queue_stopped(pnetdev))
++      			rtw_netif_start_queue(pnetdev);
++		else
++			rtw_netif_wake_queue(pnetdev);
++
++		pwrpriv->bkeepfwalive = _FALSE;
++		pwrpriv->brfoffbyhw = _FALSE;
++
++		pwrpriv->rf_pwrstate = rf_on;
++		pwrpriv->bips_processing = _FALSE;
++
++		_exit_pwrlock(&pwrpriv->lock);
++	}
++	else
++	{
++		goto error_exit;
++	}
++
++	_func_exit_;
++
++	return 0;
++error_exit:
++	DBG_871X("%s, Open net dev failed \n",__FUNCTION__);
++	return (-1);
++}
++#endif
++
++static int rtw_suspend(struct usb_interface *pusb_intf, pm_message_t message)
++{
++	struct dvobj_priv *dvobj = usb_get_intfdata(pusb_intf);
++	_adapter *padapter = dvobj->if1;
++	struct net_device *pnetdev = padapter->pnetdev;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++	struct usb_device *usb_dev = interface_to_usbdev(pusb_intf);
++#ifdef CONFIG_WOWLAN
++	struct wowlan_ioctl_param poidparam;
++#endif // CONFIG_WOWLAN
++	int ret = 0;
++	u32 start_time = rtw_get_current_time();
++	_func_enter_;
++
++	DBG_871X("==> %s (%s:%d)\n",__FUNCTION__, current->comm, current->pid);
++
++	if((!padapter->bup) || (padapter->bDriverStopped)||(padapter->bSurpriseRemoved))
++	{
++		DBG_871X("padapter->bup=%d bDriverStopped=%d bSurpriseRemoved = %d\n",
++			padapter->bup, padapter->bDriverStopped,padapter->bSurpriseRemoved);
++		goto exit;
++	}
++
++	if(pwrpriv->bInternalAutoSuspend )
++	{
++	#ifdef CONFIG_AUTOSUSPEND
++	#ifdef SUPPORT_HW_RFOFF_DETECTED
++		// The FW command register update must after MAC and FW init ready.
++		if((padapter->bFWReady) && ( padapter->pwrctrlpriv.bHWPwrPindetect ) && (padapter->registrypriv.usbss_enable ))
++		{
++			u8 bOpen = _TRUE;
++			rtw_interface_ps_func(padapter,HAL_USB_SELECT_SUSPEND,&bOpen);
++			//rtl8192c_set_FwSelectSuspend_cmd(padapter,_TRUE ,500);//note fw to support hw power down ping detect
++		}
++	#endif
++	#endif
++	}
++	pwrpriv->bInSuspend = _TRUE;
++	rtw_cancel_all_timer(padapter);
++	LeaveAllPowerSaveMode(padapter);
++
++	rtw_stop_cmd_thread(padapter);
++
++	_enter_pwrlock(&pwrpriv->lock);
++	//padapter->net_closed = _TRUE;
++	//s1.
++	if(pnetdev)
++	{
++		netif_carrier_off(pnetdev);
++		rtw_netif_stop_queue(pnetdev);
++	}
++#ifdef CONFIG_WOWLAN
++	if(padapter->pwrctrlpriv.bSupportRemoteWakeup==_TRUE&&padapter->pwrctrlpriv.wowlan_mode==_TRUE){
++		u8 ps_mode=PS_MODE_MIN;
++		//set H2C command
++		poidparam.subcode=WOWLAN_ENABLE;
++		rtw_hal_set_hwreg(padapter,HW_VAR_WOWLAN,(u8 *)&poidparam);
++		//rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_PWRMODE, &ps_mode);
++		//rtw_set_rpwm(padapter, PS_STATE_S2);
++	}
++	else
++#endif //CONFIG_WOWLAN
++	{
++		//s2.
++		rtw_disassoc_cmd(padapter, 0, _FALSE);
++	}
++
++#ifdef CONFIG_LAYER2_ROAMING_RESUME
++	if(check_fwstate(pmlmepriv, WIFI_STATION_STATE) && check_fwstate(pmlmepriv, _FW_LINKED) )
++	{
++		//printk("%s:%d assoc_ssid:%s\n", __FUNCTION__, __LINE__, pmlmepriv->assoc_ssid.Ssid);
++		DBG_871X("%s:%d %s(" MAC_FMT "), length:%d assoc_ssid.length:%d\n",__FUNCTION__, __LINE__,
++				pmlmepriv->cur_network.network.Ssid.Ssid,
++				MAC_ARG(pmlmepriv->cur_network.network.MacAddress),
++				pmlmepriv->cur_network.network.Ssid.SsidLength,
++				pmlmepriv->assoc_ssid.SsidLength);
++		rtw_set_roaming(padapter, 1);
++		}
++#endif
++	//s2-2.  indicate disconnect to os
++	rtw_indicate_disconnect(padapter);
++	//s2-3.
++	rtw_free_assoc_resources(padapter, 1);
++#ifdef CONFIG_AUTOSUSPEND
++	if(!pwrpriv->bInternalAutoSuspend )
++#endif
++	//s2-4.
++	rtw_free_network_queue(padapter, _TRUE);
++
++	rtw_dev_unload(padapter);
++#ifdef CONFIG_AUTOSUSPEND
++	pwrpriv->rf_pwrstate = rf_off;
++	pwrpriv->bips_processing = _FALSE;
++#endif
++	_exit_pwrlock(&pwrpriv->lock);
++
++	if(check_fwstate(pmlmepriv, _FW_UNDER_SURVEY))
++		rtw_indicate_scan_done(padapter, 1);
++
++	if(check_fwstate(pmlmepriv, _FW_UNDER_LINKING))
++		rtw_indicate_disconnect(padapter);
++
++exit:
++	DBG_871X("<===  %s return %d.............. in %dms\n", __FUNCTION__
++		, ret, rtw_get_passing_time_ms(start_time));
++
++	_func_exit_;
++	return ret;
++}
++
++static int rtw_resume(struct usb_interface *pusb_intf)
++{
++	struct dvobj_priv *dvobj = usb_get_intfdata(pusb_intf);
++	_adapter *padapter = dvobj->if1;
++	struct net_device *pnetdev = padapter->pnetdev;
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++	 int ret = 0;
++
++	if(pwrpriv->bInternalAutoSuspend ){
++ 		ret = rtw_resume_process(padapter);
++	} else {
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++		rtw_resume_in_workqueue(pwrpriv);
++#else
++		if (rtw_is_earlysuspend_registered(pwrpriv)
++			#ifdef CONFIG_WOWLAN
++			&& !padapter->pwrctrlpriv.wowlan_mode
++			#endif /* CONFIG_WOWLAN */
++		) {
++			/* jeff: bypass resume here, do in late_resume */
++			rtw_set_do_late_resume(pwrpriv, _TRUE);
++		} else {
++			ret = rtw_resume_process(padapter);
++		}
++#endif /* CONFIG_RESUME_IN_WORKQUEUE */
++	}
++
++	return ret;
++
++}
++
++int rtw_resume_process(_adapter *padapter)
++{
++	struct net_device *pnetdev;
++	struct pwrctrl_priv *pwrpriv;
++	int ret = -1;
++	u32 start_time = rtw_get_current_time();
++	_func_enter_;
++
++	DBG_871X("==> %s (%s:%d)\n",__FUNCTION__, current->comm, current->pid);
++
++	if(padapter) {
++		pnetdev= padapter->pnetdev;
++		pwrpriv = &padapter->pwrctrlpriv;
++	} else {
++		goto exit;
++	}
++
++	_enter_pwrlock(&pwrpriv->lock);
++	rtw_reset_drv_sw(padapter);
++	pwrpriv->bkeepfwalive = _FALSE;
++
++	DBG_871X("bkeepfwalive(%x)\n",pwrpriv->bkeepfwalive);
++	if(pm_netdev_open(pnetdev,_TRUE) != 0) {
++		_exit_pwrlock(&pwrpriv->lock);
++		goto exit;
++	}
++
++	netif_device_attach(pnetdev);
++	netif_carrier_on(pnetdev);
++
++#ifdef CONFIG_AUTOSUSPEND
++	if(pwrpriv->bInternalAutoSuspend )
++	{
++		#ifdef CONFIG_AUTOSUSPEND
++		#ifdef SUPPORT_HW_RFOFF_DETECTED
++			// The FW command register update must after MAC and FW init ready.
++		if((padapter->bFWReady) && ( padapter->pwrctrlpriv.bHWPwrPindetect ) && (padapter->registrypriv.usbss_enable ))
++		{
++			//rtl8192c_set_FwSelectSuspend_cmd(padapter,_FALSE ,500);//note fw to support hw power down ping detect
++			u8 bOpen = _FALSE;
++			rtw_interface_ps_func(padapter,HAL_USB_SELECT_SUSPEND,&bOpen);
++		}
++		#endif
++		#endif
++
++		pwrpriv->bInternalAutoSuspend = _FALSE;
++		pwrpriv->brfoffbyhw = _FALSE;
++	}
++#endif
++	_exit_pwrlock(&pwrpriv->lock);
++
++	if( padapter->pid[1]!=0) {
++		DBG_871X("pid[1]:%d\n",padapter->pid[1]);
++		rtw_signal_process(padapter->pid[1], SIGUSR2);
++	}
++
++	#ifdef CONFIG_LAYER2_ROAMING_RESUME
++	rtw_roaming(padapter, NULL);
++	#endif
++
++	ret = 0;
++exit:
++	#ifdef CONFIG_RESUME_IN_WORKQUEUE
++	rtw_unlock_suspend();
++	#endif //CONFIG_RESUME_IN_WORKQUEUE
++
++	pwrpriv->bInSuspend = _FALSE;
++	DBG_871X("<===  %s return %d.............. in %dms\n", __FUNCTION__
++		, ret, rtw_get_passing_time_ms(start_time));
++
++	_func_exit_;
++
++	return ret;
++}
++
++#ifdef CONFIG_AUTOSUSPEND
++void autosuspend_enter(_adapter* padapter)
++{
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++	pwrpriv->bInternalAutoSuspend = _TRUE;
++	pwrpriv->bips_processing = _TRUE;
++
++	DBG_871X("==>autosuspend_enter...........\n");
++
++	if(rf_off == pwrpriv->change_rfpwrstate )
++	{
++		#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35))
++		usb_enable_autosuspend(dvobj->pusbdev);
++		#else
++		dvobj->pusbdev->autosuspend_disabled = 0;//autosuspend disabled by the user
++		#endif
++
++		#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,33))
++			usb_autopm_put_interface(dvobj->pusbintf);
++		#elif (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,20))
++			usb_autopm_enable(dvobj->pusbintf);
++		#else
++			usb_autosuspend_device(dvobj->pusbdev, 1);
++		#endif
++	}
++	#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,32))
++	DBG_871X("...pm_usage_cnt(%d).....\n", atomic_read(&(dvobj->pusbintf->pm_usage_cnt)));
++	#else
++	DBG_871X("...pm_usage_cnt(%d).....\n", dvobj->pusbintf->pm_usage_cnt);
++	#endif
++
++}
++int autoresume_enter(_adapter* padapter)
++{
++	int result = _SUCCESS;
++	struct pwrctrl_priv *pwrpriv = &padapter->pwrctrlpriv;
++	struct security_priv* psecuritypriv=&(padapter->securitypriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++
++	DBG_871X("====> autoresume_enter \n");
++
++	if(rf_off == pwrpriv->rf_pwrstate )
++	{
++		pwrpriv->ps_flag = _FALSE;
++		#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,33))
++			if (usb_autopm_get_interface(dvobj->pusbintf) < 0)
++			{
++				DBG_871X( "can't get autopm: %d\n", result);
++				result = _FAIL;
++				goto error_exit;
++			}
++		#elif (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,20))
++			usb_autopm_disable(dvobj->pusbintf);
++		#else
++			usb_autoresume_device(dvobj->pusbdev, 1);
++		#endif
++
++		#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,32))
++		DBG_871X("...pm_usage_cnt(%d).....\n", atomic_read(&(dvobj->pusbintf->pm_usage_cnt)));
++		#else
++		DBG_871X("...pm_usage_cnt(%d).....\n", dvobj->pusbintf->pm_usage_cnt);
++		#endif
++	}
++	DBG_871X("<==== autoresume_enter \n");
++error_exit:
++
++	return result;
++}
++#endif
++
++#ifdef CONFIG_PLATFORM_RTD2880B
++extern void rtd2885_wlan_netlink_sendMsg(char *action_string, char *name);
++#endif
++
++#ifdef CONFIG_PLATFORM_ARM_SUNxI
++#include <mach/sys_config.h>
++extern int sw_usb_disable_hcd(__u32 usbc_no);
++extern int sw_usb_enable_hcd(__u32 usbc_no);
++static int usb_wifi_host = 2;
++#endif
++
++#ifdef CONFIG_PLATFORM_ARM_SUN6I
++#include <mach/sys_config.h>
++extern int sw_usb_disable_hcd(__u32 usbc_no);
++extern int sw_usb_enable_hcd(__u32 usbc_no);
++extern void wifi_pm_power(int on);
++static script_item_u item;
++#endif
++
++_adapter *rtw_usb_if1_init(struct dvobj_priv *dvobj,
++	struct usb_interface *pusb_intf, const struct usb_device_id *pdid)
++{
++	_adapter *padapter = NULL;
++	struct net_device *pnetdev = NULL;
++	int status = _FAIL;
++
++	if ((padapter = (_adapter *)rtw_zvmalloc(sizeof(*padapter))) == NULL) {
++		goto exit;
++	}
++	padapter->dvobj = dvobj;
++	dvobj->if1 = padapter;
++
++	padapter->bDriverStopped=_TRUE;
++
++	dvobj->padapters[dvobj->iface_nums++] = padapter;
++	padapter->iface_id = IFACE_ID0;
++
++#if defined(CONFIG_CONCURRENT_MODE) || defined(CONFIG_DUALMAC_CONCURRENT)
++	//set adapter_type/iface type for primary padapter
++	padapter->isprimary = _TRUE;
++	padapter->adapter_type = PRIMARY_ADAPTER;
++	#ifndef CONFIG_HWPORT_SWAP
++	padapter->iface_type = IFACE_PORT0;
++	#else
++	padapter->iface_type = IFACE_PORT1;
++	#endif
++#endif
++
++	#ifndef RTW_DVOBJ_CHIP_HW_TYPE
++	//step 1-1., decide the chip_type via vid/pid
++	padapter->interface_type = RTW_USB;
++	decide_chip_type_by_usb_device_id(padapter, pdid);
++	#endif
++
++	if((pnetdev = rtw_init_netdev(padapter)) == NULL) {
++		goto free_adapter;
++	}
++	SET_NETDEV_DEV(pnetdev, dvobj_to_dev(dvobj));
++	padapter = rtw_netdev_priv(pnetdev);
++
++	//step 2. hook HalFunc, allocate HalData
++	if(padapter->chip_type == RTL8188C_8192C) {
++		#ifdef CONFIG_RTL8192C
++		rtl8192cu_set_hal_ops(padapter);
++		#endif
++	} else if(padapter->chip_type == RTL8192D) {
++		#ifdef CONFIG_RTL8192D
++		rtl8192du_set_hal_ops(padapter);
++		#endif
++	} else {
++		DBG_871X("Detect NULL_CHIP_TYPE\n");
++		goto free_hal_data;
++	}
++
++	//step 3.
++	padapter->intf_start=&usb_intf_start;
++	padapter->intf_stop=&usb_intf_stop;
++
++	//.2
++	if ((rtw_init_io_priv(padapter, usb_set_intf_ops)) == _FAIL) {
++		RT_TRACE(_module_hci_intfs_c_,_drv_err_,(" \n Can't init io_reqs\n"));
++		goto free_hal_data;
++	}
++
++	rtw_hal_read_chip_version(padapter);
++
++	//.4 usb endpoint mapping
++	rtw_hal_chip_configure(padapter);
++
++	//step 4. read efuse/eeprom data and get mac_addr
++	rtw_hal_read_chip_info(padapter);
++
++	if (rtw_handle_dualmac(padapter, 1) != _SUCCESS)
++		goto free_hal_data;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if(rtw_wdev_alloc(padapter, dvobj_to_dev(dvobj)) != 0) {
++		goto handle_dualmac;
++	}
++#endif
++
++	//step 5.
++	if (rtw_init_drv_sw(padapter) == _FAIL) {
++		RT_TRACE(_module_hci_intfs_c_,_drv_err_,("Initialize driver software resource Failed!\n"));
++		goto free_wdev;
++	}
++
++#ifdef CONFIG_PM
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2,6,18))
++	if(padapter->pwrctrlpriv.bSupportRemoteWakeup)
++	{
++		dvobj->pusbdev->do_remote_wakeup=1;
++		pusb_intf->needs_remote_wakeup = 1;
++		device_init_wakeup(&pusb_intf->dev, 1);
++		DBG_871X("\n  padapter->pwrctrlpriv.bSupportRemoteWakeup~~~~~~\n");
++		DBG_871X("\n  padapter->pwrctrlpriv.bSupportRemoteWakeup~~~[%d]~~~\n",device_may_wakeup(&pusb_intf->dev));
++	}
++#endif
++#endif
++
++#ifdef CONFIG_AUTOSUSPEND
++	if( padapter->registrypriv.power_mgnt != PS_MODE_ACTIVE )
++	{
++		if(padapter->registrypriv.usbss_enable ){ 	/* autosuspend (2s delay) */
++			#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,38))
++			dvobj->pusbdev->dev.power.autosuspend_delay = 0 * HZ;//15 * HZ; idle-delay time
++			#else
++			dvobj->pusbdev->autosuspend_delay = 0 * HZ;//15 * HZ; idle-delay time
++			#endif
++
++			#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35))
++			usb_enable_autosuspend(dvobj->pusbdev);
++			#elif  (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,22) && LINUX_VERSION_CODE<=KERNEL_VERSION(2,6,34))
++			padapter->bDisableAutosuspend = dvobj->pusbdev->autosuspend_disabled ;
++			dvobj->pusbdev->autosuspend_disabled = 0;//autosuspend disabled by the user
++			#endif
++
++			usb_autopm_get_interface(dvobj->pusbintf );//init pm_usage_cnt ,let it start from 1
++
++			#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,32))
++			DBG_871X("%s...pm_usage_cnt(%d).....\n",__FUNCTION__, atomic_read(&(dvobj->pusbintf ->pm_usage_cnt)));
++			#else
++			DBG_871X("%s...pm_usage_cnt(%d).....\n",__FUNCTION__, dvobj->pusbintf ->pm_usage_cnt);
++			#endif
++		}
++	}
++#endif
++
++	// set mac addr
++	rtw_macaddr_cfg(padapter->eeprompriv.mac_addr);
++	rtw_init_wifidirect_addrs(padapter, padapter->eeprompriv.mac_addr, padapter->eeprompriv.mac_addr);
++
++	DBG_871X("bDriverStopped:%d, bSurpriseRemoved:%d, bup:%d, hw_init_completed:%d\n"
++		,padapter->bDriverStopped
++		,padapter->bSurpriseRemoved
++		,padapter->bup
++		,padapter->hw_init_completed
++	);
++
++	status = _SUCCESS;
++
++free_wdev:
++	if(status != _SUCCESS) {
++		#ifdef CONFIG_IOCTL_CFG80211
++		rtw_wdev_unregister(padapter->rtw_wdev);
++		rtw_wdev_free(padapter->rtw_wdev);
++		#endif
++	}
++handle_dualmac:
++	if (status != _SUCCESS)
++		rtw_handle_dualmac(padapter, 0);
++free_hal_data:
++	if(status != _SUCCESS && padapter->HalData)
++		rtw_mfree(padapter->HalData, sizeof(*(padapter->HalData)));
++free_adapter:
++	if (status != _SUCCESS) {
++		if (pnetdev)
++			rtw_free_netdev(pnetdev);
++		else if (padapter)
++			rtw_vmfree((u8*)padapter, sizeof(*padapter));
++		padapter = NULL;
++	}
++exit:
++	return padapter;
++}
++
++static void rtw_usb_if1_deinit(_adapter *if1)
++{
++	struct net_device *pnetdev = if1->pnetdev;
++	struct mlme_priv *pmlmepriv= &if1->mlmepriv;
++
++	if(check_fwstate(pmlmepriv, _FW_LINKED))
++		rtw_disassoc_cmd(if1, 0, _FALSE);
++
++#ifdef CONFIG_AP_MODE
++	free_mlme_ap_info(if1);
++	#ifdef CONFIG_HOSTAPD_MLME
++	hostapd_mode_unload(if1);
++	#endif
++#endif
++
++	rtw_cancel_all_timer(if1);
++#ifdef CONFIG_WOWLAN
++	if1->pwrctrlpriv.wowlan_mode=_FALSE;
++#endif //CONFIG_WOWLAN
++	rtw_dev_unload(if1);
++
++	DBG_871X("%s, hw_init_completed=%d\n", __func__, if1->hw_init_completed);
++
++	//s6.
++	rtw_handle_dualmac(if1, 0);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (if1->rtw_wdev)
++		rtw_wdev_free(if1->rtw_wdev);
++#endif //CONFIG_IOCTL_CFG80211
++
++	rtw_free_drv_sw(if1);
++
++	if(pnetdev)
++		rtw_free_netdev(pnetdev);
++
++#ifdef CONFIG_PLATFORM_RTD2880B
++	DBG_871X("wlan link down\n");
++	rtd2885_wlan_netlink_sendMsg("linkdown", "8712");
++#endif
++
++}
++
++/*
++ * drv_init() - a device potentially for us
++ *
++ * notes: drv_init() is called when the bus driver has located a card for us to support.
++ *        We accept the new device by returning 0.
++*/
++
++_adapter  *rtw_sw_export = NULL;
++
++static int rtw_drv_init(struct usb_interface *pusb_intf, const struct usb_device_id *did)
++{
++	int i;
++	uint status = _FAIL;
++	_adapter *if1 = NULL, *if2 = NULL;
++	struct dvobj_priv *dvobj = NULL;
++
++
++	RT_TRACE(_module_hci_intfs_c_, _drv_err_, ("+rtw_drv_init\n"));
++
++
++	//step 0.
++	process_spec_devid(did);
++
++	/* Initialize dvobj_priv */
++	if ((dvobj = usb_dvobj_init(pusb_intf)) == NULL) {
++		RT_TRACE(_module_hci_intfs_c_, _drv_err_, ("initialize device object priv Failed!\n"));
++		goto exit;
++	}
++
++	/* Initialize if1 */
++	if ((if1 = rtw_usb_if1_init(dvobj, pusb_intf, did)) == NULL) {
++		DBG_871X("rtw_usb_if1_init Failed!\n");
++		goto free_dvobj;
++	}
++
++	/* Initialize if2 */
++#ifdef CONFIG_CONCURRENT_MODE
++	if((if2 = rtw_drv_if2_init(if1, usb_set_intf_ops)) == NULL) {
++		goto free_if1;
++	}
++#ifdef CONFIG_MULTI_VIR_IFACES
++	for(i=0; i<if1->registrypriv.ext_iface_num;i++)
++	{
++		if(rtw_drv_add_vir_if(if1, usb_set_intf_ops) == NULL)
++		{
++			DBG_871X("rtw_drv_add_iface failed! (%d)\n", i);
++			goto free_if1;
++		}
++	}
++#endif //CONFIG_MULTI_VIR_IFACES
++#endif
++
++#ifdef CONFIG_INTEL_PROXIM
++	rtw_sw_export=if1;
++#endif
++
++#ifdef CONFIG_GLOBAL_UI_PID
++	if (ui_pid[1]!=0) {
++		DBG_871X("ui_pid[1]:%d\n",ui_pid[1]);
++		rtw_signal_process(ui_pid[1], SIGUSR2);
++	}
++#endif
++
++	//dev_alloc_name && register_netdev
++	if((status = rtw_drv_register_netdev(if1)) != _SUCCESS) {
++		goto free_if1;
++	}
++
++#ifdef CONFIG_HOSTAPD_MLME
++	hostapd_mode_init(if1);
++#endif
++
++#ifdef CONFIG_PLATFORM_RTD2880B
++	DBG_871X("wlan link up\n");
++	rtd2885_wlan_netlink_sendMsg("linkup", "8712");
++#endif
++
++#ifdef RTK_DMP_PLATFORM
++	rtw_proc_init_one(if1->pnetdev);
++#endif
++
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("-871x_drv - drv_init, success!\n"));
++
++	status = _SUCCESS;
++
++free_if1:
++	if (status != _SUCCESS && if1) {
++		rtw_usb_if1_deinit(if1);
++	}
++free_dvobj:
++	if (status != _SUCCESS)
++		usb_dvobj_deinit(pusb_intf);
++exit:
++	return status == _SUCCESS?0:-ENODEV;
++}
++
++/*
++ * dev_remove() - our device is being removed
++*/
++//rmmod module & unplug(SurpriseRemoved) will call r871xu_dev_remove() => how to recognize both
++static void rtw_dev_remove(struct usb_interface *pusb_intf)
++{
++	struct dvobj_priv *dvobj = usb_get_intfdata(pusb_intf);
++	_adapter *padapter = dvobj->if1;
++
++_func_exit_;
++
++	DBG_871X("+rtw_dev_remove\n");
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("+dev_remove()\n"));
++
++	dvobj->processing_dev_remove = _TRUE;
++
++	rtw_unregister_netdevs(dvobj);
++
++	if(usb_drv->drv_registered == _TRUE)
++	{
++		//DBG_871X("r871xu_dev_remove():padapter->bSurpriseRemoved == _TRUE\n");
++		padapter->bSurpriseRemoved = _TRUE;
++	}
++	/*else
++	{
++		//DBG_871X("r871xu_dev_remove():module removed\n");
++		padapter->hw_init_completed = _FALSE;
++	}*/
++
++#if defined(CONFIG_HAS_EARLYSUSPEND) || defined(CONFIG_ANDROID_POWER)
++	rtw_unregister_early_suspend(&padapter->pwrctrlpriv);
++#endif
++
++	rtw_pm_set_ips(padapter, IPS_NONE);
++	rtw_pm_set_lps(padapter, PS_MODE_ACTIVE);
++
++	LeaveAllPowerSaveMode(padapter);
++
++#ifdef CONFIG_CONCURRENT_MODE
++#ifdef CONFIG_MULTI_VIR_IFACES
++	rtw_drv_stop_vir_ifaces(dvobj);
++#endif //CONFIG_MULTI_VIR_IFACES
++	rtw_drv_if2_stop(dvobj->if2);
++#endif	//CONFIG_CONCURRENT_MODE
++
++	rtw_usb_if1_deinit(padapter);
++
++#ifdef CONFIG_CONCURRENT_MODE
++#ifdef CONFIG_MULTI_VIR_IFACES
++	rtw_drv_free_vir_ifaces(dvobj);
++#endif //CONFIG_MULTI_VIR_IFACES
++	rtw_drv_if2_free(dvobj->if2);
++#endif //CONFIG_CONCURRENT_MODE
++
++	usb_dvobj_deinit(pusb_intf);
++
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("-dev_remove()\n"));
++	DBG_871X("-r871xu_dev_remove, done\n");
++
++
++#ifdef CONFIG_INTEL_PROXIM
++	rtw_sw_export=NULL;
++#endif
++
++_func_exit_;
++
++	return;
++
++}
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,24))
++extern int console_suspend_enabled;
++#endif
++
++static int __init rtw_drv_entry(void)
++{
++#ifdef CONFIG_PLATFORM_RTK_DMP
++	u32 tmp;
++	tmp=readl((volatile unsigned int*)0xb801a608);
++	tmp &= 0xffffff00;
++	tmp |= 0x55;
++	writel(tmp,(volatile unsigned int*)0xb801a608);//write dummy register for 1055
++#endif
++#ifdef CONFIG_PLATFORM_ARM_SUNxI
++#ifndef CONFIG_RTL8723A
++	int ret = 0;
++	/* ----------get usb_wifi_usbc_num------------- */
++	ret = script_parser_fetch("usb_wifi_para", "usb_wifi_usbc_num", (int *)&usb_wifi_host, 64);
++	if(ret != 0){
++		printk("ERR: script_parser_fetch usb_wifi_usbc_num failed\n");
++		ret = -ENOMEM;
++		return ret;
++	}
++	printk("sw_usb_enable_hcd: usbc_num = %d\n", usb_wifi_host);
++	sw_usb_enable_hcd(usb_wifi_host);
++#endif //CONFIG_RTL8723A
++#endif //CONFIG_PLATFORM_ARM_SUNxI
++
++#ifdef CONFIG_PLATFORM_ARM_SUN6I
++	script_item_value_type_e type;
++
++	type = script_get_item("wifi_para", "wifi_usbc_id", &item);
++	if(SCIRPT_ITEM_VALUE_TYPE_INT != type){
++		printk("ERR: script_get_item wifi_usbc_id failed\n");
++		return -ENOMEM;
++	}
++
++	printk("sw_usb_enable_hcd: usbc_num = %d\n", item.val);
++	wifi_pm_power(1);
++	mdelay(10);
++	sw_usb_enable_hcd(item.val);
++#endif //CONFIG_PLATFORM_ARM_SUN6I
++
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("+rtw_drv_entry\n"));
++
++	DBG_871X(DRV_NAME " driver version=%s\n", DRIVERVERSION);
++	DBG_871X("build time: %s %s\n", __DATE__, __TIME__);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,24))
++	//console_suspend_enabled=0;
++#endif
++
++	rtw_suspend_lock_init();
++
++	usb_drv->drv_registered = _TRUE;
++	return usb_register(&usb_drv->usbdrv);
++}
++
++static void __exit rtw_drv_halt(void)
++{
++	RT_TRACE(_module_hci_intfs_c_,_drv_err_,("+rtw_drv_halt\n"));
++	DBG_871X("+rtw_drv_halt\n");
++
++	usb_drv->drv_registered = _FALSE;
++	usb_deregister(&usb_drv->usbdrv);
++
++#ifdef CONFIG_PLATFORM_ARM_SUNxI
++#ifndef CONFIG_RTL8723A
++	printk("sw_usb_disable_hcd: usbc_num = %d\n", usb_wifi_host);
++	sw_usb_disable_hcd(usb_wifi_host);
++#endif //ifndef CONFIG_RTL8723A
++#endif	//CONFIG_PLATFORM_ARM_SUNxI
++#ifdef CONFIG_PLATFORM_ARM_SUN6I
++	sw_usb_disable_hcd(item.val);
++	wifi_pm_power(0);
++#endif
++
++	rtw_suspend_lock_uninit();
++	DBG_871X("-rtw_drv_halt\n");
++
++	rtw_mstat_dump();
++}
++
++
++module_init(rtw_drv_entry);
++module_exit(rtw_drv_halt);
++
++#ifdef CONFIG_WOWLAN
++#ifdef CONFIG_WOWLAN_MANUAL
++
++int rtw_resume_toshiba(PADAPTER Adapter)
++{
++	struct dvobj_priv *pdvobjpriv;
++	pdvobjpriv = adapter_to_dvobj(Adapter);
++
++	rtw_resume(pdvobjpriv->pusbintf);
++	return 0;
++}
++
++int rtw_suspend_toshiba(PADAPTER Adapter)
++{
++	pm_message_t msg;
++	struct dvobj_priv *pdvobjpriv;
++	pdvobjpriv = adapter_to_dvobj(Adapter);
++	msg.event=0;
++	//for Toshiba only, they should call rtw_suspend before suspend
++	rtw_suspend(pdvobjpriv->pusbintf, msg);
++	return 0;
++}
++EXPORT_SYMBOL(rtw_suspend_toshiba);
++EXPORT_SYMBOL(rtw_resume_toshiba);
++#endif //CONFIG_WOWLAN_MANUAL
++#endif //CONFIG_WOWLAN
++
++#ifdef CONFIG_INTEL_PROXIM
++_adapter  *rtw_usb_get_sw_pointer(void)
++{
++	return rtw_sw_export;
++}
++EXPORT_SYMBOL(rtw_usb_get_sw_pointer);
++#endif	//CONFIG_INTEL_PROXIM
++
+diff --git a/drivers/net/wireless/rtl8192cu/os_dep/linux/usb_ops_linux.c b/drivers/net/wireless/rtl8192cu/os_dep/linux/usb_ops_linux.c
+new file mode 100755
+index 0000000..f54cfb4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/os_dep/linux/usb_ops_linux.c
+@@ -0,0 +1,649 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#define _USB_OPS_LINUX_C_
++
++#include <drv_types.h>
++#include <usb_ops_linux.h>
++#include <rtw_sreset.h>
++
++#ifdef CONFIG_USB_SUPPORT_ASYNC_VDN_REQ
++static void _usbctrl_vendorreq_async_callback(struct urb *urb, struct pt_regs *regs)
++{
++	if (urb) {
++		if (urb->context) {
++			rtw_mfree(urb->context);
++		}
++		usb_free_urb(urb);
++	}
++}
++
++static int _usbctrl_vendorreq_async_write(struct usb_device *udev, u8 request,
++	u16 value, u16 index, void *pdata, u16 len, u8 requesttype)
++{
++	int rc;
++	unsigned int pipe;
++	u8 reqtype;
++	struct usb_ctrlrequest *dr;
++	struct urb *urb;
++	struct rtl819x_async_write_data {
++		u8 data[VENDOR_CMD_MAX_DATA_LEN];
++		struct usb_ctrlrequest dr;
++	} *buf;
++
++
++	if (requesttype == VENDOR_READ) {
++		pipe = usb_rcvctrlpipe(udev, 0);//read_in
++		reqtype =  REALTEK_USB_VENQT_READ;
++	}
++	else {
++		pipe = usb_sndctrlpipe(udev, 0);//write_out
++		reqtype =  REALTEK_USB_VENQT_WRITE;
++	}
++	
++	buf = (struct rtl819x_async_write_data *)rtw_zmalloc(sizeof(*buf));
++	if (!buf) {
++		rc = -ENOMEM;
++		goto exit;
++	}
++
++	urb = usb_alloc_urb(0, GFP_ATOMIC);
++	if (!urb) {
++		rtw_mfree((u8*)buf, sizeof(*buf));
++		rc = -ENOMEM;
++		goto exit;
++	}
++
++	dr = &buf->dr;
++
++	dr->bRequestType = reqtype;
++	dr->bRequest = request;
++	dr->wValue = cpu_to_le16(value);
++	dr->wIndex = cpu_to_le16(index);
++	dr->wLength = cpu_to_le16(len);
++
++	_rtw_memcpy(buf, pdata, len);
++
++	usb_fill_control_urb(urb, udev, pipe, (unsigned char *)dr, buf, len,
++		_usbctrl_vendorreq_async_callback, buf);
++
++	rc = usb_submit_urb(urb, GFP_ATOMIC);
++	if (rc < 0) {
++		rtw_mfree((u8*)buf, sizeof(*buf));
++		usb_free_urb(urb);
++	}
++
++exit:
++	return rc;
++}
++
++int usb_write_async(struct usb_device *udev, u32 addr, void *pdata, u16 len)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++
++	int ret;
++
++	requesttype = VENDOR_WRITE;//write_out
++	request = REALTEK_USB_VENQT_CMD_REQ;
++	index = REALTEK_USB_VENQT_CMD_IDX;//n/a
++
++	wvalue = (u16)(addr&0x0000ffff);
++
++	ret = _usbctrl_vendorreq_async_write(udev, request, wvalue, index, pdata, len, requesttype);
++
++	return ret;
++}
++
++int usb_async_write8(struct intf_hdl *pintfhdl, u32 addr, u8 val)
++{
++	u8 data;
++	int ret;
++	struct dvobj_priv  *pdvobjpriv = (struct dvobj_priv  *)pintfhdl->pintf_dev;
++	struct usb_device *udev=pdvobjpriv->pusbdev;
++
++	_func_enter_;
++	data = val;
++	ret = usb_write_async(udev, addr, &data, 1);
++	_func_exit_;
++
++	return ret;
++}
++
++int usb_async_write16(struct intf_hdl *pintfhdl, u32 addr, u16 val)
++{
++	u16 data;
++	int ret;
++	struct dvobj_priv  *pdvobjpriv = (struct dvobj_priv  *)pintfhdl->pintf_dev;
++	struct usb_device *udev=pdvobjpriv->pusbdev;
++
++	_func_enter_;
++	data = val;
++	ret = usb_write_async(udev, addr, &data, 2);
++	_func_exit_;
++
++	return ret;
++}
++
++int usb_async_write32(struct intf_hdl *pintfhdl, u32 addr, u32 val)
++{
++	u32 data;
++	int ret;
++	struct dvobj_priv  *pdvobjpriv = (struct dvobj_priv  *)pintfhdl->pintf_dev;
++	struct usb_device *udev=pdvobjpriv->pusbdev;
++
++	_func_enter_;
++	data = val;
++	ret = usb_write_async(udev, addr, &data, 4);
++	_func_exit_;
++	
++	return ret;
++}
++#endif /* CONFIG_USB_SUPPORT_ASYNC_VDN_REQ */
++
++unsigned int ffaddr2pipehdl(struct dvobj_priv *pdvobj, u32 addr)
++{
++	unsigned int pipe=0;
++	int ep_num=0;
++	_adapter *padapter = pdvobj->if1;
++	struct usb_device *pusbd = pdvobj->pusbdev;	
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	if (addr == RECV_BULK_IN_ADDR) {	
++		pipe=usb_rcvbulkpipe(pusbd, pHalData->RtBulkInPipe);
++		
++	} else if (addr == RECV_INT_IN_ADDR) {	
++		pipe=usb_rcvbulkpipe(pusbd, pHalData->RtIntInPipe);
++		
++	} else if (addr < HW_QUEUE_ENTRY) {
++		ep_num = pHalData->Queue2EPNum[addr];	
++		pipe = usb_sndbulkpipe(pusbd, ep_num);
++	}
++
++	return pipe;
++}
++
++struct zero_bulkout_context{
++	void *pbuf;
++	void *purb;
++	void *pirp;
++	void *padapter;
++};
++
++static void usb_bulkout_zero_complete(struct urb *purb, struct pt_regs *regs)
++{	
++	struct zero_bulkout_context *pcontext = (struct zero_bulkout_context *)purb->context;
++
++	//DBG_8192C("+usb_bulkout_zero_complete\n");
++	
++	if(pcontext)
++	{
++		if(pcontext->pbuf)
++		{			
++			rtw_mfree(pcontext->pbuf, sizeof(int));	
++		}	
++
++		if(pcontext->purb && (pcontext->purb==purb))
++		{
++			usb_free_urb(pcontext->purb);
++		}
++
++	
++		rtw_mfree((u8*)pcontext, sizeof(struct zero_bulkout_context));	
++	}	
++	
++
++}
++
++static u32 usb_bulkout_zero(struct intf_hdl *pintfhdl, u32 addr)
++{	
++	int pipe, status, len;
++	u32 ret;
++	unsigned char *pbuf;
++	struct zero_bulkout_context *pcontext;
++	PURB	purb = NULL;	
++	_adapter *padapter = (_adapter *)pintfhdl->padapter;
++	struct dvobj_priv *pdvobj = adapter_to_dvobj(padapter);	
++	struct usb_device *pusbd = pdvobj->pusbdev;
++
++	//DBG_871X("%s\n", __func__);
++	
++		
++	if((padapter->bDriverStopped) || (padapter->bSurpriseRemoved) ||(padapter->pwrctrlpriv.pnp_bstop_trx))
++	{		
++		return _FAIL;
++	}
++	
++
++	pcontext = (struct zero_bulkout_context *)rtw_zmalloc(sizeof(struct zero_bulkout_context));
++
++	pbuf = (unsigned char *)rtw_zmalloc(sizeof(int));	
++    	purb = usb_alloc_urb(0, GFP_ATOMIC);
++      	
++	len = 0;
++	pcontext->pbuf = pbuf;
++	pcontext->purb = purb;
++	pcontext->pirp = NULL;
++	pcontext->padapter = padapter;
++
++	
++	//translate DMA FIFO addr to pipehandle
++	//pipe = ffaddr2pipehdl(pdvobj, addr);	
++
++	usb_fill_bulk_urb(purb, pusbd, pipe, 
++       				pbuf,
++              			len,
++              			usb_bulkout_zero_complete,
++              			pcontext);//context is pcontext
++
++	status = usb_submit_urb(purb, GFP_ATOMIC);
++
++	if (!status)
++	{		
++		ret= _SUCCESS;
++	}
++	else
++	{
++		ret= _FAIL;
++	}
++	
++	
++	return _SUCCESS;
++
++}
++
++void usb_read_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem)
++{
++	
++}
++
++void usb_write_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *wmem)
++{
++	
++}
++
++
++void usb_read_port_cancel(struct intf_hdl *pintfhdl)
++{
++	int i;	
++	struct recv_buf *precvbuf;	
++	_adapter	*padapter = pintfhdl->padapter;
++	precvbuf = (struct recv_buf *)padapter->recvpriv.precv_buf;
++
++	DBG_871X("%s\n", __func__);
++
++	padapter->bReadPortCancel = _TRUE;
++
++	for (i=0; i < NR_RECVBUFF ; i++) {
++		
++		precvbuf->reuse = _TRUE;	
++		if (precvbuf->purb)	 {
++			//DBG_8192C("usb_read_port_cancel : usb_kill_urb \n");
++			usb_kill_urb(precvbuf->purb);
++		}		
++		precvbuf++;
++	}
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++	usb_kill_urb(padapter->recvpriv.int_in_urb);
++#endif
++}
++
++static void usb_write_port_complete(struct urb *purb, struct pt_regs *regs)
++{
++	_irqL irqL;
++	int i;
++	struct xmit_buf *pxmitbuf = (struct xmit_buf *)purb->context;
++	//struct xmit_frame *pxmitframe = (struct xmit_frame *)pxmitbuf->priv_data;
++	//_adapter			*padapter = pxmitframe->padapter;
++	_adapter	*padapter = pxmitbuf->padapter;
++       struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;		
++	//struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	   
++_func_enter_;
++
++	switch(pxmitbuf->flags)
++	{
++		case VO_QUEUE_INX:
++			pxmitpriv->voq_cnt--;			
++			break;
++		case VI_QUEUE_INX:
++			pxmitpriv->viq_cnt--;		
++			break;
++		case BE_QUEUE_INX:
++			pxmitpriv->beq_cnt--;			
++			break;
++		case BK_QUEUE_INX:
++			pxmitpriv->bkq_cnt--;			
++			break;
++		case HIGH_QUEUE_INX:
++#ifdef CONFIG_AP_MODE			
++			rtw_chk_hi_queue_cmd(padapter);
++#endif
++			break;
++		default:			
++			break;
++	}
++		
++
++/*
++	_enter_critical(&pxmitpriv->lock, &irqL);
++
++	pxmitpriv->txirp_cnt--;
++	
++	switch(pattrib->priority) 
++	{
++		case 1:				
++		case 2:
++			pxmitpriv->bkq_cnt--;
++			//DBG_8192C("pxmitpriv->bkq_cnt=%d\n", pxmitpriv->bkq_cnt);
++			break;
++		case 4:
++		case 5:
++			pxmitpriv->viq_cnt--;
++			//DBG_8192C("pxmitpriv->viq_cnt=%d\n", pxmitpriv->viq_cnt);
++			break;
++		case 6:
++		case 7:
++			pxmitpriv->voq_cnt--;
++			//DBG_8192C("pxmitpriv->voq_cnt=%d\n", pxmitpriv->voq_cnt);
++			break;
++		case 0:
++		case 3:			
++		default:
++			pxmitpriv->beq_cnt--;
++			//DBG_8192C("pxmitpriv->beq_cnt=%d\n", pxmitpriv->beq_cnt);
++			break;
++			
++	}	
++	
++	_exit_critical(&pxmitpriv->lock, &irqL);
++	
++	
++	if(pxmitpriv->txirp_cnt==0)
++	{
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_write_port_complete: txirp_cnt== 0, set allrxreturnevt!\n"));		
++		_rtw_up_sema(&(pxmitpriv->tx_retevt));
++	}
++*/
++        //rtw_free_xmitframe(pxmitpriv, pxmitframe);
++	
++	if(padapter->bSurpriseRemoved || padapter->bDriverStopped ||padapter->bWritePortCancel)
++	{
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_write_port_complete:bDriverStopped(%d) OR bSurpriseRemoved(%d)", padapter->bDriverStopped, padapter->bSurpriseRemoved));
++		DBG_8192C("%s(): TX Warning! bDriverStopped(%d) OR bSurpriseRemoved(%d) bWritePortCancel(%d) pxmitbuf->ext_tag(%x) \n", 
++		__FUNCTION__,padapter->bDriverStopped, padapter->bSurpriseRemoved,padapter->bReadPortCancel,pxmitbuf->ext_tag);	
++
++		goto check_completion;
++	}
++
++
++	if (purb->status==0) {
++	
++	} else {
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_write_port_complete : purb->status(%d) != 0 \n", purb->status));
++		DBG_871X("###=> urb_write_port_complete status(%d)\n",purb->status);
++		if((purb->status==-EPIPE)||(purb->status==-EPROTO))
++		{
++			//usb_clear_halt(pusbdev, purb->pipe);	
++			//msleep(10);
++			sreset_set_wifi_error_status(padapter, USB_WRITE_PORT_FAIL);
++		} else if (purb->status == -EINPROGRESS) {
++			RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_write_port_complete: EINPROGESS\n"));
++			goto check_completion;
++
++		} else if (purb->status == -ENOENT) {
++			DBG_871X("%s: -ENOENT\n", __func__);
++			goto check_completion;
++			
++		} else if (purb->status == -ECONNRESET) {
++			DBG_871X("%s: -ECONNRESET\n", __func__);
++			goto check_completion;
++
++		} else if (purb->status == -ESHUTDOWN) {
++			RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_write_port_complete: ESHUTDOWN\n"));
++			padapter->bDriverStopped=_TRUE;
++			RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_write_port_complete:bDriverStopped=TRUE\n"));
++
++			goto check_completion;
++		}
++		else
++		{					
++			padapter->bSurpriseRemoved=_TRUE;
++			DBG_8192C("bSurpriseRemoved=TRUE\n");
++			//rtl8192cu_trigger_gpio_0(padapter);
++			RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_write_port_complete:bSurpriseRemoved=TRUE\n"));
++
++			goto check_completion;
++		}
++	}
++
++	#ifdef DBG_CONFIG_ERROR_DETECT
++	{	
++		HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++		pHalData->srestpriv.last_tx_complete_time = rtw_get_current_time();		
++	}
++	#endif
++
++check_completion:
++	_enter_critical(&pxmitpriv->lock_sctx, &irqL);
++	rtw_sctx_done_err(&pxmitbuf->sctx,
++		purb->status ? RTW_SCTX_DONE_WRITE_PORT_ERR : RTW_SCTX_DONE_SUCCESS);
++	_exit_critical(&pxmitpriv->lock_sctx, &irqL);
++
++	rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++
++	//if(rtw_txframes_pending(padapter))	
++	{
++		tasklet_hi_schedule(&pxmitpriv->xmit_tasklet);
++	}
++	
++_func_exit_;	
++
++}
++
++u32 usb_write_port(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *wmem)
++{    
++	_irqL irqL;
++	unsigned int pipe;
++	int status;
++	u32 ret = _FAIL, bwritezero = _FALSE;
++	PURB	purb = NULL;
++	_adapter *padapter = (_adapter *)pintfhdl->padapter;
++	struct dvobj_priv	*pdvobj = adapter_to_dvobj(padapter);	
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	struct xmit_buf *pxmitbuf = (struct xmit_buf *)wmem;
++	struct xmit_frame *pxmitframe = (struct xmit_frame *)pxmitbuf->priv_data;
++	struct usb_device *pusbd = pdvobj->pusbdev;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	
++_func_enter_;	
++	
++	RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("+usb_write_port\n"));
++	
++	if ((padapter->bDriverStopped) || (padapter->bSurpriseRemoved) ||(padapter->pwrctrlpriv.pnp_bstop_trx)) {
++		#ifdef DBG_TX
++		DBG_871X(" DBG_TX %s:%d bDriverStopped%d, bSurpriseRemoved:%d, pnp_bstop_trx:%d\n",__FUNCTION__, __LINE__
++			,padapter->bDriverStopped, padapter->bSurpriseRemoved, padapter->pwrctrlpriv.pnp_bstop_trx );
++		#endif
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_write_port:( padapter->bDriverStopped ||padapter->bSurpriseRemoved ||adapter->pwrctrlpriv.pnp_bstop_trx)!!!\n"));
++		rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_TX_DENY);
++		goto exit;
++	}
++	
++	_enter_critical(&pxmitpriv->lock, &irqL);
++
++	switch(addr)
++	{
++		case VO_QUEUE_INX:
++			pxmitpriv->voq_cnt++;
++			pxmitbuf->flags = VO_QUEUE_INX;
++			break;
++		case VI_QUEUE_INX:
++			pxmitpriv->viq_cnt++;
++			pxmitbuf->flags = VI_QUEUE_INX;
++			break;
++		case BE_QUEUE_INX:
++			pxmitpriv->beq_cnt++;
++			pxmitbuf->flags = BE_QUEUE_INX;
++			break;
++		case BK_QUEUE_INX:
++			pxmitpriv->bkq_cnt++;
++			pxmitbuf->flags = BK_QUEUE_INX;
++			break;
++		case HIGH_QUEUE_INX:
++			pxmitbuf->flags = HIGH_QUEUE_INX;
++			break;
++		default:
++			pxmitbuf->flags = MGT_QUEUE_INX;
++			break;
++	}
++		
++	_exit_critical(&pxmitpriv->lock, &irqL);
++		
++	purb	= pxmitbuf->pxmit_urb[0];
++
++#if 0
++	if(pdvobj->ishighspeed)
++	{
++		if(cnt> 0 && cnt%512 == 0)
++		{
++			//DBG_8192C("ishighspeed, cnt=%d\n", cnt);
++			bwritezero = _TRUE;			
++		}	
++	}
++	else
++	{
++		if(cnt > 0 && cnt%64 == 0)
++		{
++			//DBG_8192C("cnt=%d\n", cnt);
++			bwritezero = _TRUE;			
++		}	
++	}
++#endif
++
++	//translate DMA FIFO addr to pipehandle
++	pipe = ffaddr2pipehdl(pdvobj, addr);	
++
++#ifdef CONFIG_REDUCE_USB_TX_INT	
++	if ( (pxmitpriv->free_xmitbuf_cnt%NR_XMITBUFF == 0)
++		|| (pxmitbuf->ext_tag == _TRUE) )
++	{
++		purb->transfer_flags  &=  (~URB_NO_INTERRUPT);
++	} else {
++		purb->transfer_flags  |=  URB_NO_INTERRUPT;
++		//DBG_8192C("URB_NO_INTERRUPT ");
++	}
++#endif
++
++
++	usb_fill_bulk_urb(purb, pusbd, pipe, 
++       				pxmitframe->buf_addr, //= pxmitbuf->pbuf
++              			cnt,
++              			usb_write_port_complete,
++              			pxmitbuf);//context is pxmitbuf
++              			
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_TX
++	purb->transfer_dma = pxmitbuf->dma_transfer_addr;
++	purb->transfer_flags |= URB_NO_TRANSFER_DMA_MAP;
++	purb->transfer_flags |= URB_ZERO_PACKET;
++#endif	// CONFIG_USE_USB_BUFFER_ALLOC_TX
++              			
++#if 0
++	if (bwritezero)
++        {
++            purb->transfer_flags |= URB_ZERO_PACKET;           
++        }			
++#endif
++
++	status = usb_submit_urb(purb, GFP_ATOMIC);
++	if (!status) {
++		#ifdef DBG_CONFIG_ERROR_DETECT	
++		{	
++			HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++			pHalData->srestpriv.last_tx_time = rtw_get_current_time();		
++		}
++		#endif
++	} else {
++		rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_WRITE_PORT_ERR);
++		DBG_871X("usb_write_port, status=%d\n", status);
++		RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("usb_write_port(): usb_submit_urb, status=%x\n", status));
++		
++		switch (status) {
++		case -ENODEV:
++			padapter->bDriverStopped=_TRUE;
++			break;
++		default:
++			break;
++		}
++		goto exit;
++	}
++
++	ret= _SUCCESS;
++
++//   Commented by Albert 2009/10/13
++//   We add the URB_ZERO_PACKET flag to urb so that the host will send the zero packet automatically.
++/*	
++	if(bwritezero == _TRUE)
++	{
++		usb_bulkout_zero(pintfhdl, addr);
++	}
++*/
++
++	RT_TRACE(_module_hci_ops_os_c_,_drv_err_,("-usb_write_port\n"));
++
++exit:
++	if (ret != _SUCCESS)
++		rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++_func_exit_;
++	return ret;
++
++}
++
++void usb_write_port_cancel(struct intf_hdl *pintfhdl)
++{
++	int i, j;
++	_adapter	*padapter = pintfhdl->padapter;
++	struct xmit_buf *pxmitbuf = (struct xmit_buf *)padapter->xmitpriv.pxmitbuf;
++
++	DBG_871X("%s \n", __func__);
++	
++	padapter->bWritePortCancel = _TRUE;	
++	
++	for (i=0; i<NR_XMITBUFF; i++) {
++		for (j=0; j<8; j++) {
++			if (pxmitbuf->pxmit_urb[j]) {
++				usb_kill_urb(pxmitbuf->pxmit_urb[j]);
++			}
++		}
++		pxmitbuf++;
++	}
++	
++	pxmitbuf = (struct xmit_buf*)padapter->xmitpriv.pxmit_extbuf;
++	for (i = 0; i < NR_XMIT_EXTBUFF; i++) {	
++		for (j=0; j<8; j++) {
++			if(pxmitbuf->pxmit_urb[j]) {
++				usb_kill_urb(pxmitbuf->pxmit_urb[j]);
++			}
++		}
++		pxmitbuf++;
++	}
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/os_dep/linux/xmit_linux.c b/drivers/net/wireless/rtl8192cu/os_dep/linux/xmit_linux.c
+new file mode 100755
+index 0000000..9105e29
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/os_dep/linux/xmit_linux.c
+@@ -0,0 +1,421 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _XMIT_OSDEP_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++#include <if_ether.h>
++#include <ip.h>
++#include <rtw_byteorder.h>
++#include <wifi.h>
++#include <mlme_osdep.h>
++#include <xmit_osdep.h>
++#include <osdep_intf.h>
++#include <circ_buf.h>
++
++
++uint rtw_remainder_len(struct pkt_file *pfile)
++{
++	return (pfile->buf_len - ((SIZE_PTR)(pfile->cur_addr) - (SIZE_PTR)(pfile->buf_start)));
++}
++
++void _rtw_open_pktfile (_pkt *pktptr, struct pkt_file *pfile)
++{
++_func_enter_;
++
++	pfile->pkt = pktptr;
++	pfile->cur_addr = pfile->buf_start = pktptr->data;
++	pfile->pkt_len = pfile->buf_len = pktptr->len;
++
++	pfile->cur_buffer = pfile->buf_start ;
++	
++_func_exit_;
++}
++
++uint _rtw_pktfile_read (struct pkt_file *pfile, u8 *rmem, uint rlen)
++{	
++	uint	len = 0;
++	
++_func_enter_;
++
++       len =  rtw_remainder_len(pfile);
++      	len = (rlen > len)? len: rlen;
++
++       if(rmem)
++	  skb_copy_bits(pfile->pkt, pfile->buf_len-pfile->pkt_len, rmem, len);
++
++       pfile->cur_addr += len;
++       pfile->pkt_len -= len;
++	   
++_func_exit_;	       		
++
++	return len;	
++}
++
++sint rtw_endofpktfile(struct pkt_file *pfile)
++{
++_func_enter_;
++
++	if (pfile->pkt_len == 0) {
++_func_exit_;
++		return _TRUE;
++	}
++
++_func_exit_;
++
++	return _FALSE;
++}
++
++void rtw_set_tx_chksum_offload(_pkt *pkt, struct pkt_attrib *pattrib)
++{
++
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
++	struct sk_buff *skb = (struct sk_buff *)pkt;
++	pattrib->hw_tcp_csum = 0;
++	
++	if (skb->ip_summed == CHECKSUM_PARTIAL) {
++		if (skb_shinfo(skb)->nr_frags == 0)
++		{	
++                        const struct iphdr *ip = ip_hdr(skb);
++                        if (ip->protocol == IPPROTO_TCP) {
++                                // TCP checksum offload by HW
++                                DBG_871X("CHECKSUM_PARTIAL TCP\n");
++                                pattrib->hw_tcp_csum = 1;
++                                //skb_checksum_help(skb);
++                        } else if (ip->protocol == IPPROTO_UDP) {
++                                //DBG_871X("CHECKSUM_PARTIAL UDP\n");
++#if 1                       
++                                skb_checksum_help(skb);
++#else
++                                // Set UDP checksum = 0 to skip checksum check
++                                struct udphdr *udp = skb_transport_header(skb);
++                                udp->check = 0;
++#endif
++                        } else {
++				DBG_871X("%s-%d TCP CSUM offload Error!!\n", __FUNCTION__, __LINE__);
++                                WARN_ON(1);     /* we need a WARN() */
++			    }
++		}
++		else { // IP fragmentation case
++			DBG_871X("%s-%d nr_frags != 0, using skb_checksum_help(skb);!!\n", __FUNCTION__, __LINE__);
++                	skb_checksum_help(skb);
++		}		
++	}
++#endif	
++	
++}
++
++int rtw_os_xmit_resource_alloc(_adapter *padapter, struct xmit_buf *pxmitbuf,u32 alloc_sz)
++{
++#ifdef CONFIG_USB_HCI
++	int i;
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct usb_device	*pusbd = pdvobjpriv->pusbdev;
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_TX
++	pxmitbuf->pallocated_buf = rtw_usb_buffer_alloc(pusbd, (size_t)alloc_sz, &pxmitbuf->dma_transfer_addr);
++	pxmitbuf->pbuf = pxmitbuf->pallocated_buf;
++	if(pxmitbuf->pallocated_buf == NULL)
++		return _FAIL;
++#else // CONFIG_USE_USB_BUFFER_ALLOC_TX
++	
++	pxmitbuf->pallocated_buf = rtw_zmalloc(alloc_sz);
++	if (pxmitbuf->pallocated_buf == NULL)
++	{
++		return _FAIL;
++	}
++
++	pxmitbuf->pbuf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitbuf->pallocated_buf), XMITBUF_ALIGN_SZ);
++	pxmitbuf->dma_transfer_addr = 0;
++
++#endif // CONFIG_USE_USB_BUFFER_ALLOC_TX
++
++	for(i=0; i<8; i++)
++      	{
++      		pxmitbuf->pxmit_urb[i] = usb_alloc_urb(0, GFP_KERNEL);
++             	if(pxmitbuf->pxmit_urb[i] == NULL) 
++             	{
++             		DBG_871X("pxmitbuf->pxmit_urb[i]==NULL");
++	        	return _FAIL;	 
++             	}      		  	
++	
++      	}
++#endif
++#if defined(CONFIG_PCI_HCI) || defined(CONFIG_SDIO_HCI)
++	pxmitbuf->pallocated_buf = rtw_zmalloc(alloc_sz);
++	if (pxmitbuf->pallocated_buf == NULL)
++	{
++		return _FAIL;
++	}
++
++	pxmitbuf->pbuf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitbuf->pallocated_buf), XMITBUF_ALIGN_SZ);
++#endif
++
++	return _SUCCESS;	
++}
++
++void rtw_os_xmit_resource_free(_adapter *padapter, struct xmit_buf *pxmitbuf,u32 free_sz)
++{
++#ifdef CONFIG_USB_HCI
++	int i;
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct usb_device	*pusbd = pdvobjpriv->pusbdev;
++
++
++	for(i=0; i<8; i++)
++	{
++		if(pxmitbuf->pxmit_urb[i])
++		{
++			//usb_kill_urb(pxmitbuf->pxmit_urb[i]);
++			usb_free_urb(pxmitbuf->pxmit_urb[i]);
++		}
++	}
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_TX
++	rtw_usb_buffer_free(pusbd, (size_t)free_sz, pxmitbuf->pallocated_buf, pxmitbuf->dma_transfer_addr);
++	pxmitbuf->pallocated_buf =  NULL;
++	pxmitbuf->dma_transfer_addr = 0;
++#else	// CONFIG_USE_USB_BUFFER_ALLOC_TX
++	if(pxmitbuf->pallocated_buf)
++		rtw_mfree(pxmitbuf->pallocated_buf, free_sz);
++#endif	// CONFIG_USE_USB_BUFFER_ALLOC_TX
++
++#endif
++#if defined(CONFIG_PCI_HCI) || defined(CONFIG_SDIO_HCI)
++	if(pxmitbuf->pallocated_buf)
++		rtw_mfree(pxmitbuf->pallocated_buf, free_sz);
++#endif
++}
++
++void rtw_os_pkt_complete(_adapter *padapter, _pkt *pkt)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,35))
++	u16	queue;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	queue = skb_get_queue_mapping(pkt);
++	if(__netif_subqueue_stopped(padapter->pnetdev, queue) &&
++		(pxmitpriv->hwxmits[queue].accnt < NR_XMITFRAME/2))
++	{
++		netif_wake_subqueue(padapter->pnetdev, queue);
++	}
++#else
++	if (netif_queue_stopped(padapter->pnetdev))
++		netif_wake_queue(padapter->pnetdev);
++#endif
++
++	rtw_skb_free(pkt);
++}
++
++void rtw_os_xmit_complete(_adapter *padapter, struct xmit_frame *pxframe)
++{
++	if(pxframe->pkt)
++		rtw_os_pkt_complete(padapter, pxframe->pkt);
++
++	pxframe->pkt = NULL;
++}
++
++void rtw_os_xmit_schedule(_adapter *padapter)
++{
++#ifdef CONFIG_SDIO_HCI
++	if(!padapter)
++		return;
++	
++	if (rtw_txframes_pending(padapter))
++		_rtw_up_sema(&padapter->xmitpriv.xmit_sema);
++#else
++	_irqL  irqL;
++	struct xmit_priv *pxmitpriv;
++
++	if(!padapter)
++		return;
++
++	pxmitpriv = &padapter->xmitpriv;
++
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++	if(rtw_txframes_pending(padapter))	
++	{
++		tasklet_hi_schedule(&pxmitpriv->xmit_tasklet);
++	}
++
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++#endif
++}
++
++
++
++#ifdef CONFIG_TX_MCAST2UNI
++int rtw_mlcst2unicst(_adapter *padapter, struct sk_buff *skb)
++{
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	_irqL	irqL;
++	_list	*phead, *plist;
++	struct sk_buff *newskb;
++	struct sta_info *psta = NULL;
++	u8 chk_alive_num = 0;
++	char chk_alive_list[NUM_STA];
++	u8 bc_addr[6]={0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u8 null_addr[6]={0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
++
++	int i;
++	s32	res;
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++	
++	//free sta asoc_queue
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		int stainfo_offset;
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		plist = get_next(plist);
++
++		stainfo_offset = rtw_stainfo_offset(pstapriv, psta);
++		if (stainfo_offset_valid(stainfo_offset)) {
++			chk_alive_list[chk_alive_num++] = stainfo_offset;
++		}
++	}
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	for (i = 0; i < chk_alive_num; i++) {
++		psta = rtw_get_stainfo_by_offset(pstapriv, chk_alive_list[i]);
++
++		/* avoid come from STA1 and send back STA1 */ 
++		if (_rtw_memcmp(psta->hwaddr, &skb->data[6], 6) == _TRUE
++			|| _rtw_memcmp(psta->hwaddr, null_addr, 6) == _TRUE
++			|| _rtw_memcmp(psta->hwaddr, bc_addr, 6) == _TRUE
++		)
++			continue;
++
++		newskb = rtw_skb_copy(skb);
++
++		if (newskb) {
++			_rtw_memcpy(newskb->data, psta->hwaddr, 6);
++			res = rtw_xmit(padapter, &newskb);
++			if (res < 0) {
++				DBG_871X("%s()-%d: rtw_xmit() return error!\n", __FUNCTION__, __LINE__);
++				pxmitpriv->tx_drop++;
++				rtw_skb_free(newskb);
++			} else
++				pxmitpriv->tx_pkts++;
++		} else {
++			DBG_871X("%s-%d: rtw_skb_copy() failed!\n", __FUNCTION__, __LINE__);
++			pxmitpriv->tx_drop++;
++			//rtw_skb_free(skb);
++			return _FALSE;	// Caller shall tx this multicast frame via normal way.
++		}
++	}
++
++	rtw_skb_free(skb);
++	return _TRUE;
++}
++#endif	// CONFIG_TX_MCAST2UNI
++
++
++int _rtw_xmit_entry(_pkt *pkt, _nic_hdl pnetdev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++#ifdef CONFIG_TX_MCAST2UNI
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	extern int rtw_mc2u_disable;
++#endif	// CONFIG_TX_MCAST2UNI	
++	s32 res = 0;
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35))
++	u16 queue;
++#endif
++
++_func_enter_;
++
++	RT_TRACE(_module_rtl871x_mlme_c_, _drv_info_, ("+xmit_enry\n"));
++
++	if (rtw_if_up(padapter) == _FALSE) {
++		RT_TRACE(_module_xmit_osdep_c_, _drv_err_, ("rtw_xmit_entry: rtw_if_up fail\n"));
++		#ifdef DBG_TX_DROP_FRAME
++		DBG_871X("DBG_TX_DROP_FRAME %s if_up fail\n", __FUNCTION__);
++		#endif
++		goto drop_packet;
++	}
++
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(2,6,35))
++	queue = skb_get_queue_mapping(pkt);
++	/* No free space for Tx, tx_worker is too slow */
++	if (pxmitpriv->hwxmits[queue].accnt > NR_XMITFRAME/2) {
++		//DBG_871X("%s(): stop netif_subqueue[%d]\n", __FUNCTION__, queue);
++		netif_stop_subqueue(padapter->pnetdev, queue);
++		return NETDEV_TX_BUSY;
++	}
++#endif
++
++#ifdef CONFIG_TX_MCAST2UNI
++	if ( !rtw_mc2u_disable
++		&& check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE
++		&& ( IP_MCAST_MAC(pkt->data)
++			|| ICMPV6_MCAST_MAC(pkt->data) )
++		&& (padapter->registrypriv.wifi_spec == 0)
++		)
++	{
++		if ( pxmitpriv->free_xmitframe_cnt > (NR_XMITFRAME/4) ) {
++			res = rtw_mlcst2unicst(padapter, pkt);
++			if (res == _TRUE) {
++				goto exit;
++			}
++		} else {
++			//DBG_871X("Stop M2U(%d, %d)! ", pxmitpriv->free_xmitframe_cnt, pxmitpriv->free_xmitbuf_cnt);
++			//DBG_871X("!m2u );
++		}
++	}	
++#endif	// CONFIG_TX_MCAST2UNI	
++
++	res = rtw_xmit(padapter, &pkt);
++	if (res < 0) {
++		#ifdef DBG_TX_DROP_FRAME
++		DBG_871X("DBG_TX_DROP_FRAME %s rtw_xmit fail\n", __FUNCTION__);
++		#endif
++		goto drop_packet;
++	}
++
++	pxmitpriv->tx_pkts++;
++	RT_TRACE(_module_xmit_osdep_c_, _drv_info_, ("rtw_xmit_entry: tx_pkts=%d\n", (u32)pxmitpriv->tx_pkts));
++	goto exit;
++
++drop_packet:
++	pxmitpriv->tx_drop++;
++	rtw_skb_free(pkt);
++	RT_TRACE(_module_xmit_osdep_c_, _drv_notice_, ("rtw_xmit_entry: drop, tx_drop=%d\n", (u32)pxmitpriv->tx_drop));
++
++exit:
++
++_func_exit_;
++
++	return 0;
++}
++
++int rtw_xmit_entry(_pkt *pkt, _nic_hdl pnetdev)
++{
++	if (pkt)
++		rtw_mstat_update(MSTAT_TYPE_SKB, MSTAT_ALLOC_SUCCESS, pkt->truesize);
++	return _rtw_xmit_entry(pkt, pnetdev);
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/os_dep/osdep_service.c b/drivers/net/wireless/rtl8192cu/os_dep/osdep_service.c
+new file mode 100755
+index 0000000..e73a068
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/os_dep/osdep_service.c
+@@ -0,0 +1,2300 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#define _OSDEP_SERVICE_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <recv_osdep.h>
++#ifdef PLATFORM_LINUX
++#include <linux/vmalloc.h>
++#endif
++#ifdef PLATFORM_FREEBSD
++#include <sys/malloc.h>
++#include <sys/time.h>
++#endif /* PLATFORM_FREEBSD */
++#ifdef RTK_DMP_PLATFORM
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2,6,12))
++#include <linux/pageremap.h>
++#endif
++#endif
++
++#define RT_TAG	'1178'
++
++#ifdef DBG_MEMORY_LEAK
++#ifdef PLATFORM_LINUX
++#include <asm/atomic.h>
++atomic_t _malloc_cnt = ATOMIC_INIT(0);
++atomic_t _malloc_size = ATOMIC_INIT(0);
++#endif
++#endif /* DBG_MEMORY_LEAK */
++
++
++#if defined(PLATFORM_LINUX)
++/*
++* Translate the OS dependent @param error_code to OS independent RTW_STATUS_CODE
++* @return: one of RTW_STATUS_CODE
++*/
++inline int RTW_STATUS_CODE(int error_code){
++	if(error_code >=0)
++		return _SUCCESS;
++
++	switch(error_code) {
++		//case -ETIMEDOUT:
++		//	return RTW_STATUS_TIMEDOUT;
++		default:
++			return _FAIL;
++	}
++}
++#else
++inline int RTW_STATUS_CODE(int error_code){
++	return error_code;
++}
++#endif
++
++u32 rtw_atoi(u8* s)
++{
++
++	int num=0,flag=0;
++	int i;
++	for(i=0;i<=strlen(s);i++)
++	{
++	  if(s[i] >= '0' && s[i] <= '9')
++		 num = num * 10 + s[i] -'0';
++	  else if(s[0] == '-' && i==0) 
++		 flag =1;
++	  else 
++		  break;
++	 }
++
++	if(flag == 1)
++	   num = num * -1;
++
++	 return(num); 
++
++}
++
++inline u8* _rtw_vmalloc(u32 sz)
++{
++	u8 	*pbuf;
++#ifdef PLATFORM_LINUX	
++	pbuf = vmalloc(sz);
++#endif	
++#ifdef PLATFORM_FREEBSD
++	pbuf = malloc(sz,M_DEVBUF,M_NOWAIT);	
++#endif	
++	
++#ifdef PLATFORM_WINDOWS
++	NdisAllocateMemoryWithTag(&pbuf,sz, RT_TAG);	
++#endif
++
++#ifdef DBG_MEMORY_LEAK
++#ifdef PLATFORM_LINUX
++	if ( pbuf != NULL) {
++		atomic_inc(&_malloc_cnt);
++		atomic_add(sz, &_malloc_size);
++	}
++#endif
++#endif /* DBG_MEMORY_LEAK */
++
++	return pbuf;	
++}
++
++inline u8* _rtw_zvmalloc(u32 sz)
++{
++	u8 	*pbuf;
++#ifdef PLATFORM_LINUX
++	pbuf = _rtw_vmalloc(sz);
++	if (pbuf != NULL)
++		memset(pbuf, 0, sz);
++#endif	
++#ifdef PLATFORM_FREEBSD
++	pbuf = malloc(sz,M_DEVBUF,M_ZERO|M_NOWAIT);	
++#endif	
++#ifdef PLATFORM_WINDOWS
++	NdisAllocateMemoryWithTag(&pbuf,sz, RT_TAG);
++	if (pbuf != NULL)
++		NdisFillMemory(pbuf, sz, 0);
++#endif
++
++	return pbuf;	
++}
++
++inline void _rtw_vmfree(u8 *pbuf, u32 sz)
++{
++#ifdef	PLATFORM_LINUX
++	vfree(pbuf);
++#endif	
++#ifdef PLATFORM_FREEBSD
++	free(pbuf,M_DEVBUF);	
++#endif	
++#ifdef PLATFORM_WINDOWS
++	NdisFreeMemory(pbuf,sz, 0);
++#endif
++
++#ifdef DBG_MEMORY_LEAK
++#ifdef PLATFORM_LINUX
++	atomic_dec(&_malloc_cnt);
++	atomic_sub(sz, &_malloc_size);
++#endif
++#endif /* DBG_MEMORY_LEAK */
++}
++
++u8* _rtw_malloc(u32 sz)
++{
++
++	u8 	*pbuf=NULL;
++
++#ifdef PLATFORM_LINUX
++#ifdef RTK_DMP_PLATFORM
++	if(sz > 0x4000)
++		pbuf = (u8 *)dvr_malloc(sz);
++	else
++#endif		
++		pbuf = kmalloc(sz,in_interrupt() ? GFP_ATOMIC : GFP_KERNEL); 		
++
++#endif	
++#ifdef PLATFORM_FREEBSD
++	pbuf = malloc(sz,M_DEVBUF,M_NOWAIT);	
++#endif		
++#ifdef PLATFORM_WINDOWS
++
++	NdisAllocateMemoryWithTag(&pbuf,sz, RT_TAG);
++
++#endif
++
++#ifdef DBG_MEMORY_LEAK
++#ifdef PLATFORM_LINUX
++	if ( pbuf != NULL) {
++		atomic_inc(&_malloc_cnt);
++		atomic_add(sz, &_malloc_size);
++	}
++#endif
++#endif /* DBG_MEMORY_LEAK */
++
++	return pbuf;	
++	
++}
++
++
++u8* _rtw_zmalloc(u32 sz)
++{
++#ifdef PLATFORM_FREEBSD
++	return malloc(sz,M_DEVBUF,M_ZERO|M_NOWAIT);
++#else // PLATFORM_FREEBSD
++	u8 	*pbuf = _rtw_malloc(sz);
++
++	if (pbuf != NULL) {
++
++#ifdef PLATFORM_LINUX
++		memset(pbuf, 0, sz);
++#endif	
++	
++#ifdef PLATFORM_WINDOWS
++		NdisFillMemory(pbuf, sz, 0);
++#endif
++
++	}
++
++	return pbuf;	
++#endif // PLATFORM_FREEBSD
++}
++
++void	_rtw_mfree(u8 *pbuf, u32 sz)
++{
++
++#ifdef	PLATFORM_LINUX
++#ifdef RTK_DMP_PLATFORM
++	if(sz > 0x4000)
++		dvr_free(pbuf);
++	else
++#endif
++		kfree(pbuf);
++
++#endif	
++#ifdef PLATFORM_FREEBSD
++	free(pbuf,M_DEVBUF);	
++#endif		
++#ifdef PLATFORM_WINDOWS
++
++	NdisFreeMemory(pbuf,sz, 0);
++
++#endif
++	
++#ifdef DBG_MEMORY_LEAK
++#ifdef PLATFORM_LINUX
++	atomic_dec(&_malloc_cnt);
++	atomic_sub(sz, &_malloc_size);
++#endif
++#endif /* DBG_MEMORY_LEAK */
++	
++}
++
++#ifdef PLATFORM_FREEBSD
++//review again
++struct sk_buff * dev_alloc_skb(unsigned int size)
++{
++	struct sk_buff *skb=NULL;
++    	u8 *data=NULL;
++	
++	//skb = (struct sk_buff *)_rtw_zmalloc(sizeof(struct sk_buff)); // for skb->len, etc.
++	skb = (struct sk_buff *)_rtw_malloc(sizeof(struct sk_buff));
++	if(!skb)
++		goto out;
++	data = _rtw_malloc(size);
++	if(!data)
++		goto nodata;
++
++	skb->head = (unsigned char*)data;
++	skb->data = (unsigned char*)data;
++	skb->tail = (unsigned char*)data;
++	skb->end = (unsigned char*)data + size;
++	skb->len = 0;
++	//printf("%s()-%d: skb=%p, skb->head = %p\n", __FUNCTION__, __LINE__, skb, skb->head);
++
++out:
++	return skb;
++nodata:
++	_rtw_mfree((u8 *)skb, sizeof(struct sk_buff));
++	skb = NULL;
++goto out;
++	
++}
++
++void dev_kfree_skb_any(struct sk_buff *skb)
++{
++	//printf("%s()-%d: skb->head = %p\n", __FUNCTION__, __LINE__, skb->head);
++	if(skb->head)
++		_rtw_mfree(skb->head, 0);
++	//printf("%s()-%d: skb = %p\n", __FUNCTION__, __LINE__, skb);
++	if(skb)
++		_rtw_mfree((u8 *)skb, 0);
++}
++struct sk_buff *skb_clone(const struct sk_buff *skb)
++{
++	return NULL;
++}
++
++#endif /* PLATFORM_FREEBSD */
++
++inline struct sk_buff *_rtw_skb_alloc(u32 sz)
++{
++#ifdef PLATFORM_LINUX
++	return __dev_alloc_skb(sz, in_interrupt() ? GFP_ATOMIC : GFP_KERNEL);
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	return dev_alloc_skb(sz);
++#endif /* PLATFORM_FREEBSD */
++}
++
++inline void _rtw_skb_free(struct sk_buff *skb)
++{
++	dev_kfree_skb_any(skb);
++}
++
++inline struct sk_buff *_rtw_skb_copy(const struct sk_buff *skb)
++{
++#ifdef PLATFORM_LINUX
++	return skb_copy(skb, in_interrupt() ? GFP_ATOMIC : GFP_KERNEL);
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	return NULL;
++#endif /* PLATFORM_FREEBSD */
++}
++
++inline struct sk_buff *_rtw_skb_clone(struct sk_buff *skb)
++{
++#ifdef PLATFORM_LINUX
++	return skb_clone(skb, in_interrupt() ? GFP_ATOMIC : GFP_KERNEL);
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	return skb_clone(skb);
++#endif /* PLATFORM_FREEBSD */
++}
++
++inline int _rtw_netif_rx(_nic_hdl ndev, struct sk_buff *skb)
++{
++#ifdef PLATFORM_LINUX
++	skb->dev = ndev;
++	return netif_rx(skb);
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	return (*ndev->if_input)(ndev, skb);
++#endif /* PLATFORM_FREEBSD */
++}
++
++void _rtw_skb_queue_purge(struct sk_buff_head *list)
++{
++	struct sk_buff *skb;
++
++	while ((skb = skb_dequeue(list)) != NULL)
++		_rtw_skb_free(skb);
++}
++
++#ifdef CONFIG_USB_HCI
++inline void *_rtw_usb_buffer_alloc(struct usb_device *dev, size_t size, dma_addr_t *dma)
++{
++#ifdef PLATFORM_LINUX
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,35))
++	return usb_alloc_coherent(dev, size, (in_interrupt() ? GFP_ATOMIC : GFP_KERNEL), dma);
++#else
++	return usb_buffer_alloc(dev, size, (in_interrupt() ? GFP_ATOMIC : GFP_KERNEL), dma);
++#endif
++#endif /* PLATFORM_LINUX */
++	
++#ifdef PLATFORM_FREEBSD
++	return (malloc(size, M_USBDEV, M_NOWAIT | M_ZERO));
++#endif /* PLATFORM_FREEBSD */
++}
++inline void _rtw_usb_buffer_free(struct usb_device *dev, size_t size, void *addr, dma_addr_t dma)
++{
++#ifdef PLATFORM_LINUX
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,35))
++	usb_free_coherent(dev, size, addr, dma); 
++#else
++	usb_buffer_free(dev, size, addr, dma);
++#endif
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	free(addr, M_USBDEV);
++#endif /* PLATFORM_FREEBSD */
++}
++#endif /* CONFIG_USB_HCI */
++
++#ifdef DBG_MEM_ALLOC
++
++struct rtw_mem_stat {
++	ATOMIC_T alloc; // the memory bytes we allocate currently
++	ATOMIC_T peak; // the peak memory bytes we allocate 
++	ATOMIC_T alloc_cnt; // the alloc count for alloc currently
++	ATOMIC_T alloc_err_cnt; // the error times we fail to allocate memory
++};
++
++struct rtw_mem_stat rtw_mem_type_stat[mstat_tf_idx(MSTAT_TYPE_MAX)];
++struct rtw_mem_stat rtw_mem_func_stat[mstat_ff_idx(MSTAT_FUNC_MAX)];
++
++char *MSTAT_TYPE_str[] = {
++	"VIR",
++	"PHY",
++	"SKB",
++	"USB",
++};
++
++char *MSTAT_FUNC_str[] = {
++	"UNSP",
++	"IO",
++	"TXIO",
++	"RXIO",
++	"TX",
++	"RX",
++};
++
++int _rtw_mstat_dump(char *buf, int len)
++{
++	int cnt = 0;
++	int i;
++	int value_t[4][mstat_tf_idx(MSTAT_TYPE_MAX)];
++	int value_f[4][mstat_ff_idx(MSTAT_FUNC_MAX)];
++	
++	int vir_alloc, vir_peak, vir_alloc_err, phy_alloc, phy_peak, phy_alloc_err;
++	int tx_alloc, tx_peak, tx_alloc_err, rx_alloc, rx_peak, rx_alloc_err;
++
++	for(i=0;i<mstat_tf_idx(MSTAT_TYPE_MAX);i++) {
++		value_t[0][i] = ATOMIC_READ(&(rtw_mem_type_stat[i].alloc));
++		value_t[1][i] = ATOMIC_READ(&(rtw_mem_type_stat[i].peak));
++		value_t[2][i] = ATOMIC_READ(&(rtw_mem_type_stat[i].alloc_cnt));
++		value_t[3][i] = ATOMIC_READ(&(rtw_mem_type_stat[i].alloc_err_cnt));
++	}
++
++	#if 0
++	for(i=0;i<mstat_ff_idx(MSTAT_FUNC_MAX);i++) {
++		value_f[0][i] = ATOMIC_READ(&(rtw_mem_func_stat[i].alloc));
++		value_f[1][i] = ATOMIC_READ(&(rtw_mem_func_stat[i].peak));
++		value_f[2][i] = ATOMIC_READ(&(rtw_mem_func_stat[i].alloc_cnt));
++		value_f[3][i] = ATOMIC_READ(&(rtw_mem_func_stat[i].alloc_err_cnt));
++	}
++	#endif
++
++	cnt += snprintf(buf+cnt, len-cnt, "===================== MSTAT =====================\n");
++	cnt += snprintf(buf+cnt, len-cnt, "%4s %10s %10s %10s %10s\n", "TAG", "alloc", "peak", "aloc_cnt", "err_cnt");
++	cnt += snprintf(buf+cnt, len-cnt, "-------------------------------------------------\n");
++	for(i=0;i<mstat_tf_idx(MSTAT_TYPE_MAX);i++) {
++		cnt += snprintf(buf+cnt, len-cnt, "%4s %10d %10d %10d %10d\n", MSTAT_TYPE_str[i], value_t[0][i], value_t[1][i], value_t[2][i], value_t[3][i]);
++	}
++	#if 0
++	cnt += snprintf(buf+cnt, len-cnt, "-------------------------------------------------\n");
++	for(i=0;i<mstat_ff_idx(MSTAT_FUNC_MAX);i++) {
++		cnt += snprintf(buf+cnt, len-cnt, "%4s %10d %10d %10d %10d\n", MSTAT_FUNC_str[i], value_f[0][i], value_f[1][i], value_f[2][i], value_f[3][i]);
++	}
++	#endif
++
++	return cnt;
++}
++
++void rtw_mstat_dump(void)
++{
++	char buf[768] = {0};
++
++	_rtw_mstat_dump(buf, 768);
++	DBG_871X("\n%s", buf);
++}
++
++void rtw_mstat_update(const enum mstat_f flags, const MSTAT_STATUS status, u32 sz)
++{
++	static u32 update_time = 0;
++	int peak, alloc;
++	int i;
++
++	/* initialization */
++	if(!update_time) {
++		for(i=0;i<mstat_tf_idx(MSTAT_TYPE_MAX);i++) {
++			ATOMIC_SET(&(rtw_mem_type_stat[i].alloc), 0);
++			ATOMIC_SET(&(rtw_mem_type_stat[i].peak), 0);
++			ATOMIC_SET(&(rtw_mem_type_stat[i].alloc_cnt), 0);
++			ATOMIC_SET(&(rtw_mem_type_stat[i].alloc_err_cnt), 0);
++		}
++		for(i=0;i<mstat_ff_idx(MSTAT_FUNC_MAX);i++) {
++			ATOMIC_SET(&(rtw_mem_func_stat[i].alloc), 0);
++			ATOMIC_SET(&(rtw_mem_func_stat[i].peak), 0);
++			ATOMIC_SET(&(rtw_mem_func_stat[i].alloc_cnt), 0);
++			ATOMIC_SET(&(rtw_mem_func_stat[i].alloc_err_cnt), 0);
++		}
++	}
++
++	switch(status) {
++		case MSTAT_ALLOC_SUCCESS:
++			ATOMIC_INC(&(rtw_mem_type_stat[mstat_tf_idx(flags)].alloc_cnt));
++			alloc = ATOMIC_ADD_RETURN(&(rtw_mem_type_stat[mstat_tf_idx(flags)].alloc), sz);
++			peak=ATOMIC_READ(&(rtw_mem_type_stat[mstat_tf_idx(flags)].peak));
++			if (peak<alloc)
++				ATOMIC_SET(&(rtw_mem_type_stat[mstat_tf_idx(flags)].peak), alloc);
++
++			ATOMIC_INC(&(rtw_mem_func_stat[mstat_ff_idx(flags)].alloc_cnt));
++			alloc = ATOMIC_ADD_RETURN(&(rtw_mem_func_stat[mstat_ff_idx(flags)].alloc), sz);
++			peak=ATOMIC_READ(&(rtw_mem_func_stat[mstat_ff_idx(flags)].peak));
++			if (peak<alloc)
++				ATOMIC_SET(&(rtw_mem_func_stat[mstat_ff_idx(flags)].peak), alloc);
++			break;
++
++		case MSTAT_ALLOC_FAIL:
++			ATOMIC_INC(&(rtw_mem_type_stat[mstat_tf_idx(flags)].alloc_err_cnt));
++
++			ATOMIC_INC(&(rtw_mem_func_stat[mstat_ff_idx(flags)].alloc_err_cnt));
++			break;
++
++		case MSTAT_FREE:
++			ATOMIC_DEC(&(rtw_mem_type_stat[mstat_tf_idx(flags)].alloc_cnt));
++			ATOMIC_SUB(&(rtw_mem_type_stat[mstat_tf_idx(flags)].alloc), sz);
++
++			ATOMIC_DEC(&(rtw_mem_func_stat[mstat_ff_idx(flags)].alloc_cnt));
++			ATOMIC_SUB(&(rtw_mem_func_stat[mstat_ff_idx(flags)].alloc), sz);
++			break;
++	};
++
++	//if (rtw_get_passing_time_ms(update_time) > 5000) {
++	//	rtw_mstat_dump();
++		update_time=rtw_get_current_time();
++	//}
++}
++
++
++
++inline u8* dbg_rtw_vmalloc(u32 sz, const enum mstat_f flags, const char *func, const int line)
++{
++	u8  *p;
++	//DBG_871X("DBG_MEM_ALLOC %s:%d %s(%d)\n", func,  line, __FUNCTION__, (sz));
++	
++	p=_rtw_vmalloc((sz));
++
++	rtw_mstat_update(
++		flags
++		, p ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, sz
++	);
++	
++	return p;
++}
++
++inline u8* dbg_rtw_zvmalloc(u32 sz, const enum mstat_f flags, const char *func, const int line)
++{
++	u8 *p;
++	//DBG_871X("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, (sz)); 
++	
++	p=_rtw_zvmalloc((sz)); 
++
++	rtw_mstat_update(
++		flags
++		, p ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, sz
++	);
++
++	return p;
++}
++
++inline void dbg_rtw_vmfree(u8 *pbuf, u32 sz, const enum mstat_f flags, const char *func, const int line)
++{
++	//DBG_871X("DBG_MEM_ALLOC %s:%d %s(%p,%d)\n",  func, line, __FUNCTION__, (pbuf), (sz));
++	
++	_rtw_vmfree((pbuf), (sz)); 
++
++	rtw_mstat_update(
++		flags
++		, MSTAT_FREE
++		, sz
++	);
++}
++
++inline u8* dbg_rtw_malloc(u32 sz, const enum mstat_f flags, const char *func, const int line) 
++{
++	u8 *p;
++
++	//if(sz>=153 && sz<=306) 
++	//	DBG_871X("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, (sz));
++
++	//if((sz)>4096) 
++	//	DBG_871X("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, (sz)); 
++
++	p=_rtw_malloc((sz));
++	
++	rtw_mstat_update(
++		flags
++		, p ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, sz
++	);
++
++	return p;
++}
++
++inline u8* dbg_rtw_zmalloc(u32 sz, const enum mstat_f flags, const char *func, const int line)
++{
++	u8 *p;
++
++	//if(sz>=153 && sz<=306) 
++	//	DBG_871X("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, (sz));
++
++	//if((sz)>4096)
++	//	DBG_871X("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, (sz));
++
++	p = _rtw_zmalloc((sz));
++
++	rtw_mstat_update(
++		flags
++		, p ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, sz
++	);
++
++	return p;
++}
++
++inline void dbg_rtw_mfree(u8 *pbuf, u32 sz, const enum mstat_f flags, const char *func, const int line)
++{
++	//if(sz>=153 && sz<=306) 
++	//	DBG_871X("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, (sz));
++
++	//if((sz)>4096)
++	//	DBG_871X("DBG_MEM_ALLOC %s:%d %s(%p,%d)\n", func, line, __FUNCTION__, (pbuf), (sz));
++	
++	_rtw_mfree((pbuf), (sz));
++
++	rtw_mstat_update(
++		flags
++		, MSTAT_FREE
++		, sz
++	);
++}
++
++inline struct sk_buff * dbg_rtw_skb_alloc(unsigned int size, const enum mstat_f flags, const char *func, int line)
++{
++	struct sk_buff *skb;
++	unsigned int truesize = 0;
++
++	skb = _rtw_skb_alloc(size);
++
++	if(skb)
++		truesize = skb->truesize;
++
++	if(!skb || truesize < size /*|| size > 4096*/)
++		DBG_871X("DBG_MEM_ALLOC %s:%d %s(%d), skb:%p, truesize=%u\n", func, line, __FUNCTION__, size, skb, truesize);
++
++	rtw_mstat_update(
++		flags
++		, skb ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, truesize
++	);
++
++	return skb;
++}
++
++inline void dbg_rtw_skb_free(struct sk_buff *skb, const enum mstat_f flags, const char *func, int line)
++{
++	unsigned int truesize = skb->truesize;
++
++	//if(truesize > 4096)
++	//	DBG_871X("DBG_MEM_ALLOC %s:%d %s, truesize=%u\n", func, line, __FUNCTION__, truesize);
++
++	_rtw_skb_free(skb);
++	
++	rtw_mstat_update(
++		flags
++		, MSTAT_FREE
++		, truesize
++	);
++}
++
++inline struct sk_buff *dbg_rtw_skb_copy(const struct sk_buff *skb, const enum mstat_f flags, const char *func, const int line)
++{
++	struct sk_buff *skb_cp;
++	unsigned int truesize = skb->truesize;
++	unsigned int cp_truesize = 0;
++	
++	skb_cp = _rtw_skb_copy(skb);
++	if(skb_cp)
++		cp_truesize = skb_cp->truesize;
++
++	if(!skb_cp || cp_truesize != truesize /*||cp_truesize > 4096*/)
++		DBG_871X("DBG_MEM_ALLOC %s:%d %s(%u), skb_cp:%p, cp_truesize=%u\n", func, line, __FUNCTION__, truesize, skb_cp, cp_truesize);
++
++	rtw_mstat_update(
++		flags
++		, skb_cp ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, truesize
++	);
++
++	return skb_cp;
++}
++
++inline struct sk_buff *dbg_rtw_skb_clone(struct sk_buff *skb, const enum mstat_f flags, const char *func, const int line)
++{
++	struct sk_buff *skb_cl;
++	unsigned int truesize = skb->truesize;
++	unsigned int cl_truesize = 0;
++
++	skb_cl = _rtw_skb_clone(skb);
++	if(skb_cl)
++		cl_truesize = skb_cl->truesize;
++
++	if(!skb_cl || cl_truesize != truesize /*|| cl_truesize > 4096*/)
++		DBG_871X("DBG_MEM_ALLOC %s:%d %s(%u), skb_cl:%p, cl_truesize=%u\n", func, line, __FUNCTION__, truesize, skb_cl, cl_truesize);
++
++	rtw_mstat_update(
++		flags
++		, skb_cl ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, truesize
++	);
++
++	return skb_cl;
++}
++
++inline int dbg_rtw_netif_rx(_nic_hdl ndev, struct sk_buff *skb, const enum mstat_f flags, const char *func, int line)
++{
++	int ret;
++	unsigned int truesize = skb->truesize;
++
++	//if(truesize > 4096)
++	//	DBG_871X("DBG_MEM_ALLOC %s:%d %s, truesize=%u\n", func, line, __FUNCTION__, truesize);
++
++	ret = _rtw_netif_rx(ndev, skb);
++	
++	rtw_mstat_update(
++		flags
++		, MSTAT_FREE
++		, truesize
++	);
++
++	return ret;
++}
++
++inline void dbg_rtw_skb_queue_purge(struct sk_buff_head *list, enum mstat_f flags, const char *func, int line)
++{
++	struct sk_buff *skb;
++
++	while ((skb = skb_dequeue(list)) != NULL)
++		dbg_rtw_skb_free(skb, flags, func, line);
++}
++
++#ifdef CONFIG_USB_HCI
++inline void *dbg_rtw_usb_buffer_alloc(struct usb_device *dev, size_t size, dma_addr_t *dma, const enum mstat_f flags, const char *func, int line)
++{
++	void *p;
++	//DBG_871X("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, size);
++	
++	p = _rtw_usb_buffer_alloc(dev, size, dma);
++	
++	rtw_mstat_update(
++		flags
++		, p ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, size
++	);
++
++	return p;
++}
++
++inline void dbg_rtw_usb_buffer_free(struct usb_device *dev, size_t size, void *addr, dma_addr_t dma, const enum mstat_f flags, const char *func, int line)
++{
++	//DBG_871X("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, size);
++
++	_rtw_usb_buffer_free(dev, size, addr, dma);
++
++	rtw_mstat_update(
++		flags
++		, MSTAT_FREE
++		, size
++	);
++}
++#endif /* CONFIG_USB_HCI */
++#endif /* DBG_MEM_ALLOC */
++
++void* rtw_malloc2d(int h, int w, int size)
++{
++	int j;
++
++	void **a = (void **) rtw_zmalloc( h*sizeof(void *) + h*w*size );
++	if(a == NULL)
++	{
++		DBG_871X("%s: alloc memory fail!\n", __FUNCTION__);
++		return NULL;
++	}
++
++	for( j=0; j<h; j++ )
++		a[j] = ((char *)(a+h)) + j*w*size;
++
++	return a;
++}
++
++void rtw_mfree2d(void *pbuf, int h, int w, int size)
++{
++	rtw_mfree((u8 *)pbuf, h*sizeof(void*) + w*h*size);
++}
++
++void _rtw_memcpy(void* dst, void* src, u32 sz)
++{
++
++#if defined (PLATFORM_LINUX)|| defined (PLATFORM_FREEBSD)
++
++	memcpy(dst, src, sz);
++
++#endif	
++
++#ifdef PLATFORM_WINDOWS
++
++	NdisMoveMemory(dst, src, sz);
++
++#endif
++
++}
++
++int	_rtw_memcmp(void *dst, void *src, u32 sz)
++{
++
++#if defined (PLATFORM_LINUX)|| defined (PLATFORM_FREEBSD)
++//under Linux/GNU/GLibc, the return value of memcmp for two same mem. chunk is 0
++
++	if (!(memcmp(dst, src, sz)))
++		return _TRUE;
++	else
++		return _FALSE;
++#endif
++
++
++#ifdef PLATFORM_WINDOWS
++//under Windows, the return value of NdisEqualMemory for two same mem. chunk is 1
++	
++	if (NdisEqualMemory (dst, src, sz))
++		return _TRUE;
++	else
++		return _FALSE;
++
++#endif	
++	
++	
++	
++}
++
++void _rtw_memset(void *pbuf, int c, u32 sz)
++{
++
++#if defined (PLATFORM_LINUX)|| defined (PLATFORM_FREEBSD)
++
++        memset(pbuf, c, sz);
++
++#endif
++
++#ifdef PLATFORM_WINDOWS
++#if 0
++	NdisZeroMemory(pbuf, sz);
++	if (c != 0) memset(pbuf, c, sz);
++#else
++	NdisFillMemory(pbuf, sz, c);
++#endif
++#endif
++
++}
++
++#ifdef PLATFORM_FREEBSD
++static inline void __list_add(_list *pnew, _list *pprev, _list *pnext)
++ {
++         pnext->prev = pnew;
++         pnew->next = pnext;
++         pnew->prev = pprev;
++         pprev->next = pnew;
++}
++#endif /* PLATFORM_FREEBSD */
++
++void _rtw_init_listhead(_list *list)
++{
++
++#ifdef PLATFORM_LINUX
++
++        INIT_LIST_HEAD(list);
++
++#endif
++
++#ifdef PLATFORM_FREEBSD
++         list->next = list;
++         list->prev = list;
++#endif
++#ifdef PLATFORM_WINDOWS
++
++        NdisInitializeListHead(list);
++
++#endif
++
++}
++
++
++/*
++For the following list_xxx operations, 
++caller must guarantee the atomic context.
++Otherwise, there will be racing condition.
++*/
++u32	rtw_is_list_empty(_list *phead)
++{
++
++#ifdef PLATFORM_LINUX
++
++	if (list_empty(phead))
++		return _TRUE;
++	else
++		return _FALSE;
++
++#endif
++#ifdef PLATFORM_FREEBSD
++
++	if (phead->next == phead)
++		return _TRUE;
++	else
++		return _FALSE;
++
++#endif
++
++
++#ifdef PLATFORM_WINDOWS
++
++	if (IsListEmpty(phead))
++		return _TRUE;
++	else
++		return _FALSE;
++
++#endif
++
++	
++}
++
++void rtw_list_insert_head(_list *plist, _list *phead)
++{
++
++#ifdef PLATFORM_LINUX
++	list_add(plist, phead);
++#endif
++
++#ifdef PLATFORM_FREEBSD
++	__list_add(plist, phead, phead->next);
++#endif
++
++#ifdef PLATFORM_WINDOWS
++	InsertHeadList(phead, plist);
++#endif
++}
++
++void rtw_list_insert_tail(_list *plist, _list *phead)
++{
++
++#ifdef PLATFORM_LINUX	
++	
++	list_add_tail(plist, phead);
++	
++#endif
++#ifdef PLATFORM_FREEBSD
++	
++	__list_add(plist, phead->prev, phead);
++	
++#endif	
++#ifdef PLATFORM_WINDOWS
++
++  InsertTailList(phead, plist);
++
++#endif		
++	
++}
++
++
++/*
++
++Caller must check if the list is empty before calling rtw_list_delete
++
++*/
++
++
++void _rtw_init_sema(_sema	*sema, int init_val)
++{
++
++#ifdef PLATFORM_LINUX
++
++	sema_init(sema, init_val);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	sema_init(sema, init_val, "rtw_drv");
++#endif
++#ifdef PLATFORM_OS_XP
++
++	KeInitializeSemaphore(sema, init_val,  SEMA_UPBND); // count=0;
++
++#endif
++	
++#ifdef PLATFORM_OS_CE
++	if(*sema == NULL)
++		*sema = CreateSemaphore(NULL, init_val, SEMA_UPBND, NULL);
++#endif
++
++}
++
++void _rtw_free_sema(_sema	*sema)
++{
++#ifdef PLATFORM_FREEBSD
++	sema_destroy(sema);
++#endif
++#ifdef PLATFORM_OS_CE
++	CloseHandle(*sema);
++#endif
++
++}
++
++void _rtw_up_sema(_sema	*sema)
++{
++
++#ifdef PLATFORM_LINUX
++
++	up(sema);
++
++#endif	
++#ifdef PLATFORM_FREEBSD
++	sema_post(sema);
++#endif
++#ifdef PLATFORM_OS_XP
++
++	KeReleaseSemaphore(sema, IO_NETWORK_INCREMENT, 1,  FALSE );
++
++#endif
++
++#ifdef PLATFORM_OS_CE
++	ReleaseSemaphore(*sema,  1,  NULL );
++#endif
++}
++
++u32 _rtw_down_sema(_sema *sema)
++{
++
++#ifdef PLATFORM_LINUX
++	
++	if (down_interruptible(sema))
++		return _FAIL;
++	else
++		return _SUCCESS;
++
++#endif    	
++#ifdef PLATFORM_FREEBSD
++	sema_wait(sema);
++	return  _SUCCESS;
++#endif
++#ifdef PLATFORM_OS_XP
++
++	if(STATUS_SUCCESS == KeWaitForSingleObject(sema, Executive, KernelMode, TRUE, NULL))
++		return  _SUCCESS;
++	else
++		return _FAIL;
++#endif
++
++#ifdef PLATFORM_OS_CE
++	if(WAIT_OBJECT_0 == WaitForSingleObject(*sema, INFINITE ))
++		return _SUCCESS; 
++	else
++		return _FAIL;
++#endif
++}
++
++
++
++void	_rtw_mutex_init(_mutex *pmutex)
++{
++#ifdef PLATFORM_LINUX
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37))
++	mutex_init(pmutex);
++#else
++	init_MUTEX(pmutex);
++#endif
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	mtx_init(pmutex, "", NULL, MTX_DEF|MTX_RECURSE);
++#endif
++#ifdef PLATFORM_OS_XP
++
++	KeInitializeMutex(pmutex, 0);
++
++#endif
++
++#ifdef PLATFORM_OS_CE
++	*pmutex =  CreateMutex( NULL, _FALSE, NULL);
++#endif
++}
++
++void	_rtw_mutex_free(_mutex *pmutex);
++void	_rtw_mutex_free(_mutex *pmutex)
++{
++#ifdef PLATFORM_LINUX
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37))
++	mutex_destroy(pmutex);
++#else	
++#endif
++
++#ifdef PLATFORM_FREEBSD
++	sema_destroy(pmutex);
++#endif
++
++#endif
++
++#ifdef PLATFORM_OS_XP
++
++#endif
++
++#ifdef PLATFORM_OS_CE
++
++#endif
++}
++
++void	_rtw_spinlock_init(_lock *plock)
++{
++
++#ifdef PLATFORM_LINUX
++
++	spin_lock_init(plock);
++
++#endif	
++#ifdef PLATFORM_FREEBSD
++		mtx_init(plock, "", NULL, MTX_DEF|MTX_RECURSE);
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisAllocateSpinLock(plock);
++
++#endif
++	
++}
++
++void	_rtw_spinlock_free(_lock *plock)
++{
++#ifdef PLATFORM_FREEBSD
++	 mtx_destroy(plock);
++#endif
++	
++#ifdef PLATFORM_WINDOWS
++
++	NdisFreeSpinLock(plock);
++
++#endif
++	
++}
++#ifdef PLATFORM_FREEBSD
++extern PADAPTER prtw_lock;
++
++void rtw_mtx_lock(_lock *plock){
++	if(prtw_lock){
++		mtx_lock(&prtw_lock->glock);
++	}
++	else{
++		printf("%s prtw_lock==NULL",__FUNCTION__);
++	}
++}
++void rtw_mtx_unlock(_lock *plock){
++	if(prtw_lock){
++		mtx_unlock(&prtw_lock->glock);
++	}
++	else{
++		printf("%s prtw_lock==NULL",__FUNCTION__);
++	}
++	
++}
++#endif //PLATFORM_FREEBSD
++
++
++void	_rtw_spinlock(_lock	*plock)
++{
++
++#ifdef PLATFORM_LINUX
++
++	spin_lock(plock);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	mtx_lock(plock);
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisAcquireSpinLock(plock);
++
++#endif
++	
++}
++
++void	_rtw_spinunlock(_lock *plock)
++{
++
++#ifdef PLATFORM_LINUX
++
++	spin_unlock(plock);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	mtx_unlock(plock);
++#endif	
++#ifdef PLATFORM_WINDOWS
++
++	NdisReleaseSpinLock(plock);
++
++#endif
++}
++
++
++void	_rtw_spinlock_ex(_lock	*plock)
++{
++
++#ifdef PLATFORM_LINUX
++
++	spin_lock(plock);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	mtx_lock(plock);
++#endif	
++#ifdef PLATFORM_WINDOWS
++
++	NdisDprAcquireSpinLock(plock);
++
++#endif
++	
++}
++
++void	_rtw_spinunlock_ex(_lock *plock)
++{
++
++#ifdef PLATFORM_LINUX
++
++	spin_unlock(plock);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	mtx_unlock(plock);
++#endif	
++#ifdef PLATFORM_WINDOWS
++
++	NdisDprReleaseSpinLock(plock);
++
++#endif
++}
++
++
++
++void	_rtw_init_queue(_queue	*pqueue)
++{
++
++	_rtw_init_listhead(&(pqueue->queue));
++
++	_rtw_spinlock_init(&(pqueue->lock));
++
++}
++
++u32	  _rtw_queue_empty(_queue	*pqueue)
++{
++	return (rtw_is_list_empty(&(pqueue->queue)));
++}
++
++
++u32 rtw_end_of_queue_search(_list *head, _list *plist)
++{
++	if (head == plist)
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++
++u32	rtw_get_current_time(void)
++{
++	
++#ifdef PLATFORM_LINUX
++	return jiffies;
++#endif	
++#ifdef PLATFORM_FREEBSD
++	struct timeval tvp;
++	getmicrotime(&tvp);
++	return tvp.tv_sec;
++#endif
++#ifdef PLATFORM_WINDOWS
++	LARGE_INTEGER	SystemTime;
++	NdisGetCurrentSystemTime(&SystemTime);
++	return (u32)(SystemTime.LowPart);// count of 100-nanosecond intervals 
++#endif
++}
++
++inline u32 rtw_systime_to_ms(u32 systime)
++{
++#ifdef PLATFORM_LINUX
++	return systime * 1000 / HZ;
++#endif	
++#ifdef PLATFORM_FREEBSD
++	return systime * 1000;
++#endif	
++#ifdef PLATFORM_WINDOWS
++	return systime / 10000 ; 
++#endif
++}
++
++inline u32 rtw_ms_to_systime(u32 ms)
++{
++#ifdef PLATFORM_LINUX
++	return ms * HZ / 1000;
++#endif	
++#ifdef PLATFORM_FREEBSD
++	return ms /1000;
++#endif	
++#ifdef PLATFORM_WINDOWS
++	return ms * 10000 ; 
++#endif
++}
++
++// the input parameter start use the same unit as returned by rtw_get_current_time
++inline s32 rtw_get_passing_time_ms(u32 start)
++{
++#ifdef PLATFORM_LINUX
++	return rtw_systime_to_ms(jiffies-start);
++#endif
++#ifdef PLATFORM_FREEBSD
++	return rtw_systime_to_ms(rtw_get_current_time());
++#endif	
++#ifdef PLATFORM_WINDOWS
++	LARGE_INTEGER	SystemTime;
++	NdisGetCurrentSystemTime(&SystemTime);
++	return rtw_systime_to_ms((u32)(SystemTime.LowPart) - start) ;
++#endif
++}
++
++inline s32 rtw_get_time_interval_ms(u32 start, u32 end)
++{
++#ifdef PLATFORM_LINUX
++	return rtw_systime_to_ms(end-start);
++#endif
++#ifdef PLATFORM_FREEBSD
++	return rtw_systime_to_ms(rtw_get_current_time());
++#endif	
++#ifdef PLATFORM_WINDOWS
++	return rtw_systime_to_ms(end-start);
++#endif
++}
++	
++
++void rtw_sleep_schedulable(int ms)	
++{
++
++#ifdef PLATFORM_LINUX
++
++    u32 delta;
++    
++    delta = (ms * HZ)/1000;//(ms)
++    if (delta == 0) {
++        delta = 1;// 1 ms
++    }
++    set_current_state(TASK_INTERRUPTIBLE);
++    if (schedule_timeout(delta) != 0) {
++        return ;
++    }
++    return;
++
++#endif	
++#ifdef PLATFORM_FREEBSD
++	DELAY(ms*1000);
++	return ;
++#endif	
++	
++#ifdef PLATFORM_WINDOWS
++
++	NdisMSleep(ms*1000); //(us)*1000=(ms)
++
++#endif
++
++}
++
++
++void rtw_msleep_os(int ms)
++{
++
++#ifdef PLATFORM_LINUX
++
++  	msleep((unsigned int)ms);
++
++#endif	
++#ifdef PLATFORM_FREEBSD
++       //Delay for delay microseconds 
++	DELAY(ms*1000);
++	return ;
++#endif	
++#ifdef PLATFORM_WINDOWS
++
++	NdisMSleep(ms*1000); //(us)*1000=(ms)
++
++#endif
++
++
++}
++void rtw_usleep_os(int us)
++{
++
++#ifdef PLATFORM_LINUX
++  	
++      // msleep((unsigned int)us);
++      if ( 1 < (us/1000) )
++                msleep(1);
++      else
++		msleep( (us/1000) + 1);
++
++#endif	
++#ifdef PLATFORM_FREEBSD
++	//Delay for delay microseconds 
++	DELAY(us);
++
++	return ;
++#endif	
++#ifdef PLATFORM_WINDOWS
++
++	NdisMSleep(us); //(us)
++
++#endif
++
++
++}
++
++
++#ifdef DBG_DELAY_OS
++void _rtw_mdelay_os(int ms, const char *func, const int line)
++{
++	#if 0
++	if(ms>10)
++		DBG_871X("%s:%d %s(%d)\n", func, line, __FUNCTION__, ms);
++		rtw_msleep_os(ms);
++	return;
++	#endif
++
++
++	DBG_871X("%s:%d %s(%d)\n", func, line, __FUNCTION__, ms);
++
++#if defined(PLATFORM_LINUX)
++
++   	mdelay((unsigned long)ms); 
++
++#elif defined(PLATFORM_WINDOWS)
++
++	NdisStallExecution(ms*1000); //(us)*1000=(ms)
++
++#endif
++
++
++}
++void _rtw_udelay_os(int us, const char *func, const int line)
++{
++
++	#if 0
++	if(us > 1000) {
++	DBG_871X("%s:%d %s(%d)\n", func, line, __FUNCTION__, us);
++		rtw_usleep_os(us);
++		return;
++	}
++	#endif 
++
++
++	DBG_871X("%s:%d %s(%d)\n", func, line, __FUNCTION__, us);
++	
++	
++#if defined(PLATFORM_LINUX)
++
++      udelay((unsigned long)us); 
++
++#elif defined(PLATFORM_WINDOWS)
++
++	NdisStallExecution(us); //(us)
++
++#endif
++
++}
++#else
++void rtw_mdelay_os(int ms)
++{
++
++#ifdef PLATFORM_LINUX
++
++   	mdelay((unsigned long)ms); 
++
++#endif	
++#ifdef PLATFORM_FREEBSD
++	DELAY(ms*1000);
++	return ;
++#endif	
++#ifdef PLATFORM_WINDOWS
++
++	NdisStallExecution(ms*1000); //(us)*1000=(ms)
++
++#endif
++
++
++}
++void rtw_udelay_os(int us)
++{
++
++#ifdef PLATFORM_LINUX
++
++      udelay((unsigned long)us); 
++
++#endif	
++#ifdef PLATFORM_FREEBSD
++	//Delay for delay microseconds 
++	DELAY(us);
++	return ;
++#endif		
++#ifdef PLATFORM_WINDOWS
++
++	NdisStallExecution(us); //(us)
++
++#endif
++
++}
++#endif
++
++void rtw_yield_os()
++{
++#ifdef PLATFORM_LINUX
++	yield();
++#endif
++#ifdef PLATFORM_FREEBSD
++	yield();
++#endif
++#ifdef PLATFORM_WINDOWS
++	SwitchToThread();
++#endif
++}
++
++#define RTW_SUSPEND_LOCK_NAME "rtw_wifi"
++
++#ifdef CONFIG_WAKELOCK
++static struct wake_lock rtw_suspend_lock;
++#elif defined(CONFIG_ANDROID_POWER)
++static android_suspend_lock_t rtw_suspend_lock ={
++	.name = RTW_SUSPEND_LOCK_NAME
++};
++#endif
++
++inline void rtw_suspend_lock_init()
++{
++	#ifdef CONFIG_WAKELOCK
++	wake_lock_init(&rtw_suspend_lock, WAKE_LOCK_SUSPEND, RTW_SUSPEND_LOCK_NAME);
++	#elif defined(CONFIG_ANDROID_POWER)
++	android_init_suspend_lock(&rtw_suspend_lock);
++	#endif
++}
++
++inline void rtw_suspend_lock_uninit()
++{
++	#ifdef CONFIG_WAKELOCK
++	wake_lock_destroy(&rtw_suspend_lock);
++	#elif defined(CONFIG_ANDROID_POWER)
++	android_uninit_suspend_lock(&rtw_suspend_lock);
++	#endif
++}
++
++inline void rtw_lock_suspend()
++{
++	#ifdef CONFIG_WAKELOCK
++	wake_lock(&rtw_suspend_lock);
++	#elif defined(CONFIG_ANDROID_POWER)
++	android_lock_suspend(&rtw_suspend_lock);
++	#endif
++}
++
++inline void rtw_unlock_suspend()
++{
++	#ifdef CONFIG_WAKELOCK
++	wake_unlock(&rtw_suspend_lock);
++	#elif defined(CONFIG_ANDROID_POWER)
++	android_unlock_suspend(&rtw_suspend_lock);
++	#endif
++}
++
++inline void rtw_lock_suspend_timeout(u32 timeout_ms)
++{
++	#ifdef CONFIG_WAKELOCK
++	wake_lock_timeout(&rtw_suspend_lock, rtw_ms_to_systime(timeout_ms));
++	#elif defined(CONFIG_ANDROID_POWER)
++	android_lock_suspend_auto_expire(&rtw_suspend_lock, rtw_ms_to_systime(timeout_ms));
++	#endif
++}
++
++inline void ATOMIC_SET(ATOMIC_T *v, int i)
++{
++	#ifdef PLATFORM_LINUX
++	atomic_set(v,i);
++	#elif defined(PLATFORM_WINDOWS)
++	*v=i;// other choice????
++	#elif defined(PLATFORM_FREEBSD)
++	atomic_set_int(v,i);
++	#endif
++}
++
++inline int ATOMIC_READ(ATOMIC_T *v)
++{
++	#ifdef PLATFORM_LINUX
++	return atomic_read(v);
++	#elif defined(PLATFORM_WINDOWS)
++	return *v; // other choice????
++	#elif defined(PLATFORM_FREEBSD)
++	return atomic_load_acq_32(v);
++	#endif
++}
++
++inline void ATOMIC_ADD(ATOMIC_T *v, int i)
++{
++	#ifdef PLATFORM_LINUX
++	atomic_add(i,v);
++	#elif defined(PLATFORM_WINDOWS)
++	InterlockedAdd(v,i);
++	#elif defined(PLATFORM_FREEBSD)
++	atomic_add_int(v,i);
++	#endif
++}
++inline void ATOMIC_SUB(ATOMIC_T *v, int i)
++{
++	#ifdef PLATFORM_LINUX
++	atomic_sub(i,v);
++	#elif defined(PLATFORM_WINDOWS)
++	InterlockedAdd(v,-i);
++	#elif defined(PLATFORM_FREEBSD)
++	atomic_subtract_int(v,i);
++	#endif
++}
++
++inline void ATOMIC_INC(ATOMIC_T *v)
++{
++	#ifdef PLATFORM_LINUX
++	atomic_inc(v);
++	#elif defined(PLATFORM_WINDOWS)
++	InterlockedIncrement(v);
++	#elif defined(PLATFORM_FREEBSD)
++	atomic_add_int(v,1);
++	#endif
++}
++
++inline void ATOMIC_DEC(ATOMIC_T *v)
++{
++	#ifdef PLATFORM_LINUX
++	atomic_dec(v);
++	#elif defined(PLATFORM_WINDOWS)
++	InterlockedDecrement(v);
++	#elif defined(PLATFORM_FREEBSD)
++	atomic_subtract_int(v,1);
++	#endif
++}
++
++inline int ATOMIC_ADD_RETURN(ATOMIC_T *v, int i)
++{
++	#ifdef PLATFORM_LINUX
++	return atomic_add_return(i,v);
++	#elif defined(PLATFORM_WINDOWS)
++	return InterlockedAdd(v,i);
++	#elif defined(PLATFORM_FREEBSD)
++	atomic_add_int(v,i);
++	return atomic_load_acq_32(v);
++	#endif
++}
++
++inline int ATOMIC_SUB_RETURN(ATOMIC_T *v, int i)
++{
++	#ifdef PLATFORM_LINUX
++	return atomic_sub_return(i,v);
++	#elif defined(PLATFORM_WINDOWS)
++	return InterlockedAdd(v,-i);
++	#elif defined(PLATFORM_FREEBSD)
++	atomic_subtract_int(v,i);
++	return atomic_load_acq_32(v);
++	#endif
++}
++
++inline int ATOMIC_INC_RETURN(ATOMIC_T *v)
++{
++	#ifdef PLATFORM_LINUX
++	return atomic_inc_return(v);
++	#elif defined(PLATFORM_WINDOWS)
++	return InterlockedIncrement(v);
++	#elif defined(PLATFORM_FREEBSD)
++	atomic_add_int(v,1);
++	return atomic_load_acq_32(v);
++	#endif
++}
++
++inline int ATOMIC_DEC_RETURN(ATOMIC_T *v)
++{
++	#ifdef PLATFORM_LINUX
++	return atomic_dec_return(v);
++	#elif defined(PLATFORM_WINDOWS)
++	return InterlockedDecrement(v);
++	#elif defined(PLATFORM_FREEBSD)
++	atomic_subtract_int(v,1);
++	return atomic_load_acq_32(v);
++	#endif
++}
++
++
++#ifdef PLATFORM_LINUX
++/*
++* Open a file with the specific @param path, @param flag, @param mode
++* @param fpp the pointer of struct file pointer to get struct file pointer while file opening is success
++* @param path the path of the file to open
++* @param flag file operation flags, please refer to linux document
++* @param mode please refer to linux document
++* @return Linux specific error code
++*/
++static int openFile(struct file **fpp, char *path, int flag, int mode) 
++{ 
++	struct file *fp; 
++ 
++	fp=filp_open(path, flag, mode); 
++	if(IS_ERR(fp)) {
++		*fpp=NULL;
++		return PTR_ERR(fp);
++	}
++	else {
++		*fpp=fp; 
++		return 0;
++	}	
++}
++
++/*
++* Close the file with the specific @param fp
++* @param fp the pointer of struct file to close
++* @return always 0
++*/
++static int closeFile(struct file *fp) 
++{ 
++	filp_close(fp,NULL);
++	return 0; 
++}
++
++static int readFile(struct file *fp,char *buf,int len) 
++{ 
++	int rlen=0, sum=0;
++	
++	if (!fp->f_op || !fp->f_op->read) 
++		return -EPERM;
++
++	while(sum<len) {
++		rlen=fp->f_op->read(fp,buf+sum,len-sum, &fp->f_pos);
++		if(rlen>0)
++			sum+=rlen;
++		else if(0 != rlen)
++			return rlen;
++		else
++			break;
++	}
++	
++	return  sum;
++
++}
++
++static int writeFile(struct file *fp,char *buf,int len) 
++{ 
++	int wlen=0, sum=0;
++	
++	if (!fp->f_op || !fp->f_op->write) 
++		return -EPERM; 
++
++	while(sum<len) {
++		wlen=fp->f_op->write(fp,buf+sum,len-sum, &fp->f_pos);
++		if(wlen>0)
++			sum+=wlen;
++		else if(0 != wlen)
++			return wlen;
++		else
++			break;
++	}
++
++	return sum;
++
++}
++
++/*
++* Test if the specifi @param path is a file and readable
++* @param path the path of the file to test
++* @return Linux specific error code
++*/
++static int isFileReadable(char *path)
++{ 
++	struct file *fp;
++	int ret = 0;
++	mm_segment_t oldfs;
++	char buf;
++ 
++	fp=filp_open(path, O_RDONLY, 0); 
++	if(IS_ERR(fp)) {
++		ret = PTR_ERR(fp);
++	}
++	else {
++		oldfs = get_fs(); set_fs(get_ds());
++		
++		if(1!=readFile(fp, &buf, 1))
++			ret = PTR_ERR(fp);
++		
++		set_fs(oldfs);
++		filp_close(fp,NULL);
++	}	
++	return ret;
++}
++
++/*
++* Open the file with @param path and retrive the file content into memory starting from @param buf for @param sz at most
++* @param path the path of the file to open and read
++* @param buf the starting address of the buffer to store file content
++* @param sz how many bytes to read at most
++* @return the byte we've read, or Linux specific error code
++*/
++static int retriveFromFile(char *path, u8* buf, u32 sz)
++{
++	int ret =-1;
++	mm_segment_t oldfs;
++	struct file *fp;
++
++	if(path && buf) {
++		if( 0 == (ret=openFile(&fp,path, O_RDONLY, 0)) ){
++			DBG_871X("%s openFile path:%s fp=%p\n",__FUNCTION__, path ,fp);
++
++			oldfs = get_fs(); set_fs(get_ds());
++			ret=readFile(fp, buf, sz);
++			set_fs(oldfs);
++			closeFile(fp);
++			
++			DBG_871X("%s readFile, ret:%d\n",__FUNCTION__, ret);
++			
++		} else {
++			DBG_871X("%s openFile path:%s Fail, ret:%d\n",__FUNCTION__, path, ret);
++		}
++	} else {
++		DBG_871X("%s NULL pointer\n",__FUNCTION__);
++		ret =  -EINVAL;
++	}
++	return ret;
++}
++
++/*
++* Open the file with @param path and wirte @param sz byte of data starting from @param buf into the file
++* @param path the path of the file to open and write
++* @param buf the starting address of the data to write into file
++* @param sz how many bytes to write at most
++* @return the byte we've written, or Linux specific error code
++*/
++static int storeToFile(char *path, u8* buf, u32 sz)
++{
++	int ret =0;
++	mm_segment_t oldfs;
++	struct file *fp;
++	
++	if(path && buf) {
++		if( 0 == (ret=openFile(&fp, path, O_CREAT|O_WRONLY, 0666)) ) {
++			DBG_871X("%s openFile path:%s fp=%p\n",__FUNCTION__, path ,fp);
++
++			oldfs = get_fs(); set_fs(get_ds());
++			ret=writeFile(fp, buf, sz);
++			set_fs(oldfs);
++			closeFile(fp);
++
++			DBG_871X("%s writeFile, ret:%d\n",__FUNCTION__, ret);
++			
++		} else {
++			DBG_871X("%s openFile path:%s Fail, ret:%d\n",__FUNCTION__, path, ret);
++		}	
++	} else {
++		DBG_871X("%s NULL pointer\n",__FUNCTION__);
++		ret =  -EINVAL;
++	}
++	return ret;
++}
++#endif //PLATFORM_LINUX
++
++/*
++* Test if the specifi @param path is a file and readable
++* @param path the path of the file to test
++* @return _TRUE or _FALSE
++*/
++int rtw_is_file_readable(char *path)
++{
++#ifdef PLATFORM_LINUX
++	if(isFileReadable(path) == 0)
++		return _TRUE;
++	else
++		return _FALSE;
++#else
++	//Todo...
++	return _FALSE;
++#endif
++}
++
++/*
++* Open the file with @param path and retrive the file content into memory starting from @param buf for @param sz at most
++* @param path the path of the file to open and read
++* @param buf the starting address of the buffer to store file content
++* @param sz how many bytes to read at most
++* @return the byte we've read
++*/
++int rtw_retrive_from_file(char *path, u8* buf, u32 sz)
++{
++#ifdef PLATFORM_LINUX
++	int ret =retriveFromFile(path, buf, sz);
++	return ret>=0?ret:0;
++#else
++	//Todo...
++	return 0;
++#endif
++}
++
++/*
++* Open the file with @param path and wirte @param sz byte of data starting from @param buf into the file
++* @param path the path of the file to open and write
++* @param buf the starting address of the data to write into file
++* @param sz how many bytes to write at most
++* @return the byte we've written
++*/
++int rtw_store_to_file(char *path, u8* buf, u32 sz)
++{
++#ifdef PLATFORM_LINUX
++	int ret =storeToFile(path, buf, sz);
++	return ret>=0?ret:0;
++#else
++	//Todo...
++	return 0;
++#endif
++}
++
++#if 1 //#ifdef MEM_ALLOC_REFINE_ADAPTOR
++#ifdef PLATFORM_LINUX
++struct net_device *rtw_alloc_etherdev_with_old_priv(int sizeof_priv, void *old_priv)
++{
++	struct net_device *pnetdev;
++	struct rtw_netdev_priv_indicator *pnpi;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,35))
++	pnetdev = alloc_etherdev_mq(sizeof(struct rtw_netdev_priv_indicator), 4);
++#else
++	pnetdev = alloc_etherdev(sizeof(struct rtw_netdev_priv_indicator));
++#endif
++	if (!pnetdev)
++		goto RETURN;
++	
++	pnpi = netdev_priv(pnetdev);
++	pnpi->priv=old_priv;
++	pnpi->sizeof_priv=sizeof_priv;
++
++RETURN:
++	return pnetdev;
++}
++
++struct net_device *rtw_alloc_etherdev(int sizeof_priv)
++{
++	struct net_device *pnetdev;
++	struct rtw_netdev_priv_indicator *pnpi;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,35))
++	pnetdev = alloc_etherdev_mq(sizeof(struct rtw_netdev_priv_indicator), 4);
++#else
++	pnetdev = alloc_etherdev(sizeof(struct rtw_netdev_priv_indicator));
++#endif
++	if (!pnetdev)
++		goto RETURN;
++	
++	pnpi = netdev_priv(pnetdev);
++	
++	pnpi->priv = rtw_zvmalloc(sizeof_priv);
++	if (!pnpi->priv) {
++		free_netdev(pnetdev);
++		pnetdev = NULL;
++		goto RETURN;
++	}
++	
++	pnpi->sizeof_priv=sizeof_priv;
++RETURN:
++	return pnetdev;
++}
++
++void rtw_free_netdev(struct net_device * netdev)
++{
++	struct rtw_netdev_priv_indicator *pnpi;
++	
++	if(!netdev)
++		goto RETURN;
++	
++	pnpi = netdev_priv(netdev);
++
++	if(!pnpi->priv)
++		goto RETURN;
++
++	rtw_vmfree(pnpi->priv, pnpi->sizeof_priv);
++	free_netdev(netdev);
++
++RETURN:
++	return;
++}
++
++/*
++* Jeff: this function should be called under ioctl (rtnl_lock is accquired) while 
++* LINUX_VERSION_CODE < KERNEL_VERSION(2,6,26)
++*/
++int rtw_change_ifname(_adapter *padapter, const char *ifname)
++{
++	struct net_device *pnetdev;
++	struct net_device *cur_pnetdev = padapter->pnetdev;
++	struct rereg_nd_name_data *rereg_priv;
++	int ret;
++
++	if(!padapter)
++		goto error;
++
++	rereg_priv = &padapter->rereg_nd_name_priv;
++	
++	//free the old_pnetdev
++	if(rereg_priv->old_pnetdev) {
++		free_netdev(rereg_priv->old_pnetdev);
++		rereg_priv->old_pnetdev = NULL;
++	}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,26))
++	if(!rtnl_is_locked())
++		unregister_netdev(cur_pnetdev);
++	else
++#endif
++		unregister_netdevice(cur_pnetdev);
++
++	rtw_proc_remove_one(cur_pnetdev);
++
++	rereg_priv->old_pnetdev=cur_pnetdev;
++
++	pnetdev = rtw_init_netdev(padapter);
++	if (!pnetdev)  {
++		ret = -1;
++		goto error;
++	}
++
++	SET_NETDEV_DEV(pnetdev, dvobj_to_dev(adapter_to_dvobj(padapter)));
++
++	rtw_init_netdev_name(pnetdev, ifname);
++
++	_rtw_memcpy(pnetdev->dev_addr, padapter->eeprompriv.mac_addr, ETH_ALEN);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,26))
++	if(!rtnl_is_locked())
++		ret = register_netdev(pnetdev);
++	else
++#endif
++		ret = register_netdevice(pnetdev);
++
++	if ( ret != 0) {
++		RT_TRACE(_module_hci_intfs_c_,_drv_err_,("register_netdev() failed\n"));
++		goto error;
++	}
++
++	rtw_proc_init_one(pnetdev);
++
++	return 0;
++
++error:
++	
++	return -1;
++	
++}
++#endif
++#endif //MEM_ALLOC_REFINE_ADAPTOR
++
++#ifdef PLATFORM_FREEBSD
++/*
++ * Copy a buffer from userspace and write into kernel address 
++ * space.
++ *
++ * This emulation just calls the FreeBSD copyin function (to 
++ * copy data from user space buffer into a kernel space buffer)
++ * and is designed to be used with the above io_write_wrapper.
++ *
++ * This function should return the number of bytes not copied.
++ * I.e. success results in a zero value. 
++ * Negative error values are not returned.
++ */
++unsigned long
++copy_from_user(void *to, const void *from, unsigned long n)
++{      
++        if ( copyin(from, to, n) != 0 ) {
++                /* Any errors will be treated as a failure
++                   to copy any of the requested bytes */
++                return n;
++        }
++
++        return 0;
++}
++
++unsigned long
++copy_to_user(void *to, const void *from, unsigned long n)
++{
++	if ( copyout(from, to, n) != 0 ) {
++		/* Any errors will be treated as a failure
++		   to copy any of the requested bytes */
++		return n;
++	}
++
++	return 0;
++}
++
++
++/*
++ * The usb_register and usb_deregister functions are used to register
++ * usb drivers with the usb subsystem. In this compatibility layer
++ * emulation a list of drivers (struct usb_driver) is maintained
++ * and is used for probing/attaching etc.
++ *
++ * usb_register and usb_deregister simply call these functions.
++ */
++int 
++usb_register(struct usb_driver *driver)
++{
++        rtw_usb_linux_register(driver);
++        return 0;
++}
++
++
++int 
++usb_deregister(struct usb_driver *driver)
++{
++        rtw_usb_linux_deregister(driver);
++        return 0;
++}
++
++void module_init_exit_wrapper(void *arg)
++{
++        int (*func)(void) = arg;
++        func();
++        return;
++}
++
++#endif //PLATFORM_FREEBSD
++u64 rtw_modular64(u64 x, u64 y)
++{
++#ifdef PLATFORM_LINUX
++	return do_div(x, y);
++#elif defined(PLATFORM_WINDOWS)
++	return (x % y);
++#elif defined(PLATFORM_FREEBSD)
++	return (x %y);
++#endif
++}
++
++u64 rtw_division64(u64 x, u64 y)
++{
++#ifdef PLATFORM_LINUX
++	do_div(x, y);
++	return x;
++#elif defined(PLATFORM_WINDOWS)
++	return (x / y);
++#elif defined(PLATFORM_FREEBSD)
++	return (x / y);
++#endif
++}
++
++void rtw_buf_free(u8 **buf, u32 *buf_len)
++{
++	u32 ori_len;
++
++	if (!buf || !buf_len)
++		return;
++
++	ori_len = *buf_len;
++
++	if (*buf) {
++		u32 tmp_buf_len = *buf_len;
++		*buf_len = 0;
++		rtw_mfree(*buf, tmp_buf_len);
++		*buf = NULL;
++	}
++}
++
++void rtw_buf_update(u8 **buf, u32 *buf_len, u8 *src, u32 src_len)
++{
++	u32 ori_len = 0, dup_len = 0;
++	u8 *ori = NULL;
++	u8 *dup = NULL;
++
++	if (!buf || !buf_len)
++		return;
++
++	if (!src || !src_len)
++		goto keep_ori;
++
++	/* duplicate src */
++	dup = rtw_malloc(src_len);
++	if (dup) {
++		dup_len = src_len;
++		_rtw_memcpy(dup, src, dup_len);
++	}
++
++keep_ori:
++	ori = *buf;
++	ori_len = *buf_len;
++
++	/* replace buf with dup */
++	*buf_len = 0;
++	*buf = dup;
++	*buf_len = dup_len;
++
++	/* free ori */
++	if (ori && ori_len > 0)
++		rtw_mfree(ori, ori_len);
++}
++
++
++/**
++ * rtw_cbuf_full - test if cbuf is full
++ * @cbuf: pointer of struct rtw_cbuf
++ *
++ * Returns: _TRUE if cbuf is full
++ */
++inline bool rtw_cbuf_full(struct rtw_cbuf *cbuf)
++{
++	return (cbuf->write == cbuf->read-1)? _TRUE : _FALSE;
++}
++
++/**
++ * rtw_cbuf_empty - test if cbuf is empty
++ * @cbuf: pointer of struct rtw_cbuf
++ *
++ * Returns: _TRUE if cbuf is empty
++ */
++inline bool rtw_cbuf_empty(struct rtw_cbuf *cbuf)
++{
++	return (cbuf->write == cbuf->read)? _TRUE : _FALSE;
++}
++
++/**
++ * rtw_cbuf_push - push a pointer into cbuf
++ * @cbuf: pointer of struct rtw_cbuf
++ * @buf: pointer to push in
++ *
++ * Lock free operation, be careful of the use scheme
++ * Returns: _TRUE push success
++ */
++bool rtw_cbuf_push(struct rtw_cbuf *cbuf, void *buf)
++{
++	if (rtw_cbuf_full(cbuf))
++		return _FAIL;
++
++	if (0)
++		DBG_871X("%s on %u\n", __func__, cbuf->write);
++	cbuf->bufs[cbuf->write] = buf;
++	cbuf->write = (cbuf->write+1)%cbuf->size;
++
++	return _SUCCESS;
++}
++
++/**
++ * rtw_cbuf_pop - pop a pointer from cbuf
++ * @cbuf: pointer of struct rtw_cbuf
++ *
++ * Lock free operation, be careful of the use scheme
++ * Returns: pointer popped out
++ */
++void *rtw_cbuf_pop(struct rtw_cbuf *cbuf)
++{
++	void *buf;
++	if (rtw_cbuf_empty(cbuf))
++		return NULL;
++
++	if (0)
++		DBG_871X("%s on %u\n", __func__, cbuf->read);
++	buf = cbuf->bufs[cbuf->read];
++	cbuf->read = (cbuf->read+1)%cbuf->size;
++
++	return buf;
++}
++
++/**
++ * rtw_cbuf_alloc - allocte a rtw_cbuf with given size and do initialization
++ * @size: size of pointer
++ *
++ * Returns: pointer of srtuct rtw_cbuf, NULL for allocation failure
++ */
++struct rtw_cbuf *rtw_cbuf_alloc(u32 size)
++{
++	struct rtw_cbuf *cbuf;
++
++	cbuf = (struct rtw_cbuf *)rtw_malloc(sizeof(*cbuf) + sizeof(void*)*size);
++
++	if (cbuf) {
++		cbuf->write = cbuf->read = 0;
++		cbuf->size = size;
++	}
++
++	return cbuf;
++}
++
++/**
++ * rtw_cbuf_free - free the given rtw_cbuf
++ * @cbuf: pointer of struct rtw_cbuf to free
++ */
++void rtw_cbuf_free(struct rtw_cbuf *cbuf)
++{
++	rtw_mfree((u8*)cbuf, sizeof(*cbuf) + sizeof(void*)*cbuf->size);
++}
++
+diff --git a/drivers/net/wireless/rtl8192cu/runwpa b/drivers/net/wireless/rtl8192cu/runwpa
+new file mode 100755
+index 0000000..f825e8b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8192cu/runwpa
+@@ -0,0 +1,20 @@
++#!/bin/bash
++
++if [ "`which iwconfig`" = "" ] ; then 
++	echo "WARNING:Wireless tool not exist!"
++	echo "        Please install it!"
++	exit
++else
++	if [ `uname -r | cut -d. -f2` -eq 4 ]; then
++		wpa_supplicant -D ipw -c wpa1.conf -i wlan0	
++	else
++	if [ `iwconfig -v |awk '{print $4}' | head -n 1` -lt  18 ] ; then
++		wpa_supplicant -D ipw -c wpa1.conf -i wlan0  
++	else	  
++		wpa_supplicant -D wext -c wpa1.conf -i wlan0 
++	fi
++
++	fi
++fi
++
++
+diff --git a/drivers/net/wireless/rtl8723du/Kconfig b/drivers/net/wireless/rtl8723du/Kconfig
+new file mode 100644
+index 0000000..a4257c9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/Kconfig
+@@ -0,0 +1,4 @@
++config RTL8723DU
++	tristate "Realtek 8723D USB WiFi"
++	---help---
++	  Help message of RTL8723DU
+diff --git a/drivers/net/wireless/rtl8723du/Makefile b/drivers/net/wireless/rtl8723du/Makefile
+new file mode 100755
+index 0000000..8a00eaf
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/Makefile
+@@ -0,0 +1,1896 @@
++EXTRA_CFLAGS += $(USER_EXTRA_CFLAGS)
++EXTRA_CFLAGS += -O1
++#EXTRA_CFLAGS += -O3
++#EXTRA_CFLAGS += -Wall
++#EXTRA_CFLAGS += -Wextra
++#EXTRA_CFLAGS += -Werror
++#EXTRA_CFLAGS += -pedantic
++#EXTRA_CFLAGS += -Wshadow -Wpointer-arith -Wcast-qual -Wstrict-prototypes -Wmissing-prototypes
++
++EXTRA_CFLAGS += -Wno-unused-variable
++EXTRA_CFLAGS += -Wno-unused-value
++EXTRA_CFLAGS += -Wno-unused-label
++EXTRA_CFLAGS += -Wno-unused-parameter
++EXTRA_CFLAGS += -Wno-unused-function
++EXTRA_CFLAGS += -Wno-unused
++#EXTRA_CFLAGS += -Wno-uninitialized
++EXTRA_CFLAGS += -Wno-error=date-time	# Fix compile error on gcc 4.9 and later
++
++EXTRA_CFLAGS += -I$(src)/include
++EXTRA_CFLAGS += -I$(src)/hal/phydm
++
++EXTRA_LDFLAGS += --strip-debug
++
++CONFIG_AUTOCFG_CP = n
++
++########################## WIFI IC ############################
++CONFIG_MULTIDRV = n
++CONFIG_RTL8188E = n
++CONFIG_RTL8812A = n
++CONFIG_RTL8821A = n
++CONFIG_RTL8192E = n
++CONFIG_RTL8723B = n
++CONFIG_RTL8814A = n
++CONFIG_RTL8723C = n
++CONFIG_RTL8188F = n
++CONFIG_RTL8822B = n
++CONFIG_RTL8723D = y
++CONFIG_RTL8821C = n
++######################### Interface ###########################
++CONFIG_USB_HCI = y
++CONFIG_PCI_HCI = n
++CONFIG_SDIO_HCI = n
++CONFIG_GSPI_HCI = n
++########################## Features ###########################
++CONFIG_MP_INCLUDED = y
++CONFIG_POWER_SAVING = y
++CONFIG_USB_AUTOSUSPEND = n
++CONFIG_HW_PWRP_DETECTION = n
++CONFIG_WIFI_TEST = n
++CONFIG_BT_COEXIST = y
++CONFIG_INTEL_WIDI = n
++CONFIG_WAPI_SUPPORT = n
++CONFIG_EFUSE_CONFIG_FILE = y
++CONFIG_EXT_CLK = n
++CONFIG_TRAFFIC_PROTECT = y
++CONFIG_LOAD_PHY_PARA_FROM_FILE = y
++CONFIG_CALIBRATE_TX_POWER_BY_REGULATORY = n
++CONFIG_CALIBRATE_TX_POWER_TO_MAX = y
++CONFIG_RTW_ADAPTIVITY_EN = disable
++CONFIG_RTW_ADAPTIVITY_MODE = normal
++CONFIG_SIGNAL_SCALE_MAPPING = n
++CONFIG_80211W = n
++CONFIG_REDUCE_TX_CPU_LOADING = n
++CONFIG_BR_EXT = y
++CONFIG_TDLS = n
++CONFIG_WIFI_MONITOR = n
++CONFIG_MCC_MODE = n
++CONFIG_APPEND_VENDOR_IE_ENABLE = n
++CONFIG_RTW_NAPI = n
++CONFIG_RTW_GRO = n
++########################## Debug ###########################
++CONFIG_RTW_DEBUG = y
++# default log level is _DRV_INFO_ = 4,
++# please refer to "How_to_set_driver_debug_log_level.doc" to set the available level.
++CONFIG_RTW_LOG_LEVEL = 0
++######################## Wake On Lan ##########################
++CONFIG_WOWLAN = n
++CONFIG_GPIO_WAKEUP = n
++CONFIG_DEFAULT_PATTERNS_EN = n
++CONFIG_WAKEUP_GPIO_IDX = default
++CONFIG_HIGH_ACTIVE = n
++CONFIG_PNO_SUPPORT = n
++CONFIG_PNO_SET_DEBUG = n
++CONFIG_AP_WOWLAN = n
++######### Notify SDIO Host Keep Power During Syspend ##########
++CONFIG_RTW_SDIO_PM_KEEP_POWER = y
++###################### MP HW TX MODE FOR VHT #######################
++CONFIG_MP_VHT_HW_TX_MODE = n
++###################### Platform Related #######################
++CONFIG_PLATFORM_I386_PC = y
++CONFIG_PLATFORM_ARM_NV_TK1 = n
++CONFIG_PLATFORM_ANDROID_X86 = n
++CONFIG_PLATFORM_ANDROID_INTEL_X86 = n
++CONFIG_PLATFORM_JB_X86 = n
++CONFIG_PLATFORM_ARM_S3C2K4 = n
++CONFIG_PLATFORM_ARM_PXA2XX = n
++CONFIG_PLATFORM_ARM_S3C6K4 = n
++CONFIG_PLATFORM_MIPS_RMI = n
++CONFIG_PLATFORM_RTD2880B = n
++CONFIG_PLATFORM_MIPS_AR9132 = n
++CONFIG_PLATFORM_RTK_DMP = n
++CONFIG_PLATFORM_MIPS_PLM = n
++CONFIG_PLATFORM_MSTAR389 = n
++CONFIG_PLATFORM_MT53XX = n
++CONFIG_PLATFORM_ARM_MX51_241H = n
++CONFIG_PLATFORM_FS_MX61 = n
++CONFIG_PLATFORM_ACTIONS_ATJ227X = n
++CONFIG_PLATFORM_TEGRA3_CARDHU = n
++CONFIG_PLATFORM_TEGRA4_DALMORE = n
++CONFIG_PLATFORM_ARM_TCC8900 = n
++CONFIG_PLATFORM_ARM_TCC8920 = n
++CONFIG_PLATFORM_ARM_TCC8920_JB42 = n
++CONFIG_PLATFORM_ARM_TCC8930_JB42 = n
++CONFIG_PLATFORM_ARM_RK2818 = n
++CONFIG_PLATFORM_ARM_RK3066 = n
++CONFIG_PLATFORM_ARM_RK3188 = n
++CONFIG_PLATFORM_ARM_URBETTER = n
++CONFIG_PLATFORM_ARM_TI_PANDA = n
++CONFIG_PLATFORM_MIPS_JZ4760 = n
++CONFIG_PLATFORM_DMP_PHILIPS = n
++CONFIG_PLATFORM_MSTAR_TITANIA12 = n
++CONFIG_PLATFORM_MSTAR = n
++CONFIG_PLATFORM_SZEBOOK = n
++CONFIG_PLATFORM_ARM_SUNxI = n
++CONFIG_PLATFORM_ARM_SUN6I = n
++CONFIG_PLATFORM_ARM_SUN7I = n
++CONFIG_PLATFORM_ARM_SUN8I_W3P1 = n
++CONFIG_PLATFORM_ARM_SUN8I_W5P1 = n
++CONFIG_PLATFORM_ACTIONS_ATM702X = n
++CONFIG_PLATFORM_ACTIONS_ATV5201 = n
++CONFIG_PLATFORM_ACTIONS_ATM705X = n
++CONFIG_PLATFORM_ARM_SUN50IW1P1 = n
++CONFIG_PLATFORM_ARM_RTD299X = n
++CONFIG_PLATFORM_ARM_SPREADTRUM_6820 = n
++CONFIG_PLATFORM_ARM_SPREADTRUM_8810 = n
++CONFIG_PLATFORM_ARM_WMT = n
++CONFIG_PLATFORM_TI_DM365 = n
++CONFIG_PLATFORM_MOZART = n
++CONFIG_PLATFORM_RTK119X = n
++CONFIG_PLATFORM_RTK129X = n
++CONFIG_PLATFORM_NOVATEK_NT72668 = n
++CONFIG_PLATFORM_HISILICON = n
++###############################################################
++
++CONFIG_DRVEXT_MODULE = n
++
++export TopDIR ?= $(shell pwd)
++
++########### COMMON  #################################
++ifeq ($(CONFIG_GSPI_HCI), y)
++HCI_NAME = gspi
++endif
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++HCI_NAME = sdio
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++HCI_NAME = usb
++endif
++
++ifeq ($(CONFIG_PCI_HCI), y)
++HCI_NAME = pci
++endif
++
++
++_OS_INTFS_FILES :=	os_dep/osdep_service.o \
++			os_dep/linux/os_intfs.o \
++			os_dep/linux/$(HCI_NAME)_intf.o \
++			os_dep/linux/$(HCI_NAME)_ops_linux.o \
++			os_dep/linux/ioctl_linux.o \
++			os_dep/linux/xmit_linux.o \
++			os_dep/linux/mlme_linux.o \
++			os_dep/linux/recv_linux.o \
++			os_dep/linux/ioctl_cfg80211.o \
++			os_dep/linux/rtw_cfgvendor.o \
++			os_dep/linux/wifi_regd.o \
++			os_dep/linux/rtw_android.o \
++			os_dep/linux/rtw_proc.o
++
++ifeq ($(CONFIG_MP_INCLUDED), y)
++_OS_INTFS_FILES += os_dep/linux/ioctl_mp.o
++endif
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++_OS_INTFS_FILES += os_dep/linux/custom_gpio_linux.o
++_OS_INTFS_FILES += os_dep/linux/$(HCI_NAME)_ops_linux.o
++endif
++
++ifeq ($(CONFIG_GSPI_HCI), y)
++_OS_INTFS_FILES += os_dep/linux/custom_gpio_linux.o
++_OS_INTFS_FILES += os_dep/linux/$(HCI_NAME)_ops_linux.o
++endif
++
++
++_HAL_INTFS_FILES :=	hal/hal_intf.o \
++			hal/hal_com.o \
++			hal/hal_com_phycfg.o \
++			hal/hal_phy.o \
++			hal/hal_dm.o \
++			hal/hal_btcoex.o \
++			hal/hal_mp.o \
++			hal/hal_mcc.o \
++			hal/hal_hci/hal_$(HCI_NAME).o \
++			hal/led/hal_$(HCI_NAME)_led.o
++
++			
++_OUTSRC_FILES := hal/phydm/phydm_debug.o	\
++		hal/phydm/phydm_antdiv.o\
++		hal/phydm/phydm_antdect.o\
++		hal/phydm/phydm_interface.o\
++		hal/phydm/phydm_hwconfig.o\
++		hal/phydm/phydm.o\
++		hal/phydm/halphyrf_ce.o\
++		hal/phydm/phydm_edcaturbocheck.o\
++		hal/phydm/phydm_dig.o\
++		hal/phydm/phydm_pathdiv.o\
++		hal/phydm/phydm_rainfo.o\
++		hal/phydm/phydm_dynamicbbpowersaving.o\
++		hal/phydm/phydm_powertracking_ce.o\
++		hal/phydm/phydm_dynamictxpower.o\
++		hal/phydm/phydm_adaptivity.o\
++		hal/phydm/phydm_cfotracking.o\
++		hal/phydm/phydm_noisemonitor.o\
++		hal/phydm/phydm_acs.o\
++		hal/phydm/phydm_beamforming.o\
++		hal/phydm/phydm_dfs.o\
++		hal/phydm/txbf/halcomtxbf.o\
++		hal/phydm/txbf/haltxbfinterface.o\
++		hal/phydm/txbf/phydm_hal_txbf_api.o\
++		hal/phydm/phydm_kfree.o\
++		hal/phydm/phydm_ccx.o
++
++
++EXTRA_CFLAGS += -I$(src)/platform
++_PLATFORM_FILES := platform/platform_ops.o
++
++ifeq ($(CONFIG_BT_COEXIST), y)
++EXTRA_CFLAGS += -I$(src)/hal/btc
++_OUTSRC_FILES += hal/btc/HalBtc8192e1Ant.o \
++				hal/btc/HalBtc8192e2Ant.o \
++				hal/btc/HalBtc8723b1Ant.o \
++				hal/btc/HalBtc8723b2Ant.o \
++				hal/btc/HalBtc8812a1Ant.o \
++				hal/btc/HalBtc8812a2Ant.o \
++				hal/btc/HalBtc8821a1Ant.o \
++				hal/btc/HalBtc8821a2Ant.o \
++				hal/btc/HalBtc8821aCsr2Ant.o \
++				hal/btc/HalBtc8703b1Ant.o \
++				hal/btc/halbtc8723d1ant.o \
++				hal/btc/halbtc8723d2ant.o \
++				hal/btc/HalBtc8822b1Ant.o \
++				hal/btc/halbtc8821c1ant.o \
++				hal/btc/halbtc8821c2ant.o
++endif
++
++
++########### HAL_RTL8188E #################################
++ifeq ($(CONFIG_RTL8188E), y)
++
++RTL871X = rtl8188e
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME = 8189es
++endif
++
++ifeq ($(CONFIG_GSPI_HCI), y)
++MODULE_NAME = 8189es
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME = 8188eu
++endif
++
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME = 8188ee
++endif
++EXTRA_CFLAGS += -DCONFIG_RTL8188E
++
++_HAL_INTFS_FILES +=	hal/HalPwrSeqCmd.o \
++					hal/$(RTL871X)/Hal8188EPwrSeq.o\
++ 					hal/$(RTL871X)/$(RTL871X)_xmit.o\
++					hal/$(RTL871X)/$(RTL871X)_sreset.o
++
++_HAL_INTFS_FILES +=	hal/$(RTL871X)/$(RTL871X)_hal_init.o \
++			hal/$(RTL871X)/$(RTL871X)_phycfg.o \
++			hal/$(RTL871X)/$(RTL871X)_rf6052.o \
++			hal/$(RTL871X)/$(RTL871X)_dm.o \
++			hal/$(RTL871X)/$(RTL871X)_rxdesc.o \
++			hal/$(RTL871X)/$(RTL871X)_cmd.o \
++			hal/$(RTL871X)/hal8188e_s_fw.o \
++			hal/$(RTL871X)/hal8188e_t_fw.o \
++			hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_halinit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_led.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_xmit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_recv.o
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++else
++ifeq ($(CONFIG_GSPI_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++else
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops_linux.o
++endif
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8188E_USB.o
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8188E_PCIE.o
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8188E_SDIO.o
++endif
++
++#hal/OUTSRC/$(RTL871X)/Hal8188EFWImg_CE.o
++_OUTSRC_FILES += hal/phydm/$(RTL871X)/halhwimg8188e_mac.o\
++		hal/phydm/$(RTL871X)/halhwimg8188e_bb.o\
++		hal/phydm/$(RTL871X)/halhwimg8188e_rf.o\
++		hal/phydm/$(RTL871X)/halhwimg8188e_t_fw.o\
++		hal/phydm/$(RTL871X)/halhwimg8188e_s_fw.o\
++		hal/phydm/$(RTL871X)/halphyrf_8188e_ce.o\
++		hal/phydm/$(RTL871X)/phydm_regconfig8188e.o\
++		hal/phydm/$(RTL871X)/hal8188erateadaptive.o\
++		hal/phydm/$(RTL871X)/phydm_rtl8188e.o
++
++endif
++
++########### HAL_RTL8192E #################################
++ifeq ($(CONFIG_RTL8192E), y)
++
++RTL871X = rtl8192e
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME = 8192es
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME = 8192eu
++endif
++
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME = 8192ee
++endif
++EXTRA_CFLAGS += -DCONFIG_RTL8192E
++_HAL_INTFS_FILES += hal/HalPwrSeqCmd.o \
++					hal/$(RTL871X)/Hal8192EPwrSeq.o\
++					hal/$(RTL871X)/$(RTL871X)_xmit.o\
++					hal/$(RTL871X)/$(RTL871X)_sreset.o
++
++_HAL_INTFS_FILES +=	hal/$(RTL871X)/$(RTL871X)_hal_init.o \
++			hal/$(RTL871X)/$(RTL871X)_phycfg.o \
++			hal/$(RTL871X)/$(RTL871X)_rf6052.o \
++			hal/$(RTL871X)/$(RTL871X)_dm.o \
++			hal/$(RTL871X)/$(RTL871X)_rxdesc.o \
++			hal/$(RTL871X)/$(RTL871X)_cmd.o \
++			hal/$(RTL871X)/hal8192e_fw.o \
++			hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_halinit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_led.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_xmit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_recv.o
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++else
++ifeq ($(CONFIG_GSPI_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++else
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops_linux.o
++endif
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8192E_USB.o
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8192E_PCIE.o
++endif
++
++#hal/OUTSRC/$(RTL871X)/HalHWImg8188E_FW.o
++_OUTSRC_FILES += hal/phydm/$(RTL871X)/halhwimg8192e_mac.o\
++		hal/phydm/$(RTL871X)/halhwimg8192e_bb.o\
++		hal/phydm/$(RTL871X)/halhwimg8192e_rf.o\
++		hal/phydm/$(RTL871X)/halhwimg8192e_fw.o\
++		hal/phydm/$(RTL871X)/halphyrf_8192e_ce.o\
++		hal/phydm/$(RTL871X)/phydm_regconfig8192e.o\
++		hal/phydm/$(RTL871X)/phydm_rtl8192e.o
++
++endif
++
++########### HAL_RTL8812A_RTL8821A #################################
++
++ifneq ($(CONFIG_RTL8812A)_$(CONFIG_RTL8821A), n_n)
++
++RTL871X = rtl8812a
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME = 8812au
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME = 8812ae
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME = 8812as
++endif
++
++_HAL_INTFS_FILES +=  hal/HalPwrSeqCmd.o \
++					hal/$(RTL871X)/Hal8812PwrSeq.o \
++					hal/$(RTL871X)/Hal8821APwrSeq.o\
++					hal/$(RTL871X)/$(RTL871X)_xmit.o\
++					hal/$(RTL871X)/$(RTL871X)_sreset.o
++
++_HAL_INTFS_FILES +=	hal/$(RTL871X)/$(RTL871X)_hal_init.o \
++			hal/$(RTL871X)/$(RTL871X)_phycfg.o \
++			hal/$(RTL871X)/$(RTL871X)_rf6052.o \
++			hal/$(RTL871X)/$(RTL871X)_dm.o \
++			hal/$(RTL871X)/$(RTL871X)_rxdesc.o \
++			hal/$(RTL871X)/$(RTL871X)_cmd.o \
++			hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_halinit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_led.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_xmit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_recv.o
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++else
++ifeq ($(CONFIG_GSPI_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++else
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops_linux.o
++endif
++endif
++
++ifeq ($(CONFIG_RTL8812A), y)
++ifeq ($(CONFIG_USB_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8812A_USB.o
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8812A_PCIE.o
++endif
++endif
++ifeq ($(CONFIG_RTL8821A), y)
++ifeq ($(CONFIG_USB_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8821A_USB.o
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8821A_PCIE.o
++endif
++endif
++
++ifeq ($(CONFIG_RTL8812A), y)
++EXTRA_CFLAGS += -DCONFIG_RTL8812A
++_HAL_INTFS_FILES +=	hal/rtl8812a/hal8812a_fw.o
++
++_OUTSRC_FILES += hal/phydm/$(RTL871X)/halhwimg8812a_fw.o\
++		hal/phydm/$(RTL871X)/halhwimg8812a_mac.o\
++		hal/phydm/$(RTL871X)/halhwimg8812a_bb.o\
++		hal/phydm/$(RTL871X)/halhwimg8812a_rf.o\
++		hal/phydm/$(RTL871X)/halphyrf_8812a_ce.o\
++		hal/phydm/$(RTL871X)/phydm_regconfig8812a.o\
++		hal/phydm/$(RTL871X)/phydm_rtl8812a.o\
++		hal/phydm/txbf/haltxbfjaguar.o
++endif
++
++ifeq ($(CONFIG_RTL8821A), y)
++
++ifeq ($(CONFIG_RTL8812A), n)
++
++RTL871X = rtl8821a
++ifeq ($(CONFIG_USB_HCI), y)
++ifeq ($(CONFIG_BT_COEXIST), y)
++MODULE_NAME := 8821au
++else
++MODULE_NAME := 8811au
++endif
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME := 8821ae
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME := 8821as
++endif
++
++endif
++
++EXTRA_CFLAGS += -DCONFIG_RTL8821A
++
++_HAL_INTFS_FILES +=	hal/rtl8812a/hal8821a_fw.o
++_OUTSRC_FILES += hal/phydm/rtl8821a/halhwimg8821a_fw.o\
++		hal/phydm/rtl8821a/halhwimg8821a_mac.o\
++		hal/phydm/rtl8821a/halhwimg8821a_bb.o\
++		hal/phydm/rtl8821a/halhwimg8821a_rf.o\
++		hal/phydm/rtl8812a/halphyrf_8812a_ce.o\
++		hal/phydm/rtl8821a/halphyrf_8821a_ce.o\
++		hal/phydm/rtl8821a/phydm_regconfig8821a.o\
++		hal/phydm/rtl8821a/phydm_rtl8821a.o\
++		hal/phydm/rtl8821a/phydm_iqk_8821a_ce.o\
++		hal/phydm/txbf/haltxbfjaguar.o
++		
++endif
++
++endif
++
++########### HAL_RTL8723B #################################
++ifeq ($(CONFIG_RTL8723B), y)
++
++RTL871X = rtl8723b
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME = 8723bu
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME = 8723be
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME = 8723bs
++endif
++
++EXTRA_CFLAGS += -DCONFIG_RTL8723B
++
++_HAL_INTFS_FILES += hal/HalPwrSeqCmd.o \
++					hal/$(RTL871X)/Hal8723BPwrSeq.o\
++					hal/$(RTL871X)/$(RTL871X)_sreset.o
++
++_HAL_INTFS_FILES +=	hal/$(RTL871X)/$(RTL871X)_hal_init.o \
++			hal/$(RTL871X)/$(RTL871X)_phycfg.o \
++			hal/$(RTL871X)/$(RTL871X)_rf6052.o \
++			hal/$(RTL871X)/$(RTL871X)_dm.o \
++			hal/$(RTL871X)/$(RTL871X)_rxdesc.o \
++			hal/$(RTL871X)/$(RTL871X)_cmd.o \
++			hal/$(RTL871X)/hal8723b_fw.o \
++
++_HAL_INTFS_FILES +=	\
++			hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_halinit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_led.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_xmit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_recv.o
++
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops_linux.o
++else
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8723B_USB.o
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8723B_PCIE.o
++endif
++
++_OUTSRC_FILES += hal/phydm/$(RTL871X)/halhwimg8723b_bb.o\
++								hal/phydm/$(RTL871X)/halhwimg8723b_mac.o\
++								hal/phydm/$(RTL871X)/halhwimg8723b_rf.o\
++								hal/phydm/$(RTL871X)/halhwimg8723b_fw.o\
++								hal/phydm/$(RTL871X)/halhwimg8723b_mp.o\
++								hal/phydm/$(RTL871X)/phydm_regconfig8723b.o\
++								hal/phydm/$(RTL871X)/halphyrf_8723b_ce.o\
++								hal/phydm/$(RTL871X)/phydm_rtl8723b.o
++
++endif
++
++########### HAL_RTL8814A #################################
++ifeq ($(CONFIG_RTL8814A), y)
++## ADD NEW VHT MP HW TX MODE ##
++EXTRA_CFLAGS += -DCONFIG_MP_VHT_HW_TX_MODE
++CONFIG_MP_VHT_HW_TX_MODE = y
++##########################################
++RTL871X = rtl8814a
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME = 8814au
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME = 8814ae
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME = 8814as
++endif
++
++EXTRA_CFLAGS += -DCONFIG_RTL8814A
++
++_HAL_INTFS_FILES +=  hal/HalPwrSeqCmd.o \
++					hal/$(RTL871X)/Hal8814PwrSeq.o \
++					hal/$(RTL871X)/$(RTL871X)_xmit.o\
++					hal/$(RTL871X)/$(RTL871X)_sreset.o
++
++_HAL_INTFS_FILES +=	hal/$(RTL871X)/$(RTL871X)_hal_init.o \
++			hal/$(RTL871X)/$(RTL871X)_phycfg.o \
++			hal/$(RTL871X)/$(RTL871X)_rf6052.o \
++			hal/$(RTL871X)/$(RTL871X)_dm.o \
++			hal/$(RTL871X)/$(RTL871X)_rxdesc.o \
++			hal/$(RTL871X)/$(RTL871X)_cmd.o \
++			hal/$(RTL871X)/hal8814a_fw.o \
++
++
++_HAL_INTFS_FILES +=	\
++			hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_halinit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_led.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_xmit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_recv.o
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++else
++ifeq ($(CONFIG_GSPI_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++else
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops_linux.o
++endif
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8814A_USB.o
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8814A_PCIE.o
++endif
++
++_OUTSRC_FILES += hal/phydm/$(RTL871X)/halhwimg8814a_bb.o\
++								hal/phydm/$(RTL871X)/halhwimg8814a_mac.o\
++								hal/phydm/$(RTL871X)/halhwimg8814a_rf.o\
++								hal/phydm/$(RTL871X)/halhwimg8814a_fw.o\
++								hal/phydm/$(RTL871X)/phydm_iqk_8814a.o\
++								hal/phydm/$(RTL871X)/phydm_regconfig8814a.o\
++								hal/phydm/$(RTL871X)/halphyrf_8814a_ce.o\
++								hal/phydm/$(RTL871X)/phydm_rtl8814a.o\
++								hal/phydm/txbf/haltxbf8814a.o
++
++endif
++
++########### HAL_RTL8723C #################################
++ifeq ($(CONFIG_RTL8723C), y)
++
++RTL871X = rtl8703b
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME = 8723cu
++MODULE_SUB_NAME = 8703bu
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME = 8723ce
++MODULE_SUB_NAME = 8703be
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME = 8723cs
++MODULE_SUB_NAME = 8703bs
++endif
++
++EXTRA_CFLAGS += -DCONFIG_RTL8703B
++
++_HAL_INTFS_FILES += hal/HalPwrSeqCmd.o \
++					hal/$(RTL871X)/Hal8703BPwrSeq.o\
++					hal/$(RTL871X)/$(RTL871X)_sreset.o
++
++_HAL_INTFS_FILES +=	hal/$(RTL871X)/$(RTL871X)_hal_init.o \
++			hal/$(RTL871X)/$(RTL871X)_phycfg.o \
++			hal/$(RTL871X)/$(RTL871X)_rf6052.o \
++			hal/$(RTL871X)/$(RTL871X)_dm.o \
++			hal/$(RTL871X)/$(RTL871X)_rxdesc.o \
++			hal/$(RTL871X)/$(RTL871X)_cmd.o \
++			hal/$(RTL871X)/hal8703b_fw.o \
++
++_HAL_INTFS_FILES +=	\
++			hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_halinit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_SUB_NAME)_led.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_SUB_NAME)_xmit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_SUB_NAME)_recv.o
++
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops_linux.o
++else
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8703B_USB.o
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8703B_PCIE.o
++endif
++
++_OUTSRC_FILES += hal/phydm/$(RTL871X)/halhwimg8703b_bb.o\
++								hal/phydm/$(RTL871X)/halhwimg8703b_mac.o\
++								hal/phydm/$(RTL871X)/halhwimg8703b_rf.o\
++								hal/phydm/$(RTL871X)/halhwimg8703b_fw.o\
++								hal/phydm/$(RTL871X)/phydm_regconfig8703b.o\
++								hal/phydm/$(RTL871X)/halphyrf_8703b.o
++endif
++
++########### HAL_RTL8723D #################################
++ifeq ($(CONFIG_RTL8723D), y)
++
++RTL871X = rtl8723d
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME = 8723du
++MODULE_SUB_NAME = 8723du
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME = 8723de
++MODULE_SUB_NAME = 8723de
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME = 8723ds
++MODULE_SUB_NAME = 8723ds
++endif
++
++EXTRA_CFLAGS += -DCONFIG_RTL8723D
++
++_HAL_INTFS_FILES += hal/HalPwrSeqCmd.o \
++					hal/$(RTL871X)/Hal8723DPwrSeq.o\
++					hal/$(RTL871X)/$(RTL871X)_sreset.o
++
++_HAL_INTFS_FILES +=	hal/$(RTL871X)/$(RTL871X)_hal_init.o \
++			hal/$(RTL871X)/$(RTL871X)_phycfg.o \
++			hal/$(RTL871X)/$(RTL871X)_rf6052.o \
++			hal/$(RTL871X)/$(RTL871X)_dm.o \
++			hal/$(RTL871X)/$(RTL871X)_rxdesc.o \
++			hal/$(RTL871X)/$(RTL871X)_cmd.o \
++			hal/$(RTL871X)/hal8723d_fw.o \
++			hal/$(RTL871X)/$(RTL871X)_lps_poff.o
++
++
++_HAL_INTFS_FILES +=	\
++			hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_halinit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_SUB_NAME)_led.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_SUB_NAME)_xmit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_SUB_NAME)_recv.o
++
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops_linux.o
++else
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8723D_USB.o
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8723D_PCIE.o
++endif
++
++_OUTSRC_FILES += hal/phydm/$(RTL871X)/halhwimg8723d_bb.o\
++								hal/phydm/$(RTL871X)/halhwimg8723d_mac.o\
++								hal/phydm/$(RTL871X)/halhwimg8723d_rf.o\
++								hal/phydm/$(RTL871X)/halhwimg8723d_fw.o\
++								hal/phydm/$(RTL871X)/phydm_regconfig8723d.o\
++								hal/phydm/$(RTL871X)/phydm_rtl8723d.o\
++								hal/phydm/$(RTL871X)/halphyrf_8723d.o
++endif
++
++########### HAL_RTL8188F #################################
++ifeq ($(CONFIG_RTL8188F), y)
++
++RTL871X = rtl8188f
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME = 8188fu
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME = 8188fe
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME = 8189fs
++endif
++
++EXTRA_CFLAGS += -DCONFIG_RTL8188F
++
++_HAL_INTFS_FILES += hal/HalPwrSeqCmd.o \
++					hal/$(RTL871X)/Hal8188FPwrSeq.o\
++					hal/$(RTL871X)/$(RTL871X)_sreset.o
++
++_HAL_INTFS_FILES +=	hal/$(RTL871X)/$(RTL871X)_hal_init.o \
++			hal/$(RTL871X)/$(RTL871X)_phycfg.o \
++			hal/$(RTL871X)/$(RTL871X)_rf6052.o \
++			hal/$(RTL871X)/$(RTL871X)_dm.o \
++			hal/$(RTL871X)/$(RTL871X)_rxdesc.o \
++			hal/$(RTL871X)/$(RTL871X)_cmd.o \
++			hal/$(RTL871X)/hal8188f_fw.o \
++
++_HAL_INTFS_FILES +=	\
++			hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_halinit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_led.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_xmit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_recv.o
++
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops_linux.o
++else
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8188F_USB.o
++endif
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8188F_SDIO.o
++endif
++
++_OUTSRC_FILES += hal/phydm/$(RTL871X)/halhwimg8188f_bb.o\
++								hal/phydm/$(RTL871X)/halhwimg8188f_mac.o\
++								hal/phydm/$(RTL871X)/halhwimg8188f_rf.o\
++								hal/phydm/$(RTL871X)/halhwimg8188f_fw.o\
++								hal/phydm/$(RTL871X)/phydm_regconfig8188f.o\
++								hal/phydm/$(RTL871X)/halphyrf_8188f.o \
++								hal/phydm/$(RTL871X)/phydm_rtl8188f.o
++
++endif
++
++########### HAL_RTL8822B #################################
++ifeq ($(CONFIG_RTL8822B), y)
++include $(TopDIR)/rtl8822b.mk
++endif
++
++########### HAL_RTL8821C #################################
++ifeq ($(CONFIG_RTL8821C), y)
++include $(TopDIR)/rtl8821c.mk
++
++_OUTSRC_FILES +=	hal/phydm/rtl8821c/halhwimg8821c_testchip_bb.o \
++			hal/phydm/rtl8821c/halhwimg8821c_testchip_mac.o \
++			hal/phydm/rtl8821c/halhwimg8821c_testchip_rf.o \
++			hal/phydm/rtl8821c/phydm_hal_api8821c.o \
++			hal/phydm/rtl8821c/phydm_regconfig8821c.o
++endif
++
++########### AUTO_CFG  #################################
++
++ifeq ($(CONFIG_AUTOCFG_CP), y)
++
++ifeq ($(CONFIG_MULTIDRV), y)
++$(shell cp $(TopDIR)/autoconf_multidrv_$(HCI_NAME)_linux.h $(TopDIR)/include/autoconf.h)
++else
++ifeq ($(CONFIG_RTL8188E)$(CONFIG_SDIO_HCI),yy)
++$(shell cp $(TopDIR)/autoconf_rtl8189e_$(HCI_NAME)_linux.h $(TopDIR)/include/autoconf.h)
++else ifeq ($(CONFIG_RTL8188F)$(CONFIG_SDIO_HCI),yy)
++$(shell cp $(TopDIR)/autoconf_rtl8189f_$(HCI_NAME)_linux.h $(TopDIR)/include/autoconf.h)
++else ifeq ($(CONFIG_RTL8723C),y)
++$(shell cp $(TopDIR)/autoconf_rtl8723c_$(HCI_NAME)_linux.h $(TopDIR)/include/autoconf.h)
++else
++$(shell cp $(TopDIR)/autoconf_$(RTL871X)_$(HCI_NAME)_linux.h $(TopDIR)/include/autoconf.h)
++endif
++endif
++
++endif
++
++########### END OF PATH  #################################
++
++ifeq ($(CONFIG_USB_HCI), y)
++ifeq ($(CONFIG_USB_AUTOSUSPEND), y)
++EXTRA_CFLAGS += -DCONFIG_USB_AUTOSUSPEND
++endif
++endif
++
++ifeq ($(CONFIG_MP_INCLUDED), y)
++#MODULE_NAME := $(MODULE_NAME)_mp
++EXTRA_CFLAGS += -DCONFIG_MP_INCLUDED
++endif
++
++ifeq ($(CONFIG_POWER_SAVING), y)
++EXTRA_CFLAGS += -DCONFIG_POWER_SAVING
++endif
++
++ifeq ($(CONFIG_HW_PWRP_DETECTION), y)
++EXTRA_CFLAGS += -DCONFIG_HW_PWRP_DETECTION
++endif
++
++ifeq ($(CONFIG_WIFI_TEST), y)
++EXTRA_CFLAGS += -DCONFIG_WIFI_TEST
++endif
++
++ifeq ($(CONFIG_BT_COEXIST), y)
++EXTRA_CFLAGS += -DCONFIG_BT_COEXIST
++endif
++
++ifeq ($(CONFIG_INTEL_WIDI), y)
++EXTRA_CFLAGS += -DCONFIG_INTEL_WIDI
++endif
++
++ifeq ($(CONFIG_WAPI_SUPPORT), y)
++EXTRA_CFLAGS += -DCONFIG_WAPI_SUPPORT
++endif
++
++
++ifeq ($(CONFIG_EFUSE_CONFIG_FILE), y)
++EXTRA_CFLAGS += -DCONFIG_EFUSE_CONFIG_FILE
++
++#EFUSE_MAP_PATH
++USER_EFUSE_MAP_PATH ?=
++ifneq ($(USER_EFUSE_MAP_PATH),)
++EXTRA_CFLAGS += -DEFUSE_MAP_PATH=\"$(USER_EFUSE_MAP_PATH)\"
++else ifeq ($(MODULE_NAME), 8189es)
++EXTRA_CFLAGS += -DEFUSE_MAP_PATH=\"/system/etc/wifi/wifi_efuse_8189e.map\"
++else ifeq ($(MODULE_NAME), 8723bs)
++EXTRA_CFLAGS += -DEFUSE_MAP_PATH=\"/system/etc/wifi/wifi_efuse_8723bs.map\"
++else
++EXTRA_CFLAGS += -DEFUSE_MAP_PATH=\"/system/etc/wifi/wifi_efuse_$(MODULE_NAME).map\"
++endif
++
++#WIFIMAC_PATH
++USER_WIFIMAC_PATH ?=
++ifneq ($(USER_WIFIMAC_PATH),)
++EXTRA_CFLAGS += -DWIFIMAC_PATH=\"$(USER_WIFIMAC_PATH)\"
++else
++EXTRA_CFLAGS += -DWIFIMAC_PATH=\"/data/wifimac.txt\"
++endif
++
++endif
++
++ifeq ($(CONFIG_EXT_CLK), y)
++EXTRA_CFLAGS += -DCONFIG_EXT_CLK
++endif
++
++ifeq ($(CONFIG_TRAFFIC_PROTECT), y)
++EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
++endif
++
++ifeq ($(CONFIG_LOAD_PHY_PARA_FROM_FILE), y)
++EXTRA_CFLAGS += -DCONFIG_LOAD_PHY_PARA_FROM_FILE
++#EXTRA_CFLAGS += -DREALTEK_CONFIG_PATH_WITH_IC_NAME_FOLDER
++#EXTRA_CFLAGS += -DREALTEK_CONFIG_PATH=\"/lib/firmware/\"
++EXTRA_CFLAGS += -DREALTEK_CONFIG_PATH=\"\"
++endif
++
++ifeq ($(CONFIG_CALIBRATE_TX_POWER_BY_REGULATORY), y)
++EXTRA_CFLAGS += -DCONFIG_CALIBRATE_TX_POWER_BY_REGULATORY
++endif
++
++ifeq ($(CONFIG_CALIBRATE_TX_POWER_TO_MAX), y)
++EXTRA_CFLAGS += -DCONFIG_CALIBRATE_TX_POWER_TO_MAX
++endif
++
++ifeq ($(CONFIG_RTW_ADAPTIVITY_EN), disable)
++EXTRA_CFLAGS += -DCONFIG_RTW_ADAPTIVITY_EN=0
++else ifeq ($(CONFIG_RTW_ADAPTIVITY_EN), enable)
++EXTRA_CFLAGS += -DCONFIG_RTW_ADAPTIVITY_EN=1
++endif
++
++ifeq ($(CONFIG_RTW_ADAPTIVITY_MODE), normal)
++EXTRA_CFLAGS += -DCONFIG_RTW_ADAPTIVITY_MODE=0
++else ifeq ($(CONFIG_RTW_ADAPTIVITY_MODE), carrier_sense)
++EXTRA_CFLAGS += -DCONFIG_RTW_ADAPTIVITY_MODE=1
++endif
++
++ifeq ($(CONFIG_SIGNAL_SCALE_MAPPING), y)
++EXTRA_CFLAGS += -DCONFIG_SIGNAL_SCALE_MAPPING
++endif
++
++ifeq ($(CONFIG_80211W), y)
++EXTRA_CFLAGS += -DCONFIG_IEEE80211W
++endif
++
++ifeq ($(CONFIG_WOWLAN), y)
++EXTRA_CFLAGS += -DCONFIG_WOWLAN
++ifeq ($(CONFIG_SDIO_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_RTW_SDIO_PM_KEEP_POWER
++endif
++ifeq ($(CONFIG_DEFAULT_PATTERNS_EN), y)
++EXTRA_CFLAGS += -DCONFIG_DEFAULT_PATTERNS_EN
++endif
++endif
++
++ifeq ($(CONFIG_AP_WOWLAN), y)
++EXTRA_CFLAGS += -DCONFIG_AP_WOWLAN
++ifeq ($(CONFIG_SDIO_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_RTW_SDIO_PM_KEEP_POWER
++endif
++endif
++
++ifeq ($(CONFIG_PNO_SUPPORT), y)
++EXTRA_CFLAGS += -DCONFIG_PNO_SUPPORT
++ifeq ($(CONFIG_PNO_SET_DEBUG), y)
++EXTRA_CFLAGS += -DCONFIG_PNO_SET_DEBUG
++endif
++endif
++
++ifeq ($(CONFIG_GPIO_WAKEUP), y)
++EXTRA_CFLAGS += -DCONFIG_GPIO_WAKEUP
++ifeq ($(CONFIG_HIGH_ACTIVE), y)
++EXTRA_CFLAGS += -DHIGH_ACTIVE=1
++else
++EXTRA_CFLAGS += -DHIGH_ACTIVE=0
++endif
++endif
++
++ifneq ($(CONFIG_WAKEUP_GPIO_IDX), default)
++EXTRA_CFLAGS += -DWAKEUP_GPIO_IDX=$(CONFIG_WAKEUP_GPIO_IDX)
++endif
++
++ifeq ($(CONFIG_RTW_SDIO_PM_KEEP_POWER), y)
++ifeq ($(CONFIG_SDIO_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_RTW_SDIO_PM_KEEP_POWER
++endif
++endif
++
++ifeq ($(CONFIG_REDUCE_TX_CPU_LOADING), y)
++EXTRA_CFLAGS += -DCONFIG_REDUCE_TX_CPU_LOADING
++endif
++
++ifeq ($(CONFIG_BR_EXT), y)
++BR_NAME = br0
++EXTRA_CFLAGS += -DCONFIG_BR_EXT
++EXTRA_CFLAGS += '-DCONFIG_BR_EXT_BRNAME="'$(BR_NAME)'"'
++endif
++
++ifeq ($(CONFIG_ANTENNA_DIVERSITY), y)
++EXTRA_CFLAGS += -DCONFIG_ANTENNA_DIVERSITY
++endif
++
++ifeq ($(CONFIG_TDLS), y)
++EXTRA_CFLAGS += -DCONFIG_TDLS
++endif
++
++ifeq ($(CONFIG_WIFI_MONITOR), y)
++EXTRA_CFLAGS += -DCONFIG_WIFI_MONITOR
++endif
++
++ifeq ($(CONFIG_MCC_MODE), y)
++EXTRA_CFLAGS += -DCONFIG_MCC_MODE
++endif
++
++ifeq ($(CONFIG_RTW_NAPI), y)
++EXTRA_CFLAGS += -DCONFIG_RTW_NAPI
++endif
++
++ifeq ($(CONFIG_RTW_GRO), y)
++EXTRA_CFLAGS += -DCONFIG_RTW_GRO
++endif
++
++ifeq ($(CONFIG_MP_VHT_HW_TX_MODE), y)
++EXTRA_CFLAGS += -DCONFIG_MP_VHT_HW_TX_MODE
++ifeq ($(CONFIG_PLATFORM_I386_PC), y)
++## For I386 X86 ToolChain use Hardware FLOATING
++EXTRA_CFLAGS += -mhard-float
++else
++## For ARM ToolChain use Hardware FLOATING
++EXTRA_CFLAGS += -mfloat-abi=hard
++endif
++endif
++
++ifeq ($(CONFIG_APPEND_VENDOR_IE_ENABLE), y)
++EXTRA_CFLAGS += -DCONFIG_APPEND_VENDOR_IE_ENABLE
++endif
++
++ifeq ($(CONFIG_RTW_DEBUG), y)
++EXTRA_CFLAGS += -DCONFIG_RTW_DEBUG
++EXTRA_CFLAGS += -DRTW_LOG_LEVEL=$(CONFIG_RTW_LOG_LEVEL)
++endif
++
++EXTRA_CFLAGS += -DDM_ODM_SUPPORT_TYPE=0x04
++
++ifeq ($(CONFIG_PLATFORM_I386_PC), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++SUBARCH := $(shell uname -m | sed -e s/i.86/i386/)
++ARCH ?= $(SUBARCH)
++CROSS_COMPILE ?=
++KVER  := $(shell uname -r)
++KSRC := /lib/modules/$(KVER)/build
++MODDESTDIR := /lib/modules/$(KVER)/kernel/drivers/net/wireless/
++INSTALL_PREFIX :=
++endif
++
++ifeq ($(CONFIG_PLATFORM_ACTIONS_ATM702X), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ANDROID -DCONFIG_PLATFORM_ACTIONS_ATM702X
++#ARCH := arm
++ARCH := $(R_ARCH)
++#CROSS_COMPILE := arm-none-linux-gnueabi-
++CROSS_COMPILE := $(R_CROSS_COMPILE)
++KVER:= 3.4.0
++#KSRC := ../../../../build/out/kernel
++KSRC := $(KERNEL_BUILD_PATH)
++MODULE_NAME :=wlan
++endif
++
++
++ifeq ($(CONFIG_PLATFORM_ACTIONS_ATM705X), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++#EXTRA_CFLAGS += -DRTW_ENABLE_WIFI_CONTROL_FUNC
++# default setting for Android 4.1, 4.2, 4.3, 4.4
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ACTIONS_ATM705X
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++
++# Enable this for Android 5.0
++EXTRA_CFLAGS += -DCONFIG_RADIO_WORK
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++_PLATFORM_FILES += platform/platform_arm_act_sdio.o
++endif
++
++ARCH := arm
++CROSS_COMPILE := /opt/arm-2011.09/bin/arm-none-linux-gnueabi-
++KSRC := /home/android_sdk/Action-semi/705a_android_L/android/kernel
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_SUN50IW1P1), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUN50IW1P1
++EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS += -DCONFIG_RESUME_IN_WORKQUEUE
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++
++# Enable this for Android 5.0
++EXTRA_CFLAGS += -DCONFIG_RADIO_WORK
++
++ifeq ($(CONFIG_USB_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
++_PLATFORM_FILES += platform/platform_ARM_SUNxI_usb.o
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++_PLATFORM_FILES += platform/platform_ARM_SUN50IW1P1_sdio.o
++endif
++
++ARCH := arm64
++# ===Cross compile setting for Android 5.1(64) SDK ===
++CROSS_COMPILE := /home/android_sdk/Allwinner/a64/android-51/lichee/out/sun50iw1p1/android/common/buildroot/external-toolchain/bin/aarch64-linux-gnu-
++KSRC :=/home/android_sdk/Allwinner/a64/android-51/lichee/linux-3.10/
++endif
++
++ifeq ($(CONFIG_PLATFORM_TI_AM3517), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ANDROID -DCONFIG_PLATFORM_SHUTTLE
++CROSS_COMPILE := arm-eabi-
++KSRC := $(shell pwd)/../../../Android/kernel
++ARCH := arm
++endif
++
++ifeq ($(CONFIG_PLATFORM_MSTAR_TITANIA12), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MSTAR -DCONFIG_PLATFORM_MSTAR_TITANIA12
++ARCH:=mips
++CROSS_COMPILE:= /usr/src/Mstar_kernel/mips-4.3/bin/mips-linux-gnu-
++KVER:= 2.6.28.9
++KSRC:= /usr/src/Mstar_kernel/2.6.28.9/
++endif
++
++ifeq ($(CONFIG_PLATFORM_MSTAR), y)
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MSTAR -DCONFIG_USE_USB_BUFFER_ALLOC_TX -DCONFIG_FIX_NR_BULKIN_BUFFER -DCONFIG_PREALLOC_RX_SKB_BUFFER
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_MSTAR_HIGH
++ARCH:=arm
++CROSS_COMPILE:= /usr/src/bin/arm-none-linux-gnueabi-
++KVER:= 3.1.10
++KSRC:= /usr/src/Mstar_kernel/3.1.10/
++endif
++
++ifeq ($(CONFIG_PLATFORM_ANDROID_X86), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++SUBARCH := $(shell uname -m | sed -e s/i.86/i386/)
++ARCH := $(SUBARCH)
++CROSS_COMPILE := /media/DATA-2/android-x86/ics-x86_20120130/prebuilt/linux-x86/toolchain/i686-unknown-linux-gnu-4.2.1/bin/i686-unknown-linux-gnu-
++KSRC := /media/DATA-2/android-x86/ics-x86_20120130/out/target/product/generic_x86/obj/kernel
++MODULE_NAME :=wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ANDROID_INTEL_X86), y)
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ANDROID_INTEL_X86
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_INTEL_BYT
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ANDROID
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS += -DCONFIG_SKIP_SIGNAL_SCALE_MAPPING
++ifeq ($(CONFIG_SDIO_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_RESUME_IN_WORKQUEUE
++endif
++endif
++
++ifeq ($(CONFIG_PLATFORM_JB_X86), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++SUBARCH := $(shell uname -m | sed -e s/i.86/i386/)
++ARCH := $(SUBARCH)
++CROSS_COMPILE := /home/android_sdk/android-x86_JB/prebuilts/gcc/linux-x86/x86/i686-linux-android-4.7/bin/i686-linux-android-
++KSRC := /home/android_sdk/android-x86_JB/out/target/product/x86/obj/kernel/
++MODULE_NAME :=wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_NV_TK1), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS += -DCONFIG_P2P_IPS -DCONFIG_PLATFORM_ANDROID
++# Enable this for Android 5.0
++EXTRA_CFLAGS += -DCONFIG_RADIO_WORK
++EXTRA_CFLAGS += -DRTW_VENDOR_EXT_SUPPORT
++ARCH := arm
++CROSS_COMPILE := /mnt/newdisk/isaac/nvidia/android_ara_5.1/prebuilts/gcc/linux-x86/arm/arm-eabi-4.8/bin/arm-eabi-
++KSRC :=/mnt/newdisk/isaac/nvidia/android_ara_5.1/out/target/product/jetson/obj/kernel/
++MODULE_NAME = wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_PXA2XX), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH := arm
++CROSS_COMPILE := arm-none-linux-gnueabi-
++KVER  := 2.6.34.1
++KSRC ?= /usr/src/linux-2.6.34.1
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_S3C2K4), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH := arm
++CROSS_COMPILE := arm-linux-
++KVER  := 2.6.24.7_$(ARCH)
++KSRC := /usr/src/kernels/linux-$(KVER)
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_S3C6K4), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH := arm
++CROSS_COMPILE := arm-none-linux-gnueabi-
++KVER  := 2.6.34.1
++KSRC ?= /usr/src/linux-2.6.34.1
++endif
++
++ifeq ($(CONFIG_PLATFORM_RTD2880B), y)
++EXTRA_CFLAGS += -DCONFIG_BIG_ENDIAN -DCONFIG_PLATFORM_RTD2880B
++ARCH:=
++CROSS_COMPILE:=
++KVER:=
++KSRC:=
++endif
++
++ifeq ($(CONFIG_PLATFORM_MIPS_RMI), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH:=mips
++CROSS_COMPILE:=mipsisa32r2-uclibc-
++KVER:=
++KSRC:= /root/work/kernel_realtek
++endif
++
++ifeq ($(CONFIG_PLATFORM_MIPS_PLM), y)
++EXTRA_CFLAGS += -DCONFIG_BIG_ENDIAN
++ARCH:=mips
++CROSS_COMPILE:=mipsisa32r2-uclibc-
++KVER:=
++KSRC:= /root/work/kernel_realtek
++endif
++
++ifeq ($(CONFIG_PLATFORM_MSTAR389), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MSTAR389
++ARCH:=mips
++CROSS_COMPILE:= mips-linux-gnu-
++KVER:= 2.6.28.10
++KSRC:= /home/mstar/mstar_linux/2.6.28.9/
++endif
++
++ifeq ($(CONFIG_PLATFORM_MIPS_AR9132), y)
++EXTRA_CFLAGS += -DCONFIG_BIG_ENDIAN
++ARCH := mips
++CROSS_COMPILE := mips-openwrt-linux-
++KSRC := /home/alex/test_openwrt/tmp/linux-2.6.30.9
++endif
++
++ifeq ($(CONFIG_PLATFORM_DMP_PHILIPS), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DRTK_DMP_PLATFORM
++ARCH := mips
++#CROSS_COMPILE:=/usr/local/msdk-4.3.6-mips-EL-2.6.12.6-0.9.30.3/bin/mipsel-linux-
++CROSS_COMPILE:=/usr/local/toolchain_mipsel/bin/mipsel-linux-
++KSRC ?=/usr/local/Jupiter/linux-2.6.12
++endif
++
++ifeq ($(CONFIG_PLATFORM_RTK_DMP), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DRTK_DMP_PLATFORM  -DCONFIG_WIRELESS_EXT
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++ifeq ($(CONFIG_USB_HCI), y)
++_PLATFORM_FILES += platform/platform_RTK_DMP_usb.o
++endif
++ARCH:=mips
++CROSS_COMPILE:=mipsel-linux-
++KVER:=
++KSRC ?= /usr/src/DMP_Kernel/jupiter/linux-2.6.12
++endif
++
++ifeq ($(CONFIG_PLATFORM_MT53XX), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MT53XX
++ARCH:= arm
++CROSS_COMPILE:= arm11_mtk_le-
++KVER:= 2.6.27
++KSRC?= /proj/mtk00802/BD_Compare/BDP/Dev/BDP_V301/BDP_Linux/linux-2.6.27
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_MX51_241H), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_WISTRON_PLATFORM
++ARCH := arm
++CROSS_COMPILE := /opt/freescale/usr/local/gcc-4.1.2-glibc-2.5-nptl-3/arm-none-linux-gnueabi/bin/arm-none-linux-gnueabi-
++KVER  := 2.6.31
++KSRC ?= /lib/modules/2.6.31-770-g0e46b52/source
++endif
++
++ifeq ($(CONFIG_PLATFORM_FS_MX61), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH := arm
++CROSS_COMPILE := /home/share/CusEnv/FreeScale/arm-eabi-4.4.3/bin/arm-eabi-
++KSRC ?= /home/share/CusEnv/FreeScale/FS_kernel_env
++endif
++
++
++
++ifeq ($(CONFIG_PLATFORM_ACTIONS_ATJ227X), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ACTIONS_ATJ227X
++ARCH := mips
++CROSS_COMPILE := /home/cnsd4/project/actions/tools-2.6.27/bin/mipsel-linux-gnu-
++KVER  := 2.6.27
++KSRC := /home/cnsd4/project/actions/linux-2.6.27.28
++endif
++
++ifeq ($(CONFIG_PLATFORM_TI_DM365), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_TI_DM365
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_RX
++EXTRA_CFLAGS += -DCONFIG_SINGLE_XMIT_BUF -DCONFIG_SINGLE_RECV_BUF
++ARCH := arm
++#CROSS_COMPILE := /home/cnsd4/Appro/mv_pro_5.0/montavista/pro/devkit/arm/v5t_le/bin/arm_v5t_le-
++#KSRC := /home/cnsd4/Appro/mv_pro_5.0/montavista/pro/devkit/lsp/ti-davinci/linux-dm365
++CROSS_COMPILE := /opt/montavista/pro5.0/devkit/arm/v5t_le/bin/arm-linux-
++KSRC:= /home/vivotek/lsp/DM365/kernel_platform/kernel/linux-2.6.18
++KERNELOUTPUT := ${PRODUCTDIR}/tmp
++KVER  := 2.6.18
++endif
++
++ifeq ($(CONFIG_PLATFORM_MOZART), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MOZART
++ARCH := arm
++CROSS_COMPILE := /home/vivotek/lsp/mozart3v2/Mozart3e_Toolchain/build_arm_nofpu/usr/bin/arm-linux-
++KVER  := $(shell uname -r)
++KSRC:= /opt/Vivotek/lsp/mozart3v2/kernel_platform/kernel/mozart_kernel-1.17
++KERNELOUTPUT := /home/pink/sample/ODM/IP8136W-VINT/tmp/kernel
++endif
++
++ifeq ($(CONFIG_PLATFORM_TEGRA3_CARDHU), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DRTW_ENABLE_WIFI_CONTROL_FUNC
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/nvidia/tegra-16r3-partner-android-4.1_20120723/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
++KSRC := /home/android_sdk/nvidia/tegra-16r3-partner-android-4.1_20120723/out/target/product/cardhu/obj/KERNEL
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_TEGRA4_DALMORE), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DRTW_ENABLE_WIFI_CONTROL_FUNC
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/nvidia/tegra-17r9-partner-android-4.2-dalmore_20130131/prebuilts/gcc/linux-x86/arm/arm-eabi-4.6/bin/arm-eabi-
++KSRC := /home/android_sdk/nvidia/tegra-17r9-partner-android-4.2-dalmore_20130131/out/target/product/dalmore/obj/KERNEL
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_TCC8900), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/Telechips/SDK_2304_20110613/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
++KSRC := /home/android_sdk/Telechips/SDK_2304_20110613/kernel
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_TCC8920), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/Telechips/v12.06_r1-tcc-android-4.0.4/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
++KSRC := /home/android_sdk/Telechips/v12.06_r1-tcc-android-4.0.4/kernel
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_TCC8920_JB42), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/Telechips/v13.03_r1-tcc-android-4.2.2_ds_patched/prebuilts/gcc/linux-x86/arm/arm-eabi-4.6/bin/arm-eabi-
++KSRC := /home/android_sdk/Telechips/v13.03_r1-tcc-android-4.2.2_ds_patched/kernel
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_RK2818), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ANDROID -DCONFIG_PLATFORM_ROCKCHIPS
++ARCH := arm
++CROSS_COMPILE := /usr/src/release_fae_version/toolchain/arm-eabi-4.4.0/bin/arm-eabi-
++KSRC := /usr/src/release_fae_version/kernel25_A7_281x
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_RK3188), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ANDROID -DCONFIG_PLATFORM_ROCKCHIPS
++# default setting for Android 4.1, 4.2, 4.3, 4.4
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++# default setting for Power control
++EXTRA_CFLAGS += -DRTW_ENABLE_WIFI_CONTROL_FUNC
++EXTRA_CFLAGS += -DRTW_SUPPORT_PLATFORM_SHUTDOWN
++# default setting for Special function
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/Rockchip/Rk3188/prebuilts/gcc/linux-x86/arm/arm-eabi-4.6/bin/arm-eabi-
++KSRC := /home/android_sdk/Rockchip/Rk3188/kernel
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_RK3066), y)
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_RK3066
++EXTRA_CFLAGS += -DRTW_ENABLE_WIFI_CONTROL_FUNC
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211
++ifeq ($(CONFIG_SDIO_HCI), y)
++EXTRA_CFLAGS += -DRTW_SUPPORT_PLATFORM_SHUTDOWN
++endif
++EXTRA_CFLAGS += -fno-pic
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/Rockchip/rk3066_20130607/prebuilts/gcc/linux-x86/arm/arm-linux-androideabi-4.6/bin/arm-linux-androideabi-
++#CROSS_COMPILE := /home/android_sdk/Rockchip/Rk3066sdk/prebuilts/gcc/linux-x86/arm/arm-linux-androideabi-4.6/bin/arm-linux-androideabi-
++KSRC := /home/android_sdk/Rockchip/Rk3066sdk/kernel
++MODULE_NAME :=wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_URBETTER), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN #-DCONFIG_MINIMAL_MEMORY_USAGE
++ARCH := arm
++CROSS_COMPILE := /media/DATA-1/urbetter/arm-2009q3/bin/arm-none-linux-gnueabi-
++KSRC := /media/DATA-1/urbetter/ics-urbetter/kernel
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_TI_PANDA), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN #-DCONFIG_MINIMAL_MEMORY_USAGE
++ARCH := arm
++#CROSS_COMPILE := /media/DATA-1/aosp/ics-aosp_20111227/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
++#KSRC := /media/DATA-1/aosp/android-omap-panda-3.0_20120104
++CROSS_COMPILE := /media/DATA-1/android-4.0/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
++KSRC := /media/DATA-1/android-4.0/panda_kernel/omap
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_MIPS_JZ4760), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_MINIMAL_MEMORY_USAGE
++ARCH ?= mips
++CROSS_COMPILE ?= /mnt/sdb5/Ingenic/Umido/mips-4.3/bin/mips-linux-gnu-
++KSRC ?= /mnt/sdb5/Ingenic/Umido/kernel
++endif
++
++ifeq ($(CONFIG_PLATFORM_SZEBOOK), y)
++EXTRA_CFLAGS += -DCONFIG_BIG_ENDIAN
++ARCH:=arm
++CROSS_COMPILE:=/opt/crosstool2/bin/armeb-unknown-linux-gnueabi-
++KVER:= 2.6.31.6
++KSRC:= ../code/linux-2.6.31.6-2020/
++endif
++
++#Add setting for MN10300
++ifeq ($(CONFIG_PLATFORM_MN10300), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MN10300
++ARCH := mn10300
++CROSS_COMPILE := mn10300-linux-
++KVER := 2.6.32.2
++KSRC := /home/winuser/work/Plat_sLD2T_V3010/usr/src/linux-2.6.32.2
++INSTALL_PREFIX :=
++endif
++
++
++ifeq ($(CONFIG_PLATFORM_ARM_SUNxI), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUNxI
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++ifeq ($(CONFIG_USB_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
++_PLATFORM_FILES += platform/platform_ARM_SUNxI_usb.o
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++# default setting for A10-EVB mmc0
++#EXTRA_CFLAGS += -DCONFIG_WITS_EVB_V13
++_PLATFORM_FILES += platform/platform_ARM_SUNxI_sdio.o
++endif
++
++ARCH := arm
++#CROSS_COMPILE := arm-none-linux-gnueabi-
++CROSS_COMPILE=/home/android_sdk/Allwinner/a10/android-jb42/lichee-jb42/buildroot/output/external-toolchain/bin/arm-none-linux-gnueabi-
++KVER  := 3.0.8
++#KSRC:= ../lichee/linux-3.0/
++KSRC=/home/android_sdk/Allwinner/a10/android-jb42/lichee-jb42/linux-3.0
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_SUN6I), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUN6I
++EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
++# default setting for Android 4.1, 4.2, 4.3, 4.4
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS +=  -DCONFIG_QOS_OPTIMIZATION
++
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++ifeq ($(CONFIG_USB_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
++_PLATFORM_FILES += platform/platform_ARM_SUNxI_usb.o
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++# default setting for A31-EVB mmc0
++EXTRA_CFLAGS += -DCONFIG_A31_EVB
++_PLATFORM_FILES += platform/platform_ARM_SUNnI_sdio.o
++endif
++
++ARCH := arm
++#Android-JB42
++#CROSS_COMPILE := /home/android_sdk/Allwinner/a31/android-jb42/lichee/buildroot/output/external-toolchain/bin/arm-linux-gnueabi-
++#KSRC :=/home/android_sdk/Allwinner/a31/android-jb42/lichee/linux-3.3
++#ifeq ($(CONFIG_USB_HCI), y)
++#MODULE_NAME := 8188eu_sw
++#endif
++# ==== Cross compile setting for kitkat-a3x_v4.5 =====
++CROSS_COMPILE := /home/android_sdk/Allwinner/a31/kitkat-a3x_v4.5/lichee/buildroot/output/external-toolchain/bin/arm-linux-gnueabi-
++KSRC :=/home/android_sdk/Allwinner/a31/kitkat-a3x_v4.5/lichee/linux-3.3
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_SUN7I), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUN7I
++EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
++# default setting for Android 4.1, 4.2, 4.3, 4.4
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS +=  -DCONFIG_QOS_OPTIMIZATION
++
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++ifeq ($(CONFIG_USB_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
++_PLATFORM_FILES += platform/platform_ARM_SUNxI_usb.o
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++_PLATFORM_FILES += platform/platform_ARM_SUNnI_sdio.o
++endif
++
++ARCH := arm
++# ===Cross compile setting for Android 4.2 SDK ===
++#CROSS_COMPILE := /home/android_sdk/Allwinner/a20_evb/lichee/out/android/common/buildroot/external-toolchain/bin/arm-linux-gnueabi-
++#KSRC := /home/android_sdk/Allwinner/a20_evb/lichee/linux-3.3
++# ==== Cross compile setting for Android 4.3 SDK =====
++#CROSS_COMPILE := /home/android_sdk/Allwinner/a20/android-jb43/lichee/out/android/common/buildroot/external-toolchain/bin/arm-linux-gnueabi-
++#KSRC := /home/android_sdk/Allwinner/a20/android-jb43/lichee/linux-3.4
++# ==== Cross compile setting for kitkat-a20_v4.4 =====
++CROSS_COMPILE := /home/android_sdk/Allwinner/a20/kitkat-a20_v4.4/lichee/out/android/common/buildroot/external-toolchain/bin/arm-linux-gnueabi-
++KSRC := /home/android_sdk/Allwinner/a20/kitkat-a20_v4.4/lichee/linux-3.4
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_SUN8I_W3P1), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUN8I
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUN8I_W3P1
++EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++ifeq ($(CONFIG_USB_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
++_PLATFORM_FILES += platform/platform_ARM_SUNxI_usb.o
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++_PLATFORM_FILES += platform/platform_ARM_SUNnI_sdio.o
++endif
++
++ARCH := arm
++# ===Cross compile setting for Android 4.2 SDK ===
++#CROSS_COMPILE := /home/android_sdk/Allwinner/a23/android-jb42/lichee/out/android/common/buildroot/external-toolchain/bin/arm-linux-gnueabi-
++#KSRC :=/home/android_sdk/Allwinner/a23/android-jb42/lichee/linux-3.4
++# ===Cross compile setting for Android 4.4 SDK ===
++CROSS_COMPILE := /home/android_sdk/Allwinner/a23/android-kk44/lichee/out/android/common/buildroot/external-toolchain/bin/arm-linux-gnueabi-
++KSRC :=/home/android_sdk/Allwinner/a23/android-kk44/lichee/linux-3.4
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_SUN8I_W5P1), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUN8I
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUN8I_W5P1
++EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++
++# Enable this for Android 5.0
++EXTRA_CFLAGS += -DCONFIG_RADIO_WORK
++
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++ifeq ($(CONFIG_USB_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
++_PLATFORM_FILES += platform/platform_ARM_SUNxI_usb.o
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++_PLATFORM_FILES += platform/platform_ARM_SUNnI_sdio.o
++endif
++
++ARCH := arm
++# ===Cross compile setting for Android L SDK ===
++CROSS_COMPILE := /home/android_sdk/Allwinner/a33/android-L/lichee/out/sun8iw5p1/android/common/buildroot/external-toolchain/bin/arm-linux-gnueabi-
++KSRC :=/home/android_sdk/Allwinner/a33/android-L/lichee/linux-3.4
++endif
++
++ifeq ($(CONFIG_PLATFORM_ACTIONS_ATV5201), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ACTIONS_ATV5201
++EXTRA_CFLAGS += -DCONFIG_SDIO_DISABLE_RXFIFO_POLLING_LOOP
++ARCH := mips
++CROSS_COMPILE := mipsel-linux-gnu-
++KVER  := $(KERNEL_VER)
++KSRC:= $(CFGDIR)/../../kernel/linux-$(KERNEL_VER)
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_RTD299X), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DUSB_XMITBUF_ALIGN_SZ=1024 -DUSB_PACKET_OFFSET_SZ=0
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++ifeq ($(CONFIG_ANDROID), y)
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++# Enable this for Android 5.0
++EXTRA_CFLAGS += -DCONFIG_RADIO_WORK
++endif
++#ARCH, CROSS_COMPILE, KSRC,and  MODDESTDIR are provided by external makefile
++INSTALL_PREFIX :=
++endif
++
++ifeq ($(CONFIG_PLATFORM_HISILICON), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_HISILICON
++ifeq ($(SUPPORT_CONCURRENT),y)
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++endif
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++ARCH := arm
++ifeq ($(CROSS_COMPILE),)
++       CROSS_COMPILE = arm-hisiv200-linux-
++endif
++MODULE_NAME := rtl8192eu
++ifeq ($(KSRC),)
++       KSRC := ../../../../../../kernel/linux-3.4.y
++endif
++endif
++
++# Platform setting
++ifeq ($(CONFIG_PLATFORM_ARM_SPREADTRUM_6820), y)
++ifeq ($(CONFIG_ANDROID_2X), y)
++EXTRA_CFLAGS += -DANDROID_2X
++endif
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_SPRD
++EXTRA_CFLAGS += -DPLATFORM_SPREADTRUM_6820
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ifeq ($(RTL871X), rtl8188e)
++EXTRA_CFLAGS += -DSOFTAP_PS_DURATION=50
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++_PLATFORM_FILES += platform/platform_sprd_sdio.o
++endif
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_SPREADTRUM_8810), y)
++ifeq ($(CONFIG_ANDROID_2X), y)
++EXTRA_CFLAGS += -DANDROID_2X
++endif
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_SPRD
++EXTRA_CFLAGS += -DPLATFORM_SPREADTRUM_8810
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ifeq ($(RTL871X), rtl8188e)
++EXTRA_CFLAGS += -DSOFTAP_PS_DURATION=50
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++_PLATFORM_FILES += platform/platform_sprd_sdio.o
++endif
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_WMT), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++ifeq ($(CONFIG_SDIO_HCI), y)
++_PLATFORM_FILES += platform/platform_ARM_WMT_sdio.o
++endif
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/WonderMedia/wm8880-android4.4/toolchain/arm_201103_gcc4.5.2/mybin/arm_1103_le-
++KSRC := /home/android_sdk/WonderMedia/wm8880-android4.4/kernel4.4/
++MODULE_NAME :=8189es_kk
++endif
++
++ifeq ($(CONFIG_PLATFORM_RTK119X), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++#EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUN7I
++EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IFACE_NUMBER=3
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++#EXTRA_CFLAGS +=  -DCONFIG_QOS_OPTIMIZATION
++EXTRA_CFLAGS += -DCONFIG_QOS_OPTIMIZATION
++
++#EXTRA_CFLAGS += -DCONFIG_#PLATFORM_OPS
++ifeq ($(CONFIG_USB_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
++#_PLATFORM_FILES += platform/platform_ARM_SUNxI_usb.o
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++_PLATFORM_FILES += platform/platform_ARM_SUNnI_sdio.o
++endif
++
++ARCH := arm
++
++# ==== Cross compile setting for Android 4.4 SDK =====
++#CROSS_COMPILE := arm-linux-gnueabihf-
++KVER  := 3.10.24
++#KSRC :=/home/android_sdk/Allwinner/a20/android-kitkat44/lichee/linux-3.4
++CROSS_COMPILE := /home/realtek/software_phoenix/phoenix/toolchain/usr/local/arm-2013.11/bin/arm-linux-gnueabihf-
++KSRC := /home/realtek/software_phoenix/linux-kernel
++MODULE_NAME := 8192eu
++
++endif
++
++ifeq ($(CONFIG_PLATFORM_RTK129X), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DRTK_129X_PLATFORM
++EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++#EXTRA_CFLAGS += -DCONFIG_P2P_IPS -DCONFIG_QOS_OPTIMIZATION
++EXTRA_CFLAGS += -DCONFIG_QOS_OPTIMIZATION
++EXTRA_CFLAGS += -Wno-error=date-time
++
++#EXTRA_CFLAGS += -DCONFIG_#PLATFORM_OPS
++ifeq ($(CONFIG_USB_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
++#_PLATFORM_FILES += platform/platform_ARM_SUNxI_usb.o
++endif
++
++ARCH := arm64
++
++# ==== Cross compile setting for Android 4.4 SDK =====
++#CROSS_COMPILE := arm-linux-gnueabihf-
++KVER  := 4.1.10
++CROSS_COMPILE := $(CROSS)
++KSRC := $(LINUX_KERNEL_PATH)
++MODULE_NAME := 8822be
++endif
++
++ifeq ($(CONFIG_PLATFORM_NOVATEK_NT72668), y)
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_NOVATEK_NT72668
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_RX
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
++ARCH ?= arm
++CROSS_COMPILE := arm-linux-gnueabihf-
++KVER := 3.8.0
++KSRC := /Custom/Novatek/TCL/linux-3.8_header
++#KSRC := $(KERNELDIR)
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_TCC8930_JB42), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/Telechips/v13.05_r1-tcc-android-4.2.2_tcc893x-evm_build/prebuilts/gcc/linux-x86/arm/arm-eabi-4.6/bin/arm-eabi-
++KSRC := /home/android_sdk/Telechips/v13.05_r1-tcc-android-4.2.2_tcc893x-evm_build/kernel
++MODULE_NAME := wlan
++endif 
++
++ifeq ($(CONFIG_MULTIDRV), y)
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME := rtw_sdio
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME := rtw_usb
++endif
++
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME := rtw_pci
++endif
++
++
++endif
++
++USER_MODULE_NAME ?=
++ifneq ($(USER_MODULE_NAME),)
++MODULE_NAME := $(USER_MODULE_NAME)
++endif
++
++ifneq ($(KERNELRELEASE),)
++
++rtk_core :=	core/rtw_cmd.o \
++		core/rtw_security.o \
++		core/rtw_debug.o \
++		core/rtw_io.o \
++		core/rtw_ioctl_query.o \
++		core/rtw_ioctl_set.o \
++		core/rtw_ieee80211.o \
++		core/rtw_mlme.o \
++		core/rtw_mlme_ext.o \
++		core/rtw_mi.o \
++		core/rtw_wlan_util.o \
++		core/rtw_vht.o \
++		core/rtw_pwrctrl.o \
++		core/rtw_rf.o \
++		core/rtw_recv.o \
++		core/rtw_sta_mgt.o \
++		core/rtw_ap.o \
++		core/rtw_xmit.o	\
++		core/rtw_p2p.o \
++		core/rtw_tdls.o \
++		core/rtw_br_ext.o \
++		core/rtw_iol.o \
++		core/rtw_sreset.o \
++		core/rtw_btcoex.o \
++		core/rtw_beamforming.o \
++		core/rtw_odm.o \
++		core/efuse/rtw_efuse.o 
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++rtk_core += core/rtw_sdio.o
++endif
++
++$(MODULE_NAME)-y += $(rtk_core)
++
++$(MODULE_NAME)-$(CONFIG_INTEL_WIDI) += core/rtw_intel_widi.o
++
++$(MODULE_NAME)-$(CONFIG_WAPI_SUPPORT) += core/rtw_wapi.o	\
++					core/rtw_wapi_sms4.o
++
++$(MODULE_NAME)-y += $(_OS_INTFS_FILES)
++$(MODULE_NAME)-y += $(_HAL_INTFS_FILES)
++$(MODULE_NAME)-y += $(_OUTSRC_FILES)
++$(MODULE_NAME)-y += $(_PLATFORM_FILES)
++
++$(MODULE_NAME)-$(CONFIG_MP_INCLUDED) += core/rtw_mp.o
++
++ifeq ($(CONFIG_RTL8723B), y)
++$(MODULE_NAME)-$(CONFIG_MP_INCLUDED)+= core/rtw_bt_mp.o
++endif
++
++obj-$(CONFIG_RTL8723DU) := $(MODULE_NAME).o
++
++else
++
++export CONFIG_RTL8723DU = m
++
++all: modules
++
++modules:
++	$(MAKE) ARCH=$(ARCH) CROSS_COMPILE=$(CROSS_COMPILE) -C $(KSRC) M=$(shell pwd)  modules
++
++strip:
++	$(CROSS_COMPILE)strip $(MODULE_NAME).ko --strip-unneeded
++
++install:
++	install -p -m 644 $(MODULE_NAME).ko  $(MODDESTDIR)
++	/sbin/depmod -a ${KVER}
++
++uninstall:
++	rm -f $(MODDESTDIR)/$(MODULE_NAME).ko
++	/sbin/depmod -a ${KVER}
++
++config_r:
++	@echo "make config"
++	/bin/bash script/Configure script/config.in
++
++
++.PHONY: modules clean
++
++clean:
++	#$(MAKE) -C $(KSRC) M=$(shell pwd) clean
++	cd hal ; rm -fr */*/*/*.mod.c */*/*/*.mod */*/*/*.o */*/*/.*.cmd */*/*/*.ko
++	cd hal ; rm -fr */*/*.mod.c */*/*.mod */*/*.o */*/.*.cmd */*/*.ko
++	cd hal ; rm -fr */*.mod.c */*.mod */*.o */.*.cmd */*.ko
++	cd hal ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
++	cd core/efuse ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
++	cd core ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
++	cd os_dep/linux ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
++	cd os_dep ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
++	cd platform ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
++	rm -fr Module.symvers ; rm -fr Module.markers ; rm -fr modules.order
++	rm -fr *.mod.c *.mod *.o .*.cmd *.ko *~
++	rm -fr .tmp_versions
++endif
++
+diff --git a/drivers/net/wireless/rtl8723du/clean b/drivers/net/wireless/rtl8723du/clean
+new file mode 100644
+index 0000000..8766421
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/clean
+@@ -0,0 +1,5 @@
++#!/bin/bash
++rmmod 8192cu
++rmmod 8192ce
++rmmod 8192du
++rmmod 8192de
+diff --git a/drivers/net/wireless/rtl8723du/core/efuse/rtw_efuse.c b/drivers/net/wireless/rtl8723du/core/efuse/rtw_efuse.c
+new file mode 100644
+index 0000000..7080304
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/efuse/rtw_efuse.c
+@@ -0,0 +1,2565 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_EFUSE_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#include "../hal/efuse/efuse_mask.h"
++
++/*------------------------Define local variable------------------------------*/
++u8	fakeEfuseBank = {0};
++u32	fakeEfuseUsedBytes = {0};
++u8	fakeEfuseContent[EFUSE_MAX_HW_SIZE] = {0};
++u8	fakeEfuseInitMap[EFUSE_MAX_MAP_LEN] = {0};
++u8	fakeEfuseModifiedMap[EFUSE_MAX_MAP_LEN] = {0};
++
++u32	BTEfuseUsedBytes = {0};
++u8	BTEfuseContent[EFUSE_MAX_BT_BANK][EFUSE_MAX_HW_SIZE];
++u8	BTEfuseInitMap[EFUSE_BT_MAX_MAP_LEN] = {0};
++u8	BTEfuseModifiedMap[EFUSE_BT_MAX_MAP_LEN] = {0};
++
++u32	fakeBTEfuseUsedBytes = {0};
++u8	fakeBTEfuseContent[EFUSE_MAX_BT_BANK][EFUSE_MAX_HW_SIZE];
++u8	fakeBTEfuseInitMap[EFUSE_BT_MAX_MAP_LEN] = {0};
++u8	fakeBTEfuseModifiedMap[EFUSE_BT_MAX_MAP_LEN] = {0};
++
++u8	maskfileBuffer[32];
++/*------------------------Define local variable------------------------------*/
++BOOLEAN rtw_file_efuse_IsMasked(PADAPTER pAdapter, u16 Offset)
++{
++	int r = Offset / 16;
++	int c = (Offset % 16) / 2;
++	int result = 0;
++
++	if (pAdapter->registrypriv.boffefusemask)
++		return FALSE;
++
++	if (c < 4) /* Upper double word */
++		result = (maskfileBuffer[r] & (0x10 << c));
++	else
++		result = (maskfileBuffer[r] & (0x01 << (c - 4)));
++
++	return (result > 0) ? 0 : 1;
++}
++
++BOOLEAN efuse_IsMasked(PADAPTER pAdapter, u16 Offset)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++
++	if (pAdapter->registrypriv.boffefusemask)
++		return FALSE;
++
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(pAdapter))
++		return (IS_MASKED(8188E, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8812A)
++	if (IS_HARDWARE_TYPE_8812(pAdapter))
++		return (IS_MASKED(8812A, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8821A)
++#if 0
++	if (IS_HARDWARE_TYPE_8811AU(pAdapter))
++		return (IS_MASKED(8811A, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++	if (IS_HARDWARE_TYPE_8821(pAdapter))
++		return (IS_MASKED(8821A, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8192E)
++	if (IS_HARDWARE_TYPE_8192E(pAdapter))
++		return (IS_MASKED(8192E, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8723B)
++	if (IS_HARDWARE_TYPE_8723B(pAdapter))
++		return (IS_MASKED(8723B, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8703B)
++	if (IS_HARDWARE_TYPE_8703B(pAdapter))
++		return (IS_MASKED(8703B, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8814A)
++	if (IS_HARDWARE_TYPE_8814A(pAdapter))
++		return (IS_MASKED(8814A, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8188F)
++	if (IS_HARDWARE_TYPE_8188F(pAdapter))
++		return (IS_MASKED(8188F, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8822B)
++	if (IS_HARDWARE_TYPE_8822B(pAdapter))
++		return (IS_MASKED(8822B, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8723D)
++	if (IS_HARDWARE_TYPE_8723D(pAdapter))
++		return (IS_MASKED(8723D, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++
++	/*#if defined(CONFIG_RTL8821C)
++		if (IS_HARDWARE_TYPE_8821C(pAdapter))
++			return (IS_MASKED(8821C,_MUSB,Offset)) ? TRUE : FALSE;
++	#endif*/
++
++#elif DEV_BUS_TYPE == RT_PCI_INTERFACE
++#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(pAdapter))
++		return (IS_MASKED(8188E, _MPCIE, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8192E)
++	if (IS_HARDWARE_TYPE_8192E(pAdapter))
++		return (IS_MASKED(8192E, _MPCIE, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8812A)
++	if (IS_HARDWARE_TYPE_8812(pAdapter))
++		return (IS_MASKED(8812A, _MPCIE, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8821A)
++	if (IS_HARDWARE_TYPE_8821(pAdapter))
++		return (IS_MASKED(8821A, _MPCIE, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8723B)
++	if (IS_HARDWARE_TYPE_8723B(pAdapter))
++		return (IS_MASKED(8723B, _MPCIE, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8814A)
++	if (IS_HARDWARE_TYPE_8814A(pAdapter))
++		return (IS_MASKED(8814A, _MPCIE, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8822B)
++	if (IS_HARDWARE_TYPE_8822B(pAdapter))
++		return (IS_MASKED(8822B, _MPCIE, Offset)) ? TRUE : FALSE;
++#endif
++
++#elif DEV_BUS_TYPE == RT_SDIO_INTERFACE
++#ifdef CONFIG_RTL8188E_SDIO
++	if (IS_HARDWARE_TYPE_8188E(pAdapter))
++		return (IS_MASKED(8188E, _MSDIO, Offset)) ? TRUE : FALSE;
++#endif
++#ifdef CONFIG_RTL8188F_SDIO
++	if (IS_HARDWARE_TYPE_8188F(pAdapter))
++		return (IS_MASKED(8188F, _MSDIO, Offset)) ? TRUE : FALSE;
++#endif
++#endif
++
++	return FALSE;
++}
++
++void rtw_efuse_mask_array(PADAPTER pAdapter, u8 *pArray)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(pAdapter))
++		GET_MASK_ARRAY(8188E, _MUSB, pArray);
++#endif
++#if defined(CONFIG_RTL8812A)
++	if (IS_HARDWARE_TYPE_8812(pAdapter))
++		GET_MASK_ARRAY(8812A, _MUSB, pArray);
++#endif
++#if defined(CONFIG_RTL8821A)
++	if (IS_HARDWARE_TYPE_8821(pAdapter))
++		GET_MASK_ARRAY(8821A, _MUSB, pArray);
++#endif
++#if defined(CONFIG_RTL8192E)
++	if (IS_HARDWARE_TYPE_8192E(pAdapter))
++		GET_MASK_ARRAY(8192E, _MUSB, pArray);
++#endif
++#if defined(CONFIG_RTL8723B)
++	if (IS_HARDWARE_TYPE_8723B(pAdapter))
++		GET_MASK_ARRAY(8723B, _MUSB, pArray);
++#endif
++#if defined(CONFIG_RTL8703B)
++	if (IS_HARDWARE_TYPE_8703B(pAdapter))
++		GET_MASK_ARRAY(8703B, _MUSB, pArray);
++#endif
++#if defined(CONFIG_RTL8188F)
++	if (IS_HARDWARE_TYPE_8188F(pAdapter))
++		GET_MASK_ARRAY(8188F, _MUSB, pArray);
++#endif
++#if defined(CONFIG_RTL8814A)
++	if (IS_HARDWARE_TYPE_8814A(pAdapter))
++		GET_MASK_ARRAY(8814A, _MUSB, pArray);
++#endif
++#if defined(CONFIG_RTL8822B)
++	if (IS_HARDWARE_TYPE_8822B(pAdapter))
++		GET_MASK_ARRAY(8822B, _MUSB, pArray);
++#endif
++	/*#if defined(CONFIG_RTL8821C)
++		if (IS_HARDWARE_TYPE_8821C(pAdapter))
++			GET_MASK_ARRAY(8821C,_MUSB,pArray);
++	#endif*/
++#elif DEV_BUS_TYPE == RT_PCI_INTERFACE
++#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(pAdapter))
++		GET_MASK_ARRAY(8188E, _MPCIE, pArray);
++#endif
++#if defined(CONFIG_RTL8192E)
++	if (IS_HARDWARE_TYPE_8192E(pAdapter))
++		GET_MASK_ARRAY(8192E, _MPCIE, pArray);
++#endif
++#if defined(CONFIG_RTL8812A)
++	if (IS_HARDWARE_TYPE_8812(pAdapter))
++		GET_MASK_ARRAY(8812A, _MPCIE, pArray);
++#endif
++#if defined(CONFIG_RTL8821A)
++	if (IS_HARDWARE_TYPE_8821(pAdapter))
++		GET_MASK_ARRAY(8821A, _MPCIE, pArray);
++#endif
++#if defined(CONFIG_RTL8723B)
++	if (IS_HARDWARE_TYPE_8723B(pAdapter))
++		GET_MASK_ARRAY(8723B, _MPCIE, pArray);
++#endif
++#if defined(CONFIG_RTL8814A)
++	if (IS_HARDWARE_TYPE_8814A(pAdapter))
++		GET_MASK_ARRAY(8814A, _MPCIE, pArray);
++#endif
++#if defined(CONFIG_RTL8822B)
++	if (IS_HARDWARE_TYPE_8822B(pAdapter))
++		GET_MASK_ARRAY(8822B, _MPCIE, pArray);
++#endif
++#elif DEV_BUS_TYPE == RT_SDIO_INTERFACE
++#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(pAdapter))
++		GET_MASK_ARRAY(8188E, _MSDIO, pArray);
++#endif
++#if defined(CONFIG_RTL8188F)
++	if (IS_HARDWARE_TYPE_8188F(pAdapter))
++		GET_MASK_ARRAY(8188F, _MSDIO, pArray);
++#endif
++#endif /*#elif DEV_BUS_TYPE == RT_SDIO_INTERFACE*/
++}
++
++u16 rtw_get_efuse_mask_arraylen(PADAPTER pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(pAdapter))
++		return GET_MASK_ARRAY_LEN(8188E, _MUSB);
++#endif
++#if defined(CONFIG_RTL8812A)
++	if (IS_HARDWARE_TYPE_8812(pAdapter))
++		return GET_MASK_ARRAY_LEN(8812A, _MUSB);
++#endif
++#if defined(CONFIG_RTL8821A)
++	if (IS_HARDWARE_TYPE_8821(pAdapter))
++		return GET_MASK_ARRAY_LEN(8821A, _MUSB);
++#endif
++#if defined(CONFIG_RTL8192E)
++	if (IS_HARDWARE_TYPE_8192E(pAdapter))
++		return GET_MASK_ARRAY_LEN(8192E, _MUSB);
++#endif
++#if defined(CONFIG_RTL8723B)
++	if (IS_HARDWARE_TYPE_8723B(pAdapter))
++		return GET_MASK_ARRAY_LEN(8723B, _MUSB);
++#endif
++#if defined(CONFIG_RTL8703B)
++	if (IS_HARDWARE_TYPE_8703B(pAdapter))
++		return GET_MASK_ARRAY_LEN(8703B, _MUSB);
++#endif
++#if defined(CONFIG_RTL8188F)
++	if (IS_HARDWARE_TYPE_8188F(pAdapter))
++		return GET_MASK_ARRAY_LEN(8188F, _MUSB);
++#endif
++#if defined(CONFIG_RTL8814A)
++	if (IS_HARDWARE_TYPE_8814A(pAdapter))
++		return GET_MASK_ARRAY_LEN(8814A, _MUSB);
++#endif
++#if defined(CONFIG_RTL8822B)
++	if (IS_HARDWARE_TYPE_8822B(pAdapter))
++		return GET_MASK_ARRAY_LEN(8822B, _MUSB);
++#endif
++	/*#if defined(CONFIG_RTL8821C)
++		if (IS_HARDWARE_TYPE_8821C(pAdapter))
++			return GET_MASK_ARRAY_LEN(8821C,_MUSB);
++	#endif*/
++#elif DEV_BUS_TYPE == RT_PCI_INTERFACE
++#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(pAdapter))
++		return GET_MASK_ARRAY_LEN(8188E, _MPCIE);
++#endif
++#if defined(CONFIG_RTL8192E)
++	if (IS_HARDWARE_TYPE_8192E(pAdapter))
++		return GET_MASK_ARRAY_LEN(8192E, _MPCIE);
++#endif
++#if defined(CONFIG_RTL8812A)
++	if (IS_HARDWARE_TYPE_8812(pAdapter))
++		return GET_MASK_ARRAY_LEN(8812A, _MPCIE);
++#endif
++#if defined(CONFIG_RTL8821A)
++	if (IS_HARDWARE_TYPE_8821(pAdapter))
++		return GET_MASK_ARRAY_LEN(8821A, _MPCIE);
++#endif
++#if defined(CONFIG_RTL8723B)
++	if (IS_HARDWARE_TYPE_8723B(pAdapter))
++		return GET_MASK_ARRAY_LEN(8723B, _MPCIE);
++#endif
++#if defined(CONFIG_RTL8814A)
++	if (IS_HARDWARE_TYPE_8814A(pAdapter))
++		return GET_MASK_ARRAY_LEN(8814A, _MPCIE);
++#endif
++#if defined(CONFIG_RTL8822B)
++	if (IS_HARDWARE_TYPE_8822B(pAdapter))
++		return GET_MASK_ARRAY_LEN(8822B, _MPCIE);
++#endif
++#elif DEV_BUS_TYPE == RT_SDIO_INTERFACE
++#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(pAdapter))
++		return GET_MASK_ARRAY_LEN(8188E, _MSDIO);
++#endif
++#if defined(CONFIG_RTL8188F)
++	if (IS_HARDWARE_TYPE_8188F(pAdapter))
++		return GET_MASK_ARRAY_LEN(8188F, _MSDIO);
++#endif
++
++#endif
++	return 0;
++}
++
++
++#ifdef RTW_HALMAC
++#include "../../hal/hal_halmac.h"
++
++void Efuse_PowerSwitch(PADAPTER adapter, u8 write, u8 pwrstate)
++{
++}
++
++void BTEfuse_PowerSwitch(PADAPTER adapter, u8 write, u8 pwrstate)
++{
++}
++
++u8 efuse_GetCurrentSize(PADAPTER adapter, u16 *size)
++{
++	*size = 0;
++
++	return _FAIL;
++}
++
++u16 efuse_GetMaxSize(PADAPTER adapter)
++{
++	struct dvobj_priv *d;
++	u32 size = 0;
++	int err;
++
++	d = adapter_to_dvobj(adapter);
++	err = rtw_halmac_get_physical_efuse_size(d, &size);
++	if (err)
++		return 0;
++
++	return size;
++}
++
++u8 efuse_bt_GetCurrentSize(PADAPTER adapter, u16 *size)
++{
++	*size = 0;
++
++	return _FAIL;
++}
++
++u16 efuse_bt_GetMaxSize(PADAPTER adapter)
++{
++	return 0;
++}
++
++void EFUSE_GetEfuseDefinition(PADAPTER adapter, u8 efusetype, u8 type, void *out, BOOLEAN test)
++{
++	struct dvobj_priv *d;
++	u32 v32 = 0;
++
++
++	d = adapter_to_dvobj(adapter);
++
++	if (adapter->HalFunc.EFUSEGetEfuseDefinition) {
++		adapter->HalFunc.EFUSEGetEfuseDefinition(adapter, efusetype, type, out, test);
++		return;
++	}
++
++	if (EFUSE_WIFI == efusetype) {
++		switch (type) {
++		case TYPE_EFUSE_MAP_LEN:
++			rtw_halmac_get_logical_efuse_size(d, &v32);
++			*(u16 *)out = (u16)v32;
++			return;
++		}
++	}
++}
++
++/*
++ * read/write raw efuse data
++ */
++u8 rtw_efuse_access(PADAPTER adapter, u8 write, u16 addr, u16 cnts, u8 *data)
++{
++	struct dvobj_priv *d;
++	u8 *efuse = NULL;
++	u32 size, i;
++	int err;
++
++
++	d = adapter_to_dvobj(adapter);
++	err = rtw_halmac_get_physical_efuse_size(d, &size);
++	if (err)
++		size = EFUSE_MAX_SIZE;
++
++	if ((addr + cnts) > size)
++		return _FAIL;
++
++	if (_TRUE == write) {
++		err = rtw_halmac_write_physical_efuse(d, addr, cnts, data);
++		if (err)
++			return _FAIL;
++	} else {
++		if (cnts > 16)
++			efuse = rtw_zmalloc(size);
++
++		if (efuse) {
++			err = rtw_halmac_read_physical_efuse_map(d, efuse, size);
++			if (err) {
++				rtw_mfree(efuse, size);
++				return _FAIL;
++			}
++
++			_rtw_memcpy(data, efuse + addr, cnts);
++			rtw_mfree(efuse, size);
++		} else {
++			err = rtw_halmac_read_physical_efuse(d, addr, cnts, data);
++			if (err)
++				return _FAIL;
++		}
++	}
++
++	return _SUCCESS;
++}
++
++static inline void dump_buf(u8 *buf, u32 len)
++{
++	u32 i;
++
++	RTW_INFO("-----------------Len %d----------------\n", len);
++	for (i = 0; i < len; i++)
++		printk("%2.2x-", *(buf + i));
++	printk("\n");
++}
++
++/*
++ * read/write raw efuse data
++ */
++u8 rtw_efuse_bt_access(PADAPTER adapter, u8 write, u16 addr, u16 cnts, u8 *data)
++{
++	struct dvobj_priv *d;
++	u8 *efuse = NULL;
++	u32 size, i;
++	int err = _FAIL;
++
++
++	d = adapter_to_dvobj(adapter);
++
++	size = EFUSE_BT_REAL_BANK_CONTENT_LEN;
++
++	if ((addr + cnts) > size)
++		return _FAIL;
++
++	if (_TRUE == write) {
++		err = rtw_halmac_write_bt_physical_efuse(d, addr, cnts, data);
++		if (err == -1) {
++			RTW_ERR("%s: rtw_halmac_write_bt_physical_efuse fail!\n", __FUNCTION__);
++			return _FAIL;
++		}
++		RTW_INFO("%s: rtw_halmac_write_bt_physical_efuse OK! data 0x%x\n", __FUNCTION__, *data);
++	} else {
++		efuse = rtw_zmalloc(size);
++
++		if (efuse) {
++			err = rtw_halmac_read_bt_physical_efuse_map(d, efuse, size);
++			
++			if (err == -1) {
++				RTW_ERR("%s: rtw_halmac_read_bt_physical_efuse_map fail!\n", __FUNCTION__);
++				rtw_mfree(efuse, size);
++				return _FAIL;
++			}
++			dump_buf(efuse + addr, cnts);
++
++			RTW_INFO("%s: rtw_halmac_read_bt_physical_efuse_map ok!\n", __FUNCTION__);
++			_rtw_memcpy(data, efuse + addr, cnts);
++			rtw_mfree(efuse, size);
++		}
++	}
++
++	return _SUCCESS;
++}
++
++u8 rtw_efuse_map_read(PADAPTER adapter, u16 addr, u16 cnts, u8 *data)
++{
++	struct dvobj_priv *d;
++	u8 *efuse = NULL;
++	u32 size, i;
++	int err;
++
++
++	d = adapter_to_dvobj(adapter);
++	err = rtw_halmac_get_logical_efuse_size(d, &size);
++	if (err)
++		return _FAIL;
++
++	/* size error handle */
++	if ((addr + cnts) > size) {
++		if (addr < size)
++			cnts = size - addr;
++		else
++			return _FAIL;
++	}
++
++	if (cnts > 16)
++		efuse = rtw_zmalloc(size);
++
++	if (efuse) {
++		err = rtw_halmac_read_logical_efuse_map(d, efuse, size);
++		if (err) {
++			rtw_mfree(efuse, size);
++			return _FAIL;
++		}
++
++		_rtw_memcpy(data, efuse + addr, cnts);
++		rtw_mfree(efuse, size);
++	} else {
++		err = rtw_halmac_read_logical_efuse(d, addr, cnts, data);
++		if (err)
++			return _FAIL;
++	}
++
++	return _SUCCESS;
++}
++
++u8 rtw_efuse_mask_map_read(PADAPTER adapter, u16 addr, u16 cnts, u8 *data)
++{
++	return rtw_efuse_map_read(adapter, addr, cnts, data);
++}
++
++u8 rtw_efuse_map_write(PADAPTER adapter, u16 addr, u16 cnts, u8 *data)
++{
++	struct dvobj_priv *d;
++	u8 *efuse = NULL;
++	u32 size, i;
++	int err;
++	u8 mask_buf[64] = "";
++	u16 mask_len = sizeof(u8) * rtw_get_efuse_mask_arraylen(adapter);
++
++	d = adapter_to_dvobj(adapter);
++	err = rtw_halmac_get_logical_efuse_size(d, &size);
++	if (err)
++		return _FAIL;
++
++	if ((addr + cnts) > size)
++		return _FAIL;
++
++	efuse = rtw_zmalloc(size);
++	if (!efuse)
++		return _FAIL;
++
++	err = rtw_halmac_read_logical_efuse_map(d, efuse, size);
++	if (err) {
++		rtw_mfree(efuse, size);
++		return _FAIL;
++	}
++
++	_rtw_memcpy(efuse + addr, data, cnts);
++
++	if (adapter->registrypriv.boffefusemask == 0) {
++		RTW_INFO("Use mask Array Len: %d\n", mask_len);
++
++		if (mask_len != 0) {
++			rtw_efuse_mask_array(adapter, mask_buf);
++			err = rtw_halmac_write_logical_efuse_map(d, efuse, size, mask_buf, mask_len);
++		} else
++			err = rtw_halmac_write_logical_efuse_map(d, efuse, size, NULL, 0);
++	} else {
++		_rtw_memset(mask_buf, 0xFF, sizeof(mask_buf));
++		RTW_INFO("Efuse mask off\n");
++		err = rtw_halmac_write_logical_efuse_map(d, efuse, size, mask_buf, size/16);
++	}
++
++	if (err) {
++		rtw_mfree(efuse, size);
++		return _FAIL;
++	}
++
++	rtw_mfree(efuse, size);
++
++	return _SUCCESS;
++}
++
++int Efuse_PgPacketRead(PADAPTER adapter, u8 offset, u8 *data, BOOLEAN test)
++{
++	return _FALSE;
++}
++
++int Efuse_PgPacketWrite(PADAPTER adapter, u8 offset, u8 word_en, u8 *data, BOOLEAN test)
++{
++	return _FALSE;
++}
++
++u8 rtw_BT_efuse_map_read(PADAPTER adapter, u16 addr, u16 cnts, u8 *data)
++{
++	hal_ReadEFuse_BT_logic_map(adapter,addr, cnts, data);
++
++	return _SUCCESS;
++}
++
++u8 rtw_BT_efuse_map_write(PADAPTER adapter, u16 addr, u16 cnts, u8 *data)
++{
++#define RT_ASSERT_RET(expr)									\
++	if (!(expr)) {										\
++		printk("Assertion failed! %s at ......\n", #expr);				\
++		printk("	  ......%s,%s, line=%d\n",__FILE__, __FUNCTION__, __LINE__);	\
++		return _FAIL;	\
++	}
++
++	u8	offset, word_en;
++	u8	*map;
++	u8	newdata[PGPKT_DATA_SIZE];
++	s32 i = 0, j = 0, idx;
++	u8	ret = _SUCCESS;
++	u16 mapLen = 1024;
++
++	if ((addr + cnts) > mapLen)
++		return _FAIL;
++
++	RT_ASSERT_RET(PGPKT_DATA_SIZE == 8); /* have to be 8 byte alignment */
++	RT_ASSERT_RET((mapLen & 0x7) == 0); /* have to be PGPKT_DATA_SIZE alignment for memcpy */
++
++	map = rtw_zmalloc(mapLen);
++	if (map == NULL)
++		return _FAIL;
++
++	ret = rtw_BT_efuse_map_read(adapter, 0, mapLen, map);
++	if (ret == _FAIL)
++		goto exit;
++	RTW_INFO("OFFSET\tVALUE(hex)\n");
++	for (i = 0; i < 1024; i += 16) { /* set 512 because the iwpriv's extra size have limit 0x7FF */
++		RTW_INFO("0x%03x\t", i);
++		for (j = 0; j < 8; j++)
++			RTW_INFO("%02X ", map[i + j]);
++		RTW_INFO("\t");
++		for (; j < 16; j++)
++			RTW_INFO("%02X ", map[i + j]);
++		RTW_INFO("\n");
++	}
++	RTW_INFO("\n");
++
++	idx = 0;
++	offset = (addr >> 3);
++	while (idx < cnts) {
++		word_en = 0xF;
++		j = (addr + idx) & 0x7;
++		_rtw_memcpy(newdata, &map[offset << 3], PGPKT_DATA_SIZE);
++		for (i = j; i < PGPKT_DATA_SIZE && idx < cnts; i++, idx++) {
++			if (data[idx] != map[addr + idx]) {
++				word_en &= ~BIT(i >> 1);
++				newdata[i] = data[idx];
++			}
++		}
++
++		if (word_en != 0xF) {
++			RTW_INFO("offset=%x\n", offset);
++			RTW_INFO("word_en=%x\n", word_en);
++			RTW_INFO("%s: data=", __FUNCTION__);
++			for (i = 0; i < PGPKT_DATA_SIZE; i++)
++				RTW_INFO("0x%02X ", newdata[i]);
++			RTW_INFO("\n");
++			ret = EfusePgPacketWrite_BT(adapter, offset, word_en, newdata, _FALSE);
++			if (ret == _FAIL)
++				break;
++		}
++		offset++;
++	}
++exit:
++	rtw_mfree(map, mapLen);
++	return _SUCCESS;
++}
++
++VOID hal_ReadEFuse_BT_logic_map(
++	PADAPTER	padapter,
++	u16			_offset,
++	u16			_size_byte,
++	u8			*pbuf
++)
++{
++
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	PEFUSE_HAL		pEfuseHal = &pHalData->EfuseHal;
++
++	u8	*efuseTbl, *phyefuse;
++	u8	bank;
++	u16	eFuse_Addr = 0;
++	u8	efuseHeader, efuseExtHdr, efuseData;
++	u8	offset, wden;
++	u16	i, total, used;
++	u8	efuse_usage;
++
++
++	/* */
++	/* Do NOT excess total size of EFuse table. Added by Roger, 2008.11.10. */
++	/* */
++	if ((_offset + _size_byte) > EFUSE_BT_MAP_LEN) {
++		RTW_INFO("%s: Invalid offset(%#x) with read bytes(%#x)!!\n", __FUNCTION__, _offset, _size_byte);
++		return;
++	}
++
++	efuseTbl = rtw_malloc(EFUSE_BT_MAP_LEN);
++	phyefuse = rtw_malloc(EFUSE_BT_REAL_BANK_CONTENT_LEN);
++	if (efuseTbl == NULL || phyefuse == NULL) {
++		RTW_INFO("%s: efuseTbl or phyefuse malloc fail!\n", __FUNCTION__);
++		goto exit;
++	}
++
++	/* 0xff will be efuse default value instead of 0x00. */
++	_rtw_memset(efuseTbl, 0xFF, EFUSE_BT_MAP_LEN);
++	_rtw_memset(phyefuse, 0xFF, EFUSE_BT_REAL_BANK_CONTENT_LEN);
++
++	if(rtw_efuse_bt_access(padapter, _FALSE, 0, EFUSE_BT_REAL_BANK_CONTENT_LEN, phyefuse))
++		dump_buf(phyefuse, EFUSE_BT_REAL_BANK_CONTENT_LEN);
++	
++	total = BANK_NUM;
++	for (bank = 1; bank <= total; bank++) { /* 8723d Max bake 0~2 */
++		eFuse_Addr = 0;
++
++		while (AVAILABLE_EFUSE_ADDR(eFuse_Addr)) {
++			/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseHeader, bPseudoTest); */
++			efuseHeader = phyefuse[eFuse_Addr++];
++
++			if (efuseHeader == 0xFF)
++				break;
++			RTW_INFO("%s: efuse[%#X]=0x%02x (header)\n", __FUNCTION__, (((bank - 1) * EFUSE_BT_REAL_CONTENT_LEN) + eFuse_Addr - 1), efuseHeader);
++
++			/* Check PG header for section num. */
++			if (EXT_HEADER(efuseHeader)) {	/* extended header */
++				offset = GET_HDR_OFFSET_2_0(efuseHeader);
++				RTW_INFO("%s: extended header offset_2_0=0x%X\n", __FUNCTION__, offset);
++
++				/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseExtHdr, bPseudoTest); */
++				efuseExtHdr = phyefuse[eFuse_Addr++];
++
++				RTW_INFO("%s: efuse[%#X]=0x%02x (ext header)\n", __FUNCTION__, (((bank - 1) * EFUSE_BT_REAL_CONTENT_LEN) + eFuse_Addr - 1), efuseExtHdr);
++				if (ALL_WORDS_DISABLED(efuseExtHdr))
++					continue;
++
++				offset |= ((efuseExtHdr & 0xF0) >> 1);
++				wden = (efuseExtHdr & 0x0F);
++			} else {
++				offset = ((efuseHeader >> 4) & 0x0f);
++				wden = (efuseHeader & 0x0f);
++			}
++
++			if (offset < EFUSE_BT_MAX_SECTION) {
++				u16 addr;
++
++				/* Get word enable value from PG header */
++				RTW_INFO("%s: Offset=%d Worden=%#X\n", __FUNCTION__, offset, wden);
++
++				addr = offset * PGPKT_DATA_SIZE;
++				for (i = 0; i < EFUSE_MAX_WORD_UNIT; i++) {
++					/* Check word enable condition in the section */
++					if (!(wden & (0x01 << i))) {
++						efuseData = 0;
++						/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseData, bPseudoTest); */
++						efuseData = phyefuse[eFuse_Addr++];
++
++						RTW_INFO("%s: efuse[%#X]=0x%02X\n", __FUNCTION__, eFuse_Addr - 1, efuseData);
++						efuseTbl[addr] = efuseData;
++
++						efuseData = 0;
++						/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseData, bPseudoTest); */
++						efuseData = phyefuse[eFuse_Addr++];
++
++						RTW_INFO("%s: efuse[%#X]=0x%02X\n", __FUNCTION__, eFuse_Addr - 1, efuseData);
++						efuseTbl[addr + 1] = efuseData;
++					}
++					addr += 2;
++				}
++			} else {
++				RTW_INFO("%s: offset(%d) is illegal!!\n", __FUNCTION__, offset);
++				eFuse_Addr += Efuse_CalculateWordCnts(wden) * 2;
++			}
++		}
++
++		if ((eFuse_Addr - 1) < total) {
++			RTW_INFO("%s: bank(%d) data end at %#x\n", __FUNCTION__, bank, eFuse_Addr - 1);
++			break;
++		}
++	}
++
++	/* switch bank back to bank 0 for later BT and wifi use. */
++	//hal_EfuseSwitchToBank(padapter, 0, bPseudoTest);
++
++	/* Copy from Efuse map to output pointer memory!!! */
++	for (i = 0; i < _size_byte; i++)
++		pbuf[i] = efuseTbl[_offset + i];
++	/* Calculate Efuse utilization */
++	total = EFUSE_BT_REAL_BANK_CONTENT_LEN;
++
++	used = eFuse_Addr - 1;
++
++	if (total)
++		efuse_usage = (u8)((used * 100) / total);
++	else
++		efuse_usage = 100;
++
++	fakeBTEfuseUsedBytes = used;
++
++exit:
++	if (efuseTbl)
++		rtw_mfree(efuseTbl, EFUSE_BT_MAP_LEN);
++	if (phyefuse)
++		rtw_mfree(phyefuse, EFUSE_BT_REAL_BANK_CONTENT_LEN);
++}
++
++
++static u8 hal_EfusePartialWriteCheck(
++	PADAPTER		padapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	PEFUSE_HAL		pEfuseHal = &pHalData->EfuseHal;
++	u8	bRet = _FALSE;
++	u16	startAddr = 0, efuse_max_available_len = EFUSE_BT_REAL_BANK_CONTENT_LEN, efuse_max = EFUSE_BT_REAL_BANK_CONTENT_LEN;
++	u8	efuse_data = 0;
++
++	startAddr = (u16)fakeBTEfuseUsedBytes;
++
++	startAddr %= efuse_max;
++	RTW_INFO("%s: startAddr=%#X\n", __FUNCTION__, startAddr);
++
++	while (1) {
++		if (startAddr >= efuse_max_available_len) {
++			bRet = _FALSE;
++			RTW_INFO("%s: startAddr(%d) >= efuse_max_available_len(%d)\n",
++				__FUNCTION__, startAddr, efuse_max_available_len);
++			break;
++		}
++		if (rtw_efuse_bt_access(padapter, _FALSE, startAddr, 1, &efuse_data)&& (efuse_data != 0xFF)) {
++			bRet = _FALSE;
++			RTW_INFO("%s: Something Wrong! last bytes(%#X=0x%02X) is not 0xFF\n",
++				 __FUNCTION__, startAddr, efuse_data);
++			break;
++		} else {
++			/* not used header, 0xff */
++			*pAddr = startAddr;
++			/*			RTW_INFO("%s: Started from unused header offset=%d\n", __FUNCTION__, startAddr)); */
++			bRet = _TRUE;
++			break;
++		}
++	}
++
++	return bRet;
++}
++
++
++static u8 hal_EfusePgPacketWrite2ByteHeader(
++	PADAPTER		padapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	u16	efuse_addr, efuse_max_available_len = EFUSE_BT_REAL_BANK_CONTENT_LEN;
++	u8	pg_header = 0, tmp_header = 0;
++	u8	repeatcnt = 0;
++
++	/*	RTW_INFO("%s\n", __FUNCTION__); */
++
++	efuse_addr = *pAddr;
++	if (efuse_addr >= efuse_max_available_len) {
++		RTW_INFO("%s: addr(%d) over avaliable(%d)!!\n", __FUNCTION__, efuse_addr, efuse_max_available_len);
++		return _FALSE;
++	}
++
++	pg_header = ((pTargetPkt->offset & 0x07) << 5) | 0x0F;
++	/*	RTW_INFO("%s: pg_header=0x%x\n", __FUNCTION__, pg_header); */
++
++	do {
++		
++		rtw_efuse_bt_access(padapter, _TRUE, efuse_addr, 1, &pg_header);
++		rtw_efuse_bt_access(padapter, _FALSE, efuse_addr, 1, &tmp_header);
++
++		if (tmp_header != 0xFF)
++			break;
++		if (repeatcnt++ > EFUSE_REPEAT_THRESHOLD_) {
++			RTW_INFO("%s: Repeat over limit for pg_header!!\n", __FUNCTION__);
++			return _FALSE;
++		}
++	} while (1);
++
++	if (tmp_header != pg_header) {
++		RTW_ERR("%s: PG Header Fail!!(pg=0x%02X read=0x%02X)\n", __FUNCTION__, pg_header, tmp_header);
++		return _FALSE;
++	}
++
++	/* to write ext_header */
++	efuse_addr++;
++	pg_header = ((pTargetPkt->offset & 0x78) << 1) | pTargetPkt->word_en;
++
++	do {
++		rtw_efuse_bt_access(padapter, _TRUE, efuse_addr, 1, &pg_header);
++		rtw_efuse_bt_access(padapter, _FALSE, efuse_addr, 1, &tmp_header);
++
++		if (tmp_header != 0xFF)
++			break;
++		if (repeatcnt++ > EFUSE_REPEAT_THRESHOLD_) {
++			RTW_INFO("%s: Repeat over limit for ext_header!!\n", __FUNCTION__);
++			return _FALSE;
++		}
++	} while (1);
++
++	if (tmp_header != pg_header) {	/* offset PG fail */
++		RTW_ERR("%s: PG EXT Header Fail!!(pg=0x%02X read=0x%02X)\n", __FUNCTION__, pg_header, tmp_header);
++		return _FALSE;
++	}
++
++	*pAddr = efuse_addr;
++
++	return _TRUE;
++}
++
++
++static u8 hal_EfusePgPacketWrite1ByteHeader(
++	PADAPTER		pAdapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	u8	bRet = _FALSE;
++	u8	pg_header = 0, tmp_header = 0;
++	u16	efuse_addr = *pAddr;
++	u8	repeatcnt = 0;
++
++
++	/*	RTW_INFO("%s\n", __FUNCTION__); */
++	pg_header = ((pTargetPkt->offset << 4) & 0xf0) | pTargetPkt->word_en;
++
++	do {
++		rtw_efuse_bt_access(pAdapter, _TRUE, efuse_addr, 1, &pg_header);
++		rtw_efuse_bt_access(pAdapter, _FALSE, efuse_addr, 1, &tmp_header);
++
++		if (tmp_header != 0xFF)
++			break;
++		if (repeatcnt++ > EFUSE_REPEAT_THRESHOLD_) {
++			RTW_INFO("%s: Repeat over limit for pg_header!!\n", __FUNCTION__);
++			return _FALSE;
++		}
++	} while (1);
++
++	if (tmp_header != pg_header) {
++		RTW_ERR("%s: PG Header Fail!!(pg=0x%02X read=0x%02X)\n", __FUNCTION__, pg_header, tmp_header);
++		return _FALSE;
++	}
++
++	*pAddr = efuse_addr;
++
++	return _TRUE;
++}
++
++static u8 hal_EfusePgPacketWriteHeader(
++	PADAPTER		padapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	u8 bRet = _FALSE;
++
++	if (pTargetPkt->offset >= EFUSE_MAX_SECTION_BASE)
++		bRet = hal_EfusePgPacketWrite2ByteHeader(padapter, efuseType, pAddr, pTargetPkt, bPseudoTest);
++	else
++		bRet = hal_EfusePgPacketWrite1ByteHeader(padapter, efuseType, pAddr, pTargetPkt, bPseudoTest);
++
++	return bRet;
++}
++
++
++static u8
++Hal_EfuseWordEnableDataWrite(
++	PADAPTER	padapter,
++	u16			efuse_addr,
++	u8			word_en,
++	u8			*data,
++	u8			bPseudoTest)
++{
++	u16	tmpaddr = 0;
++	u16	start_addr = efuse_addr;
++	u8	badworden = 0x0F;
++	u8	tmpdata[PGPKT_DATA_SIZE];
++
++
++	/*	RTW_INFO("%s: efuse_addr=%#x word_en=%#x\n", __FUNCTION__, efuse_addr, word_en); */
++	_rtw_memset(tmpdata, 0xFF, PGPKT_DATA_SIZE);
++
++	if (!(word_en & BIT(0))) {
++		tmpaddr = start_addr;
++		rtw_efuse_bt_access(padapter, _TRUE, start_addr++, 1, &data[0]);
++		rtw_efuse_bt_access(padapter, _TRUE, start_addr++, 1, &data[1]);
++		rtw_efuse_bt_access(padapter, _FALSE, tmpaddr, 1, &tmpdata[0]);
++		rtw_efuse_bt_access(padapter, _FALSE, tmpaddr + 1, 1, &tmpdata[1]);
++		if ((data[0] != tmpdata[0]) || (data[1] != tmpdata[1]))
++			badworden &= (~BIT(0));
++	}
++	if (!(word_en & BIT(1))) {
++		tmpaddr = start_addr;
++		rtw_efuse_bt_access(padapter, _TRUE, start_addr++, 1, &data[2]);
++		rtw_efuse_bt_access(padapter, _TRUE, start_addr++, 1, &data[3]);
++		rtw_efuse_bt_access(padapter, _FALSE, tmpaddr, 1, &tmpdata[2]);
++		rtw_efuse_bt_access(padapter, _FALSE, tmpaddr + 1, 1, &tmpdata[3]);
++		if ((data[2] != tmpdata[2]) || (data[3] != tmpdata[3]))
++			badworden &= (~BIT(1));
++	}
++	if (!(word_en & BIT(2))) {
++		tmpaddr = start_addr;
++		rtw_efuse_bt_access(padapter, _TRUE, start_addr++, 1, &data[4]);
++		rtw_efuse_bt_access(padapter, _TRUE, start_addr++, 1, &data[5]);
++		rtw_efuse_bt_access(padapter, _FALSE, tmpaddr, 1, &tmpdata[4]);
++		rtw_efuse_bt_access(padapter, _FALSE, tmpaddr + 1, 1, &tmpdata[5]);
++		if ((data[4] != tmpdata[4]) || (data[5] != tmpdata[5]))
++			badworden &= (~BIT(2));
++	}
++	if (!(word_en & BIT(3))) {
++		tmpaddr = start_addr;
++		rtw_efuse_bt_access(padapter, _TRUE, start_addr++, 1, &data[6]);
++		rtw_efuse_bt_access(padapter, _TRUE, start_addr++, 1, &data[7]);
++		rtw_efuse_bt_access(padapter, _FALSE, tmpaddr, 1, &tmpdata[6]);
++		rtw_efuse_bt_access(padapter, _FALSE, tmpaddr + 1, 1, &tmpdata[7]);
++
++		if ((data[6] != tmpdata[6]) || (data[7] != tmpdata[7]))
++			badworden &= (~BIT(3));
++	}
++
++	return badworden;
++}
++
++static void
++hal_EfuseConstructPGPkt(
++	u8				offset,
++	u8				word_en,
++	u8				*pData,
++	PPGPKT_STRUCT	pTargetPkt)
++{
++	_rtw_memset(pTargetPkt->data, 0xFF, PGPKT_DATA_SIZE);
++	pTargetPkt->offset = offset;
++	pTargetPkt->word_en = word_en;
++	efuse_WordEnableDataRead(word_en, pData, pTargetPkt->data);
++	pTargetPkt->word_cnts = Efuse_CalculateWordCnts(pTargetPkt->word_en);
++}
++
++static u8
++hal_EfusePgPacketWriteData(
++	PADAPTER		pAdapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	u16	efuse_addr;
++	u8	badworden;
++
++	efuse_addr = *pAddr;
++	badworden = Hal_EfuseWordEnableDataWrite(pAdapter, efuse_addr + 1, pTargetPkt->word_en, pTargetPkt->data, bPseudoTest);
++	if (badworden != 0x0F) {
++		RTW_INFO("%s: Fail!!\n", __FUNCTION__);
++		return _FALSE;
++	}
++
++	/*	RTW_INFO("%s: ok\n", __FUNCTION__); */
++	return _TRUE;
++}
++
++u8 EfusePgPacketWrite_BT(
++	PADAPTER	pAdapter,
++	u8			offset,
++	u8			word_en,
++	u8			*pData,
++	u8			bPseudoTest)
++{
++	PGPKT_STRUCT targetPkt;
++	u16 startAddr = 0;
++	u8 efuseType = EFUSE_BT;
++
++	hal_EfuseConstructPGPkt(offset, word_en, pData, &targetPkt);
++
++	if (!hal_EfusePartialWriteCheck(pAdapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	if (!hal_EfusePgPacketWriteHeader(pAdapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	if (!hal_EfusePgPacketWriteData(pAdapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	return _TRUE;
++}
++
++
++#else /* !RTW_HALMAC */
++/* ------------------------------------------------------------------------------ */
++#define REG_EFUSE_CTRL		0x0030
++#define EFUSE_CTRL			REG_EFUSE_CTRL		/* E-Fuse Control. */
++/* ------------------------------------------------------------------------------ */
++
++BOOLEAN
++Efuse_Read1ByteFromFakeContent(
++	IN		PADAPTER	pAdapter,
++	IN		u16		Offset,
++	IN OUT	u8		*Value);
++BOOLEAN
++Efuse_Read1ByteFromFakeContent(
++	IN		PADAPTER	pAdapter,
++	IN		u16		Offset,
++	IN OUT	u8		*Value)
++{
++	if (Offset >= EFUSE_MAX_HW_SIZE)
++		return _FALSE;
++	/* DbgPrint("Read fake content, offset = %d\n", Offset); */
++	if (fakeEfuseBank == 0)
++		*Value = fakeEfuseContent[Offset];
++	else
++		*Value = fakeBTEfuseContent[fakeEfuseBank - 1][Offset];
++	return _TRUE;
++}
++
++BOOLEAN
++Efuse_Write1ByteToFakeContent(
++	IN		PADAPTER	pAdapter,
++	IN		u16		Offset,
++	IN		u8		Value);
++BOOLEAN
++Efuse_Write1ByteToFakeContent(
++	IN		PADAPTER	pAdapter,
++	IN		u16		Offset,
++	IN		u8		Value)
++{
++	if (Offset >= EFUSE_MAX_HW_SIZE)
++		return _FALSE;
++	if (fakeEfuseBank == 0)
++		fakeEfuseContent[Offset] = Value;
++	else
++		fakeBTEfuseContent[fakeEfuseBank - 1][Offset] = Value;
++	return _TRUE;
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	Efuse_PowerSwitch
++ *
++ * Overview:	When we want to enable write operation, we should change to
++ *				pwr on state. When we stop write, we should switch to 500k mode
++ *				and disable LDO 2.5V.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/17/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++Efuse_PowerSwitch(
++	IN	PADAPTER	pAdapter,
++	IN	u8		bWrite,
++	IN	u8		PwrState)
++{
++	pAdapter->HalFunc.EfusePowerSwitch(pAdapter, bWrite, PwrState);
++}
++
++VOID
++BTEfuse_PowerSwitch(
++	IN	PADAPTER	pAdapter,
++	IN	u8		bWrite,
++	IN	u8		PwrState)
++{
++	if (pAdapter->HalFunc.BTEfusePowerSwitch)
++		pAdapter->HalFunc.BTEfusePowerSwitch(pAdapter, bWrite, PwrState);
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	efuse_GetCurrentSize
++ *
++ * Overview:	Get current efuse size!!!
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/16/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++u16
++Efuse_GetCurrentSize(
++	IN PADAPTER		pAdapter,
++	IN u8			efuseType,
++	IN BOOLEAN		bPseudoTest)
++{
++	u16 ret = 0;
++
++	ret = pAdapter->HalFunc.EfuseGetCurrentSize(pAdapter, efuseType, bPseudoTest);
++
++	return ret;
++}
++
++/*
++ *	Description:
++ *		Execute E-Fuse read byte operation.
++ *		Refered from SD1 Richard.
++ *
++ *	Assumption:
++ *		1. Boot from E-Fuse and successfully auto-load.
++ *		2. PASSIVE_LEVEL (USB interface)
++ *
++ *	Created by Roger, 2008.10.21.
++ *   */
++VOID
++ReadEFuseByte(
++	PADAPTER	Adapter,
++	u16			_offset,
++	u8			*pbuf,
++	IN BOOLEAN	bPseudoTest)
++{
++	u32	value32;
++	u8	readbyte;
++	u16	retry;
++	/* u32 start=rtw_get_current_time(); */
++
++	if (bPseudoTest) {
++		Efuse_Read1ByteFromFakeContent(Adapter, _offset, pbuf);
++		return;
++	}
++	if (IS_HARDWARE_TYPE_8723B(Adapter)) {
++		/* <20130121, Kordan> For SMIC S55 EFUSE specificatoin. */
++		/* 0x34[11]: SW force PGMEN input of efuse to high. (for the bank selected by 0x34[9:8]) */
++		PHY_SetMacReg(Adapter, EFUSE_TEST, BIT11, 0);
++	}
++	/* Write Address */
++	rtw_write8(Adapter, EFUSE_CTRL + 1, (_offset & 0xff));
++	readbyte = rtw_read8(Adapter, EFUSE_CTRL + 2);
++	rtw_write8(Adapter, EFUSE_CTRL + 2, ((_offset >> 8) & 0x03) | (readbyte & 0xfc));
++
++	/* Write bit 32 0 */
++	readbyte = rtw_read8(Adapter, EFUSE_CTRL + 3);
++	rtw_write8(Adapter, EFUSE_CTRL + 3, (readbyte & 0x7f));
++
++	/* Check bit 32 read-ready */
++	retry = 0;
++	value32 = rtw_read32(Adapter, EFUSE_CTRL);
++	/* while(!(((value32 >> 24) & 0xff) & 0x80)  && (retry<10)) */
++	while (!(((value32 >> 24) & 0xff) & 0x80)  && (retry < 10000)) {
++		value32 = rtw_read32(Adapter, EFUSE_CTRL);
++		retry++;
++	}
++
++	/* 20100205 Joseph: Add delay suggested by SD1 Victor. */
++	/* This fix the problem that Efuse read error in high temperature condition. */
++	/* Designer says that there shall be some delay after ready bit is set, or the */
++	/* result will always stay on last data we read. */
++	rtw_udelay_os(50);
++	value32 = rtw_read32(Adapter, EFUSE_CTRL);
++
++	*pbuf = (u8)(value32 & 0xff);
++	/* RTW_INFO("ReadEFuseByte _offset:%08u, in %d ms\n",_offset ,rtw_get_passing_time_ms(start)); */
++
++}
++
++/*
++ *	Description:
++ *		1. Execute E-Fuse read byte operation according as map offset and
++ *		    save to E-Fuse table.
++ *		2. Refered from SD1 Richard.
++ *
++ *	Assumption:
++ *		1. Boot from E-Fuse and successfully auto-load.
++ *		2. PASSIVE_LEVEL (USB interface)
++ *
++ *	Created by Roger, 2008.10.21.
++ *
++ *	2008/12/12 MH	1. Reorganize code flow and reserve bytes. and add description.
++ *					2. Add efuse utilization collect.
++ *	2008/12/22 MH	Read Efuse must check if we write section 1 data again!!! Sec1
++ *					write addr must be after sec5.
++ *   */
++
++VOID
++efuse_ReadEFuse(
++	PADAPTER	Adapter,
++	u8		efuseType,
++	u16		_offset,
++	u16		_size_byte,
++	u8	*pbuf,
++	IN	BOOLEAN	bPseudoTest
++);
++VOID
++efuse_ReadEFuse(
++	PADAPTER	Adapter,
++	u8		efuseType,
++	u16		_offset,
++	u16		_size_byte,
++	u8	*pbuf,
++	IN	BOOLEAN	bPseudoTest
++)
++{
++	Adapter->HalFunc.ReadEFuse(Adapter, efuseType, _offset, _size_byte, pbuf, bPseudoTest);
++}
++
++VOID
++EFUSE_GetEfuseDefinition(
++	IN		PADAPTER	pAdapter,
++	IN		u8		efuseType,
++	IN		u8		type,
++	OUT		void		*pOut,
++	IN		BOOLEAN		bPseudoTest
++)
++{
++	pAdapter->HalFunc.EFUSEGetEfuseDefinition(pAdapter, efuseType, type, pOut, bPseudoTest);
++}
++
++
++/*  11/16/2008 MH Read one byte from real Efuse. */
++u8
++efuse_OneByteRead(
++	IN	PADAPTER	pAdapter,
++	IN	u16			addr,
++	IN	u8			*data,
++	IN	BOOLEAN		bPseudoTest)
++{
++	u32	tmpidx = 0;
++	u8	bResult;
++	u8	readbyte;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	/* RTW_INFO("===> EFUSE_OneByteRead(), addr = %x\n", addr); */
++	/* RTW_INFO("===> EFUSE_OneByteRead() start, 0x34 = 0x%X\n", rtw_read32(pAdapter, EFUSE_TEST)); */
++
++	if (bPseudoTest) {
++		bResult = Efuse_Read1ByteFromFakeContent(pAdapter, addr, data);
++		return bResult;
++	}
++
++	if (IS_HARDWARE_TYPE_8723B(pAdapter) ||
++	    (IS_HARDWARE_TYPE_8192E(pAdapter) && (!IS_A_CUT(pHalData->VersionID))) ||
++	    (IS_VENDOR_8188E_I_CUT_SERIES(pAdapter)) || (IS_CHIP_VENDOR_SMIC(pHalData->VersionID))
++	   ) {
++		/* <20130121, Kordan> For SMIC EFUSE specificatoin. */
++		/* 0x34[11]: SW force PGMEN input of efuse to high. (for the bank selected by 0x34[9:8])	 */
++		/* PHY_SetMacReg(pAdapter, 0x34, BIT11, 0); */
++		rtw_write16(pAdapter, 0x34, rtw_read16(pAdapter, 0x34) & (~BIT11));
++	}
++
++	/* -----------------e-fuse reg ctrl --------------------------------- */
++	/* address			 */
++	rtw_write8(pAdapter, EFUSE_CTRL + 1, (u8)(addr & 0xff));
++	rtw_write8(pAdapter, EFUSE_CTRL + 2, ((u8)((addr >> 8) & 0x03)) |
++		   (rtw_read8(pAdapter, EFUSE_CTRL + 2) & 0xFC));
++
++	/* rtw_write8(pAdapter, EFUSE_CTRL+3,  0x72); */ /* read cmd	 */
++	/* Write bit 32 0 */
++	readbyte = rtw_read8(pAdapter, EFUSE_CTRL + 3);
++	rtw_write8(pAdapter, EFUSE_CTRL + 3, (readbyte & 0x7f));
++
++	while (!(0x80 & rtw_read8(pAdapter, EFUSE_CTRL + 3)) && (tmpidx < 1000)) {
++		rtw_mdelay_os(1);
++		tmpidx++;
++	}
++	if (tmpidx < 100) {
++		*data = rtw_read8(pAdapter, EFUSE_CTRL);
++		bResult = _TRUE;
++	} else {
++		*data = 0xff;
++		bResult = _FALSE;
++		RTW_INFO("%s: [ERROR] addr=0x%x bResult=%d time out 1s !!!\n", __FUNCTION__, addr, bResult);
++		RTW_INFO("%s: [ERROR] EFUSE_CTRL =0x%08x !!!\n", __FUNCTION__, rtw_read32(pAdapter, EFUSE_CTRL));
++	}
++
++	return bResult;
++}
++
++/*  11/16/2008 MH Write one byte to reald Efuse. */
++u8
++efuse_OneByteWrite(
++	IN	PADAPTER	pAdapter,
++	IN	u16			addr,
++	IN	u8			data,
++	IN	BOOLEAN		bPseudoTest)
++{
++	u8	tmpidx = 0;
++	u8	bResult = _FALSE;
++	u32 efuseValue = 0;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	/* RTW_INFO("===> EFUSE_OneByteWrite(), addr = %x data=%x\n", addr, data); */
++	/* RTW_INFO("===> EFUSE_OneByteWrite() start, 0x34 = 0x%X\n", rtw_read32(pAdapter, EFUSE_TEST)); */
++
++	if (bPseudoTest) {
++		bResult = Efuse_Write1ByteToFakeContent(pAdapter, addr, data);
++		return bResult;
++	}
++
++
++	/* -----------------e-fuse reg ctrl ---------------------------------	 */
++	/* address			 */
++
++
++	efuseValue = rtw_read32(pAdapter, EFUSE_CTRL);
++	efuseValue |= (BIT21 | BIT31);
++	efuseValue &= ~(0x3FFFF);
++	efuseValue |= ((addr << 8 | data) & 0x3FFFF);
++
++	/* <20130227, Kordan> 8192E MP chip A-cut had better not set 0x34[11] until B-Cut. */
++	if (IS_HARDWARE_TYPE_8723B(pAdapter) ||
++	    (IS_HARDWARE_TYPE_8192E(pAdapter) && (!IS_A_CUT(pHalData->VersionID))) ||
++	    (IS_VENDOR_8188E_I_CUT_SERIES(pAdapter)) || (IS_CHIP_VENDOR_SMIC(pHalData->VersionID))
++	   ) {
++		/* <20130121, Kordan> For SMIC EFUSE specificatoin. */
++		/* 0x34[11]: SW force PGMEN input of efuse to high. (for the bank selected by 0x34[9:8]) */
++		/* PHY_SetMacReg(pAdapter, 0x34, BIT11, 1); */
++		rtw_write16(pAdapter, 0x34, rtw_read16(pAdapter, 0x34) | (BIT11));
++		rtw_write32(pAdapter, EFUSE_CTRL, 0x90600000 | ((addr << 8 | data)));
++	} else
++		rtw_write32(pAdapter, EFUSE_CTRL, efuseValue);
++
++	while ((0x80 &  rtw_read8(pAdapter, EFUSE_CTRL + 3)) && (tmpidx < 100)) {
++		rtw_mdelay_os(1);
++		tmpidx++;
++	}
++
++	if (tmpidx < 100)
++		bResult = _TRUE;
++	else {
++		bResult = _FALSE;
++		RTW_INFO("%s: [ERROR] addr=0x%x ,efuseValue=0x%x ,bResult=%d time out 1s !!!\n",
++			 __FUNCTION__, addr, efuseValue, bResult);
++		RTW_INFO("%s: [ERROR] EFUSE_CTRL =0x%08x !!!\n", __FUNCTION__, rtw_read32(pAdapter, EFUSE_CTRL));
++	}
++
++	/* disable Efuse program enable */
++	if (IS_HARDWARE_TYPE_8723B(pAdapter) ||
++	    (IS_HARDWARE_TYPE_8192E(pAdapter) && (!IS_A_CUT(pHalData->VersionID))) ||
++	    (IS_VENDOR_8188E_I_CUT_SERIES(pAdapter)) || (IS_CHIP_VENDOR_SMIC(pHalData->VersionID))
++	   )
++		PHY_SetMacReg(pAdapter, EFUSE_TEST, BIT(11), 0);
++
++	return bResult;
++}
++
++int
++Efuse_PgPacketRead(IN	PADAPTER	pAdapter,
++		   IN	u8			offset,
++		   IN	u8			*data,
++		   IN	BOOLEAN		bPseudoTest)
++{
++	int	ret = 0;
++
++	ret =  pAdapter->HalFunc.Efuse_PgPacketRead(pAdapter, offset, data, bPseudoTest);
++
++	return ret;
++}
++
++int
++Efuse_PgPacketWrite(IN	PADAPTER	pAdapter,
++		    IN	u8			offset,
++		    IN	u8			word_en,
++		    IN	u8			*data,
++		    IN	BOOLEAN		bPseudoTest)
++{
++	int ret;
++
++	ret =  pAdapter->HalFunc.Efuse_PgPacketWrite(pAdapter, offset, word_en, data, bPseudoTest);
++
++	return ret;
++}
++
++
++int
++Efuse_PgPacketWrite_BT(IN	PADAPTER	pAdapter,
++		       IN	u8			offset,
++		       IN	u8			word_en,
++		       IN	u8			*data,
++		       IN	BOOLEAN		bPseudoTest)
++{
++	int ret;
++
++	ret =  pAdapter->HalFunc.Efuse_PgPacketWrite_BT(pAdapter, offset, word_en, data, bPseudoTest);
++
++	return ret;
++}
++
++
++u8
++Efuse_WordEnableDataWrite(IN	PADAPTER	pAdapter,
++			  IN	u16		efuse_addr,
++			  IN	u8		word_en,
++			  IN	u8		*data,
++			  IN	BOOLEAN		bPseudoTest)
++{
++	u8	ret = 0;
++
++	ret =  pAdapter->HalFunc.Efuse_WordEnableDataWrite(pAdapter, efuse_addr, word_en, data, bPseudoTest);
++
++	return ret;
++}
++
++static u8 efuse_read8(PADAPTER padapter, u16 address, u8 *value)
++{
++	return efuse_OneByteRead(padapter, address, value, _FALSE);
++}
++
++static u8 efuse_write8(PADAPTER padapter, u16 address, u8 *value)
++{
++	return efuse_OneByteWrite(padapter, address, *value, _FALSE);
++}
++
++/*
++ * read/wirte raw efuse data
++ */
++u8 rtw_efuse_access(PADAPTER padapter, u8 bWrite, u16 start_addr, u16 cnts, u8 *data)
++{
++	int i = 0;
++	u16	real_content_len = 0, max_available_size = 0;
++	u8 res = _FAIL ;
++	u8(*rw8)(PADAPTER, u16, u8 *);
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_REAL_CONTENT_LEN, (PVOID)&real_content_len, _FALSE);
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_available_size, _FALSE);
++
++	if (start_addr > real_content_len)
++		return _FAIL;
++
++	if (_TRUE == bWrite) {
++		if ((start_addr + cnts) > max_available_size)
++			return _FAIL;
++		rw8 = &efuse_write8;
++	} else
++		rw8 = &efuse_read8;
++
++	Efuse_PowerSwitch(padapter, bWrite, _TRUE);
++
++	/* e-fuse one byte read / write */
++	for (i = 0; i < cnts; i++) {
++		if (start_addr >= real_content_len) {
++			res = _FAIL;
++			break;
++		}
++
++		res = rw8(padapter, start_addr++, data++);
++		if (_FAIL == res)
++			break;
++	}
++
++	Efuse_PowerSwitch(padapter, bWrite, _FALSE);
++
++	return res;
++}
++/* ------------------------------------------------------------------------------ */
++u16 efuse_GetMaxSize(PADAPTER padapter)
++{
++	u16	max_size;
++
++	max_size = 0;
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI , TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_size, _FALSE);
++	return max_size;
++}
++/* ------------------------------------------------------------------------------ */
++u8 efuse_GetCurrentSize(PADAPTER padapter, u16 *size)
++{
++	Efuse_PowerSwitch(padapter, _FALSE, _TRUE);
++	*size = Efuse_GetCurrentSize(padapter, EFUSE_WIFI, _FALSE);
++	Efuse_PowerSwitch(padapter, _FALSE, _FALSE);
++
++	return _SUCCESS;
++}
++/* ------------------------------------------------------------------------------ */
++u16 efuse_bt_GetMaxSize(PADAPTER padapter)
++{
++	u16	max_size;
++
++	max_size = 0;
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_BT , TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_size, _FALSE);
++	return max_size;
++}
++
++u8 efuse_bt_GetCurrentSize(PADAPTER padapter, u16 *size)
++{
++	Efuse_PowerSwitch(padapter, _FALSE, _TRUE);
++	*size = Efuse_GetCurrentSize(padapter, EFUSE_BT, _FALSE);
++	Efuse_PowerSwitch(padapter, _FALSE, _FALSE);
++
++	return _SUCCESS;
++}
++
++u8 rtw_efuse_map_read(PADAPTER padapter, u16 addr, u16 cnts, u8 *data)
++{
++	u16	mapLen = 0;
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
++
++	if ((addr + cnts) > mapLen)
++		return _FAIL;
++
++	Efuse_PowerSwitch(padapter, _FALSE, _TRUE);
++
++	efuse_ReadEFuse(padapter, EFUSE_WIFI, addr, cnts, data, _FALSE);
++
++	Efuse_PowerSwitch(padapter, _FALSE, _FALSE);
++
++	return _SUCCESS;
++}
++
++u8 rtw_BT_efuse_map_read(PADAPTER padapter, u16 addr, u16 cnts, u8 *data)
++{
++	u16	mapLen = 0;
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_BT, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
++
++	if ((addr + cnts) > mapLen)
++		return _FAIL;
++
++	Efuse_PowerSwitch(padapter, _FALSE, _TRUE);
++
++	efuse_ReadEFuse(padapter, EFUSE_BT, addr, cnts, data, _FALSE);
++
++	Efuse_PowerSwitch(padapter, _FALSE, _FALSE);
++
++	return _SUCCESS;
++}
++
++/* ------------------------------------------------------------------------------ */
++u8 rtw_efuse_map_write(PADAPTER padapter, u16 addr, u16 cnts, u8 *data)
++{
++#define RT_ASSERT_RET(expr)												\
++	if (!(expr)) {															\
++		printk("Assertion failed! %s at ......\n", #expr);							\
++		printk("      ......%s,%s, line=%d\n",__FILE__, __FUNCTION__, __LINE__);	\
++		return _FAIL;	\
++	}
++
++	u8	offset, word_en;
++	u8	*map;
++	u8	newdata[PGPKT_DATA_SIZE];
++	s32	i, j, idx;
++	u8	ret = _SUCCESS;
++	u16	mapLen = 0;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
++
++	if ((addr + cnts) > mapLen)
++		return _FAIL;
++
++	RT_ASSERT_RET(PGPKT_DATA_SIZE == 8); /* have to be 8 byte alignment */
++	RT_ASSERT_RET((mapLen & 0x7) == 0); /* have to be PGPKT_DATA_SIZE alignment for memcpy */
++
++	map = rtw_zmalloc(mapLen);
++	if (map == NULL)
++		return _FAIL;
++
++	_rtw_memset(map, 0xFF, mapLen);
++
++	ret = rtw_efuse_map_read(padapter, 0, mapLen, map);
++	if (ret == _FAIL)
++		goto exit;
++
++	if (padapter->registrypriv.boffefusemask == 0) {
++		for (i = 0; i < cnts; i++) {
++			if (padapter->registrypriv.bFileMaskEfuse == _TRUE) {
++				if (rtw_file_efuse_IsMasked(padapter, addr + i))	/*use file efuse mask. */
++					data[i] = map[addr + i];
++			} else {
++				if (efuse_IsMasked(padapter, addr + i))
++					data[i] = map[addr + i];
++			}
++			RTW_INFO("%s , data[%d] = %x, map[addr+i]= %x\n", __func__, i, data[i], map[addr + i]);
++		}
++	}
++	Efuse_PowerSwitch(padapter, _TRUE, _TRUE);
++
++	idx = 0;
++	offset = (addr >> 3);
++	while (idx < cnts) {
++		word_en = 0xF;
++		j = (addr + idx) & 0x7;
++		_rtw_memcpy(newdata, &map[offset << 3], PGPKT_DATA_SIZE);
++		for (i = j; i < PGPKT_DATA_SIZE && idx < cnts; i++, idx++) {
++			if (data[idx] != map[addr + idx]) {
++				word_en &= ~BIT(i >> 1);
++				newdata[i] = data[idx];
++#ifdef CONFIG_RTL8723B
++				if (addr + idx == 0x8) {
++					if (IS_C_CUT(pHalData->VersionID) || IS_B_CUT(pHalData->VersionID)) {
++						if (pHalData->adjuseVoltageVal == 6) {
++							newdata[i] = map[addr + idx];
++							RTW_INFO(" %s ,\n adjuseVoltageVal = %d ,newdata[%d] = %x\n", __func__, pHalData->adjuseVoltageVal, i, newdata[i]);
++						}
++					}
++				}
++#endif
++			}
++		}
++
++		if (word_en != 0xF) {
++			ret = Efuse_PgPacketWrite(padapter, offset, word_en, newdata, _FALSE);
++			RTW_INFO("offset=%x\n", offset);
++			RTW_INFO("word_en=%x\n", word_en);
++
++			for (i = 0; i < PGPKT_DATA_SIZE; i++)
++				RTW_INFO("data=%x \t", newdata[i]);
++			if (ret == _FAIL)
++				break;
++		}
++
++		offset++;
++	}
++
++	Efuse_PowerSwitch(padapter, _TRUE, _FALSE);
++
++exit:
++
++	rtw_mfree(map, mapLen);
++
++	return ret;
++}
++
++u8 rtw_efuse_mask_map_read(PADAPTER padapter, u16 addr, u16 cnts, u8 *data)
++{
++	u8	ret = _SUCCESS;
++	u16	mapLen = 0, i = 0;
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
++
++	ret = rtw_efuse_map_read(padapter, addr, cnts , data);
++
++	if (padapter->registrypriv.boffefusemask == 0) {
++
++		for (i = 0; i < cnts; i++) {
++			if (padapter->registrypriv.bFileMaskEfuse == _TRUE) {
++				if (rtw_file_efuse_IsMasked(padapter, addr + i)) /*use file efuse mask.*/
++					data[i] = 0xff;
++			} else {
++				/*RTW_INFO(" %s , data[%d] = %x\n", __func__, i, data[i]);*/
++				if (efuse_IsMasked(padapter, addr + i)) {
++					data[i] = 0xff;
++					/*RTW_INFO(" %s ,mask data[%d] = %x\n", __func__, i, data[i]);*/
++				}
++			}
++		}
++
++	}
++	return ret;
++
++}
++
++u8 rtw_BT_efuse_map_write(PADAPTER padapter, u16 addr, u16 cnts, u8 *data)
++{
++#define RT_ASSERT_RET(expr)												\
++	if (!(expr)) {															\
++		printk("Assertion failed! %s at ......\n", #expr);							\
++		printk("      ......%s,%s, line=%d\n",__FILE__, __FUNCTION__, __LINE__);	\
++		return _FAIL;	\
++	}
++
++	u8	offset, word_en;
++	u8	*map;
++	u8	newdata[PGPKT_DATA_SIZE];
++	s32	i = 0, j = 0, idx;
++	u8	ret = _SUCCESS;
++	u16	mapLen = 0;
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_BT, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
++
++	if ((addr + cnts) > mapLen)
++		return _FAIL;
++
++	RT_ASSERT_RET(PGPKT_DATA_SIZE == 8); /* have to be 8 byte alignment */
++	RT_ASSERT_RET((mapLen & 0x7) == 0); /* have to be PGPKT_DATA_SIZE alignment for memcpy */
++
++	map = rtw_zmalloc(mapLen);
++	if (map == NULL)
++		return _FAIL;
++
++	ret = rtw_BT_efuse_map_read(padapter, 0, mapLen, map);
++	if (ret == _FAIL)
++		goto exit;
++	RTW_INFO("OFFSET\tVALUE(hex)\n");
++	for (i = 0; i < 1024; i += 16) { /* set 512 because the iwpriv's extra size have limit 0x7FF */
++		RTW_INFO("0x%03x\t", i);
++		for (j = 0; j < 8; j++)
++			RTW_INFO("%02X ", map[i + j]);
++		RTW_INFO("\t");
++		for (; j < 16; j++)
++			RTW_INFO("%02X ", map[i + j]);
++		RTW_INFO("\n");
++	}
++	RTW_INFO("\n");
++	Efuse_PowerSwitch(padapter, _TRUE, _TRUE);
++
++	idx = 0;
++	offset = (addr >> 3);
++	while (idx < cnts) {
++		word_en = 0xF;
++		j = (addr + idx) & 0x7;
++		_rtw_memcpy(newdata, &map[offset << 3], PGPKT_DATA_SIZE);
++		for (i = j; i < PGPKT_DATA_SIZE && idx < cnts; i++, idx++) {
++			if (data[idx] != map[addr + idx]) {
++				word_en &= ~BIT(i >> 1);
++				newdata[i] = data[idx];
++			}
++		}
++
++		if (word_en != 0xF) {
++			RTW_INFO("offset=%x\n", offset);
++			RTW_INFO("word_en=%x\n", word_en);
++			RTW_INFO("%s: data=", __FUNCTION__);
++			for (i = 0; i < PGPKT_DATA_SIZE; i++)
++				RTW_INFO("0x%02X ", newdata[i]);
++			RTW_INFO("\n");
++			ret = Efuse_PgPacketWrite_BT(padapter, offset, word_en, newdata, _FALSE);
++			if (ret == _FAIL)
++				break;
++		}
++
++		offset++;
++	}
++
++	Efuse_PowerSwitch(padapter, _TRUE, _FALSE);
++
++exit:
++
++	rtw_mfree(map, mapLen);
++
++	return ret;
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	Efuse_ReadAllMap
++ *
++ * Overview:	Read All Efuse content
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/11/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++Efuse_ReadAllMap(
++	IN		PADAPTER	pAdapter,
++	IN		u8		efuseType,
++	IN OUT	u8		*Efuse,
++	IN		BOOLEAN		bPseudoTest);
++VOID
++Efuse_ReadAllMap(
++	IN		PADAPTER	pAdapter,
++	IN		u8		efuseType,
++	IN OUT	u8		*Efuse,
++	IN		BOOLEAN		bPseudoTest)
++{
++	u16	mapLen = 0;
++
++	Efuse_PowerSwitch(pAdapter, _FALSE, _TRUE);
++
++	EFUSE_GetEfuseDefinition(pAdapter, efuseType, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, bPseudoTest);
++
++	efuse_ReadEFuse(pAdapter, efuseType, 0, mapLen, Efuse, bPseudoTest);
++
++	Efuse_PowerSwitch(pAdapter, _FALSE, _FALSE);
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	efuse_ShadowRead1Byte
++ *			efuse_ShadowRead2Byte
++ *			efuse_ShadowRead4Byte
++ *
++ * Overview:	Read from efuse init map by one/two/four bytes !!!!!
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/12/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++static VOID
++efuse_ShadowRead1Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN OUT	u8		*Value)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++
++	*Value = pHalData->efuse_eeprom_data[Offset];
++
++}	/* EFUSE_ShadowRead1Byte */
++
++/* ---------------Read Two Bytes */
++static VOID
++efuse_ShadowRead2Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN OUT	u16		*Value)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++
++	*Value = pHalData->efuse_eeprom_data[Offset];
++	*Value |= pHalData->efuse_eeprom_data[Offset + 1] << 8;
++
++}	/* EFUSE_ShadowRead2Byte */
++
++/* ---------------Read Four Bytes */
++static VOID
++efuse_ShadowRead4Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN OUT	u32		*Value)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++
++	*Value = pHalData->efuse_eeprom_data[Offset];
++	*Value |= pHalData->efuse_eeprom_data[Offset + 1] << 8;
++	*Value |= pHalData->efuse_eeprom_data[Offset + 2] << 16;
++	*Value |= pHalData->efuse_eeprom_data[Offset + 3] << 24;
++
++}	/* efuse_ShadowRead4Byte */
++
++
++/*-----------------------------------------------------------------------------
++ * Function:	efuse_ShadowWrite1Byte
++ *			efuse_ShadowWrite2Byte
++ *			efuse_ShadowWrite4Byte
++ *
++ * Overview:	Write efuse modify map by one/two/four byte.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/12/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++#ifdef PLATFORM
++static VOID
++efuse_ShadowWrite1Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN	u8		Value);
++#endif /* PLATFORM */
++static VOID
++efuse_ShadowWrite1Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN	u8		Value)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++
++	pHalData->efuse_eeprom_data[Offset] = Value;
++
++}	/* efuse_ShadowWrite1Byte */
++
++/* ---------------Write Two Bytes */
++static VOID
++efuse_ShadowWrite2Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN	u16		Value)
++{
++
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++
++
++	pHalData->efuse_eeprom_data[Offset] = Value & 0x00FF;
++	pHalData->efuse_eeprom_data[Offset + 1] = Value >> 8;
++
++}	/* efuse_ShadowWrite1Byte */
++
++/* ---------------Write Four Bytes */
++static VOID
++efuse_ShadowWrite4Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN	u32		Value)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++
++	pHalData->efuse_eeprom_data[Offset] = (u8)(Value & 0x000000FF);
++	pHalData->efuse_eeprom_data[Offset + 1] = (u8)((Value >> 8) & 0x0000FF);
++	pHalData->efuse_eeprom_data[Offset + 2] = (u8)((Value >> 16) & 0x00FF);
++	pHalData->efuse_eeprom_data[Offset + 3] = (u8)((Value >> 24) & 0xFF);
++
++}	/* efuse_ShadowWrite1Byte */
++
++
++/*-----------------------------------------------------------------------------
++ * Function:	EFUSE_ShadowRead
++ *
++ * Overview:	Read from efuse init map !!!!!
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/12/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++void
++EFUSE_ShadowRead(
++	IN		PADAPTER	pAdapter,
++	IN		u8		Type,
++	IN		u16		Offset,
++	IN OUT	u32		*Value)
++{
++	if (Type == 1)
++		efuse_ShadowRead1Byte(pAdapter, Offset, (u8 *)Value);
++	else if (Type == 2)
++		efuse_ShadowRead2Byte(pAdapter, Offset, (u16 *)Value);
++	else if (Type == 4)
++		efuse_ShadowRead4Byte(pAdapter, Offset, (u32 *)Value);
++
++}	/* EFUSE_ShadowRead */
++
++/*-----------------------------------------------------------------------------
++ * Function:	EFUSE_ShadowWrite
++ *
++ * Overview:	Write efuse modify map for later update operation to use!!!!!
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/12/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++EFUSE_ShadowWrite(
++	IN	PADAPTER	pAdapter,
++	IN	u8		Type,
++	IN	u16		Offset,
++	IN OUT	u32		Value);
++VOID
++EFUSE_ShadowWrite(
++	IN	PADAPTER	pAdapter,
++	IN	u8		Type,
++	IN	u16		Offset,
++	IN OUT	u32		Value)
++{
++#if (MP_DRIVER == 0)
++	return;
++#endif
++	if (pAdapter->registrypriv.mp_mode == 0)
++		return;
++
++
++	if (Type == 1)
++		efuse_ShadowWrite1Byte(pAdapter, Offset, (u8)Value);
++	else if (Type == 2)
++		efuse_ShadowWrite2Byte(pAdapter, Offset, (u16)Value);
++	else if (Type == 4)
++		efuse_ShadowWrite4Byte(pAdapter, Offset, (u32)Value);
++
++}	/* EFUSE_ShadowWrite */
++
++VOID
++Efuse_InitSomeVar(
++	IN		PADAPTER	pAdapter
++);
++VOID
++Efuse_InitSomeVar(
++	IN		PADAPTER	pAdapter
++)
++{
++	u8 i;
++
++	_rtw_memset((PVOID)&fakeEfuseContent[0], 0xff, EFUSE_MAX_HW_SIZE);
++	_rtw_memset((PVOID)&fakeEfuseInitMap[0], 0xff, EFUSE_MAX_MAP_LEN);
++	_rtw_memset((PVOID)&fakeEfuseModifiedMap[0], 0xff, EFUSE_MAX_MAP_LEN);
++
++	for (i = 0; i < EFUSE_MAX_BT_BANK; i++)
++		_rtw_memset((PVOID)&BTEfuseContent[i][0], EFUSE_MAX_HW_SIZE, 0xff);
++	_rtw_memset((PVOID)&BTEfuseInitMap[0], 0xff, EFUSE_BT_MAX_MAP_LEN);
++	_rtw_memset((PVOID)&BTEfuseModifiedMap[0], 0xff, EFUSE_BT_MAX_MAP_LEN);
++
++	for (i = 0; i < EFUSE_MAX_BT_BANK; i++)
++		_rtw_memset((PVOID)&fakeBTEfuseContent[i][0], 0xff, EFUSE_MAX_HW_SIZE);
++	_rtw_memset((PVOID)&fakeBTEfuseInitMap[0], 0xff, EFUSE_BT_MAX_MAP_LEN);
++	_rtw_memset((PVOID)&fakeBTEfuseModifiedMap[0], 0xff, EFUSE_BT_MAX_MAP_LEN);
++}
++#endif /* !RTW_HALMAC */
++/*  11/16/2008 MH Add description. Get current efuse area enabled word!!. */
++u8
++Efuse_CalculateWordCnts(IN u8	word_en)
++{
++	u8 word_cnts = 0;
++	if (!(word_en & BIT(0)))
++		word_cnts++; /* 0 : write enable */
++	if (!(word_en & BIT(1)))
++		word_cnts++;
++	if (!(word_en & BIT(2)))
++		word_cnts++;
++	if (!(word_en & BIT(3)))
++		word_cnts++;
++	return word_cnts;
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	efuse_WordEnableDataRead
++ *
++ * Overview:	Read allowed word in current efuse section data.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/16/2008	MHC		Create Version 0.
++ * 11/21/2008	MHC		Fix Write bug when we only enable late word.
++ *
++ *---------------------------------------------------------------------------*/
++void
++efuse_WordEnableDataRead(IN	u8	word_en,
++			 IN	u8	*sourdata,
++			 IN	u8	*targetdata)
++{
++	if (!(word_en & BIT(0))) {
++		targetdata[0] = sourdata[0];
++		targetdata[1] = sourdata[1];
++	}
++	if (!(word_en & BIT(1))) {
++		targetdata[2] = sourdata[2];
++		targetdata[3] = sourdata[3];
++	}
++	if (!(word_en & BIT(2))) {
++		targetdata[4] = sourdata[4];
++		targetdata[5] = sourdata[5];
++	}
++	if (!(word_en & BIT(3))) {
++		targetdata[6] = sourdata[6];
++		targetdata[7] = sourdata[7];
++	}
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	EFUSE_ShadowMapUpdate
++ *
++ * Overview:	Transfer current EFUSE content to shadow init and modify map.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/13/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++void EFUSE_ShadowMapUpdate(
++	IN PADAPTER	pAdapter,
++	IN u8		efuseType,
++	IN BOOLEAN	bPseudoTest)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++	u16	mapLen = 0;
++#ifdef RTW_HALMAC
++	u8 *efuse_map = NULL;
++	int err;
++
++
++	mapLen = EEPROM_MAX_SIZE;
++	efuse_map = pHalData->efuse_eeprom_data;
++	/* efuse default content is 0xFF */
++	_rtw_memset(efuse_map, 0xFF, EEPROM_MAX_SIZE);
++
++	EFUSE_GetEfuseDefinition(pAdapter, efuseType, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, bPseudoTest);
++	if (!mapLen) {
++		RTW_WARN("%s: <ERROR> fail to get efuse size!\n", __FUNCTION__);
++		mapLen = EEPROM_MAX_SIZE;
++	}
++	if (mapLen > EEPROM_MAX_SIZE) {
++		RTW_WARN("%s: <ERROR> size of efuse data(%d) is large than expected(%d)!\n",
++			 __FUNCTION__, mapLen, EEPROM_MAX_SIZE);
++		mapLen = EEPROM_MAX_SIZE;
++	}
++
++	if (pHalData->bautoload_fail_flag == _FALSE) {
++		err = rtw_halmac_read_logical_efuse_map(adapter_to_dvobj(pAdapter), efuse_map, mapLen);
++		if (err)
++			RTW_ERR("%s: <ERROR> fail to get efuse map!\n", __FUNCTION__);
++	}
++#else /* !RTW_HALMAC */
++	EFUSE_GetEfuseDefinition(pAdapter, efuseType, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, bPseudoTest);
++
++	if (pHalData->bautoload_fail_flag == _TRUE)
++		_rtw_memset(pHalData->efuse_eeprom_data, 0xFF, mapLen);
++	else {
++#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++		if (_SUCCESS != retriveAdaptorInfoFile(pAdapter->registrypriv.adaptor_info_caching_file_path, pHalData->efuse_eeprom_data)) {
++#endif
++
++			Efuse_ReadAllMap(pAdapter, efuseType, pHalData->efuse_eeprom_data, bPseudoTest);
++
++#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++			storeAdaptorInfoFile(pAdapter->registrypriv.adaptor_info_caching_file_path, pHalData->efuse_eeprom_data);
++		}
++#endif
++	}
++
++	/* PlatformMoveMemory((PVOID)&pHalData->EfuseMap[EFUSE_MODIFY_MAP][0], */
++	/* (PVOID)&pHalData->EfuseMap[EFUSE_INIT_MAP][0], mapLen); */
++#endif /* !RTW_HALMAC */
++
++	rtw_dump_cur_efuse(pAdapter);
++} /* EFUSE_ShadowMapUpdate */
++
++const u8 _mac_hidden_max_bw_to_hal_bw_cap[MAC_HIDDEN_MAX_BW_NUM] = {
++	0,
++	0,
++	(BW_CAP_160M | BW_CAP_80M | BW_CAP_40M | BW_CAP_20M | BW_CAP_10M | BW_CAP_5M),
++	(BW_CAP_5M),
++	(BW_CAP_10M | BW_CAP_5M),
++	(BW_CAP_20M | BW_CAP_10M | BW_CAP_5M),
++	(BW_CAP_40M | BW_CAP_20M | BW_CAP_10M | BW_CAP_5M),
++	(BW_CAP_80M | BW_CAP_40M | BW_CAP_20M | BW_CAP_10M | BW_CAP_5M),
++};
++
++const u8 _mac_hidden_proto_to_hal_proto_cap[MAC_HIDDEN_PROTOCOL_NUM] = {
++	0,
++	0,
++	(PROTO_CAP_11N | PROTO_CAP_11G | PROTO_CAP_11B),
++	(PROTO_CAP_11AC | PROTO_CAP_11N | PROTO_CAP_11G | PROTO_CAP_11B),
++};
++
++u8 mac_hidden_wl_func_to_hal_wl_func(u8 func)
++{
++	u8 wl_func = 0;
++
++	if (func & BIT0)
++		wl_func |= WL_FUNC_MIRACAST;
++	if (func & BIT1)
++		wl_func |= WL_FUNC_P2P;
++	if (func & BIT2)
++		wl_func |= WL_FUNC_TDLS;
++	if (func & BIT3)
++		wl_func |= WL_FUNC_FTM;
++
++	return wl_func;
++}
++
++#ifdef PLATFORM_LINUX
++#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++/* #include <rtw_eeprom.h> */
++
++int isAdaptorInfoFileValid(void)
++{
++	return _TRUE;
++}
++
++int storeAdaptorInfoFile(char *path, u8 *efuse_data)
++{
++	int ret = _SUCCESS;
++
++	if (path && efuse_data) {
++		ret = rtw_store_to_file(path, efuse_data, EEPROM_MAX_SIZE_512);
++		if (ret == EEPROM_MAX_SIZE)
++			ret = _SUCCESS;
++		else
++			ret = _FAIL;
++	} else {
++		RTW_INFO("%s NULL pointer\n", __FUNCTION__);
++		ret =  _FAIL;
++	}
++	return ret;
++}
++
++int retriveAdaptorInfoFile(char *path, u8 *efuse_data)
++{
++	int ret = _SUCCESS;
++	mm_segment_t oldfs;
++	struct file *fp;
++
++	if (path && efuse_data) {
++
++		ret = rtw_retrieve_from_file(path, efuse_data, EEPROM_MAX_SIZE);
++
++		if (ret == EEPROM_MAX_SIZE)
++			ret = _SUCCESS;
++		else
++			ret = _FAIL;
++
++#if 0
++		if (isAdaptorInfoFileValid())
++			return 0;
++		else
++			return _FAIL;
++#endif
++
++	} else {
++		RTW_INFO("%s NULL pointer\n", __FUNCTION__);
++		ret = _FAIL;
++	}
++	return ret;
++}
++#endif /* CONFIG_ADAPTOR_INFO_CACHING_FILE */
++
++u8 rtw_efuse_file_read(PADAPTER padapter, u8 *filepatch, u8 *buf, u32 len)
++{
++	char *ptmpbuf = NULL, *ptr;
++	u8 val8;
++	u32 count, i, j;
++	int err;
++	u32 bufsize = 4096;
++
++	ptmpbuf = rtw_zmalloc(bufsize);
++	if (ptmpbuf == NULL)
++		return _FALSE;
++
++	count = rtw_retrieve_from_file(filepatch, ptmpbuf, bufsize);
++	if (count <= 100) {
++		rtw_mfree(ptmpbuf, bufsize);
++		RTW_ERR("%s, filepatch %s, size=%d, FAIL!!\n", __FUNCTION__, filepatch, count);
++		return _FALSE;
++	}
++
++	i = 0;
++	j = 0;
++	ptr = ptmpbuf;
++	while ((j < len) && (i < count)) {
++		if (ptmpbuf[i] == '\0')
++			break;
++	
++		ptr = strpbrk(&ptmpbuf[i], " \t\n\r");
++		if (ptr) {
++			if (ptr == &ptmpbuf[i]) {
++				i++;
++				continue;
++			}
++
++			/* Add string terminating null */
++			*ptr = 0;
++		} else {
++			ptr = &ptmpbuf[count-1];
++		}
++
++		err = sscanf(&ptmpbuf[i], "%hhx", &val8);
++		if (err != 1) {
++			RTW_WARN("Something wrong to parse efuse file, string=%s\n", &ptmpbuf[i]);
++		} else {
++			buf[j] = val8;
++			RTW_DBG("i=%d, j=%d, 0x%02x\n", i, j, buf[j]);
++			j++;
++		}
++
++		i = ptr - ptmpbuf + 1;
++	}
++
++	rtw_mfree(ptmpbuf, bufsize);
++	RTW_INFO("%s, filepatch %s, size=%d, done\n", __FUNCTION__, filepatch, count);
++	return _TRUE;
++}
++
++#ifdef CONFIG_EFUSE_CONFIG_FILE
++u32 rtw_read_efuse_from_file(const char *path, u8 *buf, int map_size)
++{
++	u32 i;
++	u8 c;
++	u8 temp[3];
++	u8 temp_i;
++	u8 end = _FALSE;
++	u32 ret = _FAIL;
++
++	u8 *file_data = NULL;
++	u32 file_size, read_size, pos = 0;
++	u8 *map = NULL;
++
++	if (rtw_is_file_readable_with_size(path, &file_size) != _TRUE) {
++		RTW_PRINT("%s %s is not readable\n", __func__, path);
++		goto exit;
++	}
++
++	file_data = rtw_vmalloc(file_size);
++	if (!file_data) {
++		RTW_ERR("%s rtw_vmalloc(%d) fail\n", __func__, file_size);
++		goto exit;
++	}
++
++	read_size = rtw_retrieve_from_file(path, file_data, file_size);
++	if (read_size == 0) {
++		RTW_ERR("%s read from %s fail\n", __func__, path);
++		goto exit;
++	}
++
++	map = rtw_vmalloc(map_size);
++	if (!map) {
++		RTW_ERR("%s rtw_vmalloc(%d) fail\n", __func__, map_size);
++		goto exit;
++	}
++	_rtw_memset(map, 0xff, map_size);
++
++	temp[2] = 0; /* end of string '\0' */
++
++	for (i = 0 ; i < map_size ; i++) {
++		temp_i = 0;
++
++		while (1) {
++			if (pos >= read_size) {
++				end = _TRUE;
++				break;
++			}
++			c = file_data[pos++];
++
++			/* bypass spece or eol or null before first hex digit */
++			if (temp_i == 0 && (is_eol(c) == _TRUE || is_space(c) == _TRUE || is_null(c) == _TRUE))
++				continue;
++
++			if (IsHexDigit(c) == _FALSE) {
++				RTW_ERR("%s invalid 8-bit hex format for offset:0x%03x\n", __func__, i);
++				goto exit;
++			}
++
++			temp[temp_i++] = c;
++
++			if (temp_i == 2) {
++				/* parse value */
++				if (sscanf(temp, "%hhx", &map[i]) != 1) {
++					RTW_ERR("%s sscanf fail for offset:0x%03x\n", __func__, i);
++					goto exit;
++				}
++				break;
++			}
++		}
++
++		if (end == _TRUE) {
++			if (temp_i != 0) {
++				RTW_ERR("%s incomplete 8-bit hex format for offset:0x%03x\n", __func__, i);
++				goto exit;
++			}
++			break;
++		}
++	}
++
++	RTW_PRINT("efuse file:%s, 0x%03x byte content read\n", path, i);
++
++	_rtw_memcpy(buf, map, map_size);
++
++	ret = _SUCCESS;
++
++exit:
++	if (file_data)
++		rtw_vmfree(file_data, file_size);
++	if (map)
++		rtw_vmfree(map, map_size);
++
++	return ret;
++}
++
++u32 rtw_read_macaddr_from_file(const char *path, u8 *buf)
++{
++	u32 i;
++	u8 temp[3];
++	u32 ret = _FAIL;
++
++	u8 file_data[17];
++	u32 read_size, pos = 0;
++	u8 addr[ETH_ALEN];
++
++	if (rtw_is_file_readable(path) != _TRUE) {
++		RTW_PRINT("%s %s is not readable\n", __func__, path);
++		goto exit;
++	}
++
++	read_size = rtw_retrieve_from_file(path, file_data, 17);
++	if (read_size != 17) {
++		RTW_ERR("%s read from %s fail\n", __func__, path);
++		goto exit;
++	}
++
++	temp[2] = 0; /* end of string '\0' */
++
++	for (i = 0 ; i < ETH_ALEN ; i++) {
++		if (IsHexDigit(file_data[i * 3]) == _FALSE || IsHexDigit(file_data[i * 3 + 1]) == _FALSE) {
++			RTW_ERR("%s invalid 8-bit hex format for address offset:%u\n", __func__, i);
++			goto exit;
++		}
++
++		if (i < ETH_ALEN - 1 && file_data[i * 3 + 2] != ':') {
++			RTW_ERR("%s invalid separator after address offset:%u\n", __func__, i);
++			goto exit;
++		}
++
++		temp[0] = file_data[i * 3];
++		temp[1] = file_data[i * 3 + 1];
++		if (sscanf(temp, "%hhx", &addr[i]) != 1) {
++			RTW_ERR("%s sscanf fail for address offset:0x%03x\n", __func__, i);
++			goto exit;
++		}
++	}
++
++	_rtw_memcpy(buf, addr, ETH_ALEN);
++
++	RTW_PRINT("wifi_mac file: %s\n", path);
++#ifdef CONFIG_RTW_DEBUG
++	RTW_INFO(MAC_FMT"\n", MAC_ARG(buf));
++#endif
++
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++#endif /* CONFIG_EFUSE_CONFIG_FILE */
++
++#endif /* PLATFORM_LINUX */
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_ap.c b/drivers/net/wireless/rtl8723du/core/rtw_ap.c
+new file mode 100644
+index 0000000..1527834
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_ap.c
+@@ -0,0 +1,4108 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_AP_C_
++
++#include <drv_types.h>
++
++
++#ifdef CONFIG_AP_MODE
++
++extern unsigned char	RTW_WPA_OUI[];
++extern unsigned char	WMM_OUI[];
++extern unsigned char	WPS_OUI[];
++extern unsigned char	P2P_OUI[];
++extern unsigned char	WFD_OUI[];
++
++void init_mlme_ap_info(_adapter *padapter)
++{
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	_rtw_spinlock_init(&pmlmepriv->bcn_update_lock);
++
++	/* pmlmeext->bstart_bss = _FALSE; */
++
++}
++
++void free_mlme_ap_info(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	stop_ap_mode(padapter);
++	_rtw_spinlock_free(&pmlmepriv->bcn_update_lock);
++
++}
++
++static void update_BCNTIM(_adapter *padapter)
++{
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork_mlmeext = &(pmlmeinfo->network);
++	unsigned char *pie = pnetwork_mlmeext->IEs;
++
++#if 0
++
++
++	/* update TIM IE */
++	/* if(pstapriv->tim_bitmap) */
++#endif
++	if (_TRUE) {
++		u8 *p, *dst_ie, *premainder_ie = NULL, *pbackup_remainder_ie = NULL;
++		u16 tim_bitmap_le;
++		uint offset, tmp_len, tim_ielen, tim_ie_offset, remainder_ielen;
++
++		tim_bitmap_le = cpu_to_le16(pstapriv->tim_bitmap);
++
++		p = rtw_get_ie(pie + _FIXED_IE_LENGTH_, _TIM_IE_, &tim_ielen, pnetwork_mlmeext->IELength - _FIXED_IE_LENGTH_);
++		if (p != NULL && tim_ielen > 0) {
++			tim_ielen += 2;
++
++			premainder_ie = p + tim_ielen;
++
++			tim_ie_offset = (sint)(p - pie);
++
++			remainder_ielen = pnetwork_mlmeext->IELength - tim_ie_offset - tim_ielen;
++
++			/*append TIM IE from dst_ie offset*/
++			dst_ie = p;
++		} else {
++			tim_ielen = 0;
++
++			/*calculate head_len*/
++			offset = _FIXED_IE_LENGTH_;
++
++			/* get ssid_ie len */
++			p = rtw_get_ie(pie + _BEACON_IE_OFFSET_, _SSID_IE_, &tmp_len, (pnetwork_mlmeext->IELength - _BEACON_IE_OFFSET_));
++			if (p != NULL)
++				offset += tmp_len + 2;
++
++			/*get supported rates len*/
++			p = rtw_get_ie(pie + _BEACON_IE_OFFSET_, _SUPPORTEDRATES_IE_, &tmp_len, (pnetwork_mlmeext->IELength - _BEACON_IE_OFFSET_));
++			if (p !=  NULL)
++				offset += tmp_len + 2;
++
++			/*DS Parameter Set IE, len=3*/
++			offset += 3;
++
++			premainder_ie = pie + offset;
++
++			remainder_ielen = pnetwork_mlmeext->IELength - offset - tim_ielen;
++
++			/*append TIM IE from offset*/
++			dst_ie = pie + offset;
++
++		}
++
++		if (remainder_ielen > 0) {
++			pbackup_remainder_ie = rtw_malloc(remainder_ielen);
++			if (pbackup_remainder_ie && premainder_ie)
++				_rtw_memcpy(pbackup_remainder_ie, premainder_ie, remainder_ielen);
++		}
++
++		*dst_ie++ = _TIM_IE_;
++
++		if ((pstapriv->tim_bitmap & 0xff00) && (pstapriv->tim_bitmap & 0x00fe))
++			tim_ielen = 5;
++		else
++			tim_ielen = 4;
++
++		*dst_ie++ = tim_ielen;
++
++		*dst_ie++ = 0;/*DTIM count*/
++		*dst_ie++ = 1;/*DTIM period*/
++
++		if (pstapriv->tim_bitmap & BIT(0))/*for bc/mc frames*/
++			*dst_ie++ = BIT(0);/*bitmap ctrl */
++		else
++			*dst_ie++ = 0;
++
++		if (tim_ielen == 4) {
++			u8 pvb = 0;
++
++			if (pstapriv->tim_bitmap & 0x00fe)
++				pvb = (u8)tim_bitmap_le;
++			else if (pstapriv->tim_bitmap & 0xff00)
++				pvb = (u8)(tim_bitmap_le >> 8);
++			else
++				pvb = (u8)tim_bitmap_le;
++
++			*dst_ie++ = pvb;
++
++		} else if (tim_ielen == 5) {
++			_rtw_memcpy(dst_ie, &tim_bitmap_le, 2);
++			dst_ie += 2;
++		}
++
++		/*copy remainder IE*/
++		if (pbackup_remainder_ie) {
++			_rtw_memcpy(dst_ie, pbackup_remainder_ie, remainder_ielen);
++
++			rtw_mfree(pbackup_remainder_ie, remainder_ielen);
++		}
++
++		offset = (uint)(dst_ie - pie);
++		pnetwork_mlmeext->IELength = offset + remainder_ielen;
++
++	}
++}
++
++void rtw_add_bcn_ie(_adapter *padapter, WLAN_BSSID_EX *pnetwork, u8 index, u8 *data, u8 len)
++{
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8	bmatch = _FALSE;
++	u8	*pie = pnetwork->IEs;
++	u8	*p = NULL, *dst_ie = NULL, *premainder_ie = NULL, *pbackup_remainder_ie = NULL;
++	u32	i, offset, ielen, ie_offset, remainder_ielen = 0;
++
++	for (i = sizeof(NDIS_802_11_FIXED_IEs); i < pnetwork->IELength;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pnetwork->IEs + i);
++
++		if (pIE->ElementID > index)
++			break;
++		else if (pIE->ElementID == index) { /* already exist the same IE */
++			p = (u8 *)pIE;
++			ielen = pIE->Length;
++			bmatch = _TRUE;
++			break;
++		}
++
++		p = (u8 *)pIE;
++		ielen = pIE->Length;
++		i += (pIE->Length + 2);
++	}
++
++	if (p != NULL && ielen > 0) {
++		ielen += 2;
++
++		premainder_ie = p + ielen;
++
++		ie_offset = (sint)(p - pie);
++
++		remainder_ielen = pnetwork->IELength - ie_offset - ielen;
++
++		if (bmatch)
++			dst_ie = p;
++		else
++			dst_ie = (p + ielen);
++	}
++
++	if (dst_ie == NULL)
++		return;
++
++	if (remainder_ielen > 0) {
++		pbackup_remainder_ie = rtw_malloc(remainder_ielen);
++		if (pbackup_remainder_ie && premainder_ie)
++			_rtw_memcpy(pbackup_remainder_ie, premainder_ie, remainder_ielen);
++	}
++
++	*dst_ie++ = index;
++	*dst_ie++ = len;
++
++	_rtw_memcpy(dst_ie, data, len);
++	dst_ie += len;
++
++	/* copy remainder IE */
++	if (pbackup_remainder_ie) {
++		_rtw_memcpy(dst_ie, pbackup_remainder_ie, remainder_ielen);
++
++		rtw_mfree(pbackup_remainder_ie, remainder_ielen);
++	}
++
++	offset = (uint)(dst_ie - pie);
++	pnetwork->IELength = offset + remainder_ielen;
++}
++
++void rtw_remove_bcn_ie(_adapter *padapter, WLAN_BSSID_EX *pnetwork, u8 index)
++{
++	u8 *p, *dst_ie = NULL, *premainder_ie = NULL, *pbackup_remainder_ie = NULL;
++	uint offset, ielen, ie_offset, remainder_ielen = 0;
++	u8	*pie = pnetwork->IEs;
++
++	p = rtw_get_ie(pie + _FIXED_IE_LENGTH_, index, &ielen, pnetwork->IELength - _FIXED_IE_LENGTH_);
++	if (p != NULL && ielen > 0) {
++		ielen += 2;
++
++		premainder_ie = p + ielen;
++
++		ie_offset = (sint)(p - pie);
++
++		remainder_ielen = pnetwork->IELength - ie_offset - ielen;
++
++		dst_ie = p;
++	} else
++		return;
++
++	if (remainder_ielen > 0) {
++		pbackup_remainder_ie = rtw_malloc(remainder_ielen);
++		if (pbackup_remainder_ie && premainder_ie)
++			_rtw_memcpy(pbackup_remainder_ie, premainder_ie, remainder_ielen);
++	}
++
++	/* copy remainder IE */
++	if (pbackup_remainder_ie) {
++		_rtw_memcpy(dst_ie, pbackup_remainder_ie, remainder_ielen);
++
++		rtw_mfree(pbackup_remainder_ie, remainder_ielen);
++	}
++
++	offset = (uint)(dst_ie - pie);
++	pnetwork->IELength = offset + remainder_ielen;
++}
++
++
++u8 chk_sta_is_alive(struct sta_info *psta);
++u8 chk_sta_is_alive(struct sta_info *psta)
++{
++	u8 ret = _FALSE;
++#ifdef DBG_EXPIRATION_CHK
++	RTW_INFO("sta:"MAC_FMT", rssi:%d, rx:"STA_PKTS_FMT", expire_to:%u, %s%ssq_len:%u\n"
++		 , MAC_ARG(psta->hwaddr)
++		 , psta->rssi_stat.UndecoratedSmoothedPWDB
++		 /* , STA_RX_PKTS_ARG(psta) */
++		 , STA_RX_PKTS_DIFF_ARG(psta)
++		 , psta->expire_to
++		 , psta->state & WIFI_SLEEP_STATE ? "PS, " : ""
++		 , psta->state & WIFI_STA_ALIVE_CHK_STATE ? "SAC, " : ""
++		 , psta->sleepq_len
++		);
++#endif
++
++	/* if(sta_last_rx_pkts(psta) == sta_rx_pkts(psta)) */
++	if ((psta->sta_stats.last_rx_data_pkts + psta->sta_stats.last_rx_ctrl_pkts) == (psta->sta_stats.rx_data_pkts + psta->sta_stats.rx_ctrl_pkts)) {
++#if 0
++		if (psta->state & WIFI_SLEEP_STATE)
++			ret = _TRUE;
++#endif
++	} else
++		ret = _TRUE;
++
++	sta_update_last_rx_pkts(psta);
++
++	return ret;
++}
++
++void	expire_timeout_chk(_adapter *padapter)
++{
++	_irqL irqL;
++	_list	*phead, *plist;
++	u8 updated = _FALSE;
++	struct sta_info *psta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 chk_alive_num = 0;
++	char chk_alive_list[NUM_STA];
++	int i;
++
++
++#ifdef CONFIG_MCC_MODE
++	/*	then driver may check fail due to not recv client's frame under sitesurvey,
++	 *	don't expire timeout chk under MCC under sitesurvey */
++
++	if (rtw_hal_mcc_link_status_chk(padapter, __func__) == _FALSE)
++		return;
++#endif
++
++	_enter_critical_bh(&pstapriv->auth_list_lock, &irqL);
++
++	phead = &pstapriv->auth_list;
++	plist = get_next(phead);
++
++	/* check auth_queue */
++#ifdef DBG_EXPIRATION_CHK
++	if (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		RTW_INFO(FUNC_NDEV_FMT" auth_list, cnt:%u\n"
++			, FUNC_NDEV_ARG(padapter->pnetdev), pstapriv->auth_list_cnt);
++	}
++#endif
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		psta = LIST_CONTAINOR(plist, struct sta_info, auth_list);
++
++		plist = get_next(plist);
++
++
++#ifdef CONFIG_ATMEL_RC_PATCH
++		if (_TRUE == _rtw_memcmp((void *)(pstapriv->atmel_rc_pattern), (void *)(psta->hwaddr), ETH_ALEN))
++			continue;
++		if (psta->flag_atmel_rc)
++			continue;
++#endif
++		if (psta->expire_to > 0) {
++			psta->expire_to--;
++			if (psta->expire_to == 0) {
++				rtw_list_delete(&psta->auth_list);
++				pstapriv->auth_list_cnt--;
++
++				RTW_INFO("auth expire %02X%02X%02X%02X%02X%02X\n",
++					psta->hwaddr[0], psta->hwaddr[1], psta->hwaddr[2], psta->hwaddr[3], psta->hwaddr[4], psta->hwaddr[5]);
++
++				_exit_critical_bh(&pstapriv->auth_list_lock, &irqL);
++
++				/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);	 */
++				rtw_free_stainfo(padapter, psta);
++				/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);	 */
++
++				_enter_critical_bh(&pstapriv->auth_list_lock, &irqL);
++			}
++		}
++
++	}
++
++	_exit_critical_bh(&pstapriv->auth_list_lock, &irqL);
++	psta = NULL;
++
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++
++	/* check asoc_queue */
++#ifdef DBG_EXPIRATION_CHK
++	if (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		RTW_INFO(FUNC_NDEV_FMT" asoc_list, cnt:%u\n"
++			, FUNC_NDEV_ARG(padapter->pnetdev), pstapriv->asoc_list_cnt);
++	}
++#endif
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		plist = get_next(plist);
++#ifdef CONFIG_ATMEL_RC_PATCH
++		RTW_INFO("%s:%d  psta=%p, %02x,%02x||%02x,%02x  \n\n", __func__,  __LINE__,
++			psta, pstapriv->atmel_rc_pattern[0], pstapriv->atmel_rc_pattern[5], psta->hwaddr[0], psta->hwaddr[5]);
++		if (_TRUE == _rtw_memcmp((void *)pstapriv->atmel_rc_pattern, (void *)(psta->hwaddr), ETH_ALEN))
++			continue;
++		if (psta->flag_atmel_rc)
++			continue;
++		RTW_INFO("%s: debug line:%d\n", __func__, __LINE__);
++#endif
++#ifdef CONFIG_AUTO_AP_MODE
++		if (psta->isrc)
++			continue;
++#endif
++		if (chk_sta_is_alive(psta) || !psta->expire_to) {
++			psta->expire_to = pstapriv->expire_to;
++			psta->keep_alive_trycnt = 0;
++#ifdef CONFIG_TX_MCAST2UNI
++			psta->under_exist_checking = 0;
++#endif	/* CONFIG_TX_MCAST2UNI */
++		} else
++			psta->expire_to--;
++
++#ifndef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++#ifdef CONFIG_80211N_HT
++#ifdef CONFIG_TX_MCAST2UNI
++		if ((psta->flags & WLAN_STA_HT) && (psta->htpriv.agg_enable_bitmap || psta->under_exist_checking)) {
++			/* check sta by delba(addba) for 11n STA */
++			/* ToDo: use CCX report to check for all STAs */
++			/* RTW_INFO("asoc check by DELBA/ADDBA! (pstapriv->expire_to=%d s)(psta->expire_to=%d s), [%02x, %d]\n", pstapriv->expire_to*2, psta->expire_to*2, psta->htpriv.agg_enable_bitmap, psta->under_exist_checking); */
++
++			if (psta->expire_to <= (pstapriv->expire_to - 50)) {
++				RTW_INFO("asoc expire by DELBA/ADDBA! (%d s)\n", (pstapriv->expire_to - psta->expire_to) * 2);
++				psta->under_exist_checking = 0;
++				psta->expire_to = 0;
++			} else if (psta->expire_to <= (pstapriv->expire_to - 3) && (psta->under_exist_checking == 0)) {
++				RTW_INFO("asoc check by DELBA/ADDBA! (%d s)\n", (pstapriv->expire_to - psta->expire_to) * 2);
++				psta->under_exist_checking = 1;
++				/* tear down TX AMPDU */
++				send_delba(padapter, 1, psta->hwaddr);/*  */ /* originator */
++				psta->htpriv.agg_enable_bitmap = 0x0;/* reset */
++				psta->htpriv.candidate_tid_bitmap = 0x0;/* reset */
++			}
++		}
++#endif /* CONFIG_TX_MCAST2UNI */
++#endif /* CONFIG_80211N_HT */
++#endif /* CONFIG_ACTIVE_KEEP_ALIVE_CHECK */
++
++		if (psta->expire_to <= 0) {
++			struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++			if (padapter->registrypriv.wifi_spec == 1) {
++				psta->expire_to = pstapriv->expire_to;
++				continue;
++			}
++
++#ifndef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++#ifdef CONFIG_80211N_HT
++
++#define KEEP_ALIVE_TRYCNT (3)
++
++			if (psta->keep_alive_trycnt > 0 && psta->keep_alive_trycnt <= KEEP_ALIVE_TRYCNT) {
++				if (psta->state & WIFI_STA_ALIVE_CHK_STATE)
++					psta->state ^= WIFI_STA_ALIVE_CHK_STATE;
++				else
++					psta->keep_alive_trycnt = 0;
++
++			} else if ((psta->keep_alive_trycnt > KEEP_ALIVE_TRYCNT) && !(psta->state & WIFI_STA_ALIVE_CHK_STATE))
++				psta->keep_alive_trycnt = 0;
++			if ((psta->htpriv.ht_option == _TRUE) && (psta->htpriv.ampdu_enable == _TRUE)) {
++				uint priority = 1; /* test using BK */
++				u8 issued = 0;
++
++				/* issued = (psta->htpriv.agg_enable_bitmap>>priority)&0x1; */
++				issued |= (psta->htpriv.candidate_tid_bitmap >> priority) & 0x1;
++
++				if (0 == issued) {
++					if (!(psta->state & WIFI_STA_ALIVE_CHK_STATE)) {
++						psta->htpriv.candidate_tid_bitmap |= BIT((u8)priority);
++
++						if (psta->state & WIFI_SLEEP_STATE)
++							psta->expire_to = 2; /* 2x2=4 sec */
++						else
++							psta->expire_to = 1; /* 2 sec */
++
++						psta->state |= WIFI_STA_ALIVE_CHK_STATE;
++
++						/* add_ba_hdl(padapter, (u8*)paddbareq_parm); */
++
++						RTW_INFO("issue addba_req to check if sta alive, keep_alive_trycnt=%d\n", psta->keep_alive_trycnt);
++
++						issue_addba_req(padapter, psta->hwaddr, (u8)priority);
++
++						_set_timer(&psta->addba_retry_timer, ADDBA_TO);
++
++						psta->keep_alive_trycnt++;
++
++						continue;
++					}
++				}
++			}
++			if (psta->keep_alive_trycnt > 0 && psta->state & WIFI_STA_ALIVE_CHK_STATE) {
++				psta->keep_alive_trycnt = 0;
++				psta->state ^= WIFI_STA_ALIVE_CHK_STATE;
++				RTW_INFO("change to another methods to check alive if staion is at ps mode\n");
++			}
++
++#endif /* CONFIG_80211N_HT */
++#endif /* CONFIG_ACTIVE_KEEP_ALIVE_CHECK	 */
++			if (psta->state & WIFI_SLEEP_STATE) {
++				if (!(psta->state & WIFI_STA_ALIVE_CHK_STATE)) {
++					/* to check if alive by another methods if staion is at ps mode.					 */
++					psta->expire_to = pstapriv->expire_to;
++					psta->state |= WIFI_STA_ALIVE_CHK_STATE;
++
++					/* RTW_INFO("alive chk, sta:" MAC_FMT " is at ps mode!\n", MAC_ARG(psta->hwaddr)); */
++
++					/* to update bcn with tim_bitmap for this station */
++					pstapriv->tim_bitmap |= BIT(psta->aid);
++					update_beacon(padapter, _TIM_IE_, NULL, _TRUE);
++
++					if (!pmlmeext->active_keep_alive_check)
++						continue;
++				}
++			}
++#ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++			if (pmlmeext->active_keep_alive_check) {
++				int stainfo_offset;
++
++				stainfo_offset = rtw_stainfo_offset(pstapriv, psta);
++				if (stainfo_offset_valid(stainfo_offset))
++					chk_alive_list[chk_alive_num++] = stainfo_offset;
++
++				continue;
++			}
++#endif /* CONFIG_ACTIVE_KEEP_ALIVE_CHECK */
++			rtw_list_delete(&psta->asoc_list);
++			pstapriv->asoc_list_cnt--;
++			RTW_INFO("asoc expire "MAC_FMT", state=0x%x\n", MAC_ARG(psta->hwaddr), psta->state);
++			updated = ap_free_sta(padapter, psta, _FALSE, WLAN_REASON_DEAUTH_LEAVING, _TRUE);
++		} else {
++			/* TODO: Aging mechanism to digest frames in sleep_q to avoid running out of xmitframe */
++			if (psta->sleepq_len > (NR_XMITFRAME / pstapriv->asoc_list_cnt)
++			    && padapter->xmitpriv.free_xmitframe_cnt < ((NR_XMITFRAME / pstapriv->asoc_list_cnt) / 2)
++			   ) {
++				RTW_INFO("%s sta:"MAC_FMT", sleepq_len:%u, free_xmitframe_cnt:%u, asoc_list_cnt:%u, clear sleep_q\n", __func__
++					 , MAC_ARG(psta->hwaddr)
++					, psta->sleepq_len, padapter->xmitpriv.free_xmitframe_cnt, pstapriv->asoc_list_cnt);
++				wakeup_sta_to_xmit(padapter, psta);
++			}
++		}
++	}
++
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++#ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++	if (chk_alive_num) {
++
++		u8 backup_ch = 0, backup_bw, backup_offset;
++		u8 union_ch = 0, union_bw, union_offset;
++		u8 switch_channel = _TRUE;
++		struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++		if (!rtw_mi_get_ch_setting_union(padapter, &union_ch, &union_bw, &union_offset)
++			|| pmlmeext->cur_channel != union_ch)
++			goto bypass_active_keep_alive;
++
++#ifdef CONFIG_MCC_MODE
++		if (MCC_EN(padapter)) {
++			/* driver doesn't switch channel under MCC */
++			if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC))
++				switch_channel = _FALSE;
++		}
++#endif
++		/* switch to correct channel of current network  before issue keep-alive frames */
++		if (switch_channel == _TRUE && rtw_get_oper_ch(padapter) != pmlmeext->cur_channel) {
++			backup_ch = rtw_get_oper_ch(padapter);
++			backup_bw = rtw_get_oper_bw(padapter);
++			backup_offset = rtw_get_oper_choffset(padapter);
++			set_channel_bwmode(padapter, union_ch, union_offset, union_bw);
++		}
++
++		/* issue null data to check sta alive*/
++		for (i = 0; i < chk_alive_num; i++) {
++			int ret = _FAIL;
++
++			psta = rtw_get_stainfo_by_offset(pstapriv, chk_alive_list[i]);
++#ifdef CONFIG_ATMEL_RC_PATCH
++			if (_TRUE == _rtw_memcmp(pstapriv->atmel_rc_pattern, psta->hwaddr, ETH_ALEN))
++				continue;
++			if (psta->flag_atmel_rc)
++				continue;
++#endif
++			if (!(psta->state & _FW_LINKED))
++				continue;
++
++			if (psta->state & WIFI_SLEEP_STATE)
++				ret = issue_nulldata(padapter, psta->hwaddr, 0, 1, 50);
++			else
++				ret = issue_nulldata(padapter, psta->hwaddr, 0, 3, 50);
++
++			psta->keep_alive_trycnt++;
++			if (ret == _SUCCESS) {
++				RTW_INFO("asoc check, sta(" MAC_FMT ") is alive\n", MAC_ARG(psta->hwaddr));
++				psta->expire_to = pstapriv->expire_to;
++				psta->keep_alive_trycnt = 0;
++				continue;
++			} else if (psta->keep_alive_trycnt <= 3) {
++				RTW_INFO("ack check for asoc expire, keep_alive_trycnt=%d\n", psta->keep_alive_trycnt);
++				psta->expire_to = 1;
++				continue;
++			}
++
++			psta->keep_alive_trycnt = 0;
++			RTW_INFO("asoc expire "MAC_FMT", state=0x%x\n", MAC_ARG(psta->hwaddr), psta->state);
++			_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++			if (rtw_is_list_empty(&psta->asoc_list) == _FALSE) {
++				rtw_list_delete(&psta->asoc_list);
++				pstapriv->asoc_list_cnt--;
++				updated = ap_free_sta(padapter, psta, _FALSE, WLAN_REASON_DEAUTH_LEAVING, _TRUE);
++			}
++			_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++		}
++
++		/* back to the original operation channel */
++		if (switch_channel && backup_ch > 0)
++			set_channel_bwmode(padapter, backup_ch, backup_offset, backup_bw);
++
++bypass_active_keep_alive:
++		;
++	}
++#endif /* CONFIG_ACTIVE_KEEP_ALIVE_CHECK */
++
++	associated_clients_update(padapter, updated, STA_INFO_UPDATE_ALL);
++}
++
++void add_RATid(_adapter *padapter, struct sta_info *psta, u8 rssi_level)
++{
++	int i;
++	u8 rf_type;
++	unsigned char sta_band = 0;
++	u64 tx_ra_bitmap = 0;
++	struct ht_priv	*psta_ht = NULL;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX *pcur_network = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network;
++
++#ifdef CONFIG_80211N_HT
++	if (psta)
++		psta_ht = &psta->htpriv;
++	else
++		return;
++#endif /* CONFIG_80211N_HT */
++
++	if (!(psta->state & _FW_LINKED))
++		return;
++
++	rtw_hal_update_sta_rate_mask(padapter, psta);
++	tx_ra_bitmap = psta->ra_mask;
++
++	if (pcur_network->Configuration.DSConfig > 14) {
++
++		if (tx_ra_bitmap & 0xffff000)
++			sta_band |= WIRELESS_11_5N ;
++
++		if (tx_ra_bitmap & 0xff0)
++			sta_band |= WIRELESS_11A;
++
++		/* 5G band */
++#ifdef CONFIG_80211AC_VHT
++		if (psta->vhtpriv.vht_option)
++			sta_band = WIRELESS_11_5AC;
++#endif
++
++	} else {
++		if (tx_ra_bitmap & 0xffff000)
++			sta_band |= WIRELESS_11_24N;
++
++		if (tx_ra_bitmap & 0xff0)
++			sta_band |= WIRELESS_11G;
++
++		if (tx_ra_bitmap & 0x0f)
++			sta_band |= WIRELESS_11B;
++	}
++
++	psta->wireless_mode = sta_band;
++	psta->raid = rtw_hal_networktype_to_raid(padapter, psta);
++
++	if (psta->aid < NUM_STA) {
++		RTW_INFO("%s=> mac_id:%d , raid:%d, tx_ra_bitmap:0x%016llx, networkType:0x%02x\n",
++			__FUNCTION__, psta->mac_id, psta->raid, tx_ra_bitmap, psta->wireless_mode);
++
++		rtw_update_ramask(padapter, psta, psta->mac_id, rssi_level);
++	} else
++		RTW_INFO("station aid %d exceed the max number\n", psta->aid);
++
++}
++
++void update_bmc_sta(_adapter *padapter)
++{
++	_irqL	irqL;
++	unsigned char	network_type;
++	int supportRateNum = 0;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX *pcur_network = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network;
++	struct sta_info *psta = rtw_get_bcmc_stainfo(padapter);
++
++	if (psta) {
++		psta->aid = 0;/* default set to 0 */
++		psta->qos_option = 0;
++#ifdef CONFIG_80211N_HT
++		psta->htpriv.ht_option = _FALSE;
++#endif /* CONFIG_80211N_HT */
++
++		psta->ieee8021x_blocked = 0;
++
++		_rtw_memset((void *)&psta->sta_stats, 0, sizeof(struct stainfo_stats));
++
++		/* psta->dot118021XPrivacy = _NO_PRIVACY_; */ /* !!! remove it, because it has been set before this. */
++
++		/* prepare for add_RATid		 */
++		supportRateNum = rtw_get_rateset_len((u8 *)&pcur_network->SupportedRates);
++		network_type = rtw_check_network_type((u8 *)&pcur_network->SupportedRates, supportRateNum, pcur_network->Configuration.DSConfig);
++		if (IsSupportedTxCCK(network_type))
++			network_type = WIRELESS_11B;
++		else if (network_type == WIRELESS_INVALID) { /* error handling */
++			if (pcur_network->Configuration.DSConfig > 14)
++				network_type = WIRELESS_11A;
++			else
++				network_type = WIRELESS_11B;
++		}
++		update_sta_basic_rate(psta, network_type);
++		psta->wireless_mode = network_type;
++
++		rtw_hal_update_sta_rate_mask(padapter, psta);
++
++		psta->raid = rtw_hal_networktype_to_raid(padapter, psta);
++
++		_enter_critical_bh(&psta->lock, &irqL);
++		psta->state = _FW_LINKED;
++		_exit_critical_bh(&psta->lock, &irqL);
++
++		rtw_sta_media_status_rpt(padapter, psta, 1);
++		rtw_hal_update_ra_mask(psta, 0);
++	} else
++		RTW_INFO("add_RATid_bmc_sta error!\n");
++
++}
++
++/* notes:
++ * AID: 1~MAX for sta and 0 for bc/mc in ap/adhoc mode  */
++void update_sta_info_apmode(_adapter *padapter, struct sta_info *psta)
++{
++	_irqL	irqL;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++#ifdef CONFIG_80211N_HT
++	struct ht_priv	*phtpriv_ap = &pmlmepriv->htpriv;
++	struct ht_priv	*phtpriv_sta = &psta->htpriv;
++#endif /* CONFIG_80211N_HT */
++	u8	cur_ldpc_cap = 0, cur_stbc_cap = 0, cur_beamform_cap = 0;
++	/* set intf_tag to if1 */
++	/* psta->intf_tag = 0; */
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	/*alloc macid when call rtw_alloc_stainfo(),release macid when call rtw_free_stainfo()*/
++
++	/* ap mode */
++	rtw_hal_set_odm_var(padapter, HAL_ODM_STA_INFO, psta, _TRUE);
++
++	if (psecuritypriv->dot11AuthAlgrthm == dot11AuthAlgrthm_8021X)
++		psta->ieee8021x_blocked = _TRUE;
++	else
++		psta->ieee8021x_blocked = _FALSE;
++
++
++	/* update sta's cap */
++
++	/* ERP */
++	VCS_update(padapter, psta);
++#ifdef CONFIG_80211N_HT
++	/* HT related cap */
++	if (phtpriv_sta->ht_option) {
++		/* check if sta supports rx ampdu */
++		phtpriv_sta->ampdu_enable = phtpriv_ap->ampdu_enable;
++
++		phtpriv_sta->rx_ampdu_min_spacing = (phtpriv_sta->ht_cap.ampdu_params_info & IEEE80211_HT_CAP_AMPDU_DENSITY) >> 2;
++
++		/* bwmode */
++		if ((phtpriv_sta->ht_cap.cap_info & phtpriv_ap->ht_cap.cap_info) & cpu_to_le16(IEEE80211_HT_CAP_SUP_WIDTH))
++			psta->bw_mode = CHANNEL_WIDTH_40;
++		else
++			psta->bw_mode = CHANNEL_WIDTH_20;
++
++		if (psta->ht_40mhz_intolerant)
++			psta->bw_mode = CHANNEL_WIDTH_20;
++
++		if (pmlmeext->cur_bwmode < psta->bw_mode)
++			psta->bw_mode = pmlmeext->cur_bwmode;
++
++		phtpriv_sta->ch_offset = pmlmeext->cur_ch_offset;
++
++
++		/* check if sta support s Short GI 20M */
++		if ((phtpriv_sta->ht_cap.cap_info & phtpriv_ap->ht_cap.cap_info) & cpu_to_le16(IEEE80211_HT_CAP_SGI_20))
++			phtpriv_sta->sgi_20m = _TRUE;
++
++		/* check if sta support s Short GI 40M */
++		if ((phtpriv_sta->ht_cap.cap_info & phtpriv_ap->ht_cap.cap_info) & cpu_to_le16(IEEE80211_HT_CAP_SGI_40)) {
++			if (psta->bw_mode == CHANNEL_WIDTH_40) /* according to psta->bw_mode */
++				phtpriv_sta->sgi_40m = _TRUE;
++			else
++				phtpriv_sta->sgi_40m = _FALSE;
++		}
++
++		psta->qos_option = _TRUE;
++
++		/* B0 Config LDPC Coding Capability */
++		if (TEST_FLAG(phtpriv_ap->ldpc_cap, LDPC_HT_ENABLE_TX) &&
++		    GET_HT_CAP_ELE_LDPC_CAP((u8 *)(&phtpriv_sta->ht_cap))) {
++			SET_FLAG(cur_ldpc_cap, (LDPC_HT_ENABLE_TX | LDPC_HT_CAP_TX));
++			RTW_INFO("Enable HT Tx LDPC for STA(%d)\n", psta->aid);
++		}
++
++		/* B7 B8 B9 Config STBC setting */
++		if (TEST_FLAG(phtpriv_ap->stbc_cap, STBC_HT_ENABLE_TX) &&
++		    GET_HT_CAP_ELE_RX_STBC((u8 *)(&phtpriv_sta->ht_cap))) {
++			SET_FLAG(cur_stbc_cap, (STBC_HT_ENABLE_TX | STBC_HT_CAP_TX));
++			RTW_INFO("Enable HT Tx STBC for STA(%d)\n", psta->aid);
++		}
++
++#ifdef CONFIG_BEAMFORMING
++		/*Config Tx beamforming setting*/
++		if (TEST_FLAG(phtpriv_ap->beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE) &&
++		    GET_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP((u8 *)(&phtpriv_sta->ht_cap))) {
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE);
++			/*Shift to BEAMFORMING_HT_BEAMFORMEE_CHNL_EST_CAP*/
++			SET_FLAG(cur_beamform_cap, GET_HT_CAP_TXBF_CHNL_ESTIMATION_NUM_ANTENNAS((u8 *)(&phtpriv_sta->ht_cap)) << 6);
++		}
++
++		if (TEST_FLAG(phtpriv_ap->beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE) &&
++		    GET_HT_CAP_TXBF_EXPLICIT_COMP_FEEDBACK_CAP((u8 *)(&phtpriv_sta->ht_cap))) {
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE);
++			/*Shift to BEAMFORMING_HT_BEAMFORMER_STEER_NUM*/
++			SET_FLAG(cur_beamform_cap, GET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS((u8 *)(&phtpriv_sta->ht_cap)) << 4);
++		}
++		if (cur_beamform_cap)
++			RTW_INFO("Client STA(%d) HT Beamforming Cap = 0x%02X\n", psta->aid, cur_beamform_cap);
++#endif /*CONFIG_BEAMFORMING*/
++	} else {
++		phtpriv_sta->ampdu_enable = _FALSE;
++
++		phtpriv_sta->sgi_20m = _FALSE;
++		phtpriv_sta->sgi_40m = _FALSE;
++		psta->bw_mode = CHANNEL_WIDTH_20;
++		phtpriv_sta->ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	}
++
++	phtpriv_sta->ldpc_cap = cur_ldpc_cap;
++	phtpriv_sta->stbc_cap = cur_stbc_cap;
++	phtpriv_sta->beamform_cap = cur_beamform_cap;
++
++	/* Rx AMPDU */
++	send_delba(padapter, 0, psta->hwaddr);/* recipient */
++
++	/* TX AMPDU */
++	send_delba(padapter, 1, psta->hwaddr);/*  */ /* originator */
++	phtpriv_sta->agg_enable_bitmap = 0x0;/* reset */
++	phtpriv_sta->candidate_tid_bitmap = 0x0;/* reset */
++#endif /* CONFIG_80211N_HT */
++
++#ifdef CONFIG_80211AC_VHT
++	update_sta_vht_info_apmode(padapter, psta);
++#endif
++
++	update_ldpc_stbc_cap(psta);
++
++	/* todo: init other variables */
++
++	_rtw_memset((void *)&psta->sta_stats, 0, sizeof(struct stainfo_stats));
++
++
++	/* add ratid */
++	/* add_RATid(padapter, psta); */ /* move to ap_sta_info_defer_update() */
++
++
++	_enter_critical_bh(&psta->lock, &irqL);
++	psta->state |= _FW_LINKED;
++	_exit_critical_bh(&psta->lock, &irqL);
++
++
++}
++
++static void update_ap_info(_adapter *padapter, struct sta_info *psta)
++{
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX *pnetwork = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++#ifdef CONFIG_80211N_HT
++	struct ht_priv	*phtpriv_ap = &pmlmepriv->htpriv;
++#endif /* CONFIG_80211N_HT */
++
++	psta->wireless_mode = pmlmeext->cur_wireless_mode;
++
++	psta->bssratelen = rtw_get_rateset_len(pnetwork->SupportedRates);
++	_rtw_memcpy(psta->bssrateset, pnetwork->SupportedRates, psta->bssratelen);
++
++#ifdef CONFIG_80211N_HT
++	/* HT related cap */
++	if (phtpriv_ap->ht_option) {
++		/* check if sta supports rx ampdu */
++		/* phtpriv_ap->ampdu_enable = phtpriv_ap->ampdu_enable; */
++
++		/* check if sta support s Short GI 20M */
++		if ((phtpriv_ap->ht_cap.cap_info) & cpu_to_le16(IEEE80211_HT_CAP_SGI_20))
++			phtpriv_ap->sgi_20m = _TRUE;
++		/* check if sta support s Short GI 40M */
++		if ((phtpriv_ap->ht_cap.cap_info) & cpu_to_le16(IEEE80211_HT_CAP_SGI_40))
++			phtpriv_ap->sgi_40m = _TRUE;
++
++		psta->qos_option = _TRUE;
++	} else {
++		phtpriv_ap->ampdu_enable = _FALSE;
++
++		phtpriv_ap->sgi_20m = _FALSE;
++		phtpriv_ap->sgi_40m = _FALSE;
++	}
++
++	psta->bw_mode = pmlmeext->cur_bwmode;
++	phtpriv_ap->ch_offset = pmlmeext->cur_ch_offset;
++
++	phtpriv_ap->agg_enable_bitmap = 0x0;/* reset */
++	phtpriv_ap->candidate_tid_bitmap = 0x0;/* reset */
++
++	_rtw_memcpy(&psta->htpriv, &pmlmepriv->htpriv, sizeof(struct ht_priv));
++
++#ifdef CONFIG_80211AC_VHT
++	_rtw_memcpy(&psta->vhtpriv, &pmlmepriv->vhtpriv, sizeof(struct vht_priv));
++#endif /* CONFIG_80211AC_VHT */
++
++#endif /* CONFIG_80211N_HT */
++
++	psta->state |= WIFI_AP_STATE; /* Aries, add,fix bug of flush_cam_entry at STOP AP mode , 0724 */
++}
++
++static void rtw_set_hw_wmm_param(_adapter *padapter)
++{
++	u8	ACI, ACM, AIFS, ECWMin, ECWMax, aSifsTime;
++	u8	acm_mask;
++	u16	TXOP;
++	u32	acParm, i;
++	u32	edca[4], inx[4];
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct xmit_priv		*pxmitpriv = &padapter->xmitpriv;
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++
++	acm_mask = 0;
++
++	if (IsSupported5G(pmlmeext->cur_wireless_mode) ||
++	    (pmlmeext->cur_wireless_mode & WIRELESS_11_24N))
++		aSifsTime = 16;
++	else
++		aSifsTime = 10;
++
++	if (pmlmeinfo->WMM_enable == 0) {
++		padapter->mlmepriv.acm_mask = 0;
++
++		AIFS = aSifsTime + (2 * pmlmeinfo->slotTime);
++
++		if (pmlmeext->cur_wireless_mode & (WIRELESS_11G | WIRELESS_11A)) {
++			ECWMin = 4;
++			ECWMax = 10;
++		} else if (pmlmeext->cur_wireless_mode & WIRELESS_11B) {
++			ECWMin = 5;
++			ECWMax = 10;
++		} else {
++			ECWMin = 4;
++			ECWMax = 10;
++		}
++
++		TXOP = 0;
++		acParm = AIFS | (ECWMin << 8) | (ECWMax << 12) | (TXOP << 16);
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acParm));
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BK, (u8 *)(&acParm));
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VI, (u8 *)(&acParm));
++
++		ECWMin = 2;
++		ECWMax = 3;
++		TXOP = 0x2f;
++		acParm = AIFS | (ECWMin << 8) | (ECWMax << 12) | (TXOP << 16);
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VO, (u8 *)(&acParm));
++
++	} else {
++		edca[0] = edca[1] = edca[2] = edca[3] = 0;
++
++		/*TODO:*/
++		acm_mask = 0;
++		padapter->mlmepriv.acm_mask = acm_mask;
++
++#if 0
++		/* BK */
++		/* AIFS = AIFSN * slot time + SIFS - r2t phy delay */
++#endif
++		AIFS = (7 * pmlmeinfo->slotTime) + aSifsTime;
++		ECWMin = 4;
++		ECWMax = 10;
++		TXOP = 0;
++		acParm = AIFS | (ECWMin << 8) | (ECWMax << 12) | (TXOP << 16);
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BK, (u8 *)(&acParm));
++		edca[XMIT_BK_QUEUE] = acParm;
++		RTW_INFO("WMM(BK): %x\n", acParm);
++
++		/* BE */
++		AIFS = (3 * pmlmeinfo->slotTime) + aSifsTime;
++		ECWMin = 4;
++		ECWMax = 6;
++		TXOP = 0;
++		acParm = AIFS | (ECWMin << 8) | (ECWMax << 12) | (TXOP << 16);
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acParm));
++		edca[XMIT_BE_QUEUE] = acParm;
++		RTW_INFO("WMM(BE): %x\n", acParm);
++
++		/* VI */
++		AIFS = (1 * pmlmeinfo->slotTime) + aSifsTime;
++		ECWMin = 3;
++		ECWMax = 4;
++		TXOP = 94;
++		acParm = AIFS | (ECWMin << 8) | (ECWMax << 12) | (TXOP << 16);
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VI, (u8 *)(&acParm));
++		edca[XMIT_VI_QUEUE] = acParm;
++		RTW_INFO("WMM(VI): %x\n", acParm);
++
++		/* VO */
++		AIFS = (1 * pmlmeinfo->slotTime) + aSifsTime;
++		ECWMin = 2;
++		ECWMax = 3;
++		TXOP = 47;
++		acParm = AIFS | (ECWMin << 8) | (ECWMax << 12) | (TXOP << 16);
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VO, (u8 *)(&acParm));
++		edca[XMIT_VO_QUEUE] = acParm;
++		RTW_INFO("WMM(VO): %x\n", acParm);
++
++
++		if (padapter->registrypriv.acm_method == 1)
++			rtw_hal_set_hwreg(padapter, HW_VAR_ACM_CTRL, (u8 *)(&acm_mask));
++		else
++			padapter->mlmepriv.acm_mask = acm_mask;
++
++		inx[0] = 0;
++		inx[1] = 1;
++		inx[2] = 2;
++		inx[3] = 3;
++
++		if (pregpriv->wifi_spec == 1) {
++			u32	j, tmp, change_inx = _FALSE;
++
++			/* entry indx: 0->vo, 1->vi, 2->be, 3->bk. */
++			for (i = 0 ; i < 4 ; i++) {
++				for (j = i + 1 ; j < 4 ; j++) {
++					/* compare CW and AIFS */
++					if ((edca[j] & 0xFFFF) < (edca[i] & 0xFFFF))
++						change_inx = _TRUE;
++					else if ((edca[j] & 0xFFFF) == (edca[i] & 0xFFFF)) {
++						/* compare TXOP */
++						if ((edca[j] >> 16) > (edca[i] >> 16))
++							change_inx = _TRUE;
++					}
++
++					if (change_inx) {
++						tmp = edca[i];
++						edca[i] = edca[j];
++						edca[j] = tmp;
++
++						tmp = inx[i];
++						inx[i] = inx[j];
++						inx[j] = tmp;
++
++						change_inx = _FALSE;
++					}
++				}
++			}
++		}
++
++		for (i = 0 ; i < 4 ; i++) {
++			pxmitpriv->wmm_para_seq[i] = inx[i];
++			RTW_INFO("wmm_para_seq(%d): %d\n", i, pxmitpriv->wmm_para_seq[i]);
++		}
++
++	}
++
++}
++
++static void update_hw_ht_param(_adapter *padapter)
++{
++	unsigned char		max_AMPDU_len;
++	unsigned char		min_MPDU_spacing;
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++
++	/* handle A-MPDU parameter field */
++	/*
++		AMPDU_para [1:0]:Max AMPDU Len => 0:8k , 1:16k, 2:32k, 3:64k
++		AMPDU_para [4:2]:Min MPDU Start Spacing
++	*/
++	max_AMPDU_len = pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x03;
++
++	min_MPDU_spacing = (pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x1c) >> 2;
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_AMPDU_MIN_SPACE, (u8 *)(&min_MPDU_spacing));
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_AMPDU_FACTOR, (u8 *)(&max_AMPDU_len));
++
++	/*  */
++	/* Config SM Power Save setting */
++	/*  */
++	pmlmeinfo->SM_PS = (pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info & 0x0C) >> 2;
++	if (pmlmeinfo->SM_PS == WLAN_HT_CAP_SM_PS_STATIC) {
++#if 0
++		u8 i;
++		/* update the MCS rates */
++		for (i = 0; i < 16; i++)
++			pmlmeinfo->HT_caps.HT_cap_element.MCS_rate[i] &= MCS_rate_1R[i];
++#endif
++		RTW_INFO("%s(): WLAN_HT_CAP_SM_PS_STATIC\n", __FUNCTION__);
++	}
++
++	/*  */
++	/* Config current HT Protection mode. */
++	/*  */
++	/* pmlmeinfo->HT_protection = pmlmeinfo->HT_info.infos[1] & 0x3; */
++
++}
++
++static void rtw_ap_check_scan(_adapter *padapter)
++{
++	_irqL	irqL;
++	_list		*plist, *phead;
++	u32	delta_time, lifetime;
++	struct	wlan_network	*pnetwork = NULL;
++	WLAN_BSSID_EX *pbss = NULL;
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	_queue	*queue	= &(pmlmepriv->scanned_queue);
++	u8 do_scan = _FALSE;
++	u8 reason = RTW_AUTO_SCAN_REASON_UNSPECIFIED;
++
++	lifetime = SCANQUEUE_LIFETIME; /* 20 sec */
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++	phead = get_list_head(queue);
++	if (rtw_end_of_queue_search(phead, get_next(phead)) == _TRUE)
++		if (padapter->registrypriv.wifi_spec) {
++			do_scan = _TRUE;
++			reason |= RTW_AUTO_SCAN_REASON_2040_BSS;
++		}
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	if (padapter->registrypriv.acs_auto_scan) {
++		do_scan = _TRUE;
++		reason |= RTW_AUTO_SCAN_REASON_ACS;
++		rtw_acs_start(padapter, _TRUE);
++	}
++#endif
++
++	if (_TRUE == do_scan) {
++		RTW_INFO("%s : drv scans by itself and wait_completed\n", __func__);
++		rtw_drv_scan_by_self(padapter, reason);
++		rtw_scan_wait_completed(padapter);
++	}
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	if (padapter->registrypriv.acs_auto_scan)
++		rtw_acs_start(padapter, _FALSE);
++#endif
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		if (rtw_ch_set_search_ch(padapter->mlmeextpriv.channel_set, pnetwork->network.Configuration.DSConfig) >= 0
++		    && rtw_mlme_band_check(padapter, pnetwork->network.Configuration.DSConfig) == _TRUE
++		    && _TRUE == rtw_validate_ssid(&(pnetwork->network.Ssid))) {
++			delta_time = (u32) rtw_get_passing_time_ms(pnetwork->last_scanned);
++
++			if (delta_time < lifetime) {
++
++				uint ie_len = 0;
++				u8 *pbuf = NULL;
++				u8 *ie = NULL;
++
++				pbss = &pnetwork->network;
++				ie = pbss->IEs;
++
++				/*check if HT CAP INFO IE exists or not*/
++				pbuf = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _HT_CAPABILITY_IE_, &ie_len, (pbss->IELength - _BEACON_IE_OFFSET_));
++				if (pbuf == NULL) {
++					/* HT CAP INFO IE don't exist, it is b/g mode bss.*/
++
++					if (_FALSE == ATOMIC_READ(&pmlmepriv->olbc))
++						ATOMIC_SET(&pmlmepriv->olbc, _TRUE);
++
++					if (_FALSE == ATOMIC_READ(&pmlmepriv->olbc_ht))
++						ATOMIC_SET(&pmlmepriv->olbc_ht, _TRUE);
++					
++					if (padapter->registrypriv.wifi_spec)
++						RTW_INFO("%s: %s is a/b/g ap\n", __func__, pnetwork->network.Ssid.Ssid);
++				}
++			}
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	pmlmepriv->num_sta_no_ht = 0; /* reset to 0 after ap do scanning*/
++
++}
++
++void rtw_start_bss_hdl_after_chbw_decided(_adapter *adapter)
++{
++	WLAN_BSSID_EX *pnetwork = &(adapter->mlmepriv.cur_network.network);
++	struct sta_info *sta = NULL;
++
++	/* update cur_wireless_mode */
++	update_wireless_mode(adapter);
++
++	/* update RRSR and RTS_INIT_RATE register after set channel and bandwidth */
++	UpdateBrateTbl(adapter, pnetwork->SupportedRates);
++	rtw_hal_set_hwreg(adapter, HW_VAR_BASIC_RATE, pnetwork->SupportedRates);
++
++	/* update capability after cur_wireless_mode updated */
++	update_capinfo(adapter, rtw_get_capability(pnetwork));
++
++	/* update bc/mc sta_info */
++	update_bmc_sta(adapter);
++
++	/* update AP's sta info */
++	sta = rtw_get_stainfo(&adapter->stapriv, pnetwork->MacAddress);
++	if (!sta) {
++		RTW_INFO(FUNC_ADPT_FMT" !sta for macaddr="MAC_FMT"\n", FUNC_ADPT_ARG(adapter), MAC_ARG(pnetwork->MacAddress));
++		rtw_warn_on(1);
++		return;
++	}
++
++	update_ap_info(adapter, sta);
++}
++
++void start_bss_network(_adapter *padapter, struct createbss_parm *parm)
++{
++#define DUMP_ADAPTERS_STATUS 0
++
++	u8 val8;
++	u16 bcn_interval;
++	u32	acparm;
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct security_priv *psecuritypriv = &(padapter->securitypriv);
++	WLAN_BSSID_EX *pnetwork = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network; /* used as input */
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork_mlmeext = &(pmlmeinfo->network);
++	struct dvobj_priv *pdvobj = padapter->dvobj;
++	s16 req_ch = -1, req_bw = -1, req_offset = -1;
++	bool ch_setting_changed = _FALSE;
++	u8 ch_to_set = 0, bw_to_set, offset_to_set;
++	u8 doiqk = _FALSE;
++	/* use for check ch bw offset can be allowed or not */
++	u8 chbw_allow = _TRUE;
++
++	if (parm->req_ch != 0) {
++		/* bypass other setting, go checking ch, bw, offset */
++		req_ch = parm->req_ch;
++		req_bw = parm->req_bw;
++		req_offset = parm->req_offset;
++		goto chbw_decision;
++	}
++
++	bcn_interval = (u16)pnetwork->Configuration.BeaconPeriod;
++
++	/* check if there is wps ie, */
++	/* if there is wpsie in beacon, the hostapd will update beacon twice when stating hostapd, */
++	/* and at first time the security ie ( RSN/WPA IE) will not include in beacon. */
++	if (NULL == rtw_get_wps_ie(pnetwork->IEs + _FIXED_IE_LENGTH_, pnetwork->IELength - _FIXED_IE_LENGTH_, NULL, NULL))
++		pmlmeext->bstart_bss = _TRUE;
++
++	/* todo: update wmm, ht cap */
++	/* pmlmeinfo->WMM_enable; */
++	/* pmlmeinfo->HT_enable; */
++	if (pmlmepriv->qospriv.qos_option)
++		pmlmeinfo->WMM_enable = _TRUE;
++#ifdef CONFIG_80211N_HT
++	if (pmlmepriv->htpriv.ht_option) {
++		pmlmeinfo->WMM_enable = _TRUE;
++		pmlmeinfo->HT_enable = _TRUE;
++		/* pmlmeinfo->HT_info_enable = _TRUE; */
++		/* pmlmeinfo->HT_caps_enable = _TRUE; */
++
++		update_hw_ht_param(padapter);
++	}
++#endif /* #CONFIG_80211N_HT */
++
++#ifdef CONFIG_80211AC_VHT
++	if (pmlmepriv->vhtpriv.vht_option) {
++		pmlmeinfo->VHT_enable = _TRUE;
++		update_hw_vht_param(padapter);
++	}
++#endif /* CONFIG_80211AC_VHT */
++
++	if (pmlmepriv->cur_network.join_res != _TRUE) { /* setting only at  first time */
++		/* WEP Key will be set before this function, do not clear CAM. */
++		if ((psecuritypriv->dot11PrivacyAlgrthm != _WEP40_) && (psecuritypriv->dot11PrivacyAlgrthm != _WEP104_))
++			flush_all_cam_entry(padapter);	/* clear CAM */
++	}
++
++	/* set MSR to AP_Mode		 */
++	Set_MSR(padapter, _HW_STATE_AP_);
++
++	/* Set BSSID REG */
++	rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, pnetwork->MacAddress);
++
++	/* Set EDCA param reg */
++#ifdef CONFIG_CONCURRENT_MODE
++	acparm = 0x005ea42b;
++#else
++	acparm = 0x002F3217; /* VO */
++#endif
++	rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VO, (u8 *)(&acparm));
++	acparm = 0x005E4317; /* VI */
++	rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VI, (u8 *)(&acparm));
++	/* acparm = 0x00105320; */ /* BE */
++	acparm = 0x005ea42b;
++	rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acparm));
++	acparm = 0x0000A444; /* BK */
++	rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BK, (u8 *)(&acparm));
++
++	/* Set Security */
++	val8 = (psecuritypriv->dot11AuthAlgrthm == dot11AuthAlgrthm_8021X) ? 0xcc : 0xcf;
++	rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, (u8 *)(&val8));
++
++	/* Beacon Control related register */
++	rtw_hal_set_hwreg(padapter, HW_VAR_BEACON_INTERVAL, (u8 *)(&bcn_interval));
++
++chbw_decision:
++	ch_setting_changed = rtw_ap_chbw_decision(padapter, req_ch, req_bw, req_offset
++		     , &ch_to_set, &bw_to_set, &offset_to_set, &chbw_allow);
++
++	/* let pnetwork_mlmeext == pnetwork_mlme. */
++	_rtw_memcpy(pnetwork_mlmeext, pnetwork, pnetwork->Length);
++
++	rtw_start_bss_hdl_after_chbw_decided(padapter);
++
++#if defined(CONFIG_DFS_MASTER)
++	rtw_dfs_master_status_apply(padapter, MLME_AP_STARTED);
++#endif
++
++#ifdef CONFIG_MCC_MODE
++	/* issue null data to AP for all interface connecting to AP before switch channel setting for softap */
++	rtw_hal_mcc_issue_null_data(padapter, chbw_allow, 1);
++#endif /* CONFIG_MCC_MODE */
++
++	doiqk = _TRUE;
++	rtw_hal_set_hwreg(padapter , HW_VAR_DO_IQK , &doiqk);
++
++	if (ch_to_set != 0) {
++		set_channel_bwmode(padapter, ch_to_set, offset_to_set, bw_to_set);
++		rtw_mi_update_union_chan_inf(padapter, ch_to_set, offset_to_set, bw_to_set);
++	}
++
++	doiqk = _FALSE;
++	rtw_hal_set_hwreg(padapter , HW_VAR_DO_IQK , &doiqk);
++
++#ifdef CONFIG_MCC_MODE
++	/* after set_channel_bwmode for backup IQK */
++	rtw_hal_set_mcc_setting_start_bss_network(padapter, chbw_allow);
++#endif
++
++	if (DUMP_ADAPTERS_STATUS) {
++		RTW_INFO(FUNC_ADPT_FMT" done\n", FUNC_ADPT_ARG(padapter));
++		dump_adapters_status(RTW_DBGDUMP , adapter_to_dvobj(padapter));
++	}
++
++	/* update beacon content only if bstart_bss is _TRUE */
++	if (_TRUE == pmlmeext->bstart_bss) {
++
++		_irqL irqL;
++
++		if ((ATOMIC_READ(&pmlmepriv->olbc) == _TRUE) || (ATOMIC_READ(&pmlmepriv->olbc_ht) == _TRUE)) {
++			/* AP is not starting a 40 MHz BSS in presence of an 802.11g BSS. */
++
++			pmlmepriv->ht_op_mode &= (~HT_INFO_OPERATION_MODE_OP_MODE_MASK);
++			pmlmepriv->ht_op_mode |= OP_MODE_MAY_BE_LEGACY_STAS;
++			update_beacon(padapter, _HT_ADD_INFO_IE_, NULL, _FALSE);
++		}
++
++		update_beacon(padapter, _TIM_IE_, NULL, _FALSE);
++
++#ifdef CONFIG_SWTIMER_BASED_TXBCN
++		_enter_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++		if (rtw_is_list_empty(&padapter->list)) {
++			rtw_list_insert_tail(&padapter->list, get_list_head(&pdvobj->ap_if_q));
++			pdvobj->nr_ap_if++;
++			pdvobj->inter_bcn_space = DEFAULT_BCN_INTERVAL / pdvobj->nr_ap_if;
++		}
++		_exit_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++
++		rtw_hal_set_hwreg(padapter, HW_VAR_BEACON_INTERVAL, (u8 *)(&pdvobj->inter_bcn_space));
++
++#endif /*CONFIG_SWTIMER_BASED_TXBCN*/
++
++	}
++
++	rtw_scan_wait_completed(padapter);
++
++	/* send beacon */
++	if ((0 == rtw_mi_check_fwstate(padapter, _FW_UNDER_SURVEY))
++		&& (0 == rtw_mi_check_fwstate(padapter, WIFI_OP_CH_SWITCHING))
++	) {
++
++		/*update_beacon(padapter, _TIM_IE_, NULL, _TRUE);*/
++
++#if !defined(CONFIG_INTERRUPT_BASED_TXBCN)
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++#ifdef CONFIG_SWTIMER_BASED_TXBCN
++		if (pdvobj->nr_ap_if == 1) {
++			RTW_INFO("start SW BCN TIMER!\n");
++			_set_timer(&pdvobj->txbcn_timer, bcn_interval);
++		}
++#else
++		/* other case will  tx beacon when bcn interrupt coming in. */
++		if (send_beacon(padapter) == _FAIL)
++			RTW_INFO("issue_beacon, fail!\n");
++#endif
++#endif
++#endif /* !defined(CONFIG_INTERRUPT_BASED_TXBCN) */
++	}
++
++	/*Set EDCA param reg after update cur_wireless_mode & update_capinfo*/
++	if (pregpriv->wifi_spec == 1)
++		rtw_set_hw_wmm_param(padapter);
++
++	/*pmlmeext->bstart_bss = _TRUE;*/
++}
++
++int rtw_check_beacon_data(_adapter *padapter, u8 *pbuf,  int len)
++{
++	int ret = _SUCCESS;
++	u8 *p;
++	u8 *pHT_caps_ie = NULL;
++	u8 *pHT_info_ie = NULL;
++	u16 cap, ht_cap = _FALSE;
++	uint ie_len = 0;
++	int group_cipher, pairwise_cipher;
++	u8	channel, network_type, supportRate[NDIS_802_11_LENGTH_RATES_EX];
++	int supportRateNum = 0;
++	u8 OUI1[] = {0x00, 0x50, 0xf2, 0x01};
++	u8 wps_oui[4] = {0x0, 0x50, 0xf2, 0x04};
++	u8 WMM_PARA_IE[] = {0x00, 0x50, 0xf2, 0x02, 0x01, 0x01};
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX *pbss_network = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *ie = pbss_network->IEs;
++	u8 vht_cap = _FALSE;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 rf_num = 0;
++
++	/* SSID */
++	/* Supported rates */
++	/* DS Params */
++	/* WLAN_EID_COUNTRY */
++	/* ERP Information element */
++	/* Extended supported rates */
++	/* WPA/WPA2 */
++	/* Wi-Fi Wireless Multimedia Extensions */
++	/* ht_capab, ht_oper */
++	/* WPS IE */
++
++	RTW_INFO("%s, len=%d\n", __FUNCTION__, len);
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return _FAIL;
++
++
++	if (len > MAX_IE_SZ)
++		return _FAIL;
++
++	pbss_network->IELength = len;
++
++	_rtw_memset(ie, 0, MAX_IE_SZ);
++
++	_rtw_memcpy(ie, pbuf, pbss_network->IELength);
++
++
++	if (pbss_network->InfrastructureMode != Ndis802_11APMode)
++		return _FAIL;
++
++
++	rtw_ap_check_scan(padapter);
++
++
++	pbss_network->Rssi = 0;
++
++	_rtw_memcpy(pbss_network->MacAddress, adapter_mac_addr(padapter), ETH_ALEN);
++
++	/* beacon interval */
++	p = rtw_get_beacon_interval_from_ie(ie);/* ie + 8;	 */ /* 8: TimeStamp, 2: Beacon Interval 2:Capability */
++	/* pbss_network->Configuration.BeaconPeriod = le16_to_cpu(*(unsigned short*)p); */
++	pbss_network->Configuration.BeaconPeriod = RTW_GET_LE16(p);
++
++	/* capability */
++	/* cap = *(unsigned short *)rtw_get_capability_from_ie(ie); */
++	/* cap = le16_to_cpu(cap); */
++	cap = RTW_GET_LE16(ie);
++
++	/* SSID */
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _SSID_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if (p && ie_len > 0) {
++		_rtw_memset(&pbss_network->Ssid, 0, sizeof(NDIS_802_11_SSID));
++		_rtw_memcpy(pbss_network->Ssid.Ssid, (p + 2), ie_len);
++		pbss_network->Ssid.SsidLength = ie_len;
++#ifdef CONFIG_P2P
++		_rtw_memcpy(padapter->wdinfo.p2p_group_ssid, pbss_network->Ssid.Ssid, pbss_network->Ssid.SsidLength);
++		padapter->wdinfo.p2p_group_ssid_len = pbss_network->Ssid.SsidLength;
++#endif
++	}
++
++	/* chnnel */
++	channel = 0;
++	pbss_network->Configuration.Length = 0;
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _DSSET_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if (p && ie_len > 0)
++		channel = *(p + 2);
++
++	pbss_network->Configuration.DSConfig = channel;
++
++
++	_rtw_memset(supportRate, 0, NDIS_802_11_LENGTH_RATES_EX);
++	/* get supported rates */
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _SUPPORTEDRATES_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if (p !=  NULL) {
++		_rtw_memcpy(supportRate, p + 2, ie_len);
++		supportRateNum = ie_len;
++	}
++
++	/* get ext_supported rates */
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _EXT_SUPPORTEDRATES_IE_, &ie_len, pbss_network->IELength - _BEACON_IE_OFFSET_);
++	if (p !=  NULL) {
++		_rtw_memcpy(supportRate + supportRateNum, p + 2, ie_len);
++		supportRateNum += ie_len;
++
++	}
++
++	network_type = rtw_check_network_type(supportRate, supportRateNum, channel);
++
++	rtw_set_supported_rate(pbss_network->SupportedRates, network_type);
++
++
++	/* parsing ERP_IE */
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _ERPINFO_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if (p && ie_len > 0)
++		ERP_IE_handler(padapter, (PNDIS_802_11_VARIABLE_IEs)p);
++
++	/* update privacy/security */
++	if (cap & BIT(4))
++		pbss_network->Privacy = 1;
++	else
++		pbss_network->Privacy = 0;
++
++	psecuritypriv->wpa_psk = 0;
++
++	/* wpa2 */
++	group_cipher = 0;
++	pairwise_cipher = 0;
++	psecuritypriv->wpa2_group_cipher = _NO_PRIVACY_;
++	psecuritypriv->wpa2_pairwise_cipher = _NO_PRIVACY_;
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _RSN_IE_2_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if (p && ie_len > 0) {
++		if (rtw_parse_wpa2_ie(p, ie_len + 2, &group_cipher, &pairwise_cipher, NULL) == _SUCCESS) {
++			psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++
++			psecuritypriv->dot8021xalg = 1;/* psk,  todo:802.1x */
++			psecuritypriv->wpa_psk |= BIT(1);
++
++			psecuritypriv->wpa2_group_cipher = group_cipher;
++			psecuritypriv->wpa2_pairwise_cipher = pairwise_cipher;
++#if 0
++			switch (group_cipher) {
++			case WPA_CIPHER_NONE:
++				psecuritypriv->wpa2_group_cipher = _NO_PRIVACY_;
++				break;
++			case WPA_CIPHER_WEP40:
++				psecuritypriv->wpa2_group_cipher = _WEP40_;
++				break;
++			case WPA_CIPHER_TKIP:
++				psecuritypriv->wpa2_group_cipher = _TKIP_;
++				break;
++			case WPA_CIPHER_CCMP:
++				psecuritypriv->wpa2_group_cipher = _AES_;
++				break;
++			case WPA_CIPHER_WEP104:
++				psecuritypriv->wpa2_group_cipher = _WEP104_;
++				break;
++			}
++
++			switch (pairwise_cipher) {
++			case WPA_CIPHER_NONE:
++				psecuritypriv->wpa2_pairwise_cipher = _NO_PRIVACY_;
++				break;
++			case WPA_CIPHER_WEP40:
++				psecuritypriv->wpa2_pairwise_cipher = _WEP40_;
++				break;
++			case WPA_CIPHER_TKIP:
++				psecuritypriv->wpa2_pairwise_cipher = _TKIP_;
++				break;
++			case WPA_CIPHER_CCMP:
++				psecuritypriv->wpa2_pairwise_cipher = _AES_;
++				break;
++			case WPA_CIPHER_WEP104:
++				psecuritypriv->wpa2_pairwise_cipher = _WEP104_;
++				break;
++			}
++#endif
++		}
++
++	}
++
++	/* wpa */
++	ie_len = 0;
++	group_cipher = 0;
++	pairwise_cipher = 0;
++	psecuritypriv->wpa_group_cipher = _NO_PRIVACY_;
++	psecuritypriv->wpa_pairwise_cipher = _NO_PRIVACY_;
++	for (p = ie + _BEACON_IE_OFFSET_; ; p += (ie_len + 2)) {
++		p = rtw_get_ie(p, _SSN_IE_1_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_ - (ie_len + 2)));
++		if ((p) && (_rtw_memcmp(p + 2, OUI1, 4))) {
++			if (rtw_parse_wpa_ie(p, ie_len + 2, &group_cipher, &pairwise_cipher, NULL) == _SUCCESS) {
++				psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++
++				psecuritypriv->dot8021xalg = 1;/* psk,  todo:802.1x */
++
++				psecuritypriv->wpa_psk |= BIT(0);
++
++				psecuritypriv->wpa_group_cipher = group_cipher;
++				psecuritypriv->wpa_pairwise_cipher = pairwise_cipher;
++
++#if 0
++				switch (group_cipher) {
++				case WPA_CIPHER_NONE:
++					psecuritypriv->wpa_group_cipher = _NO_PRIVACY_;
++					break;
++				case WPA_CIPHER_WEP40:
++					psecuritypriv->wpa_group_cipher = _WEP40_;
++					break;
++				case WPA_CIPHER_TKIP:
++					psecuritypriv->wpa_group_cipher = _TKIP_;
++					break;
++				case WPA_CIPHER_CCMP:
++					psecuritypriv->wpa_group_cipher = _AES_;
++					break;
++				case WPA_CIPHER_WEP104:
++					psecuritypriv->wpa_group_cipher = _WEP104_;
++					break;
++				}
++
++				switch (pairwise_cipher) {
++				case WPA_CIPHER_NONE:
++					psecuritypriv->wpa_pairwise_cipher = _NO_PRIVACY_;
++					break;
++				case WPA_CIPHER_WEP40:
++					psecuritypriv->wpa_pairwise_cipher = _WEP40_;
++					break;
++				case WPA_CIPHER_TKIP:
++					psecuritypriv->wpa_pairwise_cipher = _TKIP_;
++					break;
++				case WPA_CIPHER_CCMP:
++					psecuritypriv->wpa_pairwise_cipher = _AES_;
++					break;
++				case WPA_CIPHER_WEP104:
++					psecuritypriv->wpa_pairwise_cipher = _WEP104_;
++					break;
++				}
++#endif
++			}
++
++			break;
++
++		}
++
++		if ((p == NULL) || (ie_len == 0))
++			break;
++
++	}
++
++	/* wmm */
++	ie_len = 0;
++	pmlmepriv->qospriv.qos_option = 0;
++	if (pregistrypriv->wmm_enable) {
++		for (p = ie + _BEACON_IE_OFFSET_; ; p += (ie_len + 2)) {
++			p = rtw_get_ie(p, _VENDOR_SPECIFIC_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_ - (ie_len + 2)));
++			if ((p) && _rtw_memcmp(p + 2, WMM_PARA_IE, 6)) {
++				pmlmepriv->qospriv.qos_option = 1;
++
++				*(p + 8) |= BIT(7); /* QoS Info, support U-APSD */
++
++				/* disable all ACM bits since the WMM admission control is not supported */
++				*(p + 10) &= ~BIT(4); /* BE */
++				*(p + 14) &= ~BIT(4); /* BK */
++				*(p + 18) &= ~BIT(4); /* VI */
++				*(p + 22) &= ~BIT(4); /* VO */
++
++				break;
++			}
++
++			if ((p == NULL) || (ie_len == 0))
++				break;
++		}
++	}
++#ifdef CONFIG_80211N_HT
++	/* parsing HT_CAP_IE */
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _HT_CAPABILITY_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if (p && ie_len > 0) {
++		u8 rf_type = 0;
++		HT_CAP_AMPDU_FACTOR max_rx_ampdu_factor = MAX_AMPDU_FACTOR_64K;
++		struct rtw_ieee80211_ht_cap *pht_cap = (struct rtw_ieee80211_ht_cap *)(p + 2);
++
++		if (0) {
++			RTW_INFO(FUNC_ADPT_FMT" HT_CAP_IE from upper layer:\n", FUNC_ADPT_ARG(padapter));
++			dump_ht_cap_ie_content(RTW_DBGDUMP, p + 2, ie_len);
++		}
++
++		pHT_caps_ie = p;
++
++		ht_cap = _TRUE;
++		network_type |= WIRELESS_11_24N;
++
++		rtw_ht_use_default_setting(padapter);
++
++		/* Update HT Capabilities Info field */
++		if (pmlmepriv->htpriv.sgi_20m == _FALSE)
++			pht_cap->cap_info &= ~(IEEE80211_HT_CAP_SGI_20);
++
++		if (pmlmepriv->htpriv.sgi_40m == _FALSE)
++			pht_cap->cap_info &= ~(IEEE80211_HT_CAP_SGI_40);
++
++		if (!TEST_FLAG(pmlmepriv->htpriv.ldpc_cap, LDPC_HT_ENABLE_RX))
++			pht_cap->cap_info &= ~(IEEE80211_HT_CAP_LDPC_CODING);
++
++		if (!TEST_FLAG(pmlmepriv->htpriv.stbc_cap, STBC_HT_ENABLE_TX))
++			pht_cap->cap_info &= ~(IEEE80211_HT_CAP_TX_STBC);
++
++		if (!TEST_FLAG(pmlmepriv->htpriv.stbc_cap, STBC_HT_ENABLE_RX))
++			pht_cap->cap_info &= ~(IEEE80211_HT_CAP_RX_STBC_3R);
++
++		/* Update A-MPDU Parameters field */
++		pht_cap->ampdu_params_info &= ~(IEEE80211_HT_CAP_AMPDU_FACTOR | IEEE80211_HT_CAP_AMPDU_DENSITY);
++
++		if ((psecuritypriv->wpa_pairwise_cipher & WPA_CIPHER_CCMP) ||
++		    (psecuritypriv->wpa2_pairwise_cipher & WPA_CIPHER_CCMP))
++			pht_cap->ampdu_params_info |= (IEEE80211_HT_CAP_AMPDU_DENSITY & (0x07 << 2));
++		else
++			pht_cap->ampdu_params_info |= (IEEE80211_HT_CAP_AMPDU_DENSITY & 0x00);
++
++		rtw_hal_get_def_var(padapter, HW_VAR_MAX_RX_AMPDU_FACTOR, &max_rx_ampdu_factor);
++		pht_cap->ampdu_params_info |= (IEEE80211_HT_CAP_AMPDU_FACTOR & max_rx_ampdu_factor); /* set  Max Rx AMPDU size  to 64K */
++
++		_rtw_memcpy(&(pmlmeinfo->HT_caps), pht_cap, sizeof(struct HT_caps_element));
++
++		/* Update Supported MCS Set field */
++		{
++			int i;
++
++			rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++			/* RX MCS Bitmask */
++			switch (rf_type) {
++			case RF_1T1R:
++			case RF_1T2R: /* ? */
++				set_mcs_rate_by_mask(HT_CAP_ELE_RX_MCS_MAP(pht_cap), MCS_RATE_1R);
++				break;
++			case RF_2T2R:
++				set_mcs_rate_by_mask(HT_CAP_ELE_RX_MCS_MAP(pht_cap), MCS_RATE_2R);
++				break;
++			case RF_3T3R:
++				set_mcs_rate_by_mask(HT_CAP_ELE_RX_MCS_MAP(pht_cap), MCS_RATE_3R);
++				break;
++			default:
++				RTW_INFO("[warning] rf_type %d is not expected\n", rf_type);
++			}
++			for (i = 0; i < 10; i++)
++				*(HT_CAP_ELE_RX_MCS_MAP(pht_cap) + i) &= padapter->mlmeextpriv.default_supported_mcs_set[i];
++		}
++
++#ifdef CONFIG_BEAMFORMING
++		/* Use registry value to enable HT Beamforming. */
++		/* ToDo: use configure file to set these capability. */
++		pht_cap->tx_BF_cap_info = 0;
++
++		/* HT Beamformer */
++		if (TEST_FLAG(pmlmepriv->htpriv.beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE)) {
++			/* Transmit NDP Capable */
++			SET_HT_CAP_TXBF_TRANSMIT_NDP_CAP(pht_cap, 1);
++			/* Explicit Compressed Steering Capable */
++			SET_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP(pht_cap, 1);
++			/* Compressed Steering Number Antennas */
++			SET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS(pht_cap, 1);
++			rtw_hal_get_def_var(padapter, HAL_DEF_BEAMFORMER_CAP, (u8 *)&rf_num);
++			SET_HT_CAP_TXBF_CHNL_ESTIMATION_NUM_ANTENNAS(pht_cap, rf_num);
++		}
++
++		/* HT Beamformee */
++		if (TEST_FLAG(pmlmepriv->htpriv.beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE)) {
++			/* Receive NDP Capable */
++			SET_HT_CAP_TXBF_RECEIVE_NDP_CAP(pht_cap, 1);
++			/* Explicit Compressed Beamforming Feedback Capable */
++			SET_HT_CAP_TXBF_EXPLICIT_COMP_FEEDBACK_CAP(pht_cap, 2);
++			rtw_hal_get_def_var(padapter, HAL_DEF_BEAMFORMEE_CAP, (u8 *)&rf_num);
++			SET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS(pht_cap, rf_num);
++		}
++#endif /* CONFIG_BEAMFORMING */
++
++		_rtw_memcpy(&pmlmepriv->htpriv.ht_cap, p + 2, ie_len);
++
++		if (0) {
++			RTW_INFO(FUNC_ADPT_FMT" HT_CAP_IE driver masked:\n", FUNC_ADPT_ARG(padapter));
++			dump_ht_cap_ie_content(RTW_DBGDUMP, p + 2, ie_len);
++		}
++	}
++
++	/* parsing HT_INFO_IE */
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _HT_ADD_INFO_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if (p && ie_len > 0)
++		pHT_info_ie = p;
++#endif /* CONFIG_80211N_HT */
++	switch (network_type) {
++	case WIRELESS_11B:
++		pbss_network->NetworkTypeInUse = Ndis802_11DS;
++		break;
++	case WIRELESS_11G:
++	case WIRELESS_11BG:
++	case WIRELESS_11G_24N:
++	case WIRELESS_11BG_24N:
++		pbss_network->NetworkTypeInUse = Ndis802_11OFDM24;
++		break;
++	case WIRELESS_11A:
++		pbss_network->NetworkTypeInUse = Ndis802_11OFDM5;
++		break;
++	default:
++		pbss_network->NetworkTypeInUse = Ndis802_11OFDM24;
++		break;
++	}
++
++	pmlmepriv->cur_network.network_type = network_type;
++
++#ifdef CONFIG_80211N_HT
++	pmlmepriv->htpriv.ht_option = _FALSE;
++
++	if ((psecuritypriv->wpa2_pairwise_cipher & WPA_CIPHER_TKIP) ||
++	    (psecuritypriv->wpa_pairwise_cipher & WPA_CIPHER_TKIP)) {
++		/* todo: */
++		/* ht_cap = _FALSE; */
++	}
++
++	/* ht_cap	 */
++	if (pregistrypriv->ht_enable && ht_cap == _TRUE) {
++		pmlmepriv->htpriv.ht_option = _TRUE;
++		pmlmepriv->qospriv.qos_option = 1;
++
++		pmlmepriv->htpriv.ampdu_enable = pregistrypriv->ampdu_enable ? _TRUE : _FALSE;
++
++		HT_caps_handler(padapter, (PNDIS_802_11_VARIABLE_IEs)pHT_caps_ie);
++
++		HT_info_handler(padapter, (PNDIS_802_11_VARIABLE_IEs)pHT_info_ie);
++	}
++#endif
++
++#ifdef CONFIG_80211AC_VHT
++
++	/* Parsing VHT CAP IE */
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, EID_VHTCapability, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if (p && ie_len > 0)
++		vht_cap = _TRUE;
++	/* Parsing VHT OPERATION IE */
++
++
++	pmlmepriv->vhtpriv.vht_option = _FALSE;
++	/* if channel in 5G band, then add vht ie . */
++	if ((pbss_network->Configuration.DSConfig > 14)
++	    && (pmlmepriv->htpriv.ht_option == _TRUE)
++	    && REGSTY_IS_11AC_ENABLE(pregistrypriv)
++	    && hal_chk_proto_cap(padapter, PROTO_CAP_11AC)
++	    && (!pmlmepriv->country_ent || COUNTRY_CHPLAN_EN_11AC(pmlmepriv->country_ent))
++	   ) {
++		if (vht_cap == _TRUE)
++			pmlmepriv->vhtpriv.vht_option = _TRUE;
++		else if (REGSTY_IS_11AC_AUTO(pregistrypriv)) {
++			u8	cap_len, operation_len;
++
++			rtw_vht_use_default_setting(padapter);
++
++			{
++				/* VHT Operation mode notifiy bit in Extended IE (127) */
++				uint len = 0;
++
++				SET_EXT_CAPABILITY_ELE_OP_MODE_NOTIF(pmlmepriv->ext_capab_ie_data, 1);
++				pmlmepriv->ext_capab_ie_len = 10;
++				rtw_set_ie(pbss_network->IEs + pbss_network->IELength, EID_EXTCapability, 8, pmlmepriv->ext_capab_ie_data, &len);
++				pbss_network->IELength += pmlmepriv->ext_capab_ie_len;
++			}
++
++			/* VHT Capabilities element */
++			cap_len = rtw_build_vht_cap_ie(padapter, pbss_network->IEs + pbss_network->IELength);
++			pbss_network->IELength += cap_len;
++
++			/* VHT Operation element */
++			operation_len = rtw_build_vht_operation_ie(padapter, pbss_network->IEs + pbss_network->IELength, pbss_network->Configuration.DSConfig);
++			pbss_network->IELength += operation_len;
++
++			pmlmepriv->vhtpriv.vht_option = _TRUE;
++		}
++	}
++#endif /* CONFIG_80211AC_VHT */
++
++	if(pbss_network->Configuration.DSConfig <= 14 && padapter->registrypriv.wifi_spec == 1) {
++		uint len = 0;
++
++		SET_EXT_CAPABILITY_ELE_BSS_COEXIST(pmlmepriv->ext_capab_ie_data, 1);
++		pmlmepriv->ext_capab_ie_len = 10;
++		rtw_set_ie(pbss_network->IEs + pbss_network->IELength, EID_EXTCapability, 8, pmlmepriv->ext_capab_ie_data, &len);
++		pbss_network->IELength += pmlmepriv->ext_capab_ie_len;
++	}
++
++	pbss_network->Length = get_WLAN_BSSID_EX_sz((WLAN_BSSID_EX *)pbss_network);
++
++	rtw_ies_get_chbw(pbss_network->IEs + _BEACON_IE_OFFSET_, pbss_network->IELength - _BEACON_IE_OFFSET_
++		, &pmlmepriv->ori_ch, &pmlmepriv->ori_bw, &pmlmepriv->ori_offset);
++	rtw_warn_on(pmlmepriv->ori_ch == 0);
++
++	{
++		/* alloc sta_info for ap itself */
++
++		struct sta_info *sta;
++
++		sta = rtw_get_stainfo(&padapter->stapriv, pbss_network->MacAddress);
++		if (!sta) {
++			sta = rtw_alloc_stainfo(&padapter->stapriv, pbss_network->MacAddress);
++			if (sta == NULL)
++				return _FAIL;
++		}
++	}
++
++	rtw_startbss_cmd(padapter, RTW_CMDF_WAIT_ACK);
++	{
++		int sk_band = RTW_GET_SCAN_BAND_SKIP(padapter);
++
++		if (sk_band)
++			RTW_CLR_SCAN_BAND_SKIP(padapter, sk_band);
++	}
++
++	rtw_indicate_connect(padapter);
++
++	pmlmepriv->cur_network.join_res = _TRUE;/* for check if already set beacon */
++
++	/* update bc/mc sta_info */
++	/* update_bmc_sta(padapter); */
++
++	return ret;
++
++}
++
++#if CONFIG_RTW_MACADDR_ACL
++void rtw_macaddr_acl_init(_adapter *adapter)
++{
++	struct sta_priv *stapriv = &adapter->stapriv;
++	struct wlan_acl_pool *acl = &stapriv->acl_list;
++	_queue *acl_node_q = &acl->acl_node_q;
++	int i;
++	_irqL irqL;
++
++	_enter_critical_bh(&(acl_node_q->lock), &irqL);
++	_rtw_init_listhead(&(acl_node_q->queue));
++	acl->num = 0;
++	acl->mode = RTW_ACL_MODE_DISABLED;
++	for (i = 0; i < NUM_ACL; i++) {
++		_rtw_init_listhead(&acl->aclnode[i].list);
++		acl->aclnode[i].valid = _FALSE;
++	}
++	_exit_critical_bh(&(acl_node_q->lock), &irqL);
++}
++
++void rtw_macaddr_acl_deinit(_adapter *adapter)
++{
++	struct sta_priv *stapriv = &adapter->stapriv;
++	struct wlan_acl_pool *acl = &stapriv->acl_list;
++	_queue *acl_node_q = &acl->acl_node_q;
++	_irqL irqL;
++	_list *head, *list;
++	struct rtw_wlan_acl_node *acl_node;
++
++	_enter_critical_bh(&(acl_node_q->lock), &irqL);
++	head = get_list_head(acl_node_q);
++	list = get_next(head);
++	while (rtw_end_of_queue_search(head, list) == _FALSE) {
++		acl_node = LIST_CONTAINOR(list, struct rtw_wlan_acl_node, list);
++		list = get_next(list);
++
++		if (acl_node->valid == _TRUE) {
++			acl_node->valid = _FALSE;
++			rtw_list_delete(&acl_node->list);
++			acl->num--;
++		}
++	}
++	_exit_critical_bh(&(acl_node_q->lock), &irqL);
++
++	rtw_warn_on(acl->num);
++	acl->mode = RTW_ACL_MODE_DISABLED;
++}
++
++void rtw_set_macaddr_acl(_adapter *adapter, int mode)
++{
++	struct sta_priv *stapriv = &adapter->stapriv;
++	struct wlan_acl_pool *acl = &stapriv->acl_list;
++
++	RTW_INFO(FUNC_ADPT_FMT" mode=%d\n", FUNC_ADPT_ARG(adapter), mode);
++
++	acl->mode = mode;
++
++	if (mode == RTW_ACL_MODE_DISABLED)
++		rtw_macaddr_acl_deinit(adapter);
++}
++
++int rtw_acl_add_sta(_adapter *adapter, const u8 *addr)
++{
++	_irqL irqL;
++	_list *list, *head;
++	u8 existed = 0;
++	int i = -1, ret = 0;
++	struct rtw_wlan_acl_node *acl_node;
++	struct sta_priv *stapriv = &adapter->stapriv;
++	struct wlan_acl_pool *acl = &stapriv->acl_list;
++	_queue *acl_node_q = &acl->acl_node_q;
++
++	_enter_critical_bh(&(acl_node_q->lock), &irqL);
++
++	head = get_list_head(acl_node_q);
++	list = get_next(head);
++
++	/* search for existed entry */
++	while (rtw_end_of_queue_search(head, list) == _FALSE) {
++		acl_node = LIST_CONTAINOR(list, struct rtw_wlan_acl_node, list);
++		list = get_next(list);
++
++		if (_rtw_memcmp(acl_node->addr, addr, ETH_ALEN)) {
++			if (acl_node->valid == _TRUE) {
++				existed = 1;
++				break;
++			}
++		}
++	}
++	if (existed)
++		goto release_lock;
++
++	if (acl->num >= NUM_ACL)
++		goto release_lock;
++
++	/* find empty one and use */
++	for (i = 0; i < NUM_ACL; i++) {
++
++		acl_node = &acl->aclnode[i];
++		if (acl_node->valid == _FALSE) {
++
++			_rtw_init_listhead(&acl_node->list);
++			_rtw_memcpy(acl_node->addr, addr, ETH_ALEN);
++			acl_node->valid = _TRUE;
++
++			rtw_list_insert_tail(&acl_node->list, get_list_head(acl_node_q));
++			acl->num++;
++			break;
++		}
++	}
++
++release_lock:
++	_exit_critical_bh(&(acl_node_q->lock), &irqL);
++
++	if (!existed && (i < 0 || i >= NUM_ACL))
++		ret = -1;
++
++	RTW_INFO(FUNC_ADPT_FMT" "MAC_FMT" %s (acl_num=%d)\n"
++		 , FUNC_ADPT_ARG(adapter), MAC_ARG(addr)
++		, (existed ? "existed" : ((i < 0 || i >= NUM_ACL) ? "no room" : "added"))
++		 , acl->num);
++
++	return ret;
++}
++
++int rtw_acl_remove_sta(_adapter *adapter, const u8 *addr)
++{
++	_irqL irqL;
++	_list *list, *head;
++	int ret = 0;
++	struct rtw_wlan_acl_node *acl_node;
++	struct sta_priv *stapriv = &adapter->stapriv;
++	struct wlan_acl_pool *acl = &stapriv->acl_list;
++	_queue	*acl_node_q = &acl->acl_node_q;
++	u8 is_baddr = is_broadcast_mac_addr(addr);
++	u8 match = 0;
++
++	_enter_critical_bh(&(acl_node_q->lock), &irqL);
++
++	head = get_list_head(acl_node_q);
++	list = get_next(head);
++
++	while (rtw_end_of_queue_search(head, list) == _FALSE) {
++		acl_node = LIST_CONTAINOR(list, struct rtw_wlan_acl_node, list);
++		list = get_next(list);
++
++		if (is_baddr || _rtw_memcmp(acl_node->addr, addr, ETH_ALEN)) {
++			if (acl_node->valid == _TRUE) {
++				acl_node->valid = _FALSE;
++				rtw_list_delete(&acl_node->list);
++				acl->num--;
++				match = 1;
++			}
++		}
++	}
++
++	_exit_critical_bh(&(acl_node_q->lock), &irqL);
++
++	RTW_INFO(FUNC_ADPT_FMT" "MAC_FMT" %s (acl_num=%d)\n"
++		 , FUNC_ADPT_ARG(adapter), MAC_ARG(addr)
++		 , is_baddr ? "clear all" : (match ? "match" : "no found")
++		 , acl->num);
++
++	return ret;
++}
++#endif /* CONFIG_RTW_MACADDR_ACL */
++
++u8 rtw_ap_set_pairwise_key(_adapter *padapter, struct sta_info *psta)
++{
++	struct cmd_obj			*ph2c;
++	struct set_stakey_parm	*psetstakey_para;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	psetstakey_para = (struct set_stakey_parm *)rtw_zmalloc(sizeof(struct set_stakey_parm));
++	if (psetstakey_para == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psetstakey_para, _SetStaKey_CMD_);
++
++
++	psetstakey_para->algorithm = (u8)psta->dot118021XPrivacy;
++
++	_rtw_memcpy(psetstakey_para->addr, psta->hwaddr, ETH_ALEN);
++
++	_rtw_memcpy(psetstakey_para->key, &psta->dot118021x_UncstKey, 16);
++
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++	return res;
++
++}
++
++static int rtw_ap_set_key(_adapter *padapter, u8 *key, u8 alg, int keyid, u8 set_tx)
++{
++	u8 keylen;
++	struct cmd_obj *pcmd;
++	struct setkey_parm *psetkeyparm;
++	struct cmd_priv	*pcmdpriv = &(padapter->cmdpriv);
++	int res = _SUCCESS;
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	pcmd = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (pcmd == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	psetkeyparm = (struct setkey_parm *)rtw_zmalloc(sizeof(struct setkey_parm));
++	if (psetkeyparm == NULL) {
++		rtw_mfree((unsigned char *)pcmd, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	_rtw_memset(psetkeyparm, 0, sizeof(struct setkey_parm));
++
++	psetkeyparm->keyid = (u8)keyid;
++	if (is_wep_enc(alg))
++		padapter->securitypriv.key_mask |= BIT(psetkeyparm->keyid);
++
++	psetkeyparm->algorithm = alg;
++
++	psetkeyparm->set_tx = set_tx;
++
++	switch (alg) {
++	case _WEP40_:
++		keylen = 5;
++		break;
++	case _WEP104_:
++		keylen = 13;
++		break;
++	case _TKIP_:
++	case _TKIP_WTMIC_:
++	case _AES_:
++	default:
++		keylen = 16;
++	}
++
++	_rtw_memcpy(&(psetkeyparm->key[0]), key, keylen);
++
++	pcmd->cmdcode = _SetKey_CMD_;
++	pcmd->parmbuf = (u8 *)psetkeyparm;
++	pcmd->cmdsz = (sizeof(struct setkey_parm));
++	pcmd->rsp = NULL;
++	pcmd->rspsz = 0;
++
++
++	_rtw_init_listhead(&pcmd->list);
++
++	res = rtw_enqueue_cmd(pcmdpriv, pcmd);
++
++exit:
++
++	return res;
++}
++
++int rtw_ap_set_group_key(_adapter *padapter, u8 *key, u8 alg, int keyid)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	return rtw_ap_set_key(padapter, key, alg, keyid, 1);
++}
++
++int rtw_ap_set_wep_key(_adapter *padapter, u8 *key, u8 keylen, int keyid, u8 set_tx)
++{
++	u8 alg;
++
++	switch (keylen) {
++	case 5:
++		alg = _WEP40_;
++		break;
++	case 13:
++		alg = _WEP104_;
++		break;
++	default:
++		alg = _NO_PRIVACY_;
++	}
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	return rtw_ap_set_key(padapter, key, alg, keyid, set_tx);
++}
++
++u8 rtw_ap_bmc_frames_hdl(_adapter *padapter)
++{
++#define HIQ_XMIT_COUNTS (6)
++	_irqL irqL;
++	struct sta_info *psta_bmc;
++	_list	*xmitframe_plist, *xmitframe_phead;
++	struct xmit_frame *pxmitframe = NULL;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct sta_priv  *pstapriv = &padapter->stapriv;
++	bool update_tim = _FALSE;
++
++
++	if (padapter->registrypriv.wifi_spec != 1)
++		return H2C_SUCCESS;
++
++
++	psta_bmc = rtw_get_bcmc_stainfo(padapter);
++	if (!psta_bmc)
++		return H2C_SUCCESS;
++
++
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++	if ((pstapriv->tim_bitmap & BIT(0)) && (psta_bmc->sleepq_len > 0)) {
++		int tx_counts = 0;
++
++		_update_beacon(padapter, _TIM_IE_, NULL, _FALSE, "update TIM with TIB=1");
++
++		RTW_INFO("sleepq_len of bmc_sta = %d\n", psta_bmc->sleepq_len);
++
++		xmitframe_phead = get_list_head(&psta_bmc->sleep_q);
++		xmitframe_plist = get_next(xmitframe_phead);
++
++		while ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE) {
++			pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++			xmitframe_plist = get_next(xmitframe_plist);
++
++			rtw_list_delete(&pxmitframe->list);
++
++			psta_bmc->sleepq_len--;
++			tx_counts++;
++
++			if (psta_bmc->sleepq_len > 0)
++				pxmitframe->attrib.mdata = 1;
++			else
++				pxmitframe->attrib.mdata = 0;
++
++			if (tx_counts == HIQ_XMIT_COUNTS)
++				pxmitframe->attrib.mdata = 0;
++
++			pxmitframe->attrib.triggered = 1;
++
++			if (xmitframe_hiq_filter(pxmitframe) == _TRUE)
++				pxmitframe->attrib.qsel = QSLT_HIGH;/*HIQ*/
++
++			rtw_hal_xmitframe_enqueue(padapter, pxmitframe);
++
++			if (tx_counts == HIQ_XMIT_COUNTS)
++				break;
++
++		}
++
++	} else {
++		if (psta_bmc->sleepq_len == 0) {
++
++			/*RTW_INFO("sleepq_len of bmc_sta = %d\n", psta_bmc->sleepq_len);*/
++
++			if (pstapriv->tim_bitmap & BIT(0))
++				update_tim = _TRUE;
++
++			pstapriv->tim_bitmap &= ~BIT(0);
++			pstapriv->sta_dz_bitmap &= ~BIT(0);
++
++			if (update_tim == _TRUE) {
++				RTW_INFO("clear TIB\n");
++				_update_beacon(padapter, _TIM_IE_, NULL, _TRUE, "bmc sleepq and HIQ empty");
++			}
++		}
++	}
++
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++#if 0
++	/* HIQ Check */
++	rtw_hal_get_hwreg(padapter, HW_VAR_CHK_HI_QUEUE_EMPTY, &empty);
++
++	while (_FALSE == empty && rtw_get_passing_time_ms(start) < 3000) {
++		rtw_msleep_os(100);
++		rtw_hal_get_hwreg(padapter, HW_VAR_CHK_HI_QUEUE_EMPTY, &empty);
++	}
++
++
++	printk("check if hiq empty=%d\n", empty);
++#endif
++
++	return H2C_SUCCESS;
++}
++
++#ifdef CONFIG_NATIVEAP_MLME
++
++static void associated_stainfo_update(_adapter *padapter, struct sta_info *psta, u32 sta_info_type)
++{
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	RTW_INFO("%s: "MAC_FMT", updated_type=0x%x\n", __func__, MAC_ARG(psta->hwaddr), sta_info_type);
++
++	if (sta_info_type & STA_INFO_UPDATE_BW) {
++
++		if ((psta->flags & WLAN_STA_HT) && !psta->ht_20mhz_set) {
++			if (pmlmepriv->sw_to_20mhz) {
++				psta->bw_mode = CHANNEL_WIDTH_20;
++				/*psta->htpriv.ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;*/
++				psta->htpriv.sgi_40m = _FALSE;
++			} else {
++				/*TODO: Switch back to 40MHZ?80MHZ*/
++			}
++		}
++	}
++
++	/*
++		if (sta_info_type & STA_INFO_UPDATE_RATE) {
++
++		}
++	*/
++
++	if (sta_info_type & STA_INFO_UPDATE_PROTECTION_MODE)
++		VCS_update(padapter, psta);
++
++	/*
++		if (sta_info_type & STA_INFO_UPDATE_CAP) {
++
++		}
++
++		if (sta_info_type & STA_INFO_UPDATE_HT_CAP) {
++
++		}
++
++		if (sta_info_type & STA_INFO_UPDATE_VHT_CAP) {
++
++		}
++	*/
++
++}
++
++static void update_bcn_ext_capab_ie(_adapter *padapter)
++{
++	sint ie_len = 0;
++	unsigned char	*pbuf;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork = &(pmlmeinfo->network);
++	u8 *ie = pnetwork->IEs;
++	u8 null_extcap_data[8] = {0};
++
++	pbuf = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _EXT_CAP_IE_, &ie_len, (pnetwork->IELength - _BEACON_IE_OFFSET_));
++	if (pbuf && ie_len > 0)
++		rtw_remove_bcn_ie(padapter, pnetwork, _EXT_CAP_IE_);
++
++	if ((pmlmepriv->ext_capab_ie_len > 0) &&
++	    (_rtw_memcmp(pmlmepriv->ext_capab_ie_data, null_extcap_data, sizeof(null_extcap_data)) == _FALSE))
++		rtw_add_bcn_ie(padapter, pnetwork, _EXT_CAP_IE_, pmlmepriv->ext_capab_ie_data, pmlmepriv->ext_capab_ie_len);
++
++}
++
++static void update_bcn_fixed_ie(_adapter *padapter)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++}
++
++static void update_bcn_erpinfo_ie(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork = &(pmlmeinfo->network);
++	unsigned char *p, *ie = pnetwork->IEs;
++	u32 len = 0;
++
++	RTW_INFO("%s, ERP_enable=%d\n", __FUNCTION__, pmlmeinfo->ERP_enable);
++
++	if (!pmlmeinfo->ERP_enable)
++		return;
++
++	/* parsing ERP_IE */
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _ERPINFO_IE_, &len, (pnetwork->IELength - _BEACON_IE_OFFSET_));
++	if (p && len > 0) {
++		PNDIS_802_11_VARIABLE_IEs pIE = (PNDIS_802_11_VARIABLE_IEs)p;
++
++		if (pmlmepriv->num_sta_non_erp == 1)
++			pIE->data[0] |= RTW_ERP_INFO_NON_ERP_PRESENT | RTW_ERP_INFO_USE_PROTECTION;
++		else
++			pIE->data[0] &= ~(RTW_ERP_INFO_NON_ERP_PRESENT | RTW_ERP_INFO_USE_PROTECTION);
++
++		if (pmlmepriv->num_sta_no_short_preamble > 0)
++			pIE->data[0] |= RTW_ERP_INFO_BARKER_PREAMBLE_MODE;
++		else
++			pIE->data[0] &= ~(RTW_ERP_INFO_BARKER_PREAMBLE_MODE);
++
++		ERP_IE_handler(padapter, pIE);
++	}
++
++}
++
++static void update_bcn_htcap_ie(_adapter *padapter)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++}
++
++static void update_bcn_htinfo_ie(_adapter *padapter)
++{
++	/*
++	u8 beacon_updated = _FALSE;
++	u32 sta_info_update_type = STA_INFO_UPDATE_NONE;
++	*/
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork = &(pmlmeinfo->network);
++	unsigned char *p, *ie = pnetwork->IEs;
++	u32 len = 0;
++
++	if (pmlmepriv->htpriv.ht_option == _FALSE)
++		return;
++
++	if (pmlmeinfo->HT_info_enable != 1)
++		return;
++
++
++	RTW_INFO("%s current operation mode=0x%X\n",
++		 __FUNCTION__, pmlmepriv->ht_op_mode);
++
++	RTW_INFO("num_sta_40mhz_intolerant(%d), 20mhz_width_req(%d), intolerant_ch_rpt(%d), olbc(%d)\n",
++		pmlmepriv->num_sta_40mhz_intolerant, pmlmepriv->ht_20mhz_width_req, pmlmepriv->ht_intolerant_ch_reported, ATOMIC_READ(&pmlmepriv->olbc));
++
++	/*parsing HT_INFO_IE, currently only update ht_op_mode - pht_info->infos[1] & pht_info->infos[2] for wifi logo test*/
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _HT_ADD_INFO_IE_, &len, (pnetwork->IELength - _BEACON_IE_OFFSET_));
++	if (p && len > 0) {
++		struct HT_info_element *pht_info = NULL;
++
++		pht_info = (struct HT_info_element *)(p + 2);
++
++		/* for STA Channel Width/Secondary Channel Offset*/
++		if ((pmlmepriv->sw_to_20mhz == 0) && (pmlmeext->cur_channel <= 14)) {
++			if ((pmlmepriv->num_sta_40mhz_intolerant > 0) || (pmlmepriv->ht_20mhz_width_req == _TRUE)
++			    || (pmlmepriv->ht_intolerant_ch_reported == _TRUE) || (ATOMIC_READ(&pmlmepriv->olbc) == _TRUE)) {
++				SET_HT_OP_ELE_2ND_CHL_OFFSET(pht_info, 0);
++				SET_HT_OP_ELE_STA_CHL_WIDTH(pht_info, 0);
++
++				pmlmepriv->sw_to_20mhz = 1;
++				/*
++				sta_info_update_type |= STA_INFO_UPDATE_BW;
++				beacon_updated = _TRUE;
++				*/
++
++				RTW_INFO("%s:switching to 20Mhz\n", __FUNCTION__);
++
++				/*TODO : cur_bwmode/cur_ch_offset switches to 20Mhz*/
++			}
++		} else {
++
++			if ((pmlmepriv->num_sta_40mhz_intolerant == 0) && (pmlmepriv->ht_20mhz_width_req == _FALSE)
++			    && (pmlmepriv->ht_intolerant_ch_reported == _FALSE) && (ATOMIC_READ(&pmlmepriv->olbc) == _FALSE)) {
++
++				if (pmlmeext->cur_bwmode >= CHANNEL_WIDTH_40) {
++
++					SET_HT_OP_ELE_STA_CHL_WIDTH(pht_info, 1);
++
++					SET_HT_OP_ELE_2ND_CHL_OFFSET(pht_info,
++						(pmlmeext->cur_ch_offset == HAL_PRIME_CHNL_OFFSET_LOWER) ?
++						HT_INFO_HT_PARAM_SECONDARY_CHNL_ABOVE : HT_INFO_HT_PARAM_SECONDARY_CHNL_BELOW);
++
++					pmlmepriv->sw_to_20mhz = 0;
++					/*
++					sta_info_update_type |= STA_INFO_UPDATE_BW;
++					beacon_updated = _TRUE;
++					*/
++
++					RTW_INFO("%s:switching back to 40Mhz\n", __FUNCTION__);
++				}
++			}
++		}
++
++		/* to update  ht_op_mode*/
++		*(u16 *)(pht_info->infos + 1) = cpu_to_le16(pmlmepriv->ht_op_mode);
++
++	}
++
++	/*associated_clients_update(padapter, beacon_updated, sta_info_update_type);*/
++
++}
++
++static void update_bcn_rsn_ie(_adapter *padapter)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++}
++
++static void update_bcn_wpa_ie(_adapter *padapter)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++}
++
++static void update_bcn_wmm_ie(_adapter *padapter)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++}
++
++static void update_bcn_wps_ie(_adapter *padapter)
++{
++	u8 *pwps_ie = NULL, *pwps_ie_src, *premainder_ie, *pbackup_remainder_ie = NULL;
++	uint wps_ielen = 0, wps_offset, remainder_ielen;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork = &(pmlmeinfo->network);
++	unsigned char *ie = pnetwork->IEs;
++	u32 ielen = pnetwork->IELength;
++
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	pwps_ie = rtw_get_wps_ie(ie + _FIXED_IE_LENGTH_, ielen - _FIXED_IE_LENGTH_, NULL, &wps_ielen);
++
++	if (pwps_ie == NULL || wps_ielen == 0)
++		return;
++
++	pwps_ie_src = pmlmepriv->wps_beacon_ie;
++	if (pwps_ie_src == NULL)
++		return;
++
++	wps_offset = (uint)(pwps_ie - ie);
++
++	premainder_ie = pwps_ie + wps_ielen;
++
++	remainder_ielen = ielen - wps_offset - wps_ielen;
++
++	if (remainder_ielen > 0) {
++		pbackup_remainder_ie = rtw_malloc(remainder_ielen);
++		if (pbackup_remainder_ie)
++			_rtw_memcpy(pbackup_remainder_ie, premainder_ie, remainder_ielen);
++	}
++
++	wps_ielen = (uint)pwps_ie_src[1];/* to get ie data len */
++	if ((wps_offset + wps_ielen + 2 + remainder_ielen) <= MAX_IE_SZ) {
++		_rtw_memcpy(pwps_ie, pwps_ie_src, wps_ielen + 2);
++		pwps_ie += (wps_ielen + 2);
++
++		if (pbackup_remainder_ie)
++			_rtw_memcpy(pwps_ie, pbackup_remainder_ie, remainder_ielen);
++
++		/* update IELength */
++		pnetwork->IELength = wps_offset + (wps_ielen + 2) + remainder_ielen;
++	}
++
++	if (pbackup_remainder_ie)
++		rtw_mfree(pbackup_remainder_ie, remainder_ielen);
++
++	/* deal with the case without set_tx_beacon_cmd() in update_beacon() */
++#if defined(CONFIG_INTERRUPT_BASED_TXBCN) || defined(CONFIG_PCI_HCI)
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) {
++		u8 sr = 0;
++		rtw_get_wps_attr_content(pwps_ie_src,  wps_ielen, WPS_ATTR_SELECTED_REGISTRAR, (u8 *)(&sr), NULL);
++
++		if (sr) {
++			set_fwstate(pmlmepriv, WIFI_UNDER_WPS);
++			RTW_INFO("%s, set WIFI_UNDER_WPS\n", __func__);
++		}
++	}
++#endif
++}
++
++static void update_bcn_p2p_ie(_adapter *padapter)
++{
++
++}
++
++static void update_bcn_vendor_spec_ie(_adapter *padapter, u8 *oui)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	if (_rtw_memcmp(RTW_WPA_OUI, oui, 4))
++		update_bcn_wpa_ie(padapter);
++	else if (_rtw_memcmp(WMM_OUI, oui, 4))
++		update_bcn_wmm_ie(padapter);
++	else if (_rtw_memcmp(WPS_OUI, oui, 4))
++		update_bcn_wps_ie(padapter);
++	else if (_rtw_memcmp(P2P_OUI, oui, 4))
++		update_bcn_p2p_ie(padapter);
++	else
++		RTW_INFO("unknown OUI type!\n");
++
++
++}
++
++void _update_beacon(_adapter *padapter, u8 ie_id, u8 *oui, u8 tx, const char *tag)
++{
++	_irqL irqL;
++	struct mlme_priv *pmlmepriv;
++	struct mlme_ext_priv	*pmlmeext;
++	/* struct mlme_ext_info	*pmlmeinfo; */
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	if (!padapter)
++		return;
++
++	pmlmepriv = &(padapter->mlmepriv);
++	pmlmeext = &(padapter->mlmeextpriv);
++	/* pmlmeinfo = &(pmlmeext->mlmext_info); */
++
++	if (_FALSE == pmlmeext->bstart_bss)
++		return;
++
++	_enter_critical_bh(&pmlmepriv->bcn_update_lock, &irqL);
++
++	switch (ie_id) {
++	case 0xFF:
++
++		update_bcn_fixed_ie(padapter);/* 8: TimeStamp, 2: Beacon Interval 2:Capability */
++
++		break;
++
++	case _TIM_IE_:
++
++		update_BCNTIM(padapter);
++
++		break;
++
++	case _ERPINFO_IE_:
++
++		update_bcn_erpinfo_ie(padapter);
++
++		break;
++
++	case _HT_CAPABILITY_IE_:
++
++		update_bcn_htcap_ie(padapter);
++
++		break;
++
++	case _RSN_IE_2_:
++
++		update_bcn_rsn_ie(padapter);
++
++		break;
++
++	case _HT_ADD_INFO_IE_:
++
++		update_bcn_htinfo_ie(padapter);
++
++		break;
++
++	case _EXT_CAP_IE_:
++
++		update_bcn_ext_capab_ie(padapter);
++
++		break;
++
++	case _VENDOR_SPECIFIC_IE_:
++
++		update_bcn_vendor_spec_ie(padapter, oui);
++
++		break;
++
++	default:
++		break;
++	}
++
++	pmlmepriv->update_bcn = _TRUE;
++
++	_exit_critical_bh(&pmlmepriv->bcn_update_lock, &irqL);
++
++#ifndef CONFIG_INTERRUPT_BASED_TXBCN
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	if (tx) {
++		/* send_beacon(padapter); */ /* send_beacon must execute on TSR level */
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" ie_id:%u - %s\n", FUNC_ADPT_ARG(padapter), ie_id, tag);
++		set_tx_beacon_cmd(padapter);
++	}
++#else
++	{
++		/* PCI will issue beacon when BCN interrupt occurs.		 */
++	}
++#endif
++#endif /* !CONFIG_INTERRUPT_BASED_TXBCN */
++
++}
++
++#ifdef CONFIG_80211N_HT
++
++void rtw_process_public_act_bsscoex(_adapter *padapter, u8 *pframe, uint frame_len)
++{
++	struct sta_info *psta;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 beacon_updated = _FALSE;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	u8 *frame_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	uint frame_body_len = frame_len - sizeof(struct rtw_ieee80211_hdr_3addr);
++	u8 category, action;
++
++	psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++	if (psta == NULL)
++		return;
++
++
++	category = frame_body[0];
++	action = frame_body[1];
++
++	if (frame_body_len > 0) {
++		if ((frame_body[2] == EID_BSSCoexistence) && (frame_body[3] > 0)) {
++			u8 ie_data = frame_body[4];
++
++			if (ie_data & RTW_WLAN_20_40_BSS_COEX_40MHZ_INTOL) {
++				if (psta->ht_40mhz_intolerant == 0) {
++					psta->ht_40mhz_intolerant = 1;
++					pmlmepriv->num_sta_40mhz_intolerant++;
++					beacon_updated = _TRUE;
++				}
++			} else if (ie_data & RTW_WLAN_20_40_BSS_COEX_20MHZ_WIDTH_REQ)	{
++				if (pmlmepriv->ht_20mhz_width_req == _FALSE) {
++					pmlmepriv->ht_20mhz_width_req = _TRUE;
++					beacon_updated = _TRUE;
++				}
++			} else
++				beacon_updated = _FALSE;
++		}
++	}
++
++	if (frame_body_len > 8) {
++		/* if EID_BSSIntolerantChlReport ie exists */
++		if ((frame_body[5] == EID_BSSIntolerantChlReport) && (frame_body[6] > 0)) {
++			/*todo:*/
++			if (pmlmepriv->ht_intolerant_ch_reported == _FALSE) {
++				pmlmepriv->ht_intolerant_ch_reported = _TRUE;
++				beacon_updated = _TRUE;
++			}
++		}
++	}
++
++	if (beacon_updated) {
++
++		update_beacon(padapter, _HT_ADD_INFO_IE_, NULL, _TRUE);
++
++		associated_stainfo_update(padapter, psta, STA_INFO_UPDATE_BW);
++	}
++
++
++
++}
++
++void rtw_process_ht_action_smps(_adapter *padapter, u8 *ta, u8 ctrl_field)
++{
++	u8 e_field, m_field;
++	struct sta_info *psta;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	psta = rtw_get_stainfo(pstapriv, ta);
++	if (psta == NULL)
++		return;
++
++	e_field = (ctrl_field & BIT(0)) ? 1 : 0;
++	m_field = (ctrl_field & BIT(1)) ? 1 : 0;
++
++	if (e_field) {
++
++		/* enable */
++		/* 0:static SMPS, 1:dynamic SMPS, 3:SMPS disabled, 2:reserved*/
++
++		if (m_field) /*mode*/
++			psta->htpriv.smps_cap = 1;
++		else
++			psta->htpriv.smps_cap = 0;
++	} else {
++		/*disable*/
++		psta->htpriv.smps_cap = 3;
++	}
++
++	rtw_dm_ra_mask_wk_cmd(padapter, (u8 *)psta);
++
++}
++
++/*
++op_mode
++Set to 0 (HT pure) under the followign conditions
++	- all STAs in the BSS are 20/40 MHz HT in 20/40 MHz BSS or
++	- all STAs in the BSS are 20 MHz HT in 20 MHz BSS
++Set to 1 (HT non-member protection) if there may be non-HT STAs
++	in both the primary and the secondary channel
++Set to 2 if only HT STAs are associated in BSS,
++	however and at least one 20 MHz HT STA is associated
++Set to 3 (HT mixed mode) when one or more non-HT STAs are associated
++	(currently non-GF HT station is considered as non-HT STA also)
++*/
++int rtw_ht_operation_update(_adapter *padapter)
++{
++	u16 cur_op_mode, new_op_mode;
++	int op_mode_changes = 0;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct ht_priv	*phtpriv_ap = &pmlmepriv->htpriv;
++
++	if (pmlmepriv->htpriv.ht_option == _FALSE)
++		return 0;
++
++	/*if (!iface->conf->ieee80211n || iface->conf->ht_op_mode_fixed)
++		return 0;*/
++
++	RTW_INFO("%s current operation mode=0x%X\n",
++		 __FUNCTION__, pmlmepriv->ht_op_mode);
++
++	if (!(pmlmepriv->ht_op_mode & HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT)
++	    && pmlmepriv->num_sta_ht_no_gf) {
++		pmlmepriv->ht_op_mode |=
++			HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT;
++		op_mode_changes++;
++	} else if ((pmlmepriv->ht_op_mode &
++		    HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT) &&
++		   pmlmepriv->num_sta_ht_no_gf == 0) {
++		pmlmepriv->ht_op_mode &=
++			~HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT;
++		op_mode_changes++;
++	}
++
++	if (!(pmlmepriv->ht_op_mode & HT_INFO_OPERATION_MODE_NON_HT_STA_PRESENT) &&
++	    (pmlmepriv->num_sta_no_ht || ATOMIC_READ(&pmlmepriv->olbc_ht))) {
++		pmlmepriv->ht_op_mode |= HT_INFO_OPERATION_MODE_NON_HT_STA_PRESENT;
++		op_mode_changes++;
++	} else if ((pmlmepriv->ht_op_mode &
++		    HT_INFO_OPERATION_MODE_NON_HT_STA_PRESENT) &&
++		   (pmlmepriv->num_sta_no_ht == 0 && !ATOMIC_READ(&pmlmepriv->olbc_ht))) {
++		pmlmepriv->ht_op_mode &=
++			~HT_INFO_OPERATION_MODE_NON_HT_STA_PRESENT;
++		op_mode_changes++;
++	}
++
++	/* Note: currently we switch to the MIXED op mode if HT non-greenfield
++	 * station is associated. Probably it's a theoretical case, since
++	 * it looks like all known HT STAs support greenfield.
++	 */
++	new_op_mode = 0;
++	if (pmlmepriv->num_sta_no_ht /*||
++	    (pmlmepriv->ht_op_mode & HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT)*/)
++		new_op_mode = OP_MODE_MIXED;
++	else if ((phtpriv_ap->ht_cap.cap_info & IEEE80211_HT_CAP_SUP_WIDTH)
++		 && pmlmepriv->num_sta_ht_20mhz)
++		new_op_mode = OP_MODE_20MHZ_HT_STA_ASSOCED;
++	else if (ATOMIC_READ(&pmlmepriv->olbc_ht))
++		new_op_mode = OP_MODE_MAY_BE_LEGACY_STAS;
++	else
++		new_op_mode = OP_MODE_PURE;
++
++	cur_op_mode = pmlmepriv->ht_op_mode & HT_INFO_OPERATION_MODE_OP_MODE_MASK;
++	if (cur_op_mode != new_op_mode) {
++		pmlmepriv->ht_op_mode &= ~HT_INFO_OPERATION_MODE_OP_MODE_MASK;
++		pmlmepriv->ht_op_mode |= new_op_mode;
++		op_mode_changes++;
++	}
++
++	RTW_INFO("%s new operation mode=0x%X changes=%d\n",
++		 __FUNCTION__, pmlmepriv->ht_op_mode, op_mode_changes);
++
++	return op_mode_changes;
++
++}
++
++#endif /* CONFIG_80211N_HT */
++
++void associated_clients_update(_adapter *padapter, u8 updated, u32 sta_info_type)
++{
++	/* update associcated stations cap. */
++	if (updated == _TRUE) {
++		_irqL irqL;
++		_list	*phead, *plist;
++		struct sta_info *psta = NULL;
++		struct sta_priv *pstapriv = &padapter->stapriv;
++
++		_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++		phead = &pstapriv->asoc_list;
++		plist = get_next(phead);
++
++		/* check asoc_queue */
++		while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++			psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++
++			plist = get_next(plist);
++
++			associated_stainfo_update(padapter, psta, sta_info_type);
++		}
++
++		_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	}
++
++}
++
++/* called > TSR LEVEL for USB or SDIO Interface*/
++void bss_cap_update_on_sta_join(_adapter *padapter, struct sta_info *psta)
++{
++	u8 beacon_updated = _FALSE;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++
++
++#if 0
++	if (!(psta->capability & WLAN_CAPABILITY_SHORT_PREAMBLE) &&
++	    !psta->no_short_preamble_set) {
++		psta->no_short_preamble_set = 1;
++		pmlmepriv->num_sta_no_short_preamble++;
++		if ((pmlmeext->cur_wireless_mode > WIRELESS_11B) &&
++		    (pmlmepriv->num_sta_no_short_preamble == 1))
++			ieee802_11_set_beacons(hapd->iface);
++	}
++#endif
++
++
++	if (!(psta->flags & WLAN_STA_SHORT_PREAMBLE)) {
++		if (!psta->no_short_preamble_set) {
++			psta->no_short_preamble_set = 1;
++
++			pmlmepriv->num_sta_no_short_preamble++;
++
++			if ((pmlmeext->cur_wireless_mode > WIRELESS_11B) &&
++			    (pmlmepriv->num_sta_no_short_preamble == 1)) {
++				beacon_updated = _TRUE;
++				update_beacon(padapter, 0xFF, NULL, _TRUE);
++			}
++
++		}
++	} else {
++		if (psta->no_short_preamble_set) {
++			psta->no_short_preamble_set = 0;
++
++			pmlmepriv->num_sta_no_short_preamble--;
++
++			if ((pmlmeext->cur_wireless_mode > WIRELESS_11B) &&
++			    (pmlmepriv->num_sta_no_short_preamble == 0)) {
++				beacon_updated = _TRUE;
++				update_beacon(padapter, 0xFF, NULL, _TRUE);
++			}
++
++		}
++	}
++
++#if 0
++	if (psta->flags & WLAN_STA_NONERP && !psta->nonerp_set) {
++		psta->nonerp_set = 1;
++		pmlmepriv->num_sta_non_erp++;
++		if (pmlmepriv->num_sta_non_erp == 1)
++			ieee802_11_set_beacons(hapd->iface);
++	}
++#endif
++
++	if (psta->flags & WLAN_STA_NONERP) {
++		if (!psta->nonerp_set) {
++			psta->nonerp_set = 1;
++
++			pmlmepriv->num_sta_non_erp++;
++
++			if (pmlmepriv->num_sta_non_erp == 1) {
++				beacon_updated = _TRUE;
++				update_beacon(padapter, _ERPINFO_IE_, NULL, _TRUE);
++			}
++		}
++
++	} else {
++		if (psta->nonerp_set) {
++			psta->nonerp_set = 0;
++
++			pmlmepriv->num_sta_non_erp--;
++
++			if (pmlmepriv->num_sta_non_erp == 0) {
++				beacon_updated = _TRUE;
++				update_beacon(padapter, _ERPINFO_IE_, NULL, _TRUE);
++			}
++		}
++
++	}
++
++
++#if 0
++	if (!(psta->capability & WLAN_CAPABILITY_SHORT_SLOT) &&
++	    !psta->no_short_slot_time_set) {
++		psta->no_short_slot_time_set = 1;
++		pmlmepriv->num_sta_no_short_slot_time++;
++		if ((pmlmeext->cur_wireless_mode > WIRELESS_11B) &&
++		    (pmlmepriv->num_sta_no_short_slot_time == 1))
++			ieee802_11_set_beacons(hapd->iface);
++	}
++#endif
++
++	if (!(psta->capability & WLAN_CAPABILITY_SHORT_SLOT)) {
++		if (!psta->no_short_slot_time_set) {
++			psta->no_short_slot_time_set = 1;
++
++			pmlmepriv->num_sta_no_short_slot_time++;
++
++			if ((pmlmeext->cur_wireless_mode > WIRELESS_11B) &&
++			    (pmlmepriv->num_sta_no_short_slot_time == 1)) {
++				beacon_updated = _TRUE;
++				update_beacon(padapter, 0xFF, NULL, _TRUE);
++			}
++
++		}
++	} else {
++		if (psta->no_short_slot_time_set) {
++			psta->no_short_slot_time_set = 0;
++
++			pmlmepriv->num_sta_no_short_slot_time--;
++
++			if ((pmlmeext->cur_wireless_mode > WIRELESS_11B) &&
++			    (pmlmepriv->num_sta_no_short_slot_time == 0)) {
++				beacon_updated = _TRUE;
++				update_beacon(padapter, 0xFF, NULL, _TRUE);
++			}
++		}
++	}
++
++#ifdef CONFIG_80211N_HT
++
++	if (psta->flags & WLAN_STA_HT) {
++		u16 ht_capab = le16_to_cpu(psta->htpriv.ht_cap.cap_info);
++
++		RTW_INFO("HT: STA " MAC_FMT " HT Capabilities "
++			 "Info: 0x%04x\n", MAC_ARG(psta->hwaddr), ht_capab);
++
++		if (psta->no_ht_set) {
++			psta->no_ht_set = 0;
++			pmlmepriv->num_sta_no_ht--;
++		}
++
++		if ((ht_capab & IEEE80211_HT_CAP_GRN_FLD) == 0) {
++			if (!psta->no_ht_gf_set) {
++				psta->no_ht_gf_set = 1;
++				pmlmepriv->num_sta_ht_no_gf++;
++			}
++			RTW_INFO("%s STA " MAC_FMT " - no "
++				 "greenfield, num of non-gf stations %d\n",
++				 __FUNCTION__, MAC_ARG(psta->hwaddr),
++				 pmlmepriv->num_sta_ht_no_gf);
++		}
++
++		if ((ht_capab & IEEE80211_HT_CAP_SUP_WIDTH) == 0) {
++			if (!psta->ht_20mhz_set) {
++				psta->ht_20mhz_set = 1;
++				pmlmepriv->num_sta_ht_20mhz++;
++			}
++			RTW_INFO("%s STA " MAC_FMT " - 20 MHz HT, "
++				 "num of 20MHz HT STAs %d\n",
++				 __FUNCTION__, MAC_ARG(psta->hwaddr),
++				 pmlmepriv->num_sta_ht_20mhz);
++		}
++
++	} else {
++		if (!psta->no_ht_set) {
++			psta->no_ht_set = 1;
++			pmlmepriv->num_sta_no_ht++;
++		}
++		if (pmlmepriv->htpriv.ht_option == _TRUE) {
++			RTW_INFO("%s STA " MAC_FMT
++				 " - no HT, num of non-HT stations %d\n",
++				 __FUNCTION__, MAC_ARG(psta->hwaddr),
++				 pmlmepriv->num_sta_no_ht);
++		}
++	}
++
++	if (rtw_ht_operation_update(padapter) > 0) {
++		update_beacon(padapter, _HT_CAPABILITY_IE_, NULL, _FALSE);
++		update_beacon(padapter, _HT_ADD_INFO_IE_, NULL, _TRUE);
++		/*beacon_updated = _TRUE;*/
++	}
++
++#endif /* CONFIG_80211N_HT */
++
++	/* update associcated stations cap. */
++	associated_clients_update(padapter,  beacon_updated, STA_INFO_UPDATE_ALL);
++
++	RTW_INFO("%s, updated=%d\n", __func__, beacon_updated);
++
++}
++
++u8 bss_cap_update_on_sta_leave(_adapter *padapter, struct sta_info *psta)
++{
++	u8 beacon_updated = _FALSE;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++
++	if (!psta)
++		return beacon_updated;
++
++	if (psta->no_short_preamble_set) {
++		psta->no_short_preamble_set = 0;
++		pmlmepriv->num_sta_no_short_preamble--;
++		if (pmlmeext->cur_wireless_mode > WIRELESS_11B
++		    && pmlmepriv->num_sta_no_short_preamble == 0) {
++			beacon_updated = _TRUE;
++			update_beacon(padapter, 0xFF, NULL, _TRUE);
++		}
++	}
++
++	if (psta->nonerp_set) {
++		psta->nonerp_set = 0;
++		pmlmepriv->num_sta_non_erp--;
++		if (pmlmepriv->num_sta_non_erp == 0) {
++			beacon_updated = _TRUE;
++			update_beacon(padapter, _ERPINFO_IE_, NULL, _TRUE);
++		}
++	}
++
++	if (psta->no_short_slot_time_set) {
++		psta->no_short_slot_time_set = 0;
++		pmlmepriv->num_sta_no_short_slot_time--;
++		if (pmlmeext->cur_wireless_mode > WIRELESS_11B
++		    && pmlmepriv->num_sta_no_short_slot_time == 0) {
++			beacon_updated = _TRUE;
++			update_beacon(padapter, 0xFF, NULL, _TRUE);
++		}
++	}
++
++#ifdef CONFIG_80211N_HT
++
++	if (psta->no_ht_gf_set) {
++		psta->no_ht_gf_set = 0;
++		pmlmepriv->num_sta_ht_no_gf--;
++	}
++
++	if (psta->no_ht_set) {
++		psta->no_ht_set = 0;
++		pmlmepriv->num_sta_no_ht--;
++	}
++
++	if (psta->ht_20mhz_set) {
++		psta->ht_20mhz_set = 0;
++		pmlmepriv->num_sta_ht_20mhz--;
++	}
++
++
++
++	if (rtw_ht_operation_update(padapter) > 0) {
++		update_beacon(padapter, _HT_CAPABILITY_IE_, NULL, _FALSE);
++		update_beacon(padapter, _HT_ADD_INFO_IE_, NULL, _TRUE);
++	}
++
++#endif /* CONFIG_80211N_HT */
++
++#if 0
++	/* update associated stations cap. */
++	associated_clients_update(padapter,  beacon_updated, STA_INFO_UPDATE_ALL); /* move it to avoid deadlock */
++#endif
++
++	RTW_INFO("%s, updated=%d\n", __func__, beacon_updated);
++
++	return beacon_updated;
++
++}
++
++u8 ap_free_sta(_adapter *padapter, struct sta_info *psta, bool active, u16 reason, bool enqueue)
++{
++	_irqL irqL;
++	u8 beacon_updated = _FALSE;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	if (!psta)
++		return beacon_updated;
++
++	if (active == _TRUE) {
++#ifdef CONFIG_80211N_HT
++		/* tear down Rx AMPDU */
++		send_delba(padapter, 0, psta->hwaddr);/* recipient */
++
++		/* tear down TX AMPDU */
++		send_delba(padapter, 1, psta->hwaddr);/*  */ /* originator */
++
++#endif /* CONFIG_80211N_HT */
++
++		issue_deauth(padapter, psta->hwaddr, reason);
++	}
++
++#ifdef CONFIG_BEAMFORMING
++	beamforming_wk_cmd(padapter, BEAMFORMING_CTRL_LEAVE, psta->hwaddr, ETH_ALEN, 1);
++#endif
++
++	psta->htpriv.agg_enable_bitmap = 0x0;/* reset */
++	psta->htpriv.candidate_tid_bitmap = 0x0;/* reset */
++
++	/* clear cam entry / key */
++	rtw_clearstakey_cmd(padapter, psta, enqueue);
++
++
++	_enter_critical_bh(&psta->lock, &irqL);
++	psta->state &= ~_FW_LINKED;
++	_exit_critical_bh(&psta->lock, &irqL);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (1) {
++#ifdef COMPAT_KERNEL_RELEASE
++		rtw_cfg80211_indicate_sta_disassoc(padapter, psta->hwaddr, reason);
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) && !defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++		rtw_cfg80211_indicate_sta_disassoc(padapter, psta->hwaddr, reason);
++#else /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) && !defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER) */
++		/* will call rtw_cfg80211_indicate_sta_disassoc() in cmd_thread for old API context */
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) && !defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER) */
++	} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++	{
++		rtw_indicate_sta_disassoc_event(padapter, psta);
++	}
++
++	report_del_sta_event(padapter, psta->hwaddr, reason, enqueue, _FALSE);
++
++	beacon_updated = bss_cap_update_on_sta_leave(padapter, psta);
++
++	/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);					 */
++	rtw_free_stainfo(padapter, psta);
++	/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL); */
++
++
++	return beacon_updated;
++
++}
++
++int rtw_ap_inform_ch_switch(_adapter *padapter, u8 new_ch, u8 ch_offset)
++{
++	_irqL irqL;
++	_list	*phead, *plist;
++	int ret = 0;
++	struct sta_info *psta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++	if ((pmlmeinfo->state & 0x03) != WIFI_FW_AP_STATE)
++		return ret;
++
++	RTW_INFO(FUNC_NDEV_FMT" with ch:%u, offset:%u\n",
++		 FUNC_NDEV_ARG(padapter->pnetdev), new_ch, ch_offset);
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++
++	/* for each sta in asoc_queue */
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		plist = get_next(plist);
++
++		issue_action_spct_ch_switch(padapter, psta->hwaddr, new_ch, ch_offset);
++		psta->expire_to = ((pstapriv->expire_to * 2) > 5) ? 5 : (pstapriv->expire_to * 2);
++	}
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	issue_action_spct_ch_switch(padapter, bc_addr, new_ch, ch_offset);
++
++	return ret;
++}
++
++int rtw_sta_flush(_adapter *padapter, bool enqueue)
++{
++	_irqL irqL;
++	_list	*phead, *plist;
++	int ret = 0;
++	struct sta_info *psta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u8 flush_num = 0;
++	char flush_list[NUM_STA];
++	int i;
++
++	if ((pmlmeinfo->state & 0x03) != WIFI_FW_AP_STATE)
++		return ret;
++
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(padapter->pnetdev));
++
++	/* pick sta from sta asoc_queue */
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		int stainfo_offset;
++
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		plist = get_next(plist);
++
++		rtw_list_delete(&psta->asoc_list);
++		pstapriv->asoc_list_cnt--;
++
++		stainfo_offset = rtw_stainfo_offset(pstapriv, psta);
++		if (stainfo_offset_valid(stainfo_offset))
++			flush_list[flush_num++] = stainfo_offset;
++		else
++			rtw_warn_on(1);
++	}
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	/* call ap_free_sta() for each sta picked */
++	for (i = 0; i < flush_num; i++) {
++		psta = rtw_get_stainfo_by_offset(pstapriv, flush_list[i]);
++		ap_free_sta(padapter, psta, _TRUE, WLAN_REASON_DEAUTH_LEAVING, enqueue);
++	}
++
++	issue_deauth(padapter, bc_addr, WLAN_REASON_DEAUTH_LEAVING);
++
++	associated_clients_update(padapter, _TRUE, STA_INFO_UPDATE_ALL);
++
++	return ret;
++}
++
++/* called > TSR LEVEL for USB or SDIO Interface*/
++void sta_info_update(_adapter *padapter, struct sta_info *psta)
++{
++	int flags = psta->flags;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++
++	/* update wmm cap. */
++	if (WLAN_STA_WME & flags)
++		psta->qos_option = 1;
++	else
++		psta->qos_option = 0;
++
++	if (pmlmepriv->qospriv.qos_option == 0)
++		psta->qos_option = 0;
++
++
++#ifdef CONFIG_80211N_HT
++	/* update 802.11n ht cap. */
++	if (WLAN_STA_HT & flags) {
++		psta->htpriv.ht_option = _TRUE;
++		psta->qos_option = 1;
++
++		psta->htpriv.smps_cap = (psta->htpriv.ht_cap.cap_info & IEEE80211_HT_CAP_SM_PS) >> 2;
++	} else
++		psta->htpriv.ht_option = _FALSE;
++
++	if (pmlmepriv->htpriv.ht_option == _FALSE)
++		psta->htpriv.ht_option = _FALSE;
++#endif
++
++#ifdef CONFIG_80211AC_VHT
++	/* update 802.11AC vht cap. */
++	if (WLAN_STA_VHT & flags)
++		psta->vhtpriv.vht_option = _TRUE;
++	else
++		psta->vhtpriv.vht_option = _FALSE;
++
++	if (pmlmepriv->vhtpriv.vht_option == _FALSE)
++		psta->vhtpriv.vht_option = _FALSE;
++#endif
++
++	update_sta_info_apmode(padapter, psta);
++}
++
++/* called >= TSR LEVEL for USB or SDIO Interface*/
++void ap_sta_info_defer_update(_adapter *padapter, struct sta_info *psta)
++{
++	if (psta->state & _FW_LINKED)
++		rtw_hal_update_ra_mask(psta, 0); /* DM_RATR_STA_INIT */
++}
++/* restore hw setting from sw data structures */
++void rtw_ap_restore_network(_adapter *padapter)
++{
++	struct mlme_priv *mlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta;
++	struct security_priv *psecuritypriv = &(padapter->securitypriv);
++	_irqL irqL;
++	_list	*phead, *plist;
++	u8 chk_alive_num = 0;
++	char chk_alive_list[NUM_STA];
++	int i;
++
++	rtw_setopmode_cmd(padapter, Ndis802_11APMode, _FALSE);
++
++	set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++
++	rtw_startbss_cmd(padapter, RTW_CMDF_DIRECTLY);
++
++	if ((padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_) ||
++	    (padapter->securitypriv.dot11PrivacyAlgrthm == _AES_)) {
++		/* restore group key, WEP keys is restored in ips_leave() */
++		rtw_set_key(padapter, psecuritypriv, psecuritypriv->dot118021XGrpKeyid, 0, _FALSE);
++	}
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		int stainfo_offset;
++
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		plist = get_next(plist);
++
++		stainfo_offset = rtw_stainfo_offset(pstapriv, psta);
++		if (stainfo_offset_valid(stainfo_offset))
++			chk_alive_list[chk_alive_num++] = stainfo_offset;
++	}
++
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	for (i = 0; i < chk_alive_num; i++) {
++		psta = rtw_get_stainfo_by_offset(pstapriv, chk_alive_list[i]);
++
++		if (psta == NULL)
++			RTW_INFO(FUNC_ADPT_FMT" sta_info is null\n", FUNC_ADPT_ARG(padapter));
++		else if (psta->state & _FW_LINKED) {
++			rtw_sta_media_status_rpt(padapter, psta, 1);
++			Update_RA_Entry(padapter, psta);
++			/* pairwise key */
++			/* per sta pairwise key and settings */
++			if ((padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_) ||
++			    (padapter->securitypriv.dot11PrivacyAlgrthm == _AES_))
++				rtw_setstakey_cmd(padapter, psta, UNICAST_KEY, _FALSE);
++		}
++	}
++
++}
++
++void start_ap_mode(_adapter *padapter)
++{
++	int i;
++	struct sta_info *psta = NULL;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++
++	pmlmepriv->update_bcn = _FALSE;
++
++	/*init_mlme_ap_info(padapter);*/
++
++	pmlmeext->bstart_bss = _FALSE;
++
++	pmlmepriv->num_sta_non_erp = 0;
++
++	pmlmepriv->num_sta_no_short_slot_time = 0;
++
++	pmlmepriv->num_sta_no_short_preamble = 0;
++
++	pmlmepriv->num_sta_ht_no_gf = 0;
++#ifdef CONFIG_80211N_HT
++	pmlmepriv->num_sta_no_ht = 0;
++#endif /* CONFIG_80211N_HT */
++	pmlmeinfo->HT_info_enable = 0;
++	pmlmeinfo->HT_caps_enable = 0;
++	pmlmeinfo->HT_enable = 0;
++
++	pmlmepriv->num_sta_ht_20mhz = 0;
++	pmlmepriv->num_sta_40mhz_intolerant = 0;
++	ATOMIC_SET(&pmlmepriv->olbc, _FALSE);
++	ATOMIC_SET(&pmlmepriv->olbc_ht, _FALSE);
++
++#ifdef CONFIG_80211N_HT
++	pmlmepriv->ht_20mhz_width_req = _FALSE;
++	pmlmepriv->ht_intolerant_ch_reported = _FALSE;
++	pmlmepriv->ht_op_mode = 0;
++	pmlmepriv->sw_to_20mhz = 0;
++#endif
++
++	_rtw_memset(pmlmepriv->ext_capab_ie_data, 0, sizeof(pmlmepriv->ext_capab_ie_data));
++	pmlmepriv->ext_capab_ie_len = 0;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	psecuritypriv->dot118021x_bmc_cam_id = INVALID_SEC_MAC_CAM_ID;
++#endif
++
++	for (i = 0 ;  i < NUM_STA ; i++)
++		pstapriv->sta_aid[i] = NULL;
++
++#if CONFIG_RTW_MACADDR_ACL
++	rtw_macaddr_acl_init(padapter);
++#endif
++
++	psta = rtw_get_bcmc_stainfo(padapter);
++	/*_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);*/
++	if (psta)
++		rtw_free_stainfo(padapter, psta);
++	/*_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);*/
++
++	rtw_init_bcmc_stainfo(padapter);
++
++	if (rtw_mi_get_ap_num(padapter))
++		RTW_SET_SCAN_BAND_SKIP(padapter, BAND_5G);
++
++}
++
++void stop_ap_mode(_adapter *padapter)
++{
++	_irqL irqL;
++	struct sta_info *psta = NULL;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct dvobj_priv *pdvobj = padapter->dvobj;
++
++	RTW_INFO("%s -"ADPT_FMT"\n", __func__, ADPT_ARG(padapter));
++
++	pmlmepriv->update_bcn = _FALSE;
++	/*pmlmeext->bstart_bss = _FALSE;*/
++	padapter->netif_up = _FALSE;
++	/* _rtw_spinlock_free(&pmlmepriv->bcn_update_lock); */
++
++	/* reset and init security priv , this can refine with rtw_reset_securitypriv */
++	_rtw_memset((unsigned char *)&padapter->securitypriv, 0, sizeof(struct security_priv));
++	padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeOpen;
++	padapter->securitypriv.ndisencryptstatus = Ndis802_11WEPDisabled;
++
++#ifdef CONFIG_DFS_MASTER
++	rtw_dfs_master_status_apply(padapter, MLME_AP_STOPPED);
++#endif
++
++	/* free scan queue */
++	rtw_free_network_queue(padapter, _TRUE);
++
++#if CONFIG_RTW_MACADDR_ACL
++	rtw_macaddr_acl_deinit(padapter);
++#endif
++
++	rtw_sta_flush(padapter, _TRUE);
++
++	/* free_assoc_sta_resources	 */
++	rtw_free_all_stainfo(padapter);
++
++	psta = rtw_get_bcmc_stainfo(padapter);
++	/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		 */
++	rtw_free_stainfo(padapter, psta);
++	/*_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);*/
++
++	rtw_free_mlme_priv_ie_data(pmlmepriv);
++
++#ifdef CONFIG_SWTIMER_BASED_TXBCN
++	if (pmlmeext->bstart_bss == _TRUE) {
++		_enter_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++		pdvobj->nr_ap_if--;
++		if (pdvobj->nr_ap_if > 0)
++			pdvobj->inter_bcn_space = DEFAULT_BCN_INTERVAL / pdvobj->nr_ap_if;
++		else
++			pdvobj->inter_bcn_space = DEFAULT_BCN_INTERVAL;
++
++		rtw_list_delete(&padapter->list);
++		_exit_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++
++		rtw_hal_set_hwreg(padapter, HW_VAR_BEACON_INTERVAL, (u8 *)(&pdvobj->inter_bcn_space));
++
++		if (pdvobj->nr_ap_if == 0)
++			_cancel_timer_ex(&pdvobj->txbcn_timer);
++	}
++#endif
++
++	pmlmeext->bstart_bss = _FALSE;
++
++#ifdef CONFIG_BT_COEXIST
++	rtw_btcoex_MediaStatusNotify(padapter, 0); /* disconnect */
++#endif
++
++}
++
++#endif /* CONFIG_NATIVEAP_MLME */
++
++void rtw_ap_update_bss_chbw(_adapter *adapter, WLAN_BSSID_EX *bss, u8 ch, u8 bw, u8 offset)
++{
++#define UPDATE_VHT_CAP 1
++#define UPDATE_HT_CAP 1
++
++#ifdef CONFIG_80211AC_VHT
++	{
++		struct vht_priv	*vhtpriv = &adapter->mlmepriv.vhtpriv;
++		u8 *vht_cap_ie, *vht_op_ie;
++		int vht_cap_ielen, vht_op_ielen;
++		u8	center_freq;
++
++		vht_cap_ie = rtw_get_ie((bss->IEs + sizeof(NDIS_802_11_FIXED_IEs)), EID_VHTCapability, &vht_cap_ielen, (bss->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++		vht_op_ie = rtw_get_ie((bss->IEs + sizeof(NDIS_802_11_FIXED_IEs)), EID_VHTOperation, &vht_op_ielen, (bss->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++		center_freq = rtw_get_center_ch(ch, bw, offset);
++
++		/* update vht cap ie */
++		if (vht_cap_ie && vht_cap_ielen) {
++			#if UPDATE_VHT_CAP
++			/* if ((bw == CHANNEL_WIDTH_160 || bw == CHANNEL_WIDTH_80_80) && pvhtpriv->sgi_160m)
++				SET_VHT_CAPABILITY_ELE_SHORT_GI160M(pvht_cap_ie + 2, 1);
++			else */
++				SET_VHT_CAPABILITY_ELE_SHORT_GI160M(vht_cap_ie + 2, 0);
++
++			if (bw >= CHANNEL_WIDTH_80 && vhtpriv->sgi_80m)
++				SET_VHT_CAPABILITY_ELE_SHORT_GI80M(vht_cap_ie + 2, 1);
++			else
++				SET_VHT_CAPABILITY_ELE_SHORT_GI80M(vht_cap_ie + 2, 0);
++			#endif
++		}
++
++		/* update vht op ie */
++		if (vht_op_ie && vht_op_ielen) {
++			if (bw < CHANNEL_WIDTH_80) {
++				SET_VHT_OPERATION_ELE_CHL_WIDTH(vht_op_ie + 2, 0);
++				SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ1(vht_op_ie + 2, 0);
++				SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ2(vht_op_ie + 2, 0);
++			} else if (bw == CHANNEL_WIDTH_80) {
++				SET_VHT_OPERATION_ELE_CHL_WIDTH(vht_op_ie + 2, 1);
++				SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ1(vht_op_ie + 2, center_freq);
++				SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ2(vht_op_ie + 2, 0);
++			} else {
++				RTW_ERR(FUNC_ADPT_FMT" unsupported BW:%u\n", FUNC_ADPT_ARG(adapter), bw);
++				rtw_warn_on(1);
++			}
++		}
++	}
++#endif /* CONFIG_80211AC_VHT */
++#ifdef CONFIG_80211N_HT
++	{
++		struct ht_priv	*htpriv = &adapter->mlmepriv.htpriv;
++		u8 *ht_cap_ie, *ht_op_ie;
++		int ht_cap_ielen, ht_op_ielen;
++
++		ht_cap_ie = rtw_get_ie((bss->IEs + sizeof(NDIS_802_11_FIXED_IEs)), EID_HTCapability, &ht_cap_ielen, (bss->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++		ht_op_ie = rtw_get_ie((bss->IEs + sizeof(NDIS_802_11_FIXED_IEs)), EID_HTInfo, &ht_op_ielen, (bss->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++
++		/* update ht cap ie */
++		if (ht_cap_ie && ht_cap_ielen) {
++			#if UPDATE_HT_CAP
++			if (bw >= CHANNEL_WIDTH_40)
++				SET_HT_CAP_ELE_CHL_WIDTH(ht_cap_ie + 2, 1);
++			else
++				SET_HT_CAP_ELE_CHL_WIDTH(ht_cap_ie + 2, 0);
++
++			if (bw >= CHANNEL_WIDTH_40 && htpriv->sgi_40m)
++				SET_HT_CAP_ELE_SHORT_GI40M(ht_cap_ie + 2, 1);
++			else
++				SET_HT_CAP_ELE_SHORT_GI40M(ht_cap_ie + 2, 0);
++
++			if (htpriv->sgi_20m)
++				SET_HT_CAP_ELE_SHORT_GI20M(ht_cap_ie + 2, 1);
++			else
++				SET_HT_CAP_ELE_SHORT_GI20M(ht_cap_ie + 2, 0);
++			#endif
++		}
++
++		/* update ht op ie */
++		if (ht_op_ie && ht_op_ielen) {
++			SET_HT_OP_ELE_PRI_CHL(ht_op_ie + 2, ch);
++			switch (offset) {
++			case HAL_PRIME_CHNL_OFFSET_LOWER:
++				SET_HT_OP_ELE_2ND_CHL_OFFSET(ht_op_ie + 2, SCA);
++				break;
++			case HAL_PRIME_CHNL_OFFSET_UPPER:
++				SET_HT_OP_ELE_2ND_CHL_OFFSET(ht_op_ie + 2, SCB);
++				break;
++			case HAL_PRIME_CHNL_OFFSET_DONT_CARE:
++			default:
++				SET_HT_OP_ELE_2ND_CHL_OFFSET(ht_op_ie + 2, SCN);
++				break;
++			}
++
++			if (bw >= CHANNEL_WIDTH_40)
++				SET_HT_OP_ELE_STA_CHL_WIDTH(ht_op_ie + 2, 1);
++			else
++				SET_HT_OP_ELE_STA_CHL_WIDTH(ht_op_ie + 2, 0);
++		}
++	}
++#endif /* CONFIG_80211N_HT */
++
++	{
++		u8 *p;
++		int ie_len;
++		u8 old_ch = bss->Configuration.DSConfig;
++		bool change_band = _FALSE;
++
++		if ((ch <= 14 && old_ch >= 36) || (ch >= 36 && old_ch <= 14))
++			change_band = _TRUE;
++
++		/* update channel in IE */
++		p = rtw_get_ie((bss->IEs + sizeof(NDIS_802_11_FIXED_IEs)), _DSSET_IE_, &ie_len, (bss->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++		if (p && ie_len > 0)
++			*(p + 2) = ch;
++
++		bss->Configuration.DSConfig = ch;
++
++		/* band is changed, update ERP, support rate, ext support rate IE */
++		if (change_band == _TRUE)
++			change_band_update_ie(adapter, bss, ch);
++	}
++
++}
++
++bool rtw_ap_chbw_decision(_adapter *adapter, s16 req_ch, s8 req_bw, s8 req_offset
++			  , u8 *ch, u8 *bw, u8 *offset, u8 *chbw_allow)
++{
++	u8 cur_ie_ch, cur_ie_bw, cur_ie_offset;
++	u8 dec_ch, dec_bw, dec_offset;
++	u8 u_ch = 0, u_offset, u_bw;
++	bool changed = _FALSE;
++	struct mlme_ext_priv *mlmeext = &(adapter->mlmeextpriv);
++	WLAN_BSSID_EX *network = &(adapter->mlmepriv.cur_network.network);
++	u8 sta_num;
++	u8 ld_sta_num;
++	u8 lg_sta_num;
++	u8 ap_num;
++	u8 ld_ap_num;
++	bool set_u_ch = _FALSE, set_dec_ch = _FALSE;
++
++	rtw_ies_get_chbw(network->IEs + sizeof(NDIS_802_11_FIXED_IEs)
++			 , network->IELength - sizeof(NDIS_802_11_FIXED_IEs)
++			 , &cur_ie_ch, &cur_ie_bw, &cur_ie_offset);
++
++	/* use chbw of cur_ie updated with specifying req as temporary decision */
++	dec_ch = (req_ch <= 0) ? cur_ie_ch : req_ch;
++	dec_bw = (req_bw < 0) ? cur_ie_bw : req_bw;
++	dec_offset = (req_offset < 0) ? cur_ie_offset : req_offset;
++
++	rtw_mi_status_no_self(adapter, &sta_num, &ld_sta_num, &lg_sta_num, &ap_num, &ld_ap_num, NULL);
++	RTW_INFO(FUNC_ADPT_FMT" ld_sta_num:%u, lg_sta_num%u, ap_num:%u\n"
++		 , FUNC_ADPT_ARG(adapter), ld_sta_num, lg_sta_num, ap_num);
++
++	if (ld_sta_num || ap_num) {
++		/* has linked STA or AP mode, follow */
++
++		rtw_warn_on(!rtw_mi_get_ch_setting_union_no_self(adapter, &u_ch, &u_bw, &u_offset));
++
++		RTW_INFO(FUNC_ADPT_FMT" union no self: %u,%u,%u\n", FUNC_ADPT_ARG(adapter), u_ch, u_bw, u_offset);
++		RTW_INFO(FUNC_ADPT_FMT" req: %d,%d,%d\n", FUNC_ADPT_ARG(adapter), req_ch, req_bw, req_offset);
++
++		rtw_adjust_chbw(adapter, u_ch, &dec_bw, &dec_offset);
++#ifdef CONFIG_MCC_MODE
++		if (MCC_EN(adapter)) {
++			if (!rtw_is_chbw_grouped(u_ch, u_bw, u_offset, dec_ch, dec_bw, dec_offset)) {
++				mlmeext->cur_channel = *ch = dec_ch;
++				mlmeext->cur_bwmode = *bw = dec_bw;
++				mlmeext->cur_ch_offset = *offset = dec_offset;
++				/* channel bw offset can not be allowed, need MCC */
++				*chbw_allow = _FALSE;
++				RTW_INFO(FUNC_ADPT_FMT" enable mcc: %u,%u,%u\n", FUNC_ADPT_ARG(adapter)
++					 , *ch, *bw, *offset);
++				goto exit;
++			} else
++				/* channel bw offset can be allowed, not need MCC */
++				*chbw_allow = _TRUE;
++		}
++#endif /* CONFIG_MCC_MODE */
++		rtw_sync_chbw(&dec_ch, &dec_bw, &dec_offset
++			      , &u_ch, &u_bw, &u_offset);
++
++		rtw_ap_update_bss_chbw(adapter, &(adapter->mlmepriv.cur_network.network)
++				       , dec_ch, dec_bw, dec_offset);
++
++		set_u_ch = _TRUE;
++	} else if (lg_sta_num) {
++		/* has linking STA */
++
++		rtw_warn_on(!rtw_mi_get_ch_setting_union_no_self(adapter, &u_ch, &u_bw, &u_offset));
++
++		RTW_INFO(FUNC_ADPT_FMT" union no self: %u,%u,%u\n", FUNC_ADPT_ARG(adapter), u_ch, u_bw, u_offset);
++		RTW_INFO(FUNC_ADPT_FMT" req: %d,%d,%d\n", FUNC_ADPT_ARG(adapter), req_ch, req_bw, req_offset);
++
++		rtw_adjust_chbw(adapter, dec_ch, &dec_bw, &dec_offset);
++
++		if (rtw_is_chbw_grouped(u_ch, u_bw, u_offset, dec_ch, dec_bw, dec_offset)) {
++
++			rtw_sync_chbw(&dec_ch, &dec_bw, &dec_offset
++				      , &u_ch, &u_bw, &u_offset);
++
++			rtw_ap_update_bss_chbw(adapter, &(adapter->mlmepriv.cur_network.network)
++					       , dec_ch, dec_bw, dec_offset);
++
++			set_u_ch = _TRUE;
++
++			/* channel bw offset can be allowed, not need MCC */
++			*chbw_allow = _TRUE;
++		} else {
++#ifdef CONFIG_MCC_MODE
++			if (MCC_EN(adapter)) {
++				mlmeext->cur_channel = *ch = dec_ch;
++				mlmeext->cur_bwmode = *bw = dec_bw;
++				mlmeext->cur_ch_offset = *offset = dec_offset;
++
++				/* channel bw offset can not be allowed, need MCC */
++				*chbw_allow = _FALSE;
++				RTW_INFO(FUNC_ADPT_FMT" enable mcc: %u,%u,%u\n", FUNC_ADPT_ARG(adapter)
++					 , *ch, *bw, *offset);
++				goto exit;
++			}
++#endif /* CONFIG_MCC_MODE */
++			/* set this for possible ch change when join down*/
++			set_fwstate(&adapter->mlmepriv, WIFI_OP_CH_SWITCHING);
++		}
++	} else {
++		/* single AP mode */
++
++		RTW_INFO(FUNC_ADPT_FMT" req: %d,%d,%d\n", FUNC_ADPT_ARG(adapter), req_ch, req_bw, req_offset);
++
++		/* check temporary decision first */
++		rtw_adjust_chbw(adapter, dec_ch, &dec_bw, &dec_offset);
++		if (!rtw_get_offset_by_chbw(dec_ch, dec_bw, &dec_offset)) {
++#if defined(CONFIG_DFS_MASTER)
++			if (req_ch == -1 || req_bw == -1)
++				goto choose_chbw;
++#endif
++			RTW_WARN(FUNC_ADPT_FMT" req: %u,%u has no valid offset\n", FUNC_ADPT_ARG(adapter), dec_ch, dec_bw);
++			*chbw_allow = _FALSE;
++			goto exit;
++		}
++
++		if (!rtw_chset_is_chbw_valid(mlmeext->channel_set, dec_ch, dec_bw, dec_offset)) {
++#if defined(CONFIG_DFS_MASTER)
++			if (req_ch == -1 || req_bw == -1)
++				goto choose_chbw;
++#endif
++			RTW_WARN(FUNC_ADPT_FMT" req: %u,%u,%u doesn't fit in chplan\n", FUNC_ADPT_ARG(adapter), dec_ch, dec_bw, dec_offset);
++			*chbw_allow = _FALSE;
++			goto exit;
++		}
++
++		if (rtw_chset_is_ch_non_ocp(mlmeext->channel_set, dec_ch, dec_bw, dec_offset) == _FALSE)
++			goto update_bss_chbw;
++
++choose_chbw:
++		if (req_bw < 0)
++			req_bw = cur_ie_bw;
++
++#if defined(CONFIG_DFS_MASTER)
++		/* choose 5G DFS channel for debug */
++		if (adapter_to_rfctl(adapter)->dbg_dfs_master_choose_dfs_ch_first
++		    && rtw_choose_shortest_waiting_ch(adapter, req_bw, &dec_ch, &dec_bw, &dec_offset, RTW_CHF_2G | RTW_CHF_NON_DFS) == _TRUE)
++			RTW_INFO(FUNC_ADPT_FMT" choose 5G DFS channel for debug\n", FUNC_ADPT_ARG(adapter));
++		else if (adapter_to_rfctl(adapter)->dfs_ch_sel_d_flags
++			&& rtw_choose_shortest_waiting_ch(adapter, req_bw, &dec_ch, &dec_bw, &dec_offset, adapter_to_rfctl(adapter)->dfs_ch_sel_d_flags) == _TRUE)
++			RTW_INFO(FUNC_ADPT_FMT" choose with dfs_ch_sel_d_flags:0x%02x for debug\n", FUNC_ADPT_ARG(adapter), adapter_to_rfctl(adapter)->dfs_ch_sel_d_flags);
++		else if (rtw_choose_shortest_waiting_ch(adapter, req_bw, &dec_ch, &dec_bw, &dec_offset, 0) == _FALSE) {
++			RTW_WARN(FUNC_ADPT_FMT" no available channel\n", FUNC_ADPT_ARG(adapter));
++			*chbw_allow = _FALSE;
++			goto exit;
++		}
++#endif /* defined(CONFIG_DFS_MASTER) */
++
++update_bss_chbw:
++		rtw_ap_update_bss_chbw(adapter, &(adapter->mlmepriv.cur_network.network)
++				       , dec_ch, dec_bw, dec_offset);
++
++		/* channel bw offset can be allowed for single AP, not need MCC */
++		*chbw_allow = _TRUE;
++		set_dec_ch = _TRUE;
++	}
++
++	if (rtw_mi_check_fwstate(adapter, _FW_UNDER_SURVEY)) {
++		/* scanning, leave ch setting to scan state machine */
++		set_u_ch = set_dec_ch = _FALSE;
++	}
++
++	if (mlmeext->cur_channel != dec_ch
++	    || mlmeext->cur_bwmode != dec_bw
++	    || mlmeext->cur_ch_offset != dec_offset)
++		changed = _TRUE;
++
++	if (changed == _TRUE && rtw_linked_check(adapter) == _TRUE) {
++#ifdef CONFIG_SPCT_CH_SWITCH
++		if (1)
++			rtw_ap_inform_ch_switch(adapter, dec_ch, dec_offset);
++		else
++#endif
++			rtw_sta_flush(adapter, _FALSE);
++	}
++
++	mlmeext->cur_channel = dec_ch;
++	mlmeext->cur_bwmode = dec_bw;
++	mlmeext->cur_ch_offset = dec_offset;
++
++	if (u_ch != 0)
++		RTW_INFO(FUNC_ADPT_FMT" union: %u,%u,%u\n", FUNC_ADPT_ARG(adapter), u_ch, u_bw, u_offset);
++
++	RTW_INFO(FUNC_ADPT_FMT" dec: %u,%u,%u\n", FUNC_ADPT_ARG(adapter), dec_ch, dec_bw, dec_offset);
++
++	if (set_u_ch == _TRUE) {
++		*ch = u_ch;
++		*bw = u_bw;
++		*offset = u_offset;
++	} else if (set_dec_ch == _TRUE) {
++		*ch = dec_ch;
++		*bw = dec_bw;
++		*offset = dec_offset;
++	}
++exit:
++	return changed;
++}
++
++/*#define DBG_SWTIMER_BASED_TXBCN*/
++
++#ifdef CONFIG_SWTIMER_BASED_TXBCN
++void tx_beacon_handlder(struct dvobj_priv *pdvobj)
++{
++#define BEACON_EARLY_TIME		20	/* unit:TU*/
++	_irqL irqL;
++	_list	*plist, *phead;
++	u32 timestamp[2];
++	u32 bcn_interval_us; /* unit : usec */
++	u64 time;
++	u32 cur_tick, time_offset; /* unit : usec */
++	u32 inter_bcn_space_us; /* unit : usec */
++	int nr_vap, idx, bcn_idx;
++	int i;
++	u8 val8, late = 0;
++	_adapter *padapter = NULL;
++
++	i = 0;
++
++	/* get first ap mode interface */
++	_enter_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++	if (rtw_is_list_empty(&pdvobj->ap_if_q.queue) || (pdvobj->nr_ap_if == 0)) {
++		RTW_INFO("[%s] ERROR: ap_if_q is empty!or nr_ap = %d\n", __func__, pdvobj->nr_ap_if);
++		_exit_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++		return;
++	} else
++		padapter = LIST_CONTAINOR(get_next(&(pdvobj->ap_if_q.queue)), struct _ADAPTER, list);
++	_exit_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++
++	if (NULL == padapter) {
++		RTW_INFO("[%s] ERROR: no any ap interface!\n", __func__);
++		return;
++	}
++
++
++	bcn_interval_us = DEFAULT_BCN_INTERVAL * NET80211_TU_TO_US;
++	if (0 == bcn_interval_us) {
++		RTW_INFO("[%s] ERROR: beacon interval = 0\n", __func__);
++		return;
++	}
++
++	/* read TSF */
++	timestamp[1] = rtw_read32(padapter, 0x560 + 4);
++	timestamp[0] = rtw_read32(padapter, 0x560);
++	while (timestamp[1]) {
++		time = (0xFFFFFFFF % bcn_interval_us + 1) * timestamp[1] + timestamp[0];
++		timestamp[0] = (u32)time;
++		timestamp[1] = (u32)(time >> 32);
++	}
++	cur_tick = timestamp[0] % bcn_interval_us;
++
++
++	_enter_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++
++	nr_vap = (pdvobj->nr_ap_if - 1);
++	if (nr_vap > 0) {
++		inter_bcn_space_us = pdvobj->inter_bcn_space * NET80211_TU_TO_US; /* beacon_interval / (nr_vap+1); */
++		idx = cur_tick / inter_bcn_space_us;
++		if (idx < nr_vap)	/* if (idx < (nr_vap+1))*/
++			bcn_idx = idx + 1;	/* bcn_idx = (idx + 1) % (nr_vap+1);*/
++		else
++			bcn_idx = 0;
++
++		/* to get padapter based on bcn_idx */
++		padapter = NULL;
++		phead = get_list_head(&pdvobj->ap_if_q);
++		plist = get_next(phead);
++		while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++			padapter = LIST_CONTAINOR(plist, struct _ADAPTER, list);
++
++			plist = get_next(plist);
++
++			if (i == bcn_idx)
++				break;
++
++			i++;
++		}
++		if ((NULL == padapter) || (i > pdvobj->nr_ap_if)) {
++			RTW_INFO("[%s] ERROR: nr_ap_if = %d, padapter=%p, bcn_idx=%d, index=%d\n",
++				__func__, pdvobj->nr_ap_if, padapter, bcn_idx, i);
++			_exit_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++			return;
++		}
++#ifdef DBG_SWTIMER_BASED_TXBCN
++		RTW_INFO("BCN_IDX=%d, cur_tick=%d, padapter=%p\n", bcn_idx, cur_tick, padapter);
++#endif
++		if (((idx + 2 == nr_vap + 1) && (idx < nr_vap + 1)) || (0 == bcn_idx)) {
++			time_offset = bcn_interval_us - cur_tick - BEACON_EARLY_TIME * NET80211_TU_TO_US;
++			if ((s32)time_offset < 0)
++				time_offset += inter_bcn_space_us;
++
++		} else {
++			time_offset = (idx + 2) * inter_bcn_space_us - cur_tick - BEACON_EARLY_TIME * NET80211_TU_TO_US;
++			if (time_offset > (inter_bcn_space_us + (inter_bcn_space_us >> 1))) {
++				time_offset -= inter_bcn_space_us;
++				late = 1;
++			}
++		}
++	} else
++		/*#endif*/ { /* MBSSID */
++		time_offset = 2 * bcn_interval_us - cur_tick - BEACON_EARLY_TIME * NET80211_TU_TO_US;
++		if (time_offset > (bcn_interval_us + (bcn_interval_us >> 1))) {
++			time_offset -= bcn_interval_us;
++			late = 1;
++		}
++	}
++	_exit_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++
++#ifdef DBG_SWTIMER_BASED_TXBCN
++	RTW_INFO("set sw bcn timer %d us\n", time_offset);
++#endif
++	_set_timer(&pdvobj->txbcn_timer, time_offset / NET80211_TU_TO_US);
++
++	if (padapter) {
++#ifdef DBG_SWTIMER_BASED_TXBCN
++		RTW_INFO("padapter=%p, PORT=%d\n", padapter, padapter->hw_port);
++#endif
++		/*update_beacon(padapter, _TIM_IE_, NULL, _FALSE);*/
++		issue_beacon(padapter, 0);
++	}
++
++#if 0
++	/* handle any buffered BC/MC frames*/
++	/* Don't dynamically change DIS_ATIM due to HW will auto send ACQ after HIQ empty.*/
++	val8 = *((unsigned char *)priv->beaconbuf + priv->timoffset + 4);
++	if (val8 & 0x01) {
++		process_mcast_dzqueue(priv);
++		priv->pkt_in_dtimQ = 0;
++	}
++#endif
++
++}
++
++void tx_beacon_timer_handlder(struct dvobj_priv *pdvobj)
++{
++	_adapter *padapter = pdvobj->padapters[0];
++
++	if (padapter)
++		set_tx_beacon_cmd(padapter);
++}
++#endif
++
++#endif /* CONFIG_AP_MODE */
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_beamforming.c b/drivers/net/wireless/rtl8723du/core/rtw_beamforming.c
+new file mode 100644
+index 0000000..ca04a99
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_beamforming.c
+@@ -0,0 +1,1942 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_BEAMFORMING_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#ifdef CONFIG_BEAMFORMING
++
++#if (BEAMFORMING_SUPPORT == 0) /*for diver defined beamforming*/
++#ifdef RTW_BEAMFORMING_VERSION_2
++/*
++ * For phydm
++ */
++BEAMFORMING_CAP beamforming_get_entry_beam_cap_by_mac_id(void *mlme, u8 mac_id)
++{
++	PADAPTER adapter;
++	struct beamforming_info	*pBeamInfo;
++	struct beamformee_entry *bfee;
++	BEAMFORMING_CAP cap = BEAMFORMING_CAP_NONE;
++	u8 i = 0;
++
++
++	adapter = mlme_to_adapter((struct mlme_priv *)mlme);
++	pBeamInfo = GET_BEAMFORM_INFO(adapter);
++
++	for (i = 0; i < MAX_BEAMFORMER_ENTRY_NUM; i++) {
++		bfee = &pBeamInfo->bfee_entry[i];
++		if ((bfee->used == _TRUE)
++		    && (bfee->mac_id == mac_id)) {
++			cap =  bfee->cap;
++			break;
++		}
++	}
++
++	return cap;
++}
++
++struct beamformer_entry *beamforming_get_bfer_entry_by_addr(PADAPTER adapter, u8 *ra)
++{
++	u8 i = 0;
++	struct beamforming_info	*bf_info;
++	struct beamformer_entry *entry;
++
++
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	for (i = 0; i < MAX_BEAMFORMER_ENTRY_NUM; i++) {
++		entry = &bf_info->bfer_entry[i];
++		if (entry->used == _FALSE)
++			continue;
++		if (_rtw_memcmp(ra, entry->mac_addr, ETH_ALEN) == _TRUE) {
++			return entry;
++		}
++	}
++
++	return NULL;
++}
++
++struct beamformee_entry *beamforming_get_bfee_entry_by_addr(PADAPTER adapter, u8 *ra)
++{
++	u8 i = 0;
++	struct beamforming_info	*bf_info;
++	struct beamformee_entry *entry;
++
++
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	for (i = 0; i < MAX_BEAMFORMEE_ENTRY_NUM; i++) {
++		entry = &bf_info->bfee_entry[i];
++		if (entry->used == _FALSE)
++			continue;
++		if (_rtw_memcmp(ra, entry->mac_addr, ETH_ALEN) == _TRUE)
++			return entry;
++	}
++
++	return NULL;
++}
++
++static struct beamformer_entry *_get_bfer_free_entry(PADAPTER adapter)
++{
++	u8 i = 0;
++	struct beamforming_info	*bf_info;
++	struct beamformer_entry *entry;
++
++
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	for (i = 0; i < MAX_BEAMFORMER_ENTRY_NUM; i++) {
++		entry = &bf_info->bfer_entry[i];
++		if (entry->used == _FALSE)
++			return entry;
++	}
++
++	return NULL;
++}
++
++static struct beamformee_entry *_get_bfee_free_entry(PADAPTER adapter)
++{
++	u8 i = 0;
++	struct beamforming_info	*bf_info;
++	struct beamformee_entry *entry;
++
++
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	for (i = 0; i < MAX_BEAMFORMEE_ENTRY_NUM; i++) {
++		entry = &bf_info->bfee_entry[i];
++		if (entry->used == _FALSE)
++			return entry;
++	}
++
++	return NULL;
++}
++
++/*
++ * Description:
++ *	Get the first entry index of MU Beamformee.
++ *
++ * Return Value:
++ *	Index of the first MU sta.
++ *
++ * 2015.05.25. Created by tynli.
++ *
++ */
++static u8 _get_first_mu_bfee_entry_idx(PADAPTER adapter, struct beamformee_entry *ignore)
++{
++	struct beamforming_info *bf_info;
++	struct beamformee_entry *entry;
++	u8 idx = 0xFF;
++	u8 bFound = _FALSE;
++
++
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	for (idx = 0; idx < MAX_BEAMFORMEE_ENTRY_NUM; idx++) {
++		entry = &bf_info->bfee_entry[idx];
++		if (ignore && (entry == ignore))
++			continue;
++		if ((entry->used == _TRUE) &&
++		    TEST_FLAG(entry->cap, BEAMFORMEE_CAP_VHT_MU)) {
++			bFound = _TRUE;
++			break;
++		}
++	}
++
++	if (bFound == _FALSE)
++		idx = 0xFF;
++
++	return idx;
++}
++
++static void _update_min_sounding_period(PADAPTER adapter, u16 period, u8 leave)
++{
++	struct beamforming_info *bf_info;
++	struct beamformee_entry *entry;
++	u8 i = 0;
++	u16 min_val = 0xFFFF;
++
++
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	if (_TRUE == leave) {
++		/*
++		 * When a BFee left,
++		 * we need to find the latest min sounding period
++		 * from the remaining BFees
++		 */
++		for (i = 0; i < MAX_BEAMFORMEE_ENTRY_NUM; i++) {
++			entry = &bf_info->bfee_entry[i];
++			if ((entry->used == _TRUE)
++			    && (entry->sound_period < min_val))
++				min_val = entry->sound_period;
++		}
++
++		if (min_val == 0xFFFF)
++			bf_info->sounding_info.min_sounding_period = 0;
++		else
++			bf_info->sounding_info.min_sounding_period = min_val;
++	} else {
++		if ((bf_info->sounding_info.min_sounding_period == 0)
++		    || (period < bf_info->sounding_info.min_sounding_period))
++			bf_info->sounding_info.min_sounding_period = period;	
++	}
++}
++
++static struct beamformer_entry *_add_bfer_entry(PADAPTER adapter,
++	struct sta_info *sta, u8 bf_cap, u8 sounding_dim, u8 comp_steering)
++{
++	struct mlme_priv *mlme;
++	struct beamforming_info *bf_info;
++	struct beamformer_entry *entry;
++	u8 *bssid;
++	u16 val16;
++	u8 i;
++
++
++	mlme = &adapter->mlmepriv;
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	entry = beamforming_get_bfer_entry_by_addr(adapter, sta->hwaddr);
++	if (!entry) {
++		entry = _get_bfer_free_entry(adapter);
++		if (!entry)
++			return NULL;
++	}
++
++	entry->used = _TRUE;
++
++	if (check_fwstate(mlme, WIFI_AP_STATE)) {
++		bssid = adapter_mac_addr(adapter);
++		/* BSSID[44:47] xor BSSID[40:43] */
++		val16 = ((bssid[5] & 0xF0) >> 4) ^ (bssid[5] & 0xF);
++		/* (dec(A) + dec(B)*32) mod 512 */
++		entry->p_aid = (sta->aid + val16 * 32) & 0x1FF;
++		entry->g_id = 63;
++	} else if ((check_fwstate(mlme, WIFI_ADHOC_STATE) == _TRUE)
++		   || (check_fwstate(mlme, WIFI_ADHOC_MASTER_STATE) == _TRUE)) {
++		entry->p_aid = 0;
++		entry->g_id = 63;
++	} else {
++		bssid = sta->hwaddr;
++		/* BSSID[39:47] */
++		entry->p_aid = (bssid[5] << 1) | (bssid[4] >> 7);
++		entry->g_id = 0;
++	}
++	RTW_INFO("%s: p_aid=0x%04x g_id=0x%04x aid=0x%x\n",
++		 __FUNCTION__, entry->p_aid, entry->g_id, sta->aid);
++
++	_rtw_memcpy(entry->mac_addr, sta->hwaddr, ETH_ALEN);
++	entry->cap = bf_cap;
++	entry->state = BEAMFORM_ENTRY_HW_STATE_ADD_INIT;
++	entry->NumofSoundingDim = sounding_dim;
++
++	if (TEST_FLAG(bf_cap, BEAMFORMER_CAP_VHT_MU)) {
++		bf_info->beamformer_mu_cnt += 1;
++		entry->aid = sta->aid;
++	} else if (TEST_FLAG(bf_cap, BEAMFORMER_CAP_VHT_SU|BEAMFORMER_CAP_HT_EXPLICIT)) {
++		bf_info->beamformer_su_cnt += 1;
++
++		/* Record HW idx info */
++		for (i = 0; i < MAX_NUM_BEAMFORMER_SU; i++) {
++			if ((bf_info->beamformer_su_reg_maping & BIT(i)) == 0) {
++				bf_info->beamformer_su_reg_maping |= BIT(i);
++				entry->su_reg_index = i;
++				break;
++			}
++		}
++		RTW_INFO("%s: Add BFer entry beamformer_su_reg_maping=%#X, su_reg_index=%d\n",
++			 __FUNCTION__, bf_info->beamformer_su_reg_maping, entry->su_reg_index);
++	}
++
++	return entry;
++}
++
++static struct beamformee_entry *_add_bfee_entry(PADAPTER adapter,
++	struct sta_info *sta, u8 bf_cap, u8 sounding_dim, u8 comp_steering)
++{
++	struct mlme_priv *mlme;
++	struct beamforming_info *bf_info;
++	struct beamformee_entry *entry;
++	u8 *bssid;
++	u16 val16;
++	u8 i;
++
++
++	mlme = &adapter->mlmepriv;
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	entry = beamforming_get_bfee_entry_by_addr(adapter, sta->hwaddr);
++	if (!entry) {
++		entry = _get_bfee_free_entry(adapter);
++		if (!entry)
++			return NULL;
++	}
++
++	entry->used = _TRUE;
++	entry->aid = sta->aid;
++	entry->mac_id = sta->mac_id;
++	entry->sound_bw = sta->bw_mode;
++
++	if (check_fwstate(mlme, WIFI_AP_STATE)) {
++		bssid = adapter_mac_addr(adapter);
++		/* BSSID[44:47] xor BSSID[40:43] */
++		val16 = ((bssid[5] & 0xF0) >> 4) ^ (bssid[5] & 0xF);
++		/* (dec(A) + dec(B)*32) mod 512 */
++		entry->p_aid = (sta->aid + val16 * 32) & 0x1FF;
++		entry->g_id = 63;
++	} else if (check_fwstate(mlme, WIFI_ADHOC_STATE) || check_fwstate(mlme, WIFI_ADHOC_MASTER_STATE)) {
++		entry->p_aid = 0;
++		entry->g_id = 63;
++	} else {
++		bssid = sta->hwaddr;
++		/* BSSID[39:47] */
++		entry->p_aid = (bssid[5] << 1) | (bssid[4] >> 7);
++		entry->g_id = 0;
++	}
++
++	_rtw_memcpy(entry->mac_addr, sta->hwaddr, ETH_ALEN);
++	entry->txbf = _FALSE;
++	entry->sounding = _FALSE;
++	entry->sound_period = 40;
++	entry->cap = bf_cap;
++
++	_update_min_sounding_period(adapter, entry->sound_period, _FALSE);
++	entry->SoundCnt = GetInitSoundCnt(entry->sound_period, bf_info->sounding_info.min_sounding_period);
++
++	entry->LogStatusFailCnt = 0;
++
++	entry->NumofSoundingDim = sounding_dim;
++	entry->CompSteeringNumofBFer = comp_steering;
++	entry->state = BEAMFORM_ENTRY_HW_STATE_ADD_INIT;
++
++	if (TEST_FLAG(bf_cap, BEAMFORMEE_CAP_VHT_MU)) {
++		bf_info->beamformee_mu_cnt += 1;
++		bf_info->first_mu_bfee_index = _get_first_mu_bfee_entry_idx(adapter, NULL);
++
++		/* Record HW idx info */
++		for (i = 0; i < MAX_NUM_BEAMFORMEE_MU; i++) {
++			if ((bf_info->beamformee_mu_reg_maping & BIT(i)) == 0) {
++				bf_info->beamformee_mu_reg_maping |= BIT(i);
++				entry->mu_reg_index = i;				
++				break;
++			}
++		}
++		RTW_INFO("%s: Add BFee entry beamformee_mu_reg_maping=%#X, mu_reg_index=%d\n",
++			 __FUNCTION__, bf_info->beamformee_mu_reg_maping, entry->mu_reg_index);
++
++	} else if (TEST_FLAG(bf_cap, BEAMFORMEE_CAP_VHT_SU|BEAMFORMEE_CAP_HT_EXPLICIT)) {
++		bf_info->beamformee_su_cnt += 1;
++
++		/* Record HW idx info */
++		for (i = 0; i < MAX_NUM_BEAMFORMEE_SU; i++) {
++			if ((bf_info->beamformee_su_reg_maping & BIT(i)) == 0) {
++				bf_info->beamformee_su_reg_maping |= BIT(i);
++				entry->su_reg_index = i;
++				break;
++			}
++		}
++		RTW_INFO("%s: Add BFee entry beamformee_su_reg_maping=%#X, su_reg_index=%d\n",
++			 __FUNCTION__, bf_info->beamformee_su_reg_maping, entry->su_reg_index);
++	}
++
++	return entry;
++}
++
++static void _remove_bfer_entry(PADAPTER adapter, struct beamformer_entry *entry)
++{
++	struct beamforming_info *bf_info;
++
++
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	entry->state = BEAMFORM_ENTRY_HW_STATE_DELETE_INIT;
++
++	if (TEST_FLAG(entry->cap, BEAMFORMER_CAP_VHT_MU)) {
++		bf_info->beamformer_mu_cnt -= 1;
++		_rtw_memset(entry->gid_valid, 0, 8);
++		_rtw_memset(entry->user_position, 0, 16);
++	} else if (TEST_FLAG(entry->cap, BEAMFORMER_CAP_VHT_SU|BEAMFORMER_CAP_HT_EXPLICIT)) {
++		bf_info->beamformer_su_cnt -= 1;
++	}
++
++	if (bf_info->beamformer_mu_cnt == 0)
++		bf_info->beamforming_cap &= ~BEAMFORMEE_CAP_VHT_MU;
++	if (bf_info->beamformer_su_cnt == 0)
++		bf_info->beamforming_cap &= ~(BEAMFORMEE_CAP_VHT_SU|BEAMFORMEE_CAP_HT_EXPLICIT);
++}
++
++static void _remove_bfee_entry(PADAPTER adapter, struct beamformee_entry *entry)
++{
++	struct beamforming_info *bf_info;
++
++
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	entry->state = BEAMFORM_ENTRY_HW_STATE_DELETE_INIT;
++
++	if (TEST_FLAG(entry->cap, BEAMFORMEE_CAP_VHT_MU)) {
++		bf_info->beamformee_mu_cnt -= 1;
++		bf_info->first_mu_bfee_index = _get_first_mu_bfee_entry_idx(adapter, entry);
++	} else if (TEST_FLAG(entry->cap, BEAMFORMEE_CAP_VHT_SU|BEAMFORMEE_CAP_HT_EXPLICIT)) {
++		bf_info->beamformee_su_cnt -= 1;
++	}
++
++	if (bf_info->beamformee_mu_cnt == 0)
++		bf_info->beamforming_cap &= ~BEAMFORMER_CAP_VHT_MU;
++	if (bf_info->beamformee_su_cnt == 0)
++		bf_info->beamforming_cap &= ~(BEAMFORMER_CAP_VHT_SU|BEAMFORMER_CAP_HT_EXPLICIT);
++
++	_update_min_sounding_period(adapter, 0, _TRUE);
++}
++
++/*
++ * Parameters
++ *	adapter		struct _adapter*
++ *	sta		struct sta_info*
++ *	sta_bf_cap	beamforming capabe of sta
++ *	sounding_dim	Number of Sounding Dimensions
++ *	comp_steering	Compressed Steering Number of Beamformer Antennas Supported
++ */
++static void _get_sta_beamform_cap(PADAPTER adapter, struct sta_info *sta,
++	u8 *sta_bf_cap, u8 *sounding_dim, u8 *comp_steering)
++{
++	struct ht_priv *ht;
++#ifdef CONFIG_80211AC_VHT
++	struct vht_priv *vht;
++#endif /* CONFIG_80211AC_VHT */
++	u16 bf_cap;
++
++
++	*sta_bf_cap = 0;
++	*sounding_dim = 0;
++	*comp_steering = 0;
++
++	ht = &adapter->mlmepriv.htpriv;
++#ifdef CONFIG_80211AC_VHT
++	vht = &adapter->mlmepriv.vhtpriv;
++#endif /* CONFIG_80211AC_VHT */
++
++	if (IsSupportedHT(sta->wireless_mode) == _TRUE) {
++		/* HT */
++		bf_cap = ht->beamform_cap;
++
++		if (TEST_FLAG(bf_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE)) {
++			*sta_bf_cap |= BEAMFORMER_CAP_HT_EXPLICIT;
++			*sounding_dim = (bf_cap & BEAMFORMING_HT_BEAMFORMEE_CHNL_EST_CAP) >> 6;
++		}
++		if (TEST_FLAG(bf_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE)) {
++			*sta_bf_cap |= BEAMFORMEE_CAP_HT_EXPLICIT;
++			*comp_steering = (bf_cap & BEAMFORMING_HT_BEAMFORMER_STEER_NUM) >> 4;
++		}
++	}
++
++#ifdef CONFIG_80211AC_VHT
++	if (IsSupportedVHT(sta->wireless_mode) == _TRUE) {
++		/* VHT */
++		bf_cap = vht->beamform_cap;
++
++		/* We are SU Beamformee because the STA is SU Beamformer */
++		if (TEST_FLAG(bf_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE)) {
++			*sta_bf_cap |= BEAMFORMER_CAP_VHT_SU;
++
++			/* We are MU Beamformee because the STA is MU Beamformer */
++			if (TEST_FLAG(bf_cap, BEAMFORMING_VHT_MU_MIMO_STA_ENABLE))
++				*sta_bf_cap |= BEAMFORMER_CAP_VHT_MU;
++
++			*sounding_dim = (bf_cap & BEAMFORMING_VHT_BEAMFORMEE_SOUND_DIM) >> 12;
++		}
++		/* We are SU Beamformer because the STA is SU Beamformee */
++		if (TEST_FLAG(bf_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE)) {
++			*sta_bf_cap |= BEAMFORMEE_CAP_VHT_SU;
++
++			/* We are MU Beamformer because the STA is MU Beamformee */
++			if (TEST_FLAG(bf_cap, BEAMFORMING_VHT_MU_MIMO_AP_ENABLE))
++				*sta_bf_cap |= BEAMFORMEE_CAP_VHT_MU;
++
++			*comp_steering = (bf_cap & BEAMFORMING_VHT_BEAMFORMER_STS_CAP) >> 8;
++		}
++	}
++#endif /* CONFIG_80211AC_VHT */
++}
++/*
++ * Return:
++ *	_TRUE	success
++ *	_FALSE	fail
++ */
++static u8 _init_entry(PADAPTER adapter, struct sta_info *sta)
++{
++	struct mlme_priv *mlme;
++	struct ht_priv *htpriv;
++#ifdef CONFIG_80211AC_VHT
++	struct vht_priv *vhtpriv;
++#endif
++	struct mlme_ext_priv *mlme_ext;
++	struct sta_info *sta_real;
++	struct beamformer_entry *bfer = NULL;
++	struct beamformee_entry *bfee = NULL;
++	u8 *ra;
++	u8 wireless_mode;
++	u8 sta_bf_cap;
++	u8 sounding_dim = 0; /* number of sounding dimensions */
++	u8 comp_steering_num = 0; /* compressed steering number */
++
++
++	mlme = &adapter->mlmepriv;
++	htpriv = &mlme->htpriv;
++#ifdef CONFIG_80211AC_VHT
++	vhtpriv = &mlme->vhtpriv;
++#endif
++	mlme_ext = &adapter->mlmeextpriv;
++	ra = sta->hwaddr;
++	wireless_mode = sta->wireless_mode;
++	sta_real = rtw_get_stainfo(&adapter->stapriv, ra);
++
++	/* The current setting does not support Beaforming */
++	if ((IsSupportedHT(wireless_mode) == _FALSE)
++	    && (IsSupportedVHT(wireless_mode) == _FALSE))
++		return _FALSE;
++
++	if ((0 == htpriv->beamform_cap)
++#ifdef CONFIG_80211AC_VHT
++	    && (0 == vhtpriv->beamform_cap)
++#endif
++	   ) {
++		RTW_INFO("The configuration disabled Beamforming! Skip...\n");
++		return _FALSE;
++	}
++
++	_get_sta_beamform_cap(adapter, sta,
++			      &sta_bf_cap, &sounding_dim, &comp_steering_num);
++	RTW_INFO("STA Beamforming Capability=0x%02X\n", sta_bf_cap);
++
++	if (sta_bf_cap == BEAMFORMING_CAP_NONE)
++		return _FALSE;
++
++	if ((sta_bf_cap & BEAMFORMEE_CAP_HT_EXPLICIT)
++	    || (sta_bf_cap & BEAMFORMEE_CAP_VHT_SU)
++	    || (sta_bf_cap & BEAMFORMEE_CAP_VHT_MU))
++		sta_bf_cap |= BEAMFORMEE_CAP;
++	else
++		sta_bf_cap |= BEAMFORMER_CAP;
++
++	if (sta_bf_cap & BEAMFORMER_CAP) {
++		/* The other side is beamformer */
++		bfer = _add_bfer_entry(adapter, sta, sta_bf_cap, sounding_dim, comp_steering_num);
++		if (bfer == NULL) {
++			RTW_ERR("%s: Fail to allocate bfer entry!\n", __FUNCTION__);
++			return _FALSE;
++		}
++
++		sta_real->txbf_paid = bfer->p_aid;
++		sta_real->txbf_gid = bfer->g_id;
++	} else {
++		/* The other side is beamformee */
++		bfee = _add_bfee_entry(adapter, sta, sta_bf_cap, sounding_dim, comp_steering_num);
++		if (bfee == NULL) {
++			RTW_ERR("%s: Fail to allocate bfee entry!\n", __FUNCTION__);
++			return _FALSE;
++		}
++
++		sta_real->txbf_paid = bfee->p_aid;
++		sta_real->txbf_gid = bfee->g_id;
++	}
++
++	return _TRUE;
++}
++
++static void _deinit_entry(PADAPTER adapter, u8 *ra)
++{
++	struct beamforming_info *bf_info;
++	struct beamformer_entry *bfer = NULL;
++	struct beamformee_entry *bfee = NULL;
++	u8 bHwStateAddInit = _FALSE;
++
++
++	RTW_INFO("+%s\n", __FUNCTION__);
++
++	bf_info = GET_BEAMFORM_INFO(adapter);
++	bfer = beamforming_get_bfer_entry_by_addr(adapter, ra);
++	bfee = beamforming_get_bfee_entry_by_addr(adapter, ra);
++
++	if (!bfer && !bfee) {
++		RTW_WARN("%s: " MAC_FMT " is neither beamforming ee or er!!\n",
++			__FUNCTION__, MAC_ARG(ra));
++		return;
++	}
++
++	if (bfer && bfee)
++		RTW_ERR("%s: " MAC_FMT " is both beamforming ee & er!!\n",
++			__FUNCTION__, MAC_ARG(ra));
++
++	if (bfer)
++		_remove_bfer_entry(adapter, bfer);
++
++	if (bfee)
++		_remove_bfee_entry(adapter, bfee);
++
++	rtw_hal_set_hwreg(adapter, HW_VAR_SOUNDING_LEAVE, ra);
++
++	RTW_DBG("-%s\n", __FUNCTION__);
++}
++
++void _beamforming_reset(PADAPTER adapter)
++{
++	RTW_ERR("%s: Not ready!!\n", __FUNCTION__);
++}
++
++void beamforming_enter(PADAPTER adapter, void *sta)
++{
++	u8 ret;
++
++	ret = _init_entry(adapter, (struct sta_info *)sta);
++	if (ret == _FALSE)
++		return;
++
++	rtw_hal_set_hwreg(adapter, HW_VAR_SOUNDING_ENTER, sta);
++}
++
++void beamforming_leave(PADAPTER adapter, u8 *ra)
++{
++	if (ra == NULL)
++		_beamforming_reset(adapter);
++	else
++		_deinit_entry(adapter, ra);
++}
++
++void beamforming_sounding_fail(PADAPTER adapter)
++{
++	RTW_ERR("+%s: not implemented yet!\n", __FUNCTION__);
++}
++
++u8 beamforming_send_vht_gid_mgnt_packet(PADAPTER adapter, struct beamformee_entry *entry)
++{
++	struct xmit_priv *xmitpriv;
++	struct mlme_priv *mlmepriv;
++	struct xmit_frame *pmgntframe;
++	struct pkt_attrib *attrib;
++	struct rtw_ieee80211_hdr *wlanhdr;
++	u8 *pframe;
++
++
++	xmitpriv = &adapter->xmitpriv;
++	mlmepriv = &adapter->mlmepriv;
++
++	pmgntframe = alloc_mgtxmitframe(xmitpriv);
++	if (!pmgntframe)
++		return _FALSE;
++
++	/* update attribute */
++	attrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(adapter, attrib);
++	attrib->rate = MGN_6M;
++	attrib->bwmode = CHANNEL_WIDTH_20;
++	attrib->subtype = WIFI_ACTION;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)pmgntframe->buf_addr + TXDESC_OFFSET;
++	wlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	wlanhdr->frame_ctl = 0;
++	SetFrameSubType(pframe, attrib->subtype);
++	SetDuration(pframe, 0);
++	SetFragNum(pframe, 0);
++	SetSeqNum(pframe, 0);
++
++	_rtw_memcpy(wlanhdr->addr1, entry->mac_addr, ETH_ALEN);
++	_rtw_memcpy(wlanhdr->addr2, adapter_mac_addr(adapter), ETH_ALEN);
++	_rtw_memcpy(wlanhdr->addr3, get_bssid(mlmepriv), ETH_ALEN);
++
++	pframe[24] = RTW_WLAN_CATEGORY_VHT;
++	pframe[25] = RTW_WLAN_ACTION_VHT_GROUPID_MANAGEMENT;
++	_rtw_memcpy(&pframe[26], entry->gid_valid, 8);
++	_rtw_memcpy(&pframe[34], entry->user_position, 16);
++
++	attrib->pktlen = 54;
++	attrib->last_txcmdsz = attrib->pktlen;
++
++	dump_mgntframe(adapter, pmgntframe);
++
++	return _TRUE;
++}
++
++void beamforming_watchdog(PADAPTER adapter)
++{
++}
++#else /* !RTW_BEAMFORMING_VERSION_2 */
++
++struct beamforming_entry	*beamforming_get_entry_by_addr(struct mlme_priv *pmlmepriv, u8 *ra, u8 *idx)
++{
++	u8	i = 0;
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++
++	for (i = 0; i < BEAMFORMING_ENTRY_NUM; i++) {
++		if (pBeamInfo->beamforming_entry[i].bUsed &&
++		    (_rtw_memcmp(ra, pBeamInfo->beamforming_entry[i].mac_addr, ETH_ALEN))) {
++			*idx = i;
++			return &(pBeamInfo->beamforming_entry[i]);
++		}
++	}
++
++	return NULL;
++}
++
++BEAMFORMING_CAP beamforming_get_entry_beam_cap_by_mac_id(PVOID pmlmepriv , u8 mac_id)
++{
++	u8	i = 0;
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO((struct mlme_priv *)pmlmepriv);
++	BEAMFORMING_CAP		BeamformEntryCap = BEAMFORMING_CAP_NONE;
++
++	for (i = 0; i < BEAMFORMING_ENTRY_NUM; i++) {
++		if (pBeamInfo->beamforming_entry[i].bUsed &&
++		    (mac_id == pBeamInfo->beamforming_entry[i].mac_id)) {
++			BeamformEntryCap =  pBeamInfo->beamforming_entry[i].beamforming_entry_cap;
++			i = BEAMFORMING_ENTRY_NUM;
++		}
++	}
++
++	return BeamformEntryCap;
++}
++
++struct beamforming_entry	*beamforming_get_free_entry(struct mlme_priv *pmlmepriv, u8 *idx)
++{
++	u8	i = 0;
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++
++	for (i = 0; i < BEAMFORMING_ENTRY_NUM; i++) {
++		if (pBeamInfo->beamforming_entry[i].bUsed == _FALSE) {
++			*idx = i;
++			return &(pBeamInfo->beamforming_entry[i]);
++		}
++	}
++	return NULL;
++}
++
++
++struct beamforming_entry	*beamforming_add_entry(PADAPTER adapter, u8 *ra, u16 aid,
++	u16 mac_id, CHANNEL_WIDTH bw, BEAMFORMING_CAP beamfrom_cap, u8 *idx)
++{
++	struct mlme_priv			*pmlmepriv = &(adapter->mlmepriv);
++	struct beamforming_entry	*pEntry = beamforming_get_free_entry(pmlmepriv, idx);
++
++	if (pEntry != NULL) {
++		pEntry->bUsed = _TRUE;
++		pEntry->aid = aid;
++		pEntry->mac_id = mac_id;
++		pEntry->sound_bw = bw;
++		if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++			u16	BSSID = ((*(adapter_mac_addr(adapter) + 5) & 0xf0) >> 4) ^
++				(*(adapter_mac_addr(adapter) + 5) & 0xf); /* BSSID[44:47] xor BSSID[40:43] */
++			pEntry->p_aid = (aid + BSSID * 32) & 0x1ff;		/* (dec(A) + dec(B)*32) mod 512 */
++			pEntry->g_id = 63;
++		} else if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) || check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE)) {
++			pEntry->p_aid = 0;
++			pEntry->g_id = 63;
++		} else {
++			pEntry->p_aid =  ra[5];						/* BSSID[39:47] */
++			pEntry->p_aid = (pEntry->p_aid << 1) | (ra[4] >> 7);
++			pEntry->g_id = 0;
++		}
++		_rtw_memcpy(pEntry->mac_addr, ra, ETH_ALEN);
++		pEntry->bSound = _FALSE;
++
++		/* 3 TODO SW/FW sound period */
++		pEntry->sound_period = 200;
++		pEntry->beamforming_entry_cap = beamfrom_cap;
++		pEntry->beamforming_entry_state = BEAMFORMING_ENTRY_STATE_UNINITIALIZE;
++
++
++		pEntry->PreLogSeq = 0;	/*Modified by Jeffery @2015-04-13*/
++		pEntry->LogSeq = 0;		/*Modified by Jeffery @2014-10-29*/
++		pEntry->LogRetryCnt = 0;	/*Modified by Jeffery @2014-10-29*/
++		pEntry->LogSuccess = 0;	/*LogSuccess is NOT needed to be accumulated, so  LogSuccessCnt->LogSuccess, 2015-04-13, Jeffery*/
++		pEntry->ClockResetTimes = 0;	/*Modified by Jeffery @2015-04-13*/
++		pEntry->LogStatusFailCnt = 0;
++
++		return pEntry;
++	} else
++		return NULL;
++}
++
++BOOLEAN	beamforming_remove_entry(struct mlme_priv *pmlmepriv, u8 *ra, u8 *idx)
++{
++	struct beamforming_entry	*pEntry = beamforming_get_entry_by_addr(pmlmepriv, ra, idx);
++
++	if (pEntry != NULL) {
++		pEntry->bUsed = _FALSE;
++		pEntry->beamforming_entry_cap = BEAMFORMING_CAP_NONE;
++		pEntry->beamforming_entry_state = BEAMFORMING_ENTRY_STATE_UNINITIALIZE;
++		return _TRUE;
++	} else
++		return _FALSE;
++}
++
++/* Used for BeamformingStart_V1 */
++void	beamforming_dym_ndpa_rate(PADAPTER adapter)
++{
++	u16	NDPARate = MGN_6M;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(adapter);
++
++	if (pHalData->MinUndecoratedPWDBForDM > 30) /* link RSSI > 30% */
++		NDPARate = MGN_24M;
++	else
++		NDPARate = MGN_6M;
++
++	/* BW = CHANNEL_WIDTH_20; */
++	NDPARate = NDPARate << 8;
++	rtw_hal_set_hwreg(adapter, HW_VAR_SOUNDING_RATE, (u8 *)&NDPARate);
++}
++
++void beamforming_dym_period(PADAPTER Adapter)
++{
++	u8	Idx;
++	BOOLEAN	bChangePeriod = _FALSE;
++	u16	SoundPeriod_SW, SoundPeriod_FW;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(Adapter);
++	struct beamforming_entry	*pBeamformEntry;
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO((&Adapter->mlmepriv));
++	struct sounding_info		*pSoundInfo = &(pBeamInfo->sounding_info);
++
++	/* 3 TODO  per-client throughput caculation. */
++
++	if (pdvobjpriv->traffic_stat.cur_tx_tp + pdvobjpriv->traffic_stat.cur_rx_tp > 2) {
++		SoundPeriod_SW = 32 * 20;
++		SoundPeriod_FW = 2;
++	} else {
++		SoundPeriod_SW = 32 * 2000;
++		SoundPeriod_FW = 200;
++	}
++
++	for (Idx = 0; Idx < BEAMFORMING_ENTRY_NUM; Idx++) {
++		pBeamformEntry = pBeamInfo->beamforming_entry + Idx;
++		if (pBeamformEntry->bDefaultCSI) {
++			SoundPeriod_SW = 32 * 2000;
++			SoundPeriod_FW = 200;
++		}
++
++		if (pBeamformEntry->beamforming_entry_cap & (BEAMFORMER_CAP_HT_EXPLICIT | BEAMFORMER_CAP_VHT_SU)) {
++			if (pSoundInfo->sound_mode == SOUNDING_FW_VHT_TIMER || pSoundInfo->sound_mode == SOUNDING_FW_HT_TIMER) {
++				if (pBeamformEntry->sound_period != SoundPeriod_FW) {
++					pBeamformEntry->sound_period = SoundPeriod_FW;
++					bChangePeriod = _TRUE;	/* Only FW sounding need to send H2C packet to change sound period. */
++				}
++			} else if (pBeamformEntry->sound_period != SoundPeriod_SW)
++				pBeamformEntry->sound_period = SoundPeriod_SW;
++		}
++	}
++
++	if (bChangePeriod)
++		rtw_hal_set_hwreg(Adapter, HW_VAR_SOUNDING_FW_NDPA, (u8 *)&Idx);
++}
++
++BOOLEAN	issue_ht_sw_ndpa_packet(PADAPTER Adapter, u8 *ra, CHANNEL_WIDTH bw, u8 qidx)
++{
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct xmit_priv		*pxmitpriv = &(Adapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8	ActionHdr[4] = {ACT_CAT_VENDOR, 0x00, 0xe0, 0x4c};
++	u8	*pframe;
++	u16	*fctrl;
++	u16	duration = 0;
++	u8	aSifsTime = 0;
++	u8	NDPTxRate = 0;
++
++	RTW_INFO("%s: issue_ht_sw_ndpa_packet!\n", __func__);
++
++	NDPTxRate = MGN_MCS8;
++	RTW_INFO("%s: NDPTxRate =%d\n", __func__, NDPTxRate);
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++
++	if (pmgntframe == NULL)
++		return _FALSE;
++
++	/*update attribute*/
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(Adapter, pattrib);
++	pattrib->qsel = QSLT_MGNT;
++	pattrib->rate = NDPTxRate;
++	pattrib->bwmode = bw;
++	pattrib->order = 1;
++	pattrib->subtype = WIFI_ACTION_NOACK;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	SetOrderBit(pframe);
++	SetFrameSubType(pframe, WIFI_ACTION_NOACK);
++
++	_rtw_memcpy(pwlanhdr->addr1, ra, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(Adapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	if (pmlmeext->cur_wireless_mode == WIRELESS_11B)
++		aSifsTime = 10;
++	else
++		aSifsTime = 16;
++
++	duration = 2 * aSifsTime + 40;
++
++	if (bw == CHANNEL_WIDTH_40)
++		duration += 87;
++	else
++		duration += 180;
++
++	SetDuration(pframe, duration);
++
++	/*HT control field*/
++	SET_HT_CTRL_CSI_STEERING(pframe + 24, 3);
++	SET_HT_CTRL_NDP_ANNOUNCEMENT(pframe + 24, 1);
++
++	_rtw_memcpy(pframe + 28, ActionHdr, 4);
++
++	pattrib->pktlen = 32;
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(Adapter, pmgntframe);
++
++	return _TRUE;
++
++
++}
++BOOLEAN	issue_ht_ndpa_packet(PADAPTER Adapter, u8 *ra, CHANNEL_WIDTH bw, u8 qidx)
++{
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct xmit_priv		*pxmitpriv = &(Adapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8	ActionHdr[4] = {ACT_CAT_VENDOR, 0x00, 0xe0, 0x4c};
++	u8	*pframe;
++	u16	*fctrl;
++	u16	duration = 0;
++	u8	aSifsTime = 0;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++
++	if (pmgntframe == NULL)
++		return _FALSE;
++
++	/*update attribute*/
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(Adapter, pattrib);
++
++	if (qidx == BCN_QUEUE_INX)
++		pattrib->qsel = QSLT_BEACON;
++	pattrib->rate = MGN_MCS8;
++	pattrib->bwmode = bw;
++	pattrib->order = 1;
++	pattrib->subtype = WIFI_ACTION_NOACK;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	SetOrderBit(pframe);
++	SetFrameSubType(pframe, WIFI_ACTION_NOACK);
++
++	_rtw_memcpy(pwlanhdr->addr1, ra, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(Adapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	if (pmlmeext->cur_wireless_mode == WIRELESS_11B)
++		aSifsTime = 10;
++	else
++		aSifsTime = 16;
++
++	duration = 2 * aSifsTime + 40;
++
++	if (bw == CHANNEL_WIDTH_40)
++		duration += 87;
++	else
++		duration += 180;
++
++	SetDuration(pframe, duration);
++
++	/* HT control field */
++	SET_HT_CTRL_CSI_STEERING(pframe + 24, 3);
++	SET_HT_CTRL_NDP_ANNOUNCEMENT(pframe + 24, 1);
++
++	_rtw_memcpy(pframe + 28, ActionHdr, 4);
++
++	pattrib->pktlen = 32;
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(Adapter, pmgntframe);
++
++	return _TRUE;
++}
++
++BOOLEAN	beamforming_send_ht_ndpa_packet(PADAPTER Adapter, u8 *ra, CHANNEL_WIDTH bw, u8 qidx)
++{
++	return issue_ht_ndpa_packet(Adapter, ra, bw, qidx);
++}
++BOOLEAN	issue_vht_sw_ndpa_packet(PADAPTER Adapter, u8 *ra, u16 aid, CHANNEL_WIDTH bw, u8 qidx)
++{
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct xmit_priv		*pxmitpriv = &(Adapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv		*pmlmepriv = &(Adapter->mlmepriv);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++	struct rtw_ndpa_sta_info	sta_info;
++	u8		 NDPTxRate = 0;
++
++	u8	*pframe;
++	u16	*fctrl;
++	u16	duration = 0;
++	u8	sequence = 0, aSifsTime = 0;
++
++	RTW_INFO("%s: issue_vht_sw_ndpa_packet!\n", __func__);
++
++
++	NDPTxRate = MGN_VHT2SS_MCS0;
++	RTW_INFO("%s: NDPTxRate =%d\n", __func__, NDPTxRate);
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++
++	if (pmgntframe == NULL) {
++		RTW_INFO("%s, alloc mgnt frame fail\n", __func__);
++		return _FALSE;
++	}
++
++	/*update attribute*/
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(Adapter, pattrib);
++	pattrib->qsel = QSLT_MGNT;
++	pattrib->rate = NDPTxRate;
++	pattrib->bwmode = bw;
++	pattrib->subtype = WIFI_NDPA;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	SetFrameSubType(pframe, WIFI_NDPA);
++
++	_rtw_memcpy(pwlanhdr->addr1, ra, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(Adapter), ETH_ALEN);
++
++	if (IsSupported5G(pmlmeext->cur_wireless_mode) || IsSupportedHT(pmlmeext->cur_wireless_mode))
++		aSifsTime = 16;
++	else
++		aSifsTime = 10;
++
++	duration = 2 * aSifsTime + 44;
++
++	if (bw == CHANNEL_WIDTH_80)
++		duration += 40;
++	else if (bw == CHANNEL_WIDTH_40)
++		duration += 87;
++	else
++		duration += 180;
++
++	SetDuration(pframe, duration);
++
++	sequence = pBeamInfo->sounding_sequence << 2;
++	if (pBeamInfo->sounding_sequence >= 0x3f)
++		pBeamInfo->sounding_sequence = 0;
++	else
++		pBeamInfo->sounding_sequence++;
++
++	_rtw_memcpy(pframe + 16, &sequence, 1);
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) || ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE))
++		aid = 0;
++
++	sta_info.aid = aid;
++	sta_info.feedback_type = 0;
++	sta_info.nc_index = 0;
++
++	_rtw_memcpy(pframe + 17, (u8 *)&sta_info, 2);
++
++	pattrib->pktlen = 19;
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(Adapter, pmgntframe);
++
++
++	return _TRUE;
++
++}
++BOOLEAN	issue_vht_ndpa_packet(PADAPTER Adapter, u8 *ra, u16 aid, CHANNEL_WIDTH bw, u8 qidx)
++{
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct xmit_priv		*pxmitpriv = &(Adapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv		*pmlmepriv = &(Adapter->mlmepriv);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++	struct rtw_ndpa_sta_info	sta_info;
++	u8	*pframe;
++	u16	*fctrl;
++	u16	duration = 0;
++	u8	sequence = 0, aSifsTime = 0;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return _FALSE;
++
++	/*update attribute*/
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(Adapter, pattrib);
++
++	if (qidx == BCN_QUEUE_INX)
++		pattrib->qsel = QSLT_BEACON;
++	pattrib->rate = MGN_VHT2SS_MCS0;
++	pattrib->bwmode = bw;
++	pattrib->subtype = WIFI_NDPA;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	SetFrameSubType(pframe, WIFI_NDPA);
++
++	_rtw_memcpy(pwlanhdr->addr1, ra, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(Adapter), ETH_ALEN);
++
++	if (IsSupported5G(pmlmeext->cur_wireless_mode) || IsSupportedHT(pmlmeext->cur_wireless_mode))
++		aSifsTime = 16;
++	else
++		aSifsTime = 10;
++
++	duration = 2 * aSifsTime + 44;
++
++	if (bw == CHANNEL_WIDTH_80)
++		duration += 40;
++	else if (bw == CHANNEL_WIDTH_40)
++		duration += 87;
++	else
++		duration += 180;
++
++	SetDuration(pframe, duration);
++
++	sequence = pBeamInfo->sounding_sequence << 2;
++	if (pBeamInfo->sounding_sequence >= 0x3f)
++		pBeamInfo->sounding_sequence = 0;
++	else
++		pBeamInfo->sounding_sequence++;
++
++	_rtw_memcpy(pframe + 16, &sequence, 1);
++
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) || ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE))
++		aid = 0;
++
++	sta_info.aid = aid;
++	sta_info.feedback_type = 0;
++	sta_info.nc_index = 0;
++
++	_rtw_memcpy(pframe + 17, (u8 *)&sta_info, 2);
++
++	pattrib->pktlen = 19;
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(Adapter, pmgntframe);
++
++	return _TRUE;
++}
++
++BOOLEAN	beamforming_send_vht_ndpa_packet(PADAPTER Adapter, u8 *ra, u16 aid, CHANNEL_WIDTH bw, u8 qidx)
++{
++	return issue_vht_ndpa_packet(Adapter, ra, aid, bw, qidx);
++}
++
++BOOLEAN	beamfomring_bSounding(struct beamforming_info *pBeamInfo)
++{
++	BOOLEAN		bSounding = _FALSE;
++
++	if ((beamforming_get_beamform_cap(pBeamInfo) & BEAMFORMER_CAP) == 0)
++		bSounding = _FALSE;
++	else
++		bSounding = _TRUE;
++
++	return bSounding;
++}
++
++u8	beamforming_sounding_idx(struct beamforming_info *pBeamInfo)
++{
++	u8	idx = 0;
++	u8	i;
++
++	for (i = 0; i < BEAMFORMING_ENTRY_NUM; i++) {
++		if (pBeamInfo->beamforming_entry[i].bUsed &&
++		    (_FALSE == pBeamInfo->beamforming_entry[i].bSound)) {
++			idx = i;
++			break;
++		}
++	}
++
++	return idx;
++}
++
++SOUNDING_MODE	beamforming_sounding_mode(struct beamforming_info *pBeamInfo, u8 idx)
++{
++	struct beamforming_entry	BeamEntry = pBeamInfo->beamforming_entry[idx];
++	SOUNDING_MODE	mode;
++
++	if (BeamEntry.beamforming_entry_cap & BEAMFORMER_CAP_VHT_SU)
++		mode = SOUNDING_FW_VHT_TIMER;
++	else if (BeamEntry.beamforming_entry_cap & BEAMFORMER_CAP_HT_EXPLICIT)
++		mode = SOUNDING_FW_HT_TIMER;
++	else
++		mode = SOUNDING_STOP_All_TIMER;
++
++	return mode;
++}
++
++u16	beamforming_sounding_time(struct beamforming_info *pBeamInfo, SOUNDING_MODE mode, u8 idx)
++{
++	u16						sounding_time = 0xffff;
++	struct beamforming_entry	BeamEntry = pBeamInfo->beamforming_entry[idx];
++
++	sounding_time = BeamEntry.sound_period;
++
++	return sounding_time;
++}
++
++CHANNEL_WIDTH	beamforming_sounding_bw(struct beamforming_info *pBeamInfo, SOUNDING_MODE mode, u8 idx)
++{
++	CHANNEL_WIDTH				sounding_bw = CHANNEL_WIDTH_20;
++	struct beamforming_entry		BeamEntry = pBeamInfo->beamforming_entry[idx];
++
++	sounding_bw = BeamEntry.sound_bw;
++
++	return sounding_bw;
++}
++
++BOOLEAN	beamforming_select_beam_entry(struct beamforming_info *pBeamInfo)
++{
++	struct sounding_info		*pSoundInfo = &(pBeamInfo->sounding_info);
++
++	pSoundInfo->sound_idx = beamforming_sounding_idx(pBeamInfo);
++
++	if (pSoundInfo->sound_idx < BEAMFORMING_ENTRY_NUM)
++		pSoundInfo->sound_mode = beamforming_sounding_mode(pBeamInfo, pSoundInfo->sound_idx);
++	else
++		pSoundInfo->sound_mode = SOUNDING_STOP_All_TIMER;
++
++	if (SOUNDING_STOP_All_TIMER == pSoundInfo->sound_mode)
++		return _FALSE;
++	else {
++		pSoundInfo->sound_bw = beamforming_sounding_bw(pBeamInfo, pSoundInfo->sound_mode, pSoundInfo->sound_idx);
++		pSoundInfo->sound_period = beamforming_sounding_time(pBeamInfo, pSoundInfo->sound_mode, pSoundInfo->sound_idx);
++		return _TRUE;
++	}
++}
++
++BOOLEAN	beamforming_start_fw(PADAPTER adapter, u8 idx)
++{
++	u8						*RA = NULL;
++	struct beamforming_entry	*pEntry;
++	BOOLEAN					ret = _TRUE;
++	struct mlme_priv			*pmlmepriv = &(adapter->mlmepriv);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++
++	pEntry = &(pBeamInfo->beamforming_entry[idx]);
++	if (pEntry->bUsed == _FALSE) {
++		RTW_INFO("Skip Beamforming, no entry for Idx =%d\n", idx);
++		return _FALSE;
++	}
++
++	pEntry->beamforming_entry_state = BEAMFORMING_ENTRY_STATE_PROGRESSING;
++	pEntry->bSound = _TRUE;
++	rtw_hal_set_hwreg(adapter, HW_VAR_SOUNDING_FW_NDPA, (u8 *)&idx);
++
++	return _TRUE;
++}
++
++void	beamforming_end_fw(PADAPTER adapter)
++{
++	u8	idx = 0;
++
++	rtw_hal_set_hwreg(adapter, HW_VAR_SOUNDING_FW_NDPA, (u8 *)&idx);
++
++	RTW_INFO("%s\n", __FUNCTION__);
++}
++
++BOOLEAN	beamforming_start_period(PADAPTER adapter)
++{
++	BOOLEAN	ret = _TRUE;
++	struct mlme_priv			*pmlmepriv = &(adapter->mlmepriv);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++	struct sounding_info		*pSoundInfo = &(pBeamInfo->sounding_info);
++
++	beamforming_dym_ndpa_rate(adapter);
++
++	beamforming_select_beam_entry(pBeamInfo);
++
++	if (pSoundInfo->sound_mode == SOUNDING_FW_VHT_TIMER || pSoundInfo->sound_mode == SOUNDING_FW_HT_TIMER)
++		ret = beamforming_start_fw(adapter, pSoundInfo->sound_idx);
++	else
++		ret = _FALSE;
++
++	RTW_INFO("%s Idx %d Mode %d BW %d Period %d\n", __FUNCTION__,
++		pSoundInfo->sound_idx, pSoundInfo->sound_mode, pSoundInfo->sound_bw, pSoundInfo->sound_period);
++
++	return ret;
++}
++
++void	beamforming_end_period(PADAPTER adapter)
++{
++	u8						idx = 0;
++	struct beamforming_entry	*pBeamformEntry;
++	struct mlme_priv			*pmlmepriv = &(adapter->mlmepriv);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++	struct sounding_info		*pSoundInfo = &(pBeamInfo->sounding_info);
++
++
++	if (pSoundInfo->sound_mode == SOUNDING_FW_VHT_TIMER || pSoundInfo->sound_mode == SOUNDING_FW_HT_TIMER)
++		beamforming_end_fw(adapter);
++}
++
++void	beamforming_notify(PADAPTER adapter)
++{
++	BOOLEAN		bSounding = _FALSE;
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(&(adapter->mlmepriv));
++
++	bSounding = beamfomring_bSounding(pBeamInfo);
++
++	if (pBeamInfo->beamforming_state == BEAMFORMING_STATE_IDLE) {
++		if (bSounding) {
++			if (beamforming_start_period(adapter) == _TRUE)
++				pBeamInfo->beamforming_state = BEAMFORMING_STATE_START;
++		}
++	} else if (pBeamInfo->beamforming_state == BEAMFORMING_STATE_START) {
++		if (bSounding) {
++			if (beamforming_start_period(adapter) == _FALSE)
++				pBeamInfo->beamforming_state = BEAMFORMING_STATE_END;
++		} else {
++			beamforming_end_period(adapter);
++			pBeamInfo->beamforming_state = BEAMFORMING_STATE_END;
++		}
++	} else if (pBeamInfo->beamforming_state == BEAMFORMING_STATE_END) {
++		if (bSounding) {
++			if (beamforming_start_period(adapter) == _TRUE)
++				pBeamInfo->beamforming_state = BEAMFORMING_STATE_START;
++		}
++	} else
++		RTW_INFO("%s BeamformState %d\n", __FUNCTION__, pBeamInfo->beamforming_state);
++
++	RTW_INFO("%s BeamformState %d bSounding %d\n", __FUNCTION__, pBeamInfo->beamforming_state, bSounding);
++}
++
++BOOLEAN	beamforming_init_entry(PADAPTER	adapter, struct sta_info *psta, u8 *idx)
++{
++	struct mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++	struct ht_priv		*phtpriv = &(pmlmepriv->htpriv);
++#ifdef CONFIG_80211AC_VHT
++	struct vht_priv		*pvhtpriv = &(pmlmepriv->vhtpriv);
++#endif
++	struct mlme_ext_priv	*pmlmeext = &(adapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct beamforming_entry	*pBeamformEntry = NULL;
++	u8	*ra;
++	u16	aid, mac_id;
++	u8	wireless_mode;
++	CHANNEL_WIDTH	bw = CHANNEL_WIDTH_20;
++	BEAMFORMING_CAP	beamform_cap = BEAMFORMING_CAP_NONE;
++
++	/* The current setting does not support Beaforming */
++	if (0 == phtpriv->beamform_cap
++#ifdef CONFIG_80211AC_VHT
++	    && 0 == pvhtpriv->beamform_cap
++#endif
++	   ) {
++		RTW_INFO("The configuration disabled Beamforming! Skip...\n");
++		return _FALSE;
++	}
++
++	aid = psta->aid;
++	ra = psta->hwaddr;
++	mac_id = psta->mac_id;
++	wireless_mode = psta->wireless_mode;
++	bw = psta->bw_mode;
++
++	if (IsSupportedHT(wireless_mode) || IsSupportedVHT(wireless_mode)) {
++		/* 3 */ /* HT */
++		u8	cur_beamform;
++
++		cur_beamform = psta->htpriv.beamform_cap;
++
++		/* We are Beamformee because the STA is Beamformer */
++		if (TEST_FLAG(cur_beamform, BEAMFORMING_HT_BEAMFORMER_ENABLE))
++			beamform_cap = (BEAMFORMING_CAP)(beamform_cap | BEAMFORMEE_CAP_HT_EXPLICIT);
++
++		/* We are Beamformer because the STA is Beamformee */
++		if (TEST_FLAG(cur_beamform, BEAMFORMING_HT_BEAMFORMEE_ENABLE))
++			beamform_cap = (BEAMFORMING_CAP)(beamform_cap | BEAMFORMER_CAP_HT_EXPLICIT);
++#ifdef CONFIG_80211AC_VHT
++		if (IsSupportedVHT(wireless_mode)) {
++			/* 3 */ /* VHT */
++			cur_beamform = psta->vhtpriv.beamform_cap;
++
++			/* We are Beamformee because the STA is Beamformer */
++			if (TEST_FLAG(cur_beamform, BEAMFORMING_VHT_BEAMFORMER_ENABLE))
++				beamform_cap = (BEAMFORMING_CAP)(beamform_cap | BEAMFORMEE_CAP_VHT_SU);
++			/* We are Beamformer because the STA is Beamformee */
++			if (TEST_FLAG(cur_beamform, BEAMFORMING_VHT_BEAMFORMEE_ENABLE))
++				beamform_cap = (BEAMFORMING_CAP)(beamform_cap | BEAMFORMER_CAP_VHT_SU);
++		}
++#endif /* CONFIG_80211AC_VHT */
++
++		if (beamform_cap == BEAMFORMING_CAP_NONE)
++			return _FALSE;
++
++		RTW_INFO("Beamforming Config Capability = 0x%02X\n", beamform_cap);
++
++		pBeamformEntry = beamforming_get_entry_by_addr(pmlmepriv, ra, idx);
++		if (pBeamformEntry == NULL) {
++			pBeamformEntry = beamforming_add_entry(adapter, ra, aid, mac_id, bw, beamform_cap, idx);
++			if (pBeamformEntry == NULL)
++				return _FALSE;
++			else
++				pBeamformEntry->beamforming_entry_state = BEAMFORMING_ENTRY_STATE_INITIALIZEING;
++		} else {
++			/* Entry has been created. If entry is initialing or progressing then errors occur. */
++			if (pBeamformEntry->beamforming_entry_state != BEAMFORMING_ENTRY_STATE_INITIALIZED &&
++			    pBeamformEntry->beamforming_entry_state != BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++				RTW_INFO("Error State of Beamforming");
++				return _FALSE;
++			} else
++				pBeamformEntry->beamforming_entry_state = BEAMFORMING_ENTRY_STATE_INITIALIZEING;
++		}
++
++		pBeamformEntry->beamforming_entry_state = BEAMFORMING_ENTRY_STATE_INITIALIZED;
++		psta->txbf_paid = pBeamformEntry->p_aid;
++		psta->txbf_gid = pBeamformEntry->g_id;
++
++		RTW_INFO("%s Idx %d\n", __FUNCTION__, *idx);
++	} else
++		return _FALSE;
++
++	return _SUCCESS;
++}
++
++void	beamforming_deinit_entry(PADAPTER adapter, u8 *ra)
++{
++	u8	idx = 0;
++	struct mlme_priv *pmlmepriv = &(adapter->mlmepriv);
++
++	if (beamforming_remove_entry(pmlmepriv, ra, &idx) == _TRUE)
++		rtw_hal_set_hwreg(adapter, HW_VAR_SOUNDING_LEAVE, (u8 *)&idx);
++
++	RTW_INFO("%s Idx %d\n", __FUNCTION__, idx);
++}
++
++void	beamforming_reset(PADAPTER adapter)
++{
++	u8	idx = 0;
++	struct mlme_priv			*pmlmepriv = &(adapter->mlmepriv);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++
++	for (idx = 0; idx < BEAMFORMING_ENTRY_NUM; idx++) {
++		if (pBeamInfo->beamforming_entry[idx].bUsed == _TRUE) {
++			pBeamInfo->beamforming_entry[idx].bUsed = _FALSE;
++			pBeamInfo->beamforming_entry[idx].beamforming_entry_cap = BEAMFORMING_CAP_NONE;
++			pBeamInfo->beamforming_entry[idx].beamforming_entry_state = BEAMFORMING_ENTRY_STATE_UNINITIALIZE;
++			rtw_hal_set_hwreg(adapter, HW_VAR_SOUNDING_LEAVE, (u8 *)&idx);
++		}
++	}
++
++	RTW_INFO("%s\n", __FUNCTION__);
++}
++
++void beamforming_sounding_fail(PADAPTER Adapter)
++{
++	struct mlme_priv			*pmlmepriv = &(Adapter->mlmepriv);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++	struct beamforming_entry	*pEntry = &(pBeamInfo->beamforming_entry[pBeamInfo->beamforming_cur_idx]);
++
++	pEntry->bSound = _FALSE;
++	rtw_hal_set_hwreg(Adapter, HW_VAR_SOUNDING_FW_NDPA, (u8 *)&pBeamInfo->beamforming_cur_idx);
++	beamforming_deinit_entry(Adapter, pEntry->mac_addr);
++}
++
++void	beamforming_check_sounding_success(PADAPTER Adapter, BOOLEAN status)
++{
++	struct mlme_priv			*pmlmepriv = &(Adapter->mlmepriv);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++	struct beamforming_entry	*pEntry = &(pBeamInfo->beamforming_entry[pBeamInfo->beamforming_cur_idx]);
++
++	if (status == 1)
++		pEntry->LogStatusFailCnt = 0;
++	else {
++		pEntry->LogStatusFailCnt++;
++		RTW_INFO("%s LogStatusFailCnt %d\n", __FUNCTION__, pEntry->LogStatusFailCnt);
++	}
++	if (pEntry->LogStatusFailCnt > 20) {
++		RTW_INFO("%s LogStatusFailCnt > 20, Stop SOUNDING\n", __FUNCTION__);
++		/* pEntry->bSound = _FALSE; */
++		/* rtw_hal_set_hwreg(Adapter, HW_VAR_SOUNDING_FW_NDPA, (u8 *)&pBeamInfo->beamforming_cur_idx); */
++		/* beamforming_deinit_entry(Adapter, pEntry->mac_addr); */
++		beamforming_wk_cmd(Adapter, BEAMFORMING_CTRL_SOUNDING_FAIL, NULL, 0, 1);
++	}
++}
++
++void	beamforming_enter(PADAPTER adapter, PVOID psta)
++{
++	u8	idx = 0xff;
++
++	if (beamforming_init_entry(adapter, (struct sta_info *)psta, &idx))
++		rtw_hal_set_hwreg(adapter, HW_VAR_SOUNDING_ENTER, (u8 *)&idx);
++
++	/* RTW_INFO("%s Idx %d\n", __FUNCTION__, idx); */
++}
++
++void	beamforming_leave(PADAPTER adapter, u8 *ra)
++{
++	if (ra == NULL)
++		beamforming_reset(adapter);
++	else
++		beamforming_deinit_entry(adapter, ra);
++
++	beamforming_notify(adapter);
++}
++
++BEAMFORMING_CAP beamforming_get_beamform_cap(struct beamforming_info	*pBeamInfo)
++{
++	u8	i;
++	BOOLEAN				bSelfBeamformer = _FALSE;
++	BOOLEAN				bSelfBeamformee = _FALSE;
++	struct beamforming_entry	beamforming_entry;
++	BEAMFORMING_CAP		beamform_cap = BEAMFORMING_CAP_NONE;
++
++	for (i = 0; i < BEAMFORMING_ENTRY_NUM; i++) {
++		beamforming_entry = pBeamInfo->beamforming_entry[i];
++
++		if (beamforming_entry.bUsed) {
++			if ((beamforming_entry.beamforming_entry_cap & BEAMFORMEE_CAP_VHT_SU) ||
++			    (beamforming_entry.beamforming_entry_cap & BEAMFORMEE_CAP_HT_EXPLICIT))
++				bSelfBeamformee = _TRUE;
++			if ((beamforming_entry.beamforming_entry_cap & BEAMFORMER_CAP_VHT_SU) ||
++			    (beamforming_entry.beamforming_entry_cap & BEAMFORMER_CAP_HT_EXPLICIT))
++				bSelfBeamformer = _TRUE;
++		}
++
++		if (bSelfBeamformer && bSelfBeamformee)
++			i = BEAMFORMING_ENTRY_NUM;
++	}
++
++	if (bSelfBeamformer)
++		beamform_cap |= BEAMFORMER_CAP;
++	if (bSelfBeamformee)
++		beamform_cap |= BEAMFORMEE_CAP;
++
++	return beamform_cap;
++}
++
++void	beamforming_watchdog(PADAPTER Adapter)
++{
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO((&(Adapter->mlmepriv)));
++
++	if (pBeamInfo->beamforming_state != BEAMFORMING_STATE_START)
++		return;
++
++	beamforming_dym_period(Adapter);
++	beamforming_dym_ndpa_rate(Adapter);
++}
++#endif /* !RTW_BEAMFORMING_VERSION_2 */
++#endif/* #if (BEAMFORMING_SUPPORT ==0) - for diver defined beamforming*/
++
++u32	beamforming_get_report_frame(PADAPTER	 Adapter, union recv_frame *precv_frame)
++{
++	u32	ret = _SUCCESS;
++#if (BEAMFORMING_SUPPORT == 1)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++
++	ret = Beamforming_GetReportFrame(pDM_Odm, precv_frame);
++
++#else /*(BEAMFORMING_SUPPORT == 0)- for drv beamfoming*/
++#ifdef RTW_BEAMFORMING_VERSION_2
++	struct beamformee_entry *pBeamformEntry = NULL;
++	struct mlme_priv *pmlmepriv = &Adapter->mlmepriv;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	u32 frame_len = precv_frame->u.hdr.len;
++	u8 *ta;
++	u8 *frame_body;
++	u8 category, action;
++	u8 *pMIMOCtrlField, *pCSIMatrix;
++	u8 Nc = 0, Nr = 0, CH_W = 0;
++	u16 CSIMatrixLen = 0;
++
++
++	RTW_DBG("+%s\n", __FUNCTION__);
++
++	/* Memory comparison to see if CSI report is the same with previous one */
++	ta = GetAddr2Ptr(pframe);
++	pBeamformEntry = beamforming_get_bfee_entry_by_addr(Adapter, ta);
++	if (!pBeamformEntry)
++		return _FAIL;
++
++	frame_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	category = frame_body[0];
++	action = frame_body[1];
++
++	if ((category == RTW_WLAN_CATEGORY_VHT)
++	    && (action == RTW_WLAN_ACTION_VHT_COMPRESSED_BEAMFORMING)) {
++		pMIMOCtrlField = pframe + 26; 
++		Nc = ((*pMIMOCtrlField) & 0x7) + 1;
++		Nr = (((*pMIMOCtrlField) & 0x38) >> 3) + 1;
++		CH_W =  (((*pMIMOCtrlField) & 0xC0) >> 6);
++		/*
++		 * 24+(1+1+3)+2
++		 * ==> MAC header+(Category+ActionCode+MIMOControlField)+SNR(Nc=2)
++		 */
++		pCSIMatrix = pMIMOCtrlField + 3 + Nc;
++		CSIMatrixLen = frame_len - 26 - 3 - Nc;
++	} else if ((category == RTW_WLAN_CATEGORY_HT)
++		   && (action == RTW_WLAN_ACTION_HT_COMPRESS_BEAMFORMING)) {
++		pMIMOCtrlField = pframe + 26; 
++		Nc = ((*pMIMOCtrlField) & 0x3) + 1;
++		Nr = (((*pMIMOCtrlField) & 0xC) >> 2) + 1;
++		CH_W = ((*pMIMOCtrlField) & 0x10) >> 4;
++		/*
++		 * 24+(1+1+6)+2
++		 * ==> MAC header+(Category+ActionCode+MIMOControlField)+SNR(Nc=2)
++		 */
++		pCSIMatrix = pMIMOCtrlField + 6 + Nr;
++		CSIMatrixLen = frame_len  - 26 - 6 - Nr;
++	}
++	
++	RTW_INFO("%s: pkt type=%d-%d, Nc=%d, Nr=%d, CH_W=%d\n",
++		 __FUNCTION__, category, action, Nc, Nr, CH_W);
++#else /* !RTW_BEAMFORMING_VERSION_2 */
++	struct beamforming_entry	*pBeamformEntry = NULL;
++	struct mlme_priv			*pmlmepriv = &(Adapter->mlmepriv);
++	u8	*pframe = precv_frame->u.hdr.rx_data;
++	u32	frame_len = precv_frame->u.hdr.len;
++	u8	*ta;
++	u8	idx, offset;
++
++	/*RTW_INFO("beamforming_get_report_frame\n");*/
++
++	/*Memory comparison to see if CSI report is the same with previous one*/
++	ta = GetAddr2Ptr(pframe);
++	pBeamformEntry = beamforming_get_entry_by_addr(pmlmepriv, ta, &idx);
++	if (pBeamformEntry->beamforming_entry_cap & BEAMFORMER_CAP_VHT_SU)
++		offset = 31;	/*24+(1+1+3)+2  MAC header+(Category+ActionCode+MIMOControlField)+SNR(Nc=2)*/
++	else if (pBeamformEntry->beamforming_entry_cap & BEAMFORMER_CAP_HT_EXPLICIT)
++		offset = 34;	/*24+(1+1+6)+2  MAC header+(Category+ActionCode+MIMOControlField)+SNR(Nc=2)*/
++	else
++		return ret;
++
++	/*RTW_INFO("%s MacId %d offset=%d\n", __FUNCTION__, pBeamformEntry->mac_id, offset);*/
++
++	if (_rtw_memcmp(pBeamformEntry->PreCsiReport + offset, pframe + offset, frame_len - offset) == _FALSE)
++		pBeamformEntry->DefaultCsiCnt = 0;
++	else
++		pBeamformEntry->DefaultCsiCnt++;
++
++	_rtw_memcpy(&pBeamformEntry->PreCsiReport, pframe, frame_len);
++
++	pBeamformEntry->bDefaultCSI = _FALSE;
++
++	if (pBeamformEntry->DefaultCsiCnt > 20)
++		pBeamformEntry->bDefaultCSI = _TRUE;
++	else
++		pBeamformEntry->bDefaultCSI = _FALSE;
++#endif /* !RTW_BEAMFORMING_VERSION_2 */
++#endif
++	return ret;
++}
++
++void	beamforming_get_ndpa_frame(PADAPTER	 Adapter, union recv_frame *precv_frame)
++{
++#if (BEAMFORMING_SUPPORT == 1)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++
++	Beamforming_GetNDPAFrame(pDM_Odm, precv_frame);
++
++#else /*(BEAMFORMING_SUPPORT == 0)- for drv beamfoming*/
++#ifdef RTW_BEAMFORMING_VERSION_2
++	RTW_DBG("+%s\n", __FUNCTION__);
++#else /* !RTW_BEAMFORMING_VERSION_2 */
++	u8	*ta;
++	u8	idx, Sequence;
++	u8	*pframe = precv_frame->u.hdr.rx_data;
++	struct mlme_priv			*pmlmepriv = &(Adapter->mlmepriv);
++	struct beamforming_entry	*pBeamformEntry = NULL;
++
++	/*RTW_INFO("beamforming_get_ndpa_frame\n");*/
++
++	if (IS_HARDWARE_TYPE_8812(Adapter) == _FALSE)
++		return;
++	else if (GetFrameSubType(pframe) != WIFI_NDPA)
++		return;
++
++	ta = GetAddr2Ptr(pframe);
++	/*Remove signaling TA. */
++	ta[0] = ta[0] & 0xFE;
++
++	pBeamformEntry = beamforming_get_entry_by_addr(pmlmepriv, ta, &idx);
++
++	if (pBeamformEntry == NULL)
++		return;
++	else if (!(pBeamformEntry->beamforming_entry_cap & BEAMFORMEE_CAP_VHT_SU))
++		return;
++	/*LogSuccess: As long as 8812A receive NDPA and feedback CSI succeed once, clock reset is NO LONGER needed !2015-04-10, Jeffery*/
++	/*ClockResetTimes: While BFer entry always doesn't receive our CSI, clock will reset again and again.So ClockResetTimes is limited to 5 times.2015-04-13, Jeffery*/
++	else if ((pBeamformEntry->LogSuccess == 1) || (pBeamformEntry->ClockResetTimes == 5)) {
++		RTW_INFO("[%s] LogSeq=%d, PreLogSeq=%d\n", __func__, pBeamformEntry->LogSeq, pBeamformEntry->PreLogSeq);
++		return;
++	}
++
++	Sequence = (pframe[16]) >> 2;
++	RTW_INFO("[%s] Start, Sequence=%d, LogSeq=%d, PreLogSeq=%d, LogRetryCnt=%d, ClockResetTimes=%d, LogSuccess=%d\n",
++		__func__, Sequence, pBeamformEntry->LogSeq, pBeamformEntry->PreLogSeq, pBeamformEntry->LogRetryCnt, pBeamformEntry->ClockResetTimes, pBeamformEntry->LogSuccess);
++
++	if ((pBeamformEntry->LogSeq != 0) && (pBeamformEntry->PreLogSeq != 0)) {
++		/*Success condition*/
++		if ((pBeamformEntry->LogSeq != Sequence) && (pBeamformEntry->PreLogSeq != pBeamformEntry->LogSeq)) {
++			/* break option for clcok reset, 2015-03-30, Jeffery */
++			pBeamformEntry->LogRetryCnt = 0;
++			/*As long as 8812A receive NDPA and feedback CSI succeed once, clock reset is no longer needed.*/
++			/*That is, LogSuccess is NOT needed to be reset to zero, 2015-04-13, Jeffery*/
++			pBeamformEntry->LogSuccess = 1;
++
++		} else {/*Fail condition*/
++
++			if (pBeamformEntry->LogRetryCnt == 5) {
++				pBeamformEntry->ClockResetTimes++;
++				pBeamformEntry->LogRetryCnt = 0;
++
++				RTW_INFO("[%s] Clock Reset!!! ClockResetTimes=%d\n",  __func__, pBeamformEntry->ClockResetTimes);
++				beamforming_wk_cmd(Adapter, BEAMFORMING_CTRL_SOUNDING_CLK, NULL, 0, 1);
++
++			} else
++				pBeamformEntry->LogRetryCnt++;
++		}
++	}
++
++	/*Update LogSeq & PreLogSeq*/
++	pBeamformEntry->PreLogSeq = pBeamformEntry->LogSeq;
++	pBeamformEntry->LogSeq = Sequence;
++#endif /* !RTW_BEAMFORMING_VERSION_2 */
++#endif
++
++}
++
++/* octets in data header, no WEP */
++#define sMacHdrLng						24
++/* VHT Group ID (GID) Management Frame */
++#define FRAME_OFFSET_VHT_GID_MGNT_MEMBERSHIP_STATUS_ARRAY	(sMacHdrLng + 2)
++#define FRAME_OFFSET_VHT_GID_MGNT_USER_POSITION_ARRAY		(sMacHdrLng + 10)
++/* VHT GID Management Frame Info */
++#define GET_VHT_GID_MGNT_INFO_MEMBERSHIP_STATUS(_pStart)	LE_BITS_TO_1BYTE((_pStart), 0, 8)
++#define GET_VHT_GID_MGNT_INFO_USER_POSITION(_pStart)		LE_BITS_TO_1BYTE((_pStart), 0, 8)
++/*
++ * Description:
++ *	On VHT GID management frame by an MU beamformee.
++ *
++ * 2015.05.20. Created by tynli.
++ */
++u32 beamforming_get_vht_gid_mgnt_frame(PADAPTER adapter, union recv_frame *precv_frame)
++{
++#ifdef RTW_BEAMFORMING_VERSION_2
++	u8 *ta;
++	u8 idx;
++	u8 *pframe;
++	u8 *pBuffer = NULL;
++	struct beamformer_entry *bfer = NULL;
++
++
++	RTW_DBG("+%s\n", __FUNCTION__);
++
++	pframe = precv_frame->u.hdr.rx_data;
++	/* Get BFer entry by Addr2 */
++	ta = GetAddr2Ptr(pframe);
++	/* Remove signaling TA */
++	ta[0] &= 0xFE;
++
++	bfer = beamforming_get_bfer_entry_by_addr(adapter, ta);
++	if (!bfer) {
++		RTW_INFO("%s: Cannot find BFer entry!!\n", __FUNCTION__);
++		return _FAIL;
++	}
++
++	/* Parsing Membership Status Array */
++	pBuffer = pframe + FRAME_OFFSET_VHT_GID_MGNT_MEMBERSHIP_STATUS_ARRAY;
++	for (idx = 0; idx < 8; idx++)
++		bfer->gid_valid[idx] = GET_VHT_GID_MGNT_INFO_MEMBERSHIP_STATUS(pBuffer+idx);
++
++	/* Parsing User Position Array */
++	pBuffer = pframe + FRAME_OFFSET_VHT_GID_MGNT_USER_POSITION_ARRAY;
++	for (idx = 0; idx < 16; idx++)
++		bfer->user_position[idx] = GET_VHT_GID_MGNT_INFO_USER_POSITION(pBuffer+idx);
++
++	/* Config HW GID table */
++	beamforming_wk_cmd(adapter, BEAMFORMING_CTRL_SET_GID_TABLE, (u8*)&bfer, sizeof(struct beamformer_entry *), 1);
++
++	return _SUCCESS;
++#else /* !RTW_BEAMFORMING_VERSION_2 */
++	return _FAIL;
++#endif /* !RTW_BEAMFORMING_VERSION_2 */
++}
++
++void	beamforming_wk_hdl(_adapter *padapter, u8 type, u8 *pbuf)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++
++#if (BEAMFORMING_SUPPORT == 1) /*(BEAMFORMING_SUPPORT == 1)- for PHYDM beamfoming*/
++	switch (type) {
++	case BEAMFORMING_CTRL_ENTER: {
++		struct sta_info	*psta = (PVOID)pbuf;
++		u16			staIdx = psta->mac_id;
++
++		Beamforming_Enter(pDM_Odm, staIdx);
++		break;
++	}
++	case BEAMFORMING_CTRL_LEAVE:
++		Beamforming_Leave(pDM_Odm, pbuf);
++		break;
++	default:
++		break;
++
++	}
++#else /*(BEAMFORMING_SUPPORT == 0)- for drv beamfoming*/
++	switch (type) {
++	case BEAMFORMING_CTRL_ENTER:
++		beamforming_enter(padapter, (PVOID)pbuf);
++		break;
++
++	case BEAMFORMING_CTRL_LEAVE:
++		beamforming_leave(padapter, pbuf);
++		break;
++
++	case BEAMFORMING_CTRL_SOUNDING_FAIL:
++		beamforming_sounding_fail(padapter);
++		break;
++
++	case BEAMFORMING_CTRL_SOUNDING_CLK:
++		rtw_hal_set_hwreg(padapter, HW_VAR_SOUNDING_CLK, NULL);
++		break;
++
++	case BEAMFORMING_CTRL_SET_GID_TABLE:
++		rtw_hal_set_hwreg(padapter, HW_VAR_SOUNDING_SET_GID_TABLE, *(void**)pbuf);
++		break;
++
++	default:
++		break;
++	}
++#endif
++}
++
++u8	beamforming_wk_cmd(_adapter *padapter, s32 type, u8 *pbuf, s32 size, u8 enqueue)
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	if (enqueue) {
++		u8	*wk_buf;
++
++		ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (ph2c == NULL) {
++			res = _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++		if (pdrvextra_cmd_parm == NULL) {
++			rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++			res = _FAIL;
++			goto exit;
++		}
++
++		if (pbuf != NULL) {
++			wk_buf = rtw_zmalloc(size);
++			if (wk_buf == NULL) {
++				rtw_mfree((u8 *)ph2c, sizeof(struct cmd_obj));
++				rtw_mfree((u8 *)pdrvextra_cmd_parm, sizeof(struct drvextra_cmd_parm));
++				res = _FAIL;
++				goto exit;
++			}
++
++			_rtw_memcpy(wk_buf, pbuf, size);
++		} else {
++			wk_buf = NULL;
++			size = 0;
++		}
++
++		pdrvextra_cmd_parm->ec_id = BEAMFORMING_WK_CID;
++		pdrvextra_cmd_parm->type = type;
++		pdrvextra_cmd_parm->size = size;
++		pdrvextra_cmd_parm->pbuf = wk_buf;
++
++		init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	} else
++		beamforming_wk_hdl(padapter, type, pbuf);
++
++exit:
++
++
++	return res;
++}
++
++void update_attrib_txbf_info(_adapter *padapter, struct pkt_attrib *pattrib, struct sta_info *psta)
++{
++	if (psta) {
++		pattrib->txbf_g_id = psta->txbf_gid;
++		pattrib->txbf_p_aid = psta->txbf_paid;
++	}
++}
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_br_ext.c b/drivers/net/wireless/rtl8723du/core/rtw_br_ext.c
+new file mode 100644
+index 0000000..b330edf
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_br_ext.c
+@@ -0,0 +1,1585 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_BR_EXT_C_
++
++#ifdef __KERNEL__
++	#include <linux/if_arp.h>
++	#include <net/ip.h>
++	#include <net/ipx.h>
++	#include <linux/atalk.h>
++	#include <linux/udp.h>
++	#include <linux/if_pppox.h>
++#endif
++
++#if 1	/* rtw_wifi_driver */
++	#include <drv_types.h>
++#else	/* rtw_wifi_driver */
++	#include "./8192cd_cfg.h"
++
++	#ifndef __KERNEL__
++		#include "./sys-support.h"
++	#endif
++
++	#include "./8192cd.h"
++	#include "./8192cd_headers.h"
++	#include "./8192cd_br_ext.h"
++	#include "./8192cd_debug.h"
++#endif /* rtw_wifi_driver */
++
++#ifdef CL_IPV6_PASS
++	#ifdef __KERNEL__
++		#include <linux/ipv6.h>
++		#include <linux/icmpv6.h>
++		#include <net/ndisc.h>
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 24))
++			#include <net/ip6_checksum.h>
++		#else
++			#include <net/checksum.h>
++		#endif
++	#endif
++#endif
++
++#ifdef CONFIG_BR_EXT
++
++/* #define BR_EXT_DEBUG */
++
++#define NAT25_IPV4		01
++#define NAT25_IPV6		02
++#define NAT25_IPX		03
++#define NAT25_APPLE		04
++#define NAT25_PPPOE		05
++
++#define RTL_RELAY_TAG_LEN (ETH_ALEN)
++#define TAG_HDR_LEN		4
++
++#define MAGIC_CODE		0x8186
++#define MAGIC_CODE_LEN	2
++#define WAIT_TIME_PPPOE	5	/* waiting time for pppoe server in sec */
++
++/*-----------------------------------------------------------------
++  How database records network address:
++           0    1    2    3    4    5    6    7    8    9   10
++        |----|----|----|----|----|----|----|----|----|----|----|
++  IPv4  |type|                             |      IP addr      |
++  IPX   |type|      Net addr     |          Node addr          |
++  IPX   |type|      Net addr     |Sckt addr|
++  Apple |type| Network |node|
++  PPPoE |type|   SID   |           AC MAC            |
++-----------------------------------------------------------------*/
++
++
++/* Find a tag in pppoe frame and return the pointer */
++static __inline__ unsigned char *__nat25_find_pppoe_tag(struct pppoe_hdr *ph, unsigned short type)
++{
++	unsigned char *cur_ptr, *start_ptr;
++	unsigned short tagLen, tagType;
++
++	start_ptr = cur_ptr = (unsigned char *)ph->tag;
++	while ((cur_ptr - start_ptr) < ntohs(ph->length)) {
++		/* prevent un-alignment access */
++		tagType = (unsigned short)((cur_ptr[0] << 8) + cur_ptr[1]);
++		tagLen  = (unsigned short)((cur_ptr[2] << 8) + cur_ptr[3]);
++		if (tagType == type)
++			return cur_ptr;
++		cur_ptr = cur_ptr + TAG_HDR_LEN + tagLen;
++	}
++	return 0;
++}
++
++
++static __inline__ int __nat25_add_pppoe_tag(struct sk_buff *skb, struct pppoe_tag *tag)
++{
++	struct pppoe_hdr *ph = (struct pppoe_hdr *)(skb->data + ETH_HLEN);
++	int data_len;
++
++	data_len = tag->tag_len + TAG_HDR_LEN;
++	if (skb_tailroom(skb) < data_len) {
++		_DEBUG_ERR("skb_tailroom() failed in add SID tag!\n");
++		return -1;
++	}
++
++	skb_put(skb, data_len);
++	/* have a room for new tag */
++	memmove(((unsigned char *)ph->tag + data_len), (unsigned char *)ph->tag, ntohs(ph->length));
++	ph->length = htons(ntohs(ph->length) + data_len);
++	memcpy((unsigned char *)ph->tag, tag, data_len);
++	return data_len;
++}
++
++static int skb_pull_and_merge(struct sk_buff *skb, unsigned char *src, int len)
++{
++	int tail_len;
++	unsigned long end, tail;
++
++	if ((src + len) > skb_tail_pointer(skb) || skb->len < len)
++		return -1;
++
++	tail = (unsigned long)skb_tail_pointer(skb);
++	end = (unsigned long)src + len;
++	if (tail < end)
++		return -1;
++
++	tail_len = (int)(tail - end);
++	if (tail_len > 0)
++		memmove(src, src + len, tail_len);
++
++	skb_trim(skb, skb->len - len);
++	return 0;
++}
++
++static __inline__ unsigned long __nat25_timeout(_adapter *priv)
++{
++	unsigned long timeout;
++
++	timeout = jiffies - NAT25_AGEING_TIME * HZ;
++
++	return timeout;
++}
++
++
++static __inline__ int  __nat25_has_expired(_adapter *priv,
++		struct nat25_network_db_entry *fdb)
++{
++	if (time_before_eq(fdb->ageing_timer, __nat25_timeout(priv)))
++		return 1;
++
++	return 0;
++}
++
++
++static __inline__ void __nat25_generate_ipv4_network_addr(unsigned char *networkAddr,
++		unsigned int *ipAddr)
++{
++	memset(networkAddr, 0, MAX_NETWORK_ADDR_LEN);
++
++	networkAddr[0] = NAT25_IPV4;
++	memcpy(networkAddr + 7, (unsigned char *)ipAddr, 4);
++}
++
++
++static __inline__ void __nat25_generate_ipx_network_addr_with_node(unsigned char *networkAddr,
++		unsigned int *ipxNetAddr, unsigned char *ipxNodeAddr)
++{
++	memset(networkAddr, 0, MAX_NETWORK_ADDR_LEN);
++
++	networkAddr[0] = NAT25_IPX;
++	memcpy(networkAddr + 1, (unsigned char *)ipxNetAddr, 4);
++	memcpy(networkAddr + 5, ipxNodeAddr, 6);
++}
++
++
++static __inline__ void __nat25_generate_ipx_network_addr_with_socket(unsigned char *networkAddr,
++		unsigned int *ipxNetAddr, unsigned short *ipxSocketAddr)
++{
++	memset(networkAddr, 0, MAX_NETWORK_ADDR_LEN);
++
++	networkAddr[0] = NAT25_IPX;
++	memcpy(networkAddr + 1, (unsigned char *)ipxNetAddr, 4);
++	memcpy(networkAddr + 5, (unsigned char *)ipxSocketAddr, 2);
++}
++
++
++static __inline__ void __nat25_generate_apple_network_addr(unsigned char *networkAddr,
++		unsigned short *network, unsigned char *node)
++{
++	memset(networkAddr, 0, MAX_NETWORK_ADDR_LEN);
++
++	networkAddr[0] = NAT25_APPLE;
++	memcpy(networkAddr + 1, (unsigned char *)network, 2);
++	networkAddr[3] = *node;
++}
++
++
++static __inline__ void __nat25_generate_pppoe_network_addr(unsigned char *networkAddr,
++		unsigned char *ac_mac, unsigned short *sid)
++{
++	memset(networkAddr, 0, MAX_NETWORK_ADDR_LEN);
++
++	networkAddr[0] = NAT25_PPPOE;
++	memcpy(networkAddr + 1, (unsigned char *)sid, 2);
++	memcpy(networkAddr + 3, (unsigned char *)ac_mac, 6);
++}
++
++
++#ifdef CL_IPV6_PASS
++static  void __nat25_generate_ipv6_network_addr(unsigned char *networkAddr,
++		unsigned int *ipAddr)
++{
++	memset(networkAddr, 0, MAX_NETWORK_ADDR_LEN);
++
++	networkAddr[0] = NAT25_IPV6;
++	memcpy(networkAddr + 1, (unsigned char *)ipAddr, 16);
++}
++
++
++static unsigned char *scan_tlv(unsigned char *data, int len, unsigned char tag, unsigned char len8b)
++{
++	while (len > 0) {
++		if (*data == tag && *(data + 1) == len8b && len >= len8b * 8)
++			return data + 2;
++
++		len -= (*(data + 1)) * 8;
++		data += (*(data + 1)) * 8;
++	}
++	return NULL;
++}
++
++
++static int update_nd_link_layer_addr(unsigned char *data, int len, unsigned char *replace_mac)
++{
++	struct icmp6hdr *icmphdr = (struct icmp6hdr *)data;
++	unsigned char *mac;
++
++	if (icmphdr->icmp6_type == NDISC_ROUTER_SOLICITATION) {
++		if (len >= 8) {
++			mac = scan_tlv(&data[8], len - 8, 1, 1);
++			if (mac) {
++				RTW_INFO("Router Solicitation, replace MAC From: %02x:%02x:%02x:%02x:%02x:%02x, To: %02x:%02x:%02x:%02x:%02x:%02x\n",
++					mac[0], mac[1], mac[2], mac[3], mac[4], mac[5],
++					replace_mac[0], replace_mac[1], replace_mac[2], replace_mac[3], replace_mac[4], replace_mac[5]);
++				memcpy(mac, replace_mac, 6);
++				return 1;
++			}
++		}
++	} else if (icmphdr->icmp6_type == NDISC_ROUTER_ADVERTISEMENT) {
++		if (len >= 16) {
++			mac = scan_tlv(&data[16], len - 16, 1, 1);
++			if (mac) {
++				RTW_INFO("Router Advertisement, replace MAC From: %02x:%02x:%02x:%02x:%02x:%02x, To: %02x:%02x:%02x:%02x:%02x:%02x\n",
++					mac[0], mac[1], mac[2], mac[3], mac[4], mac[5],
++					replace_mac[0], replace_mac[1], replace_mac[2], replace_mac[3], replace_mac[4], replace_mac[5]);
++				memcpy(mac, replace_mac, 6);
++				return 1;
++			}
++		}
++	} else if (icmphdr->icmp6_type == NDISC_NEIGHBOUR_SOLICITATION) {
++		if (len >= 24) {
++			mac = scan_tlv(&data[24], len - 24, 1, 1);
++			if (mac) {
++				RTW_INFO("Neighbor Solicitation, replace MAC From: %02x:%02x:%02x:%02x:%02x:%02x, To: %02x:%02x:%02x:%02x:%02x:%02x\n",
++					mac[0], mac[1], mac[2], mac[3], mac[4], mac[5],
++					replace_mac[0], replace_mac[1], replace_mac[2], replace_mac[3], replace_mac[4], replace_mac[5]);
++				memcpy(mac, replace_mac, 6);
++				return 1;
++			}
++		}
++	} else if (icmphdr->icmp6_type == NDISC_NEIGHBOUR_ADVERTISEMENT) {
++		if (len >= 24) {
++			mac = scan_tlv(&data[24], len - 24, 2, 1);
++			if (mac) {
++				RTW_INFO("Neighbor Advertisement, replace MAC From: %02x:%02x:%02x:%02x:%02x:%02x, To: %02x:%02x:%02x:%02x:%02x:%02x\n",
++					mac[0], mac[1], mac[2], mac[3], mac[4], mac[5],
++					replace_mac[0], replace_mac[1], replace_mac[2], replace_mac[3], replace_mac[4], replace_mac[5]);
++				memcpy(mac, replace_mac, 6);
++				return 1;
++			}
++		}
++	} else if (icmphdr->icmp6_type == NDISC_REDIRECT) {
++		if (len >= 40) {
++			mac = scan_tlv(&data[40], len - 40, 2, 1);
++			if (mac) {
++				RTW_INFO("Redirect,  replace MAC From: %02x:%02x:%02x:%02x:%02x:%02x, To: %02x:%02x:%02x:%02x:%02x:%02x\n",
++					mac[0], mac[1], mac[2], mac[3], mac[4], mac[5],
++					replace_mac[0], replace_mac[1], replace_mac[2], replace_mac[3], replace_mac[4], replace_mac[5]);
++				memcpy(mac, replace_mac, 6);
++				return 1;
++			}
++		}
++	}
++	return 0;
++}
++
++
++static void convert_ipv6_mac_to_mc(struct sk_buff *skb)
++{
++	struct ipv6hdr *iph = (struct ipv6hdr *)(skb->data + ETH_HLEN);
++	unsigned char *dst_mac = skb->data;
++
++	/* dst_mac[0] = 0xff; */
++	/* dst_mac[1] = 0xff; */
++	/*modified by qinjunjie,ipv6 multicast address ix 0x33-33-xx-xx-xx-xx*/
++	dst_mac[0] = 0x33;
++	dst_mac[1] = 0x33;
++	memcpy(&dst_mac[2], &iph->daddr.s6_addr32[3], 4);
++#if defined(__LINUX_2_6__)
++	/*modified by qinjunjie,warning:should not remove next line*/
++	skb->pkt_type = PACKET_MULTICAST;
++#endif
++}
++#endif /* CL_IPV6_PASS */
++
++
++static __inline__ int __nat25_network_hash(unsigned char *networkAddr)
++{
++	if (networkAddr[0] == NAT25_IPV4) {
++		unsigned long x;
++
++		x = networkAddr[7] ^ networkAddr[8] ^ networkAddr[9] ^ networkAddr[10];
++
++		return x & (NAT25_HASH_SIZE - 1);
++	} else if (networkAddr[0] == NAT25_IPX) {
++		unsigned long x;
++
++		x = networkAddr[1] ^ networkAddr[2] ^ networkAddr[3] ^ networkAddr[4] ^ networkAddr[5] ^
++		    networkAddr[6] ^ networkAddr[7] ^ networkAddr[8] ^ networkAddr[9] ^ networkAddr[10];
++
++		return x & (NAT25_HASH_SIZE - 1);
++	} else if (networkAddr[0] == NAT25_APPLE) {
++		unsigned long x;
++
++		x = networkAddr[1] ^ networkAddr[2] ^ networkAddr[3];
++
++		return x & (NAT25_HASH_SIZE - 1);
++	} else if (networkAddr[0] == NAT25_PPPOE) {
++		unsigned long x;
++
++		x = networkAddr[0] ^ networkAddr[1] ^ networkAddr[2] ^ networkAddr[3] ^ networkAddr[4] ^ networkAddr[5] ^ networkAddr[6] ^ networkAddr[7] ^ networkAddr[8];
++
++		return x & (NAT25_HASH_SIZE - 1);
++	}
++#ifdef CL_IPV6_PASS
++	else if (networkAddr[0] == NAT25_IPV6) {
++		unsigned long x;
++
++		x = networkAddr[1] ^ networkAddr[2] ^ networkAddr[3] ^ networkAddr[4] ^ networkAddr[5] ^
++		    networkAddr[6] ^ networkAddr[7] ^ networkAddr[8] ^ networkAddr[9] ^ networkAddr[10] ^
++		    networkAddr[11] ^ networkAddr[12] ^ networkAddr[13] ^ networkAddr[14] ^ networkAddr[15] ^
++		    networkAddr[16];
++
++		return x & (NAT25_HASH_SIZE - 1);
++	}
++#endif
++	else {
++		unsigned long x = 0;
++		int i;
++
++		for (i = 0; i < MAX_NETWORK_ADDR_LEN; i++)
++			x ^= networkAddr[i];
++
++		return x & (NAT25_HASH_SIZE - 1);
++	}
++}
++
++
++static __inline__ void __network_hash_link(_adapter *priv,
++		struct nat25_network_db_entry *ent, int hash)
++{
++	/* Caller must _enter_critical_bh already! */
++	/* _irqL irqL; */
++	/* _enter_critical_bh(&priv->br_ext_lock, &irqL); */
++
++	ent->next_hash = priv->nethash[hash];
++	if (ent->next_hash != NULL)
++		ent->next_hash->pprev_hash = &ent->next_hash;
++	priv->nethash[hash] = ent;
++	ent->pprev_hash = &priv->nethash[hash];
++
++	/* _exit_critical_bh(&priv->br_ext_lock, &irqL); */
++}
++
++
++static __inline__ void __network_hash_unlink(struct nat25_network_db_entry *ent)
++{
++	/* Caller must _enter_critical_bh already! */
++	/* _irqL irqL; */
++	/* _enter_critical_bh(&priv->br_ext_lock, &irqL); */
++
++	*(ent->pprev_hash) = ent->next_hash;
++	if (ent->next_hash != NULL)
++		ent->next_hash->pprev_hash = ent->pprev_hash;
++	ent->next_hash = NULL;
++	ent->pprev_hash = NULL;
++
++	/* _exit_critical_bh(&priv->br_ext_lock, &irqL); */
++}
++
++
++static int __nat25_db_network_lookup_and_replace(_adapter *priv,
++		struct sk_buff *skb, unsigned char *networkAddr)
++{
++	struct nat25_network_db_entry *db;
++	_irqL irqL;
++	_enter_critical_bh(&priv->br_ext_lock, &irqL);
++
++	db = priv->nethash[__nat25_network_hash(networkAddr)];
++	while (db != NULL) {
++		if (!memcmp(db->networkAddr, networkAddr, MAX_NETWORK_ADDR_LEN)) {
++			if (!__nat25_has_expired(priv, db)) {
++				/* replace the destination mac address */
++				memcpy(skb->data, db->macAddr, ETH_ALEN);
++				atomic_inc(&db->use_count);
++
++#ifdef CL_IPV6_PASS
++				RTW_INFO("NAT25: Lookup M:%02x%02x%02x%02x%02x%02x N:%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x"
++					 "%02x%02x%02x%02x%02x%02x\n",
++					 db->macAddr[0],
++					 db->macAddr[1],
++					 db->macAddr[2],
++					 db->macAddr[3],
++					 db->macAddr[4],
++					 db->macAddr[5],
++					 db->networkAddr[0],
++					 db->networkAddr[1],
++					 db->networkAddr[2],
++					 db->networkAddr[3],
++					 db->networkAddr[4],
++					 db->networkAddr[5],
++					 db->networkAddr[6],
++					 db->networkAddr[7],
++					 db->networkAddr[8],
++					 db->networkAddr[9],
++					 db->networkAddr[10],
++					 db->networkAddr[11],
++					 db->networkAddr[12],
++					 db->networkAddr[13],
++					 db->networkAddr[14],
++					 db->networkAddr[15],
++					 db->networkAddr[16]);
++#else
++				RTW_INFO("NAT25: Lookup M:%02x%02x%02x%02x%02x%02x N:%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x\n",
++					 db->macAddr[0],
++					 db->macAddr[1],
++					 db->macAddr[2],
++					 db->macAddr[3],
++					 db->macAddr[4],
++					 db->macAddr[5],
++					 db->networkAddr[0],
++					 db->networkAddr[1],
++					 db->networkAddr[2],
++					 db->networkAddr[3],
++					 db->networkAddr[4],
++					 db->networkAddr[5],
++					 db->networkAddr[6],
++					 db->networkAddr[7],
++					 db->networkAddr[8],
++					 db->networkAddr[9],
++					 db->networkAddr[10]);
++#endif
++			}
++			_exit_critical_bh(&priv->br_ext_lock, &irqL);
++			return 1;
++		}
++
++		db = db->next_hash;
++	}
++
++	_exit_critical_bh(&priv->br_ext_lock, &irqL);
++	return 0;
++}
++
++
++static void __nat25_db_network_insert(_adapter *priv,
++		      unsigned char *macAddr, unsigned char *networkAddr)
++{
++	struct nat25_network_db_entry *db;
++	int hash;
++	_irqL irqL;
++	_enter_critical_bh(&priv->br_ext_lock, &irqL);
++
++	hash = __nat25_network_hash(networkAddr);
++	db = priv->nethash[hash];
++	while (db != NULL) {
++		if (!memcmp(db->networkAddr, networkAddr, MAX_NETWORK_ADDR_LEN)) {
++			memcpy(db->macAddr, macAddr, ETH_ALEN);
++			db->ageing_timer = jiffies;
++			_exit_critical_bh(&priv->br_ext_lock, &irqL);
++			return;
++		}
++
++		db = db->next_hash;
++	}
++
++	db = (struct nat25_network_db_entry *) rtw_malloc(sizeof(*db));
++	if (db == NULL) {
++		_exit_critical_bh(&priv->br_ext_lock, &irqL);
++		return;
++	}
++
++	memcpy(db->networkAddr, networkAddr, MAX_NETWORK_ADDR_LEN);
++	memcpy(db->macAddr, macAddr, ETH_ALEN);
++	atomic_set(&db->use_count, 1);
++	db->ageing_timer = jiffies;
++
++	__network_hash_link(priv, db, hash);
++
++	_exit_critical_bh(&priv->br_ext_lock, &irqL);
++}
++
++
++static void __nat25_db_print(_adapter *priv)
++{
++	_irqL irqL;
++	_enter_critical_bh(&priv->br_ext_lock, &irqL);
++
++#ifdef BR_EXT_DEBUG
++	static int counter = 0;
++	int i, j;
++	struct nat25_network_db_entry *db;
++
++	counter++;
++	if ((counter % 16) != 0)
++		return;
++
++	for (i = 0, j = 0; i < NAT25_HASH_SIZE; i++) {
++		db = priv->nethash[i];
++
++		while (db != NULL) {
++#ifdef CL_IPV6_PASS
++			panic_printk("NAT25: DB(%d) H(%02d) C(%d) M:%02x%02x%02x%02x%02x%02x N:%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x"
++				     "%02x%02x%02x%02x%02x%02x\n",
++				     j,
++				     i,
++				     atomic_read(&db->use_count),
++				     db->macAddr[0],
++				     db->macAddr[1],
++				     db->macAddr[2],
++				     db->macAddr[3],
++				     db->macAddr[4],
++				     db->macAddr[5],
++				     db->networkAddr[0],
++				     db->networkAddr[1],
++				     db->networkAddr[2],
++				     db->networkAddr[3],
++				     db->networkAddr[4],
++				     db->networkAddr[5],
++				     db->networkAddr[6],
++				     db->networkAddr[7],
++				     db->networkAddr[8],
++				     db->networkAddr[9],
++				     db->networkAddr[10],
++				     db->networkAddr[11],
++				     db->networkAddr[12],
++				     db->networkAddr[13],
++				     db->networkAddr[14],
++				     db->networkAddr[15],
++				     db->networkAddr[16]);
++#else
++			panic_printk("NAT25: DB(%d) H(%02d) C(%d) M:%02x%02x%02x%02x%02x%02x N:%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x\n",
++				     j,
++				     i,
++				     atomic_read(&db->use_count),
++				     db->macAddr[0],
++				     db->macAddr[1],
++				     db->macAddr[2],
++				     db->macAddr[3],
++				     db->macAddr[4],
++				     db->macAddr[5],
++				     db->networkAddr[0],
++				     db->networkAddr[1],
++				     db->networkAddr[2],
++				     db->networkAddr[3],
++				     db->networkAddr[4],
++				     db->networkAddr[5],
++				     db->networkAddr[6],
++				     db->networkAddr[7],
++				     db->networkAddr[8],
++				     db->networkAddr[9],
++				     db->networkAddr[10]);
++#endif
++			j++;
++
++			db = db->next_hash;
++		}
++	}
++#endif
++
++	_exit_critical_bh(&priv->br_ext_lock, &irqL);
++}
++
++
++
++
++/*
++ *	NAT2.5 interface
++ */
++
++void nat25_db_cleanup(_adapter *priv)
++{
++	int i;
++	_irqL irqL;
++	_enter_critical_bh(&priv->br_ext_lock, &irqL);
++
++	for (i = 0; i < NAT25_HASH_SIZE; i++) {
++		struct nat25_network_db_entry *f;
++		f = priv->nethash[i];
++		while (f != NULL) {
++			struct nat25_network_db_entry *g;
++
++			g = f->next_hash;
++			if (priv->scdb_entry == f) {
++				memset(priv->scdb_mac, 0, ETH_ALEN);
++				memset(priv->scdb_ip, 0, 4);
++				priv->scdb_entry = NULL;
++			}
++			__network_hash_unlink(f);
++			rtw_mfree((u8 *) f, sizeof(struct nat25_network_db_entry));
++
++			f = g;
++		}
++	}
++
++	_exit_critical_bh(&priv->br_ext_lock, &irqL);
++}
++
++
++void nat25_db_expire(_adapter *priv)
++{
++	int i;
++	_irqL irqL;
++	_enter_critical_bh(&priv->br_ext_lock, &irqL);
++
++	/* if(!priv->ethBrExtInfo.nat25_disable) */
++	{
++		for (i = 0; i < NAT25_HASH_SIZE; i++) {
++			struct nat25_network_db_entry *f;
++			f = priv->nethash[i];
++
++			while (f != NULL) {
++				struct nat25_network_db_entry *g;
++				g = f->next_hash;
++
++				if (__nat25_has_expired(priv, f)) {
++					if (atomic_dec_and_test(&f->use_count)) {
++#ifdef BR_EXT_DEBUG
++#ifdef CL_IPV6_PASS
++						panic_printk("NAT25 Expire H(%02d) M:%02x%02x%02x%02x%02x%02x N:%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x"
++							"%02x%02x%02x%02x%02x%02x\n",
++							     i,
++							     f->macAddr[0],
++							     f->macAddr[1],
++							     f->macAddr[2],
++							     f->macAddr[3],
++							     f->macAddr[4],
++							     f->macAddr[5],
++							     f->networkAddr[0],
++							     f->networkAddr[1],
++							     f->networkAddr[2],
++							     f->networkAddr[3],
++							     f->networkAddr[4],
++							     f->networkAddr[5],
++							     f->networkAddr[6],
++							     f->networkAddr[7],
++							     f->networkAddr[8],
++							     f->networkAddr[9],
++							     f->networkAddr[10],
++							     f->networkAddr[11],
++							     f->networkAddr[12],
++							     f->networkAddr[13],
++							     f->networkAddr[14],
++							     f->networkAddr[15],
++							f->networkAddr[16]);
++#else
++
++						panic_printk("NAT25 Expire H(%02d) M:%02x%02x%02x%02x%02x%02x N:%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x\n",
++							     i,
++							     f->macAddr[0],
++							     f->macAddr[1],
++							     f->macAddr[2],
++							     f->macAddr[3],
++							     f->macAddr[4],
++							     f->macAddr[5],
++							     f->networkAddr[0],
++							     f->networkAddr[1],
++							     f->networkAddr[2],
++							     f->networkAddr[3],
++							     f->networkAddr[4],
++							     f->networkAddr[5],
++							     f->networkAddr[6],
++							     f->networkAddr[7],
++							     f->networkAddr[8],
++							     f->networkAddr[9],
++							f->networkAddr[10]);
++#endif
++#endif
++						if (priv->scdb_entry == f) {
++							memset(priv->scdb_mac, 0, ETH_ALEN);
++							memset(priv->scdb_ip, 0, 4);
++							priv->scdb_entry = NULL;
++						}
++						__network_hash_unlink(f);
++						rtw_mfree((u8 *) f, sizeof(struct nat25_network_db_entry));
++					}
++				}
++
++				f = g;
++			}
++		}
++	}
++
++	_exit_critical_bh(&priv->br_ext_lock, &irqL);
++}
++
++
++#ifdef SUPPORT_TX_MCAST2UNI
++static int checkIPMcAndReplace(_adapter *priv, struct sk_buff *skb, unsigned int *dst_ip)
++{
++	struct stat_info	*pstat;
++	struct list_head	*phead, *plist;
++	int i;
++
++	phead = &priv->asoc_list;
++	plist = phead->next;
++
++	while (plist != phead) {
++		pstat = list_entry(plist, struct stat_info, asoc_list);
++		plist = plist->next;
++
++		if (pstat->ipmc_num == 0)
++			continue;
++
++		for (i = 0; i < MAX_IP_MC_ENTRY; i++) {
++			if (pstat->ipmc[i].used && !memcmp(&pstat->ipmc[i].mcmac[3], ((unsigned char *)dst_ip) + 1, 3)) {
++				memcpy(skb->data, pstat->ipmc[i].mcmac, ETH_ALEN);
++				return 1;
++			}
++		}
++	}
++	return 0;
++}
++#endif
++
++int nat25_db_handle(_adapter *priv, struct sk_buff *skb, int method)
++{
++	unsigned short protocol;
++	unsigned char networkAddr[MAX_NETWORK_ADDR_LEN];
++
++	if (skb == NULL)
++		return -1;
++
++	if ((method <= NAT25_MIN) || (method >= NAT25_MAX))
++		return -1;
++
++	protocol = *((unsigned short *)(skb->data + 2 * ETH_ALEN));
++
++	/*---------------------------------------------------*/
++	/*                 Handle IP frame                  */
++	/*---------------------------------------------------*/
++	if (protocol == __constant_htons(ETH_P_IP)) {
++		struct iphdr *iph = (struct iphdr *)(skb->data + ETH_HLEN);
++
++		if (((unsigned char *)(iph) + (iph->ihl << 2)) >= (skb->data + ETH_HLEN + skb->len)) {
++			DEBUG_WARN("NAT25: malformed IP packet !\n");
++			return -1;
++		}
++
++		switch (method) {
++		case NAT25_CHECK:
++			return -1;
++
++		case NAT25_INSERT: {
++			/* some muticast with source IP is all zero, maybe other case is illegal */
++			/* in class A, B, C, host address is all zero or all one is illegal */
++			if (iph->saddr == 0)
++				return 0;
++			RTW_INFO("NAT25: Insert IP, SA=%08x, DA=%08x\n", iph->saddr, iph->daddr);
++			__nat25_generate_ipv4_network_addr(networkAddr, &iph->saddr);
++			/* record source IP address and , source mac address into db */
++			__nat25_db_network_insert(priv, skb->data + ETH_ALEN, networkAddr);
++
++			__nat25_db_print(priv);
++		}
++		return 0;
++
++		case NAT25_LOOKUP: {
++			RTW_INFO("NAT25: Lookup IP, SA=%08x, DA=%08x\n", iph->saddr, iph->daddr);
++#ifdef SUPPORT_TX_MCAST2UNI
++			if (priv->pshare->rf_ft_var.mc2u_disable ||
++			    ((((OPMODE & (WIFI_STATION_STATE | WIFI_ASOC_STATE))
++			       == (WIFI_STATION_STATE | WIFI_ASOC_STATE)) &&
++			      !checkIPMcAndReplace(priv, skb, &iph->daddr)) ||
++			     (OPMODE & WIFI_ADHOC_STATE)))
++#endif
++			{
++				__nat25_generate_ipv4_network_addr(networkAddr, &iph->daddr);
++
++				if (!__nat25_db_network_lookup_and_replace(priv, skb, networkAddr)) {
++					if (*((unsigned char *)&iph->daddr + 3) == 0xff) {
++						/* L2 is unicast but L3 is broadcast, make L2 bacome broadcast */
++						RTW_INFO("NAT25: Set DA as boardcast\n");
++						memset(skb->data, 0xff, ETH_ALEN);
++					} else {
++						/* forward unknow IP packet to upper TCP/IP */
++						RTW_INFO("NAT25: Replace DA with BR's MAC\n");
++						if ((*(u32 *)priv->br_mac) == 0 && (*(u16 *)(priv->br_mac + 4)) == 0) {
++							void netdev_br_init(struct net_device *netdev);
++							printk("Re-init netdev_br_init() due to br_mac==0!\n");
++							netdev_br_init(priv->pnetdev);
++						}
++						memcpy(skb->data, priv->br_mac, ETH_ALEN);
++					}
++				}
++			}
++		}
++		return 0;
++
++		default:
++			return -1;
++		}
++	}
++
++	/*---------------------------------------------------*/
++	/*                 Handle ARP frame                 */
++	/*---------------------------------------------------*/
++	else if (protocol == __constant_htons(ETH_P_ARP)) {
++		struct arphdr *arp = (struct arphdr *)(skb->data + ETH_HLEN);
++		unsigned char *arp_ptr = (unsigned char *)(arp + 1);
++		unsigned int *sender, *target;
++
++		if (arp->ar_pro != __constant_htons(ETH_P_IP)) {
++			DEBUG_WARN("NAT25: arp protocol unknown (%4x)!\n", htons(arp->ar_pro));
++			return -1;
++		}
++
++		switch (method) {
++		case NAT25_CHECK:
++			return 0;	/* skb_copy for all ARP frame */
++
++		case NAT25_INSERT: {
++			RTW_INFO("NAT25: Insert ARP, MAC=%02x%02x%02x%02x%02x%02x\n", arp_ptr[0],
++				arp_ptr[1], arp_ptr[2], arp_ptr[3], arp_ptr[4], arp_ptr[5]);
++
++			/* change to ARP sender mac address to wlan STA address */
++			memcpy(arp_ptr, GET_MY_HWADDR(priv), ETH_ALEN);
++
++			arp_ptr += arp->ar_hln;
++			sender = (unsigned int *)arp_ptr;
++
++			__nat25_generate_ipv4_network_addr(networkAddr, sender);
++
++			__nat25_db_network_insert(priv, skb->data + ETH_ALEN, networkAddr);
++
++			__nat25_db_print(priv);
++		}
++		return 0;
++
++		case NAT25_LOOKUP: {
++			RTW_INFO("NAT25: Lookup ARP\n");
++
++			arp_ptr += arp->ar_hln;
++			sender = (unsigned int *)arp_ptr;
++			arp_ptr += (arp->ar_hln + arp->ar_pln);
++			target = (unsigned int *)arp_ptr;
++
++			__nat25_generate_ipv4_network_addr(networkAddr, target);
++
++			__nat25_db_network_lookup_and_replace(priv, skb, networkAddr);
++
++			/* change to ARP target mac address to Lookup result */
++			arp_ptr = (unsigned char *)(arp + 1);
++			arp_ptr += (arp->ar_hln + arp->ar_pln);
++			memcpy(arp_ptr, skb->data, ETH_ALEN);
++		}
++		return 0;
++
++		default:
++			return -1;
++		}
++	}
++
++	/*---------------------------------------------------*/
++	/*         Handle IPX and Apple Talk frame          */
++	/*---------------------------------------------------*/
++	else if ((protocol == __constant_htons(ETH_P_IPX)) ||
++		 (protocol == __constant_htons(ETH_P_ATALK)) ||
++		 (protocol == __constant_htons(ETH_P_AARP))) {
++		unsigned char ipx_header[2] = {0xFF, 0xFF};
++		struct ipxhdr	*ipx = NULL;
++		struct elapaarp	*ea = NULL;
++		struct ddpehdr	*ddp = NULL;
++		unsigned char *framePtr = skb->data + ETH_HLEN;
++
++		if (protocol == __constant_htons(ETH_P_IPX)) {
++			RTW_INFO("NAT25: Protocol=IPX (Ethernet II)\n");
++			ipx = (struct ipxhdr *)framePtr;
++		} else { /* if(protocol <= __constant_htons(ETH_FRAME_LEN)) */
++			if (!memcmp(ipx_header, framePtr, 2)) {
++				RTW_INFO("NAT25: Protocol=IPX (Ethernet 802.3)\n");
++				ipx = (struct ipxhdr *)framePtr;
++			} else {
++				unsigned char ipx_8022_type =  0xE0;
++				unsigned char snap_8022_type = 0xAA;
++
++				if (*framePtr == snap_8022_type) {
++					unsigned char ipx_snap_id[5] = {0x0, 0x0, 0x0, 0x81, 0x37};		/* IPX SNAP ID */
++					unsigned char aarp_snap_id[5] = {0x00, 0x00, 0x00, 0x80, 0xF3};	/* Apple Talk AARP SNAP ID */
++					unsigned char ddp_snap_id[5] = {0x08, 0x00, 0x07, 0x80, 0x9B};	/* Apple Talk DDP SNAP ID */
++
++					framePtr += 3;	/* eliminate the 802.2 header */
++
++					if (!memcmp(ipx_snap_id, framePtr, 5)) {
++						framePtr += 5;	/* eliminate the SNAP header */
++
++						RTW_INFO("NAT25: Protocol=IPX (Ethernet SNAP)\n");
++						ipx = (struct ipxhdr *)framePtr;
++					} else if (!memcmp(aarp_snap_id, framePtr, 5)) {
++						framePtr += 5;	/* eliminate the SNAP header */
++
++						ea = (struct elapaarp *)framePtr;
++					} else if (!memcmp(ddp_snap_id, framePtr, 5)) {
++						framePtr += 5;	/* eliminate the SNAP header */
++
++						ddp = (struct ddpehdr *)framePtr;
++					} else {
++						DEBUG_WARN("NAT25: Protocol=Ethernet SNAP %02x%02x%02x%02x%02x\n", framePtr[0],
++							framePtr[1], framePtr[2], framePtr[3], framePtr[4]);
++						return -1;
++					}
++				} else if (*framePtr == ipx_8022_type) {
++					framePtr += 3;	/* eliminate the 802.2 header */
++
++					if (!memcmp(ipx_header, framePtr, 2)) {
++						RTW_INFO("NAT25: Protocol=IPX (Ethernet 802.2)\n");
++						ipx = (struct ipxhdr *)framePtr;
++					} else
++						return -1;
++				}
++			}
++		}
++
++		/*   IPX  */
++		if (ipx != NULL) {
++			switch (method) {
++			case NAT25_CHECK:
++				if (!memcmp(skb->data + ETH_ALEN, ipx->ipx_source.node, ETH_ALEN)) {
++					RTW_INFO("NAT25: Check IPX skb_copy\n");
++					return 0;
++				}
++				return -1;
++
++			case NAT25_INSERT: {
++				RTW_INFO("NAT25: Insert IPX, Dest=%08x,%02x%02x%02x%02x%02x%02x,%04x Source=%08x,%02x%02x%02x%02x%02x%02x,%04x\n",
++					 ipx->ipx_dest.net,
++					 ipx->ipx_dest.node[0],
++					 ipx->ipx_dest.node[1],
++					 ipx->ipx_dest.node[2],
++					 ipx->ipx_dest.node[3],
++					 ipx->ipx_dest.node[4],
++					 ipx->ipx_dest.node[5],
++					 ipx->ipx_dest.sock,
++					 ipx->ipx_source.net,
++					 ipx->ipx_source.node[0],
++					 ipx->ipx_source.node[1],
++					 ipx->ipx_source.node[2],
++					 ipx->ipx_source.node[3],
++					 ipx->ipx_source.node[4],
++					 ipx->ipx_source.node[5],
++					 ipx->ipx_source.sock);
++
++				if (!memcmp(skb->data + ETH_ALEN, ipx->ipx_source.node, ETH_ALEN)) {
++					RTW_INFO("NAT25: Use IPX Net, and Socket as network addr\n");
++
++					__nat25_generate_ipx_network_addr_with_socket(networkAddr, &ipx->ipx_source.net, &ipx->ipx_source.sock);
++
++					/* change IPX source node addr to wlan STA address */
++					memcpy(ipx->ipx_source.node, GET_MY_HWADDR(priv), ETH_ALEN);
++				} else
++					__nat25_generate_ipx_network_addr_with_node(networkAddr, &ipx->ipx_source.net, ipx->ipx_source.node);
++
++				__nat25_db_network_insert(priv, skb->data + ETH_ALEN, networkAddr);
++
++				__nat25_db_print(priv);
++			}
++			return 0;
++
++			case NAT25_LOOKUP: {
++				if (!memcmp(GET_MY_HWADDR(priv), ipx->ipx_dest.node, ETH_ALEN)) {
++					RTW_INFO("NAT25: Lookup IPX, Modify Destination IPX Node addr\n");
++
++					__nat25_generate_ipx_network_addr_with_socket(networkAddr, &ipx->ipx_dest.net, &ipx->ipx_dest.sock);
++
++					__nat25_db_network_lookup_and_replace(priv, skb, networkAddr);
++
++					/* replace IPX destination node addr with Lookup destination MAC addr */
++					memcpy(ipx->ipx_dest.node, skb->data, ETH_ALEN);
++				} else {
++					__nat25_generate_ipx_network_addr_with_node(networkAddr, &ipx->ipx_dest.net, ipx->ipx_dest.node);
++
++					__nat25_db_network_lookup_and_replace(priv, skb, networkAddr);
++				}
++			}
++			return 0;
++
++			default:
++				return -1;
++			}
++		}
++
++		/*   AARP  */
++		else if (ea != NULL) {
++			/* Sanity check fields. */
++			if (ea->hw_len != ETH_ALEN || ea->pa_len != AARP_PA_ALEN) {
++				DEBUG_WARN("NAT25: Appletalk AARP Sanity check fail!\n");
++				return -1;
++			}
++
++			switch (method) {
++			case NAT25_CHECK:
++				return 0;
++
++			case NAT25_INSERT: {
++				/* change to AARP source mac address to wlan STA address */
++				memcpy(ea->hw_src, GET_MY_HWADDR(priv), ETH_ALEN);
++
++				RTW_INFO("NAT25: Insert AARP, Source=%d,%d Destination=%d,%d\n",
++					 ea->pa_src_net,
++					 ea->pa_src_node,
++					 ea->pa_dst_net,
++					 ea->pa_dst_node);
++
++				__nat25_generate_apple_network_addr(networkAddr, &ea->pa_src_net, &ea->pa_src_node);
++
++				__nat25_db_network_insert(priv, skb->data + ETH_ALEN, networkAddr);
++
++				__nat25_db_print(priv);
++			}
++			return 0;
++
++			case NAT25_LOOKUP: {
++				RTW_INFO("NAT25: Lookup AARP, Source=%d,%d Destination=%d,%d\n",
++					 ea->pa_src_net,
++					 ea->pa_src_node,
++					 ea->pa_dst_net,
++					 ea->pa_dst_node);
++
++				__nat25_generate_apple_network_addr(networkAddr, &ea->pa_dst_net, &ea->pa_dst_node);
++
++				__nat25_db_network_lookup_and_replace(priv, skb, networkAddr);
++
++				/* change to AARP destination mac address to Lookup result */
++				memcpy(ea->hw_dst, skb->data, ETH_ALEN);
++			}
++			return 0;
++
++			default:
++				return -1;
++			}
++		}
++
++		/*   DDP  */
++		else if (ddp != NULL) {
++			switch (method) {
++			case NAT25_CHECK:
++				return -1;
++
++			case NAT25_INSERT: {
++				RTW_INFO("NAT25: Insert DDP, Source=%d,%d Destination=%d,%d\n",
++					 ddp->deh_snet,
++					 ddp->deh_snode,
++					 ddp->deh_dnet,
++					 ddp->deh_dnode);
++
++				__nat25_generate_apple_network_addr(networkAddr, &ddp->deh_snet, &ddp->deh_snode);
++
++				__nat25_db_network_insert(priv, skb->data + ETH_ALEN, networkAddr);
++
++				__nat25_db_print(priv);
++			}
++			return 0;
++
++			case NAT25_LOOKUP: {
++				RTW_INFO("NAT25: Lookup DDP, Source=%d,%d Destination=%d,%d\n",
++					 ddp->deh_snet,
++					 ddp->deh_snode,
++					 ddp->deh_dnet,
++					 ddp->deh_dnode);
++
++				__nat25_generate_apple_network_addr(networkAddr, &ddp->deh_dnet, &ddp->deh_dnode);
++
++				__nat25_db_network_lookup_and_replace(priv, skb, networkAddr);
++			}
++			return 0;
++
++			default:
++				return -1;
++			}
++		}
++
++		return -1;
++	}
++
++	/*---------------------------------------------------*/
++	/*                Handle PPPoE frame                */
++	/*---------------------------------------------------*/
++	else if ((protocol == __constant_htons(ETH_P_PPP_DISC)) ||
++		 (protocol == __constant_htons(ETH_P_PPP_SES))) {
++		struct pppoe_hdr *ph = (struct pppoe_hdr *)(skb->data + ETH_HLEN);
++		unsigned short *pMagic;
++
++		switch (method) {
++		case NAT25_CHECK:
++			if (ph->sid == 0)
++				return 0;
++			return 1;
++
++		case NAT25_INSERT:
++			if (ph->sid == 0) {	/* Discovery phase according to tag */
++				if (ph->code == PADI_CODE || ph->code == PADR_CODE) {
++					if (priv->ethBrExtInfo.addPPPoETag) {
++						struct pppoe_tag *tag, *pOldTag;
++						unsigned char tag_buf[40];
++						int old_tag_len = 0;
++
++						tag = (struct pppoe_tag *)tag_buf;
++						pOldTag = (struct pppoe_tag *)__nat25_find_pppoe_tag(ph, ntohs(PTT_RELAY_SID));
++						if (pOldTag) { /* if SID existed, copy old value and delete it */
++							old_tag_len = ntohs(pOldTag->tag_len);
++							if (old_tag_len + TAG_HDR_LEN + MAGIC_CODE_LEN + RTL_RELAY_TAG_LEN > sizeof(tag_buf)) {
++								DEBUG_ERR("SID tag length too long!\n");
++								return -1;
++							}
++
++							memcpy(tag->tag_data + MAGIC_CODE_LEN + RTL_RELAY_TAG_LEN,
++							       pOldTag->tag_data, old_tag_len);
++
++							if (skb_pull_and_merge(skb, (unsigned char *)pOldTag, TAG_HDR_LEN + old_tag_len) < 0) {
++								DEBUG_ERR("call skb_pull_and_merge() failed in PADI/R packet!\n");
++								return -1;
++							}
++							ph->length = htons(ntohs(ph->length) - TAG_HDR_LEN - old_tag_len);
++						}
++
++						tag->tag_type = PTT_RELAY_SID;
++						tag->tag_len = htons(MAGIC_CODE_LEN + RTL_RELAY_TAG_LEN + old_tag_len);
++
++						/* insert the magic_code+client mac in relay tag */
++						pMagic = (unsigned short *)tag->tag_data;
++						*pMagic = htons(MAGIC_CODE);
++						memcpy(tag->tag_data + MAGIC_CODE_LEN, skb->data + ETH_ALEN, ETH_ALEN);
++
++						/* Add relay tag */
++						if (__nat25_add_pppoe_tag(skb, tag) < 0)
++							return -1;
++
++						RTW_INFO("NAT25: Insert PPPoE, forward %s packet\n",
++							(ph->code == PADI_CODE ? "PADI" : "PADR"));
++					} else { /* not add relay tag */
++						if (priv->pppoe_connection_in_progress &&
++						    memcmp(skb->data + ETH_ALEN, priv->pppoe_addr, ETH_ALEN))	 {
++							DEBUG_ERR("Discard PPPoE packet due to another PPPoE connection is in progress!\n");
++							return -2;
++						}
++
++						if (priv->pppoe_connection_in_progress == 0)
++							memcpy(priv->pppoe_addr, skb->data + ETH_ALEN, ETH_ALEN);
++
++						priv->pppoe_connection_in_progress = WAIT_TIME_PPPOE;
++					}
++				} else
++					return -1;
++			} else {	/* session phase */
++				RTW_INFO("NAT25: Insert PPPoE, insert session packet to %s\n", skb->dev->name);
++
++				__nat25_generate_pppoe_network_addr(networkAddr, skb->data, &(ph->sid));
++
++				__nat25_db_network_insert(priv, skb->data + ETH_ALEN, networkAddr);
++
++				__nat25_db_print(priv);
++
++				if (!priv->ethBrExtInfo.addPPPoETag &&
++				    priv->pppoe_connection_in_progress &&
++				    !memcmp(skb->data + ETH_ALEN, priv->pppoe_addr, ETH_ALEN))
++					priv->pppoe_connection_in_progress = 0;
++			}
++			return 0;
++
++		case NAT25_LOOKUP:
++			if (ph->code == PADO_CODE || ph->code == PADS_CODE) {
++				if (priv->ethBrExtInfo.addPPPoETag) {
++					struct pppoe_tag *tag;
++					unsigned char *ptr;
++					unsigned short tagType, tagLen;
++					int offset = 0;
++
++					ptr = __nat25_find_pppoe_tag(ph, ntohs(PTT_RELAY_SID));
++					if (ptr == 0) {
++						DEBUG_ERR("Fail to find PTT_RELAY_SID in FADO!\n");
++						return -1;
++					}
++
++					tag = (struct pppoe_tag *)ptr;
++					tagType = (unsigned short)((ptr[0] << 8) + ptr[1]);
++					tagLen = (unsigned short)((ptr[2] << 8) + ptr[3]);
++
++					if ((tagType != ntohs(PTT_RELAY_SID)) || (tagLen < (MAGIC_CODE_LEN + RTL_RELAY_TAG_LEN))) {
++						DEBUG_ERR("Invalid PTT_RELAY_SID tag length [%d]!\n", tagLen);
++						return -1;
++					}
++
++					pMagic = (unsigned short *)tag->tag_data;
++					if (ntohs(*pMagic) != MAGIC_CODE) {
++						DEBUG_ERR("Can't find MAGIC_CODE in %s packet!\n",
++							(ph->code == PADO_CODE ? "PADO" : "PADS"));
++						return -1;
++					}
++
++					memcpy(skb->data, tag->tag_data + MAGIC_CODE_LEN, ETH_ALEN);
++
++					if (tagLen > MAGIC_CODE_LEN + RTL_RELAY_TAG_LEN)
++						offset = TAG_HDR_LEN;
++
++					if (skb_pull_and_merge(skb, ptr + offset, TAG_HDR_LEN + MAGIC_CODE_LEN + RTL_RELAY_TAG_LEN - offset) < 0) {
++						DEBUG_ERR("call skb_pull_and_merge() failed in PADO packet!\n");
++						return -1;
++					}
++					ph->length = htons(ntohs(ph->length) - (TAG_HDR_LEN + MAGIC_CODE_LEN + RTL_RELAY_TAG_LEN - offset));
++					if (offset > 0)
++						tag->tag_len = htons(tagLen - MAGIC_CODE_LEN - RTL_RELAY_TAG_LEN);
++
++					RTW_INFO("NAT25: Lookup PPPoE, forward %s Packet from %s\n",
++						(ph->code == PADO_CODE ? "PADO" : "PADS"),	skb->dev->name);
++				} else { /* not add relay tag */
++					if (!priv->pppoe_connection_in_progress) {
++						DEBUG_ERR("Discard PPPoE packet due to no connection in progresss!\n");
++						return -1;
++					}
++					memcpy(skb->data, priv->pppoe_addr, ETH_ALEN);
++					priv->pppoe_connection_in_progress = WAIT_TIME_PPPOE;
++				}
++			} else {
++				if (ph->sid != 0) {
++					RTW_INFO("NAT25: Lookup PPPoE, lookup session packet from %s\n", skb->dev->name);
++					__nat25_generate_pppoe_network_addr(networkAddr, skb->data + ETH_ALEN, &(ph->sid));
++
++					__nat25_db_network_lookup_and_replace(priv, skb, networkAddr);
++
++					__nat25_db_print(priv);
++				} else
++					return -1;
++
++			}
++			return 0;
++
++		default:
++			return -1;
++		}
++	}
++
++	/*---------------------------------------------------*/
++	/*                 Handle EAP frame                 */
++	/*---------------------------------------------------*/
++	else if (protocol == __constant_htons(0x888e)) {
++		switch (method) {
++		case NAT25_CHECK:
++			return -1;
++
++		case NAT25_INSERT:
++			return 0;
++
++		case NAT25_LOOKUP:
++			return 0;
++
++		default:
++			return -1;
++		}
++	}
++
++	/*---------------------------------------------------*/
++	/*         Handle C-Media proprietary frame         */
++	/*---------------------------------------------------*/
++	else if ((protocol == __constant_htons(0xe2ae)) ||
++		 (protocol == __constant_htons(0xe2af))) {
++		switch (method) {
++		case NAT25_CHECK:
++			return -1;
++
++		case NAT25_INSERT:
++			return 0;
++
++		case NAT25_LOOKUP:
++			return 0;
++
++		default:
++			return -1;
++		}
++	}
++
++	/*---------------------------------------------------*/
++	/*         Handle IPV6 frame      							 */
++	/*---------------------------------------------------*/
++#ifdef CL_IPV6_PASS
++	else if (protocol == __constant_htons(ETH_P_IPV6)) {
++		struct ipv6hdr *iph = (struct ipv6hdr *)(skb->data + ETH_HLEN);
++
++		if (sizeof(*iph) >= (skb->len - ETH_HLEN)) {
++			DEBUG_WARN("NAT25: malformed IPv6 packet !\n");
++			return -1;
++		}
++
++		switch (method) {
++		case NAT25_CHECK:
++			if (skb->data[0] & 1)
++				return 0;
++			return -1;
++
++		case NAT25_INSERT: {
++			RTW_INFO("NAT25: Insert IP, SA=%4x:%4x:%4x:%4x:%4x:%4x:%4x:%4x,"
++				" DA=%4x:%4x:%4x:%4x:%4x:%4x:%4x:%4x\n",
++				iph->saddr.s6_addr16[0], iph->saddr.s6_addr16[1], iph->saddr.s6_addr16[2], iph->saddr.s6_addr16[3],
++				iph->saddr.s6_addr16[4], iph->saddr.s6_addr16[5], iph->saddr.s6_addr16[6], iph->saddr.s6_addr16[7],
++				iph->daddr.s6_addr16[0], iph->daddr.s6_addr16[1], iph->daddr.s6_addr16[2], iph->daddr.s6_addr16[3],
++				iph->daddr.s6_addr16[4], iph->daddr.s6_addr16[5], iph->daddr.s6_addr16[6], iph->daddr.s6_addr16[7]);
++
++			if (memcmp(&iph->saddr, "\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0", 16)) {
++				__nat25_generate_ipv6_network_addr(networkAddr, (unsigned int *)&iph->saddr);
++				__nat25_db_network_insert(priv, skb->data + ETH_ALEN, networkAddr);
++				__nat25_db_print(priv);
++
++				if (iph->nexthdr == IPPROTO_ICMPV6 &&
++				    skb->len > (ETH_HLEN +  sizeof(*iph) + 4)) {
++					if (update_nd_link_layer_addr(skb->data + ETH_HLEN + sizeof(*iph),
++						skb->len - ETH_HLEN - sizeof(*iph), GET_MY_HWADDR(priv))) {
++						struct icmp6hdr  *hdr = (struct icmp6hdr *)(skb->data + ETH_HLEN + sizeof(*iph));
++						hdr->icmp6_cksum = 0;
++						hdr->icmp6_cksum = csum_ipv6_magic(&iph->saddr, &iph->daddr,
++							iph->payload_len,
++							IPPROTO_ICMPV6,
++							csum_partial((__u8 *)hdr, iph->payload_len, 0));
++					}
++				}
++			}
++		}
++		return 0;
++
++		case NAT25_LOOKUP:
++			RTW_INFO("NAT25: Lookup IP, SA=%4x:%4x:%4x:%4x:%4x:%4x:%4x:%4x,"
++				 " DA=%4x:%4x:%4x:%4x:%4x:%4x:%4x:%4x\n",
++				iph->saddr.s6_addr16[0], iph->saddr.s6_addr16[1], iph->saddr.s6_addr16[2], iph->saddr.s6_addr16[3],
++				iph->saddr.s6_addr16[4], iph->saddr.s6_addr16[5], iph->saddr.s6_addr16[6], iph->saddr.s6_addr16[7],
++				iph->daddr.s6_addr16[0], iph->daddr.s6_addr16[1], iph->daddr.s6_addr16[2], iph->daddr.s6_addr16[3],
++				iph->daddr.s6_addr16[4], iph->daddr.s6_addr16[5], iph->daddr.s6_addr16[6], iph->daddr.s6_addr16[7]);
++
++
++			__nat25_generate_ipv6_network_addr(networkAddr, (unsigned int *)&iph->daddr);
++			if (!__nat25_db_network_lookup_and_replace(priv, skb, networkAddr)) {
++#ifdef SUPPORT_RX_UNI2MCAST
++				if (iph->daddr.s6_addr[0] == 0xff)
++					convert_ipv6_mac_to_mc(skb);
++#endif
++			}
++			return 0;
++
++		default:
++			return -1;
++		}
++	}
++#endif /* CL_IPV6_PASS */
++
++	return -1;
++}
++
++
++int nat25_handle_frame(_adapter *priv, struct sk_buff *skb)
++{
++#ifdef BR_EXT_DEBUG
++	if ((!priv->ethBrExtInfo.nat25_disable) && (!(skb->data[0] & 1))) {
++		panic_printk("NAT25: Input Frame: DA=%02x%02x%02x%02x%02x%02x SA=%02x%02x%02x%02x%02x%02x\n",
++			     skb->data[0],
++			     skb->data[1],
++			     skb->data[2],
++			     skb->data[3],
++			     skb->data[4],
++			     skb->data[5],
++			     skb->data[6],
++			     skb->data[7],
++			     skb->data[8],
++			     skb->data[9],
++			     skb->data[10],
++			     skb->data[11]);
++	}
++#endif
++
++	if (!(skb->data[0] & 1)) {
++		int is_vlan_tag = 0, i, retval = 0;
++		unsigned short vlan_hdr = 0;
++
++		if (*((unsigned short *)(skb->data + ETH_ALEN * 2)) == __constant_htons(ETH_P_8021Q)) {
++			is_vlan_tag = 1;
++			vlan_hdr = *((unsigned short *)(skb->data + ETH_ALEN * 2 + 2));
++			for (i = 0; i < 6; i++)
++				*((unsigned short *)(skb->data + ETH_ALEN * 2 + 2 - i * 2)) = *((unsigned short *)(skb->data + ETH_ALEN * 2 - 2 - i * 2));
++			skb_pull(skb, 4);
++		}
++
++		if (!priv->ethBrExtInfo.nat25_disable) {
++			_irqL irqL;
++			_enter_critical_bh(&priv->br_ext_lock, &irqL);
++			/*
++			 *	This function look up the destination network address from
++			 *	the NAT2.5 database. Return value = -1 means that the
++			 *	corresponding network protocol is NOT support.
++			 */
++			if (!priv->ethBrExtInfo.nat25sc_disable &&
++			    (*((unsigned short *)(skb->data + ETH_ALEN * 2)) == __constant_htons(ETH_P_IP)) &&
++			    !memcmp(priv->scdb_ip, skb->data + ETH_HLEN + 16, 4)) {
++				memcpy(skb->data, priv->scdb_mac, ETH_ALEN);
++
++				_exit_critical_bh(&priv->br_ext_lock, &irqL);
++			} else {
++				_exit_critical_bh(&priv->br_ext_lock, &irqL);
++
++				retval = nat25_db_handle(priv, skb, NAT25_LOOKUP);
++			}
++		} else {
++			if (((*((unsigned short *)(skb->data + ETH_ALEN * 2)) == __constant_htons(ETH_P_IP)) &&
++			     !memcmp(priv->br_ip, skb->data + ETH_HLEN + 16, 4)) ||
++			    ((*((unsigned short *)(skb->data + ETH_ALEN * 2)) == __constant_htons(ETH_P_ARP)) &&
++			     !memcmp(priv->br_ip, skb->data + ETH_HLEN + 24, 4))) {
++				/* for traffic to upper TCP/IP */
++				retval = nat25_db_handle(priv, skb, NAT25_LOOKUP);
++			}
++		}
++
++		if (is_vlan_tag) {
++			skb_push(skb, 4);
++			for (i = 0; i < 6; i++)
++				*((unsigned short *)(skb->data + i * 2)) = *((unsigned short *)(skb->data + 4 + i * 2));
++			*((unsigned short *)(skb->data + ETH_ALEN * 2)) = __constant_htons(ETH_P_8021Q);
++			*((unsigned short *)(skb->data + ETH_ALEN * 2 + 2)) = vlan_hdr;
++		}
++
++		if (retval == -1) {
++			/* DEBUG_ERR("NAT25: Lookup fail!\n"); */
++			return -1;
++		}
++	}
++
++	return 0;
++}
++
++#if 0
++void mac_clone(_adapter *priv, unsigned char *addr)
++{
++	struct sockaddr sa;
++
++	memcpy(sa.sa_data, addr, ETH_ALEN);
++	RTW_INFO("MAC Clone: Addr=%02x%02x%02x%02x%02x%02x\n",
++		 addr[0], addr[1], addr[2], addr[3], addr[4], addr[5]);
++	rtl8192cd_set_hwaddr(priv->dev, &sa);
++}
++
++
++int mac_clone_handle_frame(_adapter *priv, struct sk_buff *skb)
++{
++	if (priv->ethBrExtInfo.macclone_enable && !priv->macclone_completed) {
++		if (!(skb->data[ETH_ALEN] & 1)) {	/* check any other particular MAC add */
++			if (memcmp(skb->data + ETH_ALEN, GET_MY_HWADDR(priv), ETH_ALEN) &&
++			    ((priv->dev->br_port) &&
++			     memcmp(skb->data + ETH_ALEN, priv->br_mac, ETH_ALEN))) {
++				mac_clone(priv, skb->data + ETH_ALEN);
++				priv->macclone_completed = 1;
++			}
++		}
++	}
++
++	return 0;
++}
++#endif /* 0 */
++
++#define SERVER_PORT			67
++#define CLIENT_PORT			68
++#define DHCP_MAGIC			0x63825363
++#define BROADCAST_FLAG		0x8000
++
++struct dhcpMessage {
++	u_int8_t op;
++	u_int8_t htype;
++	u_int8_t hlen;
++	u_int8_t hops;
++	u_int32_t xid;
++	u_int16_t secs;
++	u_int16_t flags;
++	u_int32_t ciaddr;
++	u_int32_t yiaddr;
++	u_int32_t siaddr;
++	u_int32_t giaddr;
++	u_int8_t chaddr[16];
++	u_int8_t sname[64];
++	u_int8_t file[128];
++	u_int32_t cookie;
++	u_int8_t options[308]; /* 312 - cookie */
++};
++
++void dhcp_flag_bcast(_adapter *priv, struct sk_buff *skb)
++{
++	if (skb == NULL)
++		return;
++
++	if (!priv->ethBrExtInfo.dhcp_bcst_disable) {
++		unsigned short protocol = *((unsigned short *)(skb->data + 2 * ETH_ALEN));
++
++		if (protocol == __constant_htons(ETH_P_IP)) { /* IP */
++			struct iphdr *iph = (struct iphdr *)(skb->data + ETH_HLEN);
++
++			if (iph->protocol == IPPROTO_UDP) { /* UDP */
++				struct udphdr *udph = (struct udphdr *)((SIZE_PTR)iph + (iph->ihl << 2));
++
++				if ((udph->source == __constant_htons(CLIENT_PORT))
++				    && (udph->dest == __constant_htons(SERVER_PORT))) { /* DHCP request */
++					struct dhcpMessage *dhcph =
++						(struct dhcpMessage *)((SIZE_PTR)udph + sizeof(struct udphdr));
++
++					if (dhcph->cookie == __constant_htonl(DHCP_MAGIC)) { /* match magic word */
++						if (!(dhcph->flags & htons(BROADCAST_FLAG))) { /* if not broadcast */
++							register int sum = 0;
++
++							RTW_INFO("DHCP: change flag of DHCP request to broadcast.\n");
++							/* or BROADCAST flag */
++							dhcph->flags |= htons(BROADCAST_FLAG);
++							/* recalculate checksum */
++							sum = ~(udph->check) & 0xffff;
++							sum += dhcph->flags;
++							while (sum >> 16)
++								sum = (sum & 0xffff) + (sum >> 16);
++							udph->check = ~sum;
++						}
++					}
++				}
++			}
++		}
++	}
++}
++
++
++void *scdb_findEntry(_adapter *priv, unsigned char *macAddr,
++		     unsigned char *ipAddr)
++{
++	unsigned char networkAddr[MAX_NETWORK_ADDR_LEN];
++	struct nat25_network_db_entry *db;
++	int hash;
++	/* _irqL irqL; */
++	/* _enter_critical_bh(&priv->br_ext_lock, &irqL); */
++
++	__nat25_generate_ipv4_network_addr(networkAddr, (unsigned int *)ipAddr);
++	hash = __nat25_network_hash(networkAddr);
++	db = priv->nethash[hash];
++	while (db != NULL) {
++		if (!memcmp(db->networkAddr, networkAddr, MAX_NETWORK_ADDR_LEN)) {
++			/* _exit_critical_bh(&priv->br_ext_lock, &irqL); */
++			return (void *)db;
++		}
++
++		db = db->next_hash;
++	}
++
++	/* _exit_critical_bh(&priv->br_ext_lock, &irqL); */
++	return NULL;
++}
++
++#endif /* CONFIG_BR_EXT */
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_bt_mp.c b/drivers/net/wireless/rtl8723du/core/rtw_bt_mp.c
+new file mode 100644
+index 0000000..ee6f328
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_bt_mp.c
+@@ -0,0 +1,1580 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#include <drv_types.h>
++#include <rtw_bt_mp.h>
++
++#if defined(CONFIG_RTL8723B)
++	#include <rtl8723b_hal.h>
++#endif
++
++#if defined(CONFIG_RTL8723B) || defined(CONFIG_RTL8821A)
++void MPh2c_timeout_handle(void *FunctionContext)
++{
++	PADAPTER pAdapter;
++	PMPT_CONTEXT pMptCtx;
++
++
++	RTW_INFO("[MPT], MPh2c_timeout_handle\n");
++
++	pAdapter = (PADAPTER)FunctionContext;
++	pMptCtx = &pAdapter->mppriv.MptCtx;
++
++	pMptCtx->bMPh2c_timeout = _TRUE;
++
++	if ((_FALSE == pMptCtx->MptH2cRspEvent)
++	    || ((_TRUE == pMptCtx->MptH2cRspEvent)
++		&& (_FALSE == pMptCtx->MptBtC2hEvent)))
++		_rtw_up_sema(&pMptCtx->MPh2c_Sema);
++}
++
++u32 WaitC2Hevent(PADAPTER pAdapter, u8 *C2H_event, u32 delay_time)
++{
++	PMPT_CONTEXT		pMptCtx = &(pAdapter->mppriv.MptCtx);
++	pMptCtx->bMPh2c_timeout = _FALSE;
++
++	if (pAdapter->registrypriv.mp_mode == 0) {
++		RTW_INFO("[MPT], Error!! WaitC2Hevent mp_mode == 0!!\n");
++		return _FALSE;
++	}
++
++	_set_timer(&pMptCtx->MPh2c_timeout_timer, delay_time);
++
++	_rtw_down_sema(&pMptCtx->MPh2c_Sema);
++
++	if (pMptCtx->bMPh2c_timeout == _TRUE) {
++		*C2H_event = _FALSE;
++
++		return _FALSE;
++	}
++
++	/* for safty, cancel timer here again */
++	_cancel_timer_ex(&pMptCtx->MPh2c_timeout_timer);
++
++	return _TRUE;
++}
++
++BT_CTRL_STATUS
++mptbt_CheckC2hFrame(
++	PADAPTER		Adapter,
++	PBT_H2C			pH2c,
++	PBT_EXT_C2H		pExtC2h
++)
++{
++	BT_CTRL_STATUS	c2hStatus = BT_STATUS_C2H_SUCCESS;
++
++	/* RTW_INFO("[MPT], MPT rsp C2H hex: %x %x %x  %x %x %x\n"), pExtC2h , pExtC2h+1 ,pExtC2h+2 ,pExtC2h+3 ,pExtC2h+4 ,pExtC2h+5); */
++
++	RTW_INFO("[MPT], statusCode = 0x%x\n", pExtC2h->statusCode);
++	RTW_INFO("[MPT], retLen = %d\n", pExtC2h->retLen);
++	RTW_INFO("[MPT], opCodeVer : req/rsp=%d/%d\n", pH2c->opCodeVer, pExtC2h->opCodeVer);
++	RTW_INFO("[MPT], reqNum : req/rsp=%d/%d\n", pH2c->reqNum, pExtC2h->reqNum);
++	if (pExtC2h->reqNum != pH2c->reqNum) {
++		c2hStatus = BT_STATUS_C2H_REQNUM_MISMATCH;
++		RTW_INFO("[MPT], Error!! C2H reqNum Mismatch!!\n");
++	} else if (pExtC2h->opCodeVer != pH2c->opCodeVer) {
++		c2hStatus = BT_STATUS_OPCODE_L_VERSION_MISMATCH;
++		RTW_INFO("[MPT], Error!! OPCode version L mismatch!!\n");
++	}
++
++	return c2hStatus;
++}
++
++BT_CTRL_STATUS
++mptbt_SendH2c(
++	PADAPTER	Adapter,
++	PBT_H2C	pH2c,
++	u2Byte		h2cCmdLen
++)
++{
++	/* KIRQL				OldIrql = KeGetCurrentIrql(); */
++	BT_CTRL_STATUS	h2cStatus = BT_STATUS_H2C_SUCCESS;
++	PMPT_CONTEXT		pMptCtx = &(Adapter->mppriv.MptCtx);
++	u1Byte				i;
++
++	RTW_INFO("[MPT], mptbt_SendH2c()=========>\n");
++
++	/* PlatformResetEvent(&pMptCtx->MptH2cRspEvent); */
++	/* PlatformResetEvent(&pMptCtx->MptBtC2hEvent); */
++
++	/*	if(OldIrql == PASSIVE_LEVEL)
++	 *	{ */
++	/* RTPRINT_DATA(FMPBT, FMPBT_H2C_CONTENT, ("[MPT], MPT H2C hex:\n"), pH2c, h2cCmdLen); */
++
++	for (i = 0; i < BT_H2C_MAX_RETRY; i++) {
++		RTW_INFO("[MPT], Send H2C command to wifi!!!\n");
++
++		pMptCtx->MptH2cRspEvent = _FALSE;
++		pMptCtx->MptBtC2hEvent = _FALSE;
++
++#if defined(CONFIG_RTL8723B)
++		rtl8723b_set_FwBtMpOper_cmd(Adapter, pH2c->opCode, pH2c->opCodeVer, pH2c->reqNum, pH2c->buf);
++#endif
++		pMptCtx->h2cReqNum++;
++		pMptCtx->h2cReqNum %= 16;
++
++		if (WaitC2Hevent(Adapter, &pMptCtx->MptH2cRspEvent, 100)) {
++			RTW_INFO("[MPT], Received WiFi MptH2cRspEvent!!!\n");
++			if (WaitC2Hevent(Adapter, &pMptCtx->MptBtC2hEvent, 400)) {
++				RTW_INFO("[MPT], Received MptBtC2hEvent!!!\n");
++				break;
++			} else {
++				RTW_INFO("[MPT], Error!!BT MptBtC2hEvent timeout!!\n");
++				h2cStatus = BT_STATUS_H2C_BT_NO_RSP;
++			}
++		} else {
++			RTW_INFO("[MPT], Error!!WiFi  MptH2cRspEvent timeout!!\n");
++			h2cStatus = BT_STATUS_H2C_TIMTOUT;
++		}
++	}
++	/*	}
++	 *	else
++	 *	{
++	 * 		RT_ASSERT(FALSE, ("[MPT],  mptbt_SendH2c() can only run under PASSIVE_LEVEL!!\n"));
++	 *		h2cStatus = BT_STATUS_WRONG_LEVEL;
++	 *	} */
++
++	RTW_INFO("[MPT], mptbt_SendH2c()<=========\n");
++	return h2cStatus;
++}
++
++
++
++BT_CTRL_STATUS
++mptbt_CheckBtRspStatus(
++	PADAPTER			Adapter,
++	PBT_EXT_C2H			pExtC2h
++)
++{
++	BT_CTRL_STATUS	retStatus = BT_OP_STATUS_SUCCESS;
++
++	switch (pExtC2h->statusCode) {
++	case BT_OP_STATUS_SUCCESS:
++		retStatus = BT_STATUS_BT_OP_SUCCESS;
++		RTW_INFO("[MPT], BT status : BT_STATUS_SUCCESS\n");
++		break;
++	case BT_OP_STATUS_VERSION_MISMATCH:
++		retStatus = BT_STATUS_OPCODE_L_VERSION_MISMATCH;
++		RTW_INFO("[MPT], BT status : BT_STATUS_OPCODE_L_VERSION_MISMATCH\n");
++		break;
++	case BT_OP_STATUS_UNKNOWN_OPCODE:
++		retStatus = BT_STATUS_UNKNOWN_OPCODE_L;
++		RTW_INFO("[MPT], BT status : BT_STATUS_UNKNOWN_OPCODE_L\n");
++		break;
++	case BT_OP_STATUS_ERROR_PARAMETER:
++		retStatus = BT_STATUS_PARAMETER_FORMAT_ERROR_L;
++		RTW_INFO("[MPT], BT status : BT_STATUS_PARAMETER_FORMAT_ERROR_L\n");
++		break;
++	default:
++		retStatus = BT_STATUS_UNKNOWN_STATUS_L;
++		RTW_INFO("[MPT], BT status : BT_STATUS_UNKNOWN_STATUS_L\n");
++		break;
++	}
++
++	return retStatus;
++}
++
++
++
++BT_CTRL_STATUS
++mptbt_BtFwOpCodeProcess(
++	PADAPTER		Adapter,
++	u1Byte			btFwOpCode,
++	u1Byte			opCodeVer,
++	pu1Byte			pH2cPar,
++	u1Byte			h2cParaLen
++)
++{
++	u1Byte				H2C_Parameter[6] = {0};
++	PBT_H2C				pH2c = (PBT_H2C)&H2C_Parameter[0];
++	PMPT_CONTEXT		pMptCtx = &(Adapter->mppriv.MptCtx);
++	PBT_EXT_C2H			pExtC2h = (PBT_EXT_C2H)&pMptCtx->c2hBuf[0];
++	u2Byte				paraLen = 0, i;
++	BT_CTRL_STATUS	h2cStatus = BT_STATUS_H2C_SUCCESS, c2hStatus = BT_STATUS_C2H_SUCCESS;
++	BT_CTRL_STATUS	retStatus = BT_STATUS_H2C_BT_NO_RSP;
++
++	if (Adapter->registrypriv.mp_mode == 0) {
++		RTW_INFO("[MPT], Error!! mptbt_BtFwOpCodeProces mp_mode == 0!!\n");
++		return _FALSE;
++	}
++
++	pH2c->opCode = btFwOpCode;
++	pH2c->opCodeVer = opCodeVer;
++	pH2c->reqNum = pMptCtx->h2cReqNum;
++	/* PlatformMoveMemory(&pH2c->buf[0], pH2cPar, h2cParaLen); */
++	/* _rtw_memcpy(&pH2c->buf[0], pH2cPar, h2cParaLen); */
++	_rtw_memcpy(pH2c->buf, pH2cPar, h2cParaLen);
++
++	RTW_INFO("[MPT], pH2c->opCode=%d\n", pH2c->opCode);
++	RTW_INFO("[MPT], pH2c->opCodeVer=%d\n", pH2c->opCodeVer);
++	RTW_INFO("[MPT], pH2c->reqNum=%d\n", pH2c->reqNum);
++	RTW_INFO("[MPT], h2c parameter length=%d\n", h2cParaLen);
++	for (i = 0; i < h2cParaLen; i++)
++		RTW_INFO("[MPT], parameter[%d]=0x%02x\n", i, pH2c->buf[i]);
++
++	h2cStatus = mptbt_SendH2c(Adapter, pH2c, h2cParaLen + 2);
++	if (BT_STATUS_H2C_SUCCESS == h2cStatus) {
++		/* if reach here, it means H2C get the correct c2h response, */
++		c2hStatus = mptbt_CheckC2hFrame(Adapter, pH2c, pExtC2h);
++		if (BT_STATUS_C2H_SUCCESS == c2hStatus)
++			retStatus = mptbt_CheckBtRspStatus(Adapter, pExtC2h);
++		else {
++			RTW_INFO("[MPT], Error!! C2H failed for pH2c->opCode=%d\n", pH2c->opCode);
++			/* check c2h status error, return error status code to upper layer. */
++			retStatus = c2hStatus;
++		}
++	} else {
++		RTW_INFO("[MPT], Error!! H2C failed for pH2c->opCode=%d\n", pH2c->opCode);
++		/* check h2c status error, return error status code to upper layer. */
++		retStatus = h2cStatus;
++	}
++
++	return retStatus;
++}
++
++
++
++
++u2Byte
++mptbt_BtReady(
++	PADAPTER		Adapter,
++	PBT_REQ_CMD	pBtReq,
++	PBT_RSP_CMD	pBtRsp
++)
++{
++	u1Byte				h2cParaBuf[6] = {0};
++	u1Byte				h2cParaLen = 0;
++	u2Byte				paraLen = 0;
++	u1Byte				retStatus = BT_STATUS_BT_OP_SUCCESS;
++	u1Byte				btOpcode;
++	u1Byte				btOpcodeVer = 0;
++	PMPT_CONTEXT		pMptCtx = &(Adapter->mppriv.MptCtx);
++	PBT_EXT_C2H			pExtC2h = (PBT_EXT_C2H)&pMptCtx->c2hBuf[0];
++	u1Byte				i;
++	u1Byte				btFwVer = 0, bdAddr[6] = {0};
++	u2Byte				btRealFwVer = 0;
++	pu2Byte			pu2Tmp = NULL;
++
++	/*  */
++	/* check upper layer parameters */
++	/*  */
++
++	/* 1. check upper layer opcode version */
++	if (pBtReq->opCodeVer != 1) {
++		RTW_INFO("[MPT], Error!! Upper OP code version not match!!!\n");
++		pBtRsp->status = BT_STATUS_OPCODE_U_VERSION_MISMATCH;
++		return paraLen;
++	}
++
++	pBtRsp->pParamStart[0] = MP_BT_NOT_READY;
++	paraLen = 10;
++	/*  */
++	/* execute lower layer opcodes */
++	/*  */
++
++	/* Get BT FW version */
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_GET_BT_VERSION;
++	/* execute h2c and check respond c2h from bt fw is correct or not */
++	retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	} else {
++		pu2Tmp = (pu2Byte)&pExtC2h->buf[0];
++		btRealFwVer = *pu2Tmp;
++		btFwVer = pExtC2h->buf[1];
++		RTW_INFO("[MPT], btRealFwVer=0x%x, btFwVer=0x%x\n", btRealFwVer, btFwVer);
++	}
++
++	/* Get BD Address */
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_GET_BD_ADDR_L;
++	/* execute h2c and check respond c2h from bt fw is correct or not */
++	retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	} else {
++		bdAddr[5] = pExtC2h->buf[0];
++		bdAddr[4] = pExtC2h->buf[1];
++		bdAddr[3] = pExtC2h->buf[2];
++	}
++
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_GET_BD_ADDR_H;
++	/* execute h2c and check respond c2h from bt fw is correct or not */
++	retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	} else {
++		bdAddr[2] = pExtC2h->buf[0];
++		bdAddr[1] = pExtC2h->buf[1];
++		bdAddr[0] = pExtC2h->buf[2];
++	}
++	RTW_INFO("[MPT], Local BDAddr:");
++	for (i = 0; i < 6; i++)
++		RTW_INFO(" 0x%x ", bdAddr[i]);
++	pBtRsp->status = BT_STATUS_SUCCESS;
++	pBtRsp->pParamStart[0] = MP_BT_READY;
++	pu2Tmp = (pu2Byte)&pBtRsp->pParamStart[1];
++	*pu2Tmp = btRealFwVer;
++	pBtRsp->pParamStart[3] = btFwVer;
++	for (i = 0; i < 6; i++)
++		pBtRsp->pParamStart[4 + i] = bdAddr[5 - i];
++
++	return paraLen;
++}
++
++void mptbt_close_WiFiRF(PADAPTER Adapter)
++{
++	PHY_SetBBReg(Adapter, 0x824, 0xF, 0x0);
++	PHY_SetBBReg(Adapter, 0x824, 0x700000, 0x0);
++	PHY_SetRFReg(Adapter, RF_PATH_A, 0x0, 0xF0000, 0x0);
++}
++
++void mptbt_open_WiFiRF(PADAPTER	Adapter)
++{
++	PHY_SetBBReg(Adapter, 0x824, 0x700000, 0x3);
++	PHY_SetBBReg(Adapter, 0x824, 0xF, 0x2);
++	PHY_SetRFReg(Adapter, RF_PATH_A, 0x0, 0xF0000, 0x3);
++}
++
++u4Byte mptbt_switch_RF(PADAPTER	Adapter, u1Byte	Enter)
++{
++	u2Byte	tmp_2byte = 0;
++
++	/* Enter test mode */
++	if (Enter) {
++		/* 1>. close WiFi RF */
++		mptbt_close_WiFiRF(Adapter);
++
++		/* 2>. change ant switch to BT */
++		tmp_2byte = rtw_read16(Adapter, 0x860);
++		tmp_2byte = tmp_2byte | BIT(9);
++		tmp_2byte = tmp_2byte & (~BIT(8));
++		rtw_write16(Adapter, 0x860, tmp_2byte);
++		rtw_write16(Adapter, 0x870, 0x300);
++	} else {
++		/* 1>. Open WiFi RF */
++		mptbt_open_WiFiRF(Adapter);
++
++		/* 2>. change ant switch back */
++		tmp_2byte = rtw_read16(Adapter, 0x860);
++		tmp_2byte = tmp_2byte | BIT(8);
++		tmp_2byte = tmp_2byte & (~BIT(9));
++		rtw_write16(Adapter, 0x860, tmp_2byte);
++		rtw_write16(Adapter, 0x870, 0x300);
++	}
++
++	return 0;
++}
++
++u2Byte
++mptbt_BtSetMode(
++	PADAPTER		Adapter,
++	PBT_REQ_CMD	pBtReq,
++	PBT_RSP_CMD	pBtRsp
++)
++{
++	u1Byte				h2cParaBuf[6] = {0};
++	u1Byte				h2cParaLen = 0;
++	u2Byte				paraLen = 0;
++	u1Byte				retStatus = BT_STATUS_BT_OP_SUCCESS;
++	u1Byte				btOpcode;
++	u1Byte				btOpcodeVer = 0;
++	u1Byte				btModeToSet = 0;
++
++	/*  */
++	/* check upper layer parameters */
++	/*  */
++	/* 1. check upper layer opcode version */
++	if (pBtReq->opCodeVer != 1) {
++		RTW_INFO("[MPT], Error!! Upper OP code version not match!!!\n");
++		pBtRsp->status = BT_STATUS_OPCODE_U_VERSION_MISMATCH;
++		return paraLen;
++	}
++	/* 2. check upper layer parameter length */
++	if (1 == pBtReq->paraLength) {
++		btModeToSet = pBtReq->pParamStart[0];
++		RTW_INFO("[MPT], BtTestMode=%d\n", btModeToSet);
++	} else {
++		RTW_INFO("[MPT], Error!! wrong parameter length=%d (should be 1)\n", pBtReq->paraLength);
++		pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
++		return paraLen;
++	}
++
++	/*  */
++	/* execute lower layer opcodes */
++	/*  */
++
++	/* 1. fill h2c parameters	 */
++	/* check bt mode */
++	btOpcode = BT_LO_OP_SET_BT_MODE;
++	if (btModeToSet >= MP_BT_MODE_MAX) {
++		pBtRsp->status = BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	} else {
++		mptbt_switch_RF(Adapter, 1);
++
++		h2cParaBuf[0] = btModeToSet;
++		h2cParaLen = 1;
++		/* 2. execute h2c and check respond c2h from bt fw is correct or not */
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++
++	/* 3. construct respond status code and data. */
++	if (BT_STATUS_BT_OP_SUCCESS == retStatus)
++		pBtRsp->status = BT_STATUS_SUCCESS;
++	else {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++	}
++
++	return paraLen;
++}
++
++
++VOID
++MPTBT_FwC2hBtMpCtrl(
++	PADAPTER	Adapter,
++	pu1Byte	tmpBuf,
++	u1Byte		length
++)
++{
++	u32 i;
++	PMPT_CONTEXT	pMptCtx = &(Adapter->mppriv.MptCtx);
++	PBT_EXT_C2H pExtC2h = (PBT_EXT_C2H)tmpBuf;
++
++	if (Adapter->bBTFWReady == _FALSE || Adapter->registrypriv.mp_mode == 0) {
++		/* RTW_INFO("Ignore C2H BT MP Info since not in MP mode\n"); */
++		return;
++	}
++	if (length > 32 || length < 3) {
++		RTW_INFO("\n [MPT], pExtC2h->buf hex: length=%d > 32 || < 3\n", length);
++		return;
++	}
++
++	/* cancel_timeout for h2c handle */
++	_cancel_timer_ex(&pMptCtx->MPh2c_timeout_timer);
++
++	for (i = 0; i < length; i++)
++		RTW_INFO("[MPT], %s, buf[%d]=0x%02x ", __FUNCTION__, i, tmpBuf[i]);
++	RTW_INFO("[MPT], pExtC2h->extendId=0x%x\n", pExtC2h->extendId);
++
++	switch (pExtC2h->extendId) {
++	case EXT_C2H_WIFI_FW_ACTIVE_RSP:
++		RTW_INFO("[MPT], EXT_C2H_WIFI_FW_ACTIVE_RSP\n");
++#if 0
++		RTW_INFO("[MPT], pExtC2h->buf hex:\n");
++		for (i = 0; i < (length - 3); i++)
++			RTW_INFO(" 0x%x ", pExtC2h->buf[i]);
++#endif
++		if ((_FALSE == pMptCtx->bMPh2c_timeout)
++		    && (_FALSE == pMptCtx->MptH2cRspEvent)) {
++			pMptCtx->MptH2cRspEvent = _TRUE;
++			_rtw_up_sema(&pMptCtx->MPh2c_Sema);
++		}
++		break;
++
++	case EXT_C2H_TRIG_BY_BT_FW:
++		RTW_INFO("[MPT], EXT_C2H_TRIG_BY_BT_FW\n");
++		_rtw_memcpy(&pMptCtx->c2hBuf[0], tmpBuf, length);
++		RTW_INFO("[MPT], pExtC2h->statusCode=0x%x\n", pExtC2h->statusCode);
++		RTW_INFO("[MPT], pExtC2h->retLen=0x%x\n", pExtC2h->retLen);
++		RTW_INFO("[MPT], pExtC2h->opCodeVer=0x%x\n", pExtC2h->opCodeVer);
++		RTW_INFO("[MPT], pExtC2h->reqNum=0x%x\n", pExtC2h->reqNum);
++		for (i = 0; i < (length - 3); i++)
++			RTW_INFO("[MPT], pExtC2h->buf[%d]=0x%02x\n", i, pExtC2h->buf[i]);
++
++		if ((_FALSE == pMptCtx->bMPh2c_timeout)
++		    && (_TRUE == pMptCtx->MptH2cRspEvent)
++		    && (_FALSE == pMptCtx->MptBtC2hEvent)) {
++			pMptCtx->MptBtC2hEvent = _TRUE;
++			_rtw_up_sema(&pMptCtx->MPh2c_Sema);
++		}
++		break;
++
++	default:
++		RTW_INFO("[MPT], EXT_C2H Target not found,pExtC2h->extendId =%d ,pExtC2h->reqNum=%d\n", pExtC2h->extendId, pExtC2h->reqNum);
++		break;
++	}
++
++
++
++}
++
++
++u2Byte
++mptbt_BtGetGeneral(
++	IN	PADAPTER		Adapter,
++	IN	PBT_REQ_CMD	pBtReq,
++	IN	PBT_RSP_CMD	pBtRsp
++)
++{
++	PMPT_CONTEXT		pMptCtx = &(Adapter->mppriv.MptCtx);
++	PBT_EXT_C2H		pExtC2h = (PBT_EXT_C2H)&pMptCtx->c2hBuf[0];
++	u1Byte				h2cParaBuf[6] = {0};
++	u1Byte				h2cParaLen = 0;
++	u2Byte				paraLen = 0;
++	u1Byte				retStatus = BT_STATUS_BT_OP_SUCCESS;
++	u1Byte				btOpcode, bdAddr[6] = {0};
++	u1Byte				btOpcodeVer = 0;
++	u1Byte				getType = 0, i;
++	u2Byte				getParaLen = 0, validParaLen = 0;
++	u1Byte				regType = 0, reportType = 0;
++	u4Byte				regAddr = 0, regValue = 0;
++	pu4Byte			pu4Tmp;
++	pu2Byte			pu2Tmp;
++	pu1Byte			pu1Tmp;
++
++	/*  */
++	/* check upper layer parameters */
++	/*  */
++
++	/* check upper layer opcode version */
++	if (pBtReq->opCodeVer != 1) {
++		RTW_INFO("[MPT], Error!! Upper OP code version not match!!!\n");
++		pBtRsp->status = BT_STATUS_OPCODE_U_VERSION_MISMATCH;
++		return paraLen;
++	}
++	/* check upper layer parameter length */
++	if (pBtReq->paraLength < 1) {
++		RTW_INFO("[MPT], Error!! wrong parameter length=%d (should larger than 1)\n", pBtReq->paraLength);
++		pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
++		return paraLen;
++	}
++	getParaLen = pBtReq->paraLength - 1;
++	getType = pBtReq->pParamStart[0];
++
++	RTW_INFO("[MPT], getType=%d, getParaLen=%d\n", getType, getParaLen);
++
++	/* check parameter first */
++	switch (getType) {
++	case BT_GGET_REG:
++		RTW_INFO("[MPT], [BT_GGET_REG]\n");
++		validParaLen = 5;
++		if (getParaLen == validParaLen) {
++			btOpcode = BT_LO_OP_READ_REG;
++			regType = pBtReq->pParamStart[1];
++			pu4Tmp = (pu4Byte)&pBtReq->pParamStart[2];
++			regAddr = *pu4Tmp;
++			RTW_INFO("[MPT], BT_GGET_REG regType=0x%02x, regAddr=0x%08x!!\n",
++				 regType, regAddr);
++			if (regType >= BT_REG_MAX) {
++				pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++				return paraLen;
++			} else {
++				if (((BT_REG_RF == regType) && (regAddr > 0x7f)) ||
++				    ((BT_REG_MODEM == regType) && (regAddr > 0x1ff)) ||
++				    ((BT_REG_BLUEWIZE == regType) && (regAddr > 0xfff)) ||
++				    ((BT_REG_VENDOR == regType) && (regAddr > 0xfff)) ||
++				    ((BT_REG_LE == regType) && (regAddr > 0xfff))) {
++					pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++					return paraLen;
++				}
++			}
++		}
++		break;
++	case BT_GGET_STATUS:
++		RTW_INFO("[MPT], [BT_GGET_STATUS]\n");
++		validParaLen = 0;
++		break;
++	case BT_GGET_REPORT:
++		RTW_INFO("[MPT], [BT_GGET_REPORT]\n");
++		validParaLen = 1;
++		if (getParaLen == validParaLen) {
++			reportType = pBtReq->pParamStart[1];
++			RTW_INFO("[MPT], BT_GGET_REPORT reportType=0x%x!!\n", reportType);
++			if (reportType >= BT_REPORT_MAX) {
++				pBtRsp->status = BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++				return paraLen;
++			}
++		}
++		break;
++	default: {
++		RTW_INFO("[MPT], Error!! getType=%d, out of range\n", getType);
++		pBtRsp->status = BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	}
++	break;
++	}
++	if (getParaLen != validParaLen) {
++		RTW_INFO("[MPT], Error!! wrong parameter length=%d for BT_GET_GEN_CMD cmd id=0x%x, paraLen should=0x%x\n",
++			 getParaLen, getType, validParaLen);
++		pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
++		return paraLen;
++	}
++
++	/*  */
++	/* execute lower layer opcodes */
++	/*  */
++	if (BT_GGET_REG == getType) {
++		/* fill h2c parameters */
++		/* here we should write reg value first then write the address, adviced by Austin */
++		btOpcode = BT_LO_OP_READ_REG;
++		h2cParaBuf[0] = regType;
++		h2cParaBuf[1] = pBtReq->pParamStart[2];
++		h2cParaBuf[2] = pBtReq->pParamStart[3];
++		h2cParaLen = 3;
++		/* execute h2c and check respond c2h from bt fw is correct or not */
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* construct respond status code and data. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++
++		pu2Tmp = (pu2Byte)&pExtC2h->buf[0];
++		regValue = *pu2Tmp;
++		RTW_INFO("[MPT], read reg regType=0x%02x, regAddr=0x%08x, regValue=0x%04x\n",
++			 regType, regAddr, regValue);
++
++		pu4Tmp = (pu4Byte)&pBtRsp->pParamStart[0];
++		*pu4Tmp = regValue;
++		paraLen = 4;
++	} else if (BT_GGET_STATUS == getType) {
++		btOpcode = BT_LO_OP_GET_BT_STATUS;
++		h2cParaLen = 0;
++		/* execute h2c and check respond c2h from bt fw is correct or not */
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* construct respond status code and data. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++
++		pBtRsp->pParamStart[0] = pExtC2h->buf[0];
++		pBtRsp->pParamStart[1] = pExtC2h->buf[1];
++		RTW_INFO("[MPT], read bt status, testMode=0x%x, testStatus=0x%x\n",
++			 pBtRsp->pParamStart[0], pBtRsp->pParamStart[1]);
++		paraLen = 2;
++	} else if (BT_GGET_REPORT == getType) {
++		switch (reportType) {
++		case BT_REPORT_RX_PACKET_CNT: {
++			RTW_INFO("[MPT], [Rx Packet Counts]\n");
++			btOpcode = BT_LO_OP_GET_RX_PKT_CNT_L;
++			h2cParaLen = 0;
++			/* execute h2c and check respond c2h from bt fw is correct or not */
++			retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++			/* construct respond status code and data. */
++			if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++				pBtRsp->status = ((btOpcode << 8) | retStatus);
++				RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++				return paraLen;
++			}
++			pBtRsp->pParamStart[0] = pExtC2h->buf[0];
++			pBtRsp->pParamStart[1] = pExtC2h->buf[1];
++
++			btOpcode = BT_LO_OP_GET_RX_PKT_CNT_H;
++			h2cParaLen = 0;
++			/* execute h2c and check respond c2h from bt fw is correct or not */
++			retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++			/* construct respond status code and data. */
++			if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++				pBtRsp->status = ((btOpcode << 8) | retStatus);
++				RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++				return paraLen;
++			}
++			pBtRsp->pParamStart[2] = pExtC2h->buf[0];
++			pBtRsp->pParamStart[3] = pExtC2h->buf[1];
++			paraLen = 4;
++		}
++		break;
++		case BT_REPORT_RX_ERROR_BITS: {
++			RTW_INFO("[MPT], [Rx Error Bits]\n");
++			btOpcode = BT_LO_OP_GET_RX_ERROR_BITS_L;
++			h2cParaLen = 0;
++			/* execute h2c and check respond c2h from bt fw is correct or not */
++			retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++			/* construct respond status code and data. */
++			if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++				pBtRsp->status = ((btOpcode << 8) | retStatus);
++				RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++				return paraLen;
++			}
++			pBtRsp->pParamStart[0] = pExtC2h->buf[0];
++			pBtRsp->pParamStart[1] = pExtC2h->buf[1];
++
++			btOpcode = BT_LO_OP_GET_RX_ERROR_BITS_H;
++			h2cParaLen = 0;
++			/* execute h2c and check respond c2h from bt fw is correct or not */
++			retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++			/* construct respond status code and data. */
++			if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++				pBtRsp->status = ((btOpcode << 8) | retStatus);
++				RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++				return paraLen;
++			}
++			pBtRsp->pParamStart[2] = pExtC2h->buf[0];
++			pBtRsp->pParamStart[3] = pExtC2h->buf[1];
++			paraLen = 4;
++		}
++		break;
++		case BT_REPORT_RSSI: {
++			RTW_INFO("[MPT], [RSSI]\n");
++			btOpcode = BT_LO_OP_GET_RSSI;
++			h2cParaLen = 0;
++			/* execute h2c and check respond c2h from bt fw is correct or not */
++			retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++			/* construct respond status code and data. */
++			if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++				pBtRsp->status = ((btOpcode << 8) | retStatus);
++				RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++				return paraLen;
++			}
++			pBtRsp->pParamStart[0] = pExtC2h->buf[0];
++			pBtRsp->pParamStart[1] = pExtC2h->buf[1];
++			paraLen = 2;
++		}
++		break;
++		case BT_REPORT_CFO_HDR_QUALITY: {
++			RTW_INFO("[MPT], [CFO & Header Quality]\n");
++			btOpcode = BT_LO_OP_GET_CFO_HDR_QUALITY_L;
++			h2cParaLen = 0;
++			/* execute h2c and check respond c2h from bt fw is correct or not */
++			retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++			/* construct respond status code and data. */
++			if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++				pBtRsp->status = ((btOpcode << 8) | retStatus);
++				RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++				return paraLen;
++			}
++			pBtRsp->pParamStart[0] = pExtC2h->buf[0];
++			pBtRsp->pParamStart[1] = pExtC2h->buf[1];
++
++			btOpcode = BT_LO_OP_GET_CFO_HDR_QUALITY_H;
++			h2cParaLen = 0;
++			/* execute h2c and check respond c2h from bt fw is correct or not */
++			retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++			/* construct respond status code and data. */
++			if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++				pBtRsp->status = ((btOpcode << 8) | retStatus);
++				RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++				return paraLen;
++			}
++			pBtRsp->pParamStart[2] = pExtC2h->buf[0];
++			pBtRsp->pParamStart[3] = pExtC2h->buf[1];
++			paraLen = 4;
++		}
++		break;
++		case BT_REPORT_CONNECT_TARGET_BD_ADDR: {
++			RTW_INFO("[MPT], [Connected Target BD ADDR]\n");
++			btOpcode = BT_LO_OP_GET_TARGET_BD_ADDR_L;
++			h2cParaLen = 0;
++			/* execute h2c and check respond c2h from bt fw is correct or not */
++			retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++			/* construct respond status code and data. */
++			if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++				pBtRsp->status = ((btOpcode << 8) | retStatus);
++				RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++				return paraLen;
++			}
++			bdAddr[5] = pExtC2h->buf[0];
++			bdAddr[4] = pExtC2h->buf[1];
++			bdAddr[3] = pExtC2h->buf[2];
++
++			btOpcode = BT_LO_OP_GET_TARGET_BD_ADDR_H;
++			h2cParaLen = 0;
++			/* execute h2c and check respond c2h from bt fw is correct or not */
++			retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++			/* construct respond status code and data. */
++			if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++				pBtRsp->status = ((btOpcode << 8) | retStatus);
++				RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++				return paraLen;
++			}
++			bdAddr[2] = pExtC2h->buf[0];
++			bdAddr[1] = pExtC2h->buf[1];
++			bdAddr[0] = pExtC2h->buf[2];
++
++			RTW_INFO("[MPT], Connected Target BDAddr:%s", bdAddr);
++			for (i = 0; i < 6; i++)
++				pBtRsp->pParamStart[i] = bdAddr[5 - i];
++			paraLen = 6;
++		}
++		break;
++		default:
++			pBtRsp->status = BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++			return paraLen;
++			break;
++		}
++	}
++
++	pBtRsp->status = BT_STATUS_SUCCESS;
++	return paraLen;
++}
++
++
++
++u2Byte
++mptbt_BtSetGeneral(
++	IN	PADAPTER		Adapter,
++	IN	PBT_REQ_CMD	pBtReq,
++	IN	PBT_RSP_CMD	pBtRsp
++)
++{
++	u1Byte				h2cParaBuf[6] = {0};
++	u1Byte				h2cParaLen = 0;
++	u2Byte				paraLen = 0;
++	u1Byte				retStatus = BT_STATUS_BT_OP_SUCCESS;
++	u1Byte				btOpcode;
++	u1Byte				btOpcodeVer = 0;
++	u1Byte				setType = 0;
++	u2Byte				setParaLen = 0, validParaLen = 0;
++	u1Byte				regType = 0, bdAddr[6] = {0}, calVal = 0;
++	u4Byte				regAddr = 0, regValue = 0;
++	pu4Byte			pu4Tmp;
++	pu2Byte			pu2Tmp;
++	pu1Byte			pu1Tmp;
++
++	/*  */
++	/* check upper layer parameters */
++	/*  */
++
++	/* check upper layer opcode version */
++	if (pBtReq->opCodeVer != 1) {
++		RTW_INFO("[MPT], Error!! Upper OP code version not match!!!\n");
++		pBtRsp->status = BT_STATUS_OPCODE_U_VERSION_MISMATCH;
++		return paraLen;
++	}
++	/* check upper layer parameter length */
++	if (pBtReq->paraLength < 1) {
++		RTW_INFO("[MPT], Error!! wrong parameter length=%d (should larger than 1)\n", pBtReq->paraLength);
++		pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
++		return paraLen;
++	}
++	setParaLen = pBtReq->paraLength - 1;
++	setType = pBtReq->pParamStart[0];
++
++	RTW_INFO("[MPT], setType=%d, setParaLen=%d\n", setType, setParaLen);
++
++	/* check parameter first */
++	switch (setType) {
++	case BT_GSET_REG:
++		RTW_INFO("[MPT], [BT_GSET_REG]\n");
++		validParaLen = 9;
++		if (setParaLen == validParaLen) {
++			btOpcode = BT_LO_OP_WRITE_REG_VALUE;
++			regType = pBtReq->pParamStart[1];
++			pu4Tmp = (pu4Byte)&pBtReq->pParamStart[2];
++			regAddr = *pu4Tmp;
++			pu4Tmp = (pu4Byte)&pBtReq->pParamStart[6];
++			regValue = *pu4Tmp;
++			RTW_INFO("[MPT], BT_GSET_REG regType=0x%x, regAddr=0x%x, regValue=0x%x!!\n",
++				 regType, regAddr, regValue);
++			if (regType >= BT_REG_MAX) {
++				pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++				return paraLen;
++			} else {
++				if (((BT_REG_RF == regType) && (regAddr > 0x7f)) ||
++				    ((BT_REG_MODEM == regType) && (regAddr > 0x1ff)) ||
++				    ((BT_REG_BLUEWIZE == regType) && (regAddr > 0xfff)) ||
++				    ((BT_REG_VENDOR == regType) && (regAddr > 0xfff)) ||
++				    ((BT_REG_LE == regType) && (regAddr > 0xfff))) {
++					pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++					return paraLen;
++				}
++			}
++		}
++		break;
++	case BT_GSET_RESET:
++		RTW_INFO("[MPT], [BT_GSET_RESET]\n");
++		validParaLen = 0;
++		break;
++	case BT_GSET_TARGET_BD_ADDR:
++		RTW_INFO("[MPT], [BT_GSET_TARGET_BD_ADDR]\n");
++		validParaLen = 6;
++		if (setParaLen == validParaLen) {
++			btOpcode = BT_LO_OP_SET_TARGET_BD_ADDR_H;
++			if ((pBtReq->pParamStart[1] == 0) &&
++			    (pBtReq->pParamStart[2] == 0) &&
++			    (pBtReq->pParamStart[3] == 0) &&
++			    (pBtReq->pParamStart[4] == 0) &&
++			    (pBtReq->pParamStart[5] == 0) &&
++			    (pBtReq->pParamStart[6] == 0)) {
++				RTW_INFO("[MPT], Error!! targetBDAddr=all zero\n");
++				pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++				return paraLen;
++			}
++			if ((pBtReq->pParamStart[1] == 0xff) &&
++			    (pBtReq->pParamStart[2] == 0xff) &&
++			    (pBtReq->pParamStart[3] == 0xff) &&
++			    (pBtReq->pParamStart[4] == 0xff) &&
++			    (pBtReq->pParamStart[5] == 0xff) &&
++			    (pBtReq->pParamStart[6] == 0xff)) {
++				RTW_INFO("[MPT], Error!! targetBDAddr=all 0xf\n");
++				pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++				return paraLen;
++			}
++			bdAddr[0] = pBtReq->pParamStart[6];
++			bdAddr[1] = pBtReq->pParamStart[5];
++			bdAddr[2] = pBtReq->pParamStart[4];
++			bdAddr[3] = pBtReq->pParamStart[3];
++			bdAddr[4] = pBtReq->pParamStart[2];
++			bdAddr[5] = pBtReq->pParamStart[1];
++			RTW_INFO("[MPT], target BDAddr:%x,%x,%x,%x,%x,%x\n",
++				bdAddr[0], bdAddr[1], bdAddr[2], bdAddr[3], bdAddr[4], bdAddr[5]);
++		}
++		break;
++	case BT_GSET_TX_PWR_FINETUNE:
++		RTW_INFO("[MPT], [BT_GSET_TX_PWR_FINETUNE]\n");
++		validParaLen = 1;
++		if (setParaLen == validParaLen) {
++			btOpcode = BT_LO_OP_SET_TX_POWER_CALIBRATION;
++			calVal = pBtReq->pParamStart[1];
++			if ((calVal < 1) || (calVal > 9)) {
++				pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++				return paraLen;
++			}
++			RTW_INFO("[MPT], calVal=%d\n", calVal);
++		}
++		break;
++	case BT_SET_TRACKING_INTERVAL:
++		RTW_INFO("[MPT], [BT_SET_TRACKING_INTERVAL] setParaLen =%d\n", setParaLen);
++
++		validParaLen = 1;
++		if (setParaLen == validParaLen)
++			calVal = pBtReq->pParamStart[1];
++		break;
++	case BT_SET_THERMAL_METER:
++		RTW_INFO("[MPT], [BT_SET_THERMAL_METER] setParaLen =%d\n", setParaLen);
++		validParaLen = 1;
++		if (setParaLen == validParaLen)
++			calVal = pBtReq->pParamStart[1];
++		break;
++	case BT_ENABLE_CFO_TRACKING:
++		RTW_INFO("[MPT], [BT_ENABLE_CFO_TRACKING] setParaLen =%d\n", setParaLen);
++		validParaLen = 1;
++		if (setParaLen == validParaLen)
++			calVal = pBtReq->pParamStart[1];
++		break;
++	case BT_GSET_UPDATE_BT_PATCH:
++
++		break;
++	default: {
++		RTW_INFO("[MPT], Error!! setType=%d, out of range\n", setType);
++		pBtRsp->status = BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	}
++	break;
++	}
++	if (setParaLen != validParaLen) {
++		RTW_INFO("[MPT], Error!! wrong parameter length=%d for BT_SET_GEN_CMD cmd id=0x%x, paraLen should=0x%x\n",
++			 setParaLen, setType, validParaLen);
++		pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
++		return paraLen;
++	}
++
++	/*  */
++	/* execute lower layer opcodes */
++	/*  */
++	if (BT_GSET_REG == setType) {
++		/* fill h2c parameters */
++		/* here we should write reg value first then write the address, adviced by Austin */
++		btOpcode = BT_LO_OP_WRITE_REG_VALUE;
++		h2cParaBuf[0] = pBtReq->pParamStart[6];
++		h2cParaBuf[1] = pBtReq->pParamStart[7];
++		h2cParaBuf[2] = pBtReq->pParamStart[8];
++		h2cParaLen = 3;
++		/* execute h2c and check respond c2h from bt fw is correct or not */
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* construct respond status code and data. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++
++		/* write reg address */
++		btOpcode = BT_LO_OP_WRITE_REG_ADDR;
++		h2cParaBuf[0] = regType;
++		h2cParaBuf[1] = pBtReq->pParamStart[2];
++		h2cParaBuf[2] = pBtReq->pParamStart[3];
++		h2cParaLen = 3;
++		/* execute h2c and check respond c2h from bt fw is correct or not */
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* construct respond status code and data. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++	} else if (BT_GSET_RESET == setType) {
++		btOpcode = BT_LO_OP_RESET;
++		h2cParaLen = 0;
++		/* execute h2c and check respond c2h from bt fw is correct or not */
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* construct respond status code and data. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++	} else if (BT_GSET_TARGET_BD_ADDR == setType) {
++		/* fill h2c parameters */
++		btOpcode = BT_LO_OP_SET_TARGET_BD_ADDR_L;
++		h2cParaBuf[0] = pBtReq->pParamStart[1];
++		h2cParaBuf[1] = pBtReq->pParamStart[2];
++		h2cParaBuf[2] = pBtReq->pParamStart[3];
++		h2cParaLen = 3;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* ckeck bt return status. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++
++		btOpcode = BT_LO_OP_SET_TARGET_BD_ADDR_H;
++		h2cParaBuf[0] = pBtReq->pParamStart[4];
++		h2cParaBuf[1] = pBtReq->pParamStart[5];
++		h2cParaBuf[2] = pBtReq->pParamStart[6];
++		h2cParaLen = 3;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* ckeck bt return status. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++	} else if (BT_GSET_TX_PWR_FINETUNE == setType) {
++		/* fill h2c parameters */
++		btOpcode = BT_LO_OP_SET_TX_POWER_CALIBRATION;
++		h2cParaBuf[0] = calVal;
++		h2cParaLen = 1;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* ckeck bt return status. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++	} else if (BT_SET_TRACKING_INTERVAL == setType) {
++		/*	BT_LO_OP_SET_TRACKING_INTERVAL								= 0x22, */
++		/*	BT_LO_OP_SET_THERMAL_METER									= 0x23, */
++		/*	BT_LO_OP_ENABLE_CFO_TRACKING									= 0x24, */
++		btOpcode = BT_LO_OP_SET_TRACKING_INTERVAL;
++		h2cParaBuf[0] = calVal;
++		h2cParaLen = 1;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* ckeck bt return status. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++	} else if (BT_SET_THERMAL_METER == setType) {
++		btOpcode = BT_LO_OP_SET_THERMAL_METER;
++		h2cParaBuf[0] = calVal;
++		h2cParaLen = 1;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* ckeck bt return status. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++	} else if (BT_ENABLE_CFO_TRACKING == setType) {
++		btOpcode = BT_LO_OP_ENABLE_CFO_TRACKING;
++		h2cParaBuf[0] = calVal;
++		h2cParaLen = 1;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* ckeck bt return status. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++	}
++
++	pBtRsp->status = BT_STATUS_SUCCESS;
++	return paraLen;
++}
++
++
++
++u2Byte
++mptbt_BtSetTxRxPars(
++	IN	PADAPTER		Adapter,
++	IN	PBT_REQ_CMD	pBtReq,
++	IN	PBT_RSP_CMD	pBtRsp
++)
++{
++	u1Byte				h2cParaBuf[6] = {0};
++	u1Byte				h2cParaLen = 0;
++	u2Byte				paraLen = 0;
++	u1Byte				retStatus = BT_STATUS_BT_OP_SUCCESS;
++	u1Byte				btOpcode;
++	u1Byte				btOpcodeVer = 0;
++	PBT_TXRX_PARAMETERS pTxRxPars = (PBT_TXRX_PARAMETERS)&pBtReq->pParamStart[0];
++	u2Byte				lenTxRx = sizeof(BT_TXRX_PARAMETERS);
++	u1Byte				i;
++	u1Byte				bdAddr[6] = {0};
++
++	/*  */
++	/* check upper layer parameters */
++	/*  */
++
++	/* 1. check upper layer opcode version */
++	if (pBtReq->opCodeVer != 1) {
++		RTW_INFO("[MPT], Error!! Upper OP code version not match!!!\n");
++		pBtRsp->status = BT_STATUS_OPCODE_U_VERSION_MISMATCH;
++		return paraLen;
++	}
++	/* 2. check upper layer parameter length */
++	if (pBtReq->paraLength == sizeof(BT_TXRX_PARAMETERS)) {
++		RTW_INFO("[MPT], pTxRxPars->txrxChannel=0x%x\n", pTxRxPars->txrxChannel);
++		RTW_INFO("[MPT], pTxRxPars->txrxTxPktCnt=0x%8x\n", pTxRxPars->txrxTxPktCnt);
++		RTW_INFO("[MPT], pTxRxPars->txrxTxPktInterval=0x%x\n", pTxRxPars->txrxTxPktInterval);
++		RTW_INFO("[MPT], pTxRxPars->txrxPayloadType=0x%x\n", pTxRxPars->txrxPayloadType);
++		RTW_INFO("[MPT], pTxRxPars->txrxPktType=0x%x\n", pTxRxPars->txrxPktType);
++		RTW_INFO("[MPT], pTxRxPars->txrxPayloadLen=0x%x\n", pTxRxPars->txrxPayloadLen);
++		RTW_INFO("[MPT], pTxRxPars->txrxPktHeader=0x%x\n", pTxRxPars->txrxPktHeader);
++		RTW_INFO("[MPT], pTxRxPars->txrxWhitenCoeff=0x%x\n", pTxRxPars->txrxWhitenCoeff);
++		bdAddr[0] = pTxRxPars->txrxBdaddr[5];
++		bdAddr[1] = pTxRxPars->txrxBdaddr[4];
++		bdAddr[2] = pTxRxPars->txrxBdaddr[3];
++		bdAddr[3] = pTxRxPars->txrxBdaddr[2];
++		bdAddr[4] = pTxRxPars->txrxBdaddr[1];
++		bdAddr[5] = pTxRxPars->txrxBdaddr[0];
++		RTW_INFO("[MPT], pTxRxPars->txrxBdaddr: %s", &bdAddr[0]);
++		RTW_INFO("[MPT], pTxRxPars->txrxTxGainIndex=0x%x\n", pTxRxPars->txrxTxGainIndex);
++	} else {
++		RTW_INFO("[MPT], Error!! pBtReq->paraLength=%d, correct Len=%d\n", pBtReq->paraLength, lenTxRx);
++		pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
++		return paraLen;
++	}
++
++	/*  */
++	/* execute lower layer opcodes */
++	/*  */
++
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_SET_PKT_HEADER;
++	if (pTxRxPars->txrxPktHeader > 0x3ffff) {
++		RTW_INFO("[MPT], Error!! pTxRxPars->txrxPktHeader=0x%x is out of range, (should be between 0x0~0x3ffff)\n", pTxRxPars->txrxPktHeader);
++		pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	} else {
++		h2cParaBuf[0] = (u1Byte)(pTxRxPars->txrxPktHeader & 0xff);
++		h2cParaBuf[1] = (u1Byte)((pTxRxPars->txrxPktHeader & 0xff00) >> 8);
++		h2cParaBuf[2] = (u1Byte)((pTxRxPars->txrxPktHeader & 0xff0000) >> 16);
++		h2cParaLen = 3;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_SET_PKT_TYPE_LEN;
++	{
++		u2Byte	payloadLenLimit = 0;
++		switch (pTxRxPars->txrxPktType) {
++		case MP_BT_PKT_DH1:
++			payloadLenLimit = 27 * 8;
++			break;
++		case MP_BT_PKT_DH3:
++			payloadLenLimit = 183 * 8;
++			break;
++		case MP_BT_PKT_DH5:
++			payloadLenLimit = 339 * 8;
++			break;
++		case MP_BT_PKT_2DH1:
++			payloadLenLimit = 54 * 8;
++			break;
++		case MP_BT_PKT_2DH3:
++			payloadLenLimit = 367 * 8;
++			break;
++		case MP_BT_PKT_2DH5:
++			payloadLenLimit = 679 * 8;
++			break;
++		case MP_BT_PKT_3DH1:
++			payloadLenLimit = 83 * 8;
++			break;
++		case MP_BT_PKT_3DH3:
++			payloadLenLimit = 552 * 8;
++			break;
++		case MP_BT_PKT_3DH5:
++			payloadLenLimit = 1021 * 8;
++			break;
++		case MP_BT_PKT_LE:
++			payloadLenLimit = 39 * 8;
++			break;
++		default: {
++			RTW_INFO("[MPT], Error!! Unknown pTxRxPars->txrxPktType=0x%x\n", pTxRxPars->txrxPktType);
++			pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++			return paraLen;
++		}
++		break;
++		}
++
++		if (pTxRxPars->txrxPayloadLen > payloadLenLimit) {
++			RTW_INFO("[MPT], Error!! pTxRxPars->txrxPayloadLen=0x%x, (should smaller than %d)\n",
++				 pTxRxPars->txrxPayloadLen, payloadLenLimit);
++			pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++			return paraLen;
++		}
++
++		h2cParaBuf[0] = pTxRxPars->txrxPktType;
++		h2cParaBuf[1] = (u1Byte)((pTxRxPars->txrxPayloadLen & 0xff));
++		h2cParaBuf[2] = (u1Byte)((pTxRxPars->txrxPayloadLen & 0xff00) >> 8);
++		h2cParaLen = 3;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_SET_PKT_CNT_L_PL_TYPE;
++	if (pTxRxPars->txrxPayloadType > MP_BT_PAYLOAD_MAX) {
++		RTW_INFO("[MPT], Error!! pTxRxPars->txrxPayloadType=0x%x, (should be between 0~4)\n", pTxRxPars->txrxPayloadType);
++		pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	} else {
++		h2cParaBuf[0] = (u1Byte)((pTxRxPars->txrxTxPktCnt & 0xff));
++		h2cParaBuf[1] = (u1Byte)((pTxRxPars->txrxTxPktCnt & 0xff00) >> 8);
++		h2cParaBuf[2] = pTxRxPars->txrxPayloadType;
++		h2cParaLen = 3;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_SET_PKT_CNT_H_PKT_INTV;
++	if (pTxRxPars->txrxTxPktInterval > 15) {
++		RTW_INFO("[MPT], Error!! pTxRxPars->txrxTxPktInterval=0x%x, (should be between 0~15)\n", pTxRxPars->txrxTxPktInterval);
++		pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	} else {
++		h2cParaBuf[0] = (u1Byte)((pTxRxPars->txrxTxPktCnt & 0xff0000) >> 16);
++		h2cParaBuf[1] = (u1Byte)((pTxRxPars->txrxTxPktCnt & 0xff000000) >> 24);
++		h2cParaBuf[2] = pTxRxPars->txrxTxPktInterval;
++		h2cParaLen = 3;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_SET_WHITENCOEFF;
++	{
++		h2cParaBuf[0] = pTxRxPars->txrxWhitenCoeff;
++		h2cParaLen = 1;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_SET_CHNL_TX_GAIN;
++	if ((pTxRxPars->txrxChannel > 78) ||
++	    (pTxRxPars->txrxTxGainIndex > 7)) {
++		RTW_INFO("[MPT], Error!! pTxRxPars->txrxChannel=0x%x, (should be between 0~78)\n", pTxRxPars->txrxChannel);
++		RTW_INFO("[MPT], Error!! pTxRxPars->txrxTxGainIndex=0x%x, (should be between 0~7)\n", pTxRxPars->txrxTxGainIndex);
++		pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	} else {
++		h2cParaBuf[0] = pTxRxPars->txrxChannel;
++		h2cParaBuf[1] = pTxRxPars->txrxTxGainIndex;
++		h2cParaLen = 2;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_SET_BD_ADDR_L;
++	if ((pTxRxPars->txrxBdaddr[0] == 0) &&
++	    (pTxRxPars->txrxBdaddr[1] == 0) &&
++	    (pTxRxPars->txrxBdaddr[2] == 0) &&
++	    (pTxRxPars->txrxBdaddr[3] == 0) &&
++	    (pTxRxPars->txrxBdaddr[4] == 0) &&
++	    (pTxRxPars->txrxBdaddr[5] == 0)) {
++		RTW_INFO("[MPT], Error!! pTxRxPars->txrxBdaddr=all zero\n");
++		pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	}
++	if ((pTxRxPars->txrxBdaddr[0] == 0xff) &&
++	    (pTxRxPars->txrxBdaddr[1] == 0xff) &&
++	    (pTxRxPars->txrxBdaddr[2] == 0xff) &&
++	    (pTxRxPars->txrxBdaddr[3] == 0xff) &&
++	    (pTxRxPars->txrxBdaddr[4] == 0xff) &&
++	    (pTxRxPars->txrxBdaddr[5] == 0xff)) {
++		RTW_INFO("[MPT], Error!! pTxRxPars->txrxBdaddr=all 0xf\n");
++		pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	}
++
++	{
++		h2cParaBuf[0] = pTxRxPars->txrxBdaddr[0];
++		h2cParaBuf[1] = pTxRxPars->txrxBdaddr[1];
++		h2cParaBuf[2] = pTxRxPars->txrxBdaddr[2];
++		h2cParaLen = 3;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++	btOpcode = BT_LO_OP_SET_BD_ADDR_H;
++	{
++		h2cParaBuf[0] = pTxRxPars->txrxBdaddr[3];
++		h2cParaBuf[1] = pTxRxPars->txrxBdaddr[4];
++		h2cParaBuf[2] = pTxRxPars->txrxBdaddr[5];
++		h2cParaLen = 3;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++	pBtRsp->status = BT_STATUS_SUCCESS;
++	return paraLen;
++}
++
++
++
++u2Byte
++mptbt_BtTestCtrl(
++	IN	PADAPTER		Adapter,
++	IN	PBT_REQ_CMD	pBtReq,
++	IN	PBT_RSP_CMD	pBtRsp
++)
++{
++	u1Byte				h2cParaBuf[6] = {0};
++	u1Byte				h2cParaLen = 0;
++	u2Byte				paraLen = 0;
++	u1Byte				retStatus = BT_STATUS_BT_OP_SUCCESS;
++	u1Byte				btOpcode;
++	u1Byte				btOpcodeVer = 0;
++	u1Byte				testCtrl = 0;
++
++	/*  */
++	/* check upper layer parameters */
++	/*  */
++
++	/* 1. check upper layer opcode version */
++	if (pBtReq->opCodeVer != 1) {
++		RTW_INFO("[MPT], Error!! Upper OP code version not match!!!\n");
++		pBtRsp->status = BT_STATUS_OPCODE_U_VERSION_MISMATCH;
++		return paraLen;
++	}
++	/* 2. check upper layer parameter length */
++	if (1 == pBtReq->paraLength) {
++		testCtrl = pBtReq->pParamStart[0];
++		RTW_INFO("[MPT], testCtrl=%d\n", testCtrl);
++	} else {
++		RTW_INFO("[MPT], Error!! wrong parameter length=%d (should be 1)\n", pBtReq->paraLength);
++		pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
++		return paraLen;
++	}
++
++	/*  */
++	/* execute lower layer opcodes */
++	/*  */
++
++	/* 1. fill h2c parameters	 */
++	/* check bt mode */
++	btOpcode = BT_LO_OP_TEST_CTRL;
++	if (testCtrl >= MP_BT_TEST_MAX) {
++		RTW_INFO("[MPT], Error!! testCtrl=0x%x, (should be between smaller or equal to 0x%x)\n",
++			 testCtrl, MP_BT_TEST_MAX - 1);
++		pBtRsp->status = BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	} else {
++		h2cParaBuf[0] = testCtrl;
++		h2cParaLen = 1;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++
++	/* 3. construct respond status code and data. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++	pBtRsp->status = BT_STATUS_SUCCESS;
++	return paraLen;
++}
++
++
++u2Byte
++mptbt_TestBT(
++	IN	PADAPTER		Adapter,
++	IN	PBT_REQ_CMD	pBtReq,
++	IN	PBT_RSP_CMD	pBtRsp
++)
++{
++
++	u1Byte				h2cParaBuf[6] = {0};
++	u1Byte				h2cParaLen = 0;
++	u2Byte				paraLen = 0;
++	u1Byte				retStatus = BT_STATUS_BT_OP_SUCCESS;
++	u1Byte				btOpcode;
++	u1Byte				btOpcodeVer = 0;
++	u1Byte				testCtrl = 0;
++
++	/* 1. fill h2c parameters	 */
++	btOpcode =  0x11;
++	h2cParaBuf[0] = 0x11;
++	h2cParaBuf[1] = 0x0;
++	h2cParaBuf[2] = 0x0;
++	h2cParaBuf[3] = 0x0;
++	h2cParaBuf[4] = 0x0;
++	h2cParaLen = 1;
++	/*	retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen); */
++	retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, h2cParaBuf, h2cParaLen);
++
++
++	/* 3. construct respond status code and data. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++	pBtRsp->status = BT_STATUS_SUCCESS;
++	return paraLen;
++}
++
++VOID
++mptbt_BtControlProcess(
++	PADAPTER	Adapter,
++	PVOID		pInBuf
++)
++{
++	u1Byte			H2C_Parameter[6] = {0};
++	PBT_H2C		pH2c = (PBT_H2C)&H2C_Parameter[0];
++	PMPT_CONTEXT	pMptCtx = &(Adapter->mppriv.MptCtx);
++	PBT_REQ_CMD	pBtReq = (PBT_REQ_CMD)pInBuf;
++	PBT_RSP_CMD	pBtRsp;
++	u1Byte			i;
++
++
++	RTW_INFO("[MPT], mptbt_BtControlProcess()=========>\n");
++
++	RTW_INFO("[MPT], input opCodeVer=%d\n", pBtReq->opCodeVer);
++	RTW_INFO("[MPT], input OpCode=%d\n", pBtReq->OpCode);
++	RTW_INFO("[MPT], paraLength=%d\n", pBtReq->paraLength);
++	if (pBtReq->paraLength) {
++		/* RTW_INFO("[MPT], parameters(hex):0x%x %d\n",&pBtReq->pParamStart[0], pBtReq->paraLength); */
++	}
++
++	_rtw_memset((void *)pMptCtx->mptOutBuf, 0, 100);
++	pMptCtx->mptOutLen = 4; /* length of (BT_RSP_CMD.status+BT_RSP_CMD.paraLength) */
++
++	pBtRsp = (PBT_RSP_CMD)pMptCtx->mptOutBuf;
++	pBtRsp->status = BT_STATUS_SUCCESS;
++	pBtRsp->paraLength = 0x0;
++
++	/* The following we should maintain the User OP codes sent by upper layer */
++	switch (pBtReq->OpCode) {
++	case BT_UP_OP_BT_READY:
++		RTW_INFO("[MPT], OPcode : [BT_READY]\n");
++		pBtRsp->paraLength = mptbt_BtReady(Adapter, pBtReq, pBtRsp);
++		break;
++	case BT_UP_OP_BT_SET_MODE:
++		RTW_INFO("[MPT], OPcode : [BT_SET_MODE]\n");
++		pBtRsp->paraLength = mptbt_BtSetMode(Adapter, pBtReq, pBtRsp);
++		break;
++	case BT_UP_OP_BT_SET_TX_RX_PARAMETER:
++		RTW_INFO("[MPT], OPcode : [BT_SET_TXRX_PARAMETER]\n");
++		pBtRsp->paraLength = mptbt_BtSetTxRxPars(Adapter, pBtReq, pBtRsp);
++		break;
++	case BT_UP_OP_BT_SET_GENERAL:
++		RTW_INFO("[MPT], OPcode : [BT_SET_GENERAL]\n");
++		pBtRsp->paraLength = mptbt_BtSetGeneral(Adapter, pBtReq, pBtRsp);
++		break;
++	case BT_UP_OP_BT_GET_GENERAL:
++		RTW_INFO("[MPT], OPcode : [BT_GET_GENERAL]\n");
++		pBtRsp->paraLength = mptbt_BtGetGeneral(Adapter, pBtReq, pBtRsp);
++		break;
++	case BT_UP_OP_BT_TEST_CTRL:
++		RTW_INFO("[MPT], OPcode : [BT_TEST_CTRL]\n");
++		pBtRsp->paraLength = mptbt_BtTestCtrl(Adapter, pBtReq, pBtRsp);
++		break;
++	case BT_UP_OP_TEST_BT:
++		RTW_INFO("[MPT], OPcode : [TEST_BT]\n");
++		pBtRsp->paraLength = mptbt_TestBT(Adapter, pBtReq, pBtRsp);
++		break;
++	default:
++		RTW_INFO("[MPT], Error!! OPcode : UNDEFINED!!!!\n");
++		pBtRsp->status = BT_STATUS_UNKNOWN_OPCODE_U;
++		pBtRsp->paraLength = 0x0;
++		break;
++	}
++
++	pMptCtx->mptOutLen += pBtRsp->paraLength;
++
++	RTW_INFO("[MPT], pMptCtx->mptOutLen=%d, pBtRsp->paraLength=%d\n", pMptCtx->mptOutLen, pBtRsp->paraLength);
++	RTW_INFO("[MPT], mptbt_BtControlProcess()<=========\n");
++}
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_btcoex.c b/drivers/net/wireless/rtl8723du/core/rtw_btcoex.c
+new file mode 100644
+index 0000000..0a5af62
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_btcoex.c
+@@ -0,0 +1,1720 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifdef CONFIG_BT_COEXIST
++
++#include <drv_types.h>
++#include <hal_btcoex.h>
++#include <hal_data.h>
++
++
++void rtw_btcoex_Initialize(PADAPTER padapter)
++{
++	hal_btcoex_Initialize(padapter);
++}
++
++void rtw_btcoex_PowerOnSetting(PADAPTER padapter)
++{
++	hal_btcoex_PowerOnSetting(padapter);
++}
++
++void rtw_btcoex_PreLoadFirmware(PADAPTER padapter)
++{
++	hal_btcoex_PreLoadFirmware(padapter);
++}
++
++void rtw_btcoex_HAL_Initialize(PADAPTER padapter, u8 bWifiOnly)
++{
++	hal_btcoex_InitHwConfig(padapter, bWifiOnly);
++}
++
++void rtw_btcoex_IpsNotify(PADAPTER padapter, u8 type)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++	hal_btcoex_IpsNotify(padapter, type);
++}
++
++void rtw_btcoex_LpsNotify(PADAPTER padapter, u8 type)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++	hal_btcoex_LpsNotify(padapter, type);
++}
++
++void rtw_btcoex_ScanNotify(PADAPTER padapter, u8 type)
++{
++	PHAL_DATA_TYPE	pHalData;
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++	PBT_MGNT	pBtMgnt = &pcoex_info->BtMgnt;
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (_FALSE == type) {
++		if (rtw_mi_buddy_check_fwstate(padapter, WIFI_SITE_MONITOR))
++			return;
++	}
++#endif
++
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	if (pBtMgnt->ExtConfig.bEnableWifiScanNotify)
++		rtw_btcoex_SendScanNotify(padapter, type);
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX	 */
++
++	hal_btcoex_ScanNotify(padapter, type);
++}
++
++void rtw_btcoex_ConnectNotify(PADAPTER padapter, u8 action)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++#ifdef DBG_CONFIG_ERROR_RESET
++	if (_TRUE == rtw_hal_sreset_inprogress(padapter)) {
++		RTW_INFO(FUNC_ADPT_FMT ": [BTCoex] under reset, skip notify!\n",
++			 FUNC_ADPT_ARG(padapter));
++		return;
++	}
++#endif /* DBG_CONFIG_ERROR_RESET */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (_FALSE == action) {
++		if (rtw_mi_buddy_check_fwstate(padapter, WIFI_UNDER_LINKING))
++			return;
++	}
++#endif
++
++	hal_btcoex_ConnectNotify(padapter, action);
++}
++
++void rtw_btcoex_MediaStatusNotify(PADAPTER padapter, u8 mediaStatus)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++#ifdef DBG_CONFIG_ERROR_RESET
++	if (_TRUE == rtw_hal_sreset_inprogress(padapter)) {
++		RTW_INFO(FUNC_ADPT_FMT ": [BTCoex] under reset, skip notify!\n",
++			 FUNC_ADPT_ARG(padapter));
++		return;
++	}
++#endif /* DBG_CONFIG_ERROR_RESET */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (RT_MEDIA_DISCONNECT == mediaStatus) {
++		if (rtw_mi_buddy_check_fwstate(padapter, WIFI_ASOC_STATE))
++			return;
++	}
++#endif /* CONFIG_CONCURRENT_MODE */
++
++	if ((RT_MEDIA_CONNECT == mediaStatus)
++	    && (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE))
++		rtw_hal_set_hwreg(padapter, HW_VAR_DL_RSVD_PAGE, NULL);
++
++	hal_btcoex_MediaStatusNotify(padapter, mediaStatus);
++}
++
++void rtw_btcoex_SpecialPacketNotify(PADAPTER padapter, u8 pktType)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++	hal_btcoex_SpecialPacketNotify(padapter, pktType);
++}
++
++void rtw_btcoex_IQKNotify(PADAPTER padapter, u8 state)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++	hal_btcoex_IQKNotify(padapter, state);
++}
++
++void rtw_btcoex_BtInfoNotify(PADAPTER padapter, u8 length, u8 *tmpBuf)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++	hal_btcoex_BtInfoNotify(padapter, length, tmpBuf);
++}
++
++void rtw_btcoex_BtMpRptNotify(PADAPTER padapter, u8 length, u8 *tmpBuf)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++	if (padapter->registrypriv.mp_mode == 1)
++		return;
++
++	hal_btcoex_BtMpRptNotify(padapter, length, tmpBuf);
++}
++
++void rtw_btcoex_SuspendNotify(PADAPTER padapter, u8 state)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++	hal_btcoex_SuspendNotify(padapter, state);
++}
++
++void rtw_btcoex_HaltNotify(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE	pHalData;
++	u8 do_halt = 1;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		do_halt = 0;
++
++	if (_FALSE == padapter->bup) {
++		RTW_INFO(FUNC_ADPT_FMT ": bup=%d Skip!\n",
++			 FUNC_ADPT_ARG(padapter), padapter->bup);
++		do_halt = 0;
++	}
++
++	if (rtw_is_surprise_removed(padapter)) {
++		RTW_INFO(FUNC_ADPT_FMT ": bSurpriseRemoved=%s Skip!\n",
++			FUNC_ADPT_ARG(padapter), rtw_is_surprise_removed(padapter) ? "True" : "False");
++		do_halt = 0;
++	}
++
++	hal_btcoex_HaltNotify(padapter, do_halt);
++}
++
++void rtw_btcoex_switchband_notify(u8 under_scan, u8 band_type)
++{
++	hal_btcoex_switchband_notify(under_scan, band_type);
++}
++
++void rtw_btcoex_SwitchBtTRxMask(PADAPTER padapter)
++{
++	hal_btcoex_SwitchBtTRxMask(padapter);
++}
++
++void rtw_btcoex_Switch(PADAPTER padapter, u8 enable)
++{
++	hal_btcoex_SetBTCoexist(padapter, enable);
++}
++
++u8 rtw_btcoex_IsBtDisabled(PADAPTER padapter)
++{
++	return hal_btcoex_IsBtDisabled(padapter);
++}
++
++void rtw_btcoex_Handler(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++#if defined(CONFIG_CONCURRENT_MODE)
++	if (padapter->adapter_type != PRIMARY_ADAPTER)
++		return;
++#endif
++
++
++
++	hal_btcoex_Hanlder(padapter);
++}
++
++s32 rtw_btcoex_IsBTCoexRejectAMPDU(PADAPTER padapter)
++{
++	s32 coexctrl;
++
++	coexctrl = hal_btcoex_IsBTCoexRejectAMPDU(padapter);
++
++	return coexctrl;
++}
++
++s32 rtw_btcoex_IsBTCoexCtrlAMPDUSize(PADAPTER padapter)
++{
++	s32 coexctrl;
++
++	coexctrl = hal_btcoex_IsBTCoexCtrlAMPDUSize(padapter);
++
++	return coexctrl;
++}
++
++u32 rtw_btcoex_GetAMPDUSize(PADAPTER padapter)
++{
++	u32 size;
++
++	size = hal_btcoex_GetAMPDUSize(padapter);
++
++	return size;
++}
++
++void rtw_btcoex_SetManualControl(PADAPTER padapter, u8 manual)
++{
++	if (_TRUE == manual)
++		hal_btcoex_SetManualControl(padapter, _TRUE);
++	else
++		hal_btcoex_SetManualControl(padapter, _FALSE);
++}
++
++u8 rtw_btcoex_1Ant(PADAPTER padapter)
++{
++	return hal_btcoex_1Ant(padapter);
++}
++
++u8 rtw_btcoex_IsBtControlLps(PADAPTER padapter)
++{
++	return hal_btcoex_IsBtControlLps(padapter);
++}
++
++u8 rtw_btcoex_IsLpsOn(PADAPTER padapter)
++{
++	return hal_btcoex_IsLpsOn(padapter);
++}
++
++u8 rtw_btcoex_RpwmVal(PADAPTER padapter)
++{
++	return hal_btcoex_RpwmVal(padapter);
++}
++
++u8 rtw_btcoex_LpsVal(PADAPTER padapter)
++{
++	return hal_btcoex_LpsVal(padapter);
++}
++
++u32 rtw_btcoex_GetRaMask(PADAPTER padapter)
++{
++	return hal_btcoex_GetRaMask(padapter);
++}
++
++void rtw_btcoex_RecordPwrMode(PADAPTER padapter, u8 *pCmdBuf, u8 cmdLen)
++{
++	hal_btcoex_RecordPwrMode(padapter, pCmdBuf, cmdLen);
++}
++
++void rtw_btcoex_DisplayBtCoexInfo(PADAPTER padapter, u8 *pbuf, u32 bufsize)
++{
++	hal_btcoex_DisplayBtCoexInfo(padapter, pbuf, bufsize);
++}
++
++void rtw_btcoex_SetDBG(PADAPTER padapter, u32 *pDbgModule)
++{
++	hal_btcoex_SetDBG(padapter, pDbgModule);
++}
++
++u32 rtw_btcoex_GetDBG(PADAPTER padapter, u8 *pStrBuf, u32 bufSize)
++{
++	return hal_btcoex_GetDBG(padapter, pStrBuf, bufSize);
++}
++
++u8 rtw_btcoex_IncreaseScanDeviceNum(PADAPTER padapter)
++{
++	return hal_btcoex_IncreaseScanDeviceNum(padapter);
++}
++
++u8 rtw_btcoex_IsBtLinkExist(PADAPTER padapter)
++{
++	return hal_btcoex_IsBtLinkExist(padapter);
++}
++
++void rtw_btcoex_SetBtPatchVersion(PADAPTER padapter, u16 btHciVer, u16 btPatchVer)
++{
++	hal_btcoex_SetBtPatchVersion(padapter, btHciVer, btPatchVer);
++}
++
++void rtw_btcoex_SetHciVersion(PADAPTER  padapter, u16 hciVersion)
++{
++	hal_btcoex_SetHciVersion(padapter, hciVersion);
++}
++
++void rtw_btcoex_StackUpdateProfileInfo(void)
++{
++	hal_btcoex_StackUpdateProfileInfo();
++}
++
++void rtw_btcoex_BTOffOnNotify(PADAPTER padapter, u8 bBTON)
++{
++	hal_btcoex_BTOffOnNotify(padapter, bBTON);
++}
++
++/* ==================================================
++ * Below Functions are called by BT-Coex
++ * ================================================== */
++void rtw_btcoex_rx_ampdu_apply(PADAPTER padapter)
++{
++	rtw_rx_ampdu_apply(padapter);
++}
++
++void rtw_btcoex_LPS_Enter(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrpriv;
++	u8 lpsVal;
++
++
++	pwrpriv = adapter_to_pwrctl(padapter);
++
++	pwrpriv->bpower_saving = _TRUE;
++	lpsVal = rtw_btcoex_LpsVal(padapter);
++	rtw_set_ps_mode(padapter, PS_MODE_MIN, 0, lpsVal, "BTCOEX");
++}
++
++void rtw_btcoex_LPS_Leave(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrpriv;
++
++
++	pwrpriv = adapter_to_pwrctl(padapter);
++
++	if (pwrpriv->pwr_mode != PS_MODE_ACTIVE) {
++		rtw_set_ps_mode(padapter, PS_MODE_ACTIVE, 0, 0, "BTCOEX");
++		LPS_RF_ON_check(padapter, 100);
++		pwrpriv->bpower_saving = _FALSE;
++	}
++}
++
++u16 rtw_btcoex_btreg_read(PADAPTER padapter, u8 type, u16 addr, u32 *data)
++{
++	return hal_btcoex_btreg_read(padapter, type, addr, data);
++}
++
++u16 rtw_btcoex_btreg_write(PADAPTER padapter, u8 type, u16 addr, u16 val)
++{
++	return hal_btcoex_btreg_write(padapter, type, addr, val);
++}
++
++u8 rtw_btcoex_get_bt_coexist(PADAPTER padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	return pHalData->EEPROMBluetoothCoexist;
++}
++
++u8 rtw_btcoex_get_chip_type(PADAPTER padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	return pHalData->EEPROMBluetoothType;
++}
++
++u8 rtw_btcoex_get_pg_ant_num(PADAPTER padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	return pHalData->EEPROMBluetoothAntNum == Ant_x2 ? 2 : 1;
++}
++
++u8 rtw_btcoex_get_pg_single_ant_path(PADAPTER padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	return pHalData->ant_path;
++}
++
++u8 rtw_btcoex_get_pg_rfe_type(PADAPTER padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	return pHalData->RFEType;
++}
++
++u8 rtw_btcoex_is_tfbga_package_type(PADAPTER padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++#ifdef CONFIG_RTL8723B
++	if ((pHalData->PackageType == PACKAGE_TFBGA79) || (pHalData->PackageType == PACKAGE_TFBGA80)
++		    || (pHalData->PackageType == PACKAGE_TFBGA90))
++		return _TRUE;
++#endif
++
++	return _FALSE;
++}
++
++u8 rtw_btcoex_get_ant_div_cfg(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++
++	return (pHalData->AntDivCfg == 0) ? _FALSE : _TRUE;
++}
++
++/* ==================================================
++ * Below Functions are BT-Coex socket related function
++ * ================================================== */
++
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++_adapter *pbtcoexadapter; /* = NULL; */ /* do not initialise globals to 0 or NULL */
++u8 rtw_btcoex_btinfo_cmd(_adapter *adapter, u8 *buf, u16 len)
++{
++	struct cmd_obj *ph2c;
++	struct drvextra_cmd_parm *pdrvextra_cmd_parm;
++	u8 *btinfo;
++	struct cmd_priv *pcmdpriv = &adapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((u8 *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	btinfo = rtw_zmalloc(len);
++	if (btinfo == NULL) {
++		rtw_mfree((u8 *)ph2c, sizeof(struct cmd_obj));
++		rtw_mfree((u8 *)pdrvextra_cmd_parm, sizeof(struct drvextra_cmd_parm));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = BTINFO_WK_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = len;
++	pdrvextra_cmd_parm->pbuf = btinfo;
++
++	_rtw_memcpy(btinfo, buf, len);
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++	return res;
++}
++
++u8 rtw_btcoex_send_event_to_BT(_adapter *padapter, u8 status,  u8 event_code, u8 opcode_low, u8 opcode_high, u8 *dbg_msg)
++{
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++
++	pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++	pEvent->EventCode = event_code;
++	pEvent->Data[0] = 0x1;	/* packet # */
++	pEvent->Data[1] = opcode_low;
++	pEvent->Data[2] = opcode_high;
++	len = len + 3;
++
++	/* Return parameters starts from here */
++	pRetPar = &pEvent->Data[len];
++	pRetPar[0] = status;		/* status */
++
++	len++;
++	pEvent->Length = len;
++
++	/* total tx event length + EventCode length + sizeof(length) */
++	tx_event_length = pEvent->Length + 2;
++#if 0
++	rtw_btcoex_dump_tx_msg((u8 *)pEvent, tx_event_length, dbg_msg);
++#endif
++	status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++
++	return status;
++}
++
++/*
++Ref:
++Realtek Wi-Fi Driver
++Host Controller Interface for
++Bluetooth 3.0 + HS V1.4 2013/02/07
++
++Window team code & BT team code
++ */
++
++
++u8 rtw_btcoex_parse_BT_info_notify_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++#define BT_INFO_LENGTH 8
++
++	u8 curPollEnable = pcmd[0];
++	u8 curPollTime = pcmd[1];
++	u8 btInfoReason = pcmd[2];
++	u8 btInfoLen = pcmd[3];
++	u8 btinfo[BT_INFO_LENGTH];
++
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	RTW_HCI_STATUS status = HCI_STATUS_SUCCESS;
++	rtw_HCI_event *pEvent;
++
++	/* RTW_INFO("%s\n",__func__);
++	RTW_INFO("current Poll Enable: %d, currrent Poll Time: %d\n",curPollEnable,curPollTime);
++	RTW_INFO("BT Info reason: %d, BT Info length: %d\n",btInfoReason,btInfoLen);
++	RTW_INFO("%02x:%02x:%02x:%02x:%02x:%02x:%02x:%02x\n"
++		,pcmd[4],pcmd[5],pcmd[6],pcmd[7],pcmd[8],pcmd[9],pcmd[10],pcmd[11]);*/
++
++	_rtw_memset(btinfo, 0, BT_INFO_LENGTH);
++
++#if 1
++	if (BT_INFO_LENGTH != btInfoLen) {
++		status = HCI_STATUS_INVALID_HCI_CMD_PARA_VALUE;
++		RTW_INFO("Error BT Info Length: %d\n", btInfoLen);
++		/* return _FAIL; */
++	} else
++#endif
++	{
++		if (0x1 == btInfoReason || 0x2 == btInfoReason) {
++			_rtw_memcpy(btinfo, &pcmd[4], btInfoLen);
++			btinfo[0] = btInfoReason;
++			rtw_btcoex_btinfo_cmd(padapter, btinfo, btInfoLen);
++		} else
++			RTW_INFO("Other BT info reason\n");
++	}
++
++	/* send complete event to BT */
++	{
++
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_BT_INFO_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_BT_INFO_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++#if 0
++		rtw_btcoex_dump_tx_msg((u8 *)pEvent, tx_event_length, "BT_info_event");
++#endif
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++}
++
++u8 rtw_btcoex_parse_BT_patch_ver_info_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++	RTW_HCI_STATUS status = HCI_STATUS_SUCCESS;
++	u16		btPatchVer = 0x0, btHciVer = 0x0;
++	/* u16		*pU2tmp; */
++
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++
++	btHciVer = pcmd[0] | pcmd[1] << 8;
++	btPatchVer = pcmd[2] | pcmd[3] << 8;
++
++
++	RTW_INFO("%s, cmd:%02x %02x %02x %02x\n", __func__, pcmd[0] , pcmd[1] , pcmd[2] , pcmd[3]);
++	RTW_INFO("%s, HCI Ver:%d, Patch Ver:%d\n", __func__, btHciVer, btPatchVer);
++
++	rtw_btcoex_SetBtPatchVersion(padapter, btHciVer, btPatchVer);
++
++
++	/* send complete event to BT */
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_BT_PATCH_VERSION_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_BT_PATCH_VERSION_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++#if 0
++		rtw_btcoex_dump_tx_msg((u8 *)pEvent, tx_event_length, "BT_patch_event");
++#endif
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++}
++
++u8 rtw_btcoex_parse_HCI_Ver_notify_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++	RTW_HCI_STATUS status = HCI_STATUS_SUCCESS;
++	u16 hciver = pcmd[0] | pcmd[1] << 8;
++
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++	PBT_MGNT	pBtMgnt = &pcoex_info->BtMgnt;
++	pBtMgnt->ExtConfig.HCIExtensionVer = hciver;
++	RTW_INFO("%s, HCI Version: %d\n", __func__, pBtMgnt->ExtConfig.HCIExtensionVer);
++	if (pBtMgnt->ExtConfig.HCIExtensionVer  < 4) {
++		status = HCI_STATUS_INVALID_HCI_CMD_PARA_VALUE;
++		RTW_INFO("%s, Version = %d, HCI Version < 4\n", __func__, pBtMgnt->ExtConfig.HCIExtensionVer);
++	} else
++		rtw_btcoex_SetHciVersion(padapter, hciver);
++	/* send complete event to BT */
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_EXTENSION_VERSION_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_EXTENSION_VERSION_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++
++}
++
++u8 rtw_btcoex_parse_WIFI_scan_notify_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++	RTW_HCI_STATUS status = HCI_STATUS_SUCCESS;
++
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++	PBT_MGNT	pBtMgnt = &pcoex_info->BtMgnt;
++	pBtMgnt->ExtConfig.bEnableWifiScanNotify = pcmd[0];
++	RTW_INFO("%s, bEnableWifiScanNotify: %d\n", __func__, pBtMgnt->ExtConfig.bEnableWifiScanNotify);
++
++	/* send complete event to BT */
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_ENABLE_WIFI_SCAN_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_ENABLE_WIFI_SCAN_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++}
++
++u8 rtw_btcoex_parse_HCI_link_status_notify_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++	RTW_HCI_STATUS	status = HCI_STATUS_SUCCESS;
++	struct bt_coex_info	*pcoex_info = &padapter->coex_info;
++	PBT_MGNT	pBtMgnt = &pcoex_info->BtMgnt;
++	/* PBT_DBG		pBtDbg=&padapter->MgntInfo.BtInfo.BtDbg; */
++	u8		i, numOfHandle = 0, numOfAcl = 0;
++	u16		conHandle;
++	u8		btProfile, btCoreSpec, linkRole;
++	u8		*pTriple;
++
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++
++	/* pBtDbg->dbgHciInfo.hciCmdCntLinkStatusNotify++; */
++	/* RT_DISP_DATA(FIOCTL, IOCTL_BT_HCICMD_EXT, "LinkStatusNotify, Hex Data :\n",  */
++	/*		&pHciCmd->Data[0], pHciCmd->Length); */
++
++	RTW_INFO("BTLinkStatusNotify\n");
++
++	/* Current only RTL8723 support this command. */
++	/* pBtMgnt->bSupportProfile = TRUE; */
++	pBtMgnt->bSupportProfile = _FALSE;
++
++	pBtMgnt->ExtConfig.NumberOfACL = 0;
++	pBtMgnt->ExtConfig.NumberOfSCO = 0;
++
++	numOfHandle = pcmd[0];
++	/* RT_DISP(FIOCTL, IOCTL_BT_HCICMD_EXT, ("numOfHandle = 0x%x\n", numOfHandle)); */
++	/* RT_DISP(FIOCTL, IOCTL_BT_HCICMD_EXT, ("HCIExtensionVer = %d\n", pBtMgnt->ExtConfig.HCIExtensionVer)); */
++	RTW_INFO("numOfHandle = 0x%x\n", numOfHandle);
++	RTW_INFO("HCIExtensionVer = %d\n", pBtMgnt->ExtConfig.HCIExtensionVer);
++
++	pTriple = &pcmd[1];
++	for (i = 0; i < numOfHandle; i++) {
++		if (pBtMgnt->ExtConfig.HCIExtensionVer < 1) {
++			conHandle = *((u8 *)&pTriple[0]);
++			btProfile = pTriple[2];
++			btCoreSpec = pTriple[3];
++			if (BT_PROFILE_SCO == btProfile)
++				pBtMgnt->ExtConfig.NumberOfSCO++;
++			else {
++				pBtMgnt->ExtConfig.NumberOfACL++;
++				pBtMgnt->ExtConfig.aclLink[i].ConnectHandle = conHandle;
++				pBtMgnt->ExtConfig.aclLink[i].BTProfile = btProfile;
++				pBtMgnt->ExtConfig.aclLink[i].BTCoreSpec = btCoreSpec;
++			}
++			/* RT_DISP(FIOCTL, IOCTL_BT_HCICMD_EXT, */
++			/*	("Connection_Handle=0x%x, BTProfile=%d, BTSpec=%d\n", */
++			/*		conHandle, btProfile, btCoreSpec)); */
++			RTW_INFO("Connection_Handle=0x%x, BTProfile=%d, BTSpec=%d\n", conHandle, btProfile, btCoreSpec);
++			pTriple += 4;
++		} else if (pBtMgnt->ExtConfig.HCIExtensionVer >= 1) {
++			conHandle = *((pu2Byte)&pTriple[0]);
++			btProfile = pTriple[2];
++			btCoreSpec = pTriple[3];
++			linkRole = pTriple[4];
++			if (BT_PROFILE_SCO == btProfile)
++				pBtMgnt->ExtConfig.NumberOfSCO++;
++			else {
++				pBtMgnt->ExtConfig.NumberOfACL++;
++				pBtMgnt->ExtConfig.aclLink[i].ConnectHandle = conHandle;
++				pBtMgnt->ExtConfig.aclLink[i].BTProfile = btProfile;
++				pBtMgnt->ExtConfig.aclLink[i].BTCoreSpec = btCoreSpec;
++				pBtMgnt->ExtConfig.aclLink[i].linkRole = linkRole;
++			}
++			/* RT_DISP(FIOCTL, IOCTL_BT_HCICMD_EXT, */
++			RTW_INFO("Connection_Handle=0x%x, BTProfile=%d, BTSpec=%d, LinkRole=%d\n",
++				 conHandle, btProfile, btCoreSpec, linkRole);
++			pTriple += 5;
++		}
++	}
++	rtw_btcoex_StackUpdateProfileInfo();
++
++	/* send complete event to BT */
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_LINK_STATUS_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_LINK_STATUS_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++
++
++}
++
++u8 rtw_btcoex_parse_HCI_BT_coex_notify_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++	RTW_HCI_STATUS	status = HCI_STATUS_SUCCESS;
++
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_BT_COEX_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_BT_COEX_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++}
++
++u8 rtw_btcoex_parse_HCI_BT_operation_notify_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++	RTW_HCI_STATUS	status = HCI_STATUS_SUCCESS;
++
++	RTW_INFO("%s, OP code: %d\n", __func__, pcmd[0]);
++
++	switch (pcmd[0]) {
++	case HCI_BT_OP_NONE:
++		RTW_INFO("[bt operation] : Operation None!!\n");
++		break;
++	case HCI_BT_OP_INQUIRY_START:
++		RTW_INFO("[bt operation] : Inquiry start!!\n");
++		break;
++	case HCI_BT_OP_INQUIRY_FINISH:
++		RTW_INFO("[bt operation] : Inquiry finished!!\n");
++		break;
++	case HCI_BT_OP_PAGING_START:
++		RTW_INFO("[bt operation] : Paging is started!!\n");
++		break;
++	case HCI_BT_OP_PAGING_SUCCESS:
++		RTW_INFO("[bt operation] : Paging complete successfully!!\n");
++		break;
++	case HCI_BT_OP_PAGING_UNSUCCESS:
++		RTW_INFO("[bt operation] : Paging complete unsuccessfully!!\n");
++		break;
++	case HCI_BT_OP_PAIRING_START:
++		RTW_INFO("[bt operation] : Pairing start!!\n");
++		break;
++	case HCI_BT_OP_PAIRING_FINISH:
++		RTW_INFO("[bt operation] : Pairing finished!!\n");
++		break;
++	case HCI_BT_OP_BT_DEV_ENABLE:
++		RTW_INFO("[bt operation] : BT Device is enabled!!\n");
++		break;
++	case HCI_BT_OP_BT_DEV_DISABLE:
++		RTW_INFO("[bt operation] : BT Device is disabled!!\n");
++		break;
++	default:
++		RTW_INFO("[bt operation] : Unknown, error!!\n");
++		break;
++	}
++
++	/* send complete event to BT */
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_BT_OPERATION_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_BT_OPERATION_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++}
++
++u8 rtw_btcoex_parse_BT_AFH_MAP_notify_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++	RTW_HCI_STATUS	status = HCI_STATUS_SUCCESS;
++
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_BT_AFH_MAP_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_BT_AFH_MAP_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++}
++
++u8 rtw_btcoex_parse_BT_register_val_notify_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++	RTW_HCI_STATUS	status = HCI_STATUS_SUCCESS;
++
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_BT_REGISTER_VALUE_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_BT_REGISTER_VALUE_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++}
++
++u8 rtw_btcoex_parse_HCI_BT_abnormal_notify_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++	RTW_HCI_STATUS	status = HCI_STATUS_SUCCESS;
++
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_BT_ABNORMAL_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_BT_ABNORMAL_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++}
++
++u8 rtw_btcoex_parse_HCI_query_RF_status_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++	RTW_HCI_STATUS	status = HCI_STATUS_SUCCESS;
++
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_QUERY_RF_STATUS, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_QUERY_RF_STATUS, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++}
++
++/*****************************************
++* HCI cmd format :
++*| 15 - 0						|
++*| OPcode (OCF|OGF<<10)		|
++*| 15 - 8		|7 - 0			|
++*|Cmd para	|Cmd para Length	|
++*|Cmd para......				|
++******************************************/
++
++/* bit 0  1  2  3  4  5  6  7  8  9 10 11 12 13 14 15
++ *	 |	OCF			             |	   OGF       | */
++void rtw_btcoex_parse_hci_extend_cmd(_adapter *padapter, u8 *pcmd, u16 len, const u16 hci_OCF)
++{
++
++	RTW_INFO("%s: OCF: %x\n", __func__, hci_OCF);
++	switch (hci_OCF) {
++	case HCI_EXTENSION_VERSION_NOTIFY:
++		RTW_INFO("HCI_EXTENSION_VERSION_NOTIFY\n");
++		rtw_btcoex_parse_HCI_Ver_notify_cmd(padapter, pcmd, len);
++		break;
++	case HCI_LINK_STATUS_NOTIFY:
++		RTW_INFO("HCI_LINK_STATUS_NOTIFY\n");
++		rtw_btcoex_parse_HCI_link_status_notify_cmd(padapter, pcmd, len);
++		break;
++	case HCI_BT_OPERATION_NOTIFY:
++		/* only for 8723a 2ant */
++		RTW_INFO("HCI_BT_OPERATION_NOTIFY\n");
++		rtw_btcoex_parse_HCI_BT_operation_notify_cmd(padapter, pcmd, len);
++		/*  */
++		break;
++	case HCI_ENABLE_WIFI_SCAN_NOTIFY:
++		RTW_INFO("HCI_ENABLE_WIFI_SCAN_NOTIFY\n");
++		rtw_btcoex_parse_WIFI_scan_notify_cmd(padapter, pcmd, len);
++		break;
++	case HCI_QUERY_RF_STATUS:
++		/* only for 8723b 2ant */
++		RTW_INFO("HCI_QUERY_RF_STATUS\n");
++		rtw_btcoex_parse_HCI_query_RF_status_cmd(padapter, pcmd, len);
++		break;
++	case HCI_BT_ABNORMAL_NOTIFY:
++		RTW_INFO("HCI_BT_ABNORMAL_NOTIFY\n");
++		rtw_btcoex_parse_HCI_BT_abnormal_notify_cmd(padapter, pcmd, len);
++		break;
++	case HCI_BT_INFO_NOTIFY:
++		RTW_INFO("HCI_BT_INFO_NOTIFY\n");
++		rtw_btcoex_parse_BT_info_notify_cmd(padapter, pcmd, len);
++		break;
++	case HCI_BT_COEX_NOTIFY:
++		RTW_INFO("HCI_BT_COEX_NOTIFY\n");
++		rtw_btcoex_parse_HCI_BT_coex_notify_cmd(padapter, pcmd, len);
++		break;
++	case HCI_BT_PATCH_VERSION_NOTIFY:
++		RTW_INFO("HCI_BT_PATCH_VERSION_NOTIFY\n");
++		rtw_btcoex_parse_BT_patch_ver_info_cmd(padapter, pcmd, len);
++		break;
++	case HCI_BT_AFH_MAP_NOTIFY:
++		RTW_INFO("HCI_BT_AFH_MAP_NOTIFY\n");
++		rtw_btcoex_parse_BT_AFH_MAP_notify_cmd(padapter, pcmd, len);
++		break;
++	case HCI_BT_REGISTER_VALUE_NOTIFY:
++		RTW_INFO("HCI_BT_REGISTER_VALUE_NOTIFY\n");
++		rtw_btcoex_parse_BT_register_val_notify_cmd(padapter, pcmd, len);
++		break;
++	default:
++		RTW_INFO("ERROR!!! Unknown OCF: %x\n", hci_OCF);
++		break;
++
++	}
++}
++
++void rtw_btcoex_parse_hci_cmd(_adapter *padapter, u8 *pcmd, u16 len)
++{
++	u16 opcode = pcmd[0] | pcmd[1] << 8;
++	u16 hci_OGF = HCI_OGF(opcode);
++	u16 hci_OCF = HCI_OCF(opcode);
++	u8 cmdlen = len - 3;
++	u8 pare_len = pcmd[2];
++
++	RTW_INFO("%s OGF: %x,OCF: %x\n", __func__, hci_OGF, hci_OCF);
++	switch (hci_OGF) {
++	case OGF_EXTENSION:
++		RTW_INFO("HCI_EXTENSION_CMD_OGF\n");
++		rtw_btcoex_parse_hci_extend_cmd(padapter, &pcmd[3], cmdlen, hci_OCF);
++		break;
++	default:
++		RTW_INFO("Other OGF: %x\n", hci_OGF);
++		break;
++	}
++}
++
++u16 rtw_btcoex_parse_recv_data(u8 *msg, u8 msg_size)
++{
++	u8 cmp_msg1[32] = attend_ack;
++	u8 cmp_msg2[32] = leave_ack;
++	u8 cmp_msg3[32] = bt_leave;
++	u8 cmp_msg4[32] = invite_req;
++	u8 cmp_msg5[32] = attend_req;
++	u8 cmp_msg6[32] = invite_rsp;
++	u8 res = OTHER;
++
++	if (_rtw_memcmp(cmp_msg1, msg, msg_size) == _TRUE) {
++		/*RTW_INFO("%s, msg:%s\n",__func__,msg);*/
++		res = RX_ATTEND_ACK;
++	} else if (_rtw_memcmp(cmp_msg2, msg, msg_size) == _TRUE) {
++		/*RTW_INFO("%s, msg:%s\n",__func__,msg);*/
++		res = RX_LEAVE_ACK;
++	} else if (_rtw_memcmp(cmp_msg3, msg, msg_size) == _TRUE) {
++		/*RTW_INFO("%s, msg:%s\n",__func__,msg);*/
++		res = RX_BT_LEAVE;
++	} else if (_rtw_memcmp(cmp_msg4, msg, msg_size) == _TRUE) {
++		/*RTW_INFO("%s, msg:%s\n",__func__,msg);*/
++		res = RX_INVITE_REQ;
++	} else if (_rtw_memcmp(cmp_msg5, msg, msg_size) == _TRUE)
++		res = RX_ATTEND_REQ;
++	else if (_rtw_memcmp(cmp_msg6, msg, msg_size) == _TRUE)
++		res = RX_INVITE_RSP;
++	else {
++		/*RTW_INFO("%s, %s\n", __func__, msg);*/
++		res = OTHER;
++	}
++
++	/*RTW_INFO("%s, res:%d\n", __func__, res);*/
++
++	return res;
++}
++
++void rtw_btcoex_recvmsgbysocket(void *data)
++{
++	u8 recv_data[255];
++	u8 tx_msg[255] = leave_ack;
++	u32 len = 0;
++	u16 recv_length = 0;
++	u16 parse_res = 0;
++#if 0
++	u8 para_len = 0, polling_enable = 0, poling_interval = 0, reason = 0, btinfo_len = 0;
++	u8 btinfo[BT_INFO_LEN] = {0};
++#endif
++
++	struct bt_coex_info *pcoex_info = NULL;
++	struct sock *sk = NULL;
++	struct sk_buff *skb = NULL;
++
++	/*RTW_INFO("%s\n",__func__);*/
++
++	if (pbtcoexadapter == NULL) {
++		RTW_INFO("%s: btcoexadapter NULL!\n", __func__);
++		return;
++	}
++
++	pcoex_info = &pbtcoexadapter->coex_info;
++	sk = pcoex_info->sk_store;
++
++	if (sk == NULL) {
++		RTW_INFO("%s: critical error when receive socket data!\n", __func__);
++		return;
++	}
++
++	len = skb_queue_len(&sk->sk_receive_queue);
++	while (len > 0) {
++		skb = skb_dequeue(&sk->sk_receive_queue);
++
++		/*important: cut the udp header from skb->data! header length is 8 byte*/
++		recv_length = skb->len - 8;
++		_rtw_memset(recv_data, 0, sizeof(recv_data));
++		_rtw_memcpy(recv_data, skb->data + 8, recv_length);
++
++		parse_res = rtw_btcoex_parse_recv_data(recv_data, recv_length);
++#if 0
++		if (RX_ATTEND_ACK == parse_res) {
++			/* attend ack */
++			pcoex_info->BT_attend = _TRUE;
++			RTW_INFO("RX_ATTEND_ACK!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++		} else if (RX_ATTEND_REQ == parse_res) {
++			/* attend req from BT */
++			pcoex_info->BT_attend = _TRUE;
++			RTW_INFO("RX_BT_ATTEND_REQ!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++			rtw_btcoex_sendmsgbysocket(pbtcoexadapter, attend_ack, sizeof(attend_ack), _FALSE);
++		} else if (RX_INVITE_REQ == parse_res) {
++			/* invite req from BT */
++			pcoex_info->BT_attend = _TRUE;
++			RTW_INFO("RX_INVITE_REQ!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++			rtw_btcoex_sendmsgbysocket(pbtcoexadapter, invite_rsp, sizeof(invite_rsp), _FALSE);
++		} else if (RX_INVITE_RSP == parse_res) {
++			/* invite rsp */
++			pcoex_info->BT_attend = _TRUE;
++			RTW_INFO("RX_INVITE_RSP!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++		} else if (RX_LEAVE_ACK == parse_res) {
++			/* mean BT know wifi  will leave */
++			pcoex_info->BT_attend = _FALSE;
++			RTW_INFO("RX_LEAVE_ACK!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++		} else if (RX_BT_LEAVE == parse_res) {
++			/* BT leave */
++			rtw_btcoex_sendmsgbysocket(pbtcoexadapter, leave_ack, sizeof(leave_ack), _FALSE); /*  no ack */
++			pcoex_info->BT_attend = _FALSE;
++			RTW_INFO("RX_BT_LEAVE!sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++		} else {
++			/* todo: check if recv data are really hci cmds */
++			if (_TRUE == pcoex_info->BT_attend)
++				rtw_btcoex_parse_hci_cmd(pbtcoexadapter, recv_data, recv_length);
++		}
++#endif
++		switch (parse_res) {
++		case RX_ATTEND_ACK:
++			/* attend ack */
++			pcoex_info->BT_attend = _TRUE;
++			RTW_INFO("RX_ATTEND_ACK!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++			rtw_btcoex_BTOffOnNotify(pbtcoexadapter, pcoex_info->BT_attend);
++			break;
++
++		case RX_ATTEND_REQ:
++			pcoex_info->BT_attend = _TRUE;
++			RTW_INFO("RX_BT_ATTEND_REQ!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++			rtw_btcoex_sendmsgbysocket(pbtcoexadapter, attend_ack, sizeof(attend_ack), _FALSE);
++			rtw_btcoex_BTOffOnNotify(pbtcoexadapter, pcoex_info->BT_attend);
++			break;
++
++		case RX_INVITE_REQ:
++			/* invite req from BT */
++			pcoex_info->BT_attend = _TRUE;
++			RTW_INFO("RX_INVITE_REQ!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++			rtw_btcoex_sendmsgbysocket(pbtcoexadapter, invite_rsp, sizeof(invite_rsp), _FALSE);
++			rtw_btcoex_BTOffOnNotify(pbtcoexadapter, pcoex_info->BT_attend);
++			break;
++
++		case RX_INVITE_RSP:
++			/*invite rsp*/
++			pcoex_info->BT_attend = _TRUE;
++			RTW_INFO("RX_INVITE_RSP!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++			rtw_btcoex_BTOffOnNotify(pbtcoexadapter, pcoex_info->BT_attend);
++			break;
++
++		case RX_LEAVE_ACK:
++			/* mean BT know wifi  will leave */
++			pcoex_info->BT_attend = _FALSE;
++			RTW_INFO("RX_LEAVE_ACK!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++			rtw_btcoex_BTOffOnNotify(pbtcoexadapter, pcoex_info->BT_attend);
++			break;
++
++		case RX_BT_LEAVE:
++			/* BT leave */
++			rtw_btcoex_sendmsgbysocket(pbtcoexadapter, leave_ack, sizeof(leave_ack), _FALSE); /* no ack */
++			pcoex_info->BT_attend = _FALSE;
++			RTW_INFO("RX_BT_LEAVE!sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++			rtw_btcoex_BTOffOnNotify(pbtcoexadapter, pcoex_info->BT_attend);
++			break;
++
++		default:
++			if (_TRUE == pcoex_info->BT_attend)
++				rtw_btcoex_parse_hci_cmd(pbtcoexadapter, recv_data, recv_length);
++			else
++				RTW_INFO("ERROR!! BT is UP\n");
++			break;
++
++		}
++
++		len--;
++		kfree_skb(skb);
++	}
++}
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 15, 0))
++	void rtw_btcoex_recvmsg_init(struct sock *sk_in, s32 bytes)
++#else
++	void rtw_btcoex_recvmsg_init(struct sock *sk_in)
++#endif
++{
++	struct bt_coex_info *pcoex_info = NULL;
++
++	if (pbtcoexadapter == NULL) {
++		RTW_INFO("%s: btcoexadapter NULL\n", __func__);
++		return;
++	}
++	pcoex_info = &pbtcoexadapter->coex_info;
++	pcoex_info->sk_store = sk_in;
++	if (pcoex_info->btcoex_wq != NULL)
++		queue_delayed_work(pcoex_info->btcoex_wq, &pcoex_info->recvmsg_work, 0);
++	else
++		RTW_INFO("%s: BTCOEX workqueue NULL\n", __func__);
++}
++
++u8 rtw_btcoex_sendmsgbysocket(_adapter *padapter, u8 *msg, u8 msg_size, bool force)
++{
++	u8 error;
++	struct msghdr	udpmsg;
++	mm_segment_t	oldfs;
++	struct iovec	iov;
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++
++	/* RTW_INFO("%s: msg:%s, force:%s\n", __func__, msg, force == _TRUE?"TRUE":"FALSE"); */
++	if (_FALSE == force) {
++		if (_FALSE == pcoex_info->BT_attend) {
++			RTW_INFO("TX Blocked: WiFi-BT disconnected\n");
++			return _FAIL;
++		}
++	}
++
++	iov.iov_base	 = (void *)msg;
++	iov.iov_len	 = msg_size;
++	udpmsg.msg_name	 = &pcoex_info->bt_sockaddr;
++	udpmsg.msg_namelen	= sizeof(struct sockaddr_in);
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 19, 0))
++	/* referece:sock_xmit in kernel code
++	 * WRITE for sock_sendmsg, READ for sock_recvmsg
++	 * third parameter for msg_iovlen
++	 * last parameter for iov_len
++	 */
++	iov_iter_init(&udpmsg.msg_iter, WRITE, &iov, 1, msg_size);
++#else
++	udpmsg.msg_iov	 = &iov;
++	udpmsg.msg_iovlen	= 1;
++#endif
++	udpmsg.msg_control	= NULL;
++	udpmsg.msg_controllen = 0;
++	udpmsg.msg_flags	= MSG_DONTWAIT | MSG_NOSIGNAL;
++	oldfs = get_fs();
++	set_fs(KERNEL_DS);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 1, 0))
++	error = sock_sendmsg(pcoex_info->udpsock, &udpmsg);
++#else
++	error = sock_sendmsg(pcoex_info->udpsock, &udpmsg, msg_size);
++#endif
++	set_fs(oldfs);
++	if (error < 0) {
++		RTW_INFO("Error when sendimg msg, error:%d\n", error);
++		return _FAIL;
++	} else
++		return _SUCCESS;
++}
++
++u8 rtw_btcoex_create_kernel_socket(_adapter *padapter)
++{
++	s8 kernel_socket_err;
++	u8 tx_msg[255] = attend_req;
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++	s32 sock_reuse = 1;
++	u8 status = _FAIL;
++
++	RTW_INFO("%s CONNECT_PORT %d\n", __func__, CONNECT_PORT);
++
++	if (NULL == pcoex_info) {
++		RTW_INFO("coex_info: NULL\n");
++		status =  _FAIL;
++	}
++
++	kernel_socket_err = sock_create(PF_INET, SOCK_DGRAM, 0, &pcoex_info->udpsock);
++
++	if (kernel_socket_err < 0) {
++		RTW_INFO("Error during creation of socket error:%d\n", kernel_socket_err);
++		status = _FAIL;
++	} else {
++		_rtw_memset(&(pcoex_info->wifi_sockaddr), 0, sizeof(pcoex_info->wifi_sockaddr));
++		pcoex_info->wifi_sockaddr.sin_family = AF_INET;
++		pcoex_info->wifi_sockaddr.sin_port = htons(CONNECT_PORT);
++		pcoex_info->wifi_sockaddr.sin_addr.s_addr = htonl(INADDR_LOOPBACK);
++
++		_rtw_memset(&(pcoex_info->bt_sockaddr), 0, sizeof(pcoex_info->bt_sockaddr));
++		pcoex_info->bt_sockaddr.sin_family = AF_INET;
++		pcoex_info->bt_sockaddr.sin_port = htons(CONNECT_PORT_BT);
++		pcoex_info->bt_sockaddr.sin_addr.s_addr = htonl(INADDR_LOOPBACK);
++
++		pcoex_info->sk_store = NULL;
++		kernel_socket_err = pcoex_info->udpsock->ops->bind(pcoex_info->udpsock, (struct sockaddr *)&pcoex_info->wifi_sockaddr,
++				    sizeof(pcoex_info->wifi_sockaddr));
++		if (kernel_socket_err == 0) {
++			RTW_INFO("binding socket success\n");
++			pcoex_info->udpsock->sk->sk_data_ready = rtw_btcoex_recvmsg_init;
++			pcoex_info->sock_open |=  KERNEL_SOCKET_OK;
++			pcoex_info->BT_attend = _FALSE;
++			RTW_INFO("WIFI sending attend_req\n");
++			rtw_btcoex_sendmsgbysocket(padapter, attend_req, sizeof(attend_req), _TRUE);
++			status = _SUCCESS;
++		} else {
++			pcoex_info->BT_attend = _FALSE;
++			sock_release(pcoex_info->udpsock); /* bind fail release socket */
++			RTW_INFO("Error binding socket: %d\n", kernel_socket_err);
++			status = _FAIL;
++		}
++
++	}
++
++	return status;
++}
++
++void rtw_btcoex_close_kernel_socket(_adapter *padapter)
++{
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++	if (pcoex_info->sock_open & KERNEL_SOCKET_OK) {
++		RTW_INFO("release kernel socket\n");
++		sock_release(pcoex_info->udpsock);
++		pcoex_info->sock_open &= ~(KERNEL_SOCKET_OK);
++		if (_TRUE == pcoex_info->BT_attend)
++			pcoex_info->BT_attend = _FALSE;
++
++		RTW_INFO("sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++	}
++}
++
++void rtw_btcoex_init_socket(_adapter *padapter)
++{
++
++	u8 is_invite = _FALSE;
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++	RTW_INFO("%s\n", __func__);
++	if (_FALSE == pcoex_info->is_exist) {
++		_rtw_memset(pcoex_info, 0, sizeof(struct bt_coex_info));
++		pcoex_info->btcoex_wq = create_workqueue("BTCOEX");
++		INIT_DELAYED_WORK(&pcoex_info->recvmsg_work,
++				  (void *)rtw_btcoex_recvmsgbysocket);
++		pbtcoexadapter = padapter;
++		/* We expect BT is off if BT don't send ack to wifi */
++		RTW_INFO("We expect BT is off if BT send ack to wifi\n");
++		rtw_btcoex_BTOffOnNotify(pbtcoexadapter, _FALSE);
++		if (rtw_btcoex_create_kernel_socket(padapter) == _SUCCESS)
++			pcoex_info->is_exist = _TRUE;
++		else {
++			pcoex_info->is_exist = _FALSE;
++			pbtcoexadapter = NULL;
++		}
++
++		RTW_INFO("%s: pbtcoexadapter:%p, coex_info->is_exist: %s\n"
++			, __func__, pbtcoexadapter, pcoex_info->is_exist == _TRUE ? "TRUE" : "FALSE");
++	}
++}
++
++void rtw_btcoex_close_socket(_adapter *padapter)
++{
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++
++	RTW_INFO("%s--coex_info->is_exist: %s, pcoex_info->BT_attend:%s\n"
++		, __func__, pcoex_info->is_exist == _TRUE ? "TRUE" : "FALSE", pcoex_info->BT_attend == _TRUE ? "TRUE" : "FALSE");
++
++	if (_TRUE == pcoex_info->is_exist) {
++		if (_TRUE == pcoex_info->BT_attend) {
++			/*inform BT wifi leave*/
++			rtw_btcoex_sendmsgbysocket(padapter, wifi_leave, sizeof(wifi_leave), _FALSE);
++			msleep(50);
++		}
++
++		if (pcoex_info->btcoex_wq != NULL) {
++			flush_workqueue(pcoex_info->btcoex_wq);
++			destroy_workqueue(pcoex_info->btcoex_wq);
++		}
++
++		rtw_btcoex_close_kernel_socket(padapter);
++		pbtcoexadapter = NULL;
++		pcoex_info->is_exist = _FALSE;
++	}
++}
++
++void rtw_btcoex_dump_tx_msg(u8 *tx_msg, u8 len, u8 *msg_name)
++{
++	u8	i = 0;
++	RTW_INFO("======> Msg name: %s\n", msg_name);
++	for (i = 0; i < len; i++)
++		printk("%02x ", tx_msg[i]);
++	printk("\n");
++	RTW_INFO("Msg name: %s <======\n", msg_name);
++}
++
++/* Porting from Windows team */
++void rtw_btcoex_SendEventExtBtCoexControl(PADAPTER padapter, u8 bNeedDbgRsp, u8 dataLen, void *pData)
++{
++	u8			len = 0, tx_event_length = 0;
++	u8 			localBuf[32] = "";
++	u8			*pRetPar;
++	u8			opCode = 0;
++	u8			*pInBuf = (pu1Byte)pData;
++	u8			*pOpCodeContent;
++	rtw_HCI_event *pEvent;
++
++	opCode = pInBuf[0];
++
++	RTW_INFO("%s, OPCode:%02x\n", __func__, opCode);
++
++	pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++	/* len += bthci_ExtensionEventHeaderRtk(&localBuf[0], */
++	/*	HCI_EVENT_EXT_BT_COEX_CONTROL); */
++	pEvent->EventCode = HCI_EVENT_EXTENSION_RTK;
++	pEvent->Data[0] = HCI_EVENT_EXT_BT_COEX_CONTROL;	/* extension event code */
++	len++;
++
++	/* Return parameters starts from here */
++	pRetPar = &pEvent->Data[len];
++	_rtw_memcpy(&pRetPar[0], pData, dataLen);
++
++	len += dataLen;
++
++	pEvent->Length = len;
++
++	/* total tx event length + EventCode length + sizeof(length) */
++	tx_event_length = pEvent->Length + 2;
++#if 0
++	rtw_btcoex_dump_tx_msg((u8 *)pEvent, tx_event_length, "BT COEX CONTROL", _FALSE);
++#endif
++	rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++
++}
++
++/* Porting from Windows team */
++void rtw_btcoex_SendEventExtBtInfoControl(PADAPTER padapter, u8 dataLen, void *pData)
++{
++	rtw_HCI_event *pEvent;
++	u8			*pRetPar;
++	u8			len = 0, tx_event_length = 0;
++	u8 			localBuf[32] = "";
++
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++	PBT_MGNT		pBtMgnt = &pcoex_info->BtMgnt;
++
++	/* RTW_INFO("%s\n",__func__);*/
++	if (pBtMgnt->ExtConfig.HCIExtensionVer < 4) { /* not support */
++		RTW_INFO("ERROR: HCIExtensionVer = %d, HCIExtensionVer<4 !!!!\n", pBtMgnt->ExtConfig.HCIExtensionVer);
++		return;
++	}
++
++	pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++	/* len += bthci_ExtensionEventHeaderRtk(&localBuf[0], */
++	/*		HCI_EVENT_EXT_BT_INFO_CONTROL); */
++	pEvent->EventCode = HCI_EVENT_EXTENSION_RTK;
++	pEvent->Data[0] = HCI_EVENT_EXT_BT_INFO_CONTROL;		/* extension event code */
++	len++;
++
++	/* Return parameters starts from here */
++	pRetPar = &pEvent->Data[len];
++	_rtw_memcpy(&pRetPar[0], pData, dataLen);
++
++	len += dataLen;
++
++	pEvent->Length = len;
++
++	/* total tx event length + EventCode length + sizeof(length) */
++	tx_event_length = pEvent->Length + 2;
++#if 0
++	rtw_btcoex_dump_tx_msg((u8 *)pEvent, tx_event_length, "BT INFO CONTROL");
++#endif
++	rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++
++}
++
++void rtw_btcoex_SendScanNotify(PADAPTER padapter, u8 scanType)
++{
++	u8	len = 0, tx_event_length = 0;
++	u8 	localBuf[7] = "";
++	u8	*pRetPar;
++	u8	*pu1Temp;
++	rtw_HCI_event *pEvent;
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++	PBT_MGNT		pBtMgnt = &pcoex_info->BtMgnt;
++
++	/*	if(!pBtMgnt->BtOperationOn)
++	 *		return; */
++
++	pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++	/*	len += bthci_ExtensionEventHeaderRtk(&localBuf[0],
++	 *			HCI_EVENT_EXT_WIFI_SCAN_NOTIFY); */
++
++	pEvent->EventCode = HCI_EVENT_EXTENSION_RTK;
++	pEvent->Data[0] = HCI_EVENT_EXT_WIFI_SCAN_NOTIFY;		/* extension event code */
++	len++;
++
++	/* Return parameters starts from here */
++	/* pRetPar = &PPacketIrpEvent->Data[len]; */
++	/* pu1Temp = (u8 *)&pRetPar[0]; */
++	/* *pu1Temp = scanType; */
++	pEvent->Data[len] = scanType;
++	len += 1;
++
++	pEvent->Length = len;
++
++	/* total tx event length + EventCode length + sizeof(length) */
++	tx_event_length = pEvent->Length + 2;
++#if 0
++	rtw_btcoex_dump_tx_msg((u8 *)pEvent, tx_event_length, "WIFI SCAN OPERATION");
++#endif
++	rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++}
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++#endif /* CONFIG_BT_COEXIST */
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_cmd.c b/drivers/net/wireless/rtl8723du/core/rtw_cmd.c
+new file mode 100644
+index 0000000..874fdac
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_cmd.c
+@@ -0,0 +1,4479 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_CMD_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#ifndef DBG_CMD_EXECUTE
++	#define DBG_CMD_EXECUTE 0
++#endif
++
++/*
++Caller and the rtw_cmd_thread can protect cmd_q by spin_lock.
++No irqsave is necessary.
++*/
++
++sint	_rtw_init_cmd_priv(struct	cmd_priv *pcmdpriv)
++{
++	sint res = _SUCCESS;
++
++
++	_rtw_init_sema(&(pcmdpriv->cmd_queue_sema), 0);
++	/* _rtw_init_sema(&(pcmdpriv->cmd_done_sema), 0); */
++	_rtw_init_sema(&(pcmdpriv->terminate_cmdthread_sema), 0);
++
++
++	_rtw_init_queue(&(pcmdpriv->cmd_queue));
++
++	/* allocate DMA-able/Non-Page memory for cmd_buf and rsp_buf */
++
++	pcmdpriv->cmd_seq = 1;
++
++	pcmdpriv->cmd_allocated_buf = rtw_zmalloc(MAX_CMDSZ + CMDBUFF_ALIGN_SZ);
++
++	if (pcmdpriv->cmd_allocated_buf == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pcmdpriv->cmd_buf = pcmdpriv->cmd_allocated_buf  +  CMDBUFF_ALIGN_SZ - ((SIZE_PTR)(pcmdpriv->cmd_allocated_buf) & (CMDBUFF_ALIGN_SZ - 1));
++
++	pcmdpriv->rsp_allocated_buf = rtw_zmalloc(MAX_RSPSZ + 4);
++
++	if (pcmdpriv->rsp_allocated_buf == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pcmdpriv->rsp_buf = pcmdpriv->rsp_allocated_buf  +  4 - ((SIZE_PTR)(pcmdpriv->rsp_allocated_buf) & 3);
++
++	pcmdpriv->cmd_issued_cnt = pcmdpriv->cmd_done_cnt = pcmdpriv->rsp_cnt = 0;
++
++	_rtw_mutex_init(&pcmdpriv->sctx_mutex);
++exit:
++
++
++	return res;
++
++}
++
++#ifdef CONFIG_C2H_WK
++static void c2h_wk_callback(_workitem *work)
++{
++	struct evt_priv *evtpriv = container_of(work, struct evt_priv, c2h_wk);
++	_adapter *adapter = container_of(evtpriv, _adapter, evtpriv);
++	u8 *c2h_evt;
++	c2h_id_filter direct_hdl_filter = rtw_hal_c2h_id_handle_directly;
++	u8 id, seq, plen;
++	u8 *payload;
++
++	evtpriv->c2h_wk_alive = _TRUE;
++
++	while (!rtw_cbuf_empty(evtpriv->c2h_queue)) {
++		c2h_evt = (u8 *)rtw_cbuf_pop(evtpriv->c2h_queue);
++		if (c2h_evt != NULL) {
++			/* This C2H event is read, clear it */
++			c2h_evt_clear(adapter);
++		} else {
++			c2h_evt = (u8 *)rtw_malloc(C2H_REG_LEN);
++			if (c2h_evt == NULL) {
++				rtw_warn_on(1);
++				continue;
++			}
++
++			/* This C2H event is not read, read & clear now */
++			if (rtw_hal_c2h_evt_read(adapter, c2h_evt) != _SUCCESS) {
++				rtw_mfree(c2h_evt, C2H_REG_LEN);
++				continue;
++			}
++		}
++
++		/* Special pointer to trigger c2h_evt_clear only */
++		if ((void *)c2h_evt == (void *)evtpriv)
++			continue;
++
++		if (!rtw_hal_c2h_valid(adapter, c2h_evt)
++			|| rtw_hal_c2h_reg_hdr_parse(adapter, c2h_evt, &id, &seq, &plen, &payload) != _SUCCESS
++		) {
++			rtw_mfree(c2h_evt, C2H_REG_LEN);
++			continue;
++		}
++
++		if (direct_hdl_filter(adapter, id, seq, plen, payload) == _TRUE) {
++			/* Handle directly */
++			rtw_hal_c2h_handler(adapter, id, seq, plen, payload);
++			rtw_mfree(c2h_evt, C2H_REG_LEN);
++		} else {
++			/* Enqueue into cmd_thread for others */
++			rtw_c2h_reg_wk_cmd(adapter, c2h_evt);
++			rtw_mfree(c2h_evt, C2H_REG_LEN);
++		}
++	}
++
++	evtpriv->c2h_wk_alive = _FALSE;
++}
++#endif /* CONFIG_C2H_WK */
++
++sint _rtw_init_evt_priv(struct evt_priv *pevtpriv)
++{
++	sint res = _SUCCESS;
++
++
++#ifdef CONFIG_H2CLBK
++	_rtw_init_sema(&(pevtpriv->lbkevt_done), 0);
++	pevtpriv->lbkevt_limit = 0;
++	pevtpriv->lbkevt_num = 0;
++	pevtpriv->cmdevt_parm = NULL;
++#endif
++
++	/* allocate DMA-able/Non-Page memory for cmd_buf and rsp_buf */
++	ATOMIC_SET(&pevtpriv->event_seq, 0);
++	pevtpriv->evt_done_cnt = 0;
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++
++	_rtw_init_sema(&(pevtpriv->evt_notify), 0);
++	_rtw_init_sema(&(pevtpriv->terminate_evtthread_sema), 0);
++
++	pevtpriv->evt_allocated_buf = rtw_zmalloc(MAX_EVTSZ + 4);
++	if (pevtpriv->evt_allocated_buf == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	pevtpriv->evt_buf = pevtpriv->evt_allocated_buf  +  4 - ((unsigned int)(pevtpriv->evt_allocated_buf) & 3);
++
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	pevtpriv->allocated_c2h_mem = rtw_zmalloc(C2H_MEM_SZ + 4);
++
++	if (pevtpriv->allocated_c2h_mem == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pevtpriv->c2h_mem = pevtpriv->allocated_c2h_mem +  4\
++			    - ((u32)(pevtpriv->allocated_c2h_mem) & 3);
++#ifdef PLATFORM_OS_XP
++	pevtpriv->pc2h_mdl = IoAllocateMdl((u8 *)pevtpriv->c2h_mem, C2H_MEM_SZ , FALSE, FALSE, NULL);
++
++	if (pevtpriv->pc2h_mdl == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	MmBuildMdlForNonPagedPool(pevtpriv->pc2h_mdl);
++#endif
++#endif /* end of CONFIG_SDIO_HCI */
++
++	_rtw_init_queue(&(pevtpriv->evt_queue));
++
++exit:
++
++#endif /* end of CONFIG_EVENT_THREAD_MODE */
++
++#ifdef CONFIG_C2H_WK
++	_init_workitem(&pevtpriv->c2h_wk, c2h_wk_callback, NULL);
++	pevtpriv->c2h_wk_alive = _FALSE;
++	pevtpriv->c2h_queue = rtw_cbuf_alloc(C2H_QUEUE_MAX_LEN + 1);
++#endif
++
++
++	return res;
++}
++
++void _rtw_free_evt_priv(struct	evt_priv *pevtpriv)
++{
++
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++	_rtw_free_sema(&(pevtpriv->evt_notify));
++	_rtw_free_sema(&(pevtpriv->terminate_evtthread_sema));
++
++
++	if (pevtpriv->evt_allocated_buf)
++		rtw_mfree(pevtpriv->evt_allocated_buf, MAX_EVTSZ + 4);
++#endif
++
++#ifdef CONFIG_C2H_WK
++	_cancel_workitem_sync(&pevtpriv->c2h_wk);
++	while (pevtpriv->c2h_wk_alive)
++		rtw_msleep_os(10);
++
++	while (!rtw_cbuf_empty(pevtpriv->c2h_queue)) {
++		void *c2h;
++		c2h = rtw_cbuf_pop(pevtpriv->c2h_queue);
++		if (c2h != NULL && c2h != (void *)pevtpriv)
++			rtw_mfree(c2h, 16);
++	}
++	rtw_cbuf_free(pevtpriv->c2h_queue);
++#endif
++
++
++
++}
++
++void _rtw_free_cmd_priv(struct	cmd_priv *pcmdpriv)
++{
++
++	if (pcmdpriv) {
++		_rtw_spinlock_free(&(pcmdpriv->cmd_queue.lock));
++		_rtw_free_sema(&(pcmdpriv->cmd_queue_sema));
++		/* _rtw_free_sema(&(pcmdpriv->cmd_done_sema)); */
++		_rtw_free_sema(&(pcmdpriv->terminate_cmdthread_sema));
++
++		if (pcmdpriv->cmd_allocated_buf)
++			rtw_mfree(pcmdpriv->cmd_allocated_buf, MAX_CMDSZ + CMDBUFF_ALIGN_SZ);
++
++		if (pcmdpriv->rsp_allocated_buf)
++			rtw_mfree(pcmdpriv->rsp_allocated_buf, MAX_RSPSZ + 4);
++
++		_rtw_mutex_free(&pcmdpriv->sctx_mutex);
++	}
++}
++
++/*
++Calling Context:
++
++rtw_enqueue_cmd can only be called between kernel thread,
++since only spin_lock is used.
++
++ISR/Call-Back functions can't call this sub-function.
++
++*/
++#ifdef DBG_CMD_QUEUE
++extern u8 dump_cmd_id;
++#endif
++
++sint _rtw_enqueue_cmd(_queue *queue, struct cmd_obj *obj, bool to_head)
++{
++	_irqL irqL;
++
++
++	if (obj == NULL)
++		goto exit;
++
++	/* _enter_critical_bh(&queue->lock, &irqL); */
++	_enter_critical(&queue->lock, &irqL);
++
++	if (to_head)
++		rtw_list_insert_head(&obj->list, &queue->queue);
++	else
++		rtw_list_insert_tail(&obj->list, &queue->queue);
++
++#ifdef DBG_CMD_QUEUE
++	if (dump_cmd_id) {
++		printk("%s===> cmdcode:0x%02x\n", __FUNCTION__, obj->cmdcode);
++		if (obj->cmdcode == GEN_CMD_CODE(_Set_MLME_EVT)) {
++			if (obj->parmbuf) {
++				struct C2HEvent_Header *pc2h_evt_hdr = (struct C2HEvent_Header *)(obj->parmbuf);
++				printk("pc2h_evt_hdr->ID:0x%02x(%d)\n", pc2h_evt_hdr->ID, pc2h_evt_hdr->ID);
++			}
++		}
++		if (obj->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra)) {
++			if (obj->parmbuf) {
++				struct drvextra_cmd_parm *pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)(obj->parmbuf);
++				printk("pdrvextra_cmd_parm->ec_id:0x%02x\n", pdrvextra_cmd_parm->ec_id);
++			}
++		}
++	}
++
++	if (queue->queue.prev->next != &queue->queue) {
++		RTW_INFO("[%d] head %p, tail %p, tail->prev->next %p[tail], tail->next %p[head]\n", __LINE__,
++			&queue->queue, queue->queue.prev, queue->queue.prev->prev->next, queue->queue.prev->next);
++
++		RTW_INFO("==========%s============\n", __FUNCTION__);
++		RTW_INFO("head:%p,obj_addr:%p\n", &queue->queue, obj);
++		RTW_INFO("padapter: %p\n", obj->padapter);
++		RTW_INFO("cmdcode: 0x%02x\n", obj->cmdcode);
++		RTW_INFO("res: %d\n", obj->res);
++		RTW_INFO("parmbuf: %p\n", obj->parmbuf);
++		RTW_INFO("cmdsz: %d\n", obj->cmdsz);
++		RTW_INFO("rsp: %p\n", obj->rsp);
++		RTW_INFO("rspsz: %d\n", obj->rspsz);
++		RTW_INFO("sctx: %p\n", obj->sctx);
++		RTW_INFO("list->next: %p\n", obj->list.next);
++		RTW_INFO("list->prev: %p\n", obj->list.prev);
++	}
++#endif /* DBG_CMD_QUEUE */
++
++	/* _exit_critical_bh(&queue->lock, &irqL);	 */
++	_exit_critical(&queue->lock, &irqL);
++
++exit:
++
++
++	return _SUCCESS;
++}
++
++struct	cmd_obj	*_rtw_dequeue_cmd(_queue *queue)
++{
++	_irqL irqL;
++	struct cmd_obj *obj;
++
++
++	/* _enter_critical_bh(&(queue->lock), &irqL); */
++	_enter_critical(&queue->lock, &irqL);
++
++#ifdef DBG_CMD_QUEUE
++	if (queue->queue.prev->next != &queue->queue) {
++		RTW_INFO("[%d] head %p, tail %p, tail->prev->next %p[tail], tail->next %p[head]\n", __LINE__,
++			&queue->queue, queue->queue.prev, queue->queue.prev->prev->next, queue->queue.prev->next);
++	}
++#endif /* DBG_CMD_QUEUE */
++
++
++	if (rtw_is_list_empty(&(queue->queue)))
++		obj = NULL;
++	else {
++		obj = LIST_CONTAINOR(get_next(&(queue->queue)), struct cmd_obj, list);
++
++#ifdef DBG_CMD_QUEUE
++		if (queue->queue.prev->next != &queue->queue) {
++			RTW_INFO("==========%s============\n", __FUNCTION__);
++			RTW_INFO("head:%p,obj_addr:%p\n", &queue->queue, obj);
++			RTW_INFO("padapter: %p\n", obj->padapter);
++			RTW_INFO("cmdcode: 0x%02x\n", obj->cmdcode);
++			RTW_INFO("res: %d\n", obj->res);
++			RTW_INFO("parmbuf: %p\n", obj->parmbuf);
++			RTW_INFO("cmdsz: %d\n", obj->cmdsz);
++			RTW_INFO("rsp: %p\n", obj->rsp);
++			RTW_INFO("rspsz: %d\n", obj->rspsz);
++			RTW_INFO("sctx: %p\n", obj->sctx);
++			RTW_INFO("list->next: %p\n", obj->list.next);
++			RTW_INFO("list->prev: %p\n", obj->list.prev);
++		}
++
++		if (dump_cmd_id) {
++			RTW_INFO("%s===> cmdcode:0x%02x\n", __FUNCTION__, obj->cmdcode);
++			if (obj->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra)) {
++				if (obj->parmbuf) {
++					struct drvextra_cmd_parm *pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)(obj->parmbuf);
++					printk("pdrvextra_cmd_parm->ec_id:0x%02x\n", pdrvextra_cmd_parm->ec_id);
++				}
++			}
++
++		}
++#endif /* DBG_CMD_QUEUE */
++
++		rtw_list_delete(&obj->list);
++	}
++
++	/* _exit_critical_bh(&(queue->lock), &irqL); */
++	_exit_critical(&queue->lock, &irqL);
++
++
++	return obj;
++}
++
++u32	rtw_init_cmd_priv(struct cmd_priv *pcmdpriv)
++{
++	u32	res;
++	res = _rtw_init_cmd_priv(pcmdpriv);
++	return res;
++}
++
++u32	rtw_init_evt_priv(struct	evt_priv *pevtpriv)
++{
++	int	res;
++	res = _rtw_init_evt_priv(pevtpriv);
++	return res;
++}
++
++void rtw_free_evt_priv(struct	evt_priv *pevtpriv)
++{
++	_rtw_free_evt_priv(pevtpriv);
++}
++
++void rtw_free_cmd_priv(struct	cmd_priv *pcmdpriv)
++{
++	_rtw_free_cmd_priv(pcmdpriv);
++}
++
++int rtw_cmd_filter(struct cmd_priv *pcmdpriv, struct cmd_obj *cmd_obj);
++int rtw_cmd_filter(struct cmd_priv *pcmdpriv, struct cmd_obj *cmd_obj)
++{
++	u8 bAllow = _FALSE; /* set to _TRUE to allow enqueuing cmd when hw_init_completed is _FALSE */
++
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++	/* To decide allow or not */
++	if ((adapter_to_pwrctl(pcmdpriv->padapter)->bHWPwrPindetect)
++	    && (!pcmdpriv->padapter->registrypriv.usbss_enable)
++	   ) {
++		if (cmd_obj->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra)) {
++			struct drvextra_cmd_parm	*pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)cmd_obj->parmbuf;
++			if (pdrvextra_cmd_parm->ec_id == POWER_SAVING_CTRL_WK_CID) {
++				/* RTW_INFO("==>enqueue POWER_SAVING_CTRL_WK_CID\n"); */
++				bAllow = _TRUE;
++			}
++		}
++	}
++#endif
++
++	if (cmd_obj->cmdcode == GEN_CMD_CODE(_SetChannelPlan))
++		bAllow = _TRUE;
++
++	if (cmd_obj->no_io)
++		bAllow = _TRUE;
++
++	if ((!rtw_is_hw_init_completed(pcmdpriv->padapter) && (bAllow == _FALSE))
++	    || ATOMIC_READ(&(pcmdpriv->cmdthd_running)) == _FALSE	/* com_thread not running */
++	   ) {
++		if (DBG_CMD_EXECUTE)
++			RTW_INFO(ADPT_FMT" drop "CMD_FMT" hw_init_completed:%u, cmdthd_running:%u\n", ADPT_ARG(cmd_obj->padapter)
++				, CMD_ARG(cmd_obj), rtw_get_hw_init_completed(cmd_obj->padapter), ATOMIC_READ(&pcmdpriv->cmdthd_running));
++		if (0)
++			rtw_warn_on(1);
++
++		return _FAIL;
++	}
++	return _SUCCESS;
++}
++
++
++
++u32 rtw_enqueue_cmd(struct cmd_priv *pcmdpriv, struct cmd_obj *cmd_obj)
++{
++	int res = _FAIL;
++	PADAPTER padapter = pcmdpriv->padapter;
++
++
++	if (cmd_obj == NULL)
++		goto exit;
++
++	cmd_obj->padapter = padapter;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	/* change pcmdpriv to primary's pcmdpriv */
++	if (padapter->adapter_type != PRIMARY_ADAPTER)
++		pcmdpriv = &(GET_PRIMARY_ADAPTER(padapter)->cmdpriv);
++#endif
++
++	res = rtw_cmd_filter(pcmdpriv, cmd_obj);
++	if ((_FAIL == res) || (cmd_obj->cmdsz > MAX_CMDSZ)) {
++		if (cmd_obj->cmdsz > MAX_CMDSZ) {
++			RTW_INFO("%s failed due to obj->cmdsz(%d) > MAX_CMDSZ(%d)\n", __func__, cmd_obj->cmdsz, MAX_CMDSZ);
++			rtw_warn_on(1);
++		}
++
++		if (cmd_obj->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra)) {
++			struct drvextra_cmd_parm *extra_parm = (struct drvextra_cmd_parm *)cmd_obj->parmbuf;
++
++			if (extra_parm->pbuf && extra_parm->size > 0)
++				rtw_mfree(extra_parm->pbuf, extra_parm->size);
++		}
++		rtw_free_cmd_obj(cmd_obj);
++		goto exit;
++	}
++
++	res = _rtw_enqueue_cmd(&pcmdpriv->cmd_queue, cmd_obj, 0);
++
++	if (res == _SUCCESS)
++		_rtw_up_sema(&pcmdpriv->cmd_queue_sema);
++
++exit:
++
++
++	return res;
++}
++
++struct	cmd_obj	*rtw_dequeue_cmd(struct cmd_priv *pcmdpriv)
++{
++	struct cmd_obj *cmd_obj;
++
++
++	cmd_obj = _rtw_dequeue_cmd(&pcmdpriv->cmd_queue);
++
++	return cmd_obj;
++}
++
++void rtw_cmd_clr_isr(struct	cmd_priv *pcmdpriv)
++{
++	pcmdpriv->cmd_done_cnt++;
++	/* _rtw_up_sema(&(pcmdpriv->cmd_done_sema)); */
++}
++
++void rtw_free_cmd_obj(struct cmd_obj *pcmd)
++{
++	struct drvextra_cmd_parm *extra_parm = NULL;
++
++	if (pcmd->parmbuf != NULL) {
++		/* free parmbuf in cmd_obj */
++		rtw_mfree((unsigned char *)pcmd->parmbuf, pcmd->cmdsz);
++	}
++	if (pcmd->rsp != NULL) {
++		if (pcmd->rspsz != 0) {
++			/* free rsp in cmd_obj */
++			rtw_mfree((unsigned char *)pcmd->rsp, pcmd->rspsz);
++		}
++	}
++
++	/* free cmd_obj */
++	rtw_mfree((unsigned char *)pcmd, sizeof(struct cmd_obj));
++
++}
++
++
++void rtw_stop_cmd_thread(_adapter *adapter)
++{
++	if (adapter->cmdThread &&
++	    ATOMIC_READ(&(adapter->cmdpriv.cmdthd_running)) == _TRUE &&
++	    adapter->cmdpriv.stop_req == 0) {
++		adapter->cmdpriv.stop_req = 1;
++		_rtw_up_sema(&adapter->cmdpriv.cmd_queue_sema);
++		_rtw_down_sema(&adapter->cmdpriv.terminate_cmdthread_sema);
++	}
++}
++
++thread_return rtw_cmd_thread(thread_context context)
++{
++	u8 ret;
++	struct cmd_obj *pcmd;
++	u8 *pcmdbuf, *prspbuf;
++	u32 cmd_start_time;
++	u32 cmd_process_time;
++	u8(*cmd_hdl)(_adapter *padapter, u8 *pbuf);
++	void (*pcmd_callback)(_adapter *dev, struct cmd_obj *pcmd);
++	PADAPTER padapter = (PADAPTER)context;
++	struct cmd_priv *pcmdpriv = &(padapter->cmdpriv);
++	struct drvextra_cmd_parm *extra_parm = NULL;
++	_irqL irqL;
++
++	thread_enter("RTW_CMD_THREAD");
++
++	pcmdbuf = pcmdpriv->cmd_buf;
++	prspbuf = pcmdpriv->rsp_buf;
++
++	pcmdpriv->stop_req = 0;
++	ATOMIC_SET(&(pcmdpriv->cmdthd_running), _TRUE);
++	_rtw_up_sema(&pcmdpriv->terminate_cmdthread_sema);
++
++
++	while (1) {
++		if (_rtw_down_sema(&pcmdpriv->cmd_queue_sema) == _FAIL) {
++			RTW_PRINT(FUNC_ADPT_FMT" _rtw_down_sema(&pcmdpriv->cmd_queue_sema) return _FAIL, break\n", FUNC_ADPT_ARG(padapter));
++			break;
++		}
++
++		if (RTW_CANNOT_RUN(padapter)) {
++			RTW_PRINT("%s: DriverStopped(%s) SurpriseRemoved(%s) break at line %d\n",
++				  __func__
++				, rtw_is_drv_stopped(padapter) ? "True" : "False"
++				, rtw_is_surprise_removed(padapter) ? "True" : "False"
++				  , __LINE__);
++			break;
++		}
++
++		if (pcmdpriv->stop_req) {
++			RTW_PRINT(FUNC_ADPT_FMT" stop_req:%u, break\n", FUNC_ADPT_ARG(padapter), pcmdpriv->stop_req);
++			break;
++		}
++
++		_enter_critical(&pcmdpriv->cmd_queue.lock, &irqL);
++		if (rtw_is_list_empty(&(pcmdpriv->cmd_queue.queue))) {
++			/* RTW_INFO("%s: cmd queue is empty!\n", __func__); */
++			_exit_critical(&pcmdpriv->cmd_queue.lock, &irqL);
++			continue;
++		}
++		_exit_critical(&pcmdpriv->cmd_queue.lock, &irqL);
++
++_next:
++		if (RTW_CANNOT_RUN(padapter)) {
++			RTW_PRINT("%s: DriverStopped(%s) SurpriseRemoved(%s) break at line %d\n",
++				  __func__
++				, rtw_is_drv_stopped(padapter) ? "True" : "False"
++				, rtw_is_surprise_removed(padapter) ? "True" : "False"
++				  , __LINE__);
++			break;
++		}
++
++		pcmd = rtw_dequeue_cmd(pcmdpriv);
++		if (!pcmd) {
++#ifdef CONFIG_LPS_LCLK
++			rtw_unregister_cmd_alive(padapter);
++#endif
++			continue;
++		}
++
++		cmd_start_time = rtw_get_current_time();
++		pcmdpriv->cmd_issued_cnt++;
++
++		if (pcmd->cmdsz > MAX_CMDSZ) {
++			RTW_ERR("%s cmdsz:%d > MAX_CMDSZ:%d\n", __func__, pcmd->cmdsz, MAX_CMDSZ);
++			pcmd->res = H2C_PARAMETERS_ERROR;
++			goto post_process;
++		}
++
++		if (pcmd->cmdcode >= (sizeof(wlancmds) / sizeof(struct cmd_hdl))) {
++			RTW_ERR("%s undefined cmdcode:%d\n", __func__, pcmd->cmdcode);
++			pcmd->res = H2C_PARAMETERS_ERROR;
++			goto post_process;
++		}
++
++		cmd_hdl = wlancmds[pcmd->cmdcode].h2cfuns;
++		if (!cmd_hdl) {
++			RTW_ERR("%s no cmd_hdl for cmdcode:%d\n", __func__, pcmd->cmdcode);
++			pcmd->res = H2C_PARAMETERS_ERROR;
++			goto post_process;
++		}
++
++		if (_FAIL == rtw_cmd_filter(pcmdpriv, pcmd)) {
++			pcmd->res = H2C_DROPPED;
++			if (pcmd->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra)) {
++				extra_parm = (struct drvextra_cmd_parm *)pcmd->parmbuf;
++				if (extra_parm && extra_parm->pbuf && extra_parm->size > 0)
++					rtw_mfree(extra_parm->pbuf, extra_parm->size);
++			}
++			goto post_process;
++		}
++
++#ifdef CONFIG_LPS_LCLK
++		if (pcmd->no_io)
++			rtw_unregister_cmd_alive(padapter);
++		else {
++			if (rtw_register_cmd_alive(padapter) != _SUCCESS) {
++				if (DBG_CMD_EXECUTE)
++					RTW_PRINT("%s: wait to leave LPS_LCLK\n", __func__);
++
++				pcmd->res = H2C_ENQ_HEAD;
++				ret = _rtw_enqueue_cmd(&pcmdpriv->cmd_queue, pcmd, 1);
++				if (ret == _SUCCESS) {
++					if (DBG_CMD_EXECUTE)
++						RTW_INFO(ADPT_FMT" "CMD_FMT" ENQ_HEAD\n", ADPT_ARG(pcmd->padapter), CMD_ARG(pcmd));
++					continue;
++				}
++
++				RTW_INFO(ADPT_FMT" "CMD_FMT" ENQ_HEAD_FAIL\n", ADPT_ARG(pcmd->padapter), CMD_ARG(pcmd));
++				pcmd->res = H2C_ENQ_HEAD_FAIL;
++				rtw_warn_on(1);
++			}
++		}
++#endif /* CONFIG_LPS_LCLK */
++
++		if (DBG_CMD_EXECUTE)
++			RTW_INFO(ADPT_FMT" "CMD_FMT" %sexecute\n", ADPT_ARG(pcmd->padapter), CMD_ARG(pcmd)
++				, pcmd->res == H2C_ENQ_HEAD ? "ENQ_HEAD " : (pcmd->res == H2C_ENQ_HEAD_FAIL ? "ENQ_HEAD_FAIL " : ""));
++
++		_rtw_memcpy(pcmdbuf, pcmd->parmbuf, pcmd->cmdsz);
++		ret = cmd_hdl(pcmd->padapter, pcmdbuf);
++		pcmd->res = ret;
++
++		pcmdpriv->cmd_seq++;
++
++post_process:
++
++		_enter_critical_mutex(&(pcmd->padapter->cmdpriv.sctx_mutex), NULL);
++		if (pcmd->sctx) {
++			if (0)
++				RTW_PRINT(FUNC_ADPT_FMT" pcmd->sctx\n",
++					  FUNC_ADPT_ARG(pcmd->padapter));
++			if (pcmd->res == H2C_SUCCESS)
++				rtw_sctx_done(&pcmd->sctx);
++			else
++				rtw_sctx_done_err(&pcmd->sctx, RTW_SCTX_DONE_CMD_ERROR);
++		}
++		_exit_critical_mutex(&(pcmd->padapter->cmdpriv.sctx_mutex), NULL);
++
++		cmd_process_time = rtw_get_passing_time_ms(cmd_start_time);
++		if (cmd_process_time > 1000) {
++			RTW_INFO(ADPT_FMT" "CMD_FMT" process_time=%d\n", ADPT_ARG(pcmd->padapter), CMD_ARG(pcmd), cmd_process_time);
++			if (0)
++				rtw_warn_on(1);
++		}
++
++		/* call callback function for post-processed */
++		if (pcmd->cmdcode < (sizeof(rtw_cmd_callback) / sizeof(struct _cmd_callback))) {
++			pcmd_callback = rtw_cmd_callback[pcmd->cmdcode].callback;
++			if (pcmd_callback == NULL) {
++				rtw_free_cmd_obj(pcmd);
++			} else {
++				/* todo: !!! fill rsp_buf to pcmd->rsp if (pcmd->rsp!=NULL) */
++				pcmd_callback(pcmd->padapter, pcmd);/* need conider that free cmd_obj in rtw_cmd_callback */
++			}
++		} else {
++			rtw_free_cmd_obj(pcmd);
++		}
++
++		flush_signals_thread();
++
++		goto _next;
++
++	}
++
++#ifdef CONFIG_LPS_LCLK
++	rtw_unregister_cmd_alive(padapter);
++#endif
++
++	/* to avoid enqueue cmd after free all cmd_obj */
++	ATOMIC_SET(&(pcmdpriv->cmdthd_running), _FALSE);
++
++	/* free all cmd_obj resources */
++	do {
++		pcmd = rtw_dequeue_cmd(pcmdpriv);
++		if (pcmd == NULL)
++			break;
++
++		if (0)
++			RTW_INFO("%s: leaving... drop "CMD_FMT"\n", __func__, CMD_ARG(pcmd));
++
++		if (pcmd->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra)) {
++			extra_parm = (struct drvextra_cmd_parm *)pcmd->parmbuf;
++			if (extra_parm->pbuf && extra_parm->size > 0)
++				rtw_mfree(extra_parm->pbuf, extra_parm->size);
++		}
++
++		rtw_free_cmd_obj(pcmd);
++	} while (1);
++
++	_rtw_up_sema(&pcmdpriv->terminate_cmdthread_sema);
++
++
++	thread_exit();
++
++}
++
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++u32 rtw_enqueue_evt(struct evt_priv *pevtpriv, struct evt_obj *obj)
++{
++	_irqL irqL;
++	int	res;
++	_queue *queue = &pevtpriv->evt_queue;
++
++
++	res = _SUCCESS;
++
++	if (obj == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	rtw_list_insert_tail(&obj->list, &queue->queue);
++
++	_exit_critical_bh(&queue->lock, &irqL);
++
++	/* rtw_evt_notify_isr(pevtpriv); */
++
++exit:
++
++
++	return res;
++}
++
++struct evt_obj *rtw_dequeue_evt(_queue *queue)
++{
++	_irqL irqL;
++	struct	evt_obj	*pevtobj;
++
++
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	if (rtw_is_list_empty(&(queue->queue)))
++		pevtobj = NULL;
++	else {
++		pevtobj = LIST_CONTAINOR(get_next(&(queue->queue)), struct evt_obj, list);
++		rtw_list_delete(&pevtobj->list);
++	}
++
++	_exit_critical_bh(&queue->lock, &irqL);
++
++
++	return pevtobj;
++}
++
++void rtw_free_evt_obj(struct evt_obj *pevtobj)
++{
++
++	if (pevtobj->parmbuf)
++		rtw_mfree((unsigned char *)pevtobj->parmbuf, pevtobj->evtsz);
++
++	rtw_mfree((unsigned char *)pevtobj, sizeof(struct evt_obj));
++
++}
++
++void rtw_evt_notify_isr(struct evt_priv *pevtpriv)
++{
++	pevtpriv->evt_done_cnt++;
++	_rtw_up_sema(&(pevtpriv->evt_notify));
++}
++#endif
++
++
++/*
++u8 rtw_setstandby_cmd(unsigned char  *adapter)
++*/
++u8 rtw_setstandby_cmd(_adapter *padapter, uint action)
++{
++	struct cmd_obj			*ph2c;
++	struct usb_suspend_parm	*psetusbsuspend;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++
++	u8 ret = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		ret = _FAIL;
++		goto exit;
++	}
++
++	psetusbsuspend = (struct usb_suspend_parm *)rtw_zmalloc(sizeof(struct usb_suspend_parm));
++	if (psetusbsuspend == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		ret = _FAIL;
++		goto exit;
++	}
++
++	psetusbsuspend->action = action;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psetusbsuspend, GEN_CMD_CODE(_SetUsbSuspend));
++
++	ret = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return ret;
++}
++
++/*
++rtw_sitesurvey_cmd(~)
++	### NOTE:#### (!!!!)
++	MUST TAKE CARE THAT BEFORE CALLING THIS FUNC, YOU SHOULD HAVE LOCKED pmlmepriv->lock
++*/
++u8 rtw_sitesurvey_cmd(_adapter  *padapter, NDIS_802_11_SSID *ssid, int ssid_num,
++		      struct rtw_ieee80211_channel *ch, int ch_num)
++{
++	u8 res = _FAIL;
++	struct cmd_obj		*ph2c;
++	struct sitesurvey_parm	*psurveyPara;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++
++
++#ifdef CONFIG_LPS
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_SCAN, 1);
++#endif
++
++#ifdef CONFIG_P2P_PS
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		p2p_ps_wk_cmd(padapter, P2P_PS_SCAN, 1);
++#endif /* CONFIG_P2P_PS */
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL)
++		return _FAIL;
++
++	psurveyPara = (struct sitesurvey_parm *)rtw_zmalloc(sizeof(struct sitesurvey_parm));
++	if (psurveyPara == NULL) {
++		rtw_mfree((unsigned char *) ph2c, sizeof(struct cmd_obj));
++		return _FAIL;
++	}
++
++	rtw_free_network_queue(padapter, _FALSE);
++
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psurveyPara, GEN_CMD_CODE(_SiteSurvey));
++
++	/* psurveyPara->bsslimit = 48; */
++	psurveyPara->scan_mode = pmlmepriv->scan_mode;
++
++	/* prepare ssid list */
++	if (ssid) {
++		int i;
++		for (i = 0; i < ssid_num && i < RTW_SSID_SCAN_AMOUNT; i++) {
++			if (ssid[i].SsidLength) {
++				_rtw_memcpy(&psurveyPara->ssid[i], &ssid[i], sizeof(NDIS_802_11_SSID));
++				psurveyPara->ssid_num++;
++				if (0)
++					RTW_INFO(FUNC_ADPT_FMT" ssid:(%s, %d)\n", FUNC_ADPT_ARG(padapter),
++						psurveyPara->ssid[i].Ssid, psurveyPara->ssid[i].SsidLength);
++			}
++		}
++	}
++
++	/* prepare channel list */
++	if (ch) {
++		int i;
++		for (i = 0; i < ch_num && i < RTW_CHANNEL_SCAN_AMOUNT; i++) {
++			if (ch[i].hw_value && !(ch[i].flags & RTW_IEEE80211_CHAN_DISABLED)) {
++				_rtw_memcpy(&psurveyPara->ch[i], &ch[i], sizeof(struct rtw_ieee80211_channel));
++				psurveyPara->ch_num++;
++				if (0)
++					RTW_INFO(FUNC_ADPT_FMT" ch:%u\n", FUNC_ADPT_ARG(padapter),
++						 psurveyPara->ch[i].hw_value);
++			}
++		}
++	}
++
++	set_fwstate(pmlmepriv, _FW_UNDER_SURVEY);
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++	if (res == _SUCCESS) {
++
++		pmlmepriv->scan_start_time = rtw_get_current_time();
++
++#ifdef CONFIG_SCAN_BACKOP
++		if (rtw_mi_buddy_check_mlmeinfo_state(padapter, WIFI_FW_AP_STATE)) {
++			if (IsSupported5G(padapter->registrypriv.wireless_mode)
++			    && IsSupported24G(padapter->registrypriv.wireless_mode)) /* dual band */
++				mlme_set_scan_to_timer(pmlmepriv, CONC_SCANNING_TIMEOUT_DUAL_BAND);
++			else /* single band */
++				mlme_set_scan_to_timer(pmlmepriv, CONC_SCANNING_TIMEOUT_SINGLE_BAND);
++		} else
++#endif /* CONFIG_SCAN_BACKOP */
++			mlme_set_scan_to_timer(pmlmepriv, SCANNING_TIMEOUT);
++
++		rtw_led_control(padapter, LED_CTL_SITE_SURVEY);
++	} else
++		_clr_fwstate_(pmlmepriv, _FW_UNDER_SURVEY);
++
++
++	return res;
++}
++
++u8 rtw_setdatarate_cmd(_adapter *padapter, u8 *rateset)
++{
++	struct cmd_obj			*ph2c;
++	struct setdatarate_parm	*pbsetdataratepara;
++	struct cmd_priv		*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pbsetdataratepara = (struct setdatarate_parm *)rtw_zmalloc(sizeof(struct setdatarate_parm));
++	if (pbsetdataratepara == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pbsetdataratepara, GEN_CMD_CODE(_SetDataRate));
++#ifdef MP_FIRMWARE_OFFLOAD
++	pbsetdataratepara->curr_rateidx = *(u32 *)rateset;
++	/*	_rtw_memcpy(pbsetdataratepara, rateset, sizeof(u32)); */
++#else
++	pbsetdataratepara->mac_id = 5;
++	_rtw_memcpy(pbsetdataratepara->datarates, rateset, NumRates);
++#endif
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++
++
++	return res;
++}
++
++u8 rtw_setbasicrate_cmd(_adapter *padapter, u8 *rateset)
++{
++	struct cmd_obj			*ph2c;
++	struct setbasicrate_parm	*pssetbasicratepara;
++	struct cmd_priv		*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	pssetbasicratepara = (struct setbasicrate_parm *)rtw_zmalloc(sizeof(struct setbasicrate_parm));
++
++	if (pssetbasicratepara == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pssetbasicratepara, _SetBasicRate_CMD_);
++
++	_rtw_memcpy(pssetbasicratepara->basicrates, rateset, NumRates);
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++
++
++	return res;
++}
++
++
++/*
++unsigned char rtw_setphy_cmd(unsigned char  *adapter)
++
++1.  be called only after rtw_update_registrypriv_dev_network( ~) or mp testing program
++2.  for AdHoc/Ap mode or mp mode?
++
++*/
++u8 rtw_setphy_cmd(_adapter *padapter, u8 modem, u8 ch)
++{
++	struct cmd_obj			*ph2c;
++	struct setphy_parm		*psetphypara;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	/*	struct mlme_priv			*pmlmepriv = &padapter->mlmepriv;
++	 *	struct registry_priv*		pregistry_priv = &padapter->registrypriv; */
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	psetphypara = (struct setphy_parm *)rtw_zmalloc(sizeof(struct setphy_parm));
++
++	if (psetphypara == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psetphypara, _SetPhy_CMD_);
++
++
++	psetphypara->modem = modem;
++	psetphypara->rfchannel = ch;
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++	return res;
++}
++
++u8 rtw_getmacreg_cmd(_adapter *padapter, u8 len, u32 addr)
++{
++	struct cmd_obj *ph2c;
++	struct readMAC_parm *preadmacparm;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	preadmacparm = (struct readMAC_parm *)rtw_zmalloc(sizeof(struct readMAC_parm));
++
++	if (preadmacparm == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, preadmacparm, GEN_CMD_CODE(_GetMACReg));
++
++	preadmacparm->len = len;
++	preadmacparm->addr = addr;
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++	return res;
++}
++
++void rtw_usb_catc_trigger_cmd(_adapter *padapter, const char *caller)
++{
++	RTW_INFO("%s caller:%s\n", __func__, caller);
++	rtw_getmacreg_cmd(padapter, 1, 0x1c4);
++}
++
++u8 rtw_setbbreg_cmd(_adapter *padapter, u8 offset, u8 val)
++{
++	struct cmd_obj			*ph2c;
++	struct writeBB_parm		*pwritebbparm;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	pwritebbparm = (struct writeBB_parm *)rtw_zmalloc(sizeof(struct writeBB_parm));
++
++	if (pwritebbparm == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pwritebbparm, GEN_CMD_CODE(_SetBBReg));
++
++	pwritebbparm->offset = offset;
++	pwritebbparm->value = val;
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++	return res;
++}
++
++u8 rtw_getbbreg_cmd(_adapter  *padapter, u8 offset, u8 *pval)
++{
++	struct cmd_obj			*ph2c;
++	struct readBB_parm		*prdbbparm;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	prdbbparm = (struct readBB_parm *)rtw_zmalloc(sizeof(struct readBB_parm));
++
++	if (prdbbparm == NULL) {
++		rtw_mfree((unsigned char *) ph2c, sizeof(struct	cmd_obj));
++		return _FAIL;
++	}
++
++	_rtw_init_listhead(&ph2c->list);
++	ph2c->cmdcode = GEN_CMD_CODE(_GetBBReg);
++	ph2c->parmbuf = (unsigned char *)prdbbparm;
++	ph2c->cmdsz =  sizeof(struct readBB_parm);
++	ph2c->rsp = pval;
++	ph2c->rspsz = sizeof(struct readBB_rsp);
++
++	prdbbparm->offset = offset;
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++	return res;
++}
++
++u8 rtw_setrfreg_cmd(_adapter  *padapter, u8 offset, u32 val)
++{
++	struct cmd_obj			*ph2c;
++	struct writeRF_parm		*pwriterfparm;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	pwriterfparm = (struct writeRF_parm *)rtw_zmalloc(sizeof(struct writeRF_parm));
++
++	if (pwriterfparm == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pwriterfparm, GEN_CMD_CODE(_SetRFReg));
++
++	pwriterfparm->offset = offset;
++	pwriterfparm->value = val;
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++	return res;
++}
++
++u8 rtw_getrfreg_cmd(_adapter  *padapter, u8 offset, u8 *pval)
++{
++	struct cmd_obj			*ph2c;
++	struct readRF_parm		*prdrfparm;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	prdrfparm = (struct readRF_parm *)rtw_zmalloc(sizeof(struct readRF_parm));
++	if (prdrfparm == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	_rtw_init_listhead(&ph2c->list);
++	ph2c->cmdcode = GEN_CMD_CODE(_GetRFReg);
++	ph2c->parmbuf = (unsigned char *)prdrfparm;
++	ph2c->cmdsz =  sizeof(struct readRF_parm);
++	ph2c->rsp = pval;
++	ph2c->rspsz = sizeof(struct readRF_rsp);
++
++	prdrfparm->offset = offset;
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return res;
++}
++
++void rtw_getbbrfreg_cmdrsp_callback(_adapter	*padapter,  struct cmd_obj *pcmd)
++{
++
++	/* rtw_free_cmd_obj(pcmd); */
++	rtw_mfree((unsigned char *) pcmd->parmbuf, pcmd->cmdsz);
++	rtw_mfree((unsigned char *) pcmd, sizeof(struct cmd_obj));
++
++#ifdef CONFIG_MP_INCLUDED
++	if (padapter->registrypriv.mp_mode == 1)
++		padapter->mppriv.workparam.bcompleted = _TRUE;
++#endif
++}
++
++void rtw_readtssi_cmdrsp_callback(_adapter	*padapter,  struct cmd_obj *pcmd)
++{
++
++	rtw_mfree((unsigned char *) pcmd->parmbuf, pcmd->cmdsz);
++	rtw_mfree((unsigned char *) pcmd, sizeof(struct cmd_obj));
++
++#ifdef CONFIG_MP_INCLUDED
++	if (padapter->registrypriv.mp_mode == 1)
++		padapter->mppriv.workparam.bcompleted = _TRUE;
++#endif
++
++}
++
++static u8 rtw_createbss_cmd(_adapter  *adapter, int flags, bool adhoc
++			    , s16 req_ch, s8 req_bw, s8 req_offset)
++{
++	struct cmd_obj *cmdobj;
++	struct createbss_parm *parm;
++	struct cmd_priv *pcmdpriv = &adapter->cmdpriv;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct submit_ctx sctx;
++	u8 res = _SUCCESS;
++
++	if (req_ch > 0 && req_bw >= 0 && req_offset >= 0) {
++		if (!rtw_chset_is_chbw_valid(adapter->mlmeextpriv.channel_set, req_ch, req_bw, req_offset)) {
++			res = _FAIL;
++			goto exit;
++		}
++	}
++
++	/* prepare cmd parameter */
++	parm = (struct createbss_parm *)rtw_zmalloc(sizeof(*parm));
++	if (parm == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	if (adhoc) {
++		/* for now, adhoc doesn't support ch,bw,offset request */
++		parm->adhoc = 1;
++	} else {
++		parm->adhoc = 0;
++		parm->req_ch = req_ch;
++		parm->req_bw = req_bw;
++		parm->req_offset = req_offset;
++	}
++
++	if (flags & RTW_CMDF_DIRECTLY) {
++		/* no need to enqueue, do the cmd hdl directly and free cmd parameter */
++		if (H2C_SUCCESS != createbss_hdl(adapter, (u8 *)parm))
++			res = _FAIL;
++		rtw_mfree((u8 *)parm, sizeof(*parm));
++	} else {
++		/* need enqueue, prepare cmd_obj and enqueue */
++		cmdobj = (struct cmd_obj *)rtw_zmalloc(sizeof(*cmdobj));
++		if (cmdobj == NULL) {
++			res = _FAIL;
++			rtw_mfree((u8 *)parm, sizeof(*parm));
++			goto exit;
++		}
++
++		init_h2fwcmd_w_parm_no_rsp(cmdobj, parm, GEN_CMD_CODE(_CreateBss));
++
++		if (flags & RTW_CMDF_WAIT_ACK) {
++			cmdobj->sctx = &sctx;
++			rtw_sctx_init(&sctx, 2000);
++		}
++
++		res = rtw_enqueue_cmd(pcmdpriv, cmdobj);
++
++		if (res == _SUCCESS && (flags & RTW_CMDF_WAIT_ACK)) {
++			rtw_sctx_wait(&sctx, __func__);
++			_enter_critical_mutex(&pcmdpriv->sctx_mutex, NULL);
++			if (sctx.status == RTW_SCTX_SUBMITTED)
++				cmdobj->sctx = NULL;
++			_exit_critical_mutex(&pcmdpriv->sctx_mutex, NULL);
++		}
++	}
++
++exit:
++	return res;
++}
++
++inline u8 rtw_create_ibss_cmd(_adapter *adapter, int flags)
++{
++	return rtw_createbss_cmd(adapter, flags
++		, 1
++		, 0, -1, -1 /* for now, adhoc doesn't support ch,bw,offset request */
++	);
++}
++
++inline u8 rtw_startbss_cmd(_adapter *adapter, int flags)
++{
++	return rtw_createbss_cmd(adapter, flags
++		, 0
++		, 0, -1, -1 /* excute entire AP setup cmd */
++	);
++}
++
++inline u8 rtw_change_bss_chbw_cmd(_adapter *adapter, int flags, s16 req_ch, s8 req_bw, s8 req_offset)
++{
++	return rtw_createbss_cmd(adapter, flags
++		, 0
++		, req_ch, req_bw, req_offset
++	);
++}
++
++u8 rtw_joinbss_cmd(_adapter  *padapter, struct wlan_network *pnetwork)
++{
++	u8	*auth, res = _SUCCESS;
++	uint	t_len = 0;
++	WLAN_BSSID_EX		*psecnetwork;
++	struct cmd_obj		*pcmd;
++	struct cmd_priv		*pcmdpriv = &padapter->cmdpriv;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct qos_priv		*pqospriv = &pmlmepriv->qospriv;
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++#ifdef CONFIG_80211N_HT
++	struct ht_priv			*phtpriv = &pmlmepriv->htpriv;
++#endif /* CONFIG_80211N_HT */
++#ifdef CONFIG_80211AC_VHT
++	struct vht_priv		*pvhtpriv = &pmlmepriv->vhtpriv;
++#endif /* CONFIG_80211AC_VHT */
++	NDIS_802_11_NETWORK_INFRASTRUCTURE ndis_network_mode = pnetwork->network.InfrastructureMode;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u32 tmp_len;
++	u8 *ptmp = NULL;
++#ifdef CONFIG_RTW_80211R
++	struct _ft_priv			*pftpriv = &pmlmepriv->ftpriv;
++#endif
++
++	rtw_led_control(padapter, LED_CTL_START_TO_LINK);
++
++	pcmd = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (pcmd == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++#if 0
++	/*  for IEs is pointer */
++	t_len = sizeof(ULONG) + sizeof(NDIS_802_11_MAC_ADDRESS) + 2 +
++		sizeof(NDIS_802_11_SSID) + sizeof(ULONG) +
++		sizeof(NDIS_802_11_RSSI) + sizeof(NDIS_802_11_NETWORK_TYPE) +
++		sizeof(NDIS_802_11_CONFIGURATION) +
++		sizeof(NDIS_802_11_NETWORK_INFRASTRUCTURE) +
++		sizeof(NDIS_802_11_RATES_EX) + sizeof(WLAN_PHY_INFO) + sizeof(ULONG) + MAX_IE_SZ;
++#endif
++	/* for IEs is fix buf size */
++	t_len = sizeof(WLAN_BSSID_EX);
++
++
++	/* for hidden ap to set fw_state here */
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE | WIFI_ADHOC_STATE) != _TRUE) {
++		switch (ndis_network_mode) {
++		case Ndis802_11IBSS:
++			set_fwstate(pmlmepriv, WIFI_ADHOC_STATE);
++			break;
++
++		case Ndis802_11Infrastructure:
++			set_fwstate(pmlmepriv, WIFI_STATION_STATE);
++			break;
++
++		case Ndis802_11APMode:
++		case Ndis802_11AutoUnknown:
++		case Ndis802_11InfrastructureMax:
++		case Ndis802_11Monitor:
++			break;
++
++		}
++	}
++
++	pmlmeinfo->assoc_AP_vendor = check_assoc_AP(pnetwork->network.IEs, pnetwork->network.IELength);
++
++	/*
++		Modified by Arvin 2015/05/13
++		Solution for allocating a new WLAN_BSSID_EX to avoid race condition issue between disconnect and joinbss
++	*/
++	psecnetwork = (WLAN_BSSID_EX *)rtw_zmalloc(sizeof(WLAN_BSSID_EX));
++	if (psecnetwork == NULL) {
++		if (pcmd != NULL)
++			rtw_mfree((unsigned char *)pcmd, sizeof(struct	cmd_obj));
++
++		res = _FAIL;
++
++
++		goto exit;
++	}
++
++	_rtw_memset(psecnetwork, 0, t_len);
++
++	_rtw_memcpy(psecnetwork, &pnetwork->network, get_WLAN_BSSID_EX_sz(&pnetwork->network));
++
++	auth = &psecuritypriv->authenticator_ie[0];
++	psecuritypriv->authenticator_ie[0] = (unsigned char)psecnetwork->IELength;
++
++	if ((psecnetwork->IELength - 12) < (256 - 1))
++		_rtw_memcpy(&psecuritypriv->authenticator_ie[1], &psecnetwork->IEs[12], psecnetwork->IELength - 12);
++	else
++		_rtw_memcpy(&psecuritypriv->authenticator_ie[1], &psecnetwork->IEs[12], (256 - 1));
++
++	psecnetwork->IELength = 0;
++	/* Added by Albert 2009/02/18 */
++	/* If the the driver wants to use the bssid to create the connection. */
++	/* If not,  we have to copy the connecting AP's MAC address to it so that */
++	/* the driver just has the bssid information for PMKIDList searching. */
++
++	if (pmlmepriv->assoc_by_bssid == _FALSE)
++		_rtw_memcpy(&pmlmepriv->assoc_bssid[0], &pnetwork->network.MacAddress[0], ETH_ALEN);
++
++	psecnetwork->IELength = rtw_restruct_sec_ie(padapter, &pnetwork->network.IEs[0], &psecnetwork->IEs[0], pnetwork->network.IELength);
++
++
++	pqospriv->qos_option = 0;
++
++	if (pregistrypriv->wmm_enable) {
++		tmp_len = rtw_restruct_wmm_ie(padapter, &pnetwork->network.IEs[0], &psecnetwork->IEs[0], pnetwork->network.IELength, psecnetwork->IELength);
++
++		if (psecnetwork->IELength != tmp_len) {
++			psecnetwork->IELength = tmp_len;
++			pqospriv->qos_option = 1; /* There is WMM IE in this corresp. beacon */
++		} else {
++			pqospriv->qos_option = 0;/* There is no WMM IE in this corresp. beacon */
++		}
++	}
++
++#ifdef CONFIG_80211N_HT
++	phtpriv->ht_option = _FALSE;
++	ptmp = rtw_get_ie(&pnetwork->network.IEs[12], _HT_CAPABILITY_IE_, &tmp_len, pnetwork->network.IELength - 12);
++	if (pregistrypriv->ht_enable && ptmp && tmp_len > 0) {
++		/*	Added by Albert 2010/06/23 */
++		/*	For the WEP mode, we will use the bg mode to do the connection to avoid some IOT issue. */
++		/*	Especially for Realtek 8192u SoftAP. */
++		if ((padapter->securitypriv.dot11PrivacyAlgrthm != _WEP40_) &&
++		    (padapter->securitypriv.dot11PrivacyAlgrthm != _WEP104_) &&
++		    (padapter->securitypriv.dot11PrivacyAlgrthm != _TKIP_)) {
++			rtw_ht_use_default_setting(padapter);
++
++			rtw_build_wmm_ie_ht(padapter, &psecnetwork->IEs[0], &psecnetwork->IELength);
++
++			/* rtw_restructure_ht_ie */
++			rtw_restructure_ht_ie(padapter, &pnetwork->network.IEs[12], &psecnetwork->IEs[0],
++				pnetwork->network.IELength - 12, &psecnetwork->IELength,
++				pnetwork->network.Configuration.DSConfig);
++		}
++	}
++
++#ifdef CONFIG_80211AC_VHT
++	pvhtpriv->vht_option = _FALSE;
++	if (phtpriv->ht_option
++	    && REGSTY_IS_11AC_ENABLE(pregistrypriv)
++	    && hal_chk_proto_cap(padapter, PROTO_CAP_11AC)
++	    && (!pmlmepriv->country_ent || COUNTRY_CHPLAN_EN_11AC(pmlmepriv->country_ent))
++	   ) {
++		rtw_restructure_vht_ie(padapter, &pnetwork->network.IEs[0], &psecnetwork->IEs[0],
++			pnetwork->network.IELength, &psecnetwork->IELength);
++	}
++#endif
++
++	rtw_append_exented_cap(padapter, &psecnetwork->IEs[0], &psecnetwork->IELength);
++
++#endif /* CONFIG_80211N_HT */
++
++#ifdef CONFIG_RTW_80211R
++	/*IEEE802.11-2012 Std. Table 8-101¡XAKM suite selectors*/
++	if ((rtw_chk_ft_flags(padapter, RTW_FT_STA_SUPPORTED)) &&
++		((psecuritypriv->rsn_akm_suite_type == 3) || (psecuritypriv->rsn_akm_suite_type == 4))
++		) {
++		ptmp = rtw_get_ie(&pnetwork->network.IEs[12], _MDIE_, &tmp_len, pnetwork->network.IELength-12);
++		if (ptmp) {
++			_rtw_memcpy(&pftpriv->mdid, ptmp+2, 2);
++			pftpriv->ft_cap = *(ptmp+4);
++
++			RTW_INFO("FT: Target AP "MAC_FMT" MDID=(0x%2x), capacity=(0x%2x)\n", MAC_ARG(pnetwork->network.MacAddress), pftpriv->mdid, pftpriv->ft_cap);
++			rtw_set_ft_flags(padapter, RTW_FT_SUPPORTED);
++			if ((rtw_chk_ft_flags(padapter, RTW_FT_STA_OVER_DS_SUPPORTED)) && (pftpriv->ft_roam_on_expired == _FALSE) && (pftpriv->ft_cap & 0x01))
++				rtw_set_ft_flags(padapter, RTW_FT_OVER_DS_SUPPORTED);
++		} else {
++				/*Don't use FT roaming if Target AP cannot support FT*/
++				RTW_INFO("FT: Target AP "MAC_FMT" could not support FT\n", MAC_ARG(pnetwork->network.MacAddress));
++				rtw_clr_ft_flags(padapter, RTW_FT_SUPPORTED|RTW_FT_OVER_DS_SUPPORTED);
++				rtw_reset_ft_status(padapter);
++		}
++	} else {
++		/*It could be a non-FT connection*/
++		RTW_INFO("FT: non-FT rtw_joinbss_cmd\n");
++		rtw_clr_ft_flags(padapter, RTW_FT_SUPPORTED|RTW_FT_OVER_DS_SUPPORTED);
++		rtw_reset_ft_status(padapter);
++	}
++#endif
++
++#if 0
++	psecuritypriv->supplicant_ie[0] = (u8)psecnetwork->IELength;
++
++	if (psecnetwork->IELength < (256 - 1))
++		_rtw_memcpy(&psecuritypriv->supplicant_ie[1], &psecnetwork->IEs[0], psecnetwork->IELength);
++	else
++		_rtw_memcpy(&psecuritypriv->supplicant_ie[1], &psecnetwork->IEs[0], (256 - 1));
++#endif
++
++	pcmd->cmdsz = sizeof(WLAN_BSSID_EX);
++
++#ifdef CONFIG_RTL8712
++	/* wlan_network endian conversion	 */
++	psecnetwork->Length = cpu_to_le32(psecnetwork->Length);
++	psecnetwork->Ssid.SsidLength = cpu_to_le32(psecnetwork->Ssid.SsidLength);
++	psecnetwork->Privacy = cpu_to_le32(psecnetwork->Privacy);
++	psecnetwork->Rssi = cpu_to_le32(psecnetwork->Rssi);
++	psecnetwork->NetworkTypeInUse = cpu_to_le32(psecnetwork->NetworkTypeInUse);
++	psecnetwork->Configuration.ATIMWindow = cpu_to_le32(psecnetwork->Configuration.ATIMWindow);
++	psecnetwork->Configuration.BeaconPeriod = cpu_to_le32(psecnetwork->Configuration.BeaconPeriod);
++	psecnetwork->Configuration.DSConfig = cpu_to_le32(psecnetwork->Configuration.DSConfig);
++	psecnetwork->Configuration.FHConfig.DwellTime = cpu_to_le32(psecnetwork->Configuration.FHConfig.DwellTime);
++	psecnetwork->Configuration.FHConfig.HopPattern = cpu_to_le32(psecnetwork->Configuration.FHConfig.HopPattern);
++	psecnetwork->Configuration.FHConfig.HopSet = cpu_to_le32(psecnetwork->Configuration.FHConfig.HopSet);
++	psecnetwork->Configuration.FHConfig.Length = cpu_to_le32(psecnetwork->Configuration.FHConfig.Length);
++	psecnetwork->Configuration.Length = cpu_to_le32(psecnetwork->Configuration.Length);
++	psecnetwork->InfrastructureMode = cpu_to_le32(psecnetwork->InfrastructureMode);
++	psecnetwork->IELength = cpu_to_le32(psecnetwork->IELength);
++#endif
++
++	_rtw_init_listhead(&pcmd->list);
++	pcmd->cmdcode = _JoinBss_CMD_;/* GEN_CMD_CODE(_JoinBss) */
++	pcmd->parmbuf = (unsigned char *)psecnetwork;
++	pcmd->rsp = NULL;
++	pcmd->rspsz = 0;
++
++	res = rtw_enqueue_cmd(pcmdpriv, pcmd);
++
++exit:
++
++
++	return res;
++}
++
++u8 rtw_disassoc_cmd(_adapter *padapter, u32 deauth_timeout_ms, bool enqueue) /* for sta_mode */
++{
++	struct cmd_obj *cmdobj = NULL;
++	struct disconnect_parm *param = NULL;
++	struct cmd_priv *cmdpriv = &padapter->cmdpriv;
++	u8 res = _SUCCESS;
++
++
++
++	/* prepare cmd parameter */
++	param = (struct disconnect_parm *)rtw_zmalloc(sizeof(*param));
++	if (param == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	param->deauth_timeout_ms = deauth_timeout_ms;
++
++	if (enqueue) {
++		/* need enqueue, prepare cmd_obj and enqueue */
++		cmdobj = (struct cmd_obj *)rtw_zmalloc(sizeof(*cmdobj));
++		if (cmdobj == NULL) {
++			res = _FAIL;
++			rtw_mfree((u8 *)param, sizeof(*param));
++			goto exit;
++		}
++		init_h2fwcmd_w_parm_no_rsp(cmdobj, param, _DisConnect_CMD_);
++		res = rtw_enqueue_cmd(cmdpriv, cmdobj);
++	} else {
++		/* no need to enqueue, do the cmd hdl directly and free cmd parameter */
++		if (H2C_SUCCESS != disconnect_hdl(padapter, (u8 *)param))
++			res = _FAIL;
++		rtw_mfree((u8 *)param, sizeof(*param));
++	}
++
++exit:
++
++
++	return res;
++}
++
++u8 rtw_setopmode_cmd(_adapter  *padapter, NDIS_802_11_NETWORK_INFRASTRUCTURE networktype, bool enqueue)
++{
++	struct	cmd_obj	*ph2c;
++	struct	setopmode_parm *psetop;
++
++	struct	cmd_priv   *pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	psetop = (struct setopmode_parm *)rtw_zmalloc(sizeof(struct setopmode_parm));
++
++	if (psetop == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	psetop->mode = (u8)networktype;
++
++	if (enqueue) {
++		ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (ph2c == NULL) {
++			rtw_mfree((u8 *)psetop, sizeof(*psetop));
++			res = _FAIL;
++			goto exit;
++		}
++
++		init_h2fwcmd_w_parm_no_rsp(ph2c, psetop, _SetOpMode_CMD_);
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	} else {
++		setopmode_hdl(padapter, (u8 *)psetop);
++		rtw_mfree((u8 *)psetop, sizeof(*psetop));
++	}
++exit:
++
++
++	return res;
++}
++
++u8 rtw_setstakey_cmd(_adapter *padapter, struct sta_info *sta, u8 key_type, bool enqueue)
++{
++	struct cmd_obj			*ph2c;
++	struct set_stakey_parm	*psetstakey_para;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	struct set_stakey_rsp		*psetstakey_rsp = NULL;
++
++	struct mlme_priv			*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv		*psecuritypriv = &padapter->securitypriv;
++	u8	res = _SUCCESS;
++
++
++	psetstakey_para = (struct set_stakey_parm *)rtw_zmalloc(sizeof(struct set_stakey_parm));
++	if (psetstakey_para == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	_rtw_memcpy(psetstakey_para->addr, sta->hwaddr, ETH_ALEN);
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE))
++		psetstakey_para->algorithm = (unsigned char) psecuritypriv->dot11PrivacyAlgrthm;
++	else
++		GET_ENCRY_ALGO(psecuritypriv, sta, psetstakey_para->algorithm, _FALSE);
++
++	if (key_type == GROUP_KEY)
++		_rtw_memcpy(&psetstakey_para->key, &psecuritypriv->dot118021XGrpKey[psecuritypriv->dot118021XGrpKeyid].skey, 16);
++	else if (key_type == UNICAST_KEY)
++		_rtw_memcpy(&psetstakey_para->key, &sta->dot118021x_UncstKey, 16);
++#ifdef CONFIG_TDLS
++	else if (key_type == TDLS_KEY) {
++		_rtw_memcpy(&psetstakey_para->key, sta->tpk.tk, 16);
++		psetstakey_para->algorithm = (u8)sta->dot118021XPrivacy;
++	}
++#endif /* CONFIG_TDLS */
++
++	/* jeff: set this becasue at least sw key is ready */
++	padapter->securitypriv.busetkipkey = _TRUE;
++
++	if (enqueue) {
++		ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (ph2c == NULL) {
++			rtw_mfree((u8 *) psetstakey_para, sizeof(struct set_stakey_parm));
++			res = _FAIL;
++			goto exit;
++		}
++
++		psetstakey_rsp = (struct set_stakey_rsp *)rtw_zmalloc(sizeof(struct set_stakey_rsp));
++		if (psetstakey_rsp == NULL) {
++			rtw_mfree((u8 *) ph2c, sizeof(struct cmd_obj));
++			rtw_mfree((u8 *) psetstakey_para, sizeof(struct set_stakey_parm));
++			res = _FAIL;
++			goto exit;
++		}
++
++		init_h2fwcmd_w_parm_no_rsp(ph2c, psetstakey_para, _SetStaKey_CMD_);
++		ph2c->rsp = (u8 *) psetstakey_rsp;
++		ph2c->rspsz = sizeof(struct set_stakey_rsp);
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	} else {
++		set_stakey_hdl(padapter, (u8 *)psetstakey_para);
++		rtw_mfree((u8 *) psetstakey_para, sizeof(struct set_stakey_parm));
++	}
++exit:
++
++
++	return res;
++}
++
++u8 rtw_clearstakey_cmd(_adapter *padapter, struct sta_info *sta, u8 enqueue)
++{
++	struct cmd_obj			*ph2c;
++	struct set_stakey_parm	*psetstakey_para;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	struct set_stakey_rsp		*psetstakey_rsp = NULL;
++	struct mlme_priv			*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv		*psecuritypriv = &padapter->securitypriv;
++	s16 cam_id = 0;
++	u8	res = _SUCCESS;
++
++
++	if (!enqueue) {
++		while ((cam_id = rtw_camid_search(padapter, sta->hwaddr, -1, -1)) >= 0) {
++			RTW_PRINT("clear key for addr:"MAC_FMT", camid:%d\n", MAC_ARG(sta->hwaddr), cam_id);
++			clear_cam_entry(padapter, cam_id);
++			rtw_camid_free(padapter, cam_id);
++		}
++	} else {
++		ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (ph2c == NULL) {
++			res = _FAIL;
++			goto exit;
++		}
++
++		psetstakey_para = (struct set_stakey_parm *)rtw_zmalloc(sizeof(struct set_stakey_parm));
++		if (psetstakey_para == NULL) {
++			rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++			res = _FAIL;
++			goto exit;
++		}
++
++		psetstakey_rsp = (struct set_stakey_rsp *)rtw_zmalloc(sizeof(struct set_stakey_rsp));
++		if (psetstakey_rsp == NULL) {
++			rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++			rtw_mfree((u8 *) psetstakey_para, sizeof(struct set_stakey_parm));
++			res = _FAIL;
++			goto exit;
++		}
++
++		init_h2fwcmd_w_parm_no_rsp(ph2c, psetstakey_para, _SetStaKey_CMD_);
++		ph2c->rsp = (u8 *) psetstakey_rsp;
++		ph2c->rspsz = sizeof(struct set_stakey_rsp);
++
++		_rtw_memcpy(psetstakey_para->addr, sta->hwaddr, ETH_ALEN);
++
++		psetstakey_para->algorithm = _NO_PRIVACY_;
++
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++	}
++
++exit:
++
++
++	return res;
++}
++
++u8 rtw_setrttbl_cmd(_adapter  *padapter, struct setratable_parm *prate_table)
++{
++	struct cmd_obj			*ph2c;
++	struct setratable_parm	*psetrttblparm;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	psetrttblparm = (struct setratable_parm *)rtw_zmalloc(sizeof(struct setratable_parm));
++
++	if (psetrttblparm == NULL) {
++		rtw_mfree((unsigned char *) ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psetrttblparm, GEN_CMD_CODE(_SetRaTable));
++
++	_rtw_memcpy(psetrttblparm, prate_table, sizeof(struct setratable_parm));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++	return res;
++
++}
++
++u8 rtw_getrttbl_cmd(_adapter  *padapter, struct getratable_rsp *pval)
++{
++	struct cmd_obj			*ph2c;
++	struct getratable_parm	*pgetrttblparm;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	pgetrttblparm = (struct getratable_parm *)rtw_zmalloc(sizeof(struct getratable_parm));
++
++	if (pgetrttblparm == NULL) {
++		rtw_mfree((unsigned char *) ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	/*	init_h2fwcmd_w_parm_no_rsp(ph2c, psetrttblparm, GEN_CMD_CODE(_SetRaTable)); */
++
++	_rtw_init_listhead(&ph2c->list);
++	ph2c->cmdcode = GEN_CMD_CODE(_GetRaTable);
++	ph2c->parmbuf = (unsigned char *)pgetrttblparm;
++	ph2c->cmdsz =  sizeof(struct getratable_parm);
++	ph2c->rsp = (u8 *)pval;
++	ph2c->rspsz = sizeof(struct getratable_rsp);
++
++	pgetrttblparm->rsvd = 0x0;
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++	return res;
++
++}
++
++u8 rtw_setassocsta_cmd(_adapter  *padapter, u8 *mac_addr)
++{
++	struct cmd_priv		*pcmdpriv = &padapter->cmdpriv;
++	struct cmd_obj			*ph2c;
++	struct set_assocsta_parm	*psetassocsta_para;
++	struct set_stakey_rsp		*psetassocsta_rsp = NULL;
++
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	psetassocsta_para = (struct set_assocsta_parm *)rtw_zmalloc(sizeof(struct set_assocsta_parm));
++	if (psetassocsta_para == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	psetassocsta_rsp = (struct set_stakey_rsp *)rtw_zmalloc(sizeof(struct set_assocsta_rsp));
++	if (psetassocsta_rsp == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		rtw_mfree((u8 *) psetassocsta_para, sizeof(struct set_assocsta_parm));
++		return _FAIL;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psetassocsta_para, _SetAssocSta_CMD_);
++	ph2c->rsp = (u8 *) psetassocsta_rsp;
++	ph2c->rspsz = sizeof(struct set_assocsta_rsp);
++
++	_rtw_memcpy(psetassocsta_para->addr, mac_addr, ETH_ALEN);
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return res;
++}
++
++u8 rtw_addbareq_cmd(_adapter *padapter, u8 tid, u8 *addr)
++{
++	struct cmd_priv		*pcmdpriv = &padapter->cmdpriv;
++	struct cmd_obj		*ph2c;
++	struct addBaReq_parm	*paddbareq_parm;
++
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	paddbareq_parm = (struct addBaReq_parm *)rtw_zmalloc(sizeof(struct addBaReq_parm));
++	if (paddbareq_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	paddbareq_parm->tid = tid;
++	_rtw_memcpy(paddbareq_parm->addr, addr, ETH_ALEN);
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, paddbareq_parm, GEN_CMD_CODE(_AddBAReq));
++
++	/* RTW_INFO("rtw_addbareq_cmd, tid=%d\n", tid); */
++
++	/* rtw_enqueue_cmd(pcmdpriv, ph2c);	 */
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return res;
++}
++
++u8 rtw_addbarsp_cmd(_adapter *padapter, u8 *addr, u16 tid, u8 status, u8 size, u16 start_seq)
++{
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++	struct cmd_obj *ph2c;
++	struct addBaRsp_parm *paddBaRsp_parm;
++	u8 res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	paddBaRsp_parm = (struct addBaRsp_parm *)rtw_zmalloc(sizeof(struct addBaRsp_parm));
++
++	if (paddBaRsp_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	_rtw_memcpy(paddBaRsp_parm->addr, addr, ETH_ALEN);
++	paddBaRsp_parm->tid = tid;
++	paddBaRsp_parm->status = status;
++	paddBaRsp_parm->size = size;
++	paddBaRsp_parm->start_seq = start_seq;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, paddBaRsp_parm, GEN_CMD_CODE(_AddBARsp));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return res;
++}
++/* add for CONFIG_IEEE80211W, none 11w can use it */
++u8 rtw_reset_securitypriv_cmd(_adapter *padapter)
++{
++	struct cmd_obj		*ph2c;
++	struct drvextra_cmd_parm  *pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = RESET_SECURITYPRIV;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = NULL;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++
++	/* rtw_enqueue_cmd(pcmdpriv, ph2c);	 */
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return res;
++
++}
++
++u8 rtw_free_assoc_resources_cmd(_adapter *padapter)
++{
++	struct cmd_obj		*ph2c;
++	struct drvextra_cmd_parm  *pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = FREE_ASSOC_RESOURCES;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = NULL;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++
++	/* rtw_enqueue_cmd(pcmdpriv, ph2c);	 */
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return res;
++
++}
++
++u8 rtw_dynamic_chk_wk_cmd(_adapter *padapter)
++{
++	struct cmd_obj		*ph2c;
++	struct drvextra_cmd_parm  *pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	/* only  primary padapter does this cmd */
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = DYNAMIC_CHK_WK_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = NULL;
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++
++	/* rtw_enqueue_cmd(pcmdpriv, ph2c);	 */
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return res;
++
++}
++
++u8 rtw_set_ch_cmd(_adapter *padapter, u8 ch, u8 bw, u8 ch_offset, u8 enqueue)
++{
++	struct cmd_obj *pcmdobj;
++	struct set_ch_parm *set_ch_parm;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++
++	u8 res = _SUCCESS;
++
++
++	RTW_INFO(FUNC_NDEV_FMT" ch:%u, bw:%u, ch_offset:%u\n",
++		 FUNC_NDEV_ARG(padapter->pnetdev), ch, bw, ch_offset);
++
++	/* check input parameter */
++
++	/* prepare cmd parameter */
++	set_ch_parm = (struct set_ch_parm *)rtw_zmalloc(sizeof(*set_ch_parm));
++	if (set_ch_parm == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	set_ch_parm->ch = ch;
++	set_ch_parm->bw = bw;
++	set_ch_parm->ch_offset = ch_offset;
++
++	if (enqueue) {
++		/* need enqueue, prepare cmd_obj and enqueue */
++		pcmdobj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct	cmd_obj));
++		if (pcmdobj == NULL) {
++			rtw_mfree((u8 *)set_ch_parm, sizeof(*set_ch_parm));
++			res = _FAIL;
++			goto exit;
++		}
++
++		init_h2fwcmd_w_parm_no_rsp(pcmdobj, set_ch_parm, GEN_CMD_CODE(_SetChannel));
++		res = rtw_enqueue_cmd(pcmdpriv, pcmdobj);
++	} else {
++		/* no need to enqueue, do the cmd hdl directly and free cmd parameter */
++		if (H2C_SUCCESS != set_ch_hdl(padapter, (u8 *)set_ch_parm))
++			res = _FAIL;
++
++		rtw_mfree((u8 *)set_ch_parm, sizeof(*set_ch_parm));
++	}
++
++	/* do something based on res... */
++
++exit:
++
++	RTW_INFO(FUNC_NDEV_FMT" res:%u\n", FUNC_NDEV_ARG(padapter->pnetdev), res);
++
++
++	return res;
++}
++
++u8 _rtw_set_chplan_cmd(_adapter *adapter, int flags, u8 chplan, const struct country_chplan *country_ent, u8 swconfig)
++{
++	struct cmd_obj *cmdobj;
++	struct	SetChannelPlan_param *parm;
++	struct cmd_priv *pcmdpriv = &adapter->cmdpriv;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct submit_ctx sctx;
++	u8 res = _SUCCESS;
++
++
++	/* check if allow software config */
++	if (swconfig && rtw_hal_is_disable_sw_channel_plan(adapter) == _TRUE) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	/* if country_entry is provided, replace chplan */
++	if (country_ent)
++		chplan = country_ent->chplan;
++
++	/* check input parameter */
++	if (!rtw_is_channel_plan_valid(chplan)) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	/* prepare cmd parameter */
++	parm = (struct SetChannelPlan_param *)rtw_zmalloc(sizeof(*parm));
++	if (parm == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	parm->country_ent = country_ent;
++	parm->channel_plan = chplan;
++
++	if (flags & RTW_CMDF_DIRECTLY) {
++		/* no need to enqueue, do the cmd hdl directly and free cmd parameter */
++		if (H2C_SUCCESS != set_chplan_hdl(adapter, (u8 *)parm))
++			res = _FAIL;
++		rtw_mfree((u8 *)parm, sizeof(*parm));
++	} else {
++		/* need enqueue, prepare cmd_obj and enqueue */
++		cmdobj = (struct cmd_obj *)rtw_zmalloc(sizeof(*cmdobj));
++		if (cmdobj == NULL) {
++			res = _FAIL;
++			rtw_mfree((u8 *)parm, sizeof(*parm));
++			goto exit;
++		}
++
++		init_h2fwcmd_w_parm_no_rsp(cmdobj, parm, GEN_CMD_CODE(_SetChannelPlan));
++
++		if (flags & RTW_CMDF_WAIT_ACK) {
++			cmdobj->sctx = &sctx;
++			rtw_sctx_init(&sctx, 2000);
++		}
++
++		res = rtw_enqueue_cmd(pcmdpriv, cmdobj);
++
++		if (res == _SUCCESS && (flags & RTW_CMDF_WAIT_ACK)) {
++			rtw_sctx_wait(&sctx, __func__);
++			_enter_critical_mutex(&pcmdpriv->sctx_mutex, NULL);
++			if (sctx.status == RTW_SCTX_SUBMITTED)
++				cmdobj->sctx = NULL;
++			_exit_critical_mutex(&pcmdpriv->sctx_mutex, NULL);
++		}
++	}
++
++exit:
++
++
++	return res;
++}
++
++inline u8 rtw_set_chplan_cmd(_adapter *adapter, int flags, u8 chplan, u8 swconfig)
++{
++	return _rtw_set_chplan_cmd(adapter, flags, chplan, NULL, swconfig);
++}
++
++inline u8 rtw_set_country_cmd(_adapter *adapter, int flags, const char *country_code, u8 swconfig)
++{
++	const struct country_chplan *ent;
++
++	if (is_alpha(country_code[0]) == _FALSE
++	    || is_alpha(country_code[1]) == _FALSE
++	   ) {
++		RTW_PRINT("%s input country_code is not alpha2\n", __func__);
++		return _FAIL;
++	}
++
++	ent = rtw_get_chplan_from_country(country_code);
++
++	if (ent == NULL) {
++		RTW_PRINT("%s unsupported country_code:\"%c%c\"\n", __func__, country_code[0], country_code[1]);
++		return _FAIL;
++	}
++
++	RTW_PRINT("%s country_code:\"%c%c\" mapping to chplan:0x%02x\n", __func__, country_code[0], country_code[1], ent->chplan);
++
++	return _rtw_set_chplan_cmd(adapter, flags, RTW_CHPLAN_MAX, ent, swconfig);
++}
++
++u8 rtw_led_blink_cmd(_adapter *padapter, PVOID pLed)
++{
++	struct	cmd_obj	*pcmdobj;
++	struct	LedBlink_param *ledBlink_param;
++	struct	cmd_priv   *pcmdpriv = &padapter->cmdpriv;
++
++	u8	res = _SUCCESS;
++
++
++
++	pcmdobj = (struct	cmd_obj *)rtw_zmalloc(sizeof(struct	cmd_obj));
++	if (pcmdobj == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	ledBlink_param = (struct	LedBlink_param *)rtw_zmalloc(sizeof(struct	LedBlink_param));
++	if (ledBlink_param == NULL) {
++		rtw_mfree((u8 *)pcmdobj, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	ledBlink_param->pLed = pLed;
++
++	init_h2fwcmd_w_parm_no_rsp(pcmdobj, ledBlink_param, GEN_CMD_CODE(_LedBlink));
++	res = rtw_enqueue_cmd(pcmdpriv, pcmdobj);
++
++exit:
++
++
++	return res;
++}
++
++u8 rtw_set_csa_cmd(_adapter *padapter, u8 new_ch_no)
++{
++	struct	cmd_obj	*pcmdobj;
++	struct	SetChannelSwitch_param *setChannelSwitch_param;
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct	cmd_priv   *pcmdpriv = &padapter->cmdpriv;
++
++	u8	res = _SUCCESS;
++
++
++
++	pcmdobj = (struct	cmd_obj *)rtw_zmalloc(sizeof(struct	cmd_obj));
++	if (pcmdobj == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	setChannelSwitch_param = (struct SetChannelSwitch_param *)rtw_zmalloc(sizeof(struct	SetChannelSwitch_param));
++	if (setChannelSwitch_param == NULL) {
++		rtw_mfree((u8 *)pcmdobj, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	setChannelSwitch_param->new_ch_no = new_ch_no;
++
++	init_h2fwcmd_w_parm_no_rsp(pcmdobj, setChannelSwitch_param, GEN_CMD_CODE(_SetChannelSwitch));
++	res = rtw_enqueue_cmd(pcmdpriv, pcmdobj);
++
++exit:
++
++
++	return res;
++}
++
++u8 rtw_tdls_cmd(_adapter *padapter, u8 *addr, u8 option)
++{
++	struct	cmd_obj	*pcmdobj;
++	struct	TDLSoption_param	*TDLSoption;
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct	cmd_priv   *pcmdpriv = &padapter->cmdpriv;
++
++	u8	res = _SUCCESS;
++
++
++#ifdef CONFIG_TDLS
++
++
++	pcmdobj = (struct	cmd_obj *)rtw_zmalloc(sizeof(struct	cmd_obj));
++	if (pcmdobj == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	TDLSoption = (struct TDLSoption_param *)rtw_zmalloc(sizeof(struct TDLSoption_param));
++	if (TDLSoption == NULL) {
++		rtw_mfree((u8 *)pcmdobj, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	_rtw_spinlock(&(padapter->tdlsinfo.cmd_lock));
++	if (addr != NULL)
++		_rtw_memcpy(TDLSoption->addr, addr, 6);
++	TDLSoption->option = option;
++	_rtw_spinunlock(&(padapter->tdlsinfo.cmd_lock));
++	init_h2fwcmd_w_parm_no_rsp(pcmdobj, TDLSoption, GEN_CMD_CODE(_TDLS));
++	res = rtw_enqueue_cmd(pcmdpriv, pcmdobj);
++
++#endif /* CONFIG_TDLS */
++
++exit:
++
++
++
++	return res;
++}
++
++u8 rtw_enable_hw_update_tsf_cmd(_adapter *padapter)
++{
++	struct cmd_obj *ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = EN_HW_UPDATE_TSF_WK_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = NULL;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++	return res;
++}
++
++static void collect_traffic_statistics(_adapter *padapter)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->adapter_type != PRIMARY_ADAPTER)
++		return;
++#endif
++
++	rtw_mi_traffic_statistics(padapter);
++
++	/* Calculate throughput in last interval */
++	pdvobjpriv->traffic_stat.cur_tx_bytes = pdvobjpriv->traffic_stat.tx_bytes - pdvobjpriv->traffic_stat.last_tx_bytes;
++	pdvobjpriv->traffic_stat.cur_rx_bytes = pdvobjpriv->traffic_stat.rx_bytes - pdvobjpriv->traffic_stat.last_rx_bytes;
++	pdvobjpriv->traffic_stat.last_tx_bytes = pdvobjpriv->traffic_stat.tx_bytes;
++	pdvobjpriv->traffic_stat.last_rx_bytes = pdvobjpriv->traffic_stat.rx_bytes;
++
++	pdvobjpriv->traffic_stat.cur_tx_tp = (u32)(pdvobjpriv->traffic_stat.cur_tx_bytes * 8 / 2 / 1024 / 1024);
++	pdvobjpriv->traffic_stat.cur_rx_tp = (u32)(pdvobjpriv->traffic_stat.cur_rx_bytes * 8 / 2 / 1024 / 1024);
++}
++
++/* from_timer == 1 means driver is in LPS */
++u8 traffic_status_watchdog(_adapter *padapter, u8 from_timer)
++{
++	u8	bEnterPS = _FALSE;
++	u16 BusyThresholdHigh;
++	u16	BusyThresholdLow;
++	u16	BusyThreshold;
++	u8	bBusyTraffic = _FALSE, bTxBusyTraffic = _FALSE, bRxBusyTraffic = _FALSE;
++	u8	bHigherBusyTraffic = _FALSE, bHigherBusyRxTraffic = _FALSE, bHigherBusyTxTraffic = _FALSE;
++
++	struct mlme_priv		*pmlmepriv = &(padapter->mlmepriv);
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &(padapter->tdlsinfo);
++	struct tdls_txmgmt txmgmt;
++	u8 baddr[ETH_ALEN] = { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff };
++#endif /* CONFIG_TDLS */
++
++	RT_LINK_DETECT_T *link_detect = &pmlmepriv->LinkDetectInfo;
++
++#ifdef CONFIG_BT_COEXIST
++	if (padapter->registrypriv.wifi_spec != 1) {
++		BusyThresholdHigh = 25;
++		BusyThresholdLow = 10;
++	} else
++#endif /* CONFIG_BT_COEXIST */
++	{
++		BusyThresholdHigh = 100;
++		BusyThresholdLow = 75;
++	}
++	BusyThreshold = BusyThresholdHigh;
++
++	collect_traffic_statistics(padapter);
++
++	/*  */
++	/* Determine if our traffic is busy now */
++	/*  */
++	if ((check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++	    /*&& !MgntInitAdapterInProgress(pMgntInfo)*/) {
++		/* if we raise bBusyTraffic in last watchdog, using lower threshold. */
++		if (pmlmepriv->LinkDetectInfo.bBusyTraffic)
++			BusyThreshold = BusyThresholdLow;
++
++		if (pmlmepriv->LinkDetectInfo.NumRxOkInPeriod > BusyThreshold ||
++		    pmlmepriv->LinkDetectInfo.NumTxOkInPeriod > BusyThreshold) {
++			bBusyTraffic = _TRUE;
++
++			if (pmlmepriv->LinkDetectInfo.NumRxOkInPeriod > pmlmepriv->LinkDetectInfo.NumTxOkInPeriod)
++				bRxBusyTraffic = _TRUE;
++			else
++				bTxBusyTraffic = _TRUE;
++		}
++
++		/* Higher Tx/Rx data. */
++		if (pmlmepriv->LinkDetectInfo.NumRxOkInPeriod > 4000 ||
++		    pmlmepriv->LinkDetectInfo.NumTxOkInPeriod > 4000) {
++			bHigherBusyTraffic = _TRUE;
++
++			if (pmlmepriv->LinkDetectInfo.NumRxOkInPeriod > pmlmepriv->LinkDetectInfo.NumTxOkInPeriod)
++				bHigherBusyRxTraffic = _TRUE;
++			else
++				bHigherBusyTxTraffic = _TRUE;
++		}
++
++#ifdef CONFIG_TRAFFIC_PROTECT
++#define TX_ACTIVE_TH 10
++#define RX_ACTIVE_TH 20
++#define TRAFFIC_PROTECT_PERIOD_MS 4500
++
++		if (link_detect->NumTxOkInPeriod > TX_ACTIVE_TH
++		    || link_detect->NumRxUnicastOkInPeriod > RX_ACTIVE_TH) {
++
++			RTW_INFO(FUNC_ADPT_FMT" acqiure wake_lock for %u ms(tx:%d,rx_unicast:%d)\n",
++				 FUNC_ADPT_ARG(padapter),
++				 TRAFFIC_PROTECT_PERIOD_MS,
++				 link_detect->NumTxOkInPeriod,
++				 link_detect->NumRxUnicastOkInPeriod);
++
++			rtw_lock_traffic_suspend_timeout(TRAFFIC_PROTECT_PERIOD_MS);
++		}
++#endif
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_AUTOSETUP
++		/* TDLS_WATCHDOG_PERIOD * 2sec, periodically send */
++		if (hal_chk_wl_func(padapter, WL_FUNC_TDLS) == _TRUE) {
++			if ((ptdlsinfo->watchdog_count % TDLS_WATCHDOG_PERIOD) == 0) {
++				_rtw_memcpy(txmgmt.peer, baddr, ETH_ALEN);
++				issue_tdls_dis_req(padapter, &txmgmt);
++			}
++			ptdlsinfo->watchdog_count++;
++		}
++#endif /* CONFIG_TDLS_AUTOSETUP */
++#endif /* CONFIG_TDLS */
++
++#ifdef CONFIG_LPS
++		/* check traffic for  powersaving. */
++		if (((pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod + pmlmepriv->LinkDetectInfo.NumTxOkInPeriod) > 8) ||
++#ifdef CONFIG_LPS_SLOW_TRANSITION
++		    (pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod > 2)
++#else /* CONFIG_LPS_SLOW_TRANSITION */
++		    (pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod > 4)
++#endif /* CONFIG_LPS_SLOW_TRANSITION */
++		   ) {
++#ifdef DBG_RX_COUNTER_DUMP
++			if (padapter->dump_rx_cnt_mode & DUMP_DRV_TRX_COUNTER_DATA)
++				RTW_INFO("(-)Tx = %d, Rx = %d\n", pmlmepriv->LinkDetectInfo.NumTxOkInPeriod, pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod);
++#endif
++			bEnterPS = _FALSE;
++#ifdef CONFIG_LPS_SLOW_TRANSITION
++			if (bBusyTraffic == _TRUE) {
++				if (pmlmepriv->LinkDetectInfo.TrafficTransitionCount <= 4)
++					pmlmepriv->LinkDetectInfo.TrafficTransitionCount = 4;
++
++				pmlmepriv->LinkDetectInfo.TrafficTransitionCount++;
++
++				/* RTW_INFO("Set TrafficTransitionCount to %d\n", pmlmepriv->LinkDetectInfo.TrafficTransitionCount); */
++
++				if (pmlmepriv->LinkDetectInfo.TrafficTransitionCount > 30/*TrafficTransitionLevel*/)
++					pmlmepriv->LinkDetectInfo.TrafficTransitionCount = 30;
++			}
++#endif /* CONFIG_LPS_SLOW_TRANSITION */
++
++		} else {
++#ifdef DBG_RX_COUNTER_DUMP
++			if (padapter->dump_rx_cnt_mode & DUMP_DRV_TRX_COUNTER_DATA)
++				RTW_INFO("(+)Tx = %d, Rx = %d\n", pmlmepriv->LinkDetectInfo.NumTxOkInPeriod, pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod);
++#endif
++#ifdef CONFIG_LPS_SLOW_TRANSITION
++			if (pmlmepriv->LinkDetectInfo.TrafficTransitionCount >= 2)
++				pmlmepriv->LinkDetectInfo.TrafficTransitionCount -= 2;
++			else
++				pmlmepriv->LinkDetectInfo.TrafficTransitionCount = 0;
++
++			if (pmlmepriv->LinkDetectInfo.TrafficTransitionCount == 0)
++				bEnterPS = _TRUE;
++#else /* CONFIG_LPS_SLOW_TRANSITION */
++			bEnterPS = _TRUE;
++#endif /* CONFIG_LPS_SLOW_TRANSITION */
++		}
++
++#ifdef CONFIG_DYNAMIC_DTIM
++		if (pmlmepriv->LinkDetectInfo.LowPowerTransitionCount == 8)
++			bEnterPS = _FALSE;
++
++		RTW_INFO("LowPowerTransitionCount=%d\n", pmlmepriv->LinkDetectInfo.LowPowerTransitionCount);
++#endif /* CONFIG_DYNAMIC_DTIM */
++
++		/* LeisurePS only work in infra mode. */
++		if (bEnterPS) {
++			if (!from_timer) {
++#ifdef CONFIG_DYNAMIC_DTIM
++				if (pmlmepriv->LinkDetectInfo.LowPowerTransitionCount < 8)
++					adapter_to_pwrctl(padapter)->dtim = 1;
++				else
++					adapter_to_pwrctl(padapter)->dtim = 3;
++#endif /* CONFIG_DYNAMIC_DTIM */
++				LPS_Enter(padapter, "TRAFFIC_IDLE");
++			} else {
++				/* do this at caller */
++				/* rtw_lps_ctrl_wk_cmd(adapter, LPS_CTRL_ENTER, 1); */
++				/* rtw_hal_dm_watchdog_in_lps(padapter); */
++			}
++#ifdef CONFIG_DYNAMIC_DTIM
++			if (adapter_to_pwrctl(padapter)->bFwCurrentInPSMode == _TRUE)
++				pmlmepriv->LinkDetectInfo.LowPowerTransitionCount++;
++#endif /* CONFIG_DYNAMIC_DTIM */
++		} else {
++#ifdef CONFIG_DYNAMIC_DTIM
++			if (pmlmepriv->LinkDetectInfo.LowPowerTransitionCount != 8)
++				pmlmepriv->LinkDetectInfo.LowPowerTransitionCount = 0;
++			else
++				pmlmepriv->LinkDetectInfo.LowPowerTransitionCount++;
++#endif /* CONFIG_DYNAMIC_DTIM			 */
++			if (!from_timer)
++				LPS_Leave(padapter, "TRAFFIC_BUSY");
++			else {
++#ifdef CONFIG_CONCURRENT_MODE
++				if (padapter->hw_port == HW_PORT0)
++#endif
++					rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_TRAFFIC_BUSY, 1);
++			}
++		}
++
++#endif /* CONFIG_LPS */
++	} else {
++#ifdef CONFIG_LPS
++		struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++		int n_assoc_iface = 0;
++		int i;
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			if (check_fwstate(&(dvobj->padapters[i]->mlmepriv), WIFI_ASOC_STATE))
++				n_assoc_iface++;
++		}
++
++		if (!from_timer && n_assoc_iface == 0)
++			LPS_Leave(padapter, "NON_LINKED");
++#endif
++	}
++
++	session_tracker_chk_cmd(padapter, NULL);
++
++	pmlmepriv->LinkDetectInfo.NumRxOkInPeriod = 0;
++	pmlmepriv->LinkDetectInfo.NumTxOkInPeriod = 0;
++	pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod = 0;
++	pmlmepriv->LinkDetectInfo.bBusyTraffic = bBusyTraffic;
++	pmlmepriv->LinkDetectInfo.bTxBusyTraffic = bTxBusyTraffic;
++	pmlmepriv->LinkDetectInfo.bRxBusyTraffic = bRxBusyTraffic;
++	pmlmepriv->LinkDetectInfo.bHigherBusyTraffic = bHigherBusyTraffic;
++	pmlmepriv->LinkDetectInfo.bHigherBusyRxTraffic = bHigherBusyRxTraffic;
++	pmlmepriv->LinkDetectInfo.bHigherBusyTxTraffic = bHigherBusyTxTraffic;
++
++	return bEnterPS;
++
++}
++
++
++/* for 11n Logo 4.2.31/4.2.32 */
++static void dynamic_update_bcn_check(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	if (!padapter->registrypriv.wifi_spec)
++		return;
++
++	if (!MLME_IS_AP(padapter))
++		return;
++
++	if (pmlmeext->bstart_bss) {
++		/* In 10 * 2 = 20s, there are no legacy AP, update HT info  */
++		static u8 count = 1;
++
++		if (count % 10 == 0) {
++			count = 1;
++
++			if (_FALSE == ATOMIC_READ(&pmlmepriv->olbc)
++				&& _FALSE == ATOMIC_READ(&pmlmepriv->olbc_ht)) {
++
++				if (rtw_ht_operation_update(padapter) > 0) {
++					update_beacon(padapter, _HT_CAPABILITY_IE_, NULL, _FALSE);
++					update_beacon(padapter, _HT_ADD_INFO_IE_, NULL, _TRUE);
++				}
++			}
++		}
++
++		/* In 2s, there are any legacy AP, update HT info, and then reset count  */
++
++		if (_FALSE != ATOMIC_READ(&pmlmepriv->olbc)
++			&& _FALSE != ATOMIC_READ(&pmlmepriv->olbc_ht)) {
++					
++			if (rtw_ht_operation_update(padapter) > 0) {
++				update_beacon(padapter, _HT_CAPABILITY_IE_, NULL, _FALSE);
++				update_beacon(padapter, _HT_ADD_INFO_IE_, NULL, _TRUE);
++
++			}
++			ATOMIC_SET(&pmlmepriv->olbc, _FALSE);
++			ATOMIC_SET(&pmlmepriv->olbc_ht, _FALSE);
++			count = 0;
++		}
++
++		count ++;
++	}
++}
++
++void dynamic_chk_wk_hdl(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv;
++	pmlmepriv = &(padapter->mlmepriv);
++
++#ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++#ifdef CONFIG_AP_MODE
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		expire_timeout_chk(padapter);
++#endif
++#endif /* CONFIG_ACTIVE_KEEP_ALIVE_CHECK */
++
++	dynamic_update_bcn_check(padapter);
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	rtw_hal_sreset_xmit_status_check(padapter);
++	rtw_hal_sreset_linked_status_check(padapter);
++#endif
++
++	/* for debug purpose */
++	_linked_info_dump(padapter);
++
++
++	/* if(check_fwstate(pmlmepriv, _FW_UNDER_LINKING|_FW_UNDER_SURVEY)==_FALSE) */
++	{
++		linked_status_chk(padapter, 0);
++		traffic_status_watchdog(padapter, 0);
++#ifdef DBG_RX_COUNTER_DUMP
++		rtw_dump_rx_counters(padapter);
++#endif
++		dm_DynamicUsbTxAgg(padapter, 0);
++	}
++
++#ifdef CONFIG_BEAMFORMING
++#if (BEAMFORMING_SUPPORT == 0) /*for diver defined beamforming*/
++	beamforming_watchdog(padapter);
++#endif
++#endif
++
++	rtw_hal_dm_watchdog(padapter);
++
++	/* check_hw_pbc(padapter, pdrvextra_cmd->pbuf, pdrvextra_cmd->type); */
++
++#ifdef CONFIG_BT_COEXIST
++	/*  */
++	/* BT-Coexist */
++	/*  */
++	rtw_btcoex_Handler(padapter);
++#endif
++
++
++#ifdef CONFIG_IPS_CHECK_IN_WD
++	/* always call rtw_ps_processor() at last one. */
++	if (is_primary_adapter(padapter))
++		rtw_ps_processor(padapter);
++#endif
++
++#ifdef CONFIG_MCC_MODE
++	if (is_primary_adapter(padapter))
++		rtw_hal_mcc_sw_status_check(padapter);
++#endif /* CONFIG_MCC_MODE */
++
++}
++
++#ifdef CONFIG_LPS
++
++void lps_ctrl_wk_hdl(_adapter *padapter, u8 lps_ctrl_type);
++void lps_ctrl_wk_hdl(_adapter *padapter, u8 lps_ctrl_type)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	u8	mstatus;
++
++
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE)
++	    || (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE))
++		return;
++
++	switch (lps_ctrl_type) {
++	case LPS_CTRL_SCAN:
++		/* RTW_INFO("LPS_CTRL_SCAN\n"); */
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_ScanNotify(padapter, _TRUE);
++#endif /* CONFIG_BT_COEXIST */
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++			/* connect */
++			LPS_Leave(padapter, "LPS_CTRL_SCAN");
++		}
++		break;
++	case LPS_CTRL_JOINBSS:
++		/* RTW_INFO("LPS_CTRL_JOINBSS\n"); */
++		LPS_Leave(padapter, "LPS_CTRL_JOINBSS");
++		break;
++	case LPS_CTRL_CONNECT:
++		/* RTW_INFO("LPS_CTRL_CONNECT\n"); */
++		mstatus = 1;/* connect */
++		/* Reset LPS Setting */
++		pwrpriv->LpsIdleCount = 0;
++		rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_JOINBSSRPT, (u8 *)(&mstatus));
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_MediaStatusNotify(padapter, mstatus);
++#endif /* CONFIG_BT_COEXIST */
++		break;
++	case LPS_CTRL_DISCONNECT:
++		/* RTW_INFO("LPS_CTRL_DISCONNECT\n"); */
++		mstatus = 0;/* disconnect */
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_MediaStatusNotify(padapter, mstatus);
++#endif /* CONFIG_BT_COEXIST */
++		LPS_Leave(padapter, "LPS_CTRL_DISCONNECT");
++		rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_JOINBSSRPT, (u8 *)(&mstatus));
++		break;
++	case LPS_CTRL_SPECIAL_PACKET:
++		/* RTW_INFO("LPS_CTRL_SPECIAL_PACKET\n"); */
++		pwrpriv->DelayLPSLastTimeStamp = rtw_get_current_time();
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_SpecialPacketNotify(padapter, PACKET_DHCP);
++#endif /* CONFIG_BT_COEXIST */
++		LPS_Leave(padapter, "LPS_CTRL_SPECIAL_PACKET");
++		break;
++	case LPS_CTRL_LEAVE:
++		LPS_Leave(padapter, "LPS_CTRL_LEAVE");
++		break;
++	case LPS_CTRL_LEAVE_CFG80211_PWRMGMT:
++		LPS_Leave(padapter, "CFG80211_PWRMGMT");
++		break;
++	case LPS_CTRL_TRAFFIC_BUSY:
++		LPS_Leave(padapter, "LPS_CTRL_TRAFFIC_BUSY");
++		break;
++	case LPS_CTRL_TX_TRAFFIC_LEAVE:
++		LPS_Leave(padapter, "LPS_CTRL_TX_TRAFFIC_LEAVE");
++		break;
++	case LPS_CTRL_RX_TRAFFIC_LEAVE:
++		LPS_Leave(padapter, "LPS_CTRL_RX_TRAFFIC_LEAVE");
++		break;
++	case LPS_CTRL_ENTER:
++		LPS_Enter(padapter, "TRAFFIC_IDLE_1");
++		break;
++	default:
++		break;
++	}
++
++}
++
++u8 rtw_lps_ctrl_wk_cmd(_adapter *padapter, u8 lps_ctrl_type, u8 enqueue)
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	/* struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter); */
++	u8	res = _SUCCESS;
++
++
++	/* if(!pwrctrlpriv->bLeisurePs) */
++	/*	return res; */
++
++	if (enqueue) {
++		ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (ph2c == NULL) {
++			res = _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++		if (pdrvextra_cmd_parm == NULL) {
++			rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++			res = _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm->ec_id = LPS_CTRL_WK_CID;
++		pdrvextra_cmd_parm->type = lps_ctrl_type;
++		pdrvextra_cmd_parm->size = 0;
++		pdrvextra_cmd_parm->pbuf = NULL;
++
++		init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	} else
++		lps_ctrl_wk_hdl(padapter, lps_ctrl_type);
++
++exit:
++
++
++	return res;
++
++}
++
++void rtw_dm_in_lps_hdl(_adapter *padapter)
++{
++	rtw_hal_set_hwreg(padapter, HW_VAR_DM_IN_LPS, NULL);
++}
++
++u8 rtw_dm_in_lps_wk_cmd(_adapter *padapter)
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = DM_IN_LPS_WK_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = NULL;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++	return res;
++
++}
++
++void rtw_lps_change_dtim_hdl(_adapter *padapter, u8 dtim)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++
++	if (dtim <= 0 || dtim > 16)
++		return;
++
++#ifdef CONFIG_BT_COEXIST
++	if (rtw_btcoex_IsBtControlLps(padapter) == _TRUE)
++		return;
++#endif
++
++#ifdef CONFIG_LPS_LCLK
++	_enter_pwrlock(&pwrpriv->lock);
++#endif
++
++	if (pwrpriv->dtim != dtim) {
++		RTW_INFO("change DTIM from %d to %d, bFwCurrentInPSMode=%d, ps_mode=%d\n", pwrpriv->dtim, dtim,
++			 pwrpriv->bFwCurrentInPSMode, pwrpriv->pwr_mode);
++
++		pwrpriv->dtim = dtim;
++	}
++
++	if ((pwrpriv->bFwCurrentInPSMode == _TRUE) && (pwrpriv->pwr_mode > PS_MODE_ACTIVE)) {
++		u8 ps_mode = pwrpriv->pwr_mode;
++
++		/* RTW_INFO("change DTIM from %d to %d, ps_mode=%d\n", pwrpriv->dtim, dtim, ps_mode); */
++
++		rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_PWRMODE, (u8 *)(&ps_mode));
++	}
++
++#ifdef CONFIG_LPS_LCLK
++	_exit_pwrlock(&pwrpriv->lock);
++#endif
++
++}
++
++#endif
++
++u8 rtw_lps_change_dtim_cmd(_adapter *padapter, u8 dtim)
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++	/*
++	#ifdef CONFIG_CONCURRENT_MODE
++		if (padapter->hw_port != HW_PORT0)
++			return res;
++	#endif
++	*/
++	{
++		ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (ph2c == NULL) {
++			res = _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++		if (pdrvextra_cmd_parm == NULL) {
++			rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++			res = _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm->ec_id = LPS_CHANGE_DTIM_CID;
++		pdrvextra_cmd_parm->type = dtim;
++		pdrvextra_cmd_parm->size = 0;
++		pdrvextra_cmd_parm->pbuf = NULL;
++
++		init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	}
++
++exit:
++
++	return res;
++
++}
++
++#if (RATE_ADAPTIVE_SUPPORT == 1)
++void rpt_timer_setting_wk_hdl(_adapter *padapter, u16 minRptTime)
++{
++	rtw_hal_set_hwreg(padapter, HW_VAR_RPT_TIMER_SETTING, (u8 *)(&minRptTime));
++}
++
++u8 rtw_rpt_timer_cfg_cmd(_adapter *padapter, u16 minRptTime)
++{
++	struct cmd_obj		*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = RTP_TIMER_CFG_WK_CID;
++	pdrvextra_cmd_parm->type = minRptTime;
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = NULL;
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++
++
++	return res;
++
++}
++
++#endif
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++void antenna_select_wk_hdl(_adapter *padapter, u8 antenna)
++{
++	rtw_hal_set_odm_var(padapter, HAL_ODM_ANTDIV_SELECT, &antenna, _TRUE);
++}
++
++u8 rtw_antenna_select_cmd(_adapter *padapter, u8 antenna, u8 enqueue)
++{
++	struct cmd_obj		*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	u8	bSupportAntDiv = _FALSE;
++	u8	res = _SUCCESS;
++	int	i;
++
++	rtw_hal_get_def_var(padapter, HAL_DEF_IS_SUPPORT_ANT_DIV, &(bSupportAntDiv));
++	if (_FALSE == bSupportAntDiv)
++		return _FAIL;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		if (rtw_linked_check(dvobj->padapters[i]))
++			return _FAIL;
++	}
++
++	if (_TRUE == enqueue) {
++		ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (ph2c == NULL) {
++			res = _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++		if (pdrvextra_cmd_parm == NULL) {
++			rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++			res = _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm->ec_id = ANT_SELECT_WK_CID;
++		pdrvextra_cmd_parm->type = antenna;
++		pdrvextra_cmd_parm->size = 0;
++		pdrvextra_cmd_parm->pbuf = NULL;
++		init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	} else
++		antenna_select_wk_hdl(padapter, antenna);
++exit:
++
++
++	return res;
++
++}
++#endif
++
++void rtw_dm_ra_mask_hdl(_adapter *padapter, struct sta_info *psta)
++{
++	if (psta)
++		set_sta_rate(padapter, psta);
++}
++
++u8 rtw_dm_ra_mask_wk_cmd(_adapter *padapter, u8 *psta)
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = DM_RA_MSK_WK_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = psta;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++	return res;
++
++}
++
++void power_saving_wk_hdl(_adapter *padapter)
++{
++	rtw_ps_processor(padapter);
++}
++
++/* add for CONFIG_IEEE80211W, none 11w can use it */
++void reset_securitypriv_hdl(_adapter *padapter)
++{
++	rtw_reset_securitypriv(padapter);
++}
++
++void free_assoc_resources_hdl(_adapter *padapter)
++{
++	rtw_free_assoc_resources(padapter, 1);
++}
++
++#ifdef CONFIG_P2P
++u8 p2p_protocol_wk_cmd(_adapter *padapter, int intCmdType)
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return res;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = P2P_PROTO_WK_CID;
++	pdrvextra_cmd_parm->type = intCmdType;	/*	As the command tppe. */
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = NULL;		/*	Must be NULL here */
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return res;
++
++}
++#endif /* CONFIG_P2P */
++
++u8 rtw_ps_cmd(_adapter *padapter)
++{
++	struct cmd_obj		*ppscmd;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++
++	u8	res = _SUCCESS;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->adapter_type != PRIMARY_ADAPTER)
++		goto exit;
++#endif
++
++	ppscmd = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ppscmd == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ppscmd, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = POWER_SAVING_CTRL_WK_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = NULL;
++	init_h2fwcmd_w_parm_no_rsp(ppscmd, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ppscmd);
++
++exit:
++
++
++	return res;
++
++}
++
++#ifdef CONFIG_AP_MODE
++
++static void rtw_chk_hi_queue_hdl(_adapter *padapter)
++{
++	struct sta_info *psta_bmc;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u32 start = rtw_get_current_time();
++	u8 empty = _FALSE;
++
++	psta_bmc = rtw_get_bcmc_stainfo(padapter);
++	if (!psta_bmc)
++		return;
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_CHK_HI_QUEUE_EMPTY, &empty);
++
++	while (_FALSE == empty && rtw_get_passing_time_ms(start) < rtw_get_wait_hiq_empty_ms()) {
++		rtw_msleep_os(100);
++		rtw_hal_get_hwreg(padapter, HW_VAR_CHK_HI_QUEUE_EMPTY, &empty);
++	}
++
++	if (psta_bmc->sleepq_len == 0) {
++		if (empty == _SUCCESS) {
++			bool update_tim = _FALSE;
++
++			if (pstapriv->tim_bitmap & BIT(0))
++				update_tim = _TRUE;
++
++			pstapriv->tim_bitmap &= ~BIT(0);
++			pstapriv->sta_dz_bitmap &= ~BIT(0);
++
++			if (update_tim == _TRUE)
++				_update_beacon(padapter, _TIM_IE_, NULL, _TRUE, "bmc sleepq and HIQ empty");
++		} else /* re check again */
++			rtw_chk_hi_queue_cmd(padapter);
++
++	}
++
++}
++
++u8 rtw_chk_hi_queue_cmd(_adapter *padapter)
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = CHECK_HIQ_WK_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = NULL;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++	return res;
++
++}
++
++#ifdef CONFIG_DFS_MASTER
++u8 rtw_dfs_master_hdl(_adapter *adapter)
++{
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++
++	if (!rfctl->dfs_master_enabled)
++		goto exit;
++
++	if (rtw_get_on_cur_ch_time(adapter) == 0
++		|| rtw_get_passing_time_ms(rtw_get_on_cur_ch_time(adapter)) < 300
++	) {
++		/* offchannel , bypass radar detect */
++		goto cac_status_chk;
++	}
++
++	if (IS_CH_WAITING(rfctl) && !IS_UNDER_CAC(rfctl)) {
++		/* non_ocp, bypass radar detect */
++		goto cac_status_chk;
++	}
++
++	if (!rfctl->dbg_dfs_master_fake_radar_detect_cnt
++		&& rtw_odm_radar_detect(adapter) != _TRUE)
++		goto cac_status_chk;
++
++	if (rfctl->dbg_dfs_master_fake_radar_detect_cnt != 0) {
++		RTW_INFO(FUNC_ADPT_FMT" fake radar detect, cnt:%d\n", FUNC_ADPT_ARG(adapter)
++			, rfctl->dbg_dfs_master_fake_radar_detect_cnt);
++		rfctl->dbg_dfs_master_fake_radar_detect_cnt--;
++	}
++
++	if (rfctl->dbg_dfs_master_radar_detect_trigger_non) {
++		/* radar detect debug mode, trigger no mlme flow */
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" radar detected, trigger no mlme flow for debug\n", FUNC_ADPT_ARG(adapter));
++	} else {
++		/* TODO: move timer to rfctl */
++		struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++		int i;
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			if (!dvobj->padapters[i])
++				continue;
++			if (check_fwstate(&dvobj->padapters[i]->mlmepriv, WIFI_AP_STATE)
++				&& check_fwstate(&dvobj->padapters[i]->mlmepriv, WIFI_ASOC_STATE))
++				break;
++		}
++
++		if (i >= dvobj->iface_nums) {
++			/* what? */
++			rtw_warn_on(1);
++		} else {
++			rtw_chset_update_non_ocp(dvobj->padapters[i]->mlmeextpriv.channel_set
++				, rfctl->radar_detect_ch, rfctl->radar_detect_bw, rfctl->radar_detect_offset);
++			rfctl->radar_detected = 1;
++
++			/* trigger channel selection */
++			rtw_change_bss_chbw_cmd(dvobj->padapters[i], RTW_CMDF_DIRECTLY, -1, dvobj->padapters[i]->mlmepriv.ori_bw, -1);
++		}
++
++		if (rfctl->dfs_master_enabled)
++			goto set_timer;
++		goto exit;
++	}
++
++cac_status_chk:
++
++	if (!IS_CH_WAITING(rfctl) && !IS_CAC_STOPPED(rfctl)) {
++		u8 pause = 0x00;
++
++		rtw_hal_set_hwreg(adapter, HW_VAR_TXPAUSE, &pause);
++		rfctl->cac_start_time = rfctl->cac_end_time = RTW_CAC_STOPPED;
++	}
++
++set_timer:
++	_set_timer(&mlme->dfs_master_timer, DFS_MASTER_TIMER_MS);
++
++exit:
++	return H2C_SUCCESS;
++}
++
++u8 rtw_dfs_master_cmd(_adapter *adapter, bool enqueue)
++{
++	struct cmd_obj *cmdobj;
++	struct drvextra_cmd_parm *pdrvextra_cmd_parm;
++	struct cmd_priv *pcmdpriv = &adapter->cmdpriv;
++	u8 res = _FAIL;
++
++	if (enqueue) {
++		cmdobj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (cmdobj == NULL)
++			goto exit;
++
++		pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++		if (pdrvextra_cmd_parm == NULL) {
++			rtw_mfree((u8 *)cmdobj, sizeof(struct cmd_obj));
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm->ec_id = DFS_MASTER_WK_CID;
++		pdrvextra_cmd_parm->type = 0;
++		pdrvextra_cmd_parm->size = 0;
++		pdrvextra_cmd_parm->pbuf = NULL;
++
++		init_h2fwcmd_w_parm_no_rsp(cmdobj, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++		res = rtw_enqueue_cmd(pcmdpriv, cmdobj);
++	} else {
++		rtw_dfs_master_hdl(adapter);
++		res = _SUCCESS;
++	}
++
++exit:
++	return res;
++}
++
++void rtw_dfs_master_timer_hdl(RTW_TIMER_HDL_ARGS)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++
++	rtw_dfs_master_cmd(adapter, _TRUE);
++}
++
++void rtw_dfs_master_enable(_adapter *adapter, u8 ch, u8 bw, u8 offset)
++{
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++
++	/* TODO: move timer to rfctl */
++	adapter = GET_PRIMARY_ADAPTER(adapter);
++
++	RTW_INFO(FUNC_ADPT_FMT" on %u,%u,%u\n", FUNC_ADPT_ARG(adapter), ch, bw, offset);
++
++	if (rtw_is_cac_reset_needed(adapter, ch, bw, offset) == _TRUE)
++		rtw_reset_cac(adapter, ch, bw, offset);
++
++	rfctl->radar_detect_by_others = _FALSE;
++	rfctl->radar_detect_ch = ch;
++	rfctl->radar_detect_bw = bw;
++	rfctl->radar_detect_offset = offset;
++
++	rfctl->radar_detected = 0;
++
++	if (!rfctl->dfs_master_enabled) {
++		RTW_INFO(FUNC_ADPT_FMT" set dfs_master_enabled\n", FUNC_ADPT_ARG(adapter));
++		rfctl->dfs_master_enabled = 1;
++		_set_timer(&adapter->mlmepriv.dfs_master_timer, DFS_MASTER_TIMER_MS);
++
++		if (rtw_rfctl_overlap_radar_detect_ch(rfctl)) {
++			if (IS_CH_WAITING(rfctl)) {
++				u8 pause = 0xFF;
++
++				rtw_hal_set_hwreg(adapter, HW_VAR_TXPAUSE, &pause);
++			}
++			rtw_odm_radar_detect_enable(adapter);
++		}
++	}
++}
++
++void rtw_dfs_master_disable(_adapter *adapter, u8 ch, u8 bw, u8 offset, bool by_others)
++{
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++
++	/* TODO: move timer to rfctl */
++	adapter = GET_PRIMARY_ADAPTER(adapter);
++
++	rfctl->radar_detect_by_others = by_others;
++
++	if (rfctl->dfs_master_enabled) {
++		bool overlap_radar_detect_ch = rtw_rfctl_overlap_radar_detect_ch(rfctl);
++
++		RTW_INFO(FUNC_ADPT_FMT" clear dfs_master_enabled\n", FUNC_ADPT_ARG(adapter));
++
++		rfctl->dfs_master_enabled = 0;
++		rfctl->radar_detected = 0;
++		rfctl->radar_detect_ch = 0;
++		rfctl->radar_detect_bw = 0;
++		rfctl->radar_detect_offset = 0;
++		rfctl->cac_start_time = rfctl->cac_end_time = RTW_CAC_STOPPED;
++		_cancel_timer_ex(&adapter->mlmepriv.dfs_master_timer);
++
++		if (overlap_radar_detect_ch) {
++			u8 pause = 0x00;
++
++			rtw_hal_set_hwreg(adapter, HW_VAR_TXPAUSE, &pause);
++			rtw_odm_radar_detect_disable(adapter);
++		}
++	}
++
++	if (by_others) {
++		rfctl->radar_detect_ch = ch;
++		rfctl->radar_detect_bw = bw;
++		rfctl->radar_detect_offset = offset;
++	}
++}
++
++void rtw_dfs_master_status_apply(_adapter *adapter, u8 self_action)
++{
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++	u8 ld_sta_num, lg_sta_num, ap_num;
++	u8 u_ch, u_bw, u_offset;
++	bool ld_sta_in_dfs = _FALSE;
++	bool sync_ch = _FALSE; /* _FALSE: asign channel directly */
++	bool needed = _FALSE;
++
++	rtw_mi_status_no_self(adapter, NULL, &ld_sta_num, &lg_sta_num, &ap_num, NULL, NULL);
++	rtw_mi_get_ch_setting_union_no_self(adapter, &u_ch, &u_bw, &u_offset);
++	if (u_ch != 0)
++		sync_ch = _TRUE;
++
++	switch (self_action) {
++	case MLME_STA_CONNECTING:
++		lg_sta_num++;
++		break;
++	case MLME_STA_CONNECTED:
++		ld_sta_num++;
++		break;
++	case MLME_AP_STARTED:
++		ap_num++;
++		break;
++	case MLME_AP_STOPPED:
++	case MLME_STA_DISCONNECTED:
++	default:
++		break;
++	}
++
++	if (sync_ch == _TRUE) {
++		if (!rtw_is_chbw_grouped(mlmeext->cur_channel, mlmeext->cur_bwmode, mlmeext->cur_ch_offset, u_ch, u_bw, u_offset)) {
++			RTW_INFO(FUNC_ADPT_FMT" can't sync %u,%u,%u with %u,%u,%u\n", FUNC_ADPT_ARG(adapter)
++				, mlmeext->cur_channel, mlmeext->cur_bwmode, mlmeext->cur_ch_offset, u_ch, u_bw, u_offset);
++			goto apply;
++		}
++
++		rtw_sync_chbw(&mlmeext->cur_channel, &mlmeext->cur_bwmode, &mlmeext->cur_ch_offset
++			, &u_ch, &u_bw, &u_offset);
++	} else {
++		u_ch = mlmeext->cur_channel;
++		u_bw = mlmeext->cur_bwmode;
++		u_offset = mlmeext->cur_ch_offset;
++	}
++
++	if (ld_sta_num > 0) {
++		/* rely on AP on which STA mode connects */
++		if (rtw_is_dfs_ch(u_ch, u_bw, u_offset))
++			ld_sta_in_dfs = _TRUE;
++		goto apply;
++	}
++
++	if (lg_sta_num > 0) {
++		/* STA mode is linking */
++		goto apply;
++	}
++
++	if (ap_num == 0) {
++		/* No working AP mode */
++		goto apply;
++	}
++
++	if (rtw_is_dfs_ch(u_ch, u_bw, u_offset))
++		needed = _TRUE;
++
++apply:
++
++	RTW_INFO(FUNC_ADPT_FMT" needed:%d, self_action:%u\n"
++		, FUNC_ADPT_ARG(adapter), needed, self_action);
++	RTW_INFO(FUNC_ADPT_FMT" ld_sta_num:%u, lg_sta_num:%u, ap_num:%u, %u,%u,%u\n"
++		, FUNC_ADPT_ARG(adapter), ld_sta_num, lg_sta_num, ap_num, u_ch, u_bw, u_offset);
++
++	if (needed == _TRUE)
++		rtw_dfs_master_enable(adapter, u_ch, u_bw, u_offset);
++	else
++		rtw_dfs_master_disable(adapter, u_ch, u_bw, u_offset, ld_sta_in_dfs);
++}
++#endif /* CONFIG_DFS_MASTER */
++
++#endif /* CONFIG_AP_MODE */
++
++#ifdef CONFIG_BT_COEXIST
++struct btinfo {
++	u8 cid;
++	u8 len;
++
++	u8 bConnection:1;
++	u8 bSCOeSCO:1;
++	u8 bInQPage:1;
++	u8 bACLBusy:1;
++	u8 bSCOBusy:1;
++	u8 bHID:1;
++	u8 bA2DP:1;
++	u8 bFTP:1;
++
++	u8 retry_cnt:4;
++	u8 rsvd_34:1;
++	u8 rsvd_35:1;
++	u8 rsvd_36:1;
++	u8 rsvd_37:1;
++
++	u8 rssi;
++
++	u8 rsvd_50:1;
++	u8 rsvd_51:1;
++	u8 rsvd_52:1;
++	u8 rsvd_53:1;
++	u8 rsvd_54:1;
++	u8 rsvd_55:1;
++	u8 eSCO_SCO:1;
++	u8 Master_Slave:1;
++
++	u8 rsvd_6;
++	u8 rsvd_7;
++};
++
++void btinfo_evt_dump(void *sel, void *buf)
++{
++	struct btinfo *info = (struct btinfo *)buf;
++
++	RTW_PRINT_SEL(sel, "cid:0x%02x, len:%u\n", info->cid, info->len);
++
++	if (info->len > 2)
++		RTW_PRINT_SEL(sel, "byte2:%s%s%s%s%s%s%s%s\n"
++			      , info->bConnection ? "bConnection " : ""
++			      , info->bSCOeSCO ? "bSCOeSCO " : ""
++			      , info->bInQPage ? "bInQPage " : ""
++			      , info->bACLBusy ? "bACLBusy " : ""
++			      , info->bSCOBusy ? "bSCOBusy " : ""
++			      , info->bHID ? "bHID " : ""
++			      , info->bA2DP ? "bA2DP " : ""
++			      , info->bFTP ? "bFTP" : ""
++			     );
++
++	if (info->len > 3)
++		RTW_PRINT_SEL(sel, "retry_cnt:%u\n", info->retry_cnt);
++
++	if (info->len > 4)
++		RTW_PRINT_SEL(sel, "rssi:%u\n", info->rssi);
++
++	if (info->len > 5)
++		RTW_PRINT_SEL(sel, "byte5:%s%s\n"
++			      , info->eSCO_SCO ? "eSCO_SCO " : ""
++			      , info->Master_Slave ? "Master_Slave " : ""
++			     );
++}
++
++static void rtw_btinfo_hdl(_adapter *adapter, u8 *buf, u16 buf_len)
++{
++#define BTINFO_WIFI_FETCH 0x23
++#define BTINFO_BT_AUTO_RPT 0x27
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	struct btinfo_8761ATV *info = (struct btinfo_8761ATV *)buf;
++#else /* !CONFIG_BT_COEXIST_SOCKET_TRX */
++	struct btinfo *info = (struct btinfo *)buf;
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++	u8 cmd_idx;
++	u8 len;
++
++	cmd_idx = info->cid;
++
++	if (info->len > buf_len - 2) {
++		rtw_warn_on(1);
++		len = buf_len - 2;
++	} else
++		len = info->len;
++
++	/* #define DBG_PROC_SET_BTINFO_EVT */
++#ifdef DBG_PROC_SET_BTINFO_EVT
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	RTW_INFO("%s: btinfo[0]=%x,btinfo[1]=%x,btinfo[2]=%x,btinfo[3]=%x btinfo[4]=%x,btinfo[5]=%x,btinfo[6]=%x,btinfo[7]=%x\n"
++		, __func__, buf[0], buf[1], buf[2], buf[3], buf[4], buf[5], buf[6], buf[7]);
++#else/* !CONFIG_BT_COEXIST_SOCKET_TRX */
++	btinfo_evt_dump(RTW_DBGDUMP, info);
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++#endif /* DBG_PROC_SET_BTINFO_EVT */
++
++	/* transform BT-FW btinfo to WiFI-FW C2H format and notify */
++	if (cmd_idx == BTINFO_WIFI_FETCH)
++		buf[1] = 0;
++	else if (cmd_idx == BTINFO_BT_AUTO_RPT)
++		buf[1] = 2;
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	else if (0x01 == cmd_idx || 0x02 == cmd_idx)
++		buf[1] = buf[0];
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++	rtw_btcoex_BtInfoNotify(adapter , len + 1, &buf[1]);
++}
++
++u8 rtw_btinfo_cmd(_adapter *adapter, u8 *buf, u16 len)
++{
++	struct cmd_obj *ph2c;
++	struct drvextra_cmd_parm *pdrvextra_cmd_parm;
++	u8 *btinfo;
++	struct cmd_priv *pcmdpriv = &adapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((u8 *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	btinfo = rtw_zmalloc(len);
++	if (btinfo == NULL) {
++		rtw_mfree((u8 *)ph2c, sizeof(struct cmd_obj));
++		rtw_mfree((u8 *)pdrvextra_cmd_parm, sizeof(struct drvextra_cmd_parm));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = BTINFO_WK_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = len;
++	pdrvextra_cmd_parm->pbuf = btinfo;
++
++	_rtw_memcpy(btinfo, buf, len);
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++	return res;
++}
++#endif /* CONFIG_BT_COEXIST */
++
++u8 rtw_test_h2c_cmd(_adapter *adapter, u8 *buf, u8 len)
++{
++	struct cmd_obj *pcmdobj;
++	struct drvextra_cmd_parm *pdrvextra_cmd_parm;
++	u8 *ph2c_content;
++	struct cmd_priv *pcmdpriv = &adapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	pcmdobj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (pcmdobj == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((u8 *)pcmdobj, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	ph2c_content = rtw_zmalloc(len);
++	if (ph2c_content == NULL) {
++		rtw_mfree((u8 *)pcmdobj, sizeof(struct cmd_obj));
++		rtw_mfree((u8 *)pdrvextra_cmd_parm, sizeof(struct drvextra_cmd_parm));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = TEST_H2C_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = len;
++	pdrvextra_cmd_parm->pbuf = ph2c_content;
++
++	_rtw_memcpy(ph2c_content, buf, len);
++
++	init_h2fwcmd_w_parm_no_rsp(pcmdobj, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, pcmdobj);
++
++exit:
++	return res;
++}
++
++u8 rtw_c2h_wk_cmd(PADAPTER padapter, u8 *pbuf, u16 length, u8 type)
++{
++	struct cmd_obj *ph2c;
++	struct drvextra_cmd_parm *pdrvextra_cmd_parm;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++	u8 *extra_cmd_buf;
++	u8 res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((u8 *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	extra_cmd_buf = rtw_zmalloc(length);
++	if (extra_cmd_buf == NULL) {
++		rtw_mfree((u8 *)ph2c, sizeof(struct cmd_obj));
++		rtw_mfree((u8 *)pdrvextra_cmd_parm, sizeof(struct drvextra_cmd_parm));
++		res = _FAIL;
++		goto exit;
++	}
++
++	_rtw_memcpy(extra_cmd_buf, pbuf, length);
++	pdrvextra_cmd_parm->ec_id = C2H_WK_CID;
++	pdrvextra_cmd_parm->type = type;
++	pdrvextra_cmd_parm->size = length;
++	pdrvextra_cmd_parm->pbuf = extra_cmd_buf;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++	return res;
++}
++
++#ifdef CONFIG_FW_C2H_REG
++inline u8 rtw_c2h_reg_wk_cmd(_adapter *adapter, u8 *c2h_evt)
++{
++	return rtw_c2h_wk_cmd(adapter, c2h_evt, c2h_evt ? C2H_REG_LEN : 0, C2H_TYPE_REG);
++}
++#endif
++
++#ifdef CONFIG_FW_C2H_PKT
++inline u8 rtw_c2h_packet_wk_cmd(_adapter *adapter, u8 *c2h_evt, u16 length)
++{
++	return rtw_c2h_wk_cmd(adapter, c2h_evt, length, C2H_TYPE_PKT);
++}
++#endif
++
++u8 rtw_run_in_thread_cmd(PADAPTER padapter, void (*func)(void *), void *context)
++{
++	struct cmd_priv *pcmdpriv;
++	struct cmd_obj *ph2c;
++	struct RunInThread_param *parm;
++	s32 res = _SUCCESS;
++
++
++	pcmdpriv = &padapter->cmdpriv;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (NULL == ph2c) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	parm = (struct RunInThread_param *)rtw_zmalloc(sizeof(struct RunInThread_param));
++	if (NULL == parm) {
++		rtw_mfree((u8 *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	parm->func = func;
++	parm->context = context;
++	init_h2fwcmd_w_parm_no_rsp(ph2c, parm, GEN_CMD_CODE(_RunInThreadCMD));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++
++
++	return res;
++}
++
++#ifdef CONFIG_FW_C2H_REG
++s32 c2h_evt_hdl(_adapter *adapter, u8 *c2h_evt, c2h_id_filter filter)
++{
++	s32 ret = _FAIL;
++	u8 buf[C2H_REG_LEN] = {0};
++	u8 id, seq, plen;
++	u8 *payload;
++
++	if (!c2h_evt) {
++		/* No c2h event in cmd_obj, read c2h event before handling*/
++		if (rtw_hal_c2h_evt_read(adapter, buf) != _SUCCESS)
++			goto exit;
++		c2h_evt = buf;
++	}
++
++	rtw_hal_c2h_reg_hdr_parse(adapter, c2h_evt, &id, &seq, &plen, &payload);
++
++	if (filter && filter(adapter, id, seq, plen, payload) == _FALSE)
++		goto exit;
++
++	ret = rtw_hal_c2h_handler(adapter, id, seq, plen, payload);
++
++exit:
++	return ret;
++}
++#endif /* CONFIG_FW_C2H_REG */
++
++u8 session_tracker_cmd(_adapter *adapter, u8 cmd, struct sta_info *sta, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port)
++{
++	struct cmd_priv	*cmdpriv = &adapter->cmdpriv;
++	struct cmd_obj *cmdobj;
++	struct drvextra_cmd_parm *cmd_parm;
++	struct st_cmd_parm *st_parm;
++	u8	res = _SUCCESS;
++
++	cmdobj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (cmdobj == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (cmd_parm == NULL) {
++		rtw_mfree((u8 *)cmdobj, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	st_parm = (struct st_cmd_parm *)rtw_zmalloc(sizeof(struct st_cmd_parm));
++	if (st_parm == NULL) {
++		rtw_mfree((u8 *)cmdobj, sizeof(struct cmd_obj));
++		rtw_mfree((u8 *)cmd_parm, sizeof(struct drvextra_cmd_parm));
++		res = _FAIL;
++		goto exit;
++	}
++
++	st_parm->cmd = cmd;
++	st_parm->sta = sta;
++	if (cmd != ST_CMD_CHK) {
++		_rtw_memcpy(&st_parm->local_naddr, local_naddr, 4);
++		_rtw_memcpy(&st_parm->local_port, local_port, 2);
++		_rtw_memcpy(&st_parm->remote_naddr, remote_naddr, 4);
++		_rtw_memcpy(&st_parm->remote_port, remote_port, 2);
++	}
++
++	cmd_parm->ec_id = SESSION_TRACKER_WK_CID;
++	cmd_parm->type = 0;
++	cmd_parm->size = sizeof(struct st_cmd_parm);
++	cmd_parm->pbuf = (u8 *)st_parm;
++	init_h2fwcmd_w_parm_no_rsp(cmdobj, cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++	cmdobj->no_io = 1;
++
++	res = rtw_enqueue_cmd(cmdpriv, cmdobj);
++
++exit:
++	return res;
++}
++
++inline u8 session_tracker_chk_cmd(_adapter *adapter, struct sta_info *sta)
++{
++	return session_tracker_cmd(adapter, ST_CMD_CHK, sta, NULL, NULL, NULL, NULL);
++}
++
++inline u8 session_tracker_add_cmd(_adapter *adapter, struct sta_info *sta, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port)
++{
++	return session_tracker_cmd(adapter, ST_CMD_ADD, sta, local_naddr, local_port, remote_naddr, remote_port);
++}
++
++inline u8 session_tracker_del_cmd(_adapter *adapter, struct sta_info *sta, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port)
++{
++	return session_tracker_cmd(adapter, ST_CMD_DEL, sta, local_naddr, local_port, remote_naddr, remote_port);
++}
++
++void session_tracker_chk_for_sta(_adapter *adapter, struct sta_info *sta)
++{
++	struct st_ctl_t *st_ctl = &sta->st_ctl;
++	int i;
++	_irqL irqL;
++	_list *plist, *phead, *pnext;
++	_list dlist;
++	struct session_tracker *st = NULL;
++	u8 op_wfd_mode = MIRACAST_DISABLED;
++
++	if (DBG_SESSION_TRACKER)
++		RTW_INFO(FUNC_ADPT_FMT" sta:%p\n", FUNC_ADPT_ARG(adapter), sta);
++
++	if (!(sta->state & _FW_LINKED))
++		goto exit;
++
++	for (i = 0; i < SESSION_TRACKER_REG_ID_NUM; i++) {
++		if (st_ctl->reg[i].s_proto != 0)
++			break;
++	}
++	if (i >= SESSION_TRACKER_REG_ID_NUM)
++		goto chk_sta;
++
++	_rtw_init_listhead(&dlist);
++
++	_enter_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++
++	phead = &st_ctl->tracker_q.queue;
++	plist = get_next(phead);
++	pnext = get_next(plist);
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		st = LIST_CONTAINOR(plist, struct session_tracker, list);
++		plist = pnext;
++		pnext = get_next(pnext);
++
++		if (st->status != ST_STATUS_ESTABLISH
++			&& rtw_get_passing_time_ms(st->set_time) > ST_EXPIRE_MS
++		) {
++			rtw_list_delete(&st->list);
++			rtw_list_insert_tail(&st->list, &dlist);
++		}
++
++		/* TODO: check OS for status update */
++		if (st->status == ST_STATUS_CHECK)
++			st->status = ST_STATUS_ESTABLISH;
++
++		if (st->status != ST_STATUS_ESTABLISH)
++			continue;
++
++		#ifdef CONFIG_WFD
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" local:%u, remote:%u, rtsp:%u, %u, %u\n", FUNC_ADPT_ARG(adapter)
++				, ntohs(st->local_port), ntohs(st->remote_port), adapter->wfd_info.rtsp_ctrlport, adapter->wfd_info.tdls_rtsp_ctrlport
++				, adapter->wfd_info.peer_rtsp_ctrlport);
++		if (ntohs(st->local_port) == adapter->wfd_info.rtsp_ctrlport)
++			op_wfd_mode |= MIRACAST_SINK;
++		if (ntohs(st->local_port) == adapter->wfd_info.tdls_rtsp_ctrlport)
++			op_wfd_mode |= MIRACAST_SINK;
++		if (ntohs(st->remote_port) == adapter->wfd_info.peer_rtsp_ctrlport)
++			op_wfd_mode |= MIRACAST_SOURCE;
++		#endif
++	}
++
++	_exit_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++
++	plist = get_next(&dlist);
++	while (rtw_end_of_queue_search(&dlist, plist) == _FALSE) {
++		st = LIST_CONTAINOR(plist, struct session_tracker, list);
++		plist = get_next(plist);
++		rtw_mfree((u8 *)st, sizeof(struct session_tracker));
++	}
++
++chk_sta:
++	if (STA_OP_WFD_MODE(sta) != op_wfd_mode) {
++		STA_SET_OP_WFD_MODE(sta, op_wfd_mode);
++		rtw_sta_media_status_rpt_cmd(adapter, sta, 1);
++	}
++
++exit:
++	return;
++}
++
++void session_tracker_chk_for_adapter(_adapter *adapter)
++{
++	struct sta_priv *stapriv = &adapter->stapriv;
++	struct sta_info *sta;
++	int i;
++	_irqL irqL;
++	_list *plist, *phead;
++	u8 op_wfd_mode = MIRACAST_DISABLED;
++
++	_enter_critical_bh(&stapriv->sta_hash_lock, &irqL);
++
++	for (i = 0; i < NUM_STA; i++) {
++		phead = &(stapriv->sta_hash[i]);
++		plist = get_next(phead);
++
++		while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++			sta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++			plist = get_next(plist);
++
++			session_tracker_chk_for_sta(adapter, sta);
++
++			op_wfd_mode |= STA_OP_WFD_MODE(sta);
++		}
++	}
++
++	_exit_critical_bh(&stapriv->sta_hash_lock, &irqL);
++
++#ifdef CONFIG_WFD
++	adapter->wfd_info.op_wfd_mode = MIRACAST_MODE_REVERSE(op_wfd_mode);
++#endif
++}
++
++void session_tracker_cmd_hdl(_adapter *adapter, struct st_cmd_parm *parm)
++{
++	u8 cmd = parm->cmd;
++	struct sta_info *sta = parm->sta;
++
++	if (cmd == ST_CMD_CHK) {
++		if (sta)
++			session_tracker_chk_for_sta(adapter, sta);
++		else
++			session_tracker_chk_for_adapter(adapter);
++
++		goto exit;
++
++	} else if (cmd == ST_CMD_ADD || cmd == ST_CMD_DEL) {
++		struct st_ctl_t *st_ctl;
++		u32 local_naddr = parm->local_naddr;
++		u16 local_port = parm->local_port;
++		u32 remote_naddr = parm->remote_naddr;
++		u16 remote_port = parm->remote_port;
++		struct session_tracker *st = NULL;
++		_irqL irqL;
++		_list *plist, *phead;
++		u8 free_st = 0;
++		u8 alloc_st = 0;
++
++		if (DBG_SESSION_TRACKER)
++			RTW_INFO(FUNC_ADPT_FMT" cmd:%u, sta:%p, local:"IP_FMT":"PORT_FMT", remote:"IP_FMT":"PORT_FMT"\n"
++				, FUNC_ADPT_ARG(adapter), cmd, sta
++				, IP_ARG(&local_naddr), PORT_ARG(&local_port)
++				, IP_ARG(&remote_naddr), PORT_ARG(&remote_port)
++			);
++
++		if (!(sta->state & _FW_LINKED))
++			goto exit;
++
++		st_ctl = &sta->st_ctl;
++
++		_enter_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++
++		phead = &st_ctl->tracker_q.queue;
++		plist = get_next(phead);
++		while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++			st = LIST_CONTAINOR(plist, struct session_tracker, list);
++
++			if (st->local_naddr == local_naddr
++				&& st->local_port == local_port
++				&& st->remote_naddr == remote_naddr
++				&& st->remote_port == remote_port)
++				break;
++
++			plist = get_next(plist);
++		}
++
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			st = NULL;
++
++		switch (cmd) {
++		case ST_CMD_DEL:
++			if (st) {
++				rtw_list_delete(plist);
++				free_st = 1;
++			}
++			goto unlock;
++		case ST_CMD_ADD:
++			if (!st)
++				alloc_st = 1;
++		}
++
++unlock:
++		_exit_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++
++		if (free_st) {
++			rtw_mfree((u8 *)st, sizeof(struct session_tracker));
++			goto exit;
++		}
++
++		if (alloc_st) {
++			st = (struct session_tracker *)rtw_zmalloc(sizeof(struct session_tracker));
++			if (!st)
++				goto exit;
++
++			st->local_naddr = local_naddr;
++			st->local_port = local_port;
++			st->remote_naddr = remote_naddr;
++			st->remote_port = remote_port;
++			st->set_time = rtw_get_current_time();
++			st->status = ST_STATUS_CHECK;
++
++			_enter_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++			rtw_list_insert_tail(&st->list, phead);
++			_exit_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++		}
++	}
++
++exit:
++	return;
++}
++
++u8 rtw_drvextra_cmd_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct drvextra_cmd_parm *pdrvextra_cmd;
++
++	if (!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	pdrvextra_cmd = (struct drvextra_cmd_parm *)pbuf;
++
++	switch (pdrvextra_cmd->ec_id) {
++	case STA_MSTATUS_RPT_WK_CID:
++		rtw_sta_media_status_rpt_cmd_hdl(padapter, (struct sta_media_status_rpt_cmd_parm *)pdrvextra_cmd->pbuf);
++		break;
++
++	case DYNAMIC_CHK_WK_CID:/*only  primary padapter go to this cmd, but execute dynamic_chk_wk_hdl() for two interfaces */
++		rtw_mi_dynamic_chk_wk_hdl(padapter);
++		break;
++	case POWER_SAVING_CTRL_WK_CID:
++		power_saving_wk_hdl(padapter);
++		break;
++#ifdef CONFIG_LPS
++	case LPS_CTRL_WK_CID:
++		lps_ctrl_wk_hdl(padapter, (u8)pdrvextra_cmd->type);
++		break;
++	case DM_IN_LPS_WK_CID:
++		rtw_dm_in_lps_hdl(padapter);
++		break;
++	case LPS_CHANGE_DTIM_CID:
++		rtw_lps_change_dtim_hdl(padapter, (u8)pdrvextra_cmd->type);
++		break;
++#endif
++#if (RATE_ADAPTIVE_SUPPORT == 1)
++	case RTP_TIMER_CFG_WK_CID:
++		rpt_timer_setting_wk_hdl(padapter, pdrvextra_cmd->type);
++		break;
++#endif
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	case ANT_SELECT_WK_CID:
++		antenna_select_wk_hdl(padapter, pdrvextra_cmd->type);
++		break;
++#endif
++#ifdef CONFIG_P2P_PS
++	case P2P_PS_WK_CID:
++		p2p_ps_wk_hdl(padapter, pdrvextra_cmd->type);
++		break;
++#endif
++#ifdef CONFIG_P2P
++	case P2P_PROTO_WK_CID:
++		/*
++		* Commented by Albert 2011/07/01
++		* I used the type_size as the type command
++		*/
++		p2p_protocol_wk_hdl(padapter, pdrvextra_cmd->type);
++		break;
++#endif
++#ifdef CONFIG_AP_MODE
++	case CHECK_HIQ_WK_CID:
++		rtw_chk_hi_queue_hdl(padapter);
++		break;
++#endif
++#ifdef CONFIG_INTEL_WIDI
++	case INTEl_WIDI_WK_CID:
++		intel_widi_wk_hdl(padapter, pdrvextra_cmd->type, pdrvextra_cmd->pbuf);
++		break;
++#endif
++	/* add for CONFIG_IEEE80211W, none 11w can use it */
++	case RESET_SECURITYPRIV:
++		reset_securitypriv_hdl(padapter);
++		break;
++	case FREE_ASSOC_RESOURCES:
++		free_assoc_resources_hdl(padapter);
++		break;
++	case C2H_WK_CID:
++		switch (pdrvextra_cmd->type) {
++		#ifdef CONFIG_FW_C2H_REG
++		case C2H_TYPE_REG:
++			c2h_evt_hdl(padapter, pdrvextra_cmd->pbuf, NULL);
++			break;
++		#endif
++		#ifdef CONFIG_FW_C2H_PKT
++		case C2H_TYPE_PKT:
++			rtw_hal_c2h_pkt_hdl(padapter, pdrvextra_cmd->pbuf, pdrvextra_cmd->size);
++			break;
++		#endif
++		default:
++			RTW_ERR("unknown C2H type:%d\n", pdrvextra_cmd->type);
++			rtw_warn_on(1);
++			break;
++		}
++		break;
++#ifdef CONFIG_BEAMFORMING
++	case BEAMFORMING_WK_CID:
++		beamforming_wk_hdl(padapter, pdrvextra_cmd->type, pdrvextra_cmd->pbuf);
++		break;
++#endif
++	case DM_RA_MSK_WK_CID:
++		rtw_dm_ra_mask_hdl(padapter, (struct sta_info *)pdrvextra_cmd->pbuf);
++		break;
++#ifdef CONFIG_BT_COEXIST
++	case BTINFO_WK_CID:
++		rtw_btinfo_hdl(padapter, pdrvextra_cmd->pbuf, pdrvextra_cmd->size);
++		break;
++#endif
++#ifdef CONFIG_DFS_MASTER
++	case DFS_MASTER_WK_CID:
++		rtw_dfs_master_hdl(padapter);
++		break;
++#endif
++	case SESSION_TRACKER_WK_CID:
++		session_tracker_cmd_hdl(padapter, (struct st_cmd_parm *)pdrvextra_cmd->pbuf);
++		break;
++	case EN_HW_UPDATE_TSF_WK_CID:
++		rtw_hal_set_hwreg(padapter, HW_VAR_EN_HW_UPDATE_TSF, NULL);
++		break;
++	case TEST_H2C_CID:
++		rtw_hal_fill_h2c_cmd(padapter, pdrvextra_cmd->pbuf[0], pdrvextra_cmd->size - 1, &pdrvextra_cmd->pbuf[1]);
++		break;
++	default:
++		break;
++	}
++
++	if (pdrvextra_cmd->pbuf && pdrvextra_cmd->size > 0)
++		rtw_mfree(pdrvextra_cmd->pbuf, pdrvextra_cmd->size);
++
++	return H2C_SUCCESS;
++}
++
++void rtw_survey_cmd_callback(_adapter	*padapter ,  struct cmd_obj *pcmd)
++{
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++
++	if (pcmd->res == H2C_DROPPED) {
++		/* TODO: cancel timer and do timeout handler directly... */
++		/* need to make timeout handlerOS independent */
++		mlme_set_scan_to_timer(pmlmepriv, 1);
++	} else if (pcmd->res != H2C_SUCCESS) {
++		mlme_set_scan_to_timer(pmlmepriv, 1);
++	}
++
++	/* free cmd */
++	rtw_free_cmd_obj(pcmd);
++
++}
++void rtw_disassoc_cmd_callback(_adapter	*padapter,  struct cmd_obj *pcmd)
++{
++	_irqL	irqL;
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++
++	if (pcmd->res != H2C_SUCCESS) {
++		_enter_critical_bh(&pmlmepriv->lock, &irqL);
++		set_fwstate(pmlmepriv, _FW_LINKED);
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++		goto exit;
++	}
++#ifdef CONFIG_BR_EXT
++	else /* clear bridge database */
++		nat25_db_cleanup(padapter);
++#endif /* CONFIG_BR_EXT */
++
++	/* free cmd */
++	rtw_free_cmd_obj(pcmd);
++
++exit:
++	return;
++}
++
++
++void rtw_getmacreg_cmdrsp_callback(_adapter *padapter,  struct cmd_obj *pcmd)
++{
++
++
++	rtw_free_cmd_obj(pcmd);
++
++}
++
++void rtw_joinbss_cmd_callback(_adapter	*padapter,  struct cmd_obj *pcmd)
++{
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++
++	if (pcmd->res == H2C_DROPPED) {
++		/* TODO: cancel timer and do timeout handler directly... */
++		/* need to make timeout handlerOS independent */
++		_set_timer(&pmlmepriv->assoc_timer, 1);
++	} else if (pcmd->res != H2C_SUCCESS)
++		_set_timer(&pmlmepriv->assoc_timer, 1);
++
++	rtw_free_cmd_obj(pcmd);
++
++}
++
++void rtw_create_ibss_post_hdl(_adapter *padapter, int status)
++{
++	_irqL irqL;
++	u8 timer_cancelled;
++	struct sta_info *psta = NULL;
++	struct wlan_network *pwlan = NULL;
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	WLAN_BSSID_EX *pdev_network = &padapter->registrypriv.dev_network;
++	struct wlan_network *mlme_cur_network = &(pmlmepriv->cur_network);
++
++	if (status != H2C_SUCCESS)
++		_set_timer(&pmlmepriv->assoc_timer, 1);
++
++	_cancel_timer(&pmlmepriv->assoc_timer, &timer_cancelled);
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	{
++		_irqL irqL;
++
++		pwlan = _rtw_alloc_network(pmlmepriv);
++		_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		if (pwlan == NULL) {
++			pwlan = rtw_get_oldest_wlan_network(&pmlmepriv->scanned_queue);
++			if (pwlan == NULL) {
++				_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++				goto createbss_cmd_fail;
++			}
++			pwlan->last_scanned = rtw_get_current_time();
++		} else
++			rtw_list_insert_tail(&(pwlan->list), &pmlmepriv->scanned_queue.queue);
++
++		pdev_network->Length = get_WLAN_BSSID_EX_sz(pdev_network);
++		_rtw_memcpy(&(pwlan->network), pdev_network, pdev_network->Length);
++		/* pwlan->fixed = _TRUE; */
++
++		/* copy pdev_network information to pmlmepriv->cur_network */
++		_rtw_memcpy(&mlme_cur_network->network, pdev_network, (get_WLAN_BSSID_EX_sz(pdev_network)));
++
++#if 0
++		/* reset DSConfig */
++		mlme_cur_network->network.Configuration.DSConfig = (u32)rtw_ch2freq(pdev_network->Configuration.DSConfig);
++#endif
++
++		_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		/* we will set _FW_LINKED when there is one more sat to join us (rtw_stassoc_event_callback) */
++	}
++
++createbss_cmd_fail:
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++exit:
++	return;
++}
++
++
++
++void rtw_setstaKey_cmdrsp_callback(_adapter	*padapter ,  struct cmd_obj *pcmd)
++{
++
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct set_stakey_rsp *psetstakey_rsp = (struct set_stakey_rsp *)(pcmd->rsp);
++	struct sta_info	*psta = rtw_get_stainfo(pstapriv, psetstakey_rsp->addr);
++
++
++	if (psta == NULL) {
++		goto exit;
++	}
++
++	/* psta->aid = psta->mac_id = psetstakey_rsp->keyid; */ /* CAM_ID(CAM_ENTRY) */
++
++exit:
++
++	rtw_free_cmd_obj(pcmd);
++
++
++}
++void rtw_setassocsta_cmdrsp_callback(_adapter	*padapter,  struct cmd_obj *pcmd)
++{
++	_irqL	irqL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct set_assocsta_parm *passocsta_parm = (struct set_assocsta_parm *)(pcmd->parmbuf);
++	struct set_assocsta_rsp *passocsta_rsp = (struct set_assocsta_rsp *)(pcmd->rsp);
++	struct sta_info	*psta = rtw_get_stainfo(pstapriv, passocsta_parm->addr);
++
++
++	if (psta == NULL) {
++		goto exit;
++	}
++
++	psta->aid = psta->mac_id = passocsta_rsp->cam_id;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	if ((check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE) && (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE))
++		_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++
++	set_fwstate(pmlmepriv, _FW_LINKED);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++exit:
++	rtw_free_cmd_obj(pcmd);
++
++}
++
++void rtw_getrttbl_cmd_cmdrsp_callback(_adapter	*padapter,  struct cmd_obj *pcmd);
++void rtw_getrttbl_cmd_cmdrsp_callback(_adapter	*padapter,  struct cmd_obj *pcmd)
++{
++
++	rtw_free_cmd_obj(pcmd);
++#ifdef CONFIG_MP_INCLUDED
++	if (padapter->registrypriv.mp_mode == 1)
++		padapter->mppriv.workparam.bcompleted = _TRUE;
++#endif
++
++
++}
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_debug.c b/drivers/net/wireless/rtl8723du/core/rtw_debug.c
+new file mode 100644
+index 0000000..e8b9949
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_debug.c
+@@ -0,0 +1,4567 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_DEBUG_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#ifdef CONFIG_RTW_DEBUG
++const char *rtw_log_level_str[] = {
++	"_DRV_NONE_ = 0",
++	"_DRV_ALWAYS_ = 1",
++	"_DRV_ERR_ = 2",
++	"_DRV_WARNING_ = 3",
++	"_DRV_INFO_ = 4",
++	"_DRV_DEBUG_ = 5",
++	"_DRV_MAX_ = 6",
++};
++#endif
++
++#ifdef CONFIG_DEBUG_RTL871X
++	u64 GlobalDebugComponents = 0;
++#endif /* CONFIG_DEBUG_RTL871X */
++
++#include <rtw_version.h>
++
++#ifdef CONFIG_TDLS
++	#define TDLS_DBG_INFO_SPACE_BTWN_ITEM_AND_VALUE	41
++#endif
++
++void dump_drv_version(void *sel)
++{
++	RTW_PRINT_SEL(sel, "%s %s\n", DRV_NAME, DRIVERVERSION);
++}
++
++void dump_drv_cfg(void *sel)
++{
++	char *kernel_version = utsname()->release;
++
++	RTW_PRINT_SEL(sel, "\nKernel Version: %s\n", kernel_version);
++	RTW_PRINT_SEL(sel, "Driver Version: %s\n", DRIVERVERSION);
++	RTW_PRINT_SEL(sel, "------------------------------------------------\n");
++#ifdef CONFIG_IOCTL_CFG80211
++	RTW_PRINT_SEL(sel, "CFG80211\n");
++#ifdef RTW_USE_CFG80211_STA_EVENT
++	RTW_PRINT_SEL(sel, "RTW_USE_CFG80211_STA_EVENT\n");
++#endif
++#else
++	RTW_PRINT_SEL(sel, "WEXT\n");
++#endif
++
++	RTW_PRINT_SEL(sel, "DBG:%d\n", DBG);
++#ifdef CONFIG_RTW_DEBUG
++	RTW_PRINT_SEL(sel, "CONFIG_RTW_DEBUG\n");
++#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++	RTW_PRINT_SEL(sel, "CONFIG_CONCURRENT_MODE\n");
++#endif
++
++#ifdef CONFIG_POWER_SAVING
++	RTW_PRINT_SEL(sel, "CONFIG_POWER_SAVING\n");
++#endif
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	RTW_PRINT_SEL(sel, "LOAD_PHY_PARA_FROM_FILE - REALTEK_CONFIG_PATH=%s\n", REALTEK_CONFIG_PATH);
++	#if defined(CONFIG_MULTIDRV) || defined(REALTEK_CONFIG_PATH_WITH_IC_NAME_FOLDER)
++	RTW_PRINT_SEL(sel, "LOAD_PHY_PARA_FROM_FILE - REALTEK_CONFIG_PATH_WITH_IC_NAME_FOLDER\n");
++	#endif
++#ifdef CONFIG_CALIBRATE_TX_POWER_BY_REGULATORY
++	RTW_PRINT_SEL(sel, "CONFIG_CALIBRATE_TX_POWER_BY_REGULATORY\n");
++#endif
++#ifdef CONFIG_CALIBRATE_TX_POWER_TO_MAX
++	RTW_PRINT_SEL(sel, "CONFIG_CALIBRATE_TX_POWER_TO_MAX\n");
++#endif
++#endif
++
++#ifdef CONFIG_DISABLE_ODM
++	RTW_PRINT_SEL(sel, "CONFIG_DISABLE_ODM\n");
++#endif
++
++#ifdef CONFIG_MINIMAL_MEMORY_USAGE
++	RTW_PRINT_SEL(sel, "CONFIG_MINIMAL_MEMORY_USAGE\n");
++#endif
++
++	RTW_PRINT_SEL(sel, "CONFIG_RTW_ADAPTIVITY_EN = %d\n", CONFIG_RTW_ADAPTIVITY_EN);
++#if (CONFIG_RTW_ADAPTIVITY_EN)
++	RTW_PRINT_SEL(sel, "ADAPTIVITY_MODE = %s\n", (CONFIG_RTW_ADAPTIVITY_MODE) ? "carrier_sense" : "normal");
++#endif
++
++#ifdef CONFIG_WOWLAN
++	RTW_PRINT_SEL(sel, "CONFIG_WOWLAN - ");
++
++#ifdef CONFIG_GPIO_WAKEUP
++	RTW_PRINT_SEL(sel, "CONFIG_GPIO_WAKEUP - WAKEUP_GPIO_IDX:%d\n", WAKEUP_GPIO_IDX);
++#endif
++#endif
++
++#ifdef CONFIG_TDLS
++	RTW_PRINT_SEL(sel, "CONFIG_TDLS\n");
++#endif
++
++#ifdef CONFIG_RTW_80211R
++	RTW_PRINT_SEL(sel, "CONFIG_RTW_80211R\n");
++#endif
++
++#ifdef CONFIG_USB_HCI
++#ifdef CONFIG_SUPPORT_USB_INT
++	RTW_PRINT_SEL(sel, "CONFIG_SUPPORT_USB_INT\n");
++#endif
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++	RTW_PRINT_SEL(sel, "CONFIG_USB_INTERRUPT_IN_PIPE\n");
++#endif
++#ifdef CONFIG_USB_TX_AGGREGATION
++	RTW_PRINT_SEL(sel, "CONFIG_USB_TX_AGGREGATION\n");
++#endif
++#ifdef CONFIG_USB_RX_AGGREGATION
++	RTW_PRINT_SEL(sel, "CONFIG_USB_RX_AGGREGATION\n");
++#endif
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_TX
++	RTW_PRINT_SEL(sel, "CONFIG_USE_USB_BUFFER_ALLOC_TX\n");
++#endif
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++	RTW_PRINT_SEL(sel, "CONFIG_USE_USB_BUFFER_ALLOC_RX\n");
++#endif
++#ifdef CONFIG_PREALLOC_RECV_SKB
++	RTW_PRINT_SEL(sel, "CONFIG_PREALLOC_RECV_SKB\n");
++#endif
++#ifdef CONFIG_FIX_NR_BULKIN_BUFFER
++	RTW_PRINT_SEL(sel, "CONFIG_FIX_NR_BULKIN_BUFFER\n");
++#endif
++#endif /*CONFIG_USB_HCI*/
++
++#ifdef CONFIG_SDIO_HCI
++#ifdef CONFIG_TX_AGGREGATION
++	RTW_PRINT_SEL(sel, "CONFIG_TX_AGGREGATION\n");
++#endif
++#ifdef CONFIG_RX_AGGREGATION
++	RTW_PRINT_SEL(sel, "CONFIG_RX_AGGREGATION\n");
++#endif
++#endif /*CONFIG_SDIO_HCI*/
++
++#ifdef CONFIG_PCI_HCI
++#endif
++
++	RTW_PRINT_SEL(sel, "MAX_XMITBUF_SZ = %d\n", MAX_XMITBUF_SZ);
++	RTW_PRINT_SEL(sel, "MAX_RECVBUF_SZ = %d\n", MAX_RECVBUF_SZ);
++
++}
++
++void dump_log_level(void *sel)
++{
++#ifdef CONFIG_RTW_DEBUG
++	int i;
++
++	RTW_PRINT_SEL(sel, "drv_log_level:%d\n", rtw_drv_log_level);
++	for (i = 0; i <= _DRV_MAX_; i++) {
++		if (rtw_log_level_str[i])
++			RTW_PRINT_SEL(sel, "%c %s = %d\n",
++				(rtw_drv_log_level == i) ? '+' : ' ', rtw_log_level_str[i], i);
++	}
++#else
++	RTW_PRINT_SEL(sel, "CONFIG_RTW_DEBUG is disabled\n");
++#endif
++}
++
++#ifdef CONFIG_SDIO_HCI
++void sd_f0_reg_dump(void *sel, _adapter *adapter)
++{
++	int i;
++
++	for (i = 0x0; i <= 0xff; i++) {
++		if (i % 16 == 0)
++			RTW_PRINT_SEL(sel, "0x%02x ", i);
++
++		_RTW_PRINT_SEL(sel, "%02x ", rtw_sd_f0_read8(adapter, i));
++
++		if (i % 16 == 15)
++			_RTW_PRINT_SEL(sel, "\n");
++		else if (i % 8 == 7)
++			_RTW_PRINT_SEL(sel, "\t");
++	}
++}
++
++void sdio_local_reg_dump(void *sel, _adapter *adapter)
++{
++	int i, j = 1;
++
++	for (i = 0x0; i < 0x100; i += 4) {
++		if (j % 4 == 1)
++			RTW_PRINT_SEL(sel, "0x%02x", i);
++		_RTW_PRINT_SEL(sel, " 0x%08x ", rtw_read32(adapter, (0x1025 << 16) | i));
++		if ((j++) % 4 == 0)
++			_RTW_PRINT_SEL(sel, "\n");
++	}
++}
++#endif /* CONFIG_SDIO_HCI */
++
++void mac_reg_dump(void *sel, _adapter *adapter)
++{
++	int i, j = 1;
++
++	RTW_PRINT_SEL(sel, "======= MAC REG =======\n");
++
++	for (i = 0x0; i < 0x800; i += 4) {
++		if (j % 4 == 1)
++			RTW_PRINT_SEL(sel, "0x%03x", i);
++		_RTW_PRINT_SEL(sel, " 0x%08x ", rtw_read32(adapter, i));
++		if ((j++) % 4 == 0)
++			_RTW_PRINT_SEL(sel, "\n");
++	}
++
++#ifdef CONFIG_RTL8814A
++	{
++		for (i = 0x1000; i < 0x1650; i += 4) {
++			if (j % 4 == 1)
++				RTW_PRINT_SEL(sel, "0x%03x", i);
++			_RTW_PRINT_SEL(sel, " 0x%08x ", rtw_read32(adapter, i));
++			if ((j++) % 4 == 0)
++				_RTW_PRINT_SEL(sel, "\n");
++		}
++	}
++#endif /* CONFIG_RTL8814A */
++
++#ifdef CONFIG_RTL8822B
++	for (i = 0x1000; i < 0x1800; i += 4) {
++		if (j % 4 == 1)
++			RTW_PRINT_SEL(sel, "0x%03x", i);
++		_RTW_PRINT_SEL(sel, " 0x%08x ", rtw_read32(adapter, i));
++		if ((j++) % 4 == 0)
++			_RTW_PRINT_SEL(sel, "\n");
++	}
++#endif /* CONFIG_RTL8822B */
++}
++
++void bb_reg_dump(void *sel, _adapter *adapter)
++{
++	int i, j = 1;
++
++	RTW_PRINT_SEL(sel, "======= BB REG =======\n");
++	for (i = 0x800; i < 0x1000; i += 4) {
++		if (j % 4 == 1)
++			RTW_PRINT_SEL(sel, "0x%03x", i);
++		_RTW_PRINT_SEL(sel, " 0x%08x ", rtw_read32(adapter, i));
++		if ((j++) % 4 == 0)
++			_RTW_PRINT_SEL(sel, "\n");
++	}
++
++#ifdef CONFIG_RTL8822B
++	for (i = 0x1800; i < 0x2000; i += 4) {
++		if (j % 4 == 1)
++			RTW_PRINT_SEL(sel, "0x%03x", i);
++		_RTW_PRINT_SEL(sel, " 0x%08x ", rtw_read32(adapter, i));
++		if ((j++) % 4 == 0)
++			_RTW_PRINT_SEL(sel, "\n");
++	}
++#endif /* CONFIG_RTL8822B */
++}
++
++void rf_reg_dump(void *sel, _adapter *adapter)
++{
++	int i, j = 1, path;
++	u32 value;
++	u8 rf_type = 0;
++	u8 path_nums = 0;
++
++	rtw_hal_get_hwreg(adapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++	if ((RF_1T2R == rf_type) || (RF_1T1R == rf_type))
++		path_nums = 1;
++	else
++		path_nums = 2;
++
++	RTW_PRINT_SEL(sel, "======= RF REG =======\n");
++
++	for (path = 0; path < path_nums; path++) {
++		RTW_PRINT_SEL(sel, "RF_Path(%x)\n", path);
++		for (i = 0; i < 0x100; i++) {
++			value = rtw_hal_read_rfreg(adapter, path, i, 0xffffffff);
++			if (j % 4 == 1)
++				RTW_PRINT_SEL(sel, "0x%02x ", i);
++			_RTW_PRINT_SEL(sel, " 0x%08x ", value);
++			if ((j++) % 4 == 0)
++				_RTW_PRINT_SEL(sel, "\n");
++		}
++	}
++}
++
++static u8 fwdl_test_chksum_fail = 0;
++static u8 fwdl_test_wintint_rdy_fail = 0;
++
++bool rtw_fwdl_test_trigger_chksum_fail(void)
++{
++	if (fwdl_test_chksum_fail) {
++		RTW_PRINT("fwdl test case: trigger chksum_fail\n");
++		fwdl_test_chksum_fail--;
++		return _TRUE;
++	}
++	return _FALSE;
++}
++
++bool rtw_fwdl_test_trigger_wintint_rdy_fail(void)
++{
++	if (fwdl_test_wintint_rdy_fail) {
++		RTW_PRINT("fwdl test case: trigger wintint_rdy_fail\n");
++		fwdl_test_wintint_rdy_fail--;
++		return _TRUE;
++	}
++	return _FALSE;
++}
++
++static u32 g_wait_hiq_empty_ms = 0;
++
++u32 rtw_get_wait_hiq_empty_ms(void)
++{
++	return g_wait_hiq_empty_ms;
++}
++
++static u8 del_rx_ampdu_test_no_tx_fail = 0;
++
++bool rtw_del_rx_ampdu_test_trigger_no_tx_fail(void)
++{
++	if (del_rx_ampdu_test_no_tx_fail) {
++		RTW_PRINT("del_rx_ampdu test case: trigger no_tx_fail\n");
++		del_rx_ampdu_test_no_tx_fail--;
++		return _TRUE;
++	}
++	return _FALSE;
++}
++
++void rtw_sink_rtp_seq_dbg(_adapter *adapter, _pkt *pkt)
++{
++	struct recv_priv *precvpriv = &(adapter->recvpriv);
++	if (precvpriv->sink_udpport > 0) {
++		if (*((u16 *)((pkt->data) + 0x24)) == cpu_to_be16(precvpriv->sink_udpport)) {
++			precvpriv->pre_rtp_rxseq = precvpriv->cur_rtp_rxseq;
++			precvpriv->cur_rtp_rxseq = be16_to_cpu(*((u16 *)((pkt->data) + 0x2C)));
++			if (precvpriv->pre_rtp_rxseq + 1 != precvpriv->cur_rtp_rxseq)
++				RTW_INFO("%s : RTP Seq num from %d to %d\n", __FUNCTION__, precvpriv->pre_rtp_rxseq, precvpriv->cur_rtp_rxseq);
++		}
++	}
++}
++
++void sta_rx_reorder_ctl_dump(void *sel, struct sta_info *sta)
++{
++	struct recv_reorder_ctrl *reorder_ctl;
++	int i;
++
++	for (i = 0; i < 16; i++) {
++		reorder_ctl = &sta->recvreorder_ctrl[i];
++		if (reorder_ctl->ampdu_size != RX_AMPDU_SIZE_INVALID || reorder_ctl->indicate_seq != 0xFFFF) {
++			RTW_PRINT_SEL(sel, "tid=%d, enable=%d, ampdu_size=%u, indicate_seq=%u\n"
++				, i, reorder_ctl->enable, reorder_ctl->ampdu_size, reorder_ctl->indicate_seq
++				     );
++		}
++	}
++}
++
++void dump_tx_rate_bmp(void *sel, struct dvobj_priv *dvobj)
++{
++	_adapter *adapter = dvobj_get_primary_adapter(dvobj);
++	struct rf_ctl_t *rfctl = dvobj_to_rfctl(dvobj);
++	u8 bw;
++
++	RTW_PRINT_SEL(sel, "%-6s", "bw");
++	if (hal_chk_proto_cap(adapter, PROTO_CAP_11AC))
++		_RTW_PRINT_SEL(sel, " %-11s", "vht");
++
++	_RTW_PRINT_SEL(sel, " %-11s %-4s %-3s\n", "ht", "ofdm", "cck");
++
++	for (bw = CHANNEL_WIDTH_20; bw <= CHANNEL_WIDTH_160; bw++) {
++		if (!hal_is_bw_support(adapter, bw))
++			continue;
++
++		RTW_PRINT_SEL(sel, "%6s", ch_width_str(bw));
++		if (hal_chk_proto_cap(adapter, PROTO_CAP_11AC)) {
++			_RTW_PRINT_SEL(sel, " %03x %03x %03x"
++				, RATE_BMP_GET_VHT_3SS(rfctl->rate_bmp_vht_by_bw[bw])
++				, RATE_BMP_GET_VHT_2SS(rfctl->rate_bmp_vht_by_bw[bw])
++				, RATE_BMP_GET_VHT_1SS(rfctl->rate_bmp_vht_by_bw[bw])
++			);
++		}
++
++		_RTW_PRINT_SEL(sel, " %02x %02x %02x %02x"
++			, bw <= CHANNEL_WIDTH_40 ? RATE_BMP_GET_HT_4SS(rfctl->rate_bmp_ht_by_bw[bw]) : 0
++			, bw <= CHANNEL_WIDTH_40 ? RATE_BMP_GET_HT_3SS(rfctl->rate_bmp_ht_by_bw[bw]) : 0
++			, bw <= CHANNEL_WIDTH_40 ? RATE_BMP_GET_HT_2SS(rfctl->rate_bmp_ht_by_bw[bw]) : 0
++			, bw <= CHANNEL_WIDTH_40 ? RATE_BMP_GET_HT_1SS(rfctl->rate_bmp_ht_by_bw[bw]) : 0
++		);
++
++		_RTW_PRINT_SEL(sel, "  %03x   %01x\n"
++			, bw <= CHANNEL_WIDTH_20 ? RATE_BMP_GET_OFDM(rfctl->rate_bmp_cck_ofdm) : 0
++			, bw <= CHANNEL_WIDTH_20 ? RATE_BMP_GET_CCK(rfctl->rate_bmp_cck_ofdm) : 0
++		);
++	}
++}
++
++void dump_adapters_status(void *sel, struct dvobj_priv *dvobj)
++{
++	struct rf_ctl_t *rfctl = dvobj_to_rfctl(dvobj);
++	int i;
++	_adapter *iface;
++	u8 u_ch, u_bw, u_offset;
++
++	dump_mi_status(sel, dvobj);
++
++	RTW_PRINT_SEL(sel, "%-2s %-8s %-17s %-4s %-7s %s\n"
++		, "id", "ifname", "macaddr", "port", "ch", "status");
++
++	RTW_PRINT_SEL(sel, "------------------------------------------\n");
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface) {
++			RTW_PRINT_SEL(sel, "%2d %-8s "MAC_FMT" %4hhu %3u,%u,%u "MLME_STATE_FMT" %s%s\n"
++				, i, ADPT_ARG(iface)
++				, MAC_ARG(adapter_mac_addr(iface))
++				, get_hw_port(iface)
++				, iface->mlmeextpriv.cur_channel
++				, iface->mlmeextpriv.cur_bwmode
++				, iface->mlmeextpriv.cur_ch_offset
++				, MLME_STATE_ARG(iface)
++				, rtw_is_surprise_removed(iface) ? " SR" : ""
++				, rtw_is_drv_stopped(iface) ? " DS" : ""
++			);
++		}
++	}
++
++	RTW_PRINT_SEL(sel, "------------------------------------------\n");
++
++	rtw_mi_get_ch_setting_union(dvobj->padapters[IFACE_ID0], &u_ch, &u_bw, &u_offset);
++	RTW_PRINT_SEL(sel, "%34s %3u,%u,%u\n"
++		, "union:"
++		, u_ch, u_bw, u_offset
++	);
++
++	RTW_PRINT_SEL(sel, "%34s %3u,%u,%u\n"
++		, "oper:"
++		, dvobj->oper_channel
++		, dvobj->oper_bwmode
++		, dvobj->oper_ch_offset
++	);
++
++#ifdef CONFIG_DFS_MASTER
++	if (rfctl->radar_detect_ch != 0) {
++		u32 non_ocp_ms;
++		u32 cac_ms;
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			if (!dvobj->padapters[i])
++				continue;
++			if (check_fwstate(&dvobj->padapters[i]->mlmepriv, WIFI_AP_STATE)
++				&& check_fwstate(&dvobj->padapters[i]->mlmepriv, WIFI_ASOC_STATE))
++				break;
++		}
++
++		if (i >= dvobj->iface_nums) {
++			RTW_PRINT_SEL(sel, "DFS master enable without AP mode???");
++			goto end_dfs_master;
++		}
++
++		RTW_PRINT_SEL(sel, "%34s %3u,%u,%u"
++			, "radar_detect:"
++			, rfctl->radar_detect_ch
++			, rfctl->radar_detect_bw
++			, rfctl->radar_detect_offset
++		);
++
++		_RTW_PRINT_SEL(sel, ", domain:%u", rtw_odm_get_dfs_domain(dvobj->padapters[IFACE_ID0]));
++
++		rtw_get_ch_waiting_ms(dvobj->padapters[i]
++			, rfctl->radar_detect_ch
++			, rfctl->radar_detect_bw
++			, rfctl->radar_detect_offset
++			, &non_ocp_ms
++			, &cac_ms
++		);
++
++		if (non_ocp_ms)
++			_RTW_PRINT_SEL(sel, ", non_ocp:%d", non_ocp_ms);
++		if (cac_ms)
++			_RTW_PRINT_SEL(sel, ", cac:%d", cac_ms);
++end_dfs_master:
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++#endif /* CONFIG_DFS_MASTER */
++}
++
++void dump_adapters_info(void *sel, struct dvobj_priv *dvobj)
++{
++	int i;
++	_adapter *iface;
++	u8 u_ch, u_bw, u_offset;
++
++	RTW_PRINT_SEL(sel, "%-8s %-8s %-4s %-4s %-8s %-8s\n"
++		, "iface_id", "ifname", "port", "bup ", "netif_up", "net_closed");
++
++	RTW_PRINT_SEL(sel, "------------------------\n");
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface) {
++			RTW_PRINT_SEL(sel, "%2d %-8s %u %s,%s,%s %s%s\n"
++				      , iface->iface_id
++				      , ADPT_ARG(iface)
++				      , get_hw_port(iface)
++				      , (iface->bup) ? " TRUE" : " FALSE"
++				      , (iface->netif_up) ? " TRUE" : " FALSE"
++				      , (iface->net_closed) ? " TRUE" : " FALSE"
++				, rtw_is_surprise_removed(iface) ? " SR" : ""
++				      , rtw_is_drv_stopped(iface) ? " DS" : ""
++				     );
++		}
++	}
++
++	RTW_PRINT_SEL(sel, "------------------------\n");
++}
++
++#define SEC_CAM_ENT_ID_TITLE_FMT "%-2s"
++#define SEC_CAM_ENT_ID_TITLE_ARG "id"
++#define SEC_CAM_ENT_ID_VALUE_FMT "%2u"
++#define SEC_CAM_ENT_ID_VALUE_ARG(id) (id)
++
++#define SEC_CAM_ENT_TITLE_FMT "%-6s %-17s %-32s %-3s %-7s %-2s %-2s %-5s"
++#define SEC_CAM_ENT_TITLE_ARG "ctrl", "addr", "key", "kid", "type", "MK", "GK", "valid"
++#define SEC_CAM_ENT_VALUE_FMT "0x%04x "MAC_FMT" "KEY_FMT" %3u %-7s %2u %2u %5u"
++#define SEC_CAM_ENT_VALUE_ARG(ent) \
++	(ent)->ctrl \
++	, MAC_ARG((ent)->mac) \
++	, KEY_ARG((ent)->key) \
++	, ((ent)->ctrl) & 0x03 \
++	, security_type_str((((ent)->ctrl) >> 2) & 0x07) \
++	, (((ent)->ctrl) >> 5) & 0x01 \
++	, (((ent)->ctrl) >> 6) & 0x01 \
++	, (((ent)->ctrl) >> 15) & 0x01
++
++void dump_sec_cam_ent(void *sel, struct sec_cam_ent *ent, int id)
++{
++	if (id >= 0) {
++		RTW_PRINT_SEL(sel, SEC_CAM_ENT_ID_VALUE_FMT " " SEC_CAM_ENT_VALUE_FMT"\n"
++			, SEC_CAM_ENT_ID_VALUE_ARG(id), SEC_CAM_ENT_VALUE_ARG(ent));
++	} else
++		RTW_PRINT_SEL(sel, SEC_CAM_ENT_VALUE_FMT"\n", SEC_CAM_ENT_VALUE_ARG(ent));
++}
++
++void dump_sec_cam_ent_title(void *sel, u8 has_id)
++{
++	if (has_id) {
++		RTW_PRINT_SEL(sel, SEC_CAM_ENT_ID_TITLE_FMT " " SEC_CAM_ENT_TITLE_FMT"\n"
++			, SEC_CAM_ENT_ID_TITLE_ARG, SEC_CAM_ENT_TITLE_ARG);
++	} else
++		RTW_PRINT_SEL(sel, SEC_CAM_ENT_TITLE_FMT"\n", SEC_CAM_ENT_TITLE_ARG);
++}
++
++void dump_sec_cam(void *sel, _adapter *adapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	struct sec_cam_ent ent;
++	int i;
++
++	RTW_PRINT_SEL(sel, "HW sec cam:\n");
++	dump_sec_cam_ent_title(sel, 1);
++	for (i = 0; i < cam_ctl->num; i++) {
++		rtw_sec_read_cam_ent(adapter, i, (u8 *)(&ent.ctrl), ent.mac, ent.key);
++		dump_sec_cam_ent(sel , &ent, i);
++	}
++}
++
++void dump_sec_cam_cache(void *sel, _adapter *adapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	int i;
++
++	RTW_PRINT_SEL(sel, "SW sec cam cache:\n");
++	dump_sec_cam_ent_title(sel, 1);
++	for (i = 0; i < cam_ctl->num; i++) {
++		if (dvobj->cam_cache[i].ctrl != 0)
++			dump_sec_cam_ent(sel, &dvobj->cam_cache[i], i);
++	}
++
++}
++
++#ifdef CONFIG_PROC_DEBUG
++ssize_t proc_set_write_reg(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u32 addr, val, len;
++
++	if (count < 3) {
++		RTW_INFO("argument size is less than 3\n");
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%x %x %x", &addr, &val, &len);
++
++		if (num !=  3) {
++			RTW_INFO("invalid write_reg parameter!\n");
++			return count;
++		}
++
++		switch (len) {
++		case 1:
++			rtw_write8(padapter, addr, (u8)val);
++			break;
++		case 2:
++			rtw_write16(padapter, addr, (u16)val);
++			break;
++		case 4:
++			rtw_write32(padapter, addr, val);
++			break;
++		default:
++			RTW_INFO("error write length=%d", len);
++			break;
++		}
++
++	}
++
++	return count;
++
++}
++
++static u32 proc_get_read_addr = 0xeeeeeeee;
++static u32 proc_get_read_len = 0x4;
++
++int proc_get_read_reg(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	if (proc_get_read_addr == 0xeeeeeeee) {
++		RTW_PRINT_SEL(m, "address not initialized\n");
++		return 0;
++	}
++
++	switch (proc_get_read_len) {
++	case 1:
++		RTW_PRINT_SEL(m, "rtw_read8(0x%x)=0x%x\n", proc_get_read_addr, rtw_read8(padapter, proc_get_read_addr));
++		break;
++	case 2:
++		RTW_PRINT_SEL(m, "rtw_read16(0x%x)=0x%x\n", proc_get_read_addr, rtw_read16(padapter, proc_get_read_addr));
++		break;
++	case 4:
++		RTW_PRINT_SEL(m, "rtw_read32(0x%x)=0x%x\n", proc_get_read_addr, rtw_read32(padapter, proc_get_read_addr));
++		break;
++	default:
++		RTW_PRINT_SEL(m, "error read length=%d\n", proc_get_read_len);
++		break;
++	}
++
++	return 0;
++}
++
++ssize_t proc_set_read_reg(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	char tmp[16];
++	u32 addr, len;
++
++	if (count < 2) {
++		RTW_INFO("argument size is less than 2\n");
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%x %x", &addr, &len);
++
++		if (num !=  2) {
++			RTW_INFO("invalid read_reg parameter!\n");
++			return count;
++		}
++
++		proc_get_read_addr = addr;
++
++		proc_get_read_len = len;
++	}
++
++	return count;
++
++}
++
++int proc_get_fwstate(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	RTW_PRINT_SEL(m, "fwstate=0x%x\n", get_fwstate(pmlmepriv));
++
++	return 0;
++}
++
++int proc_get_sec_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct security_priv *sec = &padapter->securitypriv;
++
++	RTW_PRINT_SEL(m, "auth_alg=0x%x, enc_alg=0x%x, auth_type=0x%x, enc_type=0x%x\n",
++		sec->dot11AuthAlgrthm, sec->dot11PrivacyAlgrthm,
++		sec->ndisauthtype, sec->ndisencryptstatus);
++
++	RTW_PRINT_SEL(m, "hw_decrypted=%d\n", sec->hw_decrypted);
++
++#ifdef DBG_SW_SEC_CNT
++	RTW_PRINT_SEL(m, "wep_sw_enc_cnt=%llu, %llu, %llu\n"
++		, sec->wep_sw_enc_cnt_bc , sec->wep_sw_enc_cnt_mc, sec->wep_sw_enc_cnt_uc);
++	RTW_PRINT_SEL(m, "wep_sw_dec_cnt=%llu, %llu, %llu\n"
++		, sec->wep_sw_dec_cnt_bc , sec->wep_sw_dec_cnt_mc, sec->wep_sw_dec_cnt_uc);
++
++	RTW_PRINT_SEL(m, "tkip_sw_enc_cnt=%llu, %llu, %llu\n"
++		, sec->tkip_sw_enc_cnt_bc , sec->tkip_sw_enc_cnt_mc, sec->tkip_sw_enc_cnt_uc);
++	RTW_PRINT_SEL(m, "tkip_sw_dec_cnt=%llu, %llu, %llu\n"
++		, sec->tkip_sw_dec_cnt_bc , sec->tkip_sw_dec_cnt_mc, sec->tkip_sw_dec_cnt_uc);
++
++	RTW_PRINT_SEL(m, "aes_sw_enc_cnt=%llu, %llu, %llu\n"
++		, sec->aes_sw_enc_cnt_bc , sec->aes_sw_enc_cnt_mc, sec->aes_sw_enc_cnt_uc);
++	RTW_PRINT_SEL(m, "aes_sw_dec_cnt=%llu, %llu, %llu\n"
++		, sec->aes_sw_dec_cnt_bc , sec->aes_sw_dec_cnt_mc, sec->aes_sw_dec_cnt_uc);
++#endif /* DBG_SW_SEC_CNT */
++
++	return 0;
++}
++
++int proc_get_mlmext_state(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	RTW_PRINT_SEL(m, "pmlmeinfo->state=0x%x\n", pmlmeinfo->state);
++
++	return 0;
++}
++
++#ifdef CONFIG_LAYER2_ROAMING
++int proc_get_roam_flags(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT_SEL(m, "0x%02x\n", rtw_roam_flags(adapter));
++
++	return 0;
++}
++
++ssize_t proc_set_roam_flags(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	char tmp[32];
++	u8 flags;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhx", &flags);
++
++		if (num == 1)
++			rtw_assign_roam_flags(adapter, flags);
++	}
++
++	return count;
++
++}
++
++int proc_get_roam_param(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++
++	RTW_PRINT_SEL(m, "%12s %12s %11s %14s\n", "rssi_diff_th", "scanr_exp_ms", "scan_int_ms", "rssi_threshold");
++	RTW_PRINT_SEL(m, "%-12u %-12u %-11u %-14u\n"
++		, mlme->roam_rssi_diff_th
++		, mlme->roam_scanr_exp_ms
++		, mlme->roam_scan_int_ms
++		, mlme->roam_rssi_threshold
++	);
++
++	return 0;
++}
++
++ssize_t proc_set_roam_param(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++
++	char tmp[32];
++	u8 rssi_diff_th;
++	u32 scanr_exp_ms;
++	u32 scan_int_ms;
++	u8 rssi_threshold;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhu %u %u %hhu", &rssi_diff_th, &scanr_exp_ms, &scan_int_ms, &rssi_threshold);
++
++		if (num >= 1)
++			mlme->roam_rssi_diff_th = rssi_diff_th;
++		if (num >= 2)
++			mlme->roam_scanr_exp_ms = scanr_exp_ms;
++		if (num >= 3)
++			mlme->roam_scan_int_ms = scan_int_ms;
++		if (num >= 4)
++			mlme->roam_rssi_threshold = rssi_threshold;
++	}
++
++	return count;
++
++}
++
++ssize_t proc_set_roam_tgt_addr(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	char tmp[32];
++	u8 addr[ETH_ALEN];
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhx:%hhx:%hhx:%hhx:%hhx:%hhx", addr, addr + 1, addr + 2, addr + 3, addr + 4, addr + 5);
++		if (num == 6)
++			_rtw_memcpy(adapter->mlmepriv.roam_tgt_addr, addr, ETH_ALEN);
++
++		RTW_INFO("set roam_tgt_addr to "MAC_FMT"\n", MAC_ARG(adapter->mlmepriv.roam_tgt_addr));
++	}
++
++	return count;
++}
++#endif /* CONFIG_LAYER2_ROAMING */
++
++#ifdef CONFIG_RTW_80211R
++ssize_t proc_set_ft_flags(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	char tmp[32];
++	u8 flags;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%hhx", &flags);
++
++		if (num == 1)
++			adapter->mlmepriv.ftpriv.ft_flags = flags;
++	}
++
++	return count;
++
++}
++
++int proc_get_ft_flags(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT_SEL(m, "0x%02x\n", adapter->mlmepriv.ftpriv.ft_flags);
++
++	return 0;
++}
++#endif
++
++int proc_get_qos_option(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	RTW_PRINT_SEL(m, "qos_option=%d\n", pmlmepriv->qospriv.qos_option);
++
++	return 0;
++}
++
++int proc_get_ht_option(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++#ifdef CONFIG_80211N_HT
++	RTW_PRINT_SEL(m, "ht_option=%d\n", pmlmepriv->htpriv.ht_option);
++#endif /* CONFIG_80211N_HT */
++
++	return 0;
++}
++
++int proc_get_rf_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	RTW_PRINT_SEL(m, "cur_ch=%d, cur_bw=%d, cur_ch_offet=%d\n",
++		pmlmeext->cur_channel, pmlmeext->cur_bwmode, pmlmeext->cur_ch_offset);
++
++	RTW_PRINT_SEL(m, "oper_ch=%d, oper_bw=%d, oper_ch_offet=%d\n",
++		rtw_get_oper_ch(padapter), rtw_get_oper_bw(padapter),  rtw_get_oper_choffset(padapter));
++
++	return 0;
++}
++
++int proc_get_scan_param(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++	struct ss_res *ss = &mlmeext->sitesurvey_res;
++
++#define SCAN_PARAM_TITLE_FMT "%10s"
++#define SCAN_PARAM_VALUE_FMT "%-10u"
++#define SCAN_PARAM_TITLE_ARG , "scan_ch_ms"
++#define SCAN_PARAM_VALUE_ARG , ss->scan_ch_ms
++#ifdef CONFIG_80211N_HT
++#define SCAN_PARAM_TITLE_FMT_HT " %15s %13s"
++#define SCAN_PARAM_VALUE_FMT_HT " %-15u %-13u"
++#define SCAN_PARAM_TITLE_ARG_HT , "rx_ampdu_accept", "rx_ampdu_size"
++#define SCAN_PARAM_VALUE_ARG_HT , ss->rx_ampdu_accept, ss->rx_ampdu_size
++#else
++#define SCAN_PARAM_TITLE_FMT_HT ""
++#define SCAN_PARAM_VALUE_FMT_HT ""
++#define SCAN_PARAM_TITLE_ARG_HT
++#define SCAN_PARAM_VALUE_ARG_HT
++#endif
++#ifdef CONFIG_SCAN_BACKOP
++#define SCAN_PARAM_TITLE_FMT_BACKOP " %9s %12s"
++#define SCAN_PARAM_VALUE_FMT_BACKOP " %-9u %-12u"
++#define SCAN_PARAM_TITLE_ARG_BACKOP , "backop_ms", "scan_cnt_max"
++#define SCAN_PARAM_VALUE_ARG_BACKOP , ss->backop_ms, ss->scan_cnt_max
++#else
++#define SCAN_PARAM_TITLE_FMT_BACKOP ""
++#define SCAN_PARAM_VALUE_FMT_BACKOP ""
++#define SCAN_PARAM_TITLE_ARG_BACKOP
++#define SCAN_PARAM_VALUE_ARG_BACKOP
++#endif
++
++	RTW_PRINT_SEL(m,
++		SCAN_PARAM_TITLE_FMT
++		SCAN_PARAM_TITLE_FMT_HT
++		SCAN_PARAM_TITLE_FMT_BACKOP
++		"\n"
++		SCAN_PARAM_TITLE_ARG
++		SCAN_PARAM_TITLE_ARG_HT
++		SCAN_PARAM_TITLE_ARG_BACKOP
++	);
++
++	RTW_PRINT_SEL(m,
++		SCAN_PARAM_VALUE_FMT
++		SCAN_PARAM_VALUE_FMT_HT
++		SCAN_PARAM_VALUE_FMT_BACKOP
++		"\n"
++		SCAN_PARAM_VALUE_ARG
++		SCAN_PARAM_VALUE_ARG_HT
++		SCAN_PARAM_VALUE_ARG_BACKOP
++	);
++
++	return 0;
++}
++
++ssize_t proc_set_scan_param(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++	struct ss_res *ss = &mlmeext->sitesurvey_res;
++
++	char tmp[32] = {0};
++
++	u16 scan_ch_ms;
++#define SCAN_PARAM_INPUT_FMT "%hu"
++#define SCAN_PARAM_INPUT_ARG , &scan_ch_ms
++#ifdef CONFIG_80211N_HT
++	u8 rx_ampdu_accept;
++	u8 rx_ampdu_size;
++#define SCAN_PARAM_INPUT_FMT_HT " %hhu %hhu"
++#define SCAN_PARAM_INPUT_ARG_HT , &rx_ampdu_accept, &rx_ampdu_size
++#else
++#define SCAN_PARAM_INPUT_FMT_HT ""
++#define SCAN_PARAM_INPUT_ARG_HT
++#endif
++#ifdef CONFIG_SCAN_BACKOP
++	u16 backop_ms;
++	u8 scan_cnt_max;
++#define SCAN_PARAM_INPUT_FMT_BACKOP " %hu %hhu"
++#define SCAN_PARAM_INPUT_ARG_BACKOP , &backop_ms, &scan_cnt_max
++#else
++#define SCAN_PARAM_INPUT_FMT_BACKOP ""
++#define SCAN_PARAM_INPUT_ARG_BACKOP
++#endif
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp,
++			SCAN_PARAM_INPUT_FMT
++			SCAN_PARAM_INPUT_FMT_HT
++			SCAN_PARAM_INPUT_FMT_BACKOP
++			SCAN_PARAM_INPUT_ARG
++			SCAN_PARAM_INPUT_ARG_HT
++			SCAN_PARAM_INPUT_ARG_BACKOP
++		);
++
++		if (num-- > 0)
++			ss->scan_ch_ms = scan_ch_ms;
++#ifdef CONFIG_80211N_HT
++		if (num-- > 0)
++			ss->rx_ampdu_accept = rx_ampdu_accept;
++		if (num-- > 0)
++			ss->rx_ampdu_size = rx_ampdu_size;
++#endif
++#ifdef CONFIG_SCAN_BACKOP
++		if (num-- > 0)
++			ss->backop_ms = backop_ms;
++		if (num-- > 0)
++			ss->scan_cnt_max = scan_cnt_max;
++#endif
++	}
++
++	return count;
++}
++
++int proc_get_scan_abort(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	u32 pass_ms;
++
++	pass_ms = rtw_scan_abort_timeout(adapter, 10000);
++
++	RTW_PRINT_SEL(m, "%u\n", pass_ms);
++
++	return 0;
++}
++
++#ifdef CONFIG_SCAN_BACKOP
++int proc_get_backop_flags_sta(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++
++	RTW_PRINT_SEL(m, "0x%02x\n", mlmeext_scan_backop_flags_sta(mlmeext));
++
++	return 0;
++}
++
++ssize_t proc_set_backop_flags_sta(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++
++	char tmp[32];
++	u8 flags;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhx", &flags);
++
++		if (num == 1)
++			mlmeext_assign_scan_backop_flags_sta(mlmeext, flags);
++	}
++
++	return count;
++}
++
++int proc_get_backop_flags_ap(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++
++	RTW_PRINT_SEL(m, "0x%02x\n", mlmeext_scan_backop_flags_ap(mlmeext));
++
++	return 0;
++}
++
++ssize_t proc_set_backop_flags_ap(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++
++	char tmp[32];
++	u8 flags;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhx", &flags);
++
++		if (num == 1)
++			mlmeext_assign_scan_backop_flags_ap(mlmeext, flags);
++	}
++
++	return count;
++}
++
++#endif /* CONFIG_SCAN_BACKOP */
++
++int proc_get_survey_info(struct seq_file *m, void *v)
++{
++	_irqL irqL;
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	_queue	*queue	= &(pmlmepriv->scanned_queue);
++	struct wlan_network	*pnetwork = NULL;
++	_list	*plist, *phead;
++	s32 notify_signal;
++	s16 notify_noise = 0;
++	u16  index = 0, ie_cap = 0;
++	unsigned char *ie_wpa = NULL, *ie_wpa2 = NULL, *ie_wps = NULL;
++	unsigned char *ie_p2p = NULL, *ssid = NULL;
++	char flag_str[64];
++	int ielen = 0;
++	u32 wpsielen = 0;
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++	phead = get_list_head(queue);
++	if (!phead)
++		return 0;
++	plist = get_next(phead);
++	if (!plist)
++		return 0;
++
++	RTW_PRINT_SEL(m, "%5s  %-17s  %3s  %-3s  %-4s  %-4s  %5s  %32s  %32s\n", "index", "bssid", "ch", "RSSI", "SdBm", "Noise", "age", "flag", "ssid");
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if (!pnetwork)
++			break;
++
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE &&
++		    is_same_network(&pmlmepriv->cur_network.network, &pnetwork->network, 0)) {
++			notify_signal = translate_percentage_to_dbm(padapter->recvpriv.signal_strength);/* dbm */
++		} else {
++			notify_signal = translate_percentage_to_dbm(pnetwork->network.PhyInfo.SignalStrength);/* dbm */
++		}
++
++#if defined(CONFIG_SIGNAL_DISPLAY_DBM) && defined(CONFIG_BACKGROUND_NOISE_MONITOR)
++		rtw_hal_get_odm_var(padapter, HAL_ODM_NOISE_MONITOR, &(pnetwork->network.Configuration.DSConfig), &(notify_noise));
++#endif
++
++		ie_wpa = rtw_get_wpa_ie(&pnetwork->network.IEs[12], &ielen, pnetwork->network.IELength - 12);
++		ie_wpa2 = rtw_get_wpa2_ie(&pnetwork->network.IEs[12], &ielen, pnetwork->network.IELength - 12);
++		ie_cap = rtw_get_capability(&pnetwork->network);
++		ie_wps = rtw_get_wps_ie(&pnetwork->network.IEs[12], pnetwork->network.IELength - 12, NULL, &wpsielen);
++		ie_p2p = rtw_get_p2p_ie(&pnetwork->network.IEs[12], pnetwork->network.IELength - 12, NULL, &ielen);
++		ssid = pnetwork->network.Ssid.Ssid;
++		sprintf(flag_str, "%s%s%s%s%s%s%s",
++			(ie_wpa) ? "[WPA]" : "",
++			(ie_wpa2) ? "[WPA2]" : "",
++			(!ie_wpa && !ie_wpa && ie_cap & BIT(4)) ? "[WEP]" : "",
++			(ie_wps) ? "[WPS]" : "",
++			(pnetwork->network.InfrastructureMode == Ndis802_11IBSS) ? "[IBSS]" : "",
++			(ie_cap & BIT(0)) ? "[ESS]" : "",
++			(ie_p2p) ? "[P2P]" : "");
++		RTW_PRINT_SEL(m, "%5d  "MAC_FMT"  %3d  %3d  %4d  %4d    %5d  %32s  %32s\n",
++			      ++index,
++			      MAC_ARG(pnetwork->network.MacAddress),
++			      pnetwork->network.Configuration.DSConfig,
++			      (int)pnetwork->network.Rssi,
++			      notify_signal,
++			      notify_noise,
++			rtw_get_passing_time_ms((u32)pnetwork->last_scanned),
++			      flag_str,
++			      pnetwork->network.Ssid.Ssid);
++		plist = get_next(plist);
++	}
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	return 0;
++}
++
++ssize_t proc_set_survey_info(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	_irqL irqL;
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	bool need_indicate_scan_done = _FALSE;
++	u8 _status = _FALSE;
++	NDIS_802_11_SSID ssid[RTW_SSID_SCAN_AMOUNT];
++
++	if (count < 1)
++		return -EFAULT;
++
++#ifdef CONFIG_MP_INCLUDED
++	if (rtw_mi_mp_mode_check(padapter)) {
++		RTW_INFO("MP mode block Scan request\n");
++		goto exit;
++	}
++#endif
++	if (rtw_is_scan_deny(padapter)) {
++		RTW_INFO(FUNC_ADPT_FMT  ": scan deny\n", FUNC_ADPT_ARG(padapter));
++		goto exit;
++	}
++
++	rtw_ps_deny(padapter, PS_DENY_SCAN);
++	if (_FAIL == rtw_pwr_wakeup(padapter))
++		goto cancel_ps_deny;
++
++	if (!rtw_is_adapter_up(padapter)) {
++		RTW_INFO("scan abort!! adapter cannot use\n");
++		goto cancel_ps_deny;
++	}
++
++	if (rtw_mi_busy_traffic_check(padapter, _FALSE)) {
++		RTW_INFO("scan abort!! BusyTraffic == _TRUE\n");
++		goto cancel_ps_deny;
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) && check_fwstate(pmlmepriv, WIFI_UNDER_WPS)) {
++		RTW_INFO("scan abort!! AP mode process WPS\n");
++		goto cancel_ps_deny;
++	}
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY | _FW_UNDER_LINKING) == _TRUE) {
++		RTW_INFO("scan abort!! fwstate=0x%x\n", pmlmepriv->fw_state);
++		goto cancel_ps_deny;
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_buddy_check_fwstate(padapter,
++		       _FW_UNDER_SURVEY | _FW_UNDER_LINKING | WIFI_UNDER_WPS)) {
++		RTW_INFO("scan abort!! buddy_fwstate check failed\n");
++		goto cancel_ps_deny;
++	}
++#endif
++	_status = rtw_set_802_11_bssid_list_scan(padapter, NULL, 0, NULL, 0);
++
++cancel_ps_deny:
++	rtw_ps_deny_cancel(padapter, PS_DENY_SCAN);
++exit:
++	return count;
++}
++
++int proc_get_ap_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	struct sta_info *psta;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct wlan_network *cur_network = &(pmlmepriv->cur_network);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	psta = rtw_get_stainfo(pstapriv, cur_network->network.MacAddress);
++	if (psta) {
++		int i;
++		struct recv_reorder_ctrl *preorder_ctrl;
++
++		RTW_PRINT_SEL(m, "SSID=%s\n", cur_network->network.Ssid.Ssid);
++		RTW_PRINT_SEL(m, "sta's macaddr:" MAC_FMT "\n", MAC_ARG(psta->hwaddr));
++		RTW_PRINT_SEL(m, "cur_channel=%d, cur_bwmode=%d, cur_ch_offset=%d\n", pmlmeext->cur_channel, pmlmeext->cur_bwmode, pmlmeext->cur_ch_offset);
++		RTW_PRINT_SEL(m, "wireless_mode=0x%x, rtsen=%d, cts2slef=%d\n", psta->wireless_mode, psta->rtsen, psta->cts2self);
++		RTW_PRINT_SEL(m, "state=0x%x, aid=%d, macid=%d, raid=%d\n", psta->state, psta->aid, psta->mac_id, psta->raid);
++#ifdef CONFIG_80211N_HT
++		RTW_PRINT_SEL(m, "qos_en=%d, ht_en=%d, init_rate=%d\n", psta->qos_option, psta->htpriv.ht_option, psta->init_rate);
++		RTW_PRINT_SEL(m, "bwmode=%d, ch_offset=%d, sgi_20m=%d,sgi_40m=%d\n", psta->bw_mode, psta->htpriv.ch_offset, psta->htpriv.sgi_20m, psta->htpriv.sgi_40m);
++		RTW_PRINT_SEL(m, "ampdu_enable = %d\n", psta->htpriv.ampdu_enable);
++		RTW_PRINT_SEL(m, "agg_enable_bitmap=%x, candidate_tid_bitmap=%x\n", psta->htpriv.agg_enable_bitmap, psta->htpriv.candidate_tid_bitmap);
++		RTW_PRINT_SEL(m, "ldpc_cap=0x%x, stbc_cap=0x%x, beamform_cap=0x%x\n", psta->htpriv.ldpc_cap, psta->htpriv.stbc_cap, psta->htpriv.beamform_cap);
++#endif /* CONFIG_80211N_HT */
++#ifdef CONFIG_80211AC_VHT
++		RTW_PRINT_SEL(m, "vht_en=%d, vht_sgi_80m=%d\n", psta->vhtpriv.vht_option, psta->vhtpriv.sgi_80m);
++		RTW_PRINT_SEL(m, "vht_ldpc_cap=0x%x, vht_stbc_cap=0x%x, vht_beamform_cap=0x%x\n", psta->vhtpriv.ldpc_cap, psta->vhtpriv.stbc_cap, psta->vhtpriv.beamform_cap);
++		RTW_PRINT_SEL(m, "vht_mcs_map=0x%x, vht_highest_rate=0x%x, vht_ampdu_len=%d\n", *(u16 *)psta->vhtpriv.vht_mcs_map, psta->vhtpriv.vht_highest_rate, psta->vhtpriv.ampdu_len);
++#endif
++
++		sta_rx_reorder_ctl_dump(m, psta);
++	} else
++		RTW_PRINT_SEL(m, "can't get sta's macaddr, cur_network's macaddr:" MAC_FMT "\n", MAC_ARG(cur_network->network.MacAddress));
++
++	return 0;
++}
++
++ssize_t proc_reset_trx_info(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	char cmd[32] = {0};
++	u8 cnt = 0;
++
++	if (count > sizeof(cmd)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(cmd, buffer, count)) {
++		int num = sscanf(cmd, "%hhx", &cnt);
++
++		if (0 == cnt) {
++			pdbgpriv->dbg_rx_ampdu_drop_count = 0;
++			pdbgpriv->dbg_rx_ampdu_forced_indicate_count = 0;
++			pdbgpriv->dbg_rx_ampdu_loss_count = 0;
++			pdbgpriv->dbg_rx_dup_mgt_frame_drop_count = 0;
++			pdbgpriv->dbg_rx_ampdu_window_shift_cnt = 0;
++			pdbgpriv->dbg_rx_conflic_mac_addr_cnt = 0;
++		}
++	}
++
++	return count;
++}
++
++int proc_get_trx_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	int i;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct recv_priv  *precvpriv = &padapter->recvpriv;
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	struct hw_xmit *phwxmit;
++
++	dump_os_queue(m, padapter);
++
++	RTW_PRINT_SEL(m, "free_xmitbuf_cnt=%d, free_xmitframe_cnt=%d\n"
++		, pxmitpriv->free_xmitbuf_cnt, pxmitpriv->free_xmitframe_cnt);
++	RTW_PRINT_SEL(m, "free_ext_xmitbuf_cnt=%d, free_xframe_ext_cnt=%d\n"
++		, pxmitpriv->free_xmit_extbuf_cnt, pxmitpriv->free_xframe_ext_cnt);
++	RTW_PRINT_SEL(m, "free_recvframe_cnt=%d\n"
++		      , precvpriv->free_recvframe_cnt);
++
++	for (i = 0; i < 4; i++) {
++		phwxmit = pxmitpriv->hwxmits + i;
++		RTW_PRINT_SEL(m, "%d, hwq.accnt=%d\n", i, phwxmit->accnt);
++	}
++
++#ifdef CONFIG_USB_HCI
++	RTW_PRINT_SEL(m, "rx_urb_pending_cn=%d\n", ATOMIC_READ(&(precvpriv->rx_pending_cnt)));
++#endif
++
++	/* Folowing are RX info */
++	/* Counts of packets whose seq_num is less than preorder_ctrl->indicate_seq, Ex delay, retransmission, redundant packets and so on */
++	RTW_PRINT_SEL(m, "Rx: Counts of Packets Whose Seq_Num Less Than Reorder Control Seq_Num: %llu\n", (unsigned long long)pdbgpriv->dbg_rx_ampdu_drop_count);
++	/* How many times the Rx Reorder Timer is triggered. */
++	RTW_PRINT_SEL(m, "Rx: Reorder Time-out Trigger Counts: %llu\n", (unsigned long long)pdbgpriv->dbg_rx_ampdu_forced_indicate_count);
++	/* Total counts of packets loss */
++	RTW_PRINT_SEL(m, "Rx: Packet Loss Counts: %llu\n", (unsigned long long)pdbgpriv->dbg_rx_ampdu_loss_count);
++	RTW_PRINT_SEL(m, "Rx: Duplicate Management Frame Drop Count: %llu\n", (unsigned long long)pdbgpriv->dbg_rx_dup_mgt_frame_drop_count);
++	RTW_PRINT_SEL(m, "Rx: AMPDU BA window shift Count: %llu\n", (unsigned long long)pdbgpriv->dbg_rx_ampdu_window_shift_cnt);
++	/*The same mac addr counts*/
++	RTW_PRINT_SEL(m, "Rx: Conflict MAC Address Frames Count: %llu\n", (unsigned long long)pdbgpriv->dbg_rx_conflic_mac_addr_cnt);
++	return 0;
++}
++
++int proc_get_dis_pwt(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 dis_pwt = 0;
++	rtw_hal_get_def_var(padapter, HAL_DEF_DBG_DIS_PWT, &(dis_pwt));
++	RTW_PRINT_SEL(m, " Tx Power training mode:%s\n", (dis_pwt == _TRUE) ? "Disable" : "Enable");
++	return 0;
++}
++ssize_t proc_set_dis_pwt(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[4] = {0};
++	u8 dis_pwt = 0;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhx", &dis_pwt);
++		RTW_INFO("Set Tx Power training mode:%s\n", (dis_pwt == _TRUE) ? "Disable" : "Enable");
++
++		if (num >= 1)
++			rtw_hal_set_def_var(padapter, HAL_DEF_DBG_DIS_PWT, &(dis_pwt));
++	}
++
++	return count;
++
++}
++
++int proc_get_rate_ctl(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	int i;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 data_rate = 0, sgi = 0, data_fb = 0;
++
++	if (adapter->fix_rate != 0xff) {
++		data_rate = adapter->fix_rate & 0x7F;
++		sgi = adapter->fix_rate >> 7;
++		data_fb = adapter->data_fb ? 1 : 0;
++		RTW_PRINT_SEL(m, "FIXED %s%s%s\n"
++			, HDATA_RATE(data_rate)
++			, data_rate > DESC_RATE54M ? (sgi ? " SGI" : " LGI") : ""
++			, data_fb ? " FB" : ""
++		);
++		RTW_PRINT_SEL(m, "0x%02x %u\n", adapter->fix_rate, adapter->data_fb);
++	} else
++		RTW_PRINT_SEL(m, "RA\n");
++
++	return 0;
++}
++
++ssize_t proc_set_rate_ctl(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u8 fix_rate;
++	u8 data_fb;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhx %hhu", &fix_rate, &data_fb);
++
++		if (num >= 1) {
++			u8 fix_rate_ori = adapter->fix_rate;
++
++			adapter->fix_rate = fix_rate;
++			if (adapter->fix_bw != 0xFF && fix_rate_ori != fix_rate)
++				rtw_update_tx_rate_bmp(adapter_to_dvobj(adapter));
++		}
++		if (num >= 2)
++			adapter->data_fb = data_fb ? 1 : 0;
++	}
++
++	return count;
++}
++int proc_get_bw_ctl(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 data_bw = 0;
++
++	if (adapter->fix_bw != 0xff) {
++		data_bw = adapter->fix_bw;
++		RTW_PRINT_SEL(m, "FIXED %s\n", ch_width_str(data_bw));
++	} else
++		RTW_PRINT_SEL(m, "Auto\n");
++
++	return 0;
++}
++
++ssize_t proc_set_bw_ctl(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u8 fix_bw;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%hhu", &fix_bw);
++
++		if (num >= 1) {
++			u8 fix_bw_ori = adapter->fix_bw;
++
++			adapter->fix_bw = fix_bw;
++
++			if (adapter->fix_rate != 0xFF && fix_bw_ori != fix_bw)
++				rtw_update_tx_rate_bmp(adapter_to_dvobj(adapter));
++		}
++	}
++
++	return count;
++}
++
++#ifdef DBG_RX_COUNTER_DUMP
++int proc_get_rx_cnt_dump(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	int i;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT_SEL(m, "BIT0- Dump RX counters of DRV\n");
++	RTW_PRINT_SEL(m, "BIT1- Dump RX counters of MAC\n");
++	RTW_PRINT_SEL(m, "BIT2- Dump RX counters of PHY\n");
++	RTW_PRINT_SEL(m, "BIT3- Dump TRX data frame of DRV\n");
++	RTW_PRINT_SEL(m, "dump_rx_cnt_mode = 0x%02x\n", adapter->dump_rx_cnt_mode);
++
++	return 0;
++}
++ssize_t proc_set_rx_cnt_dump(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u8 dump_rx_cnt_mode;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhx", &dump_rx_cnt_mode);
++
++		rtw_dump_phy_rxcnts_preprocess(adapter, dump_rx_cnt_mode);
++		adapter->dump_rx_cnt_mode = dump_rx_cnt_mode;
++
++	}
++
++	return count;
++}
++#endif
++ssize_t proc_set_fwdl_test_case(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	int num;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count))
++		num = sscanf(tmp, "%hhu %hhu", &fwdl_test_chksum_fail, &fwdl_test_wintint_rdy_fail);
++
++	return count;
++}
++
++ssize_t proc_set_del_rx_ampdu_test_case(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	int num;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count))
++		num = sscanf(tmp, "%hhu", &del_rx_ampdu_test_no_tx_fail);
++
++	return count;
++}
++
++#ifdef CONFIG_DFS_MASTER
++int proc_get_dfs_master_test_case(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++
++	RTW_PRINT_SEL(m, "%-24s %-19s\n", "radar_detect_trigger_non", "choose_dfs_ch_first");
++	RTW_PRINT_SEL(m, "%24hhu %19hhu\n"
++		, rfctl->dbg_dfs_master_radar_detect_trigger_non
++		, rfctl->dbg_dfs_master_choose_dfs_ch_first
++	);
++
++	return 0;
++}
++
++ssize_t proc_set_dfs_master_test_case(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++	char tmp[32];
++	u8 radar_detect_trigger_non;
++	u8 choose_dfs_ch_first;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%hhu %hhu", &radar_detect_trigger_non, &choose_dfs_ch_first);
++
++		if (num >= 1)
++			rfctl->dbg_dfs_master_radar_detect_trigger_non = radar_detect_trigger_non;
++		if (num >= 2)
++			rfctl->dbg_dfs_master_choose_dfs_ch_first = choose_dfs_ch_first;
++	}
++
++	return count;
++}
++#endif /* CONFIG_DFS_MASTER */
++
++ssize_t proc_set_wait_hiq_empty(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	int num;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count))
++		num = sscanf(tmp, "%u", &g_wait_hiq_empty_ms);
++
++	return count;
++}
++
++int proc_get_suspend_resume_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct dvobj_priv *dvobj = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &dvobj->drv_dbg;
++
++	RTW_PRINT_SEL(m, "dbg_sdio_alloc_irq_cnt=%d\n", pdbgpriv->dbg_sdio_alloc_irq_cnt);
++	RTW_PRINT_SEL(m, "dbg_sdio_free_irq_cnt=%d\n", pdbgpriv->dbg_sdio_free_irq_cnt);
++	RTW_PRINT_SEL(m, "dbg_sdio_alloc_irq_error_cnt=%d\n", pdbgpriv->dbg_sdio_alloc_irq_error_cnt);
++	RTW_PRINT_SEL(m, "dbg_sdio_free_irq_error_cnt=%d\n", pdbgpriv->dbg_sdio_free_irq_error_cnt);
++	RTW_PRINT_SEL(m, "dbg_sdio_init_error_cnt=%d\n", pdbgpriv->dbg_sdio_init_error_cnt);
++	RTW_PRINT_SEL(m, "dbg_sdio_deinit_error_cnt=%d\n", pdbgpriv->dbg_sdio_deinit_error_cnt);
++	RTW_PRINT_SEL(m, "dbg_suspend_error_cnt=%d\n", pdbgpriv->dbg_suspend_error_cnt);
++	RTW_PRINT_SEL(m, "dbg_suspend_cnt=%d\n", pdbgpriv->dbg_suspend_cnt);
++	RTW_PRINT_SEL(m, "dbg_resume_cnt=%d\n", pdbgpriv->dbg_resume_cnt);
++	RTW_PRINT_SEL(m, "dbg_resume_error_cnt=%d\n", pdbgpriv->dbg_resume_error_cnt);
++	RTW_PRINT_SEL(m, "dbg_deinit_fail_cnt=%d\n", pdbgpriv->dbg_deinit_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_carddisable_cnt=%d\n", pdbgpriv->dbg_carddisable_cnt);
++	RTW_PRINT_SEL(m, "dbg_ps_insuspend_cnt=%d\n", pdbgpriv->dbg_ps_insuspend_cnt);
++	RTW_PRINT_SEL(m, "dbg_dev_unload_inIPS_cnt=%d\n", pdbgpriv->dbg_dev_unload_inIPS_cnt);
++	RTW_PRINT_SEL(m, "dbg_scan_pwr_state_cnt=%d\n", pdbgpriv->dbg_scan_pwr_state_cnt);
++	RTW_PRINT_SEL(m, "dbg_downloadfw_pwr_state_cnt=%d\n", pdbgpriv->dbg_downloadfw_pwr_state_cnt);
++	RTW_PRINT_SEL(m, "dbg_carddisable_error_cnt=%d\n", pdbgpriv->dbg_carddisable_error_cnt);
++	RTW_PRINT_SEL(m, "dbg_fw_read_ps_state_fail_cnt=%d\n", pdbgpriv->dbg_fw_read_ps_state_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_leave_ips_fail_cnt=%d\n", pdbgpriv->dbg_leave_ips_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_leave_lps_fail_cnt=%d\n", pdbgpriv->dbg_leave_lps_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_h2c_leave32k_fail_cnt=%d\n", pdbgpriv->dbg_h2c_leave32k_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_diswow_dload_fw_fail_cnt=%d\n", pdbgpriv->dbg_diswow_dload_fw_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_enwow_dload_fw_fail_cnt=%d\n", pdbgpriv->dbg_enwow_dload_fw_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_ips_drvopen_fail_cnt=%d\n", pdbgpriv->dbg_ips_drvopen_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_poll_fail_cnt=%d\n", pdbgpriv->dbg_poll_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_rpwm_toogle_cnt=%d\n", pdbgpriv->dbg_rpwm_toogle_cnt);
++	RTW_PRINT_SEL(m, "dbg_rpwm_timeout_fail_cnt=%d\n", pdbgpriv->dbg_rpwm_timeout_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_sreset_cnt=%d\n", pdbgpriv->dbg_sreset_cnt);
++
++	return 0;
++}
++
++#ifdef CONFIG_DBG_COUNTER
++
++int proc_get_rx_logs(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct rx_logs *rx_logs = &padapter->rx_logs;
++
++	RTW_PRINT_SEL(m,
++		      "intf_rx=%d\n"
++		      "intf_rx_err_recvframe=%d\n"
++		      "intf_rx_err_skb=%d\n"
++		      "intf_rx_report=%d\n"
++		      "core_rx=%d\n"
++		      "core_rx_pre=%d\n"
++		      "core_rx_pre_ver_err=%d\n"
++		      "core_rx_pre_mgmt=%d\n"
++		      "core_rx_pre_mgmt_err_80211w=%d\n"
++		      "core_rx_pre_mgmt_err=%d\n"
++		      "core_rx_pre_ctrl=%d\n"
++		      "core_rx_pre_ctrl_err=%d\n"
++		      "core_rx_pre_data=%d\n"
++		      "core_rx_pre_data_wapi_seq_err=%d\n"
++		      "core_rx_pre_data_wapi_key_err=%d\n"
++		      "core_rx_pre_data_handled=%d\n"
++		      "core_rx_pre_data_err=%d\n"
++		      "core_rx_pre_data_unknown=%d\n"
++		      "core_rx_pre_unknown=%d\n"
++		      "core_rx_enqueue=%d\n"
++		      "core_rx_dequeue=%d\n"
++		      "core_rx_post=%d\n"
++		      "core_rx_post_decrypt=%d\n"
++		      "core_rx_post_decrypt_wep=%d\n"
++		      "core_rx_post_decrypt_tkip=%d\n"
++		      "core_rx_post_decrypt_aes=%d\n"
++		      "core_rx_post_decrypt_wapi=%d\n"
++		      "core_rx_post_decrypt_hw=%d\n"
++		      "core_rx_post_decrypt_unknown=%d\n"
++		      "core_rx_post_decrypt_err=%d\n"
++		      "core_rx_post_defrag_err=%d\n"
++		      "core_rx_post_portctrl_err=%d\n"
++		      "core_rx_post_indicate=%d\n"
++		      "core_rx_post_indicate_in_oder=%d\n"
++		      "core_rx_post_indicate_reoder=%d\n"
++		      "core_rx_post_indicate_err=%d\n"
++		      "os_indicate=%d\n"
++		      "os_indicate_ap_mcast=%d\n"
++		      "os_indicate_ap_forward=%d\n"
++		      "os_indicate_ap_self=%d\n"
++		      "os_indicate_err=%d\n"
++		      "os_netif_ok=%d\n"
++		      "os_netif_err=%d\n",
++		      rx_logs->intf_rx,
++		      rx_logs->intf_rx_err_recvframe,
++		      rx_logs->intf_rx_err_skb,
++		      rx_logs->intf_rx_report,
++		      rx_logs->core_rx,
++		      rx_logs->core_rx_pre,
++		      rx_logs->core_rx_pre_ver_err,
++		      rx_logs->core_rx_pre_mgmt,
++		      rx_logs->core_rx_pre_mgmt_err_80211w,
++		      rx_logs->core_rx_pre_mgmt_err,
++		      rx_logs->core_rx_pre_ctrl,
++		      rx_logs->core_rx_pre_ctrl_err,
++		      rx_logs->core_rx_pre_data,
++		      rx_logs->core_rx_pre_data_wapi_seq_err,
++		      rx_logs->core_rx_pre_data_wapi_key_err,
++		      rx_logs->core_rx_pre_data_handled,
++		      rx_logs->core_rx_pre_data_err,
++		      rx_logs->core_rx_pre_data_unknown,
++		      rx_logs->core_rx_pre_unknown,
++		      rx_logs->core_rx_enqueue,
++		      rx_logs->core_rx_dequeue,
++		      rx_logs->core_rx_post,
++		      rx_logs->core_rx_post_decrypt,
++		      rx_logs->core_rx_post_decrypt_wep,
++		      rx_logs->core_rx_post_decrypt_tkip,
++		      rx_logs->core_rx_post_decrypt_aes,
++		      rx_logs->core_rx_post_decrypt_wapi,
++		      rx_logs->core_rx_post_decrypt_hw,
++		      rx_logs->core_rx_post_decrypt_unknown,
++		      rx_logs->core_rx_post_decrypt_err,
++		      rx_logs->core_rx_post_defrag_err,
++		      rx_logs->core_rx_post_portctrl_err,
++		      rx_logs->core_rx_post_indicate,
++		      rx_logs->core_rx_post_indicate_in_oder,
++		      rx_logs->core_rx_post_indicate_reoder,
++		      rx_logs->core_rx_post_indicate_err,
++		      rx_logs->os_indicate,
++		      rx_logs->os_indicate_ap_mcast,
++		      rx_logs->os_indicate_ap_forward,
++		      rx_logs->os_indicate_ap_self,
++		      rx_logs->os_indicate_err,
++		      rx_logs->os_netif_ok,
++		      rx_logs->os_netif_err
++		     );
++
++	return 0;
++}
++
++int proc_get_tx_logs(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tx_logs *tx_logs = &padapter->tx_logs;
++
++	RTW_PRINT_SEL(m,
++		      "os_tx=%d\n"
++		      "os_tx_err_up=%d\n"
++		      "os_tx_err_xmit=%d\n"
++		      "os_tx_m2u=%d\n"
++		      "os_tx_m2u_ignore_fw_linked=%d\n"
++		      "os_tx_m2u_ignore_self=%d\n"
++		      "os_tx_m2u_entry=%d\n"
++		      "os_tx_m2u_entry_err_xmit=%d\n"
++		      "os_tx_m2u_entry_err_skb=%d\n"
++		      "os_tx_m2u_stop=%d\n"
++		      "core_tx=%d\n"
++		      "core_tx_err_pxmitframe=%d\n"
++		      "core_tx_err_brtx=%d\n"
++		      "core_tx_upd_attrib=%d\n"
++		      "core_tx_upd_attrib_adhoc=%d\n"
++		      "core_tx_upd_attrib_sta=%d\n"
++		      "core_tx_upd_attrib_ap=%d\n"
++		      "core_tx_upd_attrib_unknown=%d\n"
++		      "core_tx_upd_attrib_dhcp=%d\n"
++		      "core_tx_upd_attrib_icmp=%d\n"
++		      "core_tx_upd_attrib_active=%d\n"
++		      "core_tx_upd_attrib_err_ucast_sta=%d\n"
++		      "core_tx_upd_attrib_err_ucast_ap_link=%d\n"
++		      "core_tx_upd_attrib_err_sta=%d\n"
++		      "core_tx_upd_attrib_err_link=%d\n"
++		      "core_tx_upd_attrib_err_sec=%d\n"
++		      "core_tx_ap_enqueue_warn_fwstate=%d\n"
++		      "core_tx_ap_enqueue_warn_sta=%d\n"
++		      "core_tx_ap_enqueue_warn_nosta=%d\n"
++		      "core_tx_ap_enqueue_warn_link=%d\n"
++		      "core_tx_ap_enqueue_warn_trigger=%d\n"
++		      "core_tx_ap_enqueue_mcast=%d\n"
++		      "core_tx_ap_enqueue_ucast=%d\n"
++		      "core_tx_ap_enqueue=%d\n"
++		      "intf_tx=%d\n"
++		      "intf_tx_pending_ac=%d\n"
++		      "intf_tx_pending_fw_under_survey=%d\n"
++		      "intf_tx_pending_fw_under_linking=%d\n"
++		      "intf_tx_pending_xmitbuf=%d\n"
++		      "intf_tx_enqueue=%d\n"
++		      "core_tx_enqueue=%d\n"
++		      "core_tx_enqueue_class=%d\n"
++		      "core_tx_enqueue_class_err_sta=%d\n"
++		      "core_tx_enqueue_class_err_nosta=%d\n"
++		      "core_tx_enqueue_class_err_fwlink=%d\n"
++		      "intf_tx_direct=%d\n"
++		      "intf_tx_direct_err_coalesce=%d\n"
++		      "intf_tx_dequeue=%d\n"
++		      "intf_tx_dequeue_err_coalesce=%d\n"
++		      "intf_tx_dump_xframe=%d\n"
++		      "intf_tx_dump_xframe_err_txdesc=%d\n"
++		      "intf_tx_dump_xframe_err_port=%d\n",
++		      tx_logs->os_tx,
++		      tx_logs->os_tx_err_up,
++		      tx_logs->os_tx_err_xmit,
++		      tx_logs->os_tx_m2u,
++		      tx_logs->os_tx_m2u_ignore_fw_linked,
++		      tx_logs->os_tx_m2u_ignore_self,
++		      tx_logs->os_tx_m2u_entry,
++		      tx_logs->os_tx_m2u_entry_err_xmit,
++		      tx_logs->os_tx_m2u_entry_err_skb,
++		      tx_logs->os_tx_m2u_stop,
++		      tx_logs->core_tx,
++		      tx_logs->core_tx_err_pxmitframe,
++		      tx_logs->core_tx_err_brtx,
++		      tx_logs->core_tx_upd_attrib,
++		      tx_logs->core_tx_upd_attrib_adhoc,
++		      tx_logs->core_tx_upd_attrib_sta,
++		      tx_logs->core_tx_upd_attrib_ap,
++		      tx_logs->core_tx_upd_attrib_unknown,
++		      tx_logs->core_tx_upd_attrib_dhcp,
++		      tx_logs->core_tx_upd_attrib_icmp,
++		      tx_logs->core_tx_upd_attrib_active,
++		      tx_logs->core_tx_upd_attrib_err_ucast_sta,
++		      tx_logs->core_tx_upd_attrib_err_ucast_ap_link,
++		      tx_logs->core_tx_upd_attrib_err_sta,
++		      tx_logs->core_tx_upd_attrib_err_link,
++		      tx_logs->core_tx_upd_attrib_err_sec,
++		      tx_logs->core_tx_ap_enqueue_warn_fwstate,
++		      tx_logs->core_tx_ap_enqueue_warn_sta,
++		      tx_logs->core_tx_ap_enqueue_warn_nosta,
++		      tx_logs->core_tx_ap_enqueue_warn_link,
++		      tx_logs->core_tx_ap_enqueue_warn_trigger,
++		      tx_logs->core_tx_ap_enqueue_mcast,
++		      tx_logs->core_tx_ap_enqueue_ucast,
++		      tx_logs->core_tx_ap_enqueue,
++		      tx_logs->intf_tx,
++		      tx_logs->intf_tx_pending_ac,
++		      tx_logs->intf_tx_pending_fw_under_survey,
++		      tx_logs->intf_tx_pending_fw_under_linking,
++		      tx_logs->intf_tx_pending_xmitbuf,
++		      tx_logs->intf_tx_enqueue,
++		      tx_logs->core_tx_enqueue,
++		      tx_logs->core_tx_enqueue_class,
++		      tx_logs->core_tx_enqueue_class_err_sta,
++		      tx_logs->core_tx_enqueue_class_err_nosta,
++		      tx_logs->core_tx_enqueue_class_err_fwlink,
++		      tx_logs->intf_tx_direct,
++		      tx_logs->intf_tx_direct_err_coalesce,
++		      tx_logs->intf_tx_dequeue,
++		      tx_logs->intf_tx_dequeue_err_coalesce,
++		      tx_logs->intf_tx_dump_xframe,
++		      tx_logs->intf_tx_dump_xframe_err_txdesc,
++		      tx_logs->intf_tx_dump_xframe_err_port
++		     );
++
++	return 0;
++}
++
++int proc_get_int_logs(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT_SEL(m,
++		      "all=%d\n"
++		      "err=%d\n"
++		      "tbdok=%d\n"
++		      "tbder=%d\n"
++		      "bcnderr=%d\n"
++		      "bcndma=%d\n"
++		      "bcndma_e=%d\n"
++		      "rx=%d\n"
++		      "rx_rdu=%d\n"
++		      "rx_fovw=%d\n"
++		      "txfovw=%d\n"
++		      "mgntok=%d\n"
++		      "highdok=%d\n"
++		      "bkdok=%d\n"
++		      "bedok=%d\n"
++		      "vidok=%d\n"
++		      "vodok=%d\n",
++		      padapter->int_logs.all,
++		      padapter->int_logs.err,
++		      padapter->int_logs.tbdok,
++		      padapter->int_logs.tbder,
++		      padapter->int_logs.bcnderr,
++		      padapter->int_logs.bcndma,
++		      padapter->int_logs.bcndma_e,
++		      padapter->int_logs.rx,
++		      padapter->int_logs.rx_rdu,
++		      padapter->int_logs.rx_fovw,
++		      padapter->int_logs.txfovw,
++		      padapter->int_logs.mgntok,
++		      padapter->int_logs.highdok,
++		      padapter->int_logs.bkdok,
++		      padapter->int_logs.bedok,
++		      padapter->int_logs.vidok,
++		      padapter->int_logs.vodok
++		     );
++
++	return 0;
++}
++
++#endif /* CONFIG_DBG_COUNTER */
++
++int proc_get_hw_status(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct dvobj_priv *dvobj = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &dvobj->drv_dbg;
++	struct registry_priv *regsty = dvobj_to_regsty(dvobj);
++
++	if (regsty->check_hw_status == 0)
++		RTW_PRINT_SEL(m, "RX FIFO full count: not check in watch dog\n");
++	else if (pdbgpriv->dbg_rx_fifo_last_overflow == 1
++	    && pdbgpriv->dbg_rx_fifo_curr_overflow == 1
++	    && pdbgpriv->dbg_rx_fifo_diff_overflow == 1
++	   )
++		RTW_PRINT_SEL(m, "RX FIFO full count: no implementation\n");
++	else {
++		RTW_PRINT_SEL(m, "RX FIFO full count: last_time=%llu, current_time=%llu, differential=%llu\n"
++			, pdbgpriv->dbg_rx_fifo_last_overflow, pdbgpriv->dbg_rx_fifo_curr_overflow, pdbgpriv->dbg_rx_fifo_diff_overflow);
++	}
++
++	return 0;
++}
++
++ssize_t proc_set_hw_status(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct dvobj_priv *dvobj = padapter->dvobj;
++	struct registry_priv *regsty = dvobj_to_regsty(dvobj);
++	char tmp[32];
++	u32 enable;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &enable);
++
++		if (regsty && enable <= 1) {
++			regsty->check_hw_status = enable;
++			RTW_INFO("check_hw_status=%d\n", regsty->check_hw_status);
++		}
++	}
++
++	return count;
++}
++
++int proc_get_trx_info_debug(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	int i;
++
++
++	/*============  tx info ============	*/
++	rtw_hal_get_def_var(padapter, HW_DEF_RA_INFO_DUMP, m);
++
++	/*============  rx info ============	*/
++	rtw_hal_set_odm_var(padapter, HAL_ODM_RX_INFO_DUMP, m, _FALSE);
++
++
++	return 0;
++}
++
++int proc_get_rx_signal(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	RTW_PRINT_SEL(m, "rssi:%d\n", padapter->recvpriv.rssi);
++	/* RTW_PRINT_SEL(m, "rxpwdb:%d\n", padapter->recvpriv.rxpwdb); */
++	RTW_PRINT_SEL(m, "signal_strength:%u\n", padapter->recvpriv.signal_strength);
++	RTW_PRINT_SEL(m, "signal_qual:%u\n", padapter->recvpriv.signal_qual);
++	if (padapter->registrypriv.mp_mode == 1) {
++		if (padapter->mppriv.antenna_rx == ANTENNA_A)
++			RTW_PRINT_SEL(m, "Antenna: A\n");
++		else if (padapter->mppriv.antenna_rx == ANTENNA_B)
++			RTW_PRINT_SEL(m, "Antenna: B\n");
++		else if (padapter->mppriv.antenna_rx == ANTENNA_C)
++			RTW_PRINT_SEL(m, "Antenna: C\n");
++		else if (padapter->mppriv.antenna_rx == ANTENNA_D)
++			RTW_PRINT_SEL(m, "Antenna: D\n");
++		else if (padapter->mppriv.antenna_rx == ANTENNA_AB)
++			RTW_PRINT_SEL(m, "Antenna: AB\n");
++		else if (padapter->mppriv.antenna_rx == ANTENNA_BC)
++			RTW_PRINT_SEL(m, "Antenna: BC\n");
++		else if (padapter->mppriv.antenna_rx == ANTENNA_CD)
++			RTW_PRINT_SEL(m, "Antenna: CD\n");
++		else
++			RTW_PRINT_SEL(m, "Antenna: __\n");
++		return 0;
++	}
++
++	rtw_get_noise(padapter);
++	RTW_PRINT_SEL(m, "noise:%d\n", padapter->recvpriv.noise);
++#ifdef DBG_RX_SIGNAL_DISPLAY_RAW_DATA
++	rtw_odm_get_perpkt_rssi(m, padapter);
++	rtw_get_raw_rssi_info(m, padapter);
++#endif
++	return 0;
++}
++
++ssize_t proc_set_rx_signal(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u32 is_signal_dbg, signal_strength;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%u %u", &is_signal_dbg, &signal_strength);
++
++		is_signal_dbg = is_signal_dbg == 0 ? 0 : 1;
++
++		if (is_signal_dbg && num != 2)
++			return count;
++
++		signal_strength = signal_strength > 100 ? 100 : signal_strength;
++
++		padapter->recvpriv.is_signal_dbg = is_signal_dbg;
++		padapter->recvpriv.signal_strength_dbg = signal_strength;
++
++		if (is_signal_dbg)
++			RTW_INFO("set %s %u\n", "DBG_SIGNAL_STRENGTH", signal_strength);
++		else
++			RTW_INFO("set %s\n", "HW_SIGNAL_STRENGTH");
++
++	}
++
++	return count;
++
++}
++#ifdef CONFIG_80211N_HT
++
++int proc_get_ht_enable(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++
++	if (pregpriv)
++		RTW_PRINT_SEL(m, "%d\n", pregpriv->ht_enable);
++
++	return 0;
++}
++
++ssize_t proc_set_ht_enable(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	char tmp[32];
++	u32 mode;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &mode);
++
++		if (pregpriv && mode < 2) {
++			pregpriv->ht_enable = mode;
++			RTW_INFO("ht_enable=%d\n", pregpriv->ht_enable);
++		}
++	}
++
++	return count;
++
++}
++
++int proc_get_bw_mode(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++
++	if (pregpriv)
++		RTW_PRINT_SEL(m, "0x%02x\n", pregpriv->bw_mode);
++
++	return 0;
++}
++
++ssize_t proc_set_bw_mode(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	char tmp[32];
++	u32 mode;
++	u8 bw_2g;
++	u8 bw_5g;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%x ", &mode);
++		bw_5g = mode >> 4;
++		bw_2g = mode & 0x0f;
++
++		if (pregpriv && bw_2g <= 4 && bw_5g <= 4) {
++
++			pregpriv->bw_mode = mode;
++			printk("bw_mode=0x%x\n", mode);
++
++		}
++	}
++
++	return count;
++
++}
++
++int proc_get_ampdu_enable(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++
++	if (pregpriv)
++		RTW_PRINT_SEL(m, "%d\n", pregpriv->ampdu_enable);
++
++	return 0;
++}
++
++ssize_t proc_set_ampdu_enable(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	char tmp[32];
++	u32 mode;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &mode);
++
++		if (pregpriv && mode < 2) {
++			pregpriv->ampdu_enable = mode;
++			printk("ampdu_enable=%d\n", mode);
++		}
++
++	}
++
++	return count;
++
++}
++
++int proc_get_mac_rptbuf(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u16 i;
++	u16 mac_id;
++	u32 shcut_addr = 0;
++	u32 read_addr = 0;
++#ifdef CONFIG_RTL8814A
++	RTW_PRINT_SEL(m, "TX ShortCut:\n");
++	for (mac_id = 0; mac_id < 64; mac_id++) {
++		rtw_write16(padapter, 0x140, 0x662 | ((mac_id & BIT5) >> 5));
++		shcut_addr = 0x8000;
++		shcut_addr = shcut_addr | ((mac_id & 0x1f) << 7);
++		RTW_PRINT_SEL(m, "mac_id=%d, 0x140=%x =>\n", mac_id, 0x662 | ((mac_id & BIT5) >> 5));
++		for (i = 0; i < 30; i++) {
++			read_addr = 0;
++			read_addr = shcut_addr | (i << 2);
++			RTW_PRINT_SEL(m, "i=%02d: MAC_%04x= %08x ", i, read_addr, rtw_read32(padapter, read_addr));
++			if (!((i + 1) % 4))
++				RTW_PRINT_SEL(m, "\n");
++			if (i == 29)
++				RTW_PRINT_SEL(m, "\n");
++		}
++	}
++#endif /* CONFIG_RTL8814A */
++	return 0;
++}
++
++
++int proc_get_rx_ampdu(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	_RTW_PRINT_SEL(m, "accept: ");
++	if (padapter->fix_rx_ampdu_accept == RX_AMPDU_ACCEPT_INVALID)
++		RTW_PRINT_SEL(m, "%u%s\n", rtw_rx_ampdu_is_accept(padapter), "(auto)");
++	else
++		RTW_PRINT_SEL(m, "%u%s\n", padapter->fix_rx_ampdu_accept, "(fixed)");
++
++	_RTW_PRINT_SEL(m, "size: ");
++	if (padapter->fix_rx_ampdu_size == RX_AMPDU_SIZE_INVALID)
++		RTW_PRINT_SEL(m, "%u%s\n", rtw_rx_ampdu_size(padapter), "(auto)");
++	else
++		RTW_PRINT_SEL(m, "%u%s\n", padapter->fix_rx_ampdu_size, "(fixed)");
++
++	RTW_PRINT_SEL(m, "%19s %17s\n", "fix_rx_ampdu_accept", "fix_rx_ampdu_size");
++
++	_RTW_PRINT_SEL(m, "%-19d %-17u\n"
++		, padapter->fix_rx_ampdu_accept
++		, padapter->fix_rx_ampdu_size);
++
++	return 0;
++}
++
++ssize_t proc_set_rx_ampdu(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	char tmp[32];
++	u8 accept;
++	u8 size;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhu %hhu", &accept, &size);
++
++		if (num >= 1)
++			rtw_rx_ampdu_set_accept(padapter, accept, RX_AMPDU_DRV_FIXED);
++		if (num >= 2)
++			rtw_rx_ampdu_set_size(padapter, size, RX_AMPDU_DRV_FIXED);
++
++		rtw_rx_ampdu_apply(padapter);
++	}
++
++exit:
++	return count;
++}
++int proc_get_rx_ampdu_factor(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++
++	if (padapter)
++		RTW_PRINT_SEL(m, "rx ampdu factor = %x\n", padapter->driver_rx_ampdu_factor);
++
++	return 0;
++}
++
++ssize_t proc_set_rx_ampdu_factor(struct file *file, const char __user *buffer
++				 , size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u32 factor;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &factor);
++
++		if (padapter && (num == 1)) {
++			RTW_INFO("padapter->driver_rx_ampdu_factor = %x\n", factor);
++
++			if (factor  > 0x03)
++				padapter->driver_rx_ampdu_factor = 0xFF;
++			else
++				padapter->driver_rx_ampdu_factor = factor;
++		}
++	}
++
++	return count;
++}
++
++int proc_get_rx_ampdu_density(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++
++	if (padapter)
++		RTW_PRINT_SEL(m, "rx ampdu densityg = %x\n", padapter->driver_rx_ampdu_spacing);
++
++	return 0;
++}
++
++ssize_t proc_set_rx_ampdu_density(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u32 density;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &density);
++
++		if (padapter && (num == 1)) {
++			RTW_INFO("padapter->driver_rx_ampdu_spacing = %x\n", density);
++
++			if (density > 0x07)
++				padapter->driver_rx_ampdu_spacing = 0xFF;
++			else
++				padapter->driver_rx_ampdu_spacing = density;
++		}
++	}
++
++	return count;
++}
++
++int proc_get_tx_ampdu_density(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++
++	if (padapter)
++		RTW_PRINT_SEL(m, "tx ampdu density = %x\n", padapter->driver_ampdu_spacing);
++
++	return 0;
++}
++
++ssize_t proc_set_tx_ampdu_density(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u32 density;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &density);
++
++		if (padapter && (num == 1)) {
++			RTW_INFO("padapter->driver_ampdu_spacing = %x\n", density);
++
++			if (density > 0x07)
++				padapter->driver_ampdu_spacing = 0xFF;
++			else
++				padapter->driver_ampdu_spacing = density;
++		}
++	}
++
++	return count;
++}
++#endif /* CONFIG_80211N_HT */
++
++int proc_get_en_fwps(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (pregpriv)
++		RTW_PRINT_SEL(m, "check_fw_ps = %d , 1:enable get FW PS state , 0: disable get FW PS state\n"
++			      , pregpriv->check_fw_ps);
++
++	return 0;
++}
++
++ssize_t proc_set_en_fwps(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	char tmp[32];
++	u32 mode;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &mode);
++
++		if (pregpriv &&  mode < 2) {
++			pregpriv->check_fw_ps = mode;
++			RTW_INFO("pregpriv->check_fw_ps=%d\n", pregpriv->check_fw_ps);
++		}
++
++	}
++
++	return count;
++}
++
++/*
++int proc_get_two_path_rssi(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	if(padapter)
++		RTW_PRINT_SEL(m, "%d %d\n",
++			padapter->recvpriv.RxRssi[0], padapter->recvpriv.RxRssi[1]);
++
++	return 0;
++}
++*/
++#ifdef CONFIG_80211N_HT
++int proc_get_rx_stbc(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++
++	if (pregpriv)
++		RTW_PRINT_SEL(m, "%d\n", pregpriv->rx_stbc);
++
++	return 0;
++}
++
++ssize_t proc_set_rx_stbc(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	char tmp[32];
++	u32 mode;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &mode);
++
++		if (pregpriv && (mode == 0 || mode == 1 || mode == 2 || mode == 3)) {
++			pregpriv->rx_stbc = mode;
++			printk("rx_stbc=%d\n", mode);
++		}
++	}
++
++	return count;
++
++}
++#endif /* CONFIG_80211N_HT */
++
++/*int proc_get_rssi_disp(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	return 0;
++}
++*/
++
++/*ssize_t proc_set_rssi_disp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u32 enable=0;
++
++	if (count < 1)
++	{
++		RTW_INFO("argument size is less than 1\n");
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%x", &enable);
++
++		if (num !=  1) {
++			RTW_INFO("invalid set_rssi_disp parameter!\n");
++			return count;
++		}
++
++		if(enable)
++		{
++			RTW_INFO("Linked info Function Enable\n");
++			padapter->bLinkInfoDump = enable ;
++		}
++		else
++		{
++			RTW_INFO("Linked info Function Disable\n");
++			padapter->bLinkInfoDump = 0 ;
++		}
++
++	}
++
++	return count;
++
++}
++
++*/
++#ifdef CONFIG_AP_MODE
++
++int proc_get_all_sta_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_irqL irqL;
++	struct sta_info *psta;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	int i;
++	_list	*plist, *phead;
++
++	RTW_PRINT_SEL(m, "sta_dz_bitmap=0x%x, tim_bitmap=0x%x\n", pstapriv->sta_dz_bitmap, pstapriv->tim_bitmap);
++
++	_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++	for (i = 0; i < NUM_STA; i++) {
++		phead = &(pstapriv->sta_hash[i]);
++		plist = get_next(phead);
++
++		while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++			psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++
++			plist = get_next(plist);
++
++			/* if(extra_arg == psta->aid) */
++			{
++				RTW_PRINT_SEL(m, "==============================\n");
++				RTW_PRINT_SEL(m, "sta's macaddr:" MAC_FMT "\n", MAC_ARG(psta->hwaddr));
++				RTW_PRINT_SEL(m, "rtsen=%d, cts2slef=%d\n", psta->rtsen, psta->cts2self);
++				RTW_PRINT_SEL(m, "state=0x%x, aid=%d, macid=%d, raid=%d\n", psta->state, psta->aid, psta->mac_id, psta->raid);
++#ifdef CONFIG_80211N_HT
++				RTW_PRINT_SEL(m, "qos_en=%d, ht_en=%d, init_rate=%d\n", psta->qos_option, psta->htpriv.ht_option, psta->init_rate);
++				RTW_PRINT_SEL(m, "bwmode=%d, ch_offset=%d, sgi_20m=%d,sgi_40m=%d\n", psta->bw_mode, psta->htpriv.ch_offset, psta->htpriv.sgi_20m, psta->htpriv.sgi_40m);
++				RTW_PRINT_SEL(m, "ampdu_enable = %d\n", psta->htpriv.ampdu_enable);
++				RTW_PRINT_SEL(m, "agg_enable_bitmap=%x, candidate_tid_bitmap=%x\n", psta->htpriv.agg_enable_bitmap, psta->htpriv.candidate_tid_bitmap);
++#endif /* CONFIG_80211N_HT */
++				RTW_PRINT_SEL(m, "sleepq_len=%d\n", psta->sleepq_len);
++				RTW_PRINT_SEL(m, "sta_xmitpriv.vo_q_qcnt=%d\n", psta->sta_xmitpriv.vo_q.qcnt);
++				RTW_PRINT_SEL(m, "sta_xmitpriv.vi_q_qcnt=%d\n", psta->sta_xmitpriv.vi_q.qcnt);
++				RTW_PRINT_SEL(m, "sta_xmitpriv.be_q_qcnt=%d\n", psta->sta_xmitpriv.be_q.qcnt);
++				RTW_PRINT_SEL(m, "sta_xmitpriv.bk_q_qcnt=%d\n", psta->sta_xmitpriv.bk_q.qcnt);
++
++				RTW_PRINT_SEL(m, "capability=0x%x\n", psta->capability);
++				RTW_PRINT_SEL(m, "flags=0x%x\n", psta->flags);
++				RTW_PRINT_SEL(m, "wpa_psk=0x%x\n", psta->wpa_psk);
++				RTW_PRINT_SEL(m, "wpa2_group_cipher=0x%x\n", psta->wpa2_group_cipher);
++				RTW_PRINT_SEL(m, "wpa2_pairwise_cipher=0x%x\n", psta->wpa2_pairwise_cipher);
++				RTW_PRINT_SEL(m, "qos_info=0x%x\n", psta->qos_info);
++				RTW_PRINT_SEL(m, "dot118021XPrivacy=0x%x\n", psta->dot118021XPrivacy);
++
++				sta_rx_reorder_ctl_dump(m, psta);
++
++#ifdef CONFIG_TDLS
++				RTW_PRINT_SEL(m, "tdls_sta_state=0x%08x\n", psta->tdls_sta_state);
++				RTW_PRINT_SEL(m, "PeerKey_Lifetime=%d\n", psta->TDLS_PeerKey_Lifetime);
++				RTW_PRINT_SEL(m, "rx_data_pkts=%llu\n", psta->sta_stats.rx_data_pkts);
++				RTW_PRINT_SEL(m, "rx_bytes=%llu\n", psta->sta_stats.rx_bytes);
++				RTW_PRINT_SEL(m, "tx_data_pkts=%llu\n", psta->sta_stats.tx_pkts);
++				RTW_PRINT_SEL(m, "tx_bytes=%llu\n", psta->sta_stats.tx_bytes);
++#endif /* CONFIG_TDLS */
++
++				dump_st_ctl(m, &psta->st_ctl);
++
++				if (STA_OP_WFD_MODE(psta))
++					RTW_PRINT_SEL(m, "op_wfd_mode:0x%02x\n", STA_OP_WFD_MODE(psta));
++
++				RTW_PRINT_SEL(m, "==============================\n");
++			}
++
++		}
++
++	}
++
++	_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++	return 0;
++}
++
++#endif
++
++#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++int proc_get_rtkm_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++	struct recv_buf *precvbuf;
++
++	precvbuf = (struct recv_buf *)precvpriv->precv_buf;
++
++	RTW_PRINT_SEL(m, "============[RTKM Info]============\n");
++	RTW_PRINT_SEL(m, "MAX_RTKM_NR_PREALLOC_RECV_SKB: %d\n", rtw_rtkm_get_nr_recv_skb());
++	RTW_PRINT_SEL(m, "MAX_RTKM_RECVBUF_SZ: %d\n", rtw_rtkm_get_buff_size());
++
++	RTW_PRINT_SEL(m, "============[Driver Info]============\n");
++	RTW_PRINT_SEL(m, "NR_PREALLOC_RECV_SKB: %d\n", NR_PREALLOC_RECV_SKB);
++	RTW_PRINT_SEL(m, "MAX_RECVBUF_SZ: %d\n", precvbuf->alloc_sz);
++
++	return 0;
++}
++#endif /* CONFIG_PREALLOC_RX_SKB_BUFFER */
++
++#ifdef DBG_MEMORY_LEAK
++#include <asm/atomic.h>
++extern atomic_t _malloc_cnt;;
++extern atomic_t _malloc_size;;
++
++int proc_get_malloc_cnt(struct seq_file *m, void *v)
++{
++	RTW_PRINT_SEL(m, "_malloc_cnt=%d\n", atomic_read(&_malloc_cnt));
++	RTW_PRINT_SEL(m, "_malloc_size=%d\n", atomic_read(&_malloc_size));
++
++	return 0;
++}
++#endif /* DBG_MEMORY_LEAK */
++
++#ifdef CONFIG_FIND_BEST_CHANNEL
++int proc_get_best_channel(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	u32 i, best_channel_24G = 1, best_channel_5G = 36, index_24G = 0, index_5G = 0;
++
++	for (i = 0; pmlmeext->channel_set[i].ChannelNum != 0; i++) {
++		if (pmlmeext->channel_set[i].ChannelNum == 1)
++			index_24G = i;
++		if (pmlmeext->channel_set[i].ChannelNum == 36)
++			index_5G = i;
++	}
++
++	for (i = 0; (i < MAX_CHANNEL_NUM) && (pmlmeext->channel_set[i].ChannelNum != 0) ; i++) {
++		/* 2.4G */
++		if (pmlmeext->channel_set[i].ChannelNum == 6) {
++			if (pmlmeext->channel_set[i].rx_count < pmlmeext->channel_set[index_24G].rx_count) {
++				index_24G = i;
++				best_channel_24G = pmlmeext->channel_set[i].ChannelNum;
++			}
++		}
++
++		/* 5G */
++		if (pmlmeext->channel_set[i].ChannelNum >= 36
++		    && pmlmeext->channel_set[i].ChannelNum < 140) {
++			/* Find primary channel */
++			if (((pmlmeext->channel_set[i].ChannelNum - 36) % 8 == 0)
++			    && (pmlmeext->channel_set[i].rx_count < pmlmeext->channel_set[index_5G].rx_count)) {
++				index_5G = i;
++				best_channel_5G = pmlmeext->channel_set[i].ChannelNum;
++			}
++		}
++
++		if (pmlmeext->channel_set[i].ChannelNum >= 149
++		    && pmlmeext->channel_set[i].ChannelNum < 165) {
++			/* find primary channel */
++			if (((pmlmeext->channel_set[i].ChannelNum - 149) % 8 == 0)
++			    && (pmlmeext->channel_set[i].rx_count < pmlmeext->channel_set[index_5G].rx_count)) {
++				index_5G = i;
++				best_channel_5G = pmlmeext->channel_set[i].ChannelNum;
++			}
++		}
++#if 1 /* debug */
++		RTW_PRINT_SEL(m, "The rx cnt of channel %3d = %d\n",
++			pmlmeext->channel_set[i].ChannelNum, pmlmeext->channel_set[i].rx_count);
++#endif
++	}
++
++	RTW_PRINT_SEL(m, "best_channel_5G = %d\n", best_channel_5G);
++	RTW_PRINT_SEL(m, "best_channel_24G = %d\n", best_channel_24G);
++
++	return 0;
++}
++
++ssize_t proc_set_best_channel(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	char tmp[32];
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int i;
++		for (i = 0; pmlmeext->channel_set[i].ChannelNum != 0; i++)
++			pmlmeext->channel_set[i].rx_count = 0;
++
++		RTW_INFO("set %s\n", "Clean Best Channel Count");
++	}
++
++	return count;
++}
++#endif /* CONFIG_FIND_BEST_CHANNEL */
++
++#ifdef CONFIG_BT_COEXIST
++int proc_get_btcoex_dbg(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	PADAPTER padapter;
++	char buf[512] = {0};
++	padapter = (PADAPTER)rtw_netdev_priv(dev);
++
++	rtw_btcoex_GetDBG(padapter, buf, 512);
++
++	_RTW_PRINT_SEL(m, "%s", buf);
++
++	return 0;
++}
++
++ssize_t proc_set_btcoex_dbg(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	PADAPTER padapter;
++	u8 tmp[80] = {0};
++	u32 module[2] = {0};
++	u32 num;
++
++	padapter = (PADAPTER)rtw_netdev_priv(dev);
++
++	/*	RTW_INFO("+" FUNC_ADPT_FMT "\n", FUNC_ADPT_ARG(padapter)); */
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n",
++			 FUNC_ADPT_ARG(padapter));
++
++		return -EFAULT;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n",
++			 FUNC_ADPT_ARG(padapter));
++
++		return -EFAULT;
++	}
++
++	num = count;
++	if (num > (sizeof(tmp) - 1))
++		num = (sizeof(tmp) - 1);
++
++	if (copy_from_user(tmp, buffer, num)) {
++		RTW_INFO(FUNC_ADPT_FMT ": copy buffer from user space FAIL!\n",
++			 FUNC_ADPT_ARG(padapter));
++
++		return -EFAULT;
++	}
++
++	num = sscanf(tmp, "%x %x", module, module + 1);
++	if (1 == num) {
++		if (0 == module[0])
++			_rtw_memset(module, 0, sizeof(module));
++		else
++			_rtw_memset(module, 0xFF, sizeof(module));
++	} else if (2 != num) {
++		RTW_INFO(FUNC_ADPT_FMT ": input(\"%s\") format incorrect!\n",
++			 FUNC_ADPT_ARG(padapter), tmp);
++
++		if (0 == num)
++			return -EFAULT;
++	}
++
++	RTW_INFO(FUNC_ADPT_FMT ": input 0x%08X 0x%08X\n",
++		 FUNC_ADPT_ARG(padapter), module[0], module[1]);
++	rtw_btcoex_SetDBG(padapter, module);
++
++	return count;
++}
++
++int proc_get_btcoex_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	PADAPTER padapter;
++	const u32 bufsize = 30 * 100;
++	u8 *pbuf = NULL;
++
++	padapter = (PADAPTER)rtw_netdev_priv(dev);
++
++	pbuf = rtw_zmalloc(bufsize);
++	if (NULL == pbuf)
++		return -ENOMEM;
++
++	rtw_btcoex_DisplayBtCoexInfo(padapter, pbuf, bufsize);
++
++	_RTW_PRINT_SEL(m, "%s\n", pbuf);
++
++	rtw_mfree(pbuf, bufsize);
++
++	return 0;
++}
++#endif /* CONFIG_BT_COEXIST */
++
++#if defined(DBG_CONFIG_ERROR_DETECT)
++int proc_get_sreset(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	return 0;
++}
++
++ssize_t proc_set_sreset(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	s32 trigger_point;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d", &trigger_point);
++
++		if (trigger_point == SRESET_TGP_NULL)
++			rtw_hal_sreset_reset(padapter);
++		else
++			sreset_set_trigger_point(padapter, trigger_point);
++	}
++
++	return count;
++
++}
++#endif /* DBG_CONFIG_ERROR_DETECT */
++
++#ifdef CONFIG_PCI_HCI
++
++int proc_get_rx_ring(struct seq_file *m, void *v)
++{
++	_irqL irqL;
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *) rtw_netdev_priv(dev);
++	struct dvobj_priv *pdvobjpriv = adapter_to_dvobj(padapter);
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	struct rtw_rx_ring *rx_ring = &precvpriv->rx_ring[RX_MPDU_QUEUE];
++	int i, j;
++
++	RTW_PRINT_SEL(m, "rx ring (%p)\n", rx_ring);
++	RTW_PRINT_SEL(m, "  dma: 0x%08x\n", (int) rx_ring->dma);
++	RTW_PRINT_SEL(m, "  idx: %d\n", rx_ring->idx);
++
++	_enter_critical(&pdvobjpriv->irq_th_lock, &irqL);
++	for (i = 0; i < precvpriv->rxringcount; i++) {
++#ifdef CONFIG_TRX_BD_ARCH
++		struct rx_buf_desc *entry = &rx_ring->buf_desc[i];
++#else
++		struct recv_stat *entry = &rx_ring->desc[i];
++#endif
++		struct sk_buff *skb = rx_ring->rx_buf[i];
++
++		RTW_PRINT_SEL(m, "  desc[%03d]: %p, rx_buf[%03d]: 0x%08x\n",
++			i, entry, i, cpu_to_le32(*((dma_addr_t *)skb->cb)));
++
++		for (j = 0; j < sizeof(*entry) / 4; j++) {
++			if ((j % 4) == 0)
++				RTW_PRINT_SEL(m, "  0x%03x", j);
++
++			RTW_PRINT_SEL(m, " 0x%08x ", ((int *) entry)[j]);
++
++			if ((j % 4) == 3)
++				RTW_PRINT_SEL(m, "\n");
++		}
++	}
++	_exit_critical(&pdvobjpriv->irq_th_lock, &irqL);
++
++	return 0;
++}
++
++int proc_get_tx_ring(struct seq_file *m, void *v)
++{
++	_irqL irqL;
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *) rtw_netdev_priv(dev);
++	struct dvobj_priv *pdvobjpriv = adapter_to_dvobj(padapter);
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	int i, j, k;
++
++	_enter_critical(&pdvobjpriv->irq_th_lock, &irqL);
++	for (i = 0; i < PCI_MAX_TX_QUEUE_COUNT; i++) {
++		struct rtw_tx_ring *tx_ring = &pxmitpriv->tx_ring[i];
++
++		RTW_PRINT_SEL(m, "tx ring[%d] (%p)\n", i, tx_ring);
++		RTW_PRINT_SEL(m, "  dma: 0x%08x\n", (int) tx_ring->dma);
++		RTW_PRINT_SEL(m, "  idx: %d\n", tx_ring->idx);
++		RTW_PRINT_SEL(m, "  entries: %d\n", tx_ring->entries);
++		/*		RTW_PRINT_SEL(m, "  queue: %d\n", tx_ring->queue); */
++		RTW_PRINT_SEL(m, "  qlen: %d\n", tx_ring->qlen);
++
++		for (j = 0; j < pxmitpriv->txringcount[i]; j++) {
++#ifdef CONFIG_TRX_BD_ARCH
++			struct tx_buf_desc *entry = &tx_ring->buf_desc[j];
++#else
++			struct tx_desc *entry = &tx_ring->desc[j];
++#endif
++
++			RTW_PRINT_SEL(m, "  desc[%03d]: %p\n", j, entry);
++			for (k = 0; k < sizeof(*entry) / 4; k++) {
++				if ((k % 4) == 0)
++					RTW_PRINT_SEL(m, "  0x%03x", k);
++
++				RTW_PRINT_SEL(m, " 0x%08x ", ((int *) entry)[k]);
++
++				if ((k % 4) == 3)
++					RTW_PRINT_SEL(m, "\n");
++			}
++		}
++	}
++	_exit_critical(&pdvobjpriv->irq_th_lock, &irqL);
++
++	return 0;
++}
++#endif
++
++#ifdef CONFIG_WOWLAN
++int proc_get_pattern_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	u8 pattern_num = 0, val8;
++	char str_1[128];
++	char *p_str;
++	int i = 0 , j = 0, k = 0;
++	int len = 0, max_len = 0, total = 0;
++
++	p_str = str_1;
++	max_len = sizeof(str_1);
++
++	total = pwrpriv->wowlan_pattern_idx;
++
++	rtw_set_default_pattern(padapter);
++
++	/*show pattern*/
++	RTW_PRINT_SEL(m, "\n======[Pattern Info.]======\n");
++	RTW_PRINT_SEL(m, "pattern number: %d\n", total);
++	RTW_PRINT_SEL(m, "support default patterns: %c\n",
++		      (pregistrypriv->default_patterns_en) ? 'Y' : 'N');
++
++	for (k = 0; k < total ; k++) {
++		RTW_PRINT_SEL(m, "\npattern idx: %d\n", k);
++		RTW_PRINT_SEL(m, "pattern content:\n");
++
++		p_str = str_1;
++		max_len = sizeof(str_1);
++		for (i = 0 ; i < MAX_WKFM_PATTERN_SIZE / 8 ; i++) {
++			_rtw_memset(p_str, 0, max_len);
++			len = 0;
++			for (j = 0 ; j < 8 ; j++) {
++				val8 = pwrpriv->patterns[k].content[i * 8 + j];
++				len += snprintf(p_str + len, max_len - len,
++						"%02x ", val8);
++			}
++			RTW_PRINT_SEL(m, "%s\n", p_str);
++		}
++		RTW_PRINT_SEL(m, "\npattern mask:\n");
++		for (i = 0 ; i < MAX_WKFM_SIZE / 8 ; i++) {
++			_rtw_memset(p_str, 0, max_len);
++			len = 0;
++			for (j = 0 ; j < 8 ; j++) {
++				val8 = pwrpriv->patterns[k].mask[i * 8 + j];
++				len += snprintf(p_str + len, max_len - len,
++						"%02x ", val8);
++			}
++			RTW_PRINT_SEL(m, "%s\n", p_str);
++		}
++
++		RTW_PRINT_SEL(m, "\npriv_pattern_len:\n");
++		RTW_PRINT_SEL(m, "pattern_len: %d\n", pwrpriv->patterns[k].len);
++		RTW_PRINT_SEL(m, "*****************\n");
++	}
++
++	return 0;
++}
++ssize_t proc_set_pattern_info(struct file *file, const char __user *buffer,
++			      size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct wowlan_ioctl_param poidparam;
++	u8 tmp[MAX_WKFM_PATTERN_SIZE] = {0};
++	int ret = 0, num = 0;
++	u8 index = 0;
++
++	poidparam.subcode = 0;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (pwrpriv->wowlan_pattern_idx >= MAX_WKFM_NUM) {
++		RTW_INFO("WARNING: priv-pattern is full(idx: %d)\n",
++			 pwrpriv->wowlan_pattern_idx);
++		RTW_INFO("WARNING: please clean priv-pattern first\n");
++		return -ENOMEM;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		if (strncmp(tmp, "clean", 5) == 0) {
++			poidparam.subcode = WOWLAN_PATTERN_CLEAN;
++			rtw_hal_set_hwreg(padapter,
++					  HW_VAR_WOWLAN, (u8 *)&poidparam);
++		} else {
++			index = pwrpriv->wowlan_pattern_idx;
++			ret = rtw_wowlan_parser_pattern_cmd(tmp,
++					    pwrpriv->patterns[index].content,
++					    &pwrpriv->patterns[index].len,
++					    pwrpriv->patterns[index].mask);
++			if (ret == _TRUE)
++				pwrpriv->wowlan_pattern_idx++;
++		}
++	}
++
++	return count;
++}
++
++int proc_get_wakeup_reason(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	u8 val = pwrpriv->wowlan_last_wake_reason;
++
++	RTW_PRINT_SEL(m, "last wake reason: %#02x\n", val);
++	return 0;
++}
++#endif
++
++#ifdef CONFIG_GPIO_WAKEUP
++int proc_get_wowlan_gpio_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	u8 val = pwrpriv->is_high_active;
++
++	RTW_PRINT_SEL(m, "wakeup_gpio_idx: %d\n", WAKEUP_GPIO_IDX);
++	RTW_PRINT_SEL(m, "high_active: %d\n", val);
++
++	return 0;
++}
++
++ssize_t proc_set_wowlan_gpio_info(struct file *file, const char __user *buffer,
++				  size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	char tmp[32] = {0};
++	int num = 0;
++	u32 is_high_active = 0;
++	u8 val8 = 0;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		num = sscanf(tmp, "%u", &is_high_active);
++
++		is_high_active = is_high_active == 0 ? 0 : 1;
++
++		pwrpriv->is_high_active = is_high_active;
++
++		rtw_ps_deny(padapter, PS_DENY_IOCTL);
++		LeaveAllPowerSaveModeDirect(padapter);
++		val8 = (pwrpriv->is_high_active == 0) ? 1 : 0;
++		rtw_hal_set_output_gpio(padapter, WAKEUP_GPIO_IDX, val8);
++		rtw_ps_deny_cancel(padapter, PS_DENY_IOCTL);
++
++		RTW_INFO("set %s %d\n", "gpio_high_active",
++			 pwrpriv->is_high_active);
++		RTW_INFO("%s: set GPIO_%d %d as default.\n",
++			 __func__, WAKEUP_GPIO_IDX, val8);
++	}
++
++	return count;
++}
++#endif /* CONFIG_GPIO_WAKEUP */
++
++#ifdef CONFIG_P2P_WOWLAN
++int proc_get_p2p_wowlan_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	struct p2p_wowlan_info	 peerinfo = pwdinfo->p2p_wow_info;
++	if (_TRUE == peerinfo.is_trigger) {
++		RTW_PRINT_SEL(m, "is_trigger: TRUE\n");
++		switch (peerinfo.wowlan_recv_frame_type) {
++		case P2P_WOWLAN_RECV_NEGO_REQ:
++			RTW_PRINT_SEL(m, "Frame Type: Nego Request\n");
++			break;
++		case P2P_WOWLAN_RECV_INVITE_REQ:
++			RTW_PRINT_SEL(m, "Frame Type: Invitation Request\n");
++			break;
++		case P2P_WOWLAN_RECV_PROVISION_REQ:
++			RTW_PRINT_SEL(m, "Frame Type: Provision Request\n");
++			break;
++		default:
++			break;
++		}
++		RTW_PRINT_SEL(m, "Peer Addr: "MAC_FMT"\n", MAC_ARG(peerinfo.wowlan_peer_addr));
++		RTW_PRINT_SEL(m, "Peer WPS Config: %x\n", peerinfo.wowlan_peer_wpsconfig);
++		RTW_PRINT_SEL(m, "Persistent Group: %d\n", peerinfo.wowlan_peer_is_persistent);
++		RTW_PRINT_SEL(m, "Intivation Type: %d\n", peerinfo.wowlan_peer_invitation_type);
++	} else
++		RTW_PRINT_SEL(m, "is_trigger: False\n");
++	return 0;
++}
++#endif /* CONFIG_P2P_WOWLAN */
++
++int proc_get_new_bcn_max(struct seq_file *m, void *v)
++{
++	extern int new_bcn_max;
++
++	RTW_PRINT_SEL(m, "%d", new_bcn_max);
++	return 0;
++}
++
++ssize_t proc_set_new_bcn_max(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	char tmp[32];
++	extern int new_bcn_max;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count))
++		sscanf(tmp, "%d ", &new_bcn_max);
++
++	return count;
++}
++
++#ifdef CONFIG_POWER_SAVING
++int proc_get_ps_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	u8 ips_mode = pwrpriv->ips_mode;
++	u8 lps_mode = pwrpriv->power_mgnt;
++	char *str = "";
++
++	RTW_PRINT_SEL(m, "======Power Saving Info:======\n");
++	RTW_PRINT_SEL(m, "*IPS:\n");
++
++	if (ips_mode == IPS_NORMAL) {
++#ifdef CONFIG_FWLPS_IN_IPS
++		str = "FW_LPS_IN_IPS";
++#else
++		str = "Card Disable";
++#endif
++	} else if (ips_mode == IPS_NONE)
++		str = "NO IPS";
++	else if (ips_mode == IPS_LEVEL_2)
++		str = "IPS_LEVEL_2";
++	else
++		str = "invalid ips_mode";
++
++	RTW_PRINT_SEL(m, " IPS mode: %s\n", str);
++	RTW_PRINT_SEL(m, " IPS enter count:%d, IPS leave count:%d\n",
++		      pwrpriv->ips_enter_cnts, pwrpriv->ips_leave_cnts);
++	RTW_PRINT_SEL(m, "------------------------------\n");
++	RTW_PRINT_SEL(m, "*LPS:\n");
++
++	if (lps_mode == PS_MODE_ACTIVE)
++		str = "NO LPS";
++	else if (lps_mode == PS_MODE_MIN)
++		str = "MIN";
++	else if (lps_mode == PS_MODE_MAX)
++		str = "MAX";
++	else if (lps_mode == PS_MODE_DTIM)
++		str = "DTIM";
++	else
++		sprintf(str, "%d", lps_mode);
++
++	RTW_PRINT_SEL(m, " LPS mode: %s\n", str);
++
++	if (pwrpriv->dtim != 0)
++		RTW_PRINT_SEL(m, " DTIM: %d\n", pwrpriv->dtim);
++	RTW_PRINT_SEL(m, " LPS enter count:%d, LPS leave count:%d\n",
++		      pwrpriv->lps_enter_cnts, pwrpriv->lps_leave_cnts);
++	RTW_PRINT_SEL(m, "=============================\n");
++	return 0;
++}
++#endif /* CONFIG_POWER_SAVING */
++
++#ifdef CONFIG_TDLS
++static int proc_tdls_display_tdls_function_info(struct seq_file *m)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	u8 SpaceBtwnItemAndValue = TDLS_DBG_INFO_SPACE_BTWN_ITEM_AND_VALUE;
++	u8 SpaceBtwnItemAndValueTmp = 0;
++	BOOLEAN FirstMatchFound = _FALSE;
++	int j = 0;
++
++	RTW_PRINT_SEL(m, "============[TDLS Function Info]============\n");
++	RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "TDLS Prohibited", (ptdlsinfo->ap_prohibited == _TRUE) ? "_TRUE" : "_FALSE");
++	RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "TDLS Channel Switch Prohibited", (ptdlsinfo->ch_switch_prohibited == _TRUE) ? "_TRUE" : "_FALSE");
++	RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "TDLS Link Established", (ptdlsinfo->link_established == _TRUE) ? "_TRUE" : "_FALSE");
++	RTW_PRINT_SEL(m, "%-*s = %d/%d\n", SpaceBtwnItemAndValue, "TDLS STA Num (Linked/Allowed)", ptdlsinfo->sta_cnt, MAX_ALLOWED_TDLS_STA_NUM);
++	RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "TDLS Allowed STA Num Reached", (ptdlsinfo->sta_maximum == _TRUE) ? "_TRUE" : "_FALSE");
++
++#ifdef CONFIG_TDLS_CH_SW
++	RTW_PRINT_SEL(m, "%-*s =", SpaceBtwnItemAndValue, "TDLS CH SW State");
++	if (ptdlsinfo->chsw_info.ch_sw_state == TDLS_STATE_NONE)
++		RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_STATE_NONE");
++	else {
++		for (j = 0; j < 32; j++) {
++			if (ptdlsinfo->chsw_info.ch_sw_state & BIT(j)) {
++				if (FirstMatchFound ==  _FALSE) {
++					SpaceBtwnItemAndValueTmp = 1;
++					FirstMatchFound = _TRUE;
++				} else
++					SpaceBtwnItemAndValueTmp = SpaceBtwnItemAndValue + 3;
++				switch (BIT(j)) {
++				case TDLS_INITIATOR_STATE:
++					RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_INITIATOR_STATE");
++					break;
++				case TDLS_RESPONDER_STATE:
++					RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_RESPONDER_STATE");
++					break;
++				case TDLS_LINKED_STATE:
++					RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_LINKED_STATE");
++					break;
++				case TDLS_WAIT_PTR_STATE:
++					RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_WAIT_PTR_STATE");
++					break;
++				case TDLS_ALIVE_STATE:
++					RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_ALIVE_STATE");
++					break;
++				case TDLS_CH_SWITCH_ON_STATE:
++					RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_CH_SWITCH_ON_STATE");
++					break;
++				case TDLS_PEER_AT_OFF_STATE:
++					RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_PEER_AT_OFF_STATE");
++					break;
++				case TDLS_CH_SW_INITIATOR_STATE:
++					RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_CH_SW_INITIATOR_STATE");
++					break;
++				case TDLS_WAIT_CH_RSP_STATE:
++					RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValue, " ", "TDLS_WAIT_CH_RSP_STATE");
++					break;
++				default:
++					RTW_PRINT_SEL(m, "%-*sBIT(%d)\n", SpaceBtwnItemAndValueTmp, " ", j);
++					break;
++				}
++			}
++		}
++	}
++
++	RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "TDLS CH SW On", (ATOMIC_READ(&ptdlsinfo->chsw_info.chsw_on) == _TRUE) ? "_TRUE" : "_FALSE");
++	RTW_PRINT_SEL(m, "%-*s = %d\n", SpaceBtwnItemAndValue, "TDLS CH SW Off-Channel Num", ptdlsinfo->chsw_info.off_ch_num);
++	RTW_PRINT_SEL(m, "%-*s = %d\n", SpaceBtwnItemAndValue, "TDLS CH SW Channel Offset", ptdlsinfo->chsw_info.ch_offset);
++	RTW_PRINT_SEL(m, "%-*s = %d\n", SpaceBtwnItemAndValue, "TDLS CH SW Current Time", ptdlsinfo->chsw_info.cur_time);
++	RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "TDLS CH SW Delay Switch Back", (ptdlsinfo->chsw_info.delay_switch_back == _TRUE) ? "_TRUE" : "_FALSE");
++	RTW_PRINT_SEL(m, "%-*s = %d\n", SpaceBtwnItemAndValue, "TDLS CH SW Dump Back", ptdlsinfo->chsw_info.dump_stack);
++#endif
++
++	RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "TDLS Device Discovered", (ptdlsinfo->dev_discovered == _TRUE) ? "_TRUE" : "_FALSE");
++	RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "TDLS Enable", (ptdlsinfo->tdls_enable == _TRUE) ? "_TRUE" : "_FALSE");
++	RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "TDLS Driver Setup", (ptdlsinfo->driver_setup == _TRUE) ? "_TRUE" : "_FALSE");
++
++	return 0;
++}
++
++static int proc_tdls_display_network_info(struct seq_file *m)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct wlan_network *cur_network = &(pmlmepriv->cur_network);
++	int i = 0;
++	u8 SpaceBtwnItemAndValue = TDLS_DBG_INFO_SPACE_BTWN_ITEM_AND_VALUE;
++
++	/* Display the linked AP/GO info */
++	RTW_PRINT_SEL(m, "============[Associated AP/GO Info]============\n");
++
++	if ((pmlmepriv->fw_state & WIFI_STATION_STATE) && (pmlmepriv->fw_state & _FW_LINKED)) {
++		RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "BSSID", cur_network->network.Ssid.Ssid);
++		RTW_PRINT_SEL(m, "%-*s = "MAC_FMT"\n", SpaceBtwnItemAndValue, "Mac Address", MAC_ARG(cur_network->network.MacAddress));
++
++		RTW_PRINT_SEL(m, "%-*s = ", SpaceBtwnItemAndValue, "Wireless Mode");
++		for (i = 0; i < 8; i++) {
++			if (pmlmeext->cur_wireless_mode & BIT(i)) {
++				switch (BIT(i)) {
++				case WIRELESS_11B:
++					RTW_PRINT_SEL(m, "%4s", "11B ");
++					break;
++				case WIRELESS_11G:
++					RTW_PRINT_SEL(m, "%4s", "11G ");
++					break;
++				case WIRELESS_11A:
++					RTW_PRINT_SEL(m, "%4s", "11A ");
++					break;
++				case WIRELESS_11_24N:
++					RTW_PRINT_SEL(m, "%7s", "11_24N ");
++					break;
++				case WIRELESS_11_5N:
++					RTW_PRINT_SEL(m, "%6s", "11_5N ");
++					break;
++				case WIRELESS_AUTO:
++					RTW_PRINT_SEL(m, "%5s", "AUTO ");
++					break;
++				case WIRELESS_11AC:
++					RTW_PRINT_SEL(m, "%5s", "11AC ");
++					break;
++				}
++			}
++		}
++		RTW_PRINT_SEL(m, "\n");
++
++		RTW_PRINT_SEL(m, "%-*s = ", SpaceBtwnItemAndValue, "Privacy");
++		switch (padapter->securitypriv.dot11PrivacyAlgrthm) {
++		case _NO_PRIVACY_:
++			RTW_PRINT_SEL(m, "%s\n", "NO PRIVACY");
++			break;
++		case _WEP40_:
++			RTW_PRINT_SEL(m, "%s\n", "WEP 40");
++			break;
++		case _TKIP_:
++			RTW_PRINT_SEL(m, "%s\n", "TKIP");
++			break;
++		case _TKIP_WTMIC_:
++			RTW_PRINT_SEL(m, "%s\n", "TKIP WTMIC");
++			break;
++		case _AES_:
++			RTW_PRINT_SEL(m, "%s\n", "AES");
++			break;
++		case _WEP104_:
++			RTW_PRINT_SEL(m, "%s\n", "WEP 104");
++			break;
++		case _WEP_WPA_MIXED_:
++			RTW_PRINT_SEL(m, "%s\n", "WEP/WPA Mixed");
++			break;
++		case _SMS4_:
++			RTW_PRINT_SEL(m, "%s\n", "SMS4");
++			break;
++#ifdef CONFIG_IEEE80211W
++		case _BIP_:
++			RTW_PRINT_SEL(m, "%s\n", "BIP");
++			break;
++#endif /* CONFIG_IEEE80211W */
++		}
++
++		RTW_PRINT_SEL(m, "%-*s = %d\n", SpaceBtwnItemAndValue, "Channel", pmlmeext->cur_channel);
++		RTW_PRINT_SEL(m, "%-*s = ", SpaceBtwnItemAndValue, "Channel Offset");
++		switch (pmlmeext->cur_ch_offset) {
++		case HAL_PRIME_CHNL_OFFSET_DONT_CARE:
++			RTW_PRINT_SEL(m, "%s\n", "N/A");
++			break;
++		case HAL_PRIME_CHNL_OFFSET_LOWER:
++			RTW_PRINT_SEL(m, "%s\n", "Lower");
++			break;
++		case HAL_PRIME_CHNL_OFFSET_UPPER:
++			RTW_PRINT_SEL(m, "%s\n", "Upper");
++			break;
++		}
++
++		RTW_PRINT_SEL(m, "%-*s = ", SpaceBtwnItemAndValue, "Bandwidth Mode");
++		switch (pmlmeext->cur_bwmode) {
++		case CHANNEL_WIDTH_20:
++			RTW_PRINT_SEL(m, "%s\n", "20MHz");
++			break;
++		case CHANNEL_WIDTH_40:
++			RTW_PRINT_SEL(m, "%s\n", "40MHz");
++			break;
++		case CHANNEL_WIDTH_80:
++			RTW_PRINT_SEL(m, "%s\n", "80MHz");
++			break;
++		case CHANNEL_WIDTH_160:
++			RTW_PRINT_SEL(m, "%s\n", "160MHz");
++			break;
++		case CHANNEL_WIDTH_80_80:
++			RTW_PRINT_SEL(m, "%s\n", "80MHz + 80MHz");
++			break;
++		}
++	} else
++		RTW_PRINT_SEL(m, "No association with AP/GO exists!\n");
++
++	return 0;
++}
++
++static int proc_tdls_display_tdls_sta_info(struct seq_file *m)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct sta_info *psta;
++	int i = 0, j = 0;
++	_irqL irqL;
++	_list	*plist, *phead;
++	u8 SpaceBtwnItemAndValue = TDLS_DBG_INFO_SPACE_BTWN_ITEM_AND_VALUE;
++	u8 SpaceBtwnItemAndValueTmp = 0;
++	u8 NumOfTdlsStaToShow = 0;
++	BOOLEAN FirstMatchFound = _FALSE;
++
++	/* Search for TDLS sta info to display */
++	_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++	for (i = 0; i < NUM_STA; i++) {
++		phead = &(pstapriv->sta_hash[i]);
++		plist = get_next(phead);
++		while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++			psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++			plist = get_next(plist);
++			if (psta->tdls_sta_state != TDLS_STATE_NONE) {
++				/* We got one TDLS sta info to show */
++				RTW_PRINT_SEL(m, "============[TDLS Peer STA Info: STA %d]============\n", ++NumOfTdlsStaToShow);
++				RTW_PRINT_SEL(m, "%-*s = "MAC_FMT"\n", SpaceBtwnItemAndValue, "Mac Address", MAC_ARG(psta->hwaddr));
++				RTW_PRINT_SEL(m, "%-*s =", SpaceBtwnItemAndValue, "TDLS STA State");
++				SpaceBtwnItemAndValueTmp = 0;
++				FirstMatchFound = _FALSE;
++				for (j = 0; j < 32; j++) {
++					if (psta->tdls_sta_state & BIT(j)) {
++						if (FirstMatchFound ==  _FALSE) {
++							SpaceBtwnItemAndValueTmp = 1;
++							FirstMatchFound = _TRUE;
++						} else
++							SpaceBtwnItemAndValueTmp = SpaceBtwnItemAndValue + 3;
++						switch (BIT(j)) {
++						case TDLS_INITIATOR_STATE:
++							RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_INITIATOR_STATE");
++							break;
++						case TDLS_RESPONDER_STATE:
++							RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_RESPONDER_STATE");
++							break;
++						case TDLS_LINKED_STATE:
++							RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_LINKED_STATE");
++							break;
++						case TDLS_WAIT_PTR_STATE:
++							RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_WAIT_PTR_STATE");
++							break;
++						case TDLS_ALIVE_STATE:
++							RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_ALIVE_STATE");
++							break;
++						case TDLS_CH_SWITCH_ON_STATE:
++							RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_CH_SWITCH_ON_STATE");
++							break;
++						case TDLS_PEER_AT_OFF_STATE:
++							RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_PEER_AT_OFF_STATE");
++							break;
++						case TDLS_CH_SW_INITIATOR_STATE:
++							RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_CH_SW_INITIATOR_STATE");
++							break;
++						case TDLS_WAIT_CH_RSP_STATE:
++							RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValue, " ", "TDLS_WAIT_CH_RSP_STATE");
++							break;
++						default:
++							RTW_PRINT_SEL(m, "%-*sBIT(%d)\n", SpaceBtwnItemAndValueTmp, " ", j);
++							break;
++						}
++					}
++				}
++
++				RTW_PRINT_SEL(m, "%-*s = ", SpaceBtwnItemAndValue, "Wireless Mode");
++				for (j = 0; j < 8; j++) {
++					if (psta->wireless_mode & BIT(j)) {
++						switch (BIT(j)) {
++						case WIRELESS_11B:
++							RTW_PRINT_SEL(m, "%4s", "11B ");
++							break;
++						case WIRELESS_11G:
++							RTW_PRINT_SEL(m, "%4s", "11G ");
++							break;
++						case WIRELESS_11A:
++							RTW_PRINT_SEL(m, "%4s", "11A ");
++							break;
++						case WIRELESS_11_24N:
++							RTW_PRINT_SEL(m, "%7s", "11_24N ");
++							break;
++						case WIRELESS_11_5N:
++							RTW_PRINT_SEL(m, "%6s", "11_5N ");
++							break;
++						case WIRELESS_AUTO:
++							RTW_PRINT_SEL(m, "%5s", "AUTO ");
++							break;
++						case WIRELESS_11AC:
++							RTW_PRINT_SEL(m, "%5s", "11AC ");
++							break;
++						}
++					}
++				}
++				RTW_PRINT_SEL(m, "\n");
++
++				RTW_PRINT_SEL(m, "%-*s = ", SpaceBtwnItemAndValue, "Bandwidth Mode");
++				switch (psta->bw_mode) {
++				case CHANNEL_WIDTH_20:
++					RTW_PRINT_SEL(m, "%s\n", "20MHz");
++					break;
++				case CHANNEL_WIDTH_40:
++					RTW_PRINT_SEL(m, "%s\n", "40MHz");
++					break;
++				case CHANNEL_WIDTH_80:
++					RTW_PRINT_SEL(m, "%s\n", "80MHz");
++					break;
++				case CHANNEL_WIDTH_160:
++					RTW_PRINT_SEL(m, "%s\n", "160MHz");
++					break;
++				case CHANNEL_WIDTH_80_80:
++					RTW_PRINT_SEL(m, "%s\n", "80MHz + 80MHz");
++					break;
++				}
++
++				RTW_PRINT_SEL(m, "%-*s = ", SpaceBtwnItemAndValue, "Privacy");
++				switch (psta->dot118021XPrivacy) {
++				case _NO_PRIVACY_:
++					RTW_PRINT_SEL(m, "%s\n", "NO PRIVACY");
++					break;
++				case _WEP40_:
++					RTW_PRINT_SEL(m, "%s\n", "WEP 40");
++					break;
++				case _TKIP_:
++					RTW_PRINT_SEL(m, "%s\n", "TKIP");
++					break;
++				case _TKIP_WTMIC_:
++					RTW_PRINT_SEL(m, "%s\n", "TKIP WTMIC");
++					break;
++				case _AES_:
++					RTW_PRINT_SEL(m, "%s\n", "AES");
++					break;
++				case _WEP104_:
++					RTW_PRINT_SEL(m, "%s\n", "WEP 104");
++					break;
++				case _WEP_WPA_MIXED_:
++					RTW_PRINT_SEL(m, "%s\n", "WEP/WPA Mixed");
++					break;
++				case _SMS4_:
++					RTW_PRINT_SEL(m, "%s\n", "SMS4");
++					break;
++#ifdef CONFIG_IEEE80211W
++				case _BIP_:
++					RTW_PRINT_SEL(m, "%s\n", "BIP");
++					break;
++#endif /* CONFIG_IEEE80211W */
++				}
++
++				RTW_PRINT_SEL(m, "%-*s = %d sec/%d sec\n", SpaceBtwnItemAndValue, "TPK Lifetime (Current/Expire)", psta->TPK_count, psta->TDLS_PeerKey_Lifetime);
++				RTW_PRINT_SEL(m, "%-*s = %llu\n", SpaceBtwnItemAndValue, "Tx Packets Over Direct Link", psta->sta_stats.tx_pkts);
++				RTW_PRINT_SEL(m, "%-*s = %llu\n", SpaceBtwnItemAndValue, "Rx Packets Over Direct Link", psta->sta_stats.rx_data_pkts);
++			}
++		}
++	}
++	_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++	if (NumOfTdlsStaToShow == 0) {
++		RTW_PRINT_SEL(m, "============[TDLS Peer STA Info]============\n");
++		RTW_PRINT_SEL(m, "No TDLS direct link exists!\n");
++	}
++
++	return 0;
++}
++
++int proc_get_tdls_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct wlan_network *cur_network = &(pmlmepriv->cur_network);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct sta_info *psta;
++	int i = 0, j = 0;
++	_irqL irqL;
++	_list	*plist, *phead;
++	u8 SpaceBtwnItemAndValue = 41;
++	u8 SpaceBtwnItemAndValueTmp = 0;
++	u8 NumOfTdlsStaToShow = 0;
++	BOOLEAN FirstMatchFound = _FALSE;
++
++	if (hal_chk_wl_func(padapter, WL_FUNC_TDLS) == _FALSE) {
++		RTW_PRINT_SEL(m, "No tdls info can be shown since hal doesn't support tdls\n");
++		return 0;
++	}
++
++	proc_tdls_display_tdls_function_info(m);
++	proc_tdls_display_network_info(m);
++	proc_tdls_display_tdls_sta_info(m);
++
++	return 0;
++}
++#endif
++
++int proc_get_monitor(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	if (WIFI_MONITOR_STATE == get_fwstate(pmlmepriv)) {
++		RTW_PRINT_SEL(m, "Monitor mode : Enable\n");
++
++		RTW_PRINT_SEL(m, "ch=%d, ch_offset=%d, bw=%d\n",
++			rtw_get_oper_ch(padapter), rtw_get_oper_choffset(padapter), rtw_get_oper_bw(padapter));
++	} else
++		RTW_PRINT_SEL(m, "Monitor mode : Disable\n");
++
++	return 0;
++}
++
++ssize_t proc_set_monitor(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	char tmp[32];
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 target_chan, target_offset, target_bw;
++
++	if (count < 3) {
++		RTW_INFO("argument size is less than 3\n");
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%hhu %hhu %hhu", &target_chan, &target_offset, &target_bw);
++
++		if (num != 3) {
++			RTW_INFO("invalid write_reg parameter!\n");
++			return count;
++		}
++
++		padapter->mlmeextpriv.cur_channel  = target_chan;
++		set_channel_bwmode(padapter, target_chan, target_offset, target_bw);
++	}
++
++	return count;
++}
++
++#include <hal_data.h>
++int proc_get_efuse_map(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++	struct pwrctrl_priv *pwrctrlpriv  = adapter_to_pwrctl(padapter);
++	PEFUSE_HAL pEfuseHal = &pHalData->EfuseHal;
++	int i, j;
++	u8 ips_mode = IPS_NUM;
++	u16 mapLen;
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (void *)&mapLen, _FALSE);
++	if (mapLen > EFUSE_MAX_MAP_LEN)
++		mapLen = EFUSE_MAX_MAP_LEN;
++
++	ips_mode = pwrctrlpriv->ips_mode;
++	rtw_pm_set_ips(padapter, IPS_NONE);
++
++	if (pHalData->efuse_file_status == EFUSE_FILE_LOADED) {
++		RTW_PRINT_SEL(m, "File eFuse Map loaded! file path:%s\nDriver eFuse Map From File\n", EFUSE_MAP_PATH);
++		if (pHalData->bautoload_fail_flag)
++			RTW_PRINT_SEL(m, "File Autoload fail!!!\n");
++	} else if (pHalData->efuse_file_status ==  EFUSE_FILE_FAILED) {
++		RTW_PRINT_SEL(m, "Open File eFuse Map Fail ! file path:%s\nDriver eFuse Map From Default\n", EFUSE_MAP_PATH);
++		if (pHalData->bautoload_fail_flag)
++			RTW_PRINT_SEL(m, "HW Autoload fail!!!\n");
++	} else {
++		RTW_PRINT_SEL(m, "Driver eFuse Map From HW\n");
++		if (pHalData->bautoload_fail_flag)
++			RTW_PRINT_SEL(m, "HW Autoload fail!!!\n");
++	}
++	for (i = 0; i < mapLen; i += 16) {
++		RTW_PRINT_SEL(m, "0x%02x\t", i);
++		for (j = 0; j < 8; j++)
++			RTW_PRINT_SEL(m, "%02X ", pHalData->efuse_eeprom_data[i + j]);
++		RTW_PRINT_SEL(m, "\t");
++		for (; j < 16; j++)
++			RTW_PRINT_SEL(m, "%02X ", pHalData->efuse_eeprom_data[i + j]);
++		RTW_PRINT_SEL(m, "\n");
++	}
++
++	if (rtw_efuse_map_read(padapter, 0, mapLen, pEfuseHal->fakeEfuseInitMap) == _FAIL) {
++		RTW_PRINT_SEL(m, "WARN - Read Realmap Failed\n");
++		return 0;
++	}
++
++	RTW_PRINT_SEL(m, "\n");
++	RTW_PRINT_SEL(m, "HW eFuse Map\n");
++	for (i = 0; i < mapLen; i += 16) {
++		RTW_PRINT_SEL(m, "0x%02x\t", i);
++		for (j = 0; j < 8; j++)
++			RTW_PRINT_SEL(m, "%02X ", pEfuseHal->fakeEfuseInitMap[i + j]);
++		RTW_PRINT_SEL(m, "\t");
++		for (; j < 16; j++)
++			RTW_PRINT_SEL(m, "%02X ", pEfuseHal->fakeEfuseInitMap[i + j]);
++		RTW_PRINT_SEL(m, "\n");
++	}
++
++	rtw_pm_set_ips(padapter, ips_mode);
++
++	return 0;
++}
++
++ssize_t proc_set_efuse_map(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++#if 0
++	char tmp[256] = {0};
++	u32 addr, cnts;
++	u8 efuse_data;
++
++	int jj, kk;
++
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrctrlpriv  = adapter_to_pwrctl(padapter);
++	u8 ips_mode = IPS_NUM;
++
++	if (count < 3) {
++		RTW_INFO("argument size is less than 3\n");
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%x %d %x", &addr, &cnts, &efuse_data);
++
++		if (num != 3) {
++			RTW_INFO("invalid write_reg parameter!\n");
++			return count;
++		}
++	}
++	ips_mode = pwrctrlpriv->ips_mode;
++	rtw_pm_set_ips(padapter, IPS_NONE);
++	if (rtw_efuse_map_write(padapter, addr, cnts, &efuse_data) == _FAIL)
++		RTW_INFO("WARN - rtw_efuse_map_write error!!\n");
++	rtw_pm_set_ips(padapter, ips_mode);
++#endif
++	return count;
++}
++
++#ifdef CONFIG_IEEE80211W
++ssize_t proc_set_tx_sa_query(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	struct sta_info *psta;
++	_list	*plist, *phead;
++	_irqL	 irqL;
++	char tmp[16];
++	u8	mac_addr[NUM_STA][ETH_ALEN];
++	u32 key_type;
++	u8 index;
++
++	if (count > 2) {
++		RTW_INFO("argument size is more than 2\n");
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, sizeof(tmp))) {
++
++		int num = sscanf(tmp, "%x", &key_type);
++
++		if (num !=  1) {
++			RTW_INFO("invalid read_reg parameter!\n");
++			return count;
++		}
++		RTW_INFO("0: set sa query request , key_type=%d\n", key_type);
++	}
++
++	if ((check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++	    && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) && padapter->securitypriv.binstallBIPkey == _TRUE) {
++		RTW_INFO("STA:"MAC_FMT"\n", MAC_ARG(get_my_bssid(&(pmlmeinfo->network))));
++		/* TX unicast sa_query to AP */
++		issue_action_SA_Query(padapter, get_my_bssid(&(pmlmeinfo->network)), 0, 0, (u8)key_type);
++	} else if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE && padapter->securitypriv.binstallBIPkey == _TRUE) {
++		/* TX unicast sa_query to every client STA */
++		_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++		for (index = 0; index < NUM_STA; index++) {
++			psta = NULL;
++
++			phead = &(pstapriv->sta_hash[index]);
++			plist = get_next(phead);
++
++			while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++				psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++				plist = get_next(plist);
++				_rtw_memcpy(&mac_addr[psta->mac_id][0], psta->hwaddr, ETH_ALEN);
++			}
++		}
++		_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++		for (index = 0; index < macid_ctl->num && index < NUM_STA; index++) {
++			if (rtw_macid_is_used(macid_ctl, index) && !rtw_macid_is_bmc(macid_ctl, index)) {
++				if (!_rtw_memcmp(get_my_bssid(&(pmlmeinfo->network)), &mac_addr[index][0], ETH_ALEN)
++				    && !IS_MCAST(&mac_addr[index][0])) {
++					issue_action_SA_Query(padapter, &mac_addr[index][0], 0, 0, (u8)key_type);
++					RTW_INFO("STA[%u]:"MAC_FMT"\n", index , MAC_ARG(&mac_addr[index][0]));
++				}
++			}
++		}
++	}
++
++	return count;
++}
++
++int proc_get_tx_sa_query(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT_SEL(m, "%s\n", __func__);
++	return 0;
++}
++
++ssize_t proc_set_tx_deauth(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	struct sta_info *psta;
++	_list	*plist, *phead;
++	_irqL	 irqL;
++	char tmp[16];
++	u8	mac_addr[NUM_STA][ETH_ALEN];
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u32 key_type;
++	u8 index;
++
++
++	if (count > 2) {
++		RTW_INFO("argument size is more than 2\n");
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, sizeof(tmp))) {
++
++		int num = sscanf(tmp, "%x", &key_type);
++
++		if (num !=  1) {
++			RTW_INFO("invalid read_reg parameter!\n");
++			return count;
++		}
++		RTW_INFO("key_type=%d\n", key_type);
++	}
++	if (key_type < 0 || key_type > 4)
++		return count;
++
++	if ((check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++	    && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)) {
++		if (key_type == 3) /* key_type 3 only for AP mode */
++			return count;
++		/* TX unicast deauth to AP */
++		issue_deauth_11w(padapter, get_my_bssid(&(pmlmeinfo->network)), 0, (u8)key_type);
++	} else if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++
++		if (key_type == 3)
++			issue_deauth_11w(padapter, bc_addr, 0, IEEE80211W_RIGHT_KEY);
++
++		/* TX unicast deauth to every client STA */
++		_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++		for (index = 0; index < NUM_STA; index++) {
++			psta = NULL;
++
++			phead = &(pstapriv->sta_hash[index]);
++			plist = get_next(phead);
++
++			while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++				psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++				plist = get_next(plist);
++				_rtw_memcpy(&mac_addr[psta->mac_id][0], psta->hwaddr, ETH_ALEN);
++			}
++		}
++		_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++		for (index = 0; index < macid_ctl->num && index < NUM_STA; index++) {
++			if (rtw_macid_is_used(macid_ctl, index) && !rtw_macid_is_bmc(macid_ctl, index)) {
++				if (!_rtw_memcmp(get_my_bssid(&(pmlmeinfo->network)), &mac_addr[index][0], ETH_ALEN)) {
++					if (key_type != 3)
++						issue_deauth_11w(padapter, &mac_addr[index][0], 0, (u8)key_type);
++
++					psta = rtw_get_stainfo(pstapriv, &mac_addr[index][0]);
++					if (psta && key_type != IEEE80211W_WRONG_KEY && key_type != IEEE80211W_NO_KEY) {
++						u8 updated = _FALSE;
++
++						_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++						if (rtw_is_list_empty(&psta->asoc_list) == _FALSE) {
++							rtw_list_delete(&psta->asoc_list);
++							pstapriv->asoc_list_cnt--;
++							updated = ap_free_sta(padapter, psta, _FALSE, WLAN_REASON_PREV_AUTH_NOT_VALID, _TRUE);
++
++						}
++						_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++						associated_clients_update(padapter, updated, STA_INFO_UPDATE_ALL);
++					}
++
++					RTW_INFO("STA[%u]:"MAC_FMT"\n", index , MAC_ARG(&mac_addr[index][0]));
++				}
++			}
++		}
++	}
++
++	return count;
++}
++
++int proc_get_tx_deauth(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT_SEL(m, "%s\n", __func__);
++	return 0;
++}
++
++ssize_t proc_set_tx_auth(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	struct sta_info *psta;
++	_list	*plist, *phead;
++	_irqL	 irqL;
++	char tmp[16];
++	u8	mac_addr[NUM_STA][ETH_ALEN];
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u32 tx_auth;
++	u8 index;
++
++
++	if (count > 2) {
++		RTW_INFO("argument size is more than 2\n");
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, sizeof(tmp))) {
++
++		int num = sscanf(tmp, "%x", &tx_auth);
++
++		if (num !=  1) {
++			RTW_INFO("invalid read_reg parameter!\n");
++			return count;
++		}
++		RTW_INFO("1: setnd auth, 2: send assoc request. tx_auth=%d\n", tx_auth);
++	}
++
++	if ((check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++	    && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)) {
++		if (tx_auth == 1) {
++			/* TX unicast auth to AP */
++			issue_auth(padapter, NULL, 0);
++		} else if (tx_auth == 2) {
++			/* TX unicast auth to AP */
++			issue_assocreq(padapter);
++		}
++	}
++
++	return count;
++}
++
++int proc_get_tx_auth(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT_SEL(m, "%s\n", __func__);
++	return 0;
++}
++#endif /* CONFIG_IEEE80211W */
++
++#ifdef CONFIG_MCC_MODE
++int proc_get_mcc_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_adapters_status(m, adapter_to_dvobj(adapter));
++	rtw_hal_dump_mcc_info(m, adapter_to_dvobj(adapter));
++	return 0;
++}
++
++ssize_t proc_set_mcc_enable(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[255];
++	u32 en_mcc = 0;
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is too large\n", FUNC_ADPT_ARG(padapter));
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++		_adapter *iface = NULL;
++		u8 i = 0;
++		int num = sscanf(tmp, "%u", &en_mcc);
++
++		if (num < 1) {
++			RTW_INFO(FUNC_ADPT_FMT ": input parameters < 1\n", FUNC_ADPT_ARG(padapter));
++			return -EINVAL;
++		}
++
++		RTW_INFO("%s: en_mcc = %d\n", __func__, en_mcc);
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if (!iface)
++				continue;
++			iface->registrypriv.en_mcc = en_mcc;
++		}
++	}
++
++	return count;
++}
++
++ssize_t proc_set_mcc_single_tx_criteria(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[255];
++	u32 mcc_single_tx_criteria = 0;
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is too large\n", FUNC_ADPT_ARG(padapter));
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++		_adapter *iface = NULL;
++		u8 i = 0;
++		int num = sscanf(tmp, "%u", &mcc_single_tx_criteria);
++
++		if (num < 1) {
++			RTW_INFO(FUNC_ADPT_FMT ": input parameters < 1\n", FUNC_ADPT_ARG(padapter));
++			return -EINVAL;
++		}
++
++		RTW_INFO("%s: mcc_single_tx_criteria = %d\n", __func__, mcc_single_tx_criteria);
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if (!iface)
++				continue;
++			iface->registrypriv.rtw_mcc_single_tx_cri = mcc_single_tx_criteria;
++		}
++
++
++	}
++
++	return count;
++}
++
++
++ssize_t proc_set_mcc_ap_bw20_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[255];
++	u32 mcc_ap_bw20_target_tp = 0;
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is too large\n", FUNC_ADPT_ARG(padapter));
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%u", &mcc_ap_bw20_target_tp);
++
++		if (num < 1) {
++			RTW_INFO(FUNC_ADPT_FMT ": input parameters < 1\n", FUNC_ADPT_ARG(padapter));
++			return -EINVAL;
++		}
++
++		RTW_INFO("%s: mcc_ap_bw20_target_tp = %d\n", __func__, mcc_ap_bw20_target_tp);
++
++		padapter->registrypriv.rtw_mcc_ap_bw20_target_tx_tp = mcc_ap_bw20_target_tp;
++
++
++	}
++
++	return count;
++}
++
++ssize_t proc_set_mcc_ap_bw40_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[255];
++	u32 mcc_ap_bw40_target_tp = 0;
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is too large\n", FUNC_ADPT_ARG(padapter));
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%u", &mcc_ap_bw40_target_tp);
++
++		if (num < 1) {
++			RTW_INFO(FUNC_ADPT_FMT ": input parameters < 1\n", FUNC_ADPT_ARG(padapter));
++			return -EINVAL;
++		}
++
++		RTW_INFO("%s: mcc_ap_bw40_target_tp = %d\n", __func__, mcc_ap_bw40_target_tp);
++
++		padapter->registrypriv.rtw_mcc_ap_bw40_target_tx_tp = mcc_ap_bw40_target_tp;
++
++
++	}
++
++	return count;
++}
++
++ssize_t proc_set_mcc_ap_bw80_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[255];
++	u32 mcc_ap_bw80_target_tp = 0;
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is too large\n", FUNC_ADPT_ARG(padapter));
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%u", &mcc_ap_bw80_target_tp);
++
++		if (num < 1) {
++			RTW_INFO(FUNC_ADPT_FMT ": input parameters < 1\n", FUNC_ADPT_ARG(padapter));
++			return -EINVAL;
++		}
++
++		RTW_INFO("%s: mcc_ap_bw80_target_tp = %d\n", __func__, mcc_ap_bw80_target_tp);
++
++		padapter->registrypriv.rtw_mcc_ap_bw80_target_tx_tp = mcc_ap_bw80_target_tp;
++
++
++	}
++
++	return count;
++}
++
++ssize_t proc_set_mcc_sta_bw20_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[255];
++	u32 mcc_sta_bw20_target_tp = 0;
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is too large\n", FUNC_ADPT_ARG(padapter));
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%u", &mcc_sta_bw20_target_tp);
++
++		if (num < 1) {
++			RTW_INFO(FUNC_ADPT_FMT ": input parameters < 1\n", FUNC_ADPT_ARG(padapter));
++			return -EINVAL;
++		}
++
++		RTW_INFO("%s: mcc_sta_bw20_target_tp = %d\n", __func__, mcc_sta_bw20_target_tp);
++
++		padapter->registrypriv.rtw_mcc_sta_bw20_target_tx_tp = mcc_sta_bw20_target_tp;
++
++
++	}
++
++	return count;
++}
++
++ssize_t proc_set_mcc_sta_bw40_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[255];
++	u32 mcc_sta_bw40_target_tp = 0;
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is too large\n", FUNC_ADPT_ARG(padapter));
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%u", &mcc_sta_bw40_target_tp);
++
++		if (num < 1) {
++			RTW_INFO(FUNC_ADPT_FMT ": input parameters < 1\n", FUNC_ADPT_ARG(padapter));
++			return -EINVAL;
++		}
++
++		RTW_INFO("%s: mcc_sta_bw40_target_tp = %d\n", __func__, mcc_sta_bw40_target_tp);
++
++		padapter->registrypriv.rtw_mcc_sta_bw40_target_tx_tp = mcc_sta_bw40_target_tp;
++
++
++	}
++
++	return count;
++}
++
++ssize_t proc_set_mcc_sta_bw80_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[255];
++	u32 mcc_sta_bw80_target_tp = 0;
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is too large\n", FUNC_ADPT_ARG(padapter));
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%u", &mcc_sta_bw80_target_tp);
++
++		if (num < 1) {
++			RTW_INFO(FUNC_ADPT_FMT ": input parameters < 1\n", FUNC_ADPT_ARG(padapter));
++			return -EINVAL;
++		}
++
++		RTW_INFO("%s: mcc_sta_bw80_target_tp = %d\n", __func__, mcc_sta_bw80_target_tp);
++
++		padapter->registrypriv.rtw_mcc_sta_bw80_target_tx_tp = mcc_sta_bw80_target_tp;
++
++
++	}
++
++	return count;
++}
++#endif /* CONFIG_MCC_MODE */
++
++#endif /* CONFIG_PROC_DEBUG */
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_eeprom.c b/drivers/net/wireless/rtl8723du/core/rtw_eeprom.c
+new file mode 100644
+index 0000000..d7bca03
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_eeprom.c
+@@ -0,0 +1,374 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_EEPROM_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++void up_clk(_adapter	*padapter,	 u16 *x)
++{
++	*x = *x | _EESK;
++	rtw_write8(padapter, EE_9346CR, (u8)*x);
++	rtw_udelay_os(CLOCK_RATE);
++
++
++}
++
++void down_clk(_adapter	*padapter, u16 *x)
++{
++	*x = *x & ~_EESK;
++	rtw_write8(padapter, EE_9346CR, (u8)*x);
++	rtw_udelay_os(CLOCK_RATE);
++}
++
++void shift_out_bits(_adapter *padapter, u16 data, u16 count)
++{
++	u16 x, mask;
++
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++	mask = 0x01 << (count - 1);
++	x = rtw_read8(padapter, EE_9346CR);
++
++	x &= ~(_EEDO | _EEDI);
++
++	do {
++		x &= ~_EEDI;
++		if (data & mask)
++			x |= _EEDI;
++		if (rtw_is_surprise_removed(padapter)) {
++			goto out;
++		}
++		rtw_write8(padapter, EE_9346CR, (u8)x);
++		rtw_udelay_os(CLOCK_RATE);
++		up_clk(padapter, &x);
++		down_clk(padapter, &x);
++		mask = mask >> 1;
++	} while (mask);
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++	x &= ~_EEDI;
++	rtw_write8(padapter, EE_9346CR, (u8)x);
++out:
++	return;
++}
++
++u16 shift_in_bits(_adapter *padapter)
++{
++	u16 x, d = 0, i;
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++	x = rtw_read8(padapter, EE_9346CR);
++
++	x &= ~(_EEDO | _EEDI);
++	d = 0;
++
++	for (i = 0; i < 16; i++) {
++		d = d << 1;
++		up_clk(padapter, &x);
++		if (rtw_is_surprise_removed(padapter)) {
++			goto out;
++		}
++		x = rtw_read8(padapter, EE_9346CR);
++
++		x &= ~(_EEDI);
++		if (x & _EEDO)
++			d |= 1;
++
++		down_clk(padapter, &x);
++	}
++out:
++
++	return d;
++}
++
++void standby(_adapter	*padapter)
++{
++	u8   x;
++	x = rtw_read8(padapter, EE_9346CR);
++
++	x &= ~(_EECS | _EESK);
++	rtw_write8(padapter, EE_9346CR, x);
++
++	rtw_udelay_os(CLOCK_RATE);
++	x |= _EECS;
++	rtw_write8(padapter, EE_9346CR, x);
++	rtw_udelay_os(CLOCK_RATE);
++}
++
++u16 wait_eeprom_cmd_done(_adapter *padapter)
++{
++	u8	x;
++	u16	i, res = _FALSE;
++	standby(padapter);
++	for (i = 0; i < 200; i++) {
++		x = rtw_read8(padapter, EE_9346CR);
++		if (x & _EEDO) {
++			res = _TRUE;
++			goto exit;
++		}
++		rtw_udelay_os(CLOCK_RATE);
++	}
++exit:
++	return res;
++}
++
++void eeprom_clean(_adapter *padapter)
++{
++	u16 x;
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++	x = rtw_read8(padapter, EE_9346CR);
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++	x &= ~(_EECS | _EEDI);
++	rtw_write8(padapter, EE_9346CR, (u8)x);
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++	up_clk(padapter, &x);
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++	down_clk(padapter, &x);
++out:
++	return;
++}
++
++void eeprom_write16(_adapter *padapter, u16 reg, u16 data)
++{
++	u8 x;
++#ifdef CONFIG_RTL8712
++	u8	tmp8_ori, tmp8_new, tmp8_clk_ori, tmp8_clk_new;
++	tmp8_ori = rtw_read8(padapter, 0x102502f1);
++	tmp8_new = tmp8_ori & 0xf7;
++	if (tmp8_ori != tmp8_new) {
++		rtw_write8(padapter, 0x102502f1, tmp8_new);
++	}
++	tmp8_clk_ori = rtw_read8(padapter, 0x10250003);
++	tmp8_clk_new = tmp8_clk_ori | 0x20;
++	if (tmp8_clk_new != tmp8_clk_ori) {
++		rtw_write8(padapter, 0x10250003, tmp8_clk_new);
++	}
++#endif
++
++	x = rtw_read8(padapter, EE_9346CR);
++
++	x &= ~(_EEDI | _EEDO | _EESK | _EEM0);
++	x |= _EEM1 | _EECS;
++	rtw_write8(padapter, EE_9346CR, x);
++
++	shift_out_bits(padapter, EEPROM_EWEN_OPCODE, 5);
++
++	if (padapter->EepromAddressSize == 8)	/* CF+ and SDIO */
++		shift_out_bits(padapter, 0, 6);
++	else									/* USB */
++		shift_out_bits(padapter, 0, 4);
++
++	standby(padapter);
++
++	/* Commented out by rcnjko, 2004.0
++	 * 	  Erase this particular word.  Write the erase opcode and register
++	 *    number in that order. The opcode is 3bits in length; reg is 6 bits long. */
++/*	shift_out_bits(Adapter, EEPROM_ERASE_OPCODE, 3);
++ *	shift_out_bits(Adapter, reg, Adapter->EepromAddressSize);
++ *
++ *	if (wait_eeprom_cmd_done(Adapter ) == FALSE)
++ *	{
++ *		return;
++ *	} */
++
++
++	standby(padapter);
++
++	/* write the new word to the EEPROM */
++
++	/* send the write opcode the EEPORM */
++	shift_out_bits(padapter, EEPROM_WRITE_OPCODE, 3);
++
++	/* select which word in the EEPROM that we are writing to. */
++	shift_out_bits(padapter, reg, padapter->EepromAddressSize);
++
++	/* write the data to the selected EEPROM word. */
++	shift_out_bits(padapter, data, 16);
++
++	if (wait_eeprom_cmd_done(padapter) == _FALSE)
++
++		goto exit;
++
++	standby(padapter);
++
++	shift_out_bits(padapter, EEPROM_EWDS_OPCODE, 5);
++	shift_out_bits(padapter, reg, 4);
++
++	eeprom_clean(padapter);
++exit:
++#ifdef CONFIG_RTL8712
++	if (tmp8_clk_new != tmp8_clk_ori)
++		rtw_write8(padapter, 0x10250003, tmp8_clk_ori);
++	if (tmp8_new != tmp8_ori)
++		rtw_write8(padapter, 0x102502f1, tmp8_ori);
++
++#endif
++	return;
++}
++
++u16 eeprom_read16(_adapter *padapter, u16 reg)  /* ReadEEprom */
++{
++
++	u16 x;
++	u16 data = 0;
++#ifdef CONFIG_RTL8712
++	u8	tmp8_ori, tmp8_new, tmp8_clk_ori, tmp8_clk_new;
++	tmp8_ori = rtw_read8(padapter, 0x102502f1);
++	tmp8_new = tmp8_ori & 0xf7;
++	if (tmp8_ori != tmp8_new) {
++		rtw_write8(padapter, 0x102502f1, tmp8_new);
++	}
++	tmp8_clk_ori = rtw_read8(padapter, 0x10250003);
++	tmp8_clk_new = tmp8_clk_ori | 0x20;
++	if (tmp8_clk_new != tmp8_clk_ori) {
++		rtw_write8(padapter, 0x10250003, tmp8_clk_new);
++	}
++#endif
++
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++	/* select EEPROM, reset bits, set _EECS */
++	x = rtw_read8(padapter, EE_9346CR);
++
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++
++	x &= ~(_EEDI | _EEDO | _EESK | _EEM0);
++	x |= _EEM1 | _EECS;
++	rtw_write8(padapter, EE_9346CR, (unsigned char)x);
++
++	/* write the read opcode and register number in that order */
++	/* The opcode is 3bits in length, reg is 6 bits long */
++	shift_out_bits(padapter, EEPROM_READ_OPCODE, 3);
++	shift_out_bits(padapter, reg, padapter->EepromAddressSize);
++
++	/* Now read the data (16 bits) in from the selected EEPROM word */
++	data = shift_in_bits(padapter);
++
++	eeprom_clean(padapter);
++out:
++#ifdef CONFIG_RTL8712
++	if (tmp8_clk_new != tmp8_clk_ori)
++		rtw_write8(padapter, 0x10250003, tmp8_clk_ori);
++	if (tmp8_new != tmp8_ori)
++		rtw_write8(padapter, 0x102502f1, tmp8_ori);
++
++#endif
++	return data;
++
++
++}
++
++
++
++
++/* From even offset */
++void eeprom_read_sz(_adapter *padapter, u16 reg, u8 *data, u32 sz)
++{
++
++	u16 x, data16;
++	u32 i;
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++	/* select EEPROM, reset bits, set _EECS */
++	x = rtw_read8(padapter, EE_9346CR);
++
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++
++	x &= ~(_EEDI | _EEDO | _EESK | _EEM0);
++	x |= _EEM1 | _EECS;
++	rtw_write8(padapter, EE_9346CR, (unsigned char)x);
++
++	/* write the read opcode and register number in that order */
++	/* The opcode is 3bits in length, reg is 6 bits long */
++	shift_out_bits(padapter, EEPROM_READ_OPCODE, 3);
++	shift_out_bits(padapter, reg, padapter->EepromAddressSize);
++
++
++	for (i = 0; i < sz; i += 2) {
++		data16 = shift_in_bits(padapter);
++		data[i] = data16 & 0xff;
++		data[i + 1] = data16 >> 8;
++	}
++
++	eeprom_clean(padapter);
++out:
++	return;
++}
++
++
++/* addr_off : address offset of the entry in eeprom (not the tuple number of eeprom (reg); that is addr_off !=reg) */
++u8 eeprom_read(_adapter *padapter, u32 addr_off, u8 sz, u8 *rbuf)
++{
++	u8 quotient, remainder, addr_2align_odd;
++	u16 reg, stmp , i = 0, idx = 0;
++	reg = (u16)(addr_off >> 1);
++	addr_2align_odd = (u8)(addr_off & 0x1);
++
++	if (addr_2align_odd) { /* read that start at high part: e.g  1,3,5,7,9,... */
++		stmp = eeprom_read16(padapter, reg);
++		rbuf[idx++] = (u8)((stmp >> 8) & 0xff); /* return hogh-part of the short */
++		reg++;
++		sz--;
++	}
++
++	quotient = sz >> 1;
++	remainder = sz & 0x1;
++
++	for (i = 0 ; i < quotient; i++) {
++		stmp = eeprom_read16(padapter, reg + i);
++		rbuf[idx++] = (u8)(stmp & 0xff);
++		rbuf[idx++] = (u8)((stmp >> 8) & 0xff);
++	}
++
++	reg = reg + i;
++	if (remainder) { /* end of read at lower part of short : 0,2,4,6,... */
++		stmp = eeprom_read16(padapter, reg);
++		rbuf[idx] = (u8)(stmp & 0xff);
++	}
++	return _TRUE;
++}
++
++
++
++VOID read_eeprom_content(_adapter	*padapter)
++{
++
++
++
++}
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_ieee80211.c b/drivers/net/wireless/rtl8723du/core/rtw_ieee80211.c
+new file mode 100644
+index 0000000..8a76427
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_ieee80211.c
+@@ -0,0 +1,2706 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _IEEE80211_C
++
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++	#include <linux/fs.h>
++#endif
++#include <drv_types.h>
++
++
++u8 RTW_WPA_OUI_TYPE[] = { 0x00, 0x50, 0xf2, 1 };
++u16 RTW_WPA_VERSION = 1;
++u8 WPA_AUTH_KEY_MGMT_NONE[] = { 0x00, 0x50, 0xf2, 0 };
++u8 WPA_AUTH_KEY_MGMT_UNSPEC_802_1X[] = { 0x00, 0x50, 0xf2, 1 };
++u8 WPA_AUTH_KEY_MGMT_PSK_OVER_802_1X[] = { 0x00, 0x50, 0xf2, 2 };
++u8 WPA_CIPHER_SUITE_NONE[] = { 0x00, 0x50, 0xf2, 0 };
++u8 WPA_CIPHER_SUITE_WEP40[] = { 0x00, 0x50, 0xf2, 1 };
++u8 WPA_CIPHER_SUITE_TKIP[] = { 0x00, 0x50, 0xf2, 2 };
++u8 WPA_CIPHER_SUITE_WRAP[] = { 0x00, 0x50, 0xf2, 3 };
++u8 WPA_CIPHER_SUITE_CCMP[] = { 0x00, 0x50, 0xf2, 4 };
++u8 WPA_CIPHER_SUITE_WEP104[] = { 0x00, 0x50, 0xf2, 5 };
++
++u16 RSN_VERSION_BSD = 1;
++u8 RSN_AUTH_KEY_MGMT_UNSPEC_802_1X[] = { 0x00, 0x0f, 0xac, 1 };
++u8 RSN_AUTH_KEY_MGMT_PSK_OVER_802_1X[] = { 0x00, 0x0f, 0xac, 2 };
++u8 RSN_CIPHER_SUITE_NONE[] = { 0x00, 0x0f, 0xac, 0 };
++u8 RSN_CIPHER_SUITE_WEP40[] = { 0x00, 0x0f, 0xac, 1 };
++u8 RSN_CIPHER_SUITE_TKIP[] = { 0x00, 0x0f, 0xac, 2 };
++u8 RSN_CIPHER_SUITE_WRAP[] = { 0x00, 0x0f, 0xac, 3 };
++u8 RSN_CIPHER_SUITE_CCMP[] = { 0x00, 0x0f, 0xac, 4 };
++u8 RSN_CIPHER_SUITE_WEP104[] = { 0x00, 0x0f, 0xac, 5 };
++/* -----------------------------------------------------------
++ * for adhoc-master to generate ie and provide supported-rate to fw
++ * ----------------------------------------------------------- */
++
++static u8	WIFI_CCKRATES[] = {
++	(IEEE80211_CCK_RATE_1MB | IEEE80211_BASIC_RATE_MASK),
++	(IEEE80211_CCK_RATE_2MB | IEEE80211_BASIC_RATE_MASK),
++	(IEEE80211_CCK_RATE_5MB | IEEE80211_BASIC_RATE_MASK),
++	(IEEE80211_CCK_RATE_11MB | IEEE80211_BASIC_RATE_MASK)
++};
++
++static u8	WIFI_OFDMRATES[] = {
++	(IEEE80211_OFDM_RATE_6MB),
++	(IEEE80211_OFDM_RATE_9MB),
++	(IEEE80211_OFDM_RATE_12MB),
++	(IEEE80211_OFDM_RATE_18MB),
++	(IEEE80211_OFDM_RATE_24MB),
++	IEEE80211_OFDM_RATE_36MB,
++	IEEE80211_OFDM_RATE_48MB,
++	IEEE80211_OFDM_RATE_54MB
++};
++
++u8 mgn_rates_cck[4] = {MGN_1M, MGN_2M, MGN_5_5M, MGN_11M};
++u8 mgn_rates_ofdm[8] = {MGN_6M, MGN_9M, MGN_12M, MGN_18M, MGN_24M, MGN_36M, MGN_48M, MGN_54M};
++u8 mgn_rates_mcs0_7[8] = {MGN_MCS0, MGN_MCS1, MGN_MCS2, MGN_MCS3, MGN_MCS4, MGN_MCS5, MGN_MCS6, MGN_MCS7};
++u8 mgn_rates_mcs8_15[8] = {MGN_MCS8, MGN_MCS9, MGN_MCS10, MGN_MCS11, MGN_MCS12, MGN_MCS13, MGN_MCS14, MGN_MCS15};
++u8 mgn_rates_mcs16_23[8] = {MGN_MCS16, MGN_MCS17, MGN_MCS18, MGN_MCS19, MGN_MCS20, MGN_MCS21, MGN_MCS22, MGN_MCS23};
++u8 mgn_rates_mcs24_31[8] = {MGN_MCS24, MGN_MCS25, MGN_MCS26, MGN_MCS27, MGN_MCS28, MGN_MCS29, MGN_MCS30, MGN_MCS31};
++u8 mgn_rates_vht1ss[10] = {MGN_VHT1SS_MCS0, MGN_VHT1SS_MCS1, MGN_VHT1SS_MCS2, MGN_VHT1SS_MCS3, MGN_VHT1SS_MCS4
++	, MGN_VHT1SS_MCS5, MGN_VHT1SS_MCS6, MGN_VHT1SS_MCS7, MGN_VHT1SS_MCS8, MGN_VHT1SS_MCS9
++			  };
++u8 mgn_rates_vht2ss[10] = {MGN_VHT2SS_MCS0, MGN_VHT2SS_MCS1, MGN_VHT2SS_MCS2, MGN_VHT2SS_MCS3, MGN_VHT2SS_MCS4
++	, MGN_VHT2SS_MCS5, MGN_VHT2SS_MCS6, MGN_VHT2SS_MCS7, MGN_VHT2SS_MCS8, MGN_VHT2SS_MCS9
++			  };
++u8 mgn_rates_vht3ss[10] = {MGN_VHT3SS_MCS0, MGN_VHT3SS_MCS1, MGN_VHT3SS_MCS2, MGN_VHT3SS_MCS3, MGN_VHT3SS_MCS4
++	, MGN_VHT3SS_MCS5, MGN_VHT3SS_MCS6, MGN_VHT3SS_MCS7, MGN_VHT3SS_MCS8, MGN_VHT3SS_MCS9
++			  };
++u8 mgn_rates_vht4ss[10] = {MGN_VHT4SS_MCS0, MGN_VHT4SS_MCS1, MGN_VHT4SS_MCS2, MGN_VHT4SS_MCS3, MGN_VHT4SS_MCS4
++	, MGN_VHT4SS_MCS5, MGN_VHT4SS_MCS6, MGN_VHT4SS_MCS7, MGN_VHT4SS_MCS8, MGN_VHT4SS_MCS9
++			  };
++
++static const char *const _rate_section_str[] = {
++	"CCK",
++	"OFDM",
++	"HT_1SS",
++	"HT_2SS",
++	"HT_3SS",
++	"HT_4SS",
++	"VHT_1SS",
++	"VHT_2SS",
++	"VHT_3SS",
++	"VHT_4SS",
++	"RATE_SECTION_UNKNOWN",
++};
++
++const char *rate_section_str(u8 section)
++{
++	section = (section >= RATE_SECTION_NUM) ? RATE_SECTION_NUM : section;
++	return _rate_section_str[section];
++}
++
++struct rate_section_ent rates_by_sections[RATE_SECTION_NUM] = {
++	{RF_1TX, 4, mgn_rates_cck},
++	{RF_1TX, 8, mgn_rates_ofdm},
++	{RF_1TX, 8, mgn_rates_mcs0_7},
++	{RF_2TX, 8, mgn_rates_mcs8_15},
++	{RF_3TX, 8, mgn_rates_mcs16_23},
++	{RF_4TX, 8, mgn_rates_mcs24_31},
++	{RF_1TX, 10, mgn_rates_vht1ss},
++	{RF_2TX, 10, mgn_rates_vht2ss},
++	{RF_3TX, 10, mgn_rates_vht3ss},
++	{RF_4TX, 10, mgn_rates_vht4ss},
++};
++
++int rtw_get_bit_value_from_ieee_value(u8 val)
++{
++	unsigned char dot11_rate_table[] = {2, 4, 11, 22, 12, 18, 24, 36, 48, 72, 96, 108, 0}; /* last element must be zero!! */
++
++	int i = 0;
++	while (dot11_rate_table[i] != 0) {
++		if (dot11_rate_table[i] == val)
++			return BIT(i);
++		i++;
++	}
++	return 0;
++}
++
++uint	rtw_is_cckrates_included(u8 *rate)
++{
++	u32	i = 0;
++
++	while (rate[i] != 0) {
++		if ((((rate[i]) & 0x7f) == 2)	|| (((rate[i]) & 0x7f) == 4) ||
++		    (((rate[i]) & 0x7f) == 11)  || (((rate[i]) & 0x7f) == 22))
++			return _TRUE;
++		i++;
++	}
++
++	return _FALSE;
++}
++
++uint	rtw_is_cckratesonly_included(u8 *rate)
++{
++	u32 i = 0;
++
++
++	while (rate[i] != 0) {
++		if ((((rate[i]) & 0x7f) != 2) && (((rate[i]) & 0x7f) != 4) &&
++		    (((rate[i]) & 0x7f) != 11)  && (((rate[i]) & 0x7f) != 22))
++			return _FALSE;
++
++		i++;
++	}
++
++	return _TRUE;
++
++}
++
++int rtw_check_network_type(unsigned char *rate, int ratelen, int channel)
++{
++	if (channel > 14) {
++		if ((rtw_is_cckrates_included(rate)) == _TRUE)
++			return WIRELESS_INVALID;
++		else
++			return WIRELESS_11A;
++	} else { /* could be pure B, pure G, or B/G */
++		if ((rtw_is_cckratesonly_included(rate)) == _TRUE)
++			return WIRELESS_11B;
++		else if ((rtw_is_cckrates_included(rate)) == _TRUE)
++			return	WIRELESS_11BG;
++		else
++			return WIRELESS_11G;
++	}
++
++}
++
++u8 *rtw_set_fixed_ie(unsigned char *pbuf, unsigned int len, unsigned char *source,
++		     unsigned int *frlen)
++{
++	_rtw_memcpy((void *)pbuf, (void *)source, len);
++	*frlen = *frlen + len;
++	return pbuf + len;
++}
++
++/* rtw_set_ie will update frame length */
++u8 *rtw_set_ie
++(
++	u8 *pbuf,
++	sint index,
++	uint len,
++	u8 *source,
++	uint *frlen /* frame length */
++)
++{
++	*pbuf = (u8)index;
++
++	*(pbuf + 1) = (u8)len;
++
++	if (len > 0)
++		_rtw_memcpy((void *)(pbuf + 2), (void *)source, len);
++
++	*frlen = *frlen + (len + 2);
++
++	return pbuf + len + 2;
++}
++
++inline u8 *rtw_set_ie_ch_switch(u8 *buf, u32 *buf_len, u8 ch_switch_mode,
++				u8 new_ch, u8 ch_switch_cnt)
++{
++	u8 ie_data[3];
++
++	ie_data[0] = ch_switch_mode;
++	ie_data[1] = new_ch;
++	ie_data[2] = ch_switch_cnt;
++	return rtw_set_ie(buf, WLAN_EID_CHANNEL_SWITCH,  3, ie_data, buf_len);
++}
++
++inline u8 secondary_ch_offset_to_hal_ch_offset(u8 ch_offset)
++{
++	if (ch_offset == SCN)
++		return HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	else if (ch_offset == SCA)
++		return HAL_PRIME_CHNL_OFFSET_UPPER;
++	else if (ch_offset == SCB)
++		return HAL_PRIME_CHNL_OFFSET_LOWER;
++
++	return HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++}
++
++inline u8 hal_ch_offset_to_secondary_ch_offset(u8 ch_offset)
++{
++	if (ch_offset == HAL_PRIME_CHNL_OFFSET_DONT_CARE)
++		return SCN;
++	else if (ch_offset == HAL_PRIME_CHNL_OFFSET_LOWER)
++		return SCB;
++	else if (ch_offset == HAL_PRIME_CHNL_OFFSET_UPPER)
++		return SCA;
++
++	return SCN;
++}
++
++inline u8 *rtw_set_ie_secondary_ch_offset(u8 *buf, u32 *buf_len, u8 secondary_ch_offset)
++{
++	return rtw_set_ie(buf, WLAN_EID_SECONDARY_CHANNEL_OFFSET,  1, &secondary_ch_offset, buf_len);
++}
++
++inline u8 *rtw_set_ie_mesh_ch_switch_parm(u8 *buf, u32 *buf_len, u8 ttl,
++		u8 flags, u16 reason, u16 precedence)
++{
++	u8 ie_data[6];
++
++	ie_data[0] = ttl;
++	ie_data[1] = flags;
++	RTW_PUT_LE16((u8 *)&ie_data[2], reason);
++	RTW_PUT_LE16((u8 *)&ie_data[4], precedence);
++
++	return rtw_set_ie(buf, 0x118,  6, ie_data, buf_len);
++}
++
++/*----------------------------------------------------------------------------
++index: the information element id index, limit is the limit for search
++-----------------------------------------------------------------------------*/
++u8 *rtw_get_ie(u8 *pbuf, sint index, sint *len, sint limit)
++{
++	sint tmp, i;
++	u8 *p;
++	if (limit < 1) {
++		return NULL;
++	}
++
++	p = pbuf;
++	i = 0;
++	*len = 0;
++	while (1) {
++		if (*p == index) {
++			*len = *(p + 1);
++			return p;
++		} else {
++			tmp = *(p + 1);
++			p += (tmp + 2);
++			i += (tmp + 2);
++		}
++		if (i >= limit)
++			break;
++	}
++	return NULL;
++}
++
++/**
++ * rtw_get_ie_ex - Search specific IE from a series of IEs
++ * @in_ie: Address of IEs to search
++ * @in_len: Length limit from in_ie
++ * @eid: Element ID to match
++ * @oui: OUI to match
++ * @oui_len: OUI length
++ * @ie: If not NULL and the specific IE is found, the IE will be copied to the buf starting from the specific IE
++ * @ielen: If not NULL and the specific IE is found, will set to the length of the entire IE
++ *
++ * Returns: The address of the specific IE found, or NULL
++ */
++u8 *rtw_get_ie_ex(u8 *in_ie, uint in_len, u8 eid, u8 *oui, u8 oui_len, u8 *ie, uint *ielen)
++{
++	uint cnt;
++	u8 *target_ie = NULL;
++
++
++	if (ielen)
++		*ielen = 0;
++
++	if (!in_ie || in_len <= 0)
++		return target_ie;
++
++	cnt = 0;
++
++	while (cnt < in_len) {
++		if (eid == in_ie[cnt]
++		    && (!oui || _rtw_memcmp(&in_ie[cnt + 2], oui, oui_len) == _TRUE)) {
++			target_ie = &in_ie[cnt];
++
++			if (ie)
++				_rtw_memcpy(ie, &in_ie[cnt], in_ie[cnt + 1] + 2);
++
++			if (ielen)
++				*ielen = in_ie[cnt + 1] + 2;
++
++			break;
++		} else {
++			cnt += in_ie[cnt + 1] + 2; /* goto next	 */
++		}
++
++	}
++
++	return target_ie;
++}
++
++/**
++ * rtw_ies_remove_ie - Find matching IEs and remove
++ * @ies: Address of IEs to search
++ * @ies_len: Pointer of length of ies, will update to new length
++ * @offset: The offset to start scarch
++ * @eid: Element ID to match
++ * @oui: OUI to match
++ * @oui_len: OUI length
++ *
++ * Returns: _SUCCESS: ies is updated, _FAIL: not updated
++ */
++int rtw_ies_remove_ie(u8 *ies, uint *ies_len, uint offset, u8 eid, u8 *oui, u8 oui_len)
++{
++	int ret = _FAIL;
++	u8 *target_ie;
++	u32 target_ielen;
++	u8 *start;
++	uint search_len;
++
++	if (!ies || !ies_len || *ies_len <= offset)
++		goto exit;
++
++	start = ies + offset;
++	search_len = *ies_len - offset;
++
++	while (1) {
++		target_ie = rtw_get_ie_ex(start, search_len, eid, oui, oui_len, NULL, &target_ielen);
++		if (target_ie && target_ielen) {
++			u8 *remain_ies = target_ie + target_ielen;
++			uint remain_len = search_len - (remain_ies - start);
++
++			_rtw_memmove(target_ie, remain_ies, remain_len);
++			*ies_len = *ies_len - target_ielen;
++			ret = _SUCCESS;
++
++			start = target_ie;
++			search_len = remain_len;
++		} else
++			break;
++	}
++exit:
++	return ret;
++}
++
++void rtw_set_supported_rate(u8 *SupportedRates, uint mode)
++{
++
++	_rtw_memset(SupportedRates, 0, NDIS_802_11_LENGTH_RATES_EX);
++
++	switch (mode) {
++	case WIRELESS_11B:
++		_rtw_memcpy(SupportedRates, WIFI_CCKRATES, IEEE80211_CCK_RATE_LEN);
++		break;
++
++	case WIRELESS_11G:
++	case WIRELESS_11A:
++	case WIRELESS_11_5N:
++	case WIRELESS_11A_5N: /* Todo: no basic rate for ofdm ? */
++	case WIRELESS_11_5AC:
++		_rtw_memcpy(SupportedRates, WIFI_OFDMRATES, IEEE80211_NUM_OFDM_RATESLEN);
++		break;
++
++	case WIRELESS_11BG:
++	case WIRELESS_11G_24N:
++	case WIRELESS_11_24N:
++	case WIRELESS_11BG_24N:
++		_rtw_memcpy(SupportedRates, WIFI_CCKRATES, IEEE80211_CCK_RATE_LEN);
++		_rtw_memcpy(SupportedRates + IEEE80211_CCK_RATE_LEN, WIFI_OFDMRATES, IEEE80211_NUM_OFDM_RATESLEN);
++		break;
++
++	}
++}
++
++uint	rtw_get_rateset_len(u8	*rateset)
++{
++	uint i = 0;
++	while (1) {
++		if ((rateset[i]) == 0)
++			break;
++
++		if (i > 12)
++			break;
++
++		i++;
++	}
++	return i;
++}
++
++int rtw_generate_ie(struct registry_priv *pregistrypriv)
++{
++	u8	wireless_mode;
++	int	sz = 0, rateLen;
++	WLAN_BSSID_EX	*pdev_network = &pregistrypriv->dev_network;
++	u8	*ie = pdev_network->IEs;
++
++
++	/* timestamp will be inserted by hardware */
++	sz += 8;
++	ie += sz;
++
++	/* beacon interval : 2bytes */
++	*(u16 *)ie = cpu_to_le16((u16)pdev_network->Configuration.BeaconPeriod); /* BCN_INTERVAL; */
++	sz += 2;
++	ie += 2;
++
++	/* capability info */
++	*(u16 *)ie = 0;
++
++	*(u16 *)ie |= cpu_to_le16(cap_IBSS);
++
++	if (pregistrypriv->preamble == PREAMBLE_SHORT)
++		*(u16 *)ie |= cpu_to_le16(cap_ShortPremble);
++
++	if (pdev_network->Privacy)
++		*(u16 *)ie |= cpu_to_le16(cap_Privacy);
++
++	sz += 2;
++	ie += 2;
++
++	/* SSID */
++	ie = rtw_set_ie(ie, _SSID_IE_, pdev_network->Ssid.SsidLength, pdev_network->Ssid.Ssid, &sz);
++
++	/* supported rates */
++	if (pregistrypriv->wireless_mode == WIRELESS_11ABGN) {
++		if (pdev_network->Configuration.DSConfig > 14)
++			wireless_mode = WIRELESS_11A_5N;
++		else
++			wireless_mode = WIRELESS_11BG_24N;
++	} else if (pregistrypriv->wireless_mode == WIRELESS_MODE_MAX) { /* WIRELESS_11ABGN | WIRELESS_11AC */
++		if (pdev_network->Configuration.DSConfig > 14)
++			wireless_mode = WIRELESS_11_5AC;
++		else
++			wireless_mode = WIRELESS_11BG_24N;
++	} else
++		wireless_mode = pregistrypriv->wireless_mode;
++
++	rtw_set_supported_rate(pdev_network->SupportedRates, wireless_mode) ;
++
++	rateLen = rtw_get_rateset_len(pdev_network->SupportedRates);
++
++	if (rateLen > 8) {
++		ie = rtw_set_ie(ie, _SUPPORTEDRATES_IE_, 8, pdev_network->SupportedRates, &sz);
++		/* ie = rtw_set_ie(ie, _EXT_SUPPORTEDRATES_IE_, (rateLen - 8), (pdev_network->SupportedRates + 8), &sz); */
++	} else
++		ie = rtw_set_ie(ie, _SUPPORTEDRATES_IE_, rateLen, pdev_network->SupportedRates, &sz);
++
++	/* DS parameter set */
++	ie = rtw_set_ie(ie, _DSSET_IE_, 1, (u8 *)&(pdev_network->Configuration.DSConfig), &sz);
++
++
++	/* IBSS Parameter Set */
++
++	ie = rtw_set_ie(ie, _IBSS_PARA_IE_, 2, (u8 *)&(pdev_network->Configuration.ATIMWindow), &sz);
++
++	if (rateLen > 8)
++		ie = rtw_set_ie(ie, _EXT_SUPPORTEDRATES_IE_, (rateLen - 8), (pdev_network->SupportedRates + 8), &sz);
++
++#ifdef CONFIG_80211N_HT
++	/* HT Cap. */
++	if (((pregistrypriv->wireless_mode & WIRELESS_11_5N) || (pregistrypriv->wireless_mode & WIRELESS_11_24N))
++	    && (pregistrypriv->ht_enable == _TRUE)) {
++		/* todo: */
++	}
++#endif /* CONFIG_80211N_HT */
++
++	/* pdev_network->IELength =  sz; */ /* update IELength */
++
++
++	/* return _SUCCESS; */
++
++	return sz;
++
++}
++
++unsigned char *rtw_get_wpa_ie(unsigned char *pie, int *wpa_ie_len, int limit)
++{
++	int len;
++	u16 val16;
++	unsigned char wpa_oui_type[] = {0x00, 0x50, 0xf2, 0x01};
++	u8 *pbuf = pie;
++	int limit_new = limit;
++
++	while (1) {
++		pbuf = rtw_get_ie(pbuf, _WPA_IE_ID_, &len, limit_new);
++
++		if (pbuf) {
++
++			/* check if oui matches... */
++			if (_rtw_memcmp((pbuf + 2), wpa_oui_type, sizeof(wpa_oui_type)) == _FALSE)
++
++				goto check_next_ie;
++
++			/* check version... */
++			_rtw_memcpy((u8 *)&val16, (pbuf + 6), sizeof(val16));
++
++			val16 = le16_to_cpu(val16);
++			if (val16 != 0x0001)
++				goto check_next_ie;
++
++			*wpa_ie_len = *(pbuf + 1);
++
++			return pbuf;
++
++		} else {
++
++			*wpa_ie_len = 0;
++			return NULL;
++		}
++
++check_next_ie:
++
++		limit_new = limit - (pbuf - pie) - 2 - len;
++
++		if (limit_new <= 0)
++			break;
++
++		pbuf += (2 + len);
++
++	}
++
++	*wpa_ie_len = 0;
++
++	return NULL;
++
++}
++
++unsigned char *rtw_get_wpa2_ie(unsigned char *pie, int *rsn_ie_len, int limit)
++{
++
++	return rtw_get_ie(pie, _WPA2_IE_ID_, rsn_ie_len, limit);
++
++}
++
++int rtw_get_wpa_cipher_suite(u8 *s)
++{
++	if (_rtw_memcmp(s, WPA_CIPHER_SUITE_NONE, WPA_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_NONE;
++	if (_rtw_memcmp(s, WPA_CIPHER_SUITE_WEP40, WPA_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_WEP40;
++	if (_rtw_memcmp(s, WPA_CIPHER_SUITE_TKIP, WPA_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_TKIP;
++	if (_rtw_memcmp(s, WPA_CIPHER_SUITE_CCMP, WPA_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_CCMP;
++	if (_rtw_memcmp(s, WPA_CIPHER_SUITE_WEP104, WPA_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_WEP104;
++
++	return 0;
++}
++
++int rtw_get_wpa2_cipher_suite(u8 *s)
++{
++	if (_rtw_memcmp(s, RSN_CIPHER_SUITE_NONE, RSN_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_NONE;
++	if (_rtw_memcmp(s, RSN_CIPHER_SUITE_WEP40, RSN_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_WEP40;
++	if (_rtw_memcmp(s, RSN_CIPHER_SUITE_TKIP, RSN_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_TKIP;
++	if (_rtw_memcmp(s, RSN_CIPHER_SUITE_CCMP, RSN_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_CCMP;
++	if (_rtw_memcmp(s, RSN_CIPHER_SUITE_WEP104, RSN_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_WEP104;
++
++	return 0;
++}
++
++
++int rtw_parse_wpa_ie(u8 *wpa_ie, int wpa_ie_len, int *group_cipher, int *pairwise_cipher, int *is_8021x)
++{
++	int i, ret = _SUCCESS;
++	int left, count;
++	u8 *pos;
++	u8 SUITE_1X[4] = {0x00, 0x50, 0xf2, 1};
++
++	if (wpa_ie_len <= 0) {
++		/* No WPA IE - fail silently */
++		return _FAIL;
++	}
++
++
++	if ((*wpa_ie != _WPA_IE_ID_) || (*(wpa_ie + 1) != (u8)(wpa_ie_len - 2)) ||
++	    (_rtw_memcmp(wpa_ie + 2, RTW_WPA_OUI_TYPE, WPA_SELECTOR_LEN) != _TRUE))
++		return _FAIL;
++
++	pos = wpa_ie;
++
++	pos += 8;
++	left = wpa_ie_len - 8;
++
++
++	/* group_cipher */
++	if (left >= WPA_SELECTOR_LEN) {
++
++		*group_cipher = rtw_get_wpa_cipher_suite(pos);
++
++		pos += WPA_SELECTOR_LEN;
++		left -= WPA_SELECTOR_LEN;
++
++	} else if (left > 0) {
++
++		return _FAIL;
++	}
++
++
++	/* pairwise_cipher */
++	if (left >= 2) {
++		/* count = le16_to_cpu(*(u16*)pos);	 */
++		count = RTW_GET_LE16(pos);
++		pos += 2;
++		left -= 2;
++
++		if (count == 0 || left < count * WPA_SELECTOR_LEN) {
++			return _FAIL;
++		}
++
++		for (i = 0; i < count; i++) {
++			*pairwise_cipher |= rtw_get_wpa_cipher_suite(pos);
++
++			pos += WPA_SELECTOR_LEN;
++			left -= WPA_SELECTOR_LEN;
++		}
++
++	} else if (left == 1) {
++		return _FAIL;
++	}
++
++	if (is_8021x) {
++		if (left >= 6) {
++			pos += 2;
++			if (_rtw_memcmp(pos, SUITE_1X, 4) == 1) {
++				*is_8021x = 1;
++			}
++		}
++	}
++
++	return ret;
++
++}
++
++int rtw_parse_wpa2_ie(u8 *rsn_ie, int rsn_ie_len, int *group_cipher, int *pairwise_cipher, int *is_8021x)
++{
++	int i, ret = _SUCCESS;
++	int left, count;
++	u8 *pos;
++	u8 SUITE_1X[4] = {0x00, 0x0f, 0xac, 0x01};
++
++	if (rsn_ie_len <= 0) {
++		/* No RSN IE - fail silently */
++		return _FAIL;
++	}
++
++
++	if ((*rsn_ie != _WPA2_IE_ID_) || (*(rsn_ie + 1) != (u8)(rsn_ie_len - 2)))
++		return _FAIL;
++
++	pos = rsn_ie;
++	pos += 4;
++	left = rsn_ie_len - 4;
++
++	/* group_cipher */
++	if (left >= RSN_SELECTOR_LEN) {
++
++		*group_cipher = rtw_get_wpa2_cipher_suite(pos);
++
++		pos += RSN_SELECTOR_LEN;
++		left -= RSN_SELECTOR_LEN;
++
++	} else if (left > 0) {
++		return _FAIL;
++	}
++
++	/* pairwise_cipher */
++	if (left >= 2) {
++		/* count = le16_to_cpu(*(u16*)pos); */
++		count = RTW_GET_LE16(pos);
++		pos += 2;
++		left -= 2;
++
++		if (count == 0 || left < count * RSN_SELECTOR_LEN) {
++			return _FAIL;
++		}
++
++		for (i = 0; i < count; i++) {
++			*pairwise_cipher |= rtw_get_wpa2_cipher_suite(pos);
++
++			pos += RSN_SELECTOR_LEN;
++			left -= RSN_SELECTOR_LEN;
++		}
++
++	} else if (left == 1) {
++
++		return _FAIL;
++	}
++
++	if (is_8021x) {
++		if (left >= 6) {
++			pos += 2;
++			if (_rtw_memcmp(pos, SUITE_1X, 4) == 1) {
++				*is_8021x = 1;
++			}
++		}
++	}
++
++	return ret;
++
++}
++
++/* #ifdef CONFIG_WAPI_SUPPORT */
++int rtw_get_wapi_ie(u8 *in_ie, uint in_len, u8 *wapi_ie, u16 *wapi_len)
++{
++	int len = 0;
++	u8 authmode, i;
++	uint	cnt;
++	u8 wapi_oui1[4] = {0x0, 0x14, 0x72, 0x01};
++	u8 wapi_oui2[4] = {0x0, 0x14, 0x72, 0x02};
++
++
++	if (wapi_len)
++		*wapi_len = 0;
++
++	if (!in_ie || in_len <= 0)
++		return len;
++
++	cnt = (_TIMESTAMP_ + _BEACON_ITERVAL_ + _CAPABILITY_);
++
++	while (cnt < in_len) {
++		authmode = in_ie[cnt];
++
++		/* if(authmode==_WAPI_IE_) */
++		if (authmode == _WAPI_IE_ && (_rtw_memcmp(&in_ie[cnt + 6], wapi_oui1, 4) == _TRUE ||
++			_rtw_memcmp(&in_ie[cnt + 6], wapi_oui2, 4) == _TRUE)) {
++			if (wapi_ie)
++				_rtw_memcpy(wapi_ie, &in_ie[cnt], in_ie[cnt + 1] + 2);
++
++			if (wapi_len)
++				*wapi_len = in_ie[cnt + 1] + 2;
++
++			cnt += in_ie[cnt + 1] + 2; /* get next */
++		} else {
++			cnt += in_ie[cnt + 1] + 2; /* get next */
++		}
++	}
++
++	if (wapi_len)
++		len = *wapi_len;
++
++
++	return len;
++
++}
++/* #endif */
++
++int rtw_get_sec_ie(u8 *in_ie, uint in_len, u8 *rsn_ie, u16 *rsn_len, u8 *wpa_ie, u16 *wpa_len)
++{
++	u8 authmode, sec_idx, i;
++	u8 wpa_oui[4] = {0x0, 0x50, 0xf2, 0x01};
++	uint	cnt;
++
++
++	/* Search required WPA or WPA2 IE and copy to sec_ie[ ] */
++
++	cnt = (_TIMESTAMP_ + _BEACON_ITERVAL_ + _CAPABILITY_);
++
++	sec_idx = 0;
++
++	while (cnt < in_len) {
++		authmode = in_ie[cnt];
++
++		if ((authmode == _WPA_IE_ID_) && (_rtw_memcmp(&in_ie[cnt + 2], &wpa_oui[0], 4) == _TRUE)) {
++
++			if (wpa_ie)
++				_rtw_memcpy(wpa_ie, &in_ie[cnt], in_ie[cnt + 1] + 2);
++
++			*wpa_len = in_ie[cnt + 1] + 2;
++			cnt += in_ie[cnt + 1] + 2; /* get next */
++		} else {
++			if (authmode == _WPA2_IE_ID_) {
++
++				if (rsn_ie)
++					_rtw_memcpy(rsn_ie, &in_ie[cnt], in_ie[cnt + 1] + 2);
++
++				*rsn_len = in_ie[cnt + 1] + 2;
++				cnt += in_ie[cnt + 1] + 2; /* get next */
++			} else {
++				cnt += in_ie[cnt + 1] + 2; /* get next */
++			}
++		}
++
++	}
++
++
++	return *rsn_len + *wpa_len;
++
++}
++
++u8 rtw_is_wps_ie(u8 *ie_ptr, uint *wps_ielen)
++{
++	u8 match = _FALSE;
++	u8 eid, wps_oui[4] = {0x0, 0x50, 0xf2, 0x04};
++
++	if (ie_ptr == NULL)
++		return match;
++
++	eid = ie_ptr[0];
++
++	if ((eid == _WPA_IE_ID_) && (_rtw_memcmp(&ie_ptr[2], wps_oui, 4) == _TRUE)) {
++		/* RTW_INFO("==> found WPS_IE.....\n"); */
++		*wps_ielen = ie_ptr[1] + 2;
++		match = _TRUE;
++	}
++	return match;
++}
++
++u8 *rtw_get_wps_ie_from_scan_queue(u8 *in_ie, uint in_len, u8 *wps_ie, uint *wps_ielen, u8 frame_type)
++{
++	u8	*wps = NULL;
++
++	RTW_INFO("[%s] frame_type = %d\n", __FUNCTION__, frame_type);
++	switch (frame_type) {
++	case 1:
++	case 3: {
++		/*	Beacon or Probe Response */
++		wps = rtw_get_wps_ie(in_ie + _PROBERSP_IE_OFFSET_, in_len - _PROBERSP_IE_OFFSET_, wps_ie, wps_ielen);
++		break;
++	}
++	case 2: {
++		/*	Probe Request */
++		wps = rtw_get_wps_ie(in_ie + _PROBEREQ_IE_OFFSET_ , in_len - _PROBEREQ_IE_OFFSET_ , wps_ie, wps_ielen);
++		break;
++	}
++	}
++	return wps;
++}
++
++/**
++ * rtw_get_wps_ie - Search WPS IE from a series of IEs
++ * @in_ie: Address of IEs to search
++ * @in_len: Length limit from in_ie
++ * @wps_ie: If not NULL and WPS IE is found, WPS IE will be copied to the buf starting from wps_ie
++ * @wps_ielen: If not NULL and WPS IE is found, will set to the length of the entire WPS IE
++ *
++ * Returns: The address of the WPS IE found, or NULL
++ */
++u8 *rtw_get_wps_ie(u8 *in_ie, uint in_len, u8 *wps_ie, uint *wps_ielen)
++{
++	uint cnt;
++	u8 *wpsie_ptr = NULL;
++	u8 eid, wps_oui[4] = {0x00, 0x50, 0xf2, 0x04};
++
++	if (wps_ielen)
++		*wps_ielen = 0;
++
++	if (!in_ie) {
++		rtw_warn_on(1);
++		return wpsie_ptr;
++	}
++
++	if (in_len <= 0)
++		return wpsie_ptr;
++
++	cnt = 0;
++
++	while (cnt + 1 + 4 < in_len) {
++		eid = in_ie[cnt];
++
++		if (cnt + 1 + 4 >= MAX_IE_SZ) {
++			rtw_warn_on(1);
++			return NULL;
++		}
++
++		if (eid == WLAN_EID_VENDOR_SPECIFIC && _rtw_memcmp(&in_ie[cnt + 2], wps_oui, 4) == _TRUE) {
++			wpsie_ptr = in_ie + cnt;
++
++			if (wps_ie)
++				_rtw_memcpy(wps_ie, &in_ie[cnt], in_ie[cnt + 1] + 2);
++
++			if (wps_ielen)
++				*wps_ielen = in_ie[cnt + 1] + 2;
++
++			break;
++		} else
++			cnt += in_ie[cnt + 1] + 2;
++
++	}
++
++	return wpsie_ptr;
++}
++
++/**
++ * rtw_get_wps_attr - Search a specific WPS attribute from a given WPS IE
++ * @wps_ie: Address of WPS IE to search
++ * @wps_ielen: Length limit from wps_ie
++ * @target_attr_id: The attribute ID of WPS attribute to search
++ * @buf_attr: If not NULL and the WPS attribute is found, WPS attribute will be copied to the buf starting from buf_attr
++ * @len_attr: If not NULL and the WPS attribute is found, will set to the length of the entire WPS attribute
++ *
++ * Returns: the address of the specific WPS attribute found, or NULL
++ */
++u8 *rtw_get_wps_attr(u8 *wps_ie, uint wps_ielen, u16 target_attr_id , u8 *buf_attr, u32 *len_attr)
++{
++	u8 *attr_ptr = NULL;
++	u8 *target_attr_ptr = NULL;
++	u8 wps_oui[4] = {0x00, 0x50, 0xF2, 0x04};
++
++	if (len_attr)
++		*len_attr = 0;
++
++	if ((wps_ie[0] != _VENDOR_SPECIFIC_IE_) ||
++	    (_rtw_memcmp(wps_ie + 2, wps_oui , 4) != _TRUE))
++		return attr_ptr;
++
++	/* 6 = 1(Element ID) + 1(Length) + 4(WPS OUI) */
++	attr_ptr = wps_ie + 6; /* goto first attr */
++
++	while (attr_ptr - wps_ie < wps_ielen) {
++		/* 4 = 2(Attribute ID) + 2(Length) */
++		u16 attr_id = RTW_GET_BE16(attr_ptr);
++		u16 attr_data_len = RTW_GET_BE16(attr_ptr + 2);
++		u16 attr_len = attr_data_len + 4;
++
++		/* RTW_INFO("%s attr_ptr:%p, id:%u, length:%u\n", __FUNCTION__, attr_ptr, attr_id, attr_data_len); */
++		if (attr_id == target_attr_id) {
++			target_attr_ptr = attr_ptr;
++
++			if (buf_attr)
++				_rtw_memcpy(buf_attr, attr_ptr, attr_len);
++
++			if (len_attr)
++				*len_attr = attr_len;
++
++			break;
++		} else {
++			attr_ptr += attr_len; /* goto next */
++		}
++
++	}
++
++	return target_attr_ptr;
++}
++
++/**
++ * rtw_get_wps_attr_content - Search a specific WPS attribute content from a given WPS IE
++ * @wps_ie: Address of WPS IE to search
++ * @wps_ielen: Length limit from wps_ie
++ * @target_attr_id: The attribute ID of WPS attribute to search
++ * @buf_content: If not NULL and the WPS attribute is found, WPS attribute content will be copied to the buf starting from buf_content
++ * @len_content: If not NULL and the WPS attribute is found, will set to the length of the WPS attribute content
++ *
++ * Returns: the address of the specific WPS attribute content found, or NULL
++ */
++u8 *rtw_get_wps_attr_content(u8 *wps_ie, uint wps_ielen, u16 target_attr_id , u8 *buf_content, uint *len_content)
++{
++	u8 *attr_ptr;
++	u32 attr_len;
++
++	if (len_content)
++		*len_content = 0;
++
++	attr_ptr = rtw_get_wps_attr(wps_ie, wps_ielen, target_attr_id, NULL, &attr_len);
++
++	if (attr_ptr && attr_len) {
++		if (buf_content)
++			_rtw_memcpy(buf_content, attr_ptr + 4, attr_len - 4);
++
++		if (len_content)
++			*len_content = attr_len - 4;
++
++		return attr_ptr + 4;
++	}
++
++	return NULL;
++}
++
++static int rtw_ieee802_11_parse_vendor_specific(u8 *pos, uint elen,
++		struct rtw_ieee802_11_elems *elems,
++		int show_errors)
++{
++	unsigned int oui;
++
++	/* first 3 bytes in vendor specific information element are the IEEE
++	 * OUI of the vendor. The following byte is used a vendor specific
++	 * sub-type. */
++	if (elen < 4) {
++		if (show_errors) {
++			RTW_INFO("short vendor specific "
++				 "information element ignored (len=%lu)\n",
++				 (unsigned long) elen);
++		}
++		return -1;
++	}
++
++	oui = RTW_GET_BE24(pos);
++	switch (oui) {
++	case OUI_MICROSOFT:
++		/* Microsoft/Wi-Fi information elements are further typed and
++		 * subtyped */
++		switch (pos[3]) {
++		case 1:
++			/* Microsoft OUI (00:50:F2) with OUI Type 1:
++			 * real WPA information element */
++			elems->wpa_ie = pos;
++			elems->wpa_ie_len = elen;
++			break;
++		case WME_OUI_TYPE: /* this is a Wi-Fi WME info. element */
++			if (elen < 5) {
++				RTW_DBG("short WME "
++					"information element ignored "
++					"(len=%lu)\n",
++					(unsigned long) elen);
++				return -1;
++			}
++			switch (pos[4]) {
++			case WME_OUI_SUBTYPE_INFORMATION_ELEMENT:
++			case WME_OUI_SUBTYPE_PARAMETER_ELEMENT:
++				elems->wme = pos;
++				elems->wme_len = elen;
++				break;
++			case WME_OUI_SUBTYPE_TSPEC_ELEMENT:
++				elems->wme_tspec = pos;
++				elems->wme_tspec_len = elen;
++				break;
++			default:
++				RTW_DBG("unknown WME "
++					"information element ignored "
++					"(subtype=%d len=%lu)\n",
++					pos[4], (unsigned long) elen);
++				return -1;
++			}
++			break;
++		case 4:
++			/* Wi-Fi Protected Setup (WPS) IE */
++			elems->wps_ie = pos;
++			elems->wps_ie_len = elen;
++			break;
++		default:
++			RTW_DBG("Unknown Microsoft "
++				"information element ignored "
++				"(type=%d len=%lu)\n",
++				pos[3], (unsigned long) elen);
++			return -1;
++		}
++		break;
++
++	case OUI_BROADCOM:
++		switch (pos[3]) {
++		case VENDOR_HT_CAPAB_OUI_TYPE:
++			elems->vendor_ht_cap = pos;
++			elems->vendor_ht_cap_len = elen;
++			break;
++		default:
++			RTW_DBG("Unknown Broadcom "
++				"information element ignored "
++				"(type=%d len=%lu)\n",
++				pos[3], (unsigned long) elen);
++			return -1;
++		}
++		break;
++
++	default:
++		RTW_DBG("unknown vendor specific information "
++			"element ignored (vendor OUI %02x:%02x:%02x "
++			"len=%lu)\n",
++			pos[0], pos[1], pos[2], (unsigned long) elen);
++		return -1;
++	}
++
++	return 0;
++
++}
++
++/**
++ * ieee802_11_parse_elems - Parse information elements in management frames
++ * @start: Pointer to the start of IEs
++ * @len: Length of IE buffer in octets
++ * @elems: Data structure for parsed elements
++ * @show_errors: Whether to show parsing errors in debug log
++ * Returns: Parsing result
++ */
++ParseRes rtw_ieee802_11_parse_elems(u8 *start, uint len,
++				    struct rtw_ieee802_11_elems *elems,
++				    int show_errors)
++{
++	uint left = len;
++	u8 *pos = start;
++	int unknown = 0;
++
++	_rtw_memset(elems, 0, sizeof(*elems));
++
++	while (left >= 2) {
++		u8 id, elen;
++
++		id = *pos++;
++		elen = *pos++;
++		left -= 2;
++
++		if (elen > left) {
++			if (show_errors) {
++				RTW_INFO("IEEE 802.11 element "
++					 "parse failed (id=%d elen=%d "
++					 "left=%lu)\n",
++					 id, elen, (unsigned long) left);
++			}
++			return ParseFailed;
++		}
++
++		switch (id) {
++		case WLAN_EID_SSID:
++			elems->ssid = pos;
++			elems->ssid_len = elen;
++			break;
++		case WLAN_EID_SUPP_RATES:
++			elems->supp_rates = pos;
++			elems->supp_rates_len = elen;
++			break;
++		case WLAN_EID_FH_PARAMS:
++			elems->fh_params = pos;
++			elems->fh_params_len = elen;
++			break;
++		case WLAN_EID_DS_PARAMS:
++			elems->ds_params = pos;
++			elems->ds_params_len = elen;
++			break;
++		case WLAN_EID_CF_PARAMS:
++			elems->cf_params = pos;
++			elems->cf_params_len = elen;
++			break;
++		case WLAN_EID_TIM:
++			elems->tim = pos;
++			elems->tim_len = elen;
++			break;
++		case WLAN_EID_IBSS_PARAMS:
++			elems->ibss_params = pos;
++			elems->ibss_params_len = elen;
++			break;
++		case WLAN_EID_CHALLENGE:
++			elems->challenge = pos;
++			elems->challenge_len = elen;
++			break;
++		case WLAN_EID_ERP_INFO:
++			elems->erp_info = pos;
++			elems->erp_info_len = elen;
++			break;
++		case WLAN_EID_EXT_SUPP_RATES:
++			elems->ext_supp_rates = pos;
++			elems->ext_supp_rates_len = elen;
++			break;
++		case WLAN_EID_VENDOR_SPECIFIC:
++			if (rtw_ieee802_11_parse_vendor_specific(pos, elen,
++					elems,
++					show_errors))
++				unknown++;
++			break;
++		case WLAN_EID_RSN:
++			elems->rsn_ie = pos;
++			elems->rsn_ie_len = elen;
++			break;
++		case WLAN_EID_PWR_CAPABILITY:
++			elems->power_cap = pos;
++			elems->power_cap_len = elen;
++			break;
++		case WLAN_EID_SUPPORTED_CHANNELS:
++			elems->supp_channels = pos;
++			elems->supp_channels_len = elen;
++			break;
++		case WLAN_EID_MOBILITY_DOMAIN:
++			elems->mdie = pos;
++			elems->mdie_len = elen;
++			break;
++		case WLAN_EID_FAST_BSS_TRANSITION:
++			elems->ftie = pos;
++			elems->ftie_len = elen;
++			break;
++		case WLAN_EID_TIMEOUT_INTERVAL:
++			elems->timeout_int = pos;
++			elems->timeout_int_len = elen;
++			break;
++		case WLAN_EID_HT_CAP:
++			elems->ht_capabilities = pos;
++			elems->ht_capabilities_len = elen;
++			break;
++		case WLAN_EID_HT_OPERATION:
++			elems->ht_operation = pos;
++			elems->ht_operation_len = elen;
++			break;
++		case WLAN_EID_VHT_CAPABILITY:
++			elems->vht_capabilities = pos;
++			elems->vht_capabilities_len = elen;
++			break;
++		case WLAN_EID_VHT_OPERATION:
++			elems->vht_operation = pos;
++			elems->vht_operation_len = elen;
++			break;
++		case WLAN_EID_VHT_OP_MODE_NOTIFY:
++			elems->vht_op_mode_notify = pos;
++			elems->vht_op_mode_notify_len = elen;
++			break;
++		default:
++			unknown++;
++			if (!show_errors)
++				break;
++			RTW_DBG("IEEE 802.11 element parse "
++				"ignored unknown element (id=%d elen=%d)\n",
++				id, elen);
++			break;
++		}
++
++		left -= elen;
++		pos += elen;
++	}
++
++	if (left)
++		return ParseFailed;
++
++	return unknown ? ParseUnknown : ParseOK;
++
++}
++
++static u8 key_char2num(u8 ch);
++static u8 key_char2num(u8 ch)
++{
++	if ((ch >= '0') && (ch <= '9'))
++		return ch - '0';
++	else if ((ch >= 'a') && (ch <= 'f'))
++		return ch - 'a' + 10;
++	else if ((ch >= 'A') && (ch <= 'F'))
++		return ch - 'A' + 10;
++	else
++		return 0xff;
++}
++
++u8 str_2char2num(u8 hch, u8 lch);
++u8 str_2char2num(u8 hch, u8 lch)
++{
++	return (key_char2num(hch) * 10) + key_char2num(lch);
++}
++
++u8 key_2char2num(u8 hch, u8 lch);
++u8 key_2char2num(u8 hch, u8 lch)
++{
++	return (key_char2num(hch) << 4) | key_char2num(lch);
++}
++
++void macstr2num(u8 *dst, u8 *src);
++void macstr2num(u8 *dst, u8 *src)
++{
++	int	jj, kk;
++	for (jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3)
++		dst[jj] = key_2char2num(src[kk], src[kk + 1]);
++}
++
++u8 convert_ip_addr(u8 hch, u8 mch, u8 lch)
++{
++	return (key_char2num(hch) * 100) + (key_char2num(mch) * 10) + key_char2num(lch);
++}
++
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++#define MAC_ADDRESS_LEN 12
++
++int rtw_get_mac_addr_intel(unsigned char *buf)
++{
++	int ret = 0;
++	int i;
++	struct file *fp = NULL;
++	mm_segment_t oldfs;
++	unsigned char c_mac[MAC_ADDRESS_LEN];
++	char fname[] = "/config/wifi/mac.txt";
++	int jj, kk;
++
++	RTW_INFO("%s Enter\n", __FUNCTION__);
++
++	ret = rtw_retrieve_from_file(fname, c_mac, MAC_ADDRESS_LEN);
++	if (ret < MAC_ADDRESS_LEN)
++		return -1;
++
++	for (jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 2)
++		buf[jj] = key_2char2num(c_mac[kk], c_mac[kk + 1]);
++
++	RTW_INFO("%s: read from file mac address: "MAC_FMT"\n",
++		 __FUNCTION__, MAC_ARG(buf));
++
++	return 0;
++}
++#endif /* CONFIG_PLATFORM_INTEL_BYT */
++
++/*
++ * Description:
++ * rtw_check_invalid_mac_address:
++ * This is only used for checking mac address valid or not.
++ *
++ * Input:
++ * adapter: mac_address pointer.
++ * check_local_bit: check locally bit or not.
++ *
++ * Output:
++ * _TRUE: The mac address is invalid.
++ * _FALSE: The mac address is valid.
++ *
++ * Auther: Isaac.Li
++ */
++u8 rtw_check_invalid_mac_address(u8 *mac_addr, u8 check_local_bit)
++{
++	u8 null_mac_addr[ETH_ALEN] = {0, 0, 0, 0, 0, 0};
++	u8 multi_mac_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u8 res = _FALSE;
++
++	if (_rtw_memcmp(mac_addr, null_mac_addr, ETH_ALEN)) {
++		res = _TRUE;
++		goto func_exit;
++	}
++
++	if (_rtw_memcmp(mac_addr, multi_mac_addr, ETH_ALEN)) {
++		res = _TRUE;
++		goto func_exit;
++	}
++
++	if (mac_addr[0] & BIT0) {
++		res = _TRUE;
++		goto func_exit;
++	}
++
++	if (check_local_bit == _TRUE) {
++		if (mac_addr[0] & BIT1) {
++			res = _TRUE;
++			goto func_exit;
++		}
++	}
++
++func_exit:
++	return res;
++}
++
++extern char *rtw_initmac;
++/**
++ * rtw_macaddr_cfg - Decide the mac address used
++ * @out: buf to store mac address decided
++ * @hw_mac_addr: mac address from efuse/epprom
++ */
++void rtw_macaddr_cfg(u8 *out, const u8 *hw_mac_addr)
++{
++#define DEFAULT_RANDOM_MACADDR 1
++	u8 mac[ETH_ALEN];
++
++	if (out == NULL) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	/* Users specify the mac address */
++	if (rtw_initmac) {
++		int jj, kk;
++
++		for (jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3)
++			mac[jj] = key_2char2num(rtw_initmac[kk], rtw_initmac[kk + 1]);
++
++		goto err_chk;
++	}
++
++	/* platform specified */
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++	if (rtw_get_mac_addr_intel(mac) == 0)
++		goto err_chk;
++#endif
++
++	/* Use the mac address stored in the Efuse */
++	if (hw_mac_addr) {
++		_rtw_memcpy(mac, hw_mac_addr, ETH_ALEN);
++		goto err_chk;
++	}
++
++err_chk:
++	if (rtw_check_invalid_mac_address(mac, _TRUE) == _TRUE) {
++#if DEFAULT_RANDOM_MACADDR
++		RTW_ERR("invalid mac addr:"MAC_FMT", assign random MAC\n", MAC_ARG(mac));
++		*((u32 *)(&mac[2])) = rtw_random32();
++		mac[0] = 0x00;
++		mac[1] = 0xe0;
++		mac[2] = 0x4c;
++#else
++		RTW_ERR("invalid mac addr:"MAC_FMT", assign default one\n", MAC_ARG(mac));
++		mac[0] = 0x00;
++		mac[1] = 0xe0;
++		mac[2] = 0x4c;
++		mac[3] = 0x87;
++		mac[4] = 0x00;
++		mac[5] = 0x00;
++#endif
++	}
++
++	_rtw_memcpy(out, mac, ETH_ALEN);
++	RTW_INFO("%s mac addr:"MAC_FMT"\n", __func__, MAC_ARG(out));
++}
++
++#ifdef CONFIG_80211N_HT
++void dump_ht_cap_ie_content(void *sel, u8 *buf, u32 buf_len)
++{
++	if (buf_len != 26) {
++		RTW_PRINT_SEL(sel, "Invalid HT capability IE len:%d != %d\n", buf_len, 26);
++		return;
++	}
++
++	RTW_PRINT_SEL(sel, "HT Capabilities Info:%02x%02x\n", *(buf), *(buf + 1));
++	RTW_PRINT_SEL(sel, "A-MPDU Parameters:"HT_AMPDU_PARA_FMT"\n"
++		      , HT_AMPDU_PARA_ARG(HT_CAP_ELE_AMPDU_PARA(buf)));
++	RTW_PRINT_SEL(sel, "Supported MCS Set:"HT_SUP_MCS_SET_FMT"\n"
++		      , HT_SUP_MCS_SET_ARG(HT_CAP_ELE_SUP_MCS_SET(buf)));
++}
++
++void dump_ht_cap_ie(void *sel, u8 *ie, u32 ie_len)
++{
++	u8 *pos = (u8 *)ie;
++	u16 id;
++	u16 len;
++
++	u8 *ht_cap_ie;
++	sint ht_cap_ielen;
++
++	ht_cap_ie = rtw_get_ie(ie, _HT_CAPABILITY_IE_, &ht_cap_ielen, ie_len);
++	if (!ie || ht_cap_ie != ie)
++		return;
++
++	dump_ht_cap_ie_content(sel, ht_cap_ie + 2, ht_cap_ielen);
++}
++#endif /* CONFIG_80211N_HT */
++
++void dump_ies(void *sel, u8 *buf, u32 buf_len)
++{
++	u8 *pos = (u8 *)buf;
++	u8 id, len;
++
++	while (pos - buf + 1 < buf_len) {
++		id = *pos;
++		len = *(pos + 1);
++
++		RTW_PRINT_SEL(sel, "%s ID:%u, LEN:%u\n", __FUNCTION__, id, len);
++#ifdef CONFIG_80211N_HT
++		dump_ht_cap_ie(sel, pos, len + 2);
++#endif
++		dump_wps_ie(sel, pos, len + 2);
++#ifdef CONFIG_P2P
++		dump_p2p_ie(sel, pos, len + 2);
++#ifdef CONFIG_WFD
++		dump_wfd_ie(sel, pos, len + 2);
++#endif
++#endif
++
++		pos += (2 + len);
++	}
++}
++
++void dump_wps_ie(void *sel, u8 *ie, u32 ie_len)
++{
++	u8 *pos = (u8 *)ie;
++	u16 id;
++	u16 len;
++
++	u8 *wps_ie;
++	uint wps_ielen;
++
++	wps_ie = rtw_get_wps_ie(ie, ie_len, NULL, &wps_ielen);
++	if (wps_ie != ie || wps_ielen == 0)
++		return;
++
++	pos += 6;
++	while (pos - ie + 4 <= ie_len) {
++		id = RTW_GET_BE16(pos);
++		len = RTW_GET_BE16(pos + 2);
++
++		RTW_PRINT_SEL(sel, "%s ID:0x%04x, LEN:%u%s\n", __func__, id, len
++			, ((pos - ie + 4 + len) <= ie_len) ? "" : "(exceed ie_len)");
++
++		pos += (4 + len);
++	}
++}
++
++/**
++ * rtw_ies_get_chbw - get operation ch, bw, offset from IEs of BSS.
++ * @ies: pointer of the first tlv IE
++ * @ies_len: length of @ies
++ * @ch: pointer of ch, used as output
++ * @bw: pointer of bw, used as output
++ * @offset: pointer of offset, used as output
++ */
++void rtw_ies_get_chbw(u8 *ies, int ies_len, u8 *ch, u8 *bw, u8 *offset)
++{
++	u8 *p;
++	int	ie_len;
++
++	*ch = 0;
++	*bw = CHANNEL_WIDTH_20;
++	*offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++	p = rtw_get_ie(ies, _DSSET_IE_, &ie_len, ies_len);
++	if (p && ie_len > 0)
++		*ch = *(p + 2);
++
++#ifdef CONFIG_80211N_HT
++	{
++		u8 *ht_cap_ie, *ht_op_ie;
++		int ht_cap_ielen, ht_op_ielen;
++
++		ht_cap_ie = rtw_get_ie(ies, EID_HTCapability, &ht_cap_ielen, ies_len);
++		if (ht_cap_ie && ht_cap_ielen) {
++			if (GET_HT_CAP_ELE_CHL_WIDTH(ht_cap_ie + 2))
++				*bw = CHANNEL_WIDTH_40;
++		}
++
++		ht_op_ie = rtw_get_ie(ies, EID_HTInfo, &ht_op_ielen, ies_len);
++		if (ht_op_ie && ht_op_ielen) {
++			if (*ch == 0)
++				*ch = GET_HT_OP_ELE_PRI_CHL(ht_op_ie + 2);
++			else if (*ch != 0 && *ch != GET_HT_OP_ELE_PRI_CHL(ht_op_ie + 2)) {
++				RTW_INFO("%s ch inconsistent, DSSS:%u, HT primary:%u\n"
++					, __func__, *ch, GET_HT_OP_ELE_PRI_CHL(ht_op_ie + 2));
++			}
++
++			if (!GET_HT_OP_ELE_STA_CHL_WIDTH(ht_op_ie + 2))
++				*bw = CHANNEL_WIDTH_20;
++
++			if (*bw == CHANNEL_WIDTH_40) {
++				switch (GET_HT_OP_ELE_2ND_CHL_OFFSET(ht_op_ie + 2)) {
++				case SCA:
++					*offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++					break;
++				case SCB:
++					*offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++					break;
++				}
++			}
++		}
++	}
++#endif /* CONFIG_80211N_HT */
++#ifdef CONFIG_80211AC_VHT
++	{
++		u8 *vht_op_ie;
++		int vht_op_ielen;
++
++		vht_op_ie = rtw_get_ie(ies, EID_VHTOperation, &vht_op_ielen, ies_len);
++		if (vht_op_ie && vht_op_ielen) {
++			/* enable VHT 80 before check enable HT40 or not */
++			if (GET_VHT_OPERATION_ELE_CHL_WIDTH(vht_op_ie + 2)  >=  1) {
++				/* for HT40, enable VHT80 */
++				if (*bw == CHANNEL_WIDTH_40)
++					*bw = CHANNEL_WIDTH_80;
++				/* for HT20, enable VHT20 */
++				else if (*bw == CHANNEL_WIDTH_20) {
++					/* modify VHT OP IE */
++					SET_VHT_OPERATION_ELE_CHL_WIDTH(vht_op_ie + 2, 0);
++					/* reset to 0 for VHT20 */
++					SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ1(vht_op_ie + 2, 0);
++					SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ2(vht_op_ie + 2, 0);
++				}
++			} else {
++				/*
++				  VHT OP WIDTH = 0  under HT20/HT40
++				  if REGSTY_BW_5G(pregistrypriv) < CHANNEL_WIDTH_80 in rtw_build_vht_operation_ie
++				*/
++			}
++		}
++	}
++#endif
++}
++
++void rtw_bss_get_chbw(WLAN_BSSID_EX *bss, u8 *ch, u8 *bw, u8 *offset)
++{
++	rtw_ies_get_chbw(bss->IEs + sizeof(NDIS_802_11_FIXED_IEs)
++		, bss->IELength - sizeof(NDIS_802_11_FIXED_IEs)
++		, ch, bw, offset);
++
++	if (*ch == 0)
++		*ch = bss->Configuration.DSConfig;
++	else if (*ch != bss->Configuration.DSConfig) {
++		RTW_INFO("inconsistent ch - ies:%u bss->Configuration.DSConfig:%u\n"
++			 , *ch, bss->Configuration.DSConfig);
++		*ch = bss->Configuration.DSConfig;
++		rtw_warn_on(1);
++	}
++}
++
++/**
++ * rtw_is_chbw_grouped - test if the two ch settings can be grouped together
++ * @ch_a: ch of set a
++ * @bw_a: bw of set a
++ * @offset_a: offset of set a
++ * @ch_b: ch of set b
++ * @bw_b: bw of set b
++ * @offset_b: offset of set b
++ */
++bool rtw_is_chbw_grouped(u8 ch_a, u8 bw_a, u8 offset_a
++			 , u8 ch_b, u8 bw_b, u8 offset_b)
++{
++	bool is_grouped = _FALSE;
++
++	if (ch_a != ch_b) {
++		/* ch is different */
++		goto exit;
++	} else if ((bw_a == CHANNEL_WIDTH_40 || bw_a == CHANNEL_WIDTH_80)
++		   && (bw_b == CHANNEL_WIDTH_40 || bw_b == CHANNEL_WIDTH_80)
++		  ) {
++		if (offset_a != offset_b)
++			goto exit;
++	}
++
++	is_grouped = _TRUE;
++
++exit:
++	return is_grouped;
++}
++
++/**
++ * rtw_sync_chbw - obey g_ch, adjust g_bw, g_offset, bw, offset
++ * @req_ch: pointer of the request ch, may be modified further
++ * @req_bw: pointer of the request bw, may be modified further
++ * @req_offset: pointer of the request offset, may be modified further
++ * @g_ch: pointer of the ongoing group ch
++ * @g_bw: pointer of the ongoing group bw, may be modified further
++ * @g_offset: pointer of the ongoing group offset, may be modified further
++ */
++void rtw_sync_chbw(u8 *req_ch, u8 *req_bw, u8 *req_offset
++		   , u8 *g_ch, u8 *g_bw, u8 *g_offset)
++{
++
++	*req_ch = *g_ch;
++
++	if (*req_bw == CHANNEL_WIDTH_80 && *g_ch <= 14) {
++		/*2.4G ch, downgrade to 40Mhz */
++		*req_bw = CHANNEL_WIDTH_40;
++	}
++
++	switch (*req_bw) {
++	case CHANNEL_WIDTH_80:
++		if (*g_bw == CHANNEL_WIDTH_40 || *g_bw == CHANNEL_WIDTH_80)
++			*req_offset = *g_offset;
++		else if (*g_bw == CHANNEL_WIDTH_20)
++			*req_offset = rtw_get_offset_by_ch(*req_ch);
++
++		if (*req_offset == HAL_PRIME_CHNL_OFFSET_DONT_CARE) {
++			RTW_ERR("%s req 80MHz BW without offset, down to 20MHz\n", __func__);
++			rtw_warn_on(1);
++			*req_bw = CHANNEL_WIDTH_20;
++		}
++		break;
++	case CHANNEL_WIDTH_40:
++		if (*g_bw == CHANNEL_WIDTH_40 || *g_bw == CHANNEL_WIDTH_80)
++			*req_offset = *g_offset;
++		else if (*g_bw == CHANNEL_WIDTH_20)
++			*req_offset = rtw_get_offset_by_ch(*req_ch);
++
++		if (*req_offset == HAL_PRIME_CHNL_OFFSET_DONT_CARE) {
++			RTW_ERR("%s req 40MHz BW without offset, down to 20MHz\n", __func__);
++			rtw_warn_on(1);
++			*req_bw = CHANNEL_WIDTH_20;
++		}
++		break;
++	case CHANNEL_WIDTH_20:
++		*req_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	default:
++		RTW_ERR("%s req unsupported BW:%u\n", __func__, *req_bw);
++		rtw_warn_on(1);
++	}
++
++	if (*req_bw > *g_bw) {
++		*g_bw = *req_bw;
++		*g_offset = *req_offset;
++	}
++}
++
++/**
++ * rtw_get_p2p_merged_len - Get merged ie length from muitiple p2p ies.
++ * @in_ie: Pointer of the first p2p ie
++ * @in_len: Total len of muiltiple p2p ies
++ * Returns: Length of merged p2p ie length
++ */
++u32 rtw_get_p2p_merged_ies_len(u8 *in_ie, u32 in_len)
++{
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 OUI[4] = { 0x50, 0x6f, 0x9a, 0x09 };
++	int i = 0;
++	int j = 0, len = 0;
++
++	while (i < in_len) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(in_ie + i);
++
++		if (pIE->ElementID == _VENDOR_SPECIFIC_IE_ && _rtw_memcmp(pIE->data, OUI, 4)) {
++			len += pIE->Length - 4; /* 4 is P2P OUI length, don't count it in this loop */
++		}
++
++		i += (pIE->Length + 2);
++	}
++
++	return len + 4;	/* Append P2P OUI length at last. */
++}
++
++/**
++ * rtw_p2p_merge_ies - Merge muitiple p2p ies into one
++ * @in_ie: Pointer of the first p2p ie
++ * @in_len: Total len of muiltiple p2p ies
++ * @merge_ie: Pointer of merged ie
++ * Returns: Length of merged p2p ie
++ */
++int rtw_p2p_merge_ies(u8 *in_ie, u32 in_len, u8 *merge_ie)
++{
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 len = 0;
++	u8 OUI[4] = { 0x50, 0x6f, 0x9a, 0x09 };
++	u8 ELOUI[6] = { 0xDD, 0x00, 0x50, 0x6f, 0x9a, 0x09 };	/* EID;Len;OUI, Len would copy at the end of function */
++	int i = 0;
++
++	if (merge_ie != NULL) {
++		/* Set first P2P OUI */
++		_rtw_memcpy(merge_ie, ELOUI, 6);
++		merge_ie += 6;
++
++		while (i < in_len) {
++			pIE = (PNDIS_802_11_VARIABLE_IEs)(in_ie + i);
++
++			/* Take out the rest of P2P OUIs */
++			if (pIE->ElementID == _VENDOR_SPECIFIC_IE_ && _rtw_memcmp(pIE->data, OUI, 4)) {
++				_rtw_memcpy(merge_ie, pIE->data + 4, pIE->Length - 4);
++				len += pIE->Length - 4;
++				merge_ie += pIE->Length - 4;
++			}
++
++			i += (pIE->Length + 2);
++		}
++
++		return len + 4;	/* 4 is for P2P OUI */
++
++	}
++
++	return 0;
++}
++
++void dump_p2p_ie(void *sel, u8 *ie, u32 ie_len)
++{
++	u8 *pos = (u8 *)ie;
++	u8 id;
++	u16 len;
++
++	u8 *p2p_ie;
++	uint p2p_ielen;
++
++	p2p_ie = rtw_get_p2p_ie(ie, ie_len, NULL, &p2p_ielen);
++	if (p2p_ie != ie || p2p_ielen == 0)
++		return;
++
++	pos += 6;
++	while (pos - ie + 3 <= ie_len) {
++		id = *pos;
++		len = RTW_GET_LE16(pos + 1);
++
++		RTW_PRINT_SEL(sel, "%s ID:%u, LEN:%u%s\n", __func__, id, len
++			, ((pos - ie + 3 + len) <= ie_len) ? "" : "(exceed ie_len)");
++
++		pos += (3 + len);
++	}
++}
++
++/**
++ * rtw_get_p2p_ie - Search P2P IE from a series of IEs
++ * @in_ie: Address of IEs to search
++ * @in_len: Length limit from in_ie
++ * @p2p_ie: If not NULL and P2P IE is found, P2P IE will be copied to the buf starting from p2p_ie
++ * @p2p_ielen: If not NULL and P2P IE is found, will set to the length of the entire P2P IE
++ *
++ * Returns: The address of the P2P IE found, or NULL
++ */
++u8 *rtw_get_p2p_ie(u8 *in_ie, int in_len, u8 *p2p_ie, uint *p2p_ielen)
++{
++	uint cnt;
++	u8 *p2p_ie_ptr = NULL;
++	u8 eid, p2p_oui[4] = {0x50, 0x6F, 0x9A, 0x09};
++
++	if (p2p_ielen)
++		*p2p_ielen = 0;
++
++	if (!in_ie || in_len < 0) {
++		rtw_warn_on(1);
++		return p2p_ie_ptr;
++	}
++
++	if (in_len <= 0)
++		return p2p_ie_ptr;
++
++	cnt = 0;
++
++	while (cnt + 1 + 4 < in_len) {
++		eid = in_ie[cnt];
++
++		if (cnt + 1 + 4 >= MAX_IE_SZ) {
++			rtw_warn_on(1);
++			return NULL;
++		}
++
++		if (eid == WLAN_EID_VENDOR_SPECIFIC && _rtw_memcmp(&in_ie[cnt + 2], p2p_oui, 4) == _TRUE) {
++			p2p_ie_ptr = in_ie + cnt;
++
++			if (p2p_ie)
++				_rtw_memcpy(p2p_ie, &in_ie[cnt], in_ie[cnt + 1] + 2);
++
++			if (p2p_ielen)
++				*p2p_ielen = in_ie[cnt + 1] + 2;
++
++			break;
++		} else
++			cnt += in_ie[cnt + 1] + 2;
++
++	}
++
++	return p2p_ie_ptr;
++}
++
++/**
++ * rtw_get_p2p_attr - Search a specific P2P attribute from a given P2P IE
++ * @p2p_ie: Address of P2P IE to search
++ * @p2p_ielen: Length limit from p2p_ie
++ * @target_attr_id: The attribute ID of P2P attribute to search
++ * @buf_attr: If not NULL and the P2P attribute is found, P2P attribute will be copied to the buf starting from buf_attr
++ * @len_attr: If not NULL and the P2P attribute is found, will set to the length of the entire P2P attribute
++ *
++ * Returns: the address of the specific WPS attribute found, or NULL
++ */
++u8 *rtw_get_p2p_attr(u8 *p2p_ie, uint p2p_ielen, u8 target_attr_id , u8 *buf_attr, u32 *len_attr)
++{
++	u8 *attr_ptr = NULL;
++	u8 *target_attr_ptr = NULL;
++	u8 p2p_oui[4] = {0x50, 0x6F, 0x9A, 0x09};
++
++	if (len_attr)
++		*len_attr = 0;
++
++	if (!p2p_ie
++	    || p2p_ielen <= 6
++	    || (p2p_ie[0] != WLAN_EID_VENDOR_SPECIFIC)
++	    || (_rtw_memcmp(p2p_ie + 2, p2p_oui, 4) != _TRUE))
++		return attr_ptr;
++
++	/* 6 = 1(Element ID) + 1(Length) + 3 (OUI) + 1(OUI Type) */
++	attr_ptr = p2p_ie + 6; /* goto first attr */
++
++	while ((attr_ptr - p2p_ie + 3) <= p2p_ielen) {
++		/* 3 = 1(Attribute ID) + 2(Length) */
++		u8 attr_id = *attr_ptr;
++		u16 attr_data_len = RTW_GET_LE16(attr_ptr + 1);
++		u16 attr_len = attr_data_len + 3;
++
++		if (0)
++			RTW_INFO("%s attr_ptr:%p, id:%u, length:%u\n", __func__, attr_ptr, attr_id, attr_data_len);
++
++		if ((attr_ptr - p2p_ie + attr_len) > p2p_ielen)
++			break;
++
++		if (attr_id == target_attr_id) {
++			target_attr_ptr = attr_ptr;
++
++			if (buf_attr)
++				_rtw_memcpy(buf_attr, attr_ptr, attr_len);
++
++			if (len_attr)
++				*len_attr = attr_len;
++
++			break;
++		} else
++			attr_ptr += attr_len;
++	}
++
++	return target_attr_ptr;
++}
++
++/**
++ * rtw_get_p2p_attr_content - Search a specific P2P attribute content from a given P2P IE
++ * @p2p_ie: Address of P2P IE to search
++ * @p2p_ielen: Length limit from p2p_ie
++ * @target_attr_id: The attribute ID of P2P attribute to search
++ * @buf_content: If not NULL and the P2P attribute is found, P2P attribute content will be copied to the buf starting from buf_content
++ * @len_content: If not NULL and the P2P attribute is found, will set to the length of the P2P attribute content
++ *
++ * Returns: the address of the specific P2P attribute content found, or NULL
++ */
++u8 *rtw_get_p2p_attr_content(u8 *p2p_ie, uint p2p_ielen, u8 target_attr_id , u8 *buf_content, uint *len_content)
++{
++	u8 *attr_ptr;
++	u32 attr_len;
++
++	if (len_content)
++		*len_content = 0;
++
++	attr_ptr = rtw_get_p2p_attr(p2p_ie, p2p_ielen, target_attr_id, NULL, &attr_len);
++
++	if (attr_ptr && attr_len) {
++		if (buf_content)
++			_rtw_memcpy(buf_content, attr_ptr + 3, attr_len - 3);
++
++		if (len_content)
++			*len_content = attr_len - 3;
++
++		return attr_ptr + 3;
++	}
++
++	return NULL;
++}
++
++u32 rtw_set_p2p_attr_content(u8 *pbuf, u8 attr_id, u16 attr_len, u8 *pdata_attr)
++{
++	u32 a_len;
++
++	*pbuf = attr_id;
++
++	/* *(u16*)(pbuf + 1) = cpu_to_le16(attr_len); */
++	RTW_PUT_LE16(pbuf + 1, attr_len);
++
++	if (pdata_attr)
++		_rtw_memcpy(pbuf + 3, pdata_attr, attr_len);
++
++	a_len = attr_len + 3;
++
++	return a_len;
++}
++
++uint rtw_del_p2p_ie(u8 *ies, uint ies_len_ori, const char *msg)
++{
++#define DBG_DEL_P2P_IE 0
++
++	u8 *target_ie;
++	u32 target_ie_len;
++	uint ies_len = ies_len_ori;
++	int index = 0;
++
++	while (1) {
++		target_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &target_ie_len);
++		if (target_ie && target_ie_len) {
++			u8 *next_ie = target_ie + target_ie_len;
++			uint remain_len = ies_len - (next_ie - ies);
++
++			if (DBG_DEL_P2P_IE && msg) {
++				RTW_INFO("%s %d before\n", __func__, index);
++				dump_ies(RTW_DBGDUMP, ies, ies_len);
++
++				RTW_INFO("ies:%p, ies_len:%u\n", ies, ies_len);
++				RTW_INFO("target_ie:%p, target_ie_len:%u\n", target_ie, target_ie_len);
++				RTW_INFO("next_ie:%p, remain_len:%u\n", next_ie, remain_len);
++			}
++
++			_rtw_memmove(target_ie, next_ie, remain_len);
++			_rtw_memset(target_ie + remain_len, 0, target_ie_len);
++			ies_len -= target_ie_len;
++
++			if (DBG_DEL_P2P_IE && msg) {
++				RTW_INFO("%s %d after\n", __func__, index);
++				dump_ies(RTW_DBGDUMP, ies, ies_len);
++			}
++
++			index++;
++		} else
++			break;
++	}
++
++	return ies_len;
++}
++
++uint rtw_del_p2p_attr(u8 *ie, uint ielen_ori, u8 attr_id)
++{
++#define DBG_DEL_P2P_ATTR 0
++
++	u8 *target_attr;
++	u32 target_attr_len;
++	uint ielen = ielen_ori;
++	int index = 0;
++
++	while (1) {
++		target_attr = rtw_get_p2p_attr(ie, ielen, attr_id, NULL, &target_attr_len);
++		if (target_attr && target_attr_len) {
++			u8 *next_attr = target_attr + target_attr_len;
++			uint remain_len = ielen - (next_attr - ie);
++
++			if (DBG_DEL_P2P_ATTR) {
++				RTW_INFO("%s %d before\n", __func__, index);
++				dump_ies(RTW_DBGDUMP, ie, ielen);
++
++				RTW_INFO("ie:%p, ielen:%u\n", ie, ielen);
++				RTW_INFO("target_attr:%p, target_attr_len:%u\n", target_attr, target_attr_len);
++				RTW_INFO("next_attr:%p, remain_len:%u\n", next_attr, remain_len);
++			}
++
++			_rtw_memmove(target_attr, next_attr, remain_len);
++			_rtw_memset(target_attr + remain_len, 0, target_attr_len);
++			*(ie + 1) -= target_attr_len;
++			ielen -= target_attr_len;
++
++			if (DBG_DEL_P2P_ATTR) {
++				RTW_INFO("%s %d after\n", __func__, index);
++				dump_ies(RTW_DBGDUMP, ie, ielen);
++			}
++
++			index++;
++		} else
++			break;
++	}
++
++	return ielen;
++}
++
++inline u8 *rtw_bss_ex_get_p2p_ie(WLAN_BSSID_EX *bss_ex, u8 *p2p_ie, uint *p2p_ielen)
++{
++	return rtw_get_p2p_ie(BSS_EX_TLV_IES(bss_ex), BSS_EX_TLV_IES_LEN(bss_ex), p2p_ie, p2p_ielen);
++}
++
++void rtw_bss_ex_del_p2p_ie(WLAN_BSSID_EX *bss_ex)
++{
++#define DBG_BSS_EX_DEL_P2P_IE 0
++
++	u8 *ies = BSS_EX_TLV_IES(bss_ex);
++	uint ies_len_ori = BSS_EX_TLV_IES_LEN(bss_ex);
++	uint ies_len;
++
++	ies_len = rtw_del_p2p_ie(ies, ies_len_ori, DBG_BSS_EX_DEL_P2P_IE ? __func__ : NULL);
++	bss_ex->IELength -= ies_len_ori - ies_len;
++}
++
++void rtw_bss_ex_del_p2p_attr(WLAN_BSSID_EX *bss_ex, u8 attr_id)
++{
++#define DBG_BSS_EX_DEL_P2P_ATTR 0
++
++	u8 *ies = BSS_EX_TLV_IES(bss_ex);
++	uint ies_len = BSS_EX_TLV_IES_LEN(bss_ex);
++
++	u8 *ie;
++	uint ie_len, ie_len_ori;
++
++	int index = 0;
++
++	while (1) {
++		ie = rtw_get_p2p_ie(ies, ies_len, NULL, &ie_len_ori);
++		if (ie) {
++			u8 *next_ie_ori = ie + ie_len_ori;
++			uint remain_len = bss_ex->IELength - (next_ie_ori - bss_ex->IEs);
++			u8 has_target_attr = 0;
++
++			if (DBG_BSS_EX_DEL_P2P_ATTR) {
++				if (rtw_get_p2p_attr(ie, ie_len_ori, attr_id, NULL, NULL)) {
++					RTW_INFO("%s %d before\n", __func__, index);
++					dump_ies(RTW_DBGDUMP, BSS_EX_TLV_IES(bss_ex), BSS_EX_TLV_IES_LEN(bss_ex));
++
++					RTW_INFO("ies:%p, ies_len:%u\n", ies, ies_len);
++					RTW_INFO("ie:%p, ie_len_ori:%u\n", ie, ie_len_ori);
++					RTW_INFO("next_ie_ori:%p, remain_len:%u\n", next_ie_ori, remain_len);
++					has_target_attr = 1;
++				}
++			}
++
++			ie_len = rtw_del_p2p_attr(ie, ie_len_ori, attr_id);
++			if (ie_len != ie_len_ori) {
++				u8 *next_ie = ie + ie_len;
++
++				_rtw_memmove(next_ie, next_ie_ori, remain_len);
++				_rtw_memset(next_ie + remain_len, 0, ie_len_ori - ie_len);
++				bss_ex->IELength -= ie_len_ori - ie_len;
++
++				ies = next_ie;
++			} else
++				ies = next_ie_ori;
++
++			if (DBG_BSS_EX_DEL_P2P_ATTR) {
++				if (has_target_attr) {
++					RTW_INFO("%s %d after\n", __func__, index);
++					dump_ies(RTW_DBGDUMP, BSS_EX_TLV_IES(bss_ex), BSS_EX_TLV_IES_LEN(bss_ex));
++				}
++			}
++
++			ies_len = remain_len;
++
++			index++;
++		} else
++			break;
++	}
++}
++
++void dump_wfd_ie(void *sel, u8 *ie, u32 ie_len)
++{
++	u8 *pos = (u8 *)ie;
++	u8 id;
++	u16 len;
++
++	u8 *wfd_ie;
++	uint wfd_ielen;
++
++	wfd_ie = rtw_get_wfd_ie(ie, ie_len, NULL, &wfd_ielen);
++	if (wfd_ie != ie || wfd_ielen == 0)
++		return;
++
++	pos += 6;
++	while (pos - ie + 3 <= ie_len) {
++		id = *pos;
++		len = RTW_GET_BE16(pos + 1);
++
++		RTW_PRINT_SEL(sel, "%s ID:%u, LEN:%u%s\n", __func__, id, len
++			, ((pos - ie + 3 + len) <= ie_len) ? "" : "(exceed ie_len)");
++
++		pos += (3 + len);
++	}
++}
++
++/**
++ * rtw_get_wfd_ie - Search WFD IE from a series of IEs
++ * @in_ie: Address of IEs to search
++ * @in_len: Length limit from in_ie
++ * @wfd_ie: If not NULL and WFD IE is found, WFD IE will be copied to the buf starting from wfd_ie
++ * @wfd_ielen: If not NULL and WFD IE is found, will set to the length of the entire WFD IE
++ *
++ * Returns: The address of the P2P IE found, or NULL
++ */
++u8 *rtw_get_wfd_ie(u8 *in_ie, int in_len, u8 *wfd_ie, uint *wfd_ielen)
++{
++	uint cnt;
++	u8 *wfd_ie_ptr = NULL;
++	u8 eid, wfd_oui[4] = {0x50, 0x6F, 0x9A, 0x0A};
++
++	if (wfd_ielen)
++		*wfd_ielen = 0;
++
++	if (!in_ie || in_len < 0) {
++		rtw_warn_on(1);
++		return wfd_ie_ptr;
++	}
++
++	if (in_len <= 0)
++		return wfd_ie_ptr;
++
++	cnt = 0;
++
++	while (cnt + 1 + 4 < in_len) {
++		eid = in_ie[cnt];
++
++		if (cnt + 1 + 4 >= MAX_IE_SZ) {
++			rtw_warn_on(1);
++			return NULL;
++		}
++
++		if (eid == WLAN_EID_VENDOR_SPECIFIC && _rtw_memcmp(&in_ie[cnt + 2], wfd_oui, 4) == _TRUE) {
++			wfd_ie_ptr = in_ie + cnt;
++
++			if (wfd_ie)
++				_rtw_memcpy(wfd_ie, &in_ie[cnt], in_ie[cnt + 1] + 2);
++
++			if (wfd_ielen)
++				*wfd_ielen = in_ie[cnt + 1] + 2;
++
++			break;
++		} else
++			cnt += in_ie[cnt + 1] + 2;
++
++	}
++
++	return wfd_ie_ptr;
++}
++
++/**
++ * rtw_get_wfd_attr - Search a specific WFD attribute from a given WFD IE
++ * @wfd_ie: Address of WFD IE to search
++ * @wfd_ielen: Length limit from wfd_ie
++ * @target_attr_id: The attribute ID of WFD attribute to search
++ * @buf_attr: If not NULL and the WFD attribute is found, WFD attribute will be copied to the buf starting from buf_attr
++ * @len_attr: If not NULL and the WFD attribute is found, will set to the length of the entire WFD attribute
++ *
++ * Returns: the address of the specific WPS attribute found, or NULL
++ */
++u8 *rtw_get_wfd_attr(u8 *wfd_ie, uint wfd_ielen, u8 target_attr_id, u8 *buf_attr, u32 *len_attr)
++{
++	u8 *attr_ptr = NULL;
++	u8 *target_attr_ptr = NULL;
++	u8 wfd_oui[4] = {0x50, 0x6F, 0x9A, 0x0A};
++
++	if (len_attr)
++		*len_attr = 0;
++
++	if (!wfd_ie
++	    || wfd_ielen <= 6
++	    || (wfd_ie[0] != WLAN_EID_VENDOR_SPECIFIC)
++	    || (_rtw_memcmp(wfd_ie + 2, wfd_oui, 4) != _TRUE))
++		return attr_ptr;
++
++	/* 6 = 1(Element ID) + 1(Length) + 3 (OUI) + 1(OUI Type) */
++	attr_ptr = wfd_ie + 6; /* goto first attr */
++
++	while ((attr_ptr - wfd_ie + 3) <= wfd_ielen) {
++		/* 3 = 1(Attribute ID) + 2(Length) */
++		u8 attr_id = *attr_ptr;
++		u16 attr_data_len = RTW_GET_BE16(attr_ptr + 1);
++		u16 attr_len = attr_data_len + 3;
++
++		if (0)
++			RTW_INFO("%s attr_ptr:%p, id:%u, length:%u\n", __func__, attr_ptr, attr_id, attr_data_len);
++
++		if ((attr_ptr - wfd_ie + attr_len) > wfd_ielen)
++			break;
++
++		if (attr_id == target_attr_id) {
++			target_attr_ptr = attr_ptr;
++
++			if (buf_attr)
++				_rtw_memcpy(buf_attr, attr_ptr, attr_len);
++
++			if (len_attr)
++				*len_attr = attr_len;
++
++			break;
++		} else
++			attr_ptr += attr_len;
++	}
++
++	return target_attr_ptr;
++}
++
++/**
++ * rtw_get_wfd_attr_content - Search a specific WFD attribute content from a given WFD IE
++ * @wfd_ie: Address of WFD IE to search
++ * @wfd_ielen: Length limit from wfd_ie
++ * @target_attr_id: The attribute ID of WFD attribute to search
++ * @buf_content: If not NULL and the WFD attribute is found, WFD attribute content will be copied to the buf starting from buf_content
++ * @len_content: If not NULL and the WFD attribute is found, will set to the length of the WFD attribute content
++ *
++ * Returns: the address of the specific WFD attribute content found, or NULL
++ */
++u8 *rtw_get_wfd_attr_content(u8 *wfd_ie, uint wfd_ielen, u8 target_attr_id, u8 *buf_content, uint *len_content)
++{
++	u8 *attr_ptr;
++	u32 attr_len;
++
++	if (len_content)
++		*len_content = 0;
++
++	attr_ptr = rtw_get_wfd_attr(wfd_ie, wfd_ielen, target_attr_id, NULL, &attr_len);
++
++	if (attr_ptr && attr_len) {
++		if (buf_content)
++			_rtw_memcpy(buf_content, attr_ptr + 3, attr_len - 3);
++
++		if (len_content)
++			*len_content = attr_len - 3;
++
++		return attr_ptr + 3;
++	}
++
++	return NULL;
++}
++
++uint rtw_del_wfd_ie(u8 *ies, uint ies_len_ori, const char *msg)
++{
++#define DBG_DEL_WFD_IE 0
++
++	u8 *target_ie;
++	u32 target_ie_len;
++	uint ies_len = ies_len_ori;
++	int index = 0;
++
++	while (1) {
++		target_ie = rtw_get_wfd_ie(ies, ies_len, NULL, &target_ie_len);
++		if (target_ie && target_ie_len) {
++			u8 *next_ie = target_ie + target_ie_len;
++			uint remain_len = ies_len - (next_ie - ies);
++
++			if (DBG_DEL_WFD_IE && msg) {
++				RTW_INFO("%s %d before\n", __func__, index);
++				dump_ies(RTW_DBGDUMP, ies, ies_len);
++
++				RTW_INFO("ies:%p, ies_len:%u\n", ies, ies_len);
++				RTW_INFO("target_ie:%p, target_ie_len:%u\n", target_ie, target_ie_len);
++				RTW_INFO("next_ie:%p, remain_len:%u\n", next_ie, remain_len);
++			}
++
++			_rtw_memmove(target_ie, next_ie, remain_len);
++			_rtw_memset(target_ie + remain_len, 0, target_ie_len);
++			ies_len -= target_ie_len;
++
++			if (DBG_DEL_WFD_IE && msg) {
++				RTW_INFO("%s %d after\n", __func__, index);
++				dump_ies(RTW_DBGDUMP, ies, ies_len);
++			}
++
++			index++;
++		} else
++			break;
++	}
++
++	return ies_len;
++}
++
++uint rtw_del_wfd_attr(u8 *ie, uint ielen_ori, u8 attr_id)
++{
++#define DBG_DEL_WFD_ATTR 0
++
++	u8 *target_attr;
++	u32 target_attr_len;
++	uint ielen = ielen_ori;
++	int index = 0;
++
++	while (1) {
++		target_attr = rtw_get_wfd_attr(ie, ielen, attr_id, NULL, &target_attr_len);
++		if (target_attr && target_attr_len) {
++			u8 *next_attr = target_attr + target_attr_len;
++			uint remain_len = ielen - (next_attr - ie);
++
++			if (DBG_DEL_WFD_ATTR) {
++				RTW_INFO("%s %d before\n", __func__, index);
++				dump_ies(RTW_DBGDUMP, ie, ielen);
++
++				RTW_INFO("ie:%p, ielen:%u\n", ie, ielen);
++				RTW_INFO("target_attr:%p, target_attr_len:%u\n", target_attr, target_attr_len);
++				RTW_INFO("next_attr:%p, remain_len:%u\n", next_attr, remain_len);
++			}
++
++			_rtw_memmove(target_attr, next_attr, remain_len);
++			_rtw_memset(target_attr + remain_len, 0, target_attr_len);
++			*(ie + 1) -= target_attr_len;
++			ielen -= target_attr_len;
++
++			if (DBG_DEL_WFD_ATTR) {
++				RTW_INFO("%s %d after\n", __func__, index);
++				dump_ies(RTW_DBGDUMP, ie, ielen);
++			}
++
++			index++;
++		} else
++			break;
++	}
++
++	return ielen;
++}
++
++inline u8 *rtw_bss_ex_get_wfd_ie(WLAN_BSSID_EX *bss_ex, u8 *wfd_ie, uint *wfd_ielen)
++{
++	return rtw_get_wfd_ie(BSS_EX_TLV_IES(bss_ex), BSS_EX_TLV_IES_LEN(bss_ex), wfd_ie, wfd_ielen);
++}
++
++void rtw_bss_ex_del_wfd_ie(WLAN_BSSID_EX *bss_ex)
++{
++#define DBG_BSS_EX_DEL_WFD_IE 0
++	u8 *ies = BSS_EX_TLV_IES(bss_ex);
++	uint ies_len_ori = BSS_EX_TLV_IES_LEN(bss_ex);
++	uint ies_len;
++
++	ies_len = rtw_del_wfd_ie(ies, ies_len_ori, DBG_BSS_EX_DEL_WFD_IE ? __func__ : NULL);
++	bss_ex->IELength -= ies_len_ori - ies_len;
++}
++
++void rtw_bss_ex_del_wfd_attr(WLAN_BSSID_EX *bss_ex, u8 attr_id)
++{
++#define DBG_BSS_EX_DEL_WFD_ATTR 0
++
++	u8 *ies = BSS_EX_TLV_IES(bss_ex);
++	uint ies_len = BSS_EX_TLV_IES_LEN(bss_ex);
++
++	u8 *ie;
++	uint ie_len, ie_len_ori;
++
++	int index = 0;
++
++	while (1) {
++		ie = rtw_get_wfd_ie(ies, ies_len, NULL, &ie_len_ori);
++		if (ie) {
++			u8 *next_ie_ori = ie + ie_len_ori;
++			uint remain_len = bss_ex->IELength - (next_ie_ori - bss_ex->IEs);
++			u8 has_target_attr = 0;
++
++			if (DBG_BSS_EX_DEL_WFD_ATTR) {
++				if (rtw_get_wfd_attr(ie, ie_len_ori, attr_id, NULL, NULL)) {
++					RTW_INFO("%s %d before\n", __func__, index);
++					dump_ies(RTW_DBGDUMP, BSS_EX_TLV_IES(bss_ex), BSS_EX_TLV_IES_LEN(bss_ex));
++
++					RTW_INFO("ies:%p, ies_len:%u\n", ies, ies_len);
++					RTW_INFO("ie:%p, ie_len_ori:%u\n", ie, ie_len_ori);
++					RTW_INFO("next_ie_ori:%p, remain_len:%u\n", next_ie_ori, remain_len);
++					has_target_attr = 1;
++				}
++			}
++
++			ie_len = rtw_del_wfd_attr(ie, ie_len_ori, attr_id);
++			if (ie_len != ie_len_ori) {
++				u8 *next_ie = ie + ie_len;
++
++				_rtw_memmove(next_ie, next_ie_ori, remain_len);
++				_rtw_memset(next_ie + remain_len, 0, ie_len_ori - ie_len);
++				bss_ex->IELength -= ie_len_ori - ie_len;
++
++				ies = next_ie;
++			} else
++				ies = next_ie_ori;
++
++			if (DBG_BSS_EX_DEL_WFD_ATTR) {
++				if (has_target_attr) {
++					RTW_INFO("%s %d after\n", __func__, index);
++					dump_ies(RTW_DBGDUMP, BSS_EX_TLV_IES(bss_ex), BSS_EX_TLV_IES_LEN(bss_ex));
++				}
++			}
++
++			ies_len = remain_len;
++
++			index++;
++		} else
++			break;
++	}
++}
++
++/* Baron adds to avoid FreeBSD warning */
++int ieee80211_is_empty_essid(const char *essid, int essid_len)
++{
++	/* Single white space is for Linksys APs */
++	if (essid_len == 1 && essid[0] == ' ')
++		return 1;
++
++	/* Otherwise, if the entire essid is 0, we assume it is hidden */
++	while (essid_len) {
++		essid_len--;
++		if (essid[essid_len] != '\0')
++			return 0;
++	}
++
++	return 1;
++}
++
++int ieee80211_get_hdrlen(u16 fc)
++{
++	int hdrlen = 24;
++
++	switch (WLAN_FC_GET_TYPE(fc)) {
++	case RTW_IEEE80211_FTYPE_DATA:
++		if (fc & RTW_IEEE80211_STYPE_QOS_DATA)
++			hdrlen += 2;
++		if ((fc & RTW_IEEE80211_FCTL_FROMDS) && (fc & RTW_IEEE80211_FCTL_TODS))
++			hdrlen += 6; /* Addr4 */
++		break;
++	case RTW_IEEE80211_FTYPE_CTL:
++		switch (WLAN_FC_GET_STYPE(fc)) {
++		case RTW_IEEE80211_STYPE_CTS:
++		case RTW_IEEE80211_STYPE_ACK:
++			hdrlen = 10;
++			break;
++		default:
++			hdrlen = 16;
++			break;
++		}
++		break;
++	}
++
++	return hdrlen;
++}
++
++int rtw_get_cipher_info(struct wlan_network *pnetwork)
++{
++	u32 wpa_ielen;
++	unsigned char *pbuf;
++	int group_cipher = 0, pairwise_cipher = 0, is8021x = 0;
++	int ret = _FAIL;
++	pbuf = rtw_get_wpa_ie(&pnetwork->network.IEs[12], &wpa_ielen, pnetwork->network.IELength - 12);
++
++	if (pbuf && (wpa_ielen > 0)) {
++		if (_SUCCESS == rtw_parse_wpa_ie(pbuf, wpa_ielen + 2, &group_cipher, &pairwise_cipher, &is8021x)) {
++
++			pnetwork->BcnInfo.pairwise_cipher = pairwise_cipher;
++			pnetwork->BcnInfo.group_cipher = group_cipher;
++			pnetwork->BcnInfo.is_8021x = is8021x;
++			ret = _SUCCESS;
++		}
++	} else {
++
++		pbuf = rtw_get_wpa2_ie(&pnetwork->network.IEs[12], &wpa_ielen, pnetwork->network.IELength - 12);
++
++		if (pbuf && (wpa_ielen > 0)) {
++			if (_SUCCESS == rtw_parse_wpa2_ie(pbuf, wpa_ielen + 2, &group_cipher, &pairwise_cipher, &is8021x)) {
++				pnetwork->BcnInfo.pairwise_cipher = pairwise_cipher;
++				pnetwork->BcnInfo.group_cipher = group_cipher;
++				pnetwork->BcnInfo.is_8021x = is8021x;
++				ret = _SUCCESS;
++			}
++		}
++	}
++
++	return ret;
++}
++
++void rtw_get_bcn_info(struct wlan_network *pnetwork)
++{
++	unsigned short cap = 0;
++	u8 bencrypt = 0;
++	/* u8 wpa_ie[255],rsn_ie[255]; */
++	u16 wpa_len = 0, rsn_len = 0;
++	struct HT_info_element *pht_info = NULL;
++	struct rtw_ieee80211_ht_cap *pht_cap = NULL;
++	unsigned int		len;
++	unsigned char		*p;
++
++	_rtw_memcpy((u8 *)&cap, rtw_get_capability_from_ie(pnetwork->network.IEs), 2);
++	cap = le16_to_cpu(cap);
++	if (cap & WLAN_CAPABILITY_PRIVACY) {
++		bencrypt = 1;
++		pnetwork->network.Privacy = 1;
++	} else
++		pnetwork->BcnInfo.encryp_protocol = ENCRYP_PROTOCOL_OPENSYS;
++	rtw_get_sec_ie(pnetwork->network.IEs , pnetwork->network.IELength, NULL, &rsn_len, NULL, &wpa_len);
++
++	if (rsn_len > 0)
++		pnetwork->BcnInfo.encryp_protocol = ENCRYP_PROTOCOL_WPA2;
++	else if (wpa_len > 0)
++		pnetwork->BcnInfo.encryp_protocol = ENCRYP_PROTOCOL_WPA;
++	else {
++		if (bencrypt)
++			pnetwork->BcnInfo.encryp_protocol = ENCRYP_PROTOCOL_WEP;
++	}
++	rtw_get_cipher_info(pnetwork);
++
++	/* get bwmode and ch_offset */
++	/* parsing HT_CAP_IE */
++	p = rtw_get_ie(pnetwork->network.IEs + _FIXED_IE_LENGTH_, _HT_CAPABILITY_IE_, &len, pnetwork->network.IELength - _FIXED_IE_LENGTH_);
++	if (p && len > 0) {
++		pht_cap = (struct rtw_ieee80211_ht_cap *)(p + 2);
++		pnetwork->BcnInfo.ht_cap_info = pht_cap->cap_info;
++	} else
++		pnetwork->BcnInfo.ht_cap_info = 0;
++	/* parsing HT_INFO_IE */
++	p = rtw_get_ie(pnetwork->network.IEs + _FIXED_IE_LENGTH_, _HT_ADD_INFO_IE_, &len, pnetwork->network.IELength - _FIXED_IE_LENGTH_);
++	if (p && len > 0) {
++		pht_info = (struct HT_info_element *)(p + 2);
++		pnetwork->BcnInfo.ht_info_infos_0 = pht_info->infos[0];
++	} else
++		pnetwork->BcnInfo.ht_info_infos_0 = 0;
++}
++
++u8	rtw_ht_mcsset_to_nss(u8 *supp_mcs_set)
++{
++	u8 nss = 1;
++
++	if (supp_mcs_set[3])
++		nss = 4;
++	else if (supp_mcs_set[2])
++		nss = 3;
++	else if (supp_mcs_set[1])
++		nss = 2;
++	else if (supp_mcs_set[0])
++		nss = 1;
++	else
++		RTW_INFO("%s,%d, warning! supp_mcs_set is zero\n", __func__, __LINE__);
++	/* RTW_INFO("%s HT: %dSS\n", __FUNCTION__, nss); */
++	return nss;
++}
++
++/* show MCS rate, unit: 100Kbps */
++u16 rtw_mcs_rate(u8 rf_type, u8 bw_40MHz, u8 short_GI, unsigned char *MCS_rate)
++{
++	u16 max_rate = 0;
++
++	/*MCS_rate[2] = 3T3R , MCS_rate[1] = 2T2R , MCS_rate[0] = 1T1R*/
++	if (MCS_rate[2]) {
++		if (MCS_rate[2] & BIT(7))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 4500 : 4050) : ((short_GI) ? 2167 : 1950);
++		else if (MCS_rate[2] & BIT(6))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 4050 : 3645) : ((short_GI) ? 1950 : 1750);
++		else if (MCS_rate[2] & BIT(5))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 3600 : 3240) : ((short_GI) ? 1733 : 1560);
++		else if (MCS_rate[2] & BIT(4))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 2700 : 2430) : ((short_GI) ? 1300 : 1170);
++		else if (MCS_rate[2] & BIT(3))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 1800 : 1620) : ((short_GI) ? 867 : 780);
++		else if (MCS_rate[2] & BIT(2))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 1350 : 1215) : ((short_GI) ? 650 : 585);
++		else if (MCS_rate[2] & BIT(1))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 900 : 810) : ((short_GI) ? 433 : 390);
++		else if (MCS_rate[2] & BIT(0))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 450 : 405) : ((short_GI) ? 217 : 195);
++	} else if (MCS_rate[1]) {
++		if (MCS_rate[1] & BIT(7))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 3000 : 2700) : ((short_GI) ? 1444 : 1300);
++		else if (MCS_rate[1] & BIT(6))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 2700 : 2430) : ((short_GI) ? 1300 : 1170);
++		else if (MCS_rate[1] & BIT(5))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 2400 : 2160) : ((short_GI) ? 1156 : 1040);
++		else if (MCS_rate[1] & BIT(4))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 1800 : 1620) : ((short_GI) ? 867 : 780);
++		else if (MCS_rate[1] & BIT(3))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 1200 : 1080) : ((short_GI) ? 578 : 520);
++		else if (MCS_rate[1] & BIT(2))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 900 : 810) : ((short_GI) ? 433 : 390);
++		else if (MCS_rate[1] & BIT(1))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 600 : 540) : ((short_GI) ? 289 : 260);
++		else if (MCS_rate[1] & BIT(0))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 300 : 270) : ((short_GI) ? 144 : 130);
++	} else {
++		if (MCS_rate[0] & BIT(7))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 1500 : 1350) : ((short_GI) ? 722 : 650);
++		else if (MCS_rate[0] & BIT(6))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 1350 : 1215) : ((short_GI) ? 650 : 585);
++		else if (MCS_rate[0] & BIT(5))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 1200 : 1080) : ((short_GI) ? 578 : 520);
++		else if (MCS_rate[0] & BIT(4))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 900 : 810) : ((short_GI) ? 433 : 390);
++		else if (MCS_rate[0] & BIT(3))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 600 : 540) : ((short_GI) ? 289 : 260);
++		else if (MCS_rate[0] & BIT(2))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 450 : 405) : ((short_GI) ? 217 : 195);
++		else if (MCS_rate[0] & BIT(1))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 300 : 270) : ((short_GI) ? 144 : 130);
++		else if (MCS_rate[0] & BIT(0))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 150 : 135) : ((short_GI) ? 72 : 65);
++	}
++
++	return max_rate;
++}
++
++int rtw_action_frame_parse(const u8 *frame, u32 frame_len, u8 *category, u8 *action)
++{
++	const u8 *frame_body = frame + sizeof(struct rtw_ieee80211_hdr_3addr);
++	u16 fc;
++	u8 c;
++	u8 a = ACT_PUBLIC_MAX;
++
++	fc = le16_to_cpu(((struct rtw_ieee80211_hdr_3addr *)frame)->frame_ctl);
++
++	if ((fc & (RTW_IEEE80211_FCTL_FTYPE | RTW_IEEE80211_FCTL_STYPE))
++	    != (RTW_IEEE80211_FTYPE_MGMT | RTW_IEEE80211_STYPE_ACTION)
++	   )
++		return _FALSE;
++
++	c = frame_body[0];
++
++	switch (c) {
++	case RTW_WLAN_CATEGORY_P2P: /* vendor-specific */
++		break;
++	default:
++		a = frame_body[1];
++	}
++
++	if (category)
++		*category = c;
++	if (action)
++		*action = a;
++
++	return _TRUE;
++}
++
++static const char *_action_public_str[] = {
++	"ACT_PUB_BSSCOEXIST",
++	"ACT_PUB_DSE_ENABLE",
++	"ACT_PUB_DSE_DEENABLE",
++	"ACT_PUB_DSE_REG_LOCATION",
++	"ACT_PUB_EXT_CHL_SWITCH",
++	"ACT_PUB_DSE_MSR_REQ",
++	"ACT_PUB_DSE_MSR_RPRT",
++	"ACT_PUB_MP",
++	"ACT_PUB_DSE_PWR_CONSTRAINT",
++	"ACT_PUB_VENDOR",
++	"ACT_PUB_GAS_INITIAL_REQ",
++	"ACT_PUB_GAS_INITIAL_RSP",
++	"ACT_PUB_GAS_COMEBACK_REQ",
++	"ACT_PUB_GAS_COMEBACK_RSP",
++	"ACT_PUB_TDLS_DISCOVERY_RSP",
++	"ACT_PUB_LOCATION_TRACK",
++	"ACT_PUB_RSVD",
++};
++
++const char *action_public_str(u8 action)
++{
++	action = (action >= ACT_PUBLIC_MAX) ? ACT_PUBLIC_MAX : action;
++	return _action_public_str[action];
++}
++
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_io.c b/drivers/net/wireless/rtl8723du/core/rtw_io.c
+new file mode 100644
+index 0000000..683da16
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_io.c
+@@ -0,0 +1,701 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*
++
++The purpose of rtw_io.c
++
++a. provides the API
++
++b. provides the protocol engine
++
++c. provides the software interface between caller and the hardware interface
++
++
++Compiler Flag Option:
++
++1. CONFIG_SDIO_HCI:
++    a. USE_SYNC_IRP:  Only sync operations are provided.
++    b. USE_ASYNC_IRP:Both sync/async operations are provided.
++
++2. CONFIG_USB_HCI:
++   a. USE_ASYNC_IRP: Both sync/async operations are provided.
++
++3. CONFIG_CFIO_HCI:
++   b. USE_SYNC_IRP: Only sync operations are provided.
++
++
++Only sync read/rtw_write_mem operations are provided.
++
++jackson@realtek.com.tw
++
++*/
++
++#define _RTW_IO_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#if defined(PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++	#error "Shall be Linux or Windows, but not both!\n"
++#endif
++
++#ifdef CONFIG_SDIO_HCI
++	#define rtw_le16_to_cpu(val)		val
++	#define rtw_le32_to_cpu(val)		val
++	#define rtw_cpu_to_le16(val)		val
++	#define rtw_cpu_to_le32(val)		val
++#else
++	#define rtw_le16_to_cpu(val)		le16_to_cpu(val)
++	#define rtw_le32_to_cpu(val)		le32_to_cpu(val)
++	#define rtw_cpu_to_le16(val)		cpu_to_le16(val)
++	#define rtw_cpu_to_le32(val)		cpu_to_le32(val)
++#endif
++
++
++u8 _rtw_read8(_adapter *adapter, u32 addr)
++{
++	u8 r_val;
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	u8(*_read8)(struct intf_hdl *pintfhdl, u32 addr);
++	_read8 = pintfhdl->io_ops._read8;
++
++	r_val = _read8(pintfhdl, addr);
++	return r_val;
++}
++
++u16 _rtw_read16(_adapter *adapter, u32 addr)
++{
++	u16 r_val;
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	u16(*_read16)(struct intf_hdl *pintfhdl, u32 addr);
++	_read16 = pintfhdl->io_ops._read16;
++
++	r_val = _read16(pintfhdl, addr);
++	return rtw_le16_to_cpu(r_val);
++}
++
++u32 _rtw_read32(_adapter *adapter, u32 addr)
++{
++	u32 r_val;
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	u32(*_read32)(struct intf_hdl *pintfhdl, u32 addr);
++	_read32 = pintfhdl->io_ops._read32;
++
++	r_val = _read32(pintfhdl, addr);
++	return rtw_le32_to_cpu(r_val);
++
++}
++
++int _rtw_write8(_adapter *adapter, u32 addr, u8 val)
++{
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	int (*_write8)(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++	int ret;
++	_write8 = pintfhdl->io_ops._write8;
++
++	ret = _write8(pintfhdl, addr, val);
++
++	return RTW_STATUS_CODE(ret);
++}
++int _rtw_write16(_adapter *adapter, u32 addr, u16 val)
++{
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	int (*_write16)(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++	int ret;
++	_write16 = pintfhdl->io_ops._write16;
++
++	val = rtw_cpu_to_le16(val);
++	ret = _write16(pintfhdl, addr, val);
++
++	return RTW_STATUS_CODE(ret);
++}
++int _rtw_write32(_adapter *adapter, u32 addr, u32 val)
++{
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	int (*_write32)(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++	int ret;
++	_write32 = pintfhdl->io_ops._write32;
++
++	val = rtw_cpu_to_le32(val);
++	ret = _write32(pintfhdl, addr, val);
++
++	return RTW_STATUS_CODE(ret);
++}
++
++int _rtw_writeN(_adapter *adapter, u32 addr , u32 length , u8 *pdata)
++{
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl	*pintfhdl = (struct intf_hdl *)(&(pio_priv->intf));
++	int (*_writeN)(struct intf_hdl *pintfhdl, u32 addr, u32 length, u8 *pdata);
++	int ret;
++	_writeN = pintfhdl->io_ops._writeN;
++
++	ret = _writeN(pintfhdl, addr, length, pdata);
++
++	return RTW_STATUS_CODE(ret);
++}
++
++#ifdef CONFIG_SDIO_HCI
++u8 _rtw_sd_f0_read8(_adapter *adapter, u32 addr)
++{
++	u8 r_val = 0x00;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++	u8(*_sd_f0_read8)(struct intf_hdl *pintfhdl, u32 addr);
++
++	_sd_f0_read8 = pintfhdl->io_ops._sd_f0_read8;
++
++	if (_sd_f0_read8)
++		r_val = _sd_f0_read8(pintfhdl, addr);
++	else
++		RTW_WARN(FUNC_ADPT_FMT" _sd_f0_read8 callback is NULL\n", FUNC_ADPT_ARG(adapter));
++
++	return r_val;
++}
++
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++u8 _rtw_sd_iread8(_adapter *adapter, u32 addr)
++{
++	u8 r_val = 0x00;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++	u8(*_sd_iread8)(struct intf_hdl *pintfhdl, u32 addr);
++
++	_sd_iread8 = pintfhdl->io_ops._sd_iread8;
++
++	if (_sd_iread8)
++		r_val = _sd_iread8(pintfhdl, addr);
++	else
++		RTW_ERR(FUNC_ADPT_FMT" _sd_iread8 callback is NULL\n", FUNC_ADPT_ARG(adapter));
++
++	return r_val;
++}
++
++u16 _rtw_sd_iread16(_adapter *adapter, u32 addr)
++{
++	u16 r_val = 0x00;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++	u16(*_sd_iread16)(struct intf_hdl *pintfhdl, u32 addr);
++
++	_sd_iread16 = pintfhdl->io_ops._sd_iread16;
++
++	if (_sd_iread16)
++		r_val = _sd_iread16(pintfhdl, addr);
++	else
++		RTW_ERR(FUNC_ADPT_FMT" _sd_iread16 callback is NULL\n", FUNC_ADPT_ARG(adapter));
++
++	return r_val;
++}
++
++u32 _rtw_sd_iread32(_adapter *adapter, u32 addr)
++{
++	u32 r_val = 0x00;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++	u32(*_sd_iread32)(struct intf_hdl *pintfhdl, u32 addr);
++
++	_sd_iread32 = pintfhdl->io_ops._sd_iread32;
++
++	if (_sd_iread32)
++		r_val = _sd_iread32(pintfhdl, addr);
++	else
++		RTW_ERR(FUNC_ADPT_FMT" _sd_iread32 callback is NULL\n", FUNC_ADPT_ARG(adapter));
++
++	return r_val;
++}
++
++int _rtw_sd_iwrite8(_adapter *adapter, u32 addr, u8 val)
++{
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++	int (*_sd_iwrite8)(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++	int ret = -1;
++
++	_sd_iwrite8 = pintfhdl->io_ops._sd_iwrite8;
++
++	if (_sd_iwrite8)
++		ret = _sd_iwrite8(pintfhdl, addr, val);
++	else
++		RTW_ERR(FUNC_ADPT_FMT" _sd_iwrite8 callback is NULL\n", FUNC_ADPT_ARG(adapter));
++
++	return RTW_STATUS_CODE(ret);
++}
++
++int _rtw_sd_iwrite16(_adapter *adapter, u32 addr, u16 val)
++{
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++	int (*_sd_iwrite16)(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++	int ret = -1;
++
++	_sd_iwrite16 = pintfhdl->io_ops._sd_iwrite16;
++
++	if (_sd_iwrite16)
++		ret = _sd_iwrite16(pintfhdl, addr, val);
++	else
++		RTW_ERR(FUNC_ADPT_FMT" _sd_iwrite16 callback is NULL\n", FUNC_ADPT_ARG(adapter));
++
++	return RTW_STATUS_CODE(ret);
++}
++int _rtw_sd_iwrite32(_adapter *adapter, u32 addr, u32 val)
++{
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++	int (*_sd_iwrite32)(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++	int ret = -1;
++
++	_sd_iwrite32 = pintfhdl->io_ops._sd_iwrite32;
++
++	if (_sd_iwrite32)
++		ret = _sd_iwrite32(pintfhdl, addr, val);
++	else
++		RTW_ERR(FUNC_ADPT_FMT" _sd_iwrite32 callback is NULL\n", FUNC_ADPT_ARG(adapter));
++
++	return RTW_STATUS_CODE(ret);
++}
++
++#endif /* CONFIG_SDIO_INDIRECT_ACCESS */
++
++#endif /* CONFIG_SDIO_HCI */
++
++int _rtw_write8_async(_adapter *adapter, u32 addr, u8 val)
++{
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	int (*_write8_async)(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++	int ret;
++	_write8_async = pintfhdl->io_ops._write8_async;
++
++	ret = _write8_async(pintfhdl, addr, val);
++
++	return RTW_STATUS_CODE(ret);
++}
++int _rtw_write16_async(_adapter *adapter, u32 addr, u16 val)
++{
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	int (*_write16_async)(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++	int ret;
++	_write16_async = pintfhdl->io_ops._write16_async;
++	val = rtw_cpu_to_le16(val);
++	ret = _write16_async(pintfhdl, addr, val);
++
++	return RTW_STATUS_CODE(ret);
++}
++int _rtw_write32_async(_adapter *adapter, u32 addr, u32 val)
++{
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	int (*_write32_async)(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++	int ret;
++	_write32_async = pintfhdl->io_ops._write32_async;
++	val = rtw_cpu_to_le32(val);
++	ret = _write32_async(pintfhdl, addr, val);
++
++	return RTW_STATUS_CODE(ret);
++}
++
++void _rtw_read_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
++{
++	void (*_read_mem)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++
++
++	if (RTW_CANNOT_RUN(adapter)) {
++		return;
++	}
++
++	_read_mem = pintfhdl->io_ops._read_mem;
++
++	_read_mem(pintfhdl, addr, cnt, pmem);
++
++
++}
++
++void _rtw_write_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
++{
++	void (*_write_mem)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++
++
++	_write_mem = pintfhdl->io_ops._write_mem;
++
++	_write_mem(pintfhdl, addr, cnt, pmem);
++
++
++}
++
++void _rtw_read_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
++{
++	u32(*_read_port)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++
++
++	if (RTW_CANNOT_RUN(adapter)) {
++		return;
++	}
++
++	_read_port = pintfhdl->io_ops._read_port;
++
++	_read_port(pintfhdl, addr, cnt, pmem);
++
++
++}
++
++void _rtw_read_port_cancel(_adapter *adapter)
++{
++	void (*_read_port_cancel)(struct intf_hdl *pintfhdl);
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++
++	_read_port_cancel = pintfhdl->io_ops._read_port_cancel;
++
++	RTW_DISABLE_FUNC(adapter, DF_RX_BIT);
++
++	if (_read_port_cancel)
++		_read_port_cancel(pintfhdl);
++}
++
++u32 _rtw_write_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
++{
++	u32(*_write_port)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	u32 ret = _SUCCESS;
++
++
++	_write_port = pintfhdl->io_ops._write_port;
++
++	ret = _write_port(pintfhdl, addr, cnt, pmem);
++
++
++	return ret;
++}
++
++u32 _rtw_write_port_and_wait(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem, int timeout_ms)
++{
++	int ret = _SUCCESS;
++	struct xmit_buf *pxmitbuf = (struct xmit_buf *)pmem;
++	struct submit_ctx sctx;
++
++	rtw_sctx_init(&sctx, timeout_ms);
++	pxmitbuf->sctx = &sctx;
++
++	ret = _rtw_write_port(adapter, addr, cnt, pmem);
++
++	if (ret == _SUCCESS)
++		ret = rtw_sctx_wait(&sctx, __func__);
++
++	return ret;
++}
++
++void _rtw_write_port_cancel(_adapter *adapter)
++{
++	void (*_write_port_cancel)(struct intf_hdl *pintfhdl);
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++
++	_write_port_cancel = pintfhdl->io_ops._write_port_cancel;
++
++	RTW_DISABLE_FUNC(adapter, DF_TX_BIT);
++
++	if (_write_port_cancel)
++		_write_port_cancel(pintfhdl);
++}
++int rtw_init_io_priv(_adapter *padapter, void (*set_intf_ops)(_adapter *padapter, struct _io_ops *pops))
++{
++	struct io_priv	*piopriv = &padapter->iopriv;
++	struct intf_hdl *pintf = &piopriv->intf;
++
++	if (set_intf_ops == NULL)
++		return _FAIL;
++
++	piopriv->padapter = padapter;
++	pintf->padapter = padapter;
++	pintf->pintf_dev = adapter_to_dvobj(padapter);
++
++	set_intf_ops(padapter, &pintf->io_ops);
++
++	return _SUCCESS;
++}
++
++/*
++* Increase and check if the continual_io_error of this @param dvobjprive is larger than MAX_CONTINUAL_IO_ERR
++* @return _TRUE:
++* @return _FALSE:
++*/
++int rtw_inc_and_chk_continual_io_error(struct dvobj_priv *dvobj)
++{
++	int ret = _FALSE;
++	int value;
++
++	value = ATOMIC_INC_RETURN(&dvobj->continual_io_error);
++	if (value > MAX_CONTINUAL_IO_ERR) {
++		RTW_INFO("[dvobj:%p][ERROR] continual_io_error:%d > %d\n", dvobj, value, MAX_CONTINUAL_IO_ERR);
++		ret = _TRUE;
++	} else {
++		/* RTW_INFO("[dvobj:%p] continual_io_error:%d\n", dvobj, value); */
++	}
++	return ret;
++}
++
++/*
++* Set the continual_io_error of this @param dvobjprive to 0
++*/
++void rtw_reset_continual_io_error(struct dvobj_priv *dvobj)
++{
++	ATOMIC_SET(&dvobj->continual_io_error, 0);
++}
++
++#ifdef DBG_IO
++
++u32 read_sniff_ranges[][2] = {
++	/* {0x520, 0x523}, */
++};
++
++u32 write_sniff_ranges[][2] = {
++	/* {0x520, 0x523}, */
++	/* {0x4c, 0x4c}, */
++};
++
++int read_sniff_num = sizeof(read_sniff_ranges) / sizeof(u32) / 2;
++int write_sniff_num = sizeof(write_sniff_ranges) / sizeof(u32) / 2;
++
++bool match_read_sniff_ranges(u32 addr, u16 len)
++{
++	int i;
++	for (i = 0; i < read_sniff_num; i++) {
++		if (addr + len > read_sniff_ranges[i][0] && addr <= read_sniff_ranges[i][1])
++			return _TRUE;
++	}
++
++	return _FALSE;
++}
++
++bool match_write_sniff_ranges(u32 addr, u16 len)
++{
++	int i;
++	for (i = 0; i < write_sniff_num; i++) {
++		if (addr + len > write_sniff_ranges[i][0] && addr <= write_sniff_ranges[i][1])
++			return _TRUE;
++	}
++
++	return _FALSE;
++}
++
++struct rf_sniff_ent {
++	u8 path;
++	u16 reg;
++	u32 mask;
++};
++
++struct rf_sniff_ent rf_read_sniff_ranges[] = {
++	/* example for all path addr 0x55 with all RF Reg mask */
++	/* {MAX_RF_PATH, 0x55, bRFRegOffsetMask}, */
++};
++
++struct rf_sniff_ent rf_write_sniff_ranges[] = {
++	/* example for all path addr 0x55 with all RF Reg mask */
++	/* {MAX_RF_PATH, 0x55, bRFRegOffsetMask}, */
++};
++
++int rf_read_sniff_num = sizeof(rf_read_sniff_ranges) / sizeof(struct rf_sniff_ent);
++int rf_write_sniff_num = sizeof(rf_write_sniff_ranges) / sizeof(struct rf_sniff_ent);
++
++bool match_rf_read_sniff_ranges(u8 path, u32 addr, u32 mask)
++{
++	int i;
++
++	for (i = 0; i < rf_read_sniff_num; i++) {
++		if (rf_read_sniff_ranges[i].path == MAX_RF_PATH || rf_read_sniff_ranges[i].path == path)
++			if (addr == rf_read_sniff_ranges[i].reg && (mask & rf_read_sniff_ranges[i].mask))
++				return _TRUE;
++	}
++
++	return _FALSE;
++}
++
++bool match_rf_write_sniff_ranges(u8 path, u32 addr, u32 mask)
++{
++	int i;
++
++	for (i = 0; i < rf_write_sniff_num; i++) {
++		if (rf_write_sniff_ranges[i].path == MAX_RF_PATH || rf_write_sniff_ranges[i].path == path)
++			if (addr == rf_write_sniff_ranges[i].reg && (mask & rf_write_sniff_ranges[i].mask))
++				return _TRUE;
++	}
++
++	return _FALSE;
++}
++
++u8 dbg_rtw_read8(_adapter *adapter, u32 addr, const char *caller, const int line)
++{
++	u8 val = _rtw_read8(adapter, addr);
++
++	if (match_read_sniff_ranges(addr, 1))
++		RTW_INFO("DBG_IO %s:%d rtw_read8(0x%04x) return 0x%02x\n", caller, line, addr, val);
++
++	return val;
++}
++
++u16 dbg_rtw_read16(_adapter *adapter, u32 addr, const char *caller, const int line)
++{
++	u16 val = _rtw_read16(adapter, addr);
++
++	if (match_read_sniff_ranges(addr, 2))
++		RTW_INFO("DBG_IO %s:%d rtw_read16(0x%04x) return 0x%04x\n", caller, line, addr, val);
++
++	return val;
++}
++
++u32 dbg_rtw_read32(_adapter *adapter, u32 addr, const char *caller, const int line)
++{
++	u32 val = _rtw_read32(adapter, addr);
++
++	if (match_read_sniff_ranges(addr, 4))
++		RTW_INFO("DBG_IO %s:%d rtw_read32(0x%04x) return 0x%08x\n", caller, line, addr, val);
++
++	return val;
++}
++
++int dbg_rtw_write8(_adapter *adapter, u32 addr, u8 val, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 1))
++		RTW_INFO("DBG_IO %s:%d rtw_write8(0x%04x, 0x%02x)\n", caller, line, addr, val);
++
++	return _rtw_write8(adapter, addr, val);
++}
++int dbg_rtw_write16(_adapter *adapter, u32 addr, u16 val, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 2))
++		RTW_INFO("DBG_IO %s:%d rtw_write16(0x%04x, 0x%04x)\n", caller, line, addr, val);
++
++	return _rtw_write16(adapter, addr, val);
++}
++int dbg_rtw_write32(_adapter *adapter, u32 addr, u32 val, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 4))
++		RTW_INFO("DBG_IO %s:%d rtw_write32(0x%04x, 0x%08x)\n", caller, line, addr, val);
++
++	return _rtw_write32(adapter, addr, val);
++}
++int dbg_rtw_writeN(_adapter *adapter, u32 addr , u32 length , u8 *data, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, length))
++		RTW_INFO("DBG_IO %s:%d rtw_writeN(0x%04x, %u)\n", caller, line, addr, length);
++
++	return _rtw_writeN(adapter, addr, length, data);
++}
++
++#ifdef CONFIG_SDIO_HCI
++u8 dbg_rtw_sd_f0_read8(_adapter *adapter, u32 addr, const char *caller, const int line)
++{
++	u8 val = _rtw_sd_f0_read8(adapter, addr);
++
++#if 0
++	if (match_read_sniff_ranges(addr, 1))
++		RTW_INFO("DBG_IO %s:%d rtw_sd_f0_read8(0x%04x) return 0x%02x\n", caller, line, addr, val);
++#endif
++
++	return val;
++}
++
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++u8 dbg_rtw_sd_iread8(_adapter *adapter, u32 addr, const char *caller, const int line)
++{
++	u8 val = rtw_sd_iread8(adapter, addr);
++
++	if (match_read_sniff_ranges(addr, 1))
++		RTW_INFO("DBG_IO %s:%d rtw_sd_iread8(0x%04x) return 0x%02x\n", caller, line, addr, val);
++
++	return val;
++}
++
++u16 dbg_rtw_sd_iread16(_adapter *adapter, u32 addr, const char *caller, const int line)
++{
++	u16 val = _rtw_sd_iread16(adapter, addr);
++
++	if (match_read_sniff_ranges(addr, 2))
++		RTW_INFO("DBG_IO %s:%d rtw_sd_iread16(0x%04x) return 0x%04x\n", caller, line, addr, val);
++
++	return val;
++}
++
++u32 dbg_rtw_sd_iread32(_adapter *adapter, u32 addr, const char *caller, const int line)
++{
++	u32 val = _rtw_sd_iread32(adapter, addr);
++
++	if (match_read_sniff_ranges(addr, 4))
++		RTW_INFO("DBG_IO %s:%d rtw_sd_iread32(0x%04x) return 0x%08x\n", caller, line, addr, val);
++
++	return val;
++}
++
++int dbg_rtw_sd_iwrite8(_adapter *adapter, u32 addr, u8 val, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 1))
++		RTW_INFO("DBG_IO %s:%d rtw_sd_iwrite8(0x%04x, 0x%02x)\n", caller, line, addr, val);
++
++	return _rtw_sd_iwrite8(adapter, addr, val);
++}
++int dbg_rtw_sd_iwrite16(_adapter *adapter, u32 addr, u16 val, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 2))
++		RTW_INFO("DBG_IO %s:%d rtw_sd_iwrite16(0x%04x, 0x%04x)\n", caller, line, addr, val);
++
++	return _rtw_sd_iwrite16(adapter, addr, val);
++}
++int dbg_rtw_sd_iwrite32(_adapter *adapter, u32 addr, u32 val, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 4))
++		RTW_INFO("DBG_IO %s:%d rtw_sd_iwrite32(0x%04x, 0x%08x)\n", caller, line, addr, val);
++
++	return _rtw_sd_iwrite32(adapter, addr, val);
++}
++
++#endif /* CONFIG_SDIO_INDIRECT_ACCESS */
++
++#endif /* CONFIG_SDIO_HCI */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_ioctl_query.c b/drivers/net/wireless/rtl8723du/core/rtw_ioctl_query.c
+new file mode 100644
+index 0000000..4f8232d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_ioctl_query.c
+@@ -0,0 +1,171 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_IOCTL_QUERY_C_
++
++#include <drv_types.h>
++
++
++#ifdef PLATFORM_WINDOWS
++/*
++ * Added for WPA2-PSK, by Annie, 2005-09-20.
++ *   */
++u8
++query_802_11_capability(
++	_adapter		*Adapter,
++	u8			*pucBuf,
++	u32		*pulOutLen
++)
++{
++	static NDIS_802_11_AUTHENTICATION_ENCRYPTION szAuthEnc[] = {
++		{Ndis802_11AuthModeOpen, Ndis802_11EncryptionDisabled},
++		{Ndis802_11AuthModeOpen, Ndis802_11Encryption1Enabled},
++		{Ndis802_11AuthModeShared, Ndis802_11EncryptionDisabled},
++		{Ndis802_11AuthModeShared, Ndis802_11Encryption1Enabled},
++		{Ndis802_11AuthModeWPA, Ndis802_11Encryption2Enabled},
++		{Ndis802_11AuthModeWPA, Ndis802_11Encryption3Enabled},
++		{Ndis802_11AuthModeWPAPSK, Ndis802_11Encryption2Enabled},
++		{Ndis802_11AuthModeWPAPSK, Ndis802_11Encryption3Enabled},
++		{Ndis802_11AuthModeWPANone, Ndis802_11Encryption2Enabled},
++		{Ndis802_11AuthModeWPANone, Ndis802_11Encryption3Enabled},
++		{Ndis802_11AuthModeWPA2, Ndis802_11Encryption2Enabled},
++		{Ndis802_11AuthModeWPA2, Ndis802_11Encryption3Enabled},
++		{Ndis802_11AuthModeWPA2PSK, Ndis802_11Encryption2Enabled},
++		{Ndis802_11AuthModeWPA2PSK, Ndis802_11Encryption3Enabled}
++	};
++	static ULONG	ulNumOfPairSupported = sizeof(szAuthEnc) / sizeof(NDIS_802_11_AUTHENTICATION_ENCRYPTION);
++	NDIS_802_11_CAPABILITY *pCap = (NDIS_802_11_CAPABILITY *)pucBuf;
++	u8	*pucAuthEncryptionSupported = (u8 *) pCap->AuthenticationEncryptionSupported;
++
++
++	pCap->Length = sizeof(NDIS_802_11_CAPABILITY);
++	if (ulNumOfPairSupported > 1)
++		pCap->Length +=	(ulNumOfPairSupported - 1) * sizeof(NDIS_802_11_AUTHENTICATION_ENCRYPTION);
++
++	pCap->Version = 2;
++	pCap->NoOfPMKIDs = NUM_PMKID_CACHE;
++	pCap->NoOfAuthEncryptPairsSupported = ulNumOfPairSupported;
++
++	if (sizeof(szAuthEnc) <= 240)		/* 240 = 256 - 4*4	 */ { /* SecurityInfo.szCapability: only 256 bytes in size. */
++		_rtw_memcpy(pucAuthEncryptionSupported, (u8 *)szAuthEnc,  sizeof(szAuthEnc));
++		*pulOutLen = pCap->Length;
++		return _TRUE;
++	} else {
++		*pulOutLen = 0;
++		return _FALSE;
++	}
++}
++
++u8 query_802_11_association_information(_adapter *padapter, PNDIS_802_11_ASSOCIATION_INFORMATION	pAssocInfo)
++{
++	struct wlan_network *tgt_network;
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct	security_priv  *psecuritypriv = &(padapter->securitypriv);
++	WLAN_BSSID_EX	*psecnetwork = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network;
++	u8	*pDest = (u8 *)pAssocInfo + sizeof(NDIS_802_11_ASSOCIATION_INFORMATION);
++	unsigned char i, *auth_ie, *supp_ie;
++
++	/* NdisZeroMemory(pAssocInfo, sizeof(NDIS_802_11_ASSOCIATION_INFORMATION)); */
++	_rtw_memset(pAssocInfo, 0, sizeof(NDIS_802_11_ASSOCIATION_INFORMATION));
++	/* pAssocInfo->Length = sizeof(NDIS_802_11_ASSOCIATION_INFORMATION); */
++
++	/* ------------------------------------------------------ */
++	/* Association Request related information */
++	/* ------------------------------------------------------ */
++	/* Req_1. AvailableRequestFixedIEs */
++	if (psecnetwork != NULL) {
++
++		pAssocInfo->AvailableRequestFixedIEs |= NDIS_802_11_AI_REQFI_CAPABILITIES | NDIS_802_11_AI_REQFI_CURRENTAPADDRESS;
++		pAssocInfo->RequestFixedIEs.Capabilities = (unsigned short) *&psecnetwork->IEs[10];
++		_rtw_memcpy(pAssocInfo->RequestFixedIEs.CurrentAPAddress,
++			    &psecnetwork->MacAddress, 6);
++
++		pAssocInfo->OffsetRequestIEs = sizeof(NDIS_802_11_ASSOCIATION_INFORMATION);
++
++		if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING | _FW_LINKED) == _TRUE) {
++
++			if (psecuritypriv->ndisauthtype >= Ndis802_11AuthModeWPA2)
++				pDest[0] = 48;		/* RSN Information Element */
++			else
++				pDest[0] = 221;	/* WPA(SSN) Information Element */
++
++			supp_ie = &psecuritypriv->supplicant_ie[0];
++
++			i = 13;	/* 0~11 is fixed information element		 */
++			while ((i < supp_ie[0]) && (i < 256)) {
++				if ((unsigned char)supp_ie[i] == pDest[0]) {
++					_rtw_memcpy((u8 *)(pDest),
++						    &supp_ie[i],
++						    supp_ie[1 + i] + 2);
++
++					break;
++				}
++
++				i = i + supp_ie[i + 1] + 2;
++				if (supp_ie[1 + i] == 0)
++					i = i + 1;
++
++			}
++
++
++			pAssocInfo->RequestIELength += (2 + supp_ie[1 + i]); /* (2 + psecnetwork->IEs[1+i]+4); */
++
++		}
++
++
++
++	}
++
++
++	/* ------------------------------------------------------ */
++	/* Association Response related information */
++	/* ------------------------------------------------------ */
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++		tgt_network = &(pmlmepriv->cur_network);
++		if (tgt_network != NULL) {
++			pAssocInfo->AvailableResponseFixedIEs =
++				NDIS_802_11_AI_RESFI_CAPABILITIES
++				| NDIS_802_11_AI_RESFI_ASSOCIATIONID
++				;
++
++			pAssocInfo->ResponseFixedIEs.Capabilities = (unsigned short) *&tgt_network->network.IEs[10];
++			pAssocInfo->ResponseFixedIEs.StatusCode = 0;
++			pAssocInfo->ResponseFixedIEs.AssociationId = (unsigned short) tgt_network->aid;
++
++			pDest = (u8 *)pAssocInfo + sizeof(NDIS_802_11_ASSOCIATION_INFORMATION) + pAssocInfo->RequestIELength;
++			auth_ie = &psecuritypriv->authenticator_ie[0];
++
++
++			i = auth_ie[0] - 12;
++			if (i > 0) {
++				_rtw_memcpy((u8 *)&pDest[0], &auth_ie[1], i);
++				pAssocInfo->ResponseIELength = i;
++			}
++
++
++			pAssocInfo->OffsetResponseIEs = sizeof(NDIS_802_11_ASSOCIATION_INFORMATION) + pAssocInfo->RequestIELength;
++
++
++		}
++	}
++
++	return _TRUE;
++}
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_ioctl_rtl.c b/drivers/net/wireless/rtl8723du/core/rtw_ioctl_rtl.c
+new file mode 100644
+index 0000000..ab4a387
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_ioctl_rtl.c
+@@ -0,0 +1,904 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define  _RTW_IOCTL_RTL_C_
++
++#include <drv_types.h>
++
++#ifdef CONFIG_MP_INCLUDED
++	#include <rtw_mp_ioctl.h>
++#endif
++
++struct oid_obj_priv oid_rtl_seg_01_01[] = {
++	{1, &oid_null_function},										/* 0x80 */
++	{1, &oid_null_function},										/* 0x81 */
++	{1, &oid_null_function},										/* 0x82 */
++	{1, &oid_null_function},										/* 0x83 */ /* OID_RT_SET_SNIFFER_MODE */
++	{1, &oid_rt_get_signal_quality_hdl},							/* 0x84 */
++	{1, &oid_rt_get_small_packet_crc_hdl},						/* 0x85 */
++	{1, &oid_rt_get_middle_packet_crc_hdl},						/* 0x86 */
++	{1, &oid_rt_get_large_packet_crc_hdl},						/* 0x87 */
++	{1, &oid_rt_get_tx_retry_hdl},								/* 0x88 */
++	{1, &oid_rt_get_rx_retry_hdl},								/* 0x89 */
++	{1, &oid_rt_pro_set_fw_dig_state_hdl},						/* 0x8A */
++	{1, &oid_rt_pro_set_fw_ra_state_hdl}	,						/* 0x8B */
++	{1, &oid_null_function},										/* 0x8C */
++	{1, &oid_null_function},										/* 0x8D */
++	{1, &oid_null_function},										/* 0x8E */
++	{1, &oid_null_function},										/* 0x8F */
++	{1, &oid_rt_get_rx_total_packet_hdl},							/* 0x90 */
++	{1, &oid_rt_get_tx_beacon_ok_hdl},							/* 0x91 */
++	{1, &oid_rt_get_tx_beacon_err_hdl},							/* 0x92 */
++	{1, &oid_rt_get_rx_icv_err_hdl},								/* 0x93 */
++	{1, &oid_rt_set_encryption_algorithm_hdl},					/* 0x94 */
++	{1, &oid_null_function},										/* 0x95 */
++	{1, &oid_rt_get_preamble_mode_hdl},							/* 0x96 */
++	{1, &oid_null_function},										/* 0x97 */
++	{1, &oid_rt_get_ap_ip_hdl},									/* 0x98 */
++	{1, &oid_rt_get_channelplan_hdl},							/* 0x99	 */
++	{1, &oid_rt_set_preamble_mode_hdl},	 						/* 0x9A */
++	{1, &oid_rt_set_bcn_intvl_hdl},								/* 0x9B */
++	{1, &oid_null_function},										/* 0x9C */
++	{1, &oid_rt_dedicate_probe_hdl},								/* 0x9D */
++	{1, &oid_null_function},										/* 0x9E */
++	{1, &oid_null_function},										/* 0x9F */
++	{1, &oid_null_function},										/* 0xA0 */
++	{1, &oid_null_function},										/* 0xA1 */
++	{1, &oid_null_function},										/* 0xA2 */
++	{1, &oid_null_function},										/* 0xA3 */
++	{1, &oid_null_function},										/* 0xA4 */
++	{1, &oid_null_function},										/* 0xA5 */
++	{1, &oid_null_function},										/* 0xA6 */
++	{1, &oid_rt_get_total_tx_bytes_hdl},							/* 0xA7 */
++	{1, &oid_rt_get_total_rx_bytes_hdl},							/* 0xA8 */
++	{1, &oid_rt_current_tx_power_level_hdl},						/* 0xA9	 */
++	{1, &oid_rt_get_enc_key_mismatch_count_hdl},	 			/* 0xAA */
++	{1, &oid_rt_get_enc_key_match_count_hdl},					/* 0xAB */
++	{1, &oid_rt_get_channel_hdl},								/* 0xAC */
++	{1, &oid_rt_set_channelplan_hdl},								/* 0xAD */
++	{1, &oid_rt_get_hardware_radio_off_hdl},						/* 0xAE */
++	{1, &oid_null_function},										/* 0xAF */
++	{1, &oid_null_function},										/* 0xB0 */
++	{1, &oid_null_function},										/* 0xB1 */
++	{1, &oid_null_function},										/* 0xB2 */
++	{1, &oid_null_function},										/* 0xB3 */
++	{1, &oid_rt_get_key_mismatch_hdl},							/* 0xB4 */
++	{1, &oid_null_function},										/* 0xB5 */
++	{1, &oid_null_function},										/* 0xB6 */
++	{1, &oid_null_function},										/* 0xB7 */
++	{1, &oid_null_function},										/* 0xB8 */
++	{1, &oid_null_function},										/* 0xB9	 */
++	{1, &oid_null_function},	 									/* 0xBA */
++	{1, &oid_rt_supported_wireless_mode_hdl},					/* 0xBB */
++	{1, &oid_rt_get_channel_list_hdl},							/* 0xBC */
++	{1, &oid_rt_get_scan_in_progress_hdl},						/* 0xBD */
++	{1, &oid_null_function},										/* 0xBE */
++	{1, &oid_null_function},										/* 0xBF */
++	{1, &oid_null_function},										/* 0xC0 */
++	{1, &oid_rt_forced_data_rate_hdl},							/* 0xC1 */
++	{1, &oid_rt_wireless_mode_for_scan_list_hdl},					/* 0xC2 */
++	{1, &oid_rt_get_bss_wireless_mode_hdl},						/* 0xC3 */
++	{1, &oid_rt_scan_with_magic_packet_hdl},					/* 0xC4 */
++	{1, &oid_null_function},										/* 0xC5 */
++	{1, &oid_null_function},										/* 0xC6 */
++	{1, &oid_null_function},										/* 0xC7 */
++	{1, &oid_null_function},										/* 0xC8 */
++	{1, &oid_null_function},										/* 0xC9	 */
++	{1, &oid_null_function},	 									/* 0xCA */
++	{1, &oid_null_function},										/* 0xCB */
++	{1, &oid_null_function},										/* 0xCC */
++	{1, &oid_null_function},										/* 0xCD */
++	{1, &oid_null_function},										/* 0xCE */
++	{1, &oid_null_function},										/* 0xCF */
++
++};
++
++struct oid_obj_priv oid_rtl_seg_01_03[] = {
++	{1, &oid_rt_ap_get_associated_station_list_hdl},				/* 0x00 */
++	{1, &oid_null_function},										/* 0x01 */
++	{1, &oid_rt_ap_switch_into_ap_mode_hdl},					/* 0x02 */
++	{1, &oid_null_function},										/* 0x03 */
++	{1, &oid_rt_ap_supported_hdl},								/* 0x04 */
++	{1, &oid_rt_ap_set_passphrase_hdl},							/* 0x05 */
++
++};
++
++struct oid_obj_priv oid_rtl_seg_01_11[] = {
++	{1, &oid_null_function},					/* 0xC0	OID_RT_PRO_RX_FILTER	 */
++	{1, &oid_null_function},					/* 0xC1	OID_CE_USB_WRITE_REGISTRY */
++	{1, &oid_null_function},					/* 0xC2	OID_CE_USB_READ_REGISTRY */
++	{1, &oid_null_function},					/* 0xC3	OID_RT_PRO_SET_INITIAL_GAIN */
++	{1, &oid_null_function},					/* 0xC4	OID_RT_PRO_SET_BB_RF_STANDBY_MODE */
++	{1, &oid_null_function},					/* 0xC5	OID_RT_PRO_SET_BB_RF_SHUTDOWN_MODE */
++	{1, &oid_null_function},					/* 0xC6	OID_RT_PRO_SET_TX_CHARGE_PUMP */
++	{1, &oid_null_function},					/* 0xC7	OID_RT_PRO_SET_RX_CHARGE_PUMP */
++	{1, &oid_rt_pro_rf_write_registry_hdl},	/* 0xC8	 */
++	{1, &oid_rt_pro_rf_read_registry_hdl},	/* 0xC9	 */
++	{1, &oid_null_function}					/* 0xCA	OID_RT_PRO_QUERY_RF_TYPE */
++
++};
++
++struct oid_obj_priv oid_rtl_seg_03_00[] = {
++	{1, &oid_null_function},										/* 0x00 */
++	{1, &oid_rt_get_connect_state_hdl},							/* 0x01 */
++	{1, &oid_null_function},										/* 0x02 */
++	{1, &oid_null_function},										/* 0x03 */
++	{1, &oid_rt_set_default_key_id_hdl},							/* 0x04 */
++
++
++};
++
++
++/* **************  oid_rtl_seg_01_01 section start ************** */
++
++NDIS_STATUS oid_rt_pro_set_fw_dig_state_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++#if 0
++	PADAPTER		Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	_irqL			oldirql;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	if (poid_par_priv->information_buf_len >= sizeof(struct setdig_parm)) {
++		/* DEBUG_ERR(("===> oid_rt_pro_set_fw_dig_state_hdl. type:0x%02x.\n",*((unsigned char*)poid_par_priv->information_buf )));	 */
++		if (!rtw_setfwdig_cmd(Adapter, *((unsigned char *)poid_par_priv->information_buf)))
++			status = NDIS_STATUS_NOT_ACCEPTED;
++
++	} else
++		status = NDIS_STATUS_NOT_ACCEPTED;
++	_irqlevel_changed_(&oldirql, RAISE);
++#endif
++	return status;
++}
++/* ----------------------------------------------------------------------------- */
++NDIS_STATUS oid_rt_pro_set_fw_ra_state_hdl(struct oid_par_priv *poid_par_priv)
++{
++
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++#if 0
++	PADAPTER		Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	_irqL			oldirql;
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (poid_par_priv->information_buf_len >= sizeof(struct setra_parm)) {
++		/* DEBUG_ERR(("===> oid_rt_pro_set_fw_ra_state_hdl. type:0x%02x.\n",*((unsigned char*)poid_par_priv->information_buf )));	 */
++		if (!rtw_setfwra_cmd(Adapter, *((unsigned char *)poid_par_priv->information_buf)))
++			status = NDIS_STATUS_NOT_ACCEPTED;
++
++	} else
++		status = NDIS_STATUS_NOT_ACCEPTED;
++	_irqlevel_changed_(&oldirql, RAISE);
++#endif
++	return status;
++}
++/* ----------------------------------------------------------------------------- */
++NDIS_STATUS oid_rt_get_signal_quality_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	/* DEBUG_ERR(("<**********************oid_rt_get_signal_quality_hdl\n")); */
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++#if 0
++	if (pMgntInfo->mAssoc || pMgntInfo->mIbss) {
++		ulInfo = pAdapter->RxStats.SignalQuality;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else {
++		ulInfo = 0xffffffff; /* It stands for -1 in 4-byte integer. */
++	}
++	break;
++#endif
++
++	return status;
++}
++
++/* ------------------------------------------------------------------------------ */
++
++NDIS_STATUS oid_rt_get_small_packet_crc_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	if (poid_par_priv->information_buf_len >=  sizeof(ULONG)) {
++		*(ULONG *)poid_par_priv->information_buf = padapter->recvpriv.rx_smallpacket_crcerr;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_middle_packet_crc_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	if (poid_par_priv->information_buf_len >=  sizeof(ULONG)) {
++		*(ULONG *)poid_par_priv->information_buf = padapter->recvpriv.rx_middlepacket_crcerr;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_large_packet_crc_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	if (poid_par_priv->information_buf_len >=  sizeof(ULONG)) {
++		*(ULONG *)poid_par_priv->information_buf = padapter->recvpriv.rx_largepacket_crcerr;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++
++
++	return status;
++}
++
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_tx_retry_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_rx_retry_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_rx_total_packet_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if (poid_par_priv->information_buf_len >=  sizeof(ULONG)) {
++		*(u64 *)poid_par_priv->information_buf = padapter->recvpriv.rx_pkts + padapter->recvpriv.rx_drop;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_tx_beacon_ok_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_tx_beacon_err_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_rx_icv_err_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if (poid_par_priv->information_buf_len >= sizeof(u32)) {
++		/* _rtw_memcpy(*(uint *)poid_par_priv->information_buf,padapter->recvpriv.rx_icv_err,sizeof(u32)); */
++		*(uint *)poid_par_priv->information_buf = padapter->recvpriv.rx_icv_err;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH ;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_set_encryption_algorithm_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_preamble_mode_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++	ULONG			preamblemode = 0 ;
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if (poid_par_priv->information_buf_len >= sizeof(ULONG)) {
++		if (padapter->registrypriv.preamble == PREAMBLE_LONG)
++			preamblemode = 0;
++		else if (padapter->registrypriv.preamble == PREAMBLE_AUTO)
++			preamblemode = 1;
++		else if (padapter->registrypriv.preamble == PREAMBLE_SHORT)
++			preamblemode = 2;
++
++
++		*(ULONG *)poid_par_priv->information_buf = preamblemode ;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH ;
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_ap_ip_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_get_channelplan_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	*(u16 *)poid_par_priv->information_buf = padapter->mlmepriv.ChannelPlan ;
++
++	return status;
++}
++NDIS_STATUS oid_rt_set_channelplan_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	padapter->mlmepriv.ChannelPlan  = *(u16 *)poid_par_priv->information_buf ;
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_set_preamble_mode_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++	ULONG			preamblemode = 0;
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	if (poid_par_priv->information_buf_len >= sizeof(ULONG)) {
++		preamblemode = *(ULONG *)poid_par_priv->information_buf ;
++		if (preamblemode == 0)
++			padapter->registrypriv.preamble = PREAMBLE_LONG;
++		else if (preamblemode == 1)
++			padapter->registrypriv.preamble = PREAMBLE_AUTO;
++		else if (preamblemode == 2)
++			padapter->registrypriv.preamble = PREAMBLE_SHORT;
++
++		*(ULONG *)poid_par_priv->information_buf = preamblemode ;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH ;
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_set_bcn_intvl_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++NDIS_STATUS oid_rt_dedicate_probe_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_total_tx_bytes_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if (poid_par_priv->information_buf_len >= sizeof(ULONG)) {
++		*(u64 *)poid_par_priv->information_buf = padapter->xmitpriv.tx_bytes;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH ;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_total_rx_bytes_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if (poid_par_priv->information_buf_len >= sizeof(ULONG)) {
++		/* _rtw_memcpy(*(uint *)poid_par_priv->information_buf,padapter->recvpriv.rx_icv_err,sizeof(u32)); */
++		*(u64 *)poid_par_priv->information_buf = padapter->recvpriv.rx_bytes;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH ;
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_current_tx_power_level_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_enc_key_mismatch_count_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_enc_key_match_count_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_channel_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++	struct	mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	NDIS_802_11_CONFIGURATION		*pnic_Config;
++
++	ULONG   channelnum;
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	if ((check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) ||
++	    (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE))
++		pnic_Config = &pmlmepriv->cur_network.network.Configuration;
++	else
++		pnic_Config = &padapter->registrypriv.dev_network.Configuration;
++
++	channelnum = pnic_Config->DSConfig;
++	*(ULONG *)poid_par_priv->information_buf = channelnum;
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_hardware_radio_off_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_key_mismatch_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++NDIS_STATUS oid_rt_supported_wireless_mode_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++	ULONG			ulInfo = 0 ;
++	/* DEBUG_ERR(("<**********************oid_rt_supported_wireless_mode_hdl\n"));	 */
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if (poid_par_priv->information_buf_len >= sizeof(ULONG)) {
++		ulInfo |= 0x0100; /* WIRELESS_MODE_B */
++		ulInfo |= 0x0200; /* WIRELESS_MODE_G */
++		ulInfo |= 0x0400; /* WIRELESS_MODE_A */
++
++		*(ULONG *) poid_par_priv->information_buf = ulInfo;
++		/* DEBUG_ERR(("<===oid_rt_supported_wireless_mode %x\n",ulInfo));	 */
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_channel_list_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_scan_in_progress_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++
++
++NDIS_STATUS oid_rt_forced_data_rate_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++NDIS_STATUS oid_rt_wireless_mode_for_scan_list_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_bss_wireless_mode_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_scan_with_magic_packet_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++/* **************  oid_rtl_seg_01_01 section end ************** */
++
++/* **************  oid_rtl_seg_01_03 section start ************** */
++NDIS_STATUS oid_rt_ap_get_associated_station_list_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++NDIS_STATUS oid_rt_ap_switch_into_ap_mode_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++NDIS_STATUS oid_rt_ap_supported_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++NDIS_STATUS oid_rt_ap_set_passphrase_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++
++/* **************  oid_rtl_seg_01_03 section end ************** */
++
++/* ****************  oid_rtl_seg_01_11   section start **************** */
++NDIS_STATUS oid_rt_pro_rf_write_registry_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	_irqL			oldirql;
++	/* DEBUG_ERR(("<**********************oid_rt_pro_rf_write_registry_hdl\n")); */
++	if (poid_par_priv->type_of_oid != SET_OID) { /* QUERY_OID */
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	if (poid_par_priv->information_buf_len == (sizeof(unsigned long) * 3)) {
++		/* RegOffsetValue	- The offset of RF register to write. */
++		/* RegDataWidth	- The data width of RF register to write. */
++		/* RegDataValue	- The value to write. */
++		/* RegOffsetValue = *((unsigned long*)InformationBuffer); */
++		/* RegDataWidth = *((unsigned long*)InformationBuffer+1);	   */
++		/* RegDataValue =  *((unsigned long*)InformationBuffer+2);	 */
++		if (!rtw_setrfreg_cmd(Adapter,
++			      *(unsigned char *)poid_par_priv->information_buf,
++			(unsigned long)(*((unsigned long *)poid_par_priv->information_buf + 2))))
++			status = NDIS_STATUS_NOT_ACCEPTED;
++
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	return status;
++}
++
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_rf_read_registry_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++#if 0
++	PADAPTER		Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	_irqL	oldirql;
++
++	/* DEBUG_ERR(("<**********************oid_rt_pro_rf_read_registry_hdl\n")); */
++	if (poid_par_priv->type_of_oid != SET_OID) { /* QUERY_OID */
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	if (poid_par_priv->information_buf_len == (sizeof(unsigned long) * 3)) {
++		if (Adapter->mppriv.act_in_progress == _TRUE)
++			status = NDIS_STATUS_NOT_ACCEPTED;
++		else {
++			/* init workparam */
++			Adapter->mppriv.act_in_progress = _TRUE;
++			Adapter->mppriv.workparam.bcompleted = _FALSE;
++			Adapter->mppriv.workparam.act_type = MPT_READ_RF;
++			Adapter->mppriv.workparam.io_offset = *(unsigned long *)poid_par_priv->information_buf;
++			Adapter->mppriv.workparam.io_value = 0xcccccccc;
++
++			/* RegOffsetValue	- The offset of RF register to read. */
++			/* RegDataWidth	- The data width of RF register to read. */
++			/* RegDataValue	- The value to read. */
++			/* RegOffsetValue = *((unsigned long*)InformationBuffer); */
++			/* RegDataWidth = *((unsigned long*)InformationBuffer+1);	   */
++			/* RegDataValue =  *((unsigned long*)InformationBuffer+2);	   	 	                   */
++			if (!rtw_getrfreg_cmd(Adapter,
++				*(unsigned char *)poid_par_priv->information_buf,
++				(unsigned char *)&Adapter->mppriv.workparam.io_value))
++				status = NDIS_STATUS_NOT_ACCEPTED;
++		}
++
++
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++	_irqlevel_changed_(&oldirql, RAISE);
++#endif
++	return status;
++}
++
++/* ****************  oid_rtl_seg_01_11   section end****************	 */
++
++
++/* **************  oid_rtl_seg_03_00 section start **************  */
++enum _CONNECT_STATE_ {
++	CHECKINGSTATUS,
++	ASSOCIATED,
++	ADHOCMODE,
++	NOTASSOCIATED
++};
++
++NDIS_STATUS oid_rt_get_connect_state_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++
++	ULONG ulInfo;
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	/* nStatus==0	CheckingStatus */
++	/* nStatus==1	Associated */
++	/* nStatus==2	AdHocMode */
++	/* nStatus==3	NotAssociated */
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE)
++		ulInfo = CHECKINGSTATUS;
++	else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		ulInfo = ASSOCIATED;
++	else if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE)
++		ulInfo = ADHOCMODE;
++	else
++		ulInfo = NOTASSOCIATED ;
++
++	*(ULONG *)poid_par_priv->information_buf = ulInfo;
++	*poid_par_priv->bytes_rw =  poid_par_priv->information_buf_len;
++
++#if 0
++	/* Rearrange the order to let the UI still shows connection when scan is in progress */
++	if (pMgntInfo->mAssoc)
++		ulInfo = 1;
++	else if (pMgntInfo->mIbss)
++		ulInfo = 2;
++	else if (pMgntInfo->bScanInProgress)
++		ulInfo = 0;
++	else
++		ulInfo = 3;
++	ulInfoLen = sizeof(ULONG);
++#endif
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_set_default_key_id_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++/* **************  oid_rtl_seg_03_00 section end **************  */
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_ioctl_set.c b/drivers/net/wireless/rtl8723du/core/rtw_ioctl_set.c
+new file mode 100644
+index 0000000..934dc95
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_ioctl_set.c
+@@ -0,0 +1,1252 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_IOCTL_SET_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++
++extern void indicate_wx_scan_complete_event(_adapter *padapter);
++
++#define IS_MAC_ADDRESS_BROADCAST(addr) \
++	(\
++	 ((addr[0] == 0xff) && (addr[1] == 0xff) && \
++	  (addr[2] == 0xff) && (addr[3] == 0xff) && \
++	  (addr[4] == 0xff) && (addr[5] == 0xff)) ? _TRUE : _FALSE \
++	)
++
++u8 rtw_validate_bssid(u8 *bssid)
++{
++	u8 ret = _TRUE;
++
++	if (is_zero_mac_addr(bssid)
++	    || is_broadcast_mac_addr(bssid)
++	    || is_multicast_mac_addr(bssid)
++	   )
++		ret = _FALSE;
++
++	return ret;
++}
++
++u8 rtw_validate_ssid(NDIS_802_11_SSID *ssid)
++{
++	u8	 i;
++	u8	ret = _TRUE;
++
++
++	if (ssid->SsidLength > 32) {
++		ret = _FALSE;
++		goto exit;
++	}
++
++#ifdef CONFIG_VALIDATE_SSID
++	for (i = 0; i < ssid->SsidLength; i++) {
++		/* wifi, printable ascii code must be supported */
++		if (!((ssid->Ssid[i] >= 0x20) && (ssid->Ssid[i] <= 0x7e))) {
++			ret = _FALSE;
++			break;
++		}
++	}
++#endif /* CONFIG_VALIDATE_SSID */
++
++exit:
++
++
++	return ret;
++}
++
++u8 rtw_do_join(_adapter *padapter);
++u8 rtw_do_join(_adapter *padapter)
++{
++	_irqL	irqL;
++	_list	*plist, *phead;
++	u8 *pibss = NULL;
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	_queue	*queue	= &(pmlmepriv->scanned_queue);
++	u8 ret = _SUCCESS;
++
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++
++	pmlmepriv->cur_network.join_res = -2;
++
++	set_fwstate(pmlmepriv, _FW_UNDER_LINKING);
++
++	pmlmepriv->pscanned = plist;
++
++	pmlmepriv->to_join = _TRUE;
++
++	if (_rtw_queue_empty(queue) == _TRUE) {
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++
++		/* when set_ssid/set_bssid for rtw_do_join(), but scanning queue is empty */
++		/* we try to issue sitesurvey firstly	 */
++
++		if (pmlmepriv->LinkDetectInfo.bBusyTraffic == _FALSE
++		    || rtw_to_roam(padapter) > 0
++		   ) {
++			/* submit site_survey_cmd */
++			ret = rtw_sitesurvey_cmd(padapter, &pmlmepriv->assoc_ssid, 1, NULL, 0);
++			if (_SUCCESS != ret) {
++				pmlmepriv->to_join = _FALSE;
++			}
++		} else {
++			pmlmepriv->to_join = _FALSE;
++			ret = _FAIL;
++		}
++
++		goto exit;
++	} else {
++		int select_ret;
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		select_ret = rtw_select_and_join_from_scanned_queue(pmlmepriv);
++		if (select_ret == _SUCCESS) {
++			pmlmepriv->to_join = _FALSE;
++			_set_timer(&pmlmepriv->assoc_timer, MAX_JOIN_TIMEOUT);
++		} else {
++			if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) {
++				/* submit createbss_cmd to change to a ADHOC_MASTER */
++
++				/* pmlmepriv->lock has been acquired by caller... */
++				WLAN_BSSID_EX    *pdev_network = &(padapter->registrypriv.dev_network);
++
++				/*pmlmepriv->fw_state = WIFI_ADHOC_MASTER_STATE;*/
++				init_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++
++				pibss = padapter->registrypriv.dev_network.MacAddress;
++
++				_rtw_memset(&pdev_network->Ssid, 0, sizeof(NDIS_802_11_SSID));
++				_rtw_memcpy(&pdev_network->Ssid, &pmlmepriv->assoc_ssid, sizeof(NDIS_802_11_SSID));
++
++				rtw_update_registrypriv_dev_network(padapter);
++
++				rtw_generate_random_ibss(pibss);
++
++				if (rtw_create_ibss_cmd(padapter, 0) != _SUCCESS) {
++					ret =  _FALSE;
++					goto exit;
++				}
++
++				pmlmepriv->to_join = _FALSE;
++
++
++			} else {
++				/* can't associate ; reset under-linking			 */
++				_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++
++#if 0
++				if ((check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)) {
++					if (_rtw_memcmp(pmlmepriv->cur_network.network.Ssid.Ssid, pmlmepriv->assoc_ssid.Ssid, pmlmepriv->assoc_ssid.SsidLength)) {
++						/* for funk to do roaming */
++						/* funk will reconnect, but funk will not sitesurvey before reconnect */
++						if (pmlmepriv->sitesurveyctrl.traffic_busy == _FALSE)
++							rtw_sitesurvey_cmd(padapter, &pmlmepriv->assoc_ssid, 1, NULL, 0);
++					}
++
++				}
++#endif
++
++				/* when set_ssid/set_bssid for rtw_do_join(), but there are no desired bss in scanning queue */
++				/* we try to issue sitesurvey firstly			 */
++				if (pmlmepriv->LinkDetectInfo.bBusyTraffic == _FALSE
++				    || rtw_to_roam(padapter) > 0
++				   ) {
++					/* RTW_INFO("rtw_do_join() when   no desired bss in scanning queue\n"); */
++					ret = rtw_sitesurvey_cmd(padapter, &pmlmepriv->assoc_ssid, 1, NULL, 0);
++					if (_SUCCESS != ret) {
++						pmlmepriv->to_join = _FALSE;
++					}
++				} else {
++					ret = _FAIL;
++					pmlmepriv->to_join = _FALSE;
++				}
++			}
++
++		}
++
++	}
++
++exit:
++
++	return ret;
++}
++
++#ifdef PLATFORM_WINDOWS
++u8 rtw_pnp_set_power_wakeup(_adapter *padapter)
++{
++	u8 res = _SUCCESS;
++
++
++
++	res = rtw_setstandby_cmd(padapter, 0);
++
++
++
++	return res;
++}
++
++u8 rtw_pnp_set_power_sleep(_adapter *padapter)
++{
++	u8 res = _SUCCESS;
++
++
++	/* DbgPrint("+rtw_pnp_set_power_sleep\n"); */
++
++	res = rtw_setstandby_cmd(padapter, 1);
++
++
++
++	return res;
++}
++
++u8 rtw_set_802_11_reload_defaults(_adapter *padapter, NDIS_802_11_RELOAD_DEFAULTS reloadDefaults)
++{
++
++
++
++	/* SecClearAllKeys(Adapter); */
++	/* 8711 CAM was not for En/Decrypt only */
++	/* so, we can't clear all keys. */
++	/* should we disable WPAcfg (ox0088) bit 1-2, instead of clear all CAM */
++
++	/* TO DO... */
++
++
++	return _TRUE;
++}
++
++u8 set_802_11_test(_adapter *padapter, NDIS_802_11_TEST *test)
++{
++	u8 ret = _TRUE;
++
++
++	switch (test->Type) {
++	case 1:
++		NdisMIndicateStatus(padapter->hndis_adapter, NDIS_STATUS_MEDIA_SPECIFIC_INDICATION, (PVOID)&test->AuthenticationEvent, test->Length - 8);
++		NdisMIndicateStatusComplete(padapter->hndis_adapter);
++		break;
++
++	case 2:
++		NdisMIndicateStatus(padapter->hndis_adapter, NDIS_STATUS_MEDIA_SPECIFIC_INDICATION, (PVOID)&test->RssiTrigger, sizeof(NDIS_802_11_RSSI));
++		NdisMIndicateStatusComplete(padapter->hndis_adapter);
++		break;
++
++	default:
++		ret = _FALSE;
++		break;
++	}
++
++
++	return ret;
++}
++
++u8	rtw_set_802_11_pmkid(_adapter	*padapter, NDIS_802_11_PMKID *pmkid)
++{
++	u8	ret = _SUCCESS;
++
++	return ret;
++}
++
++#endif
++
++u8 rtw_set_802_11_bssid(_adapter *padapter, u8 *bssid)
++{
++	_irqL irqL;
++	u8 status = _SUCCESS;
++
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++
++	RTW_PRINT("set bssid:%pM\n", bssid);
++
++	if ((bssid[0] == 0x00 && bssid[1] == 0x00 && bssid[2] == 0x00 && bssid[3] == 0x00 && bssid[4] == 0x00 && bssid[5] == 0x00) ||
++	    (bssid[0] == 0xFF && bssid[1] == 0xFF && bssid[2] == 0xFF && bssid[3] == 0xFF && bssid[4] == 0xFF && bssid[5] == 0xFF)) {
++		status = _FAIL;
++		goto exit;
++	}
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++	RTW_INFO("Set BSSID under fw_state=0x%08x\n", get_fwstate(pmlmepriv));
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE)
++		goto handle_tkip_countermeasure;
++	else if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE)
++		goto release_mlme_lock;
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED | WIFI_ADHOC_MASTER_STATE) == _TRUE) {
++
++		if (_rtw_memcmp(&pmlmepriv->cur_network.network.MacAddress, bssid, ETH_ALEN) == _TRUE) {
++			if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _FALSE)
++				goto release_mlme_lock;/* it means driver is in WIFI_ADHOC_MASTER_STATE, we needn't create bss again. */
++		} else {
++
++			rtw_disassoc_cmd(padapter, 0, _TRUE);
++
++			if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++				rtw_indicate_disconnect(padapter, 0, _FALSE);
++
++			rtw_free_assoc_resources(padapter, 1);
++
++			if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE)) {
++				_clr_fwstate_(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++				set_fwstate(pmlmepriv, WIFI_ADHOC_STATE);
++			}
++		}
++	}
++
++handle_tkip_countermeasure:
++	if (rtw_handle_tkip_countermeasure(padapter, __func__) == _FAIL) {
++		status = _FAIL;
++		goto release_mlme_lock;
++	}
++
++	_rtw_memset(&pmlmepriv->assoc_ssid, 0, sizeof(NDIS_802_11_SSID));
++	_rtw_memcpy(&pmlmepriv->assoc_bssid, bssid, ETH_ALEN);
++	pmlmepriv->assoc_by_bssid = _TRUE;
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE)
++		pmlmepriv->to_join = _TRUE;
++	else
++		status = rtw_do_join(padapter);
++
++release_mlme_lock:
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++exit:
++
++
++	return status;
++}
++
++u8 rtw_set_802_11_ssid(_adapter *padapter, NDIS_802_11_SSID *ssid)
++{
++	_irqL irqL;
++	u8 status = _SUCCESS;
++	u32 cur_time = 0;
++
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network *pnetwork = &pmlmepriv->cur_network;
++
++
++	RTW_PRINT("set ssid [%s] fw_state=0x%08x\n",
++		  ssid->Ssid, get_fwstate(pmlmepriv));
++
++	if (!rtw_is_hw_init_completed(padapter)) {
++		status = _FAIL;
++		goto exit;
++	}
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	RTW_INFO("Set SSID under fw_state=0x%08x\n", get_fwstate(pmlmepriv));
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE)
++		goto handle_tkip_countermeasure;
++	else if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE)
++		goto release_mlme_lock;
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED | WIFI_ADHOC_MASTER_STATE) == _TRUE) {
++
++		if ((pmlmepriv->assoc_ssid.SsidLength == ssid->SsidLength) &&
++		    (_rtw_memcmp(&pmlmepriv->assoc_ssid.Ssid, ssid->Ssid, ssid->SsidLength) == _TRUE)) {
++			if ((check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _FALSE)) {
++
++				if (rtw_is_same_ibss(padapter, pnetwork) == _FALSE) {
++					/* if in WIFI_ADHOC_MASTER_STATE | WIFI_ADHOC_STATE, create bss or rejoin again */
++					rtw_disassoc_cmd(padapter, 0, _TRUE);
++
++					if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++						rtw_indicate_disconnect(padapter, 0, _FALSE);
++
++					rtw_free_assoc_resources(padapter, 1);
++
++					if (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) {
++						_clr_fwstate_(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++						set_fwstate(pmlmepriv, WIFI_ADHOC_STATE);
++					}
++				} else {
++					goto release_mlme_lock;/* it means driver is in WIFI_ADHOC_MASTER_STATE, we needn't create bss again. */
++				}
++			}
++#ifdef CONFIG_LPS
++			else
++				rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_JOINBSS, 1);
++#endif
++		} else {
++
++			rtw_disassoc_cmd(padapter, 0, _TRUE);
++
++			if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++				rtw_indicate_disconnect(padapter, 0, _FALSE);
++
++			rtw_free_assoc_resources(padapter, 1);
++
++			if (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) {
++				_clr_fwstate_(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++				set_fwstate(pmlmepriv, WIFI_ADHOC_STATE);
++			}
++		}
++	}
++
++handle_tkip_countermeasure:
++	if (rtw_handle_tkip_countermeasure(padapter, __func__) == _FAIL) {
++		status = _FAIL;
++		goto release_mlme_lock;
++	}
++
++	if (rtw_validate_ssid(ssid) == _FALSE) {
++		status = _FAIL;
++		goto release_mlme_lock;
++	}
++
++	_rtw_memcpy(&pmlmepriv->assoc_ssid, ssid, sizeof(NDIS_802_11_SSID));
++	pmlmepriv->assoc_by_bssid = _FALSE;
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE)
++		pmlmepriv->to_join = _TRUE;
++	else
++		status = rtw_do_join(padapter);
++
++release_mlme_lock:
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++exit:
++
++
++	return status;
++
++}
++
++u8 rtw_set_802_11_connect(_adapter *padapter, u8 *bssid, NDIS_802_11_SSID *ssid)
++{
++	_irqL irqL;
++	u8 status = _SUCCESS;
++	u32 cur_time = 0;
++	bool bssid_valid = _TRUE;
++	bool ssid_valid = _TRUE;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++
++	if (!ssid || rtw_validate_ssid(ssid) == _FALSE)
++		ssid_valid = _FALSE;
++
++	if (!bssid || rtw_validate_bssid(bssid) == _FALSE)
++		bssid_valid = _FALSE;
++
++	if (ssid_valid == _FALSE && bssid_valid == _FALSE) {
++		RTW_INFO(FUNC_ADPT_FMT" ssid:%p, ssid_valid:%d, bssid:%p, bssid_valid:%d\n",
++			FUNC_ADPT_ARG(padapter), ssid, ssid_valid, bssid, bssid_valid);
++		status = _FAIL;
++		goto exit;
++	}
++
++	if (!rtw_is_hw_init_completed(padapter)) {
++		status = _FAIL;
++		goto exit;
++	}
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	RTW_PRINT(FUNC_ADPT_FMT"  fw_state=0x%08x\n",
++		  FUNC_ADPT_ARG(padapter), get_fwstate(pmlmepriv));
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE)
++		goto handle_tkip_countermeasure;
++	else if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE)
++		goto release_mlme_lock;
++
++handle_tkip_countermeasure:
++	if (rtw_handle_tkip_countermeasure(padapter, __func__) == _FAIL) {
++		status = _FAIL;
++		goto release_mlme_lock;
++	}
++
++	if (ssid && ssid_valid)
++		_rtw_memcpy(&pmlmepriv->assoc_ssid, ssid, sizeof(NDIS_802_11_SSID));
++	else
++		_rtw_memset(&pmlmepriv->assoc_ssid, 0, sizeof(NDIS_802_11_SSID));
++
++	if (bssid && bssid_valid) {
++		_rtw_memcpy(&pmlmepriv->assoc_bssid, bssid, ETH_ALEN);
++		pmlmepriv->assoc_by_bssid = _TRUE;
++	} else
++		pmlmepriv->assoc_by_bssid = _FALSE;
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE)
++		pmlmepriv->to_join = _TRUE;
++	else
++		status = rtw_do_join(padapter);
++
++release_mlme_lock:
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++exit:
++
++
++	return status;
++}
++
++u8 rtw_set_802_11_infrastructure_mode(_adapter *padapter,
++			      NDIS_802_11_NETWORK_INFRASTRUCTURE networktype)
++{
++	_irqL irqL;
++	struct	mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct	wlan_network	*cur_network = &pmlmepriv->cur_network;
++	NDIS_802_11_NETWORK_INFRASTRUCTURE *pold_state = &(cur_network->network.InfrastructureMode);
++
++
++
++	if (*pold_state != networktype) {
++		/* RTW_INFO("change mode, old_mode=%d, new_mode=%d, fw_state=0x%x\n", *pold_state, networktype, get_fwstate(pmlmepriv)); */
++
++		if (*pold_state == Ndis802_11APMode) {
++			/* change to other mode from Ndis802_11APMode			 */
++			cur_network->join_res = -1;
++
++#ifdef CONFIG_NATIVEAP_MLME
++			stop_ap_mode(padapter);
++#endif
++		}
++
++		_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++		if ((check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) || (*pold_state == Ndis802_11IBSS))
++			rtw_disassoc_cmd(padapter, 0, _TRUE);
++
++		if ((check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) ||
++		    (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE))
++			rtw_free_assoc_resources(padapter, 1);
++
++		if ((*pold_state == Ndis802_11Infrastructure) || (*pold_state == Ndis802_11IBSS)) {
++			if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				rtw_indicate_disconnect(padapter, 0, _FALSE); /*will clr Linked_state; before this function, we must have checked whether issue dis-assoc_cmd or not*/
++			}
++		}
++
++		*pold_state = networktype;
++
++		_clr_fwstate_(pmlmepriv, ~WIFI_NULL_STATE);
++
++		switch (networktype) {
++		case Ndis802_11IBSS:
++			set_fwstate(pmlmepriv, WIFI_ADHOC_STATE);
++			break;
++
++		case Ndis802_11Infrastructure:
++			set_fwstate(pmlmepriv, WIFI_STATION_STATE);
++			break;
++
++		case Ndis802_11APMode:
++			set_fwstate(pmlmepriv, WIFI_AP_STATE);
++#ifdef CONFIG_NATIVEAP_MLME
++			start_ap_mode(padapter);
++			/* rtw_indicate_connect(padapter); */
++#endif
++
++			break;
++
++		case Ndis802_11AutoUnknown:
++		case Ndis802_11InfrastructureMax:
++			break;
++		case Ndis802_11Monitor:
++			set_fwstate(pmlmepriv, WIFI_MONITOR_STATE);
++			break;
++		}
++
++		/* SecClearAllKeys(adapter); */
++
++
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++	}
++
++
++	return _TRUE;
++}
++
++
++u8 rtw_set_802_11_disassociate(_adapter *padapter)
++{
++	_irqL irqL;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++
++		rtw_disassoc_cmd(padapter, 0, _TRUE);
++		rtw_indicate_disconnect(padapter, 0, _FALSE);
++		/* modify for CONFIG_IEEE80211W, none 11w can use it */
++		rtw_free_assoc_resources_cmd(padapter);
++		if (_FAIL == rtw_pwr_wakeup(padapter))
++			RTW_INFO("%s(): rtw_pwr_wakeup fail !!!\n", __FUNCTION__);
++	}
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++	return _TRUE;
++}
++
++#if 1
++u8 rtw_set_802_11_bssid_list_scan(_adapter *padapter, NDIS_802_11_SSID *pssid, int ssid_max_num, struct rtw_ieee80211_channel *ch, int ch_num)
++{
++	_irqL	irqL;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	u8	res = _TRUE;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	res = rtw_sitesurvey_cmd(padapter, pssid, ssid_max_num, ch, ch_num);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++	return res;
++}
++
++#else
++u8 rtw_set_802_11_bssid_list_scan(_adapter *padapter, NDIS_802_11_SSID *pssid, int ssid_max_num, struct rtw_ieee80211_channel *ch, int ch_num)
++{
++	_irqL	irqL;
++	struct	mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	u8	res = _TRUE;
++
++
++
++	if (padapter == NULL) {
++		res = _FALSE;
++		goto exit;
++	}
++	if (!rtw_is_hw_init_completed(padapter)) {
++		res = _FALSE;
++		goto exit;
++	}
++
++	if ((check_fwstate(pmlmepriv, _FW_UNDER_SURVEY | _FW_UNDER_LINKING) == _TRUE) ||
++	    (pmlmepriv->LinkDetectInfo.bBusyTraffic == _TRUE)) {
++		/* Scan or linking is in progress, do nothing. */
++		res = _TRUE;
++
++
++	} else {
++		if (rtw_is_scan_deny(padapter)) {
++			RTW_INFO(FUNC_ADPT_FMT": scan deny\n", FUNC_ADPT_ARG(padapter));
++			indicate_wx_scan_complete_event(padapter);
++			return _SUCCESS;
++		}
++
++		_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++		res = rtw_sitesurvey_cmd(padapter, pssid, ssid_max_num, NULL, 0, ch, ch_num);
++
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++	}
++exit:
++
++
++	return res;
++}
++#endif
++u8 rtw_set_802_11_authentication_mode(_adapter *padapter, NDIS_802_11_AUTHENTICATION_MODE authmode)
++{
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	int res;
++	u8 ret;
++
++
++
++	psecuritypriv->ndisauthtype = authmode;
++
++
++	if (psecuritypriv->ndisauthtype > 3)
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (psecuritypriv->ndisauthtype == 6)
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_WAPI;
++#endif
++
++	res = rtw_set_auth(padapter, psecuritypriv);
++
++	if (res == _SUCCESS)
++		ret = _TRUE;
++	else
++		ret = _FALSE;
++
++
++	return ret;
++}
++
++u8 rtw_set_802_11_add_wep(_adapter *padapter, NDIS_802_11_WEP *wep)
++{
++
++	u8		bdefaultkey;
++	u8		btransmitkey;
++	sint		keyid, res;
++	struct security_priv *psecuritypriv = &(padapter->securitypriv);
++	u8		ret = _SUCCESS;
++
++
++	bdefaultkey = (wep->KeyIndex & 0x40000000) > 0 ? _FALSE : _TRUE; /* for ??? */
++	btransmitkey = (wep->KeyIndex & 0x80000000) > 0 ? _TRUE  : _FALSE;	/* for ??? */
++	keyid = wep->KeyIndex & 0x3fffffff;
++
++	if (keyid >= 4) {
++		ret = _FALSE;
++		goto exit;
++	}
++
++	switch (wep->KeyLength) {
++	case 5:
++		psecuritypriv->dot11PrivacyAlgrthm = _WEP40_;
++		break;
++	case 13:
++		psecuritypriv->dot11PrivacyAlgrthm = _WEP104_;
++		break;
++	default:
++		psecuritypriv->dot11PrivacyAlgrthm = _NO_PRIVACY_;
++		break;
++	}
++
++
++	_rtw_memcpy(&(psecuritypriv->dot11DefKey[keyid].skey[0]), &(wep->KeyMaterial), wep->KeyLength);
++
++	psecuritypriv->dot11DefKeylen[keyid] = wep->KeyLength;
++
++	psecuritypriv->dot11PrivacyKeyIndex = keyid;
++
++
++	res = rtw_set_key(padapter, psecuritypriv, keyid, 1, _TRUE);
++
++	if (res == _FAIL)
++		ret = _FALSE;
++exit:
++
++
++	return ret;
++
++}
++
++u8 rtw_set_802_11_remove_wep(_adapter *padapter, u32 keyindex)
++{
++
++	u8 ret = _SUCCESS;
++
++
++	if (keyindex >= 0x80000000 || padapter == NULL) {
++
++		ret = _FALSE;
++		goto exit;
++
++	} else {
++		int res;
++		struct security_priv *psecuritypriv = &(padapter->securitypriv);
++		if (keyindex < 4) {
++
++			_rtw_memset(&psecuritypriv->dot11DefKey[keyindex], 0, 16);
++
++			res = rtw_set_key(padapter, psecuritypriv, keyindex, 0, _TRUE);
++
++			psecuritypriv->dot11DefKeylen[keyindex] = 0;
++
++			if (res == _FAIL)
++				ret = _FAIL;
++
++		} else
++			ret = _FAIL;
++
++	}
++
++exit:
++
++
++	return ret;
++
++}
++
++u8 rtw_set_802_11_add_key(_adapter *padapter, NDIS_802_11_KEY *key)
++{
++
++	uint	encryptionalgo;
++	u8 *pbssid;
++	struct sta_info *stainfo;
++	u8	bgroup = _FALSE;
++	u8	bgrouptkey = _FALSE;/* can be remove later */
++	u8	ret = _SUCCESS;
++
++
++	if (((key->KeyIndex & 0x80000000) == 0) && ((key->KeyIndex & 0x40000000) > 0)) {
++
++		/* It is invalid to clear bit 31 and set bit 30. If the miniport driver encounters this combination, */
++		/* it must fail the request and return NDIS_STATUS_INVALID_DATA. */
++		ret = _FAIL;
++		goto exit;
++	}
++
++	if (key->KeyIndex & 0x40000000) {
++		/* Pairwise key */
++
++
++		pbssid = get_bssid(&padapter->mlmepriv);
++		stainfo = rtw_get_stainfo(&padapter->stapriv, pbssid);
++
++		if ((stainfo != NULL) && (padapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X)) {
++			encryptionalgo = stainfo->dot118021XPrivacy;
++		} else {
++			encryptionalgo = padapter->securitypriv.dot11PrivacyAlgrthm;
++		}
++
++
++
++
++		if (key->KeyIndex & 0x000000FF) {
++			/* The key index is specified in the lower 8 bits by values of zero to 255. */
++			/* The key index should be set to zero for a Pairwise key, and the driver should fail with */
++			/* NDIS_STATUS_INVALID_DATA if the lower 8 bits is not zero */
++			ret = _FAIL;
++			goto exit;
++		}
++
++		/* check BSSID */
++		if (IS_MAC_ADDRESS_BROADCAST(key->BSSID) == _TRUE) {
++
++			ret = _FALSE;
++			goto exit;
++		}
++
++		/* Check key length for TKIP. */
++		/* if(encryptionAlgorithm == RT_ENC_TKIP_ENCRYPTION && key->KeyLength != 32) */
++		if ((encryptionalgo == _TKIP_) && (key->KeyLength != 32)) {
++			ret = _FAIL;
++			goto exit;
++
++		}
++
++		/* Check key length for AES. */
++		if ((encryptionalgo == _AES_) && (key->KeyLength != 16)) {
++			/* For our supplicant, EAPPkt9x.vxd, cannot differentiate TKIP and AES case. */
++			if (key->KeyLength == 32)
++				key->KeyLength = 16;
++			else {
++				ret = _FAIL;
++				goto exit;
++			}
++		}
++
++		/* Check key length for WEP. For NDTEST, 2005.01.27, by rcnjko. -> modify checking condition*/
++		if (((encryptionalgo == _WEP40_) && (key->KeyLength != 5)) || ((encryptionalgo == _WEP104_) && (key->KeyLength != 13))) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		bgroup = _FALSE;
++
++		/* Check the pairwise key. Added by Annie, 2005-07-06. */
++
++	} else {
++		/* Group key - KeyIndex(BIT30==0) */
++
++
++		/* when add wep key through add key and didn't assigned encryption type before */
++		if ((padapter->securitypriv.ndisauthtype <= 3) && (padapter->securitypriv.dot118021XGrpPrivacy == 0)) {
++
++			switch (key->KeyLength) {
++			case 5:
++				padapter->securitypriv.dot11PrivacyAlgrthm = _WEP40_;
++				break;
++			case 13:
++				padapter->securitypriv.dot11PrivacyAlgrthm = _WEP104_;
++				break;
++			default:
++				padapter->securitypriv.dot11PrivacyAlgrthm = _NO_PRIVACY_;
++				break;
++			}
++
++			encryptionalgo = padapter->securitypriv.dot11PrivacyAlgrthm;
++
++
++		} else {
++			encryptionalgo = padapter->securitypriv.dot118021XGrpPrivacy;
++
++		}
++
++		if ((check_fwstate(&padapter->mlmepriv, WIFI_ADHOC_STATE) == _TRUE) && (IS_MAC_ADDRESS_BROADCAST(key->BSSID) == _FALSE)) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		/* Check key length for TKIP */
++		if ((encryptionalgo == _TKIP_) && (key->KeyLength != 32)) {
++
++			ret = _FAIL;
++			goto exit;
++
++		} else if (encryptionalgo == _AES_ && (key->KeyLength != 16 && key->KeyLength != 32)) {
++
++			/* Check key length for AES */
++			/* For NDTEST, we allow keylen=32 in this case. 2005.01.27, by rcnjko. */
++			ret = _FAIL;
++			goto exit;
++		}
++
++		/* Change the key length for EAPPkt9x.vxd. Added by Annie, 2005-11-03. */
++		if ((encryptionalgo ==  _AES_) && (key->KeyLength == 32)) {
++			key->KeyLength = 16;
++		}
++
++		if (key->KeyIndex & 0x8000000) /* error ??? 0x8000_0000 */
++			bgrouptkey = _TRUE;
++
++		if ((check_fwstate(&padapter->mlmepriv, WIFI_ADHOC_STATE) == _TRUE) && (check_fwstate(&padapter->mlmepriv, _FW_LINKED) == _TRUE))
++			bgrouptkey = _TRUE;
++
++		bgroup = _TRUE;
++
++
++	}
++
++	/* If WEP encryption algorithm, just call rtw_set_802_11_add_wep(). */
++	if ((padapter->securitypriv.dot11AuthAlgrthm != dot11AuthAlgrthm_8021X) && (encryptionalgo == _WEP40_  || encryptionalgo == _WEP104_)) {
++		u8 ret;
++		u32 keyindex;
++		u32 len = FIELD_OFFSET(NDIS_802_11_KEY, KeyMaterial) + key->KeyLength;
++		NDIS_802_11_WEP *wep = &padapter->securitypriv.ndiswep;
++
++
++		wep->Length = len;
++		keyindex = key->KeyIndex & 0x7fffffff;
++		wep->KeyIndex = keyindex ;
++		wep->KeyLength = key->KeyLength;
++
++
++		_rtw_memcpy(wep->KeyMaterial, key->KeyMaterial, key->KeyLength);
++		_rtw_memcpy(&(padapter->securitypriv.dot11DefKey[keyindex].skey[0]), key->KeyMaterial, key->KeyLength);
++
++		padapter->securitypriv.dot11DefKeylen[keyindex] = key->KeyLength;
++		padapter->securitypriv.dot11PrivacyKeyIndex = keyindex;
++
++		ret = rtw_set_802_11_add_wep(padapter, wep);
++
++		goto exit;
++
++	}
++
++	if (key->KeyIndex & 0x20000000) {
++		/* SetRSC */
++		if (bgroup == _TRUE) {
++			NDIS_802_11_KEY_RSC keysrc = key->KeyRSC & 0x00FFFFFFFFFFFFULL;
++			_rtw_memcpy(&padapter->securitypriv.dot11Grprxpn, &keysrc, 8);
++		} else {
++			NDIS_802_11_KEY_RSC keysrc = key->KeyRSC & 0x00FFFFFFFFFFFFULL;
++			_rtw_memcpy(&padapter->securitypriv.dot11Grptxpn, &keysrc, 8);
++		}
++
++	}
++
++	/* Indicate this key idx is used for TX */
++	/* Save the key in KeyMaterial */
++	if (bgroup == _TRUE) { /* Group transmit key */
++		int res;
++
++		if (bgrouptkey == _TRUE)
++			padapter->securitypriv.dot118021XGrpKeyid = (u8)key->KeyIndex;
++
++		if ((key->KeyIndex & 0x3) == 0) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		_rtw_memset(&padapter->securitypriv.dot118021XGrpKey[(u8)((key->KeyIndex) & 0x03)], 0, 16);
++		_rtw_memset(&padapter->securitypriv.dot118021XGrptxmickey[(u8)((key->KeyIndex) & 0x03)], 0, 16);
++		_rtw_memset(&padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex) & 0x03)], 0, 16);
++
++		if ((key->KeyIndex & 0x10000000)) {
++			_rtw_memcpy(&padapter->securitypriv.dot118021XGrptxmickey[(u8)((key->KeyIndex) & 0x03)], key->KeyMaterial + 16, 8);
++			_rtw_memcpy(&padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex) & 0x03)], key->KeyMaterial + 24, 8);
++
++
++		} else {
++			_rtw_memcpy(&padapter->securitypriv.dot118021XGrptxmickey[(u8)((key->KeyIndex) & 0x03)], key->KeyMaterial + 24, 8);
++			_rtw_memcpy(&padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex) & 0x03)], key->KeyMaterial + 16, 8);
++
++
++		}
++
++		/* set group key by index */
++		_rtw_memcpy(&padapter->securitypriv.dot118021XGrpKey[(u8)((key->KeyIndex) & 0x03)], key->KeyMaterial, key->KeyLength);
++
++		key->KeyIndex = key->KeyIndex & 0x03;
++
++		padapter->securitypriv.binstallGrpkey = _TRUE;
++
++		padapter->securitypriv.bcheck_grpkey = _FALSE;
++
++
++		res = rtw_set_key(padapter, &padapter->securitypriv, key->KeyIndex, 1, _TRUE);
++
++		if (res == _FAIL)
++			ret = _FAIL;
++
++		goto exit;
++
++	} else { /* Pairwise Key */
++		u8 res;
++
++		pbssid = get_bssid(&padapter->mlmepriv);
++		stainfo = rtw_get_stainfo(&padapter->stapriv , pbssid);
++
++		if (stainfo != NULL) {
++			_rtw_memset(&stainfo->dot118021x_UncstKey, 0, 16); /* clear keybuffer */
++
++			_rtw_memcpy(&stainfo->dot118021x_UncstKey, key->KeyMaterial, 16);
++
++			if (encryptionalgo == _TKIP_) {
++				padapter->securitypriv.busetkipkey = _FALSE;
++
++				/* _set_timer(&padapter->securitypriv.tkip_timer, 50); */
++
++
++				/* if TKIP, save the Receive/Transmit MIC key in KeyMaterial[128-255] */
++				if ((key->KeyIndex & 0x10000000)) {
++					_rtw_memcpy(&stainfo->dot11tkiptxmickey, key->KeyMaterial + 16, 8);
++					_rtw_memcpy(&stainfo->dot11tkiprxmickey, key->KeyMaterial + 24, 8);
++
++				} else {
++					_rtw_memcpy(&stainfo->dot11tkiptxmickey, key->KeyMaterial + 24, 8);
++					_rtw_memcpy(&stainfo->dot11tkiprxmickey, key->KeyMaterial + 16, 8);
++
++				}
++
++			} else if (encryptionalgo == _AES_) {
++
++			}
++
++
++			/* Set key to CAM through H2C command */
++#if 0
++			if (bgrouptkey) { /* never go to here */
++				res = rtw_setstakey_cmd(padapter, stainfo, GROUP_KEY, _TRUE);
++			} else {
++				res = rtw_setstakey_cmd(padapter, stainfo, UNICAST_KEY, _TRUE);
++			}
++#else
++
++			res = rtw_setstakey_cmd(padapter, stainfo, UNICAST_KEY, _TRUE);
++#endif
++
++			if (res == _FALSE)
++				ret = _FAIL;
++
++		}
++
++	}
++
++exit:
++
++
++	return ret;
++}
++
++u8 rtw_set_802_11_remove_key(_adapter	*padapter, NDIS_802_11_REMOVE_KEY *key)
++{
++
++	uint				encryptionalgo;
++	u8 *pbssid;
++	struct sta_info *stainfo;
++	u8	bgroup = (key->KeyIndex & 0x4000000) > 0 ? _FALSE : _TRUE;
++	u8	keyIndex = (u8)key->KeyIndex & 0x03;
++	u8	ret = _SUCCESS;
++
++
++	if ((key->KeyIndex & 0xbffffffc) > 0) {
++		ret = _FAIL;
++		goto exit;
++	}
++
++	if (bgroup == _TRUE) {
++		encryptionalgo = padapter->securitypriv.dot118021XGrpPrivacy;
++		/* clear group key by index */
++		/* NdisZeroMemory(Adapter->MgntInfo.SecurityInfo.KeyBuf[keyIndex], MAX_WEP_KEY_LEN); */
++		/* Adapter->MgntInfo.SecurityInfo.KeyLen[keyIndex] = 0; */
++
++		_rtw_memset(&padapter->securitypriv.dot118021XGrpKey[keyIndex], 0, 16);
++
++		/* ! \todo Send a H2C Command to Firmware for removing this Key in CAM Entry. */
++
++	} else {
++
++		pbssid = get_bssid(&padapter->mlmepriv);
++		stainfo = rtw_get_stainfo(&padapter->stapriv , pbssid);
++		if (stainfo != NULL) {
++			encryptionalgo = stainfo->dot118021XPrivacy;
++
++			/* clear key by BSSID */
++			_rtw_memset(&stainfo->dot118021x_UncstKey, 0, 16);
++
++			/* ! \todo Send a H2C Command to Firmware for disable this Key in CAM Entry. */
++
++		} else {
++			ret = _FAIL;
++			goto exit;
++		}
++	}
++
++exit:
++
++
++	return _TRUE;
++
++}
++
++/*
++* rtw_get_cur_max_rate -
++* @adapter: pointer to _adapter structure
++*
++* Return 0 or 100Kbps
++*/
++u16 rtw_get_cur_max_rate(_adapter *adapter)
++{
++	int	i = 0;
++	u16	rate = 0, max_rate = 0;
++	struct mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++	WLAN_BSSID_EX	*pcur_bss = &pmlmepriv->cur_network.network;
++	struct sta_info *psta = NULL;
++	u8	short_GI = 0;
++#ifdef CONFIG_80211N_HT
++	u8	rf_type = 0;
++#endif
++
++#ifdef CONFIG_MP_INCLUDED
++	if (adapter->registrypriv.mp_mode == 1) {
++		if (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE)
++			return 0;
++	}
++#endif
++
++	if ((check_fwstate(pmlmepriv, _FW_LINKED) != _TRUE)
++	    && (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) != _TRUE))
++		return 0;
++
++	psta = rtw_get_stainfo(&adapter->stapriv, get_bssid(pmlmepriv));
++	if (psta == NULL)
++		return 0;
++
++	short_GI = query_ra_short_GI(psta, psta->bw_mode);
++
++#ifdef CONFIG_80211N_HT
++	if (IsSupportedHT(psta->wireless_mode)) {
++		rtw_hal_get_hwreg(adapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++		max_rate = rtw_mcs_rate(
++				   rf_type,
++			   ((psta->bw_mode == CHANNEL_WIDTH_40) ? 1 : 0),
++				   short_GI,
++				   psta->htpriv.ht_cap.supp_mcs_set
++			   );
++	}
++#ifdef CONFIG_80211AC_VHT
++	else if (IsSupportedVHT(psta->wireless_mode))
++		max_rate = ((rtw_vht_mcs_to_data_rate(psta->bw_mode, short_GI, pmlmepriv->vhtpriv.vht_highest_rate) + 1) >> 1) * 10;
++#endif /* CONFIG_80211AC_VHT */
++	else
++#endif /* CONFIG_80211N_HT */
++	{
++		while ((pcur_bss->SupportedRates[i] != 0) && (pcur_bss->SupportedRates[i] != 0xFF)) {
++			rate = pcur_bss->SupportedRates[i] & 0x7F;
++			if (rate > max_rate)
++				max_rate = rate;
++			i++;
++		}
++
++		max_rate = max_rate * 10 / 2;
++	}
++
++	return max_rate;
++}
++
++/*
++* rtw_set_scan_mode -
++* @adapter: pointer to _adapter structure
++* @scan_mode:
++*
++* Return _SUCCESS or _FAIL
++*/
++int rtw_set_scan_mode(_adapter *adapter, RT_SCAN_TYPE scan_mode)
++{
++	if (scan_mode != SCAN_ACTIVE && scan_mode != SCAN_PASSIVE)
++		return _FAIL;
++
++	adapter->mlmepriv.scan_mode = scan_mode;
++
++	return _SUCCESS;
++}
++
++/*
++* rtw_set_channel_plan -
++* @adapter: pointer to _adapter structure
++* @channel_plan:
++*
++* Return _SUCCESS or _FAIL
++*/
++int rtw_set_channel_plan(_adapter *adapter, u8 channel_plan)
++{
++	struct registry_priv *pregistrypriv = &adapter->registrypriv;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++
++	/* handle by cmd_thread to sync with scan operation */
++	return rtw_set_chplan_cmd(adapter, RTW_CMDF_WAIT_ACK, channel_plan, 1);
++}
++
++/*
++* rtw_set_country -
++* @adapter: pointer to _adapter structure
++* @country_code: string of country code
++*
++* Return _SUCCESS or _FAIL
++*/
++int rtw_set_country(_adapter *adapter, const char *country_code)
++{
++#ifdef CONFIG_RTW_IOCTL_SET_COUNTRY
++	return rtw_set_country_cmd(adapter, RTW_CMDF_WAIT_ACK, country_code, 1);
++#else
++	return _FAIL;
++#endif
++}
++
++/*
++* rtw_set_band -
++* @adapter: pointer to _adapter structure
++* @band: band to set
++*
++* Return _SUCCESS or _FAIL
++*/
++int rtw_set_band(_adapter *adapter, u8 band)
++{
++	if (rtw_band_valid(band)) {
++		RTW_INFO(FUNC_ADPT_FMT" band:%d\n", FUNC_ADPT_ARG(adapter), band);
++		adapter->setband = band;
++		return _SUCCESS;
++	}
++
++	RTW_PRINT(FUNC_ADPT_FMT" band:%d fail\n", FUNC_ADPT_ARG(adapter), band);
++	return _FAIL;
++}
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_iol.c b/drivers/net/wireless/rtl8723du/core/rtw_iol.c
+new file mode 100644
+index 0000000..42d0b6b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_iol.c
+@@ -0,0 +1,387 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include <drv_types.h>
++
++#ifdef CONFIG_IOL
++struct xmit_frame	*rtw_IOL_accquire_xmit_frame(ADAPTER *adapter)
++{
++	struct xmit_frame	*xmit_frame;
++	struct xmit_buf	*xmitbuf;
++	struct pkt_attrib	*pattrib;
++	struct xmit_priv	*pxmitpriv = &(adapter->xmitpriv);
++
++#if 1
++	xmit_frame = rtw_alloc_xmitframe(pxmitpriv);
++	if (xmit_frame == NULL) {
++		RTW_INFO("%s rtw_alloc_xmitframe return null\n", __FUNCTION__);
++		goto exit;
++	}
++
++	xmitbuf = rtw_alloc_xmitbuf(pxmitpriv);
++	if (xmitbuf == NULL) {
++		RTW_INFO("%s rtw_alloc_xmitbuf return null\n", __FUNCTION__);
++		rtw_free_xmitframe(pxmitpriv, xmit_frame);
++		xmit_frame = NULL;
++		goto exit;
++	}
++
++	xmit_frame->frame_tag = MGNT_FRAMETAG;
++	xmit_frame->pxmitbuf = xmitbuf;
++	xmit_frame->buf_addr = xmitbuf->pbuf;
++	xmitbuf->priv_data = xmit_frame;
++
++	pattrib = &xmit_frame->attrib;
++	update_mgntframe_attrib(adapter, pattrib);
++	pattrib->qsel = QSLT_BEACON;/* Beacon	 */
++	pattrib->subtype = WIFI_BEACON;
++	pattrib->pktlen = pattrib->last_txcmdsz = 0;
++
++#else
++	xmit_frame = alloc_mgtxmitframe(pxmitpriv);
++	if (xmit_frame == NULL)
++		RTW_INFO("%s alloc_mgtxmitframe return null\n", __FUNCTION__);
++	else {
++		pattrib = &xmit_frame->attrib;
++		update_mgntframe_attrib(adapter, pattrib);
++		pattrib->qsel = QSLT_BEACON;
++		pattrib->pktlen = pattrib->last_txcmdsz = 0;
++	}
++#endif
++
++exit:
++	return xmit_frame;
++}
++
++
++int rtw_IOL_append_cmds(struct xmit_frame *xmit_frame, u8 *IOL_cmds, u32 cmd_len)
++{
++	struct pkt_attrib	*pattrib = &xmit_frame->attrib;
++	u16 buf_offset;
++	u32 ori_len;
++
++	buf_offset = TXDESC_OFFSET;
++	ori_len = buf_offset + pattrib->pktlen;
++
++	/* check if the io_buf can accommodate new cmds */
++	if (ori_len + cmd_len + 8 > MAX_XMITBUF_SZ) {
++		RTW_INFO("%s %u is large than MAX_XMITBUF_SZ:%u, can't accommodate new cmds\n", __FUNCTION__
++			 , ori_len + cmd_len + 8, MAX_XMITBUF_SZ);
++		return _FAIL;
++	}
++
++	_rtw_memcpy(xmit_frame->buf_addr + buf_offset + pattrib->pktlen, IOL_cmds, cmd_len);
++	pattrib->pktlen += cmd_len;
++	pattrib->last_txcmdsz += cmd_len;
++
++	/* RTW_INFO("%s ori:%u + cmd_len:%u = %u\n", __FUNCTION__, ori_len, cmd_len, buf_offset+pattrib->pktlen); */
++
++	return _SUCCESS;
++}
++
++bool rtw_IOL_applied(ADAPTER *adapter)
++{
++	if (1 == adapter->registrypriv.fw_iol)
++		return _TRUE;
++
++#ifdef CONFIG_USB_HCI
++	if ((2 == adapter->registrypriv.fw_iol) && (IS_FULL_SPEED_USB(adapter)))
++		return _TRUE;
++#endif
++
++	return _FALSE;
++}
++
++int rtw_IOL_exec_cmds_sync(ADAPTER *adapter, struct xmit_frame *xmit_frame, u32 max_wating_ms, u32 bndy_cnt)
++{
++	return rtw_hal_iol_cmd(adapter, xmit_frame, max_wating_ms, bndy_cnt);
++}
++
++#ifdef CONFIG_IOL_NEW_GENERATION
++int rtw_IOL_append_LLT_cmd(struct xmit_frame *xmit_frame, u8 page_boundary)
++{
++	return _SUCCESS;
++}
++int _rtw_IOL_append_WB_cmd(struct xmit_frame *xmit_frame, u16 addr, u8 value, u8 mask)
++{
++	struct ioreg_cfg cmd = {8, IOREG_CMD_WB_REG, 0x0, 0x0, 0x0};
++
++	/* RTW_PUT_LE16((u8*)&cmd.address, addr);	 */
++	/* RTW_PUT_LE32((u8*)&cmd.value, (u32)value);	 */
++	cmd.address = cpu_to_le16(addr);
++	cmd.data = cpu_to_le32(value);
++
++	if (mask != 0xFF) {
++		cmd.length = 12;
++		/* RTW_PUT_LE32((u8*)&cmd.mask, (u32)mask);	 */
++		cmd.mask = cpu_to_le32(mask);
++	}
++
++	/* RTW_INFO("%s addr:0x%04x,value:0x%08x,mask:0x%08x\n", __FUNCTION__, addr,value,mask); */
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, cmd.length);
++
++}
++int _rtw_IOL_append_WW_cmd(struct xmit_frame *xmit_frame, u16 addr, u16 value, u16 mask)
++{
++	struct ioreg_cfg cmd = {8, IOREG_CMD_WW_REG, 0x0, 0x0, 0x0};
++
++	/* RTW_PUT_LE16((u8*)&cmd.address, addr);	 */
++	/* RTW_PUT_LE32((u8*)&cmd.value, (u32)value);	 */
++	cmd.address = cpu_to_le16(addr);
++	cmd.data = cpu_to_le32(value);
++
++	if (mask != 0xFFFF) {
++		cmd.length = 12;
++		/* RTW_PUT_LE32((u8*)&cmd.mask, (u32)mask);	 */
++		cmd.mask =  cpu_to_le32(mask);
++	}
++
++	/* RTW_INFO("%s addr:0x%04x,value:0x%08x,mask:0x%08x\n", __FUNCTION__, addr,value,mask); */
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, cmd.length);
++
++}
++int _rtw_IOL_append_WD_cmd(struct xmit_frame *xmit_frame, u16 addr, u32 value, u32 mask)
++{
++	struct ioreg_cfg cmd = {8, IOREG_CMD_WD_REG, 0x0, 0x0, 0x0};
++
++	/* RTW_PUT_LE16((u8*)&cmd.address, addr);	 */
++	/* RTW_PUT_LE32((u8*)&cmd.value, (u32)value);	 */
++	cmd.address = cpu_to_le16(addr);
++	cmd.data = cpu_to_le32(value);
++
++	if (mask != 0xFFFFFFFF) {
++		cmd.length = 12;
++		/* RTW_PUT_LE32((u8*)&cmd.mask, (u32)mask);	 */
++		cmd.mask =  cpu_to_le32(mask);
++	}
++
++	/* RTW_INFO("%s addr:0x%04x,value:0x%08x,mask:0x%08x\n", __FU2NCTION__, addr,value,mask); */
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, cmd.length);
++
++}
++
++int _rtw_IOL_append_WRF_cmd(struct xmit_frame *xmit_frame, u8 rf_path, u16 addr, u32 value, u32 mask)
++{
++	struct ioreg_cfg cmd = {8, IOREG_CMD_W_RF, 0x0, 0x0, 0x0};
++
++	/* RTW_PUT_LE16((u8*)&cmd.address, addr);	 */
++	/* RTW_PUT_LE32((u8*)&cmd.value, (u32)value);	 */
++	cmd.address = (rf_path << 8) | ((addr) & 0xFF);
++	cmd.data = cpu_to_le32(value);
++
++	if (mask != 0x000FFFFF) {
++		cmd.length = 12;
++		/* RTW_PUT_LE32((u8*)&cmd.mask, (u32)mask);	 */
++		cmd.mask =  cpu_to_le32(mask);
++	}
++
++	/* RTW_INFO("%s rf_path:0x%02x addr:0x%04x,value:0x%08x,mask:0x%08x\n", __FU2NCTION__,rf_path, addr,value,mask); */
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, cmd.length);
++
++}
++
++
++
++int rtw_IOL_append_DELAY_US_cmd(struct xmit_frame *xmit_frame, u16 us)
++{
++	struct ioreg_cfg cmd = {4, IOREG_CMD_DELAY_US, 0x0, 0x0, 0x0};
++	/* RTW_PUT_LE16((u8*)&cmd.address, us);	 */
++	cmd.address = cpu_to_le16(us);
++
++	/* RTW_INFO("%s %u\n", __FUNCTION__, us); */
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 4);
++}
++
++int rtw_IOL_append_DELAY_MS_cmd(struct xmit_frame *xmit_frame, u16 ms)
++{
++	struct ioreg_cfg cmd = {4, IOREG_CMD_DELAY_US, 0x0, 0x0, 0x0};
++
++	/* RTW_PUT_LE16((u8*)&cmd.address, ms);	 */
++	cmd.address = cpu_to_le16(ms);
++
++	/* RTW_INFO("%s %u\n", __FUNCTION__, ms); */
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 4);
++}
++int rtw_IOL_append_END_cmd(struct xmit_frame *xmit_frame)
++{
++	struct ioreg_cfg cmd = {4, IOREG_CMD_END, 0xFFFF, 0xFF, 0x0};
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 4);
++
++}
++
++u8 rtw_IOL_cmd_boundary_handle(struct xmit_frame *pxmit_frame)
++{
++	u8 is_cmd_bndy = _FALSE;
++	if (((pxmit_frame->attrib.pktlen + 32) % 256) + 8 >= 256) {
++		rtw_IOL_append_END_cmd(pxmit_frame);
++		pxmit_frame->attrib.pktlen = ((((pxmit_frame->attrib.pktlen + 32) / 256) + 1) * 256);
++
++		/* printk("==> %s, pktlen(%d)\n",__FUNCTION__,pxmit_frame->attrib.pktlen); */
++		pxmit_frame->attrib.last_txcmdsz = pxmit_frame->attrib.pktlen;
++		is_cmd_bndy = _TRUE;
++	}
++	return is_cmd_bndy;
++}
++
++void rtw_IOL_cmd_buf_dump(ADAPTER *Adapter, int buf_len, u8 *pbuf)
++{
++	int i;
++	int j = 1;
++
++	printk("###### %s ######\n", __FUNCTION__);
++	for (i = 0; i < buf_len; i++) {
++		printk("%02x-", *(pbuf + i));
++
++		if (j % 32 == 0)
++			printk("\n");
++		j++;
++	}
++	printk("\n");
++	printk("============= ioreg_cmd len = %d ===============\n", buf_len);
++}
++
++
++#else /* CONFIG_IOL_NEW_GENERATION */
++int rtw_IOL_append_LLT_cmd(struct xmit_frame *xmit_frame, u8 page_boundary)
++{
++	IOL_CMD cmd = {0x0, IOL_CMD_LLT, 0x0, 0x0};
++
++	RTW_PUT_BE32((u8 *)&cmd.value, (u32)page_boundary);
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 8);
++}
++
++int _rtw_IOL_append_WB_cmd(struct xmit_frame *xmit_frame, u16 addr, u8 value)
++{
++	IOL_CMD cmd = {0x0, IOL_CMD_WB_REG, 0x0, 0x0};
++
++	RTW_PUT_BE16((u8 *)&cmd.address, (u16)addr);
++	RTW_PUT_BE32((u8 *)&cmd.value, (u32)value);
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 8);
++}
++
++int _rtw_IOL_append_WW_cmd(struct xmit_frame *xmit_frame, u16 addr, u16 value)
++{
++	IOL_CMD cmd = {0x0, IOL_CMD_WW_REG, 0x0, 0x0};
++
++	RTW_PUT_BE16((u8 *)&cmd.address, (u16)addr);
++	RTW_PUT_BE32((u8 *)&cmd.value, (u32)value);
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 8);
++}
++
++int _rtw_IOL_append_WD_cmd(struct xmit_frame *xmit_frame, u16 addr, u32 value)
++{
++	IOL_CMD cmd = {0x0, IOL_CMD_WD_REG, 0x0, 0x0};
++	u8 *pos = (u8 *)&cmd;
++
++	RTW_PUT_BE16((u8 *)&cmd.address, (u16)addr);
++	RTW_PUT_BE32((u8 *)&cmd.value, (u32)value);
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 8);
++}
++
++#ifdef DBG_IO
++int dbg_rtw_IOL_append_WB_cmd(struct xmit_frame *xmit_frame, u16 addr, u8 value, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 1))
++		RTW_INFO("DBG_IO %s:%d IOL_WB(0x%04x, 0x%02x)\n", caller, line, addr, value);
++
++	return _rtw_IOL_append_WB_cmd(xmit_frame, addr, value);
++}
++
++int dbg_rtw_IOL_append_WW_cmd(struct xmit_frame *xmit_frame, u16 addr, u16 value, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 2))
++		RTW_INFO("DBG_IO %s:%d IOL_WW(0x%04x, 0x%04x)\n", caller, line, addr, value);
++
++	return _rtw_IOL_append_WW_cmd(xmit_frame, addr, value);
++}
++
++int dbg_rtw_IOL_append_WD_cmd(struct xmit_frame *xmit_frame, u16 addr, u32 value, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 4))
++		RTW_INFO("DBG_IO %s:%d IOL_WD(0x%04x, 0x%08x)\n", caller, line, addr, value);
++
++	return _rtw_IOL_append_WD_cmd(xmit_frame, addr, value);
++}
++#endif
++
++int rtw_IOL_append_DELAY_US_cmd(struct xmit_frame *xmit_frame, u16 us)
++{
++	IOL_CMD cmd = {0x0, IOL_CMD_DELAY_US, 0x0, 0x0};
++
++	RTW_PUT_BE32((u8 *)&cmd.value, (u32)us);
++
++	/* RTW_INFO("%s %u\n", __FUNCTION__, us); */
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 8);
++}
++
++int rtw_IOL_append_DELAY_MS_cmd(struct xmit_frame *xmit_frame, u16 ms)
++{
++	IOL_CMD cmd = {0x0, IOL_CMD_DELAY_MS, 0x0, 0x0};
++
++	RTW_PUT_BE32((u8 *)&cmd.value, (u32)ms);
++
++	/* RTW_INFO("%s %u\n", __FUNCTION__, ms); */
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 8);
++}
++
++int rtw_IOL_append_END_cmd(struct xmit_frame *xmit_frame)
++{
++	IOL_CMD end_cmd = {0x0, IOL_CMD_END, 0x0, 0x0};
++
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&end_cmd, 8);
++
++}
++
++int rtw_IOL_exec_cmd_array_sync(PADAPTER adapter, u8 *IOL_cmds, u32 cmd_num, u32 max_wating_ms)
++{
++	struct xmit_frame	*xmit_frame;
++
++	xmit_frame = rtw_IOL_accquire_xmit_frame(adapter);
++	if (xmit_frame == NULL)
++		return _FAIL;
++
++	if (rtw_IOL_append_cmds(xmit_frame, IOL_cmds, cmd_num << 3) == _FAIL)
++		return _FAIL;
++
++	return rtw_IOL_exec_cmds_sync(adapter, xmit_frame, max_wating_ms, 0);
++}
++
++int rtw_IOL_exec_empty_cmds_sync(ADAPTER *adapter, u32 max_wating_ms)
++{
++	IOL_CMD end_cmd = {0x0, IOL_CMD_END, 0x0, 0x0};
++	return rtw_IOL_exec_cmd_array_sync(adapter, (u8 *)&end_cmd, 1, max_wating_ms);
++}
++#endif /* CONFIG_IOL_NEW_GENERATION */
++
++
++
++
++#endif /* CONFIG_IOL */
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_mem.c b/drivers/net/wireless/rtl8723du/core/rtw_mem.c
+new file mode 100644
+index 0000000..b68a456
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_mem.c
+@@ -0,0 +1,114 @@
++
++#include <drv_types.h>
++#include <rtw_mem.h>
++
++MODULE_LICENSE("GPL");
++MODULE_DESCRIPTION("Realtek Wireless Lan Driver");
++MODULE_AUTHOR("Realtek Semiconductor Corp.");
++MODULE_VERSION("DRIVERVERSION");
++
++struct sk_buff_head rtk_skb_mem_q;
++struct u8 *rtk_buf_mem[NR_RECVBUFF];
++
++struct u8	*rtw_get_buf_premem(int index)
++{
++	printk("%s, rtk_buf_mem index : %d\n", __func__, index);
++	return rtk_buf_mem[index];
++}
++
++u16 rtw_rtkm_get_buff_size(void)
++{
++	return MAX_RTKM_RECVBUF_SZ;
++}
++EXPORT_SYMBOL(rtw_rtkm_get_buff_size);
++
++u8 rtw_rtkm_get_nr_recv_skb(void)
++{
++	return MAX_RTKM_NR_PREALLOC_RECV_SKB;
++}
++EXPORT_SYMBOL(rtw_rtkm_get_nr_recv_skb);
++
++struct sk_buff *rtw_alloc_skb_premem(u16 in_size)
++{
++	struct sk_buff *skb = NULL;
++
++	if (in_size > MAX_RTKM_RECVBUF_SZ) {
++		pr_info("warning %s: driver buffer size(%d) > rtkm buffer size(%d)\n", __func__, in_size, MAX_RTKM_RECVBUF_SZ);
++		WARN_ON(1);
++		return skb;
++	}
++
++	skb = skb_dequeue(&rtk_skb_mem_q);
++
++	printk("%s, rtk_skb_mem_q len : %d\n", __func__, skb_queue_len(&rtk_skb_mem_q));
++
++	return skb;
++}
++EXPORT_SYMBOL(rtw_alloc_skb_premem);
++
++int rtw_free_skb_premem(struct sk_buff *pskb)
++{
++	if (!pskb)
++		return -1;
++
++	if (skb_queue_len(&rtk_skb_mem_q) >= MAX_RTKM_NR_PREALLOC_RECV_SKB)
++		return -1;
++
++	skb_queue_tail(&rtk_skb_mem_q, pskb);
++
++	printk("%s, rtk_skb_mem_q len : %d\n", __func__, skb_queue_len(&rtk_skb_mem_q));
++
++	return 0;
++}
++EXPORT_SYMBOL(rtw_free_skb_premem);
++
++static int __init rtw_mem_init(void)
++{
++	int i;
++	SIZE_PTR tmpaddr = 0;
++	SIZE_PTR alignment = 0;
++	struct sk_buff *pskb = NULL;
++
++	printk("%s\n", __func__);
++	pr_info("MAX_RTKM_NR_PREALLOC_RECV_SKB: %d\n", MAX_RTKM_NR_PREALLOC_RECV_SKB);
++	pr_info("MAX_RTKM_RECVBUF_SZ: %d\n", MAX_RTKM_RECVBUF_SZ);
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++	for (i = 0; i < NR_RECVBUFF; i++)
++		rtk_buf_mem[i] = usb_buffer_alloc(dev, size, (in_interrupt() ? GFP_ATOMIC : GFP_KERNEL), dma);
++#endif /* CONFIG_USE_USB_BUFFER_ALLOC_RX */
++
++	skb_queue_head_init(&rtk_skb_mem_q);
++
++	for (i = 0; i < MAX_RTKM_NR_PREALLOC_RECV_SKB; i++) {
++		pskb = __dev_alloc_skb(MAX_RTKM_RECVBUF_SZ + RECVBUFF_ALIGN_SZ, in_interrupt() ? GFP_ATOMIC : GFP_KERNEL);
++		if (pskb) {
++			tmpaddr = (SIZE_PTR)pskb->data;
++			alignment = tmpaddr & (RECVBUFF_ALIGN_SZ - 1);
++			skb_reserve(pskb, (RECVBUFF_ALIGN_SZ - alignment));
++
++			skb_queue_tail(&rtk_skb_mem_q, pskb);
++		} else
++			printk("%s, alloc skb memory fail!\n", __func__);
++
++		pskb = NULL;
++	}
++
++	printk("%s, rtk_skb_mem_q len : %d\n", __func__, skb_queue_len(&rtk_skb_mem_q));
++
++	return 0;
++
++}
++
++static void __exit rtw_mem_exit(void)
++{
++	if (skb_queue_len(&rtk_skb_mem_q))
++		printk("%s, rtk_skb_mem_q len : %d\n", __func__, skb_queue_len(&rtk_skb_mem_q));
++
++	skb_queue_purge(&rtk_skb_mem_q);
++
++	printk("%s\n", __func__);
++}
++
++module_init(rtw_mem_init);
++module_exit(rtw_mem_exit);
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_mi.c b/drivers/net/wireless/rtl8723du/core/rtw_mi.c
+new file mode 100644
+index 0000000..15077a3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_mi.c
+@@ -0,0 +1,1478 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2015 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_MI_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++void rtw_mi_update_union_chan_inf(_adapter *adapter, u8 ch, u8 offset , u8 bw)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mi_state *iface_state = &dvobj->iface_state;
++
++	iface_state->union_ch = ch;
++	iface_state->union_bw = bw;
++	iface_state->union_offset = offset;
++}
++
++/* Find union about ch, bw, ch_offset of all linked/linking interfaces */
++int _rtw_mi_get_ch_setting_union(_adapter *adapter, u8 *ch, u8 *bw, u8 *offset, bool include_self)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	_adapter *iface;
++	struct mlme_ext_priv *mlmeext;
++	int i;
++	u8 ch_ret = 0;
++	u8 bw_ret = CHANNEL_WIDTH_20;
++	u8 offset_ret = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	int num = 0;
++
++	if (ch)
++		*ch = 0;
++	if (bw)
++		*bw = CHANNEL_WIDTH_20;
++	if (offset)
++		*offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		mlmeext = &iface->mlmeextpriv;
++
++		if (!check_fwstate(&iface->mlmepriv, _FW_LINKED | _FW_UNDER_LINKING))
++			continue;
++
++		if (check_fwstate(&iface->mlmepriv, WIFI_OP_CH_SWITCHING))
++			continue;
++
++		if (include_self == _FALSE && adapter == iface)
++			continue;
++
++		if (num == 0) {
++			ch_ret = mlmeext->cur_channel;
++			bw_ret = mlmeext->cur_bwmode;
++			offset_ret = mlmeext->cur_ch_offset;
++			num++;
++			continue;
++		}
++
++		if (ch_ret != mlmeext->cur_channel) {
++			num = 0;
++			break;
++		}
++
++		if (bw_ret < mlmeext->cur_bwmode) {
++			bw_ret = mlmeext->cur_bwmode;
++			offset_ret = mlmeext->cur_ch_offset;
++		} else if (bw_ret == mlmeext->cur_bwmode && offset_ret != mlmeext->cur_ch_offset) {
++			num = 0;
++			break;
++		}
++
++		num++;
++	}
++
++	if (num) {
++		if (ch)
++			*ch = ch_ret;
++		if (bw)
++			*bw = bw_ret;
++		if (offset)
++			*offset = offset_ret;
++	}
++
++	return num;
++}
++
++inline int rtw_mi_get_ch_setting_union(_adapter *adapter, u8 *ch, u8 *bw, u8 *offset)
++{
++	return _rtw_mi_get_ch_setting_union(adapter, ch, bw, offset, 1);
++}
++
++inline int rtw_mi_get_ch_setting_union_no_self(_adapter *adapter, u8 *ch, u8 *bw, u8 *offset)
++{
++	return _rtw_mi_get_ch_setting_union(adapter, ch, bw, offset, 0);
++}
++
++void _rtw_mi_status(_adapter *adapter, u8 *sta_num, u8 *ld_sta_num, u8 *lg_sta_num
++		    , u8 *ap_num, u8 *ld_ap_num, u8 *uw_num, bool include_self)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	_adapter *iface;
++	struct mlme_ext_priv *mlmeext;
++
++	int i;
++	u8 sta_num_ret = 0;
++	u8 ld_sta_num_ret = 0;
++	u8 lg_sta_num_ret = 0;
++	u8 ap_num_ret = 0;
++	u8 ld_ap_num_ret = 0;
++	u8 uw_num_ret = 0;
++
++	if (sta_num)
++		*sta_num = 0;
++	if (ld_sta_num)
++		*ld_sta_num = 0;
++	if (lg_sta_num)
++		*lg_sta_num = 0;
++	if (ap_num)
++		*ap_num = 0;
++	if (ld_ap_num)
++		*ld_ap_num = 0;
++	if (uw_num)
++		*uw_num = 0;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++
++		if (include_self == _FALSE && iface == adapter)
++			continue;
++
++		/*mlmeext = &iface->mlmeextpriv;
++
++		if (mlmeext_msr(mlmeext) == WIFI_FW_STATION_STATE) {*/
++		if (check_fwstate(&iface->mlmepriv, WIFI_STATION_STATE)) {
++			sta_num_ret++;
++			if (check_fwstate(&iface->mlmepriv, _FW_LINKED) == _TRUE)
++				ld_sta_num_ret++;
++			if (check_fwstate(&iface->mlmepriv, _FW_UNDER_LINKING) == _TRUE)
++				lg_sta_num_ret++;
++		}
++
++		/*if (mlmeext_msr(mlmeext) == WIFI_FW_AP_STATE*/
++		if (check_fwstate(&iface->mlmepriv, WIFI_AP_STATE)
++		    && check_fwstate(&iface->mlmepriv, _FW_LINKED) == _TRUE
++		   ) {
++			ap_num_ret++;
++			if (iface->stapriv.asoc_sta_count > 2)
++				ld_ap_num_ret++;
++		}
++
++		if (check_fwstate(&iface->mlmepriv, WIFI_UNDER_WPS) == _TRUE)
++			uw_num_ret++;
++
++	}
++
++	if (sta_num)
++		*sta_num = sta_num_ret;
++	if (ld_sta_num)
++		*ld_sta_num = ld_sta_num_ret;
++	if (lg_sta_num)
++		*lg_sta_num = lg_sta_num_ret;
++	if (ap_num)
++		*ap_num = ap_num_ret;
++	if (ld_ap_num)
++		*ld_ap_num = ld_ap_num_ret;
++	if (uw_num)
++		*uw_num = uw_num_ret;
++}
++
++inline void rtw_mi_status(_adapter *adapter, u8 *sta_num, u8 *ld_sta_num, u8 *lg_sta_num
++			  , u8 *ap_num, u8 *ld_ap_num, u8 *uw_num)
++{
++	return _rtw_mi_status(adapter, sta_num, ld_sta_num, lg_sta_num, ap_num, ld_ap_num, uw_num, 1);
++}
++inline void rtw_mi_status_no_self(_adapter *adapter, u8 *sta_num, u8 *ld_sta_num, u8 *lg_sta_num
++				  , u8 *ap_num, u8 *ld_ap_num, u8 *uw_num)
++{
++	return _rtw_mi_status(adapter, sta_num, ld_sta_num, lg_sta_num, ap_num, ld_ap_num, uw_num, 0);
++}
++void dump_mi_status(void *sel, struct dvobj_priv *dvobj)
++{
++	RTW_PRINT_SEL(sel, "== dvobj-iface_state ==\n");
++	RTW_PRINT_SEL(sel, "sta_num:%d\n", dvobj->iface_state.sta_num);
++	RTW_PRINT_SEL(sel, "linking_sta_num:%d\n", dvobj->iface_state.lg_sta_num);
++	RTW_PRINT_SEL(sel, "linked_sta_num:%d\n", dvobj->iface_state.ld_sta_num);
++	RTW_PRINT_SEL(sel, "ap_num:%d\n", dvobj->iface_state.ap_num);
++	RTW_PRINT_SEL(sel, "linked_ap_num:%d\n", dvobj->iface_state.ld_ap_num);
++	RTW_PRINT_SEL(sel, "adhoc_num:%d\n", dvobj->iface_state.adhoc_num);
++	RTW_PRINT_SEL(sel, "linked_adhoc_num:%d\n", dvobj->iface_state.ld_adhoc_num);
++#ifdef CONFIG_P2P
++	RTW_PRINT_SEL(sel, "p2p_device_num:%d\n", rtw_mi_stay_in_p2p_mode(dvobj->padapters[IFACE_ID0]));
++#endif
++	RTW_PRINT_SEL(sel, "under_wps_num:%d\n", dvobj->iface_state.uwps_num);
++	RTW_PRINT_SEL(sel, "union_ch:%d\n", dvobj->iface_state.union_ch);
++	RTW_PRINT_SEL(sel, "union_bw:%d\n", dvobj->iface_state.union_bw);
++	RTW_PRINT_SEL(sel, "union_offset:%d\n", dvobj->iface_state.union_offset);
++	RTW_PRINT_SEL(sel, "================\n\n");
++}
++
++void dump_dvobj_mi_status(void *sel, const char *fun_name, _adapter *adapter)
++{
++	RTW_INFO("\n[ %s ] call %s\n", fun_name, __func__);
++	dump_mi_status(sel, adapter_to_dvobj(adapter));
++}
++
++inline void rtw_mi_update_iface_status(struct mlme_priv *pmlmepriv, sint state)
++{
++	_adapter *adapter = container_of(pmlmepriv, _adapter, mlmepriv);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mi_state *iface_state = &dvobj->iface_state;
++	u8 i;
++	u8 u_ch, u_offset, u_bw;
++	_adapter *iface;
++	struct mlme_ext_priv *mlmeext;
++
++	if ((state == WIFI_MONITOR_STATE) || /* (state == WIFI_OP_CH_SWITCHING) || */
++	    (state == WIFI_ADHOC_MASTER_STATE) || (state == WIFI_ADHOC_STATE) ||
++	    (state == WIFI_SITE_MONITOR) || (state == 0xFFFFFFFF) ||
++	    (state == WIFI_UNDER_WPS)
++	   )
++		return;
++
++	if (0)
++		RTW_INFO("%s => will change or clean state to 0x%08x\n", __func__, state);
++	_rtw_memset(iface_state, 0, sizeof(struct mi_state));
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		mlmeext = &iface->mlmeextpriv;
++
++		if (check_fwstate(&iface->mlmepriv, WIFI_STATION_STATE) == _TRUE) {
++			iface_state->sta_num++;
++			if (check_fwstate(&iface->mlmepriv, _FW_LINKED) == _TRUE)
++				iface_state->ld_sta_num++;
++
++			if (check_fwstate(&iface->mlmepriv, _FW_UNDER_LINKING) == _TRUE)
++				iface_state->lg_sta_num++;
++		} else if (check_fwstate(&iface->mlmepriv, WIFI_AP_STATE) == _TRUE
++			&& check_fwstate(&iface->mlmepriv, _FW_LINKED) == _TRUE
++			  ) {
++			iface_state->ap_num++;
++			if (iface->stapriv.asoc_sta_count > 2)
++				iface_state->ld_ap_num++;
++		} else if (check_fwstate(&iface->mlmepriv, WIFI_ADHOC_STATE | WIFI_ADHOC_MASTER_STATE) == _TRUE
++			&& check_fwstate(&iface->mlmepriv, _FW_LINKED) == _TRUE
++			  ) {
++			iface_state->adhoc_num++;
++			if (iface->stapriv.asoc_sta_count > 2)
++				iface_state->ld_adhoc_num++;
++		}
++
++		if (check_fwstate(&iface->mlmepriv, WIFI_UNDER_WPS) == _TRUE)
++			iface_state->uwps_num++;
++
++	}
++
++	if (rtw_mi_get_ch_setting_union(adapter, &u_ch, &u_bw, &u_offset))
++		rtw_mi_update_union_chan_inf(adapter , u_ch, u_offset , u_bw);
++	else {
++		if (0) {
++			dump_adapters_status(RTW_DBGDUMP , dvobj);
++			RTW_INFO("%s-[ERROR] cannot get union channel\n", __func__);
++			rtw_warn_on(1);
++		}
++	}
++
++#ifdef DBG_IFACE_STATUS
++	DBG_IFACE_STATUS_DUMP(adapter);
++#endif
++}
++u8 rtw_mi_check_status(_adapter *adapter, u8 type)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mi_state *iface_state = &dvobj->iface_state;
++	u8 ret = _FALSE;
++
++#ifdef DBG_IFACE_STATUS
++	DBG_IFACE_STATUS_DUMP(adapter);
++	RTW_INFO("%s-"ADPT_FMT" check type:%d\n", __func__, ADPT_ARG(adapter), type);
++#endif
++
++	switch (type) {
++	case MI_LINKED:
++		if (iface_state->ld_sta_num || iface_state->ap_num || iface_state->adhoc_num) /*check_fwstate(&iface->mlmepriv, _FW_LINKED)*/
++			ret = _TRUE;
++		break;
++	case MI_ASSOC:
++		if (iface_state->ld_sta_num || iface_state->ld_ap_num || iface_state->ld_adhoc_num)
++			ret = _TRUE;
++		break;
++	case MI_UNDER_WPS:
++		if (iface_state->uwps_num)
++			ret = _TRUE;
++		break;
++
++	case MI_AP_MODE:
++		if (iface_state->ap_num)
++			ret = _TRUE;
++		break;
++	case MI_AP_ASSOC:
++		if (iface_state->ld_ap_num)
++			ret = _TRUE;
++		break;
++
++	case MI_ADHOC:
++		if (iface_state->adhoc_num)
++			ret = _TRUE;
++		break;
++	case MI_ADHOC_ASSOC:
++		if (iface_state->ld_adhoc_num)
++			ret = _TRUE;
++		break;
++
++	case MI_STA_NOLINK: /* this is misleading, but not used now */
++		if (iface_state->sta_num && (!(iface_state->ld_sta_num || iface_state->lg_sta_num)))
++			ret = _TRUE;
++		break;
++	case MI_STA_LINKED:
++		if (iface_state->ld_sta_num)
++			ret = _TRUE;
++		break;
++	case MI_STA_LINKING:
++		if (iface_state->lg_sta_num)
++			ret = _TRUE;
++		break;
++
++	default:
++		break;
++	}
++	return ret;
++}
++
++#if 0
++inline void rtw_mi_update_fwstate(struct mlme_priv *pmlmepriv, sint state, u8 bset)
++{
++	_adapter *adapter = container_of(pmlmepriv, _adapter, mlmepriv);
++
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mi_state *iface_state = &dvobj->iface_state;
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++
++	if (!(state & (_FW_LINKED | _FW_UNDER_LINKING | WIFI_UNDER_WPS)))
++		return;
++
++	if (mlmeext_msr(mlmeext) == WIFI_FW_STATION_STATE) {
++		/*ATOMIC_INC(&(iface_state->sta_num_ret));*/
++
++		if (state & _FW_LINKED)
++			(bset)	? ATOMIC_INC(&(iface_state->ld_sta_num_ret))
++			: ATOMIC_DEC(&(iface_state->ld_sta_num_ret));
++
++		if (state & _FW_UNDER_LINKING)
++			(bset)	? ATOMIC_INC(&(iface_state->lg_sta_num_ret))
++			: ATOMIC_DEC(&(iface_state->lg_sta_num_ret));
++	}
++
++	if (mlmeext_msr(mlmeext) == WIFI_FW_AP_STATE
++	    && check_fwstate(&adapter->mlmepriv, _FW_LINKED) == _TRUE
++	   ) {
++		/*ATOMIC_INC(&(iface_state->ap_num_ret));*/
++		if (adapter->stapriv.asoc_sta_count > 2)
++			ld_ap_num_ret++;
++	}
++
++	if (state & WIFI_UNDER_WPS)
++		(bset)	? ATOMIC_INC(&(iface_state->uw_num_ret))
++		: ATOMIC_DEC(&(iface_state->uw_num_ret));
++
++	_rtw_mi_status(adapter, &iface_state->sta_num, &iface_state->ld_sta_num, &iface_state->lg_sta_num
++		, &iface_state->ap_num, &iface_state->ld_ap_num, &iface_state->uwps_num, 1);
++}
++#endif
++
++u8 rtw_mi_mp_mode_check(_adapter *padapter)
++{
++#ifdef CONFIG_MP_INCLUDED
++#ifdef CONFIG_CONCURRENT_MODE
++	int i;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	_adapter *iface = NULL;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++
++		if ((iface) && (iface->registrypriv.mp_mode == 1))
++			return _TRUE;
++	}
++#else
++	if (padapter->registrypriv.mp_mode == 1)
++		return _TRUE;
++#endif
++#endif /* CONFIG_MP_INCLUDED */
++	return _FALSE;
++}
++
++#ifdef CONFIG_CONCURRENT_MODE
++u8 rtw_mi_buddy_under_survey(_adapter *padapter)
++{
++	int i;
++	u8 ret = 0;
++	_adapter *iface = NULL;
++	_irqL	irqL;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(padapter);
++#endif
++
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	struct mlme_priv *buddy_mlmepriv;
++	struct rtw_wdev_priv *buddy_wdev_priv;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++
++			if (iface == padapter)
++				continue;
++
++			buddy_mlmepriv = &iface->mlmepriv;
++			if (check_fwstate(buddy_mlmepriv, _FW_UNDER_SURVEY)) {
++				ret = UNDER_SURVEY_T1;
++
++#ifdef CONFIG_IOCTL_CFG80211
++				buddy_wdev_priv = adapter_wdev_data(iface);
++				_enter_critical_bh(&pwdev_priv->scan_req_lock, &irqL);
++				_enter_critical_bh(&buddy_wdev_priv->scan_req_lock, &irqL);
++				if (buddy_wdev_priv->scan_request) {
++					pmlmepriv->scanning_via_buddy_intf = _TRUE;
++					_enter_critical_bh(&pmlmepriv->lock, &irqL);
++					set_fwstate(pmlmepriv, _FW_UNDER_SURVEY);
++					_exit_critical_bh(&pmlmepriv->lock, &irqL);
++					ret = UNDER_SURVEY_T2;
++				}
++				_exit_critical_bh(&buddy_wdev_priv->scan_req_lock, &irqL);
++				_exit_critical_bh(&pwdev_priv->scan_req_lock, &irqL);
++#endif
++
++				RTW_INFO(ADPT_FMT"_FW_UNDER_SURVEY\n", ADPT_ARG(iface));
++				return ret;
++			}
++		}
++	}
++	return ret;
++}
++void rtw_mi_buddy_indicate_scan_done(_adapter *padapter, bool bscan_aborted)
++{
++#if defined(CONFIG_IOCTL_CFG80211)
++	int i;
++	u8 ret = 0;
++	_adapter *iface = NULL;
++	_irqL	irqL;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct mlme_priv *mlmepriv;
++	struct rtw_wdev_priv *wdev_priv;
++	bool indicate_buddy_scan = _FALSE;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++
++			if (iface == padapter)
++				continue;
++
++			mlmepriv = &(iface->mlmepriv);
++			wdev_priv = adapter_wdev_data(iface);
++
++			_enter_critical_bh(&wdev_priv->scan_req_lock, &irqL);
++			if (wdev_priv->scan_request && mlmepriv->scanning_via_buddy_intf == _TRUE) {
++				mlmepriv->scanning_via_buddy_intf = _FALSE;
++				clr_fwstate(mlmepriv, _FW_UNDER_SURVEY);
++				indicate_buddy_scan = _TRUE;
++			}
++			_exit_critical_bh(&wdev_priv->scan_req_lock, &irqL);
++
++			if (indicate_buddy_scan == _TRUE) {
++				rtw_cfg80211_surveydone_event_callback(iface);
++				rtw_indicate_scan_done(iface, bscan_aborted);
++			}
++
++		}
++	}
++#endif
++
++}
++#endif
++
++/*
++* return value : 0 is failed or have not interface meet condition
++* return value : !0 is success or interface numbers which meet condition
++* return value of ops_func must be _TRUE or _FALSE
++*/
++static u8 _rtw_mi_process(_adapter *padapter, bool exclude_self,
++		  void *data, u8(*ops_func)(_adapter *padapter, void *data))
++{
++	int i;
++	_adapter *iface;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++	u8 ret = 0;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++
++			if ((exclude_self) && (iface == padapter))
++				continue;
++
++			if (ops_func)
++				if (_TRUE == ops_func(iface, data))
++					ret++;
++		}
++	}
++	return ret;
++}
++static u8 _rtw_mi_netif_stop_queue(_adapter *padapter, void *data)
++{
++	bool carrier_off = *(bool *)data;
++	struct net_device *pnetdev = padapter->pnetdev;
++
++	if (carrier_off)
++		netif_carrier_off(pnetdev);
++	rtw_netif_stop_queue(pnetdev);
++	return _TRUE;
++}
++u8 rtw_mi_netif_stop_queue(_adapter *padapter, bool carrier_off)
++{
++	bool in_data = carrier_off;
++
++	return _rtw_mi_process(padapter, _FALSE, &in_data, _rtw_mi_netif_stop_queue);
++}
++u8 rtw_mi_buddy_netif_stop_queue(_adapter *padapter, bool carrier_off)
++{
++	bool in_data = carrier_off;
++
++	return _rtw_mi_process(padapter, _TRUE, &in_data, _rtw_mi_netif_stop_queue);
++}
++
++static u8 _rtw_mi_netif_wake_queue(_adapter *padapter, void *data)
++{
++	struct net_device *pnetdev = padapter->pnetdev;
++
++	if (pnetdev)
++		rtw_netif_wake_queue(pnetdev);
++	return _TRUE;
++}
++u8 rtw_mi_netif_wake_queue(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_netif_wake_queue);
++}
++u8 rtw_mi_buddy_netif_wake_queue(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_netif_wake_queue);
++}
++
++static u8 _rtw_mi_netif_carrier_on(_adapter *padapter, void *data)
++{
++	struct net_device *pnetdev = padapter->pnetdev;
++
++	if (pnetdev)
++		rtw_netif_carrier_on(pnetdev);
++	return _TRUE;
++}
++u8 rtw_mi_netif_carrier_on(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_netif_carrier_on);
++}
++u8 rtw_mi_buddy_netif_carrier_on(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_netif_carrier_on);
++}
++
++static u8 _rtw_mi_scan_abort(_adapter *adapter, void *data)
++{
++	bool bwait = *(bool *)data;
++
++	if (bwait)
++		rtw_scan_abort(adapter);
++	else
++		rtw_scan_abort_no_wait(adapter);
++
++	return _TRUE;
++}
++void rtw_mi_scan_abort(_adapter *adapter, bool bwait)
++{
++	bool in_data = bwait;
++
++	_rtw_mi_process(adapter, _FALSE, &in_data, _rtw_mi_scan_abort);
++
++}
++void rtw_mi_buddy_scan_abort(_adapter *adapter, bool bwait)
++{
++	bool in_data = bwait;
++
++	_rtw_mi_process(adapter, _TRUE, &in_data, _rtw_mi_scan_abort);
++}
++
++static u8 _rtw_mi_start_drv_threads(_adapter *adapter, void *data)
++{
++	rtw_start_drv_threads(adapter);
++	return _TRUE;
++}
++void rtw_mi_start_drv_threads(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _FALSE, NULL, _rtw_mi_start_drv_threads);
++}
++void rtw_mi_buddy_start_drv_threads(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _TRUE, NULL, _rtw_mi_start_drv_threads);
++}
++
++static u8 _rtw_mi_stop_drv_threads(_adapter *adapter, void *data)
++{
++	rtw_stop_drv_threads(adapter);
++	return _TRUE;
++}
++void rtw_mi_stop_drv_threads(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _FALSE, NULL, _rtw_mi_stop_drv_threads);
++}
++void rtw_mi_buddy_stop_drv_threads(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _TRUE, NULL, _rtw_mi_stop_drv_threads);
++}
++
++static u8 _rtw_mi_cancel_all_timer(_adapter *adapter, void *data)
++{
++	rtw_cancel_all_timer(adapter);
++	return _TRUE;
++}
++void rtw_mi_cancel_all_timer(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _FALSE, NULL, _rtw_mi_cancel_all_timer);
++}
++void rtw_mi_buddy_cancel_all_timer(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _TRUE, NULL, _rtw_mi_cancel_all_timer);
++}
++
++static u8 _rtw_mi_reset_drv_sw(_adapter *adapter, void *data)
++{
++	rtw_reset_drv_sw(adapter);
++	return _TRUE;
++}
++void rtw_mi_reset_drv_sw(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _FALSE, NULL, _rtw_mi_reset_drv_sw);
++}
++void rtw_mi_buddy_reset_drv_sw(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _TRUE, NULL, _rtw_mi_reset_drv_sw);
++}
++
++static u8 _rtw_mi_intf_start(_adapter *adapter, void *data)
++{
++	rtw_intf_start(adapter);
++	return _TRUE;
++}
++void rtw_mi_intf_start(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _FALSE, NULL, _rtw_mi_intf_start);
++}
++void rtw_mi_buddy_intf_start(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _TRUE, NULL, _rtw_mi_intf_start);
++}
++
++static u8 _rtw_mi_intf_stop(_adapter *adapter, void *data)
++{
++	rtw_intf_stop(adapter);
++	return _TRUE;
++}
++void rtw_mi_intf_stop(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _FALSE, NULL, _rtw_mi_intf_stop);
++}
++void rtw_mi_buddy_intf_stop(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _TRUE, NULL, _rtw_mi_intf_stop);
++}
++
++static u8 _rtw_mi_suspend_free_assoc_resource(_adapter *padapter, void *data)
++{
++	return rtw_suspend_free_assoc_resource(padapter);
++}
++void rtw_mi_suspend_free_assoc_resource(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _FALSE, NULL, _rtw_mi_suspend_free_assoc_resource);
++}
++void rtw_mi_buddy_suspend_free_assoc_resource(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _TRUE, NULL, _rtw_mi_suspend_free_assoc_resource);
++}
++
++static u8 _rtw_mi_is_scan_deny(_adapter *adapter, void *data)
++{
++	return rtw_is_scan_deny(adapter);
++}
++
++u8 rtw_mi_is_scan_deny(_adapter *adapter)
++{
++	return _rtw_mi_process(adapter, _FALSE, NULL, _rtw_mi_is_scan_deny);
++
++}
++u8 rtw_mi_buddy_is_scan_deny(_adapter *adapter)
++{
++	return _rtw_mi_process(adapter, _TRUE, NULL, _rtw_mi_is_scan_deny);
++}
++
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++static u8 _rtw_mi_set_scan_deny(_adapter *adapter, void *data)
++{
++	u32 ms = *(u32 *)data;
++
++	rtw_set_scan_deny(adapter, ms);
++	return _TRUE;
++}
++void rtw_mi_set_scan_deny(_adapter *adapter, u32 ms)
++{
++	u32 in_data = ms;
++
++	_rtw_mi_process(adapter, _FALSE, &in_data, _rtw_mi_set_scan_deny);
++}
++void rtw_mi_buddy_set_scan_deny(_adapter *adapter, u32 ms)
++{
++	u32 in_data = ms;
++
++	_rtw_mi_process(adapter, _TRUE, &in_data, _rtw_mi_set_scan_deny);
++}
++#endif
++
++struct nulldata_param {
++	unsigned char *da;
++	unsigned int power_mode;
++	int try_cnt;
++	int wait_ms;
++};
++
++static u8 _rtw_mi_issue_nulldata(_adapter *padapter, void *data)
++{
++	struct nulldata_param *pnulldata_param = (struct nulldata_param *)data;
++
++	if (is_client_associated_to_ap(padapter) == _TRUE) {
++		/* TODO: TDLS peers */
++		issue_nulldata(padapter, pnulldata_param->da, pnulldata_param->power_mode, pnulldata_param->try_cnt, pnulldata_param->wait_ms);
++		return _TRUE;
++	}
++	return _FALSE;
++}
++
++u8 rtw_mi_issue_nulldata(_adapter *padapter, unsigned char *da, unsigned int power_mode, int try_cnt, int wait_ms)
++{
++	struct nulldata_param nparam;
++
++	nparam.da = da;
++	nparam.power_mode = power_mode;/*0 or 1*/
++	nparam.try_cnt = try_cnt;
++	nparam.wait_ms = wait_ms;
++
++	return _rtw_mi_process(padapter, _FALSE, &nparam, _rtw_mi_issue_nulldata);
++}
++u8 rtw_mi_buddy_issue_nulldata(_adapter *padapter, unsigned char *da, unsigned int power_mode, int try_cnt, int wait_ms)
++{
++	struct nulldata_param nparam;
++
++	nparam.da = da;
++	nparam.power_mode = power_mode;
++	nparam.try_cnt = try_cnt;
++	nparam.wait_ms = wait_ms;
++
++	return _rtw_mi_process(padapter, _TRUE, &nparam, _rtw_mi_issue_nulldata);
++}
++
++static u8 _rtw_mi_beacon_update(_adapter *padapter, void *data)
++{
++	struct mlme_ext_priv *mlmeext = &padapter->mlmeextpriv;
++
++	if (mlmeext_msr(mlmeext) == WIFI_FW_AP_STATE
++	    && check_fwstate(&padapter->mlmepriv, _FW_LINKED) == _TRUE) {
++		RTW_INFO(ADPT_FMT"-WIFI_FW_AP_STATE - update_beacon\n", ADPT_ARG(padapter));
++		update_beacon(padapter, 0, NULL, _TRUE);
++	}
++	return _TRUE;
++}
++
++void rtw_mi_beacon_update(_adapter *padapter)
++{
++	_rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_beacon_update);
++}
++
++void rtw_mi_buddy_beacon_update(_adapter *padapter)
++{
++	_rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_beacon_update);
++}
++
++static u8 _rtw_mi_hal_dump_macaddr(_adapter *padapter, void *data)
++{
++	u8 mac_addr[ETH_ALEN] = {0};
++
++	rtw_hal_get_macaddr_port(padapter, mac_addr);
++	RTW_INFO(ADPT_FMT"MAC Address ="MAC_FMT"\n", ADPT_ARG(padapter), MAC_ARG(mac_addr));
++	return _TRUE;
++}
++void rtw_mi_hal_dump_macaddr(_adapter *padapter)
++{
++	_rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_hal_dump_macaddr);
++}
++void rtw_mi_buddy_hal_dump_macaddr(_adapter *padapter)
++{
++	_rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_hal_dump_macaddr);
++}
++
++#ifdef CONFIG_PCI_HCI
++static u8 _rtw_mi_xmit_tasklet_schedule(_adapter *padapter, void *data)
++{
++	if (rtw_txframes_pending(padapter)) {
++		/* try to deal with the pending packets */
++		tasklet_hi_schedule(&(padapter->xmitpriv.xmit_tasklet));
++	}
++	return _TRUE;
++}
++void rtw_mi_xmit_tasklet_schedule(_adapter *padapter)
++{
++	_rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_xmit_tasklet_schedule);
++}
++void rtw_mi_buddy_xmit_tasklet_schedule(_adapter *padapter)
++{
++	_rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_xmit_tasklet_schedule);
++}
++#endif
++
++u8 _rtw_mi_busy_traffic_check(_adapter *padapter, void *data)
++{
++	u32 passtime;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	bool check_sc_interval = *(bool *)data;
++
++	if (pmlmepriv->LinkDetectInfo.bBusyTraffic == _TRUE) {
++		if (check_sc_interval) {
++			/* Miracast can't do AP scan*/
++			passtime = rtw_get_passing_time_ms(pmlmepriv->lastscantime);
++			pmlmepriv->lastscantime = rtw_get_current_time();
++			if (passtime > BUSY_TRAFFIC_SCAN_DENY_PERIOD) {
++				RTW_INFO(ADPT_FMT" bBusyTraffic == _TRUE\n", ADPT_ARG(padapter));
++				return _TRUE;
++			}
++		} else
++			return _TRUE;
++	}
++
++	return _FALSE;
++}
++
++u8 rtw_mi_busy_traffic_check(_adapter *padapter, bool check_sc_interval)
++{
++	bool in_data = check_sc_interval;
++
++	return _rtw_mi_process(padapter, _FALSE, &in_data, _rtw_mi_busy_traffic_check);
++}
++u8 rtw_mi_buddy_busy_traffic_check(_adapter *padapter, bool check_sc_interval)
++{
++	bool in_data = check_sc_interval;
++
++	return _rtw_mi_process(padapter, _TRUE, &in_data, _rtw_mi_busy_traffic_check);
++}
++static u8 _rtw_mi_check_mlmeinfo_state(_adapter *padapter, void *data)
++{
++	u32 state = *(u32 *)data;
++	struct mlme_ext_priv *mlmeext = &padapter->mlmeextpriv;
++
++	/*if (mlmeext_msr(mlmeext) == state)*/
++	if (check_mlmeinfo_state(mlmeext, state))
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++u8 rtw_mi_check_mlmeinfo_state(_adapter *padapter, u32 state)
++{
++	u32 in_data = state;
++
++	return _rtw_mi_process(padapter, _FALSE, &in_data, _rtw_mi_check_mlmeinfo_state);
++}
++
++u8 rtw_mi_buddy_check_mlmeinfo_state(_adapter *padapter, u32 state)
++{
++	u32 in_data = state;
++
++	return _rtw_mi_process(padapter, _TRUE, &in_data, _rtw_mi_check_mlmeinfo_state);
++}
++
++/*#define DBG_DUMP_FW_STATE*/
++#ifdef DBG_DUMP_FW_STATE
++static void rtw_dbg_dump_fwstate(_adapter *padapter, sint state)
++{
++	u8 buf[32] = {0};
++
++	if (state & WIFI_FW_NULL_STATE) {
++		_rtw_memset(buf, 0, 32);
++		sprintf(buf, "WIFI_FW_NULL_STATE");
++		RTW_INFO(FUNC_ADPT_FMT"fwstate-%s\n", FUNC_ADPT_ARG(padapter), buf);
++	}
++
++	if (state & _FW_LINKED) {
++		_rtw_memset(buf, 0, 32);
++		sprintf(buf, "_FW_LINKED");
++		RTW_INFO(FUNC_ADPT_FMT"fwstate-%s\n", FUNC_ADPT_ARG(padapter), buf);
++	}
++
++	if (state & _FW_UNDER_LINKING) {
++		_rtw_memset(buf, 0, 32);
++		sprintf(buf, "_FW_UNDER_LINKING");
++		RTW_INFO(FUNC_ADPT_FMT"fwstate-%s\n", FUNC_ADPT_ARG(padapter), buf);
++	}
++
++	if (state & _FW_UNDER_SURVEY) {
++		_rtw_memset(buf, 0, 32);
++		sprintf(buf, "_FW_UNDER_SURVEY");
++		RTW_INFO(FUNC_ADPT_FMT"fwstate-%s\n", FUNC_ADPT_ARG(padapter), buf);
++	}
++}
++#endif
++
++static u8 _rtw_mi_check_fwstate(_adapter *padapter, void *data)
++{
++	u8 ret = _FALSE;
++
++	sint state = *(sint *)data;
++
++	if ((state == WIFI_FW_NULL_STATE) &&
++	    (padapter->mlmepriv.fw_state == WIFI_FW_NULL_STATE))
++		ret = _TRUE;
++	else if (_TRUE == check_fwstate(&padapter->mlmepriv, state))
++		ret = _TRUE;
++#ifdef DBG_DUMP_FW_STATE
++	if (ret)
++		rtw_dbg_dump_fwstate(padapter, state);
++#endif
++	return ret;
++}
++u8 rtw_mi_check_fwstate(_adapter *padapter, sint state)
++{
++	sint in_data = state;
++
++	return _rtw_mi_process(padapter, _FALSE, &in_data, _rtw_mi_check_fwstate);
++}
++u8 rtw_mi_buddy_check_fwstate(_adapter *padapter, sint state)
++{
++	sint in_data = state;
++
++	return _rtw_mi_process(padapter, _TRUE, &in_data, _rtw_mi_check_fwstate);
++}
++
++static u8 _rtw_mi_traffic_statistics(_adapter *padapter , void *data)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++
++	/* Tx */
++	pdvobjpriv->traffic_stat.tx_bytes += padapter->xmitpriv.tx_bytes;
++	pdvobjpriv->traffic_stat.tx_pkts += padapter->xmitpriv.tx_pkts;
++	pdvobjpriv->traffic_stat.tx_drop += padapter->xmitpriv.tx_drop;
++
++	/* Rx */
++	pdvobjpriv->traffic_stat.rx_bytes += padapter->recvpriv.rx_bytes;
++	pdvobjpriv->traffic_stat.rx_pkts += padapter->recvpriv.rx_pkts;
++	pdvobjpriv->traffic_stat.rx_drop += padapter->recvpriv.rx_drop;
++	return _TRUE;
++}
++u8 rtw_mi_traffic_statistics(_adapter *padapter)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++
++	/*_rtw_memset(&pdvobjpriv->traffic_stat, 0, sizeof(struct rtw_traffic_statistics));*/
++
++	/* Tx bytes reset*/
++	pdvobjpriv->traffic_stat.tx_bytes = 0;
++	pdvobjpriv->traffic_stat.tx_pkts = 0;
++	pdvobjpriv->traffic_stat.tx_drop = 0;
++
++	/* Rx bytes reset*/
++	pdvobjpriv->traffic_stat.rx_bytes = 0;
++	pdvobjpriv->traffic_stat.rx_pkts = 0;
++	pdvobjpriv->traffic_stat.rx_drop = 0;
++
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_traffic_statistics);
++}
++
++static u8 _rtw_mi_check_miracast_enabled(_adapter *padapter , void *data)
++{
++	return is_miracast_enabled(padapter);
++}
++u8 rtw_mi_check_miracast_enabled(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_check_miracast_enabled);
++}
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++static u8 _rtw_mi_check_pending_xmitbuf(_adapter *padapter , void *data)
++{
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	return check_pending_xmitbuf(pxmitpriv);
++}
++u8 rtw_mi_check_pending_xmitbuf(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_check_pending_xmitbuf);
++}
++u8 rtw_mi_buddy_check_pending_xmitbuf(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_check_pending_xmitbuf);
++}
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++static u8 _rtw_mi_dequeue_writeport(_adapter *padapter , bool exclude_self)
++{
++	int i;
++	u8	queue_empty = _TRUE;
++	_adapter *iface;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++
++			if ((exclude_self) && (iface == padapter))
++				continue;
++
++			queue_empty &= _dequeue_writeport(iface);
++		}
++	}
++	return queue_empty;
++}
++u8 rtw_mi_dequeue_writeport(_adapter *padapter)
++{
++	return _rtw_mi_dequeue_writeport(padapter, _FALSE);
++}
++u8 rtw_mi_buddy_dequeue_writeport(_adapter *padapter)
++{
++	return _rtw_mi_dequeue_writeport(padapter, _TRUE);
++}
++#endif
++static void _rtw_mi_adapter_reset(_adapter *padapter , u8 exclude_self)
++{
++	int i;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		if (dvobj->padapters[i]) {
++			if ((exclude_self) && (dvobj->padapters[i] == padapter))
++				continue;
++			dvobj->padapters[i] = NULL;
++		}
++	}
++}
++
++void rtw_mi_adapter_reset(_adapter *padapter)
++{
++	_rtw_mi_adapter_reset(padapter, _FALSE);
++}
++
++void rtw_mi_buddy_adapter_reset(_adapter *padapter)
++{
++	_rtw_mi_adapter_reset(padapter, _TRUE);
++}
++
++static u8 _rtw_mi_dynamic_check_timer_handlder(_adapter *adapter, void *data)
++{
++	rtw_dynamic_check_timer_handlder(adapter);
++	return _TRUE;
++}
++u8 rtw_mi_dynamic_check_timer_handlder(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_dynamic_check_timer_handlder);
++}
++u8 rtw_mi_buddy_dynamic_check_timer_handlder(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_dynamic_check_timer_handlder);
++}
++
++static u8 _rtw_mi_dev_unload(_adapter *adapter, void *data)
++{
++	rtw_dev_unload(adapter);
++	return _TRUE;
++}
++u8 rtw_mi_dev_unload(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_dev_unload);
++}
++u8 rtw_mi_buddy_dev_unload(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_dev_unload);
++}
++
++static u8 _rtw_mi_dynamic_chk_wk_hdl(_adapter *adapter, void *data)
++{
++	dynamic_chk_wk_hdl(adapter);
++	return _TRUE;
++}
++u8 rtw_mi_dynamic_chk_wk_hdl(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_dynamic_chk_wk_hdl);
++}
++u8 rtw_mi_buddy_dynamic_chk_wk_hdl(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_dynamic_chk_wk_hdl);
++}
++
++static u8 _rtw_mi_os_xmit_schedule(_adapter *adapter, void *data)
++{
++	rtw_os_xmit_schedule(adapter);
++	return _TRUE;
++}
++u8 rtw_mi_os_xmit_schedule(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_os_xmit_schedule);
++}
++u8 rtw_mi_buddy_os_xmit_schedule(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_os_xmit_schedule);
++}
++
++static u8 _rtw_mi_report_survey_event(_adapter *adapter, void *data)
++{
++	union recv_frame *precv_frame = (union recv_frame *)data;
++
++	report_survey_event(adapter, precv_frame);
++	return _TRUE;
++}
++u8 rtw_mi_report_survey_event(_adapter *padapter, union recv_frame *precv_frame)
++{
++	return _rtw_mi_process(padapter, _FALSE, precv_frame, _rtw_mi_report_survey_event);
++}
++u8 rtw_mi_buddy_report_survey_event(_adapter *padapter, union recv_frame *precv_frame)
++{
++	return _rtw_mi_process(padapter, _TRUE, precv_frame, _rtw_mi_report_survey_event);
++}
++
++static u8 _rtw_mi_sreset_adapter_hdl(_adapter *adapter, void *data)
++{
++	u8 bstart = *(u8 *)data;
++
++	if (bstart)
++		sreset_start_adapter(adapter);
++	else
++		sreset_stop_adapter(adapter);
++	return _TRUE;
++}
++u8 rtw_mi_sreset_adapter_hdl(_adapter *padapter, u8 bstart)
++{
++	u8 in_data = bstart;
++
++	return _rtw_mi_process(padapter, _FALSE, &in_data, _rtw_mi_sreset_adapter_hdl);
++}
++u8 rtw_mi_buddy_sreset_adapter_hdl(_adapter *padapter, u8 bstart)
++{
++	u8 in_data = bstart;
++
++	return _rtw_mi_process(padapter, _TRUE, &in_data, _rtw_mi_sreset_adapter_hdl);
++}
++static u8 _rtw_mi_tx_beacon_hdl(_adapter *adapter, void *data)
++{
++	if (check_fwstate(&adapter->mlmepriv, WIFI_AP_STATE) == _TRUE
++	    && check_fwstate(&adapter->mlmepriv, WIFI_ASOC_STATE) == _TRUE
++	   ) {
++		adapter->mlmepriv.update_bcn = _TRUE;
++#ifndef CONFIG_INTERRUPT_BASED_TXBCN
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		tx_beacon_hdl(adapter, NULL);
++#endif
++#endif
++	}
++	return _TRUE;
++}
++u8 rtw_mi_tx_beacon_hdl(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_tx_beacon_hdl);
++}
++u8 rtw_mi_buddy_tx_beacon_hdl(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_sreset_adapter_hdl);
++}
++
++static u8 _rtw_mi_set_tx_beacon_cmd(_adapter *adapter, void *data)
++{
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++		if (pmlmepriv->update_bcn == _TRUE)
++			set_tx_beacon_cmd(adapter);
++	}
++	return _TRUE;
++}
++u8 rtw_mi_set_tx_beacon_cmd(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_set_tx_beacon_cmd);
++}
++u8 rtw_mi_buddy_set_tx_beacon_cmd(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_set_tx_beacon_cmd);
++}
++
++#ifdef CONFIG_P2P
++static u8 _rtw_mi_p2p_chk_state(_adapter *adapter, void *data)
++{
++	struct wifidirect_info *pwdinfo = &(adapter->wdinfo);
++	enum P2P_STATE state = *(enum P2P_STATE *)data;
++
++	return rtw_p2p_chk_state(pwdinfo, state);
++}
++u8 rtw_mi_p2p_chk_state(_adapter *padapter, enum P2P_STATE p2p_state)
++{
++	u8 in_data = p2p_state;
++
++	return _rtw_mi_process(padapter, _FALSE, &in_data, _rtw_mi_p2p_chk_state);
++}
++u8 rtw_mi_buddy_p2p_chk_state(_adapter *padapter, enum P2P_STATE p2p_state)
++{
++	u8 in_data  = p2p_state;
++
++	return _rtw_mi_process(padapter, _TRUE, &in_data, _rtw_mi_p2p_chk_state);
++}
++static u8 _rtw_mi_stay_in_p2p_mode(_adapter *adapter, void *data)
++{
++	struct wifidirect_info *pwdinfo = &(adapter->wdinfo);
++
++	if (rtw_p2p_role(pwdinfo) != P2P_ROLE_DISABLE)
++		return _TRUE;
++	return _FALSE;
++}
++u8 rtw_mi_stay_in_p2p_mode(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_stay_in_p2p_mode);
++}
++u8 rtw_mi_buddy_stay_in_p2p_mode(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_stay_in_p2p_mode);
++}
++#endif /*CONFIG_P2P*/
++
++_adapter *rtw_get_iface_by_id(_adapter *padapter, u8 iface_id)
++{
++	_adapter *iface = NULL;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++	if ((padapter == NULL) || (iface_id >= CONFIG_IFACE_NUMBER)) {
++		rtw_warn_on(1);
++		return iface;
++	}
++
++	return  dvobj->padapters[iface_id];
++}
++
++_adapter *rtw_get_iface_by_macddr(_adapter *padapter, u8 *mac_addr)
++{
++	int i;
++	_adapter *iface = NULL;
++	u8 bmatch = _FALSE;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && (_rtw_memcmp(mac_addr, adapter_mac_addr(iface), ETH_ALEN))) {
++			bmatch = _TRUE;
++			break;
++		}
++	}
++	if (bmatch)
++		return iface;
++	else
++		return NULL;
++}
++
++_adapter *rtw_get_iface_by_hwport(_adapter *padapter, u8 hw_port)
++{
++	int i;
++	_adapter *iface = NULL;
++	u8 bmatch = _FALSE;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && (hw_port == iface->hw_port)) {
++			bmatch = _TRUE;
++			break;
++		}
++	}
++	if (bmatch)
++		return iface;
++	else
++		return NULL;
++}
++
++/*#define CONFIG_SKB_ALLOCATED*/
++#define DBG_SKB_PROCESS
++#ifdef DBG_SKB_PROCESS
++void rtw_dbg_skb_process(_adapter *padapter, union recv_frame *precvframe, union recv_frame *pcloneframe)
++{
++	_pkt *pkt_copy, *pkt_org;
++
++	pkt_org = precvframe->u.hdr.pkt;
++	pkt_copy = pcloneframe->u.hdr.pkt;
++	/*
++		RTW_INFO("%s ===== ORG SKB =====\n", __func__);
++		RTW_INFO(" SKB head(%p)\n", pkt_org->head);
++		RTW_INFO(" SKB data(%p)\n", pkt_org->data);
++		RTW_INFO(" SKB tail(%p)\n", pkt_org->tail);
++		RTW_INFO(" SKB end(%p)\n", pkt_org->end);
++
++		RTW_INFO(" recv frame head(%p)\n", precvframe->u.hdr.rx_head);
++		RTW_INFO(" recv frame data(%p)\n", precvframe->u.hdr.rx_data);
++		RTW_INFO(" recv frame tail(%p)\n", precvframe->u.hdr.rx_tail);
++		RTW_INFO(" recv frame end(%p)\n", precvframe->u.hdr.rx_end);
++
++		RTW_INFO("%s ===== COPY SKB =====\n", __func__);
++		RTW_INFO(" SKB head(%p)\n", pkt_copy->head);
++		RTW_INFO(" SKB data(%p)\n", pkt_copy->data);
++		RTW_INFO(" SKB tail(%p)\n", pkt_copy->tail);
++		RTW_INFO(" SKB end(%p)\n", pkt_copy->end);
++
++		RTW_INFO(" recv frame head(%p)\n", pcloneframe->u.hdr.rx_head);
++		RTW_INFO(" recv frame data(%p)\n", pcloneframe->u.hdr.rx_data);
++		RTW_INFO(" recv frame tail(%p)\n", pcloneframe->u.hdr.rx_tail);
++		RTW_INFO(" recv frame end(%p)\n", pcloneframe->u.hdr.rx_end);
++	*/
++	/*
++		RTW_INFO("%s => recv_frame adapter(%p,%p)\n", __func__, precvframe->u.hdr.adapter, pcloneframe->u.hdr.adapter);
++		RTW_INFO("%s => recv_frame dev(%p,%p)\n", __func__, pkt_org->dev , pkt_copy->dev);
++		RTW_INFO("%s => recv_frame len(%d,%d)\n", __func__, precvframe->u.hdr.len, pcloneframe->u.hdr.len);
++	*/
++	if (precvframe->u.hdr.len != pcloneframe->u.hdr.len)
++		RTW_INFO("%s [WARN]  recv_frame length(%d:%d) compare failed\n", __func__, precvframe->u.hdr.len, pcloneframe->u.hdr.len);
++
++	if (_rtw_memcmp(&precvframe->u.hdr.attrib, &pcloneframe->u.hdr.attrib, sizeof(struct rx_pkt_attrib)) == _FALSE)
++		RTW_INFO("%s [WARN]  recv_frame attrib compare failed\n", __func__);
++
++	if (_rtw_memcmp(precvframe->u.hdr.rx_data, pcloneframe->u.hdr.rx_data, precvframe->u.hdr.len) == _FALSE)
++		RTW_INFO("%s [WARN]  recv_frame rx_data compare failed\n", __func__);
++
++}
++#endif
++
++static s32 _rtw_mi_buddy_clone_bcmc_packet(_adapter *adapter, union recv_frame *precvframe, u8 *pphy_status, union recv_frame *pcloneframe)
++{
++	s32 ret = _SUCCESS;
++	u8 *pbuf = precvframe->u.hdr.rx_data;
++	struct rx_pkt_attrib *pattrib = NULL;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(adapter);
++
++	if (pcloneframe) {
++		pcloneframe->u.hdr.adapter = adapter;
++
++		_rtw_init_listhead(&pcloneframe->u.hdr.list);
++		pcloneframe->u.hdr.precvbuf = NULL;	/*can't access the precvbuf for new arch.*/
++		pcloneframe->u.hdr.len = 0;
++
++		_rtw_memcpy(&pcloneframe->u.hdr.attrib, &precvframe->u.hdr.attrib, sizeof(struct rx_pkt_attrib));
++
++		pattrib = &pcloneframe->u.hdr.attrib;
++#ifdef CONFIG_SKB_ALLOCATED
++		if (rtw_os_alloc_recvframe(adapter, pcloneframe, pbuf, NULL) == _SUCCESS)
++#else
++		if (rtw_os_recvframe_duplicate_skb(adapter, pcloneframe, precvframe->u.hdr.pkt) == _SUCCESS)
++#endif
++		{
++#ifdef CONFIG_SKB_ALLOCATED
++			recvframe_put(pcloneframe, pattrib->pkt_len);
++#endif
++
++#ifdef DBG_SKB_PROCESS
++			rtw_dbg_skb_process(adapter, precvframe, pcloneframe);
++#endif
++
++			if (pattrib->physt && pphy_status)
++				rx_query_phy_status(pcloneframe, pphy_status);
++
++			ret = rtw_recv_entry(pcloneframe);
++		} else {
++			ret = -1;
++			RTW_INFO("%s()-%d: rtw_os_alloc_recvframe() failed!\n", __func__, __LINE__);
++		}
++
++	}
++	return ret;
++}
++
++void rtw_mi_buddy_clone_bcmc_packet(_adapter *padapter, union recv_frame *precvframe, u8 *pphy_status)
++{
++	int i;
++	s32 ret = _SUCCESS;
++	_adapter *iface = NULL;
++	union recv_frame *pcloneframe = NULL;
++	struct recv_priv *precvpriv = &padapter->recvpriv;/*primary_padapter*/
++	_queue *pfree_recv_queue = &precvpriv->free_recv_queue;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++			if (iface == padapter)
++				continue;
++			pcloneframe = rtw_alloc_recvframe(pfree_recv_queue);
++			if (pcloneframe) {
++				ret = _rtw_mi_buddy_clone_bcmc_packet(iface, precvframe, pphy_status, pcloneframe);
++				if (_SUCCESS != ret) {
++					if (ret == -1)
++						rtw_free_recvframe(pcloneframe, pfree_recv_queue);
++					/*RTW_INFO(ADPT_FMT"-clone BC/MC frame failed\n", ADPT_ARG(iface));*/
++				}
++			}
++		}
++	}
++
++}
++
++#ifdef CONFIG_PCI_HCI
++/*API be created temporary for MI, caller is interrupt-handler, PCIE's interrupt handler cannot apply to multi-AP*/
++_adapter *rtw_mi_get_ap_adapter(_adapter *padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	int i;
++	_adapter *iface = NULL;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (!iface)
++			continue;
++
++		if (check_fwstate(&iface->mlmepriv, WIFI_AP_STATE) == _TRUE
++		    && check_fwstate(&iface->mlmepriv, WIFI_ASOC_STATE) == _TRUE)
++			break;
++
++	}
++	return iface;
++}
++#endif
++
++void rtw_mi_update_ap_bmc_camid(_adapter *padapter, u8 camid_a, u8 camid_b)
++{
++#ifdef CONFIG_CONCURRENT_MODE
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++
++	int i;
++	_adapter *iface = NULL;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (!iface)
++			continue;
++
++		if (macid_ctl->iface_bmc[iface->iface_id] != INVALID_SEC_MAC_CAM_ID) {
++			if (macid_ctl->iface_bmc[iface->iface_id] == camid_a)
++				macid_ctl->iface_bmc[iface->iface_id] = camid_b;
++			else if (macid_ctl->iface_bmc[iface->iface_id] == camid_b)
++				macid_ctl->iface_bmc[iface->iface_id] = camid_a;
++			iface->securitypriv.dot118021x_bmc_cam_id  = macid_ctl->iface_bmc[iface->iface_id];
++		}
++	}
++#endif
++}
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_mlme.c b/drivers/net/wireless/rtl8723du/core/rtw_mlme.c
+new file mode 100644
+index 0000000..e7f52cb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_mlme.c
+@@ -0,0 +1,4612 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_MLME_C_
++
++#include <hal_data.h>
++
++extern void indicate_wx_scan_complete_event(_adapter *padapter);
++extern u8 rtw_do_join(_adapter *padapter);
++
++
++sint	_rtw_init_mlme_priv(_adapter *padapter)
++{
++	sint	i;
++	u8	*pbuf;
++	struct wlan_network	*pnetwork;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	sint	res = _SUCCESS;
++
++
++	/* We don't need to memset padapter->XXX to zero, because adapter is allocated by rtw_zvmalloc(). */
++	/* _rtw_memset((u8 *)pmlmepriv, 0, sizeof(struct mlme_priv)); */
++
++
++	/*qos_priv*/
++	/*pmlmepriv->qospriv.qos_option = pregistrypriv->wmm_enable;*/
++
++	/*ht_priv*/
++#ifdef CONFIG_80211N_HT
++	pmlmepriv->htpriv.ampdu_enable = _FALSE;/*set to disabled*/
++#endif
++
++	pmlmepriv->nic_hdl = (u8 *)padapter;
++
++	pmlmepriv->pscanned = NULL;
++	/*pmlmepriv->fw_state = WIFI_STATION_STATE; */ /*Must sync with rtw_wdev_alloc()*/
++	/*init_fwstate(pmlmepriv, WIFI_STATION_STATE);*/
++	init_fwstate(pmlmepriv, WIFI_NULL_STATE);/*assigned interface role(STA/AP) must after execute set_opmode*/
++
++	/* wdev->iftype = NL80211_IFTYPE_STATION*/
++	pmlmepriv->cur_network.network.InfrastructureMode = Ndis802_11AutoUnknown;
++	pmlmepriv->scan_mode = SCAN_ACTIVE; /* 1: active, 0: pasive. Maybe someday we should rename this varable to "active_mode" (Jeff) */
++
++	_rtw_spinlock_init(&(pmlmepriv->lock));
++	_rtw_init_queue(&(pmlmepriv->free_bss_pool));
++	_rtw_init_queue(&(pmlmepriv->scanned_queue));
++
++	set_scanned_network_val(pmlmepriv, 0);
++
++	_rtw_memset(&pmlmepriv->assoc_ssid, 0, sizeof(NDIS_802_11_SSID));
++
++	pbuf = rtw_zvmalloc(MAX_BSS_CNT * (sizeof(struct wlan_network)));
++
++	if (pbuf == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	pmlmepriv->free_bss_buf = pbuf;
++
++	pnetwork = (struct wlan_network *)pbuf;
++
++	for (i = 0; i < MAX_BSS_CNT; i++) {
++		_rtw_init_listhead(&(pnetwork->list));
++
++		rtw_list_insert_tail(&(pnetwork->list), &(pmlmepriv->free_bss_pool.queue));
++
++		pnetwork++;
++	}
++
++	/* allocate DMA-able/Non-Page memory for cmd_buf and rsp_buf */
++
++	rtw_clear_scan_deny(padapter);
++#ifdef CONFIG_ARP_KEEP_ALIVE
++	pmlmepriv->bGetGateway = 0;
++#endif
++
++#ifdef CONFIG_LAYER2_ROAMING
++#define RTW_ROAM_SCAN_RESULT_EXP_MS (5*1000)
++#define RTW_ROAM_RSSI_DIFF_TH 10
++#define RTW_ROAM_SCAN_INTERVAL_MS (10*1000)
++#define RTW_ROAM_RSSI_THRESHOLD 70
++
++	pmlmepriv->roam_flags = 0
++				| RTW_ROAM_ON_EXPIRED
++#ifdef CONFIG_LAYER2_ROAMING_RESUME
++				| RTW_ROAM_ON_RESUME
++#endif
++#ifdef CONFIG_LAYER2_ROAMING_ACTIVE
++				| RTW_ROAM_ACTIVE
++#endif
++				;
++
++	pmlmepriv->roam_scanr_exp_ms = RTW_ROAM_SCAN_RESULT_EXP_MS;
++	pmlmepriv->roam_rssi_diff_th = RTW_ROAM_RSSI_DIFF_TH;
++	pmlmepriv->roam_scan_int_ms = RTW_ROAM_SCAN_INTERVAL_MS;
++	pmlmepriv->roam_rssi_threshold = RTW_ROAM_RSSI_THRESHOLD;
++#endif /* CONFIG_LAYER2_ROAMING */
++
++#ifdef CONFIG_RTW_80211R
++	memset(&pmlmepriv->ftpriv, 0, sizeof(ft_priv));
++	pmlmepriv->ftpriv.ft_flags = 0
++		| RTW_FT_STA_SUPPORTED
++		| RTW_FT_STA_OVER_DS_SUPPORTED
++		;
++#endif
++	rtw_init_mlme_timer(padapter);
++
++exit:
++
++
++	return res;
++}
++
++void rtw_mfree_mlme_priv_lock(struct mlme_priv *pmlmepriv);
++void rtw_mfree_mlme_priv_lock(struct mlme_priv *pmlmepriv)
++{
++	_rtw_spinlock_free(&pmlmepriv->lock);
++	_rtw_spinlock_free(&(pmlmepriv->free_bss_pool.lock));
++	_rtw_spinlock_free(&(pmlmepriv->scanned_queue.lock));
++}
++
++static void rtw_free_mlme_ie_data(u8 **ppie, u32 *plen)
++{
++	if (*ppie) {
++		rtw_mfree(*ppie, *plen);
++		*plen = 0;
++		*ppie = NULL;
++	}
++}
++
++void rtw_free_mlme_priv_ie_data(struct mlme_priv *pmlmepriv)
++{
++#if defined(CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	rtw_buf_free(&pmlmepriv->assoc_req, &pmlmepriv->assoc_req_len);
++	rtw_buf_free(&pmlmepriv->assoc_rsp, &pmlmepriv->assoc_rsp_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wps_beacon_ie, &pmlmepriv->wps_beacon_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wps_probe_req_ie, &pmlmepriv->wps_probe_req_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wps_probe_resp_ie, &pmlmepriv->wps_probe_resp_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wps_assoc_resp_ie, &pmlmepriv->wps_assoc_resp_ie_len);
++
++	rtw_free_mlme_ie_data(&pmlmepriv->p2p_beacon_ie, &pmlmepriv->p2p_beacon_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->p2p_probe_req_ie, &pmlmepriv->p2p_probe_req_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->p2p_probe_resp_ie, &pmlmepriv->p2p_probe_resp_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->p2p_go_probe_resp_ie, &pmlmepriv->p2p_go_probe_resp_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->p2p_assoc_req_ie, &pmlmepriv->p2p_assoc_req_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->p2p_assoc_resp_ie, &pmlmepriv->p2p_assoc_resp_ie_len);
++#endif
++
++#if defined(CONFIG_WFD) && defined(CONFIG_IOCTL_CFG80211)
++	rtw_free_mlme_ie_data(&pmlmepriv->wfd_beacon_ie, &pmlmepriv->wfd_beacon_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wfd_probe_req_ie, &pmlmepriv->wfd_probe_req_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wfd_probe_resp_ie, &pmlmepriv->wfd_probe_resp_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wfd_go_probe_resp_ie, &pmlmepriv->wfd_go_probe_resp_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wfd_assoc_req_ie, &pmlmepriv->wfd_assoc_req_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wfd_assoc_resp_ie, &pmlmepriv->wfd_assoc_resp_ie_len);
++#endif
++
++#ifdef CONFIG_RTW_80211R
++	rtw_free_mlme_ie_data(&pmlmepriv->auth_rsp, &pmlmepriv->auth_rsp_len);
++#endif
++}
++
++#if defined(CONFIG_WFD) && defined(CONFIG_IOCTL_CFG80211)
++int rtw_mlme_update_wfd_ie_data(struct mlme_priv *mlme, u8 type, u8 *ie, u32 ie_len)
++{
++	_adapter *adapter = mlme_to_adapter(mlme);
++	struct wifi_display_info *wfd_info = &adapter->wfd_info;
++	u8 clear = 0;
++	u8 **t_ie = NULL;
++	u32 *t_ie_len = NULL;
++	int ret = _FAIL;
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		goto success;
++
++	if (wfd_info->wfd_enable == _TRUE)
++		goto success; /* WFD IE is build by self */
++
++	if (!ie && !ie_len)
++		clear = 1;
++	else if (!ie || !ie_len) {
++		RTW_PRINT(FUNC_ADPT_FMT" type:%u, ie:%p, ie_len:%u"
++			  , FUNC_ADPT_ARG(adapter), type, ie, ie_len);
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	switch (type) {
++	case MLME_BEACON_IE:
++		t_ie = &mlme->wfd_beacon_ie;
++		t_ie_len = &mlme->wfd_beacon_ie_len;
++		break;
++	case MLME_PROBE_REQ_IE:
++		t_ie = &mlme->wfd_probe_req_ie;
++		t_ie_len = &mlme->wfd_probe_req_ie_len;
++		break;
++	case MLME_PROBE_RESP_IE:
++		t_ie = &mlme->wfd_probe_resp_ie;
++		t_ie_len = &mlme->wfd_probe_resp_ie_len;
++		break;
++	case MLME_GO_PROBE_RESP_IE:
++		t_ie = &mlme->wfd_go_probe_resp_ie;
++		t_ie_len = &mlme->wfd_go_probe_resp_ie_len;
++		break;
++	case MLME_ASSOC_REQ_IE:
++		t_ie = &mlme->wfd_assoc_req_ie;
++		t_ie_len = &mlme->wfd_assoc_req_ie_len;
++		break;
++	case MLME_ASSOC_RESP_IE:
++		t_ie = &mlme->wfd_assoc_resp_ie;
++		t_ie_len = &mlme->wfd_assoc_resp_ie_len;
++		break;
++	default:
++		RTW_PRINT(FUNC_ADPT_FMT" unsupported type:%u"
++			  , FUNC_ADPT_ARG(adapter), type);
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (*t_ie) {
++		u32 free_len = *t_ie_len;
++		*t_ie_len = 0;
++		rtw_mfree(*t_ie, free_len);
++		*t_ie = NULL;
++	}
++
++	if (!clear) {
++		*t_ie = rtw_malloc(ie_len);
++		if (*t_ie == NULL) {
++			RTW_ERR(FUNC_ADPT_FMT" type:%u, rtw_malloc() fail\n"
++				, FUNC_ADPT_ARG(adapter), type);
++			goto exit;
++		}
++		_rtw_memcpy(*t_ie, ie, ie_len);
++		*t_ie_len = ie_len;
++	}
++
++	if (*t_ie && *t_ie_len) {
++		u8 *attr_content;
++		u32 attr_contentlen = 0;
++
++		attr_content = rtw_get_wfd_attr_content(*t_ie, *t_ie_len, WFD_ATTR_DEVICE_INFO, NULL, &attr_contentlen);
++		if (attr_content && attr_contentlen) {
++			if (RTW_GET_BE16(attr_content + 2) != wfd_info->rtsp_ctrlport) {
++				wfd_info->rtsp_ctrlport = RTW_GET_BE16(attr_content + 2);
++				RTW_INFO(FUNC_ADPT_FMT" type:%u, RTSP CTRL port = %u\n"
++					, FUNC_ADPT_ARG(adapter), type, wfd_info->rtsp_ctrlport);
++			}
++		}
++	}
++
++success:
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++#endif /* defined(CONFIG_WFD) && defined(CONFIG_IOCTL_CFG80211) */
++
++void _rtw_free_mlme_priv(struct mlme_priv *pmlmepriv)
++{
++	if (NULL == pmlmepriv) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++	rtw_free_mlme_priv_ie_data(pmlmepriv);
++
++	if (pmlmepriv) {
++		rtw_mfree_mlme_priv_lock(pmlmepriv);
++
++		if (pmlmepriv->free_bss_buf)
++			rtw_vmfree(pmlmepriv->free_bss_buf, MAX_BSS_CNT * sizeof(struct wlan_network));
++	}
++exit:
++	return;
++}
++
++sint	_rtw_enqueue_network(_queue *queue, struct wlan_network *pnetwork)
++{
++	_irqL irqL;
++
++
++	if (pnetwork == NULL)
++		goto exit;
++
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	rtw_list_insert_tail(&pnetwork->list, &queue->queue);
++
++	_exit_critical_bh(&queue->lock, &irqL);
++
++exit:
++
++
++	return _SUCCESS;
++}
++
++/*
++struct	wlan_network *_rtw_dequeue_network(_queue *queue)
++{
++	_irqL irqL;
++
++	struct wlan_network *pnetwork;
++
++
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	if (_rtw_queue_empty(queue) == _TRUE)
++
++		pnetwork = NULL;
++
++	else
++	{
++		pnetwork = LIST_CONTAINOR(get_next(&queue->queue), struct wlan_network, list);
++
++		rtw_list_delete(&(pnetwork->list));
++	}
++
++	_exit_critical_bh(&queue->lock, &irqL);
++
++
++	return pnetwork;
++}
++*/
++
++struct	wlan_network *_rtw_alloc_network(struct	mlme_priv *pmlmepriv) /* (_queue *free_queue) */
++{
++	_irqL	irqL;
++	struct	wlan_network	*pnetwork;
++	_queue *free_queue = &pmlmepriv->free_bss_pool;
++	_list *plist = NULL;
++
++
++	_enter_critical_bh(&free_queue->lock, &irqL);
++
++	if (_rtw_queue_empty(free_queue) == _TRUE) {
++		pnetwork = NULL;
++		goto exit;
++	}
++	plist = get_next(&(free_queue->queue));
++
++	pnetwork = LIST_CONTAINOR(plist , struct wlan_network, list);
++
++	rtw_list_delete(&pnetwork->list);
++
++	pnetwork->network_type = 0;
++	pnetwork->fixed = _FALSE;
++	pnetwork->last_scanned = rtw_get_current_time();
++	pnetwork->aid = 0;
++	pnetwork->join_res = 0;
++
++	pmlmepriv->num_of_scanned++;
++
++exit:
++	_exit_critical_bh(&free_queue->lock, &irqL);
++
++
++	return pnetwork;
++}
++
++void _rtw_free_network(struct	mlme_priv *pmlmepriv , struct wlan_network *pnetwork, u8 isfreeall)
++{
++	u32 delta_time;
++	u32 lifetime = SCANQUEUE_LIFETIME;
++	_irqL irqL;
++	_queue *free_queue = &(pmlmepriv->free_bss_pool);
++
++
++	if (pnetwork == NULL)
++		goto exit;
++
++	if (pnetwork->fixed == _TRUE)
++		goto exit;
++
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) ||
++	    (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE))
++		lifetime = 1;
++
++	if (!isfreeall) {
++		delta_time = (u32) rtw_get_passing_time_ms(pnetwork->last_scanned);
++		if (delta_time < lifetime) /* unit:msec */
++			goto exit;
++	}
++
++	_enter_critical_bh(&free_queue->lock, &irqL);
++
++	rtw_list_delete(&(pnetwork->list));
++
++	rtw_list_insert_tail(&(pnetwork->list), &(free_queue->queue));
++
++	pmlmepriv->num_of_scanned--;
++
++
++	/* RTW_INFO("_rtw_free_network:SSID=%s\n", pnetwork->network.Ssid.Ssid); */
++
++	_exit_critical_bh(&free_queue->lock, &irqL);
++
++exit:
++	return;
++}
++
++void _rtw_free_network_nolock(struct	mlme_priv *pmlmepriv, struct wlan_network *pnetwork)
++{
++
++	_queue *free_queue = &(pmlmepriv->free_bss_pool);
++
++
++	if (pnetwork == NULL)
++		goto exit;
++
++	if (pnetwork->fixed == _TRUE)
++		goto exit;
++
++	/* _enter_critical(&free_queue->lock, &irqL); */
++
++	rtw_list_delete(&(pnetwork->list));
++
++	rtw_list_insert_tail(&(pnetwork->list), get_list_head(free_queue));
++
++	pmlmepriv->num_of_scanned--;
++
++	/* _exit_critical(&free_queue->lock, &irqL); */
++
++exit:
++	return;
++}
++
++
++/*
++	return the wlan_network with the matching addr
++
++	Shall be calle under atomic context... to avoid possible racing condition...
++*/
++struct wlan_network *_rtw_find_network(_queue *scanned_queue, u8 *addr)
++{
++
++	/* _irqL irqL; */
++	_list	*phead, *plist;
++	struct	wlan_network *pnetwork = NULL;
++	u8 zero_addr[ETH_ALEN] = {0, 0, 0, 0, 0, 0};
++
++
++	if (_rtw_memcmp(zero_addr, addr, ETH_ALEN)) {
++		pnetwork = NULL;
++		goto exit;
++	}
++
++	/* _enter_critical_bh(&scanned_queue->lock, &irqL); */
++
++	phead = get_list_head(scanned_queue);
++	plist = get_next(phead);
++
++	while (plist != phead) {
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network , list);
++
++		if (_rtw_memcmp(addr, pnetwork->network.MacAddress, ETH_ALEN) == _TRUE)
++			break;
++
++		plist = get_next(plist);
++	}
++
++	if (plist == phead)
++		pnetwork = NULL;
++
++	/* _exit_critical_bh(&scanned_queue->lock, &irqL); */
++
++exit:
++
++
++	return pnetwork;
++
++}
++
++
++void _rtw_free_network_queue(_adapter *padapter, u8 isfreeall)
++{
++	_irqL irqL;
++	_list *phead, *plist;
++	struct wlan_network *pnetwork;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_queue *scanned_queue = &pmlmepriv->scanned_queue;
++
++
++
++	_enter_critical_bh(&scanned_queue->lock, &irqL);
++
++	phead = get_list_head(scanned_queue);
++	plist = get_next(phead);
++
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		plist = get_next(plist);
++
++		_rtw_free_network(pmlmepriv, pnetwork, isfreeall);
++
++	}
++
++	_exit_critical_bh(&scanned_queue->lock, &irqL);
++
++
++}
++
++
++
++
++sint rtw_if_up(_adapter *padapter)
++{
++
++	sint res;
++
++	if (RTW_CANNOT_RUN(padapter) ||
++	    (check_fwstate(&padapter->mlmepriv, _FW_LINKED) == _FALSE)) {
++		res = _FALSE;
++	} else
++		res =  _TRUE;
++
++	return res;
++}
++
++
++void rtw_generate_random_ibss(u8 *pibss)
++{
++	*((u32 *)(&pibss[2])) = rtw_random32();
++	pibss[0] = 0x02; /* in ad-hoc mode local bit must set to 1 */
++	pibss[1] = 0x11;
++	pibss[2] = 0x87;
++}
++
++u8 *rtw_get_capability_from_ie(u8 *ie)
++{
++	return ie + 8 + 2;
++}
++
++
++u16 rtw_get_capability(WLAN_BSSID_EX *bss)
++{
++	u16	val;
++
++	_rtw_memcpy((u8 *)&val, rtw_get_capability_from_ie(bss->IEs), 2);
++
++	return le16_to_cpu(val);
++}
++
++u8 *rtw_get_timestampe_from_ie(u8 *ie)
++{
++	return ie + 0;
++}
++
++u8 *rtw_get_beacon_interval_from_ie(u8 *ie)
++{
++	return ie + 8;
++}
++
++
++int	rtw_init_mlme_priv(_adapter *padapter) /* (struct	mlme_priv *pmlmepriv) */
++{
++	int	res;
++	res = _rtw_init_mlme_priv(padapter);/* (pmlmepriv); */
++	return res;
++}
++
++void rtw_free_mlme_priv(struct mlme_priv *pmlmepriv)
++{
++	_rtw_free_mlme_priv(pmlmepriv);
++}
++
++int	rtw_enqueue_network(_queue *queue, struct wlan_network *pnetwork);
++int	rtw_enqueue_network(_queue *queue, struct wlan_network *pnetwork)
++{
++	int	res;
++	res = _rtw_enqueue_network(queue, pnetwork);
++	return res;
++}
++
++/*
++static struct	wlan_network *rtw_dequeue_network(_queue *queue)
++{
++	struct wlan_network *pnetwork;
++	pnetwork = _rtw_dequeue_network(queue);
++	return pnetwork;
++}
++*/
++
++struct	wlan_network *rtw_alloc_network(struct	mlme_priv *pmlmepriv);
++struct	wlan_network *rtw_alloc_network(struct	mlme_priv *pmlmepriv) /* (_queue	*free_queue) */
++{
++	struct	wlan_network	*pnetwork;
++	pnetwork = _rtw_alloc_network(pmlmepriv);
++	return pnetwork;
++}
++
++void rtw_free_network(struct mlme_priv *pmlmepriv, struct	wlan_network *pnetwork, u8 is_freeall);
++void rtw_free_network(struct mlme_priv *pmlmepriv, struct	wlan_network *pnetwork, u8 is_freeall)/* (struct	wlan_network *pnetwork, _queue	*free_queue) */
++{
++	_rtw_free_network(pmlmepriv, pnetwork, is_freeall);
++}
++
++void rtw_free_network_nolock(_adapter *padapter, struct wlan_network *pnetwork);
++void rtw_free_network_nolock(_adapter *padapter, struct wlan_network *pnetwork)
++{
++	_rtw_free_network_nolock(&(padapter->mlmepriv), pnetwork);
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_cfg80211_unlink_bss(padapter, pnetwork);
++#endif /* CONFIG_IOCTL_CFG80211 */
++}
++
++
++void rtw_free_network_queue(_adapter *dev, u8 isfreeall)
++{
++	_rtw_free_network_queue(dev, isfreeall);
++}
++
++/*
++	return the wlan_network with the matching addr
++
++	Shall be calle under atomic context... to avoid possible racing condition...
++*/
++struct	wlan_network *rtw_find_network(_queue *scanned_queue, u8 *addr)
++{
++	struct	wlan_network *pnetwork = _rtw_find_network(scanned_queue, addr);
++
++	return pnetwork;
++}
++
++int rtw_is_same_ibss(_adapter *adapter, struct wlan_network *pnetwork)
++{
++	int ret = _TRUE;
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++
++	if ((psecuritypriv->dot11PrivacyAlgrthm != _NO_PRIVACY_) &&
++	    (pnetwork->network.Privacy == 0))
++		ret = _FALSE;
++	else if ((psecuritypriv->dot11PrivacyAlgrthm == _NO_PRIVACY_) &&
++		 (pnetwork->network.Privacy == 1))
++		ret = _FALSE;
++	else
++		ret = _TRUE;
++
++	return ret;
++
++}
++
++inline int is_same_ess(WLAN_BSSID_EX *a, WLAN_BSSID_EX *b)
++{
++	return (a->Ssid.SsidLength == b->Ssid.SsidLength)
++	       &&  _rtw_memcmp(a->Ssid.Ssid, b->Ssid.Ssid, a->Ssid.SsidLength) == _TRUE;
++}
++
++int is_same_network(WLAN_BSSID_EX *src, WLAN_BSSID_EX *dst, u8 feature)
++{
++	u16 s_cap, d_cap;
++
++
++	if (rtw_bug_check(dst, src, &s_cap, &d_cap) == _FALSE)
++		return _FALSE;
++
++	_rtw_memcpy((u8 *)&s_cap, rtw_get_capability_from_ie(src->IEs), 2);
++	_rtw_memcpy((u8 *)&d_cap, rtw_get_capability_from_ie(dst->IEs), 2);
++
++
++	s_cap = le16_to_cpu(s_cap);
++	d_cap = le16_to_cpu(d_cap);
++
++
++#ifdef CONFIG_P2P
++	if ((feature == 1) && /* 1: P2P supported */
++	    (_rtw_memcmp(src->MacAddress, dst->MacAddress, ETH_ALEN) == _TRUE)
++	   )
++		return _TRUE;
++#endif
++
++	return ((src->Ssid.SsidLength == dst->Ssid.SsidLength) &&
++		/*	(src->Configuration.DSConfig == dst->Configuration.DSConfig) && */
++		((_rtw_memcmp(src->MacAddress, dst->MacAddress, ETH_ALEN)) == _TRUE) &&
++		((_rtw_memcmp(src->Ssid.Ssid, dst->Ssid.Ssid, src->Ssid.SsidLength)) == _TRUE) &&
++		((s_cap & WLAN_CAPABILITY_IBSS) ==
++		 (d_cap & WLAN_CAPABILITY_IBSS)) &&
++		((s_cap & WLAN_CAPABILITY_BSS) ==
++		 (d_cap & WLAN_CAPABILITY_BSS)));
++
++}
++
++struct wlan_network *_rtw_find_same_network(_queue *scanned_queue, struct wlan_network *network)
++{
++	_list *phead, *plist;
++	struct wlan_network *found = NULL;
++
++	phead = get_list_head(scanned_queue);
++	plist = get_next(phead);
++
++	while (plist != phead) {
++		found = LIST_CONTAINOR(plist, struct wlan_network , list);
++
++		if (is_same_network(&network->network, &found->network, 0))
++			break;
++
++		plist = get_next(plist);
++	}
++
++	if (plist == phead)
++		found = NULL;
++exit:
++	return found;
++}
++
++struct wlan_network *rtw_find_same_network(_queue *scanned_queue, struct wlan_network *network)
++{
++	_irqL irqL;
++	struct wlan_network *found = NULL;
++
++	if (scanned_queue == NULL || network == NULL)
++		goto exit;
++
++	_enter_critical_bh(&scanned_queue->lock, &irqL);
++	found = _rtw_find_same_network(scanned_queue, network);
++	_exit_critical_bh(&scanned_queue->lock, &irqL);
++
++exit:
++	return found;
++}
++
++struct	wlan_network	*rtw_get_oldest_wlan_network(_queue *scanned_queue)
++{
++	_list	*plist, *phead;
++
++
++	struct	wlan_network	*pwlan = NULL;
++	struct	wlan_network	*oldest = NULL;
++	phead = get_list_head(scanned_queue);
++
++	plist = get_next(phead);
++
++	while (1) {
++
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pwlan = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		if (pwlan->fixed != _TRUE) {
++			if (oldest == NULL || time_after(oldest->last_scanned, pwlan->last_scanned))
++				oldest = pwlan;
++		}
++
++		plist = get_next(plist);
++	}
++	return oldest;
++
++}
++
++void update_network(WLAN_BSSID_EX *dst, WLAN_BSSID_EX *src,
++		    _adapter *padapter, bool update_ie)
++{
++	u8 ss_ori = dst->PhyInfo.SignalStrength;
++	u8 sq_ori = dst->PhyInfo.SignalQuality;
++	long rssi_ori = dst->Rssi;
++
++	u8 ss_smp = src->PhyInfo.SignalStrength;
++	u8 sq_smp = src->PhyInfo.SignalQuality;
++	long rssi_smp = src->Rssi;
++
++	u8 ss_final;
++	u8 sq_final;
++	long rssi_final;
++
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	rtw_hal_antdiv_rssi_compared(padapter, dst, src); /* this will update src.Rssi, need consider again */
++#endif
++
++#if defined(DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED) && 1
++	if (strcmp(dst->Ssid.Ssid, DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED) == 0) {
++		RTW_INFO(FUNC_ADPT_FMT" %s("MAC_FMT", ch%u) ss_ori:%3u, sq_ori:%3u, rssi_ori:%3ld, ss_smp:%3u, sq_smp:%3u, rssi_smp:%3ld\n"
++			 , FUNC_ADPT_ARG(padapter)
++			, src->Ssid.Ssid, MAC_ARG(src->MacAddress), src->Configuration.DSConfig
++			 , ss_ori, sq_ori, rssi_ori
++			 , ss_smp, sq_smp, rssi_smp
++			);
++	}
++#endif
++
++	/* The rule below is 1/5 for sample value, 4/5 for history value */
++	if (check_fwstate(&padapter->mlmepriv, _FW_LINKED) && is_same_network(&(padapter->mlmepriv.cur_network.network), src, 0)) {
++		/* Take the recvpriv's value for the connected AP*/
++		ss_final = padapter->recvpriv.signal_strength;
++		sq_final = padapter->recvpriv.signal_qual;
++		/* the rssi value here is undecorated, and will be used for antenna diversity */
++		if (sq_smp != 101) /* from the right channel */
++			rssi_final = (src->Rssi + dst->Rssi * 4) / 5;
++		else
++			rssi_final = rssi_ori;
++	} else {
++		if (sq_smp != 101) { /* from the right channel */
++			ss_final = ((u32)(src->PhyInfo.SignalStrength) + (u32)(dst->PhyInfo.SignalStrength) * 4) / 5;
++			sq_final = ((u32)(src->PhyInfo.SignalQuality) + (u32)(dst->PhyInfo.SignalQuality) * 4) / 5;
++			rssi_final = (src->Rssi + dst->Rssi * 4) / 5;
++		} else {
++			/* bss info not receving from the right channel, use the original RX signal infos */
++			ss_final = dst->PhyInfo.SignalStrength;
++			sq_final = dst->PhyInfo.SignalQuality;
++			rssi_final = dst->Rssi;
++		}
++
++	}
++
++	if (update_ie) {
++		dst->Reserved[0] = src->Reserved[0];
++		dst->Reserved[1] = src->Reserved[1];
++		_rtw_memcpy((u8 *)dst, (u8 *)src, get_WLAN_BSSID_EX_sz(src));
++	}
++
++	dst->PhyInfo.SignalStrength = ss_final;
++	dst->PhyInfo.SignalQuality = sq_final;
++	dst->Rssi = rssi_final;
++
++#if defined(DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED) && 1
++	if (strcmp(dst->Ssid.Ssid, DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED) == 0) {
++		RTW_INFO(FUNC_ADPT_FMT" %s("MAC_FMT"), SignalStrength:%u, SignalQuality:%u, RawRSSI:%ld\n"
++			 , FUNC_ADPT_ARG(padapter)
++			, dst->Ssid.Ssid, MAC_ARG(dst->MacAddress), dst->PhyInfo.SignalStrength, dst->PhyInfo.SignalQuality, dst->Rssi);
++	}
++#endif
++
++#if 0 /* old codes, may be useful one day...
++ * 	RTW_INFO("update_network: rssi=0x%lx dst->Rssi=%d ,dst->Rssi=0x%lx , src->Rssi=0x%lx",(dst->Rssi+src->Rssi)/2,dst->Rssi,dst->Rssi,src->Rssi); */
++	if (check_fwstate(&padapter->mlmepriv, _FW_LINKED) && is_same_network(&(padapter->mlmepriv.cur_network.network), src)) {
++
++		/* RTW_INFO("b:ssid=%s update_network: src->rssi=0x%d padapter->recvpriv.ui_rssi=%d\n",src->Ssid.Ssid,src->Rssi,padapter->recvpriv.signal); */
++		if (padapter->recvpriv.signal_qual_data.total_num++ >= PHY_LINKQUALITY_SLID_WIN_MAX) {
++			padapter->recvpriv.signal_qual_data.total_num = PHY_LINKQUALITY_SLID_WIN_MAX;
++			last_evm = padapter->recvpriv.signal_qual_data.elements[padapter->recvpriv.signal_qual_data.index];
++			padapter->recvpriv.signal_qual_data.total_val -= last_evm;
++		}
++		padapter->recvpriv.signal_qual_data.total_val += query_rx_pwr_percentage(src->Rssi);
++
++		padapter->recvpriv.signal_qual_data.elements[padapter->recvpriv.signal_qual_data.index++] = query_rx_pwr_percentage(src->Rssi);
++		if (padapter->recvpriv.signal_qual_data.index >= PHY_LINKQUALITY_SLID_WIN_MAX)
++			padapter->recvpriv.signal_qual_data.index = 0;
++
++		/* RTW_INFO("Total SQ=%d  pattrib->signal_qual= %d\n", padapter->recvpriv.signal_qual_data.total_val, src->Rssi); */
++
++		/* <1> Showed on UI for user,in percentage. */
++		tmpVal = padapter->recvpriv.signal_qual_data.total_val / padapter->recvpriv.signal_qual_data.total_num;
++		padapter->recvpriv.signal = (u8)tmpVal; /* Link quality */
++
++		src->Rssi = translate_percentage_to_dbm(padapter->recvpriv.signal) ;
++	} else {
++		/*	RTW_INFO("ELSE:ssid=%s update_network: src->rssi=0x%d dst->rssi=%d\n",src->Ssid.Ssid,src->Rssi,dst->Rssi); */
++		src->Rssi = (src->Rssi + dst->Rssi) / 2; /* dBM */
++	}
++
++	/*	RTW_INFO("a:update_network: src->rssi=0x%d padapter->recvpriv.ui_rssi=%d\n",src->Rssi,padapter->recvpriv.signal); */
++
++#endif
++
++}
++
++static void update_current_network(_adapter *adapter, WLAN_BSSID_EX *pnetwork)
++{
++	struct	mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++
++
++	rtw_bug_check(&(pmlmepriv->cur_network.network),
++		      &(pmlmepriv->cur_network.network),
++		      &(pmlmepriv->cur_network.network),
++		      &(pmlmepriv->cur_network.network));
++
++	if ((check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) && (is_same_network(&(pmlmepriv->cur_network.network), pnetwork, 0))) {
++
++		/* if(pmlmepriv->cur_network.network.IELength<= pnetwork->IELength) */
++		{
++			update_network(&(pmlmepriv->cur_network.network), pnetwork, adapter, _TRUE);
++			rtw_update_protection(adapter, (pmlmepriv->cur_network.network.IEs) + sizeof(NDIS_802_11_FIXED_IEs),
++				      pmlmepriv->cur_network.network.IELength);
++		}
++	}
++
++
++}
++
++
++/*
++
++Caller must hold pmlmepriv->lock first.
++
++
++*/
++void rtw_update_scanned_network(_adapter *adapter, WLAN_BSSID_EX *target)
++{
++	_irqL irqL;
++	_list	*plist, *phead;
++	ULONG	bssid_ex_sz;
++	struct mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(adapter->mlmeextpriv);
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(adapter->wdinfo);
++#endif /* CONFIG_P2P */
++	_queue	*queue	= &(pmlmepriv->scanned_queue);
++	struct wlan_network	*pnetwork = NULL;
++	struct wlan_network	*oldest = NULL;
++	int target_find = 0;
++	u8 feature = 0;
++
++
++	_enter_critical_bh(&queue->lock, &irqL);
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++#ifdef CONFIG_P2P
++	if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		feature = 1; /* p2p enable */
++#endif
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		rtw_bug_check(pnetwork, pnetwork, pnetwork, pnetwork);
++
++#ifdef CONFIG_P2P
++		if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE) &&
++		    (_rtw_memcmp(pnetwork->network.MacAddress, target->MacAddress, ETH_ALEN) == _TRUE)) {
++			target_find = 1;
++			break;
++		}
++#endif
++
++		if (is_same_network(&(pnetwork->network), target, feature)) {
++			target_find = 1;
++			break;
++		}
++
++		if (rtw_roam_flags(adapter)) {
++			/* TODO: don't  select netowrk in the same ess as oldest if it's new enough*/
++		}
++
++		if (oldest == NULL || time_after(oldest->last_scanned, pnetwork->last_scanned))
++			oldest = pnetwork;
++
++		plist = get_next(plist);
++
++	}
++
++
++	/* If we didn't find a match, then get a new network slot to initialize
++	 * with this beacon's information */
++	/* if (rtw_end_of_queue_search(phead,plist)== _TRUE) { */
++	if (!target_find) {
++		if (_rtw_queue_empty(&(pmlmepriv->free_bss_pool)) == _TRUE) {
++			/* If there are no more slots, expire the oldest */
++			/* list_del_init(&oldest->list); */
++			pnetwork = oldest;
++			if (pnetwork == NULL) {
++				goto exit;
++			}
++#ifdef CONFIG_ANTENNA_DIVERSITY
++			rtw_hal_get_odm_var(adapter, HAL_ODM_ANTDIV_SELECT, &(target->PhyInfo.Optimum_antenna), NULL);
++#endif
++			_rtw_memcpy(&(pnetwork->network), target,  get_WLAN_BSSID_EX_sz(target));
++			/* pnetwork->last_scanned = rtw_get_current_time(); */
++			/* variable initialize */
++			pnetwork->fixed = _FALSE;
++			pnetwork->last_scanned = rtw_get_current_time();
++
++			pnetwork->network_type = 0;
++			pnetwork->aid = 0;
++			pnetwork->join_res = 0;
++
++			/* bss info not receving from the right channel */
++			if (pnetwork->network.PhyInfo.SignalQuality == 101)
++				pnetwork->network.PhyInfo.SignalQuality = 0;
++		} else {
++			/* Otherwise just pull from the free list */
++
++			pnetwork = rtw_alloc_network(pmlmepriv); /* will update scan_time */
++
++			if (pnetwork == NULL) {
++				goto exit;
++			}
++
++			bssid_ex_sz = get_WLAN_BSSID_EX_sz(target);
++			target->Length = bssid_ex_sz;
++#ifdef CONFIG_ANTENNA_DIVERSITY
++			rtw_hal_get_odm_var(adapter, HAL_ODM_ANTDIV_SELECT, &(target->PhyInfo.Optimum_antenna), NULL);
++#endif
++			_rtw_memcpy(&(pnetwork->network), target, bssid_ex_sz);
++
++			pnetwork->last_scanned = rtw_get_current_time();
++
++			/* bss info not receving from the right channel */
++			if (pnetwork->network.PhyInfo.SignalQuality == 101)
++				pnetwork->network.PhyInfo.SignalQuality = 0;
++
++			rtw_list_insert_tail(&(pnetwork->list), &(queue->queue));
++
++		}
++	} else {
++		/* we have an entry and we are going to update it. But this entry may
++		 * be already expired. In this case we do the same as we found a new
++		 * net and call the new_net handler
++		 */
++		bool update_ie = _TRUE;
++
++		pnetwork->last_scanned = rtw_get_current_time();
++
++		/* target.Reserved[0]==1, means that scaned network is a bcn frame. */
++		if ((pnetwork->network.IELength > target->IELength) && (target->Reserved[0] == 1))
++			update_ie = _FALSE;
++
++		/* probe resp(3) > beacon(1) > probe req(2) */
++		if ((target->Reserved[0] != 2) &&
++		    (target->Reserved[0] >= pnetwork->network.Reserved[0])
++		   )
++			update_ie = _TRUE;
++		else
++			update_ie = _FALSE;
++
++		update_network(&(pnetwork->network), target, adapter, update_ie);
++	}
++
++exit:
++	_exit_critical_bh(&queue->lock, &irqL);
++
++}
++
++void rtw_add_network(_adapter *adapter, WLAN_BSSID_EX *pnetwork);
++void rtw_add_network(_adapter *adapter, WLAN_BSSID_EX *pnetwork)
++{
++	_irqL irqL;
++	struct	mlme_priv	*pmlmepriv = &(((_adapter *)adapter)->mlmepriv);
++	/* _queue	*queue	= &(pmlmepriv->scanned_queue); */
++
++
++	/* _enter_critical_bh(&queue->lock, &irqL); */
++
++#if defined(CONFIG_P2P) && defined(CONFIG_P2P_REMOVE_GROUP_INFO)
++	if (adapter->registrypriv.wifi_spec == 0)
++		rtw_bss_ex_del_p2p_attr(pnetwork, P2P_ATTR_GROUP_INFO);
++#endif
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		rtw_bss_ex_del_wfd_ie(pnetwork);
++
++	update_current_network(adapter, pnetwork);
++
++	rtw_update_scanned_network(adapter, pnetwork);
++
++	/* _exit_critical_bh(&queue->lock, &irqL); */
++
++}
++
++/* select the desired network based on the capability of the (i)bss.
++ * check items: (1) security
++ *			   (2) network_type
++ *			   (3) WMM
++ *			   (4) HT
++ * (5) others */
++int rtw_is_desired_network(_adapter *adapter, struct wlan_network *pnetwork);
++int rtw_is_desired_network(_adapter *adapter, struct wlan_network *pnetwork)
++{
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	u32 desired_encmode;
++	u32 privacy;
++
++	/* u8 wps_ie[512]; */
++	uint wps_ielen;
++
++	int bselected = _TRUE;
++
++	desired_encmode = psecuritypriv->ndisencryptstatus;
++	privacy = pnetwork->network.Privacy;
++
++	if (check_fwstate(pmlmepriv, WIFI_UNDER_WPS)) {
++		if (rtw_get_wps_ie(pnetwork->network.IEs + _FIXED_IE_LENGTH_, pnetwork->network.IELength - _FIXED_IE_LENGTH_, NULL, &wps_ielen) != NULL)
++			return _TRUE;
++		else
++			return _FALSE;
++	}
++	if (adapter->registrypriv.wifi_spec == 1) { /* for  correct flow of 8021X  to do.... */
++		u8 *p = NULL;
++		uint ie_len = 0;
++
++		if ((desired_encmode == Ndis802_11EncryptionDisabled) && (privacy != 0))
++			bselected = _FALSE;
++
++		if (psecuritypriv->ndisauthtype == Ndis802_11AuthModeWPA2PSK) {
++			p = rtw_get_ie(pnetwork->network.IEs + _BEACON_IE_OFFSET_, _RSN_IE_2_, &ie_len, (pnetwork->network.IELength - _BEACON_IE_OFFSET_));
++			if (p && ie_len > 0)
++				bselected = _TRUE;
++			else
++				bselected = _FALSE;
++		}
++	}
++
++
++	if ((desired_encmode != Ndis802_11EncryptionDisabled) && (privacy == 0)) {
++		RTW_INFO("desired_encmode: %d, privacy: %d\n", desired_encmode, privacy);
++		bselected = _FALSE;
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) {
++		if (pnetwork->network.InfrastructureMode != pmlmepriv->cur_network.network.InfrastructureMode)
++			bselected = _FALSE;
++	}
++
++
++	return bselected;
++}
++
++/* TODO: Perry : For Power Management */
++void rtw_atimdone_event_callback(_adapter	*adapter , u8 *pbuf)
++{
++
++	return;
++}
++
++
++void rtw_survey_event_callback(_adapter	*adapter, u8 *pbuf)
++{
++	_irqL  irqL;
++	u32 len;
++	WLAN_BSSID_EX *pnetwork;
++	struct	mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++
++
++	pnetwork = (WLAN_BSSID_EX *)pbuf;
++
++
++#ifdef CONFIG_RTL8712
++	/* endian_convert */
++	pnetwork->Length = le32_to_cpu(pnetwork->Length);
++	pnetwork->Ssid.SsidLength = le32_to_cpu(pnetwork->Ssid.SsidLength);
++	pnetwork->Privacy = le32_to_cpu(pnetwork->Privacy);
++	pnetwork->Rssi = le32_to_cpu(pnetwork->Rssi);
++	pnetwork->NetworkTypeInUse = le32_to_cpu(pnetwork->NetworkTypeInUse);
++	pnetwork->Configuration.ATIMWindow = le32_to_cpu(pnetwork->Configuration.ATIMWindow);
++	pnetwork->Configuration.BeaconPeriod = le32_to_cpu(pnetwork->Configuration.BeaconPeriod);
++	pnetwork->Configuration.DSConfig = le32_to_cpu(pnetwork->Configuration.DSConfig);
++	pnetwork->Configuration.FHConfig.DwellTime = le32_to_cpu(pnetwork->Configuration.FHConfig.DwellTime);
++	pnetwork->Configuration.FHConfig.HopPattern = le32_to_cpu(pnetwork->Configuration.FHConfig.HopPattern);
++	pnetwork->Configuration.FHConfig.HopSet = le32_to_cpu(pnetwork->Configuration.FHConfig.HopSet);
++	pnetwork->Configuration.FHConfig.Length = le32_to_cpu(pnetwork->Configuration.FHConfig.Length);
++	pnetwork->Configuration.Length = le32_to_cpu(pnetwork->Configuration.Length);
++	pnetwork->InfrastructureMode = le32_to_cpu(pnetwork->InfrastructureMode);
++	pnetwork->IELength = le32_to_cpu(pnetwork->IELength);
++#endif
++
++	len = get_WLAN_BSSID_EX_sz(pnetwork);
++	if (len > (sizeof(WLAN_BSSID_EX))) {
++		return;
++	}
++
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	/* update IBSS_network 's timestamp */
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE)) == _TRUE) {
++		if (_rtw_memcmp(&(pmlmepriv->cur_network.network.MacAddress), pnetwork->MacAddress, ETH_ALEN)) {
++			struct wlan_network *ibss_wlan = NULL;
++			_irqL	irqL;
++
++			_rtw_memcpy(pmlmepriv->cur_network.network.IEs, pnetwork->IEs, 8);
++			_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			ibss_wlan = rtw_find_network(&pmlmepriv->scanned_queue,  pnetwork->MacAddress);
++			if (ibss_wlan) {
++				_rtw_memcpy(ibss_wlan->network.IEs , pnetwork->IEs, 8);
++				_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++				goto exit;
++			}
++			_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		}
++	}
++
++	/* lock pmlmepriv->lock when you accessing network_q */
++	if ((check_fwstate(pmlmepriv, _FW_UNDER_LINKING)) == _FALSE) {
++		if (pnetwork->Ssid.Ssid[0] == 0)
++			pnetwork->Ssid.SsidLength = 0;
++		rtw_add_network(adapter, pnetwork);
++	}
++
++exit:
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++	return;
++}
++
++void rtw_surveydone_event_callback(_adapter	*adapter, u8 *pbuf)
++{
++	_irqL  irqL;
++	u8 timer_cancelled;
++	struct	mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++#ifdef CONFIG_RTW_80211R
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++#endif
++
++#ifdef CONFIG_MLME_EXT
++	mlmeext_surveydone_event_callback(adapter);
++#endif
++
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	if (pmlmepriv->wps_probe_req_ie) {
++		u32 free_len = pmlmepriv->wps_probe_req_ie_len;
++		pmlmepriv->wps_probe_req_ie_len = 0;
++		rtw_mfree(pmlmepriv->wps_probe_req_ie, free_len);
++		pmlmepriv->wps_probe_req_ie = NULL;
++	}
++
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _FALSE) {
++		RTW_INFO(FUNC_ADPT_FMT" fw_state:0x%x\n", FUNC_ADPT_ARG(adapter), get_fwstate(pmlmepriv));
++		/* rtw_warn_on(1); */
++	}
++
++	_clr_fwstate_(pmlmepriv, _FW_UNDER_SURVEY);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++	_cancel_timer(&pmlmepriv->scan_to_timer, &timer_cancelled);
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	rtw_set_signal_stat_timer(&adapter->recvpriv);
++#endif
++
++	if (pmlmepriv->to_join == _TRUE) {
++		if ((check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE)) {
++			if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				set_fwstate(pmlmepriv, _FW_UNDER_LINKING);
++
++				if (rtw_select_and_join_from_scanned_queue(pmlmepriv) == _SUCCESS)
++					_set_timer(&pmlmepriv->assoc_timer, MAX_JOIN_TIMEOUT);
++				else {
++					WLAN_BSSID_EX    *pdev_network = &(adapter->registrypriv.dev_network);
++					u8 *pibss = adapter->registrypriv.dev_network.MacAddress;
++
++					/* pmlmepriv->fw_state ^= _FW_UNDER_SURVEY; */ /* because don't set assoc_timer */
++					_clr_fwstate_(pmlmepriv, _FW_UNDER_SURVEY);
++
++
++					_rtw_memset(&pdev_network->Ssid, 0, sizeof(NDIS_802_11_SSID));
++					_rtw_memcpy(&pdev_network->Ssid, &pmlmepriv->assoc_ssid, sizeof(NDIS_802_11_SSID));
++
++					rtw_update_registrypriv_dev_network(adapter);
++					rtw_generate_random_ibss(pibss);
++
++					/*pmlmepriv->fw_state = WIFI_ADHOC_MASTER_STATE;*/
++					init_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++
++					if (rtw_create_ibss_cmd(adapter, 0) != _SUCCESS)
++						RTW_ERR("rtw_create_ibss_cmd FAIL\n");
++
++					pmlmepriv->to_join = _FALSE;
++				}
++			}
++		} else {
++			int s_ret;
++			set_fwstate(pmlmepriv, _FW_UNDER_LINKING);
++			pmlmepriv->to_join = _FALSE;
++			s_ret = rtw_select_and_join_from_scanned_queue(pmlmepriv);
++			if (_SUCCESS == s_ret)
++				_set_timer(&pmlmepriv->assoc_timer, MAX_JOIN_TIMEOUT);
++			else if (s_ret == 2) { /* there is no need to wait for join */
++				_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++				rtw_indicate_connect(adapter);
++			} else {
++				RTW_INFO("try_to_join, but select scanning queue fail, to_roam:%d\n", rtw_to_roam(adapter));
++
++				if (rtw_to_roam(adapter) != 0) {
++					if (rtw_dec_to_roam(adapter) == 0
++					    || _SUCCESS != rtw_sitesurvey_cmd(adapter, &pmlmepriv->assoc_ssid, 1, NULL, 0)
++					   ) {
++						rtw_set_to_roam(adapter, 0);
++#ifdef CONFIG_INTEL_WIDI
++						if (adapter->mlmepriv.widi_state == INTEL_WIDI_STATE_ROAMING) {
++							_rtw_memset(pmlmepriv->sa_ext, 0x00, L2SDTA_SERVICE_VE_LEN);
++							intel_widi_wk_cmd(adapter, INTEL_WIDI_LISTEN_WK, NULL, 0);
++							RTW_INFO("change to widi listen\n");
++						}
++#endif /* CONFIG_INTEL_WIDI */
++						rtw_free_assoc_resources(adapter, 1);
++						rtw_indicate_disconnect(adapter, 0, _FALSE);
++					} else
++						pmlmepriv->to_join = _TRUE;
++				} else
++					rtw_indicate_disconnect(adapter, 0, _FALSE);
++				_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++			}
++		}
++	} else {
++		if (rtw_chk_roam_flags(adapter, RTW_ROAM_ACTIVE)) {
++			if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)
++			    && check_fwstate(pmlmepriv, _FW_LINKED)) {
++				if (rtw_select_roaming_candidate(pmlmepriv) == _SUCCESS) {
++#ifdef CONFIG_RTW_80211R
++					if (rtw_chk_ft_flags(adapter, RTW_FT_OVER_DS_SUPPORTED)) {
++						start_clnt_ft_action(adapter, (u8 *)pmlmepriv->roam_network->network.MacAddress);
++					} else {
++						/*wait a little time to retrieve packets buffered in the current ap while scan*/
++						_set_timer(&pmlmeext->ft_roam_timer, 30);
++					}
++#else
++					receive_disconnect(adapter, pmlmepriv->cur_network.network.MacAddress
++						, WLAN_REASON_ACTIVE_ROAM, _FALSE);
++#endif
++				}
++			}
++		}
++	}
++
++	/* RTW_INFO("scan complete in %dms\n",rtw_get_passing_time_ms(pmlmepriv->scan_start_time)); */
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++#ifdef CONFIG_P2P_PS
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		p2p_ps_wk_cmd(adapter, P2P_PS_SCAN_DONE, 0);
++#endif /* CONFIG_P2P_PS */
++
++	rtw_mi_os_xmit_schedule(adapter);
++
++#ifdef CONFIG_DRVEXT_MODULE_WSC
++	drvext_surveydone_callback(&adapter->drvextpriv);
++#endif
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	{
++		struct mlme_ext_priv *pmlmeext = &adapter->mlmeextpriv;
++		if (pmlmeext->sitesurvey_res.bss_cnt == 0) {
++			/* rtw_hal_sreset_reset(adapter); */
++		}
++	}
++#endif
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_cfg80211_surveydone_event_callback(adapter);
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	rtw_indicate_scan_done(adapter, _FALSE);
++#ifdef CONFIG_CONCURRENT_MODE
++	rtw_mi_buddy_indicate_scan_done(adapter, _FALSE);/*scanning_via_buddy_intf*/
++#endif
++
++}
++
++void rtw_dummy_event_callback(_adapter *adapter , u8 *pbuf)
++{
++
++}
++
++void rtw_fwdbg_event_callback(_adapter *adapter , u8 *pbuf)
++{
++
++}
++
++static void free_scanqueue(struct	mlme_priv *pmlmepriv)
++{
++	_irqL irqL, irqL0;
++	_queue *free_queue = &pmlmepriv->free_bss_pool;
++	_queue *scan_queue = &pmlmepriv->scanned_queue;
++	_list	*plist, *phead, *ptemp;
++
++
++	_enter_critical_bh(&scan_queue->lock, &irqL0);
++	_enter_critical_bh(&free_queue->lock, &irqL);
++
++	phead = get_list_head(scan_queue);
++	plist = get_next(phead);
++
++	while (plist != phead) {
++		ptemp = get_next(plist);
++		rtw_list_delete(plist);
++		rtw_list_insert_tail(plist, &free_queue->queue);
++		plist = ptemp;
++		pmlmepriv->num_of_scanned--;
++	}
++
++	_exit_critical_bh(&free_queue->lock, &irqL);
++	_exit_critical_bh(&scan_queue->lock, &irqL0);
++
++}
++
++void rtw_reset_rx_info(struct debug_priv *pdbgpriv)
++{
++	pdbgpriv->dbg_rx_ampdu_drop_count = 0;
++	pdbgpriv->dbg_rx_ampdu_forced_indicate_count = 0;
++	pdbgpriv->dbg_rx_ampdu_loss_count = 0;
++	pdbgpriv->dbg_rx_dup_mgt_frame_drop_count = 0;
++	pdbgpriv->dbg_rx_ampdu_window_shift_cnt = 0;
++}
++
++/*
++*rtw_free_assoc_resources: the caller has to lock pmlmepriv->lock
++*/
++void rtw_free_assoc_resources(_adapter *adapter, int lock_scanned_queue)
++{
++	_irqL irqL;
++	struct wlan_network *pwlan = NULL;
++	struct	mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct	sta_priv *pstapriv = &adapter->stapriv;
++	struct wlan_network *tgt_network = &pmlmepriv->cur_network;
++	struct dvobj_priv *psdpriv = adapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++
++
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &adapter->tdlsinfo;
++#endif /* CONFIG_TDLS */
++
++
++	RTW_INFO("%s-"ADPT_FMT" tgt_network MacAddress=" MAC_FMT"ssid=%s\n",
++		__func__, ADPT_ARG(adapter), MAC_ARG(tgt_network->network.MacAddress), tgt_network->network.Ssid.Ssid);
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++		struct sta_info *psta;
++
++		psta = rtw_get_stainfo(&adapter->stapriv, tgt_network->network.MacAddress);
++
++#ifdef CONFIG_TDLS
++		if (ptdlsinfo->link_established == _TRUE) {
++			rtw_tdls_cmd(adapter, NULL, TDLS_RS_RCR);
++			rtw_reset_tdls_info(adapter);
++			rtw_free_all_stainfo(adapter);
++			/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL); */
++		} else
++#endif /* CONFIG_TDLS */
++		{
++			/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL); */
++			rtw_free_stainfo(adapter,  psta);
++		}
++
++		/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL); */
++
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE | WIFI_ADHOC_MASTER_STATE)) {
++		struct sta_info *psta;
++
++		rtw_free_all_stainfo(adapter);
++
++		psta = rtw_get_bcmc_stainfo(adapter);
++		/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		 */
++		rtw_free_stainfo(adapter, psta);
++		/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		 */
++
++		rtw_init_bcmc_stainfo(adapter);
++	}
++
++	if (lock_scanned_queue)
++		_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	pwlan = _rtw_find_same_network(&pmlmepriv->scanned_queue, tgt_network);
++	if ((pwlan)  && (!check_fwstate(pmlmepriv, WIFI_UNDER_WPS))) {
++		pwlan->fixed = _FALSE;
++
++		RTW_INFO("free disconnecting network of scanned_queue\n");
++		rtw_free_network_nolock(adapter, pwlan);
++#ifdef CONFIG_P2P
++		if (!rtw_p2p_chk_state(&adapter->wdinfo, P2P_STATE_NONE)) {
++			rtw_mi_set_scan_deny(adapter, 2000);
++			/* rtw_clear_scan_deny(adapter);			 */
++		}
++#endif /* CONFIG_P2P */
++	} else {
++		if (pwlan == NULL)
++			RTW_INFO("free disconnecting network of scanned_queue failed due to pwlan== NULL\n\n");
++		if (check_fwstate(pmlmepriv, WIFI_UNDER_WPS))
++			RTW_INFO("donot free disconnecting network of scanned_queue when WIFI_UNDER_WPS\n\n");
++	}
++
++
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) && (adapter->stapriv.asoc_sta_count == 1))
++	    /*||check_fwstate(pmlmepriv, WIFI_STATION_STATE)*/) {
++		if (pwlan)
++			rtw_free_network_nolock(adapter, pwlan);
++	}
++
++	if (lock_scanned_queue)
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	adapter->securitypriv.key_mask = 0;
++
++	rtw_reset_rx_info(pdbgpriv);
++
++
++}
++
++/*
++*rtw_indicate_connect: the caller has to lock pmlmepriv->lock
++*/
++void rtw_indicate_connect(_adapter *padapter)
++{
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++
++
++
++	pmlmepriv->to_join = _FALSE;
++
++	if (!check_fwstate(&padapter->mlmepriv, _FW_LINKED)) {
++
++		set_fwstate(pmlmepriv, _FW_LINKED);
++
++		rtw_led_control(padapter, LED_CTL_LINK);
++
++
++#ifdef CONFIG_DRVEXT_MODULE
++		if (padapter->drvextpriv.enable_wpa)
++			indicate_l2_connect(padapter);
++		else
++#endif
++		{
++			rtw_os_indicate_connect(padapter);
++		}
++
++	}
++
++	rtw_set_to_roam(padapter, 0);
++#ifdef CONFIG_INTEL_WIDI
++	if (padapter->mlmepriv.widi_state == INTEL_WIDI_STATE_ROAMING) {
++		_rtw_memset(pmlmepriv->sa_ext, 0x00, L2SDTA_SERVICE_VE_LEN);
++		intel_widi_wk_cmd(padapter, INTEL_WIDI_LISTEN_WK, NULL, 0);
++		RTW_INFO("change to widi listen\n");
++	}
++#endif /* CONFIG_INTEL_WIDI */
++	if (!check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE))
++		rtw_mi_set_scan_deny(padapter, 3000);
++
++
++}
++
++
++/*
++*rtw_indicate_disconnect: the caller has to lock pmlmepriv->lock
++*/
++void rtw_indicate_disconnect(_adapter *padapter, u16 reason, u8 locally_generated)
++{
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX	*cur_network = &(pmlmeinfo->network);
++	struct sta_info *psta;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *wps_ie = NULL;
++	uint wpsie_len = 0;
++
++
++
++	_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING | WIFI_UNDER_WPS);
++
++	/* force to clear cur_network_scanned's SELECTED REGISTRAR */
++	if (pmlmepriv->cur_network_scanned) {
++		WLAN_BSSID_EX	*current_joined_bss = &(pmlmepriv->cur_network_scanned->network);
++		if (current_joined_bss) {
++			wps_ie = rtw_get_wps_ie(current_joined_bss->IEs + _FIXED_IE_LENGTH_,
++				current_joined_bss->IELength - _FIXED_IE_LENGTH_, NULL, &wpsie_len);
++			if (wps_ie && wpsie_len > 0) {
++				u8 *attr = NULL;
++				u32 attr_len;
++				attr = rtw_get_wps_attr(wps_ie, wpsie_len, WPS_ATTR_SELECTED_REGISTRAR,
++							NULL, &attr_len);
++				if (attr)
++					*(attr + 4) = 0;
++			}
++		}
++	}
++	/* RTW_INFO("clear wps when %s\n", __func__); */
++
++	if (rtw_to_roam(padapter) > 0)
++		_clr_fwstate_(pmlmepriv, _FW_LINKED);
++
++#ifdef CONFIG_WAPI_SUPPORT
++	psta = rtw_get_stainfo(pstapriv, cur_network->MacAddress);
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE))
++		rtw_wapi_return_one_sta_info(padapter, psta->hwaddr);
++	else if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) ||
++		 check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE))
++		rtw_wapi_return_all_sta_info(padapter);
++#endif
++
++	if (check_fwstate(&padapter->mlmepriv, _FW_LINKED)
++	    || (rtw_to_roam(padapter) <= 0)
++	   ) {
++
++		rtw_os_indicate_disconnect(padapter, reason, locally_generated);
++
++		/* set ips_deny_time to avoid enter IPS before LPS leave */
++		rtw_set_ips_deny(padapter, 3000);
++
++		_clr_fwstate_(pmlmepriv, _FW_LINKED);
++
++		rtw_led_control(padapter, LED_CTL_NO_LINK);
++
++		rtw_clear_scan_deny(padapter);
++	}
++
++#ifdef CONFIG_P2P_PS
++	p2p_ps_wk_cmd(padapter, P2P_PS_DISABLE, 1);
++#endif /* CONFIG_P2P_PS */
++
++#ifdef CONFIG_LPS
++	rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_DISCONNECT, 1);
++#endif
++
++#ifdef CONFIG_BEAMFORMING
++	beamforming_wk_cmd(padapter, BEAMFORMING_CTRL_LEAVE, cur_network->MacAddress, ETH_ALEN, 1);
++#endif /*CONFIG_BEAMFORMING*/
++
++}
++
++inline void rtw_indicate_scan_done(_adapter *padapter, bool aborted)
++{
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++	rtw_os_indicate_scan_done(padapter, aborted);
++
++#ifdef CONFIG_IPS
++	if (is_primary_adapter(padapter)
++	    && (_FALSE == adapter_to_pwrctl(padapter)->bInSuspend)
++	    && (check_fwstate(&padapter->mlmepriv, WIFI_ASOC_STATE | WIFI_UNDER_LINKING) == _FALSE)) {
++		struct pwrctrl_priv *pwrpriv;
++
++		pwrpriv = adapter_to_pwrctl(padapter);
++		rtw_set_ips_deny(padapter, 0);
++#ifdef CONFIG_IPS_CHECK_IN_WD
++		_set_timer(&padapter->mlmepriv.dynamic_chk_timer, 1);
++#else /* !CONFIG_IPS_CHECK_IN_WD */
++		_rtw_set_pwr_state_check_timer(pwrpriv, 1);
++#endif /* !CONFIG_IPS_CHECK_IN_WD */
++	}
++#endif /* CONFIG_IPS */
++}
++
++static u32 _rtw_wait_scan_done(_adapter *adapter, u8 abort, u32 timeout_ms)
++{
++	u32 start;
++	u32 pass_ms;
++	struct mlme_priv *pmlmepriv = &(adapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &(adapter->mlmeextpriv);
++
++	start = rtw_get_current_time();
++
++	pmlmeext->scan_abort = abort;
++
++	while (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY)
++	       && rtw_get_passing_time_ms(start) <= timeout_ms) {
++
++		if (RTW_CANNOT_RUN(adapter))
++			break;
++
++		RTW_INFO(FUNC_NDEV_FMT"fw_state=_FW_UNDER_SURVEY!\n", FUNC_NDEV_ARG(adapter->pnetdev));
++		rtw_msleep_os(20);
++	}
++
++	if (_TRUE == abort) {
++		if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY)) {
++			if (!RTW_CANNOT_RUN(adapter))
++				RTW_INFO(FUNC_NDEV_FMT"waiting for scan_abort time out!\n", FUNC_NDEV_ARG(adapter->pnetdev));
++#ifdef CONFIG_PLATFORM_MSTAR
++			/*_clr_fwstate_(pmlmepriv, _FW_UNDER_SURVEY);*/
++			set_survey_timer(pmlmeext, 0);
++			mlme_set_scan_to_timer(pmlmepriv, 50);
++#endif
++			rtw_indicate_scan_done(adapter, _TRUE);
++		}
++	}
++
++	pmlmeext->scan_abort = _FALSE;
++	pass_ms = rtw_get_passing_time_ms(start);
++
++	return pass_ms;
++
++}
++
++void rtw_scan_wait_completed(_adapter *adapter)
++{
++	u32 scan_to = SCANNING_TIMEOUT;
++
++#ifdef CONFIG_SCAN_BACKOP
++	if (IsSupported5G(adapter->registrypriv.wireless_mode)
++	    && IsSupported24G(adapter->registrypriv.wireless_mode)) /*dual band*/
++		scan_to = CONC_SCANNING_TIMEOUT_DUAL_BAND;
++	else /*single band*/
++		scan_to = CONC_SCANNING_TIMEOUT_SINGLE_BAND;
++#endif /* CONFIG_SCAN_BACKOP */
++
++	_rtw_wait_scan_done(adapter, _FALSE, scan_to);
++}
++
++u32 rtw_scan_abort_timeout(_adapter *adapter, u32 timeout_ms)
++{
++	return _rtw_wait_scan_done(adapter, _TRUE, timeout_ms);
++}
++
++void rtw_scan_abort_no_wait(_adapter *adapter)
++{
++	struct mlme_priv *pmlmepriv = &(adapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &(adapter->mlmeextpriv);
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY))
++		pmlmeext->scan_abort = _TRUE;
++}
++
++void rtw_scan_abort(_adapter *adapter)
++{
++	rtw_scan_abort_timeout(adapter, 200);
++}
++
++static struct sta_info *rtw_joinbss_update_stainfo(_adapter *padapter, struct wlan_network *pnetwork)
++{
++	int i;
++	struct sta_info *bmc_sta, *psta = NULL;
++	struct recv_reorder_ctrl *preorder_ctrl;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	psta = rtw_get_stainfo(pstapriv, pnetwork->network.MacAddress);
++	if (psta == NULL)
++		psta = rtw_alloc_stainfo(pstapriv, pnetwork->network.MacAddress);
++
++	if (psta) { /* update ptarget_sta */
++		RTW_INFO("%s\n", __FUNCTION__);
++
++		psta->aid  = pnetwork->join_res;
++
++#if 0 /* alloc macid when call rtw_alloc_stainfo(), and release macid when call rtw_free_stainfo() */
++#ifdef CONFIG_CONCURRENT_MODE
++
++		if (PRIMARY_ADAPTER == padapter->adapter_type)
++			psta->mac_id = 0;
++		else
++			psta->mac_id = 2;
++#else
++		psta->mac_id = 0;
++#endif
++#endif /* removed */
++
++		update_sta_info(padapter, psta);
++
++		/* update station supportRate */
++		psta->bssratelen = rtw_get_rateset_len(pnetwork->network.SupportedRates);
++		_rtw_memcpy(psta->bssrateset, pnetwork->network.SupportedRates, psta->bssratelen);
++		rtw_hal_update_sta_rate_mask(padapter, psta);
++
++		psta->wireless_mode = pmlmeext->cur_wireless_mode;
++		psta->raid = rtw_hal_networktype_to_raid(padapter, psta);
++
++
++		/* sta mode */
++		rtw_hal_set_odm_var(padapter, HAL_ODM_STA_INFO, psta, _TRUE);
++
++		/* security related */
++#ifdef CONFIG_RTW_80211R
++		if ((padapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X) && (psta->ft_pairwise_key_installed == _FALSE)) {
++#else
++		if (padapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X) {
++#endif
++			padapter->securitypriv.binstallGrpkey = _FALSE;
++			padapter->securitypriv.busetkipkey = _FALSE;
++			padapter->securitypriv.bgrpkey_handshake = _FALSE;
++
++			psta->ieee8021x_blocked = _TRUE;
++			psta->dot118021XPrivacy = padapter->securitypriv.dot11PrivacyAlgrthm;
++
++			_rtw_memset((u8 *)&psta->dot118021x_UncstKey, 0, sizeof(union Keytype));
++
++			_rtw_memset((u8 *)&psta->dot11tkiprxmickey, 0, sizeof(union Keytype));
++			_rtw_memset((u8 *)&psta->dot11tkiptxmickey, 0, sizeof(union Keytype));
++
++			_rtw_memset((u8 *)&psta->dot11txpn, 0, sizeof(union pn48));
++			psta->dot11txpn.val = psta->dot11txpn.val + 1;
++#ifdef CONFIG_IEEE80211W
++			_rtw_memset((u8 *)&psta->dot11wtxpn, 0, sizeof(union pn48));
++#endif /* CONFIG_IEEE80211W */
++			_rtw_memset((u8 *)&psta->dot11rxpn, 0, sizeof(union pn48));
++		}
++
++		/*	Commented by Albert 2012/07/21 */
++		/*	When doing the WPS, the wps_ie_len won't equal to 0 */
++		/*	And the Wi-Fi driver shouldn't allow the data packet to be tramsmitted. */
++		if (padapter->securitypriv.wps_ie_len != 0) {
++			psta->ieee8021x_blocked = _TRUE;
++			padapter->securitypriv.wps_ie_len = 0;
++		}
++
++
++		/* for A-MPDU Rx reordering buffer control for bmc_sta & sta_info */
++		/* if A-MPDU Rx is enabled, reseting  rx_ordering_ctrl wstart_b(indicate_seq) to default value=0xffff */
++		/* todo: check if AP can send A-MPDU packets */
++		for (i = 0; i < 16 ; i++) {
++			/* preorder_ctrl = &precvpriv->recvreorder_ctrl[i]; */
++			preorder_ctrl = &psta->recvreorder_ctrl[i];
++			preorder_ctrl->enable = _FALSE;
++			preorder_ctrl->indicate_seq = 0xffff;
++#ifdef DBG_RX_SEQ
++			RTW_INFO("DBG_RX_SEQ %s:%d indicate_seq:%u\n", __FUNCTION__, __LINE__,
++				 preorder_ctrl->indicate_seq);
++#endif
++			preorder_ctrl->wend_b = 0xffff;
++			preorder_ctrl->wsize_b = 64;/* max_ampdu_sz; */ /* ex. 32(kbytes) -> wsize_b=32 */
++			preorder_ctrl->ampdu_size = RX_AMPDU_SIZE_INVALID;
++		}
++
++
++		bmc_sta = rtw_get_bcmc_stainfo(padapter);
++		if (bmc_sta) {
++			for (i = 0; i < 16 ; i++) {
++				/* preorder_ctrl = &precvpriv->recvreorder_ctrl[i]; */
++				preorder_ctrl = &bmc_sta->recvreorder_ctrl[i];
++				preorder_ctrl->enable = _FALSE;
++				preorder_ctrl->indicate_seq = 0xffff;
++#ifdef DBG_RX_SEQ
++				RTW_INFO("DBG_RX_SEQ %s:%d indicate_seq:%u\n", __FUNCTION__, __LINE__,
++					 preorder_ctrl->indicate_seq);
++#endif
++				preorder_ctrl->wend_b = 0xffff;
++				preorder_ctrl->wsize_b = 64;/* max_ampdu_sz; */ /* ex. 32(kbytes) -> wsize_b=32 */
++				preorder_ctrl->ampdu_size = RX_AMPDU_SIZE_INVALID;
++			}
++		}
++	}
++
++	return psta;
++
++}
++
++/* pnetwork : returns from rtw_joinbss_event_callback
++ * ptarget_wlan: found from scanned_queue */
++static void rtw_joinbss_update_network(_adapter *padapter, struct wlan_network *ptarget_wlan, struct wlan_network  *pnetwork)
++{
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct wlan_network  *cur_network = &(pmlmepriv->cur_network);
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++
++
++	/* why not use ptarget_wlan?? */
++	_rtw_memcpy(&cur_network->network, &pnetwork->network, pnetwork->network.Length);
++	/* some IEs in pnetwork is wrong, so we should use ptarget_wlan IEs */
++	cur_network->network.IELength = ptarget_wlan->network.IELength;
++	_rtw_memcpy(&cur_network->network.IEs[0], &ptarget_wlan->network.IEs[0], MAX_IE_SZ);
++
++	cur_network->aid = pnetwork->join_res;
++
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	rtw_set_signal_stat_timer(&padapter->recvpriv);
++#endif
++	padapter->recvpriv.signal_strength = ptarget_wlan->network.PhyInfo.SignalStrength;
++	padapter->recvpriv.signal_qual = ptarget_wlan->network.PhyInfo.SignalQuality;
++	/* the ptarget_wlan->network.Rssi is raw data, we use ptarget_wlan->network.PhyInfo.SignalStrength instead (has scaled) */
++	padapter->recvpriv.rssi = translate_percentage_to_dbm(ptarget_wlan->network.PhyInfo.SignalStrength);
++#if defined(DBG_RX_SIGNAL_DISPLAY_PROCESSING) && 1
++	RTW_INFO(FUNC_ADPT_FMT" signal_strength:%3u, rssi:%3d, signal_qual:%3u"
++		 "\n"
++		 , FUNC_ADPT_ARG(padapter)
++		 , padapter->recvpriv.signal_strength
++		 , padapter->recvpriv.rssi
++		 , padapter->recvpriv.signal_qual
++		);
++#endif
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	rtw_set_signal_stat_timer(&padapter->recvpriv);
++#endif
++
++	/* update fw_state */ /* will clr _FW_UNDER_LINKING here indirectly */
++
++	switch (pnetwork->network.InfrastructureMode) {
++	case Ndis802_11Infrastructure:
++
++		if (pmlmepriv->fw_state & WIFI_UNDER_WPS)
++			/*pmlmepriv->fw_state = WIFI_STATION_STATE|WIFI_UNDER_WPS;*/
++			init_fwstate(pmlmepriv, WIFI_STATION_STATE | WIFI_UNDER_WPS);
++		else
++			/*pmlmepriv->fw_state = WIFI_STATION_STATE;*/
++			init_fwstate(pmlmepriv, WIFI_STATION_STATE);
++		break;
++	case Ndis802_11IBSS:
++		/*pmlmepriv->fw_state = WIFI_ADHOC_STATE;*/
++		init_fwstate(pmlmepriv, WIFI_ADHOC_STATE);
++		break;
++	default:
++		/*pmlmepriv->fw_state = WIFI_NULL_STATE;*/
++		init_fwstate(pmlmepriv, WIFI_NULL_STATE);
++		break;
++	}
++
++	rtw_update_protection(padapter, (cur_network->network.IEs) + sizeof(NDIS_802_11_FIXED_IEs),
++			      (cur_network->network.IELength));
++
++#ifdef CONFIG_80211N_HT
++	rtw_update_ht_cap(padapter, cur_network->network.IEs, cur_network->network.IELength, (u8) cur_network->network.Configuration.DSConfig);
++#endif
++}
++
++/* Notes: the fucntion could be > passive_level (the same context as Rx tasklet)
++ * pnetwork : returns from rtw_joinbss_event_callback
++ * ptarget_wlan: found from scanned_queue
++ * if join_res > 0, for (fw_state==WIFI_STATION_STATE), we check if  "ptarget_sta" & "ptarget_wlan" exist.
++ * if join_res > 0, for (fw_state==WIFI_ADHOC_STATE), we only check if "ptarget_wlan" exist.
++ * if join_res > 0, update "cur_network->network" from "pnetwork->network" if (ptarget_wlan !=NULL).
++ */
++/* #define REJOIN */
++void rtw_joinbss_event_prehandle(_adapter *adapter, u8 *pbuf)
++{
++	_irqL irqL, irqL2;
++	static u8 retry = 0;
++	u8 timer_cancelled;
++	struct sta_info *ptarget_sta = NULL, *pcur_sta = NULL;
++	struct	sta_priv *pstapriv = &adapter->stapriv;
++	struct	mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++	struct wlan_network	*pnetwork	= (struct wlan_network *)pbuf;
++	struct wlan_network	*cur_network = &(pmlmepriv->cur_network);
++	struct wlan_network	*pcur_wlan = NULL, *ptarget_wlan = NULL;
++	unsigned int		the_same_macaddr = _FALSE;
++
++
++#ifdef CONFIG_RTL8712
++	/* endian_convert */
++	pnetwork->join_res = le32_to_cpu(pnetwork->join_res);
++	pnetwork->network_type = le32_to_cpu(pnetwork->network_type);
++	pnetwork->network.Length = le32_to_cpu(pnetwork->network.Length);
++	pnetwork->network.Ssid.SsidLength = le32_to_cpu(pnetwork->network.Ssid.SsidLength);
++	pnetwork->network.Privacy = le32_to_cpu(pnetwork->network.Privacy);
++	pnetwork->network.Rssi = le32_to_cpu(pnetwork->network.Rssi);
++	pnetwork->network.NetworkTypeInUse = le32_to_cpu(pnetwork->network.NetworkTypeInUse) ;
++	pnetwork->network.Configuration.ATIMWindow = le32_to_cpu(pnetwork->network.Configuration.ATIMWindow);
++	pnetwork->network.Configuration.BeaconPeriod = le32_to_cpu(pnetwork->network.Configuration.BeaconPeriod);
++	pnetwork->network.Configuration.DSConfig = le32_to_cpu(pnetwork->network.Configuration.DSConfig);
++	pnetwork->network.Configuration.FHConfig.DwellTime = le32_to_cpu(pnetwork->network.Configuration.FHConfig.DwellTime);
++	pnetwork->network.Configuration.FHConfig.HopPattern = le32_to_cpu(pnetwork->network.Configuration.FHConfig.HopPattern);
++	pnetwork->network.Configuration.FHConfig.HopSet = le32_to_cpu(pnetwork->network.Configuration.FHConfig.HopSet);
++	pnetwork->network.Configuration.FHConfig.Length = le32_to_cpu(pnetwork->network.Configuration.FHConfig.Length);
++	pnetwork->network.Configuration.Length = le32_to_cpu(pnetwork->network.Configuration.Length);
++	pnetwork->network.InfrastructureMode = le32_to_cpu(pnetwork->network.InfrastructureMode);
++	pnetwork->network.IELength = le32_to_cpu(pnetwork->network.IELength);
++#endif
++
++
++	rtw_get_encrypt_decrypt_from_registrypriv(adapter);
++
++
++
++	the_same_macaddr = _rtw_memcmp(pnetwork->network.MacAddress, cur_network->network.MacAddress, ETH_ALEN);
++
++	pnetwork->network.Length = get_WLAN_BSSID_EX_sz(&pnetwork->network);
++	if (pnetwork->network.Length > sizeof(WLAN_BSSID_EX)) {
++		goto ignore_joinbss_callback;
++	}
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	pmlmepriv->LinkDetectInfo.TrafficTransitionCount = 0;
++	pmlmepriv->LinkDetectInfo.LowPowerTransitionCount = 0;
++
++
++	if (pnetwork->join_res > 0) {
++		_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		retry = 0;
++		if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING)) {
++			/* s1. find ptarget_wlan */
++			if (check_fwstate(pmlmepriv, _FW_LINKED)) {
++				if (the_same_macaddr == _TRUE)
++					ptarget_wlan = rtw_find_network(&pmlmepriv->scanned_queue, cur_network->network.MacAddress);
++				else {
++					pcur_wlan = rtw_find_network(&pmlmepriv->scanned_queue, cur_network->network.MacAddress);
++					if (pcur_wlan)
++						pcur_wlan->fixed = _FALSE;
++
++					pcur_sta = rtw_get_stainfo(pstapriv, cur_network->network.MacAddress);
++					if (pcur_sta) {
++						/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL2); */
++						rtw_free_stainfo(adapter,  pcur_sta);
++						/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL2); */
++					}
++
++					ptarget_wlan = rtw_find_network(&pmlmepriv->scanned_queue, pnetwork->network.MacAddress);
++					if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE) {
++						if (ptarget_wlan)
++							ptarget_wlan->fixed = _TRUE;
++					}
++				}
++
++			} else {
++				ptarget_wlan = _rtw_find_same_network(&pmlmepriv->scanned_queue, pnetwork);
++				if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE) {
++					if (ptarget_wlan)
++						ptarget_wlan->fixed = _TRUE;
++				}
++			}
++
++			/* s2. update cur_network */
++			if (ptarget_wlan)
++				rtw_joinbss_update_network(adapter, ptarget_wlan, pnetwork);
++			else {
++				RTW_PRINT("Can't find ptarget_wlan when joinbss_event callback\n");
++				_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++				goto ignore_joinbss_callback;
++			}
++
++
++			/* s3. find ptarget_sta & update ptarget_sta after update cur_network only for station mode */
++			if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE) {
++				ptarget_sta = rtw_joinbss_update_stainfo(adapter, pnetwork);
++				if (ptarget_sta == NULL) {
++					RTW_ERR("Can't update stainfo when joinbss_event callback\n");
++					_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++					goto ignore_joinbss_callback;
++				}
++			}
++
++			/* s4. indicate connect			 */
++			if (MLME_IS_STA(adapter) || MLME_IS_ADHOC(adapter)) {
++				pmlmepriv->cur_network_scanned = ptarget_wlan;
++				rtw_indicate_connect(adapter);
++			}
++
++			/* s5. Cancle assoc_timer					 */
++			_cancel_timer(&pmlmepriv->assoc_timer, &timer_cancelled);
++
++
++		} else {
++			_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			goto ignore_joinbss_callback;
++		}
++
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	} else if (pnetwork->join_res == -4) {
++		rtw_reset_securitypriv(adapter);
++		_set_timer(&pmlmepriv->assoc_timer, 1);
++
++		/* rtw_free_assoc_resources(adapter, 1); */
++
++		if ((check_fwstate(pmlmepriv, _FW_UNDER_LINKING)) == _TRUE) {
++			_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++		}
++
++	} else { /* if join_res < 0 (join fails), then try again */
++
++#ifdef REJOIN
++		res = _FAIL;
++		if (retry < 2) {
++			res = rtw_select_and_join_from_scanned_queue(pmlmepriv);
++		}
++
++		if (res == _SUCCESS) {
++			/* extend time of assoc_timer */
++			_set_timer(&pmlmepriv->assoc_timer, MAX_JOIN_TIMEOUT);
++			retry++;
++		} else if (res == 2) { /* there is no need to wait for join */
++			_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++			rtw_indicate_connect(adapter);
++		} else {
++#endif
++
++			_set_timer(&pmlmepriv->assoc_timer, 1);
++			/* rtw_free_assoc_resources(adapter, 1); */
++			_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++
++#ifdef REJOIN
++			retry = 0;
++		}
++#endif
++	}
++
++ignore_joinbss_callback:
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++
++void rtw_joinbss_event_callback(_adapter *adapter, u8 *pbuf)
++{
++	struct wlan_network	*pnetwork	= (struct wlan_network *)pbuf;
++
++
++	mlmeext_joinbss_event_callback(adapter, pnetwork->join_res);
++
++	rtw_mi_os_xmit_schedule(adapter);
++
++}
++
++void rtw_sta_media_status_rpt(_adapter *adapter, struct sta_info *sta, bool connected)
++{
++	struct macid_ctl_t *macid_ctl = &adapter->dvobj->macid_ctl;
++	bool miracast_enabled = 0;
++	bool miracast_sink = 0;
++	u8 role = H2C_MSR_ROLE_RSVD;
++
++	if (sta == NULL) {
++		RTW_PRINT(FUNC_ADPT_FMT" sta is NULL\n"
++			  , FUNC_ADPT_ARG(adapter));
++		rtw_warn_on(1);
++		return;
++	}
++
++	if (sta->mac_id >= macid_ctl->num) {
++		RTW_PRINT(FUNC_ADPT_FMT" invalid macid:%u\n"
++			  , FUNC_ADPT_ARG(adapter), sta->mac_id);
++		rtw_warn_on(1);
++		return;
++	}
++
++	if (!rtw_macid_is_used(macid_ctl, sta->mac_id)) {
++		RTW_PRINT(FUNC_ADPT_FMT" macid:%u not is used, set connected to 0\n"
++			  , FUNC_ADPT_ARG(adapter), sta->mac_id);
++		connected = 0;
++		rtw_warn_on(1);
++	}
++
++	if (connected && !rtw_macid_is_bmc(macid_ctl, sta->mac_id)) {
++		miracast_enabled = STA_OP_WFD_MODE(sta) != 0 && is_miracast_enabled(adapter);
++		miracast_sink = miracast_enabled && (STA_OP_WFD_MODE(sta) & MIRACAST_SINK);
++
++#ifdef CONFIG_TDLS
++		if (sta->tdls_sta_state & TDLS_LINKED_STATE)
++			role = H2C_MSR_ROLE_TDLS;
++		else
++#endif
++			if (MLME_IS_STA(adapter)) {
++				if (MLME_IS_GC(adapter))
++					role = H2C_MSR_ROLE_GO;
++				else
++					role = H2C_MSR_ROLE_AP;
++			} else if (MLME_IS_AP(adapter)) {
++				if (MLME_IS_GO(adapter))
++					role = H2C_MSR_ROLE_GC;
++				else
++					role = H2C_MSR_ROLE_STA;
++			} else if (MLME_IS_ADHOC(adapter) || MLME_IS_ADHOC_MASTER(adapter))
++				role = H2C_MSR_ROLE_ADHOC;
++
++#ifdef CONFIG_WFD
++		if (role == H2C_MSR_ROLE_GC
++		    || role == H2C_MSR_ROLE_GO
++		    || role == H2C_MSR_ROLE_TDLS
++		   ) {
++			if (adapter->wfd_info.rtsp_ctrlport
++			    || adapter->wfd_info.tdls_rtsp_ctrlport
++			    || adapter->wfd_info.peer_rtsp_ctrlport)
++				rtw_wfd_st_switch(sta, 1);
++		}
++#endif
++	}
++
++	rtw_hal_set_FwMediaStatusRpt_single_cmd(adapter
++						, connected
++						, miracast_enabled
++						, miracast_sink
++						, role
++						, sta->mac_id
++					       );
++}
++
++u8 rtw_sta_media_status_rpt_cmd(_adapter *adapter, struct sta_info *sta, bool connected)
++{
++	struct cmd_priv	*cmdpriv = &adapter->cmdpriv;
++	struct cmd_obj *cmdobj;
++	struct drvextra_cmd_parm *cmd_parm;
++	struct sta_media_status_rpt_cmd_parm *rpt_parm;
++	u8	res = _SUCCESS;
++
++	cmdobj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (cmdobj == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (cmd_parm == NULL) {
++		rtw_mfree((u8 *)cmdobj, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	rpt_parm = (struct sta_media_status_rpt_cmd_parm *)rtw_zmalloc(sizeof(struct sta_media_status_rpt_cmd_parm));
++	if (rpt_parm == NULL) {
++		rtw_mfree((u8 *)cmdobj, sizeof(struct cmd_obj));
++		rtw_mfree((u8 *)cmd_parm, sizeof(struct drvextra_cmd_parm));
++		res = _FAIL;
++		goto exit;
++	}
++
++	rpt_parm->sta = sta;
++	rpt_parm->connected = connected;
++
++	cmd_parm->ec_id = STA_MSTATUS_RPT_WK_CID;
++	cmd_parm->type = 0;
++	cmd_parm->size = sizeof(struct sta_media_status_rpt_cmd_parm);
++	cmd_parm->pbuf = (u8 *)rpt_parm;
++	init_h2fwcmd_w_parm_no_rsp(cmdobj, cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(cmdpriv, cmdobj);
++
++exit:
++	return res;
++}
++
++inline void rtw_sta_media_status_rpt_cmd_hdl(_adapter *adapter, struct sta_media_status_rpt_cmd_parm *parm)
++{
++	rtw_sta_media_status_rpt(adapter, parm->sta, parm->connected);
++}
++
++void rtw_stassoc_event_callback(_adapter *adapter, u8 *pbuf)
++{
++	_irqL irqL;
++	struct sta_info *psta;
++	struct mlme_priv *pmlmepriv = &(adapter->mlmepriv);
++	struct stassoc_event	*pstassoc	= (struct stassoc_event *)pbuf;
++	struct wlan_network	*cur_network = &(pmlmepriv->cur_network);
++	struct wlan_network	*ptarget_wlan = NULL;
++
++
++#if CONFIG_RTW_MACADDR_ACL
++	if (rtw_access_ctrl(adapter, pstassoc->macaddr) == _FALSE)
++		return;
++#endif
++
++#if defined(CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++		psta = rtw_get_stainfo(&adapter->stapriv, pstassoc->macaddr);
++		if (psta) {
++			u8 *passoc_req = NULL;
++			u32 assoc_req_len = 0;
++
++			rtw_sta_media_status_rpt(adapter, psta, 1);
++
++#ifndef CONFIG_AUTO_AP_MODE
++
++			ap_sta_info_defer_update(adapter, psta);
++
++			/* report to upper layer */
++			RTW_INFO("indicate_sta_assoc_event to upper layer - hostapd\n");
++#ifdef CONFIG_IOCTL_CFG80211
++			_enter_critical_bh(&psta->lock, &irqL);
++			if (psta->passoc_req && psta->assoc_req_len > 0) {
++				passoc_req = rtw_zmalloc(psta->assoc_req_len);
++				if (passoc_req) {
++					assoc_req_len = psta->assoc_req_len;
++					_rtw_memcpy(passoc_req, psta->passoc_req, assoc_req_len);
++
++					rtw_mfree(psta->passoc_req , psta->assoc_req_len);
++					psta->passoc_req = NULL;
++					psta->assoc_req_len = 0;
++				}
++			}
++			_exit_critical_bh(&psta->lock, &irqL);
++
++			if (passoc_req && assoc_req_len > 0) {
++				rtw_cfg80211_indicate_sta_assoc(adapter, passoc_req, assoc_req_len);
++
++				rtw_mfree(passoc_req, assoc_req_len);
++			}
++#else /* !CONFIG_IOCTL_CFG80211	 */
++			rtw_indicate_sta_assoc_event(adapter, psta);
++#endif /* !CONFIG_IOCTL_CFG80211 */
++#endif /* !CONFIG_AUTO_AP_MODE */
++
++#ifdef CONFIG_BEAMFORMING
++			beamforming_wk_cmd(adapter, BEAMFORMING_CTRL_ENTER, (u8 *)psta, sizeof(struct sta_info), 0);
++#endif/*CONFIG_BEAMFORMING*/
++			if (is_wep_enc(adapter->securitypriv.dot11PrivacyAlgrthm))
++				rtw_ap_wep_pk_setting(adapter, psta);
++
++			rtw_mi_update_iface_status(pmlmepriv, WIFI_AP_STATE);
++		}
++		goto exit;
++	}
++#endif /* defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++
++	/* for AD-HOC mode */
++	psta = rtw_get_stainfo(&adapter->stapriv, pstassoc->macaddr);
++	if (psta == NULL) {
++		RTW_ERR(FUNC_ADPT_FMT" get no sta_info with "MAC_FMT"\n"
++			, FUNC_ADPT_ARG(adapter), MAC_ARG(pstassoc->macaddr));
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	rtw_hal_set_odm_var(adapter, HAL_ODM_STA_INFO, psta, _TRUE);
++
++	rtw_sta_media_status_rpt(adapter, psta, 1);
++
++	if (adapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X)
++		psta->dot118021XPrivacy = adapter->securitypriv.dot11PrivacyAlgrthm;
++
++
++	psta->ieee8021x_blocked = _FALSE;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) ||
++	    (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE)) {
++		if (adapter->stapriv.asoc_sta_count == 2) {
++			_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			ptarget_wlan = rtw_find_network(&pmlmepriv->scanned_queue, cur_network->network.MacAddress);
++			pmlmepriv->cur_network_scanned = ptarget_wlan;
++			if (ptarget_wlan)
++				ptarget_wlan->fixed = _TRUE;
++			_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			/* a sta + bc/mc_stainfo (not Ibss_stainfo) */
++			rtw_indicate_connect(adapter);
++		}
++	}
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++	mlmeext_sta_add_event_callback(adapter, psta);
++
++#ifdef CONFIG_RTL8711
++	/* submit SetStaKey_cmd to tell fw, fw will allocate an CAM entry for this sta	 */
++	rtw_setstakey_cmd(adapter, psta, GROUP_KEY, _TRUE);
++#endif
++
++exit:
++	return;
++}
++
++#ifdef CONFIG_IEEE80211W
++void rtw_sta_timeout_event_callback(_adapter *adapter, u8 *pbuf)
++{
++	_irqL irqL;
++	struct sta_info *psta;
++	struct stadel_event *pstadel = (struct stadel_event *)pbuf;
++	struct sta_priv *pstapriv = &adapter->stapriv;
++
++
++	psta = rtw_get_stainfo(&adapter->stapriv, pstadel->macaddr);
++
++	if (psta) {
++		u8 updated = _FALSE;
++
++		_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++		if (rtw_is_list_empty(&psta->asoc_list) == _FALSE) {
++			rtw_list_delete(&psta->asoc_list);
++			pstapriv->asoc_list_cnt--;
++			updated = ap_free_sta(adapter, psta, _TRUE, WLAN_REASON_PREV_AUTH_NOT_VALID, _TRUE);
++		}
++		_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++		associated_clients_update(adapter, updated, STA_INFO_UPDATE_ALL);
++	}
++
++
++
++}
++#endif /* CONFIG_IEEE80211W */
++
++#ifdef CONFIG_RTW_80211R
++void rtw_update_ft_stainfo(_adapter *padapter, WLAN_BSSID_EX *pnetwork)
++{
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct sta_info		*psta = NULL;
++
++	psta = rtw_get_stainfo(pstapriv, pnetwork->MacAddress);
++	if (psta == NULL)
++		psta = rtw_alloc_stainfo(pstapriv, pnetwork->MacAddress);
++
++	if (padapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X) {
++
++		padapter->securitypriv.binstallGrpkey = _FALSE;
++		padapter->securitypriv.busetkipkey = _FALSE;
++		padapter->securitypriv.bgrpkey_handshake = _FALSE;
++
++		psta->ieee8021x_blocked = _TRUE;
++		psta->dot118021XPrivacy = padapter->securitypriv.dot11PrivacyAlgrthm;
++		psta->dot11txpn.val = psta->dot11txpn.val + 1;
++
++		_rtw_memset((u8 *)&psta->dot118021x_UncstKey, 0, sizeof(union Keytype));
++		_rtw_memset((u8 *)&psta->dot11tkiprxmickey, 0, sizeof(union Keytype));
++		_rtw_memset((u8 *)&psta->dot11tkiptxmickey, 0, sizeof(union Keytype));
++		_rtw_memset((u8 *)&psta->dot11txpn, 0, sizeof(union pn48));
++#ifdef CONFIG_IEEE80211W
++		_rtw_memset((u8 *)&psta->dot11wtxpn, 0, sizeof(union pn48));
++#endif
++		_rtw_memset((u8 *)&psta->dot11rxpn, 0, sizeof(union pn48));
++	}
++
++}
++
++void rtw_ft_reassoc_event_callback(_adapter *padapter, u8 *pbuf)
++{
++	struct mlme_priv		*pmlmepriv = &(padapter->mlmepriv);
++	struct stassoc_event	*pstassoc = (struct stassoc_event *)pbuf;
++	ft_priv	*pftpriv = &pmlmepriv->ftpriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++	struct cfg80211_ft_event_params ft_evt_parms;
++	_irqL irqL;
++
++	_rtw_memset(&ft_evt_parms, 0, sizeof(ft_evt_parms));
++	rtw_update_ft_stainfo(padapter, pnetwork);
++	ft_evt_parms.ies_len = pftpriv->ft_event.ies_len;
++	ft_evt_parms.ies =  rtw_zmalloc(ft_evt_parms.ies_len);
++	if (ft_evt_parms.ies)
++		_rtw_memcpy((void *)ft_evt_parms.ies, pftpriv->ft_event.ies, ft_evt_parms.ies_len);
++	 else
++		goto err_2;
++
++	ft_evt_parms.target_ap = rtw_zmalloc(ETH_ALEN);
++	if (ft_evt_parms.target_ap)
++		_rtw_memcpy((void *)ft_evt_parms.target_ap, pstassoc->macaddr, ETH_ALEN);
++	else
++		goto err_1;
++
++	ft_evt_parms.ric_ies = pftpriv->ft_event.ric_ies;
++	ft_evt_parms.ric_ies_len = pftpriv->ft_event.ric_ies_len;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	rtw_set_ft_status(padapter, RTW_FT_AUTHENTICATED_STA);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++	rtw_cfg80211_ft_event(padapter, &ft_evt_parms);
++	RTW_INFO("%s: to "MAC_FMT"\n", __func__, MAC_ARG(ft_evt_parms.target_ap));
++
++	rtw_mfree((u8 *)pftpriv->ft_event.target_ap, ETH_ALEN);
++err_1:
++	rtw_mfree((u8 *)ft_evt_parms.ies, ft_evt_parms.ies_len);
++err_2:
++	return;
++}
++#endif
++
++void rtw_sta_mstatus_disc_rpt(_adapter *adapter, u8 mac_id)
++{
++	struct macid_ctl_t *macid_ctl = &adapter->dvobj->macid_ctl;
++
++	RTW_INFO("%s "ADPT_FMT" - mac_id=%d\n", __func__, ADPT_ARG(adapter), mac_id);
++
++	if (mac_id >= 0 && mac_id < macid_ctl->num) {
++		rtw_hal_set_FwMediaStatusRpt_single_cmd(adapter, 0, 0, 0, 0, mac_id);
++		/*
++		 * For safety, prevent from keeping macid sleep.
++		 * If we can sure all power mode enter/leave are paired,
++		 * this check can be removed.
++		 * Lucas@20131113
++		 */
++		/* wakeup macid after disconnect. */
++		/*if (MLME_IS_STA(adapter))*/
++		rtw_hal_macid_wakeup(adapter, mac_id);
++	} else {
++		RTW_PRINT(FUNC_ADPT_FMT" invalid macid:%u\n"
++			  , FUNC_ADPT_ARG(adapter), mac_id);
++		rtw_warn_on(1);
++	}
++}
++void rtw_sta_mstatus_report(_adapter *adapter)
++{
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct wlan_network *tgt_network = &pmlmepriv->cur_network;
++	struct sta_info *psta = NULL;
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++		psta = rtw_get_stainfo(&adapter->stapriv, tgt_network->network.MacAddress);
++		if (psta)
++			rtw_sta_mstatus_disc_rpt(adapter, psta->mac_id);
++		else {
++			RTW_INFO("%s "ADPT_FMT" - mac_addr: "MAC_FMT" psta == NULL\n", __func__, ADPT_ARG(adapter), MAC_ARG(tgt_network->network.MacAddress));
++			rtw_warn_on(1);
++		}
++	}
++}
++
++void rtw_stadel_event_callback(_adapter *adapter, u8 *pbuf)
++{
++	_irqL irqL, irqL2;
++
++	struct sta_info *psta;
++	struct wlan_network *pwlan = NULL;
++	WLAN_BSSID_EX    *pdev_network = NULL;
++	u8 *pibss = NULL;
++	struct	mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++	struct	stadel_event *pstadel	= (struct stadel_event *)pbuf;
++	struct	sta_priv *pstapriv = &adapter->stapriv;
++	struct wlan_network *tgt_network = &(pmlmepriv->cur_network);
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++
++	RTW_INFO("%s(mac_id=%d)=" MAC_FMT "\n", __func__, pstadel->mac_id, MAC_ARG(pstadel->macaddr));
++	rtw_sta_mstatus_disc_rpt(adapter, pstadel->mac_id);
++
++	psta = rtw_get_stainfo(&adapter->stapriv, pstadel->macaddr);
++
++	if (psta == NULL) {
++		RTW_INFO("%s(mac_id=%d)=" MAC_FMT " psta == NULL\n", __func__, pstadel->mac_id, MAC_ARG(pstadel->macaddr));
++		/*rtw_warn_on(1);*/
++	}
++
++	if (psta)
++		rtw_wfd_st_switch(psta, 0);
++
++	/* if(check_fwstate(pmlmepriv, WIFI_AP_STATE)) */
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) {
++#ifdef CONFIG_IOCTL_CFG80211
++#ifdef COMPAT_KERNEL_RELEASE
++
++#elif (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 37)) || defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++		rtw_cfg80211_indicate_sta_disassoc(adapter, pstadel->macaddr, *(u16 *)pstadel->rsvd);
++#endif /* (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 37)) || defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER) */
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++		return;
++	}
++
++	mlmeext_sta_del_event_callback(adapter);
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL2);
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++		u16 reason = *((unsigned short *)(pstadel->rsvd));
++		bool roam = _FALSE;
++		struct wlan_network *roam_target = NULL;
++
++#ifdef CONFIG_LAYER2_ROAMING
++#ifdef CONFIG_RTW_80211R
++		if (reason == WLAN_REASON_EXPIRATION_CHK && rtw_chk_roam_flags(adapter, RTW_ROAM_ON_EXPIRED))
++			pmlmepriv->ftpriv.ft_roam_on_expired = _TRUE;
++		else
++			pmlmepriv->ftpriv.ft_roam_on_expired = _FALSE;
++#endif
++		if (adapter->registrypriv.wifi_spec == 1)
++			roam = _FALSE;
++		else if (reason == WLAN_REASON_EXPIRATION_CHK && rtw_chk_roam_flags(adapter, RTW_ROAM_ON_EXPIRED))
++			roam = _TRUE;
++		else if (reason == WLAN_REASON_ACTIVE_ROAM && rtw_chk_roam_flags(adapter, RTW_ROAM_ACTIVE)) {
++			roam = _TRUE;
++			roam_target = pmlmepriv->roam_network;
++		}
++#ifdef CONFIG_INTEL_WIDI
++		else if (adapter->mlmepriv.widi_state == INTEL_WIDI_STATE_CONNECTED)
++			roam = _TRUE;
++#endif /* CONFIG_INTEL_WIDI */
++
++		if (roam == _TRUE) {
++			if (rtw_to_roam(adapter) > 0)
++				rtw_dec_to_roam(adapter); /* this stadel_event is caused by roaming, decrease to_roam */
++			else if (rtw_to_roam(adapter) == 0)
++				rtw_set_to_roam(adapter, adapter->registrypriv.max_roaming_times);
++		} else
++			rtw_set_to_roam(adapter, 0);
++#endif /* CONFIG_LAYER2_ROAMING */
++
++		rtw_free_uc_swdec_pending_queue(adapter);
++
++		rtw_free_assoc_resources(adapter, 1);
++		rtw_free_mlme_priv_ie_data(pmlmepriv);
++
++		_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		/* remove the network entry in scanned_queue */
++		pwlan = rtw_find_network(&pmlmepriv->scanned_queue, tgt_network->network.MacAddress);
++		if ((pwlan)  && (!check_fwstate(pmlmepriv, WIFI_UNDER_WPS))) {
++			pwlan->fixed = _FALSE;
++			rtw_free_network_nolock(adapter, pwlan);
++		}
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++		rtw_indicate_disconnect(adapter, *(u16 *)pstadel->rsvd, pstadel->locally_generated);
++#ifdef CONFIG_INTEL_WIDI
++		if (!rtw_to_roam(adapter))
++			process_intel_widi_disconnect(adapter, 1);
++#endif /* CONFIG_INTEL_WIDI */
++
++		_rtw_roaming(adapter, roam_target);
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) ||
++	    check_fwstate(pmlmepriv, WIFI_ADHOC_STATE)) {
++
++		/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL); */
++		rtw_free_stainfo(adapter,  psta);
++		/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL); */
++
++		if (adapter->stapriv.asoc_sta_count == 1) { /* a sta + bc/mc_stainfo (not Ibss_stainfo) */
++			/* rtw_indicate_disconnect(adapter); */ /* removed@20091105 */
++			_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			/* free old ibss network */
++			/* pwlan = rtw_find_network(&pmlmepriv->scanned_queue, pstadel->macaddr); */
++			pwlan = rtw_find_network(&pmlmepriv->scanned_queue, tgt_network->network.MacAddress);
++			if (pwlan) {
++				pwlan->fixed = _FALSE;
++				rtw_free_network_nolock(adapter, pwlan);
++			}
++			_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			/* re-create ibss */
++			pdev_network = &(adapter->registrypriv.dev_network);
++			pibss = adapter->registrypriv.dev_network.MacAddress;
++
++			_rtw_memcpy(pdev_network, &tgt_network->network, get_WLAN_BSSID_EX_sz(&tgt_network->network));
++
++			_rtw_memset(&pdev_network->Ssid, 0, sizeof(NDIS_802_11_SSID));
++			_rtw_memcpy(&pdev_network->Ssid, &pmlmepriv->assoc_ssid, sizeof(NDIS_802_11_SSID));
++
++			rtw_update_registrypriv_dev_network(adapter);
++
++			rtw_generate_random_ibss(pibss);
++
++			if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE)) {
++				set_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++				_clr_fwstate_(pmlmepriv, WIFI_ADHOC_STATE);
++			}
++
++			if (rtw_create_ibss_cmd(adapter, 0) != _SUCCESS)
++				RTW_ERR("rtw_create_ibss_cmd FAIL\n");
++
++		}
++
++	}
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL2);
++
++
++}
++
++
++void rtw_cpwm_event_callback(PADAPTER padapter, u8 *pbuf)
++{
++#ifdef CONFIG_LPS_LCLK
++	struct reportpwrstate_parm *preportpwrstate;
++#endif
++
++
++#ifdef CONFIG_LPS_LCLK
++	preportpwrstate = (struct reportpwrstate_parm *)pbuf;
++	preportpwrstate->state |= (u8)(adapter_to_pwrctl(padapter)->cpwm_tog + 0x80);
++	cpwm_int_hdl(padapter, preportpwrstate);
++#endif
++
++
++}
++
++
++void rtw_wmm_event_callback(PADAPTER padapter, u8 *pbuf)
++{
++
++	WMMOnAssocRsp(padapter);
++
++
++}
++
++/*
++* _rtw_join_timeout_handler - Timeout/faliure handler for CMD JoinBss
++* @adapter: pointer to _adapter structure
++*/
++void _rtw_join_timeout_handler(_adapter *adapter)
++{
++	_irqL irqL;
++	struct	mlme_priv *pmlmepriv = &adapter->mlmepriv;
++
++#if 0
++	if (rtw_is_drv_stopped(adapter)) {
++		_rtw_up_sema(&pmlmepriv->assoc_terminate);
++		return;
++	}
++#endif
++
++
++
++	RTW_INFO("%s, fw_state=%x\n", __FUNCTION__, get_fwstate(pmlmepriv));
++
++	if (RTW_CANNOT_RUN(adapter))
++		return;
++
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++#ifdef CONFIG_LAYER2_ROAMING
++	if (rtw_to_roam(adapter) > 0) { /* join timeout caused by roaming */
++		while (1) {
++			rtw_dec_to_roam(adapter);
++			if (rtw_to_roam(adapter) != 0) { /* try another */
++				int do_join_r;
++				RTW_INFO("%s try another roaming\n", __FUNCTION__);
++				do_join_r = rtw_do_join(adapter);
++				if (_SUCCESS != do_join_r) {
++					RTW_INFO("%s roaming do_join return %d\n", __FUNCTION__ , do_join_r);
++					continue;
++				}
++				break;
++			} else {
++#ifdef CONFIG_INTEL_WIDI
++				if (adapter->mlmepriv.widi_state == INTEL_WIDI_STATE_ROAMING) {
++					_rtw_memset(pmlmepriv->sa_ext, 0x00, L2SDTA_SERVICE_VE_LEN);
++					intel_widi_wk_cmd(adapter, INTEL_WIDI_LISTEN_WK, NULL, 0);
++					RTW_INFO("change to widi listen\n");
++				}
++#endif /* CONFIG_INTEL_WIDI */
++				RTW_INFO("%s We've try roaming but fail\n", __FUNCTION__);
++#ifdef CONFIG_RTW_80211R
++				rtw_clr_ft_flags(adapter, RTW_FT_SUPPORTED|RTW_FT_OVER_DS_SUPPORTED);
++				rtw_reset_ft_status(adapter);
++#endif
++				rtw_indicate_disconnect(adapter, 0, _FALSE);
++				break;
++			}
++		}
++
++	} else
++#endif
++	{
++		rtw_indicate_disconnect(adapter, 0, _FALSE);
++		free_scanqueue(pmlmepriv);/* ??? */
++
++#ifdef CONFIG_IOCTL_CFG80211
++		/* indicate disconnect for the case that join_timeout and check_fwstate != FW_LINKED */
++		rtw_cfg80211_indicate_disconnect(adapter, 0, _FALSE);
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	}
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++#ifdef CONFIG_DRVEXT_MODULE_WSC
++	drvext_assoc_fail_indicate(&adapter->drvextpriv);
++#endif
++
++
++
++}
++
++/*
++* rtw_scan_timeout_handler - Timeout/Faliure handler for CMD SiteSurvey
++* @adapter: pointer to _adapter structure
++*/
++void rtw_scan_timeout_handler(_adapter *adapter)
++{
++	_irqL irqL;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	RTW_INFO(FUNC_ADPT_FMT" fw_state=%x\n", FUNC_ADPT_ARG(adapter), get_fwstate(pmlmepriv));
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	_clr_fwstate_(pmlmepriv, _FW_UNDER_SURVEY);
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_cfg80211_surveydone_event_callback(adapter);
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	rtw_indicate_scan_done(adapter, _TRUE);
++#ifdef CONFIG_CONCURRENT_MODE
++	rtw_mi_buddy_indicate_scan_done(adapter, _TRUE);/*scanning_via_buddy_intf */
++#endif
++}
++
++void rtw_mlme_reset_auto_scan_int(_adapter *adapter, u8 *reason)
++{
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 u_ch;
++	u32 interval_ms = 0xffffffff; /* 0xffffffff: special value to make min() works well, also means no auto scan */
++
++	*reason = RTW_AUTO_SCAN_REASON_UNSPECIFIED;
++	rtw_mi_get_ch_setting_union(adapter, &u_ch, NULL, NULL);
++
++	if (hal_chk_bw_cap(adapter, BW_CAP_40M)
++	    && is_client_associated_to_ap(adapter) == _TRUE
++	    && u_ch >= 1 && u_ch <= 14
++	    && adapter->registrypriv.wifi_spec
++	    /* TODO: AP Connected is 40MHz capability? */
++	   ) {
++		interval_ms = rtw_min(interval_ms, 60 * 1000);
++		*reason |= RTW_AUTO_SCAN_REASON_2040_BSS;
++	}
++
++exit:
++	if (interval_ms == 0xffffffff)
++		interval_ms = 0;
++
++	rtw_mlme_set_auto_scan_int(adapter, interval_ms);
++	return;
++}
++
++void rtw_drv_scan_by_self(_adapter *padapter, u8 reason)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct rtw_ieee80211_channel ch_for_2040_bss[14] = {
++		{1, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{2, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{3, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{4, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{5, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{6, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{7, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{8, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{9, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{10, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{11, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{12, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{13, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{14, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++	};
++	struct rtw_ieee80211_channel *ch_sel = NULL;
++	int ch_num = 0;
++
++	if (rtw_is_scan_deny(padapter))
++		goto exit;
++
++	if (!rtw_is_adapter_up(padapter))
++		goto exit;
++
++	if (rtw_mi_busy_traffic_check(padapter, _FALSE)) {
++#ifdef CONFIG_LAYER2_ROAMING
++		if (rtw_chk_roam_flags(padapter, RTW_ROAM_ACTIVE) && pmlmepriv->need_to_roam == _TRUE) {
++			RTW_INFO("need to roam, don't care BusyTraffic\n");
++		} else
++#endif
++		{
++			RTW_INFO(FUNC_ADPT_FMT" exit BusyTraffic\n", FUNC_ADPT_ARG(padapter));
++			goto exit;
++		}
++	}
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) && check_fwstate(pmlmepriv, WIFI_UNDER_WPS)) {
++		RTW_INFO(FUNC_ADPT_FMT" WIFI_AP_STATE && WIFI_UNDER_WPS\n", FUNC_ADPT_ARG(padapter));
++		goto exit;
++	}
++	if (check_fwstate(pmlmepriv, (_FW_UNDER_SURVEY | _FW_UNDER_LINKING)) == _TRUE) {
++		RTW_INFO(FUNC_ADPT_FMT" _FW_UNDER_SURVEY|_FW_UNDER_LINKING\n", FUNC_ADPT_ARG(padapter));
++		goto exit;
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_buddy_check_fwstate(padapter, (_FW_UNDER_SURVEY | _FW_UNDER_LINKING | WIFI_UNDER_WPS))) {
++		RTW_INFO(FUNC_ADPT_FMT", but buddy_intf is under scanning or linking or wps_phase\n", FUNC_ADPT_ARG(padapter));
++		goto exit;
++	}
++#endif
++
++	RTW_INFO(FUNC_ADPT_FMT" reason:0x%02x\n", FUNC_ADPT_ARG(padapter), reason);
++
++	/* only for 20/40 BSS */
++	if (reason == RTW_AUTO_SCAN_REASON_2040_BSS) {
++		ch_sel = ch_for_2040_bss;
++		ch_num = 14;
++	}
++
++	rtw_set_802_11_bssid_list_scan(padapter, NULL, 0, ch_sel, ch_num);
++exit:
++	return;
++}
++
++static void rtw_auto_scan_handler(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	u8 reason = RTW_AUTO_SCAN_REASON_UNSPECIFIED;
++
++	rtw_mlme_reset_auto_scan_int(padapter, &reason);
++
++#ifdef CONFIG_P2P
++	if (!rtw_p2p_chk_state(&padapter->wdinfo, P2P_STATE_NONE))
++		goto exit;
++#endif
++
++#ifdef CONFIG_TDLS
++	if (padapter->tdlsinfo.link_established == _TRUE)
++		goto exit;
++#endif
++
++	if (pmlmepriv->auto_scan_int_ms == 0
++	    || rtw_get_passing_time_ms(pmlmepriv->scan_start_time) < pmlmepriv->auto_scan_int_ms)
++		goto exit;
++
++	rtw_drv_scan_by_self(padapter, reason);
++
++exit:
++	return;
++}
++
++void rtw_dynamic_check_timer_handlder(_adapter *adapter)
++{
++#ifdef CONFIG_AP_MODE
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++#endif /* CONFIG_AP_MODE */
++	struct registry_priv *pregistrypriv = &adapter->registrypriv;
++
++	if (!adapter)
++		return;
++
++	if (!rtw_is_hw_init_completed(adapter))
++		return;
++
++	if (RTW_CANNOT_RUN(adapter))
++		return;
++
++	if (adapter->net_closed == _TRUE)
++		return;
++
++#ifdef CONFIG_LPS_LCLK_WD_TIMER /* to avoid leaving lps 32k frequently*/
++	if ((adapter_to_pwrctl(adapter)->bFwCurrentInPSMode == _TRUE)
++#ifdef CONFIG_BT_COEXIST
++	    && (rtw_btcoex_IsBtControlLps(adapter) == _FALSE)
++#endif
++	   ) {
++		u8 bEnterPS;
++
++		linked_status_chk(adapter, 1);
++
++		bEnterPS = traffic_status_watchdog(adapter, 1);
++		if (bEnterPS) {
++			/* rtw_lps_ctrl_wk_cmd(adapter, LPS_CTRL_ENTER, 1); */
++			rtw_hal_dm_watchdog_in_lps(adapter);
++		} else {
++			/* call rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_LEAVE, 1) in traffic_status_watchdog() */
++		}
++
++	} else
++#endif /* CONFIG_LPS_LCLK_WD_TIMER	 */
++	{
++		if (is_primary_adapter(adapter))
++			rtw_dynamic_chk_wk_cmd(adapter);
++	}
++
++	/* auto site survey */
++	rtw_auto_scan_handler(adapter);
++
++#ifndef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++#ifdef CONFIG_AP_MODE
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		expire_timeout_chk(adapter);
++#endif
++#endif /* !CONFIG_ACTIVE_KEEP_ALIVE_CHECK */
++
++#ifdef CONFIG_BR_EXT
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
++	rcu_read_lock();
++#endif /* (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35)) */
++
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++	if (adapter->pnetdev->br_port
++#else	/* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++	if (rcu_dereference(adapter->pnetdev->rx_handler_data)
++#endif /* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++	    && (check_fwstate(pmlmepriv, WIFI_STATION_STATE | WIFI_ADHOC_STATE) == _TRUE)) {
++		/* expire NAT2.5 entry */
++		void nat25_db_expire(_adapter *priv);
++		nat25_db_expire(adapter);
++
++		if (adapter->pppoe_connection_in_progress > 0)
++			adapter->pppoe_connection_in_progress--;
++
++		/* due to rtw_dynamic_check_timer_handlder() is called every 2 seconds */
++		if (adapter->pppoe_connection_in_progress > 0)
++			adapter->pppoe_connection_in_progress--;
++	}
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
++	rcu_read_unlock();
++#endif /* (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35)) */
++
++#endif /* CONFIG_BR_EXT */
++
++}
++
++
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++inline bool rtw_is_scan_deny(_adapter *adapter)
++{
++	struct mlme_priv *mlmepriv = &adapter->mlmepriv;
++	return (ATOMIC_READ(&mlmepriv->set_scan_deny) != 0) ? _TRUE : _FALSE;
++}
++
++inline void rtw_clear_scan_deny(_adapter *adapter)
++{
++	struct mlme_priv *mlmepriv = &adapter->mlmepriv;
++	ATOMIC_SET(&mlmepriv->set_scan_deny, 0);
++	if (0)
++		RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(adapter));
++}
++
++void rtw_set_scan_deny_timer_hdl(_adapter *adapter)
++{
++	rtw_clear_scan_deny(adapter);
++}
++void rtw_set_scan_deny(_adapter *adapter, u32 ms)
++{
++	struct mlme_priv *mlmepriv = &adapter->mlmepriv;
++	if (0)
++		RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(adapter));
++	ATOMIC_SET(&mlmepriv->set_scan_deny, 1);
++	_set_timer(&mlmepriv->set_scan_deny_timer, ms);
++}
++#endif
++
++#ifdef CONFIG_LAYER2_ROAMING
++/*
++* Select a new roaming candidate from the original @param candidate and @param competitor
++* @return _TRUE: candidate is updated
++* @return _FALSE: candidate is not updated
++*/
++static int rtw_check_roaming_candidate(struct mlme_priv *mlme
++	, struct wlan_network **candidate, struct wlan_network *competitor)
++{
++	int updated = _FALSE;
++	_adapter *adapter = container_of(mlme, _adapter, mlmepriv);
++#ifdef CONFIG_RTW_80211R
++	ft_priv *pftpriv = &mlme->ftpriv;
++	u32 mdie_len = 0;
++	u8 *ptmp = NULL;
++#endif
++
++
++	if (is_same_ess(&competitor->network, &mlme->cur_network.network) == _FALSE)
++		goto exit;
++
++	if (rtw_is_desired_network(adapter, competitor) == _FALSE)
++		goto exit;
++
++#ifdef CONFIG_LAYER2_ROAMING
++	if (mlme->need_to_roam == _FALSE)
++		goto exit;
++#endif
++
++#ifdef CONFIG_RTW_80211R
++	if (rtw_chk_ft_flags(adapter, RTW_FT_SUPPORTED)) {
++		ptmp = rtw_get_ie(&competitor->network.IEs[12], _MDIE_, &mdie_len, competitor->network.IELength-12);
++		if (ptmp) {
++			if (!_rtw_memcmp(&pftpriv->mdid, ptmp+2, 2))
++				goto exit;
++
++			/*The candidate don't support over-the-DS*/
++			if (rtw_chk_ft_flags(adapter, RTW_FT_STA_OVER_DS_SUPPORTED)) {
++				if ((rtw_chk_ft_flags(adapter, RTW_FT_OVER_DS_SUPPORTED) && !(*(ptmp+4) & 0x01)) ||
++					(!rtw_chk_ft_flags(adapter, RTW_FT_OVER_DS_SUPPORTED) && (*(ptmp+4) & 0x01))) {
++					RTW_INFO("FT: ignore the candidate(" MAC_FMT ") for over-the-DS\n", MAC_ARG(competitor->network.MacAddress));
++					rtw_clr_ft_flags(adapter, RTW_FT_OVER_DS_SUPPORTED);
++					goto exit;
++				}
++			}
++		} else
++			goto exit;
++	}
++#endif
++
++	RTW_INFO("roam candidate:%s %s("MAC_FMT", ch%3u) rssi:%d, age:%5d\n",
++		 (competitor == mlme->cur_network_scanned) ? "*" : " " ,
++		 competitor->network.Ssid.Ssid,
++		 MAC_ARG(competitor->network.MacAddress),
++		 competitor->network.Configuration.DSConfig,
++		 (int)competitor->network.Rssi,
++		 rtw_get_passing_time_ms(competitor->last_scanned)
++		);
++
++	/* got specific addr to roam */
++	if (!is_zero_mac_addr(mlme->roam_tgt_addr)) {
++		if (_rtw_memcmp(mlme->roam_tgt_addr, competitor->network.MacAddress, ETH_ALEN) == _TRUE)
++			goto update;
++		else
++			goto exit;
++	}
++#if 1
++	if (rtw_get_passing_time_ms((u32)competitor->last_scanned) >= mlme->roam_scanr_exp_ms)
++		goto exit;
++
++	if (competitor->network.Rssi - mlme->cur_network_scanned->network.Rssi < mlme->roam_rssi_diff_th)
++		goto exit;
++
++	if (*candidate != NULL && (*candidate)->network.Rssi >= competitor->network.Rssi)
++		goto exit;
++#else
++	goto exit;
++#endif
++
++update:
++	*candidate = competitor;
++	updated = _TRUE;
++
++exit:
++	return updated;
++}
++
++int rtw_select_roaming_candidate(struct mlme_priv *mlme)
++{
++	_irqL	irqL;
++	int ret = _FAIL;
++	_list	*phead;
++	_adapter *adapter;
++	_queue	*queue	= &(mlme->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	struct	wlan_network	*candidate = NULL;
++	u8		bSupportAntDiv = _FALSE;
++
++
++	if (mlme->cur_network_scanned == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	_enter_critical_bh(&(mlme->scanned_queue.lock), &irqL);
++	phead = get_list_head(queue);
++	adapter = (_adapter *)mlme->nic_hdl;
++
++	mlme->pscanned = get_next(phead);
++
++	while (!rtw_end_of_queue_search(phead, mlme->pscanned)) {
++
++		pnetwork = LIST_CONTAINOR(mlme->pscanned, struct wlan_network, list);
++		if (pnetwork == NULL) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		mlme->pscanned = get_next(mlme->pscanned);
++
++		if (0)
++			RTW_INFO("%s("MAC_FMT", ch%u) rssi:%d\n"
++				 , pnetwork->network.Ssid.Ssid
++				 , MAC_ARG(pnetwork->network.MacAddress)
++				 , pnetwork->network.Configuration.DSConfig
++				 , (int)pnetwork->network.Rssi);
++
++		rtw_check_roaming_candidate(mlme, &candidate, pnetwork);
++
++	}
++
++	if (candidate == NULL) {
++		RTW_INFO("%s: return _FAIL(candidate == NULL)\n", __FUNCTION__);
++		ret = _FAIL;
++		goto exit;
++	} else {
++		RTW_INFO("%s: candidate: %s("MAC_FMT", ch:%u)\n", __FUNCTION__,
++			candidate->network.Ssid.Ssid, MAC_ARG(candidate->network.MacAddress),
++			 candidate->network.Configuration.DSConfig);
++
++		mlme->roam_network = candidate;
++
++		if (_rtw_memcmp(candidate->network.MacAddress, mlme->roam_tgt_addr, ETH_ALEN) == _TRUE)
++			_rtw_memset(mlme->roam_tgt_addr, 0, ETH_ALEN);
++	}
++
++	ret = _SUCCESS;
++exit:
++	_exit_critical_bh(&(mlme->scanned_queue.lock), &irqL);
++
++	return ret;
++}
++#endif /* CONFIG_LAYER2_ROAMING */
++
++/*
++* Select a new join candidate from the original @param candidate and @param competitor
++* @return _TRUE: candidate is updated
++* @return _FALSE: candidate is not updated
++*/
++static int rtw_check_join_candidate(struct mlme_priv *mlme
++	    , struct wlan_network **candidate, struct wlan_network *competitor)
++{
++	int updated = _FALSE;
++	_adapter *adapter = container_of(mlme, _adapter, mlmepriv);
++
++
++	/* check bssid, if needed */
++	if (mlme->assoc_by_bssid == _TRUE) {
++		if (_rtw_memcmp(competitor->network.MacAddress, mlme->assoc_bssid, ETH_ALEN) == _FALSE)
++			goto exit;
++	}
++
++	/* check ssid, if needed */
++	if (mlme->assoc_ssid.Ssid[0] && mlme->assoc_ssid.SsidLength) {
++		if (competitor->network.Ssid.SsidLength != mlme->assoc_ssid.SsidLength
++		    || _rtw_memcmp(competitor->network.Ssid.Ssid, mlme->assoc_ssid.Ssid, mlme->assoc_ssid.SsidLength) == _FALSE
++		   )
++			goto exit;
++	}
++
++	if (rtw_is_desired_network(adapter, competitor)  == _FALSE)
++		goto exit;
++
++#ifdef CONFIG_LAYER2_ROAMING
++	if (rtw_to_roam(adapter) > 0) {
++		if (rtw_get_passing_time_ms((u32)competitor->last_scanned) >= mlme->roam_scanr_exp_ms
++		    || is_same_ess(&competitor->network, &mlme->cur_network.network) == _FALSE
++		   )
++			goto exit;
++	}
++#endif
++
++	if (*candidate == NULL || (*candidate)->network.Rssi < competitor->network.Rssi) {
++		*candidate = competitor;
++		updated = _TRUE;
++	}
++
++	if (updated) {
++		RTW_INFO("[by_bssid:%u][assoc_ssid:%s][to_roam:%u] "
++			 "new candidate: %s("MAC_FMT", ch%u) rssi:%d\n",
++			 mlme->assoc_by_bssid,
++			 mlme->assoc_ssid.Ssid,
++			 rtw_to_roam(adapter),
++			 (*candidate)->network.Ssid.Ssid,
++			 MAC_ARG((*candidate)->network.MacAddress),
++			 (*candidate)->network.Configuration.DSConfig,
++			 (int)(*candidate)->network.Rssi
++			);
++	}
++
++exit:
++	return updated;
++}
++
++/*
++Calling context:
++The caller of the sub-routine will be in critical section...
++
++The caller must hold the following spinlock
++
++pmlmepriv->lock
++
++
++*/
++
++int rtw_select_and_join_from_scanned_queue(struct mlme_priv *pmlmepriv)
++{
++	_irqL	irqL;
++	int ret;
++	_list	*phead;
++	_adapter *adapter;
++	_queue	*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	struct	wlan_network	*candidate = NULL;
++	u8		bSupportAntDiv = _FALSE;
++
++
++	adapter = (_adapter *)pmlmepriv->nic_hdl;
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++#ifdef CONFIG_LAYER2_ROAMING
++	if (pmlmepriv->roam_network) {
++		candidate = pmlmepriv->roam_network;
++		pmlmepriv->roam_network = NULL;
++		goto candidate_exist;
++	}
++#endif
++
++	phead = get_list_head(queue);
++	pmlmepriv->pscanned = get_next(phead);
++
++	while (!rtw_end_of_queue_search(phead, pmlmepriv->pscanned)) {
++
++		pnetwork = LIST_CONTAINOR(pmlmepriv->pscanned, struct wlan_network, list);
++		if (pnetwork == NULL) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		pmlmepriv->pscanned = get_next(pmlmepriv->pscanned);
++
++		if (0)
++			RTW_INFO("%s("MAC_FMT", ch%u) rssi:%d\n"
++				 , pnetwork->network.Ssid.Ssid
++				 , MAC_ARG(pnetwork->network.MacAddress)
++				 , pnetwork->network.Configuration.DSConfig
++				 , (int)pnetwork->network.Rssi);
++
++		rtw_check_join_candidate(pmlmepriv, &candidate, pnetwork);
++
++	}
++
++	if (candidate == NULL) {
++		RTW_INFO("%s: return _FAIL(candidate == NULL)\n", __FUNCTION__);
++#ifdef CONFIG_WOWLAN
++		_clr_fwstate_(pmlmepriv, _FW_LINKED | _FW_UNDER_LINKING);
++#endif
++		ret = _FAIL;
++		goto exit;
++	} else {
++		RTW_INFO("%s: candidate: %s("MAC_FMT", ch:%u)\n", __FUNCTION__,
++			candidate->network.Ssid.Ssid, MAC_ARG(candidate->network.MacAddress),
++			 candidate->network.Configuration.DSConfig);
++		goto candidate_exist;
++	}
++
++candidate_exist:
++
++	/* check for situation of  _FW_LINKED */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++		RTW_INFO("%s: _FW_LINKED while ask_for_joinbss!!!\n", __FUNCTION__);
++
++#if 0 /* for WPA/WPA2 authentication, wpa_supplicant will expect authentication from AP, it is needed to reconnect AP... */
++		if (is_same_network(&pmlmepriv->cur_network.network, &candidate->network)) {
++			RTW_INFO("%s: _FW_LINKED and is same network, it needn't join again\n", __FUNCTION__);
++
++			rtw_indicate_connect(adapter);/* rtw_indicate_connect again */
++
++			ret = 2;
++			goto exit;
++		} else
++#endif
++		{
++			rtw_disassoc_cmd(adapter, 0, _TRUE);
++			rtw_indicate_disconnect(adapter, 0, _FALSE);
++			rtw_free_assoc_resources(adapter, 0);
++		}
++	}
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	rtw_hal_get_def_var(adapter, HAL_DEF_IS_SUPPORT_ANT_DIV, &(bSupportAntDiv));
++	if (_TRUE == bSupportAntDiv) {
++		u8 CurrentAntenna;
++		rtw_hal_get_odm_var(adapter, HAL_ODM_ANTDIV_SELECT, &(CurrentAntenna), NULL);
++		RTW_INFO("#### Opt_Ant_(%s) , cur_Ant(%s)\n",
++			(MAIN_ANT == candidate->network.PhyInfo.Optimum_antenna) ? "MAIN_ANT" : "AUX_ANT",
++			 (MAIN_ANT == CurrentAntenna) ? "MAIN_ANT" : "AUX_ANT"
++			);
++	}
++#endif
++	set_fwstate(pmlmepriv, _FW_UNDER_LINKING);
++	ret = rtw_joinbss_cmd(adapter, candidate);
++
++exit:
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++
++	return ret;
++}
++
++sint rtw_set_auth(_adapter *adapter, struct security_priv *psecuritypriv)
++{
++	struct	cmd_obj *pcmd;
++	struct	setauth_parm *psetauthparm;
++	struct	cmd_priv	*pcmdpriv = &(adapter->cmdpriv);
++	sint		res = _SUCCESS;
++
++
++	pcmd = (struct	cmd_obj *)rtw_zmalloc(sizeof(struct	cmd_obj));
++	if (pcmd == NULL) {
++		res = _FAIL; /* try again */
++		goto exit;
++	}
++
++	psetauthparm = (struct setauth_parm *)rtw_zmalloc(sizeof(struct setauth_parm));
++	if (psetauthparm == NULL) {
++		rtw_mfree((unsigned char *)pcmd, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	_rtw_memset(psetauthparm, 0, sizeof(struct setauth_parm));
++	psetauthparm->mode = (unsigned char)psecuritypriv->dot11AuthAlgrthm;
++
++	pcmd->cmdcode = _SetAuth_CMD_;
++	pcmd->parmbuf = (unsigned char *)psetauthparm;
++	pcmd->cmdsz = (sizeof(struct setauth_parm));
++	pcmd->rsp = NULL;
++	pcmd->rspsz = 0;
++
++
++	_rtw_init_listhead(&pcmd->list);
++
++
++	res = rtw_enqueue_cmd(pcmdpriv, pcmd);
++
++exit:
++
++
++	return res;
++
++}
++
++
++sint rtw_set_key(_adapter *adapter, struct security_priv *psecuritypriv, sint keyid, u8 set_tx, bool enqueue)
++{
++	u8	keylen;
++	struct cmd_obj		*pcmd;
++	struct setkey_parm	*psetkeyparm;
++	struct cmd_priv		*pcmdpriv = &(adapter->cmdpriv);
++	struct mlme_priv		*pmlmepriv = &(adapter->mlmepriv);
++	sint	res = _SUCCESS;
++
++
++	psetkeyparm = (struct setkey_parm *)rtw_zmalloc(sizeof(struct setkey_parm));
++	if (psetkeyparm == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	_rtw_memset(psetkeyparm, 0, sizeof(struct setkey_parm));
++
++	if (psecuritypriv->dot11AuthAlgrthm == dot11AuthAlgrthm_8021X) {
++		psetkeyparm->algorithm = (unsigned char)psecuritypriv->dot118021XGrpPrivacy;
++	} else {
++		psetkeyparm->algorithm = (u8)psecuritypriv->dot11PrivacyAlgrthm;
++
++	}
++	psetkeyparm->keyid = (u8)keyid;/* 0~3 */
++	psetkeyparm->set_tx = set_tx;
++	if (is_wep_enc(psetkeyparm->algorithm))
++		adapter->securitypriv.key_mask |= BIT(psetkeyparm->keyid);
++
++	RTW_INFO("==> rtw_set_key algorithm(%x),keyid(%x),key_mask(%x)\n", psetkeyparm->algorithm, psetkeyparm->keyid, adapter->securitypriv.key_mask);
++
++	switch (psetkeyparm->algorithm) {
++
++	case _WEP40_:
++		keylen = 5;
++		_rtw_memcpy(&(psetkeyparm->key[0]), &(psecuritypriv->dot11DefKey[keyid].skey[0]), keylen);
++		break;
++	case _WEP104_:
++		keylen = 13;
++		_rtw_memcpy(&(psetkeyparm->key[0]), &(psecuritypriv->dot11DefKey[keyid].skey[0]), keylen);
++		break;
++	case _TKIP_:
++		keylen = 16;
++		_rtw_memcpy(&psetkeyparm->key, &psecuritypriv->dot118021XGrpKey[keyid], keylen);
++		psetkeyparm->grpkey = 1;
++		break;
++	case _AES_:
++		keylen = 16;
++		_rtw_memcpy(&psetkeyparm->key, &psecuritypriv->dot118021XGrpKey[keyid], keylen);
++		psetkeyparm->grpkey = 1;
++		break;
++	default:
++		res = _FAIL;
++		rtw_mfree((unsigned char *)psetkeyparm, sizeof(struct setkey_parm));
++		goto exit;
++	}
++
++
++	if (enqueue) {
++		pcmd = (struct	cmd_obj *)rtw_zmalloc(sizeof(struct	cmd_obj));
++		if (pcmd == NULL) {
++			rtw_mfree((unsigned char *)psetkeyparm, sizeof(struct setkey_parm));
++			res = _FAIL; /* try again */
++			goto exit;
++		}
++
++		pcmd->cmdcode = _SetKey_CMD_;
++		pcmd->parmbuf = (u8 *)psetkeyparm;
++		pcmd->cmdsz = (sizeof(struct setkey_parm));
++		pcmd->rsp = NULL;
++		pcmd->rspsz = 0;
++
++		_rtw_init_listhead(&pcmd->list);
++
++		/* _rtw_init_sema(&(pcmd->cmd_sem), 0); */
++
++		res = rtw_enqueue_cmd(pcmdpriv, pcmd);
++	} else {
++		setkey_hdl(adapter, (u8 *)psetkeyparm);
++		rtw_mfree((u8 *) psetkeyparm, sizeof(struct setkey_parm));
++	}
++exit:
++	return res;
++
++}
++
++
++/* adjust IEs for rtw_joinbss_cmd in WMM */
++int rtw_restruct_wmm_ie(_adapter *adapter, u8 *in_ie, u8 *out_ie, uint in_len, uint initial_out_len)
++{
++	unsigned	int ielength = 0;
++	unsigned int i, j;
++
++	i = 12; /* after the fixed IE */
++	while (i < in_len) {
++		ielength = initial_out_len;
++
++		if (in_ie[i] == 0xDD && in_ie[i + 2] == 0x00 && in_ie[i + 3] == 0x50  && in_ie[i + 4] == 0xF2 && in_ie[i + 5] == 0x02 && i + 5 < in_len) { /* WMM element ID and OUI */
++
++			/* Append WMM IE to the last index of out_ie */
++#if 0
++			for (j = i; j < i + (in_ie[i + 1] + 2); j++) {
++				out_ie[ielength] = in_ie[j];
++				ielength++;
++			}
++			out_ie[initial_out_len + 8] = 0x00; /* force the QoS Info Field to be zero */
++#endif
++
++			for (j = i; j < i + 9; j++) {
++				out_ie[ielength] = in_ie[j];
++				ielength++;
++			}
++			out_ie[initial_out_len + 1] = 0x07;
++			out_ie[initial_out_len + 6] = 0x00;
++			out_ie[initial_out_len + 8] = 0x00;
++
++			break;
++		}
++
++		i += (in_ie[i + 1] + 2); /* to the next IE element */
++	}
++
++	return ielength;
++
++}
++
++
++/*
++ * Ported from 8185: IsInPreAuthKeyList(). (Renamed from SecIsInPreAuthKeyList(), 2006-10-13.)
++ * Added by Annie, 2006-05-07.
++ *
++ * Search by BSSID,
++ * Return Value:
++ *		-1		:if there is no pre-auth key in the  table
++ *		>=0		:if there is pre-auth key, and   return the entry id
++ *
++ *   */
++
++static int SecIsInPMKIDList(_adapter *Adapter, u8 *bssid)
++{
++	struct security_priv *psecuritypriv = &Adapter->securitypriv;
++	int i = 0;
++
++	do {
++		if ((psecuritypriv->PMKIDList[i].bUsed) &&
++		    (_rtw_memcmp(psecuritypriv->PMKIDList[i].Bssid, bssid, ETH_ALEN) == _TRUE))
++			break;
++		else {
++			i++;
++			/* continue; */
++		}
++
++	} while (i < NUM_PMKID_CACHE);
++
++	if (i == NUM_PMKID_CACHE) {
++		i = -1;/* Could not find. */
++	} else {
++		/* There is one Pre-Authentication Key for the specific BSSID. */
++	}
++
++	return i;
++
++}
++
++/*
++ * Check the RSN IE length
++ * If the RSN IE length <= 20, the RSN IE didn't include the PMKID information
++ * 0-11th element in the array are the fixed IE
++ * 12th element in the array is the IE
++ * 13th element in the array is the IE length
++ *   */
++
++static int rtw_append_pmkid(_adapter *adapter, int iEntry, u8 *ie, uint ie_len)
++{
++	struct security_priv *sec = &adapter->securitypriv;
++
++	if (ie[13] > 20) {
++		int i;
++		u16 pmkid_cnt = RTW_GET_LE16(ie + 14 + 20);
++		if (pmkid_cnt == 1 && _rtw_memcmp(ie + 14 + 20 + 2, &sec->PMKIDList[iEntry].PMKID, 16)) {
++			RTW_INFO(FUNC_ADPT_FMT" has carried the same PMKID:"KEY_FMT"\n"
++				, FUNC_ADPT_ARG(adapter), KEY_ARG(&sec->PMKIDList[iEntry].PMKID));
++			goto exit;
++		}
++
++		RTW_INFO(FUNC_ADPT_FMT" remove original PMKID, count:%u\n"
++			 , FUNC_ADPT_ARG(adapter), pmkid_cnt);
++
++		for (i = 0; i < pmkid_cnt; i++)
++			RTW_INFO("    "KEY_FMT"\n", KEY_ARG(ie + 14 + 20 + 2 + i * 16));
++
++		ie_len -= 2 + pmkid_cnt * 16;
++		ie[13] = 20;
++	}
++
++	if (ie[13] <= 20) {
++		/* The RSN IE didn't include the PMK ID, append the PMK information */
++
++		RTW_INFO(FUNC_ADPT_FMT" append PMKID:"KEY_FMT"\n"
++			, FUNC_ADPT_ARG(adapter), KEY_ARG(&sec->PMKIDList[iEntry].PMKID));
++
++		RTW_PUT_LE16(&ie[ie_len], 1);
++		ie_len += 2;
++
++		_rtw_memcpy(&ie[ie_len], &sec->PMKIDList[iEntry].PMKID, 16);
++		ie_len += 16;
++
++		ie[13] += 18;/* PMKID length = 2+16 */
++	}
++
++exit:
++	return ie_len;
++}
++
++static int rtw_remove_pmkid(_adapter *adapter, u8 *ie, uint ie_len)
++{
++	struct security_priv *sec = &adapter->securitypriv;
++	int i;
++	u16 pmkid_cnt = RTW_GET_LE16(ie + 14 + 20);
++
++	if (ie[13] <= 20)
++		goto exit;
++
++	RTW_INFO(FUNC_ADPT_FMT" remove original PMKID, count:%u\n"
++		 , FUNC_ADPT_ARG(adapter), pmkid_cnt);
++
++	for (i = 0; i < pmkid_cnt; i++)
++		RTW_INFO("    "KEY_FMT"\n", KEY_ARG(ie + 14 + 20 + 2 + i * 16));
++
++	ie_len -= 2 + pmkid_cnt * 16;
++	ie[13] = 20;
++
++exit:
++	return ie_len;
++}
++
++sint rtw_restruct_sec_ie(_adapter *adapter, u8 *in_ie, u8 *out_ie, uint in_len)
++{
++	u8 authmode = 0x0, securitytype, match;
++	u8 sec_ie[255], uncst_oui[4], bkup_ie[255];
++	u8 wpa_oui[4] = {0x0, 0x50, 0xf2, 0x01};
++	uint	ielength, cnt, remove_cnt;
++	int iEntry;
++
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++	uint	ndisauthmode = psecuritypriv->ndisauthtype;
++	uint ndissecuritytype = psecuritypriv->ndisencryptstatus;
++
++
++
++	/* copy fixed ie only */
++	_rtw_memcpy(out_ie, in_ie, 12);
++	ielength = 12;
++	if ((ndisauthmode == Ndis802_11AuthModeWPA) || (ndisauthmode == Ndis802_11AuthModeWPAPSK))
++		authmode = _WPA_IE_ID_;
++	if ((ndisauthmode == Ndis802_11AuthModeWPA2) || (ndisauthmode == Ndis802_11AuthModeWPA2PSK))
++		authmode = _WPA2_IE_ID_;
++
++	if (check_fwstate(pmlmepriv, WIFI_UNDER_WPS)) {
++		_rtw_memcpy(out_ie + ielength, psecuritypriv->wps_ie, psecuritypriv->wps_ie_len);
++
++		ielength += psecuritypriv->wps_ie_len;
++	} else if ((authmode == _WPA_IE_ID_) || (authmode == _WPA2_IE_ID_)) {
++		/* copy RSN or SSN		 */
++		_rtw_memcpy(&out_ie[ielength], &psecuritypriv->supplicant_ie[0], psecuritypriv->supplicant_ie[1] + 2);
++		/* debug for CONFIG_IEEE80211W
++		{
++			int jj;
++			printk("supplicant_ie_length=%d &&&&&&&&&&&&&&&&&&&\n", psecuritypriv->supplicant_ie[1]+2);
++			for(jj=0; jj < psecuritypriv->supplicant_ie[1]+2; jj++)
++				printk(" %02x ", psecuritypriv->supplicant_ie[jj]);
++			printk("\n");
++		}*/
++		ielength += psecuritypriv->supplicant_ie[1] + 2;
++		rtw_report_sec_ie(adapter, authmode, psecuritypriv->supplicant_ie);
++
++#ifdef CONFIG_DRVEXT_MODULE
++		drvext_report_sec_ie(&adapter->drvextpriv, authmode, sec_ie);
++#endif
++	}
++
++	iEntry = SecIsInPMKIDList(adapter, pmlmepriv->assoc_bssid);
++	if (iEntry < 0) {
++		if (authmode == _WPA2_IE_ID_)
++			ielength = rtw_remove_pmkid(adapter, out_ie, ielength);
++	} else {
++		if (authmode == _WPA2_IE_ID_)
++			ielength = rtw_append_pmkid(adapter, iEntry, out_ie, ielength);
++	}
++
++
++	return ielength;
++}
++
++void rtw_init_registrypriv_dev_network(_adapter *adapter)
++{
++	struct registry_priv *pregistrypriv = &adapter->registrypriv;
++	WLAN_BSSID_EX    *pdev_network = &pregistrypriv->dev_network;
++	u8 *myhwaddr = adapter_mac_addr(adapter);
++
++
++	_rtw_memcpy(pdev_network->MacAddress, myhwaddr, ETH_ALEN);
++
++	_rtw_memcpy(&pdev_network->Ssid, &pregistrypriv->ssid, sizeof(NDIS_802_11_SSID));
++
++	pdev_network->Configuration.Length = sizeof(NDIS_802_11_CONFIGURATION);
++	pdev_network->Configuration.BeaconPeriod = 100;
++	pdev_network->Configuration.FHConfig.Length = 0;
++	pdev_network->Configuration.FHConfig.HopPattern = 0;
++	pdev_network->Configuration.FHConfig.HopSet = 0;
++	pdev_network->Configuration.FHConfig.DwellTime = 0;
++
++
++
++}
++
++void rtw_update_registrypriv_dev_network(_adapter *adapter)
++{
++	int sz = 0;
++	struct registry_priv *pregistrypriv = &adapter->registrypriv;
++	WLAN_BSSID_EX    *pdev_network = &pregistrypriv->dev_network;
++	struct	security_priv	*psecuritypriv = &adapter->securitypriv;
++	struct	wlan_network	*cur_network = &adapter->mlmepriv.cur_network;
++	/* struct	xmit_priv	*pxmitpriv = &adapter->xmitpriv; */
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++
++
++#if 0
++	pxmitpriv->vcs_setting = pregistrypriv->vrtl_carrier_sense;
++	pxmitpriv->vcs = pregistrypriv->vcs_type;
++	pxmitpriv->vcs_type = pregistrypriv->vcs_type;
++	/* pxmitpriv->rts_thresh = pregistrypriv->rts_thresh; */
++	pxmitpriv->frag_len = pregistrypriv->frag_thresh;
++
++	adapter->qospriv.qos_option = pregistrypriv->wmm_enable;
++#endif
++
++	pdev_network->Privacy = (psecuritypriv->dot11PrivacyAlgrthm > 0 ? 1 : 0) ; /* adhoc no 802.1x */
++
++	pdev_network->Rssi = 0;
++
++	switch (pregistrypriv->wireless_mode) {
++	case WIRELESS_11B:
++		pdev_network->NetworkTypeInUse = (Ndis802_11DS);
++		break;
++	case WIRELESS_11G:
++	case WIRELESS_11BG:
++	case WIRELESS_11_24N:
++	case WIRELESS_11G_24N:
++	case WIRELESS_11BG_24N:
++		pdev_network->NetworkTypeInUse = (Ndis802_11OFDM24);
++		break;
++	case WIRELESS_11A:
++	case WIRELESS_11A_5N:
++		pdev_network->NetworkTypeInUse = (Ndis802_11OFDM5);
++		break;
++	case WIRELESS_11ABGN:
++		if (pregistrypriv->channel > 14)
++			pdev_network->NetworkTypeInUse = (Ndis802_11OFDM5);
++		else
++			pdev_network->NetworkTypeInUse = (Ndis802_11OFDM24);
++		break;
++	default:
++		/* TODO */
++		break;
++	}
++
++	pdev_network->Configuration.DSConfig = (pregistrypriv->channel);
++
++	if (cur_network->network.InfrastructureMode == Ndis802_11IBSS) {
++		pdev_network->Configuration.ATIMWindow = (0);
++
++		if (pmlmeext->cur_channel != 0)
++			pdev_network->Configuration.DSConfig = pmlmeext->cur_channel;
++		else
++			pdev_network->Configuration.DSConfig = 1;
++	}
++
++	pdev_network->InfrastructureMode = (cur_network->network.InfrastructureMode);
++
++	/* 1. Supported rates */
++	/* 2. IE */
++
++	/* rtw_set_supported_rate(pdev_network->SupportedRates, pregistrypriv->wireless_mode) ; */ /* will be called in rtw_generate_ie */
++	sz = rtw_generate_ie(pregistrypriv);
++
++	pdev_network->IELength = sz;
++
++	pdev_network->Length = get_WLAN_BSSID_EX_sz((WLAN_BSSID_EX *)pdev_network);
++
++	/* notes: translate IELength & Length after assign the Length to cmdsz in createbss_cmd(); */
++	/* pdev_network->IELength = cpu_to_le32(sz); */
++
++
++}
++
++void rtw_get_encrypt_decrypt_from_registrypriv(_adapter *adapter)
++{
++
++
++
++}
++
++/* the fucntion is at passive_level */
++void rtw_joinbss_reset(_adapter *padapter)
++{
++	u8	threshold;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	/* todo: if you want to do something io/reg/hw setting before join_bss, please add code here */
++
++#ifdef CONFIG_80211N_HT
++	struct ht_priv		*phtpriv = &pmlmepriv->htpriv;
++
++	pmlmepriv->num_FortyMHzIntolerant = 0;
++
++	pmlmepriv->num_sta_no_ht = 0;
++
++	phtpriv->ampdu_enable = _FALSE;/* reset to disabled */
++
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI)
++	/* TH=1 => means that invalidate usb rx aggregation */
++	/* TH=0 => means that validate usb rx aggregation, use init value. */
++	if (phtpriv->ht_option) {
++		if (padapter->registrypriv.wifi_spec == 1)
++			threshold = 1;
++		else
++			threshold = 0;
++		rtw_hal_set_hwreg(padapter, HW_VAR_RXDMA_AGG_PG_TH, (u8 *)(&threshold));
++	} else {
++		threshold = 1;
++		rtw_hal_set_hwreg(padapter, HW_VAR_RXDMA_AGG_PG_TH, (u8 *)(&threshold));
++	}
++#endif/* #if defined( CONFIG_USB_HCI) || defined (CONFIG_SDIO_HCI) */
++
++#endif/* #ifdef CONFIG_80211N_HT */
++
++}
++
++
++#ifdef CONFIG_80211N_HT
++void	rtw_ht_use_default_setting(_adapter *padapter)
++{
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct ht_priv		*phtpriv = &pmlmepriv->htpriv;
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	BOOLEAN		bHwLDPCSupport = _FALSE, bHwSTBCSupport = _FALSE;
++#ifdef CONFIG_BEAMFORMING
++	BOOLEAN		bHwSupportBeamformer = _FALSE, bHwSupportBeamformee = _FALSE;
++#endif /* CONFIG_BEAMFORMING */
++
++	if (pregistrypriv->wifi_spec)
++		phtpriv->bss_coexist = 1;
++	else
++		phtpriv->bss_coexist = 0;
++
++	phtpriv->sgi_40m = TEST_FLAG(pregistrypriv->short_gi, BIT1) ? _TRUE : _FALSE;
++	phtpriv->sgi_20m = TEST_FLAG(pregistrypriv->short_gi, BIT0) ? _TRUE : _FALSE;
++
++	/* LDPC support */
++	rtw_hal_get_def_var(padapter, HAL_DEF_RX_LDPC, (u8 *)&bHwLDPCSupport);
++	CLEAR_FLAGS(phtpriv->ldpc_cap);
++	if (bHwLDPCSupport) {
++		if (TEST_FLAG(pregistrypriv->ldpc_cap, BIT4))
++			SET_FLAG(phtpriv->ldpc_cap, LDPC_HT_ENABLE_RX);
++	}
++	rtw_hal_get_def_var(padapter, HAL_DEF_TX_LDPC, (u8 *)&bHwLDPCSupport);
++	if (bHwLDPCSupport) {
++		if (TEST_FLAG(pregistrypriv->ldpc_cap, BIT5))
++			SET_FLAG(phtpriv->ldpc_cap, LDPC_HT_ENABLE_TX);
++	}
++	if (phtpriv->ldpc_cap)
++		RTW_INFO("[HT] HAL Support LDPC = 0x%02X\n", phtpriv->ldpc_cap);
++
++	/* STBC */
++	rtw_hal_get_def_var(padapter, HAL_DEF_TX_STBC, (u8 *)&bHwSTBCSupport);
++	CLEAR_FLAGS(phtpriv->stbc_cap);
++	if (bHwSTBCSupport) {
++		if (TEST_FLAG(pregistrypriv->stbc_cap, BIT5))
++			SET_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_TX);
++	}
++	rtw_hal_get_def_var(padapter, HAL_DEF_RX_STBC, (u8 *)&bHwSTBCSupport);
++	if (bHwSTBCSupport) {
++		if (TEST_FLAG(pregistrypriv->stbc_cap, BIT4))
++			SET_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_RX);
++	}
++	if (phtpriv->stbc_cap)
++		RTW_INFO("[HT] HAL Support STBC = 0x%02X\n", phtpriv->stbc_cap);
++
++	/* Beamforming setting */
++	CLEAR_FLAGS(phtpriv->beamform_cap);
++#ifdef CONFIG_BEAMFORMING
++	rtw_hal_get_def_var(padapter, HAL_DEF_EXPLICIT_BEAMFORMER, (u8 *)&bHwSupportBeamformer);
++	rtw_hal_get_def_var(padapter, HAL_DEF_EXPLICIT_BEAMFORMEE, (u8 *)&bHwSupportBeamformee);
++	if (TEST_FLAG(pregistrypriv->beamform_cap, BIT4) && bHwSupportBeamformer) {
++		SET_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE);
++		RTW_INFO("[HT] HAL Support Beamformer\n");
++	}
++	if (TEST_FLAG(pregistrypriv->beamform_cap, BIT5) && bHwSupportBeamformee) {
++		SET_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE);
++		RTW_INFO("[HT] HAL Support Beamformee\n");
++	}
++#endif /* CONFIG_BEAMFORMING */
++}
++void rtw_build_wmm_ie_ht(_adapter *padapter, u8 *out_ie, uint *pout_len)
++{
++	unsigned char WMM_IE[] = {0x00, 0x50, 0xf2, 0x02, 0x00, 0x01, 0x00};
++	int out_len;
++	u8 *pframe;
++
++	if (padapter->mlmepriv.qospriv.qos_option == 0) {
++		out_len = *pout_len;
++		pframe = rtw_set_ie(out_ie + out_len, _VENDOR_SPECIFIC_IE_,
++				    _WMM_IE_Length_, WMM_IE, pout_len);
++
++		padapter->mlmepriv.qospriv.qos_option = 1;
++	}
++}
++
++/* the fucntion is >= passive_level */
++unsigned int rtw_restructure_ht_ie(_adapter *padapter, u8 *in_ie, u8 *out_ie, uint in_len, uint *pout_len, u8 channel)
++{
++	u32 ielen, out_len;
++	u32 rx_packet_offset, max_recvbuf_sz;
++	HT_CAP_AMPDU_FACTOR max_rx_ampdu_factor;
++	HT_CAP_AMPDU_DENSITY best_ampdu_density;
++	unsigned char *p, *pframe;
++	struct rtw_ieee80211_ht_cap ht_capie;
++	u8	cbw40_enable = 0, rf_type = 0, operation_bw = 0, rf_num = 0, rx_stbc_nss = 0;
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct ht_priv		*phtpriv = &pmlmepriv->htpriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	phtpriv->ht_option = _FALSE;
++
++	out_len = *pout_len;
++
++	_rtw_memset(&ht_capie, 0, sizeof(struct rtw_ieee80211_ht_cap));
++
++	ht_capie.cap_info = IEEE80211_HT_CAP_DSSSCCK40;
++
++	if (phtpriv->sgi_20m)
++		ht_capie.cap_info |= IEEE80211_HT_CAP_SGI_20;
++
++	/* Get HT BW */
++	if (in_ie == NULL) {
++		/* TDLS: TODO 20/40 issue */
++		if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++			operation_bw = padapter->mlmeextpriv.cur_bwmode;
++			if (operation_bw > CHANNEL_WIDTH_40)
++				operation_bw = CHANNEL_WIDTH_40;
++		} else
++			/* TDLS: TODO 40? */
++			operation_bw = CHANNEL_WIDTH_40;
++	} else {
++		p = rtw_get_ie(in_ie, _HT_ADD_INFO_IE_, &ielen, in_len);
++		if (p && (ielen == sizeof(struct ieee80211_ht_addt_info))) {
++			struct HT_info_element *pht_info = (struct HT_info_element *)(p + 2);
++			if (pht_info->infos[0] & BIT(2)) {
++				switch (pht_info->infos[0] & 0x3) {
++				case 1:
++				case 3:
++					operation_bw = CHANNEL_WIDTH_40;
++					break;
++				default:
++					operation_bw = CHANNEL_WIDTH_20;
++					break;
++				}
++			} else
++				operation_bw = CHANNEL_WIDTH_20;
++		}
++	}
++
++	/* to disable 40M Hz support while gd_bw_40MHz_en = 0 */
++	if (hal_chk_bw_cap(padapter, BW_CAP_40M)) {
++		if (channel > 14) {
++			if (REGSTY_IS_BW_5G_SUPPORT(pregistrypriv, CHANNEL_WIDTH_40))
++				cbw40_enable = 1;
++		} else {
++			if (REGSTY_IS_BW_2G_SUPPORT(pregistrypriv, CHANNEL_WIDTH_40))
++				cbw40_enable = 1;
++		}
++	}
++
++	if ((cbw40_enable == 1) && (operation_bw == CHANNEL_WIDTH_40)) {
++		ht_capie.cap_info |= IEEE80211_HT_CAP_SUP_WIDTH;
++		if (phtpriv->sgi_40m)
++			ht_capie.cap_info |= IEEE80211_HT_CAP_SGI_40;
++	}
++
++	/* todo: disable SM power save mode */
++	ht_capie.cap_info |= IEEE80211_HT_CAP_SM_PS;
++
++	/* RX LDPC */
++	if (TEST_FLAG(phtpriv->ldpc_cap, LDPC_HT_ENABLE_RX)) {
++		ht_capie.cap_info |= IEEE80211_HT_CAP_LDPC_CODING;
++		RTW_INFO("[HT] Declare supporting RX LDPC\n");
++	}
++
++	/* TX STBC */
++	if (TEST_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_TX)) {
++		ht_capie.cap_info |= IEEE80211_HT_CAP_TX_STBC;
++		RTW_INFO("[HT] Declare supporting TX STBC\n");
++	}
++
++	/* RX STBC */
++	if (TEST_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_RX)) {
++		if ((pregistrypriv->rx_stbc == 0x3) ||							/* enable for 2.4/5 GHz */
++		    ((channel <= 14) && (pregistrypriv->rx_stbc == 0x1)) ||		/* enable for 2.4GHz */
++		    ((channel > 14) && (pregistrypriv->rx_stbc == 0x2)) ||		/* enable for 5GHz */
++		    (pregistrypriv->wifi_spec == 1)) {
++			/* HAL_DEF_RX_STBC means STBC RX spatial stream, todo: VHT 4 streams */
++			rtw_hal_get_def_var(padapter, HAL_DEF_RX_STBC, (u8 *)(&rx_stbc_nss));
++			SET_HT_CAP_ELE_RX_STBC(&ht_capie, rx_stbc_nss);
++			RTW_INFO("[HT] Declare supporting RX STBC = %d\n", rx_stbc_nss);
++		}
++	}
++
++	/* fill default supported_mcs_set */
++	_rtw_memcpy(ht_capie.supp_mcs_set, pmlmeext->default_supported_mcs_set, 16);
++
++	/* update default supported_mcs_set */
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++	switch (rf_type) {
++	case RF_1T1R:
++		set_mcs_rate_by_mask(ht_capie.supp_mcs_set, MCS_RATE_1R);
++		break;
++
++	case RF_2T2R:
++	case RF_1T2R:
++#ifdef CONFIG_DISABLE_MCS13TO15
++		if (((cbw40_enable == 1) && (operation_bw == CHANNEL_WIDTH_40)) && (pregistrypriv->wifi_spec != 1))
++			set_mcs_rate_by_mask(ht_capie.supp_mcs_set, MCS_RATE_2R_13TO15_OFF);
++		else
++			set_mcs_rate_by_mask(ht_capie.supp_mcs_set, MCS_RATE_2R);
++#else /* CONFIG_DISABLE_MCS13TO15 */
++		set_mcs_rate_by_mask(ht_capie.supp_mcs_set, MCS_RATE_2R);
++#endif /* CONFIG_DISABLE_MCS13TO15 */
++		break;
++	case RF_3T3R:
++		set_mcs_rate_by_mask(ht_capie.supp_mcs_set, MCS_RATE_3R);
++		break;
++	default:
++		RTW_INFO("[warning] rf_type %d is not expected\n", rf_type);
++	}
++
++	{
++		rtw_hal_get_def_var(padapter, HAL_DEF_RX_PACKET_OFFSET, &rx_packet_offset);
++		rtw_hal_get_def_var(padapter, HAL_DEF_MAX_RECVBUF_SZ, &max_recvbuf_sz);
++		if (max_recvbuf_sz - rx_packet_offset >= (8191 - 256)) {
++			RTW_INFO("%s IEEE80211_HT_CAP_MAX_AMSDU is set\n", __FUNCTION__);
++			ht_capie.cap_info = ht_capie.cap_info | IEEE80211_HT_CAP_MAX_AMSDU;
++		}
++	}
++	/*
++	AMPDU_para [1:0]:Max AMPDU Len => 0:8k , 1:16k, 2:32k, 3:64k
++	AMPDU_para [4:2]:Min MPDU Start Spacing
++	*/
++
++	/*
++	#if defined(CONFIG_RTL8188E) && defined(CONFIG_SDIO_HCI)
++	ht_capie.ampdu_params_info = 2;
++	#else
++	ht_capie.ampdu_params_info = (IEEE80211_HT_CAP_AMPDU_FACTOR&0x03);
++	#endif
++	*/
++
++	if (padapter->driver_rx_ampdu_factor != 0xFF)
++		max_rx_ampdu_factor = (HT_CAP_AMPDU_FACTOR)padapter->driver_rx_ampdu_factor;
++	else
++		rtw_hal_get_def_var(padapter, HW_VAR_MAX_RX_AMPDU_FACTOR, &max_rx_ampdu_factor);
++
++	/* rtw_hal_get_def_var(padapter, HW_VAR_MAX_RX_AMPDU_FACTOR, &max_rx_ampdu_factor); */
++	ht_capie.ampdu_params_info = (max_rx_ampdu_factor & 0x03);
++
++	if (padapter->driver_rx_ampdu_spacing != 0xFF)
++		ht_capie.ampdu_params_info |= ((padapter->driver_rx_ampdu_spacing & 0x07) << 2);
++	else {
++		if (padapter->securitypriv.dot11PrivacyAlgrthm == _AES_) {
++			/*
++			*	Todo : Each chip must to ask DD , this chip best ampdu_density setting
++			*	By yiwei.sun
++			*/
++			rtw_hal_get_def_var(padapter, HW_VAR_BEST_AMPDU_DENSITY, &best_ampdu_density);
++
++			ht_capie.ampdu_params_info |= (IEEE80211_HT_CAP_AMPDU_DENSITY & (best_ampdu_density << 2));
++
++		} else
++			ht_capie.ampdu_params_info |= (IEEE80211_HT_CAP_AMPDU_DENSITY & 0x00);
++	}
++#ifdef CONFIG_BEAMFORMING
++	ht_capie.tx_BF_cap_info = 0;
++
++	/* HT Beamformer*/
++	if (TEST_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE)) {
++		/* Transmit NDP Capable */
++		SET_HT_CAP_TXBF_TRANSMIT_NDP_CAP(&ht_capie, 1);
++		/* Explicit Compressed Steering Capable */
++		SET_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP(&ht_capie, 1);
++		/* Compressed Steering Number Antennas */
++		SET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS(&ht_capie, 1);
++		rtw_hal_get_def_var(padapter, HAL_DEF_BEAMFORMER_CAP, (u8 *)&rf_num);
++		SET_HT_CAP_TXBF_CHNL_ESTIMATION_NUM_ANTENNAS(&ht_capie, rf_num);
++	}
++
++	/* HT Beamformee */
++	if (TEST_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE)) {
++		/* Receive NDP Capable */
++		SET_HT_CAP_TXBF_RECEIVE_NDP_CAP(&ht_capie, 1);
++		/* Explicit Compressed Beamforming Feedback Capable */
++		SET_HT_CAP_TXBF_EXPLICIT_COMP_FEEDBACK_CAP(&ht_capie, 2);
++		rtw_hal_get_def_var(padapter, HAL_DEF_BEAMFORMEE_CAP, (u8 *)&rf_num);
++		SET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS(&ht_capie, rf_num);
++	}
++#endif/*CONFIG_BEAMFORMING*/
++
++	pframe = rtw_set_ie(out_ie + out_len, _HT_CAPABILITY_IE_,
++		sizeof(struct rtw_ieee80211_ht_cap), (unsigned char *)&ht_capie, pout_len);
++
++	phtpriv->ht_option = _TRUE;
++
++	if (in_ie != NULL) {
++		p = rtw_get_ie(in_ie, _HT_ADD_INFO_IE_, &ielen, in_len);
++		if (p && (ielen == sizeof(struct ieee80211_ht_addt_info))) {
++			out_len = *pout_len;
++			pframe = rtw_set_ie(out_ie + out_len, _HT_ADD_INFO_IE_, ielen, p + 2 , pout_len);
++		}
++	}
++
++	return phtpriv->ht_option;
++
++}
++
++/* the fucntion is > passive_level (in critical_section) */
++void rtw_update_ht_cap(_adapter *padapter, u8 *pie, uint ie_len, u8 channel)
++{
++	u8 *p, max_ampdu_sz;
++	int len;
++	/* struct sta_info *bmc_sta, *psta; */
++	struct rtw_ieee80211_ht_cap *pht_capie;
++	struct ieee80211_ht_addt_info *pht_addtinfo;
++	/* struct recv_reorder_ctrl *preorder_ctrl; */
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct ht_priv		*phtpriv = &pmlmepriv->htpriv;
++	/* struct recv_priv *precvpriv = &padapter->recvpriv; */
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	/* struct wlan_network *pcur_network = &(pmlmepriv->cur_network);; */
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 cbw40_enable = 0;
++
++
++	if (!phtpriv->ht_option)
++		return;
++
++	if ((!pmlmeinfo->HT_info_enable) || (!pmlmeinfo->HT_caps_enable))
++		return;
++
++	RTW_INFO("+rtw_update_ht_cap()\n");
++
++	/* maybe needs check if ap supports rx ampdu. */
++	if ((phtpriv->ampdu_enable == _FALSE) && (pregistrypriv->ampdu_enable == 1)) {
++		if (pregistrypriv->wifi_spec == 1) {
++			/* remove this part because testbed AP should disable RX AMPDU */
++			/* phtpriv->ampdu_enable = _FALSE; */
++			phtpriv->ampdu_enable = _TRUE;
++		} else
++			phtpriv->ampdu_enable = _TRUE;
++	} 
++
++
++	/* check Max Rx A-MPDU Size */
++	len = 0;
++	p = rtw_get_ie(pie + sizeof(NDIS_802_11_FIXED_IEs), _HT_CAPABILITY_IE_, &len, ie_len - sizeof(NDIS_802_11_FIXED_IEs));
++	if (p && len > 0) {
++		pht_capie = (struct rtw_ieee80211_ht_cap *)(p + 2);
++		max_ampdu_sz = (pht_capie->ampdu_params_info & IEEE80211_HT_CAP_AMPDU_FACTOR);
++		max_ampdu_sz = 1 << (max_ampdu_sz + 3); /* max_ampdu_sz (kbytes); */
++
++		/* RTW_INFO("rtw_update_ht_cap(): max_ampdu_sz=%d\n", max_ampdu_sz); */
++		phtpriv->rx_ampdu_maxlen = max_ampdu_sz;
++
++	}
++
++
++	len = 0;
++	p = rtw_get_ie(pie + sizeof(NDIS_802_11_FIXED_IEs), _HT_ADD_INFO_IE_, &len, ie_len - sizeof(NDIS_802_11_FIXED_IEs));
++	if (p && len > 0) {
++		pht_addtinfo = (struct ieee80211_ht_addt_info *)(p + 2);
++		/* todo: */
++	}
++
++	if (hal_chk_bw_cap(padapter, BW_CAP_40M)) {
++		if (channel > 14) {
++			if (REGSTY_IS_BW_5G_SUPPORT(pregistrypriv, CHANNEL_WIDTH_40))
++				cbw40_enable = 1;
++		} else {
++			if (REGSTY_IS_BW_2G_SUPPORT(pregistrypriv, CHANNEL_WIDTH_40))
++				cbw40_enable = 1;
++		}
++	}
++
++	/* update cur_bwmode & cur_ch_offset */
++	if ((cbw40_enable) &&
++	    (pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info & BIT(1)) &&
++	    (pmlmeinfo->HT_info.infos[0] & BIT(2))) {
++		int i;
++		u8	rf_type = RF_1T1R;
++
++		rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++		/* update the MCS set */
++		for (i = 0; i < 16; i++)
++			pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate[i] &= pmlmeext->default_supported_mcs_set[i];
++
++		/* update the MCS rates */
++		switch (rf_type) {
++		case RF_1T1R:
++		case RF_1T2R:
++			set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_1R);
++			break;
++		case RF_2T2R:
++#ifdef CONFIG_DISABLE_MCS13TO15
++			if (pmlmeext->cur_bwmode == CHANNEL_WIDTH_40 && pregistrypriv->wifi_spec != 1)
++				set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_2R_13TO15_OFF);
++			else
++				set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_2R);
++#else /* CONFIG_DISABLE_MCS13TO15 */
++			set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_2R);
++#endif /* CONFIG_DISABLE_MCS13TO15 */
++			break;
++		case RF_3T3R:
++			set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_3R);
++			break;
++		default:
++			RTW_INFO("[warning] rf_type %d is not expected\n", rf_type);
++		}
++
++		/* switch to the 40M Hz mode accoring to the AP */
++		/* pmlmeext->cur_bwmode = CHANNEL_WIDTH_40; */
++		switch ((pmlmeinfo->HT_info.infos[0] & 0x3)) {
++		case EXTCHNL_OFFSET_UPPER:
++			pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++			break;
++
++		case EXTCHNL_OFFSET_LOWER:
++			pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++			break;
++
++		default:
++			pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++			break;
++		}
++	}
++
++	/*  */
++	/* Config SM Power Save setting */
++	/*  */
++	pmlmeinfo->SM_PS = (pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info & 0x0C) >> 2;
++	if (pmlmeinfo->SM_PS == WLAN_HT_CAP_SM_PS_STATIC) {
++#if 0
++		u8 i;
++		/* update the MCS rates */
++		for (i = 0; i < 16; i++)
++			pmlmeinfo->HT_caps.HT_cap_element.MCS_rate[i] &= MCS_rate_1R[i];
++#endif
++		RTW_INFO("%s(): WLAN_HT_CAP_SM_PS_STATIC\n", __FUNCTION__);
++	}
++
++	/*  */
++	/* Config current HT Protection mode. */
++	/*  */
++	pmlmeinfo->HT_protection = pmlmeinfo->HT_info.infos[1] & 0x3;
++
++
++
++#if 0 /* move to rtw_update_sta_info_client() */
++	/* for A-MPDU Rx reordering buffer control for bmc_sta & sta_info */
++	/* if A-MPDU Rx is enabled, reseting  rx_ordering_ctrl wstart_b(indicate_seq) to default value=0xffff */
++	/* todo: check if AP can send A-MPDU packets */
++	bmc_sta = rtw_get_bcmc_stainfo(padapter);
++	if (bmc_sta) {
++		for (i = 0; i < 16 ; i++) {
++			/* preorder_ctrl = &precvpriv->recvreorder_ctrl[i]; */
++			preorder_ctrl = &bmc_sta->recvreorder_ctrl[i];
++			preorder_ctrl->enable = _FALSE;
++			preorder_ctrl->indicate_seq = 0xffff;
++#ifdef DBG_RX_SEQ
++			RTW_INFO("DBG_RX_SEQ %s:%d indicate_seq:%u\n", __FUNCTION__, __LINE__,
++				 preorder_ctrl->indicate_seq);
++#endif
++			preorder_ctrl->wend_b = 0xffff;
++			preorder_ctrl->wsize_b = 64;/* max_ampdu_sz; */ /* ex. 32(kbytes) -> wsize_b=32 */
++		}
++	}
++
++	psta = rtw_get_stainfo(&padapter->stapriv, pcur_network->network.MacAddress);
++	if (psta) {
++		for (i = 0; i < 16 ; i++) {
++			/* preorder_ctrl = &precvpriv->recvreorder_ctrl[i]; */
++			preorder_ctrl = &psta->recvreorder_ctrl[i];
++			preorder_ctrl->enable = _FALSE;
++			preorder_ctrl->indicate_seq = 0xffff;
++#ifdef DBG_RX_SEQ
++			RTW_INFO("DBG_RX_SEQ %s:%d indicate_seq:%u\n", __FUNCTION__, __LINE__,
++				 preorder_ctrl->indicate_seq);
++#endif
++			preorder_ctrl->wend_b = 0xffff;
++			preorder_ctrl->wsize_b = 64;/* max_ampdu_sz; */ /* ex. 32(kbytes) -> wsize_b=32 */
++		}
++	}
++#endif
++
++}
++
++#ifdef CONFIG_TDLS
++void rtw_issue_addbareq_cmd_tdls(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	struct sta_info *ptdls_sta = NULL;
++	u8 issued;
++	int priority;
++	struct ht_priv	*phtpriv;
++
++	priority = pattrib->priority;
++
++	if (pattrib->direct_link == _TRUE) {
++		ptdls_sta = rtw_get_stainfo(&padapter->stapriv, pattrib->dst);
++		if ((ptdls_sta != NULL) && (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE)) {
++			phtpriv = &ptdls_sta->htpriv;
++
++			if ((phtpriv->ht_option == _TRUE) && (phtpriv->ampdu_enable == _TRUE)) {
++				issued = (phtpriv->agg_enable_bitmap >> priority) & 0x1;
++				issued |= (phtpriv->candidate_tid_bitmap >> priority) & 0x1;
++
++				if (0 == issued) {
++					RTW_INFO("[%s], p=%d\n", __FUNCTION__, priority);
++					ptdls_sta->htpriv.candidate_tid_bitmap |= BIT((u8)priority);
++					rtw_addbareq_cmd(padapter, (u8)priority, pattrib->dst);
++				}
++			}
++		}
++	}
++}
++#endif /* CONFIG_TDLS */
++
++void rtw_issue_addbareq_cmd(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	u8 issued;
++	int priority;
++	struct sta_info *psta = NULL;
++	struct ht_priv	*phtpriv;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	s32 bmcst = IS_MCAST(pattrib->ra);
++
++	/* if(bmcst || (padapter->mlmepriv.LinkDetectInfo.bTxBusyTraffic == _FALSE)) */
++	if (bmcst || (padapter->mlmepriv.LinkDetectInfo.NumTxOkInPeriod < 100))
++		return;
++
++	priority = pattrib->priority;
++
++#ifdef CONFIG_TDLS
++	rtw_issue_addbareq_cmd_tdls(padapter, pxmitframe);
++#endif /* CONFIG_TDLS */
++
++	psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++	if (pattrib->psta != psta) {
++		RTW_INFO("%s, pattrib->psta(%p) != psta(%p)\n", __func__, pattrib->psta, psta);
++		return;
++	}
++
++	if (psta == NULL) {
++		RTW_INFO("%s, psta==NUL\n", __func__);
++		return;
++	}
++
++	if (!(psta->state & _FW_LINKED)) {
++		RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++		return;
++	}
++
++
++	phtpriv = &psta->htpriv;
++
++	if ((phtpriv->ht_option == _TRUE) && (phtpriv->ampdu_enable == _TRUE)) {
++		issued = (phtpriv->agg_enable_bitmap >> priority) & 0x1;
++		issued |= (phtpriv->candidate_tid_bitmap >> priority) & 0x1;
++
++		if (0 == issued) {
++			RTW_INFO("rtw_issue_addbareq_cmd, p=%d\n", priority);
++			psta->htpriv.candidate_tid_bitmap |= BIT((u8)priority);
++			rtw_addbareq_cmd(padapter, (u8) priority, pattrib->ra);
++		}
++	}
++
++}
++
++void rtw_append_exented_cap(_adapter *padapter, u8 *out_ie, uint *pout_len)
++{
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct ht_priv		*phtpriv = &pmlmepriv->htpriv;
++#ifdef CONFIG_80211AC_VHT
++	struct vht_priv	*pvhtpriv = &pmlmepriv->vhtpriv;
++#endif /* CONFIG_80211AC_VHT */
++	u8	cap_content[8] = { 0 };
++	u8	*pframe;
++	u8   null_content[8] = {0};
++
++	if (phtpriv->bss_coexist)
++		SET_EXT_CAPABILITY_ELE_BSS_COEXIST(cap_content, 1);
++
++#ifdef CONFIG_80211AC_VHT
++	if (pvhtpriv->vht_option)
++		SET_EXT_CAPABILITY_ELE_OP_MODE_NOTIF(cap_content, 1);
++#endif /* CONFIG_80211AC_VHT */
++	/*
++		From 802.11 specification,if a STA does not support any of capabilities defined
++		in the Extended Capabilities element, then the STA is not required to
++		transmit the Extended Capabilities element.
++	*/
++	if (_FALSE == _rtw_memcmp(cap_content, null_content, 8))
++		pframe = rtw_set_ie(out_ie + *pout_len, EID_EXTCapability, 8, cap_content , pout_len);
++}
++#endif
++
++#ifdef CONFIG_LAYER2_ROAMING
++inline void rtw_set_to_roam(_adapter *adapter, u8 to_roam)
++{
++	if (to_roam == 0)
++		adapter->mlmepriv.to_join = _FALSE;
++	adapter->mlmepriv.to_roam = to_roam;
++}
++
++inline u8 rtw_dec_to_roam(_adapter *adapter)
++{
++	adapter->mlmepriv.to_roam--;
++	return adapter->mlmepriv.to_roam;
++}
++
++inline u8 rtw_to_roam(_adapter *adapter)
++{
++	return adapter->mlmepriv.to_roam;
++}
++
++void rtw_roaming(_adapter *padapter, struct wlan_network *tgt_network)
++{
++	_irqL irqL;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	_rtw_roaming(padapter, tgt_network);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++void _rtw_roaming(_adapter *padapter, struct wlan_network *tgt_network)
++{
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network *cur_network = &pmlmepriv->cur_network;
++	int do_join_r;
++
++	if (0 < rtw_to_roam(padapter)) {
++		RTW_INFO("roaming from %s("MAC_FMT"), length:%d\n",
++			cur_network->network.Ssid.Ssid, MAC_ARG(cur_network->network.MacAddress),
++			 cur_network->network.Ssid.SsidLength);
++		_rtw_memcpy(&pmlmepriv->assoc_ssid, &cur_network->network.Ssid, sizeof(NDIS_802_11_SSID));
++
++		pmlmepriv->assoc_by_bssid = _FALSE;
++
++#ifdef CONFIG_WAPI_SUPPORT
++		rtw_wapi_return_all_sta_info(padapter);
++#endif
++
++		while (1) {
++			do_join_r = rtw_do_join(padapter);
++			if (_SUCCESS == do_join_r)
++				break;
++			else {
++				RTW_INFO("roaming do_join return %d\n", do_join_r);
++				rtw_dec_to_roam(padapter);
++
++				if (rtw_to_roam(padapter) > 0)
++					continue;
++				else {
++					RTW_INFO("%s(%d) -to roaming fail, indicate_disconnect\n", __FUNCTION__, __LINE__);
++#ifdef CONFIG_RTW_80211R
++					rtw_clr_ft_flags(padapter, RTW_FT_SUPPORTED|RTW_FT_OVER_DS_SUPPORTED);
++					rtw_reset_ft_status(padapter);
++#endif
++					rtw_indicate_disconnect(padapter, 0, _FALSE);
++					break;
++				}
++			}
++		}
++	}
++
++}
++#endif /* CONFIG_LAYER2_ROAMING */
++
++bool rtw_adjust_chbw(_adapter *adapter, u8 req_ch, u8 *req_bw, u8 *req_offset)
++{
++	struct registry_priv *regsty = adapter_to_regsty(adapter);
++	u8 allowed_bw;
++
++	if (req_ch <= 14)
++		allowed_bw = REGSTY_BW_2G(regsty);
++	else
++		allowed_bw = REGSTY_BW_5G(regsty);
++
++	allowed_bw = hal_largest_bw(adapter, allowed_bw);
++
++	if (allowed_bw == CHANNEL_WIDTH_80 && *req_bw > CHANNEL_WIDTH_80)
++		*req_bw = CHANNEL_WIDTH_80;
++	else if (allowed_bw == CHANNEL_WIDTH_40 && *req_bw > CHANNEL_WIDTH_40)
++		*req_bw = CHANNEL_WIDTH_40;
++	else if (allowed_bw == CHANNEL_WIDTH_20 && *req_bw > CHANNEL_WIDTH_20) {
++		*req_bw = CHANNEL_WIDTH_20;
++		*req_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	} else
++		return _FALSE;
++
++	return _TRUE;
++}
++
++sint rtw_linked_check(_adapter *padapter)
++{
++	if ((check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE) ||
++	    (check_fwstate(&padapter->mlmepriv, WIFI_ADHOC_STATE | WIFI_ADHOC_MASTER_STATE) == _TRUE)) {
++		if (padapter->stapriv.asoc_sta_count > 2)
++			return _TRUE;
++	} else {
++		/* Station mode */
++		if (check_fwstate(&padapter->mlmepriv, _FW_LINKED) == _TRUE)
++			return _TRUE;
++	}
++	return _FALSE;
++}
++u8 rtw_is_adapter_up(_adapter *padapter)
++{
++	if (padapter == NULL)
++		return _FALSE;
++
++	if (RTW_CANNOT_RUN(padapter)) {
++		RTW_INFO(FUNC_ADPT_FMT "-(bSurpriseRemoved == _TRUE) || ( bDriverStopped == _TRUE)\n", FUNC_ADPT_ARG(padapter));
++		return _FALSE;
++	}
++
++	if (!rtw_is_hw_init_completed(padapter)) {
++		/*RTW_INFO(FUNC_ADPT_FMT "-(hw_init_completed == _FALSE)\n", FUNC_ADPT_ARG(padapter));*/
++		return _FALSE;
++	}
++
++	if (padapter->bup == _FALSE) {
++		/*RTW_INFO(FUNC_ADPT_FMT "-(bup == _FALSE)\n", FUNC_ADPT_ARG(padapter));*/
++		return _FALSE;
++	}
++
++	return _TRUE;
++}
++
++bool is_miracast_enabled(_adapter *adapter)
++{
++	bool enabled = 0;
++#ifdef CONFIG_WFD
++	struct wifi_display_info *wfdinfo = &adapter->wfd_info;
++
++	enabled = (wfdinfo->stack_wfd_mode & (MIRACAST_SOURCE | MIRACAST_SINK))
++		  || (wfdinfo->op_wfd_mode & (MIRACAST_SOURCE | MIRACAST_SINK));
++#endif
++
++	return enabled;
++}
++
++bool rtw_chk_miracast_mode(_adapter *adapter, u8 mode)
++{
++	bool ret = 0;
++#ifdef CONFIG_WFD
++	struct wifi_display_info *wfdinfo = &adapter->wfd_info;
++
++	ret = (wfdinfo->stack_wfd_mode & mode) || (wfdinfo->op_wfd_mode & mode);
++#endif
++
++	return ret;
++}
++
++const char *get_miracast_mode_str(int mode)
++{
++	if (mode == MIRACAST_SOURCE)
++		return "SOURCE";
++	else if (mode == MIRACAST_SINK)
++		return "SINK";
++	else if (mode == (MIRACAST_SOURCE | MIRACAST_SINK))
++		return "SOURCE&SINK";
++	else if (mode == MIRACAST_DISABLED)
++		return "DISABLED";
++	else
++		return "INVALID";
++}
++
++#ifdef CONFIG_WFD
++static bool wfd_st_match_rule(_adapter *adapter, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port)
++{
++	struct wifi_display_info *wfdinfo = &adapter->wfd_info;
++
++	if (ntohs(*((u16 *)local_port)) == wfdinfo->rtsp_ctrlport
++	    || ntohs(*((u16 *)local_port)) == wfdinfo->tdls_rtsp_ctrlport
++	    || ntohs(*((u16 *)remote_port)) == wfdinfo->peer_rtsp_ctrlport)
++		return _TRUE;
++	return _FALSE;
++}
++
++static struct st_register wfd_st_reg = {
++	.s_proto = 0x06,
++	.rule = wfd_st_match_rule,
++};
++#endif /* CONFIG_WFD */
++
++inline void rtw_wfd_st_switch(struct sta_info *sta, bool on)
++{
++#ifdef CONFIG_WFD
++	if (on)
++		rtw_st_ctl_register(&sta->st_ctl, SESSION_TRACKER_REG_ID_WFD, &wfd_st_reg);
++	else
++		rtw_st_ctl_unregister(&sta->st_ctl, SESSION_TRACKER_REG_ID_WFD);
++#endif
++}
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_mlme_ext.c b/drivers/net/wireless/rtl8723du/core/rtw_mlme_ext.c
+new file mode 100644
+index 0000000..3b12c43
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_mlme_ext.c
+@@ -0,0 +1,15621 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_MLME_EXT_C_
++
++#include <drv_types.h>
++#ifdef CONFIG_IOCTL_CFG80211
++	#include <rtw_wifi_regd.h>
++#endif /* CONFIG_IOCTL_CFG80211 */
++#include <hal_data.h>
++
++
++struct mlme_handler mlme_sta_tbl[] = {
++	{WIFI_ASSOCREQ,		"OnAssocReq",	&OnAssocReq},
++	{WIFI_ASSOCRSP,		"OnAssocRsp",	&OnAssocRsp},
++	{WIFI_REASSOCREQ,	"OnReAssocReq",	&OnAssocReq},
++	{WIFI_REASSOCRSP,	"OnReAssocRsp",	&OnAssocRsp},
++	{WIFI_PROBEREQ,		"OnProbeReq",	&OnProbeReq},
++	{WIFI_PROBERSP,		"OnProbeRsp",		&OnProbeRsp},
++
++	/*----------------------------------------------------------
++					below 2 are reserved
++	-----------------------------------------------------------*/
++	{0,					"DoReserved",		&DoReserved},
++	{0,					"DoReserved",		&DoReserved},
++	{WIFI_BEACON,		"OnBeacon",		&OnBeacon},
++	{WIFI_ATIM,			"OnATIM",		&OnAtim},
++	{WIFI_DISASSOC,		"OnDisassoc",		&OnDisassoc},
++	{WIFI_AUTH,			"OnAuth",		&OnAuthClient},
++	{WIFI_DEAUTH,		"OnDeAuth",		&OnDeAuth},
++	{WIFI_ACTION,		"OnAction",		&OnAction},
++	{WIFI_ACTION_NOACK, "OnActionNoAck",	&OnAction},
++};
++
++#ifdef _CONFIG_NATIVEAP_MLME_
++struct mlme_handler mlme_ap_tbl[] = {
++	{WIFI_ASSOCREQ,		"OnAssocReq",	&OnAssocReq},
++	{WIFI_ASSOCRSP,		"OnAssocRsp",	&OnAssocRsp},
++	{WIFI_REASSOCREQ,	"OnReAssocReq",	&OnAssocReq},
++	{WIFI_REASSOCRSP,	"OnReAssocRsp",	&OnAssocRsp},
++	{WIFI_PROBEREQ,		"OnProbeReq",	&OnProbeReq},
++	{WIFI_PROBERSP,		"OnProbeRsp",		&OnProbeRsp},
++
++	/*----------------------------------------------------------
++					below 2 are reserved
++	-----------------------------------------------------------*/
++	{0,					"DoReserved",		&DoReserved},
++	{0,					"DoReserved",		&DoReserved},
++	{WIFI_BEACON,		"OnBeacon",		&OnBeacon},
++	{WIFI_ATIM,			"OnATIM",		&OnAtim},
++	{WIFI_DISASSOC,		"OnDisassoc",		&OnDisassoc},
++	{WIFI_AUTH,			"OnAuth",		&OnAuth},
++	{WIFI_DEAUTH,		"OnDeAuth",		&OnDeAuth},
++	{WIFI_ACTION,		"OnAction",		&OnAction},
++	{WIFI_ACTION_NOACK, "OnActionNoAck",	&OnAction},
++};
++#endif
++
++struct action_handler OnAction_tbl[] = {
++	{RTW_WLAN_CATEGORY_SPECTRUM_MGMT,	 "ACTION_SPECTRUM_MGMT", on_action_spct},
++	{RTW_WLAN_CATEGORY_QOS, "ACTION_QOS", &OnAction_qos},
++	{RTW_WLAN_CATEGORY_DLS, "ACTION_DLS", &OnAction_dls},
++	{RTW_WLAN_CATEGORY_BACK, "ACTION_BACK", &OnAction_back},
++	{RTW_WLAN_CATEGORY_PUBLIC, "ACTION_PUBLIC", on_action_public},
++	{RTW_WLAN_CATEGORY_RADIO_MEASUREMENT, "ACTION_RADIO_MEASUREMENT", &DoReserved},
++	{RTW_WLAN_CATEGORY_FT, "ACTION_FT",	&OnAction_ft},
++	{RTW_WLAN_CATEGORY_HT,	"ACTION_HT",	&OnAction_ht},
++#ifdef CONFIG_IEEE80211W
++	{RTW_WLAN_CATEGORY_SA_QUERY, "ACTION_SA_QUERY", &OnAction_sa_query},
++#else
++	{RTW_WLAN_CATEGORY_SA_QUERY, "ACTION_SA_QUERY", &DoReserved},
++#endif /* CONFIG_IEEE80211W */
++#ifdef CONFIG_RTW_WNM
++	{RTW_WLAN_CATEGORY_WNM, "ACTION_WNM", &on_action_wnm},
++#endif
++	{RTW_WLAN_CATEGORY_UNPROTECTED_WNM, "ACTION_UNPROTECTED_WNM", &DoReserved},
++	{RTW_WLAN_CATEGORY_SELF_PROTECTED, "ACTION_SELF_PROTECTED", &DoReserved},
++	{RTW_WLAN_CATEGORY_WMM, "ACTION_WMM", &OnAction_wmm},
++	{RTW_WLAN_CATEGORY_VHT, "ACTION_VHT", &OnAction_vht},
++	{RTW_WLAN_CATEGORY_P2P, "ACTION_P2P", &OnAction_p2p},
++};
++
++
++u8	null_addr[ETH_ALEN] = {0, 0, 0, 0, 0, 0};
++
++/**************************************************
++OUI definitions for the vendor specific IE
++***************************************************/
++unsigned char	RTW_WPA_OUI[] = {0x00, 0x50, 0xf2, 0x01};
++unsigned char WMM_OUI[] = {0x00, 0x50, 0xf2, 0x02};
++unsigned char	WPS_OUI[] = {0x00, 0x50, 0xf2, 0x04};
++unsigned char	P2P_OUI[] = {0x50, 0x6F, 0x9A, 0x09};
++unsigned char	WFD_OUI[] = {0x50, 0x6F, 0x9A, 0x0A};
++
++unsigned char	WMM_INFO_OUI[] = {0x00, 0x50, 0xf2, 0x02, 0x00, 0x01};
++unsigned char	WMM_PARA_OUI[] = {0x00, 0x50, 0xf2, 0x02, 0x01, 0x01};
++
++unsigned char WPA_TKIP_CIPHER[4] = {0x00, 0x50, 0xf2, 0x02};
++unsigned char RSN_TKIP_CIPHER[4] = {0x00, 0x0f, 0xac, 0x02};
++
++extern unsigned char REALTEK_96B_IE[];
++
++#ifdef LEGACY_CHANNEL_PLAN_REF
++/********************************************************
++ChannelPlan definitions
++*********************************************************/
++static RT_CHANNEL_PLAN legacy_channel_plan[] = {
++	/* 0x00, RTW_CHPLAN_FCC */						{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 132, 136, 140, 149, 153, 157, 161, 165}, 32},
++	/* 0x01, RTW_CHPLAN_IC */						{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 136, 140, 149, 153, 157, 161, 165}, 31},
++	/* 0x02, RTW_CHPLAN_ETSI */						{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140}, 32},
++	/* 0x03, RTW_CHPLAN_SPAIN */						{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13}, 13},
++	/* 0x04, RTW_CHPLAN_FRANCE */					{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13}, 13},
++	/* 0x05, RTW_CHPLAN_MKK */						{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13}, 13},
++	/* 0x06, RTW_CHPLAN_MKK1 */						{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13}, 13},
++	/* 0x07, RTW_CHPLAN_ISRAEL */					{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 36, 40, 44, 48, 52, 56, 60, 64}, 21},
++	/* 0x08, RTW_CHPLAN_TELEC */						{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 36, 40, 44, 48, 52, 56, 60, 64}, 22},
++	/* 0x09, RTW_CHPLAN_GLOBAL_DOAMIN */			{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14}, 14},
++	/* 0x0A, RTW_CHPLAN_WORLD_WIDE_13 */			{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13}, 13},
++	/* 0x0B, RTW_CHPLAN_TAIWAN */					{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 56, 60, 64, 100, 104, 108, 112, 116, 136, 140, 149, 153, 157, 161, 165}, 26},
++	/* 0x0C, RTW_CHPLAN_CHINA */					{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 149, 153, 157, 161, 165}, 18},
++	/* 0x0D, RTW_CHPLAN_SINGAPORE_INDIA_MEXICO */	{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 36, 40, 44, 48, 52, 56, 60, 64, 149, 153, 157, 161, 165}, 24},
++	/* 0x0E, RTW_CHPLAN_KOREA */					{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 149, 153, 157, 161, 165}, 31},
++	/* 0x0F, RTW_CHPLAN_TURKEY */					{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 36, 40, 44, 48, 52, 56, 60, 64}, 19},
++	/* 0x10, RTW_CHPLAN_JAPAN */						{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140}, 32},
++	/* 0x11, RTW_CHPLAN_FCC_NO_DFS */				{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 36, 40, 44, 48, 149, 153, 157, 161, 165}, 20},
++	/* 0x12, RTW_CHPLAN_JAPAN_NO_DFS */				{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 36, 40, 44, 48}, 17},
++	/* 0x13, RTW_CHPLAN_WORLD_WIDE_5G */			{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140, 149, 153, 157, 161, 165}, 37},
++	/* 0x14, RTW_CHPLAN_TAIWAN_NO_DFS */			{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 56, 60, 64, 149, 153, 157, 161, 165}, 19},
++};
++#endif
++
++static RT_CHANNEL_PLAN_2G RTW_ChannelPlan2G[] = {
++	/* 0, RTW_RD_2G_NULL */		{{}, 0},
++	/* 1, RTW_RD_2G_WORLD */	{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13}, 13},
++	/* 2, RTW_RD_2G_ETSI1 */		{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13}, 13},
++	/* 3, RTW_RD_2G_FCC1 */		{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11}, 11},
++	/* 4, RTW_RD_2G_MKK1 */		{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14}, 14},
++	/* 5, RTW_RD_2G_ETSI2 */		{{10, 11, 12, 13}, 4},
++	/* 6, RTW_RD_2G_GLOBAL */	{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14}, 14},
++	/* 7, RTW_RD_2G_MKK2 */		{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13}, 13},
++	/* 8, RTW_RD_2G_FCC2 */		{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13}, 13},
++};
++
++static RT_CHANNEL_PLAN_5G RTW_ChannelPlan5G[] = {
++	/* 0, RTW_RD_5G_NULL */		{{}, 0},
++	/* 1, RTW_RD_5G_ETSI1 */		{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140}, 19},
++	/* 2, RTW_RD_5G_ETSI2 */		{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140, 149, 153, 157, 161, 165}, 24},
++	/* 3, RTW_RD_5G_ETSI3 */		{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 128, 132, 149, 153, 157, 161, 165}, 22},
++	/* 4, RTW_RD_5G_FCC1 */		{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140, 149, 153, 157, 161, 165}, 24},
++	/* 5, RTW_RD_5G_FCC2 */		{{36, 40, 44, 48, 149, 153, 157, 161, 165}, 9},
++	/* 6, RTW_RD_5G_FCC3 */		{{36, 40, 44, 48, 52, 56, 60, 64, 149, 153, 157, 161, 165}, 13},
++	/* 7, RTW_RD_5G_FCC4 */		{{36, 40, 44, 48, 52, 56, 60, 64, 149, 153, 157, 161}, 12},
++	/* 8, RTW_RD_5G_FCC5 */		{{149, 153, 157, 161, 165}, 5},
++	/* 9, RTW_RD_5G_FCC6 */		{{36, 40, 44, 48, 52, 56, 60, 64}, 8},
++	/* 10, RTW_RD_5G_FCC7 */	{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 132, 136, 140, 149, 153, 157, 161, 165}, 21},
++	/* 11, RTW_RD_5G_KCC1 */	{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 149, 153, 157, 161}, 19},
++	/* 12, RTW_RD_5G_MKK1 */	{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140}, 19},
++	/* 13, RTW_RD_5G_MKK2 */	{{36, 40, 44, 48, 52, 56, 60, 64}, 8},
++	/* 14, RTW_RD_5G_MKK3 */	{{100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140}, 11},
++	/* 15, RTW_RD_5G_NCC1 */	{{56, 60, 64, 100, 104, 108, 112, 116, 132, 136, 140, 149, 153, 157, 161, 165}, 16},
++	/* 16, RTW_RD_5G_NCC2 */	{{56, 60, 64, 149, 153, 157, 161, 165}, 8},
++	/* 17, RTW_RD_5G_NCC3 */	{{149, 153, 157, 161, 165}, 5},
++	/* 18, RTW_RD_5G_ETSI4 */	{{36, 40, 44, 48}, 4},
++	/* 19, RTW_RD_5G_ETSI5 */	{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 132, 136, 140, 149, 153, 157, 161, 165}, 21},
++	/* 20, RTW_RD_5G_FCC8 */	{{149, 153, 157, 161}, 4},
++	/* 21, RTW_RD_5G_ETSI6 */	{{36, 40, 44, 48, 52, 56, 60, 64}, 8},
++	/* 22, RTW_RD_5G_ETSI7 */	{{36, 40, 44, 48, 52, 56, 60, 64, 149, 153, 157, 161, 165}, 13},
++	/* 23, RTW_RD_5G_ETSI8 */	{{36, 40, 44, 48, 149, 153, 157, 161, 165}, 9},
++	/* 24, RTW_RD_5G_ETSI9 */	{{100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140}, 11},
++	/* 25, RTW_RD_5G_ETSI10 */	{{149, 153, 157, 161, 165}, 5},
++	/* 26, RTW_RD_5G_ETSI11 */	{{36, 40, 44, 48, 52, 56, 60, 64, 132, 136, 140, 149, 153, 157, 161, 165}, 16},
++	/* 27, RTW_RD_5G_NCC4 */	{{52, 56, 60, 64, 100, 104, 108, 112, 116, 132, 136, 140, 149, 153, 157, 161, 165}, 17},
++	/* 28, RTW_RD_5G_ETSI12 */	{{149, 153, 157, 161}, 4},
++	/* 29, RTW_RD_5G_FCC9 */	{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 132, 136, 140, 149, 153, 157, 161, 165}, 21},
++	/* 30, RTW_RD_5G_ETSI13 */	{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 132, 136, 140}, 16},
++	/* 31, RTW_RD_5G_FCC10 */	{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 132, 136, 140, 149, 153, 157, 161}, 20},
++	/* 32, RTW_RD_5G_MKK4 */	{{36, 40, 44, 48}, 4},
++	/* 33, RTW_RD_5G_ETSI14 */	{{36, 40, 44, 48, 52, 56, 60, 64, 132, 136, 140}, 11},
++
++	/* === Below are driver defined for legacy channel plan compatible, NO static index assigned ==== */
++	/* RTW_RD_5G_OLD_FCC1 */	{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 136, 140, 149, 153, 157, 161, 165}, 20},
++	/* RTW_RD_5G_OLD_NCC1 */	{{56, 60, 64, 100, 104, 108, 112, 116, 136, 140, 149, 153, 157, 161, 165}, 15},
++	/* RTW_RD_5G_OLD_KCC1 */	{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 149, 153, 157, 161, 165}, 20},
++};
++
++static RT_CHANNEL_PLAN_MAP	RTW_ChannelPlanMap[] = {
++	/* ===== 0x00 ~ 0x1F, legacy channel plan ===== */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_KCC1,		TXPWR_LMT_FCC},		/* 0x00, RTW_CHPLAN_FCC */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_OLD_FCC1,	TXPWR_LMT_FCC},		/* 0x01, RTW_CHPLAN_IC */
++	{RTW_RD_2G_ETSI1,	RTW_RD_5G_ETSI1,	TXPWR_LMT_ETSI},	/* 0x02, RTW_CHPLAN_ETSI */
++	{RTW_RD_2G_ETSI1,	RTW_RD_5G_NULL,		TXPWR_LMT_ETSI},	/* 0x03, RTW_CHPLAN_SPAIN */
++	{RTW_RD_2G_ETSI1,	RTW_RD_5G_NULL,		TXPWR_LMT_ETSI},	/* 0x04, RTW_CHPLAN_FRANCE */
++	{RTW_RD_2G_MKK1,	RTW_RD_5G_NULL,		TXPWR_LMT_MKK},		/* 0x05, RTW_CHPLAN_MKK */
++	{RTW_RD_2G_MKK1,	RTW_RD_5G_NULL,		TXPWR_LMT_MKK},		/* 0x06, RTW_CHPLAN_MKK1 */
++	{RTW_RD_2G_ETSI1,	RTW_RD_5G_FCC6,		TXPWR_LMT_ETSI},	/* 0x07, RTW_CHPLAN_ISRAEL */
++	{RTW_RD_2G_MKK1,	RTW_RD_5G_FCC6,		TXPWR_LMT_MKK},		/* 0x08, RTW_CHPLAN_TELEC */
++	{RTW_RD_2G_MKK1,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x09, RTW_CHPLAN_GLOBAL_DOAMIN */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x0A, RTW_CHPLAN_WORLD_WIDE_13 */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_OLD_NCC1,	TXPWR_LMT_FCC},		/* 0x0B, RTW_CHPLAN_TAIWAN */
++	{RTW_RD_2G_ETSI1,	RTW_RD_5G_FCC5,		TXPWR_LMT_ETSI},	/* 0x0C, RTW_CHPLAN_CHINA */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC3,		TXPWR_LMT_WW},		/* 0x0D, RTW_CHPLAN_SINGAPORE_INDIA_MEXICO */ /* ETSI:Singapore, India. FCC:Mexico => WW */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_OLD_KCC1,	TXPWR_LMT_ETSI},	/* 0x0E, RTW_CHPLAN_KOREA */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC6,		TXPWR_LMT_ETSI},	/* 0x0F, RTW_CHPLAN_TURKEY */
++	{RTW_RD_2G_ETSI1,	RTW_RD_5G_ETSI1,	TXPWR_LMT_MKK},		/* 0x10, RTW_CHPLAN_JAPAN */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC2,		TXPWR_LMT_FCC},		/* 0x11, RTW_CHPLAN_FCC_NO_DFS */
++	{RTW_RD_2G_ETSI1,	RTW_RD_5G_FCC7,		TXPWR_LMT_MKK},		/* 0x12, RTW_CHPLAN_JAPAN_NO_DFS */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_FCC1,		TXPWR_LMT_WW},		/* 0x13, RTW_CHPLAN_WORLD_WIDE_5G */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_NCC2,		TXPWR_LMT_FCC},		/* 0x14, RTW_CHPLAN_TAIWAN_NO_DFS */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_FCC7,		TXPWR_LMT_ETSI},	/* 0x15, RTW_CHPLAN_ETSI_NO_DFS */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_NCC1,		TXPWR_LMT_ETSI},	/* 0x16, RTW_CHPLAN_KOREA_NO_DFS */
++	{RTW_RD_2G_MKK1,	RTW_RD_5G_FCC7,		TXPWR_LMT_MKK},		/* 0x17, RTW_CHPLAN_JAPAN_NO_DFS */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_FCC5,		TXPWR_LMT_ETSI},	/* 0x18, RTW_CHPLAN_PAKISTAN_NO_DFS */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC5,		TXPWR_LMT_FCC},		/* 0x19, RTW_CHPLAN_TAIWAN2_NO_DFS */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x1A, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x1B, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x1C, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x1D, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x1E, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_FCC1,		TXPWR_LMT_WW},		/* 0x1F, RTW_CHPLAN_WORLD_WIDE_ONLY_5G */
++
++	/* ===== 0x20 ~ 0x7F, new channel plan ===== */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x20, RTW_CHPLAN_WORLD_NULL */
++	{RTW_RD_2G_ETSI1,	RTW_RD_5G_NULL,		TXPWR_LMT_ETSI},	/* 0x21, RTW_CHPLAN_ETSI1_NULL */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_NULL,		TXPWR_LMT_FCC},		/* 0x22, RTW_CHPLAN_FCC1_NULL */
++	{RTW_RD_2G_MKK1,	RTW_RD_5G_NULL,		TXPWR_LMT_MKK},		/* 0x23, RTW_CHPLAN_MKK1_NULL */
++	{RTW_RD_2G_ETSI2,	RTW_RD_5G_NULL,		TXPWR_LMT_ETSI},	/* 0x24, RTW_CHPLAN_ETSI2_NULL */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC1,		TXPWR_LMT_FCC},		/* 0x25, RTW_CHPLAN_FCC1_FCC1 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI1,	TXPWR_LMT_ETSI},	/* 0x26, RTW_CHPLAN_WORLD_ETSI1 */
++	{RTW_RD_2G_MKK1,	RTW_RD_5G_MKK1,		TXPWR_LMT_MKK},		/* 0x27, RTW_CHPLAN_MKK1_MKK1 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_KCC1,		TXPWR_LMT_ETSI},	/* 0x28, RTW_CHPLAN_WORLD_KCC1 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_FCC2,		TXPWR_LMT_FCC},		/* 0x29, RTW_CHPLAN_WORLD_FCC2 */
++	{RTW_RD_2G_FCC2,	RTW_RD_5G_NULL,		TXPWR_LMT_FCC},		/* 0x2A, RTW_CHPLAN_FCC2_NULL */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x2B, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x2C, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x2D, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x2E, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x2F, */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_FCC3,		TXPWR_LMT_FCC},		/* 0x30, RTW_CHPLAN_WORLD_FCC3 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_FCC4,		TXPWR_LMT_FCC},		/* 0x31, RTW_CHPLAN_WORLD_FCC4 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_FCC5,		TXPWR_LMT_FCC},		/* 0x32, RTW_CHPLAN_WORLD_FCC5 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_FCC6,		TXPWR_LMT_FCC},		/* 0x33, RTW_CHPLAN_WORLD_FCC6 */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC7,		TXPWR_LMT_FCC},		/* 0x34, RTW_CHPLAN_FCC1_FCC7 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI2,	TXPWR_LMT_ETSI},	/* 0x35, RTW_CHPLAN_WORLD_ETSI2 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI3,	TXPWR_LMT_ETSI},	/* 0x36, RTW_CHPLAN_WORLD_ETSI3 */
++	{RTW_RD_2G_MKK1,	RTW_RD_5G_MKK2,		TXPWR_LMT_MKK},		/* 0x37, RTW_CHPLAN_MKK1_MKK2 */
++	{RTW_RD_2G_MKK1,	RTW_RD_5G_MKK3,		TXPWR_LMT_MKK},		/* 0x38, RTW_CHPLAN_MKK1_MKK3 */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_NCC1,		TXPWR_LMT_FCC},		/* 0x39, RTW_CHPLAN_FCC1_NCC1 */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x3A, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x3B, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x3C, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x3D, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x3E, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x3F, */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_NCC2,		TXPWR_LMT_FCC},		/* 0x40, RTW_CHPLAN_FCC1_NCC2 */
++	{RTW_RD_2G_GLOBAL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x41, RTW_CHPLAN_GLOBAL_NULL */
++	{RTW_RD_2G_ETSI1,	RTW_RD_5G_ETSI4,	TXPWR_LMT_ETSI},	/* 0x42, RTW_CHPLAN_ETSI1_ETSI4 */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC2,		TXPWR_LMT_FCC},		/* 0x43, RTW_CHPLAN_FCC1_FCC2 */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_NCC3,		TXPWR_LMT_FCC},		/* 0x44, RTW_CHPLAN_FCC1_NCC3 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI5,	TXPWR_LMT_ETSI},	/* 0x45, RTW_CHPLAN_WORLD_ETSI5 */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC8,		TXPWR_LMT_FCC},		/* 0x46, RTW_CHPLAN_FCC1_FCC8 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI6,	TXPWR_LMT_ETSI},	/* 0x47, RTW_CHPLAN_WORLD_ETSI6 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI7,	TXPWR_LMT_ETSI},	/* 0x48, RTW_CHPLAN_WORLD_ETSI7 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI8,	TXPWR_LMT_ETSI},	/* 0x49, RTW_CHPLAN_WORLD_ETSI8 */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x4A, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x4B, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x4C, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x4D, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x4E, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x4F, */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI9,	TXPWR_LMT_ETSI},	/* 0x50, RTW_CHPLAN_WORLD_ETSI9 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI10,	TXPWR_LMT_ETSI},	/* 0x51, RTW_CHPLAN_WORLD_ETSI10 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI11,	TXPWR_LMT_ETSI},	/* 0x52, RTW_CHPLAN_WORLD_ETSI11 */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_NCC4,		TXPWR_LMT_FCC},		/* 0x53, RTW_CHPLAN_FCC1_NCC4 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI12,	TXPWR_LMT_ETSI},	/* 0x54, RTW_CHPLAN_WORLD_ETSI12 */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC9,		TXPWR_LMT_FCC},		/* 0x55, RTW_CHPLAN_FCC1_FCC9 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI13,	TXPWR_LMT_ETSI},	/* 0x56, RTW_CHPLAN_WORLD_ETSI13 */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC10,	TXPWR_LMT_FCC},		/* 0x57, RTW_CHPLAN_FCC1_FCC10 */
++	{RTW_RD_2G_MKK2,	RTW_RD_5G_MKK4,		TXPWR_LMT_MKK},		/* 0x58, RTW_CHPLAN_MKK2_MKK4 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI14,	TXPWR_LMT_ETSI},	/* 0x59, RTW_CHPLAN_WORLD_ETSI14 */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x5A, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x5B, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x5C, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x5D, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x5E, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x5F, */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC5,		TXPWR_LMT_FCC},		/* 0x60, RTW_CHPLAN_FCC1_FCC5 */
++};
++
++static RT_CHANNEL_PLAN_MAP RTW_CHANNEL_PLAN_MAP_REALTEK_DEFINE = {
++	RTW_RD_2G_WORLD,	RTW_RD_5G_FCC1,		TXPWR_LMT_FCC		/* 0x7F, Realtek Define */
++};
++
++bool rtw_chplan_is_empty(u8 id)
++{
++	RT_CHANNEL_PLAN_MAP *chplan_map;
++
++	if (id == RTW_CHPLAN_REALTEK_DEFINE)
++		chplan_map = &RTW_CHANNEL_PLAN_MAP_REALTEK_DEFINE;
++	else
++		chplan_map = &RTW_ChannelPlanMap[id];
++
++	if (chplan_map->Index2G == RTW_RD_2G_NULL
++		&& chplan_map->Index5G == RTW_RD_5G_NULL)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++void rtw_rfctl_init(_adapter *adapter)
++{
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++
++	_rtw_memset(rfctl, 0, sizeof(*rfctl));
++
++#ifdef CONFIG_DFS_MASTER
++	rfctl->cac_start_time = rfctl->cac_end_time = RTW_CAC_STOPPED;
++
++	/* TODO: dfs_master_timer */
++#endif
++}
++
++#ifdef CONFIG_DFS_MASTER
++/*
++* called in rtw_dfs_master_enable()
++* assume the request channel coverage is DFS range
++* base on the current status and the request channel coverage to check if need to reset complete CAC time
++*/
++bool rtw_is_cac_reset_needed(_adapter *adapter, u8 ch, u8 bw, u8 offset)
++{
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++	bool needed = _FALSE;
++	u32 cur_hi, cur_lo, hi, lo;
++
++	if (rfctl->radar_detected == 1) {
++		needed = _TRUE;
++		goto exit;
++	}
++
++	if (rfctl->radar_detect_ch == 0) {
++		needed = _TRUE;
++		goto exit;
++	}
++
++	if (rtw_chbw_to_freq_range(ch, bw, offset, &hi, &lo) == _FALSE) {
++		RTW_ERR("request detection range ch:%u, bw:%u, offset:%u\n", ch, bw, offset);
++		rtw_warn_on(1);
++	}
++
++	if (rtw_chbw_to_freq_range(rfctl->radar_detect_ch, rfctl->radar_detect_bw, rfctl->radar_detect_offset, &cur_hi, &cur_lo) == _FALSE) {
++		RTW_ERR("cur detection range ch:%u, bw:%u, offset:%u\n", rfctl->radar_detect_ch, rfctl->radar_detect_bw, rfctl->radar_detect_offset);
++		rtw_warn_on(1);
++	}
++
++	if (hi <= lo || cur_hi <= cur_lo) {
++		RTW_ERR("hi:%u, lo:%u, cur_hi:%u, cur_lo:%u\n", hi, lo, cur_hi, cur_lo);
++		rtw_warn_on(1);
++	}
++
++	if (rtw_is_range_a_in_b(hi, lo, cur_hi, cur_lo)) {
++		/* request is in current detect range */
++		goto exit;
++	}
++
++	/* check if request channel coverage has new range and the new range is in DFS range */
++	if (!rtw_is_range_overlap(hi, lo, cur_hi, cur_lo)) {
++		/* request has no overlap with current */
++		needed = _TRUE;
++	} else if (rtw_is_range_a_in_b(cur_hi, cur_lo, hi, lo)) {
++		/* request is supper set of current */
++		if ((hi != cur_hi && rtw_is_dfs_range(hi, cur_hi)) || (lo != cur_lo && rtw_is_dfs_range(cur_lo, lo)))
++			needed = _TRUE;
++	} else {
++		/* request is not supper set of current, but has overlap */
++		if ((lo < cur_lo && rtw_is_dfs_range(cur_lo, lo)) || (hi > cur_hi && rtw_is_dfs_range(hi, cur_hi)))
++			needed = _TRUE;
++	}
++
++exit:
++	return needed;
++}
++
++bool _rtw_rfctl_overlap_radar_detect_ch(struct rf_ctl_t *rfctl, u8 ch, u8 bw, u8 offset)
++{
++	bool ret = _FALSE;
++	u32 hi = 0, lo = 0;
++	u32 r_hi = 0, r_lo = 0;
++	int i;
++
++	if (rfctl->radar_detect_by_others)
++		goto exit;
++
++	if (rfctl->radar_detect_ch == 0)
++		goto exit;
++
++	if (rtw_chbw_to_freq_range(ch, bw, offset, &hi, &lo) == _FALSE) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (rtw_chbw_to_freq_range(rfctl->radar_detect_ch
++			, rfctl->radar_detect_bw, rfctl->radar_detect_offset
++			, &r_hi, &r_lo) == _FALSE) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (rtw_is_range_overlap(hi, lo, r_hi, r_lo))
++		ret = _TRUE;
++
++exit:
++	return ret;
++}
++
++bool rtw_rfctl_overlap_radar_detect_ch(struct rf_ctl_t *rfctl)
++{
++	return _rtw_rfctl_overlap_radar_detect_ch(rfctl
++				, rfctl_to_dvobj(rfctl)->oper_channel
++				, rfctl_to_dvobj(rfctl)->oper_bwmode
++				, rfctl_to_dvobj(rfctl)->oper_ch_offset);
++}
++
++bool rtw_rfctl_is_tx_blocked_by_ch_waiting(struct rf_ctl_t *rfctl)
++{
++	return rtw_rfctl_overlap_radar_detect_ch(rfctl) && IS_CH_WAITING(rfctl);
++}
++
++bool rtw_chset_is_ch_non_ocp(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset)
++{
++	bool ret = _FALSE;
++	u32 hi = 0, lo = 0;
++	int i;
++
++	if (rtw_chbw_to_freq_range(ch, bw, offset, &hi, &lo) == _FALSE)
++		goto exit;
++
++	for (i = 0; ch_set[i].ChannelNum != 0; i++) {
++		if (!rtw_ch2freq(ch_set[i].ChannelNum)) {
++			rtw_warn_on(1);
++			continue;
++		}
++
++		if (!CH_IS_NON_OCP(&ch_set[i]))
++			continue;
++
++		if (lo <= rtw_ch2freq(ch_set[i].ChannelNum)
++			&& rtw_ch2freq(ch_set[i].ChannelNum) <= hi
++		) {
++			ret = _TRUE;
++			break;
++		}
++	}
++
++exit:
++	return ret;
++}
++
++u32 rtw_chset_get_ch_non_ocp_ms(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset)
++{
++	int ms = 0;
++	u32 current_time;
++	u32 hi = 0, lo = 0;
++	int i;
++
++	if (rtw_chbw_to_freq_range(ch, bw, offset, &hi, &lo) == _FALSE)
++		goto exit;
++
++	current_time = rtw_get_current_time();
++
++	for (i = 0; ch_set[i].ChannelNum != 0; i++) {
++		if (!rtw_ch2freq(ch_set[i].ChannelNum)) {
++			rtw_warn_on(1);
++			continue;
++		}
++
++		if (!CH_IS_NON_OCP(&ch_set[i]))
++			continue;
++
++		if (lo <= rtw_ch2freq(ch_set[i].ChannelNum)
++			&& rtw_ch2freq(ch_set[i].ChannelNum) <= hi
++		) {
++			if (rtw_systime_to_ms(ch_set[i].non_ocp_end_time - current_time) > ms)
++				ms = rtw_systime_to_ms(ch_set[i].non_ocp_end_time - current_time);
++		}
++	}
++
++exit:
++	return ms;
++}
++
++/**
++ * rtw_chset_update_non_ocp - update non_ocp_end_time according to the given @ch, @bw, @offset into @ch_set
++ * @ch_set: the given channel set
++ * @ch: channel number on which radar is detected
++ * @bw: bandwidth on which radar is detected
++ * @offset: bandwidth offset on which radar is detected
++ * @ms: ms to add from now to update non_ocp_end_time, ms < 0 means use NON_OCP_TIME_MS
++ */
++static void _rtw_chset_update_non_ocp(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset, int ms)
++{
++	u32 hi = 0, lo = 0;
++	int i;
++
++	if (rtw_chbw_to_freq_range(ch, bw, offset, &hi, &lo) == _FALSE)
++		goto exit;
++
++	for (i = 0; ch_set[i].ChannelNum != 0; i++) {
++		if (!rtw_ch2freq(ch_set[i].ChannelNum)) {
++			rtw_warn_on(1);
++			continue;
++		}
++
++		if (lo <= rtw_ch2freq(ch_set[i].ChannelNum)
++			&& rtw_ch2freq(ch_set[i].ChannelNum) <= hi
++		) {
++			if (ms >= 0)
++				ch_set[i].non_ocp_end_time = rtw_get_current_time() + rtw_ms_to_systime(ms);
++			else
++				ch_set[i].non_ocp_end_time = rtw_get_current_time() + rtw_ms_to_systime(NON_OCP_TIME_MS);
++		}
++	}
++
++exit:
++	return;
++}
++
++inline void rtw_chset_update_non_ocp(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset)
++{
++	_rtw_chset_update_non_ocp(ch_set, ch, bw, offset, -1);
++}
++
++inline void rtw_chset_update_non_ocp_ms(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset, int ms)
++{
++	_rtw_chset_update_non_ocp(ch_set, ch, bw, offset, ms);
++}
++
++u32 rtw_get_ch_waiting_ms(_adapter *adapter, u8 ch, u8 bw, u8 offset, u32 *r_non_ocp_ms, u32 *r_cac_ms)
++{
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++	u32 non_ocp_ms;
++	u32 cac_ms;
++	u8 in_rd_range = 0; /* if in current radar detection range*/
++
++	if (rtw_chset_is_ch_non_ocp(mlmeext->channel_set, ch, bw, offset))
++		non_ocp_ms = rtw_chset_get_ch_non_ocp_ms(mlmeext->channel_set, ch, bw, offset);
++	else
++		non_ocp_ms = 0;
++
++	if (rfctl->dfs_master_enabled) {
++		u32 cur_hi, cur_lo, hi, lo;
++
++		if (rtw_chbw_to_freq_range(ch, bw, offset, &hi, &lo) == _FALSE) {
++			RTW_ERR("input range ch:%u, bw:%u, offset:%u\n", ch, bw, offset);
++			rtw_warn_on(1);
++		}
++
++		if (rtw_chbw_to_freq_range(rfctl->radar_detect_ch, rfctl->radar_detect_bw, rfctl->radar_detect_offset, &cur_hi, &cur_lo) == _FALSE) {
++			RTW_ERR("cur detection range ch:%u, bw:%u, offset:%u\n", rfctl->radar_detect_ch, rfctl->radar_detect_bw, rfctl->radar_detect_offset);
++			rtw_warn_on(1);
++		}
++
++		if (rtw_is_range_a_in_b(hi, lo, cur_hi, cur_lo))
++			in_rd_range = 1;
++	}
++
++	if (!rtw_is_dfs_ch(ch, bw, offset))
++		cac_ms = 0;
++	else if (in_rd_range && !non_ocp_ms) {
++		if (IS_CH_WAITING(rfctl))
++			cac_ms = rtw_systime_to_ms(rfctl->cac_end_time - rtw_get_current_time());
++		else
++			cac_ms = 0;
++	} else if (rtw_is_long_cac_ch(ch, bw, offset, rtw_odm_get_dfs_domain(adapter)))
++		cac_ms = CAC_TIME_CE_MS;
++	else
++		cac_ms = CAC_TIME_MS;
++
++	if (r_non_ocp_ms)
++		*r_non_ocp_ms = non_ocp_ms;
++	if (r_cac_ms)
++		*r_cac_ms = cac_ms;
++
++	return non_ocp_ms + cac_ms;
++}
++
++void rtw_reset_cac(_adapter *adapter, u8 ch, u8 bw, u8 offset)
++{
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++	u32 non_ocp_ms;
++	u32 cac_ms;
++
++	rtw_get_ch_waiting_ms(adapter
++		, ch
++		, bw
++		, offset
++		, &non_ocp_ms
++		, &cac_ms
++	);
++
++	rfctl->cac_start_time = rtw_get_current_time() + rtw_ms_to_systime(non_ocp_ms);
++	rfctl->cac_end_time = rfctl->cac_start_time + rtw_ms_to_systime(cac_ms);
++
++	/* skip special value */
++	if (rfctl->cac_start_time == RTW_CAC_STOPPED) {
++		rfctl->cac_start_time++;
++		rfctl->cac_end_time++;
++	}
++	if (rfctl->cac_end_time == RTW_CAC_STOPPED)
++		rfctl->cac_end_time++;
++}
++
++/* choose channel with shortest waiting (non ocp + cac) time */
++bool rtw_choose_shortest_waiting_ch(_adapter *adapter, u8 req_bw, u8 *dec_ch, u8 *dec_bw, u8 *dec_offset, u8 d_flags)
++{
++#ifndef DBG_CHOOSE_SHORTEST_WAITING_CH
++#define DBG_CHOOSE_SHORTEST_WAITING_CH 0
++#endif
++
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++	struct registry_priv *regsty = adapter_to_regsty(adapter);
++	u8 ch, bw, offset;
++	u8 ch_c = 0, bw_c = 0, offset_c = 0;
++	int i;
++	u32 min_waiting_ms = 0;
++
++	if (!dec_ch || !dec_bw || !dec_offset) {
++		rtw_warn_on(1);
++		return _FALSE;
++	}
++
++	/* full search and narrow bw judegement first to avoid potetial judegement timing issue */
++	for (bw = CHANNEL_WIDTH_20; bw <= req_bw; bw++) {
++		if (!hal_is_bw_support(adapter, bw))
++			continue;
++
++		for (i = 0; i < mlmeext->max_chan_nums; i++) {
++			u32 non_ocp_ms;
++			u32 cac_ms;
++			u32 waiting_ms;
++
++			ch = mlmeext->channel_set[i].ChannelNum;
++
++			if ((d_flags & RTW_CHF_2G) && ch <= 14)
++				continue;
++
++			if ((d_flags & RTW_CHF_5G) && ch > 14)
++				continue;
++
++			if (ch > 14) {
++				if (bw > REGSTY_BW_5G(regsty))
++					continue;
++			} else {
++				if (bw > REGSTY_BW_2G(regsty))
++					continue;
++			}
++
++			if (!rtw_get_offset_by_chbw(ch, bw, &offset))
++				continue;
++
++			if (!rtw_chset_is_chbw_valid(mlmeext->channel_set, ch, bw, offset))
++				continue;
++
++			if ((d_flags & RTW_CHF_NON_OCP) && rtw_chset_is_ch_non_ocp(mlmeext->channel_set, ch, bw, offset))
++				continue;
++
++			if ((d_flags & RTW_CHF_DFS) && rtw_is_dfs_ch(ch, bw, offset))
++				continue;
++
++			if ((d_flags & RTW_CHF_LONG_CAC) && rtw_is_long_cac_ch(ch, bw, offset, rtw_odm_get_dfs_domain(adapter)))
++				continue;
++
++			if ((d_flags & RTW_CHF_NON_DFS) && !rtw_is_dfs_ch(ch, bw, offset))
++				continue;
++
++			if ((d_flags & RTW_CHF_NON_LONG_CAC) && !rtw_is_long_cac_ch(ch, bw, offset, rtw_odm_get_dfs_domain(adapter)))
++				continue;
++
++			waiting_ms = rtw_get_ch_waiting_ms(adapter, ch, bw, offset, &non_ocp_ms, &cac_ms);
++
++			if (DBG_CHOOSE_SHORTEST_WAITING_CH)
++				RTW_INFO(FUNC_ADPT_FMT":%u,%u,%u %u(non_ocp:%u, cac:%u)\n"
++					, FUNC_ADPT_ARG(adapter), ch, bw, offset, waiting_ms, non_ocp_ms, cac_ms);
++
++			if (ch_c == 0
++				|| min_waiting_ms > waiting_ms
++				|| (min_waiting_ms == waiting_ms && bw > bw_c) /* wider bw first */
++			) {
++				ch_c = ch;
++				bw_c = bw;
++				offset_c = offset;
++				min_waiting_ms = waiting_ms;
++			}
++		}
++	}
++
++	if (ch_c != 0) {
++		RTW_INFO(FUNC_ADPT_FMT": d_flags:0x%02x %u,%u,%u waiting_ms:%u\n"
++			, FUNC_ADPT_ARG(adapter), d_flags, ch_c, bw_c, offset_c, min_waiting_ms);
++
++		*dec_ch = ch_c;
++		*dec_bw = bw_c;
++		*dec_offset = offset_c;
++		return _TRUE;
++	}
++
++	if (d_flags == 0)
++		rtw_warn_on(1);
++
++	return _FALSE;
++}
++#endif /* CONFIG_DFS_MASTER */
++
++void dump_country_chplan(void *sel, const struct country_chplan *ent)
++{
++	_RTW_PRINT_SEL(sel, "\"%c%c\", 0x%02X%s\n"
++		, ent->alpha2[0], ent->alpha2[1], ent->chplan
++		, COUNTRY_CHPLAN_EN_11AC(ent) ? " ac" : ""
++	);
++}
++
++void dump_country_chplan_map(void *sel)
++{
++	const struct country_chplan *ent;
++	u8 code[2];
++
++#if RTW_DEF_MODULE_REGULATORY_CERT
++	_RTW_PRINT_SEL(sel, "RTW_DEF_MODULE_REGULATORY_CERT:0x%x\n", RTW_DEF_MODULE_REGULATORY_CERT);
++#endif
++#ifdef CONFIG_CUSTOMIZED_COUNTRY_CHPLAN_MAP
++	_RTW_PRINT_SEL(sel, "CONFIG_CUSTOMIZED_COUNTRY_CHPLAN_MAP\n");
++#endif
++
++	for (code[0] = 'A'; code[0] <= 'Z'; code[0]++) {
++		for (code[1] = 'A'; code[1] <= 'Z'; code[1]++) {
++			ent = rtw_get_chplan_from_country(code);
++			if (!ent)
++				continue;
++
++			dump_country_chplan(sel, ent);
++		}
++	}
++}
++
++void dump_chplan_id_list(void *sel)
++{
++	int i;
++
++	for (i = 0; i < RTW_CHPLAN_MAX; i++) {
++		if (!rtw_is_channel_plan_valid(i))
++			continue;
++
++		_RTW_PRINT_SEL(sel, "0x%02X ", i);
++	}
++
++	RTW_PRINT_SEL(sel, "0x7F\n");
++}
++
++void dump_chplan_test(void *sel)
++{
++	int i, j;
++
++	/* check invalid channel */
++	for (i = 0; i < RTW_RD_2G_MAX; i++) {
++		for (j = 0; j < RTW_ChannelPlan2G[i].Len; j++) {
++			if (rtw_ch2freq(RTW_ChannelPlan2G[i].Channel[j]) == 0)
++				RTW_PRINT_SEL(sel, "invalid ch:%u at (%d,%d)\n", RTW_ChannelPlan2G[i].Channel[j], i, j);
++		}
++	}
++
++	for (i = 0; i < RTW_RD_5G_MAX; i++) {
++		for (j = 0; j < RTW_ChannelPlan5G[i].Len; j++) {
++			if (rtw_ch2freq(RTW_ChannelPlan5G[i].Channel[j]) == 0)
++				RTW_PRINT_SEL(sel, "invalid ch:%u at (%d,%d)\n", RTW_ChannelPlan5G[i].Channel[j], i, j);
++		}
++	}
++}
++
++void dump_chset(void *sel, RT_CHANNEL_INFO *ch_set)
++{
++	u8	i;
++
++	for (i = 0; ch_set[i].ChannelNum != 0; i++) {
++		RTW_PRINT_SEL(sel, "ch:%3u, freq:%u, scan_type:%d"
++			, ch_set[i].ChannelNum, rtw_ch2freq(ch_set[i].ChannelNum), ch_set[i].ScanType);
++
++#ifdef CONFIG_FIND_BEST_CHANNEL
++		_RTW_PRINT_SEL(sel, ", rx_count:%u", ch_set[i].rx_count);
++#endif
++
++#ifdef CONFIG_DFS_MASTER
++		if (rtw_is_dfs_ch(ch_set[i].ChannelNum, CHANNEL_WIDTH_20, HAL_PRIME_CHNL_OFFSET_DONT_CARE)) {
++			if (CH_IS_NON_OCP(&ch_set[i]))
++				_RTW_PRINT_SEL(sel, ", non_ocp:%d"
++					, rtw_systime_to_ms(ch_set[i].non_ocp_end_time - rtw_get_current_time()));
++			else
++				_RTW_PRINT_SEL(sel, ", non_ocp:N/A");
++		}
++#endif
++
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++
++	RTW_PRINT_SEL(sel, "total ch number:%d\n", i);
++}
++
++void dump_cur_chset(void *sel, _adapter *adapter)
++{
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++	struct registry_priv *regsty = adapter_to_regsty(adapter);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	int i;
++
++	if (mlme->country_ent)
++		dump_country_chplan(sel, mlme->country_ent);
++	else
++		RTW_PRINT_SEL(sel, "chplan:0x%02X\n", mlme->ChannelPlan);
++
++	RTW_PRINT_SEL(sel, "2G_PLS:%u, 5G_PLS:%u\n"
++		, hal_data->Regulation2_4G, hal_data->Regulation5G);
++
++	for (i = 0; i < MAX_CHANNEL_NUM; i++)
++		if (regsty->excl_chs[i] != 0)
++			break;
++
++	if (i < MAX_CHANNEL_NUM) {
++		_RTW_PRINT_SEL(sel, "excl_chs:");
++		for (i = 0; i < MAX_CHANNEL_NUM; i++) {
++			if (regsty->excl_chs[i] == 0)
++				break;
++			_RTW_PRINT_SEL(sel, "%u ", regsty->excl_chs[i]);
++		}
++		RTW_PRINT_SEL(sel, "\n");
++	}
++
++	dump_chset(sel, mlmeext->channel_set);
++}
++
++/*
++ * Search the @param ch in given @param ch_set
++ * @ch_set: the given channel set
++ * @ch: the given channel number
++ *
++ * return the index of channel_num in channel_set, -1 if not found
++ */
++int rtw_ch_set_search_ch(RT_CHANNEL_INFO *ch_set, const u32 ch)
++{
++	int i;
++	for (i = 0; ch_set[i].ChannelNum != 0; i++) {
++		if (ch == ch_set[i].ChannelNum)
++			break;
++	}
++
++	if (i >= ch_set[i].ChannelNum)
++		return -1;
++	return i;
++}
++
++/*
++ * Check if the @param ch, bw, offset is valid for the given @param ch_set
++ * @ch_set: the given channel set
++ * @ch: the given channel number
++ * @bw: the given bandwidth
++ * @offset: the given channel offset
++ *
++ * return valid (1) or not (0)
++ */
++u8 rtw_chset_is_chbw_valid(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset)
++{
++	u8 cch;
++	u8 *op_chs;
++	u8 op_ch_num;
++	u8 valid = 0;
++	int i;
++
++	cch = rtw_get_center_ch(ch, bw, offset);
++
++	if (!rtw_get_op_chs_by_cch_bw(cch, bw, &op_chs, &op_ch_num))
++		goto exit;
++
++	for (i = 0; i < op_ch_num; i++) {
++		if (0)
++			RTW_INFO("%u,%u,%u - cch:%u, bw:%u, op_ch:%u\n", ch, bw, offset, cch, bw, *(op_chs + i));
++		if (rtw_ch_set_search_ch(ch_set, *(op_chs + i)) == -1)
++			break;
++	}
++
++	if (op_ch_num != 0 && i == op_ch_num)
++		valid = 1;
++
++exit:
++	return valid;
++}
++
++/*
++ * Check the @param ch is fit with setband setting of @param adapter
++ * @adapter: the given adapter
++ * @ch: the given channel number
++ *
++ * return _TRUE when check valid, _FALSE not valid
++ */
++bool rtw_mlme_band_check(_adapter *adapter, const u32 ch)
++{
++	if (adapter->setband == WIFI_FREQUENCY_BAND_AUTO /* 2.4G and 5G */
++		|| (adapter->setband == WIFI_FREQUENCY_BAND_2GHZ && ch < 35) /* 2.4G only */
++		|| (adapter->setband == WIFI_FREQUENCY_BAND_5GHZ && ch > 35) /* 5G only */
++	)
++		return _TRUE;
++	return _FALSE;
++}
++inline void RTW_SET_SCAN_BAND_SKIP(_adapter *padapter, int skip_band)
++{
++	int bs = ATOMIC_READ(&padapter->bandskip);
++
++	bs |= skip_band;
++	ATOMIC_SET(&padapter->bandskip, bs);
++}
++
++inline void RTW_CLR_SCAN_BAND_SKIP(_adapter *padapter, int skip_band)
++{
++	int bs = ATOMIC_READ(&padapter->bandskip);
++
++	bs &= ~(skip_band);
++	ATOMIC_SET(&padapter->bandskip, bs);
++}
++inline int RTW_GET_SCAN_BAND_SKIP(_adapter *padapter)
++{
++	return ATOMIC_READ(&padapter->bandskip);
++}
++
++#define RTW_IS_SCAN_BAND_SKIP(padapter, skip_band) (ATOMIC_READ(&padapter->bandskip) & (skip_band))
++
++bool rtw_mlme_ignore_chan(_adapter *adapter, const u32 ch)
++{
++	if (RTW_IS_SCAN_BAND_SKIP(adapter, BAND_24G) && ch < 35) /* SKIP 2.4G Band channel */
++		return _TRUE;
++	if (RTW_IS_SCAN_BAND_SKIP(adapter, BAND_5G)  && ch > 35) /* SKIP 5G Band channel */
++		return _TRUE;
++
++	return _FALSE;
++}
++
++
++/****************************************************************************
++
++Following are the initialization functions for WiFi MLME
++
++*****************************************************************************/
++
++int init_hw_mlme_ext(_adapter *padapter)
++{
++	struct	mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	/* set_opmode_cmd(padapter, infra_client_with_mlme); */ /* removed */
++
++	set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++
++	return _SUCCESS;
++}
++
++void init_mlme_default_rate_set(_adapter *padapter)
++{
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	unsigned char	mixed_datarate[NumRates] = {_1M_RATE_, _2M_RATE_, _5M_RATE_, _11M_RATE_, _6M_RATE_, _9M_RATE_, _12M_RATE_, _18M_RATE_, _24M_RATE_, _36M_RATE_, _48M_RATE_, _54M_RATE_, 0xff};
++	unsigned char	mixed_basicrate[NumRates] = {_1M_RATE_, _2M_RATE_, _5M_RATE_, _11M_RATE_, _6M_RATE_, _12M_RATE_, _24M_RATE_, 0xff,};
++	unsigned char	supported_mcs_set[16] = {0xff, 0xff, 0xff, 0x00, 0x00, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0};
++
++	_rtw_memcpy(pmlmeext->datarate, mixed_datarate, NumRates);
++	_rtw_memcpy(pmlmeext->basicrate, mixed_basicrate, NumRates);
++
++	_rtw_memcpy(pmlmeext->default_supported_mcs_set, supported_mcs_set, sizeof(pmlmeext->default_supported_mcs_set));
++}
++
++static void init_mlme_ext_priv_value(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	ATOMIC_SET(&pmlmeext->event_seq, 0);
++	pmlmeext->mgnt_seq = 0;/* reset to zero when disconnect at client mode */
++#ifdef CONFIG_IEEE80211W
++	pmlmeext->sa_query_seq = 0;
++	pmlmeext->mgnt_80211w_IPN = 0;
++	pmlmeext->mgnt_80211w_IPN_rx = 0;
++#endif /* CONFIG_IEEE80211W */
++	pmlmeext->cur_channel = padapter->registrypriv.channel;
++	pmlmeext->cur_bwmode = CHANNEL_WIDTH_20;
++	pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++	pmlmeext->retry = 0;
++
++	pmlmeext->cur_wireless_mode = padapter->registrypriv.wireless_mode;
++
++	init_mlme_default_rate_set(padapter);
++
++	if (pmlmeext->cur_channel > 14)
++		pmlmeext->tx_rate = IEEE80211_OFDM_RATE_6MB;
++	else
++		pmlmeext->tx_rate = IEEE80211_CCK_RATE_1MB;
++
++	mlmeext_set_scan_state(pmlmeext, SCAN_DISABLE);
++	pmlmeext->sitesurvey_res.channel_idx = 0;
++	pmlmeext->sitesurvey_res.bss_cnt = 0;
++	pmlmeext->sitesurvey_res.scan_ch_ms = SURVEY_TO;
++	pmlmeext->sitesurvey_res.rx_ampdu_accept = RX_AMPDU_ACCEPT_INVALID;
++	pmlmeext->sitesurvey_res.rx_ampdu_size = RX_AMPDU_SIZE_INVALID;
++#ifdef CONFIG_SCAN_BACKOP
++	mlmeext_assign_scan_backop_flags_sta(pmlmeext, /*SS_BACKOP_EN|*/SS_BACKOP_PS_ANNC | SS_BACKOP_TX_RESUME);
++	mlmeext_assign_scan_backop_flags_ap(pmlmeext, SS_BACKOP_EN | SS_BACKOP_PS_ANNC | SS_BACKOP_TX_RESUME);
++	pmlmeext->sitesurvey_res.scan_cnt = 0;
++	pmlmeext->sitesurvey_res.scan_cnt_max = RTW_SCAN_NUM_OF_CH;
++	pmlmeext->sitesurvey_res.backop_ms = RTW_BACK_OP_CH_MS;
++#endif
++#if defined(CONFIG_ANTENNA_DIVERSITY) || defined(DBG_SCAN_SW_ANTDIV_BL)
++	pmlmeext->sitesurvey_res.is_sw_antdiv_bl_scan = 0;
++#endif
++	pmlmeext->scan_abort = _FALSE;
++
++	pmlmeinfo->state = WIFI_FW_NULL_STATE;
++	pmlmeinfo->reauth_count = 0;
++	pmlmeinfo->reassoc_count = 0;
++	pmlmeinfo->link_count = 0;
++	pmlmeinfo->auth_seq = 0;
++	pmlmeinfo->auth_algo = dot11AuthAlgrthm_Open;
++	pmlmeinfo->key_index = 0;
++	pmlmeinfo->iv = 0;
++
++	pmlmeinfo->enc_algo = _NO_PRIVACY_;
++	pmlmeinfo->authModeToggle = 0;
++
++	_rtw_memset(pmlmeinfo->chg_txt, 0, 128);
++
++	pmlmeinfo->slotTime = SHORT_SLOT_TIME;
++	pmlmeinfo->preamble_mode = PREAMBLE_AUTO;
++
++	pmlmeinfo->dialogToken = 0;
++
++	pmlmeext->action_public_rxseq = 0xffff;
++	pmlmeext->action_public_dialog_token = 0xff;
++}
++
++static int has_channel(RT_CHANNEL_INFO *channel_set,
++		       u8 chanset_size,
++		       u8 chan)
++{
++	int i;
++
++	for (i = 0; i < chanset_size; i++) {
++		if (channel_set[i].ChannelNum == chan)
++			return 1;
++	}
++
++	return 0;
++}
++
++static void init_channel_list(_adapter *padapter, RT_CHANNEL_INFO *channel_set,
++			      u8 chanset_size,
++			      struct p2p_channels *channel_list)
++{
++	struct registry_priv *regsty = adapter_to_regsty(padapter);
++
++	struct p2p_oper_class_map op_class[] = {
++		{ IEEE80211G,  81,   1,  13,  1, BW20 },
++		{ IEEE80211G,  82,  14,  14,  1, BW20 },
++#if 0 /* Do not enable HT40 on 2 GHz */
++		{ IEEE80211G,  83,   1,   9,  1, BW40PLUS },
++		{ IEEE80211G,  84,   5,  13,  1, BW40MINUS },
++#endif
++		{ IEEE80211A, 115,  36,  48,  4, BW20 },
++		{ IEEE80211A, 116,  36,  44,  8, BW40PLUS },
++		{ IEEE80211A, 117,  40,  48,  8, BW40MINUS },
++		{ IEEE80211A, 124, 149, 161,  4, BW20 },
++		{ IEEE80211A, 125, 149, 169,  4, BW20 },
++		{ IEEE80211A, 126, 149, 157,  8, BW40PLUS },
++		{ IEEE80211A, 127, 153, 161,  8, BW40MINUS },
++		{ -1, 0, 0, 0, 0, BW20 }
++	};
++
++	int cla, op;
++
++	cla = 0;
++
++	for (op = 0; op_class[op].op_class; op++) {
++		u8 ch;
++		struct p2p_oper_class_map *o = &op_class[op];
++		struct p2p_reg_class *reg = NULL;
++
++		for (ch = o->min_chan; ch <= o->max_chan; ch += o->inc) {
++			if (!has_channel(channel_set, chanset_size, ch))
++				continue;
++
++			if ((0 == padapter->registrypriv.ht_enable) && (8 == o->inc))
++				continue;
++
++			if ((REGSTY_IS_BW_5G_SUPPORT(regsty, CHANNEL_WIDTH_40)) &&
++			    ((BW40MINUS == o->bw) || (BW40PLUS == o->bw)))
++				continue;
++
++			if (reg == NULL) {
++				reg = &channel_list->reg_class[cla];
++				cla++;
++				reg->reg_class = o->op_class;
++				reg->channels = 0;
++			}
++			reg->channel[reg->channels] = ch;
++			reg->channels++;
++		}
++	}
++	channel_list->reg_classes = cla;
++
++}
++
++bool rtw_regsty_is_excl_chs(struct registry_priv *regsty, u8 ch)
++{
++	int i;
++
++	for (i = 0; i < MAX_CHANNEL_NUM; i++) {
++		if (regsty->excl_chs[i] == 0)
++			break;
++		if (regsty->excl_chs[i] == ch)
++			return _TRUE;
++	}
++	return _FALSE;
++}
++
++static u8 init_channel_set(_adapter *padapter, u8 ChannelPlan, RT_CHANNEL_INFO *channel_set)
++{
++	struct registry_priv *regsty = adapter_to_regsty(padapter);
++	u8	index, chanset_size = 0;
++	u8	b5GBand = _FALSE, b2_4GBand = _FALSE;
++	u8	Index2G = 0, Index5G = 0;
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(padapter);
++	int i;
++
++	if (!rtw_is_channel_plan_valid(ChannelPlan)) {
++		RTW_ERR("ChannelPlan ID 0x%02X error !!!!!\n", ChannelPlan);
++		return chanset_size;
++	}
++
++	_rtw_memset(channel_set, 0, sizeof(RT_CHANNEL_INFO) * MAX_CHANNEL_NUM);
++
++	if (IsSupported24G(padapter->registrypriv.wireless_mode))
++		b2_4GBand = _TRUE;
++
++	if (IsSupported5G(padapter->registrypriv.wireless_mode))
++		b5GBand = _TRUE;
++
++	if (b2_4GBand) {
++		if (RTW_CHPLAN_REALTEK_DEFINE == ChannelPlan)
++			Index2G = RTW_CHANNEL_PLAN_MAP_REALTEK_DEFINE.Index2G;
++		else
++			Index2G = RTW_ChannelPlanMap[ChannelPlan].Index2G;
++
++		for (index = 0; index < RTW_ChannelPlan2G[Index2G].Len; index++) {
++			if (rtw_regsty_is_excl_chs(regsty, RTW_ChannelPlan2G[Index2G].Channel[index]) == _TRUE)
++				continue;
++
++			channel_set[chanset_size].ChannelNum = RTW_ChannelPlan2G[Index2G].Channel[index];
++
++			if (RTW_CHPLAN_GLOBAL_DOAMIN == ChannelPlan
++				|| RTW_CHPLAN_GLOBAL_NULL == ChannelPlan
++			) {
++				/* Channel 1~11 is active, and 12~14 is passive */
++				if (channel_set[chanset_size].ChannelNum >= 1 && channel_set[chanset_size].ChannelNum <= 11)
++					channel_set[chanset_size].ScanType = SCAN_ACTIVE;
++				else if ((channel_set[chanset_size].ChannelNum  >= 12 && channel_set[chanset_size].ChannelNum  <= 14))
++					channel_set[chanset_size].ScanType  = SCAN_PASSIVE;
++			} else if (RTW_CHPLAN_WORLD_WIDE_13 == ChannelPlan
++				|| RTW_CHPLAN_WORLD_WIDE_5G == ChannelPlan
++				|| RTW_RD_2G_WORLD == Index2G
++			) {
++				/* channel 12~13, passive scan */
++				if (channel_set[chanset_size].ChannelNum <= 11)
++					channel_set[chanset_size].ScanType = SCAN_ACTIVE;
++				else
++					channel_set[chanset_size].ScanType = SCAN_PASSIVE;
++			} else
++				channel_set[chanset_size].ScanType = SCAN_ACTIVE;
++
++			chanset_size++;
++		}
++	}
++
++	if (b5GBand) {
++		if (RTW_CHPLAN_REALTEK_DEFINE == ChannelPlan)
++			Index5G = RTW_CHANNEL_PLAN_MAP_REALTEK_DEFINE.Index5G;
++		else
++			Index5G = RTW_ChannelPlanMap[ChannelPlan].Index5G;
++
++		for (index = 0; index < RTW_ChannelPlan5G[Index5G].Len; index++) {
++			if (rtw_regsty_is_excl_chs(regsty, RTW_ChannelPlan5G[Index5G].Channel[index]) == _TRUE)
++				continue;
++#ifdef CONFIG_DFS
++			channel_set[chanset_size].ChannelNum = RTW_ChannelPlan5G[Index5G].Channel[index];
++			if (channel_set[chanset_size].ChannelNum <= 48
++				|| channel_set[chanset_size].ChannelNum >= 149
++			) {
++				if (RTW_CHPLAN_WORLD_WIDE_5G == ChannelPlan) /* passive scan for all 5G channels */
++					channel_set[chanset_size].ScanType = SCAN_PASSIVE;
++				else
++					channel_set[chanset_size].ScanType = SCAN_ACTIVE;
++			} else
++				channel_set[chanset_size].ScanType = SCAN_PASSIVE;
++			chanset_size++;
++#else /* CONFIG_DFS */
++			if (RTW_ChannelPlan5G[Index5G].Channel[index] <= 48
++				|| RTW_ChannelPlan5G[Index5G].Channel[index] >= 149
++			) {
++				channel_set[chanset_size].ChannelNum = RTW_ChannelPlan5G[Index5G].Channel[index];
++				if (RTW_CHPLAN_WORLD_WIDE_5G == ChannelPlan) /* passive scan for all 5G channels */
++					channel_set[chanset_size].ScanType = SCAN_PASSIVE;
++				else
++					channel_set[chanset_size].ScanType = SCAN_ACTIVE;
++				RTW_INFO("%s(): channel_set[%d].ChannelNum = %d\n", __FUNCTION__, chanset_size, channel_set[chanset_size].ChannelNum);
++				chanset_size++;
++			}
++#endif /* CONFIG_DFS */
++		}
++	}
++
++	if (RTW_CHPLAN_REALTEK_DEFINE == ChannelPlan) {
++		hal_data->Regulation2_4G = RTW_CHANNEL_PLAN_MAP_REALTEK_DEFINE.regd;
++		hal_data->Regulation5G = RTW_CHANNEL_PLAN_MAP_REALTEK_DEFINE.regd;
++	} else {
++		hal_data->Regulation2_4G = RTW_ChannelPlanMap[ChannelPlan].regd;
++		hal_data->Regulation5G = RTW_ChannelPlanMap[ChannelPlan].regd;
++	}
++
++#ifdef CONFIG_DFS_MASTER
++	for (i = 0; i < chanset_size; i++)
++		channel_set[i].non_ocp_end_time = rtw_get_current_time();
++#endif
++
++	RTW_INFO(FUNC_ADPT_FMT" ChannelPlan ID:0x%02x, ch num:%d\n"
++		, FUNC_ADPT_ARG(padapter), ChannelPlan, chanset_size);
++
++	return chanset_size;
++}
++
++int	init_mlme_ext_priv(_adapter *padapter)
++{
++	int	res = _SUCCESS;
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	/* We don't need to memset padapter->XXX to zero, because adapter is allocated by rtw_zvmalloc(). */
++	/* _rtw_memset((u8 *)pmlmeext, 0, sizeof(struct mlme_ext_priv)); */
++
++	pmlmeext->padapter = padapter;
++
++	/* fill_fwpriv(padapter, &(pmlmeext->fwpriv)); */
++
++	init_mlme_ext_priv_value(padapter);
++	pmlmeinfo->bAcceptAddbaReq = pregistrypriv->bAcceptAddbaReq;
++
++	init_mlme_ext_timer(padapter);
++
++#ifdef CONFIG_AP_MODE
++	init_mlme_ap_info(padapter);
++#endif
++
++	pmlmeext->max_chan_nums = init_channel_set(padapter, pmlmepriv->ChannelPlan, pmlmeext->channel_set);
++	init_channel_list(padapter, pmlmeext->channel_set, pmlmeext->max_chan_nums, &pmlmeext->channel_list);
++	pmlmeext->last_scan_time = 0;
++	pmlmeext->mlmeext_init = _TRUE;
++
++
++#ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++	pmlmeext->active_keep_alive_check = _TRUE;
++#else
++	pmlmeext->active_keep_alive_check = _FALSE;
++#endif
++
++#ifdef DBG_FIXED_CHAN
++	pmlmeext->fixed_chan = 0xFF;
++#endif
++
++	return res;
++
++}
++
++void free_mlme_ext_priv(struct mlme_ext_priv *pmlmeext)
++{
++	_adapter *padapter = pmlmeext->padapter;
++
++	if (!padapter)
++		return;
++
++	if (rtw_is_drv_stopped(padapter)) {
++		_cancel_timer_ex(&pmlmeext->survey_timer);
++		_cancel_timer_ex(&pmlmeext->link_timer);
++		/* _cancel_timer_ex(&pmlmeext->ADDBA_timer); */
++	}
++}
++
++static u8 cmp_pkt_chnl_diff(_adapter *padapter, u8 *pframe, uint packet_len)
++{
++	/* if the channel is same, return 0. else return channel differential	 */
++	uint len;
++	u8 channel;
++	u8 *p;
++	p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + _BEACON_IE_OFFSET_, _DSSET_IE_, &len, packet_len - _BEACON_IE_OFFSET_);
++	if (p) {
++		channel = *(p + 2);
++		if (padapter->mlmeextpriv.cur_channel >= channel)
++			return padapter->mlmeextpriv.cur_channel - channel;
++		else
++			return channel - padapter->mlmeextpriv.cur_channel;
++	} else
++		return 0;
++}
++
++static void _mgt_dispatcher(_adapter *padapter, struct mlme_handler *ptable, union recv_frame *precv_frame)
++{
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++
++	if (ptable->func) {
++		/* receive the frames that ra(a1) is my address or ra(a1) is bc address. */
++		if (!_rtw_memcmp(GetAddr1Ptr(pframe), adapter_mac_addr(padapter), ETH_ALEN) &&
++		    !_rtw_memcmp(GetAddr1Ptr(pframe), bc_addr, ETH_ALEN))
++			return;
++
++		ptable->func(padapter, precv_frame);
++	}
++
++}
++
++void mgt_dispatcher(_adapter *padapter, union recv_frame *precv_frame)
++{
++	int index;
++	struct mlme_handler *ptable;
++#ifdef CONFIG_AP_MODE
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++#endif /* CONFIG_AP_MODE */
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	struct sta_info *psta = rtw_get_stainfo(&padapter->stapriv, GetAddr2Ptr(pframe));
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++
++
++#if 0
++	{
++		u8 *pbuf;
++		pbuf = GetAddr1Ptr(pframe);
++		RTW_INFO("A1-%x:%x:%x:%x:%x:%x\n", *pbuf, *(pbuf + 1), *(pbuf + 2), *(pbuf + 3), *(pbuf + 4), *(pbuf + 5));
++		pbuf = GetAddr2Ptr(pframe);
++		RTW_INFO("A2-%x:%x:%x:%x:%x:%x\n", *pbuf, *(pbuf + 1), *(pbuf + 2), *(pbuf + 3), *(pbuf + 4), *(pbuf + 5));
++		pbuf = GetAddr3Ptr(pframe);
++		RTW_INFO("A3-%x:%x:%x:%x:%x:%x\n", *pbuf, *(pbuf + 1), *(pbuf + 2), *(pbuf + 3), *(pbuf + 4), *(pbuf + 5));
++	}
++#endif
++
++	if (GetFrameType(pframe) != WIFI_MGT_TYPE) {
++		return;
++	}
++
++	/* receive the frames that ra(a1) is my address or ra(a1) is bc address. */
++	if (!_rtw_memcmp(GetAddr1Ptr(pframe), adapter_mac_addr(padapter), ETH_ALEN) &&
++	    !_rtw_memcmp(GetAddr1Ptr(pframe), bc_addr, ETH_ALEN))
++		return;
++
++	ptable = mlme_sta_tbl;
++
++	index = GetFrameSubType(pframe) >> 4;
++
++#ifdef CONFIG_TDLS
++	if ((index << 4) == WIFI_ACTION) {
++		/* category==public (4), action==TDLS_DISCOVERY_RESPONSE */
++		if (*(pframe + 24) == RTW_WLAN_CATEGORY_PUBLIC && *(pframe + 25) == TDLS_DISCOVERY_RESPONSE) {
++			RTW_INFO("[TDLS] Recv %s from "MAC_FMT"\n", rtw_tdls_action_txt(TDLS_DISCOVERY_RESPONSE), MAC_ARG(GetAddr2Ptr(pframe)));
++			On_TDLS_Dis_Rsp(padapter, precv_frame);
++		}
++	}
++#endif /* CONFIG_TDLS */
++
++	if (index >= (sizeof(mlme_sta_tbl) / sizeof(struct mlme_handler))) {
++		return;
++	}
++	ptable += index;
++
++#if 1
++	if (psta != NULL) {
++		if (GetRetry(pframe)) {
++			if (precv_frame->u.hdr.attrib.seq_num == psta->RxMgmtFrameSeqNum) {
++				/* drop the duplicate management frame */
++				pdbgpriv->dbg_rx_dup_mgt_frame_drop_count++;
++				RTW_INFO("Drop duplicate management frame with seq_num = %d.\n", precv_frame->u.hdr.attrib.seq_num);
++				return;
++			}
++		}
++		psta->RxMgmtFrameSeqNum = precv_frame->u.hdr.attrib.seq_num;
++	}
++#else
++
++	if (GetRetry(pframe)) {
++		/* return; */
++	}
++#endif
++
++#ifdef CONFIG_AP_MODE
++	switch (GetFrameSubType(pframe)) {
++	case WIFI_AUTH:
++		if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++			ptable->func = &OnAuth;
++		else
++			ptable->func = &OnAuthClient;
++	/* pass through */
++	case WIFI_ASSOCREQ:
++	case WIFI_REASSOCREQ:
++		_mgt_dispatcher(padapter, ptable, precv_frame);
++#ifdef CONFIG_HOSTAPD_MLME
++		if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++			rtw_hostapd_mlme_rx(padapter, precv_frame);
++#endif
++		break;
++	case WIFI_PROBEREQ:
++		if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++#ifdef CONFIG_HOSTAPD_MLME
++			rtw_hostapd_mlme_rx(padapter, precv_frame);
++#else
++			_mgt_dispatcher(padapter, ptable, precv_frame);
++#endif
++		} else
++			_mgt_dispatcher(padapter, ptable, precv_frame);
++		break;
++	case WIFI_BEACON:
++		_mgt_dispatcher(padapter, ptable, precv_frame);
++		break;
++	case WIFI_ACTION:
++		/* if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) */
++		_mgt_dispatcher(padapter, ptable, precv_frame);
++		break;
++	default:
++		_mgt_dispatcher(padapter, ptable, precv_frame);
++		if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++			rtw_hostapd_mlme_rx(padapter, precv_frame);
++		break;
++	}
++#else
++
++	_mgt_dispatcher(padapter, ptable, precv_frame);
++
++#endif
++
++}
++
++#ifdef CONFIG_P2P
++u32 p2p_listen_state_process(_adapter *padapter, unsigned char *da)
++{
++	bool response = _TRUE;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (padapter->wdinfo.driver_interface == DRIVER_CFG80211) {
++		if (padapter->cfg80211_wdinfo.is_ro_ch == _FALSE
++		    || rtw_get_oper_ch(padapter) != padapter->wdinfo.listen_channel
++		    || adapter_wdev_data(padapter)->p2p_enabled == _FALSE
++		    || padapter->mlmepriv.wps_probe_resp_ie == NULL
++		    || padapter->mlmepriv.p2p_probe_resp_ie == NULL
++		   ) {
++#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("DON'T issue_probersp_p2p: p2p_enabled:%d, wps_probe_resp_ie:%p, p2p_probe_resp_ie:%p, ",
++				 adapter_wdev_data(padapter)->p2p_enabled,
++				 padapter->mlmepriv.wps_probe_resp_ie,
++				 padapter->mlmepriv.p2p_probe_resp_ie);
++			RTW_INFO("is_ro_ch:%d, op_ch:%d, p2p_listen_channel:%d\n",
++				 padapter->cfg80211_wdinfo.is_ro_ch,
++				 rtw_get_oper_ch(padapter),
++				 padapter->wdinfo.listen_channel);
++#endif
++			response = _FALSE;
++		}
++	} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++		if (padapter->wdinfo.driver_interface == DRIVER_WEXT) {
++			/*	do nothing if the device name is empty */
++			if (!padapter->wdinfo.device_name_len)
++				response	= _FALSE;
++		}
++
++	if (response == _TRUE)
++		issue_probersp_p2p(padapter, da);
++
++	return _SUCCESS;
++}
++#endif /* CONFIG_P2P */
++
++
++/****************************************************************************
++
++Following are the callback functions for each subtype of the management frames
++
++*****************************************************************************/
++
++unsigned int OnProbeReq(_adapter *padapter, union recv_frame *precv_frame)
++{
++	unsigned int	ielen;
++	unsigned char	*p;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX	*cur = &(pmlmeinfo->network);
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint len = precv_frame->u.hdr.len;
++	u8 is_valid_p2p_probereq = _FALSE;
++
++#ifdef CONFIG_ATMEL_RC_PATCH
++	u8 *target_ie = NULL, *wps_ie = NULL;
++	u8 *start;
++	uint search_len = 0, wps_ielen = 0, target_ielen = 0;
++	struct sta_info	*psta;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++#endif
++
++
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	struct rx_pkt_attrib	*pattrib = &precv_frame->u.hdr.attrib;
++	u8 wifi_test_chk_rate = 1;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if ((pwdinfo->driver_interface == DRIVER_CFG80211)
++	    && !rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)
++	    && (GET_CFG80211_REPORT_MGMT(adapter_wdev_data(padapter), IEEE80211_STYPE_PROBE_REQ) == _TRUE)
++	   ) {
++		rtw_cfg80211_rx_probe_request(padapter, pframe, len);
++		return _SUCCESS;
++	}
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE) &&
++	    !rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE) &&
++	    !rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT) &&
++	    !rtw_p2p_chk_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH) &&
++	    !rtw_p2p_chk_state(pwdinfo, P2P_STATE_SCAN)
++	   ) {
++		/*	Commented by Albert 2011/03/17 */
++		/*	mcs_rate = 0->CCK 1M rate */
++		/*	mcs_rate = 1->CCK 2M rate */
++		/*	mcs_rate = 2->CCK 5.5M rate */
++		/*	mcs_rate = 3->CCK 11M rate */
++		/*	In the P2P mode, the driver should not support the CCK rate */
++
++		/*	Commented by Kurt 2012/10/16 */
++		/*	IOT issue: Google Nexus7 use 1M rate to send p2p_probe_req after GO nego completed and Nexus7 is client */
++		if (padapter->registrypriv.wifi_spec == 1) {
++			if (pattrib->data_rate <= 3)
++				wifi_test_chk_rate = 0;
++		}
++
++		if (wifi_test_chk_rate == 1) {
++			is_valid_p2p_probereq = process_probe_req_p2p_ie(pwdinfo, pframe, len);
++			if (is_valid_p2p_probereq == _TRUE) {
++				if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_DEVICE)) {
++					/* FIXME */
++					if (padapter->wdinfo.driver_interface == DRIVER_WEXT)
++						report_survey_event(padapter, precv_frame);
++
++					p2p_listen_state_process(padapter,  get_sa(pframe));
++
++					return _SUCCESS;
++				}
++
++				if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++					goto _continue;
++			}
++		}
++	}
++
++_continue:
++#endif /* CONFIG_P2P */
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE))
++		return _SUCCESS;
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE &&
++	    check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE | WIFI_AP_STATE) == _FALSE)
++		return _SUCCESS;
++
++
++	/* RTW_INFO("+OnProbeReq\n"); */
++
++
++#ifdef CONFIG_ATMEL_RC_PATCH
++	wps_ie = rtw_get_wps_ie(
++			      pframe + WLAN_HDR_A3_LEN + _PROBEREQ_IE_OFFSET_,
++			      len - WLAN_HDR_A3_LEN - _PROBEREQ_IE_OFFSET_,
++			      NULL, &wps_ielen);
++	if (wps_ie)
++		target_ie = rtw_get_wps_attr_content(wps_ie, wps_ielen, WPS_ATTR_MANUFACTURER, NULL, &target_ielen);
++	if ((target_ie && (target_ielen == 4)) && (_TRUE == _rtw_memcmp((void *)target_ie, "Ozmo", 4))) {
++		/* psta->flag_atmel_rc = 1; */
++		unsigned char *sa_addr = get_sa(pframe);
++		printk("%s: Find Ozmo RC -- %02x:%02x:%02x:%02x:%02x:%02x  \n\n",
++		       __func__, *sa_addr, *(sa_addr + 1), *(sa_addr + 2), *(sa_addr + 3), *(sa_addr + 4), *(sa_addr + 5));
++		_rtw_memcpy(pstapriv->atmel_rc_pattern, get_sa(pframe), ETH_ALEN);
++	}
++#endif
++
++
++#ifdef CONFIG_AUTO_AP_MODE
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE &&
++	    pmlmepriv->cur_network.join_res == _TRUE) {
++		_irqL	irqL;
++		struct sta_info	*psta;
++		u8 *mac_addr, *peer_addr;
++		struct sta_priv *pstapriv = &padapter->stapriv;
++		u8 RC_OUI[4] = {0x00, 0xE0, 0x4C, 0x0A};
++		/* EID[1] + EID_LEN[1] + RC_OUI[4] + MAC[6] + PairingID[2] + ChannelNum[2] */
++
++		p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + _PROBEREQ_IE_OFFSET_, _VENDOR_SPECIFIC_IE_, (int *)&ielen,
++			       len - WLAN_HDR_A3_LEN - _PROBEREQ_IE_OFFSET_);
++
++		if (!p || ielen != 14)
++			goto _non_rc_device;
++
++		if (!_rtw_memcmp(p + 2, RC_OUI, sizeof(RC_OUI)))
++			goto _non_rc_device;
++
++		if (!_rtw_memcmp(p + 6, get_sa(pframe), ETH_ALEN)) {
++			RTW_INFO("%s, do rc pairing ("MAC_FMT"), but mac addr mismatch!("MAC_FMT")\n", __FUNCTION__,
++				 MAC_ARG(get_sa(pframe)), MAC_ARG(p + 6));
++
++			goto _non_rc_device;
++		}
++
++		RTW_INFO("%s, got the pairing device("MAC_FMT")\n", __FUNCTION__,  MAC_ARG(get_sa(pframe)));
++
++		/* new a station */
++		psta = rtw_get_stainfo(pstapriv, get_sa(pframe));
++		if (psta == NULL) {
++			/* allocate a new one */
++			RTW_INFO("going to alloc stainfo for rc="MAC_FMT"\n",  MAC_ARG(get_sa(pframe)));
++			psta = rtw_alloc_stainfo(pstapriv, get_sa(pframe));
++			if (psta == NULL) {
++				/* TODO: */
++				RTW_INFO(" Exceed the upper limit of supported clients...\n");
++				return _SUCCESS;
++			}
++
++			_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++			if (rtw_is_list_empty(&psta->asoc_list)) {
++				psta->expire_to = pstapriv->expire_to;
++				rtw_list_insert_tail(&psta->asoc_list, &pstapriv->asoc_list);
++				pstapriv->asoc_list_cnt++;
++			}
++			_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++			/* generate pairing ID */
++			mac_addr = adapter_mac_addr(padapter);
++			peer_addr = psta->hwaddr;
++			psta->pid = (u16)(((mac_addr[4] << 8) + mac_addr[5]) + ((peer_addr[4] << 8) + peer_addr[5]));
++
++			/* update peer stainfo */
++			psta->isrc = _TRUE;
++
++			/* get a unique AID */
++			if (psta->aid > 0)
++				RTW_INFO("old AID %d\n", psta->aid);
++			else {
++				for (psta->aid = 1; psta->aid <= NUM_STA; psta->aid++)
++					if (pstapriv->sta_aid[psta->aid - 1] == NULL)
++						break;
++
++				if (psta->aid > pstapriv->max_num_sta) {
++					psta->aid = 0;
++					RTW_INFO("no room for more AIDs\n");
++					return _SUCCESS;
++				} else {
++					pstapriv->sta_aid[psta->aid - 1] = psta;
++					RTW_INFO("allocate new AID = (%d)\n", psta->aid);
++				}
++			}
++
++			psta->qos_option = 1;
++			psta->bw_mode = CHANNEL_WIDTH_20;
++			psta->ieee8021x_blocked = _FALSE;
++#ifdef CONFIG_80211N_HT
++			psta->htpriv.ht_option = _TRUE;
++			psta->htpriv.ampdu_enable = _FALSE;
++			psta->htpriv.sgi_20m = _FALSE;
++			psta->htpriv.sgi_40m = _FALSE;
++			psta->htpriv.ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++			psta->htpriv.agg_enable_bitmap = 0x0;/* reset */
++			psta->htpriv.candidate_tid_bitmap = 0x0;/* reset */
++#endif
++
++			rtw_hal_set_odm_var(padapter, HAL_ODM_STA_INFO, psta, _TRUE);
++
++			_rtw_memset((void *)&psta->sta_stats, 0, sizeof(struct stainfo_stats));
++
++			_enter_critical_bh(&psta->lock, &irqL);
++			psta->state |= _FW_LINKED;
++			_exit_critical_bh(&psta->lock, &irqL);
++
++			report_add_sta_event(padapter, psta->hwaddr);
++
++		}
++
++		issue_probersp(padapter, get_sa(pframe), _FALSE);
++
++		return _SUCCESS;
++
++	}
++
++_non_rc_device:
++
++	return _SUCCESS;
++
++#endif /* CONFIG_AUTO_AP_MODE */
++
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) &&
++	    rtw_mi_buddy_check_fwstate(padapter, _FW_UNDER_LINKING | _FW_UNDER_SURVEY)) {
++		/* don't process probe req */
++		return _SUCCESS;
++	}
++#endif
++
++	p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + _PROBEREQ_IE_OFFSET_, _SSID_IE_, (int *)&ielen,
++		       len - WLAN_HDR_A3_LEN - _PROBEREQ_IE_OFFSET_);
++
++
++	/* check (wildcard) SSID */
++	if (p != NULL) {
++		if (is_valid_p2p_probereq == _TRUE)
++			goto _issue_probersp;
++
++		if ((ielen != 0 && _FALSE == _rtw_memcmp((void *)(p + 2), (void *)cur->Ssid.Ssid, cur->Ssid.SsidLength))
++		    || (ielen == 0 && pmlmeinfo->hidden_ssid_mode)
++		   )
++			return _SUCCESS;
++
++_issue_probersp:
++		if (((check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE &&
++		      pmlmepriv->cur_network.join_res == _TRUE)) || check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE)) {
++			/* RTW_INFO("+issue_probersp during ap mode\n"); */
++			issue_probersp(padapter, get_sa(pframe), is_valid_p2p_probereq);
++		}
++
++	}
++
++	return _SUCCESS;
++
++}
++
++unsigned int OnProbeRsp(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct sta_info		*psta;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	u8	*pframe = precv_frame->u.hdr.rx_data;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &padapter->wdinfo;
++#endif
++
++
++#ifdef CONFIG_P2P
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_PROVISION_DIS_REQ)) {
++		if (_TRUE == pwdinfo->tx_prov_disc_info.benable) {
++			if (_rtw_memcmp(pwdinfo->tx_prov_disc_info.peerIFAddr, GetAddr2Ptr(pframe), ETH_ALEN)) {
++				if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT)) {
++					pwdinfo->tx_prov_disc_info.benable = _FALSE;
++					issue_p2p_provision_request(padapter,
++						pwdinfo->tx_prov_disc_info.ssid.Ssid,
++						pwdinfo->tx_prov_disc_info.ssid.SsidLength,
++						pwdinfo->tx_prov_disc_info.peerDevAddr);
++				} else if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_DEVICE) || rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++					pwdinfo->tx_prov_disc_info.benable = _FALSE;
++					issue_p2p_provision_request(padapter,
++								    NULL,
++								    0,
++						pwdinfo->tx_prov_disc_info.peerDevAddr);
++				}
++			}
++		}
++		return _SUCCESS;
++	} else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING)) {
++		if (_TRUE == pwdinfo->nego_req_info.benable) {
++			RTW_INFO("[%s] P2P State is GONEGO ING!\n", __FUNCTION__);
++			if (_rtw_memcmp(pwdinfo->nego_req_info.peerDevAddr, GetAddr2Ptr(pframe), ETH_ALEN)) {
++				pwdinfo->nego_req_info.benable = _FALSE;
++				issue_p2p_GO_request(padapter, pwdinfo->nego_req_info.peerDevAddr);
++			}
++		}
++	} else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_INVITE_REQ)) {
++		if (_TRUE == pwdinfo->invitereq_info.benable) {
++			RTW_INFO("[%s] P2P_STATE_TX_INVITE_REQ!\n", __FUNCTION__);
++			if (_rtw_memcmp(pwdinfo->invitereq_info.peer_macaddr, GetAddr2Ptr(pframe), ETH_ALEN)) {
++				pwdinfo->invitereq_info.benable = _FALSE;
++				issue_p2p_invitation_request(padapter, pwdinfo->invitereq_info.peer_macaddr);
++			}
++		}
++	}
++#endif
++
++
++	if (mlmeext_chk_scan_state(pmlmeext, SCAN_PROCESS)) {
++		rtw_mi_report_survey_event(padapter, precv_frame);
++		return _SUCCESS;
++	}
++
++#if 0 /* move to validate_recv_mgnt_frame */
++	if (_rtw_memcmp(GetAddr3Ptr(pframe), get_my_bssid(&pmlmeinfo->network), ETH_ALEN)) {
++		if (pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS) {
++			psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++			if (psta != NULL)
++				psta->sta_stats.rx_mgnt_pkts++;
++		}
++	}
++#endif
++
++	return _SUCCESS;
++
++}
++
++/* for 11n Logo 4.2.31/4.2.32 */
++static void rtw_check_legacy_ap(_adapter *padapter, u8 *pframe, u32 len)
++{
++
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	if (!padapter->registrypriv.wifi_spec)
++		return;
++	
++	if(!MLME_IS_AP(padapter))
++		return;
++	
++
++	if (pmlmeext->bstart_bss == _TRUE) {
++		int left;
++		u16 capability;
++		unsigned char *pos;
++		struct rtw_ieee802_11_elems elems;
++		struct HT_info_element *pht_info = NULL;
++		u16 cur_op_mode; 
++
++		/* checking IEs */
++		left = len - sizeof(struct rtw_ieee80211_hdr_3addr) - _BEACON_IE_OFFSET_;
++		pos = pframe + sizeof(struct rtw_ieee80211_hdr_3addr) + _BEACON_IE_OFFSET_;
++		if (rtw_ieee802_11_parse_elems(pos, left, &elems, 1) == ParseFailed) {
++			RTW_INFO("%s: parse fail for "MAC_FMT"\n", __func__, MAC_ARG(GetAddr3Ptr(pframe)));
++			return;
++		}
++
++		cur_op_mode = pmlmepriv->ht_op_mode & HT_INFO_OPERATION_MODE_OP_MODE_MASK;
++
++		/* for legacy ap */
++		if (elems.ht_capabilities == NULL && elems.ht_capabilities_len == 0) {
++
++			if (0)
++				RTW_INFO("%s: "MAC_FMT" is legacy ap\n", __func__, MAC_ARG(GetAddr3Ptr(pframe)));
++
++			ATOMIC_SET(&pmlmepriv->olbc, _TRUE);
++			ATOMIC_SET(&pmlmepriv->olbc_ht, _TRUE);
++		}
++			
++	}
++}
++
++unsigned int OnBeacon(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct sta_info	*psta;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct sta_priv	*pstapriv = &padapter->stapriv;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint len = precv_frame->u.hdr.len;
++	WLAN_BSSID_EX *pbss;
++	int ret = _SUCCESS;
++	u8 *p = NULL;
++	u32 ielen = 0;
++#ifdef CONFIG_TDLS
++	struct sta_info *ptdls_sta;
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++#ifdef CONFIG_TDLS_CH_SW
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++#endif
++#endif /* CONFIG_TDLS */
++
++#ifdef CONFIG_ATTEMPT_TO_FIX_AP_BEACON_ERROR
++	p = rtw_get_ie(pframe + sizeof(struct rtw_ieee80211_hdr_3addr) + _BEACON_IE_OFFSET_, _EXT_SUPPORTEDRATES_IE_, &ielen,
++		precv_frame->u.hdr.len - sizeof(struct rtw_ieee80211_hdr_3addr) - _BEACON_IE_OFFSET_);
++	if ((p != NULL) && (ielen > 0)) {
++		if ((*(p + 1 + ielen) == 0x2D) && (*(p + 2 + ielen) != 0x2D)) {
++			/* Invalid value 0x2D is detected in Extended Supported Rates (ESR) IE. Try to fix the IE length to avoid failed Beacon parsing. */
++			RTW_INFO("[WIFIDBG] Error in ESR IE is detected in Beacon of BSSID:"MAC_FMT". Fix the length of ESR IE to avoid failed Beacon parsing.\n", MAC_ARG(GetAddr3Ptr(pframe)));
++			*(p + 1) = ielen - 1;
++		}
++	}
++#endif
++
++	if (mlmeext_chk_scan_state(pmlmeext, SCAN_PROCESS)) {
++		rtw_mi_report_survey_event(padapter, precv_frame);
++		return _SUCCESS;
++	}
++
++
++	rtw_check_legacy_ap(padapter, pframe, len);
++
++	if (_rtw_memcmp(GetAddr3Ptr(pframe), get_my_bssid(&pmlmeinfo->network), ETH_ALEN)) {
++		if (pmlmeinfo->state & WIFI_FW_AUTH_NULL) {
++			/* we should update current network before auth, or some IE is wrong */
++			pbss = (WLAN_BSSID_EX *)rtw_malloc(sizeof(WLAN_BSSID_EX));
++			if (pbss) {
++				if (collect_bss_info(padapter, precv_frame, pbss) == _SUCCESS) {
++					struct beacon_keys recv_beacon;
++
++					update_network(&(pmlmepriv->cur_network.network), pbss, padapter, _TRUE);
++					rtw_get_bcn_info(&(pmlmepriv->cur_network));
++
++					/* update bcn keys */
++					if (rtw_get_bcn_keys(padapter, pframe, len, &recv_beacon) == _TRUE) {
++						RTW_INFO("%s: beacon keys ready\n", __func__);
++						_rtw_memcpy(&pmlmepriv->cur_beacon_keys,
++							&recv_beacon, sizeof(recv_beacon));
++						pmlmepriv->new_beacon_cnts = 0;
++					} else {
++						RTW_ERR("%s: get beacon keys failed\n", __func__);
++						_rtw_memset(&pmlmepriv->cur_beacon_keys, 0, sizeof(recv_beacon));
++						pmlmepriv->new_beacon_cnts = 0;
++					}
++				}
++				rtw_mfree((u8 *)pbss, sizeof(WLAN_BSSID_EX));
++			}
++
++			/* check the vendor of the assoc AP */
++			pmlmeinfo->assoc_AP_vendor = check_assoc_AP(pframe + sizeof(struct rtw_ieee80211_hdr_3addr), len - sizeof(struct rtw_ieee80211_hdr_3addr));
++
++			/* update TSF Value */
++			update_TSF(pmlmeext, pframe, len);
++
++			/* reset for adaptive_early_32k */
++			pmlmeext->adaptive_tsf_done = _FALSE;
++			pmlmeext->DrvBcnEarly = 0xff;
++			pmlmeext->DrvBcnTimeOut = 0xff;
++			pmlmeext->bcn_cnt = 0;
++			_rtw_memset(pmlmeext->bcn_delay_cnt, 0, sizeof(pmlmeext->bcn_delay_cnt));
++			_rtw_memset(pmlmeext->bcn_delay_ratio, 0, sizeof(pmlmeext->bcn_delay_ratio));
++
++#ifdef CONFIG_P2P_PS
++			process_p2p_ps_ie(padapter, (pframe + WLAN_HDR_A3_LEN), (len - WLAN_HDR_A3_LEN));
++#endif /* CONFIG_P2P_PS */
++
++#if defined(CONFIG_P2P) && defined(CONFIG_CONCURRENT_MODE)
++			if (padapter->registrypriv.wifi_spec) {
++				if (process_p2p_cross_connect_ie(padapter, (pframe + WLAN_HDR_A3_LEN), (len - WLAN_HDR_A3_LEN)) == _FALSE) {
++					if (rtw_mi_buddy_check_mlmeinfo_state(padapter, WIFI_FW_AP_STATE)) {
++						RTW_PRINT("no issue auth, P2P cross-connect does not permit\n ");
++						return _SUCCESS;
++					}
++				}
++			}
++#endif /* CONFIG_P2P CONFIG_P2P and CONFIG_CONCURRENT_MODE */
++
++			/* start auth */
++			start_clnt_auth(padapter);
++
++			return _SUCCESS;
++		}
++
++		if (((pmlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE) && (pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)) {
++			psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++			if (psta != NULL) {
++#ifdef CONFIG_PATCH_JOIN_WRONG_CHANNEL
++				/* Merge from 8712 FW code */
++				if (cmp_pkt_chnl_diff(padapter, pframe, len) != 0) {
++					/* join wrong channel, deauth and reconnect           */
++					issue_deauth(padapter, (&(pmlmeinfo->network))->MacAddress, WLAN_REASON_DEAUTH_LEAVING);
++
++					report_del_sta_event(padapter, (&(pmlmeinfo->network))->MacAddress, WLAN_REASON_JOIN_WRONG_CHANNEL, _TRUE, _FALSE);
++					pmlmeinfo->state &= (~WIFI_FW_ASSOC_SUCCESS);
++					return _SUCCESS;
++				}
++#endif /* CONFIG_PATCH_JOIN_WRONG_CHANNEL */
++
++				ret = rtw_check_bcn_info(padapter, pframe, len);
++				if (!ret) {
++					RTW_PRINT("ap has changed, disconnect now\n ");
++					receive_disconnect(padapter, pmlmeinfo->network.MacAddress , 0, _FALSE);
++					return _SUCCESS;
++				}
++				/* update WMM, ERP in the beacon */
++				/* todo: the timer is used instead of the number of the beacon received */
++				if ((sta_rx_pkts(psta) & 0xf) == 0) {
++					/* RTW_INFO("update_bcn_info\n"); */
++					update_beacon_info(padapter, pframe, len, psta);
++				}
++
++				pmlmepriv->cur_network_scanned->network.Rssi = precv_frame->u.hdr.attrib.phy_info.RecvSignalPower;
++
++				adaptive_early_32k(pmlmeext, pframe, len);
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++				if (rtw_tdls_is_chsw_allowed(padapter) == _TRUE) {
++					/* Send TDLS Channel Switch Request when receiving Beacon */
++					if ((padapter->tdlsinfo.chsw_info.ch_sw_state & TDLS_CH_SW_INITIATOR_STATE) && (ATOMIC_READ(&pchsw_info->chsw_on) == _TRUE)
++					    && (pmlmeext->cur_channel == rtw_get_oper_ch(padapter))) {
++						ptdls_sta = rtw_get_stainfo(&padapter->stapriv, padapter->tdlsinfo.chsw_info.addr);
++						if (ptdls_sta != NULL) {
++							if (ptdls_sta->tdls_sta_state | TDLS_LINKED_STATE)
++								_set_timer(&ptdls_sta->stay_on_base_chnl_timer, TDLS_CH_SW_STAY_ON_BASE_CHNL_TIMEOUT);
++						}
++					}
++				}
++#endif
++#endif /* CONFIG_TDLS */
++
++#ifdef CONFIG_DFS
++				process_csa_ie(padapter, pframe, len);	/* channel switch announcement */
++#endif /* CONFIG_DFS */
++
++#ifdef CONFIG_P2P_PS
++				process_p2p_ps_ie(padapter, (pframe + WLAN_HDR_A3_LEN), (len - WLAN_HDR_A3_LEN));
++#endif /* CONFIG_P2P_PS */
++
++				if (pmlmeext->en_hw_update_tsf)
++					rtw_enable_hw_update_tsf_cmd(padapter);
++
++#if 0 /* move to validate_recv_mgnt_frame */
++				psta->sta_stats.rx_mgnt_pkts++;
++#endif
++			}
++
++		} else if ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) {
++			_irqL irqL;
++			u8 rate_set[16];
++			u8 rate_num = 0;
++
++			psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++			if (psta != NULL) {
++				/*
++				* update WMM, ERP in the beacon
++				* todo: the timer is used instead of the number of the beacon received
++				*/
++				if ((sta_rx_pkts(psta) & 0xf) == 0)
++					update_beacon_info(padapter, pframe, len, psta);
++
++				if (pmlmeext->en_hw_update_tsf)
++					rtw_enable_hw_update_tsf_cmd(padapter);
++			} else {
++				rtw_ies_get_supported_rate(pframe + WLAN_HDR_A3_LEN + _BEACON_IE_OFFSET_, len - WLAN_HDR_A3_LEN - _BEACON_IE_OFFSET_, rate_set, &rate_num);
++				if (rate_num == 0) {
++					RTW_INFO(FUNC_ADPT_FMT" RX beacon with no supported rate\n", FUNC_ADPT_ARG(padapter));
++					goto _END_ONBEACON_;
++				}
++
++				psta = rtw_alloc_stainfo(pstapriv, GetAddr2Ptr(pframe));
++				if (psta == NULL) {
++					RTW_INFO(FUNC_ADPT_FMT" Exceed the upper limit of supported clients\n", FUNC_ADPT_ARG(padapter));
++					goto _END_ONBEACON_;
++				}
++
++				psta->expire_to = pstapriv->adhoc_expire_to;
++
++				_rtw_memcpy(psta->bssrateset, rate_set, rate_num);
++				psta->bssratelen = rate_num;
++
++				/* update TSF Value */
++				update_TSF(pmlmeext, pframe, len);
++
++				/* report sta add event */
++				report_add_sta_event(padapter, GetAddr2Ptr(pframe));
++			}
++		}
++	}
++
++_END_ONBEACON_:
++
++	return _SUCCESS;
++
++}
++
++unsigned int OnAuth(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_AP_MODE
++	_irqL irqL;
++	unsigned int	auth_mode, seq, ie_len;
++	unsigned char	*sa, *p;
++	u16	algorithm;
++	int	status;
++	static struct sta_info stat;
++	struct	sta_info	*pstat = NULL;
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint len = precv_frame->u.hdr.len;
++	u8	offset = 0;
++
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) &&
++	    rtw_mi_buddy_check_fwstate(padapter, _FW_UNDER_LINKING | _FW_UNDER_SURVEY)) {
++		/* don't process auth request; */
++		return _SUCCESS;
++	}
++#endif /* CONFIG_CONCURRENT_MODE */
++
++	if ((pmlmeinfo->state & 0x03) != WIFI_FW_AP_STATE)
++		return _FAIL;
++
++	RTW_INFO("+OnAuth\n");
++
++	sa = GetAddr2Ptr(pframe);
++
++	auth_mode = psecuritypriv->dot11AuthAlgrthm;
++
++	if (GetPrivacy(pframe)) {
++		u8	*iv;
++		struct rx_pkt_attrib	*prxattrib = &(precv_frame->u.hdr.attrib);
++
++		prxattrib->hdrlen = WLAN_HDR_A3_LEN;
++		prxattrib->encrypt = _WEP40_;
++
++		iv = pframe + prxattrib->hdrlen;
++		prxattrib->key_index = ((iv[3] >> 6) & 0x3);
++
++		prxattrib->iv_len = 4;
++		prxattrib->icv_len = 4;
++
++		rtw_wep_decrypt(padapter, (u8 *)precv_frame);
++
++		offset = 4;
++	}
++
++	algorithm = le16_to_cpu(*(u16 *)((SIZE_PTR)pframe + WLAN_HDR_A3_LEN + offset));
++	seq	= le16_to_cpu(*(u16 *)((SIZE_PTR)pframe + WLAN_HDR_A3_LEN + offset + 2));
++
++	RTW_INFO("auth alg=%x, seq=%X\n", algorithm, seq);
++
++	if (auth_mode == 2 &&
++	    psecuritypriv->dot11PrivacyAlgrthm != _WEP40_ &&
++	    psecuritypriv->dot11PrivacyAlgrthm != _WEP104_)
++		auth_mode = 0;
++
++	if ((algorithm > 0 && auth_mode == 0) ||	/* rx a shared-key auth but shared not enabled */
++	    (algorithm == 0 && auth_mode == 1)) {	/* rx a open-system auth but shared-key is enabled */
++		RTW_INFO("auth rejected due to bad alg [alg=%d, auth_mib=%d] %02X%02X%02X%02X%02X%02X\n",
++			algorithm, auth_mode, sa[0], sa[1], sa[2], sa[3], sa[4], sa[5]);
++
++		status = _STATS_NO_SUPP_ALG_;
++
++		goto auth_fail;
++	}
++
++#if CONFIG_RTW_MACADDR_ACL
++	if (rtw_access_ctrl(padapter, sa) == _FALSE) {
++		status = _STATS_UNABLE_HANDLE_STA_;
++		goto auth_fail;
++	}
++#endif
++
++	pstat = rtw_get_stainfo(pstapriv, sa);
++	if (pstat == NULL) {
++
++		/* allocate a new one */
++		RTW_INFO("going to alloc stainfo for sa="MAC_FMT"\n",  MAC_ARG(sa));
++		pstat = rtw_alloc_stainfo(pstapriv, sa);
++		if (pstat == NULL) {
++			RTW_INFO(" Exceed the upper limit of supported clients...\n");
++			status = _STATS_UNABLE_HANDLE_STA_;
++			goto auth_fail;
++		}
++
++		pstat->state = WIFI_FW_AUTH_NULL;
++		pstat->auth_seq = 0;
++
++		/* pstat->flags = 0; */
++		/* pstat->capability = 0; */
++	} else {
++#ifdef CONFIG_IEEE80211W
++		if (pstat->bpairwise_key_installed != _TRUE && !(pstat->state & WIFI_FW_ASSOC_SUCCESS))
++#endif /* CONFIG_IEEE80211W */
++		{
++
++			_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++			if (rtw_is_list_empty(&pstat->asoc_list) == _FALSE) {
++				rtw_list_delete(&pstat->asoc_list);
++				pstapriv->asoc_list_cnt--;
++				if (pstat->expire_to > 0)
++					;/* TODO: STA re_auth within expire_to */
++			}
++			_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++			if (seq == 1)
++				; /* TODO: STA re_auth and auth timeout */
++
++		}
++	}
++
++#ifdef CONFIG_IEEE80211W
++	if (pstat->bpairwise_key_installed != _TRUE && !(pstat->state & WIFI_FW_ASSOC_SUCCESS))
++#endif /* CONFIG_IEEE80211W */
++	{
++		_enter_critical_bh(&pstapriv->auth_list_lock, &irqL);
++		if (rtw_is_list_empty(&pstat->auth_list)) {
++
++			rtw_list_insert_tail(&pstat->auth_list, &pstapriv->auth_list);
++			pstapriv->auth_list_cnt++;
++		}
++		_exit_critical_bh(&pstapriv->auth_list_lock, &irqL);
++	}
++
++	if (pstat->auth_seq == 0)
++		pstat->expire_to = pstapriv->auth_to;
++
++
++	if ((pstat->auth_seq + 1) != seq) {
++		RTW_INFO("(1)auth rejected because out of seq [rx_seq=%d, exp_seq=%d]!\n",
++			 seq, pstat->auth_seq + 1);
++		status = _STATS_OUT_OF_AUTH_SEQ_;
++		goto auth_fail;
++	}
++
++	if (algorithm == 0 && (auth_mode == 0 || auth_mode == 2 || auth_mode == 3)) {
++		if (seq == 1) {
++#ifdef CONFIG_IEEE80211W
++			if (pstat->bpairwise_key_installed != _TRUE && !(pstat->state & WIFI_FW_ASSOC_SUCCESS))
++#endif /* CONFIG_IEEE80211W */
++			{
++				pstat->state &= ~WIFI_FW_AUTH_NULL;
++				pstat->state |= WIFI_FW_AUTH_SUCCESS;
++				pstat->expire_to = pstapriv->assoc_to;
++			}
++			pstat->authalg = algorithm;
++		} else {
++			RTW_INFO("(2)auth rejected because out of seq [rx_seq=%d, exp_seq=%d]!\n",
++				 seq, pstat->auth_seq + 1);
++			status = _STATS_OUT_OF_AUTH_SEQ_;
++			goto auth_fail;
++		}
++	} else { /* shared system or auto authentication */
++		if (seq == 1) {
++			/* prepare for the challenging txt... */
++
++			/* get_random_bytes((void *)pstat->chg_txt, 128); */ /* TODO: */
++			_rtw_memset((void *)pstat->chg_txt, 78, 128);
++#ifdef CONFIG_IEEE80211W
++			if (pstat->bpairwise_key_installed != _TRUE && !(pstat->state & WIFI_FW_ASSOC_SUCCESS))
++#endif /* CONFIG_IEEE80211W */
++			{
++				pstat->state &= ~WIFI_FW_AUTH_NULL;
++				pstat->state |= WIFI_FW_AUTH_STATE;
++			}
++			pstat->authalg = algorithm;
++			pstat->auth_seq = 2;
++		} else if (seq == 3) {
++			/* checking for challenging txt... */
++			RTW_INFO("checking for challenging txt...\n");
++
++			p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + 4 + _AUTH_IE_OFFSET_ , _CHLGETXT_IE_, (int *)&ie_len,
++				len - WLAN_HDR_A3_LEN - _AUTH_IE_OFFSET_ - 4);
++
++			if ((p == NULL) || (ie_len <= 0)) {
++				RTW_INFO("auth rejected because challenge failure!(1)\n");
++				status = _STATS_CHALLENGE_FAIL_;
++				goto auth_fail;
++			}
++
++			if (_rtw_memcmp((void *)(p + 2), pstat->chg_txt, 128)) {
++#ifdef CONFIG_IEEE80211W
++				if (pstat->bpairwise_key_installed != _TRUE && !(pstat->state & WIFI_FW_ASSOC_SUCCESS))
++#endif /* CONFIG_IEEE80211W */
++				{
++					pstat->state &= (~WIFI_FW_AUTH_STATE);
++					pstat->state |= WIFI_FW_AUTH_SUCCESS;
++					/* challenging txt is correct... */
++					pstat->expire_to =  pstapriv->assoc_to;
++				}
++			} else {
++				RTW_INFO("auth rejected because challenge failure!\n");
++				status = _STATS_CHALLENGE_FAIL_;
++				goto auth_fail;
++			}
++		} else {
++			RTW_INFO("(3)auth rejected because out of seq [rx_seq=%d, exp_seq=%d]!\n",
++				 seq, pstat->auth_seq + 1);
++			status = _STATS_OUT_OF_AUTH_SEQ_;
++			goto auth_fail;
++		}
++	}
++
++
++	/* Now, we are going to issue_auth... */
++	pstat->auth_seq = seq + 1;
++
++#ifdef CONFIG_NATIVEAP_MLME
++	issue_auth(padapter, pstat, (unsigned short)(_STATS_SUCCESSFUL_));
++#endif
++
++	if ((pstat->state & WIFI_FW_AUTH_SUCCESS) || (pstat->state & WIFI_FW_ASSOC_SUCCESS))
++		pstat->auth_seq = 0;
++
++
++	return _SUCCESS;
++
++auth_fail:
++
++	if (pstat)
++		rtw_free_stainfo(padapter , pstat);
++
++	pstat = &stat;
++	_rtw_memset((char *)pstat, '\0', sizeof(stat));
++	pstat->auth_seq = 2;
++	_rtw_memcpy(pstat->hwaddr, sa, 6);
++
++#ifdef CONFIG_NATIVEAP_MLME
++	issue_auth(padapter, pstat, (unsigned short)status);
++#endif
++
++#endif
++	return _FAIL;
++
++}
++
++unsigned int OnAuthClient(_adapter *padapter, union recv_frame *precv_frame)
++{
++	unsigned int	seq, len, status, algthm, offset;
++	unsigned char	*p;
++	unsigned int	go2asoc = 0;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++#ifdef CONFIG_RTW_80211R
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	ft_priv	*pftpriv = &pmlmepriv->ftpriv;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta = NULL;
++#endif
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint pkt_len = precv_frame->u.hdr.len;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	/* check A1 matches or not */
++	if (!_rtw_memcmp(adapter_mac_addr(padapter), get_da(pframe), ETH_ALEN))
++		return _SUCCESS;
++
++	if (!(pmlmeinfo->state & WIFI_FW_AUTH_STATE))
++		return _SUCCESS;
++
++	offset = (GetPrivacy(pframe)) ? 4 : 0;
++
++	algthm	= le16_to_cpu(*(unsigned short *)((SIZE_PTR)pframe + WLAN_HDR_A3_LEN + offset));
++	seq	= le16_to_cpu(*(unsigned short *)((SIZE_PTR)pframe + WLAN_HDR_A3_LEN + offset + 2));
++	status	= le16_to_cpu(*(unsigned short *)((SIZE_PTR)pframe + WLAN_HDR_A3_LEN + offset + 4));
++
++	if (status != 0) {
++		RTW_INFO("clnt auth fail, status: %d\n", status);
++		if (status == 13) { /* && pmlmeinfo->auth_algo == dot11AuthAlgrthm_Auto) */
++			if (pmlmeinfo->auth_algo == dot11AuthAlgrthm_Shared)
++				pmlmeinfo->auth_algo = dot11AuthAlgrthm_Open;
++			else
++				pmlmeinfo->auth_algo = dot11AuthAlgrthm_Shared;
++			/* pmlmeinfo->reauth_count = 0; */
++		}
++
++		set_link_timer(pmlmeext, 1);
++		goto authclnt_fail;
++	}
++
++	if (seq == 2) {
++		if (pmlmeinfo->auth_algo == dot11AuthAlgrthm_Shared) {
++			/* legendary shared system */
++			p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + _AUTH_IE_OFFSET_, _CHLGETXT_IE_, (int *)&len,
++				pkt_len - WLAN_HDR_A3_LEN - _AUTH_IE_OFFSET_);
++
++			if (p == NULL) {
++				/* RTW_INFO("marc: no challenge text?\n"); */
++				goto authclnt_fail;
++			}
++
++			_rtw_memcpy((void *)(pmlmeinfo->chg_txt), (void *)(p + 2), len);
++			pmlmeinfo->auth_seq = 3;
++			issue_auth(padapter, NULL, 0);
++			set_link_timer(pmlmeext, REAUTH_TO);
++
++			return _SUCCESS;
++		} else {
++			/* open, or 802.11r FTAA system */
++			go2asoc = 1;
++		}
++	} else if (seq == 4) {
++		if (pmlmeinfo->auth_algo == dot11AuthAlgrthm_Shared)
++			go2asoc = 1;
++		else
++			goto authclnt_fail;
++	} else {
++		/* this is also illegal */
++		/* RTW_INFO("marc: clnt auth failed due to illegal seq=%x\n", seq); */
++		goto authclnt_fail;
++	}
++
++	if (go2asoc) {
++#ifdef CONFIG_RTW_80211R
++		if ((rtw_to_roam(padapter) > 0) && rtw_chk_ft_flags(padapter, RTW_FT_SUPPORTED)) {
++			u8 target_ap_addr[ETH_ALEN] = {0};
++
++			if ((rtw_chk_ft_status(padapter, RTW_FT_AUTHENTICATED_STA)) ||
++				(rtw_chk_ft_status(padapter, RTW_FT_ASSOCIATING_STA)) ||
++				(rtw_chk_ft_status(padapter, RTW_FT_ASSOCIATED_STA))) {
++				/*report_ft_reassoc_event already, and waiting for cfg80211_rtw_update_ft_ies*/
++				return _SUCCESS;
++			}
++
++			rtw_buf_update(&pmlmepriv->auth_rsp, &pmlmepriv->auth_rsp_len, pframe, pkt_len);
++			pftpriv->ft_event.ies = pmlmepriv->auth_rsp + sizeof(struct rtw_ieee80211_hdr_3addr) + 6;
++			pftpriv->ft_event.ies_len = pmlmepriv->auth_rsp_len - sizeof(struct rtw_ieee80211_hdr_3addr) - 6;
++
++			/*Not support RIC*/
++			pftpriv->ft_event.ric_ies =  NULL;
++			pftpriv->ft_event.ric_ies_len =  0;
++			_rtw_memcpy(target_ap_addr, pmlmepriv->assoc_bssid, ETH_ALEN);
++			report_ft_reassoc_event(padapter, target_ap_addr);
++			return _SUCCESS;
++		}
++#endif
++
++		RTW_PRINT("auth success, start assoc\n");
++		start_clnt_assoc(padapter);
++		return _SUCCESS;
++	}
++
++authclnt_fail:
++
++	/* pmlmeinfo->state &= ~(WIFI_FW_AUTH_STATE); */
++
++	return _FAIL;
++
++}
++
++unsigned int OnAssocReq(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_AP_MODE
++	_irqL irqL;
++	u16 capab_info, listen_interval;
++	struct rtw_ieee802_11_elems elems;
++	struct sta_info	*pstat;
++	unsigned char		reassoc, *p, *pos, *wpa_ie;
++	unsigned char WMM_IE[] = {0x00, 0x50, 0xf2, 0x02, 0x00, 0x01};
++	int		i, ie_len, wpa_ie_len, left;
++	u8 rate_set[16];
++	u8 rate_num;
++	unsigned short		status = _STATS_SUCCESSFUL_;
++	unsigned short		frame_type, ie_offset = 0;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX	*cur = &(pmlmeinfo->network);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint pkt_len = precv_frame->u.hdr.len;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8 p2p_status_code = P2P_STATUS_SUCCESS;
++	u8 *p2pie;
++	u32 p2pielen = 0;
++#endif /* CONFIG_P2P */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) &&
++	    rtw_mi_buddy_check_fwstate(padapter, _FW_UNDER_LINKING | _FW_UNDER_SURVEY)) {
++		/* don't process assoc request; */
++		return _SUCCESS;
++	}
++#endif /* CONFIG_CONCURRENT_MODE */
++
++	if ((pmlmeinfo->state & 0x03) != WIFI_FW_AP_STATE)
++		return _FAIL;
++
++	frame_type = GetFrameSubType(pframe);
++	if (frame_type == WIFI_ASSOCREQ) {
++		reassoc = 0;
++		ie_offset = _ASOCREQ_IE_OFFSET_;
++	} else { /* WIFI_REASSOCREQ */
++		reassoc = 1;
++		ie_offset = _REASOCREQ_IE_OFFSET_;
++	}
++
++
++	if (pkt_len < IEEE80211_3ADDR_LEN + ie_offset) {
++		RTW_INFO("handle_assoc(reassoc=%d) - too short payload (len=%lu)"
++			 "\n", reassoc, (unsigned long)pkt_len);
++		return _FAIL;
++	}
++
++	pstat = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++	if (pstat == (struct sta_info *)NULL) {
++		status = _RSON_CLS2_;
++		goto asoc_class2_error;
++	}
++
++	capab_info = RTW_GET_LE16(pframe + WLAN_HDR_A3_LEN);
++	/* capab_info = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN));	 */
++	/* listen_interval = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN+2)); */
++	listen_interval = RTW_GET_LE16(pframe + WLAN_HDR_A3_LEN + 2);
++
++	left = pkt_len - (IEEE80211_3ADDR_LEN + ie_offset);
++	pos = pframe + (IEEE80211_3ADDR_LEN + ie_offset);
++
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	/* check if this stat has been successfully authenticated/assocated */
++	if (!((pstat->state) & WIFI_FW_AUTH_SUCCESS)) {
++		if (!((pstat->state) & WIFI_FW_ASSOC_SUCCESS)) {
++			status = _RSON_CLS2_;
++			goto asoc_class2_error;
++		} else {
++			pstat->state &= (~WIFI_FW_ASSOC_SUCCESS);
++			pstat->state |= WIFI_FW_ASSOC_STATE;
++		}
++	} else {
++		pstat->state &= (~WIFI_FW_AUTH_SUCCESS);
++		pstat->state |= WIFI_FW_ASSOC_STATE;
++	}
++
++
++#if 0/* todo:tkip_countermeasures */
++	if (hapd->tkip_countermeasures) {
++		resp = WLAN_REASON_MICHAEL_MIC_FAILURE;
++		goto fail;
++	}
++#endif
++
++	pstat->capability = capab_info;
++
++#if 0/* todo: */
++	/* check listen_interval */
++	if (listen_interval > hapd->conf->max_listen_interval) {
++		hostapd_logger(hapd, mgmt->sa, HOSTAPD_MODULE_IEEE80211,
++			       HOSTAPD_LEVEL_DEBUG,
++			       "Too large Listen Interval (%d)",
++			       listen_interval);
++		resp = WLAN_STATUS_ASSOC_DENIED_LISTEN_INT_TOO_LARGE;
++		goto fail;
++	}
++
++	pstat->listen_interval = listen_interval;
++#endif
++
++	/* now parse all ieee802_11 ie to point to elems */
++	if (rtw_ieee802_11_parse_elems(pos, left, &elems, 1) == ParseFailed ||
++	    !elems.ssid) {
++		RTW_INFO("STA " MAC_FMT " sent invalid association request\n",
++			 MAC_ARG(pstat->hwaddr));
++		status = _STATS_FAILURE_;
++		goto OnAssocReqFail;
++	}
++
++
++	/* now we should check all the fields... */
++	/* checking SSID */
++	p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + ie_offset, _SSID_IE_, &ie_len,
++		       pkt_len - WLAN_HDR_A3_LEN - ie_offset);
++	if (p == NULL)
++		status = _STATS_FAILURE_;
++
++	if (ie_len == 0) /* broadcast ssid, however it is not allowed in assocreq */
++		status = _STATS_FAILURE_;
++	else {
++		/* check if ssid match */
++		if (!_rtw_memcmp((void *)(p + 2), cur->Ssid.Ssid, cur->Ssid.SsidLength))
++			status = _STATS_FAILURE_;
++
++		if (ie_len != cur->Ssid.SsidLength)
++			status = _STATS_FAILURE_;
++	}
++
++	if (_STATS_SUCCESSFUL_ != status)
++		goto OnAssocReqFail;
++
++	rtw_ies_get_supported_rate(pframe + WLAN_HDR_A3_LEN + ie_offset, pkt_len - WLAN_HDR_A3_LEN - ie_offset, rate_set, &rate_num);
++	if (rate_num == 0) {
++		RTW_INFO(FUNC_ADPT_FMT" RX assoc-req with no supported rate\n", FUNC_ADPT_ARG(padapter));
++		status = _STATS_FAILURE_;
++		goto OnAssocReqFail;
++	}
++	_rtw_memcpy(pstat->bssrateset, rate_set, rate_num);
++	pstat->bssratelen = rate_num;
++	UpdateBrateTblForSoftAP(pstat->bssrateset, pstat->bssratelen);
++
++	/* check RSN/WPA/WPS */
++	pstat->dot8021xalg = 0;
++	pstat->wpa_psk = 0;
++	pstat->wpa_group_cipher = 0;
++	pstat->wpa2_group_cipher = 0;
++	pstat->wpa_pairwise_cipher = 0;
++	pstat->wpa2_pairwise_cipher = 0;
++	_rtw_memset(pstat->wpa_ie, 0, sizeof(pstat->wpa_ie));
++	if ((psecuritypriv->wpa_psk & BIT(1)) && elems.rsn_ie) {
++
++		int group_cipher = 0, pairwise_cipher = 0;
++
++		wpa_ie = elems.rsn_ie;
++		wpa_ie_len = elems.rsn_ie_len;
++
++		if (rtw_parse_wpa2_ie(wpa_ie - 2, wpa_ie_len + 2, &group_cipher, &pairwise_cipher, NULL) == _SUCCESS) {
++			pstat->dot8021xalg = 1;/* psk,  todo:802.1x						 */
++			pstat->wpa_psk |= BIT(1);
++
++			pstat->wpa2_group_cipher = group_cipher & psecuritypriv->wpa2_group_cipher;
++			pstat->wpa2_pairwise_cipher = pairwise_cipher & psecuritypriv->wpa2_pairwise_cipher;
++
++			if (!pstat->wpa2_group_cipher)
++				status = WLAN_STATUS_GROUP_CIPHER_NOT_VALID;
++
++			if (!pstat->wpa2_pairwise_cipher)
++				status = WLAN_STATUS_PAIRWISE_CIPHER_NOT_VALID;
++		} else
++			status = WLAN_STATUS_INVALID_IE;
++
++	} else if ((psecuritypriv->wpa_psk & BIT(0)) && elems.wpa_ie) {
++
++		int group_cipher = 0, pairwise_cipher = 0;
++
++		wpa_ie = elems.wpa_ie;
++		wpa_ie_len = elems.wpa_ie_len;
++
++		if (rtw_parse_wpa_ie(wpa_ie - 2, wpa_ie_len + 2, &group_cipher, &pairwise_cipher, NULL) == _SUCCESS) {
++			pstat->dot8021xalg = 1;/* psk,  todo:802.1x						 */
++			pstat->wpa_psk |= BIT(0);
++
++			pstat->wpa_group_cipher = group_cipher & psecuritypriv->wpa_group_cipher;
++			pstat->wpa_pairwise_cipher = pairwise_cipher & psecuritypriv->wpa_pairwise_cipher;
++
++			if (!pstat->wpa_group_cipher)
++				status = WLAN_STATUS_GROUP_CIPHER_NOT_VALID;
++
++			if (!pstat->wpa_pairwise_cipher)
++				status = WLAN_STATUS_PAIRWISE_CIPHER_NOT_VALID;
++
++		} else
++			status = WLAN_STATUS_INVALID_IE;
++
++	} else {
++		wpa_ie = NULL;
++		wpa_ie_len = 0;
++	}
++
++	if (_STATS_SUCCESSFUL_ != status)
++		goto OnAssocReqFail;
++
++	pstat->flags &= ~(WLAN_STA_WPS | WLAN_STA_MAYBE_WPS);
++	/* if (hapd->conf->wps_state && wpa_ie == NULL) { */ /* todo: to check ap if supporting WPS */
++	if (wpa_ie == NULL) {
++		if (elems.wps_ie) {
++			RTW_INFO("STA included WPS IE in "
++				 "(Re)Association Request - assume WPS is "
++				 "used\n");
++			pstat->flags |= WLAN_STA_WPS;
++			/* wpabuf_free(sta->wps_ie); */
++			/* sta->wps_ie = wpabuf_alloc_copy(elems.wps_ie + 4, */
++			/*				elems.wps_ie_len - 4); */
++		} else {
++			RTW_INFO("STA did not include WPA/RSN IE "
++				 "in (Re)Association Request - possible WPS "
++				 "use\n");
++			pstat->flags |= WLAN_STA_MAYBE_WPS;
++		}
++
++
++		/* AP support WPA/RSN, and sta is going to do WPS, but AP is not ready */
++		/* that the selected registrar of AP is _FLASE */
++		if ((psecuritypriv->wpa_psk > 0)
++		    && (pstat->flags & (WLAN_STA_WPS | WLAN_STA_MAYBE_WPS))) {
++			if (pmlmepriv->wps_beacon_ie) {
++				u8 selected_registrar = 0;
++
++				rtw_get_wps_attr_content(pmlmepriv->wps_beacon_ie, pmlmepriv->wps_beacon_ie_len, WPS_ATTR_SELECTED_REGISTRAR , &selected_registrar, NULL);
++
++				if (!selected_registrar) {
++					RTW_INFO("selected_registrar is _FALSE , or AP is not ready to do WPS\n");
++
++					status = _STATS_UNABLE_HANDLE_STA_;
++
++					goto OnAssocReqFail;
++				}
++			}
++		}
++
++	} else {
++		int copy_len;
++
++		if (psecuritypriv->wpa_psk == 0) {
++			RTW_INFO("STA " MAC_FMT ": WPA/RSN IE in association "
++				"request, but AP don't support WPA/RSN\n", MAC_ARG(pstat->hwaddr));
++
++			status = WLAN_STATUS_INVALID_IE;
++
++			goto OnAssocReqFail;
++
++		}
++
++		if (elems.wps_ie) {
++			RTW_INFO("STA included WPS IE in "
++				 "(Re)Association Request - WPS is "
++				 "used\n");
++			pstat->flags |= WLAN_STA_WPS;
++			copy_len = 0;
++		} else
++			copy_len = ((wpa_ie_len + 2) > sizeof(pstat->wpa_ie)) ? (sizeof(pstat->wpa_ie)) : (wpa_ie_len + 2);
++
++
++		if (copy_len > 0)
++			_rtw_memcpy(pstat->wpa_ie, wpa_ie - 2, copy_len);
++
++	}
++
++
++	/* check if there is WMM IE & support WWM-PS */
++	pstat->flags &= ~WLAN_STA_WME;
++	pstat->qos_option = 0;
++	pstat->qos_info = 0;
++	pstat->has_legacy_ac = _TRUE;
++	pstat->uapsd_vo = 0;
++	pstat->uapsd_vi = 0;
++	pstat->uapsd_be = 0;
++	pstat->uapsd_bk = 0;
++	if (pmlmepriv->qospriv.qos_option) {
++		p = pframe + WLAN_HDR_A3_LEN + ie_offset;
++		ie_len = 0;
++		for (;;) {
++			p = rtw_get_ie(p, _VENDOR_SPECIFIC_IE_, &ie_len, pkt_len - WLAN_HDR_A3_LEN - ie_offset);
++			if (p != NULL) {
++				if (_rtw_memcmp(p + 2, WMM_IE, 6)) {
++
++					pstat->flags |= WLAN_STA_WME;
++
++					pstat->qos_option = 1;
++					pstat->qos_info = *(p + 8);
++
++					pstat->max_sp_len = (pstat->qos_info >> 5) & 0x3;
++
++					if ((pstat->qos_info & 0xf) != 0xf)
++						pstat->has_legacy_ac = _TRUE;
++					else
++						pstat->has_legacy_ac = _FALSE;
++
++					if (pstat->qos_info & 0xf) {
++						if (pstat->qos_info & BIT(0))
++							pstat->uapsd_vo = BIT(0) | BIT(1);
++						else
++							pstat->uapsd_vo = 0;
++
++						if (pstat->qos_info & BIT(1))
++							pstat->uapsd_vi = BIT(0) | BIT(1);
++						else
++							pstat->uapsd_vi = 0;
++
++						if (pstat->qos_info & BIT(2))
++							pstat->uapsd_bk = BIT(0) | BIT(1);
++						else
++							pstat->uapsd_bk = 0;
++
++						if (pstat->qos_info & BIT(3))
++							pstat->uapsd_be = BIT(0) | BIT(1);
++						else
++							pstat->uapsd_be = 0;
++
++					}
++
++					break;
++				}
++			} else
++				break;
++			p = p + ie_len + 2;
++		}
++	}
++
++
++#ifdef CONFIG_80211N_HT
++	if (pmlmepriv->htpriv.ht_option == _FALSE)
++		goto bypass_ht_chk;
++
++	/* save HT capabilities in the sta object */
++	_rtw_memset(&pstat->htpriv.ht_cap, 0, sizeof(struct rtw_ieee80211_ht_cap));
++	if (elems.ht_capabilities && elems.ht_capabilities_len >= sizeof(struct rtw_ieee80211_ht_cap)) {
++		pstat->flags |= WLAN_STA_HT;
++
++		pstat->flags |= WLAN_STA_WME;
++
++		_rtw_memcpy(&pstat->htpriv.ht_cap, elems.ht_capabilities, sizeof(struct rtw_ieee80211_ht_cap));
++
++	} else
++		pstat->flags &= ~WLAN_STA_HT;
++bypass_ht_chk:
++
++	if ((pmlmepriv->htpriv.ht_option == _FALSE) && (pstat->flags & WLAN_STA_HT)) {
++		rtw_warn_on(1);
++		status = _STATS_FAILURE_;
++		goto OnAssocReqFail;
++	}
++#endif /* CONFIG_80211N_HT */
++
++#ifdef CONFIG_80211AC_VHT
++	if (pmlmepriv->vhtpriv.vht_option == _FALSE)
++		goto bypass_vht_chk;
++
++	_rtw_memset(&pstat->vhtpriv, 0, sizeof(struct vht_priv));
++	if (elems.vht_capabilities && elems.vht_capabilities_len == 12) {
++		pstat->flags |= WLAN_STA_VHT;
++
++		_rtw_memcpy(pstat->vhtpriv.vht_cap, elems.vht_capabilities, 12);
++
++		if (elems.vht_op_mode_notify && elems.vht_op_mode_notify_len == 1)
++			_rtw_memcpy(&pstat->vhtpriv.vht_op_mode_notify, elems.vht_op_mode_notify, 1);
++		else /* for Frame without Operating Mode notify ie; default: 80M */
++			pstat->vhtpriv.vht_op_mode_notify = CHANNEL_WIDTH_80;
++	} else
++		pstat->flags &= ~WLAN_STA_VHT;
++bypass_vht_chk:
++
++	if ((pmlmepriv->vhtpriv.vht_option == _FALSE) && (pstat->flags & WLAN_STA_VHT)) {
++		rtw_warn_on(1);
++		status = _STATS_FAILURE_;
++		goto OnAssocReqFail;
++	}
++#endif /* CONFIG_80211AC_VHT */
++
++	if (((pstat->flags & WLAN_STA_HT) || (pstat->flags & WLAN_STA_VHT)) &&
++	    ((pstat->wpa2_pairwise_cipher & WPA_CIPHER_TKIP) ||
++	     (pstat->wpa_pairwise_cipher & WPA_CIPHER_TKIP))) {
++
++		RTW_INFO("(V)HT: " MAC_FMT " tried to use TKIP with (V)HT association\n", MAC_ARG(pstat->hwaddr));
++
++		pstat->flags &= ~WLAN_STA_HT;
++		pstat->flags &= ~WLAN_STA_VHT;
++		/*status = WLAN_STATUS_CIPHER_REJECTED_PER_POLICY;
++		  * goto OnAssocReqFail;
++		*/
++	}
++
++
++	/*
++	 * if (hapd->iface->current_mode->mode == HOSTAPD_MODE_IEEE80211G) */ /* ? */
++	pstat->flags |= WLAN_STA_NONERP;
++	for (i = 0; i < pstat->bssratelen; i++) {
++		if ((pstat->bssrateset[i] & 0x7f) > 22) {
++			pstat->flags &= ~WLAN_STA_NONERP;
++			break;
++		}
++	}
++
++	if (pstat->capability & WLAN_CAPABILITY_SHORT_PREAMBLE)
++		pstat->flags |= WLAN_STA_SHORT_PREAMBLE;
++	else
++		pstat->flags &= ~WLAN_STA_SHORT_PREAMBLE;
++
++
++
++	if (status != _STATS_SUCCESSFUL_)
++		goto OnAssocReqFail;
++
++#ifdef CONFIG_P2P
++	pstat->is_p2p_device = _FALSE;
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		p2pie = rtw_get_p2p_ie(pframe + WLAN_HDR_A3_LEN + ie_offset , pkt_len - WLAN_HDR_A3_LEN - ie_offset , NULL, &p2pielen);
++		if (p2pie) {
++			pstat->is_p2p_device = _TRUE;
++			p2p_status_code = (u8)process_assoc_req_p2p_ie(pwdinfo, pframe, pkt_len, pstat);
++			if (p2p_status_code > 0) {
++				pstat->p2p_status_code = p2p_status_code;
++				status = _STATS_CAP_FAIL_;
++				goto OnAssocReqFail;
++			}
++		}
++#ifdef CONFIG_WFD
++		rtw_process_wfd_ies(padapter, pframe + WLAN_HDR_A3_LEN + ie_offset, pkt_len - WLAN_HDR_A3_LEN - ie_offset, __func__);
++#endif
++	}
++	pstat->p2p_status_code = p2p_status_code;
++#endif /* CONFIG_P2P */
++
++	/* TODO: identify_proprietary_vendor_ie(); */
++	/* Realtek proprietary IE */
++	/* identify if this is Broadcom sta */
++	/* identify if this is ralink sta */
++	/* Customer proprietary IE */
++
++
++
++	/* get a unique AID */
++	if (pstat->aid > 0)
++		RTW_INFO("  old AID %d\n", pstat->aid);
++	else {
++		for (pstat->aid = 1; pstat->aid <= NUM_STA; pstat->aid++) {
++			if (pstapriv->sta_aid[pstat->aid - 1] == NULL) {
++				if (pstat->aid > pstapriv->max_num_sta) {
++					pstat->aid = 0;
++
++					RTW_INFO("  no room for more AIDs\n");
++
++					status = WLAN_STATUS_AP_UNABLE_TO_HANDLE_NEW_STA;
++
++					goto OnAssocReqFail;
++
++
++				} else {
++					pstapriv->sta_aid[pstat->aid - 1] = pstat;
++					RTW_INFO("allocate new AID = (%d)\n", pstat->aid);
++					break;
++				}
++			}
++		}
++	}
++
++
++	pstat->state &= (~WIFI_FW_ASSOC_STATE);
++	pstat->state |= WIFI_FW_ASSOC_SUCCESS;
++	/* RTW_INFO("==================%s, %d,  (%x), bpairwise_key_installed=%d, MAC:"MAC_FMT"\n"
++	, __func__, __LINE__, pstat->state, pstat->bpairwise_key_installed, MAC_ARG(pstat->hwaddr)); */
++#ifdef CONFIG_IEEE80211W
++	if (pstat->bpairwise_key_installed != _TRUE)
++#endif /* CONFIG_IEEE80211W */
++	{
++		_enter_critical_bh(&pstapriv->auth_list_lock, &irqL);
++		if (!rtw_is_list_empty(&pstat->auth_list)) {
++			rtw_list_delete(&pstat->auth_list);
++			pstapriv->auth_list_cnt--;
++		}
++		_exit_critical_bh(&pstapriv->auth_list_lock, &irqL);
++
++		_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++		if (rtw_is_list_empty(&pstat->asoc_list)) {
++			pstat->expire_to = pstapriv->expire_to;
++			rtw_list_insert_tail(&pstat->asoc_list, &pstapriv->asoc_list);
++			pstapriv->asoc_list_cnt++;
++		}
++		_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	}
++
++	/* now the station is qualified to join our BSS...	 */
++	if (pstat && (pstat->state & WIFI_FW_ASSOC_SUCCESS) && (_STATS_SUCCESSFUL_ == status)) {
++#ifdef CONFIG_NATIVEAP_MLME
++#ifdef CONFIG_IEEE80211W
++		if (pstat->bpairwise_key_installed != _TRUE)
++#endif /* CONFIG_IEEE80211W */
++		{
++			/* .1 bss_cap_update & sta_info_update */
++			bss_cap_update_on_sta_join(padapter, pstat);
++			sta_info_update(padapter, pstat);
++		}
++#ifdef CONFIG_IEEE80211W
++		if (pstat->bpairwise_key_installed == _TRUE)
++			status = _STATS_REFUSED_TEMPORARILY_;
++#endif /* CONFIG_IEEE80211W */
++		/* .2 issue assoc rsp before notify station join event. */
++		if (frame_type == WIFI_ASSOCREQ)
++			issue_asocrsp(padapter, status, pstat, WIFI_ASSOCRSP);
++		else
++			issue_asocrsp(padapter, status, pstat, WIFI_REASSOCRSP);
++
++#ifdef CONFIG_IOCTL_CFG80211
++		_enter_critical_bh(&pstat->lock, &irqL);
++		if (pstat->passoc_req) {
++			rtw_mfree(pstat->passoc_req, pstat->assoc_req_len);
++			pstat->passoc_req = NULL;
++			pstat->assoc_req_len = 0;
++		}
++
++		pstat->passoc_req =  rtw_zmalloc(pkt_len);
++		if (pstat->passoc_req) {
++			_rtw_memcpy(pstat->passoc_req, pframe, pkt_len);
++			pstat->assoc_req_len = pkt_len;
++		}
++		_exit_critical_bh(&pstat->lock, &irqL);
++#endif /* CONFIG_IOCTL_CFG80211 */
++#ifdef CONFIG_IEEE80211W
++		if (pstat->bpairwise_key_installed != _TRUE)
++#endif /* CONFIG_IEEE80211W */
++		{
++			/* .3-(1) report sta add event */
++			report_add_sta_event(padapter, pstat->hwaddr);
++		}
++#ifdef CONFIG_IEEE80211W
++		if (pstat->bpairwise_key_installed == _TRUE && padapter->securitypriv.binstallBIPkey == _TRUE) {
++			RTW_INFO(MAC_FMT"\n", MAC_ARG(pstat->hwaddr));
++			issue_action_SA_Query(padapter, pstat->hwaddr, 0, 0, IEEE80211W_RIGHT_KEY);
++		}
++#endif /* CONFIG_IEEE80211W */
++#endif /* CONFIG_NATIVEAP_MLME */
++	}
++
++	return _SUCCESS;
++
++asoc_class2_error:
++
++#ifdef CONFIG_NATIVEAP_MLME
++	issue_deauth(padapter, (void *)GetAddr2Ptr(pframe), status);
++#endif
++
++	return _FAIL;
++
++OnAssocReqFail:
++
++
++#ifdef CONFIG_NATIVEAP_MLME
++	pstat->aid = 0;
++	if (frame_type == WIFI_ASSOCREQ)
++		issue_asocrsp(padapter, status, pstat, WIFI_ASSOCRSP);
++	else
++		issue_asocrsp(padapter, status, pstat, WIFI_REASSOCRSP);
++#endif
++
++
++#endif /* CONFIG_AP_MODE */
++
++	return _FAIL;
++
++}
++
++unsigned int OnAssocRsp(_adapter *padapter, union recv_frame *precv_frame)
++{
++	uint i;
++	int res;
++	unsigned short	status;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	/* WLAN_BSSID_EX 		*cur_network = &(pmlmeinfo->network); */
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint pkt_len = precv_frame->u.hdr.len;
++	PNDIS_802_11_VARIABLE_IEs	pWapiIE = NULL;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	/* check A1 matches or not */
++	if (!_rtw_memcmp(adapter_mac_addr(padapter), get_da(pframe), ETH_ALEN))
++		return _SUCCESS;
++
++	if (!(pmlmeinfo->state & (WIFI_FW_AUTH_SUCCESS | WIFI_FW_ASSOC_STATE)))
++		return _SUCCESS;
++
++	if (pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)
++		return _SUCCESS;
++
++	_cancel_timer_ex(&pmlmeext->link_timer);
++
++	/* status */
++	status = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN + 2));
++	if (status > 0) {
++		RTW_INFO("assoc reject, status code: %d\n", status);
++		pmlmeinfo->state = WIFI_FW_NULL_STATE;
++		res = -4;
++		goto report_assoc_result;
++	}
++
++	/* get capabilities */
++	pmlmeinfo->capability = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN));
++
++	/* set slot time */
++	pmlmeinfo->slotTime = (pmlmeinfo->capability & BIT(10)) ? 9 : 20;
++
++	/* AID */
++	res = pmlmeinfo->aid = (int)(le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN + 4)) & 0x3fff);
++
++	/* following are moved to join event callback function */
++	/* to handle HT, WMM, rate adaptive, update MAC reg */
++	/* for not to handle the synchronous IO in the tasklet */
++	for (i = (6 + WLAN_HDR_A3_LEN); i < pkt_len;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pframe + i);
++
++		switch (pIE->ElementID) {
++		case _VENDOR_SPECIFIC_IE_:
++			if (_rtw_memcmp(pIE->data, WMM_PARA_OUI, 6))	/* WMM */
++				WMM_param_handler(padapter, pIE);
++#if defined(CONFIG_P2P) && defined(CONFIG_WFD)
++			else if (_rtw_memcmp(pIE->data, WFD_OUI, 4))		/* WFD */
++				rtw_process_wfd_ie(padapter, (u8 *)pIE, pIE->Length, __func__);
++#endif
++			break;
++
++#ifdef CONFIG_WAPI_SUPPORT
++		case _WAPI_IE_:
++			pWapiIE = pIE;
++			break;
++#endif
++
++		case _HT_CAPABILITY_IE_:	/* HT caps */
++			HT_caps_handler(padapter, pIE);
++			break;
++
++		case _HT_EXTRA_INFO_IE_:	/* HT info */
++			HT_info_handler(padapter, pIE);
++			break;
++
++#ifdef CONFIG_80211AC_VHT
++		case EID_VHTCapability:
++			VHT_caps_handler(padapter, pIE);
++			break;
++
++		case EID_VHTOperation:
++			VHT_operation_handler(padapter, pIE);
++			break;
++#endif
++
++		case _ERPINFO_IE_:
++			ERP_IE_handler(padapter, pIE);
++			break;
++#ifdef CONFIG_TDLS
++		case _EXT_CAP_IE_:
++			if (check_ap_tdls_prohibited(pIE->data, pIE->Length) == _TRUE)
++				padapter->tdlsinfo.ap_prohibited = _TRUE;
++			if (check_ap_tdls_ch_switching_prohibited(pIE->data, pIE->Length) == _TRUE)
++				padapter->tdlsinfo.ch_switch_prohibited = _TRUE;
++			break;
++#endif /* CONFIG_TDLS */
++		default:
++			break;
++		}
++
++		i += (pIE->Length + 2);
++	}
++
++#ifdef CONFIG_WAPI_SUPPORT
++	rtw_wapi_on_assoc_ok(padapter, pIE);
++#endif
++
++	pmlmeinfo->state &= (~WIFI_FW_ASSOC_STATE);
++	pmlmeinfo->state |= WIFI_FW_ASSOC_SUCCESS;
++
++	/* Update Basic Rate Table for spec, 2010-12-28 , by thomas */
++	UpdateBrateTbl(padapter, pmlmeinfo->network.SupportedRates);
++
++report_assoc_result:
++	if (res > 0)
++		rtw_buf_update(&pmlmepriv->assoc_rsp, &pmlmepriv->assoc_rsp_len, pframe, pkt_len);
++	else
++		rtw_buf_free(&pmlmepriv->assoc_rsp, &pmlmepriv->assoc_rsp_len);
++
++	report_join_res(padapter, res);
++
++	return _SUCCESS;
++}
++
++unsigned int OnDeAuth(_adapter *padapter, union recv_frame *precv_frame)
++{
++	unsigned short	reason;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++
++	/* check A3 */
++	if (!(_rtw_memcmp(GetAddr3Ptr(pframe), get_my_bssid(&pmlmeinfo->network), ETH_ALEN)))
++		return _SUCCESS;
++
++	RTW_INFO(FUNC_ADPT_FMT" - Start to Disconnect\n", FUNC_ADPT_ARG(padapter));
++
++#ifdef CONFIG_P2P
++	if (pwdinfo->rx_invitereq_info.scan_op_ch_only) {
++		_cancel_timer_ex(&pwdinfo->reset_ch_sitesurvey);
++		_set_timer(&pwdinfo->reset_ch_sitesurvey, 10);
++	}
++#endif /* CONFIG_P2P */
++
++	reason = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN));
++
++	rtw_lock_rx_suspend_timeout(8000);
++
++#ifdef CONFIG_AP_MODE
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++		_irqL irqL;
++		struct sta_info *psta;
++		struct sta_priv *pstapriv = &padapter->stapriv;
++
++		/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		 */
++		/* rtw_free_stainfo(padapter, psta); */
++		/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		 */
++
++		RTW_PRINT(FUNC_ADPT_FMT" reason=%u, ta=%pM\n"
++			, FUNC_ADPT_ARG(padapter), reason, GetAddr2Ptr(pframe));
++
++		psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++		if (psta) {
++			u8 updated = _FALSE;
++
++			_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++			if (rtw_is_list_empty(&psta->asoc_list) == _FALSE) {
++				rtw_list_delete(&psta->asoc_list);
++				pstapriv->asoc_list_cnt--;
++				updated = ap_free_sta(padapter, psta, _FALSE, reason, _TRUE);
++
++			}
++			_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++			associated_clients_update(padapter, updated, STA_INFO_UPDATE_ALL);
++		}
++
++
++		return _SUCCESS;
++	} else
++#endif
++	{
++		int	ignore_received_deauth = 0;
++
++		/*	Commented by Albert 20130604 */
++		/*	Before sending the auth frame to start the STA/GC mode connection with AP/GO,  */
++		/*	we will send the deauth first. */
++		/*	However, the Win8.1 with BRCM Wi-Fi will send the deauth with reason code 6 to us after receieving our deauth. */
++		/*	Added the following code to avoid this case. */
++		if ((pmlmeinfo->state & WIFI_FW_AUTH_STATE) ||
++		    (pmlmeinfo->state & WIFI_FW_ASSOC_STATE)) {
++			if (reason == WLAN_REASON_CLASS2_FRAME_FROM_NONAUTH_STA)
++				ignore_received_deauth = 1;
++			else if (WLAN_REASON_PREV_AUTH_NOT_VALID == reason) {
++				/* TODO: 802.11r */
++				ignore_received_deauth = 1;
++			}
++		}
++
++		RTW_PRINT(FUNC_ADPT_FMT" reason=%u, ta=%pM, ignore=%d\n"
++			, FUNC_ADPT_ARG(padapter), reason, GetAddr2Ptr(pframe), ignore_received_deauth);
++
++		if (0 == ignore_received_deauth)
++			receive_disconnect(padapter, GetAddr2Ptr(pframe), reason, _FALSE);
++	}
++	pmlmepriv->LinkDetectInfo.bBusyTraffic = _FALSE;
++	return _SUCCESS;
++
++}
++
++unsigned int OnDisassoc(_adapter *padapter, union recv_frame *precv_frame)
++{
++	unsigned short	reason;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++
++	/* check A3 */
++	if (!(_rtw_memcmp(GetAddr3Ptr(pframe), get_my_bssid(&pmlmeinfo->network), ETH_ALEN)))
++		return _SUCCESS;
++
++	RTW_INFO(FUNC_ADPT_FMT" - Start to Disconnect\n", FUNC_ADPT_ARG(padapter));
++
++#ifdef CONFIG_P2P
++	if (pwdinfo->rx_invitereq_info.scan_op_ch_only) {
++		_cancel_timer_ex(&pwdinfo->reset_ch_sitesurvey);
++		_set_timer(&pwdinfo->reset_ch_sitesurvey, 10);
++	}
++#endif /* CONFIG_P2P */
++
++	reason = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN));
++
++	rtw_lock_rx_suspend_timeout(8000);
++
++#ifdef CONFIG_AP_MODE
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++		_irqL irqL;
++		struct sta_info *psta;
++		struct sta_priv *pstapriv = &padapter->stapriv;
++
++		/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);	 */
++		/* rtw_free_stainfo(padapter, psta); */
++		/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		 */
++
++		RTW_PRINT(FUNC_ADPT_FMT" reason=%u, ta=%pM\n"
++			, FUNC_ADPT_ARG(padapter), reason, GetAddr2Ptr(pframe));
++
++		psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++		if (psta) {
++			u8 updated = _FALSE;
++
++			_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++			if (rtw_is_list_empty(&psta->asoc_list) == _FALSE) {
++				rtw_list_delete(&psta->asoc_list);
++				pstapriv->asoc_list_cnt--;
++				updated = ap_free_sta(padapter, psta, _FALSE, reason, _TRUE);
++
++			}
++			_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++			associated_clients_update(padapter, updated, STA_INFO_UPDATE_ALL);
++		}
++
++		return _SUCCESS;
++	} else
++#endif
++	{
++		RTW_PRINT(FUNC_ADPT_FMT" reason=%u, ta=%pM\n"
++			, FUNC_ADPT_ARG(padapter), reason, GetAddr2Ptr(pframe));
++
++		receive_disconnect(padapter, GetAddr2Ptr(pframe), reason, _FALSE);
++	}
++	pmlmepriv->LinkDetectInfo.bBusyTraffic = _FALSE;
++	return _SUCCESS;
++
++}
++
++unsigned int OnAtim(_adapter *padapter, union recv_frame *precv_frame)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++	return _SUCCESS;
++}
++
++unsigned int on_action_spct_ch_switch(_adapter *padapter, struct sta_info *psta, u8 *ies, uint ies_len)
++{
++	unsigned int ret = _FAIL;
++	struct mlme_ext_priv *mlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(mlmeext->mlmext_info);
++
++	if (!(pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)) {
++		ret = _SUCCESS;
++		goto exit;
++	}
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE) {
++
++		int ch_switch_mode = -1, ch = -1, ch_switch_cnt = -1;
++		int ch_offset = -1;
++		u8 bwmode;
++		struct ieee80211_info_element *ie;
++
++		RTW_INFO(FUNC_NDEV_FMT" from "MAC_FMT"\n",
++			FUNC_NDEV_ARG(padapter->pnetdev), MAC_ARG(psta->hwaddr));
++
++		for_each_ie(ie, ies, ies_len) {
++			if (ie->id == WLAN_EID_CHANNEL_SWITCH) {
++				ch_switch_mode = ie->data[0];
++				ch = ie->data[1];
++				ch_switch_cnt = ie->data[2];
++				RTW_INFO("ch_switch_mode:%d, ch:%d, ch_switch_cnt:%d\n",
++					 ch_switch_mode, ch, ch_switch_cnt);
++			} else if (ie->id == WLAN_EID_SECONDARY_CHANNEL_OFFSET) {
++				ch_offset = secondary_ch_offset_to_hal_ch_offset(ie->data[0]);
++				RTW_INFO("ch_offset:%d\n", ch_offset);
++			}
++		}
++
++		if (ch == -1)
++			return _SUCCESS;
++
++		if (ch_offset == -1)
++			bwmode = mlmeext->cur_bwmode;
++		else
++			bwmode = (ch_offset == HAL_PRIME_CHNL_OFFSET_DONT_CARE) ?
++				 CHANNEL_WIDTH_20 : CHANNEL_WIDTH_40;
++
++		ch_offset = (ch_offset == -1) ? mlmeext->cur_ch_offset : ch_offset;
++
++		/* todo:
++		 * 1. the decision of channel switching
++		 * 2. things after channel switching
++		 */
++
++		ret = rtw_set_ch_cmd(padapter, ch, bwmode, ch_offset, _TRUE);
++	}
++
++exit:
++	return ret;
++}
++
++unsigned int on_action_spct(_adapter *padapter, union recv_frame *precv_frame)
++{
++	unsigned int ret = _FAIL;
++	struct sta_info *psta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint frame_len = precv_frame->u.hdr.len;
++	u8 *frame_body = (u8 *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++	u8 category;
++	u8 action;
++
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(padapter->pnetdev));
++
++	psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++
++	if (!psta)
++		goto exit;
++
++	category = frame_body[0];
++	if (category != RTW_WLAN_CATEGORY_SPECTRUM_MGMT)
++		goto exit;
++
++	action = frame_body[1];
++	switch (action) {
++	case RTW_WLAN_ACTION_SPCT_MSR_REQ:
++	case RTW_WLAN_ACTION_SPCT_MSR_RPRT:
++	case RTW_WLAN_ACTION_SPCT_TPC_REQ:
++	case RTW_WLAN_ACTION_SPCT_TPC_RPRT:
++		break;
++	case RTW_WLAN_ACTION_SPCT_CHL_SWITCH:
++#ifdef CONFIG_SPCT_CH_SWITCH
++		ret = on_action_spct_ch_switch(padapter, psta, &frame_body[2],
++				       frame_len - (frame_body - pframe) - 2);
++#endif
++		break;
++	default:
++		break;
++	}
++
++exit:
++	return ret;
++}
++
++unsigned int OnAction_qos(_adapter *padapter, union recv_frame *precv_frame)
++{
++	return _SUCCESS;
++}
++
++unsigned int OnAction_dls(_adapter *padapter, union recv_frame *precv_frame)
++{
++	return _SUCCESS;
++}
++
++#ifdef CONFIG_RTW_WNM
++unsigned int on_action_wnm(_adapter *adapter, union recv_frame *rframe)
++{
++	unsigned int ret = _FAIL;
++	struct sta_info *sta = NULL;
++	struct sta_priv *stapriv = &adapter->stapriv;
++	u8 *frame = rframe->u.hdr.rx_data;
++	uint frame_len = rframe->u.hdr.len;
++	u8 *frame_body = (u8 *)(frame + sizeof(struct rtw_ieee80211_hdr_3addr));
++	u8 category;
++	u8 action;
++	int cnt = 0;
++	char msg[16];
++
++	sta = rtw_get_stainfo(stapriv, GetAddr2Ptr(frame));
++	if (!sta)
++		goto exit;
++
++	category = frame_body[0];
++	if (category != RTW_WLAN_CATEGORY_WNM)
++		goto exit;
++
++	action = frame_body[1];
++
++	switch (action) {
++	default:
++		#ifdef CONFIG_IOCTL_CFG80211
++		cnt += sprintf((msg + cnt), "ACT_WNM %u", action);
++		rtw_cfg80211_rx_action(adapter, frame, frame_len, msg);
++		#endif
++		ret = _SUCCESS;
++		break;
++	}
++
++exit:
++	return ret;
++}
++#endif /* CONFIG_RTW_WNM */
++
++/**
++ * rtw_rx_ampdu_size - Get the target RX AMPDU buffer size for the specific @adapter
++ * @adapter: the adapter to get target RX AMPDU buffer size
++ *
++ * Returns: the target RX AMPDU buffer size
++ */
++u8 rtw_rx_ampdu_size(_adapter *adapter)
++{
++	u8 size;
++	HT_CAP_AMPDU_FACTOR max_rx_ampdu_factor;
++
++	if (adapter->fix_rx_ampdu_size != RX_AMPDU_SIZE_INVALID) {
++		size = adapter->fix_rx_ampdu_size;
++		goto exit;
++	}
++
++#ifdef CONFIG_BT_COEXIST
++	if (rtw_btcoex_IsBTCoexCtrlAMPDUSize(adapter) == _TRUE) {
++		size = rtw_btcoex_GetAMPDUSize(adapter);
++		goto exit;
++	}
++#endif
++
++	/* for scan */
++	if (!mlmeext_chk_scan_state(&adapter->mlmeextpriv, SCAN_DISABLE)
++	    && !mlmeext_chk_scan_state(&adapter->mlmeextpriv, SCAN_COMPLETE)
++	    && adapter->mlmeextpriv.sitesurvey_res.rx_ampdu_size != RX_AMPDU_SIZE_INVALID
++	   ) {
++		size = adapter->mlmeextpriv.sitesurvey_res.rx_ampdu_size;
++		goto exit;
++	}
++
++	/* default value based on max_rx_ampdu_factor */
++	if (adapter->driver_rx_ampdu_factor != 0xFF)
++		max_rx_ampdu_factor = (HT_CAP_AMPDU_FACTOR)adapter->driver_rx_ampdu_factor;
++	else
++		rtw_hal_get_def_var(adapter, HW_VAR_MAX_RX_AMPDU_FACTOR, &max_rx_ampdu_factor);
++
++	if (MAX_AMPDU_FACTOR_64K == max_rx_ampdu_factor)
++		size = 64;
++	else if (MAX_AMPDU_FACTOR_32K == max_rx_ampdu_factor)
++		size = 32;
++	else if (MAX_AMPDU_FACTOR_16K == max_rx_ampdu_factor)
++		size = 16;
++	else if (MAX_AMPDU_FACTOR_8K == max_rx_ampdu_factor)
++		size = 8;
++	else
++		size = 64;
++
++exit:
++
++	if (size > 127)
++		size = 127;
++
++	return size;
++}
++
++/**
++ * rtw_rx_ampdu_is_accept - Get the permission if RX AMPDU should be set up for the specific @adapter
++ * @adapter: the adapter to get the permission if RX AMPDU should be set up
++ *
++ * Returns: accept or not
++ */
++bool rtw_rx_ampdu_is_accept(_adapter *adapter)
++{
++	bool accept;
++
++	if (adapter->fix_rx_ampdu_accept != RX_AMPDU_ACCEPT_INVALID) {
++		accept = adapter->fix_rx_ampdu_accept;
++		goto exit;
++	}
++
++#ifdef CONFIG_BT_COEXIST
++	if (rtw_btcoex_IsBTCoexRejectAMPDU(adapter) == _TRUE) {
++		accept = _FALSE;
++		goto exit;
++	}
++#endif
++
++	/* for scan */
++	if (!mlmeext_chk_scan_state(&adapter->mlmeextpriv, SCAN_DISABLE)
++	    && !mlmeext_chk_scan_state(&adapter->mlmeextpriv, SCAN_COMPLETE)
++	    && adapter->mlmeextpriv.sitesurvey_res.rx_ampdu_accept != RX_AMPDU_ACCEPT_INVALID
++	   ) {
++		accept = adapter->mlmeextpriv.sitesurvey_res.rx_ampdu_accept;
++		goto exit;
++	}
++
++	/* default value for other cases */
++	accept = adapter->mlmeextpriv.mlmext_info.bAcceptAddbaReq;
++
++exit:
++	return accept;
++}
++
++/**
++ * rtw_rx_ampdu_set_size - Set the target RX AMPDU buffer size for the specific @adapter and specific @reason
++ * @adapter: the adapter to set target RX AMPDU buffer size
++ * @size: the target RX AMPDU buffer size to set
++ * @reason: reason for the target RX AMPDU buffer size setting
++ *
++ * Returns: whether the target RX AMPDU buffer size is changed
++ */
++bool rtw_rx_ampdu_set_size(_adapter *adapter, u8 size, u8 reason)
++{
++	bool is_adj = _FALSE;
++	struct mlme_ext_priv *mlmeext;
++	struct mlme_ext_info *mlmeinfo;
++
++	mlmeext = &adapter->mlmeextpriv;
++	mlmeinfo = &mlmeext->mlmext_info;
++
++	if (reason == RX_AMPDU_DRV_FIXED) {
++		if (adapter->fix_rx_ampdu_size != size) {
++			adapter->fix_rx_ampdu_size = size;
++			is_adj = _TRUE;
++			RTW_INFO(FUNC_ADPT_FMT" fix_rx_ampdu_size:%u\n", FUNC_ADPT_ARG(adapter), size);
++		}
++	} else if (reason == RX_AMPDU_DRV_SCAN) {
++		struct ss_res *ss = &adapter->mlmeextpriv.sitesurvey_res;
++
++		if (ss->rx_ampdu_size != size) {
++			ss->rx_ampdu_size = size;
++			is_adj = _TRUE;
++			RTW_INFO(FUNC_ADPT_FMT" ss.rx_ampdu_size:%u\n", FUNC_ADPT_ARG(adapter), size);
++		}
++	}
++
++	return is_adj;
++}
++
++/**
++ * rtw_rx_ampdu_set_accept - Set the permission if RX AMPDU should be set up for the specific @adapter and specific @reason
++ * @adapter: the adapter to set if RX AMPDU should be set up
++ * @accept: if RX AMPDU should be set up
++ * @reason: reason for the permission if RX AMPDU should be set up
++ *
++ * Returns: whether the permission if RX AMPDU should be set up is changed
++ */
++bool rtw_rx_ampdu_set_accept(_adapter *adapter, u8 accept, u8 reason)
++{
++	bool is_adj = _FALSE;
++	struct mlme_ext_priv *mlmeext;
++	struct mlme_ext_info *mlmeinfo;
++
++	mlmeext = &adapter->mlmeextpriv;
++	mlmeinfo = &mlmeext->mlmext_info;
++
++	if (reason == RX_AMPDU_DRV_FIXED) {
++		if (adapter->fix_rx_ampdu_accept != accept) {
++			adapter->fix_rx_ampdu_accept = accept;
++			is_adj = _TRUE;
++			RTW_INFO(FUNC_ADPT_FMT" fix_rx_ampdu_accept:%u\n", FUNC_ADPT_ARG(adapter), accept);
++		}
++	} else if (reason == RX_AMPDU_DRV_SCAN) {
++		if (adapter->mlmeextpriv.sitesurvey_res.rx_ampdu_accept != accept) {
++			adapter->mlmeextpriv.sitesurvey_res.rx_ampdu_accept = accept;
++			is_adj = _TRUE;
++			RTW_INFO(FUNC_ADPT_FMT" ss.rx_ampdu_accept:%u\n", FUNC_ADPT_ARG(adapter), accept);
++		}
++	}
++
++	return is_adj;
++}
++
++/**
++ * rx_ampdu_apply_sta_tid - Apply RX AMPDU setting to the specific @sta and @tid
++ * @adapter: the adapter to which @sta belongs
++ * @sta: the sta to be checked
++ * @tid: the tid to be checked
++ * @accept: the target permission if RX AMPDU should be set up
++ * @size: the target RX AMPDU buffer size
++ *
++ * Returns:
++ * 0: no canceled
++ * 1: canceled by no permission
++ * 2: canceled by different buffer size
++ * 3: canceled by potential mismatched status
++ *
++ * Blocking function, may sleep
++ */
++u8 rx_ampdu_apply_sta_tid(_adapter *adapter, struct sta_info *sta, u8 tid, u8 accept, u8 size)
++{
++	u8 ret = 0;
++	struct recv_reorder_ctrl *reorder_ctl = &sta->recvreorder_ctrl[tid];
++
++	if (reorder_ctl->enable == _FALSE) {
++		if (reorder_ctl->ampdu_size != RX_AMPDU_SIZE_INVALID) {
++			send_delba_sta_tid_wait_ack(adapter, 0, sta, tid, 1);
++			ret = 3;
++		}
++		goto exit;
++	}
++
++	if (accept == _FALSE) {
++		send_delba_sta_tid_wait_ack(adapter, 0, sta, tid, 0);
++		ret = 1;
++	} else if (reorder_ctl->ampdu_size != size) {
++		send_delba_sta_tid_wait_ack(adapter, 0, sta, tid, 0);
++		ret = 2;
++	}
++
++exit:
++	return ret;
++}
++
++/**
++ * rx_ampdu_apply_sta - Apply RX AMPDU setting to the specific @sta
++ * @adapter: the adapter to which @sta belongs
++ * @sta: the sta to be checked
++ * @accept: the target permission if RX AMPDU should be set up
++ * @size: the target RX AMPDU buffer size
++ *
++ * Returns: number of the RX AMPDU assciation canceled for applying current target setting
++ *
++ * Blocking function, may sleep
++ */
++u8 rx_ampdu_apply_sta(_adapter *adapter, struct sta_info *sta, u8 accept, u8 size)
++{
++	u8 change_cnt = 0;
++	int i;
++
++	for (i = 0; i < TID_NUM; i++) {
++		if (rx_ampdu_apply_sta_tid(adapter, sta, i, accept, size) != 0)
++			change_cnt++;
++	}
++
++	return change_cnt;
++}
++
++/**
++ * rtw_rx_ampdu_apply - Apply the current target RX AMPDU setting for the specific @adapter
++ * @adapter: the adapter to be applied
++ *
++ * Returns: number of the RX AMPDU assciation canceled for applying current target setting
++ */
++u16 rtw_rx_ampdu_apply(_adapter *adapter)
++{
++	u16 adj_cnt = 0;
++	struct mlme_ext_priv *mlmeext;
++	struct sta_info *sta;
++	u8 accept = rtw_rx_ampdu_is_accept(adapter);
++	u8 size = rtw_rx_ampdu_size(adapter);
++
++	mlmeext = &adapter->mlmeextpriv;
++
++	if (mlmeext_msr(mlmeext) == WIFI_FW_STATION_STATE) {
++		sta = rtw_get_stainfo(&adapter->stapriv, get_bssid(&adapter->mlmepriv));
++		if (sta)
++			adj_cnt += rx_ampdu_apply_sta(adapter, sta, accept, size);
++
++	} else if (mlmeext_msr(mlmeext) == WIFI_FW_AP_STATE) {
++		_irqL irqL;
++		_list *phead, *plist;
++		u8 peer_num = 0;
++		char peers[NUM_STA];
++		struct sta_priv *pstapriv = &adapter->stapriv;
++		int i;
++
++		_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++		phead = &pstapriv->asoc_list;
++		plist = get_next(phead);
++
++		while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++			int stainfo_offset;
++
++			sta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++			plist = get_next(plist);
++
++			stainfo_offset = rtw_stainfo_offset(pstapriv, sta);
++			if (stainfo_offset_valid(stainfo_offset))
++				peers[peer_num++] = stainfo_offset;
++		}
++
++		_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++		for (i = 0; i < peer_num; i++) {
++			sta = rtw_get_stainfo_by_offset(pstapriv, peers[i]);
++			if (sta)
++				adj_cnt += rx_ampdu_apply_sta(adapter, sta, accept, size);
++		}
++	}
++
++	return adj_cnt;
++}
++
++unsigned int OnAction_back(_adapter *padapter, union recv_frame *precv_frame)
++{
++	u8 *addr;
++	struct sta_info *psta = NULL;
++	struct recv_reorder_ctrl *preorder_ctrl;
++	unsigned char		*frame_body;
++	unsigned char		category, action;
++	unsigned short	tid, status, reason_code = 0;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++#ifdef CONFIG_80211N_HT
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	/* check RA matches or not	 */
++	if (!_rtw_memcmp(adapter_mac_addr(padapter), GetAddr1Ptr(pframe), ETH_ALEN))
++		return _SUCCESS;
++
++#if 0
++	/* check A1 matches or not */
++	if (!_rtw_memcmp(adapter_mac_addr(padapter), get_da(pframe), ETH_ALEN))
++		return _SUCCESS;
++#endif
++
++	if ((pmlmeinfo->state & 0x03) != WIFI_FW_AP_STATE)
++		if (!(pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS))
++			return _SUCCESS;
++
++	addr = GetAddr2Ptr(pframe);
++	psta = rtw_get_stainfo(pstapriv, addr);
++
++	if (psta == NULL)
++		return _SUCCESS;
++
++	frame_body = (unsigned char *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++	category = frame_body[0];
++	if (category == RTW_WLAN_CATEGORY_BACK) { /* representing Block Ack */
++#ifdef CONFIG_TDLS
++		if ((psta->tdls_sta_state & TDLS_LINKED_STATE) &&
++		    (psta->htpriv.ht_option == _TRUE) &&
++		    (psta->htpriv.ampdu_enable == _TRUE))
++			RTW_INFO("Recv [%s] from direc link\n", __FUNCTION__);
++		else
++#endif /* CONFIG_TDLS */
++			if (!pmlmeinfo->HT_enable)
++				return _SUCCESS;
++
++		action = frame_body[1];
++		RTW_INFO("%s, action=%d\n", __FUNCTION__, action);
++		switch (action) {
++		case RTW_WLAN_ACTION_ADDBA_REQ: /* ADDBA request */
++
++			_rtw_memcpy(&(pmlmeinfo->ADDBA_req), &(frame_body[2]), sizeof(struct ADDBA_request));
++			/* process_addba_req(padapter, (u8*)&(pmlmeinfo->ADDBA_req), GetAddr3Ptr(pframe)); */
++			process_addba_req(padapter, (u8 *)&(pmlmeinfo->ADDBA_req), addr);
++
++			break;
++
++		case RTW_WLAN_ACTION_ADDBA_RESP: /* ADDBA response */
++
++			/* status = frame_body[3] | (frame_body[4] << 8); */ /* endian issue */
++			status = RTW_GET_LE16(&frame_body[3]);
++			tid = ((frame_body[5] >> 2) & 0x7);
++
++			if (status == 0) {
++				/* successful					 */
++				RTW_INFO("agg_enable for TID=%d\n", tid);
++				psta->htpriv.agg_enable_bitmap |= 1 << tid;
++				psta->htpriv.candidate_tid_bitmap &= ~BIT(tid);
++			} else
++				psta->htpriv.agg_enable_bitmap &= ~BIT(tid);
++
++			if (psta->state & WIFI_STA_ALIVE_CHK_STATE) {
++				RTW_INFO("%s alive check - rx ADDBA response\n", __func__);
++				psta->htpriv.agg_enable_bitmap &= ~BIT(tid);
++				psta->expire_to = pstapriv->expire_to;
++				psta->state ^= WIFI_STA_ALIVE_CHK_STATE;
++			}
++
++			/* RTW_INFO("marc: ADDBA RSP: %x\n", pmlmeinfo->agg_enable_bitmap); */
++			break;
++
++		case RTW_WLAN_ACTION_DELBA: /* DELBA */
++			if ((frame_body[3] & BIT(3)) == 0) {
++				psta->htpriv.agg_enable_bitmap &= ~(1 << ((frame_body[3] >> 4) & 0xf));
++				psta->htpriv.candidate_tid_bitmap &= ~(1 << ((frame_body[3] >> 4) & 0xf));
++
++				/* reason_code = frame_body[4] | (frame_body[5] << 8); */
++				reason_code = RTW_GET_LE16(&frame_body[4]);
++			} else if ((frame_body[3] & BIT(3)) == BIT(3)) {
++				tid = (frame_body[3] >> 4) & 0x0F;
++
++				preorder_ctrl = &psta->recvreorder_ctrl[tid];
++				preorder_ctrl->enable = _FALSE;
++				preorder_ctrl->ampdu_size = RX_AMPDU_SIZE_INVALID;
++			}
++
++			RTW_INFO("%s(): DELBA: %x(%x)\n", __FUNCTION__, pmlmeinfo->agg_enable_bitmap, reason_code);
++			/* todo: how to notify the host while receiving DELETE BA */
++			break;
++
++		default:
++			break;
++		}
++	}
++#endif /* CONFIG_80211N_HT */
++	return _SUCCESS;
++}
++
++#ifdef CONFIG_P2P
++
++static int get_reg_classes_full_count(struct p2p_channels channel_list)
++{
++	int cnt = 0;
++	int i;
++
++	for (i = 0; i < channel_list.reg_classes; i++)
++		cnt += channel_list.reg_class[i].channels;
++
++	return cnt;
++}
++
++static void get_channel_cnt_24g_5gl_5gh(struct mlme_ext_priv *pmlmeext, u8 *p24g_cnt, u8 *p5gl_cnt, u8 *p5gh_cnt)
++{
++	int	i = 0;
++
++	*p24g_cnt = 0;
++	*p5gl_cnt = 0;
++	*p5gh_cnt = 0;
++
++	for (i = 0; i < pmlmeext->max_chan_nums; i++) {
++		if (pmlmeext->channel_set[i].ChannelNum <= 14)
++			(*p24g_cnt)++;
++		else if ((pmlmeext->channel_set[i].ChannelNum > 14) && (pmlmeext->channel_set[i].ChannelNum <= 48)) {
++			/*	Just include the channel 36, 40, 44, 48 channels for 5G low */
++			(*p5gl_cnt)++;
++		} else if ((pmlmeext->channel_set[i].ChannelNum >= 149) && (pmlmeext->channel_set[i].ChannelNum <= 161)) {
++			/*	Just include the channel 149, 153, 157, 161 channels for 5G high */
++			(*p5gh_cnt)++;
++		}
++	}
++}
++
++void issue_p2p_GO_request(_adapter *padapter, u8 *raddr)
++{
++
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_GO_NEGO_REQ;
++	u8			wpsie[255] = { 0x00 }, p2pie[255] = { 0x00 };
++	u8			wpsielen = 0, p2pielen = 0, i;
++	u8			channel_cnt_24g = 0, channel_cnt_5gl = 0, channel_cnt_5gh = 0;
++	u16			len_channellist_attr = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	RTW_INFO("[%s] In\n", __FUNCTION__);
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pwdinfo->negotiation_dialog_token = 1;	/*	Initialize the dialog value */
++	pframe = rtw_set_fixed_ie(pframe, 1, &pwdinfo->negotiation_dialog_token, &(pattrib->pktlen));
++
++
++
++	/*	WPS Section */
++	wpsielen = 0;
++	/*	WPS OUI */
++	*(u32 *)(wpsie) = cpu_to_be32(WPSOUI);
++	wpsielen += 4;
++
++	/*	WPS version */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++	wpsielen += 2;
++
++	/*	Value: */
++	wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++
++	/*	Device Password ID */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_DEVICE_PWID);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0002);
++	wpsielen += 2;
++
++	/*	Value: */
++
++	if (pwdinfo->ui_got_wps_info == P2P_GOT_WPSINFO_PEER_DISPLAY_PIN)
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_USER_SPEC);
++	else if (pwdinfo->ui_got_wps_info == P2P_GOT_WPSINFO_SELF_DISPLAY_PIN)
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_REGISTRAR_SPEC);
++	else if (pwdinfo->ui_got_wps_info == P2P_GOT_WPSINFO_PBC)
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_PBC);
++
++	wpsielen += 2;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen);
++
++
++	/*	P2P IE Section. */
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20110306 */
++	/*	According to the P2P Specification, the group negoitation request frame should contain 9 P2P attributes */
++	/*	1. P2P Capability */
++	/*	2. Group Owner Intent */
++	/*	3. Configuration Timeout */
++	/*	4. Listen Channel */
++	/*	5. Extended Listen Timing */
++	/*	6. Intended P2P Interface Address */
++	/*	7. Channel List */
++	/*	8. P2P Device Info */
++	/*	9. Operating Channel */
++
++
++	/*	P2P Capability */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CAPABILITY;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Device Capability Bitmap, 1 byte */
++	p2pie[p2pielen++] = DMP_P2P_DEVCAP_SUPPORT;
++
++	/*	Group Capability Bitmap, 1 byte */
++	if (pwdinfo->persistent_supported)
++		p2pie[p2pielen++] = P2P_GRPCAP_CROSS_CONN | P2P_GRPCAP_PERSISTENT_GROUP;
++	else
++		p2pie[p2pielen++] = P2P_GRPCAP_CROSS_CONN;
++
++
++	/*	Group Owner Intent */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_GO_INTENT;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0001);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Todo the tie breaker bit. */
++	p2pie[p2pielen++] = ((pwdinfo->intent << 1) &  0xFE);
++
++	/*	Configuration Timeout */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CONF_TIMEOUT;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P GO */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P Client */
++
++
++	/*	Listen Channel */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_LISTEN_CH;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Operating Class */
++	p2pie[p2pielen++] = 0x51;	/*	Copy from SD7 */
++
++	/*	Channel Number */
++	p2pie[p2pielen++] = pwdinfo->listen_channel;	/*	listening channel number */
++
++
++	/*	Extended Listen Timing ATTR */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_EX_LISTEN_TIMING;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0004);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Availability Period */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0xFFFF);
++	p2pielen += 2;
++
++	/*	Availability Interval */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0xFFFF);
++	p2pielen += 2;
++
++
++	/*	Intended P2P Interface Address */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_INTENTED_IF_ADDR;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(ETH_ALEN);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++
++	/*	Channel List */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CH_LIST;
++
++	/* Length: */
++	/* Country String(3) */
++	/* + ( Operating Class (1) + Number of Channels(1) ) * Operation Classes (?) */
++	/* + number of channels in all classes */
++	len_channellist_attr = 3
++		       + (1 + 1) * (u16)(pmlmeext->channel_list.reg_classes)
++		       + get_reg_classes_full_count(pmlmeext->channel_list);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(5 + 1);
++	else
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++#else
++
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++
++#endif
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Channel Entry List */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++		u8 union_ch = rtw_mi_get_union_chan(padapter);
++
++		/*	Operating Class */
++		if (union_ch > 14) {
++			if (union_ch >= 149)
++				p2pie[p2pielen++] = 0x7c;
++			else
++				p2pie[p2pielen++] = 0x73;
++		} else
++			p2pie[p2pielen++] = 0x51;
++
++
++		/*	Number of Channels */
++		/*	Just support 1 channel and this channel is AP's channel */
++		p2pie[p2pielen++] = 1;
++
++		/*	Channel List */
++		p2pie[p2pielen++] = union_ch;
++	} else {
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			/*	Number of Channels */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			/*	Channel List */
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++		}
++	}
++#else /* CONFIG_CONCURRENT_MODE */
++	{
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			/*	Number of Channels */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			/*	Channel List */
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++		}
++	}
++#endif /* CONFIG_CONCURRENT_MODE */
++
++	/*	Device Info */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	21->P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes)  */
++	/*	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes) */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(21 + pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	P2P Device Address */
++	_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++	/*	Config Method */
++	/*	This field should be big endian. Noted by P2P specification. */
++
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(pwdinfo->supported_wps_cm);
++
++	p2pielen += 2;
++
++	/*	Primary Device Type */
++	/*	Category ID */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_CID_MULIT_MEDIA);
++	p2pielen += 2;
++
++	/*	OUI */
++	*(u32 *)(p2pie + p2pielen) = cpu_to_be32(WPSOUI);
++	p2pielen += 4;
++
++	/*	Sub Category ID */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_SCID_MEDIA_SERVER);
++	p2pielen += 2;
++
++	/*	Number of Secondary Device Types */
++	p2pie[p2pielen++] = 0x00;	/*	No Secondary Device Type List */
++
++	/*	Device Name */
++	/*	Type: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++	p2pielen += 2;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_name , pwdinfo->device_name_len);
++	p2pielen += pwdinfo->device_name_len;
++
++
++	/*	Operating Channel */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_OPERATING_CH;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Operating Class */
++	if (pwdinfo->operating_channel <= 14) {
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x51;
++	} else if ((pwdinfo->operating_channel >= 36) && (pwdinfo->operating_channel <= 48)) {
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x73;
++	} else {
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x7c;
++	}
++
++	/*	Channel Number */
++	p2pie[p2pielen++] = pwdinfo->operating_channel;	/*	operating channel number */
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen);
++
++#ifdef CONFIG_WFD
++	wfdielen = build_nego_req_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++
++void issue_p2p_GO_response(_adapter *padapter, u8 *raddr, u8 *frame_body, uint len, u8 result)
++{
++
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_GO_NEGO_RESP;
++	u8			wpsie[255] = { 0x00 }, p2pie[255] = { 0x00 };
++	u8			p2pielen = 0, i;
++	uint			wpsielen = 0;
++	u16			wps_devicepassword_id = 0x0000;
++	uint			wps_devicepassword_id_len = 0;
++	u8			channel_cnt_24g = 0, channel_cnt_5gl = 0, channel_cnt_5gh;
++	u16			len_channellist_attr = 0;
++
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	RTW_INFO("[%s] In, result = %d\n", __FUNCTION__,  result);
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pwdinfo->negotiation_dialog_token = frame_body[7];	/*	The Dialog Token of provisioning discovery request frame. */
++	pframe = rtw_set_fixed_ie(pframe, 1, &(pwdinfo->negotiation_dialog_token), &(pattrib->pktlen));
++
++	/*	Commented by Albert 20110328 */
++	/*	Try to get the device password ID from the WPS IE of group negotiation request frame */
++	/*	WiFi Direct test plan 5.1.15 */
++	rtw_get_wps_ie(frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, wpsie, &wpsielen);
++	rtw_get_wps_attr_content(wpsie, wpsielen, WPS_ATTR_DEVICE_PWID, (u8 *) &wps_devicepassword_id, &wps_devicepassword_id_len);
++	wps_devicepassword_id = be16_to_cpu(wps_devicepassword_id);
++
++	_rtw_memset(wpsie, 0x00, 255);
++	wpsielen = 0;
++
++	/*	WPS Section */
++	wpsielen = 0;
++	/*	WPS OUI */
++	*(u32 *)(wpsie) = cpu_to_be32(WPSOUI);
++	wpsielen += 4;
++
++	/*	WPS version */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++	wpsielen += 2;
++
++	/*	Value: */
++	wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++
++	/*	Device Password ID */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_DEVICE_PWID);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0002);
++	wpsielen += 2;
++
++	/*	Value: */
++	if (wps_devicepassword_id == WPS_DPID_USER_SPEC)
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_REGISTRAR_SPEC);
++	else if (wps_devicepassword_id == WPS_DPID_REGISTRAR_SPEC)
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_USER_SPEC);
++	else
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_PBC);
++	wpsielen += 2;
++
++	/*	Commented by Kurt 20120113 */
++	/*	If some device wants to do p2p handshake without sending prov_disc_req */
++	/*	We have to get peer_req_cm from here. */
++	if (_rtw_memcmp(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "000", 3)) {
++		if (wps_devicepassword_id == WPS_DPID_USER_SPEC)
++			_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "dis", 3);
++		else if (wps_devicepassword_id == WPS_DPID_REGISTRAR_SPEC)
++			_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "pad", 3);
++		else
++			_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "pbc", 3);
++	}
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen);
++
++
++	/*	P2P IE Section. */
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20100908 */
++	/*	According to the P2P Specification, the group negoitation response frame should contain 9 P2P attributes */
++	/*	1. Status */
++	/*	2. P2P Capability */
++	/*	3. Group Owner Intent */
++	/*	4. Configuration Timeout */
++	/*	5. Operating Channel */
++	/*	6. Intended P2P Interface Address */
++	/*	7. Channel List */
++	/*	8. Device Info */
++	/*	9. Group ID	( Only GO ) */
++
++
++	/*	ToDo: */
++
++	/*	P2P Status */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_STATUS;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0001);
++	p2pielen += 2;
++
++	/*	Value: */
++	p2pie[p2pielen++] = result;
++
++	/*	P2P Capability */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CAPABILITY;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Device Capability Bitmap, 1 byte */
++
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT)) {
++		/*	Commented by Albert 2011/03/08 */
++		/*	According to the P2P specification */
++		/*	if the sending device will be client, the P2P Capability should be reserved of group negotation response frame */
++		p2pie[p2pielen++] = 0;
++	} else {
++		/*	Be group owner or meet the error case */
++		p2pie[p2pielen++] = DMP_P2P_DEVCAP_SUPPORT;
++	}
++
++	/*	Group Capability Bitmap, 1 byte */
++	if (pwdinfo->persistent_supported)
++		p2pie[p2pielen++] = P2P_GRPCAP_CROSS_CONN | P2P_GRPCAP_PERSISTENT_GROUP;
++	else
++		p2pie[p2pielen++] = P2P_GRPCAP_CROSS_CONN;
++
++	/*	Group Owner Intent */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_GO_INTENT;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0001);
++	p2pielen += 2;
++
++	/*	Value: */
++	if (pwdinfo->peer_intent & 0x01) {
++		/*	Peer's tie breaker bit is 1, our tie breaker bit should be 0 */
++		p2pie[p2pielen++] = (pwdinfo->intent << 1);
++	} else {
++		/*	Peer's tie breaker bit is 0, our tie breaker bit should be 1 */
++		p2pie[p2pielen++] = ((pwdinfo->intent << 1) | BIT(0));
++	}
++
++
++	/*	Configuration Timeout */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CONF_TIMEOUT;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P GO */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P Client */
++
++	/*	Operating Channel */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_OPERATING_CH;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Operating Class */
++	if (pwdinfo->operating_channel <= 14) {
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x51;
++	} else if ((pwdinfo->operating_channel >= 36) && (pwdinfo->operating_channel <= 48)) {
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x73;
++	} else {
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x7c;
++	}
++
++	/*	Channel Number */
++	p2pie[p2pielen++] = pwdinfo->operating_channel;	/*	operating channel number */
++
++	/*	Intended P2P Interface Address	 */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_INTENTED_IF_ADDR;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(ETH_ALEN);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++	/*	Channel List */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CH_LIST;
++
++	/* Country String(3) */
++	/* + ( Operating Class (1) + Number of Channels(1) ) * Operation Classes (?) */
++	/* + number of channels in all classes */
++	len_channellist_attr = 3
++		       + (1 + 1) * (u16)pmlmeext->channel_list.reg_classes
++		       + get_reg_classes_full_count(pmlmeext->channel_list);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(5 + 1);
++	else
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++#else
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++
++#endif
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Channel Entry List */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++
++		u8 union_chan = rtw_mi_get_union_chan(padapter);
++
++		/*Operating Class*/
++		if (union_chan > 14) {
++			if (union_chan >= 149)
++				p2pie[p2pielen++] = 0x7c;
++			else
++				p2pie[p2pielen++] = 0x73;
++
++		} else
++			p2pie[p2pielen++] = 0x51;
++
++		/*	Number of Channels
++			Just support 1 channel and this channel is AP's channel*/
++		p2pie[p2pielen++] = 1;
++
++		/*Channel List*/
++		p2pie[p2pielen++] = union_chan;
++	} else {
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			/*	Number of Channels */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			/*	Channel List */
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++		}
++	}
++#else /* CONFIG_CONCURRENT_MODE */
++	{
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			/*	Number of Channels */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			/*	Channel List */
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++		}
++	}
++#endif /* CONFIG_CONCURRENT_MODE */
++
++
++	/*	Device Info */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	21->P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes)  */
++	/*	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes) */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(21 + pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	P2P Device Address */
++	_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++	/*	Config Method */
++	/*	This field should be big endian. Noted by P2P specification. */
++
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(pwdinfo->supported_wps_cm);
++
++	p2pielen += 2;
++
++	/*	Primary Device Type */
++	/*	Category ID */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_CID_MULIT_MEDIA);
++	p2pielen += 2;
++
++	/*	OUI */
++	*(u32 *)(p2pie + p2pielen) = cpu_to_be32(WPSOUI);
++	p2pielen += 4;
++
++	/*	Sub Category ID */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_SCID_MEDIA_SERVER);
++	p2pielen += 2;
++
++	/*	Number of Secondary Device Types */
++	p2pie[p2pielen++] = 0x00;	/*	No Secondary Device Type List */
++
++	/*	Device Name */
++	/*	Type: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++	p2pielen += 2;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_name , pwdinfo->device_name_len);
++	p2pielen += pwdinfo->device_name_len;
++
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		/*	Group ID Attribute */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_GROUP_ID;
++
++		/*	Length: */
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(ETH_ALEN + pwdinfo->nego_ssidlen);
++		p2pielen += 2;
++
++		/*	Value: */
++		/*	p2P Device Address */
++		_rtw_memcpy(p2pie + p2pielen , pwdinfo->device_addr, ETH_ALEN);
++		p2pielen += ETH_ALEN;
++
++		/*	SSID */
++		_rtw_memcpy(p2pie + p2pielen, pwdinfo->nego_ssid, pwdinfo->nego_ssidlen);
++		p2pielen += pwdinfo->nego_ssidlen;
++
++	}
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen);
++
++#ifdef CONFIG_WFD
++	wfdielen = build_nego_resp_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++void issue_p2p_GO_confirm(_adapter *padapter, u8 *raddr, u8 result)
++{
++
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_GO_NEGO_CONF;
++	u8			wpsie[255] = { 0x00 }, p2pie[255] = { 0x00 };
++	u8			wpsielen = 0, p2pielen = 0;
++
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	RTW_INFO("[%s] In\n", __FUNCTION__);
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(pwdinfo->negotiation_dialog_token), &(pattrib->pktlen));
++
++
++
++	/*	P2P IE Section. */
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20110306 */
++	/*	According to the P2P Specification, the group negoitation request frame should contain 5 P2P attributes */
++	/*	1. Status */
++	/*	2. P2P Capability */
++	/*	3. Operating Channel */
++	/*	4. Channel List */
++	/*	5. Group ID	( if this WiFi is GO ) */
++
++	/*	P2P Status */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_STATUS;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0001);
++	p2pielen += 2;
++
++	/*	Value: */
++	p2pie[p2pielen++] = result;
++
++	/*	P2P Capability */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CAPABILITY;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Device Capability Bitmap, 1 byte */
++	p2pie[p2pielen++] = DMP_P2P_DEVCAP_SUPPORT;
++
++	/*	Group Capability Bitmap, 1 byte */
++	if (pwdinfo->persistent_supported)
++		p2pie[p2pielen++] = P2P_GRPCAP_CROSS_CONN | P2P_GRPCAP_PERSISTENT_GROUP;
++	else
++		p2pie[p2pielen++] = P2P_GRPCAP_CROSS_CONN;
++
++
++	/*	Operating Channel */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_OPERATING_CH;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT)) {
++		if (pwdinfo->peer_operating_ch <= 14) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x51;
++		} else if ((pwdinfo->peer_operating_ch >= 36) && (pwdinfo->peer_operating_ch <= 48)) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x73;
++		} else {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x7c;
++		}
++
++		p2pie[p2pielen++] = pwdinfo->peer_operating_ch;
++	} else {
++		if (pwdinfo->operating_channel <= 14) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x51;
++		} else if ((pwdinfo->operating_channel >= 36) && (pwdinfo->operating_channel <= 48)) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x73;
++		} else {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x7c;
++		}
++
++		/*	Channel Number */
++		p2pie[p2pielen++] = pwdinfo->operating_channel;		/*	Use the listen channel as the operating channel */
++	}
++
++
++	/*	Channel List */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CH_LIST;
++
++	*(u16 *)(p2pie + p2pielen) = 6;
++	p2pielen += 2;
++
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Value: */
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT)) {
++		if (pwdinfo->peer_operating_ch <= 14) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x51;
++		} else if ((pwdinfo->peer_operating_ch >= 36) && (pwdinfo->peer_operating_ch <= 48)) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x73;
++		} else {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x7c;
++		}
++		p2pie[p2pielen++] = 1;
++		p2pie[p2pielen++] = pwdinfo->peer_operating_ch;
++	} else {
++		if (pwdinfo->operating_channel <= 14) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x51;
++		} else if ((pwdinfo->operating_channel >= 36) && (pwdinfo->operating_channel <= 48)) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x73;
++		} else {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x7c;
++		}
++
++		/*	Channel Number */
++		p2pie[p2pielen++] = 1;
++		p2pie[p2pielen++] = pwdinfo->operating_channel;		/*	Use the listen channel as the operating channel */
++	}
++
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		/*	Group ID Attribute */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_GROUP_ID;
++
++		/*	Length: */
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(ETH_ALEN + pwdinfo->nego_ssidlen);
++		p2pielen += 2;
++
++		/*	Value: */
++		/*	p2P Device Address */
++		_rtw_memcpy(p2pie + p2pielen , pwdinfo->device_addr, ETH_ALEN);
++		p2pielen += ETH_ALEN;
++
++		/*	SSID */
++		_rtw_memcpy(p2pie + p2pielen, pwdinfo->nego_ssid, pwdinfo->nego_ssidlen);
++		p2pielen += pwdinfo->nego_ssidlen;
++	}
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen);
++
++#ifdef CONFIG_WFD
++	wfdielen = build_nego_confirm_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++void issue_p2p_invitation_request(_adapter *padapter, u8 *raddr)
++{
++
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_INVIT_REQ;
++	u8			p2pie[255] = { 0x00 };
++	u8			p2pielen = 0, i;
++	u8			dialogToken = 3;
++	u8			channel_cnt_24g = 0, channel_cnt_5gl = 0, channel_cnt_5gh = 0;
++	u16			len_channellist_attr = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, raddr,  ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));
++
++	/*	P2P IE Section. */
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20101011 */
++	/*	According to the P2P Specification, the P2P Invitation request frame should contain 7 P2P attributes */
++	/*	1. Configuration Timeout */
++	/*	2. Invitation Flags */
++	/*	3. Operating Channel	( Only GO ) */
++	/*	4. P2P Group BSSID	( Should be included if I am the GO ) */
++	/*	5. Channel List */
++	/*	6. P2P Group ID */
++	/*	7. P2P Device Info */
++
++	/*	Configuration Timeout */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CONF_TIMEOUT;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P GO */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P Client */
++
++	/*	Invitation Flags */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_INVITATION_FLAGS;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0001);
++	p2pielen += 2;
++
++	/*	Value: */
++	p2pie[p2pielen++] = P2P_INVITATION_FLAGS_PERSISTENT;
++
++
++	/*	Operating Channel */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_OPERATING_CH;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Operating Class */
++	if (pwdinfo->invitereq_info.operating_ch <= 14)
++		p2pie[p2pielen++] = 0x51;
++	else if ((pwdinfo->invitereq_info.operating_ch >= 36) && (pwdinfo->invitereq_info.operating_ch <= 48))
++		p2pie[p2pielen++] = 0x73;
++	else
++		p2pie[p2pielen++] = 0x7c;
++
++	/*	Channel Number */
++	p2pie[p2pielen++] = pwdinfo->invitereq_info.operating_ch;	/*	operating channel number */
++
++	if (_rtw_memcmp(adapter_mac_addr(padapter), pwdinfo->invitereq_info.go_bssid, ETH_ALEN)) {
++		/*	P2P Group BSSID */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_GROUP_BSSID;
++
++		/*	Length: */
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(ETH_ALEN);
++		p2pielen += 2;
++
++		/*	Value: */
++		/*	P2P Device Address for GO */
++		_rtw_memcpy(p2pie + p2pielen, pwdinfo->invitereq_info.go_bssid, ETH_ALEN);
++		p2pielen += ETH_ALEN;
++	}
++
++	/*	Channel List */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CH_LIST;
++
++
++	/*	Length: */
++	/* Country String(3) */
++	/* + ( Operating Class (1) + Number of Channels(1) ) * Operation Classes (?) */
++	/* + number of channels in all classes */
++	len_channellist_attr = 3
++		       + (1 + 1) * (u16)pmlmeext->channel_list.reg_classes
++		       + get_reg_classes_full_count(pmlmeext->channel_list);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(5 + 1);
++	else
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++#else
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++#endif
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Channel Entry List */
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++		u8 union_ch =  rtw_mi_get_union_chan(padapter);
++
++		/*	Operating Class */
++		if (union_ch > 14) {
++			if (union_ch >= 149)
++				p2pie[p2pielen++] = 0x7c;
++			else
++				p2pie[p2pielen++] = 0x73;
++		} else
++			p2pie[p2pielen++] = 0x51;
++
++
++		/*	Number of Channels */
++		/*	Just support 1 channel and this channel is AP's channel */
++		p2pie[p2pielen++] = 1;
++
++		/*	Channel List */
++		p2pie[p2pielen++] = union_ch;
++	} else {
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			/*	Number of Channels */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			/*	Channel List */
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++		}
++	}
++#else /* CONFIG_CONCURRENT_MODE */
++	{
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			/*	Number of Channels */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			/*	Channel List */
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++		}
++	}
++#endif /* CONFIG_CONCURRENT_MODE */
++
++
++	/*	P2P Group ID */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_GROUP_ID;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(6 + pwdinfo->invitereq_info.ssidlen);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	P2P Device Address for GO */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->invitereq_info.go_bssid, ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++	/*	SSID */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->invitereq_info.go_ssid, pwdinfo->invitereq_info.ssidlen);
++	p2pielen += pwdinfo->invitereq_info.ssidlen;
++
++
++	/*	Device Info */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	21->P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes)  */
++	/*	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes) */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(21 + pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	P2P Device Address */
++	_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++	/*	Config Method */
++	/*	This field should be big endian. Noted by P2P specification. */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_CONFIG_METHOD_DISPLAY);
++	p2pielen += 2;
++
++	/*	Primary Device Type */
++	/*	Category ID */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_CID_MULIT_MEDIA);
++	p2pielen += 2;
++
++	/*	OUI */
++	*(u32 *)(p2pie + p2pielen) = cpu_to_be32(WPSOUI);
++	p2pielen += 4;
++
++	/*	Sub Category ID */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_SCID_MEDIA_SERVER);
++	p2pielen += 2;
++
++	/*	Number of Secondary Device Types */
++	p2pie[p2pielen++] = 0x00;	/*	No Secondary Device Type List */
++
++	/*	Device Name */
++	/*	Type: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++	p2pielen += 2;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_name, pwdinfo->device_name_len);
++	p2pielen += pwdinfo->device_name_len;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen);
++
++#ifdef CONFIG_WFD
++	wfdielen = build_invitation_req_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++void issue_p2p_invitation_response(_adapter *padapter, u8 *raddr, u8 dialogToken, u8 status_code)
++{
++
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_INVIT_RESP;
++	u8			p2pie[255] = { 0x00 };
++	u8			p2pielen = 0, i;
++	u8			channel_cnt_24g = 0, channel_cnt_5gl = 0, channel_cnt_5gh = 0;
++	u16			len_channellist_attr = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, raddr,  ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));
++
++	/*	P2P IE Section. */
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20101005 */
++	/*	According to the P2P Specification, the P2P Invitation response frame should contain 5 P2P attributes */
++	/*	1. Status */
++	/*	2. Configuration Timeout */
++	/*	3. Operating Channel	( Only GO ) */
++	/*	4. P2P Group BSSID	( Only GO ) */
++	/*	5. Channel List */
++
++	/*	P2P Status */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_STATUS;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0001);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	When status code is P2P_STATUS_FAIL_INFO_UNAVAILABLE. */
++	/*	Sent the event receiving the P2P Invitation Req frame to DMP UI. */
++	/*	DMP had to compare the MAC address to find out the profile. */
++	/*	So, the WiFi driver will send the P2P_STATUS_FAIL_INFO_UNAVAILABLE to NB. */
++	/*	If the UI found the corresponding profile, the WiFi driver sends the P2P Invitation Req */
++	/*	to NB to rebuild the persistent group. */
++	p2pie[p2pielen++] = status_code;
++
++	/*	Configuration Timeout */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CONF_TIMEOUT;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P GO */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P Client */
++
++	if (status_code == P2P_STATUS_SUCCESS) {
++		if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++			/*	The P2P Invitation request frame asks this Wi-Fi device to be the P2P GO */
++			/*	In this case, the P2P Invitation response frame should carry the two more P2P attributes. */
++			/*	First one is operating channel attribute. */
++			/*	Second one is P2P Group BSSID attribute. */
++
++			/*	Operating Channel */
++			/*	Type: */
++			p2pie[p2pielen++] = P2P_ATTR_OPERATING_CH;
++
++			/*	Length: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++			p2pielen += 2;
++
++			/*	Value: */
++			/*	Country String */
++			p2pie[p2pielen++] = 'X';
++			p2pie[p2pielen++] = 'X';
++
++			/*	The third byte should be set to 0x04. */
++			/*	Described in the "Operating Channel Attribute" section. */
++			p2pie[p2pielen++] = 0x04;
++
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x51;	/*	Copy from SD7 */
++
++			/*	Channel Number */
++			p2pie[p2pielen++] = pwdinfo->operating_channel;	/*	operating channel number */
++
++
++			/*	P2P Group BSSID */
++			/*	Type: */
++			p2pie[p2pielen++] = P2P_ATTR_GROUP_BSSID;
++
++			/*	Length: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(ETH_ALEN);
++			p2pielen += 2;
++
++			/*	Value: */
++			/*	P2P Device Address for GO */
++			_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++			p2pielen += ETH_ALEN;
++
++		}
++
++		/*	Channel List */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_CH_LIST;
++
++		/*	Length: */
++		/* Country String(3) */
++		/* + ( Operating Class (1) + Number of Channels(1) ) * Operation Classes (?) */
++		/* + number of channels in all classes */
++		len_channellist_attr = 3
++			+ (1 + 1) * (u16)pmlmeext->channel_list.reg_classes
++			+ get_reg_classes_full_count(pmlmeext->channel_list);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(5 + 1);
++		else
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++#else
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++#endif
++		p2pielen += 2;
++
++		/*	Value: */
++		/*	Country String */
++		p2pie[p2pielen++] = 'X';
++		p2pie[p2pielen++] = 'X';
++
++		/*	The third byte should be set to 0x04. */
++		/*	Described in the "Operating Channel Attribute" section. */
++		p2pie[p2pielen++] = 0x04;
++
++		/*	Channel Entry List */
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++			u8 union_ch = rtw_mi_get_union_chan(padapter);
++
++			/*	Operating Class */
++			if (union_ch > 14) {
++				if (union_ch >= 149)
++					p2pie[p2pielen++]  = 0x7c;
++				else
++					p2pie[p2pielen++] = 0x73;
++			} else
++				p2pie[p2pielen++] = 0x51;
++
++
++			/*	Number of Channels */
++			/*	Just support 1 channel and this channel is AP's channel */
++			p2pie[p2pielen++] = 1;
++
++			/*	Channel List */
++			p2pie[p2pielen++] = union_ch;
++		} else {
++			int i, j;
++			for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++				/*	Operating Class */
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++				/*	Number of Channels */
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++				/*	Channel List */
++				for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++					p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++			}
++		}
++#else /* CONFIG_CONCURRENT_MODE */
++		{
++			int i, j;
++			for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++				/*	Operating Class */
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++				/*	Number of Channels */
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++				/*	Channel List */
++				for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++					p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++			}
++		}
++#endif /* CONFIG_CONCURRENT_MODE */
++	}
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen);
++
++#ifdef CONFIG_WFD
++	wfdielen = build_invitation_resp_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++void issue_p2p_provision_request(_adapter *padapter, u8 *pssid, u8 ussidlen, u8 *pdev_raddr)
++{
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u8			dialogToken = 1;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_PROVISION_DISC_REQ;
++	u8			wpsie[100] = { 0x00 };
++	u8			wpsielen = 0;
++	u32			p2pielen = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	RTW_INFO("[%s] In\n", __FUNCTION__);
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, pdev_raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, pdev_raddr, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));
++
++	p2pielen = build_prov_disc_request_p2p_ie(pwdinfo, pframe, pssid, ussidlen, pdev_raddr);
++
++	pframe += p2pielen;
++	pattrib->pktlen += p2pielen;
++
++	wpsielen = 0;
++	/*	WPS OUI */
++	*(u32 *)(wpsie) = cpu_to_be32(WPSOUI);
++	wpsielen += 4;
++
++	/*	WPS version */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++	wpsielen += 2;
++
++	/*	Value: */
++	wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++
++	/*	Config Method */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_CONF_METHOD);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0002);
++	wpsielen += 2;
++
++	/*	Value: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(pwdinfo->tx_prov_disc_info.wps_config_method_request);
++	wpsielen += 2;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen);
++
++
++#ifdef CONFIG_WFD
++	wfdielen = build_provdisc_req_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++
++u8 is_matched_in_profilelist(u8 *peermacaddr, struct profile_info *profileinfo)
++{
++	u8 i, match_result = 0;
++
++	RTW_INFO("[%s] peermac = %.2X %.2X %.2X %.2X %.2X %.2X\n", __FUNCTION__,
++		peermacaddr[0], peermacaddr[1], peermacaddr[2], peermacaddr[3], peermacaddr[4], peermacaddr[5]);
++
++	for (i = 0; i < P2P_MAX_PERSISTENT_GROUP_NUM; i++, profileinfo++) {
++		RTW_INFO("[%s] profileinfo_mac = %.2X %.2X %.2X %.2X %.2X %.2X\n", __FUNCTION__,
++			profileinfo->peermac[0], profileinfo->peermac[1], profileinfo->peermac[2], profileinfo->peermac[3], profileinfo->peermac[4], profileinfo->peermac[5]);
++		if (_rtw_memcmp(peermacaddr, profileinfo->peermac, ETH_ALEN)) {
++			match_result = 1;
++			RTW_INFO("[%s] Match!\n", __FUNCTION__);
++			break;
++		}
++	}
++
++	return match_result ;
++}
++
++void issue_probersp_p2p(_adapter *padapter, unsigned char *da)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	unsigned char					*mac;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	/* WLAN_BSSID_EX 		*cur_network = &(pmlmeinfo->network); */
++	u16					beacon_interval = 100;
++	u16					capInfo = 0;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8					wpsie[255] = { 0x00 };
++	u32					wpsielen = 0, p2pielen = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++#ifdef CONFIG_INTEL_WIDI
++	u8 zero_array_check[L2SDTA_SERVICE_VE_LEN] = { 0x00 };
++#endif /* CONFIG_INTEL_WIDI */
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	mac = adapter_mac_addr(padapter);
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, mac, ETH_ALEN);
++
++	/*	Use the device address for BSSID field.	 */
++	_rtw_memcpy(pwlanhdr->addr3, mac, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(fctrl, WIFI_PROBERSP);
++
++	pattrib->hdrlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = pattrib->hdrlen;
++	pframe += pattrib->hdrlen;
++
++	/* timestamp will be inserted by hardware */
++	pframe += 8;
++	pattrib->pktlen += 8;
++
++	/* beacon interval: 2 bytes */
++	_rtw_memcpy(pframe, (unsigned char *) &beacon_interval, 2);
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++	/*	capability info: 2 bytes */
++	/*	ESS and IBSS bits must be 0 (defined in the 3.1.2.1.1 of WiFi Direct Spec) */
++	capInfo |= cap_ShortPremble;
++	capInfo |= cap_ShortSlot;
++
++	_rtw_memcpy(pframe, (unsigned char *) &capInfo, 2);
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++
++	/* SSID */
++	pframe = rtw_set_ie(pframe, _SSID_IE_, 7, pwdinfo->p2p_wildcard_ssid, &pattrib->pktlen);
++
++	/* supported rates... */
++	/*	Use the OFDM rate in the P2P probe response frame. ( 6(B), 9(B), 12, 18, 24, 36, 48, 54 ) */
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, 8, pwdinfo->support_rate, &pattrib->pktlen);
++
++	/* DS parameter set */
++	pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&pwdinfo->listen_channel, &pattrib->pktlen);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (adapter_wdev_data(padapter)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211) {
++		if (pmlmepriv->wps_probe_resp_ie != NULL && pmlmepriv->p2p_probe_resp_ie != NULL) {
++			/* WPS IE */
++			_rtw_memcpy(pframe, pmlmepriv->wps_probe_resp_ie, pmlmepriv->wps_probe_resp_ie_len);
++			pattrib->pktlen += pmlmepriv->wps_probe_resp_ie_len;
++			pframe += pmlmepriv->wps_probe_resp_ie_len;
++
++			/* P2P IE */
++			_rtw_memcpy(pframe, pmlmepriv->p2p_probe_resp_ie, pmlmepriv->p2p_probe_resp_ie_len);
++			pattrib->pktlen += pmlmepriv->p2p_probe_resp_ie_len;
++			pframe += pmlmepriv->p2p_probe_resp_ie_len;
++		}
++	} else
++#endif /* CONFIG_IOCTL_CFG80211		 */
++	{
++
++		/*	Todo: WPS IE */
++		/*	Noted by Albert 20100907 */
++		/*	According to the WPS specification, all the WPS attribute is presented by Big Endian. */
++
++		wpsielen = 0;
++		/*	WPS OUI */
++		*(u32 *)(wpsie) = cpu_to_be32(WPSOUI);
++		wpsielen += 4;
++
++		/*	WPS version */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++		wpsielen += 2;
++
++		/*	Value: */
++		wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++
++#ifdef CONFIG_INTEL_WIDI
++		/*	Commented by Kurt */
++		/*	Appended WiDi info. only if we did issued_probereq_widi(), and then we saved ven. ext. in pmlmepriv->sa_ext. */
++		if (_rtw_memcmp(pmlmepriv->sa_ext, zero_array_check, L2SDTA_SERVICE_VE_LEN) == _FALSE
++		    || pmlmepriv->num_p2p_sdt != 0) {
++			/* Sec dev type */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_SEC_DEV_TYPE_LIST);
++			wpsielen += 2;
++
++			/*	Length: */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0008);
++			wpsielen += 2;
++
++			/*	Value: */
++			/*	Category ID */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_CID_DISPLAYS);
++			wpsielen += 2;
++
++			/*	OUI */
++			*(u32 *)(wpsie + wpsielen) = cpu_to_be32(INTEL_DEV_TYPE_OUI);
++			wpsielen += 4;
++
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_SCID_WIDI_CONSUMER_SINK);
++			wpsielen += 2;
++
++			if (_rtw_memcmp(pmlmepriv->sa_ext, zero_array_check, L2SDTA_SERVICE_VE_LEN) == _FALSE) {
++				/*	Vendor Extension */
++				_rtw_memcpy(wpsie + wpsielen, pmlmepriv->sa_ext, L2SDTA_SERVICE_VE_LEN);
++				wpsielen += L2SDTA_SERVICE_VE_LEN;
++			}
++		}
++#endif /* CONFIG_INTEL_WIDI */
++
++		/*	WiFi Simple Config State */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_SIMPLE_CONF_STATE);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++		wpsielen += 2;
++
++		/*	Value: */
++		wpsie[wpsielen++] = WPS_WSC_STATE_NOT_CONFIG;	/*	Not Configured. */
++
++		/*	Response Type */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_RESP_TYPE);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++		wpsielen += 2;
++
++		/*	Value: */
++		wpsie[wpsielen++] = WPS_RESPONSE_TYPE_8021X;
++
++		/*	UUID-E */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_UUID_E);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0010);
++		wpsielen += 2;
++
++		/*	Value: */
++		if (pwdinfo->external_uuid == 0) {
++			_rtw_memset(wpsie + wpsielen, 0x0, 16);
++			_rtw_memcpy(wpsie + wpsielen, mac, ETH_ALEN);
++		} else
++			_rtw_memcpy(wpsie + wpsielen, pwdinfo->uuid, 0x10);
++		wpsielen += 0x10;
++
++		/*	Manufacturer */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_MANUFACTURER);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0007);
++		wpsielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(wpsie + wpsielen, "Realtek", 7);
++		wpsielen += 7;
++
++		/*	Model Name */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_MODEL_NAME);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0006);
++		wpsielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(wpsie + wpsielen, "8192CU", 6);
++		wpsielen += 6;
++
++		/*	Model Number */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_MODEL_NUMBER);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++		wpsielen += 2;
++
++		/*	Value: */
++		wpsie[wpsielen++] = 0x31;		/*	character 1 */
++
++		/*	Serial Number */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_SERIAL_NUMBER);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(ETH_ALEN);
++		wpsielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(wpsie + wpsielen, "123456" , ETH_ALEN);
++		wpsielen += ETH_ALEN;
++
++		/*	Primary Device Type */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_PRIMARY_DEV_TYPE);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0008);
++		wpsielen += 2;
++
++		/*	Value: */
++		/*	Category ID */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_CID_MULIT_MEDIA);
++		wpsielen += 2;
++
++		/*	OUI */
++		*(u32 *)(wpsie + wpsielen) = cpu_to_be32(WPSOUI);
++		wpsielen += 4;
++
++		/*	Sub Category ID */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_SCID_MEDIA_SERVER);
++		wpsielen += 2;
++
++		/*	Device Name */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(pwdinfo->device_name_len);
++		wpsielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(wpsie + wpsielen, pwdinfo->device_name, pwdinfo->device_name_len);
++		wpsielen += pwdinfo->device_name_len;
++
++		/*	Config Method */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_CONF_METHOD);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0002);
++		wpsielen += 2;
++
++		/*	Value: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(pwdinfo->supported_wps_cm);
++		wpsielen += 2;
++
++
++		pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen);
++
++
++		p2pielen = build_probe_resp_p2p_ie(pwdinfo, pframe);
++		pframe += p2pielen;
++		pattrib->pktlen += p2pielen;
++	}
++
++#ifdef CONFIG_WFD
++	wfdielen = rtw_append_probe_resp_wfd_ie(padapter, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++int _issue_probereq_p2p(_adapter *padapter, u8 *da, int wait_ack)
++{
++	int ret = _FAIL;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	unsigned char			*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short		*fctrl;
++	unsigned char			*mac;
++	unsigned char			bssrate[NumRates];
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	int	bssrate_len = 0;
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8					wpsie[255] = { 0x00 }, p2pie[255] = { 0x00 };
++	u16					wpsielen = 0, p2pielen = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	mac = adapter_mac_addr(padapter);
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	if (da) {
++		_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, da, ETH_ALEN);
++	} else {
++		if ((pwdinfo->p2p_info.scan_op_ch_only) || (pwdinfo->rx_invitereq_info.scan_op_ch_only)) {
++			/*	This two flags will be set when this is only the P2P client mode. */
++			_rtw_memcpy(pwlanhdr->addr1, pwdinfo->p2p_peer_interface_addr, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, pwdinfo->p2p_peer_interface_addr, ETH_ALEN);
++		} else {
++			/*	broadcast probe request frame */
++			_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, bc_addr, ETH_ALEN);
++		}
++	}
++	_rtw_memcpy(pwlanhdr->addr2, mac, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_PROBEREQ);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_PROVISION_DIS_REQ))
++		pframe = rtw_set_ie(pframe, _SSID_IE_, pwdinfo->tx_prov_disc_info.ssid.SsidLength, pwdinfo->tx_prov_disc_info.ssid.Ssid, &(pattrib->pktlen));
++	else
++		pframe = rtw_set_ie(pframe, _SSID_IE_, P2P_WILDCARD_SSID_LEN, pwdinfo->p2p_wildcard_ssid, &(pattrib->pktlen));
++	/*	Use the OFDM rate in the P2P probe request frame. ( 6(B), 9(B), 12(B), 24(B), 36, 48, 54 ) */
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, 8, pwdinfo->support_rate, &pattrib->pktlen);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (adapter_wdev_data(padapter)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211) {
++		if (pmlmepriv->wps_probe_req_ie != NULL && pmlmepriv->p2p_probe_req_ie != NULL) {
++			/* WPS IE */
++			_rtw_memcpy(pframe, pmlmepriv->wps_probe_req_ie, pmlmepriv->wps_probe_req_ie_len);
++			pattrib->pktlen += pmlmepriv->wps_probe_req_ie_len;
++			pframe += pmlmepriv->wps_probe_req_ie_len;
++
++			/* P2P IE */
++			_rtw_memcpy(pframe, pmlmepriv->p2p_probe_req_ie, pmlmepriv->p2p_probe_req_ie_len);
++			pattrib->pktlen += pmlmepriv->p2p_probe_req_ie_len;
++			pframe += pmlmepriv->p2p_probe_req_ie_len;
++		}
++	} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++	{
++
++		/*	WPS IE */
++		/*	Noted by Albert 20110221 */
++		/*	According to the WPS specification, all the WPS attribute is presented by Big Endian. */
++
++		wpsielen = 0;
++		/*	WPS OUI */
++		*(u32 *)(wpsie) = cpu_to_be32(WPSOUI);
++		wpsielen += 4;
++
++		/*	WPS version */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++		wpsielen += 2;
++
++		/*	Value: */
++		wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++
++		if (pmlmepriv->wps_probe_req_ie == NULL) {
++			/*	UUID-E */
++			/*	Type: */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_UUID_E);
++			wpsielen += 2;
++
++			/*	Length: */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0010);
++			wpsielen += 2;
++
++			/*	Value: */
++			if (pwdinfo->external_uuid == 0) {
++				_rtw_memset(wpsie + wpsielen, 0x0, 16);
++				_rtw_memcpy(wpsie + wpsielen, mac, ETH_ALEN);
++			} else
++				_rtw_memcpy(wpsie + wpsielen, pwdinfo->uuid, 0x10);
++			wpsielen += 0x10;
++
++			/*	Config Method */
++			/*	Type: */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_CONF_METHOD);
++			wpsielen += 2;
++
++			/*	Length: */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0002);
++			wpsielen += 2;
++
++			/*	Value: */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(pwdinfo->supported_wps_cm);
++			wpsielen += 2;
++		}
++
++		/*	Device Name */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(pwdinfo->device_name_len);
++		wpsielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(wpsie + wpsielen, pwdinfo->device_name, pwdinfo->device_name_len);
++		wpsielen += pwdinfo->device_name_len;
++
++		/*	Primary Device Type */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_PRIMARY_DEV_TYPE);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0008);
++		wpsielen += 2;
++
++		/*	Value: */
++		/*	Category ID */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_CID_RTK_WIDI);
++		wpsielen += 2;
++
++		/*	OUI */
++		*(u32 *)(wpsie + wpsielen) = cpu_to_be32(WPSOUI);
++		wpsielen += 4;
++
++		/*	Sub Category ID */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_SCID_RTK_DMP);
++		wpsielen += 2;
++
++		/*	Device Password ID */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_DEVICE_PWID);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0002);
++		wpsielen += 2;
++
++		/*	Value: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_REGISTRAR_SPEC);	/*	Registrar-specified */
++		wpsielen += 2;
++
++		pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen);
++
++		/*	P2P OUI */
++		p2pielen = 0;
++		p2pie[p2pielen++] = 0x50;
++		p2pie[p2pielen++] = 0x6F;
++		p2pie[p2pielen++] = 0x9A;
++		p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++		/*	Commented by Albert 20110221 */
++		/*	According to the P2P Specification, the probe request frame should contain 5 P2P attributes */
++		/*	1. P2P Capability */
++		/*	2. P2P Device ID if this probe request wants to find the specific P2P device */
++		/*	3. Listen Channel */
++		/*	4. Extended Listen Timing */
++		/*	5. Operating Channel if this WiFi is working as the group owner now */
++
++		/*	P2P Capability */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_CAPABILITY;
++
++		/*	Length: */
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++		p2pielen += 2;
++
++		/*	Value: */
++		/*	Device Capability Bitmap, 1 byte */
++		p2pie[p2pielen++] = DMP_P2P_DEVCAP_SUPPORT;
++
++		/*	Group Capability Bitmap, 1 byte */
++		if (pwdinfo->persistent_supported)
++			p2pie[p2pielen++] = P2P_GRPCAP_PERSISTENT_GROUP | DMP_P2P_GRPCAP_SUPPORT;
++		else
++			p2pie[p2pielen++] = DMP_P2P_GRPCAP_SUPPORT;
++
++		/*	Listen Channel */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_LISTEN_CH;
++
++		/*	Length: */
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++		p2pielen += 2;
++
++		/*	Value: */
++		/*	Country String */
++		p2pie[p2pielen++] = 'X';
++		p2pie[p2pielen++] = 'X';
++
++		/*	The third byte should be set to 0x04. */
++		/*	Described in the "Operating Channel Attribute" section. */
++		p2pie[p2pielen++] = 0x04;
++
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x51;	/*	Copy from SD7 */
++
++		/*	Channel Number */
++		p2pie[p2pielen++] = pwdinfo->listen_channel;	/*	listen channel */
++
++
++		/*	Extended Listen Timing */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_EX_LISTEN_TIMING;
++
++		/*	Length: */
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0004);
++		p2pielen += 2;
++
++		/*	Value: */
++		/*	Availability Period */
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0xFFFF);
++		p2pielen += 2;
++
++		/*	Availability Interval */
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0xFFFF);
++		p2pielen += 2;
++
++		if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++			/*	Operating Channel (if this WiFi is working as the group owner now) */
++			/*	Type: */
++			p2pie[p2pielen++] = P2P_ATTR_OPERATING_CH;
++
++			/*	Length: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++			p2pielen += 2;
++
++			/*	Value: */
++			/*	Country String */
++			p2pie[p2pielen++] = 'X';
++			p2pie[p2pielen++] = 'X';
++
++			/*	The third byte should be set to 0x04. */
++			/*	Described in the "Operating Channel Attribute" section. */
++			p2pie[p2pielen++] = 0x04;
++
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x51;	/*	Copy from SD7 */
++
++			/*	Channel Number */
++			p2pie[p2pielen++] = pwdinfo->operating_channel;	/*	operating channel number */
++
++		}
++
++		pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen);
++
++	}
++
++#ifdef CONFIG_WFD
++	wfdielen = rtw_append_probe_req_wfd_ie(padapter, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++	return ret;
++}
++
++inline void issue_probereq_p2p(_adapter *adapter, u8 *da)
++{
++	_issue_probereq_p2p(adapter, da, _FALSE);
++}
++
++/*
++ * wait_ms == 0 means that there is no need to wait ack through C2H_CCX_TX_RPT
++ * wait_ms > 0 means you want to wait ack through C2H_CCX_TX_RPT, and the value of wait_ms means the interval between each TX
++ * try_cnt means the maximal TX count to try
++ */
++int issue_probereq_p2p_ex(_adapter *adapter, u8 *da, int try_cnt, int wait_ms)
++{
++	int ret;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++
++	do {
++		ret = _issue_probereq_p2p(adapter, da, wait_ms > 0 ? _TRUE : _FALSE);
++
++		i++;
++
++		if (RTW_CANNOT_RUN(adapter))
++			break;
++
++		if (i < try_cnt && wait_ms > 0 && ret == _FAIL)
++			rtw_msleep_os(wait_ms);
++
++	} while ((i < try_cnt) && ((ret == _FAIL) || (wait_ms == 0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++#ifndef DBG_XMIT_ACK
++		goto exit;
++#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		if (da)
++			RTW_INFO(FUNC_ADPT_FMT" to "MAC_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(adapter), MAC_ARG(da), rtw_get_oper_ch(adapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++		else
++			RTW_INFO(FUNC_ADPT_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(adapter), rtw_get_oper_ch(adapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++	return ret;
++}
++
++#endif /* CONFIG_P2P */
++
++s32 rtw_action_public_decache(union recv_frame *rframe, u8 token_offset)
++{
++	_adapter *adapter = rframe->u.hdr.adapter;
++	struct mlme_ext_priv *mlmeext = &(adapter->mlmeextpriv);
++	u8 *frame = rframe->u.hdr.rx_data;
++	u16 seq_ctrl = ((rframe->u.hdr.attrib.seq_num & 0xffff) << 4) | (rframe->u.hdr.attrib.frag_num & 0xf);
++	u8 token = *(rframe->u.hdr.rx_data + sizeof(struct rtw_ieee80211_hdr_3addr) + token_offset);
++
++	if (GetRetry(frame)) {
++		if ((seq_ctrl == mlmeext->action_public_rxseq)
++		    && (token == mlmeext->action_public_dialog_token)
++		   ) {
++			RTW_INFO(FUNC_ADPT_FMT" seq_ctrl=0x%x, rxseq=0x%x, token:%d\n",
++				FUNC_ADPT_ARG(adapter), seq_ctrl, mlmeext->action_public_rxseq, token);
++			return _FAIL;
++		}
++	}
++
++	/* TODO: per sta seq & token */
++	mlmeext->action_public_rxseq = seq_ctrl;
++	mlmeext->action_public_dialog_token = token;
++
++	return _SUCCESS;
++}
++
++unsigned int on_action_public_p2p(union recv_frame *precv_frame)
++{
++	_adapter *padapter = precv_frame->u.hdr.adapter;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint len = precv_frame->u.hdr.len;
++	u8 *frame_body;
++#ifdef CONFIG_P2P
++	u8 *p2p_ie;
++	u32	p2p_ielen, wps_ielen;
++	struct	wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8	result = P2P_STATUS_SUCCESS;
++	u8	empty_addr[ETH_ALEN] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 };
++	u8 *merged_p2pie = NULL;
++	u32 merged_p2p_ielen = 0;
++#endif /* CONFIG_P2P */
++
++	frame_body = (unsigned char *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++#ifdef CONFIG_P2P
++	_cancel_timer_ex(&pwdinfo->reset_ch_sitesurvey);
++#ifdef CONFIG_IOCTL_CFG80211
++	if (adapter_wdev_data(padapter)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211)
++		rtw_cfg80211_rx_p2p_action_public(padapter, pframe, len);
++	else
++#endif /* CONFIG_IOCTL_CFG80211 */
++	{
++		/*	Do nothing if the driver doesn't enable the P2P function. */
++		if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE) || rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE))
++			return _SUCCESS;
++
++		len -= sizeof(struct rtw_ieee80211_hdr_3addr);
++
++		switch (frame_body[6]) { /* OUI Subtype */
++		case P2P_GO_NEGO_REQ: {
++			RTW_INFO("[%s] Got GO Nego Req Frame\n", __FUNCTION__);
++			_rtw_memset(&pwdinfo->groupid_info, 0x00, sizeof(struct group_id_info));
++
++			if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_RX_PROVISION_DIS_REQ))
++				rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++
++			if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_FAIL)) {
++				/*	Commented by Albert 20110526 */
++				/*	In this case, this means the previous nego fail doesn't be reset yet. */
++				_cancel_timer_ex(&pwdinfo->restore_p2p_state_timer);
++				/*	Restore the previous p2p state */
++				rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++				RTW_INFO("[%s] Restore the previous p2p state to %d\n", __FUNCTION__, rtw_p2p_state(pwdinfo));
++			}
++#ifdef CONFIG_CONCURRENT_MODE
++			if (rtw_mi_buddy_check_fwstate(padapter, _FW_LINKED))
++				_cancel_timer_ex(&pwdinfo->ap_p2p_switch_timer);
++#endif /* CONFIG_CONCURRENT_MODE */
++
++			/*	Commented by Kurt 20110902 */
++			/* Add if statement to avoid receiving duplicate prov disc req. such that pre_p2p_state would be covered. */
++			if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING))
++				rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++
++			/*	Commented by Kurt 20120113 */
++			/*	Get peer_dev_addr here if peer doesn't issue prov_disc frame. */
++			if (_rtw_memcmp(pwdinfo->rx_prov_disc_info.peerDevAddr, empty_addr, ETH_ALEN))
++				_rtw_memcpy(pwdinfo->rx_prov_disc_info.peerDevAddr, GetAddr2Ptr(pframe), ETH_ALEN);
++
++			result = process_p2p_group_negotation_req(pwdinfo, frame_body, len);
++			issue_p2p_GO_response(padapter, GetAddr2Ptr(pframe), frame_body, len, result);
++#ifdef CONFIG_INTEL_WIDI
++			if (padapter->mlmepriv.widi_state == INTEL_WIDI_STATE_LISTEN) {
++				padapter->mlmepriv.widi_state = INTEL_WIDI_STATE_WFD_CONNECTION;
++				_cancel_timer_ex(&(padapter->mlmepriv.listen_timer));
++				intel_widi_wk_cmd(padapter, INTEL_WIDI_LISTEN_STOP_WK, NULL, 0);
++			}
++#endif /* CONFIG_INTEL_WIDI */
++
++			/*	Commented by Albert 20110718 */
++			/*	No matter negotiating or negotiation failure, the driver should set up the restore P2P state timer. */
++#ifdef CONFIG_CONCURRENT_MODE
++			/*	Commented by Albert 20120107 */
++			_set_timer(&pwdinfo->restore_p2p_state_timer, 3000);
++#else /* CONFIG_CONCURRENT_MODE */
++			_set_timer(&pwdinfo->restore_p2p_state_timer, 5000);
++#endif /* CONFIG_CONCURRENT_MODE */
++			break;
++		}
++		case P2P_GO_NEGO_RESP: {
++			RTW_INFO("[%s] Got GO Nego Resp Frame\n", __FUNCTION__);
++
++			if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING)) {
++				/*	Commented by Albert 20110425 */
++				/*	The restore timer is enabled when issuing the nego request frame of rtw_p2p_connect function. */
++				_cancel_timer_ex(&pwdinfo->restore_p2p_state_timer);
++				pwdinfo->nego_req_info.benable = _FALSE;
++				result = process_p2p_group_negotation_resp(pwdinfo, frame_body, len);
++				issue_p2p_GO_confirm(pwdinfo->padapter, GetAddr2Ptr(pframe), result);
++				if (P2P_STATUS_SUCCESS == result) {
++					if (rtw_p2p_role(pwdinfo) == P2P_ROLE_CLIENT) {
++						pwdinfo->p2p_info.operation_ch[0] = pwdinfo->peer_operating_ch;
++#ifdef CONFIG_P2P_OP_CHK_SOCIAL_CH
++						pwdinfo->p2p_info.operation_ch[1] = 1;	/* Check whether GO is operating in channel 1; */
++						pwdinfo->p2p_info.operation_ch[2] = 6;	/* Check whether GO is operating in channel 6; */
++						pwdinfo->p2p_info.operation_ch[3] = 11;	/* Check whether GO is operating in channel 11; */
++#endif /* CONFIG_P2P_OP_CHK_SOCIAL_CH */
++						pwdinfo->p2p_info.scan_op_ch_only = 1;
++						_set_timer(&pwdinfo->reset_ch_sitesurvey2, P2P_RESET_SCAN_CH);
++					}
++				}
++
++				/*	Reset the dialog token for group negotiation frames. */
++				pwdinfo->negotiation_dialog_token = 1;
++
++				if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_FAIL))
++					_set_timer(&pwdinfo->restore_p2p_state_timer, 5000);
++			} else
++				RTW_INFO("[%s] Skipped GO Nego Resp Frame (p2p_state != P2P_STATE_GONEGO_ING)\n", __FUNCTION__);
++
++			break;
++		}
++		case P2P_GO_NEGO_CONF: {
++			RTW_INFO("[%s] Got GO Nego Confirm Frame\n", __FUNCTION__);
++			result = process_p2p_group_negotation_confirm(pwdinfo, frame_body, len);
++			if (P2P_STATUS_SUCCESS == result) {
++				if (rtw_p2p_role(pwdinfo) == P2P_ROLE_CLIENT) {
++					pwdinfo->p2p_info.operation_ch[0] = pwdinfo->peer_operating_ch;
++#ifdef CONFIG_P2P_OP_CHK_SOCIAL_CH
++					pwdinfo->p2p_info.operation_ch[1] = 1;	/* Check whether GO is operating in channel 1; */
++					pwdinfo->p2p_info.operation_ch[2] = 6;	/* Check whether GO is operating in channel 6; */
++					pwdinfo->p2p_info.operation_ch[3] = 11;	/* Check whether GO is operating in channel 11; */
++#endif /* CONFIG_P2P_OP_CHK_SOCIAL_CH */
++					pwdinfo->p2p_info.scan_op_ch_only = 1;
++					_set_timer(&pwdinfo->reset_ch_sitesurvey2, P2P_RESET_SCAN_CH);
++				}
++			}
++			break;
++		}
++		case P2P_INVIT_REQ: {
++			/*	Added by Albert 2010/10/05 */
++			/*	Received the P2P Invite Request frame. */
++
++			RTW_INFO("[%s] Got invite request frame!\n", __FUNCTION__);
++			p2p_ie = rtw_get_p2p_ie(frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, NULL, &p2p_ielen);
++			if (p2p_ie) {
++				/*	Parse the necessary information from the P2P Invitation Request frame. */
++				/*	For example: The MAC address of sending this P2P Invitation Request frame. */
++				u32	attr_contentlen = 0;
++				u8	status_code = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++				struct group_id_info group_id;
++				u8	invitation_flag = 0;
++				int j = 0;
++
++				merged_p2p_ielen = rtw_get_p2p_merged_ies_len(frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_);
++
++				merged_p2pie = rtw_zmalloc(merged_p2p_ielen + 2);	/* 2 is for EID and Length */
++				if (merged_p2pie == NULL) {
++					RTW_INFO("[%s] Malloc p2p ie fail\n", __FUNCTION__);
++					goto exit;
++				}
++				_rtw_memset(merged_p2pie, 0x00, merged_p2p_ielen);
++
++				merged_p2p_ielen = rtw_p2p_merge_ies(frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, merged_p2pie);
++
++				rtw_get_p2p_attr_content(merged_p2pie, merged_p2p_ielen, P2P_ATTR_INVITATION_FLAGS, &invitation_flag, &attr_contentlen);
++				if (attr_contentlen) {
++
++					rtw_get_p2p_attr_content(merged_p2pie, merged_p2p_ielen, P2P_ATTR_GROUP_BSSID, pwdinfo->p2p_peer_interface_addr, &attr_contentlen);
++					/*	Commented by Albert 20120510 */
++					/*	Copy to the pwdinfo->p2p_peer_interface_addr. */
++					/*	So that the WFD UI ( or Sigma ) can get the peer interface address by using the following command. */
++					/*	#> iwpriv wlan0 p2p_get peer_ifa */
++					/*	After having the peer interface address, the sigma can find the correct conf file for wpa_supplicant. */
++
++					if (attr_contentlen) {
++						RTW_INFO("[%s] GO's BSSID = %.2X %.2X %.2X %.2X %.2X %.2X\n", __FUNCTION__,
++							pwdinfo->p2p_peer_interface_addr[0], pwdinfo->p2p_peer_interface_addr[1],
++							pwdinfo->p2p_peer_interface_addr[2], pwdinfo->p2p_peer_interface_addr[3],
++							pwdinfo->p2p_peer_interface_addr[4], pwdinfo->p2p_peer_interface_addr[5]);
++					}
++
++					if (invitation_flag & P2P_INVITATION_FLAGS_PERSISTENT) {
++						/*	Re-invoke the persistent group. */
++
++						_rtw_memset(&group_id, 0x00, sizeof(struct group_id_info));
++						rtw_get_p2p_attr_content(merged_p2pie, merged_p2p_ielen, P2P_ATTR_GROUP_ID, (u8 *) &group_id, &attr_contentlen);
++						if (attr_contentlen) {
++							if (_rtw_memcmp(group_id.go_device_addr, adapter_mac_addr(padapter), ETH_ALEN)) {
++								/*	The p2p device sending this p2p invitation request wants this Wi-Fi device to be the persistent GO. */
++								rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_GO);
++								rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++								status_code = P2P_STATUS_SUCCESS;
++							} else {
++								/*	The p2p device sending this p2p invitation request wants to be the persistent GO. */
++								if (is_matched_in_profilelist(pwdinfo->p2p_peer_interface_addr, &pwdinfo->profileinfo[0])) {
++									u8 operatingch_info[5] = { 0x00 };
++									if (rtw_get_p2p_attr_content(merged_p2pie, merged_p2p_ielen, P2P_ATTR_OPERATING_CH, operatingch_info,
++										&attr_contentlen)) {
++										if (rtw_ch_set_search_ch(padapter->mlmeextpriv.channel_set, (u32)operatingch_info[4]) >= 0) {
++											/*	The operating channel is acceptable for this device. */
++											pwdinfo->rx_invitereq_info.operation_ch[0] = operatingch_info[4];
++#ifdef CONFIG_P2P_OP_CHK_SOCIAL_CH
++											pwdinfo->rx_invitereq_info.operation_ch[1] = 1;		/* Check whether GO is operating in channel 1; */
++											pwdinfo->rx_invitereq_info.operation_ch[2] = 6;		/* Check whether GO is operating in channel 6; */
++											pwdinfo->rx_invitereq_info.operation_ch[3] = 11;		/* Check whether GO is operating in channel 11; */
++#endif /* CONFIG_P2P_OP_CHK_SOCIAL_CH */
++											pwdinfo->rx_invitereq_info.scan_op_ch_only = 1;
++											_set_timer(&pwdinfo->reset_ch_sitesurvey, P2P_RESET_SCAN_CH);
++											rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_MATCH);
++											rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++											status_code = P2P_STATUS_SUCCESS;
++										} else {
++											/*	The operating channel isn't supported by this device. */
++											rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_DISMATCH);
++											rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++											status_code = P2P_STATUS_FAIL_NO_COMMON_CH;
++											_set_timer(&pwdinfo->restore_p2p_state_timer, 3000);
++										}
++									} else {
++										/*	Commented by Albert 20121130 */
++										/*	Intel will use the different P2P IE to store the operating channel information */
++										/*	Workaround for Intel WiDi 3.5 */
++										rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_MATCH);
++										rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++										status_code = P2P_STATUS_SUCCESS;
++									}
++								} else {
++									rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_DISMATCH);
++#ifdef CONFIG_INTEL_WIDI
++									_rtw_memcpy(pwdinfo->p2p_peer_device_addr, group_id.go_device_addr , ETH_ALEN);
++									rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++#endif /* CONFIG_INTEL_WIDI */
++
++									status_code = P2P_STATUS_FAIL_UNKNOWN_P2PGROUP;
++								}
++							}
++						} else {
++							RTW_INFO("[%s] P2P Group ID Attribute NOT FOUND!\n", __FUNCTION__);
++							status_code = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++						}
++					} else {
++						/*	Received the invitation to join a P2P group. */
++
++						_rtw_memset(&group_id, 0x00, sizeof(struct group_id_info));
++						rtw_get_p2p_attr_content(merged_p2pie, merged_p2p_ielen, P2P_ATTR_GROUP_ID, (u8 *) &group_id, &attr_contentlen);
++						if (attr_contentlen) {
++							if (_rtw_memcmp(group_id.go_device_addr, adapter_mac_addr(padapter), ETH_ALEN)) {
++								/*	In this case, the GO can't be myself. */
++								rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_DISMATCH);
++								status_code = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++							} else {
++								/*	The p2p device sending this p2p invitation request wants to join an existing P2P group */
++								/*	Commented by Albert 2012/06/28 */
++								/*	In this case, this Wi-Fi device should use the iwpriv command to get the peer device address. */
++								/*	The peer device address should be the destination address for the provisioning discovery request. */
++								/*	Then, this Wi-Fi device should use the iwpriv command to get the peer interface address. */
++								/*	The peer interface address should be the address for WPS mac address */
++								_rtw_memcpy(pwdinfo->p2p_peer_device_addr, group_id.go_device_addr , ETH_ALEN);
++								rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++								rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_JOIN);
++								status_code = P2P_STATUS_SUCCESS;
++							}
++						} else {
++							RTW_INFO("[%s] P2P Group ID Attribute NOT FOUND!\n", __FUNCTION__);
++							status_code = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++						}
++					}
++				} else {
++					RTW_INFO("[%s] P2P Invitation Flags Attribute NOT FOUND!\n", __FUNCTION__);
++					status_code = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++				}
++
++				RTW_INFO("[%s] status_code = %d\n", __FUNCTION__, status_code);
++
++				pwdinfo->inviteresp_info.token = frame_body[7];
++				issue_p2p_invitation_response(padapter, GetAddr2Ptr(pframe), pwdinfo->inviteresp_info.token, status_code);
++				_set_timer(&pwdinfo->restore_p2p_state_timer, 3000);
++			}
++#ifdef CONFIG_INTEL_WIDI
++			if (padapter->mlmepriv.widi_state == INTEL_WIDI_STATE_LISTEN) {
++				padapter->mlmepriv.widi_state = INTEL_WIDI_STATE_WFD_CONNECTION;
++				_cancel_timer_ex(&(padapter->mlmepriv.listen_timer));
++				intel_widi_wk_cmd(padapter, INTEL_WIDI_LISTEN_STOP_WK, NULL, 0);
++			}
++#endif /* CONFIG_INTEL_WIDI */
++			break;
++		}
++		case P2P_INVIT_RESP: {
++			u8	attr_content = 0x00;
++			u32	attr_contentlen = 0;
++
++			RTW_INFO("[%s] Got invite response frame!\n", __FUNCTION__);
++			_cancel_timer_ex(&pwdinfo->restore_p2p_state_timer);
++			p2p_ie = rtw_get_p2p_ie(frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, NULL, &p2p_ielen);
++			if (p2p_ie) {
++				rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, &attr_content, &attr_contentlen);
++
++				if (attr_contentlen == 1) {
++					RTW_INFO("[%s] Status = %d\n", __FUNCTION__, attr_content);
++					pwdinfo->invitereq_info.benable = _FALSE;
++
++					if (attr_content == P2P_STATUS_SUCCESS) {
++						if (_rtw_memcmp(pwdinfo->invitereq_info.go_bssid, adapter_mac_addr(padapter), ETH_ALEN))
++							rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++						else
++							rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_RX_INVITE_RESP_OK);
++					} else {
++						rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_RX_INVITE_RESP_FAIL);
++					}
++				} else {
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++					rtw_p2p_set_state(pwdinfo, P2P_STATE_RX_INVITE_RESP_FAIL);
++				}
++			} else {
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++				rtw_p2p_set_state(pwdinfo, P2P_STATE_RX_INVITE_RESP_FAIL);
++			}
++
++			if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_RX_INVITE_RESP_FAIL))
++				_set_timer(&pwdinfo->restore_p2p_state_timer, 5000);
++			break;
++		}
++		case P2P_DEVDISC_REQ:
++
++			process_p2p_devdisc_req(pwdinfo, pframe, len);
++
++			break;
++
++		case P2P_DEVDISC_RESP:
++
++			process_p2p_devdisc_resp(pwdinfo, pframe, len);
++
++			break;
++
++		case P2P_PROVISION_DISC_REQ:
++			RTW_INFO("[%s] Got Provisioning Discovery Request Frame\n", __FUNCTION__);
++			process_p2p_provdisc_req(pwdinfo, pframe, len);
++			_rtw_memcpy(pwdinfo->rx_prov_disc_info.peerDevAddr, GetAddr2Ptr(pframe), ETH_ALEN);
++
++			/* 20110902 Kurt */
++			/* Add the following statement to avoid receiving duplicate prov disc req. such that pre_p2p_state would be covered. */
++			if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_RX_PROVISION_DIS_REQ))
++				rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_RX_PROVISION_DIS_REQ);
++			_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_PROVISION_TIMEOUT);
++#ifdef CONFIG_INTEL_WIDI
++			if (padapter->mlmepriv.widi_state == INTEL_WIDI_STATE_LISTEN) {
++				padapter->mlmepriv.widi_state = INTEL_WIDI_STATE_WFD_CONNECTION;
++				_cancel_timer_ex(&(padapter->mlmepriv.listen_timer));
++				intel_widi_wk_cmd(padapter, INTEL_WIDI_LISTEN_STOP_WK, NULL, 0);
++			}
++#endif /* CONFIG_INTEL_WIDI */
++			break;
++
++		case P2P_PROVISION_DISC_RESP:
++			/*	Commented by Albert 20110707 */
++			/*	Should we check the pwdinfo->tx_prov_disc_info.bsent flag here?? */
++			RTW_INFO("[%s] Got Provisioning Discovery Response Frame\n", __FUNCTION__);
++			/*	Commented by Albert 20110426 */
++			/*	The restore timer is enabled when issuing the provisioing request frame in rtw_p2p_prov_disc function. */
++			_cancel_timer_ex(&pwdinfo->restore_p2p_state_timer);
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_RX_PROVISION_DIS_RSP);
++			process_p2p_provdisc_resp(pwdinfo, pframe);
++			_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_PROVISION_TIMEOUT);
++			break;
++
++		}
++	}
++
++
++exit:
++
++	if (merged_p2pie)
++		rtw_mfree(merged_p2pie, merged_p2p_ielen + 2);
++#endif /* CONFIG_P2P */
++	return _SUCCESS;
++}
++
++unsigned int on_action_public_vendor(union recv_frame *precv_frame)
++{
++	unsigned int ret = _FAIL;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint frame_len = precv_frame->u.hdr.len;
++	u8 *frame_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	if (_rtw_memcmp(frame_body + 2, P2P_OUI, 4) == _TRUE) {
++		if (rtw_action_public_decache(precv_frame, 7) == _FAIL)
++			goto exit;
++
++		if (!hal_chk_wl_func(precv_frame->u.hdr.adapter, WL_FUNC_MIRACAST))
++			rtw_rframe_del_wfd_ie(precv_frame, 8);
++
++		ret = on_action_public_p2p(precv_frame);
++	}
++
++exit:
++	return ret;
++}
++
++unsigned int on_action_public_default(union recv_frame *precv_frame, u8 action)
++{
++	unsigned int ret = _FAIL;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint frame_len = precv_frame->u.hdr.len;
++	u8 *frame_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	u8 token;
++	_adapter *adapter = precv_frame->u.hdr.adapter;
++	int cnt = 0;
++	char msg[64];
++
++	token = frame_body[2];
++
++	if (rtw_action_public_decache(precv_frame, 2) == _FAIL)
++		goto exit;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	cnt += sprintf((msg + cnt), "%s(token:%u)", action_public_str(action), token);
++	rtw_cfg80211_rx_action(adapter, pframe, frame_len, msg);
++#endif
++
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++unsigned int on_action_public(_adapter *padapter, union recv_frame *precv_frame)
++{
++	unsigned int ret = _FAIL;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint frame_len = precv_frame->u.hdr.len;
++	u8 *frame_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	u8 category, action;
++
++	/* check RA matches or not */
++	if (!_rtw_memcmp(adapter_mac_addr(padapter), GetAddr1Ptr(pframe), ETH_ALEN))
++		goto exit;
++
++	category = frame_body[0];
++	if (category != RTW_WLAN_CATEGORY_PUBLIC)
++		goto exit;
++
++	action = frame_body[1];
++	switch (action) {
++	case ACT_PUBLIC_BSSCOEXIST:
++#ifdef CONFIG_80211N_HT
++#ifdef CONFIG_AP_MODE
++		/*20/40 BSS Coexistence Management frame is a Public Action frame*/
++		if (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE)
++			rtw_process_public_act_bsscoex(padapter, pframe, frame_len);
++#endif /*CONFIG_AP_MODE*/
++#endif /*CONFIG_80211N_HT*/
++		break;
++	case ACT_PUBLIC_VENDOR:
++		ret = on_action_public_vendor(precv_frame);
++		break;
++	default:
++		ret = on_action_public_default(precv_frame, action);
++		break;
++	}
++
++exit:
++	return ret;
++}
++
++unsigned int OnAction_ft(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_RTW_80211R
++	u32	ret = _FAIL;
++	u32	frame_len = 0;
++	u8	action_code = 0;
++	u8	category = 0;
++	u8	*pframe = NULL;
++	u8	*pframe_body = NULL;
++	u8	sta_addr[ETH_ALEN] = {0};
++	u8	*pie = NULL;
++	u32	ft_ie_len = 0;
++	u32 status_code = 0;
++	struct mlme_ext_priv *pmlmeext = NULL;
++	struct mlme_ext_info *pmlmeinfo = NULL;
++	struct mlme_priv *pmlmepriv = NULL;
++	struct wlan_network *proam_target = NULL;
++	ft_priv *pftpriv = NULL;
++	_irqL  irqL;
++
++	pmlmeext = &padapter->mlmeextpriv;
++	pmlmeinfo = &(pmlmeext->mlmext_info);
++	pmlmepriv = &padapter->mlmepriv;
++	pftpriv = &pmlmepriv->ftpriv;
++	pframe = precv_frame->u.hdr.rx_data;
++	frame_len = precv_frame->u.hdr.len;
++	pframe_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	category = pframe_body[0];
++
++	if (category != RTW_WLAN_CATEGORY_FT)
++		goto exit;
++
++	action_code = pframe_body[1];
++	switch (action_code) {
++	case RTW_WLAN_ACTION_FT_RESPONSE:
++		RTW_INFO("FT: %s RTW_WLAN_ACTION_FT_RESPONSE\n", __func__);
++		if (!_rtw_memcmp(adapter_mac_addr(padapter), &pframe_body[2], ETH_ALEN)) {
++			RTW_ERR("FT: Unmatched STA MAC Address "MAC_FMT"\n", MAC_ARG(&pframe_body[2]));
++			goto exit;
++		}
++
++		status_code = le16_to_cpu(*(u16 *)((SIZE_PTR)pframe +  sizeof(struct rtw_ieee80211_hdr_3addr) + 14));
++		if (status_code != 0) {
++			RTW_ERR("FT: WLAN ACTION FT RESPONSE fail, status: %d\n", status_code);
++			goto exit;
++		}
++
++		if (is_zero_mac_addr(&pframe_body[8]) || is_broadcast_mac_addr(&pframe_body[8])) {
++			RTW_ERR("FT: Invalid Target MAC Address "MAC_FMT"\n", MAC_ARG(padapter->mlmepriv.roam_tgt_addr));
++			goto exit;
++		}
++
++		pie = rtw_get_ie(pframe_body, _MDIE_, &ft_ie_len, frame_len);
++		if (pie) {
++			if (!_rtw_memcmp(&pftpriv->mdid, pie+2, 2)) {
++				RTW_ERR("FT: Invalid MDID\n");
++				goto exit;
++			}
++		}
++
++		rtw_set_ft_status(padapter, RTW_FT_REQUESTED_STA);
++		_cancel_timer_ex(&pmlmeext->ft_link_timer);
++
++		/*Disconnect current AP*/
++		receive_disconnect(padapter, pmlmepriv->cur_network.network.MacAddress, WLAN_REASON_ACTIVE_ROAM, _FALSE);
++
++		pftpriv->ft_action_len = frame_len;
++		_rtw_memcpy(pftpriv->ft_action, pframe, rtw_min(frame_len, RTW_MAX_FTIE_SZ));
++		ret = _SUCCESS;
++		break;
++	case RTW_WLAN_ACTION_FT_REQUEST:
++	case RTW_WLAN_ACTION_FT_CONFIRM:
++	case RTW_WLAN_ACTION_FT_ACK:
++	default:
++		RTW_ERR("FT: Unsupported FT Action!\n");
++		break;
++	}
++
++exit:
++	return ret;
++#else
++	return _SUCCESS;
++#endif
++}
++
++unsigned int OnAction_ht(_adapter *padapter, union recv_frame *precv_frame)
++{
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint frame_len = precv_frame->u.hdr.len;
++	u8 *frame_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	u8 category, action;
++
++	/* check RA matches or not */
++	if (!_rtw_memcmp(adapter_mac_addr(padapter), GetAddr1Ptr(pframe), ETH_ALEN))
++		goto exit;
++
++	category = frame_body[0];
++	if (category != RTW_WLAN_CATEGORY_HT)
++		goto exit;
++
++	action = frame_body[1];
++	switch (action) {
++	case RTW_WLAN_ACTION_HT_SM_PS:
++#ifdef CONFIG_80211N_HT
++#ifdef CONFIG_AP_MODE
++		if (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE)
++			rtw_process_ht_action_smps(padapter, GetAddr2Ptr(pframe), frame_body[2]);
++#endif /*CONFIG_AP_MODE*/
++#endif /*CONFIG_80211N_HT*/
++		break;
++	case RTW_WLAN_ACTION_HT_COMPRESS_BEAMFORMING:
++#ifdef CONFIG_BEAMFORMING
++		/*RTW_INFO("RTW_WLAN_ACTION_HT_COMPRESS_BEAMFORMING\n");*/
++		beamforming_get_report_frame(padapter, precv_frame);
++#endif /*CONFIG_BEAMFORMING*/
++		break;
++	default:
++		break;
++	}
++
++exit:
++
++	return _SUCCESS;
++}
++
++#ifdef CONFIG_IEEE80211W
++unsigned int OnAction_sa_query(_adapter *padapter, union recv_frame *precv_frame)
++{
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct sta_info		*psta;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	u16 tid;
++	/* Baron */
++
++	RTW_INFO("OnAction_sa_query\n");
++
++	switch (pframe[WLAN_HDR_A3_LEN + 1]) {
++	case 0: /* SA Query req */
++		_rtw_memcpy(&tid, &pframe[WLAN_HDR_A3_LEN + 2], sizeof(u16));
++		RTW_INFO("OnAction_sa_query request,action=%d, tid=%04x, pframe=%02x-%02x\n"
++			, pframe[WLAN_HDR_A3_LEN + 1], tid, pframe[WLAN_HDR_A3_LEN + 2], pframe[WLAN_HDR_A3_LEN + 3]);
++		issue_action_SA_Query(padapter, GetAddr2Ptr(pframe), 1, tid, IEEE80211W_RIGHT_KEY);
++		break;
++
++	case 1: /* SA Query rsp */
++		psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++		if (psta != NULL)
++			_cancel_timer_ex(&psta->dot11w_expire_timer);
++
++		_rtw_memcpy(&tid, &pframe[WLAN_HDR_A3_LEN + 2], sizeof(u16));
++		RTW_INFO("OnAction_sa_query response,action=%d, tid=%04x, cancel timer\n", pframe[WLAN_HDR_A3_LEN + 1], tid);
++		break;
++	default:
++		break;
++	}
++	if (0) {
++		int pp;
++		printk("pattrib->pktlen = %d =>", pattrib->pkt_len);
++		for (pp = 0; pp < pattrib->pkt_len; pp++)
++			printk(" %02x ", pframe[pp]);
++		printk("\n");
++	}
++
++	return _SUCCESS;
++}
++#endif /* CONFIG_IEEE80211W */
++
++unsigned int OnAction_wmm(_adapter *padapter, union recv_frame *precv_frame)
++{
++	return _SUCCESS;
++}
++
++unsigned int OnAction_vht(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_80211AC_VHT
++	struct rx_pkt_attrib *prxattrib = &precv_frame->u.hdr.attrib;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint frame_len = precv_frame->u.hdr.len;
++	struct rtw_ieee80211_hdr_3addr *whdr = (struct rtw_ieee80211_hdr_3addr *)pframe;
++	u8 *frame_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	u8 category, action;
++	struct sta_info *psta = NULL;
++
++	/* check RA matches or not */
++	if (!_rtw_memcmp(adapter_mac_addr(padapter), GetAddr1Ptr(pframe), ETH_ALEN))
++		goto exit;
++
++	category = frame_body[0];
++	if (category != RTW_WLAN_CATEGORY_VHT)
++		goto exit;
++
++	action = frame_body[1];
++	switch (action) {
++	case RTW_WLAN_ACTION_VHT_COMPRESSED_BEAMFORMING:
++#ifdef CONFIG_BEAMFORMING
++		/*RTW_INFO("RTW_WLAN_ACTION_VHT_COMPRESSED_BEAMFORMING\n");*/
++		beamforming_get_report_frame(padapter, precv_frame);
++#endif /*CONFIG_BEAMFORMING*/
++		break;
++	case RTW_WLAN_ACTION_VHT_OPMODE_NOTIFICATION:
++		/* CategoryCode(1) + ActionCode(1) + OpModeNotification(1) */
++		/* RTW_INFO("RTW_WLAN_ACTION_VHT_OPMODE_NOTIFICATION\n"); */
++		psta = rtw_get_stainfo(&padapter->stapriv, whdr->addr2);
++		if (psta)
++			rtw_process_vht_op_mode_notify(padapter, &frame_body[2], psta);
++		break;
++	case RTW_WLAN_ACTION_VHT_GROUPID_MANAGEMENT:
++#ifdef CONFIG_BEAMFORMING
++		beamforming_get_vht_gid_mgnt_frame(padapter, precv_frame);
++#endif /* CONFIG_BEAMFORMING */
++		break;
++	default:
++		break;
++	}
++
++exit:
++#endif /* CONFIG_80211AC_VHT */
++
++	return _SUCCESS;
++}
++
++unsigned int OnAction_p2p(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_P2P
++	u8 *frame_body;
++	u8 category, OUI_Subtype, dialogToken = 0;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint len = precv_frame->u.hdr.len;
++	struct	wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	/* check RA matches or not */
++	if (!_rtw_memcmp(adapter_mac_addr(padapter), GetAddr1Ptr(pframe), ETH_ALEN))
++		return _SUCCESS;
++
++	frame_body = (unsigned char *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++	category = frame_body[0];
++	if (category != RTW_WLAN_CATEGORY_P2P)
++		return _SUCCESS;
++
++	if (cpu_to_be32(*((u32 *)(frame_body + 1))) != P2POUI)
++		return _SUCCESS;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (adapter_wdev_data(padapter)->p2p_enabled
++	    && pwdinfo->driver_interface == DRIVER_CFG80211
++	   ) {
++		rtw_cfg80211_rx_action_p2p(padapter, pframe, len);
++		return _SUCCESS;
++	} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++	{
++		len -= sizeof(struct rtw_ieee80211_hdr_3addr);
++		OUI_Subtype = frame_body[5];
++		dialogToken = frame_body[6];
++
++		switch (OUI_Subtype) {
++		case P2P_NOTICE_OF_ABSENCE:
++
++			break;
++
++		case P2P_PRESENCE_REQUEST:
++
++			process_p2p_presence_req(pwdinfo, pframe, len);
++
++			break;
++
++		case P2P_PRESENCE_RESPONSE:
++
++			break;
++
++		case P2P_GO_DISC_REQUEST:
++
++			break;
++
++		default:
++			break;
++
++		}
++	}
++#endif /* CONFIG_P2P */
++
++	return _SUCCESS;
++
++}
++
++unsigned int OnAction(_adapter *padapter, union recv_frame *precv_frame)
++{
++	int i;
++	unsigned char	category;
++	struct action_handler *ptable;
++	unsigned char	*frame_body;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++
++	frame_body = (unsigned char *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++	category = frame_body[0];
++
++	for (i = 0; i < sizeof(OnAction_tbl) / sizeof(struct action_handler); i++) {
++		ptable = &OnAction_tbl[i];
++
++		if (category == ptable->num)
++			ptable->func(padapter, precv_frame);
++
++	}
++
++	return _SUCCESS;
++
++}
++
++unsigned int DoReserved(_adapter *padapter, union recv_frame *precv_frame)
++{
++
++	/* RTW_INFO("rcvd mgt frame(%x, %x)\n", (GetFrameSubType(pframe) >> 4), *(unsigned int *)GetAddr1Ptr(pframe)); */
++	return _SUCCESS;
++}
++
++struct xmit_frame *_alloc_mgtxmitframe(struct xmit_priv *pxmitpriv, bool once)
++{
++	struct xmit_frame *pmgntframe;
++	struct xmit_buf *pxmitbuf;
++
++	if (once)
++		pmgntframe = rtw_alloc_xmitframe_once(pxmitpriv);
++	else
++		pmgntframe = rtw_alloc_xmitframe_ext(pxmitpriv);
++
++	if (pmgntframe == NULL) {
++		RTW_INFO(FUNC_ADPT_FMT" alloc xmitframe fail, once:%d\n", FUNC_ADPT_ARG(pxmitpriv->adapter), once);
++		goto exit;
++	}
++
++	pxmitbuf = rtw_alloc_xmitbuf_ext(pxmitpriv);
++	if (pxmitbuf == NULL) {
++		RTW_INFO(FUNC_ADPT_FMT" alloc xmitbuf fail\n", FUNC_ADPT_ARG(pxmitpriv->adapter));
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		pmgntframe = NULL;
++		goto exit;
++	}
++
++	pmgntframe->frame_tag = MGNT_FRAMETAG;
++	pmgntframe->pxmitbuf = pxmitbuf;
++	pmgntframe->buf_addr = pxmitbuf->pbuf;
++	pxmitbuf->priv_data = pmgntframe;
++
++exit:
++	return pmgntframe;
++
++}
++
++inline struct xmit_frame *alloc_mgtxmitframe(struct xmit_priv *pxmitpriv)
++{
++	return _alloc_mgtxmitframe(pxmitpriv, _FALSE);
++}
++
++inline struct xmit_frame *alloc_mgtxmitframe_once(struct xmit_priv *pxmitpriv)
++{
++	return _alloc_mgtxmitframe(pxmitpriv, _TRUE);
++}
++
++
++/****************************************************************************
++
++Following are some TX fuctions for WiFi MLME
++
++*****************************************************************************/
++
++void update_mgnt_tx_rate(_adapter *padapter, u8 rate)
++{
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++
++	pmlmeext->tx_rate = rate;
++	/* RTW_INFO("%s(): rate = %x\n",__FUNCTION__, rate); */
++}
++
++
++void update_monitor_frame_attrib(_adapter *padapter, struct pkt_attrib *pattrib)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	u8	wireless_mode;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct xmit_priv		*pxmitpriv = &padapter->xmitpriv;
++	struct sta_info		*psta = NULL;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct sta_info *pbcmc_sta = NULL;
++
++	psta = rtw_get_stainfo(pstapriv, pattrib->ra);
++	pbcmc_sta = rtw_get_bcmc_stainfo(padapter);
++
++	pattrib->hdrlen = 24;
++	pattrib->nr_frags = 1;
++	pattrib->priority = 7;
++
++	if (pbcmc_sta)
++		pattrib->mac_id = pbcmc_sta->mac_id;
++	else {
++		pattrib->mac_id = 0;
++		RTW_INFO("mgmt use mac_id 0 will affect RA\n");
++	}
++	pattrib->qsel = QSLT_MGNT;
++
++	pattrib->pktlen = 0;
++
++	if (pmlmeext->tx_rate == IEEE80211_CCK_RATE_1MB)
++		wireless_mode = WIRELESS_11B;
++	else
++		wireless_mode = WIRELESS_11G;
++
++	pattrib->raid = rtw_get_mgntframe_raid(padapter, wireless_mode);
++#ifdef CONFIG_80211AC_VHT
++	if (pHalData->rf_type == RF_1T1R)
++		pattrib->raid = RATEID_IDX_VHT_1SS;
++	else if (pHalData->rf_type == RF_2T2R || pHalData->rf_type == RF_2T4R)
++		pattrib->raid = RATEID_IDX_VHT_2SS;
++	else if (pHalData->rf_type == RF_3T3R)
++		pattrib->raid = RATEID_IDX_VHT_3SS;
++	else
++		pattrib->raid = RATEID_IDX_BGN_40M_1SS;
++#endif
++
++#ifdef CONFIG_80211AC_VHT
++	pattrib->rate = MGN_VHT1SS_MCS9;
++#else
++	pattrib->rate = MGN_MCS7;
++#endif
++
++	pattrib->encrypt = _NO_PRIVACY_;
++	pattrib->bswenc = _FALSE;
++
++	pattrib->qos_en = _FALSE;
++	pattrib->ht_en = 1;
++	pattrib->bwmode = CHANNEL_WIDTH_20;
++	pattrib->ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	pattrib->sgi = _FALSE;
++
++	pattrib->seqnum = pmlmeext->mgnt_seq;
++
++	pattrib->retry_ctrl = _TRUE;
++
++	pattrib->mbssid = 0;
++	pattrib->hw_ssn_sel = pxmitpriv->hw_ssn_seq_no;
++
++}
++
++
++void update_mgntframe_attrib(_adapter *padapter, struct pkt_attrib *pattrib)
++{
++	u8	wireless_mode;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct xmit_priv		*pxmitpriv = &padapter->xmitpriv;
++	struct sta_info		*psta = NULL;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct sta_info *pbcmc_sta = NULL;
++	/* _rtw_memset((u8 *)(pattrib), 0, sizeof(struct pkt_attrib)); */
++
++	pbcmc_sta = rtw_get_bcmc_stainfo(padapter);
++
++	pattrib->hdrlen = 24;
++	pattrib->nr_frags = 1;
++	pattrib->priority = 7;
++
++	if (pbcmc_sta)
++		pattrib->mac_id = pbcmc_sta->mac_id;
++	else {
++		pattrib->mac_id = 1; /* use STA's BCMC sta-info macid */
++
++		if (MLME_IS_AP(padapter) || MLME_IS_GO(padapter))
++			RTW_INFO("%s-"ADPT_FMT" get bcmc sta_info fail,use MACID=1\n", __func__, ADPT_ARG(padapter));
++	}
++	pattrib->qsel = QSLT_MGNT;
++
++#ifdef CONFIG_MCC_MODE
++	update_mcc_mgntframe_attrib(padapter, pattrib);
++#endif
++
++	pattrib->pktlen = 0;
++
++	if (pmlmeext->tx_rate == IEEE80211_CCK_RATE_1MB)
++		wireless_mode = WIRELESS_11B;
++	else
++		wireless_mode = WIRELESS_11G;
++	pattrib->raid =  rtw_get_mgntframe_raid(padapter, wireless_mode);
++	pattrib->rate = pmlmeext->tx_rate;
++
++	pattrib->encrypt = _NO_PRIVACY_;
++	pattrib->bswenc = _FALSE;
++
++	pattrib->qos_en = _FALSE;
++	pattrib->ht_en = _FALSE;
++	pattrib->bwmode = CHANNEL_WIDTH_20;
++	pattrib->ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	pattrib->sgi = _FALSE;
++
++	pattrib->seqnum = pmlmeext->mgnt_seq;
++
++	pattrib->retry_ctrl = _TRUE;
++
++	pattrib->mbssid = 0;
++	pattrib->hw_ssn_sel = pxmitpriv->hw_ssn_seq_no;
++
++#ifdef CONFIG_BEAMFORMING
++	psta = rtw_get_stainfo(pstapriv, pattrib->ra);
++	if (psta)
++		update_attrib_txbf_info(padapter, pattrib, psta);
++#endif
++
++}
++
++void update_mgntframe_attrib_addr(_adapter *padapter, struct xmit_frame *pmgntframe)
++{
++	u8	*pframe;
++	struct pkt_attrib	*pattrib = &pmgntframe->attrib;
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	_rtw_memcpy(pattrib->ra, GetAddr1Ptr(pframe), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, GetAddr2Ptr(pframe), ETH_ALEN);
++}
++
++void dump_mgntframe(_adapter *padapter, struct xmit_frame *pmgntframe)
++{
++	if (RTW_CANNOT_RUN(padapter)) {
++		rtw_free_xmitbuf(&padapter->xmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(&padapter->xmitpriv, pmgntframe);
++		return;
++	}
++
++	rtw_hal_mgnt_xmit(padapter, pmgntframe);
++}
++
++s32 dump_mgntframe_and_wait(_adapter *padapter, struct xmit_frame *pmgntframe, int timeout_ms)
++{
++	s32 ret = _FAIL;
++	_irqL irqL;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct xmit_buf *pxmitbuf = pmgntframe->pxmitbuf;
++	struct submit_ctx sctx;
++
++	if (RTW_CANNOT_RUN(padapter)) {
++		rtw_free_xmitbuf(&padapter->xmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(&padapter->xmitpriv, pmgntframe);
++		return ret;
++	}
++
++	rtw_sctx_init(&sctx, timeout_ms);
++	pxmitbuf->sctx = &sctx;
++
++	ret = rtw_hal_mgnt_xmit(padapter, pmgntframe);
++
++	if (ret == _SUCCESS)
++		ret = rtw_sctx_wait(&sctx, __func__);
++
++	_enter_critical(&pxmitpriv->lock_sctx, &irqL);
++	pxmitbuf->sctx = NULL;
++	_exit_critical(&pxmitpriv->lock_sctx, &irqL);
++
++	return ret;
++}
++
++s32 dump_mgntframe_and_wait_ack_timeout(_adapter *padapter, struct xmit_frame *pmgntframe, int timeout_ms)
++{
++#ifdef CONFIG_XMIT_ACK
++	static u8 seq_no = 0;
++	s32 ret = _FAIL;
++	struct xmit_priv	*pxmitpriv = &(GET_PRIMARY_ADAPTER(padapter))->xmitpriv;
++
++	if (RTW_CANNOT_RUN(padapter)) {
++		rtw_free_xmitbuf(&padapter->xmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(&padapter->xmitpriv, pmgntframe);
++		return -1;
++	}
++
++	_enter_critical_mutex(&pxmitpriv->ack_tx_mutex, NULL);
++	pxmitpriv->ack_tx = _TRUE;
++	pxmitpriv->seq_no = seq_no++;
++	pmgntframe->ack_report = 1;
++	rtw_sctx_init(&(pxmitpriv->ack_tx_ops), timeout_ms);
++	if (rtw_hal_mgnt_xmit(padapter, pmgntframe) == _SUCCESS)
++		ret = rtw_sctx_wait(&(pxmitpriv->ack_tx_ops), __func__);
++
++	pxmitpriv->ack_tx = _FALSE;
++	_exit_critical_mutex(&pxmitpriv->ack_tx_mutex, NULL);
++
++	return ret;
++#else /* !CONFIG_XMIT_ACK */
++	dump_mgntframe(padapter, pmgntframe);
++	rtw_msleep_os(50);
++	return _SUCCESS;
++#endif /* !CONFIG_XMIT_ACK */
++}
++
++s32 dump_mgntframe_and_wait_ack(_adapter *padapter, struct xmit_frame *pmgntframe)
++{
++	/* In this case, use 500 ms as the default wait_ack timeout */
++	return dump_mgntframe_and_wait_ack_timeout(padapter, pmgntframe, 500);
++}
++
++
++int update_hidden_ssid(u8 *ies, u32 ies_len, u8 hidden_ssid_mode)
++{
++	u8 *ssid_ie;
++	sint ssid_len_ori;
++	int len_diff = 0;
++
++	ssid_ie = rtw_get_ie(ies,  WLAN_EID_SSID, &ssid_len_ori, ies_len);
++
++	/* RTW_INFO("%s hidden_ssid_mode:%u, ssid_ie:%p, ssid_len_ori:%d\n", __FUNCTION__, hidden_ssid_mode, ssid_ie, ssid_len_ori); */
++
++	if (ssid_ie && ssid_len_ori > 0) {
++		switch (hidden_ssid_mode) {
++		case 1: {
++			u8 *next_ie = ssid_ie + 2 + ssid_len_ori;
++			u32 remain_len = 0;
++
++			remain_len = ies_len - (next_ie - ies);
++
++			ssid_ie[1] = 0;
++			_rtw_memcpy(ssid_ie + 2, next_ie, remain_len);
++			len_diff -= ssid_len_ori;
++
++			break;
++		}
++		case 2:
++			_rtw_memset(&ssid_ie[2], 0, ssid_len_ori);
++			break;
++		default:
++			break;
++		}
++	}
++
++	return len_diff;
++}
++
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++u32 rtw_build_vendor_ie(_adapter *padapter , unsigned char *pframe , u8 mgmt_frame_tyte)
++{
++	int vendor_ie_num = 0;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	u32 len = 0;
++
++	for (vendor_ie_num = 0 ; vendor_ie_num < WLAN_MAX_VENDOR_IE_NUM ; vendor_ie_num++) {
++		if (pmlmepriv->vendor_ielen[vendor_ie_num] > 0 && pmlmepriv->vendor_ie_mask[vendor_ie_num] & mgmt_frame_tyte) {
++			_rtw_memcpy(pframe , pmlmepriv->vendor_ie[vendor_ie_num] , pmlmepriv->vendor_ielen[vendor_ie_num]);
++			pframe +=  pmlmepriv->vendor_ielen[vendor_ie_num];
++			len += pmlmepriv->vendor_ielen[vendor_ie_num];
++		}
++	}
++
++	return len;
++}
++#endif
++
++void issue_beacon(_adapter *padapter, int timeout_ms)
++{
++	struct xmit_frame	*pmgntframe;
++	struct pkt_attrib	*pattrib;
++	unsigned char	*pframe;
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	unsigned short *fctrl;
++	unsigned int	rate_len;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++#if defined(CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	_irqL irqL;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++#endif /* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++#ifdef CONFIG_BCN_ICF
++	pmgntframe = rtw_alloc_bcnxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++#else
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++#endif
++	{
++		RTW_INFO("%s, alloc mgnt frame fail\n", __FUNCTION__);
++		return;
++	}
++#if defined(CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	_enter_critical_bh(&pmlmepriv->bcn_update_lock, &irqL);
++#endif /* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++	pattrib->qsel = QSLT_BEACON;
++
++#if defined(CONFIG_CONCURRENT_MODE) && (!defined(CONFIG_SWTIMER_BASED_TXBCN))
++	if (padapter->hw_port == HW_PORT1)
++		pattrib->mbssid = 1;
++#endif
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(cur_network), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0/*pmlmeext->mgnt_seq*/);
++	/* pmlmeext->mgnt_seq++; */
++	SetFrameSubType(pframe, WIFI_BEACON);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) {
++		/* RTW_INFO("ie len=%d\n", cur_network->IELength); */
++#ifdef CONFIG_P2P
++		/* for P2P : Primary Device Type & Device Name */
++		u32 wpsielen = 0, insert_len = 0;
++		u8 *wpsie = NULL;
++		wpsie = rtw_get_wps_ie(cur_network->IEs + _FIXED_IE_LENGTH_, cur_network->IELength - _FIXED_IE_LENGTH_, NULL, &wpsielen);
++
++		if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO) && wpsie && wpsielen > 0) {
++			uint wps_offset, remainder_ielen;
++			u8 *premainder_ie, *pframe_wscie;
++
++			wps_offset = (uint)(wpsie - cur_network->IEs);
++
++			premainder_ie = wpsie + wpsielen;
++
++			remainder_ielen = cur_network->IELength - wps_offset - wpsielen;
++
++#ifdef CONFIG_IOCTL_CFG80211
++			if (adapter_wdev_data(padapter)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211) {
++				if (pmlmepriv->wps_beacon_ie && pmlmepriv->wps_beacon_ie_len > 0) {
++					_rtw_memcpy(pframe, cur_network->IEs, wps_offset);
++					pframe += wps_offset;
++					pattrib->pktlen += wps_offset;
++
++					_rtw_memcpy(pframe, pmlmepriv->wps_beacon_ie, pmlmepriv->wps_beacon_ie_len);
++					pframe += pmlmepriv->wps_beacon_ie_len;
++					pattrib->pktlen += pmlmepriv->wps_beacon_ie_len;
++
++					/* copy remainder_ie to pframe */
++					_rtw_memcpy(pframe, premainder_ie, remainder_ielen);
++					pframe += remainder_ielen;
++					pattrib->pktlen += remainder_ielen;
++				} else {
++					_rtw_memcpy(pframe, cur_network->IEs, cur_network->IELength);
++					pframe += cur_network->IELength;
++					pattrib->pktlen += cur_network->IELength;
++				}
++			} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++			{
++				pframe_wscie = pframe + wps_offset;
++				_rtw_memcpy(pframe, cur_network->IEs, wps_offset + wpsielen);
++				pframe += (wps_offset + wpsielen);
++				pattrib->pktlen += (wps_offset + wpsielen);
++
++				/* now pframe is end of wsc ie, insert Primary Device Type & Device Name */
++				/*	Primary Device Type */
++				/*	Type: */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(WPS_ATTR_PRIMARY_DEV_TYPE);
++				insert_len += 2;
++
++				/*	Length: */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(0x0008);
++				insert_len += 2;
++
++				/*	Value: */
++				/*	Category ID */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(WPS_PDT_CID_MULIT_MEDIA);
++				insert_len += 2;
++
++				/*	OUI */
++				*(u32 *)(pframe + insert_len) = cpu_to_be32(WPSOUI);
++				insert_len += 4;
++
++				/*	Sub Category ID */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(WPS_PDT_SCID_MEDIA_SERVER);
++				insert_len += 2;
++
++
++				/*	Device Name */
++				/*	Type: */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++				insert_len += 2;
++
++				/*	Length: */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(pwdinfo->device_name_len);
++				insert_len += 2;
++
++				/*	Value: */
++				_rtw_memcpy(pframe + insert_len, pwdinfo->device_name, pwdinfo->device_name_len);
++				insert_len += pwdinfo->device_name_len;
++
++
++				/* update wsc ie length */
++				*(pframe_wscie + 1) = (wpsielen - 2) + insert_len;
++
++				/* pframe move to end */
++				pframe += insert_len;
++				pattrib->pktlen += insert_len;
++
++				/* copy remainder_ie to pframe */
++				_rtw_memcpy(pframe, premainder_ie, remainder_ielen);
++				pframe += remainder_ielen;
++				pattrib->pktlen += remainder_ielen;
++			}
++		} else
++#endif /* CONFIG_P2P */
++		{
++			int len_diff;
++			_rtw_memcpy(pframe, cur_network->IEs, cur_network->IELength);
++			len_diff = update_hidden_ssid(
++					   pframe + _BEACON_IE_OFFSET_
++				   , cur_network->IELength - _BEACON_IE_OFFSET_
++					   , pmlmeinfo->hidden_ssid_mode
++				   );
++			pframe += (cur_network->IELength + len_diff);
++			pattrib->pktlen += (cur_network->IELength + len_diff);
++		}
++
++		{
++			u8 *wps_ie;
++			uint wps_ielen;
++			u8 sr = 0;
++			wps_ie = rtw_get_wps_ie(pmgntframe->buf_addr + TXDESC_OFFSET + sizeof(struct rtw_ieee80211_hdr_3addr) + _BEACON_IE_OFFSET_,
++				pattrib->pktlen - sizeof(struct rtw_ieee80211_hdr_3addr) - _BEACON_IE_OFFSET_, NULL, &wps_ielen);
++			if (wps_ie && wps_ielen > 0)
++				rtw_get_wps_attr_content(wps_ie,  wps_ielen, WPS_ATTR_SELECTED_REGISTRAR, (u8 *)(&sr), NULL);
++			if (sr != 0)
++				set_fwstate(pmlmepriv, WIFI_UNDER_WPS);
++			else
++				_clr_fwstate_(pmlmepriv, WIFI_UNDER_WPS);
++		}
++
++#ifdef CONFIG_P2P
++		if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++			u32 len;
++#ifdef CONFIG_IOCTL_CFG80211
++			if (adapter_wdev_data(padapter)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211) {
++				len = pmlmepriv->p2p_beacon_ie_len;
++				if (pmlmepriv->p2p_beacon_ie && len > 0)
++					_rtw_memcpy(pframe, pmlmepriv->p2p_beacon_ie, len);
++			} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++			{
++				len = build_beacon_p2p_ie(pwdinfo, pframe);
++			}
++
++			pframe += len;
++			pattrib->pktlen += len;
++
++#ifdef CONFIG_WFD
++			len = rtw_append_beacon_wfd_ie(padapter, pframe);
++			pframe += len;
++			pattrib->pktlen += len;
++#endif
++		}
++#endif /* CONFIG_P2P */
++
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++		pattrib->pktlen += rtw_build_vendor_ie(padapter , pframe , WIFI_BEACON_VENDOR_IE_BIT);
++#endif
++		goto _issue_bcn;
++
++	}
++
++	/* below for ad-hoc mode */
++
++	/* timestamp will be inserted by hardware */
++	pframe += 8;
++	pattrib->pktlen += 8;
++
++	/* beacon interval: 2 bytes */
++
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_beacon_interval_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++	/* capability info: 2 bytes */
++
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_capability_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++	/* SSID */
++	pframe = rtw_set_ie(pframe, _SSID_IE_, cur_network->Ssid.SsidLength, cur_network->Ssid.Ssid, &pattrib->pktlen);
++
++	/* supported rates... */
++	rate_len = rtw_get_rateset_len(cur_network->SupportedRates);
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, ((rate_len > 8) ? 8 : rate_len), cur_network->SupportedRates, &pattrib->pktlen);
++
++	/* DS parameter set */
++	pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&(cur_network->Configuration.DSConfig), &pattrib->pktlen);
++
++	/* if( (pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE) */
++	{
++		u8 erpinfo = 0;
++		u32 ATIMWindow;
++		/* IBSS Parameter Set... */
++		/* ATIMWindow = cur->Configuration.ATIMWindow; */
++		ATIMWindow = 0;
++		pframe = rtw_set_ie(pframe, _IBSS_PARA_IE_, 2, (unsigned char *)(&ATIMWindow), &pattrib->pktlen);
++
++		/* ERP IE */
++		pframe = rtw_set_ie(pframe, _ERPINFO_IE_, 1, &erpinfo, &pattrib->pktlen);
++	}
++
++
++	/* EXTERNDED SUPPORTED RATE */
++	if (rate_len > 8)
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_, (rate_len - 8), (cur_network->SupportedRates + 8), &pattrib->pktlen);
++
++
++	/* todo:HT for adhoc */
++
++_issue_bcn:
++
++#if defined(CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	pmlmepriv->update_bcn = _FALSE;
++
++	_exit_critical_bh(&pmlmepriv->bcn_update_lock, &irqL);
++#endif /* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++
++	if ((pattrib->pktlen + TXDESC_SIZE) > 512) {
++		RTW_INFO("beacon frame too large\n");
++		return;
++	}
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	/* RTW_INFO("issue bcn_sz=%d\n", pattrib->last_txcmdsz); */
++	if (timeout_ms > 0)
++		dump_mgntframe_and_wait(padapter, pmgntframe, timeout_ms);
++	else
++		dump_mgntframe(padapter, pmgntframe);
++
++}
++
++void issue_probersp(_adapter *padapter, unsigned char *da, u8 is_valid_p2p_probereq)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	unsigned char					*mac, *bssid;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++#if defined(CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	u8 *pwps_ie;
++	uint wps_ielen;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++#endif /* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++	unsigned int	rate_len;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++#endif /* CONFIG_P2P */
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	if (da == NULL)
++		return;
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		return;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL) {
++		RTW_INFO("%s, alloc mgnt frame fail\n", __FUNCTION__);
++		return;
++	}
++
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	mac = adapter_mac_addr(padapter);
++	bssid = cur_network->MacAddress;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, mac, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, bssid, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(fctrl, WIFI_PROBERSP);
++
++	pattrib->hdrlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = pattrib->hdrlen;
++	pframe += pattrib->hdrlen;
++
++
++	if (cur_network->IELength > MAX_IE_SZ)
++		return;
++
++#if defined(CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) {
++		pwps_ie = rtw_get_wps_ie(cur_network->IEs + _FIXED_IE_LENGTH_, cur_network->IELength - _FIXED_IE_LENGTH_, NULL, &wps_ielen);
++
++		/* inerset & update wps_probe_resp_ie */
++		if ((pmlmepriv->wps_probe_resp_ie != NULL) && pwps_ie && (wps_ielen > 0)) {
++			uint wps_offset, remainder_ielen;
++			u8 *premainder_ie;
++
++			wps_offset = (uint)(pwps_ie - cur_network->IEs);
++
++			premainder_ie = pwps_ie + wps_ielen;
++
++			remainder_ielen = cur_network->IELength - wps_offset - wps_ielen;
++
++			_rtw_memcpy(pframe, cur_network->IEs, wps_offset);
++			pframe += wps_offset;
++			pattrib->pktlen += wps_offset;
++
++			wps_ielen = (uint)pmlmepriv->wps_probe_resp_ie[1];/* to get ie data len */
++			if ((wps_offset + wps_ielen + 2) <= MAX_IE_SZ) {
++				_rtw_memcpy(pframe, pmlmepriv->wps_probe_resp_ie, wps_ielen + 2);
++				pframe += wps_ielen + 2;
++				pattrib->pktlen += wps_ielen + 2;
++			}
++
++			if ((wps_offset + wps_ielen + 2 + remainder_ielen) <= MAX_IE_SZ) {
++				_rtw_memcpy(pframe, premainder_ie, remainder_ielen);
++				pframe += remainder_ielen;
++				pattrib->pktlen += remainder_ielen;
++			}
++		} else {
++			_rtw_memcpy(pframe, cur_network->IEs, cur_network->IELength);
++			pframe += cur_network->IELength;
++			pattrib->pktlen += cur_network->IELength;
++		}
++
++		/* retrieve SSID IE from cur_network->Ssid */
++		{
++			u8 *ssid_ie;
++			sint ssid_ielen;
++			sint ssid_ielen_diff;
++			u8 buf[MAX_IE_SZ];
++			u8 *ies = pmgntframe->buf_addr + TXDESC_OFFSET + sizeof(struct rtw_ieee80211_hdr_3addr);
++
++			ssid_ie = rtw_get_ie(ies + _FIXED_IE_LENGTH_, _SSID_IE_, &ssid_ielen,
++				     (pframe - ies) - _FIXED_IE_LENGTH_);
++
++			ssid_ielen_diff = cur_network->Ssid.SsidLength - ssid_ielen;
++
++			if (ssid_ie &&  cur_network->Ssid.SsidLength) {
++				uint remainder_ielen;
++				u8 *remainder_ie;
++				remainder_ie = ssid_ie + 2;
++				remainder_ielen = (pframe - remainder_ie);
++
++				if (remainder_ielen > MAX_IE_SZ) {
++					RTW_WARN(FUNC_ADPT_FMT" remainder_ielen > MAX_IE_SZ\n", FUNC_ADPT_ARG(padapter));
++					remainder_ielen = MAX_IE_SZ;
++				}
++
++				_rtw_memcpy(buf, remainder_ie, remainder_ielen);
++				_rtw_memcpy(remainder_ie + ssid_ielen_diff, buf, remainder_ielen);
++				*(ssid_ie + 1) = cur_network->Ssid.SsidLength;
++				_rtw_memcpy(ssid_ie + 2, cur_network->Ssid.Ssid, cur_network->Ssid.SsidLength);
++
++				pframe += ssid_ielen_diff;
++				pattrib->pktlen += ssid_ielen_diff;
++			}
++		}
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++		pattrib->pktlen += rtw_build_vendor_ie(padapter , pframe , WIFI_PROBERESP_VENDOR_IE_BIT);
++#endif
++	} else
++#endif
++	{
++
++		/* timestamp will be inserted by hardware */
++		pframe += 8;
++		pattrib->pktlen += 8;
++
++		/* beacon interval: 2 bytes */
++
++		_rtw_memcpy(pframe, (unsigned char *)(rtw_get_beacon_interval_from_ie(cur_network->IEs)), 2);
++
++		pframe += 2;
++		pattrib->pktlen += 2;
++
++		/* capability info: 2 bytes */
++
++		_rtw_memcpy(pframe, (unsigned char *)(rtw_get_capability_from_ie(cur_network->IEs)), 2);
++
++		pframe += 2;
++		pattrib->pktlen += 2;
++
++		/* below for ad-hoc mode */
++
++		/* SSID */
++		pframe = rtw_set_ie(pframe, _SSID_IE_, cur_network->Ssid.SsidLength, cur_network->Ssid.Ssid, &pattrib->pktlen);
++
++		/* supported rates... */
++		rate_len = rtw_get_rateset_len(cur_network->SupportedRates);
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, ((rate_len > 8) ? 8 : rate_len), cur_network->SupportedRates, &pattrib->pktlen);
++
++		/* DS parameter set */
++		pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&(cur_network->Configuration.DSConfig), &pattrib->pktlen);
++
++		if ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) {
++			u8 erpinfo = 0;
++			u32 ATIMWindow;
++			/* IBSS Parameter Set... */
++			/* ATIMWindow = cur->Configuration.ATIMWindow; */
++			ATIMWindow = 0;
++			pframe = rtw_set_ie(pframe, _IBSS_PARA_IE_, 2, (unsigned char *)(&ATIMWindow), &pattrib->pktlen);
++
++			/* ERP IE */
++			pframe = rtw_set_ie(pframe, _ERPINFO_IE_, 1, &erpinfo, &pattrib->pktlen);
++		}
++
++
++		/* EXTERNDED SUPPORTED RATE */
++		if (rate_len > 8)
++			pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_, (rate_len - 8), (cur_network->SupportedRates + 8), &pattrib->pktlen);
++
++
++		/* todo:HT for adhoc */
++
++	}
++
++#ifdef CONFIG_P2P
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)
++	    /* IOT issue, When wifi_spec is not set, send probe_resp with P2P IE even if probe_req has no P2P IE */
++	    && (is_valid_p2p_probereq || !padapter->registrypriv.wifi_spec)) {
++		u32 len;
++#ifdef CONFIG_IOCTL_CFG80211
++		if (adapter_wdev_data(padapter)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211) {
++			/* if pwdinfo->role == P2P_ROLE_DEVICE will call issue_probersp_p2p() */
++			len = pmlmepriv->p2p_go_probe_resp_ie_len;
++			if (pmlmepriv->p2p_go_probe_resp_ie && len > 0)
++				_rtw_memcpy(pframe, pmlmepriv->p2p_go_probe_resp_ie, len);
++		} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++		{
++			len = build_probe_resp_p2p_ie(pwdinfo, pframe);
++		}
++
++		pframe += len;
++		pattrib->pktlen += len;
++
++#ifdef CONFIG_WFD
++		len = rtw_append_probe_resp_wfd_ie(padapter, pframe);
++		pframe += len;
++		pattrib->pktlen += len;
++#endif
++	}
++#endif /* CONFIG_P2P */
++
++
++#ifdef CONFIG_AUTO_AP_MODE
++	{
++		struct sta_info	*psta;
++		struct sta_priv *pstapriv = &padapter->stapriv;
++
++		RTW_INFO("(%s)\n", __FUNCTION__);
++
++		/* check rc station */
++		psta = rtw_get_stainfo(pstapriv, da);
++		if (psta && psta->isrc && psta->pid > 0) {
++			u8 RC_OUI[4] = {0x00, 0xE0, 0x4C, 0x0A};
++			u8 RC_INFO[14] = {0};
++			/* EID[1] + EID_LEN[1] + RC_OUI[4] + MAC[6] + PairingID[2] + ChannelNum[2] */
++			u16 cu_ch = (u16)cur_network->Configuration.DSConfig;
++
++			RTW_INFO("%s, reply rc(pid=0x%x) device "MAC_FMT" in ch=%d\n", __FUNCTION__,
++				 psta->pid, MAC_ARG(psta->hwaddr), cu_ch);
++
++			/* append vendor specific ie */
++			_rtw_memcpy(RC_INFO, RC_OUI, sizeof(RC_OUI));
++			_rtw_memcpy(&RC_INFO[4], mac, ETH_ALEN);
++			_rtw_memcpy(&RC_INFO[10], (u8 *)&psta->pid, 2);
++			_rtw_memcpy(&RC_INFO[12], (u8 *)&cu_ch, 2);
++
++			pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, sizeof(RC_INFO), RC_INFO, &pattrib->pktlen);
++		}
++	}
++#endif /* CONFIG_AUTO_AP_MODE */
++
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++int _issue_probereq(_adapter *padapter, NDIS_802_11_SSID *pssid, u8 *da, u8 ch, bool append_wps, int wait_ack)
++{
++	int ret = _FAIL;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	unsigned char			*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short		*fctrl;
++	unsigned char			*mac;
++	unsigned char			bssrate[NumRates];
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	int	bssrate_len = 0;
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	mac = adapter_mac_addr(padapter);
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	if (da) {
++		/*	unicast probe request frame */
++		_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, da, ETH_ALEN);
++	} else {
++		/*	broadcast probe request frame */
++		_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, bc_addr, ETH_ALEN);
++	}
++
++	_rtw_memcpy(pwlanhdr->addr2, mac, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_PROBEREQ);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	if (pssid)
++		pframe = rtw_set_ie(pframe, _SSID_IE_, pssid->SsidLength, pssid->Ssid, &(pattrib->pktlen));
++	else
++		pframe = rtw_set_ie(pframe, _SSID_IE_, 0, NULL, &(pattrib->pktlen));
++
++	get_rate_set(padapter, bssrate, &bssrate_len);
++
++	if (bssrate_len > 8) {
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , 8, bssrate, &(pattrib->pktlen));
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_ , (bssrate_len - 8), (bssrate + 8), &(pattrib->pktlen));
++	} else
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , bssrate_len , bssrate, &(pattrib->pktlen));
++
++	if (ch)
++		pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, &ch, &pattrib->pktlen);
++
++	if (append_wps) {
++		/* add wps_ie for wps2.0 */
++		if (pmlmepriv->wps_probe_req_ie_len > 0 && pmlmepriv->wps_probe_req_ie) {
++			_rtw_memcpy(pframe, pmlmepriv->wps_probe_req_ie, pmlmepriv->wps_probe_req_ie_len);
++			pframe += pmlmepriv->wps_probe_req_ie_len;
++			pattrib->pktlen += pmlmepriv->wps_probe_req_ie_len;
++			/* pmlmepriv->wps_probe_req_ie_len = 0 ; */ /* reset to zero */
++		}
++	}
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++	pattrib->pktlen += rtw_build_vendor_ie(padapter , pframe , WIFI_PROBEREQ_VENDOR_IE_BIT);
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++	return ret;
++}
++
++inline void issue_probereq(_adapter *padapter, NDIS_802_11_SSID *pssid, u8 *da)
++{
++	_issue_probereq(padapter, pssid, da, 0, 1, _FALSE);
++}
++
++/*
++ * wait_ms == 0 means that there is no need to wait ack through C2H_CCX_TX_RPT
++ * wait_ms > 0 means you want to wait ack through C2H_CCX_TX_RPT, and the value of wait_ms means the interval between each TX
++ * try_cnt means the maximal TX count to try
++ */
++int issue_probereq_ex(_adapter *padapter, NDIS_802_11_SSID *pssid, u8 *da, u8 ch, bool append_wps,
++		      int try_cnt, int wait_ms)
++{
++	int ret = _FAIL;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	do {
++		ret = _issue_probereq(padapter, pssid, da, ch, append_wps, wait_ms > 0 ? _TRUE : _FALSE);
++
++		i++;
++
++		if (RTW_CANNOT_RUN(padapter))
++			break;
++
++		if (i < try_cnt && wait_ms > 0 && ret == _FAIL)
++			rtw_msleep_os(wait_ms);
++
++	} while ((i < try_cnt) && ((ret == _FAIL) || (wait_ms == 0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++#ifndef DBG_XMIT_ACK
++		goto exit;
++#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		if (da)
++			RTW_INFO(FUNC_ADPT_FMT" to "MAC_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), MAC_ARG(da), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++		else
++			RTW_INFO(FUNC_ADPT_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++	return ret;
++}
++
++/* if psta == NULL, indiate we are station(client) now... */
++void issue_auth(_adapter *padapter, struct sta_info *psta, unsigned short status)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	unsigned int					val32;
++	unsigned short				val16;
++	int use_shared_key = 0;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++#ifdef CONFIG_RTW_80211R
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	ft_priv			*pftpriv = &pmlmepriv->ftpriv;
++	u8	is_ft_roaming = _FALSE;
++	u8	is_ft_roaming_with_rsn_ie = _TRUE;
++	u8 *pie = NULL;
++	u32 ft_ie_len = 0;
++#endif
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		return;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_AUTH);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++
++	if (psta) { /* for AP mode */
++#ifdef CONFIG_NATIVEAP_MLME
++
++		_rtw_memcpy(pwlanhdr->addr1, psta->hwaddr, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++
++
++		/* setting auth algo number */
++		val16 = (u16)psta->authalg;
++
++		if (status != _STATS_SUCCESSFUL_)
++			val16 = 0;
++
++		if (val16)	{
++			val16 = cpu_to_le16(val16);
++			use_shared_key = 1;
++		}
++
++		pframe = rtw_set_fixed_ie(pframe, _AUTH_ALGM_NUM_, (unsigned char *)&val16, &(pattrib->pktlen));
++
++		/* setting auth seq number */
++		val16 = (u16)psta->auth_seq;
++		val16 = cpu_to_le16(val16);
++		pframe = rtw_set_fixed_ie(pframe, _AUTH_SEQ_NUM_, (unsigned char *)&val16, &(pattrib->pktlen));
++
++		/* setting status code... */
++		val16 = status;
++		val16 = cpu_to_le16(val16);
++		pframe = rtw_set_fixed_ie(pframe, _STATUS_CODE_, (unsigned char *)&val16, &(pattrib->pktlen));
++
++		/* added challenging text... */
++		if ((psta->auth_seq == 2) && (psta->state & WIFI_FW_AUTH_STATE) && (use_shared_key == 1))
++			pframe = rtw_set_ie(pframe, _CHLGETXT_IE_, 128, psta->chg_txt, &(pattrib->pktlen));
++#endif
++	} else {
++		_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&pmlmeinfo->network), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&pmlmeinfo->network), ETH_ALEN);
++
++#ifdef CONFIG_RTW_80211R
++		/*For Fast BSS Transition */
++		if ((rtw_to_roam(padapter) > 0) && rtw_chk_ft_flags(padapter, RTW_FT_SUPPORTED)) {
++			is_ft_roaming = _TRUE;
++			val16 = 2;	/* 2: 802.11R FTAA */
++			val16 = cpu_to_le16(val16);
++		} else
++#endif
++		{
++			/* setting auth algo number */
++			val16 = (pmlmeinfo->auth_algo == dot11AuthAlgrthm_Shared) ? 1 : 0;	/* 0:OPEN System, 1:Shared key */
++			if (val16) {
++				val16 = cpu_to_le16(val16);
++				use_shared_key = 1;
++			}
++		}
++
++		/* RTW_INFO("%s auth_algo= %s auth_seq=%d\n",__FUNCTION__,(pmlmeinfo->auth_algo==0)?"OPEN":"SHARED",pmlmeinfo->auth_seq); */
++
++		/* setting IV for auth seq #3 */
++		if ((pmlmeinfo->auth_seq == 3) && (pmlmeinfo->state & WIFI_FW_AUTH_STATE) && (use_shared_key == 1)) {
++			/* RTW_INFO("==> iv(%d),key_index(%d)\n",pmlmeinfo->iv,pmlmeinfo->key_index); */
++			val32 = ((pmlmeinfo->iv++) | (pmlmeinfo->key_index << 30));
++			val32 = cpu_to_le32(val32);
++			pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *)&val32, &(pattrib->pktlen));
++
++			pattrib->iv_len = 4;
++		}
++
++		pframe = rtw_set_fixed_ie(pframe, _AUTH_ALGM_NUM_, (unsigned char *)&val16, &(pattrib->pktlen));
++
++		/* setting auth seq number */
++		val16 = pmlmeinfo->auth_seq;
++		val16 = cpu_to_le16(val16);
++		pframe = rtw_set_fixed_ie(pframe, _AUTH_SEQ_NUM_, (unsigned char *)&val16, &(pattrib->pktlen));
++
++
++		/* setting status code... */
++		val16 = status;
++		val16 = cpu_to_le16(val16);
++		pframe = rtw_set_fixed_ie(pframe, _STATUS_CODE_, (unsigned char *)&val16, &(pattrib->pktlen));
++
++#ifdef CONFIG_RTW_80211R
++		if (is_ft_roaming == _TRUE) {
++			pie = rtw_get_ie(pftpriv->updated_ft_ies, EID_WPA2, &ft_ie_len, pftpriv->updated_ft_ies_len);
++			if (pie)
++				pframe = rtw_set_ie(pframe, EID_WPA2, ft_ie_len, pie+2, &(pattrib->pktlen));
++			else
++				is_ft_roaming_with_rsn_ie = _FALSE;
++
++			pie = rtw_get_ie(pftpriv->updated_ft_ies, _MDIE_, &ft_ie_len, pftpriv->updated_ft_ies_len);
++			if (pie)
++				pframe = rtw_set_ie(pframe, _MDIE_, ft_ie_len , pie+2, &(pattrib->pktlen));
++
++			pie = rtw_get_ie(pftpriv->updated_ft_ies, _FTIE_, &ft_ie_len, pftpriv->updated_ft_ies_len);
++			if (pie && is_ft_roaming_with_rsn_ie)
++				pframe = rtw_set_ie(pframe, _FTIE_, ft_ie_len , pie+2, &(pattrib->pktlen));
++		}
++#endif
++
++		/* then checking to see if sending challenging text... */
++		if ((pmlmeinfo->auth_seq == 3) && (pmlmeinfo->state & WIFI_FW_AUTH_STATE) && (use_shared_key == 1)) {
++			pframe = rtw_set_ie(pframe, _CHLGETXT_IE_, 128, pmlmeinfo->chg_txt, &(pattrib->pktlen));
++
++			SetPrivacy(fctrl);
++
++			pattrib->hdrlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++			pattrib->encrypt = _WEP40_;
++
++			pattrib->icv_len = 4;
++
++			pattrib->pktlen += pattrib->icv_len;
++
++		}
++
++	}
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	rtw_wep_encrypt(padapter, (u8 *)pmgntframe);
++	RTW_INFO("%s\n", __FUNCTION__);
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++}
++
++
++void issue_asocrsp(_adapter *padapter, unsigned short status, struct sta_info *pstat, int pkt_type)
++{
++#ifdef CONFIG_AP_MODE
++	struct xmit_frame	*pmgntframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct pkt_attrib *pattrib;
++	unsigned char	*pbuf, *pframe;
++	unsigned short val, ie_status;
++	unsigned short *fctrl;
++	struct xmit_priv *pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork = &(pmlmeinfo->network);
++	u8 *ie = pnetwork->IEs;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++#endif /* CONFIG_P2P */
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		return;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy((void *)GetAddr1Ptr(pwlanhdr), pstat->hwaddr, ETH_ALEN);
++	_rtw_memcpy((void *)GetAddr2Ptr(pwlanhdr), adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy((void *)GetAddr3Ptr(pwlanhdr), get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	if ((pkt_type == WIFI_ASSOCRSP) || (pkt_type == WIFI_REASSOCRSP))
++		SetFrameSubType(pwlanhdr, pkt_type);
++	else
++		return;
++
++	pattrib->hdrlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen += pattrib->hdrlen;
++	pframe += pattrib->hdrlen;
++
++	/* capability */
++	val = *(unsigned short *)rtw_get_capability_from_ie(ie);
++
++	pframe = rtw_set_fixed_ie(pframe, _CAPABILITY_ , (unsigned char *)&val, &(pattrib->pktlen));
++
++	ie_status = cpu_to_le16(status);
++	pframe = rtw_set_fixed_ie(pframe , _STATUS_CODE_ , (unsigned char *)&ie_status, &(pattrib->pktlen));
++
++	val = cpu_to_le16(pstat->aid | BIT(14) | BIT(15));
++	pframe = rtw_set_fixed_ie(pframe, _ASOC_ID_ , (unsigned char *)&val, &(pattrib->pktlen));
++
++	if (pstat->bssratelen <= 8)
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, pstat->bssratelen, pstat->bssrateset, &(pattrib->pktlen));
++	else {
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, 8, pstat->bssrateset, &(pattrib->pktlen));
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_, (pstat->bssratelen - 8), pstat->bssrateset + 8, &(pattrib->pktlen));
++	}
++
++#ifdef CONFIG_IEEE80211W
++	if (status == _STATS_REFUSED_TEMPORARILY_) {
++		u8 timeout_itvl[5];
++		u32 timeout_interval = 3000;
++		/* Association Comeback time */
++		timeout_itvl[0] = 0x03;
++		timeout_interval = cpu_to_le32(timeout_interval);
++		_rtw_memcpy(timeout_itvl + 1, &timeout_interval, 4);
++		pframe = rtw_set_ie(pframe, _TIMEOUT_ITVL_IE_, 5, timeout_itvl, &(pattrib->pktlen));
++	}
++#endif /* CONFIG_IEEE80211W */
++
++#ifdef CONFIG_80211N_HT
++	if ((pstat->flags & WLAN_STA_HT) && (pmlmepriv->htpriv.ht_option)) {
++		uint ie_len = 0;
++
++		/* FILL HT CAP INFO IE */
++		/* p = hostapd_eid_ht_capabilities_info(hapd, p); */
++		pbuf = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _HT_CAPABILITY_IE_, &ie_len, (pnetwork->IELength - _BEACON_IE_OFFSET_));
++		if (pbuf && ie_len > 0) {
++			_rtw_memcpy(pframe, pbuf, ie_len + 2);
++			pframe += (ie_len + 2);
++			pattrib->pktlen += (ie_len + 2);
++		}
++
++		/* FILL HT ADD INFO IE */
++		/* p = hostapd_eid_ht_operation(hapd, p); */
++		pbuf = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _HT_ADD_INFO_IE_, &ie_len, (pnetwork->IELength - _BEACON_IE_OFFSET_));
++		if (pbuf && ie_len > 0) {
++			_rtw_memcpy(pframe, pbuf, ie_len + 2);
++			pframe += (ie_len + 2);
++			pattrib->pktlen += (ie_len + 2);
++		}
++
++	}
++#endif
++
++	/*adding EXT_CAPAB_IE */
++	if (pmlmepriv->ext_capab_ie_len > 0) {
++		uint ie_len = 0;
++
++		pbuf = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _EXT_CAP_IE_, &ie_len, (pnetwork->IELength - _BEACON_IE_OFFSET_));
++		if (pbuf && ie_len > 0) {
++			_rtw_memcpy(pframe, pbuf, ie_len + 2);
++			pframe += (ie_len + 2);
++			pattrib->pktlen += (ie_len + 2);
++		}
++	}
++
++#ifdef CONFIG_80211AC_VHT
++	if ((pstat->flags & WLAN_STA_VHT) && (pmlmepriv->vhtpriv.vht_option)
++	    && (pstat->wpa_pairwise_cipher != WPA_CIPHER_TKIP)
++	    && (pstat->wpa2_pairwise_cipher != WPA_CIPHER_TKIP)) {
++		u32 ie_len = 0;
++
++		/* FILL VHT CAP IE */
++		pbuf = rtw_get_ie(ie + _BEACON_IE_OFFSET_, EID_VHTCapability, &ie_len, (pnetwork->IELength - _BEACON_IE_OFFSET_));
++		if (pbuf && ie_len > 0) {
++			_rtw_memcpy(pframe, pbuf, ie_len + 2);
++			pframe += (ie_len + 2);
++			pattrib->pktlen += (ie_len + 2);
++		}
++
++		/* FILL VHT OPERATION IE */
++		pbuf = rtw_get_ie(ie + _BEACON_IE_OFFSET_, EID_VHTOperation, &ie_len, (pnetwork->IELength - _BEACON_IE_OFFSET_));
++		if (pbuf && ie_len > 0) {
++			_rtw_memcpy(pframe, pbuf, ie_len + 2);
++			pframe += (ie_len + 2);
++			pattrib->pktlen += (ie_len + 2);
++		}
++	}
++#endif /* CONFIG_80211AC_VHT */
++
++	/* FILL WMM IE */
++	if ((pstat->flags & WLAN_STA_WME) && (pmlmepriv->qospriv.qos_option)) {
++		uint ie_len = 0;
++		unsigned char WMM_PARA_IE[] = {0x00, 0x50, 0xf2, 0x02, 0x01, 0x01};
++
++		for (pbuf = ie + _BEACON_IE_OFFSET_; ; pbuf += (ie_len + 2)) {
++			pbuf = rtw_get_ie(pbuf, _VENDOR_SPECIFIC_IE_, &ie_len, (pnetwork->IELength - _BEACON_IE_OFFSET_ - (ie_len + 2)));
++			if (pbuf && _rtw_memcmp(pbuf + 2, WMM_PARA_IE, 6)) {
++				_rtw_memcpy(pframe, pbuf, ie_len + 2);
++				pframe += (ie_len + 2);
++				pattrib->pktlen += (ie_len + 2);
++
++				break;
++			}
++
++			if ((pbuf == NULL) || (ie_len == 0))
++				break;
++		}
++
++	}
++
++
++	if (pmlmeinfo->assoc_AP_vendor == HT_IOT_PEER_REALTEK)
++		pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, 6 , REALTEK_96B_IE, &(pattrib->pktlen));
++
++	/* add WPS IE ie for wps 2.0 */
++	if (pmlmepriv->wps_assoc_resp_ie && pmlmepriv->wps_assoc_resp_ie_len > 0) {
++		_rtw_memcpy(pframe, pmlmepriv->wps_assoc_resp_ie, pmlmepriv->wps_assoc_resp_ie_len);
++
++		pframe += pmlmepriv->wps_assoc_resp_ie_len;
++		pattrib->pktlen += pmlmepriv->wps_assoc_resp_ie_len;
++	}
++
++#ifdef CONFIG_P2P
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO) && (pstat->is_p2p_device == _TRUE)) {
++		u32 len;
++
++		if (padapter->wdinfo.driver_interface == DRIVER_CFG80211) {
++			len = 0;
++			if (pmlmepriv->p2p_assoc_resp_ie && pmlmepriv->p2p_assoc_resp_ie_len > 0) {
++				len = pmlmepriv->p2p_assoc_resp_ie_len;
++				_rtw_memcpy(pframe, pmlmepriv->p2p_assoc_resp_ie, len);
++			}
++		} else
++			len = build_assoc_resp_p2p_ie(pwdinfo, pframe, pstat->p2p_status_code);
++		pframe += len;
++		pattrib->pktlen += len;
++	}
++
++#ifdef CONFIG_WFD
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		wfdielen = rtw_append_assoc_resp_wfd_ie(padapter, pframe);
++		pframe += wfdielen;
++		pattrib->pktlen += wfdielen;
++	}
++#endif
++
++#endif /* CONFIG_P2P */
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++	pattrib->pktlen += rtw_build_vendor_ie(padapter , pframe , WIFI_ASSOCRESP_VENDOR_IE_BIT);
++#endif
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++#endif
++}
++
++void _issue_assocreq(_adapter *padapter, u8 is_reassoc)
++{
++	int ret = _FAIL;
++	struct xmit_frame				*pmgntframe;
++	struct pkt_attrib				*pattrib;
++	unsigned char					*pframe, *p;
++	struct rtw_ieee80211_hdr			*pwlanhdr;
++	unsigned short				*fctrl;
++	unsigned short				val16;
++	unsigned int					i, j, ie_len, index = 0;
++	unsigned char					rf_type, bssrate[NumRates], sta_bssrate[NumRates];
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	int	bssrate_len = 0, sta_bssrate_len = 0;
++	u8	vs_ie_length = 0;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8					p2pie[255] = { 0x00 };
++	u16					p2pielen = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++#endif /* CONFIG_P2P */
++
++#ifdef CONFIG_DFS
++	u16	cap;
++
++	/* Dot H */
++	u8 pow_cap_ele[2] = { 0x00 };
++	u8 sup_ch[30 * 2] = {0x00 }, sup_ch_idx = 0, idx_5g = 2;	/* For supported channel */
++#endif /* CONFIG_DFS */
++#ifdef CONFIG_RTW_80211R
++	u8 *pie = NULL;
++	u32 ft_ie_len = 0;
++	ft_priv *pftpriv = &pmlmepriv->ftpriv;
++#endif
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	if (is_reassoc == _TRUE)
++		SetFrameSubType(pframe, WIFI_REASSOCREQ);
++	else
++		SetFrameSubType(pframe, WIFI_ASSOCREQ);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	/* caps */
++
++#ifdef CONFIG_DFS
++	_rtw_memcpy(&cap, rtw_get_capability_from_ie(pmlmeinfo->network.IEs), 2);
++	cap |= cap_SpecMgmt;
++	_rtw_memcpy(pframe, &cap, 2);
++#else
++	_rtw_memcpy(pframe, rtw_get_capability_from_ie(pmlmeinfo->network.IEs), 2);
++#endif /* CONFIG_DFS */
++
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++	/* listen interval */
++	/* todo: listen interval for power saving */
++	val16 = cpu_to_le16(3);
++	_rtw_memcpy(pframe , (unsigned char *)&val16, 2);
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++	/*Construct Current AP Field for Reassoc-Req only*/
++	if (is_reassoc == _TRUE) {
++		_rtw_memcpy(pframe, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++		pframe += ETH_ALEN;
++		pattrib->pktlen += ETH_ALEN;
++	}
++
++	/* SSID */
++	pframe = rtw_set_ie(pframe, _SSID_IE_,  pmlmeinfo->network.Ssid.SsidLength, pmlmeinfo->network.Ssid.Ssid, &(pattrib->pktlen));
++
++#ifdef CONFIG_DFS
++	/* Dot H */
++	if (pmlmeext->cur_channel > 14) {
++		pow_cap_ele[0] = 13;	/* Minimum transmit power capability */
++		pow_cap_ele[1] = 21;	/* Maximum transmit power capability */
++		pframe = rtw_set_ie(pframe, EID_PowerCap, 2, pow_cap_ele, &(pattrib->pktlen));
++
++		/* supported channels */
++		do {
++			if (pmlmeext->channel_set[sup_ch_idx].ChannelNum <= 14) {
++				sup_ch[0] = 1;	/* First channel number */
++				sup_ch[1] = pmlmeext->channel_set[sup_ch_idx].ChannelNum;	/* Number of channel */
++			} else {
++				sup_ch[idx_5g++] = pmlmeext->channel_set[sup_ch_idx].ChannelNum;
++				sup_ch[idx_5g++] = 1;
++			}
++			sup_ch_idx++;
++		} while (pmlmeext->channel_set[sup_ch_idx].ChannelNum != 0);
++		pframe = rtw_set_ie(pframe, EID_SupportedChannels, idx_5g, sup_ch, &(pattrib->pktlen));
++	}
++#endif /* CONFIG_DFS */
++
++	/* supported rate & extended supported rate */
++
++#if 1	/* Check if the AP's supported rates are also supported by STA. */
++	get_rate_set(padapter, sta_bssrate, &sta_bssrate_len);
++	/* RTW_INFO("sta_bssrate_len=%d\n", sta_bssrate_len); */
++
++	if (pmlmeext->cur_channel == 14) /* for JAPAN, channel 14 can only uses B Mode(CCK) */
++		sta_bssrate_len = 4;
++
++
++	/* for (i = 0; i < sta_bssrate_len; i++) { */
++	/*	RTW_INFO("sta_bssrate[%d]=%02X\n", i, sta_bssrate[i]); */
++	/* } */
++
++	for (i = 0; i < NDIS_802_11_LENGTH_RATES_EX; i++) {
++		if (pmlmeinfo->network.SupportedRates[i] == 0)
++			break;
++		RTW_INFO("network.SupportedRates[%d]=%02X\n", i, pmlmeinfo->network.SupportedRates[i]);
++	}
++
++
++	for (i = 0; i < NDIS_802_11_LENGTH_RATES_EX; i++) {
++		if (pmlmeinfo->network.SupportedRates[i] == 0)
++			break;
++
++
++		/* Check if the AP's supported rates are also supported by STA. */
++		for (j = 0; j < sta_bssrate_len; j++) {
++			/* Avoid the proprietary data rate (22Mbps) of Handlink WSG-4000 AP */
++			if ((pmlmeinfo->network.SupportedRates[i] | IEEE80211_BASIC_RATE_MASK)
++			    == (sta_bssrate[j] | IEEE80211_BASIC_RATE_MASK)) {
++				/* RTW_INFO("match i = %d, j=%d\n", i, j); */
++				break;
++			} else {
++				/* RTW_INFO("not match: %02X != %02X\n", (pmlmeinfo->network.SupportedRates[i]|IEEE80211_BASIC_RATE_MASK), (sta_bssrate[j]|IEEE80211_BASIC_RATE_MASK)); */
++			}
++		}
++
++		if (j == sta_bssrate_len) {
++			/* the rate is not supported by STA */
++			RTW_INFO("%s(): the rate[%d]=%02X is not supported by STA!\n", __FUNCTION__, i, pmlmeinfo->network.SupportedRates[i]);
++		} else {
++			/* the rate is supported by STA */
++			bssrate[index++] = pmlmeinfo->network.SupportedRates[i];
++		}
++	}
++
++	bssrate_len = index;
++	RTW_INFO("bssrate_len = %d\n", bssrate_len);
++
++#else	/* Check if the AP's supported rates are also supported by STA. */
++#if 0
++	get_rate_set(padapter, bssrate, &bssrate_len);
++#else
++	for (bssrate_len = 0; bssrate_len < NumRates; bssrate_len++) {
++		if (pmlmeinfo->network.SupportedRates[bssrate_len] == 0)
++			break;
++
++		if (pmlmeinfo->network.SupportedRates[bssrate_len] == 0x2C) /* Avoid the proprietary data rate (22Mbps) of Handlink WSG-4000 AP */
++			break;
++
++		bssrate[bssrate_len] = pmlmeinfo->network.SupportedRates[bssrate_len];
++	}
++#endif
++#endif /* Check if the AP's supported rates are also supported by STA. */
++
++	if ((bssrate_len == 0) && (pmlmeinfo->network.SupportedRates[0] != 0)) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit; /* don't connect to AP if no joint supported rate */
++	}
++
++
++	if (bssrate_len > 8) {
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , 8, bssrate, &(pattrib->pktlen));
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_ , (bssrate_len - 8), (bssrate + 8), &(pattrib->pktlen));
++	} else if (bssrate_len > 0)
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , bssrate_len , bssrate, &(pattrib->pktlen));
++	else
++		RTW_INFO("%s: Connect to AP without 11b and 11g data rate!\n", __FUNCTION__);
++
++	/* vendor specific IE, such as WPA, WMM, WPS */
++	for (i = sizeof(NDIS_802_11_FIXED_IEs); i < pmlmeinfo->network.IELength;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pmlmeinfo->network.IEs + i);
++
++		switch (pIE->ElementID) {
++		case _VENDOR_SPECIFIC_IE_:
++			if ((_rtw_memcmp(pIE->data, RTW_WPA_OUI, 4)) ||
++			    (_rtw_memcmp(pIE->data, WMM_OUI, 4)) ||
++			    (_rtw_memcmp(pIE->data, WPS_OUI, 4))) {
++				vs_ie_length = pIE->Length;
++				if ((!padapter->registrypriv.wifi_spec) && (_rtw_memcmp(pIE->data, WPS_OUI, 4))) {
++					/* Commented by Kurt 20110629 */
++					/* In some older APs, WPS handshake */
++					/* would be fail if we append vender extensions informations to AP */
++
++					vs_ie_length = 14;
++				}
++
++				pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, vs_ie_length, pIE->data, &(pattrib->pktlen));
++			}
++			break;
++
++		case EID_WPA2:
++#ifdef CONFIG_RTW_80211R
++			if ((is_reassoc == _TRUE) && (rtw_to_roam(padapter) > 0) && rtw_chk_ft_flags(padapter, RTW_FT_SUPPORTED)) {
++				pie = rtw_get_ie(pftpriv->updated_ft_ies, EID_WPA2, &ft_ie_len, pftpriv->updated_ft_ies_len);
++				if (pie)
++					pframe = rtw_set_ie(pframe, EID_WPA2, ft_ie_len, pie+2, &(pattrib->pktlen));
++			} else
++#endif
++				pframe = rtw_set_ie(pframe, EID_WPA2, pIE->Length, pIE->data, &(pattrib->pktlen));
++			break;
++#ifdef CONFIG_80211N_HT
++		case EID_HTCapability:
++			if (padapter->mlmepriv.htpriv.ht_option == _TRUE) {
++				if (!(is_ap_in_tkip(padapter))) {
++					_rtw_memcpy(&(pmlmeinfo->HT_caps), pIE->data, sizeof(struct HT_caps_element));
++
++					pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info = cpu_to_le16(pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info);
++
++					pframe = rtw_set_ie(pframe, EID_HTCapability, pIE->Length , (u8 *)(&(pmlmeinfo->HT_caps)), &(pattrib->pktlen));
++				}
++			}
++			break;
++
++		case EID_EXTCapability:
++			if (padapter->mlmepriv.htpriv.ht_option == _TRUE)
++				pframe = rtw_set_ie(pframe, EID_EXTCapability, pIE->Length, pIE->data, &(pattrib->pktlen));
++			break;
++#endif /* CONFIG_80211N_HT */
++#ifdef CONFIG_80211AC_VHT
++		case EID_VHTCapability:
++			if (padapter->mlmepriv.vhtpriv.vht_option == _TRUE)
++				pframe = rtw_set_ie(pframe, EID_VHTCapability, pIE->Length, pIE->data, &(pattrib->pktlen));
++			break;
++
++		case EID_OpModeNotification:
++			if (padapter->mlmepriv.vhtpriv.vht_option == _TRUE)
++				pframe = rtw_set_ie(pframe, EID_OpModeNotification, pIE->Length, pIE->data, &(pattrib->pktlen));
++			break;
++#endif /* CONFIG_80211AC_VHT */
++		default:
++			break;
++		}
++
++		i += (pIE->Length + 2);
++	}
++
++	if (pmlmeinfo->assoc_AP_vendor == HT_IOT_PEER_REALTEK)
++		pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, 6 , REALTEK_96B_IE, &(pattrib->pktlen));
++
++
++#ifdef CONFIG_WAPI_SUPPORT
++	rtw_build_assoc_req_wapi_ie(padapter, pframe, pattrib);
++#endif
++
++
++#ifdef CONFIG_P2P
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (adapter_wdev_data(padapter)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211) {
++		if (pmlmepriv->p2p_assoc_req_ie && pmlmepriv->p2p_assoc_req_ie_len > 0) {
++			_rtw_memcpy(pframe, pmlmepriv->p2p_assoc_req_ie, pmlmepriv->p2p_assoc_req_ie_len);
++			pframe += pmlmepriv->p2p_assoc_req_ie_len;
++			pattrib->pktlen += pmlmepriv->p2p_assoc_req_ie_len;
++		}
++	} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++	{
++		if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE) && !rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE)) {
++			/*	Should add the P2P IE in the association request frame.	 */
++			/*	P2P OUI */
++
++			p2pielen = 0;
++			p2pie[p2pielen++] = 0x50;
++			p2pie[p2pielen++] = 0x6F;
++			p2pie[p2pielen++] = 0x9A;
++			p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++			/*	Commented by Albert 20101109 */
++			/*	According to the P2P Specification, the association request frame should contain 3 P2P attributes */
++			/*	1. P2P Capability */
++			/*	2. Extended Listen Timing */
++			/*	3. Device Info */
++			/*	Commented by Albert 20110516 */
++			/*	4. P2P Interface */
++
++			/*	P2P Capability */
++			/*	Type: */
++			p2pie[p2pielen++] = P2P_ATTR_CAPABILITY;
++
++			/*	Length: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++			p2pielen += 2;
++
++			/*	Value: */
++			/*	Device Capability Bitmap, 1 byte */
++			p2pie[p2pielen++] = DMP_P2P_DEVCAP_SUPPORT;
++
++			/*	Group Capability Bitmap, 1 byte */
++			if (pwdinfo->persistent_supported)
++				p2pie[p2pielen++] = P2P_GRPCAP_PERSISTENT_GROUP | DMP_P2P_GRPCAP_SUPPORT;
++			else
++				p2pie[p2pielen++] = DMP_P2P_GRPCAP_SUPPORT;
++
++			/*	Extended Listen Timing */
++			/*	Type: */
++			p2pie[p2pielen++] = P2P_ATTR_EX_LISTEN_TIMING;
++
++			/*	Length: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0004);
++			p2pielen += 2;
++
++			/*	Value: */
++			/*	Availability Period */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0xFFFF);
++			p2pielen += 2;
++
++			/*	Availability Interval */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0xFFFF);
++			p2pielen += 2;
++
++			/*	Device Info */
++			/*	Type: */
++			p2pie[p2pielen++] = P2P_ATTR_DEVICE_INFO;
++
++			/*	Length: */
++			/*	21->P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes)  */
++			/*	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes) */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(21 + pwdinfo->device_name_len);
++			p2pielen += 2;
++
++			/*	Value: */
++			/*	P2P Device Address */
++			_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++			p2pielen += ETH_ALEN;
++
++			/*	Config Method */
++			/*	This field should be big endian. Noted by P2P specification. */
++			if ((pwdinfo->ui_got_wps_info == P2P_GOT_WPSINFO_PEER_DISPLAY_PIN) ||
++			    (pwdinfo->ui_got_wps_info == P2P_GOT_WPSINFO_SELF_DISPLAY_PIN))
++				*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_CONFIG_METHOD_DISPLAY);
++			else
++				*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_CONFIG_METHOD_PBC);
++
++			p2pielen += 2;
++
++			/*	Primary Device Type */
++			/*	Category ID */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_CID_MULIT_MEDIA);
++			p2pielen += 2;
++
++			/*	OUI */
++			*(u32 *)(p2pie + p2pielen) = cpu_to_be32(WPSOUI);
++			p2pielen += 4;
++
++			/*	Sub Category ID */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_SCID_MEDIA_SERVER);
++			p2pielen += 2;
++
++			/*	Number of Secondary Device Types */
++			p2pie[p2pielen++] = 0x00;	/*	No Secondary Device Type List */
++
++			/*	Device Name */
++			/*	Type: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++			p2pielen += 2;
++
++			/*	Length: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_be16(pwdinfo->device_name_len);
++			p2pielen += 2;
++
++			/*	Value: */
++			_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_name, pwdinfo->device_name_len);
++			p2pielen += pwdinfo->device_name_len;
++
++			/*	P2P Interface */
++			/*	Type: */
++			p2pie[p2pielen++] = P2P_ATTR_INTERFACE;
++
++			/*	Length: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x000D);
++			p2pielen += 2;
++
++			/*	Value: */
++			_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_addr, ETH_ALEN);	/*	P2P Device Address */
++			p2pielen += ETH_ALEN;
++
++			p2pie[p2pielen++] = 1;	/*	P2P Interface Address Count */
++
++			_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_addr, ETH_ALEN);	/*	P2P Interface Address List */
++			p2pielen += ETH_ALEN;
++
++			pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen);
++		}
++	}
++
++#endif /* CONFIG_P2P */
++
++#ifdef CONFIG_WFD
++	wfdielen = rtw_append_assoc_req_wfd_ie(padapter, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++	pattrib->pktlen += rtw_build_vendor_ie(padapter , pframe , WIFI_ASSOCREQ_VENDOR_IE_BIT);
++#endif
++#ifdef CONFIG_RTW_80211R
++	if (rtw_chk_ft_flags(padapter, RTW_FT_SUPPORTED)) {
++		u8 mdieval[3] = {0};
++
++		_rtw_memcpy(mdieval, &(pftpriv->mdid), 2);
++		mdieval[2] = pftpriv->ft_cap;
++		pframe = rtw_set_ie(pframe, _MDIE_, 3, mdieval, &(pattrib->pktlen));
++	}
++
++	if (is_reassoc == _TRUE) {
++		if ((rtw_to_roam(padapter) > 0) && rtw_chk_ft_flags(padapter, RTW_FT_SUPPORTED)) {
++			u8 is_ft_roaming_with_rsn_ie = _TRUE;
++
++			pie = rtw_get_ie(pftpriv->updated_ft_ies, EID_WPA2, &ft_ie_len, pftpriv->updated_ft_ies_len);
++			if (!pie)
++				is_ft_roaming_with_rsn_ie = _FALSE;
++
++			pie = rtw_get_ie(pftpriv->updated_ft_ies, _FTIE_, &ft_ie_len, pftpriv->updated_ft_ies_len);
++			if (pie && is_ft_roaming_with_rsn_ie)
++				pframe = rtw_set_ie(pframe, _FTIE_, ft_ie_len , pie+2, &(pattrib->pktlen));
++		}
++	}
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++	dump_mgntframe(padapter, pmgntframe);
++
++	ret = _SUCCESS;
++
++exit:
++	if (ret == _SUCCESS)
++		rtw_buf_update(&pmlmepriv->assoc_req, &pmlmepriv->assoc_req_len, (u8 *)pwlanhdr, pattrib->pktlen);
++	else
++		rtw_buf_free(&pmlmepriv->assoc_req, &pmlmepriv->assoc_req_len);
++
++	return;
++}
++
++void issue_assocreq(_adapter *padapter)
++{
++	_issue_assocreq(padapter, _FALSE);
++}
++
++void issue_reassocreq(_adapter *padapter)
++{
++	_issue_assocreq(padapter, _TRUE);
++}
++
++/* when wait_ack is ture, this function shoule be called at process context */
++static int _issue_nulldata(_adapter *padapter, unsigned char *da, unsigned int power_mode, int wait_ack)
++{
++	int ret = _FAIL;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv	*pxmitpriv;
++	struct mlme_ext_priv	*pmlmeext;
++	struct mlme_ext_info	*pmlmeinfo;
++
++	/* RTW_INFO("%s:%d\n", __FUNCTION__, power_mode); */
++
++	if (!padapter)
++		goto exit;
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	pxmitpriv = &(padapter->xmitpriv);
++	pmlmeext = &(padapter->mlmeextpriv);
++	pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++	pattrib->retry_ctrl = _FALSE;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE)
++		SetFrDs(fctrl);
++	else if ((pmlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE)
++		SetToDs(fctrl);
++
++	if (power_mode)
++		SetPwrMgt(fctrl);
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_DATA_NULL);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++	return ret;
++}
++
++/*
++ * [IMPORTANT] Don't call this function in interrupt context
++ *
++ * When wait_ms > 0, this function should be called at process context
++ * wait_ms == 0 means that there is no need to wait ack through C2H_CCX_TX_RPT
++ * wait_ms > 0 means you want to wait ack through C2H_CCX_TX_RPT, and the value of wait_ms means the interval between each TX
++ * try_cnt means the maximal TX count to try
++ * da == NULL for station mode
++ */
++int issue_nulldata(_adapter *padapter, unsigned char *da, unsigned int power_mode, int try_cnt, int wait_ms)
++{
++	int ret = _FAIL;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_info *psta;
++	u8 macid_sleep_reg_access = _TRUE;
++
++#ifdef CONFIG_MCC_MODE
++	if (MCC_EN(padapter)) {
++		/* driver doesn't access macid sleep reg under MCC */
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)) {
++			macid_sleep_reg_access = _FALSE;
++
++			if (da == NULL) {
++				RTW_INFO("Warning: Do not tx null data to AP under MCC mode\n");
++				rtw_warn_on(1);
++			}
++
++		}
++	}
++#endif
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	/* da == NULL, assum it's null data for sta to ap*/
++	if (da == NULL)
++		da = get_my_bssid(&(pmlmeinfo->network));
++
++	psta = rtw_get_stainfo(&padapter->stapriv, da);
++	if (psta) {
++		if (macid_sleep_reg_access) {
++			if (power_mode)
++				rtw_hal_macid_sleep(padapter, psta->mac_id);
++			else
++				rtw_hal_macid_wakeup(padapter, psta->mac_id);
++		}
++	} else {
++		RTW_INFO(FUNC_ADPT_FMT ": Can't find sta info for " MAC_FMT ", skip macid %s!!\n",
++			FUNC_ADPT_ARG(padapter), MAC_ARG(da), power_mode ? "sleep" : "wakeup");
++		rtw_warn_on(1);
++	}
++
++	do {
++		ret = _issue_nulldata(padapter, da, power_mode, wait_ms > 0 ? _TRUE : _FALSE);
++
++		i++;
++
++		if (RTW_CANNOT_RUN(padapter))
++			break;
++
++		if (i < try_cnt && wait_ms > 0 && ret == _FAIL)
++			rtw_msleep_os(wait_ms);
++
++	} while ((i < try_cnt) && ((ret == _FAIL) || (wait_ms == 0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++#ifndef DBG_XMIT_ACK
++		goto exit;
++#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		if (da)
++			RTW_INFO(FUNC_ADPT_FMT" to "MAC_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), MAC_ARG(da), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++		else
++			RTW_INFO(FUNC_ADPT_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++	return ret;
++}
++
++/*
++ * [IMPORTANT] This function run in interrupt context
++ *
++ * The null data packet would be sent without power bit,
++ * and not guarantee success.
++ */
++s32 issue_nulldata_in_interrupt(PADAPTER padapter, u8 *da, unsigned int power_mode)
++{
++	int ret;
++	struct mlme_ext_priv *pmlmeext;
++	struct mlme_ext_info *pmlmeinfo;
++
++
++	pmlmeext = &padapter->mlmeextpriv;
++	pmlmeinfo = &pmlmeext->mlmext_info;
++
++	/* da == NULL, assum it's null data for sta to ap*/
++	if (da == NULL)
++		da = get_my_bssid(&(pmlmeinfo->network));
++
++	ret = _issue_nulldata(padapter, da, power_mode, _FALSE);
++
++	return ret;
++}
++
++/* when wait_ack is ture, this function shoule be called at process context */
++static int _issue_qos_nulldata(_adapter *padapter, unsigned char *da, u16 tid, int wait_ack)
++{
++	int ret = _FAIL;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl, *qc;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	pattrib->hdrlen += 2;
++	pattrib->qos_en = _TRUE;
++	pattrib->eosp = 1;
++	pattrib->ack_policy = 0;
++	pattrib->mdata = 0;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE)
++		SetFrDs(fctrl);
++	else if ((pmlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE)
++		SetToDs(fctrl);
++
++	if (pattrib->mdata)
++		SetMData(fctrl);
++
++	qc = (unsigned short *)(pframe + pattrib->hdrlen - 2);
++
++	SetPriority(qc, tid);
++
++	SetEOSP(qc, pattrib->eosp);
++
++	SetAckpolicy(qc, pattrib->ack_policy);
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_QOS_DATA_NULL);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr_qos);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr_qos);
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++	return ret;
++}
++
++/*
++ * when wait_ms >0 , this function should be called at process context
++ * wait_ms == 0 means that there is no need to wait ack through C2H_CCX_TX_RPT
++ * wait_ms > 0 means you want to wait ack through C2H_CCX_TX_RPT, and the value of wait_ms means the interval between each TX
++ * try_cnt means the maximal TX count to try
++ * da == NULL for station mode
++ */
++int issue_qos_nulldata(_adapter *padapter, unsigned char *da, u16 tid, int try_cnt, int wait_ms)
++{
++	int ret = _FAIL;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	/* da == NULL, assum it's null data for sta to ap*/
++	if (da == NULL)
++		da = get_my_bssid(&(pmlmeinfo->network));
++
++	do {
++		ret = _issue_qos_nulldata(padapter, da, tid, wait_ms > 0 ? _TRUE : _FALSE);
++
++		i++;
++
++		if (RTW_CANNOT_RUN(padapter))
++			break;
++
++		if (i < try_cnt && wait_ms > 0 && ret == _FAIL)
++			rtw_msleep_os(wait_ms);
++
++	} while ((i < try_cnt) && ((ret == _FAIL) || (wait_ms == 0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++#ifndef DBG_XMIT_ACK
++		goto exit;
++#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		if (da)
++			RTW_INFO(FUNC_ADPT_FMT" to "MAC_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), MAC_ARG(da), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++		else
++			RTW_INFO(FUNC_ADPT_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++	return ret;
++}
++
++static int _issue_deauth(_adapter *padapter, unsigned char *da, unsigned short reason, u8 wait_ack, u8 key_type)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	int ret = _FAIL;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P	 */
++
++	/* RTW_INFO("%s to "MAC_FMT"\n", __func__, MAC_ARG(da)); */
++
++#ifdef CONFIG_P2P
++	if (!(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) && (pwdinfo->rx_invitereq_info.scan_op_ch_only)) {
++		_cancel_timer_ex(&pwdinfo->reset_ch_sitesurvey);
++		_set_timer(&pwdinfo->reset_ch_sitesurvey, 10);
++	}
++#endif /* CONFIG_P2P */
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++	pattrib->retry_ctrl = _FALSE;
++	pattrib->key_type = key_type;
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_DEAUTH);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	reason = cpu_to_le16(reason);
++	pframe = rtw_set_fixed_ie(pframe, _RSON_CODE_ , (unsigned char *)&reason, &(pattrib->pktlen));
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++	return ret;
++}
++
++int issue_deauth(_adapter *padapter, unsigned char *da, unsigned short reason)
++{
++	RTW_INFO("%s to "MAC_FMT"\n", __func__, MAC_ARG(da));
++	return _issue_deauth(padapter, da, reason, _FALSE, IEEE80211W_RIGHT_KEY);
++}
++
++#ifdef CONFIG_IEEE80211W
++int issue_deauth_11w(_adapter *padapter, unsigned char *da, unsigned short reason, u8 key_type)
++{
++	RTW_INFO("%s to "MAC_FMT"\n", __func__, MAC_ARG(da));
++	return _issue_deauth(padapter, da, reason, _FALSE, key_type);
++}
++#endif /* CONFIG_IEEE80211W */
++
++/*
++ * wait_ms == 0 means that there is no need to wait ack through C2H_CCX_TX_RPT
++ * wait_ms > 0 means you want to wait ack through C2H_CCX_TX_RPT, and the value of wait_ms means the interval between each TX
++ * try_cnt means the maximal TX count to try
++ */
++int issue_deauth_ex(_adapter *padapter, u8 *da, unsigned short reason, int try_cnt,
++		    int wait_ms)
++{
++	int ret = _FAIL;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	do {
++		ret = _issue_deauth(padapter, da, reason, wait_ms > 0 ? _TRUE : _FALSE, IEEE80211W_RIGHT_KEY);
++
++		i++;
++
++		if (RTW_CANNOT_RUN(padapter))
++			break;
++
++		if (i < try_cnt && wait_ms > 0 && ret == _FAIL)
++			rtw_msleep_os(wait_ms);
++
++	} while ((i < try_cnt) && ((ret == _FAIL) || (wait_ms == 0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++#ifndef DBG_XMIT_ACK
++		goto exit;
++#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		if (da)
++			RTW_INFO(FUNC_ADPT_FMT" to "MAC_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), MAC_ARG(da), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++		else
++			RTW_INFO(FUNC_ADPT_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++	return ret;
++}
++
++void issue_action_spct_ch_switch(_adapter *padapter, u8 *ra, u8 new_ch, u8 ch_offset)
++{
++	_irqL	irqL;
++	_list		*plist, *phead;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char				*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short			*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		return;
++
++	RTW_INFO(FUNC_NDEV_FMT" ra="MAC_FMT", ch:%u, offset:%u\n",
++		FUNC_NDEV_ARG(padapter->pnetdev), MAC_ARG(ra), new_ch, ch_offset);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, ra, ETH_ALEN); /* RA */
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN); /* TA */
++	_rtw_memcpy(pwlanhdr->addr3, ra, ETH_ALEN); /* DA = RA */
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	/* category, action */
++	{
++		u8 category, action;
++		category = RTW_WLAN_CATEGORY_SPECTRUM_MGMT;
++		action = RTW_WLAN_ACTION_SPCT_CHL_SWITCH;
++
++		pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++		pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	}
++
++	pframe = rtw_set_ie_ch_switch(pframe, &(pattrib->pktlen), 0, new_ch, 0);
++	pframe = rtw_set_ie_secondary_ch_offset(pframe, &(pattrib->pktlen),
++			hal_ch_offset_to_secondary_ch_offset(ch_offset));
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++}
++
++#ifdef CONFIG_IEEE80211W
++void issue_action_SA_Query(_adapter *padapter, unsigned char *raddr, unsigned char action, unsigned short tid, u8 key_type)
++{
++	u8	category = RTW_WLAN_CATEGORY_SA_QUERY;
++	u16	reason_code;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	u8					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_info		*psta;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct registry_priv		*pregpriv = &padapter->registrypriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		return;
++
++	RTW_INFO("%s, %04x\n", __FUNCTION__, tid);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL) {
++		RTW_INFO("%s: alloc_mgtxmitframe fail\n", __FUNCTION__);
++		return;
++	}
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++	pattrib->key_type = key_type;
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	if (raddr)
++		_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	else
++		_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &category, &pattrib->pktlen);
++	pframe = rtw_set_fixed_ie(pframe, 1, &action, &pattrib->pktlen);
++
++	switch (action) {
++	case 0: /* SA Query req */
++		pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)&pmlmeext->sa_query_seq, &pattrib->pktlen);
++		pmlmeext->sa_query_seq++;
++		/* send sa query request to AP, AP should reply sa query response in 1 second */
++		if (pattrib->key_type == IEEE80211W_RIGHT_KEY) {
++			psta = rtw_get_stainfo(pstapriv, raddr);
++			if (psta != NULL) {
++				/* RTW_INFO("%s, %d, set dot11w_expire_timer\n", __func__, __LINE__); */
++				_set_timer(&psta->dot11w_expire_timer, 1000);
++			}
++		}
++		break;
++
++	case 1: /* SA Query rsp */
++		tid = cpu_to_le16(tid);
++		/* RTW_INFO("rtw_set_fixed_ie, %04x\n", tid); */
++		pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)&tid, &pattrib->pktlen);
++		break;
++	default:
++		break;
++	}
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++}
++#endif /* CONFIG_IEEE80211W */
++
++/**
++ * issue_action_ba - internal function to TX Block Ack action frame
++ * @padapter: the adapter to TX
++ * @raddr: receiver address
++ * @action: Block Ack Action
++ * @tid: tid
++ * @size: the announced AMPDU buffer size. used by ADDBA_RESP
++ * @status: status/reason code. used by ADDBA_RESP, DELBA
++ * @initiator: if we are the initiator of AMPDU association. used by DELBA
++ * @wait_ack: used xmit ack
++ *
++ * Returns:
++ * _SUCCESS: No xmit ack is used or acked
++ * _FAIL: not acked when using xmit ack
++ */
++static int issue_action_ba(_adapter *padapter, unsigned char *raddr, unsigned char action
++		   , u8 tid, u8 size, u16 status, u8 initiator, int wait_ack)
++{
++	int ret = _FAIL;
++	u8	category = RTW_WLAN_CATEGORY_BACK;
++	u16	start_seq;
++	u16	BA_para_set;
++	u16	BA_timeout_value;
++	u16	BA_starting_seqctrl;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	u8					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_info		*psta;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct registry_priv		*pregpriv = &padapter->registrypriv;
++
++#ifdef CONFIG_80211N_HT
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	/* _rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN); */
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++
++	if (category == 3) {
++		switch (action) {
++		case RTW_WLAN_ACTION_ADDBA_REQ:
++			do {
++				pmlmeinfo->dialogToken++;
++			} while (pmlmeinfo->dialogToken == 0);
++			pframe = rtw_set_fixed_ie(pframe, 1, &(pmlmeinfo->dialogToken), &(pattrib->pktlen));
++
++#if defined(CONFIG_RTL8188E) && defined(CONFIG_SDIO_HCI)
++			BA_para_set = (0x0802 | ((tid & 0xf) << 2)); /* immediate ack & 16 buffer size */
++#else
++			BA_para_set = (0x1002 | ((tid & 0xf) << 2)); /* immediate ack & 64 buffer size */
++#endif
++
++			BA_para_set = cpu_to_le16(BA_para_set);
++			pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(BA_para_set)), &(pattrib->pktlen));
++
++			/* BA_timeout_value = 0xffff; */ /* max: 65535 TUs(~ 65 ms) */
++			BA_timeout_value = 5000;/* ~ 5ms */
++			BA_timeout_value = cpu_to_le16(BA_timeout_value);
++			pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(BA_timeout_value)), &(pattrib->pktlen));
++
++			/* if ((psta = rtw_get_stainfo(pstapriv, pmlmeinfo->network.MacAddress)) != NULL) */
++			psta = rtw_get_stainfo(pstapriv, raddr);
++			if (psta != NULL) {
++				start_seq = (psta->sta_xmitpriv.txseq_tid[tid & 0x07] & 0xfff) + 1;
++
++				RTW_INFO("BA_starting_seqctrl = %d for TID=%d\n", start_seq, tid & 0x07);
++
++				psta->BA_starting_seqctrl[tid & 0x07] = start_seq;
++
++				BA_starting_seqctrl = start_seq << 4;
++			}
++
++			BA_starting_seqctrl = cpu_to_le16(BA_starting_seqctrl);
++			pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(BA_starting_seqctrl)), &(pattrib->pktlen));
++			break;
++
++		case RTW_WLAN_ACTION_ADDBA_RESP:
++			pframe = rtw_set_fixed_ie(pframe, 1, &(pmlmeinfo->ADDBA_req.dialog_token), &(pattrib->pktlen));
++			status = cpu_to_le16(status);
++			pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&status), &(pattrib->pktlen));
++
++			BA_para_set = le16_to_cpu(pmlmeinfo->ADDBA_req.BA_para_set);
++
++			BA_para_set &= ~IEEE80211_ADDBA_PARAM_TID_MASK;
++			BA_para_set |= (tid << 2) & IEEE80211_ADDBA_PARAM_TID_MASK;
++
++			BA_para_set &= ~RTW_IEEE80211_ADDBA_PARAM_BUF_SIZE_MASK;
++			BA_para_set |= (size << 6) & RTW_IEEE80211_ADDBA_PARAM_BUF_SIZE_MASK;
++
++			if (!padapter->registrypriv.wifi_spec) {
++				if (pregpriv->ampdu_amsdu == 0) /* disabled */
++					BA_para_set &= ~BIT(0);
++				else if (pregpriv->ampdu_amsdu == 1) /* enabled */
++					BA_para_set |= BIT(0);
++			}
++
++			BA_para_set = cpu_to_le16(BA_para_set);
++
++			pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(BA_para_set)), &(pattrib->pktlen));
++			pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(pmlmeinfo->ADDBA_req.BA_timeout_value)), &(pattrib->pktlen));
++			break;
++
++		case RTW_WLAN_ACTION_DELBA:
++			BA_para_set = 0;
++			BA_para_set |= (tid << 12) & IEEE80211_DELBA_PARAM_TID_MASK;
++			BA_para_set |= (initiator << 11) & IEEE80211_DELBA_PARAM_INITIATOR_MASK;
++
++			BA_para_set = cpu_to_le16(BA_para_set);
++			pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(BA_para_set)), &(pattrib->pktlen));
++			status = cpu_to_le16(status);
++			pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(status)), &(pattrib->pktlen));
++			break;
++		default:
++			break;
++		}
++	}
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++#endif /* CONFIG_80211N_HT */
++	return ret;
++}
++
++/**
++ * issue_addba_req - TX ADDBA_REQ
++ * @adapter: the adapter to TX
++ * @ra: receiver address
++ * @tid: tid
++ */
++inline void issue_addba_req(_adapter *adapter, unsigned char *ra, u8 tid)
++{
++	issue_action_ba(adapter, ra, RTW_WLAN_ACTION_ADDBA_REQ
++			, tid
++			, 0 /* unused */
++			, 0 /* unused */
++			, 0 /* unused */
++			, _FALSE
++		       );
++	RTW_INFO(FUNC_ADPT_FMT" ra="MAC_FMT" tid=%u\n"
++		 , FUNC_ADPT_ARG(adapter), MAC_ARG(ra), tid);
++
++}
++
++/**
++ * issue_addba_rsp - TX ADDBA_RESP
++ * @adapter: the adapter to TX
++ * @ra: receiver address
++ * @tid: tid
++ * @status: status code
++ * @size: the announced AMPDU buffer size
++ */
++inline void issue_addba_rsp(_adapter *adapter, unsigned char *ra, u8 tid, u16 status, u8 size)
++{
++	issue_action_ba(adapter, ra, RTW_WLAN_ACTION_ADDBA_RESP
++			, tid
++			, size
++			, status
++			, 0 /* unused */
++			, _FALSE
++		       );
++	RTW_INFO(FUNC_ADPT_FMT" ra="MAC_FMT" status=%u, tid=%u, size=%u\n"
++		 , FUNC_ADPT_ARG(adapter), MAC_ARG(ra), status, tid, size);
++}
++
++/**
++ * issue_addba_rsp_wait_ack - TX ADDBA_RESP and wait ack
++ * @adapter: the adapter to TX
++ * @ra: receiver address
++ * @tid: tid
++ * @status: status code
++ * @size: the announced AMPDU buffer size
++ * @try_cnt: the maximal TX count to try
++ * @wait_ms: == 0 means that there is no need to wait ack through C2H_CCX_TX_RPT
++ *           > 0 means you want to wait ack through C2H_CCX_TX_RPT, and the value of wait_ms means the interval between each TX
++ */
++inline u8 issue_addba_rsp_wait_ack(_adapter *adapter, unsigned char *ra, u8 tid, u16 status, u8 size, int try_cnt, int wait_ms)
++{
++	int ret = _FAIL;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(adapter)))
++		goto exit;
++
++	do {
++		ret = issue_action_ba(adapter, ra, RTW_WLAN_ACTION_ADDBA_RESP
++				      , tid
++				      , size
++				      , status
++				      , 0 /* unused */
++				      , _TRUE
++				     );
++
++		i++;
++
++		if (RTW_CANNOT_RUN(adapter))
++			break;
++
++		if (i < try_cnt && wait_ms > 0 && ret == _FAIL)
++			rtw_msleep_os(wait_ms);
++
++	} while ((i < try_cnt) && ((ret == _FAIL) || (wait_ms == 0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++#ifndef DBG_XMIT_ACK
++		/* goto exit; */
++#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		RTW_INFO(FUNC_ADPT_FMT" ra="MAC_FMT" tid=%u%s, %d/%d in %u ms\n"
++			, FUNC_ADPT_ARG(adapter), MAC_ARG(ra), tid
++			, ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++
++exit:
++	return ret;
++}
++
++/**
++ * issue_del_ba - TX DELBA
++ * @adapter: the adapter to TX
++ * @ra: receiver address
++ * @tid: tid
++ * @reason: reason code
++ * @initiator: if we are the initiator of AMPDU association. used by DELBA
++ */
++inline void issue_del_ba(_adapter *adapter, unsigned char *ra, u8 tid, u16 reason, u8 initiator)
++{
++	issue_action_ba(adapter, ra, RTW_WLAN_ACTION_DELBA
++			, tid
++			, 0 /* unused */
++			, reason
++			, initiator
++			, _FALSE
++		       );
++	RTW_INFO(FUNC_ADPT_FMT" ra="MAC_FMT" reason=%u, tid=%u, initiator=%u\n"
++		 , FUNC_ADPT_ARG(adapter), MAC_ARG(ra), reason, tid, initiator);
++}
++
++/**
++ * issue_del_ba_ex - TX DELBA with xmit ack options
++ * @adapter: the adapter to TX
++ * @ra: receiver address
++ * @tid: tid
++ * @reason: reason code
++ * @initiator: if we are the initiator of AMPDU association. used by DELBA
++ * @try_cnt: the maximal TX count to try
++ * @wait_ms: == 0 means that there is no need to wait ack through C2H_CCX_TX_RPT
++ *           > 0 means you want to wait ack through C2H_CCX_TX_RPT, and the value of wait_ms means the interval between each TX
++ */
++int issue_del_ba_ex(_adapter *adapter, unsigned char *ra, u8 tid, u16 reason, u8 initiator
++		    , int try_cnt, int wait_ms)
++{
++	int ret = _FAIL;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(adapter)))
++		goto exit;
++
++	do {
++		ret = issue_action_ba(adapter, ra, RTW_WLAN_ACTION_DELBA
++				      , tid
++				      , 0 /* unused */
++				      , reason
++				      , initiator
++				      , wait_ms > 0 ? _TRUE : _FALSE
++				     );
++
++		i++;
++
++		if (RTW_CANNOT_RUN(adapter))
++			break;
++
++		if (i < try_cnt && wait_ms > 0 && ret == _FAIL)
++			rtw_msleep_os(wait_ms);
++
++	} while ((i < try_cnt) && ((ret == _FAIL) || (wait_ms == 0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++#ifndef DBG_XMIT_ACK
++		/* goto exit; */
++#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		RTW_INFO(FUNC_ADPT_FMT" ra="MAC_FMT" reason=%u, tid=%u, initiator=%u%s, %d/%d in %u ms\n"
++			, FUNC_ADPT_ARG(adapter), MAC_ARG(ra), reason, tid, initiator
++			, ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++	return ret;
++}
++
++static void issue_action_BSSCoexistPacket(_adapter *padapter)
++{
++	_irqL	irqL;
++	_list		*plist, *phead;
++	unsigned char category, action;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char				*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short			*fctrl;
++	struct	wlan_network	*pnetwork = NULL;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	_queue		*queue	= &(pmlmepriv->scanned_queue);
++	u8 InfoContent[16] = {0};
++	u8 ICS[8][15];
++#ifdef CONFIG_80211N_HT
++	if ((pmlmepriv->num_FortyMHzIntolerant == 0) || (pmlmepriv->num_sta_no_ht == 0))
++		return;
++
++	if (_TRUE == pmlmeinfo->bwmode_updated)
++		return;
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		return;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++
++	category = RTW_WLAN_CATEGORY_PUBLIC;
++	action = ACT_PUBLIC_BSSCOEXIST;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++
++
++	/*  */
++	if (pmlmepriv->num_FortyMHzIntolerant > 0) {
++		u8 iedata = 0;
++
++		iedata |= BIT(2);/* 20 MHz BSS Width Request */
++
++		pframe = rtw_set_ie(pframe, EID_BSSCoexistence,  1, &iedata, &(pattrib->pktlen));
++
++	}
++
++
++	/*  */
++	_rtw_memset(ICS, 0, sizeof(ICS));
++	if (pmlmepriv->num_sta_no_ht > 0) {
++		int i;
++
++		_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++		phead = get_list_head(queue);
++		plist = get_next(phead);
++
++		while (1) {
++			int len;
++			u8 *p;
++			WLAN_BSSID_EX *pbss_network;
++
++			if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++				break;
++
++			pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++			plist = get_next(plist);
++
++			pbss_network = (WLAN_BSSID_EX *)&pnetwork->network;
++
++			p = rtw_get_ie(pbss_network->IEs + _FIXED_IE_LENGTH_, _HT_CAPABILITY_IE_, &len, pbss_network->IELength - _FIXED_IE_LENGTH_);
++			if ((p == NULL) || (len == 0)) { /* non-HT */
++				if ((pbss_network->Configuration.DSConfig <= 0) || (pbss_network->Configuration.DSConfig > 14))
++					continue;
++
++				ICS[0][pbss_network->Configuration.DSConfig] = 1;
++
++				if (ICS[0][0] == 0)
++					ICS[0][0] = 1;
++			}
++
++		}
++
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++
++		for (i = 0; i < 8; i++) {
++			if (ICS[i][0] == 1) {
++				int j, k = 0;
++
++				InfoContent[k] = i;
++				/* SET_BSS_INTOLERANT_ELE_REG_CLASS(InfoContent,i); */
++				k++;
++
++				for (j = 1; j <= 14; j++) {
++					if (ICS[i][j] == 1) {
++						if (k < 16) {
++							InfoContent[k] = j; /* channel number */
++							/* SET_BSS_INTOLERANT_ELE_CHANNEL(InfoContent+k, j); */
++							k++;
++						}
++					}
++				}
++
++				pframe = rtw_set_ie(pframe, EID_BSSIntolerantChlReport, k, InfoContent, &(pattrib->pktlen));
++
++			}
++
++		}
++
++
++	}
++
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++#endif /* CONFIG_80211N_HT */
++}
++
++/* Spatial Multiplexing Powersave (SMPS) action frame */
++int _issue_action_SM_PS(_adapter *padapter ,  unsigned char *raddr , u8 NewMimoPsMode ,  u8 wait_ack)
++{
++
++	int ret = _FAIL;
++	unsigned char category = RTW_WLAN_CATEGORY_HT;
++	u8 action = RTW_WLAN_ACTION_HT_SM_PS;
++	u8 sm_power_control = 0;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++
++	if (NewMimoPsMode == WLAN_HT_CAP_SM_PS_DISABLED) {
++		sm_power_control = sm_power_control  & ~(BIT(0)); /* SM Power Save Enable = 0 SM Power Save Disable */
++	} else if (NewMimoPsMode == WLAN_HT_CAP_SM_PS_STATIC) {
++		sm_power_control = sm_power_control | BIT(0);    /* SM Power Save Enable = 1 SM Power Save Enable  */
++		sm_power_control = sm_power_control & ~(BIT(1)); /* SM Mode = 0 Static Mode */
++	} else if (NewMimoPsMode == WLAN_HT_CAP_SM_PS_DYNAMIC) {
++		sm_power_control = sm_power_control | BIT(0); /* SM Power Save Enable = 1 SM Power Save Enable  */
++		sm_power_control = sm_power_control | BIT(1); /* SM Mode = 1 Dynamic Mode */
++	} else
++		return ret;
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		return ret;
++
++	RTW_INFO("%s, sm_power_control=%u, NewMimoPsMode=%u\n", __FUNCTION__ , sm_power_control , NewMimoPsMode);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return ret;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN); /* RA */
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN); /* TA */
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN); /* DA = RA */
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	/* category, action */
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(sm_power_control), &(pattrib->pktlen));
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++	if (ret != _SUCCESS)
++		RTW_INFO("%s, ack to\n", __func__);
++
++	return ret;
++}
++
++/*
++ * wait_ms == 0 means that there is no need to wait ack through C2H_CCX_TX_RPT
++ * wait_ms > 0 means you want to wait ack through C2H_CCX_TX_RPT, and the value of wait_ms means the interval between each TX
++ * try_cnt means the maximal TX count to try
++ */
++int issue_action_SM_PS_wait_ack(_adapter *padapter, unsigned char *raddr, u8 NewMimoPsMode, int try_cnt, int wait_ms)
++{
++	int ret = _FAIL;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	do {
++		ret = _issue_action_SM_PS(padapter, raddr, NewMimoPsMode , wait_ms > 0 ? _TRUE : _FALSE);
++
++		i++;
++
++		if (RTW_CANNOT_RUN(padapter))
++			break;
++
++		if (i < try_cnt && wait_ms > 0 && ret == _FAIL)
++			rtw_msleep_os(wait_ms);
++
++	} while ((i < try_cnt) && ((ret == _FAIL) || (wait_ms == 0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++#ifndef DBG_XMIT_ACK
++		goto exit;
++#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		if (raddr)
++			RTW_INFO(FUNC_ADPT_FMT" to "MAC_FMT", %s , %d/%d in %u ms\n",
++				 FUNC_ADPT_ARG(padapter), MAC_ARG(raddr),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++		else
++			RTW_INFO(FUNC_ADPT_FMT", %s , %d/%d in %u ms\n",
++				 FUNC_ADPT_ARG(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++
++	return ret;
++}
++
++int issue_action_SM_PS(_adapter *padapter ,  unsigned char *raddr , u8 NewMimoPsMode)
++{
++	RTW_INFO("%s to "MAC_FMT"\n", __func__, MAC_ARG(raddr));
++	return _issue_action_SM_PS(padapter, raddr, NewMimoPsMode , _FALSE);
++}
++
++/**
++ * _send_delba_sta_tid - Cancel the AMPDU association for the specific @sta, @tid
++ * @adapter: the adapter to which @sta belongs
++ * @initiator: if we are the initiator of AMPDU association
++ * @sta: the sta to be checked
++ * @tid: the tid to be checked
++ * @force: cancel and send DELBA even when no AMPDU association is setup
++ * @wait_ack: send delba with xmit ack (valid when initiator == 0)
++ *
++ * Returns:
++ * _FAIL if sta is NULL
++ * when initiator is 1, always _SUCCESS
++ * when initiator is 0, _SUCCESS if DELBA is acked
++ */
++static unsigned int _send_delba_sta_tid(_adapter *adapter, u8 initiator, struct sta_info *sta, u8 tid
++					, u8 force, int wait_ack)
++{
++	int ret = _SUCCESS;
++
++	if (sta == NULL) {
++		ret = _FAIL;
++		goto exit;
++	}
++
++	if (initiator == 0) {
++		/* recipient */
++		if (force || sta->recvreorder_ctrl[tid].enable == _TRUE) {
++			u8 ampdu_size_bak = sta->recvreorder_ctrl[tid].ampdu_size;
++
++			sta->recvreorder_ctrl[tid].enable = _FALSE;
++			sta->recvreorder_ctrl[tid].ampdu_size = RX_AMPDU_SIZE_INVALID;
++
++			if (rtw_del_rx_ampdu_test_trigger_no_tx_fail())
++				ret = _FAIL;
++			else if (wait_ack)
++				ret = issue_del_ba_ex(adapter, sta->hwaddr, tid, 37, initiator, 3, 1);
++			else
++				issue_del_ba(adapter, sta->hwaddr, tid, 37, initiator);
++
++			if (ret == _FAIL && sta->recvreorder_ctrl[tid].enable == _FALSE)
++				sta->recvreorder_ctrl[tid].ampdu_size = ampdu_size_bak;
++		}
++	} else if (initiator == 1) {
++		/* originator */
++#ifdef CONFIG_80211N_HT
++		if (force || sta->htpriv.agg_enable_bitmap & BIT(tid)) {
++			sta->htpriv.agg_enable_bitmap &= ~BIT(tid);
++			sta->htpriv.candidate_tid_bitmap &= ~BIT(tid);
++			issue_del_ba(adapter, sta->hwaddr, tid, 37, initiator);
++		}
++#endif
++	}
++
++exit:
++	return ret;
++}
++
++inline unsigned int send_delba_sta_tid(_adapter *adapter, u8 initiator, struct sta_info *sta, u8 tid
++				       , u8 force)
++{
++	return _send_delba_sta_tid(adapter, initiator, sta, tid, force, 0);
++}
++
++inline unsigned int send_delba_sta_tid_wait_ack(_adapter *adapter, u8 initiator, struct sta_info *sta, u8 tid
++		, u8 force)
++{
++	return _send_delba_sta_tid(adapter, initiator, sta, tid, force, 1);
++}
++
++unsigned int send_delba(_adapter *padapter, u8 initiator, u8 *addr)
++{
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta = NULL;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u16 tid;
++
++	if ((pmlmeinfo->state & 0x03) != WIFI_FW_AP_STATE)
++		if (!(pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS))
++			return _SUCCESS;
++
++	psta = rtw_get_stainfo(pstapriv, addr);
++	if (psta == NULL)
++		return _SUCCESS;
++
++#if 0
++	RTW_INFO("%s:%s\n", __func__, (initiator == 0) ? "RX_DIR" : "TX_DIR");
++	if (initiator == 1) /* originator */
++		RTW_INFO("tx agg_enable_bitmap(0x%08x)\n", psta->htpriv.agg_enable_bitmap);
++#endif
++
++	for (tid = 0; tid < TID_NUM; tid++)
++		send_delba_sta_tid(padapter, initiator, psta, tid, 0);
++
++	return _SUCCESS;
++}
++
++unsigned int send_beacon(_adapter *padapter)
++{
++	u8	bxmitok = _FALSE;
++	int	issue = 0;
++	int poll = 0;
++#if defined(CONFIG_PCI_HCI) && defined(RTL8814AE_SW_BCN)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_BCN_VALID, NULL);
++
++	/* 8192EE Port select for Beacon DL */
++	rtw_hal_set_hwreg(padapter, HW_VAR_DL_BCN_SEL, NULL);
++
++	issue_beacon(padapter, 0);
++
++#ifdef RTL8814AE_SW_BCN
++	if (pHalData->bCorrectBCN != 0)
++		RTW_INFO("%s, line%d, Warnning, pHalData->bCorrectBCN != 0\n", __func__, __LINE__);
++	pHalData->bCorrectBCN = 1;
++#endif
++
++	return _SUCCESS;
++#endif
++
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	u32 start = rtw_get_current_time();
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_BCN_VALID, NULL);
++	rtw_hal_set_hwreg(padapter, HW_VAR_DL_BCN_SEL, NULL);
++	do {
++		issue_beacon(padapter, 100);
++		issue++;
++		do {
++			rtw_yield_os();
++			rtw_hal_get_hwreg(padapter, HW_VAR_BCN_VALID, (u8 *)(&bxmitok));
++			poll++;
++		} while ((poll % 10) != 0 && _FALSE == bxmitok && !RTW_CANNOT_RUN(padapter));
++
++	} while (_FALSE == bxmitok && issue < 100 && !RTW_CANNOT_RUN(padapter));
++
++	if (RTW_CANNOT_RUN(padapter))
++		return _FAIL;
++
++
++	if (_FALSE == bxmitok) {
++		RTW_INFO("%s fail! %u ms\n", __FUNCTION__, rtw_get_passing_time_ms(start));
++		return _FAIL;
++	} else {
++		u32 passing_time = rtw_get_passing_time_ms(start);
++
++		if (passing_time > 100 || issue > 3)
++			RTW_INFO("%s success, issue:%d, poll:%d, %u ms\n", __FUNCTION__, issue, poll, rtw_get_passing_time_ms(start));
++		else if (0)
++			RTW_INFO("%s success, issue:%d, poll:%d, %u ms\n", __FUNCTION__, issue, poll, rtw_get_passing_time_ms(start));
++
++		rtw_hal_fw_correct_bcn(padapter);
++
++		return _SUCCESS;
++	}
++
++#endif
++
++}
++
++/****************************************************************************
++
++Following are some utitity fuctions for WiFi MLME
++
++*****************************************************************************/
++
++BOOLEAN IsLegal5GChannel(
++	IN PADAPTER			Adapter,
++	IN u8			channel)
++{
++
++	int i = 0;
++	u8 Channel_5G[45] = {36, 38, 40, 42, 44, 46, 48, 50, 52, 54, 56, 58,
++		60, 62, 64, 100, 102, 104, 106, 108, 110, 112, 114, 116, 118, 120, 122,
++		124, 126, 128, 130, 132, 134, 136, 138, 140, 149, 151, 153, 155, 157, 159,
++			     161, 163, 165
++			    };
++	for (i = 0; i < sizeof(Channel_5G); i++)
++		if (channel == Channel_5G[i])
++			return _TRUE;
++	return _FALSE;
++}
++
++/* collect bss info from Beacon and Probe request/response frames. */
++u8 collect_bss_info(_adapter *padapter, union recv_frame *precv_frame, WLAN_BSSID_EX *bssid)
++{
++	int	i;
++	u32	len;
++	u8	*p;
++	u16	val16, subtype;
++	u8	*pframe = precv_frame->u.hdr.rx_data;
++	u32	packet_len = precv_frame->u.hdr.len;
++	u8 ie_offset;
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	len = packet_len - sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	if (len > MAX_IE_SZ) {
++		/* RTW_INFO("IE too long for survey event\n"); */
++		return _FAIL;
++	}
++
++	_rtw_memset(bssid, 0, sizeof(WLAN_BSSID_EX));
++
++	subtype = GetFrameSubType(pframe);
++
++	if (subtype == WIFI_BEACON) {
++		bssid->Reserved[0] = 1;
++		ie_offset = _BEACON_IE_OFFSET_;
++	} else {
++		/* FIXME : more type */
++		if (subtype == WIFI_PROBERSP) {
++			ie_offset = _PROBERSP_IE_OFFSET_;
++			bssid->Reserved[0] = 3;
++		} else if (subtype == WIFI_PROBEREQ) {
++			ie_offset = _PROBEREQ_IE_OFFSET_;
++			bssid->Reserved[0] = 2;
++		} else {
++			bssid->Reserved[0] = 0;
++			ie_offset = _FIXED_IE_LENGTH_;
++		}
++	}
++
++	bssid->Length = sizeof(WLAN_BSSID_EX) - MAX_IE_SZ + len;
++
++	/* below is to copy the information element */
++	bssid->IELength = len;
++	_rtw_memcpy(bssid->IEs, (pframe + sizeof(struct rtw_ieee80211_hdr_3addr)), bssid->IELength);
++
++	/* get the signal strength */
++	/* bssid->Rssi = precv_frame->u.hdr.attrib.SignalStrength; */ /* 0-100 index. */
++	bssid->Rssi = precv_frame->u.hdr.attrib.phy_info.RecvSignalPower; /* in dBM.raw data	 */
++	bssid->PhyInfo.SignalQuality = precv_frame->u.hdr.attrib.phy_info.SignalQuality;/* in percentage */
++	bssid->PhyInfo.SignalStrength = precv_frame->u.hdr.attrib.phy_info.SignalStrength;/* in percentage */
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	rtw_hal_get_odm_var(padapter, HAL_ODM_ANTDIV_SELECT, &(bssid->PhyInfo.Optimum_antenna), NULL);
++#endif
++
++	/* checking SSID */
++	p = rtw_get_ie(bssid->IEs + ie_offset, _SSID_IE_, &len, bssid->IELength - ie_offset);
++	if (p == NULL) {
++		RTW_INFO("marc: cannot find SSID for survey event\n");
++		return _FAIL;
++	}
++
++	if (*(p + 1)) {
++		if (len > NDIS_802_11_LENGTH_SSID) {
++			RTW_INFO("%s()-%d: IE too long (%d) for survey event\n", __FUNCTION__, __LINE__, len);
++			return _FAIL;
++		}
++		_rtw_memcpy(bssid->Ssid.Ssid, (p + 2), *(p + 1));
++		bssid->Ssid.SsidLength = *(p + 1);
++	} else
++		bssid->Ssid.SsidLength = 0;
++
++	_rtw_memset(bssid->SupportedRates, 0, NDIS_802_11_LENGTH_RATES_EX);
++
++	/* checking rate info... */
++	i = 0;
++	p = rtw_get_ie(bssid->IEs + ie_offset, _SUPPORTEDRATES_IE_, &len, bssid->IELength - ie_offset);
++	if (p != NULL) {
++		if (len > NDIS_802_11_LENGTH_RATES_EX) {
++			RTW_INFO("%s()-%d: IE too long (%d) for survey event\n", __FUNCTION__, __LINE__, len);
++			return _FAIL;
++		}
++		_rtw_memcpy(bssid->SupportedRates, (p + 2), len);
++		i = len;
++	}
++
++	p = rtw_get_ie(bssid->IEs + ie_offset, _EXT_SUPPORTEDRATES_IE_, &len, bssid->IELength - ie_offset);
++	if (p != NULL) {
++		if (len > (NDIS_802_11_LENGTH_RATES_EX - i)) {
++			RTW_INFO("%s()-%d: IE too long (%d) for survey event\n", __FUNCTION__, __LINE__, len);
++			return _FAIL;
++		}
++		_rtw_memcpy(bssid->SupportedRates + i, (p + 2), len);
++	}
++
++	/* todo: */
++#if 0
++	if (judge_network_type(bssid->SupportedRates, (len + i)) == WIRELESS_11B)
++		bssid->NetworkTypeInUse = Ndis802_11DS;
++	else
++#endif
++	{
++		bssid->NetworkTypeInUse = Ndis802_11OFDM24;
++	}
++
++#ifdef CONFIG_P2P
++	if (subtype == WIFI_PROBEREQ) {
++		u8 *p2p_ie;
++		u32	p2p_ielen;
++		/* Set Listion Channel */
++		p2p_ie = rtw_get_p2p_ie(bssid->IEs, bssid->IELength, NULL, &p2p_ielen);
++		if (p2p_ie) {
++			u32	attr_contentlen = 0;
++			u8 listen_ch[5] = { 0x00 };
++
++			rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_LISTEN_CH, listen_ch, &attr_contentlen);
++			bssid->Configuration.DSConfig = listen_ch[4];
++		} else {
++			/* use current channel */
++			bssid->Configuration.DSConfig = padapter->mlmeextpriv.cur_channel;
++			RTW_INFO("%s()-%d: Cannot get p2p_ie. set DSconfig to op_ch(%d)\n", __FUNCTION__, __LINE__, bssid->Configuration.DSConfig);
++		}
++
++		/* FIXME */
++		bssid->InfrastructureMode = Ndis802_11Infrastructure;
++		_rtw_memcpy(bssid->MacAddress, GetAddr2Ptr(pframe), ETH_ALEN);
++		bssid->Privacy = 1;
++		return _SUCCESS;
++	}
++#endif /* CONFIG_P2P */
++
++	if (bssid->IELength < 12)
++		return _FAIL;
++
++	/* Checking for DSConfig */
++	p = rtw_get_ie(bssid->IEs + ie_offset, _DSSET_IE_, &len, bssid->IELength - ie_offset);
++
++	bssid->Configuration.DSConfig = 0;
++	bssid->Configuration.Length = 0;
++
++	if (p)
++		bssid->Configuration.DSConfig = *(p + 2);
++	else {
++		/* In 5G, some ap do not have DSSET IE */
++		/* checking HT info for channel */
++		p = rtw_get_ie(bssid->IEs + ie_offset, _HT_ADD_INFO_IE_, &len, bssid->IELength - ie_offset);
++		if (p) {
++			struct HT_info_element *HT_info = (struct HT_info_element *)(p + 2);
++			bssid->Configuration.DSConfig = HT_info->primary_channel;
++		} else {
++			/* use current channel */
++			bssid->Configuration.DSConfig = rtw_get_oper_ch(padapter);
++		}
++	}
++
++	_rtw_memcpy(&bssid->Configuration.BeaconPeriod, rtw_get_beacon_interval_from_ie(bssid->IEs), 2);
++	bssid->Configuration.BeaconPeriod = le32_to_cpu(bssid->Configuration.BeaconPeriod);
++
++	val16 = rtw_get_capability((WLAN_BSSID_EX *)bssid);
++
++	if (val16 & BIT(0)) {
++		bssid->InfrastructureMode = Ndis802_11Infrastructure;
++		_rtw_memcpy(bssid->MacAddress, GetAddr2Ptr(pframe), ETH_ALEN);
++	} else {
++		bssid->InfrastructureMode = Ndis802_11IBSS;
++		_rtw_memcpy(bssid->MacAddress, GetAddr3Ptr(pframe), ETH_ALEN);
++	}
++
++	if (val16 & BIT(4))
++		bssid->Privacy = 1;
++	else
++		bssid->Privacy = 0;
++
++	bssid->Configuration.ATIMWindow = 0;
++
++	/* 20/40 BSS Coexistence check */
++	if ((pregistrypriv->wifi_spec == 1) && (_FALSE == pmlmeinfo->bwmode_updated)) {
++		struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++#ifdef CONFIG_80211N_HT
++		p = rtw_get_ie(bssid->IEs + ie_offset, _HT_CAPABILITY_IE_, &len, bssid->IELength - ie_offset);
++		if (p && len > 0) {
++			struct HT_caps_element	*pHT_caps;
++			pHT_caps = (struct HT_caps_element *)(p + 2);
++
++			if (pHT_caps->u.HT_cap_element.HT_caps_info & BIT(14))
++				pmlmepriv->num_FortyMHzIntolerant++;
++		} else
++			pmlmepriv->num_sta_no_ht++;
++#endif /* CONFIG_80211N_HT */
++
++	}
++
++#ifdef CONFIG_INTEL_WIDI
++	/* process_intel_widi_query_or_tigger(padapter, bssid); */
++	if (process_intel_widi_query_or_tigger(padapter, bssid))
++		return _FAIL;
++#endif /* CONFIG_INTEL_WIDI */
++
++#if defined(DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED) & 1
++	if (strcmp(bssid->Ssid.Ssid, DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED) == 0) {
++		RTW_INFO("Receiving %s("MAC_FMT", DSConfig:%u) from ch%u with ss:%3u, sq:%3u, RawRSSI:%3ld\n"
++			, bssid->Ssid.Ssid, MAC_ARG(bssid->MacAddress), bssid->Configuration.DSConfig
++			 , rtw_get_oper_ch(padapter)
++			, bssid->PhyInfo.SignalStrength, bssid->PhyInfo.SignalQuality, bssid->Rssi
++			);
++	}
++#endif
++
++	/* mark bss info receving from nearby channel as SignalQuality 101 */
++	if (bssid->Configuration.DSConfig != rtw_get_oper_ch(padapter))
++		bssid->PhyInfo.SignalQuality = 101;
++
++	return _SUCCESS;
++}
++
++void start_create_ibss(_adapter *padapter)
++{
++	unsigned short	caps;
++	u8	val8;
++	u8	join_type;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++	u8 doiqk = _FALSE;
++	pmlmeext->cur_channel = (u8)pnetwork->Configuration.DSConfig;
++	pmlmeinfo->bcn_interval = get_beacon_interval(pnetwork);
++
++	/* update wireless mode */
++	update_wireless_mode(padapter);
++
++	/* udpate capability */
++	caps = rtw_get_capability((WLAN_BSSID_EX *)pnetwork);
++	update_capinfo(padapter, caps);
++	if (caps & cap_IBSS) { /* adhoc master */
++		/* set_opmode_cmd(padapter, adhoc); */ /* removed */
++
++		val8 = 0xcf;
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, (u8 *)(&val8));
++
++		doiqk = _TRUE;
++		rtw_hal_set_hwreg(padapter , HW_VAR_DO_IQK , &doiqk);
++
++		/* switch channel */
++		set_channel_bwmode(padapter, pmlmeext->cur_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++
++		doiqk = _FALSE;
++		rtw_hal_set_hwreg(padapter , HW_VAR_DO_IQK , &doiqk);
++
++		beacon_timing_control(padapter);
++
++		/* set msr to WIFI_FW_ADHOC_STATE */
++		pmlmeinfo->state = WIFI_FW_ADHOC_STATE;
++		Set_MSR(padapter, (pmlmeinfo->state & 0x3));
++
++		/* issue beacon */
++		if (send_beacon(padapter) == _FAIL) {
++
++			report_join_res(padapter, -1);
++			pmlmeinfo->state = WIFI_FW_NULL_STATE;
++		} else {
++			rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, padapter->registrypriv.dev_network.MacAddress);
++			join_type = 0;
++			rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
++
++			report_join_res(padapter, 1);
++			pmlmeinfo->state |= WIFI_FW_ASSOC_SUCCESS;
++			rtw_indicate_connect(padapter);
++		}
++	} else {
++		RTW_INFO("start_create_ibss, invalid cap:%x\n", caps);
++		return;
++	}
++	/* update bc/mc sta_info */
++	update_bmc_sta(padapter);
++
++}
++
++void start_clnt_join(_adapter *padapter)
++{
++	unsigned short	caps;
++	u8	val8;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++	int beacon_timeout;
++	u8 ASIX_ID[] = {0x00, 0x0E, 0xC6};
++
++	/* update wireless mode */
++	update_wireless_mode(padapter);
++
++	/* udpate capability */
++	caps = rtw_get_capability((WLAN_BSSID_EX *)pnetwork);
++	update_capinfo(padapter, caps);
++
++	/* check if sta is ASIX peer and fix IOT issue if it is. */
++	if (_rtw_memcmp(get_my_bssid(&pmlmeinfo->network) , ASIX_ID , 3)) {
++		u8 iot_flag = _TRUE;
++		rtw_hal_set_hwreg(padapter, HW_VAR_ASIX_IOT, (u8 *)(&iot_flag));
++	}
++
++	if (caps & cap_ESS) {
++		Set_MSR(padapter, WIFI_FW_STATION_STATE);
++
++		val8 = (pmlmeinfo->auth_algo == dot11AuthAlgrthm_8021X) ? 0xcc : 0xcf;
++
++#ifdef CONFIG_WAPI_SUPPORT
++		if (padapter->wapiInfo.bWapiEnable && pmlmeinfo->auth_algo == dot11AuthAlgrthm_WAPI) {
++			/* Disable TxUseDefaultKey, RxUseDefaultKey, RxBroadcastUseDefaultKey. */
++			val8 = 0x4c;
++		}
++#endif
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, (u8 *)(&val8));
++
++#ifdef CONFIG_DEAUTH_BEFORE_CONNECT
++		/* Because of AP's not receiving deauth before */
++		/* AP may: 1)not response auth or 2)deauth us after link is complete */
++		/* issue deauth before issuing auth to deal with the situation */
++
++		/*	Commented by Albert 2012/07/21 */
++		/*	For the Win8 P2P connection, it will be hard to have a successful connection if this Wi-Fi doesn't connect to it. */
++		{
++#ifdef CONFIG_P2P
++			_queue *queue = &(padapter->mlmepriv.scanned_queue);
++			_list	*head = get_list_head(queue);
++			_list *pos = get_next(head);
++			struct wlan_network *scanned = NULL;
++			u8 ie_offset = 0;
++			_irqL irqL;
++			bool has_p2p_ie = _FALSE;
++
++			_enter_critical_bh(&(padapter->mlmepriv.scanned_queue.lock), &irqL);
++
++			for (pos = get_next(head); !rtw_end_of_queue_search(head, pos); pos = get_next(pos)) {
++
++				scanned = LIST_CONTAINOR(pos, struct wlan_network, list);
++
++				if (_rtw_memcmp(&(scanned->network.Ssid), &(pnetwork->Ssid), sizeof(NDIS_802_11_SSID)) == _TRUE
++				    && _rtw_memcmp(scanned->network.MacAddress, pnetwork->MacAddress, sizeof(NDIS_802_11_MAC_ADDRESS)) == _TRUE
++				   ) {
++					ie_offset = (scanned->network.Reserved[0] == 2 ? 0 : 12);
++					if (rtw_get_p2p_ie(scanned->network.IEs + ie_offset, scanned->network.IELength - ie_offset, NULL, NULL))
++						has_p2p_ie = _TRUE;
++					break;
++				}
++			}
++
++			_exit_critical_bh(&(padapter->mlmepriv.scanned_queue.lock), &irqL);
++
++			if (scanned == NULL || rtw_end_of_queue_search(head, pos) || has_p2p_ie == _FALSE)
++#endif /* CONFIG_P2P */
++				/* To avoid connecting to AP fail during resume process, change retry count from 5 to 1 */
++				issue_deauth_ex(padapter, pnetwork->MacAddress, WLAN_REASON_DEAUTH_LEAVING, 1, 100);
++		}
++#endif /* CONFIG_DEAUTH_BEFORE_CONNECT */
++
++		/* here wait for receiving the beacon to start auth */
++		/* and enable a timer */
++		beacon_timeout = decide_wait_for_beacon_timeout(pmlmeinfo->bcn_interval);
++		set_link_timer(pmlmeext, beacon_timeout);
++		_set_timer(&padapter->mlmepriv.assoc_timer,
++			(REAUTH_TO * REAUTH_LIMIT) + (REASSOC_TO * REASSOC_LIMIT) + beacon_timeout);
++
++#ifdef CONFIG_RTW_80211R
++		if ((rtw_to_roam(padapter) > 0) && rtw_chk_ft_flags(padapter, RTW_FT_SUPPORTED)) {
++			if (rtw_chk_ft_flags(padapter, RTW_FT_OVER_DS_SUPPORTED)) {
++				struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++				ft_priv *pftpriv = &pmlmepriv->ftpriv;
++
++				pmlmeinfo->state = WIFI_FW_AUTH_SUCCESS | WIFI_FW_STATION_STATE;
++				pftpriv->ft_event.ies =  pftpriv->ft_action + sizeof(struct rtw_ieee80211_hdr_3addr) + 16;
++				pftpriv->ft_event.ies_len = pftpriv->ft_action_len - sizeof(struct rtw_ieee80211_hdr_3addr);
++
++				/*Not support RIC*/
++				pftpriv->ft_event.ric_ies =  NULL;
++				pftpriv->ft_event.ric_ies_len = 0;
++				report_ft_event(padapter);
++			} else {
++				pmlmeinfo->state = WIFI_FW_AUTH_NULL | WIFI_FW_STATION_STATE;
++				start_clnt_auth(padapter);
++			}
++		} else
++#endif
++			pmlmeinfo->state = WIFI_FW_AUTH_NULL | WIFI_FW_STATION_STATE;
++	} else if (caps & cap_IBSS) { /* adhoc client */
++		Set_MSR(padapter, WIFI_FW_ADHOC_STATE);
++
++		val8 = 0xcf;
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, (u8 *)(&val8));
++
++		beacon_timing_control(padapter);
++
++		pmlmeinfo->state = WIFI_FW_ADHOC_STATE;
++
++		report_join_res(padapter, 1);
++	} else {
++		/* RTW_INFO("marc: invalid cap:%x\n", caps); */
++		return;
++	}
++
++}
++
++void start_clnt_auth(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	_cancel_timer_ex(&pmlmeext->link_timer);
++
++	pmlmeinfo->state &= (~WIFI_FW_AUTH_NULL);
++	pmlmeinfo->state |= WIFI_FW_AUTH_STATE;
++
++	pmlmeinfo->auth_seq = 1;
++	pmlmeinfo->reauth_count = 0;
++	pmlmeinfo->reassoc_count = 0;
++	pmlmeinfo->link_count = 0;
++	pmlmeext->retry = 0;
++
++#ifdef CONFIG_RTW_80211R
++	if ((rtw_to_roam(padapter) > 0) && rtw_chk_ft_flags(padapter, RTW_FT_SUPPORTED)) {
++		rtw_set_ft_status(padapter, RTW_FT_AUTHENTICATING_STA);
++		RTW_PRINT("start ft auth\n");
++	} else
++#endif
++		RTW_PRINT("start auth\n");
++	issue_auth(padapter, NULL, 0);
++
++	set_link_timer(pmlmeext, REAUTH_TO);
++
++}
++
++
++void start_clnt_assoc(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	_cancel_timer_ex(&pmlmeext->link_timer);
++
++	pmlmeinfo->state &= (~(WIFI_FW_AUTH_NULL | WIFI_FW_AUTH_STATE));
++	pmlmeinfo->state |= (WIFI_FW_AUTH_SUCCESS | WIFI_FW_ASSOC_STATE);
++
++#ifdef CONFIG_RTW_80211R
++	if ((rtw_to_roam(padapter) > 0) && rtw_chk_ft_flags(padapter, RTW_FT_SUPPORTED))
++		issue_reassocreq(padapter);
++	else
++#endif
++		issue_assocreq(padapter);
++
++	set_link_timer(pmlmeext, REASSOC_TO);
++}
++
++unsigned int receive_disconnect(_adapter *padapter, unsigned char *MacAddr, unsigned short reason, u8 locally_generated)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (!(_rtw_memcmp(MacAddr, get_my_bssid(&pmlmeinfo->network), ETH_ALEN)))
++		return _SUCCESS;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE) {
++		if (pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS) {
++			if (report_del_sta_event(padapter, MacAddr, reason, _TRUE, locally_generated) != _FAIL)
++				pmlmeinfo->state = WIFI_FW_NULL_STATE;
++		} else if (pmlmeinfo->state & WIFI_FW_LINKING_STATE) {
++			if (report_join_res(padapter, -2) != _FAIL)
++				pmlmeinfo->state = WIFI_FW_NULL_STATE;
++		} else
++			RTW_INFO(FUNC_ADPT_FMT" - End to Disconnect\n", FUNC_ADPT_ARG(padapter));
++#ifdef CONFIG_RTW_80211R
++		if ((rtw_to_roam(padapter) > 0) && !rtw_chk_ft_status(padapter, RTW_FT_REQUESTED_STA))
++			rtw_reset_ft_status(padapter);
++#endif
++	}
++
++	return _SUCCESS;
++}
++
++#ifdef CONFIG_80211D
++static void process_80211d(PADAPTER padapter, WLAN_BSSID_EX *bssid)
++{
++	struct registry_priv *pregistrypriv;
++	struct mlme_ext_priv *pmlmeext;
++	RT_CHANNEL_INFO *chplan_new;
++	u8 channel;
++	u8 i;
++
++
++	pregistrypriv = &padapter->registrypriv;
++	pmlmeext = &padapter->mlmeextpriv;
++
++	/* Adjust channel plan by AP Country IE */
++	if (pregistrypriv->enable80211d
++	    && (!pmlmeext->update_channel_plan_by_ap_done)) {
++		u8 *ie, *p;
++		u32 len;
++		RT_CHANNEL_PLAN chplan_ap;
++		RT_CHANNEL_INFO chplan_sta[MAX_CHANNEL_NUM];
++		u8 country[4];
++		u8 fcn; /* first channel number */
++		u8 noc; /* number of channel */
++		u8 j, k;
++
++		ie = rtw_get_ie(bssid->IEs + _FIXED_IE_LENGTH_, _COUNTRY_IE_, &len, bssid->IELength - _FIXED_IE_LENGTH_);
++		if (!ie)
++			return;
++		if (len < 6)
++			return;
++
++		ie += 2;
++		p = ie;
++		ie += len;
++
++		_rtw_memset(country, 0, 4);
++		_rtw_memcpy(country, p, 3);
++		p += 3;
++		RTW_INFO("%s: 802.11d country=%s\n", __FUNCTION__, country);
++
++		i = 0;
++		while ((ie - p) >= 3) {
++			fcn = *(p++);
++			noc = *(p++);
++			p++;
++
++			for (j = 0; j < noc; j++) {
++				if (fcn <= 14)
++					channel = fcn + j; /* 2.4 GHz */
++				else
++					channel = fcn + j * 4; /* 5 GHz */
++
++				chplan_ap.Channel[i++] = channel;
++			}
++		}
++		chplan_ap.Len = i;
++
++#ifdef CONFIG_RTW_DEBUG
++		i = 0;
++		RTW_INFO("%s: AP[%s] channel plan {", __FUNCTION__, bssid->Ssid.Ssid);
++		while ((i < chplan_ap.Len) && (chplan_ap.Channel[i] != 0)) {
++			_RTW_INFO("%02d,", chplan_ap.Channel[i]);
++			i++;
++		}
++		_RTW_INFO("}\n");
++#endif
++
++		_rtw_memcpy(chplan_sta, pmlmeext->channel_set, sizeof(chplan_sta));
++#ifdef CONFIG_RTW_DEBUG
++		i = 0;
++		RTW_INFO("%s: STA channel plan {", __FUNCTION__);
++		while ((i < MAX_CHANNEL_NUM) && (chplan_sta[i].ChannelNum != 0)) {
++			_RTW_INFO("%02d(%c),", chplan_sta[i].ChannelNum, chplan_sta[i].ScanType == SCAN_PASSIVE ? 'p' : 'a');
++			i++;
++		}
++		_RTW_INFO("}\n");
++#endif
++
++		_rtw_memset(pmlmeext->channel_set, 0, sizeof(pmlmeext->channel_set));
++		chplan_new = pmlmeext->channel_set;
++
++		i = j = k = 0;
++		if (pregistrypriv->wireless_mode & WIRELESS_11G) {
++			do {
++				if ((i == MAX_CHANNEL_NUM)
++				    || (chplan_sta[i].ChannelNum == 0)
++				    || (chplan_sta[i].ChannelNum > 14))
++					break;
++
++				if ((j == chplan_ap.Len) || (chplan_ap.Channel[j] > 14))
++					break;
++
++				if (chplan_sta[i].ChannelNum == chplan_ap.Channel[j]) {
++					chplan_new[k].ChannelNum = chplan_ap.Channel[j];
++					chplan_new[k].ScanType = SCAN_ACTIVE;
++					i++;
++					j++;
++					k++;
++				} else if (chplan_sta[i].ChannelNum < chplan_ap.Channel[j]) {
++					chplan_new[k].ChannelNum = chplan_sta[i].ChannelNum;
++#if 0
++					chplan_new[k].ScanType = chplan_sta[i].ScanType;
++#else
++					chplan_new[k].ScanType = SCAN_PASSIVE;
++#endif
++					i++;
++					k++;
++				} else if (chplan_sta[i].ChannelNum > chplan_ap.Channel[j]) {
++					chplan_new[k].ChannelNum = chplan_ap.Channel[j];
++					chplan_new[k].ScanType = SCAN_ACTIVE;
++					j++;
++					k++;
++				}
++			} while (1);
++
++			/* change AP not support channel to Passive scan */
++			while ((i < MAX_CHANNEL_NUM)
++			       && (chplan_sta[i].ChannelNum != 0)
++			       && (chplan_sta[i].ChannelNum <= 14)) {
++				chplan_new[k].ChannelNum = chplan_sta[i].ChannelNum;
++#if 0
++				chplan_new[k].ScanType = chplan_sta[i].ScanType;
++#else
++				chplan_new[k].ScanType = SCAN_PASSIVE;
++#endif
++				i++;
++				k++;
++			}
++
++			/* add channel AP supported */
++			while ((j < chplan_ap.Len) && (chplan_ap.Channel[j] <= 14)) {
++				chplan_new[k].ChannelNum = chplan_ap.Channel[j];
++				chplan_new[k].ScanType = SCAN_ACTIVE;
++				j++;
++				k++;
++			}
++		} else {
++			/* keep original STA 2.4G channel plan */
++			while ((i < MAX_CHANNEL_NUM)
++			       && (chplan_sta[i].ChannelNum != 0)
++			       && (chplan_sta[i].ChannelNum <= 14)) {
++				chplan_new[k].ChannelNum = chplan_sta[i].ChannelNum;
++				chplan_new[k].ScanType = chplan_sta[i].ScanType;
++				i++;
++				k++;
++			}
++
++			/* skip AP 2.4G channel plan */
++			while ((j < chplan_ap.Len) && (chplan_ap.Channel[j] <= 14))
++				j++;
++		}
++
++		if (pregistrypriv->wireless_mode & WIRELESS_11A) {
++			do {
++				if ((i >= MAX_CHANNEL_NUM)
++				    || (chplan_sta[i].ChannelNum == 0))
++					break;
++
++				if ((j == chplan_ap.Len) || (chplan_ap.Channel[j] == 0))
++					break;
++
++				if (chplan_sta[i].ChannelNum == chplan_ap.Channel[j]) {
++					chplan_new[k].ChannelNum = chplan_ap.Channel[j];
++					chplan_new[k].ScanType = SCAN_ACTIVE;
++					i++;
++					j++;
++					k++;
++				} else if (chplan_sta[i].ChannelNum < chplan_ap.Channel[j]) {
++					chplan_new[k].ChannelNum = chplan_sta[i].ChannelNum;
++#if 0
++					chplan_new[k].ScanType = chplan_sta[i].ScanType;
++#else
++					chplan_new[k].ScanType = SCAN_PASSIVE;
++#endif
++					i++;
++					k++;
++				} else if (chplan_sta[i].ChannelNum > chplan_ap.Channel[j]) {
++					chplan_new[k].ChannelNum = chplan_ap.Channel[j];
++					chplan_new[k].ScanType = SCAN_ACTIVE;
++					j++;
++					k++;
++				}
++			} while (1);
++
++			/* change AP not support channel to Passive scan */
++			while ((i < MAX_CHANNEL_NUM) && (chplan_sta[i].ChannelNum != 0)) {
++				chplan_new[k].ChannelNum = chplan_sta[i].ChannelNum;
++#if 0
++				chplan_new[k].ScanType = chplan_sta[i].ScanType;
++#else
++				chplan_new[k].ScanType = SCAN_PASSIVE;
++#endif
++				i++;
++				k++;
++			}
++
++			/* add channel AP supported */
++			while ((j < chplan_ap.Len) && (chplan_ap.Channel[j] != 0)) {
++				chplan_new[k].ChannelNum = chplan_ap.Channel[j];
++				chplan_new[k].ScanType = SCAN_ACTIVE;
++				j++;
++				k++;
++			}
++		} else {
++			/* keep original STA 5G channel plan */
++			while ((i < MAX_CHANNEL_NUM) && (chplan_sta[i].ChannelNum != 0)) {
++				chplan_new[k].ChannelNum = chplan_sta[i].ChannelNum;
++				chplan_new[k].ScanType = chplan_sta[i].ScanType;
++				i++;
++				k++;
++			}
++		}
++
++		pmlmeext->update_channel_plan_by_ap_done = 1;
++
++#ifdef CONFIG_RTW_DEBUG
++		k = 0;
++		RTW_INFO("%s: new STA channel plan {", __FUNCTION__);
++		while ((k < MAX_CHANNEL_NUM) && (chplan_new[k].ChannelNum != 0)) {
++			_RTW_INFO("%02d(%c),", chplan_new[k].ChannelNum, chplan_new[k].ScanType == SCAN_PASSIVE ? 'p' : 'c');
++			k++;
++		}
++		_RTW_INFO("}\n");
++#endif
++
++#if 0
++		/* recover the right channel index */
++		channel = chplan_sta[pmlmeext->sitesurvey_res.channel_idx].ChannelNum;
++		k = 0;
++		while ((k < MAX_CHANNEL_NUM) && (chplan_new[k].ChannelNum != 0)) {
++			if (chplan_new[k].ChannelNum == channel) {
++				RTW_INFO("%s: change mlme_ext sitesurvey channel index from %d to %d\n",
++					__FUNCTION__, pmlmeext->sitesurvey_res.channel_idx, k);
++				pmlmeext->sitesurvey_res.channel_idx = k;
++				break;
++			}
++			k++;
++		}
++#endif
++	}
++
++	/* If channel is used by AP, set channel scan type to active */
++	channel = bssid->Configuration.DSConfig;
++	chplan_new = pmlmeext->channel_set;
++	i = 0;
++	while ((i < MAX_CHANNEL_NUM) && (chplan_new[i].ChannelNum != 0)) {
++		if (chplan_new[i].ChannelNum == channel) {
++			if (chplan_new[i].ScanType == SCAN_PASSIVE) {
++				/* 5G Bnad 2, 3 (DFS) doesn't change to active scan */
++				if (channel >= 52 && channel <= 144)
++					break;
++
++				chplan_new[i].ScanType = SCAN_ACTIVE;
++				RTW_INFO("%s: change channel %d scan type from passive to active\n",
++					 __FUNCTION__, channel);
++			}
++			break;
++		}
++		i++;
++	}
++}
++#endif
++
++/****************************************************************************
++
++Following are the functions to report events
++
++*****************************************************************************/
++
++void report_survey_event(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct cmd_obj *pcmd_obj;
++	u8	*pevtcmd;
++	u32 cmdsz;
++	struct survey_event	*psurvey_evt;
++	struct C2HEvent_Header *pc2h_evt_hdr;
++	struct mlme_ext_priv *pmlmeext;
++	struct cmd_priv *pcmdpriv;
++	/* u8 *pframe = precv_frame->u.hdr.rx_data; */
++	/* uint len = precv_frame->u.hdr.len; */
++
++	if (!padapter)
++		return;
++
++	pmlmeext = &padapter->mlmeextpriv;
++	pcmdpriv = &padapter->cmdpriv;
++
++
++	pcmd_obj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (pcmd_obj == NULL)
++		return;
++
++	cmdsz = (sizeof(struct survey_event) + sizeof(struct C2HEvent_Header));
++	pevtcmd = (u8 *)rtw_zmalloc(cmdsz);
++	if (pevtcmd == NULL) {
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		return;
++	}
++
++	_rtw_init_listhead(&pcmd_obj->list);
++
++	pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++	pcmd_obj->cmdsz = cmdsz;
++	pcmd_obj->parmbuf = pevtcmd;
++
++	pcmd_obj->rsp = NULL;
++	pcmd_obj->rspsz  = 0;
++
++	pc2h_evt_hdr = (struct C2HEvent_Header *)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct survey_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_Survey);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	psurvey_evt = (struct survey_event *)(pevtcmd + sizeof(struct C2HEvent_Header));
++
++	if (collect_bss_info(padapter, precv_frame, (WLAN_BSSID_EX *)&psurvey_evt->bss) == _FAIL) {
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		rtw_mfree((u8 *)pevtcmd, cmdsz);
++		return;
++	}
++
++#ifdef CONFIG_80211D
++	process_80211d(padapter, &psurvey_evt->bss);
++#endif
++
++	rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++
++	pmlmeext->sitesurvey_res.bss_cnt++;
++
++	return;
++
++}
++
++void report_surveydone_event(_adapter *padapter)
++{
++	struct cmd_obj *pcmd_obj;
++	u8	*pevtcmd;
++	u32 cmdsz;
++	struct surveydone_event *psurveydone_evt;
++	struct C2HEvent_Header	*pc2h_evt_hdr;
++	struct mlme_ext_priv		*pmlmeext = &padapter->mlmeextpriv;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++
++	pcmd_obj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (pcmd_obj == NULL)
++		return;
++
++	cmdsz = (sizeof(struct surveydone_event) + sizeof(struct C2HEvent_Header));
++	pevtcmd = (u8 *)rtw_zmalloc(cmdsz);
++	if (pevtcmd == NULL) {
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		return;
++	}
++
++	_rtw_init_listhead(&pcmd_obj->list);
++
++	pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++	pcmd_obj->cmdsz = cmdsz;
++	pcmd_obj->parmbuf = pevtcmd;
++
++	pcmd_obj->rsp = NULL;
++	pcmd_obj->rspsz  = 0;
++
++	pc2h_evt_hdr = (struct C2HEvent_Header *)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct surveydone_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_SurveyDone);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	psurveydone_evt = (struct surveydone_event *)(pevtcmd + sizeof(struct C2HEvent_Header));
++	psurveydone_evt->bss_cnt = pmlmeext->sitesurvey_res.bss_cnt;
++
++	RTW_INFO("survey done event(%x) band:%d for "ADPT_FMT"\n", psurveydone_evt->bss_cnt, padapter->setband, ADPT_ARG(padapter));
++
++	rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++
++	return;
++
++}
++
++u32 report_join_res(_adapter *padapter, int res)
++{
++	struct cmd_obj *pcmd_obj;
++	u8	*pevtcmd;
++	u32 cmdsz;
++	struct joinbss_event		*pjoinbss_evt;
++	struct C2HEvent_Header	*pc2h_evt_hdr;
++	struct mlme_ext_priv		*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++	u32 ret = _FAIL;
++
++	pcmd_obj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (pcmd_obj == NULL)
++		goto exit;
++
++	cmdsz = (sizeof(struct joinbss_event) + sizeof(struct C2HEvent_Header));
++	pevtcmd = (u8 *)rtw_zmalloc(cmdsz);
++	if (pevtcmd == NULL) {
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		goto exit;
++	}
++
++	_rtw_init_listhead(&pcmd_obj->list);
++
++	pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++	pcmd_obj->cmdsz = cmdsz;
++	pcmd_obj->parmbuf = pevtcmd;
++
++	pcmd_obj->rsp = NULL;
++	pcmd_obj->rspsz  = 0;
++
++	pc2h_evt_hdr = (struct C2HEvent_Header *)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct joinbss_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_JoinBss);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	pjoinbss_evt = (struct joinbss_event *)(pevtcmd + sizeof(struct C2HEvent_Header));
++	_rtw_memcpy((unsigned char *)(&(pjoinbss_evt->network.network)), &(pmlmeinfo->network), sizeof(WLAN_BSSID_EX));
++	pjoinbss_evt->network.join_res	= pjoinbss_evt->network.aid = res;
++
++	RTW_INFO("report_join_res(%d)\n", res);
++
++
++	rtw_joinbss_event_prehandle(padapter, (u8 *)&pjoinbss_evt->network);
++
++
++	ret = rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++
++exit:
++	return ret;
++}
++
++void report_wmm_edca_update(_adapter *padapter)
++{
++	struct cmd_obj *pcmd_obj;
++	u8	*pevtcmd;
++	u32 cmdsz;
++	struct wmm_event		*pwmm_event;
++	struct C2HEvent_Header	*pc2h_evt_hdr;
++	struct mlme_ext_priv		*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++
++	pcmd_obj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (pcmd_obj == NULL)
++		return;
++
++	cmdsz = (sizeof(struct wmm_event) + sizeof(struct C2HEvent_Header));
++	pevtcmd = (u8 *)rtw_zmalloc(cmdsz);
++	if (pevtcmd == NULL) {
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		return;
++	}
++
++	_rtw_init_listhead(&pcmd_obj->list);
++
++	pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++	pcmd_obj->cmdsz = cmdsz;
++	pcmd_obj->parmbuf = pevtcmd;
++
++	pcmd_obj->rsp = NULL;
++	pcmd_obj->rspsz  = 0;
++
++	pc2h_evt_hdr = (struct C2HEvent_Header *)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct wmm_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_WMM);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	pwmm_event = (struct wmm_event *)(pevtcmd + sizeof(struct C2HEvent_Header));
++	pwmm_event->wmm = 0;
++
++	rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++
++	return;
++
++}
++
++u32 report_del_sta_event(_adapter *padapter, unsigned char *MacAddr, unsigned short reason, bool enqueue, u8 locally_generated)
++{
++	struct cmd_obj *pcmd_obj;
++	u8	*pevtcmd;
++	u32 cmdsz;
++	struct sta_info *psta;
++	int	mac_id = -1;
++	struct stadel_event			*pdel_sta_evt;
++	struct C2HEvent_Header	*pc2h_evt_hdr;
++	struct mlme_ext_priv		*pmlmeext = &padapter->mlmeextpriv;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++	u8 res = _SUCCESS;
++
++	/* prepare cmd parameter */
++	cmdsz = (sizeof(struct stadel_event) + sizeof(struct C2HEvent_Header));
++	pevtcmd = (u8 *)rtw_zmalloc(cmdsz);
++	if (pevtcmd == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pc2h_evt_hdr = (struct C2HEvent_Header *)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct stadel_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_DelSTA);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	pdel_sta_evt = (struct stadel_event *)(pevtcmd + sizeof(struct C2HEvent_Header));
++	_rtw_memcpy((unsigned char *)(&(pdel_sta_evt->macaddr)), MacAddr, ETH_ALEN);
++	_rtw_memcpy((unsigned char *)(pdel_sta_evt->rsvd), (unsigned char *)(&reason), 2);
++	psta = rtw_get_stainfo(&padapter->stapriv, MacAddr);
++	if (psta)
++		mac_id = (int)psta->mac_id;
++	else
++		mac_id = (-1);
++	pdel_sta_evt->mac_id = mac_id;
++	pdel_sta_evt->locally_generated = locally_generated;
++
++	if (!enqueue) {
++		/* do directly */
++		rtw_stadel_event_callback(padapter, (u8 *)pdel_sta_evt);
++		rtw_mfree(pevtcmd, cmdsz);
++	} else {
++		pcmd_obj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (pcmd_obj == NULL) {
++			rtw_mfree(pevtcmd, cmdsz);
++			res = _FAIL;
++			goto exit;
++		}
++
++		_rtw_init_listhead(&pcmd_obj->list);
++		pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++		pcmd_obj->cmdsz = cmdsz;
++		pcmd_obj->parmbuf = pevtcmd;
++
++		pcmd_obj->rsp = NULL;
++		pcmd_obj->rspsz  = 0;
++
++		res = rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++	}
++
++exit:
++
++	RTW_INFO(FUNC_ADPT_FMT" "MAC_FMT" mac_id=%d, enqueue:%d, res:%u\n"
++		, FUNC_ADPT_ARG(padapter), MAC_ARG(MacAddr), mac_id, enqueue, res);
++
++	return res;
++}
++
++void report_add_sta_event(_adapter *padapter, unsigned char *MacAddr)
++{
++	struct cmd_obj *pcmd_obj;
++	u8	*pevtcmd;
++	u32 cmdsz;
++	struct stassoc_event		*padd_sta_evt;
++	struct C2HEvent_Header	*pc2h_evt_hdr;
++	struct mlme_ext_priv		*pmlmeext = &padapter->mlmeextpriv;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++
++	pcmd_obj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (pcmd_obj == NULL)
++		return;
++
++	cmdsz = (sizeof(struct stassoc_event) + sizeof(struct C2HEvent_Header));
++	pevtcmd = (u8 *)rtw_zmalloc(cmdsz);
++	if (pevtcmd == NULL) {
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		return;
++	}
++
++	_rtw_init_listhead(&pcmd_obj->list);
++
++	pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++	pcmd_obj->cmdsz = cmdsz;
++	pcmd_obj->parmbuf = pevtcmd;
++
++	pcmd_obj->rsp = NULL;
++	pcmd_obj->rspsz  = 0;
++
++	pc2h_evt_hdr = (struct C2HEvent_Header *)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct stassoc_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_AddSTA);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	padd_sta_evt = (struct stassoc_event *)(pevtcmd + sizeof(struct C2HEvent_Header));
++	_rtw_memcpy((unsigned char *)(&(padd_sta_evt->macaddr)), MacAddr, ETH_ALEN);
++
++	RTW_INFO("report_add_sta_event: add STA\n");
++
++	rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++
++	return;
++}
++
++
++bool rtw_port_switch_chk(_adapter *adapter)
++{
++	bool switch_needed = _FALSE;
++#ifdef CONFIG_CONCURRENT_MODE
++#ifdef CONFIG_RUNTIME_PORT_SWITCH
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct pwrctrl_priv *pwrctl = dvobj_to_pwrctl(dvobj);
++	_adapter *if_port0 = NULL;
++	_adapter *if_port1 = NULL;
++	struct mlme_ext_info *if_port0_mlmeinfo = NULL;
++	struct mlme_ext_info *if_port1_mlmeinfo = NULL;
++	int i;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		if (get_hw_port(dvobj->padapters[i]) == HW_PORT0) {
++			if_port0 = dvobj->padapters[i];
++			if_port0_mlmeinfo = &(if_port0->mlmeextpriv.mlmext_info);
++		} else if (get_hw_port(dvobj->padapters[i]) == HW_PORT1) {
++			if_port1 = dvobj->padapters[i];
++			if_port1_mlmeinfo = &(if_port1->mlmeextpriv.mlmext_info);
++		}
++	}
++
++	if (if_port0 == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (if_port1 == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++#ifdef DBG_RUNTIME_PORT_SWITCH
++	RTW_INFO(FUNC_ADPT_FMT" wowlan_mode:%u\n"
++		 ADPT_FMT", port0, mlmeinfo->state:0x%08x, p2p_state:%d, %d\n"
++		 ADPT_FMT", port1, mlmeinfo->state:0x%08x, p2p_state:%d, %d\n",
++		 FUNC_ADPT_ARG(adapter), pwrctl->wowlan_mode,
++		ADPT_ARG(if_port0), if_port0_mlmeinfo->state, rtw_p2p_state(&if_port0->wdinfo), rtw_p2p_chk_state(&if_port0->wdinfo, P2P_STATE_NONE),
++		ADPT_ARG(if_port1), if_port1_mlmeinfo->state, rtw_p2p_state(&if_port1->wdinfo), rtw_p2p_chk_state(&if_port1->wdinfo, P2P_STATE_NONE));
++#endif /* DBG_RUNTIME_PORT_SWITCH */
++
++#ifdef CONFIG_WOWLAN
++	/* WOWLAN interface(primary, for now) should be port0 */
++	if (pwrctl->wowlan_mode == _TRUE) {
++		if (!is_primary_adapter(if_port0)) {
++			RTW_INFO("%s "ADPT_FMT" enable WOWLAN\n", __func__, ADPT_ARG(if_port1));
++			switch_needed = _TRUE;
++		}
++		goto exit;
++	}
++#endif /* CONFIG_WOWLAN */
++
++	/* AP should use port0 for ctl frame's ack */
++	if ((if_port1_mlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) {
++		RTW_INFO("%s "ADPT_FMT" is AP/GO\n", __func__, ADPT_ARG(if_port1));
++		switch_needed = _TRUE;
++		goto exit;
++	}
++
++	/* GC should use port0 for p2p ps */
++	if (((if_port1_mlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE)
++	    && (if_port1_mlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)
++#ifdef CONFIG_P2P
++	    && !rtw_p2p_chk_state(&if_port1->wdinfo, P2P_STATE_NONE)
++#endif
++	    && !check_fwstate(&if_port1->mlmepriv, WIFI_UNDER_WPS)
++	   ) {
++		RTW_INFO("%s "ADPT_FMT" is GC\n", __func__, ADPT_ARG(if_port1));
++		switch_needed = _TRUE;
++		goto exit;
++	}
++
++	/* port1 linked, but port0 not linked */
++	if ((if_port1_mlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)
++	    && !(if_port0_mlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)
++	    && ((if_port0_mlmeinfo->state & 0x03) != WIFI_FW_AP_STATE)
++	   ) {
++		RTW_INFO("%s "ADPT_FMT" is SINGLE_LINK\n", __func__, ADPT_ARG(if_port1));
++		switch_needed = _TRUE;
++		goto exit;
++	}
++
++exit:
++#ifdef DBG_RUNTIME_PORT_SWITCH
++	RTW_INFO(FUNC_ADPT_FMT" ret:%d\n", FUNC_ADPT_ARG(adapter), switch_needed);
++#endif /* DBG_RUNTIME_PORT_SWITCH */
++#endif /* CONFIG_RUNTIME_PORT_SWITCH */
++#endif /* CONFIG_CONCURRENT_MODE */
++	return switch_needed;
++}
++
++/****************************************************************************
++
++Following are the event callback functions
++
++*****************************************************************************/
++
++/* for sta/adhoc mode */
++void update_sta_info(_adapter *padapter, struct sta_info *psta)
++{
++	_irqL	irqL;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	/* ERP */
++	VCS_update(padapter, psta);
++
++#ifdef CONFIG_80211N_HT
++	/* HT */
++	if (pmlmepriv->htpriv.ht_option) {
++		psta->htpriv.ht_option = _TRUE;
++
++		psta->htpriv.ampdu_enable = pmlmepriv->htpriv.ampdu_enable;
++
++		psta->htpriv.rx_ampdu_min_spacing = (pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & IEEE80211_HT_CAP_AMPDU_DENSITY) >> 2;
++
++		if (support_short_GI(padapter, &(pmlmeinfo->HT_caps), CHANNEL_WIDTH_20))
++			psta->htpriv.sgi_20m = _TRUE;
++
++		if (support_short_GI(padapter, &(pmlmeinfo->HT_caps), CHANNEL_WIDTH_40))
++			psta->htpriv.sgi_40m = _TRUE;
++
++		psta->qos_option = _TRUE;
++
++		psta->htpriv.ldpc_cap = pmlmepriv->htpriv.ldpc_cap;
++		psta->htpriv.stbc_cap = pmlmepriv->htpriv.stbc_cap;
++		psta->htpriv.beamform_cap = pmlmepriv->htpriv.beamform_cap;
++
++		_rtw_memcpy(&psta->htpriv.ht_cap, &pmlmeinfo->HT_caps, sizeof(struct rtw_ieee80211_ht_cap));
++	} else
++#endif /* CONFIG_80211N_HT */
++	{
++#ifdef CONFIG_80211N_HT
++		psta->htpriv.ht_option = _FALSE;
++
++		psta->htpriv.ampdu_enable = _FALSE;
++
++		psta->htpriv.sgi_20m = _FALSE;
++		psta->htpriv.sgi_40m = _FALSE;
++#endif /* CONFIG_80211N_HT */
++		psta->qos_option = _FALSE;
++
++	}
++
++#ifdef CONFIG_80211N_HT
++	psta->htpriv.ch_offset = pmlmeext->cur_ch_offset;
++
++	psta->htpriv.agg_enable_bitmap = 0x0;/* reset */
++	psta->htpriv.candidate_tid_bitmap = 0x0;/* reset */
++#endif /* CONFIG_80211N_HT */
++
++	psta->bw_mode = pmlmeext->cur_bwmode;
++
++	/* QoS */
++	if (pmlmepriv->qospriv.qos_option)
++		psta->qos_option = _TRUE;
++
++#ifdef CONFIG_80211AC_VHT
++	_rtw_memcpy(&psta->vhtpriv, &pmlmepriv->vhtpriv, sizeof(struct vht_priv));
++#endif /* CONFIG_80211AC_VHT */
++
++	update_ldpc_stbc_cap(psta);
++
++	_enter_critical_bh(&psta->lock, &irqL);
++	psta->state = _FW_LINKED;
++	_exit_critical_bh(&psta->lock, &irqL);
++
++}
++
++static void rtw_mlmeext_disconnect(_adapter *padapter)
++{
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++	u8 state_backup = (pmlmeinfo->state & 0x03);
++	u8 ASIX_ID[] = {0x00, 0x0E, 0xC6};
++
++	/* set_opmode_cmd(padapter, infra_client_with_mlme); */
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_MLME_DISCONNECT, 0);
++	rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, null_addr);
++
++	/* set MSR to no link state->infra. mode */
++	Set_MSR(padapter, _HW_STATE_STATION_);
++
++	/* check if sta is ASIX peer and fix IOT issue if it is. */
++	if (_rtw_memcmp(get_my_bssid(&pmlmeinfo->network) , ASIX_ID , 3)) {
++		u8 iot_flag = _FALSE;
++		rtw_hal_set_hwreg(padapter, HW_VAR_ASIX_IOT, (u8 *)(&iot_flag));
++	}
++	pmlmeinfo->state = WIFI_FW_NULL_STATE;
++
++#ifdef CONFIG_MCC_MODE
++	/* mcc disconnect setting before download LPS rsvd page */
++	rtw_hal_set_mcc_setting_disconnect(padapter);
++#endif /* CONFIG_MCC_MODE */
++
++	if (state_backup == WIFI_FW_STATION_STATE) {
++		if (rtw_port_switch_chk(padapter) == _TRUE) {
++			rtw_hal_set_hwreg(padapter, HW_VAR_PORT_SWITCH, NULL);
++#ifdef CONFIG_LPS
++			{
++				_adapter *port0_iface = dvobj_get_port0_adapter(adapter_to_dvobj(padapter));
++				if (port0_iface)
++					rtw_lps_ctrl_wk_cmd(port0_iface, LPS_CTRL_CONNECT, 0);
++			}
++#endif
++		}
++	}
++
++	/* switch to the 20M Hz mode after disconnect */
++	pmlmeext->cur_bwmode = CHANNEL_WIDTH_20;
++	pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++#ifdef CONFIG_FCS_MODE
++	if (EN_FCS(padapter))
++		rtw_hal_set_hwreg(padapter, HW_VAR_STOP_FCS_MODE, NULL);
++#endif
++
++#ifdef CONFIG_DFS_MASTER
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE))
++		rtw_dfs_master_status_apply(padapter, MLME_AP_STOPPED);
++	else if (check_fwstate(pmlmepriv, WIFI_STATION_STATE))
++		rtw_dfs_master_status_apply(padapter, MLME_STA_DISCONNECTED);
++#endif
++
++	{
++		u8 ch, bw, offset;
++
++		if (rtw_mi_get_ch_setting_union_no_self(padapter, &ch, &bw, &offset) != 0) {
++			set_channel_bwmode(padapter, ch, offset, bw);
++			rtw_mi_update_union_chan_inf(padapter, ch, offset, bw);
++		}
++	}
++
++	flush_all_cam_entry(padapter);
++
++	_cancel_timer_ex(&pmlmeext->link_timer);
++
++	/* pmlmepriv->LinkDetectInfo.TrafficBusyState = _FALSE; */
++	pmlmepriv->LinkDetectInfo.TrafficTransitionCount = 0;
++	pmlmepriv->LinkDetectInfo.LowPowerTransitionCount = 0;
++
++#ifdef CONFIG_TDLS
++	padapter->tdlsinfo.ap_prohibited = _FALSE;
++
++	/* For TDLS channel switch, currently we only allow it to work in wifi logo test mode */
++	if (padapter->registrypriv.wifi_spec == 1)
++		padapter->tdlsinfo.ch_switch_prohibited = _FALSE;
++#endif /* CONFIG_TDLS */
++
++}
++
++void mlmeext_joinbss_event_callback(_adapter *padapter, int join_res)
++{
++	struct sta_info		*psta, *psta_bmc;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	u8	join_type;
++#ifdef CONFIG_ARP_KEEP_ALIVE
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++#endif
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++
++	if (join_res < 0) {
++		join_type = 1;
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
++		rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, null_addr);
++
++		goto exit_mlmeext_joinbss_event_callback;
++	}
++#ifdef CONFIG_ARP_KEEP_ALIVE
++	pmlmepriv->bGetGateway = 1;
++#endif
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) {
++		/* update bc/mc sta_info */
++		update_bmc_sta(padapter);
++	}
++
++
++	/* turn on dynamic functions */
++	/* Switch_DM_Func(padapter, DYNAMIC_ALL_FUNC_ENABLE, _TRUE); */
++
++	/* update IOT-releated issue */
++	update_IOT_info(padapter);
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_BASIC_RATE, cur_network->SupportedRates);
++
++	/* BCN interval */
++	rtw_hal_set_hwreg(padapter, HW_VAR_BEACON_INTERVAL, (u8 *)(&pmlmeinfo->bcn_interval));
++
++	/* udpate capability */
++	update_capinfo(padapter, pmlmeinfo->capability);
++
++	/* WMM, Update EDCA param */
++	WMMOnAssocRsp(padapter);
++
++	/* HT */
++	HTOnAssocRsp(padapter);
++
++#ifdef CONFIG_80211AC_VHT
++	/* VHT */
++	VHTOnAssocRsp(padapter);
++#endif
++
++	psta = rtw_get_stainfo(pstapriv, cur_network->MacAddress);
++	if (psta) { /* only for infra. mode */
++		/* RTW_INFO("set_sta_rate\n"); */
++
++		psta->wireless_mode = pmlmeext->cur_wireless_mode;
++
++		/* set per sta rate after updating HT cap. */
++		set_sta_rate(padapter, psta);
++
++		rtw_sta_media_status_rpt(padapter, psta, 1);
++
++		/* wakeup macid after join bss successfully to ensure
++			the subsequent data frames can be sent out normally */
++		rtw_hal_macid_wakeup(padapter, psta->mac_id);
++	}
++
++#ifndef CONFIG_IOCTL_CFG80211
++	if (is_wep_enc(psecuritypriv->dot11PrivacyAlgrthm))
++		rtw_sec_restore_wep_key(padapter);
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	if (rtw_port_switch_chk(padapter) == _TRUE)
++		rtw_hal_set_hwreg(padapter, HW_VAR_PORT_SWITCH, NULL);
++
++	join_type = 2;
++	rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE) {
++		/* correcting TSF */
++		correct_TSF(padapter, pmlmeext);
++
++		/* set_link_timer(pmlmeext, DISCONNECT_TO); */
++	}
++
++#ifdef CONFIG_LPS
++	if (get_hw_port(padapter) == HW_PORT0)
++		rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_CONNECT, 0);
++#endif
++
++#ifdef CONFIG_BEAMFORMING
++	if (psta)
++		beamforming_wk_cmd(padapter, BEAMFORMING_CTRL_ENTER, (u8 *)psta, sizeof(struct sta_info), 0);
++#endif/*CONFIG_BEAMFORMING*/
++
++exit_mlmeext_joinbss_event_callback:
++
++	rtw_join_done_chk_ch(padapter, join_res);
++
++	RTW_INFO("=>%s - End to Connection without 4-way\n", __FUNCTION__);
++}
++
++/* currently only adhoc mode will go here */
++void mlmeext_sta_add_event_callback(_adapter *padapter, struct sta_info *psta)
++{
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8	join_type;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) {
++		if (pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS) { /* adhoc master or sta_count>1 */
++			/* nothing to do */
++		} else { /* adhoc client */
++			/* update TSF Value */
++			/* update_TSF(pmlmeext, pframe, len);			 */
++
++			/* correcting TSF */
++			correct_TSF(padapter, pmlmeext);
++
++			/* start beacon */
++			if (send_beacon(padapter) == _FAIL)
++				rtw_warn_on(1);
++
++			pmlmeinfo->state |= WIFI_FW_ASSOC_SUCCESS;
++		}
++
++		join_type = 2;
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
++	}
++
++	/* update adhoc sta_info */
++	update_sta_info(padapter, psta);
++
++	rtw_hal_update_sta_rate_mask(padapter, psta);
++
++	/* ToDo: HT for Ad-hoc */
++	psta->wireless_mode = rtw_check_network_type(psta->bssrateset, psta->bssratelen, pmlmeext->cur_channel);
++	psta->raid = rtw_hal_networktype_to_raid(padapter, psta);
++
++	/* rate radaptive */
++	Update_RA_Entry(padapter, psta);
++}
++
++void mlmeext_sta_del_event_callback(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (is_client_associated_to_ap(padapter) || is_IBSS_empty(padapter))
++		rtw_mlmeext_disconnect(padapter);
++
++}
++
++/****************************************************************************
++
++Following are the functions for the timer handlers
++
++*****************************************************************************/
++void _linked_info_dump(_adapter *padapter)
++{
++	int i;
++	struct mlme_ext_priv    *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info    *pmlmeinfo = &(pmlmeext->mlmext_info);
++	HAL_DATA_TYPE *HalData = GET_HAL_DATA(padapter);
++	int UndecoratedSmoothedPWDB = 0;
++
++	if (padapter->bLinkInfoDump) {
++
++		RTW_INFO("\n============["ADPT_FMT"] linked status check ===================\n", ADPT_ARG(padapter));
++
++		if ((pmlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE) {
++			rtw_hal_get_def_var(padapter, HAL_DEF_UNDERCORATEDSMOOTHEDPWDB, &UndecoratedSmoothedPWDB);
++
++			RTW_INFO("AP[" MAC_FMT "] - UndecoratedSmoothedPWDB:%d\n",
++				MAC_ARG(padapter->mlmepriv.cur_network.network.MacAddress), UndecoratedSmoothedPWDB);
++		} else if ((pmlmeinfo->state & 0x03) == _HW_STATE_AP_) {
++			_irqL irqL;
++			_list	*phead, *plist;
++
++			struct sta_info *psta = NULL;
++			struct sta_priv *pstapriv = &padapter->stapriv;
++
++			_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++			phead = &pstapriv->asoc_list;
++			plist = get_next(phead);
++			while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++				psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++				plist = get_next(plist);
++
++				RTW_INFO("STA[" MAC_FMT "]:UndecoratedSmoothedPWDB:%d\n",
++					MAC_ARG(psta->hwaddr), psta->rssi_stat.UndecoratedSmoothedPWDB);
++			}
++			_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++		}
++
++		/*============  tx info ============	*/
++		rtw_hal_get_def_var(padapter, HW_DEF_RA_INFO_DUMP, RTW_DBGDUMP);
++
++		rtw_hal_set_odm_var(padapter, HAL_ODM_RX_INFO_DUMP, RTW_DBGDUMP, _FALSE);
++
++	}
++
++
++}
++void rtw_delba_check(_adapter *padapter, struct sta_info *psta, u8 from_timer)
++{
++	int	i = 0;
++	int ret = _SUCCESS;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	/*
++		IOT issue,occur Broadcom ap(Buffalo WZR-D1800H,Netgear R6300).
++		AP is originator.AP does not transmit unicast packets when STA response its BAR.
++		This case probably occur ap issue BAR after AP builds BA.
++
++		Follow 802.11 spec, STA shall maintain an inactivity timer for every negotiated Block Ack setup.
++		The inactivity timer is not reset when MPDUs corresponding to other TIDs are received.
++	*/
++	if (pmlmeinfo->assoc_AP_vendor == HT_IOT_PEER_BROADCOM) {
++		for (i = 0; i < TID_NUM ; i++) {
++			if ((psta->recvreorder_ctrl[i].enable) && 
++                        (sta_rx_data_qos_pkts(psta, i) == sta_last_rx_data_qos_pkts(psta, i)) ) {			
++					if (_TRUE == rtw_inc_and_chk_continual_no_rx_packet(psta, i)) {					
++						/* send a DELBA frame to the peer STA with the Reason Code field set to TIMEOUT */
++						if (!from_timer)
++							ret = issue_del_ba_ex(padapter, psta->hwaddr, i, 39, 0, 3, 1);
++						else
++							issue_del_ba(padapter,  psta->hwaddr, i, 39, 0);
++						psta->recvreorder_ctrl[i].enable = _FALSE;
++						if (ret != _FAIL)
++							psta->recvreorder_ctrl[i].ampdu_size = RX_AMPDU_SIZE_INVALID;
++						rtw_reset_continual_no_rx_packet(psta, i);
++					}				
++			} else {
++				/* The inactivity timer is reset when MPDUs to the TID is received. */
++				rtw_reset_continual_no_rx_packet(psta, i);
++			}
++		}
++	}
++}
++
++u8 chk_ap_is_alive(_adapter *padapter, struct sta_info *psta)
++{
++	u8 ret = _FALSE;
++	int i = 0;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++#ifdef DBG_EXPIRATION_CHK
++	RTW_INFO(FUNC_ADPT_FMT" rx:"STA_PKTS_FMT", beacon:%llu, probersp_to_self:%llu"
++		/*", probersp_bm:%llu, probersp_uo:%llu, probereq:%llu, BI:%u"*/
++		 ", retry:%u\n"
++		 , FUNC_ADPT_ARG(padapter)
++		 , STA_RX_PKTS_DIFF_ARG(psta)
++		, psta->sta_stats.rx_beacon_pkts - psta->sta_stats.last_rx_beacon_pkts
++		, psta->sta_stats.rx_probersp_pkts - psta->sta_stats.last_rx_probersp_pkts
++		/*, psta->sta_stats.rx_probersp_bm_pkts - psta->sta_stats.last_rx_probersp_bm_pkts
++		, psta->sta_stats.rx_probersp_uo_pkts - psta->sta_stats.last_rx_probersp_uo_pkts
++		, psta->sta_stats.rx_probereq_pkts - psta->sta_stats.last_rx_probereq_pkts
++		 , pmlmeinfo->bcn_interval*/
++		 , pmlmeext->retry
++		);
++
++	RTW_INFO(FUNC_ADPT_FMT" tx_pkts:%llu, link_count:%u\n", FUNC_ADPT_ARG(padapter)
++		 , padapter->xmitpriv.tx_pkts
++		 , pmlmeinfo->link_count
++		);
++#endif
++
++	if ((sta_rx_data_pkts(psta) == sta_last_rx_data_pkts(psta))
++	    && sta_rx_beacon_pkts(psta) == sta_last_rx_beacon_pkts(psta)
++	    && sta_rx_probersp_pkts(psta) == sta_last_rx_probersp_pkts(psta)
++	   )
++		ret = _FALSE;
++	else
++		ret = _TRUE;
++
++	sta_update_last_rx_pkts(psta);
++
++	/*
++		record last rx data packets for every tid.
++	*/
++	for (i = 0; i < TID_NUM; i++)
++		psta->sta_stats.last_rx_data_qos_pkts[i] = psta->sta_stats.rx_data_qos_pkts[i];
++
++	return ret;
++}
++
++u8 chk_adhoc_peer_is_alive(struct sta_info *psta)
++{
++	u8 ret = _TRUE;
++
++#ifdef DBG_EXPIRATION_CHK
++	RTW_INFO("sta:"MAC_FMT", rssi:%d, rx:"STA_PKTS_FMT", beacon:%llu, probersp_to_self:%llu"
++		/*", probersp_bm:%llu, probersp_uo:%llu, probereq:%llu, BI:%u"*/
++		 ", expire_to:%u\n"
++		 , MAC_ARG(psta->hwaddr)
++		 , psta->rssi_stat.UndecoratedSmoothedPWDB
++		 , STA_RX_PKTS_DIFF_ARG(psta)
++		, psta->sta_stats.rx_beacon_pkts - psta->sta_stats.last_rx_beacon_pkts
++		, psta->sta_stats.rx_probersp_pkts - psta->sta_stats.last_rx_probersp_pkts
++		/*, psta->sta_stats.rx_probersp_bm_pkts - psta->sta_stats.last_rx_probersp_bm_pkts
++		, psta->sta_stats.rx_probersp_uo_pkts - psta->sta_stats.last_rx_probersp_uo_pkts
++		, psta->sta_stats.rx_probereq_pkts - psta->sta_stats.last_rx_probereq_pkts
++		 , pmlmeinfo->bcn_interval*/
++		 , psta->expire_to
++		);
++#endif
++
++	if (sta_rx_data_pkts(psta) == sta_last_rx_data_pkts(psta)
++	    && sta_rx_beacon_pkts(psta) == sta_last_rx_beacon_pkts(psta)
++	    && sta_rx_probersp_pkts(psta) == sta_last_rx_probersp_pkts(psta))
++		ret = _FALSE;
++
++	sta_update_last_rx_pkts(psta);
++
++	return ret;
++}
++
++#ifdef CONFIG_TDLS
++u8 chk_tdls_peer_sta_is_alive(_adapter *padapter, struct sta_info *psta)
++{
++	if ((psta->sta_stats.rx_data_pkts == psta->sta_stats.last_rx_data_pkts)
++	    && (psta->sta_stats.rx_tdls_disc_rsp_pkts == psta->sta_stats.last_rx_tdls_disc_rsp_pkts))
++		return _FALSE;
++
++	return _TRUE;
++}
++
++void linked_status_chk_tdls(_adapter *padapter)
++{
++	struct candidate_pool {
++		struct sta_info *psta;
++		u8 addr[ETH_ALEN];
++	};
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	_irqL irqL;
++	u8 ack_chk;
++	struct sta_info *psta;
++	int i, num_teardown = 0, num_checkalive = 0;
++	_list	*plist, *phead;
++	struct tdls_txmgmt txmgmt;
++	struct candidate_pool checkalive[MAX_ALLOWED_TDLS_STA_NUM];
++	struct candidate_pool teardown[MAX_ALLOWED_TDLS_STA_NUM];
++	u8 tdls_sta_max = _FALSE;
++
++#define ALIVE_MIN 2
++#define ALIVE_MAX 5
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	_rtw_memset(checkalive, 0x00, sizeof(checkalive));
++	_rtw_memset(teardown, 0x00, sizeof(teardown));
++
++	if ((padapter->tdlsinfo.link_established == _TRUE)) {
++		_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++		for (i = 0; i < NUM_STA; i++) {
++			phead = &(pstapriv->sta_hash[i]);
++			plist = get_next(phead);
++
++			while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++				psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++				plist = get_next(plist);
++
++				if (psta->tdls_sta_state & TDLS_LINKED_STATE) {
++					psta->alive_count++;
++					if (psta->alive_count >= ALIVE_MIN) {
++						if (chk_tdls_peer_sta_is_alive(padapter, psta) == _FALSE) {
++							if (psta->alive_count < ALIVE_MAX) {
++								_rtw_memcpy(checkalive[num_checkalive].addr, psta->hwaddr, ETH_ALEN);
++								checkalive[num_checkalive].psta = psta;
++								num_checkalive++;
++							} else {
++								_rtw_memcpy(teardown[num_teardown].addr, psta->hwaddr, ETH_ALEN);
++								teardown[num_teardown].psta = psta;
++								num_teardown++;
++							}
++						} else
++							psta->alive_count = 0;
++					}
++					psta->sta_stats.last_rx_data_pkts = psta->sta_stats.rx_data_pkts;
++					psta->sta_stats.last_rx_tdls_disc_rsp_pkts = psta->sta_stats.rx_tdls_disc_rsp_pkts;
++
++					if ((num_checkalive >= MAX_ALLOWED_TDLS_STA_NUM) || (num_teardown >= MAX_ALLOWED_TDLS_STA_NUM)) {
++						tdls_sta_max = _TRUE;
++						break;
++					}
++				}
++			}
++
++			if (tdls_sta_max == _TRUE)
++				break;
++		}
++		_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++		if (num_checkalive > 0) {
++			for (i = 0; i < num_checkalive; i++) {
++				_rtw_memcpy(txmgmt.peer, checkalive[i].addr, ETH_ALEN);
++				issue_tdls_dis_req(padapter, &txmgmt);
++				issue_tdls_dis_req(padapter, &txmgmt);
++				issue_tdls_dis_req(padapter, &txmgmt);
++			}
++		}
++
++		if (num_teardown > 0) {
++			for (i = 0; i < num_teardown; i++) {
++				RTW_INFO("[%s %d] Send teardown to "MAC_FMT"\n", __FUNCTION__, __LINE__, MAC_ARG(teardown[i].addr));
++				txmgmt.status_code = _RSON_TDLS_TEAR_TOOFAR_;
++				_rtw_memcpy(txmgmt.peer, teardown[i].addr, ETH_ALEN);
++				issue_tdls_teardown(padapter, &txmgmt, _FALSE);
++			}
++		}
++	}
++
++}
++#endif /* CONFIG_TDLS */
++
++/* from_timer == 1 means driver is in LPS */
++void linked_status_chk(_adapter *padapter, u8 from_timer)
++{
++	u32	i;
++	struct sta_info		*psta;
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++#if defined(CONFIG_ARP_KEEP_ALIVE) || defined(CONFIG_LAYER2_ROAMING)
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++#endif
++#ifdef CONFIG_LAYER2_ROAMING
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++#endif
++
++
++	if (is_client_associated_to_ap(padapter)) {
++		/* linked infrastructure client mode */
++
++		int tx_chk = _SUCCESS, rx_chk = _SUCCESS;
++		int rx_chk_limit;
++		int link_count_limit;
++
++#ifdef CONFIG_LAYER2_ROAMING
++		if (rtw_chk_roam_flags(padapter, RTW_ROAM_ACTIVE)) {
++			RTW_INFO("signal_strength_data.avg_val = %d\n", precvpriv->signal_strength_data.avg_val);
++			if (precvpriv->signal_strength_data.avg_val < pmlmepriv->roam_rssi_threshold) {
++				pmlmepriv->need_to_roam = _TRUE;
++				rtw_drv_scan_by_self(padapter, RTW_AUTO_SCAN_REASON_ROAM);
++			} else {
++				pmlmepriv->need_to_roam = _FALSE;
++			}
++		}
++#endif
++#ifdef CONFIG_MCC_MODE
++		/*
++		 * due to tx ps null date to ao, so ap doest not tx pkt to driver
++		 * we may check chk_ap_is_alive fail, and may issue_probereq to wrong channel under sitesurvey
++		 * don't keep alive check under MCC
++		 */
++		if (rtw_hal_mcc_link_status_chk(padapter, __func__) == _FALSE)
++			return;
++#endif
++
++#if defined(DBG_ROAMING_TEST)
++		rx_chk_limit = 1;
++#elif defined(CONFIG_ACTIVE_KEEP_ALIVE_CHECK) && !defined(CONFIG_LPS_LCLK_WD_TIMER)
++		rx_chk_limit = 4;
++#else
++		rx_chk_limit = 8;
++#endif
++#ifdef CONFIG_ARP_KEEP_ALIVE
++		if (!from_timer && pmlmepriv->bGetGateway == 1) {
++			RTW_INFO("do rtw_gw_addr_query()");
++			if (rtw_gw_addr_query(padapter) == 0)
++				pmlmepriv->bGetGateway = 0;
++			else {
++				_rtw_memset(pmlmepriv->gw_ip, 0, 4);
++				_rtw_memset(pmlmepriv->gw_mac_addr, 0, 6);
++			}
++		}
++#endif
++#ifdef CONFIG_P2P
++		if (!rtw_p2p_chk_state(&padapter->wdinfo, P2P_STATE_NONE)) {
++			if (!from_timer)
++				link_count_limit = 3; /* 8 sec */
++			else
++				link_count_limit = 15; /* 32 sec */
++		} else
++#endif /* CONFIG_P2P */
++		{
++			if (!from_timer)
++				link_count_limit = 7; /* 16 sec */
++			else
++				link_count_limit = 29; /* 60 sec */
++		}
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++		if (ATOMIC_READ(&padapter->tdlsinfo.chsw_info.chsw_on) == _TRUE)
++			return;
++#endif /* CONFIG_TDLS_CH_SW */
++
++#ifdef CONFIG_TDLS_AUTOCHECKALIVE
++		linked_status_chk_tdls(padapter);
++#endif /* CONFIG_TDLS_AUTOCHECKALIVE */
++#endif /* CONFIG_TDLS */
++
++		psta = rtw_get_stainfo(pstapriv, pmlmeinfo->network.MacAddress);
++		if (psta != NULL) {
++			bool is_p2p_enable = _FALSE;
++#ifdef CONFIG_P2P
++			is_p2p_enable = !rtw_p2p_chk_state(&padapter->wdinfo, P2P_STATE_NONE);
++#endif
++
++#ifdef CONFIG_DELBA_CHECK 
++			/*issue delba when ap does not tx data packet that is Broadcom ap */
++			rtw_delba_check(padapter, psta, from_timer);
++#endif
++			if (chk_ap_is_alive(padapter, psta) == _FALSE)
++				rx_chk = _FAIL;
++
++			if (pxmitpriv->last_tx_pkts == pxmitpriv->tx_pkts)
++				tx_chk = _FAIL;
++
++#if defined(CONFIG_ACTIVE_KEEP_ALIVE_CHECK) && !defined(CONFIG_LPS_LCLK_WD_TIMER)
++			if (pmlmeext->active_keep_alive_check && (rx_chk == _FAIL || tx_chk == _FAIL)
++				#ifdef CONFIG_MCC_MODE
++				/* Driver don't know operation channel under MCC*/
++				/* So driver don't  do KEEP_ALIVE_CHECK */
++				&& (!rtw_hal_check_mcc_status(padapter, MCC_STATUS_NEED_MCC))
++				#endif
++			) {
++				u8 backup_ch = 0, backup_bw, backup_offset;
++				u8 union_ch = 0, union_bw, union_offset;
++
++				if (!rtw_mi_get_ch_setting_union(padapter, &union_ch, &union_bw, &union_offset)
++					|| pmlmeext->cur_channel != union_ch)
++						goto bypass_active_keep_alive;
++
++				/* switch to correct channel of current network  before issue keep-alive frames */
++				if (rtw_get_oper_ch(padapter) != pmlmeext->cur_channel) {
++					backup_ch = rtw_get_oper_ch(padapter);
++					backup_bw = rtw_get_oper_bw(padapter);
++					backup_offset = rtw_get_oper_choffset(padapter);
++					set_channel_bwmode(padapter, union_ch, union_offset, union_bw);
++				}
++
++				if (rx_chk != _SUCCESS)
++					issue_probereq_ex(padapter, &pmlmeinfo->network.Ssid, psta->hwaddr, 0, 0, 3, 1);
++
++				if ((tx_chk != _SUCCESS && pmlmeinfo->link_count++ == link_count_limit) || rx_chk != _SUCCESS) {
++					tx_chk = issue_nulldata(padapter, psta->hwaddr, 0, 3, 1);
++					/* if tx acked and p2p disabled, set rx_chk _SUCCESS to reset retry count */
++					if (tx_chk == _SUCCESS && !is_p2p_enable)
++						rx_chk = _SUCCESS;
++				}
++
++				/* back to the original operation channel */
++				if (backup_ch > 0)
++					set_channel_bwmode(padapter, backup_ch, backup_offset, backup_bw);
++
++bypass_active_keep_alive:
++				;
++			} else
++#endif /* CONFIG_ACTIVE_KEEP_ALIVE_CHECK */
++			{
++				if (rx_chk != _SUCCESS) {
++					if (pmlmeext->retry == 0) {
++#ifdef DBG_EXPIRATION_CHK
++						RTW_INFO("issue_probereq to trigger probersp, retry=%d\n", pmlmeext->retry);
++#endif
++						issue_probereq_ex(padapter, &pmlmeinfo->network.Ssid, pmlmeinfo->network.MacAddress, 0, 0, 0, 0);
++						issue_probereq_ex(padapter, &pmlmeinfo->network.Ssid, pmlmeinfo->network.MacAddress, 0, 0, 0, 0);
++						issue_probereq_ex(padapter, &pmlmeinfo->network.Ssid, pmlmeinfo->network.MacAddress, 0, 0, 0, 0);
++					}
++				}
++
++				if (tx_chk != _SUCCESS && pmlmeinfo->link_count++ == link_count_limit
++#ifdef CONFIG_MCC_MODE
++				    /* FW tx nulldata under MCC mode, we just check  ap is alive */
++				    && (!rtw_hal_check_mcc_status(padapter, MCC_STATUS_NEED_MCC))
++#endif /* CONFIG_MCC_MODE */
++				   ) {
++#ifdef DBG_EXPIRATION_CHK
++					RTW_INFO("%s issue_nulldata(%d)\n", __FUNCTION__, from_timer ? 1 : 0);
++#endif
++					tx_chk = issue_nulldata_in_interrupt(padapter, NULL, from_timer ? 1 : 0);
++				}
++			}
++
++			if (rx_chk == _FAIL) {
++				pmlmeext->retry++;
++				if (pmlmeext->retry > rx_chk_limit) {
++					RTW_PRINT(FUNC_ADPT_FMT" disconnect or roaming\n",
++						  FUNC_ADPT_ARG(padapter));
++					receive_disconnect(padapter, pmlmeinfo->network.MacAddress
++						, WLAN_REASON_EXPIRATION_CHK, _FALSE);
++					return;
++				}
++			} else
++				pmlmeext->retry = 0;
++
++			if (tx_chk == _FAIL)
++				pmlmeinfo->link_count %= (link_count_limit + 1);
++			else {
++				pxmitpriv->last_tx_pkts = pxmitpriv->tx_pkts;
++				pmlmeinfo->link_count = 0;
++			}
++
++		} /* end of if ((psta = rtw_get_stainfo(pstapriv, passoc_res->network.MacAddress)) != NULL) */
++
++	} else if (is_client_associated_to_ibss(padapter)) {
++		_irqL irqL;
++		_list *phead, *plist, dlist;
++
++		_rtw_init_listhead(&dlist);
++
++		_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++		for (i = 0; i < NUM_STA; i++) {
++
++			phead = &(pstapriv->sta_hash[i]);
++			plist = get_next(phead);
++			while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++				psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++				plist = get_next(plist);
++
++				if (is_broadcast_mac_addr(psta->hwaddr))
++					continue;
++
++				if (chk_adhoc_peer_is_alive(psta) || !psta->expire_to)
++					psta->expire_to = pstapriv->adhoc_expire_to;
++				else
++					psta->expire_to--;
++
++				if (psta->expire_to <= 0) {
++					rtw_list_delete(&psta->list);
++					rtw_list_insert_tail(&psta->list, &dlist);
++				}
++			}
++		}
++
++		_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++		plist = get_next(&dlist);
++		while (rtw_end_of_queue_search(&dlist, plist) == _FALSE) {
++			psta = LIST_CONTAINOR(plist, struct sta_info, list);
++			plist = get_next(plist);
++			rtw_list_delete(&psta->list);
++			RTW_INFO(FUNC_ADPT_FMT" ibss expire "MAC_FMT"\n"
++				, FUNC_ADPT_ARG(padapter), MAC_ARG(psta->hwaddr));
++			report_del_sta_event(padapter, psta->hwaddr, WLAN_REASON_EXPIRATION_CHK, from_timer ? _TRUE : _FALSE, _FALSE);
++		}
++	}
++
++}
++
++void survey_timer_hdl(_adapter *padapter)
++{
++	struct cmd_obj *cmd;
++	struct sitesurvey_parm *psurveyPara;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif
++
++	if (mlmeext_scan_state(pmlmeext) > SCAN_DISABLE) {
++		cmd = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (cmd == NULL) {
++			rtw_warn_on(1);
++			goto exit;
++		}
++
++		psurveyPara = (struct sitesurvey_parm *)rtw_zmalloc(sizeof(struct sitesurvey_parm));
++		if (psurveyPara == NULL) {
++			rtw_warn_on(1);
++			rtw_mfree((unsigned char *)cmd, sizeof(struct cmd_obj));
++			goto exit;
++		}
++
++		init_h2fwcmd_w_parm_no_rsp(cmd, psurveyPara, GEN_CMD_CODE(_SiteSurvey));
++		rtw_enqueue_cmd(pcmdpriv, cmd);
++	}
++
++exit:
++	return;
++}
++
++void link_timer_hdl(_adapter *padapter)
++{
++	/* static unsigned int		rx_pkt = 0; */
++	/* static u64				tx_cnt = 0; */
++	/* struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv); */
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	/* struct sta_priv		*pstapriv = &padapter->stapriv; */
++#ifdef CONFIG_RTW_80211R
++	struct	sta_priv		*pstapriv = &padapter->stapriv;
++	struct	sta_info		*psta = NULL;
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++#endif
++
++	if (pmlmeinfo->state & WIFI_FW_AUTH_NULL) {
++		RTW_INFO("link_timer_hdl:no beacon while connecting\n");
++		pmlmeinfo->state = WIFI_FW_NULL_STATE;
++		report_join_res(padapter, -3);
++	} else if (pmlmeinfo->state & WIFI_FW_AUTH_STATE) {
++		/* re-auth timer */
++		if (++pmlmeinfo->reauth_count > REAUTH_LIMIT) {
++			/* if (pmlmeinfo->auth_algo != dot11AuthAlgrthm_Auto) */
++			/* { */
++			pmlmeinfo->state = 0;
++			report_join_res(padapter, -1);
++			return;
++			/* } */
++			/* else */
++			/* { */
++			/*	pmlmeinfo->auth_algo = dot11AuthAlgrthm_Shared; */
++			/*	pmlmeinfo->reauth_count = 0; */
++			/* } */
++		}
++
++		RTW_INFO("link_timer_hdl: auth timeout and try again\n");
++		pmlmeinfo->auth_seq = 1;
++		issue_auth(padapter, NULL, 0);
++		set_link_timer(pmlmeext, REAUTH_TO);
++	} else if (pmlmeinfo->state & WIFI_FW_ASSOC_STATE) {
++		/* re-assoc timer */
++		if (++pmlmeinfo->reassoc_count > REASSOC_LIMIT) {
++			pmlmeinfo->state = WIFI_FW_NULL_STATE;
++#ifdef CONFIG_RTW_80211R
++			if ((rtw_to_roam(padapter) > 0) && rtw_chk_ft_flags(padapter, RTW_FT_SUPPORTED)) {
++				psta = rtw_get_stainfo(pstapriv, pmlmeinfo->network.MacAddress);
++				if (psta)
++					rtw_free_stainfo(padapter,  psta);
++			}
++#endif
++			report_join_res(padapter, -2);
++			return;
++		}
++
++#ifdef CONFIG_RTW_80211R
++		if ((rtw_to_roam(padapter) > 0) && rtw_chk_ft_flags(padapter, RTW_FT_SUPPORTED)) {
++			RTW_INFO("link_timer_hdl: reassoc timeout and try again\n");
++			issue_reassocreq(padapter);
++		} else
++#endif
++		{
++			RTW_INFO("link_timer_hdl: assoc timeout and try again\n");
++			issue_assocreq(padapter);
++		}
++
++		set_link_timer(pmlmeext, REASSOC_TO);
++	}
++
++	return;
++}
++
++void addba_timer_hdl(struct sta_info *psta)
++{
++#ifdef CONFIG_80211N_HT
++	struct ht_priv	*phtpriv;
++
++	if (!psta)
++		return;
++
++	phtpriv = &psta->htpriv;
++
++	if ((phtpriv->ht_option == _TRUE) && (phtpriv->ampdu_enable == _TRUE)) {
++		if (phtpriv->candidate_tid_bitmap)
++			phtpriv->candidate_tid_bitmap = 0x0;
++
++	}
++#endif /* CONFIG_80211N_HT */
++}
++
++#ifdef CONFIG_IEEE80211W
++void report_sta_timeout_event(_adapter *padapter, u8 *MacAddr, unsigned short reason)
++{
++	struct cmd_obj *pcmd_obj;
++	u8	*pevtcmd;
++	u32 cmdsz;
++	struct sta_info *psta;
++	int	mac_id;
++	struct stadel_event			*pdel_sta_evt;
++	struct C2HEvent_Header	*pc2h_evt_hdr;
++	struct mlme_ext_priv		*pmlmeext = &padapter->mlmeextpriv;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++
++	pcmd_obj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (pcmd_obj == NULL)
++		return;
++
++	cmdsz = (sizeof(struct stadel_event) + sizeof(struct C2HEvent_Header));
++	pevtcmd = (u8 *)rtw_zmalloc(cmdsz);
++	if (pevtcmd == NULL) {
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		return;
++	}
++
++	_rtw_init_listhead(&pcmd_obj->list);
++
++	pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++	pcmd_obj->cmdsz = cmdsz;
++	pcmd_obj->parmbuf = pevtcmd;
++
++	pcmd_obj->rsp = NULL;
++	pcmd_obj->rspsz  = 0;
++
++	pc2h_evt_hdr = (struct C2HEvent_Header *)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct stadel_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_TimeoutSTA);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	pdel_sta_evt = (struct stadel_event *)(pevtcmd + sizeof(struct C2HEvent_Header));
++	_rtw_memcpy((unsigned char *)(&(pdel_sta_evt->macaddr)), MacAddr, ETH_ALEN);
++	_rtw_memcpy((unsigned char *)(pdel_sta_evt->rsvd), (unsigned char *)(&reason), 2);
++
++
++	psta = rtw_get_stainfo(&padapter->stapriv, MacAddr);
++	if (psta)
++		mac_id = (int)psta->mac_id;
++	else
++		mac_id = (-1);
++
++	pdel_sta_evt->mac_id = mac_id;
++
++	RTW_INFO("report_del_sta_event: delete STA, mac_id=%d\n", mac_id);
++
++	rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++
++	return;
++}
++
++void clnt_sa_query_timeout(_adapter *padapter)
++{
++
++	rtw_disassoc_cmd(padapter, 0, _TRUE);
++	rtw_indicate_disconnect(padapter, 0, _FALSE);
++	rtw_free_assoc_resources(padapter, 1);
++
++	RTW_INFO("SA query timeout client disconnect\n");
++}
++
++void sa_query_timer_hdl(struct sta_info *psta)
++{
++	_adapter *padapter = psta->padapter;
++	_irqL irqL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE &&
++	    check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		clnt_sa_query_timeout(padapter);
++	else if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		report_sta_timeout_event(padapter, psta->hwaddr, WLAN_REASON_PREV_AUTH_NOT_VALID);
++}
++
++#endif /* CONFIG_IEEE80211W */
++
++#ifdef CONFIG_RTW_80211R
++void start_clnt_ft_action(_adapter *padapter, u8 *pTargetAddr)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	rtw_set_ft_status(padapter, RTW_FT_REQUESTING_STA);
++	issue_action_ft_request(padapter, pTargetAddr);
++	_set_timer(&pmlmeext->ft_link_timer, REASSOC_TO);
++}
++
++void ft_link_timer_hdl(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	ft_priv		*pftpriv = &pmlmepriv->ftpriv;
++
++	if (rtw_chk_ft_status(padapter, RTW_FT_REQUESTING_STA)) {
++		if (pftpriv->ft_req_retry_cnt < FT_ACTION_REQ_LIMIT) {
++			pftpriv->ft_req_retry_cnt++;
++			issue_action_ft_request(padapter, (u8 *)pmlmepriv->roam_network->network.MacAddress);
++			_set_timer(&pmlmeext->ft_link_timer, REASSOC_TO);
++		} else {
++			pftpriv->ft_req_retry_cnt = 0;
++
++			if (pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)
++				rtw_set_ft_status(padapter, RTW_FT_ASSOCIATED_STA);
++			else
++				rtw_reset_ft_status(padapter);
++		}
++	}
++}
++
++void ft_roam_timer_hdl(_adapter *padapter)
++{
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++
++	receive_disconnect(padapter, pmlmepriv->cur_network.network.MacAddress
++							, WLAN_REASON_ACTIVE_ROAM, _FALSE);
++}
++
++void issue_action_ft_request(_adapter *padapter, u8 *pTargetAddr)
++{
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct xmit_priv *pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct xmit_frame *pmgntframe = NULL;
++	struct rtw_ieee80211_hdr *pwlanhdr = NULL;
++	struct pkt_attrib *pattrib = NULL;
++	ft_priv *pftpriv = NULL;
++	u8 *pframe = NULL;
++	u8 category = RTW_WLAN_CATEGORY_FT;
++	u8 action = RTW_WLAN_ACTION_FT_REQUEST;
++	u8 is_ft_roaming_with_rsn_ie = _TRUE;
++	u8 *pie = NULL;
++	u16 *fctrl = NULL;
++	u32 ft_ie_len = 0;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&pmlmeinfo->network), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&pmlmeinfo->network), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++
++	_rtw_memcpy(pframe, adapter_mac_addr(padapter), ETH_ALEN);
++	pframe += ETH_ALEN;
++	pattrib->pktlen += ETH_ALEN;
++
++	_rtw_memcpy(pframe, pTargetAddr, ETH_ALEN);
++	pframe += ETH_ALEN;
++	pattrib->pktlen += ETH_ALEN;
++
++	pftpriv = &pmlmepriv->ftpriv;
++	pie = rtw_get_ie(pftpriv->updated_ft_ies, EID_WPA2, &ft_ie_len, pftpriv->updated_ft_ies_len);
++	if (pie)
++		pframe = rtw_set_ie(pframe, EID_WPA2, ft_ie_len, pie+2, &(pattrib->pktlen));
++	else
++		is_ft_roaming_with_rsn_ie = _FALSE;
++
++	pie = rtw_get_ie(pftpriv->updated_ft_ies, _MDIE_, &ft_ie_len, pftpriv->updated_ft_ies_len);
++	if (pie)
++		pframe = rtw_set_ie(pframe, _MDIE_, ft_ie_len , pie+2, &(pattrib->pktlen));
++
++	pie = rtw_get_ie(pftpriv->updated_ft_ies, _FTIE_, &ft_ie_len, pftpriv->updated_ft_ies_len);
++	if (pie && is_ft_roaming_with_rsn_ie)
++		pframe = rtw_set_ie(pframe, _FTIE_, ft_ie_len , pie+2, &(pattrib->pktlen));
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++	dump_mgntframe(padapter, pmgntframe);
++}
++
++void report_ft_event(_adapter *padapter)
++{
++	struct mlme_priv		*pmlmepriv = &(padapter->mlmepriv);
++	ft_priv	*pftpriv = &pmlmepriv->ftpriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++	struct cfg80211_ft_event_params ft_evt_parms;
++	_irqL irqL;
++
++	_rtw_memset(&ft_evt_parms, 0, sizeof(ft_evt_parms));
++	rtw_update_ft_stainfo(padapter, pnetwork);
++
++	if (!pnetwork)
++		goto err_2;
++
++	ft_evt_parms.ies_len = pftpriv->ft_event.ies_len;
++	ft_evt_parms.ies =  rtw_zmalloc(ft_evt_parms.ies_len);
++	if (ft_evt_parms.ies)
++		_rtw_memcpy((void *)ft_evt_parms.ies, pftpriv->ft_event.ies, ft_evt_parms.ies_len);
++	 else
++		goto err_2;
++
++	ft_evt_parms.target_ap = rtw_zmalloc(ETH_ALEN);
++	if (ft_evt_parms.target_ap)
++		_rtw_memcpy((void *)ft_evt_parms.target_ap, pnetwork->MacAddress, ETH_ALEN);
++	else
++		goto err_1;
++
++	ft_evt_parms.ric_ies = pftpriv->ft_event.ric_ies;
++	ft_evt_parms.ric_ies_len = pftpriv->ft_event.ric_ies_len;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	rtw_set_ft_status(padapter, RTW_FT_AUTHENTICATED_STA);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++	rtw_cfg80211_ft_event(padapter, &ft_evt_parms);
++	RTW_INFO("FT: report_ft_event\n");
++	rtw_mfree((u8 *)pftpriv->ft_event.target_ap, ETH_ALEN);
++err_1:
++	rtw_mfree((u8 *)ft_evt_parms.ies, ft_evt_parms.ies_len);
++err_2:
++	return;
++}
++
++void report_ft_reassoc_event(_adapter *padapter, u8 *pMacAddr)
++{
++	struct mlme_ext_priv		*pmlmeext = &padapter->mlmeextpriv;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	struct cmd_obj			*pcmd_obj = NULL;
++	struct stassoc_event		*passoc_sta_evt = NULL;
++	struct C2HEvent_Header	*pc2h_evt_hdr = NULL;
++	u8	*pevtcmd = NULL;
++	u32	cmdsz = 0;
++
++	pcmd_obj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (pcmd_obj == NULL)
++		return;
++
++	cmdsz = (sizeof(struct stassoc_event) + sizeof(struct C2HEvent_Header));
++	pevtcmd = (u8 *)rtw_zmalloc(cmdsz);
++	if (pevtcmd == NULL) {
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		return;
++	}
++
++	_rtw_init_listhead(&pcmd_obj->list);
++	pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++	pcmd_obj->cmdsz = cmdsz;
++	pcmd_obj->parmbuf = pevtcmd;
++	pcmd_obj->rsp = NULL;
++	pcmd_obj->rspsz  = 0;
++
++	pc2h_evt_hdr = (struct C2HEvent_Header *)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct stassoc_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_FT_REASSOC);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	passoc_sta_evt = (struct stassoc_event *)(pevtcmd + sizeof(struct C2HEvent_Header));
++	_rtw_memcpy((unsigned char *)(&(passoc_sta_evt->macaddr)), pMacAddr, ETH_ALEN);
++	rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++}
++#endif
++
++u8 NULL_hdl(_adapter *padapter, u8 *pbuf)
++{
++	return H2C_SUCCESS;
++}
++
++#ifdef CONFIG_AUTO_AP_MODE
++void rtw_start_auto_ap(_adapter *adapter)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	rtw_set_802_11_infrastructure_mode(adapter, Ndis802_11APMode);
++
++	rtw_setopmode_cmd(adapter, Ndis802_11APMode, _TRUE);
++}
++
++static int rtw_auto_ap_start_beacon(_adapter *adapter)
++{
++	int ret = 0;
++	u8 *pbuf = NULL;
++	uint len;
++	u8	supportRate[16];
++	int	sz = 0, rateLen;
++	u8	*ie;
++	u8	wireless_mode, oper_channel;
++	u8 ssid[3] = {0}; /* hidden ssid */
++	u32 ssid_len = sizeof(ssid);
++	struct mlme_priv *pmlmepriv = &(adapter->mlmepriv);
++
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++
++	len = 128;
++	pbuf = rtw_zmalloc(len);
++	if (!pbuf)
++		return -ENOMEM;
++
++
++	/* generate beacon */
++	ie = pbuf;
++
++	/* timestamp will be inserted by hardware */
++	sz += 8;
++	ie += sz;
++
++	/* beacon interval : 2bytes */
++	*(u16 *)ie = cpu_to_le16((u16)100); /* BCN_INTERVAL=100; */
++	sz += 2;
++	ie += 2;
++
++	/* capability info */
++	*(u16 *)ie = 0;
++	*(u16 *)ie |= cpu_to_le16(cap_ESS);
++	*(u16 *)ie |= cpu_to_le16(cap_ShortPremble);
++	/* *(u16*)ie |= cpu_to_le16(cap_Privacy); */
++	sz += 2;
++	ie += 2;
++
++	/* SSID */
++	ie = rtw_set_ie(ie, _SSID_IE_, ssid_len, ssid, &sz);
++
++	/* supported rates */
++	wireless_mode = WIRELESS_11BG_24N;
++	rtw_set_supported_rate(supportRate, wireless_mode) ;
++	rateLen = rtw_get_rateset_len(supportRate);
++	if (rateLen > 8)
++		ie = rtw_set_ie(ie, _SUPPORTEDRATES_IE_, 8, supportRate, &sz);
++	else
++		ie = rtw_set_ie(ie, _SUPPORTEDRATES_IE_, rateLen, supportRate, &sz);
++
++
++	/* DS parameter set */
++	if (rtw_mi_check_status(adapter, MI_LINKED))
++		oper_channel = rtw_mi_get_union_chan(adapter);
++	else
++		oper_channel = adapter_to_dvobj(adapter)->oper_channel;
++
++	ie = rtw_set_ie(ie, _DSSET_IE_, 1, &oper_channel, &sz);
++
++	/* ext supported rates */
++	if (rateLen > 8)
++		ie = rtw_set_ie(ie, _EXT_SUPPORTEDRATES_IE_, (rateLen - 8), (supportRate + 8), &sz);
++
++	RTW_INFO("%s, start auto ap beacon sz=%d\n", __FUNCTION__, sz);
++
++	/* lunch ap mode & start to issue beacon */
++	if (rtw_check_beacon_data(adapter, pbuf,  sz) == _SUCCESS) {
++
++	} else
++		ret = -EINVAL;
++
++
++	rtw_mfree(pbuf, len);
++
++	return ret;
++
++}
++#endif/* CONFIG_AUTO_AP_MODE */
++
++u8 setopmode_hdl(_adapter *padapter, u8 *pbuf)
++{
++	u8	type;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct setopmode_parm *psetop = (struct setopmode_parm *)pbuf;
++
++	if (psetop->mode == Ndis802_11APMode) {
++		pmlmeinfo->state = WIFI_FW_AP_STATE;
++		type = _HW_STATE_AP_;
++#ifdef CONFIG_NATIVEAP_MLME
++		/* start_ap_mode(padapter); */
++#endif
++	} else if (psetop->mode == Ndis802_11Infrastructure) {
++		pmlmeinfo->state &= ~(BIT(0) | BIT(1)); /* clear state */
++		pmlmeinfo->state |= WIFI_FW_STATION_STATE;/* set to 	STATION_STATE */
++		type = _HW_STATE_STATION_;
++	} else if (psetop->mode == Ndis802_11IBSS)
++		type = _HW_STATE_ADHOC_;
++	else if (psetop->mode == Ndis802_11Monitor)
++		type = _HW_STATE_MONITOR_;
++	else
++		type = _HW_STATE_NOLINK_;
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_SET_OPMODE, (u8 *)(&type));
++
++#ifdef CONFIG_AUTO_AP_MODE
++	if (psetop->mode == Ndis802_11APMode)
++		rtw_auto_ap_start_beacon(padapter);
++#endif
++
++	if (rtw_port_switch_chk(padapter) == _TRUE) {
++		rtw_hal_set_hwreg(padapter, HW_VAR_PORT_SWITCH, NULL);
++
++		if (psetop->mode == Ndis802_11APMode)
++			adapter_to_pwrctl(padapter)->fw_psmode_iface_id = 0xff; /* ap mode won't dowload rsvd pages */
++		else if (psetop->mode == Ndis802_11Infrastructure) {
++#ifdef CONFIG_LPS
++			_adapter *port0_iface = dvobj_get_port0_adapter(adapter_to_dvobj(padapter));
++			if (port0_iface)
++				rtw_lps_ctrl_wk_cmd(port0_iface, LPS_CTRL_CONNECT, 0);
++#endif
++		}
++	}
++
++#ifdef CONFIG_BT_COEXIST
++	if (psetop->mode == Ndis802_11APMode ||
++		psetop->mode == Ndis802_11Monitor) {
++		/* Do this after port switch to */
++		/* prevent from downloading rsvd page to wrong port */
++		rtw_btcoex_MediaStatusNotify(padapter, 1); /* connect */
++	}
++#endif /* CONFIG_BT_COEXIST */
++
++	return H2C_SUCCESS;
++
++}
++
++u8 createbss_hdl(_adapter *padapter, u8 *pbuf)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX	*pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++	WLAN_BSSID_EX	*pdev_network = &padapter->registrypriv.dev_network;
++	struct createbss_parm *parm = (struct createbss_parm *)pbuf;
++	u8 ret = H2C_SUCCESS;
++	/* u8	initialgain; */
++
++#ifdef CONFIG_AP_MODE
++	if (pmlmeinfo->state == WIFI_FW_AP_STATE) {
++		start_bss_network(padapter, parm);
++		goto exit;
++	}
++#endif
++
++	/* below is for ad-hoc master */
++	if (parm->adhoc) {
++		rtw_warn_on(pdev_network->InfrastructureMode != Ndis802_11IBSS);
++		rtw_joinbss_reset(padapter);
++
++		pmlmeext->cur_bwmode = CHANNEL_WIDTH_20;
++		pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		pmlmeinfo->ERP_enable = 0;
++		pmlmeinfo->WMM_enable = 0;
++		pmlmeinfo->HT_enable = 0;
++		pmlmeinfo->HT_caps_enable = 0;
++		pmlmeinfo->HT_info_enable = 0;
++		pmlmeinfo->agg_enable_bitmap = 0;
++		pmlmeinfo->candidate_tid_bitmap = 0;
++
++		/* config the initial gain under linking, need to write the BB registers */
++		/* initialgain = 0x1E; */
++		/*rtw_hal_set_odm_var(padapter, HAL_ODM_INITIAL_GAIN, &initialgain, _FALSE);*/
++
++		/* disable dynamic functions, such as high power, DIG */
++		rtw_phydm_ability_backup(padapter);
++		rtw_phydm_func_disable_all(padapter);
++
++		/* cancel link timer */
++		_cancel_timer_ex(&pmlmeext->link_timer);
++
++		/* clear CAM */
++		flush_all_cam_entry(padapter);
++
++		pdev_network->Length = get_WLAN_BSSID_EX_sz(pdev_network);
++		_rtw_memcpy(pnetwork, pdev_network, FIELD_OFFSET(WLAN_BSSID_EX, IELength));
++		pnetwork->IELength = pdev_network->IELength;
++
++		if (pnetwork->IELength > MAX_IE_SZ) {
++			ret = H2C_PARAMETERS_ERROR;
++			goto ibss_post_hdl;
++		}
++
++		_rtw_memcpy(pnetwork->IEs, pdev_network->IEs, pnetwork->IELength);
++		start_create_ibss(padapter);
++	} else {
++		rtw_warn_on(1);
++		ret = H2C_PARAMETERS_ERROR;
++	}
++
++ibss_post_hdl:
++	rtw_create_ibss_post_hdl(padapter, ret);
++
++exit:
++	return ret;
++}
++
++u8 join_cmd_hdl(_adapter *padapter, u8 *pbuf)
++{
++	u8	join_type;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	struct joinbss_parm	*pparm = (struct joinbss_parm *)pbuf;
++#endif /* CONFIG_ANTENNA_DIVERSITY */
++	u32 i;
++	/* u8	initialgain; */
++	/* u32	acparm; */
++	u8 u_ch, u_bw, u_offset;
++	u8 doiqk = _FALSE;
++
++	/* check already connecting to AP or not */
++	if (pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS) {
++		if (pmlmeinfo->state & WIFI_FW_STATION_STATE)
++			issue_deauth_ex(padapter, pnetwork->MacAddress, WLAN_REASON_DEAUTH_LEAVING, 1, 100);
++		pmlmeinfo->state = WIFI_FW_NULL_STATE;
++
++		/* clear CAM */
++		flush_all_cam_entry(padapter);
++
++		_cancel_timer_ex(&pmlmeext->link_timer);
++
++		/* set MSR to nolink->infra. mode		 */
++		/* Set_MSR(padapter, _HW_STATE_NOLINK_); */
++		Set_MSR(padapter, _HW_STATE_STATION_);
++
++
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_DISCONNECT, 0);
++	}
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	rtw_antenna_select_cmd(padapter, pparm->network.PhyInfo.Optimum_antenna, _FALSE);
++#endif
++
++#ifdef CONFIG_WAPI_SUPPORT
++	rtw_wapi_clear_all_cam_entry(padapter);
++#endif
++
++	rtw_joinbss_reset(padapter);
++
++	pmlmeinfo->ERP_enable = 0;
++	pmlmeinfo->WMM_enable = 0;
++	pmlmeinfo->HT_enable = 0;
++	pmlmeinfo->HT_caps_enable = 0;
++	pmlmeinfo->HT_info_enable = 0;
++	pmlmeinfo->agg_enable_bitmap = 0;
++	pmlmeinfo->candidate_tid_bitmap = 0;
++	pmlmeinfo->bwmode_updated = _FALSE;
++	/* pmlmeinfo->assoc_AP_vendor = HT_IOT_PEER_MAX; */
++	pmlmeinfo->VHT_enable = 0;
++
++	_rtw_memcpy(pnetwork, pbuf, FIELD_OFFSET(WLAN_BSSID_EX, IELength));
++	pnetwork->IELength = ((WLAN_BSSID_EX *)pbuf)->IELength;
++
++	if (pnetwork->IELength > MAX_IE_SZ) /* Check pbuf->IELength */
++		return H2C_PARAMETERS_ERROR;
++
++	if (pnetwork->IELength < 2) {
++		report_join_res(padapter, (-4));
++		return H2C_SUCCESS;
++	}
++	_rtw_memcpy(pnetwork->IEs, ((WLAN_BSSID_EX *)pbuf)->IEs, pnetwork->IELength);
++
++	pmlmeinfo->bcn_interval = get_beacon_interval(pnetwork);
++
++	/* Check AP vendor to move rtw_joinbss_cmd() */
++	/* pmlmeinfo->assoc_AP_vendor = check_assoc_AP(pnetwork->IEs, pnetwork->IELength); */
++
++	/* sizeof(NDIS_802_11_FIXED_IEs)	 */
++	for (i = _FIXED_IE_LENGTH_ ; i < pnetwork->IELength - 2 ;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pnetwork->IEs + i);
++
++		switch (pIE->ElementID) {
++		case _VENDOR_SPECIFIC_IE_: /* Get WMM IE. */
++			if (_rtw_memcmp(pIE->data, WMM_OUI, 4))
++				WMM_param_handler(padapter, pIE);
++			break;
++
++#ifdef CONFIG_80211N_HT
++		case _HT_CAPABILITY_IE_:	/* Get HT Cap IE. */
++			pmlmeinfo->HT_caps_enable = 1;
++			break;
++
++		case _HT_EXTRA_INFO_IE_:	/* Get HT Info IE. */
++			pmlmeinfo->HT_info_enable = 1;
++			break;
++#endif /* CONFIG_80211N_HT */
++
++#ifdef CONFIG_80211AC_VHT
++		case EID_VHTCapability: /* Get VHT Cap IE. */
++			pmlmeinfo->VHT_enable = 1;
++			break;
++
++		case EID_VHTOperation: /* Get VHT Operation IE. */
++			break;
++#endif /* CONFIG_80211AC_VHT */
++		default:
++			break;
++		}
++
++		i += (pIE->Length + 2);
++	}
++
++	rtw_bss_get_chbw(pnetwork
++		, &pmlmeext->cur_channel, &pmlmeext->cur_bwmode, &pmlmeext->cur_ch_offset);
++
++	rtw_adjust_chbw(padapter, pmlmeext->cur_channel, &pmlmeext->cur_bwmode, &pmlmeext->cur_ch_offset);
++
++#if 0
++	if (padapter->registrypriv.wifi_spec) {
++		/* for WiFi test, follow WMM test plan spec */
++		acparm = 0x002F431C; /* VO */
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VO, (u8 *)(&acparm));
++		acparm = 0x005E541C; /* VI */
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VI, (u8 *)(&acparm));
++		acparm = 0x0000A525; /* BE */
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acparm));
++		acparm = 0x0000A549; /* BK */
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BK, (u8 *)(&acparm));
++
++		/* for WiFi test, mixed mode with intel STA under bg mode throughput issue */
++		if (padapter->mlmepriv.htpriv.ht_option == _FALSE) {
++			acparm = 0x00004320;
++			rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acparm));
++		}
++	} else {
++		acparm = 0x002F3217; /* VO */
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VO, (u8 *)(&acparm));
++		acparm = 0x005E4317; /* VI */
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VI, (u8 *)(&acparm));
++		acparm = 0x00105320; /* BE */
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acparm));
++		acparm = 0x0000A444; /* BK */
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BK, (u8 *)(&acparm));
++	}
++#endif
++
++	/* check channel, bandwidth, offset and switch */
++	if (rtw_chk_start_clnt_join(padapter, &u_ch, &u_bw, &u_offset) == _FAIL) {
++		report_join_res(padapter, (-4));
++		return H2C_SUCCESS;
++	}
++
++	/* disable dynamic functions, such as high power, DIG */
++	/*rtw_phydm_func_disable_all(padapter);*/
++
++	/* config the initial gain under linking, need to write the BB registers */
++	/* initialgain = 0x1E; */
++	/*rtw_hal_set_odm_var(padapter, HAL_ODM_INITIAL_GAIN, &initialgain, _FALSE);*/
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, pmlmeinfo->network.MacAddress);
++	join_type = 0;
++	rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
++	doiqk = _TRUE;
++	rtw_hal_set_hwreg(padapter , HW_VAR_DO_IQK , &doiqk);
++
++	set_channel_bwmode(padapter, u_ch, u_offset, u_bw);
++	rtw_mi_update_union_chan_inf(padapter, u_ch, u_offset, u_bw);
++
++	doiqk = _FALSE;
++	rtw_hal_set_hwreg(padapter , HW_VAR_DO_IQK , &doiqk);
++
++	/* cancel link timer */
++	_cancel_timer_ex(&pmlmeext->link_timer);
++
++	start_clnt_join(padapter);
++
++	return H2C_SUCCESS;
++
++}
++
++u8 disconnect_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct disconnect_parm *param = (struct disconnect_parm *)pbuf;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++	u8 val8;
++
++	if (is_client_associated_to_ap(padapter)) {
++#ifdef CONFIG_DFS
++		if (padapter->mlmepriv.handle_dfs == _FALSE)
++#endif /* CONFIG_DFS */
++#ifdef CONFIG_PLATFORM_ROCKCHIPS
++			/* To avoid connecting to AP fail during resume process, change retry count from 5 to 1 */
++			issue_deauth_ex(padapter, pnetwork->MacAddress, WLAN_REASON_DEAUTH_LEAVING, 1, 100);
++#else
++			issue_deauth_ex(padapter, pnetwork->MacAddress, WLAN_REASON_DEAUTH_LEAVING, param->deauth_timeout_ms / 100, 100);
++#endif /* CONFIG_PLATFORM_ROCKCHIPS */
++	}
++
++#ifdef CONFIG_DFS
++	if (padapter->mlmepriv.handle_dfs == _TRUE)
++		padapter->mlmepriv.handle_dfs = _FALSE;
++#endif /* CONFIG_DFS */
++
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) || ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE)) {
++		/* Stop BCN */
++		val8 = 0;
++		rtw_hal_set_hwreg(padapter, HW_VAR_BCN_FUNC, (u8 *)(&val8));
++	}
++
++	rtw_mlmeext_disconnect(padapter);
++
++	rtw_free_uc_swdec_pending_queue(padapter);
++
++	return	H2C_SUCCESS;
++}
++
++static const char *const _scan_state_str[] = {
++	"SCAN_DISABLE",
++	"SCAN_START",
++	"SCAN_PS_ANNC_WAIT",
++	"SCAN_ENTER",
++	"SCAN_PROCESS",
++	"SCAN_BACKING_OP",
++	"SCAN_BACK_OP",
++	"SCAN_LEAVING_OP",
++	"SCAN_LEAVE_OP",
++	"SCAN_SW_ANTDIV_BL",
++	"SCAN_TO_P2P_LISTEN",
++	"SCAN_P2P_LISTEN",
++	"SCAN_COMPLETE",
++	"SCAN_STATE_MAX",
++};
++
++const char *scan_state_str(u8 state)
++{
++	state = (state >= SCAN_STATE_MAX) ? SCAN_STATE_MAX : state;
++	return _scan_state_str[state];
++}
++
++static bool scan_abort_hdl(_adapter *adapter)
++{
++	struct mlme_ext_priv *pmlmeext = &adapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct ss_res *ss = &pmlmeext->sitesurvey_res;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &adapter->wdinfo;
++#endif
++	bool ret = _FALSE;
++
++	if (pmlmeext->scan_abort == _TRUE) {
++#ifdef CONFIG_P2P
++		if (!rtw_p2p_chk_state(&adapter->wdinfo, P2P_STATE_NONE)) {
++			rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_MAX);
++			ss->channel_idx = 3;
++			RTW_INFO("%s idx:%d, cnt:%u\n", __FUNCTION__
++				 , ss->channel_idx
++				 , pwdinfo->find_phase_state_exchange_cnt
++				);
++		} else
++#endif
++		{
++			ss->channel_idx = ss->ch_num;
++			RTW_INFO("%s idx:%d\n", __FUNCTION__
++				 , ss->channel_idx
++				);
++		}
++		pmlmeext->scan_abort = _FALSE;
++		ret = _TRUE;
++	}
++
++	return ret;
++}
++
++u8 rtw_scan_sparse(_adapter *adapter, struct rtw_ieee80211_channel *ch, u8 ch_num)
++{
++	/* interval larger than this is treated as backgroud scan */
++#ifndef RTW_SCAN_SPARSE_BG_INTERVAL_MS
++#define RTW_SCAN_SPARSE_BG_INTERVAL_MS 12000
++#endif
++
++#ifndef RTW_SCAN_SPARSE_CH_NUM_MIRACAST
++#define RTW_SCAN_SPARSE_CH_NUM_MIRACAST 1
++#endif
++#ifndef RTW_SCAN_SPARSE_CH_NUM_BG
++#define RTW_SCAN_SPARSE_CH_NUM_BG 4
++#endif
++#ifdef CONFIG_LAYER2_ROAMING
++#ifndef RTW_SCAN_SPARSE_CH_NUM_ROAMING_ACTIVE
++#define RTW_SCAN_SPARSE_CH_NUM_ROAMING_ACTIVE 1
++#endif
++#endif
++
++#define SCAN_SPARSE_CH_NUM_INVALID 255
++
++	static u8 token = 255;
++	u32 interval;
++	bool busy_traffic = _FALSE;
++	bool miracast_enabled = _FALSE;
++	bool bg_scan = _FALSE;
++	u8 max_allow_ch = SCAN_SPARSE_CH_NUM_INVALID;
++	u8 scan_division_num;
++	u8 ret_num = ch_num;
++	struct registry_priv *regsty = dvobj_to_regsty(adapter_to_dvobj(adapter));
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++
++	if (regsty->wifi_spec)
++		goto exit;
++
++	/* assume ch_num > 6 is normal scan */
++	if (ch_num <= 6)
++		goto exit;
++
++	if (mlmeext->last_scan_time == 0)
++		mlmeext->last_scan_time = rtw_get_current_time();
++
++	interval = rtw_get_passing_time_ms(mlmeext->last_scan_time);
++
++
++	if (rtw_mi_busy_traffic_check(adapter, _FALSE))
++		busy_traffic = _TRUE;
++
++	if (rtw_mi_check_miracast_enabled(adapter))
++		miracast_enabled = _TRUE;
++
++	if (interval > RTW_SCAN_SPARSE_BG_INTERVAL_MS)
++		bg_scan = _TRUE;
++
++	/* max_allow_ch by conditions*/
++
++#if RTW_SCAN_SPARSE_MIRACAST
++	if (miracast_enabled == _TRUE && busy_traffic == _TRUE)
++		max_allow_ch = rtw_min(max_allow_ch, RTW_SCAN_SPARSE_CH_NUM_MIRACAST);
++#endif
++
++#if RTW_SCAN_SPARSE_BG
++	if (bg_scan == _TRUE)
++		max_allow_ch = rtw_min(max_allow_ch, RTW_SCAN_SPARSE_CH_NUM_BG);
++#endif
++
++#if  defined(CONFIG_LAYER2_ROAMING) && defined(RTW_SCAN_SPARSE_ROAMING_ACTIVE)
++	if (rtw_chk_roam_flags(adapter, RTW_ROAM_ACTIVE)) {
++		if (busy_traffic == _TRUE && adapter->mlmepriv.need_to_roam == _TRUE)
++			max_allow_ch = rtw_min(max_allow_ch, RTW_SCAN_SPARSE_CH_NUM_ROAMING_ACTIVE);
++	}
++#endif
++
++
++	if (max_allow_ch != SCAN_SPARSE_CH_NUM_INVALID) {
++		int i;
++		int k = 0;
++
++		scan_division_num = (ch_num / max_allow_ch) + ((ch_num % max_allow_ch) ? 1 : 0);
++		token = (token + 1) % scan_division_num;
++
++		if (0)
++			RTW_INFO("scan_division_num:%u, token:%u\n", scan_division_num, token);
++
++		for (i = 0; i < ch_num; i++) {
++			if (ch[i].hw_value && (i % scan_division_num) == token
++			   ) {
++				if (i != k)
++					_rtw_memcpy(&ch[k], &ch[i], sizeof(struct rtw_ieee80211_channel));
++				k++;
++			}
++		}
++
++		_rtw_memset(&ch[k], 0, sizeof(struct rtw_ieee80211_channel));
++
++		ret_num = k;
++		mlmeext->last_scan_time = rtw_get_current_time();
++	}
++
++exit:
++	return ret_num;
++}
++
++static int rtw_scan_ch_decision(_adapter *padapter, struct rtw_ieee80211_channel *out,
++		u32 out_num, struct rtw_ieee80211_channel *in, u32 in_num)
++{
++	int i, j;
++	int scan_ch_num = 0;
++	int set_idx;
++	u8 chan;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	/* clear first */
++	_rtw_memset(out, 0, sizeof(struct rtw_ieee80211_channel) * out_num);
++
++	/* acquire channels from in */
++	j = 0;
++	for (i = 0; i < in_num; i++) {
++
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" "CHAN_FMT"\n", FUNC_ADPT_ARG(padapter), CHAN_ARG(&in[i]));
++
++		if (!in[i].hw_value || (in[i].flags & RTW_IEEE80211_CHAN_DISABLED))
++			continue;
++		if (rtw_mlme_band_check(padapter, in[i].hw_value) == _FALSE)
++			continue;
++
++		set_idx = rtw_ch_set_search_ch(pmlmeext->channel_set, in[i].hw_value);
++		if (set_idx >= 0) {
++			if (j >= out_num) {
++				RTW_PRINT(FUNC_ADPT_FMT" out_num:%u not enough\n",
++					  FUNC_ADPT_ARG(padapter), out_num);
++				break;
++			}
++
++			_rtw_memcpy(&out[j], &in[i], sizeof(struct rtw_ieee80211_channel));
++
++			if (pmlmeext->channel_set[set_idx].ScanType == SCAN_PASSIVE)
++				out[j].flags |= RTW_IEEE80211_CHAN_PASSIVE_SCAN;
++
++			j++;
++		}
++		if (j >= out_num)
++			break;
++	}
++
++	/* if out is empty, use channel_set as default */
++	if (j == 0) {
++		for (i = 0; i < pmlmeext->max_chan_nums; i++) {
++			chan = pmlmeext->channel_set[i].ChannelNum;
++			if (rtw_mlme_band_check(padapter, chan) == _TRUE) {
++				if (rtw_mlme_ignore_chan(padapter, chan) == _TRUE)
++					continue;
++
++				if (0)
++					RTW_INFO(FUNC_ADPT_FMT" ch:%u\n", FUNC_ADPT_ARG(padapter), chan);
++
++				if (j >= out_num) {
++					RTW_PRINT(FUNC_ADPT_FMT" out_num:%u not enough\n",
++						FUNC_ADPT_ARG(padapter), out_num);
++					break;
++				}
++
++				out[j].hw_value = chan;
++
++				if (pmlmeext->channel_set[i].ScanType == SCAN_PASSIVE)
++					out[j].flags |= RTW_IEEE80211_CHAN_PASSIVE_SCAN;
++
++				j++;
++			}
++		}
++	}
++
++	/* scan_sparse */
++	j = rtw_scan_sparse(padapter, out, j);
++
++	return j;
++}
++
++static void sitesurvey_res_reset(_adapter *adapter, struct sitesurvey_parm *parm)
++{
++	struct ss_res *ss = &adapter->mlmeextpriv.sitesurvey_res;
++	int i;
++
++	ss->bss_cnt = 0;
++	ss->channel_idx = 0;
++#ifdef CONFIG_SCAN_BACKOP
++	ss->scan_cnt = 0;
++#endif
++#if defined(CONFIG_ANTENNA_DIVERSITY) || defined(DBG_SCAN_SW_ANTDIV_BL)
++	ss->is_sw_antdiv_bl_scan = 0;
++#endif
++
++	for (i = 0; i < RTW_SSID_SCAN_AMOUNT; i++) {
++		if (parm->ssid[i].SsidLength) {
++			_rtw_memcpy(ss->ssid[i].Ssid, parm->ssid[i].Ssid, IW_ESSID_MAX_SIZE);
++			ss->ssid[i].SsidLength = parm->ssid[i].SsidLength;
++		} else
++			ss->ssid[i].SsidLength = 0;
++	}
++
++	ss->ch_num = rtw_scan_ch_decision(adapter
++					  , ss->ch, RTW_CHANNEL_SCAN_AMOUNT
++					  , parm->ch, parm->ch_num
++					 );
++
++	ss->scan_mode = parm->scan_mode;
++}
++
++static u8 sitesurvey_pick_ch_behavior(_adapter *padapter, u8 *ch, RT_SCAN_TYPE *type)
++{
++	u8 next_state;
++	u8 scan_ch = 0;
++	RT_SCAN_TYPE scan_type = SCAN_PASSIVE;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &pmlmeext->mlmext_info;
++	struct ss_res *ss = &pmlmeext->sitesurvey_res;
++
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++#endif
++
++	/* handle scan abort request */
++	scan_abort_hdl(padapter);
++
++#ifdef CONFIG_P2P
++	if (pwdinfo->rx_invitereq_info.scan_op_ch_only || pwdinfo->p2p_info.scan_op_ch_only) {
++		if (pwdinfo->rx_invitereq_info.scan_op_ch_only)
++			scan_ch = pwdinfo->rx_invitereq_info.operation_ch[ss->channel_idx];
++		else
++			scan_ch = pwdinfo->p2p_info.operation_ch[ss->channel_idx];
++		scan_type = SCAN_ACTIVE;
++	} else if (rtw_p2p_findphase_ex_is_social(pwdinfo)) {
++		/*
++		* Commented by Albert 2011/06/03
++		* The driver is in the find phase, it should go through the social channel.
++		*/
++		int ch_set_idx;
++
++		scan_ch = pwdinfo->social_chan[ss->channel_idx];
++		ch_set_idx = rtw_ch_set_search_ch(pmlmeext->channel_set, scan_ch);
++		if (ch_set_idx >= 0)
++			scan_type = pmlmeext->channel_set[ch_set_idx].ScanType;
++		else
++			scan_type = SCAN_ACTIVE;
++	} else
++#endif /* CONFIG_P2P */
++	{
++		struct rtw_ieee80211_channel *ch;
++
++		if (ss->channel_idx < ss->ch_num) {
++			ch = &ss->ch[ss->channel_idx];
++			scan_ch = ch->hw_value;
++			scan_type = (ch->flags & RTW_IEEE80211_CHAN_PASSIVE_SCAN) ? SCAN_PASSIVE : SCAN_ACTIVE;
++		}
++	}
++
++	if (scan_ch != 0) {
++		next_state = SCAN_PROCESS;
++#ifdef CONFIG_SCAN_BACKOP
++		{
++			u8 sta_num;
++			u8 ld_sta_num;
++			u8 ap_num;
++			u8 ld_ap_num;
++			u8 backop_flags = 0;
++
++			rtw_mi_status(padapter, &sta_num, &ld_sta_num, NULL, &ap_num, &ld_ap_num, NULL);
++
++			if ((ld_sta_num > 0 && mlmeext_chk_scan_backop_flags_sta(pmlmeext, SS_BACKOP_EN))
++				|| (sta_num > 0 && mlmeext_chk_scan_backop_flags_sta(pmlmeext, SS_BACKOP_EN_NL)))
++				backop_flags |= mlmeext_scan_backop_flags_sta(pmlmeext);
++
++			if ((ld_ap_num > 0 && mlmeext_chk_scan_backop_flags_ap(pmlmeext, SS_BACKOP_EN))
++				|| (ap_num > 0 && mlmeext_chk_scan_backop_flags_ap(pmlmeext, SS_BACKOP_EN_NL)))
++				backop_flags |= mlmeext_scan_backop_flags_ap(pmlmeext);
++
++			if (backop_flags) {
++				if (ss->scan_cnt < ss->scan_cnt_max)
++					ss->scan_cnt++;
++				else {
++					mlmeext_assign_scan_backop_flags(pmlmeext, backop_flags);
++					next_state = SCAN_BACKING_OP;
++				}
++			}
++		}
++#endif /* CONFIG_SCAN_BACKOP */
++	} else if (rtw_p2p_findphase_ex_is_needed(pwdinfo)) {
++		/* go p2p listen */
++		next_state = SCAN_TO_P2P_LISTEN;
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	} else if (rtw_hal_antdiv_before_linked(padapter)) {
++		/* go sw antdiv before link */
++		next_state = SCAN_SW_ANTDIV_BL;
++#endif
++	} else {
++		next_state = SCAN_COMPLETE;
++
++#if defined(DBG_SCAN_SW_ANTDIV_BL)
++		{
++			/* for SCAN_SW_ANTDIV_BL state testing */
++			struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++			int i;
++			bool is_linked = _FALSE;
++
++			for (i = 0; i < dvobj->iface_nums; i++) {
++				if (rtw_linked_check(dvobj->padapters[i]))
++					is_linked = _TRUE;
++			}
++
++			if (!is_linked) {
++				static bool fake_sw_antdiv_bl_state = 0;
++
++				if (fake_sw_antdiv_bl_state == 0) {
++					next_state = SCAN_SW_ANTDIV_BL;
++					fake_sw_antdiv_bl_state = 1;
++				} else
++					fake_sw_antdiv_bl_state = 0;
++			}
++		}
++#endif /* defined(DBG_SCAN_SW_ANTDIV_BL) */
++	}
++
++#ifdef CONFIG_SCAN_BACKOP
++	if (next_state != SCAN_PROCESS)
++		ss->scan_cnt = 0;
++#endif
++
++
++#ifdef DBG_FIXED_CHAN
++	if (pmlmeext->fixed_chan != 0xff && next_state == SCAN_PROCESS)
++		scan_ch = pmlmeext->fixed_chan;
++#endif
++
++	if (ch)
++		*ch = scan_ch;
++	if (type)
++		*type = scan_type;
++
++	return next_state;
++}
++
++void site_survey(_adapter *padapter, u8 survey_channel, RT_SCAN_TYPE ScanType)
++{
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif
++
++	if (survey_channel != 0) {
++		set_channel_bwmode(padapter, survey_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++		if (ACS_ENABLE == GET_ACS_STATE(padapter)) {
++			ACS_OP acs_op = ACS_RESET;
++
++			rtw_hal_set_odm_var(padapter, HAL_ODM_AUTO_CHNL_SEL, &acs_op, _TRUE);
++			rtw_set_acs_channel(padapter, survey_channel);
++#ifdef DBG_AUTO_CHNL_SEL_NHM
++			RTW_INFO("[ACS-"ADPT_FMT"]-set ch:%u\n",
++				ADPT_ARG(padapter), rtw_get_acs_channel(padapter));
++#endif
++		}
++#endif
++
++		if (ScanType == SCAN_ACTIVE) {
++#ifdef CONFIG_P2P
++			if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_SCAN) ||
++			    rtw_p2p_chk_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH)
++			   ) {
++				issue_probereq_p2p(padapter, NULL);
++				issue_probereq_p2p(padapter, NULL);
++				issue_probereq_p2p(padapter, NULL);
++			} else
++#endif /* CONFIG_P2P */
++			{
++				int i;
++
++				for (i = 0; i < RTW_SSID_SCAN_AMOUNT; i++) {
++					if (pmlmeext->sitesurvey_res.ssid[i].SsidLength) {
++						/* IOT issue, When wifi_spec is not set, send one probe req without WPS IE. */
++						if (padapter->registrypriv.wifi_spec)
++							issue_probereq(padapter, &(pmlmeext->sitesurvey_res.ssid[i]), NULL);
++						else
++							issue_probereq_ex(padapter, &(pmlmeext->sitesurvey_res.ssid[i]), NULL, 0, 0, 0, 0);
++						issue_probereq(padapter, &(pmlmeext->sitesurvey_res.ssid[i]), NULL);
++					}
++				}
++
++				if (pmlmeext->sitesurvey_res.scan_mode == SCAN_ACTIVE) {
++					/* IOT issue, When wifi_spec is not set, send one probe req without WPS IE. */
++					if (padapter->registrypriv.wifi_spec)
++						issue_probereq(padapter, NULL, NULL);
++					else
++						issue_probereq_ex(padapter, NULL, NULL, 0, 0, 0, 0);
++					issue_probereq(padapter, NULL, NULL);
++				}
++			}
++		}
++	} else {
++		/* channel number is 0 or this channel is not valid. */
++		rtw_warn_on(1);
++	}
++
++	return;
++}
++
++void survey_done_set_ch_bw(_adapter *padapter)
++{
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	u8 cur_channel = 0;
++	u8 cur_bwmode;
++	u8 cur_ch_offset;
++
++#ifdef CONFIG_MCC_MODE
++	if (!rtw_hal_mcc_change_scan_flag(padapter, &cur_channel, &cur_bwmode, &cur_ch_offset)) {
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" back to AP channel - ch:%u, bw:%u, offset:%u\n",
++				FUNC_ADPT_ARG(padapter), cur_channel, cur_bwmode, cur_ch_offset);
++		goto exit;
++	}
++#endif
++
++	if (rtw_mi_get_ch_setting_union(padapter, &cur_channel, &cur_bwmode, &cur_ch_offset) != 0) {
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" back to linked/linking union - ch:%u, bw:%u, offset:%u\n",
++				FUNC_ADPT_ARG(padapter), cur_channel, cur_bwmode, cur_ch_offset);
++	} else {
++#ifdef CONFIG_P2P
++		struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++		_adapter *iface;
++		int i;
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if (!iface)
++				continue;
++
++#ifdef CONFIG_IOCTL_CFG80211
++			if (iface->wdinfo.driver_interface == DRIVER_CFG80211 && !adapter_wdev_data(iface)->p2p_enabled)
++				continue;
++#endif
++
++			if (rtw_p2p_chk_state(&iface->wdinfo, P2P_STATE_LISTEN)) {
++				cur_channel = iface->wdinfo.listen_channel;
++				cur_bwmode = CHANNEL_WIDTH_20;
++				cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++				if (0)
++					RTW_INFO(FUNC_ADPT_FMT" back to "ADPT_FMT"'s listen ch - ch:%u, bw:%u, offset:%u\n",
++						FUNC_ADPT_ARG(padapter), ADPT_ARG(iface), cur_channel, cur_bwmode, cur_ch_offset);
++				break;
++			}
++		}
++#endif /* CONFIG_P2P */
++
++		if (cur_channel == 0) {
++			cur_channel = pmlmeext->cur_channel;
++			cur_bwmode = pmlmeext->cur_bwmode;
++			cur_ch_offset = pmlmeext->cur_ch_offset;
++			if (0)
++				RTW_INFO(FUNC_ADPT_FMT" back to ch:%u, bw:%u, offset:%u\n",
++					FUNC_ADPT_ARG(padapter), cur_channel, cur_bwmode, cur_ch_offset);
++		}
++	}
++exit:
++	set_channel_bwmode(padapter, cur_channel, cur_ch_offset, cur_bwmode);
++}
++
++#if 1
++/**
++ * sitesurvey_ps_annc - check and doing ps announcement for all the adapters of given @dvobj
++ * @padapter
++ * @ps: power saving or not
++ *
++ * Returns: 0: no ps announcement is doing. 1: ps announcement is doing
++ */
++
++u8 sitesurvey_ps_annc(_adapter *padapter, bool ps)
++{
++	u8 ps_anc = 0;
++
++	if (rtw_mi_issue_nulldata(padapter, NULL, ps, 3, 500))
++		ps_anc = 1;
++	return ps_anc;
++}
++#else
++/**
++ * sitesurvey_ps_annc - check and doing ps announcement for all the adapters of given @dvobj
++ * @dvobj: the dvobj to check
++ * @ps: power saving or not
++ *
++ * Returns: 0: no ps announcement is doing. 1: ps announcement is doing
++ */
++
++u8 sitesurvey_ps_annc(struct dvobj_priv *dvobj, bool ps)
++{
++	_adapter *adapter;
++	int i;
++	u8 ps_anc = 0;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		adapter = dvobj->padapters[i];
++		if (!adapter)
++			continue;
++
++		if (ps) {
++			if (is_client_associated_to_ap(adapter) == _TRUE) {
++				/* TODO: TDLS peers */
++				issue_nulldata(adapter, NULL, 1, 3, 500);
++				ps_anc = 1;
++			}
++		} else {
++			if (is_client_associated_to_ap(adapter) == _TRUE) {
++				/* TODO: TDLS peers */
++				issue_nulldata(adapter, NULL, 0, 3, 500);
++				ps_anc = 1;
++			}
++		}
++	}
++	return ps_anc;
++}
++#endif
++
++void sitesurvey_set_igi(_adapter *adapter, bool enter)
++{
++	u8 igi;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &adapter->wdinfo;
++#endif
++
++	if (enter) {
++#ifdef CONFIG_P2P
++#ifdef CONFIG_IOCTL_CFG80211
++		if (adapter_wdev_data(adapter)->p2p_enabled == _TRUE && pwdinfo->driver_interface == DRIVER_CFG80211)
++			igi = 0x30;
++		else
++#endif /* CONFIG_IOCTL_CFG80211 */
++			if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++				igi = 0x28;
++			else
++#endif /* CONFIG_P2P */
++				igi = 0x1e;
++	} else {
++		igi = 0xff; /* restore RX GAIN */
++	}
++
++	rtw_hal_set_odm_var(adapter, HAL_ODM_INITIAL_GAIN, &igi, _FALSE);
++}
++void sitesurvey_set_msr(_adapter *adapter, bool enter)
++{
++	u8 network_type;
++	struct mlme_ext_priv *pmlmeext = &adapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (enter) {
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		rtw_hal_get_hwreg(adapter, HW_VAR_MEDIA_STATUS, (u8 *)(&pmlmeinfo->hw_media_state));
++#endif
++		/* set MSR to no link state */
++		network_type = _HW_STATE_NOLINK_;
++	} else {
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		network_type = pmlmeinfo->hw_media_state;
++#else
++		network_type = pmlmeinfo->state & 0x3;
++#endif
++	}
++	Set_MSR(adapter, network_type);
++}
++u8 sitesurvey_cmd_hdl(_adapter *padapter, u8 *pbuf)
++{
++	struct sitesurvey_parm	*pparm = (struct sitesurvey_parm *)pbuf;
++	struct dvobj_priv *dvobj = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &dvobj->drv_dbg;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct ss_res *ss = &pmlmeext->sitesurvey_res;
++	u8 val8;
++
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++#endif
++
++#ifdef DBG_CHECK_FW_PS_STATE
++	if (rtw_fw_ps_state(padapter) == _FAIL) {
++		RTW_INFO("scan without leave 32k\n");
++		pdbgpriv->dbg_scan_pwr_state_cnt++;
++	}
++#endif /* DBG_CHECK_FW_PS_STATE */
++
++	/* increase channel idx */
++	if (mlmeext_chk_scan_state(pmlmeext, SCAN_PROCESS))
++		ss->channel_idx++;
++
++	/* update scan state to next state (assigned by previous cmd hdl) */
++	if (mlmeext_scan_state(pmlmeext) != mlmeext_scan_next_state(pmlmeext))
++		mlmeext_set_scan_state(pmlmeext, mlmeext_scan_next_state(pmlmeext));
++
++operation_by_state:
++	switch (mlmeext_scan_state(pmlmeext)) {
++
++	case SCAN_DISABLE:
++		/*
++		* SW parameter initialization
++		*/
++
++		sitesurvey_res_reset(padapter, pparm);
++		mlmeext_set_scan_state(pmlmeext, SCAN_START);
++		goto operation_by_state;
++
++	case SCAN_START:
++		/*
++		* prepare to leave operating channel
++		*/
++
++#ifdef CONFIG_MCC_MODE
++		rtw_hal_set_mcc_setting_scan_start(padapter);
++#endif /* CONFIG_MCC_MODE */
++
++		/* apply rx ampdu setting */
++		if (ss->rx_ampdu_accept != RX_AMPDU_ACCEPT_INVALID
++			|| ss->rx_ampdu_size != RX_AMPDU_SIZE_INVALID)
++			rtw_rx_ampdu_apply(padapter);
++
++		/* clear HW TX queue before scan */
++		rtw_hal_set_hwreg(padapter, HW_VAR_CHECK_TXBUF, 0);
++
++		/* power save state announcement */
++		if (sitesurvey_ps_annc(padapter, 1)) {
++			mlmeext_set_scan_state(pmlmeext, SCAN_PS_ANNC_WAIT);
++			mlmeext_set_scan_next_state(pmlmeext, SCAN_ENTER);
++			set_survey_timer(pmlmeext, 50); /* delay 50ms to protect nulldata(1) */
++		} else {
++			mlmeext_set_scan_state(pmlmeext, SCAN_ENTER);
++			goto operation_by_state;
++		}
++
++		break;
++
++	case SCAN_ENTER:
++		/*
++		* HW register and DM setting for enter scan
++		*/
++
++		/* config the initial gain under scanning */
++		sitesurvey_set_igi(padapter, 1);
++
++		/* disable dynamic functions, such as high power, DIG */
++		rtw_phydm_ability_backup(padapter);
++		rtw_phydm_func_for_offchannel(padapter);
++		/* set MSR to no link state */
++		sitesurvey_set_msr(padapter, _TRUE);
++
++		val8 = 1; /* under site survey */
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++
++		mlmeext_set_scan_state(pmlmeext, SCAN_PROCESS);
++		goto operation_by_state;
++
++	case SCAN_PROCESS: {
++		u8 scan_ch;
++		RT_SCAN_TYPE scan_type;
++		u8 next_state;
++		u32 scan_ms;
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++		if ((ACS_ENABLE == GET_ACS_STATE(padapter)) && (0 != rtw_get_acs_channel(padapter))) {
++			ACS_OP acs_op = ACS_SELECT;
++
++			rtw_hal_set_odm_var(padapter, HAL_ODM_AUTO_CHNL_SEL, &acs_op, _TRUE);
++		}
++#endif
++
++		next_state = sitesurvey_pick_ch_behavior(padapter, &scan_ch, &scan_type);
++		if (next_state != SCAN_PROCESS) {
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++			if (ACS_ENABLE == GET_ACS_STATE(padapter)) {
++				rtw_set_acs_channel(padapter, 0);
++#ifdef DBG_AUTO_CHNL_SEL_NHM
++				RTW_INFO("[ACS-"ADPT_FMT"]-set ch:%u\n", ADPT_ARG(padapter), rtw_get_acs_channel(padapter));
++#endif
++			}
++#endif
++
++			mlmeext_set_scan_state(pmlmeext, next_state);
++			goto operation_by_state;
++		}
++
++		/* still SCAN_PROCESS state */
++		if (0)
++#ifdef CONFIG_P2P
++			RTW_INFO(FUNC_ADPT_FMT" %s ch:%u (cnt:%u,idx:%d) at %dms, %c%c%c\n"
++				 , FUNC_ADPT_ARG(padapter)
++				 , mlmeext_scan_state_str(pmlmeext)
++				 , scan_ch
++				, pwdinfo->find_phase_state_exchange_cnt, ss->channel_idx
++				, rtw_get_passing_time_ms(padapter->mlmepriv.scan_start_time)
++				, scan_type ? 'A' : 'P', ss->scan_mode ? 'A' : 'P'
++				 , ss->ssid[0].SsidLength ? 'S' : ' '
++				);
++#else
++			RTW_INFO(FUNC_ADPT_FMT" %s ch:%u (idx:%d) at %dms, %c%c%c\n"
++				 , FUNC_ADPT_ARG(padapter)
++				 , mlmeext_scan_state_str(pmlmeext)
++				 , scan_ch
++				 , ss->channel_idx
++				, rtw_get_passing_time_ms(padapter->mlmepriv.scan_start_time)
++				, scan_type ? 'A' : 'P', ss->scan_mode ? 'A' : 'P'
++				 , ss->ssid[0].SsidLength ? 'S' : ' '
++				);
++#endif /* CONFIG_P2P */
++
++#ifdef DBG_FIXED_CHAN
++		if (pmlmeext->fixed_chan != 0xff)
++			RTW_INFO(FUNC_ADPT_FMT" fixed_chan:%u\n", pmlmeext->fixed_chan);
++#endif
++
++		site_survey(padapter, scan_ch, scan_type);
++
++#if defined(CONFIG_ATMEL_RC_PATCH)
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++			scan_ms = 20;
++		else
++			scan_ms = 40;
++#else
++		scan_ms = ss->scan_ch_ms;
++#endif
++
++#if defined(CONFIG_ANTENNA_DIVERSITY) || defined(DBG_SCAN_SW_ANTDIV_BL)
++		if (ss->is_sw_antdiv_bl_scan)
++			scan_ms = scan_ms / 2;
++#endif
++
++#if defined(CONFIG_SIGNAL_DISPLAY_DBM) && defined(CONFIG_BACKGROUND_NOISE_MONITOR)
++		{
++			struct noise_info info;
++
++			info.bPauseDIG = _FALSE;
++			info.IGIValue = 0;
++			info.max_time = scan_ms / 2;
++			info.chan = scan_ch;
++			rtw_hal_set_odm_var(padapter, HAL_ODM_NOISE_MONITOR, &info, _FALSE);
++		}
++#endif
++
++		set_survey_timer(pmlmeext, scan_ms);
++		break;
++	}
++
++#ifdef CONFIG_SCAN_BACKOP
++	case SCAN_BACKING_OP: {
++		u8 back_ch, back_bw, back_ch_offset;
++		u8 need_ch_setting_union = _TRUE;
++
++#ifdef CONFIG_MCC_MODE
++		need_ch_setting_union = rtw_hal_mcc_change_scan_flag(padapter,
++				&back_ch, &back_bw, &back_ch_offset);
++#endif /* CONFIG_MCC_MODE */
++
++		if (need_ch_setting_union) {
++			if (rtw_mi_get_ch_setting_union(padapter, &back_ch, &back_bw, &back_ch_offset) == 0)
++				rtw_warn_on(1);
++		}
++
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" %s ch:%u, bw:%u, offset:%u at %dms\n"
++				 , FUNC_ADPT_ARG(padapter)
++				 , mlmeext_scan_state_str(pmlmeext)
++				 , back_ch, back_bw, back_ch_offset
++				, rtw_get_passing_time_ms(padapter->mlmepriv.scan_start_time)
++				);
++
++		set_channel_bwmode(padapter, back_ch, back_ch_offset, back_bw);
++
++		sitesurvey_set_msr(padapter, _FALSE);
++
++		val8 = 0; /* survey done */
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++
++		if (mlmeext_chk_scan_backop_flags(pmlmeext, SS_BACKOP_PS_ANNC)) {
++			sitesurvey_set_igi(padapter, 0);
++			sitesurvey_ps_annc(padapter, 0);
++		}
++
++		mlmeext_set_scan_state(pmlmeext, SCAN_BACK_OP);
++		ss->backop_time = rtw_get_current_time();
++
++		if (mlmeext_chk_scan_backop_flags(pmlmeext, SS_BACKOP_TX_RESUME))
++			rtw_mi_os_xmit_schedule(padapter);
++
++
++		goto operation_by_state;
++	}
++
++	case SCAN_BACK_OP:
++		if (rtw_get_passing_time_ms(ss->backop_time) >= ss->backop_ms
++		    || pmlmeext->scan_abort
++		   ) {
++			mlmeext_set_scan_state(pmlmeext, SCAN_LEAVING_OP);
++			goto operation_by_state;
++		}
++		set_survey_timer(pmlmeext, 50);
++		break;
++
++	case SCAN_LEAVING_OP:
++		/*
++		* prepare to leave operating channel
++		*/
++
++		/* clear HW TX queue before scan */
++		rtw_hal_set_hwreg(padapter, HW_VAR_CHECK_TXBUF, 0);
++
++		if (mlmeext_chk_scan_backop_flags(pmlmeext, SS_BACKOP_PS_ANNC)
++		    && sitesurvey_ps_annc(padapter, 1)
++		   ) {
++			mlmeext_set_scan_state(pmlmeext, SCAN_PS_ANNC_WAIT);
++			mlmeext_set_scan_next_state(pmlmeext, SCAN_LEAVE_OP);
++			set_survey_timer(pmlmeext, 50); /* delay 50ms to protect nulldata(1) */
++		} else {
++			mlmeext_set_scan_state(pmlmeext, SCAN_LEAVE_OP);
++			goto operation_by_state;
++		}
++
++		break;
++
++	case SCAN_LEAVE_OP:
++		/*
++		* HW register and DM setting for enter scan
++		*/
++
++		if (mlmeext_chk_scan_backop_flags(pmlmeext, SS_BACKOP_PS_ANNC)) {
++			/* config the initial gain under scanning */
++			sitesurvey_set_igi(padapter, 1);
++		}
++
++		sitesurvey_set_msr(padapter, _TRUE);
++
++		val8 = 1; /* under site survey */
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++
++		mlmeext_set_scan_state(pmlmeext, SCAN_PROCESS);
++		goto operation_by_state;
++
++#endif /* CONFIG_SCAN_BACKOP */
++
++#if defined(CONFIG_ANTENNA_DIVERSITY) || defined(DBG_SCAN_SW_ANTDIV_BL)
++	case SCAN_SW_ANTDIV_BL:
++		/*
++		* 20100721
++		* For SW antenna diversity before link, it needs to switch to another antenna and scan again.
++		* It compares the scan result and select better one to do connection.
++		*/
++		ss->bss_cnt = 0;
++		ss->channel_idx = 0;
++		ss->is_sw_antdiv_bl_scan = 1;
++
++		mlmeext_set_scan_next_state(pmlmeext, SCAN_PROCESS);
++		set_survey_timer(pmlmeext, ss->scan_ch_ms);
++		break;
++#endif
++
++#ifdef CONFIG_P2P
++	case SCAN_TO_P2P_LISTEN:
++		/*
++		* Set the P2P State to the listen state of find phase
++		* and set the current channel to the listen channel
++		*/
++		set_channel_bwmode(padapter, pwdinfo->listen_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_FIND_PHASE_LISTEN);
++
++		/* turn on phy-dynamic functions */
++		rtw_phydm_ability_restore(padapter);
++
++		sitesurvey_set_igi(padapter, 0);
++
++		mlmeext_set_scan_state(pmlmeext, SCAN_P2P_LISTEN);
++		_set_timer(&pwdinfo->find_phase_timer, (u32)((u32)pwdinfo->listen_dwell * 100));
++		break;
++
++	case SCAN_P2P_LISTEN:
++		mlmeext_set_scan_state(pmlmeext, SCAN_PROCESS);
++		ss->channel_idx = 0;
++		goto operation_by_state;
++#endif /* CONFIG_P2P */
++
++	case SCAN_COMPLETE:
++#ifdef CONFIG_P2P
++		if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_SCAN)
++		    || rtw_p2p_chk_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH)
++		   ) {
++#ifdef CONFIG_CONCURRENT_MODE
++			if (pwdinfo->driver_interface == DRIVER_WEXT) {
++				if (rtw_mi_check_status(padapter, MI_LINKED))
++					_set_timer(&pwdinfo->ap_p2p_switch_timer, 500);
++			}
++#endif
++
++			rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++		}
++		rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_NONE);
++#endif /* CONFIG_P2P */
++
++		/* switch channel */
++		survey_done_set_ch_bw(padapter);
++
++		sitesurvey_set_msr(padapter, _FALSE);
++
++		val8 = 0; /* survey done */
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++
++		/* turn on phy-dynamic functions */
++		rtw_phydm_ability_restore(padapter);
++
++		sitesurvey_set_igi(padapter, 0);
++
++#ifdef CONFIG_MCC_MODE
++		/* start MCC fail, then tx null data */
++		if (!rtw_hal_set_mcc_setting_scan_complete(padapter))
++#endif /* CONFIG_MCC_MODE */
++			sitesurvey_ps_annc(padapter, 0);
++
++		/* apply rx ampdu setting */
++		rtw_rx_ampdu_apply(padapter);
++
++		mlmeext_set_scan_state(pmlmeext, SCAN_DISABLE);
++
++		report_surveydone_event(padapter);
++
++		issue_action_BSSCoexistPacket(padapter);
++		issue_action_BSSCoexistPacket(padapter);
++		issue_action_BSSCoexistPacket(padapter);
++	}
++
++	return H2C_SUCCESS;
++}
++
++u8 setauth_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct setauth_parm		*pparm = (struct setauth_parm *)pbuf;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (pparm->mode < 4)
++		pmlmeinfo->auth_algo = pparm->mode;
++
++	return	H2C_SUCCESS;
++}
++
++/*
++SEC CAM Entry format (32 bytes)
++DW0 - MAC_ADDR[15:0] | Valid[15] | MFB[14:8] | RSVD[7]  | GK[6] | MIC_KEY[5] | SEC_TYPE[4:2] | KID[1:0]
++DW0 - MAC_ADDR[15:0] | Valid[15] |RSVD[14:9] | RPT_MODE[8] | SPP_MODE[7]  | GK[6] | MIC_KEY[5] | SEC_TYPE[4:2] | KID[1:0] (92E/8812A/8814A)
++DW1 - MAC_ADDR[47:16]
++DW2 - KEY[31:0]
++DW3 - KEY[63:32]
++DW4 - KEY[95:64]
++DW5 - KEY[127:96]
++DW6 - RSVD
++DW7 - RSVD
++*/
++
++/*Set WEP key or Group Key*/
++u8 setkey_hdl(_adapter *padapter, u8 *pbuf)
++{
++	u16	ctrl = 0;
++	s16 cam_id = 0;
++	struct setkey_parm		*pparm = (struct setkey_parm *)pbuf;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	unsigned char null_addr[] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
++	u8 *addr;
++	bool used = _FALSE;
++
++	/* main tx key for wep. */
++	if (pparm->set_tx)
++		pmlmeinfo->key_index = pparm->keyid;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) || ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE))
++		cam_id = rtw_iface_bcmc_id_get(padapter);
++	else
++#endif
++		cam_id = rtw_camid_alloc(padapter, NULL, pparm->keyid, &used);
++
++	if (cam_id < 0)
++		goto enable_mc;
++
++#ifndef CONFIG_CONCURRENT_MODE
++	if (cam_id >= 0 && cam_id <= 3)
++		addr = null_addr;
++	else
++#endif
++	{
++		if (((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) || ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE))
++			/* for AP mode ,we will force sec cam entry_id so hw dont search cam when tx*/
++			addr = adapter_mac_addr(padapter);
++		else
++			/* not default key, searched by A2 */
++			addr = get_bssid(&padapter->mlmepriv);
++	}
++
++	/* cam entry searched is pairwise key */
++	if (used == _TRUE && rtw_camid_is_gk(padapter, cam_id) == _FALSE) {
++		s16 camid_clr;
++
++		RTW_PRINT(FUNC_ADPT_FMT" group key with "MAC_FMT" id:%u the same key id as pairwise key\n"
++			, FUNC_ADPT_ARG(padapter), MAC_ARG(addr), pparm->keyid);
++
++		/* HW has problem to distinguish this group key with existing pairwise key, stop HW enc and dec for BMC */
++		rtw_camctl_set_flags(padapter, SEC_STATUS_STA_PK_GK_CONFLICT_DIS_BMC_SEARCH);
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, NULL);
++
++		/* clear group key */
++		while ((camid_clr = rtw_camid_search(padapter, addr, -1, 1)) >= 0) {
++			RTW_PRINT("clear group key for addr:"MAC_FMT", camid:%d\n", MAC_ARG(addr), camid_clr);
++			clear_cam_entry(padapter, camid_clr);
++			rtw_camid_free(padapter, camid_clr);
++		}
++
++		goto enable_mc;
++	}
++
++	ctrl = BIT(15) | BIT(6) | ((pparm->algorithm) << 2) | pparm->keyid;
++
++	RTW_PRINT("set group key camid:%d, addr:"MAC_FMT", kid:%d, type:%s\n"
++		, cam_id, MAC_ARG(addr), pparm->keyid, security_type_str(pparm->algorithm));
++
++	write_cam(padapter, cam_id, ctrl, addr, pparm->key);
++
++	/* if ((cam_id > 3) && (((pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE) || ((pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE)))*/
++#ifdef CONFIG_CONCURRENT_MODE
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) || ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE)) {
++		if (is_wep_enc(pparm->algorithm)) {
++			padapter->securitypriv.dot11Def_camid[pparm->keyid] = cam_id;
++			padapter->securitypriv.dot118021x_bmc_cam_id =
++				padapter->securitypriv.dot11Def_camid[padapter->securitypriv.dot11PrivacyKeyIndex];
++			RTW_PRINT("wep group key - force camid:%d\n", padapter->securitypriv.dot118021x_bmc_cam_id);
++		} else {
++			/*u8 org_cam_id = padapter->securitypriv.dot118021x_bmc_cam_id;*/
++
++			/*force GK's cam id*/
++			padapter->securitypriv.dot118021x_bmc_cam_id = cam_id;
++
++			/* for GTK rekey
++			if ((org_cam_id != INVALID_SEC_MAC_CAM_ID) &&
++				(org_cam_id != cam_id)) {
++				RTW_PRINT("clear group key for addr:"MAC_FMT", org_camid:%d new_camid:%d\n", MAC_ARG(addr), org_cam_id, cam_id);
++				clear_cam_entry(padapter, org_cam_id);
++				rtw_camid_free(padapter, org_cam_id);
++			}*/
++		}
++	}
++#endif
++
++
++#ifndef CONFIG_CONCURRENT_MODE
++	if (cam_id >= 0 && cam_id <= 3)
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_DK_CFG, (u8 *)_TRUE);
++#endif
++
++	/* 8814au should set both broadcast and unicast CAM entry for WEP key in STA mode */
++	if (is_wep_enc(pparm->algorithm) && check_mlmeinfo_state(pmlmeext, WIFI_FW_STATION_STATE) &&
++	    _rtw_camctl_chk_cap(padapter, SEC_CAP_CHK_BMC)) {
++		struct set_stakey_parm	sta_pparm;
++
++		sta_pparm.algorithm = pparm->algorithm;
++		sta_pparm.keyid = pparm->keyid;
++		_rtw_memcpy(sta_pparm.key, pparm->key, 16);
++		_rtw_memcpy(sta_pparm.addr, get_bssid(&padapter->mlmepriv), ETH_ALEN);
++		set_stakey_hdl(padapter, (u8 *)&sta_pparm);
++	}
++
++enable_mc:
++	/* allow multicast packets to driver */
++	rtw_hal_set_hwreg(padapter, HW_VAR_ON_RCR_AM, null_addr);
++
++	return H2C_SUCCESS;
++}
++
++void rtw_ap_wep_pk_setting(_adapter *adapter, struct sta_info *psta)
++{
++	struct security_priv *psecuritypriv = &(adapter->securitypriv);
++	struct set_stakey_parm	sta_pparm;
++	sint keyid;
++
++	if (!is_wep_enc(psecuritypriv->dot11PrivacyAlgrthm))
++		return;
++
++	for (keyid = 0; keyid < 4; keyid++) {
++		if ((psecuritypriv->key_mask & BIT(keyid)) && (keyid == psecuritypriv->dot11PrivacyKeyIndex)) {
++			sta_pparm.algorithm = psecuritypriv->dot11PrivacyAlgrthm;
++			sta_pparm.keyid = keyid;
++			_rtw_memcpy(sta_pparm.key, &(psecuritypriv->dot11DefKey[keyid].skey[0]), 16);
++			_rtw_memcpy(sta_pparm.addr, psta->hwaddr, ETH_ALEN);
++
++			RTW_PRINT(FUNC_ADPT_FMT"set WEP - PK with "MAC_FMT" keyid:%u\n"
++				, FUNC_ADPT_ARG(adapter), MAC_ARG(psta->hwaddr), keyid);
++
++			set_stakey_hdl(adapter, (u8 *)&sta_pparm);
++		}
++	}
++}
++
++u8 set_stakey_hdl(_adapter *padapter, u8 *pbuf)
++{
++	u16 ctrl = 0;
++	s16 cam_id = 0;
++	bool used;
++	u8 kid = 0;
++	u8 ret = H2C_SUCCESS;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct set_stakey_parm	*pparm = (struct set_stakey_parm *)pbuf;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta;
++
++	if (pparm->algorithm == _NO_PRIVACY_)
++		goto write_to_cam;
++
++	psta = rtw_get_stainfo(pstapriv, pparm->addr);
++	if (!psta) {
++		RTW_PRINT("%s sta:"MAC_FMT" not found\n", __func__, MAC_ARG(pparm->addr));
++		ret = H2C_REJECTED;
++		goto exit;
++	}
++
++	pmlmeinfo->enc_algo = pparm->algorithm;
++	if (is_wep_enc(pparm->algorithm))
++		kid = pparm->keyid;
++	cam_id = rtw_camid_alloc(padapter, psta, kid, &used);
++	if (cam_id < 0)
++		goto exit;
++
++	/* cam entry searched is group key */
++	if (used == _TRUE && rtw_camid_is_gk(padapter, cam_id) == _TRUE) {
++		s16 camid_clr;
++
++		RTW_PRINT(FUNC_ADPT_FMT" pairwise key with "MAC_FMT" id:%u the same key id as group key\n"
++			, FUNC_ADPT_ARG(padapter), MAC_ARG(pparm->addr), pparm->keyid);
++
++		/* HW has problem to distinguish this pairwise key with existing group key, stop HW enc and dec for BMC */
++		rtw_camctl_set_flags(padapter, SEC_STATUS_STA_PK_GK_CONFLICT_DIS_BMC_SEARCH);
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, NULL);
++
++		/* clear group key */
++		while ((camid_clr = rtw_camid_search(padapter, pparm->addr, -1, 1)) >= 0) {
++			RTW_PRINT("clear group key for addr:"MAC_FMT", camid:%d\n", MAC_ARG(pparm->addr), camid_clr);
++			clear_cam_entry(padapter, camid_clr);
++			rtw_camid_free(padapter, camid_clr);
++		}
++	}
++
++write_to_cam:
++	if (pparm->algorithm == _NO_PRIVACY_) {
++		while ((cam_id = rtw_camid_search(padapter, pparm->addr, -1, -1)) >= 0) {
++			RTW_PRINT("clear key for addr:"MAC_FMT", camid:%d\n", MAC_ARG(pparm->addr), cam_id);
++			clear_cam_entry(padapter, cam_id);
++			rtw_camid_free(padapter, cam_id);
++		}
++	} else {
++		RTW_PRINT("set pairwise key camid:%d, addr:"MAC_FMT", kid:%d, type:%s\n",
++			cam_id, MAC_ARG(pparm->addr), pparm->keyid, security_type_str(pparm->algorithm));
++		ctrl = BIT(15) | ((pparm->algorithm) << 2) | pparm->keyid;
++		write_cam(padapter, cam_id, ctrl, pparm->addr, pparm->key);
++	}
++	ret = H2C_SUCCESS_RSP;
++
++exit:
++	return ret;
++}
++
++u8 add_ba_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct addBaReq_parm	*pparm = (struct addBaReq_parm *)pbuf;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	struct sta_info *psta = rtw_get_stainfo(&padapter->stapriv, pparm->addr);
++
++	if (!psta)
++		return	H2C_SUCCESS;
++
++#ifdef CONFIG_80211N_HT
++	if (((pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS) && (pmlmeinfo->HT_enable)) ||
++	    ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE)) {
++		/* pmlmeinfo->ADDBA_retry_count = 0; */
++		/* pmlmeinfo->candidate_tid_bitmap |= (0x1 << pparm->tid);		 */
++		/* psta->htpriv.candidate_tid_bitmap |= BIT(pparm->tid); */
++		issue_addba_req(padapter, pparm->addr, (u8)pparm->tid);
++		/* _set_timer(&pmlmeext->ADDBA_timer, ADDBA_TO); */
++		_set_timer(&psta->addba_retry_timer, ADDBA_TO);
++	}
++#ifdef CONFIG_TDLS
++	else if ((psta->tdls_sta_state & TDLS_LINKED_STATE) &&
++		 (psta->htpriv.ht_option == _TRUE) &&
++		 (psta->htpriv.ampdu_enable == _TRUE)) {
++		issue_addba_req(padapter, pparm->addr, (u8)pparm->tid);
++		_set_timer(&psta->addba_retry_timer, ADDBA_TO);
++	}
++#endif /* CONFIG */
++	else
++		psta->htpriv.candidate_tid_bitmap &= ~BIT(pparm->tid);
++#endif /* CONFIG_80211N_HT */
++	return	H2C_SUCCESS;
++}
++
++
++u8 add_ba_rsp_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct addBaRsp_parm *pparm = (struct addBaRsp_parm *)pbuf;
++	u8 ret = _TRUE, i = 0, try_cnt = 3, wait_ms = 50;
++	struct recv_reorder_ctrl *preorder_ctrl;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta;
++
++	psta = rtw_get_stainfo(pstapriv, pparm->addr);
++	if (!psta)
++		goto exit;
++
++	preorder_ctrl = &psta->recvreorder_ctrl[pparm->tid];
++	ret = issue_addba_rsp_wait_ack(padapter, pparm->addr, pparm->tid, pparm->status, pparm->size, 3, 50);
++
++#ifdef CONFIG_UPDATE_INDICATE_SEQ_WHILE_PROCESS_ADDBA_REQ
++	/* status = 0 means accept this addba req, so update indicate seq = start_seq under this compile flag */
++	if (pparm->status == 0) {
++		preorder_ctrl->indicate_seq = pparm->start_seq;
++#ifdef DBG_RX_SEQ
++		RTW_INFO("DBG_RX_SEQ %s:%d IndicateSeq: %d, start_seq: %d\n", __func__, __LINE__,
++			 preorder_ctrl->indicate_seq, pparm->start_seq);
++#endif
++	}
++#else
++	preorder_ctrl->indicate_seq = 0xffff;
++#endif
++
++	/*
++	  * status = 0 means accept this addba req
++	  * status = 37 means reject this addba req
++	  */
++	if (pparm->status == 0) {
++		preorder_ctrl->enable = _TRUE;
++		preorder_ctrl->ampdu_size = pparm->size;
++	} else if (pparm->status == 37)
++		preorder_ctrl->enable = _FALSE;
++
++exit:
++	return H2C_SUCCESS;
++}
++
++u8 chk_bmc_sleepq_cmd(_adapter *padapter)
++{
++	struct cmd_obj *ph2c;
++	struct cmd_priv *pcmdpriv = &(padapter->cmdpriv);
++	u8 res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_parm_rsp(ph2c, GEN_CMD_CODE(_ChkBMCSleepq));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return res;
++}
++
++u8 set_tx_beacon_cmd(_adapter *padapter)
++{
++	struct cmd_obj	*ph2c;
++	struct Tx_Beacon_param	*ptxBeacon_parm;
++	struct cmd_priv	*pcmdpriv = &(padapter->cmdpriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8	res = _SUCCESS;
++	int len_diff = 0;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	ptxBeacon_parm = (struct Tx_Beacon_param *)rtw_zmalloc(sizeof(struct Tx_Beacon_param));
++	if (ptxBeacon_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	_rtw_memcpy(&(ptxBeacon_parm->network), &(pmlmeinfo->network), sizeof(WLAN_BSSID_EX));
++
++	len_diff = update_hidden_ssid(
++			   ptxBeacon_parm->network.IEs + _BEACON_IE_OFFSET_
++		   , ptxBeacon_parm->network.IELength - _BEACON_IE_OFFSET_
++			   , pmlmeinfo->hidden_ssid_mode
++		   );
++	ptxBeacon_parm->network.IELength += len_diff;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, ptxBeacon_parm, GEN_CMD_CODE(_TX_Beacon));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++
++exit:
++
++
++	return res;
++}
++
++
++u8 mlme_evt_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	u8 evt_code, evt_seq;
++	u16 evt_sz;
++	uint	*peventbuf;
++	void (*event_callback)(_adapter *dev, u8 *pbuf);
++	struct evt_priv *pevt_priv = &(padapter->evtpriv);
++
++	if (pbuf == NULL)
++		goto _abort_event_;
++
++	peventbuf = (uint *)pbuf;
++	evt_sz = (u16)(*peventbuf & 0xffff);
++	evt_seq = (u8)((*peventbuf >> 24) & 0x7f);
++	evt_code = (u8)((*peventbuf >> 16) & 0xff);
++
++
++#ifdef CHECK_EVENT_SEQ
++	/* checking event sequence...		 */
++	if (evt_seq != (ATOMIC_READ(&pevt_priv->event_seq) & 0x7f)) {
++
++		pevt_priv->event_seq = (evt_seq + 1) & 0x7f;
++
++		goto _abort_event_;
++	}
++#endif
++
++	/* checking if event code is valid */
++	if (evt_code >= MAX_C2HEVT) {
++		goto _abort_event_;
++	}
++
++	/* checking if event size match the event parm size	 */
++	if ((wlanevents[evt_code].parmsize != 0) &&
++	    (wlanevents[evt_code].parmsize != evt_sz)) {
++
++		goto _abort_event_;
++
++	}
++
++	ATOMIC_INC(&pevt_priv->event_seq);
++
++	peventbuf += 2;
++
++	if (peventbuf) {
++		event_callback = wlanevents[evt_code].event_callback;
++		event_callback(padapter, (u8 *)peventbuf);
++
++		pevt_priv->evt_done_cnt++;
++	}
++
++
++_abort_event_:
++
++
++	return H2C_SUCCESS;
++
++}
++
++u8 h2c_msg_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	if (!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	return H2C_SUCCESS;
++}
++
++u8 chk_bmc_sleepq_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++#ifdef CONFIG_AP_MODE
++	_irqL irqL;
++	struct sta_info *psta_bmc;
++	_list	*xmitframe_plist, *xmitframe_phead;
++	struct xmit_frame *pxmitframe = NULL;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct sta_priv  *pstapriv = &padapter->stapriv;
++
++	/* for BC/MC Frames */
++	psta_bmc = rtw_get_bcmc_stainfo(padapter);
++	if (!psta_bmc)
++		return H2C_SUCCESS;
++
++	if ((pstapriv->tim_bitmap & BIT(0)) && (psta_bmc->sleepq_len > 0)) {
++#ifndef CONFIG_PCI_HCI
++		rtw_msleep_os(10);/* 10ms, ATIM(HIQ) Windows */
++#endif
++		/* _enter_critical_bh(&psta_bmc->sleep_q.lock, &irqL); */
++		_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++		xmitframe_phead = get_list_head(&psta_bmc->sleep_q);
++		xmitframe_plist = get_next(xmitframe_phead);
++
++		while ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE) {
++			pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++			xmitframe_plist = get_next(xmitframe_plist);
++
++			rtw_list_delete(&pxmitframe->list);
++
++			psta_bmc->sleepq_len--;
++			if (psta_bmc->sleepq_len > 0)
++				pxmitframe->attrib.mdata = 1;
++			else
++				pxmitframe->attrib.mdata = 0;
++
++			pxmitframe->attrib.triggered = 1;
++
++			if (xmitframe_hiq_filter(pxmitframe) == _TRUE)
++				pxmitframe->attrib.qsel = QSLT_HIGH;/* HIQ */
++
++#if 0
++			_exit_critical_bh(&psta_bmc->sleep_q.lock, &irqL);
++			if (rtw_hal_xmit(padapter, pxmitframe) == _TRUE)
++				rtw_os_xmit_complete(padapter, pxmitframe);
++			_enter_critical_bh(&psta_bmc->sleep_q.lock, &irqL);
++#endif
++			rtw_hal_xmitframe_enqueue(padapter, pxmitframe);
++		}
++
++		/* _exit_critical_bh(&psta_bmc->sleep_q.lock, &irqL); */
++		_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++		if (rtw_get_intf_type(padapter) != RTW_PCIE) {
++			/* check hi queue and bmc_sleepq */
++			rtw_chk_hi_queue_cmd(padapter);
++		}
++	}
++#endif
++
++	return H2C_SUCCESS;
++}
++
++u8 tx_beacon_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++
++#ifdef CONFIG_SWTIMER_BASED_TXBCN
++
++	tx_beacon_handlder(padapter->dvobj);
++
++#else
++
++	if (send_beacon(padapter) == _FAIL) {
++		RTW_INFO("issue_beacon, fail!\n");
++		return H2C_PARAMETERS_ERROR;
++	}
++
++	/* tx bc/mc frames after update TIM */
++	chk_bmc_sleepq_hdl(padapter, NULL);
++#endif
++
++	return H2C_SUCCESS;
++}
++
++/*
++* according to channel
++* add/remove WLAN_BSSID_EX.IEs's ERP ie
++* set WLAN_BSSID_EX.SupportedRates
++* update WLAN_BSSID_EX.IEs's Supported Rate and Extended Supported Rate ie
++*/
++void change_band_update_ie(_adapter *padapter, WLAN_BSSID_EX *pnetwork, u8 ch)
++{
++	u8	network_type, rate_len, total_rate_len, remainder_rate_len;
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8	erpinfo = 0x4;
++
++	if (ch >= 36) {
++		network_type = WIRELESS_11A;
++		total_rate_len = IEEE80211_NUM_OFDM_RATESLEN;
++		rtw_remove_bcn_ie(padapter, pnetwork, _ERPINFO_IE_);
++	} else {
++		network_type = WIRELESS_11BG;
++		total_rate_len = IEEE80211_CCK_RATE_LEN + IEEE80211_NUM_OFDM_RATESLEN;
++		rtw_add_bcn_ie(padapter, pnetwork, _ERPINFO_IE_, &erpinfo, 1);
++	}
++
++	rtw_set_supported_rate(pnetwork->SupportedRates, network_type);
++
++	UpdateBrateTbl(padapter, pnetwork->SupportedRates);
++
++	if (total_rate_len > 8) {
++		rate_len = 8;
++		remainder_rate_len = total_rate_len - 8;
++	} else {
++		rate_len = total_rate_len;
++		remainder_rate_len = 0;
++	}
++
++	rtw_add_bcn_ie(padapter, pnetwork, _SUPPORTEDRATES_IE_, pnetwork->SupportedRates, rate_len);
++
++	if (remainder_rate_len)
++		rtw_add_bcn_ie(padapter, pnetwork, _EXT_SUPPORTEDRATES_IE_, (pnetwork->SupportedRates + 8), remainder_rate_len);
++	else
++		rtw_remove_bcn_ie(padapter, pnetwork, _EXT_SUPPORTEDRATES_IE_);
++
++	pnetwork->Length = get_WLAN_BSSID_EX_sz(pnetwork);
++}
++
++void rtw_join_done_chk_ch(_adapter *adapter, int join_res)
++{
++#define DUMP_ADAPTERS_STATUS 0
++
++	struct dvobj_priv *dvobj;
++	_adapter *iface;
++	struct mlme_priv *mlme;
++	struct mlme_ext_priv *mlmeext;
++	u8 u_ch, u_offset, u_bw;
++	int i;
++
++	dvobj = adapter_to_dvobj(adapter);
++
++	if (DUMP_ADAPTERS_STATUS) {
++		RTW_INFO(FUNC_ADPT_FMT" enter\n", FUNC_ADPT_ARG(adapter));
++		dump_adapters_status(RTW_DBGDUMP , dvobj);
++	}
++
++	if (join_res >= 0) {
++
++#ifdef CONFIG_MCC_MODE
++		/* MCC setting success, don't go to ch union process */
++		if (rtw_hal_set_mcc_setting_join_done_chk_ch(adapter))
++			return;
++#endif /* CONFIG_MCC_MODE */
++
++		if (rtw_mi_get_ch_setting_union(adapter, &u_ch, &u_bw, &u_offset) <= 0) {
++			dump_adapters_status(RTW_DBGDUMP , dvobj);
++			rtw_warn_on(1);
++		}
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			mlme = &iface->mlmepriv;
++			mlmeext = &iface->mlmeextpriv;
++
++			if (!iface || iface == adapter)
++				continue;
++
++			if (check_fwstate(mlme, WIFI_AP_STATE)
++			    && check_fwstate(mlme, WIFI_ASOC_STATE)
++			   ) {
++				bool is_grouped = rtw_is_chbw_grouped(u_ch, u_bw, u_offset
++					, mlmeext->cur_channel, mlmeext->cur_bwmode, mlmeext->cur_ch_offset);
++
++				if (is_grouped == _FALSE) {
++					/* handle AP which need to switch ch setting */
++
++					/* restore original bw, adjust bw by registry setting on target ch */
++					mlmeext->cur_bwmode = mlme->ori_bw;
++					mlmeext->cur_channel = u_ch;
++					rtw_adjust_chbw(iface
++						, mlmeext->cur_channel, &mlmeext->cur_bwmode, &mlmeext->cur_ch_offset);
++
++					rtw_sync_chbw(&mlmeext->cur_channel, &mlmeext->cur_bwmode, &mlmeext->cur_ch_offset
++						, &u_ch, &u_bw, &u_offset);
++
++					rtw_ap_update_bss_chbw(iface, &(mlmeext->mlmext_info.network)
++						, mlmeext->cur_channel, mlmeext->cur_bwmode, mlmeext->cur_ch_offset);
++
++					_rtw_memcpy(&(mlme->cur_network.network), &(mlmeext->mlmext_info.network), sizeof(WLAN_BSSID_EX));
++
++					rtw_start_bss_hdl_after_chbw_decided(iface);
++				}
++
++				update_beacon(iface, 0, NULL, _TRUE);
++			}
++
++			clr_fwstate(mlme, WIFI_OP_CH_SWITCHING);
++		}
++
++#ifdef CONFIG_DFS_MASTER
++		rtw_dfs_master_status_apply(adapter, MLME_STA_CONNECTED);
++#endif
++	} else {
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			mlme = &iface->mlmepriv;
++			mlmeext = &iface->mlmeextpriv;
++
++			if (!iface || iface == adapter)
++				continue;
++
++			if (check_fwstate(mlme, WIFI_AP_STATE)
++			    && check_fwstate(mlme, WIFI_ASOC_STATE))
++				update_beacon(iface, 0, NULL, _TRUE);
++
++			clr_fwstate(mlme, WIFI_OP_CH_SWITCHING);
++		}
++#ifdef CONFIG_DFS_MASTER
++		rtw_dfs_master_status_apply(adapter, MLME_STA_DISCONNECTED);
++#endif
++	}
++
++	if (rtw_mi_get_ch_setting_union(adapter, &u_ch, &u_bw, &u_offset)) {
++		set_channel_bwmode(adapter, u_ch, u_offset, u_bw);
++		rtw_mi_update_union_chan_inf(adapter, u_ch, u_offset, u_bw);
++	}
++
++	if (DUMP_ADAPTERS_STATUS) {
++		RTW_INFO(FUNC_ADPT_FMT" exit\n", FUNC_ADPT_ARG(adapter));
++		dump_adapters_status(RTW_DBGDUMP , dvobj);
++	}
++}
++
++int rtw_chk_start_clnt_join(_adapter *adapter, u8 *ch, u8 *bw, u8 *offset)
++{
++	bool chbw_allow = _TRUE;
++	bool connect_allow = _TRUE;
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++	u8 cur_ch, cur_bw, cur_ch_offset;
++	u8 u_ch, u_offset, u_bw;
++
++	u_ch = cur_ch = pmlmeext->cur_channel;
++	u_bw = cur_bw = pmlmeext->cur_bwmode;
++	u_offset = cur_ch_offset = pmlmeext->cur_ch_offset;
++
++	if (!ch || !bw || !offset) {
++		connect_allow = _FALSE;
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (cur_ch == 0) {
++		connect_allow = _FALSE;
++		RTW_ERR(FUNC_ADPT_FMT" cur_ch:%u\n"
++			, FUNC_ADPT_ARG(adapter), cur_ch);
++		rtw_warn_on(1);
++		goto exit;
++	}
++	RTW_INFO(FUNC_ADPT_FMT" req: %u,%u,%u\n", FUNC_ADPT_ARG(adapter), u_ch, u_bw, u_offset);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	{
++		struct dvobj_priv *dvobj;
++		_adapter *iface;
++		struct mlme_priv *mlme;
++		struct mlme_ext_priv *mlmeext;
++		u8 sta_num;
++		u8 ld_sta_num;
++		u8 lg_sta_num;
++		u8 ap_num;
++		u8 ld_ap_num;
++		int i;
++
++		dvobj = adapter_to_dvobj(adapter);
++
++		rtw_mi_status_no_self(adapter, &sta_num, &ld_sta_num, &lg_sta_num, &ap_num, &ld_ap_num, NULL);
++		RTW_INFO(FUNC_ADPT_FMT" ld_sta_num:%u, ap_num:%u\n"
++			 , FUNC_ADPT_ARG(adapter), ld_sta_num, ap_num);
++
++		if (!ld_sta_num && !ap_num) {
++			/* consider linking STA? */
++			goto connect_allow_hdl;
++		}
++
++		if (rtw_mi_get_ch_setting_union_no_self(adapter, &u_ch, &u_bw, &u_offset) <= 0) {
++			dump_adapters_status(RTW_DBGDUMP , dvobj);
++			rtw_warn_on(1);
++		}
++		RTW_INFO(FUNC_ADPT_FMT" union no self: %u,%u,%u\n"
++			 , FUNC_ADPT_ARG(adapter), u_ch, u_bw, u_offset);
++
++		/* chbw_allow? */
++		chbw_allow = rtw_is_chbw_grouped(pmlmeext->cur_channel, pmlmeext->cur_bwmode, pmlmeext->cur_ch_offset
++						 , u_ch, u_bw, u_offset);
++
++		RTW_INFO(FUNC_ADPT_FMT" chbw_allow:%d\n"
++			 , FUNC_ADPT_ARG(adapter), chbw_allow);
++
++#ifdef CONFIG_MCC_MODE
++		/* check setting success, don't go to ch union process */
++		if (rtw_hal_set_mcc_setting_chk_start_clnt_join(adapter, &u_ch, &u_bw, &u_offset, chbw_allow))
++			goto exit;
++#endif
++
++		if (chbw_allow == _TRUE) {
++			rtw_sync_chbw(&cur_ch, &cur_bw, &cur_ch_offset, &u_ch, &u_bw, &u_offset);
++			rtw_warn_on(cur_ch != pmlmeext->cur_channel);
++			rtw_warn_on(cur_bw != pmlmeext->cur_bwmode);
++			rtw_warn_on(cur_ch_offset != pmlmeext->cur_ch_offset);
++			goto connect_allow_hdl;
++		}
++
++#ifdef CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT
++		/* chbw_allow is _FALSE, connect allow? */
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			mlme = &iface->mlmepriv;
++			mlmeext = &iface->mlmeextpriv;
++
++			if (check_fwstate(mlme, WIFI_STATION_STATE)
++			    && check_fwstate(mlme, WIFI_ASOC_STATE)
++#if defined(CONFIG_P2P)
++			    && rtw_p2p_chk_state(&(iface->wdinfo), P2P_STATE_NONE)
++#endif
++			   ) {
++				connect_allow = _FALSE;
++				break;
++			}
++		}
++#endif /* CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT */
++
++		if ((ld_sta_num + ld_ap_num) >= 2)
++			connect_allow = _FALSE;
++
++		RTW_INFO(FUNC_ADPT_FMT" connect_allow:%d\n"
++			 , FUNC_ADPT_ARG(adapter), connect_allow);
++
++		if (connect_allow == _FALSE)
++			goto exit;
++
++connect_allow_hdl:
++		/* connect_allow == _TRUE */
++
++#ifdef CONFIG_DFS_MASTER
++		rtw_dfs_master_status_apply(adapter, MLME_STA_CONNECTING);
++#endif
++
++		if (chbw_allow == _FALSE) {
++			u_ch = cur_ch;
++			u_bw = cur_bw;
++			u_offset = cur_ch_offset;
++
++			for (i = 0; i < dvobj->iface_nums; i++) {
++				iface = dvobj->padapters[i];
++				mlme = &iface->mlmepriv;
++				mlmeext = &iface->mlmeextpriv;
++
++				if (!iface || iface == adapter)
++					continue;
++
++				if (check_fwstate(mlme, WIFI_AP_STATE)
++				    && check_fwstate(mlme, WIFI_ASOC_STATE)
++				   ) {
++#ifdef CONFIG_SPCT_CH_SWITCH
++					if (1)
++						rtw_ap_inform_ch_switch(iface, pmlmeext->cur_channel , pmlmeext->cur_ch_offset);
++					else
++#endif
++						rtw_sta_flush(iface, _FALSE);
++
++					rtw_hal_set_hwreg(iface, HW_VAR_CHECK_TXBUF, 0);
++					set_fwstate(mlme, WIFI_OP_CH_SWITCHING);
++				} else if (check_fwstate(mlme, WIFI_STATION_STATE)
++					&& check_fwstate(mlme, WIFI_ASOC_STATE)
++					  ) {
++					rtw_disassoc_cmd(iface, 500, _FALSE);
++					rtw_indicate_disconnect(iface, 0, _FALSE);
++					rtw_free_assoc_resources(iface, 1);
++				}
++			}
++		}
++	}
++#endif /* CONFIG_CONCURRENT_MODE */
++
++exit:
++
++	if (connect_allow == _TRUE) {
++		RTW_INFO(FUNC_ADPT_FMT" union: %u,%u,%u\n", FUNC_ADPT_ARG(adapter), u_ch, u_bw, u_offset);
++		*ch = u_ch;
++		*bw = u_bw;
++		*offset = u_offset;
++	}
++
++	return connect_allow == _TRUE ? _SUCCESS : _FAIL;
++}
++
++
++u8 set_ch_hdl(_adapter *padapter, u8 *pbuf)
++{
++	struct set_ch_parm *set_ch_parm;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	if (!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	set_ch_parm = (struct set_ch_parm *)pbuf;
++
++	RTW_INFO(FUNC_NDEV_FMT" ch:%u, bw:%u, ch_offset:%u\n",
++		 FUNC_NDEV_ARG(padapter->pnetdev),
++		 set_ch_parm->ch, set_ch_parm->bw, set_ch_parm->ch_offset);
++
++	pmlmeext->cur_channel = set_ch_parm->ch;
++	pmlmeext->cur_ch_offset = set_ch_parm->ch_offset;
++	pmlmeext->cur_bwmode = set_ch_parm->bw;
++
++	set_channel_bwmode(padapter, set_ch_parm->ch, set_ch_parm->ch_offset, set_ch_parm->bw);
++
++	return	H2C_SUCCESS;
++}
++
++u8 set_chplan_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct SetChannelPlan_param *setChannelPlan_param;
++	struct mlme_priv *mlme = &padapter->mlmepriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	if (!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	setChannelPlan_param = (struct SetChannelPlan_param *)pbuf;
++
++	if (!rtw_is_channel_plan_valid(setChannelPlan_param->channel_plan))
++		return H2C_PARAMETERS_ERROR;
++
++	mlme->country_ent = setChannelPlan_param->country_ent;
++	mlme->ChannelPlan = setChannelPlan_param->channel_plan;
++
++	pmlmeext->max_chan_nums = init_channel_set(padapter, setChannelPlan_param->channel_plan, pmlmeext->channel_set);
++	init_channel_list(padapter, pmlmeext->channel_set, pmlmeext->max_chan_nums, &pmlmeext->channel_list);
++
++	rtw_hal_set_odm_var(padapter, HAL_ODM_REGULATION, NULL, _TRUE);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_reg_notify_by_driver(padapter);
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	return	H2C_SUCCESS;
++}
++
++u8 led_blink_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct LedBlink_param *ledBlink_param;
++
++	if (!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	ledBlink_param = (struct LedBlink_param *)pbuf;
++
++#ifdef CONFIG_LED_HANDLED_BY_CMD_THREAD
++	BlinkHandler((PLED_DATA)ledBlink_param->pLed);
++#endif
++
++	return	H2C_SUCCESS;
++}
++
++u8 set_csa_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++#ifdef CONFIG_DFS
++	struct SetChannelSwitch_param *setChannelSwitch_param;
++	u8 new_ch_no;
++	u8 gval8 = 0x00, sval8 = 0xff;
++
++	if (!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	setChannelSwitch_param = (struct SetChannelSwitch_param *)pbuf;
++	new_ch_no = setChannelSwitch_param->new_ch_no;
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_TXPAUSE, &gval8);
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_TXPAUSE, &sval8);
++
++	RTW_INFO("DFS detected! Swiching channel to %d!\n", new_ch_no);
++	set_channel_bwmode(padapter, new_ch_no, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_TXPAUSE, &gval8);
++
++	rtw_disassoc_cmd(padapter, 0, _FALSE);
++	rtw_indicate_disconnect(padapter, 0, _FALSE);
++	rtw_free_assoc_resources(padapter, 1);
++	rtw_free_network_queue(padapter, _TRUE);
++
++	if (((new_ch_no >= 52) && (new_ch_no <= 64)) || ((new_ch_no >= 100) && (new_ch_no <= 140)))
++		RTW_INFO("Switched to DFS band (ch %02x) again!!\n", new_ch_no);
++
++	return	H2C_SUCCESS;
++#else
++	return	H2C_REJECTED;
++#endif /* CONFIG_DFS */
++
++}
++
++u8 tdls_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++#ifdef CONFIG_TDLS
++	_irqL irqL;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++#ifdef CONFIG_TDLS_CH_SW
++	struct tdls_ch_switch *pchsw_info = &ptdlsinfo->chsw_info;
++#endif
++	struct TDLSoption_param *TDLSoption;
++	struct sta_info *ptdls_sta = NULL;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &pmlmeext->mlmext_info;
++	u8 survey_channel, i, min, option;
++	struct tdls_txmgmt txmgmt;
++	u32 setchtime, resp_sleep = 0, wait_time;
++	u8 zaddr[ETH_ALEN] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
++	u8 ret;
++	u8 doiqk;
++
++	if (!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	TDLSoption = (struct TDLSoption_param *)pbuf;
++	option = TDLSoption->option;
++
++	if (!_rtw_memcmp(TDLSoption->addr, zaddr, ETH_ALEN)) {
++		ptdls_sta = rtw_get_stainfo(&(padapter->stapriv), TDLSoption->addr);
++		if (ptdls_sta == NULL)
++			return H2C_REJECTED;
++	} else {
++		if (!(option == TDLS_RS_RCR))
++			return H2C_REJECTED;
++	}
++
++	/* _enter_critical_bh(&(ptdlsinfo->hdl_lock), &irqL); */
++	/* RTW_INFO("[%s] option:%d\n", __FUNCTION__, option); */
++
++	switch (option) {
++	case TDLS_ESTABLISHED: {
++		/* As long as TDLS handshake success, we should set RCR_CBSSID_DATA bit to 0 */
++		/* So we can receive all kinds of data frames. */
++		u8 sta_band = 0;
++
++		/* leave ALL PS when TDLS is established */
++		rtw_pwr_wakeup(padapter);
++
++		rtw_hal_set_hwreg(padapter, HW_VAR_TDLS_WRCR, 0);
++		RTW_INFO("Created Direct Link with "MAC_FMT"\n", MAC_ARG(ptdls_sta->hwaddr));
++
++		/* Set TDLS sta rate. */
++		/* Update station supportRate */
++		rtw_hal_update_sta_rate_mask(padapter, ptdls_sta);
++		if (pmlmeext->cur_channel > 14) {
++			if (ptdls_sta->ra_mask & 0xffff000)
++				sta_band |= WIRELESS_11_5N ;
++
++			if (ptdls_sta->ra_mask & 0xff0)
++				sta_band |= WIRELESS_11A;
++
++			/* 5G band */
++#ifdef CONFIG_80211AC_VHT
++			if (ptdls_sta->vhtpriv.vht_option)
++				sta_band = WIRELESS_11_5AC;
++#endif
++
++		} else {
++			if (ptdls_sta->ra_mask & 0xffff000)
++				sta_band |= WIRELESS_11_24N;
++
++			if (ptdls_sta->ra_mask & 0xff0)
++				sta_band |= WIRELESS_11G;
++
++			if (ptdls_sta->ra_mask & 0x0f)
++				sta_band |= WIRELESS_11B;
++		}
++		ptdls_sta->wireless_mode = sta_band;
++		ptdls_sta->raid = rtw_hal_networktype_to_raid(padapter, ptdls_sta);
++		set_sta_rate(padapter, ptdls_sta);
++		rtw_sta_media_status_rpt(padapter, ptdls_sta, 1);
++		/* Sta mode */
++		rtw_hal_set_odm_var(padapter, HAL_ODM_STA_INFO, ptdls_sta, _TRUE);
++		break;
++	}
++	case TDLS_ISSUE_PTI:
++		ptdls_sta->tdls_sta_state |= TDLS_WAIT_PTR_STATE;
++		issue_tdls_peer_traffic_indication(padapter, ptdls_sta);
++		_set_timer(&ptdls_sta->pti_timer, TDLS_PTI_TIME);
++		break;
++#ifdef CONFIG_TDLS_CH_SW
++	case TDLS_CH_SW_RESP:
++		_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++		txmgmt.status_code = 0;
++		_rtw_memcpy(txmgmt.peer, ptdls_sta->hwaddr, ETH_ALEN);
++
++		issue_nulldata(padapter, NULL, 1, 3, 3);
++
++		RTW_INFO("[TDLS ] issue tdls channel switch response\n");
++		ret = issue_tdls_ch_switch_rsp(padapter, &txmgmt, _TRUE);
++
++		/* If we receive TDLS_CH_SW_REQ at off channel which it's target is AP's channel */
++		/* then we just switch to AP's channel*/
++		if (padapter->mlmeextpriv.cur_channel == pchsw_info->off_ch_num) {
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_END_TO_BASE_CHNL);
++			break;
++		}
++
++		if (ret == _SUCCESS)
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_TO_OFF_CHNL);
++		else
++			RTW_INFO("[TDLS] issue_tdls_ch_switch_rsp wait ack fail !!!!!!!!!!\n");
++
++		break;
++	case TDLS_CH_SW_PREPARE:
++		pchsw_info->ch_sw_state |= TDLS_CH_SWITCH_PREPARE_STATE;
++
++		/* to collect IQK info of off-chnl */
++		doiqk = _TRUE;
++		rtw_hal_set_hwreg(padapter, HW_VAR_DO_IQK, &doiqk);
++		set_channel_bwmode(padapter, pchsw_info->off_ch_num, pchsw_info->ch_offset, (pchsw_info->ch_offset) ? CHANNEL_WIDTH_40 : CHANNEL_WIDTH_20);
++		doiqk = _FALSE;
++		rtw_hal_set_hwreg(padapter, HW_VAR_DO_IQK, &doiqk);
++
++		/* switch back to base-chnl */
++		set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++
++		rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_START);
++
++		pchsw_info->ch_sw_state &= ~(TDLS_CH_SWITCH_PREPARE_STATE);
++
++		break;
++	case TDLS_CH_SW_START:
++		rtw_tdls_set_ch_sw_oper_control(padapter, _TRUE);
++		break;
++	case TDLS_CH_SW_TO_OFF_CHNL:
++		issue_nulldata(padapter, NULL, 1, 3, 3);
++
++		if (!(pchsw_info->ch_sw_state & TDLS_CH_SW_INITIATOR_STATE))
++			_set_timer(&ptdls_sta->ch_sw_timer, (u32)(ptdls_sta->ch_switch_timeout) / 1000);
++
++		if (rtw_tdls_do_ch_sw(padapter, ptdls_sta, TDLS_CH_SW_OFF_CHNL, pchsw_info->off_ch_num,
++			pchsw_info->ch_offset, (pchsw_info->ch_offset) ? CHANNEL_WIDTH_40 : CHANNEL_WIDTH_20, ptdls_sta->ch_switch_time) == _SUCCESS) {
++			pchsw_info->ch_sw_state &= ~(TDLS_PEER_AT_OFF_STATE);
++			if (pchsw_info->ch_sw_state & TDLS_CH_SW_INITIATOR_STATE) {
++				if (issue_nulldata_to_TDLS_peer_STA(ptdls_sta->padapter, ptdls_sta->hwaddr, 0, 1, 3) == _FAIL)
++					rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_TO_BASE_CHNL);
++			}
++		} else {
++			u8 bcancelled;
++
++			if (!(pchsw_info->ch_sw_state & TDLS_CH_SW_INITIATOR_STATE))
++				_cancel_timer(&ptdls_sta->ch_sw_timer, &bcancelled);
++		}
++
++
++		break;
++	case TDLS_CH_SW_END:
++	case TDLS_CH_SW_END_TO_BASE_CHNL:
++		rtw_tdls_set_ch_sw_oper_control(padapter, _FALSE);
++		_cancel_timer_ex(&ptdls_sta->ch_sw_timer);
++		_cancel_timer_ex(&ptdls_sta->stay_on_base_chnl_timer);
++		_cancel_timer_ex(&ptdls_sta->ch_sw_monitor_timer);
++#if 0
++		_rtw_memset(pHalData->tdls_ch_sw_iqk_info_base_chnl, 0x00, sizeof(pHalData->tdls_ch_sw_iqk_info_base_chnl));
++		_rtw_memset(pHalData->tdls_ch_sw_iqk_info_off_chnl, 0x00, sizeof(pHalData->tdls_ch_sw_iqk_info_off_chnl));
++#endif
++
++		if (option == TDLS_CH_SW_END_TO_BASE_CHNL)
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_TO_BASE_CHNL);
++
++		break;
++	case TDLS_CH_SW_TO_BASE_CHNL_UNSOLICITED:
++	case TDLS_CH_SW_TO_BASE_CHNL:
++		pchsw_info->ch_sw_state &= ~(TDLS_PEER_AT_OFF_STATE | TDLS_WAIT_CH_RSP_STATE);
++
++		if (option == TDLS_CH_SW_TO_BASE_CHNL_UNSOLICITED) {
++			if (ptdls_sta != NULL) {
++				/* Send unsolicited channel switch rsp. to peer */
++				_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++				txmgmt.status_code = 0;
++				_rtw_memcpy(txmgmt.peer, ptdls_sta->hwaddr, ETH_ALEN);
++				issue_tdls_ch_switch_rsp(padapter, &txmgmt, _FALSE);
++			}
++		}
++
++		if (rtw_tdls_do_ch_sw(padapter, ptdls_sta, TDLS_CH_SW_BASE_CHNL, pmlmeext->cur_channel,
++			pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode, ptdls_sta->ch_switch_time) == _SUCCESS) {
++			issue_nulldata(padapter, NULL, 0, 3, 3);
++			/* set ch sw monitor timer for responder */
++			if (!(pchsw_info->ch_sw_state & TDLS_CH_SW_INITIATOR_STATE))
++				_set_timer(&ptdls_sta->ch_sw_monitor_timer, TDLS_CH_SW_MONITOR_TIMEOUT);
++		}
++
++		break;
++#endif
++	case TDLS_RS_RCR:
++		rtw_hal_set_hwreg(padapter, HW_VAR_TDLS_RS_RCR, 0);
++		RTW_INFO("[TDLS] write REG_RCR, set bit6 on\n");
++		break;
++	case TDLS_TEARDOWN_STA:
++		_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++		txmgmt.status_code = 0;
++		_rtw_memcpy(txmgmt.peer, ptdls_sta->hwaddr, ETH_ALEN);
++
++		issue_tdls_teardown(padapter, &txmgmt, _TRUE);
++		break;
++	case TDLS_TEARDOWN_STA_LOCALLY:
++#ifdef CONFIG_TDLS_CH_SW
++		if (_rtw_memcmp(TDLSoption->addr, pchsw_info->addr, ETH_ALEN) == _TRUE) {
++			pchsw_info->ch_sw_state &= ~(TDLS_CH_SW_INITIATOR_STATE |
++						     TDLS_CH_SWITCH_ON_STATE |
++						     TDLS_PEER_AT_OFF_STATE);
++			rtw_tdls_set_ch_sw_oper_control(padapter, _FALSE);
++			_rtw_memset(pchsw_info->addr, 0x00, ETH_ALEN);
++		}
++#endif
++		rtw_sta_media_status_rpt(padapter, ptdls_sta, 0);
++		free_tdls_sta(padapter, ptdls_sta);
++		break;
++	}
++
++	/* _exit_critical_bh(&(ptdlsinfo->hdl_lock), &irqL); */
++
++	return H2C_SUCCESS;
++#else
++	return H2C_REJECTED;
++#endif /* CONFIG_TDLS */
++
++}
++
++u8 run_in_thread_hdl(_adapter *padapter, u8 *pbuf)
++{
++	struct RunInThread_param *p;
++
++
++	if (NULL == pbuf)
++		return H2C_PARAMETERS_ERROR;
++	p = (struct RunInThread_param *)pbuf;
++
++	if (p->func)
++		p->func(p->context);
++
++	return H2C_SUCCESS;
++}
++
++u8 rtw_getmacreg_hdl(_adapter *padapter, u8 *pbuf)
++{
++
++	struct readMAC_parm *preadmacparm = NULL;
++	u8 sz = 0;
++	u32	addr = 0;
++	u32	value = 0;
++
++	if (!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	preadmacparm = (struct readMAC_parm *) pbuf;
++	sz = preadmacparm->len;
++	addr = preadmacparm->addr;
++	value = 0;
++
++	switch (sz) {
++	case 1:
++		value = rtw_read8(padapter, addr);
++		break;
++	case 2:
++		value = rtw_read16(padapter, addr);
++		break;
++	case 4:
++		value = rtw_read32(padapter, addr);
++		break;
++	default:
++		RTW_INFO("%s: Unknown size\n", __func__);
++		break;
++	}
++	RTW_INFO("%s: addr:0x%02x valeu:0x%02x\n", __func__, addr, value);
++
++	return H2C_SUCCESS;
++}
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_mp.c b/drivers/net/wireless/rtl8723du/core/rtw_mp.c
+new file mode 100644
+index 0000000..1671b92
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_mp.c
+@@ -0,0 +1,3730 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_MP_C_
++#include <drv_types.h>
++#ifdef PLATFORM_FREEBSD
++	#include <sys/unistd.h>		/* for RFHIGHPID */
++#endif
++
++#include "../hal/phydm/phydm_precomp.h"
++#if defined(CONFIG_RTL8723B) || defined(CONFIG_RTL8821A)
++	#include <rtw_bt_mp.h>
++#endif
++
++#ifdef CONFIG_MP_VHT_HW_TX_MODE
++#define CEILING_POS(X) ((X - (int)(X)) > 0 ? (int)(X + 1) : (int)(X))
++#define CEILING_NEG(X) ((X - (int)(X)) < 0 ? (int)(X - 1) : (int)(X))
++#define ceil(X) (((X) > 0) ? CEILING_POS(X) : CEILING_NEG(X))
++
++int rtfloor(float x)
++{
++	int i = x - 2;
++	while
++	(++i <= x - 1)
++		;
++	return i;
++}
++#endif
++
++#ifdef CONFIG_MP_INCLUDED
++u32 read_macreg(_adapter *padapter, u32 addr, u32 sz)
++{
++	u32 val = 0;
++
++	switch (sz) {
++	case 1:
++		val = rtw_read8(padapter, addr);
++		break;
++	case 2:
++		val = rtw_read16(padapter, addr);
++		break;
++	case 4:
++		val = rtw_read32(padapter, addr);
++		break;
++	default:
++		val = 0xffffffff;
++		break;
++	}
++
++	return val;
++
++}
++
++void write_macreg(_adapter *padapter, u32 addr, u32 val, u32 sz)
++{
++	switch (sz) {
++	case 1:
++		rtw_write8(padapter, addr, (u8)val);
++		break;
++	case 2:
++		rtw_write16(padapter, addr, (u16)val);
++		break;
++	case 4:
++		rtw_write32(padapter, addr, val);
++		break;
++	default:
++		break;
++	}
++
++}
++
++u32 read_bbreg(_adapter *padapter, u32 addr, u32 bitmask)
++{
++	return rtw_hal_read_bbreg(padapter, addr, bitmask);
++}
++
++void write_bbreg(_adapter *padapter, u32 addr, u32 bitmask, u32 val)
++{
++	rtw_hal_write_bbreg(padapter, addr, bitmask, val);
++}
++
++u32 _read_rfreg(PADAPTER padapter, u8 rfpath, u32 addr, u32 bitmask)
++{
++	return rtw_hal_read_rfreg(padapter, rfpath, addr, bitmask);
++}
++
++void _write_rfreg(PADAPTER padapter, u8 rfpath, u32 addr, u32 bitmask, u32 val)
++{
++	rtw_hal_write_rfreg(padapter, rfpath, addr, bitmask, val);
++}
++
++u32 read_rfreg(PADAPTER padapter, u8 rfpath, u32 addr)
++{
++	return _read_rfreg(padapter, rfpath, addr, bRFRegOffsetMask);
++}
++
++void write_rfreg(PADAPTER padapter, u8 rfpath, u32 addr, u32 val)
++{
++	_write_rfreg(padapter, rfpath, addr, bRFRegOffsetMask, val);
++}
++
++static void _init_mp_priv_(struct mp_priv *pmp_priv)
++{
++	WLAN_BSSID_EX *pnetwork;
++
++	_rtw_memset(pmp_priv, 0, sizeof(struct mp_priv));
++
++	pmp_priv->mode = MP_OFF;
++
++	pmp_priv->channel = 1;
++	pmp_priv->bandwidth = CHANNEL_WIDTH_20;
++	pmp_priv->prime_channel_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	pmp_priv->rateidx = RATE_1M;
++	pmp_priv->txpoweridx = 0x2A;
++
++	pmp_priv->antenna_tx = ANTENNA_A;
++	pmp_priv->antenna_rx = ANTENNA_AB;
++
++	pmp_priv->check_mp_pkt = 0;
++
++	pmp_priv->tx_pktcount = 0;
++
++	pmp_priv->rx_bssidpktcount = 0;
++	pmp_priv->rx_pktcount = 0;
++	pmp_priv->rx_crcerrpktcount = 0;
++
++	pmp_priv->network_macaddr[0] = 0x00;
++	pmp_priv->network_macaddr[1] = 0xE0;
++	pmp_priv->network_macaddr[2] = 0x4C;
++	pmp_priv->network_macaddr[3] = 0x87;
++	pmp_priv->network_macaddr[4] = 0x66;
++	pmp_priv->network_macaddr[5] = 0x55;
++
++	pmp_priv->bSetRxBssid = _FALSE;
++	pmp_priv->bRTWSmbCfg = _FALSE;
++	pmp_priv->bloopback = _FALSE;
++
++	pnetwork = &pmp_priv->mp_network.network;
++	_rtw_memcpy(pnetwork->MacAddress, pmp_priv->network_macaddr, ETH_ALEN);
++
++	pnetwork->Ssid.SsidLength = 8;
++	_rtw_memcpy(pnetwork->Ssid.Ssid, "mp_871x", pnetwork->Ssid.SsidLength);
++
++	pmp_priv->tx.payload = 2;
++#ifdef CONFIG_80211N_HT
++	pmp_priv->tx.attrib.ht_en = 1;
++#endif
++
++}
++
++#ifdef PLATFORM_WINDOWS
++#if 0
++void mp_wi_callback(
++	IN NDIS_WORK_ITEM	*pwk_item,
++	IN PVOID			cntx
++)
++{
++	_adapter *padapter = (_adapter *)cntx;
++	struct mp_priv *pmppriv = &padapter->mppriv;
++	struct mp_wi_cntx	*pmp_wi_cntx = &pmppriv->wi_cntx;
++
++	/*  Execute specified action. */
++	if (pmp_wi_cntx->curractfunc != NULL) {
++		LARGE_INTEGER	cur_time;
++		ULONGLONG start_time, end_time;
++		NdisGetCurrentSystemTime(&cur_time);	/*  driver version */
++		start_time = cur_time.QuadPart / 10; /*  The return value is in microsecond */
++
++		pmp_wi_cntx->curractfunc(padapter);
++
++		NdisGetCurrentSystemTime(&cur_time);	/*  driver version */
++		end_time = cur_time.QuadPart / 10; /*  The return value is in microsecond */
++
++	}
++
++	NdisAcquireSpinLock(&(pmp_wi_cntx->mp_wi_lock));
++	pmp_wi_cntx->bmp_wi_progress = _FALSE;
++	NdisReleaseSpinLock(&(pmp_wi_cntx->mp_wi_lock));
++
++	if (pmp_wi_cntx->bmpdrv_unload)
++		NdisSetEvent(&(pmp_wi_cntx->mp_wi_evt));
++
++}
++#endif
++
++static int init_mp_priv_by_os(struct mp_priv *pmp_priv)
++{
++	struct mp_wi_cntx *pmp_wi_cntx;
++
++	if (pmp_priv == NULL)
++		return _FAIL;
++
++	pmp_priv->rx_testcnt = 0;
++	pmp_priv->rx_testcnt1 = 0;
++	pmp_priv->rx_testcnt2 = 0;
++
++	pmp_priv->tx_testcnt = 0;
++	pmp_priv->tx_testcnt1 = 0;
++
++	pmp_wi_cntx = &pmp_priv->wi_cntx
++		      pmp_wi_cntx->bmpdrv_unload = _FALSE;
++	pmp_wi_cntx->bmp_wi_progress = _FALSE;
++	pmp_wi_cntx->curractfunc = NULL;
++
++	return _SUCCESS;
++}
++#endif
++
++#ifdef PLATFORM_LINUX
++static int init_mp_priv_by_os(struct mp_priv *pmp_priv)
++{
++	int i, res;
++	struct mp_xmit_frame *pmp_xmitframe;
++
++	if (pmp_priv == NULL)
++		return _FAIL;
++
++	_rtw_init_queue(&pmp_priv->free_mp_xmitqueue);
++
++	pmp_priv->pallocated_mp_xmitframe_buf = NULL;
++	pmp_priv->pallocated_mp_xmitframe_buf = rtw_zmalloc(NR_MP_XMITFRAME * sizeof(struct mp_xmit_frame) + 4);
++	if (pmp_priv->pallocated_mp_xmitframe_buf == NULL) {
++		res = _FAIL;
++		goto _exit_init_mp_priv;
++	}
++
++	pmp_priv->pmp_xmtframe_buf = pmp_priv->pallocated_mp_xmitframe_buf + 4 - ((SIZE_PTR)(pmp_priv->pallocated_mp_xmitframe_buf) & 3);
++
++	pmp_xmitframe = (struct mp_xmit_frame *)pmp_priv->pmp_xmtframe_buf;
++
++	for (i = 0; i < NR_MP_XMITFRAME; i++) {
++		_rtw_init_listhead(&pmp_xmitframe->list);
++		rtw_list_insert_tail(&pmp_xmitframe->list, &pmp_priv->free_mp_xmitqueue.queue);
++
++		pmp_xmitframe->pkt = NULL;
++		pmp_xmitframe->frame_tag = MP_FRAMETAG;
++		pmp_xmitframe->padapter = pmp_priv->papdater;
++
++		pmp_xmitframe++;
++	}
++
++	pmp_priv->free_mp_xmitframe_cnt = NR_MP_XMITFRAME;
++
++	res = _SUCCESS;
++
++_exit_init_mp_priv:
++
++	return res;
++}
++#endif
++
++static void mp_init_xmit_attrib(struct mp_tx *pmptx, PADAPTER padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	struct pkt_attrib *pattrib;
++
++	/* init xmitframe attribute */
++	pattrib = &pmptx->attrib;
++	_rtw_memset(pattrib, 0, sizeof(struct pkt_attrib));
++	_rtw_memset(pmptx->desc, 0, TXDESC_SIZE);
++
++	pattrib->ether_type = 0x8712;
++#if 0
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++#endif
++	_rtw_memset(pattrib->dst, 0xFF, ETH_ALEN);
++
++	/*	pattrib->dhcp_pkt = 0;
++	 *	pattrib->pktlen = 0; */
++	pattrib->ack_policy = 0;
++	/*	pattrib->pkt_hdrlen = ETH_HLEN; */
++	pattrib->hdrlen = WLAN_HDR_A3_LEN;
++	pattrib->subtype = WIFI_DATA;
++	pattrib->priority = 0;
++	pattrib->qsel = pattrib->priority;
++	/*	do_queue_select(padapter, pattrib); */
++	pattrib->nr_frags = 1;
++	pattrib->encrypt = 0;
++	pattrib->bswenc = _FALSE;
++	pattrib->qos_en = _FALSE;
++
++	pattrib->pktlen = 1500;
++
++#ifdef CONFIG_80211AC_VHT
++	if (pHalData->rf_type == RF_1T1R)
++		pattrib->raid = RATEID_IDX_VHT_1SS;
++	else if (pHalData->rf_type == RF_2T2R || pHalData->rf_type == RF_2T4R)
++		pattrib->raid = RATEID_IDX_VHT_2SS;
++	else if (pHalData->rf_type == RF_3T3R)
++		pattrib->raid = RATEID_IDX_VHT_3SS;
++	else
++		pattrib->raid = RATEID_IDX_BGN_40M_1SS;
++#endif
++}
++
++s32 init_mp_priv(PADAPTER padapter)
++{
++	struct mp_priv *pmppriv = &padapter->mppriv;
++	PHAL_DATA_TYPE pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++
++	_init_mp_priv_(pmppriv);
++	pmppriv->papdater = padapter;
++	pmppriv->mp_dm = 0;
++	pmppriv->tx.stop = 1;
++	pmppriv->bSetTxPower = 0;		/*for  manually set tx power*/
++	pmppriv->bTxBufCkFail = _FALSE;
++	pmppriv->pktInterval = 0;
++	pmppriv->pktLength = 1000;
++
++	mp_init_xmit_attrib(&pmppriv->tx, padapter);
++
++	switch (padapter->registrypriv.rf_config) {
++	case RF_1T1R:
++		pmppriv->antenna_tx = ANTENNA_A;
++		pmppriv->antenna_rx = ANTENNA_A;
++		break;
++	case RF_1T2R:
++	default:
++		pmppriv->antenna_tx = ANTENNA_A;
++		pmppriv->antenna_rx = ANTENNA_AB;
++		break;
++	case RF_2T2R:
++	case RF_2T2R_GREEN:
++		pmppriv->antenna_tx = ANTENNA_AB;
++		pmppriv->antenna_rx = ANTENNA_AB;
++		break;
++	case RF_2T4R:
++		pmppriv->antenna_tx = ANTENNA_BC;
++		pmppriv->antenna_rx = ANTENNA_ABCD;
++		break;
++	}
++
++	pHalData->AntennaRxPath = pmppriv->antenna_rx;
++	pHalData->AntennaTxPath = pmppriv->antenna_tx;
++
++	return _SUCCESS;
++}
++
++void free_mp_priv(struct mp_priv *pmp_priv)
++{
++	if (pmp_priv->pallocated_mp_xmitframe_buf) {
++		rtw_mfree(pmp_priv->pallocated_mp_xmitframe_buf, 0);
++		pmp_priv->pallocated_mp_xmitframe_buf = NULL;
++	}
++	pmp_priv->pmp_xmtframe_buf = NULL;
++}
++
++
++static VOID PHY_IQCalibrate_default(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN	bReCovery
++)
++{
++	RTW_INFO("%s\n", __func__);
++}
++
++static VOID PHY_LCCalibrate_default(
++	IN	PADAPTER	pAdapter
++)
++{
++	RTW_INFO("%s\n", __func__);
++}
++
++static VOID PHY_SetRFPathSwitch_default(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bMain
++)
++{
++	RTW_INFO("%s\n", __func__);
++}
++
++
++void mpt_InitHWConfig(PADAPTER Adapter)
++{
++	if (IS_HARDWARE_TYPE_8723B(Adapter)) {
++		/* TODO: <20130114, Kordan> The following setting is only for DPDT and Fixed board type. */
++		/* TODO:  A better solution is configure it according EFUSE during the run-time. */
++
++		PHY_SetMacReg(Adapter, 0x64, BIT20, 0x0);		   /* 0x66[4]=0		 */
++		PHY_SetMacReg(Adapter, 0x64, BIT24, 0x0);		   /* 0x66[8]=0 */
++		PHY_SetMacReg(Adapter, 0x40, BIT4, 0x0);		   /* 0x40[4]=0		 */
++		PHY_SetMacReg(Adapter, 0x40, BIT3, 0x1);		   /* 0x40[3]=1		 */
++		PHY_SetMacReg(Adapter, 0x4C, BIT24, 0x1);		   /* 0x4C[24:23]=10 */
++		PHY_SetMacReg(Adapter, 0x4C, BIT23, 0x0);		   /* 0x4C[24:23]=10 */
++		PHY_SetBBReg(Adapter, 0x944, BIT1 | BIT0, 0x3);	 /* 0x944[1:0]=11	 */
++		PHY_SetBBReg(Adapter, 0x930, bMaskByte0, 0x77);   /* 0x930[7:0]=77	  */
++		PHY_SetMacReg(Adapter, 0x38, BIT11, 0x1);		   /* 0x38[11]=1 */
++
++		/* TODO: <20130206, Kordan> The default setting is wrong, hard-coded here. */
++		PHY_SetMacReg(Adapter, 0x778, 0x3, 0x3);					/* Turn off hardware PTA control (Asked by Scott) */
++		PHY_SetMacReg(Adapter, 0x64, bMaskDWord, 0x36000000);	 /* Fix BT S0/S1 */
++		PHY_SetMacReg(Adapter, 0x948, bMaskDWord, 0x0); 		   /* Fix BT can't Tx */
++
++		/* <20130522, Kordan> Turn off equalizer to improve Rx sensitivity. (Asked by EEChou) */
++		PHY_SetBBReg(Adapter, 0xA00, BIT8, 0x0);			/*0xA01[0] = 0*/
++	} else if (IS_HARDWARE_TYPE_8821(Adapter)) {
++		/* <20131121, VincentL> Add for 8821AU DPDT setting and fix switching antenna issue (Asked by Rock)
++		<20131122, VincentL> Enable for all 8821A/8811AU  (Asked by Alex)*/
++		PHY_SetMacReg(Adapter, 0x4C, BIT23, 0x0);		   /*0x4C[23:22]=01*/
++		PHY_SetMacReg(Adapter, 0x4C, BIT22, 0x1);		   /*0x4C[23:22]=01*/
++	} else if (IS_HARDWARE_TYPE_8188ES(Adapter))
++		PHY_SetMacReg(Adapter, 0x4C , BIT23, 0);		/*select DPDT_P and DPDT_N as output pin*/
++#ifdef CONFIG_RTL8814A
++	else if (IS_HARDWARE_TYPE_8814A(Adapter))
++		PlatformEFIOWrite2Byte(Adapter, REG_RXFLTMAP1_8814A, 0x2000);
++#endif
++#ifdef CONFIG_RTL8822B
++	else if (IS_HARDWARE_TYPE_8822B(Adapter))
++		PlatformEFIOWrite2Byte(Adapter, REG_RXFLTMAP1_8822B, 0x2000);
++#endif /* CONFIG_RTL8822B */
++#ifdef CONFIG_RTL8821C
++	else if (IS_HARDWARE_TYPE_8821C(Adapter))
++		PlatformEFIOWrite2Byte(Adapter, REG_RXFLTMAP1_8821C, 0x2000);
++#endif /* CONFIG_RTL8821C */
++}
++
++#ifdef CONFIG_RTL8188E
++	#define PHY_IQCalibrate(a, b)	PHY_IQCalibrate_8188E(a, b)
++	#define PHY_LCCalibrate(a)	PHY_LCCalibrate_8188E(&(GET_HAL_DATA(a)->odmpriv))
++	#define PHY_SetRFPathSwitch(a, b) PHY_SetRFPathSwitch_8188E(a, b)
++#endif
++
++#ifdef CONFIG_RTL8814A
++	#define PHY_IQCalibrate(a, b)	PHY_IQCalibrate_8814A(&(GET_HAL_DATA(a)->odmpriv), b)
++	#define PHY_LCCalibrate(a)	PHY_LCCalibrate_8814A(&(GET_HAL_DATA(a)->odmpriv))
++	#define PHY_SetRFPathSwitch(a, b) PHY_SetRFPathSwitch_8814A(a, b)
++#endif /* CONFIG_RTL8814A */
++
++#ifdef CONFIG_RTL8812A
++	#define PHY_IQCalibrate(_Adapter, b)	PHY_IQCalibrate_8812A(_Adapter, b)
++	#define PHY_LCCalibrate(_Adapter)	PHY_LCCalibrate_8812A(&(GET_HAL_DATA(_Adapter)->odmpriv))
++	#define PHY_SetRFPathSwitch(_Adapter, b) PHY_SetRFPathSwitch_8812A(_Adapter, b)
++#endif
++
++#ifdef CONFIG_RTL8821A
++	#define PHY_IQCalibrate(_Adapter, b)	PHY_IQCalibrate_8821A(&(GET_HAL_DATA(_Adapter)->odmpriv), b)
++	#define PHY_LCCalibrate(_Adapter)	PHY_LCCalibrate_8821A(&(GET_HAL_DATA(_Adapter)->odmpriv))
++	#define PHY_SetRFPathSwitch(_Adapter, b) PHY_SetRFPathSwitch_8812A(_Adapter, b)
++#endif
++
++#ifdef CONFIG_RTL8192E
++	#define PHY_IQCalibrate(a, b)	PHY_IQCalibrate_8192E(a, b)
++	#define PHY_LCCalibrate(a)	PHY_LCCalibrate_8192E(&(GET_HAL_DATA(a)->odmpriv))
++	#define PHY_SetRFPathSwitch(a, b) PHY_SetRFPathSwitch_8192E(a, b)
++#endif /* CONFIG_RTL8812A_8821A */
++
++#ifdef CONFIG_RTL8723B
++static void PHY_IQCalibrate(PADAPTER padapter, u8 bReCovery)
++{
++	PHAL_DATA_TYPE pHalData;
++	u8 b2ant;	/* false:1ant, true:2-ant */
++	u8 RF_Path;	/* 0:S1, 1:S0 */
++
++	pHalData = GET_HAL_DATA(padapter);
++	b2ant = pHalData->EEPROMBluetoothAntNum == Ant_x2 ? _TRUE : _FALSE;
++
++	PHY_IQCalibrate_8723B(padapter, bReCovery, _FALSE, b2ant, pHalData->ant_path);
++}
++
++
++#define PHY_LCCalibrate(a)	PHY_LCCalibrate_8723B(&(GET_HAL_DATA(a)->odmpriv))
++#define PHY_SetRFPathSwitch(a, b)	PHY_SetRFPathSwitch_8723B(a, b)
++#endif
++
++#ifdef CONFIG_RTL8703B
++static void PHY_IQCalibrate(PADAPTER padapter, u8 bReCovery)
++{
++	PHY_IQCalibrate_8703B(padapter, bReCovery);
++}
++
++
++#define PHY_LCCalibrate(a)	PHY_LCCalibrate_8703B(&(GET_HAL_DATA(a)->odmpriv))
++#define PHY_SetRFPathSwitch(a, b)		PHY_SetRFPathSwitch_8703B(a, b)
++#endif
++
++#ifdef CONFIG_RTL8188F
++static void PHY_IQCalibrate(PADAPTER padapter, u8 bReCovery)
++{
++	PHY_IQCalibrate_8188F(padapter, bReCovery, _FALSE);
++}
++
++
++#define PHY_LCCalibrate(a)	PHY_LCCalibrate_8188F(&(GET_HAL_DATA(a)->odmpriv))
++#define PHY_SetRFPathSwitch(a, b)	PHY_SetRFPathSwitch_8188F(a, b)
++#endif
++
++#ifdef CONFIG_RTL8822B
++	#define PHY_IQCalibrate(a, b)		PHY_IQCalibrate_8822B(a, b)
++	#define PHY_LCCalibrate(a)
++	#define PHY_SetRFPathSwitch(a, b)	PHY_SetRFPathSwitch_8822B(a, b)
++#endif /* CONFIG_RTL8822B */
++
++#ifdef CONFIG_RTL8723D
++	#define PHY_IQCalibrate(a, b)	PHY_IQCalibrate_8723D(a, b)
++	#define PHY_LCCalibrate(a)	PHY_LCCalibrate_8723D(&(GET_HAL_DATA(a)->odmpriv))
++	#define PHY_SetRFPathSwitch(a, b)	PHY_SetRFPathSwitch_8723D(a, b)
++#endif
++
++#ifdef CONFIG_RTL8821C
++	#define PHY_IQCalibrate(a, b)
++	#define PHY_LCCalibrate(a)
++	#define PHY_SetRFPathSwitch(a, b)
++#endif /* CONFIG_RTL8821C */
++s32
++MPT_InitializeAdapter(
++	IN	PADAPTER			pAdapter,
++	IN	u8				Channel
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	s32		rtStatus = _SUCCESS;
++	PMPT_CONTEXT	pMptCtx = &pAdapter->mppriv.MptCtx;
++	u32		ledsetting;
++	struct mlme_priv *pmlmepriv = &pAdapter->mlmepriv;
++
++	pMptCtx->bMptDrvUnload = _FALSE;
++	pMptCtx->bMassProdTest = _FALSE;
++	pMptCtx->bMptIndexEven = _TRUE;	/* default gain index is -6.0db */
++	pMptCtx->h2cReqNum = 0x0;
++	/* init for BT MP */
++#if defined(CONFIG_RTL8723B)
++	pMptCtx->bMPh2c_timeout = _FALSE;
++	pMptCtx->MptH2cRspEvent = _FALSE;
++	pMptCtx->MptBtC2hEvent = _FALSE;
++	_rtw_init_sema(&pMptCtx->MPh2c_Sema, 0);
++	_init_timer(&pMptCtx->MPh2c_timeout_timer, pAdapter->pnetdev, MPh2c_timeout_handle, pAdapter);
++#endif
++
++	mpt_InitHWConfig(pAdapter);
++
++#ifdef CONFIG_RTL8723B
++	rtl8723b_InitAntenna_Selection(pAdapter);
++	if (IS_HARDWARE_TYPE_8723B(pAdapter)) {
++
++		/* <20130522, Kordan> Turn off equalizer to improve Rx sensitivity. (Asked by EEChou)*/
++		PHY_SetBBReg(pAdapter, 0xA00, BIT8, 0x0);
++		PHY_SetRFPathSwitch(pAdapter, 1/*pHalData->bDefaultAntenna*/); /*default use Main*/
++		/*<20130522, Kordan> 0x51 and 0x71 should be set immediately after path switched, or they might be overwritten. */
++		if ((pHalData->PackageType == PACKAGE_TFBGA79) || (pHalData->PackageType == PACKAGE_TFBGA90))
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51, bRFRegOffsetMask, 0x6B10E);
++		else
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51, bRFRegOffsetMask, 0x6B04E);
++	}
++	/*set ant to wifi side in mp mode*/
++	rtw_write16(pAdapter, 0x870, 0x300);
++	rtw_write16(pAdapter, 0x860, 0x110);
++#endif
++
++	pMptCtx->bMptWorkItemInProgress = _FALSE;
++	pMptCtx->CurrMptAct = NULL;
++	pMptCtx->MptRfPath = ODM_RF_PATH_A;
++	/* ------------------------------------------------------------------------- */
++	/* Don't accept any packets */
++	rtw_write32(pAdapter, REG_RCR, 0);
++
++	/* ledsetting = rtw_read32(pAdapter, REG_LEDCFG0); */
++	/* rtw_write32(pAdapter, REG_LEDCFG0, ledsetting & ~LED0DIS); */
++
++	/* rtw_write32(pAdapter, REG_LEDCFG0, 0x08080); */
++	ledsetting = rtw_read32(pAdapter, REG_LEDCFG0);
++
++
++	PHY_LCCalibrate(pAdapter);
++	PHY_IQCalibrate(pAdapter, _FALSE);
++	/* dm_CheckTXPowerTracking(&pHalData->odmpriv);	 */ /* trigger thermal meter */
++
++	PHY_SetRFPathSwitch(pAdapter, 1/*pHalData->bDefaultAntenna*/); /* default use Main */
++
++	pMptCtx->backup0xc50 = (u1Byte)PHY_QueryBBReg(pAdapter, rOFDM0_XAAGCCore1, bMaskByte0);
++	pMptCtx->backup0xc58 = (u1Byte)PHY_QueryBBReg(pAdapter, rOFDM0_XBAGCCore1, bMaskByte0);
++	pMptCtx->backup0xc30 = (u1Byte)PHY_QueryBBReg(pAdapter, rOFDM0_RxDetector1, bMaskByte0);
++	pMptCtx->backup0x52_RF_A = (u1Byte)PHY_QueryRFReg(pAdapter, RF_PATH_A, RF_0x52, 0x000F0);
++	pMptCtx->backup0x52_RF_B = (u1Byte)PHY_QueryRFReg(pAdapter, RF_PATH_B, RF_0x52, 0x000F0);
++#ifdef CONFIG_RTL8188E
++	rtw_write32(pAdapter, REG_MACID_NO_LINK_0, 0x0);
++	rtw_write32(pAdapter, REG_MACID_NO_LINK_1, 0x0);
++#endif
++#ifdef CONFIG_RTL8814A
++	if (IS_HARDWARE_TYPE_8814A(pAdapter)) {
++		pHalData->BackUp_IG_REG_4_Chnl_Section[0] = (u1Byte)PHY_QueryBBReg(pAdapter, rA_IGI_Jaguar, bMaskByte0);
++		pHalData->BackUp_IG_REG_4_Chnl_Section[1] = (u1Byte)PHY_QueryBBReg(pAdapter, rB_IGI_Jaguar, bMaskByte0);
++		pHalData->BackUp_IG_REG_4_Chnl_Section[2] = (u1Byte)PHY_QueryBBReg(pAdapter, rC_IGI_Jaguar2, bMaskByte0);
++		pHalData->BackUp_IG_REG_4_Chnl_Section[3] = (u1Byte)PHY_QueryBBReg(pAdapter, rD_IGI_Jaguar2, bMaskByte0);
++	}
++#endif
++	return	rtStatus;
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	MPT_DeInitAdapter()
++ *
++ * Overview:	Extra DeInitialization for Mass Production Test.
++ *
++ * Input:		PADAPTER	pAdapter
++ *
++ * Output:		NONE
++ *
++ * Return:		NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	05/08/2007	MHC		Create Version 0.
++ *	05/18/2007	MHC		Add normal driver MPHalt code.
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++MPT_DeInitAdapter(
++	IN	PADAPTER	pAdapter
++)
++{
++	PMPT_CONTEXT		pMptCtx = &pAdapter->mppriv.MptCtx;
++
++	pMptCtx->bMptDrvUnload = _TRUE;
++#if defined(CONFIG_RTL8723B)
++	_rtw_free_sema(&(pMptCtx->MPh2c_Sema));
++	_cancel_timer_ex(&pMptCtx->MPh2c_timeout_timer);
++#endif
++#if	defined(CONFIG_RTL8723B)
++	PHY_SetBBReg(pAdapter, 0xA01, BIT0, 1); /* /suggestion  by jerry for MP Rx. */
++#endif
++#if 0 /* for Windows */
++	PlatformFreeWorkItem(&(pMptCtx->MptWorkItem));
++
++	while (pMptCtx->bMptWorkItemInProgress) {
++		if (NdisWaitEvent(&(pMptCtx->MptWorkItemEvent), 50))
++			break;
++	}
++	NdisFreeSpinLock(&(pMptCtx->MptWorkItemSpinLock));
++#endif
++}
++
++static u8 mpt_ProStartTest(PADAPTER padapter)
++{
++	PMPT_CONTEXT pMptCtx = &padapter->mppriv.MptCtx;
++
++	pMptCtx->bMassProdTest = _TRUE;
++	pMptCtx->bStartContTx = _FALSE;
++	pMptCtx->bCckContTx = _FALSE;
++	pMptCtx->bOfdmContTx = _FALSE;
++	pMptCtx->bSingleCarrier = _FALSE;
++	pMptCtx->bCarrierSuppression = _FALSE;
++	pMptCtx->bSingleTone = _FALSE;
++	pMptCtx->HWTxmode = PACKETS_TX;
++
++	return _SUCCESS;
++}
++
++/*
++ * General use
++ */
++s32 SetPowerTracking(PADAPTER padapter, u8 enable)
++{
++
++	hal_mpt_SetPowerTracking(padapter, enable);
++	return 0;
++}
++
++void GetPowerTracking(PADAPTER padapter, u8 *enable)
++{
++	hal_mpt_GetPowerTracking(padapter, enable);
++}
++
++void rtw_mp_trigger_iqk(PADAPTER padapter)
++{
++	PHY_IQCalibrate(padapter, _FALSE);
++}
++
++void rtw_mp_trigger_lck(PADAPTER padapter)
++{
++	PHY_LCCalibrate(padapter);
++}
++
++static void disable_dm(PADAPTER padapter)
++{
++	u8 v8;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++
++	/* 3 1. disable firmware dynamic mechanism */
++	/* disable Power Training, Rate Adaptive */
++	v8 = rtw_read8(padapter, REG_BCN_CTRL);
++	v8 &= ~EN_BCN_FUNCTION;
++	rtw_write8(padapter, REG_BCN_CTRL, v8);
++
++	/* 3 2. disable driver dynamic mechanism */
++	rtw_phydm_func_disable_all(padapter);
++
++	/* enable APK, LCK and IQK but disable power tracking */
++	pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = _FALSE;
++	rtw_phydm_func_set(padapter, ODM_RF_CALIBRATION);
++
++	/* #ifdef CONFIG_BT_COEXIST */
++	/* rtw_btcoex_Switch(padapter, 0); */ /* remove for BT MP Down. */
++	/* #endif */
++}
++
++
++void MPT_PwrCtlDM(PADAPTER padapter, u32 bstart)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++
++	if (bstart == 1) {
++		RTW_INFO("in MPT_PwrCtlDM start\n");
++		rtw_phydm_func_set(padapter, ODM_RF_TX_PWR_TRACK | ODM_RF_CALIBRATION);
++
++		pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = _TRUE;
++		padapter->mppriv.mp_dm = 1;
++
++	} else {
++		RTW_INFO("in MPT_PwrCtlDM stop\n");
++		disable_dm(padapter);
++		pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = _FALSE;
++		padapter->mppriv.mp_dm = 0;
++		{
++			TXPWRTRACK_CFG	c;
++			u1Byte	chnl = 0 ;
++			_rtw_memset(&c, 0, sizeof(TXPWRTRACK_CFG));
++			ConfigureTxpowerTrack(pDM_Odm, &c);
++			ODM_ClearTxPowerTrackingState(pDM_Odm);
++			if (*c.ODM_TxPwrTrackSetPwr) {
++				if (pDM_Odm->SupportICType == ODM_RTL8188F)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, ODM_RF_PATH_A, chnl);
++				else if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, ODM_RF_PATH_A, chnl);
++					SetTxPower(padapter);
++				} else {
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, ODM_RF_PATH_A, chnl);
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, ODM_RF_PATH_B, chnl);
++				}
++			}
++		}
++	}
++
++}
++
++
++u32 mp_join(PADAPTER padapter, u8 mode)
++{
++	WLAN_BSSID_EX bssid;
++	struct sta_info *psta;
++	u32 length;
++	u8 val8, join_type;
++	_irqL irqL;
++	s32 res = _SUCCESS;
++
++	struct mp_priv *pmppriv = &padapter->mppriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network *tgt_network = &pmlmepriv->cur_network;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++
++#ifdef CONFIG_IOCTL_CFG80211
++	struct wireless_dev *pwdev = padapter->rtw_wdev;
++#endif /* #ifdef CONFIG_IOCTL_CFG80211 */
++	/* 1. initialize a new WLAN_BSSID_EX */
++	_rtw_memset(&bssid, 0, sizeof(WLAN_BSSID_EX));
++	RTW_INFO("%s ,pmppriv->network_macaddr=%x %x %x %x %x %x\n", __func__,
++		pmppriv->network_macaddr[0], pmppriv->network_macaddr[1], pmppriv->network_macaddr[2], pmppriv->network_macaddr[3], pmppriv->network_macaddr[4],
++		 pmppriv->network_macaddr[5]);
++	_rtw_memcpy(bssid.MacAddress, pmppriv->network_macaddr, ETH_ALEN);
++
++	if (mode == WIFI_FW_ADHOC_STATE) {
++		bssid.Ssid.SsidLength = strlen("mp_pseudo_adhoc");
++		_rtw_memcpy(bssid.Ssid.Ssid, (u8 *)"mp_pseudo_adhoc", bssid.Ssid.SsidLength);
++		bssid.InfrastructureMode = Ndis802_11IBSS;
++		bssid.NetworkTypeInUse = Ndis802_11DS;
++		bssid.IELength = 0;
++		bssid.Configuration.DSConfig = pmppriv->channel;
++
++	} else if (mode == WIFI_FW_STATION_STATE) {
++		bssid.Ssid.SsidLength = strlen("mp_pseudo_STATION");
++		_rtw_memcpy(bssid.Ssid.Ssid, (u8 *)"mp_pseudo_STATION", bssid.Ssid.SsidLength);
++		bssid.InfrastructureMode = Ndis802_11Infrastructure;
++		bssid.NetworkTypeInUse = Ndis802_11DS;
++		bssid.IELength = 0;
++	}
++
++	length = get_WLAN_BSSID_EX_sz(&bssid);
++	if (length % 4)
++		bssid.Length = ((length >> 2) + 1) << 2; /* round up to multiple of 4 bytes. */
++	else
++		bssid.Length = length;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	if (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE)
++		goto end_of_mp_start_test;
++
++	/* init mp_start_test status */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++		rtw_disassoc_cmd(padapter, 500, _TRUE);
++		rtw_indicate_disconnect(padapter, 0, _FALSE);
++		rtw_free_assoc_resources(padapter, 1);
++	}
++	pmppriv->prev_fw_state = get_fwstate(pmlmepriv);
++	/*pmlmepriv->fw_state = WIFI_MP_STATE;*/
++	init_fwstate(pmlmepriv, WIFI_MP_STATE);
++
++	set_fwstate(pmlmepriv, _FW_UNDER_LINKING);
++
++	/* 3 2. create a new psta for mp driver */
++	/* clear psta in the cur_network, if any */
++	psta = rtw_get_stainfo(&padapter->stapriv, tgt_network->network.MacAddress);
++	if (psta)
++		rtw_free_stainfo(padapter, psta);
++
++	psta = rtw_alloc_stainfo(&padapter->stapriv, bssid.MacAddress);
++	if (psta == NULL) {
++		/*pmlmepriv->fw_state = pmppriv->prev_fw_state;*/
++		init_fwstate(pmlmepriv, pmppriv->prev_fw_state);
++		res = _FAIL;
++		goto end_of_mp_start_test;
++	}
++	if (mode == WIFI_FW_ADHOC_STATE)
++	set_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++	else
++		set_fwstate(pmlmepriv, WIFI_STATION_STATE);
++	/* 3 3. join psudo AdHoc */
++	tgt_network->join_res = 1;
++	tgt_network->aid = psta->aid = 1;
++
++	_rtw_memcpy(&padapter->registrypriv.dev_network, &bssid, length);
++	rtw_update_registrypriv_dev_network(padapter);
++	_rtw_memcpy(&tgt_network->network, &padapter->registrypriv.dev_network, padapter->registrypriv.dev_network.Length);
++	_rtw_memcpy(pnetwork, &padapter->registrypriv.dev_network, padapter->registrypriv.dev_network.Length);
++
++	rtw_indicate_connect(padapter);
++	_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++	set_fwstate(pmlmepriv, _FW_LINKED);
++
++end_of_mp_start_test:
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++	if (1) { /* (res == _SUCCESS) */
++		/* set MSR to WIFI_FW_ADHOC_STATE */
++		if (mode == WIFI_FW_ADHOC_STATE) {
++			/* set msr to WIFI_FW_ADHOC_STATE */
++			pmlmeinfo->state = WIFI_FW_ADHOC_STATE;
++			Set_MSR(padapter, (pmlmeinfo->state & 0x3));
++
++			rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, padapter->registrypriv.dev_network.MacAddress);
++			join_type = 0;
++			rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
++
++			report_join_res(padapter, 1);
++			pmlmeinfo->state |= WIFI_FW_ASSOC_SUCCESS;
++		} else {
++			Set_MSR(padapter, WIFI_FW_STATION_STATE);
++
++			RTW_INFO("%s , pmppriv->network_macaddr =%x %x %x %x %x %x\n", __func__,
++				pmppriv->network_macaddr[0], pmppriv->network_macaddr[1], pmppriv->network_macaddr[2], pmppriv->network_macaddr[3], pmppriv->network_macaddr[4],
++				 pmppriv->network_macaddr[5]);
++
++			rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, pmppriv->network_macaddr);
++		}
++	}
++
++	return res;
++}
++/* This function initializes the DUT to the MP test mode */
++s32 mp_start_test(PADAPTER padapter)
++{
++	struct mp_priv *pmppriv = &padapter->mppriv;
++	s32 res = _SUCCESS;
++
++	padapter->registrypriv.mp_mode = 1;
++
++	/* 3 disable dynamic mechanism */
++	disable_dm(padapter);
++#ifdef CONFIG_RTL8814A
++	rtl8814_InitHalDm(padapter);
++#endif /* CONFIG_RTL8814A */
++#ifdef CONFIG_RTL8822B
++	rtl8822b_phy_init_haldm(padapter);
++#endif /* CONFIG_RTL8822B */
++#ifdef CONFIG_RTL8821C
++	rtl8821c_phy_init_haldm(padapter);
++#endif /* CONFIG_RTL8821C */
++#ifdef CONFIG_RTL8812A
++	rtl8812_InitHalDm(padapter);
++#endif /* CONFIG_RTL8812A */
++#ifdef CONFIG_RTL8723B
++	rtl8723b_InitHalDm(padapter);
++#endif /* CONFIG_RTL8723B */
++#ifdef CONFIG_RTL8703B
++	rtl8703b_InitHalDm(padapter);
++#endif /* CONFIG_RTL8703B */
++#ifdef CONFIG_RTL8192E
++	rtl8192e_InitHalDm(padapter);
++#endif
++#ifdef CONFIG_RTL8188F
++	rtl8188f_InitHalDm(padapter);
++#endif
++#ifdef CONFIG_RTL8188E
++	rtl8188e_InitHalDm(padapter);
++#endif
++#ifdef CONFIG_RTL8723D
++	rtl8723d_InitHalDm(padapter);
++#endif /* CONFIG_RTL8723D */
++
++	/* 3 0. update mp_priv */
++
++	if (padapter->registrypriv.rf_config == RF_MAX_TYPE) {
++		/*		switch (phal->rf_type) { */
++		switch (GET_RF_TYPE(padapter)) {
++		case RF_1T1R:
++			pmppriv->antenna_tx = ANTENNA_A;
++			pmppriv->antenna_rx = ANTENNA_A;
++			break;
++		case RF_1T2R:
++		default:
++			pmppriv->antenna_tx = ANTENNA_A;
++			pmppriv->antenna_rx = ANTENNA_AB;
++			break;
++		case RF_2T2R:
++		case RF_2T2R_GREEN:
++			pmppriv->antenna_tx = ANTENNA_AB;
++			pmppriv->antenna_rx = ANTENNA_AB;
++			break;
++		case RF_2T4R:
++			pmppriv->antenna_tx = ANTENNA_AB;
++			pmppriv->antenna_rx = ANTENNA_ABCD;
++			break;
++		}
++	}
++
++	mpt_ProStartTest(padapter);
++
++	mp_join(padapter, WIFI_FW_ADHOC_STATE);
++
++	return res;
++}
++/* ------------------------------------------------------------------------------
++ * This function change the DUT from the MP test mode into normal mode */
++void mp_stop_test(PADAPTER padapter)
++{
++	struct mp_priv *pmppriv = &padapter->mppriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network *tgt_network = &pmlmepriv->cur_network;
++	struct sta_info *psta;
++
++	_irqL irqL;
++
++	if (pmppriv->mode == MP_ON) {
++		pmppriv->bSetTxPower = 0;
++		_enter_critical_bh(&pmlmepriv->lock, &irqL);
++		if (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _FALSE)
++			goto end_of_mp_stop_test;
++
++		/* 3 1. disconnect psudo AdHoc */
++		rtw_indicate_disconnect(padapter, 0, _FALSE);
++
++		/* 3 2. clear psta used in mp test mode.
++		*	rtw_free_assoc_resources(padapter, 1); */
++		psta = rtw_get_stainfo(&padapter->stapriv, tgt_network->network.MacAddress);
++		if (psta)
++			rtw_free_stainfo(padapter, psta);
++
++		/* 3 3. return to normal state (default:station mode) */
++		/*pmlmepriv->fw_state = pmppriv->prev_fw_state; */ /* WIFI_STATION_STATE;*/
++		init_fwstate(pmlmepriv, pmppriv->prev_fw_state);
++
++		/* flush the cur_network */
++		_rtw_memset(tgt_network, 0, sizeof(struct wlan_network));
++
++		_clr_fwstate_(pmlmepriv, WIFI_MP_STATE);
++
++end_of_mp_stop_test:
++
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++#ifdef CONFIG_RTL8812A
++		rtl8812_InitHalDm(padapter);
++#endif
++#ifdef CONFIG_RTL8723B
++		rtl8723b_InitHalDm(padapter);
++#endif
++#ifdef CONFIG_RTL8703B
++		rtl8703b_InitHalDm(padapter);
++#endif
++#ifdef CONFIG_RTL8192E
++		rtl8192e_InitHalDm(padapter);
++#endif
++#ifdef CONFIG_RTL8188F
++		rtl8188f_InitHalDm(padapter);
++#endif
++#ifdef CONFIG_RTL8723D
++		rtl8723d_InitHalDm(padapter);
++#endif
++	}
++}
++/*---------------------------hal\rtl8192c\MPT_Phy.c---------------------------*/
++#if 0
++/* #ifdef CONFIG_USB_HCI */
++static VOID mpt_AdjustRFRegByRateByChan92CU(PADAPTER pAdapter, u8 RateIdx, u8 Channel, u8 BandWidthID)
++{
++	u8		eRFPath;
++	u32		rfReg0x26;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++
++	if (RateIdx < MPT_RATE_6M) 	/* CCK rate,for 88cu */
++		rfReg0x26 = 0xf400;
++	else if ((RateIdx >= MPT_RATE_6M) && (RateIdx <= MPT_RATE_54M)) {/* OFDM rate,for 88cu */
++		if ((4 == Channel) || (8 == Channel) || (12 == Channel))
++			rfReg0x26 = 0xf000;
++		else if ((5 == Channel) || (7 == Channel) || (13 == Channel) || (14 == Channel))
++			rfReg0x26 = 0xf400;
++		else
++			rfReg0x26 = 0x4f200;
++	} else if ((RateIdx >= MPT_RATE_MCS0) && (RateIdx <= MPT_RATE_MCS15)) {
++		/* MCS 20M ,for 88cu */ /* MCS40M rate,for 88cu */
++
++		if (CHANNEL_WIDTH_20 == BandWidthID) {
++			if ((4 == Channel) || (8 == Channel))
++				rfReg0x26 = 0xf000;
++			else if ((5 == Channel) || (7 == Channel) || (13 == Channel) || (14 == Channel))
++				rfReg0x26 = 0xf400;
++			else
++				rfReg0x26 = 0x4f200;
++		} else {
++			if ((4 == Channel) || (8 == Channel))
++				rfReg0x26 = 0xf000;
++			else if ((5 == Channel) || (7 == Channel))
++				rfReg0x26 = 0xf400;
++			else
++				rfReg0x26 = 0x4f200;
++		}
++	}
++
++	for (eRFPath = 0; eRFPath < pHalData->NumTotalRFPath; eRFPath++)
++		write_rfreg(pAdapter, eRFPath, RF_SYN_G2, rfReg0x26);
++}
++#endif
++/*-----------------------------------------------------------------------------
++ * Function:	mpt_SwitchRfSetting
++ *
++ * Overview:	Change RF Setting when we siwthc channel/rate/BW for MP.
++ *
++ * Input:       IN	PADAPTER				pAdapter
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 01/08/2009	MHC		Suggestion from SD3 Willis for 92S series.
++ * 01/09/2009	MHC		Add CCK modification for 40MHZ. Suggestion from SD3.
++ *
++ *---------------------------------------------------------------------------*/
++static void mpt_SwitchRfSetting(PADAPTER pAdapter)
++{
++	hal_mpt_SwitchRfSetting(pAdapter);
++}
++
++/*---------------------------hal\rtl8192c\MPT_Phy.c---------------------------*/
++/*---------------------------hal\rtl8192c\MPT_HelperFunc.c---------------------------*/
++static void MPT_CCKTxPowerAdjust(PADAPTER Adapter, BOOLEAN bInCH14)
++{
++	hal_mpt_CCKTxPowerAdjust(Adapter, bInCH14);
++}
++
++static void MPT_CCKTxPowerAdjustbyIndex(PADAPTER pAdapter, BOOLEAN beven)
++{
++	hal_mpt_CCKTxPowerAdjustbyIndex(pAdapter, beven);
++}
++
++/*---------------------------hal\rtl8192c\MPT_HelperFunc.c---------------------------*/
++
++/*
++ * SetChannel
++ * Description
++ *	Use H2C command to change channel,
++ *	not only modify rf register, but also other setting need to be done.
++ */
++void SetChannel(PADAPTER pAdapter)
++{
++	hal_mpt_SetChannel(pAdapter);
++}
++
++/*
++ * Notice
++ *	Switch bandwitdth may change center frequency(channel)
++ */
++void SetBandwidth(PADAPTER pAdapter)
++{
++	hal_mpt_SetBandwidth(pAdapter);
++
++}
++
++void SetAntenna(PADAPTER pAdapter)
++{
++	hal_mpt_SetAntenna(pAdapter);
++}
++
++int SetTxPower(PADAPTER pAdapter)
++{
++
++	hal_mpt_SetTxPower(pAdapter);
++	return _TRUE;
++}
++
++void SetTxAGCOffset(PADAPTER pAdapter, u32 ulTxAGCOffset)
++{
++	u32 TxAGCOffset_B, TxAGCOffset_C, TxAGCOffset_D, tmpAGC;
++
++	TxAGCOffset_B = (ulTxAGCOffset & 0x000000ff);
++	TxAGCOffset_C = ((ulTxAGCOffset & 0x0000ff00) >> 8);
++	TxAGCOffset_D = ((ulTxAGCOffset & 0x00ff0000) >> 16);
++
++	tmpAGC = (TxAGCOffset_D << 8 | TxAGCOffset_C << 4 | TxAGCOffset_B);
++	write_bbreg(pAdapter, rFPGA0_TxGainStage,
++		    (bXBTxAGC | bXCTxAGC | bXDTxAGC), tmpAGC);
++}
++
++void SetDataRate(PADAPTER pAdapter)
++{
++	hal_mpt_SetDataRate(pAdapter);
++}
++
++void MP_PHY_SetRFPathSwitch(PADAPTER pAdapter , BOOLEAN bMain)
++{
++
++	PHY_SetRFPathSwitch(pAdapter, bMain);
++
++}
++
++
++s32 SetThermalMeter(PADAPTER pAdapter, u8 target_ther)
++{
++	return hal_mpt_SetThermalMeter(pAdapter, target_ther);
++}
++
++static void TriggerRFThermalMeter(PADAPTER pAdapter)
++{
++	hal_mpt_TriggerRFThermalMeter(pAdapter);
++}
++
++static u8 ReadRFThermalMeter(PADAPTER pAdapter)
++{
++	return hal_mpt_ReadRFThermalMeter(pAdapter);
++}
++
++void GetThermalMeter(PADAPTER pAdapter, u8 *value)
++{
++	hal_mpt_GetThermalMeter(pAdapter, value);
++}
++
++void SetSingleCarrierTx(PADAPTER pAdapter, u8 bStart)
++{
++	PhySetTxPowerLevel(pAdapter);
++	hal_mpt_SetSingleCarrierTx(pAdapter, bStart);
++}
++
++void SetSingleToneTx(PADAPTER pAdapter, u8 bStart)
++{
++	PhySetTxPowerLevel(pAdapter);
++	hal_mpt_SetSingleToneTx(pAdapter, bStart);
++}
++
++void SetCarrierSuppressionTx(PADAPTER pAdapter, u8 bStart)
++{
++	PhySetTxPowerLevel(pAdapter);
++	hal_mpt_SetCarrierSuppressionTx(pAdapter, bStart);
++}
++
++void SetCCKContinuousTx(PADAPTER pAdapter, u8 bStart)
++{
++	PhySetTxPowerLevel(pAdapter);
++	hal_mpt_SetCCKContinuousTx(pAdapter, bStart);
++}
++
++void SetOFDMContinuousTx(PADAPTER pAdapter, u8 bStart)
++{
++	PhySetTxPowerLevel(pAdapter);
++	hal_mpt_SetOFDMContinuousTx(pAdapter, bStart);
++} /* mpt_StartOfdmContTx */
++
++void SetContinuousTx(PADAPTER pAdapter, u8 bStart)
++{
++	PhySetTxPowerLevel(pAdapter);
++	hal_mpt_SetContinuousTx(pAdapter, bStart);
++}
++
++
++void PhySetTxPowerLevel(PADAPTER pAdapter)
++{
++	struct mp_priv *pmp_priv = &pAdapter->mppriv;
++
++
++	if (pmp_priv->bSetTxPower == 0) /* for NO manually set power index */
++		rtw_hal_set_tx_power_level(pAdapter, pmp_priv->channel);
++}
++
++/* ------------------------------------------------------------------------------ */
++static void dump_mpframe(PADAPTER padapter, struct xmit_frame *pmpframe)
++{
++	rtw_hal_mgnt_xmit(padapter, pmpframe);
++}
++
++static struct xmit_frame *alloc_mp_xmitframe(struct xmit_priv *pxmitpriv)
++{
++	struct xmit_frame	*pmpframe;
++	struct xmit_buf	*pxmitbuf;
++
++	pmpframe = rtw_alloc_xmitframe(pxmitpriv);
++	if (pmpframe == NULL)
++		return NULL;
++
++	pxmitbuf = rtw_alloc_xmitbuf(pxmitpriv);
++	if (pxmitbuf == NULL) {
++		rtw_free_xmitframe(pxmitpriv, pmpframe);
++		return NULL;
++	}
++
++	pmpframe->frame_tag = MP_FRAMETAG;
++
++	pmpframe->pxmitbuf = pxmitbuf;
++
++	pmpframe->buf_addr = pxmitbuf->pbuf;
++
++	pxmitbuf->priv_data = pmpframe;
++
++	return pmpframe;
++
++}
++
++static thread_return mp_xmit_packet_thread(thread_context context)
++{
++	struct xmit_frame	*pxmitframe;
++	struct mp_tx		*pmptx;
++	struct mp_priv	*pmp_priv;
++	struct xmit_priv	*pxmitpriv;
++	PADAPTER padapter;
++
++	pmp_priv = (struct mp_priv *)context;
++	pmptx = &pmp_priv->tx;
++	padapter = pmp_priv->papdater;
++	pxmitpriv = &(padapter->xmitpriv);
++
++	thread_enter("RTW_MP_THREAD");
++
++	RTW_INFO("%s:pkTx Start\n", __func__);
++	while (1) {
++		pxmitframe = alloc_mp_xmitframe(pxmitpriv);
++		if (pxmitframe == NULL) {
++			if (pmptx->stop ||
++			    RTW_CANNOT_RUN(padapter))
++				goto exit;
++			else {
++				rtw_usleep_os(10);
++				continue;
++			}
++		}
++		_rtw_memcpy((u8 *)(pxmitframe->buf_addr + TXDESC_OFFSET), pmptx->buf, pmptx->write_size);
++		_rtw_memcpy(&(pxmitframe->attrib), &(pmptx->attrib), sizeof(struct pkt_attrib));
++
++
++		rtw_usleep_os(padapter->mppriv.pktInterval);
++		dump_mpframe(padapter, pxmitframe);
++
++		pmptx->sended++;
++		pmp_priv->tx_pktcount++;
++
++		if (pmptx->stop ||
++		    RTW_CANNOT_RUN(padapter))
++			goto exit;
++		if ((pmptx->count != 0) &&
++		    (pmptx->count == pmptx->sended))
++			goto exit;
++
++		flush_signals_thread();
++	}
++
++exit:
++	/* RTW_INFO("%s:pkTx Exit\n", __func__); */
++	rtw_mfree(pmptx->pallocated_buf, pmptx->buf_size);
++	pmptx->pallocated_buf = NULL;
++	pmptx->stop = 1;
++
++	thread_exit();
++}
++
++void fill_txdesc_for_mp(PADAPTER padapter, u8 *ptxdesc)
++{
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	_rtw_memcpy(ptxdesc, pmp_priv->tx.desc, TXDESC_SIZE);
++}
++
++#if defined(CONFIG_RTL8188E)
++void fill_tx_desc_8188e(PADAPTER padapter)
++{
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	struct tx_desc *desc   = (struct tx_desc *)&(pmp_priv->tx.desc);
++	struct pkt_attrib *pattrib = &(pmp_priv->tx.attrib);
++	u32	pkt_size = pattrib->last_txcmdsz;
++	s32 bmcast = IS_MCAST(pattrib->ra);
++	/* offset 0 */
++#if !defined(CONFIG_RTL8188E_SDIO) && !defined(CONFIG_PCI_HCI)
++	desc->txdw0 |= cpu_to_le32(OWN | FSG | LSG);
++	desc->txdw0 |= cpu_to_le32(pkt_size & 0x0000FFFF); /* packet size */
++	desc->txdw0 |= cpu_to_le32(((TXDESC_SIZE + OFFSET_SZ) << OFFSET_SHT) & 0x00FF0000); /* 32 bytes for TX Desc */
++	if (bmcast)
++		desc->txdw0 |= cpu_to_le32(BMC); /* broadcast packet */
++
++	desc->txdw1 |= cpu_to_le32((0x01 << 26) & 0xff000000);
++#endif
++
++	desc->txdw1 |= cpu_to_le32((pattrib->mac_id) & 0x3F); /* CAM_ID(MAC_ID) */
++	desc->txdw1 |= cpu_to_le32((pattrib->qsel << QSEL_SHT) & 0x00001F00); /* Queue Select, TID */
++	desc->txdw1 |= cpu_to_le32((pattrib->raid << RATE_ID_SHT) & 0x000F0000); /* Rate Adaptive ID */
++	/* offset 8 */
++	/* desc->txdw2 |= cpu_to_le32(AGG_BK); */ /* AGG BK */
++
++	desc->txdw3 |= cpu_to_le32((pattrib->seqnum << 16) & 0x0fff0000);
++	desc->txdw4 |= cpu_to_le32(HW_SSN);
++
++	desc->txdw4 |= cpu_to_le32(USERATE);
++	desc->txdw4 |= cpu_to_le32(DISDATAFB);
++
++	if (pmp_priv->preamble) {
++		if (HwRateToMPTRate(pmp_priv->rateidx) <=  MPT_RATE_54M)
++			desc->txdw4 |= cpu_to_le32(DATA_SHORT); /* CCK Short Preamble */
++	}
++
++	if (pmp_priv->bandwidth == CHANNEL_WIDTH_40)
++		desc->txdw4 |= cpu_to_le32(DATA_BW);
++
++	/* offset 20 */
++	desc->txdw5 |= cpu_to_le32(pmp_priv->rateidx & 0x0000001F);
++
++	if (pmp_priv->preamble) {
++		if (HwRateToMPTRate(pmp_priv->rateidx) > MPT_RATE_54M)
++			desc->txdw5 |= cpu_to_le32(SGI); /* MCS Short Guard Interval */
++	}
++
++	desc->txdw5 |= cpu_to_le32(RTY_LMT_EN); /* retry limit enable */
++	desc->txdw5 |= cpu_to_le32(0x00180000); /* DATA/RTS Rate Fallback Limit	 */
++
++
++}
++#endif
++
++#if defined(CONFIG_RTL8814A)
++void fill_tx_desc_8814a(PADAPTER padapter)
++{
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	u8 *pDesc   = (u8 *)&(pmp_priv->tx.desc);
++	struct pkt_attrib *pattrib = &(pmp_priv->tx.attrib);
++
++	u32	pkt_size = pattrib->last_txcmdsz;
++	s32 bmcast = IS_MCAST(pattrib->ra);
++	u8 data_rate, pwr_status, offset;
++
++	/* SET_TX_DESC_FIRST_SEG_8814A(pDesc, 1); */
++	SET_TX_DESC_LAST_SEG_8814A(pDesc, 1);
++	/* SET_TX_DESC_OWN_(pDesc, 1); */
++
++	SET_TX_DESC_PKT_SIZE_8814A(pDesc, pkt_size);
++
++	offset = TXDESC_SIZE + OFFSET_SZ;
++
++	SET_TX_DESC_OFFSET_8814A(pDesc, offset);
++#if defined(CONFIG_PCI_HCI)
++	SET_TX_DESC_PKT_OFFSET_8814A(pDesc, 0); /* 8814AE pkt_offset is 0 */
++#else
++	SET_TX_DESC_PKT_OFFSET_8814A(pDesc, 1);
++#endif
++
++	if (bmcast)
++		SET_TX_DESC_BMC_8814A(pDesc, 1);
++
++	SET_TX_DESC_MACID_8814A(pDesc, pattrib->mac_id);
++	SET_TX_DESC_RATE_ID_8814A(pDesc, pattrib->raid);
++
++	/* SET_TX_DESC_RATE_ID_8812(pDesc, RATEID_IDX_G); */
++	SET_TX_DESC_QUEUE_SEL_8814A(pDesc,  pattrib->qsel);
++	/* SET_TX_DESC_QUEUE_SEL_8812(pDesc,  QSLT_MGNT); */
++
++	if (pmp_priv->preamble)
++		SET_TX_DESC_DATA_SHORT_8814A(pDesc, 1);
++
++	if (!pattrib->qos_en) {
++		SET_TX_DESC_HWSEQ_EN_8814A(pDesc, 1); /* Hw set sequence number */
++	} else
++		SET_TX_DESC_SEQ_8814A(pDesc, pattrib->seqnum);
++
++	if (pmp_priv->bandwidth <= CHANNEL_WIDTH_160)
++		SET_TX_DESC_DATA_BW_8814A(pDesc, pmp_priv->bandwidth);
++	else {
++		RTW_INFO("%s:Err: unknown bandwidth %d, use 20M\n", __func__, pmp_priv->bandwidth);
++		SET_TX_DESC_DATA_BW_8814A(pDesc, CHANNEL_WIDTH_20);
++	}
++
++	SET_TX_DESC_DISABLE_FB_8814A(pDesc, 1);
++	SET_TX_DESC_USE_RATE_8814A(pDesc, 1);
++	SET_TX_DESC_TX_RATE_8814A(pDesc, pmp_priv->rateidx);
++
++}
++#endif
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++void fill_tx_desc_8812a(PADAPTER padapter)
++{
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	u8 *pDesc   = (u8 *)&(pmp_priv->tx.desc);
++	struct pkt_attrib *pattrib = &(pmp_priv->tx.attrib);
++
++	u32	pkt_size = pattrib->last_txcmdsz;
++	s32 bmcast = IS_MCAST(pattrib->ra);
++	u8 data_rate, pwr_status, offset;
++
++	SET_TX_DESC_FIRST_SEG_8812(pDesc, 1);
++	SET_TX_DESC_LAST_SEG_8812(pDesc, 1);
++	SET_TX_DESC_OWN_8812(pDesc, 1);
++
++	SET_TX_DESC_PKT_SIZE_8812(pDesc, pkt_size);
++
++	offset = TXDESC_SIZE + OFFSET_SZ;
++
++	SET_TX_DESC_OFFSET_8812(pDesc, offset);
++
++#if defined(CONFIG_PCI_HCI)
++	SET_TX_DESC_PKT_OFFSET_8812(pDesc, 0);
++#else
++	SET_TX_DESC_PKT_OFFSET_8812(pDesc, 1);
++#endif
++	if (bmcast)
++		SET_TX_DESC_BMC_8812(pDesc, 1);
++
++	SET_TX_DESC_MACID_8812(pDesc, pattrib->mac_id);
++	SET_TX_DESC_RATE_ID_8812(pDesc, pattrib->raid);
++
++	/* SET_TX_DESC_RATE_ID_8812(pDesc, RATEID_IDX_G); */
++	SET_TX_DESC_QUEUE_SEL_8812(pDesc,  pattrib->qsel);
++	/* SET_TX_DESC_QUEUE_SEL_8812(pDesc,  QSLT_MGNT); */
++
++	if (!pattrib->qos_en) {
++		SET_TX_DESC_HWSEQ_EN_8812(pDesc, 1); /* Hw set sequence number */
++	} else
++		SET_TX_DESC_SEQ_8812(pDesc, pattrib->seqnum);
++
++	if (pmp_priv->bandwidth <= CHANNEL_WIDTH_160)
++		SET_TX_DESC_DATA_BW_8812(pDesc, pmp_priv->bandwidth);
++	else {
++		RTW_INFO("%s:Err: unknown bandwidth %d, use 20M\n", __func__, pmp_priv->bandwidth);
++		SET_TX_DESC_DATA_BW_8812(pDesc, CHANNEL_WIDTH_20);
++	}
++
++	SET_TX_DESC_DISABLE_FB_8812(pDesc, 1);
++	SET_TX_DESC_USE_RATE_8812(pDesc, 1);
++	SET_TX_DESC_TX_RATE_8812(pDesc, pmp_priv->rateidx);
++
++}
++#endif
++#if defined(CONFIG_RTL8192E)
++void fill_tx_desc_8192e(PADAPTER padapter)
++{
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	u8 *pDesc	= (u8 *)&(pmp_priv->tx.desc);
++	struct pkt_attrib *pattrib = &(pmp_priv->tx.attrib);
++
++	u32 pkt_size = pattrib->last_txcmdsz;
++	s32 bmcast = IS_MCAST(pattrib->ra);
++	u8 data_rate, pwr_status, offset;
++
++
++	SET_TX_DESC_PKT_SIZE_92E(pDesc, pkt_size);
++
++	offset = TXDESC_SIZE + OFFSET_SZ;
++
++	SET_TX_DESC_OFFSET_92E(pDesc, offset);
++#if defined(CONFIG_PCI_HCI) /* 8192EE */
++
++	SET_TX_DESC_PKT_OFFSET_92E(pDesc, 0); /* 8192EE pkt_offset is 0 */
++#else /* 8192EU 8192ES */
++	SET_TX_DESC_PKT_OFFSET_92E(pDesc, 1);
++#endif
++
++	if (bmcast)
++		SET_TX_DESC_BMC_92E(pDesc, 1);
++
++	SET_TX_DESC_MACID_92E(pDesc, pattrib->mac_id);
++	SET_TX_DESC_RATE_ID_92E(pDesc, pattrib->raid);
++
++
++	SET_TX_DESC_QUEUE_SEL_92E(pDesc,  pattrib->qsel);
++	/* SET_TX_DESC_QUEUE_SEL_8812(pDesc,  QSLT_MGNT); */
++
++	if (!pattrib->qos_en) {
++		SET_TX_DESC_EN_HWSEQ_92E(pDesc, 1);/* Hw set sequence number */
++		SET_TX_DESC_HWSEQ_SEL_92E(pDesc, pattrib->hw_ssn_sel);
++	} else
++		SET_TX_DESC_SEQ_92E(pDesc, pattrib->seqnum);
++
++	if ((pmp_priv->bandwidth == CHANNEL_WIDTH_20) || (pmp_priv->bandwidth == CHANNEL_WIDTH_40))
++		SET_TX_DESC_DATA_BW_92E(pDesc, pmp_priv->bandwidth);
++	else {
++		RTW_INFO("%s:Err: unknown bandwidth %d, use 20M\n", __func__, pmp_priv->bandwidth);
++		SET_TX_DESC_DATA_BW_92E(pDesc, CHANNEL_WIDTH_20);
++	}
++
++	/* SET_TX_DESC_DATA_SC_92E(pDesc, SCMapping_92E(padapter,pattrib)); */
++
++	SET_TX_DESC_DISABLE_FB_92E(pDesc, 1);
++	SET_TX_DESC_USE_RATE_92E(pDesc, 1);
++	SET_TX_DESC_TX_RATE_92E(pDesc, pmp_priv->rateidx);
++
++}
++#endif
++
++#if defined(CONFIG_RTL8723B)
++void fill_tx_desc_8723b(PADAPTER padapter)
++{
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	struct pkt_attrib *pattrib = &(pmp_priv->tx.attrib);
++	u8 *ptxdesc = pmp_priv->tx.desc;
++
++	SET_TX_DESC_AGG_BREAK_8723B(ptxdesc, 1);
++	SET_TX_DESC_MACID_8723B(ptxdesc, pattrib->mac_id);
++	SET_TX_DESC_QUEUE_SEL_8723B(ptxdesc, pattrib->qsel);
++
++	SET_TX_DESC_RATE_ID_8723B(ptxdesc, pattrib->raid);
++	SET_TX_DESC_SEQ_8723B(ptxdesc, pattrib->seqnum);
++	SET_TX_DESC_HWSEQ_EN_8723B(ptxdesc, 1);
++	SET_TX_DESC_USE_RATE_8723B(ptxdesc, 1);
++	SET_TX_DESC_DISABLE_FB_8723B(ptxdesc, 1);
++
++	if (pmp_priv->preamble) {
++		if (HwRateToMPTRate(pmp_priv->rateidx) <=  MPT_RATE_54M)
++			SET_TX_DESC_DATA_SHORT_8723B(ptxdesc, 1);
++	}
++
++	if (pmp_priv->bandwidth == CHANNEL_WIDTH_40)
++		SET_TX_DESC_DATA_BW_8723B(ptxdesc, 1);
++
++	SET_TX_DESC_TX_RATE_8723B(ptxdesc, pmp_priv->rateidx);
++
++	SET_TX_DESC_DATA_RATE_FB_LIMIT_8723B(ptxdesc, 0x1F);
++	SET_TX_DESC_RTS_RATE_FB_LIMIT_8723B(ptxdesc, 0xF);
++}
++#endif
++
++#if defined(CONFIG_RTL8703B)
++void fill_tx_desc_8703b(PADAPTER padapter)
++{
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	struct pkt_attrib *pattrib = &(pmp_priv->tx.attrib);
++	u8 *ptxdesc = pmp_priv->tx.desc;
++
++	SET_TX_DESC_AGG_BREAK_8703B(ptxdesc, 1);
++	SET_TX_DESC_MACID_8703B(ptxdesc, pattrib->mac_id);
++	SET_TX_DESC_QUEUE_SEL_8703B(ptxdesc, pattrib->qsel);
++
++	SET_TX_DESC_RATE_ID_8703B(ptxdesc, pattrib->raid);
++	SET_TX_DESC_SEQ_8703B(ptxdesc, pattrib->seqnum);
++	SET_TX_DESC_HWSEQ_EN_8703B(ptxdesc, 1);
++	SET_TX_DESC_USE_RATE_8703B(ptxdesc, 1);
++	SET_TX_DESC_DISABLE_FB_8703B(ptxdesc, 1);
++
++	if (pmp_priv->preamble) {
++		if (HwRateToMPTRate(pmp_priv->rateidx) <=  MPT_RATE_54M)
++			SET_TX_DESC_DATA_SHORT_8703B(ptxdesc, 1);
++	}
++
++	if (pmp_priv->bandwidth == CHANNEL_WIDTH_40)
++		SET_TX_DESC_DATA_BW_8703B(ptxdesc, 1);
++
++	SET_TX_DESC_TX_RATE_8703B(ptxdesc, pmp_priv->rateidx);
++
++	SET_TX_DESC_DATA_RATE_FB_LIMIT_8703B(ptxdesc, 0x1F);
++	SET_TX_DESC_RTS_RATE_FB_LIMIT_8703B(ptxdesc, 0xF);
++}
++#endif
++
++#if defined(CONFIG_RTL8188F)
++void fill_tx_desc_8188f(PADAPTER padapter)
++{
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	struct pkt_attrib *pattrib = &(pmp_priv->tx.attrib);
++	u8 *ptxdesc = pmp_priv->tx.desc;
++
++	SET_TX_DESC_AGG_BREAK_8188F(ptxdesc, 1);
++	SET_TX_DESC_MACID_8188F(ptxdesc, pattrib->mac_id);
++	SET_TX_DESC_QUEUE_SEL_8188F(ptxdesc, pattrib->qsel);
++
++	SET_TX_DESC_RATE_ID_8188F(ptxdesc, pattrib->raid);
++	SET_TX_DESC_SEQ_8188F(ptxdesc, pattrib->seqnum);
++	SET_TX_DESC_HWSEQ_EN_8188F(ptxdesc, 1);
++	SET_TX_DESC_USE_RATE_8188F(ptxdesc, 1);
++	SET_TX_DESC_DISABLE_FB_8188F(ptxdesc, 1);
++
++	if (pmp_priv->preamble)
++		if (HwRateToMPTRate(pmp_priv->rateidx) <=  MPT_RATE_54M)
++			SET_TX_DESC_DATA_SHORT_8188F(ptxdesc, 1);
++
++	if (pmp_priv->bandwidth == CHANNEL_WIDTH_40)
++		SET_TX_DESC_DATA_BW_8188F(ptxdesc, 1);
++
++	SET_TX_DESC_TX_RATE_8188F(ptxdesc, pmp_priv->rateidx);
++
++	SET_TX_DESC_DATA_RATE_FB_LIMIT_8188F(ptxdesc, 0x1F);
++	SET_TX_DESC_RTS_RATE_FB_LIMIT_8188F(ptxdesc, 0xF);
++}
++#endif
++
++#if defined(CONFIG_RTL8723D)
++void fill_tx_desc_8723d(PADAPTER padapter)
++{
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	struct pkt_attrib *pattrib = &(pmp_priv->tx.attrib);
++	u8 *ptxdesc = pmp_priv->tx.desc;
++
++	SET_TX_DESC_BK_8723D(ptxdesc, 1);
++	SET_TX_DESC_MACID_8723D(ptxdesc, pattrib->mac_id);
++	SET_TX_DESC_QUEUE_SEL_8723D(ptxdesc, pattrib->qsel);
++
++	SET_TX_DESC_RATE_ID_8723D(ptxdesc, pattrib->raid);
++	SET_TX_DESC_SEQ_8723D(ptxdesc, pattrib->seqnum);
++	SET_TX_DESC_HWSEQ_EN_8723D(ptxdesc, 1);
++	SET_TX_DESC_USE_RATE_8723D(ptxdesc, 1);
++	SET_TX_DESC_DISABLE_FB_8723D(ptxdesc, 1);
++
++	if (pmp_priv->preamble) {
++		if (HwRateToMPTRate(pmp_priv->rateidx) <=  MPT_RATE_54M)
++			SET_TX_DESC_DATA_SHORT_8723D(ptxdesc, 1);
++	}
++
++	if (pmp_priv->bandwidth == CHANNEL_WIDTH_40)
++		SET_TX_DESC_DATA_BW_8723D(ptxdesc, 1);
++
++	SET_TX_DESC_TX_RATE_8723D(ptxdesc, pmp_priv->rateidx);
++
++	SET_TX_DESC_DATA_RATE_FB_LIMIT_8723D(ptxdesc, 0x1F);
++	SET_TX_DESC_RTS_RATE_FB_LIMIT_8723D(ptxdesc, 0xF);
++}
++#endif
++
++static void Rtw_MPSetMacTxEDCA(PADAPTER padapter)
++{
++
++	rtw_write32(padapter, 0x508 , 0x00a422); /* Disable EDCA BE Txop for MP pkt tx adjust Packet interval */
++	/* RTW_INFO("%s:write 0x508~~~~~~ 0x%x\n", __func__,rtw_read32(padapter, 0x508)); */
++	PHY_SetMacReg(padapter, 0x458 , bMaskDWord , 0x0);
++	/* RTW_INFO("%s()!!!!! 0x460 = 0x%x\n" ,__func__,PHY_QueryBBReg(padapter, 0x460, bMaskDWord)); */
++	PHY_SetMacReg(padapter, 0x460 , bMaskLWord , 0x0); /* fast EDCA queue packet interval & time out vaule */
++	/* PHY_SetMacReg(padapter, ODM_EDCA_VO_PARAM ,bMaskLWord , 0x431C); */
++	/* PHY_SetMacReg(padapter, ODM_EDCA_BE_PARAM ,bMaskLWord , 0x431C); */
++	/* PHY_SetMacReg(padapter, ODM_EDCA_BK_PARAM ,bMaskLWord , 0x431C); */
++	RTW_INFO("%s()!!!!! 0x460 = 0x%x\n" , __func__, PHY_QueryBBReg(padapter, 0x460, bMaskDWord));
++
++}
++
++void SetPacketTx(PADAPTER padapter)
++{
++	u8 *ptr, *pkt_start, *pkt_end, *fctrl;
++	u32 pkt_size, offset, startPlace, i;
++	struct rtw_ieee80211_hdr *hdr;
++	u8 payload;
++	s32 bmcast;
++	struct pkt_attrib *pattrib;
++	struct mp_priv *pmp_priv;
++
++	pmp_priv = &padapter->mppriv;
++
++	if (pmp_priv->tx.stop)
++		return;
++	pmp_priv->tx.sended = 0;
++	pmp_priv->tx.stop = 0;
++	pmp_priv->tx_pktcount = 0;
++
++	/* 3 1. update_attrib() */
++	pattrib = &pmp_priv->tx.attrib;
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++	bmcast = IS_MCAST(pattrib->ra);
++	if (bmcast) {
++		pattrib->mac_id = 1;
++		pattrib->psta = rtw_get_bcmc_stainfo(padapter);
++	} else {
++		pattrib->mac_id = 0;
++		pattrib->psta = rtw_get_stainfo(&padapter->stapriv, get_bssid(&padapter->mlmepriv));
++	}
++	pattrib->mbssid = 0;
++
++	pattrib->last_txcmdsz = pattrib->hdrlen + pattrib->pktlen;
++
++	/* 3 2. allocate xmit buffer */
++	pkt_size = pattrib->last_txcmdsz;
++
++	if (pmp_priv->tx.pallocated_buf)
++		rtw_mfree(pmp_priv->tx.pallocated_buf, pmp_priv->tx.buf_size);
++	pmp_priv->tx.write_size = pkt_size;
++	pmp_priv->tx.buf_size = pkt_size + XMITBUF_ALIGN_SZ;
++	pmp_priv->tx.pallocated_buf = rtw_zmalloc(pmp_priv->tx.buf_size);
++	if (pmp_priv->tx.pallocated_buf == NULL) {
++		RTW_INFO("%s: malloc(%d) fail!!\n", __func__, pmp_priv->tx.buf_size);
++		return;
++	}
++	pmp_priv->tx.buf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pmp_priv->tx.pallocated_buf), XMITBUF_ALIGN_SZ);
++	ptr = pmp_priv->tx.buf;
++
++	_rtw_memset(pmp_priv->tx.desc, 0, TXDESC_SIZE);
++	pkt_start = ptr;
++	pkt_end = pkt_start + pkt_size;
++
++	/* 3 3. init TX descriptor */
++#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(padapter))
++		fill_tx_desc_8188e(padapter);
++#endif
++
++#if defined(CONFIG_RTL8814A)
++	if (IS_HARDWARE_TYPE_8814A(padapter))
++		fill_tx_desc_8814a(padapter);
++#endif /* defined(CONFIG_RTL8814A) */
++
++#if defined(CONFIG_RTL8822B)
++	if (IS_HARDWARE_TYPE_8822B(padapter))
++		rtl8822b_prepare_mp_txdesc(padapter, pmp_priv);
++#endif /* CONFIG_RTL8822B */
++
++#if defined(CONFIG_RTL8821C)
++	if (IS_HARDWARE_TYPE_8821C(padapter))
++		rtl8821c_prepare_mp_txdesc(padapter, pmp_priv);
++#endif /* CONFIG_RTL8821C */
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++	if (IS_HARDWARE_TYPE_8812(padapter) || IS_HARDWARE_TYPE_8821(padapter))
++		fill_tx_desc_8812a(padapter);
++#endif
++
++#if defined(CONFIG_RTL8192E)
++	if (IS_HARDWARE_TYPE_8192E(padapter))
++		fill_tx_desc_8192e(padapter);
++#endif
++#if defined(CONFIG_RTL8723B)
++	if (IS_HARDWARE_TYPE_8723B(padapter))
++		fill_tx_desc_8723b(padapter);
++#endif
++#if defined(CONFIG_RTL8703B)
++	if (IS_HARDWARE_TYPE_8703B(padapter))
++		fill_tx_desc_8703b(padapter);
++#endif
++
++#if defined(CONFIG_RTL8188F)
++	if (IS_HARDWARE_TYPE_8188F(padapter))
++		fill_tx_desc_8188f(padapter);
++#endif
++
++#if defined(CONFIG_RTL8723D)
++	if (IS_HARDWARE_TYPE_8723D(padapter))
++		fill_tx_desc_8723d(padapter);
++#endif
++
++	/* 3 4. make wlan header, make_wlanhdr() */
++	hdr = (struct rtw_ieee80211_hdr *)pkt_start;
++	SetFrameSubType(&hdr->frame_ctl, pattrib->subtype);
++
++	_rtw_memcpy(hdr->addr1, pattrib->dst, ETH_ALEN); /* DA */
++	_rtw_memcpy(hdr->addr2, pattrib->src, ETH_ALEN); /* SA */
++	_rtw_memcpy(hdr->addr3, get_bssid(&padapter->mlmepriv), ETH_ALEN); /* RA, BSSID */
++
++	/* 3 5. make payload */
++	ptr = pkt_start + pattrib->hdrlen;
++
++	switch (pmp_priv->tx.payload) {
++	case 0:
++		payload = 0x00;
++		break;
++	case 1:
++		payload = 0x5a;
++		break;
++	case 2:
++		payload = 0xa5;
++		break;
++	case 3:
++		payload = 0xff;
++		break;
++	default:
++		payload = 0x00;
++		break;
++	}
++	pmp_priv->TXradomBuffer = rtw_zmalloc(4096);
++	if (pmp_priv->TXradomBuffer == NULL) {
++		RTW_INFO("mp create random buffer fail!\n");
++		goto exit;
++	}
++
++
++	for (i = 0; i < 4096; i++)
++		pmp_priv->TXradomBuffer[i] = rtw_random32() % 0xFF;
++
++	/* startPlace = (u32)(rtw_random32() % 3450); */
++	_rtw_memcpy(ptr, pmp_priv->TXradomBuffer, pkt_end - ptr);
++	/* _rtw_memset(ptr, payload, pkt_end - ptr); */
++	rtw_mfree(pmp_priv->TXradomBuffer, 4096);
++
++	/* 3 6. start thread */
++#ifdef PLATFORM_LINUX
++	pmp_priv->tx.PktTxThread = kthread_run(mp_xmit_packet_thread, pmp_priv, "RTW_MP_THREAD");
++	if (IS_ERR(pmp_priv->tx.PktTxThread))
++		RTW_INFO("Create PktTx Thread Fail !!!!!\n");
++#endif
++#ifdef PLATFORM_FREEBSD
++	{
++		struct proc *p;
++		struct thread *td;
++		pmp_priv->tx.PktTxThread = kproc_kthread_add(mp_xmit_packet_thread, pmp_priv,
++			&p, &td, RFHIGHPID, 0, "MPXmitThread", "MPXmitThread");
++
++		if (pmp_priv->tx.PktTxThread < 0)
++			RTW_INFO("Create PktTx Thread Fail !!!!!\n");
++	}
++#endif
++
++	Rtw_MPSetMacTxEDCA(padapter);
++exit:
++	return;
++}
++
++void SetPacketRx(PADAPTER pAdapter, u8 bStartRx, u8 bAB)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++	struct mp_priv *pmppriv = &pAdapter->mppriv;
++
++
++	if (bStartRx) {
++#ifdef CONFIG_RTL8723B
++		PHY_SetMacReg(pAdapter, 0xe70, BIT23 | BIT22, 0x3); /* Power on adc  (in RX_WAIT_CCA state) */
++		write_bbreg(pAdapter, 0xa01, BIT0, bDisable);/* improve Rx performance by jerry	 */
++#endif
++		pHalData->ReceiveConfig = RCR_AAP | RCR_APM | RCR_AM | RCR_AMF | RCR_HTC_LOC_CTRL;
++		pHalData->ReceiveConfig |= RCR_ACRC32;
++		pHalData->ReceiveConfig |= RCR_APP_PHYST_RXFF | RCR_APP_ICV | RCR_APP_MIC;
++
++		if (pmppriv->bSetRxBssid == _TRUE) {
++			RTW_INFO("%s: pmppriv->network_macaddr=" MAC_FMT "\n", __func__,
++				 MAC_ARG(pmppriv->network_macaddr));
++			pHalData->ReceiveConfig = 0;
++			pHalData->ReceiveConfig |= RCR_CBSSID_DATA | RCR_CBSSID_BCN |RCR_APM | RCR_AM | RCR_AB |RCR_AMF;
++
++#if defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++			write_bbreg(pAdapter, 0x550, BIT3, bEnable);
++#endif
++			rtw_write16(pAdapter, REG_RXFLTMAP0, 0xFFEF); /* REG_RXFLTMAP0 (RX Filter Map Group 0) */
++
++		} else {
++			pHalData->ReceiveConfig |= RCR_ADF;
++			/* Accept all data frames */
++			rtw_write16(pAdapter, REG_RXFLTMAP2, 0xFFFF);
++		}
++
++		if (bAB)
++			pHalData->ReceiveConfig |= RCR_AB;
++	} else {
++#ifdef CONFIG_RTL8723B
++		PHY_SetMacReg(pAdapter, 0xe70, BIT23 | BIT22, 0x00); /* Power off adc  (in RX_WAIT_CCA state) */
++		write_bbreg(pAdapter, 0xa01, BIT0, bEnable);/* improve Rx performance by jerry	 */
++#endif
++		pHalData->ReceiveConfig = 0;
++		rtw_write16(pAdapter, REG_RXFLTMAP0, 0xFFFF); /* REG_RXFLTMAP0 (RX Filter Map Group 0) */
++	}
++
++	rtw_write32(pAdapter, REG_RCR, pHalData->ReceiveConfig);
++}
++
++void ResetPhyRxPktCount(PADAPTER pAdapter)
++{
++	u32 i, phyrx_set = 0;
++
++	for (i = 0; i <= 0xF; i++) {
++		phyrx_set = 0;
++		phyrx_set |= _RXERR_RPT_SEL(i);	/* select */
++		phyrx_set |= RXERR_RPT_RST;	/* set counter to zero */
++		rtw_write32(pAdapter, REG_RXERR_RPT, phyrx_set);
++	}
++}
++
++static u32 GetPhyRxPktCounts(PADAPTER pAdapter, u32 selbit)
++{
++	/* selection */
++	u32 phyrx_set = 0, count = 0;
++
++	phyrx_set = _RXERR_RPT_SEL(selbit & 0xF);
++	rtw_write32(pAdapter, REG_RXERR_RPT, phyrx_set);
++
++	/* Read packet count */
++	count = rtw_read32(pAdapter, REG_RXERR_RPT) & RXERR_COUNTER_MASK;
++
++	return count;
++}
++
++u32 GetPhyRxPktReceived(PADAPTER pAdapter)
++{
++	u32 OFDM_cnt = 0, CCK_cnt = 0, HT_cnt = 0;
++
++	OFDM_cnt = GetPhyRxPktCounts(pAdapter, RXERR_TYPE_OFDM_MPDU_OK);
++	CCK_cnt = GetPhyRxPktCounts(pAdapter, RXERR_TYPE_CCK_MPDU_OK);
++	HT_cnt = GetPhyRxPktCounts(pAdapter, RXERR_TYPE_HT_MPDU_OK);
++
++	return OFDM_cnt + CCK_cnt + HT_cnt;
++}
++
++u32 GetPhyRxPktCRC32Error(PADAPTER pAdapter)
++{
++	u32 OFDM_cnt = 0, CCK_cnt = 0, HT_cnt = 0;
++
++	OFDM_cnt = GetPhyRxPktCounts(pAdapter, RXERR_TYPE_OFDM_MPDU_FAIL);
++	CCK_cnt = GetPhyRxPktCounts(pAdapter, RXERR_TYPE_CCK_MPDU_FAIL);
++	HT_cnt = GetPhyRxPktCounts(pAdapter, RXERR_TYPE_HT_MPDU_FAIL);
++
++	return OFDM_cnt + CCK_cnt + HT_cnt;
++}
++
++/* reg 0x808[9:0]: FFT data x
++ * reg 0x808[22]:  0  -->  1  to get 1 FFT data y
++ * reg 0x8B4[15:0]: FFT data y report */
++static u32 rtw_GetPSDData(PADAPTER pAdapter, u32 point)
++{
++	u32 psd_val = 0;
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) || defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++	u16 psd_reg = 0x910;
++	u16 psd_regL = 0xF44;
++#else
++	u16 psd_reg = 0x808;
++	u16 psd_regL = 0x8B4;
++#endif
++
++	psd_val = rtw_read32(pAdapter, psd_reg);
++
++	psd_val &= 0xFFBFFC00;
++	psd_val |= point;
++
++	rtw_write32(pAdapter, psd_reg, psd_val);
++	rtw_mdelay_os(1);
++	psd_val |= 0x00400000;
++
++	rtw_write32(pAdapter, psd_reg, psd_val);
++	rtw_mdelay_os(1);
++
++	psd_val = rtw_read32(pAdapter, psd_regL);
++	psd_val &= 0x0000FFFF;
++
++	return psd_val;
++}
++
++/*
++ * pts	start_point_min		stop_point_max
++ * 128	64			64 + 128 = 192
++ * 256	128			128 + 256 = 384
++ * 512	256			256 + 512 = 768
++ * 1024	512			512 + 1024 = 1536
++ *
++ */
++u32 mp_query_psd(PADAPTER pAdapter, u8 *data)
++{
++	u32 i, psd_pts = 0, psd_start = 0, psd_stop = 0;
++	u32 psd_data = 0;
++
++
++#ifdef PLATFORM_LINUX
++	if (!netif_running(pAdapter->pnetdev)) {
++		return 0;
++	}
++#endif
++
++	if (check_fwstate(&pAdapter->mlmepriv, WIFI_MP_STATE) == _FALSE) {
++		return 0;
++	}
++
++	if (strlen(data) == 0) { /* default value */
++		psd_pts = 128;
++		psd_start = 64;
++		psd_stop = 128;
++	} else
++		sscanf(data, "pts=%d,start=%d,stop=%d", &psd_pts, &psd_start, &psd_stop);
++
++	data[0] = '\0';
++
++	i = psd_start;
++	while (i < psd_stop) {
++		if (i >= psd_pts)
++			psd_data = rtw_GetPSDData(pAdapter, i - psd_pts);
++		else
++			psd_data = rtw_GetPSDData(pAdapter, i);
++		sprintf(data, "%s%x ", data, psd_data);
++		i++;
++	}
++
++#ifdef CONFIG_LONG_DELAY_ISSUE
++	rtw_msleep_os(100);
++#else
++	rtw_mdelay_os(100);
++#endif
++
++	return strlen(data) + 1;
++}
++
++
++#if 0
++void _rtw_mp_xmit_priv(struct xmit_priv *pxmitpriv)
++{
++	int i, res;
++	_adapter *padapter = pxmitpriv->adapter;
++	struct xmit_frame	*pxmitframe = (struct xmit_frame *) pxmitpriv->pxmit_frame_buf;
++	struct xmit_buf *pxmitbuf = (struct xmit_buf *)pxmitpriv->pxmitbuf;
++
++	u32 max_xmit_extbuf_size = MAX_XMIT_EXTBUF_SZ;
++	u32 num_xmit_extbuf = NR_XMIT_EXTBUFF;
++	if (padapter->registrypriv.mp_mode == 0) {
++		max_xmit_extbuf_size = MAX_XMIT_EXTBUF_SZ;
++		num_xmit_extbuf = NR_XMIT_EXTBUFF;
++	} else {
++		max_xmit_extbuf_size = 6000;
++		num_xmit_extbuf = 8;
++	}
++
++	pxmitbuf = (struct xmit_buf *)pxmitpriv->pxmit_extbuf;
++	for (i = 0; i < num_xmit_extbuf; i++) {
++		rtw_os_xmit_resource_free(padapter, pxmitbuf, (max_xmit_extbuf_size + XMITBUF_ALIGN_SZ), _FALSE);
++
++		pxmitbuf++;
++	}
++
++	if (pxmitpriv->pallocated_xmit_extbuf)
++		rtw_vmfree(pxmitpriv->pallocated_xmit_extbuf, num_xmit_extbuf * sizeof(struct xmit_buf) + 4);
++
++	if (padapter->registrypriv.mp_mode == 0) {
++		max_xmit_extbuf_size = 6000;
++		num_xmit_extbuf = 8;
++	} else {
++		max_xmit_extbuf_size = MAX_XMIT_EXTBUF_SZ;
++		num_xmit_extbuf = NR_XMIT_EXTBUFF;
++	}
++
++	/* Init xmit extension buff */
++	_rtw_init_queue(&pxmitpriv->free_xmit_extbuf_queue);
++
++	pxmitpriv->pallocated_xmit_extbuf = rtw_zvmalloc(num_xmit_extbuf * sizeof(struct xmit_buf) + 4);
++
++	if (pxmitpriv->pallocated_xmit_extbuf  == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pxmitpriv->pxmit_extbuf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitpriv->pallocated_xmit_extbuf), 4);
++
++	pxmitbuf = (struct xmit_buf *)pxmitpriv->pxmit_extbuf;
++
++	for (i = 0; i < num_xmit_extbuf; i++) {
++		_rtw_init_listhead(&pxmitbuf->list);
++
++		pxmitbuf->priv_data = NULL;
++		pxmitbuf->padapter = padapter;
++		pxmitbuf->buf_tag = XMITBUF_MGNT;
++
++		res = rtw_os_xmit_resource_alloc(padapter, pxmitbuf, max_xmit_extbuf_size + XMITBUF_ALIGN_SZ, _TRUE);
++		if (res == _FAIL) {
++			res = _FAIL;
++			goto exit;
++		}
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		pxmitbuf->phead = pxmitbuf->pbuf;
++		pxmitbuf->pend = pxmitbuf->pbuf + max_xmit_extbuf_size;
++		pxmitbuf->len = 0;
++		pxmitbuf->pdata = pxmitbuf->ptail = pxmitbuf->phead;
++#endif
++
++		rtw_list_insert_tail(&pxmitbuf->list, &(pxmitpriv->free_xmit_extbuf_queue.queue));
++#ifdef DBG_XMIT_BUF_EXT
++		pxmitbuf->no = i;
++#endif
++		pxmitbuf++;
++
++	}
++
++	pxmitpriv->free_xmit_extbuf_cnt = num_xmit_extbuf;
++
++exit:
++	;
++}
++#endif
++
++
++ULONG getPowerDiffByRate8188E(
++	IN	PADAPTER	pAdapter,
++	IN	u1Byte		CurrChannel,
++	IN	ULONG		RfPath
++)
++{
++	PMPT_CONTEXT			pMptCtx = &(pAdapter->mppriv.MptCtx);
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(pAdapter);
++	ULONG	PwrGroup = 0;
++	ULONG	TxPower = 0, Limit = 0;
++	ULONG	Pathmapping = (RfPath == ODM_RF_PATH_A ? 0 : 8);
++
++	switch (pHalData->EEPROMRegulatory) {
++	case 0: /* driver-defined maximum power offset for longer communication range */
++		/* refer to power by rate table */
++		PwrGroup = 0;
++		Limit = 0xff;
++		break;
++	case 1: /* Power-limit table-defined maximum power offset range */
++		/* choosed by min(power by rate, power limit). */
++	{
++		if (pHalData->pwrGroupCnt == 1)
++			PwrGroup = 0;
++		if (pHalData->pwrGroupCnt >= 3) {
++			if (CurrChannel <= 3)
++				PwrGroup = 0;
++			else if (CurrChannel >= 4 && CurrChannel <= 9)
++				PwrGroup = 1;
++			else if (CurrChannel > 9)
++				PwrGroup = 2;
++
++			if (pHalData->CurrentChannelBW == CHANNEL_WIDTH_20)
++				PwrGroup++;
++			else
++				PwrGroup += 4;
++		}
++		Limit = 0xff;
++	}
++	break;
++	case 2: /* not support power offset by rate. */
++		/* don't increase any power diff */
++		PwrGroup = 0;
++		Limit = 0;
++		break;
++	default:
++		PwrGroup = 0;
++		Limit = 0xff;
++		break;
++	}
++
++
++	{
++		switch (pMptCtx->MptRateIndex) {
++		case MPT_RATE_1M:
++		case MPT_RATE_2M:
++		case MPT_RATE_55M:
++		case MPT_RATE_11M:
++			/* CCK rates, don't add any tx power index. */
++			/* RT_DISP(FPHY, PHY_TXPWR,("CCK rates!\n")); */
++			break;
++		case MPT_RATE_6M:	/* 0xe00 [31:0] = 18M,12M,09M,06M */
++			TxPower += ((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][0 + Pathmapping]) & 0xff);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][0] = 0x%x, OFDM 6M, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][0], TxPower)); */
++			break;
++		case MPT_RATE_9M:
++			TxPower += (((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][0 + Pathmapping]) & 0xff00) >> 8);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][0] = 0x%x, OFDM 9M, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][0], TxPower)); */
++			break;
++		case MPT_RATE_12M:
++			TxPower += (((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][0 + Pathmapping]) & 0xff0000) >> 16);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][0] = 0x%x, OFDM 12M, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][0], TxPower)); */
++			break;
++		case MPT_RATE_18M:
++			TxPower += (((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][0 + Pathmapping]) & 0xff000000) >> 24);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][0] = 0x%x, OFDM 24M, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][0], TxPower)); */
++			break;
++		case MPT_RATE_24M:	/* 0xe04[31:0] = 54M,48M,36M,24M */
++			TxPower += ((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][1 + Pathmapping]) & 0xff);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][1] = 0x%x, OFDM 24M, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][1], TxPower)); */
++			break;
++		case MPT_RATE_36M:
++			TxPower += (((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][1 + Pathmapping]) & 0xff00) >> 8);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][1] = 0x%x, OFDM 36M, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][1], TxPower)); */
++			break;
++		case MPT_RATE_48M:
++			TxPower += (((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][1 + Pathmapping]) & 0xff0000) >> 16);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][1] = 0x%x, OFDM 48M, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][1], TxPower)); */
++			break;
++		case MPT_RATE_54M:
++			TxPower += (((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][1 + Pathmapping]) & 0xff000000) >> 24);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][1] = 0x%x, OFDM 54M, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][1], TxPower)); */
++			break;
++		case MPT_RATE_MCS0: /* 0xe10[31:0]= MCS=03,02,01,00 */
++			TxPower += ((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][2 + Pathmapping]) & 0xff);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][2] = 0x%x, MCS0, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][2], TxPower)); */
++			break;
++		case MPT_RATE_MCS1:
++			TxPower += (((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][2 + Pathmapping]) & 0xff00) >> 8);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][2] = 0x%x, MCS1, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][2], TxPower)); */
++			break;
++		case MPT_RATE_MCS2:
++			TxPower += (((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][2 + Pathmapping]) & 0xff0000) >> 16);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][2] = 0x%x, MCS2, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][2], TxPower)); */
++			break;
++		case MPT_RATE_MCS3:
++			TxPower += (((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][2 + Pathmapping]) & 0xff000000) >> 24);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][2] = 0x%x, MCS3, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][2], TxPower)); */
++			break;
++		case MPT_RATE_MCS4: /* 0xe14[31:0]= MCS=07,06,05,04 */
++			TxPower += ((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][3 + Pathmapping]) & 0xff);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][3] = 0x%x, MCS4, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][3], TxPower)); */
++			break;
++		case MPT_RATE_MCS5:
++			TxPower += (((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][3 + Pathmapping]) & 0xff00) >> 8);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][3] = 0x%x, MCS5, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][3], TxPower)); */
++			break;
++		case MPT_RATE_MCS6:
++			TxPower += (((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][3 + Pathmapping]) & 0xff0000) >> 16);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][3] = 0x%x, MCS6, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][3], TxPower)); */
++			break;
++		case MPT_RATE_MCS7:
++			TxPower += (((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][3 + Pathmapping]) & 0xff000000) >> 24);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][3] = 0x%x, MCS7, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][3], TxPower)); */
++			break;
++
++		case MPT_RATE_MCS8: /* 0xe18[31:0]= MCS=11,10,09,08 */
++			TxPower += ((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][4 + Pathmapping]) & 0xff);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][4] = 0x%x, MCS8, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][4], TxPower)); */
++			break;
++		case MPT_RATE_MCS9:
++			TxPower += (((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][4 + Pathmapping]) & 0xff00) >> 8);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][4] = 0x%x, MCS9, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][4], TxPower)); */
++			break;
++		case MPT_RATE_MCS10:
++			TxPower += (((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][4 + Pathmapping]) & 0xff0000) >> 16);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][4] = 0x%x, MCS10, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][4], TxPower)); */
++			break;
++		case MPT_RATE_MCS11:
++			TxPower += (((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][4 + Pathmapping]) & 0xff000000) >> 24);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][4] = 0x%x, MCS11, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][4], TxPower)); */
++			break;
++		case MPT_RATE_MCS12:	/* 0xe1c[31:0]= MCS=15,14,13,12 */
++			TxPower += ((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][5 + Pathmapping]) & 0xff);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][5] = 0x%x, MCS12, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][5], TxPower)); */
++			break;
++		case MPT_RATE_MCS13:
++			TxPower += (((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][5 + Pathmapping]) & 0xff00) >> 8);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][5] = 0x%x, MCS13, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][5], TxPower)); */
++			break;
++		case MPT_RATE_MCS14:
++			TxPower += (((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][5 + Pathmapping]) & 0xff0000) >> 16);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][5] = 0x%x, MCS14, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][5], TxPower)); */
++			break;
++		case MPT_RATE_MCS15:
++			TxPower += (((pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][5 + Pathmapping]) & 0xff000000) >> 24);
++			/* RT_DISP(FPHY, PHY_TXPWR,("MCSTxPowerLevelOriginalOffset[%d][5] = 0x%x, MCS15, TxPower = %d\n",  */
++			/*	PwrGroup, pHalData->MCSTxPowerLevelOriginalOffset[PwrGroup][5], TxPower)); */
++			break;
++		default:
++			break;
++		}
++	}
++
++	if (TxPower > Limit)
++		TxPower = Limit;
++
++	return TxPower;
++}
++
++
++
++static	ULONG
++mpt_ProQueryCalTxPower_8188E(
++	IN	PADAPTER		pAdapter,
++	IN	u1Byte			RfPath
++)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(pAdapter);
++	u1Byte				TxCount = TX_1S, i = 0;	/* default set to 1S */
++	/* PMGNT_INFO			pMgntInfo = &(pAdapter->MgntInfo); */
++	ULONG				TxPower = 1, PwrGroup = 0, PowerDiffByRate = 0;
++	ULONG				TxPowerCCK = 1, TxPowerOFDM = 1, TxPowerBW20 = 1, TxPowerBW40 = 1 ;
++	PMPT_CONTEXT		pMptCtx = &(pAdapter->mppriv.MptCtx);
++	u1Byte				CurrChannel = pHalData->CurrentChannel;
++	u1Byte				index = (CurrChannel - 1);
++	u1Byte				rf_path = (RfPath), rfPath;
++	u1Byte				limit = 0, rate = 0;
++
++	if (HAL_IsLegalChannel(pAdapter, CurrChannel) == FALSE)
++		CurrChannel = 1;
++
++	if (pMptCtx->MptRateIndex <= MPT_RATE_11M)
++		TxPower = pHalData->Index24G_CCK_Base[rf_path][index];
++	else if (pMptCtx->MptRateIndex >= MPT_RATE_6M &&
++		 pMptCtx->MptRateIndex <= MPT_RATE_54M)
++		TxPower = pHalData->Index24G_BW40_Base[rf_path][index];
++	else if (pMptCtx->MptRateIndex >= MPT_RATE_MCS0 &&
++		 pMptCtx->MptRateIndex <= MPT_RATE_MCS7)
++		TxPower = pHalData->Index24G_BW40_Base[rf_path][index];
++
++	/* RT_DISP(FPHY, PHY_TXPWR, ("HT40 rate(%d) Tx power(RF-%c) = 0x%x\n", pMptCtx->MptRateIndex, ((rf_path==0)?'A':'B'), TxPower)); */
++
++
++	if (pMptCtx->MptRateIndex >= MPT_RATE_6M &&
++	    pMptCtx->MptRateIndex <= MPT_RATE_54M) {
++		TxPower += pHalData->OFDM_24G_Diff[rf_path][TxCount];
++		/* /RT_DISP(FPHY, PHY_TXPWR, ("+OFDM_PowerDiff(RF-%c) = 0x%x\n", ((rf_path==0)?'A':'B'),  */
++		/*	pHalData->OFDM_24G_Diff[rf_path][TxCount])); */
++	}
++
++	if (pMptCtx->MptRateIndex >= MPT_RATE_MCS0) {
++		if (pHalData->CurrentChannelBW == CHANNEL_WIDTH_20) {
++			TxPower += pHalData->BW20_24G_Diff[rf_path][TxCount];
++			/*	RT_DISP(FPHY, PHY_TXPWR, ("+HT20_PowerDiff(RF-%c) = 0x%x\n", ((rf_path==0)?'A':'B'),  */
++			/*		pHalData->BW20_24G_Diff[rf_path][TxCount])); */
++		}
++	}
++
++
++#ifdef ENABLE_POWER_BY_RATE
++	PowerDiffByRate = getPowerDiffByRate8188E(pAdapter, CurrChannel, RfPath);
++#else
++	PowerDiffByRate = 0;
++#endif
++
++	/* 2012/11/02 Awk: add power limit mechansim */
++	if (pMptCtx->MptRateIndex <= MPT_RATE_11M)
++		rate = MGN_1M;
++	else if (pMptCtx->MptRateIndex >= MPT_RATE_6M &&
++		 pMptCtx->MptRateIndex <= MPT_RATE_54M)
++		rate = MGN_54M;
++	else if (pMptCtx->MptRateIndex >= MPT_RATE_MCS0 &&
++		 pMptCtx->MptRateIndex <= MPT_RATE_MCS7)
++		rate = MGN_MCS7;
++
++	limit = (u8)PHY_GetTxPowerLimit(pAdapter, pMptCtx->RegTxPwrLimit,
++					pHalData->CurrentBandType,
++					pHalData->CurrentChannelBW, RfPath,
++					rate, CurrChannel);
++
++	/* RT_DISP(FPHY, PHY_TXPWR, ("+PowerDiffByRate(RF-%c) = 0x%x\n", ((rf_path==0)?'A':'B'),  */
++	/*	PowerDiffByRate)); */
++	TxPower += PowerDiffByRate;
++	/* RT_DISP(FPHY, PHY_TXPWR, ("PowerDiffByRate limit value(RF-%c) = %d\n", ((rf_path==0)?'A':'B'),  */
++	/*	limit)); */
++
++	TxPower +=  limit > (s8) PowerDiffByRate ? PowerDiffByRate : limit;
++
++	return TxPower;
++}
++
++
++u8
++MptToMgntRate(
++	IN	ULONG	MptRateIdx
++)
++{
++	/* Mapped to MGN_XXX defined in MgntGen.h */
++	switch (MptRateIdx) {
++	/* CCK rate. */
++	case	MPT_RATE_1M:
++		return MGN_1M;
++	case	MPT_RATE_2M:
++		return MGN_2M;
++	case	MPT_RATE_55M:
++		return MGN_5_5M;
++	case	MPT_RATE_11M:
++		return MGN_11M;
++
++	/* OFDM rate. */
++	case	MPT_RATE_6M:
++		return MGN_6M;
++	case	MPT_RATE_9M:
++		return MGN_9M;
++	case	MPT_RATE_12M:
++		return MGN_12M;
++	case	MPT_RATE_18M:
++		return MGN_18M;
++	case	MPT_RATE_24M:
++		return MGN_24M;
++	case	MPT_RATE_36M:
++		return MGN_36M;
++	case	MPT_RATE_48M:
++		return MGN_48M;
++	case	MPT_RATE_54M:
++		return MGN_54M;
++
++	/* HT rate. */
++	case	MPT_RATE_MCS0:
++		return MGN_MCS0;
++	case	MPT_RATE_MCS1:
++		return MGN_MCS1;
++	case	MPT_RATE_MCS2:
++		return MGN_MCS2;
++	case	MPT_RATE_MCS3:
++		return MGN_MCS3;
++	case	MPT_RATE_MCS4:
++		return MGN_MCS4;
++	case	MPT_RATE_MCS5:
++		return MGN_MCS5;
++	case	MPT_RATE_MCS6:
++		return MGN_MCS6;
++	case	MPT_RATE_MCS7:
++		return MGN_MCS7;
++	case	MPT_RATE_MCS8:
++		return MGN_MCS8;
++	case	MPT_RATE_MCS9:
++		return MGN_MCS9;
++	case	MPT_RATE_MCS10:
++		return MGN_MCS10;
++	case	MPT_RATE_MCS11:
++		return MGN_MCS11;
++	case	MPT_RATE_MCS12:
++		return MGN_MCS12;
++	case	MPT_RATE_MCS13:
++		return MGN_MCS13;
++	case	MPT_RATE_MCS14:
++		return MGN_MCS14;
++	case	MPT_RATE_MCS15:
++		return MGN_MCS15;
++	case	MPT_RATE_MCS16:
++		return MGN_MCS16;
++	case	MPT_RATE_MCS17:
++		return MGN_MCS17;
++	case	MPT_RATE_MCS18:
++		return MGN_MCS18;
++	case	MPT_RATE_MCS19:
++		return MGN_MCS19;
++	case	MPT_RATE_MCS20:
++		return MGN_MCS20;
++	case	MPT_RATE_MCS21:
++		return MGN_MCS21;
++	case	MPT_RATE_MCS22:
++		return MGN_MCS22;
++	case	MPT_RATE_MCS23:
++		return MGN_MCS23;
++	case	MPT_RATE_MCS24:
++		return MGN_MCS24;
++	case	MPT_RATE_MCS25:
++		return MGN_MCS25;
++	case	MPT_RATE_MCS26:
++		return MGN_MCS26;
++	case	MPT_RATE_MCS27:
++		return MGN_MCS27;
++	case	MPT_RATE_MCS28:
++		return MGN_MCS28;
++	case	MPT_RATE_MCS29:
++		return MGN_MCS29;
++	case	MPT_RATE_MCS30:
++		return MGN_MCS30;
++	case	MPT_RATE_MCS31:
++		return MGN_MCS31;
++
++	/* VHT rate. */
++	case	MPT_RATE_VHT1SS_MCS0:
++		return MGN_VHT1SS_MCS0;
++	case	MPT_RATE_VHT1SS_MCS1:
++		return MGN_VHT1SS_MCS1;
++	case	MPT_RATE_VHT1SS_MCS2:
++		return MGN_VHT1SS_MCS2;
++	case	MPT_RATE_VHT1SS_MCS3:
++		return MGN_VHT1SS_MCS3;
++	case	MPT_RATE_VHT1SS_MCS4:
++		return MGN_VHT1SS_MCS4;
++	case	MPT_RATE_VHT1SS_MCS5:
++		return MGN_VHT1SS_MCS5;
++	case	MPT_RATE_VHT1SS_MCS6:
++		return MGN_VHT1SS_MCS6;
++	case	MPT_RATE_VHT1SS_MCS7:
++		return MGN_VHT1SS_MCS7;
++	case	MPT_RATE_VHT1SS_MCS8:
++		return MGN_VHT1SS_MCS8;
++	case	MPT_RATE_VHT1SS_MCS9:
++		return MGN_VHT1SS_MCS9;
++	case	MPT_RATE_VHT2SS_MCS0:
++		return MGN_VHT2SS_MCS0;
++	case	MPT_RATE_VHT2SS_MCS1:
++		return MGN_VHT2SS_MCS1;
++	case	MPT_RATE_VHT2SS_MCS2:
++		return MGN_VHT2SS_MCS2;
++	case	MPT_RATE_VHT2SS_MCS3:
++		return MGN_VHT2SS_MCS3;
++	case	MPT_RATE_VHT2SS_MCS4:
++		return MGN_VHT2SS_MCS4;
++	case	MPT_RATE_VHT2SS_MCS5:
++		return MGN_VHT2SS_MCS5;
++	case	MPT_RATE_VHT2SS_MCS6:
++		return MGN_VHT2SS_MCS6;
++	case	MPT_RATE_VHT2SS_MCS7:
++		return MGN_VHT2SS_MCS7;
++	case	MPT_RATE_VHT2SS_MCS8:
++		return MGN_VHT2SS_MCS8;
++	case	MPT_RATE_VHT2SS_MCS9:
++		return MGN_VHT2SS_MCS9;
++	case	MPT_RATE_VHT3SS_MCS0:
++		return MGN_VHT3SS_MCS0;
++	case	MPT_RATE_VHT3SS_MCS1:
++		return MGN_VHT3SS_MCS1;
++	case	MPT_RATE_VHT3SS_MCS2:
++		return MGN_VHT3SS_MCS2;
++	case	MPT_RATE_VHT3SS_MCS3:
++		return MGN_VHT3SS_MCS3;
++	case	MPT_RATE_VHT3SS_MCS4:
++		return MGN_VHT3SS_MCS4;
++	case	MPT_RATE_VHT3SS_MCS5:
++		return MGN_VHT3SS_MCS5;
++	case	MPT_RATE_VHT3SS_MCS6:
++		return MGN_VHT3SS_MCS6;
++	case	MPT_RATE_VHT3SS_MCS7:
++		return MGN_VHT3SS_MCS7;
++	case	MPT_RATE_VHT3SS_MCS8:
++		return MGN_VHT3SS_MCS8;
++	case	MPT_RATE_VHT3SS_MCS9:
++		return MGN_VHT3SS_MCS9;
++	case	MPT_RATE_VHT4SS_MCS0:
++		return MGN_VHT4SS_MCS0;
++	case	MPT_RATE_VHT4SS_MCS1:
++		return MGN_VHT4SS_MCS1;
++	case	MPT_RATE_VHT4SS_MCS2:
++		return MGN_VHT4SS_MCS2;
++	case	MPT_RATE_VHT4SS_MCS3:
++		return MGN_VHT4SS_MCS3;
++	case	MPT_RATE_VHT4SS_MCS4:
++		return MGN_VHT4SS_MCS4;
++	case	MPT_RATE_VHT4SS_MCS5:
++		return MGN_VHT4SS_MCS5;
++	case	MPT_RATE_VHT4SS_MCS6:
++		return MGN_VHT4SS_MCS6;
++	case	MPT_RATE_VHT4SS_MCS7:
++		return MGN_VHT4SS_MCS7;
++	case	MPT_RATE_VHT4SS_MCS8:
++		return MGN_VHT4SS_MCS8;
++	case	MPT_RATE_VHT4SS_MCS9:
++		return MGN_VHT4SS_MCS9;
++
++	case	MPT_RATE_LAST:	/* fully automatiMGN_VHT2SS_MCS1;	 */
++	default:
++		RTW_INFO("<===MptToMgntRate(), Invalid Rate: %d!!\n", MptRateIdx);
++		return 0x0;
++	}
++}
++
++
++u8 HwRateToMPTRate(u8 rate)
++{
++	u8	ret_rate = MGN_1M;
++
++	switch (rate) {
++	case DESC_RATE1M:
++		ret_rate = MPT_RATE_1M;
++		break;
++	case DESC_RATE2M:
++		ret_rate = MPT_RATE_2M;
++		break;
++	case DESC_RATE5_5M:
++		ret_rate = MPT_RATE_55M;
++		break;
++	case DESC_RATE11M:
++		ret_rate = MPT_RATE_11M;
++		break;
++	case DESC_RATE6M:
++		ret_rate = MPT_RATE_6M;
++		break;
++	case DESC_RATE9M:
++		ret_rate = MPT_RATE_9M;
++		break;
++	case DESC_RATE12M:
++		ret_rate = MPT_RATE_12M;
++		break;
++	case DESC_RATE18M:
++		ret_rate = MPT_RATE_18M;
++		break;
++	case DESC_RATE24M:
++		ret_rate = MPT_RATE_24M;
++		break;
++	case DESC_RATE36M:
++		ret_rate = MPT_RATE_36M;
++		break;
++	case DESC_RATE48M:
++		ret_rate = MPT_RATE_48M;
++		break;
++	case DESC_RATE54M:
++		ret_rate = MPT_RATE_54M;
++		break;
++	case DESC_RATEMCS0:
++		ret_rate = MPT_RATE_MCS0;
++		break;
++	case DESC_RATEMCS1:
++		ret_rate = MPT_RATE_MCS1;
++		break;
++	case DESC_RATEMCS2:
++		ret_rate = MPT_RATE_MCS2;
++		break;
++	case DESC_RATEMCS3:
++		ret_rate = MPT_RATE_MCS3;
++		break;
++	case DESC_RATEMCS4:
++		ret_rate = MPT_RATE_MCS4;
++		break;
++	case DESC_RATEMCS5:
++		ret_rate = MPT_RATE_MCS5;
++		break;
++	case DESC_RATEMCS6:
++		ret_rate = MPT_RATE_MCS6;
++		break;
++	case DESC_RATEMCS7:
++		ret_rate = MPT_RATE_MCS7;
++		break;
++	case DESC_RATEMCS8:
++		ret_rate = MPT_RATE_MCS8;
++		break;
++	case DESC_RATEMCS9:
++		ret_rate = MPT_RATE_MCS9;
++		break;
++	case DESC_RATEMCS10:
++		ret_rate = MPT_RATE_MCS10;
++		break;
++	case DESC_RATEMCS11:
++		ret_rate = MPT_RATE_MCS11;
++		break;
++	case DESC_RATEMCS12:
++		ret_rate = MPT_RATE_MCS12;
++		break;
++	case DESC_RATEMCS13:
++		ret_rate = MPT_RATE_MCS13;
++		break;
++	case DESC_RATEMCS14:
++		ret_rate = MPT_RATE_MCS14;
++		break;
++	case DESC_RATEMCS15:
++		ret_rate = MPT_RATE_MCS15;
++		break;
++	case DESC_RATEMCS16:
++		ret_rate = MPT_RATE_MCS16;
++		break;
++	case DESC_RATEMCS17:
++		ret_rate = MPT_RATE_MCS17;
++		break;
++	case DESC_RATEMCS18:
++		ret_rate = MPT_RATE_MCS18;
++		break;
++	case DESC_RATEMCS19:
++		ret_rate = MPT_RATE_MCS19;
++		break;
++	case DESC_RATEMCS20:
++		ret_rate = MPT_RATE_MCS20;
++		break;
++	case DESC_RATEMCS21:
++		ret_rate = MPT_RATE_MCS21;
++		break;
++	case DESC_RATEMCS22:
++		ret_rate = MPT_RATE_MCS22;
++		break;
++	case DESC_RATEMCS23:
++		ret_rate = MPT_RATE_MCS23;
++		break;
++	case DESC_RATEMCS24:
++		ret_rate = MPT_RATE_MCS24;
++		break;
++	case DESC_RATEMCS25:
++		ret_rate = MPT_RATE_MCS25;
++		break;
++	case DESC_RATEMCS26:
++		ret_rate = MPT_RATE_MCS26;
++		break;
++	case DESC_RATEMCS27:
++		ret_rate = MPT_RATE_MCS27;
++		break;
++	case DESC_RATEMCS28:
++		ret_rate = MPT_RATE_MCS28;
++		break;
++	case DESC_RATEMCS29:
++		ret_rate = MPT_RATE_MCS29;
++		break;
++	case DESC_RATEMCS30:
++		ret_rate = MPT_RATE_MCS30;
++		break;
++	case DESC_RATEMCS31:
++		ret_rate = MPT_RATE_MCS31;
++		break;
++	case DESC_RATEVHTSS1MCS0:
++		ret_rate = MPT_RATE_VHT1SS_MCS0;
++		break;
++	case DESC_RATEVHTSS1MCS1:
++		ret_rate = MPT_RATE_VHT1SS_MCS1;
++		break;
++	case DESC_RATEVHTSS1MCS2:
++		ret_rate = MPT_RATE_VHT1SS_MCS2;
++		break;
++	case DESC_RATEVHTSS1MCS3:
++		ret_rate = MPT_RATE_VHT1SS_MCS3;
++		break;
++	case DESC_RATEVHTSS1MCS4:
++		ret_rate = MPT_RATE_VHT1SS_MCS4;
++		break;
++	case DESC_RATEVHTSS1MCS5:
++		ret_rate = MPT_RATE_VHT1SS_MCS5;
++		break;
++	case DESC_RATEVHTSS1MCS6:
++		ret_rate = MPT_RATE_VHT1SS_MCS6;
++		break;
++	case DESC_RATEVHTSS1MCS7:
++		ret_rate = MPT_RATE_VHT1SS_MCS7;
++		break;
++	case DESC_RATEVHTSS1MCS8:
++		ret_rate = MPT_RATE_VHT1SS_MCS8;
++		break;
++	case DESC_RATEVHTSS1MCS9:
++		ret_rate = MPT_RATE_VHT1SS_MCS9;
++		break;
++	case DESC_RATEVHTSS2MCS0:
++		ret_rate = MPT_RATE_VHT2SS_MCS0;
++		break;
++	case DESC_RATEVHTSS2MCS1:
++		ret_rate = MPT_RATE_VHT2SS_MCS1;
++		break;
++	case DESC_RATEVHTSS2MCS2:
++		ret_rate = MPT_RATE_VHT2SS_MCS2;
++		break;
++	case DESC_RATEVHTSS2MCS3:
++		ret_rate = MPT_RATE_VHT2SS_MCS3;
++		break;
++	case DESC_RATEVHTSS2MCS4:
++		ret_rate = MPT_RATE_VHT2SS_MCS4;
++		break;
++	case DESC_RATEVHTSS2MCS5:
++		ret_rate = MPT_RATE_VHT2SS_MCS5;
++		break;
++	case DESC_RATEVHTSS2MCS6:
++		ret_rate = MPT_RATE_VHT2SS_MCS6;
++		break;
++	case DESC_RATEVHTSS2MCS7:
++		ret_rate = MPT_RATE_VHT2SS_MCS7;
++		break;
++	case DESC_RATEVHTSS2MCS8:
++		ret_rate = MPT_RATE_VHT2SS_MCS8;
++		break;
++	case DESC_RATEVHTSS2MCS9:
++		ret_rate = MPT_RATE_VHT2SS_MCS9;
++		break;
++	case DESC_RATEVHTSS3MCS0:
++		ret_rate = MPT_RATE_VHT3SS_MCS0;
++		break;
++	case DESC_RATEVHTSS3MCS1:
++		ret_rate = MPT_RATE_VHT3SS_MCS1;
++		break;
++	case DESC_RATEVHTSS3MCS2:
++		ret_rate = MPT_RATE_VHT3SS_MCS2;
++		break;
++	case DESC_RATEVHTSS3MCS3:
++		ret_rate = MPT_RATE_VHT3SS_MCS3;
++		break;
++	case DESC_RATEVHTSS3MCS4:
++		ret_rate = MPT_RATE_VHT3SS_MCS4;
++		break;
++	case DESC_RATEVHTSS3MCS5:
++		ret_rate = MPT_RATE_VHT3SS_MCS5;
++		break;
++	case DESC_RATEVHTSS3MCS6:
++		ret_rate = MPT_RATE_VHT3SS_MCS6;
++		break;
++	case DESC_RATEVHTSS3MCS7:
++		ret_rate = MPT_RATE_VHT3SS_MCS7;
++		break;
++	case DESC_RATEVHTSS3MCS8:
++		ret_rate = MPT_RATE_VHT3SS_MCS8;
++		break;
++	case DESC_RATEVHTSS3MCS9:
++		ret_rate = MPT_RATE_VHT3SS_MCS9;
++		break;
++	case DESC_RATEVHTSS4MCS0:
++		ret_rate = MPT_RATE_VHT4SS_MCS0;
++		break;
++	case DESC_RATEVHTSS4MCS1:
++		ret_rate = MPT_RATE_VHT4SS_MCS1;
++		break;
++	case DESC_RATEVHTSS4MCS2:
++		ret_rate = MPT_RATE_VHT4SS_MCS2;
++		break;
++	case DESC_RATEVHTSS4MCS3:
++		ret_rate = MPT_RATE_VHT4SS_MCS3;
++		break;
++	case DESC_RATEVHTSS4MCS4:
++		ret_rate = MPT_RATE_VHT4SS_MCS4;
++		break;
++	case DESC_RATEVHTSS4MCS5:
++		ret_rate = MPT_RATE_VHT4SS_MCS5;
++		break;
++	case DESC_RATEVHTSS4MCS6:
++		ret_rate = MPT_RATE_VHT4SS_MCS6;
++		break;
++	case DESC_RATEVHTSS4MCS7:
++		ret_rate = MPT_RATE_VHT4SS_MCS7;
++		break;
++	case DESC_RATEVHTSS4MCS8:
++		ret_rate = MPT_RATE_VHT4SS_MCS8;
++		break;
++	case DESC_RATEVHTSS4MCS9:
++		ret_rate = MPT_RATE_VHT4SS_MCS9;
++		break;
++
++	default:
++		RTW_INFO("HwRateToMRate(): Non supported Rate [%x]!!!\n", rate);
++		break;
++	}
++	return ret_rate;
++}
++
++u8 rtw_mpRateParseFunc(PADAPTER pAdapter, u8 *targetStr)
++{
++	u16 i = 0;
++	u8 *rateindex_Array[] = { "1M", "2M", "5.5M", "11M", "6M", "9M", "12M", "18M", "24M", "36M", "48M", "54M",
++		"HTMCS0", "HTMCS1", "HTMCS2", "HTMCS3", "HTMCS4", "HTMCS5", "HTMCS6", "HTMCS7",
++		"HTMCS8", "HTMCS9", "HTMCS10", "HTMCS11", "HTMCS12", "HTMCS13", "HTMCS14", "HTMCS15",
++		"HTMCS16", "HTMCS17", "HTMCS18", "HTMCS19", "HTMCS20", "HTMCS21", "HTMCS22", "HTMCS23",
++		"HTMCS24", "HTMCS25", "HTMCS26", "HTMCS27", "HTMCS28", "HTMCS29", "HTMCS30", "HTMCS31",
++		"VHT1MCS0", "VHT1MCS1", "VHT1MCS2", "VHT1MCS3", "VHT1MCS4", "VHT1MCS5", "VHT1MCS6", "VHT1MCS7", "VHT1MCS8", "VHT1MCS9",
++		"VHT2MCS0", "VHT2MCS1", "VHT2MCS2", "VHT2MCS3", "VHT2MCS4", "VHT2MCS5", "VHT2MCS6", "VHT2MCS7", "VHT2MCS8", "VHT2MCS9",
++		"VHT3MCS0", "VHT3MCS1", "VHT3MCS2", "VHT3MCS3", "VHT3MCS4", "VHT3MCS5", "VHT3MCS6", "VHT3MCS7", "VHT3MCS8", "VHT3MCS9",
++		"VHT4MCS0", "VHT4MCS1", "VHT4MCS2", "VHT4MCS3", "VHT4MCS4", "VHT4MCS5", "VHT4MCS6", "VHT4MCS7", "VHT4MCS8", "VHT4MCS9"
++				};
++
++	for (i = 0; i <= 83; i++) {
++		if (strcmp(targetStr, rateindex_Array[i]) == 0) {
++			RTW_INFO("%s , index = %d\n", __func__ , i);
++			return i;
++		}
++	}
++
++	printk("%s ,please input a Data RATE String as:", __func__);
++	for (i = 0; i <= 83; i++) {
++		printk("%s ", rateindex_Array[i]);
++		if (i % 10 == 0)
++			printk("\n");
++	}
++	return _FAIL;
++}
++
++ULONG mpt_ProQueryCalTxPower(
++	PADAPTER	pAdapter,
++	u8		RfPath
++)
++{
++
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT		pMptCtx = &(pAdapter->mppriv.MptCtx);
++
++	ULONG			TxPower = 1;
++	u1Byte			rate = 0;
++	struct txpwr_idx_comp tic;
++	u8 mgn_rate = MptToMgntRate(pMptCtx->MptRateIndex);
++
++	TxPower = rtw_hal_get_tx_power_index(pAdapter, RfPath, mgn_rate, pHalData->CurrentChannelBW, pHalData->CurrentChannel, &tic);
++
++	RTW_INFO("bw=%d, ch=%d, rate=%d, txPower:%u = %u + (%d=%d:%d) + (%d) + (%d)\n",
++		pHalData->CurrentChannelBW, pHalData->CurrentChannel, mgn_rate
++		, TxPower, tic.base, (tic.by_rate > tic.limit ? tic.limit : tic.by_rate), tic.by_rate, tic.limit, tic.tpt, tic.ebias);
++
++	pAdapter->mppriv.txpoweridx = (u8)TxPower;
++	pMptCtx->TxPwrLevel[ODM_RF_PATH_A] = (u8)TxPower;
++	pMptCtx->TxPwrLevel[ODM_RF_PATH_B] = (u8)TxPower;
++	pMptCtx->TxPwrLevel[ODM_RF_PATH_C] = (u8)TxPower;
++	pMptCtx->TxPwrLevel[ODM_RF_PATH_D]  = (u8)TxPower;
++	hal_mpt_SetTxPower(pAdapter);
++
++	return TxPower;
++}
++
++#ifdef CONFIG_MP_VHT_HW_TX_MODE
++static inline void dump_buf(u8 *buf, u32 len)
++{
++	u32 i;
++
++	RTW_INFO("-----------------Len %d----------------\n", len);
++	for (i = 0; i < len; i++)
++		RTW_INFO("%2.2x-", *(buf + i));
++	RTW_INFO("\n");
++}
++
++void ByteToBit(
++	UCHAR	*out,
++	bool	*in,
++	UCHAR	in_size)
++{
++	UCHAR i = 0, j = 0;
++
++	for (i = 0; i < in_size; i++) {
++		for (j = 0; j < 8; j++) {
++			if (in[8 * i + j])
++				out[i] |= (1 << j);
++		}
++	}
++}
++
++
++void CRC16_generator(
++	bool *out,
++	bool *in,
++	UCHAR in_size
++)
++{
++	UCHAR i = 0;
++	bool temp = 0, reg[] = {1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1};
++
++	for (i = 0; i < in_size; i++) {/* take one's complement and bit reverse*/
++		temp = in[i] ^ reg[15];
++		reg[15]	= reg[14];
++		reg[14]	= reg[13];
++		reg[13]	= reg[12];
++		reg[12]	= reg[11];
++		reg[11]	= reg[10];
++		reg[10]	= reg[9];
++		reg[9]	= reg[8];
++		reg[8]	= reg[7];
++
++		reg[7]	= reg[6];
++		reg[6]	= reg[5];
++		reg[5]	= reg[4];
++		reg[4]	= reg[3];
++		reg[3]	= reg[2];
++		reg[2]	= reg[1];
++		reg[1]	= reg[0];
++		reg[12]	= reg[12] ^ temp;
++		reg[5]	= reg[5] ^ temp;
++		reg[0]	= temp;
++	}
++	for (i = 0; i < 16; i++)	/* take one's complement and bit reverse*/
++		out[i] = 1 - reg[15 - i];
++}
++
++
++
++/*========================================
++	SFD		SIGNAL	SERVICE	LENGTH	CRC
++	16 bit	8 bit	8 bit	16 bit	16 bit
++========================================*/
++void CCK_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo
++)
++{
++	double	ratio = 0;
++	bool	crc16_in[32] = {0}, crc16_out[16] = {0};
++	bool LengthExtBit;
++	double LengthExact;
++	double LengthPSDU;
++	UCHAR i;
++	UINT PacketLength = pPMacTxInfo->PacketLength;
++
++	if (pPMacTxInfo->bSPreamble)
++		pPMacTxInfo->SFD = 0x05CF;
++	else
++		pPMacTxInfo->SFD = 0xF3A0;
++
++	switch (pPMacPktInfo->MCS) {
++	case 0:
++		pPMacTxInfo->SignalField = 0xA;
++		ratio = 8;
++		/*CRC16_in(1,0:7)=[0 1 0 1 0 0 0 0]*/
++		crc16_in[1] = crc16_in[3] = 1;
++		break;
++	case 1:
++		pPMacTxInfo->SignalField = 0x14;
++		ratio = 4;
++		/*CRC16_in(1,0:7)=[0 0 1 0 1 0 0 0];*/
++		crc16_in[2] = crc16_in[4] = 1;
++		break;
++	case 2:
++		pPMacTxInfo->SignalField = 0x37;
++		ratio = 8.0 / 5.5;
++		/*CRC16_in(1,0:7)=[1 1 1 0 1 1 0 0];*/
++		crc16_in[0] = crc16_in[1] = crc16_in[2] = crc16_in[4] = crc16_in[5] = 1;
++		break;
++	case 3:
++		pPMacTxInfo->SignalField = 0x6E;
++		ratio = 8.0 / 11.0;
++		/*CRC16_in(1,0:7)=[0 1 1 1 0 1 1 0];*/
++		crc16_in[1] = crc16_in[2] = crc16_in[3] = crc16_in[5] = crc16_in[6] = 1;
++		break;
++	}
++
++	LengthExact = PacketLength * ratio;
++	LengthPSDU = ceil(LengthExact);
++
++	if ((pPMacPktInfo->MCS == 3) &&
++	    ((LengthPSDU - LengthExact) >= 0.727 || (LengthPSDU - LengthExact) <= -0.727))
++		LengthExtBit = 1;
++	else
++		LengthExtBit = 0;
++
++
++	pPMacTxInfo->LENGTH = (UINT)LengthPSDU;
++	/* CRC16_in(1,16:31) = LengthPSDU[0:15]*/
++	for (i = 0; i < 16; i++)
++		crc16_in[i + 16] = (pPMacTxInfo->LENGTH >> i) & 0x1;
++
++	if (LengthExtBit == 0) {
++		pPMacTxInfo->ServiceField = 0x0;
++		/* CRC16_in(1,8:15) = [0 0 0 0 0 0 0 0];*/
++	} else {
++		pPMacTxInfo->ServiceField = 0x80;
++		/*CRC16_in(1,8:15)=[0 0 0 0 0 0 0 1];*/
++		crc16_in[15] = 1;
++	}
++
++	CRC16_generator(crc16_out, crc16_in, 32);
++
++	_rtw_memset(pPMacTxInfo->CRC16, 0, 2);
++	ByteToBit(pPMacTxInfo->CRC16, crc16_out, 2);
++
++}
++
++
++void PMAC_Get_Pkt_Param(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo)
++{
++
++	UCHAR		TX_RATE_HEX = 0, MCS = 0;
++	UCHAR		TX_RATE = pPMacTxInfo->TX_RATE;
++
++	/*	TX_RATE & Nss	*/
++	if (MPT_IS_2SS_RATE(TX_RATE))
++		pPMacPktInfo->Nss = 2;
++	else if (MPT_IS_3SS_RATE(TX_RATE))
++		pPMacPktInfo->Nss = 3;
++	else if (MPT_IS_4SS_RATE(TX_RATE))
++		pPMacPktInfo->Nss = 4;
++	else
++		pPMacPktInfo->Nss = 1;
++
++	RTW_INFO("PMacTxInfo.Nss =%d\n", pPMacPktInfo->Nss);
++
++	/*	MCS & TX_RATE_HEX*/
++	if (MPT_IS_CCK_RATE(TX_RATE)) {
++		switch (TX_RATE) {
++		case MPT_RATE_1M:
++			TX_RATE_HEX = MCS = 0;
++			break;
++		case MPT_RATE_2M:
++			TX_RATE_HEX = MCS = 1;
++			break;
++		case MPT_RATE_55M:
++			TX_RATE_HEX = MCS = 2;
++			break;
++		case MPT_RATE_11M:
++			TX_RATE_HEX = MCS = 3;
++			break;
++		}
++	} else if (MPT_IS_OFDM_RATE(TX_RATE)) {
++		MCS = TX_RATE - MPT_RATE_6M;
++		TX_RATE_HEX = MCS + 4;
++	} else if (MPT_IS_HT_RATE(TX_RATE)) {
++		MCS = TX_RATE - MPT_RATE_MCS0;
++		TX_RATE_HEX = MCS + 12;
++	} else if (MPT_IS_VHT_RATE(TX_RATE)) {
++		TX_RATE_HEX = TX_RATE - MPT_RATE_VHT1SS_MCS0 + 44;
++
++		if (MPT_IS_VHT_2S_RATE(TX_RATE))
++			MCS = TX_RATE - MPT_RATE_VHT2SS_MCS0;
++		else if (MPT_IS_VHT_3S_RATE(TX_RATE))
++			MCS = TX_RATE - MPT_RATE_VHT3SS_MCS0;
++		else if (MPT_IS_VHT_4S_RATE(TX_RATE))
++			MCS = TX_RATE - MPT_RATE_VHT4SS_MCS0;
++		else
++			MCS = TX_RATE - MPT_RATE_VHT1SS_MCS0;
++	}
++
++	pPMacPktInfo->MCS = MCS;
++	pPMacTxInfo->TX_RATE_HEX = TX_RATE_HEX;
++
++	RTW_INFO(" MCS=%d, TX_RATE_HEX =0x%x\n", MCS, pPMacTxInfo->TX_RATE_HEX);
++	/*	mSTBC & Nsts*/
++	pPMacPktInfo->Nsts = pPMacPktInfo->Nss;
++	if (pPMacTxInfo->bSTBC) {
++		if (pPMacPktInfo->Nss == 1) {
++			pPMacTxInfo->m_STBC = 2;
++			pPMacPktInfo->Nsts = pPMacPktInfo->Nss * 2;
++		} else
++			pPMacTxInfo->m_STBC = 1;
++	} else
++		pPMacTxInfo->m_STBC = 1;
++}
++
++
++UINT LDPC_parameter_generator(
++	UINT N_pld_int,
++	UINT N_CBPSS,
++	UINT N_SS,
++	UINT R,
++	UINT m_STBC,
++	UINT N_TCB_int
++)
++{
++	double	CR = 0.;
++	double	N_pld = (double)N_pld_int;
++	double	N_TCB = (double)N_TCB_int;
++	double	N_CW = 0., N_shrt = 0., N_spcw = 0., N_fshrt = 0.;
++	double	L_LDPC = 0., K_LDPC = 0., L_LDPC_info = 0.;
++	double	N_punc = 0., N_ppcw = 0., N_fpunc = 0., N_rep = 0., N_rpcw = 0., N_frep = 0.;
++	double	R_eff = 0.;
++	UINT	VHTSIGA2B3  = 0;/* extra symbol from VHT-SIG-A2 Bit 3*/
++
++	if (R == 0)
++		CR	= 0.5;
++	else if (R == 1)
++		CR = 2. / 3.;
++	else if (R == 2)
++		CR = 3. / 4.;
++	else if (R == 3)
++		CR = 5. / 6.;
++
++	if (N_TCB <= 648.) {
++		N_CW	= 1.;
++		if (N_TCB >= N_pld + 912.*(1. - CR))
++			L_LDPC	= 1296.;
++		else
++			L_LDPC	= 648.;
++	} else if (N_TCB <= 1296.) {
++		N_CW	= 1.;
++		if (N_TCB >= (double)N_pld + 1464.*(1. - CR))
++			L_LDPC	= 1944.;
++		else
++			L_LDPC	= 1296.;
++	} else if	(N_TCB <= 1944.) {
++		N_CW	= 1.;
++		L_LDPC	= 1944.;
++	} else if (N_TCB <= 2592.) {
++		N_CW	= 2.;
++		if (N_TCB >= N_pld + 2916.*(1. - CR))
++			L_LDPC	= 1944.;
++		else
++			L_LDPC	= 1296.;
++	} else {
++		N_CW = ceil(N_pld / 1944. / CR);
++		L_LDPC	= 1944.;
++	}
++	/*	Number of information bits per CW*/
++	K_LDPC = L_LDPC * CR;
++	/*	Number of shortening bits					max(0, (N_CW * L_LDPC * R) - N_pld)*/
++	N_shrt = (N_CW * K_LDPC - N_pld) > 0. ? (N_CW * K_LDPC - N_pld) : 0.;
++	/*	Number of shortening bits per CW			N_spcw = rtfloor(N_shrt/N_CW)*/
++	N_spcw = rtfloor(N_shrt / N_CW);
++	/*	The first N_fshrt CWs shorten 1 bit more*/
++	N_fshrt = (double)((int)N_shrt % (int)N_CW);
++	/*	Number of data bits for the last N_CW-N_fshrt CWs*/
++	L_LDPC_info = K_LDPC - N_spcw;
++	/*	Number of puncturing bits*/
++	N_punc = (N_CW * L_LDPC - N_TCB - N_shrt) > 0. ? (N_CW * L_LDPC - N_TCB - N_shrt) : 0.;
++	if (((N_punc > .1 * N_CW * L_LDPC * (1. - CR)) && (N_shrt < 1.2 * N_punc * CR / (1. - CR))) ||
++	    (N_punc > 0.3 * N_CW * L_LDPC * (1. - CR))) {
++		/*cout << "*** N_TCB and N_punc are Recomputed ***" << endl;*/
++		VHTSIGA2B3 = 1;
++		N_TCB += (double)N_CBPSS * N_SS * m_STBC;
++		N_punc = (N_CW * L_LDPC - N_TCB - N_shrt) > 0. ? (N_CW * L_LDPC - N_TCB - N_shrt) : 0.;
++	} else
++		VHTSIGA2B3 = 0;
++
++	return VHTSIGA2B3;
++}	/* function end of LDPC_parameter_generator */
++
++/*========================================
++	Data field of PPDU
++	Get N_sym and SIGA2BB3
++========================================*/
++void PMAC_Nsym_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo)
++{
++	UINT	SIGA2B3 = 0;
++	UCHAR	TX_RATE = pPMacTxInfo->TX_RATE;
++
++	UINT R, R_list[10] = {0, 0, 2, 0, 2, 1, 2, 3, 2, 3};
++	double CR = 0;
++	UINT N_SD, N_BPSC_list[10] = {1, 2, 2, 4, 4, 6, 6, 6, 8, 8};
++	UINT N_BPSC = 0, N_CBPS = 0, N_DBPS = 0, N_ES = 0, N_SYM = 0, N_pld = 0, N_TCB = 0;
++	int D_R = 0;
++
++	RTW_INFO("TX_RATE = %d\n", TX_RATE);
++	/*	N_SD*/
++	if (pPMacTxInfo->BandWidth == 0)
++		N_SD = 52;
++	else if (pPMacTxInfo->BandWidth == 1)
++		N_SD = 108;
++	else
++		N_SD = 234;
++
++	if (MPT_IS_HT_RATE(TX_RATE)) {
++		UCHAR MCS_temp;
++
++		if (pPMacPktInfo->MCS > 23)
++			MCS_temp = pPMacPktInfo->MCS - 24;
++		else if (pPMacPktInfo->MCS > 15)
++			MCS_temp = pPMacPktInfo->MCS - 16;
++		else if (pPMacPktInfo->MCS > 7)
++			MCS_temp = pPMacPktInfo->MCS - 8;
++		else
++			MCS_temp = pPMacPktInfo->MCS;
++
++		R = R_list[MCS_temp];
++
++		switch (R) {
++		case 0:
++			CR = .5;
++			break;
++		case 1:
++			CR = 2. / 3.;
++			break;
++		case 2:
++			CR = 3. / 4.;
++			break;
++		case 3:
++			CR = 5. / 6.;
++			break;
++		}
++
++		N_BPSC = N_BPSC_list[MCS_temp];
++		N_CBPS = N_BPSC * N_SD * pPMacPktInfo->Nss;
++		N_DBPS = (UINT)((double)N_CBPS * CR);
++
++		if (pPMacTxInfo->bLDPC == FALSE) {
++			N_ES = (UINT)ceil((double)(N_DBPS * pPMacPktInfo->Nss) / 4. / 300.);
++			RTW_INFO("N_ES = %d\n", N_ES);
++
++			/*	N_SYM = m_STBC* (8*length+16+6*N_ES) / (m_STBC*N_DBPS)*/
++			N_SYM = pPMacTxInfo->m_STBC * (UINT)ceil((double)(pPMacTxInfo->PacketLength * 8 + 16 + N_ES * 6) /
++					(double)(N_DBPS * pPMacTxInfo->m_STBC));
++
++		} else {
++			N_ES = 1;
++			/*	N_pld = length * 8 + 16*/
++			N_pld = pPMacTxInfo->PacketLength * 8 + 16;
++			RTW_INFO("N_pld = %d\n", N_pld);
++			N_SYM = pPMacTxInfo->m_STBC * (UINT)ceil((double)(N_pld) /
++					(double)(N_DBPS * pPMacTxInfo->m_STBC));
++			RTW_INFO("N_SYM = %d\n", N_SYM);
++			/*	N_avbits = N_CBPS *m_STBC *(N_pld/N_CBPS*R*m_STBC)*/
++			N_TCB = N_CBPS * N_SYM;
++			RTW_INFO("N_TCB = %d\n", N_TCB);
++			SIGA2B3 = LDPC_parameter_generator(N_pld, N_CBPS, pPMacPktInfo->Nss, R, pPMacTxInfo->m_STBC, N_TCB);
++			RTW_INFO("SIGA2B3 = %d\n", SIGA2B3);
++			N_SYM = N_SYM + SIGA2B3 * pPMacTxInfo->m_STBC;
++			RTW_INFO("N_SYM = %d\n", N_SYM);
++		}
++	} else if (MPT_IS_VHT_RATE(TX_RATE)) {
++		R = R_list[pPMacPktInfo->MCS];
++
++		switch (R) {
++		case 0:
++			CR = .5;
++			break;
++		case 1:
++			CR = 2. / 3.;
++			break;
++		case 2:
++			CR = 3. / 4.;
++			break;
++		case 3:
++			CR = 5. / 6.;
++			break;
++		}
++		N_BPSC = N_BPSC_list[pPMacPktInfo->MCS];
++		N_CBPS = N_BPSC * N_SD * pPMacPktInfo->Nss;
++		N_DBPS = (UINT)((double)N_CBPS * CR);
++		if (pPMacTxInfo->bLDPC == FALSE) {
++			if (pPMacTxInfo->bSGI)
++				N_ES = (UINT)ceil((double)(N_DBPS) / 3.6 / 600.);
++			else
++				N_ES = (UINT)ceil((double)(N_DBPS) / 4. / 600.);
++			/*	N_SYM = m_STBC* (8*length+16+6*N_ES) / (m_STBC*N_DBPS)*/
++			N_SYM = pPMacTxInfo->m_STBC * (UINT)ceil((double)(pPMacTxInfo->PacketLength * 8 + 16 + N_ES * 6) / (double)(N_DBPS * pPMacTxInfo->m_STBC));
++			SIGA2B3 = 0;
++		} else {
++			N_ES = 1;
++			/*	N_SYM = m_STBC* (8*length+N_service) / (m_STBC*N_DBPS)*/
++			N_SYM = pPMacTxInfo->m_STBC * (UINT)ceil((double)(pPMacTxInfo->PacketLength * 8 + 16) / (double)(N_DBPS * pPMacTxInfo->m_STBC));
++			/*	N_avbits = N_sys_init * N_CBPS*/
++			N_TCB = N_CBPS * N_SYM;
++			/*	N_pld = N_sys_init * N_DBPS*/
++			N_pld = N_SYM * N_DBPS;
++			SIGA2B3 = LDPC_parameter_generator(N_pld, N_CBPS, pPMacPktInfo->Nss, R, pPMacTxInfo->m_STBC, N_TCB);
++			N_SYM = N_SYM + SIGA2B3 * pPMacTxInfo->m_STBC;
++		}
++
++		switch (R) {
++		case 0:
++			D_R = 2;
++			break;
++		case 1:
++			D_R = 3;
++			break;
++		case 2:
++			D_R = 4;
++			break;
++		case 3:
++			D_R = 6;
++			break;
++		}
++
++		if (((N_CBPS / N_ES) % D_R) != 0) {
++			RTW_INFO("MCS= %d is not supported when Nss=%d and BW= %d !!\n",  pPMacPktInfo->MCS, pPMacPktInfo->Nss, pPMacTxInfo->BandWidth);
++			return;
++		}
++
++		RTW_INFO("MCS= %d Nss=%d and BW= %d !!\n",  pPMacPktInfo->MCS, pPMacPktInfo->Nss, pPMacTxInfo->BandWidth);
++	}
++
++	pPMacPktInfo->N_sym = N_SYM;
++	pPMacPktInfo->SIGA2B3 = SIGA2B3;
++}
++
++/*========================================
++	L-SIG	Rate	R	Length	P	Tail
++			4b		1b	12b		1b	6b
++========================================*/
++
++void L_SIG_generator(
++	UINT	N_SYM,		/* Max: 750*/
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo)
++{
++	u8	sig_bi[24] = {0};	/* 24 BIT*/
++	UINT	mode, LENGTH;
++	int i;
++
++	if (MPT_IS_OFDM_RATE(pPMacTxInfo->TX_RATE)) {
++		mode = pPMacPktInfo->MCS;
++		LENGTH = pPMacTxInfo->PacketLength;
++	} else {
++		UCHAR	N_LTF;
++		double	T_data;
++		UINT	OFDM_symbol;
++
++		mode = 0;
++
++		/*	Table 20-13 Num of HT-DLTFs request*/
++		if (pPMacPktInfo->Nsts <= 2)
++			N_LTF = pPMacPktInfo->Nsts;
++		else
++			N_LTF = 4;
++
++		if (pPMacTxInfo->bSGI)
++			T_data = 3.6;
++		else
++			T_data = 4.0;
++
++		/*(L-SIG, HT-SIG, HT-STF, HT-LTF....HT-LTF, Data)*/
++		if (MPT_IS_VHT_RATE(pPMacTxInfo->TX_RATE))
++			OFDM_symbol = (UINT)ceil((double)(8 + 4 + N_LTF * 4 + N_SYM * T_data + 4) / 4.);
++		else
++			OFDM_symbol = (UINT)ceil((double)(8 + 4 + N_LTF * 4 + N_SYM * T_data) / 4.);
++
++		RTW_INFO("%s , OFDM_symbol =%d\n", __func__, OFDM_symbol);
++		LENGTH = OFDM_symbol * 3 - 3;
++		RTW_INFO("%s , LENGTH =%d\n", __func__, LENGTH);
++
++	}
++	/*	Rate Field*/
++	switch (mode) {
++	case	0:
++		sig_bi[0] = 1;
++		sig_bi[1] = 1;
++		sig_bi[2] = 0;
++		sig_bi[3] = 1;
++		break;
++	case	1:
++		sig_bi[0] = 1;
++		sig_bi[1] = 1;
++		sig_bi[2] = 1;
++		sig_bi[3] = 1;
++		break;
++	case	2:
++		sig_bi[0] = 0;
++		sig_bi[1] = 1;
++		sig_bi[2] = 0;
++		sig_bi[3] = 1;
++		break;
++	case	3:
++		sig_bi[0] = 0;
++		sig_bi[1] = 1;
++		sig_bi[2] = 1;
++		sig_bi[3] = 1;
++		break;
++	case	4:
++		sig_bi[0] = 1;
++		sig_bi[1] = 0;
++		sig_bi[2] = 0;
++		sig_bi[3] = 1;
++		break;
++	case	5:
++		sig_bi[0] = 1;
++		sig_bi[1] = 0;
++		sig_bi[2] = 1;
++		sig_bi[3] = 1;
++		break;
++	case	6:
++		sig_bi[0] = 0;
++		sig_bi[1] = 0;
++		sig_bi[2] = 0;
++		sig_bi[3] = 1;
++		break;
++	case	7:
++		sig_bi[0] = 0;
++		sig_bi[1] = 0;
++		sig_bi[2] = 1;
++		sig_bi[3] = 1;
++		break;
++	}
++	/*Reserved bit*/
++	sig_bi[4] = 0;
++
++	/*	Length Field*/
++	for (i = 0; i < 12; i++)
++		sig_bi[i + 5] = (LENGTH >> i) & 1;
++
++	/* Parity Bit*/
++	sig_bi[17] = 0;
++	for (i = 0; i < 17; i++)
++		sig_bi[17] = sig_bi[17] + sig_bi[i];
++
++	sig_bi[17] %= 2;
++
++	/*	Tail Field*/
++	for (i = 18; i < 24; i++)
++		sig_bi[i] = 0;
++
++	/* dump_buf(sig_bi,24);*/
++	_rtw_memset(pPMacTxInfo->LSIG, 0, 3);
++	ByteToBit(pPMacTxInfo->LSIG, (bool *)sig_bi, 3);
++}
++
++
++void CRC8_generator(
++	bool	*out,
++	bool	*in,
++	UCHAR	in_size
++)
++{
++	UCHAR i = 0;
++	bool temp = 0, reg[] = {1, 1, 1, 1, 1, 1, 1, 1};
++
++	for (i = 0; i < in_size; i++) { /* take one's complement and bit reverse*/
++		temp = in[i] ^ reg[7];
++		reg[7]	= reg[6];
++		reg[6]	= reg[5];
++		reg[5]	= reg[4];
++		reg[4]	= reg[3];
++		reg[3]	= reg[2];
++		reg[2]	= reg[1] ^ temp;
++		reg[1]	= reg[0] ^ temp;
++		reg[0]	= temp;
++	}
++	for (i = 0; i < 8; i++)/* take one's complement and bit reverse*/
++		out[i] = reg[7 - i] ^ 1;
++}
++
++/*/================================================================================
++	HT-SIG1	MCS	CW	Length		24BIT + 24BIT
++			7b	1b	16b
++	HT-SIG2	Smoothing	Not sounding	Rsvd		AGG	STBC	FEC	SGI	N_ELTF	CRC	Tail
++			1b			1b			1b		1b	2b		1b	1b	2b		8b	6b
++================================================================================*/
++void HT_SIG_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo
++)
++{
++	UINT i;
++	bool sig_bi[48] = {0}, crc8[8] = {0};
++	/*	MCS Field*/
++	for (i = 0; i < 7; i++)
++		sig_bi[i] = (pPMacPktInfo->MCS >> i) & 0x1;
++	/*	Packet BW Setting*/
++	sig_bi[7] = pPMacTxInfo->BandWidth;
++	/*	HT-Length Field*/
++	for (i = 0; i < 16; i++)
++		sig_bi[i + 8] = (pPMacTxInfo->PacketLength >> i) & 0x1;
++	/*	Smoothing;	1->allow smoothing*/
++	sig_bi[24] = 1;
++	/*Not Sounding*/
++	sig_bi[25] = 1 - pPMacTxInfo->NDP_sound;
++	/*Reserved bit*/
++	sig_bi[26] = 1;
++	/*/Aggregate*/
++	sig_bi[27] = 0;
++	/*STBC Field*/
++	if (pPMacTxInfo->bSTBC) {
++		sig_bi[28] = 1;
++		sig_bi[29] = 0;
++	} else {
++		sig_bi[28] = 0;
++		sig_bi[29] = 0;
++	}
++	/*Advance Coding,	0: BCC, 1: LDPC*/
++	sig_bi[30] = pPMacTxInfo->bLDPC;
++	/* Short GI*/
++	sig_bi[31] = pPMacTxInfo->bSGI;
++	/* N_ELTFs*/
++	if (pPMacTxInfo->NDP_sound == FALSE) {
++		sig_bi[32]	= 0;
++		sig_bi[33]	= 0;
++	} else {
++		int	N_ELTF = pPMacTxInfo->Ntx - pPMacPktInfo->Nss;
++
++		for (i = 0; i < 2; i++)
++			sig_bi[32 + i] = (N_ELTF >> i) % 2;
++	}
++	/*	CRC-8*/
++	CRC8_generator(crc8, sig_bi, 34);
++
++	for (i = 0; i < 8; i++)
++		sig_bi[34 + i] = crc8[i];
++
++	/*Tail*/
++	for (i = 42; i < 48; i++)
++		sig_bi[i] = 0;
++
++	_rtw_memset(pPMacTxInfo->HT_SIG, 0, 6);
++	ByteToBit(pPMacTxInfo->HT_SIG, sig_bi, 6);
++}
++
++
++/*======================================================================================
++	VHT-SIG-A1
++	BW	Reserved	STBC	G_ID	SU_Nsts	P_AID	TXOP_PS_NOT_ALLOW	Reserved
++	2b	1b			1b		6b	3b	9b		1b		2b					1b
++	VHT-SIG-A2
++	SGI	SGI_Nsym	SU/MU coding	LDPC_Extra	SU_NCS	Beamformed	Reserved	CRC	Tail
++	1b	1b			1b				1b			4b		1b			1b			8b	6b
++======================================================================================*/
++void VHT_SIG_A_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo)
++{
++	UINT i;
++	bool sig_bi[48], crc8[8];
++
++	_rtw_memset(sig_bi, 0, 48);
++	_rtw_memset(crc8, 0, 8);
++
++	/*	BW Setting*/
++	for (i = 0; i < 2; i++)
++		sig_bi[i] = (pPMacTxInfo->BandWidth >> i) & 0x1;
++	/* Reserved Bit*/
++	sig_bi[2] = 1;
++	/*STBC Field*/
++	sig_bi[3] = pPMacTxInfo->bSTBC;
++	/*Group ID: Single User->A value of 0 or 63 indicates an SU PPDU. */
++	for (i = 0; i < 6; i++)
++		sig_bi[4 + i] = 0;
++	/*	N_STS/Partial AID*/
++	for (i = 0; i < 12; i++) {
++		if (i < 3)
++			sig_bi[10 + i] = ((pPMacPktInfo->Nsts - 1) >> i) & 0x1;
++		else
++			sig_bi[10 + i] = 0;
++	}
++	/*TXOP_PS_NOT_ALLPWED*/
++	sig_bi[22]	= 0;
++	/*Reserved Bits*/
++	sig_bi[23]	= 1;
++	/*Short GI*/
++	sig_bi[24] = pPMacTxInfo->bSGI;
++	if (pPMacTxInfo->bSGI > 0 && (pPMacPktInfo->N_sym % 10) == 9)
++		sig_bi[25] = 1;
++	else
++		sig_bi[25] = 0;
++	/* SU/MU[0] Coding*/
++	sig_bi[26] = pPMacTxInfo->bLDPC;	/*	0:BCC, 1:LDPC		*/
++	sig_bi[27] = pPMacPktInfo->SIGA2B3;	/*/	Record Extra OFDM Symols is added or not when LDPC is used*/
++	/*SU MCS/MU[1-3] Coding*/
++	for (i = 0; i < 4; i++)
++		sig_bi[28 + i] = (pPMacPktInfo->MCS >> i) & 0x1;
++	/*SU Beamform */
++	sig_bi[32] = 0;	/*packet.TXBF_en;*/
++	/*Reserved Bit*/
++	sig_bi[33] = 1;
++	/*CRC-8*/
++	CRC8_generator(crc8, sig_bi, 34);
++	for (i = 0; i < 8; i++)
++		sig_bi[34 + i]	= crc8[i];
++	/*Tail*/
++	for (i = 42; i < 48; i++)
++		sig_bi[i] = 0;
++
++	_rtw_memset(pPMacTxInfo->VHT_SIG_A, 0, 6);
++	ByteToBit(pPMacTxInfo->VHT_SIG_A, sig_bi, 6);
++}
++
++/*======================================================================================
++	VHT-SIG-B
++	Length				Resesrved	Trail
++	17/19/21 BIT		3/2/2 BIT	6b
++======================================================================================*/
++void VHT_SIG_B_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo)
++{
++	bool sig_bi[32], crc8_bi[8];
++	UINT i, len, res, tail = 6, total_len, crc8_in_len;
++	UINT sigb_len;
++
++	_rtw_memset(sig_bi, 0, 32);
++	_rtw_memset(crc8_bi, 0, 8);
++
++	/*Sounding Packet*/
++	if (pPMacTxInfo->NDP_sound == 1) {
++		if (pPMacTxInfo->BandWidth == 0) {
++			bool sigb_temp[26] = {0, 0, 0, 0, 0, 1, 1, 1, 0, 1, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0};
++
++			_rtw_memcpy(sig_bi, sigb_temp, 26);
++		} else if (pPMacTxInfo->BandWidth == 1) {
++			bool sigb_temp[27] = {1, 0, 1, 0, 0, 1, 0, 1, 1, 0, 1, 0, 0, 0, 1, 0, 0, 0, 0, 1, 1, 0, 0, 0, 0, 0, 0};
++
++			_rtw_memcpy(sig_bi, sigb_temp, 27);
++		} else if (pPMacTxInfo->BandWidth == 2) {
++			bool sigb_temp[29] = {0, 1, 0, 1, 0, 0, 1, 1, 0, 0, 1, 0, 1, 1, 1, 1, 1, 1, 1, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0};
++
++			_rtw_memcpy(sig_bi, sigb_temp, 29);
++		}
++	} else {	/* Not NDP Sounding*/
++		bool *sigb_temp[29] = {0};
++
++		if (pPMacTxInfo->BandWidth == 0) {
++			len = 17;
++			res = 3;
++		} else if (pPMacTxInfo->BandWidth == 1) {
++			len = 19;
++			res = 2;
++		} else if (pPMacTxInfo->BandWidth == 2) {
++			len	= 21;
++			res	= 2;
++		} else {
++			len	= 21;
++			res	= 2;
++		}
++		total_len = len + res + tail;
++		crc8_in_len = len + res;
++
++		/*Length Field*/
++		sigb_len = (pPMacTxInfo->PacketLength + 3) >> 2;
++
++		for (i = 0; i < len; i++)
++			sig_bi[i] = (sigb_len >> i) & 0x1;
++		/*Reserved Field*/
++		for (i = 0; i < res; i++)
++			sig_bi[len + i] = 1;
++		/* CRC-8*/
++		CRC8_generator(crc8_bi, sig_bi, crc8_in_len);
++
++		/* Tail */
++		for (i = 0; i < tail; i++)
++			sig_bi[len + res + i] = 0;
++	}
++
++	_rtw_memset(pPMacTxInfo->VHT_SIG_B, 0, 4);
++	ByteToBit(pPMacTxInfo->VHT_SIG_B, sig_bi, 4);
++
++	pPMacTxInfo->VHT_SIG_B_CRC = 0;
++	ByteToBit(&(pPMacTxInfo->VHT_SIG_B_CRC), crc8_bi, 1);
++}
++
++/*=======================
++ VHT Delimiter
++=======================*/
++void VHT_Delimiter_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo
++)
++{
++	bool sig_bi[32] = {0}, crc8[8] = {0};
++	UINT crc8_in_len = 16;
++	UINT PacketLength = pPMacTxInfo->PacketLength;
++	int j;
++
++	/* Delimiter[0]: EOF*/
++	sig_bi[0] = 1;
++	/* Delimiter[1]: Reserved*/
++	sig_bi[1] = 0;
++	/* Delimiter[3:2]: MPDU Length High*/
++	sig_bi[2] = ((PacketLength - 4) >> 12) % 2;
++	sig_bi[3] = ((PacketLength - 4) >> 13) % 2;
++	/* Delimiter[15:4]: MPDU Length Low*/
++	for (j = 4; j < 16; j++)
++		sig_bi[j] = ((PacketLength - 4) >> (j - 4)) % 2;
++	CRC8_generator(crc8, sig_bi, crc8_in_len);
++	for (j = 16; j < 24; j++) /* Delimiter[23:16]: CRC 8*/
++		sig_bi[j] = crc8[j - 16];
++	for (j = 24; j < 32; j++) /* Delimiter[31:24]: Signature ('4E' in Hex, 78 in Dec)*/
++		sig_bi[j]	= (78 >> (j - 24)) % 2;
++
++	_rtw_memset(pPMacTxInfo->VHT_Delimiter, 0, 4);
++	ByteToBit(pPMacTxInfo->VHT_Delimiter, sig_bi, 4);
++}
++
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_mp_ioctl.c b/drivers/net/wireless/rtl8723du/core/rtw_mp_ioctl.c
+new file mode 100644
+index 0000000..ffeea1c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_mp_ioctl.c
+@@ -0,0 +1,2534 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_MP_IOCTL_C_
++
++#include <drv_types.h>
++#include <rtw_mp_ioctl.h>
++#include "../hal/phydm/phydm_precomp.h"
++
++/* ****************  oid_rtl_seg_81_85   section start **************** */
++NDIS_STATUS oid_rt_wireless_mode_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->information_buf_len < sizeof(u8))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	if (poid_par_priv->type_of_oid == SET_OID)
++		Adapter->registrypriv.wireless_mode = *(u8 *)poid_par_priv->information_buf;
++	else if (poid_par_priv->type_of_oid == QUERY_OID) {
++		*(u8 *)poid_par_priv->information_buf = Adapter->registrypriv.wireless_mode;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++
++	return status;
++}
++/* ****************  oid_rtl_seg_81_87_80   section start **************** */
++NDIS_STATUS oid_rt_pro_write_bb_reg_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL oldirql;
++#endif
++	struct bb_reg_param *pbbreg;
++	u16 offset;
++	u32 value;
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(struct bb_reg_param))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pbbreg = (struct bb_reg_param *)(poid_par_priv->information_buf);
++
++	offset = (u16)(pbbreg->offset) & 0xFFF; /* 0ffset :0x800~0xfff */
++	if (offset < BB_REG_BASE_ADDR)
++		offset |= BB_REG_BASE_ADDR;
++
++	value = pbbreg->value;
++
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	write_bbreg(Adapter, offset, 0xFFFFFFFF, value);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_read_bb_reg_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL oldirql;
++#endif
++	struct bb_reg_param *pbbreg;
++	u16 offset;
++	u32 value;
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(struct bb_reg_param))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pbbreg = (struct bb_reg_param *)(poid_par_priv->information_buf);
++
++	offset = (u16)(pbbreg->offset) & 0xFFF; /* 0ffset :0x800~0xfff */
++	if (offset < BB_REG_BASE_ADDR)
++		offset |= BB_REG_BASE_ADDR;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	value = read_bbreg(Adapter, offset, 0xFFFFFFFF);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	pbbreg->value = value;
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_write_rf_reg_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL oldirql;
++#endif
++	struct rf_reg_param *pbbreg;
++	u8 path;
++	u8 offset;
++	u32 value;
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(struct rf_reg_param))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pbbreg = (struct rf_reg_param *)(poid_par_priv->information_buf);
++
++	if (pbbreg->path >= MAX_RF_PATH_NUMS)
++		return NDIS_STATUS_NOT_ACCEPTED;
++	if (pbbreg->offset > 0xFF)
++		return NDIS_STATUS_NOT_ACCEPTED;
++	if (pbbreg->value > 0xFFFFF)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	path = (u8)pbbreg->path;
++	offset = (u8)pbbreg->offset;
++	value = pbbreg->value;
++
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	write_rfreg(Adapter, path, offset, value);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_read_rf_reg_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL oldirql;
++#endif
++	struct rf_reg_param *pbbreg;
++	u8 path;
++	u8 offset;
++	u32 value;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(struct rf_reg_param))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pbbreg = (struct rf_reg_param *)(poid_par_priv->information_buf);
++
++	if (pbbreg->path >= MAX_RF_PATH_NUMS)
++		return NDIS_STATUS_NOT_ACCEPTED;
++	if (pbbreg->offset > 0xFF)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	path = (u8)pbbreg->path;
++	offset = (u8)pbbreg->offset;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	value = read_rfreg(Adapter, path, offset);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	pbbreg->value = value;
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++
++	return status;
++}
++/* ****************  oid_rtl_seg_81_87_00   section end****************
++ * ------------------------------------------------------------------------------ */
++
++/* ****************  oid_rtl_seg_81_80_00   section start ****************
++ * ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_set_data_rate_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		ratevalue;/* 4 */
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len != sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	ratevalue = *((u32 *)poid_par_priv->information_buf); /* 4 */
++	if (ratevalue >= MPT_RATE_LAST)
++		return NDIS_STATUS_INVALID_DATA;
++
++	Adapter->mppriv.rateidx = ratevalue;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetDataRate(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_start_test_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		mode;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (Adapter->registrypriv.mp_mode == 0)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	/* IQCalibrateBcut(Adapter); */
++
++	mode = *((u32 *)poid_par_priv->information_buf);
++	Adapter->mppriv.mode = mode;/* 1 for loopback */
++
++	if (mp_start_test(Adapter) == _FAIL) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		goto exit;
++	}
++
++exit:
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_stop_test_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	mp_stop_test(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_set_channel_direct_call_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		Channel;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->information_buf_len != sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	if (poid_par_priv->type_of_oid == QUERY_OID) {
++		*((u32 *)poid_par_priv->information_buf) = Adapter->mppriv.channel;
++		return NDIS_STATUS_SUCCESS;
++	}
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	Channel = *((u32 *)poid_par_priv->information_buf);
++	if (Channel > 14)
++		return NDIS_STATUS_NOT_ACCEPTED;
++	Adapter->mppriv.channel = Channel;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetChannel(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_set_bandwidth_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u16		bandwidth;
++	u16		channel_offset;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	bandwidth = *((u32 *)poid_par_priv->information_buf); /* 4 */
++	channel_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++	if (bandwidth != CHANNEL_WIDTH_40)
++		bandwidth = CHANNEL_WIDTH_20;
++	padapter->mppriv.bandwidth = (u8)bandwidth;
++	padapter->mppriv.prime_channel_offset = (u8)channel_offset;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetBandwidth(padapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_set_antenna_bb_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		antenna;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->information_buf_len != sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	if (poid_par_priv->type_of_oid == SET_OID) {
++		antenna = *(u32 *)poid_par_priv->information_buf;
++
++		Adapter->mppriv.antenna_tx = (u16)((antenna & 0xFFFF0000) >> 16);
++		Adapter->mppriv.antenna_rx = (u16)(antenna & 0x0000FFFF);
++
++		_irqlevel_changed_(&oldirql, LOWER);
++		SetAntenna(Adapter);
++		_irqlevel_changed_(&oldirql, RAISE);
++	} else {
++		antenna = (Adapter->mppriv.antenna_tx << 16) | Adapter->mppriv.antenna_rx;
++		*(u32 *)poid_par_priv->information_buf = antenna;
++	}
++
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_pro_set_tx_power_control_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		tx_pwr_idx;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len != sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	tx_pwr_idx = *((u32 *)poid_par_priv->information_buf);
++	if (tx_pwr_idx > MAX_TX_PWR_INDEX_N_MODE)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	Adapter->mppriv.txpoweridx = (u8)tx_pwr_idx;
++
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetTxPower(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++
++/* ------------------------------------------------------------------------------
++ * ****************  oid_rtl_seg_81_80_20   section start ****************
++ * ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_query_tx_packet_sent_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	if (poid_par_priv->information_buf_len == sizeof(ULONG)) {
++		*(ULONG *)poid_par_priv->information_buf =  Adapter->mppriv.tx_pktcount;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_query_rx_packet_received_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if (poid_par_priv->information_buf_len == sizeof(ULONG)) {
++		*(ULONG *)poid_par_priv->information_buf =  Adapter->mppriv.rx_pktcount;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_query_rx_packet_crc32_error_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if (poid_par_priv->information_buf_len == sizeof(ULONG)) {
++		*(ULONG *)poid_par_priv->information_buf =  Adapter->mppriv.rx_crcerrpktcount;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++
++NDIS_STATUS oid_rt_pro_reset_tx_packet_sent_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	Adapter->mppriv.tx_pktcount = 0;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_reset_rx_packet_received_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	if (poid_par_priv->information_buf_len == sizeof(ULONG)) {
++		Adapter->mppriv.rx_pktcount = 0;
++		Adapter->mppriv.rx_crcerrpktcount = 0;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_reset_phy_rx_packet_count_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	ResetPhyRxPktCount(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_phy_rx_packet_received_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len != sizeof(ULONG))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	*(ULONG *)poid_par_priv->information_buf = GetPhyRxPktReceived(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_phy_rx_packet_crc32_error_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++
++	if (poid_par_priv->information_buf_len != sizeof(ULONG))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	*(ULONG *)poid_par_priv->information_buf = GetPhyRxPktCRC32Error(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++
++	return status;
++}
++/* ****************  oid_rtl_seg_81_80_20   section end **************** */
++NDIS_STATUS oid_rt_pro_set_continuous_tx_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		bStartTest;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	bStartTest = *((u32 *)poid_par_priv->information_buf);
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetContinuousTx(Adapter, (u8)bStartTest);
++	if (bStartTest) {
++		struct mp_priv *pmp_priv = &Adapter->mppriv;
++		if (pmp_priv->tx.stop == 0) {
++			pmp_priv->tx.stop = 1;
++			RTW_INFO("%s: pkt tx is running...\n", __func__);
++			rtw_msleep_os(5);
++		}
++		pmp_priv->tx.stop = 0;
++		pmp_priv->tx.count = 1;
++		SetPacketTx(Adapter);
++	}
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_pro_set_single_carrier_tx_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		bStartTest;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	bStartTest = *((u32 *)poid_par_priv->information_buf);
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetSingleCarrierTx(Adapter, (u8)bStartTest);
++	if (bStartTest) {
++		struct mp_priv *pmp_priv = &Adapter->mppriv;
++		if (pmp_priv->tx.stop == 0) {
++			pmp_priv->tx.stop = 1;
++			RTW_INFO("%s: pkt tx is running...\n", __func__);
++			rtw_msleep_os(5);
++		}
++		pmp_priv->tx.stop = 0;
++		pmp_priv->tx.count = 1;
++		SetPacketTx(Adapter);
++	}
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_pro_set_carrier_suppression_tx_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		bStartTest;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	bStartTest = *((u32 *)poid_par_priv->information_buf);
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetCarrierSuppressionTx(Adapter, (u8)bStartTest);
++	if (bStartTest) {
++		struct mp_priv *pmp_priv = &Adapter->mppriv;
++		if (pmp_priv->tx.stop == 0) {
++			pmp_priv->tx.stop = 1;
++			RTW_INFO("%s: pkt tx is running...\n", __func__);
++			rtw_msleep_os(5);
++		}
++		pmp_priv->tx.stop = 0;
++		pmp_priv->tx.count = 1;
++		SetPacketTx(Adapter);
++	}
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_pro_set_single_tone_tx_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		bStartTest;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	bStartTest = *((u32 *)poid_par_priv->information_buf);
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetSingleToneTx(Adapter, (u8)bStartTest);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_pro_set_modulation_hdl(struct oid_par_priv *poid_par_priv)
++{
++	return 0;
++}
++
++NDIS_STATUS oid_rt_pro_trigger_gpio_hdl(struct oid_par_priv *poid_par_priv)
++{
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	rtw_hal_set_hwreg(Adapter, HW_VAR_TRIGGER_GPIO_0, 0);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ****************  oid_rtl_seg_81_80_00   section end ****************
++ * ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro8711_join_bss_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	PNDIS_802_11_SSID pssid;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	*poid_par_priv->bytes_needed = (u32)sizeof(NDIS_802_11_SSID);
++	*poid_par_priv->bytes_rw = 0;
++	if (poid_par_priv->information_buf_len < *poid_par_priv->bytes_needed)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pssid = (PNDIS_802_11_SSID)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (mp_start_joinbss(Adapter, pssid) == _FAIL)
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = sizeof(NDIS_802_11_SSID);
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_read_register_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	pRW_Reg	RegRWStruct;
++	u32		offset, width;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	RegRWStruct = (pRW_Reg)poid_par_priv->information_buf;
++	offset = RegRWStruct->offset;
++	width = RegRWStruct->width;
++
++	if (offset > 0xFFF)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	switch (width) {
++	case 1:
++		RegRWStruct->value = rtw_read8(Adapter, offset);
++		break;
++	case 2:
++		RegRWStruct->value = rtw_read16(Adapter, offset);
++		break;
++	default:
++		width = 4;
++		RegRWStruct->value = rtw_read32(Adapter, offset);
++		break;
++	}
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = width;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_write_register_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	pRW_Reg	RegRWStruct;
++	u32		offset, width, value;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	RegRWStruct = (pRW_Reg)poid_par_priv->information_buf;
++	offset = RegRWStruct->offset;
++	width = RegRWStruct->width;
++	value = RegRWStruct->value;
++
++	if (offset > 0xFFF)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	switch (RegRWStruct->width) {
++	case 1:
++		if (value > 0xFF) {
++			status = NDIS_STATUS_NOT_ACCEPTED;
++			break;
++		}
++		rtw_write8(padapter, offset, (u8)value);
++		break;
++	case 2:
++		if (value > 0xFFFF) {
++			status = NDIS_STATUS_NOT_ACCEPTED;
++			break;
++		}
++		rtw_write16(padapter, offset, (u16)value);
++		break;
++	case 4:
++		rtw_write32(padapter, offset, value);
++		break;
++	default:
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		break;
++	}
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_burst_read_register_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	pBurst_RW_Reg	pBstRwReg;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	pBstRwReg = (pBurst_RW_Reg)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	rtw_read_mem(padapter, pBstRwReg->offset, (u32)pBstRwReg->len, pBstRwReg->Data);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_burst_write_register_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	pBurst_RW_Reg	pBstRwReg;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	pBstRwReg = (pBurst_RW_Reg)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	rtw_write_mem(padapter, pBstRwReg->offset, (u32)pBstRwReg->len, pBstRwReg->Data);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_write_txcmd_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++
++	TX_CMD_Desc	*TxCmd_Info;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++
++	TxCmd_Info = (TX_CMD_Desc *)poid_par_priv->information_buf;
++
++
++		 _irqlevel_changed_(&oldirql, LOWER);
++
++		rtw_write32(Adapter, TxCmd_Info->offset + 0, (unsigned int)TxCmd_Info->TxCMD.value[0]);
++		rtw_write32(Adapter, TxCmd_Info->offset + 4, (unsigned int)TxCmd_Info->TxCMD.value[1]);
++
++		 _irqlevel_changed_(&oldirql, RAISE);
++
++
++
++		 return status;
++#else
++	return 0;
++#endif
++}
++
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_read16_eeprom_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	pEEPROM_RWParam pEEPROM;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	pEEPROM = (pEEPROM_RWParam)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	pEEPROM->value = eeprom_read16(padapter, (u16)(pEEPROM->offset >> 1));
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_write16_eeprom_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	pEEPROM_RWParam pEEPROM;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	pEEPROM = (pEEPROM_RWParam)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	eeprom_write16(padapter, (u16)(pEEPROM->offset >> 1), pEEPROM->value);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro8711_wi_poll_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	struct mp_wiparam *pwi_param;
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(struct mp_wiparam))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	if (Adapter->mppriv.workparam.bcompleted == _FALSE)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	pwi_param = (struct mp_wiparam *)poid_par_priv->information_buf;
++
++	_rtw_memcpy(pwi_param, &Adapter->mppriv.workparam, sizeof(struct mp_wiparam));
++	Adapter->mppriv.act_in_progress = _FALSE;
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro8711_pkt_loss_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(uint) * 2) {
++		return NDIS_STATUS_INVALID_LENGTH;
++	}
++
++	if (*(uint *)poid_par_priv->information_buf == 1) /* init==1 */
++		Adapter->mppriv.rx_pktloss = 0;
++
++	*((uint *)poid_par_priv->information_buf + 1) = Adapter->mppriv.rx_pktloss;
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_rd_attrib_mem_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	struct io_queue *pio_queue = (struct io_queue *)Adapter->pio_queue;
++	struct intf_hdl	*pintfhdl = &pio_queue->intf;
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++#ifdef CONFIG_SDIO_HCI
++	void (*_attrib_read)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++#endif
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++#ifdef CONFIG_SDIO_HCI
++	_irqlevel_changed_(&oldirql, LOWER);
++	{
++		u32 *plmem = (u32 *)poid_par_priv->information_buf + 2;
++		_attrib_read = pintfhdl->io_ops._attrib_read;
++		_attrib_read(pintfhdl, *((u32 *)poid_par_priv->information_buf),
++			*((u32 *)poid_par_priv->information_buf + 1), (u8 *)plmem);
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	}
++	_irqlevel_changed_(&oldirql, RAISE);
++#endif
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_wr_attrib_mem_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	struct io_queue *pio_queue = (struct io_queue *)Adapter->pio_queue;
++	struct intf_hdl	*pintfhdl = &pio_queue->intf;
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++#ifdef CONFIG_SDIO_HCI
++	void (*_attrib_write)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++#endif
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++#ifdef CONFIG_SDIO_HCI
++	_irqlevel_changed_(&oldirql, LOWER);
++	{
++		u32 *plmem = (u32 *)poid_par_priv->information_buf + 2;
++		_attrib_write = pintfhdl->io_ops._attrib_write;
++		_attrib_write(pintfhdl, *(u32 *)poid_par_priv->information_buf,
++			*((u32 *)poid_par_priv->information_buf + 1), (u8 *)plmem);
++	}
++	_irqlevel_changed_(&oldirql, RAISE);
++#endif
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS  oid_rt_pro_set_rf_intfs_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (rtw_setrfintfs_cmd(Adapter, *(unsigned char *)poid_par_priv->information_buf) == _FAIL)
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_poll_rx_status_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_rtw_memcpy(poid_par_priv->information_buf, (unsigned char *)&Adapter->mppriv.rxstat, sizeof(struct recv_stat));
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_cfg_debug_message_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	PCFG_DBG_MSG_STRUCT pdbg_msg;
++
++
++
++#if 0/*#ifdef CONFIG_DEBUG_RTL871X*/
++
++	pdbg_msg = (PCFG_DBG_MSG_STRUCT)(poid_par_priv->information_buf);
++
++	if (poid_par_priv->type_of_oid == SET_OID) {
++
++		GlobalDebugLevel = pdbg_msg->DebugLevel;
++		GlobalDebugComponents = (pdbg_msg->DebugComponent_H32 << 32) | pdbg_msg->DebugComponent_L32;
++	} else {
++		pdbg_msg->DebugLevel = GlobalDebugLevel;
++		pdbg_msg->DebugComponent_H32 = (u32)(GlobalDebugComponents >> 32);
++		pdbg_msg->DebugComponent_L32 = (u32)GlobalDebugComponents;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++	}
++
++#endif
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_set_data_rate_ex_hdl(struct oid_par_priv *poid_par_priv)
++{
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (rtw_setdatarate_cmd(Adapter, poid_par_priv->information_buf) != _SUCCESS)
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ----------------------------------------------------------------------------- */
++NDIS_STATUS oid_rt_get_thermal_meter_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	u8 thermal = 0;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	GetThermalMeter(Adapter, &thermal);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*(u32 *)poid_par_priv->information_buf = (u32)thermal;
++	*poid_par_priv->bytes_rw = sizeof(u32);
++
++
++	return status;
++}
++/* ----------------------------------------------------------------------------- */
++NDIS_STATUS oid_rt_pro_read_tssi_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (Adapter->mppriv.act_in_progress == _TRUE)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u8))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	/* init workparam */
++	Adapter->mppriv.act_in_progress = _TRUE;
++	Adapter->mppriv.workparam.bcompleted = _FALSE;
++	Adapter->mppriv.workparam.act_type = MPT_READ_TSSI;
++	Adapter->mppriv.workparam.io_offset = 0;
++	Adapter->mppriv.workparam.io_value = 0xFFFFFFFF;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (!rtw_gettssi_cmd(Adapter, 0, (u8 *)&Adapter->mppriv.workparam.io_value))
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_set_power_tracking_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	/*	if (poid_par_priv->type_of_oid != SET_OID)
++	 *		return NDIS_STATUS_NOT_ACCEPTED; */
++
++	if (poid_par_priv->information_buf_len < sizeof(u8))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	if (poid_par_priv->type_of_oid == SET_OID) {
++		u8 enable;
++
++		enable = *(u8 *)poid_par_priv->information_buf;
++
++		SetPowerTracking(Adapter, enable);
++	} else
++		GetPowerTracking(Adapter, (u8 *)poid_par_priv->information_buf);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ----------------------------------------------------------------------------- */
++NDIS_STATUS oid_rt_pro_set_basic_rate_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32 ratevalue;
++	u8 datarates[NumRates];
++	int i;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++#if 0
++	ratevalue = *((u32 *)poid_par_priv->information_buf);
++
++	for (i = 0; i < NumRates; i++) {
++		if (ratevalue == mpdatarate[i])
++			datarates[i] = mpdatarate[i];
++		else
++			datarates[i] = 0xff;
++	}
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (rtw_setbasicrate_cmd(padapter, datarates) != _SUCCESS)
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, RAISE);
++#endif
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_qry_pwrstate_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < 8)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	*poid_par_priv->bytes_rw = 8;
++	_rtw_memcpy(poid_par_priv->information_buf, &(adapter_to_pwrctl(Adapter)->pwr_mode), 8);
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_set_pwrstate_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	uint pwr_mode, smart_ps;
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	*poid_par_priv->bytes_rw = 0;
++	*poid_par_priv->bytes_needed = 8;
++
++	if (poid_par_priv->information_buf_len < 8)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pwr_mode = *(uint *)(poid_par_priv->information_buf);
++	smart_ps = *(uint *)((int)poid_par_priv->information_buf + 4);
++
++	*poid_par_priv->bytes_rw = 8;
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_h2c_set_rate_table_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	struct setratable_parm *prate_table;
++	u8		res;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	*poid_par_priv->bytes_needed  = sizeof(struct setratable_parm);
++	if (poid_par_priv->information_buf_len < sizeof(struct setratable_parm))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	prate_table = (struct setratable_parm *)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	res = rtw_setrttbl_cmd(Adapter, prate_table);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	if (res == _FAIL)
++		status = NDIS_STATUS_FAILURE;
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_h2c_get_rate_table_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++#if 0
++	struct mp_wi_cntx *pmp_wi_cntx = &(Adapter->mppriv.wi_cntx);
++	u8 res = _SUCCESS;
++	DEBUG_INFO(("===> Set OID_RT_PRO_H2C_GET_RATE_TABLE.\n"));
++
++	if (pmp_wi_cntx->bmp_wi_progress == _TRUE) {
++		DEBUG_ERR(("\n mp workitem is progressing, not allow to set another workitem right now!!!\n"));
++		Status = NDIS_STATUS_NOT_ACCEPTED;
++		break;
++	} else {
++		pmp_wi_cntx->bmp_wi_progress = _TRUE;
++		pmp_wi_cntx->param.bcompleted = _FALSE;
++		pmp_wi_cntx->param.act_type = MPT_GET_RATE_TABLE;
++		pmp_wi_cntx->param.io_offset = 0x0;
++		pmp_wi_cntx->param.bytes_cnt = sizeof(struct getratable_rsp);
++		pmp_wi_cntx->param.io_value = 0xffffffff;
++
++		res = rtw_getrttbl_cmd(Adapter, (struct getratable_rsp *)pmp_wi_cntx->param.data);
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++		if (res != _SUCCESS)
++			Status = NDIS_STATUS_NOT_ACCEPTED;
++	}
++	DEBUG_INFO(("\n <=== Set OID_RT_PRO_H2C_GET_RATE_TABLE.\n"));
++#endif
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++
++/* ****************  oid_rtl_seg_87_12_00   section start **************** */
++NDIS_STATUS oid_rt_pro_encryption_ctrl_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	struct security_priv *psecuritypriv = &Adapter->securitypriv;
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	ENCRY_CTRL_STATE encry_mode;
++
++
++	*poid_par_priv->bytes_needed = sizeof(u8);
++	if (poid_par_priv->information_buf_len < *poid_par_priv->bytes_needed)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	if (poid_par_priv->type_of_oid == SET_OID) {
++		encry_mode = *((u8 *)poid_par_priv->information_buf);
++		switch (encry_mode) {
++		case HW_CONTROL:
++#if 0
++			Adapter->registrypriv.software_decrypt = _FALSE;
++			Adapter->registrypriv.software_encrypt = _FALSE;
++#else
++			psecuritypriv->sw_decrypt = _FALSE;
++			psecuritypriv->sw_encrypt = _FALSE;
++#endif
++			break;
++		case SW_CONTROL:
++#if 0
++			Adapter->registrypriv.software_decrypt = _TRUE;
++			Adapter->registrypriv.software_encrypt = _TRUE;
++#else
++			psecuritypriv->sw_decrypt = _TRUE;
++			psecuritypriv->sw_encrypt = _TRUE;
++#endif
++			break;
++		case HW_ENCRY_SW_DECRY:
++#if 0
++			Adapter->registrypriv.software_decrypt = _TRUE;
++			Adapter->registrypriv.software_encrypt = _FALSE;
++#else
++			psecuritypriv->sw_decrypt = _TRUE;
++			psecuritypriv->sw_encrypt = _FALSE;
++#endif
++			break;
++		case SW_ENCRY_HW_DECRY:
++#if 0
++			Adapter->registrypriv.software_decrypt = _FALSE;
++			Adapter->registrypriv.software_encrypt = _TRUE;
++#else
++			psecuritypriv->sw_decrypt = _FALSE;
++			psecuritypriv->sw_encrypt = _TRUE;
++#endif
++			break;
++		}
++
++	} else {
++#if 0
++		if (Adapter->registrypriv.software_encrypt == _FALSE) {
++			if (Adapter->registrypriv.software_decrypt == _FALSE)
++				encry_mode = HW_CONTROL;
++			else
++				encry_mode = HW_ENCRY_SW_DECRY;
++		} else {
++			if (Adapter->registrypriv.software_decrypt == _FALSE)
++				encry_mode = SW_ENCRY_HW_DECRY;
++			else
++				encry_mode = SW_CONTROL;
++		}
++#else
++
++		if ((psecuritypriv->sw_encrypt == _FALSE) && (psecuritypriv->sw_decrypt == _FALSE))
++			encry_mode = HW_CONTROL;
++		else if ((psecuritypriv->sw_encrypt == _FALSE) && (psecuritypriv->sw_decrypt == _TRUE))
++			encry_mode = HW_ENCRY_SW_DECRY;
++		else if ((psecuritypriv->sw_encrypt == _TRUE) && (psecuritypriv->sw_decrypt == _FALSE))
++			encry_mode = SW_ENCRY_HW_DECRY;
++		else if ((psecuritypriv->sw_encrypt == _TRUE) && (psecuritypriv->sw_decrypt == _TRUE))
++			encry_mode = SW_CONTROL;
++
++#endif
++
++		*(u8 *)poid_par_priv->information_buf =  encry_mode;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++	}
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_add_sta_info_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	struct sta_info *psta = NULL;
++	UCHAR		*macaddr;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	*poid_par_priv->bytes_needed = ETH_ALEN;
++	if (poid_par_priv->information_buf_len < *poid_par_priv->bytes_needed)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	macaddr = (UCHAR *) poid_par_priv->information_buf ;
++
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	psta = rtw_get_stainfo(&Adapter->stapriv, macaddr);
++
++	if (psta == NULL) { /* the sta have been in sta_info_queue => do nothing */
++		psta = rtw_alloc_stainfo(&Adapter->stapriv, macaddr);
++
++		if (psta == NULL) {
++			status = NDIS_STATUS_FAILURE;
++		}
++	}
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_dele_sta_info_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	struct sta_info *psta = NULL;
++	UCHAR		*macaddr;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	*poid_par_priv->bytes_needed = ETH_ALEN;
++	if (poid_par_priv->information_buf_len < *poid_par_priv->bytes_needed)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	macaddr = (UCHAR *) poid_par_priv->information_buf ;
++
++	psta = rtw_get_stainfo(&Adapter->stapriv, macaddr);
++	if (psta != NULL) {
++		/* _enter_critical(&(Adapter->stapriv.sta_hash_lock), &irqL); */
++		rtw_free_stainfo(Adapter, psta);
++		/* _exit_critical(&(Adapter->stapriv.sta_hash_lock), &irqL); */
++	}
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++#if 0
++static u32 mp_query_drv_var(_adapter *padapter, u8 offset, u32 var)
++{
++#ifdef CONFIG_SDIO_HCI
++
++	if (offset == 1) {
++		u16 tmp_blk_num;
++		tmp_blk_num = rtw_read16(padapter, SDIO_RX0_RDYBLK_NUM);
++		if (adapter_to_dvobj(padapter)->rxblknum != tmp_blk_num) {
++			/*	sd_recv_rxfifo(padapter); */
++		}
++	}
++
++#if 0
++	if (offset <= 100) { /* For setting data rate and query data rate */
++		if (offset == 100) { /* For query data rate */
++			var = padapter->registrypriv.tx_rate;
++
++		} else if (offset < 0x1d) { /* For setting data rate */
++			padapter->registrypriv.tx_rate = offset;
++			var = padapter->registrypriv.tx_rate;
++			padapter->registrypriv.use_rate = _TRUE;
++		} else { /* not use the data rate */
++			padapter->registrypriv.use_rate = _FALSE;
++		}
++	} else if (offset <= 110) { /* for setting debug level */
++		if (offset == 110) { /* For query data rate */
++			padapter->registrypriv.dbg_level = GlobalDebugLevel;
++			var = padapter->registrypriv.dbg_level;
++		} else if (offset < 110 && offset > 100) {
++			padapter->registrypriv.dbg_level = GlobalDebugLevel = offset - 100;
++			var = padapter->registrypriv.dbg_level;
++
++		}
++	} else if (offset > 110 && offset < 116) {
++		if (115 == offset) {
++		} else {
++			switch (offset) {
++			case 111:
++				adapter_to_dvobj(padapter)->tx_block_mode = 1;
++				adapter_to_dvobj(padapter)->rx_block_mode = 1;
++				break;
++			case 112:
++				adapter_to_dvobj(padapter)->tx_block_mode = 1;
++				adapter_to_dvobj(padapter)->rx_block_mode = 0;
++				break;
++			case 113:
++				adapter_to_dvobj(padapter)->tx_block_mode = 0;
++				adapter_to_dvobj(padapter)->rx_block_mode = 1;
++				break;
++			case 114:
++				adapter_to_dvobj(padapter)->tx_block_mode = 0;
++				adapter_to_dvobj(padapter)->rx_block_mode = 0;
++				break;
++			default:
++				break;
++
++			}
++
++		}
++
++	} else if (offset >= 127) {
++		u64	prnt_dbg_comp;
++		u8   chg_idx;
++		u64	tmp_dbg_comp;
++		chg_idx = offset - 0x80;
++		tmp_dbg_comp = BIT(chg_idx);
++		prnt_dbg_comp = padapter->registrypriv.dbg_component = GlobalDebugComponents;
++		if (offset == 127) {
++			/*		prnt_dbg_comp=padapter->registrypriv.dbg_component= GlobalDebugComponents; */
++			var = (u32)(padapter->registrypriv.dbg_component);
++			prnt_dbg_comp = GlobalDebugComponents;
++			prnt_dbg_comp = GlobalDebugComponents = padapter->registrypriv.dbg_component;
++
++		} else {
++			prnt_dbg_comp = GlobalDebugComponents;
++			prnt_dbg_comp = GlobalDebugComponents = padapter->registrypriv.dbg_component;
++
++			if (GlobalDebugComponents & tmp_dbg_comp) {
++				/* this bit is already set, now clear it */
++				GlobalDebugComponents = GlobalDebugComponents & (~tmp_dbg_comp);
++			} else {
++				/* this bit is not set, now set it. */
++				GlobalDebugComponents = GlobalDebugComponents | tmp_dbg_comp;
++			}
++			prnt_dbg_comp = GlobalDebugComponents;
++
++			var = (u32)(GlobalDebugComponents);
++			/* GlobalDebugComponents=padapter->registrypriv.dbg_component; */
++
++		}
++	}
++#endif
++#endif
++
++	return var;
++}
++#endif
++
++NDIS_STATUS oid_rt_pro_query_dr_variable_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER		Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL			oldirql;
++#endif
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++
++	DR_VARIABLE_STRUCT	*pdrv_var;
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	*poid_par_priv->bytes_needed = sizeof(DR_VARIABLE_STRUCT);
++	if (poid_par_priv->information_buf_len < *poid_par_priv->bytes_needed)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++
++	pdrv_var = (struct _DR_VARIABLE_STRUCT_ *)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	pdrv_var->variable = mp_query_drv_var(Adapter, pdrv_var->offset, pdrv_var->variable);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_rx_packet_type_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++
++	if (poid_par_priv->information_buf_len < sizeof(UCHAR)) {
++		status = NDIS_STATUS_INVALID_LENGTH;
++		*poid_par_priv->bytes_needed = sizeof(UCHAR);
++		return status;
++	}
++
++	if (poid_par_priv->type_of_oid == SET_OID) {
++		Adapter->mppriv.rx_with_status = *(UCHAR *) poid_par_priv->information_buf;
++
++
++	} else {
++		*(UCHAR *) poid_par_priv->information_buf = Adapter->mppriv.rx_with_status;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++		/* *(u32 *)&Adapter->eeprompriv.mac_addr[0]=rtw_read32(Adapter, 0x10250050); */
++		/* *(u16 *)&Adapter->eeprompriv.mac_addr[4]=rtw_read16(Adapter, 0x10250054); */
++	}
++#endif
++
++	return NDIS_STATUS_SUCCESS;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_read_efuse_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL oldirql;
++#endif
++	PEFUSE_ACCESS_STRUCT pefuse;
++	u8 *data;
++	u16 addr = 0, cnts = 0, max_available_size = 0;
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(EFUSE_ACCESS_STRUCT))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pefuse = (PEFUSE_ACCESS_STRUCT)poid_par_priv->information_buf;
++	addr = pefuse->start_addr;
++	cnts = pefuse->cnts;
++	data = pefuse->data;
++
++
++	EFUSE_GetEfuseDefinition(Adapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_available_size, _FALSE);
++
++	if ((addr + cnts) > max_available_size) {
++		return NDIS_STATUS_NOT_ACCEPTED;
++	}
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	if (rtw_efuse_access(Adapter, _FALSE, addr, cnts, data) == _FAIL) {
++		status = NDIS_STATUS_FAILURE;
++	} else
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_write_efuse_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL oldirql;
++#endif
++	PEFUSE_ACCESS_STRUCT pefuse;
++	u8 *data;
++	u16 addr = 0, cnts = 0, max_available_size = 0;
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	pefuse = (PEFUSE_ACCESS_STRUCT)poid_par_priv->information_buf;
++	addr = pefuse->start_addr;
++	cnts = pefuse->cnts;
++	data = pefuse->data;
++
++
++	EFUSE_GetEfuseDefinition(Adapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_available_size, _FALSE);
++
++	if ((addr + cnts) > max_available_size) {
++		return NDIS_STATUS_NOT_ACCEPTED;
++	}
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	if (rtw_efuse_access(Adapter, _TRUE, addr, cnts, data) == _FAIL)
++		status = NDIS_STATUS_FAILURE;
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_rw_efuse_pgpkt_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	PPGPKT_STRUCT	ppgpkt;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	*poid_par_priv->bytes_rw = 0;
++
++	if (poid_par_priv->information_buf_len < sizeof(PGPKT_STRUCT))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	ppgpkt = (PPGPKT_STRUCT)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (poid_par_priv->type_of_oid == QUERY_OID) {
++
++		Efuse_PowerSwitch(Adapter, _FALSE, _TRUE);
++		if (Efuse_PgPacketRead(Adapter, ppgpkt->offset, ppgpkt->data, _FALSE) == _TRUE)
++			*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++		else
++			status = NDIS_STATUS_FAILURE;
++		Efuse_PowerSwitch(Adapter, _FALSE, _FALSE);
++	} else {
++
++		Efuse_PowerSwitch(Adapter, _TRUE, _TRUE);
++		if (Efuse_PgPacketWrite(Adapter, ppgpkt->offset, ppgpkt->word_en, ppgpkt->data, _FALSE) == _TRUE)
++			*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++		else
++			status = NDIS_STATUS_FAILURE;
++		Efuse_PowerSwitch(Adapter, _TRUE, _FALSE);
++	}
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_efuse_current_size_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u16 size;
++	u8 ret;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	ret = efuse_GetCurrentSize(Adapter, &size);
++	_irqlevel_changed_(&oldirql, RAISE);
++	if (ret == _SUCCESS) {
++		*(u32 *)poid_par_priv->information_buf = size;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_FAILURE;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_efuse_max_size_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	*(u32 *)poid_par_priv->information_buf = efuse_GetMaxSize(Adapter);
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_efuse_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status;
++
++
++
++	if (poid_par_priv->type_of_oid == QUERY_OID)
++		status = oid_rt_pro_read_efuse_hdl(poid_par_priv);
++	else
++		status = oid_rt_pro_write_efuse_hdl(poid_par_priv);
++
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_efuse_map_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u8		*data;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	u16	mapLen = 0;
++
++
++
++	EFUSE_GetEfuseDefinition(Adapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
++
++	*poid_par_priv->bytes_rw = 0;
++
++	if (poid_par_priv->information_buf_len < mapLen)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	data = (u8 *)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (poid_par_priv->type_of_oid == QUERY_OID) {
++
++		if (rtw_efuse_map_read(Adapter, 0, mapLen, data) == _SUCCESS)
++			*poid_par_priv->bytes_rw = mapLen;
++		else {
++			status = NDIS_STATUS_FAILURE;
++		}
++	} else {
++		/* SET_OID */
++
++		if (rtw_efuse_map_write(Adapter, 0, mapLen, data) == _SUCCESS)
++			*poid_par_priv->bytes_rw = mapLen;
++		else {
++			status = NDIS_STATUS_FAILURE;
++		}
++	}
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_set_crystal_cap_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++
++	u32		crystal_cap = 0;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	crystal_cap = *((u32 *)poid_par_priv->information_buf); /* 4 */
++	if (crystal_cap > 0xf)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	Adapter->mppriv.curr_crystalcap = crystal_cap;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetCrystalCap(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++#endif
++	return status;
++}
++
++NDIS_STATUS oid_rt_set_rx_packet_type_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u8		rx_pkt_type;
++	/*	u32		rcr_val32; */
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	/*	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context); */
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u8))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	rx_pkt_type = *((u8 *)poid_par_priv->information_buf); /* 4 */
++
++#if 0
++	_irqlevel_changed_(&oldirql, LOWER);
++#if 0
++	rcr_val8 = rtw_read8(Adapter, 0x10250048);/* RCR */
++	rcr_val8 &= ~(RCR_AB | RCR_AM | RCR_APM | RCR_AAP);
++
++	if (rx_pkt_type == RX_PKT_BROADCAST)
++		rcr_val8 |= (RCR_AB | RCR_ACRC32);
++	else if (rx_pkt_type == RX_PKT_DEST_ADDR)
++		rcr_val8 |= (RCR_AAP | RCR_AM | RCR_ACRC32);
++	else if (rx_pkt_type == RX_PKT_PHY_MATCH)
++		rcr_val8 |= (RCR_APM | RCR_ACRC32);
++	else
++		rcr_val8 &= ~(RCR_AAP | RCR_APM | RCR_AM | RCR_AB | RCR_ACRC32);
++	rtw_write8(padapter, 0x10250048, rcr_val8);
++#else
++	rcr_val32 = rtw_read32(padapter, RCR);/* RCR = 0x10250048 */
++	rcr_val32 &= ~(RCR_CBSSID | RCR_AB | RCR_AM | RCR_APM | RCR_AAP);
++#if 0
++	if (rx_pkt_type == RX_PKT_BROADCAST)
++		rcr_val32 |= (RCR_AB | RCR_AM | RCR_APM | RCR_AAP | RCR_ACRC32);
++	else if (rx_pkt_type == RX_PKT_DEST_ADDR) {
++		/* rcr_val32 |= (RCR_CBSSID|RCR_AAP|RCR_AM|RCR_ACRC32); */
++		rcr_val32 |= (RCR_CBSSID | RCR_APM | RCR_ACRC32);
++	} else if (rx_pkt_type == RX_PKT_PHY_MATCH) {
++		rcr_val32 |= (RCR_APM | RCR_ACRC32);
++		/* rcr_val32 |= (RCR_AAP|RCR_ACRC32); */
++	} else
++		rcr_val32 &= ~(RCR_AAP | RCR_APM | RCR_AM | RCR_AB | RCR_ACRC32);
++#else
++	switch (rx_pkt_type) {
++	case RX_PKT_BROADCAST:
++		rcr_val32 |= (RCR_AB | RCR_AM | RCR_APM | RCR_AAP | RCR_ACRC32);
++		break;
++	case RX_PKT_DEST_ADDR:
++		rcr_val32 |= (RCR_AB | RCR_AM | RCR_APM | RCR_AAP | RCR_ACRC32);
++		break;
++	case RX_PKT_PHY_MATCH:
++		rcr_val32 |= (RCR_APM | RCR_ACRC32);
++		break;
++	default:
++		rcr_val32 &= ~(RCR_AAP | RCR_APM | RCR_AM | RCR_AB | RCR_ACRC32);
++		break;
++	}
++
++	if (rx_pkt_type == RX_PKT_DEST_ADDR)
++		padapter->mppriv.check_mp_pkt = 1;
++	else
++		padapter->mppriv.check_mp_pkt = 0;
++#endif
++	rtw_write32(padapter, RCR, rcr_val32);
++
++#endif
++	_irqlevel_changed_(&oldirql, RAISE);
++#endif
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_pro_set_tx_agc_offset_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	u32		txagc;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	txagc = *(u32 *)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetTxAGCOffset(Adapter, txagc);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++
++NDIS_STATUS oid_rt_pro_set_pkt_test_mode_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER		Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	struct mp_priv		*pmppriv = &Adapter->mppriv;
++	u32			type;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	type = *(u32 *)poid_par_priv->information_buf;
++
++	if (_LOOPBOOK_MODE_ == type) {
++		pmppriv->mode = type;
++		set_fwstate(pmlmepriv, WIFI_MP_LPBK_STATE); /* append txdesc */
++	} else if (_2MAC_MODE_ == type) {
++		pmppriv->mode = type;
++		_clr_fwstate_(pmlmepriv, WIFI_MP_LPBK_STATE);
++	} else
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++
++unsigned int mp_ioctl_xmit_packet_hdl(struct oid_par_priv *poid_par_priv)
++{
++	PMP_XMIT_PARM pparm;
++	PADAPTER padapter;
++	struct mp_priv *pmp_priv;
++	struct pkt_attrib *pattrib;
++
++
++	pparm = (PMP_XMIT_PARM)poid_par_priv->information_buf;
++	padapter = (PADAPTER)poid_par_priv->adapter_context;
++	pmp_priv = &padapter->mppriv;
++
++	if (poid_par_priv->type_of_oid == QUERY_OID) {
++		pparm->enable = !pmp_priv->tx.stop;
++		pparm->count = pmp_priv->tx.sended;
++	} else {
++		if (pparm->enable == 0)
++			pmp_priv->tx.stop = 1;
++		else if (pmp_priv->tx.stop == 1) {
++			pmp_priv->tx.stop = 0;
++			pmp_priv->tx.count = pparm->count;
++			pmp_priv->tx.payload = pparm->payload_type;
++			pattrib = &pmp_priv->tx.attrib;
++			pattrib->pktlen = pparm->length;
++			_rtw_memcpy(pattrib->dst, pparm->da, ETH_ALEN);
++			SetPacketTx(padapter);
++		} else
++			return NDIS_STATUS_FAILURE;
++	}
++
++	return NDIS_STATUS_SUCCESS;
++}
++
++#if 0
++unsigned int mp_ioctl_xmit_packet_hdl(struct oid_par_priv *poid_par_priv)
++{
++	unsigned char *pframe, *pmp_pkt;
++	struct ethhdr *pethhdr;
++	struct pkt_attrib *pattrib;
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	unsigned short *fctrl;
++	int llc_sz, payload_len;
++	struct mp_xmit_frame *pxframe =  NULL;
++	struct mp_xmit_packet *pmp_xmitpkt = (struct mp_xmit_packet *)param;
++	u8 addr3[] = {0x02, 0xE0, 0x4C, 0x87, 0x66, 0x55};
++
++	/*	RTW_INFO("+mp_ioctl_xmit_packet_hdl\n"); */
++
++	pxframe = alloc_mp_xmitframe(&padapter->mppriv);
++	if (pxframe == NULL) {
++		DEBUG_ERR(("Can't alloc pmpframe %d:%s\n", __LINE__, __FILE__));
++		return -1;
++	}
++
++	/* mp_xmit_pkt */
++	payload_len = pmp_xmitpkt->len - 14;
++	pmp_pkt = (unsigned char *)pmp_xmitpkt->mem;
++	pethhdr = (struct ethhdr *)pmp_pkt;
++
++	/* RTW_INFO("payload_len=%d, pkt_mem=0x%x\n", pmp_xmitpkt->len, (void*)pmp_xmitpkt->mem); */
++
++	/* RTW_INFO("pxframe=0x%x\n", (void*)pxframe); */
++	/* RTW_INFO("pxframe->mem=0x%x\n", (void*)pxframe->mem); */
++
++	/* update attribute */
++	pattrib = &pxframe->attrib;
++	memset((u8 *)(pattrib), 0, sizeof(struct pkt_attrib));
++	pattrib->pktlen = pmp_xmitpkt->len;
++	pattrib->ether_type = ntohs(pethhdr->h_proto);
++	pattrib->hdrlen = 24;
++	pattrib->nr_frags = 1;
++	pattrib->priority = 0;
++#ifndef CONFIG_MP_LINUX
++	if (IS_MCAST(pethhdr->h_dest))
++		pattrib->mac_id = 4;
++	else
++		pattrib->mac_id = 5;
++#else
++	pattrib->mac_id = 5;
++#endif
++
++	/*  */
++	memset(pxframe->mem, 0 , WLANHDR_OFFSET);
++	pframe = (u8 *)(pxframe->mem) + WLANHDR_OFFSET;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	SetFrameSubType(pframe, WIFI_DATA);
++
++	_rtw_memcpy(pwlanhdr->addr1, pethhdr->h_dest, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pethhdr->h_source, ETH_ALEN);
++
++	_rtw_memcpy(pwlanhdr->addr3, addr3, ETH_ALEN);
++
++	pwlanhdr->seq_ctl = 0;
++	pframe += pattrib->hdrlen;
++
++	llc_sz = rtw_put_snap(pframe, pattrib->ether_type);
++	pframe += llc_sz;
++
++	_rtw_memcpy(pframe, (void *)(pmp_pkt + 14),  payload_len);
++
++	pattrib->last_txcmdsz = pattrib->hdrlen + llc_sz + payload_len;
++
++	DEBUG_INFO(("issuing mp_xmit_frame, tx_len=%d, ether_type=0x%x\n", pattrib->last_txcmdsz, pattrib->ether_type));
++	xmit_mp_frame(padapter, pxframe);
++
++	return _SUCCESS;
++}
++#endif
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_set_power_down_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u8		bpwrup;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++#ifdef PLATFORM_LINUX
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++#endif
++#endif
++
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	bpwrup = *(u8 *)poid_par_priv->information_buf;
++	/* CALL  the power_down function */
++#ifdef PLATFORM_LINUX
++#if defined(CONFIG_RTL8712) /* Linux MP insmod unknown symbol */
++	dev_power_down(padapter, bpwrup);
++#endif
++#endif
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	/* DEBUG_ERR(("\n <=== Query OID_RT_PRO_READ_REGISTER. */
++	/*	Add:0x%08x Width:%d Value:0x%08x\n",RegRWStruct->offset,RegRWStruct->width,RegRWStruct->value)); */
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_power_mode_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	/* #ifdef PLATFORM_OS_XP */
++	/*	_irqL		oldirql;
++	 * #endif */
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if (poid_par_priv->information_buf_len < sizeof(u32)) {
++		status = NDIS_STATUS_INVALID_LENGTH;
++		return status;
++	}
++
++
++	/*	_irqlevel_changed_(&oldirql, LOWER); */
++	*(int *)poid_par_priv->information_buf = Adapter->registrypriv.low_power ? POWER_LOW : POWER_NORMAL;
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	/*	_irqlevel_changed_(&oldirql, RAISE); */
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_odm.c b/drivers/net/wireless/rtl8723du/core/rtw_odm.c
+new file mode 100644
+index 0000000..22721b1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_odm.c
+@@ -0,0 +1,383 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include <rtw_odm.h>
++#include <hal_data.h>
++
++const char *odm_comp_str[] = {
++	/* BIT0 */"ODM_COMP_DIG",
++	/* BIT1 */"ODM_COMP_RA_MASK",
++	/* BIT2 */"ODM_COMP_DYNAMIC_TXPWR",
++	/* BIT3 */"ODM_COMP_FA_CNT",
++	/* BIT4 */"ODM_COMP_RSSI_MONITOR",
++	/* BIT5 */"ODM_COMP_SNIFFER",
++	/* BIT6 */"ODM_COMP_ANT_DIV",
++	/* BIT7 */"ODM_COMP_DFS",
++	/* BIT8 */"ODM_COMP_NOISY_DETECT",
++	/* BIT9 */"ODM_COMP_RATE_ADAPTIVE",
++	/* BIT10 */"ODM_COMP_PATH_DIV",
++	/* BIT11 */"ODM_COMP_CCX",
++	/* BIT12 */"ODM_COMP_DYNAMIC_PRICCA",
++	/* BIT13 */NULL,
++	/* BIT14 */"ODM_COMP_MP",
++	/* BIT15 */"ODM_COMP_CFO_TRACKING",
++	/* BIT16 */"ODM_COMP_ACS",
++	/* BIT17 */"PHYDM_COMP_ADAPTIVITY",
++	/* BIT18 */"PHYDM_COMP_RA_DBG",
++	/* BIT19 */"PHYDM_COMP_TXBF",
++	/* BIT20 */"ODM_COMP_EDCA_TURBO",
++	/* BIT21 */"ODM_COMP_EARLY_MODE",
++	/* BIT22 */"ODM_FW_DEBUG_TRACE",
++	/* BIT23 */NULL,
++	/* BIT24 */"ODM_COMP_TX_PWR_TRACK",
++	/* BIT25 */"ODM_COMP_RX_GAIN_TRACK",
++	/* BIT26 */"ODM_COMP_CALIBRATION",
++	/* BIT27 */NULL,
++	/* BIT28 */"ODM_PHY_CONFIG",
++	/* BIT29 */"ODM_COMP_INIT",
++	/* BIT30 */"ODM_COMP_COMMON",
++};
++
++#define RTW_ODM_COMP_MAX 31
++
++const char *odm_ability_str[] = {
++	/* BIT0 */"ODM_BB_DIG",
++	/* BIT1 */"ODM_BB_RA_MASK",
++	/* BIT2 */"ODM_BB_DYNAMIC_TXPWR",
++	/* BIT3 */"ODM_BB_FA_CNT",
++	/* BIT4 */"ODM_BB_RSSI_MONITOR",
++	/* BIT5 */"ODM_BB_CCK_PD",
++	/* BIT6 */"ODM_BB_ANT_DIV",
++	/* BIT7 */NULL,
++	/* BIT8 */"ODM_BB_PWR_TRAIN",
++	/* BIT9 */"ODM_BB_RATE_ADAPTIVE",
++	/* BIT10 */"ODM_BB_PATH_DIV",
++	/* BIT11 */NULL,
++	/* BIT12 */NULL,
++	/* BIT13 */"ODM_BB_ADAPTIVITY",
++	/* BIT14 */"ODM_BB_CFO_TRACKING",
++	/* BIT15 */"ODM_BB_NHM_CNT",
++	/* BIT16 */"ODM_BB_PRIMARY_CCA",
++	/* BIT17 */"ODM_BB_TXBF",
++	/* BIT18 */"ODM_BB_DYNAMIC_ARFR",
++	/* BIT19 */NULL,
++	/* BIT20 */"ODM_MAC_EDCA_TURBO",
++	/* BIT21 */"ODM_MAC_EARLY_MODE",
++	/* BIT22 */NULL,
++	/* BIT23 */NULL,
++	/* BIT24 */"ODM_RF_TX_PWR_TRACK",
++	/* BIT25 */"ODM_RF_RX_GAIN_TRACK",
++	/* BIT26 */"ODM_RF_CALIBRATION",
++};
++
++#define RTW_ODM_ABILITY_MAX 27
++
++const char *odm_dbg_level_str[] = {
++	NULL,
++	"ODM_DBG_OFF",
++	"ODM_DBG_SERIOUS",
++	"ODM_DBG_WARNING",
++	"ODM_DBG_LOUD",
++	"ODM_DBG_TRACE",
++};
++
++#define RTW_ODM_DBG_LEVEL_NUM 6
++
++void rtw_odm_dbg_comp_msg(void *sel, _adapter *adapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(adapter);
++	DM_ODM_T *odm = &pHalData->odmpriv;
++	int cnt = 0;
++	u64 dbg_comp = 0;
++	int i;
++
++	rtw_hal_get_odm_var(adapter, HAL_ODM_DBG_FLAG, &dbg_comp, NULL);
++
++	RTW_PRINT_SEL(sel, "odm.DebugComponents = 0x%016llx\n", dbg_comp);
++	for (i = 0; i < RTW_ODM_COMP_MAX; i++) {
++		if (odm_comp_str[i])
++			RTW_PRINT_SEL(sel, "%cBIT%-2d %s\n",
++				(BIT0 & (dbg_comp >> i)) ? '+' : ' ', i, odm_comp_str[i]);
++	}
++}
++
++inline void rtw_odm_dbg_comp_set(_adapter *adapter, u64 comps)
++{
++	rtw_hal_set_odm_var(adapter, HAL_ODM_DBG_FLAG, &comps, _FALSE);
++}
++
++void rtw_odm_dbg_level_msg(void *sel, _adapter *adapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(adapter);
++	DM_ODM_T *odm = &pHalData->odmpriv;
++	int cnt = 0;
++	u32 dbg_level = 0;
++	int i;
++
++	rtw_hal_get_odm_var(adapter, HAL_ODM_DBG_LEVEL, &dbg_level, NULL);
++	RTW_PRINT_SEL(sel, "odm.DebugLevel = %u\n", dbg_level);
++	for (i = 0; i < RTW_ODM_DBG_LEVEL_NUM; i++) {
++		if (odm_dbg_level_str[i])
++			RTW_PRINT_SEL(sel, "%u %s\n", i, odm_dbg_level_str[i]);
++	}
++}
++
++inline void rtw_odm_dbg_level_set(_adapter *adapter, u32 level)
++{
++	rtw_hal_set_odm_var(adapter, HAL_ODM_DBG_LEVEL, &level, _FALSE);
++}
++
++void rtw_odm_ability_msg(void *sel, _adapter *adapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(adapter);
++	DM_ODM_T *odm = &pHalData->odmpriv;
++	int cnt = 0;
++	u32 ability = 0;
++	int i;
++
++	ability = rtw_phydm_ability_get(adapter);
++	RTW_PRINT_SEL(sel, "odm.SupportAbility = 0x%08x\n", ability);
++	for (i = 0; i < RTW_ODM_ABILITY_MAX; i++) {
++		if (odm_ability_str[i])
++			RTW_PRINT_SEL(sel, "%cBIT%-2d %s\n",
++				(BIT0 << i) & ability ? '+' : ' ', i, odm_ability_str[i]);
++	}
++}
++
++inline void rtw_odm_ability_set(_adapter *adapter, u32 ability)
++{
++	rtw_phydm_ability_set(adapter, ability);
++}
++
++/* set ODM_CMNINFO_IC_TYPE based on chip_type */
++void rtw_odm_init_ic_type(_adapter *adapter)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	DM_ODM_T *odm = &hal_data->odmpriv;
++	u4Byte ic_type = chip_type_to_odm_ic_type(rtw_get_chip_type(adapter));
++
++	rtw_warn_on(!ic_type);
++
++	ODM_CmnInfoInit(odm, ODM_CMNINFO_IC_TYPE, ic_type);
++}
++
++inline void rtw_odm_set_force_igi_lb(_adapter *adapter, u8 lb)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++
++	hal_data->u1ForcedIgiLb = lb;
++}
++
++inline u8 rtw_odm_get_force_igi_lb(_adapter *adapter)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++
++	return hal_data->u1ForcedIgiLb;
++}
++
++void rtw_odm_adaptivity_ver_msg(void *sel, _adapter *adapter)
++{
++	RTW_PRINT_SEL(sel, "ADAPTIVITY_VERSION "ADAPTIVITY_VERSION"\n");
++}
++
++#define RTW_ADAPTIVITY_EN_DISABLE 0
++#define RTW_ADAPTIVITY_EN_ENABLE 1
++
++void rtw_odm_adaptivity_en_msg(void *sel, _adapter *adapter)
++{
++	struct registry_priv *regsty = &adapter->registrypriv;
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	DM_ODM_T *odm = &hal_data->odmpriv;
++
++	RTW_PRINT_SEL(sel, "RTW_ADAPTIVITY_EN_");
++
++	if (regsty->adaptivity_en == RTW_ADAPTIVITY_EN_DISABLE)
++		_RTW_PRINT_SEL(sel, "DISABLE\n");
++	else if (regsty->adaptivity_en == RTW_ADAPTIVITY_EN_ENABLE)
++		_RTW_PRINT_SEL(sel, "ENABLE\n");
++	else
++		_RTW_PRINT_SEL(sel, "INVALID\n");
++}
++
++#define RTW_ADAPTIVITY_MODE_NORMAL 0
++#define RTW_ADAPTIVITY_MODE_CARRIER_SENSE 1
++
++void rtw_odm_adaptivity_mode_msg(void *sel, _adapter *adapter)
++{
++	struct registry_priv *regsty = &adapter->registrypriv;
++
++	RTW_PRINT_SEL(sel, "RTW_ADAPTIVITY_MODE_");
++
++	if (regsty->adaptivity_mode == RTW_ADAPTIVITY_MODE_NORMAL)
++		_RTW_PRINT_SEL(sel, "NORMAL\n");
++	else if (regsty->adaptivity_mode == RTW_ADAPTIVITY_MODE_CARRIER_SENSE)
++		_RTW_PRINT_SEL(sel, "CARRIER_SENSE\n");
++	else
++		_RTW_PRINT_SEL(sel, "INVALID\n");
++}
++
++#define RTW_ADAPTIVITY_DML_DISABLE 0
++#define RTW_ADAPTIVITY_DML_ENABLE 1
++
++void rtw_odm_adaptivity_dml_msg(void *sel, _adapter *adapter)
++{
++	struct registry_priv *regsty = &adapter->registrypriv;
++
++	RTW_PRINT_SEL(sel, "RTW_ADAPTIVITY_DML_");
++
++	if (regsty->adaptivity_dml == RTW_ADAPTIVITY_DML_DISABLE)
++		_RTW_PRINT_SEL(sel, "DISABLE\n");
++	else if (regsty->adaptivity_dml == RTW_ADAPTIVITY_DML_ENABLE)
++		_RTW_PRINT_SEL(sel, "ENABLE\n");
++	else
++		_RTW_PRINT_SEL(sel, "INVALID\n");
++}
++
++void rtw_odm_adaptivity_dc_backoff_msg(void *sel, _adapter *adapter)
++{
++	struct registry_priv *regsty = &adapter->registrypriv;
++
++	RTW_PRINT_SEL(sel, "RTW_ADAPTIVITY_DC_BACKOFF:%u\n", regsty->adaptivity_dc_backoff);
++}
++
++void rtw_odm_adaptivity_config_msg(void *sel, _adapter *adapter)
++{
++	rtw_odm_adaptivity_ver_msg(sel, adapter);
++	rtw_odm_adaptivity_en_msg(sel, adapter);
++	rtw_odm_adaptivity_mode_msg(sel, adapter);
++	rtw_odm_adaptivity_dml_msg(sel, adapter);
++	rtw_odm_adaptivity_dc_backoff_msg(sel, adapter);
++}
++
++bool rtw_odm_adaptivity_needed(_adapter *adapter)
++{
++	struct registry_priv *regsty = &adapter->registrypriv;
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	bool ret = _FALSE;
++
++	if (regsty->adaptivity_en == RTW_ADAPTIVITY_EN_ENABLE)
++		ret = _TRUE;
++
++	return ret;
++}
++
++void rtw_odm_adaptivity_parm_msg(void *sel, _adapter *adapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(adapter);
++	DM_ODM_T *odm = &pHalData->odmpriv;
++
++	rtw_odm_adaptivity_config_msg(sel, adapter);
++
++	RTW_PRINT_SEL(sel, "%10s %16s %16s %22s %12s\n"
++		, "TH_L2H_ini", "TH_EDCCA_HL_diff", "TH_L2H_ini_mode2", "TH_EDCCA_HL_diff_mode2", "EDCCA_enable");
++	RTW_PRINT_SEL(sel, "0x%-8x %-16d 0x%-14x %-22d %-12d\n"
++		, (u8)odm->TH_L2H_ini
++		, odm->TH_EDCCA_HL_diff
++		, (u8)odm->TH_L2H_ini_mode2
++		, odm->TH_EDCCA_HL_diff_mode2
++		, odm->EDCCA_enable
++	);
++
++	RTW_PRINT_SEL(sel, "%15s %9s\n", "AdapEnableState", "Adap_Flag");
++	RTW_PRINT_SEL(sel, "%-15x %-9x\n"
++		, odm->Adaptivity_enable
++		, odm->adaptivity_flag
++	);
++}
++
++void rtw_odm_adaptivity_parm_set(_adapter *adapter, s8 TH_L2H_ini, s8 TH_EDCCA_HL_diff, s8 TH_L2H_ini_mode2, s8 TH_EDCCA_HL_diff_mode2, u8 EDCCA_enable)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(adapter);
++	DM_ODM_T *odm = &pHalData->odmpriv;
++
++	odm->TH_L2H_ini = TH_L2H_ini;
++	odm->TH_EDCCA_HL_diff = TH_EDCCA_HL_diff;
++	odm->TH_L2H_ini_mode2 = TH_L2H_ini_mode2;
++	odm->TH_EDCCA_HL_diff_mode2 = TH_EDCCA_HL_diff_mode2;
++	odm->EDCCA_enable = EDCCA_enable;
++}
++
++void rtw_odm_get_perpkt_rssi(void *sel, _adapter *adapter)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	DM_ODM_T *odm = &(hal_data->odmpriv);
++
++	RTW_PRINT_SEL(sel, "RxRate = %s, RSSI_A = %d(%%), RSSI_B = %d(%%)\n",
++		      HDATA_RATE(odm->RxRate), odm->RSSI_A, odm->RSSI_B);
++}
++
++
++void rtw_odm_acquirespinlock(_adapter *adapter,	RT_SPINLOCK_TYPE type)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(adapter);
++	_irqL irqL;
++
++	switch (type) {
++	case RT_IQK_SPINLOCK:
++		_enter_critical_bh(&pHalData->IQKSpinLock, &irqL);
++	default:
++		break;
++	}
++}
++
++void rtw_odm_releasespinlock(_adapter *adapter,	RT_SPINLOCK_TYPE type)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(adapter);
++	_irqL irqL;
++
++	switch (type) {
++	case RT_IQK_SPINLOCK:
++		_exit_critical_bh(&pHalData->IQKSpinLock, &irqL);
++	default:
++		break;
++	}
++}
++
++#ifdef CONFIG_DFS_MASTER
++inline u8 rtw_odm_get_dfs_domain(_adapter *adapter)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	PDM_ODM_T pDM_Odm = &(hal_data->odmpriv);
++
++	return pDM_Odm->DFS_RegionDomain;
++}
++
++inline VOID rtw_odm_radar_detect_reset(_adapter *adapter)
++{
++	phydm_radar_detect_reset(GET_ODM(adapter));
++}
++
++inline VOID rtw_odm_radar_detect_disable(_adapter *adapter)
++{
++	phydm_radar_detect_disable(GET_ODM(adapter));
++}
++
++/* called after ch, bw is set */
++inline VOID rtw_odm_radar_detect_enable(_adapter *adapter)
++{
++	phydm_radar_detect_enable(GET_ODM(adapter));
++}
++
++inline BOOLEAN rtw_odm_radar_detect(_adapter *adapter)
++{
++	return phydm_radar_detect(GET_ODM(adapter));
++}
++#endif /* CONFIG_DFS_MASTER */
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_p2p.c b/drivers/net/wireless/rtl8723du/core/rtw_p2p.c
+new file mode 100644
+index 0000000..ca69e57
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_p2p.c
+@@ -0,0 +1,5200 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_P2P_C_
++
++#include <drv_types.h>
++
++#ifdef CONFIG_P2P
++
++int rtw_p2p_is_channel_list_ok(u8 desired_ch, u8 *ch_list, u8 ch_cnt)
++{
++	int found = 0, i = 0;
++
++	for (i = 0; i < ch_cnt; i++) {
++		if (ch_list[i] == desired_ch) {
++			found = 1;
++			break;
++		}
++	}
++	return found ;
++}
++
++int is_any_client_associated(_adapter *padapter)
++{
++	return padapter->stapriv.asoc_list_cnt ? _TRUE : _FALSE;
++}
++
++static u32 go_add_group_info_attr(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	_irqL irqL;
++	_list	*phead, *plist;
++	u32 len = 0;
++	u16 attr_len = 0;
++	u8 tmplen, *pdata_attr, *pstart, *pcur;
++	struct sta_info *psta = NULL;
++	_adapter *padapter = pwdinfo->padapter;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	pdata_attr = rtw_zmalloc(MAX_P2P_IE_LEN);
++
++	if (NULL == pdata_attr) {
++		RTW_INFO("%s pdata_attr malloc failed\n", __FUNCTION__);
++		goto _exit;
++	}
++
++	pstart = pdata_attr;
++	pcur = pdata_attr;
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++
++	/* look up sta asoc_queue */
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++
++		plist = get_next(plist);
++
++
++		if (psta->is_p2p_device) {
++			tmplen = 0;
++
++			pcur++;
++
++			/* P2P device address */
++			_rtw_memcpy(pcur, psta->dev_addr, ETH_ALEN);
++			pcur += ETH_ALEN;
++
++			/* P2P interface address */
++			_rtw_memcpy(pcur, psta->hwaddr, ETH_ALEN);
++			pcur += ETH_ALEN;
++
++			*pcur = psta->dev_cap;
++			pcur++;
++
++			/* *(u16*)(pcur) = cpu_to_be16(psta->config_methods); */
++			RTW_PUT_BE16(pcur, psta->config_methods);
++			pcur += 2;
++
++			_rtw_memcpy(pcur, psta->primary_dev_type, 8);
++			pcur += 8;
++
++			*pcur = psta->num_of_secdev_type;
++			pcur++;
++
++			_rtw_memcpy(pcur, psta->secdev_types_list, psta->num_of_secdev_type * 8);
++			pcur += psta->num_of_secdev_type * 8;
++
++			if (psta->dev_name_len > 0) {
++				/* *(u16*)(pcur) = cpu_to_be16( WPS_ATTR_DEVICE_NAME ); */
++				RTW_PUT_BE16(pcur, WPS_ATTR_DEVICE_NAME);
++				pcur += 2;
++
++				/* *(u16*)(pcur) = cpu_to_be16( psta->dev_name_len ); */
++				RTW_PUT_BE16(pcur, psta->dev_name_len);
++				pcur += 2;
++
++				_rtw_memcpy(pcur, psta->dev_name, psta->dev_name_len);
++				pcur += psta->dev_name_len;
++			}
++
++
++			tmplen = (u8)(pcur - pstart);
++
++			*pstart = (tmplen - 1);
++
++			attr_len += tmplen;
++
++			/* pstart += tmplen; */
++			pstart = pcur;
++
++		}
++
++
++	}
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	if (attr_len > 0)
++		len = rtw_set_p2p_attr_content(pbuf, P2P_ATTR_GROUP_INFO, attr_len, pdata_attr);
++
++	rtw_mfree(pdata_attr, MAX_P2P_IE_LEN);
++
++_exit:
++	return len;
++
++}
++
++static void issue_group_disc_req(struct wifidirect_info *pwdinfo, u8 *da)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	_adapter *padapter = pwdinfo->padapter;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	unsigned char category = RTW_WLAN_CATEGORY_P2P;/* P2P action frame	 */
++	u32	p2poui = cpu_to_be32(P2POUI);
++	u8	oui_subtype = P2P_GO_DISC_REQUEST;
++	u8	dialogToken = 0;
++
++	RTW_INFO("[%s]\n", __FUNCTION__);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pwdinfo->interface_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, pwdinfo->interface_addr, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	/* Build P2P action frame header */
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));
++
++	/* there is no IE in this P2P action frame */
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++}
++
++static void issue_p2p_devdisc_resp(struct wifidirect_info *pwdinfo, u8 *da, u8 status, u8 dialogToken)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	_adapter *padapter = pwdinfo->padapter;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_DEVDISC_RESP;
++	u8 p2pie[8] = { 0x00 };
++	u32 p2pielen = 0;
++
++	RTW_INFO("[%s]\n", __FUNCTION__);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pwdinfo->device_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, pwdinfo->device_addr, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	/* Build P2P public action frame header */
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));
++
++
++	/* Build P2P IE */
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/* P2P_ATTR_STATUS */
++	p2pielen += rtw_set_p2p_attr_content(&p2pie[p2pielen], P2P_ATTR_STATUS, 1, &status);
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, p2pie, &pattrib->pktlen);
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++}
++
++static void issue_p2p_provision_resp(struct wifidirect_info *pwdinfo, u8 *raddr, u8 *frame_body, u16 config_method)
++{
++	_adapter *padapter = pwdinfo->padapter;
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u8			dialogToken = frame_body[7];	/*	The Dialog Token of provisioning discovery request frame. */
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_PROVISION_DISC_RESP;
++	u8			wpsie[100] = { 0x00 };
++	u8			wpsielen = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));
++
++	wpsielen = 0;
++	/*	WPS OUI */
++	/* *(u32*) ( wpsie ) = cpu_to_be32( WPSOUI ); */
++	RTW_PUT_BE32(wpsie, WPSOUI);
++	wpsielen += 4;
++
++#if 0
++	/*	WPS version */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++	wpsielen += 2;
++
++	/*	Value: */
++	wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++#endif
++
++	/*	Config Method */
++	/*	Type: */
++	/* *(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_CONF_METHOD ); */
++	RTW_PUT_BE16(wpsie + wpsielen, WPS_ATTR_CONF_METHOD);
++	wpsielen += 2;
++
++	/*	Length: */
++	/* *(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0002 ); */
++	RTW_PUT_BE16(wpsie + wpsielen, 0x0002);
++	wpsielen += 2;
++
++	/*	Value: */
++	/* *(u16*) ( wpsie + wpsielen ) = cpu_to_be16( config_method ); */
++	RTW_PUT_BE16(wpsie + wpsielen, config_method);
++	wpsielen += 2;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen);
++
++#ifdef CONFIG_WFD
++	wfdielen = build_provdisc_resp_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++static void issue_p2p_presence_resp(struct wifidirect_info *pwdinfo, u8 *da, u8 status, u8 dialogToken)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	_adapter *padapter = pwdinfo->padapter;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	unsigned char category = RTW_WLAN_CATEGORY_P2P;/* P2P action frame	 */
++	u32	p2poui = cpu_to_be32(P2POUI);
++	u8	oui_subtype = P2P_PRESENCE_RESPONSE;
++	u8 p2pie[MAX_P2P_IE_LEN] = { 0x00 };
++	u8 noa_attr_content[32] = { 0x00 };
++	u32 p2pielen = 0;
++
++	RTW_INFO("[%s]\n", __FUNCTION__);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pwdinfo->interface_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, pwdinfo->interface_addr, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	/* Build P2P action frame header */
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));
++
++
++	/* Add P2P IE header */
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/* Add Status attribute in P2P IE */
++	p2pielen += rtw_set_p2p_attr_content(&p2pie[p2pielen], P2P_ATTR_STATUS, 1, &status);
++
++	/* Add NoA attribute in P2P IE */
++	noa_attr_content[0] = 0x1;/* index */
++	noa_attr_content[1] = 0x0;/* CTWindow and OppPS Parameters */
++
++	/* todo: Notice of Absence Descriptor(s) */
++
++	p2pielen += rtw_set_p2p_attr_content(&p2pie[p2pielen], P2P_ATTR_NOA, 2, noa_attr_content);
++
++
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, p2pie, &(pattrib->pktlen));
++
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++}
++
++u32 build_beacon_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 p2pie[MAX_P2P_IE_LEN] = { 0x00 };
++	u16 capability = 0;
++	u32 len = 0, p2pielen = 0;
++
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++
++	/*	According to the P2P Specification, the beacon frame should contain 3 P2P attributes */
++	/*	1. P2P Capability */
++	/*	2. P2P Device ID */
++	/*	3. Notice of Absence ( NOA )	 */
++
++	/*	P2P Capability ATTR */
++	/*	Type: */
++	/*	Length: */
++	/*	Value: */
++	/*	Device Capability Bitmap, 1 byte */
++	/*	Be able to participate in additional P2P Groups and */
++	/*	support the P2P Invitation Procedure	 */
++	/*	Group Capability Bitmap, 1 byte	 */
++	capability = P2P_DEVCAP_INVITATION_PROC | P2P_DEVCAP_CLIENT_DISCOVERABILITY;
++	capability |= ((P2P_GRPCAP_GO | P2P_GRPCAP_INTRABSS) << 8);
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_PROVISIONING_ING))
++		capability |= (P2P_GRPCAP_GROUP_FORMATION << 8);
++
++	capability = cpu_to_le16(capability);
++
++	p2pielen += rtw_set_p2p_attr_content(&p2pie[p2pielen], P2P_ATTR_CAPABILITY, 2, (u8 *)&capability);
++
++
++	/* P2P Device ID ATTR */
++	p2pielen += rtw_set_p2p_attr_content(&p2pie[p2pielen], P2P_ATTR_DEVICE_ID, ETH_ALEN, pwdinfo->device_addr);
++
++
++	/* Notice of Absence ATTR */
++	/*	Type:  */
++	/*	Length: */
++	/*	Value: */
++
++	/* go_add_noa_attr(pwdinfo); */
++
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &len);
++
++
++	return len;
++
++}
++
++#ifdef CONFIG_WFD
++u32 build_beacon_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u16 val16 = 0;
++	u32 len = 0, wfdielen = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110812 */
++	/*	According to the WFD Specification, the beacon frame should contain 4 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID */
++	/*	3. Coupled Sink Information */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++
++	if (P2P_ROLE_GO == pwdinfo->role) {
++		if (is_any_client_associated(pwdinfo->padapter)) {
++			/*	WFD primary sink + WiFi Direct mode + WSD (WFD Service Discovery) */
++			val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_WSD;
++			RTW_PUT_BE16(wfdie + wfdielen, val16);
++		} else {
++			/*	WFD primary sink + available for WFD session + WiFi Direct mode + WSD (WFD Service Discovery) */
++			val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD;
++			RTW_PUT_BE16(wfdie + wfdielen, val16);
++		}
++
++	} else {
++		/*	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++		val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD;
++		RTW_PUT_BE16(wfdie + wfdielen, val16);
++	}
++
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_probe_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u16 val16 = 0;
++	u32 len = 0, wfdielen = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110812 */
++	/*	According to the WFD Specification, the probe request frame should contain 4 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID */
++	/*	3. Coupled Sink Information */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++
++	if (1 == pwdinfo->wfd_tdls_enable) {
++		/*	WFD primary sink + available for WFD session + WiFi TDLS mode + WSC ( WFD Service Discovery )	 */
++		val16 = pwfd_info->wfd_device_type |
++			WFD_DEVINFO_SESSION_AVAIL |
++			WFD_DEVINFO_WSD |
++			WFD_DEVINFO_PC_TDLS;
++		RTW_PUT_BE16(wfdie + wfdielen, val16);
++	} else {
++		/*	WFD primary sink + available for WFD session + WiFi Direct mode + WSC ( WFD Service Discovery )	 */
++		val16 = pwfd_info->wfd_device_type |
++			WFD_DEVINFO_SESSION_AVAIL |
++			WFD_DEVINFO_WSD;
++		RTW_PUT_BE16(wfdie + wfdielen, val16);
++	}
++
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_probe_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf, u8 tunneled)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len = 0, wfdielen = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110812 */
++	/*	According to the WFD Specification, the probe response frame should contain 4 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID */
++	/*	3. Coupled Sink Information */
++	/*	4. WFD Session Information */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + available for WFD session + WiFi Direct mode */
++
++	if (_TRUE == pwdinfo->session_available) {
++		if (P2P_ROLE_GO == pwdinfo->role) {
++			if (is_any_client_associated(pwdinfo->padapter)) {
++				if (pwdinfo->wfd_tdls_enable) {
++					/*	TDLS mode + WSD ( WFD Service Discovery ) */
++					RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_PC_TDLS | WFD_DEVINFO_HDCP_SUPPORT);
++				} else {
++					/*	WiFi Direct mode + WSD ( WFD Service Discovery ) */
++					RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_HDCP_SUPPORT);
++				}
++			} else {
++				if (pwdinfo->wfd_tdls_enable) {
++					/*	available for WFD session + TDLS mode + WSD ( WFD Service Discovery ) */
++					RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD | WFD_DEVINFO_PC_TDLS | WFD_DEVINFO_HDCP_SUPPORT);
++				} else {
++					/*	available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++					RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD | WFD_DEVINFO_HDCP_SUPPORT);
++				}
++			}
++		} else {
++			if (pwdinfo->wfd_tdls_enable) {
++				/*	available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++				RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD | WFD_DEVINFO_PC_TDLS | WFD_DEVINFO_HDCP_SUPPORT);
++			} else {
++
++				/*	available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++				RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD | WFD_DEVINFO_HDCP_SUPPORT);
++			}
++		}
++	} else {
++		if (pwdinfo->wfd_tdls_enable)
++			RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_PC_TDLS | WFD_DEVINFO_HDCP_SUPPORT);
++		else
++			RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_HDCP_SUPPORT);
++
++	}
++
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		/*	WFD Session Information ATTR */
++		/*	Type: */
++		wfdie[wfdielen++] = WFD_ATTR_SESSION_INFO;
++
++		/*	Length: */
++		/*	Note: In the WFD specification, the size of length field is 2. */
++		RTW_PUT_BE16(wfdie + wfdielen, 0x0000);
++		wfdielen += 2;
++
++		/*	Todo: to add the list of WFD device info descriptor in WFD group. */
++
++	}
++#ifdef CONFIG_CONCURRENT_MODE
++#ifdef CONFIG_TDLS
++	{
++		int i;
++		_adapter *iface = NULL;
++		struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if ((iface) && rtw_is_adapter_up(iface)) {
++				if (iface == padapter)
++					continue;
++
++				if ((tunneled == 0) && (iface->wdinfo.wfd_tdls_enable == 1)) {
++					/*	Alternative MAC Address ATTR
++						Type:					*/
++					wfdie[wfdielen++] = WFD_ATTR_ALTER_MAC;
++
++					/*	Length:
++						Note: In the WFD specification, the size of length field is 2.*/
++					RTW_PUT_BE16(wfdie + wfdielen,  ETH_ALEN);
++					wfdielen += 2;
++
++					/*	Value:
++						Alternative MAC Address*/
++					_rtw_memcpy(wfdie + wfdielen, adapter_mac_addr(iface), ETH_ALEN);
++					wfdielen += ETH_ALEN;
++				}
++			}
++		}
++	}
++
++#endif /* CONFIG_TDLS*/
++#endif /* CONFIG_CONCURRENT_MODE */
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_assoc_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u16 val16 = 0;
++	u32 len = 0, wfdielen = 0;
++	_adapter					*padapter = NULL;
++	struct mlme_priv			*pmlmepriv = NULL;
++	struct wifi_display_info		*pwfd_info = NULL;
++
++	padapter = pwdinfo->padapter;
++	pmlmepriv = &padapter->mlmepriv;
++	pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE) || rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE))
++		goto exit;
++
++	/* WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110812 */
++	/*	According to the WFD Specification, the probe request frame should contain 4 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID */
++	/*	3. Coupled Sink Information */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++	val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD;
++	RTW_PUT_BE16(wfdie + wfdielen, val16);
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_assoc_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len = 0, wfdielen = 0;
++	u16 val16 = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110812 */
++	/*	According to the WFD Specification, the probe request frame should contain 4 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID */
++	/*	3. Coupled Sink Information */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++	val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD;
++	RTW_PUT_BE16(wfdie + wfdielen, val16);
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_nego_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len = 0, wfdielen = 0;
++	u16 val16 = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110825 */
++	/*	According to the WFD Specification, the negotiation request frame should contain 3 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID ( Optional ) */
++	/*	3. Local IP Adress ( Optional ) */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + WiFi Direct mode + WSD ( WFD Service Discovery ) + WFD Session Available */
++	val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_SESSION_AVAIL;
++	RTW_PUT_BE16(wfdie + wfdielen, val16);
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_nego_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len = 0, wfdielen = 0;
++	u16 val16 = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110825 */
++	/*	According to the WFD Specification, the negotiation request frame should contain 3 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID ( Optional ) */
++	/*	3. Local IP Adress ( Optional ) */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + WiFi Direct mode + WSD ( WFD Service Discovery ) + WFD Session Available */
++	val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_SESSION_AVAIL;
++	RTW_PUT_BE16(wfdie + wfdielen, val16);
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_nego_confirm_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len = 0, wfdielen = 0;
++	u16 val16 = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110825 */
++	/*	According to the WFD Specification, the negotiation request frame should contain 3 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID ( Optional ) */
++	/*	3. Local IP Adress ( Optional ) */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + WiFi Direct mode + WSD ( WFD Service Discovery ) + WFD Session Available */
++	val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_SESSION_AVAIL;
++	RTW_PUT_BE16(wfdie + wfdielen, val16);
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_invitation_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len = 0, wfdielen = 0;
++	u16 val16 = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110825 */
++	/*	According to the WFD Specification, the provision discovery request frame should contain 3 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID ( Optional ) */
++	/*	3. Local IP Adress ( Optional ) */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++	val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD;
++	RTW_PUT_BE16(wfdie + wfdielen, val16);
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++	if (P2P_ROLE_GO == pwdinfo->role) {
++		/*	WFD Session Information ATTR */
++		/*	Type: */
++		wfdie[wfdielen++] = WFD_ATTR_SESSION_INFO;
++
++		/*	Length: */
++		/*	Note: In the WFD specification, the size of length field is 2. */
++		RTW_PUT_BE16(wfdie + wfdielen, 0x0000);
++		wfdielen += 2;
++
++		/*	Todo: to add the list of WFD device info descriptor in WFD group. */
++
++	}
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_invitation_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u16 val16 = 0;
++	u32 len = 0, wfdielen = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110825 */
++	/*	According to the WFD Specification, the provision discovery request frame should contain 3 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID ( Optional ) */
++	/*	3. Local IP Adress ( Optional ) */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++	val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD;
++	RTW_PUT_BE16(wfdie + wfdielen, val16);
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++	if (P2P_ROLE_GO == pwdinfo->role) {
++		/*	WFD Session Information ATTR */
++		/*	Type: */
++		wfdie[wfdielen++] = WFD_ATTR_SESSION_INFO;
++
++		/*	Length: */
++		/*	Note: In the WFD specification, the size of length field is 2. */
++		RTW_PUT_BE16(wfdie + wfdielen, 0x0000);
++		wfdielen += 2;
++
++		/*	Todo: to add the list of WFD device info descriptor in WFD group. */
++
++	}
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_provdisc_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len = 0, wfdielen = 0;
++	u16 val16 = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110825 */
++	/*	According to the WFD Specification, the provision discovery request frame should contain 3 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID ( Optional ) */
++	/*	3. Local IP Adress ( Optional ) */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++	val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD;
++	RTW_PUT_BE16(wfdie + wfdielen, val16);
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_provdisc_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len = 0, wfdielen = 0;
++	u16 val16 = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110825 */
++	/*	According to the WFD Specification, the provision discovery response frame should contain 3 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID ( Optional ) */
++	/*	3. Local IP Adress ( Optional ) */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++	val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD;
++	RTW_PUT_BE16(wfdie + wfdielen, val16);
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++#endif /* CONFIG_WFD */
++
++u32 build_probe_resp_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 p2pie[MAX_P2P_IE_LEN] = { 0x00 };
++	u32 len = 0, p2pielen = 0;
++#ifdef CONFIG_INTEL_WIDI
++	struct mlme_priv *pmlmepriv = &(pwdinfo->padapter->mlmepriv);
++	u8 zero_array_check[L2SDTA_SERVICE_VE_LEN] = { 0x00 };
++	u8 widi_version = 0, i = 0;
++
++	if (_rtw_memcmp(pmlmepriv->sa_ext, zero_array_check, L2SDTA_SERVICE_VE_LEN) == _FALSE)
++		widi_version = 35;
++	else if (pmlmepriv->num_p2p_sdt != 0)
++		widi_version = 40;
++#endif /* CONFIG_INTEL_WIDI */
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20100907 */
++	/*	According to the P2P Specification, the probe response frame should contain 5 P2P attributes */
++	/*	1. P2P Capability */
++	/*	2. Extended Listen Timing */
++	/*	3. Notice of Absence ( NOA )	( Only GO needs this ) */
++	/*	4. Device Info */
++	/*	5. Group Info	( Only GO need this ) */
++
++	/*	P2P Capability ATTR */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CAPABILITY;
++
++	/*	Length: */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0002 ); */
++	RTW_PUT_LE16(p2pie + p2pielen, 0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Device Capability Bitmap, 1 byte */
++	p2pie[p2pielen++] = DMP_P2P_DEVCAP_SUPPORT;
++
++	/*	Group Capability Bitmap, 1 byte */
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		p2pie[p2pielen] = (P2P_GRPCAP_GO | P2P_GRPCAP_INTRABSS);
++
++		if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_PROVISIONING_ING))
++			p2pie[p2pielen] |= P2P_GRPCAP_GROUP_FORMATION;
++
++		p2pielen++;
++	} else if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_DEVICE)) {
++		/*	Group Capability Bitmap, 1 byte */
++		if (pwdinfo->persistent_supported)
++			p2pie[p2pielen++] = P2P_GRPCAP_PERSISTENT_GROUP | DMP_P2P_GRPCAP_SUPPORT;
++		else
++			p2pie[p2pielen++] = DMP_P2P_GRPCAP_SUPPORT;
++	}
++
++	/*	Extended Listen Timing ATTR */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_EX_LISTEN_TIMING;
++
++	/*	Length: */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0004 ); */
++	RTW_PUT_LE16(p2pie + p2pielen, 0x0004);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Availability Period */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0xFFFF ); */
++	RTW_PUT_LE16(p2pie + p2pielen, 0xFFFF);
++	p2pielen += 2;
++
++	/*	Availability Interval */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0xFFFF ); */
++	RTW_PUT_LE16(p2pie + p2pielen, 0xFFFF);
++	p2pielen += 2;
++
++
++	/* Notice of Absence ATTR */
++	/*	Type:  */
++	/*	Length: */
++	/*	Value: */
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		/* go_add_noa_attr(pwdinfo); */
++	}
++
++	/*	Device Info ATTR */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	21->P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes)  */
++	/*	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes) */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 21 + pwdinfo->device_name_len ); */
++#ifdef CONFIG_INTEL_WIDI
++	if (widi_version == 35)
++		RTW_PUT_LE16(p2pie + p2pielen, 21 + 8 + pwdinfo->device_name_len);
++	else if (widi_version == 40)
++		RTW_PUT_LE16(p2pie + p2pielen, 21 + 8 * pmlmepriv->num_p2p_sdt + pwdinfo->device_name_len);
++	else
++#endif /* CONFIG_INTEL_WIDI */
++		RTW_PUT_LE16(p2pie + p2pielen, 21 + pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	P2P Device Address */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_addr, ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++	/*	Config Method */
++	/*	This field should be big endian. Noted by P2P specification. */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( pwdinfo->supported_wps_cm ); */
++	RTW_PUT_BE16(p2pie + p2pielen, pwdinfo->supported_wps_cm);
++	p2pielen += 2;
++
++#ifdef CONFIG_INTEL_WIDI
++	if (widi_version == 40) {
++		/*	Primary Device Type */
++		/*	Category ID */
++		/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_CID_MULIT_MEDIA ); */
++		RTW_PUT_BE16(p2pie + p2pielen, pmlmepriv->p2p_pdt_cid);
++		p2pielen += 2;
++
++		/*	OUI */
++		/* *(u32*) ( p2pie + p2pielen ) = cpu_to_be32( WPSOUI ); */
++		RTW_PUT_BE32(p2pie + p2pielen, WPSOUI);
++		p2pielen += 4;
++
++		/*	Sub Category ID */
++		/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_SCID_MEDIA_SERVER ); */
++		RTW_PUT_BE16(p2pie + p2pielen, pmlmepriv->p2p_pdt_scid);
++		p2pielen += 2;
++	} else
++#endif /* CONFIG_INTEL_WIDI */
++	{
++		/*	Primary Device Type */
++		/*	Category ID */
++		/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_CID_MULIT_MEDIA ); */
++		RTW_PUT_BE16(p2pie + p2pielen, WPS_PDT_CID_MULIT_MEDIA);
++		p2pielen += 2;
++
++		/*	OUI */
++		/* *(u32*) ( p2pie + p2pielen ) = cpu_to_be32( WPSOUI ); */
++		RTW_PUT_BE32(p2pie + p2pielen, WPSOUI);
++		p2pielen += 4;
++
++		/*	Sub Category ID */
++		/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_SCID_MEDIA_SERVER ); */
++		RTW_PUT_BE16(p2pie + p2pielen, WPS_PDT_SCID_MEDIA_SERVER);
++		p2pielen += 2;
++	}
++
++	/*	Number of Secondary Device Types */
++#ifdef CONFIG_INTEL_WIDI
++	if (widi_version == 35) {
++		p2pie[p2pielen++] = 0x01;
++
++		RTW_PUT_BE16(p2pie + p2pielen, WPS_PDT_CID_DISPLAYS);
++		p2pielen += 2;
++
++		RTW_PUT_BE32(p2pie + p2pielen, INTEL_DEV_TYPE_OUI);
++		p2pielen += 4;
++
++		RTW_PUT_BE16(p2pie + p2pielen, P2P_SCID_WIDI_CONSUMER_SINK);
++		p2pielen += 2;
++	} else if (widi_version == 40) {
++		p2pie[p2pielen++] = pmlmepriv->num_p2p_sdt;
++		for (; i < pmlmepriv->num_p2p_sdt; i++) {
++			RTW_PUT_BE16(p2pie + p2pielen, pmlmepriv->p2p_sdt_cid[i]);
++			p2pielen += 2;
++
++			RTW_PUT_BE32(p2pie + p2pielen, INTEL_DEV_TYPE_OUI);
++			p2pielen += 4;
++
++			RTW_PUT_BE16(p2pie + p2pielen, pmlmepriv->p2p_sdt_scid[i]);
++			p2pielen += 2;
++		}
++	} else
++#endif /* CONFIG_INTEL_WIDI */
++		p2pie[p2pielen++] = 0x00;	/*	No Secondary Device Type List */
++
++	/*	Device Name */
++	/*	Type: */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_ATTR_DEVICE_NAME ); */
++	RTW_PUT_BE16(p2pie + p2pielen, WPS_ATTR_DEVICE_NAME);
++	p2pielen += 2;
++
++	/*	Length: */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( pwdinfo->device_name_len ); */
++	RTW_PUT_BE16(p2pie + p2pielen, pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_name, pwdinfo->device_name_len);
++	p2pielen += pwdinfo->device_name_len;
++
++	/* Group Info ATTR */
++	/*	Type: */
++	/*	Length: */
++	/*	Value: */
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++		p2pielen += go_add_group_info_attr(pwdinfo, p2pie + p2pielen);
++
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &len);
++
++
++	return len;
++
++}
++
++u32 build_prov_disc_request_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf, u8 *pssid, u8 ussidlen, u8 *pdev_raddr)
++{
++	u8 p2pie[MAX_P2P_IE_LEN] = { 0x00 };
++	u32 len = 0, p2pielen = 0;
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20110301 */
++	/*	According to the P2P Specification, the provision discovery request frame should contain 3 P2P attributes */
++	/*	1. P2P Capability */
++	/*	2. Device Info */
++	/*	3. Group ID ( When joining an operating P2P Group ) */
++
++	/*	P2P Capability ATTR */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CAPABILITY;
++
++	/*	Length: */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0002 ); */
++	RTW_PUT_LE16(p2pie + p2pielen, 0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Device Capability Bitmap, 1 byte */
++	p2pie[p2pielen++] = DMP_P2P_DEVCAP_SUPPORT;
++
++	/*	Group Capability Bitmap, 1 byte */
++	if (pwdinfo->persistent_supported)
++		p2pie[p2pielen++] = P2P_GRPCAP_PERSISTENT_GROUP | DMP_P2P_GRPCAP_SUPPORT;
++	else
++		p2pie[p2pielen++] = DMP_P2P_GRPCAP_SUPPORT;
++
++
++	/*	Device Info ATTR */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	21->P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes)  */
++	/*	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes) */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 21 + pwdinfo->device_name_len ); */
++	RTW_PUT_LE16(p2pie + p2pielen, 21 + pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	P2P Device Address */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_addr, ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++	/*	Config Method */
++	/*	This field should be big endian. Noted by P2P specification. */
++	if (pwdinfo->ui_got_wps_info == P2P_GOT_WPSINFO_PBC) {
++		/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_CONFIG_METHOD_PBC ); */
++		RTW_PUT_BE16(p2pie + p2pielen, WPS_CONFIG_METHOD_PBC);
++	} else {
++		/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_CONFIG_METHOD_DISPLAY ); */
++		RTW_PUT_BE16(p2pie + p2pielen, WPS_CONFIG_METHOD_DISPLAY);
++	}
++
++	p2pielen += 2;
++
++	/*	Primary Device Type */
++	/*	Category ID */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_CID_MULIT_MEDIA ); */
++	RTW_PUT_BE16(p2pie + p2pielen, WPS_PDT_CID_MULIT_MEDIA);
++	p2pielen += 2;
++
++	/*	OUI */
++	/* *(u32*) ( p2pie + p2pielen ) = cpu_to_be32( WPSOUI ); */
++	RTW_PUT_BE32(p2pie + p2pielen, WPSOUI);
++	p2pielen += 4;
++
++	/*	Sub Category ID */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_SCID_MEDIA_SERVER ); */
++	RTW_PUT_BE16(p2pie + p2pielen, WPS_PDT_SCID_MEDIA_SERVER);
++	p2pielen += 2;
++
++	/*	Number of Secondary Device Types */
++	p2pie[p2pielen++] = 0x00;	/*	No Secondary Device Type List */
++
++	/*	Device Name */
++	/*	Type: */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_ATTR_DEVICE_NAME ); */
++	RTW_PUT_BE16(p2pie + p2pielen, WPS_ATTR_DEVICE_NAME);
++	p2pielen += 2;
++
++	/*	Length: */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( pwdinfo->device_name_len ); */
++	RTW_PUT_BE16(p2pie + p2pielen, pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_name, pwdinfo->device_name_len);
++	p2pielen += pwdinfo->device_name_len;
++
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT)) {
++		/*	Added by Albert 2011/05/19 */
++		/*	In this case, the pdev_raddr is the device address of the group owner. */
++
++		/*	P2P Group ID ATTR */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_GROUP_ID;
++
++		/*	Length: */
++		/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( ETH_ALEN + ussidlen ); */
++		RTW_PUT_LE16(p2pie + p2pielen, ETH_ALEN + ussidlen);
++		p2pielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(p2pie + p2pielen, pdev_raddr, ETH_ALEN);
++		p2pielen += ETH_ALEN;
++
++		_rtw_memcpy(p2pie + p2pielen, pssid, ussidlen);
++		p2pielen += ussidlen;
++
++	}
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &len);
++
++
++	return len;
++
++}
++
++
++u32 build_assoc_resp_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf, u8 status_code)
++{
++	u8 p2pie[MAX_P2P_IE_LEN] = { 0x00 };
++	u32 len = 0, p2pielen = 0;
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/* According to the P2P Specification, the Association response frame should contain 2 P2P attributes */
++	/*	1. Status */
++	/*	2. Extended Listen Timing (optional) */
++
++
++	/*	Status ATTR */
++	p2pielen += rtw_set_p2p_attr_content(&p2pie[p2pielen], P2P_ATTR_STATUS, 1, &status_code);
++
++
++	/* Extended Listen Timing ATTR */
++	/*	Type: */
++	/*	Length: */
++	/*	Value: */
++
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &len);
++
++	return len;
++
++}
++
++u32 build_deauth_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u32 len = 0;
++
++	return len;
++}
++
++u32 process_probe_req_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pframe, uint len)
++{
++	u8 *p;
++	u32 ret = _FALSE;
++	u8 *p2pie;
++	u32	p2pielen = 0;
++	int ssid_len = 0, rate_cnt = 0;
++
++	p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + _PROBEREQ_IE_OFFSET_, _SUPPORTEDRATES_IE_, (int *)&rate_cnt,
++		       len - WLAN_HDR_A3_LEN - _PROBEREQ_IE_OFFSET_);
++
++	if (rate_cnt <= 4) {
++		int i, g_rate = 0;
++
++		for (i = 0; i < rate_cnt; i++) {
++			if (((*(p + 2 + i) & 0xff) != 0x02) &&
++			    ((*(p + 2 + i) & 0xff) != 0x04) &&
++			    ((*(p + 2 + i) & 0xff) != 0x0B) &&
++			    ((*(p + 2 + i) & 0xff) != 0x16))
++				g_rate = 1;
++		}
++
++		if (g_rate == 0) {
++			/*	There is no OFDM rate included in SupportedRates IE of this probe request frame */
++			/*	The driver should response this probe request. */
++			return ret;
++		}
++	} else {
++		/*	rate_cnt > 4 means the SupportRates IE contains the OFDM rate because the count of CCK rates are 4. */
++		/*	We should proceed the following check for this probe request. */
++	}
++
++	/*	Added comments by Albert 20100906 */
++	/*	There are several items we should check here. */
++	/*	1. This probe request frame must contain the P2P IE. (Done) */
++	/*	2. This probe request frame must contain the wildcard SSID. (Done) */
++	/*	3. Wildcard BSSID. (Todo) */
++	/*	4. Destination Address. ( Done in mgt_dispatcher function ) */
++	/*	5. Requested Device Type in WSC IE. (Todo) */
++	/*	6. Device ID attribute in P2P IE. (Todo) */
++
++	p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + _PROBEREQ_IE_OFFSET_, _SSID_IE_, (int *)&ssid_len,
++		       len - WLAN_HDR_A3_LEN - _PROBEREQ_IE_OFFSET_);
++
++	ssid_len &= 0xff;	/*	Just last 1 byte is valid for ssid len of the probe request */
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_DEVICE) || rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		p2pie = rtw_get_p2p_ie(pframe + WLAN_HDR_A3_LEN + _PROBEREQ_IE_OFFSET_ , len - WLAN_HDR_A3_LEN - _PROBEREQ_IE_OFFSET_ , NULL, &p2pielen);
++		if (p2pie) {
++			if ((p != NULL) && _rtw_memcmp((void *)(p + 2), (void *) pwdinfo->p2p_wildcard_ssid , 7)) {
++				/* todo: */
++				/* Check Requested Device Type attributes in WSC IE. */
++				/* Check Device ID attribute in P2P IE */
++
++				ret = _TRUE;
++			} else if ((p != NULL) && (ssid_len == 0))
++				ret = _TRUE;
++		} else {
++			/* non -p2p device */
++		}
++
++	}
++
++
++	return ret;
++
++}
++
++u32 process_assoc_req_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pframe, uint len, struct sta_info *psta)
++{
++	u8 status_code = P2P_STATUS_SUCCESS;
++	u8 *pbuf, *pattr_content = NULL;
++	u32 attr_contentlen = 0;
++	u16 cap_attr = 0;
++	unsigned short	frame_type, ie_offset = 0;
++	u8 *ies;
++	u32 ies_len;
++	u8 *p2p_ie;
++	u32	p2p_ielen = 0;
++
++	if (!rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++		return P2P_STATUS_FAIL_REQUEST_UNABLE;
++
++	frame_type = GetFrameSubType(pframe);
++	if (frame_type == WIFI_ASSOCREQ)
++		ie_offset = _ASOCREQ_IE_OFFSET_;
++	else /* WIFI_REASSOCREQ */
++		ie_offset = _REASOCREQ_IE_OFFSET_;
++
++	ies = pframe + WLAN_HDR_A3_LEN + ie_offset;
++	ies_len = len - WLAN_HDR_A3_LEN - ie_offset;
++
++	p2p_ie = rtw_get_p2p_ie(ies , ies_len , NULL, &p2p_ielen);
++
++	if (!p2p_ie) {
++		RTW_INFO("[%s] P2P IE not Found!!\n", __FUNCTION__);
++		status_code =  P2P_STATUS_FAIL_INVALID_PARAM;
++	} else
++		RTW_INFO("[%s] P2P IE Found!!\n", __FUNCTION__);
++
++	while (p2p_ie) {
++		/* Check P2P Capability ATTR */
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CAPABILITY, (u8 *)&cap_attr, (uint *) &attr_contentlen)) {
++			RTW_INFO("[%s] Got P2P Capability Attr!!\n", __FUNCTION__);
++			cap_attr = le16_to_cpu(cap_attr);
++			psta->dev_cap = cap_attr & 0xff;
++		}
++
++		/* Check Extended Listen Timing ATTR */
++
++
++		/* Check P2P Device Info ATTR */
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_DEVICE_INFO, NULL, (uint *)&attr_contentlen)) {
++			RTW_INFO("[%s] Got P2P DEVICE INFO Attr!!\n", __FUNCTION__);
++			pattr_content = pbuf = rtw_zmalloc(attr_contentlen);
++			if (pattr_content) {
++				u8 num_of_secdev_type;
++				u16 dev_name_len;
++
++
++				rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_DEVICE_INFO , pattr_content, (uint *)&attr_contentlen);
++
++				_rtw_memcpy(psta->dev_addr, 	pattr_content, ETH_ALEN);/* P2P Device Address */
++
++				pattr_content += ETH_ALEN;
++
++				_rtw_memcpy(&psta->config_methods, pattr_content, 2);/* Config Methods */
++				psta->config_methods = be16_to_cpu(psta->config_methods);
++
++				pattr_content += 2;
++
++				_rtw_memcpy(psta->primary_dev_type, pattr_content, 8);
++
++				pattr_content += 8;
++
++				num_of_secdev_type = *pattr_content;
++				pattr_content += 1;
++
++				if (num_of_secdev_type == 0)
++					psta->num_of_secdev_type = 0;
++				else {
++					u32 len;
++
++					psta->num_of_secdev_type = num_of_secdev_type;
++
++					len = (sizeof(psta->secdev_types_list) < (num_of_secdev_type * 8)) ? (sizeof(psta->secdev_types_list)) : (num_of_secdev_type * 8);
++
++					_rtw_memcpy(psta->secdev_types_list, pattr_content, len);
++
++					pattr_content += (num_of_secdev_type * 8);
++				}
++
++
++				/* dev_name_len = attr_contentlen - ETH_ALEN - 2 - 8 - 1 - (num_of_secdev_type*8); */
++				psta->dev_name_len = 0;
++				if (WPS_ATTR_DEVICE_NAME == be16_to_cpu(*(u16 *)pattr_content)) {
++					dev_name_len = be16_to_cpu(*(u16 *)(pattr_content + 2));
++
++					psta->dev_name_len = (sizeof(psta->dev_name) < dev_name_len) ? sizeof(psta->dev_name) : dev_name_len;
++
++					_rtw_memcpy(psta->dev_name, pattr_content + 4, psta->dev_name_len);
++				}
++
++				rtw_mfree(pbuf, attr_contentlen);
++
++			}
++
++		}
++
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++
++	}
++
++	return status_code;
++
++}
++
++u32 process_p2p_devdisc_req(struct wifidirect_info *pwdinfo, u8 *pframe, uint len)
++{
++	u8 *frame_body;
++	u8 status, dialogToken;
++	struct sta_info *psta = NULL;
++	_adapter *padapter = pwdinfo->padapter;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *p2p_ie;
++	u32	p2p_ielen = 0;
++
++	frame_body = (unsigned char *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++	dialogToken = frame_body[7];
++	status = P2P_STATUS_FAIL_UNKNOWN_P2PGROUP;
++
++	p2p_ie = rtw_get_p2p_ie(frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, NULL, &p2p_ielen);
++	if (p2p_ie) {
++		u8 groupid[38] = { 0x00 };
++		u8 dev_addr[ETH_ALEN] = { 0x00 };
++		u32	attr_contentlen = 0;
++
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GROUP_ID, groupid, &attr_contentlen)) {
++			if (_rtw_memcmp(pwdinfo->device_addr, groupid, ETH_ALEN) &&
++			    _rtw_memcmp(pwdinfo->p2p_group_ssid, groupid + ETH_ALEN, pwdinfo->p2p_group_ssid_len)) {
++				attr_contentlen = 0;
++				if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_DEVICE_ID, dev_addr, &attr_contentlen)) {
++					_irqL irqL;
++					_list	*phead, *plist;
++
++					_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++					phead = &pstapriv->asoc_list;
++					plist = get_next(phead);
++
++					/* look up sta asoc_queue */
++					while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++						psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++
++						plist = get_next(plist);
++
++						if (psta->is_p2p_device && (psta->dev_cap & P2P_DEVCAP_CLIENT_DISCOVERABILITY) &&
++						    _rtw_memcmp(psta->dev_addr, dev_addr, ETH_ALEN)) {
++
++							/* _exit_critical_bh(&pstapriv->asoc_list_lock, &irqL); */
++							/* issue GO Discoverability Request */
++							issue_group_disc_req(pwdinfo, psta->hwaddr);
++							/* _enter_critical_bh(&pstapriv->asoc_list_lock, &irqL); */
++
++							status = P2P_STATUS_SUCCESS;
++
++							break;
++						} else
++							status = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++
++					}
++					_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++				} else
++					status = P2P_STATUS_FAIL_INVALID_PARAM;
++
++			} else
++				status = P2P_STATUS_FAIL_INVALID_PARAM;
++
++		}
++
++	}
++
++
++	/* issue Device Discoverability Response */
++	issue_p2p_devdisc_resp(pwdinfo, GetAddr2Ptr(pframe), status, dialogToken);
++
++
++	return (status == P2P_STATUS_SUCCESS) ? _TRUE : _FALSE;
++
++}
++
++u32 process_p2p_devdisc_resp(struct wifidirect_info *pwdinfo, u8 *pframe, uint len)
++{
++	return _TRUE;
++}
++
++u8 process_p2p_provdisc_req(struct wifidirect_info *pwdinfo,  u8 *pframe, uint len)
++{
++	u8 *frame_body;
++	u8 *wpsie;
++	uint	wps_ielen = 0, attr_contentlen = 0;
++	u16	uconfig_method = 0;
++
++
++	frame_body = (pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++	wpsie = rtw_get_wps_ie(frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, NULL, &wps_ielen);
++	if (wpsie) {
++		if (rtw_get_wps_attr_content(wpsie, wps_ielen, WPS_ATTR_CONF_METHOD , (u8 *) &uconfig_method, &attr_contentlen)) {
++			uconfig_method = be16_to_cpu(uconfig_method);
++			switch (uconfig_method) {
++			case WPS_CM_DISPLYA: {
++				_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "dis", 3);
++				break;
++			}
++			case WPS_CM_LABEL: {
++				_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "lab", 3);
++				break;
++			}
++			case WPS_CM_PUSH_BUTTON: {
++				_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "pbc", 3);
++				break;
++			}
++			case WPS_CM_KEYPAD: {
++				_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "pad", 3);
++				break;
++			}
++			}
++			issue_p2p_provision_resp(pwdinfo, GetAddr2Ptr(pframe), frame_body, uconfig_method);
++		}
++	}
++	RTW_INFO("[%s] config method = %s\n", __FUNCTION__, pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req);
++	return _TRUE;
++
++}
++
++u8 process_p2p_provdisc_resp(struct wifidirect_info *pwdinfo,  u8 *pframe)
++{
++
++	return _TRUE;
++}
++
++u8 rtw_p2p_get_peer_ch_list(struct wifidirect_info *pwdinfo, u8 *ch_content, u8 ch_cnt, u8 *peer_ch_list)
++{
++	u8 i = 0, j = 0;
++	u8 temp = 0;
++	u8 ch_no = 0;
++	ch_content += 3;
++	ch_cnt -= 3;
++
++	while (ch_cnt > 0) {
++		ch_content += 1;
++		ch_cnt -= 1;
++		temp = *ch_content;
++		for (i = 0 ; i < temp ; i++, j++)
++			peer_ch_list[j] = *(ch_content + 1 + i);
++		ch_content += (temp + 1);
++		ch_cnt -= (temp + 1);
++		ch_no += temp ;
++	}
++
++	return ch_no;
++}
++
++u8 rtw_p2p_check_peer_oper_ch(struct mlme_ext_priv *pmlmeext, u8 ch)
++{
++	u8 i = 0;
++
++	for (i = 0; i < pmlmeext->max_chan_nums; i++) {
++		if (pmlmeext->channel_set[i].ChannelNum == ch)
++			return _SUCCESS;
++	}
++
++	return _FAIL;
++}
++
++u8 rtw_p2p_ch_inclusion(struct mlme_ext_priv *pmlmeext, u8 *peer_ch_list, u8 peer_ch_num, u8 *ch_list_inclusioned)
++{
++	int	i = 0, j = 0, temp = 0;
++	u8 ch_no = 0;
++
++	for (i = 0; i < peer_ch_num; i++) {
++		for (j = temp; j < pmlmeext->max_chan_nums; j++) {
++			if (*(peer_ch_list + i) == pmlmeext->channel_set[j].ChannelNum) {
++				ch_list_inclusioned[ch_no++] = *(peer_ch_list + i);
++				temp = j;
++				break;
++			}
++		}
++	}
++
++	return ch_no;
++}
++
++u8 process_p2p_group_negotation_req(struct wifidirect_info *pwdinfo, u8 *pframe, uint len)
++{
++	_adapter *padapter = pwdinfo->padapter;
++	u8	result = P2P_STATUS_SUCCESS;
++	u32	p2p_ielen = 0, wps_ielen = 0;
++	u8 *ies;
++	u32 ies_len;
++	u8 *p2p_ie;
++	u8 *wpsie;
++	u16		wps_devicepassword_id = 0x0000;
++	uint	wps_devicepassword_id_len = 0;
++#ifdef CONFIG_WFD
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++#endif /* CONFIG_TDLS	 */
++#endif /* CONFIG_WFD */
++	wpsie = rtw_get_wps_ie(pframe + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, NULL, &wps_ielen);
++	if (wpsie) {
++		/*	Commented by Kurt 20120113 */
++		/*	If some device wants to do p2p handshake without sending prov_disc_req */
++		/*	We have to get peer_req_cm from here. */
++		if (_rtw_memcmp(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "000", 3)) {
++			rtw_get_wps_attr_content(wpsie, wps_ielen, WPS_ATTR_DEVICE_PWID, (u8 *) &wps_devicepassword_id, &wps_devicepassword_id_len);
++			wps_devicepassword_id = be16_to_cpu(wps_devicepassword_id);
++
++			if (wps_devicepassword_id == WPS_DPID_USER_SPEC)
++				_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "dis", 3);
++			else if (wps_devicepassword_id == WPS_DPID_REGISTRAR_SPEC)
++				_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "pad", 3);
++			else
++				_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "pbc", 3);
++		}
++	} else {
++		RTW_INFO("[%s] WPS IE not Found!!\n", __FUNCTION__);
++		result = P2P_STATUS_FAIL_INCOMPATIBLE_PARAM;
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++		return result ;
++	}
++
++	ies = pframe + _PUBLIC_ACTION_IE_OFFSET_;
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++
++	if (!p2p_ie) {
++		RTW_INFO("[%s] P2P IE not Found!!\n", __FUNCTION__);
++		result = P2P_STATUS_FAIL_INCOMPATIBLE_PARAM;
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++	}
++
++	while (p2p_ie) {
++		u8	attr_content = 0x00;
++		u32	attr_contentlen = 0;
++		u8	ch_content[100] = { 0x00 };
++		uint	ch_cnt = 0;
++		u8	peer_ch_list[100] = { 0x00 };
++		u8	peer_ch_num = 0;
++		u8	ch_list_inclusioned[100] = { 0x00 };
++		u8	ch_num_inclusioned = 0;
++		u16	cap_attr;
++		u8 listen_ch_attr[5] = { 0x00 };
++
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_ING);
++
++		/* Check P2P Capability ATTR */
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CAPABILITY, (u8 *)&cap_attr, (uint *)&attr_contentlen)) {
++			cap_attr = le16_to_cpu(cap_attr);
++
++#if defined(CONFIG_WFD) && defined(CONFIG_TDLS)
++			if (!(cap_attr & P2P_GRPCAP_INTRABSS))
++				ptdlsinfo->ap_prohibited = _TRUE;
++#endif /* defined(CONFIG_WFD) && defined(CONFIG_TDLS) */
++		}
++
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GO_INTENT , &attr_content, &attr_contentlen)) {
++			RTW_INFO("[%s] GO Intent = %d, tie = %d\n", __FUNCTION__, attr_content >> 1, attr_content & 0x01);
++			pwdinfo->peer_intent = attr_content;	/*	include both intent and tie breaker values. */
++
++			if (pwdinfo->intent == (pwdinfo->peer_intent >> 1)) {
++				/*	Try to match the tie breaker value */
++				if (pwdinfo->intent == P2P_MAX_INTENT) {
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++					result = P2P_STATUS_FAIL_BOTH_GOINTENT_15;
++				} else {
++					if (attr_content & 0x01)
++						rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++					else
++						rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++				}
++			} else if (pwdinfo->intent > (pwdinfo->peer_intent >> 1))
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++			else
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++
++			if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++				/*	Store the group id information. */
++				_rtw_memcpy(pwdinfo->groupid_info.go_device_addr, pwdinfo->device_addr, ETH_ALEN);
++				_rtw_memcpy(pwdinfo->groupid_info.ssid, pwdinfo->nego_ssid, pwdinfo->nego_ssidlen);
++			}
++		}
++
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_LISTEN_CH, (u8 *)listen_ch_attr, (uint *) &attr_contentlen) && attr_contentlen == 5)
++			pwdinfo->nego_req_info.peer_ch = listen_ch_attr[4];
++
++		RTW_INFO(FUNC_ADPT_FMT" listen channel :%u\n", FUNC_ADPT_ARG(padapter), pwdinfo->nego_req_info.peer_ch);
++
++		attr_contentlen = 0;
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_INTENTED_IF_ADDR, pwdinfo->p2p_peer_interface_addr, &attr_contentlen)) {
++			if (attr_contentlen != ETH_ALEN)
++				_rtw_memset(pwdinfo->p2p_peer_interface_addr, 0x00, ETH_ALEN);
++		}
++
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CH_LIST, ch_content, &ch_cnt)) {
++			peer_ch_num = rtw_p2p_get_peer_ch_list(pwdinfo, ch_content, ch_cnt, peer_ch_list);
++			ch_num_inclusioned = rtw_p2p_ch_inclusion(&padapter->mlmeextpriv, peer_ch_list, peer_ch_num, ch_list_inclusioned);
++
++			if (ch_num_inclusioned == 0) {
++				RTW_INFO("[%s] No common channel in channel list!\n", __FUNCTION__);
++				result = P2P_STATUS_FAIL_NO_COMMON_CH;
++				rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++				break;
++			}
++
++			if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++				if (!rtw_p2p_is_channel_list_ok(pwdinfo->operating_channel,
++					ch_list_inclusioned, ch_num_inclusioned)) {
++#ifdef CONFIG_CONCURRENT_MODE
++					if (rtw_mi_check_status(padapter, MI_LINKED)
++					    && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++						RTW_INFO("[%s] desired channel NOT Found!\n", __FUNCTION__);
++						result = P2P_STATUS_FAIL_NO_COMMON_CH;
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++						break;
++					} else
++#endif /* CONFIG_CONCURRENT_MODE */
++					{
++						u8 operatingch_info[5] = { 0x00 }, peer_operating_ch = 0;
++						attr_contentlen = 0;
++
++						if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, operatingch_info, &attr_contentlen))
++							peer_operating_ch = operatingch_info[4];
++
++						if (rtw_p2p_is_channel_list_ok(peer_operating_ch,
++							ch_list_inclusioned, ch_num_inclusioned)) {
++							/**
++							 *	Change our operating channel as peer's for compatibility.
++							 */
++							pwdinfo->operating_channel = peer_operating_ch;
++							RTW_INFO("[%s] Change op ch to %02x as peer's\n", __FUNCTION__, pwdinfo->operating_channel);
++						} else {
++							/* Take first channel of ch_list_inclusioned as operating channel */
++							pwdinfo->operating_channel = ch_list_inclusioned[0];
++							RTW_INFO("[%s] Change op ch to %02x\n", __FUNCTION__, pwdinfo->operating_channel);
++						}
++					}
++
++				}
++			}
++		}
++
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++	}
++
++	if (pwdinfo->ui_got_wps_info == P2P_NO_WPSINFO) {
++		result = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_TX_INFOR_NOREADY);
++		return result;
++	}
++
++#ifdef CONFIG_WFD
++	rtw_process_wfd_ies(padapter, pframe + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, __func__);
++#endif
++
++	return result ;
++}
++
++u8 process_p2p_group_negotation_resp(struct wifidirect_info *pwdinfo, u8 *pframe, uint len)
++{
++	_adapter *padapter = pwdinfo->padapter;
++	u8	result = P2P_STATUS_SUCCESS;
++	u32	p2p_ielen, wps_ielen;
++	u8 *ies;
++	u32 ies_len;
++	u8 *p2p_ie;
++#ifdef CONFIG_WFD
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++#endif /* CONFIG_TDLS	 */
++#endif /* CONFIG_WFD */
++
++	ies = pframe + _PUBLIC_ACTION_IE_OFFSET_;
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	/*	Be able to know which one is the P2P GO and which one is P2P client. */
++
++	if (rtw_get_wps_ie(ies, ies_len, NULL, &wps_ielen)) {
++
++	} else {
++		RTW_INFO("[%s] WPS IE not Found!!\n", __FUNCTION__);
++		result = P2P_STATUS_FAIL_INCOMPATIBLE_PARAM;
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++	}
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++	if (!p2p_ie) {
++		rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++		result = P2P_STATUS_FAIL_INCOMPATIBLE_PARAM;
++	} else {
++
++		u8	attr_content = 0x00;
++		u32	attr_contentlen = 0;
++		u8	operatingch_info[5] = { 0x00 };
++		uint	ch_cnt = 0;
++		u8	ch_content[100] = { 0x00 };
++		u8	groupid[38];
++		u16	cap_attr;
++		u8	peer_ch_list[100] = { 0x00 };
++		u8	peer_ch_num = 0;
++		u8	ch_list_inclusioned[100] = { 0x00 };
++		u8	ch_num_inclusioned = 0;
++
++		while (p2p_ie) {	/*	Found the P2P IE. */
++
++			/* Check P2P Capability ATTR */
++			if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CAPABILITY, (u8 *)&cap_attr, (uint *)&attr_contentlen)) {
++				cap_attr = le16_to_cpu(cap_attr);
++#ifdef CONFIG_TDLS
++				if (!(cap_attr & P2P_GRPCAP_INTRABSS))
++					ptdlsinfo->ap_prohibited = _TRUE;
++#endif /* CONFIG_TDLS */
++			}
++
++			rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, &attr_content, &attr_contentlen);
++			if (attr_contentlen == 1) {
++				RTW_INFO("[%s] Status = %d\n", __FUNCTION__, attr_content);
++				if (attr_content == P2P_STATUS_SUCCESS) {
++					/*	Do nothing. */
++				} else {
++					if (P2P_STATUS_FAIL_INFO_UNAVAILABLE == attr_content)
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_RX_INFOR_NOREADY);
++					else
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++					result = attr_content;
++					break;
++				}
++			}
++
++			/*	Try to get the peer's interface address */
++			attr_contentlen = 0;
++			if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_INTENTED_IF_ADDR, pwdinfo->p2p_peer_interface_addr, &attr_contentlen)) {
++				if (attr_contentlen != ETH_ALEN)
++					_rtw_memset(pwdinfo->p2p_peer_interface_addr, 0x00, ETH_ALEN);
++			}
++
++			/*	Try to get the peer's intent and tie breaker value. */
++			attr_content = 0x00;
++			attr_contentlen = 0;
++			if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GO_INTENT , &attr_content, &attr_contentlen)) {
++				RTW_INFO("[%s] GO Intent = %d, tie = %d\n", __FUNCTION__, attr_content >> 1, attr_content & 0x01);
++				pwdinfo->peer_intent = attr_content;	/*	include both intent and tie breaker values. */
++
++				if (pwdinfo->intent == (pwdinfo->peer_intent >> 1)) {
++					/*	Try to match the tie breaker value */
++					if (pwdinfo->intent == P2P_MAX_INTENT) {
++						rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++						result = P2P_STATUS_FAIL_BOTH_GOINTENT_15;
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++					} else {
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++						rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_GONEGO_OK);
++						if (attr_content & 0x01)
++							rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++						else
++							rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++					}
++				} else if (pwdinfo->intent > (pwdinfo->peer_intent >> 1)) {
++					rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++					rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_GONEGO_OK);
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++				} else {
++					rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++					rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_GONEGO_OK);
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++				}
++
++				if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++					/*	Store the group id information. */
++					_rtw_memcpy(pwdinfo->groupid_info.go_device_addr, pwdinfo->device_addr, ETH_ALEN);
++					_rtw_memcpy(pwdinfo->groupid_info.ssid, pwdinfo->nego_ssid, pwdinfo->nego_ssidlen);
++
++				}
++			}
++
++			/*	Try to get the operation channel information */
++
++			attr_contentlen = 0;
++			if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, operatingch_info, &attr_contentlen)) {
++				RTW_INFO("[%s] Peer's operating channel = %d\n", __FUNCTION__, operatingch_info[4]);
++				pwdinfo->peer_operating_ch = operatingch_info[4];
++			}
++
++			/*	Try to get the channel list information */
++			if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CH_LIST, pwdinfo->channel_list_attr, &pwdinfo->channel_list_attr_len)) {
++				RTW_INFO("[%s] channel list attribute found, len = %d\n", __FUNCTION__,  pwdinfo->channel_list_attr_len);
++
++				peer_ch_num = rtw_p2p_get_peer_ch_list(pwdinfo, pwdinfo->channel_list_attr, pwdinfo->channel_list_attr_len, peer_ch_list);
++				ch_num_inclusioned = rtw_p2p_ch_inclusion(&padapter->mlmeextpriv, peer_ch_list, peer_ch_num, ch_list_inclusioned);
++
++				if (ch_num_inclusioned == 0) {
++					RTW_INFO("[%s] No common channel in channel list!\n", __FUNCTION__);
++					result = P2P_STATUS_FAIL_NO_COMMON_CH;
++					rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++					break;
++				}
++
++				if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++					if (!rtw_p2p_is_channel_list_ok(pwdinfo->operating_channel,
++						ch_list_inclusioned, ch_num_inclusioned)) {
++#ifdef CONFIG_CONCURRENT_MODE
++						if (rtw_mi_check_status(padapter, MI_LINKED)
++						    && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++							RTW_INFO("[%s] desired channel NOT Found!\n", __FUNCTION__);
++							result = P2P_STATUS_FAIL_NO_COMMON_CH;
++							rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++							break;
++						} else
++#endif /* CONFIG_CONCURRENT_MODE */
++						{
++							u8 operatingch_info[5] = { 0x00 }, peer_operating_ch = 0;
++							attr_contentlen = 0;
++
++							if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, operatingch_info, &attr_contentlen))
++								peer_operating_ch = operatingch_info[4];
++
++							if (rtw_p2p_is_channel_list_ok(peer_operating_ch,
++								ch_list_inclusioned, ch_num_inclusioned)) {
++								/**
++								 *	Change our operating channel as peer's for compatibility.
++								 */
++								pwdinfo->operating_channel = peer_operating_ch;
++								RTW_INFO("[%s] Change op ch to %02x as peer's\n", __FUNCTION__, pwdinfo->operating_channel);
++							} else {
++								/* Take first channel of ch_list_inclusioned as operating channel */
++								pwdinfo->operating_channel = ch_list_inclusioned[0];
++								RTW_INFO("[%s] Change op ch to %02x\n", __FUNCTION__, pwdinfo->operating_channel);
++							}
++						}
++
++					}
++				}
++
++			} else
++				RTW_INFO("[%s] channel list attribute not found!\n", __FUNCTION__);
++
++			/*	Try to get the group id information if peer is GO */
++			attr_contentlen = 0;
++			_rtw_memset(groupid, 0x00, 38);
++			if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GROUP_ID, groupid, &attr_contentlen)) {
++				_rtw_memcpy(pwdinfo->groupid_info.go_device_addr, &groupid[0], ETH_ALEN);
++				_rtw_memcpy(pwdinfo->groupid_info.ssid, &groupid[6], attr_contentlen - ETH_ALEN);
++			}
++
++			/* Get the next P2P IE */
++			p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++		}
++
++	}
++
++#ifdef CONFIG_WFD
++	rtw_process_wfd_ies(padapter, pframe + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, __func__);
++#endif
++
++	return result ;
++
++}
++
++u8 process_p2p_group_negotation_confirm(struct wifidirect_info *pwdinfo, u8 *pframe, uint len)
++{
++	_adapter *padapter = pwdinfo->padapter;
++	u8 *ies;
++	u32 ies_len;
++	u8 *p2p_ie;
++	u32	p2p_ielen = 0;
++	u8	result = P2P_STATUS_SUCCESS;
++	ies = pframe + _PUBLIC_ACTION_IE_OFFSET_;
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++	while (p2p_ie) {	/*	Found the P2P IE. */
++		u8	attr_content = 0x00, operatingch_info[5] = { 0x00 };
++		u8	groupid[38] = { 0x00 };
++		u32	attr_contentlen = 0;
++
++		pwdinfo->negotiation_dialog_token = 1;
++		rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, &attr_content, &attr_contentlen);
++		if (attr_contentlen == 1) {
++			RTW_INFO("[%s] Status = %d\n", __FUNCTION__, attr_content);
++			result = attr_content;
++
++			if (attr_content == P2P_STATUS_SUCCESS) {
++				u8	bcancelled = 0;
++
++				_cancel_timer(&pwdinfo->restore_p2p_state_timer, &bcancelled);
++
++				/*	Commented by Albert 20100911 */
++				/*	Todo: Need to handle the case which both Intents are the same. */
++				rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++				rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_GONEGO_OK);
++				if ((pwdinfo->intent) > (pwdinfo->peer_intent >> 1))
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++				else if ((pwdinfo->intent) < (pwdinfo->peer_intent >> 1))
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++				else {
++					/*	Have to compare the Tie Breaker */
++					if (pwdinfo->peer_intent & 0x01)
++						rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++					else
++						rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++				}
++
++#ifdef CONFIG_CONCURRENT_MODE
++				if (rtw_mi_check_status(padapter, MI_LINKED)
++				    && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++					/*	Switch back to the AP channel soon. */
++					_set_timer(&pwdinfo->ap_p2p_switch_timer, 100);
++				}
++#endif
++			} else {
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++				rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++				break;
++			}
++		}
++
++		/*	Try to get the group id information */
++		attr_contentlen = 0;
++		_rtw_memset(groupid, 0x00, 38);
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GROUP_ID, groupid, &attr_contentlen)) {
++			RTW_INFO("[%s] Ssid = %s, ssidlen = %zu\n", __FUNCTION__, &groupid[ETH_ALEN], strlen(&groupid[ETH_ALEN]));
++			_rtw_memcpy(pwdinfo->groupid_info.go_device_addr, &groupid[0], ETH_ALEN);
++			_rtw_memcpy(pwdinfo->groupid_info.ssid, &groupid[6], attr_contentlen - ETH_ALEN);
++		}
++
++		attr_contentlen = 0;
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, operatingch_info, &attr_contentlen)) {
++			RTW_INFO("[%s] Peer's operating channel = %d\n", __FUNCTION__, operatingch_info[4]);
++			pwdinfo->peer_operating_ch = operatingch_info[4];
++		}
++
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++
++	}
++
++	return result ;
++}
++
++u8 process_p2p_presence_req(struct wifidirect_info *pwdinfo, u8 *pframe, uint len)
++{
++	u8 *frame_body;
++	u8 dialogToken = 0;
++	u8 status = P2P_STATUS_SUCCESS;
++
++	frame_body = (unsigned char *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++	dialogToken = frame_body[6];
++
++	/* todo: check NoA attribute */
++
++	issue_p2p_presence_resp(pwdinfo, GetAddr2Ptr(pframe), status, dialogToken);
++
++	return _TRUE;
++}
++
++void find_phase_handler(_adapter	*padapter)
++{
++	struct wifidirect_info  *pwdinfo = &padapter->wdinfo;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	NDIS_802_11_SSID	ssid;
++	_irqL				irqL;
++	u8					_status = 0;
++
++
++	_rtw_memset((unsigned char *)&ssid, 0, sizeof(NDIS_802_11_SSID));
++	_rtw_memcpy(ssid.Ssid, pwdinfo->p2p_wildcard_ssid, P2P_WILDCARD_SSID_LEN);
++	ssid.SsidLength = P2P_WILDCARD_SSID_LEN;
++
++	rtw_p2p_set_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH);
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	_status = rtw_sitesurvey_cmd(padapter, &ssid, 1, NULL, 0);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++}
++
++void p2p_concurrent_handler(_adapter *padapter);
++
++void restore_p2p_state_handler(_adapter	*padapter)
++{
++	struct wifidirect_info  *pwdinfo = &padapter->wdinfo;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING) || rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_FAIL))
++		rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED)) {
++		u8 union_ch = rtw_mi_get_union_chan(padapter);
++		u8 union_bw = rtw_mi_get_union_bw(padapter);
++		u8 union_offset = rtw_mi_get_union_offset(padapter);
++
++		if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_PROVISION_DIS_REQ) || rtw_p2p_chk_state(pwdinfo, P2P_STATE_RX_PROVISION_DIS_RSP)) {
++			set_channel_bwmode(padapter, union_ch, union_offset, union_bw);
++			rtw_mi_buddy_issue_nulldata(padapter, NULL, 0, 3, 500);
++		}
++	}
++#endif
++
++	rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_DEVICE)) {
++#ifdef CONFIG_CONCURRENT_MODE
++		p2p_concurrent_handler(padapter);
++#else
++		/*	In the P2P client mode, the driver should not switch back to its listen channel */
++		/*	because this P2P client should stay at the operating channel of P2P GO. */
++		set_channel_bwmode(padapter, pwdinfo->listen_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++#endif
++	}
++}
++
++void pre_tx_invitereq_handler(_adapter	*padapter)
++{
++	struct wifidirect_info  *pwdinfo = &padapter->wdinfo;
++	u8	val8 = 1;
++
++	set_channel_bwmode(padapter, pwdinfo->invitereq_info.peer_ch, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++	rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++	issue_probereq_p2p(padapter, NULL);
++	_set_timer(&pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT);
++
++}
++
++void pre_tx_provdisc_handler(_adapter	*padapter)
++{
++	struct wifidirect_info  *pwdinfo = &padapter->wdinfo;
++	u8	val8 = 1;
++
++	set_channel_bwmode(padapter, pwdinfo->tx_prov_disc_info.peer_channel_num[0], HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++	rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++	issue_probereq_p2p(padapter, NULL);
++	_set_timer(&pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT);
++
++}
++
++void pre_tx_negoreq_handler(_adapter	*padapter)
++{
++	struct wifidirect_info  *pwdinfo = &padapter->wdinfo;
++	u8	val8 = 1;
++
++	set_channel_bwmode(padapter, pwdinfo->nego_req_info.peer_channel_num[0], HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++	rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++	issue_probereq_p2p(padapter , NULL);
++	/* WIN Phone only accept unicast probe request when nego back */
++	issue_probereq_p2p(padapter , pwdinfo->nego_req_info.peerDevAddr);
++	_set_timer(&pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT);
++
++}
++
++#ifdef CONFIG_CONCURRENT_MODE
++void p2p_concurrent_handler(_adapter	*padapter)
++{
++	struct wifidirect_info	*pwdinfo = &padapter->wdinfo;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8					val8;
++
++	if (rtw_mi_check_status(padapter, MI_LINKED)) {
++		u8 union_ch = rtw_mi_get_union_chan(padapter);
++		u8 union_bw = rtw_mi_get_union_bw(padapter);
++		u8 union_offset = rtw_mi_get_union_offset(padapter);
++
++		pwdinfo->operating_channel = union_ch;
++
++		if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++			RTW_INFO("%s, switch ch back to union_ch=%d\n", __func__, union_ch);
++			set_channel_bwmode(padapter, union_ch, union_offset, union_bw);
++
++			rtw_mi_buddy_issue_nulldata(padapter, NULL, 0, 3, 500);
++
++		} else if (pwdinfo->driver_interface == DRIVER_WEXT) {
++			if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE)) {
++				/*	Now, the driver stays on the AP's channel. */
++				/*	If the pwdinfo->ext_listen_period = 0, that means the P2P listen state is not available on listen channel. */
++				if (pwdinfo->ext_listen_period > 0) {
++					RTW_INFO("[%s] P2P_STATE_IDLE, ext_listen_period = %d\n", __FUNCTION__, pwdinfo->ext_listen_period);
++
++					if (union_ch != pwdinfo->listen_channel) {
++						/*	Will switch to listen channel so that need to send the NULL data with PW bit to AP. */
++						rtw_mi_buddy_issue_nulldata(padapter, NULL, 1, 3, 500);
++						set_channel_bwmode(padapter, pwdinfo->listen_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++					}
++
++					rtw_p2p_set_state(pwdinfo, P2P_STATE_LISTEN);
++
++					if (!rtw_mi_check_mlmeinfo_state(padapter, WIFI_FW_AP_STATE)) {
++						val8 = 1;
++						rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++					}
++					/*	Todo: To check the value of pwdinfo->ext_listen_period is equal to 0 or not. */
++					_set_timer(&pwdinfo->ap_p2p_switch_timer, pwdinfo->ext_listen_period);
++				}
++			} else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_LISTEN) ||
++				rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_FAIL) ||
++				(rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING) && pwdinfo->nego_req_info.benable == _FALSE) ||
++				rtw_p2p_chk_state(pwdinfo, P2P_STATE_RX_PROVISION_DIS_REQ)) {
++				/*	Now, the driver is in the listen state of P2P mode. */
++				RTW_INFO("[%s] P2P_STATE_IDLE, ext_listen_interval = %d\n", __FUNCTION__, pwdinfo->ext_listen_interval);
++
++				/*	Commented by Albert 2012/11/01 */
++				/*	If the AP's channel is the same as the listen channel, we should still be in the listen state */
++				/*	Other P2P device is still able to find this device out even this device is in the AP's channel. */
++				/*	So, configure this device to be able to receive the probe request frame and set it to listen state. */
++				if (union_ch != pwdinfo->listen_channel) {
++
++					set_channel_bwmode(padapter, union_ch, union_offset, union_bw);
++					if (!rtw_mi_check_status(padapter, MI_AP_MODE)) {
++						val8 = 0;
++						rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++					}
++					rtw_p2p_set_state(pwdinfo, P2P_STATE_IDLE);
++					rtw_mi_buddy_issue_nulldata(padapter, NULL, 0, 3, 500);
++				}
++
++				/*	Todo: To check the value of pwdinfo->ext_listen_interval is equal to 0 or not. */
++				_set_timer(&pwdinfo->ap_p2p_switch_timer, pwdinfo->ext_listen_interval);
++			} else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_OK)) {
++				/*	The driver had finished the P2P handshake successfully. */
++				val8 = 0;
++				rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++				set_channel_bwmode(padapter, union_ch, union_offset, union_bw);
++				rtw_mi_buddy_issue_nulldata(padapter, NULL, 0, 3, 500);
++			} else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_PROVISION_DIS_REQ)) {
++				val8 = 1;
++				set_channel_bwmode(padapter, pwdinfo->tx_prov_disc_info.peer_channel_num[0], HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++				rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++				issue_probereq_p2p(padapter, NULL);
++				_set_timer(&pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT);
++			} else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING) && pwdinfo->nego_req_info.benable == _TRUE) {
++				val8 = 1;
++				set_channel_bwmode(padapter, pwdinfo->nego_req_info.peer_channel_num[0], HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++				rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++				issue_probereq_p2p(padapter, NULL);
++				_set_timer(&pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT);
++			} else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_INVITE_REQ) && pwdinfo->invitereq_info.benable == _TRUE) {
++				/*
++				val8 = 1;
++				set_channel_bwmode(padapter, , HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++				rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++				issue_probereq_p2p(padapter, NULL);
++				_set_timer( &pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT );
++				*/
++			}
++		}
++	} else {
++		/* In p2p+softap. When in P2P_STATE_GONEGO_OK, not back to listen channel.*/
++		if (!rtw_p2p_chk_state(pwdinfo , P2P_STATE_GONEGO_OK) || padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++			set_channel_bwmode(padapter, pwdinfo->listen_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++		else
++			RTW_INFO("%s, buddy not linked, go nego ok, not back to listen channel\n", __func__);
++	}
++
++}
++#endif
++
++#ifdef CONFIG_IOCTL_CFG80211
++static void ro_ch_handler(_adapter *padapter)
++{
++	struct cfg80211_wifidirect_info *pcfg80211_wdinfo = &padapter->cfg80211_wdinfo;
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	u8 ch, bw, offset;
++
++	if (rtw_mi_get_ch_setting_union(padapter, &ch, &bw, &offset) != 0) {
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" back to linked/linking union - ch:%u, bw:%u, offset:%u\n",
++				 FUNC_ADPT_ARG(padapter), ch, bw, offset);
++	} else if (adapter_wdev_data(padapter)->p2p_enabled && pwdinfo->listen_channel) {
++		ch = pwdinfo->listen_channel;
++		bw = CHANNEL_WIDTH_20;
++		offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" back to listen ch - ch:%u, bw:%u, offset:%u\n",
++				 FUNC_ADPT_ARG(padapter), ch, bw, offset);
++	} else {
++		ch = pcfg80211_wdinfo->restore_channel;
++		bw = CHANNEL_WIDTH_20;
++		offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" back to restore ch - ch:%u, bw:%u, offset:%u\n",
++				 FUNC_ADPT_ARG(padapter), ch, bw, offset);
++	}
++
++	set_channel_bwmode(padapter, ch, offset, bw);
++
++	rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO("%s, role=%d, p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo));
++#endif
++
++	pcfg80211_wdinfo->is_ro_ch = _FALSE;
++	pcfg80211_wdinfo->last_ro_ch_time = rtw_get_current_time();
++
++	RTW_INFO("cfg80211_remain_on_channel_expired cookie:0x%llx, ch=%d, bw=%d, offset=%d\n"
++		 , pcfg80211_wdinfo->remain_on_ch_cookie
++		, rtw_get_oper_ch(padapter), rtw_get_oper_bw(padapter), rtw_get_oper_choffset(padapter));
++
++	rtw_cfg80211_remain_on_channel_expired(padapter,
++				       pcfg80211_wdinfo->remain_on_ch_cookie,
++				       &pcfg80211_wdinfo->remain_on_ch_channel,
++			       pcfg80211_wdinfo->remain_on_ch_type, GFP_KERNEL);
++
++}
++
++static void ro_ch_timer_process(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(adapter);
++
++	/* printk("%s\n", __FUNCTION__); */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	ATOMIC_SET(&pwdev_priv->ro_ch_to, 1);
++#endif
++
++	p2p_protocol_wk_cmd(adapter, P2P_RO_CH_WK);
++}
++
++static void rtw_change_p2pie_op_ch(_adapter *padapter, const u8 *frame_body, u32 len, u8 ch)
++{
++	u8 *ies, *p2p_ie;
++	u32 ies_len, p2p_ielen;
++
++	ies = (u8 *)(frame_body + _PUBLIC_ACTION_IE_OFFSET_);
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++
++	while (p2p_ie) {
++		u32	attr_contentlen = 0;
++		u8 *pattr = NULL;
++
++		/* Check P2P_ATTR_OPERATING_CH */
++		attr_contentlen = 0;
++		pattr = NULL;
++		pattr = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, (uint *)&attr_contentlen);
++		if (pattr != NULL)
++			*(pattr + 4) = ch;
++
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++	}
++}
++
++static void rtw_change_p2pie_ch_list(_adapter *padapter, const u8 *frame_body, u32 len, u8 ch)
++{
++	u8 *ies, *p2p_ie;
++	u32 ies_len, p2p_ielen;
++
++	ies = (u8 *)(frame_body + _PUBLIC_ACTION_IE_OFFSET_);
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++
++	while (p2p_ie) {
++		u32	attr_contentlen = 0;
++		u8 *pattr = NULL;
++
++		/* Check P2P_ATTR_CH_LIST */
++		pattr = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CH_LIST, NULL, (uint *)&attr_contentlen);
++		if (pattr != NULL) {
++			int i;
++			u32 num_of_ch;
++			u8 *pattr_temp = pattr + 3 ;
++
++			attr_contentlen -= 3;
++
++			while (attr_contentlen > 0) {
++				num_of_ch = *(pattr_temp + 1);
++
++				for (i = 0; i < num_of_ch; i++)
++					*(pattr_temp + 2 + i) = ch;
++
++				pattr_temp += (2 + num_of_ch);
++				attr_contentlen -= (2 + num_of_ch);
++			}
++		}
++
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++	}
++}
++
++static bool rtw_chk_p2pie_ch_list_with_buddy(_adapter *padapter, const u8 *frame_body, u32 len)
++{
++	bool fit = _FALSE;
++#ifdef CONFIG_CONCURRENT_MODE
++	u8 *ies, *p2p_ie;
++	u32 ies_len, p2p_ielen;
++	u8 union_ch = rtw_mi_get_union_chan(padapter);
++
++	ies = (u8 *)(frame_body + _PUBLIC_ACTION_IE_OFFSET_);
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++
++	while (p2p_ie) {
++		u32	attr_contentlen = 0;
++		u8 *pattr = NULL;
++
++		/* Check P2P_ATTR_CH_LIST */
++		pattr = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CH_LIST, NULL, (uint *)&attr_contentlen);
++		if (pattr != NULL) {
++			int i;
++			u32 num_of_ch;
++			u8 *pattr_temp = pattr + 3 ;
++
++			attr_contentlen -= 3;
++
++			while (attr_contentlen > 0) {
++				num_of_ch = *(pattr_temp + 1);
++
++				for (i = 0; i < num_of_ch; i++) {
++					if (*(pattr_temp + 2 + i) == union_ch) {
++						RTW_INFO(FUNC_ADPT_FMT" ch_list fit buddy_ch:%u\n", FUNC_ADPT_ARG(padapter), union_ch);
++						fit = _TRUE;
++						break;
++					}
++				}
++
++				pattr_temp += (2 + num_of_ch);
++				attr_contentlen -= (2 + num_of_ch);
++			}
++		}
++
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++	}
++#endif
++	return fit;
++}
++
++static bool rtw_chk_p2pie_op_ch_with_buddy(_adapter *padapter, const u8 *frame_body, u32 len)
++{
++	bool fit = _FALSE;
++#ifdef CONFIG_CONCURRENT_MODE
++	u8 *ies, *p2p_ie;
++	u32 ies_len, p2p_ielen;
++	u8 union_ch = rtw_mi_get_union_chan(padapter);
++
++	ies = (u8 *)(frame_body + _PUBLIC_ACTION_IE_OFFSET_);
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++
++	while (p2p_ie) {
++		u32	attr_contentlen = 0;
++		u8 *pattr = NULL;
++
++		/* Check P2P_ATTR_OPERATING_CH */
++		attr_contentlen = 0;
++		pattr = NULL;
++		pattr = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, (uint *)&attr_contentlen);
++		if (pattr != NULL) {
++			if (*(pattr + 4) == union_ch) {
++				RTW_INFO(FUNC_ADPT_FMT" op_ch fit buddy_ch:%u\n", FUNC_ADPT_ARG(padapter), union_ch);
++				fit = _TRUE;
++				break;
++			}
++		}
++
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++	}
++#endif
++	return fit;
++}
++
++static void rtw_cfg80211_adjust_p2pie_channel(_adapter *padapter, const u8 *frame_body, u32 len)
++{
++#ifdef CONFIG_CONCURRENT_MODE
++	u8 *ies, *p2p_ie;
++	u32 ies_len, p2p_ielen;
++	u8 union_ch = rtw_mi_get_union_chan(padapter);
++
++	ies = (u8 *)(frame_body + _PUBLIC_ACTION_IE_OFFSET_);
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++
++	while (p2p_ie) {
++		u32	attr_contentlen = 0;
++		u8 *pattr = NULL;
++
++		/* Check P2P_ATTR_CH_LIST */
++		pattr = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CH_LIST, NULL, (uint *)&attr_contentlen);
++		if (pattr != NULL) {
++			int i;
++			u32 num_of_ch;
++			u8 *pattr_temp = pattr + 3 ;
++
++			attr_contentlen -= 3;
++
++			while (attr_contentlen > 0) {
++				num_of_ch = *(pattr_temp + 1);
++
++				for (i = 0; i < num_of_ch; i++)
++					*(pattr_temp + 2 + i) = union_ch; /*forcing to the same channel*/
++
++				pattr_temp += (2 + num_of_ch);
++				attr_contentlen -= (2 + num_of_ch);
++			}
++		}
++
++		/* Check P2P_ATTR_OPERATING_CH */
++		attr_contentlen = 0;
++		pattr = NULL;
++		pattr = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, (uint *)&attr_contentlen);
++		if (pattr != NULL) {
++			*(pattr + 4) = union_ch; /*forcing to the same channel	*/
++		}
++
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++
++	}
++
++#endif
++}
++
++#ifdef CONFIG_WFD
++u32 rtw_xframe_build_wfd_ie(struct xmit_frame *xframe)
++{
++	_adapter *adapter = xframe->padapter;
++	struct wifidirect_info *wdinfo = &adapter->wdinfo;
++	u8 *frame = xframe->buf_addr + TXDESC_OFFSET;
++	u8 *frame_body = frame + sizeof(struct rtw_ieee80211_hdr_3addr);
++	u8 *frame_tail = frame + xframe->attrib.pktlen;
++	u8 category, action, OUI_Subtype, dialogToken = 0;
++	u32	wfdielen = 0;
++
++	category = frame_body[0];
++	if (category == RTW_WLAN_CATEGORY_PUBLIC) {
++		action = frame_body[1];
++		if (action == ACT_PUBLIC_VENDOR
++		    && _rtw_memcmp(frame_body + 2, P2P_OUI, 4) == _TRUE
++		   ) {
++			OUI_Subtype = frame_body[6];
++			dialogToken = frame_body[7];
++
++			switch (OUI_Subtype) {
++			case P2P_GO_NEGO_REQ:
++				wfdielen = build_nego_req_wfd_ie(wdinfo, frame_tail);
++				break;
++			case P2P_GO_NEGO_RESP:
++				wfdielen = build_nego_resp_wfd_ie(wdinfo, frame_tail);
++				break;
++			case P2P_GO_NEGO_CONF:
++				wfdielen = build_nego_confirm_wfd_ie(wdinfo, frame_tail);
++				break;
++			case P2P_INVIT_REQ:
++				wfdielen = build_invitation_req_wfd_ie(wdinfo, frame_tail);
++				break;
++			case P2P_INVIT_RESP:
++				wfdielen = build_invitation_resp_wfd_ie(wdinfo, frame_tail);
++				break;
++			case P2P_PROVISION_DISC_REQ:
++				wfdielen = build_provdisc_req_wfd_ie(wdinfo, frame_tail);
++				break;
++			case P2P_PROVISION_DISC_RESP:
++				wfdielen = build_provdisc_resp_wfd_ie(wdinfo, frame_tail);
++				break;
++			case P2P_DEVDISC_REQ:
++			case P2P_DEVDISC_RESP:
++			default:
++				break;
++			}
++
++		}
++	} else if (category == RTW_WLAN_CATEGORY_P2P) {
++		OUI_Subtype = frame_body[5];
++		dialogToken = frame_body[6];
++
++#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO("ACTION_CATEGORY_P2P: OUI=0x%x, OUI_Subtype=%d, dialogToken=%d\n"
++			, cpu_to_be32(*((u32 *)(frame_body + 1))), OUI_Subtype, dialogToken);
++#endif
++
++		switch (OUI_Subtype) {
++		case P2P_NOTICE_OF_ABSENCE:
++			break;
++		case P2P_PRESENCE_REQUEST:
++			break;
++		case P2P_PRESENCE_RESPONSE:
++			break;
++		case P2P_GO_DISC_REQUEST:
++			break;
++		default:
++			break;
++		}
++	} else
++		RTW_INFO("%s, action frame category=%d\n", __func__, category);
++
++	xframe->attrib.pktlen += wfdielen;
++
++	return wfdielen;
++}
++#endif /* CONFIG_WFD */
++
++bool rtw_xframe_del_wfd_ie(struct xmit_frame *xframe)
++{
++#define DBG_XFRAME_DEL_WFD_IE 0
++
++	_adapter *adapter = xframe->padapter;
++	u8 *frame = xframe->buf_addr + TXDESC_OFFSET;
++	u8 *frame_body = frame + sizeof(struct rtw_ieee80211_hdr_3addr);
++	u8 *frame_tail = frame + xframe->attrib.pktlen;
++	u8 category, action, OUI_Subtype;
++	u8 *ies = NULL;
++	uint ies_len_ori = 0;
++	uint ies_len = 0;
++
++	category = frame_body[0];
++	if (category == RTW_WLAN_CATEGORY_PUBLIC) {
++		action = frame_body[1];
++		if (action == ACT_PUBLIC_VENDOR
++		    && _rtw_memcmp(frame_body + 2, P2P_OUI, 4) == _TRUE
++		   ) {
++			OUI_Subtype = frame_body[6];
++
++			switch (OUI_Subtype) {
++			case P2P_GO_NEGO_REQ:
++			case P2P_GO_NEGO_RESP:
++			case P2P_GO_NEGO_CONF:
++			case P2P_INVIT_REQ:
++			case P2P_INVIT_RESP:
++			case P2P_PROVISION_DISC_REQ:
++			case P2P_PROVISION_DISC_RESP:
++				ies = frame_body + 8;
++				ies_len_ori = frame_tail - (frame_body + 8);
++				break;
++			}
++		}
++	}
++
++	if (ies && ies_len_ori) {
++		ies_len = rtw_del_wfd_ie(ies, ies_len_ori, DBG_XFRAME_DEL_WFD_IE ? __func__ : NULL);
++		xframe->attrib.pktlen -= (ies_len_ori - ies_len);
++	}
++
++	return ies_len_ori != ies_len;
++}
++
++/*
++* rtw_xframe_chk_wfd_ie -
++*
++*/
++void rtw_xframe_chk_wfd_ie(struct xmit_frame *xframe)
++{
++	_adapter *adapter = xframe->padapter;
++	u8 *frame = xframe->buf_addr + TXDESC_OFFSET;
++	u8 *frame_body = frame + sizeof(struct rtw_ieee80211_hdr_3addr);
++	u8 *frame_tail = frame + xframe->attrib.pktlen;
++
++	struct wifidirect_info *wdinfo = &adapter->wdinfo;
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	u8 build = 0;
++	u8 del = 0;
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		del = 1;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (_TRUE == wdinfo->wfd_info->wfd_enable)
++#endif
++		del = build = 1;
++
++	if (del)
++		rtw_xframe_del_wfd_ie(xframe);
++
++#ifdef CONFIG_WFD
++	if (build)
++		rtw_xframe_build_wfd_ie(xframe);
++#endif
++}
++
++u8 *dump_p2p_attr_ch_list(u8 *p2p_ie, uint p2p_ielen, u8 *buf, u32 buf_len)
++{
++	uint attr_contentlen = 0;
++	u8 *pattr = NULL;
++	int w_sz = 0;
++	u8 ch_cnt = 0;
++	u8 ch_list[40];
++	bool continuous = _FALSE;
++
++	pattr = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CH_LIST, NULL, &attr_contentlen);
++	if (pattr != NULL) {
++		int i, j;
++		u32 num_of_ch;
++		u8 *pattr_temp = pattr + 3 ;
++
++		attr_contentlen -= 3;
++
++		_rtw_memset(ch_list, 0, 40);
++
++		while (attr_contentlen > 0) {
++			num_of_ch = *(pattr_temp + 1);
++
++			for (i = 0; i < num_of_ch; i++) {
++				for (j = 0; j < ch_cnt; j++) {
++					if (ch_list[j] == *(pattr_temp + 2 + i))
++						break;
++				}
++				if (j >= ch_cnt)
++					ch_list[ch_cnt++] = *(pattr_temp + 2 + i);
++
++			}
++
++			pattr_temp += (2 + num_of_ch);
++			attr_contentlen -= (2 + num_of_ch);
++		}
++
++		for (j = 0; j < ch_cnt; j++) {
++			if (j == 0)
++				w_sz += snprintf(buf + w_sz, buf_len - w_sz, "%u", ch_list[j]);
++			else if (ch_list[j] - ch_list[j - 1] != 1)
++				w_sz += snprintf(buf + w_sz, buf_len - w_sz, ", %u", ch_list[j]);
++			else if (j != ch_cnt - 1 && ch_list[j + 1] - ch_list[j] == 1) {
++				/* empty */
++			} else
++				w_sz += snprintf(buf + w_sz, buf_len - w_sz, "-%u", ch_list[j]);
++		}
++	}
++	return buf;
++}
++
++/*
++ * return _TRUE if requester is GO, _FALSE if responder is GO
++ */
++bool rtw_p2p_nego_intent_compare(u8 req, u8 resp)
++{
++	if (req >> 1 == resp >> 1)
++		return  req & 0x01 ? _TRUE : _FALSE;
++	else if (req >> 1 > resp >> 1)
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++int rtw_p2p_check_frames(_adapter *padapter, const u8 *buf, u32 len, u8 tx)
++{
++	int is_p2p_frame = (-1);
++	unsigned char	*frame_body;
++	u8 category, action, OUI_Subtype, dialogToken = 0;
++	u8 *p2p_ie = NULL;
++	uint p2p_ielen = 0;
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(padapter);
++	int status = -1;
++	u8 ch_list_buf[128] = {'\0'};
++	int op_ch = -1;
++	int listen_ch = -1;
++	u8 intent = 0;
++
++	frame_body = (unsigned char *)(buf + sizeof(struct rtw_ieee80211_hdr_3addr));
++	category = frame_body[0];
++	/* just for check */
++	if (category == RTW_WLAN_CATEGORY_PUBLIC) {
++		action = frame_body[1];
++		if (action == ACT_PUBLIC_VENDOR
++		    && _rtw_memcmp(frame_body + 2, P2P_OUI, 4) == _TRUE
++		   ) {
++			OUI_Subtype = frame_body[6];
++			dialogToken = frame_body[7];
++			is_p2p_frame = OUI_Subtype;
++#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("ACTION_CATEGORY_PUBLIC: ACT_PUBLIC_VENDOR, OUI=0x%x, OUI_Subtype=%d, dialogToken=%d\n",
++				cpu_to_be32(*((u32 *)(frame_body + 2))), OUI_Subtype, dialogToken);
++#endif
++
++			p2p_ie = rtw_get_p2p_ie(
++				(u8 *)buf + sizeof(struct rtw_ieee80211_hdr_3addr) + _PUBLIC_ACTION_IE_OFFSET_,
++				len - sizeof(struct rtw_ieee80211_hdr_3addr) - _PUBLIC_ACTION_IE_OFFSET_,
++					 NULL, &p2p_ielen);
++
++			switch (OUI_Subtype) { /* OUI Subtype */
++				u8 *cont;
++				uint cont_len;
++			case P2P_GO_NEGO_REQ: {
++				struct rtw_wdev_nego_info *nego_info = &pwdev_priv->nego_info;
++
++				if (tx) {
++#ifdef CONFIG_DRV_ISSUE_PROV_REQ /* IOT FOR S2 */
++					if (pwdev_priv->provdisc_req_issued == _FALSE)
++						rtw_cfg80211_issue_p2p_provision_request(padapter, buf, len);
++#endif /* CONFIG_DRV_ISSUE_PROV_REQ */
++
++					/* pwdev_priv->provdisc_req_issued = _FALSE; */
++
++#if defined(CONFIG_CONCURRENT_MODE) && defined(CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT)
++					if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++						rtw_cfg80211_adjust_p2pie_channel(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr));
++#endif
++				}
++
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, &cont_len);
++				if (cont)
++					op_ch = *(cont + 4);
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_LISTEN_CH, NULL, &cont_len);
++				if (cont)
++					listen_ch = *(cont + 4);
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GO_INTENT, NULL, &cont_len);
++				if (cont)
++					intent = *cont;
++
++				if (nego_info->token != dialogToken)
++					rtw_wdev_nego_info_init(nego_info);
++
++				_rtw_memcpy(nego_info->peer_mac, tx ? GetAddr1Ptr(buf) : GetAddr2Ptr(buf), ETH_ALEN);
++				nego_info->active = tx ? 1 : 0;
++				nego_info->token = dialogToken;
++				nego_info->req_op_ch = op_ch;
++				nego_info->req_listen_ch = listen_ch;
++				nego_info->req_intent = intent;
++				nego_info->state = 0;
++
++				dump_p2p_attr_ch_list(p2p_ie, p2p_ielen, ch_list_buf, 128);
++				RTW_INFO("RTW_%s:P2P_GO_NEGO_REQ, dialogToken=%d, intent:%u%s, listen_ch:%d, op_ch:%d, ch_list:%s, full_ch_in_p2p_handshake:%d\n" ,
++					(tx == _TRUE) ? "Tx" : "Rx" , dialogToken , (intent >> 1) , intent & 0x1 ? "+" : "-" , listen_ch , op_ch , ch_list_buf ,
++					padapter->registrypriv.full_ch_in_p2p_handshake);
++
++				if (!tx) {
++#if defined(CONFIG_CONCURRENT_MODE) && defined(CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT)
++					if (rtw_mi_check_status(padapter, MI_LINKED)
++					    && rtw_chk_p2pie_ch_list_with_buddy(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr)) == _FALSE
++					    && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++						RTW_INFO(FUNC_ADPT_FMT" ch_list has no intersect with buddy\n", FUNC_ADPT_ARG(padapter));
++						rtw_change_p2pie_ch_list(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr), 0);
++					}
++#endif
++				}
++
++				break;
++			}
++			case P2P_GO_NEGO_RESP: {
++				struct rtw_wdev_nego_info *nego_info = &pwdev_priv->nego_info;
++
++				if (tx) {
++#if defined(CONFIG_CONCURRENT_MODE) && defined(CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT)
++					if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++						rtw_cfg80211_adjust_p2pie_channel(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr));
++#endif
++				}
++
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, &cont_len);
++				if (cont)
++					op_ch = *(cont + 4);
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GO_INTENT, NULL, &cont_len);
++				if (cont)
++					intent = *cont;
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, NULL, &cont_len);
++				if (cont)
++					status = *cont;
++
++				if (nego_info->token == dialogToken && nego_info->state == 0
++				    && _rtw_memcmp(nego_info->peer_mac, tx ? GetAddr1Ptr(buf) : GetAddr2Ptr(buf), ETH_ALEN) == _TRUE
++				   ) {
++					nego_info->status = (status == -1) ? 0xff : status;
++					nego_info->rsp_op_ch = op_ch;
++					nego_info->rsp_intent = intent;
++					nego_info->state = 1;
++					if (status != 0)
++						nego_info->token = 0; /* init */
++				}
++
++				dump_p2p_attr_ch_list(p2p_ie, p2p_ielen, ch_list_buf, 128);
++				RTW_INFO("RTW_%s:P2P_GO_NEGO_RESP, dialogToken=%d, intent:%u%s, status:%d, op_ch:%d, ch_list:%s\n",
++					(tx == _TRUE) ? "Tx" : "Rx", dialogToken, (intent >> 1), intent & 0x1 ? "+" : "-", status, op_ch, ch_list_buf);
++
++				if (!tx) {
++					pwdev_priv->provdisc_req_issued = _FALSE;
++#if defined(CONFIG_CONCURRENT_MODE) && defined(CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT)
++					if (rtw_mi_check_status(padapter, MI_LINKED)
++					    && rtw_chk_p2pie_ch_list_with_buddy(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr)) == _FALSE
++					    && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++						RTW_INFO(FUNC_ADPT_FMT" ch_list has no intersect with buddy\n", FUNC_ADPT_ARG(padapter));
++						rtw_change_p2pie_ch_list(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr), 0);
++					}
++#endif
++				}
++
++				break;
++			}
++			case P2P_GO_NEGO_CONF: {
++				struct rtw_wdev_nego_info *nego_info = &pwdev_priv->nego_info;
++				bool is_go = _FALSE;
++
++				if (tx) {
++#if defined(CONFIG_CONCURRENT_MODE) && defined(CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT)
++					if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++						rtw_cfg80211_adjust_p2pie_channel(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr));
++#endif
++				}
++
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, &cont_len);
++				if (cont)
++					op_ch = *(cont + 4);
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, NULL, &cont_len);
++				if (cont)
++					status = *cont;
++
++				if (nego_info->token == dialogToken && nego_info->state == 1
++				    && _rtw_memcmp(nego_info->peer_mac, tx ? GetAddr1Ptr(buf) : GetAddr2Ptr(buf), ETH_ALEN) == _TRUE
++				   ) {
++					nego_info->status = (status == -1) ? 0xff : status;
++					nego_info->conf_op_ch = (op_ch == -1) ? 0 : op_ch;
++					nego_info->state = 2;
++
++					if (status == 0) {
++						if (rtw_p2p_nego_intent_compare(nego_info->req_intent, nego_info->rsp_intent) ^ !tx)
++							is_go = _TRUE;
++					}
++
++					nego_info->token = 0; /* init */
++				}
++
++				dump_p2p_attr_ch_list(p2p_ie, p2p_ielen, ch_list_buf, 128);
++				RTW_INFO("RTW_%s:P2P_GO_NEGO_CONF, dialogToken=%d, status:%d, op_ch:%d, ch_list:%s\n",
++					(tx == _TRUE) ? "Tx" : "Rx", dialogToken, status, op_ch, ch_list_buf);
++
++				if (!tx) {
++				}
++
++				break;
++			}
++			case P2P_INVIT_REQ: {
++				struct rtw_wdev_invit_info *invit_info = &pwdev_priv->invit_info;
++				int flags = -1;
++
++				if (tx) {
++#if defined(CONFIG_CONCURRENT_MODE) && defined(CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT)
++					if (rtw_mi_check_status(padapter, MI_LINKED)
++					    && padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++						rtw_cfg80211_adjust_p2pie_channel(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr));
++#endif
++				}
++
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_INVITATION_FLAGS, NULL, &cont_len);
++				if (cont)
++					flags = *cont;
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, &cont_len);
++				if (cont)
++					op_ch = *(cont + 4);
++
++				if (invit_info->token != dialogToken)
++					rtw_wdev_invit_info_init(invit_info);
++
++				_rtw_memcpy(invit_info->peer_mac, tx ? GetAddr1Ptr(buf) : GetAddr2Ptr(buf), ETH_ALEN);
++				invit_info->active = tx ? 1 : 0;
++				invit_info->token = dialogToken;
++				invit_info->flags = (flags == -1) ? 0x0 : flags;
++				invit_info->req_op_ch = op_ch;
++				invit_info->state = 0;
++
++				dump_p2p_attr_ch_list(p2p_ie, p2p_ielen, ch_list_buf, 128);
++				RTW_INFO("RTW_%s:P2P_INVIT_REQ, dialogToken=%d, flags:0x%02x, op_ch:%d, ch_list:%s\n",
++					(tx == _TRUE) ? "Tx" : "Rx", dialogToken, flags, op_ch, ch_list_buf);
++
++				if (!tx) {
++#if defined(CONFIG_CONCURRENT_MODE) && defined(CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT)
++					if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++						if (op_ch != -1 && rtw_chk_p2pie_op_ch_with_buddy(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr)) == _FALSE) {
++							RTW_INFO(FUNC_ADPT_FMT" op_ch:%u has no intersect with buddy\n", FUNC_ADPT_ARG(padapter), op_ch);
++							rtw_change_p2pie_ch_list(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr), 0);
++						} else if (rtw_chk_p2pie_ch_list_with_buddy(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr)) == _FALSE) {
++							RTW_INFO(FUNC_ADPT_FMT" ch_list has no intersect with buddy\n", FUNC_ADPT_ARG(padapter));
++							rtw_change_p2pie_ch_list(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr), 0);
++						}
++					}
++#endif
++				}
++
++				break;
++			}
++			case P2P_INVIT_RESP: {
++				struct rtw_wdev_invit_info *invit_info = &pwdev_priv->invit_info;
++
++				if (tx) {
++#if defined(CONFIG_CONCURRENT_MODE) && defined(CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT)
++					if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++						rtw_cfg80211_adjust_p2pie_channel(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr));
++#endif
++				}
++
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, NULL, &cont_len);
++				if (cont) {
++#ifdef CONFIG_P2P_INVITE_IOT
++					if (tx && *cont == 7) {
++						RTW_INFO("TX_P2P_INVITE_RESP, status is no common channel, change to unknown group\n");
++						*cont = 8; /* unknow group status */
++					}
++#endif /* CONFIG_P2P_INVITE_IOT */
++					status = *cont;
++				}
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, &cont_len);
++				if (cont)
++					op_ch = *(cont + 4);
++
++				if (invit_info->token == dialogToken && invit_info->state == 0
++				    && _rtw_memcmp(invit_info->peer_mac, tx ? GetAddr1Ptr(buf) : GetAddr2Ptr(buf), ETH_ALEN) == _TRUE
++				   ) {
++					invit_info->status = (status == -1) ? 0xff : status;
++					invit_info->rsp_op_ch = op_ch;
++					invit_info->state = 1;
++					invit_info->token = 0; /* init */
++				}
++
++				dump_p2p_attr_ch_list(p2p_ie, p2p_ielen, ch_list_buf, 128);
++				RTW_INFO("RTW_%s:P2P_INVIT_RESP, dialogToken=%d, status:%d, op_ch:%d, ch_list:%s\n",
++					(tx == _TRUE) ? "Tx" : "Rx", dialogToken, status, op_ch, ch_list_buf);
++
++				if (!tx) {
++				}
++
++				break;
++			}
++			case P2P_DEVDISC_REQ:
++				RTW_INFO("RTW_%s:P2P_DEVDISC_REQ, dialogToken=%d\n", (tx == _TRUE) ? "Tx" : "Rx", dialogToken);
++				break;
++			case P2P_DEVDISC_RESP:
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, NULL, &cont_len);
++				RTW_INFO("RTW_%s:P2P_DEVDISC_RESP, dialogToken=%d, status:%d\n", (tx == _TRUE) ? "Tx" : "Rx", dialogToken, cont ? *cont : -1);
++				break;
++			case P2P_PROVISION_DISC_REQ: {
++				size_t frame_body_len = len - sizeof(struct rtw_ieee80211_hdr_3addr);
++				u8 *p2p_ie;
++				uint p2p_ielen = 0;
++				uint contentlen = 0;
++
++				RTW_INFO("RTW_%s:P2P_PROVISION_DISC_REQ, dialogToken=%d\n", (tx == _TRUE) ? "Tx" : "Rx", dialogToken);
++
++				/* if(tx) */
++				{
++					pwdev_priv->provdisc_req_issued = _FALSE;
++
++					p2p_ie = rtw_get_p2p_ie(frame_body + _PUBLIC_ACTION_IE_OFFSET_, frame_body_len - _PUBLIC_ACTION_IE_OFFSET_, NULL, &p2p_ielen);
++					if (p2p_ie) {
++
++						if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GROUP_ID, NULL, &contentlen)) {
++							pwdev_priv->provdisc_req_issued = _FALSE;/* case: p2p_client join p2p GO */
++						} else {
++#ifdef CONFIG_DEBUG_CFG80211
++							RTW_INFO("provdisc_req_issued is _TRUE\n");
++#endif /*CONFIG_DEBUG_CFG80211*/
++							pwdev_priv->provdisc_req_issued = _TRUE;/* case: p2p_devices connection before Nego req. */
++						}
++
++					}
++				}
++			}
++			break;
++			case P2P_PROVISION_DISC_RESP:
++				RTW_INFO("RTW_%s:P2P_PROVISION_DISC_RESP, dialogToken=%d\n", (tx == _TRUE) ? "Tx" : "Rx", dialogToken);
++				break;
++			default:
++				RTW_INFO("RTW_%s:OUI_Subtype=%d, dialogToken=%d\n", (tx == _TRUE) ? "Tx" : "Rx", OUI_Subtype, dialogToken);
++				break;
++			}
++
++		}
++
++	} else if (category == RTW_WLAN_CATEGORY_P2P) {
++		OUI_Subtype = frame_body[5];
++		dialogToken = frame_body[6];
++
++#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO("ACTION_CATEGORY_P2P: OUI=0x%x, OUI_Subtype=%d, dialogToken=%d\n",
++			cpu_to_be32(*((u32 *)(frame_body + 1))), OUI_Subtype, dialogToken);
++#endif
++
++		is_p2p_frame = OUI_Subtype;
++
++		switch (OUI_Subtype) {
++		case P2P_NOTICE_OF_ABSENCE:
++			RTW_INFO("RTW_%s:P2P_NOTICE_OF_ABSENCE, dialogToken=%d\n", (tx == _TRUE) ? "TX" : "RX", dialogToken);
++			break;
++		case P2P_PRESENCE_REQUEST:
++			RTW_INFO("RTW_%s:P2P_PRESENCE_REQUEST, dialogToken=%d\n", (tx == _TRUE) ? "TX" : "RX", dialogToken);
++			break;
++		case P2P_PRESENCE_RESPONSE:
++			RTW_INFO("RTW_%s:P2P_PRESENCE_RESPONSE, dialogToken=%d\n", (tx == _TRUE) ? "TX" : "RX", dialogToken);
++			break;
++		case P2P_GO_DISC_REQUEST:
++			RTW_INFO("RTW_%s:P2P_GO_DISC_REQUEST, dialogToken=%d\n", (tx == _TRUE) ? "TX" : "RX", dialogToken);
++			break;
++		default:
++			RTW_INFO("RTW_%s:OUI_Subtype=%d, dialogToken=%d\n", (tx == _TRUE) ? "TX" : "RX", OUI_Subtype, dialogToken);
++			break;
++		}
++
++	} else
++		RTW_INFO("RTW_%s:action frame category=%d\n", (tx == _TRUE) ? "TX" : "RX", category);
++
++	return is_p2p_frame;
++}
++
++void rtw_init_cfg80211_wifidirect_info(_adapter	*padapter)
++{
++	struct cfg80211_wifidirect_info *pcfg80211_wdinfo = &padapter->cfg80211_wdinfo;
++
++	_rtw_memset(pcfg80211_wdinfo, 0x00, sizeof(struct cfg80211_wifidirect_info));
++
++	_init_timer(&pcfg80211_wdinfo->remain_on_ch_timer, padapter->pnetdev, ro_ch_timer_process, padapter);
++}
++#endif /* CONFIG_IOCTL_CFG80211	 */
++
++void p2p_protocol_wk_hdl(_adapter *padapter, int intCmdType)
++{
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	switch (intCmdType) {
++	case P2P_FIND_PHASE_WK: {
++		find_phase_handler(padapter);
++		break;
++	}
++	case P2P_RESTORE_STATE_WK: {
++		restore_p2p_state_handler(padapter);
++		break;
++	}
++	case P2P_PRE_TX_PROVDISC_PROCESS_WK: {
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			p2p_concurrent_handler(padapter);
++		else
++			pre_tx_provdisc_handler(padapter);
++#else
++		pre_tx_provdisc_handler(padapter);
++#endif
++		break;
++	}
++	case P2P_PRE_TX_INVITEREQ_PROCESS_WK: {
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			p2p_concurrent_handler(padapter);
++		else
++			pre_tx_invitereq_handler(padapter);
++#else
++		pre_tx_invitereq_handler(padapter);
++#endif
++		break;
++	}
++	case P2P_PRE_TX_NEGOREQ_PROCESS_WK: {
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			p2p_concurrent_handler(padapter);
++		else
++			pre_tx_negoreq_handler(padapter);
++#else
++		pre_tx_negoreq_handler(padapter);
++#endif
++		break;
++	}
++#ifdef CONFIG_P2P
++#ifdef CONFIG_CONCURRENT_MODE
++	case P2P_AP_P2P_CH_SWITCH_PROCESS_WK: {
++		p2p_concurrent_handler(padapter);
++		break;
++	}
++#endif
++#endif
++#ifdef CONFIG_IOCTL_CFG80211
++	case P2P_RO_CH_WK: {
++		ro_ch_handler(padapter);
++		break;
++	}
++#endif /* CONFIG_IOCTL_CFG80211		 */
++
++	}
++
++}
++
++int process_p2p_cross_connect_ie(PADAPTER padapter, u8 *IEs, u32 IELength)
++{
++	int ret = _TRUE;
++	u8 *ies;
++	u32 ies_len;
++	u8 *p2p_ie;
++	u32	p2p_ielen = 0;
++	u8	p2p_attr[MAX_P2P_IE_LEN] = { 0x00 };/* NoA length should be n*(13) + 2 */
++	u32	attr_contentlen = 0;
++
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	if (IELength <= _BEACON_IE_OFFSET_)
++		return ret;
++
++	ies = IEs + _BEACON_IE_OFFSET_;
++	ies_len = IELength - _BEACON_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++
++	while (p2p_ie) {
++		/* Get P2P Manageability IE. */
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_MANAGEABILITY, p2p_attr, &attr_contentlen)) {
++			if ((p2p_attr[0] & (BIT(0) | BIT(1))) == 0x01)
++				ret = _FALSE;
++			break;
++		}
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++	}
++
++	return ret;
++}
++
++#ifdef CONFIG_P2P_PS
++void process_p2p_ps_ie(PADAPTER padapter, u8 *IEs, u32 IELength)
++{
++	u8 *ies;
++	u32 ies_len;
++	u8 *p2p_ie;
++	u32	p2p_ielen = 0;
++	u8	noa_attr[MAX_P2P_IE_LEN] = { 0x00 };/* NoA length should be n*(13) + 2 */
++	u32	attr_contentlen = 0;
++
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8	find_p2p = _FALSE, find_p2p_ps = _FALSE;
++	u8	noa_offset, noa_num, noa_index;
++
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->hw_port != HW_PORT0)
++		return;
++#endif
++	if (IELength <= _BEACON_IE_OFFSET_)
++		return;
++
++	ies = IEs + _BEACON_IE_OFFSET_;
++	ies_len = IELength - _BEACON_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++
++	while (p2p_ie) {
++		find_p2p = _TRUE;
++		/* Get Notice of Absence IE. */
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_NOA, noa_attr, &attr_contentlen)) {
++			find_p2p_ps = _TRUE;
++			noa_index = noa_attr[0];
++
++			if ((pwdinfo->p2p_ps_mode == P2P_PS_NONE) ||
++			    (noa_index != pwdinfo->noa_index)) { /* if index change, driver should reconfigure related setting. */
++				pwdinfo->noa_index = noa_index;
++				pwdinfo->opp_ps = noa_attr[1] >> 7;
++				pwdinfo->ctwindow = noa_attr[1] & 0x7F;
++
++				noa_offset = 2;
++				noa_num = 0;
++				/* NoA length should be n*(13) + 2 */
++				if (attr_contentlen > 2) {
++					while (noa_offset < attr_contentlen) {
++						/* _rtw_memcpy(&wifidirect_info->noa_count[noa_num], &noa_attr[noa_offset], 1); */
++						pwdinfo->noa_count[noa_num] = noa_attr[noa_offset];
++						noa_offset += 1;
++
++						_rtw_memcpy(&pwdinfo->noa_duration[noa_num], &noa_attr[noa_offset], 4);
++						noa_offset += 4;
++
++						_rtw_memcpy(&pwdinfo->noa_interval[noa_num], &noa_attr[noa_offset], 4);
++						noa_offset += 4;
++
++						_rtw_memcpy(&pwdinfo->noa_start_time[noa_num], &noa_attr[noa_offset], 4);
++						noa_offset += 4;
++
++						noa_num++;
++					}
++				}
++				pwdinfo->noa_num = noa_num;
++
++				if (pwdinfo->opp_ps == 1) {
++					pwdinfo->p2p_ps_mode = P2P_PS_CTWINDOW;
++					/* driver should wait LPS for entering CTWindow */
++					if (adapter_to_pwrctl(padapter)->bFwCurrentInPSMode == _TRUE)
++						p2p_ps_wk_cmd(padapter, P2P_PS_ENABLE, 1);
++				} else if (pwdinfo->noa_num > 0) {
++					pwdinfo->p2p_ps_mode = P2P_PS_NOA;
++					p2p_ps_wk_cmd(padapter, P2P_PS_ENABLE, 1);
++				} else if (pwdinfo->p2p_ps_mode > P2P_PS_NONE)
++					p2p_ps_wk_cmd(padapter, P2P_PS_DISABLE, 1);
++			}
++
++			break; /* find target, just break. */
++		}
++
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++
++	}
++
++	if (find_p2p == _TRUE) {
++		if ((pwdinfo->p2p_ps_mode > P2P_PS_NONE) && (find_p2p_ps == _FALSE))
++			p2p_ps_wk_cmd(padapter, P2P_PS_DISABLE, 1);
++	}
++
++}
++
++void p2p_ps_wk_hdl(_adapter *padapter, u8 p2p_ps_state)
++{
++	struct pwrctrl_priv		*pwrpriv = adapter_to_pwrctl(padapter);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	/* Pre action for p2p state */
++	switch (p2p_ps_state) {
++	case P2P_PS_DISABLE:
++		pwdinfo->p2p_ps_state = p2p_ps_state;
++
++		rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_P2P_PS_OFFLOAD, (u8 *)(&p2p_ps_state));
++
++		pwdinfo->noa_index = 0;
++		pwdinfo->ctwindow = 0;
++		pwdinfo->opp_ps = 0;
++		pwdinfo->noa_num = 0;
++		pwdinfo->p2p_ps_mode = P2P_PS_NONE;
++		if (pwrpriv->bFwCurrentInPSMode == _TRUE) {
++			if (pwrpriv->smart_ps == 0) {
++				pwrpriv->smart_ps = 2;
++				rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_PWRMODE, (u8 *)(&(pwrpriv->pwr_mode)));
++			}
++		}
++		break;
++	case P2P_PS_ENABLE:
++		if (pwdinfo->p2p_ps_mode > P2P_PS_NONE) {
++#ifdef CONFIG_MCC_MODE
++			if (MCC_EN(padapter)) {
++				if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)) {
++					RTW_INFO("P2P PS enble under MCC\n");
++					rtw_warn_on(1);
++				}
++
++			}
++#endif /* CONFIG_MCC_MODE */
++			pwdinfo->p2p_ps_state = p2p_ps_state;
++
++			if (pwdinfo->ctwindow > 0) {
++				if (pwrpriv->smart_ps != 0) {
++					pwrpriv->smart_ps = 0;
++					RTW_INFO("%s(): Enter CTW, change SmartPS\n", __FUNCTION__);
++					rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_PWRMODE, (u8 *)(&(pwrpriv->pwr_mode)));
++				}
++			}
++			rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_P2P_PS_OFFLOAD, (u8 *)(&p2p_ps_state));
++		}
++		break;
++	case P2P_PS_SCAN:
++	case P2P_PS_SCAN_DONE:
++	case P2P_PS_ALLSTASLEEP:
++		if (pwdinfo->p2p_ps_mode > P2P_PS_NONE) {
++			pwdinfo->p2p_ps_state = p2p_ps_state;
++			rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_P2P_PS_OFFLOAD, (u8 *)(&p2p_ps_state));
++		}
++		break;
++	default:
++		break;
++	}
++
++}
++
++u8 p2p_ps_wk_cmd(_adapter *padapter, u8 p2p_ps_state, u8 enqueue)
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)
++#ifdef CONFIG_CONCURRENT_MODE
++	    || (padapter->hw_port != HW_PORT0)
++#endif
++	   )
++		return res;
++
++	if (enqueue) {
++		ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (ph2c == NULL) {
++			res = _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++		if (pdrvextra_cmd_parm == NULL) {
++			rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++			res = _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm->ec_id = P2P_PS_WK_CID;
++		pdrvextra_cmd_parm->type = p2p_ps_state;
++		pdrvextra_cmd_parm->size = 0;
++		pdrvextra_cmd_parm->pbuf = NULL;
++
++		init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	} else
++		p2p_ps_wk_hdl(padapter, p2p_ps_state);
++
++exit:
++
++
++	return res;
++
++}
++#endif /* CONFIG_P2P_PS */
++
++static void reset_ch_sitesurvey_timer_process(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct	wifidirect_info		*pwdinfo = &adapter->wdinfo;
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++
++	RTW_INFO("[%s] In\n", __FUNCTION__);
++	/*	Reset the operation channel information */
++	pwdinfo->rx_invitereq_info.operation_ch[0] = 0;
++#ifdef CONFIG_P2P_OP_CHK_SOCIAL_CH
++	pwdinfo->rx_invitereq_info.operation_ch[1] = 0;
++	pwdinfo->rx_invitereq_info.operation_ch[2] = 0;
++	pwdinfo->rx_invitereq_info.operation_ch[3] = 0;
++#endif /* CONFIG_P2P_OP_CHK_SOCIAL_CH */
++	pwdinfo->rx_invitereq_info.scan_op_ch_only = 0;
++}
++
++static void reset_ch_sitesurvey_timer_process2(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct	wifidirect_info		*pwdinfo = &adapter->wdinfo;
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++
++	RTW_INFO("[%s] In\n", __FUNCTION__);
++	/*	Reset the operation channel information */
++	pwdinfo->p2p_info.operation_ch[0] = 0;
++#ifdef CONFIG_P2P_OP_CHK_SOCIAL_CH
++	pwdinfo->p2p_info.operation_ch[1] = 0;
++	pwdinfo->p2p_info.operation_ch[2] = 0;
++	pwdinfo->p2p_info.operation_ch[3] = 0;
++#endif /* CONFIG_P2P_OP_CHK_SOCIAL_CH */
++	pwdinfo->p2p_info.scan_op_ch_only = 0;
++}
++
++static void restore_p2p_state_timer_process(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct	wifidirect_info		*pwdinfo = &adapter->wdinfo;
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++
++	p2p_protocol_wk_cmd(adapter, P2P_RESTORE_STATE_WK);
++}
++
++static void pre_tx_scan_timer_process(void *FunctionContext)
++{
++	_adapter							*adapter = (_adapter *) FunctionContext;
++	struct	wifidirect_info				*pwdinfo = &adapter->wdinfo;
++	_irqL							irqL;
++	struct mlme_priv					*pmlmepriv = &adapter->mlmepriv;
++	u8								_status = 0;
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_PROVISION_DIS_REQ)) {
++		if (_TRUE == pwdinfo->tx_prov_disc_info.benable) {	/*	the provision discovery request frame is trigger to send or not */
++			p2p_protocol_wk_cmd(adapter, P2P_PRE_TX_PROVDISC_PROCESS_WK);
++			/* issue_probereq_p2p(adapter, NULL); */
++			/* _set_timer( &pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT ); */
++		}
++	} else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING)) {
++		if (_TRUE == pwdinfo->nego_req_info.benable)
++			p2p_protocol_wk_cmd(adapter, P2P_PRE_TX_NEGOREQ_PROCESS_WK);
++	} else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_INVITE_REQ)) {
++		if (_TRUE == pwdinfo->invitereq_info.benable)
++			p2p_protocol_wk_cmd(adapter, P2P_PRE_TX_INVITEREQ_PROCESS_WK);
++	} else
++		RTW_INFO("[%s] p2p_state is %d, ignore!!\n", __FUNCTION__, rtw_p2p_state(pwdinfo));
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++
++static void find_phase_timer_process(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct	wifidirect_info		*pwdinfo = &adapter->wdinfo;
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++
++	adapter->wdinfo.find_phase_state_exchange_cnt++;
++
++	p2p_protocol_wk_cmd(adapter, P2P_FIND_PHASE_WK);
++}
++
++#ifdef CONFIG_CONCURRENT_MODE
++void ap_p2p_switch_timer_process(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct	wifidirect_info		*pwdinfo = &adapter->wdinfo;
++#ifdef CONFIG_IOCTL_CFG80211
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(adapter);
++#endif
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	ATOMIC_SET(&pwdev_priv->switch_ch_to, 1);
++#endif
++
++	p2p_protocol_wk_cmd(adapter, P2P_AP_P2P_CH_SWITCH_PROCESS_WK);
++}
++#endif
++
++void reset_global_wifidirect_info(_adapter *padapter)
++{
++	struct wifidirect_info	*pwdinfo;
++
++	pwdinfo = &padapter->wdinfo;
++	pwdinfo->persistent_supported = 0;
++	pwdinfo->session_available = _TRUE;
++	rtw_tdls_wfd_enable(padapter, 0);
++	pwdinfo->wfd_tdls_weaksec = _TRUE;
++}
++
++#ifdef CONFIG_WFD
++int rtw_init_wifi_display_info(_adapter *padapter)
++{
++	int	res = _SUCCESS;
++	struct wifi_display_info *pwfd_info = &padapter->wfd_info;
++
++	/* Used in P2P and TDLS */
++	pwfd_info->init_rtsp_ctrlport = 554;
++#ifdef CONFIG_IOCTL_CFG80211
++	pwfd_info->rtsp_ctrlport = 0;
++#else
++	pwfd_info->rtsp_ctrlport = pwfd_info->init_rtsp_ctrlport; /* set non-zero value for legacy wfd */
++#endif
++	pwfd_info->tdls_rtsp_ctrlport = 0;
++	pwfd_info->peer_rtsp_ctrlport = 0;	/*	Reset to 0 */
++	pwfd_info->wfd_enable = _FALSE;
++	pwfd_info->wfd_device_type = WFD_DEVINFO_PSINK;
++	pwfd_info->scan_result_type = SCAN_RESULT_P2P_ONLY;
++
++	/* Used in P2P */
++	pwfd_info->peer_session_avail = _TRUE;
++	pwfd_info->wfd_pc = _FALSE;
++
++	/* Used in TDLS */
++	_rtw_memset(pwfd_info->ip_address, 0x00, 4);
++	_rtw_memset(pwfd_info->peer_ip_address, 0x00, 4);
++	return res;
++
++}
++
++inline void rtw_wfd_enable(_adapter *adapter, bool on)
++{
++	struct wifi_display_info *wfdinfo = &adapter->wfd_info;
++
++	if (on) {
++		wfdinfo->rtsp_ctrlport = wfdinfo->init_rtsp_ctrlport;
++		wfdinfo->wfd_enable = _TRUE;
++
++	} else {
++		wfdinfo->wfd_enable = _FALSE;
++		wfdinfo->rtsp_ctrlport = 0;
++	}
++}
++
++inline void rtw_wfd_set_ctrl_port(_adapter *adapter, u16 port)
++{
++	struct wifi_display_info *wfdinfo = &adapter->wfd_info;
++
++	wfdinfo->init_rtsp_ctrlport = port;
++	if (wfdinfo->wfd_enable == _TRUE)
++		wfdinfo->rtsp_ctrlport = port;
++	if (adapter->wdinfo.wfd_tdls_enable == 1)
++		wfdinfo->tdls_rtsp_ctrlport = port;
++}
++
++inline void rtw_tdls_wfd_enable(_adapter *adapter, bool on)
++{
++	struct wifi_display_info *wfdinfo = &adapter->wfd_info;
++
++	if (on) {
++		wfdinfo->tdls_rtsp_ctrlport = wfdinfo->init_rtsp_ctrlport;
++		adapter->wdinfo.wfd_tdls_enable = 1;
++
++	} else {
++		adapter->wdinfo.wfd_tdls_enable = 0;
++		wfdinfo->tdls_rtsp_ctrlport = 0;
++	}
++}
++
++u32 rtw_append_beacon_wfd_ie(_adapter *adapter, u8 *pbuf)
++{
++	struct wifidirect_info *wdinfo = &adapter->wdinfo;
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	u8 build_ie_by_self = 0;
++	u32 len = 0;
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (_TRUE == wdinfo->wfd_info->wfd_enable)
++#endif
++		build_ie_by_self = 1;
++
++	if (build_ie_by_self)
++		len = build_beacon_wfd_ie(wdinfo, pbuf);
++#ifdef CONFIG_IOCTL_CFG80211
++	else if (mlme->wfd_beacon_ie && mlme->wfd_beacon_ie_len > 0) {
++		len = mlme->wfd_beacon_ie_len;
++		_rtw_memcpy(pbuf, mlme->wfd_beacon_ie, len);
++	}
++#endif
++
++exit:
++	return len;
++}
++
++u32 rtw_append_probe_req_wfd_ie(_adapter *adapter, u8 *pbuf)
++{
++	struct wifidirect_info *wdinfo = &adapter->wdinfo;
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	u8 build_ie_by_self = 0;
++	u32 len = 0;
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (_TRUE == wdinfo->wfd_info->wfd_enable)
++#endif
++		build_ie_by_self = 1;
++
++	if (build_ie_by_self)
++		len = build_probe_req_wfd_ie(wdinfo, pbuf);
++#ifdef CONFIG_IOCTL_CFG80211
++	else if (mlme->wfd_probe_req_ie && mlme->wfd_probe_req_ie_len > 0) {
++		len = mlme->wfd_probe_req_ie_len;
++		_rtw_memcpy(pbuf, mlme->wfd_probe_req_ie, len);
++	}
++#endif
++
++exit:
++	return len;
++}
++
++u32 rtw_append_probe_resp_wfd_ie(_adapter *adapter, u8 *pbuf)
++{
++	struct wifidirect_info *wdinfo = &adapter->wdinfo;
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	u8 build_ie_by_self = 0;
++	u32 len = 0;
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (_TRUE == wdinfo->wfd_info->wfd_enable)
++#endif
++		build_ie_by_self = 1;
++
++	if (build_ie_by_self)
++		len = build_probe_resp_wfd_ie(wdinfo, pbuf, 0);
++#ifdef CONFIG_IOCTL_CFG80211
++	else if (mlme->wfd_probe_resp_ie && mlme->wfd_probe_resp_ie_len > 0) {
++		len = mlme->wfd_probe_resp_ie_len;
++		_rtw_memcpy(pbuf, mlme->wfd_probe_resp_ie, len);
++	}
++#endif
++
++exit:
++	return len;
++}
++
++u32 rtw_append_assoc_req_wfd_ie(_adapter *adapter, u8 *pbuf)
++{
++	struct wifidirect_info *wdinfo = &adapter->wdinfo;
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	u8 build_ie_by_self = 0;
++	u32 len = 0;
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (_TRUE == wdinfo->wfd_info->wfd_enable)
++#endif
++		build_ie_by_self = 1;
++
++	if (build_ie_by_self)
++		len = build_assoc_req_wfd_ie(wdinfo, pbuf);
++#ifdef CONFIG_IOCTL_CFG80211
++	else if (mlme->wfd_assoc_req_ie && mlme->wfd_assoc_req_ie_len > 0) {
++		len = mlme->wfd_assoc_req_ie_len;
++		_rtw_memcpy(pbuf, mlme->wfd_assoc_req_ie, len);
++	}
++#endif
++
++exit:
++	return len;
++}
++
++u32 rtw_append_assoc_resp_wfd_ie(_adapter *adapter, u8 *pbuf)
++{
++	struct wifidirect_info *wdinfo = &adapter->wdinfo;
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	u8 build_ie_by_self = 0;
++	u32 len = 0;
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (_TRUE == wdinfo->wfd_info->wfd_enable)
++#endif
++		build_ie_by_self = 1;
++
++	if (build_ie_by_self)
++		len = build_assoc_resp_wfd_ie(wdinfo, pbuf);
++#ifdef CONFIG_IOCTL_CFG80211
++	else if (mlme->wfd_assoc_resp_ie && mlme->wfd_assoc_resp_ie_len > 0) {
++		len = mlme->wfd_assoc_resp_ie_len;
++		_rtw_memcpy(pbuf, mlme->wfd_assoc_resp_ie, len);
++	}
++#endif
++
++exit:
++	return len;
++}
++
++#endif /* CONFIG_WFD */
++
++void rtw_init_wifidirect_timers(_adapter *padapter)
++{
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++
++	_init_timer(&pwdinfo->find_phase_timer, padapter->pnetdev, find_phase_timer_process, padapter);
++	_init_timer(&pwdinfo->restore_p2p_state_timer, padapter->pnetdev, restore_p2p_state_timer_process, padapter);
++	_init_timer(&pwdinfo->pre_tx_scan_timer, padapter->pnetdev, pre_tx_scan_timer_process, padapter);
++	_init_timer(&pwdinfo->reset_ch_sitesurvey, padapter->pnetdev, reset_ch_sitesurvey_timer_process, padapter);
++	_init_timer(&pwdinfo->reset_ch_sitesurvey2, padapter->pnetdev, reset_ch_sitesurvey_timer_process2, padapter);
++#ifdef CONFIG_CONCURRENT_MODE
++	_init_timer(&pwdinfo->ap_p2p_switch_timer, padapter->pnetdev, ap_p2p_switch_timer_process, padapter);
++#endif
++}
++
++void rtw_init_wifidirect_addrs(_adapter *padapter, u8 *dev_addr, u8 *iface_addr)
++{
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++
++	/*init device&interface address */
++	if (dev_addr)
++		_rtw_memcpy(pwdinfo->device_addr, dev_addr, ETH_ALEN);
++	if (iface_addr)
++		_rtw_memcpy(pwdinfo->interface_addr, iface_addr, ETH_ALEN);
++#endif
++}
++
++void init_wifidirect_info(_adapter *padapter, enum P2P_ROLE role)
++{
++	struct wifidirect_info	*pwdinfo;
++#ifdef CONFIG_WFD
++	struct wifi_display_info	*pwfd_info = &padapter->wfd_info;
++#endif
++	u8 union_ch = 0;
++	pwdinfo = &padapter->wdinfo;
++
++	pwdinfo->padapter = padapter;
++
++	/*	1, 6, 11 are the social channel defined in the WiFi Direct specification. */
++	pwdinfo->social_chan[0] = 1;
++	pwdinfo->social_chan[1] = 6;
++	pwdinfo->social_chan[2] = 11;
++	pwdinfo->social_chan[3] = 0;	/*	channel 0 for scanning ending in site survey function. */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED))
++		union_ch = rtw_mi_get_union_chan(padapter);
++
++	if ((union_ch != 0) &&
++	    ((union_ch == 1) || (union_ch == 6) || (union_ch == 11))
++	   ) {
++		/*	Use the AP's channel as the listen channel */
++		/*	This will avoid the channel switch between AP's channel and listen channel. */
++		pwdinfo->listen_channel = union_ch;
++	} else
++#endif /* CONFIG_CONCURRENT_MODE */
++	{
++		/*	Use the channel 11 as the listen channel */
++		pwdinfo->listen_channel = 11;
++	}
++
++	if (role == P2P_ROLE_DEVICE) {
++		rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_IDLE);
++		else
++#endif
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_LISTEN);
++
++		pwdinfo->intent = 1;
++		rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_LISTEN);
++	} else if (role == P2P_ROLE_CLIENT) {
++		rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++		pwdinfo->intent = 1;
++		rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_GONEGO_OK);
++	} else if (role == P2P_ROLE_GO) {
++		rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++		pwdinfo->intent = 15;
++		rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_GONEGO_OK);
++	}
++
++	/*	Use the OFDM rate in the P2P probe response frame. ( 6(B), 9(B), 12, 18, 24, 36, 48, 54 )	 */
++	pwdinfo->support_rate[0] = 0x8c;	/*	6(B) */
++	pwdinfo->support_rate[1] = 0x92;	/*	9(B) */
++	pwdinfo->support_rate[2] = 0x18;	/*	12 */
++	pwdinfo->support_rate[3] = 0x24;	/*	18 */
++	pwdinfo->support_rate[4] = 0x30;	/*	24 */
++	pwdinfo->support_rate[5] = 0x48;	/*	36 */
++	pwdinfo->support_rate[6] = 0x60;	/*	48 */
++	pwdinfo->support_rate[7] = 0x6c;	/*	54 */
++
++	_rtw_memcpy((void *) pwdinfo->p2p_wildcard_ssid, "DIRECT-", 7);
++
++	_rtw_memset(pwdinfo->device_name, 0x00, WPS_MAX_DEVICE_NAME_LEN);
++	pwdinfo->device_name_len = 0;
++
++	_rtw_memset(&pwdinfo->invitereq_info, 0x00, sizeof(struct tx_invite_req_info));
++	pwdinfo->invitereq_info.token = 3;	/*	Token used for P2P invitation request frame. */
++
++	_rtw_memset(&pwdinfo->inviteresp_info, 0x00, sizeof(struct tx_invite_resp_info));
++	pwdinfo->inviteresp_info.token = 0;
++
++	pwdinfo->profileindex = 0;
++	_rtw_memset(&pwdinfo->profileinfo[0], 0x00, sizeof(struct profile_info) * P2P_MAX_PERSISTENT_GROUP_NUM);
++
++	rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_NONE);
++
++	pwdinfo->listen_dwell = (u8)((rtw_get_current_time() % 3) + 1);
++	/* RTW_INFO( "[%s] listen_dwell time is %d00ms\n", __FUNCTION__, pwdinfo->listen_dwell ); */
++
++	_rtw_memset(&pwdinfo->tx_prov_disc_info, 0x00, sizeof(struct tx_provdisc_req_info));
++	pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_NONE;
++
++	_rtw_memset(&pwdinfo->nego_req_info, 0x00, sizeof(struct tx_nego_req_info));
++
++	pwdinfo->device_password_id_for_nego = WPS_DPID_PBC;
++	pwdinfo->negotiation_dialog_token = 1;
++
++	_rtw_memset(pwdinfo->nego_ssid, 0x00, WLAN_SSID_MAXLEN);
++	pwdinfo->nego_ssidlen = 0;
++
++	pwdinfo->ui_got_wps_info = P2P_NO_WPSINFO;
++#ifdef CONFIG_WFD
++	pwdinfo->supported_wps_cm = WPS_CONFIG_METHOD_DISPLAY  | WPS_CONFIG_METHOD_PBC;
++	pwdinfo->wfd_info = pwfd_info;
++#else
++	pwdinfo->supported_wps_cm = WPS_CONFIG_METHOD_DISPLAY | WPS_CONFIG_METHOD_PBC | WPS_CONFIG_METHOD_KEYPAD;
++#endif /* CONFIG_WFD */
++	pwdinfo->channel_list_attr_len = 0;
++	_rtw_memset(pwdinfo->channel_list_attr, 0x00, 100);
++
++	_rtw_memset(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, 0x00, 4);
++	_rtw_memset(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, '0', 3);
++	_rtw_memset(&pwdinfo->groupid_info, 0x00, sizeof(struct group_id_info));
++#ifdef CONFIG_CONCURRENT_MODE
++#ifdef CONFIG_IOCTL_CFG80211
++	pwdinfo->ext_listen_interval = 1000; /* The interval to be available with legacy AP during p2p0-find/scan */
++	pwdinfo->ext_listen_period = 3000; /* The time period to be available for P2P during nego */
++#else /* !CONFIG_IOCTL_CFG80211 */
++	/* pwdinfo->ext_listen_interval = 3000; */
++	/* pwdinfo->ext_listen_period = 400; */
++	pwdinfo->ext_listen_interval = 1000;
++	pwdinfo->ext_listen_period = 1000;
++#endif /* !CONFIG_IOCTL_CFG80211 */
++#endif
++
++	/* Commented by Kurt 20130319
++	 * For WiDi purpose: Use CFG80211 interface but controled WFD/RDS frame by driver itself. */
++#ifdef CONFIG_IOCTL_CFG80211
++	pwdinfo->driver_interface = DRIVER_CFG80211;
++#else
++	pwdinfo->driver_interface = DRIVER_WEXT;
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	pwdinfo->wfd_tdls_enable = 0;
++	_rtw_memset(pwdinfo->p2p_peer_interface_addr, 0x00, ETH_ALEN);
++	_rtw_memset(pwdinfo->p2p_peer_device_addr, 0x00, ETH_ALEN);
++
++	pwdinfo->rx_invitereq_info.operation_ch[0] = 0;
++	pwdinfo->rx_invitereq_info.operation_ch[1] = 0;	/*	Used to indicate the scan end in site survey function */
++#ifdef CONFIG_P2P_OP_CHK_SOCIAL_CH
++	pwdinfo->rx_invitereq_info.operation_ch[2] = 0;
++	pwdinfo->rx_invitereq_info.operation_ch[3] = 0;
++	pwdinfo->rx_invitereq_info.operation_ch[4] = 0;
++#endif /* CONFIG_P2P_OP_CHK_SOCIAL_CH */
++	pwdinfo->rx_invitereq_info.scan_op_ch_only = 0;
++	pwdinfo->p2p_info.operation_ch[0] = 0;
++	pwdinfo->p2p_info.operation_ch[1] = 0;			/*	Used to indicate the scan end in site survey function */
++#ifdef CONFIG_P2P_OP_CHK_SOCIAL_CH
++	pwdinfo->p2p_info.operation_ch[2] = 0;
++	pwdinfo->p2p_info.operation_ch[3] = 0;
++	pwdinfo->p2p_info.operation_ch[4] = 0;
++#endif /* CONFIG_P2P_OP_CHK_SOCIAL_CH */
++	pwdinfo->p2p_info.scan_op_ch_only = 0;
++}
++
++#ifdef CONFIG_DBG_P2P
++
++/**
++ * rtw_p2p_role_txt - Get the p2p role name as a text string
++ * @role: P2P role
++ * Returns: The state name as a printable text string
++ */
++const char *rtw_p2p_role_txt(enum P2P_ROLE role)
++{
++	switch (role) {
++	case P2P_ROLE_DISABLE:
++		return "P2P_ROLE_DISABLE";
++	case P2P_ROLE_DEVICE:
++		return "P2P_ROLE_DEVICE";
++	case P2P_ROLE_CLIENT:
++		return "P2P_ROLE_CLIENT";
++	case P2P_ROLE_GO:
++		return "P2P_ROLE_GO";
++	default:
++		return "UNKNOWN";
++	}
++}
++
++/**
++ * rtw_p2p_state_txt - Get the p2p state name as a text string
++ * @state: P2P state
++ * Returns: The state name as a printable text string
++ */
++const char *rtw_p2p_state_txt(enum P2P_STATE state)
++{
++	switch (state) {
++	case P2P_STATE_NONE:
++		return "P2P_STATE_NONE";
++	case P2P_STATE_IDLE:
++		return "P2P_STATE_IDLE";
++	case P2P_STATE_LISTEN:
++		return "P2P_STATE_LISTEN";
++	case P2P_STATE_SCAN:
++		return "P2P_STATE_SCAN";
++	case P2P_STATE_FIND_PHASE_LISTEN:
++		return "P2P_STATE_FIND_PHASE_LISTEN";
++	case P2P_STATE_FIND_PHASE_SEARCH:
++		return "P2P_STATE_FIND_PHASE_SEARCH";
++	case P2P_STATE_TX_PROVISION_DIS_REQ:
++		return "P2P_STATE_TX_PROVISION_DIS_REQ";
++	case P2P_STATE_RX_PROVISION_DIS_RSP:
++		return "P2P_STATE_RX_PROVISION_DIS_RSP";
++	case P2P_STATE_RX_PROVISION_DIS_REQ:
++		return "P2P_STATE_RX_PROVISION_DIS_REQ";
++	case P2P_STATE_GONEGO_ING:
++		return "P2P_STATE_GONEGO_ING";
++	case P2P_STATE_GONEGO_OK:
++		return "P2P_STATE_GONEGO_OK";
++	case P2P_STATE_GONEGO_FAIL:
++		return "P2P_STATE_GONEGO_FAIL";
++	case P2P_STATE_RECV_INVITE_REQ_MATCH:
++		return "P2P_STATE_RECV_INVITE_REQ_MATCH";
++	case P2P_STATE_PROVISIONING_ING:
++		return "P2P_STATE_PROVISIONING_ING";
++	case P2P_STATE_PROVISIONING_DONE:
++		return "P2P_STATE_PROVISIONING_DONE";
++	case P2P_STATE_TX_INVITE_REQ:
++		return "P2P_STATE_TX_INVITE_REQ";
++	case P2P_STATE_RX_INVITE_RESP_OK:
++		return "P2P_STATE_RX_INVITE_RESP_OK";
++	case P2P_STATE_RECV_INVITE_REQ_DISMATCH:
++		return "P2P_STATE_RECV_INVITE_REQ_DISMATCH";
++	case P2P_STATE_RECV_INVITE_REQ_GO:
++		return "P2P_STATE_RECV_INVITE_REQ_GO";
++	case P2P_STATE_RECV_INVITE_REQ_JOIN:
++		return "P2P_STATE_RECV_INVITE_REQ_JOIN";
++	case P2P_STATE_RX_INVITE_RESP_FAIL:
++		return "P2P_STATE_RX_INVITE_RESP_FAIL";
++	case P2P_STATE_RX_INFOR_NOREADY:
++		return "P2P_STATE_RX_INFOR_NOREADY";
++	case P2P_STATE_TX_INFOR_NOREADY:
++		return "P2P_STATE_TX_INFOR_NOREADY";
++	default:
++		return "UNKNOWN";
++	}
++}
++
++void dbg_rtw_p2p_set_state(struct wifidirect_info *wdinfo, enum P2P_STATE state, const char *caller, int line)
++{
++	if (!_rtw_p2p_chk_state(wdinfo, state)) {
++		enum P2P_STATE old_state = _rtw_p2p_state(wdinfo);
++		_rtw_p2p_set_state(wdinfo, state);
++		RTW_INFO("[CONFIG_DBG_P2P]%s:%d set_state from %s to %s\n", caller, line
++			, rtw_p2p_state_txt(old_state), rtw_p2p_state_txt(_rtw_p2p_state(wdinfo))
++			);
++	} else {
++		RTW_INFO("[CONFIG_DBG_P2P]%s:%d set_state to same state %s\n", caller, line
++			 , rtw_p2p_state_txt(_rtw_p2p_state(wdinfo))
++			);
++	}
++}
++void dbg_rtw_p2p_set_pre_state(struct wifidirect_info *wdinfo, enum P2P_STATE state, const char *caller, int line)
++{
++	if (_rtw_p2p_pre_state(wdinfo) != state) {
++		enum P2P_STATE old_state = _rtw_p2p_pre_state(wdinfo);
++		_rtw_p2p_set_pre_state(wdinfo, state);
++		RTW_INFO("[CONFIG_DBG_P2P]%s:%d set_pre_state from %s to %s\n", caller, line
++			, rtw_p2p_state_txt(old_state), rtw_p2p_state_txt(_rtw_p2p_pre_state(wdinfo))
++			);
++	} else {
++		RTW_INFO("[CONFIG_DBG_P2P]%s:%d set_pre_state to same state %s\n", caller, line
++			 , rtw_p2p_state_txt(_rtw_p2p_pre_state(wdinfo))
++			);
++	}
++}
++#if 0
++void dbg_rtw_p2p_restore_state(struct wifidirect_info *wdinfo, const char *caller, int line)
++{
++	if (wdinfo->pre_p2p_state != -1) {
++		RTW_INFO("[CONFIG_DBG_P2P]%s:%d restore from %s to %s\n", caller, line
++			, p2p_state_str[wdinfo->p2p_state], p2p_state_str[wdinfo->pre_p2p_state]
++			);
++		_rtw_p2p_restore_state(wdinfo);
++	} else {
++		RTW_INFO("[CONFIG_DBG_P2P]%s:%d restore no pre state, cur state %s\n", caller, line
++			 , p2p_state_str[wdinfo->p2p_state]
++			);
++	}
++}
++#endif
++void dbg_rtw_p2p_set_role(struct wifidirect_info *wdinfo, enum P2P_ROLE role, const char *caller, int line)
++{
++	if (wdinfo->role != role) {
++		enum P2P_ROLE old_role = wdinfo->role;
++		_rtw_p2p_set_role(wdinfo, role);
++		RTW_INFO("[CONFIG_DBG_P2P]%s:%d set_role from %s to %s\n", caller, line
++			, rtw_p2p_role_txt(old_role), rtw_p2p_role_txt(wdinfo->role)
++			);
++	} else {
++		RTW_INFO("[CONFIG_DBG_P2P]%s:%d set_role to same role %s\n", caller, line
++			 , rtw_p2p_role_txt(wdinfo->role)
++			);
++	}
++}
++#endif /* CONFIG_DBG_P2P */
++
++
++int rtw_p2p_enable(_adapter *padapter, enum P2P_ROLE role)
++{
++	int ret = _SUCCESS;
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++
++	if (role == P2P_ROLE_DEVICE || role == P2P_ROLE_CLIENT || role == P2P_ROLE_GO) {
++		u8 channel, ch_offset;
++		u16 bwmode;
++
++#ifdef CONFIG_CONCURRENT_MODE
++		/*	Commented by Albert 2011/12/30 */
++		/*	The driver just supports 1 P2P group operation. */
++		/*	So, this function will do nothing if the buddy adapter had enabled the P2P function. */
++		/*if(!rtw_p2p_chk_state(pbuddy_wdinfo, P2P_STATE_NONE))
++			return ret;*/
++		/*The buddy adapter had enabled the P2P function.*/
++		if (rtw_mi_buddy_stay_in_p2p_mode(padapter))
++			return ret;
++#endif /* CONFIG_CONCURRENT_MODE */
++
++		/* leave IPS/Autosuspend */
++		if (_FAIL == rtw_pwr_wakeup(padapter)) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		/*	Added by Albert 2011/03/22 */
++		/*	In the P2P mode, the driver should not support the b mode. */
++		/*	So, the Tx packet shouldn't use the CCK rate */
++		update_tx_basic_rate(padapter, WIRELESS_11AGN);
++
++		/* Enable P2P function */
++		init_wifidirect_info(padapter, role);
++
++		rtw_hal_set_odm_var(padapter, HAL_ODM_P2P_STATE, NULL, _TRUE);
++#ifdef CONFIG_WFD
++		if (hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++			rtw_hal_set_odm_var(padapter, HAL_ODM_WIFI_DISPLAY_STATE, NULL, _TRUE);
++#endif
++
++	} else if (role == P2P_ROLE_DISABLE) {
++#ifdef CONFIG_INTEL_WIDI
++		if (padapter->mlmepriv.p2p_reject_disable == _TRUE)
++			return ret;
++#endif /* CONFIG_INTEL_WIDI */
++
++#ifdef CONFIG_IOCTL_CFG80211
++		if (padapter->wdinfo.driver_interface == DRIVER_CFG80211)
++			adapter_wdev_data(padapter)->p2p_enabled = _FALSE;
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++
++		/* Disable P2P function */
++		if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++			_cancel_timer_ex(&pwdinfo->find_phase_timer);
++			_cancel_timer_ex(&pwdinfo->restore_p2p_state_timer);
++			_cancel_timer_ex(&pwdinfo->pre_tx_scan_timer);
++			_cancel_timer_ex(&pwdinfo->reset_ch_sitesurvey);
++			_cancel_timer_ex(&pwdinfo->reset_ch_sitesurvey2);
++			reset_ch_sitesurvey_timer_process(padapter);
++			reset_ch_sitesurvey_timer_process2(padapter);
++#ifdef CONFIG_CONCURRENT_MODE
++			_cancel_timer_ex(&pwdinfo->ap_p2p_switch_timer);
++#endif
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_NONE);
++			rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_NONE);
++			rtw_p2p_set_role(pwdinfo, P2P_ROLE_DISABLE);
++			_rtw_memset(&pwdinfo->rx_prov_disc_info, 0x00, sizeof(struct rx_provdisc_req_info));
++
++			/* Remove profiles in wifidirect_info structure. */
++			_rtw_memset(&pwdinfo->profileinfo[0], 0x00, sizeof(struct profile_info) * P2P_MAX_PERSISTENT_GROUP_NUM);
++			pwdinfo->profileindex = 0;
++		}
++
++		rtw_hal_set_odm_var(padapter, HAL_ODM_P2P_STATE, NULL, _FALSE);
++#ifdef CONFIG_WFD
++		if (hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++			rtw_hal_set_odm_var(padapter, HAL_ODM_WIFI_DISPLAY_STATE, NULL, _FALSE);
++#endif
++
++		if (_FAIL == rtw_pwr_wakeup(padapter)) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		/* Restore to initial setting. */
++		update_tx_basic_rate(padapter, padapter->registrypriv.wireless_mode);
++
++#ifdef CONFIG_INTEL_WIDI
++		rtw_reset_widi_info(padapter);
++#endif /* CONFIG_INTEL_WIDI */
++
++		/* For WiDi purpose. */
++#ifdef CONFIG_IOCTL_CFG80211
++		pwdinfo->driver_interface = DRIVER_CFG80211;
++#else
++		pwdinfo->driver_interface = DRIVER_WEXT;
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	}
++
++exit:
++	return ret;
++}
++
++#endif /* CONFIG_P2P */
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_pwrctrl.c b/drivers/net/wireless/rtl8723du/core/rtw_pwrctrl.c
+new file mode 100644
+index 0000000..6e0b1da
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_pwrctrl.c
+@@ -0,0 +1,2476 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_PWRCTRL_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++#include <hal_com_h2c.h>
++
++int rtw_fw_ps_state(PADAPTER padapter)
++{
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	int ret = _FAIL, dont_care = 0;
++	u16 fw_ps_state = 0;
++	u32 start_time;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct registry_priv  *registry_par = &padapter->registrypriv;
++
++	if (registry_par->check_fw_ps != 1)
++		return _SUCCESS;
++
++	_enter_pwrlock(&pwrpriv->check_32k_lock);
++
++	if (RTW_CANNOT_RUN(padapter)) {
++		RTW_INFO("%s: bSurpriseRemoved=%s , hw_init_completed=%d, bDriverStopped=%s\n", __func__
++			 , rtw_is_surprise_removed(padapter) ? "True" : "False"
++			 , rtw_get_hw_init_completed(padapter)
++			 , rtw_is_drv_stopped(padapter) ? "True" : "False");
++		goto exit_fw_ps_state;
++	}
++	rtw_hal_set_hwreg(padapter, HW_VAR_SET_REQ_FW_PS, (u8 *)&dont_care);
++	{
++		/* 4. if 0x88[7]=1, driver set cmd to leave LPS/IPS. */
++		/* Else, hw will keep in active mode. */
++		/* debug info: */
++		/* 0x88[7] = 32kpermission, */
++		/* 0x88[6:0] = current_ps_state */
++		/* 0x89[7:0] = last_rpwm */
++
++		rtw_hal_get_hwreg(padapter, HW_VAR_FW_PS_STATE, (u8 *)&fw_ps_state);
++
++		if ((fw_ps_state & 0x80) == 0)
++			ret = _SUCCESS;
++		else {
++			pdbgpriv->dbg_poll_fail_cnt++;
++			RTW_INFO("%s: fw_ps_state=%04x\n", __FUNCTION__, fw_ps_state);
++		}
++	}
++
++
++exit_fw_ps_state:
++	_exit_pwrlock(&pwrpriv->check_32k_lock);
++	return ret;
++}
++
++#ifdef CONFIG_IPS
++void _ips_enter(_adapter *padapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++
++	pwrpriv->bips_processing = _TRUE;
++
++	/* syn ips_mode with request */
++	pwrpriv->ips_mode = pwrpriv->ips_mode_req;
++
++	pwrpriv->ips_enter_cnts++;
++	RTW_INFO("==>ips_enter cnts:%d\n", pwrpriv->ips_enter_cnts);
++
++	if (rf_off == pwrpriv->change_rfpwrstate) {
++		pwrpriv->bpower_saving = _TRUE;
++		RTW_PRINT("nolinked power save enter\n");
++
++		if (pwrpriv->ips_mode == IPS_LEVEL_2)
++			pwrpriv->bkeepfwalive = _TRUE;
++
++		rtw_ips_pwr_down(padapter);
++		pwrpriv->rf_pwrstate = rf_off;
++	}
++	pwrpriv->bips_processing = _FALSE;
++
++}
++
++void ips_enter(_adapter *padapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++
++
++#ifdef CONFIG_BT_COEXIST
++	rtw_btcoex_IpsNotify(padapter, pwrpriv->ips_mode_req);
++#endif /* CONFIG_BT_COEXIST */
++
++	_enter_pwrlock(&pwrpriv->lock);
++	_ips_enter(padapter);
++	_exit_pwrlock(&pwrpriv->lock);
++}
++
++int _ips_leave(_adapter *padapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	int result = _SUCCESS;
++
++	if ((pwrpriv->rf_pwrstate == rf_off) && (!pwrpriv->bips_processing)) {
++		pwrpriv->bips_processing = _TRUE;
++		pwrpriv->change_rfpwrstate = rf_on;
++		pwrpriv->ips_leave_cnts++;
++		RTW_INFO("==>ips_leave cnts:%d\n", pwrpriv->ips_leave_cnts);
++
++		result = rtw_ips_pwr_up(padapter);
++		if (result == _SUCCESS)
++			pwrpriv->rf_pwrstate = rf_on;
++		RTW_PRINT("nolinked power save leave\n");
++
++		RTW_INFO("==> ips_leave.....LED(0x%08x)...\n", rtw_read32(padapter, 0x4c));
++		pwrpriv->bips_processing = _FALSE;
++
++		pwrpriv->bkeepfwalive = _FALSE;
++		pwrpriv->bpower_saving = _FALSE;
++	}
++
++	return result;
++}
++
++int ips_leave(_adapter *padapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	int ret;
++
++	if (!is_primary_adapter(padapter))
++		return _SUCCESS;
++
++	_enter_pwrlock(&pwrpriv->lock);
++	ret = _ips_leave(padapter);
++#ifdef DBG_CHECK_FW_PS_STATE
++	if (rtw_fw_ps_state(padapter) == _FAIL) {
++		RTW_INFO("ips leave doesn't leave 32k\n");
++		pdbgpriv->dbg_leave_ips_fail_cnt++;
++	}
++#endif /* DBG_CHECK_FW_PS_STATE */
++	_exit_pwrlock(&pwrpriv->lock);
++
++	if (_SUCCESS == ret)
++		ODM_DMReset(&GET_HAL_DATA(padapter)->odmpriv);
++
++#ifdef CONFIG_BT_COEXIST
++	if (_SUCCESS == ret)
++		rtw_btcoex_IpsNotify(padapter, IPS_NONE);
++#endif /* CONFIG_BT_COEXIST */
++
++	return ret;
++}
++#endif /* CONFIG_IPS */
++
++#ifdef CONFIG_AUTOSUSPEND
++	extern void autosuspend_enter(_adapter *padapter);
++	extern int autoresume_enter(_adapter *padapter);
++#endif
++
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++	int rtw_hw_suspend(_adapter *padapter);
++	int rtw_hw_resume(_adapter *padapter);
++#endif
++
++bool rtw_pwr_unassociated_idle(_adapter *adapter)
++{
++	u8 i;
++	_adapter *iface;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct xmit_priv *pxmit_priv = &adapter->xmitpriv;
++	struct mlme_priv *pmlmepriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo;
++#ifdef CONFIG_IOCTL_CFG80211
++	struct cfg80211_wifidirect_info *pcfg80211_wdinfo;
++#endif
++#endif
++
++	bool ret = _FALSE;
++
++	if (adapter_to_pwrctl(adapter)->bpower_saving == _TRUE) {
++		/* RTW_INFO("%s: already in LPS or IPS mode\n", __func__); */
++		goto exit;
++	}
++
++	if (adapter_to_pwrctl(adapter)->ips_deny_time >= rtw_get_current_time()) {
++		/* RTW_INFO("%s ips_deny_time\n", __func__); */
++		goto exit;
++	}
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++			pmlmepriv = &(iface->mlmepriv);
++#ifdef CONFIG_P2P
++			pwdinfo = &(iface->wdinfo);
++#ifdef CONFIG_IOCTL_CFG80211
++			pcfg80211_wdinfo = &iface->cfg80211_wdinfo;
++#endif
++#endif
++			if (check_fwstate(pmlmepriv, WIFI_ASOC_STATE | WIFI_SITE_MONITOR)
++			    || check_fwstate(pmlmepriv, WIFI_UNDER_LINKING | WIFI_UNDER_WPS)
++			    || check_fwstate(pmlmepriv, WIFI_AP_STATE)
++			    || check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE | WIFI_ADHOC_STATE)
++#if defined(CONFIG_P2P) && defined(CONFIG_IOCTL_CFG80211)
++			    || pcfg80211_wdinfo->is_ro_ch
++#elif defined(CONFIG_P2P)
++			    || rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE)
++			    || rtw_p2p_chk_state(pwdinfo, P2P_STATE_LISTEN)
++#endif
++#if defined(CONFIG_P2P) && defined(CONFIG_IOCTL_CFG80211)
++			    || rtw_get_passing_time_ms(pcfg80211_wdinfo->last_ro_ch_time) < 3000
++#endif
++			   )
++				goto exit;
++
++		}
++	}
++
++#if (MP_DRIVER == 1)
++	if (adapter->registrypriv.mp_mode == 1)
++		goto exit;
++#endif
++
++#ifdef CONFIG_INTEL_PROXIM
++	if (adapter->proximity.proxim_on == _TRUE)
++		return;
++#endif
++
++	if (pxmit_priv->free_xmitbuf_cnt != NR_XMITBUFF ||
++	    pxmit_priv->free_xmit_extbuf_cnt != NR_XMIT_EXTBUFF) {
++		RTW_PRINT("There are some pkts to transmit\n");
++		RTW_PRINT("free_xmitbuf_cnt: %d, free_xmit_extbuf_cnt: %d\n",
++			pxmit_priv->free_xmitbuf_cnt, pxmit_priv->free_xmit_extbuf_cnt);
++		goto exit;
++	}
++
++	ret = _TRUE;
++
++exit:
++	return ret;
++}
++
++
++/*
++ * ATTENTION:
++ *	rtw_ps_processor() doesn't handle LPS.
++ */
++void rtw_ps_processor(_adapter *padapter)
++{
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++	rt_rf_power_state rfpwrstate;
++#endif /* SUPPORT_HW_RFOFF_DETECTED */
++	u32 ps_deny = 0;
++
++	_enter_pwrlock(&adapter_to_pwrctl(padapter)->lock);
++	ps_deny = rtw_ps_deny_get(padapter);
++	_exit_pwrlock(&adapter_to_pwrctl(padapter)->lock);
++	if (ps_deny != 0) {
++		RTW_INFO(FUNC_ADPT_FMT ": ps_deny=0x%08X, skip power save!\n",
++			 FUNC_ADPT_ARG(padapter), ps_deny);
++		goto exit;
++	}
++
++	if (pwrpriv->bInSuspend == _TRUE) { /* system suspend or autosuspend */
++		pdbgpriv->dbg_ps_insuspend_cnt++;
++		RTW_INFO("%s, pwrpriv->bInSuspend == _TRUE ignore this process\n", __FUNCTION__);
++		return;
++	}
++
++	pwrpriv->ps_processing = _TRUE;
++
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++	if (pwrpriv->bips_processing == _TRUE)
++		goto exit;
++
++	/* RTW_INFO("==> fw report state(0x%x)\n",rtw_read8(padapter,0x1ca));	 */
++	if (pwrpriv->bHWPwrPindetect) {
++#ifdef CONFIG_AUTOSUSPEND
++		if (padapter->registrypriv.usbss_enable) {
++			if (pwrpriv->rf_pwrstate == rf_on) {
++				if (padapter->net_closed == _TRUE)
++					pwrpriv->ps_flag = _TRUE;
++
++				rfpwrstate = RfOnOffDetect(padapter);
++				RTW_INFO("@@@@- #1  %s==> rfstate:%s\n", __FUNCTION__, (rfpwrstate == rf_on) ? "rf_on" : "rf_off");
++				if (rfpwrstate != pwrpriv->rf_pwrstate) {
++					if (rfpwrstate == rf_off) {
++						pwrpriv->change_rfpwrstate = rf_off;
++
++						pwrpriv->bkeepfwalive = _TRUE;
++						pwrpriv->brfoffbyhw = _TRUE;
++
++						autosuspend_enter(padapter);
++					}
++				}
++			}
++		} else
++#endif /* CONFIG_AUTOSUSPEND */
++		{
++			rfpwrstate = RfOnOffDetect(padapter);
++			RTW_INFO("@@@@- #2  %s==> rfstate:%s\n", __FUNCTION__, (rfpwrstate == rf_on) ? "rf_on" : "rf_off");
++
++			if (rfpwrstate != pwrpriv->rf_pwrstate) {
++				if (rfpwrstate == rf_off) {
++					pwrpriv->change_rfpwrstate = rf_off;
++					pwrpriv->brfoffbyhw = _TRUE;
++					rtw_hw_suspend(padapter);
++				} else {
++					pwrpriv->change_rfpwrstate = rf_on;
++					rtw_hw_resume(padapter);
++				}
++				RTW_INFO("current rf_pwrstate(%s)\n", (pwrpriv->rf_pwrstate == rf_off) ? "rf_off" : "rf_on");
++			}
++		}
++		pwrpriv->pwr_state_check_cnts++;
++	}
++#endif /* SUPPORT_HW_RFOFF_DETECTED */
++
++	if (pwrpriv->ips_mode_req == IPS_NONE)
++		goto exit;
++
++	if (rtw_pwr_unassociated_idle(padapter) == _FALSE)
++		goto exit;
++
++	if ((pwrpriv->rf_pwrstate == rf_on) && ((pwrpriv->pwr_state_check_cnts % 4) == 0)) {
++		RTW_INFO("==>%s .fw_state(%x)\n", __FUNCTION__, get_fwstate(pmlmepriv));
++#if defined(CONFIG_BT_COEXIST) && defined (CONFIG_AUTOSUSPEND)
++#else
++		pwrpriv->change_rfpwrstate = rf_off;
++#endif
++#ifdef CONFIG_AUTOSUSPEND
++		if (padapter->registrypriv.usbss_enable) {
++			if (pwrpriv->bHWPwrPindetect)
++				pwrpriv->bkeepfwalive = _TRUE;
++
++			if (padapter->net_closed == _TRUE)
++				pwrpriv->ps_flag = _TRUE;
++
++#if defined(CONFIG_BT_COEXIST) && defined (CONFIG_AUTOSUSPEND)
++			if (_TRUE == pwrpriv->bInternalAutoSuspend)
++				RTW_INFO("<==%s .pwrpriv->bInternalAutoSuspend)(%x)\n", __FUNCTION__, pwrpriv->bInternalAutoSuspend);
++			else {
++				pwrpriv->change_rfpwrstate = rf_off;
++				RTW_INFO("<==%s .pwrpriv->bInternalAutoSuspend)(%x) call autosuspend_enter\n", __FUNCTION__, pwrpriv->bInternalAutoSuspend);
++				autosuspend_enter(padapter);
++			}
++#else
++			autosuspend_enter(padapter);
++#endif	/* if defined (CONFIG_BT_COEXIST)&& defined (CONFIG_AUTOSUSPEND) */
++		} else if (pwrpriv->bHWPwrPindetect) {
++		} else
++#endif /* CONFIG_AUTOSUSPEND */
++		{
++#if defined(CONFIG_BT_COEXIST) && defined (CONFIG_AUTOSUSPEND)
++			pwrpriv->change_rfpwrstate = rf_off;
++#endif	/* defined (CONFIG_BT_COEXIST)&& defined (CONFIG_AUTOSUSPEND) */
++
++#ifdef CONFIG_IPS
++			ips_enter(padapter);
++#endif
++		}
++	}
++exit:
++#ifndef CONFIG_IPS_CHECK_IN_WD
++	rtw_set_pwr_state_check_timer(pwrpriv);
++#endif
++	pwrpriv->ps_processing = _FALSE;
++	return;
++}
++
++void pwr_state_check_handler(RTW_TIMER_HDL_ARGS);
++void pwr_state_check_handler(RTW_TIMER_HDL_ARGS)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++	rtw_ps_cmd(padapter);
++}
++
++#ifdef CONFIG_LPS
++void	traffic_check_for_leave_lps(PADAPTER padapter, u8 tx, u32 tx_packets)
++{
++#ifdef CONFIG_CHECK_LEAVE_LPS
++	static u32 start_time = 0;
++	static u32 xmit_cnt = 0;
++	u8	bLeaveLPS = _FALSE;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++
++
++
++	if (tx) { /* from tx */
++		xmit_cnt += tx_packets;
++
++		if (start_time == 0)
++			start_time = rtw_get_current_time();
++
++		if (rtw_get_passing_time_ms(start_time) > 2000) { /* 2 sec == watch dog timer */
++			if (xmit_cnt > 8) {
++				if ((adapter_to_pwrctl(padapter)->bLeisurePs)
++				    && (adapter_to_pwrctl(padapter)->pwr_mode != PS_MODE_ACTIVE)
++#ifdef CONFIG_BT_COEXIST
++				    && (rtw_btcoex_IsBtControlLps(padapter) == _FALSE)
++#endif
++				   ) {
++					/* RTW_INFO("leave lps via Tx = %d\n", xmit_cnt);			 */
++					bLeaveLPS = _TRUE;
++				}
++			}
++
++			start_time = rtw_get_current_time();
++			xmit_cnt = 0;
++		}
++
++	} else { /* from rx path */
++		if (pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod > 4/*2*/) {
++			if ((adapter_to_pwrctl(padapter)->bLeisurePs)
++			    && (adapter_to_pwrctl(padapter)->pwr_mode != PS_MODE_ACTIVE)
++#ifdef CONFIG_BT_COEXIST
++			    && (rtw_btcoex_IsBtControlLps(padapter) == _FALSE)
++#endif
++			   ) {
++				/* RTW_INFO("leave lps via Rx = %d\n", pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod);	 */
++				bLeaveLPS = _TRUE;
++			}
++		}
++	}
++
++	if (bLeaveLPS) {
++		/* RTW_INFO("leave lps via %s, Tx = %d, Rx = %d\n", tx?"Tx":"Rx", pmlmepriv->LinkDetectInfo.NumTxOkInPeriod,pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod);	 */
++		/* rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_LEAVE, 1); */
++		rtw_lps_ctrl_wk_cmd(padapter, tx ? LPS_CTRL_TX_TRAFFIC_LEAVE : LPS_CTRL_RX_TRAFFIC_LEAVE, tx ? 0 : 1);
++	}
++#endif /* CONFIG_CHECK_LEAVE_LPS */
++}
++
++/*
++ * Description:
++ *	This function MUST be called under power lock protect
++ *
++ * Parameters
++ *	padapter
++ *	pslv			power state level, only could be PS_STATE_S0 ~ PS_STATE_S4
++ *
++ */
++void rtw_set_rpwm(PADAPTER padapter, u8 pslv)
++{
++	u8	rpwm;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++#ifdef CONFIG_DETECT_CPWM_BY_POLLING
++	u8 cpwm_orig;
++#endif /* CONFIG_DETECT_CPWM_BY_POLLING */
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++
++	pslv = PS_STATE(pslv);
++
++#ifdef CONFIG_LPS_RPWM_TIMER
++	if (pwrpriv->brpwmtimeout == _TRUE)
++		RTW_INFO("%s: RPWM timeout, force to set RPWM(0x%02X) again!\n", __FUNCTION__, pslv);
++	else
++#endif /* CONFIG_LPS_RPWM_TIMER */
++	{
++		if ((pwrpriv->rpwm == pslv)
++#ifdef CONFIG_LPS_LCLK
++		    || ((pwrpriv->rpwm >= PS_STATE_S2) && (pslv >= PS_STATE_S2))
++#endif
++		   ) {
++			return;
++		}
++	}
++
++	if (rtw_is_surprise_removed(padapter) ||
++	    (!rtw_is_hw_init_completed(padapter))) {
++
++		pwrpriv->cpwm = PS_STATE_S4;
++
++		return;
++	}
++
++	if (rtw_is_drv_stopped(padapter)) {
++
++		if (pslv < PS_STATE_S2) {
++			return;
++		}
++	}
++
++	rpwm = pslv | pwrpriv->tog;
++#ifdef CONFIG_LPS_LCLK
++	/* only when from PS_STATE S0/S1 to S2 and higher needs ACK */
++	if ((pwrpriv->cpwm < PS_STATE_S2) && (pslv >= PS_STATE_S2))
++		rpwm |= PS_ACK;
++#endif
++
++	pwrpriv->rpwm = pslv;
++
++#ifdef CONFIG_DETECT_CPWM_BY_POLLING
++	cpwm_orig = 0;
++	if (rpwm & PS_ACK)
++		rtw_hal_get_hwreg(padapter, HW_VAR_CPWM, &cpwm_orig);
++#endif
++
++#if defined(CONFIG_LPS_RPWM_TIMER) && !defined(CONFIG_DETECT_CPWM_BY_POLLING)
++	if (rpwm & PS_ACK)
++		_set_timer(&pwrpriv->pwr_rpwm_timer, LPS_RPWM_WAIT_MS);
++#endif /* CONFIG_LPS_RPWM_TIMER & !CONFIG_DETECT_CPWM_BY_POLLING */
++	rtw_hal_set_hwreg(padapter, HW_VAR_SET_RPWM, (u8 *)(&rpwm));
++
++	pwrpriv->tog += 0x80;
++
++#ifdef CONFIG_LPS_LCLK
++	/* No LPS 32K, No Ack */
++	if (rpwm & PS_ACK) {
++#ifdef CONFIG_DETECT_CPWM_BY_POLLING
++		u32 start_time;
++		u8 cpwm_now;
++		u8 poll_cnt = 0;
++
++		start_time = rtw_get_current_time();
++
++		/* polling cpwm */
++		do {
++			rtw_msleep_os(1);
++			poll_cnt++;
++			cpwm_now = 0;
++			rtw_hal_get_hwreg(padapter, HW_VAR_CPWM, &cpwm_now);
++			if ((cpwm_orig ^ cpwm_now) & 0x80) {
++				pwrpriv->cpwm = PS_STATE_S4;
++				pwrpriv->cpwm_tog = cpwm_now & PS_TOGGLE;
++#ifdef DBG_CHECK_FW_PS_STATE
++				RTW_INFO("%s: polling cpwm OK! poll_cnt=%d, cpwm_orig=%02x, cpwm_now=%02x , 0x100=0x%x\n"
++					, __FUNCTION__, poll_cnt, cpwm_orig, cpwm_now, rtw_read8(padapter, REG_CR));
++				if (rtw_fw_ps_state(padapter) == _FAIL) {
++					RTW_INFO("leave 32k but fw state in 32k\n");
++					pdbgpriv->dbg_rpwm_toogle_cnt++;
++				}
++#endif /* DBG_CHECK_FW_PS_STATE */
++				break;
++			}
++
++			if (rtw_get_passing_time_ms(start_time) > LPS_RPWM_WAIT_MS) {
++				RTW_INFO("%s: polling cpwm timeout! poll_cnt=%d, cpwm_orig=%02x, cpwm_now=%02x\n", __FUNCTION__, poll_cnt, cpwm_orig, cpwm_now);
++#ifdef DBG_CHECK_FW_PS_STATE
++				if (rtw_fw_ps_state(padapter) == _FAIL) {
++					RTW_INFO("rpwm timeout and fw ps state in 32k\n");
++					pdbgpriv->dbg_rpwm_timeout_fail_cnt++;
++				}
++#endif /* DBG_CHECK_FW_PS_STATE */
++#ifdef CONFIG_LPS_RPWM_TIMER
++				_set_timer(&pwrpriv->pwr_rpwm_timer, 1);
++#endif /* CONFIG_LPS_RPWM_TIMER */
++				break;
++			}
++		} while (1);
++#endif /* CONFIG_DETECT_CPWM_BY_POLLING */
++	} else
++#endif /* CONFIG_LPS_LCLK */
++	{
++		pwrpriv->cpwm = pslv;
++	}
++
++}
++
++u8 PS_RDY_CHECK(_adapter *padapter)
++{
++	u32 curr_time, delta_time;
++	struct pwrctrl_priv	*pwrpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#ifdef CONFIG_IOCTL_CFG80211
++	struct cfg80211_wifidirect_info *pcfg80211_wdinfo = &padapter->cfg80211_wdinfo;
++#endif /* CONFIG_IOCTL_CFG80211 */
++#endif /* CONFIG_P2P */
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	if (_TRUE == pwrpriv->bInSuspend && pwrpriv->wowlan_mode)
++		return _TRUE;
++	else if (_TRUE == pwrpriv->bInSuspend && pwrpriv->wowlan_ap_mode)
++		return _TRUE;
++	else if (_TRUE == pwrpriv->bInSuspend)
++		return _FALSE;
++#else
++	if (_TRUE == pwrpriv->bInSuspend)
++		return _FALSE;
++#endif
++
++	curr_time = rtw_get_current_time();
++
++	delta_time = curr_time - pwrpriv->DelayLPSLastTimeStamp;
++
++	if (delta_time < LPS_DELAY_TIME)
++		return _FALSE;
++
++	if (check_fwstate(pmlmepriv, WIFI_SITE_MONITOR)
++	    || check_fwstate(pmlmepriv, WIFI_UNDER_LINKING | WIFI_UNDER_WPS)
++	    || check_fwstate(pmlmepriv, WIFI_AP_STATE)
++	    || check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE | WIFI_ADHOC_STATE)
++#if defined(CONFIG_P2P) && defined(CONFIG_IOCTL_CFG80211)
++	    || pcfg80211_wdinfo->is_ro_ch
++#endif
++	    || rtw_is_scan_deny(padapter)
++#ifdef CONFIG_TDLS
++	    /* TDLS link is established. */
++	    || (padapter->tdlsinfo.link_established == _TRUE)
++#endif /* CONFIG_TDLS		 */
++	   )
++		return _FALSE;
++
++	if ((padapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X) && (padapter->securitypriv.binstallGrpkey == _FALSE)) {
++		RTW_INFO("Group handshake still in progress !!!\n");
++		return _FALSE;
++	}
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (!rtw_cfg80211_pwr_mgmt(padapter))
++		return _FALSE;
++#endif
++
++	return _TRUE;
++}
++
++#if defined(CONFIG_FWLPS_IN_IPS)
++void rtw_set_fw_in_ips_mode(PADAPTER padapter, u8 enable)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	int cnt = 0;
++	u32 start_time;
++	u8 val8 = 0;
++	u8 cpwm_orig = 0, cpwm_now = 0;
++	u8 parm[H2C_INACTIVE_PS_LEN] = {0};
++
++	if (padapter->netif_up == _FALSE) {
++		RTW_INFO("%s: ERROR, netif is down\n", __func__);
++		return;
++	}
++
++	/* u8 cmd_param; */ /* BIT0:enable, BIT1:NoConnect32k */
++	if (enable) {
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_IpsNotify(padapter, pwrpriv->ips_mode_req);
++#endif
++		/* Enter IPS */
++		RTW_INFO("%s: issue H2C to FW when entering IPS\n", __func__);
++
++		parm[0] = 0x1;/* suggest by Isaac.Hsu*/
++#ifdef CONFIG_PNO_SUPPORT
++		if (pwrpriv->pno_inited) {
++			parm[1] = pwrpriv->pnlo_info->fast_scan_iterations;
++			parm[2] = pwrpriv->pnlo_info->slow_scan_period;
++		}
++#endif
++
++		rtw_hal_fill_h2c_cmd(padapter, /* H2C_FWLPS_IN_IPS_, */
++				     H2C_INACTIVE_PS_,
++				     H2C_INACTIVE_PS_LEN, parm);
++		/* poll 0x1cc to make sure H2C command already finished by FW; MAC_0x1cc=0 means H2C done by FW. */
++		do {
++			val8 = rtw_read8(padapter, REG_HMETFR);
++			cnt++;
++			RTW_INFO("%s  polling REG_HMETFR=0x%x, cnt=%d\n",
++				 __func__, val8, cnt);
++			rtw_mdelay_os(10);
++		} while (cnt < 100 && (val8 != 0));
++
++#ifdef CONFIG_LPS_LCLK
++		/* H2C done, enter 32k */
++		if (val8 == 0) {
++			/* ser rpwm to enter 32k */
++			val8 = rtw_read8(padapter, SDIO_LOCAL_BASE | SDIO_REG_HRPWM1);
++			RTW_INFO("%s: read rpwm=%02x\n", __FUNCTION__, val8);
++			val8 += 0x80;
++			val8 |= BIT(0);
++			rtw_write8(padapter, SDIO_LOCAL_BASE | SDIO_REG_HRPWM1, val8);
++			RTW_INFO("%s: write rpwm=%02x\n", __FUNCTION__, val8);
++			adapter_to_pwrctl(padapter)->tog = (val8 + 0x80) & 0x80;
++			cnt = val8 = 0;
++			if (parm[1] == 0 || parm[2] == 0) {
++				do {
++					val8 = rtw_read8(padapter, REG_CR);
++					cnt++;
++					RTW_INFO("%s  polling 0x100=0x%x, cnt=%d\n",
++						 __func__, val8, cnt);
++					RTW_INFO("%s 0x08:%02x, 0x03:%02x\n",
++						 __func__,
++						 rtw_read8(padapter, 0x08),
++						 rtw_read8(padapter, 0x03));
++					rtw_mdelay_os(10);
++				} while (cnt < 20 && (val8 != 0xEA));
++			}
++		}
++#endif
++	} else {
++		/* Leave IPS */
++		RTW_INFO("%s: Leaving IPS in FWLPS state\n", __func__);
++
++#ifdef CONFIG_LPS_LCLK
++		/* for polling cpwm */
++		cpwm_orig = 0;
++		rtw_hal_get_hwreg(padapter, HW_VAR_CPWM, &cpwm_orig);
++
++		/* ser rpwm */
++		val8 = rtw_read8(padapter, SDIO_LOCAL_BASE | SDIO_REG_HRPWM1);
++		val8 &= 0x80;
++		val8 += 0x80;
++		val8 |= BIT(6);
++		rtw_write8(padapter, SDIO_LOCAL_BASE | SDIO_REG_HRPWM1, val8);
++		RTW_INFO("%s: write rpwm=%02x\n", __FUNCTION__, val8);
++		adapter_to_pwrctl(padapter)->tog = (val8 + 0x80) & 0x80;
++
++		/* do polling cpwm */
++		start_time = rtw_get_current_time();
++		do {
++
++			rtw_mdelay_os(1);
++
++			rtw_hal_get_hwreg(padapter, HW_VAR_CPWM, &cpwm_now);
++			if ((cpwm_orig ^ cpwm_now) & 0x80)
++				break;
++
++			if (rtw_get_passing_time_ms(start_time) > 100) {
++				RTW_INFO("%s: polling cpwm timeout when leaving IPS in FWLPS state\n", __FUNCTION__);
++				break;
++			}
++		} while (1);
++
++#endif
++		parm[0] = 0x0;
++		parm[1] = 0x0;
++		parm[2] = 0x0;
++		rtw_hal_fill_h2c_cmd(padapter, H2C_INACTIVE_PS_,
++				     H2C_INACTIVE_PS_LEN, parm);
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_IpsNotify(padapter, IPS_NONE);
++#endif
++	}
++}
++#endif /* CONFIG_PNO_SUPPORT */
++
++void rtw_set_ps_mode(PADAPTER padapter, u8 ps_mode, u8 smart_ps, u8 bcn_ant_mode, const char *msg)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++#ifdef CONFIG_TDLS
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	_irqL irqL;
++	int i, j;
++	_list	*plist, *phead;
++	struct sta_info *ptdls_sta;
++#endif /* CONFIG_TDLS */
++
++
++
++	if (ps_mode > PM_Card_Disable) {
++		return;
++	}
++
++	if (pwrpriv->pwr_mode == ps_mode) {
++		if (PS_MODE_ACTIVE == ps_mode)
++			return;
++
++#ifndef CONFIG_BT_COEXIST
++		if ((pwrpriv->smart_ps == smart_ps) &&
++		    (pwrpriv->bcn_ant_mode == bcn_ant_mode))
++			return;
++#endif /* !CONFIG_BT_COEXIST */
++	}
++
++#ifdef CONFIG_LPS_PG
++	if ((PS_MODE_ACTIVE != ps_mode) && (pwrpriv->blpspg_info_up))
++		rtw_hal_set_lps_pg_info(padapter);
++#endif
++
++#ifdef CONFIG_LPS_LCLK
++	_enter_pwrlock(&pwrpriv->lock);
++#endif
++
++	/* if(pwrpriv->pwr_mode == PS_MODE_ACTIVE) */
++	if (ps_mode == PS_MODE_ACTIVE) {
++		if (1
++#ifdef CONFIG_BT_COEXIST
++		    && (((rtw_btcoex_IsBtControlLps(padapter) == _FALSE)
++#ifdef CONFIG_P2P_PS
++			 && (pwdinfo->opp_ps == 0)
++#endif /* CONFIG_P2P_PS */
++			)
++			|| ((rtw_btcoex_IsBtControlLps(padapter) == _TRUE)
++			    && (rtw_btcoex_IsLpsOn(padapter) == _FALSE))
++		       )
++#else /* !CONFIG_BT_COEXIST */
++#ifdef CONFIG_P2P_PS
++		    && (pwdinfo->opp_ps == 0)
++#endif /* CONFIG_P2P_PS */
++#endif /* !CONFIG_BT_COEXIST */
++		   ) {
++			RTW_INFO(FUNC_ADPT_FMT" Leave 802.11 power save - %s\n",
++				 FUNC_ADPT_ARG(padapter), msg);
++
++			if (pwrpriv->lps_leave_cnts < UINT_MAX)
++				pwrpriv->lps_leave_cnts++;
++			else
++				pwrpriv->lps_leave_cnts = 0;
++#ifdef CONFIG_TDLS
++			for (i = 0; i < NUM_STA; i++) {
++				phead = &(pstapriv->sta_hash[i]);
++				plist = get_next(phead);
++
++				while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++					ptdls_sta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++
++					if (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE)
++						issue_nulldata_to_TDLS_peer_STA(padapter, ptdls_sta->hwaddr, 0, 0, 0);
++					plist = get_next(plist);
++				}
++			}
++#endif /* CONFIG_TDLS */
++
++			pwrpriv->pwr_mode = ps_mode;
++			rtw_set_rpwm(padapter, PS_STATE_S4);
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN) || defined(CONFIG_P2P_WOWLAN)
++			if (pwrpriv->wowlan_mode == _TRUE ||
++			    pwrpriv->wowlan_ap_mode == _TRUE ||
++			    pwrpriv->wowlan_p2p_mode == _TRUE) {
++				u32 start_time, delay_ms;
++				u8 val8;
++				delay_ms = 20;
++				start_time = rtw_get_current_time();
++				do {
++					rtw_hal_get_hwreg(padapter, HW_VAR_SYS_CLKR, &val8);
++					if (!(val8 & BIT(4))) { /* 0x08 bit4 =1 --> in 32k, bit4 = 0 --> leave 32k */
++						pwrpriv->cpwm = PS_STATE_S4;
++						break;
++					}
++					if (rtw_get_passing_time_ms(start_time) > delay_ms) {
++						RTW_INFO("%s: Wait for FW 32K leave more than %u ms!!!\n",
++							__FUNCTION__, delay_ms);
++						pdbgpriv->dbg_wow_leave_ps_fail_cnt++;
++						break;
++					}
++					rtw_usleep_os(100);
++				} while (1);
++			}
++#endif
++			rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_PWRMODE, (u8 *)(&ps_mode));
++#ifdef CONFIG_LPS_POFF
++			rtw_hal_set_hwreg(padapter, HW_VAR_LPS_POFF_SET_MODE,
++					  (u8 *)(&ps_mode));
++#endif /*CONFIG_LPS_POFF*/
++
++			pwrpriv->bFwCurrentInPSMode = _FALSE;
++
++#ifdef CONFIG_BT_COEXIST
++			rtw_btcoex_LpsNotify(padapter, ps_mode);
++#endif /* CONFIG_BT_COEXIST */
++		}
++	} else {
++		if ((PS_RDY_CHECK(padapter) && check_fwstate(&padapter->mlmepriv, WIFI_ASOC_STATE))
++#ifdef CONFIG_BT_COEXIST
++		    || ((rtw_btcoex_IsBtControlLps(padapter) == _TRUE)
++			&& (rtw_btcoex_IsLpsOn(padapter) == _TRUE))
++#endif
++#ifdef CONFIG_P2P_WOWLAN
++		    || (_TRUE == pwrpriv->wowlan_p2p_mode)
++#endif /* CONFIG_P2P_WOWLAN */
++		   ) {
++			u8 pslv;
++
++			RTW_INFO(FUNC_ADPT_FMT" Enter 802.11 power save - %s\n",
++				 FUNC_ADPT_ARG(padapter), msg);
++
++			if (pwrpriv->lps_enter_cnts < UINT_MAX)
++				pwrpriv->lps_enter_cnts++;
++			else
++				pwrpriv->lps_enter_cnts = 0;
++#ifdef CONFIG_TDLS
++			for (i = 0; i < NUM_STA; i++) {
++				phead = &(pstapriv->sta_hash[i]);
++				plist = get_next(phead);
++
++				while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++					ptdls_sta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++
++					if (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE)
++						issue_nulldata_to_TDLS_peer_STA(padapter, ptdls_sta->hwaddr, 1, 0, 0);
++					plist = get_next(plist);
++				}
++			}
++#endif /* CONFIG_TDLS */
++
++#ifdef CONFIG_BT_COEXIST
++			rtw_btcoex_LpsNotify(padapter, ps_mode);
++#endif /* CONFIG_BT_COEXIST */
++
++#ifdef CONFIG_LPS_POFF
++			rtw_hal_set_hwreg(padapter, HW_VAR_LPS_POFF_SET_MODE,
++					  (u8 *)(&ps_mode));
++#endif /*CONFIG_LPS_POFF*/
++
++			pwrpriv->bFwCurrentInPSMode = _TRUE;
++			pwrpriv->pwr_mode = ps_mode;
++			pwrpriv->smart_ps = smart_ps;
++			pwrpriv->bcn_ant_mode = bcn_ant_mode;
++			rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_PWRMODE, (u8 *)(&ps_mode));
++
++#ifdef CONFIG_P2P_PS
++			/* Set CTWindow after LPS */
++			if (pwdinfo->opp_ps == 1)
++				p2p_ps_wk_cmd(padapter, P2P_PS_ENABLE, 0);
++#endif /* CONFIG_P2P_PS */
++
++			pslv = PS_STATE_S2;
++#ifdef CONFIG_LPS_LCLK
++			if (pwrpriv->alives == 0)
++				pslv = PS_STATE_S0;
++#endif /* CONFIG_LPS_LCLK */
++
++#ifdef CONFIG_BT_COEXIST
++			if ((rtw_btcoex_IsBtDisabled(padapter) == _FALSE)
++			    && (rtw_btcoex_IsBtControlLps(padapter) == _TRUE)) {
++				u8 val8;
++
++				val8 = rtw_btcoex_LpsVal(padapter);
++				if (val8 & BIT(4))
++					pslv = PS_STATE_S2;
++
++			}
++#endif /* CONFIG_BT_COEXIST */
++
++			rtw_set_rpwm(padapter, pslv);
++		}
++	}
++
++#ifdef CONFIG_LPS_LCLK
++	_exit_pwrlock(&pwrpriv->lock);
++#endif
++
++}
++
++/*
++ * Return:
++ *	0:	Leave OK
++ *	-1:	Timeout
++ *	-2:	Other error
++ */
++s32 LPS_RF_ON_check(PADAPTER padapter, u32 delay_ms)
++{
++	u32 start_time;
++	u8 bAwake = _FALSE;
++	s32 err = 0;
++
++
++	start_time = rtw_get_current_time();
++	while (1) {
++		rtw_hal_get_hwreg(padapter, HW_VAR_FWLPS_RF_ON, &bAwake);
++		if (_TRUE == bAwake)
++			break;
++
++		if (rtw_is_surprise_removed(padapter)) {
++			err = -2;
++			RTW_INFO("%s: device surprise removed!!\n", __FUNCTION__);
++			break;
++		}
++
++		if (rtw_get_passing_time_ms(start_time) > delay_ms) {
++			err = -1;
++			RTW_INFO("%s: Wait for FW LPS leave more than %u ms!!!\n", __FUNCTION__, delay_ms);
++			break;
++		}
++		rtw_usleep_os(100);
++	}
++
++	return err;
++}
++
++/*
++ *	Description:
++ *		Enter the leisure power save mode.
++ *   */
++void LPS_Enter(PADAPTER padapter, const char *msg)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv	*pwrpriv = dvobj_to_pwrctl(dvobj);
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	int n_assoc_iface = 0;
++	int i;
++	char buf[32] = {0};
++
++
++	/*	RTW_INFO("+LeisurePSEnter\n"); */
++	if (_FALSE == padapter->bFWReady)
++		return;
++
++#ifdef CONFIG_BT_COEXIST
++	if (rtw_btcoex_IsBtControlLps(padapter) == _TRUE)
++		return;
++#endif
++
++	/* Skip lps enter request if number of assocated adapters is not 1 */
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		if (check_fwstate(&(dvobj->padapters[i]->mlmepriv), WIFI_ASOC_STATE))
++			n_assoc_iface++;
++	}
++	if (n_assoc_iface != 1)
++		return;
++
++	/* Skip lps enter request for adapter not port0 */
++	if (get_hw_port(padapter) != HW_PORT0)
++		return;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		if (PS_RDY_CHECK(dvobj->padapters[i]) == _FALSE)
++			return;
++	}
++
++#ifdef CONFIG_P2P_PS
++	if (padapter->wdinfo.p2p_ps_mode == P2P_PS_NOA) {
++		return;/* supporting p2p client ps NOA via H2C_8723B_P2P_PS_OFFLOAD */
++	}
++#endif /* CONFIG_P2P_PS */
++
++	if (pwrpriv->bLeisurePs) {
++		/* Idle for a while if we connect to AP a while ago. */
++		if (pwrpriv->LpsIdleCount >= 2) { /* 4 Sec */
++			if (pwrpriv->pwr_mode == PS_MODE_ACTIVE) {
++				sprintf(buf, "WIFI-%s", msg);
++				pwrpriv->bpower_saving = _TRUE;
++				rtw_set_ps_mode(padapter, pwrpriv->power_mgnt, padapter->registrypriv.smart_ps, 0, buf);
++			}
++		} else
++			pwrpriv->LpsIdleCount++;
++	}
++
++	/*	RTW_INFO("-LeisurePSEnter\n"); */
++
++}
++
++/*
++ *	Description:
++ *		Leave the leisure power save mode.
++ *   */
++void LPS_Leave(PADAPTER padapter, const char *msg)
++{
++#define LPS_LEAVE_TIMEOUT_MS 100
++
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv	*pwrpriv = dvobj_to_pwrctl(dvobj);
++	u32 start_time;
++	u8 bAwake = _FALSE;
++	char buf[32] = {0};
++	struct debug_priv *pdbgpriv = &dvobj->drv_dbg;
++
++
++	/*	RTW_INFO("+LeisurePSLeave\n"); */
++
++#ifdef CONFIG_BT_COEXIST
++	if (rtw_btcoex_IsBtControlLps(padapter) == _TRUE)
++		return;
++#endif
++
++	if (pwrpriv->bLeisurePs) {
++		if (pwrpriv->pwr_mode != PS_MODE_ACTIVE) {
++			sprintf(buf, "WIFI-%s", msg);
++			rtw_set_ps_mode(padapter, PS_MODE_ACTIVE, 0, 0, buf);
++
++			if (pwrpriv->pwr_mode == PS_MODE_ACTIVE)
++				LPS_RF_ON_check(padapter, LPS_LEAVE_TIMEOUT_MS);
++		}
++	}
++
++	pwrpriv->bpower_saving = _FALSE;
++#ifdef DBG_CHECK_FW_PS_STATE
++	if (rtw_fw_ps_state(padapter) == _FAIL) {
++		RTW_INFO("leave lps, fw in 32k\n");
++		pdbgpriv->dbg_leave_lps_fail_cnt++;
++	}
++#endif /* DBG_CHECK_FW_PS_STATE
++ * 	RTW_INFO("-LeisurePSLeave\n"); */
++
++}
++#endif
++
++void LeaveAllPowerSaveModeDirect(PADAPTER Adapter)
++{
++	PADAPTER pri_padapter = GET_PRIMARY_ADAPTER(Adapter);
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(Adapter);
++	struct dvobj_priv *psdpriv = Adapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++#ifndef CONFIG_DETECT_CPWM_BY_POLLING
++	u8 cpwm_orig, cpwm_now;
++	u32 start_time;
++#endif /* CONFIG_DETECT_CPWM_BY_POLLING */
++
++
++	RTW_INFO("%s.....\n", __FUNCTION__);
++
++	if (rtw_is_surprise_removed(Adapter)) {
++		RTW_INFO(FUNC_ADPT_FMT ": bSurpriseRemoved=_TRUE Skip!\n", FUNC_ADPT_ARG(Adapter));
++		return;
++	}
++
++	if (rtw_mi_check_status(Adapter, MI_LINKED)) { /*connect*/
++
++		if (pwrpriv->pwr_mode == PS_MODE_ACTIVE) {
++			RTW_INFO("%s: Driver Already Leave LPS\n", __FUNCTION__);
++			return;
++		}
++
++#ifdef CONFIG_LPS_LCLK
++		_enter_pwrlock(&pwrpriv->lock);
++
++#ifndef CONFIG_DETECT_CPWM_BY_POLLING
++		cpwm_orig = 0;
++		rtw_hal_get_hwreg(Adapter, HW_VAR_CPWM, &cpwm_orig);
++#endif /* CONFIG_DETECT_CPWM_BY_POLLING */
++		rtw_set_rpwm(Adapter, PS_STATE_S4);
++
++#ifndef CONFIG_DETECT_CPWM_BY_POLLING
++
++		start_time = rtw_get_current_time();
++
++		/* polling cpwm */
++		do {
++			rtw_mdelay_os(1);
++
++			rtw_hal_get_hwreg(Adapter, HW_VAR_CPWM, &cpwm_now);
++			if ((cpwm_orig ^ cpwm_now) & 0x80) {
++				pwrpriv->cpwm = PS_STATE_S4;
++				pwrpriv->cpwm_tog = cpwm_now & PS_TOGGLE;
++#ifdef DBG_CHECK_FW_PS_STATE
++				RTW_INFO("%s: polling cpwm OK! cpwm_orig=%02x, cpwm_now=%02x, 0x100=0x%x\n"
++					, __FUNCTION__, cpwm_orig, cpwm_now, rtw_read8(Adapter, REG_CR));
++				if (rtw_fw_ps_state(Adapter) == _FAIL) {
++					RTW_INFO("%s: leave 32k but fw state in 32k\n", __FUNCTION__);
++					pdbgpriv->dbg_rpwm_toogle_cnt++;
++				}
++#endif /* DBG_CHECK_FW_PS_STATE */
++				break;
++			}
++
++			if (rtw_get_passing_time_ms(start_time) > LPS_RPWM_WAIT_MS) {
++				RTW_INFO("%s: polling cpwm timeout! cpwm_orig=%02x, cpwm_now=%02x\n", __FUNCTION__, cpwm_orig, cpwm_now);
++#ifdef DBG_CHECK_FW_PS_STATE
++				if (rtw_fw_ps_state(Adapter) == _FAIL) {
++					RTW_INFO("rpwm timeout and fw ps state in 32k\n");
++					pdbgpriv->dbg_rpwm_timeout_fail_cnt++;
++				}
++#endif /* DBG_CHECK_FW_PS_STATE */
++				break;
++			}
++		} while (1);
++#endif /* CONFIG_DETECT_CPWM_BY_POLLING */
++
++		_exit_pwrlock(&pwrpriv->lock);
++#endif
++
++#ifdef CONFIG_P2P_PS
++		p2p_ps_wk_cmd(pri_padapter, P2P_PS_DISABLE, 0);
++#endif /* CONFIG_P2P_PS */
++
++#ifdef CONFIG_LPS
++		rtw_lps_ctrl_wk_cmd(pri_padapter, LPS_CTRL_LEAVE, 0);
++#endif
++	} else {
++		if (pwrpriv->rf_pwrstate == rf_off) {
++#ifdef CONFIG_AUTOSUSPEND
++			if (Adapter->registrypriv.usbss_enable) {
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++				usb_disable_autosuspend(adapter_to_dvobj(Adapter)->pusbdev);
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 22) && LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 34))
++				adapter_to_dvobj(Adapter)->pusbdev->autosuspend_disabled = Adapter->bDisableAutosuspend;/* autosuspend disabled by the user */
++#endif
++			} else
++#endif
++			{
++#if defined(CONFIG_FWLPS_IN_IPS) || defined(CONFIG_SWLPS_IN_IPS)
++#ifdef CONFIG_IPS
++				if (_FALSE == ips_leave(pri_padapter))
++					RTW_INFO("======> ips_leave fail.............\n");
++#endif
++#endif /* CONFIG_SWLPS_IN_IPS || (CONFIG_PLATFORM_SPRD && CONFIG_RTL8188E) */
++			}
++		}
++	}
++
++}
++
++/*
++ * Description: Leave all power save mode: LPS, FwLPS, IPS if needed.
++ * Move code to function by tynli. 2010.03.26.
++ *   */
++void LeaveAllPowerSaveMode(IN PADAPTER Adapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(Adapter);
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	u8	enqueue = 0;
++	int n_assoc_iface = 0;
++	int i;
++
++
++	/* RTW_INFO("%s.....\n",__FUNCTION__); */
++
++	if (_FALSE == Adapter->bup) {
++		RTW_INFO(FUNC_ADPT_FMT ": bup=%d Skip!\n",
++			 FUNC_ADPT_ARG(Adapter), Adapter->bup);
++		return;
++	}
++
++	if (rtw_is_surprise_removed(Adapter)) {
++		RTW_INFO(FUNC_ADPT_FMT ": bSurpriseRemoved=_TRUE Skip!\n", FUNC_ADPT_ARG(Adapter));
++		return;
++	}
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		if (check_fwstate(&(dvobj->padapters[i]->mlmepriv), WIFI_ASOC_STATE))
++			n_assoc_iface++;
++	}
++
++	if (n_assoc_iface) {
++		/* connect */
++#ifdef CONFIG_LPS_LCLK
++		enqueue = 1;
++#endif
++
++#ifdef CONFIG_P2P_PS
++		p2p_ps_wk_cmd(Adapter, P2P_PS_DISABLE, enqueue);
++#endif /* CONFIG_P2P_PS */
++
++#ifdef CONFIG_LPS
++		rtw_lps_ctrl_wk_cmd(Adapter, LPS_CTRL_LEAVE, enqueue);
++#endif
++
++#ifdef CONFIG_LPS_LCLK
++		LPS_Leave_check(Adapter);
++#endif
++	} else {
++		if (adapter_to_pwrctl(Adapter)->rf_pwrstate == rf_off) {
++#ifdef CONFIG_AUTOSUSPEND
++			if (Adapter->registrypriv.usbss_enable) {
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++				usb_disable_autosuspend(adapter_to_dvobj(Adapter)->pusbdev);
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 22) && LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 34))
++				adapter_to_dvobj(Adapter)->pusbdev->autosuspend_disabled = Adapter->bDisableAutosuspend;/* autosuspend disabled by the user */
++#endif
++			} else
++#endif
++			{
++#if defined(CONFIG_FWLPS_IN_IPS) || defined(CONFIG_SWLPS_IN_IPS) || (defined(CONFIG_PLATFORM_SPRD) && defined(CONFIG_RTL8188E))
++#ifdef CONFIG_IPS
++				if (_FALSE == ips_leave(Adapter))
++					RTW_INFO("======> ips_leave fail.............\n");
++#endif
++#endif /* CONFIG_SWLPS_IN_IPS || (CONFIG_PLATFORM_SPRD && CONFIG_RTL8188E) */
++			}
++		}
++	}
++
++}
++
++#ifdef CONFIG_LPS_LCLK
++void LPS_Leave_check(
++	PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrpriv;
++	u32	start_time;
++	u8	bReady;
++
++
++	pwrpriv = adapter_to_pwrctl(padapter);
++
++	bReady = _FALSE;
++	start_time = rtw_get_current_time();
++
++	rtw_yield_os();
++
++	while (1) {
++		_enter_pwrlock(&pwrpriv->lock);
++
++		if (rtw_is_surprise_removed(padapter)
++		    || (!rtw_is_hw_init_completed(padapter))
++#ifdef CONFIG_USB_HCI
++		    || rtw_is_drv_stopped(padapter)
++#endif
++		    || (pwrpriv->pwr_mode == PS_MODE_ACTIVE)
++		   )
++			bReady = _TRUE;
++
++		_exit_pwrlock(&pwrpriv->lock);
++
++		if (_TRUE == bReady)
++			break;
++
++		if (rtw_get_passing_time_ms(start_time) > 100) {
++			RTW_INFO("Wait for cpwm event  than 100 ms!!!\n");
++			break;
++		}
++		rtw_msleep_os(1);
++	}
++
++}
++
++/*
++ * Caller:ISR handler...
++ *
++ * This will be called when CPWM interrupt is up.
++ *
++ * using to update cpwn of drv; and drv willl make a decision to up or down pwr level
++ */
++void cpwm_int_hdl(
++	PADAPTER padapter,
++	struct reportpwrstate_parm *preportpwrstate)
++{
++	struct pwrctrl_priv *pwrpriv;
++
++
++	pwrpriv = adapter_to_pwrctl(padapter);
++#if 0
++	if (pwrpriv->cpwm_tog == (preportpwrstate->state & PS_TOGGLE)) {
++		goto exit;
++	}
++#endif
++
++	_enter_pwrlock(&pwrpriv->lock);
++
++#ifdef CONFIG_LPS_RPWM_TIMER
++	if (pwrpriv->rpwm < PS_STATE_S2) {
++		RTW_INFO("%s: Redundant CPWM Int. RPWM=0x%02X CPWM=0x%02x\n", __func__, pwrpriv->rpwm, pwrpriv->cpwm);
++		_exit_pwrlock(&pwrpriv->lock);
++		goto exit;
++	}
++#endif /* CONFIG_LPS_RPWM_TIMER */
++
++	pwrpriv->cpwm = PS_STATE(preportpwrstate->state);
++	pwrpriv->cpwm_tog = preportpwrstate->state & PS_TOGGLE;
++
++	if (pwrpriv->cpwm >= PS_STATE_S2) {
++		if (pwrpriv->alives & CMD_ALIVE)
++			_rtw_up_sema(&padapter->cmdpriv.cmd_queue_sema);
++
++		if (pwrpriv->alives & XMIT_ALIVE)
++			_rtw_up_sema(&padapter->xmitpriv.xmit_sema);
++	}
++
++	_exit_pwrlock(&pwrpriv->lock);
++
++exit:
++	return;
++}
++
++static void cpwm_event_callback(struct work_struct *work)
++{
++	struct pwrctrl_priv *pwrpriv = container_of(work, struct pwrctrl_priv, cpwm_event);
++	struct dvobj_priv *dvobj = pwrctl_to_dvobj(pwrpriv);
++	_adapter *adapter = dvobj->padapters[IFACE_ID0];
++	struct reportpwrstate_parm report;
++
++	/* RTW_INFO("%s\n",__FUNCTION__); */
++
++	report.state = PS_STATE_S2;
++	cpwm_int_hdl(adapter, &report);
++}
++
++#ifdef CONFIG_LPS_RPWM_TIMER
++static void rpwmtimeout_workitem_callback(struct work_struct *work)
++{
++	PADAPTER padapter;
++	struct dvobj_priv *dvobj;
++	struct pwrctrl_priv *pwrpriv;
++
++
++	pwrpriv = container_of(work, struct pwrctrl_priv, rpwmtimeoutwi);
++	dvobj = pwrctl_to_dvobj(pwrpriv);
++	padapter = dvobj->padapters[IFACE_ID0];
++	/*	RTW_INFO("+%s: rpwm=0x%02X cpwm=0x%02X\n", __func__, pwrpriv->rpwm, pwrpriv->cpwm); */
++
++	_enter_pwrlock(&pwrpriv->lock);
++	if ((pwrpriv->rpwm == pwrpriv->cpwm) || (pwrpriv->cpwm >= PS_STATE_S2)) {
++		RTW_INFO("%s: rpwm=0x%02X cpwm=0x%02X CPWM done!\n", __func__, pwrpriv->rpwm, pwrpriv->cpwm);
++		goto exit;
++	}
++	_exit_pwrlock(&pwrpriv->lock);
++
++	if (rtw_read8(padapter, 0x100) != 0xEA) {
++#if 1
++		struct reportpwrstate_parm report;
++
++		report.state = PS_STATE_S2;
++		RTW_INFO("\n%s: FW already leave 32K!\n\n", __func__);
++		cpwm_int_hdl(padapter, &report);
++#else
++		RTW_INFO("\n%s: FW already leave 32K!\n\n", __func__);
++		cpwm_event_callback(&pwrpriv->cpwm_event);
++#endif
++		return;
++	}
++
++	_enter_pwrlock(&pwrpriv->lock);
++
++	if ((pwrpriv->rpwm == pwrpriv->cpwm) || (pwrpriv->cpwm >= PS_STATE_S2)) {
++		RTW_INFO("%s: cpwm=%d, nothing to do!\n", __func__, pwrpriv->cpwm);
++		goto exit;
++	}
++	pwrpriv->brpwmtimeout = _TRUE;
++	rtw_set_rpwm(padapter, pwrpriv->rpwm);
++	pwrpriv->brpwmtimeout = _FALSE;
++
++exit:
++	_exit_pwrlock(&pwrpriv->lock);
++}
++
++/*
++ * This function is a timer handler, can't do any IO in it.
++ */
++static void pwr_rpwm_timeout_handler(void *FunctionContext)
++{
++	PADAPTER padapter;
++	struct pwrctrl_priv *pwrpriv;
++
++
++	padapter = (PADAPTER)FunctionContext;
++	pwrpriv = adapter_to_pwrctl(padapter);
++	RTW_INFO("+%s: rpwm=0x%02X cpwm=0x%02X\n", __func__, pwrpriv->rpwm, pwrpriv->cpwm);
++
++	if ((pwrpriv->rpwm == pwrpriv->cpwm) || (pwrpriv->cpwm >= PS_STATE_S2)) {
++		RTW_INFO("+%s: cpwm=%d, nothing to do!\n", __func__, pwrpriv->cpwm);
++		return;
++	}
++
++	_set_workitem(&pwrpriv->rpwmtimeoutwi);
++}
++#endif /* CONFIG_LPS_RPWM_TIMER */
++
++__inline static void register_task_alive(struct pwrctrl_priv *pwrctrl, u32 tag)
++{
++	pwrctrl->alives |= tag;
++}
++
++__inline static void unregister_task_alive(struct pwrctrl_priv *pwrctrl, u32 tag)
++{
++	pwrctrl->alives &= ~tag;
++}
++
++
++/*
++ * Description:
++ *	Check if the fw_pwrstate is okay for I/O.
++ *	If not (cpwm is less than S2), then the sub-routine
++ *	will raise the cpwm to be greater than or equal to S2.
++ *
++ *	Calling Context: Passive
++ *
++ *	Constraint:
++ *		1. this function will request pwrctrl->lock
++ *
++ * Return Value:
++ *	_SUCCESS	hardware is ready for I/O
++ *	_FAIL		can't I/O right now
++ */
++s32 rtw_register_task_alive(PADAPTER padapter, u32 task)
++{
++	s32 res;
++	struct pwrctrl_priv *pwrctrl;
++	u8 pslv;
++
++
++	res = _SUCCESS;
++	pwrctrl = adapter_to_pwrctl(padapter);
++	pslv = PS_STATE_S2;
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	register_task_alive(pwrctrl, task);
++
++	if (pwrctrl->bFwCurrentInPSMode == _TRUE) {
++
++		if (pwrctrl->cpwm < pslv) {
++			if (pwrctrl->cpwm < PS_STATE_S2)
++				res = _FAIL;
++			if (pwrctrl->rpwm < pslv)
++				rtw_set_rpwm(padapter, pslv);
++		}
++	}
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++#ifdef CONFIG_DETECT_CPWM_BY_POLLING
++	if (_FAIL == res) {
++		if (pwrctrl->cpwm >= PS_STATE_S2)
++			res = _SUCCESS;
++	}
++#endif /* CONFIG_DETECT_CPWM_BY_POLLING */
++
++
++	return res;
++}
++
++/*
++ * Description:
++ *	If task is done, call this func. to power down firmware again.
++ *
++ *	Constraint:
++ *		1. this function will request pwrctrl->lock
++ *
++ * Return Value:
++ *	none
++ */
++void rtw_unregister_task_alive(PADAPTER padapter, u32 task)
++{
++	struct pwrctrl_priv *pwrctrl;
++	u8 pslv;
++
++
++	pwrctrl = adapter_to_pwrctl(padapter);
++	pslv = PS_STATE_S0;
++
++#ifdef CONFIG_BT_COEXIST
++	if ((rtw_btcoex_IsBtDisabled(padapter) == _FALSE)
++	    && (rtw_btcoex_IsBtControlLps(padapter) == _TRUE)) {
++		u8 val8;
++
++		val8 = rtw_btcoex_LpsVal(padapter);
++		if (val8 & BIT(4))
++			pslv = PS_STATE_S2;
++
++	}
++#endif /* CONFIG_BT_COEXIST */
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	unregister_task_alive(pwrctrl, task);
++
++	if ((pwrctrl->pwr_mode != PS_MODE_ACTIVE)
++	    && (pwrctrl->bFwCurrentInPSMode == _TRUE)) {
++
++		if (pwrctrl->cpwm > pslv) {
++			if ((pslv >= PS_STATE_S2) || (pwrctrl->alives == 0))
++				rtw_set_rpwm(padapter, pslv);
++		}
++	}
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++}
++
++/*
++ * Caller: rtw_xmit_thread
++ *
++ * Check if the fw_pwrstate is okay for xmit.
++ * If not (cpwm is less than S3), then the sub-routine
++ * will raise the cpwm to be greater than or equal to S3.
++ *
++ * Calling Context: Passive
++ *
++ * Return Value:
++ *	 _SUCCESS	rtw_xmit_thread can write fifo/txcmd afterwards.
++ *	 _FAIL		rtw_xmit_thread can not do anything.
++ */
++s32 rtw_register_tx_alive(PADAPTER padapter)
++{
++	s32 res;
++	struct pwrctrl_priv *pwrctrl;
++	u8 pslv;
++
++
++	res = _SUCCESS;
++	pwrctrl = adapter_to_pwrctl(padapter);
++	pslv = PS_STATE_S2;
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	register_task_alive(pwrctrl, XMIT_ALIVE);
++
++	if (pwrctrl->bFwCurrentInPSMode == _TRUE) {
++
++		if (pwrctrl->cpwm < pslv) {
++			if (pwrctrl->cpwm < PS_STATE_S2)
++				res = _FAIL;
++			if (pwrctrl->rpwm < pslv)
++				rtw_set_rpwm(padapter, pslv);
++		}
++	}
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++#ifdef CONFIG_DETECT_CPWM_BY_POLLING
++	if (_FAIL == res) {
++		if (pwrctrl->cpwm >= PS_STATE_S2)
++			res = _SUCCESS;
++	}
++#endif /* CONFIG_DETECT_CPWM_BY_POLLING */
++
++
++	return res;
++}
++
++/*
++ * Caller: rtw_cmd_thread
++ *
++ * Check if the fw_pwrstate is okay for issuing cmd.
++ * If not (cpwm should be is less than S2), then the sub-routine
++ * will raise the cpwm to be greater than or equal to S2.
++ *
++ * Calling Context: Passive
++ *
++ * Return Value:
++ *	_SUCCESS	rtw_cmd_thread can issue cmds to firmware afterwards.
++ *	_FAIL		rtw_cmd_thread can not do anything.
++ */
++s32 rtw_register_cmd_alive(PADAPTER padapter)
++{
++	s32 res;
++	struct pwrctrl_priv *pwrctrl;
++	u8 pslv;
++
++
++	res = _SUCCESS;
++	pwrctrl = adapter_to_pwrctl(padapter);
++	pslv = PS_STATE_S2;
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	register_task_alive(pwrctrl, CMD_ALIVE);
++
++	if (pwrctrl->bFwCurrentInPSMode == _TRUE) {
++
++		if (pwrctrl->cpwm < pslv) {
++			if (pwrctrl->cpwm < PS_STATE_S2)
++				res = _FAIL;
++			if (pwrctrl->rpwm < pslv)
++				rtw_set_rpwm(padapter, pslv);
++		}
++	}
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++#ifdef CONFIG_DETECT_CPWM_BY_POLLING
++	if (_FAIL == res) {
++		if (pwrctrl->cpwm >= PS_STATE_S2)
++			res = _SUCCESS;
++	}
++#endif /* CONFIG_DETECT_CPWM_BY_POLLING */
++
++
++	return res;
++}
++
++/*
++ * Caller: rx_isr
++ *
++ * Calling Context: Dispatch/ISR
++ *
++ * Return Value:
++ *	_SUCCESS
++ *	_FAIL
++ */
++s32 rtw_register_rx_alive(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrctrl;
++
++
++	pwrctrl = adapter_to_pwrctl(padapter);
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	register_task_alive(pwrctrl, RECV_ALIVE);
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++
++	return _SUCCESS;
++}
++
++/*
++ * Caller: evt_isr or evt_thread
++ *
++ * Calling Context: Dispatch/ISR or Passive
++ *
++ * Return Value:
++ *	_SUCCESS
++ *	_FAIL
++ */
++s32 rtw_register_evt_alive(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrctrl;
++
++
++	pwrctrl = adapter_to_pwrctl(padapter);
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	register_task_alive(pwrctrl, EVT_ALIVE);
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++
++	return _SUCCESS;
++}
++
++/*
++ * Caller: ISR
++ *
++ * If ISR's txdone,
++ * No more pkts for TX,
++ * Then driver shall call this fun. to power down firmware again.
++ */
++void rtw_unregister_tx_alive(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrctrl;
++	_adapter *iface;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	u8 pslv, i;
++
++
++	pwrctrl = adapter_to_pwrctl(padapter);
++	pslv = PS_STATE_S0;
++
++#ifdef CONFIG_BT_COEXIST
++	if ((rtw_btcoex_IsBtDisabled(padapter) == _FALSE)
++	    && (rtw_btcoex_IsBtControlLps(padapter) == _TRUE)) {
++		u8 val8;
++
++		val8 = rtw_btcoex_LpsVal(padapter);
++		if (val8 & BIT(4))
++			pslv = PS_STATE_S2;
++
++	}
++#endif /* CONFIG_BT_COEXIST */
++
++#ifdef CONFIG_P2P_PS
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++			if (iface->wdinfo.p2p_ps_mode > P2P_PS_NONE) {
++				pslv = PS_STATE_S2;
++				break;
++			}
++		}
++	}
++#endif
++	_enter_pwrlock(&pwrctrl->lock);
++
++	unregister_task_alive(pwrctrl, XMIT_ALIVE);
++
++	if ((pwrctrl->pwr_mode != PS_MODE_ACTIVE)
++	    && (pwrctrl->bFwCurrentInPSMode == _TRUE)) {
++
++		if (pwrctrl->cpwm > pslv) {
++			if ((pslv >= PS_STATE_S2) || (pwrctrl->alives == 0))
++				rtw_set_rpwm(padapter, pslv);
++		}
++	}
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++}
++
++/*
++ * Caller: ISR
++ *
++ * If all commands have been done,
++ * and no more command to do,
++ * then driver shall call this fun. to power down firmware again.
++ */
++void rtw_unregister_cmd_alive(PADAPTER padapter)
++{
++	_adapter *iface;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv *pwrctrl;
++	u8 pslv, i;
++
++
++	pwrctrl = adapter_to_pwrctl(padapter);
++	pslv = PS_STATE_S0;
++
++#ifdef CONFIG_BT_COEXIST
++	if ((rtw_btcoex_IsBtDisabled(padapter) == _FALSE)
++	    && (rtw_btcoex_IsBtControlLps(padapter) == _TRUE)) {
++		u8 val8;
++
++		val8 = rtw_btcoex_LpsVal(padapter);
++		if (val8 & BIT(4))
++			pslv = PS_STATE_S2;
++
++	}
++#endif /* CONFIG_BT_COEXIST */
++
++#ifdef CONFIG_P2P_PS
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++			if (iface->wdinfo.p2p_ps_mode > P2P_PS_NONE) {
++				pslv = PS_STATE_S2;
++				break;
++			}
++		}
++	}
++#endif
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	unregister_task_alive(pwrctrl, CMD_ALIVE);
++
++	if ((pwrctrl->pwr_mode != PS_MODE_ACTIVE)
++	    && (pwrctrl->bFwCurrentInPSMode == _TRUE)) {
++
++		if (pwrctrl->cpwm > pslv) {
++			if ((pslv >= PS_STATE_S2) || (pwrctrl->alives == 0))
++				rtw_set_rpwm(padapter, pslv);
++		}
++	}
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++}
++
++/*
++ * Caller: ISR
++ */
++void rtw_unregister_rx_alive(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrctrl;
++
++
++	pwrctrl = adapter_to_pwrctl(padapter);
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	unregister_task_alive(pwrctrl, RECV_ALIVE);
++
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++}
++
++void rtw_unregister_evt_alive(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrctrl;
++
++
++	pwrctrl = adapter_to_pwrctl(padapter);
++
++	unregister_task_alive(pwrctrl, EVT_ALIVE);
++
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++}
++#endif	/* CONFIG_LPS_LCLK */
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++	static void resume_workitem_callback(struct work_struct *work);
++#endif /* CONFIG_RESUME_IN_WORKQUEUE */
++
++void rtw_init_pwrctrl_priv(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++	int i = 0;
++	u8 val8 = 0;
++
++#if defined(CONFIG_CONCURRENT_MODE)
++	if (padapter->adapter_type != PRIMARY_ADAPTER)
++		return;
++#endif
++
++
++#ifdef PLATFORM_WINDOWS
++	pwrctrlpriv->pnp_current_pwr_state = NdisDeviceStateD0;
++#endif
++
++	_init_pwrlock(&pwrctrlpriv->lock);
++	_init_pwrlock(&pwrctrlpriv->check_32k_lock);
++	pwrctrlpriv->rf_pwrstate = rf_on;
++	pwrctrlpriv->ips_enter_cnts = 0;
++	pwrctrlpriv->ips_leave_cnts = 0;
++	pwrctrlpriv->lps_enter_cnts = 0;
++	pwrctrlpriv->lps_leave_cnts = 0;
++	pwrctrlpriv->bips_processing = _FALSE;
++
++	pwrctrlpriv->ips_mode = padapter->registrypriv.ips_mode;
++	pwrctrlpriv->ips_mode_req = padapter->registrypriv.ips_mode;
++
++	pwrctrlpriv->pwr_state_check_interval = RTW_PWR_STATE_CHK_INTERVAL;
++	pwrctrlpriv->pwr_state_check_cnts = 0;
++	pwrctrlpriv->bInternalAutoSuspend = _FALSE;
++	pwrctrlpriv->bInSuspend = _FALSE;
++	pwrctrlpriv->bkeepfwalive = _FALSE;
++
++#ifdef CONFIG_AUTOSUSPEND
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++	pwrctrlpriv->pwr_state_check_interval = (pwrctrlpriv->bHWPwrPindetect) ? 1000 : 2000;
++#endif
++#endif
++
++	pwrctrlpriv->LpsIdleCount = 0;
++
++#ifdef CONFIG_LPS_PG
++	pwrctrlpriv->lpspg_rsvd_page_locate = 0;
++#endif
++
++	/* pwrctrlpriv->FWCtrlPSMode =padapter->registrypriv.power_mgnt; */ /* PS_MODE_MIN; */
++	if (padapter->registrypriv.mp_mode == 1)
++		pwrctrlpriv->power_mgnt = PS_MODE_ACTIVE ;
++	else
++		pwrctrlpriv->power_mgnt = padapter->registrypriv.power_mgnt; /* PS_MODE_MIN; */
++	pwrctrlpriv->bLeisurePs = (PS_MODE_ACTIVE != pwrctrlpriv->power_mgnt) ? _TRUE : _FALSE;
++
++	pwrctrlpriv->bFwCurrentInPSMode = _FALSE;
++
++	pwrctrlpriv->rpwm = 0;
++	pwrctrlpriv->cpwm = PS_STATE_S4;
++
++	pwrctrlpriv->pwr_mode = PS_MODE_ACTIVE;
++	pwrctrlpriv->smart_ps = padapter->registrypriv.smart_ps;
++	pwrctrlpriv->bcn_ant_mode = 0;
++	pwrctrlpriv->dtim = 0;
++
++	pwrctrlpriv->tog = 0x80;
++
++#ifdef CONFIG_LPS_LCLK
++	rtw_hal_set_hwreg(padapter, HW_VAR_SET_RPWM, (u8 *)(&pwrctrlpriv->rpwm));
++
++	_init_workitem(&pwrctrlpriv->cpwm_event, cpwm_event_callback, NULL);
++
++#ifdef CONFIG_LPS_RPWM_TIMER
++	pwrctrlpriv->brpwmtimeout = _FALSE;
++	_init_workitem(&pwrctrlpriv->rpwmtimeoutwi, rpwmtimeout_workitem_callback, NULL);
++	_init_timer(&pwrctrlpriv->pwr_rpwm_timer, padapter->pnetdev, pwr_rpwm_timeout_handler, padapter);
++#endif /* CONFIG_LPS_RPWM_TIMER */
++#endif /* CONFIG_LPS_LCLK */
++
++	rtw_init_timer(&pwrctrlpriv->pwr_state_check_timer, padapter, pwr_state_check_handler);
++
++	pwrctrlpriv->wowlan_mode = _FALSE;
++	pwrctrlpriv->wowlan_ap_mode = _FALSE;
++	pwrctrlpriv->wowlan_p2p_mode = _FALSE;
++	pwrctrlpriv->wowlan_last_wake_reason = 0;
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++	_init_workitem(&pwrctrlpriv->resume_work, resume_workitem_callback, NULL);
++	pwrctrlpriv->rtw_workqueue = create_singlethread_workqueue("rtw_workqueue");
++#endif /* CONFIG_RESUME_IN_WORKQUEUE */
++
++#if defined(CONFIG_HAS_EARLYSUSPEND) || defined(CONFIG_ANDROID_POWER)
++	pwrctrlpriv->early_suspend.suspend = NULL;
++	rtw_register_early_suspend(pwrctrlpriv);
++#endif /* CONFIG_HAS_EARLYSUSPEND || CONFIG_ANDROID_POWER */
++
++#ifdef CONFIG_GPIO_WAKEUP
++	/*default low active*/
++	pwrctrlpriv->is_high_active = HIGH_ACTIVE;
++	val8 = (pwrctrlpriv->is_high_active == 0) ? 1 : 0;
++	rtw_hal_switch_gpio_wl_ctrl(padapter, WAKEUP_GPIO_IDX, _TRUE);
++	rtw_hal_set_output_gpio(padapter, WAKEUP_GPIO_IDX, val8);
++	RTW_INFO("%s: set GPIO_%d %d as default.\n",
++		 __func__, WAKEUP_GPIO_IDX, val8);
++#endif /* CONFIG_GPIO_WAKEUP */
++
++#ifdef CONFIG_WOWLAN
++	pwrctrlpriv->wowlan_pattern_idx = DEFAULT_PATTERN_NUM;
++
++	for (i = 0 ; i < MAX_WKFM_NUM; i++) {
++		_rtw_memset(pwrctrlpriv->patterns[i].content, '\0',
++			    sizeof(pwrctrlpriv->patterns[i].content));
++		_rtw_memset(pwrctrlpriv->patterns[i].mask, '\0',
++			    sizeof(pwrctrlpriv->patterns[i].mask));
++		pwrctrlpriv->patterns[i].len = 0;
++	}
++
++#ifdef CONFIG_PNO_SUPPORT
++	pwrctrlpriv->pno_inited = _FALSE;
++	pwrctrlpriv->pnlo_info = NULL;
++	pwrctrlpriv->pscan_info = NULL;
++	pwrctrlpriv->pno_ssid_list = NULL;
++	pwrctrlpriv->pno_in_resume = _TRUE;
++#endif /* CONFIG_PNO_SUPPORT */
++#endif /* CONFIG_WOWLAN */
++
++#ifdef CONFIG_LPS_POFF
++	rtw_hal_set_hwreg(padapter, HW_VAR_LPS_POFF_INIT, 0);
++#endif
++
++
++}
++
++
++void rtw_free_pwrctrl_priv(PADAPTER adapter)
++{
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(adapter);
++
++#if defined(CONFIG_CONCURRENT_MODE)
++	if (adapter->adapter_type != PRIMARY_ADAPTER)
++		return;
++#endif
++
++
++	/* _rtw_memset((unsigned char *)pwrctrlpriv, 0, sizeof(struct pwrctrl_priv)); */
++
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++	if (pwrctrlpriv->rtw_workqueue) {
++		flush_workqueue(pwrctrlpriv->rtw_workqueue);
++		destroy_workqueue(pwrctrlpriv->rtw_workqueue);
++	}
++#endif
++
++#ifdef CONFIG_LPS_POFF
++	rtw_hal_set_hwreg(adapter, HW_VAR_LPS_POFF_DEINIT, 0);
++#endif
++
++#ifdef CONFIG_WOWLAN
++#ifdef CONFIG_PNO_SUPPORT
++	if (pwrctrlpriv->pnlo_info != NULL)
++		printk("****** pnlo_info memory leak********\n");
++
++	if (pwrctrlpriv->pscan_info != NULL)
++		printk("****** pscan_info memory leak********\n");
++
++	if (pwrctrlpriv->pno_ssid_list != NULL)
++		printk("****** pno_ssid_list memory leak********\n");
++#endif
++#endif /* CONFIG_WOWLAN */
++
++#if defined(CONFIG_HAS_EARLYSUSPEND) || defined(CONFIG_ANDROID_POWER)
++	rtw_unregister_early_suspend(pwrctrlpriv);
++#endif /* CONFIG_HAS_EARLYSUSPEND || CONFIG_ANDROID_POWER */
++
++	_free_pwrlock(&pwrctrlpriv->lock);
++	_free_pwrlock(&pwrctrlpriv->check_32k_lock);
++
++}
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++extern int rtw_resume_process(_adapter *padapter);
++
++static void resume_workitem_callback(struct work_struct *work)
++{
++	struct pwrctrl_priv *pwrpriv = container_of(work, struct pwrctrl_priv, resume_work);
++	struct dvobj_priv *dvobj = pwrctl_to_dvobj(pwrpriv);
++	_adapter *adapter = dvobj->padapters[IFACE_ID0];
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	rtw_resume_process(adapter);
++
++	rtw_resume_unlock_suspend();
++}
++
++void rtw_resume_in_workqueue(struct pwrctrl_priv *pwrpriv)
++{
++	/* accquire system's suspend lock preventing from falliing asleep while resume in workqueue */
++	/* rtw_lock_suspend(); */
++
++	rtw_resume_lock_suspend();
++
++#if 1
++	queue_work(pwrpriv->rtw_workqueue, &pwrpriv->resume_work);
++#else
++	_set_workitem(&pwrpriv->resume_work);
++#endif
++}
++#endif /* CONFIG_RESUME_IN_WORKQUEUE */
++
++#if defined(CONFIG_HAS_EARLYSUSPEND) || defined(CONFIG_ANDROID_POWER)
++inline bool rtw_is_earlysuspend_registered(struct pwrctrl_priv *pwrpriv)
++{
++	return (pwrpriv->early_suspend.suspend) ? _TRUE : _FALSE;
++}
++
++inline bool rtw_is_do_late_resume(struct pwrctrl_priv *pwrpriv)
++{
++	return (pwrpriv->do_late_resume) ? _TRUE : _FALSE;
++}
++
++inline void rtw_set_do_late_resume(struct pwrctrl_priv *pwrpriv, bool enable)
++{
++	pwrpriv->do_late_resume = enable;
++}
++#endif
++
++#ifdef CONFIG_HAS_EARLYSUSPEND
++extern int rtw_resume_process(_adapter *padapter);
++static void rtw_early_suspend(struct early_suspend *h)
++{
++	struct pwrctrl_priv *pwrpriv = container_of(h, struct pwrctrl_priv, early_suspend);
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	rtw_set_do_late_resume(pwrpriv, _FALSE);
++}
++
++static void rtw_late_resume(struct early_suspend *h)
++{
++	struct pwrctrl_priv *pwrpriv = container_of(h, struct pwrctrl_priv, early_suspend);
++	struct dvobj_priv *dvobj = pwrctl_to_dvobj(pwrpriv);
++	_adapter *adapter = dvobj->padapters[IFACE_ID0];
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	if (pwrpriv->do_late_resume) {
++		rtw_set_do_late_resume(pwrpriv, _FALSE);
++		rtw_resume_process(adapter);
++	}
++}
++
++void rtw_register_early_suspend(struct pwrctrl_priv *pwrpriv)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	/* jeff: set the early suspend level before blank screen, so we wll do late resume after scree is lit */
++	pwrpriv->early_suspend.level = EARLY_SUSPEND_LEVEL_BLANK_SCREEN - 20;
++	pwrpriv->early_suspend.suspend = rtw_early_suspend;
++	pwrpriv->early_suspend.resume = rtw_late_resume;
++	register_early_suspend(&pwrpriv->early_suspend);
++
++
++}
++
++void rtw_unregister_early_suspend(struct pwrctrl_priv *pwrpriv)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	rtw_set_do_late_resume(pwrpriv, _FALSE);
++
++	if (pwrpriv->early_suspend.suspend)
++		unregister_early_suspend(&pwrpriv->early_suspend);
++
++	pwrpriv->early_suspend.suspend = NULL;
++	pwrpriv->early_suspend.resume = NULL;
++}
++#endif /* CONFIG_HAS_EARLYSUSPEND */
++
++#ifdef CONFIG_ANDROID_POWER
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	extern int rtw_resume_process(PADAPTER padapter);
++#endif
++static void rtw_early_suspend(android_early_suspend_t *h)
++{
++	struct pwrctrl_priv *pwrpriv = container_of(h, struct pwrctrl_priv, early_suspend);
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	rtw_set_do_late_resume(pwrpriv, _FALSE);
++}
++
++static void rtw_late_resume(android_early_suspend_t *h)
++{
++	struct pwrctrl_priv *pwrpriv = container_of(h, struct pwrctrl_priv, early_suspend);
++	struct dvobj_priv *dvobj = pwrctl_to_dvobj(pwrpriv);
++	_adapter *adapter = dvobj->padapters[IFACE_ID0];
++
++	RTW_INFO("%s\n", __FUNCTION__);
++	if (pwrpriv->do_late_resume) {
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		rtw_set_do_late_resume(pwrpriv, _FALSE);
++		rtw_resume_process(adapter);
++#endif
++	}
++}
++
++void rtw_register_early_suspend(struct pwrctrl_priv *pwrpriv)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	/* jeff: set the early suspend level before blank screen, so we wll do late resume after scree is lit */
++	pwrpriv->early_suspend.level = ANDROID_EARLY_SUSPEND_LEVEL_BLANK_SCREEN - 20;
++	pwrpriv->early_suspend.suspend = rtw_early_suspend;
++	pwrpriv->early_suspend.resume = rtw_late_resume;
++	android_register_early_suspend(&pwrpriv->early_suspend);
++}
++
++void rtw_unregister_early_suspend(struct pwrctrl_priv *pwrpriv)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	rtw_set_do_late_resume(pwrpriv, _FALSE);
++
++	if (pwrpriv->early_suspend.suspend)
++		android_unregister_early_suspend(&pwrpriv->early_suspend);
++
++	pwrpriv->early_suspend.suspend = NULL;
++	pwrpriv->early_suspend.resume = NULL;
++}
++#endif /* CONFIG_ANDROID_POWER */
++
++u8 rtw_interface_ps_func(_adapter *padapter, HAL_INTF_PS_FUNC efunc_id, u8 *val)
++{
++	u8 bResult = _TRUE;
++	rtw_hal_intf_ps_func(padapter, efunc_id, val);
++
++	return bResult;
++}
++
++
++inline void rtw_set_ips_deny(_adapter *padapter, u32 ms)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	pwrpriv->ips_deny_time = rtw_get_current_time() + rtw_ms_to_systime(ms);
++}
++
++/*
++* rtw_pwr_wakeup - Wake the NIC up from: 1)IPS. 2)USB autosuspend
++* @adapter: pointer to _adapter structure
++* @ips_deffer_ms: the ms wiil prevent from falling into IPS after wakeup
++* Return _SUCCESS or _FAIL
++*/
++
++int _rtw_pwr_wakeup(_adapter *padapter, u32 ips_deffer_ms, const char *caller)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv *pwrpriv = dvobj_to_pwrctl(dvobj);
++	struct mlme_priv *pmlmepriv;
++	int ret = _SUCCESS;
++	int i;
++	u32 start = rtw_get_current_time();
++
++	/* for LPS */
++	LeaveAllPowerSaveMode(padapter);
++
++	/* IPS still bound with primary adapter */
++	padapter = GET_PRIMARY_ADAPTER(padapter);
++	pmlmepriv = &padapter->mlmepriv;
++
++	if (pwrpriv->ips_deny_time < rtw_get_current_time() + rtw_ms_to_systime(ips_deffer_ms))
++		pwrpriv->ips_deny_time = rtw_get_current_time() + rtw_ms_to_systime(ips_deffer_ms);
++
++
++	if (pwrpriv->ps_processing) {
++		RTW_INFO("%s wait ps_processing...\n", __func__);
++		while (pwrpriv->ps_processing && rtw_get_passing_time_ms(start) <= 3000)
++			rtw_msleep_os(10);
++		if (pwrpriv->ps_processing)
++			RTW_INFO("%s wait ps_processing timeout\n", __func__);
++		else
++			RTW_INFO("%s wait ps_processing done\n", __func__);
++	}
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	if (rtw_hal_sreset_inprogress(padapter)) {
++		RTW_INFO("%s wait sreset_inprogress...\n", __func__);
++		while (rtw_hal_sreset_inprogress(padapter) && rtw_get_passing_time_ms(start) <= 4000)
++			rtw_msleep_os(10);
++		if (rtw_hal_sreset_inprogress(padapter))
++			RTW_INFO("%s wait sreset_inprogress timeout\n", __func__);
++		else
++			RTW_INFO("%s wait sreset_inprogress done\n", __func__);
++	}
++#endif
++
++	if (pwrpriv->bInternalAutoSuspend == _FALSE && pwrpriv->bInSuspend) {
++		RTW_INFO("%s wait bInSuspend...\n", __func__);
++		while (pwrpriv->bInSuspend
++		       && ((rtw_get_passing_time_ms(start) <= 3000 && !rtw_is_do_late_resume(pwrpriv))
++			|| (rtw_get_passing_time_ms(start) <= 500 && rtw_is_do_late_resume(pwrpriv)))
++		      )
++			rtw_msleep_os(10);
++		if (pwrpriv->bInSuspend)
++			RTW_INFO("%s wait bInSuspend timeout\n", __func__);
++		else
++			RTW_INFO("%s wait bInSuspend done\n", __func__);
++	}
++
++	/* System suspend is not allowed to wakeup */
++	if ((pwrpriv->bInternalAutoSuspend == _FALSE) && (_TRUE == pwrpriv->bInSuspend)) {
++		ret = _FAIL;
++		goto exit;
++	}
++
++	/* block??? */
++	if ((pwrpriv->bInternalAutoSuspend == _TRUE)  && (padapter->net_closed == _TRUE)) {
++		ret = _FAIL;
++		goto exit;
++	}
++
++	/* I think this should be check in IPS, LPS, autosuspend functions... */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++#if defined(CONFIG_BT_COEXIST) && defined (CONFIG_AUTOSUSPEND)
++		if (_TRUE == pwrpriv->bInternalAutoSuspend) {
++			if (0 == pwrpriv->autopm_cnt) {
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 33))
++				if (usb_autopm_get_interface(adapter_to_dvobj(padapter)->pusbintf) < 0)
++					RTW_INFO("can't get autopm:\n");
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 20))
++				usb_autopm_disable(adapter_to_dvobj(padapter)->pusbintf);
++#else
++				usb_autoresume_device(adapter_to_dvobj(padapter)->pusbdev, 1);
++#endif
++				pwrpriv->autopm_cnt++;
++			}
++#endif	/* #if defined (CONFIG_BT_COEXIST) && defined (CONFIG_AUTOSUSPEND) */
++			ret = _SUCCESS;
++			goto exit;
++#if defined(CONFIG_BT_COEXIST) && defined (CONFIG_AUTOSUSPEND)
++		}
++#endif	/* #if defined (CONFIG_BT_COEXIST) && defined (CONFIG_AUTOSUSPEND) */
++	}
++
++	if (rf_off == pwrpriv->rf_pwrstate) {
++#ifdef CONFIG_USB_HCI
++#ifdef CONFIG_AUTOSUSPEND
++		if (pwrpriv->brfoffbyhw == _TRUE) {
++			RTW_INFO("hw still in rf_off state ...........\n");
++			ret = _FAIL;
++			goto exit;
++		} else if (padapter->registrypriv.usbss_enable) {
++			RTW_INFO("%s call autoresume_enter....\n", __FUNCTION__);
++			if (_FAIL ==  autoresume_enter(padapter)) {
++				RTW_INFO("======> autoresume fail.............\n");
++				ret = _FAIL;
++				goto exit;
++			}
++		} else
++#endif
++#endif
++		{
++#ifdef CONFIG_IPS
++			RTW_INFO("%s call ips_leave....\n", __FUNCTION__);
++			if (_FAIL ==  ips_leave(padapter)) {
++				RTW_INFO("======> ips_leave fail.............\n");
++				ret = _FAIL;
++				goto exit;
++			}
++#endif
++		}
++	}
++
++	/* TODO: the following checking need to be merged... */
++	if (rtw_is_drv_stopped(padapter)
++	    || !padapter->bup
++	    || !rtw_is_hw_init_completed(padapter)
++	   ) {
++		RTW_INFO("%s: bDriverStopped=%s, bup=%d, hw_init_completed=%u\n"
++			 , caller
++			 , rtw_is_drv_stopped(padapter) ? "True" : "False"
++			 , padapter->bup
++			 , rtw_get_hw_init_completed(padapter));
++		ret = _FALSE;
++		goto exit;
++	}
++
++exit:
++	if (pwrpriv->ips_deny_time < rtw_get_current_time() + rtw_ms_to_systime(ips_deffer_ms))
++		pwrpriv->ips_deny_time = rtw_get_current_time() + rtw_ms_to_systime(ips_deffer_ms);
++	return ret;
++
++}
++
++int rtw_pm_set_lps(_adapter *padapter, u8 mode)
++{
++	int	ret = 0;
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++
++	if (mode < PS_MODE_NUM) {
++		if (pwrctrlpriv->power_mgnt != mode) {
++			if (PS_MODE_ACTIVE == mode)
++				LeaveAllPowerSaveMode(padapter);
++			else
++				pwrctrlpriv->LpsIdleCount = 2;
++			pwrctrlpriv->power_mgnt = mode;
++			pwrctrlpriv->bLeisurePs = (PS_MODE_ACTIVE != pwrctrlpriv->power_mgnt) ? _TRUE : _FALSE;
++		}
++	} else
++		ret = -EINVAL;
++
++	return ret;
++}
++
++int rtw_pm_set_ips(_adapter *padapter, u8 mode)
++{
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++
++	if (mode == IPS_NORMAL || mode == IPS_LEVEL_2) {
++		rtw_ips_mode_req(pwrctrlpriv, mode);
++		RTW_INFO("%s %s\n", __FUNCTION__, mode == IPS_NORMAL ? "IPS_NORMAL" : "IPS_LEVEL_2");
++		return 0;
++	} else if (mode == IPS_NONE) {
++		rtw_ips_mode_req(pwrctrlpriv, mode);
++		RTW_INFO("%s %s\n", __FUNCTION__, "IPS_NONE");
++		if (!rtw_is_surprise_removed(padapter) && (_FAIL == rtw_pwr_wakeup(padapter)))
++			return -EFAULT;
++	} else
++		return -EINVAL;
++	return 0;
++}
++
++/*
++ * ATTENTION:
++ *	This function will request pwrctrl LOCK!
++ */
++void rtw_ps_deny(PADAPTER padapter, PS_DENY_REASON reason)
++{
++	struct pwrctrl_priv *pwrpriv;
++	s32 ret;
++
++
++	/* 	RTW_INFO("+" FUNC_ADPT_FMT ": Request PS deny for %d (0x%08X)\n",
++	 *		FUNC_ADPT_ARG(padapter), reason, BIT(reason)); */
++
++	pwrpriv = adapter_to_pwrctl(padapter);
++
++	_enter_pwrlock(&pwrpriv->lock);
++	if (pwrpriv->ps_deny & BIT(reason)) {
++		RTW_INFO(FUNC_ADPT_FMT ": [WARNING] Reason %d had been set before!!\n",
++			 FUNC_ADPT_ARG(padapter), reason);
++	}
++	pwrpriv->ps_deny |= BIT(reason);
++	_exit_pwrlock(&pwrpriv->lock);
++
++	/* 	RTW_INFO("-" FUNC_ADPT_FMT ": Now PS deny for 0x%08X\n",
++	 *		FUNC_ADPT_ARG(padapter), pwrpriv->ps_deny); */
++}
++
++/*
++ * ATTENTION:
++ *	This function will request pwrctrl LOCK!
++ */
++void rtw_ps_deny_cancel(PADAPTER padapter, PS_DENY_REASON reason)
++{
++	struct pwrctrl_priv *pwrpriv;
++
++
++	/* 	RTW_INFO("+" FUNC_ADPT_FMT ": Cancel PS deny for %d(0x%08X)\n",
++	 *		FUNC_ADPT_ARG(padapter), reason, BIT(reason)); */
++
++	pwrpriv = adapter_to_pwrctl(padapter);
++
++	_enter_pwrlock(&pwrpriv->lock);
++	if ((pwrpriv->ps_deny & BIT(reason)) == 0) {
++		RTW_INFO(FUNC_ADPT_FMT ": [ERROR] Reason %d had been canceled before!!\n",
++			 FUNC_ADPT_ARG(padapter), reason);
++	}
++	pwrpriv->ps_deny &= ~BIT(reason);
++	_exit_pwrlock(&pwrpriv->lock);
++
++	/* 	RTW_INFO("-" FUNC_ADPT_FMT ": Now PS deny for 0x%08X\n",
++	 *		FUNC_ADPT_ARG(padapter), pwrpriv->ps_deny); */
++}
++
++/*
++ * ATTENTION:
++ *	Before calling this function pwrctrl lock should be occupied already,
++ *	otherwise it may return incorrect value.
++ */
++u32 rtw_ps_deny_get(PADAPTER padapter)
++{
++	u32 deny;
++
++
++	deny = adapter_to_pwrctl(padapter)->ps_deny;
++
++	return deny;
++}
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_recv.c b/drivers/net/wireless/rtl8723du/core/rtw_recv.c
+new file mode 100644
+index 0000000..58ec74a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_recv.c
+@@ -0,0 +1,4566 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_RECV_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#if defined(PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++
++	#error "Shall be Linux or Windows, but not both!\n"
++
++#endif
++
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++void rtw_signal_stat_timer_hdl(RTW_TIMER_HDL_ARGS);
++
++enum {
++	SIGNAL_STAT_CALC_PROFILE_0 = 0,
++	SIGNAL_STAT_CALC_PROFILE_1,
++	SIGNAL_STAT_CALC_PROFILE_MAX
++};
++
++u8 signal_stat_calc_profile[SIGNAL_STAT_CALC_PROFILE_MAX][2] = {
++	{4, 1},	/* Profile 0 => pre_stat : curr_stat = 4 : 1 */
++	{3, 7}	/* Profile 1 => pre_stat : curr_stat = 3 : 7 */
++};
++
++#ifndef RTW_SIGNAL_STATE_CALC_PROFILE
++	#define RTW_SIGNAL_STATE_CALC_PROFILE SIGNAL_STAT_CALC_PROFILE_1
++#endif
++
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++
++void _rtw_init_sta_recv_priv(struct sta_recv_priv *psta_recvpriv)
++{
++
++
++
++	_rtw_memset((u8 *)psta_recvpriv, 0, sizeof(struct sta_recv_priv));
++
++	_rtw_spinlock_init(&psta_recvpriv->lock);
++
++	/* for(i=0; i<MAX_RX_NUMBLKS; i++) */
++	/*	_rtw_init_queue(&psta_recvpriv->blk_strms[i]); */
++
++	_rtw_init_queue(&psta_recvpriv->defrag_q);
++
++
++}
++
++sint _rtw_init_recv_priv(struct recv_priv *precvpriv, _adapter *padapter)
++{
++	sint i;
++
++	union recv_frame *precvframe;
++	sint	res = _SUCCESS;
++
++
++	/* We don't need to memset padapter->XXX to zero, because adapter is allocated by rtw_zvmalloc(). */
++	/* _rtw_memset((unsigned char *)precvpriv, 0, sizeof (struct  recv_priv)); */
++
++	_rtw_spinlock_init(&precvpriv->lock);
++
++	_rtw_init_queue(&precvpriv->free_recv_queue);
++	_rtw_init_queue(&precvpriv->recv_pending_queue);
++	_rtw_init_queue(&precvpriv->uc_swdec_pending_queue);
++
++	precvpriv->adapter = padapter;
++
++	precvpriv->free_recvframe_cnt = NR_RECVFRAME;
++
++	precvpriv->sink_udpport = 0;
++	precvpriv->pre_rtp_rxseq = 0;
++	precvpriv->cur_rtp_rxseq = 0;
++
++#ifdef DBG_RX_SIGNAL_DISPLAY_RAW_DATA
++	precvpriv->store_law_data_flag = 1;
++#else
++	precvpriv->store_law_data_flag = 0;
++#endif
++
++	rtw_os_recv_resource_init(precvpriv, padapter);
++
++	precvpriv->pallocated_frame_buf = rtw_zvmalloc(NR_RECVFRAME * sizeof(union recv_frame) + RXFRAME_ALIGN_SZ);
++
++	if (precvpriv->pallocated_frame_buf == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	/* _rtw_memset(precvpriv->pallocated_frame_buf, 0, NR_RECVFRAME * sizeof(union recv_frame) + RXFRAME_ALIGN_SZ); */
++
++	precvpriv->precv_frame_buf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(precvpriv->pallocated_frame_buf), RXFRAME_ALIGN_SZ);
++	/* precvpriv->precv_frame_buf = precvpriv->pallocated_frame_buf + RXFRAME_ALIGN_SZ - */
++	/*						((SIZE_PTR) (precvpriv->pallocated_frame_buf) &(RXFRAME_ALIGN_SZ-1)); */
++
++	precvframe = (union recv_frame *) precvpriv->precv_frame_buf;
++
++
++	for (i = 0; i < NR_RECVFRAME ; i++) {
++		_rtw_init_listhead(&(precvframe->u.list));
++
++		rtw_list_insert_tail(&(precvframe->u.list), &(precvpriv->free_recv_queue.queue));
++
++		res = rtw_os_recv_resource_alloc(padapter, precvframe);
++
++		precvframe->u.hdr.len = 0;
++
++		precvframe->u.hdr.adapter = padapter;
++		precvframe++;
++
++	}
++
++#ifdef CONFIG_USB_HCI
++
++	ATOMIC_SET(&(precvpriv->rx_pending_cnt), 1);
++
++	_rtw_init_sema(&precvpriv->allrxreturnevt, 0);
++
++#endif
++
++	res = rtw_hal_init_recv_priv(padapter);
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	rtw_init_timer(&precvpriv->signal_stat_timer, padapter, RTW_TIMER_HDL_NAME(signal_stat));
++
++	precvpriv->signal_stat_sampling_interval = 2000; /* ms */
++	/* precvpriv->signal_stat_converging_constant = 5000; */ /* ms */
++
++	rtw_set_signal_stat_timer(precvpriv);
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++
++exit:
++
++
++	return res;
++
++}
++
++void rtw_mfree_recv_priv_lock(struct recv_priv *precvpriv);
++void rtw_mfree_recv_priv_lock(struct recv_priv *precvpriv)
++{
++	_rtw_spinlock_free(&precvpriv->lock);
++#ifdef CONFIG_RECV_THREAD_MODE
++	_rtw_free_sema(&precvpriv->recv_sema);
++	_rtw_free_sema(&precvpriv->terminate_recvthread_sema);
++#endif
++
++	_rtw_spinlock_free(&precvpriv->free_recv_queue.lock);
++	_rtw_spinlock_free(&precvpriv->recv_pending_queue.lock);
++
++	_rtw_spinlock_free(&precvpriv->free_recv_buf_queue.lock);
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++	_rtw_spinlock_free(&precvpriv->recv_buf_pending_queue.lock);
++#endif /* CONFIG_USE_USB_BUFFER_ALLOC_RX */
++}
++
++void _rtw_free_recv_priv(struct recv_priv *precvpriv)
++{
++	_adapter	*padapter = precvpriv->adapter;
++
++
++	rtw_free_uc_swdec_pending_queue(padapter);
++
++	rtw_mfree_recv_priv_lock(precvpriv);
++
++	rtw_os_recv_resource_free(precvpriv);
++
++	if (precvpriv->pallocated_frame_buf)
++		rtw_vmfree(precvpriv->pallocated_frame_buf, NR_RECVFRAME * sizeof(union recv_frame) + RXFRAME_ALIGN_SZ);
++
++	rtw_hal_free_recv_priv(padapter);
++
++
++}
++
++bool rtw_rframe_del_wfd_ie(union recv_frame *rframe, u8 ies_offset)
++{
++#define DBG_RFRAME_DEL_WFD_IE 0
++	u8 *ies = rframe->u.hdr.rx_data + sizeof(struct rtw_ieee80211_hdr_3addr) + ies_offset;
++	uint ies_len_ori = rframe->u.hdr.len - (ies - rframe->u.hdr.rx_data);
++	uint ies_len;
++
++	ies_len = rtw_del_wfd_ie(ies, ies_len_ori, DBG_RFRAME_DEL_WFD_IE ? __func__ : NULL);
++	rframe->u.hdr.len -= ies_len_ori - ies_len;
++
++	return ies_len_ori != ies_len;
++}
++
++union recv_frame *_rtw_alloc_recvframe(_queue *pfree_recv_queue)
++{
++
++	union recv_frame  *precvframe;
++	_list	*plist, *phead;
++	_adapter *padapter;
++	struct recv_priv *precvpriv;
++
++	if (_rtw_queue_empty(pfree_recv_queue) == _TRUE)
++		precvframe = NULL;
++	else {
++		phead = get_list_head(pfree_recv_queue);
++
++		plist = get_next(phead);
++
++		precvframe = LIST_CONTAINOR(plist, union recv_frame, u);
++
++		rtw_list_delete(&precvframe->u.hdr.list);
++		padapter = precvframe->u.hdr.adapter;
++		if (padapter != NULL) {
++			precvpriv = &padapter->recvpriv;
++			if (pfree_recv_queue == &precvpriv->free_recv_queue)
++				precvpriv->free_recvframe_cnt--;
++		}
++	}
++
++
++	return precvframe;
++
++}
++
++union recv_frame *rtw_alloc_recvframe(_queue *pfree_recv_queue)
++{
++	_irqL irqL;
++	union recv_frame  *precvframe;
++
++	_enter_critical_bh(&pfree_recv_queue->lock, &irqL);
++
++	precvframe = _rtw_alloc_recvframe(pfree_recv_queue);
++
++	_exit_critical_bh(&pfree_recv_queue->lock, &irqL);
++
++	return precvframe;
++}
++
++void rtw_init_recvframe(union recv_frame *precvframe, struct recv_priv *precvpriv)
++{
++	/* Perry: This can be removed */
++	_rtw_init_listhead(&precvframe->u.hdr.list);
++
++	precvframe->u.hdr.len = 0;
++}
++
++int rtw_free_recvframe(union recv_frame *precvframe, _queue *pfree_recv_queue)
++{
++	_irqL irqL;
++	_adapter *padapter = precvframe->u.hdr.adapter;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++
++
++#ifdef CONFIG_CONCURRENT_MODE
++	padapter = GET_PRIMARY_ADAPTER(padapter);
++	precvpriv = &padapter->recvpriv;
++	pfree_recv_queue = &precvpriv->free_recv_queue;
++	precvframe->u.hdr.adapter = padapter;
++#endif
++
++
++	rtw_os_free_recvframe(precvframe);
++
++
++	_enter_critical_bh(&pfree_recv_queue->lock, &irqL);
++
++	rtw_list_delete(&(precvframe->u.hdr.list));
++
++	precvframe->u.hdr.len = 0;
++
++	rtw_list_insert_tail(&(precvframe->u.hdr.list), get_list_head(pfree_recv_queue));
++
++	if (padapter != NULL) {
++		if (pfree_recv_queue == &precvpriv->free_recv_queue)
++			precvpriv->free_recvframe_cnt++;
++	}
++
++	_exit_critical_bh(&pfree_recv_queue->lock, &irqL);
++
++
++	return _SUCCESS;
++
++}
++
++
++
++
++sint _rtw_enqueue_recvframe(union recv_frame *precvframe, _queue *queue)
++{
++
++	_adapter *padapter = precvframe->u.hdr.adapter;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++
++
++	/* _rtw_init_listhead(&(precvframe->u.hdr.list)); */
++	rtw_list_delete(&(precvframe->u.hdr.list));
++
++
++	rtw_list_insert_tail(&(precvframe->u.hdr.list), get_list_head(queue));
++
++	if (padapter != NULL) {
++		if (queue == &precvpriv->free_recv_queue)
++			precvpriv->free_recvframe_cnt++;
++	}
++
++
++	return _SUCCESS;
++}
++
++sint rtw_enqueue_recvframe(union recv_frame *precvframe, _queue *queue)
++{
++	sint ret;
++	_irqL irqL;
++
++	/* _spinlock(&pfree_recv_queue->lock); */
++	_enter_critical_bh(&queue->lock, &irqL);
++	ret = _rtw_enqueue_recvframe(precvframe, queue);
++	/* _rtw_spinunlock(&pfree_recv_queue->lock); */
++	_exit_critical_bh(&queue->lock, &irqL);
++
++	return ret;
++}
++
++/*
++sint	rtw_enqueue_recvframe(union recv_frame *precvframe, _queue *queue)
++{
++	return rtw_free_recvframe(precvframe, queue);
++}
++*/
++
++
++
++
++/*
++caller : defrag ; recvframe_chk_defrag in recv_thread  (passive)
++pframequeue: defrag_queue : will be accessed in recv_thread  (passive)
++
++using spinlock to protect
++
++*/
++
++void rtw_free_recvframe_queue(_queue *pframequeue,  _queue *pfree_recv_queue)
++{
++	union	recv_frame	*precvframe;
++	_list	*plist, *phead;
++
++	_rtw_spinlock(&pframequeue->lock);
++
++	phead = get_list_head(pframequeue);
++	plist = get_next(phead);
++
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		precvframe = LIST_CONTAINOR(plist, union recv_frame, u);
++
++		plist = get_next(plist);
++
++		/* rtw_list_delete(&precvframe->u.hdr.list); */ /* will do this in rtw_free_recvframe() */
++
++		rtw_free_recvframe(precvframe, pfree_recv_queue);
++	}
++
++	_rtw_spinunlock(&pframequeue->lock);
++
++
++}
++
++u32 rtw_free_uc_swdec_pending_queue(_adapter *adapter)
++{
++	u32 cnt = 0;
++	union recv_frame *pending_frame;
++	while ((pending_frame = rtw_alloc_recvframe(&adapter->recvpriv.uc_swdec_pending_queue))) {
++		rtw_free_recvframe(pending_frame, &adapter->recvpriv.free_recv_queue);
++		cnt++;
++	}
++
++	if (cnt)
++		RTW_INFO(FUNC_ADPT_FMT" dequeue %d\n", FUNC_ADPT_ARG(adapter), cnt);
++
++	return cnt;
++}
++
++
++sint rtw_enqueue_recvbuf_to_head(struct recv_buf *precvbuf, _queue *queue)
++{
++	_irqL irqL;
++
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	rtw_list_delete(&precvbuf->list);
++	rtw_list_insert_head(&precvbuf->list, get_list_head(queue));
++
++	_exit_critical_bh(&queue->lock, &irqL);
++
++	return _SUCCESS;
++}
++
++sint rtw_enqueue_recvbuf(struct recv_buf *precvbuf, _queue *queue)
++{
++	_irqL irqL;
++#ifdef CONFIG_SDIO_HCI
++	_enter_critical_bh(&queue->lock, &irqL);
++#else
++	_enter_critical_ex(&queue->lock, &irqL);
++#endif/*#ifdef CONFIG_SDIO_HCI*/
++
++	rtw_list_delete(&precvbuf->list);
++
++	rtw_list_insert_tail(&precvbuf->list, get_list_head(queue));
++#ifdef CONFIG_SDIO_HCI
++	_exit_critical_bh(&queue->lock, &irqL);
++#else
++	_exit_critical_ex(&queue->lock, &irqL);
++#endif/*#ifdef CONFIG_SDIO_HCI*/
++	return _SUCCESS;
++
++}
++
++struct recv_buf *rtw_dequeue_recvbuf(_queue *queue)
++{
++	_irqL irqL;
++	struct recv_buf *precvbuf;
++	_list	*plist, *phead;
++
++#ifdef CONFIG_SDIO_HCI
++	_enter_critical_bh(&queue->lock, &irqL);
++#else
++	_enter_critical_ex(&queue->lock, &irqL);
++#endif/*#ifdef CONFIG_SDIO_HCI*/
++
++	if (_rtw_queue_empty(queue) == _TRUE)
++		precvbuf = NULL;
++	else {
++		phead = get_list_head(queue);
++
++		plist = get_next(phead);
++
++		precvbuf = LIST_CONTAINOR(plist, struct recv_buf, list);
++
++		rtw_list_delete(&precvbuf->list);
++
++	}
++
++#ifdef CONFIG_SDIO_HCI
++	_exit_critical_bh(&queue->lock, &irqL);
++#else
++	_exit_critical_ex(&queue->lock, &irqL);
++#endif/*#ifdef CONFIG_SDIO_HCI*/
++
++	return precvbuf;
++
++}
++
++sint recvframe_chkmic(_adapter *adapter,  union recv_frame *precvframe);
++sint recvframe_chkmic(_adapter *adapter,  union recv_frame *precvframe)
++{
++
++	sint	i, res = _SUCCESS;
++	u32	datalen;
++	u8	miccode[8];
++	u8	bmic_err = _FALSE, brpt_micerror = _TRUE;
++	u8	*pframe, *payload, *pframemic;
++	u8	*mickey;
++	/* u8	*iv,rxdata_key_idx=0; */
++	struct	sta_info		*stainfo;
++	struct	rx_pkt_attrib	*prxattrib = &precvframe->u.hdr.attrib;
++	struct	security_priv	*psecuritypriv = &adapter->securitypriv;
++
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	stainfo = rtw_get_stainfo(&adapter->stapriv , &prxattrib->ta[0]);
++
++	if (prxattrib->encrypt == _TKIP_) {
++
++		/* calculate mic code */
++		if (stainfo != NULL) {
++			if (IS_MCAST(prxattrib->ra)) {
++				/* mickey=&psecuritypriv->dot118021XGrprxmickey.skey[0]; */
++				/* iv = precvframe->u.hdr.rx_data+prxattrib->hdrlen; */
++				/* rxdata_key_idx =( ((iv[3])>>6)&0x3) ; */
++				mickey = &psecuritypriv->dot118021XGrprxmickey[prxattrib->key_index].skey[0];
++
++				/* RTW_INFO("\n recvframe_chkmic: bcmc key psecuritypriv->dot118021XGrpKeyid(%d),pmlmeinfo->key_index(%d) ,recv key_id(%d)\n", */
++				/*								psecuritypriv->dot118021XGrpKeyid,pmlmeinfo->key_index,rxdata_key_idx); */
++
++				if (psecuritypriv->binstallGrpkey == _FALSE) {
++					res = _FAIL;
++					RTW_INFO("\n recvframe_chkmic:didn't install group key!!!!!!!!!!\n");
++					goto exit;
++				}
++			} else {
++				mickey = &stainfo->dot11tkiprxmickey.skey[0];
++			}
++
++			datalen = precvframe->u.hdr.len - prxattrib->hdrlen - prxattrib->iv_len - prxattrib->icv_len - 8; /* icv_len included the mic code */
++			pframe = precvframe->u.hdr.rx_data;
++			payload = pframe + prxattrib->hdrlen + prxattrib->iv_len;
++
++
++			/* rtw_seccalctkipmic(&stainfo->dot11tkiprxmickey.skey[0],pframe,payload, datalen ,&miccode[0],(unsigned char)prxattrib->priority); */ /* care the length of the data */
++
++			rtw_seccalctkipmic(mickey, pframe, payload, datalen , &miccode[0], (unsigned char)prxattrib->priority); /* care the length of the data */
++
++			pframemic = payload + datalen;
++
++			bmic_err = _FALSE;
++
++			for (i = 0; i < 8; i++) {
++				if (miccode[i] != *(pframemic + i)) {
++					bmic_err = _TRUE;
++				}
++			}
++
++
++			if (bmic_err == _TRUE) {
++
++
++
++				/* double check key_index for some timing issue , */
++				/* cannot compare with psecuritypriv->dot118021XGrpKeyid also cause timing issue */
++				if ((IS_MCAST(prxattrib->ra) == _TRUE)  && (prxattrib->key_index != pmlmeinfo->key_index))
++					brpt_micerror = _FALSE;
++
++				if ((prxattrib->bdecrypted == _TRUE) && (brpt_micerror == _TRUE)) {
++					rtw_handle_tkip_mic_err(adapter, stainfo, (u8)IS_MCAST(prxattrib->ra));
++					RTW_INFO(" mic error :prxattrib->bdecrypted=%d\n", prxattrib->bdecrypted);
++				} else {
++					RTW_INFO(" mic error :prxattrib->bdecrypted=%d\n", prxattrib->bdecrypted);
++				}
++
++				res = _FAIL;
++
++			} else {
++				/* mic checked ok */
++				if ((psecuritypriv->bcheck_grpkey == _FALSE) && (IS_MCAST(prxattrib->ra) == _TRUE)) {
++					psecuritypriv->bcheck_grpkey = _TRUE;
++				}
++			}
++
++		}
++
++		recvframe_pull_tail(precvframe, 8);
++
++	}
++
++exit:
++
++
++	return res;
++
++}
++
++/*#define DBG_RX_SW_DECRYPTOR*/
++
++/* decrypt and set the ivlen,icvlen of the recv_frame */
++union recv_frame *decryptor(_adapter *padapter, union recv_frame *precv_frame);
++union recv_frame *decryptor(_adapter *padapter, union recv_frame *precv_frame)
++{
++
++	struct rx_pkt_attrib *prxattrib = &precv_frame->u.hdr.attrib;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	union recv_frame *return_packet = precv_frame;
++	u32	 res = _SUCCESS;
++
++
++	DBG_COUNTER(padapter->rx_logs.core_rx_post_decrypt);
++
++
++	if (prxattrib->encrypt > 0) {
++		u8 *iv = precv_frame->u.hdr.rx_data + prxattrib->hdrlen;
++		prxattrib->key_index = (((iv[3]) >> 6) & 0x3) ;
++
++		if (prxattrib->key_index > WEP_KEYS) {
++			RTW_INFO("prxattrib->key_index(%d) > WEP_KEYS\n", prxattrib->key_index);
++
++			switch (prxattrib->encrypt) {
++			case _WEP40_:
++			case _WEP104_:
++				prxattrib->key_index = psecuritypriv->dot11PrivacyKeyIndex;
++				break;
++			case _TKIP_:
++			case _AES_:
++			default:
++				prxattrib->key_index = psecuritypriv->dot118021XGrpKeyid;
++				break;
++			}
++		}
++	}
++
++	if ((prxattrib->encrypt > 0) && ((prxattrib->bdecrypted == 0) || (psecuritypriv->sw_decrypt == _TRUE))) {
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (!IS_MCAST(prxattrib->ra)) /* bc/mc packets use sw decryption for concurrent mode */
++#endif
++			psecuritypriv->hw_decrypted = _FALSE;
++
++#ifdef DBG_RX_SW_DECRYPTOR
++		RTW_INFO(ADPT_FMT" - sec_type:%s DO SW decryption\n",
++			ADPT_ARG(padapter), security_type_str(prxattrib->encrypt));
++#endif
++
++#ifdef DBG_RX_DECRYPTOR
++		RTW_INFO("[%s] %d:prxstat->bdecrypted:%d,  prxattrib->encrypt:%d,  Setting psecuritypriv->hw_decrypted = %d\n",
++			 __FUNCTION__,
++			 __LINE__,
++			 prxattrib->bdecrypted,
++			 prxattrib->encrypt,
++			 psecuritypriv->hw_decrypted);
++#endif
++
++		switch (prxattrib->encrypt) {
++		case _WEP40_:
++		case _WEP104_:
++			DBG_COUNTER(padapter->rx_logs.core_rx_post_decrypt_wep);
++			rtw_wep_decrypt(padapter, (u8 *)precv_frame);
++			break;
++		case _TKIP_:
++			DBG_COUNTER(padapter->rx_logs.core_rx_post_decrypt_tkip);
++			res = rtw_tkip_decrypt(padapter, (u8 *)precv_frame);
++			break;
++		case _AES_:
++			DBG_COUNTER(padapter->rx_logs.core_rx_post_decrypt_aes);
++			res = rtw_aes_decrypt(padapter, (u8 *)precv_frame);
++			break;
++#ifdef CONFIG_WAPI_SUPPORT
++		case _SMS4_:
++			DBG_COUNTER(padapter->rx_logs.core_rx_post_decrypt_wapi);
++			rtw_sms4_decrypt(padapter, (u8 *)precv_frame);
++			break;
++#endif
++		default:
++			break;
++		}
++	} else if (prxattrib->bdecrypted == 1
++		   && prxattrib->encrypt > 0
++		&& (psecuritypriv->busetkipkey == 1 || prxattrib->encrypt != _TKIP_)
++		  ) {
++#if 0
++		if ((prxstat->icv == 1) && (prxattrib->encrypt != _AES_)) {
++			psecuritypriv->hw_decrypted = _FALSE;
++
++
++			rtw_free_recvframe(precv_frame, &padapter->recvpriv.free_recv_queue);
++
++			return_packet = NULL;
++
++		} else
++#endif
++		{
++			DBG_COUNTER(padapter->rx_logs.core_rx_post_decrypt_hw);
++
++			psecuritypriv->hw_decrypted = _TRUE;
++#ifdef DBG_RX_DECRYPTOR
++			RTW_INFO("[%s] %d:prxstat->bdecrypted:%d,  prxattrib->encrypt:%d,  Setting psecuritypriv->hw_decrypted = %d\n",
++				 __FUNCTION__,
++				 __LINE__,
++				 prxattrib->bdecrypted,
++				 prxattrib->encrypt,
++				 psecuritypriv->hw_decrypted);
++
++#endif
++		}
++	} else {
++		DBG_COUNTER(padapter->rx_logs.core_rx_post_decrypt_unknown);
++#ifdef DBG_RX_DECRYPTOR
++		RTW_INFO("[%s] %d:prxstat->bdecrypted:%d,  prxattrib->encrypt:%d,  Setting psecuritypriv->hw_decrypted = %d\n",
++			 __FUNCTION__,
++			 __LINE__,
++			 prxattrib->bdecrypted,
++			 prxattrib->encrypt,
++			 psecuritypriv->hw_decrypted);
++#endif
++	}
++
++	if (res == _FAIL) {
++		rtw_free_recvframe(return_packet, &padapter->recvpriv.free_recv_queue);
++		return_packet = NULL;
++	} else
++		prxattrib->bdecrypted = _TRUE;
++	/* recvframe_chkmic(adapter, precv_frame);   */ /* move to recvframme_defrag function */
++
++
++	return return_packet;
++
++}
++/* ###set the security information in the recv_frame */
++union recv_frame *portctrl(_adapter *adapter, union recv_frame *precv_frame);
++union recv_frame *portctrl(_adapter *adapter, union recv_frame *precv_frame)
++{
++	u8 *psta_addr = NULL;
++	u8 *ptr;
++	uint  auth_alg;
++	struct recv_frame_hdr *pfhdr;
++	struct sta_info *psta;
++	struct sta_priv *pstapriv ;
++	union recv_frame *prtnframe;
++	u16	ether_type = 0;
++	u16  eapol_type = 0x888e;/* for Funia BD's WPA issue  */
++	struct rx_pkt_attrib *pattrib;
++
++
++	pstapriv = &adapter->stapriv;
++
++	auth_alg = adapter->securitypriv.dot11AuthAlgrthm;
++
++	ptr = get_recvframe_data(precv_frame);
++	pfhdr = &precv_frame->u.hdr;
++	pattrib = &pfhdr->attrib;
++	psta_addr = pattrib->ta;
++
++	prtnframe = NULL;
++
++	psta = rtw_get_stainfo(pstapriv, psta_addr);
++
++
++	if (auth_alg == dot11AuthAlgrthm_8021X) {
++		if ((psta != NULL) && (psta->ieee8021x_blocked)) {
++			/* blocked */
++			/* only accept EAPOL frame */
++
++			prtnframe = precv_frame;
++
++			/* get ether_type */
++			ptr = ptr + pfhdr->attrib.hdrlen + pfhdr->attrib.iv_len + LLC_HEADER_SIZE;
++			_rtw_memcpy(&ether_type, ptr, 2);
++			ether_type = ntohs((unsigned short)ether_type);
++
++			if (ether_type == eapol_type)
++				prtnframe = precv_frame;
++			else {
++				/* free this frame */
++				rtw_free_recvframe(precv_frame, &adapter->recvpriv.free_recv_queue);
++				prtnframe = NULL;
++			}
++		} else {
++			/* allowed */
++			/* check decryption status, and decrypt the frame if needed */
++
++
++			prtnframe = precv_frame;
++			/* check is the EAPOL frame or not (Rekey) */
++			/* if(ether_type == eapol_type){ */
++			/* check Rekey */
++
++			/*	prtnframe=precv_frame; */
++			/* } */
++		}
++	} else
++		prtnframe = precv_frame;
++
++
++	return prtnframe;
++
++}
++
++sint recv_decache(union recv_frame *precv_frame, u8 bretry, struct stainfo_rxcache *prxcache);
++sint recv_decache(union recv_frame *precv_frame, u8 bretry, struct stainfo_rxcache *prxcache)
++{
++	sint tid = precv_frame->u.hdr.attrib.priority;
++
++	u16 seq_ctrl = ((precv_frame->u.hdr.attrib.seq_num & 0xffff) << 4) |
++		       (precv_frame->u.hdr.attrib.frag_num & 0xf);
++
++
++	if (tid > 15) {
++
++		return _FAIL;
++	}
++
++	if (1) { /* if(bretry) */
++		if (seq_ctrl == prxcache->tid_rxseq[tid]) {
++
++			return _FAIL;
++		}
++	}
++
++	prxcache->tid_rxseq[tid] = seq_ctrl;
++
++
++	return _SUCCESS;
++
++}
++
++void process_pwrbit_data(_adapter *padapter, union recv_frame *precv_frame);
++void process_pwrbit_data(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_AP_MODE
++	unsigned char pwrbit;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta = NULL;
++
++	psta = rtw_get_stainfo(pstapriv, pattrib->src);
++
++	pwrbit = GetPwrMgt(ptr);
++
++	if (psta) {
++		if (pwrbit) {
++			if (!(psta->state & WIFI_SLEEP_STATE)) {
++				/* psta->state |= WIFI_SLEEP_STATE; */
++				/* pstapriv->sta_dz_bitmap |= BIT(psta->aid); */
++
++				stop_sta_xmit(padapter, psta);
++
++				/* RTW_INFO("to sleep, sta_dz_bitmap=%x\n", pstapriv->sta_dz_bitmap); */
++			}
++		} else {
++			if (psta->state & WIFI_SLEEP_STATE) {
++				/* psta->state ^= WIFI_SLEEP_STATE; */
++				/* pstapriv->sta_dz_bitmap &= ~BIT(psta->aid); */
++
++				wakeup_sta_to_xmit(padapter, psta);
++
++				/* RTW_INFO("to wakeup, sta_dz_bitmap=%x\n", pstapriv->sta_dz_bitmap); */
++			}
++		}
++
++	}
++
++#endif
++}
++
++void process_wmmps_data(_adapter *padapter, union recv_frame *precv_frame);
++void process_wmmps_data(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_AP_MODE
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta = NULL;
++
++	psta = rtw_get_stainfo(pstapriv, pattrib->src);
++
++	if (!psta)
++		return;
++
++#ifdef CONFIG_TDLS
++	if (!(psta->tdls_sta_state & TDLS_LINKED_STATE)) {
++#endif /* CONFIG_TDLS */
++
++		if (!psta->qos_option)
++			return;
++
++		if (!(psta->qos_info & 0xf))
++			return;
++
++#ifdef CONFIG_TDLS
++	}
++#endif /* CONFIG_TDLS		 */
++
++	if (psta->state & WIFI_SLEEP_STATE) {
++		u8 wmmps_ac = 0;
++
++		switch (pattrib->priority) {
++		case 1:
++		case 2:
++			wmmps_ac = psta->uapsd_bk & BIT(1);
++			break;
++		case 4:
++		case 5:
++			wmmps_ac = psta->uapsd_vi & BIT(1);
++			break;
++		case 6:
++		case 7:
++			wmmps_ac = psta->uapsd_vo & BIT(1);
++			break;
++		case 0:
++		case 3:
++		default:
++			wmmps_ac = psta->uapsd_be & BIT(1);
++			break;
++		}
++
++		if (wmmps_ac) {
++			if (psta->sleepq_ac_len > 0) {
++				/* process received triggered frame */
++				xmit_delivery_enabled_frames(padapter, psta);
++			} else {
++				/* issue one qos null frame with More data bit = 0 and the EOSP bit set (=1) */
++				issue_qos_nulldata(padapter, psta->hwaddr, (u16)pattrib->priority, 0, 0);
++			}
++		}
++
++	}
++
++
++#endif
++
++}
++
++#ifdef CONFIG_TDLS
++sint OnTDLS(_adapter *adapter, union recv_frame *precv_frame)
++{
++	struct rx_pkt_attrib	*pattrib = &precv_frame->u.hdr.attrib;
++	sint ret = _SUCCESS;
++	u8 *paction = get_recvframe_data(precv_frame);
++	u8 category_field = 1;
++#ifdef CONFIG_WFD
++	u8 WFA_OUI[3] = { 0x50, 0x6f, 0x9a };
++#endif /* CONFIG_WFD */
++	struct tdls_info *ptdlsinfo = &(adapter->tdlsinfo);
++
++	/* point to action field */
++	paction += pattrib->hdrlen
++		   + pattrib->iv_len
++		   + SNAP_SIZE
++		   + ETH_TYPE_LEN
++		   + PAYLOAD_TYPE_LEN
++		   + category_field;
++
++	RTW_INFO("[TDLS] Recv %s from "MAC_FMT" with SeqNum = %d\n", rtw_tdls_action_txt(*paction), MAC_ARG(pattrib->src), GetSequence(get_recvframe_data(precv_frame)));
++
++	if (hal_chk_wl_func(adapter, WL_FUNC_TDLS) == _FALSE) {
++		RTW_INFO("Ignore tdls frame since hal doesn't support tdls\n");
++		ret = _FAIL;
++		return ret;
++	}
++
++	if (ptdlsinfo->tdls_enable == _FALSE) {
++		RTW_INFO("recv tdls frame, "
++			 "but tdls haven't enabled\n");
++		ret = _FAIL;
++		return ret;
++	}
++
++	switch (*paction) {
++	case TDLS_SETUP_REQUEST:
++		ret = On_TDLS_Setup_Req(adapter, precv_frame);
++		break;
++	case TDLS_SETUP_RESPONSE:
++		ret = On_TDLS_Setup_Rsp(adapter, precv_frame);
++		break;
++	case TDLS_SETUP_CONFIRM:
++		ret = On_TDLS_Setup_Cfm(adapter, precv_frame);
++		break;
++	case TDLS_TEARDOWN:
++		ret = On_TDLS_Teardown(adapter, precv_frame);
++		break;
++	case TDLS_DISCOVERY_REQUEST:
++		ret = On_TDLS_Dis_Req(adapter, precv_frame);
++		break;
++	case TDLS_PEER_TRAFFIC_INDICATION:
++		ret = On_TDLS_Peer_Traffic_Indication(adapter, precv_frame);
++		break;
++	case TDLS_PEER_TRAFFIC_RESPONSE:
++		ret = On_TDLS_Peer_Traffic_Rsp(adapter, precv_frame);
++		break;
++#ifdef CONFIG_TDLS_CH_SW
++	case TDLS_CHANNEL_SWITCH_REQUEST:
++		ret = On_TDLS_Ch_Switch_Req(adapter, precv_frame);
++		break;
++	case TDLS_CHANNEL_SWITCH_RESPONSE:
++		ret = On_TDLS_Ch_Switch_Rsp(adapter, precv_frame);
++		break;
++#endif
++#ifdef CONFIG_WFD
++	/* First byte of WFA OUI */
++	case 0x50:
++		if (_rtw_memcmp(WFA_OUI, paction, 3)) {
++			/* Probe request frame */
++			if (*(paction + 3) == 0x04) {
++				/* WFDTDLS: for sigma test, do not setup direct link automatically */
++				ptdlsinfo->dev_discovered = _TRUE;
++				RTW_INFO("recv tunneled probe request frame\n");
++				issue_tunneled_probe_rsp(adapter, precv_frame);
++			}
++			/* Probe response frame */
++			if (*(paction + 3) == 0x05) {
++				/* WFDTDLS: for sigma test, do not setup direct link automatically */
++				ptdlsinfo->dev_discovered = _TRUE;
++				RTW_INFO("recv tunneled probe response frame\n");
++			}
++		}
++		break;
++#endif /* CONFIG_WFD */
++	default:
++		RTW_INFO("receive TDLS frame %d but not support\n", *paction);
++		ret = _FAIL;
++		break;
++	}
++
++exit:
++	return ret;
++
++}
++#endif /* CONFIG_TDLS */
++
++void count_rx_stats(_adapter *padapter, union recv_frame *prframe, struct sta_info *sta);
++void count_rx_stats(_adapter *padapter, union recv_frame *prframe, struct sta_info *sta)
++{
++	int	sz;
++	struct sta_info		*psta = NULL;
++	struct stainfo_stats	*pstats = NULL;
++	struct rx_pkt_attrib	*pattrib = &prframe->u.hdr.attrib;
++	struct recv_priv		*precvpriv = &padapter->recvpriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	sz = get_recvframe_len(prframe);
++	precvpriv->rx_bytes += sz;
++
++	padapter->mlmepriv.LinkDetectInfo.NumRxOkInPeriod++;
++
++	if ((!MacAddr_isBcst(pattrib->dst)) && (!IS_MCAST(pattrib->dst)))
++		padapter->mlmepriv.LinkDetectInfo.NumRxUnicastOkInPeriod++;
++
++	if (sta)
++		psta = sta;
++	else
++		psta = prframe->u.hdr.psta;
++
++	if (psta) {
++		pstats = &psta->sta_stats;
++
++		pstats->rx_data_pkts++;
++		pstats->rx_bytes += sz;
++
++		/*record rx packets for every tid*/
++		pstats->rx_data_qos_pkts[pattrib->priority]++;
++
++#ifdef CONFIG_TDLS
++		if (psta->tdls_sta_state & TDLS_LINKED_STATE) {
++			struct sta_info *pap_sta = NULL;
++			pap_sta = rtw_get_stainfo(&padapter->stapriv, get_bssid(&padapter->mlmepriv));
++			if (pap_sta) {
++				pstats = &pap_sta->sta_stats;
++				pstats->rx_data_pkts++;
++				pstats->rx_bytes += sz;
++			}
++		}
++#endif /* CONFIG_TDLS */
++	}
++
++#ifdef CONFIG_CHECK_LEAVE_LPS
++	traffic_check_for_leave_lps(padapter, _FALSE, 0);
++#endif /* CONFIG_LPS */
++
++}
++
++sint sta2sta_data_frame(
++	_adapter *adapter,
++	union recv_frame *precv_frame,
++	struct sta_info **psta
++);
++sint sta2sta_data_frame(
++	_adapter *adapter,
++	union recv_frame *precv_frame,
++	struct sta_info **psta
++)
++{
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	sint ret = _SUCCESS;
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	struct	sta_priv		*pstapriv = &adapter->stapriv;
++	struct	mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++	u8 *mybssid  = get_bssid(pmlmepriv);
++	u8 *myhwaddr = adapter_mac_addr(adapter);
++	u8 *sta_addr = NULL;
++	sint bmcast = IS_MCAST(pattrib->dst);
++
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &adapter->tdlsinfo;
++#ifdef CONFIG_TDLS_CH_SW
++	struct tdls_ch_switch *pchsw_info = &ptdlsinfo->chsw_info;
++#endif
++	struct sta_info *ptdls_sta = NULL;
++	u8 *psnap_type = ptr + pattrib->hdrlen + pattrib->iv_len + SNAP_SIZE;
++	/* frame body located after [+2]: ether-type, [+1]: payload type */
++	u8 *pframe_body = psnap_type + 2 + 1;
++#endif
++
++
++	/* RTW_INFO("[%s] %d, seqnum:%d\n", __FUNCTION__, __LINE__, pattrib->seq_num); */
++
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) ||
++	    (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE)) {
++
++		/* filter packets that SA is myself or multicast or broadcast */
++		if (_rtw_memcmp(myhwaddr, pattrib->src, ETH_ALEN)) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		if ((!_rtw_memcmp(myhwaddr, pattrib->dst, ETH_ALEN))	&& (!bmcast)) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		if (_rtw_memcmp(pattrib->bssid, "\x0\x0\x0\x0\x0\x0", ETH_ALEN) ||
++		    _rtw_memcmp(mybssid, "\x0\x0\x0\x0\x0\x0", ETH_ALEN) ||
++		    (!_rtw_memcmp(pattrib->bssid, mybssid, ETH_ALEN))) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		sta_addr = pattrib->src;
++
++	} else if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE) {
++#ifdef CONFIG_TDLS
++
++		/* direct link data transfer */
++		if (ptdlsinfo->link_established == _TRUE) {
++			ptdls_sta = rtw_get_stainfo(pstapriv, pattrib->src);
++			if (ptdls_sta == NULL) {
++				ret = _FAIL;
++				goto exit;
++			} else if (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE) {
++				/* filter packets that SA is myself or multicast or broadcast */
++				if (_rtw_memcmp(myhwaddr, pattrib->src, ETH_ALEN)) {
++					ret = _FAIL;
++					goto exit;
++				}
++				/* da should be for me */
++				if ((!_rtw_memcmp(myhwaddr, pattrib->dst, ETH_ALEN)) && (!bmcast)) {
++					ret = _FAIL;
++					goto exit;
++				}
++				/* check BSSID */
++				if (_rtw_memcmp(pattrib->bssid, "\x0\x0\x0\x0\x0\x0", ETH_ALEN) ||
++				    _rtw_memcmp(mybssid, "\x0\x0\x0\x0\x0\x0", ETH_ALEN) ||
++				    (!_rtw_memcmp(pattrib->bssid, mybssid, ETH_ALEN))) {
++					ret = _FAIL;
++					goto exit;
++				}
++
++#ifdef CONFIG_TDLS_CH_SW
++				if (ATOMIC_READ(&pchsw_info->chsw_on) == _TRUE) {
++					if (adapter->mlmeextpriv.cur_channel != rtw_get_oper_ch(adapter)) {
++						pchsw_info->ch_sw_state |= TDLS_PEER_AT_OFF_STATE;
++						if (!(pchsw_info->ch_sw_state & TDLS_CH_SW_INITIATOR_STATE))
++							_cancel_timer_ex(&ptdls_sta->ch_sw_timer);
++						/* On_TDLS_Peer_Traffic_Rsp(adapter, precv_frame); */
++					}
++				}
++#endif
++
++				/* process UAPSD tdls sta */
++				process_pwrbit_data(adapter, precv_frame);
++
++				/* if NULL-frame, check pwrbit */
++				if ((GetFrameSubType(ptr) & WIFI_DATA_NULL) == WIFI_DATA_NULL) {
++					/* NULL-frame with pwrbit=1, buffer_STA should buffer frames for sleep_STA */
++					if (GetPwrMgt(ptr)) {
++						/* it would be triggered when we are off channel and receiving NULL DATA */
++						/* we can confirm that peer STA is at off channel */
++						RTW_INFO("TDLS: recv peer null frame with pwr bit 1\n");
++						/* ptdls_sta->tdls_sta_state|=TDLS_PEER_SLEEP_STATE; */
++					}
++
++					/* TODO: Updated BSSID's seq. */
++					/* RTW_INFO("drop Null Data\n"); */
++					ptdls_sta->tdls_sta_state &= ~(TDLS_WAIT_PTR_STATE);
++					ret = _FAIL;
++					goto exit;
++				}
++
++				/* receive some of all TDLS management frames, process it at ON_TDLS */
++				if (_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_TDLS, 2)) {
++					ret = OnTDLS(adapter, precv_frame);
++					goto exit;
++				}
++
++				if ((GetFrameSubType(ptr) & WIFI_QOS_DATA_TYPE) == WIFI_QOS_DATA_TYPE)
++					process_wmmps_data(adapter, precv_frame);
++
++				ptdls_sta->tdls_sta_state &= ~(TDLS_WAIT_PTR_STATE);
++
++			}
++
++			sta_addr = pattrib->src;
++
++		} else
++#endif /* CONFIG_TDLS */
++		{
++			/* For Station mode, sa and bssid should always be BSSID, and DA is my mac-address */
++			if (!_rtw_memcmp(pattrib->bssid, pattrib->src, ETH_ALEN)) {
++				ret = _FAIL;
++				goto exit;
++			}
++
++			sta_addr = pattrib->bssid;
++		}
++
++	} else if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++		if (bmcast) {
++			/* For AP mode, if DA == MCAST, then BSSID should be also MCAST */
++			if (!IS_MCAST(pattrib->bssid)) {
++				ret = _FAIL;
++				goto exit;
++			}
++		} else { /* not mc-frame */
++			/* For AP mode, if DA is non-MCAST, then it must be BSSID, and bssid == BSSID */
++			if (!_rtw_memcmp(pattrib->bssid, pattrib->dst, ETH_ALEN)) {
++				ret = _FAIL;
++				goto exit;
++			}
++
++			sta_addr = pattrib->src;
++		}
++
++	} else if (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE) {
++		_rtw_memcpy(pattrib->dst, GetAddr1Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->src, GetAddr2Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->bssid, GetAddr3Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++		sta_addr = mybssid;
++	} else
++		ret  = _FAIL;
++
++
++
++	if (bmcast)
++		*psta = rtw_get_bcmc_stainfo(adapter);
++	else
++		*psta = rtw_get_stainfo(pstapriv, sta_addr); /* get ap_info */
++
++#ifdef CONFIG_TDLS
++	if (ptdls_sta != NULL)
++		*psta = ptdls_sta;
++#endif /* CONFIG_TDLS */
++
++	if (*psta == NULL) {
++#ifdef CONFIG_MP_INCLUDED
++		if (adapter->registrypriv.mp_mode == 1) {
++			if (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE)
++				adapter->mppriv.rx_pktloss++;
++		}
++#endif
++		ret = _FAIL;
++		goto exit;
++	}
++
++exit:
++	return ret;
++
++}
++
++sint ap2sta_data_frame(
++	_adapter *adapter,
++	union recv_frame *precv_frame,
++	struct sta_info **psta);
++sint ap2sta_data_frame(
++	_adapter *adapter,
++	union recv_frame *precv_frame,
++	struct sta_info **psta)
++{
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	sint ret = _SUCCESS;
++	struct	sta_priv		*pstapriv = &adapter->stapriv;
++	struct	mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++	u8 *mybssid  = get_bssid(pmlmepriv);
++	u8 *myhwaddr = adapter_mac_addr(adapter);
++	sint bmcast = IS_MCAST(pattrib->dst);
++
++
++	if ((check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++	    && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE
++		|| check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE)
++	   ) {
++
++		/* filter packets that SA is myself or multicast or broadcast */
++		if (_rtw_memcmp(myhwaddr, pattrib->src, ETH_ALEN)) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s SA="MAC_FMT", myhwaddr="MAC_FMT"\n",
++				__FUNCTION__, MAC_ARG(pattrib->src), MAC_ARG(myhwaddr));
++#endif
++			ret = _FAIL;
++			goto exit;
++		}
++
++		/* da should be for me */
++		if ((!_rtw_memcmp(myhwaddr, pattrib->dst, ETH_ALEN)) && (!bmcast)) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s DA="MAC_FMT"\n", __func__, MAC_ARG(pattrib->dst));
++#endif
++			ret = _FAIL;
++			goto exit;
++		}
++
++
++		/* check BSSID */
++		if (_rtw_memcmp(pattrib->bssid, "\x0\x0\x0\x0\x0\x0", ETH_ALEN) ||
++		    _rtw_memcmp(mybssid, "\x0\x0\x0\x0\x0\x0", ETH_ALEN) ||
++		    (!_rtw_memcmp(pattrib->bssid, mybssid, ETH_ALEN))) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s BSSID="MAC_FMT", mybssid="MAC_FMT"\n",
++				__func__, MAC_ARG(pattrib->bssid), MAC_ARG(mybssid));
++#endif
++
++			if (!bmcast) {
++				RTW_INFO(ADPT_FMT" -issue_deauth to the nonassociated ap=" MAC_FMT " for the reason(7)\n", ADPT_ARG(adapter), MAC_ARG(pattrib->bssid));
++				issue_deauth(adapter, pattrib->bssid, WLAN_REASON_CLASS3_FRAME_FROM_NONASSOC_STA);
++			}
++
++			ret = _FAIL;
++			goto exit;
++		}
++
++		if (bmcast)
++			*psta = rtw_get_bcmc_stainfo(adapter);
++		else
++			*psta = rtw_get_stainfo(pstapriv, pattrib->bssid); /* get ap_info */
++
++		if (*psta == NULL) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s can't get psta under STATION_MODE ; drop pkt\n", __FUNCTION__);
++#endif
++			ret = _FAIL;
++			goto exit;
++		}
++
++		if ((GetFrameSubType(ptr) & WIFI_QOS_DATA_TYPE) == WIFI_QOS_DATA_TYPE) {
++		}
++
++		if (GetFrameSubType(ptr) & BIT(6)) {
++			/* No data, will not indicate to upper layer, temporily count it here */
++			count_rx_stats(adapter, precv_frame, *psta);
++			ret = RTW_RX_HANDLED;
++			goto exit;
++		}
++
++	} else if ((check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE) &&
++		   (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)) {
++		_rtw_memcpy(pattrib->dst, GetAddr1Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->src, GetAddr2Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->bssid, GetAddr3Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++
++		*psta = rtw_get_stainfo(pstapriv, pattrib->bssid); /* get sta_info */
++		if (*psta == NULL) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s can't get psta under WIFI_MP_STATE ; drop pkt\n", __FUNCTION__);
++#endif
++			ret = _FAIL;
++			goto exit;
++		}
++
++
++	} else if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++		/* Special case */
++		ret = RTW_RX_HANDLED;
++		goto exit;
++	} else {
++		if (_rtw_memcmp(myhwaddr, pattrib->dst, ETH_ALEN) && (!bmcast)) {
++			*psta = rtw_get_stainfo(pstapriv, pattrib->bssid); /* get sta_info */
++			if (*psta == NULL) {
++
++				/* for AP multicast issue , modify by yiwei */
++				static u32 send_issue_deauth_time = 0;
++
++				/* RTW_INFO("After send deauth , %u ms has elapsed.\n", rtw_get_passing_time_ms(send_issue_deauth_time)); */
++
++				if (rtw_get_passing_time_ms(send_issue_deauth_time) > 10000 || send_issue_deauth_time == 0) {
++					send_issue_deauth_time = rtw_get_current_time();
++
++					RTW_INFO("issue_deauth to the ap=" MAC_FMT " for the reason(7)\n", MAC_ARG(pattrib->bssid));
++
++					issue_deauth(adapter, pattrib->bssid, WLAN_REASON_CLASS3_FRAME_FROM_NONASSOC_STA);
++				}
++			}
++		}
++
++		ret = _FAIL;
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s fw_state:0x%x\n", __FUNCTION__, get_fwstate(pmlmepriv));
++#endif
++	}
++
++exit:
++
++
++	return ret;
++
++}
++
++sint sta2ap_data_frame(
++	_adapter *adapter,
++	union recv_frame *precv_frame,
++	struct sta_info **psta);
++sint sta2ap_data_frame(
++	_adapter *adapter,
++	union recv_frame *precv_frame,
++	struct sta_info **psta)
++{
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	struct	sta_priv		*pstapriv = &adapter->stapriv;
++	struct	mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++	unsigned char *mybssid  = get_bssid(pmlmepriv);
++	sint ret = _SUCCESS;
++
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++		/* For AP mode, RA=BSSID, TX=STA(SRC_ADDR), A3=DST_ADDR */
++		if (!_rtw_memcmp(pattrib->bssid, mybssid, ETH_ALEN)) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		*psta = rtw_get_stainfo(pstapriv, pattrib->src);
++		if (*psta == NULL) {
++			#ifdef CONFIG_DFS_MASTER
++			struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++
++			/* prevent RX tasklet blocks cmd_thread */
++			if (rfctl->radar_detected == 1)
++				goto bypass_deauth7;
++			#endif
++
++			RTW_INFO("issue_deauth to sta=" MAC_FMT " for the reason(7)\n", MAC_ARG(pattrib->src));
++
++			issue_deauth(adapter, pattrib->src, WLAN_REASON_CLASS3_FRAME_FROM_NONASSOC_STA);
++
++#ifdef CONFIG_DFS_MASTER
++bypass_deauth7:
++#endif
++			ret = RTW_RX_HANDLED;
++			goto exit;
++		}
++
++		process_pwrbit_data(adapter, precv_frame);
++
++		if ((GetFrameSubType(ptr) & WIFI_QOS_DATA_TYPE) == WIFI_QOS_DATA_TYPE)
++			process_wmmps_data(adapter, precv_frame);
++
++		if (GetFrameSubType(ptr) & BIT(6)) {
++			/* No data, will not indicate to upper layer, temporily count it here */
++			count_rx_stats(adapter, precv_frame, *psta);
++			ret = RTW_RX_HANDLED;
++			goto exit;
++		}
++	} else if ((check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE) &&
++		   (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)) {
++		/* RTW_INFO("%s ,in WIFI_MP_STATE\n",__func__); */
++		_rtw_memcpy(pattrib->dst, GetAddr1Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->src, GetAddr2Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->bssid, GetAddr3Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++
++		*psta = rtw_get_stainfo(pstapriv, pattrib->bssid); /* get sta_info */
++		if (*psta == NULL) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s can't get psta under WIFI_MP_STATE ; drop pkt\n", __FUNCTION__);
++#endif
++			ret = _FAIL;
++			goto exit;
++		}
++
++	} else {
++		u8 *myhwaddr = adapter_mac_addr(adapter);
++		if (!_rtw_memcmp(pattrib->ra, myhwaddr, ETH_ALEN)) {
++			ret = RTW_RX_HANDLED;
++			goto exit;
++		}
++		RTW_INFO("issue_deauth to sta=" MAC_FMT " for the reason(7)\n", MAC_ARG(pattrib->src));
++		issue_deauth(adapter, pattrib->src, WLAN_REASON_CLASS3_FRAME_FROM_NONASSOC_STA);
++		ret = RTW_RX_HANDLED;
++		goto exit;
++	}
++
++exit:
++
++
++	return ret;
++
++}
++
++sint validate_recv_ctrl_frame(_adapter *padapter, union recv_frame *precv_frame);
++sint validate_recv_ctrl_frame(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	struct sta_info *psta = NULL;
++	/* uint len = precv_frame->u.hdr.len; */
++
++	/* RTW_INFO("+validate_recv_ctrl_frame\n"); */
++
++	if (GetFrameType(pframe) != WIFI_CTRL_TYPE)
++		return _FAIL;
++
++	/* receive the frames that ra(a1) is my address */
++	if (!_rtw_memcmp(GetAddr1Ptr(pframe), adapter_mac_addr(padapter), ETH_ALEN))
++		return _FAIL;
++
++	psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++	if (psta == NULL)
++		return _FAIL;
++
++	/* for rx pkt statistics */
++	psta->sta_stats.rx_ctrl_pkts++;
++
++	/* only handle ps-poll */
++	if (GetFrameSubType(pframe) == WIFI_PSPOLL) {
++#ifdef CONFIG_AP_MODE
++		u16 aid;
++		u8 wmmps_ac = 0;
++
++		aid = GetAid(pframe);
++		if (psta->aid != aid)
++			return _FAIL;
++
++		switch (pattrib->priority) {
++		case 1:
++		case 2:
++			wmmps_ac = psta->uapsd_bk & BIT(0);
++			break;
++		case 4:
++		case 5:
++			wmmps_ac = psta->uapsd_vi & BIT(0);
++			break;
++		case 6:
++		case 7:
++			wmmps_ac = psta->uapsd_vo & BIT(0);
++			break;
++		case 0:
++		case 3:
++		default:
++			wmmps_ac = psta->uapsd_be & BIT(0);
++			break;
++		}
++
++		if (wmmps_ac)
++			return _FAIL;
++
++		if (psta->state & WIFI_STA_ALIVE_CHK_STATE) {
++			RTW_INFO("%s alive check-rx ps-poll\n", __func__);
++			psta->expire_to = pstapriv->expire_to;
++			psta->state ^= WIFI_STA_ALIVE_CHK_STATE;
++		}
++
++		if ((psta->state & WIFI_SLEEP_STATE) && (pstapriv->sta_dz_bitmap & BIT(psta->aid))) {
++			_irqL irqL;
++			_list	*xmitframe_plist, *xmitframe_phead;
++			struct xmit_frame *pxmitframe = NULL;
++			struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++			/* _enter_critical_bh(&psta->sleep_q.lock, &irqL); */
++			_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++			xmitframe_phead = get_list_head(&psta->sleep_q);
++			xmitframe_plist = get_next(xmitframe_phead);
++
++			if ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE) {
++				pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++				xmitframe_plist = get_next(xmitframe_plist);
++
++				rtw_list_delete(&pxmitframe->list);
++
++				psta->sleepq_len--;
++
++				if (psta->sleepq_len > 0)
++					pxmitframe->attrib.mdata = 1;
++				else
++					pxmitframe->attrib.mdata = 0;
++
++				pxmitframe->attrib.triggered = 1;
++
++				/* RTW_INFO("handling ps-poll, q_len=%d, tim=%x\n", psta->sleepq_len, pstapriv->tim_bitmap); */
++
++#if 0
++				_exit_critical_bh(&psta->sleep_q.lock, &irqL);
++				if (rtw_hal_xmit(padapter, pxmitframe) == _TRUE)
++					rtw_os_xmit_complete(padapter, pxmitframe);
++				_enter_critical_bh(&psta->sleep_q.lock, &irqL);
++#endif
++				rtw_hal_xmitframe_enqueue(padapter, pxmitframe);
++
++				if (psta->sleepq_len == 0) {
++					pstapriv->tim_bitmap &= ~BIT(psta->aid);
++
++					/* RTW_INFO("after handling ps-poll, tim=%x\n", pstapriv->tim_bitmap); */
++
++					/* upate BCN for TIM IE */
++					/* update_BCNTIM(padapter);		 */
++					update_beacon(padapter, _TIM_IE_, NULL, _TRUE);
++				}
++
++				/* _exit_critical_bh(&psta->sleep_q.lock, &irqL); */
++				_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++			} else {
++				/* _exit_critical_bh(&psta->sleep_q.lock, &irqL); */
++				_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++				/* RTW_INFO("no buffered packets to xmit\n"); */
++				if (pstapriv->tim_bitmap & BIT(psta->aid)) {
++					if (psta->sleepq_len == 0) {
++						RTW_INFO("no buffered packets to xmit\n");
++
++						/* issue nulldata with More data bit = 0 to indicate we have no buffered packets */
++						issue_nulldata_in_interrupt(padapter, psta->hwaddr, 0);
++					} else {
++						RTW_INFO("error!psta->sleepq_len=%d\n", psta->sleepq_len);
++						psta->sleepq_len = 0;
++					}
++
++					pstapriv->tim_bitmap &= ~BIT(psta->aid);
++
++					/* upate BCN for TIM IE */
++					/* update_BCNTIM(padapter); */
++					update_beacon(padapter, _TIM_IE_, NULL, _TRUE);
++				}
++			}
++		}
++#endif /* CONFIG_AP_MODE */
++	} else if (GetFrameSubType(pframe) == WIFI_NDPA) {
++#ifdef CONFIG_BEAMFORMING
++		beamforming_get_ndpa_frame(padapter, precv_frame);
++#endif/*CONFIG_BEAMFORMING*/
++	}
++
++	return _FAIL;
++
++}
++
++union recv_frame *recvframe_chk_defrag(PADAPTER padapter, union recv_frame *precv_frame);
++sint validate_recv_mgnt_frame(PADAPTER padapter, union recv_frame *precv_frame);
++sint validate_recv_mgnt_frame(PADAPTER padapter, union recv_frame *precv_frame)
++{
++	/* struct mlme_priv *pmlmepriv = &adapter->mlmepriv; */
++
++
++#if 0
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++#ifdef CONFIG_NATIVEAP_MLME
++		mgt_dispatcher(padapter, precv_frame);
++#else
++		rtw_hostapd_mlme_rx(padapter, precv_frame);
++#endif
++	} else
++		mgt_dispatcher(padapter, precv_frame);
++#endif
++
++	precv_frame = recvframe_chk_defrag(padapter, precv_frame);
++	if (precv_frame == NULL) {
++		return _SUCCESS;
++	}
++
++	{
++		/* for rx pkt statistics */
++		struct sta_info *psta = rtw_get_stainfo(&padapter->stapriv, GetAddr2Ptr(precv_frame->u.hdr.rx_data));
++		if (psta) {
++			psta->sta_stats.rx_mgnt_pkts++;
++			if (GetFrameSubType(precv_frame->u.hdr.rx_data) == WIFI_BEACON)
++				psta->sta_stats.rx_beacon_pkts++;
++			else if (GetFrameSubType(precv_frame->u.hdr.rx_data) == WIFI_PROBEREQ)
++				psta->sta_stats.rx_probereq_pkts++;
++			else if (GetFrameSubType(precv_frame->u.hdr.rx_data) == WIFI_PROBERSP) {
++				if (_rtw_memcmp(adapter_mac_addr(padapter), GetAddr1Ptr(precv_frame->u.hdr.rx_data), ETH_ALEN) == _TRUE)
++					psta->sta_stats.rx_probersp_pkts++;
++				else if (is_broadcast_mac_addr(GetAddr1Ptr(precv_frame->u.hdr.rx_data))
++					|| is_multicast_mac_addr(GetAddr1Ptr(precv_frame->u.hdr.rx_data)))
++					psta->sta_stats.rx_probersp_bm_pkts++;
++				else
++					psta->sta_stats.rx_probersp_uo_pkts++;
++			}
++		}
++	}
++
++#ifdef CONFIG_INTEL_PROXIM
++	if (padapter->proximity.proxim_on == _TRUE) {
++		struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++		struct recv_stat *prxstat = (struct recv_stat *)  precv_frame->u.hdr.rx_head ;
++		u8 *pda, *psa, *pbssid, *ptr;
++		ptr = precv_frame->u.hdr.rx_data;
++		pda = get_da(ptr);
++		psa = get_sa(ptr);
++		pbssid = get_hdr_bssid(ptr);
++
++
++		_rtw_memcpy(pattrib->dst, pda, ETH_ALEN);
++		_rtw_memcpy(pattrib->src, psa, ETH_ALEN);
++
++		_rtw_memcpy(pattrib->bssid, pbssid, ETH_ALEN);
++
++		switch (pattrib->to_fr_ds) {
++		case 0:
++			_rtw_memcpy(pattrib->ra, pda, ETH_ALEN);
++			_rtw_memcpy(pattrib->ta, psa, ETH_ALEN);
++			break;
++
++		case 1:
++			_rtw_memcpy(pattrib->ra, pda, ETH_ALEN);
++			_rtw_memcpy(pattrib->ta, pbssid, ETH_ALEN);
++			break;
++
++		case 2:
++			_rtw_memcpy(pattrib->ra, pbssid, ETH_ALEN);
++			_rtw_memcpy(pattrib->ta, psa, ETH_ALEN);
++			break;
++
++		case 3:
++			_rtw_memcpy(pattrib->ra, GetAddr1Ptr(ptr), ETH_ALEN);
++			_rtw_memcpy(pattrib->ta, GetAddr2Ptr(ptr), ETH_ALEN);
++			break;
++
++		default:
++			break;
++
++		}
++		pattrib->priority = 0;
++		pattrib->hdrlen = pattrib->to_fr_ds == 3 ? 30 : 24;
++
++		padapter->proximity.proxim_rx(padapter, precv_frame);
++	}
++#endif
++	mgt_dispatcher(padapter, precv_frame);
++
++	return _SUCCESS;
++
++}
++
++sint validate_recv_data_frame(_adapter *adapter, union recv_frame *precv_frame);
++sint validate_recv_data_frame(_adapter *adapter, union recv_frame *precv_frame)
++{
++	u8 bretry;
++	u8 *psa, *pda, *pbssid;
++	struct sta_info *psta = NULL;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib	*pattrib = &precv_frame->u.hdr.attrib;
++	struct sta_priv	*pstapriv = &adapter->stapriv;
++	struct security_priv	*psecuritypriv = &adapter->securitypriv;
++	sint ret = _SUCCESS;
++
++
++	bretry = GetRetry(ptr);
++	pda = get_da(ptr);
++	psa = get_sa(ptr);
++	pbssid = get_hdr_bssid(ptr);
++
++	if (pbssid == NULL) {
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s pbssid == NULL\n", __func__);
++#endif
++		ret = _FAIL;
++		goto exit;
++	}
++
++	_rtw_memcpy(pattrib->dst, pda, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, psa, ETH_ALEN);
++
++	_rtw_memcpy(pattrib->bssid, pbssid, ETH_ALEN);
++
++	switch (pattrib->to_fr_ds) {
++	case 0:
++		_rtw_memcpy(pattrib->ra, pda, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, psa, ETH_ALEN);
++		ret = sta2sta_data_frame(adapter, precv_frame, &psta);
++		break;
++
++	case 1:
++		_rtw_memcpy(pattrib->ra, pda, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, pbssid, ETH_ALEN);
++		ret = ap2sta_data_frame(adapter, precv_frame, &psta);
++		break;
++
++	case 2:
++		_rtw_memcpy(pattrib->ra, pbssid, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, psa, ETH_ALEN);
++		ret = sta2ap_data_frame(adapter, precv_frame, &psta);
++		break;
++
++	case 3:
++		_rtw_memcpy(pattrib->ra, GetAddr1Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, GetAddr2Ptr(ptr), ETH_ALEN);
++		ret = _FAIL;
++		break;
++
++	default:
++		ret = _FAIL;
++		break;
++
++	}
++
++	if (ret == _FAIL) {
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s case:%d, res:%d\n", __FUNCTION__, pattrib->to_fr_ds, ret);
++#endif
++		goto exit;
++	} else if (ret == RTW_RX_HANDLED)
++		goto exit;
++
++
++	if (psta == NULL) {
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s psta == NULL\n", __func__);
++#endif
++		ret = _FAIL;
++		goto exit;
++	}
++
++	/* psta->rssi = prxcmd->rssi; */
++	/* psta->signal_quality= prxcmd->sq; */
++	precv_frame->u.hdr.psta = psta;
++
++
++	pattrib->amsdu = 0;
++	pattrib->ack_policy = 0;
++	/* parsing QC field */
++	if (pattrib->qos == 1) {
++		pattrib->priority = GetPriority((ptr + 24));
++		pattrib->ack_policy = GetAckpolicy((ptr + 24));
++		pattrib->amsdu = GetAMsdu((ptr + 24));
++		pattrib->hdrlen = pattrib->to_fr_ds == 3 ? 32 : 26;
++
++		if (pattrib->priority != 0 && pattrib->priority != 3)
++			adapter->recvpriv.bIsAnyNonBEPkts = _TRUE;
++		else
++			adapter->recvpriv.bIsAnyNonBEPkts = _FALSE;
++	} else {
++		pattrib->priority = 0;
++		pattrib->hdrlen = pattrib->to_fr_ds == 3 ? 30 : 24;
++	}
++
++
++	if (pattrib->order) /* HT-CTRL 11n */
++		pattrib->hdrlen += 4;
++
++	precv_frame->u.hdr.preorder_ctrl = &psta->recvreorder_ctrl[pattrib->priority];
++
++	/* decache, drop duplicate recv packets */
++	if (recv_decache(precv_frame, bretry, &psta->sta_recvpriv.rxcache) == _FAIL) {
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s recv_decache return _FAIL\n", __func__);
++#endif
++		ret = _FAIL;
++		goto exit;
++	}
++
++	if (pattrib->privacy) {
++
++
++#ifdef CONFIG_TDLS
++		if ((psta->tdls_sta_state & TDLS_LINKED_STATE) && (psta->dot118021XPrivacy == _AES_))
++			pattrib->encrypt = psta->dot118021XPrivacy;
++		else
++#endif /* CONFIG_TDLS */
++			GET_ENCRY_ALGO(psecuritypriv, psta, pattrib->encrypt, IS_MCAST(pattrib->ra));
++
++
++		SET_ICE_IV_LEN(pattrib->iv_len, pattrib->icv_len, pattrib->encrypt);
++	} else {
++		pattrib->encrypt = 0;
++		pattrib->iv_len = pattrib->icv_len = 0;
++	}
++
++exit:
++
++
++	return ret;
++}
++
++#ifdef CONFIG_IEEE80211W
++static sint validate_80211w_mgmt(_adapter *adapter, union recv_frame *precv_frame)
++{
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct sta_info	*psta;
++	struct sta_priv		*pstapriv = &adapter->stapriv;
++	u8 type;
++	u8 subtype;
++
++	type =  GetFrameType(ptr);
++	subtype = GetFrameSubType(ptr); /* bit(7)~bit(2) */
++
++	if (adapter->securitypriv.binstallBIPkey == _TRUE) {
++		/* unicast management frame decrypt */
++		if (pattrib->privacy && !(IS_MCAST(GetAddr1Ptr(ptr))) &&
++		    (subtype == WIFI_DEAUTH || subtype == WIFI_DISASSOC || subtype == WIFI_ACTION)) {
++			u8 *ppp, *mgmt_DATA;
++			u32 data_len = 0;
++			ppp = GetAddr2Ptr(ptr);
++
++			pattrib->bdecrypted = 0;
++			pattrib->encrypt = _AES_;
++			pattrib->hdrlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++			/* set iv and icv length */
++			SET_ICE_IV_LEN(pattrib->iv_len, pattrib->icv_len, pattrib->encrypt);
++			_rtw_memcpy(pattrib->ra, GetAddr1Ptr(ptr), ETH_ALEN);
++			_rtw_memcpy(pattrib->ta, GetAddr2Ptr(ptr), ETH_ALEN);
++			/* actual management data frame body */
++			data_len = pattrib->pkt_len - pattrib->hdrlen - pattrib->iv_len - pattrib->icv_len;
++			mgmt_DATA = rtw_zmalloc(data_len);
++			if (mgmt_DATA == NULL) {
++				RTW_INFO("%s mgmt allocate fail  !!!!!!!!!\n", __FUNCTION__);
++				goto validate_80211w_fail;
++			}
++#if 0
++			/* dump the packet content before decrypt */
++			{
++				int pp;
++				printk("pattrib->pktlen = %d =>", pattrib->pkt_len);
++				for (pp = 0; pp < pattrib->pkt_len; pp++)
++					printk(" %02x ", ptr[pp]);
++				printk("\n");
++			}
++#endif
++
++			precv_frame = decryptor(adapter, precv_frame);
++			/* save actual management data frame body */
++			_rtw_memcpy(mgmt_DATA, ptr + pattrib->hdrlen + pattrib->iv_len, data_len);
++			/* overwrite the iv field */
++			_rtw_memcpy(ptr + pattrib->hdrlen, mgmt_DATA, data_len);
++			/* remove the iv and icv length */
++			pattrib->pkt_len = pattrib->pkt_len - pattrib->iv_len - pattrib->icv_len;
++			rtw_mfree(mgmt_DATA, data_len);
++#if 0
++			/* print packet content after decryption */
++			{
++				int pp;
++				printk("after decryption pattrib->pktlen = %d @@=>", pattrib->pkt_len);
++				for (pp = 0; pp < pattrib->pkt_len; pp++)
++					printk(" %02x ", ptr[pp]);
++				printk("\n");
++			}
++#endif
++			if (!precv_frame) {
++				RTW_INFO("%s mgmt descrypt fail  !!!!!!!!!\n", __FUNCTION__);
++				goto validate_80211w_fail;
++			}
++		} else if (IS_MCAST(GetAddr1Ptr(ptr)) &&
++			(subtype == WIFI_DEAUTH || subtype == WIFI_DISASSOC)) {
++			sint BIP_ret = _SUCCESS;
++			/* verify BIP MME IE of broadcast/multicast de-auth/disassoc packet */
++			BIP_ret = rtw_BIP_verify(adapter, (u8 *)precv_frame);
++			if (BIP_ret == _FAIL) {
++				/* RTW_INFO("802.11w BIP verify fail\n"); */
++				goto validate_80211w_fail;
++			} else if (BIP_ret == RTW_RX_HANDLED) {
++				RTW_INFO("802.11w recv none protected packet\n");
++				/* drop pkt, don't issue sa query request */
++				/* issue_action_SA_Query(adapter, NULL, 0, 0, 0); */
++				goto validate_80211w_fail;
++			}
++		} /* 802.11w protect */
++		else {
++			psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(ptr));
++
++			if (subtype == WIFI_ACTION && psta && psta->bpairwise_key_installed == _TRUE) {
++				/* according 802.11-2012 standard, these five types are not robust types */
++				if (ptr[WLAN_HDR_A3_LEN] != RTW_WLAN_CATEGORY_PUBLIC          &&
++				    ptr[WLAN_HDR_A3_LEN] != RTW_WLAN_CATEGORY_HT              &&
++				    ptr[WLAN_HDR_A3_LEN] != RTW_WLAN_CATEGORY_UNPROTECTED_WNM &&
++				    ptr[WLAN_HDR_A3_LEN] != RTW_WLAN_CATEGORY_SELF_PROTECTED  &&
++				    ptr[WLAN_HDR_A3_LEN] != RTW_WLAN_CATEGORY_P2P) {
++					RTW_INFO("action frame category=%d should robust\n", ptr[WLAN_HDR_A3_LEN]);
++					goto validate_80211w_fail;
++				}
++			} else if (subtype == WIFI_DEAUTH || subtype == WIFI_DISASSOC) {
++				unsigned short	reason;
++				reason = le16_to_cpu(*(unsigned short *)(ptr + WLAN_HDR_A3_LEN));
++				RTW_INFO("802.11w recv none protected packet, reason=%d\n", reason);
++				if (reason == 6 || reason == 7) {
++					/* issue sa query request */
++					issue_action_SA_Query(adapter, NULL, 0, 0, IEEE80211W_RIGHT_KEY);
++				}
++				goto validate_80211w_fail;
++			}
++		}
++	}
++	return _SUCCESS;
++
++validate_80211w_fail:
++	return _FAIL;
++
++}
++#endif /* CONFIG_IEEE80211W */
++
++static inline void dump_rx_packet(u8 *ptr)
++{
++	int i;
++
++	RTW_INFO("#############################\n");
++	for (i = 0; i < 64; i = i + 8)
++		RTW_INFO("%02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X:\n", *(ptr + i),
++			*(ptr + i + 1), *(ptr + i + 2) , *(ptr + i + 3) , *(ptr + i + 4), *(ptr + i + 5), *(ptr + i + 6), *(ptr + i + 7));
++	RTW_INFO("#############################\n");
++}
++
++sint validate_recv_frame(_adapter *adapter, union recv_frame *precv_frame);
++sint validate_recv_frame(_adapter *adapter, union recv_frame *precv_frame)
++{
++	/* shall check frame subtype, to / from ds, da, bssid */
++
++	/* then call check if rx seq/frag. duplicated. */
++
++	u8 type;
++	u8 subtype;
++	sint retval = _SUCCESS;
++
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	u8  ver = (unsigned char)(*ptr) & 0x3 ;
++#ifdef CONFIG_FIND_BEST_CHANNEL
++	struct mlme_ext_priv *pmlmeext = &adapter->mlmeextpriv;
++#endif
++
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &adapter->tdlsinfo;
++#endif /* CONFIG_TDLS */
++#ifdef CONFIG_WAPI_SUPPORT
++	PRT_WAPI_T	pWapiInfo = &adapter->wapiInfo;
++	struct recv_frame_hdr *phdr = &precv_frame->u.hdr;
++	u8 wai_pkt = 0;
++	u16 sc;
++	u8	external_len = 0;
++#endif
++
++
++#ifdef CONFIG_FIND_BEST_CHANNEL
++	if (pmlmeext->sitesurvey_res.state == SCAN_PROCESS) {
++		int ch_set_idx = rtw_ch_set_search_ch(pmlmeext->channel_set, rtw_get_oper_ch(adapter));
++		if (ch_set_idx >= 0)
++			pmlmeext->channel_set[ch_set_idx].rx_count++;
++	}
++#endif
++
++#ifdef CONFIG_TDLS
++	if (ptdlsinfo->ch_sensing == 1 && ptdlsinfo->cur_channel != 0)
++		ptdlsinfo->collect_pkt_num[ptdlsinfo->cur_channel - 1]++;
++#endif /* CONFIG_TDLS */
++
++#ifdef RTK_DMP_PLATFORM
++	if (0) {
++		RTW_INFO("++\n");
++		{
++			int i;
++			for (i = 0; i < 64; i = i + 8)
++				RTW_INFO("%02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X:", *(ptr + i),
++					*(ptr + i + 1), *(ptr + i + 2) , *(ptr + i + 3) , *(ptr + i + 4), *(ptr + i + 5), *(ptr + i + 6), *(ptr + i + 7));
++
++		}
++		RTW_INFO("--\n");
++	}
++#endif /* RTK_DMP_PLATFORM */
++
++	/* add version chk */
++	if (ver != 0) {
++		retval = _FAIL;
++		DBG_COUNTER(adapter->rx_logs.core_rx_pre_ver_err);
++		goto exit;
++	}
++
++	type =  GetFrameType(ptr);
++	subtype = GetFrameSubType(ptr); /* bit(7)~bit(2) */
++
++	pattrib->to_fr_ds = get_tofr_ds(ptr);
++
++	pattrib->frag_num = GetFragNum(ptr);
++	pattrib->seq_num = GetSequence(ptr);
++
++	pattrib->pw_save = GetPwrMgt(ptr);
++	pattrib->mfrag = GetMFrag(ptr);
++	pattrib->mdata = GetMData(ptr);
++	pattrib->privacy = GetPrivacy(ptr);
++	pattrib->order = GetOrder(ptr);
++#ifdef CONFIG_WAPI_SUPPORT
++	sc = (pattrib->seq_num << 4) | pattrib->frag_num;
++#endif
++
++#if 1 /* Dump rx packets */
++	{
++		u8 bDumpRxPkt = 0;
++
++		rtw_hal_get_def_var(adapter, HAL_DEF_DBG_DUMP_RXPKT, &(bDumpRxPkt));
++		if (bDumpRxPkt == 1) /* dump all rx packets */
++			dump_rx_packet(ptr);
++		else if ((bDumpRxPkt == 2) && (type == WIFI_MGT_TYPE))
++			dump_rx_packet(ptr);
++		else if ((bDumpRxPkt == 3) && (type == WIFI_DATA_TYPE))
++			dump_rx_packet(ptr);
++	}
++#endif
++	switch (type) {
++	case WIFI_MGT_TYPE: /* mgnt */
++		DBG_COUNTER(adapter->rx_logs.core_rx_pre_mgmt);
++#ifdef CONFIG_IEEE80211W
++		if (validate_80211w_mgmt(adapter, precv_frame) == _FAIL) {
++			retval = _FAIL;
++			DBG_COUNTER(adapter->rx_logs.core_rx_pre_mgmt_err_80211w);
++			break;
++		}
++#endif /* CONFIG_IEEE80211W */
++
++		retval = validate_recv_mgnt_frame(adapter, precv_frame);
++		if (retval == _FAIL) {
++			DBG_COUNTER(adapter->rx_logs.core_rx_pre_mgmt_err);
++		}
++		retval = _FAIL; /* only data frame return _SUCCESS */
++		break;
++	case WIFI_CTRL_TYPE: /* ctrl */
++		DBG_COUNTER(adapter->rx_logs.core_rx_pre_ctrl);
++		retval = validate_recv_ctrl_frame(adapter, precv_frame);
++		if (retval == _FAIL) {
++			DBG_COUNTER(adapter->rx_logs.core_rx_pre_ctrl_err);
++		}
++		retval = _FAIL; /* only data frame return _SUCCESS */
++		break;
++	case WIFI_DATA_TYPE: /* data */
++		DBG_COUNTER(adapter->rx_logs.core_rx_pre_data);
++#ifdef CONFIG_WAPI_SUPPORT
++		if (pattrib->qos)
++			external_len = 2;
++		else
++			external_len = 0;
++
++		wai_pkt = rtw_wapi_is_wai_packet(adapter, ptr);
++
++		phdr->bIsWaiPacket = wai_pkt;
++
++		if (wai_pkt != 0) {
++			if (sc != adapter->wapiInfo.wapiSeqnumAndFragNum)
++				adapter->wapiInfo.wapiSeqnumAndFragNum = sc;
++			else {
++				retval = _FAIL;
++				DBG_COUNTER(adapter->rx_logs.core_rx_pre_data_wapi_seq_err);
++				break;
++			}
++		} else {
++
++			if (rtw_wapi_drop_for_key_absent(adapter, GetAddr2Ptr(ptr))) {
++				retval = _FAIL;
++				WAPI_TRACE(WAPI_RX, "drop for key absent for rx\n");
++				DBG_COUNTER(adapter->rx_logs.core_rx_pre_data_wapi_key_err);
++				break;
++			}
++		}
++
++#endif
++
++		pattrib->qos = (subtype & BIT(7)) ? 1 : 0;
++		retval = validate_recv_data_frame(adapter, precv_frame);
++		if (retval == _FAIL) {
++			struct recv_priv *precvpriv = &adapter->recvpriv;
++			precvpriv->rx_drop++;
++			DBG_COUNTER(adapter->rx_logs.core_rx_pre_data_err);
++		} else if (retval == _SUCCESS) {
++#ifdef DBG_RX_DUMP_EAP
++			u8 bDumpRxPkt;
++			u16 eth_type;
++
++			/* dump eapol */
++			rtw_hal_get_def_var(adapter, HAL_DEF_DBG_DUMP_RXPKT, &(bDumpRxPkt));
++			/* get ether_type */
++			_rtw_memcpy(&eth_type, ptr + pattrib->hdrlen + pattrib->iv_len + LLC_HEADER_SIZE, 2);
++			eth_type = ntohs((unsigned short) eth_type);
++			if ((bDumpRxPkt == 4) && (eth_type == 0x888e))
++				dump_rx_packet(ptr);
++#endif
++		} else
++			DBG_COUNTER(adapter->rx_logs.core_rx_pre_data_handled);
++		break;
++	default:
++		DBG_COUNTER(adapter->rx_logs.core_rx_pre_unknown);
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME validate_recv_data_frame fail! type=0x%x\n", type);
++#endif
++		retval = _FAIL;
++		break;
++	}
++
++exit:
++
++
++	return retval;
++}
++
++
++/* remove the wlanhdr and add the eth_hdr */
++#if 1
++
++sint wlanhdr_to_ethhdr(union recv_frame *precvframe);
++sint wlanhdr_to_ethhdr(union recv_frame *precvframe)
++{
++	sint	rmv_len;
++	u16	eth_type, len;
++	u8	bsnaphdr;
++	u8	*psnap_type;
++	struct ieee80211_snap_hdr	*psnap;
++
++	sint ret = _SUCCESS;
++	_adapter			*adapter = precvframe->u.hdr.adapter;
++	struct mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++
++	u8	*ptr = get_recvframe_data(precvframe) ; /* point to frame_ctrl field */
++	struct rx_pkt_attrib *pattrib = &precvframe->u.hdr.attrib;
++
++
++	if (pattrib->encrypt)
++		recvframe_pull_tail(precvframe, pattrib->icv_len);
++
++	psnap = (struct ieee80211_snap_hdr *)(ptr + pattrib->hdrlen + pattrib->iv_len);
++	psnap_type = ptr + pattrib->hdrlen + pattrib->iv_len + SNAP_SIZE;
++	/* convert hdr + possible LLC headers into Ethernet header */
++	/* eth_type = (psnap_type[0] << 8) | psnap_type[1]; */
++	if ((_rtw_memcmp(psnap, rtw_rfc1042_header, SNAP_SIZE) &&
++	     (_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_IPX, 2) == _FALSE) &&
++	     (_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_APPLETALK_AARP, 2) == _FALSE)) ||
++	    /* eth_type != ETH_P_AARP && eth_type != ETH_P_IPX) || */
++	    _rtw_memcmp(psnap, rtw_bridge_tunnel_header, SNAP_SIZE)) {
++		/* remove RFC1042 or Bridge-Tunnel encapsulation and replace EtherType */
++		bsnaphdr = _TRUE;
++	} else {
++		/* Leave Ethernet header part of hdr and full payload */
++		bsnaphdr = _FALSE;
++	}
++
++	rmv_len = pattrib->hdrlen + pattrib->iv_len + (bsnaphdr ? SNAP_SIZE : 0);
++	len = precvframe->u.hdr.len - rmv_len;
++
++
++	_rtw_memcpy(&eth_type, ptr + rmv_len, 2);
++	eth_type = ntohs((unsigned short)eth_type); /* pattrib->ether_type */
++	pattrib->eth_type = eth_type;
++
++#ifdef CONFIG_AUTO_AP_MODE
++	if (0x8899 == pattrib->eth_type) {
++		struct sta_info *psta = precvframe->u.hdr.psta;
++
++		RTW_INFO("wlan rx: got eth_type=0x%x\n", pattrib->eth_type);
++
++		if (psta && psta->isrc && psta->pid > 0) {
++			u16 rx_pid;
++
++			rx_pid = *(u16 *)(ptr + rmv_len + 2);
++
++			RTW_INFO("wlan rx(pid=0x%x): sta("MAC_FMT") pid=0x%x\n",
++				 rx_pid, MAC_ARG(psta->hwaddr), psta->pid);
++
++			if (rx_pid == psta->pid) {
++				int i;
++				u16 len = *(u16 *)(ptr + rmv_len + 4);
++				/* u16 ctrl_type = *(u16*)(ptr+rmv_len+6); */
++
++				/* RTW_INFO("RC: len=0x%x, ctrl_type=0x%x\n", len, ctrl_type);  */
++				RTW_INFO("RC: len=0x%x\n", len);
++
++				for (i = 0; i < len; i++)
++					RTW_INFO("0x%x\n", *(ptr + rmv_len + 6 + i));
++				/* RTW_INFO("0x%x\n", *(ptr+rmv_len+8+i)); */
++
++				RTW_INFO("RC-end\n");
++			}
++		}
++	}
++#endif /* CONFIG_AUTO_AP_MODE */
++
++	if ((check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE)) {
++		ptr += rmv_len ;
++		*ptr = 0x87;
++		*(ptr + 1) = 0x12;
++
++		eth_type = 0x8712;
++		/* append rx status for mp test packets */
++		ptr = recvframe_pull(precvframe, (rmv_len - sizeof(struct ethhdr) + 2) - 24);
++		if (!ptr) {
++			ret = _FAIL;
++			goto exiting;
++		}
++		_rtw_memcpy(ptr, get_rxmem(precvframe), 24);
++		ptr += 24;
++	} else {
++		ptr = recvframe_pull(precvframe, (rmv_len - sizeof(struct ethhdr) + (bsnaphdr ? 2 : 0)));
++		if (!ptr) {
++			ret = _FAIL;
++			goto exiting;
++		}
++	}
++
++	if (ptr) {
++		_rtw_memcpy(ptr, pattrib->dst, ETH_ALEN);
++		_rtw_memcpy(ptr + ETH_ALEN, pattrib->src, ETH_ALEN);
++
++		if (!bsnaphdr) {
++			len = htons(len);
++			_rtw_memcpy(ptr + 12, &len, 2);
++		}
++	}
++
++exiting:
++	return ret;
++
++}
++
++#else
++
++sint wlanhdr_to_ethhdr(union recv_frame *precvframe)
++{
++	sint rmv_len;
++	u16 eth_type;
++	u8	bsnaphdr;
++	u8	*psnap_type;
++	struct ieee80211_snap_hdr	*psnap;
++
++	sint ret = _SUCCESS;
++	_adapter	*adapter = precvframe->u.hdr.adapter;
++	struct	mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++
++	u8 *ptr = get_recvframe_data(precvframe) ; /* point to frame_ctrl field */
++	struct rx_pkt_attrib *pattrib = &precvframe->u.hdr.attrib;
++	struct _vlan *pvlan = NULL;
++
++
++	psnap = (struct ieee80211_snap_hdr *)(ptr + pattrib->hdrlen + pattrib->iv_len);
++	psnap_type = ptr + pattrib->hdrlen + pattrib->iv_len + SNAP_SIZE;
++	if (psnap->dsap == 0xaa && psnap->ssap == 0xaa && psnap->ctrl == 0x03) {
++		if (_rtw_memcmp(psnap->oui, oui_rfc1042, WLAN_IEEE_OUI_LEN))
++			bsnaphdr = _TRUE; /* wlan_pkt_format = WLAN_PKT_FORMAT_SNAP_RFC1042;	 */
++		else if (_rtw_memcmp(psnap->oui, SNAP_HDR_APPLETALK_DDP, WLAN_IEEE_OUI_LEN) &&
++			_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_APPLETALK_DDP, 2))
++			bsnaphdr = _TRUE;	/* wlan_pkt_format = WLAN_PKT_FORMAT_APPLETALK; */
++		else if (_rtw_memcmp(psnap->oui, oui_8021h, WLAN_IEEE_OUI_LEN))
++			bsnaphdr = _TRUE;	/* wlan_pkt_format = WLAN_PKT_FORMAT_SNAP_TUNNEL; */
++		else {
++			ret = _FAIL;
++			goto exit;
++		}
++
++	} else
++		bsnaphdr = _FALSE; /* wlan_pkt_format = WLAN_PKT_FORMAT_OTHERS; */
++
++	rmv_len = pattrib->hdrlen + pattrib->iv_len + (bsnaphdr ? SNAP_SIZE : 0);
++
++	if (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE) {
++		ptr += rmv_len ;
++		*ptr = 0x87;
++		*(ptr + 1) = 0x12;
++
++		/* back to original pointer */
++		ptr -= rmv_len;
++	}
++
++	ptr += rmv_len ;
++
++	_rtw_memcpy(&eth_type, ptr, 2);
++	eth_type = ntohs((unsigned short)eth_type); /* pattrib->ether_type */
++	ptr += 2;
++
++	if (pattrib->encrypt)
++		recvframe_pull_tail(precvframe, pattrib->icv_len);
++
++	if (eth_type == 0x8100) { /* vlan */
++		pvlan = (struct _vlan *) ptr;
++
++		/* eth_type = get_vlan_encap_proto(pvlan); */
++		/* eth_type = pvlan->h_vlan_encapsulated_proto; */ /* ? */
++		rmv_len += 4;
++		ptr += 4;
++	}
++
++	if (eth_type == 0x0800) { /* ip */
++		/* struct iphdr*  piphdr = (struct iphdr*) ptr; */
++		/* __u8 tos = (unsigned char)(pattrib->priority & 0xff); */
++
++		/* piphdr->tos = tos; */
++
++	} else if (eth_type == 0x8712) { /* append rx status for mp test packets */
++		/* ptr -= 16; */
++		/* _rtw_memcpy(ptr, get_rxmem(precvframe), 16); */
++	} else {
++#ifdef PLATFORM_OS_XP
++		NDIS_PACKET_8021Q_INFO VlanPriInfo;
++		UINT32 UserPriority = precvframe->u.hdr.attrib.priority;
++		UINT32 VlanID = (pvlan != NULL ? get_vlan_id(pvlan) : 0);
++
++		VlanPriInfo.Value =          /* Get current value. */
++			NDIS_PER_PACKET_INFO_FROM_PACKET(precvframe->u.hdr.pkt, Ieee8021QInfo);
++
++		VlanPriInfo.TagHeader.UserPriority = UserPriority;
++		VlanPriInfo.TagHeader.VlanId =  VlanID ;
++
++		VlanPriInfo.TagHeader.CanonicalFormatId = 0; /* Should be zero. */
++		VlanPriInfo.TagHeader.Reserved = 0; /* Should be zero. */
++		NDIS_PER_PACKET_INFO_FROM_PACKET(precvframe->u.hdr.pkt, Ieee8021QInfo) = VlanPriInfo.Value;
++#endif
++	}
++
++	if (eth_type == 0x8712) { /* append rx status for mp test packets */
++		ptr = recvframe_pull(precvframe, (rmv_len - sizeof(struct ethhdr) + 2) - 24);
++		_rtw_memcpy(ptr, get_rxmem(precvframe), 24);
++		ptr += 24;
++	} else
++		ptr = recvframe_pull(precvframe, (rmv_len - sizeof(struct ethhdr) + 2));
++
++	_rtw_memcpy(ptr, pattrib->dst, ETH_ALEN);
++	_rtw_memcpy(ptr + ETH_ALEN, pattrib->src, ETH_ALEN);
++
++	eth_type = htons((unsigned short)eth_type) ;
++	_rtw_memcpy(ptr + 12, &eth_type, 2);
++
++exit:
++
++
++	return ret;
++}
++#endif
++
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++#ifdef PLATFORM_LINUX
++static void recvframe_expand_pkt(
++	PADAPTER padapter,
++	union recv_frame *prframe)
++{
++	struct recv_frame_hdr *pfhdr;
++	_pkt *ppkt;
++	u8 shift_sz;
++	u32 alloc_sz;
++	u8 *ptr;
++
++
++	pfhdr = &prframe->u.hdr;
++
++	/*	6 is for IP header 8 bytes alignment in QoS packet case. */
++	if (pfhdr->attrib.qos)
++		shift_sz = 6;
++	else
++		shift_sz = 0;
++
++	/* for first fragment packet, need to allocate */
++	/* (1536 + RXDESC_SIZE + drvinfo_sz) to reassemble packet */
++	/*	8 is for skb->data 8 bytes alignment.
++	*	alloc_sz = _RND(1536 + RXDESC_SIZE + pfhdr->attrib.drvinfosize + shift_sz + 8, 128); */
++	alloc_sz = 1664; /* round (1536 + 24 + 32 + shift_sz + 8) to 128 bytes alignment */
++
++	/* 3 1. alloc new skb */
++	/* prepare extra space for 4 bytes alignment */
++	ppkt = rtw_skb_alloc(alloc_sz);
++
++	if (!ppkt)
++		return; /* no way to expand */
++
++	/* 3 2. Prepare new skb to replace & release old skb */
++	/* force ppkt->data at 8-byte alignment address */
++	skb_reserve(ppkt, 8 - ((SIZE_PTR)ppkt->data & 7));
++	/* force ip_hdr at 8-byte alignment address according to shift_sz */
++	skb_reserve(ppkt, shift_sz);
++
++	/* copy data to new pkt */
++	ptr = skb_put(ppkt, pfhdr->len);
++	if (ptr)
++		_rtw_memcpy(ptr, pfhdr->rx_data, pfhdr->len);
++
++	rtw_skb_free(pfhdr->pkt);
++
++	/* attach new pkt to recvframe */
++	pfhdr->pkt = ppkt;
++	pfhdr->rx_head = ppkt->head;
++	pfhdr->rx_data = ppkt->data;
++	pfhdr->rx_tail = skb_tail_pointer(ppkt);
++	pfhdr->rx_end = skb_end_pointer(ppkt);
++}
++#else
++#warning "recvframe_expand_pkt not implement, defrag may crash system"
++#endif
++#endif
++
++/* perform defrag */
++union recv_frame *recvframe_defrag(_adapter *adapter, _queue *defrag_q);
++union recv_frame *recvframe_defrag(_adapter *adapter, _queue *defrag_q)
++{
++	_list	*plist, *phead;
++	u8	*data, wlanhdr_offset;
++	u8	curfragnum;
++	struct recv_frame_hdr *pfhdr, *pnfhdr;
++	union recv_frame *prframe, *pnextrframe;
++	_queue	*pfree_recv_queue;
++
++
++	curfragnum = 0;
++	pfree_recv_queue = &adapter->recvpriv.free_recv_queue;
++
++	phead = get_list_head(defrag_q);
++	plist = get_next(phead);
++	prframe = LIST_CONTAINOR(plist, union recv_frame, u);
++	pfhdr = &prframe->u.hdr;
++	rtw_list_delete(&(prframe->u.list));
++
++	if (curfragnum != pfhdr->attrib.frag_num) {
++		/* the first fragment number must be 0 */
++		/* free the whole queue */
++		rtw_free_recvframe(prframe, pfree_recv_queue);
++		rtw_free_recvframe_queue(defrag_q, pfree_recv_queue);
++
++		return NULL;
++	}
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++#ifndef CONFIG_SDIO_RX_COPY
++	recvframe_expand_pkt(adapter, prframe);
++#endif
++#endif
++
++	curfragnum++;
++
++	plist = get_list_head(defrag_q);
++
++	plist = get_next(plist);
++
++	data = get_recvframe_data(prframe);
++
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		pnextrframe = LIST_CONTAINOR(plist, union recv_frame , u);
++		pnfhdr = &pnextrframe->u.hdr;
++
++
++		/* check the fragment sequence  (2nd ~n fragment frame) */
++
++		if (curfragnum != pnfhdr->attrib.frag_num) {
++			/* the fragment number must be increasing  (after decache) */
++			/* release the defrag_q & prframe */
++			rtw_free_recvframe(prframe, pfree_recv_queue);
++			rtw_free_recvframe_queue(defrag_q, pfree_recv_queue);
++			return NULL;
++		}
++
++		curfragnum++;
++
++		/* copy the 2nd~n fragment frame's payload to the first fragment */
++		/* get the 2nd~last fragment frame's payload */
++
++		wlanhdr_offset = pnfhdr->attrib.hdrlen + pnfhdr->attrib.iv_len;
++
++		recvframe_pull(pnextrframe, wlanhdr_offset);
++
++		/* append  to first fragment frame's tail (if privacy frame, pull the ICV) */
++		recvframe_pull_tail(prframe, pfhdr->attrib.icv_len);
++
++		/* memcpy */
++		_rtw_memcpy(pfhdr->rx_tail, pnfhdr->rx_data, pnfhdr->len);
++
++		recvframe_put(prframe, pnfhdr->len);
++
++		pfhdr->attrib.icv_len = pnfhdr->attrib.icv_len;
++		plist = get_next(plist);
++
++	};
++
++	/* free the defrag_q queue and return the prframe */
++	rtw_free_recvframe_queue(defrag_q, pfree_recv_queue);
++
++
++
++	return prframe;
++}
++
++/* check if need to defrag, if needed queue the frame to defrag_q */
++union recv_frame *recvframe_chk_defrag(PADAPTER padapter, union recv_frame *precv_frame)
++{
++	u8	ismfrag;
++	u8	fragnum;
++	u8	*psta_addr;
++	struct recv_frame_hdr *pfhdr;
++	struct sta_info *psta;
++	struct sta_priv *pstapriv;
++	_list *phead;
++	union recv_frame *prtnframe = NULL;
++	_queue *pfree_recv_queue, *pdefrag_q;
++
++
++	pstapriv = &padapter->stapriv;
++
++	pfhdr = &precv_frame->u.hdr;
++
++	pfree_recv_queue = &padapter->recvpriv.free_recv_queue;
++
++	/* need to define struct of wlan header frame ctrl */
++	ismfrag = pfhdr->attrib.mfrag;
++	fragnum = pfhdr->attrib.frag_num;
++
++	psta_addr = pfhdr->attrib.ta;
++	psta = rtw_get_stainfo(pstapriv, psta_addr);
++	if (psta == NULL) {
++		u8 type = GetFrameType(pfhdr->rx_data);
++		if (type != WIFI_DATA_TYPE) {
++			psta = rtw_get_bcmc_stainfo(padapter);
++			pdefrag_q = &psta->sta_recvpriv.defrag_q;
++		} else
++			pdefrag_q = NULL;
++	} else
++		pdefrag_q = &psta->sta_recvpriv.defrag_q;
++
++	if ((ismfrag == 0) && (fragnum == 0)) {
++		prtnframe = precv_frame;/* isn't a fragment frame */
++	}
++
++	if (ismfrag == 1) {
++		/* 0~(n-1) fragment frame */
++		/* enqueue to defraf_g */
++		if (pdefrag_q != NULL) {
++			if (fragnum == 0) {
++				/* the first fragment */
++				if (_rtw_queue_empty(pdefrag_q) == _FALSE) {
++					/* free current defrag_q */
++					rtw_free_recvframe_queue(pdefrag_q, pfree_recv_queue);
++				}
++			}
++
++
++			/* Then enqueue the 0~(n-1) fragment into the defrag_q */
++
++			/* _rtw_spinlock(&pdefrag_q->lock); */
++			phead = get_list_head(pdefrag_q);
++			rtw_list_insert_tail(&pfhdr->list, phead);
++			/* _rtw_spinunlock(&pdefrag_q->lock); */
++
++
++			prtnframe = NULL;
++
++		} else {
++			/* can't find this ta's defrag_queue, so free this recv_frame */
++			rtw_free_recvframe(precv_frame, pfree_recv_queue);
++			prtnframe = NULL;
++		}
++
++	}
++
++	if ((ismfrag == 0) && (fragnum != 0)) {
++		/* the last fragment frame */
++		/* enqueue the last fragment */
++		if (pdefrag_q != NULL) {
++			/* _rtw_spinlock(&pdefrag_q->lock); */
++			phead = get_list_head(pdefrag_q);
++			rtw_list_insert_tail(&pfhdr->list, phead);
++			/* _rtw_spinunlock(&pdefrag_q->lock); */
++
++			/* call recvframe_defrag to defrag */
++			precv_frame = recvframe_defrag(padapter, pdefrag_q);
++			prtnframe = precv_frame;
++
++		} else {
++			/* can't find this ta's defrag_queue, so free this recv_frame */
++			rtw_free_recvframe(precv_frame, pfree_recv_queue);
++			prtnframe = NULL;
++		}
++
++	}
++
++
++	if ((prtnframe != NULL) && (prtnframe->u.hdr.attrib.privacy)) {
++		/* after defrag we must check tkip mic code */
++		if (recvframe_chkmic(padapter,  prtnframe) == _FAIL) {
++			rtw_free_recvframe(prtnframe, pfree_recv_queue);
++			prtnframe = NULL;
++		}
++	}
++
++
++	return prtnframe;
++
++}
++
++int amsdu_to_msdu(_adapter *padapter, union recv_frame *prframe)
++{
++	int	a_len, padding_len;
++	u16	nSubframe_Length;
++	u8	nr_subframes, i;
++	u8	*pdata;
++	_pkt *sub_pkt, *subframes[MAX_SUBFRAME_COUNT];
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	_queue *pfree_recv_queue = &(precvpriv->free_recv_queue);
++	int	ret = _SUCCESS;
++
++	nr_subframes = 0;
++
++	recvframe_pull(prframe, prframe->u.hdr.attrib.hdrlen);
++
++	if (prframe->u.hdr.attrib.iv_len > 0)
++		recvframe_pull(prframe, prframe->u.hdr.attrib.iv_len);
++
++	a_len = prframe->u.hdr.len;
++
++	pdata = prframe->u.hdr.rx_data;
++
++	while (a_len > ETH_HLEN) {
++
++		/* Offset 12 denote 2 mac address */
++		nSubframe_Length = RTW_GET_BE16(pdata + 12);
++
++		if (a_len < (ETHERNET_HEADER_SIZE + nSubframe_Length)) {
++			RTW_INFO("nRemain_Length is %d and nSubframe_Length is : %d\n", a_len, nSubframe_Length);
++			break;
++		}
++
++		sub_pkt = rtw_os_alloc_msdu_pkt(prframe, nSubframe_Length, pdata);
++		if (sub_pkt == NULL) {
++			RTW_INFO("%s(): allocate sub packet fail !!!\n", __FUNCTION__);
++			break;
++		}
++
++		/* move the data point to data content */
++		pdata += ETH_HLEN;
++		a_len -= ETH_HLEN;
++
++		subframes[nr_subframes++] = sub_pkt;
++
++		if (nr_subframes >= MAX_SUBFRAME_COUNT) {
++			RTW_INFO("ParseSubframe(): Too many Subframes! Packets dropped!\n");
++			break;
++		}
++
++		pdata += nSubframe_Length;
++		a_len -= nSubframe_Length;
++		if (a_len != 0) {
++			padding_len = 4 - ((nSubframe_Length + ETH_HLEN) & (4 - 1));
++			if (padding_len == 4)
++				padding_len = 0;
++
++			if (a_len < padding_len) {
++				RTW_INFO("ParseSubframe(): a_len < padding_len !\n");
++				break;
++			}
++			pdata += padding_len;
++			a_len -= padding_len;
++		}
++	}
++
++	for (i = 0; i < nr_subframes; i++) {
++		sub_pkt = subframes[i];
++
++		/* Indicat the packets to upper layer */
++		if (sub_pkt)
++			rtw_os_recv_indicate_pkt(padapter, sub_pkt, &prframe->u.hdr.attrib);
++	}
++
++	prframe->u.hdr.len = 0;
++	rtw_free_recvframe(prframe, pfree_recv_queue);/* free this recv_frame */
++
++	return ret;
++}
++
++int check_indicate_seq(struct recv_reorder_ctrl *preorder_ctrl, u16 seq_num);
++int check_indicate_seq(struct recv_reorder_ctrl *preorder_ctrl, u16 seq_num)
++{
++	PADAPTER padapter = preorder_ctrl->padapter;
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	u8	wsize = preorder_ctrl->wsize_b;
++	u16	wend = (preorder_ctrl->indicate_seq + wsize - 1) & 0xFFF; /* % 4096; */
++
++	/* Rx Reorder initialize condition. */
++	if (preorder_ctrl->indicate_seq == 0xFFFF) {
++		preorder_ctrl->indicate_seq = seq_num;
++#ifdef DBG_RX_SEQ
++		RTW_INFO("DBG_RX_SEQ %s:%d init IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++			 preorder_ctrl->indicate_seq, seq_num);
++#endif
++
++		/* DbgPrint("check_indicate_seq, 1st->indicate_seq=%d\n", precvpriv->indicate_seq); */
++	}
++
++	/* DbgPrint("enter->check_indicate_seq(): IndicateSeq: %d, NewSeq: %d\n", precvpriv->indicate_seq, seq_num); */
++
++	/* Drop out the packet which SeqNum is smaller than WinStart */
++	if (SN_LESS(seq_num, preorder_ctrl->indicate_seq)) {
++		/* DbgPrint("CheckRxTsIndicateSeq(): Packet Drop! IndicateSeq: %d, NewSeq: %d\n", precvpriv->indicate_seq, seq_num); */
++
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("%s IndicateSeq: %d > NewSeq: %d\n", __FUNCTION__,
++			 preorder_ctrl->indicate_seq, seq_num);
++#endif
++
++
++		return _FALSE;
++	}
++
++	/*  */
++	/* Sliding window manipulation. Conditions includes: */
++	/* 1. Incoming SeqNum is equal to WinStart =>Window shift 1 */
++	/* 2. Incoming SeqNum is larger than the WinEnd => Window shift N */
++	/*  */
++	if (SN_EQUAL(seq_num, preorder_ctrl->indicate_seq)) {
++		preorder_ctrl->indicate_seq = (preorder_ctrl->indicate_seq + 1) & 0xFFF;
++
++#ifdef DBG_RX_SEQ
++		RTW_INFO("DBG_RX_SEQ %s:%d SN_EQUAL IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++			 preorder_ctrl->indicate_seq, seq_num);
++#endif
++	} else if (SN_LESS(wend, seq_num)) {
++		/* DbgPrint("CheckRxTsIndicateSeq(): Window Shift! IndicateSeq: %d, NewSeq: %d\n", precvpriv->indicate_seq, seq_num); */
++
++		/* boundary situation, when seq_num cross 0xFFF */
++		if (seq_num >= (wsize - 1))
++			preorder_ctrl->indicate_seq = seq_num + 1 - wsize;
++		else
++			preorder_ctrl->indicate_seq = 0xFFF - (wsize - (seq_num + 1)) + 1;
++		pdbgpriv->dbg_rx_ampdu_window_shift_cnt++;
++#ifdef DBG_RX_SEQ
++		RTW_INFO("DBG_RX_SEQ %s:%d SN_LESS(wend, seq_num) IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++			 preorder_ctrl->indicate_seq, seq_num);
++#endif
++	}
++
++	/* DbgPrint("exit->check_indicate_seq(): IndicateSeq: %d, NewSeq: %d\n", precvpriv->indicate_seq, seq_num); */
++
++	return _TRUE;
++}
++
++int enqueue_reorder_recvframe(struct recv_reorder_ctrl *preorder_ctrl, union recv_frame *prframe);
++int enqueue_reorder_recvframe(struct recv_reorder_ctrl *preorder_ctrl, union recv_frame *prframe)
++{
++	struct rx_pkt_attrib *pattrib = &prframe->u.hdr.attrib;
++	_queue *ppending_recvframe_queue = &preorder_ctrl->pending_recvframe_queue;
++	_list	*phead, *plist;
++	union recv_frame *pnextrframe;
++	struct rx_pkt_attrib *pnextattrib;
++
++	/* DbgPrint("+enqueue_reorder_recvframe()\n"); */
++
++	/* _enter_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++	/* _rtw_spinlock_ex(&ppending_recvframe_queue->lock); */
++
++
++	phead = get_list_head(ppending_recvframe_queue);
++	plist = get_next(phead);
++
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		pnextrframe = LIST_CONTAINOR(plist, union recv_frame, u);
++		pnextattrib = &pnextrframe->u.hdr.attrib;
++
++		if (SN_LESS(pnextattrib->seq_num, pattrib->seq_num))
++			plist = get_next(plist);
++		else if (SN_EQUAL(pnextattrib->seq_num, pattrib->seq_num)) {
++			/* Duplicate entry is found!! Do not insert current entry. */
++
++			/* _exit_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++
++			return _FALSE;
++		} else
++			break;
++
++		/* DbgPrint("enqueue_reorder_recvframe():while\n"); */
++
++	}
++
++
++	/* _enter_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++	/* _rtw_spinlock_ex(&ppending_recvframe_queue->lock); */
++
++	rtw_list_delete(&(prframe->u.hdr.list));
++
++	rtw_list_insert_tail(&(prframe->u.hdr.list), plist);
++
++	/* _rtw_spinunlock_ex(&ppending_recvframe_queue->lock); */
++	/* _exit_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++
++
++	return _TRUE;
++
++}
++
++void recv_indicatepkts_pkt_loss_cnt(struct debug_priv *pdbgpriv, u64 prev_seq, u64 current_seq);
++void recv_indicatepkts_pkt_loss_cnt(struct debug_priv *pdbgpriv, u64 prev_seq, u64 current_seq)
++{
++	if (current_seq < prev_seq)
++		pdbgpriv->dbg_rx_ampdu_loss_count += (4096 + current_seq - prev_seq);
++
++	else
++		pdbgpriv->dbg_rx_ampdu_loss_count += (current_seq - prev_seq);
++}
++int recv_indicatepkts_in_order(_adapter *padapter, struct recv_reorder_ctrl *preorder_ctrl, int bforced);
++int recv_indicatepkts_in_order(_adapter *padapter, struct recv_reorder_ctrl *preorder_ctrl, int bforced)
++{
++	/* _irqL irql; */
++	/* u8 bcancelled; */
++	_list	*phead, *plist;
++	union recv_frame *prframe;
++	struct rx_pkt_attrib *pattrib;
++	/* u8 index = 0; */
++	int bPktInBuf = _FALSE;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	_queue *ppending_recvframe_queue = &preorder_ctrl->pending_recvframe_queue;
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++
++	DBG_COUNTER(padapter->rx_logs.core_rx_post_indicate_in_oder);
++
++	/* DbgPrint("+recv_indicatepkts_in_order\n"); */
++
++	/* _enter_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++	/* _rtw_spinlock_ex(&ppending_recvframe_queue->lock); */
++
++	phead =	get_list_head(ppending_recvframe_queue);
++	plist = get_next(phead);
++
++#if 0
++	/* Check if there is any other indication thread running. */
++	if (pTS->RxIndicateState == RXTS_INDICATE_PROCESSING)
++		return;
++#endif
++
++	/* Handling some condition for forced indicate case. */
++	if (bforced == _TRUE) {
++		pdbgpriv->dbg_rx_ampdu_forced_indicate_count++;
++		if (rtw_is_list_empty(phead)) {
++			/* _exit_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++			/* _rtw_spinunlock_ex(&ppending_recvframe_queue->lock); */
++			return _TRUE;
++		}
++
++		prframe = LIST_CONTAINOR(plist, union recv_frame, u);
++		pattrib = &prframe->u.hdr.attrib;
++
++#ifdef DBG_RX_SEQ
++		RTW_INFO("DBG_RX_SEQ %s:%d IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++			 preorder_ctrl->indicate_seq, pattrib->seq_num);
++#endif
++		recv_indicatepkts_pkt_loss_cnt(pdbgpriv, preorder_ctrl->indicate_seq, pattrib->seq_num);
++		preorder_ctrl->indicate_seq = pattrib->seq_num;
++
++	}
++
++	/* Prepare indication list and indication. */
++	/* Check if there is any packet need indicate. */
++	while (!rtw_is_list_empty(phead)) {
++
++		prframe = LIST_CONTAINOR(plist, union recv_frame, u);
++		pattrib = &prframe->u.hdr.attrib;
++
++		if (!SN_LESS(preorder_ctrl->indicate_seq, pattrib->seq_num)) {
++
++#if 0
++			/* This protect buffer from overflow. */
++			if (index >= REORDER_WIN_SIZE) {
++				RT_ASSERT(FALSE, ("IndicateRxReorderList(): Buffer overflow!!\n"));
++				bPktInBuf = TRUE;
++				break;
++			}
++#endif
++
++			plist = get_next(plist);
++			rtw_list_delete(&(prframe->u.hdr.list));
++
++			if (SN_EQUAL(preorder_ctrl->indicate_seq, pattrib->seq_num)) {
++				preorder_ctrl->indicate_seq = (preorder_ctrl->indicate_seq + 1) & 0xFFF;
++#ifdef DBG_RX_SEQ
++				RTW_INFO("DBG_RX_SEQ %s:%d IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++					preorder_ctrl->indicate_seq, pattrib->seq_num);
++#endif
++			}
++
++#if 0
++			index++;
++			if (index == 1) {
++				/* Cancel previous pending timer. */
++				/* PlatformCancelTimer(Adapter, &pTS->RxPktPendingTimer); */
++				if (bforced != _TRUE) {
++					/* RTW_INFO("_cancel_timer(&preorder_ctrl->reordering_ctrl_timer, &bcancelled);\n"); */
++					_cancel_timer(&preorder_ctrl->reordering_ctrl_timer, &bcancelled);
++				}
++			}
++#endif
++
++			/* Set this as a lock to make sure that only one thread is indicating packet. */
++			/* pTS->RxIndicateState = RXTS_INDICATE_PROCESSING; */
++
++			/* Indicate packets */
++			/* RT_ASSERT((index<=REORDER_WIN_SIZE), ("RxReorderIndicatePacket(): Rx Reorder buffer full!!\n")); */
++
++
++			/* indicate this recv_frame */
++			/* DbgPrint("recv_indicatepkts_in_order, indicate_seq=%d, seq_num=%d\n", precvpriv->indicate_seq, pattrib->seq_num); */
++			if (!pattrib->amsdu) {
++				/* RTW_INFO("recv_indicatepkts_in_order, amsdu!=1, indicate_seq=%d, seq_num=%d\n", preorder_ctrl->indicate_seq, pattrib->seq_num); */
++
++				if (!RTW_CANNOT_RUN(padapter))
++					rtw_recv_indicatepkt(padapter, prframe);/*indicate this recv_frame*/
++
++			} else if (pattrib->amsdu == 1) {
++				if (amsdu_to_msdu(padapter, prframe) != _SUCCESS)
++					rtw_free_recvframe(prframe, &precvpriv->free_recv_queue);
++			} else {
++				/* error condition; */
++			}
++
++
++			/* Update local variables. */
++			bPktInBuf = _FALSE;
++
++		} else {
++			bPktInBuf = _TRUE;
++			break;
++		}
++
++		/* DbgPrint("recv_indicatepkts_in_order():while\n"); */
++
++	}
++
++	/* _rtw_spinunlock_ex(&ppending_recvframe_queue->lock); */
++	/* _exit_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++
++#if 0
++	/* Release the indication lock and set to new indication step. */
++	if (bPktInBuf) {
++		/*  Set new pending timer. */
++		/* pTS->RxIndicateState = RXTS_INDICATE_REORDER; */
++		/* PlatformSetTimer(Adapter, &pTS->RxPktPendingTimer, pHTInfo->RxReorderPendingTime); */
++
++		_set_timer(&preorder_ctrl->reordering_ctrl_timer, REORDER_WAIT_TIME);
++	} else {
++		/* pTS->RxIndicateState = RXTS_INDICATE_IDLE; */
++	}
++#endif
++	/* _exit_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++
++	/* return _TRUE; */
++	return bPktInBuf;
++
++}
++
++int recv_indicatepkt_reorder(_adapter *padapter, union recv_frame *prframe);
++int recv_indicatepkt_reorder(_adapter *padapter, union recv_frame *prframe)
++{
++	_irqL irql;
++	int retval = _SUCCESS;
++	struct rx_pkt_attrib *pattrib = &prframe->u.hdr.attrib;
++	struct recv_reorder_ctrl *preorder_ctrl = prframe->u.hdr.preorder_ctrl;
++	_queue *ppending_recvframe_queue = &preorder_ctrl->pending_recvframe_queue;
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++
++	DBG_COUNTER(padapter->rx_logs.core_rx_post_indicate_reoder);
++
++	if (!pattrib->amsdu) {
++		/* s1. */
++		retval = wlanhdr_to_ethhdr(prframe);
++		if (retval != _SUCCESS) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s wlanhdr_to_ethhdr error!\n", __FUNCTION__);
++#endif
++			return retval;
++		}
++
++		/* if ((pattrib->qos!=1) || pattrib->priority!=0 || IS_MCAST(pattrib->ra) */
++		/*	|| (pattrib->eth_type==0x0806) || (pattrib->ack_policy!=0)) */
++		if (pattrib->qos != 1) {
++			if (!RTW_CANNOT_RUN(padapter)) {
++
++				rtw_recv_indicatepkt(padapter, prframe);
++				return _SUCCESS;
++
++			}
++
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s pattrib->qos !=1\n", __FUNCTION__);
++#endif
++
++			return _FAIL;
++
++		}
++
++		if (preorder_ctrl->enable == _FALSE) {
++			/* indicate this recv_frame			 */
++			preorder_ctrl->indicate_seq = pattrib->seq_num;
++#ifdef DBG_RX_SEQ
++			RTW_INFO("DBG_RX_SEQ %s:%d IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++				 preorder_ctrl->indicate_seq, pattrib->seq_num);
++#endif
++
++			rtw_recv_indicatepkt(padapter, prframe);
++
++			preorder_ctrl->indicate_seq = (preorder_ctrl->indicate_seq + 1) % 4096;
++#ifdef DBG_RX_SEQ
++			RTW_INFO("DBG_RX_SEQ %s:%d IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++				 preorder_ctrl->indicate_seq, pattrib->seq_num);
++#endif
++
++			return _SUCCESS;
++		}
++
++#ifndef CONFIG_RECV_REORDERING_CTRL
++		/* indicate this recv_frame */
++		rtw_recv_indicatepkt(padapter, prframe);
++		return _SUCCESS;
++#endif
++
++	} else if (pattrib->amsdu == 1) { /* temp filter->means didn't support A-MSDUs in a A-MPDU */
++		if (preorder_ctrl->enable == _FALSE) {
++			preorder_ctrl->indicate_seq = pattrib->seq_num;
++#ifdef DBG_RX_SEQ
++			RTW_INFO("DBG_RX_SEQ %s:%d IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++				 preorder_ctrl->indicate_seq, pattrib->seq_num);
++#endif
++
++			retval = amsdu_to_msdu(padapter, prframe);
++
++			preorder_ctrl->indicate_seq = (preorder_ctrl->indicate_seq + 1) % 4096;
++#ifdef DBG_RX_SEQ
++			RTW_INFO("DBG_RX_SEQ %s:%d IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++				 preorder_ctrl->indicate_seq, pattrib->seq_num);
++#endif
++
++			if (retval != _SUCCESS) {
++#ifdef DBG_RX_DROP_FRAME
++				RTW_INFO("DBG_RX_DROP_FRAME %s amsdu_to_msdu fail\n", __FUNCTION__);
++#endif
++			}
++
++			return retval;
++		}
++	} else {
++
++	}
++
++	_enter_critical_bh(&ppending_recvframe_queue->lock, &irql);
++
++
++	/* s2. check if winstart_b(indicate_seq) needs to been updated */
++	if (!check_indicate_seq(preorder_ctrl, pattrib->seq_num)) {
++		pdbgpriv->dbg_rx_ampdu_drop_count++;
++		/* pHTInfo->RxReorderDropCounter++; */
++		/* ReturnRFDList(Adapter, pRfd); */
++		/* _exit_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++		/* return _FAIL; */
++
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s check_indicate_seq fail\n", __FUNCTION__);
++#endif
++#if 0
++		rtw_recv_indicatepkt(padapter, prframe);
++
++		_exit_critical_bh(&ppending_recvframe_queue->lock, &irql);
++
++		goto _success_exit;
++#else
++		goto _err_exit;
++#endif
++	}
++
++
++	/* s3. Insert all packet into Reorder Queue to maintain its ordering. */
++	if (!enqueue_reorder_recvframe(preorder_ctrl, prframe)) {
++		/* DbgPrint("recv_indicatepkt_reorder, enqueue_reorder_recvframe fail!\n"); */
++		/* _exit_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++		/* return _FAIL; */
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s enqueue_reorder_recvframe fail\n", __FUNCTION__);
++#endif
++		goto _err_exit;
++	}
++
++
++	/* s4. */
++	/* Indication process. */
++	/* After Packet dropping and Sliding Window shifting as above, we can now just indicate the packets */
++	/* with the SeqNum smaller than latest WinStart and buffer other packets. */
++	/*  */
++	/* For Rx Reorder condition: */
++	/* 1. All packets with SeqNum smaller than WinStart => Indicate */
++	/* 2. All packets with SeqNum larger than or equal to WinStart => Buffer it. */
++	/*  */
++
++	/* recv_indicatepkts_in_order(padapter, preorder_ctrl, _TRUE); */
++	if (recv_indicatepkts_in_order(padapter, preorder_ctrl, _FALSE) == _TRUE) {
++		if (!preorder_ctrl->bReorderWaiting) {
++			preorder_ctrl->bReorderWaiting = _TRUE;
++			_set_timer(&preorder_ctrl->reordering_ctrl_timer, REORDER_WAIT_TIME);
++		}
++		_exit_critical_bh(&ppending_recvframe_queue->lock, &irql);
++	} else {
++		preorder_ctrl->bReorderWaiting = _FALSE;
++		_exit_critical_bh(&ppending_recvframe_queue->lock, &irql);
++		_cancel_timer_ex(&preorder_ctrl->reordering_ctrl_timer);
++	}
++
++
++_success_exit:
++
++	return _SUCCESS;
++
++_err_exit:
++
++	_exit_critical_bh(&ppending_recvframe_queue->lock, &irql);
++
++	return _FAIL;
++}
++
++
++void rtw_reordering_ctrl_timeout_handler(void *pcontext)
++{
++	_irqL irql;
++	struct recv_reorder_ctrl *preorder_ctrl = (struct recv_reorder_ctrl *)pcontext;
++	_adapter *padapter = preorder_ctrl->padapter;
++	_queue *ppending_recvframe_queue = &preorder_ctrl->pending_recvframe_queue;
++
++
++	if (RTW_CANNOT_RUN(padapter))
++		return;
++
++	/* RTW_INFO("+rtw_reordering_ctrl_timeout_handler()=>\n"); */
++
++	_enter_critical_bh(&ppending_recvframe_queue->lock, &irql);
++
++	if (preorder_ctrl)
++		preorder_ctrl->bReorderWaiting = _FALSE;
++
++	if (recv_indicatepkts_in_order(padapter, preorder_ctrl, _TRUE) == _TRUE)
++		_set_timer(&preorder_ctrl->reordering_ctrl_timer, REORDER_WAIT_TIME);
++
++	_exit_critical_bh(&ppending_recvframe_queue->lock, &irql);
++
++}
++
++int process_recv_indicatepkts(_adapter *padapter, union recv_frame *prframe);
++int process_recv_indicatepkts(_adapter *padapter, union recv_frame *prframe)
++{
++	int retval = _SUCCESS;
++	/* struct recv_priv *precvpriv = &padapter->recvpriv; */
++	/* struct rx_pkt_attrib *pattrib = &prframe->u.hdr.attrib; */
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++#ifdef CONFIG_TDLS
++	struct sta_info *psta = prframe->u.hdr.psta;
++#endif /* CONFIG_TDLS */
++
++#ifdef CONFIG_80211N_HT
++
++	struct ht_priv	*phtpriv = &pmlmepriv->htpriv;
++
++	DBG_COUNTER(padapter->rx_logs.core_rx_post_indicate);
++
++#ifdef CONFIG_TDLS
++	if ((phtpriv->ht_option == _TRUE) ||
++	    ((psta->tdls_sta_state & TDLS_LINKED_STATE) &&
++	     (psta->htpriv.ht_option == _TRUE) &&
++	     (psta->htpriv.ampdu_enable == _TRUE))) /* B/G/N Mode */
++#else
++	if (phtpriv->ht_option == _TRUE) /* B/G/N Mode */
++#endif /* CONFIG_TDLS */
++	{
++		/* prframe->u.hdr.preorder_ctrl = &precvpriv->recvreorder_ctrl[pattrib->priority]; */
++
++		if (recv_indicatepkt_reorder(padapter, prframe) != _SUCCESS) { /* including perform A-MPDU Rx Ordering Buffer Control */
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s recv_indicatepkt_reorder error!\n", __FUNCTION__);
++#endif
++
++			if (!RTW_CANNOT_RUN(padapter))	{
++				retval = _FAIL;
++				return retval;
++			}
++		}
++	} else /* B/G mode */
++#endif
++	{
++		retval = wlanhdr_to_ethhdr(prframe);
++		if (retval != _SUCCESS) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s wlanhdr_to_ethhdr error!\n", __FUNCTION__);
++#endif
++			return retval;
++		}
++
++		if (!RTW_CANNOT_RUN(padapter)) {
++			/* indicate this recv_frame */
++			rtw_recv_indicatepkt(padapter, prframe);
++		} else {
++
++			retval = _FAIL;
++			return retval;
++		}
++
++	}
++
++	return retval;
++
++}
++
++#ifdef CONFIG_MP_INCLUDED
++int validate_mp_recv_frame(_adapter *adapter, union recv_frame *precv_frame)
++{
++	int ret = _SUCCESS;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	u8 type, subtype;
++	struct mp_priv *pmppriv = &adapter->mppriv;
++	struct mp_tx		*pmptx;
++	unsigned char	*sa , *da, *bs;
++
++	pmptx = &pmppriv->tx;
++
++#if 0
++	if (1) {
++		u8 bDumpRxPkt;
++		type =  GetFrameType(ptr);
++		subtype = GetFrameSubType(ptr); /* bit(7)~bit(2)	 */
++
++		rtw_hal_get_def_var(adapter, HAL_DEF_DBG_DUMP_RXPKT, &(bDumpRxPkt));
++		if (bDumpRxPkt == 1) { /* dump all rx packets */
++			int i;
++			RTW_INFO("############ type:0x%02x subtype:0x%02x #################\n", type, subtype);
++
++			for (i = 0; i < 64; i = i + 8)
++				RTW_INFO("%02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X:\n", *(ptr + i),
++					*(ptr + i + 1), *(ptr + i + 2) , *(ptr + i + 3) , *(ptr + i + 4), *(ptr + i + 5), *(ptr + i + 6), *(ptr + i + 7));
++			RTW_INFO("#############################\n");
++		}
++	}
++#endif
++	if (pmppriv->bloopback) {
++		if (_rtw_memcmp(ptr + 24, pmptx->buf + 24, precv_frame->u.hdr.len - 24) == _FALSE) {
++			RTW_INFO("Compare payload content Fail !!!\n");
++			ret = _FAIL;
++		}
++	}
++ 	if (pmppriv->bSetRxBssid == _TRUE) {
++
++		sa = GetAddr2Ptr(ptr);
++		da = GetAddr1Ptr(ptr);
++		bs = GetAddr3Ptr(ptr);
++		type =	GetFrameType(ptr);
++		subtype = GetFrameSubType(ptr); /* bit(7)~bit(2)  */
++
++		if (_rtw_memcmp(bs, adapter->mppriv.network_macaddr, ETH_ALEN) == _FALSE)
++			ret = _FAIL;
++
++		RTW_DBG("############ type:0x%02x subtype:0x%02x #################\n", type, subtype);
++		RTW_DBG("A2 sa %02X:%02X:%02X:%02X:%02X:%02X \n", *(sa) , *(sa + 1), *(sa+ 2), *(sa + 3), *(sa + 4), *(sa + 5));
++		RTW_DBG("A1 da %02X:%02X:%02X:%02X:%02X:%02X \n", *(da) , *(da + 1), *(da+ 2), *(da + 3), *(da + 4), *(da + 5));
++		RTW_DBG("A3 bs %02X:%02X:%02X:%02X:%02X:%02X \n --------------------------\n", *(bs) , *(bs + 1), *(bs+ 2), *(bs + 3), *(bs + 4), *(bs + 5));
++	}
++
++	if (!adapter->mppriv.bmac_filter)
++		return ret;
++
++	if (_rtw_memcmp(GetAddr2Ptr(ptr), adapter->mppriv.mac_filter, ETH_ALEN) == _FALSE)
++		ret = _FAIL;
++
++	return ret;
++}
++
++static sint MPwlanhdr_to_ethhdr(union recv_frame *precvframe)
++{
++	sint	rmv_len;
++	u16 eth_type, len;
++	u8	bsnaphdr;
++	u8	*psnap_type;
++	u8 mcastheadermac[] = {0x01, 0x00, 0x5e};
++
++	struct ieee80211_snap_hdr	*psnap;
++
++	sint ret = _SUCCESS;
++	_adapter			*adapter = precvframe->u.hdr.adapter;
++	struct mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++
++	u8	*ptr = get_recvframe_data(precvframe) ; /* point to frame_ctrl field */
++	struct rx_pkt_attrib *pattrib = &precvframe->u.hdr.attrib;
++
++
++	if (pattrib->encrypt)
++		recvframe_pull_tail(precvframe, pattrib->icv_len);
++
++	psnap = (struct ieee80211_snap_hdr *)(ptr + pattrib->hdrlen + pattrib->iv_len);
++	psnap_type = ptr + pattrib->hdrlen + pattrib->iv_len + SNAP_SIZE;
++	/* convert hdr + possible LLC headers into Ethernet header */
++	/* eth_type = (psnap_type[0] << 8) | psnap_type[1]; */
++	if ((_rtw_memcmp(psnap, rtw_rfc1042_header, SNAP_SIZE) &&
++	     (_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_IPX, 2) == _FALSE) &&
++	     (_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_APPLETALK_AARP, 2) == _FALSE)) ||
++	    /* eth_type != ETH_P_AARP && eth_type != ETH_P_IPX) || */
++	    _rtw_memcmp(psnap, rtw_bridge_tunnel_header, SNAP_SIZE)) {
++		/* remove RFC1042 or Bridge-Tunnel encapsulation and replace EtherType */
++		bsnaphdr = _TRUE;
++	} else {
++		/* Leave Ethernet header part of hdr and full payload */
++		bsnaphdr = _FALSE;
++	}
++
++	rmv_len = pattrib->hdrlen + pattrib->iv_len + (bsnaphdr ? SNAP_SIZE : 0);
++	len = precvframe->u.hdr.len - rmv_len;
++
++
++	_rtw_memcpy(&eth_type, ptr + rmv_len, 2);
++	eth_type = ntohs((unsigned short)eth_type); /* pattrib->ether_type */
++	pattrib->eth_type = eth_type;
++
++	{
++		ptr = recvframe_pull(precvframe, (rmv_len - sizeof(struct ethhdr) + (bsnaphdr ? 2 : 0)));
++	}
++
++	_rtw_memcpy(ptr, pattrib->dst, ETH_ALEN);
++	_rtw_memcpy(ptr + ETH_ALEN, pattrib->src, ETH_ALEN);
++
++	if (!bsnaphdr) {
++		len = htons(len);
++		_rtw_memcpy(ptr + 12, &len, 2);
++	}
++
++
++	len = htons(pattrib->seq_num);
++	/* RTW_INFO("wlan seq = %d ,seq_num =%x\n",len,pattrib->seq_num); */
++	_rtw_memcpy(ptr + 12, &len, 2);
++	if (adapter->mppriv.bRTWSmbCfg == _TRUE) {
++		/* if(_rtw_memcmp(mcastheadermac, pattrib->dst, 3) == _TRUE) */ /* SimpleConfig Dest. */
++		/*			_rtw_memcpy(ptr+ETH_ALEN, pattrib->bssid, ETH_ALEN); */
++
++		if (_rtw_memcmp(mcastheadermac, pattrib->bssid, 3) == _TRUE) /* SimpleConfig Dest. */
++			_rtw_memcpy(ptr, pattrib->bssid, ETH_ALEN);
++
++	}
++
++
++	return ret;
++
++}
++
++
++int mp_recv_frame(_adapter *padapter, union recv_frame *rframe)
++{
++	int ret = _SUCCESS;
++	struct rx_pkt_attrib *pattrib = &rframe->u.hdr.attrib;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	_queue *pfree_recv_queue = &padapter->recvpriv.free_recv_queue;
++#ifdef CONFIG_MP_INCLUDED
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mp_priv *pmppriv = &padapter->mppriv;
++#endif /* CONFIG_MP_INCLUDED */
++	u8 type;
++	u8 *ptr = rframe->u.hdr.rx_data;
++	u8 *psa, *pda, *pbssid;
++	struct sta_info *psta = NULL;
++	DBG_COUNTER(padapter->rx_logs.core_rx_pre);
++
++	if ((check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)) { /* &&(padapter->mppriv.check_mp_pkt == 0)) */
++		if (pattrib->crc_err == 1)
++			padapter->mppriv.rx_crcerrpktcount++;
++		else {
++			if (_SUCCESS == validate_mp_recv_frame(padapter, rframe))
++				padapter->mppriv.rx_pktcount++;
++			else
++				padapter->mppriv.rx_pktcount_filter_out++;
++		}
++
++		if (pmppriv->rx_bindicatePkt == _FALSE) {
++			ret = _FAIL;
++			rtw_free_recvframe(rframe, pfree_recv_queue);/* free this recv_frame */
++			goto exit;
++		} else {
++			type =	GetFrameType(ptr);
++			pattrib->to_fr_ds = get_tofr_ds(ptr);
++			pattrib->frag_num = GetFragNum(ptr);
++			pattrib->seq_num = GetSequence(ptr);
++			pattrib->pw_save = GetPwrMgt(ptr);
++			pattrib->mfrag = GetMFrag(ptr);
++			pattrib->mdata = GetMData(ptr);
++			pattrib->privacy = GetPrivacy(ptr);
++			pattrib->order = GetOrder(ptr);
++
++			if (type == WIFI_DATA_TYPE) {
++				pda = get_da(ptr);
++				psa = get_sa(ptr);
++				pbssid = get_hdr_bssid(ptr);
++
++				_rtw_memcpy(pattrib->dst, pda, ETH_ALEN);
++				_rtw_memcpy(pattrib->src, psa, ETH_ALEN);
++				_rtw_memcpy(pattrib->bssid, pbssid, ETH_ALEN);
++
++				switch (pattrib->to_fr_ds) {
++				case 0:
++					_rtw_memcpy(pattrib->ra, pda, ETH_ALEN);
++					_rtw_memcpy(pattrib->ta, psa, ETH_ALEN);
++					ret = sta2sta_data_frame(padapter, rframe, &psta);
++					break;
++
++				case 1:
++
++					_rtw_memcpy(pattrib->ra, pda, ETH_ALEN);
++					_rtw_memcpy(pattrib->ta, pbssid, ETH_ALEN);
++					ret = ap2sta_data_frame(padapter, rframe, &psta);
++
++					break;
++
++				case 2:
++					_rtw_memcpy(pattrib->ra, pbssid, ETH_ALEN);
++					_rtw_memcpy(pattrib->ta, psa, ETH_ALEN);
++					ret = sta2ap_data_frame(padapter, rframe, &psta);
++					break;
++
++				case 3:
++					_rtw_memcpy(pattrib->ra, GetAddr1Ptr(ptr), ETH_ALEN);
++					_rtw_memcpy(pattrib->ta, GetAddr2Ptr(ptr), ETH_ALEN);
++					ret = _FAIL;
++					break;
++
++				default:
++					ret = _FAIL;
++					break;
++				}
++
++				ret = MPwlanhdr_to_ethhdr(rframe);
++
++				if (ret != _SUCCESS) {
++#ifdef DBG_RX_DROP_FRAME
++					RTW_INFO("DBG_RX_DROP_FRAME %s wlanhdr_to_ethhdr: drop pkt\n", __FUNCTION__);
++#endif
++					rtw_free_recvframe(rframe, pfree_recv_queue);/* free this recv_frame */
++					ret = _FAIL;
++					goto exit;
++				}
++				if (!RTW_CANNOT_RUN(padapter)) {
++					/* indicate this recv_frame */
++					ret = rtw_recv_indicatepkt(padapter, rframe);
++					if (ret != _SUCCESS) {
++#ifdef DBG_RX_DROP_FRAME
++						RTW_INFO("DBG_RX_DROP_FRAME %s rtw_recv_indicatepkt fail!\n", __FUNCTION__);
++#endif
++						rtw_free_recvframe(rframe, pfree_recv_queue);/* free this recv_frame */
++						ret = _FAIL;
++
++						goto exit;
++					}
++				} else {
++#ifdef DBG_RX_DROP_FRAME
++					RTW_INFO("DBG_RX_DROP_FRAME %s ecv_func:bDriverStopped(%s) OR bSurpriseRemoved(%s)\n", __func__,
++						rtw_is_drv_stopped(padapter) ? "True" : "False",
++						rtw_is_surprise_removed(padapter) ? "True" : "False");
++#endif
++					ret = _FAIL;
++					rtw_free_recvframe(rframe, pfree_recv_queue);/* free this recv_frame */
++					goto exit;
++				}
++
++			}
++		}
++
++	}
++
++	rtw_free_recvframe(rframe, pfree_recv_queue);/* free this recv_frame */
++	ret = _FAIL;
++
++exit:
++	return ret;
++
++}
++#endif
++
++static sint fill_radiotap_hdr(_adapter *padapter, union recv_frame *precvframe, u8 *buf)
++{
++#define CHAN2FREQ(a) ((a < 14) ? (2407+5*a) : (5000+5*a))
++
++#if 0
++#define RTW_RX_RADIOTAP_PRESENT (\
++				 (1 << IEEE80211_RADIOTAP_TSFT)              | \
++				 (1 << IEEE80211_RADIOTAP_FLAGS)             | \
++				 (1 << IEEE80211_RADIOTAP_RATE)              | \
++				 (1 << IEEE80211_RADIOTAP_CHANNEL)           | \
++				 (0 << IEEE80211_RADIOTAP_FHSS)              | \
++				 (1 << IEEE80211_RADIOTAP_DBM_ANTSIGNAL)     | \
++				 (1 << IEEE80211_RADIOTAP_DBM_ANTNOISE)      | \
++				 (0 << IEEE80211_RADIOTAP_LOCK_QUALITY)      | \
++				 (0 << IEEE80211_RADIOTAP_TX_ATTENUATION)    | \
++				 (0 << IEEE80211_RADIOTAP_DB_TX_ATTENUATION) | \
++				 (0 << IEEE80211_RADIOTAP_DBM_TX_POWER)      | \
++				 (1 << IEEE80211_RADIOTAP_ANTENNA)           | \
++				 (1 << IEEE80211_RADIOTAP_DB_ANTSIGNAL)      | \
++				 (0 << IEEE80211_RADIOTAP_DB_ANTNOISE)       | \
++				 (0 << IEEE80211_RADIOTAP_RX_FLAGS)          | \
++				 (0 << IEEE80211_RADIOTAP_TX_FLAGS)          | \
++				 (0 << IEEE80211_RADIOTAP_RTS_RETRIES)       | \
++				 (0 << IEEE80211_RADIOTAP_DATA_RETRIES)      | \
++				 (0 << IEEE80211_RADIOTAP_MCS)               | \
++				 (0 << IEEE80211_RADIOTAP_RADIOTAP_NAMESPACE)| \
++				 (0 << IEEE80211_RADIOTAP_VENDOR_NAMESPACE)  | \
++				 (0 << IEEE80211_RADIOTAP_EXT)               | \
++				 0)
++
++	/* (0 << IEEE80211_RADIOTAP_AMPDU_STATUS)      | \ */
++	/* (0 << IEEE80211_RADIOTAP_VHT)               | \ */
++#endif
++#ifndef IEEE80211_RADIOTAP_MCS
++#define IEEE80211_RADIOTAP_MCS 19
++#endif
++#ifndef IEEE80211_RADIOTAP_VHT
++#define IEEE80211_RADIOTAP_VHT 21
++#endif
++
++#ifndef IEEE80211_RADIOTAP_F_BADFCS
++#define IEEE80211_RADIOTAP_F_BADFCS 0x40 /* bad FCS */
++#endif
++
++	sint ret = _SUCCESS;
++	_adapter			*adapter = precvframe->u.hdr.adapter;
++	struct mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++	struct rx_pkt_attrib *pattrib = &precvframe->u.hdr.attrib;
++
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	u16 tmp_16bit = 0;
++
++	u8 data_rate[] = {
++		2, 4, 11, 22, /* CCK */
++		12, 18, 24, 36, 48, 72, 93, 108, /* OFDM */
++		0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, /* HT MCS index */
++		16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31,
++		0, 1, 2, 3, 4, 5, 6, 7, 8, 9, /* VHT Nss 1 */
++		0, 1, 2, 3, 4, 5, 6, 7, 8, 9, /* VHT Nss 2 */
++		0, 1, 2, 3, 4, 5, 6, 7, 8, 9, /* VHT Nss 3 */
++		0, 1, 2, 3, 4, 5, 6, 7, 8, 9, /* VHT Nss 4 */
++	};
++
++	_pkt *pskb = NULL;
++
++	struct ieee80211_radiotap_header *rtap_hdr = NULL;
++	u8 *ptr = NULL;
++
++	u8 hdr_buf[64] = {0};
++	u16 rt_len = 8;
++
++	/* create header */
++	rtap_hdr = (struct ieee80211_radiotap_header *)&hdr_buf[0];
++	rtap_hdr->it_version = PKTHDR_RADIOTAP_VERSION;
++
++	/* tsft */
++	if (pattrib->tsfl) {
++		u64 tmp_64bit;
++
++		rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_TSFT);
++		tmp_64bit = cpu_to_le64(pattrib->tsfl);
++		memcpy(&hdr_buf[rt_len], &tmp_64bit, 8);
++		rt_len += 8;
++	}
++
++	/* flags */
++	rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_FLAGS);
++	if (0)
++		hdr_buf[rt_len] |= IEEE80211_RADIOTAP_F_CFP;
++
++	if (0)
++		hdr_buf[rt_len] |= IEEE80211_RADIOTAP_F_SHORTPRE;
++
++	if ((pattrib->encrypt == 1) || (pattrib->encrypt == 5))
++		hdr_buf[rt_len] |= IEEE80211_RADIOTAP_F_WEP;
++
++	if (pattrib->mfrag)
++		hdr_buf[rt_len] |= IEEE80211_RADIOTAP_F_FRAG;
++
++	/* always append FCS */
++	hdr_buf[rt_len] |= IEEE80211_RADIOTAP_F_FCS;
++
++
++	if (0)
++		hdr_buf[rt_len] |= IEEE80211_RADIOTAP_F_DATAPAD;
++
++	if (pattrib->crc_err)
++		hdr_buf[rt_len] |= IEEE80211_RADIOTAP_F_BADFCS;
++
++	if (pattrib->sgi) {
++		/* Currently unspecified but used */
++		hdr_buf[rt_len] |= 0x80;
++	}
++	rt_len += 1;
++
++	/* rate */
++	if (pattrib->data_rate < 12) {
++		rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_RATE);
++		if (pattrib->data_rate < 4) {
++			/* CCK */
++			hdr_buf[rt_len] = data_rate[pattrib->data_rate];
++		} else {
++			/* OFDM */
++			hdr_buf[rt_len] = data_rate[pattrib->data_rate];
++		}
++	}
++	rt_len += 1; /* force padding 1 byte for aligned */
++
++	/* channel */
++	tmp_16bit = 0;
++	rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_CHANNEL);
++	tmp_16bit = CHAN2FREQ(rtw_get_oper_ch(padapter));
++	/*tmp_16bit = CHAN2FREQ(pHalData->CurrentChannel);*/
++	memcpy(&hdr_buf[rt_len], &tmp_16bit, 2);
++	rt_len += 2;
++
++	/* channel flags */
++	tmp_16bit = 0;
++	if (pHalData->CurrentBandType == 0)
++		tmp_16bit |= cpu_to_le16(IEEE80211_CHAN_2GHZ);
++	else
++		tmp_16bit |= cpu_to_le16(IEEE80211_CHAN_5GHZ);
++
++	if (pattrib->data_rate < 12) {
++		if (pattrib->data_rate < 4) {
++			/* CCK */
++			tmp_16bit |= cpu_to_le16(IEEE80211_CHAN_CCK);
++		} else {
++			/* OFDM */
++			tmp_16bit |= cpu_to_le16(IEEE80211_CHAN_OFDM);
++		}
++	} else
++		tmp_16bit |= cpu_to_le16(IEEE80211_CHAN_DYN);
++	memcpy(&hdr_buf[rt_len], &tmp_16bit, 2);
++	rt_len += 2;
++
++	/* dBm Antenna Signal */
++	rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_DBM_ANTSIGNAL);
++	hdr_buf[rt_len] = pattrib->phy_info.RecvSignalPower;
++	rt_len += 1;
++
++#if 0
++	/* dBm Antenna Noise */
++	rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_DBM_ANTNOISE);
++	hdr_buf[rt_len] = 0;
++	rt_len += 1;
++
++	/* Signal Quality */
++	rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_LOCK_QUALITY);
++	hdr_buf[rt_len] = pattrib->phy_info.SignalQuality;
++	rt_len += 1;
++#endif
++
++	/* Antenna */
++	rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_ANTENNA);
++	hdr_buf[rt_len] = 0; /* pHalData->rf_type; */
++	rt_len += 1;
++
++	/* RX flags */
++	rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_RX_FLAGS);
++#if 0
++	tmp_16bit = cpu_to_le16(0);
++	memcpy(ptr, &tmp_16bit, 1);
++#endif
++	rt_len += 2;
++
++	/* MCS information */
++	if (pattrib->data_rate >= 12 && pattrib->data_rate < 44) {
++		rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_MCS);
++		/* known, flag */
++		hdr_buf[rt_len] |= BIT1; /* MCS index known */
++
++		/* bandwidth */
++		hdr_buf[rt_len] |= BIT0;
++		hdr_buf[rt_len + 1] |= (pattrib->bw & 0x03);
++
++		/* guard interval */
++		hdr_buf[rt_len] |= BIT2;
++		hdr_buf[rt_len + 1] |= (pattrib->sgi & 0x01) << 2;
++
++		/* STBC */
++		hdr_buf[rt_len] |= BIT5;
++		hdr_buf[rt_len + 1] |= (pattrib->stbc & 0x03) << 5;
++
++		rt_len += 2;
++
++		/* MCS rate index */
++		hdr_buf[rt_len] = data_rate[pattrib->data_rate];
++		rt_len += 1;
++	}
++
++	/* VHT */
++	if (pattrib->data_rate >= 44 && pattrib->data_rate < 84) {
++		rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_VHT);
++
++		/* known 16 bit, flag 8 bit */
++		tmp_16bit = 0;
++
++		/* Bandwidth */
++		tmp_16bit |= BIT6;
++
++		/* Group ID */
++		tmp_16bit |= BIT7;
++
++		/* Partial AID */
++		tmp_16bit |= BIT8;
++
++		/* STBC */
++		tmp_16bit |= BIT0;
++		hdr_buf[rt_len + 2] |= (pattrib->stbc & 0x01);
++
++		/* Guard interval */
++		tmp_16bit |= BIT2;
++		hdr_buf[rt_len + 2] |= (pattrib->sgi & 0x01) << 2;
++
++		/* LDPC extra OFDM symbol */
++		tmp_16bit |= BIT4;
++		hdr_buf[rt_len + 2] |= (pattrib->ldpc & 0x01) << 4;
++
++		memcpy(&hdr_buf[rt_len], &tmp_16bit, 2);
++		rt_len += 3;
++
++		/* bandwidth */
++		if (pattrib->bw == 0)
++			hdr_buf[rt_len] |= 0;
++		else if (pattrib->bw == 1)
++			hdr_buf[rt_len] |= 1;
++		else if (pattrib->bw == 2)
++			hdr_buf[rt_len] |= 4;
++		else if (pattrib->bw == 3)
++			hdr_buf[rt_len] |= 11;
++		rt_len += 1;
++
++		/* mcs_nss */
++		if (pattrib->data_rate >= 44 && pattrib->data_rate < 54) {
++			hdr_buf[rt_len] |= 1;
++			hdr_buf[rt_len] |= data_rate[pattrib->data_rate] << 4;
++		} else if (pattrib->data_rate >= 54 && pattrib->data_rate < 64) {
++			hdr_buf[rt_len + 1] |= 2;
++			hdr_buf[rt_len + 1] |= data_rate[pattrib->data_rate] << 4;
++		} else if (pattrib->data_rate >= 64 && pattrib->data_rate < 74) {
++			hdr_buf[rt_len + 2] |= 3;
++			hdr_buf[rt_len + 2] |= data_rate[pattrib->data_rate] << 4;
++		} else if (pattrib->data_rate >= 74 && pattrib->data_rate < 84) {
++			hdr_buf[rt_len + 3] |= 4;
++			hdr_buf[rt_len + 3] |= data_rate[pattrib->data_rate] << 4;
++		}
++		rt_len += 4;
++
++		/* coding */
++		hdr_buf[rt_len] = 0;
++		rt_len += 1;
++
++		/* group_id */
++		hdr_buf[rt_len] = 0;
++		rt_len += 1;
++
++		/* partial_aid */
++		tmp_16bit = 0;
++		memcpy(&hdr_buf[rt_len], &tmp_16bit, 2);
++		rt_len += 2;
++	}
++
++	/* push to skb */
++	pskb = (_pkt *)buf;
++	if (skb_headroom(pskb) < rt_len) {
++		RTW_INFO("%s:%d %s headroom is too small.\n", __FILE__, __LINE__, __func__);
++		ret = _FAIL;
++		return ret;
++	}
++
++	ptr = skb_push(pskb, rt_len);
++	if (ptr) {
++		rtap_hdr->it_len = cpu_to_le16(rt_len);
++		memcpy(ptr, rtap_hdr, rt_len);
++	} else
++		ret = _FAIL;
++
++	return ret;
++
++}
++
++int recv_frame_monitor(_adapter *padapter, union recv_frame *rframe)
++{
++	int ret = _SUCCESS;
++	struct rx_pkt_attrib *pattrib = &rframe->u.hdr.attrib;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	_queue *pfree_recv_queue = &padapter->recvpriv.free_recv_queue;
++	_pkt *pskb = NULL;
++
++	/* read skb information from recv frame */
++	pskb = rframe->u.hdr.pkt;
++	pskb->len = rframe->u.hdr.len;
++	pskb->data = rframe->u.hdr.rx_data;
++	skb_set_tail_pointer(pskb, rframe->u.hdr.len);
++
++	/* fill radiotap header */
++	if (fill_radiotap_hdr(padapter, rframe, (u8 *)pskb) == _FAIL) {
++		ret = _FAIL;
++		rtw_free_recvframe(rframe, pfree_recv_queue); /* free this recv_frame */
++		goto exit;
++	}
++
++	/* write skb information to recv frame */
++	skb_reset_mac_header(pskb);
++	rframe->u.hdr.len = pskb->len;
++	rframe->u.hdr.rx_data = pskb->data;
++	rframe->u.hdr.rx_head = pskb->head;
++	rframe->u.hdr.rx_tail = skb_tail_pointer(pskb);
++	rframe->u.hdr.rx_end = skb_end_pointer(pskb);
++
++	if (!RTW_CANNOT_RUN(padapter)) {
++		/* indicate this recv_frame */
++		ret = rtw_recv_monitor(padapter, rframe);
++		if (ret != _SUCCESS) {
++			ret = _FAIL;
++			rtw_free_recvframe(rframe, pfree_recv_queue); /* free this recv_frame */
++			goto exit;
++		}
++	} else {
++		ret = _FAIL;
++		rtw_free_recvframe(rframe, pfree_recv_queue); /* free this recv_frame */
++		goto exit;
++	}
++
++exit:
++	return ret;
++}
++
++int recv_func_prehandle(_adapter *padapter, union recv_frame *rframe)
++{
++	int ret = _SUCCESS;
++	struct rx_pkt_attrib *pattrib = &rframe->u.hdr.attrib;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	_queue *pfree_recv_queue = &padapter->recvpriv.free_recv_queue;
++
++#ifdef DBG_RX_COUNTER_DUMP
++	if (padapter->dump_rx_cnt_mode & DUMP_DRV_RX_COUNTER) {
++		if (pattrib->crc_err == 1)
++			padapter->drv_rx_cnt_crcerror++;
++		else
++			padapter->drv_rx_cnt_ok++;
++	}
++#endif
++
++#ifdef CONFIG_MP_INCLUDED
++	if (padapter->registrypriv.mp_mode == 1 || padapter->mppriv.bRTWSmbCfg == _TRUE) {
++		mp_recv_frame(padapter, rframe);
++		ret = _FAIL;
++		goto exit;
++	} else
++#endif
++	{
++		/* check the frame crtl field and decache */
++		ret = validate_recv_frame(padapter, rframe);
++		if (ret != _SUCCESS) {
++			rtw_free_recvframe(rframe, pfree_recv_queue);/* free this recv_frame */
++			goto exit;
++		}
++	}
++exit:
++	return ret;
++}
++
++/*#define DBG_RX_BMC_FRAME*/
++int recv_func_posthandle(_adapter *padapter, union recv_frame *prframe)
++{
++	int ret = _SUCCESS;
++	union recv_frame *orig_prframe = prframe;
++	struct rx_pkt_attrib *pattrib = &prframe->u.hdr.attrib;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	_queue *pfree_recv_queue = &padapter->recvpriv.free_recv_queue;
++#ifdef CONFIG_TDLS
++	u8 *psnap_type, *pcategory;
++#endif /* CONFIG_TDLS */
++
++	DBG_COUNTER(padapter->rx_logs.core_rx_post);
++
++	/* DATA FRAME */
++	rtw_led_control(padapter, LED_CTL_RX);
++
++	prframe = decryptor(padapter, prframe);
++	if (prframe == NULL) {
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s decryptor: drop pkt\n", __FUNCTION__);
++#endif
++		ret = _FAIL;
++		DBG_COUNTER(padapter->rx_logs.core_rx_post_decrypt_err);
++		goto _recv_data_drop;
++	}
++
++#ifdef DBG_RX_BMC_FRAME
++	if (IS_MCAST(pattrib->ra)) {
++		u8 *pbuf = prframe->u.hdr.rx_data;
++		u8 *sa_addr = get_sa(pbuf);
++
++		RTW_INFO("%s =>"ADPT_FMT" Rx BC/MC from MAC: "MAC_FMT"\n", __func__, ADPT_ARG(padapter), MAC_ARG(sa_addr));
++	}
++#endif
++
++#if 0
++	if (padapter->adapter_type == PRIMARY_ADAPTER) {
++		RTW_INFO("+++\n");
++		{
++			int i;
++			u8	*ptr = get_recvframe_data(prframe);
++			for (i = 0; i < 140; i = i + 8)
++				RTW_INFO("%02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X:", *(ptr + i),
++					*(ptr + i + 1), *(ptr + i + 2) , *(ptr + i + 3) , *(ptr + i + 4), *(ptr + i + 5), *(ptr + i + 6), *(ptr + i + 7));
++
++		}
++		RTW_INFO("---\n");
++	}
++#endif
++
++#ifdef CONFIG_TDLS
++	/* check TDLS frame */
++	psnap_type = get_recvframe_data(orig_prframe) + pattrib->hdrlen + pattrib->iv_len + SNAP_SIZE;
++	pcategory = psnap_type + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN;
++
++	if ((_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_TDLS, ETH_TYPE_LEN)) &&
++	    ((*pcategory == RTW_WLAN_CATEGORY_TDLS) || (*pcategory == RTW_WLAN_CATEGORY_P2P))) {
++		ret = OnTDLS(padapter, prframe);
++		if (ret == _FAIL)
++			goto _exit_recv_func;
++	}
++#endif /* CONFIG_TDLS */
++
++	prframe = recvframe_chk_defrag(padapter, prframe);
++	if (prframe == NULL)	{
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s recvframe_chk_defrag: drop pkt\n", __FUNCTION__);
++#endif
++		DBG_COUNTER(padapter->rx_logs.core_rx_post_defrag_err);
++		goto _recv_data_drop;
++	}
++
++	prframe = portctrl(padapter, prframe);
++	if (prframe == NULL) {
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s portctrl: drop pkt\n", __FUNCTION__);
++#endif
++		ret = _FAIL;
++		DBG_COUNTER(padapter->rx_logs.core_rx_post_portctrl_err);
++		goto _recv_data_drop;
++	}
++
++	count_rx_stats(padapter, prframe, NULL);
++
++#ifdef CONFIG_WAPI_SUPPORT
++	rtw_wapi_update_info(padapter, prframe);
++#endif
++
++#ifdef CONFIG_80211N_HT
++	ret = process_recv_indicatepkts(padapter, prframe);
++	if (ret != _SUCCESS) {
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s process_recv_indicatepkts fail!\n", __FUNCTION__);
++#endif
++		rtw_free_recvframe(orig_prframe, pfree_recv_queue);/* free this recv_frame */
++		DBG_COUNTER(padapter->rx_logs.core_rx_post_indicate_err);
++		goto _recv_data_drop;
++	}
++#else /* CONFIG_80211N_HT */
++	if (!pattrib->amsdu) {
++		ret = wlanhdr_to_ethhdr(prframe);
++		if (ret != _SUCCESS) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s wlanhdr_to_ethhdr: drop pkt\n", __FUNCTION__);
++#endif
++			rtw_free_recvframe(orig_prframe, pfree_recv_queue);/* free this recv_frame */
++			goto _recv_data_drop;
++		}
++
++		if (!RTW_CANNOT_RUN(padapter)) {
++			/* indicate this recv_frame */
++			ret = rtw_recv_indicatepkt(padapter, prframe);
++			if (ret != _SUCCESS) {
++#ifdef DBG_RX_DROP_FRAME
++				RTW_INFO("DBG_RX_DROP_FRAME %s rtw_recv_indicatepkt fail!\n", __FUNCTION__);
++#endif
++				goto _recv_data_drop;
++			}
++		} else {
++
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s recv_func:bDriverStopped(%s) OR bSurpriseRemoved(%s)\n", __func__
++				, rtw_is_drv_stopped(padapter) ? "True" : "False"
++				, rtw_is_surprise_removed(padapter) ? "True" : "False");
++#endif
++			ret = _FAIL;
++			rtw_free_recvframe(orig_prframe, pfree_recv_queue); /* free this recv_frame */
++		}
++
++	} else if (pattrib->amsdu == 1) {
++
++		ret = amsdu_to_msdu(padapter, prframe);
++		if (ret != _SUCCESS) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s amsdu_to_msdu fail\n", __FUNCTION__);
++#endif
++			rtw_free_recvframe(orig_prframe, pfree_recv_queue);
++			goto _recv_data_drop;
++		}
++	} else {
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s what is this condition??\n", __FUNCTION__);
++#endif
++		goto _recv_data_drop;
++	}
++#endif /* CONFIG_80211N_HT */
++
++_exit_recv_func:
++	return ret;
++
++_recv_data_drop:
++	precvpriv->rx_drop++;
++	return ret;
++}
++
++
++int recv_func(_adapter *padapter, union recv_frame *rframe);
++int recv_func(_adapter *padapter, union recv_frame *rframe)
++{
++	int ret;
++	struct rx_pkt_attrib *prxattrib = &rframe->u.hdr.attrib;
++	struct recv_priv *recvpriv = &padapter->recvpriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_priv *mlmepriv = &padapter->mlmepriv;
++
++	if (check_fwstate(mlmepriv, WIFI_MONITOR_STATE)) {
++		/* monitor mode */
++		recv_frame_monitor(padapter, rframe);
++		ret = _SUCCESS;
++		goto exit;
++	} else
++
++		/* check if need to handle uc_swdec_pending_queue*/
++		if (check_fwstate(mlmepriv, WIFI_STATION_STATE) && psecuritypriv->busetkipkey) {
++			union recv_frame *pending_frame;
++			int cnt = 0;
++
++			while ((pending_frame = rtw_alloc_recvframe(&padapter->recvpriv.uc_swdec_pending_queue))) {
++				cnt++;
++				DBG_COUNTER(padapter->rx_logs.core_rx_dequeue);
++				recv_func_posthandle(padapter, pending_frame);
++			}
++
++			if (cnt)
++				RTW_INFO(FUNC_ADPT_FMT" dequeue %d from uc_swdec_pending_queue\n",
++					 FUNC_ADPT_ARG(padapter), cnt);
++		}
++
++	DBG_COUNTER(padapter->rx_logs.core_rx);
++	ret = recv_func_prehandle(padapter, rframe);
++
++	if (ret == _SUCCESS) {
++
++		/* check if need to enqueue into uc_swdec_pending_queue*/
++		if (check_fwstate(mlmepriv, WIFI_STATION_STATE) &&
++		    !IS_MCAST(prxattrib->ra) && prxattrib->encrypt > 0 &&
++		    (prxattrib->bdecrypted == 0 || psecuritypriv->sw_decrypt == _TRUE) &&
++		    psecuritypriv->ndisauthtype == Ndis802_11AuthModeWPAPSK &&
++		    !psecuritypriv->busetkipkey) {
++			DBG_COUNTER(padapter->rx_logs.core_rx_enqueue);
++			rtw_enqueue_recvframe(rframe, &padapter->recvpriv.uc_swdec_pending_queue);
++			/* RTW_INFO("%s: no key, enqueue uc_swdec_pending_queue\n", __func__); */
++
++			if (recvpriv->free_recvframe_cnt < NR_RECVFRAME / 4) {
++				/* to prevent from recvframe starvation, get recvframe from uc_swdec_pending_queue to free_recvframe_cnt */
++				rframe = rtw_alloc_recvframe(&padapter->recvpriv.uc_swdec_pending_queue);
++				if (rframe)
++					goto do_posthandle;
++			}
++			goto exit;
++		}
++
++do_posthandle:
++		ret = recv_func_posthandle(padapter, rframe);
++	}
++
++exit:
++	return ret;
++}
++
++
++s32 rtw_recv_entry(union recv_frame *precvframe)
++{
++	_adapter *padapter;
++	struct recv_priv *precvpriv;
++	s32 ret = _SUCCESS;
++
++
++
++	padapter = precvframe->u.hdr.adapter;
++
++	precvpriv = &padapter->recvpriv;
++
++
++	ret = recv_func(padapter, precvframe);
++	if (ret == _FAIL) {
++		goto _recv_entry_drop;
++	}
++
++
++	precvpriv->rx_pkts++;
++
++
++	return ret;
++
++_recv_entry_drop:
++
++#ifdef CONFIG_MP_INCLUDED
++	if (padapter->registrypriv.mp_mode == 1)
++		padapter->mppriv.rx_pktloss = precvpriv->rx_drop;
++#endif
++
++
++
++	return ret;
++}
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++void rtw_signal_stat_timer_hdl(RTW_TIMER_HDL_ARGS)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct recv_priv *recvpriv = &adapter->recvpriv;
++
++	u32 tmp_s, tmp_q;
++	u8 avg_signal_strength = 0;
++	u8 avg_signal_qual = 0;
++	u32 num_signal_strength = 0;
++	u32 num_signal_qual = 0;
++	u8 ratio_pre_stat = 0, ratio_curr_stat = 0, ratio_total = 0, ratio_profile = SIGNAL_STAT_CALC_PROFILE_0;
++
++	if (adapter->recvpriv.is_signal_dbg) {
++		/* update the user specific value, signal_strength_dbg, to signal_strength, rssi */
++		adapter->recvpriv.signal_strength = adapter->recvpriv.signal_strength_dbg;
++		adapter->recvpriv.rssi = (s8)translate_percentage_to_dbm((u8)adapter->recvpriv.signal_strength_dbg);
++	} else {
++
++		if (recvpriv->signal_strength_data.update_req == 0) { /* update_req is clear, means we got rx */
++			avg_signal_strength = recvpriv->signal_strength_data.avg_val;
++			num_signal_strength = recvpriv->signal_strength_data.total_num;
++			/* after avg_vals are accquired, we can re-stat the signal values */
++			recvpriv->signal_strength_data.update_req = 1;
++		}
++
++		if (recvpriv->signal_qual_data.update_req == 0) { /* update_req is clear, means we got rx */
++			avg_signal_qual = recvpriv->signal_qual_data.avg_val;
++			num_signal_qual = recvpriv->signal_qual_data.total_num;
++			/* after avg_vals are accquired, we can re-stat the signal values */
++			recvpriv->signal_qual_data.update_req = 1;
++		}
++
++		if (num_signal_strength == 0) {
++			if (rtw_get_on_cur_ch_time(adapter) == 0
++			    || rtw_get_passing_time_ms(rtw_get_on_cur_ch_time(adapter)) < 2 * adapter->mlmeextpriv.mlmext_info.bcn_interval
++			   )
++				goto set_timer;
++		}
++
++		if (check_fwstate(&adapter->mlmepriv, _FW_UNDER_SURVEY) == _TRUE
++		    || check_fwstate(&adapter->mlmepriv, _FW_LINKED) == _FALSE
++		   )
++			goto set_timer;
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_buddy_check_fwstate(adapter, _FW_UNDER_SURVEY) == _TRUE)
++			goto set_timer;
++#endif
++
++		if (RTW_SIGNAL_STATE_CALC_PROFILE < SIGNAL_STAT_CALC_PROFILE_MAX)
++			ratio_profile = RTW_SIGNAL_STATE_CALC_PROFILE;
++
++		ratio_pre_stat = signal_stat_calc_profile[ratio_profile][0];
++		ratio_curr_stat = signal_stat_calc_profile[ratio_profile][1];
++		ratio_total = ratio_pre_stat + ratio_curr_stat;
++
++		/* update value of signal_strength, rssi, signal_qual */
++		tmp_s = (ratio_curr_stat * avg_signal_strength + ratio_pre_stat * recvpriv->signal_strength);
++		if (tmp_s % ratio_total)
++			tmp_s = tmp_s / ratio_total + 1;
++		else
++			tmp_s = tmp_s / ratio_total;
++		if (tmp_s > 100)
++			tmp_s = 100;
++
++		tmp_q = (ratio_curr_stat * avg_signal_qual + ratio_pre_stat * recvpriv->signal_qual);
++		if (tmp_q % ratio_total)
++			tmp_q = tmp_q / ratio_total + 1;
++		else
++			tmp_q = tmp_q / ratio_total;
++		if (tmp_q > 100)
++			tmp_q = 100;
++
++		recvpriv->signal_strength = tmp_s;
++		recvpriv->rssi = (s8)translate_percentage_to_dbm(tmp_s);
++		recvpriv->signal_qual = tmp_q;
++
++#if defined(DBG_RX_SIGNAL_DISPLAY_PROCESSING) && 1
++		RTW_INFO(FUNC_ADPT_FMT" signal_strength:%3u, rssi:%3d, signal_qual:%3u"
++			 ", num_signal_strength:%u, num_signal_qual:%u"
++			 ", on_cur_ch_ms:%d"
++			 "\n"
++			 , FUNC_ADPT_ARG(adapter)
++			 , recvpriv->signal_strength
++			 , recvpriv->rssi
++			 , recvpriv->signal_qual
++			 , num_signal_strength, num_signal_qual
++			, rtw_get_on_cur_ch_time(adapter) ? rtw_get_passing_time_ms(rtw_get_on_cur_ch_time(adapter)) : 0
++			);
++#endif
++	}
++
++set_timer:
++	rtw_set_signal_stat_timer(recvpriv);
++
++}
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++
++static void rx_process_rssi(_adapter *padapter, union recv_frame *prframe)
++{
++	u32	last_rssi, tmp_val;
++	struct rx_pkt_attrib *pattrib = &prframe->u.hdr.attrib;
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	struct signal_stat *signal_stat = &padapter->recvpriv.signal_strength_data;
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++
++	/* RTW_INFO("process_rssi=> pattrib->rssil(%d) signal_strength(%d)\n ",pattrib->RecvSignalPower,pattrib->signal_strength); */
++	/* if(pRfd->Status.bPacketToSelf || pRfd->Status.bPacketBeacon) */
++	{
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++		if (signal_stat->update_req) {
++			signal_stat->total_num = 0;
++			signal_stat->total_val = 0;
++			signal_stat->update_req = 0;
++		}
++
++		signal_stat->total_num++;
++		signal_stat->total_val  += pattrib->phy_info.SignalStrength;
++		signal_stat->avg_val = signal_stat->total_val / signal_stat->total_num;
++#else /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++
++		/* Adapter->RxStats.RssiCalculateCnt++;	 */ /* For antenna Test */
++		if (padapter->recvpriv.signal_strength_data.total_num++ >= PHY_RSSI_SLID_WIN_MAX) {
++			padapter->recvpriv.signal_strength_data.total_num = PHY_RSSI_SLID_WIN_MAX;
++			last_rssi = padapter->recvpriv.signal_strength_data.elements[padapter->recvpriv.signal_strength_data.index];
++			padapter->recvpriv.signal_strength_data.total_val -= last_rssi;
++		}
++		padapter->recvpriv.signal_strength_data.total_val  += pattrib->phy_info.SignalStrength;
++
++		padapter->recvpriv.signal_strength_data.elements[padapter->recvpriv.signal_strength_data.index++] = pattrib->phy_info.SignalStrength;
++		if (padapter->recvpriv.signal_strength_data.index >= PHY_RSSI_SLID_WIN_MAX)
++			padapter->recvpriv.signal_strength_data.index = 0;
++
++
++		tmp_val = padapter->recvpriv.signal_strength_data.total_val / padapter->recvpriv.signal_strength_data.total_num;
++
++		if (padapter->recvpriv.is_signal_dbg) {
++			padapter->recvpriv.signal_strength = padapter->recvpriv.signal_strength_dbg;
++			padapter->recvpriv.rssi = (s8)translate_percentage_to_dbm(padapter->recvpriv.signal_strength_dbg);
++		} else {
++			padapter->recvpriv.signal_strength = tmp_val;
++			padapter->recvpriv.rssi = (s8)translate_percentage_to_dbm(tmp_val);
++		}
++
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++	}
++}
++
++static void rx_process_link_qual(_adapter *padapter, union recv_frame *prframe)
++{
++	u32	last_evm = 0, tmpVal;
++	struct rx_pkt_attrib *pattrib;
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	struct signal_stat *signal_stat;
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++
++	if (prframe == NULL || padapter == NULL)
++		return;
++
++	pattrib = &prframe->u.hdr.attrib;
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	signal_stat = &padapter->recvpriv.signal_qual_data;
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++
++	/* RTW_INFO("process_link_qual=> pattrib->signal_qual(%d)\n ",pattrib->signal_qual); */
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	if (signal_stat->update_req) {
++		signal_stat->total_num = 0;
++		signal_stat->total_val = 0;
++		signal_stat->update_req = 0;
++	}
++
++	signal_stat->total_num++;
++	signal_stat->total_val  += pattrib->phy_info.SignalQuality;
++	signal_stat->avg_val = signal_stat->total_val / signal_stat->total_num;
++
++#else /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++	if (pattrib->phy_info.SignalQuality != 0) {
++		/*  */
++		/* 1. Record the general EVM to the sliding window. */
++		/*  */
++		if (padapter->recvpriv.signal_qual_data.total_num++ >= PHY_LINKQUALITY_SLID_WIN_MAX) {
++			padapter->recvpriv.signal_qual_data.total_num = PHY_LINKQUALITY_SLID_WIN_MAX;
++			last_evm = padapter->recvpriv.signal_qual_data.elements[padapter->recvpriv.signal_qual_data.index];
++			padapter->recvpriv.signal_qual_data.total_val -= last_evm;
++		}
++		padapter->recvpriv.signal_qual_data.total_val += pattrib->phy_info.SignalQuality;
++
++		padapter->recvpriv.signal_qual_data.elements[padapter->recvpriv.signal_qual_data.index++] = pattrib->phy_info.SignalQuality;
++		if (padapter->recvpriv.signal_qual_data.index >= PHY_LINKQUALITY_SLID_WIN_MAX)
++			padapter->recvpriv.signal_qual_data.index = 0;
++
++
++		/* <1> Showed on UI for user, in percentage. */
++		tmpVal = padapter->recvpriv.signal_qual_data.total_val / padapter->recvpriv.signal_qual_data.total_num;
++		padapter->recvpriv.signal_qual = (u8)tmpVal;
++
++	}
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++}
++
++void rx_process_phy_info(_adapter *padapter, union recv_frame *rframe)
++{
++	/* Check RSSI */
++	rx_process_rssi(padapter, rframe);
++
++	/* Check PWDB */
++	/* process_PWDB(padapter, rframe); */
++
++	/* UpdateRxSignalStatistics8192C(Adapter, pRfd); */
++
++	/* Check EVM */
++	rx_process_link_qual(padapter, rframe);
++	rtw_store_phy_info(padapter, rframe);
++}
++
++void rx_query_phy_status(
++	union recv_frame	*precvframe,
++	u8 *pphy_status)
++{
++	PADAPTER			padapter = precvframe->u.hdr.adapter;
++	struct rx_pkt_attrib	*pattrib = &precvframe->u.hdr.attrib;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(padapter);
++	PODM_PHY_INFO_T	pPHYInfo  = (PODM_PHY_INFO_T)(&pattrib->phy_info);
++	u8					*wlanhdr;
++	ODM_PACKET_INFO_T	pkt_info;
++	u8 *sa;
++	struct sta_priv *pstapriv;
++	struct sta_info *psta = NULL;
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	/* _irqL		irqL; */
++
++	pkt_info.bPacketMatchBSSID = _FALSE;
++	pkt_info.bPacketToSelf = _FALSE;
++	pkt_info.bPacketBeacon = _FALSE;
++
++	wlanhdr = get_recvframe_data(precvframe);
++
++	pkt_info.bPacketMatchBSSID = (!IsFrameTypeCtrl(wlanhdr))
++			     && (!pattrib->icv_err) && (!pattrib->crc_err)
++		&& _rtw_memcmp(get_hdr_bssid(wlanhdr), get_bssid(&padapter->mlmepriv), ETH_ALEN);
++
++	pkt_info.bToSelf = (!pattrib->icv_err) && (!pattrib->crc_err)
++		&& _rtw_memcmp(get_ra(wlanhdr), adapter_mac_addr(padapter), ETH_ALEN);
++
++	pkt_info.bPacketToSelf = pkt_info.bPacketMatchBSSID
++		&& _rtw_memcmp(get_ra(wlanhdr), adapter_mac_addr(padapter), ETH_ALEN);
++
++	pkt_info.bPacketBeacon = pkt_info.bPacketMatchBSSID
++				 && (GetFrameSubType(wlanhdr) == WIFI_BEACON);
++
++	sa = get_ta(wlanhdr);
++
++	pkt_info.StationID = 0xFF;
++
++	if (_rtw_memcmp(adapter_mac_addr(padapter), sa, ETH_ALEN) == _TRUE) {
++		static u32 start_time = 0;
++
++#if 0 /*For debug */
++		if (IsFrameTypeCtrl(wlanhdr)) {
++			RTW_INFO("-->Control frame: Y\n");
++			RTW_INFO("-->pkt_len: %d\n", pattrib->pkt_len);
++			RTW_INFO("-->Sub Type = 0x%X\n", GetFrameSubType(wlanhdr));
++		}
++
++		/* Dump first 40 bytes of header */
++		int i = 0;
++
++		for (i = 0; i < 40; i++)
++			RTW_INFO("%d: %X\n", i, *((u8 *)wlanhdr + i));
++
++		RTW_INFO("\n");
++#endif
++
++		if ((start_time == 0) || (rtw_get_passing_time_ms(start_time) > 5000)) {
++			RTW_PRINT("Warning!!! %s: Confilc mac addr!!\n", __func__);
++			start_time = rtw_get_current_time();
++		}
++		pdbgpriv->dbg_rx_conflic_mac_addr_cnt++;
++	} else {
++		pstapriv = &padapter->stapriv;
++		psta = rtw_get_stainfo(pstapriv, sa);
++		if (psta)
++			pkt_info.StationID = psta->mac_id;
++	}
++
++	pkt_info.DataRate = pattrib->data_rate;
++
++	/* _enter_critical_bh(&pHalData->odm_stainfo_lock, &irqL); */
++	ODM_PhyStatusQuery(&pHalData->odmpriv, pPHYInfo, pphy_status, &pkt_info);
++	if (psta)
++		psta->rssi = pattrib->phy_info.RecvSignalPower;
++	/* _exit_critical_bh(&pHalData->odm_stainfo_lock, &irqL); */
++
++	{
++		precvframe->u.hdr.psta = NULL;
++		if (pkt_info.bPacketMatchBSSID
++		    && (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE)
++		   ) {
++			if (psta) {
++				precvframe->u.hdr.psta = psta;
++				rx_process_phy_info(padapter, precvframe);
++			}
++		} else if (pkt_info.bPacketToSelf || pkt_info.bPacketBeacon) {
++
++			if (psta)
++				precvframe->u.hdr.psta = psta;
++			rx_process_phy_info(padapter, precvframe);
++		}
++	}
++}
++/*
++* Increase and check if the continual_no_rx_packet of this @param pmlmepriv is larger than MAX_CONTINUAL_NORXPACKET_COUNT
++* @return _TRUE:
++* @return _FALSE:
++*/
++int rtw_inc_and_chk_continual_no_rx_packet(struct sta_info *sta, int tid_index)
++{
++
++	int ret = _FALSE;
++	int value = ATOMIC_INC_RETURN(&sta->continual_no_rx_packet[tid_index]);
++
++	if (value >= MAX_CONTINUAL_NORXPACKET_COUNT)
++		ret = _TRUE;
++
++	return ret;
++}
++
++/*
++* Set the continual_no_rx_packet of this @param pmlmepriv to 0
++*/
++void rtw_reset_continual_no_rx_packet(struct sta_info *sta, int tid_index)
++{
++	ATOMIC_SET(&sta->continual_no_rx_packet[tid_index], 0);
++}
++
++
++s32 pre_recv_entry(union recv_frame *precvframe, u8 *pphy_status)
++{
++	s32 ret = _SUCCESS;
++#ifdef CONFIG_CONCURRENT_MODE
++	u8 *pda;
++	u8 *pbuf = precvframe->u.hdr.rx_data;
++	_adapter *iface = NULL;
++	_adapter *primary_padapter = precvframe->u.hdr.adapter;
++
++	pda = get_ra(pbuf);
++
++	if (IS_MCAST(pda) == _FALSE) { /*unicast packets*/
++		iface = rtw_get_iface_by_macddr(primary_padapter , pda);
++		if (NULL == iface) {
++			RTW_INFO("%s [WARN] Cannot find appropriate adapter - mac_addr : "MAC_FMT"\n", __func__, MAC_ARG(pda));
++			/*rtw_warn_on(1);*/
++		} else
++			precvframe->u.hdr.adapter = iface;
++	} else   /* Handle BC/MC Packets	*/
++		rtw_mi_buddy_clone_bcmc_packet(primary_padapter, precvframe, pphy_status);
++#endif
++
++	return ret;
++}
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_rf.c b/drivers/net/wireless/rtl8723du/core/rtw_rf.c
+new file mode 100644
+index 0000000..a7d06b9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_rf.c
+@@ -0,0 +1,1140 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_RF_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++u8 center_ch_2g[CENTER_CH_2G_NUM] = {
++/* G00 */1, 2,
++/* G01 */3, 4, 5,
++/* G02 */6, 7, 8,
++/* G03 */9, 10, 11,
++/* G04 */12, 13,
++/* G05 */14
++};
++
++u8 center_ch_2g_40m[CENTER_CH_2G_40M_NUM] = {
++	3,
++	4,
++	5,
++	6,
++	7,
++	8,
++	9,
++	10,
++	11,
++};
++
++u8 op_chs_of_cch_2g_40m[CENTER_CH_2G_40M_NUM][2] = {
++	{1, 5}, /* 3 */
++	{2, 6}, /* 4 */
++	{3, 7}, /* 5 */
++	{4, 8}, /* 6 */
++	{5, 9}, /* 7 */
++	{6, 10}, /* 8 */
++	{7, 11}, /* 9 */
++	{8, 12}, /* 10 */
++	{9, 13}, /* 11 */
++};
++
++u8 center_ch_5g_all[CENTER_CH_5G_ALL_NUM] = {
++/* G00 */36, 38, 40,
++	42,
++/* G01 */44, 46, 48,
++	/* 50, */
++/* G02 */52, 54, 56,
++	58,
++/* G03 */60, 62, 64,
++/* G04 */100, 102, 104,
++	106,
++/* G05 */108, 110, 112,
++	/* 114, */
++/* G06 */116, 118, 120,
++	122,
++/* G07 */124, 126, 128,
++/* G08 */132, 134, 136,
++	138,
++/* G09 */140, 142, 144,
++/* G10 */149, 151, 153,
++	155,
++/* G11 */157, 159, 161,
++	/* 163, */
++/* G12 */165, 167, 169,
++	171,
++/* G13 */173, 175, 177
++};
++
++u8 center_ch_5g_20m[CENTER_CH_5G_20M_NUM] = {
++/* G00 */36, 40,
++/* G01 */44, 48,
++/* G02 */52, 56,
++/* G03 */60, 64,
++/* G04 */100, 104,
++/* G05 */108, 112,
++/* G06 */116, 120,
++/* G07 */124, 128,
++/* G08 */132, 136,
++/* G09 */140, 144,
++/* G10 */149, 153,
++/* G11 */157, 161,
++/* G12 */165, 169,
++/* G13 */173, 177
++};
++
++u8 center_ch_5g_40m[CENTER_CH_5G_40M_NUM] = {
++/* G00 */38,
++/* G01 */46,
++/* G02 */54,
++/* G03 */62,
++/* G04 */102,
++/* G05 */110,
++/* G06 */118,
++/* G07 */126,
++/* G08 */134,
++/* G09 */142,
++/* G10 */151,
++/* G11 */159,
++/* G12 */167,
++/* G13 */175
++};
++
++u8 center_ch_5g_20m_40m[CENTER_CH_5G_20M_NUM + CENTER_CH_5G_40M_NUM] = {
++/* G00 */36, 38, 40,
++/* G01 */44, 46, 48,
++/* G02 */52, 54, 56,
++/* G03 */60, 62, 64,
++/* G04 */100, 102, 104,
++/* G05 */108, 110, 112,
++/* G06 */116, 118, 120,
++/* G07 */124, 126, 128,
++/* G08 */132, 134, 136,
++/* G09 */140, 142, 144,
++/* G10 */149, 151, 153,
++/* G11 */157, 159, 161,
++/* G12 */165, 167, 169,
++/* G13 */173, 175, 177
++};
++
++u8 op_chs_of_cch_5g_40m[CENTER_CH_5G_40M_NUM][2] = {
++	{36, 40}, /* 38 */
++	{44, 48}, /* 46 */
++	{52, 56}, /* 54 */
++	{60, 64}, /* 62 */
++	{100, 104}, /* 102 */
++	{108, 112}, /* 110 */
++	{116, 120}, /* 118 */
++	{124, 128}, /* 126 */
++	{132, 136}, /* 134 */
++	{140, 144}, /* 142 */
++	{149, 153}, /* 151 */
++	{157, 161}, /* 159 */
++	{165, 169}, /* 167 */
++	{173, 177}, /* 175 */
++};
++
++u8 center_ch_5g_80m[CENTER_CH_5G_80M_NUM] = {
++/* G00 ~ G01*/42,
++/* G02 ~ G03*/58,
++/* G04 ~ G05*/106,
++/* G06 ~ G07*/122,
++/* G08 ~ G09*/138,
++/* G10 ~ G11*/155,
++/* G12 ~ G13*/171
++};
++
++u8 op_chs_of_cch_5g_80m[CENTER_CH_5G_80M_NUM][4] = {
++	{36, 40, 44, 48}, /* 42 */
++	{52, 56, 60, 64}, /* 58 */
++	{100, 104, 108, 112}, /* 106 */
++	{116, 120, 124, 128}, /* 122 */
++	{132, 136, 140, 144}, /* 138 */
++	{149, 153, 157, 161}, /* 155 */
++	{165, 169, 173, 177}, /* 171 */
++};
++
++u8 center_ch_5g_160m[CENTER_CH_5G_160M_NUM] = {
++/* G00 ~ G03*/50,
++/* G04 ~ G07*/114,
++/* G10 ~ G13*/163
++};
++
++u8 op_chs_of_cch_5g_160m[CENTER_CH_5G_160M_NUM][8] = {
++	{36, 40, 44, 48, 52, 56, 60, 64}, /* 50 */
++	{100, 104, 108, 112, 116, 120, 124, 128}, /* 114 */
++	{149, 153, 157, 161, 165, 169, 173, 177}, /* 163 */
++};
++
++struct center_chs_ent_t {
++	u8 ch_num;
++	u8 *chs;
++};
++
++struct center_chs_ent_t center_chs_2g_by_bw[] = {
++	{CENTER_CH_2G_NUM, center_ch_2g},
++	{CENTER_CH_2G_40M_NUM, center_ch_2g_40m},
++};
++
++struct center_chs_ent_t center_chs_5g_by_bw[] = {
++	{CENTER_CH_5G_20M_NUM, center_ch_5g_20m},
++	{CENTER_CH_5G_40M_NUM, center_ch_5g_40m},
++	{CENTER_CH_5G_80M_NUM, center_ch_5g_80m},
++	{CENTER_CH_5G_160M_NUM, center_ch_5g_160m},
++};
++
++/*
++ * Get center channel of smaller bandwidth by @param cch, @param bw, @param offset
++ * @cch: the given center channel
++ * @bw: the given bandwidth
++ * @offset: the given primary SC offset of the given bandwidth
++ *
++ * return center channel of smaller bandiwdth if valid, or 0
++ */
++u8 rtw_get_scch_by_cch_offset(u8 cch, u8 bw, u8 offset)
++{
++	int i;
++	u8 t_cch = 0;
++
++	if (bw == CHANNEL_WIDTH_20) {
++		t_cch = cch;
++		goto exit;
++	}
++
++	if (offset == HAL_PRIME_CHNL_OFFSET_DONT_CARE) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	/* 2.4G, 40MHz */
++	if (cch >= 3 && cch <= 11 && bw == CHANNEL_WIDTH_40) {
++		t_cch = (offset == HAL_PRIME_CHNL_OFFSET_UPPER) ? cch + 2 : cch - 2;
++		goto exit;
++	}
++
++	/* 5G, 160MHz */
++	if (cch >= 50 && cch <= 163 && bw == CHANNEL_WIDTH_160) {
++		t_cch = (offset == HAL_PRIME_CHNL_OFFSET_UPPER) ? cch + 8 : cch - 8;
++		goto exit;
++
++	/* 5G, 80MHz */
++	} else if (cch >= 42 && cch <= 171 && bw == CHANNEL_WIDTH_80) {
++		t_cch = (offset == HAL_PRIME_CHNL_OFFSET_UPPER) ? cch + 4 : cch - 4;
++		goto exit;
++
++	/* 5G, 40MHz */
++	} else if (cch >= 38 && cch <= 175 && bw == CHANNEL_WIDTH_40) {
++		t_cch = (offset == HAL_PRIME_CHNL_OFFSET_UPPER) ? cch + 2 : cch - 2;
++		goto exit;
++
++	} else {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++exit:
++	return t_cch;
++}
++
++struct op_chs_ent_t {
++	u8 ch_num;
++	u8 *chs;
++};
++
++struct op_chs_ent_t op_chs_of_cch_2g_by_bw[] = {
++	{1, center_ch_2g},
++	{2, (u8 *)op_chs_of_cch_2g_40m},
++};
++
++struct op_chs_ent_t op_chs_of_cch_5g_by_bw[] = {
++	{1, center_ch_5g_20m},
++	{2, (u8 *)op_chs_of_cch_5g_40m},
++	{4, (u8 *)op_chs_of_cch_5g_80m},
++	{8, (u8 *)op_chs_of_cch_5g_160m},
++};
++
++inline u8 center_chs_2g_num(u8 bw)
++{
++	if (bw > CHANNEL_WIDTH_40)
++		return 0;
++
++	return center_chs_2g_by_bw[bw].ch_num;
++}
++
++inline u8 center_chs_2g(u8 bw, u8 id)
++{
++	if (bw > CHANNEL_WIDTH_40)
++		return 0;
++
++	if (id >= center_chs_2g_num(bw))
++		return 0;
++
++	return center_chs_2g_by_bw[bw].chs[id];
++}
++
++inline u8 center_chs_5g_num(u8 bw)
++{
++	if (bw > CHANNEL_WIDTH_80)
++		return 0;
++
++	return center_chs_5g_by_bw[bw].ch_num;
++}
++
++inline u8 center_chs_5g(u8 bw, u8 id)
++{
++	if (bw > CHANNEL_WIDTH_80)
++		return 0;
++
++	if (id >= center_chs_5g_num(bw))
++		return 0;
++
++	return center_chs_5g_by_bw[bw].chs[id];
++}
++
++/*
++ * Get available op channels by @param cch, @param bw
++ * @cch: the given center channel
++ * @bw: the given bandwidth
++ * @op_chs: the pointer to return pointer of op channel array
++ * @op_ch_num: the pointer to return pointer of op channel number
++ *
++ * return valid (1) or not (0)
++ */
++u8 rtw_get_op_chs_by_cch_bw(u8 cch, u8 bw, u8 **op_chs, u8 *op_ch_num)
++{
++	int i;
++	struct center_chs_ent_t *c_chs_ent = NULL;
++	struct op_chs_ent_t *op_chs_ent = NULL;
++	u8 valid = 1;
++
++	if (cch <= 14
++		&& bw >= CHANNEL_WIDTH_20 && bw <= CHANNEL_WIDTH_40
++	) {
++		c_chs_ent = &center_chs_2g_by_bw[bw];
++		op_chs_ent = &op_chs_of_cch_2g_by_bw[bw];
++	} else if (cch >= 36 && cch <= 177
++		&& bw >= CHANNEL_WIDTH_20 && bw <= CHANNEL_WIDTH_160
++	) {
++		c_chs_ent = &center_chs_5g_by_bw[bw];
++		op_chs_ent = &op_chs_of_cch_5g_by_bw[bw];
++	} else {
++		valid = 0;
++		goto exit;
++	}
++
++	for (i = 0; i < c_chs_ent->ch_num; i++)
++		if (cch == *(c_chs_ent->chs + i))
++			break;
++
++	if (i == c_chs_ent->ch_num) {
++		valid = 0;
++		goto exit;
++	}
++
++	*op_chs = op_chs_ent->chs + op_chs_ent->ch_num * i;
++	*op_ch_num = op_chs_ent->ch_num;
++
++exit:
++	return valid;
++}
++
++u8 rtw_get_ch_group(u8 ch, u8 *group, u8 *cck_group)
++{
++	BAND_TYPE band = BAND_MAX;
++	s8 gp = -1, cck_gp = -1;
++
++	if (ch <= 14) {
++		band = BAND_ON_2_4G;
++
++		if (1 <= ch && ch <= 2)
++			gp = 0;
++		else if (3  <= ch && ch <= 5)
++			gp = 1;
++		else if (6  <= ch && ch <= 8)
++			gp = 2;
++		else if (9  <= ch && ch <= 11)
++			gp = 3;
++		else if (12 <= ch && ch <= 14)
++			gp = 4;
++		else
++			band = BAND_MAX;
++
++		if (ch == 14)
++			cck_gp = 5;
++		else
++			cck_gp = gp;
++	} else {
++		band = BAND_ON_5G;
++
++		if (36 <= ch && ch <= 42)
++			gp = 0;
++		else if (44   <= ch && ch <=  48)
++			gp = 1;
++		else if (50   <= ch && ch <=  58)
++			gp = 2;
++		else if (60   <= ch && ch <=  64)
++			gp = 3;
++		else if (100  <= ch && ch <= 106)
++			gp = 4;
++		else if (108  <= ch && ch <= 114)
++			gp = 5;
++		else if (116  <= ch && ch <= 122)
++			gp = 6;
++		else if (124  <= ch && ch <= 130)
++			gp = 7;
++		else if (132  <= ch && ch <= 138)
++			gp = 8;
++		else if (140  <= ch && ch <= 144)
++			gp = 9;
++		else if (149  <= ch && ch <= 155)
++			gp = 10;
++		else if (157  <= ch && ch <= 161)
++			gp = 11;
++		else if (165  <= ch && ch <= 171)
++			gp = 12;
++		else if (173  <= ch && ch <= 177)
++			gp = 13;
++		else
++			band = BAND_MAX;
++	}
++
++	if (band == BAND_MAX
++		|| (band == BAND_ON_2_4G && cck_gp == -1)
++		|| gp == -1
++	) {
++		RTW_WARN("%s invalid channel:%u", __func__, ch);
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (group)
++		*group = gp;
++	if (cck_group && band == BAND_ON_2_4G)
++		*cck_group = cck_gp;
++
++exit:
++	return band;
++}
++
++int rtw_ch2freq(int chan)
++{
++	/* see 802.11 17.3.8.3.2 and Annex J
++	* there are overlapping channel numbers in 5GHz and 2GHz bands */
++
++	/*
++	* RTK: don't consider the overlapping channel numbers: 5G channel <= 14,
++	* because we don't support it. simply judge from channel number
++	*/
++
++	if (chan >= 1 && chan <= 14) {
++		if (chan == 14)
++			return 2484;
++		else if (chan < 14)
++			return 2407 + chan * 5;
++	} else if (chan >= 36 && chan <= 177)
++		return 5000 + chan * 5;
++
++	return 0; /* not supported */
++}
++
++int rtw_freq2ch(int freq)
++{
++	/* see 802.11 17.3.8.3.2 and Annex J */
++	if (freq == 2484)
++		return 14;
++	else if (freq < 2484)
++		return (freq - 2407) / 5;
++	else if (freq >= 4910 && freq <= 4980)
++		return (freq - 4000) / 5;
++	else if (freq <= 45000) /* DMG band lower limit */
++		return (freq - 5000) / 5;
++	else if (freq >= 58320 && freq <= 64800)
++		return (freq - 56160) / 2160;
++	else
++		return 0;
++}
++
++bool rtw_chbw_to_freq_range(u8 ch, u8 bw, u8 offset, u32 *hi, u32 *lo)
++{
++	u8 c_ch;
++	u32 freq;
++	u32 hi_ret = 0, lo_ret = 0;
++	int i;
++	bool valid = _FALSE;
++
++	if (hi)
++		*hi = 0;
++	if (lo)
++		*lo = 0;
++
++	c_ch = rtw_get_center_ch(ch, bw, offset);
++	freq = rtw_ch2freq(c_ch);
++
++	if (!freq) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (bw == CHANNEL_WIDTH_80) {
++		hi_ret = freq + 40;
++		lo_ret = freq - 40;
++	} else if (bw == CHANNEL_WIDTH_40) {
++		hi_ret = freq + 20;
++		lo_ret = freq - 20;
++	} else if (bw == CHANNEL_WIDTH_20) {
++		hi_ret = freq + 10;
++		lo_ret = freq - 10;
++	} else
++		rtw_warn_on(1);
++
++	if (hi)
++		*hi = hi_ret;
++	if (lo)
++		*lo = lo_ret;
++
++	valid = _TRUE;
++
++exit:
++	return valid;
++}
++
++const char *const _ch_width_str[] = {
++	"20MHz",
++	"40MHz",
++	"80MHz",
++	"160MHz",
++	"80_80MHz",
++	"CHANNEL_WIDTH_MAX",
++};
++
++const u8 _ch_width_to_bw_cap[] = {
++	BW_CAP_20M,
++	BW_CAP_40M,
++	BW_CAP_80M,
++	BW_CAP_160M,
++	BW_CAP_80_80M,
++	0,
++};
++
++const char *const _band_str[] = {
++	"2.4G",
++	"5G",
++	"BOTH",
++	"BAND_MAX",
++};
++
++const u8 _band_to_band_cap[] = {
++	BAND_CAP_2G,
++	BAND_CAP_5G,
++	0,
++	0,
++};
++
++#ifdef CONFIG_80211AC_VHT
++#define COUNTRY_CHPLAN_ASSIGN_EN_11AC(_val) , .en_11ac = (_val)
++#else
++#define COUNTRY_CHPLAN_ASSIGN_EN_11AC(_val)
++#endif
++
++#if RTW_DEF_MODULE_REGULATORY_CERT
++#define COUNTRY_CHPLAN_ASSIGN_DEF_MODULE_FLAGS(_val) , .def_module_flags = (_val)
++#else
++#define COUNTRY_CHPLAN_ASSIGN_DEF_MODULE_FLAGS(_val)
++#endif
++
++/* has def_module_flags specified, used by common map and HAL dfference map */
++#define COUNTRY_CHPLAN_ENT(_alpha2, _chplan, _en_11ac, _def_module_flags) \
++	{.alpha2 = (_alpha2), .chplan = (_chplan) \
++		COUNTRY_CHPLAN_ASSIGN_EN_11AC(_en_11ac) \
++		COUNTRY_CHPLAN_ASSIGN_DEF_MODULE_FLAGS(_def_module_flags) \
++	}
++
++#ifdef CONFIG_CUSTOMIZED_COUNTRY_CHPLAN_MAP
++
++#include "../platform/custom_country_chplan.h"
++
++#elif RTW_DEF_MODULE_REGULATORY_CERT
++
++#if (RTW_DEF_MODULE_REGULATORY_CERT & RTW_MODULE_RTL8821AE_HMC_M2)
++static const struct country_chplan RTL8821AE_HMC_M2_country_chplan_map[] = {
++	COUNTRY_CHPLAN_ENT("CN", 0x51, 1, 0xFB), /* China */
++	COUNTRY_CHPLAN_ENT("RU", 0x59, 0, 0xFB), /* Russia(fac/gost), Kaliningrad */
++	COUNTRY_CHPLAN_ENT("UA", 0x26, 0, 0xFB), /* Ukraine */
++};
++static const u16 RTL8821AE_HMC_M2_country_chplan_map_sz = sizeof(RTL8821AE_HMC_M2_country_chplan_map) / sizeof(struct country_chplan);
++#endif
++
++#if (RTW_DEF_MODULE_REGULATORY_CERT & RTW_MODULE_RTL8821AU)
++static const struct country_chplan RTL8821AU_country_chplan_map[] = {
++	COUNTRY_CHPLAN_ENT("RU", 0x59, 0, 0xFB), /* Russia(fac/gost), Kaliningrad */
++	COUNTRY_CHPLAN_ENT("UA", 0x26, 0, 0xFB), /* Ukraine */
++};
++static const u16 RTL8821AU_country_chplan_map_sz = sizeof(RTL8821AU_country_chplan_map) / sizeof(struct country_chplan);
++#endif
++
++#if (RTW_DEF_MODULE_REGULATORY_CERT & RTW_MODULE_RTL8812AENF_NGFF)
++static const struct country_chplan RTL8812AENF_NGFF_country_chplan_map[] = {
++};
++static const u16 RTL8812AENF_NGFF_country_chplan_map_sz = sizeof(RTL8812AENF_NGFF_country_chplan_map) / sizeof(struct country_chplan);
++#endif
++
++#if (RTW_DEF_MODULE_REGULATORY_CERT & RTW_MODULE_RTL8812AEBT_HMC)
++static const struct country_chplan RTL8812AEBT_HMC_country_chplan_map[] = {
++};
++static const u16 RTL8812AEBT_HMC_country_chplan_map_sz = sizeof(RTL8812AEBT_HMC_country_chplan_map) / sizeof(struct country_chplan);
++#endif
++
++#if (RTW_DEF_MODULE_REGULATORY_CERT & RTW_MODULE_RTL8188EE_HMC_M2)
++static const struct country_chplan RTL8188EE_HMC_M2_country_chplan_map[] = {
++};
++static const u16 RTL8188EE_HMC_M2_country_chplan_map_sz = sizeof(RTL8188EE_HMC_M2_country_chplan_map) / sizeof(struct country_chplan);
++#endif
++
++#if (RTW_DEF_MODULE_REGULATORY_CERT & RTW_MODULE_RTL8723BE_HMC_M2)
++static const struct country_chplan RTL8723BE_HMC_M2_country_chplan_map[] = {
++};
++static const u16 RTL8723BE_HMC_M2_country_chplan_map_sz = sizeof(RTL8723BE_HMC_M2_country_chplan_map) / sizeof(struct country_chplan);
++#endif
++
++#if (RTW_DEF_MODULE_REGULATORY_CERT & RTW_MODULE_RTL8723BS_NGFF1216)
++static const struct country_chplan RTL8723BS_NGFF1216_country_chplan_map[] = {
++};
++static const u16 RTL8723BS_NGFF1216_country_chplan_map_sz = sizeof(RTL8723BS_NGFF1216_country_chplan_map) / sizeof(struct country_chplan);
++#endif
++
++#if (RTW_DEF_MODULE_REGULATORY_CERT & RTW_MODULE_RTL8192EEBT_HMC_M2)
++static const struct country_chplan RTL8192EEBT_HMC_M2_country_chplan_map[] = {
++};
++static const u16 RTL8192EEBT_HMC_M2_country_chplan_map_sz = sizeof(RTL8192EEBT_HMC_M2_country_chplan_map) / sizeof(struct country_chplan);
++#endif
++
++/**
++ * rtw_def_module_get_chplan_from_country -
++ * @country_code: string of country code
++ * @return:
++ * Return NULL for case referring to common map
++ */
++static const struct country_chplan *rtw_def_module_get_chplan_from_country(const char *country_code)
++{
++	const struct country_chplan *ent = NULL;
++	const struct country_chplan *hal_map = NULL;
++	u16 hal_map_sz = 0;
++	int i;
++
++	/* TODO: runtime selection for multi driver */
++#if (RTW_DEF_MODULE_REGULATORY_CERT == RTW_MODULE_RTL8821AE_HMC_M2)
++	hal_map = RTL8821AE_HMC_M2_country_chplan_map;
++	hal_map_sz = RTL8821AE_HMC_M2_country_chplan_map_sz;
++#elif (RTW_DEF_MODULE_REGULATORY_CERT == RTW_MODULE_RTL8821AU)
++	hal_map = RTL8821AU_country_chplan_map;
++	hal_map_sz = RTL8821AU_country_chplan_map_sz;
++#elif (RTW_DEF_MODULE_REGULATORY_CERT == RTW_MODULE_RTL8812AENF_NGFF)
++	hal_map = RTL8812AENF_NGFF_country_chplan_map;
++	hal_map_sz = RTL8812AENF_NGFF_country_chplan_map_sz;
++#elif (RTW_DEF_MODULE_REGULATORY_CERT == RTW_MODULE_RTL8812AEBT_HMC)
++	hal_map = RTL8812AEBT_HMC_country_chplan_map;
++	hal_map_sz = RTL8812AEBT_HMC_country_chplan_map_sz;
++#elif (RTW_DEF_MODULE_REGULATORY_CERT == RTW_MODULE_RTL8188EE_HMC_M2)
++	hal_map = RTL8188EE_HMC_M2_country_chplan_map;
++	hal_map_sz = RTL8188EE_HMC_M2_country_chplan_map_sz;
++#elif (RTW_DEF_MODULE_REGULATORY_CERT == RTW_MODULE_RTL8723BE_HMC_M2)
++	hal_map = RTL8723BE_HMC_M2_country_chplan_map;
++	hal_map_sz = RTL8723BE_HMC_M2_country_chplan_map_sz;
++#elif (RTW_DEF_MODULE_REGULATORY_CERT == RTW_MODULE_RTL8723BS_NGFF1216)
++	hal_map = RTL8723BS_NGFF1216_country_chplan_map;
++	hal_map_sz = RTL8723BS_NGFF1216_country_chplan_map_sz;
++#elif (RTW_DEF_MODULE_REGULATORY_CERT == RTW_MODULE_RTL8192EEBT_HMC_M2)
++	hal_map = RTL8192EEBT_HMC_M2_country_chplan_map;
++	hal_map_sz = RTL8192EEBT_HMC_M2_country_chplan_map_sz;
++#endif
++
++	if (hal_map == NULL || hal_map_sz == 0)
++		goto exit;
++
++	for (i = 0; i < hal_map_sz; i++) {
++		if (strncmp(country_code, hal_map[i].alpha2, 2) == 0) {
++			ent = &hal_map[i];
++			break;
++		}
++	}
++
++exit:
++	return ent;
++}
++#endif /* CONFIG_CUSTOMIZED_COUNTRY_CHPLAN_MAP or RTW_DEF_MODULE_REGULATORY_CERT */
++
++static const struct country_chplan country_chplan_map[] = {
++	COUNTRY_CHPLAN_ENT("AD", 0x26, 1, 0x00), /* Andorra */
++	COUNTRY_CHPLAN_ENT("AE", 0x26, 1, 0xFB), /* United Arab Emirates */
++	COUNTRY_CHPLAN_ENT("AF", 0x42, 1, 0x00), /* Afghanistan */
++	COUNTRY_CHPLAN_ENT("AG", 0x30, 1, 0x00), /* Antigua & Barbuda */
++	COUNTRY_CHPLAN_ENT("AI", 0x26, 1, 0x00), /* Anguilla(UK) */
++	COUNTRY_CHPLAN_ENT("AL", 0x26, 1, 0xF1), /* Albania */
++	COUNTRY_CHPLAN_ENT("AM", 0x26, 1, 0xB0), /* Armenia */
++	COUNTRY_CHPLAN_ENT("AO", 0x26, 1, 0xE0), /* Angola */
++	COUNTRY_CHPLAN_ENT("AQ", 0x26, 1, 0x00), /* Antarctica */
++	COUNTRY_CHPLAN_ENT("AR", 0x57, 1, 0xF3), /* Argentina */
++	COUNTRY_CHPLAN_ENT("AS", 0x34, 1, 0x00), /* American Samoa */
++	COUNTRY_CHPLAN_ENT("AT", 0x26, 1, 0xFB), /* Austria */
++	COUNTRY_CHPLAN_ENT("AU", 0x45, 1, 0xFB), /* Australia */
++	COUNTRY_CHPLAN_ENT("AW", 0x34, 1, 0xB0), /* Aruba */
++	COUNTRY_CHPLAN_ENT("AZ", 0x26, 1, 0xF1), /* Azerbaijan */
++	COUNTRY_CHPLAN_ENT("BA", 0x26, 1, 0xF1), /* Bosnia & Herzegovina */
++	COUNTRY_CHPLAN_ENT("BB", 0x34, 1, 0x50), /* Barbados */
++	COUNTRY_CHPLAN_ENT("BD", 0x26, 1, 0xF1), /* Bangladesh */
++	COUNTRY_CHPLAN_ENT("BE", 0x26, 1, 0xFB), /* Belgium */
++	COUNTRY_CHPLAN_ENT("BF", 0x26, 1, 0xB0), /* Burkina Faso */
++	COUNTRY_CHPLAN_ENT("BG", 0x26, 1, 0xF1), /* Bulgaria */
++	COUNTRY_CHPLAN_ENT("BH", 0x47, 1, 0xF1), /* Bahrain */
++	COUNTRY_CHPLAN_ENT("BI", 0x26, 1, 0xB0), /* Burundi */
++	COUNTRY_CHPLAN_ENT("BJ", 0x26, 1, 0xB0), /* Benin */
++	COUNTRY_CHPLAN_ENT("BN", 0x47, 1, 0x10), /* Brunei */
++	COUNTRY_CHPLAN_ENT("BO", 0x30, 1, 0xF1), /* Bolivia */
++	COUNTRY_CHPLAN_ENT("BR", 0x34, 1, 0xF1), /* Brazil */
++	COUNTRY_CHPLAN_ENT("BS", 0x34, 1, 0x20), /* Bahamas */
++	COUNTRY_CHPLAN_ENT("BW", 0x26, 1, 0xF1), /* Botswana */
++	COUNTRY_CHPLAN_ENT("BY", 0x26, 1, 0xF1), /* Belarus */
++	COUNTRY_CHPLAN_ENT("BZ", 0x34, 1, 0x00), /* Belize */
++	COUNTRY_CHPLAN_ENT("CA", 0x34, 1, 0xFB), /* Canada */
++	COUNTRY_CHPLAN_ENT("CC", 0x26, 1, 0x00), /* Cocos (Keeling) Islands (Australia) */
++	COUNTRY_CHPLAN_ENT("CD", 0x26, 1, 0xB0), /* Congo, Republic of the */
++	COUNTRY_CHPLAN_ENT("CF", 0x26, 1, 0xB0), /* Central African Republic */
++	COUNTRY_CHPLAN_ENT("CG", 0x26, 1, 0xB0), /* Congo, Democratic Republic of the. Zaire */
++	COUNTRY_CHPLAN_ENT("CH", 0x26, 1, 0xFB), /* Switzerland */
++	COUNTRY_CHPLAN_ENT("CI", 0x26, 1, 0xF1), /* Cote d'Ivoire */
++	COUNTRY_CHPLAN_ENT("CK", 0x26, 1, 0x00), /* Cook Islands */
++	COUNTRY_CHPLAN_ENT("CL", 0x30, 1, 0xF1), /* Chile */
++	COUNTRY_CHPLAN_ENT("CM", 0x26, 1, 0xB0), /* Cameroon */
++	COUNTRY_CHPLAN_ENT("CN", 0x48, 1, 0xFB), /* China */
++	COUNTRY_CHPLAN_ENT("CO", 0x34, 1, 0xF1), /* Colombia */
++	COUNTRY_CHPLAN_ENT("CR", 0x34, 1, 0xF1), /* Costa Rica */
++	COUNTRY_CHPLAN_ENT("CV", 0x26, 1, 0xB0), /* Cape Verde */
++	COUNTRY_CHPLAN_ENT("CX", 0x45, 1, 0x00), /* Christmas Island (Australia) */
++	COUNTRY_CHPLAN_ENT("CY", 0x26, 1, 0xFB), /* Cyprus */
++	COUNTRY_CHPLAN_ENT("CZ", 0x26, 1, 0xFB), /* Czech Republic */
++	COUNTRY_CHPLAN_ENT("DE", 0x26, 1, 0xFB), /* Germany */
++	COUNTRY_CHPLAN_ENT("DJ", 0x26, 1, 0x80), /* Djibouti */
++	COUNTRY_CHPLAN_ENT("DK", 0x26, 1, 0xFB), /* Denmark */
++	COUNTRY_CHPLAN_ENT("DM", 0x34, 1, 0x00), /* Dominica */
++	COUNTRY_CHPLAN_ENT("DO", 0x34, 1, 0xF1), /* Dominican Republic */
++	COUNTRY_CHPLAN_ENT("DZ", 0x26, 1, 0xF1), /* Algeria */
++	COUNTRY_CHPLAN_ENT("EC", 0x34, 1, 0xF1), /* Ecuador */
++	COUNTRY_CHPLAN_ENT("EE", 0x26, 1, 0xFB), /* Estonia */
++	COUNTRY_CHPLAN_ENT("EG", 0x47, 0, 0xF1), /* Egypt */
++	COUNTRY_CHPLAN_ENT("EH", 0x47, 1, 0x80), /* Western Sahara */
++	COUNTRY_CHPLAN_ENT("ER", 0x26, 1, 0x00), /* Eritrea */
++	COUNTRY_CHPLAN_ENT("ES", 0x26, 1, 0xFB), /* Spain, Canary Islands, Ceuta, Melilla */
++	COUNTRY_CHPLAN_ENT("ET", 0x26, 1, 0xB0), /* Ethiopia */
++	COUNTRY_CHPLAN_ENT("FI", 0x26, 1, 0xFB), /* Finland */
++	COUNTRY_CHPLAN_ENT("FJ", 0x34, 1, 0x00), /* Fiji */
++	COUNTRY_CHPLAN_ENT("FK", 0x26, 1, 0x00), /* Falkland Islands (Islas Malvinas) (UK) */
++	COUNTRY_CHPLAN_ENT("FM", 0x34, 1, 0x00), /* Micronesia, Federated States of (USA) */
++	COUNTRY_CHPLAN_ENT("FO", 0x26, 1, 0x00), /* Faroe Islands (Denmark) */
++	COUNTRY_CHPLAN_ENT("FR", 0x26, 1, 0xFB), /* France */
++	COUNTRY_CHPLAN_ENT("GA", 0x26, 1, 0xB0), /* Gabon */
++	COUNTRY_CHPLAN_ENT("GB", 0x26, 1, 0xFB), /* Great Britain (United Kingdom; England) */
++	COUNTRY_CHPLAN_ENT("GD", 0x34, 1, 0xB0), /* Grenada */
++	COUNTRY_CHPLAN_ENT("GE", 0x26, 1, 0x00), /* Georgia */
++	COUNTRY_CHPLAN_ENT("GF", 0x26, 1, 0x80), /* French Guiana */
++	COUNTRY_CHPLAN_ENT("GG", 0x26, 1, 0x00), /* Guernsey (UK) */
++	COUNTRY_CHPLAN_ENT("GH", 0x26, 1, 0xF1), /* Ghana */
++	COUNTRY_CHPLAN_ENT("GI", 0x26, 1, 0x00), /* Gibraltar (UK) */
++	COUNTRY_CHPLAN_ENT("GL", 0x26, 1, 0x00), /* Greenland (Denmark) */
++	COUNTRY_CHPLAN_ENT("GM", 0x26, 1, 0xB0), /* Gambia */
++	COUNTRY_CHPLAN_ENT("GN", 0x26, 1, 0x10), /* Guinea */
++	COUNTRY_CHPLAN_ENT("GP", 0x26, 1, 0x00), /* Guadeloupe (France) */
++	COUNTRY_CHPLAN_ENT("GQ", 0x26, 1, 0xB0), /* Equatorial Guinea */
++	COUNTRY_CHPLAN_ENT("GR", 0x26, 1, 0xFB), /* Greece */
++	COUNTRY_CHPLAN_ENT("GS", 0x26, 1, 0x00), /* South Georgia and the Sandwich Islands (UK) */
++	COUNTRY_CHPLAN_ENT("GT", 0x34, 1, 0xF1), /* Guatemala */
++	COUNTRY_CHPLAN_ENT("GU", 0x34, 1, 0x00), /* Guam (USA) */
++	COUNTRY_CHPLAN_ENT("GW", 0x26, 1, 0xB0), /* Guinea-Bissau */
++	COUNTRY_CHPLAN_ENT("GY", 0x44, 1, 0x00), /* Guyana */
++	COUNTRY_CHPLAN_ENT("HK", 0x26, 1, 0xFB), /* Hong Kong */
++	COUNTRY_CHPLAN_ENT("HM", 0x45, 1, 0x00), /* Heard and McDonald Islands (Australia) */
++	COUNTRY_CHPLAN_ENT("HN", 0x32, 1, 0xF1), /* Honduras */
++	COUNTRY_CHPLAN_ENT("HR", 0x26, 1, 0xF9), /* Croatia */
++	COUNTRY_CHPLAN_ENT("HT", 0x34, 1, 0x50), /* Haiti */
++	COUNTRY_CHPLAN_ENT("HU", 0x26, 1, 0xFB), /* Hungary */
++	COUNTRY_CHPLAN_ENT("ID", 0x54, 0, 0xF3), /* Indonesia */
++	COUNTRY_CHPLAN_ENT("IE", 0x26, 1, 0xFB), /* Ireland */
++	COUNTRY_CHPLAN_ENT("IL", 0x47, 1, 0xF1), /* Israel */
++	COUNTRY_CHPLAN_ENT("IM", 0x26, 1, 0x00), /* Isle of Man (UK) */
++	COUNTRY_CHPLAN_ENT("IN", 0x47, 1, 0xF1), /* India */
++	COUNTRY_CHPLAN_ENT("IQ", 0x26, 1, 0x00), /* Iraq */
++	COUNTRY_CHPLAN_ENT("IR", 0x26, 0, 0x00), /* Iran */
++	COUNTRY_CHPLAN_ENT("IS", 0x26, 1, 0xFB), /* Iceland */
++	COUNTRY_CHPLAN_ENT("IT", 0x26, 1, 0xFB), /* Italy */
++	COUNTRY_CHPLAN_ENT("JE", 0x26, 1, 0x00), /* Jersey (UK) */
++	COUNTRY_CHPLAN_ENT("JM", 0x51, 1, 0xF1), /* Jamaica */
++	COUNTRY_CHPLAN_ENT("JO", 0x49, 1, 0xFB), /* Jordan */
++	COUNTRY_CHPLAN_ENT("JP", 0x27, 1, 0xFF), /* Japan- Telec */
++	COUNTRY_CHPLAN_ENT("KE", 0x47, 1, 0xF9), /* Kenya */
++	COUNTRY_CHPLAN_ENT("KG", 0x26, 1, 0xF1), /* Kyrgyzstan */
++	COUNTRY_CHPLAN_ENT("KH", 0x26, 1, 0xF1), /* Cambodia */
++	COUNTRY_CHPLAN_ENT("KI", 0x26, 1, 0x00), /* Kiribati */
++	COUNTRY_CHPLAN_ENT("KN", 0x34, 1, 0x00), /* Saint Kitts and Nevis */
++	COUNTRY_CHPLAN_ENT("KR", 0x28, 1, 0xFB), /* South Korea */
++	COUNTRY_CHPLAN_ENT("KW", 0x47, 1, 0xFB), /* Kuwait */
++	COUNTRY_CHPLAN_ENT("KY", 0x34, 1, 0x00), /* Cayman Islands (UK) */
++	COUNTRY_CHPLAN_ENT("KZ", 0x26, 1, 0x00), /* Kazakhstan */
++	COUNTRY_CHPLAN_ENT("LA", 0x26, 1, 0x00), /* Laos */
++	COUNTRY_CHPLAN_ENT("LB", 0x26, 1, 0xF1), /* Lebanon */
++	COUNTRY_CHPLAN_ENT("LC", 0x34, 1, 0x00), /* Saint Lucia */
++	COUNTRY_CHPLAN_ENT("LI", 0x26, 1, 0xFB), /* Liechtenstein */
++	COUNTRY_CHPLAN_ENT("LK", 0x26, 1, 0xF1), /* Sri Lanka */
++	COUNTRY_CHPLAN_ENT("LR", 0x26, 1, 0xB0), /* Liberia */
++	COUNTRY_CHPLAN_ENT("LS", 0x26, 1, 0xF1), /* Lesotho */
++	COUNTRY_CHPLAN_ENT("LT", 0x26, 1, 0xFB), /* Lithuania */
++	COUNTRY_CHPLAN_ENT("LU", 0x26, 1, 0xFB), /* Luxembourg */
++	COUNTRY_CHPLAN_ENT("LV", 0x26, 1, 0xFB), /* Latvia */
++	COUNTRY_CHPLAN_ENT("LY", 0x26, 1, 0x00), /* Libya */
++	COUNTRY_CHPLAN_ENT("MA", 0x47, 1, 0xF1), /* Morocco */
++	COUNTRY_CHPLAN_ENT("MC", 0x26, 1, 0xFB), /* Monaco */
++	COUNTRY_CHPLAN_ENT("MD", 0x26, 1, 0xF1), /* Moldova */
++	COUNTRY_CHPLAN_ENT("ME", 0x26, 1, 0xF1), /* Montenegro */
++	COUNTRY_CHPLAN_ENT("MF", 0x34, 1, 0x00), /* Saint Martin */
++	COUNTRY_CHPLAN_ENT("MG", 0x26, 1, 0x20), /* Madagascar */
++	COUNTRY_CHPLAN_ENT("MH", 0x34, 1, 0x00), /* Marshall Islands (USA) */
++	COUNTRY_CHPLAN_ENT("MK", 0x26, 1, 0xF1), /* Republic of Macedonia (FYROM) */
++	COUNTRY_CHPLAN_ENT("ML", 0x26, 1, 0xB0), /* Mali */
++	COUNTRY_CHPLAN_ENT("MM", 0x26, 1, 0x00), /* Burma (Myanmar) */
++	COUNTRY_CHPLAN_ENT("MN", 0x26, 1, 0x00), /* Mongolia */
++	COUNTRY_CHPLAN_ENT("MO", 0x26, 1, 0x00), /* Macau */
++	COUNTRY_CHPLAN_ENT("MP", 0x34, 1, 0x00), /* Northern Mariana Islands (USA) */
++	COUNTRY_CHPLAN_ENT("MQ", 0x26, 1, 0x40), /* Martinique (France) */
++	COUNTRY_CHPLAN_ENT("MR", 0x26, 1, 0xA0), /* Mauritania */
++	COUNTRY_CHPLAN_ENT("MS", 0x26, 1, 0x00), /* Montserrat (UK) */
++	COUNTRY_CHPLAN_ENT("MT", 0x26, 1, 0xFB), /* Malta */
++	COUNTRY_CHPLAN_ENT("MU", 0x26, 1, 0xB0), /* Mauritius */
++	COUNTRY_CHPLAN_ENT("MV", 0x26, 1, 0x00), /* Maldives */
++	COUNTRY_CHPLAN_ENT("MW", 0x26, 1, 0xB0), /* Malawi */
++	COUNTRY_CHPLAN_ENT("MX", 0x34, 1, 0xF1), /* Mexico */
++	COUNTRY_CHPLAN_ENT("MY", 0x47, 1, 0xF1), /* Malaysia */
++	COUNTRY_CHPLAN_ENT("MZ", 0x26, 1, 0xF1), /* Mozambique */
++	COUNTRY_CHPLAN_ENT("NA", 0x26, 0, 0x00), /* Namibia */
++	COUNTRY_CHPLAN_ENT("NC", 0x26, 1, 0x00), /* New Caledonia */
++	COUNTRY_CHPLAN_ENT("NE", 0x26, 1, 0xB0), /* Niger */
++	COUNTRY_CHPLAN_ENT("NF", 0x45, 1, 0x00), /* Norfolk Island (Australia) */
++	COUNTRY_CHPLAN_ENT("NG", 0x50, 1, 0xF9), /* Nigeria */
++	COUNTRY_CHPLAN_ENT("NI", 0x34, 1, 0xF1), /* Nicaragua */
++	COUNTRY_CHPLAN_ENT("NL", 0x26, 1, 0xFB), /* Netherlands */
++	COUNTRY_CHPLAN_ENT("NO", 0x26, 1, 0xFB), /* Norway */
++	COUNTRY_CHPLAN_ENT("NP", 0x47, 1, 0xF0), /* Nepal */
++	COUNTRY_CHPLAN_ENT("NR", 0x26, 1, 0x00), /* Nauru */
++	COUNTRY_CHPLAN_ENT("NU", 0x45, 1, 0x00), /* Niue */
++	COUNTRY_CHPLAN_ENT("NZ", 0x45, 1, 0xFB), /* New Zealand */
++	COUNTRY_CHPLAN_ENT("OM", 0x26, 1, 0xF9), /* Oman */
++	COUNTRY_CHPLAN_ENT("PA", 0x34, 1, 0xF1), /* Panama */
++	COUNTRY_CHPLAN_ENT("PE", 0x34, 1, 0xF1), /* Peru */
++	COUNTRY_CHPLAN_ENT("PF", 0x26, 1, 0x00), /* French Polynesia (France) */
++	COUNTRY_CHPLAN_ENT("PG", 0x26, 1, 0xF1), /* Papua New Guinea */
++	COUNTRY_CHPLAN_ENT("PH", 0x26, 1, 0xF1), /* Philippines */
++	COUNTRY_CHPLAN_ENT("PK", 0x51, 1, 0xF1), /* Pakistan */
++	COUNTRY_CHPLAN_ENT("PL", 0x26, 1, 0xFB), /* Poland */
++	COUNTRY_CHPLAN_ENT("PM", 0x26, 1, 0x00), /* Saint Pierre and Miquelon (France) */
++	COUNTRY_CHPLAN_ENT("PR", 0x34, 1, 0xF1), /* Puerto Rico */
++	COUNTRY_CHPLAN_ENT("PT", 0x26, 1, 0xFB), /* Portugal */
++	COUNTRY_CHPLAN_ENT("PW", 0x34, 1, 0x00), /* Palau */
++	COUNTRY_CHPLAN_ENT("PY", 0x34, 1, 0xF1), /* Paraguay */
++	COUNTRY_CHPLAN_ENT("QA", 0x51, 1, 0xF9), /* Qatar */
++	COUNTRY_CHPLAN_ENT("RE", 0x26, 1, 0x00), /* Reunion (France) */
++	COUNTRY_CHPLAN_ENT("RO", 0x26, 1, 0xF1), /* Romania */
++	COUNTRY_CHPLAN_ENT("RS", 0x26, 1, 0xF1), /* Serbia, Kosovo */
++	COUNTRY_CHPLAN_ENT("RU", 0x59, 1, 0xFB), /* Russia(fac/gost), Kaliningrad */
++	COUNTRY_CHPLAN_ENT("RW", 0x26, 1, 0xB0), /* Rwanda */
++	COUNTRY_CHPLAN_ENT("SA", 0x26, 1, 0xFB), /* Saudi Arabia */
++	COUNTRY_CHPLAN_ENT("SB", 0x26, 1, 0x00), /* Solomon Islands */
++	COUNTRY_CHPLAN_ENT("SC", 0x34, 1, 0x90), /* Seychelles */
++	COUNTRY_CHPLAN_ENT("SE", 0x26, 1, 0xFB), /* Sweden */
++	COUNTRY_CHPLAN_ENT("SG", 0x47, 1, 0xFB), /* Singapore */
++	COUNTRY_CHPLAN_ENT("SH", 0x26, 1, 0x00), /* Saint Helena (UK) */
++	COUNTRY_CHPLAN_ENT("SI", 0x26, 1, 0xFB), /* Slovenia */
++	COUNTRY_CHPLAN_ENT("SJ", 0x26, 1, 0x00), /* Svalbard (Norway) */
++	COUNTRY_CHPLAN_ENT("SK", 0x26, 1, 0xFB), /* Slovakia */
++	COUNTRY_CHPLAN_ENT("SL", 0x26, 1, 0xB0), /* Sierra Leone */
++	COUNTRY_CHPLAN_ENT("SM", 0x26, 1, 0x00), /* San Marino */
++	COUNTRY_CHPLAN_ENT("SN", 0x26, 1, 0xF1), /* Senegal */
++	COUNTRY_CHPLAN_ENT("SO", 0x26, 1, 0x00), /* Somalia */
++	COUNTRY_CHPLAN_ENT("SR", 0x34, 1, 0x00), /* Suriname */
++	COUNTRY_CHPLAN_ENT("ST", 0x34, 1, 0x80), /* Sao Tome and Principe */
++	COUNTRY_CHPLAN_ENT("SV", 0x30, 1, 0xF1), /* El Salvador */
++	COUNTRY_CHPLAN_ENT("SX", 0x34, 1, 0x00), /* Sint Marteen */
++	COUNTRY_CHPLAN_ENT("SZ", 0x26, 1, 0x20), /* Swaziland */
++	COUNTRY_CHPLAN_ENT("TC", 0x26, 1, 0x00), /* Turks and Caicos Islands (UK) */
++	COUNTRY_CHPLAN_ENT("TD", 0x26, 1, 0xB0), /* Chad */
++	COUNTRY_CHPLAN_ENT("TF", 0x26, 1, 0x80), /* French Southern and Antarctic Lands (FR Southern Territories) */
++	COUNTRY_CHPLAN_ENT("TG", 0x26, 1, 0xB0), /* Togo */
++	COUNTRY_CHPLAN_ENT("TH", 0x26, 1, 0xF1), /* Thailand */
++	COUNTRY_CHPLAN_ENT("TJ", 0x26, 1, 0x40), /* Tajikistan */
++	COUNTRY_CHPLAN_ENT("TK", 0x45, 1, 0x00), /* Tokelau */
++	COUNTRY_CHPLAN_ENT("TM", 0x26, 1, 0x00), /* Turkmenistan */
++	COUNTRY_CHPLAN_ENT("TN", 0x47, 1, 0xF1), /* Tunisia */
++	COUNTRY_CHPLAN_ENT("TO", 0x26, 1, 0x00), /* Tonga */
++	COUNTRY_CHPLAN_ENT("TR", 0x26, 1, 0xF1), /* Turkey, Northern Cyprus */
++	COUNTRY_CHPLAN_ENT("TT", 0x42, 1, 0xF1), /* Trinidad & Tobago */
++	COUNTRY_CHPLAN_ENT("TW", 0x39, 1, 0xFF), /* Taiwan */
++	COUNTRY_CHPLAN_ENT("TZ", 0x26, 1, 0xF0), /* Tanzania */
++	COUNTRY_CHPLAN_ENT("UA", 0x26, 1, 0xFB), /* Ukraine */
++	COUNTRY_CHPLAN_ENT("UG", 0x26, 1, 0xF1), /* Uganda */
++	COUNTRY_CHPLAN_ENT("US", 0x34, 1, 0xFF), /* United States of America (USA) */
++	COUNTRY_CHPLAN_ENT("UY", 0x34, 1, 0xF1), /* Uruguay */
++	COUNTRY_CHPLAN_ENT("UZ", 0x47, 1, 0xF0), /* Uzbekistan */
++	COUNTRY_CHPLAN_ENT("VA", 0x26, 1, 0x00), /* Holy See (Vatican City) */
++	COUNTRY_CHPLAN_ENT("VC", 0x34, 1, 0x10), /* Saint Vincent and the Grenadines */
++	COUNTRY_CHPLAN_ENT("VE", 0x30, 1, 0xF1), /* Venezuela */
++	COUNTRY_CHPLAN_ENT("VI", 0x34, 1, 0x00), /* United States Virgin Islands (USA) */
++	COUNTRY_CHPLAN_ENT("VN", 0x26, 1, 0xF1), /* Vietnam */
++	COUNTRY_CHPLAN_ENT("VU", 0x26, 1, 0x00), /* Vanuatu */
++	COUNTRY_CHPLAN_ENT("WF", 0x26, 1, 0x00), /* Wallis and Futuna (France) */
++	COUNTRY_CHPLAN_ENT("WS", 0x34, 1, 0x00), /* Samoa */
++	COUNTRY_CHPLAN_ENT("YE", 0x26, 1, 0x40), /* Yemen */
++	COUNTRY_CHPLAN_ENT("YT", 0x26, 1, 0x80), /* Mayotte (France) */
++	COUNTRY_CHPLAN_ENT("ZA", 0x26, 1, 0xF1), /* South Africa */
++	COUNTRY_CHPLAN_ENT("ZM", 0x26, 1, 0xB0), /* Zambia */
++	COUNTRY_CHPLAN_ENT("ZW", 0x26, 1, 0xF1), /* Zimbabwe */
++};
++
++u16 const country_chplan_map_sz = sizeof(country_chplan_map) / sizeof(struct country_chplan);
++
++/*
++* rtw_get_chplan_from_country -
++* @country_code: string of country code
++*
++* Return pointer of struct country_chplan entry or NULL when unsupported country_code is given
++*/
++const struct country_chplan *rtw_get_chplan_from_country(const char *country_code)
++{
++	const struct country_chplan *ent = NULL;
++	const struct country_chplan *map = NULL;
++	u16 map_sz = 0;
++	char code[2];
++	int i;
++
++	code[0] = alpha_to_upper(country_code[0]);
++	code[1] = alpha_to_upper(country_code[1]);
++
++#if !defined(CONFIG_CUSTOMIZED_COUNTRY_CHPLAN_MAP) && RTW_DEF_MODULE_REGULATORY_CERT
++	ent = rtw_def_module_get_chplan_from_country(code);
++	if (ent != NULL)
++		goto exit;
++#endif
++
++#ifdef CONFIG_CUSTOMIZED_COUNTRY_CHPLAN_MAP
++	map = CUSTOMIZED_country_chplan_map;
++	map_sz = CUSTOMIZED_country_chplan_map_sz;
++#else
++	map = country_chplan_map;
++	map_sz = country_chplan_map_sz;
++#endif
++
++	for (i = 0; i < map_sz; i++) {
++		if (strncmp(code, map[i].alpha2, 2) == 0) {
++			ent = &map[i];
++			break;
++		}
++	}
++
++exit:
++	#if RTW_DEF_MODULE_REGULATORY_CERT
++	if (ent && !(COUNTRY_CHPLAN_DEF_MODULE_FALGS(ent) & RTW_DEF_MODULE_REGULATORY_CERT))
++		ent = NULL;
++	#endif
++
++	return ent;
++}
++
++int rtw_ch_to_bb_gain_sel(int ch)
++{
++	int sel = -1;
++
++	if (ch >= 1 && ch <= 14)
++		sel = BB_GAIN_2G;
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	else if (ch >= 36 && ch < 48)
++		sel = BB_GAIN_5GLB1;
++	else if (ch >= 52 && ch <= 64)
++		sel = BB_GAIN_5GLB2;
++	else if (ch >= 100 && ch <= 120)
++		sel = BB_GAIN_5GMB1;
++	else if (ch >= 124 && ch <= 144)
++		sel = BB_GAIN_5GMB2;
++	else if (ch >= 149 && ch <= 177)
++		sel = BB_GAIN_5GHB;
++#endif
++
++	return sel;
++}
++
++s8 rtw_rf_get_kfree_tx_gain_offset(_adapter *padapter, u8 path, u8 ch)
++{
++	s8 kfree_offset = 0;
++
++#ifdef CONFIG_RF_POWER_TRIM
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(padapter);
++	struct kfree_data_t *kfree_data = GET_KFREE_DATA(padapter);
++	s8 bb_gain_sel = rtw_ch_to_bb_gain_sel(ch);
++
++	if (bb_gain_sel < BB_GAIN_2G || bb_gain_sel >= BB_GAIN_NUM) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (kfree_data->flag & KFREE_FLAG_ON) {
++		kfree_offset = kfree_data->bb_gain[bb_gain_sel][path];
++		if (IS_HARDWARE_TYPE_8723D(padapter))
++			RTW_INFO("%s path:%s, ch:%u, bb_gain_sel:%d, kfree_offset:%d\n"
++				, __func__, (path == 0)?"S1":"S0", 
++				ch, bb_gain_sel, kfree_offset);
++		else
++			RTW_INFO("%s path:%u, ch:%u, bb_gain_sel:%d, kfree_offset:%d\n"
++				, __func__, path, ch, bb_gain_sel, kfree_offset);
++	}
++exit:
++#endif /* CONFIG_RF_POWER_TRIM */
++	return kfree_offset;
++}
++
++void rtw_rf_set_tx_gain_offset(_adapter *adapter, u8 path, s8 offset)
++{
++	u8 write_value;
++	u8 target_path = 0;
++	u32 val32 = 0;
++
++	if (IS_HARDWARE_TYPE_8723D(adapter)) {
++		target_path = RF_PATH_A; /*in 8723D case path means S0/S1*/
++		if (path == PPG_8723D_S1)
++			RTW_INFO("kfree gain_offset 0x55:0x%x ",
++			rtw_hal_read_rfreg(adapter, target_path, 0x55, 0xffffffff));
++		else if (path == PPG_8723D_S0)
++			RTW_INFO("kfree gain_offset 0x65:0x%x ",
++			rtw_hal_read_rfreg(adapter, target_path, 0x65, 0xffffffff));
++	} else {
++		target_path = path;
++		RTW_INFO("kfree gain_offset 0x55:0x%x ", rtw_hal_read_rfreg(adapter, target_path, 0x55, 0xffffffff));
++	}
++	
++	switch (rtw_get_chip_type(adapter)) {
++#ifdef CONFIG_RTL8723D
++	case RTL8723D:
++		write_value = RF_TX_GAIN_OFFSET_8723D(offset);
++		if (path == PPG_8723D_S1)
++			rtw_hal_write_rfreg(adapter, target_path, 0x55, 0x0f8000, write_value);
++		else if (path == PPG_8723D_S0)
++			rtw_hal_write_rfreg(adapter, target_path, 0x65, 0x0f8000, write_value);
++		break;
++#endif /* CONFIG_RTL8723D */
++#ifdef CONFIG_RTL8703B
++	case RTL8703B:
++		write_value = RF_TX_GAIN_OFFSET_8703B(offset);
++		rtw_hal_write_rfreg(adapter, target_path, 0x55, 0x0fc000, write_value);
++		break;
++#endif /* CONFIG_RTL8703B */
++#ifdef CONFIG_RTL8188F
++	case RTL8188F:
++		write_value = RF_TX_GAIN_OFFSET_8188F(offset);
++		rtw_hal_write_rfreg(adapter, target_path, 0x55, 0x0fc000, write_value);
++		break;
++#endif /* CONFIG_RTL8188F */
++#ifdef CONFIG_RTL8192E
++	case RTL8192E:
++		write_value = RF_TX_GAIN_OFFSET_8192E(offset);
++		rtw_hal_write_rfreg(adapter, target_path, 0x55, 0x0f8000, write_value);
++		break;
++#endif /* CONFIG_RTL8188F */
++
++#ifdef CONFIG_RTL8821A
++	case RTL8821:
++		write_value = RF_TX_GAIN_OFFSET_8821A(offset);
++		rtw_hal_write_rfreg(adapter, target_path, 0x55, 0x0f8000, write_value);
++		break;
++#endif /* CONFIG_RTL8821A */
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++	case RTL8814A:
++	case RTL8822B:
++	case RTL8821C:
++		RTW_INFO("\nkfree by PhyDM on the sw CH. path %d\n", path);
++		break;
++#endif /* CONFIG_RTL8814A || CONFIG_RTL8822B || CONFIG_RTL8821C */
++
++	default:
++		rtw_warn_on(1);
++		break;
++	}
++	
++	if (IS_HARDWARE_TYPE_8723D(adapter)) {
++		if (path == PPG_8723D_S1)
++			val32 = rtw_hal_read_rfreg(adapter, target_path, 0x55, 0xffffffff);
++		else if (path == PPG_8723D_S0)
++			val32 = rtw_hal_read_rfreg(adapter, target_path, 0x65, 0xffffffff);
++	} else {
++		val32 = rtw_hal_read_rfreg(adapter, target_path, 0x55, 0xffffffff);
++	}
++	RTW_INFO(" after :0x%x\n", val32);
++}
++
++void rtw_rf_apply_tx_gain_offset(_adapter *adapter, u8 ch)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	s8 kfree_offset = 0;
++	s8 tx_pwr_track_offset = 0; /* TODO: 8814A should consider tx pwr track when setting tx gain offset */
++	s8 total_offset;
++	int i, total = 0;
++
++	if (IS_HARDWARE_TYPE_8723D(adapter))
++		total = 2; /* S1 and S0 */
++	else
++		total = hal_data->NumTotalRFPath;
++
++	for (i = 0; i < total; i++) {
++		kfree_offset = rtw_rf_get_kfree_tx_gain_offset(adapter, i, ch);
++		total_offset = kfree_offset + tx_pwr_track_offset;
++		rtw_rf_set_tx_gain_offset(adapter, i, total_offset);
++	}
++}
++
++bool rtw_is_dfs_range(u32 hi, u32 lo)
++{
++	return rtw_is_range_overlap(hi, lo, 5720 + 10, 5260 - 10) ? _TRUE : _FALSE;
++}
++
++bool rtw_is_dfs_ch(u8 ch, u8 bw, u8 offset)
++{
++	u32 hi, lo;
++
++	if (rtw_chbw_to_freq_range(ch, bw, offset, &hi, &lo) == _FALSE)
++		return _FALSE;
++
++	return rtw_is_dfs_range(hi, lo) ? _TRUE : _FALSE;
++}
++
++bool rtw_is_long_cac_range(u32 hi, u32 lo, u8 dfs_region)
++{
++	return (dfs_region == PHYDM_DFS_DOMAIN_ETSI && rtw_is_range_overlap(hi, lo, 5660 + 10, 5600 - 10)) ? _TRUE : _FALSE;
++}
++
++bool rtw_is_long_cac_ch(u8 ch, u8 bw, u8 offset, u8 dfs_region)
++{
++	u32 hi, lo;
++
++	if (rtw_chbw_to_freq_range(ch, bw, offset, &hi, &lo) == _FALSE)
++		return _FALSE;
++
++	return rtw_is_long_cac_range(hi, lo, dfs_region) ? _TRUE : _FALSE;
++}
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_sdio.c b/drivers/net/wireless/rtl8723du/core/rtw_sdio.c
+new file mode 100644
+index 0000000..817d60b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_sdio.c
+@@ -0,0 +1,98 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ ******************************************************************************/
++#define _RTW_SDIO_C_
++
++#include <drv_types.h>		/* struct dvobj_priv and etc. */
++#include <drv_types_sdio.h>	/* RTW_SDIO_ADDR_CMD52_GEN */
++
++/*
++ * Description:
++ *	Use SDIO cmd52 or cmd53 to read/write data
++ *
++ * Parameters:
++ *	d	pointer of device object(struct dvobj_priv)
++ *	addr	SDIO address, 17 bits
++ *	buf	buffer for I/O
++ *	len	length
++ *	write	0:read, 1:write
++ *	cmd52	0:cmd52, 1:cmd53
++ *
++ * Return:
++ *	_SUCCESS	I/O ok.
++ *	_FAIL		I/O fail.
++ */
++static u8 sdio_io(struct dvobj_priv *d, u32 addr, void *buf, size_t len, u8 write, u8 cmd52)
++{
++	int err;
++
++
++	if (cmd52)
++		addr = RTW_SDIO_ADDR_CMD52_GEN(addr);
++
++	if (write)
++		err = d->intf_ops->write(d, addr, buf, len, 0);
++	else
++		err = d->intf_ops->read(d, addr, buf, len, 0);
++	if (err) {
++		RTW_INFO("%s: [ERROR] %s FAIL! error(%d)\n",
++			 __FUNCTION__, write ? "write" : "read", err);
++		return _FAIL;
++	}
++
++	return _SUCCESS;
++}
++
++u8 rtw_sdio_read_cmd52(struct dvobj_priv *d, u32 addr, void *buf, size_t len)
++{
++	return sdio_io(d, addr, buf, len, 0, 1);
++}
++
++u8 rtw_sdio_read_cmd53(struct dvobj_priv *d, u32 addr, void *buf, size_t len)
++{
++	return sdio_io(d, addr, buf, len, 0, 0);
++}
++
++u8 rtw_sdio_write_cmd52(struct dvobj_priv *d, u32 addr, void *buf, size_t len)
++{
++	return sdio_io(d, addr, buf, len, 1, 1);
++}
++
++u8 rtw_sdio_write_cmd53(struct dvobj_priv *d, u32 addr, void *buf, size_t len)
++{
++	return sdio_io(d, addr, buf, len, 1, 0);
++}
++
++u8 rtw_sdio_f0_read(struct dvobj_priv *d, u32 addr, void *buf, size_t len)
++{
++	int err;
++	u8 ret;
++
++
++	ret = _SUCCESS;
++	addr = RTW_SDIO_ADDR_F0_GEN(addr);
++
++	err = d->intf_ops->read(d, addr, buf, len, 0);
++	if (err) {
++		RTW_INFO("%s: [ERROR] Read f0 register FAIL!\n", __FUNCTION__);
++		ret = _FAIL;
++	}
++
++
++	return ret;
++}
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_security.c b/drivers/net/wireless/rtl8723du/core/rtw_security.c
+new file mode 100644
+index 0000000..b413893
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_security.c
+@@ -0,0 +1,3197 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define  _RTW_SECURITY_C_
++
++#include <drv_types.h>
++
++static const char *_security_type_str[] = {
++	"N/A",
++	"WEP40",
++	"TKIP",
++	"TKIP_WM",
++	"AES",
++	"WEP104",
++	"SMS4",
++	"WEP_WPA",
++	"BIP",
++};
++
++const char *security_type_str(u8 value)
++{
++#ifdef CONFIG_IEEE80211W
++	if (value <= _BIP_)
++#else
++	if (value <= _WEP_WPA_MIXED_)
++#endif
++		return _security_type_str[value];
++	return NULL;
++}
++
++#ifdef DBG_SW_SEC_CNT
++#define WEP_SW_ENC_CNT_INC(sec, ra) do {\
++	if (is_broadcast_mac_addr(ra)) \
++		sec->wep_sw_enc_cnt_bc++; \
++	else if (is_multicast_mac_addr(ra)) \
++		sec->wep_sw_enc_cnt_mc++; \
++	else \
++		sec->wep_sw_enc_cnt_uc++; \
++	} while (0)
++
++#define WEP_SW_DEC_CNT_INC(sec, ra) do {\
++	if (is_broadcast_mac_addr(ra)) \
++		sec->wep_sw_dec_cnt_bc++; \
++	else if (is_multicast_mac_addr(ra)) \
++		sec->wep_sw_dec_cnt_mc++; \
++	else \
++		sec->wep_sw_dec_cnt_uc++; \
++	} while (0)
++
++#define TKIP_SW_ENC_CNT_INC(sec, ra) do {\
++	if (is_broadcast_mac_addr(ra)) \
++		sec->tkip_sw_enc_cnt_bc++; \
++	else if (is_multicast_mac_addr(ra)) \
++		sec->tkip_sw_enc_cnt_mc++; \
++	else \
++		sec->tkip_sw_enc_cnt_uc++; \
++	} while (0)
++
++#define TKIP_SW_DEC_CNT_INC(sec, ra) do {\
++	if (is_broadcast_mac_addr(ra)) \
++		sec->tkip_sw_dec_cnt_bc++; \
++	else if (is_multicast_mac_addr(ra)) \
++		sec->tkip_sw_dec_cnt_mc++; \
++	else \
++		sec->tkip_sw_dec_cnt_uc++; \
++	} while (0)
++
++#define AES_SW_ENC_CNT_INC(sec, ra) do {\
++	if (is_broadcast_mac_addr(ra)) \
++		sec->aes_sw_enc_cnt_bc++; \
++	else if (is_multicast_mac_addr(ra)) \
++		sec->aes_sw_enc_cnt_mc++; \
++	else \
++		sec->aes_sw_enc_cnt_uc++; \
++	} while (0)
++
++#define AES_SW_DEC_CNT_INC(sec, ra) do {\
++	if (is_broadcast_mac_addr(ra)) \
++		sec->aes_sw_dec_cnt_bc++; \
++	else if (is_multicast_mac_addr(ra)) \
++		sec->aes_sw_dec_cnt_mc++; \
++	else \
++		sec->aes_sw_dec_cnt_uc++; \
++	} while (0)
++#else
++#define WEP_SW_ENC_CNT_INC(sec, ra)
++#define WEP_SW_DEC_CNT_INC(sec, ra)
++#define TKIP_SW_ENC_CNT_INC(sec, ra)
++#define TKIP_SW_DEC_CNT_INC(sec, ra)
++#define AES_SW_ENC_CNT_INC(sec, ra)
++#define AES_SW_DEC_CNT_INC(sec, ra)
++#endif /* DBG_SW_SEC_CNT */
++
++/* *****WEP related***** */
++
++#define CRC32_POLY 0x04c11db7
++
++struct arc4context {
++	u32 x;
++	u32 y;
++	u8 state[256];
++};
++
++
++static void arcfour_init(struct arc4context	*parc4ctx, u8 *key, u32	key_len)
++{
++	u32	t, u;
++	u32	keyindex;
++	u32	stateindex;
++	u8 *state;
++	u32	counter;
++	state = parc4ctx->state;
++	parc4ctx->x = 0;
++	parc4ctx->y = 0;
++	for (counter = 0; counter < 256; counter++)
++		state[counter] = (u8)counter;
++	keyindex = 0;
++	stateindex = 0;
++	for (counter = 0; counter < 256; counter++) {
++		t = state[counter];
++		stateindex = (stateindex + key[keyindex] + t) & 0xff;
++		u = state[stateindex];
++		state[stateindex] = (u8)t;
++		state[counter] = (u8)u;
++		if (++keyindex >= key_len)
++			keyindex = 0;
++	}
++}
++static u32 arcfour_byte(struct arc4context	*parc4ctx)
++{
++	u32 x;
++	u32 y;
++	u32 sx, sy;
++	u8 *state;
++	state = parc4ctx->state;
++	x = (parc4ctx->x + 1) & 0xff;
++	sx = state[x];
++	y = (sx + parc4ctx->y) & 0xff;
++	sy = state[y];
++	parc4ctx->x = x;
++	parc4ctx->y = y;
++	state[y] = (u8)sx;
++	state[x] = (u8)sy;
++	return state[(sx + sy) & 0xff];
++}
++
++
++static void arcfour_encrypt(struct arc4context	*parc4ctx,
++			    u8 *dest,
++			    u8 *src,
++			    u32 len)
++{
++	u32	i;
++	for (i = 0; i < len; i++)
++		dest[i] = src[i] ^ (unsigned char)arcfour_byte(parc4ctx);
++}
++
++static sint bcrc32initialized = 0;
++static u32 crc32_table[256];
++
++
++static u8 crc32_reverseBit(u8 data)
++{
++	return (u8)((data << 7) & 0x80) | ((data << 5) & 0x40) | ((data << 3) & 0x20) | ((data << 1) & 0x10) | ((data >> 1) & 0x08) | ((data >> 3) & 0x04) | ((data >> 5) & 0x02) | ((
++				data >> 7) & 0x01) ;
++}
++
++static void crc32_init(void)
++{
++	if (bcrc32initialized == 1)
++		goto exit;
++	else {
++		sint i, j;
++		u32 c;
++		u8 *p = (u8 *)&c, *p1;
++		u8 k;
++
++		c = 0x12340000;
++
++		for (i = 0; i < 256; ++i) {
++			k = crc32_reverseBit((u8)i);
++			for (c = ((u32)k) << 24, j = 8; j > 0; --j)
++				c = c & 0x80000000 ? (c << 1) ^ CRC32_POLY : (c << 1);
++			p1 = (u8 *)&crc32_table[i];
++
++			p1[0] = crc32_reverseBit(p[3]);
++			p1[1] = crc32_reverseBit(p[2]);
++			p1[2] = crc32_reverseBit(p[1]);
++			p1[3] = crc32_reverseBit(p[0]);
++		}
++		bcrc32initialized = 1;
++	}
++exit:
++	return;
++}
++
++static u32 getcrc32(u8 *buf, sint len)
++{
++	u8 *p;
++	u32  crc;
++	if (bcrc32initialized == 0)
++		crc32_init();
++
++	crc = 0xffffffff;       /* preload shift register, per CRC-32 spec */
++
++	for (p = buf; len > 0; ++p, --len)
++		crc = crc32_table[(crc ^ *p) & 0xff] ^ (crc >> 8);
++	return ~crc;    /* transmit complement, per CRC-32 spec */
++}
++
++
++/*
++	Need to consider the fragment  situation
++*/
++void rtw_wep_encrypt(_adapter *padapter, u8 *pxmitframe)
++{
++	/* exclude ICV */
++
++	unsigned char	crc[4];
++	struct arc4context	 mycontext;
++
++	sint	curfragnum, length;
++	u32	keylength;
++
++	u8	*pframe, *payload, *iv;   /* ,*wepkey */
++	u8	wepkey[16];
++	u8   hw_hdr_offset = 0;
++	struct	pkt_attrib	*pattrib = &((struct xmit_frame *)pxmitframe)->attrib;
++	struct	security_priv	*psecuritypriv = &padapter->securitypriv;
++	struct	xmit_priv		*pxmitpriv = &padapter->xmitpriv;
++
++
++
++	if (((struct xmit_frame *)pxmitframe)->buf_addr == NULL)
++		return;
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	hw_hdr_offset = TXDESC_SIZE +
++		(((struct xmit_frame *)pxmitframe)->pkt_offset * PACKET_OFFSET_SZ);
++#else
++#ifdef CONFIG_TX_EARLY_MODE
++	hw_hdr_offset = TXDESC_OFFSET + EARLY_MODE_INFO_SIZE;
++#else
++	hw_hdr_offset = TXDESC_OFFSET;
++#endif
++#endif
++
++	pframe = ((struct xmit_frame *)pxmitframe)->buf_addr + hw_hdr_offset;
++
++	/* start to encrypt each fragment */
++	if ((pattrib->encrypt == _WEP40_) || (pattrib->encrypt == _WEP104_)) {
++		keylength = psecuritypriv->dot11DefKeylen[psecuritypriv->dot11PrivacyKeyIndex];
++
++		for (curfragnum = 0; curfragnum < pattrib->nr_frags; curfragnum++) {
++			iv = pframe + pattrib->hdrlen;
++			_rtw_memcpy(&wepkey[0], iv, 3);
++			_rtw_memcpy(&wepkey[3], &psecuritypriv->dot11DefKey[psecuritypriv->dot11PrivacyKeyIndex].skey[0], keylength);
++			payload = pframe + pattrib->iv_len + pattrib->hdrlen;
++
++			if ((curfragnum + 1) == pattrib->nr_frags) {
++				/* the last fragment */
++
++				length = pattrib->last_txcmdsz - pattrib->hdrlen - pattrib->iv_len - pattrib->icv_len;
++
++				*((u32 *)crc) = cpu_to_le32(getcrc32(payload, length));
++
++				arcfour_init(&mycontext, wepkey, 3 + keylength);
++				arcfour_encrypt(&mycontext, payload, payload, length);
++				arcfour_encrypt(&mycontext, payload + length, crc, 4);
++
++			} else {
++				length = pxmitpriv->frag_len - pattrib->hdrlen - pattrib->iv_len - pattrib->icv_len ;
++				*((u32 *)crc) = cpu_to_le32(getcrc32(payload, length));
++				arcfour_init(&mycontext, wepkey, 3 + keylength);
++				arcfour_encrypt(&mycontext, payload, payload, length);
++				arcfour_encrypt(&mycontext, payload + length, crc, 4);
++
++				pframe += pxmitpriv->frag_len;
++				pframe = (u8 *)RND4((SIZE_PTR)(pframe));
++
++			}
++
++		}
++
++		WEP_SW_ENC_CNT_INC(psecuritypriv, pattrib->ra);
++	}
++
++
++}
++
++void rtw_wep_decrypt(_adapter  *padapter, u8 *precvframe)
++{
++	/* exclude ICV */
++	u8	crc[4];
++	struct arc4context	 mycontext;
++	sint	length;
++	u32	keylength;
++	u8	*pframe, *payload, *iv, wepkey[16];
++	u8	 keyindex;
++	struct	rx_pkt_attrib	*prxattrib = &(((union recv_frame *)precvframe)->u.hdr.attrib);
++	struct	security_priv	*psecuritypriv = &padapter->securitypriv;
++
++
++	pframe = (unsigned char *)((union recv_frame *)precvframe)->u.hdr.rx_data;
++
++	/* start to decrypt recvframe */
++	if ((prxattrib->encrypt == _WEP40_) || (prxattrib->encrypt == _WEP104_)) {
++		iv = pframe + prxattrib->hdrlen;
++		/* keyindex=(iv[3]&0x3); */
++		keyindex = prxattrib->key_index;
++		keylength = psecuritypriv->dot11DefKeylen[keyindex];
++		_rtw_memcpy(&wepkey[0], iv, 3);
++		/* _rtw_memcpy(&wepkey[3], &psecuritypriv->dot11DefKey[psecuritypriv->dot11PrivacyKeyIndex].skey[0],keylength); */
++		_rtw_memcpy(&wepkey[3], &psecuritypriv->dot11DefKey[keyindex].skey[0], keylength);
++		length = ((union recv_frame *)precvframe)->u.hdr.len - prxattrib->hdrlen - prxattrib->iv_len;
++
++		payload = pframe + prxattrib->iv_len + prxattrib->hdrlen;
++
++		/* decrypt payload include icv */
++		arcfour_init(&mycontext, wepkey, 3 + keylength);
++		arcfour_encrypt(&mycontext, payload, payload,  length);
++
++		/* calculate icv and compare the icv */
++		*((u32 *)crc) = le32_to_cpu(getcrc32(payload, length - 4));
++
++
++		WEP_SW_DEC_CNT_INC(psecuritypriv, prxattrib->ra);
++	}
++
++
++	return;
++
++}
++
++/* 3		=====TKIP related===== */
++
++static u32 secmicgetuint32(u8 *p)
++/* Convert from Byte[] to Us4Byte32 in a portable way */
++{
++	s32 i;
++	u32 res = 0;
++	for (i = 0; i < 4; i++)
++		res |= ((u32)(*p++)) << (8 * i);
++	return res;
++}
++
++static void secmicputuint32(u8 *p, u32 val)
++/* Convert from Us4Byte32 to Byte[] in a portable way */
++{
++	long i;
++	for (i = 0; i < 4; i++) {
++		*p++ = (u8)(val & 0xff);
++		val >>= 8;
++	}
++}
++
++static void secmicclear(struct mic_data *pmicdata)
++{
++	/* Reset the state to the empty message. */
++	pmicdata->L = pmicdata->K0;
++	pmicdata->R = pmicdata->K1;
++	pmicdata->nBytesInM = 0;
++	pmicdata->M = 0;
++}
++
++void rtw_secmicsetkey(struct mic_data *pmicdata, u8 *key)
++{
++	/* Set the key */
++	pmicdata->K0 = secmicgetuint32(key);
++	pmicdata->K1 = secmicgetuint32(key + 4);
++	/* and reset the message */
++	secmicclear(pmicdata);
++}
++
++void rtw_secmicappendbyte(struct mic_data *pmicdata, u8 b)
++{
++	/* Append the byte to our word-sized buffer */
++	pmicdata->M |= ((unsigned long)b) << (8 * pmicdata->nBytesInM);
++	pmicdata->nBytesInM++;
++	/* Process the word if it is full. */
++	if (pmicdata->nBytesInM >= 4) {
++		pmicdata->L ^= pmicdata->M;
++		pmicdata->R ^= ROL32(pmicdata->L, 17);
++		pmicdata->L += pmicdata->R;
++		pmicdata->R ^= ((pmicdata->L & 0xff00ff00) >> 8) | ((pmicdata->L & 0x00ff00ff) << 8);
++		pmicdata->L += pmicdata->R;
++		pmicdata->R ^= ROL32(pmicdata->L, 3);
++		pmicdata->L += pmicdata->R;
++		pmicdata->R ^= ROR32(pmicdata->L, 2);
++		pmicdata->L += pmicdata->R;
++		/* Clear the buffer */
++		pmicdata->M = 0;
++		pmicdata->nBytesInM = 0;
++	}
++}
++
++void rtw_secmicappend(struct mic_data *pmicdata, u8 *src, u32 nbytes)
++{
++	/* This is simple */
++	while (nbytes > 0) {
++		rtw_secmicappendbyte(pmicdata, *src++);
++		nbytes--;
++	}
++}
++
++void rtw_secgetmic(struct mic_data *pmicdata, u8 *dst)
++{
++	/* Append the minimum padding */
++	rtw_secmicappendbyte(pmicdata, 0x5a);
++	rtw_secmicappendbyte(pmicdata, 0);
++	rtw_secmicappendbyte(pmicdata, 0);
++	rtw_secmicappendbyte(pmicdata, 0);
++	rtw_secmicappendbyte(pmicdata, 0);
++	/* and then zeroes until the length is a multiple of 4 */
++	while (pmicdata->nBytesInM != 0)
++		rtw_secmicappendbyte(pmicdata, 0);
++	/* The appendByte function has already computed the result. */
++	secmicputuint32(dst, pmicdata->L);
++	secmicputuint32(dst + 4, pmicdata->R);
++	/* Reset to the empty message. */
++	secmicclear(pmicdata);
++}
++
++
++void rtw_seccalctkipmic(u8 *key, u8 *header, u8 *data, u32 data_len, u8 *mic_code, u8 pri)
++{
++
++	struct mic_data	micdata;
++	u8 priority[4] = {0x0, 0x0, 0x0, 0x0};
++	rtw_secmicsetkey(&micdata, key);
++	priority[0] = pri;
++
++	/* Michael MIC pseudo header: DA, SA, 3 x 0, Priority */
++	if (header[1] & 1) { /* ToDS==1 */
++		rtw_secmicappend(&micdata, &header[16], 6);  /* DA */
++		if (header[1] & 2) /* From Ds==1 */
++			rtw_secmicappend(&micdata, &header[24], 6);
++		else
++			rtw_secmicappend(&micdata, &header[10], 6);
++	} else {	/* ToDS==0 */
++		rtw_secmicappend(&micdata, &header[4], 6);   /* DA */
++		if (header[1] & 2) /* From Ds==1 */
++			rtw_secmicappend(&micdata, &header[16], 6);
++		else
++			rtw_secmicappend(&micdata, &header[10], 6);
++
++	}
++	rtw_secmicappend(&micdata, &priority[0], 4);
++
++
++	rtw_secmicappend(&micdata, data, data_len);
++
++	rtw_secgetmic(&micdata, mic_code);
++}
++
++
++
++
++/* macros for extraction/creation of unsigned char/unsigned short values */
++#define RotR1(v16)   ((((v16) >> 1) & 0x7FFF) ^ (((v16) & 1) << 15))
++#define   Lo8(v16)   ((u8)((v16)       & 0x00FF))
++#define   Hi8(v16)   ((u8)(((v16) >> 8) & 0x00FF))
++#define  Lo16(v32)   ((u16)((v32)       & 0xFFFF))
++#define  Hi16(v32)   ((u16)(((v32) >> 16) & 0xFFFF))
++#define  Mk16(hi, lo) ((lo) ^ (((u16)(hi)) << 8))
++
++/* select the Nth 16-bit word of the temporal key unsigned char array TK[]  */
++#define  TK16(N)     Mk16(tk[2*(N)+1], tk[2*(N)])
++
++/* S-box lookup: 16 bits --> 16 bits */
++#define _S_(v16)     (Sbox1[0][Lo8(v16)] ^ Sbox1[1][Hi8(v16)])
++
++/* fixed algorithm "parameters" */
++#define PHASE1_LOOP_CNT   8    /* this needs to be "big enough"     */
++#define TA_SIZE           6    /*  48-bit transmitter address      */
++#define TK_SIZE          16    /* 128-bit temporal key             */
++#define P1K_SIZE         10    /*  80-bit Phase1 key               */
++#define RC4_KEY_SIZE     16    /* 128-bit RC4KEY (104 bits unknown) */
++
++
++/* 2-unsigned char by 2-unsigned char subset of the full AES S-box table */
++static const unsigned short Sbox1[2][256] =      /* Sbox for hash (can be in ROM)    */
++{ {
++		0xC6A5, 0xF884, 0xEE99, 0xF68D, 0xFF0D, 0xD6BD, 0xDEB1, 0x9154,
++		0x6050, 0x0203, 0xCEA9, 0x567D, 0xE719, 0xB562, 0x4DE6, 0xEC9A,
++		0x8F45, 0x1F9D, 0x8940, 0xFA87, 0xEF15, 0xB2EB, 0x8EC9, 0xFB0B,
++		0x41EC, 0xB367, 0x5FFD, 0x45EA, 0x23BF, 0x53F7, 0xE496, 0x9B5B,
++		0x75C2, 0xE11C, 0x3DAE, 0x4C6A, 0x6C5A, 0x7E41, 0xF502, 0x834F,
++		0x685C, 0x51F4, 0xD134, 0xF908, 0xE293, 0xAB73, 0x6253, 0x2A3F,
++		0x080C, 0x9552, 0x4665, 0x9D5E, 0x3028, 0x37A1, 0x0A0F, 0x2FB5,
++		0x0E09, 0x2436, 0x1B9B, 0xDF3D, 0xCD26, 0x4E69, 0x7FCD, 0xEA9F,
++		0x121B, 0x1D9E, 0x5874, 0x342E, 0x362D, 0xDCB2, 0xB4EE, 0x5BFB,
++		0xA4F6, 0x764D, 0xB761, 0x7DCE, 0x527B, 0xDD3E, 0x5E71, 0x1397,
++		0xA6F5, 0xB968, 0x0000, 0xC12C, 0x4060, 0xE31F, 0x79C8, 0xB6ED,
++		0xD4BE, 0x8D46, 0x67D9, 0x724B, 0x94DE, 0x98D4, 0xB0E8, 0x854A,
++		0xBB6B, 0xC52A, 0x4FE5, 0xED16, 0x86C5, 0x9AD7, 0x6655, 0x1194,
++		0x8ACF, 0xE910, 0x0406, 0xFE81, 0xA0F0, 0x7844, 0x25BA, 0x4BE3,
++		0xA2F3, 0x5DFE, 0x80C0, 0x058A, 0x3FAD, 0x21BC, 0x7048, 0xF104,
++		0x63DF, 0x77C1, 0xAF75, 0x4263, 0x2030, 0xE51A, 0xFD0E, 0xBF6D,
++		0x814C, 0x1814, 0x2635, 0xC32F, 0xBEE1, 0x35A2, 0x88CC, 0x2E39,
++		0x9357, 0x55F2, 0xFC82, 0x7A47, 0xC8AC, 0xBAE7, 0x322B, 0xE695,
++		0xC0A0, 0x1998, 0x9ED1, 0xA37F, 0x4466, 0x547E, 0x3BAB, 0x0B83,
++		0x8CCA, 0xC729, 0x6BD3, 0x283C, 0xA779, 0xBCE2, 0x161D, 0xAD76,
++		0xDB3B, 0x6456, 0x744E, 0x141E, 0x92DB, 0x0C0A, 0x486C, 0xB8E4,
++		0x9F5D, 0xBD6E, 0x43EF, 0xC4A6, 0x39A8, 0x31A4, 0xD337, 0xF28B,
++		0xD532, 0x8B43, 0x6E59, 0xDAB7, 0x018C, 0xB164, 0x9CD2, 0x49E0,
++		0xD8B4, 0xACFA, 0xF307, 0xCF25, 0xCAAF, 0xF48E, 0x47E9, 0x1018,
++		0x6FD5, 0xF088, 0x4A6F, 0x5C72, 0x3824, 0x57F1, 0x73C7, 0x9751,
++		0xCB23, 0xA17C, 0xE89C, 0x3E21, 0x96DD, 0x61DC, 0x0D86, 0x0F85,
++		0xE090, 0x7C42, 0x71C4, 0xCCAA, 0x90D8, 0x0605, 0xF701, 0x1C12,
++		0xC2A3, 0x6A5F, 0xAEF9, 0x69D0, 0x1791, 0x9958, 0x3A27, 0x27B9,
++		0xD938, 0xEB13, 0x2BB3, 0x2233, 0xD2BB, 0xA970, 0x0789, 0x33A7,
++		0x2DB6, 0x3C22, 0x1592, 0xC920, 0x8749, 0xAAFF, 0x5078, 0xA57A,
++		0x038F, 0x59F8, 0x0980, 0x1A17, 0x65DA, 0xD731, 0x84C6, 0xD0B8,
++		0x82C3, 0x29B0, 0x5A77, 0x1E11, 0x7BCB, 0xA8FC, 0x6DD6, 0x2C3A,
++	},
++
++
++	{  /* second half of table is unsigned char-reversed version of first! */
++		0xA5C6, 0x84F8, 0x99EE, 0x8DF6, 0x0DFF, 0xBDD6, 0xB1DE, 0x5491,
++		0x5060, 0x0302, 0xA9CE, 0x7D56, 0x19E7, 0x62B5, 0xE64D, 0x9AEC,
++		0x458F, 0x9D1F, 0x4089, 0x87FA, 0x15EF, 0xEBB2, 0xC98E, 0x0BFB,
++		0xEC41, 0x67B3, 0xFD5F, 0xEA45, 0xBF23, 0xF753, 0x96E4, 0x5B9B,
++		0xC275, 0x1CE1, 0xAE3D, 0x6A4C, 0x5A6C, 0x417E, 0x02F5, 0x4F83,
++		0x5C68, 0xF451, 0x34D1, 0x08F9, 0x93E2, 0x73AB, 0x5362, 0x3F2A,
++		0x0C08, 0x5295, 0x6546, 0x5E9D, 0x2830, 0xA137, 0x0F0A, 0xB52F,
++		0x090E, 0x3624, 0x9B1B, 0x3DDF, 0x26CD, 0x694E, 0xCD7F, 0x9FEA,
++		0x1B12, 0x9E1D, 0x7458, 0x2E34, 0x2D36, 0xB2DC, 0xEEB4, 0xFB5B,
++		0xF6A4, 0x4D76, 0x61B7, 0xCE7D, 0x7B52, 0x3EDD, 0x715E, 0x9713,
++		0xF5A6, 0x68B9, 0x0000, 0x2CC1, 0x6040, 0x1FE3, 0xC879, 0xEDB6,
++		0xBED4, 0x468D, 0xD967, 0x4B72, 0xDE94, 0xD498, 0xE8B0, 0x4A85,
++		0x6BBB, 0x2AC5, 0xE54F, 0x16ED, 0xC586, 0xD79A, 0x5566, 0x9411,
++		0xCF8A, 0x10E9, 0x0604, 0x81FE, 0xF0A0, 0x4478, 0xBA25, 0xE34B,
++		0xF3A2, 0xFE5D, 0xC080, 0x8A05, 0xAD3F, 0xBC21, 0x4870, 0x04F1,
++		0xDF63, 0xC177, 0x75AF, 0x6342, 0x3020, 0x1AE5, 0x0EFD, 0x6DBF,
++		0x4C81, 0x1418, 0x3526, 0x2FC3, 0xE1BE, 0xA235, 0xCC88, 0x392E,
++		0x5793, 0xF255, 0x82FC, 0x477A, 0xACC8, 0xE7BA, 0x2B32, 0x95E6,
++		0xA0C0, 0x9819, 0xD19E, 0x7FA3, 0x6644, 0x7E54, 0xAB3B, 0x830B,
++		0xCA8C, 0x29C7, 0xD36B, 0x3C28, 0x79A7, 0xE2BC, 0x1D16, 0x76AD,
++		0x3BDB, 0x5664, 0x4E74, 0x1E14, 0xDB92, 0x0A0C, 0x6C48, 0xE4B8,
++		0x5D9F, 0x6EBD, 0xEF43, 0xA6C4, 0xA839, 0xA431, 0x37D3, 0x8BF2,
++		0x32D5, 0x438B, 0x596E, 0xB7DA, 0x8C01, 0x64B1, 0xD29C, 0xE049,
++		0xB4D8, 0xFAAC, 0x07F3, 0x25CF, 0xAFCA, 0x8EF4, 0xE947, 0x1810,
++		0xD56F, 0x88F0, 0x6F4A, 0x725C, 0x2438, 0xF157, 0xC773, 0x5197,
++		0x23CB, 0x7CA1, 0x9CE8, 0x213E, 0xDD96, 0xDC61, 0x860D, 0x850F,
++		0x90E0, 0x427C, 0xC471, 0xAACC, 0xD890, 0x0506, 0x01F7, 0x121C,
++		0xA3C2, 0x5F6A, 0xF9AE, 0xD069, 0x9117, 0x5899, 0x273A, 0xB927,
++		0x38D9, 0x13EB, 0xB32B, 0x3322, 0xBBD2, 0x70A9, 0x8907, 0xA733,
++		0xB62D, 0x223C, 0x9215, 0x20C9, 0x4987, 0xFFAA, 0x7850, 0x7AA5,
++		0x8F03, 0xF859, 0x8009, 0x171A, 0xDA65, 0x31D7, 0xC684, 0xB8D0,
++		0xC382, 0xB029, 0x775A, 0x111E, 0xCB7B, 0xFCA8, 0xD66D, 0x3A2C,
++	}
++};
++
++/*
++**********************************************************************
++* Routine: Phase 1 -- generate P1K, given TA, TK, IV32
++*
++* Inputs:
++*     tk[]      = temporal key                         [128 bits]
++*     ta[]      = transmitter's MAC address            [ 48 bits]
++*     iv32      = upper 32 bits of IV                  [ 32 bits]
++* Output:
++*     p1k[]     = Phase 1 key                          [ 80 bits]
++*
++* Note:
++*     This function only needs to be called every 2**16 packets,
++*     although in theory it could be called every packet.
++*
++**********************************************************************
++*/
++static void phase1(u16 *p1k, const u8 *tk, const u8 *ta, u32 iv32)
++{
++	sint  i;
++	/* Initialize the 80 bits of P1K[] from IV32 and TA[0..5]    */
++	p1k[0]      = Lo16(iv32);
++	p1k[1]      = Hi16(iv32);
++	p1k[2]      = Mk16(ta[1], ta[0]); /* use TA[] as little-endian */
++	p1k[3]      = Mk16(ta[3], ta[2]);
++	p1k[4]      = Mk16(ta[5], ta[4]);
++
++	/* Now compute an unbalanced Feistel cipher with 80-bit block */
++	/* size on the 80-bit block P1K[], using the 128-bit key TK[] */
++	for (i = 0; i < PHASE1_LOOP_CNT ; i++) {
++		/* Each add operation here is mod 2**16 */
++		p1k[0] += _S_(p1k[4] ^ TK16((i & 1) + 0));
++		p1k[1] += _S_(p1k[0] ^ TK16((i & 1) + 2));
++		p1k[2] += _S_(p1k[1] ^ TK16((i & 1) + 4));
++		p1k[3] += _S_(p1k[2] ^ TK16((i & 1) + 6));
++		p1k[4] += _S_(p1k[3] ^ TK16((i & 1) + 0));
++		p1k[4] += (unsigned short)i;                     /* avoid "slide attacks" */
++	}
++}
++
++
++/*
++**********************************************************************
++* Routine: Phase 2 -- generate RC4KEY, given TK, P1K, IV16
++*
++* Inputs:
++*     tk[]      = Temporal key                         [128 bits]
++*     p1k[]     = Phase 1 output key                   [ 80 bits]
++*     iv16      = low 16 bits of IV counter            [ 16 bits]
++* Output:
++*     rc4key[]  = the key used to encrypt the packet   [128 bits]
++*
++* Note:
++*     The value {TA,IV32,IV16} for Phase1/Phase2 must be unique
++*     across all packets using the same key TK value. Then, for a
++*     given value of TK[], this TKIP48 construction guarantees that
++*     the final RC4KEY value is unique across all packets.
++*
++* Suggested implementation optimization: if PPK[] is "overlaid"
++*     appropriately on RC4KEY[], there is no need for the final
++*     for loop below that copies the PPK[] result into RC4KEY[].
++*
++**********************************************************************
++*/
++static void phase2(u8 *rc4key, const u8 *tk, const u16 *p1k, u16 iv16)
++{
++	sint  i;
++	u16 PPK[6];                          /* temporary key for mixing   */
++	/* Note: all adds in the PPK[] equations below are mod 2**16        */
++	for (i = 0; i < 5; i++)
++		PPK[i] = p1k[i];    /* first, copy P1K to PPK     */
++	PPK[5]  =  p1k[4] + iv16;            /* next,  add in IV16         */
++
++	/* Bijective non-linear mixing of the 96 bits of PPK[0..5]          */
++	PPK[0] +=    _S_(PPK[5] ^ TK16(0));   /* Mix key in each "round"     */
++	PPK[1] +=    _S_(PPK[0] ^ TK16(1));
++	PPK[2] +=    _S_(PPK[1] ^ TK16(2));
++	PPK[3] +=    _S_(PPK[2] ^ TK16(3));
++	PPK[4] +=    _S_(PPK[3] ^ TK16(4));
++	PPK[5] +=    _S_(PPK[4] ^ TK16(5));   /* Total # S-box lookups == 6 */
++
++	/* Final sweep: bijective, "linear". Rotates kill LSB correlations   */
++	PPK[0] +=  RotR1(PPK[5] ^ TK16(6));
++	PPK[1] +=  RotR1(PPK[0] ^ TK16(7));   /* Use all of TK[] in Phase2  */
++	PPK[2] +=  RotR1(PPK[1]);
++	PPK[3] +=  RotR1(PPK[2]);
++	PPK[4] +=  RotR1(PPK[3]);
++	PPK[5] +=  RotR1(PPK[4]);
++	/* Note: At this point, for a given key TK[0..15], the 96-bit output */
++	/*       value PPK[0..5] is guaranteed to be unique, as a function  */
++	/*       of the 96-bit "input" value   {TA,IV32,IV16}. That is, P1K  */
++	/*       is now a keyed permutation of {TA,IV32,IV16}.              */
++
++	/* Set RC4KEY[0..3], which includes "cleartext" portion of RC4 key   */
++	rc4key[0] = Hi8(iv16);                /* RC4KEY[0..2] is the WEP IV */
++	rc4key[1] = (Hi8(iv16) | 0x20) & 0x7F; /* Help avoid weak (FMS) keys */
++	rc4key[2] = Lo8(iv16);
++	rc4key[3] = Lo8((PPK[5] ^ TK16(0)) >> 1);
++
++
++	/* Copy 96 bits of PPK[0..5] to RC4KEY[4..15]  (little-endian)      */
++	for (i = 0; i < 6; i++) {
++		rc4key[4 + 2 * i] = Lo8(PPK[i]);
++		rc4key[5 + 2 * i] = Hi8(PPK[i]);
++	}
++}
++
++
++/* The hlen isn't include the IV */
++u32	rtw_tkip_encrypt(_adapter *padapter, u8 *pxmitframe)
++{
++	/* exclude ICV */
++	u16	pnl;
++	u32	pnh;
++	u8	rc4key[16];
++	u8   ttkey[16];
++	u8	crc[4];
++	u8   hw_hdr_offset = 0;
++	struct arc4context mycontext;
++	sint			curfragnum, length;
++	u32	prwskeylen;
++
++	u8	*pframe, *payload, *iv, *prwskey;
++	union pn48 dot11txpn;
++	/* struct	sta_info		*stainfo; */
++	struct	pkt_attrib	*pattrib = &((struct xmit_frame *)pxmitframe)->attrib;
++	struct	security_priv	*psecuritypriv = &padapter->securitypriv;
++	struct	xmit_priv		*pxmitpriv = &padapter->xmitpriv;
++	u32	res = _SUCCESS;
++
++	if (((struct xmit_frame *)pxmitframe)->buf_addr == NULL)
++		return _FAIL;
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	hw_hdr_offset = TXDESC_SIZE +
++		(((struct xmit_frame *)pxmitframe)->pkt_offset * PACKET_OFFSET_SZ);
++#else
++#ifdef CONFIG_TX_EARLY_MODE
++	hw_hdr_offset = TXDESC_OFFSET + EARLY_MODE_INFO_SIZE;
++#else
++	hw_hdr_offset = TXDESC_OFFSET;
++#endif
++#endif
++
++	pframe = ((struct xmit_frame *)pxmitframe)->buf_addr + hw_hdr_offset;
++	/* 4 start to encrypt each fragment */
++	if (pattrib->encrypt == _TKIP_) {
++
++		/*
++				if(pattrib->psta)
++				{
++					stainfo = pattrib->psta;
++				}
++				else
++				{
++					RTW_INFO("%s, call rtw_get_stainfo()\n", __func__);
++					stainfo=rtw_get_stainfo(&padapter->stapriv ,&pattrib->ra[0] );
++				}
++		*/
++		/* if (stainfo!=NULL) */
++		{
++			/*
++						if(!(stainfo->state &_FW_LINKED))
++						{
++							RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, stainfo->state);
++							return _FAIL;
++						}
++			*/
++
++			if (IS_MCAST(pattrib->ra))
++				prwskey = psecuritypriv->dot118021XGrpKey[psecuritypriv->dot118021XGrpKeyid].skey;
++			else {
++				/* prwskey=&stainfo->dot118021x_UncstKey.skey[0]; */
++				prwskey = pattrib->dot118021x_UncstKey.skey;
++			}
++
++			prwskeylen = 16;
++
++			for (curfragnum = 0; curfragnum < pattrib->nr_frags; curfragnum++) {
++				iv = pframe + pattrib->hdrlen;
++				payload = pframe + pattrib->iv_len + pattrib->hdrlen;
++
++				GET_TKIP_PN(iv, dot11txpn);
++
++				pnl = (u16)(dot11txpn.val);
++				pnh = (u32)(dot11txpn.val >> 16);
++
++				phase1((u16 *)&ttkey[0], prwskey, &pattrib->ta[0], pnh);
++
++				phase2(&rc4key[0], prwskey, (u16 *)&ttkey[0], pnl);
++
++				if ((curfragnum + 1) == pattrib->nr_frags) {	/* 4 the last fragment */
++					length = pattrib->last_txcmdsz - pattrib->hdrlen - pattrib->iv_len - pattrib->icv_len;
++					*((u32 *)crc) = cpu_to_le32(getcrc32(payload, length)); /* modified by Amy*/
++
++					arcfour_init(&mycontext, rc4key, 16);
++					arcfour_encrypt(&mycontext, payload, payload, length);
++					arcfour_encrypt(&mycontext, payload + length, crc, 4);
++
++				} else {
++					length = pxmitpriv->frag_len - pattrib->hdrlen - pattrib->iv_len - pattrib->icv_len ;
++					*((u32 *)crc) = cpu_to_le32(getcrc32(payload, length)); /* modified by Amy*/
++					arcfour_init(&mycontext, rc4key, 16);
++					arcfour_encrypt(&mycontext, payload, payload, length);
++					arcfour_encrypt(&mycontext, payload + length, crc, 4);
++
++					pframe += pxmitpriv->frag_len;
++					pframe = (u8 *)RND4((SIZE_PTR)(pframe));
++
++				}
++			}
++
++			TKIP_SW_ENC_CNT_INC(psecuritypriv, pattrib->ra);
++		}
++		/*
++				else{
++					RTW_INFO("%s, psta==NUL\n", __func__);
++					res=_FAIL;
++				}
++		*/
++
++	}
++	return res;
++
++}
++
++
++/* The hlen isn't include the IV */
++u32 rtw_tkip_decrypt(_adapter *padapter, u8 *precvframe)
++{
++	/* exclude ICV */
++	u16 pnl;
++	u32 pnh;
++	u8   rc4key[16];
++	u8   ttkey[16];
++	u8	crc[4];
++	struct arc4context mycontext;
++	sint			length;
++	u32	prwskeylen;
++
++	u8	*pframe, *payload, *iv, *prwskey;
++	union pn48 dot11txpn;
++	struct	sta_info		*stainfo;
++	struct	rx_pkt_attrib	*prxattrib = &((union recv_frame *)precvframe)->u.hdr.attrib;
++	struct	security_priv	*psecuritypriv = &padapter->securitypriv;
++	/*	struct	recv_priv		*precvpriv=&padapter->recvpriv; */
++	u32		res = _SUCCESS;
++
++
++	pframe = (unsigned char *)((union recv_frame *)precvframe)->u.hdr.rx_data;
++
++	/* 4 start to decrypt recvframe */
++	if (prxattrib->encrypt == _TKIP_) {
++
++		stainfo = rtw_get_stainfo(&padapter->stapriv , &prxattrib->ta[0]);
++		if (stainfo != NULL) {
++
++			if (IS_MCAST(prxattrib->ra)) {
++				static u32 start = 0;
++				static u32 no_gkey_bc_cnt = 0;
++				static u32 no_gkey_mc_cnt = 0;
++
++				if (psecuritypriv->binstallGrpkey == _FALSE) {
++					res = _FAIL;
++
++					if (start == 0)
++						start = rtw_get_current_time();
++
++					if (is_broadcast_mac_addr(prxattrib->ra))
++						no_gkey_bc_cnt++;
++					else
++						no_gkey_mc_cnt++;
++
++					if (rtw_get_passing_time_ms(start) > 1000) {
++						if (no_gkey_bc_cnt || no_gkey_mc_cnt) {
++							RTW_PRINT(FUNC_ADPT_FMT" no_gkey_bc_cnt:%u, no_gkey_mc_cnt:%u\n",
++								FUNC_ADPT_ARG(padapter), no_gkey_bc_cnt, no_gkey_mc_cnt);
++						}
++						start = rtw_get_current_time();
++						no_gkey_bc_cnt = 0;
++						no_gkey_mc_cnt = 0;
++					}
++					goto exit;
++				}
++
++				if (no_gkey_bc_cnt || no_gkey_mc_cnt) {
++					RTW_PRINT(FUNC_ADPT_FMT" gkey installed. no_gkey_bc_cnt:%u, no_gkey_mc_cnt:%u\n",
++						FUNC_ADPT_ARG(padapter), no_gkey_bc_cnt, no_gkey_mc_cnt);
++				}
++				start = 0;
++				no_gkey_bc_cnt = 0;
++				no_gkey_mc_cnt = 0;
++
++				/* RTW_INFO("rx bc/mc packets, to perform sw rtw_tkip_decrypt\n"); */
++				/* prwskey = psecuritypriv->dot118021XGrpKey[psecuritypriv->dot118021XGrpKeyid].skey; */
++				prwskey = psecuritypriv->dot118021XGrpKey[prxattrib->key_index].skey;
++				prwskeylen = 16;
++			} else {
++				prwskey = &stainfo->dot118021x_UncstKey.skey[0];
++				prwskeylen = 16;
++			}
++
++			iv = pframe + prxattrib->hdrlen;
++			payload = pframe + prxattrib->iv_len + prxattrib->hdrlen;
++			length = ((union recv_frame *)precvframe)->u.hdr.len - prxattrib->hdrlen - prxattrib->iv_len;
++
++			GET_TKIP_PN(iv, dot11txpn);
++
++			pnl = (u16)(dot11txpn.val);
++			pnh = (u32)(dot11txpn.val >> 16);
++
++			phase1((u16 *)&ttkey[0], prwskey, &prxattrib->ta[0], pnh);
++			phase2(&rc4key[0], prwskey, (unsigned short *)&ttkey[0], pnl);
++
++			/* 4 decrypt payload include icv */
++
++			arcfour_init(&mycontext, rc4key, 16);
++			arcfour_encrypt(&mycontext, payload, payload, length);
++
++			*((u32 *)crc) = le32_to_cpu(getcrc32(payload, length - 4));
++
++			if (crc[3] != payload[length - 1] || crc[2] != payload[length - 2] || crc[1] != payload[length - 3] || crc[0] != payload[length - 4]) {
++				res = _FAIL;
++			}
++
++			TKIP_SW_DEC_CNT_INC(psecuritypriv, prxattrib->ra);
++		} else {
++			res = _FAIL;
++		}
++
++	}
++exit:
++	return res;
++
++}
++
++
++/* 3			=====AES related===== */
++
++
++
++#define MAX_MSG_SIZE	2048
++/*****************************/
++/******** SBOX Table *********/
++/*****************************/
++
++static  u8 sbox_table[256] = {
++	0x63, 0x7c, 0x77, 0x7b, 0xf2, 0x6b, 0x6f, 0xc5,
++	0x30, 0x01, 0x67, 0x2b, 0xfe, 0xd7, 0xab, 0x76,
++	0xca, 0x82, 0xc9, 0x7d, 0xfa, 0x59, 0x47, 0xf0,
++	0xad, 0xd4, 0xa2, 0xaf, 0x9c, 0xa4, 0x72, 0xc0,
++	0xb7, 0xfd, 0x93, 0x26, 0x36, 0x3f, 0xf7, 0xcc,
++	0x34, 0xa5, 0xe5, 0xf1, 0x71, 0xd8, 0x31, 0x15,
++	0x04, 0xc7, 0x23, 0xc3, 0x18, 0x96, 0x05, 0x9a,
++	0x07, 0x12, 0x80, 0xe2, 0xeb, 0x27, 0xb2, 0x75,
++	0x09, 0x83, 0x2c, 0x1a, 0x1b, 0x6e, 0x5a, 0xa0,
++	0x52, 0x3b, 0xd6, 0xb3, 0x29, 0xe3, 0x2f, 0x84,
++	0x53, 0xd1, 0x00, 0xed, 0x20, 0xfc, 0xb1, 0x5b,
++	0x6a, 0xcb, 0xbe, 0x39, 0x4a, 0x4c, 0x58, 0xcf,
++	0xd0, 0xef, 0xaa, 0xfb, 0x43, 0x4d, 0x33, 0x85,
++	0x45, 0xf9, 0x02, 0x7f, 0x50, 0x3c, 0x9f, 0xa8,
++	0x51, 0xa3, 0x40, 0x8f, 0x92, 0x9d, 0x38, 0xf5,
++	0xbc, 0xb6, 0xda, 0x21, 0x10, 0xff, 0xf3, 0xd2,
++	0xcd, 0x0c, 0x13, 0xec, 0x5f, 0x97, 0x44, 0x17,
++	0xc4, 0xa7, 0x7e, 0x3d, 0x64, 0x5d, 0x19, 0x73,
++	0x60, 0x81, 0x4f, 0xdc, 0x22, 0x2a, 0x90, 0x88,
++	0x46, 0xee, 0xb8, 0x14, 0xde, 0x5e, 0x0b, 0xdb,
++	0xe0, 0x32, 0x3a, 0x0a, 0x49, 0x06, 0x24, 0x5c,
++	0xc2, 0xd3, 0xac, 0x62, 0x91, 0x95, 0xe4, 0x79,
++	0xe7, 0xc8, 0x37, 0x6d, 0x8d, 0xd5, 0x4e, 0xa9,
++	0x6c, 0x56, 0xf4, 0xea, 0x65, 0x7a, 0xae, 0x08,
++	0xba, 0x78, 0x25, 0x2e, 0x1c, 0xa6, 0xb4, 0xc6,
++	0xe8, 0xdd, 0x74, 0x1f, 0x4b, 0xbd, 0x8b, 0x8a,
++	0x70, 0x3e, 0xb5, 0x66, 0x48, 0x03, 0xf6, 0x0e,
++	0x61, 0x35, 0x57, 0xb9, 0x86, 0xc1, 0x1d, 0x9e,
++	0xe1, 0xf8, 0x98, 0x11, 0x69, 0xd9, 0x8e, 0x94,
++	0x9b, 0x1e, 0x87, 0xe9, 0xce, 0x55, 0x28, 0xdf,
++	0x8c, 0xa1, 0x89, 0x0d, 0xbf, 0xe6, 0x42, 0x68,
++	0x41, 0x99, 0x2d, 0x0f, 0xb0, 0x54, 0xbb, 0x16
++};
++
++/*****************************/
++/**** Function Prototypes ****/
++/*****************************/
++
++static void bitwise_xor(u8 *ina, u8 *inb, u8 *out);
++static void construct_mic_iv(
++	u8 *mic_header1,
++	sint qc_exists,
++	sint a4_exists,
++	u8 *mpdu,
++	uint payload_length,
++	u8 *pn_vector,
++	uint frtype);/* add for CONFIG_IEEE80211W, none 11w also can use */
++static void construct_mic_header1(
++	u8 *mic_header1,
++	sint header_length,
++	u8 *mpdu,
++	uint frtype);/* add for CONFIG_IEEE80211W, none 11w also can use */
++static void construct_mic_header2(
++	u8 *mic_header2,
++	u8 *mpdu,
++	sint a4_exists,
++	sint qc_exists);
++static void construct_ctr_preload(
++	u8 *ctr_preload,
++	sint a4_exists,
++	sint qc_exists,
++	u8 *mpdu,
++	u8 *pn_vector,
++	sint c,
++	uint frtype);/* add for CONFIG_IEEE80211W, none 11w also can use */
++static void xor_128(u8 *a, u8 *b, u8 *out);
++static void xor_32(u8 *a, u8 *b, u8 *out);
++static u8 sbox(u8 a);
++static void next_key(u8 *key, sint round);
++static void byte_sub(u8 *in, u8 *out);
++static void shift_row(u8 *in, u8 *out);
++static void mix_column(u8 *in, u8 *out);
++#ifndef PLATFORM_FREEBSD
++static void add_round_key(u8 *shiftrow_in,
++			  u8 *mcol_in,
++			  u8 *block_in,
++			  sint round,
++			  u8 *out);
++#endif /* PLATFORM_FREEBSD */
++static void aes128k128d(u8 *key, u8 *data, u8 *ciphertext);
++
++
++/****************************************/
++/* aes128k128d()                       */
++/* Performs a 128 bit AES encrypt with */
++/* 128 bit data.                       */
++/****************************************/
++static void xor_128(u8 *a, u8 *b, u8 *out)
++{
++	sint i;
++	for (i = 0; i < 16; i++)
++		out[i] = a[i] ^ b[i];
++}
++
++
++static void xor_32(u8 *a, u8 *b, u8 *out)
++{
++	sint i;
++	for (i = 0; i < 4; i++)
++		out[i] = a[i] ^ b[i];
++}
++
++
++static u8 sbox(u8 a)
++{
++	return sbox_table[(sint)a];
++}
++
++
++static void next_key(u8 *key, sint round)
++{
++	u8 rcon;
++	u8 sbox_key[4];
++	u8 rcon_table[12] = {
++		0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80,
++		0x1b, 0x36, 0x36, 0x36
++	};
++	sbox_key[0] = sbox(key[13]);
++	sbox_key[1] = sbox(key[14]);
++	sbox_key[2] = sbox(key[15]);
++	sbox_key[3] = sbox(key[12]);
++
++	rcon = rcon_table[round];
++
++	xor_32(&key[0], sbox_key, &key[0]);
++	key[0] = key[0] ^ rcon;
++
++	xor_32(&key[4], &key[0], &key[4]);
++	xor_32(&key[8], &key[4], &key[8]);
++	xor_32(&key[12], &key[8], &key[12]);
++}
++
++
++static void byte_sub(u8 *in, u8 *out)
++{
++	sint i;
++	for (i = 0; i < 16; i++)
++		out[i] = sbox(in[i]);
++}
++
++
++static void shift_row(u8 *in, u8 *out)
++{
++	out[0] =  in[0];
++	out[1] =  in[5];
++	out[2] =  in[10];
++	out[3] =  in[15];
++	out[4] =  in[4];
++	out[5] =  in[9];
++	out[6] =  in[14];
++	out[7] =  in[3];
++	out[8] =  in[8];
++	out[9] =  in[13];
++	out[10] = in[2];
++	out[11] = in[7];
++	out[12] = in[12];
++	out[13] = in[1];
++	out[14] = in[6];
++	out[15] = in[11];
++}
++
++
++static void mix_column(u8 *in, u8 *out)
++{
++	sint i;
++	u8 add1b[4];
++	u8 add1bf7[4];
++	u8 rotl[4];
++	u8 swap_halfs[4];
++	u8 andf7[4];
++	u8 rotr[4];
++	u8 temp[4];
++	u8 tempb[4];
++	for (i = 0 ; i < 4; i++) {
++		if ((in[i] & 0x80) == 0x80)
++			add1b[i] = 0x1b;
++		else
++			add1b[i] = 0x00;
++	}
++
++	swap_halfs[0] = in[2];    /* Swap halfs */
++	swap_halfs[1] = in[3];
++	swap_halfs[2] = in[0];
++	swap_halfs[3] = in[1];
++
++	rotl[0] = in[3];        /* Rotate left 8 bits */
++	rotl[1] = in[0];
++	rotl[2] = in[1];
++	rotl[3] = in[2];
++
++	andf7[0] = in[0] & 0x7f;
++	andf7[1] = in[1] & 0x7f;
++	andf7[2] = in[2] & 0x7f;
++	andf7[3] = in[3] & 0x7f;
++
++	for (i = 3; i > 0; i--) { /* logical shift left 1 bit */
++		andf7[i] = andf7[i] << 1;
++		if ((andf7[i - 1] & 0x80) == 0x80)
++			andf7[i] = (andf7[i] | 0x01);
++	}
++	andf7[0] = andf7[0] << 1;
++	andf7[0] = andf7[0] & 0xfe;
++
++	xor_32(add1b, andf7, add1bf7);
++
++	xor_32(in, add1bf7, rotr);
++
++	temp[0] = rotr[0];         /* Rotate right 8 bits */
++	rotr[0] = rotr[1];
++	rotr[1] = rotr[2];
++	rotr[2] = rotr[3];
++	rotr[3] = temp[0];
++
++	xor_32(add1bf7, rotr, temp);
++	xor_32(swap_halfs, rotl, tempb);
++	xor_32(temp, tempb, out);
++}
++
++
++static void aes128k128d(u8 *key, u8 *data, u8 *ciphertext)
++{
++	sint round;
++	sint i;
++	u8 intermediatea[16];
++	u8 intermediateb[16];
++	u8 round_key[16];
++	for (i = 0; i < 16; i++)
++		round_key[i] = key[i];
++
++	for (round = 0; round < 11; round++) {
++		if (round == 0) {
++			xor_128(round_key, data, ciphertext);
++			next_key(round_key, round);
++		} else if (round == 10) {
++			byte_sub(ciphertext, intermediatea);
++			shift_row(intermediatea, intermediateb);
++			xor_128(intermediateb, round_key, ciphertext);
++		} else { /* 1 - 9 */
++			byte_sub(ciphertext, intermediatea);
++			shift_row(intermediatea, intermediateb);
++			mix_column(&intermediateb[0], &intermediatea[0]);
++			mix_column(&intermediateb[4], &intermediatea[4]);
++			mix_column(&intermediateb[8], &intermediatea[8]);
++			mix_column(&intermediateb[12], &intermediatea[12]);
++			xor_128(intermediatea, round_key, ciphertext);
++			next_key(round_key, round);
++		}
++	}
++}
++
++
++/************************************************/
++/* construct_mic_iv()                          */
++/* Builds the MIC IV from header fields and PN */
++/* Baron think the function is construct CCM   */
++/* nonce                                       */
++/************************************************/
++static void construct_mic_iv(
++	u8 *mic_iv,
++	sint qc_exists,
++	sint a4_exists,
++	u8 *mpdu,
++	uint payload_length,
++	u8 *pn_vector,
++	uint frtype/* add for CONFIG_IEEE80211W, none 11w also can use */
++)
++{
++	sint i;
++	mic_iv[0] = 0x59;
++	if (qc_exists && a4_exists)
++		mic_iv[1] = mpdu[30] & 0x0f;    /* QoS_TC          */
++	if (qc_exists && !a4_exists)
++		mic_iv[1] = mpdu[24] & 0x0f;   /* mute bits 7-4   */
++	if (!qc_exists)
++		mic_iv[1] = 0x00;
++#ifdef CONFIG_IEEE80211W
++	/* 802.11w management frame should set management bit(4) */
++	if (frtype == WIFI_MGT_TYPE)
++		mic_iv[1] |= BIT(4);
++#endif /* CONFIG_IEEE80211W */
++	for (i = 2; i < 8; i++)
++		mic_iv[i] = mpdu[i + 8];                    /* mic_iv[2:7] = A2[0:5] = mpdu[10:15] */
++#ifdef CONSISTENT_PN_ORDER
++	for (i = 8; i < 14; i++)
++		mic_iv[i] = pn_vector[i - 8];           /* mic_iv[8:13] = PN[0:5] */
++#else
++	for (i = 8; i < 14; i++)
++		mic_iv[i] = pn_vector[13 - i];          /* mic_iv[8:13] = PN[5:0] */
++#endif
++	mic_iv[14] = (unsigned char)(payload_length / 256);
++	mic_iv[15] = (unsigned char)(payload_length % 256);
++}
++
++
++/************************************************/
++/* construct_mic_header1()                     */
++/* Builds the first MIC header block from      */
++/* header fields.                              */
++/* Build AAD SC,A1,A2                          */
++/************************************************/
++static void construct_mic_header1(
++	u8 *mic_header1,
++	sint header_length,
++	u8 *mpdu,
++	uint frtype/* add for CONFIG_IEEE80211W, none 11w also can use */
++)
++{
++	mic_header1[0] = (u8)((header_length - 2) / 256);
++	mic_header1[1] = (u8)((header_length - 2) % 256);
++#ifdef CONFIG_IEEE80211W
++	/* 802.11w management frame don't AND subtype bits 4,5,6 of frame control field */
++	if (frtype == WIFI_MGT_TYPE)
++		mic_header1[2] = mpdu[0];
++	else
++#endif /* CONFIG_IEEE80211W */
++		mic_header1[2] = mpdu[0] & 0xcf;    /* Mute CF poll & CF ack bits */
++
++	mic_header1[3] = mpdu[1] & 0xc7;    /* Mute retry, more data and pwr mgt bits */
++	mic_header1[4] = mpdu[4];       /* A1 */
++	mic_header1[5] = mpdu[5];
++	mic_header1[6] = mpdu[6];
++	mic_header1[7] = mpdu[7];
++	mic_header1[8] = mpdu[8];
++	mic_header1[9] = mpdu[9];
++	mic_header1[10] = mpdu[10];     /* A2 */
++	mic_header1[11] = mpdu[11];
++	mic_header1[12] = mpdu[12];
++	mic_header1[13] = mpdu[13];
++	mic_header1[14] = mpdu[14];
++	mic_header1[15] = mpdu[15];
++}
++
++
++/************************************************/
++/* construct_mic_header2()                     */
++/* Builds the last MIC header block from       */
++/* header fields.                              */
++/************************************************/
++static void construct_mic_header2(
++	u8 *mic_header2,
++	u8 *mpdu,
++	sint a4_exists,
++	sint qc_exists
++)
++{
++	sint i;
++	for (i = 0; i < 16; i++)
++		mic_header2[i] = 0x00;
++
++	mic_header2[0] = mpdu[16];    /* A3 */
++	mic_header2[1] = mpdu[17];
++	mic_header2[2] = mpdu[18];
++	mic_header2[3] = mpdu[19];
++	mic_header2[4] = mpdu[20];
++	mic_header2[5] = mpdu[21];
++
++	/* mic_header2[6] = mpdu[22] & 0xf0;    SC */
++	mic_header2[6] = 0x00;
++	mic_header2[7] = 0x00; /* mpdu[23]; */
++
++
++	if (!qc_exists && a4_exists) {
++		for (i = 0; i < 6; i++)
++			mic_header2[8 + i] = mpdu[24 + i]; /* A4 */
++
++	}
++
++	if (qc_exists && !a4_exists) {
++		mic_header2[8] = mpdu[24] & 0x0f; /* mute bits 15 - 4 */
++		mic_header2[9] = mpdu[25] & 0x00;
++	}
++
++	if (qc_exists && a4_exists) {
++		for (i = 0; i < 6; i++)
++			mic_header2[8 + i] = mpdu[24 + i]; /* A4 */
++
++		mic_header2[14] = mpdu[30] & 0x0f;
++		mic_header2[15] = mpdu[31] & 0x00;
++	}
++
++}
++
++
++/************************************************/
++/* construct_mic_header2()                     */
++/* Builds the last MIC header block from       */
++/* header fields.                              */
++/* Baron think the function is construct CCM   */
++/* nonce                                       */
++/************************************************/
++static void construct_ctr_preload(
++	u8 *ctr_preload,
++	sint a4_exists,
++	sint qc_exists,
++	u8 *mpdu,
++	u8 *pn_vector,
++	sint c,
++	uint frtype /* add for CONFIG_IEEE80211W, none 11w also can use */
++)
++{
++	sint i = 0;
++	for (i = 0; i < 16; i++)
++		ctr_preload[i] = 0x00;
++	i = 0;
++
++	ctr_preload[0] = 0x01;                                  /* flag */
++	if (qc_exists && a4_exists)
++		ctr_preload[1] = mpdu[30] & 0x0f;   /* QoC_Control */
++	if (qc_exists && !a4_exists)
++		ctr_preload[1] = mpdu[24] & 0x0f;
++#ifdef CONFIG_IEEE80211W
++	/* 802.11w management frame should set management bit(4) */
++	if (frtype == WIFI_MGT_TYPE)
++		ctr_preload[1] |= BIT(4);
++#endif /* CONFIG_IEEE80211W */
++	for (i = 2; i < 8; i++)
++		ctr_preload[i] = mpdu[i + 8];                       /* ctr_preload[2:7] = A2[0:5] = mpdu[10:15] */
++#ifdef CONSISTENT_PN_ORDER
++	for (i = 8; i < 14; i++)
++		ctr_preload[i] =    pn_vector[i - 8];           /* ctr_preload[8:13] = PN[0:5] */
++#else
++	for (i = 8; i < 14; i++)
++		ctr_preload[i] =    pn_vector[13 - i];          /* ctr_preload[8:13] = PN[5:0] */
++#endif
++	ctr_preload[14] = (unsigned char)(c / 256);   /* Ctr */
++	ctr_preload[15] = (unsigned char)(c % 256);
++}
++
++
++/************************************/
++/* bitwise_xor()                   */
++/* A 128 bit, bitwise exclusive or */
++/************************************/
++static void bitwise_xor(u8 *ina, u8 *inb, u8 *out)
++{
++	sint i;
++	for (i = 0; i < 16; i++)
++		out[i] = ina[i] ^ inb[i];
++}
++
++
++static sint aes_cipher(u8 *key, uint	hdrlen,
++		       u8 *pframe, uint plen)
++{
++	/*	static unsigned char	message[MAX_MSG_SIZE]; */
++	uint	qc_exists, a4_exists, i, j, payload_remainder,
++		num_blocks, payload_index;
++
++	u8 pn_vector[6];
++	u8 mic_iv[16];
++	u8 mic_header1[16];
++	u8 mic_header2[16];
++	u8 ctr_preload[16];
++
++	/* Intermediate Buffers */
++	u8 chain_buffer[16];
++	u8 aes_out[16];
++	u8 padded_buffer[16];
++	u8 mic[8];
++	/*	uint	offset = 0; */
++	uint	frtype  = GetFrameType(pframe);
++	uint	frsubtype  = GetFrameSubType(pframe);
++
++	frsubtype = frsubtype >> 4;
++
++
++	_rtw_memset((void *)mic_iv, 0, 16);
++	_rtw_memset((void *)mic_header1, 0, 16);
++	_rtw_memset((void *)mic_header2, 0, 16);
++	_rtw_memset((void *)ctr_preload, 0, 16);
++	_rtw_memset((void *)chain_buffer, 0, 16);
++	_rtw_memset((void *)aes_out, 0, 16);
++	_rtw_memset((void *)padded_buffer, 0, 16);
++
++	if ((hdrlen == WLAN_HDR_A3_LEN) || (hdrlen ==  WLAN_HDR_A3_QOS_LEN))
++		a4_exists = 0;
++	else
++		a4_exists = 1;
++
++	if (
++		((frtype | frsubtype) == WIFI_DATA_CFACK) ||
++		((frtype | frsubtype) == WIFI_DATA_CFPOLL) ||
++		((frtype | frsubtype) == WIFI_DATA_CFACKPOLL)) {
++		qc_exists = 1;
++		if (hdrlen !=  WLAN_HDR_A3_QOS_LEN)
++
++			hdrlen += 2;
++	}
++	/* add for CONFIG_IEEE80211W, none 11w also can use */
++	else if ((frtype == WIFI_DATA) &&
++		 ((frsubtype == 0x08) ||
++		  (frsubtype == 0x09) ||
++		  (frsubtype == 0x0a) ||
++		  (frsubtype == 0x0b))) {
++		if (hdrlen !=  WLAN_HDR_A3_QOS_LEN)
++
++			hdrlen += 2;
++		qc_exists = 1;
++	} else
++		qc_exists = 0;
++
++	pn_vector[0] = pframe[hdrlen];
++	pn_vector[1] = pframe[hdrlen + 1];
++	pn_vector[2] = pframe[hdrlen + 4];
++	pn_vector[3] = pframe[hdrlen + 5];
++	pn_vector[4] = pframe[hdrlen + 6];
++	pn_vector[5] = pframe[hdrlen + 7];
++
++	construct_mic_iv(
++		mic_iv,
++		qc_exists,
++		a4_exists,
++		pframe,	 /* message, */
++		plen,
++		pn_vector,
++		frtype /* add for CONFIG_IEEE80211W, none 11w also can use */
++	);
++
++	construct_mic_header1(
++		mic_header1,
++		hdrlen,
++		pframe,	/* message */
++		frtype /* add for CONFIG_IEEE80211W, none 11w also can use */
++	);
++	construct_mic_header2(
++		mic_header2,
++		pframe,	/* message, */
++		a4_exists,
++		qc_exists
++	);
++
++
++	payload_remainder = plen % 16;
++	num_blocks = plen / 16;
++
++	/* Find start of payload */
++	payload_index = (hdrlen + 8);
++
++	/* Calculate MIC */
++	aes128k128d(key, mic_iv, aes_out);
++	bitwise_xor(aes_out, mic_header1, chain_buffer);
++	aes128k128d(key, chain_buffer, aes_out);
++	bitwise_xor(aes_out, mic_header2, chain_buffer);
++	aes128k128d(key, chain_buffer, aes_out);
++
++	for (i = 0; i < num_blocks; i++) {
++		bitwise_xor(aes_out, &pframe[payload_index], chain_buffer);/* bitwise_xor(aes_out, &message[payload_index], chain_buffer); */
++
++		payload_index += 16;
++		aes128k128d(key, chain_buffer, aes_out);
++	}
++
++	/* Add on the final payload block if it needs padding */
++	if (payload_remainder > 0) {
++		for (j = 0; j < 16; j++)
++			padded_buffer[j] = 0x00;
++		for (j = 0; j < payload_remainder; j++) {
++			padded_buffer[j] = pframe[payload_index++];/* padded_buffer[j] = message[payload_index++]; */
++		}
++		bitwise_xor(aes_out, padded_buffer, chain_buffer);
++		aes128k128d(key, chain_buffer, aes_out);
++
++	}
++
++	for (j = 0 ; j < 8; j++)
++		mic[j] = aes_out[j];
++
++	/* Insert MIC into payload */
++	for (j = 0; j < 8; j++)
++		pframe[payload_index + j] = mic[j];	/* message[payload_index+j] = mic[j]; */
++
++	payload_index = hdrlen + 8;
++	for (i = 0; i < num_blocks; i++) {
++		construct_ctr_preload(
++			ctr_preload,
++			a4_exists,
++			qc_exists,
++			pframe,	/* message, */
++			pn_vector,
++			i + 1,
++			frtype); /* add for CONFIG_IEEE80211W, none 11w also can use */
++		aes128k128d(key, ctr_preload, aes_out);
++		bitwise_xor(aes_out, &pframe[payload_index], chain_buffer);/* bitwise_xor(aes_out, &message[payload_index], chain_buffer); */
++		for (j = 0; j < 16; j++)
++			pframe[payload_index++] = chain_buffer[j];/* for (j=0; j<16;j++) message[payload_index++] = chain_buffer[j]; */
++	}
++
++	if (payload_remainder > 0) {        /* If there is a short final block, then pad it,*/
++		/* encrypt it and copy the unpadded part back  */
++		construct_ctr_preload(
++			ctr_preload,
++			a4_exists,
++			qc_exists,
++			pframe,	/* message, */
++			pn_vector,
++			num_blocks + 1,
++			frtype); /* add for CONFIG_IEEE80211W, none 11w also can use */
++
++		for (j = 0; j < 16; j++)
++			padded_buffer[j] = 0x00;
++		for (j = 0; j < payload_remainder; j++) {
++			padded_buffer[j] = pframe[payload_index + j]; /* padded_buffer[j] = message[payload_index+j]; */
++		}
++		aes128k128d(key, ctr_preload, aes_out);
++		bitwise_xor(aes_out, padded_buffer, chain_buffer);
++		for (j = 0; j < payload_remainder; j++)
++			pframe[payload_index++] = chain_buffer[j];/* for (j=0; j<payload_remainder;j++) message[payload_index++] = chain_buffer[j]; */
++	}
++
++	/* Encrypt the MIC */
++	construct_ctr_preload(
++		ctr_preload,
++		a4_exists,
++		qc_exists,
++		pframe,	/* message, */
++		pn_vector,
++		0,
++		frtype); /* add for CONFIG_IEEE80211W, none 11w also can use */
++
++	for (j = 0; j < 16; j++)
++		padded_buffer[j] = 0x00;
++	for (j = 0; j < 8; j++) {
++		padded_buffer[j] = pframe[j + hdrlen + 8 + plen]; /* padded_buffer[j] = message[j+hdrlen+8+plen]; */
++	}
++
++	aes128k128d(key, ctr_preload, aes_out);
++	bitwise_xor(aes_out, padded_buffer, chain_buffer);
++	for (j = 0; j < 8; j++)
++		pframe[payload_index++] = chain_buffer[j];/* for (j=0; j<8;j++) message[payload_index++] = chain_buffer[j]; */
++	return _SUCCESS;
++}
++
++
++
++
++
++u32	rtw_aes_encrypt(_adapter *padapter, u8 *pxmitframe)
++{
++	/* exclude ICV */
++
++
++	/*static*/
++	/*	unsigned char	message[MAX_MSG_SIZE]; */
++
++	/* Intermediate Buffers */
++	sint	curfragnum, length;
++	u32	prwskeylen;
++	u8	*pframe, *prwskey;	/* , *payload,*iv */
++	u8   hw_hdr_offset = 0;
++	/* struct	sta_info		*stainfo=NULL; */
++	struct	pkt_attrib	*pattrib = &((struct xmit_frame *)pxmitframe)->attrib;
++	struct	security_priv	*psecuritypriv = &padapter->securitypriv;
++	struct	xmit_priv		*pxmitpriv = &padapter->xmitpriv;
++
++	/*	uint	offset = 0; */
++	u32 res = _SUCCESS;
++
++	if (((struct xmit_frame *)pxmitframe)->buf_addr == NULL)
++		return _FAIL;
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	hw_hdr_offset = TXDESC_SIZE +
++		(((struct xmit_frame *)pxmitframe)->pkt_offset * PACKET_OFFSET_SZ);
++#else
++#ifdef CONFIG_TX_EARLY_MODE
++	hw_hdr_offset = TXDESC_OFFSET + EARLY_MODE_INFO_SIZE;
++#else
++	hw_hdr_offset = TXDESC_OFFSET;
++#endif
++#endif
++
++	pframe = ((struct xmit_frame *)pxmitframe)->buf_addr + hw_hdr_offset;
++
++	/* 4 start to encrypt each fragment */
++	if ((pattrib->encrypt == _AES_)) {
++		/*
++				if(pattrib->psta)
++				{
++					stainfo = pattrib->psta;
++				}
++				else
++				{
++					RTW_INFO("%s, call rtw_get_stainfo()\n", __func__);
++					stainfo=rtw_get_stainfo(&padapter->stapriv ,&pattrib->ra[0] );
++				}
++		*/
++		/* if (stainfo!=NULL) */
++		{
++			/*
++						if(!(stainfo->state &_FW_LINKED))
++						{
++							RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, stainfo->state);
++							return _FAIL;
++						}
++			*/
++
++			if (IS_MCAST(pattrib->ra))
++				prwskey = psecuritypriv->dot118021XGrpKey[psecuritypriv->dot118021XGrpKeyid].skey;
++			else {
++				/* prwskey=&stainfo->dot118021x_UncstKey.skey[0]; */
++				prwskey = pattrib->dot118021x_UncstKey.skey;
++			}
++
++#ifdef CONFIG_TDLS
++			{
++				/* Swencryption */
++				struct	sta_info		*ptdls_sta;
++				ptdls_sta = rtw_get_stainfo(&padapter->stapriv , &pattrib->dst[0]);
++				if ((ptdls_sta != NULL) && (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE)) {
++					RTW_INFO("[%s] for tdls link\n", __FUNCTION__);
++					prwskey = &ptdls_sta->tpk.tk[0];
++				}
++			}
++#endif /* CONFIG_TDLS */
++
++			prwskeylen = 16;
++
++			for (curfragnum = 0; curfragnum < pattrib->nr_frags; curfragnum++) {
++
++				if ((curfragnum + 1) == pattrib->nr_frags) {	/* 4 the last fragment */
++					length = pattrib->last_txcmdsz - pattrib->hdrlen - pattrib->iv_len - pattrib->icv_len;
++
++					aes_cipher(prwskey, pattrib->hdrlen, pframe, length);
++				} else {
++					length = pxmitpriv->frag_len - pattrib->hdrlen - pattrib->iv_len - pattrib->icv_len ;
++
++					aes_cipher(prwskey, pattrib->hdrlen, pframe, length);
++					pframe += pxmitpriv->frag_len;
++					pframe = (u8 *)RND4((SIZE_PTR)(pframe));
++
++				}
++			}
++
++			AES_SW_ENC_CNT_INC(psecuritypriv, pattrib->ra);
++		}
++		/*
++				else{
++					RTW_INFO("%s, psta==NUL\n", __func__);
++					res=_FAIL;
++				}
++		*/
++	}
++
++
++
++	return res;
++}
++
++static sint aes_decipher(u8 *key, uint	hdrlen,
++			 u8 *pframe, uint plen)
++{
++	static u8	message[MAX_MSG_SIZE];
++	uint	qc_exists, a4_exists, i, j, payload_remainder,
++		num_blocks, payload_index;
++	sint res = _SUCCESS;
++	u8 pn_vector[6];
++	u8 mic_iv[16];
++	u8 mic_header1[16];
++	u8 mic_header2[16];
++	u8 ctr_preload[16];
++
++	/* Intermediate Buffers */
++	u8 chain_buffer[16];
++	u8 aes_out[16];
++	u8 padded_buffer[16];
++	u8 mic[8];
++
++
++	/*	uint	offset = 0; */
++	uint	frtype  = GetFrameType(pframe);
++	uint	frsubtype  = GetFrameSubType(pframe);
++	frsubtype = frsubtype >> 4;
++
++
++	_rtw_memset((void *)mic_iv, 0, 16);
++	_rtw_memset((void *)mic_header1, 0, 16);
++	_rtw_memset((void *)mic_header2, 0, 16);
++	_rtw_memset((void *)ctr_preload, 0, 16);
++	_rtw_memset((void *)chain_buffer, 0, 16);
++	_rtw_memset((void *)aes_out, 0, 16);
++	_rtw_memset((void *)padded_buffer, 0, 16);
++
++	/* start to decrypt the payload */
++
++	num_blocks = (plen - 8) / 16; /* (plen including LLC, payload_length and mic ) */
++
++	payload_remainder = (plen - 8) % 16;
++
++	pn_vector[0]  = pframe[hdrlen];
++	pn_vector[1]  = pframe[hdrlen + 1];
++	pn_vector[2]  = pframe[hdrlen + 4];
++	pn_vector[3]  = pframe[hdrlen + 5];
++	pn_vector[4]  = pframe[hdrlen + 6];
++	pn_vector[5]  = pframe[hdrlen + 7];
++
++	if ((hdrlen == WLAN_HDR_A3_LEN) || (hdrlen ==  WLAN_HDR_A3_QOS_LEN))
++		a4_exists = 0;
++	else
++		a4_exists = 1;
++
++	if (
++		((frtype | frsubtype) == WIFI_DATA_CFACK) ||
++		((frtype | frsubtype) == WIFI_DATA_CFPOLL) ||
++		((frtype | frsubtype) == WIFI_DATA_CFACKPOLL)) {
++		qc_exists = 1;
++		if (hdrlen !=  WLAN_HDR_A3_QOS_LEN)
++
++			hdrlen += 2;
++	} /* only for data packet . add for CONFIG_IEEE80211W, none 11w also can use */
++	else if ((frtype == WIFI_DATA) &&
++		 ((frsubtype == 0x08) ||
++		  (frsubtype == 0x09) ||
++		  (frsubtype == 0x0a) ||
++		  (frsubtype == 0x0b))) {
++		if (hdrlen !=  WLAN_HDR_A3_QOS_LEN)
++
++			hdrlen += 2;
++		qc_exists = 1;
++	} else
++		qc_exists = 0;
++
++
++	/* now, decrypt pframe with hdrlen offset and plen long */
++
++	payload_index = hdrlen + 8; /* 8 is for extiv */
++
++	for (i = 0; i < num_blocks; i++) {
++		construct_ctr_preload(
++			ctr_preload,
++			a4_exists,
++			qc_exists,
++			pframe,
++			pn_vector,
++			i + 1,
++			frtype /* add for CONFIG_IEEE80211W, none 11w also can use */
++		);
++
++		aes128k128d(key, ctr_preload, aes_out);
++		bitwise_xor(aes_out, &pframe[payload_index], chain_buffer);
++
++		for (j = 0; j < 16; j++)
++			pframe[payload_index++] = chain_buffer[j];
++	}
++
++	if (payload_remainder > 0) {        /* If there is a short final block, then pad it,*/
++		/* encrypt it and copy the unpadded part back  */
++		construct_ctr_preload(
++			ctr_preload,
++			a4_exists,
++			qc_exists,
++			pframe,
++			pn_vector,
++			num_blocks + 1,
++			frtype /* add for CONFIG_IEEE80211W, none 11w also can use */
++		);
++
++		for (j = 0; j < 16; j++)
++			padded_buffer[j] = 0x00;
++		for (j = 0; j < payload_remainder; j++)
++			padded_buffer[j] = pframe[payload_index + j];
++		aes128k128d(key, ctr_preload, aes_out);
++		bitwise_xor(aes_out, padded_buffer, chain_buffer);
++		for (j = 0; j < payload_remainder; j++)
++			pframe[payload_index++] = chain_buffer[j];
++	}
++
++	/* start to calculate the mic	 */
++	if ((hdrlen + plen + 8) <= MAX_MSG_SIZE)
++		_rtw_memcpy((void *)message, pframe, (hdrlen + plen + 8)); /* 8 is for ext iv len */
++
++
++	pn_vector[0] = pframe[hdrlen];
++	pn_vector[1] = pframe[hdrlen + 1];
++	pn_vector[2] = pframe[hdrlen + 4];
++	pn_vector[3] = pframe[hdrlen + 5];
++	pn_vector[4] = pframe[hdrlen + 6];
++	pn_vector[5] = pframe[hdrlen + 7];
++
++
++
++	construct_mic_iv(
++		mic_iv,
++		qc_exists,
++		a4_exists,
++		message,
++		plen - 8,
++		pn_vector,
++		frtype /* add for CONFIG_IEEE80211W, none 11w also can use */
++	);
++
++	construct_mic_header1(
++		mic_header1,
++		hdrlen,
++		message,
++		frtype /* add for CONFIG_IEEE80211W, none 11w also can use */
++	);
++	construct_mic_header2(
++		mic_header2,
++		message,
++		a4_exists,
++		qc_exists
++	);
++
++
++	payload_remainder = (plen - 8) % 16;
++	num_blocks = (plen - 8) / 16;
++
++	/* Find start of payload */
++	payload_index = (hdrlen + 8);
++
++	/* Calculate MIC */
++	aes128k128d(key, mic_iv, aes_out);
++	bitwise_xor(aes_out, mic_header1, chain_buffer);
++	aes128k128d(key, chain_buffer, aes_out);
++	bitwise_xor(aes_out, mic_header2, chain_buffer);
++	aes128k128d(key, chain_buffer, aes_out);
++
++	for (i = 0; i < num_blocks; i++) {
++		bitwise_xor(aes_out, &message[payload_index], chain_buffer);
++
++		payload_index += 16;
++		aes128k128d(key, chain_buffer, aes_out);
++	}
++
++	/* Add on the final payload block if it needs padding */
++	if (payload_remainder > 0) {
++		for (j = 0; j < 16; j++)
++			padded_buffer[j] = 0x00;
++		for (j = 0; j < payload_remainder; j++)
++			padded_buffer[j] = message[payload_index++];
++		bitwise_xor(aes_out, padded_buffer, chain_buffer);
++		aes128k128d(key, chain_buffer, aes_out);
++
++	}
++
++	for (j = 0 ; j < 8; j++)
++		mic[j] = aes_out[j];
++
++	/* Insert MIC into payload */
++	for (j = 0; j < 8; j++)
++		message[payload_index + j] = mic[j];
++
++	payload_index = hdrlen + 8;
++	for (i = 0; i < num_blocks; i++) {
++		construct_ctr_preload(
++			ctr_preload,
++			a4_exists,
++			qc_exists,
++			message,
++			pn_vector,
++			i + 1,
++			frtype); /* add for CONFIG_IEEE80211W, none 11w also can use */
++		aes128k128d(key, ctr_preload, aes_out);
++		bitwise_xor(aes_out, &message[payload_index], chain_buffer);
++		for (j = 0; j < 16; j++)
++			message[payload_index++] = chain_buffer[j];
++	}
++
++	if (payload_remainder > 0) {        /* If there is a short final block, then pad it,*/
++		/* encrypt it and copy the unpadded part back  */
++		construct_ctr_preload(
++			ctr_preload,
++			a4_exists,
++			qc_exists,
++			message,
++			pn_vector,
++			num_blocks + 1,
++			frtype); /* add for CONFIG_IEEE80211W, none 11w also can use */
++
++		for (j = 0; j < 16; j++)
++			padded_buffer[j] = 0x00;
++		for (j = 0; j < payload_remainder; j++)
++			padded_buffer[j] = message[payload_index + j];
++		aes128k128d(key, ctr_preload, aes_out);
++		bitwise_xor(aes_out, padded_buffer, chain_buffer);
++		for (j = 0; j < payload_remainder; j++)
++			message[payload_index++] = chain_buffer[j];
++	}
++
++	/* Encrypt the MIC */
++	construct_ctr_preload(
++		ctr_preload,
++		a4_exists,
++		qc_exists,
++		message,
++		pn_vector,
++		0,
++		frtype); /* add for CONFIG_IEEE80211W, none 11w also can use */
++
++	for (j = 0; j < 16; j++)
++		padded_buffer[j] = 0x00;
++	for (j = 0; j < 8; j++)
++		padded_buffer[j] = message[j + hdrlen + 8 + plen - 8];
++
++	aes128k128d(key, ctr_preload, aes_out);
++	bitwise_xor(aes_out, padded_buffer, chain_buffer);
++	for (j = 0; j < 8; j++)
++		message[payload_index++] = chain_buffer[j];
++
++	/* compare the mic */
++	for (i = 0; i < 8; i++) {
++		if (pframe[hdrlen + 8 + plen - 8 + i] != message[hdrlen + 8 + plen - 8 + i]) {
++			RTW_INFO("aes_decipher:mic check error mic[%d]: pframe(%x) != message(%x)\n",
++				i, pframe[hdrlen + 8 + plen - 8 + i], message[hdrlen + 8 + plen - 8 + i]);
++			res = _FAIL;
++		}
++	}
++	return res;
++}
++
++u32	rtw_aes_decrypt(_adapter *padapter, u8 *precvframe)
++{
++	/* exclude ICV */
++
++
++	/*static*/
++	/*	unsigned char	message[MAX_MSG_SIZE]; */
++
++
++	/* Intermediate Buffers */
++
++
++	sint		length;
++	u32	prwskeylen;
++	u8	*pframe, *prwskey;	/* , *payload,*iv */
++	struct	sta_info		*stainfo;
++	struct	rx_pkt_attrib	*prxattrib = &((union recv_frame *)precvframe)->u.hdr.attrib;
++	struct	security_priv	*psecuritypriv = &padapter->securitypriv;
++	/*	struct	recv_priv		*precvpriv=&padapter->recvpriv; */
++	u32	res = _SUCCESS;
++	pframe = (unsigned char *)((union recv_frame *)precvframe)->u.hdr.rx_data;
++	/* 4 start to encrypt each fragment */
++	if ((prxattrib->encrypt == _AES_)) {
++
++		stainfo = rtw_get_stainfo(&padapter->stapriv , &prxattrib->ta[0]);
++		if (stainfo != NULL) {
++
++			if (IS_MCAST(prxattrib->ra)) {
++				static u32 start = 0;
++				static u32 no_gkey_bc_cnt = 0;
++				static u32 no_gkey_mc_cnt = 0;
++
++				/* RTW_INFO("rx bc/mc packets, to perform sw rtw_aes_decrypt\n"); */
++				/* prwskey = psecuritypriv->dot118021XGrpKey[psecuritypriv->dot118021XGrpKeyid].skey; */
++				if (psecuritypriv->binstallGrpkey == _FALSE) {
++					res = _FAIL;
++
++					if (start == 0)
++						start = rtw_get_current_time();
++
++					if (is_broadcast_mac_addr(prxattrib->ra))
++						no_gkey_bc_cnt++;
++					else
++						no_gkey_mc_cnt++;
++
++					if (rtw_get_passing_time_ms(start) > 1000) {
++						if (no_gkey_bc_cnt || no_gkey_mc_cnt) {
++							RTW_PRINT(FUNC_ADPT_FMT" no_gkey_bc_cnt:%u, no_gkey_mc_cnt:%u\n",
++								FUNC_ADPT_ARG(padapter), no_gkey_bc_cnt, no_gkey_mc_cnt);
++						}
++						start = rtw_get_current_time();
++						no_gkey_bc_cnt = 0;
++						no_gkey_mc_cnt = 0;
++					}
++
++					goto exit;
++				}
++
++				if (no_gkey_bc_cnt || no_gkey_mc_cnt) {
++					RTW_PRINT(FUNC_ADPT_FMT" gkey installed. no_gkey_bc_cnt:%u, no_gkey_mc_cnt:%u\n",
++						FUNC_ADPT_ARG(padapter), no_gkey_bc_cnt, no_gkey_mc_cnt);
++				}
++				start = 0;
++				no_gkey_bc_cnt = 0;
++				no_gkey_mc_cnt = 0;
++
++				prwskey = psecuritypriv->dot118021XGrpKey[prxattrib->key_index].skey;
++				if (psecuritypriv->dot118021XGrpKeyid != prxattrib->key_index) {
++					RTW_INFO("not match packet_index=%d, install_index=%d\n"
++						, prxattrib->key_index, psecuritypriv->dot118021XGrpKeyid);
++					res = _FAIL;
++					goto exit;
++				}
++			} else
++				prwskey = &stainfo->dot118021x_UncstKey.skey[0];
++
++			length = ((union recv_frame *)precvframe)->u.hdr.len - prxattrib->hdrlen - prxattrib->iv_len;
++#if 0
++			/*  add for CONFIG_IEEE80211W, debug */
++			if (0)
++				printk("@@@@@@@@@@@@@@@@@@ length=%d, prxattrib->hdrlen=%d, prxattrib->pkt_len=%d\n"
++				       , length, prxattrib->hdrlen, prxattrib->pkt_len);
++			if (0) {
++				int no;
++				/* test print PSK */
++				printk("PSK key below:\n");
++				for (no = 0; no < 16; no++)
++					printk(" %02x ", prwskey[no]);
++				printk("\n");
++			}
++			if (0) {
++				int no;
++				/* test print PSK */
++				printk("frame:\n");
++				for (no = 0; no < prxattrib->pkt_len; no++)
++					printk(" %02x ", pframe[no]);
++				printk("\n");
++			}
++#endif
++
++			res = aes_decipher(prwskey, prxattrib->hdrlen, pframe, length);
++
++			AES_SW_DEC_CNT_INC(psecuritypriv, prxattrib->ra);
++		} else {
++			res = _FAIL;
++		}
++
++	}
++exit:
++	return res;
++}
++
++#ifdef CONFIG_IEEE80211W
++u32	rtw_BIP_verify(_adapter *padapter, u8 *precvframe)
++{
++	struct rx_pkt_attrib *pattrib = &((union recv_frame *)precvframe)->u.hdr.attrib;
++	u8 *pframe;
++	u8 *BIP_AAD, *p;
++	u32	res = _FAIL;
++	uint len, ori_len;
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	u8 mic[16];
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	ori_len = pattrib->pkt_len - WLAN_HDR_A3_LEN + BIP_AAD_SIZE;
++	BIP_AAD = rtw_zmalloc(ori_len);
++
++	if (BIP_AAD == NULL) {
++		RTW_INFO("BIP AAD allocate fail\n");
++		return _FAIL;
++	}
++	/* PKT start */
++	pframe = (unsigned char *)((union recv_frame *)precvframe)->u.hdr.rx_data;
++	/* mapping to wlan header */
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++	/* save the frame body + MME */
++	_rtw_memcpy(BIP_AAD + BIP_AAD_SIZE, pframe + WLAN_HDR_A3_LEN, pattrib->pkt_len - WLAN_HDR_A3_LEN);
++	/* find MME IE pointer */
++	p = rtw_get_ie(BIP_AAD + BIP_AAD_SIZE, _MME_IE_, &len, pattrib->pkt_len - WLAN_HDR_A3_LEN);
++	/* Baron */
++	if (p) {
++		u16 keyid = 0;
++		u64 temp_ipn = 0;
++		/* save packet number */
++		_rtw_memcpy(&temp_ipn, p + 4, 6);
++		temp_ipn = le64_to_cpu(temp_ipn);
++		/* BIP packet number should bigger than previous BIP packet */
++		if (temp_ipn < pmlmeext->mgnt_80211w_IPN_rx) {
++			RTW_INFO("replay BIP packet\n");
++			goto BIP_exit;
++		}
++		/* copy key index */
++		_rtw_memcpy(&keyid, p + 2, 2);
++		keyid = le16_to_cpu(keyid);
++		if (keyid != padapter->securitypriv.dot11wBIPKeyid) {
++			RTW_INFO("BIP key index error!\n");
++			goto BIP_exit;
++		}
++		/* clear the MIC field of MME to zero */
++		_rtw_memset(p + 2 + len - 8, 0, 8);
++
++		/* conscruct AAD, copy frame control field */
++		_rtw_memcpy(BIP_AAD, &pwlanhdr->frame_ctl, 2);
++		ClearRetry(BIP_AAD);
++		ClearPwrMgt(BIP_AAD);
++		ClearMData(BIP_AAD);
++		/* conscruct AAD, copy address 1 to address 3 */
++		_rtw_memcpy(BIP_AAD + 2, pwlanhdr->addr1, 18);
++
++		if (omac1_aes_128(padapter->securitypriv.dot11wBIPKey[padapter->securitypriv.dot11wBIPKeyid].skey
++				  , BIP_AAD, ori_len, mic))
++			goto BIP_exit;
++
++#if 0
++		/* management packet content */
++		{
++			int pp;
++			RTW_INFO("pkt: ");
++			for (pp = 0; pp < pattrib->pkt_len; pp++)
++				printk(" %02x ", pframe[pp]);
++			RTW_INFO("\n");
++			/* BIP AAD + management frame body + MME(MIC is zero) */
++			RTW_INFO("AAD+PKT: ");
++			for (pp = 0; pp < ori_len; pp++)
++				RTW_INFO(" %02x ", BIP_AAD[pp]);
++			RTW_INFO("\n");
++			/* show the MIC result */
++			RTW_INFO("mic: ");
++			for (pp = 0; pp < 16; pp++)
++				RTW_INFO(" %02x ", mic[pp]);
++			RTW_INFO("\n");
++		}
++#endif
++		/* MIC field should be last 8 bytes of packet (packet without FCS) */
++		if (_rtw_memcmp(mic, pframe + pattrib->pkt_len - 8, 8)) {
++			pmlmeext->mgnt_80211w_IPN_rx = temp_ipn;
++			res = _SUCCESS;
++		} else
++			RTW_INFO("BIP MIC error!\n");
++
++	} else
++		res = RTW_RX_HANDLED;
++BIP_exit:
++
++	rtw_mfree(BIP_AAD, ori_len);
++	return res;
++}
++#endif /* CONFIG_IEEE80211W */
++
++#ifndef PLATFORM_FREEBSD
++/* compress 512-bits */
++static int sha256_compress(struct sha256_state *md, unsigned char *buf)
++{
++	u32 S[8], W[64], t0, t1;
++	u32 t;
++	int i;
++
++	/* copy state into S */
++	for (i = 0; i < 8; i++)
++		S[i] = md->state[i];
++
++	/* copy the state into 512-bits into W[0..15] */
++	for (i = 0; i < 16; i++)
++		W[i] = WPA_GET_BE32(buf + (4 * i));
++
++	/* fill W[16..63] */
++	for (i = 16; i < 64; i++) {
++		W[i] = Gamma1(W[i - 2]) + W[i - 7] + Gamma0(W[i - 15]) +
++		       W[i - 16];
++	}
++
++	/* Compress */
++#define RND(a, b, c, d, e, f, g, h, i)                          do {\
++	t0 = h + Sigma1(e) + Ch(e, f, g) + K[i] + W[i];	\
++	t1 = Sigma0(a) + Maj(a, b, c);			\
++	d += t0;					\
++	h  = t0 + t1;	\
++	} while (0)
++
++	for (i = 0; i < 64; ++i) {
++		RND(S[0], S[1], S[2], S[3], S[4], S[5], S[6], S[7], i);
++		t = S[7];
++		S[7] = S[6];
++		S[6] = S[5];
++		S[5] = S[4];
++		S[4] = S[3];
++		S[3] = S[2];
++		S[2] = S[1];
++		S[1] = S[0];
++		S[0] = t;
++	}
++
++	/* feedback */
++	for (i = 0; i < 8; i++)
++		md->state[i] = md->state[i] + S[i];
++	return 0;
++}
++
++/* Initialize the hash state */
++static void sha256_init(struct sha256_state *md)
++{
++	md->curlen = 0;
++	md->length = 0;
++	md->state[0] = 0x6A09E667UL;
++	md->state[1] = 0xBB67AE85UL;
++	md->state[2] = 0x3C6EF372UL;
++	md->state[3] = 0xA54FF53AUL;
++	md->state[4] = 0x510E527FUL;
++	md->state[5] = 0x9B05688CUL;
++	md->state[6] = 0x1F83D9ABUL;
++	md->state[7] = 0x5BE0CD19UL;
++}
++
++/**
++   Process a block of memory though the hash
++   @param md     The hash state
++   @param in     The data to hash
++   @param inlen  The length of the data (octets)
++   @return CRYPT_OK if successful
++*/
++static int sha256_process(struct sha256_state *md, unsigned char *in,
++			  unsigned long inlen)
++{
++	unsigned long n;
++#define block_size 64
++
++	if (md->curlen > sizeof(md->buf))
++		return -1;
++
++	while (inlen > 0) {
++		if (md->curlen == 0 && inlen >= block_size) {
++			if (sha256_compress(md, (unsigned char *) in) < 0)
++				return -1;
++			md->length += block_size * 8;
++			in += block_size;
++			inlen -= block_size;
++		} else {
++			n = MIN(inlen, (block_size - md->curlen));
++			_rtw_memcpy(md->buf + md->curlen, in, n);
++			md->curlen += n;
++			in += n;
++			inlen -= n;
++			if (md->curlen == block_size) {
++				if (sha256_compress(md, md->buf) < 0)
++					return -1;
++				md->length += 8 * block_size;
++				md->curlen = 0;
++			}
++		}
++	}
++
++	return 0;
++}
++
++
++/**
++   Terminate the hash to get the digest
++   @param md  The hash state
++   @param out [out] The destination of the hash (32 bytes)
++   @return CRYPT_OK if successful
++*/
++static int sha256_done(struct sha256_state *md, unsigned char *out)
++{
++	int i;
++
++	if (md->curlen >= sizeof(md->buf))
++		return -1;
++
++	/* increase the length of the message */
++	md->length += md->curlen * 8;
++
++	/* append the '1' bit */
++	md->buf[md->curlen++] = (unsigned char) 0x80;
++
++	/* if the length is currently above 56 bytes we append zeros
++	 * then compress.  Then we can fall back to padding zeros and length
++	 * encoding like normal.
++	 */
++	if (md->curlen > 56) {
++		while (md->curlen < 64)
++			md->buf[md->curlen++] = (unsigned char) 0;
++		sha256_compress(md, md->buf);
++		md->curlen = 0;
++	}
++
++	/* pad upto 56 bytes of zeroes */
++	while (md->curlen < 56)
++		md->buf[md->curlen++] = (unsigned char) 0;
++
++	/* store length */
++	WPA_PUT_BE64(md->buf + 56, md->length);
++	sha256_compress(md, md->buf);
++
++	/* copy output */
++	for (i = 0; i < 8; i++)
++		WPA_PUT_BE32(out + (4 * i), md->state[i]);
++
++	return 0;
++}
++
++/**
++ * sha256_vector - SHA256 hash for data vector
++ * @num_elem: Number of elements in the data vector
++ * @addr: Pointers to the data areas
++ * @len: Lengths of the data blocks
++ * @mac: Buffer for the hash
++ * Returns: 0 on success, -1 of failure
++ */
++static int sha256_vector(size_t num_elem, u8 *addr[], size_t *len,
++			 u8 *mac)
++{
++	struct sha256_state ctx;
++	size_t i;
++
++	sha256_init(&ctx);
++	for (i = 0; i < num_elem; i++)
++		if (sha256_process(&ctx, addr[i], len[i]))
++			return -1;
++	if (sha256_done(&ctx, mac))
++		return -1;
++	return 0;
++}
++
++static u8 os_strlen(const char *s)
++{
++	const char *p = s;
++	while (*p)
++		p++;
++	return p - s;
++}
++
++static int os_memcmp(void *s1, void *s2, u8 n)
++{
++	unsigned char *p1 = s1, *p2 = s2;
++
++	if (n == 0)
++		return 0;
++
++	while (*p1 == *p2) {
++		p1++;
++		p2++;
++		n--;
++		if (n == 0)
++			return 0;
++	}
++
++	return *p1 - *p2;
++}
++
++/**
++ * hmac_sha256_vector - HMAC-SHA256 over data vector (RFC 2104)
++ * @key: Key for HMAC operations
++ * @key_len: Length of the key in bytes
++ * @num_elem: Number of elements in the data vector
++ * @addr: Pointers to the data areas
++ * @len: Lengths of the data blocks
++ * @mac: Buffer for the hash (32 bytes)
++ */
++static void hmac_sha256_vector(u8 *key, size_t key_len, size_t num_elem,
++			       u8 *addr[], size_t *len, u8 *mac)
++{
++	unsigned char k_pad[64]; /* padding - key XORd with ipad/opad */
++	unsigned char tk[32];
++	u8 *_addr[6];
++	size_t _len[6], i;
++
++	if (num_elem > 5) {
++		/*
++		 * Fixed limit on the number of fragments to avoid having to
++		 * allocate memory (which could fail).
++		 */
++		return;
++	}
++
++	/* if key is longer than 64 bytes reset it to key = SHA256(key) */
++	if (key_len > 64) {
++		sha256_vector(1, &key, &key_len, tk);
++		key = tk;
++		key_len = 32;
++	}
++
++	/* the HMAC_SHA256 transform looks like:
++	 *
++	 * SHA256(K XOR opad, SHA256(K XOR ipad, text))
++	 *
++	 * where K is an n byte key
++	 * ipad is the byte 0x36 repeated 64 times
++	 * opad is the byte 0x5c repeated 64 times
++	 * and text is the data being protected */
++
++	/* start out by storing key in ipad */
++	_rtw_memset(k_pad, 0, sizeof(k_pad));
++	_rtw_memcpy(k_pad, key, key_len);
++	/* XOR key with ipad values */
++	for (i = 0; i < 64; i++)
++		k_pad[i] ^= 0x36;
++
++	/* perform inner SHA256 */
++	_addr[0] = k_pad;
++	_len[0] = 64;
++	for (i = 0; i < num_elem; i++) {
++		_addr[i + 1] = addr[i];
++		_len[i + 1] = len[i];
++	}
++	sha256_vector(1 + num_elem, _addr, _len, mac);
++
++	_rtw_memset(k_pad, 0, sizeof(k_pad));
++	_rtw_memcpy(k_pad, key, key_len);
++	/* XOR key with opad values */
++	for (i = 0; i < 64; i++)
++		k_pad[i] ^= 0x5c;
++
++	/* perform outer SHA256 */
++	_addr[0] = k_pad;
++	_len[0] = 64;
++	_addr[1] = mac;
++	_len[1] = 32;
++	sha256_vector(2, _addr, _len, mac);
++}
++#endif /* PLATFORM_FREEBSD */
++/**
++ * sha256_prf - SHA256-based Pseudo-Random Function (IEEE 802.11r, 8.5.1.5.2)
++ * @key: Key for PRF
++ * @key_len: Length of the key in bytes
++ * @label: A unique label for each purpose of the PRF
++ * @data: Extra data to bind into the key
++ * @data_len: Length of the data
++ * @buf: Buffer for the generated pseudo-random key
++ * @buf_len: Number of bytes of key to generate
++ *
++ * This function is used to derive new, cryptographically separate keys from a
++ * given key.
++ */
++#ifndef PLATFORM_FREEBSD /* Baron */
++static void sha256_prf(u8 *key, size_t key_len, char *label,
++		       u8 *data, size_t data_len, u8 *buf, size_t buf_len)
++{
++	u16 counter = 1;
++	size_t pos, plen;
++	u8 hash[SHA256_MAC_LEN];
++	u8 *addr[4];
++	size_t len[4];
++	u8 counter_le[2], length_le[2];
++
++	addr[0] = counter_le;
++	len[0] = 2;
++	addr[1] = (u8 *) label;
++	len[1] = os_strlen(label);
++	addr[2] = data;
++	len[2] = data_len;
++	addr[3] = length_le;
++	len[3] = sizeof(length_le);
++
++	WPA_PUT_LE16(length_le, buf_len * 8);
++	pos = 0;
++	while (pos < buf_len) {
++		plen = buf_len - pos;
++		WPA_PUT_LE16(counter_le, counter);
++		if (plen >= SHA256_MAC_LEN) {
++			hmac_sha256_vector(key, key_len, 4, addr, len,
++					   &buf[pos]);
++			pos += SHA256_MAC_LEN;
++		} else {
++			hmac_sha256_vector(key, key_len, 4, addr, len, hash);
++			_rtw_memcpy(&buf[pos], hash, plen);
++			break;
++		}
++		counter++;
++	}
++}
++#endif /* PLATFORM_FREEBSD Baron */
++
++/* AES tables*/
++const u32 Te0[256] = {
++	0xc66363a5U, 0xf87c7c84U, 0xee777799U, 0xf67b7b8dU,
++	0xfff2f20dU, 0xd66b6bbdU, 0xde6f6fb1U, 0x91c5c554U,
++	0x60303050U, 0x02010103U, 0xce6767a9U, 0x562b2b7dU,
++	0xe7fefe19U, 0xb5d7d762U, 0x4dababe6U, 0xec76769aU,
++	0x8fcaca45U, 0x1f82829dU, 0x89c9c940U, 0xfa7d7d87U,
++	0xeffafa15U, 0xb25959ebU, 0x8e4747c9U, 0xfbf0f00bU,
++	0x41adadecU, 0xb3d4d467U, 0x5fa2a2fdU, 0x45afafeaU,
++	0x239c9cbfU, 0x53a4a4f7U, 0xe4727296U, 0x9bc0c05bU,
++	0x75b7b7c2U, 0xe1fdfd1cU, 0x3d9393aeU, 0x4c26266aU,
++	0x6c36365aU, 0x7e3f3f41U, 0xf5f7f702U, 0x83cccc4fU,
++	0x6834345cU, 0x51a5a5f4U, 0xd1e5e534U, 0xf9f1f108U,
++	0xe2717193U, 0xabd8d873U, 0x62313153U, 0x2a15153fU,
++	0x0804040cU, 0x95c7c752U, 0x46232365U, 0x9dc3c35eU,
++	0x30181828U, 0x379696a1U, 0x0a05050fU, 0x2f9a9ab5U,
++	0x0e070709U, 0x24121236U, 0x1b80809bU, 0xdfe2e23dU,
++	0xcdebeb26U, 0x4e272769U, 0x7fb2b2cdU, 0xea75759fU,
++	0x1209091bU, 0x1d83839eU, 0x582c2c74U, 0x341a1a2eU,
++	0x361b1b2dU, 0xdc6e6eb2U, 0xb45a5aeeU, 0x5ba0a0fbU,
++	0xa45252f6U, 0x763b3b4dU, 0xb7d6d661U, 0x7db3b3ceU,
++	0x5229297bU, 0xdde3e33eU, 0x5e2f2f71U, 0x13848497U,
++	0xa65353f5U, 0xb9d1d168U, 0x00000000U, 0xc1eded2cU,
++	0x40202060U, 0xe3fcfc1fU, 0x79b1b1c8U, 0xb65b5bedU,
++	0xd46a6abeU, 0x8dcbcb46U, 0x67bebed9U, 0x7239394bU,
++	0x944a4adeU, 0x984c4cd4U, 0xb05858e8U, 0x85cfcf4aU,
++	0xbbd0d06bU, 0xc5efef2aU, 0x4faaaae5U, 0xedfbfb16U,
++	0x864343c5U, 0x9a4d4dd7U, 0x66333355U, 0x11858594U,
++	0x8a4545cfU, 0xe9f9f910U, 0x04020206U, 0xfe7f7f81U,
++	0xa05050f0U, 0x783c3c44U, 0x259f9fbaU, 0x4ba8a8e3U,
++	0xa25151f3U, 0x5da3a3feU, 0x804040c0U, 0x058f8f8aU,
++	0x3f9292adU, 0x219d9dbcU, 0x70383848U, 0xf1f5f504U,
++	0x63bcbcdfU, 0x77b6b6c1U, 0xafdada75U, 0x42212163U,
++	0x20101030U, 0xe5ffff1aU, 0xfdf3f30eU, 0xbfd2d26dU,
++	0x81cdcd4cU, 0x180c0c14U, 0x26131335U, 0xc3ecec2fU,
++	0xbe5f5fe1U, 0x359797a2U, 0x884444ccU, 0x2e171739U,
++	0x93c4c457U, 0x55a7a7f2U, 0xfc7e7e82U, 0x7a3d3d47U,
++	0xc86464acU, 0xba5d5de7U, 0x3219192bU, 0xe6737395U,
++	0xc06060a0U, 0x19818198U, 0x9e4f4fd1U, 0xa3dcdc7fU,
++	0x44222266U, 0x542a2a7eU, 0x3b9090abU, 0x0b888883U,
++	0x8c4646caU, 0xc7eeee29U, 0x6bb8b8d3U, 0x2814143cU,
++	0xa7dede79U, 0xbc5e5ee2U, 0x160b0b1dU, 0xaddbdb76U,
++	0xdbe0e03bU, 0x64323256U, 0x743a3a4eU, 0x140a0a1eU,
++	0x924949dbU, 0x0c06060aU, 0x4824246cU, 0xb85c5ce4U,
++	0x9fc2c25dU, 0xbdd3d36eU, 0x43acacefU, 0xc46262a6U,
++	0x399191a8U, 0x319595a4U, 0xd3e4e437U, 0xf279798bU,
++	0xd5e7e732U, 0x8bc8c843U, 0x6e373759U, 0xda6d6db7U,
++	0x018d8d8cU, 0xb1d5d564U, 0x9c4e4ed2U, 0x49a9a9e0U,
++	0xd86c6cb4U, 0xac5656faU, 0xf3f4f407U, 0xcfeaea25U,
++	0xca6565afU, 0xf47a7a8eU, 0x47aeaee9U, 0x10080818U,
++	0x6fbabad5U, 0xf0787888U, 0x4a25256fU, 0x5c2e2e72U,
++	0x381c1c24U, 0x57a6a6f1U, 0x73b4b4c7U, 0x97c6c651U,
++	0xcbe8e823U, 0xa1dddd7cU, 0xe874749cU, 0x3e1f1f21U,
++	0x964b4bddU, 0x61bdbddcU, 0x0d8b8b86U, 0x0f8a8a85U,
++	0xe0707090U, 0x7c3e3e42U, 0x71b5b5c4U, 0xcc6666aaU,
++	0x904848d8U, 0x06030305U, 0xf7f6f601U, 0x1c0e0e12U,
++	0xc26161a3U, 0x6a35355fU, 0xae5757f9U, 0x69b9b9d0U,
++	0x17868691U, 0x99c1c158U, 0x3a1d1d27U, 0x279e9eb9U,
++	0xd9e1e138U, 0xebf8f813U, 0x2b9898b3U, 0x22111133U,
++	0xd26969bbU, 0xa9d9d970U, 0x078e8e89U, 0x339494a7U,
++	0x2d9b9bb6U, 0x3c1e1e22U, 0x15878792U, 0xc9e9e920U,
++	0x87cece49U, 0xaa5555ffU, 0x50282878U, 0xa5dfdf7aU,
++	0x038c8c8fU, 0x59a1a1f8U, 0x09898980U, 0x1a0d0d17U,
++	0x65bfbfdaU, 0xd7e6e631U, 0x844242c6U, 0xd06868b8U,
++	0x824141c3U, 0x299999b0U, 0x5a2d2d77U, 0x1e0f0f11U,
++	0x7bb0b0cbU, 0xa85454fcU, 0x6dbbbbd6U, 0x2c16163aU,
++};
++const u32 Td0[256] = {
++	0x51f4a750U, 0x7e416553U, 0x1a17a4c3U, 0x3a275e96U,
++	0x3bab6bcbU, 0x1f9d45f1U, 0xacfa58abU, 0x4be30393U,
++	0x2030fa55U, 0xad766df6U, 0x88cc7691U, 0xf5024c25U,
++	0x4fe5d7fcU, 0xc52acbd7U, 0x26354480U, 0xb562a38fU,
++	0xdeb15a49U, 0x25ba1b67U, 0x45ea0e98U, 0x5dfec0e1U,
++	0xc32f7502U, 0x814cf012U, 0x8d4697a3U, 0x6bd3f9c6U,
++	0x038f5fe7U, 0x15929c95U, 0xbf6d7aebU, 0x955259daU,
++	0xd4be832dU, 0x587421d3U, 0x49e06929U, 0x8ec9c844U,
++	0x75c2896aU, 0xf48e7978U, 0x99583e6bU, 0x27b971ddU,
++	0xbee14fb6U, 0xf088ad17U, 0xc920ac66U, 0x7dce3ab4U,
++	0x63df4a18U, 0xe51a3182U, 0x97513360U, 0x62537f45U,
++	0xb16477e0U, 0xbb6bae84U, 0xfe81a01cU, 0xf9082b94U,
++	0x70486858U, 0x8f45fd19U, 0x94de6c87U, 0x527bf8b7U,
++	0xab73d323U, 0x724b02e2U, 0xe31f8f57U, 0x6655ab2aU,
++	0xb2eb2807U, 0x2fb5c203U, 0x86c57b9aU, 0xd33708a5U,
++	0x302887f2U, 0x23bfa5b2U, 0x02036abaU, 0xed16825cU,
++	0x8acf1c2bU, 0xa779b492U, 0xf307f2f0U, 0x4e69e2a1U,
++	0x65daf4cdU, 0x0605bed5U, 0xd134621fU, 0xc4a6fe8aU,
++	0x342e539dU, 0xa2f355a0U, 0x058ae132U, 0xa4f6eb75U,
++	0x0b83ec39U, 0x4060efaaU, 0x5e719f06U, 0xbd6e1051U,
++	0x3e218af9U, 0x96dd063dU, 0xdd3e05aeU, 0x4de6bd46U,
++	0x91548db5U, 0x71c45d05U, 0x0406d46fU, 0x605015ffU,
++	0x1998fb24U, 0xd6bde997U, 0x894043ccU, 0x67d99e77U,
++	0xb0e842bdU, 0x07898b88U, 0xe7195b38U, 0x79c8eedbU,
++	0xa17c0a47U, 0x7c420fe9U, 0xf8841ec9U, 0x00000000U,
++	0x09808683U, 0x322bed48U, 0x1e1170acU, 0x6c5a724eU,
++	0xfd0efffbU, 0x0f853856U, 0x3daed51eU, 0x362d3927U,
++	0x0a0fd964U, 0x685ca621U, 0x9b5b54d1U, 0x24362e3aU,
++	0x0c0a67b1U, 0x9357e70fU, 0xb4ee96d2U, 0x1b9b919eU,
++	0x80c0c54fU, 0x61dc20a2U, 0x5a774b69U, 0x1c121a16U,
++	0xe293ba0aU, 0xc0a02ae5U, 0x3c22e043U, 0x121b171dU,
++	0x0e090d0bU, 0xf28bc7adU, 0x2db6a8b9U, 0x141ea9c8U,
++	0x57f11985U, 0xaf75074cU, 0xee99ddbbU, 0xa37f60fdU,
++	0xf701269fU, 0x5c72f5bcU, 0x44663bc5U, 0x5bfb7e34U,
++	0x8b432976U, 0xcb23c6dcU, 0xb6edfc68U, 0xb8e4f163U,
++	0xd731dccaU, 0x42638510U, 0x13972240U, 0x84c61120U,
++	0x854a247dU, 0xd2bb3df8U, 0xaef93211U, 0xc729a16dU,
++	0x1d9e2f4bU, 0xdcb230f3U, 0x0d8652ecU, 0x77c1e3d0U,
++	0x2bb3166cU, 0xa970b999U, 0x119448faU, 0x47e96422U,
++	0xa8fc8cc4U, 0xa0f03f1aU, 0x567d2cd8U, 0x223390efU,
++	0x87494ec7U, 0xd938d1c1U, 0x8ccaa2feU, 0x98d40b36U,
++	0xa6f581cfU, 0xa57ade28U, 0xdab78e26U, 0x3fadbfa4U,
++	0x2c3a9de4U, 0x5078920dU, 0x6a5fcc9bU, 0x547e4662U,
++	0xf68d13c2U, 0x90d8b8e8U, 0x2e39f75eU, 0x82c3aff5U,
++	0x9f5d80beU, 0x69d0937cU, 0x6fd52da9U, 0xcf2512b3U,
++	0xc8ac993bU, 0x10187da7U, 0xe89c636eU, 0xdb3bbb7bU,
++	0xcd267809U, 0x6e5918f4U, 0xec9ab701U, 0x834f9aa8U,
++	0xe6956e65U, 0xaaffe67eU, 0x21bccf08U, 0xef15e8e6U,
++	0xbae79bd9U, 0x4a6f36ceU, 0xea9f09d4U, 0x29b07cd6U,
++	0x31a4b2afU, 0x2a3f2331U, 0xc6a59430U, 0x35a266c0U,
++	0x744ebc37U, 0xfc82caa6U, 0xe090d0b0U, 0x33a7d815U,
++	0xf104984aU, 0x41ecdaf7U, 0x7fcd500eU, 0x1791f62fU,
++	0x764dd68dU, 0x43efb04dU, 0xccaa4d54U, 0xe49604dfU,
++	0x9ed1b5e3U, 0x4c6a881bU, 0xc12c1fb8U, 0x4665517fU,
++	0x9d5eea04U, 0x018c355dU, 0xfa877473U, 0xfb0b412eU,
++	0xb3671d5aU, 0x92dbd252U, 0xe9105633U, 0x6dd64713U,
++	0x9ad7618cU, 0x37a10c7aU, 0x59f8148eU, 0xeb133c89U,
++	0xcea927eeU, 0xb761c935U, 0xe11ce5edU, 0x7a47b13cU,
++	0x9cd2df59U, 0x55f2733fU, 0x1814ce79U, 0x73c737bfU,
++	0x53f7cdeaU, 0x5ffdaa5bU, 0xdf3d6f14U, 0x7844db86U,
++	0xcaaff381U, 0xb968c43eU, 0x3824342cU, 0xc2a3405fU,
++	0x161dc372U, 0xbce2250cU, 0x283c498bU, 0xff0d9541U,
++	0x39a80171U, 0x080cb3deU, 0xd8b4e49cU, 0x6456c190U,
++	0x7bcb8461U, 0xd532b670U, 0x486c5c74U, 0xd0b85742U,
++};
++const u8 Td4s[256] = {
++	0x52U, 0x09U, 0x6aU, 0xd5U, 0x30U, 0x36U, 0xa5U, 0x38U,
++	0xbfU, 0x40U, 0xa3U, 0x9eU, 0x81U, 0xf3U, 0xd7U, 0xfbU,
++	0x7cU, 0xe3U, 0x39U, 0x82U, 0x9bU, 0x2fU, 0xffU, 0x87U,
++	0x34U, 0x8eU, 0x43U, 0x44U, 0xc4U, 0xdeU, 0xe9U, 0xcbU,
++	0x54U, 0x7bU, 0x94U, 0x32U, 0xa6U, 0xc2U, 0x23U, 0x3dU,
++	0xeeU, 0x4cU, 0x95U, 0x0bU, 0x42U, 0xfaU, 0xc3U, 0x4eU,
++	0x08U, 0x2eU, 0xa1U, 0x66U, 0x28U, 0xd9U, 0x24U, 0xb2U,
++	0x76U, 0x5bU, 0xa2U, 0x49U, 0x6dU, 0x8bU, 0xd1U, 0x25U,
++	0x72U, 0xf8U, 0xf6U, 0x64U, 0x86U, 0x68U, 0x98U, 0x16U,
++	0xd4U, 0xa4U, 0x5cU, 0xccU, 0x5dU, 0x65U, 0xb6U, 0x92U,
++	0x6cU, 0x70U, 0x48U, 0x50U, 0xfdU, 0xedU, 0xb9U, 0xdaU,
++	0x5eU, 0x15U, 0x46U, 0x57U, 0xa7U, 0x8dU, 0x9dU, 0x84U,
++	0x90U, 0xd8U, 0xabU, 0x00U, 0x8cU, 0xbcU, 0xd3U, 0x0aU,
++	0xf7U, 0xe4U, 0x58U, 0x05U, 0xb8U, 0xb3U, 0x45U, 0x06U,
++	0xd0U, 0x2cU, 0x1eU, 0x8fU, 0xcaU, 0x3fU, 0x0fU, 0x02U,
++	0xc1U, 0xafU, 0xbdU, 0x03U, 0x01U, 0x13U, 0x8aU, 0x6bU,
++	0x3aU, 0x91U, 0x11U, 0x41U, 0x4fU, 0x67U, 0xdcU, 0xeaU,
++	0x97U, 0xf2U, 0xcfU, 0xceU, 0xf0U, 0xb4U, 0xe6U, 0x73U,
++	0x96U, 0xacU, 0x74U, 0x22U, 0xe7U, 0xadU, 0x35U, 0x85U,
++	0xe2U, 0xf9U, 0x37U, 0xe8U, 0x1cU, 0x75U, 0xdfU, 0x6eU,
++	0x47U, 0xf1U, 0x1aU, 0x71U, 0x1dU, 0x29U, 0xc5U, 0x89U,
++	0x6fU, 0xb7U, 0x62U, 0x0eU, 0xaaU, 0x18U, 0xbeU, 0x1bU,
++	0xfcU, 0x56U, 0x3eU, 0x4bU, 0xc6U, 0xd2U, 0x79U, 0x20U,
++	0x9aU, 0xdbU, 0xc0U, 0xfeU, 0x78U, 0xcdU, 0x5aU, 0xf4U,
++	0x1fU, 0xddU, 0xa8U, 0x33U, 0x88U, 0x07U, 0xc7U, 0x31U,
++	0xb1U, 0x12U, 0x10U, 0x59U, 0x27U, 0x80U, 0xecU, 0x5fU,
++	0x60U, 0x51U, 0x7fU, 0xa9U, 0x19U, 0xb5U, 0x4aU, 0x0dU,
++	0x2dU, 0xe5U, 0x7aU, 0x9fU, 0x93U, 0xc9U, 0x9cU, 0xefU,
++	0xa0U, 0xe0U, 0x3bU, 0x4dU, 0xaeU, 0x2aU, 0xf5U, 0xb0U,
++	0xc8U, 0xebU, 0xbbU, 0x3cU, 0x83U, 0x53U, 0x99U, 0x61U,
++	0x17U, 0x2bU, 0x04U, 0x7eU, 0xbaU, 0x77U, 0xd6U, 0x26U,
++	0xe1U, 0x69U, 0x14U, 0x63U, 0x55U, 0x21U, 0x0cU, 0x7dU,
++};
++const u8 rcons[] = {
++	0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0x1B, 0x36
++	/* for 128-bit blocks, Rijndael never uses more than 10 rcon values */
++};
++
++/**
++ * Expand the cipher key into the encryption key schedule.
++ *
++ * @return	the number of rounds for the given cipher key size.
++ */
++#ifndef PLATFORM_FREEBSD /* Baron */
++static void rijndaelKeySetupEnc(u32 rk[/*44*/], const u8 cipherKey[])
++{
++	int i;
++	u32 temp;
++
++	rk[0] = GETU32(cipherKey);
++	rk[1] = GETU32(cipherKey +  4);
++	rk[2] = GETU32(cipherKey +  8);
++	rk[3] = GETU32(cipherKey + 12);
++	for (i = 0; i < 10; i++) {
++		temp  = rk[3];
++		rk[4] = rk[0] ^
++			TE421(temp) ^ TE432(temp) ^ TE443(temp) ^ TE414(temp) ^
++			RCON(i);
++		rk[5] = rk[1] ^ rk[4];
++		rk[6] = rk[2] ^ rk[5];
++		rk[7] = rk[3] ^ rk[6];
++		rk += 4;
++	}
++}
++
++static void rijndaelEncrypt(u32 rk[/*44*/], u8 pt[16], u8 ct[16])
++{
++	u32 s0, s1, s2, s3, t0, t1, t2, t3;
++	int Nr = 10;
++#ifndef FULL_UNROLL
++	int r;
++#endif /* ?FULL_UNROLL */
++
++	/*
++	 * map byte array block to cipher state
++	 * and add initial round key:
++	 */
++	s0 = GETU32(pt) ^ rk[0];
++	s1 = GETU32(pt +  4) ^ rk[1];
++	s2 = GETU32(pt +  8) ^ rk[2];
++	s3 = GETU32(pt + 12) ^ rk[3];
++
++#define ROUND(i, d, s) do {\
++	d##0 = TE0(s##0) ^ TE1(s##1) ^ TE2(s##2) ^ TE3(s##3) ^ rk[4 * i]; \
++	d##1 = TE0(s##1) ^ TE1(s##2) ^ TE2(s##3) ^ TE3(s##0) ^ rk[4 * i + 1]; \
++	d##2 = TE0(s##2) ^ TE1(s##3) ^ TE2(s##0) ^ TE3(s##1) ^ rk[4 * i + 2]; \
++	d##3 = TE0(s##3) ^ TE1(s##0) ^ TE2(s##1) ^ TE3(s##2) ^ rk[4 * i + 3]; \
++	} while (0)
++
++#ifdef FULL_UNROLL
++
++	ROUND(1, t, s);
++	ROUND(2, s, t);
++	ROUND(3, t, s);
++	ROUND(4, s, t);
++	ROUND(5, t, s);
++	ROUND(6, s, t);
++	ROUND(7, t, s);
++	ROUND(8, s, t);
++	ROUND(9, t, s);
++
++	rk += Nr << 2;
++
++#else  /* !FULL_UNROLL */
++
++	/* Nr - 1 full rounds: */
++	r = Nr >> 1;
++	for (;;) {
++		ROUND(1, t, s);
++		rk += 8;
++		if (--r == 0)
++			break;
++		ROUND(0, s, t);
++	}
++
++#endif /* ?FULL_UNROLL */
++
++#undef ROUND
++
++	/*
++	 * apply last round and
++	 * map cipher state to byte array block:
++	 */
++	s0 = TE41(t0) ^ TE42(t1) ^ TE43(t2) ^ TE44(t3) ^ rk[0];
++	PUTU32(ct     , s0);
++	s1 = TE41(t1) ^ TE42(t2) ^ TE43(t3) ^ TE44(t0) ^ rk[1];
++	PUTU32(ct +  4, s1);
++	s2 = TE41(t2) ^ TE42(t3) ^ TE43(t0) ^ TE44(t1) ^ rk[2];
++	PUTU32(ct +  8, s2);
++	s3 = TE41(t3) ^ TE42(t0) ^ TE43(t1) ^ TE44(t2) ^ rk[3];
++	PUTU32(ct + 12, s3);
++}
++
++static void *aes_encrypt_init(u8 *key, size_t len)
++{
++	u32 *rk;
++	if (len != 16)
++		return NULL;
++	rk = (u32 *)rtw_malloc(AES_PRIV_SIZE);
++	if (rk == NULL)
++		return NULL;
++	rijndaelKeySetupEnc(rk, key);
++	return rk;
++}
++
++static void aes_128_encrypt(void *ctx, u8 *plain, u8 *crypt)
++{
++	rijndaelEncrypt(ctx, plain, crypt);
++}
++
++
++static void gf_mulx(u8 *pad)
++{
++	int i, carry;
++
++	carry = pad[0] & 0x80;
++	for (i = 0; i < AES_BLOCK_SIZE - 1; i++)
++		pad[i] = (pad[i] << 1) | (pad[i + 1] >> 7);
++	pad[AES_BLOCK_SIZE - 1] <<= 1;
++	if (carry)
++		pad[AES_BLOCK_SIZE - 1] ^= 0x87;
++}
++
++static void aes_encrypt_deinit(void *ctx)
++{
++	_rtw_memset(ctx, 0, AES_PRIV_SIZE);
++	rtw_mfree(ctx, AES_PRIV_SIZE);
++}
++
++
++/**
++ * omac1_aes_128_vector - One-Key CBC MAC (OMAC1) hash with AES-128
++ * @key: 128-bit key for the hash operation
++ * @num_elem: Number of elements in the data vector
++ * @addr: Pointers to the data areas
++ * @len: Lengths of the data blocks
++ * @mac: Buffer for MAC (128 bits, i.e., 16 bytes)
++ * Returns: 0 on success, -1 on failure
++ *
++ * This is a mode for using block cipher (AES in this case) for authentication.
++ * OMAC1 was standardized with the name CMAC by NIST in a Special Publication
++ * (SP) 800-38B.
++ */
++static int omac1_aes_128_vector(u8 *key, size_t num_elem,
++				u8 *addr[], size_t *len, u8 *mac)
++{
++	void *ctx;
++	u8 cbc[AES_BLOCK_SIZE], pad[AES_BLOCK_SIZE];
++	u8 *pos, *end;
++	size_t i, e, left, total_len;
++
++	ctx = aes_encrypt_init(key, 16);
++	if (ctx == NULL)
++		return -1;
++	_rtw_memset(cbc, 0, AES_BLOCK_SIZE);
++
++	total_len = 0;
++	for (e = 0; e < num_elem; e++)
++		total_len += len[e];
++	left = total_len;
++
++	e = 0;
++	pos = addr[0];
++	end = pos + len[0];
++
++	while (left >= AES_BLOCK_SIZE) {
++		for (i = 0; i < AES_BLOCK_SIZE; i++) {
++			cbc[i] ^= *pos++;
++			if (pos >= end) {
++				e++;
++				pos = addr[e];
++				end = pos + len[e];
++			}
++		}
++		if (left > AES_BLOCK_SIZE)
++			aes_128_encrypt(ctx, cbc, cbc);
++		left -= AES_BLOCK_SIZE;
++	}
++
++	_rtw_memset(pad, 0, AES_BLOCK_SIZE);
++	aes_128_encrypt(ctx, pad, pad);
++	gf_mulx(pad);
++
++	if (left || total_len == 0) {
++		for (i = 0; i < left; i++) {
++			cbc[i] ^= *pos++;
++			if (pos >= end) {
++				e++;
++				pos = addr[e];
++				end = pos + len[e];
++			}
++		}
++		cbc[left] ^= 0x80;
++		gf_mulx(pad);
++	}
++
++	for (i = 0; i < AES_BLOCK_SIZE; i++)
++		pad[i] ^= cbc[i];
++	aes_128_encrypt(ctx, pad, mac);
++	aes_encrypt_deinit(ctx);
++	return 0;
++}
++
++
++/**
++ * omac1_aes_128 - One-Key CBC MAC (OMAC1) hash with AES-128 (aka AES-CMAC)
++ * @key: 128-bit key for the hash operation
++ * @data: Data buffer for which a MAC is determined
++ * @data_len: Length of data buffer in bytes
++ * @mac: Buffer for MAC (128 bits, i.e., 16 bytes)
++ * Returns: 0 on success, -1 on failure
++ *
++ * This is a mode for using block cipher (AES in this case) for authentication.
++ * OMAC1 was standardized with the name CMAC by NIST in a Special Publication
++ * (SP) 800-38B.
++ */ /* modify for CONFIG_IEEE80211W */
++int omac1_aes_128(u8 *key, u8 *data, size_t data_len, u8 *mac)
++{
++	return omac1_aes_128_vector(key, 1, &data, &data_len, mac);
++}
++#endif /* PLATFORM_FREEBSD Baron */
++
++#ifdef CONFIG_TDLS
++void wpa_tdls_generate_tpk(_adapter *padapter, PVOID sta)
++{
++	struct sta_info *psta = (struct sta_info *)sta;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	u8 *SNonce = psta->SNonce;
++	u8 *ANonce = psta->ANonce;
++
++	u8 key_input[SHA256_MAC_LEN];
++	u8 *nonce[2];
++	size_t len[2];
++	u8 data[3 * ETH_ALEN];
++
++	/* IEEE Std 802.11z-2010 8.5.9.1:
++	 * TPK-Key-Input = SHA-256(min(SNonce, ANonce) || max(SNonce, ANonce))
++	 */
++	len[0] = 32;
++	len[1] = 32;
++	if (os_memcmp(SNonce, ANonce, 32) < 0) {
++		nonce[0] = SNonce;
++		nonce[1] = ANonce;
++	} else {
++		nonce[0] = ANonce;
++		nonce[1] = SNonce;
++	}
++
++	sha256_vector(2, nonce, len, key_input);
++
++	/*
++	 * TPK-Key-Data = KDF-N_KEY(TPK-Key-Input, "TDLS PMK",
++	 *	min(MAC_I, MAC_R) || max(MAC_I, MAC_R) || BSSID || N_KEY)
++	 * TODO: is N_KEY really included in KDF Context and if so, in which
++	 * presentation format (little endian 16-bit?) is it used? It gets
++	 * added by the KDF anyway..
++	 */
++
++	if (os_memcmp(adapter_mac_addr(padapter), psta->hwaddr, ETH_ALEN) < 0) {
++		_rtw_memcpy(data, adapter_mac_addr(padapter), ETH_ALEN);
++		_rtw_memcpy(data + ETH_ALEN, psta->hwaddr, ETH_ALEN);
++	} else {
++		_rtw_memcpy(data, psta->hwaddr, ETH_ALEN);
++		_rtw_memcpy(data + ETH_ALEN, adapter_mac_addr(padapter), ETH_ALEN);
++	}
++	_rtw_memcpy(data + 2 * ETH_ALEN, get_bssid(pmlmepriv), ETH_ALEN);
++
++	sha256_prf(key_input, SHA256_MAC_LEN, "TDLS PMK", data, sizeof(data), (u8 *) &psta->tpk, sizeof(psta->tpk));
++
++
++}
++
++/**
++ * wpa_tdls_ftie_mic - Calculate TDLS FTIE MIC
++ * @kck: TPK-KCK
++ * @lnkid: Pointer to the beginning of Link Identifier IE
++ * @rsnie: Pointer to the beginning of RSN IE used for handshake
++ * @timeoutie: Pointer to the beginning of Timeout IE used for handshake
++ * @ftie: Pointer to the beginning of FT IE
++ * @mic: Pointer for writing MIC
++ *
++ * Calculate MIC for TDLS frame.
++ */
++int wpa_tdls_ftie_mic(u8 *kck, u8 trans_seq,
++		      u8 *lnkid, u8 *rsnie, u8 *timeoutie, u8 *ftie,
++		      u8 *mic)
++{
++	u8 *buf, *pos;
++	struct wpa_tdls_ftie *_ftie;
++	struct wpa_tdls_lnkid *_lnkid;
++	int ret;
++	int len = 2 * ETH_ALEN + 1 + 2 + lnkid[1] + 2 + rsnie[1] +
++		  2 + timeoutie[1] + 2 + ftie[1];
++	buf = rtw_zmalloc(len);
++	if (!buf) {
++		RTW_INFO("TDLS: No memory for MIC calculation\n");
++		return -1;
++	}
++
++	pos = buf;
++	_lnkid = (struct wpa_tdls_lnkid *) lnkid;
++	/* 1) TDLS initiator STA MAC address */
++	_rtw_memcpy(pos, _lnkid->init_sta, ETH_ALEN);
++	pos += ETH_ALEN;
++	/* 2) TDLS responder STA MAC address */
++	_rtw_memcpy(pos, _lnkid->resp_sta, ETH_ALEN);
++	pos += ETH_ALEN;
++	/* 3) Transaction Sequence number */
++	*pos++ = trans_seq;
++	/* 4) Link Identifier IE */
++	_rtw_memcpy(pos, lnkid, 2 + lnkid[1]);
++	pos += 2 + lnkid[1];
++	/* 5) RSN IE */
++	_rtw_memcpy(pos, rsnie, 2 + rsnie[1]);
++	pos += 2 + rsnie[1];
++	/* 6) Timeout Interval IE */
++	_rtw_memcpy(pos, timeoutie, 2 + timeoutie[1]);
++	pos += 2 + timeoutie[1];
++	/* 7) FTIE, with the MIC field of the FTIE set to 0 */
++	_rtw_memcpy(pos, ftie, 2 + ftie[1]);
++	_ftie = (struct wpa_tdls_ftie *) pos;
++	_rtw_memset(_ftie->mic, 0, TDLS_MIC_LEN);
++	pos += 2 + ftie[1];
++
++	ret = omac1_aes_128(kck, buf, pos - buf, mic);
++	rtw_mfree(buf, len);
++	return ret;
++
++}
++
++/**
++ * wpa_tdls_teardown_ftie_mic - Calculate TDLS TEARDOWN FTIE MIC
++ * @kck: TPK-KCK
++ * @lnkid: Pointer to the beginning of Link Identifier IE
++ * @reason: Reason code of TDLS Teardown
++ * @dialog_token: Dialog token that was used in the MIC calculation for TPK Handshake Message 3
++ * @trans_seq: Transaction Sequence number (1 octet) which shall be set to the value 4
++ * @ftie: Pointer to the beginning of FT IE
++ * @mic: Pointer for writing MIC
++ *
++ * Calculate MIC for TDLS TEARDOWN frame according to Section 10.22.5 in IEEE 802.11 - 2012.
++ */
++int wpa_tdls_teardown_ftie_mic(u8 *kck, u8 *lnkid, u16 reason,
++			       u8 dialog_token, u8 trans_seq, u8 *ftie, u8 *mic)
++{
++	u8 *buf, *pos;
++	struct wpa_tdls_ftie *_ftie;
++	int ret;
++	int len = 2 + lnkid[1] + 2 + 1 + 1 + 2 + ftie[1];
++
++	buf = rtw_zmalloc(len);
++	if (!buf) {
++		RTW_INFO("TDLS: No memory for MIC calculation\n");
++		return -1;
++	}
++
++	pos = buf;
++	/* 1) Link Identifier IE */
++	_rtw_memcpy(pos, lnkid, 2 + lnkid[1]);
++	pos += 2 + lnkid[1];
++	/* 2) Reason Code */
++	_rtw_memcpy(pos, (u8 *)&reason, 2);
++	pos += 2;
++	/* 3) Dialog Token */
++	*pos++ = dialog_token;
++	/* 4) Transaction Sequence number */
++	*pos++ = trans_seq;
++	/* 5) FTIE, with the MIC field of the FTIE set to 0 */
++	_rtw_memcpy(pos, ftie, 2 + ftie[1]);
++	_ftie = (struct wpa_tdls_ftie *) pos;
++	_rtw_memset(_ftie->mic, 0, TDLS_MIC_LEN);
++	pos += 2 + ftie[1];
++
++	ret = omac1_aes_128(kck, buf, pos - buf, mic);
++	rtw_mfree(buf, len);
++	return ret;
++
++}
++
++int tdls_verify_mic(u8 *kck, u8 trans_seq,
++		    u8 *lnkid, u8 *rsnie, u8 *timeoutie, u8 *ftie)
++{
++	u8 *buf, *pos;
++	int len;
++	u8 mic[16];
++	int ret;
++	u8 *rx_ftie, *tmp_ftie;
++
++	if (lnkid == NULL || rsnie == NULL ||
++	    timeoutie == NULL || ftie == NULL)
++		return _FAIL;
++
++	len = 2 * ETH_ALEN + 1 + 2 + 18 + 2 + *(rsnie + 1) + 2 + *(timeoutie + 1) + 2 + *(ftie + 1);
++
++	buf = rtw_zmalloc(len);
++	if (buf == NULL)
++		return _FAIL;
++
++	pos = buf;
++	/* 1) TDLS initiator STA MAC address */
++	_rtw_memcpy(pos, lnkid + ETH_ALEN + 2, ETH_ALEN);
++	pos += ETH_ALEN;
++	/* 2) TDLS responder STA MAC address */
++	_rtw_memcpy(pos, lnkid + 2 * ETH_ALEN + 2, ETH_ALEN);
++	pos += ETH_ALEN;
++	/* 3) Transaction Sequence number */
++	*pos++ = trans_seq;
++	/* 4) Link Identifier IE */
++	_rtw_memcpy(pos, lnkid, 2 + 18);
++	pos += 2 + 18;
++	/* 5) RSN IE */
++	_rtw_memcpy(pos, rsnie, 2 + *(rsnie + 1));
++	pos += 2 + *(rsnie + 1);
++	/* 6) Timeout Interval IE */
++	_rtw_memcpy(pos, timeoutie, 2 + *(timeoutie + 1));
++	pos += 2 + *(timeoutie + 1);
++	/* 7) FTIE, with the MIC field of the FTIE set to 0 */
++	_rtw_memcpy(pos, ftie, 2 + *(ftie + 1));
++	pos += 2;
++	tmp_ftie = (u8 *)(pos + 2);
++	_rtw_memset(tmp_ftie, 0, 16);
++	pos += *(ftie + 1);
++
++	ret = omac1_aes_128(kck, buf, pos - buf, mic);
++	rtw_mfree(buf, len);
++	if (ret)
++		return _FAIL;
++	rx_ftie = ftie + 4;
++
++	if (os_memcmp(mic, rx_ftie, 16) == 0) {
++		/* Valid MIC */
++		return _SUCCESS;
++	}
++
++	/* Invalid MIC */
++	RTW_INFO("[%s] Invalid MIC\n", __FUNCTION__);
++	return _FAIL;
++
++}
++#endif /* CONFIG_TDLS */
++
++void rtw_use_tkipkey_handler(RTW_TIMER_HDL_ARGS)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++
++
++
++	/*
++		if (RTW_CANNOT_RUN(padapter)) {
++
++			return;
++		}
++		*/
++
++	padapter->securitypriv.busetkipkey = _TRUE;
++
++
++
++}
++
++/* Restore HW wep key setting according to key_mask */
++void rtw_sec_restore_wep_key(_adapter *adapter)
++{
++	struct security_priv *securitypriv = &(adapter->securitypriv);
++	sint keyid;
++
++	if ((_WEP40_ == securitypriv->dot11PrivacyAlgrthm) || (_WEP104_ == securitypriv->dot11PrivacyAlgrthm)) {
++		for (keyid = 0; keyid < 4; keyid++) {
++			if (securitypriv->key_mask & BIT(keyid)) {
++				if (keyid == securitypriv->dot11PrivacyKeyIndex)
++					rtw_set_key(adapter, securitypriv, keyid, 1, _FALSE);
++				else
++					rtw_set_key(adapter, securitypriv, keyid, 0, _FALSE);
++			}
++		}
++	}
++}
++
++u8 rtw_handle_tkip_countermeasure(_adapter *adapter, const char *caller)
++{
++	struct security_priv *securitypriv = &(adapter->securitypriv);
++	u8 status = _SUCCESS;
++
++	if (securitypriv->btkip_countermeasure == _TRUE) {
++		u32 passing_ms = rtw_get_passing_time_ms(securitypriv->btkip_countermeasure_time);
++		if (passing_ms > 60 * 1000) {
++			RTW_PRINT("%s("ADPT_FMT") countermeasure time:%ds > 60s\n",
++				  caller, ADPT_ARG(adapter), passing_ms / 1000);
++			securitypriv->btkip_countermeasure = _FALSE;
++			securitypriv->btkip_countermeasure_time = 0;
++		} else {
++			RTW_PRINT("%s("ADPT_FMT") countermeasure time:%ds < 60s\n",
++				  caller, ADPT_ARG(adapter), passing_ms / 1000);
++			status = _FAIL;
++		}
++	}
++
++	return status;
++}
++
++#ifdef CONFIG_WOWLAN
++u16 rtw_cal_crc16(u8 data, u16 crc)
++{
++	u8 shift_in, data_bit;
++	u8 crc_bit4, crc_bit11, crc_bit15;
++	u16 crc_result;
++	int index;
++
++	for (index = 0; index < 8; index++) {
++		crc_bit15 = ((crc & BIT15) ? 1 : 0);
++		data_bit = (data & (BIT0 << index) ? 1 : 0);
++		shift_in = crc_bit15 ^ data_bit;
++		/*printf("crc_bit15=%d, DataBit=%d, shift_in=%d\n",
++		 * crc_bit15, data_bit, shift_in);*/
++
++		crc_result = crc << 1;
++
++		if (shift_in == 0)
++			crc_result &= (~BIT0);
++		else
++			crc_result |= BIT0;
++		/*printf("CRC =%x\n",CRC_Result);*/
++
++		crc_bit11 = ((crc & BIT11) ? 1 : 0) ^ shift_in;
++
++		if (crc_bit11 == 0)
++			crc_result &= (~BIT12);
++		else
++			crc_result |= BIT12;
++
++		/*printf("bit12 CRC =%x\n",CRC_Result);*/
++
++		crc_bit4 = ((crc & BIT4) ? 1 : 0) ^ shift_in;
++
++		if (crc_bit4 == 0)
++			crc_result &= (~BIT5);
++		else
++			crc_result |= BIT5;
++
++		/* printf("bit5 CRC =%x\n",CRC_Result); */
++		/* repeat using the last result*/
++		crc = crc_result;
++	}
++	return crc;
++}
++
++/*
++ * function name :rtw_calc_crc
++ *
++ * input: char* pattern , pattern size
++ *
++ */
++u16 rtw_calc_crc(u8  *pdata, int length)
++{
++	u16 crc = 0xffff;
++	int i;
++
++	for (i = 0; i < length; i++)
++		crc = rtw_cal_crc16(pdata[i], crc);
++	/* get 1' complement */
++	crc = ~crc;
++
++	return crc;
++}
++#endif /*CONFIG_WOWLAN*/
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_sreset.c b/drivers/net/wireless/rtl8723du/core/rtw_sreset.c
+new file mode 100644
+index 0000000..00f81d9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_sreset.c
+@@ -0,0 +1,346 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include <drv_types.h>
++#include <hal_data.h>
++#include <rtw_sreset.h>
++
++void sreset_init_value(_adapter *padapter)
++{
++#if defined(DBG_CONFIG_ERROR_DETECT)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++
++	_rtw_mutex_init(&psrtpriv->silentreset_mutex);
++	psrtpriv->silent_reset_inprogress = _FALSE;
++	psrtpriv->Wifi_Error_Status = WIFI_STATUS_SUCCESS;
++	psrtpriv->last_tx_time = 0;
++	psrtpriv->last_tx_complete_time = 0;
++#endif
++}
++void sreset_reset_value(_adapter *padapter)
++{
++#if defined(DBG_CONFIG_ERROR_DETECT)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++
++	psrtpriv->Wifi_Error_Status = WIFI_STATUS_SUCCESS;
++	psrtpriv->last_tx_time = 0;
++	psrtpriv->last_tx_complete_time = 0;
++#endif
++}
++
++u8 sreset_get_wifi_status(_adapter *padapter)
++{
++#if defined(DBG_CONFIG_ERROR_DETECT)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++
++	u8 status = WIFI_STATUS_SUCCESS;
++	u32 val32 = 0;
++	_irqL irqL;
++	if (psrtpriv->silent_reset_inprogress == _TRUE)
++		return status;
++	val32 = rtw_read32(padapter, REG_TXDMA_STATUS);
++	if (val32 == 0xeaeaeaea)
++		psrtpriv->Wifi_Error_Status = WIFI_IF_NOT_EXIST;
++	else if (val32 != 0) {
++		RTW_INFO("txdmastatu(%x)\n", val32);
++		psrtpriv->Wifi_Error_Status = WIFI_MAC_TXDMA_ERROR;
++	}
++
++	if (WIFI_STATUS_SUCCESS != psrtpriv->Wifi_Error_Status) {
++		RTW_INFO("==>%s error_status(0x%x)\n", __FUNCTION__, psrtpriv->Wifi_Error_Status);
++		status = (psrtpriv->Wifi_Error_Status & (~(USB_READ_PORT_FAIL | USB_WRITE_PORT_FAIL)));
++	}
++	RTW_INFO("==> %s wifi_status(0x%x)\n", __FUNCTION__, status);
++
++	/* status restore */
++	psrtpriv->Wifi_Error_Status = WIFI_STATUS_SUCCESS;
++
++	return status;
++#else
++	return WIFI_STATUS_SUCCESS;
++#endif
++}
++
++void sreset_set_wifi_error_status(_adapter *padapter, u32 status)
++{
++#if defined(DBG_CONFIG_ERROR_DETECT)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	pHalData->srestpriv.Wifi_Error_Status = status;
++#endif
++}
++
++void sreset_set_trigger_point(_adapter *padapter, s32 tgp)
++{
++#if defined(DBG_CONFIG_ERROR_DETECT)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	pHalData->srestpriv.dbg_trigger_point = tgp;
++#endif
++}
++
++bool sreset_inprogress(_adapter *padapter)
++{
++#if defined(DBG_CONFIG_ERROR_RESET)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	return pHalData->srestpriv.silent_reset_inprogress;
++#else
++	return _FALSE;
++#endif
++}
++
++void sreset_restore_security_station(_adapter *padapter)
++{
++	u8 EntryId = 0;
++	struct mlme_priv *mlmepriv = &padapter->mlmepriv;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta;
++	struct security_priv *psecuritypriv = &(padapter->securitypriv);
++	struct mlme_ext_info	*pmlmeinfo = &padapter->mlmeextpriv.mlmext_info;
++
++	{
++		u8 val8;
++
++		if (pmlmeinfo->auth_algo == dot11AuthAlgrthm_8021X) {
++			val8 = 0xcc;
++#ifdef CONFIG_WAPI_SUPPORT
++		} else if (padapter->wapiInfo.bWapiEnable && pmlmeinfo->auth_algo == dot11AuthAlgrthm_WAPI) {
++			/* Disable TxUseDefaultKey, RxUseDefaultKey, RxBroadcastUseDefaultKey. */
++			val8 = 0x4c;
++#endif
++		} else
++			val8 = 0xcf;
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, (u8 *)(&val8));
++	}
++
++#if 0
++	if ((padapter->securitypriv.dot11PrivacyAlgrthm == _WEP40_) ||
++	    (padapter->securitypriv.dot11PrivacyAlgrthm == _WEP104_)) {
++
++		for (EntryId = 0; EntryId < 4; EntryId++) {
++			if (EntryId == psecuritypriv->dot11PrivacyKeyIndex)
++				rtw_set_key(padapter, &padapter->securitypriv, EntryId, 1, _FALSE);
++			else
++				rtw_set_key(padapter, &padapter->securitypriv, EntryId, 0, _FALSE);
++		}
++
++	} else
++#endif
++		if ((padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_) ||
++		    (padapter->securitypriv.dot11PrivacyAlgrthm == _AES_)) {
++			psta = rtw_get_stainfo(pstapriv, get_bssid(mlmepriv));
++			if (psta == NULL) {
++				/* DEBUG_ERR( ("Set wpa_set_encryption: Obtain Sta_info fail\n")); */
++			} else {
++				/* pairwise key */
++				rtw_setstakey_cmd(padapter, psta, UNICAST_KEY, _FALSE);
++				/* group key */
++				rtw_set_key(padapter, &padapter->securitypriv, padapter->securitypriv.dot118021XGrpKeyid, 0, _FALSE);
++			}
++		}
++}
++
++void sreset_restore_network_station(_adapter *padapter)
++{
++	struct mlme_priv *mlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 doiqk = _FALSE;
++
++#if 0
++	{
++		/* ======================================================= */
++		/* reset related register of Beacon control */
++
++		/* set MSR to nolink */
++		Set_MSR(padapter, _HW_STATE_NOLINK_);
++		/* reject all data frame */
++		rtw_write16(padapter, REG_RXFLTMAP2, 0x00);
++		/* reset TSF */
++		rtw_write8(padapter, REG_DUAL_TSF_RST, (BIT(0) | BIT(1)));
++
++		/* disable update TSF */
++		SetBcnCtrlReg(padapter, BIT(4), 0);
++
++		/* ======================================================= */
++	}
++#endif
++
++	rtw_setopmode_cmd(padapter, Ndis802_11Infrastructure, _FALSE);
++
++	{
++		u8 threshold;
++#ifdef CONFIG_USB_HCI
++		/* TH=1 => means that invalidate usb rx aggregation */
++		/* TH=0 => means that validate usb rx aggregation, use init value. */
++		if (mlmepriv->htpriv.ht_option) {
++			if (padapter->registrypriv.wifi_spec == 1)
++				threshold = 1;
++			else
++				threshold = 0;
++			rtw_hal_set_hwreg(padapter, HW_VAR_RXDMA_AGG_PG_TH, (u8 *)(&threshold));
++		} else {
++			threshold = 1;
++			rtw_hal_set_hwreg(padapter, HW_VAR_RXDMA_AGG_PG_TH, (u8 *)(&threshold));
++		}
++#endif
++	}
++
++	doiqk = _TRUE;
++	rtw_hal_set_hwreg(padapter, HW_VAR_DO_IQK , &doiqk);
++
++	set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++
++	doiqk = _FALSE;
++	rtw_hal_set_hwreg(padapter , HW_VAR_DO_IQK , &doiqk);
++	/* disable dynamic functions, such as high power, DIG */
++	/*rtw_phydm_func_disable_all(padapter);*/
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, pmlmeinfo->network.MacAddress);
++
++	{
++		u8	join_type = 0;
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
++	}
++
++	Set_MSR(padapter, (pmlmeinfo->state & 0x3));
++
++	mlmeext_joinbss_event_callback(padapter, 1);
++	/* restore Sequence No. */
++	rtw_hal_set_hwreg(padapter, HW_VAR_RESTORE_HW_SEQ, 0);
++
++	sreset_restore_security_station(padapter);
++}
++
++
++void sreset_restore_network_status(_adapter *padapter)
++{
++	struct mlme_priv *mlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (check_fwstate(mlmepriv, WIFI_STATION_STATE)) {
++		RTW_INFO(FUNC_ADPT_FMT" fwstate:0x%08x - WIFI_STATION_STATE\n", FUNC_ADPT_ARG(padapter), get_fwstate(mlmepriv));
++		sreset_restore_network_station(padapter);
++	} else if (check_fwstate(mlmepriv, WIFI_AP_STATE)) {
++		RTW_INFO(FUNC_ADPT_FMT" fwstate:0x%08x - WIFI_AP_STATE\n", FUNC_ADPT_ARG(padapter), get_fwstate(mlmepriv));
++		rtw_ap_restore_network(padapter);
++	} else if (check_fwstate(mlmepriv, WIFI_ADHOC_STATE))
++		RTW_INFO(FUNC_ADPT_FMT" fwstate:0x%08x - WIFI_ADHOC_STATE\n", FUNC_ADPT_ARG(padapter), get_fwstate(mlmepriv));
++	else
++		RTW_INFO(FUNC_ADPT_FMT" fwstate:0x%08x - ???\n", FUNC_ADPT_ARG(padapter), get_fwstate(mlmepriv));
++}
++
++void sreset_stop_adapter(_adapter *padapter)
++{
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++
++	if (padapter == NULL)
++		return;
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++	rtw_netif_stop_queue(padapter->pnetdev);
++
++	rtw_cancel_all_timer(padapter);
++
++	/* TODO: OS and HCI independent */
++#if defined(PLATFORM_LINUX) && defined(CONFIG_USB_HCI)
++	tasklet_kill(&pxmitpriv->xmit_tasklet);
++#endif
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY))
++		rtw_scan_abort(padapter);
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING)) {
++		rtw_set_to_roam(padapter, 0);
++		_rtw_join_timeout_handler(padapter);
++	}
++
++}
++
++void sreset_start_adapter(_adapter *padapter)
++{
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++
++	if (padapter == NULL)
++		return;
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED))
++		sreset_restore_network_status(padapter);
++
++	/* TODO: OS and HCI independent */
++#if defined(PLATFORM_LINUX) && defined(CONFIG_USB_HCI)
++	tasklet_hi_schedule(&pxmitpriv->xmit_tasklet);
++#endif
++
++	if (is_primary_adapter(padapter))
++		_set_timer(&padapter->mlmepriv.dynamic_chk_timer, 2000);
++
++	rtw_netif_wake_queue(padapter->pnetdev);
++}
++
++void sreset_reset(_adapter *padapter)
++{
++#ifdef DBG_CONFIG_ERROR_RESET
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	_irqL irqL;
++	u32 start = rtw_get_current_time();
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	psrtpriv->Wifi_Error_Status = WIFI_STATUS_SUCCESS;
++
++
++#ifdef CONFIG_LPS
++	rtw_set_ps_mode(padapter, PS_MODE_ACTIVE, 0, 0, "SRESET");
++#endif/* #ifdef CONFIG_LPS */
++
++	_enter_pwrlock(&pwrpriv->lock);
++
++	psrtpriv->silent_reset_inprogress = _TRUE;
++	pwrpriv->change_rfpwrstate = rf_off;
++
++	rtw_mi_sreset_adapter_hdl(padapter, _FALSE);/*sreset_stop_adapter*/
++#ifdef CONFIG_IPS
++	_ips_enter(padapter);
++	_ips_leave(padapter);
++#endif
++	rtw_mi_sreset_adapter_hdl(padapter, _TRUE);/*sreset_start_adapter*/
++
++	psrtpriv->silent_reset_inprogress = _FALSE;
++
++	_exit_pwrlock(&pwrpriv->lock);
++
++	RTW_INFO("%s done in %d ms\n", __FUNCTION__, rtw_get_passing_time_ms(start));
++	pdbgpriv->dbg_sreset_cnt++;
++#endif
++}
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_sta_mgt.c b/drivers/net/wireless/rtl8723du/core/rtw_sta_mgt.c
+new file mode 100644
+index 0000000..478ec87
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_sta_mgt.c
+@@ -0,0 +1,976 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_STA_MGT_C_
++
++#include <drv_types.h>
++
++#if defined(PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++
++	#error "Shall be Linux or Windows, but not both!\n"
++
++#endif
++
++
++bool test_st_match_rule(_adapter *adapter, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port)
++{
++	if (ntohs(*((u16 *)local_port)) == 5001 || ntohs(*((u16 *)remote_port)) == 5001)
++		return _TRUE;
++	return _FALSE;
++}
++
++struct st_register test_st_reg = {
++	.s_proto = 0x06,
++	.rule = test_st_match_rule,
++};
++
++inline void rtw_st_ctl_init(struct st_ctl_t *st_ctl)
++{
++	_rtw_memset(st_ctl->reg, 0 , sizeof(struct st_register) * SESSION_TRACKER_REG_ID_NUM);
++	_rtw_init_queue(&st_ctl->tracker_q);
++}
++
++inline void rtw_st_ctl_clear_tracker_q(struct st_ctl_t *st_ctl)
++{
++	_irqL irqL;
++	_list *plist, *phead;
++	struct session_tracker *st;
++
++	_enter_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++	phead = &st_ctl->tracker_q.queue;
++	plist = get_next(phead);
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		st = LIST_CONTAINOR(plist, struct session_tracker, list);
++		plist = get_next(plist);
++		rtw_list_delete(&st->list);
++		rtw_mfree((u8 *)st, sizeof(struct session_tracker));
++	}
++	_exit_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++}
++
++inline void rtw_st_ctl_deinit(struct st_ctl_t *st_ctl)
++{
++	rtw_st_ctl_clear_tracker_q(st_ctl);
++	_rtw_deinit_queue(&st_ctl->tracker_q);
++}
++
++inline void rtw_st_ctl_register(struct st_ctl_t *st_ctl, u8 st_reg_id, struct st_register *reg)
++{
++	if (st_reg_id >= SESSION_TRACKER_REG_ID_NUM) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	st_ctl->reg[st_reg_id].s_proto = reg->s_proto;
++	st_ctl->reg[st_reg_id].rule = reg->rule;
++}
++
++inline void rtw_st_ctl_unregister(struct st_ctl_t *st_ctl, u8 st_reg_id)
++{
++	int i;
++
++	if (st_reg_id >= SESSION_TRACKER_REG_ID_NUM) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	st_ctl->reg[st_reg_id].s_proto = 0;
++	st_ctl->reg[st_reg_id].rule = NULL;
++
++	/* clear tracker queue if no session trecker registered */
++	for (i = 0; i < SESSION_TRACKER_REG_ID_NUM; i++)
++		if (st_ctl->reg[i].s_proto != 0)
++			break;
++	if (i >= SESSION_TRACKER_REG_ID_NUM)
++		rtw_st_ctl_clear_tracker_q(st_ctl);
++}
++
++inline bool rtw_st_ctl_chk_reg_s_proto(struct st_ctl_t *st_ctl, u8 s_proto)
++{
++	bool ret = _FALSE;
++	int i;
++
++	for (i = 0; i < SESSION_TRACKER_REG_ID_NUM; i++) {
++		if (st_ctl->reg[i].s_proto == s_proto) {
++			ret = _TRUE;
++			break;
++		}
++	}
++
++	return ret;
++}
++
++inline bool rtw_st_ctl_chk_reg_rule(struct st_ctl_t *st_ctl, _adapter *adapter, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port)
++{
++	bool ret = _FALSE;
++	int i;
++	st_match_rule rule;
++
++	for (i = 0; i < SESSION_TRACKER_REG_ID_NUM; i++) {
++		rule = st_ctl->reg[i].rule;
++		if (rule && rule(adapter, local_naddr, local_port, remote_naddr, remote_port) == _TRUE) {
++			ret = _TRUE;
++			break;
++		}
++	}
++
++	return ret;
++}
++
++#define SESSION_TRACKER_FMT IP_FMT":"PORT_FMT" "IP_FMT":"PORT_FMT" %u %d"
++#define SESSION_TRACKER_ARG(st) IP_ARG(&(st)->local_naddr), PORT_ARG(&(st)->local_port), IP_ARG(&(st)->remote_naddr), PORT_ARG(&(st)->remote_port), (st)->status, rtw_get_passing_time_ms((st)->set_time)
++
++void dump_st_ctl(void *sel, struct st_ctl_t *st_ctl)
++{
++	int i;
++	_irqL irqL;
++	_list *plist, *phead;
++	struct session_tracker *st;
++
++	if (!DBG_SESSION_TRACKER)
++		return;
++
++	for (i = 0; i < SESSION_TRACKER_REG_ID_NUM; i++)
++		RTW_PRINT_SEL(sel, "reg%d: %u %p\n", i, st_ctl->reg[i].s_proto, st_ctl->reg[i].rule);
++
++	_enter_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++	phead = &st_ctl->tracker_q.queue;
++	plist = get_next(phead);
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		st = LIST_CONTAINOR(plist, struct session_tracker, list);
++		plist = get_next(plist);
++
++		RTW_PRINT_SEL(sel, SESSION_TRACKER_FMT"\n", SESSION_TRACKER_ARG(st));
++	}
++	_exit_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++
++}
++
++void _rtw_init_stainfo(struct sta_info *psta);
++void _rtw_init_stainfo(struct sta_info *psta)
++{
++
++
++	_rtw_memset((u8 *)psta, 0, sizeof(struct sta_info));
++
++	_rtw_spinlock_init(&psta->lock);
++	_rtw_init_listhead(&psta->list);
++	_rtw_init_listhead(&psta->hash_list);
++	/* _rtw_init_listhead(&psta->asoc_list); */
++	/* _rtw_init_listhead(&psta->sleep_list); */
++	/* _rtw_init_listhead(&psta->wakeup_list);	 */
++
++	_rtw_init_queue(&psta->sleep_q);
++	psta->sleepq_len = 0;
++
++	_rtw_init_sta_xmit_priv(&psta->sta_xmitpriv);
++	_rtw_init_sta_recv_priv(&psta->sta_recvpriv);
++
++#ifdef CONFIG_AP_MODE
++
++	_rtw_init_listhead(&psta->asoc_list);
++
++	_rtw_init_listhead(&psta->auth_list);
++
++	psta->expire_to = 0;
++
++	psta->flags = 0;
++
++	psta->capability = 0;
++
++	psta->bpairwise_key_installed = _FALSE;
++
++#ifdef CONFIG_RTW_80211R
++	psta->ft_pairwise_key_installed = _FALSE;
++#endif
++
++#ifdef CONFIG_NATIVEAP_MLME
++	psta->nonerp_set = 0;
++	psta->no_short_slot_time_set = 0;
++	psta->no_short_preamble_set = 0;
++	psta->no_ht_gf_set = 0;
++	psta->no_ht_set = 0;
++	psta->ht_20mhz_set = 0;
++	psta->ht_40mhz_intolerant = 0;
++#endif
++
++#ifdef CONFIG_TX_MCAST2UNI
++	psta->under_exist_checking = 0;
++#endif /* CONFIG_TX_MCAST2UNI */
++
++	psta->keep_alive_trycnt = 0;
++
++#endif /* CONFIG_AP_MODE	 */
++
++	rtw_st_ctl_init(&psta->st_ctl);
++
++
++}
++
++u32	_rtw_init_sta_priv(struct	sta_priv *pstapriv)
++{
++	struct sta_info *psta;
++	s32 i;
++
++
++	pstapriv->pallocated_stainfo_buf = rtw_zvmalloc(sizeof(struct sta_info) * NUM_STA + 4);
++
++	if (!pstapriv->pallocated_stainfo_buf)
++		return _FAIL;
++
++	pstapriv->pstainfo_buf = pstapriv->pallocated_stainfo_buf + 4 -
++			 ((SIZE_PTR)(pstapriv->pallocated_stainfo_buf) & 3);
++
++	_rtw_init_queue(&pstapriv->free_sta_queue);
++
++	_rtw_spinlock_init(&pstapriv->sta_hash_lock);
++
++	/* _rtw_init_queue(&pstapriv->asoc_q); */
++	pstapriv->asoc_sta_count = 0;
++	_rtw_init_queue(&pstapriv->sleep_q);
++	_rtw_init_queue(&pstapriv->wakeup_q);
++
++	psta = (struct sta_info *)(pstapriv->pstainfo_buf);
++
++
++	for (i = 0; i < NUM_STA; i++) {
++		_rtw_init_stainfo(psta);
++
++		_rtw_init_listhead(&(pstapriv->sta_hash[i]));
++
++		rtw_list_insert_tail(&psta->list, get_list_head(&pstapriv->free_sta_queue));
++
++		psta++;
++	}
++
++	pstapriv->adhoc_expire_to = 4; /* 4 * 2 = 8 sec */
++
++#ifdef CONFIG_AP_MODE
++
++	pstapriv->sta_dz_bitmap = 0;
++	pstapriv->tim_bitmap = 0;
++
++	_rtw_init_listhead(&pstapriv->asoc_list);
++	_rtw_init_listhead(&pstapriv->auth_list);
++	_rtw_spinlock_init(&pstapriv->asoc_list_lock);
++	_rtw_spinlock_init(&pstapriv->auth_list_lock);
++	pstapriv->asoc_list_cnt = 0;
++	pstapriv->auth_list_cnt = 0;
++
++	pstapriv->auth_to = 3; /* 3*2 = 6 sec */
++	pstapriv->assoc_to = 3;
++	/* pstapriv->expire_to = 900; */ /* 900*2 = 1800 sec = 30 min, expire after no any traffic. */
++	/* pstapriv->expire_to = 30; */ /* 30*2 = 60 sec = 1 min, expire after no any traffic. */
++#ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++	pstapriv->expire_to = 3; /* 3*2 = 6 sec */
++#else
++	pstapriv->expire_to = 60;/* 60*2 = 120 sec = 2 min, expire after no any traffic. */
++#endif
++#ifdef CONFIG_ATMEL_RC_PATCH
++	_rtw_memset(pstapriv->atmel_rc_pattern, 0, ETH_ALEN);
++#endif
++	pstapriv->max_num_sta = NUM_STA;
++
++#endif
++
++#if CONFIG_RTW_MACADDR_ACL
++	_rtw_init_queue(&(pstapriv->acl_list.acl_node_q));
++#endif
++
++
++	return _SUCCESS;
++
++}
++
++inline int rtw_stainfo_offset(struct sta_priv *stapriv, struct sta_info *sta)
++{
++	int offset = (((u8 *)sta) - stapriv->pstainfo_buf) / sizeof(struct sta_info);
++
++	if (!stainfo_offset_valid(offset))
++		RTW_INFO("%s invalid offset(%d), out of range!!!", __func__, offset);
++
++	return offset;
++}
++
++inline struct sta_info *rtw_get_stainfo_by_offset(struct sta_priv *stapriv, int offset)
++{
++	if (!stainfo_offset_valid(offset))
++		RTW_INFO("%s invalid offset(%d), out of range!!!", __func__, offset);
++
++	return (struct sta_info *)(stapriv->pstainfo_buf + offset * sizeof(struct sta_info));
++}
++
++void	_rtw_free_sta_xmit_priv_lock(struct sta_xmit_priv *psta_xmitpriv);
++void	_rtw_free_sta_xmit_priv_lock(struct sta_xmit_priv *psta_xmitpriv)
++{
++
++	_rtw_spinlock_free(&psta_xmitpriv->lock);
++
++	_rtw_spinlock_free(&(psta_xmitpriv->be_q.sta_pending.lock));
++	_rtw_spinlock_free(&(psta_xmitpriv->bk_q.sta_pending.lock));
++	_rtw_spinlock_free(&(psta_xmitpriv->vi_q.sta_pending.lock));
++	_rtw_spinlock_free(&(psta_xmitpriv->vo_q.sta_pending.lock));
++}
++
++static void	_rtw_free_sta_recv_priv_lock(struct sta_recv_priv *psta_recvpriv)
++{
++
++	_rtw_spinlock_free(&psta_recvpriv->lock);
++
++	_rtw_spinlock_free(&(psta_recvpriv->defrag_q.lock));
++
++
++}
++
++void rtw_mfree_stainfo(struct sta_info *psta);
++void rtw_mfree_stainfo(struct sta_info *psta)
++{
++
++	if (&psta->lock != NULL)
++		_rtw_spinlock_free(&psta->lock);
++
++	_rtw_free_sta_xmit_priv_lock(&psta->sta_xmitpriv);
++	_rtw_free_sta_recv_priv_lock(&psta->sta_recvpriv);
++
++}
++
++
++/* this function is used to free the memory of lock || sema for all stainfos */
++void rtw_mfree_all_stainfo(struct sta_priv *pstapriv);
++void rtw_mfree_all_stainfo(struct sta_priv *pstapriv)
++{
++	_irqL	 irqL;
++	_list	*plist, *phead;
++	struct sta_info *psta = NULL;
++
++
++	_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++	phead = get_list_head(&pstapriv->free_sta_queue);
++	plist = get_next(phead);
++
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		psta = LIST_CONTAINOR(plist, struct sta_info , list);
++		plist = get_next(plist);
++
++		rtw_mfree_stainfo(psta);
++	}
++
++	_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++
++}
++
++void rtw_mfree_sta_priv_lock(struct	sta_priv *pstapriv);
++void rtw_mfree_sta_priv_lock(struct	sta_priv *pstapriv)
++{
++	rtw_mfree_all_stainfo(pstapriv); /* be done before free sta_hash_lock */
++
++	_rtw_spinlock_free(&pstapriv->free_sta_queue.lock);
++
++	_rtw_spinlock_free(&pstapriv->sta_hash_lock);
++	_rtw_spinlock_free(&pstapriv->wakeup_q.lock);
++	_rtw_spinlock_free(&pstapriv->sleep_q.lock);
++
++#ifdef CONFIG_AP_MODE
++	_rtw_spinlock_free(&pstapriv->asoc_list_lock);
++	_rtw_spinlock_free(&pstapriv->auth_list_lock);
++#endif
++
++}
++
++u32	_rtw_free_sta_priv(struct	sta_priv *pstapriv)
++{
++	_irqL	irqL;
++	_list	*phead, *plist;
++	struct sta_info *psta = NULL;
++	struct recv_reorder_ctrl *preorder_ctrl;
++	int	index;
++
++	if (pstapriv) {
++
++		/*	delete all reordering_ctrl_timer		*/
++		_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++		for (index = 0; index < NUM_STA; index++) {
++			phead = &(pstapriv->sta_hash[index]);
++			plist = get_next(phead);
++
++			while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++				int i;
++				psta = LIST_CONTAINOR(plist, struct sta_info , hash_list);
++				plist = get_next(plist);
++
++				for (i = 0; i < 16 ; i++) {
++					preorder_ctrl = &psta->recvreorder_ctrl[i];
++					_cancel_timer_ex(&preorder_ctrl->reordering_ctrl_timer);
++				}
++			}
++		}
++		_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++		/*===============================*/
++
++		rtw_mfree_sta_priv_lock(pstapriv);
++
++#if CONFIG_RTW_MACADDR_ACL
++		_rtw_deinit_queue(&(pstapriv->acl_list.acl_node_q));
++#endif
++
++		if (pstapriv->pallocated_stainfo_buf)
++			rtw_vmfree(pstapriv->pallocated_stainfo_buf, sizeof(struct sta_info) * NUM_STA + 4);
++	}
++
++	return _SUCCESS;
++}
++
++
++/* struct	sta_info *rtw_alloc_stainfo(_queue *pfree_sta_queue, unsigned char *hwaddr) */
++struct	sta_info *rtw_alloc_stainfo(struct	sta_priv *pstapriv, u8 *hwaddr)
++{
++	_irqL irqL, irqL2;
++	uint tmp_aid;
++	s32	index;
++	_list	*phash_list;
++	struct sta_info	*psta;
++	_queue *pfree_sta_queue;
++	struct recv_reorder_ctrl *preorder_ctrl;
++	int i = 0;
++	u16  wRxSeqInitialValue = 0xffff;
++
++
++	pfree_sta_queue = &pstapriv->free_sta_queue;
++
++	/* _enter_critical_bh(&(pfree_sta_queue->lock), &irqL); */
++	_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL2);
++	if (_rtw_queue_empty(pfree_sta_queue) == _TRUE) {
++		/* _exit_critical_bh(&(pfree_sta_queue->lock), &irqL); */
++		_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL2);
++		psta = NULL;
++	} else {
++		psta = LIST_CONTAINOR(get_next(&pfree_sta_queue->queue), struct sta_info, list);
++
++		rtw_list_delete(&(psta->list));
++
++		/* _exit_critical_bh(&(pfree_sta_queue->lock), &irqL); */
++
++		tmp_aid = psta->aid;
++
++		_rtw_init_stainfo(psta);
++
++		psta->padapter = pstapriv->padapter;
++
++		_rtw_memcpy(psta->hwaddr, hwaddr, ETH_ALEN);
++
++		index = wifi_mac_hash(hwaddr);
++
++
++		if (index >= NUM_STA) {
++			psta = NULL;
++			goto exit;
++		}
++		phash_list = &(pstapriv->sta_hash[index]);
++
++		/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL2); */
++
++		rtw_list_insert_tail(&psta->hash_list, phash_list);
++
++		pstapriv->asoc_sta_count++;
++
++		/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL2); */
++
++		/* Commented by Albert 2009/08/13
++		 * For the SMC router, the sequence number of first packet of WPS handshake will be 0.
++		 * In this case, this packet will be dropped by recv_decache function if we use the 0x00 as the default value for tid_rxseq variable.
++		 * So, we initialize the tid_rxseq variable as the 0xffff. */
++
++		for (i = 0; i < 16; i++)
++			_rtw_memcpy(&psta->sta_recvpriv.rxcache.tid_rxseq[i], &wRxSeqInitialValue, 2);
++
++
++		init_addba_retry_timer(pstapriv->padapter, psta);
++#ifdef CONFIG_IEEE80211W
++		init_dot11w_expire_timer(pstapriv->padapter, psta);
++#endif /* CONFIG_IEEE80211W */
++#ifdef CONFIG_TDLS
++		rtw_init_tdls_timer(pstapriv->padapter, psta);
++#endif /* CONFIG_TDLS */
++
++		/* for A-MPDU Rx reordering buffer control */
++		for (i = 0; i < 16 ; i++) {
++			preorder_ctrl = &psta->recvreorder_ctrl[i];
++
++			preorder_ctrl->padapter = pstapriv->padapter;
++
++			preorder_ctrl->enable = _FALSE;
++
++			preorder_ctrl->indicate_seq = 0xffff;
++#ifdef DBG_RX_SEQ
++			RTW_INFO("DBG_RX_SEQ %s:%d IndicateSeq: %d\n", __FUNCTION__, __LINE__,
++				 preorder_ctrl->indicate_seq);
++#endif
++			preorder_ctrl->wend_b = 0xffff;
++			/* preorder_ctrl->wsize_b = (NR_RECVBUFF-2); */
++			preorder_ctrl->wsize_b = 64;/* 64; */
++			preorder_ctrl->ampdu_size = RX_AMPDU_SIZE_INVALID;
++
++			_rtw_init_queue(&preorder_ctrl->pending_recvframe_queue);
++
++			rtw_init_recv_timer(preorder_ctrl);
++		}
++
++
++		/* init for DM */
++		psta->rssi_stat.UndecoratedSmoothedPWDB = (-1);
++		psta->rssi_stat.UndecoratedSmoothedCCK = (-1);
++#ifdef CONFIG_ATMEL_RC_PATCH
++		psta->flag_atmel_rc = 0;
++#endif
++		/* init for the sequence number of received management frame */
++		psta->RxMgmtFrameSeqNum = 0xffff;
++		psta->ra_rpt_linked = _FALSE;
++
++		rtw_alloc_macid(pstapriv->padapter, psta);
++
++	}
++
++exit:
++
++	_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL2);
++
++
++	return psta;
++
++
++}
++
++
++/* using pstapriv->sta_hash_lock to protect */
++u32	rtw_free_stainfo(_adapter *padapter , struct sta_info *psta)
++{
++	int i;
++	_irqL irqL0;
++	_queue *pfree_sta_queue;
++	struct recv_reorder_ctrl *preorder_ctrl;
++	struct	sta_xmit_priv	*pstaxmitpriv;
++	struct	xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	struct hw_xmit *phwxmit;
++	int pending_qcnt[4];
++
++
++	if (psta == NULL)
++		goto exit;
++
++	_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL0);
++	rtw_list_delete(&psta->hash_list);
++	pstapriv->asoc_sta_count--;
++	_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL0);
++
++
++	_enter_critical_bh(&psta->lock, &irqL0);
++	psta->state &= ~_FW_LINKED;
++	_exit_critical_bh(&psta->lock, &irqL0);
++
++	pfree_sta_queue = &pstapriv->free_sta_queue;
++
++
++	pstaxmitpriv = &psta->sta_xmitpriv;
++
++	/* rtw_list_delete(&psta->sleep_list); */
++
++	/* rtw_list_delete(&psta->wakeup_list); */
++
++	_enter_critical_bh(&pxmitpriv->lock, &irqL0);
++
++	rtw_free_xmitframe_queue(pxmitpriv, &psta->sleep_q);
++	psta->sleepq_len = 0;
++
++	/* vo */
++	/* _enter_critical_bh(&(pxmitpriv->vo_pending.lock), &irqL0); */
++	rtw_free_xmitframe_queue(pxmitpriv, &pstaxmitpriv->vo_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->vo_q.tx_pending));
++	phwxmit = pxmitpriv->hwxmits;
++	phwxmit->accnt -= pstaxmitpriv->vo_q.qcnt;
++	pending_qcnt[0] = pstaxmitpriv->vo_q.qcnt;
++	pstaxmitpriv->vo_q.qcnt = 0;
++	/* _exit_critical_bh(&(pxmitpriv->vo_pending.lock), &irqL0); */
++
++	/* vi */
++	/* _enter_critical_bh(&(pxmitpriv->vi_pending.lock), &irqL0); */
++	rtw_free_xmitframe_queue(pxmitpriv, &pstaxmitpriv->vi_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->vi_q.tx_pending));
++	phwxmit = pxmitpriv->hwxmits + 1;
++	phwxmit->accnt -= pstaxmitpriv->vi_q.qcnt;
++	pending_qcnt[1] = pstaxmitpriv->vi_q.qcnt;
++	pstaxmitpriv->vi_q.qcnt = 0;
++	/* _exit_critical_bh(&(pxmitpriv->vi_pending.lock), &irqL0); */
++
++	/* be */
++	/* _enter_critical_bh(&(pxmitpriv->be_pending.lock), &irqL0); */
++	rtw_free_xmitframe_queue(pxmitpriv, &pstaxmitpriv->be_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->be_q.tx_pending));
++	phwxmit = pxmitpriv->hwxmits + 2;
++	phwxmit->accnt -= pstaxmitpriv->be_q.qcnt;
++	pending_qcnt[2] = pstaxmitpriv->be_q.qcnt;
++	pstaxmitpriv->be_q.qcnt = 0;
++	/* _exit_critical_bh(&(pxmitpriv->be_pending.lock), &irqL0); */
++
++	/* bk */
++	/* _enter_critical_bh(&(pxmitpriv->bk_pending.lock), &irqL0); */
++	rtw_free_xmitframe_queue(pxmitpriv, &pstaxmitpriv->bk_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->bk_q.tx_pending));
++	phwxmit = pxmitpriv->hwxmits + 3;
++	phwxmit->accnt -= pstaxmitpriv->bk_q.qcnt;
++	pending_qcnt[3] = pstaxmitpriv->bk_q.qcnt;
++	pstaxmitpriv->bk_q.qcnt = 0;
++	/* _exit_critical_bh(&(pxmitpriv->bk_pending.lock), &irqL0); */
++
++	rtw_os_wake_queue_at_free_stainfo(padapter, pending_qcnt);
++
++	_exit_critical_bh(&pxmitpriv->lock, &irqL0);
++
++
++	/* re-init sta_info; 20061114 */ /* will be init in alloc_stainfo */
++	/* _rtw_init_sta_xmit_priv(&psta->sta_xmitpriv); */
++	/* _rtw_init_sta_recv_priv(&psta->sta_recvpriv); */
++#ifdef CONFIG_IEEE80211W
++	_cancel_timer_ex(&psta->dot11w_expire_timer);
++#endif /* CONFIG_IEEE80211W */
++	_cancel_timer_ex(&psta->addba_retry_timer);
++
++#ifdef CONFIG_TDLS
++	psta->tdls_sta_state = TDLS_STATE_NONE;
++	rtw_free_tdls_timer(psta);
++#endif /* CONFIG_TDLS */
++
++	/* for A-MPDU Rx reordering buffer control, cancel reordering_ctrl_timer */
++	for (i = 0; i < 16 ; i++) {
++		_irqL irqL;
++		_list	*phead, *plist;
++		union recv_frame *prframe;
++		_queue *ppending_recvframe_queue;
++		_queue *pfree_recv_queue = &padapter->recvpriv.free_recv_queue;
++
++		preorder_ctrl = &psta->recvreorder_ctrl[i];
++
++		_cancel_timer_ex(&preorder_ctrl->reordering_ctrl_timer);
++
++
++		ppending_recvframe_queue = &preorder_ctrl->pending_recvframe_queue;
++
++		_enter_critical_bh(&ppending_recvframe_queue->lock, &irqL);
++
++		phead =	get_list_head(ppending_recvframe_queue);
++		plist = get_next(phead);
++
++		while (!rtw_is_list_empty(phead)) {
++			prframe = LIST_CONTAINOR(plist, union recv_frame, u);
++
++			plist = get_next(plist);
++
++			rtw_list_delete(&(prframe->u.hdr.list));
++
++			rtw_free_recvframe(prframe, pfree_recv_queue);
++		}
++
++		_exit_critical_bh(&ppending_recvframe_queue->lock, &irqL);
++
++	}
++
++	if (!((psta->state & WIFI_AP_STATE) || MacAddr_isBcst(psta->hwaddr)))
++		rtw_hal_set_odm_var(padapter, HAL_ODM_STA_INFO, psta, _FALSE);
++
++
++	/* release mac id for non-bc/mc station, */
++	rtw_release_macid(pstapriv->padapter, psta);
++
++#ifdef CONFIG_AP_MODE
++
++	/*
++		_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL0);
++		rtw_list_delete(&psta->asoc_list);
++		_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL0);
++	*/
++	_enter_critical_bh(&pstapriv->auth_list_lock, &irqL0);
++	if (!rtw_is_list_empty(&psta->auth_list)) {
++		rtw_list_delete(&psta->auth_list);
++		pstapriv->auth_list_cnt--;
++	}
++	_exit_critical_bh(&pstapriv->auth_list_lock, &irqL0);
++
++	psta->expire_to = 0;
++#ifdef CONFIG_ATMEL_RC_PATCH
++	psta->flag_atmel_rc = 0;
++#endif
++	psta->sleepq_ac_len = 0;
++	psta->qos_info = 0;
++
++	psta->max_sp_len = 0;
++	psta->uapsd_bk = 0;
++	psta->uapsd_be = 0;
++	psta->uapsd_vi = 0;
++	psta->uapsd_vo = 0;
++
++	psta->has_legacy_ac = 0;
++
++#ifdef CONFIG_NATIVEAP_MLME
++
++	pstapriv->sta_dz_bitmap &= ~BIT(psta->aid);
++	pstapriv->tim_bitmap &= ~BIT(psta->aid);
++
++	/* rtw_indicate_sta_disassoc_event(padapter, psta); */
++
++	if ((psta->aid > 0) && (pstapriv->sta_aid[psta->aid - 1] == psta)) {
++		pstapriv->sta_aid[psta->aid - 1] = NULL;
++		psta->aid = 0;
++	}
++
++#endif /* CONFIG_NATIVEAP_MLME	 */
++
++#ifdef CONFIG_TX_MCAST2UNI
++	psta->under_exist_checking = 0;
++#endif /* CONFIG_TX_MCAST2UNI */
++
++#endif /* CONFIG_AP_MODE	 */
++
++	rtw_st_ctl_deinit(&psta->st_ctl);
++
++	_rtw_spinlock_free(&psta->lock);
++
++	/* _enter_critical_bh(&(pfree_sta_queue->lock), &irqL0); */
++	_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL0);
++	rtw_list_insert_tail(&psta->list, get_list_head(pfree_sta_queue));
++	_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL0);
++	/* _exit_critical_bh(&(pfree_sta_queue->lock), &irqL0); */
++
++exit:
++
++
++	return _SUCCESS;
++
++}
++
++/* free all stainfo which in sta_hash[all] */
++void rtw_free_all_stainfo(_adapter *padapter)
++{
++	_irqL	 irqL;
++	_list	*plist, *phead;
++	s32	index;
++	struct sta_info *psta = NULL;
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *pbcmc_stainfo = rtw_get_bcmc_stainfo(padapter);
++	u8 free_sta_num = 0;
++	char free_sta_list[NUM_STA];
++	int stainfo_offset;
++
++
++	if (pstapriv->asoc_sta_count == 1)
++		goto exit;
++
++	_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++	for (index = 0; index < NUM_STA; index++) {
++		phead = &(pstapriv->sta_hash[index]);
++		plist = get_next(phead);
++
++		while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++			psta = LIST_CONTAINOR(plist, struct sta_info , hash_list);
++
++			plist = get_next(plist);
++
++			if (pbcmc_stainfo != psta) {
++				rtw_list_delete(&psta->hash_list);
++				/* rtw_free_stainfo(padapter , psta); */
++				stainfo_offset = rtw_stainfo_offset(pstapriv, psta);
++				if (stainfo_offset_valid(stainfo_offset))
++					free_sta_list[free_sta_num++] = stainfo_offset;
++			}
++
++		}
++	}
++
++	_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++
++	for (index = 0; index < free_sta_num; index++) {
++		psta = rtw_get_stainfo_by_offset(pstapriv, free_sta_list[index]);
++		rtw_free_stainfo(padapter , psta);
++	}
++
++exit:
++	return;
++}
++
++/* any station allocated can be searched by hash list */
++struct sta_info *rtw_get_stainfo(struct sta_priv *pstapriv, u8 *hwaddr)
++{
++
++	_irqL	 irqL;
++
++	_list	*plist, *phead;
++
++	struct sta_info *psta = NULL;
++
++	u32	index;
++
++	u8 *addr;
++
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++
++	if (hwaddr == NULL)
++		return NULL;
++
++	if (IS_MCAST(hwaddr))
++		addr = bc_addr;
++	else
++		addr = hwaddr;
++
++	index = wifi_mac_hash(addr);
++
++	_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++	phead = &(pstapriv->sta_hash[index]);
++	plist = get_next(phead);
++
++
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++
++		psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++
++		if ((_rtw_memcmp(psta->hwaddr, addr, ETH_ALEN)) == _TRUE) {
++			/* if found the matched address */
++			break;
++		}
++		psta = NULL;
++		plist = get_next(plist);
++	}
++
++	_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++	return psta;
++
++}
++
++u32 rtw_init_bcmc_stainfo(_adapter *padapter)
++{
++
++	struct sta_info	*psta;
++	struct tx_servq	*ptxservq;
++	u32 res = _SUCCESS;
++	NDIS_802_11_MAC_ADDRESS	bcast_addr = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	/* _queue	*pstapending = &padapter->xmitpriv.bm_pending; */
++
++
++	psta = rtw_alloc_stainfo(pstapriv, bcast_addr);
++
++	if (psta == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++#ifdef CONFIG_BEAMFORMING
++	psta->txbf_gid = 63;
++	psta->txbf_paid = 0;
++#endif
++	ptxservq = &(psta->sta_xmitpriv.be_q);
++
++	/*
++		_enter_critical(&pstapending->lock, &irqL0);
++
++		if (rtw_is_list_empty(&ptxservq->tx_pending))
++			rtw_list_insert_tail(&ptxservq->tx_pending, get_list_head(pstapending));
++
++		_exit_critical(&pstapending->lock, &irqL0);
++	*/
++
++exit:
++	return _SUCCESS;
++
++}
++
++
++struct sta_info *rtw_get_bcmc_stainfo(_adapter *padapter)
++{
++	struct sta_info	*psta;
++	struct sta_priv	*pstapriv = &padapter->stapriv;
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	psta = rtw_get_stainfo(pstapriv, bc_addr);
++	return psta;
++
++}
++
++#if CONFIG_RTW_MACADDR_ACL
++const char *const _acl_mode_str[] = {
++	"DISABLED",
++	"ACCEPT_UNLESS_LISTED",
++	"DENY_UNLESS_LISTED",
++};
++
++u8 rtw_access_ctrl(_adapter *adapter, u8 *mac_addr)
++{
++	u8 res = _TRUE;
++	_irqL irqL;
++	_list *list, *head;
++	struct rtw_wlan_acl_node *acl_node;
++	u8 match = _FALSE;
++	struct sta_priv *stapriv = &adapter->stapriv;
++	struct wlan_acl_pool *acl = &stapriv->acl_list;
++	_queue	*acl_node_q = &acl->acl_node_q;
++
++	_enter_critical_bh(&(acl_node_q->lock), &irqL);
++	head = get_list_head(acl_node_q);
++	list = get_next(head);
++	while (rtw_end_of_queue_search(head, list) == _FALSE) {
++		acl_node = LIST_CONTAINOR(list, struct rtw_wlan_acl_node, list);
++		list = get_next(list);
++
++		if (_rtw_memcmp(acl_node->addr, mac_addr, ETH_ALEN)) {
++			if (acl_node->valid == _TRUE) {
++				match = _TRUE;
++				break;
++			}
++		}
++	}
++	_exit_critical_bh(&(acl_node_q->lock), &irqL);
++
++	if (acl->mode == RTW_ACL_MODE_ACCEPT_UNLESS_LISTED)
++		res = (match == _TRUE) ?  _FALSE : _TRUE;
++	else if (acl->mode == RTW_ACL_MODE_DENY_UNLESS_LISTED)
++		res = (match == _TRUE) ?  _TRUE : _FALSE;
++	else
++		res = _TRUE;
++
++	return res;
++}
++
++void dump_macaddr_acl(void *sel, _adapter *adapter)
++{
++	struct sta_priv *stapriv = &adapter->stapriv;
++	struct wlan_acl_pool *acl = &stapriv->acl_list;
++	int i;
++
++	RTW_PRINT_SEL(sel, "mode:%s(%d)\n", acl_mode_str(acl->mode), acl->mode);
++	RTW_PRINT_SEL(sel, "num:%d/%d\n", acl->num, NUM_ACL);
++	for (i = 0; i < NUM_ACL; i++) {
++		if (acl->aclnode[i].valid == _FALSE)
++			continue;
++		RTW_PRINT_SEL(sel, MAC_FMT"\n", MAC_ARG(acl->aclnode[i].addr));
++	}
++}
++#endif /* CONFIG_RTW_MACADDR_ACL */
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_tdls.c b/drivers/net/wireless/rtl8723du/core/rtw_tdls.c
+new file mode 100644
+index 0000000..be31530
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_tdls.c
+@@ -0,0 +1,3341 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_TDLS_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#ifdef CONFIG_TDLS
++#define ONE_SEC 	1000 /* 1000 ms */
++
++extern unsigned char MCS_rate_2R[16];
++extern unsigned char MCS_rate_1R[16];
++extern void process_wmmps_data(_adapter *padapter, union recv_frame *precv_frame);
++
++void rtw_reset_tdls_info(_adapter *padapter)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	ptdlsinfo->ap_prohibited = _FALSE;
++
++	/* For TDLS channel switch, currently we only allow it to work in wifi logo test mode */
++	if (padapter->registrypriv.wifi_spec == 1)
++		ptdlsinfo->ch_switch_prohibited = _FALSE;
++	else
++		ptdlsinfo->ch_switch_prohibited = _TRUE;
++
++	ptdlsinfo->link_established = _FALSE;
++	ptdlsinfo->sta_cnt = 0;
++	ptdlsinfo->sta_maximum = _FALSE;
++
++#ifdef CONFIG_TDLS_CH_SW
++	ptdlsinfo->chsw_info.ch_sw_state = TDLS_STATE_NONE;
++	ATOMIC_SET(&ptdlsinfo->chsw_info.chsw_on, _FALSE);
++	ptdlsinfo->chsw_info.off_ch_num = 0;
++	ptdlsinfo->chsw_info.ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	ptdlsinfo->chsw_info.cur_time = 0;
++	ptdlsinfo->chsw_info.delay_switch_back = _FALSE;
++	ptdlsinfo->chsw_info.dump_stack = _FALSE;
++#endif
++
++	ptdlsinfo->ch_sensing = 0;
++	ptdlsinfo->watchdog_count = 0;
++	ptdlsinfo->dev_discovered = _FALSE;
++
++#ifdef CONFIG_WFD
++	ptdlsinfo->wfd_info = &padapter->wfd_info;
++#endif
++}
++
++int rtw_init_tdls_info(_adapter *padapter)
++{
++	int	res = _SUCCESS;
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	rtw_reset_tdls_info(padapter);
++
++	ptdlsinfo->tdls_enable = _TRUE;
++#ifdef CONFIG_TDLS_DRIVER_SETUP
++	ptdlsinfo->driver_setup = _TRUE;
++#else
++	ptdlsinfo->driver_setup = _FALSE;
++#endif /* CONFIG_TDLS_DRIVER_SETUP */
++
++	_rtw_spinlock_init(&ptdlsinfo->cmd_lock);
++	_rtw_spinlock_init(&ptdlsinfo->hdl_lock);
++
++	return res;
++
++}
++
++void rtw_free_tdls_info(struct tdls_info *ptdlsinfo)
++{
++	_rtw_spinlock_free(&ptdlsinfo->cmd_lock);
++	_rtw_spinlock_free(&ptdlsinfo->hdl_lock);
++
++	_rtw_memset(ptdlsinfo, 0, sizeof(struct tdls_info));
++
++}
++
++int check_ap_tdls_prohibited(u8 *pframe, u8 pkt_len)
++{
++	u8 tdls_prohibited_bit = 0x40; /* bit(38); TDLS_prohibited */
++
++	if (pkt_len < 5)
++		return _FALSE;
++
++	pframe += 4;
++	if ((*pframe) & tdls_prohibited_bit)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++int check_ap_tdls_ch_switching_prohibited(u8 *pframe, u8 pkt_len)
++{
++	u8 tdls_ch_swithcing_prohibited_bit = 0x80; /* bit(39); TDLS_channel_switching prohibited */
++
++	if (pkt_len < 5)
++		return _FALSE;
++
++	pframe += 4;
++	if ((*pframe) & tdls_ch_swithcing_prohibited_bit)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++u8 rtw_tdls_is_setup_allowed(_adapter *padapter)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	if (ptdlsinfo->ap_prohibited == _TRUE)
++		return _FALSE;
++
++	return _TRUE;
++}
++
++#ifdef CONFIG_TDLS_CH_SW
++u8 rtw_tdls_is_chsw_allowed(_adapter *padapter)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	if (ptdlsinfo->ch_switch_prohibited == _TRUE)
++		return _FALSE;
++
++	if (padapter->registrypriv.wifi_spec == 0)
++		return _FALSE;
++
++	return _TRUE;
++}
++#endif
++
++int _issue_nulldata_to_TDLS_peer_STA(_adapter *padapter, unsigned char *da, unsigned int power_mode, int wait_ack)
++{
++	int ret = _FAIL;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl, *qc;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	pattrib->hdrlen += 2;
++	pattrib->qos_en = _TRUE;
++	pattrib->eosp = 1;
++	pattrib->ack_policy = 0;
++	pattrib->mdata = 0;
++	pattrib->retry_ctrl = _FALSE;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	if (power_mode)
++		SetPwrMgt(fctrl);
++
++	qc = (unsigned short *)(pframe + pattrib->hdrlen - 2);
++
++	SetPriority(qc, 7);	/* Set priority to VO */
++
++	SetEOSP(qc, pattrib->eosp);
++
++	SetAckpolicy(qc, pattrib->ack_policy);
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_QOS_DATA_NULL);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr_qos);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr_qos);
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++	return ret;
++
++}
++
++/*
++ *wait_ms == 0 means that there is no need to wait ack through C2H_CCX_TX_RPT
++ *wait_ms > 0 means you want to wait ack through C2H_CCX_TX_RPT, and the value of wait_ms means the interval between each TX
++ *try_cnt means the maximal TX count to try
++ */
++int issue_nulldata_to_TDLS_peer_STA(_adapter *padapter, unsigned char *da, unsigned int power_mode, int try_cnt, int wait_ms)
++{
++	int ret;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++#if 0
++	psta = rtw_get_stainfo(&padapter->stapriv, da);
++	if (psta) {
++		if (power_mode)
++			rtw_hal_macid_sleep(padapter, psta->mac_id);
++		else
++			rtw_hal_macid_wakeup(padapter, psta->mac_id);
++	} else {
++		RTW_INFO(FUNC_ADPT_FMT ": Can't find sta info for " MAC_FMT ", skip macid %s!!\n",
++			FUNC_ADPT_ARG(padapter), MAC_ARG(da), power_mode ? "sleep" : "wakeup");
++		rtw_warn_on(1);
++	}
++#endif
++
++	do {
++		ret = _issue_nulldata_to_TDLS_peer_STA(padapter, da, power_mode, wait_ms > 0 ? _TRUE : _FALSE);
++
++		i++;
++
++		if (RTW_CANNOT_RUN(padapter))
++			break;
++
++		if (i < try_cnt && wait_ms > 0 && ret == _FAIL)
++			rtw_msleep_os(wait_ms);
++
++	} while ((i < try_cnt) && (ret == _FAIL || wait_ms == 0));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++#ifndef DBG_XMIT_ACK
++		goto exit;
++#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		if (da)
++			RTW_INFO(FUNC_ADPT_FMT" to "MAC_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), MAC_ARG(da), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++		else
++			RTW_INFO(FUNC_ADPT_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++	return ret;
++}
++
++void free_tdls_sta(_adapter *padapter, struct sta_info *ptdls_sta)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	_irqL irqL;
++
++	/* free peer sta_info */
++	_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);
++	if (ptdlsinfo->sta_cnt != 0)
++		ptdlsinfo->sta_cnt--;
++	_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);
++	/* -2: AP + BC/MC sta, -4: default key */
++	if (ptdlsinfo->sta_cnt < MAX_ALLOWED_TDLS_STA_NUM) {
++		ptdlsinfo->sta_maximum = _FALSE;
++		_rtw_memset(&ptdlsinfo->ss_record, 0x00, sizeof(struct tdls_ss_record));
++	}
++
++	/* clear cam */
++	rtw_clearstakey_cmd(padapter, ptdls_sta, _TRUE);
++
++	if (ptdlsinfo->sta_cnt == 0) {
++		rtw_tdls_cmd(padapter, NULL, TDLS_RS_RCR);
++		ptdlsinfo->link_established = _FALSE;
++	} else
++		RTW_INFO("Remain tdls sta:%02x\n", ptdlsinfo->sta_cnt);
++
++	rtw_free_stainfo(padapter,  ptdls_sta);
++
++}
++
++
++/* TDLS encryption(if needed) will always be CCMP */
++void rtw_tdls_set_key(_adapter *padapter, struct sta_info *ptdls_sta)
++{
++	ptdls_sta->dot118021XPrivacy = _AES_;
++	rtw_setstakey_cmd(padapter, ptdls_sta, TDLS_KEY, _TRUE);
++}
++
++#ifdef CONFIG_80211N_HT
++void rtw_tdls_process_ht_cap(_adapter *padapter, struct sta_info *ptdls_sta, u8 *data, u8 Length)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct ht_priv			*phtpriv = &pmlmepriv->htpriv;
++	u8	max_AMPDU_len, min_MPDU_spacing;
++	u8	cur_ldpc_cap = 0, cur_stbc_cap = 0, cur_beamform_cap = 0;
++
++	/* Save HT capabilities in the sta object */
++	_rtw_memset(&ptdls_sta->htpriv.ht_cap, 0, sizeof(struct rtw_ieee80211_ht_cap));
++	if (data && Length >= sizeof(struct rtw_ieee80211_ht_cap)) {
++		ptdls_sta->flags |= WLAN_STA_HT;
++		ptdls_sta->flags |= WLAN_STA_WME;
++
++		_rtw_memcpy(&ptdls_sta->htpriv.ht_cap, data, sizeof(struct rtw_ieee80211_ht_cap));
++	} else
++		ptdls_sta->flags &= ~WLAN_STA_HT;
++
++	if (ptdls_sta->flags & WLAN_STA_HT) {
++		if (padapter->registrypriv.ht_enable == _TRUE) {
++			ptdls_sta->htpriv.ht_option = _TRUE;
++			ptdls_sta->qos_option = _TRUE;
++		} else {
++			ptdls_sta->htpriv.ht_option = _FALSE;
++			ptdls_sta->qos_option = _FALSE;
++		}
++	}
++
++	/* HT related cap */
++	if (ptdls_sta->htpriv.ht_option) {
++		/* Check if sta supports rx ampdu */
++		if (padapter->registrypriv.ampdu_enable == 1)
++			ptdls_sta->htpriv.ampdu_enable = _TRUE;
++
++		/* AMPDU Parameters field */
++		/* Get MIN of MAX AMPDU Length Exp */
++		if ((pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x3) > (data[2] & 0x3))
++			max_AMPDU_len = (data[2] & 0x3);
++		else
++			max_AMPDU_len = (pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x3);
++		/* Get MAX of MIN MPDU Start Spacing */
++		if ((pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x1c) > (data[2] & 0x1c))
++			min_MPDU_spacing = (pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x1c);
++		else
++			min_MPDU_spacing = (data[2] & 0x1c);
++		ptdls_sta->htpriv.rx_ampdu_min_spacing = max_AMPDU_len | min_MPDU_spacing;
++
++		/* Check if sta support s Short GI 20M */
++		if (ptdls_sta->htpriv.ht_cap.cap_info & cpu_to_le16(IEEE80211_HT_CAP_SGI_20))
++			ptdls_sta->htpriv.sgi_20m = _TRUE;
++
++		/* Check if sta support s Short GI 40M */
++		if (ptdls_sta->htpriv.ht_cap.cap_info & cpu_to_le16(IEEE80211_HT_CAP_SGI_40))
++			ptdls_sta->htpriv.sgi_40m = _TRUE;
++
++		/* Bwmode would still followed AP's setting */
++		if (ptdls_sta->htpriv.ht_cap.cap_info & cpu_to_le16(IEEE80211_HT_CAP_SUP_WIDTH)) {
++			if (padapter->mlmeextpriv.cur_bwmode >= CHANNEL_WIDTH_40)
++				ptdls_sta->bw_mode = CHANNEL_WIDTH_40;
++			ptdls_sta->htpriv.ch_offset = padapter->mlmeextpriv.cur_ch_offset;
++		}
++
++		/* Config LDPC Coding Capability */
++		if (TEST_FLAG(phtpriv->ldpc_cap, LDPC_HT_ENABLE_TX) && GET_HT_CAP_ELE_LDPC_CAP(data)) {
++			SET_FLAG(cur_ldpc_cap, (LDPC_HT_ENABLE_TX | LDPC_HT_CAP_TX));
++			RTW_INFO("Enable HT Tx LDPC!\n");
++		}
++		ptdls_sta->htpriv.ldpc_cap = cur_ldpc_cap;
++
++		/* Config STBC setting */
++		if (TEST_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_TX) && GET_HT_CAP_ELE_RX_STBC(data)) {
++			SET_FLAG(cur_stbc_cap, (STBC_HT_ENABLE_TX | STBC_HT_CAP_TX));
++			RTW_INFO("Enable HT Tx STBC!\n");
++		}
++		ptdls_sta->htpriv.stbc_cap = cur_stbc_cap;
++
++#ifdef CONFIG_BEAMFORMING
++		/* Config Tx beamforming setting */
++		if (TEST_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE) &&
++		    GET_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP(data))
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE);
++
++		if (TEST_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE) &&
++		    GET_HT_CAP_TXBF_EXPLICIT_COMP_FEEDBACK_CAP(data))
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE);
++		ptdls_sta->htpriv.beamform_cap = cur_beamform_cap;
++		if (cur_beamform_cap)
++			RTW_INFO("Client HT Beamforming Cap = 0x%02X\n", cur_beamform_cap);
++#endif /* CONFIG_BEAMFORMING */
++	}
++
++}
++
++u8 *rtw_tdls_set_ht_cap(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	rtw_ht_use_default_setting(padapter);
++
++	rtw_restructure_ht_ie(padapter, NULL, pframe, 0, &(pattrib->pktlen), padapter->mlmeextpriv.cur_channel);
++
++	return pframe + pattrib->pktlen;
++}
++#endif
++
++#ifdef CONFIG_80211AC_VHT
++void rtw_tdls_process_vht_cap(_adapter *padapter, struct sta_info *ptdls_sta, u8 *data, u8 Length)
++{
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv			*pvhtpriv = &pmlmepriv->vhtpriv;
++	u8	cur_ldpc_cap = 0, cur_stbc_cap = 0, cur_beamform_cap = 0, rf_type = RF_1T1R;
++	u8	*pcap_mcs;
++	u8	vht_mcs[2];
++
++	_rtw_memset(&ptdls_sta->vhtpriv, 0, sizeof(struct vht_priv));
++	if (data && Length == 12) {
++		ptdls_sta->flags |= WLAN_STA_VHT;
++
++		_rtw_memcpy(ptdls_sta->vhtpriv.vht_cap, data, 12);
++
++#if 0
++		if (elems.vht_op_mode_notify && elems.vht_op_mode_notify_len == 1)
++			_rtw_memcpy(&pstat->vhtpriv.vht_op_mode_notify, elems.vht_op_mode_notify, 1);
++		else /* for Frame without Operating Mode notify ie; default: 80M */
++			pstat->vhtpriv.vht_op_mode_notify = CHANNEL_WIDTH_80;
++#else
++		ptdls_sta->vhtpriv.vht_op_mode_notify = CHANNEL_WIDTH_80;
++#endif
++	} else
++		ptdls_sta->flags &= ~WLAN_STA_VHT;
++
++	if (ptdls_sta->flags & WLAN_STA_VHT) {
++		if (REGSTY_IS_11AC_ENABLE(&padapter->registrypriv)
++		    && hal_chk_proto_cap(padapter, PROTO_CAP_11AC)
++		    && (!pmlmepriv->country_ent || COUNTRY_CHPLAN_EN_11AC(pmlmepriv->country_ent)))
++			ptdls_sta->vhtpriv.vht_option = _TRUE;
++		else
++			ptdls_sta->vhtpriv.vht_option = _FALSE;
++	}
++
++	/* B4 Rx LDPC */
++	if (TEST_FLAG(pvhtpriv->ldpc_cap, LDPC_VHT_ENABLE_TX) &&
++	    GET_VHT_CAPABILITY_ELE_RX_LDPC(data)) {
++		SET_FLAG(cur_ldpc_cap, (LDPC_VHT_ENABLE_TX | LDPC_VHT_CAP_TX));
++		RTW_INFO("Current VHT LDPC Setting = %02X\n", cur_ldpc_cap);
++	}
++	ptdls_sta->vhtpriv.ldpc_cap = cur_ldpc_cap;
++
++	/* B5 Short GI for 80 MHz */
++	ptdls_sta->vhtpriv.sgi_80m = (GET_VHT_CAPABILITY_ELE_SHORT_GI80M(data) & pvhtpriv->sgi_80m) ? _TRUE : _FALSE;
++
++	/* B8 B9 B10 Rx STBC */
++	if (TEST_FLAG(pvhtpriv->stbc_cap, STBC_VHT_ENABLE_TX) &&
++	    GET_VHT_CAPABILITY_ELE_RX_STBC(data)) {
++		SET_FLAG(cur_stbc_cap, (STBC_VHT_ENABLE_TX | STBC_VHT_CAP_TX));
++		RTW_INFO("Current VHT STBC Setting = %02X\n", cur_stbc_cap);
++	}
++	ptdls_sta->vhtpriv.stbc_cap = cur_stbc_cap;
++
++	/* B11 SU Beamformer Capable, the target supports Beamformer and we are Beamformee */
++	if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE) &&
++	    GET_VHT_CAPABILITY_ELE_SU_BFEE(data))
++		SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE);
++
++	/* B12 SU Beamformee Capable, the target supports Beamformee and we are Beamformer */
++	if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE) &&
++	    GET_VHT_CAPABILITY_ELE_SU_BFER(data))
++		SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE);
++	ptdls_sta->vhtpriv.beamform_cap = cur_beamform_cap;
++	if (cur_beamform_cap)
++		RTW_INFO("Current VHT Beamforming Setting = %02X\n", cur_beamform_cap);
++
++	/* B23 B24 B25 Maximum A-MPDU Length Exponent */
++	ptdls_sta->vhtpriv.ampdu_len = GET_VHT_CAPABILITY_ELE_MAX_RXAMPDU_FACTOR(data);
++
++	pcap_mcs = GET_VHT_CAPABILITY_ELE_RX_MCS(data);
++	_rtw_memcpy(vht_mcs, pcap_mcs, 2);
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++	if ((rf_type == RF_1T1R) || (rf_type == RF_1T2R))
++		vht_mcs[0] |= 0xfc;
++	else if (rf_type == RF_2T2R)
++		vht_mcs[0] |= 0xf0;
++	else if (rf_type == RF_3T3R)
++		vht_mcs[0] |= 0xc0;
++
++	_rtw_memcpy(ptdls_sta->vhtpriv.vht_mcs_map, vht_mcs, 2);
++
++	ptdls_sta->vhtpriv.vht_highest_rate = rtw_get_vht_highest_rate(ptdls_sta->vhtpriv.vht_mcs_map);
++}
++
++u8 *rtw_tdls_set_aid(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	return rtw_set_ie(pframe, EID_AID, 2, (u8 *)&(padapter->mlmepriv.cur_network.aid), &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_vht_cap(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	u32 ie_len = 0;
++
++	rtw_vht_use_default_setting(padapter);
++
++	ie_len = rtw_build_vht_cap_ie(padapter, pframe);
++	pattrib->pktlen += ie_len;
++
++	return pframe + ie_len;
++}
++
++u8 *rtw_tdls_set_vht_operation(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib, u8 channel)
++{
++	u32 ie_len = 0;
++
++	ie_len = rtw_build_vht_operation_ie(padapter, pframe, channel);
++	pattrib->pktlen += ie_len;
++
++	return pframe + ie_len;
++}
++
++u8 *rtw_tdls_set_vht_op_mode_notify(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib, u8 bw)
++{
++	u32 ie_len = 0;
++
++	ie_len = rtw_build_vht_op_mode_notify_ie(padapter, pframe, bw);
++	pattrib->pktlen += ie_len;
++
++	return pframe + ie_len;
++}
++#endif
++
++
++u8 *rtw_tdls_set_sup_ch(struct mlme_ext_priv *pmlmeext, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	u8 sup_ch[30 * 2] = {0x00}, ch_set_idx = 0, sup_ch_idx = 2;
++
++	do {
++		if (pmlmeext->channel_set[ch_set_idx].ChannelNum <= 14) {
++			sup_ch[0] = 1;	/* First channel number */
++			sup_ch[1] = pmlmeext->channel_set[ch_set_idx].ChannelNum;	/* Number of channel */
++		} else {
++			sup_ch[sup_ch_idx++] = pmlmeext->channel_set[ch_set_idx].ChannelNum;
++			sup_ch[sup_ch_idx++] = 1;
++		}
++		ch_set_idx++;
++	} while (pmlmeext->channel_set[ch_set_idx].ChannelNum != 0 && ch_set_idx < MAX_CHANNEL_NUM);
++
++	return rtw_set_ie(pframe, _SUPPORTED_CH_IE_, sup_ch_idx, sup_ch, &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_rsnie(struct tdls_txmgmt *ptxmgmt, u8 *pframe, struct pkt_attrib *pattrib,  int init, struct sta_info *ptdls_sta)
++{
++	u8 *p = NULL;
++	int len = 0;
++
++	if (ptxmgmt->len > 0)
++		p = rtw_get_ie(ptxmgmt->buf, _RSN_IE_2_, &len, ptxmgmt->len);
++
++	if (p != NULL)
++		return rtw_set_ie(pframe, _RSN_IE_2_, len, p + 2, &(pattrib->pktlen));
++	else if (init == _TRUE)
++		return rtw_set_ie(pframe, _RSN_IE_2_, sizeof(TDLS_RSNIE), TDLS_RSNIE, &(pattrib->pktlen));
++	else
++		return rtw_set_ie(pframe, _RSN_IE_2_, sizeof(ptdls_sta->TDLS_RSNIE), ptdls_sta->TDLS_RSNIE, &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_ext_cap(u8 *pframe, struct pkt_attrib *pattrib)
++{
++	return rtw_set_ie(pframe, _EXT_CAP_IE_ , sizeof(TDLS_EXT_CAPIE), TDLS_EXT_CAPIE, &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_qos_cap(u8 *pframe, struct pkt_attrib *pattrib)
++{
++	return rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, sizeof(TDLS_WMMIE), TDLS_WMMIE,  &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_ftie(struct tdls_txmgmt *ptxmgmt, u8 *pframe, struct pkt_attrib *pattrib, u8 *ANonce, u8 *SNonce)
++{
++	struct wpa_tdls_ftie FTIE = {0};
++	u8 *p = NULL;
++	int len = 0;
++
++	if (ptxmgmt->len > 0)
++		p = rtw_get_ie(ptxmgmt->buf, _FTIE_, &len, ptxmgmt->len);
++
++	if (p != NULL)
++		return rtw_set_ie(pframe, _FTIE_, len, p + 2, &(pattrib->pktlen));
++	else {
++		if (ANonce != NULL)
++			_rtw_memcpy(FTIE.Anonce, ANonce, WPA_NONCE_LEN);
++		if (SNonce != NULL)
++			_rtw_memcpy(FTIE.Snonce, SNonce, WPA_NONCE_LEN);
++		return rtw_set_ie(pframe, _FTIE_ , 82, (u8 *)FTIE.mic_ctrl, &(pattrib->pktlen));
++	}
++}
++
++u8 *rtw_tdls_set_timeout_interval(struct tdls_txmgmt *ptxmgmt, u8 *pframe, struct pkt_attrib *pattrib, int init, struct sta_info *ptdls_sta)
++{
++	u8 timeout_itvl[5];	/* set timeout interval to maximum value */
++	u32 timeout_interval = TDLS_TPK_RESEND_COUNT;
++	u8 *p = NULL;
++	int len = 0;
++
++	if (ptxmgmt->len > 0)
++		p = rtw_get_ie(ptxmgmt->buf, _TIMEOUT_ITVL_IE_, &len, ptxmgmt->len);
++
++	if (p != NULL)
++		return rtw_set_ie(pframe, _TIMEOUT_ITVL_IE_, len, p + 2, &(pattrib->pktlen));
++	else {
++		/* Timeout interval */
++		timeout_itvl[0] = 0x02;
++		if (init == _TRUE)
++			_rtw_memcpy(timeout_itvl + 1, &timeout_interval, 4);
++		else
++			_rtw_memcpy(timeout_itvl + 1, (u8 *)(&ptdls_sta->TDLS_PeerKey_Lifetime), 4);
++
++		return rtw_set_ie(pframe, _TIMEOUT_ITVL_IE_, 5, timeout_itvl, &(pattrib->pktlen));
++	}
++}
++
++u8 *rtw_tdls_set_bss_coexist(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	u8 iedata = 0;
++
++	if (padapter->mlmepriv.num_FortyMHzIntolerant > 0)
++		iedata |= BIT(2);	/* 20 MHz BSS Width Request */
++
++	/* Information Bit should be set by TDLS test plan 5.9 */
++	iedata |= BIT(0);
++	return rtw_set_ie(pframe, EID_BSSCoexistence, 1, &iedata, &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_payload_type(u8 *pframe, struct pkt_attrib *pattrib)
++{
++	u8 payload_type = 0x02;
++	return rtw_set_fixed_ie(pframe, 1, &(payload_type), &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_category(u8 *pframe, struct pkt_attrib *pattrib, u8 category)
++{
++	return rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_action(u8 *pframe, struct pkt_attrib *pattrib, struct tdls_txmgmt *ptxmgmt)
++{
++	return rtw_set_fixed_ie(pframe, 1, &(ptxmgmt->action_code), &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_status_code(u8 *pframe, struct pkt_attrib *pattrib, struct tdls_txmgmt *ptxmgmt)
++{
++	return rtw_set_fixed_ie(pframe, 2, (u8 *)&(ptxmgmt->status_code), &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_dialog(u8 *pframe, struct pkt_attrib *pattrib, struct tdls_txmgmt *ptxmgmt)
++{
++	u8 dialogtoken = 1;
++	if (ptxmgmt->dialog_token)
++		return rtw_set_fixed_ie(pframe, 1, &(ptxmgmt->dialog_token), &(pattrib->pktlen));
++	else
++		return rtw_set_fixed_ie(pframe, 1, &(dialogtoken), &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_reg_class(u8 *pframe, struct pkt_attrib *pattrib, struct sta_info *ptdls_sta)
++{
++	u8 reg_class = 22;
++	return rtw_set_fixed_ie(pframe, 1, &(reg_class), &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_second_channel_offset(u8 *pframe, struct pkt_attrib *pattrib, u8 ch_offset)
++{
++	return rtw_set_ie(pframe, EID_SecondaryChnlOffset , 1, &ch_offset, &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_capability(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &pmlmeext->mlmext_info;
++	u8 cap_from_ie[2] = {0};
++
++	_rtw_memcpy(cap_from_ie, rtw_get_capability_from_ie(pmlmeinfo->network.IEs), 2);
++
++	return rtw_set_fixed_ie(pframe, 2, cap_from_ie, &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_supported_rate(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	u8 bssrate[NDIS_802_11_LENGTH_RATES_EX];
++	int bssrate_len = 0;
++	u8 more_supportedrates = 0;
++
++	rtw_set_supported_rate(bssrate, (padapter->registrypriv.wireless_mode == WIRELESS_MODE_MAX) ? padapter->mlmeextpriv.cur_wireless_mode : padapter->registrypriv.wireless_mode);
++	bssrate_len = rtw_get_rateset_len(bssrate);
++
++	if (bssrate_len > 8) {
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , 8, bssrate, &(pattrib->pktlen));
++		more_supportedrates = 1;
++	} else
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , bssrate_len , bssrate, &(pattrib->pktlen));
++
++	/* extended supported rates */
++	if (more_supportedrates == 1)
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_ , (bssrate_len - 8), (bssrate + 8), &(pattrib->pktlen));
++
++	return pframe;
++}
++
++u8 *rtw_tdls_set_sup_reg_class(u8 *pframe, struct pkt_attrib *pattrib)
++{
++	return rtw_set_ie(pframe, _SRC_IE_ , sizeof(TDLS_SRC), TDLS_SRC, &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_linkid(u8 *pframe, struct pkt_attrib *pattrib, u8 init)
++{
++	u8 link_id_addr[18] = {0};
++	if (init == _TRUE) {
++		_rtw_memcpy(link_id_addr, pattrib->ra, 6);
++		_rtw_memcpy((link_id_addr + 6), pattrib->src, 6);
++		_rtw_memcpy((link_id_addr + 12), pattrib->dst, 6);
++	} else {
++		_rtw_memcpy(link_id_addr, pattrib->ra, 6);
++		_rtw_memcpy((link_id_addr + 6), pattrib->dst, 6);
++		_rtw_memcpy((link_id_addr + 12), pattrib->src, 6);
++	}
++	return rtw_set_ie(pframe, _LINK_ID_IE_, 18, link_id_addr, &(pattrib->pktlen));
++}
++
++#ifdef CONFIG_TDLS_CH_SW
++u8 *rtw_tdls_set_target_ch(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	u8 target_ch = 1;
++	if (padapter->tdlsinfo.chsw_info.off_ch_num)
++		return rtw_set_fixed_ie(pframe, 1, &(padapter->tdlsinfo.chsw_info.off_ch_num), &(pattrib->pktlen));
++	else
++		return rtw_set_fixed_ie(pframe, 1, &(target_ch), &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_ch_sw(u8 *pframe, struct pkt_attrib *pattrib, struct sta_info *ptdls_sta)
++{
++	u8 ch_switch_timing[4] = {0};
++	u16 switch_time = (ptdls_sta->ch_switch_time >= TDLS_CH_SWITCH_TIME * 1000) ?
++			  ptdls_sta->ch_switch_time : TDLS_CH_SWITCH_TIME;
++	u16 switch_timeout = (ptdls_sta->ch_switch_timeout >= TDLS_CH_SWITCH_TIMEOUT * 1000) ?
++		     ptdls_sta->ch_switch_timeout : TDLS_CH_SWITCH_TIMEOUT;
++
++	_rtw_memcpy(ch_switch_timing, &switch_time, 2);
++	_rtw_memcpy(ch_switch_timing + 2, &switch_timeout, 2);
++
++	return rtw_set_ie(pframe, _CH_SWITCH_TIMING_,  4, ch_switch_timing, &(pattrib->pktlen));
++}
++
++void rtw_tdls_set_ch_sw_oper_control(_adapter *padapter, u8 enable)
++{
++	if (ATOMIC_READ(&padapter->tdlsinfo.chsw_info.chsw_on) != enable)
++		ATOMIC_SET(&padapter->tdlsinfo.chsw_info.chsw_on, enable);
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_TDLS_BCN_EARLY_C2H_RPT, &enable);
++	RTW_INFO("[TDLS] %s Bcn Early C2H Report\n", (enable == _TRUE) ? "Start" : "Stop");
++}
++
++void rtw_tdls_ch_sw_back_to_base_chnl(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv;
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++
++	pmlmepriv = &padapter->mlmepriv;
++
++	if ((ATOMIC_READ(&pchsw_info->chsw_on) == _TRUE) &&
++	    (padapter->mlmeextpriv.cur_channel != rtw_get_oper_ch(padapter)))
++		rtw_tdls_cmd(padapter, pchsw_info->addr, TDLS_CH_SW_TO_BASE_CHNL_UNSOLICITED);
++}
++
++static void rtw_tdls_chsw_oper_init(_adapter *padapter, u32 timeout_ms)
++{
++	struct submit_ctx	*chsw_sctx = &padapter->tdlsinfo.chsw_info.chsw_sctx;
++
++	rtw_sctx_init(chsw_sctx, timeout_ms);
++}
++
++static int rtw_tdls_chsw_oper_wait(_adapter *padapter)
++{
++	struct submit_ctx	*chsw_sctx = &padapter->tdlsinfo.chsw_info.chsw_sctx;
++
++	return rtw_sctx_wait(chsw_sctx, __func__);
++}
++
++void rtw_tdls_chsw_oper_done(_adapter *padapter)
++{
++	struct submit_ctx	*chsw_sctx = &padapter->tdlsinfo.chsw_info.chsw_sctx;
++
++	rtw_sctx_done(&chsw_sctx);
++}
++
++s32 rtw_tdls_do_ch_sw(_adapter *padapter, struct sta_info *ptdls_sta, u8 chnl_type, u8 channel, u8 channel_offset, u16 bwmode, u16 ch_switch_time)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	u8 center_ch, chnl_offset80 = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	u32 ch_sw_time_start, ch_sw_time_spent, wait_time;
++	u8 take_care_iqk;
++	s32 ret = _FAIL;
++
++	ch_sw_time_start = rtw_systime_to_ms(rtw_get_current_time());
++
++	rtw_tdls_chsw_oper_init(padapter, TDLS_CH_SWITCH_OPER_OFFLOAD_TIMEOUT);
++
++	/* set mac_id sleep before channel switch */
++	rtw_hal_macid_sleep(padapter, ptdls_sta->mac_id);
++
++	/* channel switch IOs offload to FW */
++	if (rtw_hal_ch_sw_oper_offload(padapter, channel, channel_offset, bwmode) == _SUCCESS) {
++		if (rtw_tdls_chsw_oper_wait(padapter) == _SUCCESS) {
++			/* set channel and bw related variables in driver */
++			_enter_critical_mutex(&(adapter_to_dvobj(padapter)->setch_mutex), NULL);
++
++			rtw_set_oper_ch(padapter, channel);
++			rtw_set_oper_choffset(padapter, channel_offset);
++			rtw_set_oper_bw(padapter, bwmode);
++
++			center_ch = rtw_get_center_ch(channel, bwmode, channel_offset);
++			pHalData->CurrentChannel = center_ch;
++			pHalData->CurrentCenterFrequencyIndex1 = center_ch;
++			pHalData->CurrentChannelBW = bwmode;
++			pHalData->nCur40MhzPrimeSC = channel_offset;
++
++			if (bwmode == CHANNEL_WIDTH_80) {
++				if (center_ch > channel)
++					chnl_offset80 = HAL_PRIME_CHNL_OFFSET_LOWER;
++				else if (center_ch < channel)
++					chnl_offset80 = HAL_PRIME_CHNL_OFFSET_UPPER;
++				else
++					chnl_offset80 = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++			}
++			pHalData->nCur80MhzPrimeSC = chnl_offset80;
++
++			pHalData->CurrentCenterFrequencyIndex1 = center_ch;
++
++			_exit_critical_mutex(&(adapter_to_dvobj(padapter)->setch_mutex), NULL);
++
++			rtw_hal_get_hwreg(padapter, HW_VAR_CH_SW_NEED_TO_TAKE_CARE_IQK_INFO, &take_care_iqk);
++			if (take_care_iqk == _TRUE)
++				rtw_hal_ch_sw_iqk_info_restore(padapter, CH_SW_USE_CASE_TDLS);
++
++			ch_sw_time_spent = rtw_systime_to_ms(rtw_get_current_time()) - ch_sw_time_start;
++
++			if (chnl_type == TDLS_CH_SW_OFF_CHNL) {
++				if ((u32)ch_switch_time / 1000 > ch_sw_time_spent)
++					wait_time = (u32)ch_switch_time / 1000 - ch_sw_time_spent;
++				else
++					wait_time = 0;
++
++				if (wait_time > 0)
++					rtw_msleep_os(wait_time);
++			}
++
++			ret = _SUCCESS;
++		} else
++			RTW_INFO("[TDLS] chsw oper wait fail !!\n");
++	}
++
++	/* set mac_id wakeup after channel switch */
++	rtw_hal_macid_wakeup(padapter, ptdls_sta->mac_id);
++
++	return ret;
++}
++#endif
++
++u8 *rtw_tdls_set_wmm_params(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 wmm_param_ele[24] = {0};
++
++	if (&pmlmeinfo->WMM_param) {
++		_rtw_memcpy(wmm_param_ele, WMM_PARA_OUI, 6);
++		if (_rtw_memcmp(&pmlmeinfo->WMM_param, &wmm_param_ele[6], 18) == _TRUE)
++			/* Use default WMM Param */
++			_rtw_memcpy(wmm_param_ele + 6, (u8 *)&TDLS_WMM_PARAM_IE, sizeof(TDLS_WMM_PARAM_IE));
++		else
++			_rtw_memcpy(wmm_param_ele + 6, (u8 *)&pmlmeinfo->WMM_param, sizeof(pmlmeinfo->WMM_param));
++		return rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_,  24, wmm_param_ele, &(pattrib->pktlen));
++	} else
++		return pframe;
++}
++
++#ifdef CONFIG_WFD
++void rtw_tdls_process_wfd_ie(struct tdls_info *ptdlsinfo, u8 *ptr, u8 length)
++{
++	u8 *wfd_ie;
++	u32	wfd_ielen = 0;
++
++	if (!hal_chk_wl_func(tdls_info_to_adapter(ptdlsinfo), WL_FUNC_MIRACAST))
++		return;
++
++	/* Try to get the TCP port information when receiving the negotiation response. */
++
++	wfd_ie = rtw_get_wfd_ie(ptr, length, NULL, &wfd_ielen);
++	while (wfd_ie) {
++		u8 *attr_content;
++		u32	attr_contentlen = 0;
++		int	i;
++
++		RTW_INFO("[%s] WFD IE Found!!\n", __FUNCTION__);
++		attr_content = rtw_get_wfd_attr_content(wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, NULL, &attr_contentlen);
++		if (attr_content && attr_contentlen) {
++			ptdlsinfo->wfd_info->peer_rtsp_ctrlport = RTW_GET_BE16(attr_content + 2);
++			RTW_INFO("[%s] Peer PORT NUM = %d\n", __FUNCTION__, ptdlsinfo->wfd_info->peer_rtsp_ctrlport);
++		}
++
++		attr_content = rtw_get_wfd_attr_content(wfd_ie, wfd_ielen, WFD_ATTR_LOCAL_IP_ADDR, NULL, &attr_contentlen);
++		if (attr_content && attr_contentlen) {
++			_rtw_memcpy(ptdlsinfo->wfd_info->peer_ip_address, (attr_content + 1), 4);
++			RTW_INFO("[%s] Peer IP = %02u.%02u.%02u.%02u\n", __FUNCTION__,
++				ptdlsinfo->wfd_info->peer_ip_address[0], ptdlsinfo->wfd_info->peer_ip_address[1],
++				ptdlsinfo->wfd_info->peer_ip_address[2], ptdlsinfo->wfd_info->peer_ip_address[3]);
++		}
++
++		wfd_ie = rtw_get_wfd_ie(wfd_ie + wfd_ielen, (ptr + length) - (wfd_ie + wfd_ielen), NULL, &wfd_ielen);
++	}
++}
++
++int issue_tunneled_probe_req(_adapter *padapter)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	u8 baddr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	struct tdls_txmgmt txmgmt;
++	int ret = _FAIL;
++
++	RTW_INFO("[%s]\n", __FUNCTION__);
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	txmgmt.action_code = TUNNELED_PROBE_REQ;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, baddr, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, &txmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++	dump_mgntframe(padapter, pmgntframe);
++	ret = _SUCCESS;
++exit:
++
++	return ret;
++}
++
++int issue_tunneled_probe_rsp(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct tdls_txmgmt txmgmt;
++	int ret = _FAIL;
++
++	RTW_INFO("[%s]\n", __FUNCTION__);
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	txmgmt.action_code = TUNNELED_PROBE_RSP;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, precv_frame->u.hdr.attrib.src, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, &txmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++	dump_mgntframe(padapter, pmgntframe);
++	ret = _SUCCESS;
++exit:
++
++	return ret;
++}
++#endif /* CONFIG_WFD */
++
++int issue_tdls_setup_req(_adapter *padapter, struct tdls_txmgmt *ptxmgmt, int wait_ack)
++{
++	struct tdls_info	*ptdlsinfo = &padapter->tdlsinfo;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *ptdls_sta = NULL;
++	_irqL irqL;
++	int ret = _FAIL;
++	/* Retry timer should be set at least 301 sec, using TPK_count counting 301 times. */
++	u32 timeout_interval = TDLS_TPK_RESEND_COUNT;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	ptxmgmt->action_code = TDLS_SETUP_REQUEST;
++	if (rtw_tdls_is_setup_allowed(padapter) == _FALSE)
++		goto exit;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, ptxmgmt->peer, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++
++	/* init peer sta_info */
++	ptdls_sta = rtw_get_stainfo(pstapriv, ptxmgmt->peer);
++	if (ptdls_sta == NULL) {
++		ptdls_sta = rtw_alloc_stainfo(pstapriv, ptxmgmt->peer);
++		if (ptdls_sta == NULL) {
++			RTW_INFO("[%s] rtw_alloc_stainfo fail\n", __FUNCTION__);
++			rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++			rtw_free_xmitframe(pxmitpriv, pmgntframe);
++			goto exit;
++		}
++	}
++
++	if (!(ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE))
++		ptdlsinfo->sta_cnt++;
++
++	if (ptdlsinfo->sta_cnt == MAX_ALLOWED_TDLS_STA_NUM)
++		ptdlsinfo->sta_maximum  = _TRUE;
++
++	ptdls_sta->tdls_sta_state |= TDLS_RESPONDER_STATE;
++
++	if (rtw_tdls_is_driver_setup(padapter) == _TRUE) {
++		ptdls_sta->TDLS_PeerKey_Lifetime = timeout_interval;
++		_set_timer(&ptdls_sta->handshake_timer, TDLS_HANDSHAKE_TIME);
++	}
++
++	pattrib->qsel = pattrib->priority;
++
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, ptxmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++
++	return ret;
++}
++
++int _issue_tdls_teardown(_adapter *padapter, struct tdls_txmgmt *ptxmgmt, u8 wait_ack)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info	*ptdls_sta = NULL;
++	_irqL irqL;
++	int ret = _FAIL;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	ptxmgmt->action_code = TDLS_TEARDOWN;
++	ptdls_sta = rtw_get_stainfo(pstapriv, ptxmgmt->peer);
++	if (ptdls_sta == NULL) {
++		RTW_INFO("Np tdls_sta for tearing down\n");
++		goto exit;
++	}
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	rtw_mi_set_scan_deny(padapter, 550);
++	rtw_mi_scan_abort(padapter, _TRUE);
++
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, ptxmgmt->peer, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, ptxmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++
++	if (rtw_tdls_is_driver_setup(padapter) == _TRUE)
++		if (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE)
++			if (pattrib->encrypt)
++				_cancel_timer_ex(&ptdls_sta->TPK_timer);
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++	if (rtw_tdls_is_driver_setup(padapter))
++		rtw_tdls_cmd(padapter, ptxmgmt->peer, TDLS_TEARDOWN_STA_LOCALLY);
++
++exit:
++
++	return ret;
++}
++
++int issue_tdls_teardown(_adapter *padapter, struct tdls_txmgmt *ptxmgmt, u8 wait_ack)
++{
++	int ret = _FAIL;
++
++	ret = _issue_tdls_teardown(padapter, ptxmgmt, wait_ack);
++	if ((ptxmgmt->status_code == _RSON_TDLS_TEAR_UN_RSN_) && (ret == _FAIL)) {
++		/* Change status code and send teardown again via AP */
++		ptxmgmt->status_code = _RSON_TDLS_TEAR_TOOFAR_;
++		ret = _issue_tdls_teardown(padapter, ptxmgmt, wait_ack);
++	}
++
++	return ret;
++}
++
++int issue_tdls_dis_req(_adapter *padapter, struct tdls_txmgmt *ptxmgmt)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	int ret = _FAIL;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	ptxmgmt->action_code = TDLS_DISCOVERY_REQUEST;
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, ptxmgmt->peer, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, ptxmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++	dump_mgntframe(padapter, pmgntframe);
++	RTW_INFO("issue tdls dis req\n");
++
++	ret = _SUCCESS;
++exit:
++
++	return ret;
++}
++
++int issue_tdls_setup_rsp(_adapter *padapter, struct tdls_txmgmt *ptxmgmt)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	int ret = _FAIL;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	ptxmgmt->action_code = TDLS_SETUP_RESPONSE;
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, ptxmgmt->peer, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(&(padapter->mlmepriv)), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, ptxmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	ret = _SUCCESS;
++exit:
++
++	return ret;
++
++}
++
++int issue_tdls_setup_cfm(_adapter *padapter, struct tdls_txmgmt *ptxmgmt)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	int ret = _FAIL;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	ptxmgmt->action_code = TDLS_SETUP_CONFIRM;
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, ptxmgmt->peer, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(&padapter->mlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, ptxmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	ret = _SUCCESS;
++exit:
++
++	return ret;
++
++}
++
++/* TDLS Discovery Response frame is a management action frame */
++int issue_tdls_dis_rsp(_adapter *padapter, struct tdls_txmgmt *ptxmgmt, u8 privacy)
++{
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	unsigned char			*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short		*fctrl;
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	int ret = _FAIL;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	/* unicast probe request frame */
++	_rtw_memcpy(pwlanhdr->addr1, ptxmgmt->peer, ETH_ALEN);
++	_rtw_memcpy(pattrib->dst, pwlanhdr->addr1, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->src, pwlanhdr->addr2, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_bssid(&padapter->mlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, pwlanhdr->addr3, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	rtw_build_tdls_dis_rsp_ies(padapter, pmgntframe, pframe, ptxmgmt, privacy);
++
++	pattrib->nr_frags = 1;
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++int issue_tdls_peer_traffic_rsp(_adapter *padapter, struct sta_info *ptdls_sta, struct tdls_txmgmt *ptxmgmt)
++{
++	struct xmit_frame	*pmgntframe;
++	struct pkt_attrib	*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++	int ret = _FAIL;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	ptxmgmt->action_code = TDLS_PEER_TRAFFIC_RESPONSE;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, ptdls_sta->hwaddr, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, ptxmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++
++	dump_mgntframe(padapter, pmgntframe);
++	ret = _SUCCESS;
++
++exit:
++
++	return ret;
++}
++
++int issue_tdls_peer_traffic_indication(_adapter *padapter, struct sta_info *ptdls_sta)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct tdls_txmgmt txmgmt;
++	int ret = _FAIL;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	txmgmt.action_code = TDLS_PEER_TRAFFIC_INDICATION;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, ptdls_sta->hwaddr, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	/* PTI frame's priority should be AC_VO */
++	pattrib->priority = 7;
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, &txmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++
++	dump_mgntframe(padapter, pmgntframe);
++	ret = _SUCCESS;
++
++exit:
++
++	return ret;
++}
++
++#ifdef CONFIG_TDLS_CH_SW
++int issue_tdls_ch_switch_req(_adapter *padapter, struct sta_info *ptdls_sta)
++{
++	struct xmit_frame	*pmgntframe;
++	struct pkt_attrib	*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++	struct tdls_txmgmt txmgmt;
++	int ret = _FAIL;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	if (rtw_tdls_is_chsw_allowed(padapter) == _FALSE) {
++		RTW_INFO("[TDLS] Ignore %s since channel switch is not allowed\n", __func__);
++		goto exit;
++	}
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	txmgmt.action_code = TDLS_CHANNEL_SWITCH_REQUEST;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, ptdls_sta->hwaddr, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, &txmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++
++	dump_mgntframe(padapter, pmgntframe);
++	ret = _SUCCESS;
++exit:
++
++	return ret;
++}
++
++int issue_tdls_ch_switch_rsp(_adapter *padapter, struct tdls_txmgmt *ptxmgmt, int wait_ack)
++{
++	struct xmit_frame	*pmgntframe;
++	struct pkt_attrib	*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++	int ret = _FAIL;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	if (rtw_tdls_is_chsw_allowed(padapter) == _FALSE) {
++		RTW_INFO("[TDLS] Ignore %s since channel switch is not allowed\n", __func__);
++		goto exit;
++	}
++
++	ptxmgmt->action_code = TDLS_CHANNEL_SWITCH_RESPONSE;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, ptxmgmt->peer, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, ptxmgmt->peer, ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++	/*
++		_enter_critical_bh(&pxmitpriv->lock, &irqL);
++		if(xmitframe_enqueue_for_tdls_sleeping_sta(padapter, pmgntframe)==_TRUE){
++			_exit_critical_bh(&pxmitpriv->lock, &irqL);
++			return _FALSE;
++		}
++	*/
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, ptxmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack_timeout(padapter, pmgntframe, 10);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++exit:
++
++	return ret;
++}
++#endif
++
++int On_TDLS_Dis_Rsp(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct sta_info *ptdls_sta = NULL, *psta = rtw_get_stainfo(&(padapter->stapriv), get_bssid(&(padapter->mlmepriv)));
++	struct recv_priv *precvpriv = &(padapter->recvpriv);
++	u8 *ptr = precv_frame->u.hdr.rx_data, *psa;
++	struct rx_pkt_attrib *pattrib = &(precv_frame->u.hdr.attrib);
++	struct tdls_info *ptdlsinfo = &(padapter->tdlsinfo);
++	u8 empty_addr[ETH_ALEN] = { 0x00 };
++	int UndecoratedSmoothedPWDB;
++	struct tdls_txmgmt txmgmt;
++	int ret = _SUCCESS;
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	/* WFDTDLS: for sigma test, not to setup direct link automatically */
++	ptdlsinfo->dev_discovered = _TRUE;
++
++	psa = get_sa(ptr);
++	ptdls_sta = rtw_get_stainfo(&(padapter->stapriv), psa);
++	if (ptdls_sta != NULL)
++		ptdls_sta->sta_stats.rx_tdls_disc_rsp_pkts++;
++
++#ifdef CONFIG_TDLS_AUTOSETUP
++	if (ptdls_sta != NULL) {
++		/* Record the tdls sta with lowest signal strength */
++		if (ptdlsinfo->sta_maximum == _TRUE && ptdls_sta->alive_count >= 1) {
++			if (_rtw_memcmp(ptdlsinfo->ss_record.macaddr, empty_addr, ETH_ALEN)) {
++				_rtw_memcpy(ptdlsinfo->ss_record.macaddr, psa, ETH_ALEN);
++				ptdlsinfo->ss_record.RxPWDBAll = pattrib->phy_info.RxPWDBAll;
++			} else {
++				if (ptdlsinfo->ss_record.RxPWDBAll < pattrib->phy_info.RxPWDBAll) {
++					_rtw_memcpy(ptdlsinfo->ss_record.macaddr, psa, ETH_ALEN);
++					ptdlsinfo->ss_record.RxPWDBAll = pattrib->phy_info.RxPWDBAll;
++				}
++			}
++		}
++	} else {
++		if (ptdlsinfo->sta_maximum == _TRUE) {
++			if (_rtw_memcmp(ptdlsinfo->ss_record.macaddr, empty_addr, ETH_ALEN)) {
++				/* All traffics are busy, do not set up another direct link. */
++				ret = _FAIL;
++				goto exit;
++			} else {
++				if (pattrib->phy_info.RxPWDBAll > ptdlsinfo->ss_record.RxPWDBAll) {
++					_rtw_memcpy(txmgmt.peer, ptdlsinfo->ss_record.macaddr, ETH_ALEN);
++					/* issue_tdls_teardown(padapter, ptdlsinfo->ss_record.macaddr, _FALSE); */
++				} else {
++					ret = _FAIL;
++					goto exit;
++				}
++			}
++		}
++
++		rtw_hal_get_def_var(padapter, HAL_DEF_UNDERCORATEDSMOOTHEDPWDB, &UndecoratedSmoothedPWDB);
++
++		if (pattrib->phy_info.RxPWDBAll + TDLS_SIGNAL_THRESH >= UndecoratedSmoothedPWDB) {
++			RTW_INFO("pattrib->RxPWDBAll=%d, pdmpriv->UndecoratedSmoothedPWDB=%d\n", pattrib->phy_info.RxPWDBAll, UndecoratedSmoothedPWDB);
++			_rtw_memcpy(txmgmt.peer, psa, ETH_ALEN);
++			issue_tdls_setup_req(padapter, &txmgmt, _FALSE);
++		}
++	}
++#endif /* CONFIG_TDLS_AUTOSETUP */
++
++exit:
++	return ret;
++
++}
++
++sint On_TDLS_Setup_Req(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	u8 *psa, *pmyid;
++	struct sta_info *ptdls_sta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	_irqL irqL;
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	u8 *prsnie, *ppairwise_cipher;
++	u8 i, k;
++	u8 ccmp_included = 0, rsnie_included = 0;
++	u16 j, pairwise_count;
++	u8 SNonce[32];
++	u32 timeout_interval = TDLS_TPK_RESEND_COUNT;
++	sint parsing_length;	/* Frame body length, without icv_len */
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 FIXED_IE = 5;
++	unsigned char		supportRate[16];
++	int				supportRateNum = 0;
++	struct tdls_txmgmt txmgmt;
++
++	if (rtw_tdls_is_setup_allowed(padapter) == _FALSE)
++		goto exit;
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	psa = get_sa(ptr);
++	ptdls_sta = rtw_get_stainfo(pstapriv, psa);
++
++	pmyid = adapter_mac_addr(padapter);
++	ptr += prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len + LLC_HEADER_SIZE + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN;
++	parsing_length = ((union recv_frame *)precv_frame)->u.hdr.len
++			 - prx_pkt_attrib->hdrlen
++			 - prx_pkt_attrib->iv_len
++			 - prx_pkt_attrib->icv_len
++			 - LLC_HEADER_SIZE
++			 - ETH_TYPE_LEN
++			 - PAYLOAD_TYPE_LEN
++			 - FIXED_IE;
++
++	if (ptdls_sta == NULL)
++		ptdls_sta = rtw_alloc_stainfo(pstapriv, psa);
++	else {
++		if (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE) {
++			/* If the direct link is already set up */
++			/* Process as re-setup after tear down */
++			RTW_INFO("re-setup a direct link\n");
++		}
++		/* Already receiving TDLS setup request */
++		else if (ptdls_sta->tdls_sta_state & TDLS_INITIATOR_STATE) {
++			RTW_INFO("receive duplicated TDLS setup request frame in handshaking\n");
++			goto exit;
++		}
++		/* When receiving and sending setup_req to the same link at the same time */
++		/* STA with higher MAC_addr would be initiator */
++		else if (ptdls_sta->tdls_sta_state & TDLS_RESPONDER_STATE) {
++			RTW_INFO("receive setup_req after sending setup_req\n");
++			for (i = 0; i < 6; i++) {
++				if (*(pmyid + i) == *(psa + i)) {
++				} else if (*(pmyid + i) > *(psa + i)) {
++					ptdls_sta->tdls_sta_state = TDLS_INITIATOR_STATE;
++					break;
++				} else if (*(pmyid + i) < *(psa + i))
++					goto exit;
++			}
++		}
++	}
++
++	if (ptdls_sta) {
++		txmgmt.dialog_token = *(ptr + 2);	/* Copy dialog token */
++		txmgmt.status_code = _STATS_SUCCESSFUL_;
++
++		/* Parsing information element */
++		for (j = FIXED_IE; j < parsing_length;) {
++
++			pIE = (PNDIS_802_11_VARIABLE_IEs)(ptr + j);
++
++			switch (pIE->ElementID) {
++			case _SUPPORTEDRATES_IE_:
++				_rtw_memcpy(supportRate, pIE->data, pIE->Length);
++				supportRateNum = pIE->Length;
++				break;
++			case _COUNTRY_IE_:
++				break;
++			case _EXT_SUPPORTEDRATES_IE_:
++				if (supportRateNum <= sizeof(supportRate)) {
++					_rtw_memcpy(supportRate + supportRateNum, pIE->data, pIE->Length);
++					supportRateNum += pIE->Length;
++				}
++				break;
++			case _SUPPORTED_CH_IE_:
++				break;
++			case _RSN_IE_2_:
++				rsnie_included = 1;
++				if (prx_pkt_attrib->encrypt) {
++					prsnie = (u8 *)pIE;
++					/* Check CCMP pairwise_cipher presence. */
++					ppairwise_cipher = prsnie + 10;
++					_rtw_memcpy(ptdls_sta->TDLS_RSNIE, pIE->data, pIE->Length);
++					pairwise_count = *(u16 *)(ppairwise_cipher - 2);
++					for (k = 0; k < pairwise_count; k++) {
++						if (_rtw_memcmp(ppairwise_cipher + 4 * k, RSN_CIPHER_SUITE_CCMP, 4) == _TRUE)
++							ccmp_included = 1;
++					}
++
++					if (ccmp_included == 0)
++						txmgmt.status_code = _STATS_INVALID_RSNIE_;
++				}
++				break;
++			case _EXT_CAP_IE_:
++				break;
++			case _VENDOR_SPECIFIC_IE_:
++				break;
++			case _FTIE_:
++				if (prx_pkt_attrib->encrypt)
++					_rtw_memcpy(SNonce, (ptr + j + 52), 32);
++				break;
++			case _TIMEOUT_ITVL_IE_:
++				if (prx_pkt_attrib->encrypt)
++					timeout_interval = cpu_to_le32(*(u32 *)(ptr + j + 3));
++				break;
++			case _RIC_Descriptor_IE_:
++				break;
++#ifdef CONFIG_80211N_HT
++			case _HT_CAPABILITY_IE_:
++				rtw_tdls_process_ht_cap(padapter, ptdls_sta, pIE->data, pIE->Length);
++				break;
++#endif
++#ifdef CONFIG_80211AC_VHT
++			case EID_AID:
++				break;
++			case EID_VHTCapability:
++				rtw_tdls_process_vht_cap(padapter, ptdls_sta, pIE->data, pIE->Length);
++				break;
++#endif
++			case EID_BSSCoexistence:
++				break;
++			case _LINK_ID_IE_:
++				if (_rtw_memcmp(get_bssid(pmlmepriv), pIE->data, 6) == _FALSE)
++					txmgmt.status_code = _STATS_NOT_IN_SAME_BSS_;
++				break;
++			default:
++				break;
++			}
++
++			j += (pIE->Length + 2);
++
++		}
++
++		/* Check status code */
++		/* If responder STA has/hasn't security on AP, but request hasn't/has RSNIE, it should reject */
++		if (txmgmt.status_code == _STATS_SUCCESSFUL_) {
++			if (rsnie_included && prx_pkt_attrib->encrypt == 0)
++				txmgmt.status_code = _STATS_SEC_DISABLED_;
++			else if (rsnie_included == 0 && prx_pkt_attrib->encrypt)
++				txmgmt.status_code = _STATS_INVALID_PARAMETERS_;
++
++#ifdef CONFIG_WFD
++			/* WFD test plan version 0.18.2 test item 5.1.5 */
++			/* SoUT does not use TDLS if AP uses weak security */
++			if (padapter->wdinfo.wfd_tdls_enable && (rsnie_included && prx_pkt_attrib->encrypt != _AES_))
++				txmgmt.status_code = _STATS_SEC_DISABLED_;
++#endif /* CONFIG_WFD */
++		}
++
++		ptdls_sta->tdls_sta_state |= TDLS_INITIATOR_STATE;
++		if (prx_pkt_attrib->encrypt) {
++			_rtw_memcpy(ptdls_sta->SNonce, SNonce, 32);
++
++			if (timeout_interval <= 300)
++				ptdls_sta->TDLS_PeerKey_Lifetime = TDLS_TPK_RESEND_COUNT;
++			else
++				ptdls_sta->TDLS_PeerKey_Lifetime = timeout_interval;
++		}
++
++		/* Update station supportRate */
++		ptdls_sta->bssratelen = supportRateNum;
++		_rtw_memcpy(ptdls_sta->bssrateset, supportRate, supportRateNum);
++
++		if (!(ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE))
++			ptdlsinfo->sta_cnt++;
++		/* -2: AP + BC/MC sta, -4: default key */
++		if (ptdlsinfo->sta_cnt == MAX_ALLOWED_TDLS_STA_NUM)
++			ptdlsinfo->sta_maximum = _TRUE;
++
++#ifdef CONFIG_WFD
++		rtw_tdls_process_wfd_ie(ptdlsinfo, ptr + FIXED_IE, parsing_length);
++#endif
++
++	} else
++		goto exit;
++
++	_rtw_memcpy(txmgmt.peer, prx_pkt_attrib->src, ETH_ALEN);
++
++	if (rtw_tdls_is_driver_setup(padapter)) {
++		issue_tdls_setup_rsp(padapter, &txmgmt);
++
++		if (txmgmt.status_code == _STATS_SUCCESSFUL_)
++			_set_timer(&ptdls_sta->handshake_timer, TDLS_HANDSHAKE_TIME);
++		else
++			free_tdls_sta(padapter, ptdls_sta);
++	}
++
++exit:
++
++	return _SUCCESS;
++}
++
++int On_TDLS_Setup_Rsp(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct sta_info *ptdls_sta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	_irqL irqL;
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	u8 *psa;
++	u16 status_code = 0;
++	sint parsing_length;	/* Frame body length, without icv_len */
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 FIXED_IE = 7;
++	u8 ANonce[32];
++	u8  *pftie = NULL, *ptimeout_ie = NULL, *plinkid_ie = NULL, *prsnie = NULL, *pftie_mic = NULL, *ppairwise_cipher = NULL;
++	u16 pairwise_count, j, k;
++	u8 verify_ccmp = 0;
++	unsigned char		supportRate[16];
++	int				supportRateNum = 0;
++	struct tdls_txmgmt txmgmt;
++	int ret = _SUCCESS;
++	u32 timeout_interval = TDLS_TPK_RESEND_COUNT;
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	psa = get_sa(ptr);
++	ptdls_sta = rtw_get_stainfo(pstapriv, psa);
++
++	if (ptdls_sta == NULL) {
++		RTW_INFO("[%s] Direct Link Peer = "MAC_FMT" not found\n", __func__, MAC_ARG(psa));
++		ret = _FAIL;
++		goto exit;
++	}
++
++	ptr += prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len + LLC_HEADER_SIZE + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN;
++	parsing_length = ((union recv_frame *)precv_frame)->u.hdr.len
++			 - prx_pkt_attrib->hdrlen
++			 - prx_pkt_attrib->iv_len
++			 - prx_pkt_attrib->icv_len
++			 - LLC_HEADER_SIZE
++			 - ETH_TYPE_LEN
++			 - PAYLOAD_TYPE_LEN
++			 - FIXED_IE;
++
++	_rtw_memcpy(&status_code, ptr + 2, 2);
++
++	if (status_code != 0) {
++		RTW_INFO("[TDLS] %s status_code = %d, free_tdls_sta\n", __FUNCTION__, status_code);
++		free_tdls_sta(padapter, ptdls_sta);
++		ret = _FAIL;
++		goto exit;
++	}
++
++	status_code = 0;
++
++	/* parsing information element */
++	for (j = FIXED_IE; j < parsing_length;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(ptr + j);
++
++		switch (pIE->ElementID) {
++		case _SUPPORTEDRATES_IE_:
++			_rtw_memcpy(supportRate, pIE->data, pIE->Length);
++			supportRateNum = pIE->Length;
++			break;
++		case _COUNTRY_IE_:
++			break;
++		case _EXT_SUPPORTEDRATES_IE_:
++			if (supportRateNum <= sizeof(supportRate)) {
++				_rtw_memcpy(supportRate + supportRateNum, pIE->data, pIE->Length);
++				supportRateNum += pIE->Length;
++			}
++			break;
++		case _SUPPORTED_CH_IE_:
++			break;
++		case _RSN_IE_2_:
++			prsnie = (u8 *)pIE;
++			/* Check CCMP pairwise_cipher presence. */
++			ppairwise_cipher = prsnie + 10;
++			_rtw_memcpy(&pairwise_count, (u16 *)(ppairwise_cipher - 2), 2);
++			for (k = 0; k < pairwise_count; k++) {
++				if (_rtw_memcmp(ppairwise_cipher + 4 * k, RSN_CIPHER_SUITE_CCMP, 4) == _TRUE)
++					verify_ccmp = 1;
++			}
++		case _EXT_CAP_IE_:
++			break;
++		case _VENDOR_SPECIFIC_IE_:
++			if (_rtw_memcmp((u8 *)pIE + 2, WMM_INFO_OUI, 6) == _TRUE) {
++				/* WMM Info ID and OUI */
++				if ((pregistrypriv->wmm_enable == _TRUE) || (padapter->mlmepriv.htpriv.ht_option == _TRUE))
++					ptdls_sta->qos_option = _TRUE;
++			}
++			break;
++		case _FTIE_:
++			pftie = (u8 *)pIE;
++			_rtw_memcpy(ANonce, (ptr + j + 20), 32);
++			break;
++		case _TIMEOUT_ITVL_IE_:
++			ptimeout_ie = (u8 *)pIE;
++			timeout_interval = cpu_to_le32(*(u32 *)(ptimeout_ie + 3));
++			break;
++		case _RIC_Descriptor_IE_:
++			break;
++#ifdef CONFIG_80211N_HT
++		case _HT_CAPABILITY_IE_:
++			rtw_tdls_process_ht_cap(padapter, ptdls_sta, pIE->data, pIE->Length);
++			break;
++#endif
++#ifdef CONFIG_80211AC_VHT
++		case EID_AID:
++			/* todo in the future if necessary */
++			break;
++		case EID_VHTCapability:
++			rtw_tdls_process_vht_cap(padapter, ptdls_sta, pIE->data, pIE->Length);
++			break;
++		case EID_OpModeNotification:
++			rtw_process_vht_op_mode_notify(padapter, pIE->data, ptdls_sta);
++			break;
++#endif
++		case EID_BSSCoexistence:
++			break;
++		case _LINK_ID_IE_:
++			plinkid_ie = (u8 *)pIE;
++			break;
++		default:
++			break;
++		}
++
++		j += (pIE->Length + 2);
++
++	}
++
++	ptdls_sta->bssratelen = supportRateNum;
++	_rtw_memcpy(ptdls_sta->bssrateset, supportRate, supportRateNum);
++	_rtw_memcpy(ptdls_sta->ANonce, ANonce, 32);
++
++#ifdef CONFIG_WFD
++	rtw_tdls_process_wfd_ie(ptdlsinfo, ptr + FIXED_IE, parsing_length);
++#endif
++
++	if (status_code != _STATS_SUCCESSFUL_)
++		txmgmt.status_code = status_code;
++	else {
++		if (prx_pkt_attrib->encrypt) {
++			if (verify_ccmp == 1) {
++				txmgmt.status_code = _STATS_SUCCESSFUL_;
++				if (rtw_tdls_is_driver_setup(padapter) == _TRUE) {
++					wpa_tdls_generate_tpk(padapter, ptdls_sta);
++					if (tdls_verify_mic(ptdls_sta->tpk.kck, 2, plinkid_ie, prsnie, ptimeout_ie, pftie) == _FAIL) {
++						RTW_INFO("[TDLS] %s tdls_verify_mic fail, free_tdls_sta\n", __FUNCTION__);
++						free_tdls_sta(padapter, ptdls_sta);
++						ret = _FAIL;
++						goto exit;
++					}
++					ptdls_sta->TDLS_PeerKey_Lifetime = timeout_interval;
++				}
++			} else
++				txmgmt.status_code = _STATS_INVALID_RSNIE_;
++
++		} else
++			txmgmt.status_code = _STATS_SUCCESSFUL_;
++	}
++
++	if (rtw_tdls_is_driver_setup(padapter) == _TRUE) {
++		_rtw_memcpy(txmgmt.peer, prx_pkt_attrib->src, ETH_ALEN);
++		issue_tdls_setup_cfm(padapter, &txmgmt);
++
++		if (txmgmt.status_code == _STATS_SUCCESSFUL_) {
++			ptdlsinfo->link_established = _TRUE;
++
++			if (ptdls_sta->tdls_sta_state & TDLS_RESPONDER_STATE) {
++				ptdls_sta->tdls_sta_state |= TDLS_LINKED_STATE;
++				ptdls_sta->state |= _FW_LINKED;
++				_cancel_timer_ex(&ptdls_sta->handshake_timer);
++			}
++
++			if (prx_pkt_attrib->encrypt)
++				rtw_tdls_set_key(padapter, ptdls_sta);
++
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_ESTABLISHED);
++
++		}
++	}
++
++exit:
++	if (rtw_tdls_is_driver_setup(padapter) == _TRUE)
++		return ret;
++	else
++		return _SUCCESS;
++
++}
++
++int On_TDLS_Setup_Cfm(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct sta_info *ptdls_sta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	_irqL irqL;
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	u8 *psa;
++	u16 status_code = 0;
++	sint parsing_length;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 FIXED_IE = 5;
++	u8  *pftie = NULL, *ptimeout_ie = NULL, *plinkid_ie = NULL, *prsnie = NULL, *pftie_mic = NULL, *ppairwise_cipher = NULL;
++	u16 j, pairwise_count;
++	int ret = _SUCCESS;
++
++	psa = get_sa(ptr);
++	ptdls_sta = rtw_get_stainfo(pstapriv, psa);
++
++	if (ptdls_sta == NULL) {
++		RTW_INFO("[%s] Direct Link Peer = "MAC_FMT" not found\n", __FUNCTION__, MAC_ARG(psa));
++		ret = _FAIL;
++		goto exit;
++	}
++
++	ptr += prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len + LLC_HEADER_SIZE + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN;
++	parsing_length = ((union recv_frame *)precv_frame)->u.hdr.len
++			 - prx_pkt_attrib->hdrlen
++			 - prx_pkt_attrib->iv_len
++			 - prx_pkt_attrib->icv_len
++			 - LLC_HEADER_SIZE
++			 - ETH_TYPE_LEN
++			 - PAYLOAD_TYPE_LEN
++			 - FIXED_IE;
++
++	_rtw_memcpy(&status_code, ptr + 2, 2);
++
++	if (status_code != 0) {
++		RTW_INFO("[%s] status_code = %d\n, free_tdls_sta", __FUNCTION__, status_code);
++		free_tdls_sta(padapter, ptdls_sta);
++		ret = _FAIL;
++		goto exit;
++	}
++
++	/* Parsing information element */
++	for (j = FIXED_IE; j < parsing_length;) {
++
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(ptr + j);
++
++		switch (pIE->ElementID) {
++		case _RSN_IE_2_:
++			prsnie = (u8 *)pIE;
++			break;
++		case _VENDOR_SPECIFIC_IE_:
++			if (_rtw_memcmp((u8 *)pIE + 2, WMM_PARA_OUI, 6) == _TRUE) {
++				/* WMM Parameter ID and OUI */
++				ptdls_sta->qos_option = _TRUE;
++			}
++			break;
++		case _FTIE_:
++			pftie = (u8 *)pIE;
++			break;
++		case _TIMEOUT_ITVL_IE_:
++			ptimeout_ie = (u8 *)pIE;
++			break;
++#ifdef CONFIG_80211N_HT
++		case _HT_EXTRA_INFO_IE_:
++			break;
++#endif
++#ifdef CONFIG_80211AC_VHT
++		case EID_VHTOperation:
++			break;
++		case EID_OpModeNotification:
++			rtw_process_vht_op_mode_notify(padapter, pIE->data, ptdls_sta);
++			break;
++#endif
++		case _LINK_ID_IE_:
++			plinkid_ie = (u8 *)pIE;
++			break;
++		default:
++			break;
++		}
++
++		j += (pIE->Length + 2);
++
++	}
++
++	if (prx_pkt_attrib->encrypt) {
++		/* Verify mic in FTIE MIC field */
++		if (rtw_tdls_is_driver_setup(padapter) &&
++		    (tdls_verify_mic(ptdls_sta->tpk.kck, 3, plinkid_ie, prsnie, ptimeout_ie, pftie) == _FAIL)) {
++			free_tdls_sta(padapter, ptdls_sta);
++			ret = _FAIL;
++			goto exit;
++		}
++	}
++
++	if (rtw_tdls_is_driver_setup(padapter)) {
++		ptdlsinfo->link_established = _TRUE;
++
++		if (ptdls_sta->tdls_sta_state & TDLS_INITIATOR_STATE) {
++			ptdls_sta->tdls_sta_state |= TDLS_LINKED_STATE;
++			ptdls_sta->state |= _FW_LINKED;
++			_cancel_timer_ex(&ptdls_sta->handshake_timer);
++		}
++
++		if (prx_pkt_attrib->encrypt) {
++			rtw_tdls_set_key(padapter, ptdls_sta);
++
++			/* Start  TPK timer */
++			ptdls_sta->TPK_count = 0;
++			_set_timer(&ptdls_sta->TPK_timer, ONE_SEC);
++		}
++
++		rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_ESTABLISHED);
++	}
++
++exit:
++	return ret;
++
++}
++
++int On_TDLS_Dis_Req(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta_ap;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	sint parsing_length;	/* Frame body length, without icv_len */
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 FIXED_IE = 3, *dst;
++	u16 j;
++	struct tdls_txmgmt txmgmt;
++	int ret = _SUCCESS;
++
++	if (rtw_tdls_is_driver_setup(padapter) == _FALSE)
++		goto exit;
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	ptr += prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len + LLC_HEADER_SIZE + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN;
++	txmgmt.dialog_token = *(ptr + 2);
++	_rtw_memcpy(&txmgmt.peer, precv_frame->u.hdr.attrib.src, ETH_ALEN);
++	txmgmt.action_code = TDLS_DISCOVERY_RESPONSE;
++	parsing_length = ((union recv_frame *)precv_frame)->u.hdr.len
++			 - prx_pkt_attrib->hdrlen
++			 - prx_pkt_attrib->iv_len
++			 - prx_pkt_attrib->icv_len
++			 - LLC_HEADER_SIZE
++			 - ETH_TYPE_LEN
++			 - PAYLOAD_TYPE_LEN
++			 - FIXED_IE;
++
++	/* Parsing information element */
++	for (j = FIXED_IE; j < parsing_length;) {
++
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(ptr + j);
++
++		switch (pIE->ElementID) {
++		case _LINK_ID_IE_:
++			psta_ap = rtw_get_stainfo(pstapriv, pIE->data);
++			if (psta_ap == NULL)
++				goto exit;
++			dst = pIE->data + 12;
++			if (MacAddr_isBcst(dst) == _FALSE && (_rtw_memcmp(adapter_mac_addr(padapter), dst, 6) == _FALSE))
++				goto exit;
++			break;
++		default:
++			break;
++		}
++
++		j += (pIE->Length + 2);
++
++	}
++
++	issue_tdls_dis_rsp(padapter, &txmgmt, prx_pkt_attrib->privacy);
++
++exit:
++	return ret;
++
++}
++
++int On_TDLS_Teardown(_adapter *padapter, union recv_frame *precv_frame)
++{
++	u8 *psa;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_priv	*pstapriv = &padapter->stapriv;
++	struct sta_info *ptdls_sta = NULL;
++	_irqL irqL;
++	u8 reason;
++
++	reason = *(ptr + prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len + LLC_HEADER_SIZE + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN + 2);
++	RTW_INFO("[TDLS] %s Reason code(%d)\n", __FUNCTION__, reason);
++
++	psa = get_sa(ptr);
++
++	ptdls_sta = rtw_get_stainfo(pstapriv, psa);
++	if (ptdls_sta != NULL) {
++		if (rtw_tdls_is_driver_setup(padapter))
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_TEARDOWN_STA_LOCALLY);
++	}
++
++	return _SUCCESS;
++
++}
++
++#if 0
++u8 TDLS_check_ch_state(uint state)
++{
++	if (state & TDLS_CH_SWITCH_ON_STATE &&
++	    state & TDLS_PEER_AT_OFF_STATE) {
++		if (state & TDLS_PEER_SLEEP_STATE)
++			return 2;	/* U-APSD + ch. switch */
++		else
++			return 1;	/* ch. switch */
++	} else
++		return 0;
++}
++#endif
++
++int On_TDLS_Peer_Traffic_Indication(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct rx_pkt_attrib	*pattrib = &precv_frame->u.hdr.attrib;
++	struct sta_info *ptdls_sta = rtw_get_stainfo(&padapter->stapriv, pattrib->src);
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct tdls_txmgmt txmgmt;
++
++	ptr += pattrib->hdrlen + pattrib->iv_len + LLC_HEADER_SIZE + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN;
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++
++	if (ptdls_sta != NULL) {
++		txmgmt.dialog_token = *(ptr + 2);
++		issue_tdls_peer_traffic_rsp(padapter, ptdls_sta, &txmgmt);
++		/* issue_nulldata_to_TDLS_peer_STA(padapter, ptdls_sta->hwaddr, 0, 0, 0); */
++	} else {
++		RTW_INFO("from unknown sta:"MAC_FMT"\n", MAC_ARG(pattrib->src));
++		return _FAIL;
++	}
++
++	return _SUCCESS;
++}
++
++/* We process buffered data for 1. U-APSD, 2. ch. switch, 3. U-APSD + ch. switch here */
++int On_TDLS_Peer_Traffic_Rsp(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct rx_pkt_attrib	*pattrib = &precv_frame->u.hdr.attrib;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *ptdls_sta = rtw_get_stainfo(pstapriv, pattrib->src);
++	u8 wmmps_ac = 0;
++	/* u8 state=TDLS_check_ch_state(ptdls_sta->tdls_sta_state); */
++	int i;
++
++	ptdls_sta->sta_stats.rx_data_pkts++;
++
++	ptdls_sta->tdls_sta_state &= ~(TDLS_WAIT_PTR_STATE);
++
++	/* Check 4-AC queue bit */
++	if (ptdls_sta->uapsd_vo || ptdls_sta->uapsd_vi || ptdls_sta->uapsd_be || ptdls_sta->uapsd_bk)
++		wmmps_ac = 1;
++
++	/* If it's a direct link and have buffered frame */
++	if (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE) {
++		if (wmmps_ac) {
++			_irqL irqL;
++			_list	*xmitframe_plist, *xmitframe_phead;
++			struct xmit_frame *pxmitframe = NULL;
++
++			_enter_critical_bh(&ptdls_sta->sleep_q.lock, &irqL);
++
++			xmitframe_phead = get_list_head(&ptdls_sta->sleep_q);
++			xmitframe_plist = get_next(xmitframe_phead);
++
++			/* transmit buffered frames */
++			while (rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist) == _FALSE) {
++				pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++				xmitframe_plist = get_next(xmitframe_plist);
++				rtw_list_delete(&pxmitframe->list);
++
++				ptdls_sta->sleepq_len--;
++				ptdls_sta->sleepq_ac_len--;
++				if (ptdls_sta->sleepq_len > 0) {
++					pxmitframe->attrib.mdata = 1;
++					pxmitframe->attrib.eosp = 0;
++				} else {
++					pxmitframe->attrib.mdata = 0;
++					pxmitframe->attrib.eosp = 1;
++				}
++				pxmitframe->attrib.triggered = 1;
++
++				rtw_hal_xmitframe_enqueue(padapter, pxmitframe);
++			}
++
++			if (ptdls_sta->sleepq_len == 0)
++				RTW_INFO("no buffered packets for tdls to xmit\n");
++			else {
++				RTW_INFO("error!psta->sleepq_len=%d\n", ptdls_sta->sleepq_len);
++				ptdls_sta->sleepq_len = 0;
++			}
++
++			_exit_critical_bh(&ptdls_sta->sleep_q.lock, &irqL);
++
++		}
++
++	}
++
++	return _SUCCESS;
++}
++
++#ifdef CONFIG_TDLS_CH_SW
++sint On_TDLS_Ch_Switch_Req(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++	struct sta_info *ptdls_sta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	u8 *psa;
++	sint parsing_length;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 FIXED_IE = 4;
++	u16 j;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct tdls_txmgmt txmgmt;
++	u8 zaddr[ETH_ALEN] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
++	u16 switch_time = TDLS_CH_SWITCH_TIME * 1000, switch_timeout = TDLS_CH_SWITCH_TIMEOUT * 1000;
++	u8 take_care_iqk;
++
++	if (rtw_tdls_is_chsw_allowed(padapter) == _FALSE) {
++		RTW_INFO("[TDLS] Ignore %s since channel switch is not allowed\n", __func__);
++		return _FAIL;
++	}
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	psa = get_sa(ptr);
++	ptdls_sta = rtw_get_stainfo(pstapriv, psa);
++
++	if (ptdls_sta == NULL) {
++		RTW_INFO("[%s] Direct Link Peer = "MAC_FMT" not found\n", __func__, MAC_ARG(psa));
++		return _FAIL;
++	}
++
++	ptdls_sta->ch_switch_time = switch_time;
++	ptdls_sta->ch_switch_timeout = switch_timeout;
++
++	ptr += prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len + LLC_HEADER_SIZE + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN;
++	parsing_length = ((union recv_frame *)precv_frame)->u.hdr.len
++			 - prx_pkt_attrib->hdrlen
++			 - prx_pkt_attrib->iv_len
++			 - prx_pkt_attrib->icv_len
++			 - LLC_HEADER_SIZE
++			 - ETH_TYPE_LEN
++			 - PAYLOAD_TYPE_LEN
++			 - FIXED_IE;
++
++	pchsw_info->off_ch_num = *(ptr + 2);
++
++	if ((*(ptr + 2) == 2) && (hal_is_band_support(padapter, BAND_ON_5G)))
++		pchsw_info->off_ch_num = 44;
++
++	if (pchsw_info->off_ch_num != pmlmeext->cur_channel)
++		pchsw_info->delay_switch_back = _FALSE;
++
++	/* Parsing information element */
++	for (j = FIXED_IE; j < parsing_length;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(ptr + j);
++
++		switch (pIE->ElementID) {
++		case EID_SecondaryChnlOffset:
++			switch (*(pIE->data)) {
++			case EXTCHNL_OFFSET_UPPER:
++				pchsw_info->ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++				break;
++
++			case EXTCHNL_OFFSET_LOWER:
++				pchsw_info->ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++				break;
++
++			default:
++				pchsw_info->ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++				break;
++			}
++			break;
++		case _LINK_ID_IE_:
++			break;
++		case _CH_SWITCH_TIMING_:
++			ptdls_sta->ch_switch_time = (RTW_GET_LE16(pIE->data) >= TDLS_CH_SWITCH_TIME * 1000) ?
++				RTW_GET_LE16(pIE->data) : TDLS_CH_SWITCH_TIME * 1000;
++			ptdls_sta->ch_switch_timeout = (RTW_GET_LE16(pIE->data + 2) >= TDLS_CH_SWITCH_TIMEOUT * 1000) ?
++				RTW_GET_LE16(pIE->data + 2) : TDLS_CH_SWITCH_TIMEOUT * 1000;
++			RTW_INFO("[TDLS] %s ch_switch_time:%d, ch_switch_timeout:%d\n"
++				, __FUNCTION__, RTW_GET_LE16(pIE->data), RTW_GET_LE16(pIE->data + 2));
++		default:
++			break;
++		}
++
++		j += (pIE->Length + 2);
++	}
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_CH_SW_NEED_TO_TAKE_CARE_IQK_INFO, &take_care_iqk);
++	if (take_care_iqk == _TRUE) {
++		u8 central_chnl;
++		u8 bw_mode;
++
++		bw_mode = (pchsw_info->ch_offset) ? CHANNEL_WIDTH_40 : CHANNEL_WIDTH_20;
++		central_chnl = rtw_get_center_ch(pchsw_info->off_ch_num, bw_mode, pchsw_info->ch_offset);
++		if (rtw_hal_ch_sw_iqk_info_search(padapter, central_chnl, bw_mode) < 0) {
++			if (!(pchsw_info->ch_sw_state & TDLS_CH_SWITCH_PREPARE_STATE))
++				rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_PREPARE);
++
++			return _FAIL;
++		}
++	}
++
++	/* cancel ch sw monitor timer for responder */
++	if (!(pchsw_info->ch_sw_state & TDLS_CH_SW_INITIATOR_STATE))
++		_cancel_timer_ex(&ptdls_sta->ch_sw_monitor_timer);
++
++	/* Todo: check status */
++	txmgmt.status_code = 0;
++	_rtw_memcpy(txmgmt.peer, psa, ETH_ALEN);
++
++	if (_rtw_memcmp(pchsw_info->addr, zaddr, ETH_ALEN) == _TRUE)
++		_rtw_memcpy(pchsw_info->addr, ptdls_sta->hwaddr, ETH_ALEN);
++
++	if (ATOMIC_READ(&pchsw_info->chsw_on) == _FALSE)
++		rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_START);
++
++	rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_RESP);
++
++	return _SUCCESS;
++}
++
++sint On_TDLS_Ch_Switch_Rsp(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++	struct sta_info *ptdls_sta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	u8 *psa;
++	sint parsing_length;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 FIXED_IE = 4;
++	u16 status_code, j, switch_time, switch_timeout;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	int ret = _SUCCESS;
++
++	if (rtw_tdls_is_chsw_allowed(padapter) == _FALSE) {
++		RTW_INFO("[TDLS] Ignore %s since channel switch is not allowed\n", __func__);
++		return _SUCCESS;
++	}
++
++	psa = get_sa(ptr);
++	ptdls_sta = rtw_get_stainfo(pstapriv, psa);
++
++	if (ptdls_sta == NULL) {
++		RTW_INFO("[%s] Direct Link Peer = "MAC_FMT" not found\n", __func__, MAC_ARG(psa));
++		return _FAIL;
++	}
++
++	/* If we receive Unsolicited TDLS Channel Switch Response when channel switch is running, */
++	/* we will go back to base channel and terminate this channel switch procedure */
++	if (ATOMIC_READ(&pchsw_info->chsw_on) == _TRUE) {
++		if (pmlmeext->cur_channel != rtw_get_oper_ch(padapter)) {
++			RTW_INFO("[TDLS] Rx unsolicited channel switch response\n");
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_TO_BASE_CHNL);
++			goto exit;
++		}
++	}
++
++	ptr += prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len + LLC_HEADER_SIZE + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN;
++	parsing_length = ((union recv_frame *)precv_frame)->u.hdr.len
++			 - prx_pkt_attrib->hdrlen
++			 - prx_pkt_attrib->iv_len
++			 - prx_pkt_attrib->icv_len
++			 - LLC_HEADER_SIZE
++			 - ETH_TYPE_LEN
++			 - PAYLOAD_TYPE_LEN
++			 - FIXED_IE;
++
++	_rtw_memcpy(&status_code, ptr + 2, 2);
++
++	if (status_code != 0) {
++		RTW_INFO("[TDLS] %s status_code:%d\n", __func__, status_code);
++		pchsw_info->ch_sw_state &= ~(TDLS_CH_SW_INITIATOR_STATE);
++		rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_END);
++		ret = _FAIL;
++		goto exit;
++	}
++
++	/* Parsing information element */
++	for (j = FIXED_IE; j < parsing_length;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(ptr + j);
++
++		switch (pIE->ElementID) {
++		case _LINK_ID_IE_:
++			break;
++		case _CH_SWITCH_TIMING_:
++			_rtw_memcpy(&switch_time, pIE->data, 2);
++			if (switch_time > ptdls_sta->ch_switch_time)
++				_rtw_memcpy(&ptdls_sta->ch_switch_time, &switch_time, 2);
++
++			_rtw_memcpy(&switch_timeout, pIE->data + 2, 2);
++			if (switch_timeout > ptdls_sta->ch_switch_timeout)
++				_rtw_memcpy(&ptdls_sta->ch_switch_timeout, &switch_timeout, 2);
++			break;
++		default:
++			break;
++		}
++
++		j += (pIE->Length + 2);
++	}
++
++	if ((pmlmeext->cur_channel == rtw_get_oper_ch(padapter)) &&
++	    (pchsw_info->ch_sw_state & TDLS_WAIT_CH_RSP_STATE)) {
++		if (ATOMIC_READ(&pchsw_info->chsw_on) == _TRUE)
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_TO_OFF_CHNL);
++	}
++
++exit:
++	return ret;
++}
++#endif /* CONFIG_TDLS_CH_SW */
++
++#ifdef CONFIG_WFD
++void wfd_ie_tdls(_adapter *padapter, u8 *pframe, u32 *pktlen)
++{
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->tdlsinfo.wfd_info;
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u32 wfdielen = 0;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		return;
++
++	/* WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/* WFA WFD v1.0 */
++
++	/*
++	 *	Commented by Albert 20110825
++	 *	According to the WFD Specification, the negotiation request frame should contain 3 WFD attributes
++	 *	1. WFD Device Information
++	 *	2. Associated BSSID ( Optional )
++	 *	3. Local IP Adress ( Optional )
++	 */
++
++	/* WFD Device Information ATTR */
++	/* Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/* Length: */
++	/* Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/* Value1: */
++	/* WFD device information */
++	/* available for WFD session + Preferred TDLS + WSD ( WFD Service Discovery ) */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL
++		     | WFD_DEVINFO_PC_TDLS | WFD_DEVINFO_WSD);
++	wfdielen += 2;
++
++	/* Value2: */
++	/* Session Management Control Port */
++	/* Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->tdls_rtsp_ctrlport);
++	wfdielen += 2;
++
++	/* Value3: */
++	/* WFD Device Maximum Throughput */
++	/* 300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/* Associated BSSID ATTR */
++	/* Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/* Length: */
++	/* Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/* Value: */
++	/* Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	/* Local IP Address ATTR */
++	wfdie[wfdielen++] = WFD_ATTR_LOCAL_IP_ADDR;
++
++	/* Length: */
++	/* Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0005);
++	wfdielen += 2;
++
++	/* Version: */
++	/* 0x01: Version1;IPv4 */
++	wfdie[wfdielen++] = 0x01;
++
++	/* IPv4 Address */
++	_rtw_memcpy(wfdie + wfdielen, pwfd_info->ip_address, 4);
++	wfdielen += 4;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, pktlen);
++
++}
++#endif /* CONFIG_WFD */
++
++void rtw_build_tdls_setup_req_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_info *ptdls_sta = rtw_get_stainfo((&padapter->stapriv) , pattrib->dst);
++
++	int i = 0 ;
++	u32 time;
++	u8 *pframe_head;
++
++	/* SNonce */
++	if (pattrib->encrypt) {
++		for (i = 0; i < 8; i++) {
++			time = rtw_get_current_time();
++			_rtw_memcpy(&ptdls_sta->SNonce[4 * i], (u8 *)&time, 4);
++		}
++	}
++
++	pframe_head = pframe;	/* For rtw_tdls_set_ht_cap() */
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_TDLS);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_dialog(pframe, pattrib, ptxmgmt);
++
++	pframe = rtw_tdls_set_capability(padapter, pframe, pattrib);
++	pframe = rtw_tdls_set_supported_rate(padapter, pframe, pattrib);
++	pframe = rtw_tdls_set_sup_ch(&(padapter->mlmeextpriv), pframe, pattrib);
++	pframe = rtw_tdls_set_sup_reg_class(pframe, pattrib);
++
++	if (pattrib->encrypt)
++		pframe = rtw_tdls_set_rsnie(ptxmgmt, pframe, pattrib,  _TRUE, ptdls_sta);
++
++	pframe = rtw_tdls_set_ext_cap(pframe, pattrib);
++
++	if (pattrib->encrypt) {
++		pframe = rtw_tdls_set_ftie(ptxmgmt
++					   , pframe
++					   , pattrib
++					   , NULL
++					   , ptdls_sta->SNonce);
++
++		pframe = rtw_tdls_set_timeout_interval(ptxmgmt, pframe, pattrib, _TRUE, ptdls_sta);
++	}
++
++#ifdef CONFIG_80211N_HT
++	/* Sup_reg_classes(optional) */
++	if (pregistrypriv->ht_enable == _TRUE)
++		pframe = rtw_tdls_set_ht_cap(padapter, pframe_head, pattrib);
++#endif
++
++	pframe = rtw_tdls_set_bss_coexist(padapter, pframe, pattrib);
++
++	pframe = rtw_tdls_set_linkid(pframe, pattrib, _TRUE);
++
++	if ((pregistrypriv->wmm_enable == _TRUE) || (padapter->mlmepriv.htpriv.ht_option == _TRUE))
++		pframe = rtw_tdls_set_qos_cap(pframe, pattrib);
++
++#ifdef CONFIG_80211AC_VHT
++	if ((padapter->mlmepriv.htpriv.ht_option == _TRUE) && (pmlmeext->cur_channel > 14)
++	    && REGSTY_IS_11AC_ENABLE(pregistrypriv)
++	    && hal_chk_proto_cap(padapter, PROTO_CAP_11AC)
++	    && (!padapter->mlmepriv.country_ent || COUNTRY_CHPLAN_EN_11AC(padapter->mlmepriv.country_ent))
++	   ) {
++		pframe = rtw_tdls_set_aid(padapter, pframe, pattrib);
++		pframe = rtw_tdls_set_vht_cap(padapter, pframe, pattrib);
++	}
++#endif
++
++#ifdef CONFIG_WFD
++	if (padapter->wdinfo.wfd_tdls_enable == 1)
++		wfd_ie_tdls(padapter, pframe, &(pattrib->pktlen));
++#endif
++
++}
++
++void rtw_build_tdls_setup_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_info *ptdls_sta;
++	u8 k; /* for random ANonce */
++	u8  *pftie = NULL, *ptimeout_ie = NULL, *plinkid_ie = NULL, *prsnie = NULL, *pftie_mic = NULL;
++	u32 time;
++	u8 *pframe_head;
++
++	ptdls_sta = rtw_get_stainfo(&(padapter->stapriv) , pattrib->dst);
++
++	if (ptdls_sta == NULL)
++		RTW_INFO("[%s] %d ptdls_sta is NULL\n", __FUNCTION__, __LINE__);
++
++	if (pattrib->encrypt && ptdls_sta != NULL) {
++		for (k = 0; k < 8; k++) {
++			time = rtw_get_current_time();
++			_rtw_memcpy(&ptdls_sta->ANonce[4 * k], (u8 *)&time, 4);
++		}
++	}
++
++	pframe_head = pframe;
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_TDLS);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_status_code(pframe, pattrib, ptxmgmt);
++
++	if (ptxmgmt->status_code != 0) {
++		RTW_INFO("[%s] status_code:%04x\n", __FUNCTION__, ptxmgmt->status_code);
++		return;
++	}
++
++	pframe = rtw_tdls_set_dialog(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_capability(padapter, pframe, pattrib);
++	pframe = rtw_tdls_set_supported_rate(padapter, pframe, pattrib);
++	pframe = rtw_tdls_set_sup_ch(&(padapter->mlmeextpriv), pframe, pattrib);
++	pframe = rtw_tdls_set_sup_reg_class(pframe, pattrib);
++
++	if (pattrib->encrypt) {
++		prsnie = pframe;
++		pframe = rtw_tdls_set_rsnie(ptxmgmt, pframe, pattrib,  _FALSE, ptdls_sta);
++	}
++
++	pframe = rtw_tdls_set_ext_cap(pframe, pattrib);
++
++	if (pattrib->encrypt) {
++		if (rtw_tdls_is_driver_setup(padapter) == _TRUE)
++			wpa_tdls_generate_tpk(padapter, ptdls_sta);
++
++		pftie = pframe;
++		pftie_mic = pframe + 4;
++		pframe = rtw_tdls_set_ftie(ptxmgmt
++					   , pframe
++					   , pattrib
++					   , ptdls_sta->ANonce
++					   , ptdls_sta->SNonce);
++
++		ptimeout_ie = pframe;
++		pframe = rtw_tdls_set_timeout_interval(ptxmgmt, pframe, pattrib, _FALSE, ptdls_sta);
++	}
++
++#ifdef CONFIG_80211N_HT
++	/* Sup_reg_classes(optional) */
++	if (pregistrypriv->ht_enable == _TRUE)
++		pframe = rtw_tdls_set_ht_cap(padapter, pframe_head, pattrib);
++#endif
++
++	pframe = rtw_tdls_set_bss_coexist(padapter, pframe, pattrib);
++
++	plinkid_ie = pframe;
++	pframe = rtw_tdls_set_linkid(pframe, pattrib, _FALSE);
++
++	/* Fill FTIE mic */
++	if (pattrib->encrypt && rtw_tdls_is_driver_setup(padapter) == _TRUE)
++		wpa_tdls_ftie_mic(ptdls_sta->tpk.kck, 2, plinkid_ie, prsnie, ptimeout_ie, pftie, pftie_mic);
++
++	if ((pregistrypriv->wmm_enable == _TRUE) || (padapter->mlmepriv.htpriv.ht_option == _TRUE))
++		pframe = rtw_tdls_set_qos_cap(pframe, pattrib);
++
++#ifdef CONFIG_80211AC_VHT
++	if ((padapter->mlmepriv.htpriv.ht_option == _TRUE) && (pmlmeext->cur_channel > 14)
++	    && REGSTY_IS_11AC_ENABLE(pregistrypriv)
++	    && hal_chk_proto_cap(padapter, PROTO_CAP_11AC)
++	    && (!padapter->mlmepriv.country_ent || COUNTRY_CHPLAN_EN_11AC(padapter->mlmepriv.country_ent))
++	   ) {
++		pframe = rtw_tdls_set_aid(padapter, pframe, pattrib);
++		pframe = rtw_tdls_set_vht_cap(padapter, pframe, pattrib);
++		pframe = rtw_tdls_set_vht_op_mode_notify(padapter, pframe, pattrib, pmlmeext->cur_bwmode);
++	}
++#endif
++
++#ifdef CONFIG_WFD
++	if (padapter->wdinfo.wfd_tdls_enable)
++		wfd_ie_tdls(padapter, pframe, &(pattrib->pktlen));
++#endif
++
++}
++
++void rtw_build_tdls_setup_cfm_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_info *ptdls_sta = rtw_get_stainfo((&padapter->stapriv) , pattrib->dst);
++
++	unsigned int ie_len;
++	unsigned char *p;
++	u8 wmm_param_ele[24] = {0};
++	u8  *pftie = NULL, *ptimeout_ie = NULL, *plinkid_ie = NULL, *prsnie = NULL, *pftie_mic = NULL;
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_TDLS);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_status_code(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_dialog(pframe, pattrib, ptxmgmt);
++
++	if (ptxmgmt->status_code != 0)
++		return;
++
++	if (pattrib->encrypt) {
++		prsnie = pframe;
++		pframe = rtw_tdls_set_rsnie(ptxmgmt, pframe, pattrib, _TRUE, ptdls_sta);
++	}
++
++	if (pattrib->encrypt) {
++		pftie = pframe;
++		pftie_mic = pframe + 4;
++		pframe = rtw_tdls_set_ftie(ptxmgmt
++					   , pframe
++					   , pattrib
++					   , ptdls_sta->ANonce
++					   , ptdls_sta->SNonce);
++
++		ptimeout_ie = pframe;
++		pframe = rtw_tdls_set_timeout_interval(ptxmgmt, pframe, pattrib, _TRUE, ptdls_sta);
++
++		if (rtw_tdls_is_driver_setup(padapter) == _TRUE) {
++			/* Start TPK timer */
++			ptdls_sta->TPK_count = 0;
++			_set_timer(&ptdls_sta->TPK_timer, ONE_SEC);
++		}
++	}
++
++	/* HT operation; todo */
++
++	plinkid_ie = pframe;
++	pframe = rtw_tdls_set_linkid(pframe, pattrib, _TRUE);
++
++	if (pattrib->encrypt && (rtw_tdls_is_driver_setup(padapter) == _TRUE))
++		wpa_tdls_ftie_mic(ptdls_sta->tpk.kck, 3, plinkid_ie, prsnie, ptimeout_ie, pftie, pftie_mic);
++
++	if (ptdls_sta->qos_option == _TRUE)
++		pframe = rtw_tdls_set_wmm_params(padapter, pframe, pattrib);
++
++#ifdef CONFIG_80211AC_VHT
++	if ((padapter->mlmepriv.htpriv.ht_option == _TRUE)
++	    && (ptdls_sta->vhtpriv.vht_option == _TRUE) && (pmlmeext->cur_channel > 14)
++	    && REGSTY_IS_11AC_ENABLE(pregistrypriv)
++	    && hal_chk_proto_cap(padapter, PROTO_CAP_11AC)
++	    && (!padapter->mlmepriv.country_ent || COUNTRY_CHPLAN_EN_11AC(padapter->mlmepriv.country_ent))
++	   ) {
++		pframe = rtw_tdls_set_vht_operation(padapter, pframe, pattrib, pmlmeext->cur_channel);
++		pframe = rtw_tdls_set_vht_op_mode_notify(padapter, pframe, pattrib, pmlmeext->cur_bwmode);
++	}
++#endif
++}
++
++void rtw_build_tdls_teardown_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_info *ptdls_sta = rtw_get_stainfo(&(padapter->stapriv) , pattrib->dst);
++	u8  *pftie = NULL, *pftie_mic = NULL, *plinkid_ie = NULL;
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_TDLS);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_status_code(pframe, pattrib, ptxmgmt);
++
++	if (pattrib->encrypt) {
++		pftie = pframe;
++		pftie_mic = pframe + 4;
++		pframe = rtw_tdls_set_ftie(ptxmgmt
++					   , pframe
++					   , pattrib
++					   , ptdls_sta->ANonce
++					   , ptdls_sta->SNonce);
++	}
++
++	plinkid_ie = pframe;
++	if (ptdls_sta->tdls_sta_state & TDLS_INITIATOR_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _FALSE);
++	else if (ptdls_sta->tdls_sta_state & TDLS_RESPONDER_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _TRUE);
++
++	if (pattrib->encrypt && (rtw_tdls_is_driver_setup(padapter) == _TRUE))
++		wpa_tdls_teardown_ftie_mic(ptdls_sta->tpk.kck, plinkid_ie, ptxmgmt->status_code, 1, 4, pftie, pftie_mic);
++}
++
++void rtw_build_tdls_dis_req_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_TDLS);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_dialog(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_linkid(pframe, pattrib, _TRUE);
++
++}
++
++void rtw_build_tdls_dis_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt, u8 privacy)
++{
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	u8 *pframe_head, pktlen_index;
++
++	pktlen_index = pattrib->pktlen;
++	pframe_head = pframe;
++
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_PUBLIC);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_dialog(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_capability(padapter, pframe, pattrib);
++
++	pframe = rtw_tdls_set_supported_rate(padapter, pframe, pattrib);
++
++	pframe = rtw_tdls_set_sup_ch(pmlmeext, pframe, pattrib);
++
++	if (privacy)
++		pframe = rtw_tdls_set_rsnie(ptxmgmt, pframe, pattrib, _TRUE, NULL);
++
++	pframe = rtw_tdls_set_ext_cap(pframe, pattrib);
++
++	if (privacy) {
++		pframe = rtw_tdls_set_ftie(ptxmgmt, pframe, pattrib, NULL, NULL);
++		pframe = rtw_tdls_set_timeout_interval(ptxmgmt, pframe, pattrib,  _TRUE, NULL);
++	}
++
++#ifdef CONFIG_80211N_HT
++	if (pregistrypriv->ht_enable == _TRUE)
++		pframe = rtw_tdls_set_ht_cap(padapter, pframe_head - pktlen_index, pattrib);
++#endif
++
++	pframe = rtw_tdls_set_bss_coexist(padapter, pframe, pattrib);
++	pframe = rtw_tdls_set_linkid(pframe, pattrib, _FALSE);
++
++}
++
++
++void rtw_build_tdls_peer_traffic_indication_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	u8 AC_queue = 0;
++	struct sta_info *ptdls_sta = rtw_get_stainfo(&padapter->stapriv, pattrib->dst);
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_TDLS);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_dialog(pframe, pattrib, ptxmgmt);
++
++	if (ptdls_sta->tdls_sta_state & TDLS_INITIATOR_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _FALSE);
++	else if (ptdls_sta->tdls_sta_state & TDLS_RESPONDER_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _TRUE);
++
++	/* PTI control */
++	/* PU buffer status */
++	if (ptdls_sta->uapsd_bk & BIT(1))
++		AC_queue = BIT(0);
++	if (ptdls_sta->uapsd_be & BIT(1))
++		AC_queue = BIT(1);
++	if (ptdls_sta->uapsd_vi & BIT(1))
++		AC_queue = BIT(2);
++	if (ptdls_sta->uapsd_vo & BIT(1))
++		AC_queue = BIT(3);
++	pframe = rtw_set_ie(pframe, _PTI_BUFFER_STATUS_, 1, &AC_queue, &(pattrib->pktlen));
++
++}
++
++void rtw_build_tdls_peer_traffic_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_info *ptdls_sta = rtw_get_stainfo(&padapter->stapriv, pattrib->dst);
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_TDLS);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_dialog(pframe, pattrib, ptxmgmt);
++
++	if (ptdls_sta->tdls_sta_state & TDLS_INITIATOR_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _FALSE);
++	else if (ptdls_sta->tdls_sta_state & TDLS_RESPONDER_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _TRUE);
++}
++
++#ifdef CONFIG_TDLS_CH_SW
++void rtw_build_tdls_ch_switch_req_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_priv	*pstapriv = &padapter->stapriv;
++	struct sta_info *ptdls_sta = rtw_get_stainfo(pstapriv, pattrib->dst);
++	u16 switch_time = TDLS_CH_SWITCH_TIME * 1000, switch_timeout = TDLS_CH_SWITCH_TIMEOUT * 1000;
++
++	ptdls_sta->ch_switch_time = switch_time;
++	ptdls_sta->ch_switch_timeout = switch_timeout;
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_TDLS);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_target_ch(padapter, pframe, pattrib);
++	pframe = rtw_tdls_set_reg_class(pframe, pattrib, ptdls_sta);
++
++	if (ptdlsinfo->chsw_info.ch_offset != HAL_PRIME_CHNL_OFFSET_DONT_CARE) {
++		switch (ptdlsinfo->chsw_info.ch_offset) {
++		case HAL_PRIME_CHNL_OFFSET_LOWER:
++			pframe = rtw_tdls_set_second_channel_offset(pframe, pattrib, SCA);
++			break;
++		case HAL_PRIME_CHNL_OFFSET_UPPER:
++			pframe = rtw_tdls_set_second_channel_offset(pframe, pattrib, SCB);
++			break;
++		}
++	}
++
++	if (ptdls_sta->tdls_sta_state & TDLS_INITIATOR_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _FALSE);
++	else if (ptdls_sta->tdls_sta_state & TDLS_RESPONDER_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _TRUE);
++
++	pframe = rtw_tdls_set_ch_sw(pframe, pattrib, ptdls_sta);
++
++}
++
++void rtw_build_tdls_ch_switch_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_priv	*pstapriv = &padapter->stapriv;
++	struct sta_info *ptdls_sta = rtw_get_stainfo(pstapriv, pattrib->dst);
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_TDLS);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_status_code(pframe, pattrib, ptxmgmt);
++
++	if (ptdls_sta->tdls_sta_state & TDLS_INITIATOR_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _FALSE);
++	else if (ptdls_sta->tdls_sta_state & TDLS_RESPONDER_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _TRUE);
++
++	pframe = rtw_tdls_set_ch_sw(pframe, pattrib, ptdls_sta);
++}
++#endif
++
++#ifdef CONFIG_WFD
++void rtw_build_tunneled_probe_req_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe)
++{
++	u8 i;
++	_adapter *iface = NULL;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	struct wifidirect_info *pwdinfo;
++
++	u8 category = RTW_WLAN_CATEGORY_P2P;
++	u8 WFA_OUI[3] = { 0x50, 0x6f, 0x9a};
++	u8 probe_req = 4;
++	u8 wfdielen = 0;
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 3, WFA_OUI, &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(probe_req), &(pattrib->pktlen));
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++			pwdinfo = &iface->wdinfo;
++			if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++				wfdielen = build_probe_req_wfd_ie(pwdinfo, pframe);
++				pframe += wfdielen;
++				pattrib->pktlen += wfdielen;
++			}
++		}
++	}
++}
++
++void rtw_build_tunneled_probe_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe)
++{
++	u8 i;
++	_adapter *iface = NULL;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct wifidirect_info *pwdinfo;
++	u8 category = RTW_WLAN_CATEGORY_P2P;
++	u8 WFA_OUI[3] = { 0x50, 0x6f, 0x9a};
++	u8 probe_rsp = 5;
++	u8 wfdielen = 0;
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 3, WFA_OUI, &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(probe_rsp), &(pattrib->pktlen));
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++			pwdinfo = &iface->wdinfo;
++			if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++				wfdielen = build_probe_resp_wfd_ie(pwdinfo, pframe, 1);
++				pframe += wfdielen;
++				pattrib->pktlen += wfdielen;
++			}
++		}
++	}
++}
++#endif /* CONFIG_WFD */
++
++void _tdls_tpk_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++	struct tdls_txmgmt txmgmt;
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	ptdls_sta->TPK_count++;
++	/* TPK_timer expired in a second */
++	/* Retry timer should set at least 301 sec. */
++	if (ptdls_sta->TPK_count >= (ptdls_sta->TDLS_PeerKey_Lifetime - 3)) {
++		RTW_INFO("[TDLS] %s, Re-Setup TDLS link with "MAC_FMT" since TPK lifetime expires!\n", __FUNCTION__, MAC_ARG(ptdls_sta->hwaddr));
++		ptdls_sta->TPK_count = 0;
++		_rtw_memcpy(txmgmt.peer, ptdls_sta->hwaddr, ETH_ALEN);
++		issue_tdls_setup_req(ptdls_sta->padapter, &txmgmt, _FALSE);
++	}
++
++	_set_timer(&ptdls_sta->TPK_timer, ONE_SEC);
++}
++
++#ifdef CONFIG_TDLS_CH_SW
++void _tdls_ch_switch_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++	_adapter *padapter = ptdls_sta->padapter;
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++
++	rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_END_TO_BASE_CHNL);
++	RTW_INFO("[TDLS] %s, can't get traffic from op_ch:%d\n", __func__, rtw_get_oper_ch(padapter));
++}
++
++void _tdls_delay_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++	_adapter *padapter = ptdls_sta->padapter;
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++
++	RTW_INFO("[TDLS] %s, op_ch:%d, tdls_state:0x%08x\n", __func__, rtw_get_oper_ch(padapter), ptdls_sta->tdls_sta_state);
++	pchsw_info->delay_switch_back = _TRUE;
++}
++
++void _tdls_stay_on_base_chnl_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++	_adapter *padapter = ptdls_sta->padapter;
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++
++	if (ptdls_sta != NULL) {
++		issue_tdls_ch_switch_req(padapter, ptdls_sta);
++		pchsw_info->ch_sw_state |= TDLS_WAIT_CH_RSP_STATE;
++	}
++}
++
++void _tdls_ch_switch_monitor_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++	_adapter *padapter = ptdls_sta->padapter;
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++
++	rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_END);
++	RTW_INFO("[TDLS] %s, does not receive ch sw req\n", __func__);
++}
++
++#endif
++
++void _tdls_handshake_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++	_adapter *padapter = ptdls_sta->padapter;
++	struct tdls_txmgmt txmgmt;
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	_rtw_memcpy(txmgmt.peer, ptdls_sta->hwaddr, ETH_ALEN);
++	txmgmt.status_code = _RSON_TDLS_TEAR_UN_RSN_;
++
++	if (ptdls_sta != NULL) {
++		RTW_INFO("[TDLS] Handshake time out\n");
++		if (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE)
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_TEARDOWN_STA);
++		else
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_TEARDOWN_STA_LOCALLY);
++	}
++}
++
++void _tdls_pti_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++	_adapter *padapter = ptdls_sta->padapter;
++	struct tdls_txmgmt txmgmt;
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	_rtw_memcpy(txmgmt.peer, ptdls_sta->hwaddr, ETH_ALEN);
++	txmgmt.status_code = _RSON_TDLS_TEAR_TOOFAR_;
++
++	if (ptdls_sta != NULL) {
++		if (ptdls_sta->tdls_sta_state & TDLS_WAIT_PTR_STATE) {
++			RTW_INFO("[TDLS] Doesn't receive PTR from peer dev:"MAC_FMT"; "
++				"Send TDLS Tear Down\n", MAC_ARG(ptdls_sta->hwaddr));
++			issue_tdls_teardown(padapter, &txmgmt, _FALSE);
++		}
++	}
++}
++
++void rtw_init_tdls_timer(_adapter *padapter, struct sta_info *psta)
++{
++	psta->padapter = padapter;
++	_init_timer(&psta->TPK_timer, padapter->pnetdev, _tdls_tpk_timer_hdl, psta);
++#ifdef CONFIG_TDLS_CH_SW
++	_init_timer(&psta->ch_sw_timer, padapter->pnetdev, _tdls_ch_switch_timer_hdl, psta);
++	_init_timer(&psta->delay_timer, padapter->pnetdev, _tdls_delay_timer_hdl, psta);
++	_init_timer(&psta->stay_on_base_chnl_timer, padapter->pnetdev, _tdls_stay_on_base_chnl_timer_hdl, psta);
++	_init_timer(&psta->ch_sw_monitor_timer, padapter->pnetdev, _tdls_ch_switch_monitor_timer_hdl, psta);
++#endif
++	_init_timer(&psta->handshake_timer, padapter->pnetdev, _tdls_handshake_timer_hdl, psta);
++	_init_timer(&psta->pti_timer, padapter->pnetdev, _tdls_pti_timer_hdl, psta);
++}
++
++void rtw_free_tdls_timer(struct sta_info *psta)
++{
++	_cancel_timer_ex(&psta->TPK_timer);
++#ifdef CONFIG_TDLS_CH_SW
++	_cancel_timer_ex(&psta->ch_sw_timer);
++	_cancel_timer_ex(&psta->delay_timer);
++	_cancel_timer_ex(&psta->stay_on_base_chnl_timer);
++	_cancel_timer_ex(&psta->ch_sw_monitor_timer);
++#endif
++	_cancel_timer_ex(&psta->handshake_timer);
++	_cancel_timer_ex(&psta->pti_timer);
++}
++
++u32 update_mask_tdls(_adapter *padapter, struct sta_info *psta)
++{
++	unsigned char sta_band = 0;
++	unsigned int tx_ra_bitmap = 0;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX *pcur_network = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network;
++
++	rtw_hal_update_sta_rate_mask(padapter, psta);
++	tx_ra_bitmap = psta->ra_mask;
++
++	if (pcur_network->Configuration.DSConfig > 14) {
++		if (tx_ra_bitmap & 0xffff000)
++			sta_band |= WIRELESS_11_5N | WIRELESS_11A;
++		else
++			sta_band |= WIRELESS_11A;
++	} else {
++		if (tx_ra_bitmap & 0xffff000)
++			sta_band |= WIRELESS_11_24N | WIRELESS_11G | WIRELESS_11B;
++		else if (tx_ra_bitmap & 0xff0)
++			sta_band |= WIRELESS_11G | WIRELESS_11B;
++		else
++			sta_band |= WIRELESS_11B;
++	}
++
++	psta->wireless_mode = sta_band;
++
++	psta->raid = rtw_hal_networktype_to_raid(padapter, psta);
++	tx_ra_bitmap |= ((psta->raid << 28) & 0xf0000000);
++	return tx_ra_bitmap;
++}
++
++int rtw_tdls_is_driver_setup(_adapter *padapter)
++{
++	return padapter->tdlsinfo.driver_setup;
++}
++
++const char *rtw_tdls_action_txt(enum TDLS_ACTION_FIELD action)
++{
++	switch (action) {
++	case TDLS_SETUP_REQUEST:
++		return "TDLS_SETUP_REQUEST";
++	case TDLS_SETUP_RESPONSE:
++		return "TDLS_SETUP_RESPONSE";
++	case TDLS_SETUP_CONFIRM:
++		return "TDLS_SETUP_CONFIRM";
++	case TDLS_TEARDOWN:
++		return "TDLS_TEARDOWN";
++	case TDLS_PEER_TRAFFIC_INDICATION:
++		return "TDLS_PEER_TRAFFIC_INDICATION";
++	case TDLS_CHANNEL_SWITCH_REQUEST:
++		return "TDLS_CHANNEL_SWITCH_REQUEST";
++	case TDLS_CHANNEL_SWITCH_RESPONSE:
++		return "TDLS_CHANNEL_SWITCH_RESPONSE";
++	case TDLS_PEER_PSM_REQUEST:
++		return "TDLS_PEER_PSM_REQUEST";
++	case TDLS_PEER_PSM_RESPONSE:
++		return "TDLS_PEER_PSM_RESPONSE";
++	case TDLS_PEER_TRAFFIC_RESPONSE:
++		return "TDLS_PEER_TRAFFIC_RESPONSE";
++	case TDLS_DISCOVERY_REQUEST:
++		return "TDLS_DISCOVERY_REQUEST";
++	case TDLS_DISCOVERY_RESPONSE:
++		return "TDLS_DISCOVERY_RESPONSE";
++	default:
++		return "UNKNOWN";
++	}
++}
++
++#endif /* CONFIG_TDLS */
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_vht.c b/drivers/net/wireless/rtl8723du/core/rtw_vht.c
+new file mode 100644
+index 0000000..496a300
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_vht.c
+@@ -0,0 +1,857 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_VHT_C
++
++#include <drv_types.h>
++
++#ifdef CONFIG_80211AC_VHT
++/*				20/40/80,	ShortGI,	MCS Rate  */
++const u16 VHT_MCS_DATA_RATE[3][2][30] = {
++	{	{
++			13, 26, 39, 52, 78, 104, 117, 130, 156, 156,
++			26, 52, 78, 104, 156, 208, 234, 260, 312, 312,
++			39, 78, 117, 156, 234, 312, 351, 390, 468, 520
++		},			/* Long GI, 20MHz */
++		{
++			14, 29, 43, 58, 87, 116, 130, 144, 173, 173,
++			29, 58, 87, 116, 173, 231, 260, 289, 347, 347,
++			43,	87, 130, 173, 260, 347, 390,	433,	520, 578
++		}
++	},		/* Short GI, 20MHz */
++	{	{
++			27, 54, 81, 108, 162, 216, 243, 270, 324, 360,
++			54, 108, 162, 216, 324, 432, 486, 540, 648, 720,
++			81, 162, 243, 324, 486, 648, 729, 810, 972, 1080
++		}, 		/* Long GI, 40MHz */
++		{
++			30, 60, 90, 120, 180, 240, 270, 300, 360, 400,
++			60, 120, 180, 240, 360, 480, 540, 600, 720, 800,
++			90, 180, 270, 360, 540, 720, 810, 900, 1080, 1200
++		}
++	},		/* Short GI, 40MHz */
++	{	{
++			59, 117,  176, 234, 351, 468, 527, 585, 702, 780,
++			117, 234, 351, 468, 702, 936, 1053, 1170, 1404, 1560,
++			176, 351, 527, 702, 1053, 1404, 1580, 1755, 2106, 2340
++		},	/* Long GI, 80MHz */
++		{
++			65, 130, 195, 260, 390, 520, 585, 650, 780, 867,
++			130, 260, 390, 520, 780, 1040, 1170, 1300, 1560, 1734,
++			195, 390, 585, 780, 1170, 1560, 1755, 1950, 2340, 2600
++		}
++	}	/* Short GI, 80MHz */
++};
++
++u8	rtw_get_vht_highest_rate(u8 *pvht_mcs_map)
++{
++	u8	i, j;
++	u8	bit_map;
++	u8	vht_mcs_rate = 0;
++
++	for (i = 0; i < 2; i++) {
++		if (pvht_mcs_map[i] != 0xff) {
++			for (j = 0; j < 8; j += 2) {
++				bit_map = (pvht_mcs_map[i] >> j) & 3;
++
++				if (bit_map != 3)
++					vht_mcs_rate = MGN_VHT1SS_MCS7 + 10 * j / 2 + i * 40 + bit_map; /* VHT rate indications begin from 0x90 */
++			}
++		}
++	}
++
++	/* RTW_INFO("HighestVHTMCSRate is %x\n", vht_mcs_rate); */
++	return vht_mcs_rate;
++}
++
++u8	rtw_vht_mcsmap_to_nss(u8 *pvht_mcs_map)
++{
++	u8	i, j;
++	u8	bit_map;
++	u8	nss = 0;
++
++	for (i = 0; i < 2; i++) {
++		if (pvht_mcs_map[i] != 0xff) {
++			for (j = 0; j < 8; j += 2) {
++				bit_map = (pvht_mcs_map[i] >> j) & 3;
++
++				if (bit_map != 3)
++					nss++;
++			}
++		}
++	}
++
++	/* RTW_INFO("%s : %dSS\n", __FUNCTION__, nss); */
++	return nss;
++}
++
++void	rtw_vht_nss_to_mcsmap(u8 nss, u8 *target_mcs_map, u8 *cur_mcs_map)
++{
++	u8	i, j;
++	u8	cur_rate, target_rate;
++
++	for (i = 0; i < 2; i++) {
++		target_mcs_map[i] = 0;
++		for (j = 0; j < 8; j += 2) {
++			cur_rate = (cur_mcs_map[i] >> j) & 3;
++			if (cur_rate == 3) /* 0x3 indicates not supported that num of SS */
++				target_rate = 3;
++			else if (nss <= ((j / 2) + i * 4))
++				target_rate = 3;
++			else
++				target_rate = cur_rate;
++
++			target_mcs_map[i] |= (target_rate << j);
++		}
++	}
++
++	/* RTW_INFO("%s : %dSS\n", __FUNCTION__, nss); */
++}
++
++u16	rtw_vht_mcs_to_data_rate(u8 bw, u8 short_GI, u8 vht_mcs_rate)
++{
++	if (vht_mcs_rate > MGN_VHT3SS_MCS9)
++		vht_mcs_rate = MGN_VHT3SS_MCS9;
++	/* RTW_INFO("bw=%d, short_GI=%d, ((vht_mcs_rate - MGN_VHT1SS_MCS0)&0x3f)=%d\n", bw, short_GI, ((vht_mcs_rate - MGN_VHT1SS_MCS0)&0x3f)); */
++	return VHT_MCS_DATA_RATE[bw][short_GI][((vht_mcs_rate - MGN_VHT1SS_MCS0) & 0x3f)];
++}
++
++void	rtw_vht_use_default_setting(_adapter *padapter)
++{
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv		*pvhtpriv = &pmlmepriv->vhtpriv;
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	BOOLEAN		bHwLDPCSupport = _FALSE, bHwSTBCSupport = _FALSE;
++#ifdef CONFIG_BEAMFORMING
++	BOOLEAN		bHwSupportBeamformer = _FALSE, bHwSupportBeamformee = _FALSE;
++	u8	mu_bfer, mu_bfee;
++#endif /* CONFIG_BEAMFORMING */
++	u8	rf_type = 0;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	pvhtpriv->sgi_80m = TEST_FLAG(pregistrypriv->short_gi, BIT2) ? _TRUE : _FALSE;
++
++	/* LDPC support */
++	rtw_hal_get_def_var(padapter, HAL_DEF_RX_LDPC, (u8 *)&bHwLDPCSupport);
++	CLEAR_FLAGS(pvhtpriv->ldpc_cap);
++	if (bHwLDPCSupport) {
++		if (TEST_FLAG(pregistrypriv->ldpc_cap, BIT0))
++			SET_FLAG(pvhtpriv->ldpc_cap, LDPC_VHT_ENABLE_RX);
++	}
++	rtw_hal_get_def_var(padapter, HAL_DEF_TX_LDPC, (u8 *)&bHwLDPCSupport);
++	if (bHwLDPCSupport) {
++		if (TEST_FLAG(pregistrypriv->ldpc_cap, BIT1))
++			SET_FLAG(pvhtpriv->ldpc_cap, LDPC_VHT_ENABLE_TX);
++	}
++	if (pvhtpriv->ldpc_cap)
++		RTW_INFO("[VHT] Support LDPC = 0x%02X\n", pvhtpriv->ldpc_cap);
++
++	/* STBC */
++	rtw_hal_get_def_var(padapter, HAL_DEF_TX_STBC, (u8 *)&bHwSTBCSupport);
++	CLEAR_FLAGS(pvhtpriv->stbc_cap);
++	if (bHwSTBCSupport) {
++		if (TEST_FLAG(pregistrypriv->stbc_cap, BIT1))
++			SET_FLAG(pvhtpriv->stbc_cap, STBC_VHT_ENABLE_TX);
++	}
++	rtw_hal_get_def_var(padapter, HAL_DEF_RX_STBC, (u8 *)&bHwSTBCSupport);
++	if (bHwSTBCSupport) {
++		if (TEST_FLAG(pregistrypriv->stbc_cap, BIT0))
++			SET_FLAG(pvhtpriv->stbc_cap, STBC_VHT_ENABLE_RX);
++	}
++	if (pvhtpriv->stbc_cap)
++		RTW_INFO("[VHT] Support STBC = 0x%02X\n", pvhtpriv->stbc_cap);
++
++	/* Beamforming setting */
++	CLEAR_FLAGS(pvhtpriv->beamform_cap);
++#ifdef CONFIG_BEAMFORMING
++	rtw_hal_get_def_var(padapter, HAL_DEF_EXPLICIT_BEAMFORMER, (u8 *)&bHwSupportBeamformer);
++	rtw_hal_get_def_var(padapter, HAL_DEF_EXPLICIT_BEAMFORMEE, (u8 *)&bHwSupportBeamformee);
++	mu_bfer = _FALSE;
++	mu_bfee = _FALSE;
++	rtw_hal_get_def_var(padapter, HAL_DEF_VHT_MU_BEAMFORMER, &mu_bfer);
++	rtw_hal_get_def_var(padapter, HAL_DEF_VHT_MU_BEAMFORMEE, &mu_bfee);
++	if (TEST_FLAG(pregistrypriv->beamform_cap, BIT0) && bHwSupportBeamformer) {
++#ifdef CONFIG_CONCURRENT_MODE
++		if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) {
++			SET_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE);
++			RTW_INFO("[VHT] CONCURRENT AP Support Beamformer\n");
++			if (TEST_FLAG(pregistrypriv->beamform_cap, BIT(2))
++			    && (_TRUE == mu_bfer)) {
++				SET_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_MU_MIMO_AP_ENABLE);
++				RTW_INFO("[VHT] Support MU-MIMO AP\n");
++			}
++		} else
++			RTW_INFO("[VHT] CONCURRENT not AP ;not allow  Support Beamformer\n");
++#else
++		SET_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE);
++		RTW_INFO("[VHT] Support Beamformer\n");
++		if (TEST_FLAG(pregistrypriv->beamform_cap, BIT(2))
++		    && (_TRUE == mu_bfer)
++		    && ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE)) {
++			SET_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_MU_MIMO_AP_ENABLE);
++			RTW_INFO("[VHT] Support MU-MIMO AP\n");
++		}
++#endif
++	}
++	if (TEST_FLAG(pregistrypriv->beamform_cap, BIT1) && bHwSupportBeamformee) {
++		SET_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE);
++		RTW_INFO("[VHT] Support Beamformee\n");
++		if (TEST_FLAG(pregistrypriv->beamform_cap, BIT(3))
++		    && (_TRUE == mu_bfee)
++		    && ((pmlmeinfo->state & 0x03) != WIFI_FW_AP_STATE)) {
++			SET_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_MU_MIMO_STA_ENABLE);
++			RTW_INFO("[VHT] Support MU-MIMO STA\n");
++		}
++	}
++#endif /* CONFIG_BEAMFORMING */
++
++	pvhtpriv->ampdu_len = pregistrypriv->ampdu_factor;
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++	if (rf_type == RF_3T3R)
++		pvhtpriv->vht_mcs_map[0] = 0xea;	/* support 1SS MCS 0~9 2SS MCS 0~9 3SS MCS 0~9 */
++	else if (rf_type == RF_2T2R)
++		pvhtpriv->vht_mcs_map[0] = 0xfa;	/* support 1SS MCS 0~9 2SS MCS 0~9 */
++	else
++		pvhtpriv->vht_mcs_map[0] = 0xfe;	/* Only support 1SS MCS 0~9; */
++	pvhtpriv->vht_mcs_map[1] = 0xff;
++
++	if (pregistrypriv->vht_rate_sel == 1) {
++		pvhtpriv->vht_mcs_map[0] = 0xfc;	/* support 1SS MCS 0~7 */
++	} else if (pregistrypriv->vht_rate_sel == 2) {
++		pvhtpriv->vht_mcs_map[0] = 0xfd;	/* Support 1SS MCS 0~8 */
++	} else if (pregistrypriv->vht_rate_sel == 3) {
++		pvhtpriv->vht_mcs_map[0] = 0xfe;	/* Support 1SS MCS 0~9 */
++	} else if (pregistrypriv->vht_rate_sel == 4) {
++		pvhtpriv->vht_mcs_map[0] = 0xf0;	/* support 1SS MCS 0~7 2SS MCS 0~7 */
++	} else if (pregistrypriv->vht_rate_sel == 5) {
++		pvhtpriv->vht_mcs_map[0] = 0xf5;	/* support 1SS MCS 0~8 2SS MCS 0~8 */
++	} else if (pregistrypriv->vht_rate_sel == 6) {
++		pvhtpriv->vht_mcs_map[0] = 0xfa;	/* support 1SS MCS 0~9 2SS MCS 0~9 */
++	} else if (pregistrypriv->vht_rate_sel == 7) {
++		pvhtpriv->vht_mcs_map[0] = 0xf8;	/* support 1SS MCS 0-7 2SS MCS 0~9 */
++	} else if (pregistrypriv->vht_rate_sel == 8) {
++		pvhtpriv->vht_mcs_map[0] = 0xf9;	/* support 1SS MCS 0-8 2SS MCS 0~9 */
++	} else if (pregistrypriv->vht_rate_sel == 9) {
++		pvhtpriv->vht_mcs_map[0] = 0xf4;	/* support 1SS MCS 0-7 2SS MCS 0~8 */
++	}
++
++	pvhtpriv->vht_highest_rate = rtw_get_vht_highest_rate(pvhtpriv->vht_mcs_map);
++}
++
++u64	rtw_vht_rate_to_bitmap(u8 *pVHTRate)
++{
++
++	u8	i, j , tmpRate;
++	u64	RateBitmap = 0;
++	u8 Bits_3ss = 6;
++
++	for (i = j = 0; i < Bits_3ss; i += 2, j += 10) {
++		/* every two bits means single sptial stream */
++		tmpRate = (pVHTRate[0] >> i) & 3;
++
++		switch (tmpRate) {
++		case 2:
++			RateBitmap = RateBitmap | (0x03ff << j);
++			break;
++		case 1:
++			RateBitmap = RateBitmap | (0x01ff << j);
++			break;
++
++		case 0:
++			RateBitmap = RateBitmap | (0x00ff << j);
++			break;
++
++		default:
++			break;
++		}
++	}
++	RTW_INFO("RateBitmap=%016llx , pVHTRate[0]=%02x, pVHTRate[1]=%02x\n", RateBitmap, pVHTRate[0], pVHTRate[1]);
++	return RateBitmap;
++}
++
++void	update_sta_vht_info_apmode(_adapter *padapter, PVOID sta)
++{
++	struct sta_info	*psta = (struct sta_info *)sta;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct vht_priv	*pvhtpriv_ap = &pmlmepriv->vhtpriv;
++	struct vht_priv	*pvhtpriv_sta = &psta->vhtpriv;
++	struct ht_priv		*phtpriv_sta = &psta->htpriv;
++	u8	cur_ldpc_cap = 0, cur_stbc_cap = 0, bw_mode = 0;
++	u16	cur_beamform_cap = 0;
++	u8	*pcap_mcs;
++
++	if (pvhtpriv_sta->vht_option == _FALSE)
++		return;
++
++	bw_mode = GET_VHT_OPERATING_MODE_FIELD_CHNL_WIDTH(&pvhtpriv_sta->vht_op_mode_notify);
++
++	/* if (bw_mode > psta->bw_mode) */
++	psta->bw_mode = bw_mode;
++
++	/* B4 Rx LDPC */
++	if (TEST_FLAG(pvhtpriv_ap->ldpc_cap, LDPC_VHT_ENABLE_TX) &&
++	    GET_VHT_CAPABILITY_ELE_RX_LDPC(pvhtpriv_sta->vht_cap)) {
++		SET_FLAG(cur_ldpc_cap, (LDPC_VHT_ENABLE_TX | LDPC_VHT_CAP_TX));
++		RTW_INFO("Current STA(%d) VHT LDPC = %02X\n", psta->aid, cur_ldpc_cap);
++	}
++	pvhtpriv_sta->ldpc_cap = cur_ldpc_cap;
++
++	if (psta->bw_mode > pmlmeext->cur_bwmode)
++		psta->bw_mode = pmlmeext->cur_bwmode;
++
++	if (psta->bw_mode == CHANNEL_WIDTH_80) {
++		/* B5 Short GI for 80 MHz */
++		pvhtpriv_sta->sgi_80m = (GET_VHT_CAPABILITY_ELE_SHORT_GI80M(pvhtpriv_sta->vht_cap) & pvhtpriv_ap->sgi_80m) ? _TRUE : _FALSE;
++		/* RTW_INFO("Current STA ShortGI80MHz = %d\n", pvhtpriv_sta->sgi_80m); */
++	} else if (psta->bw_mode >= CHANNEL_WIDTH_160) {
++		/* B5 Short GI for 80 MHz */
++		pvhtpriv_sta->sgi_80m = (GET_VHT_CAPABILITY_ELE_SHORT_GI160M(pvhtpriv_sta->vht_cap) & pvhtpriv_ap->sgi_80m) ? _TRUE : _FALSE;
++		/* RTW_INFO("Current STA ShortGI160MHz = %d\n", pvhtpriv_sta->sgi_80m); */
++	}
++
++	/* B8 B9 B10 Rx STBC */
++	if (TEST_FLAG(pvhtpriv_ap->stbc_cap, STBC_VHT_ENABLE_TX) &&
++	    GET_VHT_CAPABILITY_ELE_RX_STBC(pvhtpriv_sta->vht_cap)) {
++		SET_FLAG(cur_stbc_cap, (STBC_VHT_ENABLE_TX | STBC_VHT_CAP_TX));
++		RTW_INFO("Current STA(%d) VHT STBC = %02X\n", psta->aid, cur_stbc_cap);
++	}
++	pvhtpriv_sta->stbc_cap = cur_stbc_cap;
++
++#ifdef CONFIG_BEAMFORMING
++	/* B11 SU Beamformer Capable, the target supports Beamformer and we are Beamformee */
++	if (TEST_FLAG(pvhtpriv_ap->beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE) &&
++	    GET_VHT_CAPABILITY_ELE_SU_BFEE(pvhtpriv_sta->vht_cap)) {
++		SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE);
++		/*Shift to BEAMFORMING_VHT_BEAMFORMER_STS_CAP*/
++		SET_FLAG(cur_beamform_cap, GET_VHT_CAPABILITY_ELE_SU_BFEE_STS_CAP(pvhtpriv_sta->vht_cap) << 8);
++	}
++
++	/* B12 SU Beamformee Capable, the target supports Beamformee and we are Beamformer */
++	if (TEST_FLAG(pvhtpriv_ap->beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE) &&
++	    GET_VHT_CAPABILITY_ELE_SU_BFER(pvhtpriv_sta->vht_cap)) {
++		SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE);
++		/*Shit to BEAMFORMING_VHT_BEAMFORMEE_SOUND_DIM*/
++		SET_FLAG(cur_beamform_cap, GET_VHT_CAPABILITY_ELE_SU_BFER_SOUND_DIM_NUM(pvhtpriv_sta->vht_cap) << 12);
++	}
++	pvhtpriv_sta->beamform_cap = cur_beamform_cap;
++	if (cur_beamform_cap)
++		RTW_INFO("Current STA(%d) VHT Beamforming Setting = %02X\n", psta->aid, cur_beamform_cap);
++#endif
++
++	/* B23 B24 B25 Maximum A-MPDU Length Exponent */
++	pvhtpriv_sta->ampdu_len = GET_VHT_CAPABILITY_ELE_MAX_RXAMPDU_FACTOR(pvhtpriv_sta->vht_cap);
++
++	pcap_mcs = GET_VHT_CAPABILITY_ELE_RX_MCS(pvhtpriv_sta->vht_cap);
++	_rtw_memcpy(pvhtpriv_sta->vht_mcs_map, pcap_mcs, 2);
++
++	pvhtpriv_sta->vht_highest_rate = rtw_get_vht_highest_rate(pvhtpriv_sta->vht_mcs_map);
++
++}
++
++void	update_hw_vht_param(_adapter *padapter)
++{
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv		*pvhtpriv = &pmlmepriv->vhtpriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8	ht_AMPDU_len;
++
++	ht_AMPDU_len = pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x03;
++
++	if (pvhtpriv->ampdu_len > ht_AMPDU_len)
++		rtw_hal_set_hwreg(padapter, HW_VAR_AMPDU_FACTOR, (u8 *)(&pvhtpriv->ampdu_len));
++}
++
++void VHT_caps_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE)
++{
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv		*pvhtpriv = &pmlmepriv->vhtpriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8	cur_ldpc_cap = 0, cur_stbc_cap = 0, rf_type = RF_1T1R;
++	u16	cur_beamform_cap = 0;
++	u8	*pcap_mcs;
++	u8	vht_mcs[2];
++
++	if (pIE == NULL)
++		return;
++
++	if (pvhtpriv->vht_option == _FALSE)
++		return;
++
++	pmlmeinfo->VHT_enable = 1;
++
++	/* B4 Rx LDPC */
++	if (TEST_FLAG(pvhtpriv->ldpc_cap, LDPC_VHT_ENABLE_TX) &&
++	    GET_VHT_CAPABILITY_ELE_RX_LDPC(pIE->data)) {
++		SET_FLAG(cur_ldpc_cap, (LDPC_VHT_ENABLE_TX | LDPC_VHT_CAP_TX));
++		RTW_INFO("Current VHT LDPC Setting = %02X\n", cur_ldpc_cap);
++	}
++	pvhtpriv->ldpc_cap = cur_ldpc_cap;
++
++	/* B5 Short GI for 80 MHz */
++	pvhtpriv->sgi_80m = (GET_VHT_CAPABILITY_ELE_SHORT_GI80M(pIE->data) & pvhtpriv->sgi_80m) ? _TRUE : _FALSE;
++	/* RTW_INFO("Current ShortGI80MHz = %d\n", pvhtpriv->sgi_80m); */
++
++	/* B8 B9 B10 Rx STBC */
++	if (TEST_FLAG(pvhtpriv->stbc_cap, STBC_VHT_ENABLE_TX) &&
++	    GET_VHT_CAPABILITY_ELE_RX_STBC(pIE->data)) {
++		SET_FLAG(cur_stbc_cap, (STBC_VHT_ENABLE_TX | STBC_VHT_CAP_TX));
++		RTW_INFO("Current VHT STBC Setting = %02X\n", cur_stbc_cap);
++	}
++	pvhtpriv->stbc_cap = cur_stbc_cap;
++#ifdef CONFIG_BEAMFORMING
++#ifdef RTW_BEAMFORMING_VERSION_2
++	/*
++	 * B11 SU Beamformer Capable,
++	 * the target supports Beamformer and we are Beamformee
++	 */
++	if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE)
++	    && GET_VHT_CAPABILITY_ELE_SU_BFER(pIE->data)) {
++		SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE);
++
++		/* Shift to BEAMFORMING_VHT_BEAMFORMEE_STS_CAP */
++		SET_FLAG(cur_beamform_cap, GET_VHT_CAPABILITY_ELE_SU_BFEE_STS_CAP(pIE->data) << 8);
++
++		/*
++		 * B19 MU Beamformer Capable,
++		 * the target supports Beamformer and we are Beamformee
++		 */
++		if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_MU_MIMO_STA_ENABLE)
++		    && GET_VHT_CAPABILITY_ELE_MU_BFER(pIE->data))
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_MU_MIMO_STA_ENABLE);
++	}
++
++	/*
++	 * B12 SU Beamformee Capable,
++	 * the target supports Beamformee and we are Beamformer
++	 */
++	if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE)
++	    && GET_VHT_CAPABILITY_ELE_SU_BFEE(pIE->data)) {
++		SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE);
++
++		/* Shit to BEAMFORMING_VHT_BEAMFORMER_SOUND_DIM */
++		SET_FLAG(cur_beamform_cap, GET_VHT_CAPABILITY_ELE_SU_BFER_SOUND_DIM_NUM(pIE->data) << 12);
++
++		/*
++		 * B20 MU Beamformee Capable,
++		 * the target supports Beamformee and we are Beamformer
++		 */
++		if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_MU_MIMO_AP_ENABLE)
++		    && GET_VHT_CAPABILITY_ELE_MU_BFEE(pIE->data))
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_MU_MIMO_AP_ENABLE);
++	}
++
++	pvhtpriv->beamform_cap = cur_beamform_cap;
++	RTW_INFO("Current VHT Beamforming Setting=0x%04X\n", cur_beamform_cap);
++#else /* !RTW_BEAMFORMING_VERSION_2 */
++	/* B11 SU Beamformer Capable, the target supports Beamformer and we are Beamformee */
++	if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE) &&
++	    GET_VHT_CAPABILITY_ELE_SU_BFEE(pIE->data)) {
++		SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE);
++		/*Shift to BEAMFORMING_VHT_BEAMFORMER_STS_CAP*/
++		SET_FLAG(cur_beamform_cap, GET_VHT_CAPABILITY_ELE_SU_BFEE_STS_CAP(pIE->data) << 8);
++	}
++
++	/* B12 SU Beamformee Capable, the target supports Beamformee and we are Beamformer */
++	if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE) &&
++	    GET_VHT_CAPABILITY_ELE_SU_BFER(pIE->data)) {
++		SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE);
++		/*Shit to BEAMFORMING_VHT_BEAMFORMEE_SOUND_DIM*/
++		SET_FLAG(cur_beamform_cap, GET_VHT_CAPABILITY_ELE_SU_BFER_SOUND_DIM_NUM(pIE->data) << 12);
++
++	}
++	pvhtpriv->beamform_cap = cur_beamform_cap;
++	if (cur_beamform_cap)
++		RTW_INFO("Current VHT Beamforming Setting = %02X\n", cur_beamform_cap);
++#endif /* !RTW_BEAMFORMING_VERSION_2 */
++#endif /* CONFIG_BEAMFORMING */
++	/* B23 B24 B25 Maximum A-MPDU Length Exponent */
++	pvhtpriv->ampdu_len = GET_VHT_CAPABILITY_ELE_MAX_RXAMPDU_FACTOR(pIE->data);
++
++	pcap_mcs = GET_VHT_CAPABILITY_ELE_RX_MCS(pIE->data);
++	_rtw_memcpy(vht_mcs, pcap_mcs, 2);
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++	if ((rf_type == RF_1T1R) || (rf_type == RF_1T2R))
++		vht_mcs[0] |= 0xfc;
++	else if (rf_type == RF_2T2R)
++		vht_mcs[0] |= 0xf0;
++	else if (rf_type == RF_3T3R)
++		vht_mcs[0] |= 0xc0;
++
++	_rtw_memcpy(pvhtpriv->vht_mcs_map, vht_mcs, 2);
++
++	pvhtpriv->vht_highest_rate = rtw_get_vht_highest_rate(pvhtpriv->vht_mcs_map);
++}
++
++void VHT_operation_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE)
++{
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv		*pvhtpriv = &pmlmepriv->vhtpriv;
++
++	if (pIE == NULL)
++		return;
++
++	if (pvhtpriv->vht_option == _FALSE)
++		return;
++}
++
++void rtw_process_vht_op_mode_notify(_adapter *padapter, u8 *pframe, PVOID sta)
++{
++	struct sta_info		*psta = (struct sta_info *)sta;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv		*pvhtpriv = &pmlmepriv->vhtpriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct registry_priv *regsty = adapter_to_regsty(padapter);
++	u8	target_bw;
++	u8	target_rxss, current_rxss;
++	u8	update_ra = _FALSE;
++	u8	vht_mcs_map[2] = {};
++
++	if (pvhtpriv->vht_option == _FALSE)
++		return;
++
++	target_bw = GET_VHT_OPERATING_MODE_FIELD_CHNL_WIDTH(pframe);
++	target_rxss = (GET_VHT_OPERATING_MODE_FIELD_RX_NSS(pframe) + 1);
++
++	if (target_bw != psta->bw_mode) {
++		if (hal_is_bw_support(padapter, target_bw)
++		    && REGSTY_IS_BW_5G_SUPPORT(regsty, target_bw)
++		   ) {
++			update_ra = _TRUE;
++			psta->bw_mode = target_bw;
++		}
++	}
++
++	current_rxss = rtw_vht_mcsmap_to_nss(psta->vhtpriv.vht_mcs_map);
++	if (target_rxss != current_rxss) {
++		update_ra = _TRUE;
++
++		rtw_vht_nss_to_mcsmap(target_rxss, vht_mcs_map, psta->vhtpriv.vht_mcs_map);
++		_rtw_memcpy(psta->vhtpriv.vht_mcs_map, vht_mcs_map, 2);
++
++		rtw_hal_update_sta_rate_mask(padapter, psta);
++	}
++
++	if (update_ra)
++		rtw_dm_ra_mask_wk_cmd(padapter, (u8 *)psta);
++}
++
++u32	rtw_build_vht_operation_ie(_adapter *padapter, u8 *pbuf, u8 channel)
++{
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv		*pvhtpriv = &pmlmepriv->vhtpriv;
++	/* struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv; */
++	u8	ChnlWidth, center_freq, bw_mode, rf_type = 0;
++	u32	len = 0;
++	u8	operation[5];
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++	_rtw_memset(operation, 0, 5);
++
++	bw_mode = REGSTY_BW_5G(pregistrypriv); /* TODO: control op bw with other info */
++
++	if (hal_chk_bw_cap(padapter, BW_CAP_80M | BW_CAP_160M)
++	    && REGSTY_BW_5G(pregistrypriv) >= CHANNEL_WIDTH_80
++	   ) {
++		center_freq = rtw_get_center_ch(channel, bw_mode, HAL_PRIME_CHNL_OFFSET_LOWER);
++		ChnlWidth = 1;
++	} else {
++		center_freq = 0;
++		ChnlWidth = 0;
++	}
++
++
++	SET_VHT_OPERATION_ELE_CHL_WIDTH(operation, ChnlWidth);
++	/* center frequency */
++	SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ1(operation, center_freq);/* Todo: need to set correct center channel */
++	SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ2(operation, 0);
++
++	if (padapter->registrypriv.rf_config != RF_MAX_TYPE)
++		rf_type = padapter->registrypriv.rf_config;
++
++	switch (rf_type) {
++	case RF_1T1R:
++		operation[3] = 0xfe;
++		operation[4] = 0xff;
++		break;
++	case RF_1T2R:
++	case RF_2T2R:
++	case RF_2T2R_GREEN:
++		operation[3] = 0xfa;
++		operation[4] = 0xff;
++		break;
++	case RF_2T3R:
++	case RF_2T4R:
++	case RF_3T3R:
++	case RF_3T4R:
++		operation[3] = 0xea;
++		operation[4] = 0xff;
++		break;
++	case RF_4T4R:
++		operation[3] = 0xaa;
++		operation[4] = 0xff;
++		break;
++	default:
++		RTW_INFO("%s, %d, unknown rf type\n", __func__, __LINE__);
++	}
++
++	rtw_set_ie(pbuf, EID_VHTOperation, 5, operation, &len);
++
++	return len;
++}
++
++u32	rtw_build_vht_op_mode_notify_ie(_adapter *padapter, u8 *pbuf, u8 bw)
++{
++	/* struct registry_priv *pregistrypriv = &padapter->registrypriv; */
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv	*pvhtpriv = &pmlmepriv->vhtpriv;
++	u32	len = 0;
++	u8	opmode = 0, rf_type = 0;
++	u8	chnl_width, rx_nss;
++
++	chnl_width = bw;
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++	if (rf_type == RF_3T3R)
++		rx_nss = 3;
++	else if (rf_type == RF_2T2R)
++		rx_nss = 2;
++	else
++		rx_nss = 1;
++
++	SET_VHT_OPERATING_MODE_FIELD_CHNL_WIDTH(&opmode, chnl_width);
++	SET_VHT_OPERATING_MODE_FIELD_RX_NSS(&opmode, (rx_nss - 1));
++	SET_VHT_OPERATING_MODE_FIELD_RX_NSS_TYPE(&opmode, 0); /* Todo */
++
++	pvhtpriv->vht_op_mode_notify = opmode;
++
++	pbuf = rtw_set_ie(pbuf, EID_OpModeNotification, 1, &opmode, &len);
++
++	return len;
++}
++
++u32	rtw_build_vht_cap_ie(_adapter *padapter, u8 *pbuf)
++{
++	u8	bw, rf_type, rf_num, rx_stbc_nss = 0;
++	u16	HighestRate;
++	u8	*pcap, *pcap_mcs;
++	u32	len = 0;
++	u32 rx_packet_offset, max_recvbuf_sz;
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv	*pvhtpriv = &pmlmepriv->vhtpriv;
++
++	pcap = pvhtpriv->vht_cap;
++	_rtw_memset(pcap, 0, 32);
++
++	/* B0 B1 Maximum MPDU Length */
++	rtw_hal_get_def_var(padapter, HAL_DEF_RX_PACKET_OFFSET, &rx_packet_offset);
++	rtw_hal_get_def_var(padapter, HAL_DEF_MAX_RECVBUF_SZ, &max_recvbuf_sz);
++
++	RTW_DBG("%s, line%d, Available RX buf size = %d bytes\n.", __FUNCTION__, __LINE__, max_recvbuf_sz - rx_packet_offset);
++
++	if ((max_recvbuf_sz - rx_packet_offset) >= 11454) {
++		SET_VHT_CAPABILITY_ELE_MAX_MPDU_LENGTH(pcap, 2);
++		RTW_INFO("%s, line%d, Set MAX MPDU len = 11454 bytes\n.", __FUNCTION__, __LINE__);
++	} else if ((max_recvbuf_sz - rx_packet_offset) >= 7991) {
++		SET_VHT_CAPABILITY_ELE_MAX_MPDU_LENGTH(pcap, 1);
++		RTW_INFO("%s, line%d, Set MAX MPDU len = 7991 bytes\n.", __FUNCTION__, __LINE__);
++	} else if ((max_recvbuf_sz - rx_packet_offset) >= 3895) {
++		SET_VHT_CAPABILITY_ELE_MAX_MPDU_LENGTH(pcap, 0);
++		RTW_INFO("%s, line%d, Set MAX MPDU len = 3895 bytes\n.", __FUNCTION__, __LINE__);
++	} else
++		RTW_ERR("%s, line%d, Error!! Available RX buf size < 3895 bytes\n.", __FUNCTION__, __LINE__);
++
++	/* B2 B3 Supported Channel Width Set */
++	if (hal_chk_bw_cap(padapter, BW_CAP_160M) && REGSTY_IS_BW_5G_SUPPORT(pregistrypriv, CHANNEL_WIDTH_160)) {
++		if (hal_chk_bw_cap(padapter, BW_CAP_80_80M) && REGSTY_IS_BW_5G_SUPPORT(pregistrypriv, CHANNEL_WIDTH_80_80))
++			SET_VHT_CAPABILITY_ELE_CHL_WIDTH(pcap, 2);
++		else
++			SET_VHT_CAPABILITY_ELE_CHL_WIDTH(pcap, 1);
++	} else
++		SET_VHT_CAPABILITY_ELE_CHL_WIDTH(pcap, 0);
++
++	/* B4 Rx LDPC */
++	if (TEST_FLAG(pvhtpriv->ldpc_cap, LDPC_VHT_ENABLE_RX))
++		SET_VHT_CAPABILITY_ELE_RX_LDPC(pcap, 1);
++
++	/* B5 ShortGI for 80MHz */
++	SET_VHT_CAPABILITY_ELE_SHORT_GI80M(pcap, pvhtpriv->sgi_80m ? 1 : 0); /* We can receive Short GI of 80M */
++
++	/* B6 ShortGI for 160MHz */
++	/* SET_VHT_CAPABILITY_ELE_SHORT_GI160M(pcap, pvhtpriv->sgi_80m? 1 : 0); */
++
++	/* B7 Tx STBC */
++	if (TEST_FLAG(pvhtpriv->stbc_cap, STBC_VHT_ENABLE_TX))
++		SET_VHT_CAPABILITY_ELE_TX_STBC(pcap, 1);
++
++	/* B8 B9 B10 Rx STBC */
++	if (TEST_FLAG(pvhtpriv->stbc_cap, STBC_VHT_ENABLE_RX)) {
++		rtw_hal_get_def_var(padapter, HAL_DEF_RX_STBC, (u8 *)(&rx_stbc_nss));
++
++		SET_VHT_CAPABILITY_ELE_RX_STBC(pcap, rx_stbc_nss);
++	}
++
++	/* B11 SU Beamformer Capable */
++	if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE)) {
++		SET_VHT_CAPABILITY_ELE_SU_BFER(pcap, 1);
++		/* B16 17 18 Number of Sounding Dimensions */
++		rtw_hal_get_def_var(padapter, HAL_DEF_BEAMFORMER_CAP, (u8 *)&rf_num);
++		SET_VHT_CAPABILITY_ELE_SOUNDING_DIMENSIONS(pcap, rf_num);
++		/* B19 MU Beamformer Capable */
++		if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_MU_MIMO_AP_ENABLE))
++			SET_VHT_CAPABILITY_ELE_MU_BFER(pcap, 1);
++	}
++
++	/* B12 SU Beamformee Capable */
++	if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE)) {
++		SET_VHT_CAPABILITY_ELE_SU_BFEE(pcap, 1);
++		/* B13 14 15 Compressed Steering Number of Beamformer Antennas Supported */
++		rtw_hal_get_def_var(padapter, HAL_DEF_BEAMFORMEE_CAP, (u8 *)&rf_num);
++		SET_VHT_CAPABILITY_ELE_BFER_ANT_SUPP(pcap, rf_num);
++		/* B20 SU Beamformee Capable */
++		if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_MU_MIMO_STA_ENABLE))
++			SET_VHT_CAPABILITY_ELE_MU_BFEE(pcap, 1);
++	}
++
++	/* B21 VHT TXOP PS */
++	SET_VHT_CAPABILITY_ELE_TXOP_PS(pcap, 0);
++	/* B22 +HTC-VHT Capable */
++	SET_VHT_CAPABILITY_ELE_HTC_VHT(pcap, 1);
++	/* B23 24 25 Maximum A-MPDU Length Exponent */
++	if (pregistrypriv->ampdu_factor != 0xFE)
++		SET_VHT_CAPABILITY_ELE_MAX_RXAMPDU_FACTOR(pcap, pregistrypriv->ampdu_factor);
++	else
++		SET_VHT_CAPABILITY_ELE_MAX_RXAMPDU_FACTOR(pcap, 7);
++	/* B26 27 VHT Link Adaptation Capable */
++	SET_VHT_CAPABILITY_ELE_LINK_ADAPTION(pcap, 0);
++
++	pcap_mcs = GET_VHT_CAPABILITY_ELE_RX_MCS(pcap);
++	_rtw_memcpy(pcap_mcs, pvhtpriv->vht_mcs_map, 2);
++
++	pcap_mcs = GET_VHT_CAPABILITY_ELE_TX_MCS(pcap);
++	_rtw_memcpy(pcap_mcs, pvhtpriv->vht_mcs_map, 2);
++
++	/* find the largest bw supported by both registry and hal */
++	bw = hal_largest_bw(padapter, REGSTY_BW_5G(pregistrypriv));
++
++	HighestRate = VHT_MCS_DATA_RATE[bw][pvhtpriv->sgi_80m][((pvhtpriv->vht_highest_rate - MGN_VHT1SS_MCS0) & 0x3f)];
++	HighestRate = (HighestRate + 1) >> 1;
++
++	SET_VHT_CAPABILITY_ELE_MCS_RX_HIGHEST_RATE(pcap, HighestRate); /* indicate we support highest rx rate is 600Mbps. */
++	SET_VHT_CAPABILITY_ELE_MCS_TX_HIGHEST_RATE(pcap, HighestRate); /* indicate we support highest tx rate is 600Mbps. */
++
++	pbuf = rtw_set_ie(pbuf, EID_VHTCapability, 12, pcap, &len);
++
++	return len;
++}
++
++u32 rtw_restructure_vht_ie(_adapter *padapter, u8 *in_ie, u8 *out_ie, uint in_len, uint *pout_len)
++{
++	u32	ielen = 0, out_len = 0;
++	u8	cap_len = 0, notify_len = 0, notify_bw = 0, operation_bw = 0, supported_chnl_width = 0;
++	u8	*p, *pframe;
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv	*pvhtpriv = &pmlmepriv->vhtpriv;
++
++	rtw_vht_use_default_setting(padapter);
++
++	p = rtw_get_ie(in_ie + 12, EID_VHTCapability, &ielen, in_len - 12);
++	if (p && ielen > 0) {
++		supported_chnl_width = GET_VHT_CAPABILITY_ELE_CHL_WIDTH(p + 2);
++
++		/* VHT Capabilities element */
++		cap_len = rtw_build_vht_cap_ie(padapter, out_ie + *pout_len);
++		*pout_len += cap_len;
++
++		/* Get HT BW */
++		p = rtw_get_ie(in_ie + 12, _HT_EXTRA_INFO_IE_, &ielen, in_len - 12);
++		if (p && ielen > 0) {
++			struct HT_info_element *pht_info = (struct HT_info_element *)(p + 2);
++			if (pht_info->infos[0] & BIT(2))
++				operation_bw = CHANNEL_WIDTH_40;
++			else
++				operation_bw = CHANNEL_WIDTH_20;
++		}
++
++		/* VHT Operation element */
++		p = rtw_get_ie(in_ie + 12, EID_VHTOperation, &ielen, in_len - 12);
++		if (p && ielen > 0) {
++			out_len = *pout_len;
++			if (GET_VHT_OPERATION_ELE_CHL_WIDTH(p + 2) >= 1) {
++				if (supported_chnl_width == 2)
++					operation_bw = CHANNEL_WIDTH_80_80;
++				else if (supported_chnl_width == 1)
++					operation_bw = CHANNEL_WIDTH_160;
++				else
++					operation_bw = CHANNEL_WIDTH_80;
++			}
++			pframe = rtw_set_ie(out_ie + out_len, EID_VHTOperation, ielen, p + 2 , pout_len);
++		}
++
++		/* find the largest bw supported by both registry and hal */
++		notify_bw = hal_largest_bw(padapter, REGSTY_BW_5G(pregistrypriv));
++
++		if (notify_bw > operation_bw)
++			notify_bw = operation_bw;
++
++		/* Operating Mode Notification element */
++		notify_len = rtw_build_vht_op_mode_notify_ie(padapter, out_ie + *pout_len, notify_bw);
++		*pout_len += notify_len;
++
++		pvhtpriv->vht_option = _TRUE;
++	}
++
++	return pvhtpriv->vht_option;
++
++}
++
++void VHTOnAssocRsp(_adapter *padapter)
++{
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv		*pvhtpriv = &pmlmepriv->vhtpriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8	ht_AMPDU_len;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	if (!pmlmeinfo->HT_enable)
++		return;
++
++	if (!pmlmeinfo->VHT_enable)
++		return;
++
++	ht_AMPDU_len = pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x03;
++
++	if (pvhtpriv->ampdu_len > ht_AMPDU_len)
++		rtw_hal_set_hwreg(padapter, HW_VAR_AMPDU_FACTOR, (u8 *)(&pvhtpriv->ampdu_len));
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_AMPDU_MAX_TIME, (u8 *)(&pvhtpriv->vht_highest_rate));
++}
++
++#endif /* CONFIG_80211AC_VHT */
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_wapi.c b/drivers/net/wireless/rtl8723du/core/rtw_wapi.c
+new file mode 100644
+index 0000000..5b84f77
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_wapi.c
+@@ -0,0 +1,1240 @@
++#ifdef CONFIG_WAPI_SUPPORT
++
++#include <linux/unistd.h>
++#include <linux/etherdevice.h>
++#include <drv_types.h>
++#include <rtw_wapi.h>
++
++
++u32 wapi_debug_component =
++	/*				WAPI_INIT	|
++	 *				WAPI_API	|
++	 *				WAPI_TX	|
++	 *				WAPI_RX	| */
++	WAPI_ERR ; /* always open err flags on */
++
++void WapiFreeAllStaInfo(_adapter *padapter)
++{
++	PRT_WAPI_T				pWapiInfo;
++	PRT_WAPI_STA_INFO		pWapiStaInfo;
++	PRT_WAPI_BKID			pWapiBkid;
++
++	WAPI_TRACE(WAPI_INIT, "===========> %s\n", __FUNCTION__);
++	pWapiInfo = &padapter->wapiInfo;
++
++	/* Pust to Idle List */
++	rtw_wapi_return_all_sta_info(padapter);
++
++	/* Sta Info List */
++	while (!list_empty(&(pWapiInfo->wapiSTAIdleList))) {
++		pWapiStaInfo = (PRT_WAPI_STA_INFO)list_entry(pWapiInfo->wapiSTAIdleList.next, RT_WAPI_STA_INFO, list);
++		list_del_init(&pWapiStaInfo->list);
++	}
++
++	/* BKID List */
++	while (!list_empty(&(pWapiInfo->wapiBKIDIdleList))) {
++		pWapiBkid = (PRT_WAPI_BKID)list_entry(pWapiInfo->wapiBKIDIdleList.next, RT_WAPI_BKID, list);
++		list_del_init(&pWapiBkid->list);
++	}
++	WAPI_TRACE(WAPI_INIT, "<=========== %s\n", __FUNCTION__);
++	return;
++}
++
++void WapiSetIE(_adapter *padapter)
++{
++	PRT_WAPI_T		pWapiInfo = &(padapter->wapiInfo);
++	/* PRT_WAPI_BKID	pWapiBkid; */
++	u16		protocolVer = 1;
++	u16		akmCnt = 1;
++	u16		suiteCnt = 1;
++	u16		capability = 0;
++	u8		OUI[3];
++
++	OUI[0] = 0x00;
++	OUI[1] = 0x14;
++	OUI[2] = 0x72;
++
++	pWapiInfo->wapiIELength = 0;
++	/* protocol version */
++	memcpy(pWapiInfo->wapiIE + pWapiInfo->wapiIELength, &protocolVer, 2);
++	pWapiInfo->wapiIELength += 2;
++	/* akm */
++	memcpy(pWapiInfo->wapiIE + pWapiInfo->wapiIELength, &akmCnt, 2);
++	pWapiInfo->wapiIELength += 2;
++
++	if (pWapiInfo->bWapiPSK) {
++		memcpy(pWapiInfo->wapiIE + pWapiInfo->wapiIELength, OUI, 3);
++		pWapiInfo->wapiIELength += 3;
++		pWapiInfo->wapiIE[pWapiInfo->wapiIELength] = 0x2;
++		pWapiInfo->wapiIELength += 1;
++	} else {
++		memcpy(pWapiInfo->wapiIE + pWapiInfo->wapiIELength, OUI, 3);
++		pWapiInfo->wapiIELength += 3;
++		pWapiInfo->wapiIE[pWapiInfo->wapiIELength] = 0x1;
++		pWapiInfo->wapiIELength += 1;
++	}
++
++	/* usk */
++	memcpy(pWapiInfo->wapiIE + pWapiInfo->wapiIELength, &suiteCnt, 2);
++	pWapiInfo->wapiIELength += 2;
++	memcpy(pWapiInfo->wapiIE + pWapiInfo->wapiIELength, OUI, 3);
++	pWapiInfo->wapiIELength += 3;
++	pWapiInfo->wapiIE[pWapiInfo->wapiIELength] = 0x1;
++	pWapiInfo->wapiIELength += 1;
++
++	/* msk */
++	memcpy(pWapiInfo->wapiIE + pWapiInfo->wapiIELength, OUI, 3);
++	pWapiInfo->wapiIELength += 3;
++	pWapiInfo->wapiIE[pWapiInfo->wapiIELength] = 0x1;
++	pWapiInfo->wapiIELength += 1;
++
++	/* Capbility */
++	memcpy(pWapiInfo->wapiIE + pWapiInfo->wapiIELength, &capability, 2);
++	pWapiInfo->wapiIELength += 2;
++}
++
++
++/*  PN1 > PN2, return 1,
++ *  else return 0.
++ */
++u32 WapiComparePN(u8 *PN1, u8 *PN2)
++{
++	char i;
++
++	if ((NULL == PN1) || (NULL == PN2))
++		return 1;
++
++	/* overflow case */
++	if ((PN2[15] - PN1[15]) & 0x80)
++		return 1;
++
++	for (i = 16; i > 0; i--) {
++		if (PN1[i - 1] == PN2[i - 1])
++			continue;
++		else if (PN1[i - 1] > PN2[i - 1])
++			return 1;
++		else
++			return 0;
++	}
++
++	return 0;
++}
++
++u8
++WapiGetEntryForCamWrite(_adapter *padapter, u8 *pMacAddr, u8 KID, BOOLEAN IsMsk)
++{
++	PRT_WAPI_T		pWapiInfo = NULL;
++	/* PRT_WAPI_CAM_ENTRY	pEntry=NULL; */
++	u8 i = 0;
++	u8 ret = 0xff;
++
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++
++	pWapiInfo =  &padapter->wapiInfo;
++
++	/* exist? */
++	for (i = 0; i < WAPI_CAM_ENTRY_NUM; i++) {
++		if (pWapiInfo->wapiCamEntry[i].IsUsed
++		    && (_rtw_memcmp(pMacAddr, pWapiInfo->wapiCamEntry[i].PeerMacAddr, ETH_ALEN) == _TRUE)
++		    && pWapiInfo->wapiCamEntry[i].keyidx == KID
++		    && pWapiInfo->wapiCamEntry[i].type == IsMsk) {
++			ret = pWapiInfo->wapiCamEntry[i].entry_idx; /* cover it */
++			break;
++		}
++	}
++
++	if (i == WAPI_CAM_ENTRY_NUM) { /* not found */
++		for (i = 0; i < WAPI_CAM_ENTRY_NUM; i++) {
++			if (pWapiInfo->wapiCamEntry[i].IsUsed == 0) {
++				pWapiInfo->wapiCamEntry[i].IsUsed = 1;
++				pWapiInfo->wapiCamEntry[i].type = IsMsk;
++				pWapiInfo->wapiCamEntry[i].keyidx = KID;
++				_rtw_memcpy(pWapiInfo->wapiCamEntry[i].PeerMacAddr, pMacAddr, ETH_ALEN);
++				ret = pWapiInfo->wapiCamEntry[i].entry_idx;
++				break;
++			}
++		}
++	}
++
++	WAPI_TRACE(WAPI_API, "<========== %s\n", __FUNCTION__);
++	return ret;
++
++	/*
++		if(RTIsListEmpty(&pWapiInfo->wapiCamIdleList)) {
++			return 0;
++		}
++
++		pEntry = (PRT_WAPI_CAM_ENTRY)RTRemoveHeadList(&pWapiInfo->wapiCamIdleList);
++		RTInsertTailList(&pWapiInfo->wapiCamUsedList, &pEntry->list);
++
++
++		return pEntry->entry_idx;*/
++}
++
++u8 WapiGetEntryForCamClear(_adapter *padapter, u8 *pPeerMac, u8 keyid, u8 IsMsk)
++{
++	PRT_WAPI_T		pWapiInfo = NULL;
++	u8		i = 0;
++
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++
++	pWapiInfo =  &padapter->wapiInfo;
++
++	for (i = 0; i < WAPI_CAM_ENTRY_NUM; i++) {
++		if (pWapiInfo->wapiCamEntry[i].IsUsed
++		    && (_rtw_memcmp(pPeerMac, pWapiInfo->wapiCamEntry[i].PeerMacAddr, ETH_ALEN) == _TRUE)
++		    && pWapiInfo->wapiCamEntry[i].keyidx == keyid
++		    && pWapiInfo->wapiCamEntry[i].type == IsMsk) {
++			pWapiInfo->wapiCamEntry[i].IsUsed = 0;
++			pWapiInfo->wapiCamEntry[i].keyidx = 2;
++			_rtw_memset(pWapiInfo->wapiCamEntry[i].PeerMacAddr, 0, ETH_ALEN);
++
++			WAPI_TRACE(WAPI_API, "<========== %s\n", __FUNCTION__);
++			return pWapiInfo->wapiCamEntry[i].entry_idx;
++		}
++	}
++
++	WAPI_TRACE(WAPI_API, "<====WapiGetReturnCamEntry(), No this cam entry.\n");
++	return 0xff;
++	/*
++		if(RTIsListEmpty(&pWapiInfo->wapiCamUsedList)) {
++			return FALSE;
++		}
++
++		pList = &pWapiInfo->wapiCamUsedList;
++		while(pList->Flink != &pWapiInfo->wapiCamUsedList)
++		{
++			pEntry = (PRT_WAPI_CAM_ENTRY)pList->Flink;
++			if(PlatformCompareMemory(pPeerMac,pEntry->PeerMacAddr, ETHER_ADDRLEN)== 0
++				&& keyid == pEntry->keyidx)
++			{
++				RTRemoveEntryList(pList);
++				RTInsertHeadList(&pWapiInfo->wapiCamIdleList, pList);
++				return pEntry->entry_idx;
++			}
++			pList = pList->Flink;
++		}
++
++		return 0;
++	*/
++}
++
++void
++WapiResetAllCamEntry(_adapter *padapter)
++{
++	PRT_WAPI_T		pWapiInfo;
++	int				i;
++
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++
++	pWapiInfo =  &padapter->wapiInfo;
++
++	for (i = 0; i < WAPI_CAM_ENTRY_NUM; i++) {
++		_rtw_memset(pWapiInfo->wapiCamEntry[i].PeerMacAddr, 0, ETH_ALEN);
++		pWapiInfo->wapiCamEntry[i].IsUsed = 0;
++		pWapiInfo->wapiCamEntry[i].keyidx = 2; /* invalid */
++		pWapiInfo->wapiCamEntry[i].entry_idx = 4 + i * 2;
++	}
++
++	WAPI_TRACE(WAPI_API, "<========== %s\n", __FUNCTION__);
++
++	return;
++}
++
++u8 WapiWriteOneCamEntry(
++	_adapter	*padapter,
++	u8			*pMacAddr,
++	u8			KeyId,
++	u8			EntryId,
++	u8			EncAlg,
++	u8			bGroupKey,
++	u8			*pKey
++)
++{
++	u8 retVal = 0;
++	u16 usConfig = 0;
++
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++
++	if (EntryId >= 32) {
++		WAPI_TRACE(WAPI_ERR, "<=== CamAddOneEntry(): ulKeyId exceed!\n");
++		return retVal;
++	}
++
++	usConfig = usConfig | (0x01 << 15) | ((u16)(EncAlg) << 2) | (KeyId);
++
++	if (EncAlg == _SMS4_) {
++		if (bGroupKey == 1)
++			usConfig |= (0x01 << 6);
++		if ((EntryId % 2) == 1) /* ==0 sec key; == 1mic key */
++			usConfig |= (0x01 << 5);
++	}
++
++	write_cam(padapter, EntryId, usConfig, pMacAddr, pKey);
++
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++	return 1;
++}
++
++void rtw_wapi_init(_adapter *padapter)
++{
++	PRT_WAPI_T		pWapiInfo;
++	int				i;
++
++	WAPI_TRACE(WAPI_INIT, "===========> %s\n", __FUNCTION__);
++	RT_ASSERT_RET(padapter);
++
++	if (!padapter->WapiSupport) {
++		WAPI_TRACE(WAPI_INIT, "<========== %s, WAPI not supported!\n", __FUNCTION__);
++		return;
++	}
++
++	pWapiInfo =  &padapter->wapiInfo;
++	pWapiInfo->bWapiEnable = false;
++
++	/* Init BKID List */
++	INIT_LIST_HEAD(&pWapiInfo->wapiBKIDIdleList);
++	INIT_LIST_HEAD(&pWapiInfo->wapiBKIDStoreList);
++	for (i = 0; i < WAPI_MAX_BKID_NUM; i++)
++		list_add_tail(&pWapiInfo->wapiBKID[i].list, &pWapiInfo->wapiBKIDIdleList);
++
++	/* Init STA List */
++	INIT_LIST_HEAD(&pWapiInfo->wapiSTAIdleList);
++	INIT_LIST_HEAD(&pWapiInfo->wapiSTAUsedList);
++	for (i = 0; i < WAPI_MAX_STAINFO_NUM; i++)
++		list_add_tail(&pWapiInfo->wapiSta[i].list, &pWapiInfo->wapiSTAIdleList);
++
++	for (i = 0; i < WAPI_CAM_ENTRY_NUM; i++) {
++		pWapiInfo->wapiCamEntry[i].IsUsed = 0;
++		pWapiInfo->wapiCamEntry[i].keyidx = 2; /* invalid */
++		pWapiInfo->wapiCamEntry[i].entry_idx = 4 + i * 2;
++	}
++
++	WAPI_TRACE(WAPI_INIT, "<========== %s\n", __FUNCTION__);
++}
++
++void rtw_wapi_free(_adapter *padapter)
++{
++	WAPI_TRACE(WAPI_INIT, "===========> %s\n", __FUNCTION__);
++	RT_ASSERT_RET(padapter);
++
++	if (!padapter->WapiSupport) {
++		WAPI_TRACE(WAPI_INIT, "<========== %s, WAPI not supported!\n", __FUNCTION__);
++		return;
++	}
++
++	WapiFreeAllStaInfo(padapter);
++
++	WAPI_TRACE(WAPI_INIT, "<========== %s\n", __FUNCTION__);
++}
++
++void rtw_wapi_disable_tx(_adapter *padapter)
++{
++	WAPI_TRACE(WAPI_INIT, "===========> %s\n", __FUNCTION__);
++	RT_ASSERT_RET(padapter);
++
++	if (!padapter->WapiSupport) {
++		WAPI_TRACE(WAPI_INIT, "<========== %s, WAPI not supported!\n", __FUNCTION__);
++		return;
++	}
++
++	padapter->wapiInfo.wapiTxMsk.bTxEnable = false;
++	padapter->wapiInfo.wapiTxMsk.bSet = false;
++
++	WAPI_TRACE(WAPI_INIT, "<========== %s\n", __FUNCTION__);
++}
++
++u8 rtw_wapi_is_wai_packet(_adapter *padapter, u8 *pkt_data)
++{
++	PRT_WAPI_T pWapiInfo = &(padapter->wapiInfo);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv   *psecuritypriv = &padapter->securitypriv;
++	PRT_WAPI_STA_INFO pWapiSta = NULL;
++	u8 WaiPkt = 0, *pTaddr, bFind = false;
++	u8 Offset_TypeWAI = 0 ;	/* (mac header len + llc length) */
++
++	WAPI_TRACE(WAPI_TX | WAPI_RX, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!pWapiInfo->bWapiEnable)) {
++		WAPI_TRACE(WAPI_MLME, "<========== %s, WAPI not supported or not enabled!\n", __FUNCTION__);
++		return 0;
++	}
++
++	Offset_TypeWAI = 24 + 6 ;
++
++	/* YJ,add,091103. Data frame may also have skb->data[30]=0x88 and skb->data[31]=0xb4. */
++	if ((pkt_data[1] & 0x40) != 0) {
++		/* RTW_INFO("data is privacy\n"); */
++		return 0;
++	}
++
++	pTaddr = GetAddr2Ptr(pkt_data);
++	if (list_empty(&pWapiInfo->wapiSTAUsedList))
++		bFind = false;
++	else {
++		list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++			if (_rtw_memcmp(pTaddr, pWapiSta->PeerMacAddr, 6) == _TRUE) {
++				bFind = true;
++				break;
++			}
++		}
++	}
++
++	WAPI_TRACE(WAPI_TX | WAPI_RX, "%s: bFind=%d pTaddr="MAC_FMT"\n", __FUNCTION__, bFind, MAC_ARG(pTaddr));
++
++	if (pkt_data[0] == WIFI_QOS_DATA_TYPE)
++		Offset_TypeWAI += 2;
++
++	/* 88b4? */
++	if ((pkt_data[Offset_TypeWAI] == 0x88) && (pkt_data[Offset_TypeWAI + 1] == 0xb4)) {
++		WaiPkt = pkt_data[Offset_TypeWAI + 5];
++
++		psecuritypriv->hw_decrypted = _TRUE;
++	} else
++		WAPI_TRACE(WAPI_TX | WAPI_RX, "%s(): non wai packet\n", __FUNCTION__);
++
++	WAPI_TRACE(WAPI_TX | WAPI_RX, "%s(): Recvd WAI frame. IsWAIPkt(%d)\n", __FUNCTION__, WaiPkt);
++
++	return	WaiPkt;
++}
++
++
++void rtw_wapi_update_info(_adapter *padapter, union recv_frame *precv_frame)
++{
++	PRT_WAPI_T     pWapiInfo = &(padapter->wapiInfo);
++	struct recv_frame_hdr *precv_hdr;
++	u8	*ptr;
++	u8	*pTA;
++	u8	*pRecvPN;
++
++
++	WAPI_TRACE(WAPI_RX, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!pWapiInfo->bWapiEnable)) {
++		WAPI_TRACE(WAPI_RX, "<========== %s, WAPI not supported or not enabled!\n", __FUNCTION__);
++		return;
++	}
++
++	precv_hdr = &precv_frame->u.hdr;
++	ptr = precv_hdr->rx_data;
++
++	if (precv_hdr->attrib.qos == 1)
++		precv_hdr->UserPriority = GetTid(ptr);
++	else
++		precv_hdr->UserPriority = 0;
++
++	pTA = GetAddr2Ptr(ptr);
++	_rtw_memcpy((u8 *)precv_hdr->WapiSrcAddr, pTA, 6);
++	pRecvPN = ptr + precv_hdr->attrib.hdrlen + 2;
++	_rtw_memcpy((u8 *)precv_hdr->WapiTempPN, pRecvPN, 16);
++
++	WAPI_TRACE(WAPI_RX, "<========== %s\n", __FUNCTION__);
++}
++
++/****************************************************************************
++TRUE-----------------Drop
++FALSE---------------- handle
++add to support WAPI to N-mode
++*****************************************************************************/
++u8 rtw_wapi_check_for_drop(
++	_adapter *padapter,
++	union recv_frame *precv_frame
++)
++{
++	PRT_WAPI_T     pWapiInfo = &(padapter->wapiInfo);
++	u8			*pLastRecvPN = NULL;
++	u8			bFind = false;
++	PRT_WAPI_STA_INFO	pWapiSta = NULL;
++	u8			bDrop = false;
++	struct recv_frame_hdr *precv_hdr = &precv_frame->u.hdr;
++	u8					WapiAEPNInitialValueSrc[16] = {0x37, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++	u8					WapiAEMultiCastPNInitialValueSrc[16] = {0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++	u8					*ptr = precv_frame->u.hdr.rx_data;
++	int					i;
++
++	WAPI_TRACE(WAPI_RX, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!pWapiInfo->bWapiEnable)) {
++		WAPI_TRACE(WAPI_RX, "<========== %s, WAPI not supported or not enabled!\n", __FUNCTION__);
++		return false;
++	}
++
++	if (precv_hdr->bIsWaiPacket != 0) {
++		if (precv_hdr->bIsWaiPacket == 0x8) {
++
++			RTW_INFO("rtw_wapi_check_for_drop: dump packet\n");
++			for (i = 0; i < 50; i++) {
++				RTW_INFO("%02X  ", ptr[i]);
++				if ((i + 1) % 8 == 0)
++					RTW_INFO("\n");
++			}
++			RTW_INFO("\n rtw_wapi_check_for_drop: dump packet\n");
++
++			for (i = 0; i < 16; i++) {
++				if (ptr[i + 27] != 0)
++					break;
++			}
++
++			if (i == 16) {
++				WAPI_TRACE(WAPI_RX, "rtw_wapi_check_for_drop: drop with zero BKID\n");
++				return true;
++			} else
++				return false;
++		} else
++			return false;
++	}
++
++	if (list_empty(&pWapiInfo->wapiSTAUsedList))
++		bFind = false;
++	else {
++		list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++			if (_rtw_memcmp(precv_hdr->WapiSrcAddr, pWapiSta->PeerMacAddr, ETH_ALEN) == _TRUE) {
++				bFind = true;
++				break;
++			}
++		}
++	}
++	WAPI_TRACE(WAPI_RX, "%s: bFind=%d prxb->WapiSrcAddr="MAC_FMT"\n", __FUNCTION__, bFind, MAC_ARG(precv_hdr->WapiSrcAddr));
++
++	if (bFind) {
++		if (IS_MCAST(precv_hdr->attrib.ra)) {
++			WAPI_TRACE(WAPI_RX, "rtw_wapi_check_for_drop: multicast case\n");
++			pLastRecvPN = pWapiSta->lastRxMulticastPN;
++		} else {
++			WAPI_TRACE(WAPI_RX, "rtw_wapi_check_for_drop: unicast case\n");
++			switch (precv_hdr->UserPriority) {
++			case 0:
++			case 3:
++				pLastRecvPN = pWapiSta->lastRxUnicastPNBEQueue;
++				break;
++			case 1:
++			case 2:
++				pLastRecvPN = pWapiSta->lastRxUnicastPNBKQueue;
++				break;
++			case 4:
++			case 5:
++				pLastRecvPN = pWapiSta->lastRxUnicastPNVIQueue;
++				break;
++			case 6:
++			case 7:
++				pLastRecvPN = pWapiSta->lastRxUnicastPNVOQueue;
++				break;
++			default:
++				WAPI_TRACE(WAPI_ERR, "%s: Unknown TID\n", __FUNCTION__);
++				break;
++			}
++		}
++
++		if (!WapiComparePN(precv_hdr->WapiTempPN, pLastRecvPN)) {
++			WAPI_TRACE(WAPI_RX, "%s: Equal PN!!\n", __FUNCTION__);
++			if (IS_MCAST(precv_hdr->attrib.ra))
++				_rtw_memcpy(pLastRecvPN, WapiAEMultiCastPNInitialValueSrc, 16);
++			else
++				_rtw_memcpy(pLastRecvPN, WapiAEPNInitialValueSrc, 16);
++			bDrop = true;
++		} else
++			_rtw_memcpy(pLastRecvPN, precv_hdr->WapiTempPN, 16);
++	}
++
++	WAPI_TRACE(WAPI_RX, "<========== %s\n", __FUNCTION__);
++	return bDrop;
++}
++
++void rtw_build_probe_resp_wapi_ie(_adapter *padapter, unsigned char *pframe, struct pkt_attrib *pattrib)
++{
++	PRT_WAPI_T pWapiInfo = &(padapter->wapiInfo);
++	u8 WapiIELength = 0;
++
++	WAPI_TRACE(WAPI_MLME, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport)  || (!pWapiInfo->bWapiEnable)) {
++		WAPI_TRACE(WAPI_MLME, "<========== %s, WAPI not supported!\n", __FUNCTION__);
++		return;
++	}
++
++	WapiSetIE(padapter);
++	WapiIELength = pWapiInfo->wapiIELength;
++	pframe[0] = _WAPI_IE_;
++	pframe[1] = WapiIELength;
++	_rtw_memcpy(pframe + 2, pWapiInfo->wapiIE, WapiIELength);
++	pframe += WapiIELength + 2;
++	pattrib->pktlen += WapiIELength + 2;
++
++	WAPI_TRACE(WAPI_MLME, "<========== %s\n", __FUNCTION__);
++}
++
++void rtw_build_beacon_wapi_ie(_adapter *padapter, unsigned char *pframe, struct pkt_attrib *pattrib)
++{
++	PRT_WAPI_T pWapiInfo = &(padapter->wapiInfo);
++	u8 WapiIELength = 0;
++	WAPI_TRACE(WAPI_MLME, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport)  || (!pWapiInfo->bWapiEnable)) {
++		WAPI_TRACE(WAPI_MLME, "<========== %s, WAPI not supported!\n", __FUNCTION__);
++		return;
++	}
++
++	WapiSetIE(padapter);
++	WapiIELength = pWapiInfo->wapiIELength;
++	pframe[0] = _WAPI_IE_;
++	pframe[1] = WapiIELength;
++	_rtw_memcpy(pframe + 2, pWapiInfo->wapiIE, WapiIELength);
++	pframe += WapiIELength + 2;
++	pattrib->pktlen += WapiIELength + 2;
++
++	WAPI_TRACE(WAPI_MLME, "<========== %s\n", __FUNCTION__);
++}
++
++void rtw_build_assoc_req_wapi_ie(_adapter *padapter, unsigned char *pframe, struct pkt_attrib *pattrib)
++{
++	PRT_WAPI_BKID		pWapiBKID;
++	u16					bkidNum;
++	PRT_WAPI_T			pWapiInfo = &(padapter->wapiInfo);
++	u8					WapiIELength = 0;
++
++	WAPI_TRACE(WAPI_MLME, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!pWapiInfo->bWapiEnable)) {
++		WAPI_TRACE(WAPI_MLME, "<========== %s, WAPI not supported!\n", __FUNCTION__);
++		return;
++	}
++
++	WapiSetIE(padapter);
++	WapiIELength = pWapiInfo->wapiIELength;
++	bkidNum = 0;
++	if (!list_empty(&(pWapiInfo->wapiBKIDStoreList))) {
++		list_for_each_entry(pWapiBKID, &pWapiInfo->wapiBKIDStoreList, list) {
++			bkidNum++;
++			_rtw_memcpy(pWapiInfo->wapiIE + WapiIELength + 2, pWapiBKID->bkid, 16);
++			WapiIELength += 16;
++		}
++	}
++	_rtw_memcpy(pWapiInfo->wapiIE + WapiIELength, &bkidNum, 2);
++	WapiIELength += 2;
++
++	pframe[0] = _WAPI_IE_;
++	pframe[1] = WapiIELength;
++	_rtw_memcpy(pframe + 2, pWapiInfo->wapiIE, WapiIELength);
++	pframe += WapiIELength + 2;
++	pattrib->pktlen += WapiIELength + 2;
++	WAPI_TRACE(WAPI_MLME, "<========== %s\n", __FUNCTION__);
++}
++
++void rtw_wapi_on_assoc_ok(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE)
++{
++	PRT_WAPI_T pWapiInfo = &(padapter->wapiInfo);
++	PRT_WAPI_STA_INFO pWapiSta;
++	u8 WapiAEPNInitialValueSrc[16] = {0x37, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++	/* u8 WapiASUEPNInitialValueSrc[16] = {0x36,0x5C,0x36,0x5C,0x36,0x5C,0x36,0x5C,0x36,0x5C,0x36,0x5C,0x36,0x5C,0x36,0x5C} ; */
++	u8 WapiAEMultiCastPNInitialValueSrc[16] = {0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++
++	WAPI_TRACE(WAPI_MLME, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!pWapiInfo->bWapiEnable)) {
++		WAPI_TRACE(WAPI_MLME, "<========== %s, WAPI not supported or not enabled!\n", __FUNCTION__);
++		return;
++	}
++
++	pWapiSta = (PRT_WAPI_STA_INFO)list_entry(pWapiInfo->wapiSTAIdleList.next, RT_WAPI_STA_INFO, list);
++	list_del_init(&pWapiSta->list);
++	list_add_tail(&pWapiSta->list, &pWapiInfo->wapiSTAUsedList);
++	_rtw_memcpy(pWapiSta->PeerMacAddr, padapter->mlmeextpriv.mlmext_info.network.MacAddress, 6);
++	_rtw_memcpy(pWapiSta->lastRxMulticastPN, WapiAEMultiCastPNInitialValueSrc, 16);
++	_rtw_memcpy(pWapiSta->lastRxUnicastPN, WapiAEPNInitialValueSrc, 16);
++
++	/* For chenk PN error with Qos Data after s3: add by ylb 20111114 */
++	_rtw_memcpy(pWapiSta->lastRxUnicastPNBEQueue, WapiAEPNInitialValueSrc, 16);
++	_rtw_memcpy(pWapiSta->lastRxUnicastPNBKQueue, WapiAEPNInitialValueSrc, 16);
++	_rtw_memcpy(pWapiSta->lastRxUnicastPNVIQueue, WapiAEPNInitialValueSrc, 16);
++	_rtw_memcpy(pWapiSta->lastRxUnicastPNVOQueue, WapiAEPNInitialValueSrc, 16);
++
++	WAPI_TRACE(WAPI_MLME, "<========== %s\n", __FUNCTION__);
++}
++
++
++void rtw_wapi_return_one_sta_info(_adapter *padapter, u8 *MacAddr)
++{
++	PRT_WAPI_T				pWapiInfo;
++	PRT_WAPI_STA_INFO		pWapiStaInfo = NULL;
++	PRT_WAPI_BKID			pWapiBkid = NULL;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++
++	pWapiInfo = &padapter->wapiInfo;
++
++	WAPI_TRACE(WAPI_API, "==========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!pWapiInfo->bWapiEnable)) {
++		WAPI_TRACE(WAPI_MLME, "<========== %s, WAPI not supported or not enabled!\n", __FUNCTION__);
++		return;
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++		while (!list_empty(&(pWapiInfo->wapiBKIDStoreList))) {
++			pWapiBkid = (PRT_WAPI_BKID)list_entry(pWapiInfo->wapiBKIDStoreList.next, RT_WAPI_BKID, list);
++			list_del_init(&pWapiBkid->list);
++			_rtw_memset(pWapiBkid->bkid, 0, 16);
++			list_add_tail(&pWapiBkid->list, &pWapiInfo->wapiBKIDIdleList);
++		}
++	}
++
++
++	WAPI_TRACE(WAPI_API, " %s: after clear bkid\n", __FUNCTION__);
++
++
++	/* Remove STA info */
++	if (list_empty(&(pWapiInfo->wapiSTAUsedList))) {
++		WAPI_TRACE(WAPI_API, " %s: wapiSTAUsedList is null\n", __FUNCTION__);
++		return;
++	} else {
++
++		WAPI_TRACE(WAPI_API, " %s: wapiSTAUsedList is not null\n", __FUNCTION__);
++#if 0
++		pWapiStaInfo = (PRT_WAPI_STA_INFO)list_entry((pWapiInfo->wapiSTAUsedList.next), RT_WAPI_STA_INFO, list);
++
++		list_for_each_entry(pWapiStaInfo, &(pWapiInfo->wapiSTAUsedList), list) {
++
++			RTW_INFO("MAC Addr %02x-%02x-%02x-%02x-%02x-%02x\n", MacAddr[0], MacAddr[1], MacAddr[2], MacAddr[3], MacAddr[4], MacAddr[5]);
++
++
++			RTW_INFO("peer Addr %02x-%02x-%02x-%02x-%02x-%02x\n", pWapiStaInfo->PeerMacAddr[0], pWapiStaInfo->PeerMacAddr[1], pWapiStaInfo->PeerMacAddr[2], pWapiStaInfo->PeerMacAddr[3],
++				pWapiStaInfo->PeerMacAddr[4], pWapiStaInfo->PeerMacAddr[5]);
++
++			if (pWapiStaInfo == NULL) {
++				WAPI_TRACE(WAPI_API, " %s: pWapiStaInfo == NULL Case\n", __FUNCTION__);
++				return;
++			}
++
++			if (pWapiStaInfo->PeerMacAddr == NULL) {
++				WAPI_TRACE(WAPI_API, " %s: pWapiStaInfo->PeerMacAddr == NULL Case\n", __FUNCTION__);
++				return;
++			}
++
++			if (MacAddr == NULL) {
++				WAPI_TRACE(WAPI_API, " %s: MacAddr == NULL Case\n", __FUNCTION__);
++				return;
++			}
++
++			if (_rtw_memcmp(pWapiStaInfo->PeerMacAddr, MacAddr, ETH_ALEN) == _TRUE) {
++				pWapiStaInfo->bAuthenticateInProgress = false;
++				pWapiStaInfo->bSetkeyOk = false;
++				_rtw_memset(pWapiStaInfo->PeerMacAddr, 0, ETH_ALEN);
++				list_del_init(&pWapiStaInfo->list);
++				list_add_tail(&pWapiStaInfo->list, &pWapiInfo->wapiSTAIdleList);
++				break;
++			}
++
++		}
++#endif
++
++		while (!list_empty(&(pWapiInfo->wapiSTAUsedList))) {
++			pWapiStaInfo = (PRT_WAPI_STA_INFO)list_entry(pWapiInfo->wapiSTAUsedList.next, RT_WAPI_STA_INFO, list);
++
++			RTW_INFO("peer Addr %02x-%02x-%02x-%02x-%02x-%02x\n", pWapiStaInfo->PeerMacAddr[0], pWapiStaInfo->PeerMacAddr[1], pWapiStaInfo->PeerMacAddr[2], pWapiStaInfo->PeerMacAddr[3],
++				pWapiStaInfo->PeerMacAddr[4], pWapiStaInfo->PeerMacAddr[5]);
++
++			list_del_init(&pWapiStaInfo->list);
++			memset(pWapiStaInfo->PeerMacAddr, 0, ETH_ALEN);
++			pWapiStaInfo->bSetkeyOk = 0;
++			list_add_tail(&pWapiStaInfo->list, &pWapiInfo->wapiSTAIdleList);
++		}
++
++	}
++
++	WAPI_TRACE(WAPI_API, "<========== %s\n", __FUNCTION__);
++	return;
++}
++
++void rtw_wapi_return_all_sta_info(_adapter *padapter)
++{
++	PRT_WAPI_T				pWapiInfo;
++	PRT_WAPI_STA_INFO		pWapiStaInfo;
++	PRT_WAPI_BKID			pWapiBkid;
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++
++	pWapiInfo = &padapter->wapiInfo;
++
++	if ((!padapter->WapiSupport) || (!pWapiInfo->bWapiEnable)) {
++		WAPI_TRACE(WAPI_MLME, "<========== %s, WAPI not supported or not enabled!\n", __FUNCTION__);
++		return;
++	}
++
++	/* Sta Info List */
++	while (!list_empty(&(pWapiInfo->wapiSTAUsedList))) {
++		pWapiStaInfo = (PRT_WAPI_STA_INFO)list_entry(pWapiInfo->wapiSTAUsedList.next, RT_WAPI_STA_INFO, list);
++		list_del_init(&pWapiStaInfo->list);
++		memset(pWapiStaInfo->PeerMacAddr, 0, ETH_ALEN);
++		pWapiStaInfo->bSetkeyOk = 0;
++		list_add_tail(&pWapiStaInfo->list, &pWapiInfo->wapiSTAIdleList);
++	}
++
++	/* BKID List */
++	while (!list_empty(&(pWapiInfo->wapiBKIDStoreList))) {
++		pWapiBkid = (PRT_WAPI_BKID)list_entry(pWapiInfo->wapiBKIDStoreList.next, RT_WAPI_BKID, list);
++		list_del_init(&pWapiBkid->list);
++		memset(pWapiBkid->bkid, 0, 16);
++		list_add_tail(&pWapiBkid->list, &pWapiInfo->wapiBKIDIdleList);
++	}
++	WAPI_TRACE(WAPI_API, "<========== %s\n", __FUNCTION__);
++}
++
++void rtw_wapi_clear_cam_entry(_adapter *padapter, u8 *pMacAddr)
++{
++	u8 UcIndex = 0;
++
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!padapter->wapiInfo.bWapiEnable)) {
++		WAPI_TRACE(WAPI_MLME, "<========== %s, WAPI not supported or not enabled!\n", __FUNCTION__);
++		return;
++	}
++
++	UcIndex = WapiGetEntryForCamClear(padapter, pMacAddr, 0, 0);
++	if (UcIndex != 0xff) {
++		/* CAM_mark_invalid(Adapter, UcIndex); */
++		CAM_empty_entry(padapter, UcIndex);
++	}
++
++	UcIndex = WapiGetEntryForCamClear(padapter, pMacAddr, 1, 0);
++	if (UcIndex != 0xff) {
++		/* CAM_mark_invalid(Adapter, UcIndex); */
++		CAM_empty_entry(padapter, UcIndex);
++	}
++
++	UcIndex = WapiGetEntryForCamClear(padapter, pMacAddr, 0, 1);
++	if (UcIndex != 0xff) {
++		/* CAM_mark_invalid(Adapter, UcIndex); */
++		CAM_empty_entry(padapter, UcIndex);
++	}
++
++	UcIndex = WapiGetEntryForCamClear(padapter, pMacAddr, 1, 1);
++	if (UcIndex != 0xff) {
++		/* CAM_mark_invalid(padapter, UcIndex); */
++		CAM_empty_entry(padapter, UcIndex);
++	}
++
++	WAPI_TRACE(WAPI_API, "<========== %s\n", __FUNCTION__);
++}
++
++void rtw_wapi_clear_all_cam_entry(_adapter *padapter)
++{
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!padapter->wapiInfo.bWapiEnable)) {
++		WAPI_TRACE(WAPI_MLME, "<========== %s, WAPI not supported or not enabled!\n", __FUNCTION__);
++		return;
++	}
++
++	invalidate_cam_all(padapter); /* is this ok? */
++	WapiResetAllCamEntry(padapter);
++
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++}
++
++void rtw_wapi_set_key(_adapter *padapter, RT_WAPI_KEY *pWapiKey, RT_WAPI_STA_INFO *pWapiSta, u8 bGroupKey, u8 bUseDefaultKey)
++{
++	PRT_WAPI_T		pWapiInfo =  &padapter->wapiInfo;
++	u8				*pMacAddr = pWapiSta->PeerMacAddr;
++	u32 EntryId = 0;
++	BOOLEAN IsPairWise = false ;
++	u8 EncAlgo;
++
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!padapter->wapiInfo.bWapiEnable)) {
++		WAPI_TRACE(WAPI_API, "<========== %s, WAPI not supported or not enabled!\n", __FUNCTION__);
++		return;
++	}
++
++	EncAlgo = _SMS4_;
++
++	/* For Tx bc/mc pkt,use defualt key entry */
++	if (bUseDefaultKey) {
++		/* when WAPI update key, keyid will be 0 or 1 by turns. */
++		if (pWapiKey->keyId == 0)
++			EntryId = 0;
++		else
++			EntryId = 2;
++	} else {
++		/* tx/rx unicast pkt, or rx broadcast, find the key entry by peer's MacAddr */
++		EntryId = WapiGetEntryForCamWrite(padapter, pMacAddr, pWapiKey->keyId, bGroupKey);
++	}
++
++	if (EntryId == 0xff) {
++		WAPI_TRACE(WAPI_API, "===>No entry for WAPI setkey! !!\n");
++		return;
++	}
++
++	/* EntryId is also used to diff Sec key and Mic key */
++	/* Sec Key */
++	WapiWriteOneCamEntry(padapter,
++			     pMacAddr,
++			     pWapiKey->keyId, /* keyid */
++			     EntryId,	/* entry */
++			     EncAlgo, /* type */
++			     bGroupKey, /* pairwise or group key */
++			     pWapiKey->dataKey);
++	/* MIC key */
++	WapiWriteOneCamEntry(padapter,
++			     pMacAddr,
++			     pWapiKey->keyId, /* keyid */
++			     EntryId + 1,	/* entry */
++			     EncAlgo, /* type */
++			     bGroupKey, /* pairwise or group key */
++			     pWapiKey->micKey);
++
++	WAPI_TRACE(WAPI_API, "Set Wapi Key :KeyId:%d,EntryId:%d,PairwiseKey:%d.\n", pWapiKey->keyId, EntryId, !bGroupKey);
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++
++}
++
++#if 0
++/* YJ,test,091013 */
++void wapi_test_set_key(struct _adapter *padapter, u8 *buf)
++{
++	/*Data: keyType(1) + bTxEnable(1) + bAuthenticator(1) + bUpdate(1) + PeerAddr(6) + DataKey(16) + MicKey(16) + KeyId(1)*/
++	PRT_WAPI_T			pWapiInfo = &padapter->wapiInfo;
++	PRT_WAPI_BKID		pWapiBkid;
++	PRT_WAPI_STA_INFO	pWapiSta;
++	u8					data[43];
++	bool					bTxEnable;
++	bool					bUpdate;
++	bool					bAuthenticator;
++	u8					PeerAddr[6];
++	u8					WapiAEPNInitialValueSrc[16] = {0x37, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++	u8					WapiASUEPNInitialValueSrc[16] = {0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++	u8					WapiAEMultiCastPNInitialValueSrc[16] = {0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++
++	WAPI_TRACE(WAPI_INIT, "===========>%s\n", __FUNCTION__);
++
++	if (!padapter->WapiSupport)
++		return;
++
++	copy_from_user(data, buf, 43);
++	bTxEnable = data[1];
++	bAuthenticator = data[2];
++	bUpdate = data[3];
++	memcpy(PeerAddr, data + 4, 6);
++
++	if (data[0] == 0x3) {
++		if (!list_empty(&(pWapiInfo->wapiBKIDIdleList))) {
++			pWapiBkid = (PRT_WAPI_BKID)list_entry(pWapiInfo->wapiBKIDIdleList.next, RT_WAPI_BKID, list);
++			list_del_init(&pWapiBkid->list);
++			memcpy(pWapiBkid->bkid, data + 10, 16);
++			WAPI_DATA(WAPI_INIT, "SetKey - BKID", pWapiBkid->bkid, 16);
++			list_add_tail(&pWapiBkid->list, &pWapiInfo->wapiBKIDStoreList);
++		}
++	} else {
++		list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++			if (!memcmp(pWapiSta->PeerMacAddr, PeerAddr, 6)) {
++				pWapiSta->bAuthenticatorInUpdata = false;
++				switch (data[0]) {
++				case 1:              /* usk */
++					if (bAuthenticator) {       /* authenticator */
++						memcpy(pWapiSta->lastTxUnicastPN, WapiAEPNInitialValueSrc, 16);
++						if (!bUpdate) {    /* first */
++							WAPI_TRACE(WAPI_INIT, "AE fisrt set usk\n");
++							pWapiSta->wapiUsk.bSet = true;
++							memcpy(pWapiSta->wapiUsk.dataKey, data + 10, 16);
++							memcpy(pWapiSta->wapiUsk.micKey, data + 26, 16);
++							pWapiSta->wapiUsk.keyId = *(data + 42);
++							pWapiSta->wapiUsk.bTxEnable = true;
++							WAPI_DATA(WAPI_INIT, "SetKey - AE USK Data Key", pWapiSta->wapiUsk.dataKey, 16);
++							WAPI_DATA(WAPI_INIT, "SetKey - AE USK Mic Key", pWapiSta->wapiUsk.micKey, 16);
++						} else {           /* update */
++							WAPI_TRACE(WAPI_INIT, "AE update usk\n");
++							pWapiSta->wapiUskUpdate.bSet = true;
++							pWapiSta->bAuthenticatorInUpdata = true;
++							memcpy(pWapiSta->wapiUskUpdate.dataKey, data + 10, 16);
++							memcpy(pWapiSta->wapiUskUpdate.micKey, data + 26, 16);
++							memcpy(pWapiSta->lastRxUnicastPNBEQueue, WapiASUEPNInitialValueSrc, 16);
++							memcpy(pWapiSta->lastRxUnicastPNBKQueue, WapiASUEPNInitialValueSrc, 16);
++							memcpy(pWapiSta->lastRxUnicastPNVIQueue, WapiASUEPNInitialValueSrc, 16);
++							memcpy(pWapiSta->lastRxUnicastPNVOQueue, WapiASUEPNInitialValueSrc, 16);
++							memcpy(pWapiSta->lastRxUnicastPN, WapiASUEPNInitialValueSrc, 16);
++							pWapiSta->wapiUskUpdate.keyId = *(data + 42);
++							pWapiSta->wapiUskUpdate.bTxEnable = true;
++						}
++					} else {
++						if (!bUpdate) {
++							WAPI_TRACE(WAPI_INIT, "ASUE fisrt set usk\n");
++							if (bTxEnable) {
++								pWapiSta->wapiUsk.bTxEnable = true;
++								memcpy(pWapiSta->lastTxUnicastPN, WapiASUEPNInitialValueSrc, 16);
++							} else {
++								pWapiSta->wapiUsk.bSet = true;
++								memcpy(pWapiSta->wapiUsk.dataKey, data + 10, 16);
++								memcpy(pWapiSta->wapiUsk.micKey, data + 26, 16);
++								pWapiSta->wapiUsk.keyId = *(data + 42);
++								pWapiSta->wapiUsk.bTxEnable = false;
++							}
++						} else {
++							WAPI_TRACE(WAPI_INIT, "ASUE update usk\n");
++							if (bTxEnable) {
++								pWapiSta->wapiUskUpdate.bTxEnable = true;
++								if (pWapiSta->wapiUskUpdate.bSet) {
++									memcpy(pWapiSta->wapiUsk.dataKey, pWapiSta->wapiUskUpdate.dataKey, 16);
++									memcpy(pWapiSta->wapiUsk.micKey, pWapiSta->wapiUskUpdate.micKey, 16);
++									pWapiSta->wapiUsk.keyId = pWapiSta->wapiUskUpdate.keyId;
++									memcpy(pWapiSta->lastRxUnicastPNBEQueue, WapiASUEPNInitialValueSrc, 16);
++									memcpy(pWapiSta->lastRxUnicastPNBKQueue, WapiASUEPNInitialValueSrc, 16);
++									memcpy(pWapiSta->lastRxUnicastPNVIQueue, WapiASUEPNInitialValueSrc, 16);
++									memcpy(pWapiSta->lastRxUnicastPNVOQueue, WapiASUEPNInitialValueSrc, 16);
++									memcpy(pWapiSta->lastRxUnicastPN, WapiASUEPNInitialValueSrc, 16);
++									pWapiSta->wapiUskUpdate.bTxEnable = false;
++									pWapiSta->wapiUskUpdate.bSet = false;
++								}
++								memcpy(pWapiSta->lastTxUnicastPN, WapiASUEPNInitialValueSrc, 16);
++							} else {
++								pWapiSta->wapiUskUpdate.bSet = true;
++								memcpy(pWapiSta->wapiUskUpdate.dataKey, data + 10, 16);
++								memcpy(pWapiSta->wapiUskUpdate.micKey, data + 26, 16);
++								pWapiSta->wapiUskUpdate.keyId = *(data + 42);
++								pWapiSta->wapiUskUpdate.bTxEnable = false;
++							}
++						}
++					}
++					break;
++				case 2:		/* msk */
++					if (bAuthenticator) {        /* authenticator */
++						pWapiInfo->wapiTxMsk.bSet = true;
++						memcpy(pWapiInfo->wapiTxMsk.dataKey, data + 10, 16);
++						memcpy(pWapiInfo->wapiTxMsk.micKey, data + 26, 16);
++						pWapiInfo->wapiTxMsk.keyId = *(data + 42);
++						pWapiInfo->wapiTxMsk.bTxEnable = true;
++						memcpy(pWapiInfo->lastTxMulticastPN, WapiAEMultiCastPNInitialValueSrc, 16);
++
++						if (!bUpdate) {    /* first */
++							WAPI_TRACE(WAPI_INIT, "AE fisrt set msk\n");
++							if (!pWapiSta->bSetkeyOk)
++								pWapiSta->bSetkeyOk = true;
++							pWapiInfo->bFirstAuthentiateInProgress = false;
++						} else                /* update */
++							WAPI_TRACE(WAPI_INIT, "AE update msk\n");
++
++						WAPI_DATA(WAPI_INIT, "SetKey - AE MSK Data Key", pWapiInfo->wapiTxMsk.dataKey, 16);
++						WAPI_DATA(WAPI_INIT, "SetKey - AE MSK Mic Key", pWapiInfo->wapiTxMsk.micKey, 16);
++					} else {
++						if (!bUpdate) {
++							WAPI_TRACE(WAPI_INIT, "ASUE fisrt set msk\n");
++							pWapiSta->wapiMsk.bSet = true;
++							memcpy(pWapiSta->wapiMsk.dataKey, data + 10, 16);
++							memcpy(pWapiSta->wapiMsk.micKey, data + 26, 16);
++							pWapiSta->wapiMsk.keyId = *(data + 42);
++							pWapiSta->wapiMsk.bTxEnable = false;
++							if (!pWapiSta->bSetkeyOk)
++								pWapiSta->bSetkeyOk = true;
++							pWapiInfo->bFirstAuthentiateInProgress = false;
++							WAPI_DATA(WAPI_INIT, "SetKey - ASUE MSK Data Key", pWapiSta->wapiMsk.dataKey, 16);
++							WAPI_DATA(WAPI_INIT, "SetKey - ASUE MSK Mic Key", pWapiSta->wapiMsk.micKey, 16);
++						} else {
++							WAPI_TRACE(WAPI_INIT, "ASUE update msk\n");
++							pWapiSta->wapiMskUpdate.bSet = true;
++							memcpy(pWapiSta->wapiMskUpdate.dataKey, data + 10, 16);
++							memcpy(pWapiSta->wapiMskUpdate.micKey, data + 26, 16);
++							pWapiSta->wapiMskUpdate.keyId = *(data + 42);
++							pWapiSta->wapiMskUpdate.bTxEnable = false;
++						}
++					}
++					break;
++				default:
++					WAPI_TRACE(WAPI_ERR, "Unknown Flag\n");
++					break;
++				}
++			}
++		}
++	}
++	WAPI_TRACE(WAPI_INIT, "<===========%s\n", __FUNCTION__);
++}
++
++
++void wapi_test_init(struct _adapter *padapter)
++{
++	u8 keybuf[100];
++	u8 mac_addr[6] = {0x00, 0xe0, 0x4c, 0x72, 0x04, 0x70};
++	u8 UskDataKey[16] = {0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f};
++	u8 UskMicKey[16] = {0x10, 0x11, 0x12, 0x13, 0x14, 0x15, 0x16, 0x17, 0x18, 0x19, 0x1a, 0x1b, 0x1c, 0x1d, 0x1e, 0x1f};
++	u8 UskId = 0;
++	u8 MskDataKey[16] = {0x20, 0x21, 0x22, 0x23, 0x24, 0x25, 0x26, 0x27, 0x28, 0x29, 0x2a, 0x2b, 0x2c, 0x2d, 0x2e, 0x2f};
++	u8 MskMicKey[16] = {0x30, 0x31, 0x32, 0x33, 0x34, 0x35, 0x36, 0x37, 0x38, 0x39, 0x3a, 0x3b, 0x3c, 0x3d, 0x3e, 0x3f};
++	u8 MskId = 0;
++
++	WAPI_TRACE(WAPI_INIT, "===========>%s\n", __FUNCTION__);
++
++	/* Enable Wapi */
++	WAPI_TRACE(WAPI_INIT, "%s: Enable wapi!!!!\n", __FUNCTION__);
++	padapter->wapiInfo.bWapiEnable = true;
++	padapter->pairwise_key_type = KEY_TYPE_SMS4;
++	ieee->group_key_type = KEY_TYPE_SMS4;
++	padapter->wapiInfo.extra_prefix_len = WAPI_EXT_LEN;
++	padapter->wapiInfo.extra_postfix_len = SMS4_MIC_LEN;
++
++	/* set usk */
++	WAPI_TRACE(WAPI_INIT, "%s: Set USK!!!!\n", __FUNCTION__);
++	memset(keybuf, 0, 100);
++	keybuf[0] = 1;                           /* set usk */
++	keybuf[1] = 1; 				/* enable tx */
++	keybuf[2] = 1; 				/* AE */
++	keybuf[3] = 0; 				/* not update */
++
++	memcpy(keybuf + 4, mac_addr, 6);
++	memcpy(keybuf + 10, UskDataKey, 16);
++	memcpy(keybuf + 26, UskMicKey, 16);
++	keybuf[42] = UskId;
++	wapi_test_set_key(padapter, keybuf);
++
++	memset(keybuf, 0, 100);
++	keybuf[0] = 1;                           /* set usk */
++	keybuf[1] = 1; 				/* enable tx */
++	keybuf[2] = 0; 				/* AE */
++	keybuf[3] = 0; 				/* not update */
++
++	memcpy(keybuf + 4, mac_addr, 6);
++	memcpy(keybuf + 10, UskDataKey, 16);
++	memcpy(keybuf + 26, UskMicKey, 16);
++	keybuf[42] = UskId;
++	wapi_test_set_key(padapter, keybuf);
++
++	/* set msk */
++	WAPI_TRACE(WAPI_INIT, "%s: Set MSK!!!!\n", __FUNCTION__);
++	memset(keybuf, 0, 100);
++	keybuf[0] = 2;                                /* set msk */
++	keybuf[1] = 1;                               /* Enable TX */
++	keybuf[2] = 1; 				/* AE */
++	keybuf[3] = 0;                              /* not update */
++	memcpy(keybuf + 4, mac_addr, 6);
++	memcpy(keybuf + 10, MskDataKey, 16);
++	memcpy(keybuf + 26, MskMicKey, 16);
++	keybuf[42] = MskId;
++	wapi_test_set_key(padapter, keybuf);
++
++	memset(keybuf, 0, 100);
++	keybuf[0] = 2;                                /* set msk */
++	keybuf[1] = 1;                               /* Enable TX */
++	keybuf[2] = 0; 				/* AE */
++	keybuf[3] = 0;                              /* not update */
++	memcpy(keybuf + 4, mac_addr, 6);
++	memcpy(keybuf + 10, MskDataKey, 16);
++	memcpy(keybuf + 26, MskMicKey, 16);
++	keybuf[42] = MskId;
++	wapi_test_set_key(padapter, keybuf);
++	WAPI_TRACE(WAPI_INIT, "<===========%s\n", __FUNCTION__);
++}
++#endif
++
++void rtw_wapi_get_iv(_adapter *padapter, u8 *pRA, u8 *IV)
++{
++	PWLAN_HEADER_WAPI_EXTENSION pWapiExt = NULL;
++	PRT_WAPI_T         pWapiInfo = &padapter->wapiInfo;
++	bool	bPNOverflow = false;
++	bool	bFindMatchPeer = false;
++	PRT_WAPI_STA_INFO  pWapiSta = NULL;
++
++	pWapiExt = (PWLAN_HEADER_WAPI_EXTENSION)IV;
++
++	WAPI_DATA(WAPI_RX, "wapi_get_iv: pra", pRA, 6);
++
++	if (IS_MCAST(pRA)) {
++		if (!pWapiInfo->wapiTxMsk.bTxEnable) {
++			WAPI_TRACE(WAPI_ERR, "%s: bTxEnable = 0!!\n", __FUNCTION__);
++			return;
++		}
++
++		if (pWapiInfo->wapiTxMsk.keyId <= 1) {
++			pWapiExt->KeyIdx = pWapiInfo->wapiTxMsk.keyId;
++			pWapiExt->Reserved = 0;
++			bPNOverflow = WapiIncreasePN(pWapiInfo->lastTxMulticastPN, 1);
++			memcpy(pWapiExt->PN, pWapiInfo->lastTxMulticastPN, 16);
++		}
++	} else {
++		if (list_empty(&pWapiInfo->wapiSTAUsedList)) {
++			WAPI_TRACE(WAPI_RX, "rtw_wapi_get_iv: list is empty\n");
++			_rtw_memset(IV, 10, 18);
++			return;
++		} else {
++			list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++				WAPI_DATA(WAPI_RX, "rtw_wapi_get_iv: peermacaddr ", pWapiSta->PeerMacAddr, 6);
++				if (_rtw_memcmp((u8 *)pWapiSta->PeerMacAddr, pRA, 6) == _TRUE) {
++					bFindMatchPeer = true;
++					break;
++				}
++			}
++
++			WAPI_TRACE(WAPI_RX, "bFindMatchPeer: %d\n", bFindMatchPeer);
++			WAPI_DATA(WAPI_RX, "Addr", pRA, 6);
++
++			if (bFindMatchPeer) {
++				if ((!pWapiSta->wapiUskUpdate.bTxEnable) && (!pWapiSta->wapiUsk.bTxEnable))
++					return;
++
++				if (pWapiSta->wapiUsk.keyId <= 1) {
++					if (pWapiSta->wapiUskUpdate.bTxEnable)
++						pWapiExt->KeyIdx = pWapiSta->wapiUskUpdate.keyId;
++					else
++						pWapiExt->KeyIdx = pWapiSta->wapiUsk.keyId;
++
++					pWapiExt->Reserved = 0;
++					bPNOverflow = WapiIncreasePN(pWapiSta->lastTxUnicastPN, 2);
++					_rtw_memcpy(pWapiExt->PN, pWapiSta->lastTxUnicastPN, 16);
++
++				}
++			}
++		}
++
++	}
++
++}
++
++bool rtw_wapi_drop_for_key_absent(_adapter *padapter, u8 *pRA)
++{
++	PRT_WAPI_T         pWapiInfo = &padapter->wapiInfo;
++	bool				bFindMatchPeer = false;
++	bool				bDrop = false;
++	PRT_WAPI_STA_INFO  pWapiSta = NULL;
++	struct security_priv		*psecuritypriv = &padapter->securitypriv;
++
++	WAPI_DATA(WAPI_RX, "rtw_wapi_drop_for_key_absent: ra ", pRA, 6);
++
++	if (psecuritypriv->dot11PrivacyAlgrthm == _SMS4_) {
++		if ((!padapter->WapiSupport) || (!pWapiInfo->bWapiEnable))
++			return true;
++
++		if (IS_MCAST(pRA)) {
++			if (!pWapiInfo->wapiTxMsk.bTxEnable) {
++				bDrop = true;
++				WAPI_TRACE(WAPI_RX, "rtw_wapi_drop_for_key_absent: multicast key is absent\n");
++				return bDrop;
++			}
++		} else {
++			if (!list_empty(&pWapiInfo->wapiSTAUsedList)) {
++				list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++					WAPI_DATA(WAPI_RX, "rtw_wapi_drop_for_key_absent: pWapiSta->PeerMacAddr ", pWapiSta->PeerMacAddr, 6);
++					if (_rtw_memcmp(pRA, pWapiSta->PeerMacAddr, 6) == _TRUE) {
++						bFindMatchPeer = true;
++						break;
++					}
++				}
++				if (bFindMatchPeer)	{
++					if (!pWapiSta->wapiUsk.bTxEnable) {
++						bDrop = true;
++						WAPI_TRACE(WAPI_RX, "rtw_wapi_drop_for_key_absent: unicast key is absent\n");
++						return bDrop;
++					}
++				} else {
++					bDrop = true;
++					WAPI_TRACE(WAPI_RX, "rtw_wapi_drop_for_key_absent: no peer find\n");
++					return bDrop;
++				}
++
++			} else {
++				bDrop = true;
++				WAPI_TRACE(WAPI_RX, "rtw_wapi_drop_for_key_absent: no sta  exist\n");
++				return bDrop;
++			}
++		}
++	} else
++		return bDrop;
++
++	return bDrop;
++}
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_wapi_sms4.c b/drivers/net/wireless/rtl8723du/core/rtw_wapi_sms4.c
+new file mode 100644
+index 0000000..fc01212
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_wapi_sms4.c
+@@ -0,0 +1,908 @@
++#ifdef CONFIG_WAPI_SUPPORT
++
++#include <linux/unistd.h>
++#include <linux/etherdevice.h>
++#include <drv_types.h>
++#include <rtw_wapi.h>
++
++
++#ifdef CONFIG_WAPI_SW_SMS4
++
++#define WAPI_LITTLE_ENDIAN
++/* #define BIG_ENDIAN */
++#define ENCRYPT  0
++#define DECRYPT  1
++
++
++/**********************************************************
++ **********************************************************/
++const u8 Sbox[256] = {
++	0xd6, 0x90, 0xe9, 0xfe, 0xcc, 0xe1, 0x3d, 0xb7, 0x16, 0xb6, 0x14, 0xc2, 0x28, 0xfb, 0x2c, 0x05,
++	0x2b, 0x67, 0x9a, 0x76, 0x2a, 0xbe, 0x04, 0xc3, 0xaa, 0x44, 0x13, 0x26, 0x49, 0x86, 0x06, 0x99,
++	0x9c, 0x42, 0x50, 0xf4, 0x91, 0xef, 0x98, 0x7a, 0x33, 0x54, 0x0b, 0x43, 0xed, 0xcf, 0xac, 0x62,
++	0xe4, 0xb3, 0x1c, 0xa9, 0xc9, 0x08, 0xe8, 0x95, 0x80, 0xdf, 0x94, 0xfa, 0x75, 0x8f, 0x3f, 0xa6,
++	0x47, 0x07, 0xa7, 0xfc, 0xf3, 0x73, 0x17, 0xba, 0x83, 0x59, 0x3c, 0x19, 0xe6, 0x85, 0x4f, 0xa8,
++	0x68, 0x6b, 0x81, 0xb2, 0x71, 0x64, 0xda, 0x8b, 0xf8, 0xeb, 0x0f, 0x4b, 0x70, 0x56, 0x9d, 0x35,
++	0x1e, 0x24, 0x0e, 0x5e, 0x63, 0x58, 0xd1, 0xa2, 0x25, 0x22, 0x7c, 0x3b, 0x01, 0x21, 0x78, 0x87,
++	0xd4, 0x00, 0x46, 0x57, 0x9f, 0xd3, 0x27, 0x52, 0x4c, 0x36, 0x02, 0xe7, 0xa0, 0xc4, 0xc8, 0x9e,
++	0xea, 0xbf, 0x8a, 0xd2, 0x40, 0xc7, 0x38, 0xb5, 0xa3, 0xf7, 0xf2, 0xce, 0xf9, 0x61, 0x15, 0xa1,
++	0xe0, 0xae, 0x5d, 0xa4, 0x9b, 0x34, 0x1a, 0x55, 0xad, 0x93, 0x32, 0x30, 0xf5, 0x8c, 0xb1, 0xe3,
++	0x1d, 0xf6, 0xe2, 0x2e, 0x82, 0x66, 0xca, 0x60, 0xc0, 0x29, 0x23, 0xab, 0x0d, 0x53, 0x4e, 0x6f,
++	0xd5, 0xdb, 0x37, 0x45, 0xde, 0xfd, 0x8e, 0x2f, 0x03, 0xff, 0x6a, 0x72, 0x6d, 0x6c, 0x5b, 0x51,
++	0x8d, 0x1b, 0xaf, 0x92, 0xbb, 0xdd, 0xbc, 0x7f, 0x11, 0xd9, 0x5c, 0x41, 0x1f, 0x10, 0x5a, 0xd8,
++	0x0a, 0xc1, 0x31, 0x88, 0xa5, 0xcd, 0x7b, 0xbd, 0x2d, 0x74, 0xd0, 0x12, 0xb8, 0xe5, 0xb4, 0xb0,
++	0x89, 0x69, 0x97, 0x4a, 0x0c, 0x96, 0x77, 0x7e, 0x65, 0xb9, 0xf1, 0x09, 0xc5, 0x6e, 0xc6, 0x84,
++	0x18, 0xf0, 0x7d, 0xec, 0x3a, 0xdc, 0x4d, 0x20, 0x79, 0xee, 0x5f, 0x3e, 0xd7, 0xcb, 0x39, 0x48
++};
++
++const u32 CK[32] = {
++	0x00070e15, 0x1c232a31, 0x383f464d, 0x545b6269,
++	0x70777e85, 0x8c939aa1, 0xa8afb6bd, 0xc4cbd2d9,
++	0xe0e7eef5, 0xfc030a11, 0x181f262d, 0x343b4249,
++	0x50575e65, 0x6c737a81, 0x888f969d, 0xa4abb2b9,
++	0xc0c7ced5, 0xdce3eaf1, 0xf8ff060d, 0x141b2229,
++	0x30373e45, 0x4c535a61, 0x686f767d, 0x848b9299,
++	0xa0a7aeb5, 0xbcc3cad1, 0xd8dfe6ed, 0xf4fb0209,
++	0x10171e25, 0x2c333a41, 0x484f565d, 0x646b7279
++};
++
++#define Rotl(_x, _y) (((_x) << (_y)) | ((_x) >> (32 - (_y))))
++
++#define ByteSub(_A) (Sbox[(_A) >> 24 & 0xFF] << 24 | \
++		     Sbox[(_A) >> 16 & 0xFF] << 16 | \
++		     Sbox[(_A) >>  8 & 0xFF] <<  8 | \
++		     Sbox[(_A) & 0xFF])
++
++#define L1(_B) ((_B) ^ Rotl(_B, 2) ^ Rotl(_B, 10) ^ Rotl(_B, 18) ^ Rotl(_B, 24))
++#define L2(_B) ((_B) ^ Rotl(_B, 13) ^ Rotl(_B, 23))
++
++static void
++xor_block(void *dst, void *src1, void *src2)
++/* 128-bit xor: *dst = *src1 xor *src2. Pointers must be 32-bit aligned */
++{
++	((u32 *)dst)[0] = ((u32 *)src1)[0] ^ ((u32 *)src2)[0];
++	((u32 *)dst)[1] = ((u32 *)src1)[1] ^ ((u32 *)src2)[1];
++	((u32 *)dst)[2] = ((u32 *)src1)[2] ^ ((u32 *)src2)[2];
++	((u32 *)dst)[3] = ((u32 *)src1)[3] ^ ((u32 *)src2)[3];
++}
++
++
++void SMS4Crypt(u8 *Input, u8 *Output, u32 *rk)
++{
++	u32 r, mid, x0, x1, x2, x3, *p;
++	p = (u32 *)Input;
++	x0 = p[0];
++	x1 = p[1];
++	x2 = p[2];
++	x3 = p[3];
++#ifdef WAPI_LITTLE_ENDIAN
++	x0 = Rotl(x0, 16);
++	x0 = ((x0 & 0x00FF00FF) << 8) | ((x0 & 0xFF00FF00) >> 8);
++	x1 = Rotl(x1, 16);
++	x1 = ((x1 & 0x00FF00FF) << 8) | ((x1 & 0xFF00FF00) >> 8);
++	x2 = Rotl(x2, 16);
++	x2 = ((x2 & 0x00FF00FF) << 8) | ((x2 & 0xFF00FF00) >> 8);
++	x3 = Rotl(x3, 16);
++	x3 = ((x3 & 0x00FF00FF) << 8) | ((x3 & 0xFF00FF00) >> 8);
++#endif
++	for (r = 0; r < 32; r += 4) {
++		mid = x1 ^ x2 ^ x3 ^ rk[r + 0];
++		mid = ByteSub(mid);
++		x0 ^= L1(mid);
++		mid = x2 ^ x3 ^ x0 ^ rk[r + 1];
++		mid = ByteSub(mid);
++		x1 ^= L1(mid);
++		mid = x3 ^ x0 ^ x1 ^ rk[r + 2];
++		mid = ByteSub(mid);
++		x2 ^= L1(mid);
++		mid = x0 ^ x1 ^ x2 ^ rk[r + 3];
++		mid = ByteSub(mid);
++		x3 ^= L1(mid);
++	}
++#ifdef WAPI_LITTLE_ENDIAN
++	x0 = Rotl(x0, 16);
++	x0 = ((x0 & 0x00FF00FF) << 8) | ((x0 & 0xFF00FF00) >> 8);
++	x1 = Rotl(x1, 16);
++	x1 = ((x1 & 0x00FF00FF) << 8) | ((x1 & 0xFF00FF00) >> 8);
++	x2 = Rotl(x2, 16);
++	x2 = ((x2 & 0x00FF00FF) << 8) | ((x2 & 0xFF00FF00) >> 8);
++	x3 = Rotl(x3, 16);
++	x3 = ((x3 & 0x00FF00FF) << 8) | ((x3 & 0xFF00FF00) >> 8);
++#endif
++	p = (u32 *)Output;
++	p[0] = x3;
++	p[1] = x2;
++	p[2] = x1;
++	p[3] = x0;
++}
++
++
++
++void SMS4KeyExt(u8 *Key, u32 *rk, u32 CryptFlag)
++{
++	u32 r, mid, x0, x1, x2, x3, *p;
++
++	p = (u32 *)Key;
++	x0 = p[0];
++	x1 = p[1];
++	x2 = p[2];
++	x3 = p[3];
++#ifdef WAPI_LITTLE_ENDIAN
++	x0 = Rotl(x0, 16);
++	x0 = ((x0 & 0xFF00FF) << 8) | ((x0 & 0xFF00FF00) >> 8);
++	x1 = Rotl(x1, 16);
++	x1 = ((x1 & 0xFF00FF) << 8) | ((x1 & 0xFF00FF00) >> 8);
++	x2 = Rotl(x2, 16);
++	x2 = ((x2 & 0xFF00FF) << 8) | ((x2 & 0xFF00FF00) >> 8);
++	x3 = Rotl(x3, 16);
++	x3 = ((x3 & 0xFF00FF) << 8) | ((x3 & 0xFF00FF00) >> 8);
++#endif
++
++	x0 ^= 0xa3b1bac6;
++	x1 ^= 0x56aa3350;
++	x2 ^= 0x677d9197;
++	x3 ^= 0xb27022dc;
++	for (r = 0; r < 32; r += 4) {
++		mid = x1 ^ x2 ^ x3 ^ CK[r + 0];
++		mid = ByteSub(mid);
++		rk[r + 0] = x0 ^= L2(mid);
++		mid = x2 ^ x3 ^ x0 ^ CK[r + 1];
++		mid = ByteSub(mid);
++		rk[r + 1] = x1 ^= L2(mid);
++		mid = x3 ^ x0 ^ x1 ^ CK[r + 2];
++		mid = ByteSub(mid);
++		rk[r + 2] = x2 ^= L2(mid);
++		mid = x0 ^ x1 ^ x2 ^ CK[r + 3];
++		mid = ByteSub(mid);
++		rk[r + 3] = x3 ^= L2(mid);
++	}
++	if (CryptFlag == DECRYPT) {
++		for (r = 0; r < 16; r++)
++			mid = rk[r], rk[r] = rk[31 - r], rk[31 - r] = mid;
++	}
++}
++
++
++void WapiSMS4Cryption(u8 *Key, u8 *IV, u8 *Input, u16 InputLength,
++		      u8 *Output, u16 *OutputLength, u32 CryptFlag)
++{
++	u32 blockNum, i, j, rk[32];
++	u16 remainder;
++	u8 blockIn[16], blockOut[16], tempIV[16], k;
++
++	*OutputLength = 0;
++	remainder = InputLength & 0x0F;
++	blockNum = InputLength >> 4;
++	if (remainder != 0)
++		blockNum++;
++	else
++		remainder = 16;
++
++	for (k = 0; k < 16; k++)
++		tempIV[k] = IV[15 - k];
++
++	memcpy(blockIn, tempIV, 16);
++
++	SMS4KeyExt((u8 *)Key, rk, CryptFlag);
++
++	for (i = 0; i < blockNum - 1; i++) {
++		SMS4Crypt((u8 *)blockIn, blockOut, rk);
++		xor_block(&Output[i * 16], &Input[i * 16], blockOut);
++		memcpy(blockIn, blockOut, 16);
++	}
++
++	*OutputLength = i * 16;
++
++	SMS4Crypt((u8 *)blockIn, blockOut, rk);
++
++	for (j = 0; j < remainder; j++)
++		Output[i * 16 + j] = Input[i * 16 + j] ^ blockOut[j];
++	*OutputLength += remainder;
++
++}
++
++void WapiSMS4Encryption(u8 *Key, u8 *IV, u8 *Input, u16 InputLength,
++			u8 *Output, u16 *OutputLength)
++{
++
++	WapiSMS4Cryption(Key, IV, Input, InputLength, Output, OutputLength, ENCRYPT);
++}
++
++void WapiSMS4Decryption(u8 *Key, u8 *IV, u8 *Input, u16 InputLength,
++			u8 *Output, u16 *OutputLength)
++{
++	/* OFB mode: is also ENCRYPT flag */
++	WapiSMS4Cryption(Key, IV, Input, InputLength, Output, OutputLength, ENCRYPT);
++}
++
++void WapiSMS4CalculateMic(u8 *Key, u8 *IV, u8 *Input1, u8 Input1Length,
++		  u8 *Input2, u16 Input2Length, u8 *Output, u8 *OutputLength)
++{
++	u32 blockNum, i, remainder, rk[32];
++	u8 BlockIn[16], BlockOut[16], TempBlock[16], tempIV[16], k;
++
++	*OutputLength = 0;
++	remainder = Input1Length & 0x0F;
++	blockNum = Input1Length >> 4;
++
++	for (k = 0; k < 16; k++)
++		tempIV[k] = IV[15 - k];
++
++	memcpy(BlockIn, tempIV, 16);
++
++	SMS4KeyExt((u8 *)Key, rk, ENCRYPT);
++
++	SMS4Crypt((u8 *)BlockIn, BlockOut, rk);
++
++	for (i = 0; i < blockNum; i++) {
++		xor_block(BlockIn, (Input1 + i * 16), BlockOut);
++		SMS4Crypt((u8 *)BlockIn, BlockOut, rk);
++	}
++
++	if (remainder != 0) {
++		memset(TempBlock, 0, 16);
++		memcpy(TempBlock, (Input1 + blockNum * 16), remainder);
++
++		xor_block(BlockIn, TempBlock, BlockOut);
++		SMS4Crypt((u8 *)BlockIn, BlockOut, rk);
++	}
++
++	remainder = Input2Length & 0x0F;
++	blockNum = Input2Length >> 4;
++
++	for (i = 0; i < blockNum; i++) {
++		xor_block(BlockIn, (Input2 + i * 16), BlockOut);
++		SMS4Crypt((u8 *)BlockIn, BlockOut, rk);
++	}
++
++	if (remainder != 0) {
++		memset(TempBlock, 0, 16);
++		memcpy(TempBlock, (Input2 + blockNum * 16), remainder);
++
++		xor_block(BlockIn, TempBlock, BlockOut);
++		SMS4Crypt((u8 *)BlockIn, BlockOut, rk);
++	}
++
++	memcpy(Output, BlockOut, 16);
++	*OutputLength = 16;
++}
++
++void SecCalculateMicSMS4(
++	u8		KeyIdx,
++	u8        *MicKey,
++	u8        *pHeader,
++	u8        *pData,
++	u16       DataLen,
++	u8        *MicBuffer
++)
++{
++#if 0
++	struct ieee80211_hdr_3addr_qos *header;
++	u8 TempBuf[34], TempLen = 32, MicLen, QosOffset, *IV;
++	u16 *pTemp, fc;
++
++	WAPI_TRACE(WAPI_TX | WAPI_RX, "=========>%s\n", __FUNCTION__);
++
++	header = (struct ieee80211_hdr_3addr_qos *)pHeader;
++	memset(TempBuf, 0, 34);
++	memcpy(TempBuf, pHeader, 2); /* FrameCtrl */
++	pTemp = (u16 *)TempBuf;
++	*pTemp &= 0xc78f;       /* bit4,5,6,11,12,13 */
++
++	memcpy((TempBuf + 2), (pHeader + 4), 12); /* Addr1, Addr2 */
++	memcpy((TempBuf + 14), (pHeader + 22), 2); /* SeqCtrl */
++	pTemp = (u16 *)(TempBuf + 14);
++	*pTemp &= 0x000f;
++
++	memcpy((TempBuf + 16), (pHeader + 16), 6); /* Addr3 */
++
++	fc = le16_to_cpu(header->frame_ctl);
++
++
++
++	if (GetFrDs((u16 *)&fc) && GetToDs((u16 *)&fc)) {
++		memcpy((TempBuf + 22), (pHeader + 24), 6);
++		QosOffset = 30;
++	} else {
++		memset((TempBuf + 22), 0, 6);
++		QosOffset = 24;
++	}
++
++	if ((fc & 0x0088) == 0x0088) {
++		memcpy((TempBuf + 28), (pHeader + QosOffset), 2);
++		TempLen += 2;
++		/* IV = pHeader + QosOffset + 2 + SNAP_SIZE + sizeof(u16) + 2; */
++		IV = pHeader + QosOffset + 2 + 2;
++	} else {
++		IV = pHeader + QosOffset + 2;
++		/* IV = pHeader + QosOffset + SNAP_SIZE + sizeof(u16) + 2; */
++	}
++
++	TempBuf[TempLen - 1] = (u8)(DataLen & 0xff);
++	TempBuf[TempLen - 2] = (u8)((DataLen & 0xff00) >> 8);
++	TempBuf[TempLen - 4] = KeyIdx;
++
++	WAPI_DATA(WAPI_TX, "CalculateMic - KEY", MicKey, 16);
++	WAPI_DATA(WAPI_TX, "CalculateMic - IV", IV, 16);
++	WAPI_DATA(WAPI_TX, "CalculateMic - TempBuf", TempBuf, TempLen);
++	WAPI_DATA(WAPI_TX, "CalculateMic - pData", pData, DataLen);
++
++	WapiSMS4CalculateMic(MicKey, IV, TempBuf, TempLen,
++			     pData, DataLen, MicBuffer, &MicLen);
++
++	if (MicLen != 16)
++		WAPI_TRACE(WAPI_ERR, "%s: MIC Length Error!!\n", __FUNCTION__);
++
++	WAPI_TRACE(WAPI_TX | WAPI_RX, "<=========%s\n", __FUNCTION__);
++#endif
++}
++
++/* AddCount: 1 or 2.
++ *  If overflow, return 1,
++ *  else return 0.
++ */
++u8 WapiIncreasePN(u8 *PN, u8 AddCount)
++{
++	u8  i;
++
++	if (NULL == PN)
++		return 1;
++	/* YJ,test,091102 */
++	/*
++	if(AddCount == 2){
++		RTW_INFO("############################%s(): PN[0]=0x%x\n", __FUNCTION__, PN[0]);
++		if(PN[0] == 0x48){
++			PN[0] += AddCount;
++			return 1;
++		}else{
++			PN[0] += AddCount;
++			return 0;
++		}
++	}
++	*/
++	/* YJ,test,091102,end */
++
++	for (i = 0; i < 16; i++) {
++		if (PN[i] + AddCount <= 0xff) {
++			PN[i] += AddCount;
++			return 0;
++		} else {
++			PN[i] += AddCount;
++			AddCount = 1;
++		}
++	}
++	return 1;
++}
++
++
++void WapiGetLastRxUnicastPNForQoSData(
++	u8			UserPriority,
++	PRT_WAPI_STA_INFO    pWapiStaInfo,
++	u8 *PNOut
++)
++{
++	WAPI_TRACE(WAPI_RX, "===========> %s\n", __FUNCTION__);
++	switch (UserPriority) {
++	case 0:
++	case 3:
++		memcpy(PNOut, pWapiStaInfo->lastRxUnicastPNBEQueue, 16);
++		break;
++	case 1:
++	case 2:
++		memcpy(PNOut, pWapiStaInfo->lastRxUnicastPNBKQueue, 16);
++		break;
++	case 4:
++	case 5:
++		memcpy(PNOut, pWapiStaInfo->lastRxUnicastPNVIQueue, 16);
++		break;
++	case 6:
++	case 7:
++		memcpy(PNOut, pWapiStaInfo->lastRxUnicastPNVOQueue, 16);
++		break;
++	default:
++		WAPI_TRACE(WAPI_ERR, "%s: Unknown TID\n", __FUNCTION__);
++		break;
++	}
++	WAPI_TRACE(WAPI_RX, "<=========== %s\n", __FUNCTION__);
++}
++
++
++void WapiSetLastRxUnicastPNForQoSData(
++	u8		UserPriority,
++	u8           *PNIn,
++	PRT_WAPI_STA_INFO    pWapiStaInfo
++)
++{
++	WAPI_TRACE(WAPI_RX, "===========> %s\n", __FUNCTION__);
++	switch (UserPriority) {
++	case 0:
++	case 3:
++		memcpy(pWapiStaInfo->lastRxUnicastPNBEQueue, PNIn, 16);
++		break;
++	case 1:
++	case 2:
++		memcpy(pWapiStaInfo->lastRxUnicastPNBKQueue, PNIn, 16);
++		break;
++	case 4:
++	case 5:
++		memcpy(pWapiStaInfo->lastRxUnicastPNVIQueue, PNIn, 16);
++		break;
++	case 6:
++	case 7:
++		memcpy(pWapiStaInfo->lastRxUnicastPNVOQueue, PNIn, 16);
++		break;
++	default:
++		WAPI_TRACE(WAPI_ERR, "%s: Unknown TID\n", __FUNCTION__);
++		break;
++	}
++	WAPI_TRACE(WAPI_RX, "<=========== %s\n", __FUNCTION__);
++}
++
++
++/****************************************************************************
++ FALSE not RX-Reorder
++ TRUE do RX Reorder
++add to support WAPI to N-mode
++*****************************************************************************/
++u8 WapiCheckPnInSwDecrypt(
++	_adapter *padapter,
++	struct sk_buff *pskb
++)
++{
++	u8				ret = false;
++
++#if 0
++	struct ieee80211_hdr_3addr_qos *header;
++	u16				fc;
++	u8				*pDaddr, *pTaddr, *pRaddr;
++
++	header = (struct ieee80211_hdr_3addr_qos *)pskb->data;
++	pTaddr = header->addr2;
++	pRaddr = header->addr1;
++	fc = le16_to_cpu(header->frame_ctl);
++
++	if (GetToDs(&fc))
++		pDaddr = header->addr3;
++	else
++		pDaddr = header->addr1;
++
++	if ((_rtw_memcmp(pRaddr, padapter->pnetdev->dev_addr, ETH_ALEN) == 0)
++	    &&	!(pDaddr)
++	    && (GetFrameType(&fc) == WIFI_QOS_DATA_TYPE))
++		/* && ieee->pHTInfo->bCurrentHTSupport && */
++		/* ieee->pHTInfo->bCurRxReorderEnable) */
++		ret = false;
++	else
++		ret = true;
++#endif
++	WAPI_TRACE(WAPI_RX, "%s: return %d\n", __FUNCTION__, ret);
++	return ret;
++}
++
++int SecSMS4HeaderFillIV(_adapter *padapter, u8 *pxmitframe)
++{
++	struct pkt_attrib *pattrib = &((struct xmit_frame *)pxmitframe)->attrib;
++	u8 *frame = ((struct xmit_frame *)pxmitframe)->buf_addr + TXDESC_OFFSET;
++	u8 *pSecHeader = NULL, *pos = NULL, *pRA = NULL;
++	u8 bPNOverflow = false, bFindMatchPeer = false, hdr_len = 0;
++	PWLAN_HEADER_WAPI_EXTENSION pWapiExt = NULL;
++	PRT_WAPI_T         pWapiInfo = &padapter->wapiInfo;
++	PRT_WAPI_STA_INFO  pWapiSta = NULL;
++	int ret = 0;
++
++	WAPI_TRACE(WAPI_TX, "=========>%s\n", __FUNCTION__);
++
++	return ret;
++#if 0
++	hdr_len = sMacHdrLng;
++	if (GetFrameType(pskb->data) == WIFI_QOS_DATA_TYPE)
++		hdr_len += 2;
++	/* hdr_len += SNAP_SIZE + sizeof(u16); */
++
++	pos = skb_push(pskb, padapter->wapiInfo.extra_prefix_len);
++	memmove(pos, pos + padapter->wapiInfo.extra_prefix_len, hdr_len);
++
++	pSecHeader = pskb->data + hdr_len;
++	pWapiExt = (PWLAN_HEADER_WAPI_EXTENSION)pSecHeader;
++	pRA = pskb->data + 4;
++
++	WAPI_DATA(WAPI_TX, "FillIV - Before Fill IV", pskb->data, pskb->len);
++
++	/* Address 1 is always receiver's address */
++	if (IS_MCAST(pRA)) {
++		if (!pWapiInfo->wapiTxMsk.bTxEnable) {
++			WAPI_TRACE(WAPI_ERR, "%s: bTxEnable = 0!!\n", __FUNCTION__);
++			return -2;
++		}
++		if (pWapiInfo->wapiTxMsk.keyId <= 1) {
++			pWapiExt->KeyIdx = pWapiInfo->wapiTxMsk.keyId;
++			pWapiExt->Reserved = 0;
++			bPNOverflow = WapiIncreasePN(pWapiInfo->lastTxMulticastPN, 1);
++			memcpy(pWapiExt->PN, pWapiInfo->lastTxMulticastPN, 16);
++			if (bPNOverflow) {
++				/* Update MSK Notification. */
++				WAPI_TRACE(WAPI_ERR, "===============>%s():multicast PN overflow\n", __FUNCTION__);
++				rtw_wapi_app_event_handler(padapter, NULL, 0, pRA, false, false, true, 0, false);
++			}
++		} else {
++			WAPI_TRACE(WAPI_ERR, "%s: Invalid Wapi Multicast KeyIdx!!\n", __FUNCTION__);
++			ret = -3;
++		}
++	} else {
++		list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++			if (!memcmp(pWapiSta->PeerMacAddr, pRA, 6)) {
++				bFindMatchPeer = true;
++				break;
++			}
++		}
++		if (bFindMatchPeer) {
++			if ((!pWapiSta->wapiUskUpdate.bTxEnable) && (!pWapiSta->wapiUsk.bTxEnable)) {
++				WAPI_TRACE(WAPI_ERR, "%s: bTxEnable = 0!!\n", __FUNCTION__);
++				return -4;
++			}
++			if (pWapiSta->wapiUsk.keyId <= 1) {
++				if (pWapiSta->wapiUskUpdate.bTxEnable)
++					pWapiExt->KeyIdx = pWapiSta->wapiUskUpdate.keyId;
++				else
++					pWapiExt->KeyIdx = pWapiSta->wapiUsk.keyId;
++
++				pWapiExt->Reserved = 0;
++				bPNOverflow = WapiIncreasePN(pWapiSta->lastTxUnicastPN, 2);
++				memcpy(pWapiExt->PN, pWapiSta->lastTxUnicastPN, 16);
++				if (bPNOverflow) {
++					/* Update USK Notification. */
++					WAPI_TRACE(WAPI_ERR, "===============>%s():unicast PN overflow\n", __FUNCTION__);
++					rtw_wapi_app_event_handler(padapter, NULL, 0, pWapiSta->PeerMacAddr, false, true, false, 0, false);
++				}
++			} else {
++				WAPI_TRACE(WAPI_ERR, "%s: Invalid Wapi Unicast KeyIdx!!\n", __FUNCTION__);
++				ret = -5;
++			}
++		} else {
++			WAPI_TRACE(WAPI_ERR, "%s: Can not find Peer Sta "MAC_FMT"!!\n", __FUNCTION__, MAC_ARG(pRA));
++			ret = -6;
++		}
++	}
++
++	WAPI_DATA(WAPI_TX, "FillIV - After Fill IV", pskb->data, pskb->len);
++	WAPI_TRACE(WAPI_TX, "<=========%s\n", __FUNCTION__);
++	return ret;
++#endif
++}
++
++/* WAPI SW Enc: must have done Coalesce! */
++void SecSWSMS4Encryption(
++	_adapter *padapter,
++	u8 *pxmitframe
++)
++{
++	PRT_WAPI_T		pWapiInfo = &padapter->wapiInfo;
++	PRT_WAPI_STA_INFO   pWapiSta = NULL;
++	u8 *pframe = ((struct xmit_frame *)pxmitframe)->buf_addr + TXDESC_SIZE;
++	struct pkt_attrib *pattrib = &((struct xmit_frame *)pxmitframe)->attrib;
++
++	u8 *SecPtr = NULL, *pRA, *pMicKey = NULL, *pDataKey = NULL, *pIV = NULL;
++	u8 IVOffset, DataOffset, bFindMatchPeer = false, KeyIdx = 0, MicBuffer[16];
++	u16 OutputLength;
++
++	WAPI_TRACE(WAPI_TX, "=========>%s\n", __FUNCTION__);
++
++	WAPI_TRACE(WAPI_TX, "hdrlen: %d\n", pattrib->hdrlen);
++
++	return;
++
++	DataOffset = pattrib->hdrlen + pattrib->iv_len;
++
++	pRA = pframe + 4;
++
++
++	if (IS_MCAST(pRA)) {
++		KeyIdx = pWapiInfo->wapiTxMsk.keyId;
++		pIV = pWapiInfo->lastTxMulticastPN;
++		pMicKey = pWapiInfo->wapiTxMsk.micKey;
++		pDataKey = pWapiInfo->wapiTxMsk.dataKey;
++	} else {
++		if (!list_empty(&(pWapiInfo->wapiSTAUsedList))) {
++			list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++				if (0 == memcmp(pWapiSta->PeerMacAddr, pRA, 6)) {
++					bFindMatchPeer = true;
++					break;
++				}
++			}
++
++			if (bFindMatchPeer) {
++				if (pWapiSta->wapiUskUpdate.bTxEnable) {
++					KeyIdx = pWapiSta->wapiUskUpdate.keyId;
++					WAPI_TRACE(WAPI_TX, "%s(): Use update USK!! KeyIdx=%d\n", __FUNCTION__, KeyIdx);
++					pIV = pWapiSta->lastTxUnicastPN;
++					pMicKey = pWapiSta->wapiUskUpdate.micKey;
++					pDataKey = pWapiSta->wapiUskUpdate.dataKey;
++				} else {
++					KeyIdx = pWapiSta->wapiUsk.keyId;
++					WAPI_TRACE(WAPI_TX, "%s(): Use USK!! KeyIdx=%d\n", __FUNCTION__, KeyIdx);
++					pIV = pWapiSta->lastTxUnicastPN;
++					pMicKey = pWapiSta->wapiUsk.micKey;
++					pDataKey = pWapiSta->wapiUsk.dataKey;
++				}
++			} else {
++				WAPI_TRACE(WAPI_ERR, "%s: Can not find Peer Sta!!\n", __FUNCTION__);
++				return;
++			}
++		} else {
++			WAPI_TRACE(WAPI_ERR, "%s: wapiSTAUsedList is empty!!\n", __FUNCTION__);
++			return;
++		}
++	}
++
++	SecPtr = pframe;
++	SecCalculateMicSMS4(KeyIdx, pMicKey, SecPtr, (SecPtr + DataOffset), pattrib->pktlen, MicBuffer);
++
++	WAPI_DATA(WAPI_TX, "Encryption - MIC", MicBuffer, padapter->wapiInfo.extra_postfix_len);
++
++	memcpy(pframe + pattrib->hdrlen + pattrib->iv_len + pattrib->pktlen - pattrib->icv_len,
++	       (u8 *)MicBuffer,
++	       padapter->wapiInfo.extra_postfix_len
++	      );
++
++
++	WapiSMS4Encryption(pDataKey, pIV, (SecPtr + DataOffset), pattrib->pktlen + pattrib->icv_len, (SecPtr + DataOffset), &OutputLength);
++
++	WAPI_DATA(WAPI_TX, "Encryption - After SMS4 encryption", pframe, pattrib->hdrlen + pattrib->iv_len + pattrib->pktlen);
++
++	WAPI_TRACE(WAPI_TX, "<=========%s\n", __FUNCTION__);
++}
++
++u8 SecSWSMS4Decryption(
++	_adapter *padapter,
++	u8		*precv_frame,
++	struct recv_priv *precv_priv
++)
++{
++	PRT_WAPI_T pWapiInfo = &padapter->wapiInfo;
++	struct recv_frame_hdr *precv_hdr;
++	PRT_WAPI_STA_INFO   pWapiSta = NULL;
++	u8 IVOffset, DataOffset, bFindMatchPeer = false, bUseUpdatedKey = false;
++	u8 KeyIdx, MicBuffer[16], lastRxPNforQoS[16];
++	u8 *pRA, *pTA, *pMicKey, *pDataKey, *pLastRxPN, *pRecvPN, *pSecData, *pRecvMic, *pos;
++	u8 TID = 0;
++	u16 OutputLength, DataLen;
++	u8   bQosData;
++	struct sk_buff	*pskb;
++
++	WAPI_TRACE(WAPI_RX, "=========>%s\n", __FUNCTION__);
++
++	return 0;
++
++	precv_hdr = &((union recv_frame *)precv_frame)->u.hdr;
++	pskb = (struct sk_buff *)(precv_hdr->rx_data);
++	precv_hdr->bWapiCheckPNInDecrypt = WapiCheckPnInSwDecrypt(padapter, pskb);
++	WAPI_TRACE(WAPI_RX, "=========>%s: check PN  %d\n", __FUNCTION__, precv_hdr->bWapiCheckPNInDecrypt);
++	WAPI_DATA(WAPI_RX, "Decryption - Before decryption", pskb->data, pskb->len);
++
++	IVOffset = sMacHdrLng;
++	bQosData = GetFrameType(pskb->data) == WIFI_QOS_DATA_TYPE;
++	if (bQosData)
++		IVOffset += 2;
++
++	/* if(GetHTC()) */
++	/*	IVOffset += 4; */
++
++	/* IVOffset += SNAP_SIZE + sizeof(u16); */
++
++	DataOffset = IVOffset + padapter->wapiInfo.extra_prefix_len;
++
++	pRA = pskb->data + 4;
++	pTA = pskb->data + 10;
++	KeyIdx = *(pskb->data + IVOffset);
++	pRecvPN = pskb->data + IVOffset + 2;
++	pSecData = pskb->data + DataOffset;
++	DataLen = pskb->len - DataOffset;
++	pRecvMic = pskb->data + pskb->len - padapter->wapiInfo.extra_postfix_len;
++	TID = GetTid(pskb->data);
++
++	if (!list_empty(&(pWapiInfo->wapiSTAUsedList))) {
++		list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++			if (0 == memcmp(pWapiSta->PeerMacAddr, pTA, 6)) {
++				bFindMatchPeer = true;
++				break;
++			}
++		}
++	}
++
++	if (!bFindMatchPeer) {
++		WAPI_TRACE(WAPI_ERR, "%s: Can not find Peer Sta "MAC_FMT" for Key Info!!!\n", __FUNCTION__, MAC_ARG(pTA));
++		return false;
++	}
++
++	if (IS_MCAST(pRA)) {
++		WAPI_TRACE(WAPI_RX, "%s: Multicast decryption !!!\n", __FUNCTION__);
++		if (pWapiSta->wapiMsk.keyId == KeyIdx && pWapiSta->wapiMsk.bSet) {
++			pLastRxPN = pWapiSta->lastRxMulticastPN;
++			if (!WapiComparePN(pRecvPN, pLastRxPN)) {
++				WAPI_TRACE(WAPI_ERR, "%s: MSK PN is not larger than last, Dropped!!!\n", __FUNCTION__);
++				WAPI_DATA(WAPI_ERR, "pRecvPN:", pRecvPN, 16);
++				WAPI_DATA(WAPI_ERR, "pLastRxPN:", pLastRxPN, 16);
++				return false;
++			}
++
++			memcpy(pLastRxPN, pRecvPN, 16);
++			pMicKey = pWapiSta->wapiMsk.micKey;
++			pDataKey = pWapiSta->wapiMsk.dataKey;
++		} else if (pWapiSta->wapiMskUpdate.keyId == KeyIdx && pWapiSta->wapiMskUpdate.bSet) {
++			WAPI_TRACE(WAPI_RX, "%s: Use Updated MSK for Decryption !!!\n", __FUNCTION__);
++			bUseUpdatedKey = true;
++			memcpy(pWapiSta->lastRxMulticastPN, pRecvPN, 16);
++			pMicKey = pWapiSta->wapiMskUpdate.micKey;
++			pDataKey = pWapiSta->wapiMskUpdate.dataKey;
++		} else {
++			WAPI_TRACE(WAPI_ERR, "%s: Can not find MSK with matched KeyIdx(%d), Dropped !!!\n", __FUNCTION__, KeyIdx);
++			return false;
++		}
++	} else {
++		WAPI_TRACE(WAPI_RX, "%s: Unicast decryption !!!\n", __FUNCTION__);
++		if (pWapiSta->wapiUsk.keyId == KeyIdx && pWapiSta->wapiUsk.bSet) {
++			WAPI_TRACE(WAPI_RX, "%s: Use USK for Decryption!!!\n", __FUNCTION__);
++			if (precv_hdr->bWapiCheckPNInDecrypt) {
++				if (GetFrameType(pskb->data) == WIFI_QOS_DATA_TYPE) {
++					WapiGetLastRxUnicastPNForQoSData(TID, pWapiSta, lastRxPNforQoS);
++					pLastRxPN = lastRxPNforQoS;
++				} else
++					pLastRxPN = pWapiSta->lastRxUnicastPN;
++				if (!WapiComparePN(pRecvPN, pLastRxPN))
++					return false;
++				if (bQosData)
++					WapiSetLastRxUnicastPNForQoSData(TID, pRecvPN, pWapiSta);
++				else
++					memcpy(pWapiSta->lastRxUnicastPN, pRecvPN, 16);
++			} else
++				memcpy(precv_hdr->WapiTempPN, pRecvPN, 16);
++
++			if (check_fwstate(&padapter->mlmepriv, WIFI_STATION_STATE)) {
++				if ((pRecvPN[0] & 0x1) == 0) {
++					WAPI_TRACE(WAPI_ERR, "%s: Rx USK PN is not odd when Infra STA mode, Dropped !!!\n", __FUNCTION__);
++					return false;
++				}
++			}
++
++			pMicKey = pWapiSta->wapiUsk.micKey;
++			pDataKey = pWapiSta->wapiUsk.dataKey;
++		} else if (pWapiSta->wapiUskUpdate.keyId == KeyIdx && pWapiSta->wapiUskUpdate.bSet) {
++			WAPI_TRACE(WAPI_RX, "%s: Use Updated USK for Decryption!!!\n", __FUNCTION__);
++			if (pWapiSta->bAuthenticatorInUpdata)
++				bUseUpdatedKey = true;
++			else
++				bUseUpdatedKey = false;
++
++			if (bQosData)
++				WapiSetLastRxUnicastPNForQoSData(TID, pRecvPN, pWapiSta);
++			else
++				memcpy(pWapiSta->lastRxUnicastPN, pRecvPN, 16);
++			pMicKey = pWapiSta->wapiUskUpdate.micKey;
++			pDataKey = pWapiSta->wapiUskUpdate.dataKey;
++		} else {
++			WAPI_TRACE(WAPI_ERR, "%s: No valid USK!!!KeyIdx=%d pWapiSta->wapiUsk.keyId=%d pWapiSta->wapiUskUpdate.keyId=%d\n", __FUNCTION__, KeyIdx, pWapiSta->wapiUsk.keyId,
++				   pWapiSta->wapiUskUpdate.keyId);
++			/* dump_buf(pskb->data,pskb->len); */
++			return false;
++		}
++	}
++
++	WAPI_DATA(WAPI_RX, "Decryption - DataKey", pDataKey, 16);
++	WAPI_DATA(WAPI_RX, "Decryption - IV", pRecvPN, 16);
++	WapiSMS4Decryption(pDataKey, pRecvPN, pSecData, DataLen, pSecData, &OutputLength);
++
++	if (OutputLength != DataLen)
++		WAPI_TRACE(WAPI_ERR, "%s:  Output Length Error!!!!\n", __FUNCTION__);
++
++	WAPI_DATA(WAPI_RX, "Decryption - After decryption", pskb->data, pskb->len);
++
++	DataLen -= padapter->wapiInfo.extra_postfix_len;
++
++	SecCalculateMicSMS4(KeyIdx, pMicKey, pskb->data, pSecData, DataLen, MicBuffer);
++
++	WAPI_DATA(WAPI_RX, "Decryption - MIC received", pRecvMic, SMS4_MIC_LEN);
++	WAPI_DATA(WAPI_RX, "Decryption - MIC calculated", MicBuffer, SMS4_MIC_LEN);
++
++	if (0 == memcmp(MicBuffer, pRecvMic, padapter->wapiInfo.extra_postfix_len)) {
++		WAPI_TRACE(WAPI_RX, "%s: Check MIC OK!!\n", __FUNCTION__);
++		if (bUseUpdatedKey) {
++			/* delete the old key */
++			if (IS_MCAST(pRA)) {
++				WAPI_TRACE(WAPI_API, "%s(): AE use new update MSK!!\n", __FUNCTION__);
++				pWapiSta->wapiMsk.keyId = pWapiSta->wapiMskUpdate.keyId;
++				memcpy(pWapiSta->wapiMsk.dataKey, pWapiSta->wapiMskUpdate.dataKey, 16);
++				memcpy(pWapiSta->wapiMsk.micKey, pWapiSta->wapiMskUpdate.micKey, 16);
++				pWapiSta->wapiMskUpdate.bTxEnable = pWapiSta->wapiMskUpdate.bSet = false;
++			} else {
++				WAPI_TRACE(WAPI_API, "%s(): AE use new update USK!!\n", __FUNCTION__);
++				pWapiSta->wapiUsk.keyId = pWapiSta->wapiUskUpdate.keyId;
++				memcpy(pWapiSta->wapiUsk.dataKey, pWapiSta->wapiUskUpdate.dataKey, 16);
++				memcpy(pWapiSta->wapiUsk.micKey, pWapiSta->wapiUskUpdate.micKey, 16);
++				pWapiSta->wapiUskUpdate.bTxEnable = pWapiSta->wapiUskUpdate.bSet = false;
++			}
++		}
++	} else {
++		WAPI_TRACE(WAPI_ERR, "%s:  Check MIC Error, Dropped !!!!\n", __FUNCTION__);
++		return false;
++	}
++
++	pos = pskb->data;
++	memmove(pos + padapter->wapiInfo.extra_prefix_len, pos, IVOffset);
++	skb_pull(pskb, padapter->wapiInfo.extra_prefix_len);
++
++	WAPI_TRACE(WAPI_RX, "<=========%s\n", __FUNCTION__);
++
++	return true;
++}
++
++u32	rtw_sms4_encrypt(_adapter *padapter, u8 *pxmitframe)
++{
++
++	u8	*pframe;
++	u32 res = _SUCCESS;
++
++	WAPI_TRACE(WAPI_TX, "=========>%s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!padapter->wapiInfo.bWapiEnable)) {
++		WAPI_TRACE(WAPI_TX, "<========== %s, WAPI not supported or enabled!\n", __FUNCTION__);
++		return _FAIL;
++	}
++
++	if (((struct xmit_frame *)pxmitframe)->buf_addr == NULL)
++		return _FAIL;
++
++	pframe = ((struct xmit_frame *)pxmitframe)->buf_addr + TXDESC_OFFSET;
++
++	SecSWSMS4Encryption(padapter, pxmitframe);
++
++	WAPI_TRACE(WAPI_TX, "<=========%s\n", __FUNCTION__);
++	return res;
++}
++
++u32	rtw_sms4_decrypt(_adapter *padapter, u8 *precvframe)
++{
++	u8	*pframe;
++	u32 res = _SUCCESS;
++
++	WAPI_TRACE(WAPI_RX, "=========>%s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!padapter->wapiInfo.bWapiEnable)) {
++		WAPI_TRACE(WAPI_RX, "<========== %s, WAPI not supported or enabled!\n", __FUNCTION__);
++		return _FAIL;
++	}
++
++
++	/* drop packet when hw decrypt fail
++	* return tempraily */
++	return _FAIL;
++
++	/* pframe=(unsigned char *)((union recv_frame*)precvframe)->u.hdr.rx_data; */
++
++	if (false == SecSWSMS4Decryption(padapter, precvframe, &padapter->recvpriv)) {
++		WAPI_TRACE(WAPI_ERR, "%s():SMS4 decrypt frame error\n", __FUNCTION__);
++		return _FAIL;
++	}
++
++	WAPI_TRACE(WAPI_RX, "<=========%s\n", __FUNCTION__);
++	return res;
++}
++
++#else
++
++u32	rtw_sms4_encrypt(_adapter *padapter, u8 *pxmitframe)
++{
++	WAPI_TRACE(WAPI_TX, "=========>Dummy %s\n", __FUNCTION__);
++	WAPI_TRACE(WAPI_TX, "<=========Dummy %s\n", __FUNCTION__);
++	return _SUCCESS;
++}
++
++u32	rtw_sms4_decrypt(_adapter *padapter, u8 *precvframe)
++{
++	WAPI_TRACE(WAPI_RX, "=========>Dummy %s\n", __FUNCTION__);
++	WAPI_TRACE(WAPI_RX, "<=========Dummy %s\n", __FUNCTION__);
++	return _SUCCESS;
++}
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_wlan_util.c b/drivers/net/wireless/rtl8723du/core/rtw_wlan_util.c
+new file mode 100644
+index 0000000..02ced9a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_wlan_util.c
+@@ -0,0 +1,4829 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_WLAN_UTIL_C_
++
++#include <drv_types.h>
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	#include <linux/inetdevice.h>
++	#define ETH_TYPE_OFFSET	12
++	#define PROTOCOL_OFFSET	23
++	#define IP_OFFSET	30
++#endif
++
++unsigned char ARTHEROS_OUI1[] = {0x00, 0x03, 0x7f};
++unsigned char ARTHEROS_OUI2[] = {0x00, 0x13, 0x74};
++
++unsigned char BROADCOM_OUI1[] = {0x00, 0x10, 0x18};
++unsigned char BROADCOM_OUI2[] = {0x00, 0x0a, 0xf7};
++unsigned char BROADCOM_OUI3[] = {0x00, 0x05, 0xb5};
++
++
++unsigned char CISCO_OUI[] = {0x00, 0x40, 0x96};
++unsigned char MARVELL_OUI[] = {0x00, 0x50, 0x43};
++unsigned char RALINK_OUI[] = {0x00, 0x0c, 0x43};
++unsigned char REALTEK_OUI[] = {0x00, 0xe0, 0x4c};
++unsigned char AIRGOCAP_OUI[] = {0x00, 0x0a, 0xf5};
++
++unsigned char REALTEK_96B_IE[] = {0x00, 0xe0, 0x4c, 0x02, 0x01, 0x20};
++
++extern unsigned char RTW_WPA_OUI[];
++extern unsigned char WPA_TKIP_CIPHER[4];
++extern unsigned char RSN_TKIP_CIPHER[4];
++
++#define R2T_PHY_DELAY	(0)
++
++/* #define WAIT_FOR_BCN_TO_MIN	(3000) */
++#define WAIT_FOR_BCN_TO_MIN	(6000)
++#define WAIT_FOR_BCN_TO_MAX	(20000)
++
++#define DISCONNECT_BY_CHK_BCN_FAIL_OBSERV_PERIOD_IN_MS 1000
++#define DISCONNECT_BY_CHK_BCN_FAIL_THRESHOLD 3
++
++static u8 rtw_basic_rate_cck[4] = {
++	IEEE80211_CCK_RATE_1MB | IEEE80211_BASIC_RATE_MASK, IEEE80211_CCK_RATE_2MB | IEEE80211_BASIC_RATE_MASK,
++	IEEE80211_CCK_RATE_5MB | IEEE80211_BASIC_RATE_MASK, IEEE80211_CCK_RATE_11MB | IEEE80211_BASIC_RATE_MASK
++};
++
++static u8 rtw_basic_rate_ofdm[3] = {
++	IEEE80211_OFDM_RATE_6MB | IEEE80211_BASIC_RATE_MASK, IEEE80211_OFDM_RATE_12MB | IEEE80211_BASIC_RATE_MASK,
++	IEEE80211_OFDM_RATE_24MB | IEEE80211_BASIC_RATE_MASK
++};
++
++static u8 rtw_basic_rate_mix[7] = {
++	IEEE80211_CCK_RATE_1MB | IEEE80211_BASIC_RATE_MASK, IEEE80211_CCK_RATE_2MB | IEEE80211_BASIC_RATE_MASK,
++	IEEE80211_CCK_RATE_5MB | IEEE80211_BASIC_RATE_MASK, IEEE80211_CCK_RATE_11MB | IEEE80211_BASIC_RATE_MASK,
++	IEEE80211_OFDM_RATE_6MB | IEEE80211_BASIC_RATE_MASK, IEEE80211_OFDM_RATE_12MB | IEEE80211_BASIC_RATE_MASK,
++	IEEE80211_OFDM_RATE_24MB | IEEE80211_BASIC_RATE_MASK
++};
++
++int new_bcn_max = 3;
++
++int cckrates_included(unsigned char *rate, int ratelen)
++{
++	int	i;
++
++	for (i = 0; i < ratelen; i++) {
++		if ((((rate[i]) & 0x7f) == 2)	|| (((rate[i]) & 0x7f) == 4) ||
++		    (((rate[i]) & 0x7f) == 11)  || (((rate[i]) & 0x7f) == 22))
++			return _TRUE;
++	}
++
++	return _FALSE;
++
++}
++
++int cckratesonly_included(unsigned char *rate, int ratelen)
++{
++	int	i;
++
++	for (i = 0; i < ratelen; i++) {
++		if ((((rate[i]) & 0x7f) != 2) && (((rate[i]) & 0x7f) != 4) &&
++		    (((rate[i]) & 0x7f) != 11)  && (((rate[i]) & 0x7f) != 22))
++			return _FALSE;
++	}
++
++	return _TRUE;
++}
++
++#ifdef CONFIG_GET_RAID_BY_DRV
++s8 rtw_get_tx_nss(_adapter *adapter, struct sta_info *psta)
++{
++	u8 rf_type = RF_1T1R, custom_rf_type, vht_mcs[2];
++	s8 nss = 1;
++
++	custom_rf_type = adapter->registrypriv.rf_config;
++	rtw_hal_get_hwreg(adapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++	if (!psta)
++		return nss;
++
++	/* rf_config is dependent on efuse or sw config */
++	if (custom_rf_type != RF_MAX_TYPE)
++		rf_type = custom_rf_type;
++
++#ifdef CONFIG_80211AC_VHT
++	if (psta->vhtpriv.vht_option) {
++		u8 vht_mcs[2];
++		struct mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++		struct vht_priv	*pvhtpriv_ap = &pmlmepriv->vhtpriv;
++
++		_rtw_memcpy(vht_mcs, psta->vhtpriv.vht_mcs_map, 2);
++		/* doesn't support 5~8 SS so far */
++		vht_mcs[1] = 0xff;
++		switch (rf_type) {
++		case RF_1T1R:
++		case RF_1T2R:
++			vht_mcs[0] |= 0xfc;
++			break;
++		case RF_2T2R:
++		case RF_2T4R:
++		case RF_2T2R_GREEN:
++		case RF_2T3R:
++			vht_mcs[0] |= 0xf0;
++			break;
++		case RF_3T3R:
++		case RF_3T4R:
++			vht_mcs[0] |= 0xc0;
++			break;
++		default:
++			RTW_INFO("%s,%d, unknown rf type\n", __func__, __LINE__);
++			break;
++		}
++		nss = rtw_vht_mcsmap_to_nss(vht_mcs);
++	} else
++#endif /* CONFIG_80211AC_VHT */
++		if (psta->htpriv.ht_option) {
++			u8 supp_mcs_set[4];
++
++			_rtw_memcpy(supp_mcs_set, psta->htpriv.ht_cap.supp_mcs_set, 4);
++
++			switch (rf_type) {
++			case RF_1T1R:
++			case RF_1T2R:
++				supp_mcs_set[1] = supp_mcs_set[2] = supp_mcs_set[3] = 0;
++				break;
++			case RF_2T2R:
++			case RF_2T4R:
++			case RF_2T2R_GREEN:
++			case RF_2T3R:
++				supp_mcs_set[2] = supp_mcs_set[3] = 0;
++				break;
++			case RF_3T3R:
++			case RF_3T4R:
++				supp_mcs_set[3] = 0;
++				break;
++			default:
++				RTW_INFO("%s,%d, unknown rf type\n", __func__, __LINE__);
++				break;
++			}
++			nss = rtw_ht_mcsset_to_nss(supp_mcs_set);
++		}
++
++	RTW_INFO("%s: %d SS, rf_type=%d\n", __func__, nss, rf_type);
++	return nss;
++}
++
++u8 networktype_to_raid(_adapter *adapter, struct sta_info *psta)
++{
++	unsigned char raid;
++	switch (psta->wireless_mode) {
++	case WIRELESS_11B:
++		raid = RATR_INX_WIRELESS_B;
++		break;
++	case WIRELESS_11A:
++	case WIRELESS_11G:
++		raid = RATR_INX_WIRELESS_G;
++		break;
++	case WIRELESS_11BG:
++		raid = RATR_INX_WIRELESS_GB;
++		break;
++	case WIRELESS_11_24N:
++	case WIRELESS_11_5N:
++		raid = RATR_INX_WIRELESS_N;
++		break;
++	case WIRELESS_11A_5N:
++	case WIRELESS_11G_24N:
++		raid = RATR_INX_WIRELESS_NG;
++		break;
++	case WIRELESS_11BG_24N:
++		raid = RATR_INX_WIRELESS_NGB;
++		break;
++	default:
++		raid = RATR_INX_WIRELESS_GB;
++		break;
++
++	}
++	return raid;
++
++}
++
++u8 networktype_to_raid_ex(_adapter *adapter, struct sta_info *psta)
++{
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++	u8 raid = RATEID_IDX_BGN_40M_1SS, cur_rf_type, rf_type, custom_rf_type;
++	s8 tx_nss;
++
++	tx_nss = rtw_get_tx_nss(adapter, psta);
++
++	switch (psta->wireless_mode) {
++	case WIRELESS_11B:
++		raid = RATEID_IDX_B;
++		break;
++	case WIRELESS_11A:
++	case WIRELESS_11G:
++		raid = RATEID_IDX_G;
++		break;
++	case WIRELESS_11BG:
++		raid = RATEID_IDX_BG;
++		break;
++	case WIRELESS_11_24N:
++	case WIRELESS_11_5N:
++	case WIRELESS_11A_5N:
++	case WIRELESS_11G_24N:
++		if (tx_nss == 1)
++			raid = RATEID_IDX_GN_N1SS;
++		else if (tx_nss == 2)
++			raid = RATEID_IDX_GN_N2SS;
++		else if (tx_nss == 3)
++			raid = RATEID_IDX_BGN_3SS;
++		else
++			RTW_INFO("tx_nss error!(tx_nss=%d)\n", tx_nss);
++		break;
++	case WIRELESS_11B_24N:
++	case WIRELESS_11BG_24N:
++		if (psta->bw_mode == CHANNEL_WIDTH_20) {
++			if (tx_nss == 1)
++				raid = RATEID_IDX_BGN_20M_1SS_BN;
++			else if (tx_nss == 2)
++				raid = RATEID_IDX_BGN_20M_2SS_BN;
++			else if (tx_nss == 3)
++				raid = RATEID_IDX_BGN_3SS;
++			else
++				RTW_INFO("tx_nss error!(tx_nss=%d)\n", tx_nss);
++		} else {
++			if (tx_nss == 1)
++				raid = RATEID_IDX_BGN_40M_1SS;
++			else if (tx_nss == 2)
++				raid = RATEID_IDX_BGN_40M_2SS;
++			else if (tx_nss == 3)
++				raid = RATEID_IDX_BGN_3SS;
++			else
++				RTW_INFO("tx_nss error!(tx_nss=%d)\n", tx_nss);
++		}
++		break;
++#ifdef CONFIG_80211AC_VHT
++	case WIRELESS_11_5AC:
++		if (tx_nss == 1)
++			raid = RATEID_IDX_VHT_1SS;
++		else if (tx_nss == 2)
++			raid = RATEID_IDX_VHT_2SS;
++		else if (tx_nss == 3)
++			raid = RATEID_IDX_VHT_3SS;
++		else
++			RTW_INFO("tx_nss error!(tx_nss=%d)\n", tx_nss);
++		break;
++	case WIRELESS_11_24AC:
++		if (psta->bw_mode >= CHANNEL_WIDTH_80) {
++			if (tx_nss == 1)
++				raid = RATEID_IDX_VHT_1SS;
++			else if (tx_nss == 2)
++				raid = RATEID_IDX_VHT_2SS;
++			else if (tx_nss == 3)
++				raid = RATEID_IDX_VHT_3SS;
++			else
++				RTW_INFO("tx_nss error!(tx_nss=%d)\n", tx_nss);
++		} else {
++			if (tx_nss == 1)
++				raid = RATEID_IDX_MIX1;
++			else if (tx_nss == 2)
++				raid = RATEID_IDX_MIX2;
++			else if (tx_nss == 3)
++				raid = RATEID_IDX_VHT_3SS;
++			else
++				RTW_INFO("tx_nss error!(tx_nss=%d)\n", tx_nss);
++		}
++		break;
++#endif
++	default:
++		RTW_INFO("unexpected wireless mode!(psta->wireless_mode=%x)\n", psta->wireless_mode);
++		break;
++
++	}
++
++	/* RTW_INFO("psta->wireless_mode=%x,  tx_nss=%d\n", psta->wireless_mode, tx_nss); */
++
++	return raid;
++
++}
++#endif
++u8 judge_network_type(_adapter *padapter, unsigned char *rate, int ratelen)
++{
++	u8 network_type = 0;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++
++	if (pmlmeext->cur_channel > 14) {
++		if (pmlmeinfo->VHT_enable)
++			network_type = WIRELESS_11AC;
++		else if (pmlmeinfo->HT_enable)
++			network_type = WIRELESS_11_5N;
++
++		network_type |= WIRELESS_11A;
++	} else {
++		if (pmlmeinfo->HT_enable)
++			network_type = WIRELESS_11_24N;
++
++		if ((cckratesonly_included(rate, ratelen)) == _TRUE)
++			network_type |= WIRELESS_11B;
++		else if ((cckrates_included(rate, ratelen)) == _TRUE)
++			network_type |= WIRELESS_11BG;
++		else
++			network_type |= WIRELESS_11G;
++	}
++
++	return	network_type;
++}
++
++unsigned char ratetbl_val_2wifirate(unsigned char rate);
++unsigned char ratetbl_val_2wifirate(unsigned char rate)
++{
++	unsigned char val = 0;
++
++	switch (rate & 0x7f) {
++	case 0:
++		val = IEEE80211_CCK_RATE_1MB;
++		break;
++
++	case 1:
++		val = IEEE80211_CCK_RATE_2MB;
++		break;
++
++	case 2:
++		val = IEEE80211_CCK_RATE_5MB;
++		break;
++
++	case 3:
++		val = IEEE80211_CCK_RATE_11MB;
++		break;
++
++	case 4:
++		val = IEEE80211_OFDM_RATE_6MB;
++		break;
++
++	case 5:
++		val = IEEE80211_OFDM_RATE_9MB;
++		break;
++
++	case 6:
++		val = IEEE80211_OFDM_RATE_12MB;
++		break;
++
++	case 7:
++		val = IEEE80211_OFDM_RATE_18MB;
++		break;
++
++	case 8:
++		val = IEEE80211_OFDM_RATE_24MB;
++		break;
++
++	case 9:
++		val = IEEE80211_OFDM_RATE_36MB;
++		break;
++
++	case 10:
++		val = IEEE80211_OFDM_RATE_48MB;
++		break;
++
++	case 11:
++		val = IEEE80211_OFDM_RATE_54MB;
++		break;
++
++	}
++
++	return val;
++
++}
++
++int is_basicrate(_adapter *padapter, unsigned char rate);
++int is_basicrate(_adapter *padapter, unsigned char rate)
++{
++	int i;
++	unsigned char val;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	for (i = 0; i < NumRates; i++) {
++		val = pmlmeext->basicrate[i];
++
++		if ((val != 0xff) && (val != 0xfe)) {
++			if (rate == ratetbl_val_2wifirate(val))
++				return _TRUE;
++		}
++	}
++
++	return _FALSE;
++}
++
++unsigned int ratetbl2rateset(_adapter *padapter, unsigned char *rateset);
++unsigned int ratetbl2rateset(_adapter *padapter, unsigned char *rateset)
++{
++	int i;
++	unsigned char rate;
++	unsigned int	len = 0;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	for (i = 0; i < NumRates; i++) {
++		rate = pmlmeext->datarate[i];
++
++		switch (rate) {
++		case 0xff:
++			return len;
++
++		case 0xfe:
++			continue;
++
++		default:
++			rate = ratetbl_val_2wifirate(rate);
++
++			if (is_basicrate(padapter, rate) == _TRUE)
++				rate |= IEEE80211_BASIC_RATE_MASK;
++
++			rateset[len] = rate;
++			len++;
++			break;
++		}
++	}
++	return len;
++}
++
++void get_rate_set(_adapter *padapter, unsigned char *pbssrate, int *bssrate_len)
++{
++	unsigned char supportedrates[NumRates];
++
++	_rtw_memset(supportedrates, 0, NumRates);
++	*bssrate_len = ratetbl2rateset(padapter, supportedrates);
++	_rtw_memcpy(pbssrate, supportedrates, *bssrate_len);
++}
++
++void set_mcs_rate_by_mask(u8 *mcs_set, u32 mask)
++{
++	u8 mcs_rate_1r = (u8)(mask & 0xff);
++	u8 mcs_rate_2r = (u8)((mask >> 8) & 0xff);
++	u8 mcs_rate_3r = (u8)((mask >> 16) & 0xff);
++	u8 mcs_rate_4r = (u8)((mask >> 24) & 0xff);
++
++	mcs_set[0] &= mcs_rate_1r;
++	mcs_set[1] &= mcs_rate_2r;
++	mcs_set[2] &= mcs_rate_3r;
++	mcs_set[3] &= mcs_rate_4r;
++}
++
++void UpdateBrateTbl(
++	IN PADAPTER		Adapter,
++	IN u8			*mBratesOS
++)
++{
++	u8	i;
++	u8	rate;
++
++	/* 1M, 2M, 5.5M, 11M, 6M, 12M, 24M are mandatory. */
++	for (i = 0; i < NDIS_802_11_LENGTH_RATES_EX; i++) {
++		rate = mBratesOS[i] & 0x7f;
++		switch (rate) {
++		case IEEE80211_CCK_RATE_1MB:
++		case IEEE80211_CCK_RATE_2MB:
++		case IEEE80211_CCK_RATE_5MB:
++		case IEEE80211_CCK_RATE_11MB:
++		case IEEE80211_OFDM_RATE_6MB:
++		case IEEE80211_OFDM_RATE_12MB:
++		case IEEE80211_OFDM_RATE_24MB:
++			mBratesOS[i] |= IEEE80211_BASIC_RATE_MASK;
++			break;
++		}
++	}
++
++}
++
++void UpdateBrateTblForSoftAP(u8 *bssrateset, u32 bssratelen)
++{
++	u8	i;
++	u8	rate;
++
++	for (i = 0; i < bssratelen; i++) {
++		rate = bssrateset[i] & 0x7f;
++		switch (rate) {
++		case IEEE80211_CCK_RATE_1MB:
++		case IEEE80211_CCK_RATE_2MB:
++		case IEEE80211_CCK_RATE_5MB:
++		case IEEE80211_CCK_RATE_11MB:
++			bssrateset[i] |= IEEE80211_BASIC_RATE_MASK;
++			break;
++		}
++	}
++
++}
++void Set_MSR(_adapter *padapter, u8 type)
++{
++	rtw_hal_set_hwreg(padapter, HW_VAR_MEDIA_STATUS, (u8 *)(&type));
++}
++
++inline u8 rtw_get_oper_ch(_adapter *adapter)
++{
++	return adapter_to_dvobj(adapter)->oper_channel;
++}
++
++inline void rtw_set_oper_ch(_adapter *adapter, u8 ch)
++{
++#ifdef DBG_CH_SWITCH
++	const int len = 128;
++	char msg[128] = {0};
++	int cnt = 0;
++	int i = 0;
++#endif  /* DBG_CH_SWITCH */
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++
++	if (dvobj->oper_channel != ch) {
++		dvobj->on_oper_ch_time = rtw_get_current_time();
++
++#ifdef DBG_CH_SWITCH
++		cnt += snprintf(msg + cnt, len - cnt, "switch to ch %3u", ch);
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			_adapter *iface = dvobj->padapters[i];
++			cnt += snprintf(msg + cnt, len - cnt, " ["ADPT_FMT":", ADPT_ARG(iface));
++			if (iface->mlmeextpriv.cur_channel == ch)
++				cnt += snprintf(msg + cnt, len - cnt, "C");
++			else
++				cnt += snprintf(msg + cnt, len - cnt, "_");
++			if (iface->wdinfo.listen_channel == ch && !rtw_p2p_chk_state(&iface->wdinfo, P2P_STATE_NONE))
++				cnt += snprintf(msg + cnt, len - cnt, "L");
++			else
++				cnt += snprintf(msg + cnt, len - cnt, "_");
++			cnt += snprintf(msg + cnt, len - cnt, "]");
++		}
++
++		RTW_INFO(FUNC_ADPT_FMT" %s\n", FUNC_ADPT_ARG(adapter), msg);
++#endif /* DBG_CH_SWITCH */
++	}
++
++	dvobj->oper_channel = ch;
++}
++
++inline u8 rtw_get_oper_bw(_adapter *adapter)
++{
++	return adapter_to_dvobj(adapter)->oper_bwmode;
++}
++
++inline void rtw_set_oper_bw(_adapter *adapter, u8 bw)
++{
++	adapter_to_dvobj(adapter)->oper_bwmode = bw;
++}
++
++inline u8 rtw_get_oper_choffset(_adapter *adapter)
++{
++	return adapter_to_dvobj(adapter)->oper_ch_offset;
++}
++
++inline void rtw_set_oper_choffset(_adapter *adapter, u8 offset)
++{
++	adapter_to_dvobj(adapter)->oper_ch_offset = offset;
++}
++
++u8 rtw_get_offset_by_chbw(u8 ch, u8 bw, u8 *r_offset)
++{
++	u8 valid = 1;
++	u8 offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++	if (bw == CHANNEL_WIDTH_20)
++		goto exit;
++
++	if (bw >= CHANNEL_WIDTH_80 && ch <= 14) {
++		valid = 0;
++		goto exit;
++	}
++
++	if (ch >= 1 && ch <= 4)
++		offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++	else if (ch >= 5 && ch <= 9) {
++		if (*r_offset == HAL_PRIME_CHNL_OFFSET_LOWER || *r_offset == HAL_PRIME_CHNL_OFFSET_UPPER)
++			offset = *r_offset; /* both lower and upper is valid, obey input value */
++		else
++			offset = HAL_PRIME_CHNL_OFFSET_UPPER; /* default use upper */
++	} else if (ch >= 10 && ch <= 13)
++		offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++	else if (ch == 14) {
++		valid = 0; /* ch14 doesn't support 40MHz bandwidth */
++		goto exit;
++	} else if (ch >= 36 && ch <= 177) {
++		switch (ch) {
++		case 36:
++		case 44:
++		case 52:
++		case 60:
++		case 100:
++		case 108:
++		case 116:
++		case 124:
++		case 132:
++		case 140:
++		case 149:
++		case 157:
++		case 165:
++		case 173:
++			offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++			break;
++		case 40:
++		case 48:
++		case 56:
++		case 64:
++		case 104:
++		case 112:
++		case 120:
++		case 128:
++		case 136:
++		case 144:
++		case 153:
++		case 161:
++		case 169:
++		case 177:
++			offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++			break;
++		default:
++			valid = 0;
++			break;
++		}
++	} else
++		valid = 0;
++
++exit:
++	if (valid && r_offset)
++		*r_offset = offset;
++	return valid;
++}
++
++u8 rtw_get_offset_by_ch(u8 channel)
++{
++	u8 offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++	if (channel >= 1 && channel <= 4)
++		offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++	else if (channel >= 5 && channel <= 14)
++		offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++	else {
++		switch (channel) {
++		case 36:
++		case 44:
++		case 52:
++		case 60:
++		case 100:
++		case 108:
++		case 116:
++		case 124:
++		case 132:
++		case 149:
++		case 157:
++			offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++			break;
++		case 40:
++		case 48:
++		case 56:
++		case 64:
++		case 104:
++		case 112:
++		case 120:
++		case 128:
++		case 136:
++		case 153:
++		case 161:
++			offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++			break;
++		default:
++			offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++			break;
++		}
++
++	}
++
++	return offset;
++
++}
++
++u8 rtw_get_center_ch(u8 channel, u8 chnl_bw, u8 chnl_offset)
++{
++	u8 center_ch = channel;
++
++	if (chnl_bw == CHANNEL_WIDTH_80) {
++		if (channel == 36 || channel == 40 || channel == 44 || channel == 48)
++			center_ch = 42;
++		else if (channel == 52 || channel == 56 || channel == 60 || channel == 64)
++			center_ch = 58;
++		else if (channel == 100 || channel == 104 || channel == 108 || channel == 112)
++			center_ch = 106;
++		else if (channel == 116 || channel == 120 || channel == 124 || channel == 128)
++			center_ch = 122;
++		else if (channel == 132 || channel == 136 || channel == 140 || channel == 144)
++			center_ch = 138;
++		else if (channel == 149 || channel == 153 || channel == 157 || channel == 161)
++			center_ch = 155;
++		else if (channel == 165 || channel == 169 || channel == 173 || channel == 177)
++			center_ch = 171;
++		else if (channel <= 14)
++			center_ch = 7;
++	} else if (chnl_bw == CHANNEL_WIDTH_40) {
++		if (chnl_offset == HAL_PRIME_CHNL_OFFSET_LOWER)
++			center_ch = channel + 2;
++		else
++			center_ch = channel - 2;
++	} else if (chnl_bw == CHANNEL_WIDTH_20)
++		center_ch = channel;
++	else
++		rtw_warn_on(1);
++
++	return center_ch;
++}
++
++inline u32 rtw_get_on_oper_ch_time(_adapter *adapter)
++{
++	return adapter_to_dvobj(adapter)->on_oper_ch_time;
++}
++
++inline u32 rtw_get_on_cur_ch_time(_adapter *adapter)
++{
++	if (adapter->mlmeextpriv.cur_channel == adapter_to_dvobj(adapter)->oper_channel)
++		return adapter_to_dvobj(adapter)->on_oper_ch_time;
++	else
++		return 0;
++}
++
++void set_channel_bwmode(_adapter *padapter, unsigned char channel, unsigned char channel_offset, unsigned short bwmode)
++{
++	u8 center_ch, chnl_offset80 = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++#if (defined(CONFIG_TDLS) && defined(CONFIG_TDLS_CH_SW)) || defined(CONFIG_MCC_MODE)
++	u8 iqk_info_backup = _FALSE;
++#endif
++
++	if (padapter->bNotifyChannelChange)
++		RTW_INFO("[%s] ch = %d, offset = %d, bwmode = %d\n", __FUNCTION__, channel, channel_offset, bwmode);
++
++	center_ch = rtw_get_center_ch(channel, bwmode, channel_offset);
++
++	if (bwmode == CHANNEL_WIDTH_80) {
++		if (center_ch > channel)
++			chnl_offset80 = HAL_PRIME_CHNL_OFFSET_LOWER;
++		else if (center_ch < channel)
++			chnl_offset80 = HAL_PRIME_CHNL_OFFSET_UPPER;
++		else
++			chnl_offset80 = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	}
++	_enter_critical_mutex(&(adapter_to_dvobj(padapter)->setch_mutex), NULL);
++
++#ifdef CONFIG_MCC_MODE
++	if (MCC_EN(padapter)) {
++		/* driver doesn't set channel setting reg under MCC */
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)) {
++			RTW_INFO("Warning: Do not set channel setting reg MCC mode\n");
++			rtw_warn_on(1);
++		}
++	}
++#endif
++
++#ifdef CONFIG_DFS_MASTER
++	{
++		struct rf_ctl_t *rfctl = adapter_to_rfctl(padapter);
++		bool ori_overlap_radar_detect_ch = rtw_rfctl_overlap_radar_detect_ch(rfctl);
++		bool new_overlap_radar_detect_ch = _rtw_rfctl_overlap_radar_detect_ch(rfctl, channel, bwmode, channel_offset);
++
++		if (new_overlap_radar_detect_ch)
++			rtw_odm_radar_detect_enable(padapter);
++
++		if (new_overlap_radar_detect_ch && IS_CH_WAITING(rfctl)) {
++			u8 pause = 0xFF;
++
++			rtw_hal_set_hwreg(padapter, HW_VAR_TXPAUSE, &pause);
++		}
++#endif /* CONFIG_DFS_MASTER */
++
++		/* set Channel */
++		/* saved channel/bw info */
++		rtw_set_oper_ch(padapter, channel);
++		rtw_set_oper_bw(padapter, bwmode);
++		rtw_set_oper_choffset(padapter, channel_offset);
++
++#if (defined(CONFIG_TDLS) && defined(CONFIG_TDLS_CH_SW)) || defined(CONFIG_MCC_MODE)
++		/* To check if we need to backup iqk info after switch chnl & bw */
++		{
++			u8 take_care_iqk, do_iqk;
++
++			rtw_hal_get_hwreg(padapter, HW_VAR_CH_SW_NEED_TO_TAKE_CARE_IQK_INFO, &take_care_iqk);
++			rtw_hal_get_hwreg(padapter, HW_VAR_DO_IQK, &do_iqk);
++			if ((take_care_iqk == _TRUE) && (do_iqk == _TRUE))
++				iqk_info_backup = _TRUE;
++		}
++#endif
++
++		rtw_hal_set_chnl_bw(padapter, center_ch, bwmode, channel_offset, chnl_offset80); /* set center channel */
++
++#if (defined(CONFIG_TDLS) && defined(CONFIG_TDLS_CH_SW)) || defined(CONFIG_MCC_MODE)
++		if (iqk_info_backup == _TRUE)
++			rtw_hal_ch_sw_iqk_info_backup(padapter);
++#endif
++
++#ifdef CONFIG_DFS_MASTER
++		if (ori_overlap_radar_detect_ch && !new_overlap_radar_detect_ch) {
++			u8 pause = 0x00;
++
++			rtw_odm_radar_detect_disable(padapter);
++			rtw_hal_set_hwreg(padapter, HW_VAR_TXPAUSE, &pause);
++		}
++	}
++#endif /* CONFIG_DFS_MASTER */
++
++	_exit_critical_mutex(&(adapter_to_dvobj(padapter)->setch_mutex), NULL);
++}
++
++int get_bsstype(unsigned short capability)
++{
++	if (capability & BIT(0))
++		return WIFI_FW_AP_STATE;
++	else if (capability & BIT(1))
++		return WIFI_FW_ADHOC_STATE;
++	else
++		return 0;
++}
++
++__inline u8 *get_my_bssid(WLAN_BSSID_EX *pnetwork)
++{
++	return pnetwork->MacAddress;
++}
++
++u16 get_beacon_interval(WLAN_BSSID_EX *bss)
++{
++	unsigned short val;
++	_rtw_memcpy((unsigned char *)&val, rtw_get_beacon_interval_from_ie(bss->IEs), 2);
++
++	return le16_to_cpu(val);
++
++}
++
++int is_client_associated_to_ap(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext;
++	struct mlme_ext_info	*pmlmeinfo;
++
++	if (!padapter)
++		return _FAIL;
++
++	pmlmeext = &padapter->mlmeextpriv;
++	pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if ((pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS) && ((pmlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE))
++		return _TRUE;
++	else
++		return _FAIL;
++}
++
++int is_client_associated_to_ibss(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if ((pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS) && ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE))
++		return _TRUE;
++	else
++		return _FAIL;
++}
++
++int is_IBSS_empty(_adapter *padapter)
++{
++	int i;
++	struct macid_ctl_t *macid_ctl = &padapter->dvobj->macid_ctl;
++
++	for (i = 0; i < macid_ctl->num; i++) {
++		if (!rtw_macid_is_used(macid_ctl, i))
++			continue;
++		if (rtw_macid_get_if_g(macid_ctl, i) != padapter->iface_id)
++			continue;
++		if (!GET_H2CCMD_MSRRPT_PARM_OPMODE(&macid_ctl->h2c_msr[i]))
++			continue;
++		if (GET_H2CCMD_MSRRPT_PARM_ROLE(&macid_ctl->h2c_msr[i]) == H2C_MSR_ROLE_ADHOC)
++			return _FAIL;
++	}
++
++	return _TRUE;
++}
++
++unsigned int decide_wait_for_beacon_timeout(unsigned int bcn_interval)
++{
++	if ((bcn_interval << 2) < WAIT_FOR_BCN_TO_MIN)
++		return WAIT_FOR_BCN_TO_MIN;
++	else if ((bcn_interval << 2) > WAIT_FOR_BCN_TO_MAX)
++		return WAIT_FOR_BCN_TO_MAX;
++	else
++		return bcn_interval << 2;
++}
++
++void CAM_empty_entry(
++	PADAPTER	Adapter,
++	u8			ucIndex
++)
++{
++	rtw_hal_set_hwreg(Adapter, HW_VAR_CAM_EMPTY_ENTRY, (u8 *)(&ucIndex));
++}
++
++void invalidate_cam_all(_adapter *padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++	u8 val8 = 0;
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_CAM_INVALID_ALL, &val8);
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	rtw_sec_cam_map_clr_all(&cam_ctl->used);
++	_rtw_memset(dvobj->cam_cache, 0, sizeof(struct sec_cam_ent) * SEC_CAM_ENT_NUM_SW_LIMIT);
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++}
++
++void _clear_cam_entry(_adapter *padapter, u8 entry)
++{
++	unsigned char null_sta[] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
++	unsigned char null_key[] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
++
++	rtw_sec_write_cam_ent(padapter, entry, 0, null_sta, null_key);
++}
++
++inline void write_cam(_adapter *adapter, u8 id, u16 ctrl, u8 *mac, u8 *key)
++{
++#ifdef CONFIG_WRITE_CACHE_ONLY
++	write_cam_cache(adapter, id , ctrl, mac, key);
++#else
++	rtw_sec_write_cam_ent(adapter, id, ctrl, mac, key);
++	write_cam_cache(adapter, id , ctrl, mac, key);
++#endif
++}
++
++inline void clear_cam_entry(_adapter *adapter, u8 id)
++{
++	_clear_cam_entry(adapter, id);
++	clear_cam_cache(adapter, id);
++}
++
++inline void write_cam_from_cache(_adapter *adapter, u8 id)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++	struct sec_cam_ent cache;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	_rtw_memcpy(&cache, &dvobj->cam_cache[id], sizeof(struct sec_cam_ent));
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++
++	rtw_sec_write_cam_ent(adapter, id, cache.ctrl, cache.mac, cache.key);
++}
++void write_cam_cache(_adapter *adapter, u8 id, u16 ctrl, u8 *mac, u8 *key)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++
++	dvobj->cam_cache[id].ctrl = ctrl;
++	_rtw_memcpy(dvobj->cam_cache[id].mac, mac, ETH_ALEN);
++	_rtw_memcpy(dvobj->cam_cache[id].key, key, 16);
++
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++}
++
++void clear_cam_cache(_adapter *adapter, u8 id)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++
++	_rtw_memset(&(dvobj->cam_cache[id]), 0, sizeof(struct sec_cam_ent));
++
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++}
++
++inline bool _rtw_camctl_chk_cap(_adapter *adapter, u8 cap)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++
++	if (cam_ctl->sec_cap & cap)
++		return _TRUE;
++	return _FALSE;
++}
++
++inline void _rtw_camctl_set_flags(_adapter *adapter, u32 flags)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++
++	cam_ctl->flags |= flags;
++}
++
++inline void rtw_camctl_set_flags(_adapter *adapter, u32 flags)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	_rtw_camctl_set_flags(adapter, flags);
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++}
++
++inline void _rtw_camctl_clr_flags(_adapter *adapter, u32 flags)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++
++	cam_ctl->flags &= ~flags;
++}
++
++inline void rtw_camctl_clr_flags(_adapter *adapter, u32 flags)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	_rtw_camctl_clr_flags(adapter, flags);
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++}
++
++inline bool _rtw_camctl_chk_flags(_adapter *adapter, u32 flags)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++
++	if (cam_ctl->flags & flags)
++		return _TRUE;
++	return _FALSE;
++}
++
++void dump_sec_cam_map(void *sel, struct sec_cam_bmp *map, u8 max_num)
++{
++	RTW_PRINT_SEL(sel, "0x%08x\n", map->m0);
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
++	if (max_num && max_num > 32)
++		RTW_PRINT_SEL(sel, "0x%08x\n", map->m1);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
++	if (max_num && max_num > 64)
++		RTW_PRINT_SEL(sel, "0x%08x\n", map->m2);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
++	if (max_num && max_num > 96)
++		RTW_PRINT_SEL(sel, "0x%08x\n", map->m3);
++#endif
++}
++
++inline bool rtw_sec_camid_is_set(struct sec_cam_bmp *map, u8 id)
++{
++	if (id < 32)
++		return map->m0 & BIT(id);
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
++	else if (id < 64)
++		return map->m1 & BIT(id - 32);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
++	else if (id < 96)
++		return map->m2 & BIT(id - 64);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
++	else if (id < 128)
++		return map->m3 & BIT(id - 96);
++#endif
++	else
++		rtw_warn_on(1);
++
++	return 0;
++}
++
++inline void rtw_sec_cam_map_set(struct sec_cam_bmp *map, u8 id)
++{
++	if (id < 32)
++		map->m0 |= BIT(id);
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
++	else if (id < 64)
++		map->m1 |= BIT(id - 32);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
++	else if (id < 96)
++		map->m2 |= BIT(id - 64);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
++	else if (id < 128)
++		map->m3 |= BIT(id - 96);
++#endif
++	else
++		rtw_warn_on(1);
++}
++
++inline void rtw_sec_cam_map_clr(struct sec_cam_bmp *map, u8 id)
++{
++	if (id < 32)
++		map->m0 &= ~BIT(id);
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
++	else if (id < 64)
++		map->m1 &= ~BIT(id - 32);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
++	else if (id < 96)
++		map->m2 &= ~BIT(id - 64);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
++	else if (id < 128)
++		map->m3 &= ~BIT(id - 96);
++#endif
++	else
++		rtw_warn_on(1);
++}
++
++inline void rtw_sec_cam_map_clr_all(struct sec_cam_bmp *map)
++{
++	map->m0 = 0;
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
++	map->m1 = 0;
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
++	map->m2 = 0;
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
++	map->m3 = 0;
++#endif
++}
++
++inline bool rtw_sec_camid_is_drv_forbid(struct cam_ctl_t *cam_ctl, u8 id)
++{
++	struct sec_cam_bmp forbid_map;
++
++	forbid_map.m0 = 0x00000ff0;
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
++	forbid_map.m1 = 0x00000000;
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
++	forbid_map.m2 = 0x00000000;
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
++	forbid_map.m3 = 0x00000000;
++#endif
++
++	if (id < 32)
++		return forbid_map.m0 & BIT(id);
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
++	else if (id < 64)
++		return forbid_map.m1 & BIT(id - 32);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
++	else if (id < 96)
++		return forbid_map.m2 & BIT(id - 64);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
++	else if (id < 128)
++		return forbid_map.m3 & BIT(id - 96);
++#endif
++	else
++		rtw_warn_on(1);
++
++	return 1;
++}
++
++bool _rtw_sec_camid_is_used(struct cam_ctl_t *cam_ctl, u8 id)
++{
++	bool ret = _FALSE;
++
++	if (id >= cam_ctl->num) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++#if 0 /* for testing */
++	if (rtw_sec_camid_is_drv_forbid(cam_ctl, id)) {
++		ret = _TRUE;
++		goto exit;
++	}
++#endif
++
++	ret = rtw_sec_camid_is_set(&cam_ctl->used, id);
++
++exit:
++	return ret;
++}
++
++inline bool rtw_sec_camid_is_used(struct cam_ctl_t *cam_ctl, u8 id)
++{
++	_irqL irqL;
++	bool ret;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	ret = _rtw_sec_camid_is_used(cam_ctl, id);
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++
++	return ret;
++}
++u8 rtw_get_sec_camid(_adapter *adapter, u8 max_bk_key_num, u8 *sec_key_id)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	int i;
++	_irqL irqL;
++	u8 sec_cam_num = 0;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	for (i = 0; i < cam_ctl->num; i++) {
++		if (_rtw_sec_camid_is_used(cam_ctl, i)) {
++			sec_key_id[sec_cam_num++] = i;
++			if (sec_cam_num == max_bk_key_num)
++				break;
++		}
++	}
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++
++	return sec_cam_num;
++}
++
++inline bool _rtw_camid_is_gk(_adapter *adapter, u8 cam_id)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	bool ret = _FALSE;
++
++	if (cam_id >= cam_ctl->num) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (_rtw_sec_camid_is_used(cam_ctl, cam_id) == _FALSE)
++		goto exit;
++
++	ret = (dvobj->cam_cache[cam_id].ctrl & BIT6) ? _TRUE : _FALSE;
++
++exit:
++	return ret;
++}
++
++inline bool rtw_camid_is_gk(_adapter *adapter, u8 cam_id)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++	bool ret;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	ret = _rtw_camid_is_gk(adapter, cam_id);
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++
++	return ret;
++}
++
++bool cam_cache_chk(_adapter *adapter, u8 id, u8 *addr, s16 kid, s8 gk)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	bool ret = _FALSE;
++
++	if (addr && _rtw_memcmp(dvobj->cam_cache[id].mac, addr, ETH_ALEN) == _FALSE)
++		goto exit;
++	if (kid >= 0 && kid != (dvobj->cam_cache[id].ctrl & 0x03))
++		goto exit;
++	if (gk != -1 && (gk ? _TRUE : _FALSE) != _rtw_camid_is_gk(adapter, id))
++		goto exit;
++
++	ret = _TRUE;
++
++exit:
++	return ret;
++}
++
++s16 _rtw_camid_search(_adapter *adapter, u8 *addr, s16 kid, s8 gk)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	int i;
++	s16 cam_id = -1;
++
++	for (i = 0; i < cam_ctl->num; i++) {
++		if (cam_cache_chk(adapter, i, addr, kid, gk)) {
++			cam_id = i;
++			break;
++		}
++	}
++
++	if (0) {
++		if (addr)
++			RTW_INFO(FUNC_ADPT_FMT" addr:"MAC_FMT" kid:%d, gk:%d, return cam_id:%d\n"
++				, FUNC_ADPT_ARG(adapter), MAC_ARG(addr), kid, gk, cam_id);
++		else
++			RTW_INFO(FUNC_ADPT_FMT" addr:%p kid:%d, gk:%d, return cam_id:%d\n"
++				, FUNC_ADPT_ARG(adapter), addr, kid, gk, cam_id);
++	}
++
++	return cam_id;
++}
++
++s16 rtw_camid_search(_adapter *adapter, u8 *addr, s16 kid, s8 gk)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++	s16 cam_id = -1;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	cam_id = _rtw_camid_search(adapter, addr, kid, gk);
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++
++	return cam_id;
++}
++
++s16 rtw_get_camid(_adapter *adapter, struct sta_info *sta, u8 *addr, s16 kid)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	int i;
++#if 0 /* for testing */
++	static u8 start_id = 0;
++#else
++	u8 start_id = 0;
++#endif
++	s16 cam_id = -1;
++
++	if (addr == NULL) {
++		RTW_PRINT(FUNC_ADPT_FMT" mac_address is NULL\n"
++			  , FUNC_ADPT_ARG(adapter));
++		rtw_warn_on(1);
++		goto _exit;
++	}
++
++	/* find cam entry which has the same addr, kid (, gk bit) */
++	if (_rtw_camctl_chk_cap(adapter, SEC_CAP_CHK_BMC) == _TRUE)
++		i = _rtw_camid_search(adapter, addr, kid, sta ? _FALSE : _TRUE);
++	else
++		i = _rtw_camid_search(adapter, addr, kid, -1);
++
++	if (i >= 0) {
++		cam_id = i;
++		goto _exit;
++	}
++
++	for (i = 0; i < cam_ctl->num; i++) {
++		/* bypass default key which is allocated statically */
++#ifndef CONFIG_CONCURRENT_MODE
++		if (((i + start_id) % cam_ctl->num) < 4)
++			continue;
++#endif
++		if (_rtw_sec_camid_is_used(cam_ctl, ((i + start_id) % cam_ctl->num)) == _FALSE)
++			break;
++	}
++
++	if (i == cam_ctl->num) {
++		if (sta)
++			RTW_PRINT(FUNC_ADPT_FMT" pairwise key with "MAC_FMT" id:%u no room\n"
++				  , FUNC_ADPT_ARG(adapter), MAC_ARG(addr), kid);
++		else
++			RTW_PRINT(FUNC_ADPT_FMT" group key with "MAC_FMT" id:%u no room\n"
++				  , FUNC_ADPT_ARG(adapter), MAC_ARG(addr), kid);
++		rtw_warn_on(1);
++		goto _exit;
++	}
++
++	cam_id = ((i + start_id) % cam_ctl->num);
++	start_id = ((i + start_id + 1) % cam_ctl->num);
++
++_exit:
++	return cam_id;
++}
++
++s16 rtw_camid_alloc(_adapter *adapter, struct sta_info *sta, u8 kid, bool *used)
++{
++	struct mlme_ext_info *mlmeinfo = &adapter->mlmeextpriv.mlmext_info;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++	s16 cam_id = -1;
++
++	*used = _FALSE;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++
++	if ((((mlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) || ((mlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE))
++	    && !sta) {
++#ifndef CONFIG_CONCURRENT_MODE
++		/* AP/Ad-hoc mode group key static alloction to default key by key ID on Non-concurrent*/
++		if (kid > 3) {
++			RTW_PRINT(FUNC_ADPT_FMT" group key with invalid key id:%u\n"
++				  , FUNC_ADPT_ARG(adapter), kid);
++			rtw_warn_on(1);
++			goto bitmap_handle;
++		}
++		cam_id = kid;
++#else
++		u8 *addr = adapter_mac_addr(adapter);
++
++		cam_id = rtw_get_camid(adapter, sta, addr, kid);
++		if (1)
++			RTW_PRINT(FUNC_ADPT_FMT" group key with "MAC_FMT" assigned cam_id:%u\n"
++				, FUNC_ADPT_ARG(adapter), MAC_ARG(addr), cam_id);
++#endif
++	} else {
++		u8 *addr = sta ? sta->hwaddr : NULL;
++
++		if (!sta) {
++			if (!(mlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)) {
++				/* bypass STA mode group key setting before connected(ex:WEP) because bssid is not ready */
++				goto bitmap_handle;
++			}
++			addr = get_bssid(&adapter->mlmepriv);/*A2*/
++		}
++		cam_id = rtw_get_camid(adapter, sta, addr, kid);
++	}
++
++
++bitmap_handle:
++	if (cam_id >= 0) {
++		*used = _rtw_sec_camid_is_used(cam_ctl, cam_id);
++		rtw_sec_cam_map_set(&cam_ctl->used, cam_id);
++	}
++
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++
++	return cam_id;
++}
++
++void rtw_camid_set(_adapter *adapter, u8 cam_id)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++
++	if (cam_id < cam_ctl->num)
++		rtw_sec_cam_map_set(&cam_ctl->used, cam_id);
++
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++}
++
++void rtw_camid_free(_adapter *adapter, u8 cam_id)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++
++	if (cam_id < cam_ctl->num)
++		rtw_sec_cam_map_clr(&cam_ctl->used, cam_id);
++
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++}
++
++/*Must pause TX/RX before use this API*/
++inline void rtw_sec_cam_swap(_adapter *adapter, u8 cam_id_a, u8 cam_id_b)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	struct sec_cam_ent cache_a, cache_b;
++	_irqL irqL;
++	bool cam_a_used, cam_b_used;
++
++	if (1)
++		RTW_INFO(ADPT_FMT" - sec_cam %d,%d swap\n", ADPT_ARG(adapter), cam_id_a, cam_id_b);
++
++	if (cam_id_a == cam_id_b)
++		return;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	rtw_mi_update_ap_bmc_camid(adapter, cam_id_a, cam_id_b);
++#endif
++
++	/*setp-1. backup org cam_info*/
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++
++	cam_a_used = _rtw_sec_camid_is_used(cam_ctl, cam_id_a);
++	cam_b_used = _rtw_sec_camid_is_used(cam_ctl, cam_id_b);
++
++	if (cam_a_used)
++		_rtw_memcpy(&cache_a, &dvobj->cam_cache[cam_id_a], sizeof(struct sec_cam_ent));
++
++	if (cam_b_used)
++		_rtw_memcpy(&cache_b, &dvobj->cam_cache[cam_id_b], sizeof(struct sec_cam_ent));
++
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++
++	/*setp-2. clean cam_info*/
++	if (cam_a_used) {
++		rtw_camid_free(adapter, cam_id_a);
++		clear_cam_entry(adapter, cam_id_a);
++	}
++	if (cam_b_used) {
++		rtw_camid_free(adapter, cam_id_b);
++		clear_cam_entry(adapter, cam_id_b);
++	}
++
++	/*setp-3. set cam_info*/
++	if (cam_a_used) {
++		write_cam(adapter, cam_id_b, cache_a.ctrl, cache_a.mac, cache_a.key);
++		rtw_camid_set(adapter, cam_id_b);
++	}
++
++	if (cam_b_used) {
++		write_cam(adapter, cam_id_a, cache_b.ctrl, cache_b.mac, cache_b.key);
++		rtw_camid_set(adapter, cam_id_a);
++	}
++}
++
++s16 rtw_get_empty_cam_entry(_adapter *adapter, u8 start_camid)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++	int i;
++	s16 cam_id = -1;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	for (i = start_camid; i < cam_ctl->num; i++) {
++		if (_FALSE == _rtw_sec_camid_is_used(cam_ctl, i)) {
++			cam_id = i;
++			break;
++		}
++	}
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++
++	return cam_id;
++}
++void rtw_clean_dk_section(_adapter *adapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = dvobj_to_sec_camctl(dvobj);
++	s16 ept_cam_id;
++	int i;
++
++	for (i = 0; i < 4; i++) {
++		if (rtw_sec_camid_is_used(cam_ctl, i)) {
++			ept_cam_id = rtw_get_empty_cam_entry(adapter, 4);
++			if (ept_cam_id > 0)
++				rtw_sec_cam_swap(adapter, i, ept_cam_id);
++		}
++	}
++}
++void rtw_clean_hw_dk_cam(_adapter *adapter)
++{
++	int i;
++
++	for (i = 0; i < 4; i++)
++		rtw_sec_clr_cam_ent(adapter, i);
++		/*_clear_cam_entry(adapter, i);*/
++}
++
++void flush_all_cam_entry(_adapter *padapter)
++{
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct security_priv *psecpriv = &padapter->securitypriv;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++		struct sta_priv	*pstapriv = &padapter->stapriv;
++		struct sta_info		*psta;
++
++		psta = rtw_get_stainfo(pstapriv, pmlmeinfo->network.MacAddress);
++		if (psta) {
++			if (psta->state & WIFI_AP_STATE) {
++				/*clear cam when ap free per sta_info*/
++			} else
++				rtw_clearstakey_cmd(padapter, psta, _FALSE);
++		}
++	} else if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++#if 1
++		int cam_id = -1;
++		u8 *addr = adapter_mac_addr(padapter);
++
++		while ((cam_id = rtw_camid_search(padapter, addr, -1, -1)) >= 0) {
++			RTW_PRINT("clear wep or group key for addr:"MAC_FMT", camid:%d\n", MAC_ARG(addr), cam_id);
++			clear_cam_entry(padapter, cam_id);
++			rtw_camid_free(padapter, cam_id);
++		}
++#else
++		/* clear default key */
++		int i, cam_id;
++		u8 null_addr[ETH_ALEN] = {0, 0, 0, 0, 0, 0};
++
++		for (i = 0; i < 4; i++) {
++			cam_id = rtw_camid_search(padapter, null_addr, i, -1);
++			if (cam_id >= 0) {
++				clear_cam_entry(padapter, cam_id);
++				rtw_camid_free(padapter, cam_id);
++			}
++		}
++		/* clear default key related key search setting */
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_DK_CFG, (u8 *)_FALSE);
++#endif
++	}
++
++#else /*NON CONFIG_CONCURRENT_MODE*/
++
++	invalidate_cam_all(padapter);
++	/* clear default key related key search setting */
++	rtw_hal_set_hwreg(padapter, HW_VAR_SEC_DK_CFG, (u8 *)_FALSE);
++#endif
++}
++
++#if defined(CONFIG_P2P) && defined(CONFIG_WFD)
++void rtw_process_wfd_ie(_adapter *adapter, u8 *wfd_ie, u8 wfd_ielen, const char *tag)
++{
++	struct wifidirect_info *wdinfo = &adapter->wdinfo;
++
++	u8 *attr_content;
++	u32 attr_contentlen = 0;
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		return;
++
++	RTW_INFO("[%s] Found WFD IE\n", tag);
++	attr_content = rtw_get_wfd_attr_content(wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, NULL, &attr_contentlen);
++	if (attr_content && attr_contentlen) {
++		wdinfo->wfd_info->peer_rtsp_ctrlport = RTW_GET_BE16(attr_content + 2);
++		RTW_INFO("[%s] Peer PORT NUM = %d\n", tag, wdinfo->wfd_info->peer_rtsp_ctrlport);
++	}
++}
++
++void rtw_process_wfd_ies(_adapter *adapter, u8 *ies, u8 ies_len, const char *tag)
++{
++	u8 *wfd_ie;
++	u32	wfd_ielen;
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		return;
++
++	wfd_ie = rtw_get_wfd_ie(ies, ies_len, NULL, &wfd_ielen);
++	while (wfd_ie) {
++		rtw_process_wfd_ie(adapter, wfd_ie, wfd_ielen, tag);
++		wfd_ie = rtw_get_wfd_ie(wfd_ie + wfd_ielen, (ies + ies_len) - (wfd_ie + wfd_ielen), NULL, &wfd_ielen);
++	}
++}
++#endif /* defined(CONFIG_P2P) && defined(CONFIG_WFD) */
++
++int WMM_param_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs	pIE)
++{
++	/* struct registry_priv	*pregpriv = &padapter->registrypriv; */
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (pmlmepriv->qospriv.qos_option == 0) {
++		pmlmeinfo->WMM_enable = 0;
++		return _FALSE;
++	}
++
++	if (_rtw_memcmp(&(pmlmeinfo->WMM_param), (pIE->data + 6), sizeof(struct WMM_para_element)))
++		return _FALSE;
++	else
++		_rtw_memcpy(&(pmlmeinfo->WMM_param), (pIE->data + 6), sizeof(struct WMM_para_element));
++	pmlmeinfo->WMM_enable = 1;
++	return _TRUE;
++
++#if 0
++	if (pregpriv->wifi_spec == 1) {
++		if (pmlmeinfo->WMM_enable == 1) {
++			/* todo: compare the parameter set count & decide wheher to update or not */
++			return _FAIL;
++		} else {
++			pmlmeinfo->WMM_enable = 1;
++			_rtw_rtw_memcpy(&(pmlmeinfo->WMM_param), (pIE->data + 6), sizeof(struct WMM_para_element));
++			return _TRUE;
++		}
++	} else {
++		pmlmeinfo->WMM_enable = 0;
++		return _FAIL;
++	}
++#endif
++
++}
++
++void WMMOnAssocRsp(_adapter *padapter)
++{
++	u8	ACI, ACM, AIFS, ECWMin, ECWMax, aSifsTime;
++	u8	acm_mask;
++	u16	TXOP;
++	u32	acParm, i;
++	u32	edca[4], inx[4];
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct xmit_priv		*pxmitpriv = &padapter->xmitpriv;
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++
++	acm_mask = 0;
++
++	if (IsSupported5G(pmlmeext->cur_wireless_mode) ||
++	    (pmlmeext->cur_wireless_mode & WIRELESS_11_24N))
++		aSifsTime = 16;
++	else
++		aSifsTime = 10;
++
++	if (pmlmeinfo->WMM_enable == 0) {
++		padapter->mlmepriv.acm_mask = 0;
++
++		AIFS = aSifsTime + (2 * pmlmeinfo->slotTime);
++
++		if (pmlmeext->cur_wireless_mode & (WIRELESS_11G | WIRELESS_11A)) {
++			ECWMin = 4;
++			ECWMax = 10;
++		} else if (pmlmeext->cur_wireless_mode & WIRELESS_11B) {
++			ECWMin = 5;
++			ECWMax = 10;
++		} else {
++			ECWMin = 4;
++			ECWMax = 10;
++		}
++
++		TXOP = 0;
++		acParm = AIFS | (ECWMin << 8) | (ECWMax << 12) | (TXOP << 16);
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acParm));
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BK, (u8 *)(&acParm));
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VI, (u8 *)(&acParm));
++
++		ECWMin = 2;
++		ECWMax = 3;
++		TXOP = 0x2f;
++		acParm = AIFS | (ECWMin << 8) | (ECWMax << 12) | (TXOP << 16);
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VO, (u8 *)(&acParm));
++	} else {
++		edca[0] = edca[1] = edca[2] = edca[3] = 0;
++
++		for (i = 0; i < 4; i++) {
++			ACI = (pmlmeinfo->WMM_param.ac_param[i].ACI_AIFSN >> 5) & 0x03;
++			ACM = (pmlmeinfo->WMM_param.ac_param[i].ACI_AIFSN >> 4) & 0x01;
++
++			/* AIFS = AIFSN * slot time + SIFS - r2t phy delay */
++			AIFS = (pmlmeinfo->WMM_param.ac_param[i].ACI_AIFSN & 0x0f) * pmlmeinfo->slotTime + aSifsTime;
++
++			ECWMin = (pmlmeinfo->WMM_param.ac_param[i].CW & 0x0f);
++			ECWMax = (pmlmeinfo->WMM_param.ac_param[i].CW & 0xf0) >> 4;
++			TXOP = le16_to_cpu(pmlmeinfo->WMM_param.ac_param[i].TXOP_limit);
++
++			acParm = AIFS | (ECWMin << 8) | (ECWMax << 12) | (TXOP << 16);
++
++			switch (ACI) {
++			case 0x0:
++				rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acParm));
++				acm_mask |= (ACM ? BIT(1) : 0);
++				edca[XMIT_BE_QUEUE] = acParm;
++				break;
++
++			case 0x1:
++				rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BK, (u8 *)(&acParm));
++				/* acm_mask |= (ACM? BIT(0):0); */
++				edca[XMIT_BK_QUEUE] = acParm;
++				break;
++
++			case 0x2:
++				rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VI, (u8 *)(&acParm));
++				acm_mask |= (ACM ? BIT(2) : 0);
++				edca[XMIT_VI_QUEUE] = acParm;
++				break;
++
++			case 0x3:
++				rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VO, (u8 *)(&acParm));
++				acm_mask |= (ACM ? BIT(3) : 0);
++				edca[XMIT_VO_QUEUE] = acParm;
++				break;
++			}
++
++			RTW_INFO("WMM(%x): %x, %x\n", ACI, ACM, acParm);
++		}
++
++		if (padapter->registrypriv.acm_method == 1)
++			rtw_hal_set_hwreg(padapter, HW_VAR_ACM_CTRL, (u8 *)(&acm_mask));
++		else
++			padapter->mlmepriv.acm_mask = acm_mask;
++
++		inx[0] = 0;
++		inx[1] = 1;
++		inx[2] = 2;
++		inx[3] = 3;
++
++		if (pregpriv->wifi_spec == 1) {
++			u32	j, tmp, change_inx = _FALSE;
++
++			/* entry indx: 0->vo, 1->vi, 2->be, 3->bk. */
++			for (i = 0; i < 4; i++) {
++				for (j = i + 1; j < 4; j++) {
++					/* compare CW and AIFS */
++					if ((edca[j] & 0xFFFF) < (edca[i] & 0xFFFF))
++						change_inx = _TRUE;
++					else if ((edca[j] & 0xFFFF) == (edca[i] & 0xFFFF)) {
++						/* compare TXOP */
++						if ((edca[j] >> 16) > (edca[i] >> 16))
++							change_inx = _TRUE;
++					}
++
++					if (change_inx) {
++						tmp = edca[i];
++						edca[i] = edca[j];
++						edca[j] = tmp;
++
++						tmp = inx[i];
++						inx[i] = inx[j];
++						inx[j] = tmp;
++
++						change_inx = _FALSE;
++					}
++				}
++			}
++		}
++
++		for (i = 0; i < 4; i++) {
++			pxmitpriv->wmm_para_seq[i] = inx[i];
++			RTW_INFO("wmm_para_seq(%d): %d\n", i, pxmitpriv->wmm_para_seq[i]);
++		}
++	}
++}
++
++static void bwmode_update_check(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE)
++{
++#ifdef CONFIG_80211N_HT
++	unsigned char	 new_bwmode;
++	unsigned char  new_ch_offset;
++	struct HT_info_element	*pHT_info;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	struct ht_priv			*phtpriv = &pmlmepriv->htpriv;
++	u8	cbw40_enable = 0;
++
++	if (!pIE)
++		return;
++
++	if (phtpriv->ht_option == _FALSE)
++		return;
++
++	if (pmlmeext->cur_bwmode >= CHANNEL_WIDTH_80)
++		return;
++
++	if (pIE->Length > sizeof(struct HT_info_element))
++		return;
++
++	pHT_info = (struct HT_info_element *)pIE->data;
++
++	if (hal_chk_bw_cap(padapter, BW_CAP_40M)) {
++		if (pmlmeext->cur_channel > 14) {
++			if (REGSTY_IS_BW_5G_SUPPORT(pregistrypriv, CHANNEL_WIDTH_40))
++				cbw40_enable = 1;
++		} else {
++			if (REGSTY_IS_BW_2G_SUPPORT(pregistrypriv, CHANNEL_WIDTH_40))
++				cbw40_enable = 1;
++		}
++	}
++
++	if ((pHT_info->infos[0] & BIT(2)) && cbw40_enable) {
++		new_bwmode = CHANNEL_WIDTH_40;
++
++		switch (pHT_info->infos[0] & 0x3) {
++		case 1:
++			new_ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++			break;
++
++		case 3:
++			new_ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++			break;
++
++		default:
++			new_bwmode = CHANNEL_WIDTH_20;
++			new_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++			break;
++		}
++	} else {
++		new_bwmode = CHANNEL_WIDTH_20;
++		new_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	}
++
++
++	if ((new_bwmode != pmlmeext->cur_bwmode || new_ch_offset != pmlmeext->cur_ch_offset)
++	    && new_bwmode < pmlmeext->cur_bwmode
++	   ) {
++		pmlmeinfo->bwmode_updated = _TRUE;
++
++		pmlmeext->cur_bwmode = new_bwmode;
++		pmlmeext->cur_ch_offset = new_ch_offset;
++
++		/* update HT info also */
++		HT_info_handler(padapter, pIE);
++	} else
++		pmlmeinfo->bwmode_updated = _FALSE;
++
++
++	if (_TRUE == pmlmeinfo->bwmode_updated) {
++		struct sta_info *psta;
++		WLAN_BSSID_EX	*cur_network = &(pmlmeinfo->network);
++		struct sta_priv	*pstapriv = &padapter->stapriv;
++
++		/* set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode); */
++
++
++		/* update ap's stainfo */
++		psta = rtw_get_stainfo(pstapriv, cur_network->MacAddress);
++		if (psta) {
++			struct ht_priv	*phtpriv_sta = &psta->htpriv;
++
++			if (phtpriv_sta->ht_option) {
++				/* bwmode				 */
++				psta->bw_mode = pmlmeext->cur_bwmode;
++				phtpriv_sta->ch_offset = pmlmeext->cur_ch_offset;
++			} else {
++				psta->bw_mode = CHANNEL_WIDTH_20;
++				phtpriv_sta->ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++			}
++
++			rtw_dm_ra_mask_wk_cmd(padapter, (u8 *)psta);
++		}
++
++		/* pmlmeinfo->bwmode_updated = _FALSE; */ /* bwmode_updated done, reset it! */
++	}
++#endif /* CONFIG_80211N_HT */
++}
++
++void HT_caps_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE)
++{
++#ifdef CONFIG_80211N_HT
++	unsigned int	i;
++	u8	rf_type = RF_1T1R;
++	u8	max_AMPDU_len, min_MPDU_spacing;
++	u8	cur_ldpc_cap = 0, cur_stbc_cap = 0, cur_beamform_cap = 0;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct ht_priv			*phtpriv = &pmlmepriv->htpriv;
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++
++	if (pIE == NULL)
++		return;
++
++	if (phtpriv->ht_option == _FALSE)
++		return;
++
++	pmlmeinfo->HT_caps_enable = 1;
++
++	for (i = 0; i < (pIE->Length); i++) {
++		if (i != 2) {
++			/*	Commented by Albert 2010/07/12 */
++			/*	Got the endian issue here. */
++			pmlmeinfo->HT_caps.u.HT_cap[i] &= (pIE->data[i]);
++		} else {
++			/* AMPDU Parameters field */
++
++			/* Get MIN of MAX AMPDU Length Exp */
++			if ((pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x3) > (pIE->data[i] & 0x3))
++				max_AMPDU_len = (pIE->data[i] & 0x3);
++			else
++				max_AMPDU_len = (pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x3);
++
++			/* Get MAX of MIN MPDU Start Spacing */
++			if ((pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x1c) > (pIE->data[i] & 0x1c))
++				min_MPDU_spacing = (pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x1c);
++			else
++				min_MPDU_spacing = (pIE->data[i] & 0x1c);
++
++			pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para = max_AMPDU_len | min_MPDU_spacing;
++		}
++	}
++
++	/*	Commented by Albert 2010/07/12 */
++	/*	Have to handle the endian issue after copying. */
++	/*	HT_ext_caps didn't be used yet.	 */
++	pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info = le16_to_cpu(pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info);
++	pmlmeinfo->HT_caps.u.HT_cap_element.HT_ext_caps = le16_to_cpu(pmlmeinfo->HT_caps.u.HT_cap_element.HT_ext_caps);
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++
++	/* update the MCS set */
++	for (i = 0; i < 16; i++)
++		pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate[i] &= pmlmeext->default_supported_mcs_set[i];
++
++	/* update the MCS rates */
++	switch (rf_type) {
++	case RF_1T1R:
++	case RF_1T2R:
++		set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_1R);
++		break;
++	case RF_2T2R:
++#ifdef CONFIG_DISABLE_MCS13TO15
++		if (pmlmeext->cur_bwmode == CHANNEL_WIDTH_40 && pregistrypriv->wifi_spec != 1)
++			set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_2R_13TO15_OFF);
++		else
++			set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_2R);
++#else /* CONFIG_DISABLE_MCS13TO15 */
++		set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_2R);
++#endif /* CONFIG_DISABLE_MCS13TO15 */
++		break;
++	case RF_3T3R:
++		set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_3R);
++		break;
++	default:
++		RTW_INFO("[warning] rf_type %d is not expected\n", rf_type);
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++		/* Config STBC setting */
++		if (TEST_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_TX) && GET_HT_CAP_ELE_TX_STBC(pIE->data)) {
++			SET_FLAG(cur_stbc_cap, STBC_HT_ENABLE_TX);
++			RTW_INFO("Enable HT Tx STBC !\n");
++		}
++		phtpriv->stbc_cap = cur_stbc_cap;
++
++#ifdef CONFIG_BEAMFORMING
++		/* Config Tx beamforming setting */
++		if (TEST_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE) &&
++		    GET_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP(pIE->data)) {
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE);
++			/* Shift to BEAMFORMING_HT_BEAMFORMEE_CHNL_EST_CAP*/
++			SET_FLAG(cur_beamform_cap, GET_HT_CAP_TXBF_CHNL_ESTIMATION_NUM_ANTENNAS(pIE->data) << 6);
++		}
++
++		if (TEST_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE) &&
++		    GET_HT_CAP_TXBF_EXPLICIT_COMP_FEEDBACK_CAP(pIE->data)) {
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE);
++			/* Shift to BEAMFORMING_HT_BEAMFORMER_STEER_NUM*/
++			SET_FLAG(cur_beamform_cap, GET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS(pIE->data) << 4);
++		}
++		phtpriv->beamform_cap = cur_beamform_cap;
++		if (cur_beamform_cap)
++			RTW_INFO("AP HT Beamforming Cap = 0x%02X\n", cur_beamform_cap);
++#endif /*CONFIG_BEAMFORMING*/
++	} else {
++		/*WIFI_STATION_STATEorI_ADHOC_STATE or WIFI_ADHOC_MASTER_STATE*/
++		/* Config LDPC Coding Capability */
++		if (TEST_FLAG(phtpriv->ldpc_cap, LDPC_HT_ENABLE_TX) && GET_HT_CAP_ELE_LDPC_CAP(pIE->data)) {
++			SET_FLAG(cur_ldpc_cap, (LDPC_HT_ENABLE_TX | LDPC_HT_CAP_TX));
++			RTW_INFO("Enable HT Tx LDPC!\n");
++		}
++		phtpriv->ldpc_cap = cur_ldpc_cap;
++
++		/* Config STBC setting */
++		if (TEST_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_TX) && GET_HT_CAP_ELE_RX_STBC(pIE->data)) {
++			SET_FLAG(cur_stbc_cap, (STBC_HT_ENABLE_TX | STBC_HT_CAP_TX));
++			RTW_INFO("Enable HT Tx STBC!\n");
++		}
++		phtpriv->stbc_cap = cur_stbc_cap;
++
++#ifdef CONFIG_BEAMFORMING
++		/* Config Tx beamforming setting */
++		if (TEST_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE) &&
++		    GET_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP(pIE->data)) {
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE);
++			/* Shift to BEAMFORMING_HT_BEAMFORMEE_CHNL_EST_CAP*/
++			SET_FLAG(cur_beamform_cap, GET_HT_CAP_TXBF_CHNL_ESTIMATION_NUM_ANTENNAS(pIE->data) << 6);
++		}
++
++		if (TEST_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE) &&
++		    GET_HT_CAP_TXBF_EXPLICIT_COMP_FEEDBACK_CAP(pIE->data)) {
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE);
++			/* Shift to BEAMFORMING_HT_BEAMFORMER_STEER_NUM*/
++			SET_FLAG(cur_beamform_cap, GET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS(pIE->data) << 4);
++		}
++		phtpriv->beamform_cap = cur_beamform_cap;
++		if (cur_beamform_cap)
++			RTW_INFO("Client HT Beamforming Cap = 0x%02X\n", cur_beamform_cap);
++#endif /*CONFIG_BEAMFORMING*/
++	}
++
++#endif /* CONFIG_80211N_HT */
++}
++
++void HT_info_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE)
++{
++#ifdef CONFIG_80211N_HT
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct ht_priv			*phtpriv = &pmlmepriv->htpriv;
++
++	if (pIE == NULL)
++		return;
++
++	if (phtpriv->ht_option == _FALSE)
++		return;
++
++
++	if (pIE->Length > sizeof(struct HT_info_element))
++		return;
++
++	pmlmeinfo->HT_info_enable = 1;
++	_rtw_memcpy(&(pmlmeinfo->HT_info), pIE->data, pIE->Length);
++#endif /* CONFIG_80211N_HT */
++	return;
++}
++
++void HTOnAssocRsp(_adapter *padapter)
++{
++	unsigned char		max_AMPDU_len;
++	unsigned char		min_MPDU_spacing;
++	/* struct registry_priv	 *pregpriv = &padapter->registrypriv; */
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	if ((pmlmeinfo->HT_info_enable) && (pmlmeinfo->HT_caps_enable))
++		pmlmeinfo->HT_enable = 1;
++	else {
++		pmlmeinfo->HT_enable = 0;
++		/* set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode); */
++		return;
++	}
++
++	/* handle A-MPDU parameter field */
++	/*
++		AMPDU_para [1:0]:Max AMPDU Len => 0:8k , 1:16k, 2:32k, 3:64k
++		AMPDU_para [4:2]:Min MPDU Start Spacing
++	*/
++	max_AMPDU_len = pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x03;
++
++	min_MPDU_spacing = (pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x1c) >> 2;
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_AMPDU_MIN_SPACE, (u8 *)(&min_MPDU_spacing));
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_AMPDU_FACTOR, (u8 *)(&max_AMPDU_len));
++
++#if 0 /* move to rtw_update_ht_cap() */
++	if ((pregpriv->bw_mode > 0) &&
++	    (pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info & BIT(1)) &&
++	    (pmlmeinfo->HT_info.infos[0] & BIT(2))) {
++		/* switch to the 40M Hz mode accoring to the AP */
++		pmlmeext->cur_bwmode = CHANNEL_WIDTH_40;
++		switch ((pmlmeinfo->HT_info.infos[0] & 0x3)) {
++		case EXTCHNL_OFFSET_UPPER:
++			pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++			break;
++
++		case EXTCHNL_OFFSET_LOWER:
++			pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++			break;
++
++		default:
++			pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++			break;
++		}
++	}
++#endif
++
++	/* set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode); */
++
++#if 0 /* move to rtw_update_ht_cap() */
++	/*  */
++	/* Config SM Power Save setting */
++	/*  */
++	pmlmeinfo->SM_PS = (pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info & 0x0C) >> 2;
++	if (pmlmeinfo->SM_PS == WLAN_HT_CAP_SM_PS_STATIC) {
++#if 0
++		u8 i;
++		/* update the MCS rates */
++		for (i = 0; i < 16; i++)
++			pmlmeinfo->HT_caps.HT_cap_element.MCS_rate[i] &= MCS_rate_1R[i];
++#endif
++		RTW_INFO("%s(): WLAN_HT_CAP_SM_PS_STATIC\n", __FUNCTION__);
++	}
++
++	/*  */
++	/* Config current HT Protection mode. */
++	/*  */
++	pmlmeinfo->HT_protection = pmlmeinfo->HT_info.infos[1] & 0x3;
++#endif
++
++}
++
++void ERP_IE_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (pIE->Length > 1)
++		return;
++
++	pmlmeinfo->ERP_enable = 1;
++	_rtw_memcpy(&(pmlmeinfo->ERP_IE), pIE->data, pIE->Length);
++}
++
++void VCS_update(_adapter *padapter, struct sta_info *psta)
++{
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	switch (pregpriv->vrtl_carrier_sense) { /* 0:off 1:on 2:auto */
++	case 0: /* off */
++		psta->rtsen = 0;
++		psta->cts2self = 0;
++		break;
++
++	case 1: /* on */
++		if (pregpriv->vcs_type == 1) { /* 1:RTS/CTS 2:CTS to self */
++			psta->rtsen = 1;
++			psta->cts2self = 0;
++		} else {
++			psta->rtsen = 0;
++			psta->cts2self = 1;
++		}
++		break;
++
++	case 2: /* auto */
++	default:
++		if (((pmlmeinfo->ERP_enable) && (pmlmeinfo->ERP_IE & BIT(1)))
++			/*||(pmlmepriv->ht_op_mode & HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT)*/
++		) {
++			if (pregpriv->vcs_type == 1) {
++				psta->rtsen = 1;
++				psta->cts2self = 0;
++			} else {
++				psta->rtsen = 0;
++				psta->cts2self = 1;
++			}
++		} else {
++			psta->rtsen = 0;
++			psta->cts2self = 0;
++		}
++		break;
++	}
++}
++
++void	update_ldpc_stbc_cap(struct sta_info *psta)
++{
++#ifdef CONFIG_80211N_HT
++
++#ifdef CONFIG_80211AC_VHT
++	if (psta->vhtpriv.vht_option) {
++		if (TEST_FLAG(psta->vhtpriv.ldpc_cap, LDPC_VHT_ENABLE_TX))
++			psta->ldpc = 1;
++
++		if (TEST_FLAG(psta->vhtpriv.stbc_cap, STBC_VHT_ENABLE_TX))
++			psta->stbc = 1;
++	} else
++#endif /* CONFIG_80211AC_VHT */
++		if (psta->htpriv.ht_option) {
++			if (TEST_FLAG(psta->htpriv.ldpc_cap, LDPC_HT_ENABLE_TX))
++				psta->ldpc = 1;
++
++			if (TEST_FLAG(psta->htpriv.stbc_cap, STBC_HT_ENABLE_TX))
++				psta->stbc = 1;
++		} else {
++			psta->ldpc = 0;
++			psta->stbc = 0;
++		}
++
++#endif /* CONFIG_80211N_HT */
++}
++
++
++/*
++ * rtw_get_bcn_keys: get beacon keys from recv frame
++ *
++ * TODO:
++ *	WLAN_EID_COUNTRY
++ *	WLAN_EID_ERP_INFO
++ *	WLAN_EID_CHANNEL_SWITCH
++ *	WLAN_EID_PWR_CONSTRAINT
++ */
++int rtw_get_bcn_keys(ADAPTER *Adapter, u8 *pframe, u32 packet_len,
++		     struct beacon_keys *recv_beacon)
++{
++	int left;
++	u16 capability;
++	unsigned char *pos;
++	struct rtw_ieee802_11_elems elems;
++	struct rtw_ieee80211_ht_cap *pht_cap = NULL;
++	struct HT_info_element *pht_info = NULL;
++
++	_rtw_memset(recv_beacon, 0, sizeof(*recv_beacon));
++
++	/* checking capabilities */
++	capability = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN + 10));
++
++	/* checking IEs */
++	left = packet_len - sizeof(struct rtw_ieee80211_hdr_3addr) - _BEACON_IE_OFFSET_;
++	pos = pframe + sizeof(struct rtw_ieee80211_hdr_3addr) + _BEACON_IE_OFFSET_;
++	if (rtw_ieee802_11_parse_elems(pos, left, &elems, 1) == ParseFailed)
++		return _FALSE;
++
++	/* check bw and channel offset */
++	if (elems.ht_capabilities) {
++		if (elems.ht_capabilities_len != sizeof(*pht_cap))
++			return _FALSE;
++
++		pht_cap = (struct rtw_ieee80211_ht_cap *) elems.ht_capabilities;
++		recv_beacon->ht_cap_info = pht_cap->cap_info;
++	}
++
++	if (elems.ht_operation) {
++		if (elems.ht_operation_len != sizeof(*pht_info))
++			return _FALSE;
++
++		pht_info = (struct HT_info_element *) elems.ht_operation;
++		recv_beacon->ht_info_infos_0_sco = pht_info->infos[0] & 0x03;
++	}
++
++	/* Checking for channel */
++	if (elems.ds_params && elems.ds_params_len == sizeof(recv_beacon->bcn_channel))
++		_rtw_memcpy(&recv_beacon->bcn_channel, elems.ds_params,
++			    sizeof(recv_beacon->bcn_channel));
++	else if (pht_info)
++		/* In 5G, some ap do not have DSSET IE checking HT info for channel */
++		recv_beacon->bcn_channel = pht_info->primary_channel;
++	else {
++		/* we don't find channel IE, so don't check it */
++		/* RTW_INFO("Oops: %s we don't find channel IE, so don't check it\n", __func__); */
++		recv_beacon->bcn_channel = Adapter->mlmeextpriv.cur_channel;
++	}
++
++	/* checking SSID */
++	if (elems.ssid) {
++		if (elems.ssid_len > sizeof(recv_beacon->ssid))
++			return _FALSE;
++
++		_rtw_memcpy(recv_beacon->ssid, elems.ssid, elems.ssid_len);
++		recv_beacon->ssid_len = elems.ssid_len;
++	} else
++		; /* means hidden ssid */
++
++	/* checking RSN first */
++	if (elems.rsn_ie && elems.rsn_ie_len) {
++		recv_beacon->encryp_protocol = ENCRYP_PROTOCOL_WPA2;
++		rtw_parse_wpa2_ie(elems.rsn_ie - 2, elems.rsn_ie_len + 2,
++			&recv_beacon->group_cipher, &recv_beacon->pairwise_cipher,
++				  &recv_beacon->is_8021x);
++	}
++	/* checking WPA secon */
++	else if (elems.wpa_ie && elems.wpa_ie_len) {
++		recv_beacon->encryp_protocol = ENCRYP_PROTOCOL_WPA;
++		rtw_parse_wpa_ie(elems.wpa_ie - 2, elems.wpa_ie_len + 2,
++			&recv_beacon->group_cipher, &recv_beacon->pairwise_cipher,
++				 &recv_beacon->is_8021x);
++	} else if (capability & BIT(4))
++		recv_beacon->encryp_protocol = ENCRYP_PROTOCOL_WEP;
++
++	return _TRUE;
++}
++
++void rtw_dump_bcn_keys(struct beacon_keys *recv_beacon)
++{
++	int i;
++	char *p;
++	u8 ssid[IW_ESSID_MAX_SIZE + 1];
++
++	_rtw_memcpy(ssid, recv_beacon->ssid, recv_beacon->ssid_len);
++	ssid[recv_beacon->ssid_len] = '\0';
++
++	RTW_INFO("%s: ssid = %s\n", __func__, ssid);
++	RTW_INFO("%s: channel = %x\n", __func__, recv_beacon->bcn_channel);
++	RTW_INFO("%s: ht_cap = %x\n", __func__,	recv_beacon->ht_cap_info);
++	RTW_INFO("%s: ht_info_infos_0_sco = %x\n", __func__, recv_beacon->ht_info_infos_0_sco);
++	RTW_INFO("%s: sec=%d, group = %x, pair = %x, 8021X = %x\n", __func__,
++		 recv_beacon->encryp_protocol, recv_beacon->group_cipher,
++		 recv_beacon->pairwise_cipher, recv_beacon->is_8021x);
++}
++
++int rtw_check_bcn_info(ADAPTER *Adapter, u8 *pframe, u32 packet_len)
++{
++#if 0
++	unsigned int		len;
++	unsigned char		*p;
++	unsigned short	val16, subtype;
++	struct wlan_network *cur_network = &(Adapter->mlmepriv.cur_network);
++	/* u8 wpa_ie[255],rsn_ie[255]; */
++	u16 wpa_len = 0, rsn_len = 0;
++	u8 encryp_protocol = 0;
++	WLAN_BSSID_EX *bssid;
++	int group_cipher = 0, pairwise_cipher = 0, is_8021x = 0;
++	unsigned char *pbuf;
++	u32 wpa_ielen = 0;
++	u8 *pbssid = GetAddr3Ptr(pframe);
++	u32 hidden_ssid = 0;
++	u8 cur_network_type, network_type = 0;
++	struct HT_info_element *pht_info = NULL;
++	struct rtw_ieee80211_ht_cap *pht_cap = NULL;
++	u32 bcn_channel;
++	unsigned short	ht_cap_info;
++	unsigned char	ht_info_infos_0;
++#endif
++	unsigned int len;
++	u8 *pbssid = GetAddr3Ptr(pframe);
++	struct mlme_priv *pmlmepriv = &Adapter->mlmepriv;
++	struct wlan_network *cur_network = &(Adapter->mlmepriv.cur_network);
++	struct beacon_keys recv_beacon;
++
++	if (is_client_associated_to_ap(Adapter) == _FALSE)
++		return _TRUE;
++
++	len = packet_len - sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	if (len > MAX_IE_SZ) {
++		RTW_INFO("%s IE too long for survey event\n", __func__);
++		return _FAIL;
++	}
++
++	if (_rtw_memcmp(cur_network->network.MacAddress, pbssid, 6) == _FALSE) {
++		RTW_INFO("Oops: rtw_check_network_encrypt linked but recv other bssid bcn\n" MAC_FMT MAC_FMT,
++			MAC_ARG(pbssid), MAC_ARG(cur_network->network.MacAddress));
++		return _TRUE;
++	}
++
++	if (rtw_get_bcn_keys(Adapter, pframe, packet_len, &recv_beacon) == _FALSE)
++		return _TRUE; /* parsing failed => broken IE */
++
++	/* don't care hidden ssid, use current beacon ssid directly */
++	if (recv_beacon.ssid_len == 0) {
++		_rtw_memcpy(recv_beacon.ssid, pmlmepriv->cur_beacon_keys.ssid,
++			    pmlmepriv->cur_beacon_keys.ssid_len);
++		recv_beacon.ssid_len = pmlmepriv->cur_beacon_keys.ssid_len;
++	}
++
++	if (_rtw_memcmp(&recv_beacon, &pmlmepriv->cur_beacon_keys, sizeof(recv_beacon)) == _TRUE)
++		pmlmepriv->new_beacon_cnts = 0;
++	else if ((pmlmepriv->new_beacon_cnts == 0) ||
++		_rtw_memcmp(&recv_beacon, &pmlmepriv->new_beacon_keys, sizeof(recv_beacon)) == _FALSE) {
++		RTW_ERR("%s: start new beacon (seq=%d)\n", __func__, GetSequence(pframe));
++
++		if (pmlmepriv->new_beacon_cnts == 0) {
++			RTW_ERR("%s: cur beacon key\n", __func__);
++			RTW_DBG_EXPR(rtw_dump_bcn_keys(&pmlmepriv->cur_beacon_keys));
++		}
++
++		RTW_ERR("%s: new beacon key\n", __func__);
++		RTW_DBG_EXPR(rtw_dump_bcn_keys(&recv_beacon));
++
++		memcpy(&pmlmepriv->new_beacon_keys, &recv_beacon, sizeof(recv_beacon));
++		pmlmepriv->new_beacon_cnts = 1;
++	} else {
++		RTW_ERR("%s: new beacon again (seq=%d)\n", __func__, GetSequence(pframe));
++		pmlmepriv->new_beacon_cnts++;
++	}
++
++	/* if counter >= max, it means beacon is changed really */
++	if (pmlmepriv->new_beacon_cnts >= new_bcn_max) {
++		RTW_ERR("%s: new beacon occur!!\n", __func__);
++
++		/* check bw mode change only? */
++		pmlmepriv->cur_beacon_keys.ht_cap_info = recv_beacon.ht_cap_info;
++		pmlmepriv->cur_beacon_keys.ht_info_infos_0_sco = recv_beacon.ht_info_infos_0_sco;
++
++		if (_rtw_memcmp(&recv_beacon, &pmlmepriv->cur_beacon_keys,
++				sizeof(recv_beacon)) == _FALSE) {
++			/* beacon is changed, have to do disconnect/connect */
++			return _FAIL;
++		}
++
++		RTW_INFO("%s bw mode change\n", __func__);
++		RTW_INFO("%s bcn now: ht_cap_info:%x ht_info_infos_0:%x\n", __func__,
++			 cur_network->BcnInfo.ht_cap_info,
++			 cur_network->BcnInfo.ht_info_infos_0);
++
++		cur_network->BcnInfo.ht_cap_info = recv_beacon.ht_cap_info;
++		cur_network->BcnInfo.ht_info_infos_0 =
++			(cur_network->BcnInfo.ht_info_infos_0 & (~0x03)) |
++			recv_beacon.ht_info_infos_0_sco;
++
++		RTW_INFO("%s bcn link: ht_cap_info:%x ht_info_infos_0:%x\n", __func__,
++			 cur_network->BcnInfo.ht_cap_info,
++			 cur_network->BcnInfo.ht_info_infos_0);
++
++		memcpy(&pmlmepriv->cur_beacon_keys, &recv_beacon, sizeof(recv_beacon));
++		pmlmepriv->new_beacon_cnts = 0;
++	}
++
++	return _SUCCESS;
++
++#if 0
++	bssid = (WLAN_BSSID_EX *)rtw_zmalloc(sizeof(WLAN_BSSID_EX));
++	if (bssid == NULL) {
++		RTW_INFO("%s rtw_zmalloc fail !!!\n", __func__);
++		return _TRUE;
++	}
++
++	if ((pmlmepriv->timeBcnInfoChkStart != 0) && (rtw_get_passing_time_ms(pmlmepriv->timeBcnInfoChkStart) > DISCONNECT_BY_CHK_BCN_FAIL_OBSERV_PERIOD_IN_MS)) {
++		pmlmepriv->timeBcnInfoChkStart = 0;
++		pmlmepriv->NumOfBcnInfoChkFail = 0;
++	}
++
++	subtype = GetFrameSubType(pframe) >> 4;
++
++	if (subtype == WIFI_BEACON)
++		bssid->Reserved[0] = 1;
++
++	bssid->Length = sizeof(WLAN_BSSID_EX) - MAX_IE_SZ + len;
++
++	/* below is to copy the information element */
++	bssid->IELength = len;
++	_rtw_memcpy(bssid->IEs, (pframe + sizeof(struct rtw_ieee80211_hdr_3addr)), bssid->IELength);
++
++	/* check bw and channel offset */
++	/* parsing HT_CAP_IE */
++	p = rtw_get_ie(bssid->IEs + _FIXED_IE_LENGTH_, _HT_CAPABILITY_IE_, &len, bssid->IELength - _FIXED_IE_LENGTH_);
++	if (p && len > 0) {
++		pht_cap = (struct rtw_ieee80211_ht_cap *)(p + 2);
++		ht_cap_info = pht_cap->cap_info;
++	} else
++		ht_cap_info = 0;
++	/* parsing HT_INFO_IE */
++	p = rtw_get_ie(bssid->IEs + _FIXED_IE_LENGTH_, _HT_ADD_INFO_IE_, &len, bssid->IELength - _FIXED_IE_LENGTH_);
++	if (p && len > 0) {
++		pht_info = (struct HT_info_element *)(p + 2);
++		ht_info_infos_0 = pht_info->infos[0];
++	} else
++		ht_info_infos_0 = 0;
++	if (ht_cap_info != cur_network->BcnInfo.ht_cap_info ||
++	    ((ht_info_infos_0 & 0x03) != (cur_network->BcnInfo.ht_info_infos_0 & 0x03))) {
++		RTW_INFO("%s bcn now: ht_cap_info:%x ht_info_infos_0:%x\n", __func__,
++			 ht_cap_info, ht_info_infos_0);
++		RTW_INFO("%s bcn link: ht_cap_info:%x ht_info_infos_0:%x\n", __func__,
++			cur_network->BcnInfo.ht_cap_info, cur_network->BcnInfo.ht_info_infos_0);
++		RTW_INFO("%s bw mode change\n", __func__);
++		{
++			/* bcn_info_update */
++			cur_network->BcnInfo.ht_cap_info = ht_cap_info;
++			cur_network->BcnInfo.ht_info_infos_0 = ht_info_infos_0;
++			/* to do : need to check that whether modify related register of BB or not */
++		}
++		/* goto _mismatch; */
++	}
++
++	/* Checking for channel */
++	p = rtw_get_ie(bssid->IEs + _FIXED_IE_LENGTH_, _DSSET_IE_, &len, bssid->IELength - _FIXED_IE_LENGTH_);
++	if (p)
++		bcn_channel = *(p + 2);
++	else {/* In 5G, some ap do not have DSSET IE checking HT info for channel */
++		rtw_get_ie(bssid->IEs + _FIXED_IE_LENGTH_, _HT_ADD_INFO_IE_, &len, bssid->IELength - _FIXED_IE_LENGTH_);
++		if (pht_info)
++			bcn_channel = pht_info->primary_channel;
++		else { /* we don't find channel IE, so don't check it */
++			/* RTW_INFO("Oops: %s we don't find channel IE, so don't check it\n", __func__); */
++			bcn_channel = Adapter->mlmeextpriv.cur_channel;
++		}
++	}
++	if (bcn_channel != Adapter->mlmeextpriv.cur_channel) {
++		RTW_INFO("%s beacon channel:%d cur channel:%d disconnect\n", __func__,
++			 bcn_channel, Adapter->mlmeextpriv.cur_channel);
++		goto _mismatch;
++	}
++
++	/* checking SSID */
++	p = rtw_get_ie(bssid->IEs + _FIXED_IE_LENGTH_, _SSID_IE_, &len, bssid->IELength - _FIXED_IE_LENGTH_);
++	if (p == NULL) {
++		RTW_INFO("%s marc: cannot find SSID for survey event\n", __func__);
++		hidden_ssid = _TRUE;
++	} else
++		hidden_ssid = _FALSE;
++
++	if ((NULL != p) && (_FALSE == hidden_ssid && (*(p + 1)))) {
++		_rtw_memcpy(bssid->Ssid.Ssid, (p + 2), *(p + 1));
++		bssid->Ssid.SsidLength = *(p + 1);
++	} else {
++		bssid->Ssid.SsidLength = 0;
++		bssid->Ssid.Ssid[0] = '\0';
++	}
++
++
++	if (_rtw_memcmp(bssid->Ssid.Ssid, cur_network->network.Ssid.Ssid, 32) == _FALSE ||
++	    bssid->Ssid.SsidLength != cur_network->network.Ssid.SsidLength) {
++		if (bssid->Ssid.Ssid[0] != '\0' && bssid->Ssid.SsidLength != 0) { /* not hidden ssid */
++			RTW_INFO("%s(), SSID is not match\n", __func__);
++			goto _mismatch;
++		}
++	}
++
++	/* check encryption info */
++	val16 = rtw_get_capability((WLAN_BSSID_EX *)bssid);
++
++	if (val16 & BIT(4))
++		bssid->Privacy = 1;
++	else
++		bssid->Privacy = 0;
++
++	if (cur_network->network.Privacy != bssid->Privacy) {
++		RTW_INFO("%s(), privacy is not match\n", __func__);
++		goto _mismatch;
++	}
++
++	rtw_get_sec_ie(bssid->IEs, bssid->IELength, NULL, &rsn_len, NULL, &wpa_len);
++
++	if (rsn_len > 0)
++		encryp_protocol = ENCRYP_PROTOCOL_WPA2;
++	else if (wpa_len > 0)
++		encryp_protocol = ENCRYP_PROTOCOL_WPA;
++	else {
++		if (bssid->Privacy)
++			encryp_protocol = ENCRYP_PROTOCOL_WEP;
++	}
++
++	if (cur_network->BcnInfo.encryp_protocol != encryp_protocol) {
++		RTW_INFO("%s(): enctyp is not match\n", __func__);
++		goto _mismatch;
++	}
++
++	if (encryp_protocol == ENCRYP_PROTOCOL_WPA || encryp_protocol == ENCRYP_PROTOCOL_WPA2) {
++		pbuf = rtw_get_wpa_ie(&bssid->IEs[12], &wpa_ielen, bssid->IELength - 12);
++		if (pbuf && (wpa_ielen > 0)) {
++			rtw_parse_wpa_ie(pbuf, wpa_ielen + 2, &group_cipher, &pairwise_cipher, &is_8021x);
++		} else {
++			pbuf = rtw_get_wpa2_ie(&bssid->IEs[12], &wpa_ielen, bssid->IELength - 12);
++
++			if (pbuf && (wpa_ielen > 0)) {
++				rtw_parse_wpa2_ie(pbuf, wpa_ielen + 2, &group_cipher, &pairwise_cipher, &is_8021x);
++			}
++		}
++
++		if (pairwise_cipher != cur_network->BcnInfo.pairwise_cipher || group_cipher != cur_network->BcnInfo.group_cipher) {
++			RTW_INFO("%s pairwise_cipher(%x:%x) or group_cipher(%x:%x) is not match\n", __func__,
++				pairwise_cipher, cur_network->BcnInfo.pairwise_cipher,
++				group_cipher, cur_network->BcnInfo.group_cipher);
++			goto _mismatch;
++		}
++
++		if (is_8021x != cur_network->BcnInfo.is_8021x) {
++			RTW_INFO("%s authentication is not match\n", __func__);
++			goto _mismatch;
++		}
++	}
++
++	rtw_mfree((u8 *)bssid, sizeof(WLAN_BSSID_EX));
++	return _SUCCESS;
++
++_mismatch:
++	rtw_mfree((u8 *)bssid, sizeof(WLAN_BSSID_EX));
++
++	if (pmlmepriv->NumOfBcnInfoChkFail == 0)
++		pmlmepriv->timeBcnInfoChkStart = rtw_get_current_time();
++
++	pmlmepriv->NumOfBcnInfoChkFail++;
++	RTW_INFO("%s by "ADPT_FMT" - NumOfChkFail = %d (SeqNum of this Beacon frame = %d).\n", __func__, ADPT_ARG(Adapter), pmlmepriv->NumOfBcnInfoChkFail, GetSequence(pframe));
++
++	if ((pmlmepriv->timeBcnInfoChkStart != 0) && (rtw_get_passing_time_ms(pmlmepriv->timeBcnInfoChkStart) <= DISCONNECT_BY_CHK_BCN_FAIL_OBSERV_PERIOD_IN_MS)
++	    && (pmlmepriv->NumOfBcnInfoChkFail >= DISCONNECT_BY_CHK_BCN_FAIL_THRESHOLD)) {
++		RTW_INFO("%s by "ADPT_FMT" - NumOfChkFail = %d >= threshold : %d (in %d ms), return FAIL.\n", __func__, ADPT_ARG(Adapter), pmlmepriv->NumOfBcnInfoChkFail,
++			DISCONNECT_BY_CHK_BCN_FAIL_THRESHOLD, rtw_get_passing_time_ms(pmlmepriv->timeBcnInfoChkStart));
++		pmlmepriv->timeBcnInfoChkStart = 0;
++		pmlmepriv->NumOfBcnInfoChkFail = 0;
++		return _FAIL;
++	}
++
++	return _SUCCESS;
++#endif
++}
++
++void update_beacon_info(_adapter *padapter, u8 *pframe, uint pkt_len, struct sta_info *psta)
++{
++	unsigned int i;
++	unsigned int len;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	u8 tdls_prohibited[] = { 0x00, 0x00, 0x00, 0x00, 0x10 }; /* bit(38): TDLS_prohibited */
++#endif /* CONFIG_TDLS */
++
++	len = pkt_len - (_BEACON_IE_OFFSET_ + WLAN_HDR_A3_LEN);
++
++	for (i = 0; i < len;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pframe + (_BEACON_IE_OFFSET_ + WLAN_HDR_A3_LEN) + i);
++
++		switch (pIE->ElementID) {
++		case _VENDOR_SPECIFIC_IE_:
++			/* to update WMM paramter set while receiving beacon */
++			if (_rtw_memcmp(pIE->data, WMM_PARA_OUI, 6) && pIE->Length == WLAN_WMM_LEN)	/* WMM */
++				(WMM_param_handler(padapter, pIE)) ? report_wmm_edca_update(padapter) : 0;
++
++			break;
++
++		case _HT_EXTRA_INFO_IE_:	/* HT info */
++			/* HT_info_handler(padapter, pIE); */
++			bwmode_update_check(padapter, pIE);
++			break;
++#ifdef CONFIG_80211AC_VHT
++		case EID_OpModeNotification:
++			rtw_process_vht_op_mode_notify(padapter, pIE->data, psta);
++			break;
++#endif /* CONFIG_80211AC_VHT */
++		case _ERPINFO_IE_:
++			ERP_IE_handler(padapter, pIE);
++			VCS_update(padapter, psta);
++			break;
++
++#ifdef CONFIG_TDLS
++		case _EXT_CAP_IE_:
++			if (check_ap_tdls_prohibited(pIE->data, pIE->Length) == _TRUE)
++				ptdlsinfo->ap_prohibited = _TRUE;
++			if (check_ap_tdls_ch_switching_prohibited(pIE->data, pIE->Length) == _TRUE)
++				ptdlsinfo->ch_switch_prohibited = _TRUE;
++			break;
++#endif /* CONFIG_TDLS */
++		default:
++			break;
++		}
++
++		i += (pIE->Length + 2);
++	}
++}
++
++#ifdef CONFIG_DFS
++void process_csa_ie(_adapter *padapter, u8 *pframe, uint pkt_len)
++{
++	unsigned int i;
++	unsigned int len;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 new_ch_no = 0;
++
++	if (padapter->mlmepriv.handle_dfs == _TRUE)
++		return;
++
++	len = pkt_len - (_BEACON_IE_OFFSET_ + WLAN_HDR_A3_LEN);
++
++	for (i = 0; i < len;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pframe + (_BEACON_IE_OFFSET_ + WLAN_HDR_A3_LEN) + i);
++
++		switch (pIE->ElementID) {
++		case _CH_SWTICH_ANNOUNCE_:
++			padapter->mlmepriv.handle_dfs = _TRUE;
++			_rtw_memcpy(&new_ch_no, pIE->data + 1, 1);
++			rtw_set_csa_cmd(padapter, new_ch_no);
++			break;
++		default:
++			break;
++		}
++
++		i += (pIE->Length + 2);
++	}
++}
++#endif /* CONFIG_DFS */
++
++unsigned int is_ap_in_tkip(_adapter *padapter)
++{
++	u32 i;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++
++	if (rtw_get_capability((WLAN_BSSID_EX *)cur_network) & WLAN_CAPABILITY_PRIVACY) {
++		for (i = sizeof(NDIS_802_11_FIXED_IEs); i < pmlmeinfo->network.IELength;) {
++			pIE = (PNDIS_802_11_VARIABLE_IEs)(pmlmeinfo->network.IEs + i);
++
++			switch (pIE->ElementID) {
++			case _VENDOR_SPECIFIC_IE_:
++				if ((_rtw_memcmp(pIE->data, RTW_WPA_OUI, 4)) && (_rtw_memcmp((pIE->data + 12), WPA_TKIP_CIPHER, 4)))
++					return _TRUE;
++				break;
++
++			case _RSN_IE_2_:
++				if (_rtw_memcmp((pIE->data + 8), RSN_TKIP_CIPHER, 4))
++					return _TRUE;
++
++			default:
++				break;
++			}
++
++			i += (pIE->Length + 2);
++		}
++
++		return _FALSE;
++	} else
++		return _FALSE;
++
++}
++
++unsigned int should_forbid_n_rate(_adapter *padapter)
++{
++	u32 i;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	WLAN_BSSID_EX  *cur_network = &pmlmepriv->cur_network.network;
++
++	if (rtw_get_capability((WLAN_BSSID_EX *)cur_network) & WLAN_CAPABILITY_PRIVACY) {
++		for (i = sizeof(NDIS_802_11_FIXED_IEs); i < cur_network->IELength;) {
++			pIE = (PNDIS_802_11_VARIABLE_IEs)(cur_network->IEs + i);
++
++			switch (pIE->ElementID) {
++			case _VENDOR_SPECIFIC_IE_:
++				if (_rtw_memcmp(pIE->data, RTW_WPA_OUI, 4) &&
++				    ((_rtw_memcmp((pIE->data + 12), WPA_CIPHER_SUITE_CCMP, 4)) ||
++				     (_rtw_memcmp((pIE->data + 16), WPA_CIPHER_SUITE_CCMP, 4))))
++					return _FALSE;
++				break;
++
++			case _RSN_IE_2_:
++				if ((_rtw_memcmp((pIE->data + 8), RSN_CIPHER_SUITE_CCMP, 4))  ||
++				    (_rtw_memcmp((pIE->data + 12), RSN_CIPHER_SUITE_CCMP, 4)))
++					return _FALSE;
++
++			default:
++				break;
++			}
++
++			i += (pIE->Length + 2);
++		}
++
++		return _TRUE;
++	} else
++		return _FALSE;
++
++}
++
++
++unsigned int is_ap_in_wep(_adapter *padapter)
++{
++	u32 i;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++
++	if (rtw_get_capability((WLAN_BSSID_EX *)cur_network) & WLAN_CAPABILITY_PRIVACY) {
++		for (i = sizeof(NDIS_802_11_FIXED_IEs); i < pmlmeinfo->network.IELength;) {
++			pIE = (PNDIS_802_11_VARIABLE_IEs)(pmlmeinfo->network.IEs + i);
++
++			switch (pIE->ElementID) {
++			case _VENDOR_SPECIFIC_IE_:
++				if (_rtw_memcmp(pIE->data, RTW_WPA_OUI, 4))
++					return _FALSE;
++				break;
++
++			case _RSN_IE_2_:
++				return _FALSE;
++
++			default:
++				break;
++			}
++
++			i += (pIE->Length + 2);
++		}
++
++		return _TRUE;
++	} else
++		return _FALSE;
++
++}
++
++int wifirate2_ratetbl_inx(unsigned char rate);
++int wifirate2_ratetbl_inx(unsigned char rate)
++{
++	int	inx = 0;
++	rate = rate & 0x7f;
++
++	switch (rate) {
++	case 54*2:
++		inx = 11;
++		break;
++
++	case 48*2:
++		inx = 10;
++		break;
++
++	case 36*2:
++		inx = 9;
++		break;
++
++	case 24*2:
++		inx = 8;
++		break;
++
++	case 18*2:
++		inx = 7;
++		break;
++
++	case 12*2:
++		inx = 6;
++		break;
++
++	case 9*2:
++		inx = 5;
++		break;
++
++	case 6*2:
++		inx = 4;
++		break;
++
++	case 11*2:
++		inx = 3;
++		break;
++	case 11:
++		inx = 2;
++		break;
++
++	case 2*2:
++		inx = 1;
++		break;
++
++	case 1*2:
++		inx = 0;
++		break;
++
++	}
++	return inx;
++}
++
++unsigned int update_basic_rate(unsigned char *ptn, unsigned int ptn_sz)
++{
++	unsigned int i, num_of_rate;
++	unsigned int mask = 0;
++
++	num_of_rate = (ptn_sz > NumRates) ? NumRates : ptn_sz;
++
++	for (i = 0; i < num_of_rate; i++) {
++		if ((*(ptn + i)) & 0x80)
++			mask |= 0x1 << wifirate2_ratetbl_inx(*(ptn + i));
++	}
++	return mask;
++}
++
++unsigned int update_supported_rate(unsigned char *ptn, unsigned int ptn_sz)
++{
++	unsigned int i, num_of_rate;
++	unsigned int mask = 0;
++
++	num_of_rate = (ptn_sz > NumRates) ? NumRates : ptn_sz;
++
++	for (i = 0; i < num_of_rate; i++)
++		mask |= 0x1 << wifirate2_ratetbl_inx(*(ptn + i));
++
++	return mask;
++}
++
++unsigned int update_MCS_rate(struct HT_caps_element *pHT_caps)
++{
++	unsigned int mask = 0;
++
++	mask = ((pHT_caps->u.HT_cap_element.MCS_rate[0] << 12) | (pHT_caps->u.HT_cap_element.MCS_rate[1] << 20));
++
++	return mask;
++}
++
++int support_short_GI(_adapter *padapter, struct HT_caps_element *pHT_caps, u8 bwmode)
++{
++	unsigned char					bit_offset;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (!(pmlmeinfo->HT_enable))
++		return _FAIL;
++
++	bit_offset = (bwmode & CHANNEL_WIDTH_40) ? 6 : 5;
++
++	if (pHT_caps->u.HT_cap_element.HT_caps_info & (0x1 << bit_offset))
++		return _SUCCESS;
++	else
++		return _FAIL;
++}
++
++unsigned char get_highest_rate_idx(u32 mask)
++{
++	int i;
++	unsigned char rate_idx = 0;
++
++	for (i = 31; i >= 0; i--) {
++		if (mask & BIT(i)) {
++			rate_idx = i;
++			break;
++		}
++	}
++
++	return rate_idx;
++}
++
++unsigned char get_highest_mcs_rate(struct HT_caps_element *pHT_caps);
++unsigned char get_highest_mcs_rate(struct HT_caps_element *pHT_caps)
++{
++	int i, mcs_rate;
++
++	mcs_rate = (pHT_caps->u.HT_cap_element.MCS_rate[0] | (pHT_caps->u.HT_cap_element.MCS_rate[1] << 8));
++
++	for (i = 15; i >= 0; i--) {
++		if (mcs_rate & (0x1 << i))
++			break;
++	}
++
++	return i;
++}
++
++void Update_RA_Entry(_adapter *padapter, struct sta_info *psta)
++{
++	rtw_hal_update_ra_mask(psta, psta->rssi_level);
++}
++
++void set_sta_rate(_adapter *padapter, struct sta_info *psta)
++{
++	/* rate adaptive	 */
++	rtw_hal_update_ra_mask(psta, psta->rssi_level);
++}
++
++/* Update RRSR and Rate for USERATE */
++void update_tx_basic_rate(_adapter *padapter, u8 wirelessmode)
++{
++	NDIS_802_11_RATES_EX	supported_rates;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &padapter->wdinfo;
++
++	/*	Added by Albert 2011/03/22 */
++	/*	In the P2P mode, the driver should not support the b mode. */
++	/*	So, the Tx packet shouldn't use the CCK rate */
++	if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++#endif /* CONFIG_P2P */
++#ifdef CONFIG_INTEL_WIDI
++	if (padapter->mlmepriv.widi_state != INTEL_WIDI_STATE_NONE)
++		return;
++#endif /* CONFIG_INTEL_WIDI */
++
++	_rtw_memset(supported_rates, 0, NDIS_802_11_LENGTH_RATES_EX);
++
++	/* clear B mod if current channel is in 5G band, avoid tx cck rate in 5G band. */
++	if (pmlmeext->cur_channel > 14)
++		wirelessmode &= ~(WIRELESS_11B);
++
++	if ((wirelessmode & WIRELESS_11B) && (wirelessmode == WIRELESS_11B))
++		_rtw_memcpy(supported_rates, rtw_basic_rate_cck, 4);
++	else if (wirelessmode & WIRELESS_11B)
++		_rtw_memcpy(supported_rates, rtw_basic_rate_mix, 7);
++	else
++		_rtw_memcpy(supported_rates, rtw_basic_rate_ofdm, 3);
++
++	if (wirelessmode & WIRELESS_11B)
++		update_mgnt_tx_rate(padapter, IEEE80211_CCK_RATE_1MB);
++	else
++		update_mgnt_tx_rate(padapter, IEEE80211_OFDM_RATE_6MB);
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_BASIC_RATE, supported_rates);
++}
++
++unsigned char check_assoc_AP(u8 *pframe, uint len)
++{
++	unsigned int	i;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++
++	for (i = sizeof(NDIS_802_11_FIXED_IEs); i < len;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pframe + i);
++
++		switch (pIE->ElementID) {
++		case _VENDOR_SPECIFIC_IE_:
++			if ((_rtw_memcmp(pIE->data, ARTHEROS_OUI1, 3)) || (_rtw_memcmp(pIE->data, ARTHEROS_OUI2, 3))) {
++				RTW_INFO("link to Artheros AP\n");
++				return HT_IOT_PEER_ATHEROS;
++			} else if ((_rtw_memcmp(pIE->data, BROADCOM_OUI1, 3))
++				   || (_rtw_memcmp(pIE->data, BROADCOM_OUI2, 3))
++				|| (_rtw_memcmp(pIE->data, BROADCOM_OUI3, 3))) {
++				RTW_INFO("link to Broadcom AP\n");
++				return HT_IOT_PEER_BROADCOM;
++			} else if (_rtw_memcmp(pIE->data, MARVELL_OUI, 3)) {
++				RTW_INFO("link to Marvell AP\n");
++				return HT_IOT_PEER_MARVELL;
++			} else if (_rtw_memcmp(pIE->data, RALINK_OUI, 3)) {
++				RTW_INFO("link to Ralink AP\n");
++				return HT_IOT_PEER_RALINK;
++			} else if (_rtw_memcmp(pIE->data, CISCO_OUI, 3)) {
++				RTW_INFO("link to Cisco AP\n");
++				return HT_IOT_PEER_CISCO;
++			} else if (_rtw_memcmp(pIE->data, REALTEK_OUI, 3)) {
++				u32	Vender = HT_IOT_PEER_REALTEK;
++
++				if (pIE->Length >= 5) {
++					if (pIE->data[4] == 1) {
++						/* if(pIE->data[5] & RT_HT_CAP_USE_LONG_PREAMBLE) */
++						/*	bssDesc->BssHT.RT2RT_HT_Mode |= RT_HT_CAP_USE_LONG_PREAMBLE; */
++
++						if (pIE->data[5] & RT_HT_CAP_USE_92SE) {
++							/* bssDesc->BssHT.RT2RT_HT_Mode |= RT_HT_CAP_USE_92SE; */
++							Vender = HT_IOT_PEER_REALTEK_92SE;
++						}
++					}
++
++					if (pIE->data[5] & RT_HT_CAP_USE_SOFTAP)
++						Vender = HT_IOT_PEER_REALTEK_SOFTAP;
++
++					if (pIE->data[4] == 2) {
++						if (pIE->data[6] & RT_HT_CAP_USE_JAGUAR_BCUT) {
++							Vender = HT_IOT_PEER_REALTEK_JAGUAR_BCUTAP;
++							RTW_INFO("link to Realtek JAGUAR_BCUTAP\n");
++						}
++						if (pIE->data[6] & RT_HT_CAP_USE_JAGUAR_CCUT) {
++							Vender = HT_IOT_PEER_REALTEK_JAGUAR_CCUTAP;
++							RTW_INFO("link to Realtek JAGUAR_CCUTAP\n");
++						}
++					}
++				}
++
++				RTW_INFO("link to Realtek AP\n");
++				return Vender;
++			} else if (_rtw_memcmp(pIE->data, AIRGOCAP_OUI, 3)) {
++				RTW_INFO("link to Airgo Cap\n");
++				return HT_IOT_PEER_AIRGO;
++			} else
++				break;
++
++		default:
++			break;
++		}
++
++		i += (pIE->Length + 2);
++	}
++
++	RTW_INFO("link to new AP\n");
++	return HT_IOT_PEER_UNKNOWN;
++}
++
++void update_capinfo(PADAPTER Adapter, u16 updateCap)
++{
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	BOOLEAN		ShortPreamble;
++
++	/* Check preamble mode, 2005.01.06, by rcnjko. */
++	/* Mark to update preamble value forever, 2008.03.18 by lanhsin */
++	/* if( pMgntInfo->RegPreambleMode == PREAMBLE_AUTO ) */
++	{
++
++		if (updateCap & cShortPreamble) {
++			/* Short Preamble */
++			if (pmlmeinfo->preamble_mode != PREAMBLE_SHORT) { /* PREAMBLE_LONG or PREAMBLE_AUTO */
++				ShortPreamble = _TRUE;
++				pmlmeinfo->preamble_mode = PREAMBLE_SHORT;
++				rtw_hal_set_hwreg(Adapter, HW_VAR_ACK_PREAMBLE, (u8 *)&ShortPreamble);
++			}
++		} else {
++			/* Long Preamble */
++			if (pmlmeinfo->preamble_mode != PREAMBLE_LONG) { /* PREAMBLE_SHORT or PREAMBLE_AUTO */
++				ShortPreamble = _FALSE;
++				pmlmeinfo->preamble_mode = PREAMBLE_LONG;
++				rtw_hal_set_hwreg(Adapter, HW_VAR_ACK_PREAMBLE, (u8 *)&ShortPreamble);
++			}
++		}
++	}
++
++	if (updateCap & cIBSS) {
++		/* Filen: See 802.11-2007 p.91 */
++		pmlmeinfo->slotTime = NON_SHORT_SLOT_TIME;
++	} else {
++		/* Filen: See 802.11-2007 p.90 */
++		if (pmlmeext->cur_wireless_mode & (WIRELESS_11_24N | WIRELESS_11A | WIRELESS_11_5N | WIRELESS_11AC))
++			pmlmeinfo->slotTime = SHORT_SLOT_TIME;
++		else if (pmlmeext->cur_wireless_mode & (WIRELESS_11G)) {
++			if ((updateCap & cShortSlotTime) /* && (!(pMgntInfo->pHTInfo->RT2RT_HT_Mode & RT_HT_CAP_USE_LONG_PREAMBLE)) */) {
++				/* Short Slot Time */
++				pmlmeinfo->slotTime = SHORT_SLOT_TIME;
++			} else {
++				/* Long Slot Time */
++				pmlmeinfo->slotTime = NON_SHORT_SLOT_TIME;
++			}
++		} else {
++			/* B Mode */
++			pmlmeinfo->slotTime = NON_SHORT_SLOT_TIME;
++		}
++	}
++
++	rtw_hal_set_hwreg(Adapter, HW_VAR_SLOT_TIME, &pmlmeinfo->slotTime);
++
++}
++
++/*
++* set adapter.mlmeextpriv.mlmext_info.HT_enable
++* set adapter.mlmeextpriv.cur_wireless_mode
++* set SIFS register
++* set mgmt tx rate
++*/
++void update_wireless_mode(_adapter *padapter)
++{
++	int ratelen, network_type = 0;
++	u32 SIFS_Timer;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++	unsigned char			*rate = cur_network->SupportedRates;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++
++	ratelen = rtw_get_rateset_len(cur_network->SupportedRates);
++
++	if ((pmlmeinfo->HT_info_enable) && (pmlmeinfo->HT_caps_enable))
++		pmlmeinfo->HT_enable = 1;
++
++	if (pmlmeext->cur_channel > 14) {
++		if (pmlmeinfo->VHT_enable)
++			network_type = WIRELESS_11AC;
++		else if (pmlmeinfo->HT_enable)
++			network_type = WIRELESS_11_5N;
++
++		network_type |= WIRELESS_11A;
++	} else {
++		if (pmlmeinfo->VHT_enable)
++			network_type = WIRELESS_11AC;
++		else if (pmlmeinfo->HT_enable)
++			network_type = WIRELESS_11_24N;
++
++		if ((cckratesonly_included(rate, ratelen)) == _TRUE)
++			network_type |= WIRELESS_11B;
++		else if ((cckrates_included(rate, ratelen)) == _TRUE)
++			network_type |= WIRELESS_11BG;
++		else
++			network_type |= WIRELESS_11G;
++	}
++
++	pmlmeext->cur_wireless_mode = network_type & padapter->registrypriv.wireless_mode;
++	/* RTW_INFO("network_type=%02x, padapter->registrypriv.wireless_mode=%02x\n", network_type, padapter->registrypriv.wireless_mode); */
++#if 0
++	if ((pmlmeext->cur_wireless_mode == WIRELESS_11G) ||
++	    (pmlmeext->cur_wireless_mode == WIRELESS_11BG)) /* WIRELESS_MODE_G) */
++		SIFS_Timer = 0x0a0a;/* CCK */
++	else
++		SIFS_Timer = 0x0e0e;/* pHalData->SifsTime; //OFDM */
++#endif
++
++	SIFS_Timer = 0x0a0a0808; /* 0x0808->for CCK, 0x0a0a->for OFDM
++                              * change this value if having IOT issues. */
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_RESP_SIFS, (u8 *)&SIFS_Timer);
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_WIRELESS_MODE, (u8 *)&(pmlmeext->cur_wireless_mode));
++
++	if ((pmlmeext->cur_wireless_mode & WIRELESS_11B)
++#ifdef CONFIG_P2P
++	    && rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)
++#endif /* CONFIG_P2P */
++	   )
++		update_mgnt_tx_rate(padapter, IEEE80211_CCK_RATE_1MB);
++	else
++		update_mgnt_tx_rate(padapter, IEEE80211_OFDM_RATE_6MB);
++}
++
++void fire_write_MAC_cmd(_adapter *padapter, unsigned int addr, unsigned int value);
++void fire_write_MAC_cmd(_adapter *padapter, unsigned int addr, unsigned int value)
++{
++#if 0
++	struct cmd_obj					*ph2c;
++	struct reg_rw_parm			*pwriteMacPara;
++	struct cmd_priv					*pcmdpriv = &(padapter->cmdpriv);
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL)
++		return;
++
++	pwriteMacPara = (struct reg_rw_parm *)rtw_malloc(sizeof(struct reg_rw_parm));
++	if (pwriteMacPara == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		return;
++	}
++
++	pwriteMacPara->rw = 1;
++	pwriteMacPara->addr = addr;
++	pwriteMacPara->value = value;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pwriteMacPara, GEN_CMD_CODE(_Write_MACREG));
++	rtw_enqueue_cmd(pcmdpriv, ph2c);
++#endif
++}
++
++void update_sta_basic_rate(struct sta_info *psta, u8 wireless_mode)
++{
++	if (IsSupportedTxCCK(wireless_mode)) {
++		/* Only B, B/G, and B/G/N AP could use CCK rate */
++		_rtw_memcpy(psta->bssrateset, rtw_basic_rate_cck, 4);
++		psta->bssratelen = 4;
++	} else {
++		_rtw_memcpy(psta->bssrateset, rtw_basic_rate_ofdm, 3);
++		psta->bssratelen = 3;
++	}
++}
++
++int rtw_ies_get_supported_rate(u8 *ies, uint ies_len, u8 *rate_set, u8 *rate_num)
++{
++	u8 *ie;
++	unsigned int ie_len;
++
++	if (!rate_set || !rate_num)
++		return _FALSE;
++
++	*rate_num = 0;
++
++	ie = rtw_get_ie(ies, _SUPPORTEDRATES_IE_, &ie_len, ies_len);
++	if (ie == NULL)
++		goto ext_rate;
++
++	_rtw_memcpy(rate_set, ie + 2, ie_len);
++	*rate_num = ie_len;
++
++ext_rate:
++	ie = rtw_get_ie(ies, _EXT_SUPPORTEDRATES_IE_, &ie_len, ies_len);
++	if (ie) {
++		_rtw_memcpy(rate_set + *rate_num, ie + 2, ie_len);
++		*rate_num += ie_len;
++	}
++
++	if (*rate_num == 0)
++		return _FAIL;
++
++	if (0) {
++		int i;
++
++		for (i = 0; i < *rate_num; i++)
++			RTW_INFO("rate:0x%02x\n", *(rate_set + i));
++	}
++
++	return _SUCCESS;
++}
++
++void process_addba_req(_adapter *padapter, u8 *paddba_req, u8 *addr)
++{
++	struct sta_info *psta;
++	u16 tid, start_seq, param;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct ADDBA_request	*preq = (struct ADDBA_request *)paddba_req;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 size, accept = _FALSE;
++
++	psta = rtw_get_stainfo(pstapriv, addr);
++	if (!psta)
++		goto exit;
++
++	start_seq = le16_to_cpu(preq->BA_starting_seqctrl) >> 4;
++
++	param = le16_to_cpu(preq->BA_para_set);
++	tid = (param >> 2) & 0x0f;
++
++
++	accept = rtw_rx_ampdu_is_accept(padapter);
++	size = rtw_rx_ampdu_size(padapter);
++
++	if (accept == _TRUE)
++		rtw_addbarsp_cmd(padapter, addr, tid, 0, size, start_seq);
++	else
++		rtw_addbarsp_cmd(padapter, addr, tid, 37, size, start_seq); /* reject ADDBA Req */
++
++exit:
++	return;
++}
++
++void update_TSF(struct mlme_ext_priv *pmlmeext, u8 *pframe, uint len)
++{
++	u8 *pIE;
++	u32 *pbuf;
++
++	pIE = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	pbuf = (u32 *)pIE;
++
++	pmlmeext->TSFValue = le32_to_cpu(*(pbuf + 1));
++
++	pmlmeext->TSFValue = pmlmeext->TSFValue << 32;
++
++	pmlmeext->TSFValue |= le32_to_cpu(*pbuf);
++}
++
++void correct_TSF(_adapter *padapter, struct mlme_ext_priv *pmlmeext)
++{
++	rtw_hal_set_hwreg(padapter, HW_VAR_CORRECT_TSF, 0);
++}
++
++void adaptive_early_32k(struct mlme_ext_priv *pmlmeext, u8 *pframe, uint len)
++{
++	int i;
++	u8 *pIE;
++	u32 *pbuf;
++	u64 tsf = 0;
++	u32 delay_ms;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++
++	pmlmeext->bcn_cnt++;
++
++	pIE = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	pbuf = (u32 *)pIE;
++
++	tsf = le32_to_cpu(*(pbuf + 1));
++	tsf = tsf << 32;
++	tsf |= le32_to_cpu(*pbuf);
++
++	/* RTW_INFO("%s(): tsf_upper= 0x%08x, tsf_lower=0x%08x\n", __func__, (u32)(tsf>>32), (u32)tsf); */
++
++	/* delay = (timestamp mod 1024*100)/1000 (unit: ms) */
++	/* delay_ms = do_div(tsf, (pmlmeinfo->bcn_interval*1024))/1000; */
++	delay_ms = rtw_modular64(tsf, (pmlmeinfo->bcn_interval * 1024));
++	delay_ms = delay_ms / 1000;
++
++	if (delay_ms >= 8) {
++		pmlmeext->bcn_delay_cnt[8]++;
++		/* pmlmeext->bcn_delay_ratio[8] = (pmlmeext->bcn_delay_cnt[8] * 100) /pmlmeext->bcn_cnt; */
++	} else {
++		pmlmeext->bcn_delay_cnt[delay_ms]++;
++		/* pmlmeext->bcn_delay_ratio[delay_ms] = (pmlmeext->bcn_delay_cnt[delay_ms] * 100) /pmlmeext->bcn_cnt; */
++	}
++
++	/*
++		RTW_INFO("%s(): (a)bcn_cnt = %d\n", __func__, pmlmeext->bcn_cnt);
++
++
++		for(i=0; i<9; i++)
++		{
++			RTW_INFO("%s():bcn_delay_cnt[%d]=%d,  bcn_delay_ratio[%d]=%d\n", __func__, i,
++				pmlmeext->bcn_delay_cnt[i] , i, pmlmeext->bcn_delay_ratio[i]);
++		}
++	*/
++
++	/* dump for  adaptive_early_32k */
++	if (pmlmeext->bcn_cnt > 100 && (pmlmeext->adaptive_tsf_done == _TRUE)) {
++		u8 ratio_20_delay, ratio_80_delay;
++		u8 DrvBcnEarly, DrvBcnTimeOut;
++
++		ratio_20_delay = 0;
++		ratio_80_delay = 0;
++		DrvBcnEarly = 0xff;
++		DrvBcnTimeOut = 0xff;
++
++		RTW_INFO("%s(): bcn_cnt = %d\n", __func__, pmlmeext->bcn_cnt);
++
++		for (i = 0; i < 9; i++) {
++			pmlmeext->bcn_delay_ratio[i] = (pmlmeext->bcn_delay_cnt[i] * 100) / pmlmeext->bcn_cnt;
++
++
++			/* RTW_INFO("%s():bcn_delay_cnt[%d]=%d,  bcn_delay_ratio[%d]=%d\n", __func__, i,  */
++			/*	pmlmeext->bcn_delay_cnt[i] , i, pmlmeext->bcn_delay_ratio[i]); */
++
++			ratio_20_delay += pmlmeext->bcn_delay_ratio[i];
++			ratio_80_delay += pmlmeext->bcn_delay_ratio[i];
++
++			if (ratio_20_delay > 20 && DrvBcnEarly == 0xff) {
++				DrvBcnEarly = i;
++				/* RTW_INFO("%s(): DrvBcnEarly = %d\n", __func__, DrvBcnEarly); */
++			}
++
++			if (ratio_80_delay > 80 && DrvBcnTimeOut == 0xff) {
++				DrvBcnTimeOut = i;
++				/* RTW_INFO("%s(): DrvBcnTimeOut = %d\n", __func__, DrvBcnTimeOut); */
++			}
++
++			/* reset adaptive_early_32k cnt */
++			pmlmeext->bcn_delay_cnt[i] = 0;
++			pmlmeext->bcn_delay_ratio[i] = 0;
++		}
++
++		pmlmeext->DrvBcnEarly = DrvBcnEarly;
++		pmlmeext->DrvBcnTimeOut = DrvBcnTimeOut;
++
++		pmlmeext->bcn_cnt = 0;
++	}
++
++}
++
++
++void beacon_timing_control(_adapter *padapter)
++{
++	rtw_hal_bcn_related_reg_setting(padapter);
++}
++
++#define CONFIG_SHARED_BMC_MACID
++
++void dump_macid_map(void *sel, struct macid_bmp *map, u8 max_num)
++{
++	RTW_PRINT_SEL(sel, "0x%08x\n", map->m0);
++#if (MACID_NUM_SW_LIMIT > 32)
++	if (max_num && max_num > 32)
++		RTW_PRINT_SEL(sel, "0x%08x\n", map->m1);
++#endif
++#if (MACID_NUM_SW_LIMIT > 64)
++	if (max_num && max_num > 64)
++		RTW_PRINT_SEL(sel, "0x%08x\n", map->m2);
++#endif
++#if (MACID_NUM_SW_LIMIT > 96)
++	if (max_num && max_num > 96)
++		RTW_PRINT_SEL(sel, "0x%08x\n", map->m3);
++#endif
++}
++
++inline bool rtw_macid_is_set(struct macid_bmp *map, u8 id)
++{
++	if (id < 32)
++		return map->m0 & BIT(id);
++#if (MACID_NUM_SW_LIMIT > 32)
++	else if (id < 64)
++		return map->m1 & BIT(id - 32);
++#endif
++#if (MACID_NUM_SW_LIMIT > 64)
++	else if (id < 96)
++		return map->m2 & BIT(id - 64);
++#endif
++#if (MACID_NUM_SW_LIMIT > 96)
++	else if (id < 128)
++		return map->m3 & BIT(id - 96);
++#endif
++	else
++		rtw_warn_on(1);
++
++	return 0;
++}
++
++inline void rtw_macid_map_set(struct macid_bmp *map, u8 id)
++{
++	if (id < 32)
++		map->m0 |= BIT(id);
++#if (MACID_NUM_SW_LIMIT > 32)
++	else if (id < 64)
++		map->m1 |= BIT(id - 32);
++#endif
++#if (MACID_NUM_SW_LIMIT > 64)
++	else if (id < 96)
++		map->m2 |= BIT(id - 64);
++#endif
++#if (MACID_NUM_SW_LIMIT > 96)
++	else if (id < 128)
++		map->m3 |= BIT(id - 96);
++#endif
++	else
++		rtw_warn_on(1);
++}
++
++/*Record bc's mac-id and sec-cam-id*/
++inline void rtw_iface_bcmc_id_set(_adapter *padapter, u8 mac_id)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++
++	macid_ctl->iface_bmc[padapter->iface_id] = mac_id;
++}
++inline u8 rtw_iface_bcmc_id_get(_adapter *padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++
++	return macid_ctl->iface_bmc[padapter->iface_id];
++}
++
++inline void rtw_macid_map_clr(struct macid_bmp *map, u8 id)
++{
++	if (id < 32)
++		map->m0 &= ~BIT(id);
++#if (MACID_NUM_SW_LIMIT > 32)
++	else if (id < 64)
++		map->m1 &= ~BIT(id - 32);
++#endif
++#if (MACID_NUM_SW_LIMIT > 64)
++	else if (id < 96)
++		map->m2 &= ~BIT(id - 64);
++#endif
++#if (MACID_NUM_SW_LIMIT > 96)
++	else if (id < 128)
++		map->m3 &= ~BIT(id - 96);
++#endif
++	else
++		rtw_warn_on(1);
++}
++
++inline bool rtw_macid_is_used(struct macid_ctl_t *macid_ctl, u8 id)
++{
++	return rtw_macid_is_set(&macid_ctl->used, id);
++}
++
++inline bool rtw_macid_is_bmc(struct macid_ctl_t *macid_ctl, u8 id)
++{
++	return rtw_macid_is_set(&macid_ctl->bmc, id);
++}
++
++inline s8 rtw_macid_get_if_g(struct macid_ctl_t *macid_ctl, u8 id)
++{
++	int i;
++
++#ifdef CONFIG_SHARED_BMC_MACID
++	if (rtw_macid_is_bmc(macid_ctl, id)) {
++		for (i = 0; i < CONFIG_IFACE_NUMBER; i++)
++			if (macid_ctl->iface_bmc[i] == id)
++				return i;
++		return -1;
++	}
++#endif
++
++	for (i = 0; i < CONFIG_IFACE_NUMBER; i++) {
++		if (rtw_macid_is_set(&macid_ctl->if_g[i], id))
++			return i;
++	}
++	return -1;
++}
++
++inline s8 rtw_macid_get_ch_g(struct macid_ctl_t *macid_ctl, u8 id)
++{
++	int i;
++
++	for (i = 0; i < 2; i++) {
++		if (rtw_macid_is_set(&macid_ctl->ch_g[i], id))
++			return i;
++	}
++	return -1;
++}
++
++void rtw_alloc_macid(_adapter *padapter, struct sta_info *psta)
++{
++	int i;
++	_irqL irqL;
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	struct macid_bmp *used_map = &macid_ctl->used;
++	/* static u8 last_id = 0;  for testing */
++	u8 last_id = 0;
++	u8 is_bc_sta = _FALSE;
++
++	if (_rtw_memcmp(psta->hwaddr, adapter_mac_addr(padapter), ETH_ALEN)) {
++		psta->mac_id = macid_ctl->num;
++		return;
++	}
++
++	if (_rtw_memcmp(psta->hwaddr, bc_addr, ETH_ALEN)) {
++		is_bc_sta = _TRUE;
++		rtw_iface_bcmc_id_set(padapter, INVALID_SEC_MAC_CAM_ID);	/*init default value*/
++	}
++
++#ifdef CONFIG_SHARED_BMC_MACID
++	if (is_bc_sta
++#ifdef CONFIG_CONCURRENT_MODE
++	    && (check_fwstate(&padapter->mlmepriv, WIFI_STATION_STATE) || check_fwstate(&padapter->mlmepriv, WIFI_NULL_STATE))
++#endif
++	   ) {
++		/* use shared broadcast & multicast macid 1 for all ifaces which configure to station mode*/
++		_enter_critical_bh(&macid_ctl->lock, &irqL);
++		rtw_macid_map_set(used_map, 1);
++		rtw_macid_map_set(&macid_ctl->bmc, 1);
++		rtw_macid_map_set(&macid_ctl->if_g[padapter->iface_id], 1);
++		macid_ctl->sta[1] = psta;
++		/* TODO ch_g? */
++		_exit_critical_bh(&macid_ctl->lock, &irqL);
++		i = 1;
++		goto assigned;
++	}
++#endif
++
++#ifdef CONFIG_MCC_MODE
++	if (MCC_EN(padapter)) {
++		if (MLME_IS_AP(padapter) || MLME_IS_GO(padapter))
++			/* GO/AP assign client macid from 8 */
++			last_id = 8;
++	}
++#endif /* CONFIG_MCC_MODE */
++
++	_enter_critical_bh(&macid_ctl->lock, &irqL);
++
++	for (i = last_id; i < macid_ctl->num; i++) {
++#ifdef CONFIG_SHARED_BMC_MACID
++		if (i == 1)
++			continue;
++#endif
++
++#ifdef CONFIG_MCC_MODE
++		/* macid 0/1 reserve for mcc for mgnt queue macid */
++		if (MCC_EN(padapter)) {
++			if (i == MCC_ROLE_STA_GC_MGMT_QUEUE_MACID)
++				continue;
++			if (i == MCC_ROLE_SOFTAP_GO_MGMT_QUEUE_MACID)
++				continue;
++		}
++#endif /* CONFIG_MCC_MODE */
++
++		if (is_bc_sta) {/*for SoftAP's Broadcast sta-info*/
++			/*TODO:non-security AP may allociated macid = 1*/
++			struct cam_ctl_t *cam_ctl = dvobj_to_sec_camctl(dvobj);
++
++			if ((!rtw_macid_is_used(macid_ctl, i)) && (!rtw_sec_camid_is_used(cam_ctl, i)))
++				break;
++		} else {
++			if (!rtw_macid_is_used(macid_ctl, i))
++				break;
++		}
++	}
++
++	if (i < macid_ctl->num) {
++
++		rtw_macid_map_set(used_map, i);
++
++		if (is_bc_sta) {
++			struct cam_ctl_t *cam_ctl = dvobj_to_sec_camctl(dvobj);
++
++			rtw_macid_map_set(&macid_ctl->bmc, i);
++			rtw_iface_bcmc_id_set(padapter, i);
++			rtw_sec_cam_map_set(&cam_ctl->used, i);
++		}
++
++		rtw_macid_map_set(&macid_ctl->if_g[padapter->iface_id], i);
++		macid_ctl->sta[i] = psta;
++
++		/* TODO ch_g? */
++
++		last_id++;
++		last_id %= macid_ctl->num;
++	}
++
++	_exit_critical_bh(&macid_ctl->lock, &irqL);
++
++	if (i >= macid_ctl->num) {
++		psta->mac_id = macid_ctl->num;
++		RTW_ERR(FUNC_ADPT_FMT" if%u, hwaddr:"MAC_FMT" no available macid\n"
++			, FUNC_ADPT_ARG(padapter), padapter->iface_id + 1, MAC_ARG(psta->hwaddr));
++		rtw_warn_on(1);
++		goto exit;
++	} else
++		goto assigned;
++
++assigned:
++	psta->mac_id = i;
++	RTW_INFO(FUNC_ADPT_FMT" if%u, hwaddr:"MAC_FMT" macid:%u\n"
++		, FUNC_ADPT_ARG(padapter), padapter->iface_id + 1, MAC_ARG(psta->hwaddr), psta->mac_id);
++
++exit:
++	return;
++}
++
++void rtw_release_macid(_adapter *padapter, struct sta_info *psta)
++{
++	_irqL irqL;
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	u8 is_bc_sta = _FALSE;
++
++	if (_rtw_memcmp(psta->hwaddr, adapter_mac_addr(padapter), ETH_ALEN))
++		return;
++
++	if (_rtw_memcmp(psta->hwaddr, bc_addr, ETH_ALEN))
++		is_bc_sta = _TRUE;
++
++#ifdef CONFIG_SHARED_BMC_MACID
++	if (is_bc_sta
++#ifdef CONFIG_CONCURRENT_MODE
++	    && (check_fwstate(&padapter->mlmepriv, WIFI_STATION_STATE) || check_fwstate(&padapter->mlmepriv, WIFI_NULL_STATE))
++#endif
++	   )
++		return;
++
++	if (psta->mac_id == 1) {
++		RTW_ERR(FUNC_ADPT_FMT" if%u, hwaddr:"MAC_FMT" with macid:%u\n"
++			, FUNC_ADPT_ARG(padapter), padapter->iface_id + 1, MAC_ARG(psta->hwaddr), psta->mac_id);
++		if (check_fwstate(&padapter->mlmepriv, WIFI_STATION_STATE) || check_fwstate(&padapter->mlmepriv, WIFI_NULL_STATE))
++			rtw_warn_on(1);
++		return;
++	}
++#endif
++
++	_enter_critical_bh(&macid_ctl->lock, &irqL);
++
++	if (psta->mac_id < macid_ctl->num) {
++		int i;
++
++		if (!rtw_macid_is_used(macid_ctl, psta->mac_id)) {
++			RTW_ERR(FUNC_ADPT_FMT" if%u, hwaddr:"MAC_FMT" macid:%u not used\n"
++				, FUNC_ADPT_ARG(padapter), padapter->iface_id + 1, MAC_ARG(psta->hwaddr), psta->mac_id);
++			rtw_warn_on(1);
++		}
++
++		rtw_macid_map_clr(&macid_ctl->used, psta->mac_id);
++		rtw_macid_map_clr(&macid_ctl->bmc, psta->mac_id);
++
++		if (is_bc_sta) {
++			struct cam_ctl_t *cam_ctl = dvobj_to_sec_camctl(dvobj);
++			u8 id = rtw_iface_bcmc_id_get(padapter);
++
++			if ((id != INVALID_SEC_MAC_CAM_ID) && (id < cam_ctl->num))
++				rtw_sec_cam_map_clr(&cam_ctl->used, id);
++
++			rtw_iface_bcmc_id_set(padapter, INVALID_SEC_MAC_CAM_ID);
++		}
++
++		for (i = 0; i < CONFIG_IFACE_NUMBER; i++)
++			rtw_macid_map_clr(&macid_ctl->if_g[i], psta->mac_id);
++		for (i = 0; i < 2; i++)
++			rtw_macid_map_clr(&macid_ctl->ch_g[i], psta->mac_id);
++		macid_ctl->sta[psta->mac_id] = NULL;
++	}
++
++	_exit_critical_bh(&macid_ctl->lock, &irqL);
++
++	psta->mac_id = macid_ctl->num;
++}
++
++/* For 8188E RA */
++u8 rtw_search_max_mac_id(_adapter *padapter)
++{
++	u8 max_mac_id = 0;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	int i;
++	_irqL irqL;
++
++	/* TODO: Only search for connected macid? */
++
++	_enter_critical_bh(&macid_ctl->lock, &irqL);
++	for (i = (macid_ctl->num - 1); i > 0 ; i--) {
++		if (rtw_macid_is_used(macid_ctl, i))
++			break;
++	}
++	_exit_critical_bh(&macid_ctl->lock, &irqL);
++	max_mac_id = i;
++
++	return max_mac_id;
++}
++
++inline void rtw_macid_ctl_set_h2c_msr(struct macid_ctl_t *macid_ctl, u8 id, u8 h2c_msr)
++{
++	if (id >= macid_ctl->num) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	macid_ctl->h2c_msr[id] = h2c_msr;
++	if (0)
++		RTW_INFO("macid:%u, h2c_msr:"H2C_MSR_FMT"\n", id, H2C_MSR_ARG(&macid_ctl->h2c_msr[id]));
++}
++
++inline void rtw_macid_ctl_set_bw(struct macid_ctl_t *macid_ctl, u8 id, u8 bw)
++{
++	if (id >= macid_ctl->num) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	macid_ctl->bw[id] = bw;
++	if (0)
++		RTW_INFO("macid:%u, bw:%s\n", id, ch_width_str(macid_ctl->bw[id]));
++}
++
++inline void rtw_macid_ctl_set_vht_en(struct macid_ctl_t *macid_ctl, u8 id, u8 en)
++{
++	if (id >= macid_ctl->num) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	macid_ctl->vht_en[id] = en;
++	if (0)
++		RTW_INFO("macid:%u, vht_en:%u\n", id, macid_ctl->vht_en[id]);
++}
++
++inline void rtw_macid_ctl_set_rate_bmp0(struct macid_ctl_t *macid_ctl, u8 id, u32 bmp)
++{
++	if (id >= macid_ctl->num) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	macid_ctl->rate_bmp0[id] = bmp;
++	if (0)
++		RTW_INFO("macid:%u, rate_bmp0:0x%08X\n", id, macid_ctl->rate_bmp0[id]);
++}
++
++inline void rtw_macid_ctl_set_rate_bmp1(struct macid_ctl_t *macid_ctl, u8 id, u32 bmp)
++{
++	if (id >= macid_ctl->num) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	macid_ctl->rate_bmp1[id] = bmp;
++	if (0)
++		RTW_INFO("macid:%u, rate_bmp1:0x%08X\n", id, macid_ctl->rate_bmp1[id]);
++}
++
++inline void rtw_macid_ctl_init(struct macid_ctl_t *macid_ctl)
++{
++	_rtw_spinlock_init(&macid_ctl->lock);
++}
++
++inline void rtw_macid_ctl_deinit(struct macid_ctl_t *macid_ctl)
++{
++	_rtw_spinlock_free(&macid_ctl->lock);
++}
++
++#if 0
++unsigned int setup_beacon_frame(_adapter *padapter, unsigned char *beacon_frame)
++{
++	unsigned short				ATIMWindow;
++	unsigned char					*pframe;
++	struct tx_desc				*ptxdesc;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	unsigned int					rate_len, len = 0;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++	_rtw_memset(beacon_frame, 0, 256);
++
++	pframe = beacon_frame + TXDESC_SIZE;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(cur_network), ETH_ALEN);
++
++	SetFrameSubType(pframe, WIFI_BEACON);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	len = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	/* timestamp will be inserted by hardware */
++	pframe += 8;
++	len += 8;
++
++	/* beacon interval: 2 bytes */
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_beacon_interval_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	len += 2;
++
++	/* capability info: 2 bytes */
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_capability_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	len += 2;
++
++	/* SSID */
++	pframe = rtw_set_ie(pframe, _SSID_IE_, cur_network->Ssid.SsidLength, cur_network->Ssid.Ssid, &len);
++
++	/* supported rates... */
++	rate_len = rtw_get_rateset_len(cur_network->SupportedRates);
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, ((rate_len > 8) ? 8 : rate_len), cur_network->SupportedRates, &len);
++
++	/* DS parameter set */
++	pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&(cur_network->Configuration.DSConfig), &len);
++
++	/* IBSS Parameter Set... */
++	/* ATIMWindow = cur->Configuration.ATIMWindow; */
++	ATIMWindow = 0;
++	pframe = rtw_set_ie(pframe, _IBSS_PARA_IE_, 2, (unsigned char *)(&ATIMWindow), &len);
++
++	/* todo: ERP IE */
++
++	/* EXTERNDED SUPPORTED RATE */
++	if (rate_len > 8)
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_, (rate_len - 8), (cur_network->SupportedRates + 8), &len);
++
++	if ((len + TXDESC_SIZE) > 256) {
++		/* RTW_INFO("marc: beacon frame too large\n"); */
++		return 0;
++	}
++
++	/* fill the tx descriptor */
++	ptxdesc = (struct tx_desc *)beacon_frame;
++
++	/* offset 0	 */
++	ptxdesc->txdw0 |= cpu_to_le32(len & 0x0000ffff);
++	ptxdesc->txdw0 |= cpu_to_le32(((TXDESC_SIZE + OFFSET_SZ) << OFFSET_SHT) & 0x00ff0000); /* default = 32 bytes for TX Desc */
++
++	/* offset 4	 */
++	ptxdesc->txdw1 |= cpu_to_le32((0x10 << QSEL_SHT) & 0x00001f00);
++
++	/* offset 8		 */
++	ptxdesc->txdw2 |= cpu_to_le32(BMC);
++	ptxdesc->txdw2 |= cpu_to_le32(BK);
++
++	/* offset 16		 */
++	ptxdesc->txdw4 = 0x80000000;
++
++	/* offset 20 */
++	ptxdesc->txdw5 = 0x00000000; /* 1M	 */
++
++	return len + TXDESC_SIZE;
++}
++#endif
++
++_adapter *dvobj_get_port0_adapter(struct dvobj_priv *dvobj)
++{
++	_adapter *port0_iface = NULL;
++	int i;
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		if (get_hw_port(dvobj->padapters[i]) == HW_PORT0)
++			break;
++	}
++
++	if (i < 0 || i >= dvobj->iface_nums)
++		rtw_warn_on(1);
++	else
++		port0_iface = dvobj->padapters[i];
++
++	return port0_iface;
++}
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++void rtw_get_current_ip_address(PADAPTER padapter, u8 *pcurrentip)
++{
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct in_device *my_ip_ptr = padapter->pnetdev->ip_ptr;
++	u8 ipaddress[4];
++
++	if ((pmlmeinfo->state & WIFI_FW_LINKING_STATE) ||
++	    pmlmeinfo->state & WIFI_FW_AP_STATE) {
++		if (my_ip_ptr != NULL) {
++			struct in_ifaddr *my_ifa_list  = my_ip_ptr->ifa_list ;
++			if (my_ifa_list != NULL) {
++				ipaddress[0] = my_ifa_list->ifa_address & 0xFF;
++				ipaddress[1] = (my_ifa_list->ifa_address >> 8) & 0xFF;
++				ipaddress[2] = (my_ifa_list->ifa_address >> 16) & 0xFF;
++				ipaddress[3] = my_ifa_list->ifa_address >> 24;
++				RTW_INFO("%s: %d.%d.%d.%d ==========\n", __func__,
++					ipaddress[0], ipaddress[1], ipaddress[2], ipaddress[3]);
++				_rtw_memcpy(pcurrentip, ipaddress, 4);
++			}
++		}
++	}
++}
++#endif
++#ifdef CONFIG_WOWLAN
++bool rtw_wowlan_parser_pattern_cmd(u8 *input, char *pattern,
++				   int *pattern_len, char *bit_mask)
++{
++	char *cp = NULL, *end = NULL;
++	size_t len = 0;
++	int pos = 0, mask_pos = 0, res = 0;
++	u8 member[2] = {0};
++
++	cp = strchr(input, '=');
++	if (cp) {
++		*cp = 0;
++		cp++;
++		input = cp;
++	}
++
++	while (1) {
++		cp = strchr(input, ':');
++
++		if (cp) {
++			len = strlen(input) - strlen(cp);
++			*cp = 0;
++			cp++;
++		} else
++			len = 2;
++
++		if (bit_mask && (strcmp(input, "-") == 0 ||
++				 strcmp(input, "xx") == 0 ||
++				 strcmp(input, "--") == 0)) {
++			/* skip this byte and leave mask bit unset */
++		} else {
++			u8 hex;
++
++			strncpy(member, input, len);
++			if (!rtw_check_pattern_valid(member, sizeof(member))) {
++				RTW_INFO("%s:[ERROR] pattern is invalid!!\n",
++					 __func__);
++				goto error;
++			}
++
++			res = sscanf(member, "%02hhx", &hex);
++			pattern[pos] = hex;
++			mask_pos = pos / 8;
++			if (bit_mask)
++				bit_mask[mask_pos] |= 1 << (pos % 8);
++		}
++
++		pos++;
++		if (!cp)
++			break;
++		input = cp;
++	}
++
++	(*pattern_len) = pos;
++
++	return _TRUE;
++error:
++	return _FALSE;
++}
++
++bool rtw_check_pattern_valid(u8 *input, u8 len)
++{
++	int i = 0;
++	bool res = _FALSE;
++
++	if (len != 2)
++		goto exit;
++
++	for (i = 0 ; i < len ; i++)
++		if (IsHexDigit(input[i]) == _FALSE)
++			goto exit;
++
++	res = _SUCCESS;
++
++exit:
++	return res;
++}
++
++u8 rtw_set_default_pattern(_adapter *adapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++	struct registry_priv *pregistrypriv = &adapter->registrypriv;
++	u8 index = 0;
++	u8 currentip[4];
++	u8 multicast_addr[3] = {0x01, 0x00, 0x5e};
++	u8 multicast_ip[4] = {0xe0, 0x28, 0x28, 0x2a};
++	u8 unicast_mask[5] = {0x3f, 0x70, 0x80, 0xc0, 0x03};
++	u8 multicast_mask[5] = {0x07, 0x70, 0x80, 0xc0, 0x03};
++	u8 ip_protocol[3] = {0x08, 0x00, 0x45};
++	u8 icmp_protocol[1] = {0x01};
++	u8 tcp_protocol[1] = {0x06};
++	u8 udp_protocol[1] = {0x11};
++
++	if (pregistrypriv->default_patterns_en == _FALSE)
++		return 0;
++
++	for (index = 0 ; index < DEFAULT_PATTERN_NUM ; index++) {
++		_rtw_memset(pwrpriv->patterns[index].content, 0,
++			    sizeof(pwrpriv->patterns[index].content));
++		_rtw_memset(pwrpriv->patterns[index].mask, 0,
++			    sizeof(pwrpriv->patterns[index].mask));
++		pwrpriv->patterns[index].len = 0;
++	}
++
++	rtw_get_current_ip_address(adapter, currentip);
++
++	/*TCP/ICMP unicast*/
++	for (index = 0 ; index < DEFAULT_PATTERN_NUM ; index++) {
++		switch (index) {
++		case 0:
++			_rtw_memcpy(pwrpriv->patterns[index].content,
++				    adapter_mac_addr(adapter),
++				    ETH_ALEN);
++			_rtw_memcpy(pwrpriv->patterns[index].content + ETH_TYPE_OFFSET,
++				    &ip_protocol, sizeof(ip_protocol));
++			_rtw_memcpy(pwrpriv->patterns[index].content + PROTOCOL_OFFSET,
++				    &tcp_protocol, sizeof(tcp_protocol));
++			_rtw_memcpy(pwrpriv->patterns[index].content + IP_OFFSET,
++				    &currentip, sizeof(currentip));
++			_rtw_memcpy(pwrpriv->patterns[index].mask,
++				    &unicast_mask, sizeof(unicast_mask));
++			pwrpriv->patterns[index].len = IP_OFFSET + sizeof(currentip);
++			break;
++		case 1:
++			_rtw_memcpy(pwrpriv->patterns[index].content,
++				    adapter_mac_addr(adapter),
++				    ETH_ALEN);
++			_rtw_memcpy(pwrpriv->patterns[index].content + ETH_TYPE_OFFSET,
++				    &ip_protocol, sizeof(ip_protocol));
++			_rtw_memcpy(pwrpriv->patterns[index].content + PROTOCOL_OFFSET,
++				    &icmp_protocol, sizeof(icmp_protocol));
++			_rtw_memcpy(pwrpriv->patterns[index].content + IP_OFFSET,
++				    &currentip, sizeof(currentip));
++			_rtw_memcpy(pwrpriv->patterns[index].mask,
++				    &unicast_mask, sizeof(unicast_mask));
++			pwrpriv->patterns[index].len = IP_OFFSET + sizeof(currentip);
++			break;
++		case 2:
++			_rtw_memcpy(pwrpriv->patterns[index].content, &multicast_addr,
++				    sizeof(multicast_addr));
++			_rtw_memcpy(pwrpriv->patterns[index].content + ETH_TYPE_OFFSET,
++				    &ip_protocol, sizeof(ip_protocol));
++			_rtw_memcpy(pwrpriv->patterns[index].content + PROTOCOL_OFFSET,
++				    &udp_protocol, sizeof(udp_protocol));
++			_rtw_memcpy(pwrpriv->patterns[index].content + IP_OFFSET,
++				    &multicast_ip, sizeof(multicast_ip));
++			_rtw_memcpy(pwrpriv->patterns[index].mask,
++				    &multicast_mask, sizeof(multicast_mask));
++			pwrpriv->patterns[index].len =
++				IP_OFFSET + sizeof(multicast_ip);
++			break;
++		}
++	}
++
++	return index;
++}
++
++bool rtw_read_from_frame_mask(_adapter *adapter, u8 idx)
++{
++	u32 data_l = 0, data_h = 0, rx_dma_buff_sz = 0, page_sz = 0;
++	u16 offset, rx_buf_ptr = 0;
++	u16 cam_start_offset = 0;
++	u16 ctrl_l = 0, ctrl_h = 0;
++	u8 count = 0, tmp = 0;
++	int i = 0;
++	bool res = _TRUE;
++
++	if (idx > MAX_WKFM_NUM) {
++		RTW_INFO("[Error]: %s, pattern index is out of range\n",
++			 __func__);
++		return _FALSE;
++	}
++
++	rtw_hal_get_def_var(adapter, HAL_DEF_RX_DMA_SZ_WOW,
++			    (u8 *)&rx_dma_buff_sz);
++
++	if (rx_dma_buff_sz == 0) {
++		RTW_INFO("[Error]: %s, rx_dma_buff_sz is 0!!\n", __func__);
++		return _FALSE;
++	}
++
++	rtw_hal_get_def_var(adapter, HAL_DEF_RX_PAGE_SIZE, (u8 *)&page_sz);
++
++	if (page_sz == 0) {
++		RTW_INFO("[Error]: %s, page_sz is 0!!\n", __func__);
++		return _FALSE;
++	}
++
++	offset = (u16)PageNum(rx_dma_buff_sz, page_sz);
++	cam_start_offset = offset * page_sz;
++
++	ctrl_l = 0x0;
++	ctrl_h = 0x0;
++
++	/* Enable RX packet buffer access */
++	rtw_write8(adapter, REG_PKT_BUFF_ACCESS_CTRL, RXPKT_BUF_SELECT);
++
++	/* Read the WKFM CAM */
++	for (i = 0; i < (WKFMCAM_ADDR_NUM / 2); i++) {
++		/*
++		 * Set Rx packet buffer offset.
++		 * RxBufer pointer increases 1, we can access 8 bytes in Rx packet buffer.
++		 * CAM start offset (unit: 1 byte) =  Index*WKFMCAM_SIZE
++		 * RxBufer pointer addr = (CAM start offset + per entry offset of a WKFMCAM)/8
++		 * * Index: The index of the wake up frame mask
++		 * * WKFMCAM_SIZE: the total size of one WKFM CAM
++		 * * per entry offset of a WKFM CAM: Addr i * 4 bytes
++		 */
++		rx_buf_ptr =
++			(cam_start_offset + idx * WKFMCAM_SIZE + i * 8) >> 3;
++		rtw_write16(adapter, REG_PKTBUF_DBG_CTRL, rx_buf_ptr);
++
++		rtw_write16(adapter, REG_RXPKTBUF_CTRL, ctrl_l);
++		data_l = rtw_read32(adapter, REG_PKTBUF_DBG_DATA_L);
++		data_h = rtw_read32(adapter, REG_PKTBUF_DBG_DATA_H);
++
++		RTW_INFO("[%d]: %08x %08x\n", i, data_h, data_l);
++
++		count = 0;
++
++		do {
++			tmp = rtw_read8(adapter, REG_RXPKTBUF_CTRL);
++			rtw_udelay_os(2);
++			count++;
++		} while (!tmp && count < 100);
++
++		if (count >= 100) {
++			RTW_INFO("%s count:%d\n", __func__, count);
++			res = _FALSE;
++		}
++	}
++
++	/* Disable RX packet buffer access */
++	rtw_write8(adapter, REG_PKT_BUFF_ACCESS_CTRL,
++		   DISABLE_TRXPKT_BUF_ACCESS);
++	return res;
++}
++
++bool rtw_write_to_frame_mask(_adapter *adapter, u8 idx,
++			     struct  rtl_wow_pattern *context)
++{
++	u32 data = 0, rx_dma_buff_sz = 0, page_sz = 0;
++	u16 offset, rx_buf_ptr = 0;
++	u16 cam_start_offset = 0;
++	u16 ctrl_l = 0, ctrl_h = 0;
++	u8 count = 0, tmp = 0;
++	int res = 0, i = 0;
++
++	if (idx > MAX_WKFM_NUM) {
++		RTW_INFO("[Error]: %s, pattern index is out of range\n",
++			 __func__);
++		return _FALSE;
++	}
++
++	rtw_hal_get_def_var(adapter, HAL_DEF_RX_DMA_SZ_WOW,
++			    (u8 *)&rx_dma_buff_sz);
++
++	if (rx_dma_buff_sz == 0) {
++		RTW_INFO("[Error]: %s, rx_dma_buff_sz is 0!!\n", __func__);
++		return _FALSE;
++	}
++
++	rtw_hal_get_def_var(adapter, HAL_DEF_RX_PAGE_SIZE, (u8 *)&page_sz);
++
++	if (page_sz == 0) {
++		RTW_INFO("[Error]: %s, page_sz is 0!!\n", __func__);
++		return _FALSE;
++	}
++
++	offset = (u16)PageNum(rx_dma_buff_sz, page_sz);
++
++	cam_start_offset = offset * page_sz;
++
++	if (IS_HARDWARE_TYPE_8188E(adapter)) {
++		ctrl_l = 0x0001;
++		ctrl_h = 0x0001;
++	} else {
++		ctrl_l = 0x0f01;
++		ctrl_h = 0xf001;
++	}
++
++	/* Enable RX packet buffer access */
++	rtw_write8(adapter, REG_PKT_BUFF_ACCESS_CTRL, RXPKT_BUF_SELECT);
++
++	/* Write the WKFM CAM */
++	for (i = 0; i < WKFMCAM_ADDR_NUM; i++) {
++		/*
++		 * Set Rx packet buffer offset.
++		 * RxBufer pointer increases 1, we can access 8 bytes in Rx packet buffer.
++		 * CAM start offset (unit: 1 byte) =  Index*WKFMCAM_SIZE
++		 * RxBufer pointer addr = (CAM start offset + per entry offset of a WKFMCAM)/8
++		 * * Index: The index of the wake up frame mask
++		 * * WKFMCAM_SIZE: the total size of one WKFM CAM
++		 * * per entry offset of a WKFM CAM: Addr i * 4 bytes
++		 */
++		rx_buf_ptr =
++			(cam_start_offset + idx * WKFMCAM_SIZE + i * 4) >> 3;
++		rtw_write16(adapter, REG_PKTBUF_DBG_CTRL, rx_buf_ptr);
++
++		if (i == 0) {
++			if (context->type == PATTERN_VALID)
++				data = BIT(31);
++			else if (context->type == PATTERN_BROADCAST)
++				data = BIT(31) | BIT(26);
++			else if (context->type == PATTERN_MULTICAST)
++				data = BIT(31) | BIT(25);
++			else if (context->type == PATTERN_UNICAST)
++				data = BIT(31) | BIT(24);
++
++			if (context->crc != 0)
++				data |= context->crc;
++
++			rtw_write32(adapter, REG_PKTBUF_DBG_DATA_L, data);
++			rtw_write16(adapter, REG_RXPKTBUF_CTRL, ctrl_l);
++		} else if (i == 1) {
++			data = 0;
++			rtw_write32(adapter, REG_PKTBUF_DBG_DATA_H, data);
++			rtw_write16(adapter, REG_RXPKTBUF_CTRL, ctrl_h);
++		} else if (i == 2 || i == 4) {
++			data = context->mask[i - 2];
++			rtw_write32(adapter, REG_PKTBUF_DBG_DATA_L, data);
++			/* write to RX packet buffer*/
++			rtw_write16(adapter, REG_RXPKTBUF_CTRL, ctrl_l);
++		} else if (i == 3 || i == 5) {
++			data = context->mask[i - 2];
++			rtw_write32(adapter, REG_PKTBUF_DBG_DATA_H, data);
++			/* write to RX packet buffer*/
++			rtw_write16(adapter, REG_RXPKTBUF_CTRL, ctrl_h);
++		}
++
++		count = 0;
++		do {
++			tmp = rtw_read8(adapter, REG_RXPKTBUF_CTRL);
++			rtw_udelay_os(2);
++			count++;
++		} while (tmp && count < 100);
++
++		if (count >= 100)
++			res = _FALSE;
++		else
++			res = _TRUE;
++	}
++
++	/* Disable RX packet buffer access */
++	rtw_write8(adapter, REG_PKT_BUFF_ACCESS_CTRL,
++		   DISABLE_TRXPKT_BUF_ACCESS);
++
++	return res;
++}
++
++
++void rtw_dump_priv_pattern(_adapter *adapter, u8 idx)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(adapter);
++	char str_1[128];
++	char *p_str;
++	u8 val8 = 0;
++	int i = 0, j = 0, len = 0, max_len = 0;
++
++	RTW_INFO("=========[%d]========\n", idx);
++
++	RTW_INFO(">>>priv_pattern_content:\n");
++	p_str = str_1;
++	max_len = sizeof(str_1);
++	for (i = 0 ; i < MAX_WKFM_PATTERN_SIZE / 8 ; i++) {
++		_rtw_memset(p_str, 0, max_len);
++		len = 0;
++		for (j = 0 ; j < 8 ; j++) {
++			val8 = pwrctl->patterns[idx].content[i * 8 + j];
++			len += snprintf(p_str + len, max_len - len,
++					"%02x ", val8);
++		}
++		RTW_INFO("%s\n", p_str);
++	}
++
++	RTW_INFO(">>>priv_pattern_mask:\n");
++	for (i = 0 ; i < MAX_WKFM_SIZE / 8 ; i++) {
++		_rtw_memset(p_str, 0, max_len);
++		len = 0;
++		for (j = 0 ; j < 8 ; j++) {
++			val8 = pwrctl->patterns[idx].mask[i * 8 + j];
++			len += snprintf(p_str + len, max_len - len,
++					"%02x ", val8);
++		}
++		RTW_INFO("%s\n", p_str);
++	}
++
++	RTW_INFO(">>>priv_pattern_len:\n");
++	RTW_INFO("%s: len: %d\n", __func__, pwrctl->patterns[idx].len);
++}
++
++void rtw_clean_pattern(_adapter *adapter)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(adapter);
++	struct rtl_wow_pattern zero_pattern;
++	int i = 0;
++
++	_rtw_memset(&zero_pattern, 0, sizeof(struct rtl_wow_pattern));
++
++	zero_pattern.type = PATTERN_INVALID;
++
++	for (i = 0; i < MAX_WKFM_NUM; i++)
++		rtw_write_to_frame_mask(adapter, i, &zero_pattern);
++
++	rtw_write8(adapter, REG_WKFMCAM_NUM, 0);
++}
++
++void rtw_get_sec_iv(PADAPTER padapter, u8 *pcur_dot11txpn, u8 *StaAddr)
++{
++	struct sta_info		*psta;
++	struct security_priv *psecpriv = &padapter->securitypriv;
++
++	_rtw_memset(pcur_dot11txpn, 0, 8);
++	if (NULL == StaAddr)
++		return;
++	psta = rtw_get_stainfo(&padapter->stapriv, StaAddr);
++	RTW_INFO("%s(): StaAddr: %02x %02x %02x %02x %02x %02x\n",
++		 __func__, StaAddr[0], StaAddr[1], StaAddr[2],
++		 StaAddr[3], StaAddr[4], StaAddr[5]);
++
++	if (psta) {
++		if (psecpriv->dot11PrivacyAlgrthm != _NO_PRIVACY_ && psta->dot11txpn.val > 0)
++			psta->dot11txpn.val--;
++		AES_IV(pcur_dot11txpn, psta->dot11txpn, 0);
++
++		RTW_INFO("%s(): CurrentIV: %02x %02x %02x %02x %02x %02x %02x %02x\n"
++			 , __func__, pcur_dot11txpn[0], pcur_dot11txpn[1],
++			pcur_dot11txpn[2], pcur_dot11txpn[3], pcur_dot11txpn[4],
++			pcur_dot11txpn[5], pcur_dot11txpn[6], pcur_dot11txpn[7]);
++	}
++}
++void rtw_set_sec_pn(PADAPTER padapter)
++{
++	struct sta_info         *psta;
++	struct mlme_ext_priv    *pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info    *pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct security_priv *psecpriv = &padapter->securitypriv;
++
++	psta = rtw_get_stainfo(&padapter->stapriv,
++			       get_my_bssid(&pmlmeinfo->network));
++
++	if (psta) {
++		if (pwrpriv->wowlan_fw_iv > psta->dot11txpn.val) {
++			if (psecpriv->dot11PrivacyAlgrthm != _NO_PRIVACY_)
++				psta->dot11txpn.val = pwrpriv->wowlan_fw_iv + 2;
++		} else {
++			RTW_INFO("%s(): FW IV is smaller than driver\n", __func__);
++			psta->dot11txpn.val += 2;
++		}
++		RTW_INFO("%s: dot11txpn: 0x%016llx\n", __func__ , psta->dot11txpn.val);
++	}
++}
++#endif /* CONFIG_WOWLAN */
++
++#ifdef CONFIG_PNO_SUPPORT
++#define	CSCAN_TLV_TYPE_SSID_IE	'S'
++#define CIPHER_IE "key_mgmt="
++#define CIPHER_NONE "NONE"
++#define CIPHER_WPA_PSK "WPA-PSK"
++#define CIPHER_WPA_EAP "WPA-EAP IEEE8021X"
++/*
++ *  SSIDs list parsing from cscan tlv list
++ */
++int rtw_parse_ssid_list_tlv(char **list_str, pno_ssid_t *ssid,
++			    int max, int *bytes_left)
++{
++	char *str;
++
++	int idx = 0;
++
++	if ((list_str == NULL) || (*list_str == NULL) || (*bytes_left < 0)) {
++		RTW_INFO("%s error paramters\n", __func__);
++		return -1;
++	}
++
++	str = *list_str;
++	while (*bytes_left > 0) {
++
++		if (str[0] != CSCAN_TLV_TYPE_SSID_IE) {
++			*list_str = str;
++			RTW_INFO("nssid=%d left_parse=%d %d\n", idx, *bytes_left, str[0]);
++			return idx;
++		}
++
++		/* Get proper CSCAN_TLV_TYPE_SSID_IE */
++		*bytes_left -= 1;
++		str += 1;
++
++		if (str[0] == 0) {
++			/* Broadcast SSID */
++			ssid[idx].SSID_len = 0;
++			memset((char *)ssid[idx].SSID, 0x0, WLAN_SSID_MAXLEN);
++			*bytes_left -= 1;
++			str += 1;
++
++			RTW_INFO("BROADCAST SCAN  left=%d\n", *bytes_left);
++		} else if (str[0] <= WLAN_SSID_MAXLEN) {
++			/* Get proper SSID size */
++			ssid[idx].SSID_len = str[0];
++			*bytes_left -= 1;
++			str += 1;
++
++			/* Get SSID */
++			if (ssid[idx].SSID_len > *bytes_left) {
++				RTW_INFO("%s out of memory range len=%d but left=%d\n",
++					__func__, ssid[idx].SSID_len, *bytes_left);
++				return -1;
++			}
++
++			memcpy((char *)ssid[idx].SSID, str, ssid[idx].SSID_len);
++
++			*bytes_left -= ssid[idx].SSID_len;
++			str += ssid[idx].SSID_len;
++
++			RTW_INFO("%s :size=%d left=%d\n",
++				(char *)ssid[idx].SSID, ssid[idx].SSID_len, *bytes_left);
++		} else {
++			RTW_INFO("### SSID size more that %d\n", str[0]);
++			return -1;
++		}
++
++		if (idx++ >  max) {
++			RTW_INFO("%s number of SSIDs more that %d\n", __func__, idx);
++			return -1;
++		}
++	}
++
++	*list_str = str;
++	return idx;
++}
++
++int rtw_parse_cipher_list(struct pno_nlo_info *nlo_info, char *list_str)
++{
++
++	char *pch, *pnext, *pend;
++	u8 key_len = 0, index = 0;
++
++	pch = list_str;
++
++	if (nlo_info == NULL || list_str == NULL) {
++		RTW_INFO("%s error paramters\n", __func__);
++		return -1;
++	}
++
++	while (strlen(pch) != 0) {
++		pnext = strstr(pch, "key_mgmt=");
++		if (pnext != NULL) {
++			pch = pnext + strlen(CIPHER_IE);
++			pend = strstr(pch, "}");
++			if (strncmp(pch, CIPHER_NONE,
++				    strlen(CIPHER_NONE)) == 0)
++				nlo_info->ssid_cipher_info[index] = 0x00;
++			else if (strncmp(pch, CIPHER_WPA_PSK,
++					 strlen(CIPHER_WPA_PSK)) == 0)
++				nlo_info->ssid_cipher_info[index] = 0x66;
++			else if (strncmp(pch, CIPHER_WPA_EAP,
++					 strlen(CIPHER_WPA_EAP)) == 0)
++				nlo_info->ssid_cipher_info[index] = 0x01;
++			index++;
++			pch = pend + 1;
++		} else
++			break;
++	}
++	return 0;
++}
++
++int rtw_dev_nlo_info_set(struct pno_nlo_info *nlo_info, pno_ssid_t *ssid,
++		 int num, int pno_time, int pno_repeat, int pno_freq_expo_max)
++{
++
++	int i = 0;
++	struct file *fp;
++	mm_segment_t fs;
++	loff_t pos = 0;
++	u8 *source = NULL;
++	long len = 0;
++
++	RTW_INFO("+%s+\n", __func__);
++
++	nlo_info->fast_scan_period = pno_time;
++	nlo_info->ssid_num = num & BIT_LEN_MASK_32(8);
++	nlo_info->hidden_ssid_num = num & BIT_LEN_MASK_32(8);
++	nlo_info->slow_scan_period = (pno_time * 2);
++	nlo_info->fast_scan_iterations = 5;
++
++	if (nlo_info->hidden_ssid_num > 8)
++		nlo_info->hidden_ssid_num = 8;
++
++	/* TODO: channel list and probe index is all empty. */
++	for (i = 0 ; i < num ; i++) {
++		nlo_info->ssid_length[i]
++			= ssid[i].SSID_len;
++	}
++
++	/* cipher array */
++	fp = filp_open("/home/timlee/wpa_kk/wpa.conf", O_RDONLY,  0644);
++	if (IS_ERR(fp)) {
++		RTW_INFO("Error, wpa_supplicant.conf doesn't exist.\n");
++		RTW_INFO("Error, cipher array using default value.\n");
++		return 0;
++	}
++
++	len = i_size_read(fp->f_path.dentry->d_inode);
++	if (len < 0 || len > 2048) {
++		RTW_INFO("Error, file size is bigger than 2048.\n");
++		RTW_INFO("Error, cipher array using default value.\n");
++		return 0;
++	}
++
++	fs = get_fs();
++	set_fs(KERNEL_DS);
++
++	source = rtw_zmalloc(2048);
++
++	if (source != NULL) {
++		len = vfs_read(fp, source, len, &pos);
++		rtw_parse_cipher_list(nlo_info, source);
++		rtw_mfree(source, 2048);
++	}
++
++	set_fs(fs);
++	filp_close(fp, NULL);
++
++	RTW_INFO("-%s-\n", __func__);
++	return 0;
++}
++
++int rtw_dev_ssid_list_set(struct pno_ssid_list *pno_ssid_list,
++			  pno_ssid_t *ssid, u8 num)
++{
++
++	int i = 0;
++	if (num > MAX_PNO_LIST_COUNT)
++		num = MAX_PNO_LIST_COUNT;
++
++	for (i = 0 ; i < num ; i++) {
++		_rtw_memcpy(&pno_ssid_list->node[i].SSID,
++			    ssid[i].SSID, ssid[i].SSID_len);
++		pno_ssid_list->node[i].SSID_len = ssid[i].SSID_len;
++	}
++	return 0;
++}
++
++int rtw_dev_scan_info_set(_adapter *padapter, pno_ssid_t *ssid,
++	  unsigned char ch, unsigned char ch_offset, unsigned short bw_mode)
++{
++
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	struct pno_scan_info *scan_info = pwrctl->pscan_info;
++	int i;
++
++	scan_info->channel_num = MAX_SCAN_LIST_COUNT;
++	scan_info->orig_ch = ch;
++	scan_info->orig_bw = bw_mode;
++	scan_info->orig_40_offset = ch_offset;
++
++	for (i = 0 ; i < scan_info->channel_num ; i++) {
++		if (i < 11)
++			scan_info->ssid_channel_info[i].active = 1;
++		else
++			scan_info->ssid_channel_info[i].active = 0;
++
++		scan_info->ssid_channel_info[i].timeout = 100;
++
++		scan_info->ssid_channel_info[i].tx_power =
++			PHY_GetTxPowerIndex(padapter, 0, 0x02, bw_mode, i + 1);
++
++		scan_info->ssid_channel_info[i].channel = i + 1;
++	}
++
++	RTW_INFO("%s, channel_num: %d, orig_ch: %d, orig_bw: %d orig_40_offset: %d\n",
++		 __func__, scan_info->channel_num, scan_info->orig_ch,
++		 scan_info->orig_bw, scan_info->orig_40_offset);
++	return 0;
++}
++
++int rtw_dev_pno_set(struct net_device *net, pno_ssid_t *ssid, int num,
++		    int pno_time, int pno_repeat, int pno_freq_expo_max)
++{
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	int ret = -1;
++
++	if (num == 0) {
++		RTW_INFO("%s, nssid is zero, no need to setup pno ssid list\n", __func__);
++		return 0;
++	}
++
++	if (pwrctl == NULL) {
++		RTW_INFO("%s, ERROR: pwrctl is NULL\n", __func__);
++		return -1;
++	} else {
++		pwrctl->pnlo_info =
++			(pno_nlo_info_t *)rtw_zmalloc(sizeof(pno_nlo_info_t));
++		pwrctl->pno_ssid_list =
++			(pno_ssid_list_t *)rtw_zmalloc(sizeof(pno_ssid_list_t));
++		pwrctl->pscan_info =
++			(pno_scan_info_t *)rtw_zmalloc(sizeof(pno_scan_info_t));
++	}
++
++	if (pwrctl->pnlo_info == NULL ||
++	    pwrctl->pscan_info == NULL ||
++	    pwrctl->pno_ssid_list == NULL) {
++		RTW_INFO("%s, ERROR: alloc nlo_info, ssid_list, scan_info fail\n", __func__);
++		goto failing;
++	}
++
++	pwrctl->pno_in_resume = _FALSE;
++
++	pwrctl->pno_inited = _TRUE;
++	/* NLO Info */
++	ret = rtw_dev_nlo_info_set(pwrctl->pnlo_info, ssid, num,
++				   pno_time, pno_repeat, pno_freq_expo_max);
++
++	/* SSID Info */
++	ret = rtw_dev_ssid_list_set(pwrctl->pno_ssid_list, ssid, num);
++
++	/* SCAN Info */
++	ret = rtw_dev_scan_info_set(padapter, ssid, pmlmeext->cur_channel,
++			    pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++
++	RTW_INFO("+%s num: %d, pno_time: %d, pno_repeat:%d, pno_freq_expo_max:%d+\n",
++		 __func__, num, pno_time, pno_repeat, pno_freq_expo_max);
++
++	return 0;
++
++failing:
++	if (pwrctl->pnlo_info) {
++		rtw_mfree((u8 *)pwrctl->pnlo_info, sizeof(pno_nlo_info_t));
++		pwrctl->pnlo_info = NULL;
++	}
++	if (pwrctl->pno_ssid_list) {
++		rtw_mfree((u8 *)pwrctl->pno_ssid_list, sizeof(pno_ssid_list_t));
++		pwrctl->pno_ssid_list = NULL;
++	}
++	if (pwrctl->pscan_info) {
++		rtw_mfree((u8 *)pwrctl->pscan_info, sizeof(pno_scan_info_t));
++		pwrctl->pscan_info = NULL;
++	}
++
++	return -1;
++}
++
++#ifdef CONFIG_PNO_SET_DEBUG
++void rtw_dev_pno_debug(struct net_device *net)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	int i = 0, j = 0;
++
++	RTW_INFO("*******NLO_INFO********\n");
++	RTW_INFO("ssid_num: %d\n", pwrctl->pnlo_info->ssid_num);
++	RTW_INFO("fast_scan_iterations: %d\n",
++		 pwrctl->pnlo_info->fast_scan_iterations);
++	RTW_INFO("fast_scan_period: %d\n", pwrctl->pnlo_info->fast_scan_period);
++	RTW_INFO("slow_scan_period: %d\n", pwrctl->pnlo_info->slow_scan_period);
++
++
++
++	for (i = 0 ; i < MAX_PNO_LIST_COUNT ; i++) {
++		RTW_INFO("%d SSID (%s) length (%d) cipher(%x) channel(%d)\n",
++			i, pwrctl->pno_ssid_list->node[i].SSID, pwrctl->pnlo_info->ssid_length[i],
++			pwrctl->pnlo_info->ssid_cipher_info[i], pwrctl->pnlo_info->ssid_channel_info[i]);
++	}
++
++	RTW_INFO("******SCAN_INFO******\n");
++	RTW_INFO("ch_num: %d\n", pwrctl->pscan_info->channel_num);
++	RTW_INFO("orig_ch: %d\n", pwrctl->pscan_info->orig_ch);
++	RTW_INFO("orig bw: %d\n", pwrctl->pscan_info->orig_bw);
++	RTW_INFO("orig 40 offset: %d\n", pwrctl->pscan_info->orig_40_offset);
++	for (i = 0 ; i < MAX_SCAN_LIST_COUNT ; i++) {
++		RTW_INFO("[%02d] avtive:%d, timeout:%d, tx_power:%d, ch:%02d\n",
++			 i, pwrctl->pscan_info->ssid_channel_info[i].active,
++			 pwrctl->pscan_info->ssid_channel_info[i].timeout,
++			 pwrctl->pscan_info->ssid_channel_info[i].tx_power,
++			 pwrctl->pscan_info->ssid_channel_info[i].channel);
++	}
++	RTW_INFO("*****************\n");
++}
++#endif /* CONFIG_PNO_SET_DEBUG */
++#endif /* CONFIG_PNO_SUPPORT */
+diff --git a/drivers/net/wireless/rtl8723du/core/rtw_xmit.c b/drivers/net/wireless/rtl8723du/core/rtw_xmit.c
+new file mode 100644
+index 0000000..0cbd99f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/core/rtw_xmit.c
+@@ -0,0 +1,5054 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_XMIT_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#if defined(PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++	#error "Shall be Linux or Windows, but not both!\n"
++#endif
++
++
++static u8 P802_1H_OUI[P80211_OUI_LEN] = { 0x00, 0x00, 0xf8 };
++static u8 RFC1042_OUI[P80211_OUI_LEN] = { 0x00, 0x00, 0x00 };
++
++static void _init_txservq(struct tx_servq *ptxservq)
++{
++	_rtw_init_listhead(&ptxservq->tx_pending);
++	_rtw_init_queue(&ptxservq->sta_pending);
++	ptxservq->qcnt = 0;
++}
++
++
++void	_rtw_init_sta_xmit_priv(struct sta_xmit_priv *psta_xmitpriv)
++{
++
++
++	_rtw_memset((unsigned char *)psta_xmitpriv, 0, sizeof(struct sta_xmit_priv));
++
++	_rtw_spinlock_init(&psta_xmitpriv->lock);
++
++	/* for(i = 0 ; i < MAX_NUMBLKS; i++) */
++	/*	_init_txservq(&(psta_xmitpriv->blk_q[i])); */
++
++	_init_txservq(&psta_xmitpriv->be_q);
++	_init_txservq(&psta_xmitpriv->bk_q);
++	_init_txservq(&psta_xmitpriv->vi_q);
++	_init_txservq(&psta_xmitpriv->vo_q);
++	_rtw_init_listhead(&psta_xmitpriv->legacy_dz);
++	_rtw_init_listhead(&psta_xmitpriv->apsd);
++
++
++}
++
++s32	_rtw_init_xmit_priv(struct xmit_priv *pxmitpriv, _adapter *padapter)
++{
++	int i;
++	struct xmit_buf *pxmitbuf;
++	struct xmit_frame *pxframe;
++	sint	res = _SUCCESS;
++
++
++	/* We don't need to memset padapter->XXX to zero, because adapter is allocated by rtw_zvmalloc(). */
++	/* _rtw_memset((unsigned char *)pxmitpriv, 0, sizeof(struct xmit_priv)); */
++
++	_rtw_spinlock_init(&pxmitpriv->lock);
++	_rtw_spinlock_init(&pxmitpriv->lock_sctx);
++	_rtw_init_sema(&pxmitpriv->xmit_sema, 0);
++	_rtw_init_sema(&pxmitpriv->terminate_xmitthread_sema, 0);
++
++	/*
++	Please insert all the queue initializaiton using _rtw_init_queue below
++	*/
++
++	pxmitpriv->adapter = padapter;
++
++	/* for(i = 0 ; i < MAX_NUMBLKS; i++) */
++	/*	_rtw_init_queue(&pxmitpriv->blk_strms[i]); */
++
++	_rtw_init_queue(&pxmitpriv->be_pending);
++	_rtw_init_queue(&pxmitpriv->bk_pending);
++	_rtw_init_queue(&pxmitpriv->vi_pending);
++	_rtw_init_queue(&pxmitpriv->vo_pending);
++	_rtw_init_queue(&pxmitpriv->bm_pending);
++
++	/* _rtw_init_queue(&pxmitpriv->legacy_dz_queue); */
++	/* _rtw_init_queue(&pxmitpriv->apsd_queue); */
++
++	_rtw_init_queue(&pxmitpriv->free_xmit_queue);
++
++	/*
++	Please allocate memory with the sz = (struct xmit_frame) * NR_XMITFRAME,
++	and initialize free_xmit_frame below.
++	Please also apply  free_txobj to link_up all the xmit_frames...
++	*/
++
++	pxmitpriv->pallocated_frame_buf = rtw_zvmalloc(NR_XMITFRAME * sizeof(struct xmit_frame) + 4);
++
++	if (pxmitpriv->pallocated_frame_buf  == NULL) {
++		pxmitpriv->pxmit_frame_buf = NULL;
++		res = _FAIL;
++		goto exit;
++	}
++	pxmitpriv->pxmit_frame_buf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitpriv->pallocated_frame_buf), 4);
++	/* pxmitpriv->pxmit_frame_buf = pxmitpriv->pallocated_frame_buf + 4 - */
++	/*						((SIZE_PTR) (pxmitpriv->pallocated_frame_buf) &3); */
++
++	pxframe = (struct xmit_frame *) pxmitpriv->pxmit_frame_buf;
++
++	for (i = 0; i < NR_XMITFRAME; i++) {
++		_rtw_init_listhead(&(pxframe->list));
++
++		pxframe->padapter = padapter;
++		pxframe->frame_tag = NULL_FRAMETAG;
++
++		pxframe->pkt = NULL;
++
++		pxframe->buf_addr = NULL;
++		pxframe->pxmitbuf = NULL;
++
++		rtw_list_insert_tail(&(pxframe->list), &(pxmitpriv->free_xmit_queue.queue));
++
++		pxframe++;
++	}
++
++	pxmitpriv->free_xmitframe_cnt = NR_XMITFRAME;
++
++	pxmitpriv->frag_len = MAX_FRAG_THRESHOLD;
++
++
++	/* init xmit_buf */
++	_rtw_init_queue(&pxmitpriv->free_xmitbuf_queue);
++	_rtw_init_queue(&pxmitpriv->pending_xmitbuf_queue);
++
++	pxmitpriv->pallocated_xmitbuf = rtw_zvmalloc(NR_XMITBUFF * sizeof(struct xmit_buf) + 4);
++
++	if (pxmitpriv->pallocated_xmitbuf  == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pxmitpriv->pxmitbuf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitpriv->pallocated_xmitbuf), 4);
++	/* pxmitpriv->pxmitbuf = pxmitpriv->pallocated_xmitbuf + 4 - */
++	/*						((SIZE_PTR) (pxmitpriv->pallocated_xmitbuf) &3); */
++
++	pxmitbuf = (struct xmit_buf *)pxmitpriv->pxmitbuf;
++
++	for (i = 0; i < NR_XMITBUFF; i++) {
++		_rtw_init_listhead(&pxmitbuf->list);
++
++		pxmitbuf->priv_data = NULL;
++		pxmitbuf->padapter = padapter;
++		pxmitbuf->buf_tag = XMITBUF_DATA;
++
++		/* Tx buf allocation may fail sometimes, so sleep and retry. */
++		res = rtw_os_xmit_resource_alloc(padapter, pxmitbuf, (MAX_XMITBUF_SZ + XMITBUF_ALIGN_SZ), _TRUE);
++		if (res == _FAIL) {
++			rtw_msleep_os(10);
++			res = rtw_os_xmit_resource_alloc(padapter, pxmitbuf, (MAX_XMITBUF_SZ + XMITBUF_ALIGN_SZ), _TRUE);
++			if (res == _FAIL)
++				goto exit;
++		}
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		pxmitbuf->phead = pxmitbuf->pbuf;
++		pxmitbuf->pend = pxmitbuf->pbuf + MAX_XMITBUF_SZ;
++		pxmitbuf->len = 0;
++		pxmitbuf->pdata = pxmitbuf->ptail = pxmitbuf->phead;
++#endif
++
++		pxmitbuf->flags = XMIT_VO_QUEUE;
++
++		rtw_list_insert_tail(&pxmitbuf->list, &(pxmitpriv->free_xmitbuf_queue.queue));
++#ifdef DBG_XMIT_BUF
++		pxmitbuf->no = i;
++#endif
++
++		pxmitbuf++;
++
++	}
++
++	pxmitpriv->free_xmitbuf_cnt = NR_XMITBUFF;
++
++	/* init xframe_ext queue,  the same count as extbuf */
++	_rtw_init_queue(&pxmitpriv->free_xframe_ext_queue);
++
++	pxmitpriv->xframe_ext_alloc_addr = rtw_zvmalloc(NR_XMIT_EXTBUFF * sizeof(struct xmit_frame) + 4);
++
++	if (pxmitpriv->xframe_ext_alloc_addr  == NULL) {
++		pxmitpriv->xframe_ext = NULL;
++		res = _FAIL;
++		goto exit;
++	}
++	pxmitpriv->xframe_ext = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitpriv->xframe_ext_alloc_addr), 4);
++	pxframe = (struct xmit_frame *)pxmitpriv->xframe_ext;
++
++	for (i = 0; i < NR_XMIT_EXTBUFF; i++) {
++		_rtw_init_listhead(&(pxframe->list));
++
++		pxframe->padapter = padapter;
++		pxframe->frame_tag = NULL_FRAMETAG;
++
++		pxframe->pkt = NULL;
++
++		pxframe->buf_addr = NULL;
++		pxframe->pxmitbuf = NULL;
++
++		pxframe->ext_tag = 1;
++
++		rtw_list_insert_tail(&(pxframe->list), &(pxmitpriv->free_xframe_ext_queue.queue));
++
++		pxframe++;
++	}
++	pxmitpriv->free_xframe_ext_cnt = NR_XMIT_EXTBUFF;
++
++	/* Init xmit extension buff */
++	_rtw_init_queue(&pxmitpriv->free_xmit_extbuf_queue);
++
++	pxmitpriv->pallocated_xmit_extbuf = rtw_zvmalloc(NR_XMIT_EXTBUFF * sizeof(struct xmit_buf) + 4);
++
++	if (pxmitpriv->pallocated_xmit_extbuf  == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pxmitpriv->pxmit_extbuf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitpriv->pallocated_xmit_extbuf), 4);
++
++	pxmitbuf = (struct xmit_buf *)pxmitpriv->pxmit_extbuf;
++
++	for (i = 0; i < NR_XMIT_EXTBUFF; i++) {
++		_rtw_init_listhead(&pxmitbuf->list);
++
++		pxmitbuf->priv_data = NULL;
++		pxmitbuf->padapter = padapter;
++		pxmitbuf->buf_tag = XMITBUF_MGNT;
++
++		res = rtw_os_xmit_resource_alloc(padapter, pxmitbuf, MAX_XMIT_EXTBUF_SZ + XMITBUF_ALIGN_SZ, _TRUE);
++		if (res == _FAIL) {
++			res = _FAIL;
++			goto exit;
++		}
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		pxmitbuf->phead = pxmitbuf->pbuf;
++		pxmitbuf->pend = pxmitbuf->pbuf + MAX_XMIT_EXTBUF_SZ;
++		pxmitbuf->len = 0;
++		pxmitbuf->pdata = pxmitbuf->ptail = pxmitbuf->phead;
++#endif
++
++		rtw_list_insert_tail(&pxmitbuf->list, &(pxmitpriv->free_xmit_extbuf_queue.queue));
++#ifdef DBG_XMIT_BUF_EXT
++		pxmitbuf->no = i;
++#endif
++		pxmitbuf++;
++
++	}
++
++	pxmitpriv->free_xmit_extbuf_cnt = NR_XMIT_EXTBUFF;
++
++	for (i = 0; i < CMDBUF_MAX; i++) {
++		pxmitbuf = &pxmitpriv->pcmd_xmitbuf[i];
++		if (pxmitbuf) {
++			_rtw_init_listhead(&pxmitbuf->list);
++
++			pxmitbuf->priv_data = NULL;
++			pxmitbuf->padapter = padapter;
++			pxmitbuf->buf_tag = XMITBUF_CMD;
++
++			res = rtw_os_xmit_resource_alloc(padapter, pxmitbuf, MAX_CMDBUF_SZ + XMITBUF_ALIGN_SZ, _TRUE);
++			if (res == _FAIL) {
++				res = _FAIL;
++				goto exit;
++			}
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++			pxmitbuf->phead = pxmitbuf->pbuf;
++			pxmitbuf->pend = pxmitbuf->pbuf + MAX_CMDBUF_SZ;
++			pxmitbuf->len = 0;
++			pxmitbuf->pdata = pxmitbuf->ptail = pxmitbuf->phead;
++#endif
++			pxmitbuf->alloc_sz = MAX_CMDBUF_SZ + XMITBUF_ALIGN_SZ;
++		}
++	}
++
++	rtw_alloc_hwxmits(padapter);
++	rtw_init_hwxmits(pxmitpriv->hwxmits, pxmitpriv->hwxmit_entry);
++
++	for (i = 0; i < 4; i++)
++		pxmitpriv->wmm_para_seq[i] = i;
++
++#ifdef CONFIG_USB_HCI
++	pxmitpriv->txirp_cnt = 1;
++
++	_rtw_init_sema(&(pxmitpriv->tx_retevt), 0);
++
++	/* per AC pending irp */
++	pxmitpriv->beq_cnt = 0;
++	pxmitpriv->bkq_cnt = 0;
++	pxmitpriv->viq_cnt = 0;
++	pxmitpriv->voq_cnt = 0;
++#endif
++
++
++#ifdef CONFIG_XMIT_ACK
++	pxmitpriv->ack_tx = _FALSE;
++	_rtw_mutex_init(&pxmitpriv->ack_tx_mutex);
++	rtw_sctx_init(&pxmitpriv->ack_tx_ops, 0);
++#endif
++
++	rtw_hal_init_xmit_priv(padapter);
++
++exit:
++
++
++	return res;
++}
++
++void  rtw_mfree_xmit_priv_lock(struct xmit_priv *pxmitpriv);
++void  rtw_mfree_xmit_priv_lock(struct xmit_priv *pxmitpriv)
++{
++	_rtw_spinlock_free(&pxmitpriv->lock);
++	_rtw_free_sema(&pxmitpriv->xmit_sema);
++	_rtw_free_sema(&pxmitpriv->terminate_xmitthread_sema);
++
++	_rtw_spinlock_free(&pxmitpriv->be_pending.lock);
++	_rtw_spinlock_free(&pxmitpriv->bk_pending.lock);
++	_rtw_spinlock_free(&pxmitpriv->vi_pending.lock);
++	_rtw_spinlock_free(&pxmitpriv->vo_pending.lock);
++	_rtw_spinlock_free(&pxmitpriv->bm_pending.lock);
++
++	/* _rtw_spinlock_free(&pxmitpriv->legacy_dz_queue.lock); */
++	/* _rtw_spinlock_free(&pxmitpriv->apsd_queue.lock); */
++
++	_rtw_spinlock_free(&pxmitpriv->free_xmit_queue.lock);
++	_rtw_spinlock_free(&pxmitpriv->free_xmitbuf_queue.lock);
++	_rtw_spinlock_free(&pxmitpriv->pending_xmitbuf_queue.lock);
++}
++
++
++void _rtw_free_xmit_priv(struct xmit_priv *pxmitpriv)
++{
++	int i;
++	_adapter *padapter = pxmitpriv->adapter;
++	struct xmit_frame	*pxmitframe = (struct xmit_frame *) pxmitpriv->pxmit_frame_buf;
++	struct xmit_buf *pxmitbuf = (struct xmit_buf *)pxmitpriv->pxmitbuf;
++
++
++	rtw_hal_free_xmit_priv(padapter);
++
++	rtw_mfree_xmit_priv_lock(pxmitpriv);
++
++	if (pxmitpriv->pxmit_frame_buf == NULL)
++		goto out;
++
++	for (i = 0; i < NR_XMITFRAME; i++) {
++		rtw_os_xmit_complete(padapter, pxmitframe);
++
++		pxmitframe++;
++	}
++
++	for (i = 0; i < NR_XMITBUFF; i++) {
++		rtw_os_xmit_resource_free(padapter, pxmitbuf, (MAX_XMITBUF_SZ + XMITBUF_ALIGN_SZ), _TRUE);
++
++		pxmitbuf++;
++	}
++
++	if (pxmitpriv->pallocated_frame_buf)
++		rtw_vmfree(pxmitpriv->pallocated_frame_buf, NR_XMITFRAME * sizeof(struct xmit_frame) + 4);
++
++
++	if (pxmitpriv->pallocated_xmitbuf)
++		rtw_vmfree(pxmitpriv->pallocated_xmitbuf, NR_XMITBUFF * sizeof(struct xmit_buf) + 4);
++
++	/* free xframe_ext queue,  the same count as extbuf */
++	if ((pxmitframe = (struct xmit_frame *)pxmitpriv->xframe_ext)) {
++		for (i = 0; i < NR_XMIT_EXTBUFF; i++) {
++			rtw_os_xmit_complete(padapter, pxmitframe);
++			pxmitframe++;
++		}
++	}
++	if (pxmitpriv->xframe_ext_alloc_addr)
++		rtw_vmfree(pxmitpriv->xframe_ext_alloc_addr, NR_XMIT_EXTBUFF * sizeof(struct xmit_frame) + 4);
++	_rtw_spinlock_free(&pxmitpriv->free_xframe_ext_queue.lock);
++
++	/* free xmit extension buff */
++	_rtw_spinlock_free(&pxmitpriv->free_xmit_extbuf_queue.lock);
++
++	pxmitbuf = (struct xmit_buf *)pxmitpriv->pxmit_extbuf;
++	for (i = 0; i < NR_XMIT_EXTBUFF; i++) {
++		rtw_os_xmit_resource_free(padapter, pxmitbuf, (MAX_XMIT_EXTBUF_SZ + XMITBUF_ALIGN_SZ), _TRUE);
++
++		pxmitbuf++;
++	}
++
++	if (pxmitpriv->pallocated_xmit_extbuf)
++		rtw_vmfree(pxmitpriv->pallocated_xmit_extbuf, NR_XMIT_EXTBUFF * sizeof(struct xmit_buf) + 4);
++
++	for (i = 0; i < CMDBUF_MAX; i++) {
++		pxmitbuf = &pxmitpriv->pcmd_xmitbuf[i];
++		if (pxmitbuf != NULL)
++			rtw_os_xmit_resource_free(padapter, pxmitbuf, MAX_CMDBUF_SZ + XMITBUF_ALIGN_SZ , _TRUE);
++	}
++
++	rtw_free_hwxmits(padapter);
++
++#ifdef CONFIG_XMIT_ACK
++	_rtw_mutex_free(&pxmitpriv->ack_tx_mutex);
++#endif
++
++out:
++	return;
++}
++
++u8 rtw_get_tx_bw_mode(_adapter *adapter, struct sta_info *sta)
++{
++	u8 bw;
++
++	bw = sta->bw_mode;
++	if (MLME_STATE(adapter) & WIFI_ASOC_STATE) {
++		if (adapter->mlmeextpriv.cur_channel <= 14)
++			bw = rtw_min(bw, ADAPTER_TX_BW_2G(adapter));
++		else
++			bw = rtw_min(bw, ADAPTER_TX_BW_5G(adapter));
++	}
++
++	return bw;
++}
++
++void rtw_get_adapter_tx_rate_bmp_by_bw(_adapter *adapter, u8 bw, u16 *r_bmp_cck_ofdm, u32 *r_bmp_ht, u32 *r_bmp_vht)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++	u8 fix_bw = 0xFF;
++	u16 bmp_cck_ofdm = 0;
++	u32 bmp_ht = 0;
++	u32 bmp_vht = 0;
++	int i;
++
++	if (adapter->fix_rate != 0xFF && adapter->fix_bw != 0xFF)
++		fix_bw = adapter->fix_bw;
++
++	/* TODO: adapter->fix_rate */
++
++	for (i = 0; i < macid_ctl->num; i++) {
++		if (!rtw_macid_is_used(macid_ctl, i))
++			continue;
++		if (rtw_macid_get_if_g(macid_ctl, i) != adapter->iface_id)
++			continue;
++
++		if (bw == CHANNEL_WIDTH_20) /* CCK, OFDM always 20MHz */
++			bmp_cck_ofdm |= macid_ctl->rate_bmp0[i] & 0x00000FFF;
++
++		/* bypass mismatch bandwidth for HT, VHT */
++		if ((fix_bw != 0xFF && fix_bw != bw) || (fix_bw == 0xFF && macid_ctl->bw[i] != bw))
++			continue;
++
++		if (macid_ctl->vht_en[i])
++			bmp_vht |= (macid_ctl->rate_bmp0[i] >> 12) | (macid_ctl->rate_bmp1[i] << 20);
++		else
++			bmp_ht |= (macid_ctl->rate_bmp0[i] >> 12) | (macid_ctl->rate_bmp1[i] << 20);
++	}
++
++	/* TODO: mlmeext->tx_rate*/
++
++exit:
++	if (r_bmp_cck_ofdm)
++		*r_bmp_cck_ofdm = bmp_cck_ofdm;
++	if (r_bmp_ht)
++		*r_bmp_ht = bmp_ht;
++	if (r_bmp_vht)
++		*r_bmp_vht = bmp_vht;
++}
++
++void rtw_get_shared_macid_tx_rate_bmp_by_bw(struct dvobj_priv *dvobj, u8 bw, u16 *r_bmp_cck_ofdm, u32 *r_bmp_ht, u32 *r_bmp_vht)
++{
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	u16 bmp_cck_ofdm = 0;
++	u32 bmp_ht = 0;
++	u32 bmp_vht = 0;
++	int i;
++
++	for (i = 0; i < macid_ctl->num; i++) {
++		if (!rtw_macid_is_used(macid_ctl, i))
++			continue;
++		if (rtw_macid_get_if_g(macid_ctl, i) != -1)
++			continue;
++
++		if (bw == CHANNEL_WIDTH_20) /* CCK, OFDM always 20MHz */
++			bmp_cck_ofdm |= macid_ctl->rate_bmp0[i] & 0x00000FFF;
++
++		/* bypass mismatch bandwidth for HT, VHT */
++		if (macid_ctl->bw[i] != bw)
++			continue;
++
++		if (macid_ctl->vht_en[i])
++			bmp_vht |= (macid_ctl->rate_bmp0[i] >> 12) | (macid_ctl->rate_bmp1[i] << 20);
++		else
++			bmp_ht |= (macid_ctl->rate_bmp0[i] >> 12) | (macid_ctl->rate_bmp1[i] << 20);
++	}
++
++	if (r_bmp_cck_ofdm)
++		*r_bmp_cck_ofdm = bmp_cck_ofdm;
++	if (r_bmp_ht)
++		*r_bmp_ht = bmp_ht;
++	if (r_bmp_vht)
++		*r_bmp_vht = bmp_vht;
++}
++
++void rtw_update_tx_rate_bmp(struct dvobj_priv *dvobj)
++{
++	struct rf_ctl_t *rf_ctl = dvobj_to_rfctl(dvobj);
++	_adapter *adapter = dvobj_get_primary_adapter(dvobj);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	u8 bw;
++	u16 bmp_cck_ofdm, tmp_cck_ofdm;
++	u32 bmp_ht, tmp_ht, ori_bmp_ht[2];
++	u8 ori_highest_ht_rate_bw_bmp;
++	u32 bmp_vht, tmp_vht, ori_bmp_vht[4];
++	u8 ori_highest_vht_rate_bw_bmp;
++	int i;
++
++	/* backup the original ht & vht highest bw bmp */
++	ori_highest_ht_rate_bw_bmp = rf_ctl->highest_ht_rate_bw_bmp;
++	ori_highest_vht_rate_bw_bmp = rf_ctl->highest_vht_rate_bw_bmp;
++
++	for (bw = CHANNEL_WIDTH_20; bw <= CHANNEL_WIDTH_160; bw++) {
++		/* backup the original ht & vht bmp */
++		if (bw <= CHANNEL_WIDTH_40)
++			ori_bmp_ht[bw] = rf_ctl->rate_bmp_ht_by_bw[bw];
++		if (bw <= CHANNEL_WIDTH_160)
++			ori_bmp_vht[bw] = rf_ctl->rate_bmp_vht_by_bw[bw];
++
++		bmp_cck_ofdm = bmp_ht = bmp_vht = 0;
++		if (hal_is_bw_support(dvobj_get_primary_adapter(dvobj), bw)) {
++			for (i = 0; i < dvobj->iface_nums; i++) {
++				if (!dvobj->padapters[i])
++					continue;
++				rtw_get_adapter_tx_rate_bmp_by_bw(dvobj->padapters[i], bw, &tmp_cck_ofdm, &tmp_ht, &tmp_vht);
++				bmp_cck_ofdm |= tmp_cck_ofdm;
++				bmp_ht |= tmp_ht;
++				bmp_vht |= tmp_vht;
++			}
++			rtw_get_shared_macid_tx_rate_bmp_by_bw(dvobj, bw, &tmp_cck_ofdm, &tmp_ht, &tmp_vht);
++			bmp_cck_ofdm |= tmp_cck_ofdm;
++			bmp_ht |= tmp_ht;
++			bmp_vht |= tmp_vht;
++		}
++		if (bw == CHANNEL_WIDTH_20)
++			rf_ctl->rate_bmp_cck_ofdm = bmp_cck_ofdm;
++		if (bw <= CHANNEL_WIDTH_40)
++			rf_ctl->rate_bmp_ht_by_bw[bw] = bmp_ht;
++		if (bw <= CHANNEL_WIDTH_160)
++			rf_ctl->rate_bmp_vht_by_bw[bw] = bmp_vht;
++	}
++
++#ifndef DBG_HIGHEST_RATE_BMP_BW_CHANGE
++#define DBG_HIGHEST_RATE_BMP_BW_CHANGE 0
++#endif
++
++	{
++		u8 highest_rate_bw;
++		u8 highest_rate_bw_bmp;
++		u8 update_ht_rs = _FALSE;
++		u8 update_vht_rs = _FALSE;
++
++		highest_rate_bw_bmp = BW_CAP_20M;
++		highest_rate_bw = CHANNEL_WIDTH_20;
++		for (bw = CHANNEL_WIDTH_20; bw <= CHANNEL_WIDTH_40; bw++) {
++			if (rf_ctl->rate_bmp_ht_by_bw[highest_rate_bw] < rf_ctl->rate_bmp_ht_by_bw[bw]) {
++				highest_rate_bw_bmp = ch_width_to_bw_cap(bw);
++				highest_rate_bw = bw;
++			} else if (rf_ctl->rate_bmp_ht_by_bw[highest_rate_bw] == rf_ctl->rate_bmp_ht_by_bw[bw])
++				highest_rate_bw_bmp |= ch_width_to_bw_cap(bw);
++		}
++		rf_ctl->highest_ht_rate_bw_bmp = highest_rate_bw_bmp;
++
++		if (ori_highest_ht_rate_bw_bmp != rf_ctl->highest_ht_rate_bw_bmp
++			|| largest_bit(ori_bmp_ht[highest_rate_bw]) != largest_bit(rf_ctl->rate_bmp_ht_by_bw[highest_rate_bw])
++		) {
++			if (DBG_HIGHEST_RATE_BMP_BW_CHANGE) {
++				RTW_INFO("highest_ht_rate_bw_bmp:0x%02x=>0x%02x\n", ori_highest_ht_rate_bw_bmp, rf_ctl->highest_ht_rate_bw_bmp);
++				RTW_INFO("rate_bmp_ht_by_bw[%u]:0x%08x=>0x%08x\n", highest_rate_bw, ori_bmp_ht[highest_rate_bw], rf_ctl->rate_bmp_ht_by_bw[highest_rate_bw]);
++			}
++			update_ht_rs = _TRUE;
++		}
++
++		highest_rate_bw_bmp = BW_CAP_20M;
++		highest_rate_bw = CHANNEL_WIDTH_20;
++		for (bw = CHANNEL_WIDTH_20; bw <= CHANNEL_WIDTH_160; bw++) {
++			if (rf_ctl->rate_bmp_vht_by_bw[highest_rate_bw] < rf_ctl->rate_bmp_vht_by_bw[bw]) {
++				highest_rate_bw_bmp = ch_width_to_bw_cap(bw);
++				highest_rate_bw = bw;
++			} else if (rf_ctl->rate_bmp_vht_by_bw[highest_rate_bw] == rf_ctl->rate_bmp_vht_by_bw[bw])
++				highest_rate_bw_bmp |= ch_width_to_bw_cap(bw);
++		}
++		rf_ctl->highest_vht_rate_bw_bmp = highest_rate_bw_bmp;
++
++		if (ori_highest_vht_rate_bw_bmp != rf_ctl->highest_vht_rate_bw_bmp
++			|| largest_bit(ori_bmp_vht[highest_rate_bw]) != largest_bit(rf_ctl->rate_bmp_vht_by_bw[highest_rate_bw])
++		) {
++			if (DBG_HIGHEST_RATE_BMP_BW_CHANGE) {
++				RTW_INFO("highest_vht_rate_bw_bmp:0x%02x=>0x%02x\n", ori_highest_vht_rate_bw_bmp, rf_ctl->highest_vht_rate_bw_bmp);
++				RTW_INFO("rate_bmp_vht_by_bw[%u]:0x%08x=>0x%08x\n", highest_rate_bw, ori_bmp_vht[highest_rate_bw], rf_ctl->rate_bmp_vht_by_bw[highest_rate_bw]);
++			}
++			update_vht_rs = _TRUE;
++		}
++
++		/* TODO: per rfpath and rate section handling? */
++		if (update_ht_rs == _TRUE || update_vht_rs == _TRUE)
++			rtw_hal_set_tx_power_level(dvobj_get_primary_adapter(dvobj), hal_data->CurrentChannel);
++	}
++}
++
++inline u16 rtw_get_tx_rate_bmp_cck_ofdm(struct dvobj_priv *dvobj)
++{
++	struct rf_ctl_t *rf_ctl = dvobj_to_rfctl(dvobj);
++
++	return rf_ctl->rate_bmp_cck_ofdm;
++}
++
++inline u32 rtw_get_tx_rate_bmp_ht_by_bw(struct dvobj_priv *dvobj, u8 bw)
++{
++	struct rf_ctl_t *rf_ctl = dvobj_to_rfctl(dvobj);
++
++	return rf_ctl->rate_bmp_ht_by_bw[bw];
++}
++
++inline u32 rtw_get_tx_rate_bmp_vht_by_bw(struct dvobj_priv *dvobj, u8 bw)
++{
++	struct rf_ctl_t *rf_ctl = dvobj_to_rfctl(dvobj);
++
++	return rf_ctl->rate_bmp_vht_by_bw[bw];
++}
++
++u8 rtw_get_tx_bw_bmp_of_ht_rate(struct dvobj_priv *dvobj, u8 rate, u8 max_bw)
++{
++	struct rf_ctl_t *rf_ctl = dvobj_to_rfctl(dvobj);
++	u8 bw;
++	u8 bw_bmp = 0;
++	u32 rate_bmp;
++
++	if (!IS_HT_RATE(rate)) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	rate_bmp = 1 << (rate - MGN_MCS0);
++
++	if (max_bw > CHANNEL_WIDTH_40)
++		max_bw = CHANNEL_WIDTH_40;
++
++	for (bw = CHANNEL_WIDTH_20; bw <= max_bw; bw++) {
++		/* RA may use lower rate for retry */
++		if (rf_ctl->rate_bmp_ht_by_bw[bw] >= rate_bmp)
++			bw_bmp |= ch_width_to_bw_cap(bw);
++	}
++
++exit:
++	return bw_bmp;
++}
++
++u8 rtw_get_tx_bw_bmp_of_vht_rate(struct dvobj_priv *dvobj, u8 rate, u8 max_bw)
++{
++	struct rf_ctl_t *rf_ctl = dvobj_to_rfctl(dvobj);
++	u8 bw;
++	u8 bw_bmp = 0;
++	u32 rate_bmp;
++
++	if (!IS_VHT_RATE(rate)) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	rate_bmp = 1 << (rate - MGN_VHT1SS_MCS0);
++
++	if (max_bw > CHANNEL_WIDTH_160)
++		max_bw = CHANNEL_WIDTH_160;
++
++	for (bw = CHANNEL_WIDTH_20; bw <= max_bw; bw++) {
++		/* RA may use lower rate for retry */
++		if (rf_ctl->rate_bmp_vht_by_bw[bw] >= rate_bmp)
++			bw_bmp |= ch_width_to_bw_cap(bw);
++	}
++
++exit:
++	return bw_bmp;
++}
++
++u8 query_ra_short_GI(struct sta_info *psta, u8 bw)
++{
++	u8	sgi = _FALSE, sgi_20m = _FALSE, sgi_40m = _FALSE, sgi_80m = _FALSE;
++
++#ifdef CONFIG_80211N_HT
++#ifdef CONFIG_80211AC_VHT
++	if (psta->vhtpriv.vht_option)
++		sgi_80m = psta->vhtpriv.sgi_80m;
++#endif
++	sgi_20m = psta->htpriv.sgi_20m;
++	sgi_40m = psta->htpriv.sgi_40m;
++#endif
++
++	switch (bw) {
++	case CHANNEL_WIDTH_80:
++		sgi = sgi_80m;
++		break;
++	case CHANNEL_WIDTH_40:
++		sgi = sgi_40m;
++		break;
++	case CHANNEL_WIDTH_20:
++	default:
++		sgi = sgi_20m;
++		break;
++	}
++
++	return sgi;
++}
++
++static void update_attrib_vcs_info(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	u32	sz;
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	/* struct sta_info	*psta = pattrib->psta; */
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	/*
++		if(pattrib->psta)
++		{
++			psta = pattrib->psta;
++		}
++		else
++		{
++			RTW_INFO("%s, call rtw_get_stainfo()\n", __func__);
++			psta=rtw_get_stainfo(&padapter->stapriv ,&pattrib->ra[0] );
++		}
++
++		if(psta==NULL)
++		{
++			RTW_INFO("%s, psta==NUL\n", __func__);
++			return;
++		}
++
++		if(!(psta->state &_FW_LINKED))
++		{
++			RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++			return;
++		}
++	*/
++
++	if (pattrib->nr_frags != 1)
++		sz = padapter->xmitpriv.frag_len;
++	else /* no frag */
++		sz = pattrib->last_txcmdsz;
++
++	/* (1) RTS_Threshold is compared to the MPDU, not MSDU. */
++	/* (2) If there are more than one frag in  this MSDU, only the first frag uses protection frame. */
++	/*		Other fragments are protected by previous fragment. */
++	/*		So we only need to check the length of first fragment. */
++	if (pmlmeext->cur_wireless_mode < WIRELESS_11_24N  || padapter->registrypriv.wifi_spec) {
++		if (sz > padapter->registrypriv.rts_thresh)
++			pattrib->vcs_mode = RTS_CTS;
++		else {
++			if (pattrib->rtsen)
++				pattrib->vcs_mode = RTS_CTS;
++			else if (pattrib->cts2self)
++				pattrib->vcs_mode = CTS_TO_SELF;
++			else
++				pattrib->vcs_mode = NONE_VCS;
++		}
++	} else {
++		while (_TRUE) {
++#if 0 /* Todo */
++			/* check IOT action */
++			if (pHTInfo->IOTAction & HT_IOT_ACT_FORCED_CTS2SELF) {
++				pattrib->vcs_mode = CTS_TO_SELF;
++				pattrib->rts_rate = MGN_24M;
++				break;
++			} else if (pHTInfo->IOTAction & (HT_IOT_ACT_FORCED_RTS | HT_IOT_ACT_PURE_N_MODE)) {
++				pattrib->vcs_mode = RTS_CTS;
++				pattrib->rts_rate = MGN_24M;
++				break;
++			}
++#endif
++
++			/* IOT action */
++			if ((pmlmeinfo->assoc_AP_vendor == HT_IOT_PEER_ATHEROS) && (pattrib->ampdu_en == _TRUE) &&
++			    (padapter->securitypriv.dot11PrivacyAlgrthm == _AES_)) {
++				pattrib->vcs_mode = CTS_TO_SELF;
++				break;
++			}
++
++
++			/* check ERP protection */
++			if (pattrib->rtsen || pattrib->cts2self) {
++				if (pattrib->rtsen)
++					pattrib->vcs_mode = RTS_CTS;
++				else if (pattrib->cts2self)
++					pattrib->vcs_mode = CTS_TO_SELF;
++
++				break;
++			}
++
++			/* check HT op mode */
++			if (pattrib->ht_en) {
++				u8 HTOpMode = pmlmeinfo->HT_protection;
++				if ((pmlmeext->cur_bwmode && (HTOpMode == 2 || HTOpMode == 3)) ||
++				    (!pmlmeext->cur_bwmode && HTOpMode == 3)) {
++					pattrib->vcs_mode = RTS_CTS;
++					break;
++				}
++			}
++
++			/* check rts */
++			if (sz > padapter->registrypriv.rts_thresh) {
++				pattrib->vcs_mode = RTS_CTS;
++				break;
++			}
++
++			/* to do list: check MIMO power save condition. */
++
++			/* check AMPDU aggregation for TXOP */
++			if ((pattrib->ampdu_en == _TRUE) && (!IS_HARDWARE_TYPE_8812(padapter))) {
++				pattrib->vcs_mode = RTS_CTS;
++				break;
++			}
++
++			pattrib->vcs_mode = NONE_VCS;
++			break;
++		}
++	}
++
++	/* for debug : force driver control vrtl_carrier_sense. */
++	if (padapter->driver_vcs_en == 1) {
++		/* u8 driver_vcs_en; */ /* Enable=1, Disable=0 driver control vrtl_carrier_sense. */
++		/* u8 driver_vcs_type; */ /* force 0:disable VCS, 1:RTS-CTS, 2:CTS-to-self when vcs_en=1. */
++		pattrib->vcs_mode = padapter->driver_vcs_type;
++	}
++
++}
++
++static void update_attrib_phy_info(_adapter *padapter, struct pkt_attrib *pattrib, struct sta_info *psta)
++{
++	struct mlme_ext_priv *mlmeext = &padapter->mlmeextpriv;
++	u8 bw;
++
++	pattrib->rtsen = psta->rtsen;
++	pattrib->cts2self = psta->cts2self;
++
++	pattrib->mdata = 0;
++	pattrib->eosp = 0;
++	pattrib->triggered = 0;
++	pattrib->ampdu_spacing = 0;
++
++	/* qos_en, ht_en, init rate, ,bw, ch_offset, sgi */
++	pattrib->qos_en = psta->qos_option;
++
++	pattrib->raid = psta->raid;
++
++	bw = rtw_get_tx_bw_mode(padapter, psta);
++	pattrib->bwmode = rtw_min(bw, mlmeext->cur_bwmode);
++	pattrib->sgi = query_ra_short_GI(psta, pattrib->bwmode);
++
++	pattrib->ldpc = psta->ldpc;
++	pattrib->stbc = psta->stbc;
++
++#ifdef CONFIG_80211N_HT
++	pattrib->ht_en = psta->htpriv.ht_option;
++	pattrib->ch_offset = psta->htpriv.ch_offset;
++	pattrib->ampdu_en = _FALSE;
++
++	if (padapter->driver_ampdu_spacing != 0xFF) /* driver control AMPDU Density for peer sta's rx */
++		pattrib->ampdu_spacing = padapter->driver_ampdu_spacing;
++	else
++		pattrib->ampdu_spacing = psta->htpriv.rx_ampdu_min_spacing;
++#endif /* CONFIG_80211N_HT */
++	/* if(pattrib->ht_en && psta->htpriv.ampdu_enable) */
++	/* { */
++	/*	if(psta->htpriv.agg_enable_bitmap & BIT(pattrib->priority)) */
++	/*		pattrib->ampdu_en = _TRUE; */
++	/* }	 */
++
++#ifdef CONFIG_TDLS
++	if (pattrib->direct_link == _TRUE) {
++		psta = pattrib->ptdls_sta;
++
++		pattrib->raid = psta->raid;
++#ifdef CONFIG_80211N_HT
++		pattrib->bwmode = rtw_get_tx_bw_mode(padapter, psta);
++		pattrib->ht_en = psta->htpriv.ht_option;
++		pattrib->ch_offset = psta->htpriv.ch_offset;
++		pattrib->sgi = query_ra_short_GI(psta, pattrib->bwmode);
++#endif /* CONFIG_80211N_HT */
++	}
++#endif /* CONFIG_TDLS */
++
++	pattrib->retry_ctrl = _FALSE;
++
++#ifdef CONFIG_AUTO_AP_MODE
++	if (psta->isrc && psta->pid > 0)
++		pattrib->pctrl = _TRUE;
++#endif
++
++}
++
++static s32 update_attrib_sec_info(_adapter *padapter, struct pkt_attrib *pattrib, struct sta_info *psta)
++{
++	sint res = _SUCCESS;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	sint bmcast = IS_MCAST(pattrib->ra);
++
++	_rtw_memset(pattrib->dot118021x_UncstKey.skey,  0, 16);
++	_rtw_memset(pattrib->dot11tkiptxmickey.skey,  0, 16);
++	pattrib->mac_id = psta->mac_id;
++
++	if (psta->ieee8021x_blocked == _TRUE) {
++
++		pattrib->encrypt = 0;
++
++		if ((pattrib->ether_type != 0x888e) && (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _FALSE)) {
++#ifdef DBG_TX_DROP_FRAME
++			RTW_INFO("DBG_TX_DROP_FRAME %s psta->ieee8021x_blocked == _TRUE,  pattrib->ether_type(%04x) != 0x888e\n", __FUNCTION__, pattrib->ether_type);
++#endif
++			res = _FAIL;
++			goto exit;
++		}
++	} else {
++		GET_ENCRY_ALGO(psecuritypriv, psta, pattrib->encrypt, bmcast);
++
++#ifdef CONFIG_WAPI_SUPPORT
++		if (pattrib->ether_type == 0x88B4)
++			pattrib->encrypt = _NO_PRIVACY_;
++#endif
++
++		switch (psecuritypriv->dot11AuthAlgrthm) {
++		case dot11AuthAlgrthm_Open:
++		case dot11AuthAlgrthm_Shared:
++		case dot11AuthAlgrthm_Auto:
++			pattrib->key_idx = (u8)psecuritypriv->dot11PrivacyKeyIndex;
++			break;
++		case dot11AuthAlgrthm_8021X:
++			if (bmcast)
++				pattrib->key_idx = (u8)psecuritypriv->dot118021XGrpKeyid;
++			else
++				pattrib->key_idx = 0;
++			break;
++		default:
++			pattrib->key_idx = 0;
++			break;
++		}
++
++		/* For WPS 1.0 WEP, driver should not encrypt EAPOL Packet for WPS handshake. */
++		if (((pattrib->encrypt == _WEP40_) || (pattrib->encrypt == _WEP104_)) && (pattrib->ether_type == 0x888e))
++			pattrib->encrypt = _NO_PRIVACY_;
++
++	}
++
++#ifdef CONFIG_TDLS
++	if (pattrib->direct_link == _TRUE) {
++		if (pattrib->encrypt > 0)
++			pattrib->encrypt = _AES_;
++	}
++#endif
++
++	switch (pattrib->encrypt) {
++	case _WEP40_:
++	case _WEP104_:
++		pattrib->iv_len = 4;
++		pattrib->icv_len = 4;
++		WEP_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++		break;
++
++	case _TKIP_:
++		pattrib->iv_len = 8;
++		pattrib->icv_len = 4;
++
++		if (psecuritypriv->busetkipkey == _FAIL) {
++#ifdef DBG_TX_DROP_FRAME
++			RTW_INFO("DBG_TX_DROP_FRAME %s psecuritypriv->busetkipkey(%d)==_FAIL drop packet\n", __FUNCTION__, psecuritypriv->busetkipkey);
++#endif
++			res = _FAIL;
++			goto exit;
++		}
++
++		if (bmcast)
++			TKIP_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++		else
++			TKIP_IV(pattrib->iv, psta->dot11txpn, 0);
++
++
++		_rtw_memcpy(pattrib->dot11tkiptxmickey.skey, psta->dot11tkiptxmickey.skey, 16);
++
++		break;
++
++	case _AES_:
++
++		pattrib->iv_len = 8;
++		pattrib->icv_len = 8;
++
++		if (bmcast)
++			AES_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++		else
++			AES_IV(pattrib->iv, psta->dot11txpn, 0);
++
++		break;
++
++#ifdef CONFIG_WAPI_SUPPORT
++	case _SMS4_:
++		pattrib->iv_len = 18;
++		pattrib->icv_len = 16;
++		rtw_wapi_get_iv(padapter, pattrib->ra, pattrib->iv);
++		break;
++#endif
++	default:
++		pattrib->iv_len = 0;
++		pattrib->icv_len = 0;
++		break;
++	}
++
++	if (pattrib->encrypt > 0)
++		_rtw_memcpy(pattrib->dot118021x_UncstKey.skey, psta->dot118021x_UncstKey.skey, 16);
++
++
++	if (pattrib->encrypt &&
++	    ((padapter->securitypriv.sw_encrypt == _TRUE) || (psecuritypriv->hw_decrypted == _FALSE))) {
++		pattrib->bswenc = _TRUE;
++	} else {
++		pattrib->bswenc = _FALSE;
++	}
++
++#if defined(CONFIG_CONCURRENT_MODE)
++	pattrib->bmc_camid = padapter->securitypriv.dot118021x_bmc_cam_id;
++#endif
++
++	if (pattrib->encrypt && bmcast && _rtw_camctl_chk_flags(padapter, SEC_STATUS_STA_PK_GK_CONFLICT_DIS_BMC_SEARCH))
++		pattrib->bswenc = _TRUE;
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (pattrib->encrypt == _SMS4_)
++		pattrib->bswenc = _FALSE;
++#endif
++
++exit:
++
++	return res;
++
++}
++
++u8	qos_acm(u8 acm_mask, u8 priority)
++{
++	u8	change_priority = priority;
++
++	switch (priority) {
++	case 0:
++	case 3:
++		if (acm_mask & BIT(1))
++			change_priority = 1;
++		break;
++	case 1:
++	case 2:
++		break;
++	case 4:
++	case 5:
++		if (acm_mask & BIT(2))
++			change_priority = 0;
++		break;
++	case 6:
++	case 7:
++		if (acm_mask & BIT(3))
++			change_priority = 5;
++		break;
++	default:
++		RTW_INFO("qos_acm(): invalid pattrib->priority: %d!!!\n", priority);
++		break;
++	}
++
++	return change_priority;
++}
++
++static void set_qos(struct pkt_file *ppktfile, struct pkt_attrib *pattrib)
++{
++	struct ethhdr etherhdr;
++	struct iphdr ip_hdr;
++	s32 UserPriority = 0;
++
++
++	_rtw_open_pktfile(ppktfile->pkt, ppktfile);
++	_rtw_pktfile_read(ppktfile, (unsigned char *)&etherhdr, ETH_HLEN);
++
++	/* get UserPriority from IP hdr */
++	if (pattrib->ether_type == 0x0800) {
++		_rtw_pktfile_read(ppktfile, (u8 *)&ip_hdr, sizeof(ip_hdr));
++		/*		UserPriority = (ntohs(ip_hdr.tos) >> 5) & 0x3; */
++		UserPriority = ip_hdr.tos >> 5;
++	}
++	/*
++		else if (pattrib->ether_type == 0x888e) {
++
++
++			UserPriority = 7;
++		}
++	*/
++	pattrib->priority = UserPriority;
++	pattrib->hdrlen = WLAN_HDR_A3_QOS_LEN;
++	pattrib->subtype = WIFI_QOS_DATA_TYPE;
++}
++
++#ifdef CONFIG_TDLS
++u8 rtw_check_tdls_established(_adapter *padapter, struct pkt_attrib *pattrib)
++{
++	pattrib->ptdls_sta = NULL;
++
++	pattrib->direct_link = _FALSE;
++	if (padapter->tdlsinfo.link_established == _TRUE) {
++		pattrib->ptdls_sta = rtw_get_stainfo(&padapter->stapriv, pattrib->dst);
++#if 1
++		if ((pattrib->ptdls_sta != NULL) &&
++		    (pattrib->ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE) &&
++		    (pattrib->ether_type != 0x0806)) {
++			pattrib->direct_link = _TRUE;
++			/* RTW_INFO("send ptk to "MAC_FMT" using direct link\n", MAC_ARG(pattrib->dst)); */
++		}
++#else
++		if (pattrib->ptdls_sta != NULL &&
++		    pattrib->ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE) {
++			pattrib->direct_link = _TRUE;
++#if 0
++			RTW_INFO("send ptk to "MAC_FMT" using direct link\n", MAC_ARG(pattrib->dst));
++#endif
++		}
++
++		/* ARP frame may be helped by AP*/
++		if (pattrib->ether_type != 0x0806)
++			pattrib->direct_link = _FALSE;
++#endif
++	}
++
++	return pattrib->direct_link;
++}
++
++s32 update_tdls_attrib(_adapter *padapter, struct pkt_attrib *pattrib)
++{
++
++	struct sta_info *psta = NULL;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct qos_priv		*pqospriv = &pmlmepriv->qospriv;
++
++	s32 res = _SUCCESS;
++
++	psta = rtw_get_stainfo(pstapriv, pattrib->ra);
++	if (psta == NULL)	{
++		res = _FAIL;
++		goto exit;
++	}
++
++	pattrib->mac_id = psta->mac_id;
++	pattrib->psta = psta;
++	pattrib->ack_policy = 0;
++	/* get ether_hdr_len */
++	pattrib->pkt_hdrlen = ETH_HLEN;
++
++	/* [TDLS] TODO: setup req/rsp should be AC_BK */
++	if (pqospriv->qos_option &&  psta->qos_option) {
++		pattrib->priority = 4;	/* tdls management frame should be AC_VI */
++		pattrib->hdrlen = WLAN_HDR_A3_QOS_LEN;
++		pattrib->subtype = WIFI_QOS_DATA_TYPE;
++	} else {
++		pattrib->priority = 0;
++		pattrib->hdrlen = WLAN_HDR_A3_LEN;
++		pattrib->subtype = WIFI_DATA_TYPE;
++	}
++
++	/* TODO:_lock */
++	if (update_attrib_sec_info(padapter, pattrib, psta) == _FAIL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	update_attrib_phy_info(padapter, pattrib, psta);
++
++
++exit:
++
++	return res;
++}
++
++#endif /* CONFIG_TDLS */
++
++/*get non-qos hw_ssn control register,mapping to REG_HW_SEQ0,1,2,3*/
++inline u8 rtw_get_hwseq_no(_adapter *padapter)
++{
++	u8 hwseq_num = 0;
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->adapter_type != PRIMARY_ADAPTER)
++		hwseq_num = 1;
++	/* else */
++	/*	hwseq_num = 2; */
++#endif /* CONFIG_CONCURRENT_MODE */
++	return hwseq_num;
++}
++static s32 update_attrib(_adapter *padapter, _pkt *pkt, struct pkt_attrib *pattrib)
++{
++	uint i;
++	struct pkt_file pktfile;
++	struct sta_info *psta = NULL;
++	struct ethhdr etherhdr;
++
++	sint bmcast;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct qos_priv		*pqospriv = &pmlmepriv->qospriv;
++	struct xmit_priv		*pxmitpriv = &padapter->xmitpriv;
++	sint res = _SUCCESS;
++
++
++	DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib);
++
++	_rtw_open_pktfile(pkt, &pktfile);
++	i = _rtw_pktfile_read(&pktfile, (u8 *)&etherhdr, ETH_HLEN);
++
++	pattrib->ether_type = ntohs(etherhdr.h_proto);
++
++
++	_rtw_memcpy(pattrib->dst, &etherhdr.h_dest, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, &etherhdr.h_source, ETH_ALEN);
++
++
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) ||
++	    (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE)) {
++		_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, adapter_mac_addr(padapter), ETH_ALEN);
++		DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_adhoc);
++	} else if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++#ifdef CONFIG_TDLS
++		if (rtw_check_tdls_established(padapter, pattrib) == _TRUE)
++			_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);	/* For TDLS direct link Tx, set ra to be same to dst */
++		else
++#endif
++			_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, adapter_mac_addr(padapter), ETH_ALEN);
++		DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_sta);
++	} else if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++		_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, get_bssid(pmlmepriv), ETH_ALEN);
++		DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_ap);
++	} else
++		DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_unknown);
++
++	bmcast = IS_MCAST(pattrib->ra);
++	if (bmcast) {
++		psta = rtw_get_bcmc_stainfo(padapter);
++		if (psta == NULL) { /* if we cannot get psta => drop the pkt */
++			DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_err_sta);
++#ifdef DBG_TX_DROP_FRAME
++			RTW_INFO("DBG_TX_DROP_FRAME %s get sta_info fail, ra:" MAC_FMT"\n", __func__, MAC_ARG(pattrib->ra));
++#endif
++			res = _FAIL;
++			goto exit;
++		}
++	} else {
++		psta = rtw_get_stainfo(pstapriv, pattrib->ra);
++		if (psta == NULL) { /* if we cannot get psta => drop the pkt */
++			DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_err_ucast_sta);
++#ifdef DBG_TX_DROP_FRAME
++			RTW_INFO("DBG_TX_DROP_FRAME %s get sta_info fail, ra:" MAC_FMT"\n", __func__, MAC_ARG(pattrib->ra));
++#endif
++			res = _FAIL;
++			goto exit;
++		} else if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE && !(psta->state & _FW_LINKED)) {
++			DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_err_ucast_ap_link);
++			res = _FAIL;
++			goto exit;
++		}
++	}
++
++	if (!(psta->state & _FW_LINKED)) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_err_link);
++		RTW_INFO("%s-"ADPT_FMT" psta("MAC_FMT")->state(0x%x) != _FW_LINKED\n", __func__, ADPT_ARG(padapter), MAC_ARG(psta->hwaddr), psta->state);
++		res = _FAIL;
++		goto exit;
++	}
++
++	pattrib->pktlen = pktfile.pkt_len;
++
++	/* TODO: 802.1Q VLAN header */
++	/* TODO: IPV6 */
++
++	if (ETH_P_IP == pattrib->ether_type) {
++		u8 ip[20];
++
++		_rtw_pktfile_read(&pktfile, ip, 20);
++
++		if (GET_IPV4_IHL(ip) * 4 > 20)
++			_rtw_pktfile_read(&pktfile, NULL, GET_IPV4_IHL(ip) - 20);
++
++		pattrib->icmp_pkt = 0;
++		pattrib->dhcp_pkt = 0;
++
++		if (GET_IPV4_PROTOCOL(ip) == 0x01) { /* ICMP */
++			pattrib->icmp_pkt = 1;
++			DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_icmp);
++
++		} else if (GET_IPV4_PROTOCOL(ip) == 0x11) { /* UDP */
++			u8 udp[8];
++
++			_rtw_pktfile_read(&pktfile, udp, 8);
++
++			if ((GET_UDP_SRC(udp) == 68 && GET_UDP_DST(udp) == 67)
++				|| (GET_UDP_SRC(udp) == 67 && GET_UDP_DST(udp) == 68)
++			) {
++				/* 67 : UDP BOOTP server, 68 : UDP BOOTP client */
++				if (pattrib->pktlen > 282) { /* MINIMUM_DHCP_PACKET_SIZE */
++					pattrib->dhcp_pkt = 1;
++					DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_dhcp);
++					if (0)
++						RTW_INFO("send DHCP packet\n");
++				}
++			}
++
++		} else if (GET_IPV4_PROTOCOL(ip) == 0x06 /* TCP */
++			&& rtw_st_ctl_chk_reg_s_proto(&psta->st_ctl, 0x06) == _TRUE
++		) {
++			u8 tcp[20];
++
++			_rtw_pktfile_read(&pktfile, tcp, 20);
++
++			if (rtw_st_ctl_chk_reg_rule(&psta->st_ctl, padapter, IPV4_SRC(ip), TCP_SRC(tcp), IPV4_DST(ip), TCP_DST(tcp)) == _TRUE) {
++				if (GET_TCP_SYN(tcp) && GET_TCP_ACK(tcp)) {
++					session_tracker_add_cmd(padapter, psta
++						, IPV4_SRC(ip), TCP_SRC(tcp)
++						, IPV4_SRC(ip), TCP_DST(tcp));
++					if (DBG_SESSION_TRACKER)
++						RTW_INFO(FUNC_ADPT_FMT" local:"IP_FMT":"PORT_FMT", remote:"IP_FMT":"PORT_FMT" SYN-ACK\n"
++							, FUNC_ADPT_ARG(padapter)
++							, IP_ARG(IPV4_SRC(ip)), PORT_ARG(TCP_SRC(tcp))
++							, IP_ARG(IPV4_DST(ip)), PORT_ARG(TCP_DST(tcp)));
++				}
++				if (GET_TCP_FIN(tcp)) {
++					session_tracker_del_cmd(padapter, psta
++						, IPV4_SRC(ip), TCP_SRC(tcp)
++						, IPV4_SRC(ip), TCP_DST(tcp));
++					if (DBG_SESSION_TRACKER)
++						RTW_INFO(FUNC_ADPT_FMT" local:"IP_FMT":"PORT_FMT", remote:"IP_FMT":"PORT_FMT" FIN\n"
++							, FUNC_ADPT_ARG(padapter)
++							, IP_ARG(IPV4_SRC(ip)), PORT_ARG(TCP_SRC(tcp))
++							, IP_ARG(IPV4_DST(ip)), PORT_ARG(TCP_DST(tcp)));
++				}
++			}
++		}
++
++	} else if (0x888e == pattrib->ether_type)
++		RTW_PRINT("send eapol packet\n");
++
++	if ((pattrib->ether_type == 0x888e) || (pattrib->dhcp_pkt == 1))
++		rtw_mi_set_scan_deny(padapter, 3000);
++
++#ifdef CONFIG_LPS
++	/* If EAPOL , ARP , OR DHCP packet, driver must be in active mode. */
++#ifdef CONFIG_WAPI_SUPPORT
++	if ((pattrib->ether_type == 0x88B4) || (pattrib->ether_type == 0x0806) || (pattrib->ether_type == 0x888e) || (pattrib->dhcp_pkt == 1))
++#else /* !CONFIG_WAPI_SUPPORT */
++#if 0
++	if ((pattrib->ether_type == 0x0806) || (pattrib->ether_type == 0x888e) || (pattrib->dhcp_pkt == 1))
++#else /* only ICMP/DHCP packets is as SPECIAL_PACKET, and leave LPS when tx IMCP/DHCP packets. */
++	/* if ((pattrib->ether_type == 0x888e) || (pattrib->dhcp_pkt == 1) ) */
++	if (pattrib->icmp_pkt == 1)
++		rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_LEAVE, 1);
++	else if (pattrib->dhcp_pkt == 1)
++#endif
++#endif
++	{
++		DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_active);
++		rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_SPECIAL_PACKET, 1);
++	}
++#endif /* CONFIG_LPS */
++
++#ifdef CONFIG_BEAMFORMING
++	update_attrib_txbf_info(padapter, pattrib, psta);
++#endif
++
++	/* TODO:_lock */
++	if (update_attrib_sec_info(padapter, pattrib, psta) == _FAIL) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_err_sec);
++		res = _FAIL;
++		goto exit;
++	}
++
++	update_attrib_phy_info(padapter, pattrib, psta);
++
++	/* RTW_INFO("%s ==> mac_id(%d)\n",__FUNCTION__,pattrib->mac_id ); */
++
++	pattrib->psta = psta;
++	/* TODO:_unlock */
++
++	pattrib->pctrl = 0;
++
++	pattrib->ack_policy = 0;
++	/* get ether_hdr_len */
++	pattrib->pkt_hdrlen = ETH_HLEN;/* (pattrib->ether_type == 0x8100) ? (14 + 4 ): 14; */ /* vlan tag */
++
++	pattrib->hdrlen = WLAN_HDR_A3_LEN;
++	pattrib->subtype = WIFI_DATA_TYPE;
++	pattrib->priority = 0;
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE | WIFI_ADHOC_STATE | WIFI_ADHOC_MASTER_STATE)) {
++		if (pattrib->qos_en)
++			set_qos(&pktfile, pattrib);
++	} else {
++#ifdef CONFIG_TDLS
++		if (pattrib->direct_link == _TRUE) {
++			if (pattrib->qos_en)
++				set_qos(&pktfile, pattrib);
++		} else
++#endif
++		{
++			if (pqospriv->qos_option) {
++				set_qos(&pktfile, pattrib);
++
++				if (pmlmepriv->acm_mask != 0)
++					pattrib->priority = qos_acm(pmlmepriv->acm_mask, pattrib->priority);
++			}
++		}
++	}
++
++	/* pattrib->priority = 5; */ /* force to used VI queue, for testing */
++	pattrib->hw_ssn_sel = pxmitpriv->hw_ssn_seq_no;
++	rtw_set_tx_chksum_offload(pkt, pattrib);
++
++exit:
++
++
++	return res;
++}
++
++static s32 xmitframe_addmic(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	sint			curfragnum, length;
++	u8	*pframe, *payload, mic[8];
++	struct	mic_data		micdata;
++	/* struct	sta_info		*stainfo; */
++	struct	qos_priv   *pqospriv = &(padapter->mlmepriv.qospriv);
++	struct	pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct	security_priv	*psecuritypriv = &padapter->securitypriv;
++	struct	xmit_priv		*pxmitpriv = &padapter->xmitpriv;
++	u8 priority[4] = {0x0, 0x0, 0x0, 0x0};
++	u8 hw_hdr_offset = 0;
++	sint bmcst = IS_MCAST(pattrib->ra);
++
++	/*
++		if(pattrib->psta)
++		{
++			stainfo = pattrib->psta;
++		}
++		else
++		{
++			RTW_INFO("%s, call rtw_get_stainfo()\n", __func__);
++			stainfo=rtw_get_stainfo(&padapter->stapriv ,&pattrib->ra[0]);
++		}
++
++		if(stainfo==NULL)
++		{
++			RTW_INFO("%s, psta==NUL\n", __func__);
++			return _FAIL;
++		}
++
++		if(!(stainfo->state &_FW_LINKED))
++		{
++			RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, stainfo->state);
++			return _FAIL;
++		}
++	*/
++
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	hw_hdr_offset = TXDESC_SIZE + (pxmitframe->pkt_offset * PACKET_OFFSET_SZ);;
++#else
++#ifdef CONFIG_TX_EARLY_MODE
++	hw_hdr_offset = TXDESC_OFFSET + EARLY_MODE_INFO_SIZE;
++#else
++	hw_hdr_offset = TXDESC_OFFSET;
++#endif
++#endif
++
++	if (pattrib->encrypt == _TKIP_) { /* if(psecuritypriv->dot11PrivacyAlgrthm==_TKIP_PRIVACY_) */
++		/* encode mic code */
++		/* if(stainfo!= NULL) */
++		{
++			u8 null_key[16] = {0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0};
++
++			pframe = pxmitframe->buf_addr + hw_hdr_offset;
++
++			if (bmcst) {
++				if (_rtw_memcmp(psecuritypriv->dot118021XGrptxmickey[psecuritypriv->dot118021XGrpKeyid].skey, null_key, 16) == _TRUE) {
++					/* DbgPrint("\nxmitframe_addmic:stainfo->dot11tkiptxmickey==0\n"); */
++					/* rtw_msleep_os(10); */
++					return _FAIL;
++				}
++				/* start to calculate the mic code */
++				rtw_secmicsetkey(&micdata, psecuritypriv->dot118021XGrptxmickey[psecuritypriv->dot118021XGrpKeyid].skey);
++			} else {
++				if (_rtw_memcmp(&pattrib->dot11tkiptxmickey.skey[0], null_key, 16) == _TRUE) {
++					/* DbgPrint("\nxmitframe_addmic:stainfo->dot11tkiptxmickey==0\n"); */
++					/* rtw_msleep_os(10); */
++					return _FAIL;
++				}
++				/* start to calculate the mic code */
++				rtw_secmicsetkey(&micdata, &pattrib->dot11tkiptxmickey.skey[0]);
++			}
++
++			if (pframe[1] & 1) { /* ToDS==1 */
++				rtw_secmicappend(&micdata, &pframe[16], 6);  /* DA */
++				if (pframe[1] & 2) /* From Ds==1 */
++					rtw_secmicappend(&micdata, &pframe[24], 6);
++				else
++					rtw_secmicappend(&micdata, &pframe[10], 6);
++			} else {	/* ToDS==0 */
++				rtw_secmicappend(&micdata, &pframe[4], 6);   /* DA */
++				if (pframe[1] & 2) /* From Ds==1 */
++					rtw_secmicappend(&micdata, &pframe[16], 6);
++				else
++					rtw_secmicappend(&micdata, &pframe[10], 6);
++
++			}
++
++			/* if(pqospriv->qos_option==1) */
++			if (pattrib->qos_en)
++				priority[0] = (u8)pxmitframe->attrib.priority;
++
++
++			rtw_secmicappend(&micdata, &priority[0], 4);
++
++			payload = pframe;
++
++			for (curfragnum = 0; curfragnum < pattrib->nr_frags; curfragnum++) {
++				payload = (u8 *)RND4((SIZE_PTR)(payload));
++
++				payload = payload + pattrib->hdrlen + pattrib->iv_len;
++				if ((curfragnum + 1) == pattrib->nr_frags) {
++					length = pattrib->last_txcmdsz - pattrib->hdrlen - pattrib->iv_len - ((pattrib->bswenc) ? pattrib->icv_len : 0);
++					rtw_secmicappend(&micdata, payload, length);
++					payload = payload + length;
++				} else {
++					length = pxmitpriv->frag_len - pattrib->hdrlen - pattrib->iv_len - ((pattrib->bswenc) ? pattrib->icv_len : 0);
++					rtw_secmicappend(&micdata, payload, length);
++					payload = payload + length + pattrib->icv_len;
++				}
++			}
++			rtw_secgetmic(&micdata, &(mic[0]));
++			/* add mic code  and add the mic code length in last_txcmdsz */
++
++			_rtw_memcpy(payload, &(mic[0]), 8);
++			pattrib->last_txcmdsz += 8;
++
++			payload = payload - pattrib->last_txcmdsz + 8;
++		}
++	}
++
++
++	return _SUCCESS;
++}
++
++/*#define DBG_TX_SW_ENCRYPTOR*/
++
++static s32 xmitframe_swencrypt(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++
++	struct	pkt_attrib	*pattrib = &pxmitframe->attrib;
++	/* struct 	security_priv	*psecuritypriv=&padapter->securitypriv; */
++
++
++	/* if((psecuritypriv->sw_encrypt)||(pattrib->bswenc))	 */
++	if (pattrib->bswenc) {
++#ifdef DBG_TX_SW_ENCRYPTOR
++		RTW_INFO(ADPT_FMT" - sec_type:%s DO SW encryption\n",
++			ADPT_ARG(padapter), security_type_str(pattrib->encrypt));
++#endif
++
++		switch (pattrib->encrypt) {
++		case _WEP40_:
++		case _WEP104_:
++			rtw_wep_encrypt(padapter, (u8 *)pxmitframe);
++			break;
++		case _TKIP_:
++			rtw_tkip_encrypt(padapter, (u8 *)pxmitframe);
++			break;
++		case _AES_:
++			rtw_aes_encrypt(padapter, (u8 *)pxmitframe);
++			break;
++#ifdef CONFIG_WAPI_SUPPORT
++		case _SMS4_:
++			rtw_sms4_encrypt(padapter, (u8 *)pxmitframe);
++#endif
++		default:
++			break;
++		}
++
++	}
++
++
++	return _SUCCESS;
++}
++
++s32 rtw_make_wlanhdr(_adapter *padapter , u8 *hdr, struct pkt_attrib *pattrib)
++{
++	u16 *qc;
++
++	struct rtw_ieee80211_hdr *pwlanhdr = (struct rtw_ieee80211_hdr *)hdr;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct qos_priv *pqospriv = &pmlmepriv->qospriv;
++	u8 qos_option = _FALSE;
++	sint res = _SUCCESS;
++	u16 *fctrl = &pwlanhdr->frame_ctl;
++
++	/* struct sta_info *psta; */
++
++	/* sint bmcst = IS_MCAST(pattrib->ra); */
++
++
++	/*
++		psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++		if(pattrib->psta != psta)
++		{
++			RTW_INFO("%s, pattrib->psta(%p) != psta(%p)\n", __func__, pattrib->psta, psta);
++			return;
++		}
++
++		if(psta==NULL)
++		{
++			RTW_INFO("%s, psta==NUL\n", __func__);
++			return _FAIL;
++		}
++
++		if(!(psta->state &_FW_LINKED))
++		{
++			RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++			return _FAIL;
++		}
++	*/
++
++	_rtw_memset(hdr, 0, WLANHDR_OFFSET);
++
++	SetFrameSubType(fctrl, pattrib->subtype);
++
++	if (pattrib->subtype & WIFI_DATA_TYPE) {
++		if ((check_fwstate(pmlmepriv,  WIFI_STATION_STATE) == _TRUE)) {
++#ifdef CONFIG_TDLS
++			if (pattrib->direct_link == _TRUE) {
++				/* TDLS data transfer, ToDS=0, FrDs=0 */
++				_rtw_memcpy(pwlanhdr->addr1, pattrib->dst, ETH_ALEN);
++				_rtw_memcpy(pwlanhdr->addr2, pattrib->src, ETH_ALEN);
++				_rtw_memcpy(pwlanhdr->addr3, get_bssid(pmlmepriv), ETH_ALEN);
++
++				if (pattrib->qos_en)
++					qos_option = _TRUE;
++			} else
++#endif /* CONFIG_TDLS */
++			{
++				/* to_ds = 1, fr_ds = 0; */
++				/* 1.Data transfer to AP */
++				/* 2.Arp pkt will relayed by AP */
++				SetToDs(fctrl);
++				_rtw_memcpy(pwlanhdr->addr1, get_bssid(pmlmepriv), ETH_ALEN);
++				_rtw_memcpy(pwlanhdr->addr2, pattrib->ta, ETH_ALEN);
++				_rtw_memcpy(pwlanhdr->addr3, pattrib->dst, ETH_ALEN);
++
++				if (pqospriv->qos_option)
++					qos_option = _TRUE;
++			}
++		} else if ((check_fwstate(pmlmepriv,  WIFI_AP_STATE) == _TRUE)) {
++			/* to_ds = 0, fr_ds = 1; */
++			SetFrDs(fctrl);
++			_rtw_memcpy(pwlanhdr->addr1, pattrib->dst, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr2, get_bssid(pmlmepriv), ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, pattrib->src, ETH_ALEN);
++
++			if (pattrib->qos_en)
++				qos_option = _TRUE;
++		} else if ((check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) ||
++			(check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE)) {
++			_rtw_memcpy(pwlanhdr->addr1, pattrib->dst, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr2, pattrib->ta, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, get_bssid(pmlmepriv), ETH_ALEN);
++
++			if (pattrib->qos_en)
++				qos_option = _TRUE;
++		} else {
++			res = _FAIL;
++			goto exit;
++		}
++
++		if (pattrib->mdata)
++			SetMData(fctrl);
++
++		if (pattrib->encrypt)
++			SetPrivacy(fctrl);
++
++		if (qos_option) {
++			qc = (unsigned short *)(hdr + pattrib->hdrlen - 2);
++
++			if (pattrib->priority)
++				SetPriority(qc, pattrib->priority);
++
++			SetEOSP(qc, pattrib->eosp);
++
++			SetAckpolicy(qc, pattrib->ack_policy);
++		}
++
++		/* TODO: fill HT Control Field */
++
++		/* Update Seq Num will be handled by f/w */
++		{
++			struct sta_info *psta;
++			psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++			if (pattrib->psta != psta) {
++				RTW_INFO("%s, pattrib->psta(%p) != psta(%p)\n", __func__, pattrib->psta, psta);
++				return _FAIL;
++			}
++
++			if (psta == NULL) {
++				RTW_INFO("%s, psta==NUL\n", __func__);
++				return _FAIL;
++			}
++
++			if (!(psta->state & _FW_LINKED)) {
++				RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++				return _FAIL;
++			}
++
++
++			if (psta) {
++				psta->sta_xmitpriv.txseq_tid[pattrib->priority]++;
++				psta->sta_xmitpriv.txseq_tid[pattrib->priority] &= 0xFFF;
++				pattrib->seqnum = psta->sta_xmitpriv.txseq_tid[pattrib->priority];
++
++				SetSeqNum(hdr, pattrib->seqnum);
++
++#ifdef CONFIG_80211N_HT
++				/* check if enable ampdu */
++				if (pattrib->ht_en && psta->htpriv.ampdu_enable) {
++					if (psta->htpriv.agg_enable_bitmap & BIT(pattrib->priority))
++						pattrib->ampdu_en = _TRUE;
++				}
++
++				/* re-check if enable ampdu by BA_starting_seqctrl */
++				if (pattrib->ampdu_en == _TRUE) {
++					u16 tx_seq;
++
++					tx_seq = psta->BA_starting_seqctrl[pattrib->priority & 0x0f];
++
++					/* check BA_starting_seqctrl */
++					if (SN_LESS(pattrib->seqnum, tx_seq)) {
++						/* RTW_INFO("tx ampdu seqnum(%d) < tx_seq(%d)\n", pattrib->seqnum, tx_seq); */
++						pattrib->ampdu_en = _FALSE;/* AGG BK */
++					} else if (SN_EQUAL(pattrib->seqnum, tx_seq)) {
++						psta->BA_starting_seqctrl[pattrib->priority & 0x0f] = (tx_seq + 1) & 0xfff;
++
++						pattrib->ampdu_en = _TRUE;/* AGG EN */
++					} else {
++						/* RTW_INFO("tx ampdu over run\n"); */
++						psta->BA_starting_seqctrl[pattrib->priority & 0x0f] = (pattrib->seqnum + 1) & 0xfff;
++						pattrib->ampdu_en = _TRUE;/* AGG EN */
++					}
++
++				}
++#endif /* CONFIG_80211N_HT */
++			}
++		}
++
++	} else {
++
++	}
++
++exit:
++
++
++	return res;
++}
++
++s32 rtw_txframes_pending(_adapter *padapter)
++{
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	return ((_rtw_queue_empty(&pxmitpriv->be_pending) == _FALSE) ||
++		(_rtw_queue_empty(&pxmitpriv->bk_pending) == _FALSE) ||
++		(_rtw_queue_empty(&pxmitpriv->vi_pending) == _FALSE) ||
++		(_rtw_queue_empty(&pxmitpriv->vo_pending) == _FALSE));
++}
++
++s32 rtw_txframes_sta_ac_pending(_adapter *padapter, struct pkt_attrib *pattrib)
++{
++	struct sta_info *psta;
++	struct tx_servq *ptxservq;
++	int priority = pattrib->priority;
++	/*
++		if(pattrib->psta)
++		{
++			psta = pattrib->psta;
++		}
++		else
++		{
++			RTW_INFO("%s, call rtw_get_stainfo()\n", __func__);
++			psta=rtw_get_stainfo(&padapter->stapriv ,&pattrib->ra[0]);
++		}
++	*/
++	psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++	if (pattrib->psta != psta) {
++		RTW_INFO("%s, pattrib->psta(%p) != psta(%p)\n", __func__, pattrib->psta, psta);
++		return 0;
++	}
++
++	if (psta == NULL) {
++		RTW_INFO("%s, psta==NUL\n", __func__);
++		return 0;
++	}
++
++	if (!(psta->state & _FW_LINKED)) {
++		RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++		return 0;
++	}
++
++	switch (priority) {
++	case 1:
++	case 2:
++		ptxservq = &(psta->sta_xmitpriv.bk_q);
++		break;
++	case 4:
++	case 5:
++		ptxservq = &(psta->sta_xmitpriv.vi_q);
++		break;
++	case 6:
++	case 7:
++		ptxservq = &(psta->sta_xmitpriv.vo_q);
++		break;
++	case 0:
++	case 3:
++	default:
++		ptxservq = &(psta->sta_xmitpriv.be_q);
++		break;
++
++	}
++
++	return ptxservq->qcnt;
++}
++
++#ifdef CONFIG_TDLS
++
++int rtw_build_tdls_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++	int res = _SUCCESS;
++
++	switch (ptxmgmt->action_code) {
++	case TDLS_SETUP_REQUEST:
++		rtw_build_tdls_setup_req_ies(padapter, pxmitframe, pframe, ptxmgmt);
++		break;
++	case TDLS_SETUP_RESPONSE:
++		rtw_build_tdls_setup_rsp_ies(padapter, pxmitframe, pframe, ptxmgmt);
++		break;
++	case TDLS_SETUP_CONFIRM:
++		rtw_build_tdls_setup_cfm_ies(padapter, pxmitframe, pframe, ptxmgmt);
++		break;
++	case TDLS_TEARDOWN:
++		rtw_build_tdls_teardown_ies(padapter, pxmitframe, pframe, ptxmgmt);
++		break;
++	case TDLS_DISCOVERY_REQUEST:
++		rtw_build_tdls_dis_req_ies(padapter, pxmitframe, pframe, ptxmgmt);
++		break;
++	case TDLS_PEER_TRAFFIC_INDICATION:
++		rtw_build_tdls_peer_traffic_indication_ies(padapter, pxmitframe, pframe, ptxmgmt);
++		break;
++#ifdef CONFIG_TDLS_CH_SW
++	case TDLS_CHANNEL_SWITCH_REQUEST:
++		rtw_build_tdls_ch_switch_req_ies(padapter, pxmitframe, pframe, ptxmgmt);
++		break;
++	case TDLS_CHANNEL_SWITCH_RESPONSE:
++		rtw_build_tdls_ch_switch_rsp_ies(padapter, pxmitframe, pframe, ptxmgmt);
++		break;
++#endif
++	case TDLS_PEER_TRAFFIC_RESPONSE:
++		rtw_build_tdls_peer_traffic_rsp_ies(padapter, pxmitframe, pframe, ptxmgmt);
++		break;
++#ifdef CONFIG_WFD
++	case TUNNELED_PROBE_REQ:
++		rtw_build_tunneled_probe_req_ies(padapter, pxmitframe, pframe);
++		break;
++	case TUNNELED_PROBE_RSP:
++		rtw_build_tunneled_probe_rsp_ies(padapter, pxmitframe, pframe);
++		break;
++#endif /* CONFIG_WFD */
++	default:
++		res = _FAIL;
++		break;
++	}
++
++	return res;
++}
++
++s32 rtw_make_tdls_wlanhdr(_adapter *padapter , u8 *hdr, struct pkt_attrib *pattrib, struct tdls_txmgmt *ptxmgmt)
++{
++	u16 *qc;
++	struct rtw_ieee80211_hdr *pwlanhdr = (struct rtw_ieee80211_hdr *)hdr;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct qos_priv *pqospriv = &pmlmepriv->qospriv;
++	struct sta_priv	*pstapriv = &padapter->stapriv;
++	struct sta_info *psta = NULL, *ptdls_sta = NULL;
++	u8 tdls_seq = 0, baddr[ETH_ALEN] = { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff };
++
++	sint res = _SUCCESS;
++	u16 *fctrl = &pwlanhdr->frame_ctl;
++
++
++	_rtw_memset(hdr, 0, WLANHDR_OFFSET);
++
++	SetFrameSubType(fctrl, pattrib->subtype);
++
++	switch (ptxmgmt->action_code) {
++	case TDLS_SETUP_REQUEST:
++	case TDLS_SETUP_RESPONSE:
++	case TDLS_SETUP_CONFIRM:
++	case TDLS_PEER_TRAFFIC_INDICATION:
++	case TDLS_PEER_PSM_REQUEST:
++	case TUNNELED_PROBE_REQ:
++	case TUNNELED_PROBE_RSP:
++	case TDLS_DISCOVERY_REQUEST:
++		SetToDs(fctrl);
++		_rtw_memcpy(pwlanhdr->addr1, get_bssid(pmlmepriv), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, pattrib->src, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, pattrib->dst, ETH_ALEN);
++		break;
++	case TDLS_CHANNEL_SWITCH_REQUEST:
++	case TDLS_CHANNEL_SWITCH_RESPONSE:
++	case TDLS_PEER_PSM_RESPONSE:
++	case TDLS_PEER_TRAFFIC_RESPONSE:
++		_rtw_memcpy(pwlanhdr->addr1, pattrib->dst, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, pattrib->src, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, get_bssid(pmlmepriv), ETH_ALEN);
++		tdls_seq = 1;
++		break;
++	case TDLS_TEARDOWN:
++		if (ptxmgmt->status_code == _RSON_TDLS_TEAR_UN_RSN_) {
++			_rtw_memcpy(pwlanhdr->addr1, pattrib->dst, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr2, pattrib->src, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, get_bssid(pmlmepriv), ETH_ALEN);
++			tdls_seq = 1;
++		} else {
++			SetToDs(fctrl);
++			_rtw_memcpy(pwlanhdr->addr1, get_bssid(pmlmepriv), ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr2, pattrib->src, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, pattrib->dst, ETH_ALEN);
++		}
++		break;
++	}
++
++	if (pattrib->encrypt)
++		SetPrivacy(fctrl);
++
++	if (ptxmgmt->action_code == TDLS_PEER_TRAFFIC_RESPONSE)
++		SetPwrMgt(fctrl);
++
++	if (pqospriv->qos_option) {
++		qc = (unsigned short *)(hdr + pattrib->hdrlen - 2);
++		if (pattrib->priority)
++			SetPriority(qc, pattrib->priority);
++		SetAckpolicy(qc, pattrib->ack_policy);
++	}
++
++	psta = pattrib->psta;
++
++	/* 1. update seq_num per link by sta_info */
++	/* 2. rewrite encrypt to _AES_, also rewrite iv_len, icv_len */
++	if (tdls_seq == 1) {
++		ptdls_sta = rtw_get_stainfo(pstapriv, pattrib->dst);
++		if (ptdls_sta) {
++			ptdls_sta->sta_xmitpriv.txseq_tid[pattrib->priority]++;
++			ptdls_sta->sta_xmitpriv.txseq_tid[pattrib->priority] &= 0xFFF;
++			pattrib->seqnum = ptdls_sta->sta_xmitpriv.txseq_tid[pattrib->priority];
++			SetSeqNum(hdr, pattrib->seqnum);
++
++			if (pattrib->encrypt) {
++				pattrib->encrypt = _AES_;
++				pattrib->iv_len = 8;
++				pattrib->icv_len = 8;
++				pattrib->bswenc = _FALSE;
++			}
++			pattrib->mac_id = ptdls_sta->mac_id;
++		} else {
++			res = _FAIL;
++			goto exit;
++		}
++	} else if (psta) {
++		psta->sta_xmitpriv.txseq_tid[pattrib->priority]++;
++		psta->sta_xmitpriv.txseq_tid[pattrib->priority] &= 0xFFF;
++		pattrib->seqnum = psta->sta_xmitpriv.txseq_tid[pattrib->priority];
++		SetSeqNum(hdr, pattrib->seqnum);
++	}
++
++
++exit:
++
++
++	return res;
++}
++
++s32 rtw_xmit_tdls_coalesce(_adapter *padapter, struct xmit_frame *pxmitframe, struct tdls_txmgmt *ptxmgmt)
++{
++	s32 llc_sz;
++
++	u8 *pframe, *mem_start;
++
++	struct sta_info		*psta;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	u8 *pbuf_start;
++	s32 bmcst = IS_MCAST(pattrib->ra);
++	s32 res = _SUCCESS;
++
++
++	if (pattrib->psta)
++		psta = pattrib->psta;
++	else {
++		if (bmcst)
++			psta = rtw_get_bcmc_stainfo(padapter);
++		else
++			psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++	}
++
++	if (psta == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	if (pxmitframe->buf_addr == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pbuf_start = pxmitframe->buf_addr;
++	mem_start = pbuf_start + TXDESC_OFFSET;
++
++	if (rtw_make_tdls_wlanhdr(padapter, mem_start, pattrib, ptxmgmt) == _FAIL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pframe = mem_start;
++	pframe += pattrib->hdrlen;
++
++	/* adding icv, if necessary... */
++	if (pattrib->iv_len) {
++		if (psta != NULL) {
++			switch (pattrib->encrypt) {
++			case _WEP40_:
++			case _WEP104_:
++				WEP_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++				break;
++			case _TKIP_:
++				if (bmcst)
++					TKIP_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++				else
++					TKIP_IV(pattrib->iv, psta->dot11txpn, 0);
++				break;
++			case _AES_:
++				if (bmcst)
++					AES_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++				else
++					AES_IV(pattrib->iv, psta->dot11txpn, 0);
++				break;
++			}
++		}
++
++		_rtw_memcpy(pframe, pattrib->iv, pattrib->iv_len);
++		pframe += pattrib->iv_len;
++
++	}
++
++	llc_sz = rtw_put_snap(pframe, pattrib->ether_type);
++	pframe += llc_sz;
++
++	/* pattrib->pktlen will be counted in rtw_build_tdls_ies */
++	pattrib->pktlen = 0;
++
++	rtw_build_tdls_ies(padapter, pxmitframe, pframe, ptxmgmt);
++
++	if ((pattrib->icv_len > 0) && (pattrib->bswenc)) {
++		pframe += pattrib->pktlen;
++		_rtw_memcpy(pframe, pattrib->icv, pattrib->icv_len);
++		pframe += pattrib->icv_len;
++	}
++
++	pattrib->nr_frags = 1;
++	pattrib->last_txcmdsz = pattrib->hdrlen + pattrib->iv_len + llc_sz +
++		((pattrib->bswenc) ? pattrib->icv_len : 0) + pattrib->pktlen;
++
++	if (xmitframe_addmic(padapter, pxmitframe) == _FAIL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	xmitframe_swencrypt(padapter, pxmitframe);
++
++	update_attrib_vcs_info(padapter, pxmitframe);
++
++exit:
++
++
++	return res;
++}
++#endif /* CONFIG_TDLS */
++
++/*
++ * Calculate wlan 802.11 packet MAX size from pkt_attrib
++ * This function doesn't consider fragment case
++ */
++u32 rtw_calculate_wlan_pkt_size_by_attribue(struct pkt_attrib *pattrib)
++{
++	u32	len = 0;
++
++	len = pattrib->hdrlen + pattrib->iv_len; /* WLAN Header and IV */
++	len += SNAP_SIZE + sizeof(u16); /* LLC */
++	len += pattrib->pktlen;
++	if (pattrib->encrypt == _TKIP_)
++		len += 8; /* MIC */
++	len += ((pattrib->bswenc) ? pattrib->icv_len : 0); /* ICV */
++
++	return len;
++}
++
++/*
++
++This sub-routine will perform all the following:
++
++1. remove 802.3 header.
++2. create wlan_header, based on the info in pxmitframe
++3. append sta's iv/ext-iv
++4. append LLC
++5. move frag chunk from pframe to pxmitframe->mem
++6. apply sw-encrypt, if necessary.
++
++*/
++s32 rtw_xmitframe_coalesce(_adapter *padapter, _pkt *pkt, struct xmit_frame *pxmitframe)
++{
++	struct pkt_file pktfile;
++
++	s32 frg_inx, frg_len, mpdu_len, llc_sz, mem_sz;
++
++	SIZE_PTR addr;
++
++	u8 *pframe, *mem_start;
++	u8 hw_hdr_offset;
++
++	/* struct sta_info		*psta; */
++	/* struct sta_priv		*pstapriv = &padapter->stapriv; */
++	/* struct mlme_priv	*pmlmepriv = &padapter->mlmepriv; */
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++
++	u8 *pbuf_start;
++
++	s32 bmcst = IS_MCAST(pattrib->ra);
++	s32 res = _SUCCESS;
++
++
++	/*
++		if (pattrib->psta)
++		{
++			psta = pattrib->psta;
++		} else
++		{
++			RTW_INFO("%s, call rtw_get_stainfo()\n", __func__);
++			psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++		}
++
++		if(psta==NULL)
++		{
++
++			RTW_INFO("%s, psta==NUL\n", __func__);
++			return _FAIL;
++		}
++
++
++		if(!(psta->state &_FW_LINKED))
++		{
++			RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++			return _FAIL;
++		}
++	*/
++	if (pxmitframe->buf_addr == NULL) {
++		RTW_INFO("==> %s buf_addr==NULL\n", __FUNCTION__);
++		return _FAIL;
++	}
++
++	pbuf_start = pxmitframe->buf_addr;
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	hw_hdr_offset =  TXDESC_SIZE + (pxmitframe->pkt_offset * PACKET_OFFSET_SZ);
++#else
++#ifdef CONFIG_TX_EARLY_MODE /* for SDIO && Tx Agg */
++	hw_hdr_offset = TXDESC_OFFSET + EARLY_MODE_INFO_SIZE;
++#else
++	hw_hdr_offset = TXDESC_OFFSET;
++#endif
++#endif
++
++	mem_start = pbuf_start +	hw_hdr_offset;
++
++	if (rtw_make_wlanhdr(padapter, mem_start, pattrib) == _FAIL) {
++		RTW_INFO("rtw_xmitframe_coalesce: rtw_make_wlanhdr fail; drop pkt\n");
++		res = _FAIL;
++		goto exit;
++	}
++
++	_rtw_open_pktfile(pkt, &pktfile);
++	_rtw_pktfile_read(&pktfile, NULL, pattrib->pkt_hdrlen);
++
++	frg_inx = 0;
++	frg_len = pxmitpriv->frag_len - 4;/* 2346-4 = 2342 */
++
++	while (1) {
++		llc_sz = 0;
++
++		mpdu_len = frg_len;
++
++		pframe = mem_start;
++
++		SetMFrag(mem_start);
++
++		pframe += pattrib->hdrlen;
++		mpdu_len -= pattrib->hdrlen;
++
++		/* adding icv, if necessary... */
++		if (pattrib->iv_len) {
++#if 0
++			/* if (check_fwstate(pmlmepriv, WIFI_MP_STATE)) */
++			/*	psta = rtw_get_stainfo(pstapriv, get_bssid(pmlmepriv)); */
++			/* else */
++			/*	psta = rtw_get_stainfo(pstapriv, pattrib->ra); */
++
++			if (psta != NULL) {
++				switch (pattrib->encrypt) {
++				case _WEP40_:
++				case _WEP104_:
++					WEP_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++					break;
++				case _TKIP_:
++					if (bmcst)
++						TKIP_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++					else
++						TKIP_IV(pattrib->iv, psta->dot11txpn, 0);
++					break;
++				case _AES_:
++					if (bmcst)
++						AES_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++					else
++						AES_IV(pattrib->iv, psta->dot11txpn, 0);
++					break;
++#ifdef CONFIG_WAPI_SUPPORT
++				case _SMS4_:
++					rtw_wapi_get_iv(padapter, pattrib->ra, pattrib->iv);
++					break;
++#endif
++				}
++			}
++#endif
++			_rtw_memcpy(pframe, pattrib->iv, pattrib->iv_len);
++
++
++			pframe += pattrib->iv_len;
++
++			mpdu_len -= pattrib->iv_len;
++		}
++
++		if (frg_inx == 0) {
++			llc_sz = rtw_put_snap(pframe, pattrib->ether_type);
++			pframe += llc_sz;
++			mpdu_len -= llc_sz;
++		}
++
++		if ((pattrib->icv_len > 0) && (pattrib->bswenc))
++			mpdu_len -= pattrib->icv_len;
++
++
++		if (bmcst) {
++			/* don't do fragment to broadcat/multicast packets */
++			mem_sz = _rtw_pktfile_read(&pktfile, pframe, pattrib->pktlen);
++		} else
++			mem_sz = _rtw_pktfile_read(&pktfile, pframe, mpdu_len);
++
++		pframe += mem_sz;
++
++		if ((pattrib->icv_len > 0) && (pattrib->bswenc)) {
++			_rtw_memcpy(pframe, pattrib->icv, pattrib->icv_len);
++			pframe += pattrib->icv_len;
++		}
++
++		frg_inx++;
++
++		if (bmcst || (rtw_endofpktfile(&pktfile) == _TRUE)) {
++			pattrib->nr_frags = frg_inx;
++
++			pattrib->last_txcmdsz = pattrib->hdrlen + pattrib->iv_len + ((pattrib->nr_frags == 1) ? llc_sz : 0) +
++				((pattrib->bswenc) ? pattrib->icv_len : 0) + mem_sz;
++
++			ClearMFrag(mem_start);
++
++			break;
++		}
++
++		addr = (SIZE_PTR)(pframe);
++
++		mem_start = (unsigned char *)RND4(addr) + hw_hdr_offset;
++		_rtw_memcpy(mem_start, pbuf_start + hw_hdr_offset, pattrib->hdrlen);
++
++	}
++
++	if (xmitframe_addmic(padapter, pxmitframe) == _FAIL) {
++		RTW_INFO("xmitframe_addmic(padapter, pxmitframe)==_FAIL\n");
++		res = _FAIL;
++		goto exit;
++	}
++
++	xmitframe_swencrypt(padapter, pxmitframe);
++
++	if (bmcst == _FALSE)
++		update_attrib_vcs_info(padapter, pxmitframe);
++	else
++		pattrib->vcs_mode = NONE_VCS;
++
++exit:
++
++
++	return res;
++}
++
++#ifdef CONFIG_IEEE80211W
++/* broadcast or multicast management pkt use BIP, unicast management pkt use CCMP encryption */
++s32 rtw_mgmt_xmitframe_coalesce(_adapter *padapter, _pkt *pkt, struct xmit_frame *pxmitframe)
++{
++	struct pkt_file pktfile;
++	s32 frg_inx, frg_len, mpdu_len, llc_sz, mem_sz;
++	SIZE_PTR addr;
++	u8 *pframe, *mem_start = NULL, *tmp_buf = NULL;
++	u8 hw_hdr_offset, subtype ;
++	struct sta_info		*psta = NULL;
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	u8 *pbuf_start;
++	s32 bmcst = IS_MCAST(pattrib->ra);
++	s32 res = _FAIL;
++	u8 *BIP_AAD = NULL;
++	u8 *MGMT_body = NULL;
++
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u8 MME[_MME_IE_LENGTH_];
++
++	_irqL irqL;
++	u32	ori_len;
++	mem_start = pframe = (u8 *)(pxmitframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	ori_len = BIP_AAD_SIZE + pattrib->pktlen;
++	tmp_buf = BIP_AAD = rtw_zmalloc(ori_len);
++	subtype = GetFrameSubType(pframe); /* bit(7)~bit(2) */
++
++	if (BIP_AAD == NULL)
++		return _FAIL;
++
++	_enter_critical_bh(&padapter->security_key_mutex, &irqL);
++
++
++	/* IGTK key is not install, it may not support 802.11w */
++	if (padapter->securitypriv.binstallBIPkey != _TRUE) {
++		RTW_INFO("no instll BIP key\n");
++		goto xmitframe_coalesce_success;
++	}
++	/* station mode doesn't need TX BIP, just ready the code */
++	if (bmcst) {
++		int frame_body_len;
++		u8 mic[16];
++
++		_rtw_memset(MME, 0, _MME_IE_LENGTH_);
++
++		/* other types doesn't need the BIP */
++		if (GetFrameSubType(pframe) != WIFI_DEAUTH && GetFrameSubType(pframe) != WIFI_DISASSOC)
++			goto xmitframe_coalesce_fail;
++
++		MGMT_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++		pframe += pattrib->pktlen;
++
++		/* octent 0 and 1 is key index ,BIP keyid is 4 or 5, LSB only need octent 0 */
++		MME[0] = padapter->securitypriv.dot11wBIPKeyid;
++		/* copy packet number */
++		_rtw_memcpy(&MME[2], &pmlmeext->mgnt_80211w_IPN, 6);
++		/* increase the packet number */
++		pmlmeext->mgnt_80211w_IPN++;
++
++		/* add MME IE with MIC all zero, MME string doesn't include element id and length */
++		pframe = rtw_set_ie(pframe, _MME_IE_ , 16 , MME, &(pattrib->pktlen));
++		pattrib->last_txcmdsz = pattrib->pktlen;
++		/* total frame length - header length */
++		frame_body_len = pattrib->pktlen - sizeof(struct rtw_ieee80211_hdr_3addr);
++
++		/* conscruct AAD, copy frame control field */
++		_rtw_memcpy(BIP_AAD, &pwlanhdr->frame_ctl, 2);
++		ClearRetry(BIP_AAD);
++		ClearPwrMgt(BIP_AAD);
++		ClearMData(BIP_AAD);
++		/* conscruct AAD, copy address 1 to address 3 */
++		_rtw_memcpy(BIP_AAD + 2, pwlanhdr->addr1, 18);
++		/* copy management fram body */
++		_rtw_memcpy(BIP_AAD + BIP_AAD_SIZE, MGMT_body, frame_body_len);
++#if 0
++		/* dump total packet include MME with zero MIC */
++		{
++			int i;
++			printk("Total packet: ");
++			for (i = 0; i < BIP_AAD_SIZE + frame_body_len; i++)
++				printk(" %02x ", BIP_AAD[i]);
++			printk("\n");
++		}
++#endif
++		/* calculate mic */
++		if (omac1_aes_128(padapter->securitypriv.dot11wBIPKey[padapter->securitypriv.dot11wBIPKeyid].skey
++			  , BIP_AAD, BIP_AAD_SIZE + frame_body_len, mic))
++			goto xmitframe_coalesce_fail;
++
++#if 0
++		/* dump calculated mic result */
++		{
++			int i;
++			printk("Calculated mic result: ");
++			for (i = 0; i < 16; i++)
++				printk(" %02x ", mic[i]);
++			printk("\n");
++		}
++#endif
++		/* copy right BIP mic value, total is 128bits, we use the 0~63 bits */
++		_rtw_memcpy(pframe - 8, mic, 8);
++		/*/dump all packet after mic ok
++		{
++			int pp;
++			printk("pattrib->pktlen = %d\n", pattrib->pktlen);
++			for(pp=0;pp< pattrib->pktlen; pp++)
++				printk(" %02x ", mem_start[pp]);
++			printk("\n");
++		}*/
++	} else { /* unicast mgmt frame TX */
++		/* start to encrypt mgmt frame */
++		if (subtype == WIFI_DEAUTH || subtype == WIFI_DISASSOC ||
++		    subtype == WIFI_REASSOCREQ || subtype == WIFI_ACTION) {
++			if (pattrib->psta)
++				psta = pattrib->psta;
++			else
++				psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++
++			if (psta == NULL) {
++
++				RTW_INFO("%s, psta==NUL\n", __func__);
++				goto xmitframe_coalesce_fail;
++			}
++
++			if (pxmitframe->buf_addr == NULL) {
++				RTW_INFO("%s, pxmitframe->buf_addr\n", __func__);
++				goto xmitframe_coalesce_fail;
++			}
++
++			/* RTW_INFO("%s, action frame category=%d\n", __func__, pframe[WLAN_HDR_A3_LEN]); */
++			/* according 802.11-2012 standard, these five types are not robust types */
++			if (subtype == WIFI_ACTION &&
++			    (pframe[WLAN_HDR_A3_LEN] == RTW_WLAN_CATEGORY_PUBLIC ||
++			     pframe[WLAN_HDR_A3_LEN] == RTW_WLAN_CATEGORY_HT ||
++			     pframe[WLAN_HDR_A3_LEN] == RTW_WLAN_CATEGORY_UNPROTECTED_WNM ||
++			     pframe[WLAN_HDR_A3_LEN] == RTW_WLAN_CATEGORY_SELF_PROTECTED  ||
++			     pframe[WLAN_HDR_A3_LEN] == RTW_WLAN_CATEGORY_P2P))
++				goto xmitframe_coalesce_fail;
++			/* before encrypt dump the management packet content */
++			/*{
++				int i;
++				printk("Management pkt: ");
++				for(i=0; i<pattrib->pktlen; i++)
++				printk(" %02x ", pframe[i]);
++				printk("=======\n");
++			}*/
++			if (pattrib->encrypt > 0)
++				_rtw_memcpy(pattrib->dot118021x_UncstKey.skey, psta->dot118021x_UncstKey.skey, 16);
++
++			/* To use wrong key */
++			if (pattrib->key_type == IEEE80211W_WRONG_KEY) {
++				RTW_INFO("use wrong key\n");
++				pattrib->dot118021x_UncstKey.skey[0] = 0xff;
++			}
++
++			/* bakeup original management packet */
++			_rtw_memcpy(tmp_buf, pframe, pattrib->pktlen);
++			/* move to data portion */
++			pframe += pattrib->hdrlen;
++
++			/* 802.11w unicast management packet must be _AES_ */
++			pattrib->iv_len = 8;
++			/* it's MIC of AES */
++			pattrib->icv_len = 8;
++
++			switch (pattrib->encrypt) {
++			case _AES_:
++				/* set AES IV header */
++				AES_IV(pattrib->iv, psta->dot11wtxpn, 0);
++				break;
++			default:
++				goto xmitframe_coalesce_fail;
++			}
++			/* insert iv header into management frame */
++			_rtw_memcpy(pframe, pattrib->iv, pattrib->iv_len);
++			pframe += pattrib->iv_len;
++			/* copy mgmt data portion after CCMP header */
++			_rtw_memcpy(pframe, tmp_buf + pattrib->hdrlen, pattrib->pktlen - pattrib->hdrlen);
++			/* move pframe to end of mgmt pkt */
++			pframe += pattrib->pktlen - pattrib->hdrlen;
++			/* add 8 bytes CCMP IV header to length */
++			pattrib->pktlen += pattrib->iv_len;
++#if 0
++			/* dump management packet include AES IV header */
++			{
++				int i;
++				printk("Management pkt + IV: ");
++				/* for(i=0; i<pattrib->pktlen; i++) */
++
++				printk("@@@@@@@@@@@@@\n");
++			}
++#endif
++
++			if ((pattrib->icv_len > 0) && (pattrib->bswenc)) {
++				_rtw_memcpy(pframe, pattrib->icv, pattrib->icv_len);
++				pframe += pattrib->icv_len;
++			}
++			/* add 8 bytes MIC */
++			pattrib->pktlen += pattrib->icv_len;
++			/* set final tx command size */
++			pattrib->last_txcmdsz = pattrib->pktlen;
++
++			/* set protected bit must be beofre SW encrypt */
++			SetPrivacy(mem_start);
++#if 0
++			/* dump management packet include AES header */
++			{
++				int i;
++				printk("prepare to enc Management pkt + IV: ");
++				for (i = 0; i < pattrib->pktlen; i++)
++					printk(" %02x ", mem_start[i]);
++				printk("@@@@@@@@@@@@@\n");
++			}
++#endif
++			/* software encrypt */
++			xmitframe_swencrypt(padapter, pxmitframe);
++		}
++	}
++
++xmitframe_coalesce_success:
++	_exit_critical_bh(&padapter->security_key_mutex, &irqL);
++	rtw_mfree(BIP_AAD, ori_len);
++	return _SUCCESS;
++
++xmitframe_coalesce_fail:
++	_exit_critical_bh(&padapter->security_key_mutex, &irqL);
++	rtw_mfree(BIP_AAD, ori_len);
++
++	return _FAIL;
++}
++#endif /* CONFIG_IEEE80211W */
++
++/* Logical Link Control(LLC) SubNetwork Attachment Point(SNAP) header
++ * IEEE LLC/SNAP header contains 8 octets
++ * First 3 octets comprise the LLC portion
++ * SNAP portion, 5 octets, is divided into two fields:
++ *	Organizationally Unique Identifier(OUI), 3 octets,
++ *	type, defined by that organization, 2 octets.
++ */
++s32 rtw_put_snap(u8 *data, u16 h_proto)
++{
++	struct ieee80211_snap_hdr *snap;
++	u8 *oui;
++
++
++	snap = (struct ieee80211_snap_hdr *)data;
++	snap->dsap = 0xaa;
++	snap->ssap = 0xaa;
++	snap->ctrl = 0x03;
++
++	if (h_proto == 0x8137 || h_proto == 0x80f3)
++		oui = P802_1H_OUI;
++	else
++		oui = RFC1042_OUI;
++
++	snap->oui[0] = oui[0];
++	snap->oui[1] = oui[1];
++	snap->oui[2] = oui[2];
++
++	*(u16 *)(data + SNAP_SIZE) = htons(h_proto);
++
++
++	return SNAP_SIZE + sizeof(u16);
++}
++
++void rtw_update_protection(_adapter *padapter, u8 *ie, uint ie_len)
++{
++
++	uint	protection;
++	u8	*perp;
++	sint	 erp_len;
++	struct	xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct	registry_priv *pregistrypriv = &padapter->registrypriv;
++
++
++	switch (pxmitpriv->vcs_setting) {
++	case DISABLE_VCS:
++		pxmitpriv->vcs = NONE_VCS;
++		break;
++
++	case ENABLE_VCS:
++		break;
++
++	case AUTO_VCS:
++	default:
++		perp = rtw_get_ie(ie, _ERPINFO_IE_, &erp_len, ie_len);
++		if (perp == NULL)
++			pxmitpriv->vcs = NONE_VCS;
++		else {
++			protection = (*(perp + 2)) & BIT(1);
++			if (protection) {
++				if (pregistrypriv->vcs_type == RTS_CTS)
++					pxmitpriv->vcs = RTS_CTS;
++				else
++					pxmitpriv->vcs = CTS_TO_SELF;
++			} else
++				pxmitpriv->vcs = NONE_VCS;
++		}
++
++		break;
++
++	}
++
++
++}
++
++void rtw_count_tx_stats(PADAPTER padapter, struct xmit_frame *pxmitframe, int sz)
++{
++	struct sta_info *psta = NULL;
++	struct stainfo_stats *pstats = NULL;
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	u8	pkt_num = 1;
++
++	if ((pxmitframe->frame_tag & 0x0f) == DATA_FRAMETAG) {
++#if defined(CONFIG_USB_TX_AGGREGATION) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		pkt_num = pxmitframe->agg_num;
++#endif
++		pmlmepriv->LinkDetectInfo.NumTxOkInPeriod += pkt_num;
++
++		pxmitpriv->tx_pkts += pkt_num;
++
++		pxmitpriv->tx_bytes += sz;
++
++		psta = pxmitframe->attrib.psta;
++		if (psta) {
++			pstats = &psta->sta_stats;
++
++			pstats->tx_pkts += pkt_num;
++
++			pstats->tx_bytes += sz;
++#ifdef CONFIG_TDLS
++			if (pxmitframe->attrib.ptdls_sta != NULL) {
++				pstats = &(pxmitframe->attrib.ptdls_sta->sta_stats);
++				pstats->tx_pkts += pkt_num;
++				pstats->tx_bytes += sz;
++			}
++#endif /* CONFIG_TDLS */
++		}
++
++#ifdef CONFIG_CHECK_LEAVE_LPS
++		/* traffic_check_for_leave_lps(padapter, _TRUE); */
++#endif /* CONFIG_LPS */
++
++	}
++}
++
++static struct xmit_buf *__rtw_alloc_cmd_xmitbuf(struct xmit_priv *pxmitpriv,
++		enum cmdbuf_type buf_type)
++{
++	struct xmit_buf *pxmitbuf =  NULL;
++
++
++	pxmitbuf = &pxmitpriv->pcmd_xmitbuf[buf_type];
++	if (pxmitbuf !=  NULL) {
++		pxmitbuf->priv_data = NULL;
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		pxmitbuf->len = 0;
++		pxmitbuf->pdata = pxmitbuf->ptail = pxmitbuf->phead;
++		pxmitbuf->agg_num = 0;
++		pxmitbuf->pg_num = 0;
++#endif
++#ifdef CONFIG_PCI_HCI
++		pxmitbuf->len = 0;
++#ifdef CONFIG_TRX_BD_ARCH
++		/*pxmitbuf->buf_desc = NULL;*/
++#else
++		pxmitbuf->desc = NULL;
++#endif
++#endif
++
++		if (pxmitbuf->sctx) {
++			RTW_INFO("%s pxmitbuf->sctx is not NULL\n", __func__);
++			rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_BUF_ALLOC);
++		}
++	} else
++		RTW_INFO("%s fail, no xmitbuf available !!!\n", __func__);
++
++exit:
++
++
++	return pxmitbuf;
++}
++
++struct xmit_frame *__rtw_alloc_cmdxmitframe(struct xmit_priv *pxmitpriv,
++		enum cmdbuf_type buf_type)
++{
++	struct xmit_frame		*pcmdframe;
++	struct xmit_buf		*pxmitbuf;
++
++	pcmdframe = rtw_alloc_xmitframe(pxmitpriv);
++	if (pcmdframe == NULL) {
++		RTW_INFO("%s, alloc xmitframe fail\n", __FUNCTION__);
++		return NULL;
++	}
++
++	pxmitbuf = __rtw_alloc_cmd_xmitbuf(pxmitpriv, buf_type);
++	if (pxmitbuf == NULL) {
++		RTW_INFO("%s, alloc xmitbuf fail\n", __FUNCTION__);
++		rtw_free_xmitframe(pxmitpriv, pcmdframe);
++		return NULL;
++	}
++
++	pcmdframe->frame_tag = MGNT_FRAMETAG;
++
++	pcmdframe->pxmitbuf = pxmitbuf;
++
++	pcmdframe->buf_addr = pxmitbuf->pbuf;
++
++	/* initial memory to zero */
++	_rtw_memset(pcmdframe->buf_addr, 0, pxmitbuf->alloc_sz);
++
++	pxmitbuf->priv_data = pcmdframe;
++
++	return pcmdframe;
++
++}
++
++struct xmit_buf *rtw_alloc_xmitbuf_ext(struct xmit_priv *pxmitpriv)
++{
++	_irqL irqL;
++	struct xmit_buf *pxmitbuf =  NULL;
++	_list *plist, *phead;
++	_queue *pfree_queue = &pxmitpriv->free_xmit_extbuf_queue;
++
++
++	_enter_critical(&pfree_queue->lock, &irqL);
++
++	if (_rtw_queue_empty(pfree_queue) == _TRUE)
++		pxmitbuf = NULL;
++	else {
++
++		phead = get_list_head(pfree_queue);
++
++		plist = get_next(phead);
++
++		pxmitbuf = LIST_CONTAINOR(plist, struct xmit_buf, list);
++
++		rtw_list_delete(&(pxmitbuf->list));
++	}
++
++	if (pxmitbuf !=  NULL) {
++		pxmitpriv->free_xmit_extbuf_cnt--;
++#ifdef DBG_XMIT_BUF_EXT
++		RTW_INFO("DBG_XMIT_BUF_EXT ALLOC no=%d,  free_xmit_extbuf_cnt=%d\n", pxmitbuf->no, pxmitpriv->free_xmit_extbuf_cnt);
++#endif
++
++
++		pxmitbuf->priv_data = NULL;
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		pxmitbuf->len = 0;
++		pxmitbuf->pdata = pxmitbuf->ptail = pxmitbuf->phead;
++		pxmitbuf->agg_num = 1;
++#endif
++#ifdef CONFIG_PCI_HCI
++		pxmitbuf->len = 0;
++#ifdef CONFIG_TRX_BD_ARCH
++		/*pxmitbuf->buf_desc = NULL;*/
++#else
++		pxmitbuf->desc = NULL;
++#endif
++#endif
++
++		if (pxmitbuf->sctx) {
++			RTW_INFO("%s pxmitbuf->sctx is not NULL\n", __func__);
++			rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_BUF_ALLOC);
++		}
++
++	}
++
++	_exit_critical(&pfree_queue->lock, &irqL);
++
++
++	return pxmitbuf;
++}
++
++s32 rtw_free_xmitbuf_ext(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf)
++{
++	_irqL irqL;
++	_queue *pfree_queue = &pxmitpriv->free_xmit_extbuf_queue;
++
++
++	if (pxmitbuf == NULL)
++		return _FAIL;
++
++	_enter_critical(&pfree_queue->lock, &irqL);
++
++	rtw_list_delete(&pxmitbuf->list);
++
++	rtw_list_insert_tail(&(pxmitbuf->list), get_list_head(pfree_queue));
++	pxmitpriv->free_xmit_extbuf_cnt++;
++#ifdef DBG_XMIT_BUF_EXT
++	RTW_INFO("DBG_XMIT_BUF_EXT FREE no=%d, free_xmit_extbuf_cnt=%d\n", pxmitbuf->no , pxmitpriv->free_xmit_extbuf_cnt);
++#endif
++
++	_exit_critical(&pfree_queue->lock, &irqL);
++
++
++	return _SUCCESS;
++}
++
++struct xmit_buf *rtw_alloc_xmitbuf(struct xmit_priv *pxmitpriv)
++{
++	_irqL irqL;
++	struct xmit_buf *pxmitbuf =  NULL;
++	_list *plist, *phead;
++	_queue *pfree_xmitbuf_queue = &pxmitpriv->free_xmitbuf_queue;
++
++
++	/* RTW_INFO("+rtw_alloc_xmitbuf\n"); */
++
++	_enter_critical(&pfree_xmitbuf_queue->lock, &irqL);
++
++	if (_rtw_queue_empty(pfree_xmitbuf_queue) == _TRUE)
++		pxmitbuf = NULL;
++	else {
++
++		phead = get_list_head(pfree_xmitbuf_queue);
++
++		plist = get_next(phead);
++
++		pxmitbuf = LIST_CONTAINOR(plist, struct xmit_buf, list);
++
++		rtw_list_delete(&(pxmitbuf->list));
++	}
++
++	if (pxmitbuf !=  NULL) {
++		pxmitpriv->free_xmitbuf_cnt--;
++#ifdef DBG_XMIT_BUF
++		RTW_INFO("DBG_XMIT_BUF ALLOC no=%d,  free_xmitbuf_cnt=%d\n", pxmitbuf->no, pxmitpriv->free_xmitbuf_cnt);
++#endif
++		/* RTW_INFO("alloc, free_xmitbuf_cnt=%d\n", pxmitpriv->free_xmitbuf_cnt); */
++
++		pxmitbuf->priv_data = NULL;
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		pxmitbuf->len = 0;
++		pxmitbuf->pdata = pxmitbuf->ptail = pxmitbuf->phead;
++		pxmitbuf->agg_num = 0;
++		pxmitbuf->pg_num = 0;
++#endif
++#ifdef CONFIG_PCI_HCI
++		pxmitbuf->len = 0;
++#ifdef CONFIG_TRX_BD_ARCH
++		/*pxmitbuf->buf_desc = NULL;*/
++#else
++		pxmitbuf->desc = NULL;
++#endif
++#endif
++
++		if (pxmitbuf->sctx) {
++			RTW_INFO("%s pxmitbuf->sctx is not NULL\n", __func__);
++			rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_BUF_ALLOC);
++		}
++	}
++#ifdef DBG_XMIT_BUF
++	else
++		RTW_INFO("DBG_XMIT_BUF rtw_alloc_xmitbuf return NULL\n");
++#endif
++
++	_exit_critical(&pfree_xmitbuf_queue->lock, &irqL);
++
++
++	return pxmitbuf;
++}
++
++s32 rtw_free_xmitbuf(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf)
++{
++	_irqL irqL;
++	_queue *pfree_xmitbuf_queue = &pxmitpriv->free_xmitbuf_queue;
++
++
++	/* RTW_INFO("+rtw_free_xmitbuf\n"); */
++
++	if (pxmitbuf == NULL)
++		return _FAIL;
++
++	if (pxmitbuf->sctx) {
++		RTW_INFO("%s pxmitbuf->sctx is not NULL\n", __func__);
++		rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_BUF_FREE);
++	}
++
++	if (pxmitbuf->buf_tag == XMITBUF_CMD) {
++	} else if (pxmitbuf->buf_tag == XMITBUF_MGNT)
++		rtw_free_xmitbuf_ext(pxmitpriv, pxmitbuf);
++	else {
++		_enter_critical(&pfree_xmitbuf_queue->lock, &irqL);
++
++		rtw_list_delete(&pxmitbuf->list);
++
++		rtw_list_insert_tail(&(pxmitbuf->list), get_list_head(pfree_xmitbuf_queue));
++
++		pxmitpriv->free_xmitbuf_cnt++;
++		/* RTW_INFO("FREE, free_xmitbuf_cnt=%d\n", pxmitpriv->free_xmitbuf_cnt); */
++#ifdef DBG_XMIT_BUF
++		RTW_INFO("DBG_XMIT_BUF FREE no=%d, free_xmitbuf_cnt=%d\n", pxmitbuf->no , pxmitpriv->free_xmitbuf_cnt);
++#endif
++		_exit_critical(&pfree_xmitbuf_queue->lock, &irqL);
++	}
++
++
++	return _SUCCESS;
++}
++
++void rtw_init_xmitframe(struct xmit_frame *pxframe)
++{
++	if (pxframe !=  NULL) { /* default value setting */
++		pxframe->buf_addr = NULL;
++		pxframe->pxmitbuf = NULL;
++
++		_rtw_memset(&pxframe->attrib, 0, sizeof(struct pkt_attrib));
++		/* pxframe->attrib.psta = NULL; */
++
++		pxframe->frame_tag = DATA_FRAMETAG;
++
++#ifdef CONFIG_USB_HCI
++		pxframe->pkt = NULL;
++#ifdef USB_PACKET_OFFSET_SZ
++		pxframe->pkt_offset = (PACKET_OFFSET_SZ / 8);
++#else
++		pxframe->pkt_offset = 1;/* default use pkt_offset to fill tx desc */
++#endif
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++		pxframe->agg_num = 1;
++#endif
++
++#endif /* #ifdef CONFIG_USB_HCI */
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		pxframe->pg_num = 1;
++		pxframe->agg_num = 1;
++#endif
++
++#ifdef CONFIG_XMIT_ACK
++		pxframe->ack_report = 0;
++#endif
++
++	}
++}
++
++/*
++Calling context:
++1. OS_TXENTRY
++2. RXENTRY (rx_thread or RX_ISR/RX_CallBack)
++
++If we turn on USE_RXTHREAD, then, no need for critical section.
++Otherwise, we must use _enter/_exit critical to protect free_xmit_queue...
++
++Must be very very cautious...
++
++*/
++struct xmit_frame *rtw_alloc_xmitframe(struct xmit_priv *pxmitpriv)/* (_queue *pfree_xmit_queue) */
++{
++	/*
++		Please remember to use all the osdep_service api,
++		and lock/unlock or _enter/_exit critical to protect
++		pfree_xmit_queue
++	*/
++
++	_irqL irqL;
++	struct xmit_frame *pxframe = NULL;
++	_list *plist, *phead;
++	_queue *pfree_xmit_queue = &pxmitpriv->free_xmit_queue;
++
++
++	_enter_critical_bh(&pfree_xmit_queue->lock, &irqL);
++
++	if (_rtw_queue_empty(pfree_xmit_queue) == _TRUE) {
++		pxframe =  NULL;
++	} else {
++		phead = get_list_head(pfree_xmit_queue);
++
++		plist = get_next(phead);
++
++		pxframe = LIST_CONTAINOR(plist, struct xmit_frame, list);
++
++		rtw_list_delete(&(pxframe->list));
++		pxmitpriv->free_xmitframe_cnt--;
++	}
++
++	_exit_critical_bh(&pfree_xmit_queue->lock, &irqL);
++
++	rtw_init_xmitframe(pxframe);
++
++
++	return pxframe;
++}
++
++struct xmit_frame *rtw_alloc_xmitframe_ext(struct xmit_priv *pxmitpriv)
++{
++	_irqL irqL;
++	struct xmit_frame *pxframe = NULL;
++	_list *plist, *phead;
++	_queue *queue = &pxmitpriv->free_xframe_ext_queue;
++
++
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	if (_rtw_queue_empty(queue) == _TRUE) {
++		pxframe =  NULL;
++	} else {
++		phead = get_list_head(queue);
++		plist = get_next(phead);
++		pxframe = LIST_CONTAINOR(plist, struct xmit_frame, list);
++
++		rtw_list_delete(&(pxframe->list));
++		pxmitpriv->free_xframe_ext_cnt--;
++	}
++
++	_exit_critical_bh(&queue->lock, &irqL);
++
++	rtw_init_xmitframe(pxframe);
++
++
++	return pxframe;
++}
++
++struct xmit_frame *rtw_alloc_xmitframe_once(struct xmit_priv *pxmitpriv)
++{
++	struct xmit_frame *pxframe = NULL;
++	u8 *alloc_addr;
++
++	alloc_addr = rtw_zmalloc(sizeof(struct xmit_frame) + 4);
++
++	if (alloc_addr == NULL)
++		goto exit;
++
++	pxframe = (struct xmit_frame *)N_BYTE_ALIGMENT((SIZE_PTR)(alloc_addr), 4);
++	pxframe->alloc_addr = alloc_addr;
++
++	pxframe->padapter = pxmitpriv->adapter;
++	pxframe->frame_tag = NULL_FRAMETAG;
++
++	pxframe->pkt = NULL;
++
++	pxframe->buf_addr = NULL;
++	pxframe->pxmitbuf = NULL;
++
++	rtw_init_xmitframe(pxframe);
++
++	RTW_INFO("################## %s ##################\n", __func__);
++
++exit:
++	return pxframe;
++}
++
++s32 rtw_free_xmitframe(struct xmit_priv *pxmitpriv, struct xmit_frame *pxmitframe)
++{
++	_irqL irqL;
++	_queue *queue = NULL;
++	_adapter *padapter = pxmitpriv->adapter;
++	_pkt *pndis_pkt = NULL;
++
++
++	if (pxmitframe == NULL) {
++		goto exit;
++	}
++
++	if (pxmitframe->pkt) {
++		pndis_pkt = pxmitframe->pkt;
++		pxmitframe->pkt = NULL;
++	}
++
++	if (pxmitframe->alloc_addr) {
++		RTW_INFO("################## %s with alloc_addr ##################\n", __func__);
++		rtw_mfree(pxmitframe->alloc_addr, sizeof(struct xmit_frame) + 4);
++		goto check_pkt_complete;
++	}
++
++	if (pxmitframe->ext_tag == 0)
++		queue = &pxmitpriv->free_xmit_queue;
++	else if (pxmitframe->ext_tag == 1)
++		queue = &pxmitpriv->free_xframe_ext_queue;
++	else
++		rtw_warn_on(1);
++
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	rtw_list_delete(&pxmitframe->list);
++	rtw_list_insert_tail(&pxmitframe->list, get_list_head(queue));
++	if (pxmitframe->ext_tag == 0) {
++		pxmitpriv->free_xmitframe_cnt++;
++	} else if (pxmitframe->ext_tag == 1) {
++		pxmitpriv->free_xframe_ext_cnt++;
++	} else {
++	}
++
++	_exit_critical_bh(&queue->lock, &irqL);
++
++check_pkt_complete:
++
++	if (pndis_pkt)
++		rtw_os_pkt_complete(padapter, pndis_pkt);
++
++exit:
++
++
++	return _SUCCESS;
++}
++
++void rtw_free_xmitframe_queue(struct xmit_priv *pxmitpriv, _queue *pframequeue)
++{
++	_irqL irqL;
++	_list	*plist, *phead;
++	struct	xmit_frame	*pxmitframe;
++
++
++	_enter_critical_bh(&(pframequeue->lock), &irqL);
++
++	phead = get_list_head(pframequeue);
++	plist = get_next(phead);
++
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++
++		pxmitframe = LIST_CONTAINOR(plist, struct xmit_frame, list);
++
++		plist = get_next(plist);
++
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++
++	}
++	_exit_critical_bh(&(pframequeue->lock), &irqL);
++
++}
++
++s32 rtw_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	DBG_COUNTER(padapter->tx_logs.core_tx_enqueue);
++	if (rtw_xmit_classifier(padapter, pxmitframe) == _FAIL) {
++		/*		pxmitframe->pkt = NULL; */
++		return _FAIL;
++	}
++
++	return _SUCCESS;
++}
++
++static struct xmit_frame *dequeue_one_xmitframe(struct xmit_priv *pxmitpriv, struct hw_xmit *phwxmit, struct tx_servq *ptxservq, _queue *pframe_queue)
++{
++	_list	*xmitframe_plist, *xmitframe_phead;
++	struct	xmit_frame	*pxmitframe = NULL;
++
++	xmitframe_phead = get_list_head(pframe_queue);
++	xmitframe_plist = get_next(xmitframe_phead);
++
++	while ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE) {
++		pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++		/* xmitframe_plist = get_next(xmitframe_plist); */
++
++		/*#ifdef RTK_DMP_PLATFORM
++		#ifdef CONFIG_USB_TX_AGGREGATION
++				if((ptxservq->qcnt>0) && (ptxservq->qcnt<=2))
++				{
++					pxmitframe = NULL;
++
++					tasklet_schedule(&pxmitpriv->xmit_tasklet);
++
++					break;
++				}
++		#endif
++		#endif*/
++		rtw_list_delete(&pxmitframe->list);
++
++		ptxservq->qcnt--;
++
++		/* rtw_list_insert_tail(&pxmitframe->list, &phwxmit->pending); */
++
++		/* ptxservq->qcnt--; */
++
++		break;
++
++		/* pxmitframe = NULL; */
++
++	}
++
++	return pxmitframe;
++}
++
++struct xmit_frame *rtw_dequeue_xframe(struct xmit_priv *pxmitpriv, struct hw_xmit *phwxmit_i, sint entry)
++{
++	_irqL irqL0;
++	_list *sta_plist, *sta_phead;
++	struct hw_xmit *phwxmit;
++	struct tx_servq *ptxservq = NULL;
++	_queue *pframe_queue = NULL;
++	struct xmit_frame *pxmitframe = NULL;
++	_adapter *padapter = pxmitpriv->adapter;
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	int i, inx[4];
++#ifdef CONFIG_USB_HCI
++	/*	int j, tmp, acirp_cnt[4]; */
++#endif
++
++
++	inx[0] = 0;
++	inx[1] = 1;
++	inx[2] = 2;
++	inx[3] = 3;
++
++	if (pregpriv->wifi_spec == 1) {
++		int j, tmp, acirp_cnt[4];
++#if 0
++		if (flags < XMIT_QUEUE_ENTRY) {
++			/* priority exchange according to the completed xmitbuf flags. */
++			inx[flags] = 0;
++			inx[0] = flags;
++		}
++#endif
++
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_PCI_HCI)
++		for (j = 0; j < 4; j++)
++			inx[j] = pxmitpriv->wmm_para_seq[j];
++#endif
++	}
++
++	_enter_critical_bh(&pxmitpriv->lock, &irqL0);
++
++	for (i = 0; i < entry; i++) {
++		phwxmit = phwxmit_i + inx[i];
++
++		/* _enter_critical_ex(&phwxmit->sta_queue->lock, &irqL0); */
++
++		sta_phead = get_list_head(phwxmit->sta_queue);
++		sta_plist = get_next(sta_phead);
++
++		while ((rtw_end_of_queue_search(sta_phead, sta_plist)) == _FALSE) {
++
++			ptxservq = LIST_CONTAINOR(sta_plist, struct tx_servq, tx_pending);
++
++			pframe_queue = &ptxservq->sta_pending;
++
++			pxmitframe = dequeue_one_xmitframe(pxmitpriv, phwxmit, ptxservq, pframe_queue);
++
++			if (pxmitframe) {
++				phwxmit->accnt--;
++
++				/* Remove sta node when there is no pending packets. */
++				if (_rtw_queue_empty(pframe_queue)) /* must be done after get_next and before break */
++					rtw_list_delete(&ptxservq->tx_pending);
++
++				/* _exit_critical_ex(&phwxmit->sta_queue->lock, &irqL0); */
++
++				goto exit;
++			}
++
++			sta_plist = get_next(sta_plist);
++
++		}
++
++		/* _exit_critical_ex(&phwxmit->sta_queue->lock, &irqL0); */
++
++	}
++
++exit:
++
++	_exit_critical_bh(&pxmitpriv->lock, &irqL0);
++
++
++	return pxmitframe;
++}
++
++#if 1
++struct tx_servq *rtw_get_sta_pending(_adapter *padapter, struct sta_info *psta, sint up, u8 *ac)
++{
++	struct tx_servq *ptxservq = NULL;
++
++
++	switch (up) {
++	case 1:
++	case 2:
++		ptxservq = &(psta->sta_xmitpriv.bk_q);
++		*(ac) = 3;
++		break;
++
++	case 4:
++	case 5:
++		ptxservq = &(psta->sta_xmitpriv.vi_q);
++		*(ac) = 1;
++		break;
++
++	case 6:
++	case 7:
++		ptxservq = &(psta->sta_xmitpriv.vo_q);
++		*(ac) = 0;
++		break;
++
++	case 0:
++	case 3:
++	default:
++		ptxservq = &(psta->sta_xmitpriv.be_q);
++		*(ac) = 2;
++		break;
++
++	}
++
++
++	return ptxservq;
++}
++#else
++__inline static struct tx_servq *rtw_get_sta_pending
++(_adapter *padapter, _queue **ppstapending, struct sta_info *psta, sint up)
++{
++	struct tx_servq *ptxservq;
++	struct hw_xmit *phwxmits =  padapter->xmitpriv.hwxmits;
++
++
++#ifdef CONFIG_RTL8711
++
++	if (IS_MCAST(psta->hwaddr)) {
++		ptxservq = &(psta->sta_xmitpriv.be_q); /* we will use be_q to queue bc/mc frames in BCMC_stainfo */
++		*ppstapending = &padapter->xmitpriv.bm_pending;
++	} else
++#endif
++	{
++		switch (up) {
++		case 1:
++		case 2:
++			ptxservq = &(psta->sta_xmitpriv.bk_q);
++			*ppstapending = &padapter->xmitpriv.bk_pending;
++			(phwxmits + 3)->accnt++;
++			break;
++
++		case 4:
++		case 5:
++			ptxservq = &(psta->sta_xmitpriv.vi_q);
++			*ppstapending = &padapter->xmitpriv.vi_pending;
++			(phwxmits + 1)->accnt++;
++			break;
++
++		case 6:
++		case 7:
++			ptxservq = &(psta->sta_xmitpriv.vo_q);
++			*ppstapending = &padapter->xmitpriv.vo_pending;
++			(phwxmits + 0)->accnt++;
++			break;
++
++		case 0:
++		case 3:
++		default:
++			ptxservq = &(psta->sta_xmitpriv.be_q);
++			*ppstapending = &padapter->xmitpriv.be_pending;
++			(phwxmits + 2)->accnt++;
++			break;
++
++		}
++
++	}
++
++
++	return ptxservq;
++}
++#endif
++
++/*
++ * Will enqueue pxmitframe to the proper queue,
++ * and indicate it to xx_pending list.....
++ */
++s32 rtw_xmit_classifier(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	/* _irqL irqL0; */
++	u8	ac_index;
++	struct sta_info	*psta;
++	struct tx_servq	*ptxservq;
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_priv	*pstapriv = &padapter->stapriv;
++	struct hw_xmit	*phwxmits =  padapter->xmitpriv.hwxmits;
++	sint res = _SUCCESS;
++
++
++	DBG_COUNTER(padapter->tx_logs.core_tx_enqueue_class);
++
++	/*
++		if (pattrib->psta) {
++			psta = pattrib->psta;
++		} else {
++			RTW_INFO("%s, call rtw_get_stainfo()\n", __func__);
++			psta = rtw_get_stainfo(pstapriv, pattrib->ra);
++		}
++	*/
++
++	psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++	if (pattrib->psta != psta) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_enqueue_class_err_sta);
++		RTW_INFO("%s, pattrib->psta(%p) != psta(%p)\n", __func__, pattrib->psta, psta);
++		return _FAIL;
++	}
++
++	if (psta == NULL) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_enqueue_class_err_nosta);
++		res = _FAIL;
++		RTW_INFO("rtw_xmit_classifier: psta == NULL\n");
++		goto exit;
++	}
++
++	if (!(psta->state & _FW_LINKED)) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_enqueue_class_err_fwlink);
++		RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++		return _FAIL;
++	}
++
++	ptxservq = rtw_get_sta_pending(padapter, psta, pattrib->priority, (u8 *)(&ac_index));
++
++	/* _enter_critical(&pstapending->lock, &irqL0); */
++
++	if (rtw_is_list_empty(&ptxservq->tx_pending))
++		rtw_list_insert_tail(&ptxservq->tx_pending, get_list_head(phwxmits[ac_index].sta_queue));
++
++	/* _enter_critical(&ptxservq->sta_pending.lock, &irqL1); */
++
++	rtw_list_insert_tail(&pxmitframe->list, get_list_head(&ptxservq->sta_pending));
++	ptxservq->qcnt++;
++	phwxmits[ac_index].accnt++;
++
++	/* _exit_critical(&ptxservq->sta_pending.lock, &irqL1); */
++
++	/* _exit_critical(&pstapending->lock, &irqL0); */
++
++exit:
++
++
++	return res;
++}
++
++void rtw_alloc_hwxmits(_adapter *padapter)
++{
++	struct hw_xmit *hwxmits;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	pxmitpriv->hwxmit_entry = HWXMIT_ENTRY;
++
++	pxmitpriv->hwxmits = NULL;
++
++	pxmitpriv->hwxmits = (struct hw_xmit *)rtw_zmalloc(sizeof(struct hw_xmit) * pxmitpriv->hwxmit_entry);
++
++	if (pxmitpriv->hwxmits == NULL) {
++		RTW_INFO("alloc hwxmits fail!...\n");
++		return;
++	}
++
++	hwxmits = pxmitpriv->hwxmits;
++
++	if (pxmitpriv->hwxmit_entry == 5) {
++		/* pxmitpriv->bmc_txqueue.head = 0; */
++		/* hwxmits[0] .phwtxqueue = &pxmitpriv->bmc_txqueue; */
++		hwxmits[0] .sta_queue = &pxmitpriv->bm_pending;
++
++		/* pxmitpriv->vo_txqueue.head = 0; */
++		/* hwxmits[1] .phwtxqueue = &pxmitpriv->vo_txqueue; */
++		hwxmits[1] .sta_queue = &pxmitpriv->vo_pending;
++
++		/* pxmitpriv->vi_txqueue.head = 0; */
++		/* hwxmits[2] .phwtxqueue = &pxmitpriv->vi_txqueue; */
++		hwxmits[2] .sta_queue = &pxmitpriv->vi_pending;
++
++		/* pxmitpriv->bk_txqueue.head = 0; */
++		/* hwxmits[3] .phwtxqueue = &pxmitpriv->bk_txqueue; */
++		hwxmits[3] .sta_queue = &pxmitpriv->bk_pending;
++
++		/* pxmitpriv->be_txqueue.head = 0; */
++		/* hwxmits[4] .phwtxqueue = &pxmitpriv->be_txqueue; */
++		hwxmits[4] .sta_queue = &pxmitpriv->be_pending;
++
++	} else if (pxmitpriv->hwxmit_entry == 4) {
++
++		/* pxmitpriv->vo_txqueue.head = 0; */
++		/* hwxmits[0] .phwtxqueue = &pxmitpriv->vo_txqueue; */
++		hwxmits[0] .sta_queue = &pxmitpriv->vo_pending;
++
++		/* pxmitpriv->vi_txqueue.head = 0; */
++		/* hwxmits[1] .phwtxqueue = &pxmitpriv->vi_txqueue; */
++		hwxmits[1] .sta_queue = &pxmitpriv->vi_pending;
++
++		/* pxmitpriv->be_txqueue.head = 0; */
++		/* hwxmits[2] .phwtxqueue = &pxmitpriv->be_txqueue; */
++		hwxmits[2] .sta_queue = &pxmitpriv->be_pending;
++
++		/* pxmitpriv->bk_txqueue.head = 0; */
++		/* hwxmits[3] .phwtxqueue = &pxmitpriv->bk_txqueue; */
++		hwxmits[3] .sta_queue = &pxmitpriv->bk_pending;
++	} else {
++
++
++	}
++
++
++}
++
++void rtw_free_hwxmits(_adapter *padapter)
++{
++	struct hw_xmit *hwxmits;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	hwxmits = pxmitpriv->hwxmits;
++	if (hwxmits)
++		rtw_mfree((u8 *)hwxmits, (sizeof(struct hw_xmit) * pxmitpriv->hwxmit_entry));
++}
++
++void rtw_init_hwxmits(struct hw_xmit *phwxmit, sint entry)
++{
++	sint i;
++	for (i = 0; i < entry; i++, phwxmit++) {
++		/* _rtw_spinlock_init(&phwxmit->xmit_lock); */
++		/* _rtw_init_listhead(&phwxmit->pending);		 */
++		/* phwxmit->txcmdcnt = 0; */
++		phwxmit->accnt = 0;
++	}
++}
++
++#ifdef CONFIG_BR_EXT
++int rtw_br_client_tx(_adapter *padapter, struct sk_buff **pskb)
++{
++	struct sk_buff *skb = *pskb;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	_irqL irqL;
++	/* if(check_fwstate(pmlmepriv, WIFI_STATION_STATE|WIFI_ADHOC_STATE) == _TRUE) */
++	{
++		void dhcp_flag_bcast(_adapter *priv, struct sk_buff *skb);
++		int res, is_vlan_tag = 0, i, do_nat25 = 1;
++		unsigned short vlan_hdr = 0;
++		void *br_port = NULL;
++
++		/* mac_clone_handle_frame(priv, skb); */
++
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++		br_port = padapter->pnetdev->br_port;
++#else   /* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++		rcu_read_lock();
++		br_port = rcu_dereference(padapter->pnetdev->rx_handler_data);
++		rcu_read_unlock();
++#endif /* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++		_enter_critical_bh(&padapter->br_ext_lock, &irqL);
++		if (!(skb->data[0] & 1) &&
++		    br_port &&
++		    memcmp(skb->data + MACADDRLEN, padapter->br_mac, MACADDRLEN) &&
++		    *((unsigned short *)(skb->data + MACADDRLEN * 2)) != __constant_htons(ETH_P_8021Q) &&
++		    *((unsigned short *)(skb->data + MACADDRLEN * 2)) == __constant_htons(ETH_P_IP) &&
++		    !memcmp(padapter->scdb_mac, skb->data + MACADDRLEN, MACADDRLEN) && padapter->scdb_entry) {
++			memcpy(skb->data + MACADDRLEN, GET_MY_HWADDR(padapter), MACADDRLEN);
++			padapter->scdb_entry->ageing_timer = jiffies;
++			_exit_critical_bh(&padapter->br_ext_lock, &irqL);
++		} else
++			/* if (!priv->pmib->ethBrExtInfo.nat25_disable)		 */
++		{
++			/*			if (priv->dev->br_port &&
++			 *				 !memcmp(skb->data+MACADDRLEN, priv->br_mac, MACADDRLEN)) { */
++#if 1
++			if (*((unsigned short *)(skb->data + MACADDRLEN * 2)) == __constant_htons(ETH_P_8021Q)) {
++				is_vlan_tag = 1;
++				vlan_hdr = *((unsigned short *)(skb->data + MACADDRLEN * 2 + 2));
++				for (i = 0; i < 6; i++)
++					*((unsigned short *)(skb->data + MACADDRLEN * 2 + 2 - i * 2)) = *((unsigned short *)(skb->data + MACADDRLEN * 2 - 2 - i * 2));
++				skb_pull(skb, 4);
++			}
++			/* if SA == br_mac && skb== IP  => copy SIP to br_ip ?? why */
++			if (!memcmp(skb->data + MACADDRLEN, padapter->br_mac, MACADDRLEN) &&
++			    (*((unsigned short *)(skb->data + MACADDRLEN * 2)) == __constant_htons(ETH_P_IP)))
++				memcpy(padapter->br_ip, skb->data + WLAN_ETHHDR_LEN + 12, 4);
++
++			if (*((unsigned short *)(skb->data + MACADDRLEN * 2)) == __constant_htons(ETH_P_IP)) {
++				if (memcmp(padapter->scdb_mac, skb->data + MACADDRLEN, MACADDRLEN)) {
++					void *scdb_findEntry(_adapter *priv, unsigned char *macAddr, unsigned char *ipAddr);
++
++					padapter->scdb_entry = (struct nat25_network_db_entry *)scdb_findEntry(padapter,
++						skb->data + MACADDRLEN, skb->data + WLAN_ETHHDR_LEN + 12);
++					if (padapter->scdb_entry != NULL) {
++						memcpy(padapter->scdb_mac, skb->data + MACADDRLEN, MACADDRLEN);
++						memcpy(padapter->scdb_ip, skb->data + WLAN_ETHHDR_LEN + 12, 4);
++						padapter->scdb_entry->ageing_timer = jiffies;
++						do_nat25 = 0;
++					}
++				} else {
++					if (padapter->scdb_entry) {
++						padapter->scdb_entry->ageing_timer = jiffies;
++						do_nat25 = 0;
++					} else {
++						memset(padapter->scdb_mac, 0, MACADDRLEN);
++						memset(padapter->scdb_ip, 0, 4);
++					}
++				}
++			}
++			_exit_critical_bh(&padapter->br_ext_lock, &irqL);
++#endif /* 1 */
++			if (do_nat25) {
++				int nat25_db_handle(_adapter *priv, struct sk_buff *skb, int method);
++				if (nat25_db_handle(padapter, skb, NAT25_CHECK) == 0) {
++					struct sk_buff *newskb;
++
++					if (is_vlan_tag) {
++						skb_push(skb, 4);
++						for (i = 0; i < 6; i++)
++							*((unsigned short *)(skb->data + i * 2)) = *((unsigned short *)(skb->data + 4 + i * 2));
++						*((unsigned short *)(skb->data + MACADDRLEN * 2)) = __constant_htons(ETH_P_8021Q);
++						*((unsigned short *)(skb->data + MACADDRLEN * 2 + 2)) = vlan_hdr;
++					}
++
++					newskb = rtw_skb_copy(skb);
++					if (newskb == NULL) {
++						/* priv->ext_stats.tx_drops++; */
++						DEBUG_ERR("TX DROP: rtw_skb_copy fail!\n");
++						/* goto stop_proc; */
++						return -1;
++					}
++					rtw_skb_free(skb);
++
++					*pskb = skb = newskb;
++					if (is_vlan_tag) {
++						vlan_hdr = *((unsigned short *)(skb->data + MACADDRLEN * 2 + 2));
++						for (i = 0; i < 6; i++)
++							*((unsigned short *)(skb->data + MACADDRLEN * 2 + 2 - i * 2)) = *((unsigned short *)(skb->data + MACADDRLEN * 2 - 2 - i * 2));
++						skb_pull(skb, 4);
++					}
++				}
++
++				if (skb_is_nonlinear(skb))
++					DEBUG_ERR("%s(): skb_is_nonlinear!!\n", __FUNCTION__);
++
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 18))
++				res = skb_linearize(skb, GFP_ATOMIC);
++#else	/* (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 18)) */
++				res = skb_linearize(skb);
++#endif /* (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 18)) */
++				if (res < 0) {
++					DEBUG_ERR("TX DROP: skb_linearize fail!\n");
++					/* goto free_and_stop; */
++					return -1;
++				}
++
++				res = nat25_db_handle(padapter, skb, NAT25_INSERT);
++				if (res < 0) {
++					if (res == -2) {
++						/* priv->ext_stats.tx_drops++; */
++						DEBUG_ERR("TX DROP: nat25_db_handle fail!\n");
++						/* goto free_and_stop; */
++						return -1;
++
++					}
++					/* we just print warning message and let it go */
++					/* DEBUG_WARN("%s()-%d: nat25_db_handle INSERT Warning!\n", __FUNCTION__, __LINE__); */
++					/* return -1; */ /* return -1 will cause system crash on 2011/08/30! */
++					return 0;
++				}
++			}
++
++			memcpy(skb->data + MACADDRLEN, GET_MY_HWADDR(padapter), MACADDRLEN);
++
++			dhcp_flag_bcast(padapter, skb);
++
++			if (is_vlan_tag) {
++				skb_push(skb, 4);
++				for (i = 0; i < 6; i++)
++					*((unsigned short *)(skb->data + i * 2)) = *((unsigned short *)(skb->data + 4 + i * 2));
++				*((unsigned short *)(skb->data + MACADDRLEN * 2)) = __constant_htons(ETH_P_8021Q);
++				*((unsigned short *)(skb->data + MACADDRLEN * 2 + 2)) = vlan_hdr;
++			}
++		}
++#if 0
++		else {
++			if (*((unsigned short *)(skb->data + MACADDRLEN * 2)) == __constant_htons(ETH_P_8021Q))
++				is_vlan_tag = 1;
++
++			if (is_vlan_tag) {
++				if (ICMPV6_MCAST_MAC(skb->data) && ICMPV6_PROTO1A_VALN(skb->data))
++					memcpy(skb->data + MACADDRLEN, GET_MY_HWADDR(padapter), MACADDRLEN);
++			} else {
++				if (ICMPV6_MCAST_MAC(skb->data) && ICMPV6_PROTO1A(skb->data))
++					memcpy(skb->data + MACADDRLEN, GET_MY_HWADDR(padapter), MACADDRLEN);
++			}
++		}
++#endif /* 0 */
++
++		/* check if SA is equal to our MAC */
++		if (memcmp(skb->data + MACADDRLEN, GET_MY_HWADDR(padapter), MACADDRLEN)) {
++			/* priv->ext_stats.tx_drops++; */
++			DEBUG_ERR("TX DROP: untransformed frame SA:%02X%02X%02X%02X%02X%02X!\n",
++				skb->data[6], skb->data[7], skb->data[8], skb->data[9], skb->data[10], skb->data[11]);
++			/* goto free_and_stop; */
++			return -1;
++		}
++	}
++	return 0;
++}
++#endif /* CONFIG_BR_EXT */
++
++u32 rtw_get_ff_hwaddr(struct xmit_frame *pxmitframe)
++{
++	u32 addr;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++
++	switch (pattrib->qsel) {
++	case 0:
++	case 3:
++		addr = BE_QUEUE_INX;
++		break;
++	case 1:
++	case 2:
++		addr = BK_QUEUE_INX;
++		break;
++	case 4:
++	case 5:
++		addr = VI_QUEUE_INX;
++		break;
++	case 6:
++	case 7:
++		addr = VO_QUEUE_INX;
++		break;
++	case 0x10:
++		addr = BCN_QUEUE_INX;
++		break;
++	case 0x11: /* BC/MC in PS (HIQ) */
++		addr = HIGH_QUEUE_INX;
++		break;
++	case 0x13:
++		addr = TXCMD_QUEUE_INX;
++		break;
++	case 0x12:
++	default:
++		addr = MGT_QUEUE_INX;
++		break;
++
++	}
++
++	return addr;
++
++}
++
++static void do_queue_select(_adapter	*padapter, struct pkt_attrib *pattrib)
++{
++	u8 qsel;
++
++	qsel = pattrib->priority;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	/*	if (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE)
++	 *		qsel = 7; */
++#endif
++
++#ifdef CONFIG_MCC_MODE
++	if (MCC_EN(padapter)) {
++		/* Under MCC */
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_NEED_MCC)) {
++			if (padapter->mcc_adapterpriv.role == MCC_ROLE_GO
++			    || padapter->mcc_adapterpriv.role == MCC_ROLE_AP) {
++				pattrib->qsel = QSLT_VO; /* AP interface VO queue */
++			} else {
++				pattrib->qsel = QSLT_BE; /* STA interface BE queue */
++			}
++		} else
++			/* Not Under MCC */
++			pattrib->qsel = qsel;
++	} else
++		/* Not enable MCC */
++		pattrib->qsel = qsel;
++#else /* !CONFIG_MCC_MODE */
++	pattrib->qsel = qsel;
++#endif /* CONFIG_MCC_MODE */
++}
++
++/*
++ * The main transmit(tx) entry
++ *
++ * Return
++ *	1	enqueue
++ *	0	success, hardware will handle this xmit frame(packet)
++ *	<0	fail
++ */
++s32 rtw_monitor_xmit_entry(struct sk_buff *skb, struct net_device *ndev)
++{
++	int ret = 0;
++	int rtap_len;
++	int qos_len = 0;
++	int dot11_hdr_len = 24;
++	int snap_len = 6;
++	unsigned char *pdata;
++	u16 frame_ctl;
++	unsigned char src_mac_addr[6];
++	unsigned char dst_mac_addr[6];
++	struct rtw_ieee80211_hdr *dot11_hdr;
++	struct ieee80211_radiotap_header *rtap_hdr;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++
++	if (skb)
++		rtw_mstat_update(MSTAT_TYPE_SKB, MSTAT_ALLOC_SUCCESS, skb->truesize);
++
++	if (unlikely(skb->len < sizeof(struct ieee80211_radiotap_header)))
++		goto fail;
++
++	rtap_hdr = (struct ieee80211_radiotap_header *)skb->data;
++	if (unlikely(rtap_hdr->it_version))
++		goto fail;
++
++	rtap_len = ieee80211_get_radiotap_len(skb->data);
++	if (unlikely(skb->len < rtap_len))
++		goto fail;
++
++	if (rtap_len != 12) {
++		RTW_INFO("radiotap len (should be 14): %d\n", rtap_len);
++		goto fail;
++	}
++
++	/* Skip the ratio tap header */
++	skb_pull(skb, rtap_len);
++
++	dot11_hdr = (struct rtw_ieee80211_hdr *)skb->data;
++	frame_ctl = le16_to_cpu(dot11_hdr->frame_ctl);
++	/* Check if the QoS bit is set */
++
++	if ((frame_ctl & RTW_IEEE80211_FCTL_FTYPE) == RTW_IEEE80211_FTYPE_DATA) {
++
++		struct xmit_frame		*pmgntframe;
++		struct pkt_attrib	*pattrib;
++		unsigned char	*pframe;
++		struct rtw_ieee80211_hdr *pwlanhdr;
++		struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++		struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++		u8 *buf = skb->data;
++		u32 len = skb->len;
++		u8 category, action;
++		int type = -1;
++
++		pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++		if (pmgntframe == NULL) {
++			rtw_udelay_os(500);
++			goto fail;
++		}
++		pattrib = &pmgntframe->attrib;
++
++		update_monitor_frame_attrib(padapter, pattrib);
++
++		pattrib->retry_ctrl = _FALSE;
++
++		_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++		pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++		_rtw_memcpy(pframe, (void *)buf, len);
++
++		pattrib->pktlen = len;
++
++		pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++		if (is_broadcast_mac_addr(pwlanhdr->addr3) || is_broadcast_mac_addr(pwlanhdr->addr1))
++			pattrib->rate = MGN_24M;
++
++		pmlmeext->mgnt_seq = GetSequence(pwlanhdr);
++		pattrib->seqnum = pmlmeext->mgnt_seq;
++		pmlmeext->mgnt_seq++;
++
++		pattrib->last_txcmdsz = pattrib->pktlen;
++
++		dump_mgntframe(padapter, pmgntframe);
++
++	} else {
++		struct xmit_frame		*pmgntframe;
++		struct pkt_attrib	*pattrib;
++		unsigned char	*pframe;
++		struct rtw_ieee80211_hdr *pwlanhdr;
++		struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++		struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++		u8 *buf = skb->data;
++		u32 len = skb->len;
++		u8 category, action;
++		int type = -1;
++
++		pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++		if (pmgntframe == NULL)
++			goto fail;
++
++		pattrib = &pmgntframe->attrib;
++		update_mgntframe_attrib(padapter, pattrib);
++		pattrib->retry_ctrl = _FALSE;
++
++		_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++		pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++		_rtw_memcpy(pframe, (void *)buf, len);
++
++		pattrib->pktlen = len;
++
++		pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++		pmlmeext->mgnt_seq = GetSequence(pwlanhdr);
++		pattrib->seqnum = pmlmeext->mgnt_seq;
++		pmlmeext->mgnt_seq++;
++
++		pattrib->last_txcmdsz = pattrib->pktlen;
++
++		dump_mgntframe(padapter, pmgntframe);
++
++	}
++
++fail:
++
++	rtw_skb_free(skb);
++
++	return 0;
++}
++
++/*
++ * The main transmit(tx) entry
++ *
++ * Return
++ *	1	enqueue
++ *	0	success, hardware will handle this xmit frame(packet)
++ *	<0	fail
++ */
++s32 rtw_xmit(_adapter *padapter, _pkt **ppkt)
++{
++	static u32 start = 0;
++	static u32 drop_cnt = 0;
++#ifdef CONFIG_AP_MODE
++	_irqL irqL0;
++#endif
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct xmit_frame *pxmitframe = NULL;
++#ifdef CONFIG_BR_EXT
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	void *br_port = NULL;
++#endif /* CONFIG_BR_EXT */
++
++	s32 res;
++
++	DBG_COUNTER(padapter->tx_logs.core_tx);
++
++	if (start == 0)
++		start = rtw_get_current_time();
++
++	pxmitframe = rtw_alloc_xmitframe(pxmitpriv);
++
++	if (rtw_get_passing_time_ms(start) > 2000) {
++		if (drop_cnt)
++			RTW_INFO("DBG_TX_DROP_FRAME %s no more pxmitframe, drop_cnt:%u\n", __FUNCTION__, drop_cnt);
++		start = rtw_get_current_time();
++		drop_cnt = 0;
++	}
++
++	if (pxmitframe == NULL) {
++		drop_cnt++;
++		/*RTW_INFO("%s-"ADPT_FMT" no more xmitframe\n", __func__, ADPT_ARG(padapter));*/
++		DBG_COUNTER(padapter->tx_logs.core_tx_err_pxmitframe);
++		return -1;
++	}
++
++#ifdef CONFIG_BR_EXT
++
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++	br_port = padapter->pnetdev->br_port;
++#else   /* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++	rcu_read_lock();
++	br_port = rcu_dereference(padapter->pnetdev->rx_handler_data);
++	rcu_read_unlock();
++#endif /* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++
++	if (br_port && check_fwstate(pmlmepriv, WIFI_STATION_STATE | WIFI_ADHOC_STATE) == _TRUE) {
++		res = rtw_br_client_tx(padapter, ppkt);
++		if (res == -1) {
++			rtw_free_xmitframe(pxmitpriv, pxmitframe);
++			DBG_COUNTER(padapter->tx_logs.core_tx_err_brtx);
++			return -1;
++		}
++	}
++
++#endif /* CONFIG_BR_EXT */
++
++	res = update_attrib(padapter, *ppkt, &pxmitframe->attrib);
++
++#ifdef CONFIG_MCC_MODE
++	/* record data kernel TX to driver to check MCC concurrent TX */
++	rtw_hal_mcc_calc_tx_bytes_from_kernel(padapter, pxmitframe->attrib.pktlen);
++#endif /* CONFIG_MCC_MODE */
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (pxmitframe->attrib.ether_type != 0x88B4) {
++		if (rtw_wapi_drop_for_key_absent(padapter, pxmitframe->attrib.ra)) {
++			WAPI_TRACE(WAPI_RX, "drop for key absend when tx\n");
++			res = _FAIL;
++		}
++	}
++#endif
++	if (res == _FAIL) {
++		/*RTW_INFO("%s-"ADPT_FMT" update attrib fail\n", __func__, ADPT_ARG(padapter));*/
++#ifdef DBG_TX_DROP_FRAME
++		RTW_INFO("DBG_TX_DROP_FRAME %s update attrib fail\n", __FUNCTION__);
++#endif
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++		return -1;
++	}
++	pxmitframe->pkt = *ppkt;
++
++	rtw_led_control(padapter, LED_CTL_TX);
++
++	do_queue_select(padapter, &pxmitframe->attrib);
++
++#ifdef CONFIG_AP_MODE
++	_enter_critical_bh(&pxmitpriv->lock, &irqL0);
++	if (xmitframe_enqueue_for_sleeping_sta(padapter, pxmitframe) == _TRUE) {
++		_exit_critical_bh(&pxmitpriv->lock, &irqL0);
++		DBG_COUNTER(padapter->tx_logs.core_tx_ap_enqueue);
++		return 1;
++	}
++	_exit_critical_bh(&pxmitpriv->lock, &irqL0);
++#endif
++
++	/* pre_xmitframe */
++	if (rtw_hal_xmit(padapter, pxmitframe) == _FALSE)
++		return 1;
++
++	return 0;
++}
++
++#ifdef CONFIG_TDLS
++sint xmitframe_enqueue_for_tdls_sleeping_sta(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	sint ret = _FALSE;
++
++	_irqL irqL;
++	struct sta_info *ptdls_sta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	int i;
++
++	ptdls_sta = rtw_get_stainfo(pstapriv, pattrib->dst);
++	if (ptdls_sta == NULL)
++		return ret;
++	else if (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE) {
++
++		if (pattrib->triggered == 1) {
++			ret = _TRUE;
++			return ret;
++		}
++
++		_enter_critical_bh(&ptdls_sta->sleep_q.lock, &irqL);
++
++		if (ptdls_sta->state & WIFI_SLEEP_STATE) {
++			rtw_list_delete(&pxmitframe->list);
++
++			/* _enter_critical_bh(&psta->sleep_q.lock, &irqL);	 */
++
++			rtw_list_insert_tail(&pxmitframe->list, get_list_head(&ptdls_sta->sleep_q));
++
++			ptdls_sta->sleepq_len++;
++			ptdls_sta->sleepq_ac_len++;
++
++			/* indicate 4-AC queue bit in TDLS peer traffic indication */
++			switch (pattrib->priority) {
++			case 1:
++			case 2:
++				ptdls_sta->uapsd_bk |= BIT(1);
++				break;
++			case 4:
++			case 5:
++				ptdls_sta->uapsd_vi |= BIT(1);
++				break;
++			case 6:
++			case 7:
++				ptdls_sta->uapsd_vo |= BIT(1);
++				break;
++			case 0:
++			case 3:
++			default:
++				ptdls_sta->uapsd_be |= BIT(1);
++				break;
++			}
++
++			/* Transmit TDLS PTI via AP */
++			if (ptdls_sta->sleepq_len == 1)
++				rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_ISSUE_PTI);
++
++			ret = _TRUE;
++		}
++
++		_exit_critical_bh(&ptdls_sta->sleep_q.lock, &irqL);
++	}
++
++	return ret;
++
++}
++#endif /* CONFIG_TDLS */
++
++#define RTW_HIQ_FILTER_ALLOW_ALL 0
++#define RTW_HIQ_FILTER_ALLOW_SPECIAL 1
++#define RTW_HIQ_FILTER_DENY_ALL 2
++
++inline bool xmitframe_hiq_filter(struct xmit_frame *xmitframe)
++{
++	bool allow = _FALSE;
++	_adapter *adapter = xmitframe->padapter;
++	struct registry_priv *registry = &adapter->registrypriv;
++
++	if (rtw_get_intf_type(adapter) != RTW_PCIE) {
++
++		if (adapter->registrypriv.wifi_spec == 1)
++			allow = _TRUE;
++		else if (registry->hiq_filter == RTW_HIQ_FILTER_ALLOW_SPECIAL) {
++
++			struct pkt_attrib *attrib = &xmitframe->attrib;
++
++			if (attrib->ether_type == 0x0806
++			    || attrib->ether_type == 0x888e
++#ifdef CONFIG_WAPI_SUPPORT
++			    || attrib->ether_type == 0x88B4
++#endif
++			    || attrib->dhcp_pkt
++			   ) {
++				if (0)
++					RTW_INFO(FUNC_ADPT_FMT" ether_type:0x%04x%s\n", FUNC_ADPT_ARG(xmitframe->padapter)
++						, attrib->ether_type, attrib->dhcp_pkt ? " DHCP" : "");
++				allow = _TRUE;
++			}
++		} else if (registry->hiq_filter == RTW_HIQ_FILTER_ALLOW_ALL)
++			allow = _TRUE;
++		else if (registry->hiq_filter == RTW_HIQ_FILTER_DENY_ALL) {
++		} else
++			rtw_warn_on(1);
++	}
++	return allow;
++}
++
++#if defined(CONFIG_AP_MODE) || defined(CONFIG_TDLS)
++
++sint xmitframe_enqueue_for_sleeping_sta(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	_irqL irqL;
++	sint ret = _FALSE;
++	struct sta_info *psta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	sint bmcst = IS_MCAST(pattrib->ra);
++	bool update_tim = _FALSE;
++#ifdef CONFIG_TDLS
++
++	if (padapter->tdlsinfo.link_established == _TRUE)
++		ret = xmitframe_enqueue_for_tdls_sleeping_sta(padapter, pxmitframe);
++#endif /* CONFIG_TDLS */
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _FALSE) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_ap_enqueue_warn_fwstate);
++		return ret;
++	}
++	/*
++		if(pattrib->psta)
++		{
++			psta = pattrib->psta;
++		}
++		else
++		{
++			RTW_INFO("%s, call rtw_get_stainfo()\n", __func__);
++			psta=rtw_get_stainfo(pstapriv, pattrib->ra);
++		}
++	*/
++	psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++	if (pattrib->psta != psta) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_ap_enqueue_warn_sta);
++		RTW_INFO("%s, pattrib->psta(%p) != psta(%p)\n", __func__, pattrib->psta, psta);
++		return _FALSE;
++	}
++
++	if (psta == NULL) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_ap_enqueue_warn_nosta);
++		RTW_INFO("%s, psta==NUL\n", __func__);
++		return _FALSE;
++	}
++
++	if (!(psta->state & _FW_LINKED)) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_ap_enqueue_warn_link);
++		RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++		return _FALSE;
++	}
++
++	if (pattrib->triggered == 1) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_ap_enqueue_warn_trigger);
++		/* RTW_INFO("directly xmit pspoll_triggered packet\n"); */
++
++		/* pattrib->triggered=0; */
++		if (bmcst && xmitframe_hiq_filter(pxmitframe) == _TRUE)
++			pattrib->qsel = QSLT_HIGH;/* HIQ */
++
++		return ret;
++	}
++
++
++	if (bmcst) {
++		_enter_critical_bh(&psta->sleep_q.lock, &irqL);
++
++		if (pstapriv->sta_dz_bitmap) { /* if anyone sta is in ps mode */
++			/* pattrib->qsel = QSLT_HIGH; */ /* HIQ */
++
++			rtw_list_delete(&pxmitframe->list);
++
++			/*_enter_critical_bh(&psta->sleep_q.lock, &irqL);*/
++
++			rtw_list_insert_tail(&pxmitframe->list, get_list_head(&psta->sleep_q));
++
++			psta->sleepq_len++;
++
++			if (!(pstapriv->tim_bitmap & BIT(0)))
++				update_tim = _TRUE;
++
++			pstapriv->tim_bitmap |= BIT(0);
++			pstapriv->sta_dz_bitmap |= BIT(0);
++
++			/* RTW_INFO("enqueue, sq_len=%d, tim=%x\n", psta->sleepq_len, pstapriv->tim_bitmap); */
++			if (update_tim == _TRUE) {
++				if (is_broadcast_mac_addr(pattrib->ra))
++					_update_beacon(padapter, _TIM_IE_, NULL, _TRUE, "buffer BC");
++				else
++					_update_beacon(padapter, _TIM_IE_, NULL, _TRUE, "buffer MC");
++			} else
++				chk_bmc_sleepq_cmd(padapter);
++
++			/*_exit_critical_bh(&psta->sleep_q.lock, &irqL);*/
++
++			ret = _TRUE;
++
++			DBG_COUNTER(padapter->tx_logs.core_tx_ap_enqueue_mcast);
++
++		}
++
++		_exit_critical_bh(&psta->sleep_q.lock, &irqL);
++
++		return ret;
++
++	}
++
++
++	_enter_critical_bh(&psta->sleep_q.lock, &irqL);
++
++	if (psta->state & WIFI_SLEEP_STATE) {
++		u8 wmmps_ac = 0;
++
++		if (pstapriv->sta_dz_bitmap & BIT(psta->aid)) {
++			rtw_list_delete(&pxmitframe->list);
++
++			/* _enter_critical_bh(&psta->sleep_q.lock, &irqL);	 */
++
++			rtw_list_insert_tail(&pxmitframe->list, get_list_head(&psta->sleep_q));
++
++			psta->sleepq_len++;
++
++			switch (pattrib->priority) {
++			case 1:
++			case 2:
++				wmmps_ac = psta->uapsd_bk & BIT(0);
++				break;
++			case 4:
++			case 5:
++				wmmps_ac = psta->uapsd_vi & BIT(0);
++				break;
++			case 6:
++			case 7:
++				wmmps_ac = psta->uapsd_vo & BIT(0);
++				break;
++			case 0:
++			case 3:
++			default:
++				wmmps_ac = psta->uapsd_be & BIT(0);
++				break;
++			}
++
++			if (wmmps_ac)
++				psta->sleepq_ac_len++;
++
++			if (((psta->has_legacy_ac) && (!wmmps_ac)) || ((!psta->has_legacy_ac) && (wmmps_ac))) {
++				if (!(pstapriv->tim_bitmap & BIT(psta->aid)))
++					update_tim = _TRUE;
++
++				pstapriv->tim_bitmap |= BIT(psta->aid);
++
++				/* RTW_INFO("enqueue, sq_len=%d, tim=%x\n", psta->sleepq_len, pstapriv->tim_bitmap); */
++
++				if (update_tim == _TRUE) {
++					/* RTW_INFO("sleepq_len==1, update BCNTIM\n"); */
++					/* upate BCN for TIM IE */
++					_update_beacon(padapter, _TIM_IE_, NULL, _TRUE, "buffer UC");
++				}
++			}
++
++			/* _exit_critical_bh(&psta->sleep_q.lock, &irqL);			 */
++
++			/* if(psta->sleepq_len > (NR_XMITFRAME>>3)) */
++			/* { */
++			/*	wakeup_sta_to_xmit(padapter, psta); */
++			/* }	 */
++
++			ret = _TRUE;
++
++			DBG_COUNTER(padapter->tx_logs.core_tx_ap_enqueue_ucast);
++		}
++
++	}
++
++	_exit_critical_bh(&psta->sleep_q.lock, &irqL);
++
++	return ret;
++
++}
++
++static void dequeue_xmitframes_to_sleeping_queue(_adapter *padapter, struct sta_info *psta, _queue *pframequeue)
++{
++	sint ret;
++	_list	*plist, *phead;
++	u8	ac_index;
++	struct tx_servq	*ptxservq;
++	struct pkt_attrib	*pattrib;
++	struct xmit_frame	*pxmitframe;
++	struct hw_xmit *phwxmits =  padapter->xmitpriv.hwxmits;
++
++	phead = get_list_head(pframequeue);
++	plist = get_next(phead);
++
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		pxmitframe = LIST_CONTAINOR(plist, struct xmit_frame, list);
++
++		plist = get_next(plist);
++
++		pattrib = &pxmitframe->attrib;
++
++		pattrib->triggered = 0;
++
++		ret = xmitframe_enqueue_for_sleeping_sta(padapter, pxmitframe);
++
++		if (_TRUE == ret) {
++			ptxservq = rtw_get_sta_pending(padapter, psta, pattrib->priority, (u8 *)(&ac_index));
++
++			ptxservq->qcnt--;
++			phwxmits[ac_index].accnt--;
++		} else {
++			/* RTW_INFO("xmitframe_enqueue_for_sleeping_sta return _FALSE\n"); */
++		}
++
++	}
++
++}
++
++void stop_sta_xmit(_adapter *padapter, struct sta_info *psta)
++{
++	_irqL irqL0;
++	struct sta_info *psta_bmc;
++	struct sta_xmit_priv *pstaxmitpriv;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	pstaxmitpriv = &psta->sta_xmitpriv;
++
++	/* for BC/MC Frames */
++	psta_bmc = rtw_get_bcmc_stainfo(padapter);
++
++
++	_enter_critical_bh(&pxmitpriv->lock, &irqL0);
++
++	psta->state |= WIFI_SLEEP_STATE;
++
++#ifdef CONFIG_TDLS
++	if (!(psta->tdls_sta_state & TDLS_LINKED_STATE))
++#endif /* CONFIG_TDLS */
++		pstapriv->sta_dz_bitmap |= BIT(psta->aid);
++
++
++
++	dequeue_xmitframes_to_sleeping_queue(padapter, psta, &pstaxmitpriv->vo_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->vo_q.tx_pending));
++
++
++	dequeue_xmitframes_to_sleeping_queue(padapter, psta, &pstaxmitpriv->vi_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->vi_q.tx_pending));
++
++
++	dequeue_xmitframes_to_sleeping_queue(padapter, psta, &pstaxmitpriv->be_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->be_q.tx_pending));
++
++
++	dequeue_xmitframes_to_sleeping_queue(padapter, psta, &pstaxmitpriv->bk_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->bk_q.tx_pending));
++
++#ifdef CONFIG_TDLS
++	if (!(psta->tdls_sta_state & TDLS_LINKED_STATE) && (psta_bmc != NULL)) {
++#endif /* CONFIG_TDLS */
++
++
++		/* for BC/MC Frames */
++		pstaxmitpriv = &psta_bmc->sta_xmitpriv;
++		dequeue_xmitframes_to_sleeping_queue(padapter, psta_bmc, &pstaxmitpriv->be_q.sta_pending);
++		rtw_list_delete(&(pstaxmitpriv->be_q.tx_pending));
++
++
++#ifdef CONFIG_TDLS
++	}
++#endif /* CONFIG_TDLS	 */
++	_exit_critical_bh(&pxmitpriv->lock, &irqL0);
++
++
++}
++
++void wakeup_sta_to_xmit(_adapter *padapter, struct sta_info *psta)
++{
++	_irqL irqL;
++	u8 update_mask = 0, wmmps_ac = 0;
++	struct sta_info *psta_bmc;
++	_list	*xmitframe_plist, *xmitframe_phead;
++	struct xmit_frame *pxmitframe = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	psta_bmc = rtw_get_bcmc_stainfo(padapter);
++
++
++	/* _enter_critical_bh(&psta->sleep_q.lock, &irqL); */
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++	xmitframe_phead = get_list_head(&psta->sleep_q);
++	xmitframe_plist = get_next(xmitframe_phead);
++
++	while ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE) {
++		pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++		xmitframe_plist = get_next(xmitframe_plist);
++
++		rtw_list_delete(&pxmitframe->list);
++
++		switch (pxmitframe->attrib.priority) {
++		case 1:
++		case 2:
++			wmmps_ac = psta->uapsd_bk & BIT(1);
++			break;
++		case 4:
++		case 5:
++			wmmps_ac = psta->uapsd_vi & BIT(1);
++			break;
++		case 6:
++		case 7:
++			wmmps_ac = psta->uapsd_vo & BIT(1);
++			break;
++		case 0:
++		case 3:
++		default:
++			wmmps_ac = psta->uapsd_be & BIT(1);
++			break;
++		}
++
++		psta->sleepq_len--;
++		if (psta->sleepq_len > 0)
++			pxmitframe->attrib.mdata = 1;
++		else
++			pxmitframe->attrib.mdata = 0;
++
++		if (wmmps_ac) {
++			psta->sleepq_ac_len--;
++			if (psta->sleepq_ac_len > 0) {
++				pxmitframe->attrib.mdata = 1;
++				pxmitframe->attrib.eosp = 0;
++			} else {
++				pxmitframe->attrib.mdata = 0;
++				pxmitframe->attrib.eosp = 1;
++			}
++		}
++
++		pxmitframe->attrib.triggered = 1;
++
++		/*
++				_exit_critical_bh(&psta->sleep_q.lock, &irqL);
++				if(rtw_hal_xmit(padapter, pxmitframe) == _TRUE)
++				{
++					rtw_os_xmit_complete(padapter, pxmitframe);
++				}
++				_enter_critical_bh(&psta->sleep_q.lock, &irqL);
++		*/
++		rtw_hal_xmitframe_enqueue(padapter, pxmitframe);
++
++
++	}
++
++	if (psta->sleepq_len == 0) {
++#ifdef CONFIG_TDLS
++		if (psta->tdls_sta_state & TDLS_LINKED_STATE) {
++			if (psta->state & WIFI_SLEEP_STATE)
++				psta->state ^= WIFI_SLEEP_STATE;
++
++			_exit_critical_bh(&pxmitpriv->lock, &irqL);
++			return;
++		}
++#endif /* CONFIG_TDLS */
++
++		if (pstapriv->tim_bitmap & BIT(psta->aid)) {
++			/* RTW_INFO("wakeup to xmit, qlen==0, update_BCNTIM, tim=%x\n", pstapriv->tim_bitmap); */
++			/* upate BCN for TIM IE */
++			/* update_BCNTIM(padapter); */
++			update_mask = BIT(0);
++		}
++
++		pstapriv->tim_bitmap &= ~BIT(psta->aid);
++
++		if (psta->state & WIFI_SLEEP_STATE)
++			psta->state ^= WIFI_SLEEP_STATE;
++
++		if (psta->state & WIFI_STA_ALIVE_CHK_STATE) {
++			RTW_INFO("%s alive check\n", __func__);
++			psta->expire_to = pstapriv->expire_to;
++			psta->state ^= WIFI_STA_ALIVE_CHK_STATE;
++		}
++
++		pstapriv->sta_dz_bitmap &= ~BIT(psta->aid);
++	}
++
++	/* for BC/MC Frames */
++	if (!psta_bmc)
++		goto _exit;
++
++	if ((pstapriv->sta_dz_bitmap & 0xfffe) == 0x0) { /* no any sta in ps mode */
++		xmitframe_phead = get_list_head(&psta_bmc->sleep_q);
++		xmitframe_plist = get_next(xmitframe_phead);
++
++		while ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE) {
++			pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++			xmitframe_plist = get_next(xmitframe_plist);
++
++			rtw_list_delete(&pxmitframe->list);
++
++			psta_bmc->sleepq_len--;
++			if (psta_bmc->sleepq_len > 0)
++				pxmitframe->attrib.mdata = 1;
++			else
++				pxmitframe->attrib.mdata = 0;
++
++
++			pxmitframe->attrib.triggered = 1;
++			/*
++						_exit_critical_bh(&psta_bmc->sleep_q.lock, &irqL);
++						if(rtw_hal_xmit(padapter, pxmitframe) == _TRUE)
++						{
++							rtw_os_xmit_complete(padapter, pxmitframe);
++						}
++						_enter_critical_bh(&psta_bmc->sleep_q.lock, &irqL);
++
++			*/
++			rtw_hal_xmitframe_enqueue(padapter, pxmitframe);
++
++		}
++
++		if (psta_bmc->sleepq_len == 0) {
++			if (pstapriv->tim_bitmap & BIT(0)) {
++				/* RTW_INFO("wakeup to xmit, qlen==0, update_BCNTIM, tim=%x\n", pstapriv->tim_bitmap); */
++				/* upate BCN for TIM IE */
++				/* update_BCNTIM(padapter); */
++				update_mask |= BIT(1);
++			}
++			pstapriv->tim_bitmap &= ~BIT(0);
++			pstapriv->sta_dz_bitmap &= ~BIT(0);
++		}
++
++	}
++
++_exit:
++
++	/* _exit_critical_bh(&psta_bmc->sleep_q.lock, &irqL);	 */
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++	if (update_mask) {
++		/* update_BCNTIM(padapter); */
++		if ((update_mask & (BIT(0) | BIT(1))) == (BIT(0) | BIT(1)))
++			_update_beacon(padapter, _TIM_IE_, NULL, _TRUE, "clear UC&BMC");
++		else if ((update_mask & BIT(1)) == BIT(1))
++			_update_beacon(padapter, _TIM_IE_, NULL, _TRUE, "clear BMC");
++		else
++			_update_beacon(padapter, _TIM_IE_, NULL, _TRUE, "clear UC");
++	}
++
++}
++
++void xmit_delivery_enabled_frames(_adapter *padapter, struct sta_info *psta)
++{
++	_irqL irqL;
++	u8 wmmps_ac = 0;
++	_list	*xmitframe_plist, *xmitframe_phead;
++	struct xmit_frame *pxmitframe = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++
++	/* _enter_critical_bh(&psta->sleep_q.lock, &irqL); */
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++	xmitframe_phead = get_list_head(&psta->sleep_q);
++	xmitframe_plist = get_next(xmitframe_phead);
++
++	while ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE) {
++		pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++		xmitframe_plist = get_next(xmitframe_plist);
++
++		switch (pxmitframe->attrib.priority) {
++		case 1:
++		case 2:
++			wmmps_ac = psta->uapsd_bk & BIT(1);
++			break;
++		case 4:
++		case 5:
++			wmmps_ac = psta->uapsd_vi & BIT(1);
++			break;
++		case 6:
++		case 7:
++			wmmps_ac = psta->uapsd_vo & BIT(1);
++			break;
++		case 0:
++		case 3:
++		default:
++			wmmps_ac = psta->uapsd_be & BIT(1);
++			break;
++		}
++
++		if (!wmmps_ac)
++			continue;
++
++		rtw_list_delete(&pxmitframe->list);
++
++		psta->sleepq_len--;
++		psta->sleepq_ac_len--;
++
++		if (psta->sleepq_ac_len > 0) {
++			pxmitframe->attrib.mdata = 1;
++			pxmitframe->attrib.eosp = 0;
++		} else {
++			pxmitframe->attrib.mdata = 0;
++			pxmitframe->attrib.eosp = 1;
++		}
++
++		pxmitframe->attrib.triggered = 1;
++		rtw_hal_xmitframe_enqueue(padapter, pxmitframe);
++
++		if ((psta->sleepq_ac_len == 0) && (!psta->has_legacy_ac) && (wmmps_ac)) {
++#ifdef CONFIG_TDLS
++			if (psta->tdls_sta_state & TDLS_LINKED_STATE) {
++				/* _exit_critical_bh(&psta->sleep_q.lock, &irqL); */
++				goto exit;
++			}
++#endif /* CONFIG_TDLS */
++			pstapriv->tim_bitmap &= ~BIT(psta->aid);
++
++			/* RTW_INFO("wakeup to xmit, qlen==0, update_BCNTIM, tim=%x\n", pstapriv->tim_bitmap); */
++			/* upate BCN for TIM IE */
++			/* update_BCNTIM(padapter); */
++			update_beacon(padapter, _TIM_IE_, NULL, _TRUE);
++			/* update_mask = BIT(0); */
++		}
++
++	}
++
++exit:
++	/* _exit_critical_bh(&psta->sleep_q.lock, &irqL);	 */
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++	return;
++}
++
++#endif /* defined(CONFIG_AP_MODE) || defined(CONFIG_TDLS) */
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++void enqueue_pending_xmitbuf(
++	struct xmit_priv *pxmitpriv,
++	struct xmit_buf *pxmitbuf)
++{
++	_irqL irql;
++	_queue *pqueue;
++	_adapter *pri_adapter = pxmitpriv->adapter;
++
++	pqueue = &pxmitpriv->pending_xmitbuf_queue;
++
++	_enter_critical_bh(&pqueue->lock, &irql);
++	rtw_list_delete(&pxmitbuf->list);
++	rtw_list_insert_tail(&pxmitbuf->list, get_list_head(pqueue));
++	_exit_critical_bh(&pqueue->lock, &irql);
++
++#if defined(CONFIG_SDIO_HCI) && defined(CONFIG_CONCURRENT_MODE)
++	pri_adapter = GET_PRIMARY_ADAPTER(pri_adapter);
++#endif /*SDIO_HCI + CONCURRENT*/
++	_rtw_up_sema(&(pri_adapter->xmitpriv.xmit_sema));
++}
++
++void enqueue_pending_xmitbuf_to_head(
++	struct xmit_priv *pxmitpriv,
++	struct xmit_buf *pxmitbuf)
++{
++	_irqL irql;
++	_queue *pqueue = &pxmitpriv->pending_xmitbuf_queue;
++
++	_enter_critical_bh(&pqueue->lock, &irql);
++	rtw_list_delete(&pxmitbuf->list);
++	rtw_list_insert_head(&pxmitbuf->list, get_list_head(pqueue));
++	_exit_critical_bh(&pqueue->lock, &irql);
++}
++
++struct xmit_buf *dequeue_pending_xmitbuf(
++	struct xmit_priv *pxmitpriv)
++{
++	_irqL irql;
++	struct xmit_buf *pxmitbuf;
++	_queue *pqueue;
++
++
++	pxmitbuf = NULL;
++	pqueue = &pxmitpriv->pending_xmitbuf_queue;
++
++	_enter_critical_bh(&pqueue->lock, &irql);
++
++	if (_rtw_queue_empty(pqueue) == _FALSE) {
++		_list *plist, *phead;
++
++		phead = get_list_head(pqueue);
++		plist = get_next(phead);
++		pxmitbuf = LIST_CONTAINOR(plist, struct xmit_buf, list);
++		rtw_list_delete(&pxmitbuf->list);
++	}
++
++	_exit_critical_bh(&pqueue->lock, &irql);
++
++	return pxmitbuf;
++}
++
++static struct xmit_buf *dequeue_pending_xmitbuf_under_survey(
++	struct xmit_priv *pxmitpriv)
++{
++	_irqL irql;
++	struct xmit_buf *pxmitbuf;
++#ifdef CONFIG_USB_HCI
++	struct xmit_frame *pxmitframe;
++#endif
++	_queue *pqueue;
++
++
++	pxmitbuf = NULL;
++	pqueue = &pxmitpriv->pending_xmitbuf_queue;
++
++	_enter_critical_bh(&pqueue->lock, &irql);
++
++	if (_rtw_queue_empty(pqueue) == _FALSE) {
++		_list *plist, *phead;
++		u8 type;
++
++		phead = get_list_head(pqueue);
++		plist = phead;
++		do {
++			plist = get_next(plist);
++			if (plist == phead)
++				break;
++
++			pxmitbuf = LIST_CONTAINOR(plist, struct xmit_buf, list);
++
++#ifdef CONFIG_USB_HCI
++			pxmitframe = (struct xmit_frame *)pxmitbuf->priv_data;
++			if (pxmitframe)
++				type = GetFrameSubType(pxmitbuf->pbuf + TXDESC_SIZE + pxmitframe->pkt_offset * PACKET_OFFSET_SZ);
++			else
++				RTW_INFO("%s, !!!ERROR!!! For USB, TODO ITEM\n", __FUNCTION__);
++#else
++			type = GetFrameSubType(pxmitbuf->pbuf + TXDESC_OFFSET);
++#endif
++
++			if ((type == WIFI_PROBEREQ) ||
++			    (type == WIFI_DATA_NULL) ||
++			    (type == WIFI_QOS_DATA_NULL)) {
++				rtw_list_delete(&pxmitbuf->list);
++				break;
++			}
++			pxmitbuf = NULL;
++		} while (1);
++	}
++
++	_exit_critical_bh(&pqueue->lock, &irql);
++
++	return pxmitbuf;
++}
++
++static struct xmit_buf *dequeue_pending_xmitbuf_ext(
++	struct xmit_priv *pxmitpriv)
++{
++	_irqL irql;
++	struct xmit_buf *pxmitbuf;
++	_queue *pqueue;
++
++	pxmitbuf = NULL;
++	pqueue = &pxmitpriv->pending_xmitbuf_queue;
++
++	_enter_critical_bh(&pqueue->lock, &irql);
++
++	if (_rtw_queue_empty(pqueue) == _FALSE) {
++		_list *plist, *phead;
++		u8 type;
++
++		phead = get_list_head(pqueue);
++		plist = phead;
++		do {
++			plist = get_next(plist);
++			if (plist == phead)
++				break;
++
++			pxmitbuf = LIST_CONTAINOR(plist, struct xmit_buf, list);
++
++			if (pxmitbuf->buf_tag == XMITBUF_MGNT) {
++				rtw_list_delete(&pxmitbuf->list);
++				break;
++			}
++			pxmitbuf = NULL;
++		} while (1);
++	}
++
++	_exit_critical_bh(&pqueue->lock, &irql);
++
++	return pxmitbuf;
++}
++
++struct xmit_buf *select_and_dequeue_pending_xmitbuf(_adapter *padapter)
++{
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct xmit_buf *pxmitbuf = NULL;
++
++	if (rtw_xmit_ac_blocked(padapter) == _TRUE)
++		pxmitbuf = dequeue_pending_xmitbuf_under_survey(pxmitpriv);
++	else {
++		pxmitbuf = dequeue_pending_xmitbuf_ext(pxmitpriv);
++		if (pxmitbuf == NULL)
++			pxmitbuf = dequeue_pending_xmitbuf(pxmitpriv);
++	}
++
++	return pxmitbuf;
++}
++
++sint check_pending_xmitbuf(
++	struct xmit_priv *pxmitpriv)
++{
++	_irqL irql;
++	_queue *pqueue;
++	sint	ret = _FALSE;
++
++	pqueue = &pxmitpriv->pending_xmitbuf_queue;
++
++	_enter_critical_bh(&pqueue->lock, &irql);
++
++	if (_rtw_queue_empty(pqueue) == _FALSE)
++		ret = _TRUE;
++
++	_exit_critical_bh(&pqueue->lock, &irql);
++
++	return ret;
++}
++
++thread_return rtw_xmit_thread(thread_context context)
++{
++	s32 err;
++	PADAPTER padapter;
++
++
++	err = _SUCCESS;
++	padapter = (PADAPTER)context;
++
++	thread_enter("RTW_XMIT_THREAD");
++
++	do {
++		err = rtw_hal_xmit_thread_handler(padapter);
++		flush_signals_thread();
++	} while (_SUCCESS == err);
++
++	_rtw_up_sema(&padapter->xmitpriv.terminate_xmitthread_sema);
++
++	thread_exit();
++}
++#endif
++
++bool rtw_xmit_ac_blocked(_adapter *adapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	_adapter *iface;
++	struct mlme_ext_priv *mlmeext;
++	struct mlme_ext_info *mlmeextinfo;
++	bool blocked = _FALSE;
++	int i;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		mlmeext = &iface->mlmeextpriv;
++
++		/* check scan state */
++		if (mlmeext_scan_state(mlmeext) != SCAN_DISABLE
++			&& mlmeext_scan_state(mlmeext) != SCAN_BACK_OP
++		) {
++			blocked = _TRUE;
++			goto exit;
++		}
++
++		if (mlmeext_scan_state(mlmeext) == SCAN_BACK_OP
++			&& !mlmeext_chk_scan_backop_flags(mlmeext, SS_BACKOP_TX_RESUME)
++		) {
++			blocked = _TRUE;
++			goto exit;
++		}
++	}
++
++#ifdef CONFIG_MCC_MODE
++	if (MCC_EN(adapter)) {
++		if (rtw_hal_check_mcc_status(adapter, MCC_STATUS_DOING_MCC)) {
++			if (MCC_STOP(adapter)) {
++				blocked = _TRUE;
++				goto exit;
++			}
++		}
++	}
++#endif /*  CONFIG_MCC_MODE */
++
++exit:
++	return blocked;
++}
++
++void rtw_sctx_init(struct submit_ctx *sctx, int timeout_ms)
++{
++	sctx->timeout_ms = timeout_ms;
++	sctx->submit_time = rtw_get_current_time();
++#ifdef PLATFORM_LINUX /* TODO: add condition wating interface for other os */
++	init_completion(&sctx->done);
++#endif
++	sctx->status = RTW_SCTX_SUBMITTED;
++}
++
++int rtw_sctx_wait(struct submit_ctx *sctx, const char *msg)
++{
++	int ret = _FAIL;
++	unsigned long expire;
++	int status = 0;
++
++#ifdef PLATFORM_LINUX
++	expire = sctx->timeout_ms ? msecs_to_jiffies(sctx->timeout_ms) : MAX_SCHEDULE_TIMEOUT;
++	if (!wait_for_completion_timeout(&sctx->done, expire)) {
++		/* timeout, do something?? */
++		status = RTW_SCTX_DONE_TIMEOUT;
++		RTW_INFO("%s timeout: %s\n", __func__, msg);
++	} else
++		status = sctx->status;
++#endif
++
++	if (status == RTW_SCTX_DONE_SUCCESS)
++		ret = _SUCCESS;
++
++	return ret;
++}
++
++bool rtw_sctx_chk_waring_status(int status)
++{
++	switch (status) {
++	case RTW_SCTX_DONE_UNKNOWN:
++	case RTW_SCTX_DONE_BUF_ALLOC:
++	case RTW_SCTX_DONE_BUF_FREE:
++
++	case RTW_SCTX_DONE_DRV_STOP:
++	case RTW_SCTX_DONE_DEV_REMOVE:
++		return _TRUE;
++	default:
++		return _FALSE;
++	}
++}
++
++void rtw_sctx_done_err(struct submit_ctx **sctx, int status)
++{
++	if (*sctx) {
++		if (rtw_sctx_chk_waring_status(status))
++			RTW_INFO("%s status:%d\n", __func__, status);
++		(*sctx)->status = status;
++#ifdef PLATFORM_LINUX
++		complete(&((*sctx)->done));
++#endif
++		*sctx = NULL;
++	}
++}
++
++void rtw_sctx_done(struct submit_ctx **sctx)
++{
++	rtw_sctx_done_err(sctx, RTW_SCTX_DONE_SUCCESS);
++}
++
++#ifdef CONFIG_XMIT_ACK
++int rtw_ack_tx_wait(struct xmit_priv *pxmitpriv, u32 timeout_ms)
++{
++	struct submit_ctx *pack_tx_ops = &pxmitpriv->ack_tx_ops;
++
++	pack_tx_ops->submit_time = rtw_get_current_time();
++	pack_tx_ops->timeout_ms = timeout_ms;
++	pack_tx_ops->status = RTW_SCTX_SUBMITTED;
++
++	return rtw_sctx_wait(pack_tx_ops, __func__);
++}
++
++void rtw_ack_tx_done(struct xmit_priv *pxmitpriv, int status)
++{
++	struct submit_ctx *pack_tx_ops = &pxmitpriv->ack_tx_ops;
++
++	if (pxmitpriv->ack_tx)
++		rtw_sctx_done_err(&pack_tx_ops, status);
++	else
++		RTW_INFO("%s ack_tx not set\n", __func__);
++}
++#endif /* CONFIG_XMIT_ACK */
+diff --git a/drivers/net/wireless/rtl8723du/hal/HalPwrSeqCmd.c b/drivers/net/wireless/rtl8723du/hal/HalPwrSeqCmd.c
+new file mode 100644
+index 0000000..de709b1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/HalPwrSeqCmd.c
+@@ -0,0 +1,161 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*++
++Copyright (c) Realtek Semiconductor Corp. All rights reserved.
++
++Module Name:
++	HalPwrSeqCmd.c
++
++Abstract:
++	Implement HW Power sequence configuration CMD handling routine for Realtek devices.
++
++Major Change History:
++	When       Who               What
++	---------- ---------------   -------------------------------
++	2011-10-26 Lucas            Modify to be compatible with SD4-CE driver.
++	2011-07-07 Roger            Create.
++
++--*/
++#include <HalPwrSeqCmd.h>
++
++
++/*
++ *	Description:
++ *		This routine deal with the Power Configuration CMDs parsing for RTL8723/RTL8188E Series IC.
++ *
++ *	Assumption:
++ *		We should follow specific format which was released from HW SD.
++ *
++ *	2011.07.07, added by Roger.
++ *   */
++u8 HalPwrSeqCmdParsing(
++	PADAPTER		padapter,
++	u8				CutVersion,
++	u8				FabVersion,
++	u8				InterfaceType,
++	WLAN_PWR_CFG	PwrSeqCmd[])
++{
++	WLAN_PWR_CFG	PwrCfgCmd = {0};
++	u8				bPollingBit = _FALSE;
++	u32				AryIdx = 0;
++	u8				value = 0;
++	u32				offset = 0;
++	u32				pollingCount = 0; /* polling autoload done. */
++	u32				maxPollingCnt = 5000;
++
++	do {
++		PwrCfgCmd = PwrSeqCmd[AryIdx];
++
++
++		/* 2 Only Handle the command whose FAB, CUT, and Interface are matched */
++		if ((GET_PWR_CFG_FAB_MASK(PwrCfgCmd) & FabVersion) &&
++		    (GET_PWR_CFG_CUT_MASK(PwrCfgCmd) & CutVersion) &&
++		    (GET_PWR_CFG_INTF_MASK(PwrCfgCmd) & InterfaceType)) {
++			switch (GET_PWR_CFG_CMD(PwrCfgCmd)) {
++			case PWR_CMD_READ:
++				break;
++
++			case PWR_CMD_WRITE:
++				offset = GET_PWR_CFG_OFFSET(PwrCfgCmd);
++
++#ifdef CONFIG_SDIO_HCI
++				/*  */
++				/* <Roger_Notes> We should deal with interface specific address mapping for some interfaces, e.g., SDIO interface */
++				/* 2011.07.07. */
++				/*  */
++				if (GET_PWR_CFG_BASE(PwrCfgCmd) == PWR_BASEADDR_SDIO) {
++					/* Read Back SDIO Local value */
++					value = SdioLocalCmd52Read1Byte(padapter, offset);
++
++					value &= ~(GET_PWR_CFG_MASK(PwrCfgCmd));
++					value |= (GET_PWR_CFG_VALUE(PwrCfgCmd) & GET_PWR_CFG_MASK(PwrCfgCmd));
++
++					/* Write Back SDIO Local value */
++					SdioLocalCmd52Write1Byte(padapter, offset, value);
++				} else
++#endif
++				{
++#ifdef CONFIG_GSPI_HCI
++					if (GET_PWR_CFG_BASE(PwrCfgCmd) == PWR_BASEADDR_SDIO)
++						offset = SPI_LOCAL_OFFSET | offset;
++#endif
++					/* Read the value from system register */
++					value = rtw_read8(padapter, offset);
++
++					value = value & (~(GET_PWR_CFG_MASK(PwrCfgCmd)));
++					value = value | (GET_PWR_CFG_VALUE(PwrCfgCmd) & GET_PWR_CFG_MASK(PwrCfgCmd));
++
++					/* Write the value back to sytem register */
++					rtw_write8(padapter, offset, value);
++				}
++				break;
++
++			case PWR_CMD_POLLING:
++
++				bPollingBit = _FALSE;
++				offset = GET_PWR_CFG_OFFSET(PwrCfgCmd);
++#ifdef CONFIG_GSPI_HCI
++				if (GET_PWR_CFG_BASE(PwrCfgCmd) == PWR_BASEADDR_SDIO)
++					offset = SPI_LOCAL_OFFSET | offset;
++#endif
++				do {
++#ifdef CONFIG_SDIO_HCI
++					if (GET_PWR_CFG_BASE(PwrCfgCmd) == PWR_BASEADDR_SDIO)
++						value = SdioLocalCmd52Read1Byte(padapter, offset);
++					else
++#endif
++						value = rtw_read8(padapter, offset);
++
++					value = value & GET_PWR_CFG_MASK(PwrCfgCmd);
++					if (value == (GET_PWR_CFG_VALUE(PwrCfgCmd) & GET_PWR_CFG_MASK(PwrCfgCmd)))
++						bPollingBit = _TRUE;
++					else
++						rtw_udelay_os(10);
++
++					if (pollingCount++ > maxPollingCnt) {
++						RTW_ERR("HalPwrSeqCmdParsing: Fail to polling Offset[%#x]=%02x\n", offset, value);
++						return _FALSE;
++					}
++				} while (!bPollingBit);
++
++				break;
++
++			case PWR_CMD_DELAY:
++				if (GET_PWR_CFG_VALUE(PwrCfgCmd) == PWRSEQ_DELAY_US)
++					rtw_udelay_os(GET_PWR_CFG_OFFSET(PwrCfgCmd));
++				else
++					rtw_udelay_os(GET_PWR_CFG_OFFSET(PwrCfgCmd) * 1000);
++				break;
++
++			case PWR_CMD_END:
++				/* When this command is parsed, end the process */
++				return _TRUE;
++				break;
++
++			default:
++				break;
++			}
++		}
++
++		AryIdx++;/* Add Array Index */
++	} while (1);
++
++	return _TRUE;
++}
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8188c2Ant.c b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8188c2Ant.c
+new file mode 100644
+index 0000000..d8d4a11
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8188c2Ant.c
+@@ -0,0 +1,1987 @@
++//============================================================
++// Description:
++//
++// This file is for 92CE/92CU BT 1 Antenna Co-exist mechanism
++//
++// By cosa 02/11/2011
++//
++//============================================================
++
++//============================================================
++// include files
++//============================================================
++#include "Mp_Precomp.h"
++
++#if WPP_SOFTWARE_TRACE
++#include "HalBtc8188c2Ant.tmh"
++#endif
++
++#if(BT_30_SUPPORT == 1)
++//============================================================
++// Global variables, these are static variables
++//============================================================
++static COEX_DM_8188C_2ANT	GLCoexDm8188c2Ant;
++static PCOEX_DM_8188C_2ANT 	pCoexDm=&GLCoexDm8188c2Ant;
++static COEX_STA_8188C_2ANT	GLCoexSta8188c2Ant;
++static PCOEX_STA_8188C_2ANT	pCoexSta=&GLCoexSta8188c2Ant;
++
++//============================================================
++// local function start with btdm_
++//============================================================
++u1Byte
++halbtc8188c2ant_WifiRssiState(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			index,
++	IN	u1Byte			levelNum,
++	IN	u1Byte			rssiThresh,
++	IN	u1Byte			rssiThresh1
++	)
++{
++	s4Byte			wifiRssi=0;
++	u1Byte			wifiRssiState=pCoexSta->preWifiRssiState[index];
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_S4_WIFI_RSSI, &wifiRssi);
++	
++	if(levelNum == 2)
++	{
++		if( (pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_LOW) ||
++			(pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_STAY_LOW))
++		{
++			if(wifiRssi >= (rssiThresh+BTC_RSSI_COEX_THRESH_TOL_8188C_2ANT))
++			{
++				wifiRssiState = BTC_RSSI_STATE_HIGH;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_LOW;
++			}
++		}
++		else
++		{
++			if(wifiRssi < rssiThresh)
++			{
++				wifiRssiState = BTC_RSSI_STATE_LOW;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_HIGH;
++			}
++		}
++	}
++	else if(levelNum == 3)
++	{
++		if(rssiThresh > rssiThresh1)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], wifi RSSI thresh error!!\n"));
++			return pCoexSta->preWifiRssiState[index];
++		}
++		
++		if( (pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_LOW) ||
++			(pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_STAY_LOW))
++		{
++			if(wifiRssi >= (rssiThresh+BTC_RSSI_COEX_THRESH_TOL_8188C_2ANT))
++			{
++				wifiRssiState = BTC_RSSI_STATE_MEDIUM;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_LOW;
++			}
++		}
++		else if( (pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_MEDIUM) ||
++			(pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_STAY_MEDIUM))
++		{
++			if(wifiRssi >= (rssiThresh1+BTC_RSSI_COEX_THRESH_TOL_8188C_2ANT))
++			{
++				wifiRssiState = BTC_RSSI_STATE_HIGH;
++			}
++			else if(wifiRssi < rssiThresh)
++			{
++				wifiRssiState = BTC_RSSI_STATE_LOW;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_MEDIUM;
++			}
++		}
++		else
++		{
++			if(wifiRssi < rssiThresh1)
++			{
++				wifiRssiState = BTC_RSSI_STATE_MEDIUM;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_HIGH;
++			}
++		}
++	}
++		
++	pCoexSta->preWifiRssiState[index] = wifiRssiState;
++
++	return wifiRssiState;
++}
++
++u1Byte
++halbtc8188c2ant_ActionAlgorithm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	PBTC_STACK_INFO		pStackInfo=&pBtCoexist->stackInfo;
++	u1Byte				algorithm=BT_8188C_2ANT_COEX_ALGO_UNDEFINED;
++	u1Byte				numOfDiffProfile=0;
++	
++	if(!pStackInfo->bBtLinkExist)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], No profile exists!!!\n"));
++		return algorithm;
++	}
++
++	if(pStackInfo->bScoExist)
++		numOfDiffProfile++;
++	if(pStackInfo->bHidExist)
++		numOfDiffProfile++;
++	if(pStackInfo->bPanExist)
++		numOfDiffProfile++;
++	if(pStackInfo->bA2dpExist)
++		numOfDiffProfile++;
++
++	if(pStackInfo->bScoExist)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO algorithm\n"));
++		algorithm = BT_8188C_2ANT_COEX_ALGO_SCO;
++	}
++	else
++	{
++		if(numOfDiffProfile == 1)
++		{
++			if(pStackInfo->bHidExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID only\n"));
++				algorithm = BT_8188C_2ANT_COEX_ALGO_HID;
++			}
++			else if(pStackInfo->bA2dpExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], A2DP only\n"));
++				algorithm = BT_8188C_2ANT_COEX_ALGO_A2DP;
++			}
++			else if(pStackInfo->bPanExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN only\n"));
++				algorithm = BT_8188C_2ANT_COEX_ALGO_PAN;
++			}
++		}
++		else
++		{
++			if( pStackInfo->bHidExist &&
++				pStackInfo->bA2dpExist )
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID + A2DP\n"));
++				algorithm = BT_8188C_2ANT_COEX_ALGO_HID_A2DP;
++			}
++			else if( pStackInfo->bHidExist &&
++				pStackInfo->bPanExist )
++			{				
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID + PAN\n"));
++				algorithm = BT_8188C_2ANT_COEX_ALGO_HID_PAN;
++			}
++			else if( pStackInfo->bPanExist &&
++				pStackInfo->bA2dpExist )
++			{				
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN + A2DP\n"));
++				algorithm = BT_8188C_2ANT_COEX_ALGO_PAN_A2DP;
++			}
++		}		
++	}
++	return algorithm;
++}
++
++VOID
++halbtc8188c2ant_SetFwBalance(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bBalanceOn,
++	IN	u1Byte			ms0,
++	IN	u1Byte			ms1
++	)
++{
++	u1Byte	H2C_Parameter[3] ={0};
++
++	if(bBalanceOn)
++	{
++		H2C_Parameter[2] = 1;
++		H2C_Parameter[1] = ms1;
++		H2C_Parameter[0] = ms0;
++	}
++	else
++	{
++		H2C_Parameter[2] = 0;
++		H2C_Parameter[1] = 0;
++		H2C_Parameter[0] = 0;
++	}
++	
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Balance=[%s:%dms:%dms], write 0xc=0x%x\n", 
++		bBalanceOn?"ON":"OFF", ms0, ms1,
++		H2C_Parameter[0]<<16|H2C_Parameter[1]<<8|H2C_Parameter[2]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0xc, 3, H2C_Parameter);	
++}
++
++VOID
++halbtc8188c2ant_Balance(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bBalanceOn,
++	IN	u1Byte			ms0,
++	IN	u1Byte			ms1
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn Balance %s\n", 
++		(bForceExec? "force to":""), (bBalanceOn? "ON":"OFF")));
++	pCoexDm->bCurBalanceOn = bBalanceOn;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreBalanceOn == pCoexDm->bCurBalanceOn)
++			return;
++	}
++	halbtc8188c2ant_SetFwBalance(pBtCoexist, bBalanceOn, ms0, ms1);
++
++	pCoexDm->bPreBalanceOn = pCoexDm->bCurBalanceOn;
++}
++
++VOID
++halbtc8188c2ant_SetFwDiminishWifi(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN 		bDacOn,
++	IN	BOOLEAN 		bInterruptOn,
++	IN	u1Byte			fwDacSwingLvl,
++	IN	BOOLEAN 		bNavOn
++	)
++{
++	u1Byte			H2C_Parameter[3] ={0};
++
++	if((pBtCoexist->stackInfo.minBtRssi <= -5) && (fwDacSwingLvl == 0x20))
++	{
++		RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], DiminishWiFi 0x20 original, but set 0x18 for Low RSSI!\n"));
++		fwDacSwingLvl = 0x18;
++	}
++
++	H2C_Parameter[2] = 0;
++	H2C_Parameter[1] = fwDacSwingLvl;
++	H2C_Parameter[0] = 0;
++	if(bDacOn)
++	{
++		H2C_Parameter[2] |= 0x01;	//BIT0
++		if(bInterruptOn)
++		{
++			H2C_Parameter[2] |= 0x02;	//BIT1
++		}
++	}
++	if(bNavOn)
++	{
++		H2C_Parameter[2] |= 0x08;	//BIT3
++	}
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], bDacOn=%s, bInterruptOn=%s, bNavOn=%s, write 0xe=0x%x\n", 
++		(bDacOn?"ON":"OFF"), (bInterruptOn?"ON":"OFF"), (bNavOn?"ON":"OFF"),
++		(H2C_Parameter[0]<<16|H2C_Parameter[1]<<8|H2C_Parameter[2])));
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0xe, 3, H2C_Parameter);
++}
++
++VOID
++halbtc8188c2ant_DiminishWifi(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bDacOn,
++	IN	BOOLEAN			bInterruptOn,
++	IN	u1Byte			fwDacSwingLvl,
++	IN	BOOLEAN			bNavOn
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s set Diminish Wifi, bDacOn=%s, bInterruptOn=%s, fwDacSwingLvl=%d, bNavOn=%s\n", 
++		(bForceExec? "force to":""), (bDacOn? "ON":"OFF"), (bInterruptOn? "ON":"OFF"), fwDacSwingLvl, (bNavOn? "ON":"OFF")));
++
++	pCoexDm->bCurDacOn = bDacOn;
++	pCoexDm->bCurInterruptOn = bInterruptOn;
++	pCoexDm->curFwDacSwingLvl = fwDacSwingLvl;
++	pCoexDm->bCurNavOn = bNavOn;
++
++	if(!bForceExec)
++	{
++		if( (pCoexDm->bPreDacOn==pCoexDm->bCurDacOn) &&
++			(pCoexDm->bPreInterruptOn==pCoexDm->bCurInterruptOn) &&
++			(pCoexDm->preFwDacSwingLvl==pCoexDm->curFwDacSwingLvl) &&
++			(pCoexDm->bPreNavOn==pCoexDm->bCurNavOn) )
++			return;
++	}
++	halbtc8188c2ant_SetFwDiminishWifi(pBtCoexist, bDacOn, bInterruptOn, fwDacSwingLvl, bNavOn);
++
++	pCoexDm->bPreDacOn = pCoexDm->bCurDacOn;
++	pCoexDm->bPreInterruptOn = pCoexDm->bCurInterruptOn;
++	pCoexDm->preFwDacSwingLvl = pCoexDm->curFwDacSwingLvl;
++	pCoexDm->bPreNavOn = pCoexDm->bCurNavOn;
++}
++
++VOID
++halbtc8188c2ant_SetSwRfRxLpfCorner(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bRxRfShrinkOn
++	)
++{
++	if(bRxRfShrinkOn)
++	{
++		//Shrink RF Rx LPF corner
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Shrink RF Rx LPF corner!!\n"));
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xf0, 0xf);		
++	}
++	else
++	{
++		//Resume RF Rx LPF corner
++		// After initialized, we can use pCoexDm->btRf0x1eBackup
++		if(pBtCoexist->bInitilized)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Resume RF Rx LPF corner!!\n"));
++			pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xf0, pCoexDm->btRf0x1eBackup);
++		}
++	}
++}
++
++VOID
++halbtc8188c2ant_RfShrink(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bRxRfShrinkOn
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn Rx RF Shrink = %s\n",  
++		(bForceExec? "force to":""), ((bRxRfShrinkOn)? "ON":"OFF")));
++	pCoexDm->bCurRfRxLpfShrink = bRxRfShrinkOn;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreRfRxLpfShrink == pCoexDm->bCurRfRxLpfShrink) 
++			return;
++	}
++	halbtc8188c2ant_SetSwRfRxLpfCorner(pBtCoexist, pCoexDm->bCurRfRxLpfShrink);
++
++	pCoexDm->bPreRfRxLpfShrink = pCoexDm->bCurRfRxLpfShrink;
++}
++
++VOID
++halbtc8188c2ant_SetSwPenaltyTxRateAdaptive(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bLowPenaltyRa
++	)
++{
++	u1Byte	tmpU1;
++
++	tmpU1 = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x4fd);
++	if(bLowPenaltyRa)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Tx rate adaptive, set low penalty!!\n"));
++		tmpU1 &= ~BIT2;
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Tx rate adaptive, set normal!!\n"));
++		tmpU1 |= BIT2;
++	}
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x4fd, tmpU1);
++}
++
++VOID
++halbtc8188c2ant_LowPenaltyRa(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bLowPenaltyRa
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn LowPenaltyRA = %s\n",  
++		(bForceExec? "force to":""), ((bLowPenaltyRa)? "ON":"OFF")));
++	pCoexDm->bCurLowPenaltyRa = bLowPenaltyRa;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreLowPenaltyRa == pCoexDm->bCurLowPenaltyRa) 
++			return;
++	}
++	halbtc8188c2ant_SetSwPenaltyTxRateAdaptive(pBtCoexist, pCoexDm->bCurLowPenaltyRa);
++
++	pCoexDm->bPreLowPenaltyRa = pCoexDm->bCurLowPenaltyRa;
++}
++
++VOID
++halbtc8188c2ant_SetSwFullTimeDacSwing(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bSwDacSwingOn,
++	IN	u4Byte			swDacSwingLvl
++	)
++{
++	u4Byte	dacSwingLvl;
++
++	if(bSwDacSwingOn)
++	{		
++		if((pBtCoexist->stackInfo.minBtRssi <= -5) && (swDacSwingLvl == 0x20))
++		{
++			dacSwingLvl = 0x18;
++		}
++		else
++		{
++			dacSwingLvl = swDacSwingLvl;
++		}
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x880, 0xfc000000, dacSwingLvl);
++	}
++	else
++	{
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x880, 0xfc000000, 0x30);
++	}
++}
++
++VOID
++halbtc8188c2ant_DacSwing(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bDacSwingOn,
++	IN	u4Byte			dacSwingLvl
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn DacSwing=%s, dacSwingLvl=0x%x\n",  
++		(bForceExec? "force to":""), ((bDacSwingOn)? "ON":"OFF"), dacSwingLvl));
++	pCoexDm->bCurDacSwingOn = bDacSwingOn;
++	pCoexDm->curDacSwingLvl = dacSwingLvl;
++
++	if(!bForceExec)
++	{
++		if( (pCoexDm->bPreDacSwingOn == pCoexDm->bCurDacSwingOn) &&
++			(pCoexDm->preDacSwingLvl == pCoexDm->curDacSwingLvl) )
++			return;
++	}
++	delay_ms(30);
++	halbtc8188c2ant_SetSwFullTimeDacSwing(pBtCoexist, bDacSwingOn, dacSwingLvl);
++
++	pCoexDm->bPreDacSwingOn = pCoexDm->bCurDacSwingOn;
++	pCoexDm->preDacSwingLvl = pCoexDm->curDacSwingLvl;
++}
++
++VOID
++halbtc8188c2ant_SetAdcBackOff(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bAdcBackOff
++	)
++{
++	if(bAdcBackOff)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BB BackOff Level On!\n"));
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc04,0x3a07611);
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BB BackOff Level Off!\n"));		
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc04,0x3a05611);
++	}
++}
++
++VOID
++halbtc8188c2ant_AdcBackOff(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bAdcBackOff
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn AdcBackOff = %s\n",  
++		(bForceExec? "force to":""), ((bAdcBackOff)? "ON":"OFF")));
++	pCoexDm->bCurAdcBackOff = bAdcBackOff;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreAdcBackOff == pCoexDm->bCurAdcBackOff) 
++			return;
++	}
++	halbtc8188c2ant_SetAdcBackOff(pBtCoexist, pCoexDm->bCurAdcBackOff);
++
++	pCoexDm->bPreAdcBackOff = pCoexDm->bCurAdcBackOff;
++}
++
++VOID
++halbtc8188c2ant_SetAgcTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bAgcTableEn
++	)
++{
++	u1Byte		rssiAdjustVal=0;
++
++	if(bAgcTableEn)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Agc Table On!\n"));
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4e1c0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4d1d0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4c1e0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4b1f0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4a200001);
++
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0xdc000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x90000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x51000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x12000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1a, 0xfffff, 0x00255);
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Agc Table Off!\n"));
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x641c0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x631d0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x621e0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x611f0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x60200001);
++
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x32000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x71000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0xb0000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0xfc000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1a, 0xfffff, 0x10255);
++	}
++
++	// set rssiAdjustVal for wifi module.
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_U1_RSSI_ADJ_VAL_FOR_AGC_TABLE_ON, &rssiAdjustVal);
++}
++
++
++VOID
++halbtc8188c2ant_AgcTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bAgcTableEn
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s %s Agc Table\n",  
++		(bForceExec? "force to":""), ((bAgcTableEn)? "Enable":"Disable")));
++	pCoexDm->bCurAgcTableEn = bAgcTableEn;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreAgcTableEn == pCoexDm->bCurAgcTableEn) 
++			return;
++	}
++	halbtc8188c2ant_SetAgcTable(pBtCoexist, bAgcTableEn);
++
++	pCoexDm->bPreAgcTableEn = pCoexDm->bCurAgcTableEn;
++}
++
++VOID
++halbtc8188c2ant_SetCoexTable(
++	IN	PBTC_COEXIST	pBtCoexist,
++	IN	u4Byte		val0x6c4,
++	IN	u4Byte		val0x6c8,
++	IN	u4Byte		val0x6cc
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], set coex table, set 0x6c4=0x%x\n", val0x6c4));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c4, val0x6c4);
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], set coex table, set 0x6c8=0x%x\n", val0x6c8));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c8, val0x6c8);
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], set coex table, set 0x6cc=0x%x\n", val0x6cc));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6cc, val0x6cc);
++}
++
++VOID
++halbtc8188c2ant_CoexTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	u4Byte			val0x6c4,
++	IN	u4Byte			val0x6c8,
++	IN	u4Byte			val0x6cc
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s write Coex Table 0x6c4=0x%x, 0x6c8=0x%x, 0x6cc=0x%x\n", 
++		(bForceExec? "force to":""), val0x6c4, val0x6c8, val0x6cc));
++	pCoexDm->curVal0x6c4 = val0x6c4;
++	pCoexDm->curVal0x6c8 = val0x6c8;
++	pCoexDm->curVal0x6cc = val0x6cc;
++
++	if(!bForceExec)
++	{	
++		if( (pCoexDm->preVal0x6c4 == pCoexDm->curVal0x6c4) &&
++			(pCoexDm->preVal0x6c8 == pCoexDm->curVal0x6c8) &&
++			(pCoexDm->preVal0x6cc == pCoexDm->curVal0x6cc) )
++			return;
++	}
++	halbtc8188c2ant_SetCoexTable(pBtCoexist, val0x6c4, val0x6c8, val0x6cc);
++
++	pCoexDm->preVal0x6c4 = pCoexDm->curVal0x6c4;
++	pCoexDm->preVal0x6c8 = pCoexDm->curVal0x6c8;
++	pCoexDm->preVal0x6cc = pCoexDm->curVal0x6cc;
++}
++
++VOID
++halbtc8188c2ant_CoexAllOff(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	// fw mechanism
++	halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++	halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++	// sw mechanism
++	halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++}
++VOID
++halbtc8188c2ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++}
++
++
++VOID
++halbtc8188c2ant_MonitorBtState(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	BOOLEAN			stateChange=FALSE;
++	u4Byte 			BT_Polling, Ratio_Act, Ratio_STA;
++	u4Byte 			BT_Active, BT_State;
++	u4Byte			regBTActive=0, regBTState=0, regBTPolling=0;
++	u4Byte			btBusyThresh=0;
++	u4Byte			fwVer=0;
++	static BOOLEAN	bBtBusyTraffic=FALSE;
++	BOOLEAN			bRejApAggPkt=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_FW_VER, &fwVer);
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], FirmwareVersion = 0x%x(%d)\n", fwVer, fwVer));
++	if(fwVer < 62)
++	{
++		regBTActive = 0x488;
++		regBTState = 0x48c;
++		regBTPolling = 0x490;
++	}
++	else
++	{
++		regBTActive = 0x444;
++		regBTState = 0x448;
++		if(fwVer >= 74)
++			regBTPolling = 0x44c;
++		else
++			regBTPolling = 0x700;
++	}
++	btBusyThresh = 60;
++	
++	BT_Active = pBtCoexist->fBtcRead4Byte(pBtCoexist, regBTActive);
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT_Active(0x%x)=0x%x\n", regBTActive, BT_Active));
++	BT_Active = BT_Active & 0x00ffffff;
++
++	BT_State = pBtCoexist->fBtcRead4Byte(pBtCoexist, regBTState);
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT_State(0x%x)=0x%x\n", regBTState, BT_State));
++	BT_State = BT_State & 0x00ffffff;
++
++	BT_Polling = pBtCoexist->fBtcRead4Byte(pBtCoexist, regBTPolling);
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT_Polling(0x%x)=0x%x\n", regBTPolling, BT_Polling));
++
++	if(BT_Active==0xffffffff && BT_State==0xffffffff && BT_Polling==0xffffffff )
++		return;
++
++	// 2011/05/04 MH For Slim combo test meet a problem. Surprise remove and WLAN is running
++	// DHCP process. At the same time, the register read value might be zero. And cause BSOD 0x7f
++	// EXCEPTION_DIVIDED_BY_ZERO. In This case, the stack content may always be wrong due to 
++	// HW divide trap.
++	if (BT_Polling==0)
++		return;
++	
++	Ratio_Act = BT_Active*1000/BT_Polling;
++	Ratio_STA = BT_State*1000/BT_Polling;
++		
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Ratio_Act=%d\n", Ratio_Act));
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Ratio_STA=%d\n", Ratio_STA));
++
++	if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		if(Ratio_STA < 60)	// BT PAN idle
++		{
++		}
++		else
++		{
++			// Check if BT PAN (under BT 2.1) is uplink or downlink
++			if((Ratio_Act/Ratio_STA) < 2)
++			{	// BT PAN Uplink
++				pCoexSta->bBtUplink = TRUE;
++			}
++			else
++			{	// BT PAN downlink
++				pCoexSta->bBtUplink = FALSE;
++			}
++		}
++	}	
++	
++	// Check BT is idle or not
++	if(!pBtCoexist->stackInfo.bBtLinkExist)
++	{
++		pCoexSta->bBtBusy = FALSE;
++	}
++	else
++	{
++		if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++		{
++			if(Ratio_Act<20)
++			{
++				pCoexSta->bBtBusy = FALSE;
++			}
++			else
++			{
++				pCoexSta->bBtBusy = TRUE;
++			}
++		}
++		else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++		{
++			if(Ratio_STA < btBusyThresh)
++			{
++				pCoexSta->bBtBusy = FALSE;
++			}
++			else
++			{
++				pCoexSta->bBtBusy = TRUE;
++			}
++
++			if( (Ratio_STA < btBusyThresh) ||
++				(Ratio_Act<180 && Ratio_STA<130) )
++			{
++				pCoexSta->bA2dpBusy = FALSE;
++			}
++			else
++			{
++				pCoexSta->bA2dpBusy = TRUE;
++			}
++		}
++	}
++
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &pCoexSta->bBtBusy);
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_LIMITED_DIG, &pCoexSta->bBtBusy);
++	
++	if(bBtBusyTraffic != pCoexSta->bBtBusy)
++	{	// BT idle or BT non-idle
++		bBtBusyTraffic = pCoexSta->bBtBusy;
++		stateChange = TRUE;
++	}
++
++	if(stateChange)
++	{
++		if(!pCoexSta->bBtBusy)
++		{
++			halbtc8188c2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_RfShrink(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_CoexAllOff(pBtCoexist);
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++		}
++		else
++		{
++			halbtc8188c2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8188c2ant_RfShrink(pBtCoexist, NORMAL_EXEC, TRUE);
++		}
++	}
++
++	if(stateChange)
++	{
++		bRejApAggPkt = pCoexSta->bBtBusy;
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT, &bRejApAggPkt);
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionA2dpBc4(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte			wifiRssiState;
++	u4Byte			wifiBw, wifiTrafficDir;
++
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++	
++	if(pCoexSta->bBtBusy)
++	{
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++		{
++			// fw mechanism first
++			if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0xc, 0x18);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x20, FALSE);
++			}
++			else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++			}
++
++			// sw mechanism 
++			halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++		}
++		else
++		{
++			wifiRssiState = halbtc8188c2ant_WifiRssiState(pBtCoexist, 0, 2, 47, 0);
++
++			if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0xc, 0x18);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x20, FALSE);
++			}
++			else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++			}
++
++			// sw mechanism 
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++			}
++			else
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++			}
++		}
++	}
++	else
++	{
++		halbtc8188c2ant_CoexAllOff(pBtCoexist);
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionA2dpBc8(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte			wifiRssiState;
++	u4Byte			wifiBw, wifiTrafficDir;
++	BOOLEAN			bWifiBusy=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++	if(pCoexSta->bA2dpBusy && bWifiBusy)
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++		wifiRssiState = halbtc8188c2ant_WifiRssiState(pBtCoexist, 0, 2, 47, 0);
++
++		// fw mechanism first
++		if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++		{
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0xc, 0x18);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++		}
++		else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++		{
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x10, 0x18);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++		}
++
++		// sw mechanism 
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++		{
++			halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++		else
++		{
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++			else
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++	}
++	else if(pCoexSta->bA2dpBusy)
++	{
++		// fw mechanism first
++		halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, TRUE, 0x18, FALSE);
++
++		// sw mechanism 
++		halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++	}
++	else
++	{
++		halbtc8188c2ant_CoexAllOff(pBtCoexist);
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionA2dp(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionA2dpBc4(pBtCoexist);
++	}
++	else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionA2dpBc8(pBtCoexist);
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionPanBc4(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++	if(bBtHsOn)
++	{
++		halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++	}
++	else
++	{
++		if(pCoexSta->bBtBusy && bWifiBusy)
++		{
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x10);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++		}
++		else
++		{
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++		}
++	}
++	// sw mechanism
++	halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++}
++
++VOID
++halbtc8188c2ant_ActionPanBc8(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u1Byte		wifiRssiState;
++	u4Byte		wifiBw, wifiTrafficDir;
++	s4Byte		wifiRssi;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_S4_WIFI_RSSI, &wifiRssi);
++	
++	if(bBtHsOn)
++	{
++		halbtc8188c2ant_CoexAllOff(pBtCoexist);
++	}
++	else
++	{
++		wifiRssiState = halbtc8188c2ant_WifiRssiState(pBtCoexist, 0, 3, 25, 50);
++
++		if(pCoexSta->bBtBusy && bWifiBusy)
++		{
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				// fw mechanism first
++				if(pCoexSta->bBtUplink)
++				{
++					halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x20);
++					halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++				}
++				else
++				{
++					halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++					halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++				}
++				// sw mechanism 
++				if(BTC_WIFI_BW_HT40 == wifiBw)
++				{
++					halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				}
++				else
++				{
++					halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				}
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				if(pCoexSta->bBtUplink)
++				{
++					halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++				else
++				{
++					halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++				}
++			}
++			else if( (wifiRssiState == BTC_RSSI_STATE_MEDIUM) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_MEDIUM) )
++			{
++				// fw mechanism first
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x20);
++
++				if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++				{
++					halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++				}
++				else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++				{
++					if(BTC_WIFI_BW_HT40 == wifiBw)
++						halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);//BT_FW_NAV_ON);
++					else
++						halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++				}
++				// sw mechanism 
++				if(BTC_WIFI_BW_HT40 == wifiBw)
++				{
++					halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				}
++				else
++				{
++					halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				}
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++			else
++			{
++				// fw mechanism first
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x20);
++				
++				if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++				{
++					halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++				}
++				else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++				{
++					if(pCoexSta->bBtUplink)
++					{
++						if(BTC_WIFI_BW_HT40 == wifiBw)
++						{
++							halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);//BT_FW_NAV_ON);
++						}
++						else
++						{
++							halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++						}						
++					}
++					else
++					{
++						halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++					}
++				}
++				// sw mechanism 
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++		else if(pCoexSta->bBtBusy && !bWifiBusy && (wifiRssi < 30))
++		{
++			// fw mechanism first
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x0a, 0x20);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++			// sw mechanism 
++			halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++		else
++		{
++			halbtc8188c2ant_CoexAllOff(pBtCoexist);
++		}
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionPan(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionPanBc4(pBtCoexist);
++	}
++	else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionPanBc8(pBtCoexist);
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionHid(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u4Byte		wifiBw, wifiTrafficDir;
++	BOOLEAN 	bWifiBusy=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++	if(BTC_WIFI_BW_LEGACY == wifiBw)
++	{
++		halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++
++		halbtc8188c2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++		pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++	}
++	else if(!bWifiBusy)
++	{
++		pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++		halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++	}
++	else if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++	{
++		halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++
++		halbtc8188c2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++		pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++	}
++	else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++	{
++		pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++		halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++	}
++	// sw mechanism
++	halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++}
++
++
++VOID
++halbtc8188c2ant_ActionSco(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte	wifiRssiState;
++	u4Byte	wifiBw;
++
++	if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++	{
++		pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++		
++		// fw mechanism
++		halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++
++		// sw mechanism
++		halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++	}
++	else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++		{
++			// fw mechanism first
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++			// sw mechanism 
++			halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++		else
++		{
++			wifiRssiState = halbtc8188c2ant_WifiRssiState(pBtCoexist, 0, 2, 47, 0);
++			// fw mechanism first
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++			// sw mechanism 
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++			else
++			{			
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);	
++			}
++		}
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionHidA2dpBc4(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState;
++	u4Byte		wifiBw, wifiTrafficDir;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++
++	if(pCoexSta->bBtBusy)
++	{
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++		{
++			// fw mechanism first
++			if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x7, 0x20);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x20, FALSE);
++			}
++			else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++			}
++
++			// sw mechanism 
++			halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++		}
++		else
++		{
++			wifiRssiState = halbtc8188c2ant_WifiRssiState(pBtCoexist, 0, 2, 47, 0);
++			// fw mechanism first
++			if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x7, 0x20);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x20, FALSE);
++			}
++			else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++			}
++
++			// sw mechanism 
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++			else
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++		}
++	}
++	else
++	{
++		halbtc8188c2ant_CoexAllOff(pBtCoexist);
++	}
++}
++VOID
++halbtc8188c2ant_ActionHidA2dpBc8(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState;
++	u4Byte		wifiBw;
++	
++	if(pCoexSta->bBtBusy)
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++		{
++			// fw mechanism first
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++			// sw mechanism 
++			halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++		}
++		else
++		{
++			wifiRssiState = halbtc8188c2ant_WifiRssiState(pBtCoexist, 0, 2, 47, 0);
++			// fw mechanism
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++			// sw mechanism 
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++			else
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++		}
++	}
++	else
++	{
++		halbtc8188c2ant_CoexAllOff(pBtCoexist);
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionHidA2dp(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionHidA2dpBc4(pBtCoexist);
++	}
++	else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionHidA2dpBc8(pBtCoexist);
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionHidPanBc4(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u4Byte		wifiBw, wifiTrafficDir;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++	
++	if(bBtHsOn)
++	{	
++		halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++
++		halbtc8188c2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++		pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++	}
++	else
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++		if(BTC_WIFI_BW_LEGACY == wifiBw)
++		{
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++
++			halbtc8188c2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++		}
++		else if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++		{
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++			
++			halbtc8188c2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++		}
++		else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++		{
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x10);					
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++		}
++		else if(!bWifiBusy)
++		{
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++		}			
++	}
++	halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++}
++VOID
++halbtc8188c2ant_ActionHidPanBc8(	
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u1Byte		wifiRssiState;
++	u4Byte		wifiBw, wifiTrafficDir;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++
++	if(!bBtHsOn)
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++		wifiRssiState = halbtc8188c2ant_WifiRssiState(pBtCoexist, 0, 2, 25, 0);
++		if((pCoexSta->bBtBusy && bWifiBusy))
++		{
++			// fw mechanism first
++			if(pCoexSta->bBtUplink)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x15, 0x20);
++			}
++			else
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x10, 0x20);
++			}
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++
++			// sw mechanism 
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++				if(BTC_WIFI_BW_HT40 == wifiBw)
++				{
++					halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++					halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++				else
++				{
++					halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++			}
++			else
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++		else
++		{
++			halbtc8188c2ant_CoexAllOff(pBtCoexist);
++		}
++	}
++	else
++	{
++		if(BTC_INTF_USB == pBtCoexist->chipInterface)
++		{	
++			pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++			if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++
++				halbtc8188c2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++				pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++			else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++		}
++		else 
++		{
++			if(pCoexSta->bBtBusy)
++			{
++				// fw mechanism
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++				// sw mechanism
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++			}
++			else
++			{
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionHidPan(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{		
++	if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionHidPanBc4(pBtCoexist);
++	}
++	else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionHidPanBc8(pBtCoexist);
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionPanA2dpBc4(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u1Byte		wifiRssiState;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++	if(bBtHsOn)
++	{
++		if(pCoexSta->bBtBusy)
++		{
++			// fw mechanism
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++			// sw mechanism
++			halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++		}
++		else
++		{
++			halbtc8188c2ant_CoexAllOff(pBtCoexist);
++		}
++	}
++	else
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++		if(pCoexSta->bBtBusy && bWifiBusy)
++		{
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x10);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++		}
++		else
++		{
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++		}			
++		// sw mechanism
++		halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++	}
++}
++VOID
++halbtc8188c2ant_ActionPanA2dpBc8(	
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u1Byte		wifiRssiState;
++	u4Byte		wifiBw;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++
++	if(!bBtHsOn)
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++		wifiRssiState = halbtc8188c2ant_WifiRssiState(pBtCoexist, 0, 2, 25, 0);
++		if((pCoexSta->bBtBusy && bWifiBusy))
++		{
++			// fw mechanism first
++			if(pCoexSta->bBtUplink)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x15, 0x20);
++			}
++			else
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x10, 0x20);
++			}
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++
++			// sw mechanism 
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++				if(BTC_WIFI_BW_HT40 == wifiBw)
++				{
++					halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++					halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++				else	
++				{
++					halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++			}
++			else
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++		else
++		{
++			halbtc8188c2ant_CoexAllOff(pBtCoexist);
++		}
++	}
++	else
++	{
++		if(pCoexSta->bBtBusy)
++		{
++			// fw mechanism
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++			// sw mechanism			
++			halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++		}
++		else
++		{
++			halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionPanA2dp(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionPanA2dpBc4(pBtCoexist);
++	}
++	else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionPanA2dpBc8(pBtCoexist);
++	}
++}
++
++//============================================================
++// extern function start with EXhalbtc8188c2ant_
++//============================================================
++VOID
++EXhalbtc8188c2ant_PowerOnSetting(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++}
++
++VOID
++EXhalbtc8188c2ant_InitHwConfig(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN				bWifiOnly
++	)
++{
++	u1Byte	u1Tmp=0;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 2Ant Init HW Config!!\n"));
++
++	// backup rf 0x1e value
++	pCoexDm->btRf0x1eBackup = 
++		pBtCoexist->fBtcGetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xf0);
++
++	if( (BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType) ||
++		(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType) )
++	{
++		u1Tmp = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x4fd) & BIT0;
++		pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x4fd, u1Tmp);
++		
++		halbtc8188c2ant_CoexTable(pBtCoexist, FORCE_EXEC, 0xaaaa9aaa, 0xffbd0040, 0x40000010);
++	}
++}
++
++VOID
++EXhalbtc8188c2ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Coex Mechanism Init!!\n"));
++	
++	halbtc8188c2ant_InitCoexDm(pBtCoexist);
++}
++
++VOID
++EXhalbtc8188c2ant_DisplayCoexInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	PBTC_BOARD_INFO		pBoardInfo=&pBtCoexist->boardInfo;
++	PBTC_STACK_INFO		pStackInfo=&pBtCoexist->stackInfo;
++	pu1Byte				cliBuf=pBtCoexist->cliBuf;
++	u1Byte				u1Tmp[4], i, btInfoExt, psTdmaCase=0;
++	u4Byte				u4Tmp[4];
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ", "Ant PG number/ Ant mechanism:", \
++		pBoardInfo->pgAntNum, pBoardInfo->btdmAntNum);
++	CL_PRINTF(cliBuf);	
++	
++	if(pBtCoexist->bManualControl)
++	{
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "[Action Manual control]!!");
++		CL_PRINTF(cliBuf);
++	}
++	
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %d", "BT stack/ hci ext ver", \
++		((pStackInfo->bProfileNotified)? "Yes":"No"), pStackInfo->hciVersion);
++	CL_PRINTF(cliBuf);
++	
++	// wifi status
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Wifi Status]============");
++	CL_PRINTF(cliBuf);
++	pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[BT Status]============");
++	CL_PRINTF(cliBuf);
++	
++	if(pStackInfo->bProfileNotified)
++	{			
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d", "SCO/HID/PAN/A2DP", \
++			pStackInfo->bScoExist, pStackInfo->bHidExist, pStackInfo->bPanExist, pStackInfo->bA2dpExist);
++		CL_PRINTF(cliBuf);	
++
++		pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_BT_LINK_INFO);
++	}
++	
++	// Sw mechanism	
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Sw mechanism]============");
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d(0x%x) ", "SM2[AgcT/ AdcB/ SwDacSwing(lvl)]", \
++		pCoexDm->bCurAgcTableEn, pCoexDm->bCurAdcBackOff, pCoexDm->bCurDacSwingOn, pCoexDm->curDacSwingLvl);
++	CL_PRINTF(cliBuf);
++
++	// Fw mechanism		
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Fw mechanism]============");
++	CL_PRINTF(cliBuf);
++
++	// Hw setting		
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Hw setting]============");
++	CL_PRINTF(cliBuf);	
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "RF-A, 0x1e initVal", \
++		pCoexDm->btRf0x1eBackup);
++	CL_PRINTF(cliBuf);
++
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x40);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x40", \
++		u1Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xc50);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0xc50(dig)", \
++		u4Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c4);
++	u4Tmp[1] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c8);
++	u4Tmp[2] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6cc);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x", "0x6c4/0x6c8/0x6cc(coexTable)", \
++		u4Tmp[0], u4Tmp[1], u4Tmp[2]);
++	CL_PRINTF(cliBuf);
++
++	pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++VOID
++EXhalbtc8188c2ant_IpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_IPS_ENTER == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], IPS ENTER notify\n"));
++		halbtc8188c2ant_CoexAllOff(pBtCoexist);
++	}
++	else if(BTC_IPS_LEAVE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], IPS LEAVE notify\n"));
++		//halbtc8188c2ant_InitCoexDm(pBtCoexist);
++	}
++}
++
++VOID
++EXhalbtc8188c2ant_LpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_LPS_ENABLE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], LPS ENABLE notify\n"));
++		halbtc8188c2ant_CoexAllOff(pBtCoexist);
++	}
++	else if(BTC_LPS_DISABLE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], LPS DISABLE notify\n"));
++		halbtc8188c2ant_InitCoexDm(pBtCoexist);
++	}
++}
++
++VOID
++EXhalbtc8188c2ant_ScanNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_SCAN_START == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCAN START notify\n"));
++	}
++	else if(BTC_SCAN_FINISH == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCAN FINISH notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8188c2ant_ConnectNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_ASSOCIATE_START == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], CONNECT START notify\n"));
++	}
++	else if(BTC_ASSOCIATE_FINISH == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], CONNECT FINISH notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8188c2ant_MediaStatusNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{	
++	if(BTC_MEDIA_CONNECT == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], MEDIA connect notify\n"));
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], MEDIA disconnect notify\n"));
++	}
++	
++}
++
++VOID
++EXhalbtc8188c2ant_SpecialPacketNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{
++	if(type == BTC_PACKET_DHCP)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], DHCP Packet notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8188c2ant_BtInfoNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	pu1Byte			tmpBuf,
++	IN	u1Byte			length
++	)
++{
++}
++
++VOID
++EXhalbtc8188c2ant_HaltNotify(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Halt notify\n"));
++
++	EXhalbtc8188c2ant_MediaStatusNotify(pBtCoexist, BTC_MEDIA_DISCONNECT);
++}
++
++VOID
++EXhalbtc8188c2ant_Periodical(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	u1Byte	algorithm;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 2Ant Periodical!!\n"));
++
++	// NOTE:
++	// sw mechanism must be done after fw mechanism
++	// 
++
++	if((BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType) ||
++		(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType) )
++	{
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_GET_BT_RSSI, NULL);
++
++		halbtc8188c2ant_MonitorBtState(pBtCoexist);
++		algorithm = halbtc8188c2ant_ActionAlgorithm(pBtCoexist);	
++		pCoexDm->curAlgorithm = algorithm;
++		switch(pCoexDm->curAlgorithm)
++		{
++			case BT_8188C_2ANT_COEX_ALGO_SCO:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = SCO\n"));
++				halbtc8188c2ant_ActionSco(pBtCoexist);
++				break;
++			case BT_8188C_2ANT_COEX_ALGO_HID:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = HID\n"));
++				halbtc8188c2ant_ActionHid(pBtCoexist);
++				break;
++			case BT_8188C_2ANT_COEX_ALGO_A2DP:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = A2DP\n"));
++				halbtc8188c2ant_ActionA2dp(pBtCoexist);
++				break;
++			case BT_8188C_2ANT_COEX_ALGO_PAN:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = PAN\n"));
++				halbtc8188c2ant_ActionPan(pBtCoexist);
++				break;
++			case BT_8188C_2ANT_COEX_ALGO_HID_A2DP:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = HID+A2DP\n"));
++				halbtc8188c2ant_ActionHidA2dp(pBtCoexist);
++				break;
++			case BT_8188C_2ANT_COEX_ALGO_HID_PAN:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = PAN+HID\n"));
++				halbtc8188c2ant_ActionHidPan(pBtCoexist);
++				break;
++			case BT_8188C_2ANT_COEX_ALGO_PAN_A2DP:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = PAN+A2DP\n"));
++				halbtc8188c2ant_ActionPanA2dp(pBtCoexist);
++				break;
++			default:
++				break;
++		}
++	}
++}
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8188c2Ant.h b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8188c2Ant.h
+new file mode 100644
+index 0000000..ce7ec56
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8188c2Ant.h
+@@ -0,0 +1,149 @@
++//===========================================
++// The following is for 8188C 2Ant BT Co-exist definition
++//===========================================
++#define		BTC_RSSI_COEX_THRESH_TOL_8188C_2ANT		6
++
++typedef enum _BT_INFO_SRC_8188C_2ANT{
++	BT_INFO_SRC_8188C_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8188C_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8188C_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8188C_2ANT_MAX
++}BT_INFO_SRC_8188C_2ANT,*PBT_INFO_SRC_8188C_2ANT;
++
++typedef enum _BT_8188C_2ANT_BT_STATUS{
++	BT_8188C_2ANT_BT_STATUS_IDLE				= 0x0,
++	BT_8188C_2ANT_BT_STATUS_CONNECTED_IDLE	= 0x1,
++	BT_8188C_2ANT_BT_STATUS_NON_IDLE			= 0x2,
++	BT_8188C_2ANT_BT_STATUS_MAX
++}BT_8188C_2ANT_BT_STATUS,*PBT_8188C_2ANT_BT_STATUS;
++
++typedef enum _BT_8188C_2ANT_COEX_ALGO{
++	BT_8188C_2ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8188C_2ANT_COEX_ALGO_SCO					= 0x1,
++	BT_8188C_2ANT_COEX_ALGO_HID					= 0x2,
++	BT_8188C_2ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8188C_2ANT_COEX_ALGO_PAN					= 0x4,
++	BT_8188C_2ANT_COEX_ALGO_HID_A2DP			= 0x5,
++	BT_8188C_2ANT_COEX_ALGO_HID_PAN				= 0x6,
++	BT_8188C_2ANT_COEX_ALGO_PAN_A2DP			= 0x7,
++	BT_8188C_2ANT_COEX_ALGO_MAX
++}BT_8188C_2ANT_COEX_ALGO,*PBT_8188C_2ANT_COEX_ALGO;
++
++typedef struct _COEX_DM_8188C_2ANT{
++	// fw mechanism
++	BOOLEAN		bPreBalanceOn;
++	BOOLEAN		bCurBalanceOn;
++
++	// diminishWifi
++	BOOLEAN		bPreDacOn;
++	BOOLEAN		bCurDacOn;
++	BOOLEAN 	bPreInterruptOn;
++	BOOLEAN		bCurInterruptOn;
++	u1Byte		preFwDacSwingLvl;
++	u1Byte		curFwDacSwingLvl;
++	BOOLEAN 	bPreNavOn;
++	BOOLEAN		bCurNavOn;
++
++	// sw mechanism
++	BOOLEAN		bPreRfRxLpfShrink;
++	BOOLEAN		bCurRfRxLpfShrink;
++	u4Byte		btRf0x1eBackup;
++	BOOLEAN 	bPreLowPenaltyRa;
++	BOOLEAN		bCurLowPenaltyRa;
++	BOOLEAN		bPreDacSwingOn;
++	u4Byte		preDacSwingLvl;
++	BOOLEAN		bCurDacSwingOn;
++	u4Byte		curDacSwingLvl;
++	BOOLEAN		bPreAdcBackOff;
++	BOOLEAN		bCurAdcBackOff;
++	BOOLEAN 	bPreAgcTableEn;
++	BOOLEAN		bCurAgcTableEn;
++	//u4Byte		preVal0x6c0;
++	//u4Byte		curVal0x6c0;
++	u4Byte		preVal0x6c4;
++	u4Byte		curVal0x6c4;
++	u4Byte		preVal0x6c8;
++	u4Byte		curVal0x6c8;
++	u4Byte		preVal0x6cc;
++	u4Byte		curVal0x6cc;
++	//BOOLEAN		bLimitedDig;
++
++	// algorithm related
++	u1Byte		preAlgorithm;
++	u1Byte		curAlgorithm;
++	//u1Byte		btStatus;
++	//u1Byte		wifiChnlInfo[3];
++} COEX_DM_8188C_2ANT, *PCOEX_DM_8188C_2ANT;
++
++typedef struct _COEX_STA_8188C_2ANT{
++	u1Byte					preWifiRssiState[4];
++	BOOLEAN					bBtBusy;
++	BOOLEAN					bBtUplink;
++	BOOLEAN					bBtDownLink;
++	BOOLEAN					bA2dpBusy;
++}COEX_STA_8188C_2ANT, *PCOEX_STA_8188C_2ANT;
++
++//===========================================
++// The following is interface which will notify coex module.
++//===========================================
++VOID
++EXhalbtc8188c2ant_PowerOnSetting(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtc8188c2ant_InitHwConfig(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN				bWifiOnly
++	);
++VOID
++EXhalbtc8188c2ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtc8188c2ant_IpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8188c2ant_LpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8188c2ant_ScanNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8188c2ant_ConnectNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8188c2ant_MediaStatusNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	);
++VOID
++EXhalbtc8188c2ant_SpecialPacketNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	);
++VOID
++EXhalbtc8188c2ant_HaltNotify(
++	IN	PBTC_COEXIST			pBtCoexist
++	);
++VOID
++EXhalbtc8188c2ant_Periodical(
++	IN	PBTC_COEXIST			pBtCoexist
++	);
++VOID
++EXhalbtc8188c2ant_BtInfoNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	pu1Byte			tmpBuf,
++	IN	u1Byte			length
++	);
++VOID
++EXhalbtc8188c2ant_DisplayCoexInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8192d2Ant.c b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8192d2Ant.c
+new file mode 100644
+index 0000000..239c073
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8192d2Ant.c
+@@ -0,0 +1,1992 @@
++//============================================================
++// Description:
++//
++// This file is for 92D BT 2 Antenna Co-exist mechanism
++//
++// By cosa 02/11/2011
++//
++//============================================================
++
++//============================================================
++// include files
++//============================================================
++#include "Mp_Precomp.h"
++
++#if WPP_SOFTWARE_TRACE
++#include "HalBtc8192d2Ant.tmh"
++#endif
++
++#if(BT_30_SUPPORT == 1)
++//============================================================
++// Global variables, these are static variables
++//============================================================
++static COEX_DM_8192D_2ANT	GLCoexDm8192d2Ant;
++static PCOEX_DM_8192D_2ANT 	pCoexDm=&GLCoexDm8192d2Ant;
++static COEX_STA_8192D_2ANT	GLCoexSta8192d2Ant;
++static PCOEX_STA_8192D_2ANT	pCoexSta=&GLCoexSta8192d2Ant;
++
++//============================================================
++// local function start with btdm_
++//============================================================
++u1Byte
++halbtc8192d2ant_WifiRssiState(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			index,
++	IN	u1Byte			levelNum,
++	IN	u1Byte			rssiThresh,
++	IN	u1Byte			rssiThresh1
++	)
++{
++	s4Byte			wifiRssi=0;
++	u1Byte			wifiRssiState=pCoexSta->preWifiRssiState[index];
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_S4_WIFI_RSSI, &wifiRssi);
++	
++	if(levelNum == 2)
++	{
++		if( (pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_LOW) ||
++			(pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_STAY_LOW))
++		{
++			if(wifiRssi >= (rssiThresh+BTC_RSSI_COEX_THRESH_TOL_8192D_2ANT))
++			{
++				wifiRssiState = BTC_RSSI_STATE_HIGH;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_LOW;
++			}
++		}
++		else
++		{
++			if(wifiRssi < rssiThresh)
++			{
++				wifiRssiState = BTC_RSSI_STATE_LOW;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_HIGH;
++			}
++		}
++	}
++	else if(levelNum == 3)
++	{
++		if(rssiThresh > rssiThresh1)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], wifi RSSI thresh error!!\n"));
++			return pCoexSta->preWifiRssiState[index];
++		}
++		
++		if( (pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_LOW) ||
++			(pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_STAY_LOW))
++		{
++			if(wifiRssi >= (rssiThresh+BTC_RSSI_COEX_THRESH_TOL_8192D_2ANT))
++			{
++				wifiRssiState = BTC_RSSI_STATE_MEDIUM;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_LOW;
++			}
++		}
++		else if( (pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_MEDIUM) ||
++			(pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_STAY_MEDIUM))
++		{
++			if(wifiRssi >= (rssiThresh1+BTC_RSSI_COEX_THRESH_TOL_8192D_2ANT))
++			{
++				wifiRssiState = BTC_RSSI_STATE_HIGH;
++			}
++			else if(wifiRssi < rssiThresh)
++			{
++				wifiRssiState = BTC_RSSI_STATE_LOW;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_MEDIUM;
++			}
++		}
++		else
++		{
++			if(wifiRssi < rssiThresh1)
++			{
++				wifiRssiState = BTC_RSSI_STATE_MEDIUM;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_HIGH;
++			}
++		}
++	}
++		
++	pCoexSta->preWifiRssiState[index] = wifiRssiState;
++
++	return wifiRssiState;
++}
++
++u1Byte
++halbtc8192d2ant_ActionAlgorithm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	PBTC_STACK_INFO		pStackInfo=&pBtCoexist->stackInfo;
++	BOOLEAN				bBtHsOn=FALSE;
++	u1Byte				algorithm=BT_8192D_2ANT_COEX_ALGO_UNDEFINED;
++	u1Byte				numOfDiffProfile=0;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++	
++	if(!pStackInfo->bBtLinkExist)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], No profile exists!!!\n"));
++		return algorithm;
++	}
++
++	if(pStackInfo->bScoExist)
++		numOfDiffProfile++;
++	if(pStackInfo->bHidExist)
++		numOfDiffProfile++;
++	if(pStackInfo->bPanExist)
++		numOfDiffProfile++;
++	if(pStackInfo->bA2dpExist)
++		numOfDiffProfile++;
++
++	if(pStackInfo->bScoExist)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO algorithm\n"));
++		algorithm = BT_8192D_2ANT_COEX_ALGO_SCO;
++	}
++	else
++	{
++		if(numOfDiffProfile == 1)
++		{
++			if(pStackInfo->bHidExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID only\n"));
++				algorithm = BT_8192D_2ANT_COEX_ALGO_HID;
++			}
++			else if(pStackInfo->bA2dpExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], A2DP only\n"));
++				algorithm = BT_8192D_2ANT_COEX_ALGO_A2DP;
++			}
++			else if(pStackInfo->bPanExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN only\n"));
++				algorithm = BT_8192D_2ANT_COEX_ALGO_PAN;
++			}
++		}
++		else
++		{
++			if( pStackInfo->bHidExist &&
++				pStackInfo->bA2dpExist )
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID + A2DP\n"));
++				algorithm = BT_8192D_2ANT_COEX_ALGO_HID_A2DP;
++			}
++			else if( pStackInfo->bHidExist &&
++				pStackInfo->bPanExist )
++			{				
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID + PAN\n"));
++				algorithm = BT_8192D_2ANT_COEX_ALGO_HID_PAN;
++			}
++			else if( pStackInfo->bPanExist &&
++				pStackInfo->bA2dpExist )
++			{				
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN + A2DP\n"));
++				algorithm = BT_8192D_2ANT_COEX_ALGO_PAN_A2DP;
++			}
++		}		
++	}
++	return algorithm;
++}
++
++VOID
++halbtc8192d2ant_SetFwBalance(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bBalanceOn,
++	IN	u1Byte			ms0,
++	IN	u1Byte			ms1
++	)
++{
++	u1Byte	H2C_Parameter[3] ={0};
++
++	if(bBalanceOn)
++	{
++		H2C_Parameter[2] = 1;
++		H2C_Parameter[1] = ms1;
++		H2C_Parameter[0] = ms0;
++	}
++	else
++	{
++		H2C_Parameter[2] = 0;
++		H2C_Parameter[1] = 0;
++		H2C_Parameter[0] = 0;
++	}
++	
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Balance=[%s:%dms:%dms], write 0xc=0x%x\n", 
++		bBalanceOn?"ON":"OFF", ms0, ms1,
++		H2C_Parameter[0]<<16|H2C_Parameter[1]<<8|H2C_Parameter[2]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0xc, 3, H2C_Parameter);	
++}
++
++VOID
++halbtc8192d2ant_Balance(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bBalanceOn,
++	IN	u1Byte			ms0,
++	IN	u1Byte			ms1
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn Balance %s\n", 
++		(bForceExec? "force to":""), (bBalanceOn? "ON":"OFF")));
++	pCoexDm->bCurBalanceOn = bBalanceOn;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreBalanceOn == pCoexDm->bCurBalanceOn)
++			return;
++	}
++	halbtc8192d2ant_SetFwBalance(pBtCoexist, bBalanceOn, ms0, ms1);
++
++	pCoexDm->bPreBalanceOn = pCoexDm->bCurBalanceOn;
++}
++
++VOID
++halbtc8192d2ant_SetFwDiminishWifi(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN 		bDacOn,
++	IN	BOOLEAN 		bInterruptOn,
++	IN	u1Byte			fwDacSwingLvl,
++	IN	BOOLEAN 		bNavOn
++	)
++{
++	u1Byte			H2C_Parameter[3] ={0};
++
++	if((pBtCoexist->stackInfo.minBtRssi <= -5) && (fwDacSwingLvl == 0x20))
++	{
++		RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], DiminishWiFi 0x20 original, but set 0x18 for Low RSSI!\n"));
++		fwDacSwingLvl = 0x18;
++	}
++
++	H2C_Parameter[2] = 0;
++	H2C_Parameter[1] = fwDacSwingLvl;
++	H2C_Parameter[0] = 0;
++	if(bDacOn)
++	{
++		H2C_Parameter[2] |= 0x01;	//BIT0
++		if(bInterruptOn)
++		{
++			H2C_Parameter[2] |= 0x02;	//BIT1
++		}
++	}
++	if(bNavOn)
++	{
++		H2C_Parameter[2] |= 0x08;	//BIT3
++	}
++		
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], bDacOn=%s, bInterruptOn=%s, bNavOn=%s, write 0x12=0x%x\n", 
++		(bDacOn?"ON":"OFF"), (bInterruptOn?"ON":"OFF"), (bNavOn?"ON":"OFF"),
++		(H2C_Parameter[0]<<16|H2C_Parameter[1]<<8|H2C_Parameter[2])));		
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x12, 3, H2C_Parameter);
++}
++
++
++VOID
++halbtc8192d2ant_DiminishWifi(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bDacOn,
++	IN	BOOLEAN			bInterruptOn,
++	IN	u1Byte			fwDacSwingLvl,
++	IN	BOOLEAN			bNavOn
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s set Diminish Wifi, bDacOn=%s, bInterruptOn=%s, fwDacSwingLvl=%d, bNavOn=%s\n", 
++		(bForceExec? "force to":""), (bDacOn? "ON":"OFF"), (bInterruptOn? "ON":"OFF"), fwDacSwingLvl, (bNavOn? "ON":"OFF")));
++
++	pCoexDm->bCurDacOn = bDacOn;
++	pCoexDm->bCurInterruptOn = bInterruptOn;
++	pCoexDm->curFwDacSwingLvl = fwDacSwingLvl;
++	pCoexDm->bCurNavOn = bNavOn;
++
++	if(!bForceExec)
++	{
++		if( (pCoexDm->bPreDacOn==pCoexDm->bCurDacOn) &&
++			(pCoexDm->bPreInterruptOn==pCoexDm->bCurInterruptOn) &&
++			(pCoexDm->preFwDacSwingLvl==pCoexDm->curFwDacSwingLvl) &&
++			(pCoexDm->bPreNavOn==pCoexDm->bCurNavOn) )
++			return;
++	}
++	halbtc8192d2ant_SetFwDiminishWifi(pBtCoexist, bDacOn, bInterruptOn, fwDacSwingLvl, bNavOn);
++
++	pCoexDm->bPreDacOn = pCoexDm->bCurDacOn;
++	pCoexDm->bPreInterruptOn = pCoexDm->bCurInterruptOn;
++	pCoexDm->preFwDacSwingLvl = pCoexDm->curFwDacSwingLvl;
++	pCoexDm->bPreNavOn = pCoexDm->bCurNavOn;
++}
++
++VOID
++halbtc8192d2ant_SetSwRfRxLpfCorner(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bRxRfShrinkOn
++	)
++{
++	if(bRxRfShrinkOn)
++	{
++		//Shrink RF Rx LPF corner
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Shrink RF Rx LPF corner!!\n"));
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xfffff, 0xf2ff7);
++	}
++	else
++	{
++		//Resume RF Rx LPF corner
++		// After initialized, we can use pCoexDm->btRf0x1eBackup
++		if(pBtCoexist->bInitilized)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Resume RF Rx LPF corner!!\n"));
++			pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xfffff, pCoexDm->btRf0x1eBackup);
++		}
++	}
++}
++
++
++VOID
++halbtc8192d2ant_RfShrink(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bRxRfShrinkOn
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn Rx RF Shrink = %s\n",  
++		(bForceExec? "force to":""), ((bRxRfShrinkOn)? "ON":"OFF")));
++	pCoexDm->bCurRfRxLpfShrink = bRxRfShrinkOn;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreRfRxLpfShrink == pCoexDm->bCurRfRxLpfShrink) 
++			return;
++	}
++	halbtc8192d2ant_SetSwRfRxLpfCorner(pBtCoexist, pCoexDm->bCurRfRxLpfShrink);
++
++	pCoexDm->bPreRfRxLpfShrink = pCoexDm->bCurRfRxLpfShrink;
++}
++
++VOID
++halbtc8192d2ant_SetSwPenaltyTxRateAdaptive(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bLowPenaltyRa
++	)
++{
++	u1Byte	tmpU1;
++
++	tmpU1 = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x4fd);
++	if(bLowPenaltyRa)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Tx rate adaptive, set low penalty!!\n"));
++		tmpU1 &= ~BIT2;
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Tx rate adaptive, set normal!!\n"));
++		tmpU1 |= BIT2;
++	}
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x4fd, tmpU1);
++}
++
++VOID
++halbtc8192d2ant_LowPenaltyRa(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bLowPenaltyRa
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn LowPenaltyRA = %s\n",  
++		(bForceExec? "force to":""), ((bLowPenaltyRa)? "ON":"OFF")));
++	pCoexDm->bCurLowPenaltyRa = bLowPenaltyRa;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreLowPenaltyRa == pCoexDm->bCurLowPenaltyRa) 
++			return;
++	}
++	halbtc8192d2ant_SetSwPenaltyTxRateAdaptive(pBtCoexist, pCoexDm->bCurLowPenaltyRa);
++
++	pCoexDm->bPreLowPenaltyRa = pCoexDm->bCurLowPenaltyRa;
++}
++
++VOID
++halbtc8192d2ant_SetSwFullTimeDacSwing(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bSwDacSwingOn,
++	IN	u4Byte			swDacSwingLvl
++	)
++{
++	u4Byte	dacSwingLvl;
++
++	if(bSwDacSwingOn)
++	{		
++		if((pBtCoexist->stackInfo.minBtRssi <= -5) && (swDacSwingLvl == 0x20))
++		{
++			dacSwingLvl = 0x18;
++		}
++		else
++		{
++			dacSwingLvl = swDacSwingLvl;
++		}
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x880, 0xfc000000, dacSwingLvl);
++	}
++	else
++	{
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x880, 0xfc000000, 0x30);
++	}
++}
++
++VOID
++halbtc8192d2ant_DacSwing(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bDacSwingOn,
++	IN	u4Byte			dacSwingLvl
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn DacSwing=%s, dacSwingLvl=0x%x\n",  
++		(bForceExec? "force to":""), ((bDacSwingOn)? "ON":"OFF"), dacSwingLvl));
++	pCoexDm->bCurDacSwingOn = bDacSwingOn;
++	pCoexDm->curDacSwingLvl = dacSwingLvl;
++
++	if(!bForceExec)
++	{
++		if( (pCoexDm->bPreDacSwingOn == pCoexDm->bCurDacSwingOn) &&
++			(pCoexDm->preDacSwingLvl == pCoexDm->curDacSwingLvl) )
++			return;
++	}
++	delay_ms(30);
++	halbtc8192d2ant_SetSwFullTimeDacSwing(pBtCoexist, bDacSwingOn, dacSwingLvl);
++
++	pCoexDm->bPreDacSwingOn = pCoexDm->bCurDacSwingOn;
++	pCoexDm->preDacSwingLvl = pCoexDm->curDacSwingLvl;
++}
++
++VOID
++halbtc8192d2ant_SetAdcBackOff(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bAdcBackOff
++	)
++{
++	if(bAdcBackOff)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BB BackOff Level On!\n"));
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc04,0x3a07611);
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BB BackOff Level Off!\n"));		
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc04,0x3a05611);
++	}
++}
++
++VOID
++halbtc8192d2ant_AdcBackOff(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bAdcBackOff
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn AdcBackOff = %s\n",  
++		(bForceExec? "force to":""), ((bAdcBackOff)? "ON":"OFF")));
++	pCoexDm->bCurAdcBackOff = bAdcBackOff;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreAdcBackOff == pCoexDm->bCurAdcBackOff) 
++			return;
++	}
++	halbtc8192d2ant_SetAdcBackOff(pBtCoexist, pCoexDm->bCurAdcBackOff);
++
++	pCoexDm->bPreAdcBackOff = pCoexDm->bCurAdcBackOff;
++}
++
++VOID
++halbtc8192d2ant_SetAgcTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bAgcTableEn
++	)
++{
++	u1Byte		rssiAdjustVal=0;
++
++	if(bAgcTableEn)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Agc Table On!\n"));
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1a, 0xfffff, 0xa99);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0xd4000);
++		
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b000001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b010001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b020001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b030001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b040001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b050001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b060001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b070001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b080001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b090001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b0A0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b0B0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7a0C0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x790D0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x780E0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x770F0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x76100001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x75110001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x74120001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x73130001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x72140001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x71150001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x70160001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6f170001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6e180001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6d190001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6c1A0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6b1B0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6a1C0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x691D0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x4f1E0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x4e1F0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x4d200001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x4c210001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x4b220001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x4a230001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x49240001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x48250001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x47260001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x46270001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x45280001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x44290001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x432A0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x422B0001);
++
++		rssiAdjustVal = 12;
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Agc Table Off!\n"));
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1a, 0xfffff, 0x30a99);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0xdc000);
++
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7B000001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7B010001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7B020001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7B030001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7B040001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7B050001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7B060001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7A070001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x79080001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x78090001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x770A0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x760B0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x750C0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x740D0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x730E0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x720F0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x71100001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x70110001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6F120001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6E130001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6D140001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6C150001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6B160001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6A170001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x69180001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x68190001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x671A0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x661B0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x651C0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x641D0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x631E0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x621F0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x61200001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x60210001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x49220001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x48230001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x47240001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x46250001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x45260001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x44270001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x43280001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x42290001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x412A0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x402B0001);
++	}
++
++	// set rssiAdjustVal for wifi module.
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_U1_RSSI_ADJ_VAL_FOR_AGC_TABLE_ON, &rssiAdjustVal);
++}
++
++
++
++VOID
++halbtc8192d2ant_AgcTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bAgcTableEn
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s %s Agc Table\n",  
++		(bForceExec? "force to":""), ((bAgcTableEn)? "Enable":"Disable")));
++	pCoexDm->bCurAgcTableEn = bAgcTableEn;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreAgcTableEn == pCoexDm->bCurAgcTableEn) 
++			return;
++	}
++	halbtc8192d2ant_SetAgcTable(pBtCoexist, bAgcTableEn);
++
++	pCoexDm->bPreAgcTableEn = pCoexDm->bCurAgcTableEn;
++}
++
++VOID
++halbtc8192d2ant_SetCoexTable(
++	IN	PBTC_COEXIST	pBtCoexist,
++	IN	u4Byte		val0x6c4,
++	IN	u4Byte		val0x6c8,
++	IN	u4Byte		val0x6cc
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], set coex table, set 0x6c4=0x%x\n", val0x6c4));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c4, val0x6c4);
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], set coex table, set 0x6c8=0x%x\n", val0x6c8));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c8, val0x6c8);
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], set coex table, set 0x6cc=0x%x\n", val0x6cc));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6cc, val0x6cc);
++}
++
++VOID
++halbtc8192d2ant_CoexTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	u4Byte			val0x6c4,
++	IN	u4Byte			val0x6c8,
++	IN	u4Byte			val0x6cc
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s write Coex Table 0x6c4=0x%x, 0x6c8=0x%x, 0x6cc=0x%x\n", 
++		(bForceExec? "force to":""), val0x6c4, val0x6c8, val0x6cc));
++	pCoexDm->curVal0x6c4 = val0x6c4;
++	pCoexDm->curVal0x6c8 = val0x6c8;
++	pCoexDm->curVal0x6cc = val0x6cc;
++
++	if(!bForceExec)
++	{	
++		if( (pCoexDm->preVal0x6c4 == pCoexDm->curVal0x6c4) &&
++			(pCoexDm->preVal0x6c8 == pCoexDm->curVal0x6c8) &&
++			(pCoexDm->preVal0x6cc == pCoexDm->curVal0x6cc) )
++			return;
++	}
++	halbtc8192d2ant_SetCoexTable(pBtCoexist, val0x6c4, val0x6c8, val0x6cc);
++
++	pCoexDm->preVal0x6c4 = pCoexDm->curVal0x6c4;
++	pCoexDm->preVal0x6c8 = pCoexDm->curVal0x6c8;
++	pCoexDm->preVal0x6cc = pCoexDm->curVal0x6cc;
++}
++
++VOID
++halbtc8192d2ant_CoexAllOff(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	// fw mechanism
++	halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++	halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++	// sw mechanism
++	halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++}
++VOID
++halbtc8192d2ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++}
++
++VOID
++halbtc8192d2ant_MonitorBtEnableDisable(
++	IN 	PBTC_COEXIST		pBtCoexist,
++	IN	u4Byte			btActive
++	)
++{
++	static BOOLEAN	bPreBtDisabled=FALSE;
++	static u4Byte		btDisableCnt=0;
++	BOOLEAN			bBtDisabled=FALSE, bForceToRoam=FALSE;
++	u4Byte			u4Tmp=0;
++
++	// This function check if bt is disabled
++	if(btActive)
++	{
++		btDisableCnt = 0;
++		bBtDisabled = FALSE;
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_DISABLE, &bBtDisabled);
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT is enabled !!\n"));
++	}
++	else
++	{
++		btDisableCnt++;
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], bt all counters=0, %d times!!\n", 
++				btDisableCnt));
++		if(btDisableCnt >= 2)
++		{
++			bBtDisabled = TRUE;
++			pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_DISABLE, &bBtDisabled);
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT is disabled !!\n"));
++		}
++	}
++	if(bPreBtDisabled != bBtDisabled)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT is from %s to %s!!\n", 
++			(bPreBtDisabled ? "disabled":"enabled"), 
++			(bBtDisabled ? "disabled":"enabled")));
++
++		bForceToRoam = TRUE;
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_FORCE_TO_ROAM, &bForceToRoam);
++
++		bPreBtDisabled = bBtDisabled;
++	}
++}
++
++VOID
++halbtc8192d2ant_MonitorBtState(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	BOOLEAN 		stateChange=FALSE;
++	u4Byte			BT_Polling, Ratio_Act, Ratio_STA;
++	u4Byte			BT_Active, BT_State;
++	u4Byte			regBTActive=0, regBTState=0, regBTPolling=0;
++	u4Byte			btBusyThresh=0;
++	u4Byte			fwVer=0;
++	static BOOLEAN	bBtBusyTraffic=FALSE;
++	BOOLEAN 		bRejApAggPkt=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_FW_VER, &fwVer);
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], FirmwareVersion = 0x%x(%d)\n", fwVer, fwVer));
++	
++	regBTActive = 0x444;
++	regBTState = 0x448;
++	regBTPolling = 0x44c;	
++	
++	btBusyThresh = 40;
++	
++	BT_Active = pBtCoexist->fBtcRead4Byte(pBtCoexist, regBTActive);
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT_Active(0x%x)=0x%x\n", regBTActive, BT_Active));
++	BT_Active = BT_Active & 0x00ffffff;
++
++	BT_State = pBtCoexist->fBtcRead4Byte(pBtCoexist, regBTState);
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT_State(0x%x)=0x%x\n", regBTState, BT_State));
++	BT_State = BT_State & 0x00ffffff;
++
++	BT_Polling = pBtCoexist->fBtcRead4Byte(pBtCoexist, regBTPolling);
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT_Polling(0x%x)=0x%x\n", regBTPolling, BT_Polling));
++
++	if(BT_Active==0xffffffff && BT_State==0xffffffff && BT_Polling==0xffffffff )
++		return;
++
++	// 2011/05/04 MH For Slim combo test meet a problem. Surprise remove and WLAN is running
++	// DHCP process. At the same time, the register read value might be zero. And cause BSOD 0x7f
++	// EXCEPTION_DIVIDED_BY_ZERO. In This case, the stack content may always be wrong due to 
++	// HW divide trap.
++	if (BT_Polling==0)
++		return;
++
++	halbtc8192d2ant_MonitorBtEnableDisable(pBtCoexist, BT_Active);
++	
++	Ratio_Act = BT_Active*1000/BT_Polling;
++	Ratio_STA = BT_State*1000/BT_Polling;
++		
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Ratio_Act=%d\n", Ratio_Act));
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Ratio_STA=%d\n", Ratio_STA));
++
++	if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		if(Ratio_STA < 60)	// BT PAN idle
++		{
++		}
++		else
++		{
++			// Check if BT PAN (under BT 2.1) is uplink or downlink
++			if((Ratio_Act/Ratio_STA) < 2)
++			{	// BT PAN Uplink
++				pCoexSta->bBtUplink = TRUE;
++			}
++			else
++			{	// BT PAN downlink
++				pCoexSta->bBtUplink = FALSE;
++			}
++		}
++	}	
++	
++	// Check BT is idle or not
++	if(!pBtCoexist->stackInfo.bBtLinkExist)
++	{
++		pCoexSta->bBtBusy = FALSE;
++	}
++	else
++	{
++		if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++		{
++			if(Ratio_Act<20)
++			{
++				pCoexSta->bBtBusy = FALSE;
++			}
++			else
++			{
++				pCoexSta->bBtBusy = TRUE;
++			}
++		}
++		else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++		{
++			if(Ratio_STA < btBusyThresh)
++			{
++				pCoexSta->bBtBusy = FALSE;
++			}
++			else
++			{
++				pCoexSta->bBtBusy = TRUE;
++			}
++
++			if( (Ratio_STA < btBusyThresh) ||
++				(Ratio_Act<180 && Ratio_STA<130) )
++			{
++				pCoexSta->bA2dpBusy = FALSE;
++			}
++			else
++			{
++				pCoexSta->bA2dpBusy = TRUE;
++			}
++		}
++	}
++
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &pCoexSta->bBtBusy);
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_LIMITED_DIG, &pCoexSta->bBtBusy);
++	
++	if(bBtBusyTraffic != pCoexSta->bBtBusy)
++	{	// BT idle or BT non-idle
++		bBtBusyTraffic = pCoexSta->bBtBusy;
++		stateChange = TRUE;
++	}
++
++	if(stateChange)
++	{
++		if(!pCoexSta->bBtBusy)
++		{
++			halbtc8192d2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_RfShrink(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_CoexAllOff(pBtCoexist);
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++		}
++		else
++		{
++			halbtc8192d2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8192d2ant_RfShrink(pBtCoexist, NORMAL_EXEC, TRUE);
++		}
++	}
++
++	if(stateChange)
++	{
++		bRejApAggPkt = pCoexSta->bBtBusy;
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT, &bRejApAggPkt);
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++	}
++}
++
++VOID
++halbtc8192d2ant_ActionA2dp(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte			wifiRssiState, wifiRssiState1=BTC_RSSI_STATE_HIGH;
++	u4Byte			wifiBw, wifiTrafficDir;
++	BOOLEAN 		bWifiBusy=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++
++	wifiRssiState = halbtc8192d2ant_WifiRssiState(pBtCoexist, 0, 2, 47, 0);
++	if(pCoexSta->bA2dpBusy && bWifiBusy)
++	{
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++		{
++			wifiRssiState1 = halbtc8192d2ant_WifiRssiState(pBtCoexist, 1, 2, 47, 0);
++		}
++		else
++		{
++			if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++			{
++				wifiRssiState1 = halbtc8192d2ant_WifiRssiState(pBtCoexist, 1, 2, 25, 0);
++			}
++			else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++			{
++				wifiRssiState1 = halbtc8192d2ant_WifiRssiState(pBtCoexist, 1, 2, 40, 0);
++			}
++		}
++
++		// fw mechanism first
++		if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++		{
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0xc, 0x18);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++		}
++		else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++		{
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x10, 0x18);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++		}
++
++		// sw mechanism 
++		if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++		}
++		else
++		{
++			halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		}
++		
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++		{
++			halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++		else
++		{
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++			else
++			{
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++	}
++	else if(pCoexSta->bA2dpBusy)
++	{
++		// fw mechanism first
++		halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, TRUE, 0x18, FALSE);
++
++		// sw mechanism 
++		halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++	}
++	else
++	{
++		halbtc8192d2ant_CoexAllOff(pBtCoexist);
++	}
++}
++
++VOID
++halbtc8192d2ant_ActionPan(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN 	bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u1Byte		wifiRssiState, wifiRssiState1;
++	u4Byte		wifiBw, wifiTrafficDir;
++	s4Byte		wifiRssi;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_S4_WIFI_RSSI, &wifiRssi);
++
++	if(bBtHsOn)
++	{
++		halbtc8192d2ant_CoexAllOff(pBtCoexist);
++	}
++	else
++	{
++		wifiRssiState = halbtc8192d2ant_WifiRssiState(pBtCoexist, 0, 3, 25, 50);
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++		{
++			wifiRssiState1 = halbtc8192d2ant_WifiRssiState(pBtCoexist, 1, 2, 47, 0);
++		}
++		else
++		{			
++			wifiRssiState1 = halbtc8192d2ant_WifiRssiState(pBtCoexist, 1, 2, 25, 0);
++		}
++
++		if(pCoexSta->bBtBusy && bWifiBusy)
++		{
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				// fw mechanism first
++				if(pCoexSta->bBtUplink)
++				{
++					halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x20);
++					halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++				}
++				else
++				{
++					halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++					halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++				}
++				// sw mechanism 
++				if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++					(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				}
++				else
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				}
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				if(pCoexSta->bBtUplink)
++				{
++					halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++				else
++				{
++					halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++				}
++			}
++			else if( (wifiRssiState == BTC_RSSI_STATE_MEDIUM) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_MEDIUM) )
++			{
++				// fw mechanism first
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x20);
++
++				if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++				{
++					halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++				}
++				else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++				{
++					if(BTC_WIFI_BW_HT40 == wifiBw)
++						halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);//BT_FW_NAV_ON);
++					else
++						halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++				}
++				// sw mechanism 
++				if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++					(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				}
++				else
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				}
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++			else
++			{
++				// fw mechanism first
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x20);
++				
++				if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++				{
++					halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++				}
++				else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++				{
++					if(pCoexSta->bBtUplink)
++					{
++						if(BTC_WIFI_BW_HT40 == wifiBw)
++						{
++							halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);//BT_FW_NAV_ON);
++						}
++						else
++						{
++							halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++						}						
++					}
++					else
++					{
++						halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++					}
++				}
++				// sw mechanism 
++				if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++					(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				}
++				else
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				}
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++		else if(pCoexSta->bBtBusy && 
++				!bWifiBusy &&
++				(wifiRssi < 30))
++		{
++			// fw mechanism first
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x0a, 0x20);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++			// sw mechanism 
++			halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++		else
++		{
++			halbtc8192d2ant_CoexAllOff(pBtCoexist);
++		}
++	}
++}
++
++
++VOID
++halbtc8192d2ant_ActionHid(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState=BTC_RSSI_STATE_HIGH;
++	u4Byte		wifiTrafficDir;
++	BOOLEAN 	bWifiBusy=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++	if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++	{
++		wifiRssiState = halbtc8192d2ant_WifiRssiState(pBtCoexist, 0, 2, 45, 0);
++	}
++	else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++	{
++		wifiRssiState = halbtc8192d2ant_WifiRssiState(pBtCoexist, 0, 2, 20, 0);
++	}
++		
++	if(pCoexSta->bBtBusy && bWifiBusy)
++	{
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			// fw mechanism first
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++			
++			// sw mechanism 			
++			halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++		}
++		else
++		{
++			// fw mechanism first
++			if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++			{
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++				halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, TRUE, 0x18, FALSE);
++			}
++			else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++			{
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x15, 0x15);
++				halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x30, FALSE);
++			}			
++			// sw mechanism 
++			halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++	}
++	else
++	{
++		halbtc8192d2ant_CoexAllOff(pBtCoexist);
++	}
++}
++
++
++
++VOID
++halbtc8192d2ant_ActionSco(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte	wifiRssiState;
++	u4Byte	wifiBw;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	wifiRssiState = halbtc8192d2ant_WifiRssiState(pBtCoexist, 0, 2, 47, 0);
++
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		// fw mechanism first
++		halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++		// sw mechanism 		
++		halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++	}
++	else
++	{
++		// fw mechanism first
++		halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++		
++		// sw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++		else
++		{
++			halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++	}
++}
++
++VOID
++halbtc8192d2ant_ActionHidA2dp(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState, wifiRssiState1;
++	u4Byte		wifiBw;
++
++	if(pCoexSta->bBtBusy)
++	{
++		wifiRssiState1 = halbtc8192d2ant_WifiRssiState(pBtCoexist, 1, 2, 35, 0);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++		{
++			// fw mechanism first
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++
++			// sw mechanism 
++			if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			}
++			else
++			{
++				halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			}
++			halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++		}
++		else
++		{
++			wifiRssiState = halbtc8192d2ant_WifiRssiState(pBtCoexist, 0, 2, 47, 0);
++			// fw mechanism
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++			// sw mechanism 
++			if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			}
++			else
++			{
++				halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			}
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++			else
++			{
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++		}
++	}
++	else
++	{
++		halbtc8192d2ant_CoexAllOff(pBtCoexist);
++	}
++}
++
++
++VOID
++halbtc8192d2ant_ActionHidPanBc4(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u4Byte		wifiBw, wifiTrafficDir;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++	
++	if(bBtHsOn)
++	{
++		halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++
++		halbtc8192d2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++		pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++	}
++	else
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++		if(BTC_WIFI_BW_LEGACY == wifiBw)
++		{
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++
++			halbtc8192d2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++		}
++		else if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++		{
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++			
++			halbtc8192d2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++		}
++		else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++		{
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x10);					
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++		}
++		else if(!bWifiBusy)
++		{
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++		}			
++	}
++	halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++}
++VOID
++halbtc8192d2ant_ActionHidPanBc8(	
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u1Byte		wifiRssiState;
++	u4Byte		wifiBw, wifiTrafficDir;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++
++	if(!bBtHsOn)
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++		wifiRssiState = halbtc8192d2ant_WifiRssiState(pBtCoexist, 0, 2, 25, 0);
++		if((pCoexSta->bBtBusy && bWifiBusy))
++		{
++			// fw mechanism first
++			if(pCoexSta->bBtUplink)
++			{
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x15, 0x20);
++			}
++			else
++			{
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x10, 0x20);
++			}
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++
++			// sw mechanism 
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++				if(BTC_WIFI_BW_HT40 == wifiBw)
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++					halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++				else
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++			}
++			else
++			{
++				halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++		else
++		{
++			halbtc8192d2ant_CoexAllOff(pBtCoexist);
++		}
++	}
++	else
++	{
++		if(BTC_INTF_USB == pBtCoexist->chipInterface)
++		{	
++			pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++			if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++			{
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++				halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++
++				halbtc8192d2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++				pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++			else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++			{
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++		}
++		else 
++		{
++			if(pCoexSta->bBtBusy)
++			{
++				// fw mechanism
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++				halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++				// sw mechanism
++				halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++			}
++			else
++			{
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++	}
++}
++
++VOID
++halbtc8192d2ant_ActionHidPan(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{		
++	if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8192d2ant_ActionHidPanBc4(pBtCoexist);
++	}
++	else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8192d2ant_ActionHidPanBc8(pBtCoexist);
++	}
++}
++
++VOID
++halbtc8192d2ant_ActionPanA2dpBc4(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u1Byte		wifiRssiState;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++	if(bBtHsOn)
++	{
++		if(pCoexSta->bBtBusy)
++		{
++			// fw mechanism
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++			// sw mechanism
++			halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++		}
++		else
++		{
++			halbtc8192d2ant_CoexAllOff(pBtCoexist);
++		}
++	}
++	else
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++		if(pCoexSta->bBtBusy && bWifiBusy)
++		{
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x10);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++		}
++		else
++		{
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++		}			
++		// sw mechanism
++		halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++	}
++}
++VOID
++halbtc8192d2ant_ActionPanA2dpBc8(	
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u1Byte		wifiRssiState;
++	u4Byte		wifiBw;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++
++	if(!bBtHsOn)
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++		wifiRssiState = halbtc8192d2ant_WifiRssiState(pBtCoexist, 0, 2, 25, 0);
++		if((pCoexSta->bBtBusy && bWifiBusy))
++		{
++			// fw mechanism first
++			if(pCoexSta->bBtUplink)
++			{
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x15, 0x20);
++			}
++			else
++			{
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x10, 0x20);
++			}
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++
++			// sw mechanism 
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++				if(BTC_WIFI_BW_HT40 == wifiBw)
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++					halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++				else	
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++			}
++			else
++			{
++				halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++		else
++		{
++			halbtc8192d2ant_CoexAllOff(pBtCoexist);
++		}
++	}
++	else
++	{
++		if(pCoexSta->bBtBusy)
++		{
++			// fw mechanism
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++			// sw mechanism			
++			halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++		}
++		else
++		{
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++	}
++}
++
++VOID
++halbtc8192d2ant_ActionPanA2dp(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8192d2ant_ActionPanA2dpBc4(pBtCoexist);
++	}
++	else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8192d2ant_ActionPanA2dpBc8(pBtCoexist);
++	}
++}
++
++BOOLEAN
++halbtc8192d2ant_IsBtCoexistEnter(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte			macPhyMode;
++	BOOLEAN			bRet=TRUE;
++	BOOLEAN			bWifiUnder5G=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U1_MAC_PHY_MODE, &macPhyMode);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_UNDER_5G, &bWifiUnder5G);
++	
++	if(BTC_SMSP != macPhyMode)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Only support single mac single phy!!\n"));
++		bRet = FALSE;
++	}
++
++	if(bWifiUnder5G)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], wifi is under 5G or A band\n"));
++		halbtc8192d2ant_CoexAllOff(pBtCoexist);
++		bRet = FALSE;
++	}
++
++	return bRet;
++}
++
++//============================================================
++// extern function start with EXhalbtc8192d2ant_
++//============================================================
++VOID
++EXhalbtc8192d2ant_PowerOnSetting(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++}
++
++VOID
++EXhalbtc8192d2ant_InitHwConfig(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN				bWifiOnly
++	)
++{
++	u1Byte	u1Tmp=0;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 2Ant Init HW Config!!\n"));
++
++	// backup rf 0x1e value
++	pCoexDm->btRf0x1eBackup = 
++		pBtCoexist->fBtcGetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xfffff);
++
++	if( (BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType) ||
++		(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType) )
++	{
++		u1Tmp =  pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x4fd) & BIT0;
++		pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x4fd, u1Tmp);
++		
++		halbtc8192d2ant_CoexTable(pBtCoexist, FORCE_EXEC, 0xaaaa9aaa, 0xffbd0040, 0x40000010);
++
++		// switch control, here we set pathA to control
++		// 0x878[13] = 1, 0:pathB, 1:pathA(default)
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x878, BIT13, 0x1);
++		
++		// antsel control, here we use phy0 and enable antsel.
++		// 0x87c[16:15] = b'11, enable antsel, antsel output pin
++		// 0x87c[30] = 0, 0: phy0, 1:phy 1
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x87c, bMaskDWord, 0x1fff8);
++		
++		// antsel to Bt or Wifi, it depends Bt on/off.
++		// 0x860[9:8] = 'b10, b10:Bt On, WL2G off(default), b01:Bt off, WL2G on.
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x860, BIT9|BIT8, 0x2);
++		
++		// sw/hw control switch, here we set sw control
++		// 0x870[9:8] = 'b11 sw control, 'b00 hw control
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x870, BIT9|BIT8, 0x3);
++	}
++}
++
++VOID
++EXhalbtc8192d2ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Coex Mechanism Init!!\n"));
++	
++	halbtc8192d2ant_InitCoexDm(pBtCoexist);
++}
++
++VOID
++EXhalbtc8192d2ant_DisplayCoexInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	PBTC_BOARD_INFO		pBoardInfo=&pBtCoexist->boardInfo;
++	PBTC_STACK_INFO		pStackInfo=&pBtCoexist->stackInfo;
++	pu1Byte				cliBuf=pBtCoexist->cliBuf;
++	u1Byte				u1Tmp[4], i, btInfoExt, psTdmaCase=0;
++	u4Byte				u4Tmp[4];
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ", "Ant PG number/ Ant mechanism:", \
++		pBoardInfo->pgAntNum, pBoardInfo->btdmAntNum);
++	CL_PRINTF(cliBuf);	
++	
++	if(pBtCoexist->bManualControl)
++	{
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "[Action Manual control]!!");
++		CL_PRINTF(cliBuf);
++	}
++	
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %d", "BT stack/ hci ext ver", \
++		((pStackInfo->bProfileNotified)? "Yes":"No"), pStackInfo->hciVersion);
++	CL_PRINTF(cliBuf);
++
++	// wifi status
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Wifi Status]============");
++	CL_PRINTF(cliBuf);
++	pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[BT Status]============");
++	CL_PRINTF(cliBuf);
++	
++	if(pStackInfo->bProfileNotified)
++	{			
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d", "SCO/HID/PAN/A2DP", \
++			pStackInfo->bScoExist, pStackInfo->bHidExist, pStackInfo->bPanExist, pStackInfo->bA2dpExist);
++		CL_PRINTF(cliBuf);	
++
++		pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_BT_LINK_INFO);
++	}
++	
++	// Sw mechanism	
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Sw mechanism]============");
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d(0x%x) ", "SM2[AgcT/ AdcB/ SwDacSwing(lvl)]", \
++		pCoexDm->bCurAgcTableEn, pCoexDm->bCurAdcBackOff, pCoexDm->bCurDacSwingOn, pCoexDm->curDacSwingLvl);
++	CL_PRINTF(cliBuf);
++
++	// Fw mechanism		
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Fw mechanism]============");
++	CL_PRINTF(cliBuf);
++
++	// Hw setting		
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Hw setting]============");
++	CL_PRINTF(cliBuf);	
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "RF-A, 0x1e initVal", \
++		pCoexDm->btRf0x1eBackup);
++	CL_PRINTF(cliBuf);
++
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x40);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x40", \
++		u1Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xc50);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0xc50(dig)", \
++		u4Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c4);
++	u4Tmp[1] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c8);
++	u4Tmp[2] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6cc);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x", "0x6c4/0x6c8/0x6cc(coexTable)", \
++		u4Tmp[0], u4Tmp[1], u4Tmp[2]);
++	CL_PRINTF(cliBuf);
++
++	pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++VOID
++EXhalbtc8192d2ant_IpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_IPS_ENTER == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], IPS ENTER notify\n"));
++		halbtc8192d2ant_CoexAllOff(pBtCoexist);
++	}
++	else if(BTC_IPS_LEAVE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], IPS LEAVE notify\n"));
++		//halbtc8192d2ant_InitCoexDm(pBtCoexist);
++	}
++}
++
++VOID
++EXhalbtc8192d2ant_LpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_LPS_ENABLE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], LPS ENABLE notify\n"));
++		halbtc8192d2ant_CoexAllOff(pBtCoexist);
++	}
++	else if(BTC_LPS_DISABLE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], LPS DISABLE notify\n"));
++		halbtc8192d2ant_InitCoexDm(pBtCoexist);
++	}
++}
++
++VOID
++EXhalbtc8192d2ant_ScanNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_SCAN_START == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCAN START notify\n"));
++	}
++	else if(BTC_SCAN_FINISH == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCAN FINISH notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8192d2ant_ConnectNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_ASSOCIATE_START == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], CONNECT START notify\n"));
++	}
++	else if(BTC_ASSOCIATE_FINISH == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], CONNECT FINISH notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8192d2ant_MediaStatusNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{	
++	if(BTC_MEDIA_CONNECT == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], MEDIA connect notify\n"));
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], MEDIA disconnect notify\n"));
++	}	
++}
++
++VOID
++EXhalbtc8192d2ant_SpecialPacketNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{
++	if(type == BTC_PACKET_DHCP)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], DHCP Packet notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8192d2ant_BtInfoNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	pu1Byte			tmpBuf,
++	IN	u1Byte			length
++	)
++{
++}
++
++VOID
++EXhalbtc8192d2ant_HaltNotify(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Halt notify\n"));
++
++	EXhalbtc8192d2ant_MediaStatusNotify(pBtCoexist, BTC_MEDIA_DISCONNECT);
++}
++
++VOID
++EXhalbtc8192d2ant_Periodical(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	u1Byte	algorithm;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 2Ant Periodical!!\n"));
++
++	// NOTE:
++	// sw mechanism must be done after fw mechanism
++	// 
++	if(!halbtc8192d2ant_IsBtCoexistEnter(pBtCoexist))
++		return;
++
++	if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_GET_BT_RSSI, NULL);
++
++		halbtc8192d2ant_MonitorBtState(pBtCoexist);
++		algorithm = halbtc8192d2ant_ActionAlgorithm(pBtCoexist);	
++		pCoexDm->curAlgorithm = algorithm;
++		switch(pCoexDm->curAlgorithm)
++		{
++			case BT_8192D_2ANT_COEX_ALGO_SCO:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = SCO\n"));
++				halbtc8192d2ant_ActionSco(pBtCoexist);
++				break;
++			case BT_8192D_2ANT_COEX_ALGO_HID:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = HID\n"));
++				halbtc8192d2ant_ActionHid(pBtCoexist);
++				break;
++			case BT_8192D_2ANT_COEX_ALGO_A2DP:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = A2DP\n"));
++				halbtc8192d2ant_ActionA2dp(pBtCoexist);
++				break;
++			case BT_8192D_2ANT_COEX_ALGO_PAN:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = PAN\n"));
++				halbtc8192d2ant_ActionPan(pBtCoexist);
++				break;
++			case BT_8192D_2ANT_COEX_ALGO_HID_A2DP:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = HID+A2DP\n"));
++				halbtc8192d2ant_ActionHidA2dp(pBtCoexist);
++				break;
++			case BT_8192D_2ANT_COEX_ALGO_HID_PAN:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = PAN+HID\n"));
++				halbtc8192d2ant_ActionHidPan(pBtCoexist);
++				break;
++			case BT_8192D_2ANT_COEX_ALGO_PAN_A2DP:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = PAN+A2DP\n"));
++				halbtc8192d2ant_ActionPanA2dp(pBtCoexist);
++				break;
++			default:
++				break;
++		}
++	}
++}
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8192d2Ant.h b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8192d2Ant.h
+new file mode 100644
+index 0000000..85fd674
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8192d2Ant.h
+@@ -0,0 +1,170 @@
++//===========================================
++// The following is for 8192D 2Ant BT Co-exist definition
++//===========================================
++#define		BTC_RSSI_COEX_THRESH_TOL_8192D_2ANT		6
++
++typedef enum _BT_INFO_SRC_8192D_2ANT{
++	BT_INFO_SRC_8192D_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8192D_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8192D_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8192D_2ANT_MAX
++}BT_INFO_SRC_8192D_2ANT,*PBT_INFO_SRC_8192D_2ANT;
++
++typedef enum _BT_8192D_2ANT_BT_STATUS{
++	BT_8192D_2ANT_BT_STATUS_IDLE				= 0x0,
++	BT_8192D_2ANT_BT_STATUS_CONNECTED_IDLE	= 0x1,
++	BT_8192D_2ANT_BT_STATUS_NON_IDLE			= 0x2,
++	BT_8192D_2ANT_BT_STATUS_MAX
++}BT_8192D_2ANT_BT_STATUS,*PBT_8192D_2ANT_BT_STATUS;
++
++typedef enum _BT_8192D_2ANT_COEX_ALGO{
++	BT_8192D_2ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8192D_2ANT_COEX_ALGO_SCO					= 0x1,
++	BT_8192D_2ANT_COEX_ALGO_HID					= 0x2,
++	BT_8192D_2ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8192D_2ANT_COEX_ALGO_PAN					= 0x4,
++	BT_8192D_2ANT_COEX_ALGO_HID_A2DP			= 0x5,
++	BT_8192D_2ANT_COEX_ALGO_HID_PAN				= 0x6,
++	BT_8192D_2ANT_COEX_ALGO_PAN_A2DP			= 0x7,
++	BT_8192D_2ANT_COEX_ALGO_MAX
++}BT_8192D_2ANT_COEX_ALGO,*PBT_8192D_2ANT_COEX_ALGO;
++
++typedef struct _COEX_DM_8192D_2ANT{
++	// fw mechanism
++	BOOLEAN		bPreBalanceOn;
++	BOOLEAN		bCurBalanceOn;
++
++	// diminishWifi
++	BOOLEAN		bPreDacOn;
++	BOOLEAN		bCurDacOn;
++	BOOLEAN 	bPreInterruptOn;
++	BOOLEAN		bCurInterruptOn;
++	u1Byte		preFwDacSwingLvl;
++	u1Byte		curFwDacSwingLvl;
++	BOOLEAN 	bPreNavOn;
++	BOOLEAN		bCurNavOn;
++
++
++	
++
++	
++	//BOOLEAN		bPreDecBtPwr;
++	//BOOLEAN		bCurDecBtPwr;
++
++	//u1Byte		preFwDacSwingLvl;
++	//u1Byte		curFwDacSwingLvl;
++	//BOOLEAN		bCurIgnoreWlanAct;
++	//BOOLEAN		bPreIgnoreWlanAct;
++	//u1Byte		prePsTdma;
++	//u1Byte		curPsTdma;
++	//u1Byte		psTdmaPara[5];
++	//u1Byte		psTdmaDuAdjType;
++	//BOOLEAN		bResetTdmaAdjust;
++	//BOOLEAN		bPrePsTdmaOn;
++	//BOOLEAN		bCurPsTdmaOn;
++	//BOOLEAN		bPreBtAutoReport;
++	//BOOLEAN		bCurBtAutoReport;
++
++	// sw mechanism
++	BOOLEAN		bPreRfRxLpfShrink;
++	BOOLEAN		bCurRfRxLpfShrink;
++	u4Byte		btRf0x1eBackup;
++	BOOLEAN 	bPreLowPenaltyRa;
++	BOOLEAN		bCurLowPenaltyRa;
++	BOOLEAN		bPreDacSwingOn;
++	u4Byte		preDacSwingLvl;
++	BOOLEAN		bCurDacSwingOn;
++	u4Byte		curDacSwingLvl;
++	BOOLEAN		bPreAdcBackOff;
++	BOOLEAN		bCurAdcBackOff;
++	BOOLEAN 	bPreAgcTableEn;
++	BOOLEAN		bCurAgcTableEn;
++	//u4Byte		preVal0x6c0;
++	//u4Byte		curVal0x6c0;
++	u4Byte		preVal0x6c4;
++	u4Byte		curVal0x6c4;
++	u4Byte		preVal0x6c8;
++	u4Byte		curVal0x6c8;
++	u4Byte		preVal0x6cc;
++	u4Byte		curVal0x6cc;
++	//BOOLEAN		bLimitedDig;
++
++	// algorithm related
++	u1Byte		preAlgorithm;
++	u1Byte		curAlgorithm;
++	//u1Byte		btStatus;
++	//u1Byte		wifiChnlInfo[3];
++} COEX_DM_8192D_2ANT, *PCOEX_DM_8192D_2ANT;
++
++typedef struct _COEX_STA_8192D_2ANT{
++	u1Byte					preWifiRssiState[4];
++	BOOLEAN					bBtBusy;
++	BOOLEAN					bBtUplink;
++	BOOLEAN					bBtDownLink;
++	BOOLEAN					bA2dpBusy;
++}COEX_STA_8192D_2ANT, *PCOEX_STA_8192D_2ANT;
++
++//===========================================
++// The following is interface which will notify coex module.
++//===========================================
++VOID
++EXhalbtc8192d2ant_PowerOnSetting(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtc8192d2ant_InitHwConfig(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN				bWifiOnly
++	);
++VOID
++EXhalbtc8192d2ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtc8192d2ant_IpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8192d2ant_LpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8192d2ant_ScanNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8192d2ant_ConnectNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8192d2ant_MediaStatusNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	);
++VOID
++EXhalbtc8192d2ant_SpecialPacketNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	);
++VOID
++EXhalbtc8192d2ant_HaltNotify(
++	IN	PBTC_COEXIST			pBtCoexist
++	);
++VOID
++EXhalbtc8192d2ant_Periodical(
++	IN	PBTC_COEXIST			pBtCoexist
++	);
++VOID
++EXhalbtc8192d2ant_BtInfoNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	pu1Byte			tmpBuf,
++	IN	u1Byte			length
++	);
++VOID
++EXhalbtc8192d2ant_DisplayCoexInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8192e1Ant.c b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8192e1Ant.c
+new file mode 100644
+index 0000000..8a4d977
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8192e1Ant.c
+@@ -0,0 +1,3417 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8192E Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8192E_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8192e_1ant		glcoex_dm_8192e_1ant;
++static struct  coex_dm_8192e_1ant	*coex_dm = &glcoex_dm_8192e_1ant;
++static struct  coex_sta_8192e_1ant		glcoex_sta_8192e_1ant;
++static struct  coex_sta_8192e_1ant	*coex_sta = &glcoex_sta_8192e_1ant;
++
++const char *const glbt_info_src_8192e_1ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8192e_1ant = 20140527;
++u32	glcoex_ver_8192e_1ant = 0x4f;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8192e1ant_
++ * ************************************************************ */
++u8 halbtc8192e1ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8192E_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8192E_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8192E_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8192e1ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8192E_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8192E_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8192E_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8192e1ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8192e1ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8192e1ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8192e1ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8192e1ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	switch (ra_mask_type) {
++	case 0:	/* normal mode */
++		halbtc8192e1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0);
++		break;
++	case 1:	/* disable cck 1/2 */
++		halbtc8192e1ant_update_ra_mask(btcoexist, force_exec,
++					       0x00000003);
++		break;
++	case 2:	/* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		halbtc8192e1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0001f1f7);
++		break;
++	default:
++		break;
++	}
++
++	halbtc8192e1ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8192e1ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8192e1ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++void halbtc8192e1ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8192e1ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++void halbtc8192e1ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++	static u8		num_of_bt_counter_chk = 0;
++
++	/* to avoid 0x76e[3] = 1 (WLAN_Act control by PTA) during IPS */
++	/* if (! (btcoexist->btc_read_1byte(btcoexist, 0x76e) & 0x8) ) */
++
++	if (coex_sta->under_ips) {
++		coex_sta->high_priority_tx = 65535;
++		coex_sta->high_priority_rx = 65535;
++		coex_sta->low_priority_tx = 65535;
++		coex_sta->low_priority_rx = 65535;
++		return;
++	}
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	if ((coex_sta->low_priority_tx >= 1050)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Hi-Pri Rx/Tx: %d/%d, Lo-Pri Rx/Tx: %d/%d\n",
++		    reg_hp_rx, reg_hp_tx, reg_lp_rx, reg_lp_tx);
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++
++	if ((reg_hp_tx == 0) && (reg_hp_rx == 0) && (reg_lp_tx == 0) &&
++	    (reg_lp_rx == 0)) {
++		num_of_bt_counter_chk++;
++		if (num_of_bt_counter_chk >= 3) {
++			halbtc8192e1ant_query_bt_info(btcoexist);
++			num_of_bt_counter_chk = 0;
++		}
++	}
++}
++
++
++void halbtc8192e1ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++	s32	wifi_rssi = 0;
++	boolean wifi_busy = false, wifi_under_b_mode = false;
++	static u8 cck_lock_counter = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++			   &wifi_under_b_mode);
++
++	if (coex_sta->under_ips) {
++		coex_sta->crc_ok_cck = 0;
++		coex_sta->crc_ok_11g = 0;
++		coex_sta->crc_ok_11n = 0;
++		coex_sta->crc_ok_11n_agg = 0;
++
++		coex_sta->crc_err_cck = 0;
++		coex_sta->crc_err_11g = 0;
++		coex_sta->crc_err_11n = 0;
++		coex_sta->crc_err_11n_agg = 0;
++	} else {
++		coex_sta->crc_ok_cck	= btcoexist->btc_read_4byte(btcoexist,
++					  0xf88);
++		coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf94);
++		coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf90);
++		coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					   0xfb8);
++
++		coex_sta->crc_err_cck	 = btcoexist->btc_read_4byte(btcoexist,
++					   0xf84);
++		coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf96);
++		coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf92);
++		coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					    0xfba);
++	}
++
++
++	/* reset counter */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x0);
++
++	if ((wifi_busy) && (wifi_rssi >= 30) && (!wifi_under_b_mode)) {
++		if ((coex_dm->bt_status == BT_8192E_1ANT_BT_STATUS_ACL_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8192E_1ANT_BT_STATUS_ACL_SCO_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8192E_1ANT_BT_STATUS_SCO_BUSY)) {
++			if (coex_sta->crc_ok_cck > (coex_sta->crc_ok_11g +
++						    coex_sta->crc_ok_11n +
++						    coex_sta->crc_ok_11n_agg)) {
++				if (cck_lock_counter < 5)
++					cck_lock_counter++;
++			} else {
++				if (cck_lock_counter > 0)
++					cck_lock_counter--;
++			}
++
++		} else {
++			if (cck_lock_counter > 0)
++				cck_lock_counter--;
++		}
++	} else {
++		if (cck_lock_counter > 0)
++			cck_lock_counter--;
++	}
++
++	if (!coex_sta->pre_ccklock) {
++
++		if (cck_lock_counter >= 5)
++			coex_sta->cck_lock = true;
++		else
++			coex_sta->cck_lock = false;
++	} else {
++		if (cck_lock_counter == 0)
++			coex_sta->cck_lock = false;
++		else
++			coex_sta->cck_lock = true;
++	}
++
++	coex_sta->pre_ccklock =  coex_sta->cck_lock;
++
++
++}
++
++boolean halbtc8192e1ant_is_wifi_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false;
++	boolean wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++	}
++
++	return false;
++}
++
++void halbtc8192e1ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++u8 halbtc8192e1ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8192E_1ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Profile = SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8192E_1ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_1ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_1ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8192E_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID + A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_1ANT_COEX_ALGO_HID_A2DP;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8192E_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! BT Profile = SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8192e1ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8192e1ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8192e1ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8192e1ant_set_sw_penalty_tx_rate_adaptive(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8192e1ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8192e1ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8192e1ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8192e1ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8192e1ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8192e1ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** CoexTable(%d) **********\n", type);
++	BTC_TRACE(trace_buf);
++
++	coex_sta->coex_table_type = type;
++
++	switch (type) {
++	case 0:
++		halbtc8192e1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x55555555, 0xffffff, 0x3);
++		break;
++	case 1:
++		halbtc8192e1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 2:
++		halbtc8192e1ant_coex_table(btcoexist, force_exec,
++				   0x5a5a5a5a, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 3:
++		halbtc8192e1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 4:
++		halbtc8192e1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0xaaaa5a5a, 0xffffff, 0x3);
++		break;
++	case 5:
++		halbtc8192e1ant_coex_table(btcoexist, force_exec,
++				   0x5a5a5a5a, 0xaa5a5a5a, 0xffffff, 0x3);
++		break;
++	case 6:
++		halbtc8192e1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 7:
++		halbtc8192e1ant_coex_table(btcoexist, force_exec,
++				   0xaaaaaaaa, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8192e1ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8192e1ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8192e1ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8192e1ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8192e1ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8192e1ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8192e1ant_sw_mechanism(IN struct btc_coexist *btcoexist,
++				  IN boolean low_penalty_ra)
++{
++	halbtc8192e1ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8192e1ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean init_hwcfg, IN boolean wifi_off)
++{
++	u32			u32tmp = 0;
++
++	if (init_hwcfg) {
++		btcoexist->btc_write_1byte(btcoexist, 0x944, 0x24);
++		btcoexist->btc_write_4byte(btcoexist, 0x930, 0x700700);
++		if (btcoexist->chip_interface == BTC_INTF_USB)
++			btcoexist->btc_write_4byte(btcoexist, 0x64, 0x30430004);
++		else
++			btcoexist->btc_write_4byte(btcoexist, 0x64, 0x30030004);
++
++		/* 0x4c[27][24]='00', Set Antenna to BB */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp &= ~BIT(24);
++		u32tmp &= ~BIT(27);
++		btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++	} else if (wifi_off) {
++		if (btcoexist->chip_interface == BTC_INTF_USB)
++			btcoexist->btc_write_4byte(btcoexist, 0x64, 0x30430004);
++		else
++			btcoexist->btc_write_4byte(btcoexist, 0x64, 0x30030004);
++
++		/* 0x4c[27][24]='11', Set Antenna to BT, 0x64[8:7]=0, 0x64[2]=1 */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp |= BIT(24);
++		u32tmp |= BIT(27);
++		btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++	}
++
++	/* ext switch setting */
++	switch (ant_pos_type) {
++	case BTC_ANT_PATH_WIFI:
++		btcoexist->btc_write_1byte(btcoexist, 0x92c, 0x4);
++		break;
++	case BTC_ANT_PATH_BT:
++		btcoexist->btc_write_1byte(btcoexist, 0x92c, 0x20);
++		break;
++	default:
++	case BTC_ANT_PATH_PTA:
++		btcoexist->btc_write_1byte(btcoexist, 0x92c, 0x4);
++		break;
++	}
++}
++
++void halbtc8192e1ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], FW for 1Ant AP mode\n");
++			BTC_TRACE(trace_buf);
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++		}
++	}
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++
++void halbtc8192e1ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_busy = false;
++	u8			rssi_adjust_val = 0;
++	u8			ps_tdma_byte4_val = 0x50, ps_tdma_byte0_val = 0x51,
++				ps_tdma_byte3_val =  0x10;
++	s8			wifi_duration_adjust = 0x0;
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (coex_dm->cur_ps_tdma_on) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(on, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(off, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	}
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++
++	if (coex_sta->scan_ap_num <= 5)
++		wifi_duration_adjust = 5;
++	else if (coex_sta->scan_ap_num >= 40)
++		wifi_duration_adjust = -15;
++	else if (coex_sta->scan_ap_num >= 20)
++		wifi_duration_adjust = -10;
++
++	if (!coex_sta->force_lps_on) { /* only for A2DP-only case 1/2/9/11 while wifi noisy threshold > 30 */
++		ps_tdma_byte0_val = 0x61;  /* no null-pkt */
++		ps_tdma_byte3_val = 0x11; /* no tx-pause at BT-slot */
++		ps_tdma_byte4_val = 0x10; /* 0x778 = d/1 toggle */
++	}
++
++	if ((type == 3) || (type == 13) || (type == 14))
++		ps_tdma_byte4_val = ps_tdma_byte4_val &
++			    0xbf;  /* no dynamic slot for multi-profile */
++
++	if (bt_link_info->slave_role == true)
++		ps_tdma_byte4_val = ps_tdma_byte4_val |
++			0x1;  /* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++
++	if (turn_on) {
++		switch (type) {
++		default:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x51,
++				      0x1a, 0x1a, 0x0, ps_tdma_byte4_val);
++			break;
++		case 1:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist,
++						      ps_tdma_byte0_val, 0x3a +
++					      wifi_duration_adjust, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 2:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist,
++						      ps_tdma_byte0_val, 0x2d +
++					      wifi_duration_adjust, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 3:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x51,
++				      0x1d, 0x1d, 0x0, ps_tdma_byte4_val);
++			break;
++		case 4:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x15, 0x3, 0x14, 0x0);
++			break;
++		case 5:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x15, 0x3, 0x11, 0x11);
++			break;
++		case 6:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x20, 0x3, 0x11, 0x11);
++			break;
++		case 7:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xc, 0x5, 0x0, 0x0);
++			break;
++		case 8:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x25, 0x3, 0x10, 0x0);
++			break;
++		case 9:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x3,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 10:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xa, 0xa, 0x0, 0x40);
++			break;
++		case 11:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 12:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x0a, 0x0a, 0x0, 0x50);
++			break;
++		case 13:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x51,
++				      0x12, 0x12, 0x0, ps_tdma_byte4_val);
++			break;
++		case 14:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x51,
++				      0x21, 0x3, 0x10, ps_tdma_byte4_val);
++			break;
++		case 15:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xa, 0x3, 0x8, 0x0);
++			break;
++		case 16:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x15, 0x3, 0x10, 0x0);
++			break;
++		case 18:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x25, 0x3, 0x10, 0x0);
++			break;
++		case 20:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x3f, 0x03, 0x11, 0x10);
++			break;
++		case 21:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x25, 0x03, 0x11, 0x11);
++			break;
++		case 22:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x25, 0x03, 0x11, 0x10);
++			break;
++		case 23:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0x31, 0x18);
++			break;
++		case 24:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x15, 0x3, 0x31, 0x18);
++			break;
++		case 25:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0xa, 0x3, 0x31, 0x18);
++			break;
++		case 26:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0xa, 0x3, 0x31, 0x18);
++			break;
++		case 27:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0x31, 0x98);
++			break;
++		case 28:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x69,
++						      0x25, 0x3, 0x31, 0x0);
++			break;
++		case 29:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0xab,
++						      0x1a, 0x1a, 0x1, 0x10);
++			break;
++		case 30:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x30, 0x3, 0x10, 0x10);
++			break;
++		case 31:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1a, 0x1a, 0, 0x58);
++			break;
++		case 32:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x35, 0x3, 0x11, 0x11);
++			break;
++		case 33:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0xa3,
++						      0x25, 0x3, 0x30, 0x90);
++			break;
++		case 34:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x53,
++						      0x1a, 0x1a, 0x0, 0x10);
++			break;
++		case 35:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x63,
++						      0x1a, 0x1a, 0x0, 0x10);
++			break;
++		case 36:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x12, 0x3, 0x14, 0x50);
++			break;
++		case 40: /* SoftAP only with no sta associated,BT disable ,TDMA mode for power saving */
++			/* here softap mode screen off will cost 70-80mA for phone */
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x23,
++						      0x18, 0x00, 0x10, 0x24);
++			break;
++		}
++	} else {
++
++		/* disable PS tdma */
++		switch (type) {
++		case 8: /* PTA Control */
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x8,
++						      0x0, 0x0, 0x0, 0x0);
++			halbtc8192e1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_PTA, false, false);
++			break;
++		case 0:
++		default:  /* Software control, Antenna at BT side */
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			halbtc8192e1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_BT, false, false);
++			break;
++		case 9:   /* Software control, Antenna at WiFi side */
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			halbtc8192e1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_WIFI, false, false);
++			break;
++		}
++	}
++	rssi_adjust_val = 0;
++	btcoexist->btc_set(btcoexist,
++		BTC_SET_U1_RSSI_ADJ_VAL_FOR_1ANT_COEX_TYPE, &rssi_adjust_val);
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"############# [BTCoex], 0x948=0x%x, 0x765=0x%x, 0x67=0x%x\n",
++		    btcoexist->btc_read_4byte(btcoexist, 0x948),
++		    btcoexist->btc_read_1byte(btcoexist, 0x765),
++		    btcoexist->btc_read_1byte(btcoexist, 0x67));
++	BTC_TRACE(trace_buf);
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8192e1ant_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++	/* sw all off */
++	halbtc8192e1ant_sw_mechanism(btcoexist, false);
++
++	/* hw all off */
++	halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++boolean halbtc8192e1ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected &&
++	    BT_8192E_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++	    coex_dm->bt_status) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++		/* halbtc8192e1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		   (BT_8192E_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++		/* halbtc8192e1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8192E_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++		/* halbtc8192e1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		(BT_8192E_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++		/* halbtc8192e1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8192E_1ANT_BT_STATUS_CONNECTED_IDLE != coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non connected-idle + BT Busy!!\n");
++		BTC_TRACE(trace_buf);
++		/* halbtc8192e1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else {
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		}
++
++		common = false;
++	}
++
++	return common;
++}
++
++
++void halbtc8192e1ant_tdma_duration_adjust_for_acl(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0, bt_info_ext;
++	boolean			wifi_busy = false;
++	/*static boolean	pre_wifi_busy = false;*/
++
++	if (BT_8192E_1ANT_WIFI_STATUS_CONNECTED_BUSY == wifi_status)
++		wifi_busy = true;
++	else
++		wifi_busy = false;
++
++	if ((BT_8192E_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN ==
++	     wifi_status) ||
++	    (BT_8192E_1ANT_WIFI_STATUS_CONNECTED_SCAN == wifi_status) ||
++	    (BT_8192E_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT ==
++	     wifi_status)) {
++		if (coex_dm->cur_ps_tdma != 1 &&
++		    coex_dm->cur_ps_tdma != 2 &&
++		    coex_dm->cur_ps_tdma != 3 &&
++		    coex_dm->cur_ps_tdma != 9) {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						9);
++			coex_dm->ps_tdma_du_adj_type = 9;
++
++			up = 0;
++			dn = 0;
++			m = 1;
++			n = 3;
++			result = 0;
++			wait_count = 0;
++		}
++		return;
++	}
++
++	if (!coex_dm->auto_tdma_adjust) {
++		coex_dm->auto_tdma_adjust = true;
++
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 2);
++		coex_dm->ps_tdma_du_adj_type = 2;
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/* accquire the BT TRx retry count from BT_Info byte2 */
++		retry_count = coex_sta->bt_retry_cnt;
++		bt_info_ext = coex_sta->bt_info_ext;
++
++		if ((coex_sta->low_priority_tx) > 1050 ||
++		    (coex_sta->low_priority_rx) > 1250)
++			retry_count++;
++
++		result = 0;
++		wait_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if retry count during continuous n*2 seconds is 0, enlarge WiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {	/* if continuous 2 retry count(every 2 seconds) >0 and < 3, reduce WiFi duration */
++				if (wait_count <= 2)
++					m++; /* to avoid loop between the two levels */
++				else
++					m = 1;
++
++				if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++			}
++		} else { /* retry count > 3, once retry count > 3, to reduce WiFi duration */
++			if (wait_count == 1)
++				m++; /* to avoid loop between the two levels */
++			else
++				m = 1;
++
++			if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++		}
++
++		if (result == -1) {
++			if ((BT_INFO_8192E_1ANT_A2DP_BASIC_RATE(bt_info_ext)) &&
++			    ((coex_dm->cur_ps_tdma == 1) ||
++			     (coex_dm->cur_ps_tdma == 2))) {
++				halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 1) {
++				halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 2);
++				coex_dm->ps_tdma_du_adj_type = 2;
++			} else if (coex_dm->cur_ps_tdma == 2) {
++				halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 9) {
++				halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 11);
++				coex_dm->ps_tdma_du_adj_type = 11;
++			}
++		} else if (result == 1) {
++			if ((BT_INFO_8192E_1ANT_A2DP_BASIC_RATE(bt_info_ext)) &&
++			    ((coex_dm->cur_ps_tdma == 1) ||
++			     (coex_dm->cur_ps_tdma == 2))) {
++				halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 11) {
++				halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 9) {
++				halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 2);
++				coex_dm->ps_tdma_du_adj_type = 2;
++			} else if (coex_dm->cur_ps_tdma == 2) {
++				halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 1);
++				coex_dm->ps_tdma_du_adj_type = 1;
++			}
++		} else { /* no change */
++			/* Bryant Modify
++			if(wifi_busy != pre_wifi_busy)
++			{
++				pre_wifi_busy = wifi_busy;
++				halbtc8192e1ant_ps_tdma(btcoexist, FORCE_EXEC, true, coex_dm->cur_ps_tdma);
++			}
++			*/
++		}
++
++		if (coex_dm->cur_ps_tdma != 1 &&
++		    coex_dm->cur_ps_tdma != 2 &&
++		    coex_dm->cur_ps_tdma != 9 &&
++		    coex_dm->cur_ps_tdma != 11) {
++			/* recover to previous adjust type */
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						coex_dm->ps_tdma_du_adj_type);
++		}
++	}
++}
++
++void halbtc8192e1ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8192e1ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8192e1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8192e1ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		coex_sta->force_lps_on = true;
++		break;
++	case BTC_PS_LPS_OFF:
++		halbtc8192e1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8192e1ant_action_wifi_only(IN struct btc_coexist *btcoexist)
++{
++	halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 9);
++}
++
++void halbtc8192e1ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++
++	/* This function check if bt is disabled */
++
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is enabled !!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		bt_disable_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], bt all counters=0, %d times!!\n",
++			    bt_disable_cnt);
++		BTC_TRACE(trace_buf);
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++					   &bt_disabled);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e1ant_action_wifi_only(btcoexist);
++		}
++	}
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++		if (!bt_disabled) {
++		} else {
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++					   NULL);
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++					   NULL);
++		}
++	}
++}
++
++/* *********************************************
++ *
++ *	Software Coex Mechanism start
++ *
++ * ********************************************* */
++
++/* SCO only or SCO+PAN(HS) */
++
++/*
++void halbtc8192e1ant_action_sco(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8192e1ant_action_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8192e1ant_action_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8192e1ant_action_a2dp_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8192e1ant_action_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8192e1ant_action_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8192e1ant_action_pan_edr_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8192e1ant_action_pan_edr_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8192e1ant_action_hid_a2dp_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, true);
++}
++
++void halbtc8192e1ant_action_hid_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, true);
++}
++
++*/
++
++/* *********************************************
++ *
++ *	Non-Software Coex Mechanism start
++ *
++ * ********************************************* */
++void halbtc8192e1ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8192e1ant_action_hs(IN struct btc_coexist *btcoexist)
++{
++	halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++	halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8192e1ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_connected = false, ap_enable = false, wifi_busy = false,
++				bt_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	if ((!wifi_connected) && (!coex_sta->wifi_is_high_pri_task)) {
++		halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist) ||
++		   (bt_link_info->a2dp_exist)) {
++		/* SCO/HID/A2DP  busy */
++		halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if ((bt_link_info->pan_exist) || (wifi_busy)) {
++		halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++	}
++}
++
++void halbtc8192e1ant_action_bt_sco_hid_only_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	/* tdma and coex table */
++
++	if (bt_link_info->sco_exist) {
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else { /* HID */
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	}
++}
++
++void halbtc8192e1ant_action_wifi_connected_bt_acl_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	u8		bt_rssi_state;
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	bt_rssi_state = halbtc8192e1ant_bt_rssi_state(2, 28, 0);
++
++	if ((coex_sta->low_priority_rx >= 1000)  &&
++	    (coex_sta->low_priority_rx != 65535))
++		bt_link_info->slave_role = true;
++	else
++		bt_link_info->slave_role = false;
++
++	if (bt_link_info->hid_only) { /* HID */
++		halbtc8192e1ant_action_bt_sco_hid_only_busy(btcoexist,
++				wifi_status);
++		coex_dm->auto_tdma_adjust = false;
++		return;
++	} else if (bt_link_info->a2dp_only) { /* A2DP		 */
++		if (BT_8192E_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status) {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = false;
++		} else {
++			halbtc8192e1ant_tdma_duration_adjust_for_acl(btcoexist,
++					wifi_status);
++#if 0
++			if (coex_sta->cck_lock)
++				halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 3);
++			else
++#endif
++				halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = true;
++		}
++	} else if (((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) ||
++		   (bt_link_info->hid_exist && bt_link_info->a2dp_exist &&
++		bt_link_info->pan_exist)) { /* A2DP+PAN(OPP,FTP), HID+A2DP+PAN(OPP,FTP) */
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	} else if (bt_link_info->hid_exist &&
++		   bt_link_info->a2dp_exist) { /* HID+A2DP */
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 14);
++		coex_dm->auto_tdma_adjust = false;
++
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++	} else if ((bt_link_info->pan_only) || (bt_link_info->hid_exist &&
++		bt_link_info->pan_exist)) { /* PAN(OPP,FTP), HID+PAN(OPP,FTP)			 */
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	} else {
++		/* BT no-profile busy (0x9) */
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	}
++}
++
++void halbtc8192e1ant_action_wifi_not_connected(IN struct btc_coexist *btcoexist)
++{
++	/* power save state */
++	halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	halbtc8192e1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8192e1ant_action_wifi_not_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if (BT_8192E_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						20);
++			halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8192E_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8192E_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8192e1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8192E_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		/* Bryant Add */
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8192e1ant_action_wifi_not_connected_asso_auth(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist)  || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8192e1ant_action_wifi_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if (BT_8192E_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						20);
++			halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8192E_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8192E_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8192e1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8192E_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		/* Bryant Add */
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8192e1ant_action_wifi_connected_specific_packet(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8192e1ant_action_wifi_connected(IN struct btc_coexist *btcoexist)
++{
++	boolean	wifi_busy = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean		under_4way = false, ap_enable = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], CoexForWifiConnect()===>\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (under_4way) {
++		halbtc8192e1ant_action_wifi_connected_specific_packet(btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 4way<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++	if (scan || link || roam) {
++		if (scan)
++			halbtc8192e1ant_action_wifi_connected_scan(btcoexist);
++		else
++			halbtc8192e1ant_action_wifi_connected_specific_packet(
++				btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under scan<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	/* power save state */
++	if (!ap_enable &&
++	    BT_8192E_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status &&
++	    !btcoexist->bt_link_info.hid_only) {
++		if (btcoexist->bt_link_info.a2dp_only) {	/* A2DP */
++			if (!wifi_busy)
++				halbtc8192e1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			else { /* busy */
++				if (coex_sta->scan_ap_num >=
++				    BT_8192E_1ANT_WIFI_NOISY_THRESH)  /* no force LPS, no PS-TDMA, use pure TDMA */
++					halbtc8192e1ant_power_save_state(
++						btcoexist, BTC_PS_WIFI_NATIVE,
++						0x0, 0x0);
++				else
++					halbtc8192e1ant_power_save_state(
++						btcoexist, BTC_PS_LPS_ON, 0x50,
++						0x4);
++			}
++		} else if ((coex_sta->pan_exist == false) &&
++			   (coex_sta->a2dp_exist == false) &&
++			   (coex_sta->hid_exist == false))
++			halbtc8192e1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		else
++			halbtc8192e1ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++	} else
++		halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++
++	/* tdma and coex table */
++	if (!wifi_busy) {
++		if (BT_8192E_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8192e1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8192E_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else if ((BT_8192E_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8192E_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8192e1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8192E_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++
++			if ((coex_sta->high_priority_tx) +
++			    (coex_sta->high_priority_rx) <= 60)
++				halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++			else
++				halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		}
++	} else {
++		if (BT_8192E_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8192e1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8192E_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else if ((BT_8192E_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8192E_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8192e1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8192E_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++
++			if ((coex_sta->high_priority_tx) +
++			    (coex_sta->high_priority_rx) <= 60)
++				halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++			else
++				halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		}
++	}
++}
++
++void halbtc8192e1ant_run_sw_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8				algorithm = 0;
++
++	algorithm = halbtc8192e1ant_action_algorithm(btcoexist);
++	coex_dm->cur_algorithm = algorithm;
++
++	if (halbtc8192e1ant_is_common_action(btcoexist)) {
++
++	} else {
++		switch (coex_dm->cur_algorithm) {
++		case BT_8192E_1ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_sco(btcoexist); */
++			break;
++		case BT_8192E_1ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_hid(btcoexist); */
++			break;
++		case BT_8192E_1ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_a2dp(btcoexist); */
++			break;
++		case BT_8192E_1ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_a2dp_pan_hs(btcoexist); */
++			break;
++		case BT_8192E_1ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_pan_edr(btcoexist); */
++			break;
++		case BT_8192E_1ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_pan_hs(btcoexist); */
++			break;
++		case BT_8192E_1ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_pan_edr_a2dp(btcoexist); */
++			break;
++		case BT_8192E_1ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_pan_edr_hid(btcoexist); */
++			break;
++		case BT_8192E_1ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_hid_a2dp_pan_edr(btcoexist); */
++			break;
++		case BT_8192E_1ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_hid_a2dp(btcoexist); */
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_coex_all_off(btcoexist); */
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8192e1ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false, bt_hs_on = false;
++	boolean	increase_scan_dev_num = false;
++	boolean	bt_ctrl_agg_buf_size = false;
++	boolean	miracast_plus_bt = false;
++	u8	agg_buf_size = 5;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if ((BT_8192E_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8192E_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8192E_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		increase_scan_dev_num = true;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_INC_SCAN_DEV_NUM,
++			   &increase_scan_dev_num);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist) {
++			halbtc8192e1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1,
++						   0, 1);
++			miracast_plus_bt = true;
++		} else {
++			halbtc8192e1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0,
++						   0, 0);
++			miracast_plus_bt = false;
++		}
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8192e1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if ((bt_link_info->a2dp_exist) &&
++		    (coex_sta->c2h_bt_inquiry_page)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8192e1ant_action_wifi_multi_port(btcoexist);
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++	if ((bt_link_info->bt_link_exist) && (wifi_connected)) {
++		halbtc8192e1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1, 0, 1);
++
++		if (bt_link_info->sco_exist)
++			halbtc8192e1ant_limited_rx(btcoexist, NORMAL_EXEC,
++						   false, true, 0x5);
++		else
++			halbtc8192e1ant_limited_rx(btcoexist, NORMAL_EXEC,
++						   false, true, 0x8);
++
++		halbtc8192e1ant_sw_mechanism(btcoexist, true);
++		halbtc8192e1ant_run_sw_coexist_mechanism(
++			btcoexist);  /* just print debug message */
++	} else {
++		halbtc8192e1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++		halbtc8192e1ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x5);
++
++		halbtc8192e1ant_sw_mechanism(btcoexist, false);
++		halbtc8192e1ant_run_sw_coexist_mechanism(
++			btcoexist); /* just print debug message */
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "############# [BTCoex],  BT Is Inquirying\n");
++		BTC_TRACE(trace_buf);
++		halbtc8192e1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8192e1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	if (!wifi_connected) {
++		boolean	scan = false, link = false, roam = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is non connected-idle !!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (scan || link || roam) {
++			if (scan)
++				halbtc8192e1ant_action_wifi_not_connected_scan(
++					btcoexist);
++			else
++				halbtc8192e1ant_action_wifi_not_connected_asso_auth(
++					btcoexist);
++		} else
++			halbtc8192e1ant_action_wifi_not_connected(btcoexist);
++	} else	/* wifi LPS/Busy */
++		halbtc8192e1ant_action_wifi_connected(btcoexist);
++}
++
++void halbtc8192e1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++
++	/* sw all off */
++	halbtc8192e1ant_sw_mechanism(btcoexist, false);
++
++	/* halbtc8192e1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8); */
++	halbtc8192e1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	coex_sta->pop_event_cnt = 0;
++}
++
++void halbtc8192e1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean wifi_only)
++{
++	u16	u16tmp = 0;
++	u8	u8tmp = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 1Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	/* antenna sw ctrl to bt */
++	halbtc8192e1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, true, false);
++
++	halbtc8192e1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	/* antenna switch control parameter */
++	btcoexist->btc_write_4byte(btcoexist, 0x858, 0x55555555);
++
++	/* coex parameters */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++	/* 0x790[5:0]=0x5 */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x790);
++	u8tmp &= 0xc0;
++	u8tmp |= 0x5;
++	btcoexist->btc_write_1byte(btcoexist, 0x790, u8tmp);
++
++	/* enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++	/* enable PTA */
++	btcoexist->btc_write_1byte(btcoexist, 0x40, 0x20);
++	/* enable mailbox interface */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x40);
++	u16tmp |= BIT(9);
++	btcoexist->btc_write_2byte(btcoexist, 0x40, u16tmp);
++
++	/* enable PTA I2C mailbox */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x101);
++	u8tmp |= BIT(4);
++	btcoexist->btc_write_1byte(btcoexist, 0x101, u8tmp);
++
++	/* enable bt clock when wifi is disabled. */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x93);
++	u8tmp |= BIT(0);
++	btcoexist->btc_write_1byte(btcoexist, 0x93, u8tmp);
++	/* enable bt clock when suspend. */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x7);
++	u8tmp |= BIT(0);
++	btcoexist->btc_write_1byte(btcoexist, 0x7, u8tmp);
++}
++
++
++/*
++void halbtc8192e1ant_wifi_off_hw_cfg(IN struct btc_coexist* btcoexist)
++{
++
++
++}
++*/
++
++/* ************************************************************
++ * work around function start with wa_halbtc8192e1ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8192e1ant_
++ * ************************************************************ */
++void ex_halbtc8192e1ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++#if 0
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x0;
++	u16 u16tmp = 0x0;
++
++	btcoexist->stop_coex_dm = true;
++
++	btcoexist->btc_write_1byte(btcoexist, 0x67, 0x20);
++
++	/* enable BB, REG_SYS_FUNC_EN such that we can write 0x948 correctly. */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x2);
++	btcoexist->btc_write_2byte(btcoexist, 0x2, u16tmp | BIT(0) | BIT(1));
++
++	/* set GRAN_BT = 1 */
++	btcoexist->btc_write_1byte(btcoexist, 0x765, 0x18);
++	/* set WLAN_ACT = 0 */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++	/*  */
++	/* S0 or S1 setting and Local register setting(By the setting fw can get ant number, S0/S1, ... info) */
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++	if (btcoexist->chip_interface == BTC_INTF_USB) {
++		/* fixed at S0 for USB interface */
++		btcoexist->btc_write_4byte(btcoexist, 0x948, 0x0);
++
++		u8tmp |= 0x1;	/* antenna inverse */
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++	} else {
++		/* for PCIE and SDIO interface, we check efuse 0xc3[6] */
++		if (board_info->single_ant_path == 0) {
++			/* set to S1 */
++			btcoexist->btc_write_4byte(btcoexist, 0x948, 0x280);
++			board_info->btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++		} else if (board_info->single_ant_path == 1) {
++			/* set to S0 */
++			btcoexist->btc_write_4byte(btcoexist, 0x948, 0x0);
++			u8tmp |= 0x1;	/* antenna inverse */
++			board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++		}
++
++		if (btcoexist->chip_interface == BTC_INTF_PCI)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x384,
++							     u8tmp);
++		else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60,
++							     u8tmp);
++	}
++#endif
++}
++
++void ex_halbtc8192e1ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8192e1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8192e1ant_init_hw_config(btcoexist, wifi_only);
++	btcoexist->stop_coex_dm = false;
++}
++
++void ex_halbtc8192e1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = false;
++
++	halbtc8192e1ant_init_coex_dm(btcoexist);
++
++	halbtc8192e1ant_query_bt_info(btcoexist);
++}
++
++void ex_halbtc8192e1ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u32				u32tmp[4];
++	u32				fw_ver = 0, bt_patch_ver = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	if (btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "Ant PG number/ Ant mechanism:",
++		   board_info->pg_ant_num, board_info->btdm_ant_num);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%d/ 0x%x/ 0x%x(%d)",
++		   "CoexVer/ FwVer/ PatchVer",
++		   glcoex_ver_date_8192e_1ant, glcoex_ver_8192e_1ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8192E_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8192E_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi, coex_sta->bt_retry_cnt);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist);
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_BT_LINK_INFO);
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Info A2DP rate",
++		   (bt_info_ext & BIT(0)) ? "Basic rate" : "EDR rate");
++	CL_PRINTF(cli_buf);
++
++	for (i = 0; i < BT_INFO_SRC_8192E_1ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8192e_1ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	if (!btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanisms]============");
++		CL_PRINTF(cli_buf);
++
++		ps_tdma_case = coex_dm->cur_ps_tdma;
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n %-35s = %02x %02x %02x %02x %02x case-%d (auto:%d)",
++			   "PS TDMA",
++			   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++			   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++			   coex_dm->ps_tdma_para[4], ps_tdma_case,
++			   coex_dm->auto_tdma_adjust);
++		CL_PRINTF(cli_buf);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x ",
++			   "Latest error condition(should be 0)",
++			   coex_dm->error_condition);
++		CL_PRINTF(cli_buf);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ",
++			   "IgnWlanAct",
++			   coex_dm->cur_ignore_wlan_act);
++		CL_PRINTF(cli_buf);
++	}
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc04);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xd04);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x90c);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0xc04/ 0xd04/ 0x90c",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x778",
++		   u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x92c);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x930);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x92c/ 0x930",
++		   (u8tmp[0]), u32tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x4f);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x40/ 0x4f",
++		   u8tmp[0], u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0xc50(dig)",
++		   u32tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8/0x6cc(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(hp rx[31:16]/tx[15:0])",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(lp rx[31:16]/tx[15:0])",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++#if (BT_AUTO_REPORT_ONLY_8192E_1ANT == 1)
++	halbtc8192e1ant_monitor_bt_ctr(btcoexist);
++#endif
++
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++void ex_halbtc8192e1ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++		halbtc8192e1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, false,
++					     true);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = false;
++
++		halbtc8192e1ant_init_hw_config(btcoexist, false);
++		halbtc8192e1ant_init_coex_dm(btcoexist);
++		halbtc8192e1ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8192e1ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++	}
++}
++
++void ex_halbtc8192e1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	u8 u8tmpa, u8tmpb;
++	u32 u32tmp;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_SCAN_START == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8192e1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++			8);  /* Force antenna setup for no scan result issue */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x948);
++		u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++		u8tmpb = btcoexist->btc_read_1byte(btcoexist, 0x67);
++
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], 0x948=0x%x, 0x765=0x%x, 0x67=0x%x\n",
++			    u32tmp,  u8tmpa, u8tmpb);
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);
++	}
++
++	if (coex_sta->bt_disabled)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	halbtc8192e1ant_query_bt_info(btcoexist);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8192e1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8192e1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8192e1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8192e1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8192e1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_SCAN_START == type) {
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8192e1ant_action_wifi_not_connected_scan(
++				btcoexist);
++		else	/* wifi is connected */
++			halbtc8192e1ant_action_wifi_connected_scan(btcoexist);
++	} else if (BTC_SCAN_FINISH == type) {
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8192e1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8192e1ant_action_wifi_connected(btcoexist);
++	}
++}
++
++void ex_halbtc8192e1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	boolean	wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	if (BTC_ASSOCIATE_START == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++		/* coex_dm->arp_cnt = 0; */
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8192e1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8192e1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8192e1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8192e1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8192e1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_ASSOCIATE_START == type)
++		halbtc8192e1ant_action_wifi_not_connected_asso_auth(btcoexist);
++	else if (BTC_ASSOCIATE_FINISH == type) {
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++				   &wifi_connected);
++		if (!wifi_connected) /* non-connected scan */
++			halbtc8192e1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8192e1ant_action_wifi_connected(btcoexist);
++	}
++}
++
++void ex_halbtc8192e1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++	boolean			wifi_under_b_mode = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++
++		/* Set CCK Tx/Rx high Pri except 11b mode */
++		if (wifi_under_b_mode) {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x00); /* CCK Rx */
++		} else {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x10); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x10); /* CCK Rx */
++		}
++
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++
++		btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x0); /* CCK Tx */
++		btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x0); /* CCK Rx */
++	}
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		/* h2c_parameter[0] = 0x1; */
++		h2c_parameter[0] = 0x0;
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++}
++
++void ex_halbtc8192e1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean	bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	if (BTC_PACKET_DHCP == type ||
++	    BTC_PACKET_EAPOL == type ||
++	    BTC_PACKET_ARP == type) {
++		if (BTC_PACKET_ARP == type) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], specific Packet ARP notify\n");
++			BTC_TRACE(trace_buf);
++
++			coex_dm->arp_cnt++;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], ARP Packet Count = %d\n",
++				    coex_dm->arp_cnt);
++			BTC_TRACE(trace_buf);
++
++			if (coex_dm->arp_cnt >=
++			    10) /* if APR PKT > 10 after connect, do not go to ActionWifiConnectedSpecificPacket(btcoexist) */
++				coex_sta->wifi_is_high_pri_task = false;
++			else
++				coex_sta->wifi_is_high_pri_task = true;
++		} else {
++			coex_sta->wifi_is_high_pri_task = true;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], specific Packet DHCP or EAPOL notify\n");
++			BTC_TRACE(trace_buf);
++		}
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet [Type = %d] notify\n", type);
++		BTC_TRACE(trace_buf);
++	}
++
++	coex_sta->specific_pkt_period_cnt = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8192e1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8192e1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8192e1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8192e1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8192e1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_PACKET_DHCP == type ||
++	    BTC_PACKET_EAPOL == type ||
++	    ((BTC_PACKET_ARP == type) && (coex_sta->wifi_is_high_pri_task)))
++		halbtc8192e1ant_action_wifi_connected_specific_packet(btcoexist);
++}
++
++void ex_halbtc8192e1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8				bt_info = 0;
++	u8				i, rsp_source = 0;
++	boolean				wifi_connected = false;
++	boolean				bt_busy = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8192E_1ANT_MAX)
++		rsp_source = BT_INFO_SRC_8192E_1ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (BT_INFO_SRC_8192E_1ANT_WIFI_FW != rsp_source) {
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x20)
++			coex_sta->c2h_bt_page = true;
++		else
++			coex_sta->c2h_bt_page = false;
++
++		coex_sta->bt_rssi =
++			coex_sta->bt_info_c2h[rsp_source][3] * 2 - 90;
++		/* coex_sta->bt_info_c2h[rsp_source][3]*2+10; */
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		coex_sta->bt_tx_rx_mask = (coex_sta->bt_info_c2h[rsp_source][2]
++					   & 0x40);
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TX_RX_MASK,
++				   &coex_sta->bt_tx_rx_mask);
++		if (!coex_sta->bt_tx_rx_mask) {
++			/* BT into is responded by BT FW and BT RF REG 0x3C != 0x15 => Need to switch BT TRx Mask */
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Switch BT TRx Mask since BT RF REG 0x3C != 0x15\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF,
++						  0x3c, 0x15);
++		}
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++		if (coex_sta->bt_info_ext & BIT(1)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++					   &wifi_connected);
++			if (wifi_connected)
++				ex_halbtc8192e1ant_media_status_notify(
++					btcoexist, BTC_MEDIA_CONNECT);
++			else
++				ex_halbtc8192e1ant_media_status_notify(
++					btcoexist, BTC_MEDIA_DISCONNECT);
++		}
++
++		if (coex_sta->bt_info_ext & BIT(3)) {
++			if (!btcoexist->manual_control &&
++			    !btcoexist->stop_coex_dm) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8192e1ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		} else {
++			/* BT already NOT ignore Wlan active, do nothing here. */
++		}
++#if (BT_AUTO_REPORT_ONLY_8192E_1ANT == 0)
++		if ((coex_sta->bt_info_ext & BIT(4))) {
++			/* BT auto report already enabled, do nothing */
++		} else
++			halbtc8192e1ant_bt_auto_report(btcoexist, FORCE_EXEC,
++						       true);
++#endif
++	}
++
++	/* check BIT2 first ==> check if bt is under inquiry or page scan */
++	if (bt_info & BT_INFO_8192E_1ANT_B_INQ_PAGE)
++		coex_sta->c2h_bt_inquiry_page = true;
++	else
++		coex_sta->c2h_bt_inquiry_page = false;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8192E_1ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8192E_1ANT_B_FTP)
++			coex_sta->pan_exist = true;
++		else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8192E_1ANT_B_A2DP)
++			coex_sta->a2dp_exist = true;
++		else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8192E_1ANT_B_HID)
++			coex_sta->hid_exist = true;
++		else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8192E_1ANT_B_SCO_ESCO)
++			coex_sta->sco_exist = true;
++		else
++			coex_sta->sco_exist = false;
++	}
++
++	halbtc8192e1ant_update_bt_link_info(btcoexist);
++
++	bt_info = bt_info &
++		0x1f;  /* mask profile bit for connect-ilde identification ( for CSR case: A2DP idle --> 0x41) */
++
++	if (!(bt_info & BT_INFO_8192E_1ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8192E_1ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8192E_1ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8192E_1ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8192E_1ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8192E_1ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8192E_1ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8192E_1ANT_B_ACL_BUSY) {
++		if (BT_8192E_1ANT_BT_STATUS_ACL_BUSY != coex_dm->bt_status)
++			coex_dm->auto_tdma_adjust = false;
++		coex_dm->bt_status = BT_8192E_1ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8192E_1ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8192E_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8192E_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8192E_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		bt_busy = true;
++	else
++		bt_busy = false;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	halbtc8192e1ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8192e1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u32	u32tmp;
++	u8	u8tmpa, u8tmpb, u8tmpc;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RF Status notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_RF_ON == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->stop_coex_dm = false;
++	} else if (BTC_RF_OFF == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8192e1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++		halbtc8192e1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, false,
++					     true);
++
++		halbtc8192e1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++		btcoexist->stop_coex_dm = true;
++
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x948);
++		u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++		u8tmpb = btcoexist->btc_read_1byte(btcoexist, 0x67);
++		u8tmpc = btcoexist->btc_read_1byte(btcoexist, 0x76e);
++
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex], 0x948=0x%x, 0x765=0x%x, 0x67=0x%x, 0x76e=0x%x\n",
++			    u32tmp,  u8tmpa, u8tmpb, u8tmpc);
++		BTC_TRACE(trace_buf);
++
++	}
++}
++
++void ex_halbtc8192e1ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8192e1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++	halbtc8192e1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, false, true);
++
++	halbtc8192e1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++	ex_halbtc8192e1ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	btcoexist->stop_coex_dm = true;
++}
++
++void ex_halbtc8192e1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++		halbtc8192e1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, false,
++					     true);
++
++		/* Sinda 20150819, workaround for driver skip leave IPS/LPS to speed up sleep time. */
++		/* Driver do not leave IPS/LPS when driver is going to sleep, so BTCoexistence think wifi is still under IPS/LPS */
++		/* BT should clear UnderIPS/UnderLPS state to avoid mismatch state after wakeup. */
++		coex_sta->under_ips = false;
++		coex_sta->under_lps = false;
++		btcoexist->stop_coex_dm = true;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->stop_coex_dm = false;
++		halbtc8192e1ant_init_hw_config(btcoexist, false);
++		halbtc8192e1ant_init_coex_dm(btcoexist);
++		halbtc8192e1ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8192e1ant_coex_dm_reset(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], *****************Coex DM Reset*****************\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8192e1ant_init_hw_config(btcoexist, false);
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0); */
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x2, 0xfffff, 0x0); */
++	halbtc8192e1ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8192e1ant_periodical(IN struct btc_coexist *btcoexist)
++{
++#if (BT_AUTO_REPORT_ONLY_8192E_1ANT == 0)
++	halbtc8192e1ant_query_bt_info(btcoexist);
++	halbtc8192e1ant_monitor_bt_enable_disable(btcoexist);
++#else
++	halbtc8192e1ant_monitor_bt_ctr(btcoexist);
++	halbtc8192e1ant_monitor_wifi_ctr(btcoexist);
++
++	if (halbtc8192e1ant_is_wifi_status_changed(btcoexist) ||
++	    coex_dm->auto_tdma_adjust)
++
++		halbtc8192e1ant_run_coexist_mechanism(btcoexist);
++
++	coex_sta->specific_pkt_period_cnt++;
++#endif
++}
++
++
++void ex_halbtc8192e1ant_dbg_control(IN struct btc_coexist *btcoexist,
++				    IN u8 op_code, IN u8 op_len, IN u8 *pdata)
++{
++	switch (op_code) {
++	case BTC_DBG_SET_COEX_NORMAL:
++		btcoexist->manual_control = false;
++		halbtc8192e1ant_init_coex_dm(btcoexist);
++		break;
++	case BTC_DBG_SET_COEX_WIFI_ONLY:
++		btcoexist->manual_control = true;
++		halbtc8192e1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++					9);
++		break;
++	case BTC_DBG_SET_COEX_BT_ONLY:
++		/* todo */
++		break;
++	default:
++		break;
++	}
++}
++
++#endif	/*  #if (RTL8192E_SUPPORT == 1) */
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
+\ No newline at end of file
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8192e1Ant.h b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8192e1Ant.h
+new file mode 100644
+index 0000000..e75127c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8192e1Ant.h
+@@ -0,0 +1,226 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8192E_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8192E 1ANT BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8192E_1ANT				1
++
++#define	BT_INFO_8192E_1ANT_B_FTP						BIT(7)
++#define	BT_INFO_8192E_1ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8192E_1ANT_B_HID						BIT(5)
++#define	BT_INFO_8192E_1ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8192E_1ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8192E_1ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8192E_1ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8192E_1ANT_B_CONNECTION				BIT(0)
++
++#define	BT_INFO_8192E_1ANT_A2DP_BASIC_RATE(_BT_INFO_EXT_)	\
++		(((_BT_INFO_EXT_&BIT(0))) ? true : false)
++
++#define	BTC_RSSI_COEX_THRESH_TOL_8192E_1ANT		2
++
++#define  BT_8192E_1ANT_WIFI_NOISY_THRESH								30   /* max: 255 */
++
++enum bt_info_src_8192e_1ant {
++	BT_INFO_SRC_8192E_1ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8192E_1ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8192E_1ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8192E_1ANT_MAX
++};
++
++enum bt_8192e_1ant_bt_status {
++	BT_8192E_1ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8192E_1ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8192E_1ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8192E_1ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8192E_1ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8192E_1ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8192E_1ANT_BT_STATUS_MAX
++};
++
++enum bt_8192e_1ant_wifi_status {
++	BT_8192E_1ANT_WIFI_STATUS_NON_CONNECTED_IDLE				= 0x0,
++	BT_8192E_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN		= 0x1,
++	BT_8192E_1ANT_WIFI_STATUS_CONNECTED_SCAN					= 0x2,
++	BT_8192E_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT				= 0x3,
++	BT_8192E_1ANT_WIFI_STATUS_CONNECTED_IDLE					= 0x4,
++	BT_8192E_1ANT_WIFI_STATUS_CONNECTED_BUSY					= 0x5,
++	BT_8192E_1ANT_WIFI_STATUS_MAX
++};
++
++enum bt_8192e_1ant_coex_algo {
++	BT_8192E_1ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8192E_1ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8192E_1ANT_COEX_ALGO_HID				= 0x2,
++	BT_8192E_1ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8192E_1ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8192E_1ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8192E_1ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8192E_1ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8192E_1ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8192E_1ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8192E_1ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8192E_1ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++struct coex_dm_8192e_1ant {
++	/* fw mechanism */
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	/* sw mechanism */
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++	u32		arp_cnt;
++
++	u8		error_condition;
++};
++
++struct coex_sta_8192e_1ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					specific_pkt_period_cnt;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	s8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8192E_1ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8192E_1ANT_MAX];
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_page;				/* Add for win8.1 page out issue */
++	boolean					wifi_is_high_pri_task;		/* Add for win8.1 page out issue */
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	boolean					cck_lock;
++	boolean					pre_ccklock;
++	u8					coex_table_type;
++
++	boolean					force_lps_on;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8192e1ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e1ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8192e1ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e1ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8192e1ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8192e1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8192e1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8192e1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8192e1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8192e1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8192e1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8192e1ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8192e1ant_coex_dm_reset(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e1ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e1ant_display_coex_info(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e1ant_dbg_control(IN struct btc_coexist *btcoexist,
++				    IN u8 op_code, IN u8 op_len, IN u8 *pdata);
++
++#else	/*  #if (RTL8192E_SUPPORT == 1) */
++#define	ex_halbtc8192e1ant_power_on_setting(btcoexist)
++#define	ex_halbtc8192e1ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8192e1ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8192e1ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8192e1ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8192e1ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8192e1ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8192e1ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8192e1ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8192e1ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8192e1ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8192e1ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8192e1ant_halt_notify(btcoexist)
++#define	ex_halbtc8192e1ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8192e1ant_coex_dm_reset(btcoexist)
++#define	ex_halbtc8192e1ant_periodical(btcoexist)
++#define	ex_halbtc8192e1ant_display_coex_info(btcoexist)
++#define	ex_halbtc8192e1ant_dbg_control(btcoexist, op_code, op_len, pdata)
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8192e2Ant.c b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8192e2Ant.c
+new file mode 100644
+index 0000000..b7af2c0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8192e2Ant.c
+@@ -0,0 +1,4068 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8192E Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8192E_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8192e_2ant		glcoex_dm_8192e_2ant;
++static struct  coex_dm_8192e_2ant	*coex_dm = &glcoex_dm_8192e_2ant;
++static struct  coex_sta_8192e_2ant		glcoex_sta_8192e_2ant;
++static struct  coex_sta_8192e_2ant	*coex_sta = &glcoex_sta_8192e_2ant;
++
++const char *const glbt_info_src_8192e_2ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8192e_2ant = 20160412;
++u32	glcoex_ver_8192e_2ant = 0x42;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8192e2ant_
++ * ************************************************************ */
++u8 halbtc8192e2ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8192E_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8192E_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8192E_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8192e2ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8192E_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8192E_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8192E_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8192e2ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32	bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++
++	/* This function check if bt is disabled */
++
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is enabled !!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		bt_disable_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], bt all counters=0, %d times!!\n",
++			    bt_disable_cnt);
++		BTC_TRACE(trace_buf);
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++					   &bt_disabled);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++			BTC_TRACE(trace_buf);
++		}
++	}
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++		if (!bt_disabled) {
++		} else {
++		}
++	}
++}
++
++u32 halbtc8192e2ant_decide_ra_mask(IN struct btc_coexist *btcoexist,
++				   IN u8 ss_type, IN u32 ra_mask_type)
++{
++	u32	dis_ra_mask = 0x0;
++
++	switch (ra_mask_type) {
++	case 0: /* normal mode */
++		if (ss_type == 2)
++			dis_ra_mask = 0x0;			/* enable 2ss */
++		else
++			dis_ra_mask = 0xfff00000;		/* disable 2ss */
++		break;
++	case 1: /* disable cck 1/2 */
++		if (ss_type == 2)
++			dis_ra_mask = 0x00000003;		/* enable 2ss */
++		else
++			dis_ra_mask = 0xfff00003;		/* disable 2ss */
++		break;
++	case 2: /* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		if (ss_type == 2)
++			dis_ra_mask = 0x0001f1f7;		/* enable 2ss */
++		else
++			dis_ra_mask = 0xfff1f1f7;		/* disable 2ss */
++		break;
++	default:
++		break;
++	}
++
++	return dis_ra_mask;
++}
++
++void halbtc8192e2ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8192e2ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8192e2ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8192e2ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8192e2ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	u32	dis_ra_mask = 0x0;
++
++	coex_dm->cur_ra_mask_type = ra_mask_type;
++	dis_ra_mask = halbtc8192e2ant_decide_ra_mask(btcoexist,
++			coex_dm->cur_ss_type, ra_mask_type);
++	halbtc8192e2ant_update_ra_mask(btcoexist, force_exec, dis_ra_mask);
++
++	halbtc8192e2ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8192e2ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8192e2ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++void halbtc8192e2ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8192e2ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], High Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		    reg_hp_txrx, reg_hp_tx, reg_hp_tx, reg_hp_rx, reg_hp_rx);
++	BTC_TRACE(trace_buf);
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], Low Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		    reg_lp_txrx, reg_lp_tx, reg_lp_tx, reg_lp_rx, reg_lp_rx);
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++}
++
++void halbtc8192e2ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++boolean halbtc8192e2ant_is_wifi_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false;
++	boolean	wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean	wifi_connected = false;
++	u8	wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++
++		wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);
++
++		if ((BTC_RSSI_STATE_HIGH == wifi_rssi_state) || (BTC_RSSI_STATE_LOW == wifi_rssi_state))
++			return true;
++	}
++
++	return false;
++}
++
++void halbtc8192e2ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++u8 halbtc8192e2ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	struct  btc_stack_info	*stack_info = &btcoexist->stack_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8192E_2ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8192E_2ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_2ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_2ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_2ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8192E_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_SCO_PAN;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (stack_info->num_of_hid >= 2) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], HID*2 + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], HID + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_HID_A2DP;
++				}
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8192E_2ANT_COEX_ALGO_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8192E_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_SCO_PAN;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8192E_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8192e2ant_set_fw_dac_swing_level(IN struct btc_coexist *btcoexist,
++		IN u8 dac_swing_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	/* There are several type of dacswing */
++	/* 0x18/ 0x10/ 0xc/ 0x8/ 0x4/ 0x6 */
++	h2c_parameter[0] = dac_swing_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x64, 1, h2c_parameter);
++}
++
++void halbtc8192e2ant_set_fw_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				       IN u8 dec_bt_pwr_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = dec_bt_pwr_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x62, 1, h2c_parameter);
++}
++
++void halbtc8192e2ant_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				IN boolean force_exec, IN u8 dec_bt_pwr_lvl)
++{
++	coex_dm->cur_bt_dec_pwr_lvl = dec_bt_pwr_lvl;
++
++	if (!force_exec) {
++#if 0	/* work around, avoid h2c command fail. */
++		if (coex_dm->pre_bt_dec_pwr_lvl == coex_dm->cur_bt_dec_pwr_lvl)
++			return;
++#endif
++	}
++	halbtc8192e2ant_set_fw_dec_bt_pwr(btcoexist,
++					  coex_dm->cur_bt_dec_pwr_lvl);
++
++	coex_dm->pre_bt_dec_pwr_lvl = coex_dm->cur_bt_dec_pwr_lvl;
++}
++
++void halbtc8192e2ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8192e2ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8192e2ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8192e2ant_fw_dac_swing_lvl(IN struct btc_coexist *btcoexist,
++			      IN boolean force_exec, IN u8 fw_dac_swing_lvl)
++{
++	coex_dm->cur_fw_dac_swing_lvl = fw_dac_swing_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_fw_dac_swing_lvl ==
++		    coex_dm->cur_fw_dac_swing_lvl)
++			return;
++	}
++
++	halbtc8192e2ant_set_fw_dac_swing_level(btcoexist,
++					       coex_dm->cur_fw_dac_swing_lvl);
++
++	coex_dm->pre_fw_dac_swing_lvl = coex_dm->cur_fw_dac_swing_lvl;
++}
++
++void halbtc8192e2ant_set_sw_rf_rx_lpf_corner(IN struct btc_coexist *btcoexist,
++		IN boolean rx_rf_shrink_on)
++{
++	if (rx_rf_shrink_on) {
++		/* Shrink RF Rx LPF corner */
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Shrink RF Rx LPF corner!!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e, 0xfffff,
++					  0xffffc);
++	} else {
++		/* Resume RF Rx LPF corner */
++		/* After initialized, we can use coex_dm->bt_rf_0x1e_backup */
++		if (btcoexist->initilized) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Resume RF Rx LPF corner!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++					  0xfffff, coex_dm->bt_rf_0x1e_backup);
++		}
++	}
++}
++
++void halbtc8192e2ant_rf_shrink(IN struct btc_coexist *btcoexist,
++		       IN boolean force_exec, IN boolean rx_rf_shrink_on)
++{
++	coex_dm->cur_rf_rx_lpf_shrink = rx_rf_shrink_on;
++
++	if (!force_exec) {
++		if (coex_dm->pre_rf_rx_lpf_shrink ==
++		    coex_dm->cur_rf_rx_lpf_shrink)
++			return;
++	}
++	halbtc8192e2ant_set_sw_rf_rx_lpf_corner(btcoexist,
++						coex_dm->cur_rf_rx_lpf_shrink);
++
++	coex_dm->pre_rf_rx_lpf_shrink = coex_dm->cur_rf_rx_lpf_shrink;
++}
++
++void halbtc8192e2ant_set_sw_penalty_tx_rate_adaptive(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8192e2ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8192e2ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8192e2ant_set_dac_swing_reg(IN struct btc_coexist *btcoexist,
++				       IN u32 level)
++{
++	u8	val = (u8)level;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Write SwDacSwing = 0x%x\n", level);
++	BTC_TRACE(trace_buf);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x883, 0x3e, val);
++}
++
++void halbtc8192e2ant_set_sw_full_time_dac_swing(IN struct btc_coexist
++		*btcoexist, IN boolean sw_dac_swing_on, IN u32 sw_dac_swing_lvl)
++{
++	if (sw_dac_swing_on)
++		halbtc8192e2ant_set_dac_swing_reg(btcoexist, sw_dac_swing_lvl);
++	else
++		halbtc8192e2ant_set_dac_swing_reg(btcoexist, 0x18);
++}
++
++
++void halbtc8192e2ant_dac_swing(IN struct btc_coexist *btcoexist,
++	IN boolean force_exec, IN boolean dac_swing_on, IN u32 dac_swing_lvl)
++{
++	coex_dm->cur_dac_swing_on = dac_swing_on;
++	coex_dm->cur_dac_swing_lvl = dac_swing_lvl;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_dac_swing_on == coex_dm->cur_dac_swing_on) &&
++		    (coex_dm->pre_dac_swing_lvl ==
++		     coex_dm->cur_dac_swing_lvl))
++			return;
++	}
++	delay_ms(30);
++	halbtc8192e2ant_set_sw_full_time_dac_swing(btcoexist, dac_swing_on,
++			dac_swing_lvl);
++
++	coex_dm->pre_dac_swing_on = coex_dm->cur_dac_swing_on;
++	coex_dm->pre_dac_swing_lvl = coex_dm->cur_dac_swing_lvl;
++}
++
++void halbtc8192e2ant_set_adc_back_off(IN struct btc_coexist *btcoexist,
++				      IN boolean adc_back_off)
++{
++	if (adc_back_off) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB BackOff Level On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xc05, 0x30, 0x3);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB BackOff Level Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xc05, 0x30, 0x1);
++	}
++}
++
++void halbtc8192e2ant_adc_back_off(IN struct btc_coexist *btcoexist,
++			  IN boolean force_exec, IN boolean adc_back_off)
++{
++	coex_dm->cur_adc_back_off = adc_back_off;
++
++	if (!force_exec) {
++		if (coex_dm->pre_adc_back_off == coex_dm->cur_adc_back_off)
++			return;
++	}
++	halbtc8192e2ant_set_adc_back_off(btcoexist, coex_dm->cur_adc_back_off);
++
++	coex_dm->pre_adc_back_off = coex_dm->cur_adc_back_off;
++}
++
++void halbtc8192e2ant_set_agc_table(IN struct btc_coexist *btcoexist,
++				   IN boolean agc_table_en)
++{
++	/* =================BB AGC Gain Table */
++	if (agc_table_en) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB Agc Table On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x0a1A0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x091B0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x081C0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x071D0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x061E0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x051F0001);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB Agc Table Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xaa1A0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa91B0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa81C0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa71D0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa61E0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa51F0001);
++	}
++}
++
++void halbtc8192e2ant_agc_table(IN struct btc_coexist *btcoexist,
++			       IN boolean force_exec, IN boolean agc_table_en)
++{
++	coex_dm->cur_agc_table_en = agc_table_en;
++
++	if (!force_exec) {
++		if (coex_dm->pre_agc_table_en == coex_dm->cur_agc_table_en)
++			return;
++	}
++	halbtc8192e2ant_set_agc_table(btcoexist, agc_table_en);
++
++	coex_dm->pre_agc_table_en = coex_dm->cur_agc_table_en;
++}
++
++void halbtc8192e2ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8192e2ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8192e2ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8192e2ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	switch (type) {
++	case 0:
++		halbtc8192e2ant_coex_table(btcoexist, force_exec, 0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 1:
++		halbtc8192e2ant_coex_table(btcoexist, force_exec, 0x5a5a5a5a, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 2:
++		halbtc8192e2ant_coex_table(btcoexist, force_exec, 0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 3:
++		halbtc8192e2ant_coex_table(btcoexist, force_exec, 0x5fdf5fdf, 0x5fdb5fdb, 0xffffff, 0x3);
++		break;
++	case 4:
++		halbtc8192e2ant_coex_table(btcoexist, force_exec, 0xdfffdfff, 0x5ffb5ffb, 0xffffff, 0x3);
++		break;
++	case 5:
++		halbtc8192e2ant_coex_table(btcoexist, force_exec, 0x5ddd5ddd, 0x5fdb5fdb, 0xffffff, 0x3);
++		break;
++	case 6:
++		halbtc8192e2ant_coex_table(btcoexist, force_exec, 0x5fff5fff, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 7:
++		if (coex_sta->scan_ap_num <= NOISY_AP_NUM_THRESH_8192E)
++			halbtc8192e2ant_coex_table(btcoexist, force_exec, 0xffffffff, 0xfafafafa, 0xffffff, 0x3);
++		else
++			halbtc8192e2ant_coex_table(btcoexist, force_exec, 0xffffffff, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 8:
++		halbtc8192e2ant_coex_table(btcoexist, force_exec, 0x5f5f5f5f, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8192e2ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8192e2ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8192e2ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8192e2ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8192e2ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8192e2ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8192e2ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			realByte1 = byte1, realByte5 = byte5;
++	boolean		bApEnable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE, &bApEnable);
++
++	if (bApEnable) {
++		if ((byte1 & BIT4) && !(byte1 & BIT5)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], FW for 1Ant AP mode\n");
++			realByte1 &= ~BIT4;
++			realByte1 |= BIT5;
++
++			realByte5 |= BIT5;
++			realByte5 &= ~BIT6;
++		}
++	}
++
++	h2c_parameter[0] = byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = byte5;
++
++	coex_dm->ps_tdma_para[0] = byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++void halbtc8192e2ant_sw_mechanism1(IN struct btc_coexist *btcoexist,
++			   IN boolean shrink_rx_lpf, IN boolean low_penalty_ra,
++			   IN boolean limited_dig, IN boolean bt_lna_constrain)
++{
++	/*
++	u32	wifi_bw;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if(BTC_WIFI_BW_HT40 != wifi_bw)
++	{
++		if (shrink_rx_lpf)
++			shrink_rx_lpf = false;
++	}
++	*/
++
++	halbtc8192e2ant_rf_shrink(btcoexist, NORMAL_EXEC, shrink_rx_lpf);
++	/* halbtc8192e2ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra); */
++}
++
++void halbtc8192e2ant_sw_mechanism2(IN struct btc_coexist *btcoexist,
++			   IN boolean agc_table_shift, IN boolean adc_back_off,
++			   IN boolean sw_dac_swing, IN u32 dac_swing_lvl)
++{
++	halbtc8192e2ant_agc_table(btcoexist, NORMAL_EXEC, agc_table_shift);
++	/* halbtc8192e2ant_adc_back_off(btcoexist, NORMAL_EXEC, adc_back_off); */
++	halbtc8192e2ant_dac_swing(btcoexist, NORMAL_EXEC, sw_dac_swing,
++				  dac_swing_lvl);
++}
++
++void halbtc8192e2ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean init_hwcfg, IN boolean wifi_off)
++{
++	u32			u32tmp = 0;
++
++	if (init_hwcfg) {
++		btcoexist->btc_write_1byte(btcoexist, 0x944, 0x24);
++		btcoexist->btc_write_4byte(btcoexist, 0x930, 0x700700);
++		if (btcoexist->chip_interface == BTC_INTF_USB)
++			btcoexist->btc_write_4byte(btcoexist, 0x64, 0x30430004);
++		else
++			btcoexist->btc_write_4byte(btcoexist, 0x64, 0x30030004);
++
++		/* 0x4c[27][24]='00', Set Antenna to BB */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp &= ~BIT(24);
++		u32tmp &= ~BIT(27);
++		btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++	} else if (wifi_off) {
++		if (btcoexist->chip_interface == BTC_INTF_USB)
++			btcoexist->btc_write_4byte(btcoexist, 0x64, 0x30430004);
++		else
++			btcoexist->btc_write_4byte(btcoexist, 0x64, 0x30030004);
++
++		/* 0x4c[27][24]='11', Set Antenna to BT, 0x64[8:7]=0, 0x64[2]=1 */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp |= BIT(24);
++		u32tmp |= BIT(27);
++		btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++	}
++
++	/* ext switch setting */
++	switch (ant_pos_type) {
++	case BTC_ANT_PATH_WIFI:
++		btcoexist->btc_write_1byte(btcoexist, 0x92c, 0x4);
++		break;
++	case BTC_ANT_PATH_BT:
++		btcoexist->btc_write_1byte(btcoexist, 0x92c, 0x20);
++		break;
++	default:
++	case BTC_ANT_PATH_PTA:
++		btcoexist->btc_write_1byte(btcoexist, 0x92c, 0x4);
++		break;
++	}
++}
++
++void halbtc8192e2ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	s8		nWiFiDurationAdjust = 0x0;
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++
++	if (coex_sta->scan_ap_num  >= 40)
++		nWiFiDurationAdjust = -15;
++	else if (coex_sta->scan_ap_num  >= 20)
++		nWiFiDurationAdjust = -10;
++
++	if (turn_on) {
++		switch (type) {
++		case 1:
++		default:	/*d1,wb*/
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x3c, 0x03, 0x11, 0x10);
++			break;
++		case 2:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x32, 0x03, 0x11, 0x10);
++			break;
++		case 3:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x28, 0x03, 0x11, 0x10);
++			break;
++		case 4:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x1e, 0x03, 0x11, 0x10);
++			break;
++		case 5:		/*d1,pb,TXpause*/
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x63, 0x3c, 0x03, 0x90, 0x10);
++			break;
++		case 6:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x63, 0x32, 0x03, 0x90, 0x10);
++			break;
++		case 7:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x63, 0x28, 0x03, 0x90, 0x10);
++			break;
++		case 8:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x63, 0x1e, 0x03, 0x90, 0x10);
++			break;
++		case 9:		/*d1,bb*/
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x3c, 0x03, 0x31, 0x10);
++			break;
++		case 10:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x32, 0x03, 0x31, 0x10);
++			break;
++		case 11:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x28, 0x03, 0x31, 0x10);
++			break;
++		case 12:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x1e, 0x03, 0x31, 0x10);
++			break;
++		case 13:		/*d1,bb,TXpause*/
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x3c, 0x03, 0x30, 0x10);
++			break;
++		case 14:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x32, 0x03, 0x30, 0x10);
++			break;
++		case 15:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x28, 0x03, 0x30, 0x10);
++			break;
++		case 16:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x1e, 0x03, 0x30, 0x10);
++			break;
++		case 17:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x61, 0x20, 0x03, 0x10, 0x10);
++			break;
++		case 18:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x5, 0x5, 0xe1, 0x90);
++			break;
++		case 19:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x25, 0x25, 0xe1, 0x90);
++			break;
++		case 20:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x25, 0x25, 0x60, 0x90);
++			break;
++		case 21:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x61, 0x35, 0x03, 0x11, 0x11);
++			break;
++		case 22:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x14, 0x03, 0x11, 0x14);
++			break;
++		case 23:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x63, 0x14, 0x03, 0x90, 0x14);
++			break;
++		case 24:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x14, 0x03, 0x31, 0x14);
++			break;
++		case 25:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x14, 0x03, 0x30, 0x14);
++			break;
++		case 71:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x1a, 0x1a, 0xe1, 0x90);
++			break;
++		case 80:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x51, 0x3c, 0x3, 0x10, 0x50);
++			break;
++		case 81:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x51, 0x3a+nWiFiDurationAdjust, 0x3, 0x10, 0x50);
++			break;
++		case 82:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x51, 0x30+nWiFiDurationAdjust, 0x03, 0x10, 0x50);
++			break;
++		case 83:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x51, 0x21, 0x03, 0x10, 0x50);
++			break;
++		case 84:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x51, 0x15, 0x3, 0x10, 0x50);
++			break;
++		case 85:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x51, 0x3a, 0x03, 0x10, 0x50);
++			break;
++		case 86:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x51, 0x21, 0x03, 0x10, 0x50);
++			break;
++		case 87:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x51, 0x14, 0x03, 0x10, 0x54);
++			break;
++
++		}
++	} else {
++		/* disable PS tdma */
++		switch (type) {
++		default:
++		case 0:  /* ANT2PTA, 0x778=1 */
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x8,
++						      0x0, 0x0, 0x0, 0x0);
++			halbtc8192e2ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_PTA, false, false);
++			break;
++		case 1:  /* ANT2BT, 0x778=3 */
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x8, 0x0);
++			delay_ms(5);
++			halbtc8192e2ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_BT, false, false);
++			break;
++
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8192e2ant_set_switch_ss_type(IN struct btc_coexist *btcoexist,
++					IN u8 ss_type)
++{
++	u8	mimo_ps = BTC_MIMO_PS_DYNAMIC;
++	u32	dis_ra_mask = 0x0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], REAL set SS Type = %d\n", ss_type);
++	BTC_TRACE(trace_buf);
++
++	dis_ra_mask = halbtc8192e2ant_decide_ra_mask(btcoexist, ss_type,
++			coex_dm->cur_ra_mask_type);
++	halbtc8192e2ant_update_ra_mask(btcoexist, FORCE_EXEC, dis_ra_mask);
++
++	if (ss_type == 1) {
++		halbtc8192e2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 1);
++		/* switch ofdm path */
++		btcoexist->btc_write_1byte(btcoexist, 0xc04, 0x11);
++		btcoexist->btc_write_1byte(btcoexist, 0xd04, 0x1);
++		btcoexist->btc_write_4byte(btcoexist, 0x90c, 0x81111111);
++		/* switch cck patch */
++		/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0xe77, 0x4, 0x1); */
++		/* btcoexist->btc_write_1byte(btcoexist, 0xa07, 0x81); */
++		mimo_ps = BTC_MIMO_PS_STATIC;
++	} else if (ss_type == 2) {
++		halbtc8192e2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++		btcoexist->btc_write_1byte(btcoexist, 0xc04, 0x33);
++		btcoexist->btc_write_1byte(btcoexist, 0xd04, 0x3);
++		btcoexist->btc_write_4byte(btcoexist, 0x90c, 0x81121313);
++		/* remove, if 0xe77[2]=0x0 then CCK will fail, advised by Jenyu */
++		/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0xe77, 0x4, 0x0); */
++		/* btcoexist->btc_write_1byte(btcoexist, 0xa07, 0x41); */
++		mimo_ps = BTC_MIMO_PS_DYNAMIC;
++	}
++
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_SEND_MIMO_PS,
++			   &mimo_ps);	/* set rx 1ss or 2ss */
++}
++
++void halbtc8192e2ant_switch_ss_type(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 new_ss_type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], %s Switch SS Type = %d\n",
++		    (force_exec ? "force to" : ""), new_ss_type);
++	BTC_TRACE(trace_buf);
++	coex_dm->cur_ss_type = new_ss_type;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ss_type == coex_dm->cur_ss_type)
++			return;
++	}
++	halbtc8192e2ant_set_switch_ss_type(btcoexist, coex_dm->cur_ss_type);
++
++	coex_dm->pre_ss_type = coex_dm->cur_ss_type;
++}
++
++void halbtc8192e2ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8192e2ant_power_save_state(IN struct btc_coexist *btcoexist,
++		      IN u8 ps_type,  IN u8 lps_val,  IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++	boolean		bApEnable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE, &bApEnable);
++
++	if (bApEnable) {
++		ps_type = BTC_PS_WIFI_NATIVE;
++		lps_val = 0x0;
++		rpwm_val = 0x0;
++	}
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8192e2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8192e2ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma. */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		break;
++	default:
++		break;
++	}
++}
++
++
++void halbtc8192e2ant_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++	/* fw all off */
++	halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	/* hw all off */
++	halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8192e2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++	halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	halbtc8192e2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 1);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 6);
++	halbtc8192e2ant_dec_bt_pwr(btcoexist, FORCE_EXEC, 0);
++
++	halbtc8192e2ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++	halbtc8192e2ant_switch_ss_type(btcoexist, FORCE_EXEC, 2);
++
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8192e2ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++
++
++/*	halbtc8192e2ant_switch_ss_type(btcoexist, NORMAL_EXEC, 1);*/
++	halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++
++	halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 21);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++boolean halbtc8192e2ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++	boolean			bt_hs_on = false, low_pwr_disable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (bt_link_info->sco_exist || bt_link_info->hid_exist)
++		halbtc8192e2ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 0, 0, 0);
++	else
++		halbtc8192e2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++	if (!wifi_connected) {
++
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non-connected idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		if ((BT_8192E_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		     coex_dm->bt_status) ||
++		    (BT_8192E_2ANT_BT_STATUS_CONNECTED_IDLE ==
++		     coex_dm->bt_status)) {
++/*			halbtc8192e2ant_switch_ss_type(btcoexist, NORMAL_EXEC, 2);*/
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		} else {
++/*			halbtc8192e2ant_switch_ss_type(btcoexist, NORMAL_EXEC, 1);*/
++			halbtc8192e2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++		}
++
++		halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false,
++					      false);
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false,
++					      0x18);
++
++		common = true;
++	} else {
++		if (BT_8192E_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status) {
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++			BTC_TRACE(trace_buf);
++
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++/*			halbtc8192e2ant_switch_ss_type(btcoexist, NORMAL_EXEC, 2);*/
++
++			halbtc8192e2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++			halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 6);
++			halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++			halbtc8192e2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++
++			common = true;
++		} else if (BT_8192E_2ANT_BT_STATUS_CONNECTED_IDLE ==
++			   coex_dm->bt_status) {
++
++			if (bt_hs_on)
++				return false;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi connected + BT connected-idle!!\n");
++			BTC_TRACE(trace_buf);
++
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++/*			halbtc8192e2ant_switch_ss_type(btcoexist, NORMAL_EXEC, 2);*/
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++			halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 6);
++			halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++			halbtc8192e2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++
++			common = true;
++		} else {
++
++			if (wifi_busy) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++				BTC_TRACE(trace_buf);
++				common = false;
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++				BTC_TRACE(trace_buf);
++
++				halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++/*				halbtc8192e2ant_switch_ss_type(btcoexist, NORMAL_EXEC, 1);*/
++				halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++				halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 21);
++				halbtc8192e2ant_fw_dac_swing_lvl(btcoexist,
++							 NORMAL_EXEC, 6);
++				halbtc8192e2ant_dec_bt_pwr(btcoexist,
++							   NORMAL_EXEC, 0);
++				halbtc8192e2ant_sw_mechanism1(btcoexist, false,
++						      false, false, false);
++				halbtc8192e2ant_sw_mechanism2(btcoexist, false,
++						      false, false, 0x18);
++				common = true;
++			}
++		}
++	}
++
++	return common;
++}
++void halbtc8192e2ant_tdma_duration_adjust(IN struct btc_coexist *btcoexist,
++		IN boolean sco_hid, IN boolean tx_pause, IN u8 max_interval)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0;
++
++
++	if (!coex_dm->auto_tdma_adjust) {
++		coex_dm->auto_tdma_adjust = true;
++		{
++			if (sco_hid) {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					} else if (max_interval == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (max_interval == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					} else if (max_interval == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (max_interval == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			} else {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (max_interval == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (max_interval == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (max_interval == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (max_interval == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					}
++				}
++			}
++		}
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/* accquire the BT TRx retry count from BT_Info byte2 */
++		retry_count = coex_sta->bt_retry_cnt;
++		result = 0;
++		wait_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if retry count during continuous n*2 seconds is 0, enlarge WiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {	/* if continuous 2 retry count(every 2 seconds) >0 and < 3, reduce WiFi duration */
++				if (wait_count <= 2)
++					m++; /* to avoid loop between the two levels */
++				else
++					m = 1;
++
++				if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++			}
++		} else { /* retry count > 3, once retry count > 3, to reduce WiFi duration */
++			if (wait_count == 1)
++				m++; /* to avoid loop between the two levels */
++			else
++				m = 1;
++
++			if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++		}
++
++		if (max_interval == 1) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 5);
++					coex_dm->ps_tdma_du_adj_type = 5;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 13);
++					coex_dm->ps_tdma_du_adj_type = 13;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 1);
++					coex_dm->ps_tdma_du_adj_type = 1;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 9);
++					coex_dm->ps_tdma_du_adj_type = 9;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 71);
++						coex_dm->ps_tdma_du_adj_type =
++							71;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					}
++				}
++			}
++		} else if (max_interval == 2) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					}
++				}
++			}
++		} else if (max_interval == 3) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			}
++		}
++	}
++
++	/* if current PsTdma not match with the recorded one (when scan, dhcp...), */
++	/* then we have to adjust it back to the previous record one. */
++	if (coex_dm->cur_ps_tdma != coex_dm->ps_tdma_du_adj_type) {
++		boolean	scan = false, link = false, roam = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], PsTdma type dismatch!!!, cur_ps_tdma=%d, recordPsTdma=%d\n",
++			    coex_dm->cur_ps_tdma, coex_dm->ps_tdma_du_adj_type);
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (!scan && !link && !roam)
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						coex_dm->ps_tdma_du_adj_type);
++		else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], roaming/link/scan is under progress, will adjust next time!!!\n");
++			BTC_TRACE(trace_buf);
++		}
++	}
++}
++
++/* ******************
++ * pstdma for wifi rssi low
++ * ****************** */
++void halbtc8192e2ant_tdma_duration_adjust_for_wifi_rssi_low(
++	IN struct btc_coexist *btcoexist/* , */ /* IN u8 wifi_status */)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0, bt_info_ext;
++
++	coex_dm->auto_tdma_adjust = false;
++
++	retry_count = coex_sta->bt_retry_cnt;
++	bt_info_ext = coex_sta->bt_info_ext;
++
++	if (!coex_dm->auto_tdma_adjust_low_rssi) {
++		coex_dm->auto_tdma_adjust_low_rssi = true;
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 81);
++		coex_dm->ps_tdma_du_adj_type = 81;
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/*acquire the BT TRx retry count from BT_Info byte2*/
++		/*		retry_count = coex_sta->bt_retry_cnt;*/
++		/*		bt_info_ext = coex_sta->bt_info_ext; */
++		result = 0;
++		wait_count++;
++
++		if ((coex_sta->low_priority_tx) > 1050 ||
++		    (coex_sta->low_priority_rx) > 1250)
++			retry_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if retry count during continuous n*2 seconds is 0, enlarge WiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {	/* if continuous 2 retry count(every 2 seconds) >0 and < 3, reduce WiFi duration */
++				if (wait_count <= 2)
++					m++; /* to avoid loop between the two levels */
++				else
++					m = 1;
++
++				if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++			}
++		} else { /* retry count > 3, once retry count > 3, to reduce WiFi duration */
++			if (wait_count == 1)
++				m++; /* to avoid loop between the two levels */
++			else
++				m = 1;
++
++			if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++		}
++
++		if (result == -1) {
++			if (coex_dm->cur_ps_tdma == 80) {
++				halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 81);
++				coex_dm->ps_tdma_du_adj_type = 81;
++			} else if (coex_dm->cur_ps_tdma == 81) {
++				halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 82);
++				coex_dm->ps_tdma_du_adj_type = 82;
++			} else if (coex_dm->cur_ps_tdma == 82) {
++				halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 83);
++				coex_dm->ps_tdma_du_adj_type = 83;
++			} else if (coex_dm->cur_ps_tdma == 83) {
++				halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 84);
++				coex_dm->ps_tdma_du_adj_type = 84;
++			}
++		} else if (result == 1) {
++			if (coex_dm->cur_ps_tdma == 84) {
++				halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 83);
++				coex_dm->ps_tdma_du_adj_type = 83;
++			} else if (coex_dm->cur_ps_tdma == 83) {
++				halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 82);
++				coex_dm->ps_tdma_du_adj_type = 82;
++			} else if (coex_dm->cur_ps_tdma == 82) {
++				halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 81);
++				coex_dm->ps_tdma_du_adj_type = 81;
++			} else if ((coex_dm->cur_ps_tdma == 81) && (coex_sta->scan_ap_num <= 5)) {
++				halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC,	true, 81);
++				coex_dm->ps_tdma_du_adj_type = 81;
++		    }
++		}
++
++		if (coex_dm->cur_ps_tdma != 80 &&
++			coex_dm->cur_ps_tdma != 81 &&
++		    coex_dm->cur_ps_tdma != 82 &&
++		    coex_dm->cur_ps_tdma != 83 &&
++		    coex_dm->cur_ps_tdma != 84) {
++			/* recover to previous adjust type */
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						coex_dm->ps_tdma_du_adj_type);
++		}
++	}
++}
++
++
++void halbtc8192e2ant_get_bt_rssi_threshold(IN struct btc_coexist *btcoexist,
++		IN u8 *pThres0, IN u8 *pThres1)
++{
++	u8 ant_type;
++
++	struct  btc_board_info  *board_info = &btcoexist->board_info;
++
++	ant_type = board_info->ant_type;
++
++	switch (ant_type) {
++	case BTC_ANT_TYPE_0:
++		*pThres0 = 100;
++		*pThres1 = 100;
++		break;
++	case BTC_ANT_TYPE_1:
++		*pThres0 = 34;
++		*pThres1 = 42;
++		break;
++	case BTC_ANT_TYPE_2:
++		*pThres0 = 34;
++		*pThres1 = 42;
++		break;
++	case BTC_ANT_TYPE_3:
++		*pThres0 = 34;
++		*pThres1 = 42;
++		break;
++	case BTC_ANT_TYPE_4:
++		*pThres0 = 34;
++		*pThres1 = 42;
++		break;
++	default:
++		break;
++	}
++}
++
++
++
++
++/* SCO only or SCO+PAN(HS) */
++void halbtc8192e2ant_action_sco(IN struct btc_coexist *btcoexist)
++{
++	u8	wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++	u32	wifi_bw;
++	u8	btThresh0 = 0, btThresh1 = 0;
++
++	halbtc8192e2ant_get_bt_rssi_threshold(btcoexist, &btThresh0, &btThresh1);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, btThresh0, btThresh1);
++	wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	else
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	else
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	else
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8192e2ant_action_sco_pan(IN struct btc_coexist *btcoexist)
++{
++	u8	wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++	u32	wifi_bw;
++	u8		btThresh0 = 0, btThresh1 = 0;
++
++
++	halbtc8192e2ant_get_bt_rssi_threshold(btcoexist, &btThresh0, &btThresh1);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, btThresh0, btThresh1);
++
++	wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);
++
++	if ((BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))))
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	else
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	else
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 10);
++	else
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 86);
++
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++
++void halbtc8192e2ant_action_hid(IN struct btc_coexist *btcoexist)
++{
++	u8	wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32	wifi_bw;
++	u8	anttype = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_ANT_TYPE, &anttype);
++
++	wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, 34, 42);
++
++	if (anttype == 0) {
++		/*ANTTYPE = 0   92E 2ant with SPDT*/
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if (anttype == 1) {
++		/*92E 2ant with coupler and bad ant. isolation, 92E 3ant with bad ant. isolation*/
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if (anttype == 2) {
++		/*ANTTYPE = 2, 92E 2ant with coupler and normal/good ant. isolation, 92E 3ant with normal ant. isolation*/
++		if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))) {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 9);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++		} else {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 9);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++		}
++	} else if (anttype == 3) {
++		/*ANTTYPE = 3,  92E 3ant with good ant. isolation*/
++		if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))) {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++		} else {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++		}
++	}
++
++	halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++/* A2DP only / PAN(EDR) only/ A2DP+PAN(HS) */
++void halbtc8192e2ant_action_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	boolean		long_dist = false;
++	u8		anttype = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_ANT_TYPE, &anttype);
++
++	wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, 34, 42);
++
++	if (anttype == 0) {
++		/*ANTTYPE = 0   92E 2ant with SPDT*/
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 87);
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++	} else if (anttype == 1) {
++		/*92E 2ant with coupler and bad ant. isolation, 92E 3ant with bad ant. isolation*/
++		if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))) {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 25);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		} else {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 87);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		}
++	} else if (anttype == 2) {
++	/*ANTTYPE = 2, 92E 2ant with coupler and normal/good ant. isolation, 92E 3ant with normal ant. isolation*/
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))) {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++		} else {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 87);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		}
++	} else if (anttype == 3) {
++		/*ANTTYPE = 3,  92E 3ant with good ant. isolation*/
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	}
++
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, true, 0x06);
++	else
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8192e2ant_action_a2dp_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 15,  0);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, 34, 42);
++
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++		halbtc8192e2ant_tdma_duration_adjust(btcoexist, false, true, 2);
++		halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	} else if ((bt_rssi_state == BTC_RSSI_STATE_MEDIUM) ||
++		   (bt_rssi_state == BTC_RSSI_STATE_STAY_MEDIUM)) {
++		halbtc8192e2ant_tdma_duration_adjust(btcoexist, false, false, 2);
++		halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	} else if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		   (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++		halbtc8192e2ant_tdma_duration_adjust(btcoexist, false, false, 2);
++		halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++	}
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8192e2ant_sw_mechanism1(btcoexist, true, false, false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, true, false, true, 0x6);
++		} else {
++			halbtc8192e2ant_sw_mechanism1(btcoexist, true, false, false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, true, 0x6);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, true, false, true, 0x6);
++		} else {
++			halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, true, 0x6);
++		}
++	}
++}
++
++void halbtc8192e2ant_action_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		btThresh0 = 0, btThresh1 = 0;
++
++	halbtc8192e2ant_get_bt_rssi_threshold(btcoexist, &btThresh0, &btThresh1);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, btThresh0, btThresh1);
++	/*wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);*/
++	wifi_rssi_state = BTC_RSSI_STATE_LOW;
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	else
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 1);
++	else
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 85);
++
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else if (BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++/* PAN(HS) only */
++void halbtc8192e2ant_action_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, 34, 42);
++
++	/*	halbtc8192e2ant_switch_ss_type(btcoexist, NORMAL_EXEC, 1);*/
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_LOW))
++		halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	else if ((bt_rssi_state == BTC_RSSI_STATE_MEDIUM) ||
++		 (bt_rssi_state == BTC_RSSI_STATE_STAY_MEDIUM))
++		halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		 (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++		halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++	halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8192e2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8192e2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8192e2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8192e2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* PAN(EDR)+A2DP */
++void halbtc8192e2ant_action_pan_edr_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		btThresh0 = 0, btThresh1 = 0;
++
++	halbtc8192e2ant_get_bt_rssi_threshold(btcoexist, &btThresh0, &btThresh1);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, btThresh0, btThresh1);
++	/*wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);*/
++	wifi_rssi_state = BTC_RSSI_STATE_LOW;
++
++	if ((BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))))
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	else
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 4);
++	else
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 86);
++
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else if (BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++void halbtc8192e2ant_action_pan_edr_hid(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		btThresh0 = 0, btThresh1 = 0;
++
++	halbtc8192e2ant_get_bt_rssi_threshold(btcoexist, &btThresh0, &btThresh1);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, btThresh0, btThresh1);
++
++	wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);
++
++	if ((BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))))
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	else
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++	else
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	if	(BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 10);
++	else
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 86);
++
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else if (BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++
++}
++
++/* HID+A2DP+PAN(EDR) */
++void halbtc8192e2ant_action_hid_a2dp_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		btThresh0 = 0, btThresh1 = 0;
++
++	halbtc8192e2ant_get_bt_rssi_threshold(btcoexist, &btThresh0, &btThresh1);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, btThresh0, btThresh1);
++	wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);
++
++	if ((BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))))
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	else
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++	else
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 4);
++	else
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 86);
++
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else if (BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8192e2ant_action_hid_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		btThresh0 = 0, btThresh1 = 0, anttype = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_ANT_TYPE, &anttype);
++
++	wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, 34, 42);
++
++	if (anttype == 0) {
++		/*92E 2ant with SPDT*/
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 87);
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 8);
++
++	} else if (anttype == 1) {
++		/*92E 2ant with coupler and bad ant. isolation, 92E 3ant with bad ant. isolation*/
++		if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))) {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 25);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 8);
++		} else {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 87);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 8);
++		}
++	} else if (anttype == 2) {
++		/*ANTTYPE = 2, 92E 2ant with coupler and normal/good ant. isolation, 92E 3ant with normal ant. isolation*/
++		if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))) {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 25);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 8);
++		} else {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 87);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 8);
++		}
++	} else if (anttype == 3) {
++		/*ANTTYPE = 3,  92E 3ant with good ant. isolation*/
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	}
++
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, true, 0x06);
++	else
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8192e2ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8				algorithm = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	algorithm = halbtc8192e2ant_action_algorithm(btcoexist);
++	if (coex_sta->c2h_bt_inquiry_page &&
++	    (BT_8192E_2ANT_COEX_ALGO_PANHS != algorithm)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under inquiry/page scan !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8192e2ant_action_bt_inquiry(btcoexist);
++		return;
++	}
++
++	coex_dm->cur_algorithm = algorithm;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Algorithm = %d\n",
++		    coex_dm->cur_algorithm);
++	BTC_TRACE(trace_buf);
++
++	if (halbtc8192e2ant_is_common_action(btcoexist)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Action 2-Ant common.\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->auto_tdma_adjust = false;
++		coex_dm->auto_tdma_adjust_low_rssi = false;
++
++	} else {
++		if (coex_dm->cur_algorithm != coex_dm->pre_algorithm) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], pre_algorithm=%d, cur_algorithm=%d\n",
++				coex_dm->pre_algorithm, coex_dm->cur_algorithm);
++			BTC_TRACE(trace_buf);
++			coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++
++		}
++		switch (coex_dm->cur_algorithm) {
++		case BT_8192E_2ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_sco(btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_SCO_PAN:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = SCO+PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_sco_pan(btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_hid(btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_a2dp(btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_a2dp_pan_hs(btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_pan_edr(btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_pan_hs(btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_pan_edr_a2dp(btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_pan_edr_hid(btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_hid_a2dp_pan_edr(
++				btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_hid_a2dp(btcoexist);
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = unknown!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_coex_all_off(btcoexist);
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8192e2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up)
++{
++	u16	u16tmp = 0;
++	u8	u8tmp = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 2Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	if (back_up) {
++		/* backup rf 0x1e value */
++		coex_dm->bt_rf_0x1e_backup =
++			btcoexist->btc_get_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++						  0xfffff);
++
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	}
++
++	/* antenna sw ctrl to bt */
++	halbtc8192e2ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, true, false);
++
++	halbtc8192e2ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	/* antenna switch control parameter */
++	btcoexist->btc_write_4byte(btcoexist, 0x858, 0x55555555);
++
++	/* coex parameters */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x3);
++	/* 0x790[5:0]=0x5 */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x790);
++	u8tmp &= 0xc0;
++	u8tmp |= 0x5;
++	btcoexist->btc_write_1byte(btcoexist, 0x790, u8tmp);
++
++	/* enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++	/* enable PTA */
++	btcoexist->btc_write_1byte(btcoexist, 0x40, 0x20);
++	/* enable mailbox interface */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x40);
++	u16tmp |= BIT(9);
++	btcoexist->btc_write_2byte(btcoexist, 0x40, u16tmp);
++
++	/* enable PTA I2C mailbox */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x101);
++	u8tmp |= BIT(4);
++	btcoexist->btc_write_1byte(btcoexist, 0x101, u8tmp);
++
++	/* enable bt clock when wifi is disabled. */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x93);
++	u8tmp |= BIT(0);
++	btcoexist->btc_write_1byte(btcoexist, 0x93, u8tmp);
++	/* enable bt clock when suspend. */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x7);
++	u8tmp |= BIT(0);
++	btcoexist->btc_write_1byte(btcoexist, 0x7, u8tmp);
++}
++
++/* ************************************************************
++ * work around function start with wa_halbtc8192e2ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8192e2ant_
++ * ************************************************************ */
++void ex_halbtc8192e2ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8192e2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8192e2ant_init_hw_config(btcoexist, true);
++}
++
++void ex_halbtc8192e2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8192e2ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8192e2ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_stack_info		*stack_info = &btcoexist->stack_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fw_ver = 0, bt_patch_ver = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "Ant PG number/ Ant mechanism:",
++		   board_info->pg_ant_num, board_info->btdm_ant_num);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "Antenna type:",
++		board_info->ant_type);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%d/ 0x%x/ 0x%x(%d)",
++		   "CoexVer/ FwVer/ PatchVer",
++		   glcoex_ver_date_8192e_2ant, glcoex_ver_8192e_2ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8192E_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8192E_2ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi, coex_sta->bt_retry_cnt);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP",
++		   stack_info->sco_exist, stack_info->hid_exist,
++		   stack_info->pan_exist, stack_info->a2dp_exist);
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_BT_LINK_INFO);
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Info A2DP rate",
++		   (bt_info_ext & BIT(0)) ? "Basic rate" : "EDR rate");
++	CL_PRINTF(cli_buf);
++
++	for (i = 0; i < BT_INFO_SRC_8192E_2ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8192e_2ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x ", "SS Type",
++		   coex_dm->cur_ss_type);
++	CL_PRINTF(cli_buf);
++
++	/* Sw mechanism	 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Sw mechanism]============");
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d ",
++		   "SM1[ShRf/ LpRA/ LimDig]",
++		   coex_dm->cur_rf_rx_lpf_shrink, coex_dm->cur_low_penalty_ra,
++		   coex_dm->limited_dig);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d(0x%x) ",
++		   "SM2[AgcT/ AdcB/ SwDacSwing(lvl)]",
++		   coex_dm->cur_agc_table_en, coex_dm->cur_adc_back_off,
++		   coex_dm->cur_dac_swing_on, coex_dm->cur_dac_swing_lvl);
++	CL_PRINTF(cli_buf);
++
++	/* Fw mechanism		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Fw mechanism]============");
++	CL_PRINTF(cli_buf);
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (auto:%d)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   coex_dm->auto_tdma_adjust);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "DecBtPwr/ IgnWlanAct",
++		   coex_dm->cur_bt_dec_pwr_lvl, coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x",
++		   "RF-A, 0x1e initVal",
++		   coex_dm->bt_rf_0x1e_backup);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "backup ARFR1/ARFR2/RL/AMaxTime",
++		   coex_dm->backup_arfr_cnt1, coex_dm->backup_arfr_cnt2,
++		   coex_dm->backup_retry_limit,
++		   coex_dm->backup_ampdu_max_time);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc04);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xd04);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x90c);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0xc04/ 0xd04/ 0x90c",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x778",
++		   u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x92c);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x930);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x92c/ 0x930",
++		   (u8tmp[0]), u32tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x4f);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x40/ 0x4f",
++		   u8tmp[0], u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0xc50(dig)",
++		   u32tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8/0x6cc(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(hp rx[31:16]/tx[15:0])",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(lp rx[31:16]/tx[15:0])",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++#if (BT_AUTO_REPORT_ONLY_8192E_2ANT == 1)
++	halbtc8192e2ant_monitor_bt_ctr(btcoexist);
++#endif
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8192e2ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++		halbtc8192e2ant_coex_all_off(btcoexist);
++		halbtc8192e2ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, false,
++					     true);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = false;
++	}
++}
++
++void ex_halbtc8192e2ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++	}
++}
++
++void ex_halbtc8192e2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	if (BTC_SCAN_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++	} else if (BTC_SCAN_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM, &coex_sta->scan_ap_num);
++
++	}
++}
++
++void ex_halbtc8192e2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	if (BTC_ASSOCIATE_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++	} else if (BTC_ASSOCIATE_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8192e2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] = 0x1;
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++}
++
++void ex_halbtc8192e2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	if (type == BTC_PACKET_DHCP) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], DHCP Packet notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8192e2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8			bt_info = 0;
++	u8			i, rsp_source = 0;
++	boolean			bt_busy = false, limited_dig = false;
++	boolean			wifi_connected = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8192E_2ANT_MAX)
++		rsp_source = BT_INFO_SRC_8192E_2ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (BT_INFO_SRC_8192E_2ANT_WIFI_FW != rsp_source) {
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		coex_sta->bt_rssi =
++			coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++		if ((coex_sta->bt_info_ext & BIT(1))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++					   &wifi_connected);
++			if (wifi_connected)
++				ex_halbtc8192e2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_CONNECT);
++			else
++				ex_halbtc8192e2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_DISCONNECT);
++		}
++
++		if ((coex_sta->bt_info_ext & BIT(3))) {
++			if (!btcoexist->manual_control &&
++			    !btcoexist->stop_coex_dm) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8192e2ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		} else {
++			/* BT already NOT ignore Wlan active, do nothing here. */
++		}
++
++#if (BT_AUTO_REPORT_ONLY_8192E_2ANT == 0)
++		if ((coex_sta->bt_info_ext & BIT(4))) {
++			/* BT auto report already enabled, do nothing */
++		} else
++			halbtc8192e2ant_bt_auto_report(btcoexist, FORCE_EXEC,
++						       true);
++#endif
++	}
++
++	/* check BIT2 first ==> check if bt is under inquiry or page scan */
++	if (bt_info & BT_INFO_8192E_2ANT_B_INQ_PAGE)
++		coex_sta->c2h_bt_inquiry_page = true;
++	else
++		coex_sta->c2h_bt_inquiry_page = false;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8192E_2ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8192E_2ANT_B_FTP)
++			coex_sta->pan_exist = true;
++		else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8192E_2ANT_B_A2DP)
++			coex_sta->a2dp_exist = true;
++		else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8192E_2ANT_B_HID)
++			coex_sta->hid_exist = true;
++		else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8192E_2ANT_B_SCO_ESCO)
++			coex_sta->sco_exist = true;
++		else
++			coex_sta->sco_exist = false;
++	}
++
++	halbtc8192e2ant_update_bt_link_info(btcoexist);
++
++	if (!(bt_info & BT_INFO_8192E_2ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8192E_2ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8192E_2ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8192E_2ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8192E_2ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8192E_2ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8192E_2ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8192E_2ANT_B_ACL_BUSY) {
++		coex_dm->bt_status = BT_8192E_2ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8192E_2ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8192E_2ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8192E_2ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8192E_2ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status)) {
++		bt_busy = true;
++		limited_dig = true;
++	} else {
++		bt_busy = false;
++		limited_dig = false;
++	}
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	coex_dm->limited_dig = limited_dig;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_LIMITED_DIG, &limited_dig);
++
++	halbtc8192e2ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8192e2ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8192e2ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, false, true);
++	halbtc8192e2ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++	ex_halbtc8192e2ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++}
++
++void ex_halbtc8192e2ant_periodical(IN struct btc_coexist *btcoexist)
++{
++#if (BT_AUTO_REPORT_ONLY_8192E_2ANT == 0)
++	halbtc8192e2ant_query_bt_info(btcoexist);
++	halbtc8192e2ant_monitor_bt_ctr(btcoexist);
++	halbtc8192e2ant_monitor_bt_enable_disable(btcoexist);
++#else
++	if (halbtc8192e2ant_is_wifi_status_changed(btcoexist) ||
++	    coex_dm->auto_tdma_adjust)
++		halbtc8192e2ant_run_coexist_mechanism(btcoexist);
++#endif
++}
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8192e2Ant.h b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8192e2Ant.h
+new file mode 100644
+index 0000000..085f992
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8192e2Ant.h
+@@ -0,0 +1,199 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8192E_SUPPORT == 1)
++/* *******************************************
++ * The following is for 8192E 2Ant BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8192E_2ANT				0
++
++#define	BT_INFO_8192E_2ANT_B_FTP						BIT(7)
++#define	BT_INFO_8192E_2ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8192E_2ANT_B_HID						BIT(5)
++#define	BT_INFO_8192E_2ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8192E_2ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8192E_2ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8192E_2ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8192E_2ANT_B_CONNECTION				BIT(0)
++
++#define		BTC_RSSI_COEX_THRESH_TOL_8192E_2ANT		2
++#define		NOISY_AP_NUM_THRESH_8192E				10
++
++enum bt_info_src_8192e_2ant {
++	BT_INFO_SRC_8192E_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8192E_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8192E_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8192E_2ANT_MAX
++};
++
++enum bt_8192e_2ant_bt_status {
++	BT_8192E_2ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8192E_2ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8192E_2ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8192E_2ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8192E_2ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8192E_2ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8192E_2ANT_BT_STATUS_MAX
++};
++
++enum bt_8192e_2ant_coex_algo {
++	BT_8192E_2ANT_COEX_ALGO_UNDEFINED		= 0x0,
++	BT_8192E_2ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8192E_2ANT_COEX_ALGO_SCO_PAN			= 0x2,
++	BT_8192E_2ANT_COEX_ALGO_HID				= 0x3,
++	BT_8192E_2ANT_COEX_ALGO_A2DP			= 0x4,
++	BT_8192E_2ANT_COEX_ALGO_A2DP_PANHS		= 0x5,
++	BT_8192E_2ANT_COEX_ALGO_PANEDR			= 0x6,
++	BT_8192E_2ANT_COEX_ALGO_PANHS			= 0x7,
++	BT_8192E_2ANT_COEX_ALGO_PANEDR_A2DP		= 0x8,
++	BT_8192E_2ANT_COEX_ALGO_PANEDR_HID		= 0x9,
++	BT_8192E_2ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0xa,
++	BT_8192E_2ANT_COEX_ALGO_HID_A2DP		= 0xb,
++	BT_8192E_2ANT_COEX_ALGO_MAX				= 0xc
++};
++
++struct coex_dm_8192e_2ant {
++	/* fw mechanism */
++	u8		pre_bt_dec_pwr_lvl;
++	u8		cur_bt_dec_pwr_lvl;
++	u8		pre_fw_dac_swing_lvl;
++	u8		cur_fw_dac_swing_lvl;
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		reset_tdma_adjust;
++	boolean		auto_tdma_adjust;
++	boolean		auto_tdma_adjust_low_rssi;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++
++	/* sw mechanism */
++	boolean		pre_rf_rx_lpf_shrink;
++	boolean		cur_rf_rx_lpf_shrink;
++	u32		bt_rf_0x1e_backup;
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	boolean		pre_dac_swing_on;
++	u32		pre_dac_swing_lvl;
++	boolean		cur_dac_swing_on;
++	u32		cur_dac_swing_lvl;
++	boolean		pre_adc_back_off;
++	boolean		cur_adc_back_off;
++	boolean	pre_agc_table_en;
++	boolean		cur_agc_table_en;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u8		pre_ss_type;
++	u8		cur_ss_type;
++
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		cur_ra_mask_type;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++};
++
++struct coex_sta_8192e_2ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	u8					bt_rssi;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8192E_2ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8192E_2ANT_MAX];
++	boolean					c2h_bt_inquiry_page;
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u8					scan_ap_num;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8192e2ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8192e2ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e2ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8192e2ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8192e2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8192e2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8192e2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8192e2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8192e2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8192e2ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e2ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e2ant_display_coex_info(IN struct btc_coexist *btcoexist);
++
++#else	/*  #if (RTL8192E_SUPPORT == 1) */
++#define	ex_halbtc8192e2ant_power_on_setting(btcoexist)
++#define	ex_halbtc8192e2ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8192e2ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8192e2ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8192e2ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8192e2ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8192e2ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8192e2ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8192e2ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8192e2ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8192e2ant_halt_notify(btcoexist)
++#define	ex_halbtc8192e2ant_periodical(btcoexist)
++#define	ex_halbtc8192e2ant_display_coex_info(btcoexist)
++
++#endif
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8703b1Ant.c b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8703b1Ant.c
+new file mode 100644
+index 0000000..0225669
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8703b1Ant.c
+@@ -0,0 +1,4592 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8703B Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8703B_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	*trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8703b_1ant		glcoex_dm_8703b_1ant;
++static struct  coex_dm_8703b_1ant	*coex_dm = &glcoex_dm_8703b_1ant;
++static struct  coex_sta_8703b_1ant		glcoex_sta_8703b_1ant;
++static struct  coex_sta_8703b_1ant	*coex_sta = &glcoex_sta_8703b_1ant;
++static struct  psdscan_sta_8703b_1ant	gl_psd_scan_8703b_1ant;
++static struct  psdscan_sta_8703b_1ant *psd_scan = &gl_psd_scan_8703b_1ant;
++
++
++const char *const glbt_info_src_8703b_1ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8703b_1ant = 20160218;
++u32	glcoex_ver_8703b_1ant = 0x09;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8703b1ant_
++ * ************************************************************ */
++u8 halbtc8703b1ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8703B_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8703B_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8703B_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8703b1ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8703B_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8703B_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8703B_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8703b1ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8703b1ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8703b1ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8703b1ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8703b1ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	switch (ra_mask_type) {
++	case 0:	/* normal mode */
++		halbtc8703b1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0);
++		break;
++	case 1:	/* disable cck 1/2 */
++		halbtc8703b1ant_update_ra_mask(btcoexist, force_exec,
++					       0x00000003);
++		break;
++	case 2:	/* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		halbtc8703b1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0001f1f7);
++		break;
++	default:
++		break;
++	}
++
++	halbtc8703b1ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8703b1ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8703b1ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++void halbtc8703b1ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8703b1ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++void halbtc8703b1ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++	static u8		num_of_bt_counter_chk = 0, cnt_slave = 0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	/* to avoid 0x76e[3] = 1 (WLAN_Act control by PTA) during IPS */
++	/* if (! (btcoexist->btc_read_1byte(btcoexist, 0x76e) & 0x8) ) */
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Hi-Pri Rx/Tx: %d/%d, Lo-Pri Rx/Tx: %d/%d\n",
++		    reg_hp_rx, reg_hp_tx, reg_lp_rx, reg_lp_tx);
++
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++
++	if ((coex_sta->low_priority_tx > 1150)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++
++	if ((coex_sta->low_priority_rx >= 1150) && (coex_sta->low_priority_rx >= coex_sta->low_priority_tx)
++	    && (!coex_sta->under_ips)  && (!coex_sta->c2h_bt_inquiry_page) && (coex_sta->bt_link_exist))	{
++		if (cnt_slave >= 3) {
++			bt_link_info->slave_role = true;
++			cnt_slave = 3;
++		} else
++			cnt_slave++;
++	} else {
++		if (cnt_slave == 0)	{
++			bt_link_info->slave_role = false;
++			cnt_slave = 0;
++		} else
++			cnt_slave--;
++
++	}
++
++	if ((coex_sta->high_priority_tx == 0) && (coex_sta->high_priority_rx == 0) && (coex_sta->low_priority_tx == 0) &&
++	    (coex_sta->low_priority_rx == 0)) {
++		num_of_bt_counter_chk++;
++		if (num_of_bt_counter_chk >= 3) {
++			halbtc8703b1ant_query_bt_info(btcoexist);
++			num_of_bt_counter_chk = 0;
++		}
++	}
++
++
++#if 0
++	/* Add Hi-Pri Tx/Rx counter to avoid false detection */
++	if (((coex_sta->hid_exist) || (coex_sta->sco_exist)) &&
++	    (coex_sta->high_priority_tx + coex_sta->high_priority_rx
++	     >= 160)
++	    && (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->bt_hi_pri_link_exist = true;
++	else
++		coex_sta->bt_hi_pri_link_exist = false;
++
++	if ((coex_sta->acl_busy) &&
++	    (coex_sta->num_of_profile == 0)) {
++		if (coex_sta->low_priority_tx +
++		    coex_sta->low_priority_rx >= 160) {
++			coex_sta->pan_exist = true;
++			coex_sta->num_of_profile++;
++			coex_sta->wrong_profile_notification++;
++		}
++	}
++#endif
++
++}
++
++
++void halbtc8703b1ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++	s32	wifi_rssi = 0;
++	boolean wifi_busy = false, wifi_under_b_mode = false;
++	static u8 cck_lock_counter = 0;
++	u32	total_cnt;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++			   &wifi_under_b_mode);
++
++	if (coex_sta->under_ips) {
++		coex_sta->crc_ok_cck = 0;
++		coex_sta->crc_ok_11g = 0;
++		coex_sta->crc_ok_11n = 0;
++		coex_sta->crc_ok_11n_agg = 0;
++
++		coex_sta->crc_err_cck = 0;
++		coex_sta->crc_err_11g = 0;
++		coex_sta->crc_err_11n = 0;
++		coex_sta->crc_err_11n_agg = 0;
++	} else {
++		coex_sta->crc_ok_cck	= btcoexist->btc_read_4byte(btcoexist,
++					  0xf88);
++		coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf94);
++		coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf90);
++		coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					   0xfb8);
++
++		coex_sta->crc_err_cck	 = btcoexist->btc_read_4byte(btcoexist,
++					   0xf84);
++		coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf96);
++		coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf92);
++		coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					    0xfba);
++	}
++
++
++	/* reset counter */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x0);
++
++	if ((wifi_busy) && (wifi_rssi >= 30) && (!wifi_under_b_mode)) {
++		total_cnt = coex_sta->crc_ok_cck + coex_sta->crc_ok_11g +
++			    coex_sta->crc_ok_11n +
++			    coex_sta->crc_ok_11n_agg;
++
++		if ((coex_dm->bt_status == BT_8703B_1ANT_BT_STATUS_ACL_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8703B_1ANT_BT_STATUS_ACL_SCO_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8703B_1ANT_BT_STATUS_SCO_BUSY)) {
++			if (coex_sta->crc_ok_cck > (total_cnt -
++						    coex_sta->crc_ok_cck)) {
++				if (cck_lock_counter < 3)
++					cck_lock_counter++;
++			} else {
++				if (cck_lock_counter > 0)
++					cck_lock_counter--;
++			}
++
++		} else {
++			if (cck_lock_counter > 0)
++				cck_lock_counter--;
++		}
++	} else {
++		if (cck_lock_counter > 0)
++			cck_lock_counter--;
++	}
++
++	if (!coex_sta->pre_ccklock) {
++
++		if (cck_lock_counter >= 3)
++			coex_sta->cck_lock = true;
++		else
++			coex_sta->cck_lock = false;
++	} else {
++		if (cck_lock_counter == 0)
++			coex_sta->cck_lock = false;
++		else
++			coex_sta->cck_lock = true;
++	}
++
++	if (coex_sta->cck_lock)
++		coex_sta->cck_ever_lock = true;
++
++	coex_sta->pre_ccklock =  coex_sta->cck_lock;
++
++
++}
++
++boolean halbtc8703b1ant_is_wifibt_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false, pre_bt_off = false;
++	boolean wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (coex_sta->bt_disabled != pre_bt_off) {
++		pre_bt_off = coex_sta->bt_disabled;
++
++		if (coex_sta->bt_disabled)
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++		else
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is enabled !!\n");
++
++		BTC_TRACE(trace_buf);
++		return true;
++	}
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++	}
++
++	return false;
++}
++
++void halbtc8703b1ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++	bt_link_info->bt_hi_pri_link_exist = coex_sta->bt_hi_pri_link_exist;
++	bt_link_info->acl_busy = coex_sta->acl_busy;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++void halbtc8703b1ant_update_wifi_channel_info(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] =
++			0x1;  /* enable BT AFH skip WL channel for 8703b because BT Rx LO interference */
++		/* h2c_parameter[0] = 0x0; */
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++
++}
++
++void halbtc8703b1ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8703b1ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8703b1ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8703b1ant_set_fw_low_penalty_ra(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8703b1ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8703b1ant_set_fw_low_penalty_ra(btcoexist,
++					      coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8703b1ant_write_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	u16				bitpos,
++	IN	BOOLEAN		state
++)
++{
++
++	static u16 originalval = 0x8002;
++
++	if (state)
++		originalval = originalval | bitpos;
++	else
++		originalval = originalval & (~bitpos);
++
++
++	btcoexist->btc_write_2byte(btcoexist, 0xaa, originalval);
++#if 0
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "\n [BTCoex], ********** Write Scoreboard = %x**********\n",
++		    originalval);
++	BTC_TRACE(trace_buf);
++#endif
++
++}
++
++void halbtc8703b1ant_read_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN   u16				*score_board_val
++)
++{
++
++	*score_board_val = (btcoexist->btc_read_2byte(btcoexist,
++			    0xaa)) & 0x7fff;
++}
++
++void halbtc8703b1ant_post_activestate_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_active
++)
++{
++
++	if (wifi_active)
++		halbtc8703b1ant_write_score_board(btcoexist, (u16) BIT(0), TRUE);
++	else
++		halbtc8703b1ant_write_score_board(btcoexist, (u16) BIT(0), FALSE);
++
++	/* The BT should set "No Shunt-down" mode if WL = Active for BT Synthesizer on/off interference WL Lo issue at 8703b b-cut. */
++
++}
++
++void halbtc8703b1ant_post_onoffState_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_on
++)
++{
++
++	if (wifi_on)
++		halbtc8703b1ant_write_score_board(btcoexist, (u16) BIT(1), TRUE);
++	else
++		halbtc8703b1ant_write_score_board(btcoexist, (u16) BIT(1), FALSE);
++
++}
++
++void halbtc8703b1ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++	u16			u16tmp;
++
++	/* This function check if bt is disabled */
++#if 1
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++
++
++#else   /*  8703b BT can't show correct on/off status in scoreboard[1] 2015/11/26 */
++
++	halbtc8703b1ant_read_score_board(btcoexist,	&u16tmp);
++
++	bt_active = u16tmp & BIT(1);
++
++
++#endif
++
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	} else {
++
++		bt_disable_cnt++;
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			bt_disable_cnt = 2;
++		}
++
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	}
++
++
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++
++	}
++}
++
++void halbtc8703b1ant_enable_gnt_to_gpio(IN struct btc_coexist *btcoexist,
++					IN boolean isenable)
++{
++
++#if (BT_8703B_1ANT_ENABLE_GNTBT_TO_GPIO14 == 1)
++	if (isenable) {
++		/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x1);
++
++		/* enable GNT_BT debug to GPIO */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x40, 0x0);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x1, 0x0);
++	} else {
++		/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x0);
++
++		/* Disable GNT_BT debug to GPIO, and enable chip_wakeup_host */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x40, 0x1);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x1, 0x1);
++	}
++#endif
++}
++
++u32 halbtc8703b1ant_ltecoex_indirect_read_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr)
++{
++	u32 j = 0;
++
++
++	/* wait for ready bit before access 0x7c0		 */
++	btcoexist->btc_write_4byte(btcoexist, 0x7c0, 0x800F0000 | reg_addr);
++
++	do {
++		j++;
++	} while (((btcoexist->btc_read_1byte(btcoexist,
++					     0x7c3)&BIT(5)) == 0) &&
++		 (j < BT_8703B_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++	return btcoexist->btc_read_4byte(btcoexist,
++					 0x7c8);  /* get read data */
++
++}
++
++void halbtc8703b1ant_ltecoex_indirect_write_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr, IN u32 bit_mask, IN u32 reg_value)
++{
++	u32 val, i = 0, j = 0, bitpos = 0;
++
++
++	if (bit_mask == 0x0)
++		return;
++	if (bit_mask == 0xffffffff) {
++		btcoexist->btc_write_4byte(btcoexist, 0x7c4,
++					   reg_value); /* put write data */
++
++		/* wait for ready bit before access 0x7c0 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x7c3)&BIT(5)) == 0) &&
++			(j < BT_8703B_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x7c0,
++					   0xc00F0000 | reg_addr);
++	} else {
++		for (i = 0; i <= 31; i++) {
++			if (((bit_mask >> i) & 0x1) == 0x1) {
++				bitpos = i;
++				break;
++			}
++		}
++
++		/* read back register value before write */
++		val = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist,
++				reg_addr);
++		val = (val & (~bit_mask)) | (reg_value << bitpos);
++
++		btcoexist->btc_write_4byte(btcoexist, 0x7c4,
++					   val); /* put write data */
++
++		/* wait for ready bit before access 0x7c0		 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x7c3)&BIT(5)) == 0) &&
++			(j < BT_8703B_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x7c0,
++					   0xc00F0000 | reg_addr);
++
++	}
++
++}
++
++void halbtc8703b1ant_ltecoex_enable(IN struct btc_coexist *btcoexist,
++				    IN boolean enable)
++{
++	u8 val;
++
++	val = (enable) ? 1 : 0;
++	halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist, 0x38, 0x80,
++			val);  /* 0x38[7] */
++
++}
++
++void halbtc8703b1ant_sw_mechanism(IN struct btc_coexist *btcoexist,
++				  IN boolean low_penalty_ra)
++{
++	halbtc8703b1ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8703b1ant_ltecoex_pathcontrol_owner(IN struct btc_coexist *btcoexist,
++		IN boolean wifi_control)
++{
++	u8 val;
++
++	val = (wifi_control) ? 1 : 0;
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x4,
++					   val); /* 0x70[26] */
++
++}
++
++void halbtc8703b1ant_ltecoex_set_gnt_bt(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8703B_1ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0xc000;
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		bit_mask = 0x0c00;
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10]						 */
++		break;
++	case BT_8703B_1ANT_GNT_BLOCK_RFC:
++		bit_mask = 0xc000;
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		break;
++	case BT_8703B_1ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0c00;
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10] */
++		break;
++
++	}
++
++}
++
++void halbtc8703b1ant_ltecoex_set_gnt_wl(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8703B_1ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0x3000;
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		bit_mask = 0x0300;
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8]						 */
++		break;
++	case BT_8703B_1ANT_GNT_BLOCK_RFC:
++		bit_mask = 0x3000;
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		break;
++	case BT_8703B_1ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0300;
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8] */
++		break;
++
++	}
++
++}
++
++void halbtc8703b1ant_ltecoex_set_coex_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u16 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8703B_1ANT_CTT_WL_VS_LTE:
++		reg_addr = 0xa0;
++		break;
++	case BT_8703B_1ANT_CTT_BT_VS_LTE:
++		reg_addr = 0xa4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xffff, table_content); /* 0xa0[15:0] or 0xa4[15:0] */
++
++
++}
++
++
++void halbtc8703b1ant_ltecoex_set_break_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u8 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8703B_1ANT_LBTT_WL_BREAK_LTE:
++		reg_addr = 0xa8;
++		break;
++	case BT_8703B_1ANT_LBTT_BT_BREAK_LTE:
++		reg_addr = 0xac;
++		break;
++	case BT_8703B_1ANT_LBTT_LTE_BREAK_WL:
++		reg_addr = 0xb0;
++		break;
++	case BT_8703B_1ANT_LBTT_LTE_BREAK_BT:
++		reg_addr = 0xb4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xff, table_content); /* 0xa8[15:0] or 0xb4[15:0] */
++
++
++}
++
++void halbtc8703b1ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8703b1ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8703b1ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8703b1ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	u32	break_table;
++	u8	select_table;
++
++	coex_sta->coex_table_type = type;
++
++	if (coex_sta->concurrent_rx_mode_on == true) {
++		break_table = 0xf0ffffff;  /* set WL hi-pri can break BT */
++		select_table =
++			0xb;		/* set Tx response = Hi-Pri (ex: Transmitting ACK,BA,CTS) */
++	} else {
++		break_table = 0xffffff;
++		select_table = 0x3;
++	}
++
++	switch (type) {
++	case 0:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0x55555555, break_table,
++					   select_table);
++		break;
++	case 1:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0x5a5a5a5a, break_table,
++					   select_table);
++		break;
++	case 2:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0xaa5a5a5a, 0xaa5a5a5a, break_table,
++					   select_table);
++		break;
++	case 3:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0xaa555555, 0xaa5a5a5a, break_table,
++					   select_table);
++		break;
++	case 4:
++		halbtc8703b1ant_coex_table(btcoexist,
++					   force_exec, 0xaa555555, 0xaa5a5a5a,
++					   break_table, select_table);
++		break;
++	case 5:
++		halbtc8703b1ant_coex_table(btcoexist,
++					   force_exec, 0x5a5a5a5a, 0x5a5a5a5a,
++					   break_table, select_table);
++		break;
++	case 6:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 7:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0xaaaaaaaa, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 8:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 9:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 10:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 11:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 12:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 13:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x5fff5fff, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 14:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x5fff5fff, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 15:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8703b1ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8703b1ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8703b1ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8703b1ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8703b1ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8703b1ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8703b1ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++	u8	h2c_parameter[5] = {0x8, 0, 0, 0, 0};
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			/*halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8); */
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			/*halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);*/
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8703b1ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		coex_sta->force_lps_on = false;
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++
++		break;
++	case BTC_PS_LPS_ON:
++		coex_sta->force_lps_on = true;
++		halbtc8703b1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8703b1ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++
++		break;
++	case BTC_PS_LPS_OFF:
++		coex_sta->force_lps_on = false;
++		halbtc8703b1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++
++		break;
++	default:
++		break;
++	}
++}
++
++
++
++void halbtc8703b1ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], FW for 1Ant AP mode\n");
++			BTC_TRACE(trace_buf);
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++
++			halbtc8703b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++							 0x0);
++		}
++	} else if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++
++		halbtc8703b1ant_power_save_state(
++			btcoexist, BTC_PS_LPS_ON, 0x50,
++			0x4);
++	} else {
++		halbtc8703b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++						 0x0);
++	}
++
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++
++void halbtc8703b1ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_busy = false;
++	u8			rssi_adjust_val = 0;
++	static u8			psTdmaByte4Modify = 0x0, pre_psTdmaByte4Modify = 0x0;
++	static boolean	 pre_wifi_busy = false;
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (wifi_busy != pre_wifi_busy) {
++		force_exec = true;
++		pre_wifi_busy = wifi_busy;
++	}
++
++	/* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++	if ((bt_link_info->slave_role) && (bt_link_info->a2dp_exist))
++		psTdmaByte4Modify = 0x1;
++	else
++		psTdmaByte4Modify = 0x0;
++
++	if (pre_psTdmaByte4Modify != psTdmaByte4Modify) {
++
++		force_exec = true;
++		pre_psTdmaByte4Modify = psTdmaByte4Modify;
++	}
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++
++	if (coex_dm->cur_ps_tdma_on) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(on, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(off, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	}
++
++	if (turn_on)	{
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++	}
++
++
++	if (turn_on) {
++		switch (type) {
++		default:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x35, 0x03, 0x11, 0x11);
++			break;
++
++		case 3:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x3a, 0x03, 0x10, 0x10);
++			break;
++		case 4:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x21, 0x03, 0x10, 0x10);
++			break;
++		case 5:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x15, 0x03, 0x11, 0x11);
++			break;
++		case 6:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x20, 0x03, 0x11, 0x11);
++			break;
++		case 7:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x10, 0x03, 0x10,  0x14 | psTdmaByte4Modify);
++			break;
++		case 8:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x10, 0x03, 0x10,  0x14 | psTdmaByte4Modify);
++			break;
++		case 13:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x25, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 14:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x15, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 15:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x20, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 17:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++				0x61, 0x10, 0x03, 0x11,  0x14 | psTdmaByte4Modify);
++			break;
++		case 19:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x15, 0x03, 0x11, 0x10);
++			break;
++		case 20:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x30, 0x03, 0x11, 0x10);
++			break;
++		case 21:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x30, 0x03, 0x11, 0x10);
++			break;
++		case 22:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x25, 0x03, 0x11, 0x10);
++			break;
++		case 32:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x35, 0x03, 0x11, 0x11);
++			break;
++		case 33:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x35, 0x03, 0x11, 0x10);
++			break;
++
++		}
++	} else {
++
++		/* disable PS tdma */
++		switch (type) {
++		case 8: /* PTA Control */
++			halbtc8703b1ant_set_fw_pstdma(btcoexist, 0x8,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 0:
++		default:  /* Software control, Antenna at BT side */
++			halbtc8703b1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 1: /* 2-Ant, 0x778=3, antenna control by antenna diversity */
++			halbtc8703b1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x48, 0x0);
++			break;
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8703b1ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean force_exec, IN boolean init_hwcfg,
++				  IN boolean wifi_off)
++{
++	u32			cnt_bt_cal_chk = 0;
++	boolean			is_in_mp_mode = false;
++	u8			u8tmp = 0;
++	u32			u32tmp1 = 0, u32tmp2 = 0;
++
++	coex_dm->cur_ant_pos_type = ant_pos_type;
++
++#if 1
++	u32tmp1 = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0x38);
++	u32tmp2 = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0x54);
++	u8tmp  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Before Ant Setup) 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++		    u8tmp, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++#endif
++
++	if (init_hwcfg) {
++		/* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++		halbtc8703b1ant_ltecoex_enable(btcoexist, 0x0);
++
++		/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++		halbtc8703b1ant_ltecoex_set_coex_table(btcoexist,
++				       BT_8703B_1ANT_CTT_WL_VS_LTE, 0xffff);
++
++		/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++		halbtc8703b1ant_ltecoex_set_coex_table(btcoexist,
++				       BT_8703B_1ANT_CTT_BT_VS_LTE, 0xffff);
++
++		/* Wait If BT IQK running, because Path control owner is at BT during BT IQK (setup by WiFi firmware) */
++		while (cnt_bt_cal_chk <= 20) {
++			u8tmp = btcoexist->btc_read_1byte(btcoexist,
++							  0x49d);
++			cnt_bt_cal_chk++;
++			if (u8tmp & BIT(0)) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], ########### BT is calibrating (wait cnt=%d) ###########\n",
++					    cnt_bt_cal_chk);
++				BTC_TRACE(trace_buf);
++				delay_ms(50);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], ********** BT is NOT calibrating (wait cnt=%d)**********\n",
++					    cnt_bt_cal_chk);
++				BTC_TRACE(trace_buf);
++				break;
++			}
++		}
++
++		/* set Path control owner to WL at initial step */
++		halbtc8703b1ant_ltecoex_pathcontrol_owner(btcoexist,
++				BT_8703B_1ANT_PCO_WLSIDE);
++
++		/* set GNT_BT to SW high */
++		halbtc8703b1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8703B_1ANT_SIG_STA_SET_TO_HIGH);
++		/* Set GNT_WL to SW low */
++		halbtc8703b1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8703B_1ANT_SIG_STA_SET_TO_LOW);
++
++		coex_sta->gnt_control_by_PTA = false;
++
++	} else if (wifi_off) {
++		/* Disable LTE Coex Function in WiFi side */
++		halbtc8703b1ant_ltecoex_enable(btcoexist, 0x0);
++
++		/* set Path control owner to BT */
++		halbtc8703b1ant_ltecoex_pathcontrol_owner(btcoexist,
++				BT_8703B_1ANT_PCO_BTSIDE);
++
++		coex_sta->gnt_control_by_PTA = false;
++	} else {
++
++		halbtc8703b1ant_ltecoex_pathcontrol_owner(btcoexist,
++				BT_8703B_1ANT_PCO_WLSIDE);
++
++
++		if (force_exec ||
++		    (coex_dm->cur_ant_pos_type != coex_dm->pre_ant_pos_type) ||
++		    init_hwcfg || wifi_off) {
++			/* internal switch setting */
++			switch (ant_pos_type) {
++			case BTC_ANT_PATH_WIFI:
++				/* set GNT_BT to low */
++				halbtc8703b1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8703B_1ANT_SIG_STA_SET_TO_LOW);
++				/* Set GNT_WL to high */
++				halbtc8703b1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8703B_1ANT_SIG_STA_SET_TO_HIGH);
++
++				coex_sta->gnt_control_by_PTA = false;
++				break;
++			case BTC_ANT_PATH_BT:
++				/*halbtc8703b1ant_ltecoex_pathcontrol_owner(
++					btcoexist, BT_8703B_1ANT_PCO_BTSIDE);*/
++				/* set GNT_BT to high */
++				halbtc8703b1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8703B_1ANT_SIG_STA_SET_TO_HIGH);
++				/* Set GNT_WL to low */
++				halbtc8703b1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8703B_1ANT_SIG_STA_SET_TO_LOW);
++
++				coex_sta->gnt_control_by_PTA = false;
++				break;
++			default:
++			case BTC_ANT_PATH_PTA:
++				/* set GNT_BT to PTA */
++				halbtc8703b1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_PTA,
++					   BT_8703B_1ANT_SIG_STA_SET_BY_HW);
++				/* Set GNT_WL to PTA */
++				halbtc8703b1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_PTA,
++					   BT_8703B_1ANT_SIG_STA_SET_BY_HW);
++
++				coex_sta->gnt_control_by_PTA = true;
++				break;
++			}
++		}
++	}
++
++#if 1
++	u32tmp1 = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++	u8tmp  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	if (init_hwcfg) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (After Ant-Setup Init) 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++			    u8tmp, u32tmp1, u32tmp2);
++		BTC_TRACE(trace_buf);
++	} else if (wifi_off) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (After Ant-Setup WiFi off) 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++			    u8tmp, u32tmp1, u32tmp2);
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (After Ant-Setup Run time) 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++			    u8tmp, u32tmp1, u32tmp2);
++		BTC_TRACE(trace_buf);
++	}
++#endif
++
++	coex_dm->pre_ant_pos_type = coex_dm->cur_ant_pos_type;
++}
++
++
++boolean halbtc8703b1ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected &&
++	    BT_8703B_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++	    coex_dm->bt_status) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8703b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		   (BT_8703B_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8703b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8703B_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8703b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		(BT_8703B_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8703b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8703B_1ANT_BT_STATUS_CONNECTED_IDLE != coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non connected-idle + BT Busy!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8703b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else {
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		}
++
++		common = false;
++	}
++
++	return common;
++}
++
++/* *********************************************
++ *
++ *	Software Coex Mechanism start
++ *
++ * ********************************************* */
++
++/* SCO only or SCO+PAN(HS) */
++
++/*
++void halbtc8703b1ant_action_sco(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8703b1ant_action_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8703b1ant_action_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8703b1ant_action_a2dp_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8703b1ant_action_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8703b1ant_action_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8703b1ant_action_pan_edr_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8703b1ant_action_pan_edr_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8703b1ant_action_hid_a2dp_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, true);
++}
++
++void halbtc8703b1ant_action_hid_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, true);
++}
++
++*/
++
++/* *********************************************
++ *
++ *	Non-Software Coex Mechanism start
++ *
++ * ********************************************* */
++u8 halbtc8703b1ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8703B_1ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Profile = SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8703B_1ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8703B_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8703B_1ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8703B_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8703B_1ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8703B_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID + A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8703B_1ANT_COEX_ALGO_HID_A2DP;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8703B_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8703B_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! BT Profile = SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++
++
++void halbtc8703b1ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC,
++				     false, false);
++	halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8703b1ant_action_wifi_only(IN struct btc_coexist *btcoexist)
++{
++	halbtc8703b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, FORCE_EXEC,
++				     false, false);
++	halbtc8703b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++}
++
++void halbtc8703b1ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC,
++				     false, false);
++	halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8703b1ant_action_hs(IN struct btc_coexist *btcoexist)
++{
++	halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++	halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8703b1ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_connected = false, ap_enable = false, wifi_busy = false,
++				bt_busy = false;
++	boolean	wifi_scan = false, wifi_link = false, wifi_roam = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &wifi_scan);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &wifi_link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &wifi_roam);
++
++	if ((wifi_link) || (wifi_roam)  || (coex_sta->wifi_is_high_pri_task)) {
++
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++
++	} else if ((wifi_scan) && (coex_sta->bt_create_connection)) {
++
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++
++	} else if ((!wifi_connected) && (!wifi_scan)) {
++
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if ((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) {
++
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	} else if (bt_link_info->a2dp_exist) {
++
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (wifi_scan) {
++
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	} else if (wifi_busy) {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 21);
++
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 19);
++
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	}
++}
++
++void halbtc8703b1ant_action_bt_sco_hid_only_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	/* tdma and coex table */
++
++	if (bt_link_info->sco_exist) {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else { /* HID */
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	}
++}
++
++void halbtc8703b1ant_action_wifi_connected_bt_acl_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++
++	if (bt_link_info->hid_only) { /* HID */
++		halbtc8703b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				wifi_status);
++		coex_dm->auto_tdma_adjust = false;
++		return;
++	} else if (bt_link_info->a2dp_only) { /* A2DP		 */
++		if (BT_8703B_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status) {
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = false;
++		} else {
++
++			if (coex_sta->scan_ap_num >=
++			    BT_8703B_1ANT_WIFI_NOISY_THRESH)  {
++				halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++							17);
++			}	else {
++				halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++							7);
++			}
++
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = true;
++		}
++	} else if (((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) ||
++		   (bt_link_info->hid_exist && bt_link_info->a2dp_exist &&
++		bt_link_info->pan_exist)) { /* A2DP+PAN(OPP,FTP), HID+A2DP+PAN(OPP,FTP) */
++
++		if (wifi_busy)	{
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 15);
++			else
++				halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++		} else
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 14);
++
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++		coex_dm->auto_tdma_adjust = false;
++	} else if (bt_link_info->hid_exist &&
++		   bt_link_info->a2dp_exist) { /* HID+A2DP */
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 8);
++		coex_dm->auto_tdma_adjust = false;
++
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++	} else if ((bt_link_info->pan_only) || (bt_link_info->hid_exist &&
++		bt_link_info->pan_exist)) { /* PAN(OPP,FTP), HID+PAN(OPP,FTP)			 */
++		if (BT_8703B_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status)
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						4);
++		else
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++		coex_dm->auto_tdma_adjust = false;
++	} else {
++		/* BT no-profile busy (0x9) */
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	}
++}
++
++void halbtc8703b1ant_action_wifi_not_connected(IN struct btc_coexist *btcoexist)
++{
++
++	/* tdma and coex table */
++	halbtc8703b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC,
++				     false, false);
++	halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8703b1ant_action_wifi_not_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8703b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8703b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8703b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8703b1ant_action_hs(btcoexist);
++		return;
++	}
++
++	/* tdma and coex table */
++	if (BT_8703B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8703B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8703B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8703b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8703B_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8703b1ant_action_wifi_not_connected_asso_auth(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8703b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8703b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8703b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8703b1ant_action_hs(btcoexist);
++		return;
++	}
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist)  || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 2);
++	}
++}
++
++void halbtc8703b1ant_action_wifi_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8703b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8703b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8703b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8703b1ant_action_hs(btcoexist);
++		return;
++	}
++
++	/* tdma and coex table */
++	if (BT_8703B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8703B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8703B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8703b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8703B_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8703b1ant_action_wifi_connected_specific_packet(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++	boolean wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8703b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8703b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8703b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8703b1ant_action_hs(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	/* no specific packet process for both WiFi and BT very busy */
++	if ((wifi_busy) && ((bt_link_info->pan_exist) ||
++			    (coex_sta->num_of_profile >= 2)))
++		return;
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist)) {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else if (bt_link_info->a2dp_exist) {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8703b1ant_action_wifi_connected(IN struct btc_coexist *btcoexist)
++{
++	boolean	wifi_busy = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean		under_4way = false, ap_enable = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], CoexForWifiConnect()===>\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (under_4way) {
++		halbtc8703b1ant_action_wifi_connected_specific_packet(btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 4way<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++	if (scan || link || roam) {
++		if (scan)
++			halbtc8703b1ant_action_wifi_connected_scan(btcoexist);
++		else
++			halbtc8703b1ant_action_wifi_connected_specific_packet(
++				btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under scan<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++
++	/* tdma and coex table */
++	if (!wifi_busy) {
++		if (BT_8703B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8703b1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8703B_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else if ((BT_8703B_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8703B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8703b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8703B_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else {
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++			halbtc8703b1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_PTA, NORMAL_EXEC, false, false);
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++		}
++	} else {
++		if (BT_8703B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8703b1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8703B_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else if ((BT_8703B_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8703B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8703b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8703B_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else {
++			/* halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8); */
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8703b1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_PTA, NORMAL_EXEC, false, false);
++			/* halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);	 */
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	}
++}
++
++void halbtc8703b1ant_run_sw_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8				algorithm = 0;
++
++	algorithm = halbtc8703b1ant_action_algorithm(btcoexist);
++	coex_dm->cur_algorithm = algorithm;
++
++	if (halbtc8703b1ant_is_common_action(btcoexist)) {
++
++	} else {
++		switch (coex_dm->cur_algorithm) {
++		case BT_8703B_1ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_sco(btcoexist); */
++			break;
++		case BT_8703B_1ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_hid(btcoexist); */
++			break;
++		case BT_8703B_1ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_a2dp(btcoexist); */
++			break;
++		case BT_8703B_1ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_a2dp_pan_hs(btcoexist); */
++			break;
++		case BT_8703B_1ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_pan_edr(btcoexist); */
++			break;
++		case BT_8703B_1ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_pan_hs(btcoexist); */
++			break;
++		case BT_8703B_1ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_pan_edr_a2dp(btcoexist); */
++			break;
++		case BT_8703B_1ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_pan_edr_hid(btcoexist); */
++			break;
++		case BT_8703B_1ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_hid_a2dp_pan_edr(btcoexist); */
++			break;
++		case BT_8703B_1ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_hid_a2dp(btcoexist); */
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_coex_all_off(btcoexist); */
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8703b1ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false, bt_hs_on = false;
++	boolean	increase_scan_dev_num = false;
++	boolean	bt_ctrl_agg_buf_size = false;
++	boolean	miracast_plus_bt = false;
++	u8	agg_buf_size = 5;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0, wifi_bw;
++	u8	iot_peer = BTC_IOT_PEER_UNKNOWN;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8703b1ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	if (coex_sta->bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is disabled !!!\n");
++		halbtc8703b1ant_action_wifi_only(btcoexist);
++		return;
++	}
++
++	if ((BT_8703B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8703B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8703B_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		increase_scan_dev_num = true;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_INC_SCAN_DEV_NUM,
++			   &increase_scan_dev_num);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist) {
++			halbtc8703b1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1,
++						   0, 1);
++			miracast_plus_bt = true;
++		} else {
++			halbtc8703b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++			miracast_plus_bt = false;
++		}
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8703b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8703b1ant_action_wifi_multi_port(btcoexist);
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if ((bt_link_info->bt_link_exist) && (wifi_connected)) {
++		halbtc8703b1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1, 0, 1);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_IOT_PEER, &iot_peer);
++
++		if (BTC_IOT_PEER_CISCO != iot_peer) {
++			if (bt_link_info->sco_exist) /* if (bt_link_info->bt_hi_pri_link_exist) */
++				halbtc8703b1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, true, false, 0x5);
++			else
++				halbtc8703b1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, false, false, 0x5);
++		} else {
++			if (bt_link_info->sco_exist)
++				halbtc8703b1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, true, false, 0x5);
++			else {
++				if (BTC_WIFI_BW_HT40 == wifi_bw)
++					halbtc8703b1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x10);
++				else
++					halbtc8703b1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x8);
++			}
++		}
++
++		halbtc8703b1ant_sw_mechanism(btcoexist, true);
++		halbtc8703b1ant_run_sw_coexist_mechanism(
++			btcoexist);  /* just print debug message */
++	} else {
++		halbtc8703b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++		halbtc8703b1ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x5);
++
++		halbtc8703b1ant_sw_mechanism(btcoexist, false);
++		halbtc8703b1ant_run_sw_coexist_mechanism(
++			btcoexist); /* just print debug message */
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "############# [BTCoex],  BT Is Inquirying\n");
++		BTC_TRACE(trace_buf);
++		halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8703b1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	if (!wifi_connected) {
++		boolean	scan = false, link = false, roam = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is non connected-idle !!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (scan || link || roam) {
++			if (scan)
++				halbtc8703b1ant_action_wifi_not_connected_scan(
++					btcoexist);
++			else
++				halbtc8703b1ant_action_wifi_not_connected_asso_auth(
++					btcoexist);
++		} else
++			halbtc8703b1ant_action_wifi_not_connected(btcoexist);
++	} else	/* wifi LPS/Busy */
++		halbtc8703b1ant_action_wifi_connected(btcoexist);
++}
++
++u32 halbtc8703b1ant_psd_log2base(IN struct btc_coexist *btcoexist, IN u32 val)
++{
++	u8	j;
++	u32	tmp, tmp2, val_integerd_b = 0, tindex, shiftcount = 0;
++	u32	result, val_fractiond_b = 0, table_fraction[21] = {0, 432, 332, 274, 232, 200,
++				   174, 151, 132, 115, 100, 86, 74, 62, 51, 42,
++							   32, 23, 15, 7, 0
++							      };
++
++	if (val == 0)
++		return 0;
++
++	tmp = val;
++
++	while (1) {
++		if (tmp == 1)
++			break;
++		else {
++			tmp = (tmp >> 1);
++			shiftcount++;
++		}
++	}
++
++
++	val_integerd_b = shiftcount + 1;
++
++	tmp2 = 1;
++	for (j = 1; j <= val_integerd_b; j++)
++		tmp2 = tmp2 * 2;
++
++	tmp = (val * 100) / tmp2;
++	tindex = tmp / 5;
++
++	if (tindex > 20)
++		tindex = 20;
++
++	val_fractiond_b = table_fraction[tindex];
++
++	result = val_integerd_b * 100 - val_fractiond_b;
++
++	return result;
++
++
++}
++
++void halbtc8703b1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++
++	/* sw all off */
++	halbtc8703b1ant_sw_mechanism(btcoexist, false);
++
++	/* halbtc8703b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8); */
++	/* halbtc8703b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0); */
++
++	coex_sta->pop_event_cnt = 0;
++}
++
++void halbtc8703b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up, IN boolean wifi_only)
++{
++	u32				u32tmp0 = 0, u32tmp1 = 0, u32tmp2 = 0;
++
++	u32tmp0 = btcoexist->btc_read_4byte(btcoexist, 0x70),
++	u32tmp1 = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"\n [BTCoex], ********** 0x70/ 0x38/ 0x54 (Before Init HW config) = 0x%x/ 0x%x/ 0x%x**********\n",
++		    u32tmp0,
++		    u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 1Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	/* 0xf0[15:12] --> Chip Cut information */
++	coex_sta->cut_version = (btcoexist->btc_read_1byte(btcoexist,
++				 0xf1) & 0xf0) >> 4;
++
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++
++	/* BT report packet sample rate	 */
++	btcoexist->btc_write_1byte(btcoexist, 0x790, 0x5);
++
++	/* Enable BT counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++
++	/* Enable PTA (3-wire function form BT side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x41, 0x02, 0x1);
++
++	/* Enable PTA (tx/rx signal form WiFi side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4c6, 0x10, 0x1);
++
++	halbtc8703b1ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++	if (btcoexist->btc_read_1byte(btcoexist, 0x80) == 0xc6)
++		halbtc8703b1ant_post_onoffState_to_bt(btcoexist, true);
++
++	halbtc8703b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++
++	/* Antenna config */
++	if (wifi_only) {
++		coex_sta->concurrent_rx_mode_on = false;
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_WIFI,
++					     FORCE_EXEC, true, false);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_WIFI,
++					     FORCE_EXEC, false, false);
++	} else {
++		coex_sta->concurrent_rx_mode_on = true;
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x953, 0x2, 0x1);
++		/* RF 0x1[0] = 0->Set GNT_WL_RF_Rx always = 1 for con-current Rx */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0x1, 0x0);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, true, false);
++	}
++
++	/* PTA parameter */
++	halbtc8703b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	u32tmp0 = btcoexist->btc_read_4byte(btcoexist, 0x70),
++	u32tmp1 = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** 0x70/ 0x38/ 0x54 (After Init HW config) = 0x%x/ 0x%x/ 0x%x**********\n",
++		    u32tmp0,
++		    u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++
++}
++
++
++
++void halbtc8703b1ant_psd_showdata(IN struct btc_coexist *btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	u32		delta_freq_per_point;
++	u32		freq, freq1, freq2, n = 0, i = 0, j = 0, m = 0, psd_rep1, psd_rep2;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n\n============[PSD info]  (%d)============\n",
++		   psd_scan->psd_gen_count);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->psd_gen_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n No data !!\n");
++		CL_PRINTF(cli_buf);
++		return;
++	}
++
++	if (psd_scan->psd_point == 0)
++		delta_freq_per_point = 0;
++	else
++		delta_freq_per_point = psd_scan->psd_band_width /
++				       psd_scan->psd_point;
++
++	/* if (psd_scan->is_psd_show_max_only) */
++	if (0) {
++		psd_rep1 = psd_scan->psd_max_value / 100;
++		psd_rep2 = psd_scan->psd_max_value - psd_rep1 * 100;
++
++		freq = ((psd_scan->real_cent_freq - 20) * 1000000 +
++			psd_scan->psd_max_value_point * delta_freq_per_point);
++		freq1 = freq / 1000000;
++		freq2 = freq / 1000 - freq1 * 1000;
++
++		if (freq2 < 100)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.0%d MHz",
++				   freq1, freq2);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.%d MHz",
++				   freq1, freq2);
++
++		if (psd_rep2 < 10)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.0%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++
++		CL_PRINTF(cli_buf);
++	} else {
++		m = psd_scan->psd_start_point;
++		n = psd_scan->psd_start_point;
++		i = 1;
++		j = 1;
++
++		while (1) {
++			do {
++				freq = ((psd_scan->real_cent_freq - 20) * 1000000 + m *
++					delta_freq_per_point);
++				freq1 = freq / 1000000;
++				freq2 = freq / 1000 - freq1 * 1000;
++
++				if (i == 1) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.0%2d", freq1,
++							   freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.%3d", freq1,
++							   freq2);
++				} else if ((i % 8 == 0) ||
++					   (m == psd_scan->psd_stop_point)) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000\n", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d\n", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d\n", freq1, freq2);
++				} else {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d", freq1, freq2);
++				}
++
++				i++;
++				m++;
++				CL_PRINTF(cli_buf);
++
++			} while ((i <= 8) && (m <= psd_scan->psd_stop_point));
++
++
++			do {
++				psd_rep1 = psd_scan->psd_report_max_hold[n] / 100;
++				psd_rep2 = psd_scan->psd_report_max_hold[n] - psd_rep1 *
++					   100;
++
++				if (j == 1) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.0%d", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.%d", psd_rep1,
++							   psd_rep2);
++				} else if ((j % 8 == 0)  ||
++					   (n == psd_scan->psd_stop_point)) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d\n", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d\n", psd_rep1, psd_rep2);
++				} else {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d", psd_rep1, psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d", psd_rep1, psd_rep2);
++				}
++
++				j++;
++				n++;
++				CL_PRINTF(cli_buf);
++
++			} while ((j <= 8) && (n <= psd_scan->psd_stop_point));
++
++			if ((m > psd_scan->psd_stop_point) ||
++			    (n > psd_scan->psd_stop_point))
++				break;
++			else {
++				i = 1;
++				j = 1;
++			}
++
++		}
++	}
++
++
++}
++
++void halbtc8703b1ant_psd_maxholddata(IN struct btc_coexist *btcoexist,
++				     IN u32 gen_count)
++{
++	u32	i = 0, i_max = 0, val_max = 0;
++
++	if (gen_count == 1) {
++		memcpy(psd_scan->psd_report_max_hold,
++		       psd_scan->psd_report,
++		       BT_8703B_1ANT_ANTDET_PSD_POINTS * sizeof(u32));
++
++		for (i = psd_scan->psd_start_point;
++		     i <= psd_scan->psd_stop_point; i++) {
++
++		}
++
++		psd_scan->psd_max_value_point = 0;
++		psd_scan->psd_max_value = 0;
++
++	} else {
++		for (i = psd_scan->psd_start_point;
++		     i <= psd_scan->psd_stop_point; i++) {
++			if (psd_scan->psd_report[i] >
++			    psd_scan->psd_report_max_hold[i])
++				psd_scan->psd_report_max_hold[i] =
++					psd_scan->psd_report[i];
++
++			/* search Max Value */
++			if (i == psd_scan->psd_start_point) {
++				i_max = i;
++				val_max = psd_scan->psd_report_max_hold[i];
++			} else {
++				if (psd_scan->psd_report_max_hold[i] >
++				    val_max) {
++					i_max = i;
++					val_max = psd_scan->psd_report_max_hold[i];
++				}
++			}
++
++
++		}
++
++		psd_scan->psd_max_value_point = i_max;
++		psd_scan->psd_max_value = val_max;
++
++	}
++
++
++}
++
++u32 halbtc8703b1ant_psd_getdata(IN struct btc_coexist *btcoexist, IN u32 point)
++{
++	/* reg 0x808[9:0]: FFT data x */
++	/* reg 0x808[22]: 0-->1 to get 1 FFT data y */
++	/* reg 0x8b4[15:0]: FFT data y report */
++
++	u32 val = 0, psd_report = 0;
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++
++	val &= 0xffbffc00;
++	val |= point;
++
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	val |= 0x00400000;
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x8b4);
++
++	psd_report = val & 0x0000ffff;
++
++	return psd_report;
++}
++
++
++boolean halbtc8703b1ant_psd_sweep_point(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN s32 offset, IN u32 span, IN u32 points,
++					IN u32 avgnum, IN u32 loopcnt)
++{
++	u32	 i = 0, val = 0, n = 0, k = 0, j, point_index = 0;
++	u32	points1 = 0, psd_report = 0;
++	u32	start_p = 0, stop_p = 0, delta_freq_per_point = 156250;
++	u32    psd_center_freq = 20 * 10 ^ 6;
++	boolean outloop = false, scan , roam, is_sweep_ok = true;
++	u8	 flag = 0;
++	u32	tmp = 0, u32tmp1 = 0;
++	u32	wifi_original_channel = 1;
++
++	psd_scan->is_psd_running = true;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Start!!\n");
++	BTC_TRACE(trace_buf);
++
++	do {
++		switch (flag) {
++		case 0:  /* Get PSD parameters */
++		default:
++
++			psd_scan->psd_band_width = 40 * 1000000;
++			psd_scan->psd_point = points;
++			psd_scan->psd_start_base = points / 2;
++			psd_scan->psd_avg_num = avgnum;
++			psd_scan->real_cent_freq = cent_freq;
++			psd_scan->real_offset = offset;
++			psd_scan->real_span = span;
++
++
++			points1 = psd_scan->psd_point;
++			delta_freq_per_point = psd_scan->psd_band_width /
++					       psd_scan->psd_point;
++
++			/* PSD point setup */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffff0fff;
++
++			switch (psd_scan->psd_point) {
++			case 128:
++				val |= 0x0;
++				break;
++			case 256:
++			default:
++				val |= 0x00004000;
++				break;
++			case 512:
++				val |= 0x00008000;
++				break;
++			case 1024:
++				val |= 0x0000c000;
++				break;
++			}
++
++			switch (psd_scan->psd_avg_num) {
++			case 1:
++				val |= 0x0;
++				break;
++			case 8:
++				val |= 0x00001000;
++				break;
++			case 16:
++				val |= 0x00002000;
++				break;
++			case 32:
++			default:
++				val |= 0x00003000;
++				break;
++			}
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			flag = 1;
++			break;
++		case 1:	  /* calculate the PSD point index from freq/offset/span */
++			psd_center_freq = psd_scan->psd_band_width / 2 +
++					  offset * (1000000);
++
++			start_p = psd_scan->psd_start_base + (psd_center_freq -
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_start_point = start_p -
++						    psd_scan->psd_start_base;
++
++			stop_p = psd_scan->psd_start_base + (psd_center_freq +
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_stop_point = stop_p -
++						   psd_scan->psd_start_base - 1;
++
++			flag = 2;
++			break;
++		case 2:  /* set RF channel/BW/Mode */
++
++			/* set 3-wire off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val |= 0x00300000;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val &= 0xfeffffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause on */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x6f);
++
++			/* store WiFi original channel */
++			wifi_original_channel = btcoexist->btc_get_rf_reg(
++					btcoexist, BTC_RF_A, 0x18, 0x3ff);
++
++			/* Set RF channel */
++			if (cent_freq == 2484)
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++							  0x18, 0x3ff, 0xe);
++			else
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++					  0x18, 0x3ff, (cent_freq - 2412) / 5 +
++						  1); /* WiFi TRx Mask on */
++
++			/* save original RCK value */
++			u32tmp1 =  btcoexist->btc_get_rf_reg(
++					   btcoexist, BTC_RF_A, 0x1d, 0xfffff);
++
++			/* Enter debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x1);
++
++			/* Set RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, 0x2e);
++
++
++			/* Set  RF mode = Rx, RF Gain = 0x320a0 */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x0,
++						  0xfffff, 0x320a0);
++
++			while (1) {
++				if (k++ > BT_8703B_1ANT_ANTDET_SWEEPPOINT_DELAY)
++					break;
++			}
++			flag = 3;
++			break;
++		case 3:
++			psd_scan->psd_gen_count = 0;
++			for (j = 1; j <= loopcnt; j++) {
++
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_SCAN, &scan);
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_ROAM, &roam);
++
++				if (scan || roam) {
++					is_sweep_ok = false;
++					break;
++				}
++				memset(psd_scan->psd_report, 0,
++				       psd_scan->psd_point * sizeof(u32));
++				start_p = psd_scan->psd_start_point +
++					  psd_scan->psd_start_base;
++				stop_p = psd_scan->psd_stop_point +
++					 psd_scan->psd_start_base + 1;
++
++				i = start_p;
++				point_index = 0;
++
++				while (i < stop_p) {
++					if (i >= points1)
++						psd_report =
++							halbtc8703b1ant_psd_getdata(
++							btcoexist, i - points1);
++					else
++						psd_report =
++							halbtc8703b1ant_psd_getdata(
++								btcoexist, i);
++
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"Point=%d, psd_raw_data = 0x%08x\n",
++						    i, psd_report);
++					BTC_TRACE(trace_buf);
++					if (psd_report == 0)
++						tmp = 0;
++					else
++						/* tmp =  20*log10((double)psd_report); */
++						/* 20*log2(x)/log2(10), log2Base return theresult of the psd_report*100 */
++						tmp = 6 * halbtc8703b1ant_psd_log2base(
++							btcoexist, psd_report);
++
++					n = i - psd_scan->psd_start_base;
++					psd_scan->psd_report[n] =  tmp;
++
++
++					halbtc8703b1ant_psd_maxholddata(
++						btcoexist, j);
++
++					i++;
++
++				}
++
++				psd_scan->psd_gen_count = j;
++			}
++
++			flag = 100;
++			break;
++		case 99:	/* error */
++
++			outloop = true;
++			break;
++		case 100: /* recovery */
++
++			/* set 3-wire on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val &= 0xffcfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val |= 0x01000000;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause off */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x0);
++
++			/* PSD off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffbfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			/* restore RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, u32tmp1);
++
++			/* Exit debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x0);
++
++			/* restore WiFi original channel */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x18,
++						  0x3ff, wifi_original_channel);
++
++			outloop = true;
++			break;
++
++		}
++
++	} while (!outloop);
++
++
++
++	psd_scan->is_psd_running = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Stop!!\n");
++	BTC_TRACE(trace_buf);
++	return is_sweep_ok;
++
++}
++
++/* ************************************************************
++ * work around function start with wa_halbtc8703b1ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8703b1ant_
++ * ************************************************************ */
++void ex_halbtc8703b1ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x0;
++	u16 u16tmp = 0x0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx Execute 8703b 1-Ant PowerOn Setting xxxxxxxxxxxxxxxx!!\n");
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "Ant Det Finish = %s, Ant Det Number  = %d\n",
++		    (board_info->btdm_ant_det_finish ? "Yes" : "No"),
++		    board_info->btdm_ant_num_by_ant_det);
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = true;
++
++	/* enable BB, REG_SYS_FUNC_EN such that we can write BB/MAC reg correctly. */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x2);
++	btcoexist->btc_write_2byte(btcoexist, 0x2, u16tmp | BIT(0) | BIT(1));
++
++	/* set Path control owner to WiFi */
++	halbtc8703b1ant_ltecoex_pathcontrol_owner(btcoexist,
++			BT_8703B_1ANT_PCO_WLSIDE);
++
++	/* set GNT_BT to high */
++	halbtc8703b1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8703B_1ANT_SIG_STA_SET_TO_HIGH);
++	/* Set GNT_WL to low */
++	halbtc8703b1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8703B_1ANT_SIG_STA_SET_TO_LOW);
++
++	/* set WLAN_ACT = 0 */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++	halbtc8703b1ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++	/* */
++	/* S0 or S1 setting and Local register setting(By the setting fw can get ant number, S0/S1, ... info) */
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++
++	u8tmp = 0;
++	board_info->btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++
++	if (btcoexist->chip_interface == BTC_INTF_USB)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60, u8tmp);
++
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********  0x70(MAC)/0x38/0x54 (Power-On) =0x%x/  0x%x/ 0x%x**********\n",
++		    btcoexist->btc_read_4byte(btcoexist, 0x70),
++		    halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x38),
++		    halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x54));
++	BTC_TRACE(trace_buf);
++
++
++}
++
++void ex_halbtc8703b1ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8703b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8703b1ant_init_hw_config(btcoexist, true, wifi_only);
++	btcoexist->stop_coex_dm = false;
++}
++
++void ex_halbtc8703b1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8703b1ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8703b1ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_stack_info		*stack_info = &btcoexist->stack_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fa_of_dm, fa_cck;
++	u32				fw_ver = 0, bt_patch_ver = 0;
++	static u8			pop_report_in_10s = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	if (btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	if (psd_scan->ant_det_try_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d",
++			   "Ant PG Num/ Mech/ Pos",
++			   board_info->pg_ant_num, board_info->btdm_ant_num,
++			   board_info->btdm_ant_pos);
++		CL_PRINTF(cli_buf);
++	} else {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d/ %d/ %d  (%d/%d/%d)",
++			   "Ant PG Num/ Mech(Ant_Det)/ Pos",
++			board_info->pg_ant_num, board_info->btdm_ant_num_by_ant_det,
++			   board_info->btdm_ant_pos,
++			psd_scan->ant_det_try_count, psd_scan->ant_det_fail_count,
++			   psd_scan->ant_det_result);
++		CL_PRINTF(cli_buf);
++
++		if (board_info->btdm_ant_det_finish) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++				   "Ant Det PSD Value",
++				   psd_scan->ant_det_peak_val);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %d",
++		   "BT stack/ hci ext ver",
++		   ((stack_info->profile_notified) ? "Yes" : "No"),
++		   stack_info->hci_version);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)/ %c",
++		   "Version Coex/ Fw/ Patch/ Cut",
++		   glcoex_ver_date_8703b_1ant, glcoex_ver_8703b_1ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver, coex_sta->cut_version + 65);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s/ %s",
++		   "WifibHiPri/ Ccklock/ CckEverLock",
++		   (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"),
++		   (coex_sta->cck_lock ? "Yes" : "No"),
++		   (coex_sta->cck_ever_lock ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	pop_report_in_10s++;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt/ popCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++			   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page")
++			   : ((BT_8703B_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8703B_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi - 100, coex_sta->bt_retry_cnt,
++		   coex_sta->pop_event_cnt);
++	CL_PRINTF(cli_buf);
++
++	if (pop_report_in_10s >= 5) {
++		coex_sta->pop_event_cnt = 0;
++		pop_report_in_10s = 0;
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d / %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP/Hi-Pri",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist,
++		   bt_link_info->bt_hi_pri_link_exist);
++	CL_PRINTF(cli_buf);
++
++	if (stack_info->profile_notified)
++		btcoexist->btc_disp_dbg_msg(btcoexist,
++					    BTC_DBG_DISP_BT_LINK_INFO);
++	else {
++		bt_info_ext = coex_sta->bt_info_ext;
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %s / %d",
++			   "Role/A2DP Rate/Bitpool",
++			   ((bt_link_info->slave_role) ? "Slave" : "Master"),
++			(bt_info_ext & BIT(0)) ? "BR" : "EDR", coex_sta->a2dp_bit_pool);
++		CL_PRINTF(cli_buf);
++	}
++
++
++	for (i = 0; i < BT_INFO_SRC_8703B_1ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8703b_1ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	if (btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[mechanisms] (before Manual)============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanisms]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "SM[LowPenaltyRA]",
++		   coex_dm->cur_low_penalty_ra);
++	CL_PRINTF(cli_buf);
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (%s,%s)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   (coex_dm->cur_ps_tdma_on ? "On" : "Off"),
++		   (coex_dm->auto_tdma_adjust ? "Adj" : "Fix"));
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "WL/BT Coex Table Type",
++		   coex_sta->coex_table_type);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x778/0x6cc/IgnWlanAct",
++		   u8tmp[0], u32tmp[0],  coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa0);
++	u32tmp[1] = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "LTE Coex Table W_L/B_L",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa8);
++	u32tmp[1] = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xac);
++	u32tmp[2] = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb0);
++	u32tmp[3] = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "LTE Break Table W_L/B_L/L_W/L_B",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff,
++		   u32tmp[2] & 0xffff, u32tmp[3] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %s",
++		   "LTE CoexOn/Path Ctrl Owner",
++		(int)((u32tmp[0] & BIT(7)) >> 7), ((u8tmp[0] & BIT(2)) ? "WL" : "BT"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "LTE 3Wire/OPMode/UART/UARTMode",
++		(int)((u32tmp[0] & BIT(6)) >> 6), (int)((u32tmp[0] & (BIT(5) | BIT(4))) >> 4),
++		   (int)((u32tmp[0] & BIT(3)) >> 3),
++		   (int)(u32tmp[0] & (BIT(2) | BIT(1) | BIT(0))));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s",
++		   "GNT_WL_SWCtrl/GNT_BT_SWCtrl/Dbg",
++		(int)((u32tmp[0] & BIT(12)) >> 12), (int)((u32tmp[0] & BIT(14)) >> 14),
++		   ((u8tmp[0] & BIT(3)) ? "On" : "Off"));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "GNT_WL/GNT_BT/LTE_Busy/UART_Busy",
++		(int)((u32tmp[0] & BIT(2)) >> 2), (int)((u32tmp[0] & BIT(3)) >> 3),
++		   (int)((u32tmp[0] & BIT(1)) >> 1), (int)(u32tmp[0] & BIT(0)));
++	CL_PRINTF(cli_buf);
++
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x4c6);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x4c6[4]/0x40[5] (WL/BT PTA)",
++		(int)((u8tmp[0] & BIT(4)) >> 4), (int)((u8tmp[1] & BIT(5)) >> 5));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x953);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ %s",
++		   "0x550(bcn ctrl)/0x522/4-RxAGC",
++		   u32tmp[0], u8tmp[0], (u8tmp[1] & 0x2) ? "On" : "Off");
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xda0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xda4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0xda8);
++	u32tmp[3] = btcoexist->btc_read_4byte(btcoexist, 0xcf0);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5b);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++
++	fa_of_dm = ((u32tmp[0] & 0xffff0000) >> 16) + ((u32tmp[1] & 0xffff0000)
++			>> 16) + (u32tmp[1] & 0xffff) + (u32tmp[2] & 0xffff) +
++		   ((u32tmp[3] & 0xffff0000) >> 16) + (u32tmp[3] &
++				   0xffff) ;
++	fa_cck = (u8tmp[0] << 8) + u8tmp[1];
++
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0xc50/OFDM-CCA/OFDM-FA/CCK-FA",
++		   u32tmp[1] & 0xff, u32tmp[0] & 0xffff, fa_of_dm, fa_cck);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++
++	halbtc8703b1ant_read_score_board(btcoexist,	&u16tmp[0]);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %04x",
++		   "ScoreBoard[14:0] (from BT)", u16tmp[0]);
++	CL_PRINTF(cli_buf);
++
++
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8703b1ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++		coex_sta->under_lps = false;
++
++		/* Write WL "Active" in Score-board for LPS off */
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, false);
++
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, true);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, true);
++
++		halbtc8703b1ant_init_hw_config(btcoexist, false, false);
++		halbtc8703b1ant_init_coex_dm(btcoexist);
++		halbtc8703b1ant_query_bt_info(btcoexist);
++
++		coex_sta->under_ips = false;
++	}
++}
++
++void ex_halbtc8703b1ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++		coex_sta->under_ips = false;
++
++		if (coex_sta->force_lps_on == true) { /* LPS No-32K */
++			/* Write WL "Active" in Score-board for PS-TDMA */
++			halbtc8703b1ant_post_activestate_to_bt(btcoexist, true);
++
++		} else { /* LPS-32K, need check if this h2c 0x71 can work?? (2015/08/28) */
++			/* Write WL "Non-Active" in Score-board for Native-PS */
++			halbtc8703b1ant_post_activestate_to_bt(btcoexist, false);
++
++		}
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++
++
++		/* Write WL "Active" in Score-board for LPS off */
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, true);
++
++	}
++}
++
++void ex_halbtc8703b1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	boolean wifi_connected = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	halbtc8703b1ant_query_bt_info(btcoexist);
++
++	if (BTC_SCAN_START == type) {
++
++		coex_sta->wifi_is_high_pri_task = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, true);
++		halbtc8703b1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++					8);
++
++		/* Force antenna setup for no scan result issue */
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8703b1ant_action_wifi_not_connected_scan(btcoexist);
++		else	/* wifi is connected */
++			halbtc8703b1ant_action_wifi_connected_scan(btcoexist);
++
++	} else {
++
++		coex_sta->wifi_is_high_pri_task = false;
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], SCAN FINISH notify  (Scan-AP = %d)\n", coex_sta->scan_ap_num);
++		BTC_TRACE(trace_buf);
++
++		if (!wifi_connected)
++			halbtc8703b1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8703b1ant_action_wifi_connected(btcoexist);
++	}
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], SCAN START Notify() end\n");
++	BTC_TRACE(trace_buf);
++
++}
++
++void ex_halbtc8703b1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	boolean	wifi_connected = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	if (BTC_ASSOCIATE_START == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, true);
++		halbtc8703b1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++					8);
++
++		/* Force antenna setup for no scan result issue */
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++		/* psd_scan->ant_det_is_ant_det_available = TRUE; */
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++
++		halbtc8703b1ant_action_wifi_not_connected_asso_auth(btcoexist);
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++
++		if (!wifi_connected) /* non-connected scan */
++			halbtc8703b1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8703b1ant_action_wifi_connected(btcoexist);
++	}
++
++}
++
++void ex_halbtc8703b1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean			wifi_under_b_mode = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_MEDIA_CONNECT == type) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, true);
++		halbtc8703b1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++					8);
++
++		/* Force antenna setup for no scan result issue */
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++
++		/* Set CCK Tx/Rx high Pri except 11b mode */
++		if (wifi_under_b_mode) {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x00); /* CCK Rx */
++		} else {
++			/* btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x10); */ /*CCK Tx */
++			/* btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x10); */ /*CCK Rx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x10); /* CCK Rx */
++		}
++
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, false);
++
++		btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x0); /* CCK Tx */
++		btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x0); /* CCK Rx */
++
++		coex_sta->cck_ever_lock = false;
++	}
++
++	halbtc8703b1ant_update_wifi_channel_info(btcoexist, type);
++
++}
++
++void ex_halbtc8703b1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean	under_4way = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (under_4way) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], specific Packet ---- under_4way!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	} else if (BTC_PACKET_ARP == type) {
++
++		coex_dm->arp_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet ARP notify -cnt = %d\n", coex_dm->arp_cnt);
++		BTC_TRACE(trace_buf);
++
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet DHCP or EAPOL notify [Type = %d]\n", type);
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	}
++
++	if (coex_sta->wifi_is_high_pri_task)
++		halbtc8703b1ant_action_wifi_connected_specific_packet(btcoexist);
++}
++
++void ex_halbtc8703b1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8				bt_info = 0;
++	u8				i, rsp_source = 0;
++	boolean				wifi_connected = false;
++	boolean				bt_busy = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8703B_1ANT_MAX)
++		rsp_source = BT_INFO_SRC_8703B_1ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (BT_INFO_SRC_8703B_1ANT_WIFI_FW != rsp_source) {
++
++		/* if 0xff, it means BT is under WHCK test */
++		if (bt_info == 0xff)
++			coex_sta->bt_whck_test = true;
++		else
++			coex_sta->bt_whck_test = false;
++
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x20)
++			coex_sta->c2h_bt_page = true;
++		else
++			coex_sta->c2h_bt_page = false;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x80)
++			coex_sta->bt_create_connection = true;
++		else
++			coex_sta->bt_create_connection = false;
++
++		/* unit: %, value-100 to translate to unit: dBm  */
++		coex_sta->bt_rssi = coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		/* coex_sta->bt_info_c2h[rsp_source][3]*2+10; */
++
++		if ((coex_sta->bt_info_c2h[rsp_source][1] & 0x49) == 0x49) {
++			coex_sta->a2dp_bit_pool =
++				coex_sta->bt_info_c2h[rsp_source][6];
++		} else
++			coex_sta->a2dp_bit_pool = 0;
++
++		if (coex_sta->bt_info_c2h[rsp_source][1] & 0x9)
++			coex_sta->acl_busy = true;
++		else
++			coex_sta->acl_busy = false;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++
++		if ((!btcoexist->manual_control) && (!btcoexist->stop_coex_dm)) {
++
++			/*  Re-Init */
++			if (coex_sta->bt_info_ext & BIT(1)) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++				BTC_TRACE(trace_buf);
++				btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++						   &wifi_connected);
++				if (wifi_connected)
++					halbtc8703b1ant_update_wifi_channel_info(btcoexist,
++							BTC_MEDIA_CONNECT);
++				else
++					halbtc8703b1ant_update_wifi_channel_info(btcoexist,
++							BTC_MEDIA_DISCONNECT);
++			}
++
++			/*  If Ignore_WLanAct && not SetUp_Link */
++			if ((coex_sta->bt_info_ext & BIT(3)) && (!(coex_sta->bt_info_ext & BIT(2)))) {
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8703b1ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		}
++
++		/* check BIT2 first ==> check if bt is under inquiry or page scan */
++		if (bt_info & BT_INFO_8703B_1ANT_B_INQ_PAGE)
++			coex_sta->c2h_bt_inquiry_page = true;
++		else
++			coex_sta->c2h_bt_inquiry_page = false;
++
++	}
++
++	coex_sta->num_of_profile = 0;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8703B_1ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++
++		coex_sta->bt_hi_pri_link_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8703B_1ANT_B_FTP) {
++			coex_sta->pan_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8703B_1ANT_B_A2DP) {
++			coex_sta->a2dp_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8703B_1ANT_B_HID) {
++			coex_sta->hid_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8703B_1ANT_B_SCO_ESCO) {
++			coex_sta->sco_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->sco_exist = false;
++
++	}
++
++
++
++	halbtc8703b1ant_update_bt_link_info(btcoexist);
++
++	bt_info = bt_info &
++		0x1f;  /* mask profile bit for connect-ilde identification ( for CSR case: A2DP idle --> 0x41) */
++
++	if (!(bt_info & BT_INFO_8703B_1ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8703B_1ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8703B_1ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8703B_1ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8703B_1ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8703B_1ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8703B_1ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8703B_1ANT_B_ACL_BUSY) {
++		if (BT_8703B_1ANT_BT_STATUS_ACL_BUSY != coex_dm->bt_status)
++			coex_dm->auto_tdma_adjust = false;
++		coex_dm->bt_status = BT_8703B_1ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8703B_1ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8703B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8703B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8703B_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		bt_busy = true;
++	else
++		bt_busy = false;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), No run_coexist_mechanism return for Manual CTRL<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(),  No run_coexist_mechanism return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	/*  don't run coex mechanism while receve BTInfo if GNT_WL/GNT_BT control by SW */
++	if (!coex_sta->gnt_control_by_PTA)
++		return;
++
++	halbtc8703b1ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8703b1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RF Status notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_RF_ON == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wl_rf_off_on_event = true;
++		btcoexist->stop_coex_dm = false;
++
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, true);
++		halbtc8703b1ant_post_onoffState_to_bt(btcoexist, true);
++
++		/*	halbtc8703b1ant_init_hw_config(btcoexist, false, false); */
++	} else if (BTC_RF_OFF == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, false);
++		halbtc8703b1ant_post_onoffState_to_bt(btcoexist, false);
++
++		halbtc8703b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, true);
++
++		btcoexist->stop_coex_dm = true;
++		coex_sta->wl_rf_off_on_event = false;
++
++	}
++}
++
++void ex_halbtc8703b1ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8703b1ant_post_activestate_to_bt(btcoexist, false);
++	halbtc8703b1ant_post_onoffState_to_bt(btcoexist, false);
++
++	halbtc8703b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++	halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, FORCE_EXEC,
++				     false, true);
++
++	ex_halbtc8703b1ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	halbtc8703b1ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++	btcoexist->stop_coex_dm = true;
++}
++
++void ex_halbtc8703b1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, false);
++		halbtc8703b1ant_post_onoffState_to_bt(btcoexist, false);
++
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, true);
++
++		btcoexist->stop_coex_dm = true;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, true);
++		halbtc8703b1ant_post_onoffState_to_bt(btcoexist, true);
++
++		btcoexist->stop_coex_dm = false;
++	}
++}
++
++void ex_halbtc8703b1ant_coex_dm_reset(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], *****************Coex DM Reset*****************\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8703b1ant_init_hw_config(btcoexist, false, false);
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0); */
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x2, 0xfffff, 0x0); */
++	halbtc8703b1ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8703b1ant_periodical(IN struct btc_coexist *btcoexist)
++{
++
++#if (BT_AUTO_REPORT_ONLY_8703B_1ANT == 0)
++	halbtc8703b1ant_query_bt_info(btcoexist);
++#endif
++
++	halbtc8703b1ant_monitor_bt_ctr(btcoexist);
++	halbtc8703b1ant_monitor_wifi_ctr(btcoexist);
++
++	halbtc8703b1ant_monitor_bt_enable_disable(btcoexist);
++
++	/* for 4-way, DHCP, EAPOL packet */
++	if (coex_sta->specific_pkt_period_cnt > 0) {
++
++		coex_sta->specific_pkt_period_cnt--;
++
++		if ((coex_sta->specific_pkt_period_cnt == 0) && (coex_sta->wifi_is_high_pri_task))
++			coex_sta->wifi_is_high_pri_task = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ***************** Hi-Pri Task = %s*****************\n", (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"));
++		BTC_TRACE(trace_buf);
++
++	}
++
++	if (halbtc8703b1ant_is_wifibt_status_changed(btcoexist))
++		halbtc8703b1ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8703b1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++	/* No Antenna Detection required because 8730b is only 1-Ant */
++}
++
++void ex_halbtc8703b1ant_antenna_isolation(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++
++}
++
++void ex_halbtc8703b1ant_psd_scan(IN struct btc_coexist *btcoexist,
++		 IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++
++}
++
++void ex_halbtc8703b1ant_display_ant_detection(IN struct btc_coexist *btcoexist)
++{
++
++}
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8703b1Ant.h b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8703b1Ant.h
+new file mode 100644
+index 0000000..cf167a5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8703b1Ant.h
+@@ -0,0 +1,348 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8703B_SUPPORT == 1)
++/* *******************************************
++ * The following is for 8703B 1ANT BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8703B_1ANT				1
++#define BT_8703B_1ANT_ENABLE_GNTBT_TO_GPIO14		0
++
++#define	BT_INFO_8703B_1ANT_B_FTP						BIT(7)
++#define	BT_INFO_8703B_1ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8703B_1ANT_B_HID						BIT(5)
++#define	BT_INFO_8703B_1ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8703B_1ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8703B_1ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8703B_1ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8703B_1ANT_B_CONNECTION				BIT(0)
++
++#define	BT_INFO_8703B_1ANT_A2DP_BASIC_RATE(_BT_INFO_EXT_)	\
++	(((_BT_INFO_EXT_&BIT(0))) ? true : false)
++
++#define	BTC_RSSI_COEX_THRESH_TOL_8703B_1ANT		2
++
++#define  BT_8703B_1ANT_WIFI_NOISY_THRESH							50   /* max: 255 */
++
++/* for Antenna detection */
++#define	BT_8703B_1ANT_ANTDET_PSDTHRES_BACKGROUND					50
++#define	BT_8703B_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION				70
++#define	BT_8703B_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION			55
++#define	BT_8703B_1ANT_ANTDET_PSDTHRES_1ANT							35
++#define	BT_8703B_1ANT_ANTDET_RETRY_INTERVAL							10	/* retry timer if ant det is fail, unit: second */
++#define	BT_8703B_1ANT_ANTDET_SWEEPPOINT_DELAY							40000
++#define	BT_8703B_1ANT_ANTDET_ENABLE									0
++#define	BT_8703B_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE				0
++
++#define	BT_8703B_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT		30000
++
++enum bt_8703b_1ant_signal_state {
++	BT_8703B_1ANT_SIG_STA_SET_TO_LOW		= 0x0,
++	BT_8703B_1ANT_SIG_STA_SET_BY_HW		= 0x0,
++	BT_8703B_1ANT_SIG_STA_SET_TO_HIGH		= 0x1,
++	BT_8703B_1ANT_SIG_STA_MAX
++};
++
++enum bt_8703b_1ant_path_ctrl_owner {
++	BT_8703B_1ANT_PCO_BTSIDE		= 0x0,
++	BT_8703B_1ANT_PCO_WLSIDE	= 0x1,
++	BT_8703B_1ANT_PCO_MAX
++};
++
++enum bt_8703b_1ant_gnt_ctrl_type {
++	BT_8703B_1ANT_GNT_TYPE_CTRL_BY_PTA		= 0x0,
++	BT_8703B_1ANT_GNT_TYPE_CTRL_BY_SW		= 0x1,
++	BT_8703B_1ANT_GNT_TYPE_MAX
++};
++
++enum bt_8703b_1ant_gnt_ctrl_block {
++	BT_8703B_1ANT_GNT_BLOCK_RFC_BB		= 0x0,
++	BT_8703B_1ANT_GNT_BLOCK_RFC			= 0x1,
++	BT_8703B_1ANT_GNT_BLOCK_BB			= 0x2,
++	BT_8703B_1ANT_GNT_BLOCK_MAX
++};
++
++enum bt_8703b_1ant_lte_coex_table_type {
++	BT_8703B_1ANT_CTT_WL_VS_LTE			= 0x0,
++	BT_8703B_1ANT_CTT_BT_VS_LTE			= 0x1,
++	BT_8703B_1ANT_CTT_MAX
++};
++
++enum bt_8703b_1ant_lte_break_table_type {
++	BT_8703B_1ANT_LBTT_WL_BREAK_LTE			= 0x0,
++	BT_8703B_1ANT_LBTT_BT_BREAK_LTE				= 0x1,
++	BT_8703B_1ANT_LBTT_LTE_BREAK_WL			= 0x2,
++	BT_8703B_1ANT_LBTT_LTE_BREAK_BT				= 0x3,
++	BT_8703B_1ANT_LBTT_MAX
++};
++
++enum bt_info_src_8703b_1ant {
++	BT_INFO_SRC_8703B_1ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8703B_1ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8703B_1ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8703B_1ANT_MAX
++};
++
++enum bt_8703b_1ant_bt_status {
++	BT_8703B_1ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8703B_1ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8703B_1ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8703B_1ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8703B_1ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8703B_1ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8703B_1ANT_BT_STATUS_MAX
++};
++
++enum bt_8703b_1ant_wifi_status {
++	BT_8703B_1ANT_WIFI_STATUS_NON_CONNECTED_IDLE				= 0x0,
++	BT_8703B_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN		= 0x1,
++	BT_8703B_1ANT_WIFI_STATUS_CONNECTED_SCAN					= 0x2,
++	BT_8703B_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT				= 0x3,
++	BT_8703B_1ANT_WIFI_STATUS_CONNECTED_IDLE					= 0x4,
++	BT_8703B_1ANT_WIFI_STATUS_CONNECTED_BUSY					= 0x5,
++	BT_8703B_1ANT_WIFI_STATUS_MAX
++};
++
++enum bt_8703b_1ant_coex_algo {
++	BT_8703B_1ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8703B_1ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8703B_1ANT_COEX_ALGO_HID				= 0x2,
++	BT_8703B_1ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8703B_1ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8703B_1ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8703B_1ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8703B_1ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8703B_1ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8703B_1ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8703B_1ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8703B_1ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++struct coex_dm_8703b_1ant {
++	/* hw setting */
++	u8		pre_ant_pos_type;
++	u8		cur_ant_pos_type;
++	/* fw mechanism */
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	/* sw mechanism */
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++	u32		arp_cnt;
++
++	u8		error_condition;
++};
++
++struct coex_sta_8703b_1ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++	boolean					bt_hi_pri_link_exist;
++	u8					num_of_profile;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					specific_pkt_period_cnt;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	s8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8703B_1ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8703B_1ANT_MAX];
++	boolean					bt_whck_test;
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_page;				/* Add for win8.1 page out issue */
++	boolean					wifi_is_high_pri_task;		/* Add for win8.1 page out issue */
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	boolean					cck_lock;
++	boolean					pre_ccklock;
++	boolean					cck_ever_lock;
++	u8					coex_table_type;
++
++	boolean					force_lps_on;
++	u32					wrong_profile_notification;
++
++	boolean					concurrent_rx_mode_on;
++
++	u16					score_board;
++
++	u8					a2dp_bit_pool;
++	u8					cut_version;
++	boolean				acl_busy;
++	boolean				wl_rf_off_on_event;
++	boolean				bt_create_connection;
++	boolean				gnt_control_by_PTA;
++};
++
++#define  BT_8703B_1ANT_ANTDET_PSD_POINTS			256	/* MAX:1024 */
++#define  BT_8703B_1ANT_ANTDET_PSD_AVGNUM			1	/* MAX:3 */
++#define	BT_8703B_1ANT_ANTDET_BUF_LEN				16
++
++struct psdscan_sta_8703b_1ant {
++
++	u32			ant_det_bt_le_channel;  /* BT LE Channel ex:2412 */
++	u32			ant_det_bt_tx_time;
++	u32			ant_det_pre_psdscan_peak_val;
++	boolean			ant_det_is_ant_det_available;
++	u32			ant_det_psd_scan_peak_val;
++	boolean			ant_det_is_btreply_available;
++	u32			ant_det_psd_scan_peak_freq;
++
++	u8			ant_det_result;
++	u8			ant_det_peak_val[BT_8703B_1ANT_ANTDET_BUF_LEN];
++	u8			ant_det_peak_freq[BT_8703B_1ANT_ANTDET_BUF_LEN];
++	u32			ant_det_try_count;
++	u32			ant_det_fail_count;
++	u32			ant_det_inteval_count;
++	u32			ant_det_thres_offset;
++
++	u32			real_cent_freq;
++	s32			real_offset;
++	u32			real_span;
++
++	u32			psd_band_width;  /* unit: Hz */
++	u32			psd_point;		/* 128/256/512/1024 */
++	u32			psd_report[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_report_max_hold[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_start_point;
++	u32			psd_stop_point;
++	u32			psd_max_value_point;
++	u32			psd_max_value;
++	u32			psd_start_base;
++	u32			psd_avg_num;	/* 1/8/16/32 */
++	u32			psd_gen_count;
++	boolean			is_psd_running;
++	boolean			is_psd_show_max_only;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8703b1ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8703b1ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8703b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8703b1ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8703b1ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8703b1ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8703b1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8703b1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8703b1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8703b1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8703b1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8703b1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8703b1ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8703b1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8703b1ant_coex_dm_reset(IN struct btc_coexist *btcoexist);
++void ex_halbtc8703b1ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8703b1ant_display_coex_info(IN struct btc_coexist *btcoexist);
++void ex_halbtc8703b1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8703b1ant_antenna_isolation(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++
++void ex_halbtc8703b1ant_psd_scan(IN struct btc_coexist *btcoexist,
++		 IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8703b1ant_display_ant_detection(IN struct btc_coexist *btcoexist);
++
++#else
++#define	ex_halbtc8703b1ant_power_on_setting(btcoexist)
++#define	ex_halbtc8703b1ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8703b1ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8703b1ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8703b1ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8703b1ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8703b1ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8703b1ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8703b1ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8703b1ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8703b1ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8703b1ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8703b1ant_halt_notify(btcoexist)
++#define	ex_halbtc8703b1ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8703b1ant_coex_dm_reset(btcoexist)
++#define	ex_halbtc8703b1ant_periodical(btcoexist)
++#define	ex_halbtc8703b1ant_display_coex_info(btcoexist)
++#define	ex_halbtc8703b1ant_antenna_detection(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8703b1ant_antenna_isolation(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8703b1ant_psd_scan(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8703b1ant_display_ant_detection(btcoexist)
++
++#endif
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723a1Ant.c b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723a1Ant.c
+new file mode 100644
+index 0000000..db5b42e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723a1Ant.c
+@@ -0,0 +1,1544 @@
++//============================================================
++// Description:
++//
++// This file is for RTL8723A Co-exist mechanism
++//
++// History
++// 2012/08/22 Cosa first check in.
++// 2012/11/14 Cosa Revise for 8723A 1Ant out sourcing.
++//
++//============================================================
++
++//============================================================
++// include files
++//============================================================
++#include "Mp_Precomp.h"
++
++#if WPP_SOFTWARE_TRACE
++#include "HalBtc8723a1Ant.tmh"
++#endif
++
++#if(BT_30_SUPPORT == 1)
++//============================================================
++// Global variables, these are static variables
++//============================================================
++static COEX_DM_8723A_1ANT	GLCoexDm8723a1Ant;
++static PCOEX_DM_8723A_1ANT 	pCoexDm=&GLCoexDm8723a1Ant;
++static COEX_STA_8723A_1ANT	GLCoexSta8723a1Ant;
++static PCOEX_STA_8723A_1ANT	pCoexSta=&GLCoexSta8723a1Ant;
++
++const char *const GLBtInfoSrc8723a1Ant[]={
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++//============================================================
++// local function proto type if needed
++//============================================================
++//============================================================
++// local function start with halbtc8723a1ant_
++//============================================================
++VOID
++halbtc8723a1ant_Reg0x550Bit3(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bSet
++	)
++{
++	u1Byte	u1tmp=0;
++	
++	u1tmp = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x550);
++	if(bSet)
++	{
++		u1tmp |= BIT3;
++	}
++	else
++	{
++		u1tmp &= ~BIT3;
++	}
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x550, u1tmp);
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], set 0x550[3]=%d\n", (bSet? 1:0)));
++}
++
++VOID
++halbtc8723a1ant_NotifyFwScan(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			scanType
++	)
++{
++	u1Byte			H2C_Parameter[1] ={0};
++	
++	if(BTC_SCAN_START == scanType)
++		H2C_Parameter[0] = 0x1;
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Notify FW for wifi scan, write 0x3b=0x%x\n", 
++		H2C_Parameter[0]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x3b, 1, H2C_Parameter);
++}
++
++VOID
++halbtc8723a1ant_QueryBtInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte			H2C_Parameter[1] ={0};
++
++	pCoexSta->bC2hBtInfoReqSent = TRUE;
++
++	H2C_Parameter[0] |= BIT0;	// trigger
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Query Bt Info, FW write 0x38=0x%x\n", 
++		H2C_Parameter[0]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x38, 1, H2C_Parameter);
++}
++
++VOID
++halbtc8723a1ant_SetSwRfRxLpfCorner(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bRxRfShrinkOn
++	)
++{
++	if(bRxRfShrinkOn)
++	{
++		//Shrink RF Rx LPF corner
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Shrink RF Rx LPF corner!!\n"));
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xfffff, 0xf0ff7);
++	}
++	else
++	{
++		//Resume RF Rx LPF corner
++		// After initialized, we can use pCoexDm->btRf0x1eBackup
++		if(pBtCoexist->bInitilized)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Resume RF Rx LPF corner!!\n"));
++			pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xfffff, pCoexDm->btRf0x1eBackup);
++		}
++	}
++}
++
++VOID
++halbtc8723a1ant_RfShrink(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bRxRfShrinkOn
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn Rx RF Shrink = %s\n",  
++		(bForceExec? "force to":""), ((bRxRfShrinkOn)? "ON":"OFF")));
++	pCoexDm->bCurRfRxLpfShrink = bRxRfShrinkOn;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreRfRxLpfShrink == pCoexDm->bCurRfRxLpfShrink) 
++			return;
++	}
++	halbtc8723a1ant_SetSwRfRxLpfCorner(pBtCoexist, pCoexDm->bCurRfRxLpfShrink);
++
++	pCoexDm->bPreRfRxLpfShrink = pCoexDm->bCurRfRxLpfShrink;
++}
++
++VOID
++halbtc8723a1ant_SetSwPenaltyTxRateAdaptive(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bLowPenaltyRa
++	)
++{
++	u1Byte	tmpU1;
++
++	tmpU1 = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x4fd);
++	tmpU1 |= BIT0;
++	if(bLowPenaltyRa)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Tx rate adaptive, set low penalty!!\n"));
++		tmpU1 &= ~BIT2;
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Tx rate adaptive, set normal!!\n"));
++		tmpU1 |= BIT2;
++	}
++
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x4fd, tmpU1);
++}
++
++VOID
++halbtc8723a1ant_LowPenaltyRa(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bLowPenaltyRa
++	)
++{
++	return;
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn LowPenaltyRA = %s\n",  
++		(bForceExec? "force to":""), ((bLowPenaltyRa)? "ON":"OFF")));
++	pCoexDm->bCurLowPenaltyRa = bLowPenaltyRa;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreLowPenaltyRa == pCoexDm->bCurLowPenaltyRa) 
++			return;
++	}
++	halbtc8723a1ant_SetSwPenaltyTxRateAdaptive(pBtCoexist, pCoexDm->bCurLowPenaltyRa);
++
++	pCoexDm->bPreLowPenaltyRa = pCoexDm->bCurLowPenaltyRa;
++}
++
++VOID
++halbtc8723a1ant_SetCoexTable(
++	IN	PBTC_COEXIST	pBtCoexist,
++	IN	u4Byte		val0x6c0,
++	IN	u4Byte		val0x6c8,
++	IN	u1Byte		val0x6cc
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], set coex table, set 0x6c0=0x%x\n", val0x6c0));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c0, val0x6c0);
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], set coex table, set 0x6c8=0x%x\n", val0x6c8));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c8, val0x6c8);
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], set coex table, set 0x6cc=0x%x\n", val0x6cc));
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x6cc, val0x6cc);
++}
++
++VOID
++halbtc8723a1ant_CoexTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	u4Byte			val0x6c0,
++	IN	u4Byte			val0x6c8,
++	IN	u1Byte			val0x6cc
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s write Coex Table 0x6c0=0x%x, 0x6c8=0x%x, 0x6cc=0x%x\n", 
++		(bForceExec? "force to":""), val0x6c0, val0x6c8, val0x6cc));
++	pCoexDm->curVal0x6c0 = val0x6c0;
++	pCoexDm->curVal0x6c8 = val0x6c8;
++	pCoexDm->curVal0x6cc = val0x6cc;
++
++	if(!bForceExec)
++	{	
++		if( (pCoexDm->preVal0x6c0 == pCoexDm->curVal0x6c0) &&
++			(pCoexDm->preVal0x6c8 == pCoexDm->curVal0x6c8) &&
++			(pCoexDm->preVal0x6cc == pCoexDm->curVal0x6cc) )
++			return;
++	}
++	halbtc8723a1ant_SetCoexTable(pBtCoexist, val0x6c0, val0x6c8, val0x6cc);
++
++	pCoexDm->preVal0x6c0 = pCoexDm->curVal0x6c0;
++	pCoexDm->preVal0x6c8 = pCoexDm->curVal0x6c8;
++	pCoexDm->preVal0x6cc = pCoexDm->curVal0x6cc;
++}
++
++VOID
++halbtc8723a1ant_SetFwIgnoreWlanAct(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bEnable
++	)
++{
++	u1Byte			H2C_Parameter[1] ={0};
++		
++	if(bEnable)
++	{
++		H2C_Parameter[0] |= BIT0;		// function enable
++	}
++	
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], set FW for BT Ignore Wlan_Act, FW write 0x25=0x%x\n", 
++		H2C_Parameter[0]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x25, 1, H2C_Parameter);	
++}
++
++VOID
++halbtc8723a1ant_IgnoreWlanAct(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bEnable
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn Ignore WlanAct %s\n", 
++		(bForceExec? "force to":""), (bEnable? "ON":"OFF")));
++	pCoexDm->bCurIgnoreWlanAct = bEnable;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreIgnoreWlanAct == pCoexDm->bCurIgnoreWlanAct)
++			return;
++	}
++	halbtc8723a1ant_SetFwIgnoreWlanAct(pBtCoexist, bEnable);
++
++	pCoexDm->bPreIgnoreWlanAct = pCoexDm->bCurIgnoreWlanAct;
++}
++
++VOID
++halbtc8723a1ant_SetFwPstdma(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type,
++	IN	u1Byte			byte1,
++	IN	u1Byte			byte2,
++	IN	u1Byte			byte3,
++	IN	u1Byte			byte4,
++	IN	u1Byte			byte5
++	)
++{
++	u1Byte			H2C_Parameter[5] ={0};
++	u1Byte			realByte1=byte1, realByte5=byte5;
++	BOOLEAN			bApEnable=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE, &bApEnable);
++
++	// byte1[1:0] != 0 means enable pstdma
++	// for 2Ant bt coexist, if byte1 != 0 means enable pstdma
++	if(byte1)
++	{
++		if(bApEnable)
++		{
++			if(type != 5 && type != 12)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], FW for 1Ant AP mode\n"));
++				realByte1 &= ~BIT4;
++				realByte1 |= BIT5;
++
++				realByte5 |= BIT5;
++				realByte5 &= ~BIT6;
++			}
++		}
++	}
++	H2C_Parameter[0] = realByte1;	
++	H2C_Parameter[1] = byte2;	
++	H2C_Parameter[2] = byte3;
++	H2C_Parameter[3] = byte4;
++	H2C_Parameter[4] = realByte5;
++
++	pCoexDm->psTdmaPara[0] = realByte1;
++	pCoexDm->psTdmaPara[1] = byte2;
++	pCoexDm->psTdmaPara[2] = byte3;
++	pCoexDm->psTdmaPara[3] = byte4;
++	pCoexDm->psTdmaPara[4] = realByte5;
++	
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], FW write 0x3a(5bytes)=0x%x%08x\n", 
++		H2C_Parameter[0], 
++		H2C_Parameter[1]<<24|H2C_Parameter[2]<<16|H2C_Parameter[3]<<8|H2C_Parameter[4]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x3a, 5, H2C_Parameter);
++}
++
++VOID
++halbtc8723a1ant_PsTdma(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bTurnOn,
++	IN	u1Byte			type
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn %s PS TDMA, type=%d\n", 
++		(bForceExec? "force to":""), (bTurnOn? "ON":"OFF"), type));		
++	pCoexDm->bCurPsTdmaOn = bTurnOn;
++	pCoexDm->curPsTdma = type;
++
++	if(!bForceExec)
++	{
++		if( (pCoexDm->bPrePsTdmaOn == pCoexDm->bCurPsTdmaOn) &&
++			(pCoexDm->prePsTdma == pCoexDm->curPsTdma) )
++			return;
++	}	
++	if(pCoexDm->bCurPsTdmaOn)
++	{
++		switch(pCoexDm->curPsTdma)
++		{
++			case 1:
++			default:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0x1a, 0x1a, 0x0, 0x40);
++				break;
++			case 2:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0x12, 0x12, 0x0, 0x40);
++				break;
++			case 3:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x93, 0x3f, 0x3, 0x10, 0x40);
++				break;
++			case 4:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x93, 0x15, 0x3, 0x10, 0x0);
++				break;
++			case 5:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0xa9, 0x15, 0x3, 0x35, 0xc0);
++				break;
++			
++			case 8: 
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x93, 0x25, 0x3, 0x10, 0x0);
++				break;
++			case 9: 
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0xa, 0xa, 0x0, 0x40);
++				break;
++			case 10:	
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0xa, 0xa, 0x0, 0x40);
++				break;
++			case 11:	
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0x5, 0x5, 0x0, 0x40);
++				break;
++			case 12:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0xa9, 0xa, 0x3, 0x15, 0xc0);
++				break;
++	
++			case 18:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x93, 0x25, 0x3, 0x10, 0x0);
++				break;			
++
++			case 20:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0x2a, 0x2a, 0x0, 0x0);
++				break;
++			case 21:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x93, 0x20, 0x3, 0x10, 0x40);
++				break;
++			case 22:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0x1a, 0x1a, 0x2, 0x40);
++				break;
++			case 23:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0x12, 0x12, 0x2, 0x40);
++				break;
++			case 24:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0xa, 0xa, 0x2, 0x40);
++				break;
++			case 25:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0x5, 0x5, 0x2, 0x40);
++				break;
++			case 26:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x93, 0x25, 0x3, 0x10, 0x0);
++				break;
++			case 27:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0x5, 0x5, 0x2, 0x40);
++				break;
++			case 28:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x3, 0x2f, 0x2f, 0x0, 0x0);
++				break;
++
++		}
++	}
++	else
++	{
++		// disable PS tdma
++		switch(pCoexDm->curPsTdma)
++		{
++			case 8:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x8, 0x0, 0x0, 0x0, 0x0);		
++				break;
++			case 0:
++			default:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x0, 0x0, 0x0, 0x0, 0x0);
++				pBtCoexist->fBtcWrite2Byte(pBtCoexist, 0x860, 0x210);
++				break;
++			case 9:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x0, 0x0, 0x0, 0x0, 0x0);
++				pBtCoexist->fBtcWrite2Byte(pBtCoexist, 0x860, 0x110);
++				break;
++
++		}
++	}
++
++	// update pre state
++	pCoexDm->bPrePsTdmaOn = pCoexDm->bCurPsTdmaOn;
++	pCoexDm->prePsTdma = pCoexDm->curPsTdma;
++}
++
++
++VOID
++halbtc8723a1ant_CoexAllOff(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	// fw all off
++	halbtc8723a1ant_IgnoreWlanAct(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++
++	// sw all off
++	halbtc8723a1ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a1ant_RfShrink(pBtCoexist, NORMAL_EXEC, FALSE);
++
++	// hw all off
++	halbtc8723a1ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++}
++
++VOID
++halbtc8723a1ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	// force to reset coex mechanism
++	halbtc8723a1ant_IgnoreWlanAct(pBtCoexist, FORCE_EXEC, FALSE);
++}
++
++VOID
++halbtc8723a1ant_BtEnableAction(
++	IN 	PBTC_COEXIST		pBtCoexist
++	)
++{
++	halbtc8723a1ant_IgnoreWlanAct(pBtCoexist, FORCE_EXEC, FALSE);
++}
++
++VOID
++halbtc8723a1ant_MonitorBtCtr(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u4Byte 			regHPTxRx, regLPTxRx, u4Tmp;
++	u4Byte			regHPTx=0, regHPRx=0, regLPTx=0, regLPRx=0;
++	u1Byte			u1Tmp;
++	
++	regHPTxRx = 0x770;
++	regLPTxRx = 0x774;
++
++	u4Tmp = pBtCoexist->fBtcRead4Byte(pBtCoexist, regHPTxRx);
++	regHPTx = u4Tmp & bMaskLWord;
++	regHPRx = (u4Tmp & bMaskHWord)>>16;
++
++	u4Tmp = pBtCoexist->fBtcRead4Byte(pBtCoexist, regLPTxRx);
++	regLPTx = u4Tmp & bMaskLWord;
++	regLPRx = (u4Tmp & bMaskHWord)>>16;
++		
++	pCoexSta->highPriorityTx = regHPTx;
++	pCoexSta->highPriorityRx = regHPRx;
++	pCoexSta->lowPriorityTx = regLPTx;
++	pCoexSta->lowPriorityRx = regLPRx;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], High Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n", 
++		regHPTxRx, regHPTx, regHPTx, regHPRx, regHPRx));
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Low Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n", 
++		regLPTxRx, regLPTx, regLPTx, regLPRx, regLPRx));
++
++	// reset counter
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x76e, 0xc);
++}
++
++VOID
++halbtc8723a1ant_MonitorBtEnableDisable(
++	IN 	PBTC_COEXIST		pBtCoexist
++	)
++{
++	static BOOLEAN	bPreBtDisabled=FALSE;
++	static u4Byte	btDisableCnt=0;
++	BOOLEAN			bBtActive=TRUE, bBtDisabled=FALSE;
++
++	// This function check if bt is disabled
++	
++	if(	pCoexSta->highPriorityTx == 0 &&
++		pCoexSta->highPriorityRx == 0 &&
++		pCoexSta->lowPriorityTx == 0 &&
++		pCoexSta->lowPriorityRx == 0)
++	{
++		bBtActive = FALSE;
++	}
++	if(	pCoexSta->highPriorityTx == 0xffff &&
++		pCoexSta->highPriorityRx == 0xffff &&
++		pCoexSta->lowPriorityTx == 0xffff &&
++		pCoexSta->lowPriorityRx == 0xffff)
++	{
++		bBtActive = FALSE;
++	}
++	if(bBtActive)
++	{
++		btDisableCnt = 0;
++		bBtDisabled = FALSE;
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_DISABLE, &bBtDisabled);
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT is enabled !!\n"));
++	}
++	else
++	{
++		btDisableCnt++;
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], bt all counters=0, %d times!!\n", 
++				btDisableCnt));
++		if(btDisableCnt >= 2)
++		{
++			bBtDisabled = TRUE;
++			pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_DISABLE, &bBtDisabled);
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT is disabled !!\n"));
++		}
++	}
++	if(bPreBtDisabled != bBtDisabled)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT is from %s to %s!!\n", 
++			(bPreBtDisabled ? "disabled":"enabled"), 
++			(bBtDisabled ? "disabled":"enabled")));
++		bPreBtDisabled = bBtDisabled;
++		if(!bBtDisabled)
++		{
++			halbtc8723a1ant_BtEnableAction(pBtCoexist);
++		}
++		else
++		{
++			pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_NORMAL_LPS, NULL);
++		}
++	}
++}
++
++VOID
++halbtc8723a1ant_TdmaDurationAdjust(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	static s4Byte		up,dn,m,n,WaitCount;
++	s4Byte			result;   //0: no change, +1: increase WiFi duration, -1: decrease WiFi duration
++	u1Byte			retryCount=0;
++	u1Byte			btState;
++	BOOLEAN			bScan=FALSE, bLink=FALSE, bRoam=FALSE;
++	u4Byte			wifiBw;
++	
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	btState = pCoexDm->btStatus;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], TdmaDurationAdjust()\n"));
++	if(pCoexDm->psTdmaGlobalCnt != pCoexDm->psTdmaMonitorCnt)
++	{
++		pCoexDm->psTdmaMonitorCnt = 0;
++		pCoexDm->psTdmaGlobalCnt = 0;
++	}
++	if(pCoexDm->psTdmaMonitorCnt == 0)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], first run BT A2DP + WiFi busy state!!\n"));
++		if(btState == BT_STATE_8723A_1ANT_ACL_ONLY_BUSY)
++		{
++			halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 1);
++			pCoexDm->psTdmaDuAdjType = 1;
++		}
++		else
++		{
++			halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 22);
++			pCoexDm->psTdmaDuAdjType = 22;
++		}
++		//============
++		up = 0;
++		dn = 0;
++		m = 1;
++		n= 3;
++		result = 0;
++		WaitCount = 0;
++	}
++	else
++	{
++		//accquire the BT TRx retry count from BT_Info byte2
++		retryCount = pCoexSta->btRetryCnt;
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], retryCount = %d\n", retryCount));
++		result = 0;
++		WaitCount++; 
++		  
++		if(retryCount == 0)  // no retry in the last 2-second duration
++		{
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0; 			 
++
++			if(up >= n) // if ³sÄò n ­Ó2¬í retry count¬°0, «h½Õ¼eWiFi duration
++			{
++				WaitCount = 0; 
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1; 
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Increase wifi duration!!\n"));
++			}
++		}
++		else if (retryCount <= 3)	// <=3 retry in the last 2-second duration
++		{
++			up--; 
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2)	// if ³sÄò 2 ­Ó2¬í retry count< 3, «h½Õ¯¶WiFi duration
++			{
++				if (WaitCount <= 2)
++					m++; // ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^
++				else
++					m = 1;
++
++				if ( m >= 20) //m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration.
++					m = 20;
++
++				n = 3*m;
++				up = 0;
++				dn = 0;
++				WaitCount = 0;	
++				result = -1; 
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Decrease wifi duration for retryCounter<3!!\n"));
++			}
++		}
++		else  //retry count > 3, ¥u­n1¦¸ retry count > 3, «h½Õ¯¶WiFi duration
++		{
++			if (WaitCount == 1)
++				m++; // ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^
++			else
++				m = 1;
++
++			if ( m >= 20) //m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration.
++				m = 20;
++
++			n = 3*m;
++			up = 0;
++			dn = 0;
++			WaitCount = 0; 
++			result = -1;
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Decrease wifi duration for retryCounter>3!!\n"));
++		}
++		
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT TxRx counter H+L <= 1200\n"));
++			if(btState != BT_STATE_8723A_1ANT_ACL_ONLY_BUSY)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], NOT ACL only busy!\n"));
++				if(BTC_WIFI_BW_HT40 != wifiBw)
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 20MHz\n"));
++					if(result == -1)
++					{
++						if(pCoexDm->curPsTdma == 22)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 23);
++							pCoexDm->psTdmaDuAdjType = 23;
++						}
++						else if(pCoexDm->curPsTdma == 23)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 24);
++							pCoexDm->psTdmaDuAdjType = 24;
++						}
++						else if(pCoexDm->curPsTdma == 24)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 25);
++							pCoexDm->psTdmaDuAdjType = 25;
++						}
++					} 
++					else if (result == 1)
++					{
++						if(pCoexDm->curPsTdma == 25)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 24);
++							pCoexDm->psTdmaDuAdjType = 24;
++						}
++						else if(pCoexDm->curPsTdma == 24)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 23);
++							pCoexDm->psTdmaDuAdjType = 23;
++						}
++						else if(pCoexDm->curPsTdma == 23)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 22);
++							pCoexDm->psTdmaDuAdjType = 22;
++						}
++					}
++					// error handle, if not in the following state,
++					// set psTdma again.
++					if( (pCoexDm->psTdmaDuAdjType != 22) &&
++						(pCoexDm->psTdmaDuAdjType != 23) &&
++						(pCoexDm->psTdmaDuAdjType != 24) &&
++						(pCoexDm->psTdmaDuAdjType != 25) )
++					{
++						RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], duration case out of handle!!\n"));
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 23);
++						pCoexDm->psTdmaDuAdjType = 23;
++					}
++				}
++				else
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 40MHz\n"));
++					if(result == -1)
++					{
++						if(pCoexDm->curPsTdma == 23)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 24);
++							pCoexDm->psTdmaDuAdjType = 24;
++						}
++						else if(pCoexDm->curPsTdma == 24)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 25);
++							pCoexDm->psTdmaDuAdjType = 25;
++						}
++						else if(pCoexDm->curPsTdma == 25)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 27);
++							pCoexDm->psTdmaDuAdjType = 27;
++						}
++					} 
++					else if (result == 1)
++					{
++						if(pCoexDm->curPsTdma == 27)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 25);
++							pCoexDm->psTdmaDuAdjType = 25;
++						}
++						else if(pCoexDm->curPsTdma == 25)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 24);
++							pCoexDm->psTdmaDuAdjType = 24;
++						}
++						else if(pCoexDm->curPsTdma == 24)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 23);
++							pCoexDm->psTdmaDuAdjType = 23;
++						}
++					}
++					// error handle, if not in the following state,
++					// set psTdma again.
++					if( (pCoexDm->psTdmaDuAdjType != 23) &&
++						(pCoexDm->psTdmaDuAdjType != 24) &&
++						(pCoexDm->psTdmaDuAdjType != 25) &&
++						(pCoexDm->psTdmaDuAdjType != 27) )
++					{
++						RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], duration case out of handle!!\n"));
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 24);
++						pCoexDm->psTdmaDuAdjType = 24;
++					}
++				}
++			}
++			else
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], ACL only busy\n"));
++				if (result == -1)
++				{
++					if(pCoexDm->curPsTdma == 1)
++					{
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++						pCoexDm->psTdmaDuAdjType = 2;
++					}
++					else if(pCoexDm->curPsTdma == 2)
++					{
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 9);
++						pCoexDm->psTdmaDuAdjType = 9;
++					}
++					else if(pCoexDm->curPsTdma == 9)
++					{
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++				}
++				else if (result == 1)
++				{
++					if(pCoexDm->curPsTdma == 11)
++					{
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 9);
++						pCoexDm->psTdmaDuAdjType = 9;
++					}
++					else if(pCoexDm->curPsTdma == 9)
++					{
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++						pCoexDm->psTdmaDuAdjType = 2;
++					}
++					else if(pCoexDm->curPsTdma == 2)
++					{
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 1);
++						pCoexDm->psTdmaDuAdjType = 1;
++					}
++				}
++
++				// error handle, if not in the following state,
++				// set psTdma again.
++				if( (pCoexDm->psTdmaDuAdjType != 1) &&
++					(pCoexDm->psTdmaDuAdjType != 2) &&
++					(pCoexDm->psTdmaDuAdjType != 9) &&
++					(pCoexDm->psTdmaDuAdjType != 11) )
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], duration case out of handle!!\n"));
++					halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++					pCoexDm->psTdmaDuAdjType = 2;
++				}
++			}
++		}
++	}
++
++	// if current PsTdma not match with the recorded one (when scan, dhcp...), 
++	// then we have to adjust it back to the previous record one.
++	if(pCoexDm->curPsTdma != pCoexDm->psTdmaDuAdjType)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PsTdma type dismatch!!!, curPsTdma=%d, recordPsTdma=%d\n", 
++			pCoexDm->curPsTdma, pCoexDm->psTdmaDuAdjType));
++
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_SCAN, &bScan);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_LINK, &bLink);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_ROAM, &bRoam);
++
++		if( !bScan && !bLink &&	!bRoam)
++		{
++			halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, pCoexDm->psTdmaDuAdjType);
++		}
++		else
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], roaming/link/scan is under progress, will adjust next time!!!\n"));
++		}
++	}
++	pCoexDm->psTdmaMonitorCnt++;
++}
++
++
++VOID
++halbtc8723a1ant_CoexForWifiConnect(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bWifiConnected=FALSE, bWifiBusy=FALSE;
++	u1Byte		btState, btInfoOriginal=0;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_CONNECTED, &bWifiConnected);
++
++	btState = pCoexDm->btStatus;
++	btInfoOriginal = pCoexSta->btInfoC2h[BT_INFO_SRC_8723A_1ANT_BT_RSP][0];
++
++	if(bWifiConnected)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], wifi connected!!\n"));
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++		
++		if( !bWifiBusy &&
++			((BT_STATE_8723A_1ANT_NO_CONNECTION == btState) ||
++			(BT_STATE_8723A_1ANT_CONNECT_IDLE == btState)) )
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], [Wifi is idle] or [Bt is non connected idle or Bt is connected idle]!!\n"));
++
++			if(BT_STATE_8723A_1ANT_NO_CONNECTION == btState)
++				halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 9);
++			else if(BT_STATE_8723A_1ANT_CONNECT_IDLE == btState)
++				halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++
++			pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x880, 0xff000000, 0xc0);
++		}
++		else
++		{
++			if( (BT_STATE_8723A_1ANT_SCO_ONLY_BUSY == btState) ||
++				(BT_STATE_8723A_1ANT_ACL_SCO_BUSY == btState) ||
++				(BT_STATE_8723A_1ANT_HID_BUSY == btState) ||
++				(BT_STATE_8723A_1ANT_HID_SCO_BUSY == btState) )
++			{
++				pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x880, 0xff000000, 0x60);
++			}
++			else
++			{
++				pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x880, 0xff000000, 0xc0);
++			}
++			switch(btState)
++			{
++				case BT_STATE_8723A_1ANT_NO_CONNECTION:
++					halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 5);
++					break;
++				case BT_STATE_8723A_1ANT_CONNECT_IDLE:
++					halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 12);
++					break;
++				case BT_STATE_8723A_1ANT_INQ_OR_PAG:
++					halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++					break;
++				case BT_STATE_8723A_1ANT_SCO_ONLY_BUSY:
++				case BT_STATE_8723A_1ANT_ACL_SCO_BUSY:
++				case BT_STATE_8723A_1ANT_HID_BUSY:
++				case BT_STATE_8723A_1ANT_HID_SCO_BUSY:
++					halbtc8723a1ant_TdmaDurationAdjust(pBtCoexist);
++					break;
++				case BT_STATE_8723A_1ANT_ACL_ONLY_BUSY:
++					if (btInfoOriginal&BT_INFO_8723A_1ANT_B_A2DP)
++					{
++						halbtc8723a1ant_TdmaDurationAdjust(pBtCoexist);
++					}
++					else if(btInfoOriginal&BT_INFO_8723A_1ANT_B_FTP)
++					{
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 1);
++					}
++					else if( (btInfoOriginal&BT_INFO_8723A_1ANT_B_A2DP) &&
++							(btInfoOriginal&BT_INFO_8723A_1ANT_B_FTP) )
++					{
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++					}
++					else
++					{
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 1);
++					}
++					break;
++				default:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], error!!!, undefined case in halbtc8723a1ant_CoexForWifiConnect()!!\n"));
++					break;
++			}
++		}
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], wifi is disconnected!!\n"));
++	}
++
++	pCoexDm->psTdmaGlobalCnt++;
++}
++
++//============================================================
++// work around function start with wa_halbtc8723a1ant_
++//============================================================
++VOID
++wa_halbtc8723a1ant_MonitorC2h(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	u1Byte	tmp1b=0x0;
++	u4Byte	curC2hTotalCnt=0x0;
++	static u4Byte	preC2hTotalCnt=0x0, sameCntPollingTime=0x0;
++
++	curC2hTotalCnt+=pCoexSta->btInfoC2hCnt[BT_INFO_SRC_8723A_1ANT_BT_RSP];
++
++	if(curC2hTotalCnt == preC2hTotalCnt)
++	{
++		sameCntPollingTime++;
++	}
++	else
++	{
++		preC2hTotalCnt = curC2hTotalCnt;
++		sameCntPollingTime = 0;
++	}
++
++	if(sameCntPollingTime >= 2)
++	{
++		tmp1b = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x1af);
++		if(tmp1b != 0x0)
++		{
++			pCoexSta->c2hHangDetectCnt++;
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x1af, 0x0);
++		}
++	}
++}
++
++//============================================================
++// extern function start with EXhalbtc8723a1ant_
++//============================================================
++VOID
++EXhalbtc8723a1ant_InitHwConfig(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 1Ant Init HW Config!!\n"));
++
++	// backup rf 0x1e value
++	pCoexDm->btRf0x1eBackup = 
++		pBtCoexist->fBtcGetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xfffff);
++
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x20);
++
++	// enable counter statistics
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x76e, 0x4);
++	
++	// coex table
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x6cc, 0x0);			// 1-Ant coex
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c8, 0xffff);		// wifi break table
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c4, 0x55555555);	//coex table
++
++	// antenna switch control parameter
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x858, 0xaaaaaaaa);
++	
++	pBtCoexist->fBtcWrite2Byte(pBtCoexist, 0x860, 0x210);	//set antenna at wifi side if ANTSW is software control
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x870, 0x300);	//SPDT(connected with TRSW) control by hardware PTA
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x874, 0x22804000);	//ANTSW keep by GNT_BT
++
++	// coexistence parameters
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x778, 0x1);	// enable RTK mode PTA
++}
++
++VOID
++EXhalbtc8723a1ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Coex Mechanism Init!!\n"));
++	
++	halbtc8723a1ant_InitCoexDm(pBtCoexist);
++}
++
++VOID
++EXhalbtc8723a1ant_DisplayCoexInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	PBTC_BOARD_INFO		pBoardInfo=&pBtCoexist->boardInfo;
++	PBTC_STACK_INFO		pStackInfo=&pBtCoexist->stackInfo;
++	pu1Byte				cliBuf=pBtCoexist->cliBuf;
++	u1Byte				u1Tmp[4], i, btInfoExt, psTdmaCase=0;
++	u4Byte				u4Tmp[4];
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ", "Ant PG number/ Ant mechanism:", \
++		pBoardInfo->pgAntNum, pBoardInfo->btdmAntNum);
++	CL_PRINTF(cliBuf);	
++	
++	if(pBtCoexist->bManualControl)
++	{
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "[Action Manual control]!!");
++		CL_PRINTF(cliBuf);
++	}
++	
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %d", "BT stack/ hci ext ver", \
++		((pStackInfo->bProfileNotified)? "Yes":"No"), pStackInfo->hciVersion);
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ", "Wifi channel informed to BT", \
++		pCoexDm->wifiChnlInfo[0], pCoexDm->wifiChnlInfo[1],
++		pCoexDm->wifiChnlInfo[2]);
++	CL_PRINTF(cliBuf);
++	
++	// wifi status
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Wifi Status]============");
++	CL_PRINTF(cliBuf);
++	pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[BT Status]============");
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d] ", "BT [status/ rssi/ retryCnt]", \
++		((pCoexSta->bC2hBtInquiryPage)?("inquiry/page scan"):((BT_8723A_1ANT_BT_STATUS_IDLE == pCoexDm->btStatus)? "idle":(  (BT_8723A_1ANT_BT_STATUS_CONNECTED_IDLE == pCoexDm->btStatus)? "connected-idle":"busy"))),
++		pCoexSta->btRssi, pCoexSta->btRetryCnt);
++	CL_PRINTF(cliBuf);
++	
++	if(pStackInfo->bProfileNotified)
++	{			
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d", "SCO/HID/PAN/A2DP", \
++			pStackInfo->bScoExist, pStackInfo->bHidExist, pStackInfo->bPanExist, pStackInfo->bA2dpExist);
++		CL_PRINTF(cliBuf);	
++
++		pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_BT_LINK_INFO);
++	}
++
++	btInfoExt = pCoexSta->btInfoExt;
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "BT Info A2DP rate", \
++		(btInfoExt&BIT0)? "Basic rate":"EDR rate");
++	CL_PRINTF(cliBuf);	
++
++	for(i=0; i<BT_INFO_SRC_8723A_1ANT_MAX; i++)
++	{
++		if(pCoexSta->btInfoC2hCnt[i])
++		{				
++			CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)", GLBtInfoSrc8723a1Ant[i], \
++				pCoexSta->btInfoC2h[i][0], pCoexSta->btInfoC2h[i][1],
++				pCoexSta->btInfoC2h[i][2], pCoexSta->btInfoC2h[i][3],
++				pCoexSta->btInfoC2h[i][4], pCoexSta->btInfoC2h[i][5],
++				pCoexSta->btInfoC2h[i][6], pCoexSta->btInfoC2hCnt[i]);
++			CL_PRINTF(cliBuf);
++		}
++	}
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "write 0x1af=0x0 num", \
++		pCoexSta->c2hHangDetectCnt);
++	CL_PRINTF(cliBuf);
++	
++	// Sw mechanism	
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Sw mechanism]============");
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d", "SM1[ShRf/ LpRA/ LimDig]", \
++		pCoexDm->bCurRfRxLpfShrink, pCoexDm->bCurLowPenaltyRa, pCoexDm->bLimitedDig);
++	CL_PRINTF(cliBuf);
++
++	// Fw mechanism		
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Fw mechanism]============");
++	CL_PRINTF(cliBuf);	
++	
++	if(!pBtCoexist->bManualControl)
++	{
++		psTdmaCase = pCoexDm->curPsTdma;
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x %02x %02x case-%d", "PS TDMA", \
++			pCoexDm->psTdmaPara[0], pCoexDm->psTdmaPara[1],
++			pCoexDm->psTdmaPara[2], pCoexDm->psTdmaPara[3],
++			pCoexDm->psTdmaPara[4], psTdmaCase);
++		CL_PRINTF(cliBuf);
++	
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ", "IgnWlanAct", \
++			pCoexDm->bCurIgnoreWlanAct);
++		CL_PRINTF(cliBuf);
++	}
++
++	// Hw setting		
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Hw setting]============");
++	CL_PRINTF(cliBuf);	
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "RF-A, 0x1e initVal", \
++		pCoexDm->btRf0x1eBackup);
++	CL_PRINTF(cliBuf);
++
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x778);
++	u1Tmp[1] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x783);
++	u1Tmp[2] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x796);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x", "0x778/ 0x783/ 0x796", \
++		u1Tmp[0], u1Tmp[1], u1Tmp[2]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x880);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x880", \
++		u4Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x40);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x40", \
++		u1Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x550);
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x522);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x", "0x550(bcn ctrl)/0x522", \
++		u4Tmp[0], u1Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x484);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x484(rate adaptive)", \
++		u4Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xc50);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0xc50(dig)", \
++		u4Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xda0);
++	u4Tmp[1] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xda4);
++	u4Tmp[2] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xda8);
++	u4Tmp[3] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xdac);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x", "0xda0/0xda4/0xda8/0xdac(FA cnt)", \
++		u4Tmp[0], u4Tmp[1], u4Tmp[2], u4Tmp[3]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c0);
++	u4Tmp[1] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c4);
++	u4Tmp[2] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c8);
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x6cc);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x", "0x6c0/0x6c4/0x6c8/0x6cc(coexTable)", \
++		u4Tmp[0], u4Tmp[1], u4Tmp[2], u1Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d", "0x770 (hp rx[31:16]/tx[15:0])", \
++		pCoexSta->highPriorityRx, pCoexSta->highPriorityTx);
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d", "0x774(lp rx[31:16]/tx[15:0])", \
++		pCoexSta->lowPriorityRx, pCoexSta->lowPriorityTx);
++	CL_PRINTF(cliBuf);
++
++	pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++VOID
++EXhalbtc8723a1ant_IpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_IPS_ENTER == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], IPS ENTER notify\n"));
++		halbtc8723a1ant_CoexAllOff(pBtCoexist);
++	}
++	else if(BTC_IPS_LEAVE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], IPS LEAVE notify\n"));
++		//halbtc8723a1ant_InitCoexDm(pBtCoexist);
++	}
++}
++
++VOID
++EXhalbtc8723a1ant_LpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_LPS_ENABLE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], LPS ENABLE notify\n"));
++	}
++	else if(BTC_LPS_DISABLE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], LPS DISABLE notify\n"));
++		halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 8);
++	}
++}
++
++VOID
++EXhalbtc8723a1ant_ScanNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	BOOLEAN		bWifiConnected=FALSE;
++	
++	halbtc8723a1ant_NotifyFwScan(pBtCoexist, type);
++
++	if(pBtCoexist->btInfo.bBtDisabled)
++	{
++		halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 9); 
++	}
++	else
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_CONNECTED, &bWifiConnected);
++		if(BTC_SCAN_START == type)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCAN START notify\n"));
++			if(!bWifiConnected)	// non-connected scan
++			{
++				//set 0x550[3]=1 before PsTdma
++				halbtc8723a1ant_Reg0x550Bit3(pBtCoexist, TRUE);
++			}
++
++			halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 4);
++		}
++		else if(BTC_SCAN_FINISH == type)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCAN FINISH notify\n"));
++			if(!bWifiConnected)	// non-connected scan
++			{
++				halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0); 
++			}
++			else
++			{
++				halbtc8723a1ant_CoexForWifiConnect(pBtCoexist);
++			}
++		}
++	}
++}
++
++VOID
++EXhalbtc8723a1ant_ConnectNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	BOOLEAN		bWifiConnected=FALSE;
++		
++	if(pBtCoexist->btInfo.bBtDisabled)
++	{
++		halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 9); 
++	}
++	else
++	{
++		if(BTC_ASSOCIATE_START == type)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], CONNECT START notify\n"));
++			//set 0x550[3]=1 before PsTdma
++			halbtc8723a1ant_Reg0x550Bit3(pBtCoexist, TRUE);
++			halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);	// extend wifi slot	
++		}
++		else if(BTC_ASSOCIATE_FINISH == type)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], CONNECT FINISH notify\n"));
++			pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_CONNECTED, &bWifiConnected);
++			if(!bWifiConnected)	// non-connected scan
++			{
++				halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++			}
++			else
++			{
++				halbtc8723a1ant_CoexForWifiConnect(pBtCoexist);
++			}
++		}
++	}
++}
++
++VOID
++EXhalbtc8723a1ant_MediaStatusNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{
++	if(BTC_MEDIA_CONNECT == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], MEDIA connect notify\n"));
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], MEDIA disconnect notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8723a1ant_SpecialPacketNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{
++	if(type == BTC_PACKET_DHCP)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], DHCP Packet notify\n"));
++		if(pBtCoexist->btInfo.bBtDisabled)
++		{
++			halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 9);	
++		}
++		else
++		{
++			halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 18);
++		}		
++	}
++}
++
++VOID
++EXhalbtc8723a1ant_BtInfoNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	pu1Byte			tmpBuf,
++	IN	u1Byte			length
++	)
++{
++	u1Byte			btInfo=0;
++	u1Byte			i, rspSource=0;
++	BOOLEAN			bBtHsOn=FALSE, bBtBusy=FALSE, bForceLps=FALSE;
++
++	pCoexSta->bC2hBtInfoReqSent = FALSE;
++	
++	rspSource = BT_INFO_SRC_8723A_1ANT_BT_RSP;
++	pCoexSta->btInfoC2hCnt[rspSource]++;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Bt info[%d], length=%d, hex data=[", rspSource, length));
++	for(i=0; i<length; i++)
++	{
++		pCoexSta->btInfoC2h[rspSource][i] = tmpBuf[i];
++		if(i == 0)
++			btInfo = tmpBuf[i];
++		if(i == length-1)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("0x%02x]\n", tmpBuf[i]));
++		}
++		else
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("0x%02x, ", tmpBuf[i]));
++		}
++	}
++
++	if(BT_INFO_SRC_8723A_1ANT_WIFI_FW != rspSource)
++	{
++		pCoexSta->btRetryCnt =
++			pCoexSta->btInfoC2h[rspSource][1];
++
++		pCoexSta->btRssi =
++			pCoexSta->btInfoC2h[rspSource][2]*2+10;
++
++		pCoexSta->btInfoExt = 
++			pCoexSta->btInfoC2h[rspSource][3];
++	}
++		
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++	// check BIT2 first ==> check if bt is under inquiry or page scan
++	if(btInfo & BT_INFO_8723A_1ANT_B_INQ_PAGE)
++	{
++		pCoexSta->bC2hBtInquiryPage = TRUE;
++	}
++	else
++	{
++		pCoexSta->bC2hBtInquiryPage = FALSE;
++	}
++	btInfo &= ~BIT2;
++	if(!(btInfo & BIT0))
++	{
++		pCoexDm->btStatus = BT_STATE_8723A_1ANT_NO_CONNECTION;
++		bForceLps = FALSE;
++	}
++	else
++	{
++		bForceLps = TRUE;
++		if(btInfo == 0x1)
++		{
++			pCoexDm->btStatus = BT_STATE_8723A_1ANT_CONNECT_IDLE;
++		}
++		else if(btInfo == 0x9)
++		{
++			pCoexDm->btStatus = BT_STATE_8723A_1ANT_ACL_ONLY_BUSY;
++			bBtBusy = TRUE;
++		}
++		else if(btInfo == 0x13)
++		{
++			pCoexDm->btStatus = BT_STATE_8723A_1ANT_SCO_ONLY_BUSY;
++			bBtBusy = TRUE;
++		}
++		else if(btInfo == 0x1b)
++		{
++			pCoexDm->btStatus = BT_STATE_8723A_1ANT_ACL_SCO_BUSY;
++			bBtBusy = TRUE;
++		}
++		else if(btInfo == 0x29)
++		{
++			pCoexDm->btStatus = BT_STATE_8723A_1ANT_HID_BUSY;
++			bBtBusy = TRUE;
++		}
++		else if(btInfo == 0x3b)
++		{
++			pCoexDm->btStatus = BT_STATE_8723A_1ANT_HID_SCO_BUSY;
++			bBtBusy = TRUE;
++		}
++	}
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bBtBusy);
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_LIMITED_DIG, &bBtBusy);
++	if(bForceLps)
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_ENTER_LPS, NULL);
++	else
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_NORMAL_LPS, NULL);
++
++	if( (BT_STATE_8723A_1ANT_NO_CONNECTION == pCoexDm->btStatus) ||
++		(BT_STATE_8723A_1ANT_CONNECT_IDLE == pCoexDm->btStatus) )
++	{
++		if(pCoexSta->bC2hBtInquiryPage)
++			pCoexDm->btStatus = BT_STATE_8723A_1ANT_INQ_OR_PAG;
++	}
++}
++
++VOID
++EXhalbtc8723a1ant_HaltNotify(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	halbtc8723a1ant_PsTdma(pBtCoexist, FORCE_EXEC, FALSE, 0);
++	
++	halbtc8723a1ant_LowPenaltyRa(pBtCoexist, FORCE_EXEC, FALSE);
++	halbtc8723a1ant_RfShrink(pBtCoexist, FORCE_EXEC, FALSE);
++
++	halbtc8723a1ant_IgnoreWlanAct(pBtCoexist, FORCE_EXEC, TRUE);
++	EXhalbtc8723a1ant_MediaStatusNotify(pBtCoexist, BTC_MEDIA_DISCONNECT);
++}
++
++VOID
++EXhalbtc8723a1ant_Periodical(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	BOOLEAN		bScan=FALSE, bLink=FALSE, bRoam=FALSE, bWifiConnected=FALSE;
++	
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 1Ant Periodical!!\n"));
++	
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_SCAN, &bScan);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_LINK, &bLink);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_ROAM, &bRoam);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_CONNECTED, &bWifiConnected);
++
++	// work around for c2h hang
++	wa_halbtc8723a1ant_MonitorC2h(pBtCoexist);	
++
++	halbtc8723a1ant_QueryBtInfo(pBtCoexist);
++	halbtc8723a1ant_MonitorBtCtr(pBtCoexist);
++	halbtc8723a1ant_MonitorBtEnableDisable(pBtCoexist);
++
++	
++	if(bScan)
++		return;
++	if(bLink)
++		return;
++
++	if(bWifiConnected)
++	{
++		if(pBtCoexist->btInfo.bBtDisabled)
++		{
++			halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 9);
++			
++			halbtc8723a1ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a1ant_RfShrink(pBtCoexist, NORMAL_EXEC, FALSE);
++		}
++		else
++		{
++			halbtc8723a1ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a1ant_RfShrink(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a1ant_CoexForWifiConnect(pBtCoexist);
++		}
++	}
++	else
++	{
++		halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++
++		halbtc8723a1ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a1ant_RfShrink(pBtCoexist, NORMAL_EXEC, FALSE);
++	}
++}
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723a1Ant.h b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723a1Ant.h
+new file mode 100644
+index 0000000..e8c2fd0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723a1Ant.h
+@@ -0,0 +1,171 @@
++//===========================================
++// The following is for 8723A 1Ant BT Co-exist definition
++//===========================================
++#define	BT_INFO_8723A_1ANT_B_FTP						BIT7
++#define	BT_INFO_8723A_1ANT_B_A2DP					BIT6
++#define	BT_INFO_8723A_1ANT_B_HID						BIT5
++#define	BT_INFO_8723A_1ANT_B_SCO_BUSY				BIT4
++#define	BT_INFO_8723A_1ANT_B_ACL_BUSY				BIT3
++#define	BT_INFO_8723A_1ANT_B_INQ_PAGE				BIT2
++#define	BT_INFO_8723A_1ANT_B_SCO_ESCO				BIT1
++#define	BT_INFO_8723A_1ANT_B_CONNECTION				BIT0
++
++typedef enum _BT_STATE_8723A_1ANT{
++	BT_STATE_8723A_1ANT_DISABLED				= 0,
++	BT_STATE_8723A_1ANT_NO_CONNECTION		= 1,
++	BT_STATE_8723A_1ANT_CONNECT_IDLE		= 2,
++	BT_STATE_8723A_1ANT_INQ_OR_PAG			= 3,
++	BT_STATE_8723A_1ANT_ACL_ONLY_BUSY		= 4,
++	BT_STATE_8723A_1ANT_SCO_ONLY_BUSY		= 5,
++	BT_STATE_8723A_1ANT_ACL_SCO_BUSY			= 6,
++	BT_STATE_8723A_1ANT_HID_BUSY				= 7,
++	BT_STATE_8723A_1ANT_HID_SCO_BUSY			= 8,
++	BT_STATE_8723A_1ANT_MAX
++}BT_STATE_8723A_1ANT, *PBT_STATE_8723A_1ANT;
++
++#define		BTC_RSSI_COEX_THRESH_TOL_8723A_1ANT		2
++
++typedef enum _BT_INFO_SRC_8723A_1ANT{
++	BT_INFO_SRC_8723A_1ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8723A_1ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8723A_1ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8723A_1ANT_MAX
++}BT_INFO_SRC_8723A_1ANT,*PBT_INFO_SRC_8723A_1ANT;
++
++typedef enum _BT_8723A_1ANT_BT_STATUS{
++	BT_8723A_1ANT_BT_STATUS_IDLE				= 0x0,
++	BT_8723A_1ANT_BT_STATUS_CONNECTED_IDLE	= 0x1,
++	BT_8723A_1ANT_BT_STATUS_NON_IDLE			= 0x2,
++	BT_8723A_1ANT_BT_STATUS_MAX
++}BT_8723A_1ANT_BT_STATUS,*PBT_8723A_1ANT_BT_STATUS;
++
++typedef enum _BT_8723A_1ANT_COEX_ALGO{
++	BT_8723A_1ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8723A_1ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8723A_1ANT_COEX_ALGO_HID				= 0x2,
++	BT_8723A_1ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8723A_1ANT_COEX_ALGO_PANEDR			= 0x4,
++	BT_8723A_1ANT_COEX_ALGO_PANHS			= 0x5,
++	BT_8723A_1ANT_COEX_ALGO_PANEDR_A2DP		= 0x6,
++	BT_8723A_1ANT_COEX_ALGO_PANEDR_HID		= 0x7,
++	BT_8723A_1ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x8,
++	BT_8723A_1ANT_COEX_ALGO_HID_A2DP			= 0x9,
++	BT_8723A_1ANT_COEX_ALGO_MAX
++}BT_8723A_1ANT_COEX_ALGO,*PBT_8723A_1ANT_COEX_ALGO;
++
++typedef struct _COEX_DM_8723A_1ANT{
++	// fw mechanism
++	BOOLEAN		bCurIgnoreWlanAct;
++	BOOLEAN		bPreIgnoreWlanAct;
++	u1Byte		prePsTdma;
++	u1Byte		curPsTdma;
++	u1Byte		psTdmaPara[5];
++	u1Byte		psTdmaDuAdjType;
++	u4Byte		psTdmaMonitorCnt;
++	u4Byte		psTdmaGlobalCnt;
++	BOOLEAN		bResetTdmaAdjust;
++	BOOLEAN		bPrePsTdmaOn;
++	BOOLEAN		bCurPsTdmaOn;
++
++	// sw mechanism
++	BOOLEAN		bPreRfRxLpfShrink;
++	BOOLEAN		bCurRfRxLpfShrink;
++	u4Byte		btRf0x1eBackup;
++	BOOLEAN 	bPreLowPenaltyRa;
++	BOOLEAN		bCurLowPenaltyRa;
++	u4Byte		preVal0x6c0;
++	u4Byte		curVal0x6c0;
++	u4Byte		preVal0x6c8;
++	u4Byte		curVal0x6c8;
++	u1Byte		preVal0x6cc;
++	u1Byte		curVal0x6cc;
++	BOOLEAN		bLimitedDig;
++
++	// algorithm related
++	u1Byte		preAlgorithm;
++	u1Byte		curAlgorithm;
++	u1Byte		btStatus;
++	u1Byte		wifiChnlInfo[3];
++} COEX_DM_8723A_1ANT, *PCOEX_DM_8723A_1ANT;
++
++typedef struct _COEX_STA_8723A_1ANT{
++	u4Byte					highPriorityTx;
++	u4Byte					highPriorityRx;
++	u4Byte					lowPriorityTx;
++	u4Byte					lowPriorityRx;
++	u1Byte					btRssi;
++	u1Byte					preBtRssiState;
++	u1Byte					preBtRssiState1;
++	u1Byte					preWifiRssiState[4];
++	BOOLEAN					bC2hBtInfoReqSent;
++	u1Byte					btInfoC2h[BT_INFO_SRC_8723A_1ANT_MAX][10];
++	u4Byte					btInfoC2hCnt[BT_INFO_SRC_8723A_1ANT_MAX];
++	BOOLEAN					bC2hBtInquiryPage;
++	u1Byte					btRetryCnt;
++	u1Byte					btInfoExt;
++	//BOOLEAN					bHoldForStackOperation;
++	//u1Byte					bHoldPeriodCnt;
++	// this is for c2h hang work-around
++	u4Byte					c2hHangDetectCnt;
++}COEX_STA_8723A_1ANT, *PCOEX_STA_8723A_1ANT;
++
++//===========================================
++// The following is interface which will notify coex module.
++//===========================================
++VOID
++EXhalbtc8723a1ant_InitHwConfig(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtc8723a1ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtc8723a1ant_IpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8723a1ant_LpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8723a1ant_ScanNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8723a1ant_ConnectNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8723a1ant_MediaStatusNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	);
++VOID
++EXhalbtc8723a1ant_SpecialPacketNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	);
++VOID
++EXhalbtc8723a1ant_BtInfoNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	pu1Byte			tmpBuf,
++	IN	u1Byte			length
++	);
++VOID
++EXhalbtc8723a1ant_HaltNotify(
++	IN	PBTC_COEXIST			pBtCoexist
++	);
++VOID
++EXhalbtc8723a1ant_Periodical(
++	IN	PBTC_COEXIST			pBtCoexist
++	);
++VOID
++EXhalbtc8723a1ant_DisplayCoexInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723a2Ant.c b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723a2Ant.c
+new file mode 100644
+index 0000000..f32bd9f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723a2Ant.c
+@@ -0,0 +1,3746 @@
++//============================================================
++// Description:
++//
++// This file is for RTL8723A Co-exist mechanism
++//
++// History
++// 2012/08/22 Cosa first check in.
++// 2012/11/14 Cosa Revise for 8723A 2Ant out sourcing.
++//
++//============================================================
++
++//============================================================
++// include files
++//============================================================
++#include "Mp_Precomp.h"
++
++#if WPP_SOFTWARE_TRACE
++#include "HalBtc8723a2Ant.tmh"
++#endif
++
++#if(BT_30_SUPPORT == 1)
++//============================================================
++// Global variables, these are static variables
++//============================================================
++static COEX_DM_8723A_2ANT	GLCoexDm8723a2Ant;
++static PCOEX_DM_8723A_2ANT 	pCoexDm=&GLCoexDm8723a2Ant;
++static COEX_STA_8723A_2ANT	GLCoexSta8723a2Ant;
++static PCOEX_STA_8723A_2ANT	pCoexSta=&GLCoexSta8723a2Ant;
++
++const char *const GLBtInfoSrc8723a2Ant[]={
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++//============================================================
++// local function proto type if needed
++//============================================================
++//============================================================
++// local function start with halbtc8723a2ant_
++//============================================================
++BOOLEAN
++halbtc8723a2ant_IsWifiIdle(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bWifiConnected=FALSE, bScan=FALSE, bLink=FALSE, bRoam=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_CONNECTED, &bWifiConnected);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_SCAN, &bScan);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_LINK, &bLink);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_ROAM, &bRoam);
++
++	if(bWifiConnected)
++		return FALSE;
++	if(bScan)
++		return FALSE;
++	if(bLink)
++		return FALSE;
++	if(bRoam)
++		return FALSE;
++
++	return TRUE;
++}
++
++BOOLEAN
++halbtc8723a2ant_IsWifiConnectedIdle(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bWifiConnected=FALSE, bScan=FALSE, bLink=FALSE, bRoam=FALSE, bWifiBusy=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_CONNECTED, &bWifiConnected);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_SCAN, &bScan);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_LINK, &bLink);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_ROAM, &bRoam);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++
++	if(bScan)
++		return FALSE;
++	if(bLink)
++		return FALSE;
++	if(bRoam)
++		return FALSE;
++	if(bWifiConnected && !bWifiBusy)
++		return TRUE;
++	else 
++		return FALSE;
++}
++
++u1Byte
++halbtc8723a2ant_BtRssiState(
++	u1Byte			levelNum,
++	u1Byte			rssiThresh,
++	u1Byte			rssiThresh1
++	)
++{
++	s4Byte			btRssi=0;
++	u1Byte			btRssiState=pCoexSta->preBtRssiState;
++
++	btRssi = pCoexSta->btRssi;
++
++	if(levelNum == 2)
++	{			
++		if( (pCoexSta->preBtRssiState == BTC_RSSI_STATE_LOW) ||
++			(pCoexSta->preBtRssiState == BTC_RSSI_STATE_STAY_LOW))
++		{
++			if(btRssi >= (rssiThresh+BTC_RSSI_COEX_THRESH_TOL_8723A_2ANT))
++			{
++				btRssiState = BTC_RSSI_STATE_HIGH;
++			}
++			else
++			{
++				btRssiState = BTC_RSSI_STATE_STAY_LOW;
++			}
++		}
++		else
++		{
++			if(btRssi < rssiThresh)
++			{
++				btRssiState = BTC_RSSI_STATE_LOW;
++			}
++			else
++			{
++				btRssiState = BTC_RSSI_STATE_STAY_HIGH;
++			}
++		}
++	}
++	else if(levelNum == 3)
++	{
++		if(rssiThresh > rssiThresh1)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT Rssi thresh error!!\n"));
++			return pCoexSta->preBtRssiState;
++		}
++		
++		if( (pCoexSta->preBtRssiState == BTC_RSSI_STATE_LOW) ||
++			(pCoexSta->preBtRssiState == BTC_RSSI_STATE_STAY_LOW))
++		{
++			if(btRssi >= (rssiThresh+BTC_RSSI_COEX_THRESH_TOL_8723A_2ANT))
++			{
++				btRssiState = BTC_RSSI_STATE_MEDIUM;
++			}
++			else
++			{
++				btRssiState = BTC_RSSI_STATE_STAY_LOW;
++			}
++		}
++		else if( (pCoexSta->preBtRssiState == BTC_RSSI_STATE_MEDIUM) ||
++			(pCoexSta->preBtRssiState == BTC_RSSI_STATE_STAY_MEDIUM))
++		{
++			if(btRssi >= (rssiThresh1+BTC_RSSI_COEX_THRESH_TOL_8723A_2ANT))
++			{
++				btRssiState = BTC_RSSI_STATE_HIGH;
++			}
++			else if(btRssi < rssiThresh)
++			{
++				btRssiState = BTC_RSSI_STATE_LOW;
++			}
++			else
++			{
++				btRssiState = BTC_RSSI_STATE_STAY_MEDIUM;
++			}
++		}
++		else
++		{
++			if(btRssi < rssiThresh1)
++			{
++				btRssiState = BTC_RSSI_STATE_MEDIUM;
++			}
++			else
++			{
++				btRssiState = BTC_RSSI_STATE_STAY_HIGH;
++			}
++		}
++	}
++		
++	pCoexSta->preBtRssiState = btRssiState;
++
++	return btRssiState;
++}
++
++u1Byte
++halbtc8723a2ant_WifiRssiState(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			index,
++	IN	u1Byte			levelNum,
++	IN	u1Byte			rssiThresh,
++	IN	u1Byte			rssiThresh1
++	)
++{
++	s4Byte			wifiRssi=0;
++	u1Byte			wifiRssiState=pCoexSta->preWifiRssiState[index];
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_S4_WIFI_RSSI, &wifiRssi);
++	
++	if(levelNum == 2)
++	{
++		if( (pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_LOW) ||
++			(pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_STAY_LOW))
++		{
++			if(wifiRssi >= (rssiThresh+BTC_RSSI_COEX_THRESH_TOL_8723A_2ANT))
++			{
++				wifiRssiState = BTC_RSSI_STATE_HIGH;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_LOW;
++			}
++		}
++		else
++		{
++			if(wifiRssi < rssiThresh)
++			{
++				wifiRssiState = BTC_RSSI_STATE_LOW;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_HIGH;
++			}
++		}
++	}
++	else if(levelNum == 3)
++	{
++		if(rssiThresh > rssiThresh1)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], wifi RSSI thresh error!!\n"));
++			return pCoexSta->preWifiRssiState[index];
++		}
++		
++		if( (pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_LOW) ||
++			(pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_STAY_LOW))
++		{
++			if(wifiRssi >= (rssiThresh+BTC_RSSI_COEX_THRESH_TOL_8723A_2ANT))
++			{
++				wifiRssiState = BTC_RSSI_STATE_MEDIUM;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_LOW;
++			}
++		}
++		else if( (pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_MEDIUM) ||
++			(pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_STAY_MEDIUM))
++		{
++			if(wifiRssi >= (rssiThresh1+BTC_RSSI_COEX_THRESH_TOL_8723A_2ANT))
++			{
++				wifiRssiState = BTC_RSSI_STATE_HIGH;
++			}
++			else if(wifiRssi < rssiThresh)
++			{
++				wifiRssiState = BTC_RSSI_STATE_LOW;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_MEDIUM;
++			}
++		}
++		else
++		{
++			if(wifiRssi < rssiThresh1)
++			{
++				wifiRssiState = BTC_RSSI_STATE_MEDIUM;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_HIGH;
++			}
++		}
++	}
++		
++	pCoexSta->preWifiRssiState[index] = wifiRssiState;
++
++	return wifiRssiState;
++}
++
++VOID
++halbtc8723a2ant_IndicateWifiChnlBwInfo(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{
++	u1Byte			H2C_Parameter[3] ={0};
++	u4Byte			wifiBw;
++	u1Byte			wifiCentralChnl;
++	
++	// only 2.4G we need to inform bt the chnl mask
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL, &wifiCentralChnl);
++	if( (BTC_MEDIA_CONNECT == type) &&
++		(wifiCentralChnl <= 14) )
++	{
++		H2C_Parameter[0] = 0x1;
++		H2C_Parameter[1] = wifiCentralChnl;
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++			H2C_Parameter[2] = 0x30;
++		else
++			H2C_Parameter[2] = 0x20;
++	}
++		
++	pCoexDm->wifiChnlInfo[0] = H2C_Parameter[0];
++	pCoexDm->wifiChnlInfo[1] = H2C_Parameter[1];
++	pCoexDm->wifiChnlInfo[2] = H2C_Parameter[2];
++	
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], FW write 0x19=0x%x\n", 
++		H2C_Parameter[0]<<16|H2C_Parameter[1]<<8|H2C_Parameter[2]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x19, 3, H2C_Parameter);
++}
++
++VOID
++halbtc8723a2ant_QueryBtInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte			H2C_Parameter[1] ={0};
++
++	pCoexSta->bC2hBtInfoReqSent = TRUE;
++
++	H2C_Parameter[0] |= BIT0;	// trigger
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Query Bt Info, FW write 0x38=0x%x\n", 
++		H2C_Parameter[0]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x38, 1, H2C_Parameter);
++}
++u1Byte
++halbtc8723a2ant_ActionAlgorithm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	PBTC_STACK_INFO		pStackInfo=&pBtCoexist->stackInfo;
++	BOOLEAN				bBtHsOn=FALSE, bBtBusy=FALSE, bLimitedDig=FALSE;
++	u1Byte				algorithm=BT_8723A_2ANT_COEX_ALGO_UNDEFINED;
++	u1Byte				numOfDiffProfile=0;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++
++	//======================
++	// here we get BT status first
++	//======================
++	pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_IDLE;
++	
++	if((pStackInfo->bScoExist) ||(bBtHsOn) ||(pStackInfo->bHidExist))
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO or HID or HS exists, set BT non-idle !!!\n"));
++		pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_NON_IDLE;
++	}
++	else
++	{
++		// A2dp profile
++		if( (pBtCoexist->stackInfo.numOfLink == 1) &&
++			(pStackInfo->bA2dpExist) )
++		{		
++			if( (pCoexSta->lowPriorityTx+	pCoexSta->lowPriorityRx) < 100)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], A2DP, low priority tx+rx < 100, set BT connected-idle!!!\n"));
++				pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE;
++			}
++			else
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], A2DP, low priority tx+rx >= 100, set BT non-idle!!!\n"));
++				pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_NON_IDLE;
++			}
++		}
++		// Pan profile
++		if( (pBtCoexist->stackInfo.numOfLink == 1) &&
++			(pStackInfo->bPanExist) )
++		{		
++			if((pCoexSta->lowPriorityTx+	pCoexSta->lowPriorityRx) < 600)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN, low priority tx+rx < 600, set BT connected-idle!!!\n"));
++				pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE;
++			}
++			else
++			{
++				if(pCoexSta->lowPriorityTx)
++				{
++					if((pCoexSta->lowPriorityRx /pCoexSta->lowPriorityTx)>9 )
++					{
++						RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN, low priority rx/tx > 9, set BT connected-idle!!!\n"));
++						pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE;
++					}
++				}
++			}
++			if(BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE != pCoexDm->btStatus)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN, set BT non-idle!!!\n"));
++				pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_NON_IDLE;
++			}
++		}
++		// Pan+A2dp profile
++		if( (pBtCoexist->stackInfo.numOfLink == 2) &&
++			(pStackInfo->bA2dpExist) &&
++			(pStackInfo->bPanExist) )
++		{
++			if((pCoexSta->lowPriorityTx+	pCoexSta->lowPriorityRx) < 600)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN+A2DP, low priority tx+rx < 600, set BT connected-idle!!!\n"));
++				pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE;
++			}
++			else
++			{
++				if(pCoexSta->lowPriorityTx)
++				{
++					if((pCoexSta->lowPriorityRx /pCoexSta->lowPriorityTx)>9 )
++					{
++						RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN+A2DP, low priority rx/tx > 9, set BT connected-idle!!!\n"));
++						pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE;
++					}
++				}
++			}
++			if(BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE != pCoexDm->btStatus)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN+A2DP, set BT non-idle!!!\n"));
++				pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_NON_IDLE;
++			}
++		}
++	}
++	if(BT_8723A_2ANT_BT_STATUS_IDLE != pCoexDm->btStatus)
++	{
++		bBtBusy = TRUE;
++		bLimitedDig = TRUE;
++	}
++	else
++	{
++		bBtBusy = FALSE;
++		bLimitedDig = FALSE;
++	}
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bBtBusy);
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_LIMITED_DIG, &bLimitedDig);
++	//======================
++
++	if(!pStackInfo->bBtLinkExist)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], No profile exists!!!\n"));
++		return algorithm;
++	}
++
++	if(pStackInfo->bScoExist)
++		numOfDiffProfile++;
++	if(pStackInfo->bHidExist)
++		numOfDiffProfile++;
++	if(pStackInfo->bPanExist)
++		numOfDiffProfile++;
++	if(pStackInfo->bA2dpExist)
++		numOfDiffProfile++;
++	
++	if(numOfDiffProfile == 1)
++	{
++		if(pStackInfo->bScoExist)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO only\n"));
++			algorithm = BT_8723A_2ANT_COEX_ALGO_SCO;
++		}
++		else
++		{
++			if(pStackInfo->bHidExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID only\n"));
++				algorithm = BT_8723A_2ANT_COEX_ALGO_HID;
++			}
++			else if(pStackInfo->bA2dpExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], A2DP only\n"));
++				algorithm = BT_8723A_2ANT_COEX_ALGO_A2DP;
++			}
++			else if(pStackInfo->bPanExist)
++			{
++				if(bBtHsOn)
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN(HS) only\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_PANHS;
++				}
++				else
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN(EDR) only\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	}
++	else if(numOfDiffProfile == 2)
++	{
++		if(pStackInfo->bScoExist)
++		{
++			if(pStackInfo->bHidExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + HID\n"));
++				algorithm = BT_8723A_2ANT_COEX_ALGO_HID;
++			}
++			else if(pStackInfo->bA2dpExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + A2DP ==> SCO\n"));
++				algorithm = BT_8723A_2ANT_COEX_ALGO_SCO;
++			}
++			else if(pStackInfo->bPanExist)
++			{
++				if(bBtHsOn)
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + PAN(HS)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_SCO;
++				}
++				else
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + PAN(EDR)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++		else
++		{
++			if( pStackInfo->bHidExist &&
++				pStackInfo->bA2dpExist )
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID + A2DP\n"));
++				algorithm = BT_8723A_2ANT_COEX_ALGO_HID_A2DP;
++			}
++			else if( pStackInfo->bHidExist &&
++				pStackInfo->bPanExist )
++			{
++				if(bBtHsOn)
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID + PAN(HS)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_HID_A2DP;
++				}
++				else
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID + PAN(EDR)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++			else if( pStackInfo->bPanExist &&
++				pStackInfo->bA2dpExist )
++			{
++				if(bBtHsOn)
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], A2DP + PAN(HS)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_A2DP;
++				}
++				else
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], A2DP + PAN(EDR)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	}
++	else if(numOfDiffProfile == 3)
++	{
++		if(pStackInfo->bScoExist)
++		{
++			if( pStackInfo->bHidExist &&
++				pStackInfo->bA2dpExist )
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + HID + A2DP ==> HID\n"));
++				algorithm = BT_8723A_2ANT_COEX_ALGO_HID;
++			}
++			else if( pStackInfo->bHidExist &&
++				pStackInfo->bPanExist )
++			{
++				if(bBtHsOn)
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + HID + PAN(HS)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_HID_A2DP;
++				}
++				else
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + HID + PAN(EDR)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++			else if( pStackInfo->bPanExist &&
++				pStackInfo->bA2dpExist )
++			{
++				if(bBtHsOn)
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + A2DP + PAN(HS)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_SCO;
++				}
++				else
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + A2DP + PAN(EDR) ==> HID\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++		else
++		{
++			if( pStackInfo->bHidExist &&
++				pStackInfo->bPanExist &&
++				pStackInfo->bA2dpExist )
++			{
++				if(bBtHsOn)
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID + A2DP + PAN(HS)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_HID_A2DP;
++				}
++				else
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID + A2DP + PAN(EDR)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	}
++	else if(numOfDiffProfile >= 3)
++	{
++		if(pStackInfo->bScoExist)
++		{
++			if( pStackInfo->bHidExist &&
++				pStackInfo->bPanExist &&
++				pStackInfo->bA2dpExist )
++			{
++				if(bBtHsOn)
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Error!!! SCO + HID + A2DP + PAN(HS)\n"));
++
++				}
++				else
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++BOOLEAN
++halbtc8723a2ant_NeedToDecBtPwr(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bRet=FALSE;
++	BOOLEAN		bBtHsOn=FALSE, bWifiConnected=FALSE;
++	s4Byte		btHsRssi=0;
++	u1Byte		btRssiState=BTC_RSSI_STATE_HIGH;
++
++	btRssiState = halbtc8723a2ant_BtRssiState(2, 42, 0);
++
++	if(!pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn))
++		return FALSE;
++	if(!pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_CONNECTED, &bWifiConnected))
++		return FALSE;
++	if(!pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_S4_HS_RSSI, &btHsRssi))
++		return FALSE;
++	if(BTC_RSSI_LOW(btRssiState))
++		return FALSE;
++
++	if(bWifiConnected)
++	{
++		if(bBtHsOn)
++		{
++			if(btHsRssi > 37)
++			{
++				RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Need to decrease bt power for HS mode!!\n"));
++				bRet = TRUE;
++			}
++		}
++		else
++		{
++			RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Need to decrease bt power for Wifi is connected!!\n"));
++			bRet = TRUE;
++		}
++	}
++	
++	return bRet;
++}
++
++VOID
++halbtc8723a2ant_SetFwDacSwingLevel(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			dacSwingLvl
++	)
++{
++	u1Byte			H2C_Parameter[1] ={0};
++
++	// There are several type of dacswing
++	// 0x18/ 0x10/ 0xc/ 0x8/ 0x4/ 0x6
++	H2C_Parameter[0] = dacSwingLvl;
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Set Dac Swing Level=0x%x\n", dacSwingLvl));
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], FW write 0x29=0x%x\n", H2C_Parameter[0]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x29, 1, H2C_Parameter);
++}
++
++VOID
++halbtc8723a2ant_SetFwDecBtPwr(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bDecBtPwr
++	)
++{
++	u1Byte			H2C_Parameter[1] ={0};
++	
++	H2C_Parameter[0] = 0;
++
++	if(bDecBtPwr)
++	{
++		H2C_Parameter[0] |= BIT1;
++	}
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], decrease Bt Power : %s, FW write 0x21=0x%x\n", 
++		(bDecBtPwr? "Yes!!":"No!!"), H2C_Parameter[0]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x21, 1, H2C_Parameter);	
++}
++
++VOID
++halbtc8723a2ant_DecBtPwr(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bDecBtPwr
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s Dec BT power = %s\n",  
++		(bForceExec? "force to":""), ((bDecBtPwr)? "ON":"OFF")));
++	pCoexDm->bCurDecBtPwr = bDecBtPwr;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreDecBtPwr == pCoexDm->bCurDecBtPwr) 
++			return;
++	}
++	halbtc8723a2ant_SetFwDecBtPwr(pBtCoexist, pCoexDm->bCurDecBtPwr);
++
++	pCoexDm->bPreDecBtPwr = pCoexDm->bCurDecBtPwr;
++}
++
++VOID
++halbtc8723a2ant_FwDacSwingLvl(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	u1Byte			fwDacSwingLvl
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s set FW Dac Swing level = %d\n",  
++		(bForceExec? "force to":""), fwDacSwingLvl));
++	pCoexDm->curFwDacSwingLvl = fwDacSwingLvl;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->preFwDacSwingLvl == pCoexDm->curFwDacSwingLvl) 
++			return;
++	}
++
++	halbtc8723a2ant_SetFwDacSwingLevel(pBtCoexist, pCoexDm->curFwDacSwingLvl);
++
++	pCoexDm->preFwDacSwingLvl = pCoexDm->curFwDacSwingLvl;
++}
++
++VOID
++halbtc8723a2ant_SetSwRfRxLpfCorner(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bRxRfShrinkOn
++	)
++{
++	if(bRxRfShrinkOn)
++	{
++		//Shrink RF Rx LPF corner
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Shrink RF Rx LPF corner!!\n"));
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xfffff, 0xf0ff7);
++	}
++	else
++	{
++		//Resume RF Rx LPF corner
++		// After initialized, we can use pCoexDm->btRf0x1eBackup
++		if(pBtCoexist->bInitilized)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Resume RF Rx LPF corner!!\n"));
++			pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xfffff, pCoexDm->btRf0x1eBackup);
++		}
++	}
++}
++
++VOID
++halbtc8723a2ant_RfShrink(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bRxRfShrinkOn
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn Rx RF Shrink = %s\n",  
++		(bForceExec? "force to":""), ((bRxRfShrinkOn)? "ON":"OFF")));
++	pCoexDm->bCurRfRxLpfShrink = bRxRfShrinkOn;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreRfRxLpfShrink == pCoexDm->bCurRfRxLpfShrink) 
++			return;
++	}
++	halbtc8723a2ant_SetSwRfRxLpfCorner(pBtCoexist, pCoexDm->bCurRfRxLpfShrink);
++
++	pCoexDm->bPreRfRxLpfShrink = pCoexDm->bCurRfRxLpfShrink;
++}
++
++VOID
++halbtc8723a2ant_SetSwPenaltyTxRateAdaptive(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bLowPenaltyRa
++	)
++{
++	u1Byte	tmpU1;
++
++	tmpU1 = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x4fd);
++	tmpU1 |= BIT0;
++	if(bLowPenaltyRa)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Tx rate adaptive, set low penalty!!\n"));
++		tmpU1 &= ~BIT2;
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Tx rate adaptive, set normal!!\n"));
++		tmpU1 |= BIT2;
++	}
++
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x4fd, tmpU1);
++}
++
++VOID
++halbtc8723a2ant_LowPenaltyRa(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bLowPenaltyRa
++	)
++{
++	return;
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn LowPenaltyRA = %s\n",  
++		(bForceExec? "force to":""), ((bLowPenaltyRa)? "ON":"OFF")));
++	pCoexDm->bCurLowPenaltyRa = bLowPenaltyRa;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreLowPenaltyRa == pCoexDm->bCurLowPenaltyRa) 
++			return;
++	}
++	halbtc8723a2ant_SetSwPenaltyTxRateAdaptive(pBtCoexist, pCoexDm->bCurLowPenaltyRa);
++
++	pCoexDm->bPreLowPenaltyRa = pCoexDm->bCurLowPenaltyRa;
++}
++
++VOID
++halbtc8723a2ant_SetSwFullTimeDacSwing(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bSwDacSwingOn,
++	IN	u4Byte			swDacSwingLvl
++	)
++{
++	if(bSwDacSwingOn)
++	{
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x880, 0xff000000, swDacSwingLvl);
++	}
++	else
++	{
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x880, 0xff000000, 0xc0);
++	}
++}
++
++
++VOID
++halbtc8723a2ant_DacSwing(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bDacSwingOn,
++	IN	u4Byte			dacSwingLvl
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn DacSwing=%s, dacSwingLvl=0x%x\n",  
++		(bForceExec? "force to":""), ((bDacSwingOn)? "ON":"OFF"), dacSwingLvl));
++	pCoexDm->bCurDacSwingOn = bDacSwingOn;
++	pCoexDm->curDacSwingLvl = dacSwingLvl;
++
++	if(!bForceExec)
++	{
++		if( (pCoexDm->bPreDacSwingOn == pCoexDm->bCurDacSwingOn) &&
++			(pCoexDm->preDacSwingLvl == pCoexDm->curDacSwingLvl) )
++			return;
++	}
++	delay_ms(30);
++	halbtc8723a2ant_SetSwFullTimeDacSwing(pBtCoexist, bDacSwingOn, dacSwingLvl);
++
++	pCoexDm->bPreDacSwingOn = pCoexDm->bCurDacSwingOn;
++	pCoexDm->preDacSwingLvl = pCoexDm->curDacSwingLvl;
++}
++
++VOID
++halbtc8723a2ant_SetAdcBackOff(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bAdcBackOff
++	)
++{
++	if(bAdcBackOff)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BB BackOff Level On!\n"));
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc04,0x3a07611);
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BB BackOff Level Off!\n"));		
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc04,0x3a05611);
++	}
++}
++
++VOID
++halbtc8723a2ant_AdcBackOff(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bAdcBackOff
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn AdcBackOff = %s\n",  
++		(bForceExec? "force to":""), ((bAdcBackOff)? "ON":"OFF")));
++	pCoexDm->bCurAdcBackOff = bAdcBackOff;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreAdcBackOff == pCoexDm->bCurAdcBackOff) 
++			return;
++	}
++	halbtc8723a2ant_SetAdcBackOff(pBtCoexist, pCoexDm->bCurAdcBackOff);
++
++	pCoexDm->bPreAdcBackOff = pCoexDm->bCurAdcBackOff;
++}
++
++VOID
++halbtc8723a2ant_SetAgcTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bAgcTableEn
++	)
++{
++	u1Byte		rssiAdjustVal=0;
++
++	if(bAgcTableEn)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Agc Table On!\n"));
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4e1c0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4d1d0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4c1e0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4b1f0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4a200001);
++		
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0xdc000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x90000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x51000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x12000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1a, 0xfffff, 0x00355);
++		
++		rssiAdjustVal = 6;
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Agc Table Off!\n"));
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x641c0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x631d0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x621e0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x611f0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x60200001);
++
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x32000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x71000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0xb0000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0xfc000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1a, 0xfffff, 0x30355);
++	}
++
++	// set rssiAdjustVal for wifi module.
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_U1_RSSI_ADJ_VAL_FOR_AGC_TABLE_ON, &rssiAdjustVal);
++}
++
++
++VOID
++halbtc8723a2ant_AgcTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bAgcTableEn
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s %s Agc Table\n",  
++		(bForceExec? "force to":""), ((bAgcTableEn)? "Enable":"Disable")));
++	pCoexDm->bCurAgcTableEn = bAgcTableEn;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreAgcTableEn == pCoexDm->bCurAgcTableEn) 
++			return;
++	}
++	halbtc8723a2ant_SetAgcTable(pBtCoexist, bAgcTableEn);
++
++	pCoexDm->bPreAgcTableEn = pCoexDm->bCurAgcTableEn;
++}
++
++VOID
++halbtc8723a2ant_SetCoexTable(
++	IN	PBTC_COEXIST	pBtCoexist,
++	IN	u4Byte		val0x6c0,
++	IN	u4Byte		val0x6c8,
++	IN	u1Byte		val0x6cc
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], set coex table, set 0x6c0=0x%x\n", val0x6c0));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c0, val0x6c0);
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], set coex table, set 0x6c8=0x%x\n", val0x6c8));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c8, val0x6c8);
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], set coex table, set 0x6cc=0x%x\n", val0x6cc));
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x6cc, val0x6cc);
++}
++
++VOID
++halbtc8723a2ant_CoexTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	u4Byte			val0x6c0,
++	IN	u4Byte			val0x6c8,
++	IN	u1Byte			val0x6cc
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s write Coex Table 0x6c0=0x%x, 0x6c8=0x%x, 0x6cc=0x%x\n", 
++		(bForceExec? "force to":""), val0x6c0, val0x6c8, val0x6cc));
++	pCoexDm->curVal0x6c0 = val0x6c0;
++	pCoexDm->curVal0x6c8 = val0x6c8;
++	pCoexDm->curVal0x6cc = val0x6cc;
++
++	if(!bForceExec)
++	{	
++		if( (pCoexDm->preVal0x6c0 == pCoexDm->curVal0x6c0) &&
++			(pCoexDm->preVal0x6c8 == pCoexDm->curVal0x6c8) &&
++			(pCoexDm->preVal0x6cc == pCoexDm->curVal0x6cc) )
++			return;
++	}
++	halbtc8723a2ant_SetCoexTable(pBtCoexist, val0x6c0, val0x6c8, val0x6cc);
++
++	pCoexDm->preVal0x6c0 = pCoexDm->curVal0x6c0;
++	pCoexDm->preVal0x6c8 = pCoexDm->curVal0x6c8;
++	pCoexDm->preVal0x6cc = pCoexDm->curVal0x6cc;
++}
++
++VOID
++halbtc8723a2ant_SetFwIgnoreWlanAct(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bEnable
++	)
++{
++	u1Byte			H2C_Parameter[1] ={0};
++		
++	if(bEnable)
++	{
++		H2C_Parameter[0] |= BIT0;		// function enable
++	}
++	
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], set FW for BT Ignore Wlan_Act, FW write 0x25=0x%x\n", 
++		H2C_Parameter[0]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x25, 1, H2C_Parameter);	
++}
++
++VOID
++halbtc8723a2ant_IgnoreWlanAct(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bEnable
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn Ignore WlanAct %s\n", 
++		(bForceExec? "force to":""), (bEnable? "ON":"OFF")));
++	pCoexDm->bCurIgnoreWlanAct = bEnable;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreIgnoreWlanAct == pCoexDm->bCurIgnoreWlanAct)
++			return;
++	}
++	halbtc8723a2ant_SetFwIgnoreWlanAct(pBtCoexist, bEnable);
++
++	pCoexDm->bPreIgnoreWlanAct = pCoexDm->bCurIgnoreWlanAct;
++}
++
++VOID
++halbtc8723a2ant_SetFwPstdma(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			byte1,
++	IN	u1Byte			byte2,
++	IN	u1Byte			byte3,
++	IN	u1Byte			byte4,
++	IN	u1Byte			byte5
++	)
++{
++	u1Byte			H2C_Parameter[5] ={0};
++
++	H2C_Parameter[0] = byte1;	
++	H2C_Parameter[1] = byte2;	
++	H2C_Parameter[2] = byte3;
++	H2C_Parameter[3] = byte4;
++	H2C_Parameter[4] = byte5;
++
++	pCoexDm->psTdmaPara[0] = byte1;
++	pCoexDm->psTdmaPara[1] = byte2;
++	pCoexDm->psTdmaPara[2] = byte3;
++	pCoexDm->psTdmaPara[3] = byte4;
++	pCoexDm->psTdmaPara[4] = byte5;
++	
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], FW write 0x3a(5bytes)=0x%x%08x\n", 
++		H2C_Parameter[0], 
++		H2C_Parameter[1]<<24|H2C_Parameter[2]<<16|H2C_Parameter[3]<<8|H2C_Parameter[4]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x3a, 5, H2C_Parameter);
++}
++
++VOID
++halbtc8723a2ant_PsTdma(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bTurnOn,
++	IN	u1Byte			type
++	)
++{
++	u4Byte	btTxRxCnt=0;
++
++	btTxRxCnt = pCoexSta->highPriorityTx+pCoexSta->highPriorityRx+
++				pCoexSta->lowPriorityTx+pCoexSta->lowPriorityRx;
++
++	if(btTxRxCnt > 3000)
++	{		
++		pCoexDm->bCurPsTdmaOn = TRUE;
++		pCoexDm->curPsTdma = 8;
++		RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], turn ON PS TDMA, type=%d for BT tx/rx counters=%d(>3000)\n", 
++			pCoexDm->curPsTdma, btTxRxCnt));
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn %s PS TDMA, type=%d\n", 
++			(bForceExec? "force to":""), (bTurnOn? "ON":"OFF"), type));		
++		pCoexDm->bCurPsTdmaOn = bTurnOn;
++		pCoexDm->curPsTdma = type;
++	}
++
++	if(!bForceExec)
++	{
++		if( (pCoexDm->bPrePsTdmaOn == pCoexDm->bCurPsTdmaOn) &&
++			(pCoexDm->prePsTdma == pCoexDm->curPsTdma) )
++			return;
++	}	
++	if(pCoexDm->bCurPsTdmaOn)
++	{
++		switch(pCoexDm->curPsTdma)
++		{
++			case 1:
++			default:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x1a, 0x1a, 0xe1, 0x98);
++				break;
++			case 2:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x12, 0x12, 0xe1, 0x98);
++				break;
++			case 3:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0xa, 0xa, 0xe1, 0x98);
++				break;
++			case 4:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xa3, 0x5, 0x5, 0xe1, 0x80);
++				break;
++			case 5:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x1a, 0x1a, 0x60, 0x98);
++				break;
++			case 6:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x12, 0x12, 0x60, 0x98);
++				break;
++			case 7:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0xa, 0xa, 0x60, 0x98);
++				break;
++			case 8: 
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xa3, 0x5, 0x5, 0x60, 0x80);
++				break;
++			case 9: 
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x1a, 0x1a, 0xe1, 0x98);
++				break;
++			case 10:	
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x12, 0x12, 0xe1, 0x98);
++				break;
++			case 11:	
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0xa, 0xa, 0xe1, 0x98);
++				break;
++			case 12:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x5, 0x5, 0xe1, 0x98);
++				break;
++			case 13:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x1a, 0x1a, 0x60, 0x98);
++				break;
++			case 14:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x12, 0x12, 0x60, 0x98);
++				break;
++			case 15:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0xa, 0xa, 0x60, 0x98);
++				break;
++			case 16:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x5, 0x5, 0x60, 0x98);
++				break;
++			case 17:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xa3, 0x2f, 0x2f, 0x60, 0x80);
++				break;
++			case 18:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x5, 0x5, 0xe1, 0x98);
++				break;			
++			case 19:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x25, 0x25, 0xe1, 0x98);
++				break;
++			case 20:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x25, 0x25, 0x60, 0x98);
++				break;
++		}
++	}
++	else
++	{
++		// disable PS tdma
++		switch(pCoexDm->curPsTdma)
++		{
++			case 0:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0x0, 0x0, 0x0, 0x8, 0x0);
++				break;
++			case 1:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0x0, 0x0, 0x0, 0x0, 0x0);
++				break;
++			default:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0x0, 0x0, 0x0, 0x8, 0x0);
++				break;
++		}
++	}
++
++	// update pre state
++	pCoexDm->bPrePsTdmaOn = pCoexDm->bCurPsTdmaOn;
++	pCoexDm->prePsTdma = pCoexDm->curPsTdma;
++}
++
++
++VOID
++halbtc8723a2ant_CoexAllOff(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	// fw all off
++	halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++	halbtc8723a2ant_FwDacSwingLvl(pBtCoexist, NORMAL_EXEC, 0x20);
++	halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++
++	// sw all off
++	halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_RfShrink(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++
++	// hw all off
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++}
++
++VOID
++halbtc8723a2ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	// force to reset coex mechanism
++	halbtc8723a2ant_CoexTable(pBtCoexist, FORCE_EXEC, 0x55555555, 0xffff, 0x3);
++	halbtc8723a2ant_PsTdma(pBtCoexist, FORCE_EXEC, FALSE, 0);
++	halbtc8723a2ant_FwDacSwingLvl(pBtCoexist, FORCE_EXEC, 0x20);
++	halbtc8723a2ant_DecBtPwr(pBtCoexist, FORCE_EXEC, FALSE);
++	halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, FORCE_EXEC, FALSE);
++
++	halbtc8723a2ant_AgcTable(pBtCoexist, FORCE_EXEC, FALSE);
++	halbtc8723a2ant_AdcBackOff(pBtCoexist, FORCE_EXEC, FALSE);
++	halbtc8723a2ant_LowPenaltyRa(pBtCoexist, FORCE_EXEC, FALSE);
++	halbtc8723a2ant_RfShrink(pBtCoexist, FORCE_EXEC, FALSE);
++	halbtc8723a2ant_DacSwing(pBtCoexist, FORCE_EXEC, FALSE, 0xc0);
++}
++
++VOID
++halbtc8723a2ant_BtInquiryPage(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN	bLowPwrDisable=TRUE;
++	
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_DISABLE_LOW_POWER, &bLowPwrDisable);
++
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++	halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);
++}
++
++VOID
++halbtc8723a2ant_BtEnableAction(
++	IN 	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bWifiConnected=FALSE;
++	
++	// Here we need to resend some wifi info to BT
++	// because bt is reset and loss of the info.						
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_CONNECTED, &bWifiConnected);
++	if(bWifiConnected)
++	{
++		halbtc8723a2ant_IndicateWifiChnlBwInfo(pBtCoexist, BTC_MEDIA_CONNECT);
++	}
++	else
++	{
++		halbtc8723a2ant_IndicateWifiChnlBwInfo(pBtCoexist, BTC_MEDIA_DISCONNECT);
++	}
++
++	halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, FORCE_EXEC, FALSE);
++}
++
++VOID
++halbtc8723a2ant_MonitorBtCtr(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u4Byte 			regHPTxRx, regLPTxRx, u4Tmp;
++	u4Byte			regHPTx=0, regHPRx=0, regLPTx=0, regLPRx=0;
++	u1Byte			u1Tmp;
++	
++	regHPTxRx = 0x770;
++	regLPTxRx = 0x774;
++
++	u4Tmp = pBtCoexist->fBtcRead4Byte(pBtCoexist, regHPTxRx);
++	regHPTx = u4Tmp & bMaskLWord;
++	regHPRx = (u4Tmp & bMaskHWord)>>16;
++
++	u4Tmp = pBtCoexist->fBtcRead4Byte(pBtCoexist, regLPTxRx);
++	regLPTx = u4Tmp & bMaskLWord;
++	regLPRx = (u4Tmp & bMaskHWord)>>16;
++		
++	pCoexSta->highPriorityTx = regHPTx;
++	pCoexSta->highPriorityRx = regHPRx;
++	pCoexSta->lowPriorityTx = regLPTx;
++	pCoexSta->lowPriorityRx = regLPRx;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], High Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n", 
++		regHPTxRx, regHPTx, regHPTx, regHPRx, regHPRx));
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Low Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n", 
++		regLPTxRx, regLPTx, regLPTx, regLPRx, regLPRx));
++
++	// reset counter
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x76e, 0xc);
++}
++
++VOID
++halbtc8723a2ant_MonitorBtEnableDisable(
++	IN 	PBTC_COEXIST		pBtCoexist
++	)
++{
++	static BOOLEAN	bPreBtDisabled=FALSE;
++	static u4Byte	btDisableCnt=0;
++	BOOLEAN			bBtActive=TRUE, bBtDisabled=FALSE;
++
++	// This function check if bt is disabled
++
++	if(	pCoexSta->highPriorityTx == 0 &&
++		pCoexSta->highPriorityRx == 0 &&
++		pCoexSta->lowPriorityTx == 0 &&
++		pCoexSta->lowPriorityRx == 0)
++	{
++		bBtActive = FALSE;
++	}
++	if(	pCoexSta->highPriorityTx == 0xffff &&
++		pCoexSta->highPriorityRx == 0xffff &&
++		pCoexSta->lowPriorityTx == 0xffff &&
++		pCoexSta->lowPriorityRx == 0xffff)
++	{
++		bBtActive = FALSE;
++	}
++	if(bBtActive)
++	{
++		btDisableCnt = 0;
++		bBtDisabled = FALSE;
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_DISABLE, &bBtDisabled);
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT is enabled !!\n"));
++	}
++	else
++	{
++		btDisableCnt++;
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], bt all counters=0, %d times!!\n", 
++				btDisableCnt));
++		if(btDisableCnt >= 2)
++		{
++			bBtDisabled = TRUE;
++			pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_DISABLE, &bBtDisabled);
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT is disabled !!\n"));
++		}
++	}
++	if(bPreBtDisabled != bBtDisabled)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT is from %s to %s!!\n", 
++			(bPreBtDisabled ? "disabled":"enabled"), 
++			(bBtDisabled ? "disabled":"enabled")));
++		bPreBtDisabled = bBtDisabled;
++		if(!bBtDisabled)
++		{
++			halbtc8723a2ant_BtEnableAction(pBtCoexist);
++		}
++	}
++}
++
++BOOLEAN
++halbtc8723a2ant_IsCommonAction(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	PBTC_STACK_INFO		pStackInfo=&pBtCoexist->stackInfo;
++	BOOLEAN			bCommon=FALSE, bWifiConnected=FALSE;
++	BOOLEAN			bLowPwrDisable=FALSE;
++
++	if(!pStackInfo->bBtLinkExist)
++	{
++		bLowPwrDisable = FALSE;
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_DISABLE_LOW_POWER, &bLowPwrDisable);
++	}
++	else
++	{
++		bLowPwrDisable = TRUE;
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_DISABLE_LOW_POWER, &bLowPwrDisable);
++	}
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_CONNECTED, &bWifiConnected);
++
++	if(halbtc8723a2ant_IsWifiIdle(pBtCoexist) && 
++		BT_8723A_2ANT_BT_STATUS_IDLE == pCoexDm->btStatus)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Wifi idle + Bt idle!!\n"));
++			
++		halbtc8723a2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_RfShrink(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++		halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++		halbtc8723a2ant_FwDacSwingLvl(pBtCoexist, NORMAL_EXEC, 0x20);
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++
++		bCommon = TRUE;
++	}
++	else if(!halbtc8723a2ant_IsWifiIdle(pBtCoexist) && 
++			(BT_8723A_2ANT_BT_STATUS_IDLE == pCoexDm->btStatus) )
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Wifi non-idle + BT idle!!\n"));
++
++		halbtc8723a2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_RfShrink(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++		halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++		halbtc8723a2ant_FwDacSwingLvl(pBtCoexist, NORMAL_EXEC, 0x20);
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++
++		bCommon = TRUE;
++	}
++	else if(halbtc8723a2ant_IsWifiIdle(pBtCoexist) && 
++		(BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE == pCoexDm->btStatus) )
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Wifi idle + Bt connected idle!!\n"));
++		
++		halbtc8723a2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_RfShrink(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++		halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++		halbtc8723a2ant_FwDacSwingLvl(pBtCoexist, NORMAL_EXEC, 0x20);
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++
++		bCommon = TRUE;
++	}
++	else if(!halbtc8723a2ant_IsWifiIdle(pBtCoexist) && 
++		(BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE == pCoexDm->btStatus) )
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Wifi non-idle + Bt connected idle!!\n"));
++
++		halbtc8723a2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_RfShrink(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++		halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++		halbtc8723a2ant_FwDacSwingLvl(pBtCoexist, NORMAL_EXEC, 0x20);
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++
++		bCommon = TRUE;
++	}
++	else if(halbtc8723a2ant_IsWifiIdle(pBtCoexist) && 
++			(BT_8723A_2ANT_BT_STATUS_NON_IDLE == pCoexDm->btStatus) )
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Wifi idle + BT non-idle!!\n"));
++		
++		halbtc8723a2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_RfShrink(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++		halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++		halbtc8723a2ant_FwDacSwingLvl(pBtCoexist, NORMAL_EXEC, 0x20);
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		
++		bCommon = TRUE;
++	}
++	else if(halbtc8723a2ant_IsWifiConnectedIdle(pBtCoexist) && 
++			(BT_8723A_2ANT_BT_STATUS_NON_IDLE == pCoexDm->btStatus) )
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Wifi connected-idle + BT non-idle!!\n"));
++
++		halbtc8723a2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_RfShrink(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++		halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++		halbtc8723a2ant_FwDacSwingLvl(pBtCoexist, NORMAL_EXEC, 0x20);
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		
++		bCommon = TRUE;
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Wifi non-idle + BT non-idle!!\n"));
++		halbtc8723a2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_RfShrink(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_FwDacSwingLvl(pBtCoexist, NORMAL_EXEC, 0x20);
++		
++		bCommon = FALSE;
++	}
++	
++	return bCommon;
++}
++VOID
++halbtc8723a2ant_TdmaDurationAdjust(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bScoHid,
++	IN	BOOLEAN			bTxPause,
++	IN	u1Byte			maxInterval
++	)
++{
++	static s4Byte		up,dn,m,n,WaitCount;
++	s4Byte			result;   //0: no change, +1: increase WiFi duration, -1: decrease WiFi duration
++	u1Byte			retryCount=0;
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], TdmaDurationAdjust()\n"));
++
++	if(pCoexDm->bResetTdmaAdjust)
++	{
++		pCoexDm->bResetTdmaAdjust = FALSE;
++		RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], first run TdmaDurationAdjust()!!\n"));
++		{
++			if(bScoHid)
++			{
++				if(bTxPause)
++				{
++					if(maxInterval == 1)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 13);
++						pCoexDm->psTdmaDuAdjType = 13;	
++					}
++					else if(maxInterval == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++						pCoexDm->psTdmaDuAdjType = 14;	
++					}
++					else if(maxInterval == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;	
++					}
++					else
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++				}
++				else
++				{
++					if(maxInterval == 1)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 9);
++						pCoexDm->psTdmaDuAdjType = 9;	
++					}
++					else if(maxInterval == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++						pCoexDm->psTdmaDuAdjType = 10;	
++					}
++					else if(maxInterval == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++					else
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++				}
++			}
++			else
++			{
++				if(bTxPause)
++				{
++					if(maxInterval == 1)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 5);
++						pCoexDm->psTdmaDuAdjType = 5;	
++					}
++					else if(maxInterval == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++						pCoexDm->psTdmaDuAdjType = 6;	
++					}
++					else if(maxInterval == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++					else
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++				}
++				else
++				{
++					if(maxInterval == 1)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 1);
++						pCoexDm->psTdmaDuAdjType = 1;	
++					}
++					else if(maxInterval == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++						pCoexDm->psTdmaDuAdjType = 2;	
++					}
++					else if(maxInterval == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++				}
++			}
++		}
++		//============
++		up = 0;
++		dn = 0;
++		m = 1;
++		n= 3;
++		result = 0;
++		WaitCount = 0;
++	}
++	else
++	{
++		//accquire the BT TRx retry count from BT_Info byte2
++		retryCount = pCoexSta->btRetryCnt;
++		RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], retryCount = %d\n", retryCount));
++		RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], up=%d, dn=%d, m=%d, n=%d, WaitCount=%d\n", 
++			up, dn, m, n, WaitCount));
++		result = 0;
++		WaitCount++; 
++		  
++		if(retryCount == 0)  // no retry in the last 2-second duration
++		{
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;				 
++
++			if(up >= n)	// if ³sÄò n ­Ó2¬í retry count¬°0, «h½Õ¼eWiFi duration
++			{
++				WaitCount = 0; 
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1; 
++				RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Increase wifi duration!!\n"));
++			}
++		}
++		else if (retryCount <= 3)	// <=3 retry in the last 2-second duration
++		{
++			up--; 
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2)	// if ³sÄò 2 ­Ó2¬í retry count< 3, «h½Õ¯¶WiFi duration
++			{
++				if (WaitCount <= 2)
++					m++; // ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^
++				else
++					m = 1;
++
++				if ( m >= 20) //m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration.
++					m = 20;
++
++				n = 3*m;
++				up = 0;
++				dn = 0;
++				WaitCount = 0;
++				result = -1; 
++				RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Decrease wifi duration for retryCounter<3!!\n"));
++			}
++		}
++		else  //retry count > 3, ¥u­n1¦¸ retry count > 3, «h½Õ¯¶WiFi duration
++		{
++			if (WaitCount == 1)
++				m++; // ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^
++			else
++				m = 1;
++
++			if ( m >= 20) //m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration.
++				m = 20;
++
++			n = 3*m;
++			up = 0;
++			dn = 0;
++			WaitCount = 0; 
++			result = -1;
++			RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Decrease wifi duration for retryCounter>3!!\n"));
++		}
++
++		RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], max Interval = %d\n", maxInterval));
++		if(maxInterval == 1)
++		{
++			if(bTxPause)
++			{
++				RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], TxPause = 1\n"));
++
++				if(pCoexDm->curPsTdma == 1)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 5);
++					pCoexDm->psTdmaDuAdjType = 5;
++				}
++				else if(pCoexDm->curPsTdma == 2)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++					pCoexDm->psTdmaDuAdjType = 6;
++				}
++				else if(pCoexDm->curPsTdma == 3)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++					pCoexDm->psTdmaDuAdjType = 7;
++				}
++				else if(pCoexDm->curPsTdma == 4)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);
++					pCoexDm->psTdmaDuAdjType = 8;
++				}
++				if(pCoexDm->curPsTdma == 9)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 13);
++					pCoexDm->psTdmaDuAdjType = 13;
++				}
++				else if(pCoexDm->curPsTdma == 10)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++					pCoexDm->psTdmaDuAdjType = 14;
++				}
++				else if(pCoexDm->curPsTdma == 11)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++					pCoexDm->psTdmaDuAdjType = 15;
++				}
++				else if(pCoexDm->curPsTdma == 12)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 16);
++					pCoexDm->psTdmaDuAdjType = 16;
++				}
++				
++				if(result == -1)
++				{					
++					if(pCoexDm->curPsTdma == 5)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++						pCoexDm->psTdmaDuAdjType = 6;
++					}
++					else if(pCoexDm->curPsTdma == 6)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++					else if(pCoexDm->curPsTdma == 7)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);
++						pCoexDm->psTdmaDuAdjType = 8;
++					}
++					else if(pCoexDm->curPsTdma == 13)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++						pCoexDm->psTdmaDuAdjType = 14;
++					}
++					else if(pCoexDm->curPsTdma == 14)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++					else if(pCoexDm->curPsTdma == 15)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 16);
++						pCoexDm->psTdmaDuAdjType = 16;
++					}
++				} 
++				else if (result == 1)
++				{
++					if(pCoexDm->curPsTdma == 8)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++					else if(pCoexDm->curPsTdma == 7)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++						pCoexDm->psTdmaDuAdjType = 6;
++					}
++					else if(pCoexDm->curPsTdma == 6)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 5);
++						pCoexDm->psTdmaDuAdjType = 5;
++					}
++					else if(pCoexDm->curPsTdma == 16)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++					else if(pCoexDm->curPsTdma == 15)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++						pCoexDm->psTdmaDuAdjType = 14;
++					}
++					else if(pCoexDm->curPsTdma == 14)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 13);
++						pCoexDm->psTdmaDuAdjType = 13;
++					}
++				}
++			}
++			else
++			{
++				RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], TxPause = 0\n"));
++				if(pCoexDm->curPsTdma == 5)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 1);
++					pCoexDm->psTdmaDuAdjType = 1;
++				}
++				else if(pCoexDm->curPsTdma == 6)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++					pCoexDm->psTdmaDuAdjType = 2;
++				}
++				else if(pCoexDm->curPsTdma == 7)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++					pCoexDm->psTdmaDuAdjType = 3;
++				}
++				else if(pCoexDm->curPsTdma == 8)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 4);
++					pCoexDm->psTdmaDuAdjType = 4;
++				}
++				if(pCoexDm->curPsTdma == 13)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 9);
++					pCoexDm->psTdmaDuAdjType = 9;
++				}
++				else if(pCoexDm->curPsTdma == 14)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++					pCoexDm->psTdmaDuAdjType = 10;
++				}
++				else if(pCoexDm->curPsTdma == 15)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++					pCoexDm->psTdmaDuAdjType = 11;
++				}
++				else if(pCoexDm->curPsTdma == 16)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 12);
++					pCoexDm->psTdmaDuAdjType = 12;
++				}
++				
++				if(result == -1)
++				{
++					if(pCoexDm->curPsTdma == 1)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++						pCoexDm->psTdmaDuAdjType = 2;
++					}
++					else if(pCoexDm->curPsTdma == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else if(pCoexDm->curPsTdma == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 4);
++						pCoexDm->psTdmaDuAdjType = 4;
++					}
++					else if(pCoexDm->curPsTdma == 9)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++						pCoexDm->psTdmaDuAdjType = 10;
++					}
++					else if(pCoexDm->curPsTdma == 10)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++					else if(pCoexDm->curPsTdma == 11)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 12);
++						pCoexDm->psTdmaDuAdjType = 12;
++					}
++				} 
++				else if (result == 1)
++				{
++					if(pCoexDm->curPsTdma == 4)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else if(pCoexDm->curPsTdma == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++						pCoexDm->psTdmaDuAdjType = 2;
++					}
++					else if(pCoexDm->curPsTdma == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 1);
++						pCoexDm->psTdmaDuAdjType = 1;
++					}
++					else if(pCoexDm->curPsTdma == 12)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++					else if(pCoexDm->curPsTdma == 11)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++						pCoexDm->psTdmaDuAdjType = 10;
++					}
++					else if(pCoexDm->curPsTdma == 10)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 9);
++						pCoexDm->psTdmaDuAdjType = 9;
++					}
++				}
++			}
++		}
++		else if(maxInterval == 2)
++		{
++			if(bTxPause)
++			{
++				RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], TxPause = 1\n"));
++				if(pCoexDm->curPsTdma == 1)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++					pCoexDm->psTdmaDuAdjType = 6;
++				}
++				else if(pCoexDm->curPsTdma == 2)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++					pCoexDm->psTdmaDuAdjType = 6;
++				}
++				else if(pCoexDm->curPsTdma == 3)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++					pCoexDm->psTdmaDuAdjType = 7;
++				}
++				else if(pCoexDm->curPsTdma == 4)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);
++					pCoexDm->psTdmaDuAdjType = 8;
++				}
++				if(pCoexDm->curPsTdma == 9)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++					pCoexDm->psTdmaDuAdjType = 14;
++				}
++				else if(pCoexDm->curPsTdma == 10)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++					pCoexDm->psTdmaDuAdjType = 14;
++				}
++				else if(pCoexDm->curPsTdma == 11)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++					pCoexDm->psTdmaDuAdjType = 15;
++				}
++				else if(pCoexDm->curPsTdma == 12)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 16);
++					pCoexDm->psTdmaDuAdjType = 16;
++				}
++				if(result == -1)
++				{
++					if(pCoexDm->curPsTdma == 5) 
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++						pCoexDm->psTdmaDuAdjType = 6;
++					}
++					else if(pCoexDm->curPsTdma == 6)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++					else if(pCoexDm->curPsTdma == 7)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);
++						pCoexDm->psTdmaDuAdjType = 8;
++					}
++					else if(pCoexDm->curPsTdma == 13)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++						pCoexDm->psTdmaDuAdjType = 14;
++					}
++					else if(pCoexDm->curPsTdma == 14)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++					else if(pCoexDm->curPsTdma == 15)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 16);
++						pCoexDm->psTdmaDuAdjType = 16;
++					}
++				} 
++				else if (result == 1)
++				{
++					if(pCoexDm->curPsTdma == 8)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++					else if(pCoexDm->curPsTdma == 7)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++						pCoexDm->psTdmaDuAdjType = 6;
++					}
++					else if(pCoexDm->curPsTdma == 6)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++						pCoexDm->psTdmaDuAdjType = 6;
++					}					
++					else if(pCoexDm->curPsTdma == 16)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++					else if(pCoexDm->curPsTdma == 15)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++						pCoexDm->psTdmaDuAdjType = 14;
++					}
++					else if(pCoexDm->curPsTdma == 14)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++						pCoexDm->psTdmaDuAdjType = 14;
++					}
++				}
++			}
++			else
++			{
++				RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], TxPause = 0\n"));
++				if(pCoexDm->curPsTdma == 5)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++					pCoexDm->psTdmaDuAdjType = 2;
++				}
++				else if(pCoexDm->curPsTdma == 6)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++					pCoexDm->psTdmaDuAdjType = 2;
++				}
++				else if(pCoexDm->curPsTdma == 7)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++					pCoexDm->psTdmaDuAdjType = 3;
++				}
++				else if(pCoexDm->curPsTdma == 8)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 4);
++					pCoexDm->psTdmaDuAdjType = 4;
++				}
++				if(pCoexDm->curPsTdma == 13)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++					pCoexDm->psTdmaDuAdjType = 10;
++				}
++				else if(pCoexDm->curPsTdma == 14)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++					pCoexDm->psTdmaDuAdjType = 10;
++				}
++				else if(pCoexDm->curPsTdma == 15)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++					pCoexDm->psTdmaDuAdjType = 11;
++				}
++				else if(pCoexDm->curPsTdma == 16)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 12);
++					pCoexDm->psTdmaDuAdjType = 12;
++				}
++				if(result == -1)
++				{
++					if(pCoexDm->curPsTdma == 1)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++						pCoexDm->psTdmaDuAdjType = 2;
++					}
++					else if(pCoexDm->curPsTdma == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else if(pCoexDm->curPsTdma == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 4);
++						pCoexDm->psTdmaDuAdjType = 4;
++					}
++					else if(pCoexDm->curPsTdma == 9)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++						pCoexDm->psTdmaDuAdjType = 10;
++					}
++					else if(pCoexDm->curPsTdma == 10)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++					else if(pCoexDm->curPsTdma == 11)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 12);
++						pCoexDm->psTdmaDuAdjType = 12;
++					}
++				} 
++				else if (result == 1)
++				{
++					if(pCoexDm->curPsTdma == 4)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else if(pCoexDm->curPsTdma == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++						pCoexDm->psTdmaDuAdjType = 2;
++					}
++					else if(pCoexDm->curPsTdma == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++						pCoexDm->psTdmaDuAdjType = 2;
++					}
++					else if(pCoexDm->curPsTdma == 12)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++					else if(pCoexDm->curPsTdma == 11)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++						pCoexDm->psTdmaDuAdjType = 10;
++					}
++					else if(pCoexDm->curPsTdma == 10)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++						pCoexDm->psTdmaDuAdjType = 10;
++					}
++				}
++			}
++		}
++		else if(maxInterval == 3)
++		{
++			if(bTxPause)
++			{
++				RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], TxPause = 1\n"));
++				if(pCoexDm->curPsTdma == 1)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++					pCoexDm->psTdmaDuAdjType = 7;
++				}
++				else if(pCoexDm->curPsTdma == 2)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++					pCoexDm->psTdmaDuAdjType = 7;
++				}
++				else if(pCoexDm->curPsTdma == 3)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++					pCoexDm->psTdmaDuAdjType = 7;
++				}
++				else if(pCoexDm->curPsTdma == 4)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);
++					pCoexDm->psTdmaDuAdjType = 8;
++				}
++				if(pCoexDm->curPsTdma == 9)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++					pCoexDm->psTdmaDuAdjType = 15;
++				}
++				else if(pCoexDm->curPsTdma == 10)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++					pCoexDm->psTdmaDuAdjType = 15;
++				}
++				else if(pCoexDm->curPsTdma == 11)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++					pCoexDm->psTdmaDuAdjType = 15;
++				}
++				else if(pCoexDm->curPsTdma == 12)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 16);
++					pCoexDm->psTdmaDuAdjType = 16;
++				}
++				if(result == -1)
++				{
++					if(pCoexDm->curPsTdma == 5) 
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++					else if(pCoexDm->curPsTdma == 6)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++					else if(pCoexDm->curPsTdma == 7)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);
++						pCoexDm->psTdmaDuAdjType = 8;
++					}
++					else if(pCoexDm->curPsTdma == 13)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++					else if(pCoexDm->curPsTdma == 14)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++					else if(pCoexDm->curPsTdma == 15)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 16);
++						pCoexDm->psTdmaDuAdjType = 16;
++					}
++				} 
++				else if (result == 1)
++				{
++					if(pCoexDm->curPsTdma == 8)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++					else if(pCoexDm->curPsTdma == 7)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++					else if(pCoexDm->curPsTdma == 6)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}					
++					else if(pCoexDm->curPsTdma == 16)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++					else if(pCoexDm->curPsTdma == 15)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++					else if(pCoexDm->curPsTdma == 14)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++				}
++			}
++			else
++			{
++				RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], TxPause = 0\n"));
++				if(pCoexDm->curPsTdma == 5)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++					pCoexDm->psTdmaDuAdjType = 3;
++				}
++				else if(pCoexDm->curPsTdma == 6)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++					pCoexDm->psTdmaDuAdjType = 3;
++				}
++				else if(pCoexDm->curPsTdma == 7)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++					pCoexDm->psTdmaDuAdjType = 3;
++				}
++				else if(pCoexDm->curPsTdma == 8)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 4);
++					pCoexDm->psTdmaDuAdjType = 4;
++				}
++				if(pCoexDm->curPsTdma == 13)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++					pCoexDm->psTdmaDuAdjType = 11;
++				}
++				else if(pCoexDm->curPsTdma == 14)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++					pCoexDm->psTdmaDuAdjType = 11;
++				}
++				else if(pCoexDm->curPsTdma == 15)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++					pCoexDm->psTdmaDuAdjType = 11;
++				}
++				else if(pCoexDm->curPsTdma == 16)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 12);
++					pCoexDm->psTdmaDuAdjType = 12;
++				}
++				if(result == -1)
++				{
++					if(pCoexDm->curPsTdma == 1)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else if(pCoexDm->curPsTdma == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else if(pCoexDm->curPsTdma == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 4);
++						pCoexDm->psTdmaDuAdjType = 4;
++					}
++					else if(pCoexDm->curPsTdma == 9)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++					else if(pCoexDm->curPsTdma == 10)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++					else if(pCoexDm->curPsTdma == 11)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 12);
++						pCoexDm->psTdmaDuAdjType = 12;
++					}
++				} 
++				else if (result == 1)
++				{
++					if(pCoexDm->curPsTdma == 4)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else if(pCoexDm->curPsTdma == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else if(pCoexDm->curPsTdma == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else if(pCoexDm->curPsTdma == 12)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++					else if(pCoexDm->curPsTdma == 11)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++					else if(pCoexDm->curPsTdma == 10)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++				}
++			}
++		}
++	}
++
++	// if current PsTdma not match with the recorded one (when scan, dhcp...), 
++	// then we have to adjust it back to the previous record one.
++	if(pCoexDm->curPsTdma != pCoexDm->psTdmaDuAdjType)
++	{
++		BOOLEAN	bScan=FALSE, bLink=FALSE, bRoam=FALSE;
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PsTdma type dismatch!!!, curPsTdma=%d, recordPsTdma=%d\n", 
++			pCoexDm->curPsTdma, pCoexDm->psTdmaDuAdjType));
++
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_SCAN, &bScan);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_LINK, &bLink);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_ROAM, &bRoam);
++		
++		if( !bScan && !bLink && !bRoam)
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, pCoexDm->psTdmaDuAdjType);
++		}
++		else
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], roaming/link/scan is under progress, will adjust next time!!!\n"));
++		}
++	}
++}
++
++// SCO only or SCO+PAN(HS)
++VOID
++halbtc8723a2ant_ActionSco(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte	wifiRssiState, wifiRssiState1;
++	u4Byte	wifiBw;
++
++	if(halbtc8723a2ant_NeedToDecBtPwr(pBtCoexist))
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++	else	
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++	
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++		}
++		else
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++		}
++
++		// sw mechanism		
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++	}
++	else
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 27, 0);
++		wifiRssiState1 = halbtc8723a2ant_WifiRssiState(pBtCoexist, 1, 2, 47, 0);
++		
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++		}
++		else
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++		}
++		
++		// sw mechanism
++		if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++		else
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}		
++	}
++}
++
++
++VOID
++halbtc8723a2ant_ActionHid(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte	wifiRssiState, wifiRssiState1;
++	u4Byte	wifiBw;
++
++	if(halbtc8723a2ant_NeedToDecBtPwr(pBtCoexist))
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++	else	
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 9);
++		}
++		else
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 13);
++		}
++
++		// sw mechanism
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++	}
++	else
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 27, 0);
++		wifiRssiState1 = halbtc8723a2ant_WifiRssiState(pBtCoexist, 1, 2, 47, 0);
++
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 9);
++		}
++		else
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 13);
++		}
++
++		// sw mechanism
++		if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++		else
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}		
++	}
++}
++
++//A2DP only / PAN(EDR) only/ A2DP+PAN(HS)
++VOID
++halbtc8723a2ant_ActionA2dp(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState, wifiRssiState1, btInfoExt;
++	u4Byte		wifiBw;
++
++	btInfoExt = pCoexSta->btInfoExt;
++
++	if(halbtc8723a2ant_NeedToDecBtPwr(pBtCoexist))
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++	else	
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++	
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			if(btInfoExt&BIT0)	//a2dp rate, 1:basic /0:edr
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, FALSE, FALSE, 3);
++			}
++			else
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, FALSE, FALSE, 1);
++			}
++		}
++		else
++		{
++			if(btInfoExt&BIT0)	//a2dp rate, 1:basic /0:edr
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, FALSE, TRUE, 3);
++			}
++			else
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, FALSE, TRUE, 1);
++			}
++		}
++
++		// sw mechanism		
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++	}
++	else
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 27, 0);
++		wifiRssiState1 = halbtc8723a2ant_WifiRssiState(pBtCoexist, 1, 2, 47, 0);
++		
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			if(btInfoExt&BIT0)	//a2dp rate, 1:basic /0:edr
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, FALSE, FALSE, 3);
++			}
++			else
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, FALSE, FALSE, 1);
++			}
++		}
++		else
++		{
++			if(btInfoExt&BIT0)	//a2dp rate, 1:basic /0:edr
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, FALSE, TRUE, 3);
++			}
++			else
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, FALSE, TRUE, 1);
++			}
++		}
++		
++		// sw mechanism
++		if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++		else
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}		
++	}
++}
++
++VOID
++halbtc8723a2ant_ActionPanEdr(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState, wifiRssiState1, btInfoExt;
++	u4Byte		wifiBw;
++	
++	btInfoExt = pCoexSta->btInfoExt;
++
++	if(halbtc8723a2ant_NeedToDecBtPwr(pBtCoexist))
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++	else	
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++			
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++		}
++		else
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++		}
++
++		// sw mechanism
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++	}
++	else
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 27, 0);
++		wifiRssiState1 = halbtc8723a2ant_WifiRssiState(pBtCoexist, 1, 2, 47, 0);
++		
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++		}
++		else
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++		}
++
++		// sw mechanism
++		if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++		else
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++	}
++}
++
++
++//PAN(HS) only
++VOID
++halbtc8723a2ant_ActionPanHs(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState;
++	u4Byte		wifiBw;
++
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++		}
++		else
++		{
++			halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++		}
++		halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++
++		// sw mechanism		
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++	}
++	else
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++		}
++		else
++		{
++			halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++		}
++
++		// sw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++		else
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++	}
++}
++
++//PAN(EDR)+A2DP
++VOID
++halbtc8723a2ant_ActionPanEdrA2dp(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState, wifiRssiState1, btInfoExt;
++	u4Byte		wifiBw;
++
++	btInfoExt = pCoexSta->btInfoExt;
++
++	if(halbtc8723a2ant_NeedToDecBtPwr(pBtCoexist))
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++	else	
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 4);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++			}
++		}
++		else
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++			}
++		}
++
++		// sw mechanism
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++	}
++	else
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 27, 0);
++		wifiRssiState1 = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 47, 0);
++		
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 4);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++			}
++		}
++		else
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++			}
++		}
++
++		// sw mechanism
++		if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++		else
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++	}
++}
++
++VOID
++halbtc8723a2ant_ActionPanEdrHid(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState, wifiRssiState1;
++	u4Byte		wifiBw;
++
++	if(halbtc8723a2ant_NeedToDecBtPwr(pBtCoexist))
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++	else	
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10); 
++		}
++		else
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14); 
++		}
++
++		// sw mechanism
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++	}
++	else
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 27, 0);
++		wifiRssiState1 = halbtc8723a2ant_WifiRssiState(pBtCoexist, 1, 2, 47, 0);
++		
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++		}
++		else
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++		}
++		
++		// sw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++		else
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++	}
++}
++
++// HID+A2DP+PAN(EDR)
++VOID
++halbtc8723a2ant_ActionHidA2dpPanEdr(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState, wifiRssiState1, btInfoExt;
++	u4Byte		wifiBw;
++
++	btInfoExt = pCoexSta->btInfoExt;
++
++	if(halbtc8723a2ant_NeedToDecBtPwr(pBtCoexist))
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++	else	
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++			
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 12);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++			}
++		}
++		else
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 16);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++			}
++		}
++		
++		// sw mechanism
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++	}
++	else
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 27, 0);
++		wifiRssiState1 = halbtc8723a2ant_WifiRssiState(pBtCoexist, 1, 2, 47, 0);
++		
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 12);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++			}
++		}
++		else
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 16);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++			}
++		}
++
++		// sw mechanism
++		if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++		else
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++	}
++}
++
++VOID
++halbtc8723a2ant_ActionHidA2dp(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState, wifiRssiState1, btInfoExt;
++	u4Byte		wifiBw;
++
++	btInfoExt = pCoexSta->btInfoExt;
++
++	if(halbtc8723a2ant_NeedToDecBtPwr(pBtCoexist))
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++	else	
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++		
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, TRUE, FALSE, 3);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, TRUE, FALSE, 1);
++			}
++		}
++		else
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, TRUE, TRUE, 3);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, TRUE, TRUE, 1);
++			}
++		}
++		
++		// sw mechanism
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++	}
++	else
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 27, 0);
++		wifiRssiState1 = halbtc8723a2ant_WifiRssiState(pBtCoexist, 1, 2, 47, 0);
++		
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, TRUE, FALSE, 3);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, TRUE, FALSE, 1);
++			}
++		}
++		else
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, TRUE, TRUE, 3);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, TRUE, TRUE, 1);
++			}
++		}
++
++		// sw mechanism
++		if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++		else
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++	}
++}
++
++VOID
++halbtc8723a2ant_RunCoexistMechanism(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	PBTC_STACK_INFO		pStackInfo=&pBtCoexist->stackInfo;
++	u1Byte				btInfoOriginal=0, btRetryCnt=0;
++	u1Byte				algorithm=0;
++
++	if(pBtCoexist->bManualControl)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Manual control!!!\n"));
++		return;
++	}
++
++	if(pStackInfo->bProfileNotified)
++	{
++		if(pCoexSta->bHoldForStackOperation)
++		{
++			// if bt inquiry/page/pair, do not execute.
++			return;
++		}
++		
++		algorithm = halbtc8723a2ant_ActionAlgorithm(pBtCoexist);
++		if(pCoexSta->bHoldPeriodCnt && (BT_8723A_2ANT_COEX_ALGO_PANHS!=algorithm))
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex],Hold BT inquiry/page scan setting (cnt = %d)!!\n", 
++				pCoexSta->bHoldPeriodCnt));
++			if(pCoexSta->bHoldPeriodCnt >= 6)
++			{
++				pCoexSta->bHoldPeriodCnt = 0;
++				// next time the coexist parameters should be reset again.
++			}
++			else
++				pCoexSta->bHoldPeriodCnt++;
++			return;
++		}
++
++		pCoexDm->curAlgorithm = algorithm;
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Algorithm = %d \n", pCoexDm->curAlgorithm));
++		if(halbtc8723a2ant_IsCommonAction(pBtCoexist))
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant common.\n"));
++			pCoexDm->bResetTdmaAdjust = TRUE;
++		}
++		else
++		{
++			if(pCoexDm->curAlgorithm != pCoexDm->preAlgorithm)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], preAlgorithm=%d, curAlgorithm=%d\n", 
++					pCoexDm->preAlgorithm, pCoexDm->curAlgorithm));
++				pCoexDm->bResetTdmaAdjust = TRUE;
++			}
++			switch(pCoexDm->curAlgorithm)
++			{
++				case BT_8723A_2ANT_COEX_ALGO_SCO:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = SCO.\n"));
++					halbtc8723a2ant_ActionSco(pBtCoexist);
++					break;
++				case BT_8723A_2ANT_COEX_ALGO_HID:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = HID.\n"));
++					halbtc8723a2ant_ActionHid(pBtCoexist);
++					break;
++				case BT_8723A_2ANT_COEX_ALGO_A2DP:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = A2DP.\n"));
++					halbtc8723a2ant_ActionA2dp(pBtCoexist);
++					break;
++				case BT_8723A_2ANT_COEX_ALGO_PANEDR:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = PAN(EDR).\n"));
++					halbtc8723a2ant_ActionPanEdr(pBtCoexist);
++					break;
++				case BT_8723A_2ANT_COEX_ALGO_PANHS:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = HS mode.\n"));
++					halbtc8723a2ant_ActionPanHs(pBtCoexist);
++					break;
++				case BT_8723A_2ANT_COEX_ALGO_PANEDR_A2DP:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = PAN+A2DP.\n"));
++					halbtc8723a2ant_ActionPanEdrA2dp(pBtCoexist);
++					break;
++				case BT_8723A_2ANT_COEX_ALGO_PANEDR_HID:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = PAN(EDR)+HID.\n"));
++					halbtc8723a2ant_ActionPanEdrHid(pBtCoexist);
++					break;
++				case BT_8723A_2ANT_COEX_ALGO_HID_A2DP_PANEDR:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = HID+A2DP+PAN.\n"));
++					halbtc8723a2ant_ActionHidA2dpPanEdr(pBtCoexist);
++					break;
++				case BT_8723A_2ANT_COEX_ALGO_HID_A2DP:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = HID+A2DP.\n"));
++					halbtc8723a2ant_ActionHidA2dp(pBtCoexist);
++					break;
++				default:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = coexist All Off!!\n"));
++					halbtc8723a2ant_CoexAllOff(pBtCoexist);
++					break;
++			}
++			pCoexDm->preAlgorithm = pCoexDm->curAlgorithm;
++		}
++	}
++}
++
++//============================================================
++// work around function start with wa_halbtc8723a2ant_
++//============================================================
++VOID
++wa_halbtc8723a2ant_MonitorC2h(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	u1Byte	tmp1b=0x0;
++	u4Byte	curC2hTotalCnt=0x0;
++	static u4Byte	preC2hTotalCnt=0x0, sameCntPollingTime=0x0;
++
++	curC2hTotalCnt+=pCoexSta->btInfoC2hCnt[BT_INFO_SRC_8723A_2ANT_BT_RSP];
++
++	if(curC2hTotalCnt == preC2hTotalCnt)
++	{
++		sameCntPollingTime++;
++	}
++	else
++	{
++		preC2hTotalCnt = curC2hTotalCnt;
++		sameCntPollingTime = 0;
++	}
++
++	if(sameCntPollingTime >= 2)
++	{
++		tmp1b = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x1af);
++		if(tmp1b != 0x0)
++		{
++			pCoexSta->c2hHangDetectCnt++;
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x1af, 0x0);
++		}
++	}
++}
++
++//============================================================
++// extern function start with EXhalbtc8723a2ant_
++//============================================================
++VOID
++EXhalbtc8723a2ant_PowerOnSetting(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++}
++
++VOID
++EXhalbtc8723a2ant_InitHwConfig(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN				bWifiOnly
++	)
++{
++	u4Byte	u4Tmp=0;
++	u1Byte	u1Tmp=0;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 2Ant Init HW Config!!\n"));
++
++	// backup rf 0x1e value
++	pCoexDm->btRf0x1eBackup = 
++		pBtCoexist->fBtcGetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xfffff);
++
++	// Enable counter statistics
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x76e, 0x4);
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x778, 0x3);
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x20);
++}
++
++VOID
++EXhalbtc8723a2ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Coex Mechanism Init!!\n"));
++	
++	halbtc8723a2ant_InitCoexDm(pBtCoexist);
++}
++
++VOID
++EXhalbtc8723a2ant_DisplayCoexInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	PBTC_BOARD_INFO		pBoardInfo=&pBtCoexist->boardInfo;
++	PBTC_STACK_INFO		pStackInfo=&pBtCoexist->stackInfo;
++	pu1Byte				cliBuf=pBtCoexist->cliBuf;
++	u1Byte				u1Tmp[4], i, btInfoExt, psTdmaCase=0;
++	u4Byte				u4Tmp[4];
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ", "Ant PG number/ Ant mechanism:", \
++		pBoardInfo->pgAntNum, pBoardInfo->btdmAntNum);
++	CL_PRINTF(cliBuf);	
++	
++	if(pBtCoexist->bManualControl)
++	{
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "[Action Manual control]!!");
++		CL_PRINTF(cliBuf);
++	}
++	
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %d", "BT stack/ hci ext ver", \
++		((pStackInfo->bProfileNotified)? "Yes":"No"), pStackInfo->hciVersion);
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ", "Wifi channel informed to BT", \
++		pCoexDm->wifiChnlInfo[0], pCoexDm->wifiChnlInfo[1],
++		pCoexDm->wifiChnlInfo[2]);
++	CL_PRINTF(cliBuf);
++	
++	// wifi status
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Wifi Status]============");
++	CL_PRINTF(cliBuf);
++	pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[BT Status]============");
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d] ", "BT [status/ rssi/ retryCnt]", \
++		((pCoexSta->bC2hBtInquiryPage)?("inquiry/page scan"):((BT_8723A_2ANT_BT_STATUS_IDLE == pCoexDm->btStatus)? "idle":(  (BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE == pCoexDm->btStatus)? "connected-idle":"busy"))),
++		pCoexSta->btRssi, pCoexSta->btRetryCnt);
++	CL_PRINTF(cliBuf);
++	
++	if(pStackInfo->bProfileNotified)
++	{			
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d", "SCO/HID/PAN/A2DP", \
++			pStackInfo->bScoExist, pStackInfo->bHidExist, pStackInfo->bPanExist, pStackInfo->bA2dpExist);
++		CL_PRINTF(cliBuf);	
++
++		pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_BT_LINK_INFO);
++	}
++
++	btInfoExt = pCoexSta->btInfoExt;
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "BT Info A2DP rate", \
++		(btInfoExt&BIT0)? "Basic rate":"EDR rate");
++	CL_PRINTF(cliBuf);	
++
++	for(i=0; i<BT_INFO_SRC_8723A_2ANT_MAX; i++)
++	{
++		if(pCoexSta->btInfoC2hCnt[i])
++		{				
++			CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)", GLBtInfoSrc8723a2Ant[i], \
++				pCoexSta->btInfoC2h[i][0], pCoexSta->btInfoC2h[i][1],
++				pCoexSta->btInfoC2h[i][2], pCoexSta->btInfoC2h[i][3],
++				pCoexSta->btInfoC2h[i][4], pCoexSta->btInfoC2h[i][5],
++				pCoexSta->btInfoC2h[i][6], pCoexSta->btInfoC2hCnt[i]);
++			CL_PRINTF(cliBuf);
++		}
++	}
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "write 0x1af=0x0 num", \
++		pCoexSta->c2hHangDetectCnt);
++	CL_PRINTF(cliBuf);
++	
++	// Sw mechanism	
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Sw mechanism]============");
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d", "SM1[ShRf/ LpRA/ LimDig]", \
++		pCoexDm->bCurRfRxLpfShrink, pCoexDm->bCurLowPenaltyRa, pCoexDm->bLimitedDig);
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d(0x%x) ", "SM2[AgcT/ AdcB/ SwDacSwing(lvl)]", \
++		pCoexDm->bCurAgcTableEn, pCoexDm->bCurAdcBackOff, pCoexDm->bCurDacSwingOn, pCoexDm->curDacSwingLvl);
++	CL_PRINTF(cliBuf);
++
++	// Fw mechanism		
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Fw mechanism]============");
++	CL_PRINTF(cliBuf);	
++	
++	if(!pBtCoexist->bManualControl)
++	{
++		psTdmaCase = pCoexDm->curPsTdma;
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x %02x %02x case-%d", "PS TDMA", \
++			pCoexDm->psTdmaPara[0], pCoexDm->psTdmaPara[1],
++			pCoexDm->psTdmaPara[2], pCoexDm->psTdmaPara[3],
++			pCoexDm->psTdmaPara[4], psTdmaCase);
++		CL_PRINTF(cliBuf);
++	
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ", "DecBtPwr/ IgnWlanAct", \
++			pCoexDm->bCurDecBtPwr, pCoexDm->bCurIgnoreWlanAct);
++		CL_PRINTF(cliBuf);
++	}
++
++	// Hw setting		
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Hw setting]============");
++	CL_PRINTF(cliBuf);	
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "RF-A, 0x1e initVal", \
++		pCoexDm->btRf0x1eBackup);
++	CL_PRINTF(cliBuf);
++
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x778);
++	u1Tmp[1] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x783);
++	u1Tmp[2] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x796);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x", "0x778/ 0x783/ 0x796", \
++		u1Tmp[0], u1Tmp[1], u1Tmp[2]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x880);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x880", \
++		u4Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x40);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x40", \
++		u1Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x550);
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x522);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x", "0x550(bcn ctrl)/0x522", \
++		u4Tmp[0], u1Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x484);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x484(rate adaptive)", \
++		u4Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xc50);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0xc50(dig)", \
++		u4Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xda0);
++	u4Tmp[1] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xda4);
++	u4Tmp[2] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xda8);
++	u4Tmp[3] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xdac);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x", "0xda0/0xda4/0xda8/0xdac(FA cnt)", \
++		u4Tmp[0], u4Tmp[1], u4Tmp[2], u4Tmp[3]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c0);
++	u4Tmp[1] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c4);
++	u4Tmp[2] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c8);
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x6cc);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x", "0x6c0/0x6c4/0x6c8/0x6cc(coexTable)", \
++		u4Tmp[0], u4Tmp[1], u4Tmp[2], u1Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d", "0x770 (hp rx[31:16]/tx[15:0])", \
++		pCoexSta->highPriorityRx, pCoexSta->highPriorityTx);
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d", "0x774(lp rx[31:16]/tx[15:0])", \
++		pCoexSta->lowPriorityRx, pCoexSta->lowPriorityTx);
++	CL_PRINTF(cliBuf);
++
++	pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++VOID
++EXhalbtc8723a2ant_IpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_IPS_ENTER == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], IPS ENTER notify\n"));
++		halbtc8723a2ant_CoexAllOff(pBtCoexist);
++	}
++	else if(BTC_IPS_LEAVE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], IPS LEAVE notify\n"));
++		//halbtc8723a2ant_InitCoexDm(pBtCoexist);
++	}
++}
++
++VOID
++EXhalbtc8723a2ant_LpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_LPS_ENABLE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], LPS ENABLE notify\n"));
++	}
++	else if(BTC_LPS_DISABLE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], LPS DISABLE notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8723a2ant_ScanNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_SCAN_START == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCAN START notify\n"));
++	}
++	else if(BTC_SCAN_FINISH == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCAN FINISH notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8723a2ant_ConnectNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_ASSOCIATE_START == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], CONNECT START notify\n"));
++	}
++	else if(BTC_ASSOCIATE_FINISH == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], CONNECT FINISH notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8723a2ant_MediaStatusNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{
++	if(BTC_MEDIA_CONNECT == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], MEDIA connect notify\n"));
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], MEDIA disconnect notify\n"));
++	}
++
++	halbtc8723a2ant_IndicateWifiChnlBwInfo(pBtCoexist, type);
++}
++
++VOID
++EXhalbtc8723a2ant_SpecialPacketNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{
++	if(type == BTC_PACKET_DHCP)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], DHCP Packet notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8723a2ant_BtInfoNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	pu1Byte			tmpBuf,
++	IN	u1Byte			length
++	)
++{
++	u1Byte			btInfo=0;
++	u1Byte			i, rspSource=0;
++	BOOLEAN			bBtBusy=FALSE, bLimitedDig=FALSE;
++	BOOLEAN			bWifiConnected=FALSE, bBtHsOn=FALSE;
++
++	pCoexSta->bC2hBtInfoReqSent = FALSE;
++	
++	rspSource = BT_INFO_SRC_8723A_2ANT_BT_RSP;
++	pCoexSta->btInfoC2hCnt[rspSource]++;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Bt info[%d], length=%d, hex data=[", rspSource, length));
++	for(i=0; i<length; i++)
++	{
++		pCoexSta->btInfoC2h[rspSource][i] = tmpBuf[i];
++		if(i == 0)
++			btInfo = tmpBuf[i];
++		if(i == length-1)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("0x%02x]\n", tmpBuf[i]));
++		}
++		else
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("0x%02x, ", tmpBuf[i]));
++		}
++	}
++
++	if(BT_INFO_SRC_8723A_2ANT_WIFI_FW != rspSource)
++	{
++		pCoexSta->btRetryCnt =
++			pCoexSta->btInfoC2h[rspSource][1];
++
++		pCoexSta->btRssi =
++			pCoexSta->btInfoC2h[rspSource][2]*2+10;
++
++		pCoexSta->btInfoExt = 
++			pCoexSta->btInfoC2h[rspSource][3];
++	}
++		
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++	// check BIT2 first ==> check if bt is under inquiry or page scan
++	if(btInfo & BT_INFO_8723A_2ANT_B_INQ_PAGE)
++	{
++		pCoexSta->bC2hBtInquiryPage = TRUE;
++	}
++	else
++	{
++		pCoexSta->bC2hBtInquiryPage = FALSE;
++	}
++}
++
++VOID
++EXhalbtc8723a2ant_StackOperationNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{
++	if(BTC_STACK_OP_INQ_PAGE_PAIR_START == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], StackOP Inquiry/page/pair start notify\n"));
++		pCoexSta->bHoldForStackOperation = TRUE;
++		pCoexSta->bHoldPeriodCnt = 1;
++		halbtc8723a2ant_BtInquiryPage(pBtCoexist);
++	}
++	else if(BTC_STACK_OP_INQ_PAGE_PAIR_FINISH == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], StackOP Inquiry/page/pair finish notify\n"));
++		pCoexSta->bHoldForStackOperation = FALSE;
++	}
++}
++
++VOID
++EXhalbtc8723a2ant_HaltNotify(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Halt notify\n"));
++
++	halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, FORCE_EXEC, TRUE);
++	EXhalbtc8723a2ant_MediaStatusNotify(pBtCoexist, BTC_MEDIA_DISCONNECT);
++}
++
++VOID
++EXhalbtc8723a2ant_Periodical(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 2Ant Periodical!!\n"));
++
++	// work around for c2h hang
++	wa_halbtc8723a2ant_MonitorC2h(pBtCoexist);
++	
++	halbtc8723a2ant_QueryBtInfo(pBtCoexist);
++	halbtc8723a2ant_MonitorBtCtr(pBtCoexist);
++	halbtc8723a2ant_MonitorBtEnableDisable(pBtCoexist);
++
++	halbtc8723a2ant_RunCoexistMechanism(pBtCoexist);
++}
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723a2Ant.h b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723a2Ant.h
+new file mode 100644
+index 0000000..f0cc8b5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723a2Ant.h
+@@ -0,0 +1,184 @@
++//===========================================
++// The following is for 8723A 2Ant BT Co-exist definition
++//===========================================
++#define	BT_INFO_8723A_2ANT_B_FTP						BIT7
++#define	BT_INFO_8723A_2ANT_B_A2DP					BIT6
++#define	BT_INFO_8723A_2ANT_B_HID						BIT5
++#define	BT_INFO_8723A_2ANT_B_SCO_BUSY				BIT4
++#define	BT_INFO_8723A_2ANT_B_ACL_BUSY				BIT3
++#define	BT_INFO_8723A_2ANT_B_INQ_PAGE				BIT2
++#define	BT_INFO_8723A_2ANT_B_SCO_ESCO				BIT1
++#define	BT_INFO_8723A_2ANT_B_CONNECTION				BIT0
++
++#define		BTC_RSSI_COEX_THRESH_TOL_8723A_2ANT		2
++
++typedef enum _BT_INFO_SRC_8723A_2ANT{
++	BT_INFO_SRC_8723A_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8723A_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8723A_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8723A_2ANT_MAX
++}BT_INFO_SRC_8723A_2ANT,*PBT_INFO_SRC_8723A_2ANT;
++
++typedef enum _BT_8723A_2ANT_BT_STATUS{
++	BT_8723A_2ANT_BT_STATUS_IDLE				= 0x0,
++	BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE	= 0x1,
++	BT_8723A_2ANT_BT_STATUS_NON_IDLE			= 0x2,
++	BT_8723A_2ANT_BT_STATUS_MAX
++}BT_8723A_2ANT_BT_STATUS,*PBT_8723A_2ANT_BT_STATUS;
++
++typedef enum _BT_8723A_2ANT_COEX_ALGO{
++	BT_8723A_2ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8723A_2ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8723A_2ANT_COEX_ALGO_HID				= 0x2,
++	BT_8723A_2ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8723A_2ANT_COEX_ALGO_PANEDR			= 0x4,
++	BT_8723A_2ANT_COEX_ALGO_PANHS			= 0x5,
++	BT_8723A_2ANT_COEX_ALGO_PANEDR_A2DP		= 0x6,
++	BT_8723A_2ANT_COEX_ALGO_PANEDR_HID		= 0x7,
++	BT_8723A_2ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x8,
++	BT_8723A_2ANT_COEX_ALGO_HID_A2DP			= 0x9,
++	BT_8723A_2ANT_COEX_ALGO_MAX
++}BT_8723A_2ANT_COEX_ALGO,*PBT_8723A_2ANT_COEX_ALGO;
++
++typedef struct _COEX_DM_8723A_2ANT{
++	// fw mechanism
++	BOOLEAN		bPreDecBtPwr;
++	BOOLEAN		bCurDecBtPwr;
++	//BOOLEAN		bPreBtLnaConstrain;
++	//BOOLEAN		bCurBtLnaConstrain;
++	//u1Byte		bPreBtPsdMode;
++	//u1Byte		bCurBtPsdMode;
++	u1Byte		preFwDacSwingLvl;
++	u1Byte		curFwDacSwingLvl;
++	BOOLEAN		bCurIgnoreWlanAct;
++	BOOLEAN		bPreIgnoreWlanAct;
++	u1Byte		prePsTdma;
++	u1Byte		curPsTdma;
++	u1Byte		psTdmaPara[5];
++	u1Byte		psTdmaDuAdjType;
++	BOOLEAN		bResetTdmaAdjust;
++	BOOLEAN		bPrePsTdmaOn;
++	BOOLEAN		bCurPsTdmaOn;
++	//BOOLEAN		bPreBtAutoReport;
++	//BOOLEAN		bCurBtAutoReport;
++
++	// sw mechanism
++	BOOLEAN		bPreRfRxLpfShrink;
++	BOOLEAN		bCurRfRxLpfShrink;
++	u4Byte		btRf0x1eBackup;
++	BOOLEAN 	bPreLowPenaltyRa;
++	BOOLEAN		bCurLowPenaltyRa;
++	BOOLEAN		bPreDacSwingOn;
++	u4Byte		preDacSwingLvl;
++	BOOLEAN		bCurDacSwingOn;
++	u4Byte		curDacSwingLvl;
++	BOOLEAN		bPreAdcBackOff;
++	BOOLEAN		bCurAdcBackOff;
++	BOOLEAN 	bPreAgcTableEn;
++	BOOLEAN		bCurAgcTableEn;
++	u4Byte		preVal0x6c0;
++	u4Byte		curVal0x6c0;
++	u4Byte		preVal0x6c8;
++	u4Byte		curVal0x6c8;
++	u1Byte		preVal0x6cc;
++	u1Byte		curVal0x6cc;
++	BOOLEAN		bLimitedDig;
++
++	// algorithm related
++	u1Byte		preAlgorithm;
++	u1Byte		curAlgorithm;
++	u1Byte		btStatus;
++	u1Byte		wifiChnlInfo[3];
++} COEX_DM_8723A_2ANT, *PCOEX_DM_8723A_2ANT;
++
++typedef struct _COEX_STA_8723A_2ANT{
++	u4Byte					highPriorityTx;
++	u4Byte					highPriorityRx;
++	u4Byte					lowPriorityTx;
++	u4Byte					lowPriorityRx;
++	u1Byte					btRssi;
++	u1Byte					preBtRssiState;
++	u1Byte					preBtRssiState1;
++	u1Byte					preWifiRssiState[4];
++	BOOLEAN					bC2hBtInfoReqSent;
++	u1Byte					btInfoC2h[BT_INFO_SRC_8723A_2ANT_MAX][10];
++	u4Byte					btInfoC2hCnt[BT_INFO_SRC_8723A_2ANT_MAX];
++	BOOLEAN					bC2hBtInquiryPage;
++	u1Byte					btRetryCnt;
++	u1Byte					btInfoExt;
++	BOOLEAN					bHoldForStackOperation;
++	u1Byte					bHoldPeriodCnt;
++	// this is for c2h hang work-around
++	u4Byte					c2hHangDetectCnt;
++}COEX_STA_8723A_2ANT, *PCOEX_STA_8723A_2ANT;
++
++//===========================================
++// The following is interface which will notify coex module.
++//===========================================
++VOID
++EXhalbtc8723a2ant_PowerOnSetting(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtc8723a2ant_InitHwConfig(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN				bWifiOnly
++	);
++VOID
++EXhalbtc8723a2ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtc8723a2ant_IpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8723a2ant_LpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8723a2ant_ScanNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8723a2ant_ConnectNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8723a2ant_MediaStatusNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	);
++VOID
++EXhalbtc8723a2ant_SpecialPacketNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	);
++VOID
++EXhalbtc8723a2ant_HaltNotify(
++	IN	PBTC_COEXIST			pBtCoexist
++	);
++VOID
++EXhalbtc8723a2ant_Periodical(
++	IN	PBTC_COEXIST			pBtCoexist
++	);
++VOID
++EXhalbtc8723a2ant_BtInfoNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	pu1Byte			tmpBuf,
++	IN	u1Byte			length
++	);
++VOID
++EXhalbtc8723a2ant_StackOperationNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	);
++VOID
++EXhalbtc8723a2ant_DisplayCoexInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723b1Ant.c b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723b1Ant.c
+new file mode 100644
+index 0000000..565b3bb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723b1Ant.c
+@@ -0,0 +1,4845 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8723B Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8723B_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8723b_1ant		glcoex_dm_8723b_1ant;
++static struct  coex_dm_8723b_1ant	*coex_dm = &glcoex_dm_8723b_1ant;
++static struct  coex_sta_8723b_1ant		glcoex_sta_8723b_1ant;
++static struct  coex_sta_8723b_1ant	*coex_sta = &glcoex_sta_8723b_1ant;
++static struct  psdscan_sta_8723b_1ant	gl_psd_scan_8723b_1ant;
++static struct  psdscan_sta_8723b_1ant *psd_scan = &gl_psd_scan_8723b_1ant;
++
++
++const char *const glbt_info_src_8723b_1ant[]={
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8723b_1ant = 20151015;
++u32	glcoex_ver_8723b_1ant = 0x63;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8723b1ant_
++ * ************************************************************ */
++
++void halbtc8723b1ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++	
++	if( force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8723b1ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8723b1ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++				break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++				break;
++			default:
++				break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8723b1ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8723b1ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	switch (ra_mask_type) {
++	case 0:	/* normal mode */
++		halbtc8723b1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0);
++		break;
++	case 1:	/* disable cck 1/2 */
++		halbtc8723b1ant_update_ra_mask(btcoexist, force_exec,
++					       0x00000003);
++		break;
++	case 2:	/* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		halbtc8723b1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0001f1f7);
++		break;
++	default:
++		break;
++	}
++
++	halbtc8723b1ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8723b1ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8723b1ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++void halbtc8723b1ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8723b1ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++void halbtc8723b1ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++	static u32		num_of_bt_counter_chk = 0;
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	if ((coex_sta->low_priority_tx > 1050)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++
++	/* This part is for wifi FW and driver to update BT's status as disabled. */
++	/* The flow is as the following */
++	/* 1. disable BT */
++	/* 2. if all BT Tx/Rx counter=0, after 6 sec we query bt info */
++	/* 3. Because BT will not rsp from mailbox, so wifi fw will know BT is disabled */
++	/* 4. FW will rsp c2h for BT that driver will know BT is disabled. */
++	if ((reg_hp_tx == 0) && (reg_hp_rx == 0) && (reg_lp_tx == 0) &&
++	    (reg_lp_rx == 0)) {
++		num_of_bt_counter_chk++;
++		if (num_of_bt_counter_chk == 3)
++			halbtc8723b1ant_query_bt_info(btcoexist);
++	} else
++		num_of_bt_counter_chk = 0;
++}
++
++
++void halbtc8723b1ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++	s32	wifi_rssi = 0;
++	boolean wifi_busy = false, wifi_under_b_mode = false;
++	static u8 cck_lock_counter = 0;
++	u32	total_cnt;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++			   &wifi_under_b_mode);
++
++	if (coex_sta->under_ips) {
++		coex_sta->crc_ok_cck = 0;
++		coex_sta->crc_ok_11g = 0;
++		coex_sta->crc_ok_11n = 0;
++		coex_sta->crc_ok_11n_agg = 0;
++
++		coex_sta->crc_err_cck = 0;
++		coex_sta->crc_err_11g = 0;
++		coex_sta->crc_err_11n = 0;
++		coex_sta->crc_err_11n_agg = 0;	
++	} else {
++		coex_sta->crc_ok_cck	= btcoexist->btc_read_4byte(btcoexist,
++					  0xf88);
++		coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf94);
++		coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf90);
++		coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					   0xfb8);
++
++		coex_sta->crc_err_cck	 = btcoexist->btc_read_4byte(btcoexist,
++					   0xf84);
++		coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf96);
++		coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf92);
++		coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					    0xfba);
++	}
++
++
++	/* reset counter */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x0);
++
++	if ((wifi_busy) && (wifi_rssi >= 30) && (!wifi_under_b_mode)) {
++		total_cnt = coex_sta->crc_ok_cck + coex_sta->crc_ok_11g +
++			    coex_sta->crc_ok_11n +
++				coex_sta->crc_ok_11n_agg;
++	
++		if ( (coex_dm->bt_status == BT_8723B_1ANT_BT_STATUS_ACL_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8723B_1ANT_BT_STATUS_ACL_SCO_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8723B_1ANT_BT_STATUS_SCO_BUSY)) {
++			if (coex_sta->crc_ok_cck > (total_cnt -
++coex_sta->crc_ok_cck)) 			{
++				if (cck_lock_counter < 3)
++					cck_lock_counter++;
++			} else {
++				if (cck_lock_counter > 0)
++					cck_lock_counter--;
++			}
++
++		} else {
++			if (cck_lock_counter > 0)
++				cck_lock_counter--;
++		}
++	} else {
++		if (cck_lock_counter > 0)
++			cck_lock_counter--;
++	}
++
++	if (!coex_sta->pre_ccklock) {
++
++		if (cck_lock_counter >= 3)
++			coex_sta->cck_lock = true;
++		else
++			coex_sta->cck_lock = false;
++	} else {
++		if (cck_lock_counter == 0)
++			coex_sta->cck_lock = false;
++		else
++			coex_sta->cck_lock = true;
++	}
++
++	if (coex_sta->cck_lock)
++		coex_sta->cck_ever_lock = true;
++
++	coex_sta->pre_ccklock =  coex_sta->cck_lock;
++
++
++}
++
++boolean halbtc8723b1ant_is_wifi_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false;
++	boolean wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++
++
++	}
++
++	return false;
++}
++
++void halbtc8723b1ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++	bt_link_info->bt_hi_pri_link_exist = coex_sta->bt_hi_pri_link_exist;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if( bt_link_info->sco_exist &&
++		!bt_link_info->a2dp_exist &&
++		!bt_link_info->pan_exist &&
++		!bt_link_info->hid_exist )
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if( !bt_link_info->sco_exist &&
++		bt_link_info->a2dp_exist &&
++		!bt_link_info->pan_exist &&
++		!bt_link_info->hid_exist )
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if( !bt_link_info->sco_exist &&
++		!bt_link_info->a2dp_exist &&
++		bt_link_info->pan_exist &&
++		!bt_link_info->hid_exist )
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++	
++	/* check if Hid only */
++	if( !bt_link_info->sco_exist &&
++		!bt_link_info->a2dp_exist &&
++		!bt_link_info->pan_exist &&
++		bt_link_info->hid_exist )
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++void halbtc8723b1ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8723b1ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8723b1ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8723b1ant_set_sw_penalty_tx_rate_adaptive(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8723b1ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8723b1ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8723b1ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8723b1ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8723b1ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8723b1ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++#if BT_8723B_1ANT_ANTDET_ENABLE
++#if BT_8723B_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE
++	if (board_info->btdm_ant_num_by_ant_det == 2) {
++		if (type == 3)
++			type = 14;
++		else if (type == 4)
++			type  = 13;
++		else if (type == 5)
++			type = 8;
++	}
++#endif
++#endif
++
++	coex_sta->coex_table_type = type;
++
++	switch (type) {
++	case 0:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x55555555, 0xffffff, 0x3);
++		break;
++	case 1:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 2:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x5a5a5a5a, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 3:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 4:
++		if ((coex_sta->cck_ever_lock)  &&
++		    (coex_sta->scan_ap_num <= 5))
++			halbtc8723b1ant_coex_table(btcoexist,
++					   force_exec, 0x55555555, 0xaaaa5a5a,
++						   0xffffff, 0x3);
++		else
++			halbtc8723b1ant_coex_table(btcoexist,
++					   force_exec, 0x55555555, 0x5a5a5a5a,
++						   0xffffff, 0x3);
++		break;
++	case 5:
++		if ((coex_sta->cck_ever_lock)  &&
++		    (coex_sta->scan_ap_num <= 5))
++			halbtc8723b1ant_coex_table(btcoexist,
++					   force_exec, 0x5a5a5a5a, 0x5aaa5a5a,
++						   0xffffff, 0x3);
++		else
++			halbtc8723b1ant_coex_table(btcoexist,
++					   force_exec, 0x5a5a5a5a, 0x5aaa5a5a,
++						   0xffffff, 0x3);
++		break;
++	case 6:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 7:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0xaaaaaaaa, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 8:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 9:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 10:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 11:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 12:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 13:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x5fff5fff, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 14:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x5fff5fff, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 15:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8723b1ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8723b1ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8723b1ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8723b1ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8723b1ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8723b1ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8723b1ant_sw_mechanism(IN struct btc_coexist *btcoexist,
++				  IN boolean low_penalty_ra)
++{
++	halbtc8723b1ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8723b1ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean force_exec, IN boolean init_hwcfg,
++				  IN boolean wifi_off)
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++	u32			fw_ver = 0, u32tmp = 0, cnt_bt_cal_chk = 0;
++	boolean			pg_ext_switch = false;
++	boolean			use_ext_switch = false;
++	boolean			is_in_mp_mode = false;
++	u8			h2c_parameter[2] = {0}, u8tmp = 0;
++
++	coex_dm->cur_ant_pos_type = ant_pos_type;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_EXT_SWITCH, &pg_ext_switch);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER,
++			   &fw_ver);	/* [31:16]=fw ver, [15:0]=fw sub ver */
++
++	if ((fw_ver > 0 && fw_ver < 0xc0000) || pg_ext_switch)
++		use_ext_switch = true;
++
++#if BT_8723B_1ANT_ANTDET_ENABLE
++#if BT_8723B_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE
++	if (ant_pos_type == BTC_ANT_PATH_PTA) {
++		if ((board_info->btdm_ant_det_finish) &&
++		    (board_info->btdm_ant_num_by_ant_det == 2)) {
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT)
++				ant_pos_type = BTC_ANT_PATH_WIFI;
++			else
++				ant_pos_type = BTC_ANT_PATH_BT;
++		}
++	}
++#endif
++#endif
++
++	if (init_hwcfg) {
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x780); /* WiFi TRx Mask on */
++		/* remove due to interrupt is disabled that polling c2h will fail and delay 100ms. */
++		/* btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x3c, 0x15); //BT TRx Mask on */
++
++		if (fw_ver >= 0x180000) {
++			/* Use H2C to set GNT_BT to HIGH */
++			h2c_parameter[0] = 1;
++			btcoexist->btc_fill_h2c(btcoexist, 0x6E, 1,
++						h2c_parameter);
++		} else {
++			/* set grant_bt to high */
++			btcoexist->btc_write_1byte(btcoexist, 0x765, 0x18);
++		}
++		/* set wlan_act control by PTA */
++		btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x20,
++			   0x0); /* BT select s0/s1 is controlled by BT */
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x39, 0x8, 0x1);
++		btcoexist->btc_write_1byte(btcoexist, 0x974, 0xff);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x944, 0x3, 0x3);
++		btcoexist->btc_write_1byte(btcoexist, 0x930, 0x77);
++	} else if (wifi_off) {
++		if (fw_ver >= 0x180000) {
++			/* Use H2C to set GNT_BT to HIGH */
++			h2c_parameter[0] = 1;
++			btcoexist->btc_fill_h2c(btcoexist, 0x6E, 1,
++						h2c_parameter);
++		} else {
++			/* set grant_bt to high */
++			btcoexist->btc_write_1byte(btcoexist, 0x765, 0x18);
++		}
++		/* set wlan_act to always low */
++		btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_IS_IN_MP_MODE,
++				   &is_in_mp_mode);
++		if (!is_in_mp_mode)
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67,
++				0x20, 0x0); /* BT select s0/s1 is controlled by BT */
++		else
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67,
++				0x20, 0x1); /* BT select s0/s1 is controlled by WiFi */
++
++		/* 0x4c[24:23]=00, Set Antenna control by BT_RFE_CTRL	BT Vendor 0xac=0xf002 */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp &= ~BIT(23);
++		u32tmp &= ~BIT(24);
++		btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++	} else {
++		/* Use H2C to set GNT_BT to LOW */
++		if (fw_ver >= 0x180000) {
++			if (btcoexist->btc_read_1byte(btcoexist, 0x765) != 0) {
++				h2c_parameter[0] = 0;
++				btcoexist->btc_fill_h2c(btcoexist, 0x6E, 1,
++							h2c_parameter);
++			}
++		} else {
++			/* BT calibration check */
++			while (cnt_bt_cal_chk <= 20) {
++				u8tmp = btcoexist->btc_read_1byte(btcoexist,
++								  0x49d);
++				cnt_bt_cal_chk++;
++				if (u8tmp & BIT(0)) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], ########### BT is calibrating (wait cnt=%d) ###########\n",
++						    cnt_bt_cal_chk);
++					BTC_TRACE(trace_buf);
++					delay_ms(50);
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], ********** BT is NOT calibrating (wait cnt=%d)**********\n",
++						    cnt_bt_cal_chk);
++					BTC_TRACE(trace_buf);
++					break;
++				}
++			}
++
++			/* set grant_bt to PTA */
++			btcoexist->btc_write_1byte(btcoexist, 0x765, 0x0);
++		}
++
++		if (btcoexist->btc_read_1byte(btcoexist, 0x76e) != 0xc) {
++			/* set wlan_act control by PTA */
++			btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++		}
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x20,
++			   0x1); /* BT select s0/s1 is controlled by WiFi */
++	}
++
++	if (use_ext_switch) {
++		if (init_hwcfg) {
++			/* 0x4c[23]=0, 0x4c[24]=1  Antenna control by WL/BT */
++			u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++			u32tmp &= ~BIT(23);
++			u32tmp |= BIT(24);
++			btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++
++			btcoexist->btc_write_4byte(btcoexist, 0x948,
++				0x0); /* fixed internal switch S1->WiFi, S0->BT */
++
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT) {
++				/* tell firmware "no antenna inverse" */
++				h2c_parameter[0] = 0;
++				h2c_parameter[1] = 1;  /* ext switch type */
++				btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++							h2c_parameter);
++			} else {
++				/* tell firmware "antenna inverse" */
++				h2c_parameter[0] = 1;
++				h2c_parameter[1] = 1;  /* ext switch type */
++				btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++							h2c_parameter);
++			}
++		}
++
++		if (force_exec ||
++		    (coex_dm->cur_ant_pos_type !=
++		     coex_dm->pre_ant_pos_type)) {
++			/* ext switch setting */
++			switch (ant_pos_type) {
++			case BTC_ANT_PATH_WIFI:
++				if (board_info->btdm_ant_pos ==
++				    BTC_ANTENNA_AT_MAIN_PORT)
++					btcoexist->btc_write_1byte_bitmask(
++						btcoexist, 0x92c, 0x3,
++						0x1);
++				else
++					btcoexist->btc_write_1byte_bitmask(
++						btcoexist, 0x92c, 0x3,
++						0x2);
++				break;
++			case BTC_ANT_PATH_BT:
++				if (board_info->btdm_ant_pos ==
++				    BTC_ANTENNA_AT_MAIN_PORT)
++					btcoexist->btc_write_1byte_bitmask(
++						btcoexist, 0x92c, 0x3,
++						0x2);
++				else
++					btcoexist->btc_write_1byte_bitmask(
++						btcoexist, 0x92c, 0x3,
++						0x1);
++				break;
++			default:
++			case BTC_ANT_PATH_PTA:
++				if (board_info->btdm_ant_pos ==
++				    BTC_ANTENNA_AT_MAIN_PORT)
++					btcoexist->btc_write_1byte_bitmask(
++						btcoexist, 0x92c, 0x3,
++						0x1);
++				else
++					btcoexist->btc_write_1byte_bitmask(
++						btcoexist, 0x92c, 0x3,
++						0x2);
++				break;
++			}
++		}
++	} else {
++		if (init_hwcfg) {
++			/* 0x4c[23]=1, 0x4c[24]=0  Antenna control by 0x64 */
++			u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++			u32tmp |= BIT(23);
++			u32tmp &= ~BIT(24);
++			btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++
++			/* Fix Ext switch Main->S1, Aux->S0 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x64, 0x1,
++							   0x0);
++
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT) {
++
++				/* tell firmware "no antenna inverse" */
++				h2c_parameter[0] = 0;
++				h2c_parameter[1] =
++					0;  /* internal switch type */
++				btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++							h2c_parameter);
++			} else {
++
++				/* tell firmware "antenna inverse" */
++				h2c_parameter[0] = 1;
++				h2c_parameter[1] =
++					0;  /* internal switch type */
++				btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++							h2c_parameter);
++			}
++		}
++
++		if (force_exec ||
++		    (coex_dm->cur_ant_pos_type !=
++		     coex_dm->pre_ant_pos_type)) {
++			/* internal switch setting */
++			switch (ant_pos_type) {
++			case BTC_ANT_PATH_WIFI:
++				if (board_info->btdm_ant_pos ==
++				    BTC_ANTENNA_AT_MAIN_PORT)
++					btcoexist->btc_write_4byte(
++						btcoexist, 0x948, 0x0);
++				else
++					btcoexist->btc_write_4byte(
++						btcoexist, 0x948,
++						0x280);
++				break;
++			case BTC_ANT_PATH_BT:
++				if (board_info->btdm_ant_pos ==
++				    BTC_ANTENNA_AT_MAIN_PORT)
++					btcoexist->btc_write_4byte(
++						btcoexist, 0x948,
++						0x280);
++				else
++					btcoexist->btc_write_4byte(
++						btcoexist, 0x948, 0x0);
++				break;
++			default:
++			case BTC_ANT_PATH_PTA:
++				if (board_info->btdm_ant_pos ==
++				    BTC_ANTENNA_AT_MAIN_PORT)
++					btcoexist->btc_write_4byte(
++						btcoexist, 0x948,
++						0x200);
++				else
++					btcoexist->btc_write_4byte(
++						btcoexist, 0x948, 0x80);
++				break;
++			}
++		}
++	}
++
++	coex_dm->pre_ant_pos_type = coex_dm->cur_ant_pos_type;
++}
++
++void halbtc8723b1ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++		}
++	}
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++
++void halbtc8723b1ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_busy = false;
++	u8			rssi_adjust_val = 0;
++	u8			ps_tdma_byte4_val = 0x50, ps_tdma_byte0_val = 0x51,
++				ps_tdma_byte3_val =  0x10;
++	s8			wifi_duration_adjust = 0x0;
++	static boolean	 pre_wifi_busy = false;
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++#if BT_8723B_1ANT_ANTDET_ENABLE
++#if BT_8723B_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE
++	if (board_info->btdm_ant_num_by_ant_det == 2) {
++		if (turn_on)
++			type = type +
++			       100; /* for WiFi RSSI low or BT RSSI low */
++		else
++			type = 1; /* always translate to TDMA(off,1) for TDMA-off case */
++	}
++	
++#endif	
++#endif
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);	
++
++	if (wifi_busy != pre_wifi_busy) {
++		force_exec = true;
++		 pre_wifi_busy = wifi_busy;
++	}
++			
++	if (!force_exec) {
++		if( (coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++			(coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma) )
++			return;
++	}
++
++	if (coex_sta->scan_ap_num <= 5) {
++		wifi_duration_adjust = 5;
++		
++		if (coex_sta->a2dp_bit_pool >= 35)
++		  wifi_duration_adjust = -10;
++		else if (coex_sta->a2dp_bit_pool >= 45)
++		  wifi_duration_adjust = -15;	
++	} else if (coex_sta->scan_ap_num >= 40) {
++	 	wifi_duration_adjust = -15;	
++
++		if (coex_sta->a2dp_bit_pool < 35)
++		  wifi_duration_adjust = -5;
++		else if (coex_sta->a2dp_bit_pool < 45)
++		  wifi_duration_adjust = -10; 
++	} else if (coex_sta->scan_ap_num >= 20) {
++	 	wifi_duration_adjust = -10;	
++	
++		if (coex_sta->a2dp_bit_pool >= 45)
++		  wifi_duration_adjust = -15;
++	} else {
++		wifi_duration_adjust = 0;	       
++		
++		if (coex_sta->a2dp_bit_pool >= 35)
++		  wifi_duration_adjust = -10;
++		else if (coex_sta->a2dp_bit_pool >= 45)
++		  wifi_duration_adjust = -15;	
++	}
++	
++	if ((type == 1) || (type == 2) || (type == 9) || (type == 11) ||
++	    (type == 101)
++	    || (type == 102) || (type == 109) || (type == 101)) {
++		if (!coex_sta->force_lps_on) { /* Native power save TDMA, only for A2DP-only case 1/2/9/11 while wifi noisy threshold > 30 */
++			ps_tdma_byte0_val = 0x61;  /* no null-pkt */
++			ps_tdma_byte3_val = 0x11; /* no tx-pause at BT-slot */
++			ps_tdma_byte4_val =
++				0x10; /* 0x778 = d/1 toggle, no dynamic slot */
++		} else {
++			ps_tdma_byte0_val = 0x51;  /* null-pkt */
++			ps_tdma_byte3_val = 0x10; /* tx-pause at BT-slot */
++			ps_tdma_byte4_val =
++				0x50; /* 0x778 = d/1 toggle, dynamic slot */
++		}
++	} else if ((type == 3) || (type == 13) || (type == 14) ||
++		   (type == 103) || (type == 113) || (type == 114)) {
++		ps_tdma_byte0_val = 0x51;  /* null-pkt */
++		ps_tdma_byte3_val = 0x10; /* tx-pause at BT-slot */
++		ps_tdma_byte4_val =
++			0x10; /* 0x778 = d/1 toggle, no dynamic slot */
++#if 0
++		if (!wifi_busy)
++			ps_tdma_byte4_val = ps_tdma_byte4_val |
++				0x1;  /* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++#endif
++	} else { /* native power save case */
++		ps_tdma_byte0_val = 0x61;  /* no null-pkt */
++		ps_tdma_byte3_val = 0x11; /* no tx-pause at BT-slot */
++		ps_tdma_byte4_val =
++			0x11; /* 0x778 = d/1 toggle, no dynamic slot */
++		/* psTdmaByte4Va is not defne for 0x778 = d/1, 1/1 case */
++	}
++
++	/* if (bt_link_info->slave_role == true) */
++	if ((bt_link_info->slave_role == true)	&& (bt_link_info->a2dp_exist))
++		ps_tdma_byte4_val = ps_tdma_byte4_val |
++			0x1;  /* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++
++	if (type > 100) {
++		ps_tdma_byte0_val = ps_tdma_byte0_val |
++				    0x82; /* set antenna control by SW	 */
++		ps_tdma_byte3_val = ps_tdma_byte3_val |
++			0x60;  /* set antenna no toggle, control by antenna diversity */
++	}
++		
++
++	if (turn_on) {
++		switch (type) {
++		default:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x51,
++				      0x1a, 0x1a, 0x0, ps_tdma_byte4_val);
++			break;
++		case 1:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++						      ps_tdma_byte0_val, 0x3a +
++					      wifi_duration_adjust, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 2:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++						      ps_tdma_byte0_val, 0x2d +
++					      wifi_duration_adjust, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 3:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x30, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 4:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x15, 0x3, 0x14, 0x0);
++			break;
++		case 5:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x1f, 0x3,
++						      ps_tdma_byte3_val, 0x11);
++			break;
++		case 6:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x20, 0x3,
++						      ps_tdma_byte3_val, 0x11);
++			break;
++		case 7:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xc, 0x5, 0x0, 0x0);
++			break;
++		case 8:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x25, 0x3, 0x10, 0x0);
++			break;
++		case 9:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x3,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 10:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xa, 0xa, 0x0, 0x40);
++			break;
++		case 11:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 12:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x0a, 0x0a, 0x0, 0x50);
++			break;
++		case 13:
++			if (coex_sta->scan_ap_num <= 3)
++				halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x40, 0x3,
++							      ps_tdma_byte3_val,
++						      ps_tdma_byte4_val);
++			else
++				halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x3,
++							      ps_tdma_byte3_val,
++						      ps_tdma_byte4_val);
++			break;
++		case 14:
++			if (coex_sta->scan_ap_num <= 3)
++				halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x30, 0x3, 0x10, 0x50);
++			else
++				halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x3,
++							      ps_tdma_byte3_val,
++						      ps_tdma_byte4_val);
++			break;
++		case 15:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xa, 0x3, 0x8, 0x0);
++			break;
++		case 16:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x15, 0x3, 0x10, 0x0);
++			break;
++		case 18:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x25, 0x3, 0x10, 0x0);
++			break;
++		case 20:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x3f, 0x03,
++						      ps_tdma_byte3_val, 0x10);
++			break;
++		case 21:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x25, 0x03, 0x11, 0x11);
++			break;
++		case 22:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x25, 0x03,
++						      ps_tdma_byte3_val, 0x10);
++			break;
++		case 23:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0x31, 0x18);
++			break;
++		case 24:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x15, 0x3, 0x31, 0x18);
++			break;
++		case 25:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0xa, 0x3, 0x31, 0x18);
++			break;
++		case 26:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0xa, 0x3, 0x31, 0x18);
++			break;
++		case 27:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0x31, 0x98);
++			break;
++		case 28:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x69,
++						      0x25, 0x3, 0x31, 0x0);
++			break;
++		case 29:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0xab,
++						      0x1a, 0x1a, 0x1, 0x10);
++			break;
++		case 30:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x30, 0x3, 0x10, 0x10);
++			break;
++		case 31:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1a, 0x1a, 0, 0x58);
++			break;
++		case 32:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x35, 0x3,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 33:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x35, 0x3,
++						      ps_tdma_byte3_val, 0x10);
++			break;
++		case 34:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x53,
++						      0x1a, 0x1a, 0x0, 0x10);
++			break;
++		case 35:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x63,
++						      0x1a, 0x1a, 0x0, 0x10);
++			break;
++		case 36:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x12, 0x3, 0x14, 0x50);
++			break;
++		case 40: /* SoftAP only with no sta associated,BT disable ,TDMA mode for power saving */
++			/* here softap mode screen off will cost 70-80mA for phone */
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x23,
++						      0x18, 0x00, 0x10, 0x24);
++			break;
++
++		/* for 1-Ant translate to 2-Ant	 */
++		case 101:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++						      ps_tdma_byte0_val, 0x3a +
++					      wifi_duration_adjust, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 102:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++						      ps_tdma_byte0_val, 0x2d +
++					      wifi_duration_adjust, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 103:
++			/* halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x51, 0x1d, 0x1d, 0x0, ps_tdma_byte4_val); */
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x3a, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 105:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x15, 0x3,
++						      ps_tdma_byte3_val, 0x11);
++			break;
++		case 106:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x20, 0x3,
++						      ps_tdma_byte3_val, 0x11);
++			break;
++		case 109:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x3,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 111:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 113:
++			/* halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x51, 0x12, 0x12, 0x0, ps_tdma_byte4_val); */
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x3,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 114:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x3,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 120:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x3f, 0x03,
++						      ps_tdma_byte3_val, 0x10);
++			break;
++		case 122:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x25, 0x03,
++						      ps_tdma_byte3_val, 0x10);
++			break;
++		case 132:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x25, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 133:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x25, 0x03,
++						      ps_tdma_byte3_val, 0x11);
++			break;
++
++		}
++	} else {
++
++		/* disable PS tdma */
++		switch (type) {
++		case 8: /* PTA Control */
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x8,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 0:
++		default:  /* Software control, Antenna at BT side */
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 1: /* 2-Ant, 0x778=3, antenna control by antenna diversity */
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x48, 0x0);
++			break;
++		}
++	}
++	rssi_adjust_val = 0;
++	btcoexist->btc_set(btcoexist,
++		BTC_SET_U1_RSSI_ADJ_VAL_FOR_1ANT_COEX_TYPE, &rssi_adjust_val);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"############# [BTCoex], 0x948=0x%x, 0x765=0x%x, 0x67=0x%x\n",
++		    btcoexist->btc_read_4byte(btcoexist, 0x948),
++		    btcoexist->btc_read_1byte(btcoexist, 0x765),
++		    btcoexist->btc_read_1byte(btcoexist, 0x67));
++	BTC_TRACE(trace_buf);
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8723b1ant_tdma_duration_adjust_for_acl(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0, bt_info_ext;
++	boolean			wifi_busy = false;
++
++	if (BT_8723B_1ANT_WIFI_STATUS_CONNECTED_BUSY == wifi_status)
++		wifi_busy = true;
++	else
++		wifi_busy = false;
++
++	if ((BT_8723B_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN ==
++	     wifi_status) ||
++	    (BT_8723B_1ANT_WIFI_STATUS_CONNECTED_SCAN == wifi_status) ||
++	    (BT_8723B_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT ==
++	     wifi_status)) {
++		if (coex_dm->cur_ps_tdma != 1 &&
++		    coex_dm->cur_ps_tdma != 2 &&
++		    coex_dm->cur_ps_tdma != 3 &&
++		    coex_dm->cur_ps_tdma != 9) {
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						9);
++			coex_dm->ps_tdma_du_adj_type = 9;
++
++			up = 0;
++			dn = 0;
++			m = 1;
++			n = 3;
++			result = 0;
++			wait_count = 0;
++		}
++		return;
++	}
++
++	if (!coex_dm->auto_tdma_adjust) {
++		coex_dm->auto_tdma_adjust = true;
++
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 2);
++		coex_dm->ps_tdma_du_adj_type = 2;
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/* accquire the BT TRx retry count from BT_Info byte2 */
++		retry_count = coex_sta->bt_retry_cnt;
++		bt_info_ext = coex_sta->bt_info_ext;
++
++		if ((coex_sta->low_priority_tx) > 1050 ||
++		    (coex_sta->low_priority_rx) > 1250)
++			retry_count++;
++
++		result = 0;
++		wait_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if retry count during continuous n*2 seconds is 0, enlarge WiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {	/* if continuous 2 retry count(every 2 seconds) >0 and < 3, reduce WiFi duration */
++				if (wait_count <= 2)
++					m++; /* to avoid loop between the two levels */
++				else
++					m = 1;
++
++				if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++			}
++		} else { /* retry count > 3, once retry count > 3, to reduce WiFi duration */
++			if (wait_count == 1)
++				m++; /* to avoid loop between the two levels */
++			else
++				m = 1;
++
++			if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++		}
++
++		if (result == -1) {
++			/*		if( (BT_INFO_8723B_1ANT_A2DP_BASIC_RATE(bt_info_ext)) &&
++						((coex_dm->cur_ps_tdma == 1) ||(coex_dm->cur_ps_tdma == 2)) )
++					{
++						halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 9);
++						coex_dm->ps_tdma_du_adj_type = 9;
++					}
++					else */ if (coex_dm->cur_ps_tdma == 1) {
++				halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 2);
++				coex_dm->ps_tdma_du_adj_type = 2;
++			} else if (coex_dm->cur_ps_tdma == 2) {
++				halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 9) {
++				halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 11);
++				coex_dm->ps_tdma_du_adj_type = 11;
++			}
++		} else if (result == 1) {
++			/*			if( (BT_INFO_8723B_1ANT_A2DP_BASIC_RATE(bt_info_ext)) &&
++							((coex_dm->cur_ps_tdma == 1) ||(coex_dm->cur_ps_tdma == 2)) )
++						{
++							halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 9);
++							coex_dm->ps_tdma_du_adj_type = 9;
++						}
++						else */ if (coex_dm->cur_ps_tdma == 11) {
++				halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 9) {
++				halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 2);
++				coex_dm->ps_tdma_du_adj_type = 2;
++			} else if (coex_dm->cur_ps_tdma == 2) {
++				halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 1);
++				coex_dm->ps_tdma_du_adj_type = 1;
++			}
++		} else { /* no change */
++			/* Bryant Modify
++			if(wifi_busy != pre_wifi_busy)
++			{
++				pre_wifi_busy = wifi_busy;
++				halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, true, coex_dm->cur_ps_tdma);
++			}
++			*/
++
++		}
++
++		if (coex_dm->cur_ps_tdma != 1 &&
++		    coex_dm->cur_ps_tdma != 2 &&
++		    coex_dm->cur_ps_tdma != 9 &&
++		    coex_dm->cur_ps_tdma != 11) {
++			/* recover to previous adjust type */
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						coex_dm->ps_tdma_du_adj_type);
++		}
++	}
++}
++
++void halbtc8723b1ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8723b1ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8723b1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8723b1ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		coex_sta->force_lps_on = true;
++		break;
++	case BTC_PS_LPS_OFF:
++		halbtc8723b1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8723b1ant_action_wifi_only(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++	halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, FORCE_EXEC,
++				     false, false);
++}
++
++void halbtc8723b1ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++
++	/* This function check if bt is disabled */
++
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++	} else {
++		bt_disable_cnt++;
++		if (bt_disable_cnt >= 2)
++			bt_disabled = true;
++	}
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++
++		coex_sta->bt_disabled = bt_disabled;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++		if (bt_disabled) {
++			halbtc8723b1ant_action_wifi_only(btcoexist);
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++					   NULL);
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++					   NULL);
++		}
++	}
++}
++
++/* *********************************************
++ *
++ *	Non-Software Coex Mechanism start
++ *
++ * ********************************************* */
++void halbtc8723b1ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC,
++				     false, false);
++	halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8723b1ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC,
++				     false, false);
++	halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8723b1ant_action_hs(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++	halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8723b1ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_connected = false, ap_enable = false, wifi_busy = false,
++				bt_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	if (coex_sta->bt_abnormal_scan) {
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						33);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);				
++	} else if ((!wifi_connected) && (!coex_sta->wifi_is_high_pri_task)) {
++		halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist) ||
++		   (bt_link_info->a2dp_exist)) {
++		/* SCO/HID/A2DP  busy */
++		halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++
++		if (coex_sta->c2h_bt_remote_name_req)
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						33);
++		else
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if ((bt_link_info->pan_exist) || (wifi_busy)) {
++		halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++
++		if (coex_sta->c2h_bt_remote_name_req)
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						33);
++		else
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++	}
++}
++
++void halbtc8723b1ant_action_bt_sco_hid_only_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	/* tdma and coex table */
++
++	if (bt_link_info->sco_exist) {
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else { /* HID */
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	}
++}
++
++void halbtc8723b1ant_action_wifi_connected_bt_acl_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	if ((coex_sta->low_priority_rx >= 950)  && (!coex_sta->under_ips))
++		bt_link_info->slave_role = true;
++	else
++		bt_link_info->slave_role = false;
++
++	if (bt_link_info->hid_only) { /* HID */
++		halbtc8723b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				wifi_status);
++		coex_dm->auto_tdma_adjust = false;
++		return;
++	} else if (bt_link_info->a2dp_only) { /* A2DP		 */
++		if (BT_8723B_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status) {
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = false;
++		} else {
++			halbtc8723b1ant_tdma_duration_adjust_for_acl(btcoexist,
++					wifi_status);
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = true;
++		}
++	} else if (((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) ||
++		   (bt_link_info->hid_exist && bt_link_info->a2dp_exist &&
++		bt_link_info->pan_exist)) { /* A2DP+PAN(OPP,FTP), HID+A2DP+PAN(OPP,FTP) */
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	} else if (bt_link_info->hid_exist &&
++		   bt_link_info->a2dp_exist) { /* HID+A2DP */
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 14);
++		coex_dm->auto_tdma_adjust = false;
++
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if ((bt_link_info->pan_only) || (bt_link_info->hid_exist &&
++		bt_link_info->pan_exist)) { /* PAN(OPP,FTP), HID+PAN(OPP,FTP)			 */
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	} else {
++		/* BT no-profile busy (0x9) */
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	}
++}
++
++void halbtc8723b1ant_action_wifi_not_connected(IN struct btc_coexist *btcoexist)
++{
++	/* power save state */
++	halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC,
++				     false, false);
++	halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8723b1ant_action_wifi_not_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if (BT_8723B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						20);
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8723B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8723B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8723b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8723B_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		/* Bryant Add */
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8723b1ant_action_wifi_not_connected_asso_auth(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist)  || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else {
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 2);
++	}
++}
++
++void halbtc8723b1ant_action_wifi_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if (BT_8723B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						20);
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8723B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8723B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8723b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8723B_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		/* Bryant Add */
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8723b1ant_action_wifi_connected_specific_packet(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	/* no specific packet process for both WiFi and BT very busy */
++	if ((wifi_busy) && ((bt_link_info->pan_exist) ||
++			    (coex_sta->num_of_profile >= 2)))
++		return;
++
++	halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist)) {
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else if (bt_link_info->a2dp_exist) {
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8723b1ant_action_wifi_connected(IN struct btc_coexist *btcoexist)
++{
++	boolean	wifi_busy = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean		under_4way = false, ap_enable = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], CoexForWifiConnect()===>\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (under_4way) {
++		halbtc8723b1ant_action_wifi_connected_specific_packet(btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 4way<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++	
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++	if (scan || link || roam) {
++		if (scan)
++			halbtc8723b1ant_action_wifi_connected_scan(btcoexist);
++		else
++			halbtc8723b1ant_action_wifi_connected_specific_packet(
++				btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under scan<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	
++	/* power save state */
++	if (!ap_enable &&
++	    BT_8723B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status &&
++	    !btcoexist->bt_link_info.hid_only) {
++		if (btcoexist->bt_link_info.a2dp_only) {	/* A2DP */
++			if (!wifi_busy)
++				halbtc8723b1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			else { /* busy */
++				if (coex_sta->scan_ap_num >=
++				    BT_8723B_1ANT_WIFI_NOISY_THRESH)  /* no force LPS, no PS-TDMA, use pure TDMA */
++					halbtc8723b1ant_power_save_state(
++						btcoexist, BTC_PS_WIFI_NATIVE,
++						0x0, 0x0);
++				else
++					halbtc8723b1ant_power_save_state(
++						btcoexist, BTC_PS_LPS_ON, 0x50,
++						0x4);
++			}
++		} else if ((coex_sta->pan_exist == false) &&
++			   (coex_sta->a2dp_exist == false) &&
++			   (coex_sta->hid_exist == false))
++			halbtc8723b1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		else
++			halbtc8723b1ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++	} else
++		halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++
++	/* tdma and coex table */
++	if (!wifi_busy) {
++		if (BT_8723B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8723b1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8723B_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else if ((BT_8723B_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8723B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8723b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8723B_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else {
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++			halbtc8723b1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_PTA, NORMAL_EXEC, false, false);
++			/* if ((coex_sta->high_priority_tx) +
++			    (coex_sta->high_priority_rx) <= 60) */
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++			/* else
++				halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7); */
++		}
++	} else {
++		if (BT_8723B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8723b1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8723B_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else if ((BT_8723B_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8723B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8723b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8723B_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else {
++			/* halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++			halbtc8723b1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_PTA, NORMAL_EXEC, false, false);
++			if ((coex_sta->high_priority_tx) +
++			    (coex_sta->high_priority_rx) <= 60)
++				halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++			else
++				halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7); */
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8723b1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_PTA, NORMAL_EXEC, false, false);
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++
++		}
++	}
++}
++
++void halbtc8723b1ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false, bt_hs_on = false, wifi_busy = false;
++	boolean	increase_scan_dev_num = false;
++	boolean	bt_ctrl_agg_buf_size = false;
++	boolean	miracast_plus_bt = false;
++	u8	agg_buf_size = 5;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0, wifi_bw;
++	u8	iot_peer = BTC_IOT_PEER_UNKNOWN;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b1ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	if ((BT_8723B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8723B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8723B_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		increase_scan_dev_num = true;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_INC_SCAN_DEV_NUM,
++			   &increase_scan_dev_num);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		if (bt_link_info->bt_link_exist) {
++			halbtc8723b1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1,
++						   0, 1);
++			miracast_plus_bt = true;
++		} else {
++			halbtc8723b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0,
++						   0, 0);
++			miracast_plus_bt = false;
++		}
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8723b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (((bt_link_info->a2dp_exist) || (wifi_busy)) &&
++		    (coex_sta->c2h_bt_inquiry_page))
++			halbtc8723b1ant_action_bt_inquiry(btcoexist);
++		else
++			halbtc8723b1ant_action_wifi_multi_port(btcoexist);
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if ((bt_link_info->bt_link_exist) && (wifi_connected)) {
++		halbtc8723b1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1, 0, 1);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_IOT_PEER, &iot_peer);
++
++		/* if(BTC_IOT_PEER_CISCO != iot_peer)		 */
++		if ((BTC_IOT_PEER_CISCO != iot_peer) &&
++		    (BTC_IOT_PEER_BROADCOM != iot_peer)) {
++			if (bt_link_info->sco_exist) /* if (bt_link_info->bt_hi_pri_link_exist) */
++				/* halbtc8723b1ant_limited_rx(btcoexist, NORMAL_EXEC, true, false, 0x5);				 */
++				halbtc8723b1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, false, false, 0x5);
++			else
++				halbtc8723b1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, false, false, 0x5);
++			/* halbtc8723b1ant_limited_rx(btcoexist, NORMAL_EXEC, false, true, 0x8);		 */
++		} else {
++			if (bt_link_info->sco_exist)
++				halbtc8723b1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, true, false, 0x5);
++			else {
++				if (BTC_WIFI_BW_HT40 == wifi_bw)
++					halbtc8723b1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x10);
++				else
++					halbtc8723b1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x8);
++			}
++		}
++
++		halbtc8723b1ant_sw_mechanism(btcoexist, true);
++	} else {
++		halbtc8723b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++		halbtc8723b1ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x5);
++
++		halbtc8723b1ant_sw_mechanism(btcoexist, false);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8723b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8723b1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	if (!wifi_connected) {
++		boolean	scan = false, link = false, roam = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is non connected-idle !!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (scan || link || roam) {
++			if (scan)
++				halbtc8723b1ant_action_wifi_not_connected_scan(
++					btcoexist);
++			else
++				halbtc8723b1ant_action_wifi_not_connected_asso_auth(
++					btcoexist);
++		} else
++			halbtc8723b1ant_action_wifi_not_connected(btcoexist);
++	} else	/* wifi LPS/Busy */
++		halbtc8723b1ant_action_wifi_connected(btcoexist);
++}
++
++void halbtc8723b1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++
++	/* sw all off */
++	halbtc8723b1ant_sw_mechanism(btcoexist, false);
++
++	/* halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8); */
++	/* halbtc8723b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0); */
++
++	coex_sta->pop_event_cnt = 0;
++}
++
++void halbtc8723b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up, IN boolean wifi_only)
++{
++	u32				u32tmp = 0; /* , fw_ver; */
++	u8				u8tmpa = 0, u8tmpb = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 1Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	psd_scan->ant_det_is_ant_det_available = false;
++
++	/* 0xf0[15:12] --> Chip Cut information */
++	coex_sta->cut_version = (btcoexist->btc_read_1byte(btcoexist,
++				 0xf1) & 0xf0) >> 4;
++
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++
++	/* 0x790[5:0]=0x5	 */
++	btcoexist->btc_write_1byte(btcoexist, 0x790, 0x5);
++
++	/* Enable counter statistics */
++	/* btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc); //0x76e[3] =1, WLAN_Act control by PTA */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++
++
++	/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x20, 0x1); //BT select s0/s1 is controlled by WiFi */
++
++	halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++
++	/* Antenna config */
++	if (wifi_only)
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_WIFI,
++					     FORCE_EXEC, true, false);
++	else
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, true, false);
++
++	/* PTA parameter */
++	halbtc8723b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x948);
++	u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++	u8tmpb = btcoexist->btc_read_1byte(btcoexist, 0x67);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"############# [BTCoex], 0x948=0x%x, 0x765=0x%x, 0x67=0x%x\n",
++		    u32tmp,  u8tmpa, u8tmpb);
++	BTC_TRACE(trace_buf);
++}
++
++void halbtc8723b1ant_mechanism_switch(IN struct btc_coexist *btcoexist,
++				      IN boolean bSwitchTo2Antenna)
++{
++
++	if (bSwitchTo2Antenna) { /* 1-Ant -> 2-Ant */
++		/* un-lock TRx Mask setup for 8723b f-cut */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdd, 0x80, 0x1);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdf, 0x1, 0x1);
++		/* WiFi TRx Mask on				 */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x0);
++
++		/* BT TRx Mask un-lock 0x2c[0], 0x30[0] = 1 */
++		btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x2c,
++					  0x7c45);
++		btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x30,
++					  0x7c45);
++
++		/* BT TRx Mask on */
++		btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x3c, 0x1);
++
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, false);
++	} else {
++		/* WiFi TRx Mask on				 */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x780);
++
++		/* lock TRx Mask setup for 8723b f-cut */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdd, 0x80, 0x0);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdf, 0x1, 0x0);
++
++		/* BT TRx Mask on */
++		btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x3c, 0x15);
++
++		/* BT TRx Mask ock 0x2c[0], 0x30[0]  = 0 */
++		btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x2c,
++					  0x7c44);
++		btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x30,
++					  0x7c44);
++
++
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++	}
++
++}
++
++u32 halbtc8723b1ant_psd_log2base(IN struct btc_coexist *btcoexist, IN u32 val)
++{
++	u8	j;
++	u32	tmp, tmp2, val_integerd_b = 0, tindex, shiftcount = 0;
++	u32	result, val_fractiond_b = 0, table_fraction[21] = {0, 432, 332, 274, 232, 200,
++				   174, 151, 132, 115, 100, 86, 74, 62, 51, 42,
++							   32, 23, 15, 7, 0
++							      };
++
++	if (val == 0)
++		return 0;
++
++	tmp = val;
++
++	while (1) {
++		if (tmp == 1)
++			break;
++		else {
++			tmp = (tmp >> 1);
++			shiftcount++;
++		}
++	}
++
++
++	val_integerd_b = shiftcount + 1;
++
++	tmp2 = 1;
++	for (j = 1; j <= val_integerd_b; j++)
++		tmp2 = tmp2 * 2;
++
++	tmp = (val * 100) / tmp2;
++	tindex = tmp / 5;
++
++	if (tindex > 20)
++		tindex = 20;
++
++	val_fractiond_b = table_fraction[tindex];
++
++	result = val_integerd_b * 100 - val_fractiond_b;
++
++	return result;
++
++
++}
++
++void halbtc8723b1ant_psd_show_antenna_detect_result(IN struct btc_coexist
++		*btcoexist)
++{	
++	u8		*cli_buf = btcoexist->cli_buf;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n============[Antenna Detection info]  ============\n");
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 1)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (>%d)",
++			   "Ant Det Result", "2-Antenna (Bad-Isolation)",
++			   BT_8723B_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else if (psd_scan->ant_det_result == 2)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "2-Antenna (Good-Isolation)",
++			   BT_8723B_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset,
++			   BT_8723B_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "1-Antenna",
++			   BT_8723B_1ANT_ANTDET_PSDTHRES_1ANT,
++			   BT_8723B_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset);
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s ",
++		   "Antenna Detection Finish",
++		   (board_info->btdm_ant_det_finish
++		    ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	switch (psd_scan->ant_det_result) {
++	case 0:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not available)");
++		break;
++	case 1:  /* 2-Ant bad-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 2:  /* 2-Ant good-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 3:  /* 1-Ant */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 4:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Uncertainty result)");
++		break;
++	case 5:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "(Pre-Scan fai)");
++		break;
++	case 6:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(WiFi is Scanning)");
++		break;
++	case 7:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not idle)");
++		break;
++	case 8:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Abort by WiFi Scanning)");
++		break;
++	case 9:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Antenna Init is not ready)");
++		break;
++	case 10:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Inquiry or page)");
++		break;
++	case 11:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Disabled)");
++		break;
++	}
++	CL_PRINTF(cli_buf);	
++
++	
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Total Count", psd_scan->ant_det_try_count);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Fail Count", psd_scan->ant_det_fail_count);
++	CL_PRINTF(cli_buf);
++
++	if ((!board_info->btdm_ant_det_finish) &&
++	    (psd_scan->ant_det_result != 5))
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "BT Response",
++		   (psd_scan->ant_det_result ? "ok" : "fail"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ms", "BT Tx Time",
++		   psd_scan->ant_det_bt_tx_time);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "BT Tx Ch",
++		   psd_scan->ant_det_bt_le_channel);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d",
++		   "WiFi PSD Cent-Ch/Offset/Span",
++		   psd_scan->real_cent_freq, psd_scan->real_offset,
++		   psd_scan->real_span);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d dB",
++		   "PSD Pre-Scan Peak Value",
++		   psd_scan->ant_det_pre_psdscan_peak_val / 100);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (<= %d)",
++		   "PSD Pre-Scan result",
++		   (psd_scan->ant_det_result != 5 ? "ok" : "fail"),
++		   BT_8723B_1ANT_ANTDET_PSDTHRES_BACKGROUND
++		   + psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 5)
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s dB",
++		   "PSD Scan Peak Value", psd_scan->ant_det_peak_val);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s MHz",
++		   "PSD Scan Peak Freq", psd_scan->ant_det_peak_freq);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "TFBGA Package",
++		   (board_info->tfbga_package) ?  "Yes" : "No");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "PSD Threshold Offset", psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++}
++
++void halbtc8723b1ant_psd_showdata(IN struct btc_coexist *btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	u32		delta_freq_per_point;
++	u32		freq, freq1, freq2, n = 0, i = 0, j = 0, m = 0, psd_rep1, psd_rep2;
++	
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n\n============[PSD info]  (%d)============\n",
++		   psd_scan->psd_gen_count);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->psd_gen_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n No data !!\n");
++		CL_PRINTF(cli_buf);
++		return;
++	}
++
++	if (psd_scan->psd_point == 0)
++		delta_freq_per_point = 0;
++	else
++		delta_freq_per_point = psd_scan->psd_band_width /
++				       psd_scan->psd_point;
++
++	/* if (psd_scan->is_psd_show_max_only) */
++	if (0) {
++		psd_rep1 = psd_scan->psd_max_value / 100;
++		psd_rep2 = psd_scan->psd_max_value - psd_rep1 * 100;
++
++		freq = ((psd_scan->real_cent_freq - 20) * 1000000 +
++			psd_scan->psd_max_value_point * delta_freq_per_point);
++		freq1 = freq / 1000000;
++		freq2 = freq / 1000 - freq1 * 1000;
++
++		if (freq2 < 100)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.0%d MHz",
++				   freq1, freq2);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.%d MHz",
++				   freq1, freq2);
++
++		if (psd_rep2 < 10)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.0%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++
++		CL_PRINTF(cli_buf);
++	} else {
++		m = psd_scan->psd_start_point;
++		n = psd_scan->psd_start_point;
++		i = 1;
++		j = 1;
++
++		while (1) {
++			do {
++				freq = ((psd_scan->real_cent_freq - 20) * 1000000 + m *
++					delta_freq_per_point);
++				freq1 = freq / 1000000;
++				freq2 = freq / 1000 - freq1 * 1000;
++
++				if (i == 1) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.0%2d", freq1,
++							   freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.%3d", freq1,
++							   freq2);
++				} else if ((i % 8 == 0) ||
++					   (m == psd_scan->psd_stop_point)) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000\n", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d\n", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d\n", freq1, freq2);
++				} else {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d", freq1, freq2);
++				}
++
++				i++;
++				m++;
++				CL_PRINTF(cli_buf);
++
++			} while ((i <= 8) && (m <= psd_scan->psd_stop_point));
++
++
++			do {
++				psd_rep1 = psd_scan->psd_report_max_hold[n] / 100;
++				psd_rep2 = psd_scan->psd_report_max_hold[n] - psd_rep1 *
++					   100;
++
++				if (j == 1) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.0%d", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.%d", psd_rep1,
++							   psd_rep2);
++				} else if ((j % 8 == 0)  ||
++					   (n == psd_scan->psd_stop_point)) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d\n", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d\n", psd_rep1, psd_rep2);
++				} else {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d", psd_rep1, psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d", psd_rep1, psd_rep2);
++				}
++
++				j++;
++				n++;
++				CL_PRINTF(cli_buf);
++
++			} while ((j <= 8) && (n <= psd_scan->psd_stop_point));
++
++			if ((m > psd_scan->psd_stop_point) ||
++			    (n > psd_scan->psd_stop_point))
++				break;
++			else {
++				i = 1;
++				j = 1;
++			}
++
++		}
++	}
++
++
++}
++
++void halbtc8723b1ant_psd_max_holddata(IN struct btc_coexist *btcoexist,
++				      IN u32 gen_count)
++{
++	u32	i = 0, i_max = 0, val_max = 0;
++
++	if (gen_count == 1) {
++		memcpy(psd_scan->psd_report_max_hold,
++		       psd_scan->psd_report,
++		       BT_8723B_1ANT_ANTDET_PSD_POINTS * sizeof(u32));
++
++		psd_scan->psd_max_value_point = 0;
++		psd_scan->psd_max_value = 0;
++
++	} else {
++		for (i = psd_scan->psd_start_point;
++		     i <= psd_scan->psd_stop_point; i++) {
++			if (psd_scan->psd_report[i] >
++			    psd_scan->psd_report_max_hold[i])
++				psd_scan->psd_report_max_hold[i] =
++					psd_scan->psd_report[i];
++
++			/* search Max Value */
++			if (i == psd_scan->psd_start_point) {
++				i_max = i;
++				val_max = psd_scan->psd_report_max_hold[i];
++			} else {
++				if (psd_scan->psd_report_max_hold[i] >
++				    val_max) {
++					i_max = i;
++					val_max = psd_scan->psd_report_max_hold[i];
++				}
++			}
++
++		}
++
++		psd_scan->psd_max_value_point = i_max;
++		psd_scan->psd_max_value = val_max;
++
++	}
++
++
++}
++
++u32 halbtc8723b1ant_psd_getdata(IN struct btc_coexist *btcoexist, IN u32 point)
++{
++	/* reg 0x808[9:0]: FFT data x */
++	/* reg 0x808[22]: 0-->1 to get 1 FFT data y */
++	/* reg 0x8b4[15:0]: FFT data y report */
++
++	u32 val = 0, psd_report = 0;
++	int k = 0;
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++
++	val &= 0xffbffc00;
++	val |= point;
++
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	val |= 0x00400000;
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	while (1) {
++		if (k++ > BT_8723B_1ANT_ANTDET_SWEEPPOINT_DELAY)
++			break;
++	}
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x8b4);
++
++	psd_report = val & 0x0000ffff;
++
++	return psd_report;
++}
++
++
++boolean halbtc8723b1ant_psd_sweep_point(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN s32 offset, IN u32 span, IN u32 points,
++					IN u32 avgnum, IN u32 loopcnt)
++{
++	u32	 i, val, n, k = 0, j, point_index = 0;
++	u32	points1 = 0, psd_report = 0;
++	u32	start_p = 0, stop_p = 0, delta_freq_per_point = 156250;
++	u32    psd_center_freq = 20 * 10 ^ 6;
++	boolean outloop = false, scan , roam, is_sweep_ok = true;
++	u8	 flag = 0;
++	u32	tmp;
++	u32	wifi_original_channel = 1;
++
++	psd_scan->is_psd_running = true;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Start!!\n");
++	BTC_TRACE(trace_buf);
++
++	do {
++		switch (flag) {
++		case 0:  /* Get PSD parameters */
++		default:
++
++			psd_scan->psd_band_width = 40 * 1000000;
++			psd_scan->psd_point = points;
++			psd_scan->psd_start_base = points / 2;
++			psd_scan->psd_avg_num = avgnum;
++			psd_scan->real_cent_freq = cent_freq;
++			psd_scan->real_offset = offset;
++			psd_scan->real_span = span;
++
++
++			points1 = psd_scan->psd_point;
++			delta_freq_per_point = psd_scan->psd_band_width /
++					       psd_scan->psd_point;
++
++			/* PSD point setup */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffff0fff;
++
++			switch (psd_scan->psd_point) {
++			case 128:
++				val |= 0x0;
++				break;
++			case 256:
++			default:
++				val |= 0x00004000;
++				break;
++			case 512:
++				val |= 0x00008000;
++				break;
++			case 1024:
++				val |= 0x0000c000;
++				break;
++			}
++
++			switch (psd_scan->psd_avg_num) {
++			case 1:
++				val |= 0x0;
++				break;
++			case 8:
++				val |= 0x00001000;
++				break;
++			case 16:
++				val |= 0x00002000;
++				break;
++			case 32:
++			default:
++				val |= 0x00003000;
++				break;
++			}
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			flag = 1;
++			break;
++		case 1:	  /* calculate the PSD point index from freq/offset/span */
++			psd_center_freq = psd_scan->psd_band_width / 2 +
++					  offset * (1000000);
++
++			start_p = psd_scan->psd_start_base + (psd_center_freq -
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_start_point = start_p -
++						    psd_scan->psd_start_base;
++
++			stop_p = psd_scan->psd_start_base + (psd_center_freq +
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_stop_point = stop_p -
++						   psd_scan->psd_start_base - 1;
++
++			flag = 2;
++			break;
++		case 2:  /* set RF channel/BW/Mode */
++
++			/* set 3-wire off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val |= 0x00300000;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val &= 0xfeffffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* store WiFi original channel */
++			wifi_original_channel = btcoexist->btc_get_rf_reg(
++					btcoexist, BTC_RF_A, 0x18, 0x3ff);
++
++			/* Set RF channel */
++			if (cent_freq == 2484)
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++							  0x18, 0x3ff, 0xe);
++			else
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++					  0x18, 0x3ff, (cent_freq - 2412) / 5 +
++						  1); /* WiFi TRx Mask on */
++
++
++			/* Set RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++						  0xfffff, 0x3e4);
++
++			/* Set TRx mask off */
++			/* un-lock TRx Mask setup */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdd,
++						  0x80, 0x1);
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdf,
++						  0x1, 0x1);
++
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x0);
++
++			/* Set  RF mode = Rx, RF Gain = 0x8a0 */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x0,
++						  0xfffff, 0x308a0);
++
++			while (1) {
++				if (k++ > BT_8723B_1ANT_ANTDET_SWEEPPOINT_DELAY)
++					break;
++			}
++			flag = 3;
++			break;
++		case 3:
++			psd_scan->psd_gen_count = 0;
++			for (j = 1; j <= loopcnt; j++) {
++
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_SCAN, &scan);
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_ROAM, &roam);
++
++				if (scan || roam) {
++					is_sweep_ok = false;
++					break;
++				}
++				memset(psd_scan->psd_report, 0,
++				       psd_scan->psd_point * sizeof(u32));
++				start_p = psd_scan->psd_start_point +
++					  psd_scan->psd_start_base;
++				stop_p = psd_scan->psd_stop_point +
++					 psd_scan->psd_start_base + 1;
++
++				i = start_p;
++				point_index = 0;
++
++				while (i < stop_p) {
++					if (i >= points1)
++						psd_report =
++							halbtc8723b1ant_psd_getdata(
++							btcoexist, i - points1);
++					else
++						psd_report =
++							halbtc8723b1ant_psd_getdata(
++								btcoexist, i);
++
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"Point=%d, psd_raw_data = 0x%08x\n",
++						    i, psd_report);
++					BTC_TRACE(trace_buf);
++					if (psd_report == 0)
++						tmp = 0;
++					else
++						/* tmp =  20*log10((double)psd_report); */
++						/* 20*log2(x)/log2(10), log2Base return theresult of the psd_report*100 */
++						tmp = 6 * halbtc8723b1ant_psd_log2base(
++							btcoexist, psd_report);
++
++					n = i - psd_scan->psd_start_base;
++					psd_scan->psd_report[n] =  tmp;
++
++
++					halbtc8723b1ant_psd_max_holddata(
++						btcoexist, j);
++
++					i++;
++
++				}
++
++				psd_scan->psd_gen_count = j;
++			}
++
++			flag = 100;
++			break;
++		case 99:	/* error */
++
++			outloop = true;
++			break;
++		case 100: /* recovery */
++
++			/* set 3-wire on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val &= 0xffcfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val |= 0x01000000;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* PSD off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffbfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			/* TRx Mask on */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x780);
++
++			/* lock TRx Mask setup */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdd,
++						  0x80, 0x0);
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdf,
++						  0x1, 0x0);
++
++			/* Set RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++						  0xfffff, 0x0);
++
++			/* restore WiFi original channel */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x18,
++						  0x3ff, wifi_original_channel);
++
++			outloop = true;
++			break;
++
++		}
++
++	} while (!outloop);
++
++
++
++	psd_scan->is_psd_running = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Stop!!\n");
++	BTC_TRACE(trace_buf);
++	return is_sweep_ok;
++
++}
++
++void halbtc8723b1ant_psd_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 bt_tx_time, IN u32 bt_le_channel)
++{
++	u32	i = 0;
++	u32	wlpsd_cent_freq = 2484, wlpsd_span = 2, wlpsd_sweep_count = 50; 
++	s32 	wlpsd_offset = -4;
++	u8 	bt_le_ch[13] = {3,6,8,11,13,16,18,21,23,26,28,31,33};
++
++	u8	h2c_parameter[3] ={0},u8tmpa,u8tmpb;
++	
++	u8	state=0;
++	boolean		outloop = false, bt_resp = false;
++	u32		freq, freq1, freq2, psd_rep1, psd_rep2, delta_freq_per_point,
++			u32tmp;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	board_info->btdm_ant_det_finish = false;	
++	memset(psd_scan->ant_det_peak_val, 0, 16*sizeof(u8));
++	memset(psd_scan->ant_det_peak_freq, 0, 16*sizeof(u8));
++
++	if (board_info->tfbga_package) /* for TFBGA */
++		psd_scan->ant_det_thres_offset = 5;
++	else
++		psd_scan->ant_det_thres_offset = 0;
++
++	do {
++		switch (state) {
++		case 0:
++			if (bt_le_channel == 39)
++				wlpsd_cent_freq = 2484;
++			else {
++				for (i = 1; i <= 13; i++) {
++					if (bt_le_ch[i - 1] ==
++					    bt_le_channel) {
++						wlpsd_cent_freq = 2412
++								  + (i - 1) * 5;
++						break;
++					}
++				}
++
++				if (i == 14) {
++
++					BTC_SPRINTF(trace_buf,
++						    BT_TMP_BUF_SIZE,
++						"xxxxxxxxxxxxxxxx AntennaDetect(), Abort!!, Invalid LE channel = %d\n ",
++						    bt_le_channel);
++					BTC_TRACE(trace_buf);
++					outloop = true;
++					break;
++				}
++			}
++
++			wlpsd_sweep_count = bt_tx_time * 238 /
++					    100; /* bt_tx_time/0.42								 */
++			wlpsd_sweep_count = wlpsd_sweep_count / 5;
++
++			if (wlpsd_sweep_count % 5 != 0)
++				wlpsd_sweep_count = (wlpsd_sweep_count /
++						     5 + 1) * 5;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), BT_LETxTime=%d,  BT_LECh = %d\n",
++				    bt_tx_time, bt_le_channel);
++			BTC_TRACE(trace_buf);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), wlpsd_cent_freq=%d,  wlpsd_offset = %d, wlpsd_span = %d, wlpsd_sweep_count = %d\n",
++				    wlpsd_cent_freq,
++				    wlpsd_offset,
++				    wlpsd_span,
++				    wlpsd_sweep_count);
++			BTC_TRACE(trace_buf);
++
++			state = 1;
++			break;
++		case 1: /* stop coex DM & set antenna path */
++			/* Stop Coex DM */
++				btcoexist->stop_coex_dm = true;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stop Coex DM!!\n");
++			BTC_TRACE(trace_buf);
++
++			/* set native power save */
++			halbtc8723b1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++
++			/* Set TDMA off,				 */
++			halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC,
++						false, 0);
++
++			/* Set coex table */
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     FORCE_EXEC, 0);
++
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Main Port\n");
++				BTC_TRACE(trace_buf);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Aux Port\n");
++				BTC_TRACE(trace_buf);
++			}
++
++			/* Set Antenna path, switch WiFi to un-certain antenna port */
++			halbtc8723b1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_BT, FORCE_EXEC, false,
++						     false);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to BT!!\n");
++			BTC_TRACE(trace_buf);
++
++			/* Set AFH mask on at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x1;
++			h2c_parameter[1] = 0xd;
++			h2c_parameter[2] = 0x14;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1],
++				    h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			u32tmp = btcoexist->btc_read_4byte(btcoexist,
++							   0x948);
++			u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++			u8tmpb = btcoexist->btc_read_1byte(btcoexist,
++							   0x778);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex], 0x948=0x%x, 0x765=0x%x, 0x778=0x%x\n",
++				    u32tmp,  u8tmpa, u8tmpb);
++			BTC_TRACE(trace_buf);
++
++			state = 2;
++			break;
++			case 2:	/* Pre-sweep background psd */
++			if (!halbtc8723b1ant_psd_sweep_point(btcoexist,
++				     wlpsd_cent_freq, wlpsd_offset, wlpsd_span,
++					     BT_8723B_1ANT_ANTDET_PSD_POINTS,
++				     BT_8723B_1ANT_ANTDET_PSD_AVGNUM, 3)) {
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++			psd_scan->ant_det_pre_psdscan_peak_val =
++				psd_scan->psd_max_value;
++
++			if (psd_scan->psd_max_value >
++			    (BT_8723B_1ANT_ANTDET_PSDTHRES_BACKGROUND
++			     + psd_scan->ant_det_thres_offset) * 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Abort Antenna Detection!! becaus background = %d > thres (%d)\n",
++					    psd_scan->psd_max_value / 100,
++					BT_8723B_1ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 5;
++				state = 99;
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Start Antenna Detection!! becaus background = %d <= thres (%d)\n",
++					    psd_scan->psd_max_value / 100,
++					BT_8723B_1ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				state = 3;
++			}
++			break;
++			case 3:	
++			bt_resp = btcoexist->btc_set_bt_ant_detection(
++					  btcoexist, (u8)(bt_tx_time & 0xff),
++					  (u8)(bt_le_channel & 0xff));
++
++			if (!halbtc8723b1ant_psd_sweep_point(btcoexist,
++					     wlpsd_cent_freq, wlpsd_offset,
++							     wlpsd_span,
++					     BT_8723B_1ANT_ANTDET_PSD_POINTS,
++					     BT_8723B_1ANT_ANTDET_PSD_AVGNUM,
++						     wlpsd_sweep_count)) {
++				board_info->btdm_ant_det_finish
++					= false;
++				board_info->btdm_ant_num_by_ant_det
++					= 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++			psd_scan->ant_det_psd_scan_peak_val =
++				psd_scan->psd_max_value;
++			psd_scan->ant_det_psd_scan_peak_freq =
++				psd_scan->psd_max_value_point;
++			state = 4;
++			break;
++			case 4:				
++
++			if (psd_scan->psd_point == 0)
++				delta_freq_per_point = 0;
++			else
++				delta_freq_per_point =
++					psd_scan->psd_band_width /
++					psd_scan->psd_point;
++
++			psd_rep1 = psd_scan->psd_max_value / 100;
++			psd_rep2 = psd_scan->psd_max_value - psd_rep1 *
++				   100;
++
++			freq = ((psd_scan->real_cent_freq - 20) *
++				1000000 + psd_scan->psd_max_value_point
++				* delta_freq_per_point);
++			freq1 = freq / 1000000;
++			freq2 = freq / 1000 - freq1 * 1000;
++
++			if (freq2 < 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.0%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8723B_1ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", freq1, freq2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8723B_1ANT_ANTDET_BUF_LEN,
++					   "%d.%d", freq1, freq2);
++			}
++
++			if (psd_rep2 < 10) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.0%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8723B_1ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", psd_rep1, psd_rep2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8723B_1ANT_ANTDET_BUF_LEN,
++					   "%d.%d", psd_rep1, psd_rep2);
++			}
++
++			psd_scan->ant_det_is_btreply_available = true;
++
++			if (bt_resp == false) {
++				psd_scan->ant_det_is_btreply_available =
++					false;
++				psd_scan->ant_det_result = 0;
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), BT Response = Fail\n ");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				(BT_8723B_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION)
++				   * 100) {
++				psd_scan->ant_det_result = 1;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Bad-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				(BT_8723B_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++				    + psd_scan->ant_det_thres_offset) * 100) {
++				psd_scan->ant_det_result = 2;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Good-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				   (BT_8723B_1ANT_ANTDET_PSDTHRES_1ANT) *
++				   100) {
++				psd_scan->ant_det_result = 3;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant!!\n");
++				BTC_TRACE(trace_buf);
++			} else {
++				psd_scan->ant_det_result = 4;
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant, un-certainity!!\n");
++				BTC_TRACE(trace_buf);
++			}
++
++			state = 99;
++			break;
++		case 99:  /* restore setup */
++
++			/* Set AFH mask off at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x0;
++			h2c_parameter[1] = 0x0;
++			h2c_parameter[2] = 0x0;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1], h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			/* Set Antenna Path					 */
++			halbtc8723b1ant_set_ant_path(btcoexist,
++				     BTC_ANT_PATH_PTA, FORCE_EXEC, false,
++						     false);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to PTA\n!!");
++			BTC_TRACE(trace_buf);
++
++			/* Resume Coex DM */
++			btcoexist->stop_coex_dm = false;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Resume Coex DM\n!!");
++			BTC_TRACE(trace_buf);
++
++			/* stimulate coex running */
++			halbtc8723b1ant_run_coexist_mechanism(
++				btcoexist);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stimulate Coex running\n!!");
++			BTC_TRACE(trace_buf);
++
++			outloop = true;
++			break;
++		}
++
++	} while (!outloop);
++
++
++
++}
++
++void halbtc8723b1ant_psd_antenna_detection_check(IN struct btc_coexist
++		*btcoexist)
++{
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	
++	boolean scan, roam;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++
++	/* psd_scan->ant_det_bt_tx_time = 20;  */
++	psd_scan->ant_det_bt_tx_time =
++		BT_8723B_1ANT_ANTDET_BTTXTIME;	   /* 0.42ms*50 = 20ms (0.42ms = 1 PSD sweep) */
++	psd_scan->ant_det_bt_le_channel = BT_8723B_1ANT_ANTDET_BTTXCHANNEL;		
++
++	ant_det_count++;
++	
++	psd_scan->ant_det_try_count = ant_det_count;	
++			
++	if (scan || roam) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 6;
++	} else if (coex_sta->bt_disabled) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 11;
++	} else if (coex_sta->num_of_profile >= 1) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 7;
++	} else if (
++		!psd_scan->ant_det_is_ant_det_available) { /* Antenna initial setup is not ready */
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 9;
++	} else if (coex_sta->c2h_bt_inquiry_page) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 10;
++	} else
++		halbtc8723b1ant_psd_antenna_detection(btcoexist,
++					      psd_scan->ant_det_bt_tx_time,
++					      psd_scan->ant_det_bt_le_channel);
++
++	if (!board_info->btdm_ant_det_finish)
++		ant_det_fail_count++;
++
++	psd_scan->ant_det_fail_count = ant_det_fail_count;
++
++}
++
++
++/* ************************************************************
++ * work around function start with wa_halbtc8723b1ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8723b1ant_
++ * ************************************************************ */
++void ex_halbtc8723b1ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 				u8tmp=0x0;
++	u16 				u16tmp=0x0;
++	u32				value;
++       
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx Execute 8723b 1-Ant PowerOn Setting xxxxxxxxxxxxxxxx!!\n");
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "Ant Det Finish = %s, Ant Det Number  = %d\n",
++		    (board_info->btdm_ant_det_finish ? "Yes" : "No"),
++		    board_info->btdm_ant_num_by_ant_det);
++	BTC_TRACE(trace_buf);
++
++	
++	btcoexist->stop_coex_dm = true;
++
++	btcoexist->btc_write_1byte(btcoexist, 0x67, 0x20);
++
++	/* enable BB, REG_SYS_FUNC_EN such that we can write 0x948 correctly. */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x2);
++	btcoexist->btc_write_2byte(btcoexist, 0x2, u16tmp | BIT(0) | BIT(1));
++
++	/* set GRAN_BT = 1 */
++	btcoexist->btc_write_1byte(btcoexist, 0x765, 0x18);
++	/* set WLAN_ACT = 0 */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);	
++
++	/*  */
++	/* S0 or S1 setting and Local register setting(By the setting fw can get ant number, S0/S1, ... info) */
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++	if(btcoexist->chip_interface == BTC_INTF_USB) {
++		/* fixed at S0 for USB interface */
++		btcoexist->btc_write_4byte(btcoexist, 0x948, 0x0);
++		
++		u8tmp |= 0x1;	/* antenna inverse */
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++	} else {
++		/* for PCIE and SDIO interface, we check efuse 0xc3[6] */
++		if (board_info->single_ant_path == 0) {
++			/* set to S1 */
++			btcoexist->btc_write_4byte(btcoexist, 0x948, 0x280);
++			board_info->btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++			value = 1;
++		} else if (board_info->single_ant_path == 1) {
++			/* set to S0 */
++			btcoexist->btc_write_4byte(btcoexist, 0x948, 0x0);
++			u8tmp |= 0x1;	/* antenna inverse */
++			board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++			value = 0;
++		}
++
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ANTPOSREGRISTRY_CTRL,
++				   &value);
++		
++		if(btcoexist->chip_interface == BTC_INTF_PCI)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x384,
++							     u8tmp);
++		else if(btcoexist->chip_interface == BTC_INTF_SDIO)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60, 
++							     u8tmp);
++	}
++}
++
++void ex_halbtc8723b1ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8723b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8723b1ant_init_hw_config(btcoexist, true, wifi_only);
++	btcoexist->stop_coex_dm = false;
++}
++
++void ex_halbtc8723b1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = false;
++	
++	halbtc8723b1ant_init_coex_dm(btcoexist);
++
++	halbtc8723b1ant_query_bt_info(btcoexist);
++}
++
++void ex_halbtc8723b1ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case=0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fa_ofdm, fa_cck;
++	u32				fw_ver=0, bt_patch_ver=0;
++	static u8		pop_report_in_10s = 0;	
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if(btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	if(btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	if (psd_scan->ant_det_try_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d",
++			   "Ant PG Num/ Mech/ Pos",
++			   board_info->pg_ant_num, board_info->btdm_ant_num,
++			   board_info->btdm_ant_pos);
++		CL_PRINTF(cli_buf);
++	} else {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d/ %d/ %d  (%d/%d/%d)",
++			   "Ant PG Num/ Mech(Ant_Det)/ Pos",
++			board_info->pg_ant_num, board_info->btdm_ant_num_by_ant_det,
++			   board_info->btdm_ant_pos,
++			psd_scan->ant_det_try_count, psd_scan->ant_det_fail_count,
++			   psd_scan->ant_det_result);
++		CL_PRINTF(cli_buf);
++
++		if (board_info->btdm_ant_det_finish) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++				   "Ant Det PSD Value",
++				   psd_scan->ant_det_peak_val);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)/ %c",
++		   "Version Coex/ Fw/ Patch/ Cut",
++		   glcoex_ver_date_8723b_1ant, glcoex_ver_8723b_1ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver, coex_sta->cut_version + 65);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s/ %s",
++		   "WifibHiPri/ Ccklock/ CckEverLock",
++		   (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"),
++		   (coex_sta->cck_lock ? "Yes" : "No"),
++		   (coex_sta->cck_ever_lock ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Abnormal scan",
++		   (coex_sta->bt_abnormal_scan) ? "Yes" : "No");
++	CL_PRINTF(cli_buf);
++	
++	pop_report_in_10s++;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d/ %d] ", 
++		   "BT [status/ rssi/ retryCnt/ popCnt]",
++		((coex_sta->bt_disabled)? ("disabled"):	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8723B_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8723B_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi, coex_sta->bt_retry_cnt,
++		   coex_sta->pop_event_cnt);
++	CL_PRINTF(cli_buf);
++	
++	if (pop_report_in_10s >= 5) {
++		coex_sta->pop_event_cnt = 0;	
++		pop_report_in_10s = 0;
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d / %d / %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP/NameReq/WHQL",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist,
++		   coex_sta->c2h_bt_remote_name_req,
++		   coex_sta->bt_whck_test);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Role",
++		   (bt_link_info->slave_role) ? "Slave" : "Master");
++	CL_PRINTF(cli_buf);
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d",
++		   "A2DP Rate/Bitpool",
++		(bt_info_ext & BIT(0)) ? "BR" : "EDR", coex_sta->a2dp_bit_pool);
++	CL_PRINTF(cli_buf);	
++
++	for (i = 0; i < BT_INFO_SRC_8723B_1ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8723b_1ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	
++	if(btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[mechanisms] (before Manual)============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanisms]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "SM[LowPenaltyRA]",
++		   coex_dm->cur_low_penalty_ra);
++	CL_PRINTF(cli_buf);
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	if (board_info->btdm_ant_num_by_ant_det == 2) {
++		if (coex_dm->cur_ps_tdma_on)
++			ps_tdma_case = ps_tdma_case +
++				100; /* for WiFi RSSI low or BT RSSI low */
++		else
++			ps_tdma_case =
++				1; /* always translate to TDMA(off,1) for TDMA-off case */
++	}
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (%s,%s)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   (coex_dm->cur_ps_tdma_on ? "On" : "Off"),
++		   (coex_dm->auto_tdma_adjust ? "Adj" : "Fix"));
++
++	CL_PRINTF(cli_buf);
++		
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Coex Table Type",
++		   coex_sta->coex_table_type);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "IgnWlanAct",
++		   coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++	/*
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x ", "Latest error condition(should be 0)",
++		coex_dm->error_condition);
++	CL_PRINTF(cli_buf);
++	*/
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);	
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "backup ARFR1/ARFR2/RL/AMaxTime",
++		   coex_dm->backup_arfr_cnt1, coex_dm->backup_arfr_cnt2,
++		   coex_dm->backup_retry_limit,
++		   coex_dm->backup_ampdu_max_time);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x", 
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6cc);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x880);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x", 
++		   "0x778/0x6cc/0x880[29:25]",
++		   u8tmp[0], u32tmp[0], (u32tmp[1] & 0x3e000000) >> 25);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x948);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x67);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x764);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x76e);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x948/ 0x67[5] / 0x764 / 0x76e",
++		   u32tmp[0], ((u8tmp[0] & 0x20) >> 5), (u32tmp[1] & 0xffff),
++		   u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x92c);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x930);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x944);	
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x92c[1:0]/ 0x930[7:0]/0x944[1:0]",
++		   u32tmp[0] & 0x3, u32tmp[1] & 0xff, u32tmp[2] & 0x3);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x39);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0x64);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x38[11]/0x40/0x4c[24:23]/0x64[0]",
++		   ((u8tmp[0] & 0x8) >> 3), u8tmp[1],
++		   ((u32tmp[0] & 0x01800000) >> 23), u8tmp[2] & 0x1);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x49c);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0xc50(dig)/0x49c(null-drop)",
++		   u32tmp[0] & 0xff, u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xda0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xda4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0xda8);
++	u32tmp[3] = btcoexist->btc_read_4byte(btcoexist, 0xcf0);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5b);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++
++	fa_ofdm = ((u32tmp[0] & 0xffff0000) >> 16) + ((u32tmp[1] & 0xffff0000)
++			>> 16) + (u32tmp[1] & 0xffff) + (u32tmp[2] & 0xffff) +
++		   ((u32tmp[3] & 0xffff0000) >> 16) + (u32tmp[3] &
++				   0xffff) ;
++	fa_cck = (u8tmp[0] << 8) + u8tmp[1];
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "OFDM-CCA/OFDM-FA/CCK-FA",
++		   u32tmp[0] & 0xffff, fa_ofdm, fa_cck);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++#if (BT_AUTO_REPORT_ONLY_8723B_1ANT == 1)
++	/* halbtc8723b1ant_monitor_bt_ctr(btcoexist); */
++#endif
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8723b1ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if(btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, true);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723b1ant_init_hw_config(btcoexist, false, false);
++		halbtc8723b1ant_init_coex_dm(btcoexist);
++		halbtc8723b1ant_query_bt_info(btcoexist);
++
++		coex_sta->under_ips = false;
++	}
++}
++
++void ex_halbtc8723b1ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if(btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++	}
++}
++
++void ex_halbtc8723b1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	boolean wifi_connected=false, bt_hs_on=false;
++	u32	wifi_link_status=0;
++	u32	num_of_wifi_link=0;
++	boolean	bt_ctrl_agg_buf_size=false;
++	u8	agg_buf_size=5;
++
++	u8 u8tmpa, u8tmpb;
++	u32 u32tmp;
++
++	if(btcoexist->manual_control ||
++		btcoexist->stop_coex_dm )
++		return;
++
++	if (BTC_SCAN_START == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++		psd_scan->ant_det_is_ant_det_available = true;
++		halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++			8);  /* Force antenna setup for no scan result issue */
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x948);
++		u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++		u8tmpb = btcoexist->btc_read_1byte(btcoexist, 0x67);
++
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], 0x948=0x%x, 0x765=0x%x, 0x67=0x%x\n",
++			    u32tmp,  u8tmpa, u8tmpb);
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);
++	}	
++
++	if(coex_sta->bt_disabled)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED, 
++&wifi_connected);
++
++	halbtc8723b1ant_query_bt_info(btcoexist);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++ &wifi_link_status);
++	num_of_wifi_link = wifi_link_status>>16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8723b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8723b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8723b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8723b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8723b1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_SCAN_START == type) {
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8723b1ant_action_wifi_not_connected_scan(
++				btcoexist);
++		else	/* wifi is connected */
++			halbtc8723b1ant_action_wifi_connected_scan(btcoexist);
++	} else if (BTC_SCAN_FINISH == type) {
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8723b1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8723b1ant_action_wifi_connected(btcoexist);
++	}
++}
++
++void ex_halbtc8723b1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	boolean	wifi_connected=false, bt_hs_on=false;	
++	u32	wifi_link_status=0;
++	u32	num_of_wifi_link=0;
++	boolean	bt_ctrl_agg_buf_size=false;
++	u8	agg_buf_size=5;
++
++	if(btcoexist->manual_control ||
++		btcoexist->stop_coex_dm ||
++		coex_sta->bt_disabled )
++		return;
++
++	if (BTC_ASSOCIATE_START == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		psd_scan->ant_det_is_ant_det_available = true;
++		halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++			8);  /* Force antenna setup for no scan result issue */
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++		/* coex_dm->arp_cnt = 0; */
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8723b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8723b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8723b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8723b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8723b1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_ASSOCIATE_START == type)
++		halbtc8723b1ant_action_wifi_not_connected_asso_auth(btcoexist);
++	else if (BTC_ASSOCIATE_FINISH == type) {
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++				   &wifi_connected);
++		if (!wifi_connected) /* non-connected scan */
++			halbtc8723b1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8723b1ant_action_wifi_connected(btcoexist);
++	}
++}
++
++void ex_halbtc8723b1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] ={0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++	boolean			wifi_under_b_mode = false;
++
++	if(btcoexist->manual_control ||
++		btcoexist->stop_coex_dm ||
++		coex_sta->bt_disabled )
++		return;
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++			8);  /* Force antenna setup for no scan result issue */
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++		psd_scan->ant_det_is_ant_det_available = true;
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++
++		/* Set CCK Tx/Rx high Pri except 11b mode */
++		if (wifi_under_b_mode) {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x00); /* CCK Rx */
++		} else {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x10); /* CCK Rx */
++		}
++
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++
++		btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x0); /* CCK Tx */
++		btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x0); /* CCK Rx */
++
++		coex_sta->cck_ever_lock = false;
++	}
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		/* h2c_parameter[0] = 0x1; */
++		h2c_parameter[0] = 0x0;
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++}
++
++void ex_halbtc8723b1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean	bt_hs_on=false;
++	u32	wifi_link_status=0;
++	u32	num_of_wifi_link=0;
++	boolean	bt_ctrl_agg_buf_size=false, under_4way=false;
++	u8	agg_buf_size=5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if(btcoexist->manual_control ||
++		btcoexist->stop_coex_dm ||
++		coex_sta->bt_disabled )
++		return;
++
++	if (BTC_PACKET_DHCP == type ||
++	    BTC_PACKET_EAPOL == type ||
++	    BTC_PACKET_ARP == type) {
++		if (BTC_PACKET_ARP == type) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], specific Packet ARP notify\n");
++			BTC_TRACE(trace_buf);
++
++			coex_dm->arp_cnt++;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], ARP Packet Count = %d\n",
++				    coex_dm->arp_cnt);
++			BTC_TRACE(trace_buf);
++
++			if ((coex_dm->arp_cnt >= 10) &&
++			    (!under_4way))  /* if APR PKT > 10 after connect, do not go to ActionWifiConnectedSpecificPacket(btcoexist) */
++				coex_sta->wifi_is_high_pri_task = false;
++			else
++				coex_sta->wifi_is_high_pri_task = true;
++		} else {
++			coex_sta->wifi_is_high_pri_task = true;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], specific Packet DHCP or EAPOL notify\n");
++			BTC_TRACE(trace_buf);
++		}
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet [Type = %d] notify\n", type);
++		BTC_TRACE(trace_buf);
++	}
++
++	coex_sta->specific_pkt_period_cnt = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8723b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8723b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8723b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8723b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8723b1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_PACKET_DHCP == type ||
++	    BTC_PACKET_EAPOL == type ||
++	    ((BTC_PACKET_ARP == type) && (coex_sta->wifi_is_high_pri_task)))
++		halbtc8723b1ant_action_wifi_connected_specific_packet(btcoexist);
++}
++
++void ex_halbtc8723b1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8				bt_info = 0;
++	u8				i, rsp_source=0;
++	boolean				wifi_connected=false;
++	boolean				bt_busy=false;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	rsp_source = tmp_buf[0]&0xf;
++	if(rsp_source >= BT_INFO_SRC_8723B_1ANT_MAX)
++		rsp_source = BT_INFO_SRC_8723B_1ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, 
++"[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source, 
++length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	/* if 0xff, it means BT is under WHCK test */
++	if (bt_info == 0xff)
++		coex_sta->bt_whck_test = true;
++	else
++		coex_sta->bt_whck_test = false;
++
++	if (BT_INFO_SRC_8723B_1ANT_WIFI_FW != rsp_source) {
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2]&0xf;
++
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2]&0x20)
++			coex_sta->c2h_bt_remote_name_req = true;
++		else
++			coex_sta->c2h_bt_remote_name_req = false;			
++
++		coex_sta->bt_rssi =
++			coex_sta->bt_info_c2h[rsp_source][3]*2-90;
++		/* coex_sta->bt_info_c2h[rsp_source][3]*2+10; */
++
++		coex_sta->bt_info_ext = 
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		if (coex_sta->bt_info_c2h[rsp_source][1] == 0x49) {
++			coex_sta->a2dp_bit_pool = 
++				coex_sta->bt_info_c2h[rsp_source][6]; 
++		} else
++			coex_sta->a2dp_bit_pool = 0;
++
++		coex_sta->bt_tx_rx_mask = (coex_sta->bt_info_c2h[rsp_source][2]
++					   & 0x40);
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TX_RX_MASK,
++				   &coex_sta->bt_tx_rx_mask);
++
++#if BT_8723B_1ANT_ANTDET_ENABLE
++#if BT_8723B_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE
++		if ((board_info->btdm_ant_det_finish) &&
++		    (board_info->btdm_ant_num_by_ant_det == 2)) {
++			if (coex_sta->bt_tx_rx_mask) {
++				/* BT into is responded by BT FW and BT RF REG 0x3C != 0x15 => Need to switch BT TRx Mask */
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Switch BT TRx Mask since BT RF REG 0x3C != 0x1\n");
++				BTC_TRACE(trace_buf);
++
++				/* BT TRx Mask un-lock 0x2c[0], 0x30[0] = 1 */
++				btcoexist->btc_set_bt_reg(btcoexist,
++						  BTC_BT_REG_RF, 0x2c, 0x7c45);
++				btcoexist->btc_set_bt_reg(btcoexist,
++						  BTC_BT_REG_RF, 0x30, 0x7c45);
++
++				btcoexist->btc_set_bt_reg(btcoexist,
++						  BTC_BT_REG_RF, 0x3c, 0x1);
++			}
++		} else
++#endif			
++#endif
++
++		{
++			if (!coex_sta->bt_tx_rx_mask) {
++				/* BT into is responded by BT FW and BT RF REG 0x3C != 0x15 => Need to switch BT TRx Mask */
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Switch BT TRx Mask since BT RF REG 0x3C != 0x15\n");
++				BTC_TRACE(trace_buf);
++				btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF,
++							  0x3c, 0x15);
++
++				/* BT TRx Mask lock 0x2c[0], 0x30[0] = 0 */
++				btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF,
++							  0x2c, 0x7c44);
++				btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF,
++							  0x30, 0x7c44);
++			}
++		}
++		
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++		if (coex_sta->bt_info_ext & BIT(1)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++					   &wifi_connected);
++			if (wifi_connected)
++				ex_halbtc8723b1ant_media_status_notify(
++					btcoexist, BTC_MEDIA_CONNECT);
++			else
++				ex_halbtc8723b1ant_media_status_notify(
++					btcoexist, BTC_MEDIA_DISCONNECT);
++		}
++				
++		if (coex_sta->bt_info_ext & BIT(3)) {
++			if(!btcoexist->manual_control && 
++			    !btcoexist->stop_coex_dm) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8723b1ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		} else {
++			/* BT already NOT ignore Wlan active, do nothing here. */
++		}
++#if(BT_AUTO_REPORT_ONLY_8723B_1ANT == 0)
++		if ((coex_sta->bt_info_ext & BIT(4))) {
++			/* BT auto report already enabled, do nothing */
++		} else
++			halbtc8723b1ant_bt_auto_report(btcoexist, FORCE_EXEC,
++						       true);
++#endif
++	}
++		
++	/* check BIT2 first ==> check if bt is under inquiry or page scan */
++	if (bt_info & BT_INFO_8723B_1ANT_B_INQ_PAGE)
++		coex_sta->c2h_bt_inquiry_page = true;
++	else
++		coex_sta->c2h_bt_inquiry_page = false;
++
++	coex_sta->num_of_profile = 0;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8723B_1ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++
++		coex_sta->bt_hi_pri_link_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8723B_1ANT_B_FTP) {
++			coex_sta->pan_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8723B_1ANT_B_A2DP) {
++			coex_sta->a2dp_exist = true;	
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8723B_1ANT_B_HID) {
++			coex_sta->hid_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8723B_1ANT_B_SCO_ESCO) {
++			coex_sta->sco_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->sco_exist = false;
++
++		if ((coex_sta->hid_exist == false) &&
++		    (coex_sta->c2h_bt_inquiry_page == false) &&
++		    (coex_sta->sco_exist == false)) {
++			if (coex_sta->high_priority_tx  +
++			    coex_sta->high_priority_rx >= 160) {
++				coex_sta->hid_exist = true;
++				coex_sta->wrong_profile_notification++;
++				coex_sta->num_of_profile++;
++				bt_info = bt_info | 0x28;
++			}
++		}
++
++		/* Add Hi-Pri Tx/Rx counter to avoid false detection */
++		if (((coex_sta->hid_exist) || (coex_sta->sco_exist)) &&
++		    (coex_sta->high_priority_tx  +
++		     coex_sta->high_priority_rx >= 160)
++		    && (!coex_sta->c2h_bt_inquiry_page))
++			coex_sta->bt_hi_pri_link_exist = true;
++
++		if ((bt_info & BT_INFO_8723B_1ANT_B_ACL_BUSY) &&
++		    (coex_sta->num_of_profile == 0)) {
++			if (coex_sta->low_priority_tx  +
++			    coex_sta->low_priority_rx >= 160) {
++				coex_sta->pan_exist = true;
++				coex_sta->num_of_profile++;
++				coex_sta->wrong_profile_notification++;
++				bt_info = bt_info | 0x88;
++			}
++		}
++	}
++
++	halbtc8723b1ant_update_bt_link_info(btcoexist);
++	
++	bt_info = bt_info &
++		0x1f;  /* mask profile bit for connect-ilde identification ( for CSR case: A2DP idle --> 0x41) */
++	
++	if (!(bt_info & BT_INFO_8723B_1ANT_B_CONNECTION))
++		coex_dm->bt_status = BT_8723B_1ANT_BT_STATUS_NON_CONNECTED_IDLE;
++	else if (bt_info ==
++		BT_INFO_8723B_1ANT_B_CONNECTION)	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8723B_1ANT_BT_STATUS_CONNECTED_IDLE;
++	else if ((bt_info & BT_INFO_8723B_1ANT_B_SCO_ESCO) ||
++		 (bt_info & BT_INFO_8723B_1ANT_B_SCO_BUSY))
++		coex_dm->bt_status = BT_8723B_1ANT_BT_STATUS_SCO_BUSY;
++	else if (bt_info & BT_INFO_8723B_1ANT_B_ACL_BUSY) {
++		if(BT_8723B_1ANT_BT_STATUS_ACL_BUSY != coex_dm->bt_status)
++			coex_dm->auto_tdma_adjust = false;
++		coex_dm->bt_status = BT_8723B_1ANT_BT_STATUS_ACL_BUSY;
++	} else
++		coex_dm->bt_status = BT_8723B_1ANT_BT_STATUS_MAX;
++
++	if( (BT_8723B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++		(BT_8723B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		(BT_8723B_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status) )
++		bt_busy = true;
++	else
++		bt_busy = false;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	halbtc8723b1ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8723b1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u32	u32tmp;
++	u8	u8tmpa,u8tmpb, u8tmpc;
++	
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RF Status notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_RF_ON == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->stop_coex_dm = false;
++	} else if (BTC_RF_OFF == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 
++0x0, 0x0);
++		halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, 
++FORCE_EXEC, false, true);
++		
++		halbtc8723b1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++		btcoexist->stop_coex_dm = true;
++
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x948);
++		u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++ 		u8tmpb = btcoexist->btc_read_1byte(btcoexist, 0x67);
++		u8tmpc = btcoexist->btc_read_1byte(btcoexist, 0x76e);
++
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex], 0x948=0x%x, 0x765=0x%x, 0x67=0x%x, 0x76e=0x%x\n",
++			    u32tmp,  u8tmpa, u8tmpb, u8tmpc);
++		BTC_TRACE(trace_buf);
++
++	}
++}
++
++void ex_halbtc8723b1ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++	halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, FORCE_EXEC,
++				     false, true);
++
++	halbtc8723b1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++	ex_halbtc8723b1ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	btcoexist->stop_coex_dm = true;	
++}
++
++void ex_halbtc8723b1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, true);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++
++		/* Sinda 20150819, workaround for driver skip leave IPS/LPS to speed up sleep time. */
++		/* Driver do not leave IPS/LPS when driver is going to sleep, so BTCoexistence think wifi is still under IPS/LPS */
++		/* BT should clear UnderIPS/UnderLPS state to avoid mismatch state after wakeup. */
++		coex_sta->under_ips = false;
++		coex_sta->under_lps = false;
++		btcoexist->stop_coex_dm = true;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->stop_coex_dm = false;
++		halbtc8723b1ant_init_hw_config(btcoexist, false, false);
++		halbtc8723b1ant_init_coex_dm(btcoexist);
++		halbtc8723b1ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8723b1ant_coex_dm_reset(IN struct btc_coexist *btcoexist)
++{
++
++	halbtc8723b1ant_init_hw_config(btcoexist, false, false);
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0); */
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x2, 0xfffff, 0x0); */
++	halbtc8723b1ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8723b1ant_periodical(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ==========================Periodical===========================\n");
++	BTC_TRACE(trace_buf);
++
++#if(BT_AUTO_REPORT_ONLY_8723B_1ANT == 0)
++	halbtc8723b1ant_query_bt_info(btcoexist);
++	halbtc8723b1ant_monitor_bt_enable_disable(btcoexist);
++#else
++	halbtc8723b1ant_monitor_bt_ctr(btcoexist);
++	halbtc8723b1ant_monitor_wifi_ctr(btcoexist);
++#if BT_8723B_1ANT_ANTDET_ENABLE
++	halbtc8723b1ant_monitor_bt_enable_disable(btcoexist);
++#endif
++
++	if ((coex_sta->high_priority_tx  + coex_sta->high_priority_rx < 50) &&
++	    (bt_link_info->hid_exist == true))
++		bt_link_info->hid_exist  = false;
++
++	if( halbtc8723b1ant_is_wifi_status_changed(btcoexist) ||
++		coex_dm->auto_tdma_adjust )
++		halbtc8723b1ant_run_coexist_mechanism(btcoexist);	
++
++	coex_sta->specific_pkt_period_cnt++;
++
++	/* sample to set bt to execute Ant detection */
++	/* btcoexist->btc_set_bt_ant_detection(btcoexist, 20, 14);
++	*
++	if (psd_scan->is_ant_det_enable)
++	{
++		 if (psd_scan->psd_gen_count > psd_scan->realseconds)
++			psd_scan->psd_gen_count = 0;
++
++		halbtc8723b1ant_antenna_detection(btcoexist, psd_scan->realcent_freq,  psd_scan->realoffset, psd_scan->realspan,  psd_scan->realseconds);
++		psd_scan->psd_gen_total_count +=2;
++		psd_scan->psd_gen_count += 2;
++	}
++	*/	 	
++#endif
++}
++
++void ex_halbtc8723b1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++#if BT_8723B_1ANT_ANTDET_ENABLE	
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	/*boolean scan, roam;*/
++
++	if (seconds == 0) {
++		psd_scan->ant_det_try_count	= 0;
++		psd_scan->ant_det_fail_count	= 0;
++		ant_det_count = 0;
++		ant_det_fail_count = 0;
++		board_info->btdm_ant_det_finish = false;
++		board_info->btdm_ant_num_by_ant_det = 1;
++		return;
++	}
++
++	if (!board_info->btdm_ant_det_finish) {
++		psd_scan->ant_det_inteval_count =
++			psd_scan->ant_det_inteval_count + 2;
++
++		if (psd_scan->ant_det_inteval_count >=
++		    BT_8723B_1ANT_ANTDET_RETRY_INTERVAL) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is up, Try Detect!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b1ant_psd_antenna_detection_check(btcoexist);
++
++			if (board_info->btdm_ant_det_finish) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Success!!\n");
++				BTC_TRACE(trace_buf);
++#if 1
++				if (board_info->btdm_ant_num_by_ant_det == 2)
++					halbtc8723b1ant_mechanism_switch(
++						btcoexist, true);
++				else
++					halbtc8723b1ant_mechanism_switch(
++						btcoexist, false);
++#endif
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Fail!!\n");
++				BTC_TRACE(trace_buf);
++			}
++			psd_scan->ant_det_inteval_count = 0;
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is not up! (%d)\n",
++				    psd_scan->ant_det_inteval_count);
++			BTC_TRACE(trace_buf);
++		}
++
++	}
++#endif
++		
++		
++/*
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++
++		psd_scan->ant_det_bt_tx_time = seconds;
++	psd_scan->ant_det_bt_le_channel = cent_freq;		
++		
++	if (seconds == 0)
++		{
++		psd_scan->ant_det_try_count	= 0;
++		psd_scan->ant_det_fail_count	= 0;
++		ant_det_count = 0;
++		ant_det_fail_count = 0;
++		board_info->btdm_ant_det_finish = false;
++		board_info->btdm_ant_num_by_ant_det = 1;
++			 return;
++	}
++	else
++	{
++ 		ant_det_count++;
++	
++		psd_scan->ant_det_try_count = ant_det_count;	
++				
++			if (scan ||roam)
++		{
++			board_info->btdm_ant_det_finish = false;
++			psd_scan->ant_det_result = 6;
++		}
++		else if (coex_sta->num_of_profile >= 1) 
++		{
++			board_info->btdm_ant_det_finish = false;
++			psd_scan->ant_det_result = 7;
++		}			
++			else if (!psd_scan->ant_det_is_ant_det_available)
++		{
++			board_info->btdm_ant_det_finish = false;
++			psd_scan->ant_det_result = 9;
++		}				
++		else if (coex_sta->c2h_bt_inquiry_page)
++		{
++			board_info->btdm_ant_det_finish = false;
++			psd_scan->ant_det_result = 10;
++		}	
++		else
++		{
++
++	}
++
++		if (!board_info->btdm_ant_det_finish)
++			ant_det_fail_count++;
++
++		psd_scan->ant_det_fail_count = ant_det_fail_count;
++	}
++*/
++}
++
++
++void ex_halbtc8723b1ant_display_ant_detection(IN struct btc_coexist *btcoexist)
++{
++#if BT_8723B_1ANT_ANTDET_ENABLE
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	if (psd_scan->ant_det_try_count != 0)	{
++		halbtc8723b1ant_psd_show_antenna_detect_result(btcoexist);
++
++		if (board_info->btdm_ant_det_finish)
++			halbtc8723b1ant_psd_showdata(btcoexist);
++		return;
++	}
++#endif
++	
++	/* halbtc8723b1ant_show_psd_data(btcoexist); */
++}
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723b1Ant.h b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723b1Ant.h
+new file mode 100644
+index 0000000..19bac7b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723b1Ant.h
+@@ -0,0 +1,288 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8723B_SUPPORT == 1)
++/* *******************************************
++ * The following is for 8723B 1ANT BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8723B_1ANT				1
++
++#define	BT_INFO_8723B_1ANT_B_FTP						BIT(7)
++#define	BT_INFO_8723B_1ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8723B_1ANT_B_HID						BIT(5)
++#define	BT_INFO_8723B_1ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8723B_1ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8723B_1ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8723B_1ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8723B_1ANT_B_CONNECTION				BIT(0)
++
++#define	BT_INFO_8723B_1ANT_A2DP_BASIC_RATE(_BT_INFO_EXT_)	\
++		(((_BT_INFO_EXT_&BIT(0))) ? true : false)
++
++#define	BTC_RSSI_COEX_THRESH_TOL_8723B_1ANT		2
++
++#define  BT_8723B_1ANT_WIFI_NOISY_THRESH								50 /* 30   //max: 255								 */
++
++/* for Antenna detection */
++#define	BT_8723B_1ANT_ANTDET_PSDTHRES_BACKGROUND						50
++#define	BT_8723B_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION				70
++#define	BT_8723B_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION			55
++#define	BT_8723B_1ANT_ANTDET_PSDTHRES_1ANT							32
++#define	BT_8723B_1ANT_ANTDET_RETRY_INTERVAL							10	/* retry timer if ant det is fail, unit: second */
++#define	BT_8723B_1ANT_ANTDET_SWEEPPOINT_DELAY							40000  
++#define	BT_8723B_1ANT_ANTDET_ENABLE										1
++#define	BT_8723B_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE				1
++#define	BT_8723B_1ANT_ANTDET_BTTXTIME									100
++#define	BT_8723B_1ANT_ANTDET_BTTXCHANNEL								39
++
++enum bt_info_src_8723b_1ant {
++	BT_INFO_SRC_8723B_1ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8723B_1ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8723B_1ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8723B_1ANT_MAX
++};
++
++enum bt_8723b_1ant_bt_status {
++	BT_8723B_1ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8723B_1ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8723B_1ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8723B_1ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8723B_1ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8723B_1ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8723B_1ANT_BT_STATUS_MAX
++};
++
++enum bt_8723b_1ant_wifi_status {
++	BT_8723B_1ANT_WIFI_STATUS_NON_CONNECTED_IDLE				= 0x0,
++	BT_8723B_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN		= 0x1,
++	BT_8723B_1ANT_WIFI_STATUS_CONNECTED_SCAN					= 0x2,
++	BT_8723B_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT				= 0x3,
++	BT_8723B_1ANT_WIFI_STATUS_CONNECTED_IDLE					= 0x4,
++	BT_8723B_1ANT_WIFI_STATUS_CONNECTED_BUSY					= 0x5,
++	BT_8723B_1ANT_WIFI_STATUS_MAX
++};
++
++enum bt_8723b_1ant_coex_algo {
++	BT_8723B_1ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8723B_1ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8723B_1ANT_COEX_ALGO_HID				= 0x2,
++	BT_8723B_1ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8723B_1ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8723B_1ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8723B_1ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8723B_1ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8723B_1ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8723B_1ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8723B_1ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8723B_1ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++struct coex_dm_8723b_1ant {
++	/* hw setting */
++	u8		pre_ant_pos_type;
++	u8		cur_ant_pos_type;
++	/* fw mechanism */
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	/* sw mechanism */
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++	u32		arp_cnt;
++
++	u8		error_condition;
++};
++
++struct coex_sta_8723b_1ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++	boolean					bt_hi_pri_link_exist;
++	u8					num_of_profile;
++	boolean					bt_abnormal_scan;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					specific_pkt_period_cnt;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	s8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8723B_1ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8723B_1ANT_MAX];
++	boolean					bt_whck_test;
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_remote_name_req;
++	boolean					wifi_is_high_pri_task;		/* Add for win8.1 page out issue */
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++	
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	boolean					cck_lock;
++	boolean					pre_ccklock;
++	boolean					cck_ever_lock;
++	u8					coex_table_type;
++
++	boolean					force_lps_on;
++	u32					wrong_profile_notification;
++
++	u8					a2dp_bit_pool;
++	u8					cut_version;
++};
++
++#define BT_8723B_1ANT_ANTDET_PSD_POINTS			256	/* MAX:1024 */
++#define BT_8723B_1ANT_ANTDET_PSD_AVGNUM		1	/* MAX:3 */
++#define	BT_8723B_1ANT_ANTDET_BUF_LEN			16
++
++struct psdscan_sta_8723b_1ant {
++
++	u32			ant_det_bt_le_channel;  /* BT LE Channel ex:2412 */
++	u32			ant_det_bt_tx_time;
++	u32			ant_det_pre_psdscan_peak_val;
++	boolean			ant_det_is_ant_det_available;
++	u32			ant_det_psd_scan_peak_val;
++	boolean			ant_det_is_btreply_available;
++	u32			ant_det_psd_scan_peak_freq;
++
++	u8			ant_det_result;
++	u8			ant_det_peak_val[BT_8723B_1ANT_ANTDET_BUF_LEN];
++	u8			ant_det_peak_freq[BT_8723B_1ANT_ANTDET_BUF_LEN];
++	u32			ant_det_try_count;
++	u32			ant_det_fail_count;
++	u32			ant_det_inteval_count;
++	u32			ant_det_thres_offset;
++
++	u32			real_cent_freq;
++	s32			real_offset;
++	u32			real_span;
++	
++	u32			psd_band_width;  /* unit: Hz */
++	u32			psd_point;		/* 128/256/512/1024 */
++	u32			psd_report[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_report_max_hold[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_start_point;
++	u32			psd_stop_point;
++	u32			psd_max_value_point;
++	u32			psd_max_value;
++	u32			psd_start_base;
++	u32			psd_avg_num;	/* 1/8/16/32 */
++	u32			psd_gen_count;
++	boolean			is_psd_running;
++	boolean			is_psd_show_max_only;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8723b1ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b1ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8723b1ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b1ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8723b1ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8723b1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8723b1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8723b1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723b1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723b1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8723b1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723b1ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8723b1ant_coex_dm_reset(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b1ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b1ant_display_coex_info(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++
++void ex_halbtc8723b1ant_display_ant_detection(IN struct btc_coexist *btcoexist);
++
++#else
++#define	ex_halbtc8723b1ant_power_on_setting(btcoexist)
++#define	ex_halbtc8723b1ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8723b1ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8723b1ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8723b1ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8723b1ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8723b1ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8723b1ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8723b1ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8723b1ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8723b1ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8723b1ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8723b1ant_halt_notify(btcoexist)
++#define	ex_halbtc8723b1ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8723b1ant_coex_dm_reset(btcoexist)
++#define	ex_halbtc8723b1ant_periodical(btcoexist)
++#define	ex_halbtc8723b1ant_display_coex_info(btcoexist)
++#define	ex_halbtc8723b1ant_antenna_detection(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8723b1ant_display_ant_detection(btcoexist)
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723b2Ant.c b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723b2Ant.c
+new file mode 100644
+index 0000000..2c34f67
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723b2Ant.c
+@@ -0,0 +1,4920 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8723B Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8723B_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8723b_2ant		glcoex_dm_8723b_2ant;
++static struct  coex_dm_8723b_2ant	*coex_dm = &glcoex_dm_8723b_2ant;
++static struct  coex_sta_8723b_2ant		glcoex_sta_8723b_2ant;
++static struct  coex_sta_8723b_2ant	*coex_sta = &glcoex_sta_8723b_2ant;
++
++const char *const glbt_info_src_8723b_2ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8723b_2ant = 20151223;
++u32	glcoex_ver_8723b_2ant = 0x4a;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8723b2ant_
++ * ************************************************************ */
++u8 halbtc8723b2ant_bt_rssi_state(u8 *ppre_bt_rssi_state, u8 level_num,
++				 u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = *ppre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((*ppre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*ppre_bt_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8723B_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return *ppre_bt_rssi_state;
++		}
++
++		if ((*ppre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*ppre_bt_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8723B_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((*ppre_bt_rssi_state == BTC_RSSI_STATE_MEDIUM) ||
++			(*ppre_bt_rssi_state == BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8723B_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	*ppre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8723b2ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 *pprewifi_rssi_state, IN u8 level_num, IN u8 rssi_thresh,
++				   IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = *pprewifi_rssi_state;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((*pprewifi_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*pprewifi_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8723B_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return *pprewifi_rssi_state;
++		}
++
++		if ((*pprewifi_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*pprewifi_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8723B_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((*pprewifi_rssi_state == BTC_RSSI_STATE_MEDIUM) ||
++			(*pprewifi_rssi_state == BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8723B_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	*pprewifi_rssi_state = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8723b2ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean		bt_active = true, bt_disabled = false;
++
++	/* This function check if bt is disabled */
++
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++	} else {
++		bt_disable_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], bt all counters=0, %d times!!\n",
++			    bt_disable_cnt);
++		BTC_TRACE(trace_buf);
++		if (bt_disable_cnt >= 2)
++			bt_disabled = true;
++	}
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++
++		coex_sta->bt_disabled = bt_disabled;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++		if (bt_disabled) {
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++					   NULL);
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++					   NULL);
++		}
++	}
++}
++
++
++void halbtc8723b2ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++}
++
++void halbtc8723b2ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	if ((coex_sta->low_priority_tx > 1050)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++
++	if ((coex_sta->low_priority_rx >= 950)  &&
++	    (coex_sta->low_priority_rx >= coex_sta->low_priority_tx) &&
++	    (!coex_sta->under_ips))
++		bt_link_info->slave_role = true;
++	else
++		bt_link_info->slave_role = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], High Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		    reg_hp_txrx, reg_hp_tx, reg_hp_tx, reg_hp_rx, reg_hp_rx);
++	BTC_TRACE(trace_buf);
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], Low Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		    reg_lp_txrx, reg_lp_tx, reg_lp_tx, reg_lp_rx, reg_lp_rx);
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++}
++
++void halbtc8723b2ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++
++
++	if (coex_sta->under_ips) {
++		coex_sta->crc_ok_cck = 0;
++		coex_sta->crc_ok_11g = 0;
++		coex_sta->crc_ok_11n = 0;
++		coex_sta->crc_ok_11n_agg = 0;
++
++		coex_sta->crc_err_cck = 0;
++		coex_sta->crc_err_11g = 0;
++		coex_sta->crc_err_11n = 0;
++		coex_sta->crc_err_11n_agg = 0;
++	} else {
++		coex_sta->crc_ok_cck	= btcoexist->btc_read_4byte(btcoexist,
++					  0xf88);
++		coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf94);
++		coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf90);
++		coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					   0xfb8);
++
++		coex_sta->crc_err_cck	 = btcoexist->btc_read_4byte(btcoexist,
++					   0xf84);
++		coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf96);
++		coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf92);
++		coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					    0xfba);
++	}
++
++	/* reset counter */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x0);
++}
++
++void halbtc8723b2ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++boolean halbtc8723b2ant_is_wifi_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false;
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	boolean			wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean			wifi_connected = false;
++	u8			wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++
++
++		wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++				  &prewifi_rssi_state, 2,
++				  BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++				  coex_dm->switch_thres_offset, 0);
++
++		if ((BTC_RSSI_STATE_HIGH == wifi_rssi_state) ||
++		    (BTC_RSSI_STATE_LOW == wifi_rssi_state))
++			return true;
++
++	}
++
++	return false;
++}
++
++void halbtc8723b2ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++u8 halbtc8723b2ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8723B_2ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8723B_2ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723B_2ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723B_2ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8723B_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				{
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], HID + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_HID_A2DP;
++				}
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8723B_2ANT_COEX_ALGO_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8723b2ant_set_fw_dac_swing_level(IN struct btc_coexist *btcoexist,
++		IN u8 dac_swing_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	/* There are several type of dacswing */
++	/* 0x18/ 0x10/ 0xc/ 0x8/ 0x4/ 0x6 */
++	h2c_parameter[0] = dac_swing_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x64, 1, h2c_parameter);
++}
++
++void halbtc8723b2ant_set_fw_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				       IN u8 dec_bt_pwr_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = dec_bt_pwr_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x62, 1, h2c_parameter);
++}
++
++void halbtc8723b2ant_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				IN boolean force_exec, IN u8 dec_bt_pwr_lvl)
++{
++	coex_dm->cur_bt_dec_pwr_lvl = dec_bt_pwr_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_dec_pwr_lvl == coex_dm->cur_bt_dec_pwr_lvl)
++			return;
++	}
++	halbtc8723b2ant_set_fw_dec_bt_pwr(btcoexist,
++					  coex_dm->cur_bt_dec_pwr_lvl);
++
++	coex_dm->pre_bt_dec_pwr_lvl = coex_dm->cur_bt_dec_pwr_lvl;
++}
++
++void halbtc8723b2ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8723b2ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8723b2ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8723b2ant_fw_dac_swing_lvl(IN struct btc_coexist *btcoexist,
++			      IN boolean force_exec, IN u8 fw_dac_swing_lvl)
++{
++	coex_dm->cur_fw_dac_swing_lvl = fw_dac_swing_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_fw_dac_swing_lvl ==
++		    coex_dm->cur_fw_dac_swing_lvl)
++			return;
++	}
++
++	halbtc8723b2ant_set_fw_dac_swing_level(btcoexist,
++					       coex_dm->cur_fw_dac_swing_lvl);
++
++	coex_dm->pre_fw_dac_swing_lvl = coex_dm->cur_fw_dac_swing_lvl;
++}
++
++void halbtc8723b2ant_set_sw_rf_rx_lpf_corner(IN struct btc_coexist *btcoexist,
++		IN boolean rx_rf_shrink_on)
++{
++	if (rx_rf_shrink_on) {
++		/* Shrink RF Rx LPF corner */
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Shrink RF Rx LPF corner!!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e, 0xfffff,
++					  0xffffc);
++	} else {
++		/* Resume RF Rx LPF corner */
++		/* After initialized, we can use coex_dm->bt_rf_0x1e_backup */
++		if (btcoexist->initilized) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Resume RF Rx LPF corner!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++					  0xfffff, coex_dm->bt_rf_0x1e_backup);
++		}
++	}
++}
++
++void halbtc8723b2ant_rf_shrink(IN struct btc_coexist *btcoexist,
++		       IN boolean force_exec, IN boolean rx_rf_shrink_on)
++{
++	coex_dm->cur_rf_rx_lpf_shrink = rx_rf_shrink_on;
++
++	if (!force_exec) {
++		if (coex_dm->pre_rf_rx_lpf_shrink ==
++		    coex_dm->cur_rf_rx_lpf_shrink)
++			return;
++	}
++	halbtc8723b2ant_set_sw_rf_rx_lpf_corner(btcoexist,
++						coex_dm->cur_rf_rx_lpf_shrink);
++
++	coex_dm->pre_rf_rx_lpf_shrink = coex_dm->cur_rf_rx_lpf_shrink;
++}
++
++void halbtc8723b2ant_set_sw_penalty_tx_rate_adaptive(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf4;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf5;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf6;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8723b2ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8723b2ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8723b2ant_set_dac_swing_reg(IN struct btc_coexist *btcoexist,
++				       IN u32 level)
++{
++	u8	val = (u8)level;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Write SwDacSwing = 0x%x\n", level);
++	BTC_TRACE(trace_buf);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x883, 0x3e, val);
++}
++
++void halbtc8723b2ant_set_sw_full_time_dac_swing(IN struct btc_coexist
++		*btcoexist, IN boolean sw_dac_swing_on, IN u32 sw_dac_swing_lvl)
++{
++	if (sw_dac_swing_on)
++		halbtc8723b2ant_set_dac_swing_reg(btcoexist, sw_dac_swing_lvl);
++	else
++		halbtc8723b2ant_set_dac_swing_reg(btcoexist, 0x18);
++}
++
++
++void halbtc8723b2ant_dac_swing(IN struct btc_coexist *btcoexist,
++	IN boolean force_exec, IN boolean dac_swing_on, IN u32 dac_swing_lvl)
++{
++	coex_dm->cur_dac_swing_on = dac_swing_on;
++	coex_dm->cur_dac_swing_lvl = dac_swing_lvl;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_dac_swing_on == coex_dm->cur_dac_swing_on) &&
++		    (coex_dm->pre_dac_swing_lvl ==
++		     coex_dm->cur_dac_swing_lvl))
++			return;
++	}
++	delay_ms(30);
++	halbtc8723b2ant_set_sw_full_time_dac_swing(btcoexist, dac_swing_on,
++			dac_swing_lvl);
++
++	coex_dm->pre_dac_swing_on = coex_dm->cur_dac_swing_on;
++	coex_dm->pre_dac_swing_lvl = coex_dm->cur_dac_swing_lvl;
++}
++
++void halbtc8723b2ant_set_adc_back_off(IN struct btc_coexist *btcoexist,
++				      IN boolean adc_back_off)
++{
++	if (adc_back_off) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB BackOff Level On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xc05, 0x30, 0x3);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB BackOff Level Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xc05, 0x30, 0x1);
++	}
++}
++
++void halbtc8723b2ant_adc_back_off(IN struct btc_coexist *btcoexist,
++			  IN boolean force_exec, IN boolean adc_back_off)
++{
++	coex_dm->cur_adc_back_off = adc_back_off;
++
++	if (!force_exec) {
++		if (coex_dm->pre_adc_back_off == coex_dm->cur_adc_back_off)
++			return;
++	}
++	halbtc8723b2ant_set_adc_back_off(btcoexist, coex_dm->cur_adc_back_off);
++
++	coex_dm->pre_adc_back_off = coex_dm->cur_adc_back_off;
++}
++
++void halbtc8723b2ant_set_agc_table(IN struct btc_coexist *btcoexist,
++				   IN boolean agc_table_en)
++{
++	u8		rssi_adjust_val = 0;
++
++	/* =================BB AGC Gain Table */
++	if (agc_table_en) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB Agc Table On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6e1A0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6d1B0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6c1C0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6b1D0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6a1E0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x691F0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x68200001);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB Agc Table Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xaa1A0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa91B0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa81C0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa71D0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa61E0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa51F0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa4200001);
++	}
++
++
++	/* =================RF Gain */
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xef, 0xfffff, 0x02000);
++	if (agc_table_en) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x38fff);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x38ffe);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x380c3);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x28ce6);
++	}
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xef, 0xfffff, 0x0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xed, 0xfffff, 0x1);
++	if (agc_table_en) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x40, 0xfffff,
++					  0x38fff);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x40, 0xfffff,
++					  0x38ffe);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x40, 0xfffff,
++					  0x380c3);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x40, 0xfffff,
++					  0x28ce6);
++	}
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xed, 0xfffff, 0x0);
++
++	/* set rssi_adjust_val for wifi module. */
++	if (agc_table_en)
++		rssi_adjust_val = 8;
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RSSI_ADJ_VAL_FOR_AGC_TABLE_ON,
++			   &rssi_adjust_val);
++}
++
++void halbtc8723b2ant_agc_table(IN struct btc_coexist *btcoexist,
++			       IN boolean force_exec, IN boolean agc_table_en)
++{
++	coex_dm->cur_agc_table_en = agc_table_en;
++
++	if (!force_exec) {
++		if (coex_dm->pre_agc_table_en == coex_dm->cur_agc_table_en)
++			return;
++	}
++	halbtc8723b2ant_set_agc_table(btcoexist, agc_table_en);
++
++	coex_dm->pre_agc_table_en = coex_dm->cur_agc_table_en;
++}
++
++void halbtc8723b2ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8723b2ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8723b2ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8723b2ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	coex_sta->coex_table_type = type;
++
++	switch (type) {
++	case 0:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x55555555, 0xffffff, 0x3);
++		break;
++	case 1:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5afa5afa, 0xffffff, 0x3);
++		break;
++	case 2:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x5ada5ada, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 3:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0xaaaaaaaa, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 4:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0xffffffff, 0xffffffff, 0xffffff, 0x3);
++		break;
++	case 5:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x5fff5fff, 0x5fff5fff, 0xffffff, 0x3);
++		break;
++	case 6:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55ff55ff, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 7:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 8:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 9:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 10:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 11:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 12:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 13:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x5fff5fff, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 14:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x5fff5fff, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 15:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8723b2ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8723b2ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8723b2ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8723b2ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8723b2ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8723b2ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8723b2ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++
++
++	if ((coex_sta->a2dp_exist) && (coex_sta->hid_exist))
++		byte5 = byte5 | 0x1;
++
++	h2c_parameter[0] = byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = byte5;
++
++	coex_dm->ps_tdma_para[0] = byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++void halbtc8723b2ant_sw_mechanism1(IN struct btc_coexist *btcoexist,
++			   IN boolean shrink_rx_lpf, IN boolean low_penalty_ra,
++			   IN boolean limited_dig, IN boolean bt_lna_constrain)
++{
++	/*
++	u32	wifi_bw;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if(BTC_WIFI_BW_HT40 != wifi_bw)
++	{
++		if (shrink_rx_lpf)
++			shrink_rx_lpf = false;
++	}
++	*/
++
++	/* halbtc8723b2ant_rf_shrink(btcoexist, NORMAL_EXEC, shrink_rx_lpf); */
++	halbtc8723b2ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8723b2ant_sw_mechanism2(IN struct btc_coexist *btcoexist,
++			   IN boolean agc_table_shift, IN boolean adc_back_off,
++			   IN boolean sw_dac_swing, IN u32 dac_swing_lvl)
++{
++	/* halbtc8723b2ant_agc_table(btcoexist, NORMAL_EXEC, agc_table_shift); */
++	/* halbtc8723b2ant_adc_back_off(btcoexist, NORMAL_EXEC, adc_back_off); */
++	/* halbtc8723b2ant_dac_swing(btcoexist, NORMAL_EXEC, sw_dac_swing, dac_swing_lvl); */
++}
++
++void halbtc8723b2ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean init_hwcfg, IN boolean wifi_off)
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++	PADAPTER 		pAdapter = btcoexist->Adapter;
++	u32			fw_ver = 0, u32tmp = 0, cnt_bt_cal_chk = 0;
++	boolean			pg_ext_switch = false;
++	boolean			use_ext_switch = false;
++	u8			h2c_parameter[2] = {0};
++	u32				u32tmp_1[4];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_EXT_SWITCH, &pg_ext_switch);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER,
++			   &fw_ver);	/* [31:16]=fw ver, [15:0]=fw sub ver */
++
++	if ((fw_ver > 0 && fw_ver < 0xc0000) || pg_ext_switch)
++		use_ext_switch = true;
++
++	if (init_hwcfg) {
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x39, 0x8, 0x1);
++		btcoexist->btc_write_1byte(btcoexist, 0x974, 0xff);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x944, 0x3, 0x3);
++		btcoexist->btc_write_1byte(btcoexist, 0x930, 0x77);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x20, 0x1);
++
++		if (fw_ver >= 0x180000) {
++			/* Use H2C to set GNT_BT to High to avoid A2DP click */
++			h2c_parameter[0] = 1;
++			btcoexist->btc_fill_h2c(btcoexist, 0x6E, 1,
++						h2c_parameter);
++
++			cnt_bt_cal_chk = 0;
++			while(1)
++			{
++				if( pAdapter->bFWReady == FALSE )
++				{
++					//RT_TRACE(COMP_INIT , DBG_LOUD, ("halbtc8723b2ant_SetAntPath(): we don't need to wait for H2C command completion because of Fw download fail!!!\n"));
++					break;
++				}
++				
++				if( btcoexist->btc_read_1byte(btcoexist, 0x765) == 0x18 )
++					break;
++
++				cnt_bt_cal_chk++;
++				if( cnt_bt_cal_chk > 20 )
++					break;
++			}
++		} else
++			btcoexist->btc_write_1byte(btcoexist, 0x765, 0x18);
++		u32tmp_1[0] = btcoexist->btc_read_4byte(btcoexist, 0x948);
++		if( (u32tmp_1[0] == 0x40) || (u32tmp_1[0] == 0x240))
++			btcoexist->btc_write_4byte(btcoexist, 0x948, u32tmp_1[0]);
++		else
++			btcoexist->btc_write_4byte(btcoexist, 0x948, 0x0);
++
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x0); /* WiFi TRx Mask off */
++		/* remove due to interrupt is disabled that polling c2h will fail and delay 100ms. */
++		/* btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x3c, 0x01); //BT TRx Mask off */
++
++		if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT) {
++			/* tell firmware "no antenna inverse" */
++			h2c_parameter[0] = 0;
++		} else {
++			/* tell firmware "antenna inverse" */
++			h2c_parameter[0] = 1;
++		}
++
++		if (use_ext_switch) {
++			/* ext switch type */
++			h2c_parameter[1] = 1;
++		} else {
++			/* int switch type */
++			h2c_parameter[1] = 0;
++		}
++		btcoexist->btc_fill_h2c(btcoexist, 0x65, 2, h2c_parameter);
++	} else {
++		if (fw_ver >= 0x180000) {
++			/* Use H2C to set GNT_BT to "Control by PTA"*/
++			h2c_parameter[0] = 0;
++			btcoexist->btc_fill_h2c(btcoexist, 0x6E, 1,
++						h2c_parameter);
++
++			cnt_bt_cal_chk = 0;
++			while(1)
++			{
++				if( pAdapter->bFWReady == FALSE )
++				{
++					//RT_TRACE(COMP_INIT , DBG_LOUD, ("halbtc8723b2ant_SetAntPath(): we don't need to wait for H2C command completion because of Fw download fail!!!\n"));
++					break;
++				}
++				
++				if( btcoexist->btc_read_1byte(btcoexist, 0x765) == 0x0 )
++					break;
++
++				cnt_bt_cal_chk++;
++				if( cnt_bt_cal_chk > 20 )
++					break;
++			}
++		} else
++			btcoexist->btc_write_1byte(btcoexist, 0x765, 0x0);
++	}
++
++	/* ext switch setting */
++	if (use_ext_switch) {
++		if (init_hwcfg) {
++			/* 0x4c[23]=0, 0x4c[24]=1  Antenna control by WL/BT */
++			u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++			u32tmp &= ~BIT(23);
++			u32tmp |= BIT(24);
++			btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++		}
++		u32tmp_1[0] = btcoexist->btc_read_4byte(btcoexist, 0x948);
++		if( (u32tmp_1[0] == 0x40) || (u32tmp_1[0] == 0x240))
++			btcoexist->btc_write_4byte(btcoexist, 0x948, u32tmp_1[0]);
++		else
++			btcoexist->btc_write_4byte(btcoexist, 0x948, 0x0);
++		
++		switch (ant_pos_type) {
++		case BTC_ANT_WIFI_AT_MAIN:
++			btcoexist->btc_write_1byte_bitmask(btcoexist,
++							   0x92c, 0x3,
++					   0x1);	/* ext switch main at wifi */
++			break;
++		case BTC_ANT_WIFI_AT_AUX:
++			btcoexist->btc_write_1byte_bitmask(btcoexist,
++							   0x92c, 0x3,
++					   0x2);	/* ext switch aux at wifi */
++			break;
++		}
++	} else {	/* internal switch */
++		if (init_hwcfg) {
++			/* 0x4c[23]=0, 0x4c[24]=1  Antenna control by WL/BT */
++			u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++			u32tmp |= BIT(23);
++			u32tmp &= ~BIT(24);
++			btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++		}
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x64, 0x1,
++			   0x0); /* fixed external switch S1->Main, S0->Aux */
++		switch (ant_pos_type) {
++		case BTC_ANT_WIFI_AT_MAIN:
++			u32tmp_1[0] = btcoexist->btc_read_4byte(btcoexist, 0x948);
++			if( (u32tmp_1[0] == 0x40) || (u32tmp_1[0] == 0x240))
++				btcoexist->btc_write_4byte(btcoexist, 0x948, u32tmp_1[0]);
++			else
++				btcoexist->btc_write_4byte(btcoexist, 0x948, 0x0);
++			break;
++		case BTC_ANT_WIFI_AT_AUX:
++			u32tmp_1[0] = btcoexist->btc_read_4byte(btcoexist, 0x948);
++			if( (u32tmp_1[0] == 0x40) || (u32tmp_1[0] == 0x240))
++				btcoexist->btc_write_4byte(btcoexist, 0x948, u32tmp_1[0]);
++			else
++				btcoexist->btc_write_4byte(btcoexist, 0x948, 0x280);
++			break;
++		}
++	}
++}
++#if 0
++boolean halbtc8723b2ant_CoexSwitchThresCheck(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8 wifi_rssi_state1, bt_rssi_state;
++	u32 vendor;
++	u8 offset = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_VENDOR, &vendor);
++
++	/* if (vendor == BTC_VENDOR_LENOVO) */
++	/*	offset = 20; */
++
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++		&prewifi_rssi_state, 2, BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES
++			   - coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	if (BTC_RSSI_LOW(wifi_rssi_state1) || BTC_RSSI_LOW(bt_rssi_state))
++		return true;
++
++	return false;
++}
++#endif
++
++void halbtc8723b2ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8			wifi_rssi_state1,  bt_rssi_state;
++	s8			wifi_duration_adjust = 0x0;
++	u8			psTdmaByte4Modify = 0x0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++		&prewifi_rssi_state, 2, BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES
++			   - coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], %s turn %s PS TDMA, type=%d\n",
++		(force_exec ? "force to" : ""), (turn_on ? "ON" : "OFF"), type);
++	BTC_TRACE(trace_buf);
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	if (!(BTC_RSSI_HIGH(wifi_rssi_state1) &&
++	      BTC_RSSI_HIGH(bt_rssi_state)) && turn_on)
++		/* if (halbtc8723b2ant_CoexSwitchThresCheck(btcoexist) &&  turn_on) */
++	{
++		type = type + 100; /* for WiFi RSSI low or BT RSSI low */
++		coex_dm->is_switch_to_1dot5_ant = true;
++	} else
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++
++	if (coex_sta->scan_ap_num <= 5) {
++		if (coex_sta->a2dp_bit_pool >= 45)
++			wifi_duration_adjust = -15;
++		else if (coex_sta->a2dp_bit_pool >= 35)
++			wifi_duration_adjust = -10;
++		else
++			wifi_duration_adjust = 5;
++	} else  if (coex_sta->scan_ap_num <= 20) {
++		if (coex_sta->a2dp_bit_pool >= 45)
++			wifi_duration_adjust = -15;
++		else if (coex_sta->a2dp_bit_pool >= 35)
++			wifi_duration_adjust = -10;
++		else
++			wifi_duration_adjust = 0;
++	} else if (coex_sta->scan_ap_num <= 40) {
++		if (coex_sta->a2dp_bit_pool >= 45)
++			wifi_duration_adjust = -15;
++		else if (coex_sta->a2dp_bit_pool >= 35)
++			wifi_duration_adjust = -10;
++		else
++			wifi_duration_adjust = -5;
++	} else {
++		if (coex_sta->a2dp_bit_pool >= 45)
++			wifi_duration_adjust = -15;
++		else if (coex_sta->a2dp_bit_pool >= 35)
++			wifi_duration_adjust = -10;
++		else
++			wifi_duration_adjust = -10;
++	}
++
++	if ((bt_link_info->slave_role == true)	&& (bt_link_info->a2dp_exist))
++		psTdmaByte4Modify =
++			0x1;  /* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++
++
++	if (turn_on) {
++		switch (type) {
++		case 1:
++		default:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x3c + wifi_duration_adjust, 0x03, 0xf1,
++						      0x90 | psTdmaByte4Modify);
++			break;
++		case 2:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x2d + wifi_duration_adjust, 0x03, 0xf1,
++						      0x90 | psTdmaByte4Modify);
++			break;
++		case 3:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0xf1,  0x90 |
++						      psTdmaByte4Modify);
++			break;
++		case 4:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x03, 0xf1,  0x90 |
++						      psTdmaByte4Modify);
++			break;
++		case 5:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x3c + wifi_duration_adjust, 0x3, 0x70,
++						      0x90 | psTdmaByte4Modify);
++			break;
++		case 6:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x2d + wifi_duration_adjust, 0x3, 0x70,
++						      0x90 | psTdmaByte4Modify);
++			break;
++		case 7:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0x70,  0x90 |
++						      psTdmaByte4Modify);
++			break;
++		case 8:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xa3,
++						      0x10, 0x3, 0x70,  0x90 |
++						      psTdmaByte4Modify);
++			break;
++		case 9:
++		/*
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x3c + wifi_duration_adjust, 0x03, 0xf1,
++						      0x90 | psTdmaByte4Modify);
++		*/
++		/* Bryant Modify for BT no-profile busy case */
++		halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x3c + wifi_duration_adjust, 0x03, 0xf1,
++						      0x91);
++						      
++			break;
++		case 10:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x2d + wifi_duration_adjust, 0x03, 0xf1,
++						      0x90 | psTdmaByte4Modify);
++			break;
++		case 11:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0xf1,  0x90 |
++						      psTdmaByte4Modify);
++			break;
++		case 12:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x3, 0xf1,  0x90 |
++						      psTdmaByte4Modify);
++			break;
++		case 13:
++		/*
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x3c + wifi_duration_adjust, 0x3, 0x70,
++						      0x90 | psTdmaByte4Modify);
++		*/
++		/* Bryant Modify for BT no-profile busy case */
++		halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x3c + wifi_duration_adjust, 0x3, 0x70,
++						      0x91);						      
++			break;
++		case 14:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x2d + wifi_duration_adjust, 0x3, 0x70,
++						      0x90 | psTdmaByte4Modify);
++			break;
++		case 15:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0x70,  0x90 |
++						      psTdmaByte4Modify);
++			break;
++		case 16:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x3, 0x70,  0x90 |
++						      psTdmaByte4Modify);
++			break;
++		case 17:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xa3,
++						      0x2f, 0x2f, 0x60, 0x90);
++			break;
++		case 18:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x5, 0x5, 0xe1, 0x90);
++			break;
++		case 19:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x25, 0xe1, 0x90);
++			break;
++		case 20:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x25, 0x60, 0x90);
++			break;
++		case 21:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x15, 0x03, 0x70, 0x90);
++			break;
++	  case 22:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x35, 0x03, 0xf1, 0x90);
++			break;	
++		case 23:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x35, 0x03, 0x71, 0x10);
++			break;	
++			
++	  case 33:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0xf1,  0x91);		
++		
++			break;
++		case 71:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x3c + wifi_duration_adjust, 0x03, 0xf1,
++						      0x90);
++			break;
++		case 101:
++		case 105:
++		case 113:
++		case 171:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xd3,
++				      0x3a + wifi_duration_adjust, 0x03, 0x70,
++						      0x50 | psTdmaByte4Modify);
++			break;
++		case 102:
++		case 106:
++		case 110:
++		case 114:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xd3,
++				      0x2d + wifi_duration_adjust, 0x03, 0x70,
++						      0x50 | psTdmaByte4Modify);
++			break;
++		case 103:
++		case 107:
++		case 111:
++		case 115:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1c, 0x03, 0x70, 0x50 |
++						      psTdmaByte4Modify);
++			break;
++		case 104:
++		case 108:
++		case 112:
++		case 116:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x10, 0x03, 0x70, 0x50 |
++						      psTdmaByte4Modify);
++			break;
++		case 109:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x03, 0xf1, 0x90 |
++						      psTdmaByte4Modify);
++			break;
++		/* case 113:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x03, 0x70, 0x90 |
++						      psTdmaByte4Modify);
++			break; */
++		case 121:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x15, 0x03, 0x70, 0x90 |
++						      psTdmaByte4Modify);
++			break;	
++		case 122:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x35, 0x03, 0x71, 0x11);
++			break;
++	  case 123:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x35, 0x03, 0x71, 0x10);
++			break;		
++	  case 133:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1c, 0x3, 0x70,  0x51);		
++		
++			break;		
++		}
++	} else {
++		/* disable PS tdma */
++		switch (type) {
++		case 0:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x40, 0x0);
++			break;
++		case 1:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x48, 0x0);
++			break;
++		default:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x40, 0x0);
++			break;
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8723b2ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8723b2ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8723b2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8723b2ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		coex_sta->force_lps_on = true;
++		break;
++	case BTC_PS_LPS_OFF:
++		halbtc8723b2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	default:
++		break;
++	}
++}
++
++
++void halbtc8723b2ant_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++	/* fw all off */
++	halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8723b2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723b2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	/* hw all off */
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0); */
++	halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8723b2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++	halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8723b2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 1);
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 6);
++	halbtc8723b2ant_dec_bt_pwr(btcoexist, FORCE_EXEC, 0);
++
++	halbtc8723b2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723b2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	coex_sta->pop_event_cnt = 0;
++
++}
++
++void halbtc8723b2ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	boolean	wifi_connected = false;
++	boolean	low_pwr_disable = true;
++	boolean		scan = false, link = false, roam = false;
++	boolean wifi_busy = false;
++
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++			   coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++			   &low_pwr_disable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	if (coex_sta->bt_abnormal_scan) {
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						23);
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);				
++	} else if (scan || link || roam) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi link process + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     7);
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++	} else if (wifi_connected) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     7);
++						     
++		if (wifi_busy)				     
++			halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++		else
++		  halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33); 	
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi no-link + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++	}
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 6);
++	halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8723b2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723b2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	/*
++		coex_dm->need_recover0x948 = true;
++		coex_dm->backup0x948 = btcoexist->btc_read_4byte(btcoexist, 0x948);
++
++		halbtc8723b2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_AUX, false, false);
++	*/
++}
++
++
++void halbtc8723b2ant_action_wifi_link_process(IN struct btc_coexist *btcoexist)
++{
++	u32	u32tmp;
++	u8	u8tmpa, u8tmpb;
++
++	halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 15);
++	halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++
++	halbtc8723b2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723b2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x948);
++	u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++	u8tmpb = btcoexist->btc_read_1byte(btcoexist, 0x76e);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"############# [BTCoex], 0x948=0x%x, 0x765=0x%x, 0x76e=0x%x\n",
++		    u32tmp,  u8tmpa, u8tmpb);
++	BTC_TRACE(trace_buf);
++}
++
++boolean halbtc8723b2ant_action_wifi_idle_process(IN struct btc_coexist
++		*btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u8		ap_num = 0;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	/* wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist, 1, 2, BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES-coex_dm->switch_thres_offset-coex_dm->switch_thres_offset, 0); */
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++		coex_dm->switch_thres_offset - coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++		coex_dm->switch_thres_offset - coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM, &ap_num);
++
++	/* define the office environment */
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) &&
++	    (coex_sta->hid_exist == true) &&
++	    (coex_sta->a2dp_exist == true)) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi  idle process for BT HID+A2DP exist!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723b2ant_dac_swing(btcoexist, NORMAL_EXEC, true, 0x6);
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		/* sw all off */
++		halbtc8723b2ant_sw_mechanism1(btcoexist, false, false, false,
++					      false);
++		halbtc8723b2ant_sw_mechanism2(btcoexist, false, false, false,
++					      0x18);
++
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++
++		return true;
++	} else {
++		halbtc8723b2ant_dac_swing(btcoexist, NORMAL_EXEC, true, 0x18);
++		return false;
++	}
++
++
++}
++
++
++
++boolean halbtc8723b2ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++	boolean			bt_hs_on = false, low_pwr_disable = false;
++	boolean			asus_8723b = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected) {
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non-connected idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x0);
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++		halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723b2ant_sw_mechanism1(btcoexist, false, false, false,
++					      false);
++		halbtc8723b2ant_sw_mechanism2(btcoexist, false, false, false,
++					      0x18);
++
++		common = true;
++	} else {
++		if (BT_8723B_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status) {
++			low_pwr_disable = false;
++			btcoexist->btc_set(btcoexist,
++					   BTC_SET_ACT_DISABLE_LOW_POWER,
++					   &low_pwr_disable);
++			halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC,
++						   false, false, 0x8);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x0);
++			halbtc8723b2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++
++			halbtc8723b2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++			halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 0xb);
++			halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false, false,
++						      false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++
++			common = true;
++		} else if (BT_8723B_2ANT_BT_STATUS_CONNECTED_IDLE ==
++			   coex_dm->bt_status) {
++			low_pwr_disable = true;
++			btcoexist->btc_set(btcoexist,
++					   BTC_SET_ACT_DISABLE_LOW_POWER,
++					   &low_pwr_disable);
++
++			if (bt_hs_on)
++				return false;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi connected + BT connected-idle!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC,
++						   false, false, 0x8);
++
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x0);
++			halbtc8723b2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++
++			halbtc8723b2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++			halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 0xb);
++			halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++
++			common = true;
++		} else {
++			low_pwr_disable = true;
++			btcoexist->btc_set(btcoexist,
++					   BTC_SET_ACT_DISABLE_LOW_POWER,
++					   &low_pwr_disable);
++
++			if (wifi_busy) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++				BTC_TRACE(trace_buf);
++				/* btcoexist->btc_get(btcoexist,
++					BTC_GET_BL_IS_ASUS_8723B, &asus_8723b);
++				if (!asus_8723b) 
++					common = false;
++				else
++					common = halbtc8723b2ant_action_wifi_idle_process(
++							 btcoexist); */
++				common = false;
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++				BTC_TRACE(trace_buf);
++				/* common = false;	 */
++				common = halbtc8723b2ant_action_wifi_idle_process(
++						 btcoexist);
++			}
++		}
++	}
++
++	return common;
++}
++void halbtc8723b2ant_tdma_duration_adjust(IN struct btc_coexist *btcoexist,
++		IN boolean sco_hid, IN boolean tx_pause, IN u8 max_interval)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0;
++
++	if (!coex_dm->auto_tdma_adjust) {
++		coex_dm->auto_tdma_adjust = true;
++		{
++			if (sco_hid) {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					} else if (max_interval == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (max_interval == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					} else if (max_interval == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (max_interval == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			} else {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (max_interval == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (max_interval == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (max_interval == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (max_interval == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					}
++				}
++			}
++		}
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/* accquire the BT TRx retry count from BT_Info byte2 */
++		retry_count = coex_sta->bt_retry_cnt;
++
++		if ((coex_sta->low_priority_tx) > 1050 ||
++		    (coex_sta->low_priority_rx) > 1250)
++			retry_count++;
++
++		result = 0;
++		wait_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if retry count during continuous n*2 seconds is 0, enlarge WiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {/* if continuous 2 retry count(every 2 seconds) >0 and < 3, reduce WiFi duration */
++				if (wait_count <= 2)
++					m++; /* to avoid loop between the two levels */
++				else
++					m = 1;
++
++				if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++			}
++		} else { /* retry count > 3, once retry count > 3, to reduce WiFi duration */
++			if (wait_count == 1)
++				m++; /* to avoid loop between the two levels */
++			else
++				m = 1;
++
++			if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++		}
++
++		if (max_interval == 1) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 71) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 5);
++					coex_dm->ps_tdma_du_adj_type = 5;
++				} else if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 5);
++					coex_dm->ps_tdma_du_adj_type = 5;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 13);
++					coex_dm->ps_tdma_du_adj_type = 13;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 71);
++					coex_dm->ps_tdma_du_adj_type = 71;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 9);
++					coex_dm->ps_tdma_du_adj_type = 9;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 71) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 71);
++						coex_dm->ps_tdma_du_adj_type =
++							71;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					}
++				}
++			}
++		} else if (max_interval == 2) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					}
++				}
++			}
++		} else if (max_interval == 3) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			}
++		}
++	}
++
++	/* if current PsTdma not match with the recorded one (when scan, dhcp...), */
++	/* then we have to adjust it back to the previous record one. */
++	if (coex_dm->cur_ps_tdma != coex_dm->ps_tdma_du_adj_type) {
++		boolean	scan = false, link = false, roam = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], PsTdma type dismatch!!!, cur_ps_tdma=%d, recordPsTdma=%d\n",
++			    coex_dm->cur_ps_tdma, coex_dm->ps_tdma_du_adj_type);
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (!scan && !link && !roam)
++			halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						coex_dm->ps_tdma_du_adj_type);
++		else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], roaming/link/scan is under progress, will adjust next time!!!\n");
++			BTC_TRACE(trace_buf);
++		}
++	}
++}
++
++/* SCO only or SCO+PAN(HS) */
++void halbtc8723b2ant_action_sco(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8	wifi_rssi_state, bt_rssi_state;
++	u32	wifi_bw;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 4);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) /* for SCO quality at 11b/g mode */
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	else  /* for SCO quality & wifi performance balance at 11n mode */
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 8);
++
++	halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++				0); /* for voice quality */
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x4);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      true, 0x4);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x4);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      true, 0x4);
++		}
++	}
++}
++
++
++void halbtc8723b2ant_action_hid(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8	wifi_rssi_state, bt_rssi_state;
++	u32	wifi_bw;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) /* for HID at 11b/g mode */
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++	else  /* for HID quality & wifi performance balance at 11n mode */
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 9);
++
++	halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 9);
++	else
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* A2DP only / PAN(EDR) only/ A2DP+PAN(HS) */
++void halbtc8723b2ant_action_a2dp(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++	u8		ap_num = 0;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++			   coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM, &ap_num);
++
++	/* define the office environment */
++	if ((ap_num >= 10) && BTC_RSSI_HIGH(wifi_rssi_state1) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++		/* dbg_print(" AP#>10(%d)\n", ap_num); */
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x0);
++		halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++		halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++
++		/* sw mechanism */
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x18);
++		}
++		return;
++
++	}
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     13);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++		halbtc8723b2ant_tdma_duration_adjust(btcoexist, false, false,
++						     1);
++	else
++		halbtc8723b2ant_tdma_duration_adjust(btcoexist, false, true, 1);
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8723b2ant_action_a2dp_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++			   coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     13);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	halbtc8723b2ant_tdma_duration_adjust(btcoexist, false, true, 2);
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8723b2ant_action_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++			   coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     10);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     13);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 1);
++	else
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++
++/* PAN(HS) only */
++void halbtc8723b2ant_action_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++			   coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++	halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* PAN(EDR)+A2DP */
++void halbtc8723b2ant_action_pan_edr_a2dp(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u8		ap_num = 0;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++			   coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	else
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++					   &ap_num);
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     12);
++
++		if(ap_num < 10)
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, false, 1);
++		else
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, false, 3);
++
++	} else {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     13);
++		if(ap_num < 10)
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, true, 1);
++		else
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, true, 3);
++	}
++
++	/* sw mechanism	 */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8723b2ant_action_pan_edr_hid(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++			   coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     14);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++		if (BTC_WIFI_BW_HT40 == wifi_bw) {
++			halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 3);
++			/* halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 11); */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x780);
++		} else {
++			halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 6);
++			/* halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7); */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x0);
++		}
++		halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, false, 2);
++	} else {
++		halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		/* halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 14); */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x0);
++		halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, true, 2);
++	}
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* HID+A2DP+PAN(EDR) */
++void halbtc8723b2ant_action_hid_a2dp_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1,  bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++			   coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     14);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true,
++							     true, 3);
++		else
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true,
++							     false, 3);
++	} else
++		halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, true, 3);
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8723b2ant_action_hid_a2dp(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++	u8		ap_num = 0;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	/* bt_rssi_state = halbtc8723b2ant_bt_rssi_state(2, 29, 0); */
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++			   coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 3,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 37);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++					   &ap_num);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, true, 0x5);
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) {
++		if (BTC_RSSI_HIGH(bt_rssi_state))
++			halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++		else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++			halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++		else
++			halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	} else {
++		/* only 802.11N mode we have to dec bt power to 4 degree */
++		if (BTC_RSSI_HIGH(bt_rssi_state)) {
++			/* need to check ap Number of Not */
++			if (ap_num < 10)
++				halbtc8723b2ant_dec_bt_pwr(btcoexist,
++							   NORMAL_EXEC, 4);
++			else
++				halbtc8723b2ant_dec_bt_pwr(btcoexist,
++							   NORMAL_EXEC, 2);
++		} else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++			halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++		else
++			halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	}
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     14);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	if(BTC_RSSI_HIGH(bt_rssi_state)) {
++		if(ap_num < 10)
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, false, 1);
++		else
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, false, 3);
++	} else {
++		halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 18);
++		btcoexist->btc_write_1byte(btcoexist, 0x456, 0x38);
++		btcoexist->btc_write_2byte(btcoexist, 0x42a, 0x0808);
++		btcoexist->btc_write_4byte(btcoexist, 0x430, 0x0);
++		btcoexist->btc_write_4byte(btcoexist, 0x434, 0x01010000);
++
++		if(ap_num < 10)
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, true, 1);
++		else
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, true, 3);
++	}
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8723b2ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8723b2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723b2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++	halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8723b2ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8723b2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723b2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	/* hw all off */
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0); */
++	halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++}
++
++void halbtc8723b2ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8				algorithm = 0;
++	u32				num_of_wifi_link = 0;
++	u32				wifi_link_status = 0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean				miracast_plus_bt = false;
++	boolean				scan = false, link = false, roam = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	algorithm = halbtc8723b2ant_action_algorithm(btcoexist);
++	if (coex_sta->c2h_bt_inquiry_page &&
++	    (BT_8723B_2ANT_COEX_ALGO_PANHS != algorithm)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under inquiry/page scan !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_action_bt_inquiry(btcoexist);
++		return;
++	} else {
++		/*
++			if(coex_dm->need_recover0x948)
++			{
++				coex_dm->need_recover0x948 = false;
++				btcoexist->btc_write_4byte(btcoexist, 0x948, coex_dm->backup0x948);
++			}
++		*/
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++	if (scan || link || roam) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under Link Process !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_action_wifi_link_process(btcoexist);
++		return;
++	}
++
++	/* for P2P */
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist)
++			miracast_plus_bt = true;
++		else
++			miracast_plus_bt = false;
++
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8723b2ant_action_wifi_multi_port(btcoexist);
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++	coex_dm->cur_algorithm = algorithm;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Algorithm = %d\n",
++		    coex_dm->cur_algorithm);
++	BTC_TRACE(trace_buf);
++
++	if (halbtc8723b2ant_is_common_action(btcoexist)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Action 2-Ant common.\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->auto_tdma_adjust = false;
++	} else {
++		if (coex_dm->cur_algorithm != coex_dm->pre_algorithm) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], pre_algorithm=%d, cur_algorithm=%d\n",
++				coex_dm->pre_algorithm, coex_dm->cur_algorithm);
++			BTC_TRACE(trace_buf);
++			coex_dm->auto_tdma_adjust = false;
++		}
++		switch (coex_dm->cur_algorithm) {
++		case BT_8723B_2ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_sco(btcoexist);
++			break;
++		case BT_8723B_2ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_hid(btcoexist);
++			break;
++		case BT_8723B_2ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_a2dp(btcoexist);
++			break;
++		case BT_8723B_2ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_a2dp_pan_hs(btcoexist);
++			break;
++		case BT_8723B_2ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_pan_edr(btcoexist);
++			break;
++		case BT_8723B_2ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_pan_hs(btcoexist);
++			break;
++		case BT_8723B_2ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_pan_edr_a2dp(btcoexist);
++			break;
++		case BT_8723B_2ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_pan_edr_hid(btcoexist);
++			break;
++		case BT_8723B_2ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_hid_a2dp_pan_edr(
++				btcoexist);
++			break;
++		case BT_8723B_2ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_hid_a2dp(btcoexist);
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_coex_all_off(btcoexist);
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8723b2ant_wifi_off_hw_cfg(IN struct btc_coexist *btcoexist)
++{
++	boolean	is_in_mp_mode = false;
++	u8 h2c_parameter[2] = {0};
++	u32 fw_ver = 0;
++
++	/* set wlan_act to low */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++			  0x780); /* WiFi goto standby while GNT_BT 0-->1 */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	if (fw_ver >= 0x180000) {
++		/* Use H2C to set GNT_BT to HIGH */
++		h2c_parameter[0] = 1;
++		btcoexist->btc_fill_h2c(btcoexist, 0x6E, 1, h2c_parameter);
++	} else
++		btcoexist->btc_write_1byte(btcoexist, 0x765, 0x18);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_IS_IN_MP_MODE,
++			   &is_in_mp_mode);
++	if (!is_in_mp_mode)
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x20,
++			   0x0); /* BT select s0/s1 is controlled by BT */
++	else
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x20,
++			   0x1); /* BT select s0/s1 is controlled by WiFi */
++}
++
++void halbtc8723b2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up)
++{
++	u8	u8tmp = 0;
++	u32	 vendor;
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 2Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_VENDOR, &vendor);
++	if (vendor == BTC_VENDOR_LENOVO)
++		coex_dm->switch_thres_offset = 0;
++	else if (vendor == BTC_VENDOR_ASUS)
++		coex_dm->switch_thres_offset = 0;
++	else
++		coex_dm->switch_thres_offset = 20;
++
++	/* 0xf0[15:12] --> Chip Cut information */
++	coex_sta->cut_version = (btcoexist->btc_read_1byte(btcoexist,
++				 0xf1) & 0xf0) >> 4;
++
++	/* backup rf 0x1e value */
++	coex_dm->bt_rf_0x1e_backup =
++		btcoexist->btc_get_rf_reg(btcoexist, BTC_RF_A, 0x1e, 0xfffff);
++
++	/* 0x790[5:0]=0x5 */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x790);
++	u8tmp &= 0xc0;
++	u8tmp |= 0x5;
++	btcoexist->btc_write_1byte(btcoexist, 0x790, u8tmp);
++
++	/* Antenna config	 */
++	halbtc8723b2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, true,
++				     false);
++	coex_sta->dis_ver_info_cnt = 0;
++
++	/* PTA parameter */
++	halbtc8723b2ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	/* Enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e,
++			   0x4); /* 0x76e[3] =1, WLAN_Act control by PTA */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x3);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++}
++
++/* ************************************************************
++ * work around function start with wa_halbtc8723b2ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8723b2ant_
++ * ************************************************************ */
++void ex_halbtc8723b2ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u16 u16tmp = 0x0;
++	u32				value = 0;
++	u32    u32tmp_1[4];
++
++	btcoexist->btc_write_1byte(btcoexist, 0x67, 0x20);
++
++	/* enable BB, REG_SYS_FUNC_EN such that we can write 0x948 correctly. */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x2);
++	btcoexist->btc_write_2byte(btcoexist, 0x2, u16tmp | BIT(0) | BIT(1));
++ DbgPrint("--- TEST 5 ---\n");
++		
++	btcoexist->btc_write_4byte(btcoexist, 0x948, 0x0);
++
++	if (btcoexist->chip_interface == BTC_INTF_USB) {
++		/* fixed at S0 for USB interface */
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++	} else {
++		/* for PCIE and SDIO interface, we check efuse 0xc3[6] */
++		if (board_info->single_ant_path == 0) {
++			/* set to S1 */
++			board_info->btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++		} else if (board_info->single_ant_path == 1) {
++			/* set to S0 */
++			board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++		}
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ANTPOSREGRISTRY_CTRL,
++				   &value);
++	}
++}
++
++void ex_halbtc8723b2ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x4; /* Set BIT2 by default since it's 2ant case */
++
++	/*  */
++	/* S0 or S1 setting and Local register setting(By the setting fw can get ant number, S0/S1, ... info) */
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++	if (btcoexist->chip_interface == BTC_INTF_USB) {
++		/* fixed at S0 for USB interface */
++		u8tmp |= 0x1;	/* antenna inverse */
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	} else {
++		/* for PCIE and SDIO interface, we check efuse 0xc3[6] */
++		if (board_info->single_ant_path == 0) {
++		} else if (board_info->single_ant_path == 1) {
++			/* set to S0 */
++			u8tmp |= 0x1;	/* antenna inverse */
++		}
++
++		if (btcoexist->chip_interface == BTC_INTF_PCI)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x384,
++							     u8tmp);
++		else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60,
++							     u8tmp);
++	}
++}
++
++void ex_halbtc8723b2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8723b2ant_init_hw_config(btcoexist, true);
++}
++
++void ex_halbtc8723b2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8723b2ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8723b2ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u32				u32tmp[4];
++	u32				fa_of_dm, fa_cck;
++	u32				fw_ver = 0, bt_patch_ver = 0;
++	static u8			pop_report_in_10s = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "Ant PG number/ Ant mechanism:",
++		   board_info->pg_ant_num, board_info->btdm_ant_num);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)/ %c",
++		   "Version Coex/ Fw/ Patch/ Cut",
++		   glcoex_ver_date_8723b_2ant, glcoex_ver_8723b_2ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver, coex_sta->cut_version + 65);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Abnormal scan",
++		   (coex_sta->bt_abnormal_scan) ? "Yes" : "No");
++	CL_PRINTF(cli_buf);
++	
++	pop_report_in_10s++;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt/ popCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8723B_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8723B_2ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi - 100, coex_sta->bt_retry_cnt,
++		   coex_sta->pop_event_cnt);
++	CL_PRINTF(cli_buf);
++
++	if (pop_report_in_10s >= 5) {
++		coex_sta->pop_event_cnt = 0;
++		pop_report_in_10s = 0;
++	}
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d / %d / %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP/NameReq/WHQL",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist,
++		   coex_sta->c2h_bt_remote_name_req,
++		   coex_sta->bt_whck_test);
++	CL_PRINTF(cli_buf);
++
++	{
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++			   "BT Role",
++			   (bt_link_info->slave_role) ? "Slave" : "Master");
++		CL_PRINTF(cli_buf);
++	}
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %d",
++		   "A2DP Rate/Bitpool",
++		(bt_info_ext & BIT(0)) ? "BR" : "EDR", coex_sta->a2dp_bit_pool);
++	CL_PRINTF(cli_buf);
++
++	for (i = 0; i < BT_INFO_SRC_8723B_2ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8723b_2ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	/* Sw mechanism	 */
++	if (btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[Sw mechanism] (before Manual)============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[Sw mechanism]============");
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d ",
++		   "SM1[ShRf/ LpRA/ LimDig]",
++		   coex_dm->cur_rf_rx_lpf_shrink, coex_dm->cur_low_penalty_ra,
++		   coex_dm->limited_dig);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d(0x%x) ",
++		   "SM2[AgcT/ AdcB/ SwDacSwing(lvl)]",
++		   coex_dm->cur_agc_table_en, coex_dm->cur_adc_back_off,
++		   coex_dm->cur_dac_swing_on, coex_dm->cur_dac_swing_lvl);
++	CL_PRINTF(cli_buf);
++
++	/* Fw mechanism		 */
++	if (btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[Fw mechanism] (before Manual) ============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[Fw mechanism]============");
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++
++	if (coex_dm->is_switch_to_1dot5_ant)
++		ps_tdma_case = ps_tdma_case + 100;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (%s,%s)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   (coex_dm->cur_ps_tdma_on ? "On" : "Off"),
++		   (coex_dm->auto_tdma_adjust ? "Adj" : "Fix"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Coex Table Type",
++		   coex_sta->coex_table_type);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "DecBtPwr/ IgnWlanAct",
++		   coex_dm->cur_bt_dec_pwr_lvl, coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x",
++		   "RF-A, 0x1e initVal",
++		   coex_dm->bt_rf_0x1e_backup);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x880);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x778/0x880[29:25]",
++		   u8tmp[0], (u32tmp[0] & 0x3e000000) >> 25);
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x948);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x67);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x765);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x948/ 0x67[5] / 0x765",
++		   u32tmp[0], ((u8tmp[0] & 0x20) >> 5), u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x92c);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x930);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x944);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x92c[1:0]/ 0x930[7:0]/0x944[1:0]",
++		   u32tmp[0] & 0x3, u32tmp[1] & 0xff, u32tmp[2] & 0x3);
++	CL_PRINTF(cli_buf);
++
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x39);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0x64);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x38[11]/0x40/0x4c[24:23]/0x64[0]",
++		   ((u8tmp[0] & 0x8) >> 3), u8tmp[1],
++		   ((u32tmp[0] & 0x01800000) >> 23), u8tmp[2] & 0x1);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x49c);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0xc50(dig)/0x49c(null-drop)",
++		   u32tmp[0] & 0xff, u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xda0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xda4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0xda8);
++	u32tmp[3] = btcoexist->btc_read_4byte(btcoexist, 0xcf0);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5b);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++
++	fa_of_dm = ((u32tmp[0] & 0xffff0000) >> 16) + ((u32tmp[1] & 0xffff0000)
++			>> 16) + (u32tmp[1] & 0xffff) + (u32tmp[2] & 0xffff) + \
++		   ((u32tmp[3] & 0xffff0000) >> 16) + (u32tmp[3] &
++				   0xffff) ;
++	fa_cck = (u8tmp[0] << 8) + u8tmp[1];
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "OFDM-CCA/OFDM-FA/CCK-FA",
++		   u32tmp[0] & 0xffff, fa_of_dm, fa_cck);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8/0x6cc(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++#if (BT_AUTO_REPORT_ONLY_8723B_2ANT == 1)
++	/* halbtc8723b2ant_monitor_bt_ctr(btcoexist); */
++#endif
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8723b2ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++		halbtc8723b2ant_wifi_off_hw_cfg(btcoexist);
++		halbtc8723b2ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++		halbtc8723b2ant_coex_all_off(btcoexist);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = false;
++		halbtc8723b2ant_init_hw_config(btcoexist, false);
++		halbtc8723b2ant_init_coex_dm(btcoexist);
++		halbtc8723b2ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8723b2ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++	}
++}
++
++void ex_halbtc8723b2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	u32	u32tmp;
++	u8	u8tmpa, u8tmpb;
++
++
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x948);
++	u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++	u8tmpb = btcoexist->btc_read_1byte(btcoexist, 0x76e);
++
++	if (BTC_SCAN_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, FALSE, FALSE);
++	} else if (BTC_SCAN_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);
++	}
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"############# [BTCoex], 0x948=0x%x, 0x765=0x%x, 0x76e=0x%x\n",
++		    u32tmp,  u8tmpa, u8tmpb);
++	BTC_TRACE(trace_buf);
++}
++
++void ex_halbtc8723b2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	if (BTC_ASSOCIATE_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, FALSE, FALSE);
++	} else if (BTC_ASSOCIATE_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8723b2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++	u8			ap_num = 0;
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, FALSE, FALSE);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] = 0x1;
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else {
++			btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++					   &ap_num);
++			if (ap_num < 10)
++				h2c_parameter[2] = 0x30;
++			else
++				h2c_parameter[2] = 0x20;
++		}
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++}
++
++void ex_halbtc8723b2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	if (type == BTC_PACKET_DHCP) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], DHCP Packet notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8723b2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8			bt_info = 0;
++	u8			i, rsp_source = 0;
++	boolean			bt_busy = false, limited_dig = false;
++	boolean			wifi_connected = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8723B_2ANT_MAX)
++		rsp_source = BT_INFO_SRC_8723B_2ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), return for Manual CTRL<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	/* if 0xff, it means BT is under WHCK test */
++	if (bt_info == 0xff)
++		coex_sta->bt_whck_test = true;
++	else
++		coex_sta->bt_whck_test = false;
++
++	if (BT_INFO_SRC_8723B_2ANT_WIFI_FW != rsp_source) {
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++
++		coex_sta->bt_rssi =
++			coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x20)
++			coex_sta->c2h_bt_remote_name_req = true;
++		else
++			coex_sta->c2h_bt_remote_name_req = false;
++
++		if (coex_sta->bt_info_c2h[rsp_source][1] == 0x49) {
++			coex_sta->a2dp_bit_pool =
++				coex_sta->bt_info_c2h[rsp_source][6];
++		} else
++			coex_sta->a2dp_bit_pool = 0;
++
++		coex_sta->bt_tx_rx_mask = (coex_sta->bt_info_c2h[rsp_source][2]
++					   & 0x40);
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TX_RX_MASK,
++				   &coex_sta->bt_tx_rx_mask);
++		if (coex_sta->bt_tx_rx_mask) {
++			/* BT into is responded by BT FW and BT RF REG 0x3C != 0x01 => Need to switch BT TRx Mask */
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Switch BT TRx Mask since BT RF REG 0x3C != 0x01\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF,
++						  0x3c, 0x01);
++		}
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++		if ((coex_sta->bt_info_ext & BIT(1))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++					   &wifi_connected);
++			if (wifi_connected)
++				ex_halbtc8723b2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_CONNECT);
++			else
++				ex_halbtc8723b2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_DISCONNECT);
++		}
++
++		if ((coex_sta->bt_info_ext & BIT(3))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_ignore_wlan_act(btcoexist, FORCE_EXEC,
++							false);
++		} else {
++			/* BT already NOT ignore Wlan active, do nothing here. */
++		}
++#if (BT_AUTO_REPORT_ONLY_8723B_2ANT == 0)
++		if ((coex_sta->bt_info_ext & BIT(4))) {
++			/* BT auto report already enabled, do nothing */
++		} else
++			halbtc8723b2ant_bt_auto_report(btcoexist, FORCE_EXEC,
++						       true);
++#endif
++	}
++
++	/* check BIT2 first ==> check if bt is under inquiry or page scan */
++	if (bt_info & BT_INFO_8723B_2ANT_B_INQ_PAGE)
++		coex_sta->c2h_bt_inquiry_page = true;
++	else
++		coex_sta->c2h_bt_inquiry_page = false;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8723B_2ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8723B_2ANT_B_FTP)
++			coex_sta->pan_exist = true;
++		else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8723B_2ANT_B_A2DP)
++			coex_sta->a2dp_exist = true;
++		else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8723B_2ANT_B_HID)
++			coex_sta->hid_exist = true;
++		else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8723B_2ANT_B_SCO_ESCO)
++			coex_sta->sco_exist = true;
++		else
++			coex_sta->sco_exist = false;
++
++		if ((coex_sta->hid_exist == false) &&
++		    (coex_sta->c2h_bt_inquiry_page == false) &&
++		    (coex_sta->sco_exist == false)) {
++			if (coex_sta->high_priority_tx  +
++			    coex_sta->high_priority_rx >= 160) {
++				coex_sta->hid_exist = true;
++				bt_info = bt_info | 0x28;
++			}
++		}
++	}
++
++	halbtc8723b2ant_update_bt_link_info(btcoexist);
++
++	if (!(bt_info & BT_INFO_8723B_2ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8723B_2ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8723B_2ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8723B_2ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8723B_2ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8723B_2ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8723B_2ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8723B_2ANT_B_ACL_BUSY) {
++		coex_dm->bt_status = BT_8723B_2ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8723B_2ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8723B_2ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8723B_2ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8723B_2ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status)) {
++		bt_busy = true;
++		limited_dig = true;
++	} else {
++		bt_busy = false;
++		limited_dig = false;
++	}
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	coex_dm->limited_dig = limited_dig;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_LIMITED_DIG, &limited_dig);
++
++	halbtc8723b2ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8723b2ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8723b2ant_wifi_off_hw_cfg(btcoexist);
++	/* remove due to interrupt is disabled that polling c2h will fail and delay 100ms. */
++	/* btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x3c, 0x15); //BT goto standby while GNT_BT 1-->0 */
++	halbtc8723b2ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++	ex_halbtc8723b2ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++}
++
++void ex_halbtc8723b2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		/* Sinda 20150819, workaround for driver skip leave IPS/LPS to speed up sleep time. */
++		/* Driver do not leave IPS/LPS when driver is going to sleep, so BTCoexistence think wifi is still under IPS/LPS */
++		/* BT should clear UnderIPS/UnderLPS state to avoid mismatch state after wakeup. */
++		coex_sta->under_ips = false;
++		coex_sta->under_lps = false;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_init_hw_config(btcoexist, false);
++		halbtc8723b2ant_init_coex_dm(btcoexist);
++		halbtc8723b2ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8723b2ant_periodical(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ==========================Periodical===========================\n");
++	BTC_TRACE(trace_buf);
++	if (coex_sta->dis_ver_info_cnt <= 5) {
++		coex_sta->dis_ver_info_cnt += 1;
++		if (coex_sta->dis_ver_info_cnt == 3) {
++			/* Antenna config to set 0x765 = 0x0 (GNT_BT control by PTA) after initial */
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Set GNT_BT control by PTA\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_set_ant_path(btcoexist,
++				     BTC_ANT_WIFI_AT_MAIN, false, false);
++		}
++	}
++
++#if (BT_AUTO_REPORT_ONLY_8723B_2ANT == 0)
++	halbtc8723b2ant_query_bt_info(btcoexist);
++	halbtc8723b2ant_monitor_bt_enable_disable(btcoexist);
++#else
++	halbtc8723b2ant_monitor_bt_ctr(btcoexist);
++	halbtc8723b2ant_monitor_wifi_ctr(btcoexist);
++
++	/* for some BT speaker that Hi-Pri pkt appear begore start play, this will cause HID exist */
++	if ((coex_sta->high_priority_tx  + coex_sta->high_priority_rx < 50) &&
++	    (bt_link_info->hid_exist == true))
++		bt_link_info->hid_exist  = false;
++
++	if (halbtc8723b2ant_is_wifi_status_changed(btcoexist) ||
++	    coex_dm->auto_tdma_adjust)
++		halbtc8723b2ant_run_coexist_mechanism(btcoexist);
++#endif
++}
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723b2Ant.h b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723b2Ant.h
+new file mode 100644
+index 0000000..4fe39b2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8723b2Ant.h
+@@ -0,0 +1,214 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8723B_SUPPORT == 1)
++/* *******************************************
++ * The following is for 8723B 2Ant BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8723B_2ANT				1
++
++
++#define	BT_INFO_8723B_2ANT_B_FTP						BIT(7)
++#define	BT_INFO_8723B_2ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8723B_2ANT_B_HID						BIT(5)
++#define	BT_INFO_8723B_2ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8723B_2ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8723B_2ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8723B_2ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8723B_2ANT_B_CONNECTION				BIT(0)
++
++#define		BTC_RSSI_COEX_THRESH_TOL_8723B_2ANT		2
++
++
++#define	BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES				42  /* WiFi RSSI Threshold for 2-Ant TDMA/1-Ant PS-TDMA translation */
++#define	BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES				46 /* BT RSSI Threshold for 2-Ant TDMA/1-Ant PS-TDMA translation */
++
++enum bt_info_src_8723b_2ant {
++	BT_INFO_SRC_8723B_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8723B_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8723B_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8723B_2ANT_MAX
++};
++
++enum bt_8723b_2ant_bt_status {
++	BT_8723B_2ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8723B_2ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8723B_2ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8723B_2ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8723B_2ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8723B_2ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8723B_2ANT_BT_STATUS_MAX
++};
++
++enum bt_8723b_2ant_coex_algo {
++	BT_8723B_2ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8723B_2ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8723B_2ANT_COEX_ALGO_HID				= 0x2,
++	BT_8723B_2ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8723B_2ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8723B_2ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8723B_2ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8723B_2ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8723B_2ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8723B_2ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8723B_2ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8723B_2ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++struct coex_dm_8723b_2ant {
++	/* fw mechanism */
++	u8		pre_bt_dec_pwr_lvl;
++	u8		cur_bt_dec_pwr_lvl;
++	u8		pre_fw_dac_swing_lvl;
++	u8		cur_fw_dac_swing_lvl;
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		reset_tdma_adjust;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++
++	/* sw mechanism */
++	boolean		pre_rf_rx_lpf_shrink;
++	boolean		cur_rf_rx_lpf_shrink;
++	u32		bt_rf_0x1e_backup;
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	boolean		pre_dac_swing_on;
++	u32		pre_dac_swing_lvl;
++	boolean		cur_dac_swing_on;
++	u32		cur_dac_swing_lvl;
++	boolean		pre_adc_back_off;
++	boolean		cur_adc_back_off;
++	boolean	pre_agc_table_en;
++	boolean		cur_agc_table_en;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	boolean		need_recover0x948;
++	u32		backup0x948;
++
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	boolean		is_switch_to_1dot5_ant;
++	u8		switch_thres_offset;
++};
++
++struct coex_sta_8723b_2ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++	boolean					bt_abnormal_scan;
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	u8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8723B_2ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8723B_2ANT_MAX];
++	boolean				bt_whck_test;
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_remote_name_req;
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	u8					coex_table_type;
++	boolean					force_lps_on;
++
++	u8					dis_ver_info_cnt;
++
++	u8					a2dp_bit_pool;
++	u8					cut_version;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8723b2ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b2ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8723b2ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b2ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8723b2ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8723b2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8723b2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8723b2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723b2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723b2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8723b2ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8723b2ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b2ant_display_coex_info(IN struct btc_coexist *btcoexist);
++
++#else
++#define	ex_halbtc8723b2ant_power_on_setting(btcoexist)
++#define	ex_halbtc8723b2ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8723b2ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8723b2ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8723b2ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8723b2ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8723b2ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8723b2ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8723b2ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8723b2ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8723b2ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8723b2ant_halt_notify(btcoexist)
++#define	ex_halbtc8723b2ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8723b2ant_periodical(btcoexist)
++#define	ex_halbtc8723b2ant_display_coex_info(btcoexist)
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8812a1Ant.c b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8812a1Ant.c
+new file mode 100644
+index 0000000..e094caa
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8812a1Ant.c
+@@ -0,0 +1,3457 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8812A Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8812A_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8812a_1ant		glcoex_dm_8812a_1ant;
++static struct  coex_dm_8812a_1ant	*coex_dm = &glcoex_dm_8812a_1ant;
++static struct  coex_sta_8812a_1ant		glcoex_sta_8812a_1ant;
++static struct  coex_sta_8812a_1ant	*coex_sta = &glcoex_sta_8812a_1ant;
++
++const char *const glbt_info_src_8812a_1ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8812a_1ant = 20140708;
++u32	glcoex_ver_8812a_1ant = 0x52;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8812a1ant_
++ * ************************************************************ */
++u8 halbtc8812a1ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8812A_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8812A_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8812A_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8812a1ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8812A_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8812A_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8812A_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8812a1ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++/* to check 0x430/0x434 is correct?? */
++void halbtc8812a1ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++/* to check 0x42a ?? */
++void halbtc8812a1ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++/* to check 0x456?? */
++void halbtc8812a1ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8812a1ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	switch (ra_mask_type) {
++	case 0:	/* normal mode */
++		halbtc8812a1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0);
++		break;
++	case 1:	/* disable cck 1/2 */
++		halbtc8812a1ant_update_ra_mask(btcoexist, force_exec,
++					       0x00000003);
++		break;
++	case 2:	/* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		halbtc8812a1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0001f1f7);
++		break;
++	default:
++		break;
++	}
++
++	halbtc8812a1ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8812a1ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8812a1ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++void halbtc8812a1ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8812a1ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8	data_len = 3;
++	u8	buf[5] = {0};
++
++	if (!coex_sta->bt_disabled) {
++		if (!coex_sta->bt_info_query_cnt ||
++		    (coex_sta->bt_info_c2h_cnt[BT_INFO_SRC_8812A_1ANT_BT_RSP]
++		     - coex_sta->bt_info_query_cnt) > 2) {
++			buf[0] = data_len;
++			buf[1] = 0x1;	/* polling enable, 1=enable, 0=disable */
++			buf[2] = 0x2;	/* polling time in seconds */
++			buf[3] = 0x1;	/* auto report enable, 1=enable, 0=disable */
++
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_CTRL_BT_INFO,
++					   (void *)&buf[0]);
++		}
++	}
++	coex_sta->bt_info_query_cnt++;
++}
++
++void halbtc8812a1ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++	static u8		num_of_bt_counter_chk = 0;
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	if ((coex_sta->low_priority_tx > 1150)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Hi-Pri Rx/Tx: %d/%d, Lo-Pri Rx/Tx: %d/%d\n",
++		    reg_hp_rx, reg_hp_tx, reg_lp_rx, reg_lp_tx);
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++
++	if ((reg_hp_tx == 0) && (reg_hp_rx == 0) && (reg_lp_tx == 0) &&
++	    (reg_lp_rx == 0)) {
++		num_of_bt_counter_chk++;
++		if (num_of_bt_counter_chk >= 3) {
++			halbtc8812a1ant_query_bt_info(btcoexist);
++			num_of_bt_counter_chk = 0;
++		}
++	}
++}
++
++/* to check registers */
++void halbtc8812a1ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++	s32	wifi_rssi = 0;
++	boolean wifi_busy = false, wifi_under_b_mode = false;
++	static u8 cck_lock_counter = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++			   &wifi_under_b_mode);
++
++	if (coex_sta->under_ips) {
++		coex_sta->crc_ok_cck = 0;
++		coex_sta->crc_ok_11g = 0;
++		coex_sta->crc_ok_11n = 0;
++		coex_sta->crc_ok_11n_agg = 0;
++
++		coex_sta->crc_err_cck = 0;
++		coex_sta->crc_err_11g = 0;
++		coex_sta->crc_err_11n = 0;
++		coex_sta->crc_err_11n_agg = 0;
++	} else {
++		coex_sta->crc_ok_cck	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf04);
++		coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf14);
++		coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf10);
++		coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					   0xf40);
++
++		coex_sta->crc_err_cck	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf06);
++		coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf16);
++		coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf12);
++		coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					    0xf42);
++	}
++
++
++	/* reset counter */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xb58, 0x1, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xb58, 0x1, 0x0);
++
++	if ((wifi_busy) && (wifi_rssi >= 30) && (!wifi_under_b_mode)) {
++		if ((coex_dm->bt_status == BT_8812A_1ANT_BT_STATUS_ACL_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8812A_1ANT_BT_STATUS_ACL_SCO_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8812A_1ANT_BT_STATUS_SCO_BUSY)) {
++			if (coex_sta->crc_ok_cck > (coex_sta->crc_ok_11g +
++						    coex_sta->crc_ok_11n +
++						    coex_sta->crc_ok_11n_agg)) {
++				if (cck_lock_counter < 5)
++					cck_lock_counter++;
++			} else {
++				if (cck_lock_counter > 0)
++					cck_lock_counter--;
++			}
++
++		} else {
++			if (cck_lock_counter > 0)
++				cck_lock_counter--;
++		}
++	} else {
++		if (cck_lock_counter > 0)
++			cck_lock_counter--;
++	}
++
++	if (!coex_sta->pre_ccklock) {
++
++		if (cck_lock_counter >= 5)
++			coex_sta->cck_lock = true;
++		else
++			coex_sta->cck_lock = false;
++	} else {
++		if (cck_lock_counter == 0)
++			coex_sta->cck_lock = false;
++		else
++			coex_sta->cck_lock = true;
++	}
++
++	coex_sta->pre_ccklock =  coex_sta->cck_lock;
++
++
++}
++
++boolean halbtc8812a1ant_is_wifi_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false;
++	boolean wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++	}
++
++	return false;
++}
++
++void halbtc8812a1ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++u8 halbtc8812a1ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8812A_1ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Profile = SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8812A_1ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_1ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_1ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8812A_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID + A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_1ANT_COEX_ALGO_HID_A2DP;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8812A_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! BT Profile = SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8812a1ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8812a1ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8812a1ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++/* to check */
++void halbtc8812a1ant_set_sw_penalty_tx_rate_adaptive(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8	tmp_u1;
++
++	tmp_u1 = btcoexist->btc_read_1byte(btcoexist, 0x4fd);
++	tmp_u1 |= BIT(0);
++	if (low_penalty_ra) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Tx rate adaptive, set low penalty!!\n");
++		BTC_TRACE(trace_buf);
++		tmp_u1 &= ~BIT(2);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Tx rate adaptive, set normal!!\n");
++		BTC_TRACE(trace_buf);
++		tmp_u1 |= BIT(2);
++	}
++
++	btcoexist->btc_write_1byte(btcoexist, 0x4fd, tmp_u1);
++}
++
++void halbtc8812a1ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8812a1ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8812a1ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8812a1ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8812a1ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8812a1ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** CoexTable(%d) **********\n", type);
++	BTC_TRACE(trace_buf);
++
++	coex_sta->coex_table_type = type;
++
++	switch (type) {
++	case 0:
++		halbtc8812a1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x55555555, 0xffffff, 0x3);
++		break;
++	case 1:
++		halbtc8812a1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 2:
++		halbtc8812a1ant_coex_table(btcoexist, force_exec,
++				   0x5a5a5a5a, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 3:
++		halbtc8812a1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 4:
++		halbtc8812a1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0xaaaa5a5a, 0xffffff, 0x3);
++		break;
++	case 5:
++		halbtc8812a1ant_coex_table(btcoexist, force_exec,
++				   0x5a5a5a5a, 0xaa5a5a5a, 0xffffff, 0x3);
++		break;
++	case 6:
++		halbtc8812a1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 7:
++		halbtc8812a1ant_coex_table(btcoexist, force_exec,
++				   0xaaaaaaaa, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8812a1ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8	data_len = 3;
++	u8	buf[5] = {0};
++
++	buf[0] = data_len;
++	buf[1] = 0x1;			/* OP_Code */
++	buf[2] = 0x1;			/* OP_Code_Length */
++	if (enable)
++		buf[3] = 0x1;		/* OP_Code_Content */
++	else
++		buf[3] = 0x0;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_CTRL_BT_COEX,
++			   (void *)&buf[0]);
++}
++
++void halbtc8812a1ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8812a1ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8812a1ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8812a1ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8812a1ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8812a1ant_sw_mechanism(IN struct btc_coexist *btcoexist,
++				  IN boolean low_penalty_ra)
++{
++	halbtc8812a1ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++/* to check force_exec */
++void halbtc8812a1ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean force_exec, IN boolean init_hwcfg,
++				  IN boolean wifi_off)
++{
++	u8			u8tmp = 0;
++
++	coex_dm->cur_ant_pos_type = ant_pos_type;
++
++	if (init_hwcfg) {
++		btcoexist->btc_write_1byte(btcoexist, 0xcb3, 0x77);
++		btcoexist->btc_write_4byte(btcoexist, 0x900, 0x00000400);
++		btcoexist->btc_write_1byte(btcoexist, 0x76d, 0x1);
++	} else if (wifi_off) {
++		btcoexist->btc_write_1byte(btcoexist, 0xcb3, 0x77);
++		u8tmp = btcoexist->btc_read_1byte(btcoexist, 0xcb7);
++		u8tmp &= ~BIT(3);
++		u8tmp |= BIT(2);
++		btcoexist->btc_write_1byte(btcoexist, 0xcb7, u8tmp);
++	}
++
++	if (force_exec ||
++	    (coex_dm->cur_ant_pos_type != coex_dm->pre_ant_pos_type)) {
++		/* ext switch setting */
++		switch (ant_pos_type) {
++		case BTC_ANT_PATH_WIFI:
++			u8tmp = btcoexist->btc_read_1byte(btcoexist,
++							  0xcb7);
++			u8tmp |= BIT(3);
++			u8tmp &= ~BIT(2);
++			btcoexist->btc_write_1byte(btcoexist, 0xcb7,
++						   u8tmp);
++			break;
++		case BTC_ANT_PATH_BT:
++			u8tmp = btcoexist->btc_read_1byte(btcoexist,
++							  0xcb7);
++			u8tmp &= ~BIT(3);
++			u8tmp |= BIT(2);
++			btcoexist->btc_write_1byte(btcoexist, 0xcb7,
++						   u8tmp);
++			break;
++		default:
++		case BTC_ANT_PATH_PTA:
++			u8tmp = btcoexist->btc_read_1byte(btcoexist,
++							  0xcb7);
++			u8tmp |= BIT(3);
++			u8tmp &= ~BIT(2);
++			btcoexist->btc_write_1byte(btcoexist, 0xcb7,
++						   u8tmp);
++			break;
++		}
++	}
++
++	coex_dm->pre_ant_pos_type = coex_dm->cur_ant_pos_type;
++}
++
++void halbtc8812a1ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], FW for 1Ant AP mode\n");
++			BTC_TRACE(trace_buf);
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++		}
++	}
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++
++void halbtc8812a1ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_busy = false;
++	u8			rssi_adjust_val = 0;
++	u8			ps_tdma_byte4_val = 0x50, ps_tdma_byte0_val = 0x51,
++				ps_tdma_byte3_val =  0x10;
++	s8			wifi_duration_adjust = 0x0;
++	static boolean	 pre_wifi_busy = false;
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (wifi_busy != pre_wifi_busy) {
++		force_exec = true;
++		pre_wifi_busy = wifi_busy;
++	}
++
++	if (coex_dm->cur_ps_tdma_on) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(on, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(off, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	}
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++
++	if (coex_sta->scan_ap_num <= 5)
++		wifi_duration_adjust = 2;
++	else if (coex_sta->scan_ap_num >= 40)
++		wifi_duration_adjust = -15;
++	else if (coex_sta->scan_ap_num >= 20)
++		wifi_duration_adjust = -10;
++
++	if (!coex_sta->force_lps_on) { /* only for A2DP-only case 1/2/9/11 while wifi noisy threshold > 30 */
++		ps_tdma_byte0_val = 0x61;  /* no null-pkt */
++		ps_tdma_byte3_val = 0x11; /* no tx-pause at BT-slot */
++		ps_tdma_byte4_val = 0x10; /* 0x778 = d/1 toggle */
++	}
++
++	if ((type == 3) || (type == 13) || (type == 14)) {
++		ps_tdma_byte4_val = ps_tdma_byte4_val &
++			    0xbf;  /* no dynamic slot for multi-profile */
++
++		if (!wifi_busy)
++			ps_tdma_byte4_val = ps_tdma_byte4_val |
++				0x1;  /* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++	}
++
++	if (bt_link_info->slave_role == true)
++		ps_tdma_byte4_val = ps_tdma_byte4_val |
++			0x1;  /* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++
++	if (turn_on) {
++		switch (type) {
++		default:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x51,
++				      0x1a, 0x1a, 0x0, ps_tdma_byte4_val);
++			break;
++		case 1:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist,
++						      ps_tdma_byte0_val, 0x3a +
++					      wifi_duration_adjust, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 2:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist,
++						      ps_tdma_byte0_val, 0x2d +
++					      wifi_duration_adjust, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 3:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x51,
++				      0x1d, 0x1d, 0x0, ps_tdma_byte4_val);
++			break;
++		case 4:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x15, 0x3, 0x14, 0x0);
++			break;
++		case 5:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x15, 0x3, 0x11, 0x11);
++			break;
++		case 6:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x20, 0x3, 0x11, 0x11);
++			break;
++		case 7:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xc, 0x5, 0x0, 0x0);
++			break;
++		case 8:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x25, 0x3, 0x10, 0x0);
++			break;
++		case 9:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x3,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 10:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xa, 0xa, 0x0, 0x40);
++			break;
++		case 11:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 12:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x0a, 0x0a, 0x0, 0x50);
++			break;
++		case 13:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x51,
++				      0x12, 0x12, 0x0, ps_tdma_byte4_val);
++			break;
++		case 14:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x51,
++				      0x21, 0x3, 0x10, ps_tdma_byte4_val);
++			break;
++		case 15:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xa, 0x3, 0x8, 0x0);
++			break;
++		case 16:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x15, 0x3, 0x10, 0x0);
++			break;
++		case 18:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x25, 0x3, 0x10, 0x0);
++			break;
++		case 20:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x3f, 0x03, 0x11, 0x10);
++			break;
++		case 21:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x25, 0x03, 0x11, 0x11);
++			break;
++		case 22:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x25, 0x03, 0x11, 0x10);
++			break;
++		case 23:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0x31, 0x18);
++			break;
++		case 24:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x15, 0x3, 0x31, 0x18);
++			break;
++		case 25:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0xa, 0x3, 0x31, 0x18);
++			break;
++		case 26:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0xa, 0x3, 0x31, 0x18);
++			break;
++		case 27:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0x31, 0x98);
++			break;
++		case 28:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x69,
++						      0x25, 0x3, 0x31, 0x0);
++			break;
++		case 29:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0xab,
++						      0x1a, 0x1a, 0x1, 0x10);
++			break;
++		case 30:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x30, 0x3, 0x10, 0x10);
++			break;
++		case 31:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1a, 0x1a, 0, 0x58);
++			break;
++		case 32:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x35, 0x3, 0x11, 0x11);
++			break;
++		case 33:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0xa3,
++						      0x25, 0x3, 0x30, 0x90);
++			break;
++		case 34:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x53,
++						      0x1a, 0x1a, 0x0, 0x10);
++			break;
++		case 35:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x63,
++						      0x1a, 0x1a, 0x0, 0x10);
++			break;
++		case 36:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x12, 0x3, 0x14, 0x50);
++			break;
++		case 40: /* SoftAP only with no sta associated,BT disable ,TDMA mode for power saving */
++			/* here softap mode screen off will cost 70-80mA for phone */
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x23,
++						      0x18, 0x00, 0x10, 0x24);
++			break;
++		}
++	} else {
++
++		/* disable PS tdma */
++		switch (type) {
++		case 8: /* PTA Control */
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x8,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 0:
++		default:  /* Software control, Antenna at BT side */
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		}
++	}
++	rssi_adjust_val = 0;
++	btcoexist->btc_set(btcoexist,
++		BTC_SET_U1_RSSI_ADJ_VAL_FOR_1ANT_COEX_TYPE, &rssi_adjust_val);
++
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++boolean halbtc8812a1ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected &&
++	    BT_8812A_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++	    coex_dm->bt_status) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8812a1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		   (BT_8812A_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8812a1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8812A_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8812a1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		(BT_8812A_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8812a1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8812A_1ANT_BT_STATUS_CONNECTED_IDLE != coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non connected-idle + BT Busy!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8812a1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else {
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		}
++
++		common = false;
++	}
++
++	return common;
++}
++
++
++void halbtc8812a1ant_tdma_duration_adjust_for_acl(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0, bt_info_ext;
++	boolean			wifi_busy = false;
++
++	if (BT_8812A_1ANT_WIFI_STATUS_CONNECTED_BUSY == wifi_status)
++		wifi_busy = true;
++	else
++		wifi_busy = false;
++
++	if ((BT_8812A_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN ==
++	     wifi_status) ||
++	    (BT_8812A_1ANT_WIFI_STATUS_CONNECTED_SCAN == wifi_status) ||
++	    (BT_8812A_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT ==
++	     wifi_status)) {
++		if (coex_dm->cur_ps_tdma != 1 &&
++		    coex_dm->cur_ps_tdma != 2 &&
++		    coex_dm->cur_ps_tdma != 3 &&
++		    coex_dm->cur_ps_tdma != 9) {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						9);
++			coex_dm->ps_tdma_du_adj_type = 9;
++
++			up = 0;
++			dn = 0;
++			m = 1;
++			n = 3;
++			result = 0;
++			wait_count = 0;
++		}
++		return;
++	}
++
++	if (!coex_dm->auto_tdma_adjust) {
++		coex_dm->auto_tdma_adjust = true;
++
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 2);
++		coex_dm->ps_tdma_du_adj_type = 2;
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/* accquire the BT TRx retry count from BT_Info byte2 */
++		retry_count = coex_sta->bt_retry_cnt;
++		bt_info_ext = coex_sta->bt_info_ext;
++
++		if ((coex_sta->low_priority_tx) > 1150 ||
++		    (coex_sta->low_priority_rx) > 1250)
++			retry_count++;
++
++		result = 0;
++		wait_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if retry count during continuous n*2 seconds is 0, enlarge WiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {	/* if continuous 2 retry count(every 2 seconds) >0 and < 3, reduce WiFi duration */
++				if (wait_count <= 2)
++					m++; /* to avoid loop between the two levels */
++				else
++					m = 1;
++
++				if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++			}
++		} else { /* retry count > 3, once retry count > 3, to reduce WiFi duration */
++			if (wait_count == 1)
++				m++; /* to avoid loop between the two levels */
++			else
++				m = 1;
++
++			if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++		}
++
++		if (result == -1) {
++			if ((BT_INFO_8812A_1ANT_A2DP_BASIC_RATE(bt_info_ext)) &&
++			    ((coex_dm->cur_ps_tdma == 1) ||
++			     (coex_dm->cur_ps_tdma == 2))) {
++				halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 1) {
++				halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 2);
++				coex_dm->ps_tdma_du_adj_type = 2;
++			} else if (coex_dm->cur_ps_tdma == 2) {
++				halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 9) {
++				halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 11);
++				coex_dm->ps_tdma_du_adj_type = 11;
++			}
++		} else if (result == 1) {
++			if ((BT_INFO_8812A_1ANT_A2DP_BASIC_RATE(bt_info_ext)) &&
++			    ((coex_dm->cur_ps_tdma == 1) ||
++			     (coex_dm->cur_ps_tdma == 2))) {
++				halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 11) {
++				halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 9) {
++				halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 2);
++				coex_dm->ps_tdma_du_adj_type = 2;
++			} else if (coex_dm->cur_ps_tdma == 2) {
++				halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 1);
++				coex_dm->ps_tdma_du_adj_type = 1;
++			}
++		} else { /* no change */
++			/* Bryant Modify
++			if(wifi_busy != pre_wifi_busy)
++			{
++				pre_wifi_busy = wifi_busy;
++				halbtc8812a1ant_ps_tdma(btcoexist, FORCE_EXEC, true, coex_dm->cur_ps_tdma);
++			}
++			*/
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], ********** TDMA(on, %d) **********\n",
++				    coex_dm->cur_ps_tdma);
++			BTC_TRACE(trace_buf);
++		}
++
++		if (coex_dm->cur_ps_tdma != 1 &&
++		    coex_dm->cur_ps_tdma != 2 &&
++		    coex_dm->cur_ps_tdma != 9 &&
++		    coex_dm->cur_ps_tdma != 11) {
++			/* recover to previous adjust type */
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						coex_dm->ps_tdma_du_adj_type);
++		}
++	}
++}
++
++void halbtc8812a1ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8812a1ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8812a1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8812a1ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		coex_sta->force_lps_on = true;
++		break;
++	case BTC_PS_LPS_OFF:
++		halbtc8812a1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8812a1ant_action_wifi_only(IN struct btc_coexist *btcoexist)
++{
++	halbtc8812a1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++	halbtc8812a1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, FORCE_EXEC,
++				     false, false);
++}
++
++void halbtc8812a1ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++
++	/* This function check if bt is disabled */
++
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is enabled !!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		bt_disable_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], bt all counters=0, %d times!!\n",
++			    bt_disable_cnt);
++		BTC_TRACE(trace_buf);
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++					   &bt_disabled);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a1ant_action_wifi_only(btcoexist);
++		}
++	}
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++		if (!bt_disabled) {
++		} else {
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++					   NULL);
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++					   NULL);
++		}
++	}
++}
++
++/* *********************************************
++ *
++ *	Software Coex Mechanism start
++ *
++ * ********************************************* */
++
++/* SCO only or SCO+PAN(HS) */
++
++/*
++void halbtc8812a1ant_action_sco(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8812a1ant_action_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8812a1ant_action_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8812a1ant_action_a2dp_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8812a1ant_action_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8812a1ant_action_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8812a1ant_action_pan_edr_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8812a1ant_action_pan_edr_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8812a1ant_action_hid_a2dp_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, true);
++}
++
++void halbtc8812a1ant_action_hid_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, true);
++}
++
++*/
++
++/* *********************************************
++ *
++ *	Non-Software Coex Mechanism start
++ *
++ * ********************************************* */
++void halbtc8812a1ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC,
++				     false, false);
++	halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8812a1ant_action_hs(IN struct btc_coexist *btcoexist)
++{
++	halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++	halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8812a1ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_connected = false, ap_enable = false, wifi_busy = false,
++				bt_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	if ((!wifi_connected) && (!coex_sta->wifi_is_high_pri_task)) {
++		halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist) ||
++		   (bt_link_info->a2dp_exist)) {
++		/* SCO/HID/A2DP  busy */
++		halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if ((bt_link_info->pan_exist) || (wifi_busy)) {
++		halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++	}
++}
++
++void halbtc8812a1ant_action_bt_sco_hid_only_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	/* tdma and coex table */
++
++	if (bt_link_info->sco_exist) {
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else { /* HID */
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	}
++}
++
++void halbtc8812a1ant_action_wifi_connected_bt_acl_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	u8		bt_rssi_state;
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	bt_rssi_state = halbtc8812a1ant_bt_rssi_state(2, 28, 0);
++
++	if ((coex_sta->low_priority_rx >= 950)  && (!coex_sta->under_ips))
++		bt_link_info->slave_role = true;
++	else
++		bt_link_info->slave_role = false;
++
++	if (bt_link_info->hid_only) { /* HID */
++		halbtc8812a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				wifi_status);
++		coex_dm->auto_tdma_adjust = false;
++		return;
++	} else if (bt_link_info->a2dp_only) { /* A2DP		 */
++		if (BT_8812A_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status) {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = false;
++		} else {
++			halbtc8812a1ant_tdma_duration_adjust_for_acl(btcoexist,
++					wifi_status);
++			halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = true;
++		}
++	} else if (((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) ||
++		   (bt_link_info->hid_exist && bt_link_info->a2dp_exist &&
++		bt_link_info->pan_exist)) { /* A2DP+PAN(OPP,FTP), HID+A2DP+PAN(OPP,FTP) */
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	} else if (bt_link_info->hid_exist &&
++		   bt_link_info->a2dp_exist) { /* HID+A2DP */
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 14);
++		coex_dm->auto_tdma_adjust = false;
++
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++	} else if ((bt_link_info->pan_only) || (bt_link_info->hid_exist &&
++		bt_link_info->pan_exist)) { /* PAN(OPP,FTP), HID+PAN(OPP,FTP)			 */
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	} else {
++		/* BT no-profile busy (0x9) */
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	}
++}
++
++void halbtc8812a1ant_action_wifi_not_connected(IN struct btc_coexist *btcoexist)
++{
++	/* power save state */
++	halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	halbtc8812a1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC,
++				     false, false);
++	halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8812a1ant_action_wifi_not_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if (BT_8812A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						20);
++			halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8812A_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8812A_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8812a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8812A_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		/* Bryant Add */
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8812a1ant_action_wifi_not_connected_asso_auth(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist)  || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else {
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 2);
++	}
++}
++
++void halbtc8812a1ant_action_wifi_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if (BT_8812A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						20);
++			halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8812A_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8812A_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8812a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8812A_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		/* Bryant Add */
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8812a1ant_action_wifi_connected_specific_packet(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8812a1ant_action_wifi_connected(IN struct btc_coexist *btcoexist)
++{
++	boolean	wifi_busy = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean		under_4way = false, ap_enable = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], CoexForWifiConnect()===>\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (under_4way) {
++		halbtc8812a1ant_action_wifi_connected_specific_packet(btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 4way<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++	if (scan || link || roam) {
++		if (scan)
++			halbtc8812a1ant_action_wifi_connected_scan(btcoexist);
++		else
++			halbtc8812a1ant_action_wifi_connected_specific_packet(
++				btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under scan<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	/* power save state */
++	if (!ap_enable &&
++	    BT_8812A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status &&
++	    !btcoexist->bt_link_info.hid_only) {
++		if (btcoexist->bt_link_info.a2dp_only) {	/* A2DP */
++			if (!wifi_busy)
++				halbtc8812a1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			else { /* busy */
++				if (coex_sta->scan_ap_num >=
++				    BT_8812A_1ANT_WIFI_NOISY_THRESH)  /* no force LPS, no PS-TDMA, use pure TDMA */
++					halbtc8812a1ant_power_save_state(
++						btcoexist, BTC_PS_WIFI_NATIVE,
++						0x0, 0x0);
++				else
++					halbtc8812a1ant_power_save_state(
++						btcoexist, BTC_PS_LPS_ON, 0x50,
++						0x4);
++			}
++		} else if ((coex_sta->pan_exist == false) &&
++			   (coex_sta->a2dp_exist == false) &&
++			   (coex_sta->hid_exist == false))
++			halbtc8812a1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		else
++			halbtc8812a1ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++	} else
++		halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++
++	/* tdma and coex table */
++	if (!wifi_busy) {
++		if (BT_8812A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8812a1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8812A_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else if ((BT_8812A_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8812A_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8812a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8812A_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++			halbtc8812a1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_PTA, NORMAL_EXEC, false, false);
++			if ((coex_sta->high_priority_tx) +
++			    (coex_sta->high_priority_rx) <= 60)
++				halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++			else
++				halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		}
++	} else {
++		if (BT_8812A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8812a1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8812A_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else if ((BT_8812A_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8812A_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8812a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8812A_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++			halbtc8812a1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_PTA, NORMAL_EXEC, false, false);
++			if ((coex_sta->high_priority_tx) +
++			    (coex_sta->high_priority_rx) <= 60)
++				halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++			else
++				halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		}
++	}
++}
++
++void halbtc8812a1ant_run_sw_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8				algorithm = 0;
++
++	algorithm = halbtc8812a1ant_action_algorithm(btcoexist);
++	coex_dm->cur_algorithm = algorithm;
++
++	if (halbtc8812a1ant_is_common_action(btcoexist)) {
++
++	} else {
++		switch (coex_dm->cur_algorithm) {
++		case BT_8812A_1ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_sco(btcoexist); */
++			break;
++		case BT_8812A_1ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_hid(btcoexist); */
++			break;
++		case BT_8812A_1ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_a2dp(btcoexist); */
++			break;
++		case BT_8812A_1ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_a2dp_pan_hs(btcoexist); */
++			break;
++		case BT_8812A_1ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_pan_edr(btcoexist); */
++			break;
++		case BT_8812A_1ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_pan_hs(btcoexist); */
++			break;
++		case BT_8812A_1ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_pan_edr_a2dp(btcoexist); */
++			break;
++		case BT_8812A_1ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_pan_edr_hid(btcoexist); */
++			break;
++		case BT_8812A_1ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_hid_a2dp_pan_edr(btcoexist); */
++			break;
++		case BT_8812A_1ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_hid_a2dp(btcoexist); */
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_coex_all_off(btcoexist); */
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8812a1ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false, bt_hs_on = false;
++	boolean	increase_scan_dev_num = false;
++	boolean	bt_ctrl_agg_buf_size = false;
++	boolean	miracast_plus_bt = false;
++	u8	agg_buf_size = 5;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0, wifi_bw;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if ((BT_8812A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8812A_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8812A_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		increase_scan_dev_num = true;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_INC_SCAN_DEV_NUM,
++			   &increase_scan_dev_num);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist) {
++			halbtc8812a1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1,
++						   0, 1);
++			miracast_plus_bt = true;
++		} else {
++			halbtc8812a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0,
++						   0, 0);
++			miracast_plus_bt = false;
++		}
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8812a1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if ((bt_link_info->a2dp_exist) &&
++		    (coex_sta->c2h_bt_inquiry_page)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8812a1ant_action_wifi_multi_port(btcoexist);
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if ((bt_link_info->bt_link_exist) && (wifi_connected)) {
++		halbtc8812a1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1, 0, 1);
++
++		if (bt_link_info->sco_exist)
++			halbtc8812a1ant_limited_rx(btcoexist, NORMAL_EXEC, true,
++						   false, 0x5);
++		else {
++			if (BTC_WIFI_BW_HT40 == wifi_bw)
++				halbtc8812a1ant_limited_rx(btcoexist, NORMAL_EXEC,
++							   false, true, 0x10);
++			else
++				halbtc8812a1ant_limited_rx(btcoexist, NORMAL_EXEC,
++							   false, true, 0x8);
++		}
++
++		halbtc8812a1ant_sw_mechanism(btcoexist, true);
++		halbtc8812a1ant_run_sw_coexist_mechanism(
++			btcoexist);  /* just print debug message */
++	} else {
++		halbtc8812a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++		halbtc8812a1ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x5);
++
++		halbtc8812a1ant_sw_mechanism(btcoexist, false);
++		halbtc8812a1ant_run_sw_coexist_mechanism(
++			btcoexist); /* //just print debug message */
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "############# [BTCoex],  BT Is Inquirying\n");
++		BTC_TRACE(trace_buf);
++		halbtc8812a1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8812a1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	if (!wifi_connected) {
++		boolean	scan = false, link = false, roam = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is non connected-idle !!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (scan || link || roam) {
++			if (scan)
++				halbtc8812a1ant_action_wifi_not_connected_scan(
++					btcoexist);
++			else
++				halbtc8812a1ant_action_wifi_not_connected_asso_auth(
++					btcoexist);
++		} else
++			halbtc8812a1ant_action_wifi_not_connected(btcoexist);
++	} else	/* wifi LPS/Busy */
++		halbtc8812a1ant_action_wifi_connected(btcoexist);
++}
++
++void halbtc8812a1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++
++	/* sw all off */
++	halbtc8812a1ant_sw_mechanism(btcoexist, false);
++
++	/* halbtc8812a1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8); */
++	/* halbtc8812a1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0); */
++
++	coex_sta->pop_event_cnt = 0;
++}
++
++void halbtc8812a1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up, IN boolean wifi_only)
++{
++	u8	u8tmp = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 1Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	/* ant sw control to BT */
++	halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, FORCE_EXEC,
++				     true, false);
++
++	/* 0x790[5:0]=0x5 */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x790);
++	u8tmp &= 0xc0;
++	u8tmp |= 0x5;
++	btcoexist->btc_write_1byte(btcoexist, 0x790, u8tmp);
++
++	/* PTA parameter */
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, 0x0);
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, 0xffff);
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, 0x55555555);
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, 0x55555555);
++
++	/* coex parameters */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++
++	/* enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++	/* enable PTA */
++	btcoexist->btc_write_1byte(btcoexist, 0x40, 0x20);
++
++	/* bt clock related */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x4);
++	u8tmp |= BIT(7);
++	btcoexist->btc_write_1byte(btcoexist, 0x4, u8tmp);
++
++	/* bt clock related */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x7);
++	u8tmp |= BIT(1);
++	btcoexist->btc_write_1byte(btcoexist, 0x7, u8tmp);
++}
++
++/* ************************************************************
++ * work around function start with wa_halbtc8812a1ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8812a1ant_
++ * ************************************************************ */
++void ex_halbtc8812a1ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8812a1ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8812a1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8812a1ant_init_hw_config(btcoexist, true, wifi_only);
++	btcoexist->stop_coex_dm = false;
++}
++
++void ex_halbtc8812a1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = false;
++
++	halbtc8812a1ant_init_coex_dm(btcoexist);
++
++	halbtc8812a1ant_query_bt_info(btcoexist);
++}
++
++void ex_halbtc8812a1ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8			*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u32				u32tmp[4];
++	u32				fw_ver = 0, bt_patch_ver = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	if (btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "Ant PG number/ Ant mechanism:",
++		   board_info->pg_ant_num, board_info->btdm_ant_num);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%d/ 0x%x/ 0x%x(%d)",
++		   "CoexVer/ FwVer/ PatchVer",
++		   glcoex_ver_date_8812a_1ant, glcoex_ver_8812a_1ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8812A_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8812A_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi, coex_sta->bt_retry_cnt);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist);
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_BT_LINK_INFO);
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Info A2DP rate",
++		   (bt_info_ext & BIT(0)) ? "Basic rate" : "EDR rate");
++	CL_PRINTF(cli_buf);
++
++	for (i = 0; i < BT_INFO_SRC_8812A_1ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8812a_1ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	if (!btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanisms]============");
++		CL_PRINTF(cli_buf);
++
++		ps_tdma_case = coex_dm->cur_ps_tdma;
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d",
++			   "PS TDMA",
++			   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++			   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++			   coex_dm->ps_tdma_para[4], ps_tdma_case);
++		CL_PRINTF(cli_buf);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x ",
++			   "Latest error condition(should be 0)",
++			   coex_dm->error_condition);
++		CL_PRINTF(cli_buf);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ",
++			   "IgnWlanAct",
++			   coex_dm->cur_ignore_wlan_act);
++		CL_PRINTF(cli_buf);
++	}
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x778",
++		   u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xcb3);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xcb7);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x900);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0xcb3/0xcb7/0x900",
++		   u8tmp[0], u8tmp[1], u32tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x40",
++		   u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0xc50(dig)",
++		   u32tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8/0x6cc(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(hp rx[31:16]/tx[15:0])",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(lp rx[31:16]/tx[15:0])",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++
++void ex_halbtc8812a1ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, true);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8812a1ant_init_hw_config(btcoexist, false, false);
++		halbtc8812a1ant_init_coex_dm(btcoexist);
++		halbtc8812a1ant_query_bt_info(btcoexist);
++
++		coex_sta->under_ips = false;
++	}
++}
++
++void ex_halbtc8812a1ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++	}
++}
++
++void ex_halbtc8812a1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_SCAN_START == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8812a1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++			8);  /* Force antenna setup for no scan result issue */
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);
++	}
++
++	if (coex_sta->bt_disabled)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	halbtc8812a1ant_query_bt_info(btcoexist);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8812a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8812a1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8812a1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8812a1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8812a1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_SCAN_START == type) {
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8812a1ant_action_wifi_not_connected_scan(
++				btcoexist);
++		else	/* wifi is connected */
++			halbtc8812a1ant_action_wifi_connected_scan(btcoexist);
++	} else if (BTC_SCAN_FINISH == type) {
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8812a1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8812a1ant_action_wifi_connected(btcoexist);
++	}
++}
++
++void ex_halbtc8812a1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	boolean	wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	if (BTC_ASSOCIATE_START == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		halbtc8812a1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++			8);  /* Force antenna setup for no scan result issue */
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++		/* coex_dm->arp_cnt = 0; */
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8812a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8812a1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8812a1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8812a1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8812a1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_ASSOCIATE_START == type)
++		halbtc8812a1ant_action_wifi_not_connected_asso_auth(btcoexist);
++	else if (BTC_ASSOCIATE_FINISH == type) {
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++				   &wifi_connected);
++		if (!wifi_connected) /* non-connected scan */
++			halbtc8812a1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8812a1ant_action_wifi_connected(btcoexist);
++	}
++}
++
++/* to check registers... */
++void ex_halbtc8812a1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			data_len = 5;
++	u8			buf[6] = {0};
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++	boolean			wifi_under_b_mode = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++		halbtc8812a1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++			8);  /* Force antenna setup for no scan result issue */
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++#if 0
++		/* Set CCK Tx/Rx high Pri except 11b mode */
++		if (wifi_under_b_mode) {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x00); /* CCK Rx */
++		} else {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x10); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x10); /* CCK Rx */
++		}
++#endif
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++
++		btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x0); /* CCK Tx */
++		btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x0); /* CCK Rx */
++	}
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		/* h2c_parameter[0] = 0x1; */
++		h2c_parameter[0] = 0x0;
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	buf[0] = data_len;
++	buf[1] = 0x5;				/* OP_Code */
++	buf[2] = 0x3;				/* OP_Code_Length */
++	buf[3] = h2c_parameter[0];	/* OP_Code_Content */
++	buf[4] = h2c_parameter[1];
++	buf[5] = h2c_parameter[2];
++
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_CTRL_BT_COEX,
++			   (void *)&buf[0]);
++}
++
++void ex_halbtc8812a1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean	bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	if (BTC_PACKET_DHCP == type ||
++	    BTC_PACKET_EAPOL == type ||
++	    BTC_PACKET_ARP == type) {
++		if (BTC_PACKET_ARP == type) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], specific Packet ARP notify\n");
++			BTC_TRACE(trace_buf);
++
++			coex_dm->arp_cnt++;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], ARP Packet Count = %d\n",
++				    coex_dm->arp_cnt);
++			BTC_TRACE(trace_buf);
++
++			if (coex_dm->arp_cnt >=
++			    10) /* if APR PKT > 10 after connect, do not go to ActionWifiConnectedSpecificPacket(btcoexist) */
++				coex_sta->wifi_is_high_pri_task = false;
++			else
++				coex_sta->wifi_is_high_pri_task = true;
++		} else {
++			coex_sta->wifi_is_high_pri_task = true;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], specific Packet DHCP or EAPOL notify\n");
++			BTC_TRACE(trace_buf);
++		}
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet [Type = %d] notify\n", type);
++		BTC_TRACE(trace_buf);
++	}
++
++	coex_sta->specific_pkt_period_cnt = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8812a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8812a1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8812a1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8812a1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8812a1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_PACKET_DHCP == type ||
++	    BTC_PACKET_EAPOL == type ||
++	    ((BTC_PACKET_ARP == type) && (coex_sta->wifi_is_high_pri_task)))
++		halbtc8812a1ant_action_wifi_connected_specific_packet(btcoexist);
++}
++
++void ex_halbtc8812a1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8				bt_info = 0;
++	u8				i, rsp_source = 0;
++	boolean				wifi_connected = false;
++	boolean				bt_busy = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8812A_1ANT_MAX)
++		rsp_source = BT_INFO_SRC_8812A_1ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (BT_INFO_SRC_8812A_1ANT_WIFI_FW != rsp_source) {
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x20)
++			coex_sta->c2h_bt_page = true;
++		else
++			coex_sta->c2h_bt_page = false;
++
++		coex_sta->bt_rssi =
++			coex_sta->bt_info_c2h[rsp_source][3] * 2 - 90;
++		/* coex_sta->bt_info_c2h[rsp_source][3]*2+10; */
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		coex_sta->bt_tx_rx_mask = (coex_sta->bt_info_c2h[rsp_source][2]
++					   & 0x40);
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TX_RX_MASK,
++				   &coex_sta->bt_tx_rx_mask);
++		if (!coex_sta->bt_tx_rx_mask) {
++			/* BT into is responded by BT FW and BT RF REG 0x3C != 0x15 => Need to switch BT TRx Mask */
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Switch BT TRx Mask since BT RF REG 0x3C != 0x15\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF,
++						  0x3c, 0x15);
++		}
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++		if (coex_sta->bt_info_ext & BIT(1)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++					   &wifi_connected);
++			if (wifi_connected)
++				ex_halbtc8812a1ant_media_status_notify(
++					btcoexist, BTC_MEDIA_CONNECT);
++			else
++				ex_halbtc8812a1ant_media_status_notify(
++					btcoexist, BTC_MEDIA_DISCONNECT);
++		}
++
++		if (coex_sta->bt_info_ext & BIT(3)) {
++			if (!btcoexist->manual_control &&
++			    !btcoexist->stop_coex_dm) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8812a1ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		} else {
++			/* BT already NOT ignore Wlan active, do nothing here. */
++		}
++#if (BT_AUTO_REPORT_ONLY_8812A_1ANT == 0)
++		if ((coex_sta->bt_info_ext & BIT(4))) {
++			/* BT auto report already enabled, do nothing */
++		} else
++			halbtc8812a1ant_bt_auto_report(btcoexist, FORCE_EXEC,
++						       true);
++#endif
++	}
++
++	/* check BIT2 first ==> check if bt is under inquiry or page scan */
++	if (bt_info & BT_INFO_8812A_1ANT_B_INQ_PAGE)
++		coex_sta->c2h_bt_inquiry_page = true;
++	else
++		coex_sta->c2h_bt_inquiry_page = false;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8812A_1ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8812A_1ANT_B_FTP)
++			coex_sta->pan_exist = true;
++		else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8812A_1ANT_B_A2DP)
++			coex_sta->a2dp_exist = true;
++		else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8812A_1ANT_B_HID)
++			coex_sta->hid_exist = true;
++		else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8812A_1ANT_B_SCO_ESCO)
++			coex_sta->sco_exist = true;
++		else
++			coex_sta->sco_exist = false;
++	}
++
++	halbtc8812a1ant_update_bt_link_info(btcoexist);
++
++	bt_info = bt_info &
++		0x1f;  /* mask profile bit for connect-ilde identification ( for CSR case: A2DP idle --> 0x41) */
++
++	if (!(bt_info & BT_INFO_8812A_1ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8812A_1ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8812A_1ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8812A_1ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8812A_1ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8812A_1ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8812A_1ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8812A_1ANT_B_ACL_BUSY) {
++		if (BT_8812A_1ANT_BT_STATUS_ACL_BUSY != coex_dm->bt_status)
++			coex_dm->auto_tdma_adjust = false;
++		coex_dm->bt_status = BT_8812A_1ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8812A_1ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8812A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8812A_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8812A_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		bt_busy = true;
++	else
++		bt_busy = false;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	halbtc8812a1ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8812a1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RF Status notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_RF_ON == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->stop_coex_dm = false;
++	} else if (BTC_RF_OFF == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8812a1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, true);
++
++		halbtc8812a1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++		btcoexist->stop_coex_dm = true;
++	}
++}
++
++void ex_halbtc8812a1ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8812a1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++	halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, FORCE_EXEC,
++				     false, true);
++
++	halbtc8812a1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++	ex_halbtc8812a1ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	btcoexist->stop_coex_dm = true;
++}
++
++void ex_halbtc8812a1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, true);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++
++		/* Sinda 20150819, workaround for driver skip leave IPS/LPS to speed up sleep time. */
++		/* Driver do not leave IPS/LPS when driver is going to sleep, so BTCoexistence think wifi is still under IPS/LPS */
++		/* BT should clear UnderIPS/UnderLPS state to avoid mismatch state after wakeup. */
++		coex_sta->under_ips = false;
++		coex_sta->under_lps = false;
++		btcoexist->stop_coex_dm = true;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->stop_coex_dm = false;
++		halbtc8812a1ant_init_hw_config(btcoexist, false, false);
++		halbtc8812a1ant_init_coex_dm(btcoexist);
++		halbtc8812a1ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8812a1ant_coex_dm_reset(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], *****************Coex DM Reset*****************\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8812a1ant_init_hw_config(btcoexist, false, false);
++	halbtc8812a1ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8812a1ant_periodical(IN struct btc_coexist *btcoexist)
++{
++#if (BT_AUTO_REPORT_ONLY_8812A_1ANT == 0)
++	halbtc8812a1ant_query_bt_info(btcoexist);
++	halbtc8812a1ant_monitor_bt_enable_disable(btcoexist);
++#else
++	halbtc8812a1ant_monitor_bt_ctr(btcoexist);
++	halbtc8812a1ant_monitor_wifi_ctr(btcoexist);
++
++	if (halbtc8812a1ant_is_wifi_status_changed(btcoexist) ||
++	    coex_dm->auto_tdma_adjust)
++		halbtc8812a1ant_run_coexist_mechanism(btcoexist);
++
++	coex_sta->specific_pkt_period_cnt++;
++#endif
++}
++
++void ex_halbtc8812a1ant_dbg_control(IN struct btc_coexist *btcoexist,
++				    IN u8 op_code, IN u8 op_len, IN u8 *pdata)
++{
++	switch (op_code) {
++	case BTC_DBG_SET_COEX_NORMAL:
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Set CoexMode to Normal\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->manual_control = false;
++		halbtc8812a1ant_init_coex_dm(btcoexist);
++		break;
++	case BTC_DBG_SET_COEX_WIFI_ONLY:
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Set CoexMode to Wifi Only\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->manual_control = true;
++		halbtc8812a1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++					9);
++		break;
++	case BTC_DBG_SET_COEX_BT_ONLY:
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Set CoexMode to BT only\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->manual_control = true;
++		halbtc8812a1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++					0);
++		break;
++	case BTC_DBG_SET_COEX_DEC_BT_PWR:
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Set Dec BT power\n");
++		BTC_TRACE(trace_buf);
++		{
++			u8	data_len = 4;
++			u8	buf[6] = {0};
++			u8	dec_bt_pwr = 0, pwr_level = 0;
++			if (op_len == 2) {
++				dec_bt_pwr = pdata[0];
++				pwr_level = pdata[1];
++
++				buf[0] = data_len;
++				buf[1] = 0x3;		/* OP_Code */
++				buf[2] = 0x2;		/* OP_Code_Length */
++
++				buf[3] = dec_bt_pwr;	/* OP_Code_Content */
++				buf[4] = pwr_level;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Set Dec BT power=%d, pwr_level=%d\n",
++					    dec_bt_pwr, pwr_level);
++				BTC_TRACE(trace_buf);
++				btcoexist->btc_set(btcoexist,
++						   BTC_SET_ACT_CTRL_BT_COEX,
++						   (void *)&buf[0]);
++			}
++		}
++		break;
++
++	case BTC_DBG_SET_COEX_BT_AFH_MAP:
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Set BT AFH Map\n");
++		BTC_TRACE(trace_buf);
++		{
++			u8	data_len = 5;
++			u8	buf[6] = {0};
++			if (op_len == 3) {
++				buf[0] = data_len;
++				buf[1] = 0x5;				/* OP_Code */
++				buf[2] = 0x3;				/* OP_Code_Length */
++
++				buf[3] = pdata[0];			/* OP_Code_Content */
++				buf[4] = pdata[1];
++				buf[5] = pdata[2];
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Set BT AFH Map = %02x %02x %02x\n",
++					    pdata[0], pdata[1], pdata[2]);
++				BTC_TRACE(trace_buf);
++				btcoexist->btc_set(btcoexist,
++						   BTC_SET_ACT_CTRL_BT_COEX,
++						   (void *)&buf[0]);
++			}
++		}
++		break;
++
++	case BTC_DBG_SET_COEX_BT_IGNORE_WLAN_ACT:
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Set BT Ignore Wlan Active\n");
++		BTC_TRACE(trace_buf);
++		{
++			u8	data_len = 3;
++			u8	buf[6] = {0};
++			if (op_len == 1) {
++				buf[0] = data_len;
++				buf[1] = 0x1;			/* OP_Code */
++				buf[2] = 0x1;			/* OP_Code_Length */
++
++				buf[3] = pdata[0];		/* OP_Code_Content */
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Set BT Ignore Wlan Active = 0x%x\n",
++					    pdata[0]);
++				BTC_TRACE(trace_buf);
++
++				btcoexist->btc_set(btcoexist,
++						   BTC_SET_ACT_CTRL_BT_COEX,
++						   (void *)&buf[0]);
++			}
++		}
++		break;
++	default:
++		break;
++	}
++}
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
+\ No newline at end of file
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8812a1Ant.h b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8812a1Ant.h
+new file mode 100644
+index 0000000..e786d37
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8812a1Ant.h
+@@ -0,0 +1,230 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8812A_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8812A 1ANT BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8812A_1ANT				1
++
++#define	BT_INFO_8812A_1ANT_B_FTP						BIT(7)
++#define	BT_INFO_8812A_1ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8812A_1ANT_B_HID						BIT(5)
++#define	BT_INFO_8812A_1ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8812A_1ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8812A_1ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8812A_1ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8812A_1ANT_B_CONNECTION				BIT(0)
++
++#define	BT_INFO_8812A_1ANT_A2DP_BASIC_RATE(_BT_INFO_EXT_)	\
++		(((_BT_INFO_EXT_&BIT(0))) ? true : false)
++
++#define	BTC_RSSI_COEX_THRESH_TOL_8812A_1ANT		2
++
++#define  BT_8812A_1ANT_WIFI_NOISY_THRESH								30   /* max: 255 */
++
++enum bt_info_src_8812a_1ant {
++	BT_INFO_SRC_8812A_1ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8812A_1ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8812A_1ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8812A_1ANT_MAX
++};
++
++enum bt_8812a_1ant_bt_status {
++	BT_8812A_1ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8812A_1ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8812A_1ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8812A_1ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8812A_1ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8812A_1ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8812A_1ANT_BT_STATUS_MAX
++};
++
++enum bt_8812a_1ant_wifi_status {
++	BT_8812A_1ANT_WIFI_STATUS_NON_CONNECTED_IDLE				= 0x0,
++	BT_8812A_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN		= 0x1,
++	BT_8812A_1ANT_WIFI_STATUS_CONNECTED_SCAN					= 0x2,
++	BT_8812A_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT				= 0x3,
++	BT_8812A_1ANT_WIFI_STATUS_CONNECTED_IDLE					= 0x4,
++	BT_8812A_1ANT_WIFI_STATUS_CONNECTED_BUSY					= 0x5,
++	BT_8812A_1ANT_WIFI_STATUS_MAX
++};
++
++enum bt_8812a_1ant_coex_algo {
++	BT_8812A_1ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8812A_1ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8812A_1ANT_COEX_ALGO_HID				= 0x2,
++	BT_8812A_1ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8812A_1ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8812A_1ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8812A_1ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8812A_1ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8812A_1ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8812A_1ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8812A_1ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8812A_1ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++struct coex_dm_8812a_1ant {
++	/* hw setting */
++	u8		pre_ant_pos_type;
++	u8		cur_ant_pos_type;
++	/* fw mechanism */
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	/* sw mechanism */
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++	u32		arp_cnt;
++
++	u8		error_condition;
++};
++
++struct coex_sta_8812a_1ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					specific_pkt_period_cnt;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	s8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8812A_1ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8812A_1ANT_MAX];
++	u32					bt_info_query_cnt;
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_page;				/* Add for win8.1 page out issue */
++	boolean					wifi_is_high_pri_task;		/* Add for win8.1 page out issue */
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	boolean					cck_lock;
++	boolean					pre_ccklock;
++	u8					coex_table_type;
++
++	boolean					force_lps_on;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8812a1ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a1ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8812a1ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a1ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8812a1ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8812a1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8812a1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8812a1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8812a1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8812a1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8812a1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8812a1ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8812a1ant_coex_dm_reset(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a1ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a1ant_dbg_control(IN struct btc_coexist *btcoexist,
++				    IN u8 op_code, IN u8 op_len, IN u8 *pdata);
++void ex_halbtc8812a1ant_display_coex_info(IN struct btc_coexist *btcoexist);
++
++#else
++#define	ex_halbtc8812a1ant_power_on_setting(btcoexist)
++#define	ex_halbtc8812a1ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8812a1ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8812a1ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8812a1ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8812a1ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8812a1ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8812a1ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8812a1ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8812a1ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8812a1ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8812a1ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8812a1ant_halt_notify(btcoexist)
++#define	ex_halbtc8812a1ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8812a1ant_coex_dm_reset(btcoexist)
++#define	ex_halbtc8812a1ant_periodical(btcoexist)
++#define	ex_halbtc8812a1ant_dbg_control(btcoexist, op_code, op_len, pdata)
++#define	ex_halbtc8812a1ant_display_coex_info(btcoexist)
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8812a2Ant.c b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8812a2Ant.c
+new file mode 100644
+index 0000000..cd8a547
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8812a2Ant.c
+@@ -0,0 +1,4782 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8812A Co-exist mechanism
++ *
++ * History
++ * 2012/08/22 Cosa first check in.
++ * 2012/11/14 Cosa Revise for 8812A 2Ant out sourcing.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8812A_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8812a_2ant	glcoex_dm_8812a_2ant;
++static struct  coex_dm_8812a_2ant	*coex_dm = &glcoex_dm_8812a_2ant;
++static struct  coex_sta_8812a_2ant	glcoex_sta_8812a_2ant;
++static struct  coex_sta_8812a_2ant	*coex_sta = &glcoex_sta_8812a_2ant;
++
++const char *const glbt_info_src_8812a_2ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8812a_2ant = 20150724;
++u32	glcoex_ver_8812a_2ant = 0x37;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8812a2ant_
++ * ************************************************************ */
++u8 halbtc8812a2ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8812A_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8812A_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8812A_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8812a2ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8812A_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8812A_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8812A_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8812a2ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_stack_info	*stack_info = &btcoexist->stack_info;
++	static u32	bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++
++	/* This function check if bt is disabled */
++
++	/* only 8812a need to consider if core stack is installed. */
++	if (!stack_info->hci_version)
++		bt_active = false;
++
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is enabled !!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		bt_disable_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], bt is detected as disabled %d times!!\n",
++			    bt_disable_cnt);
++		BTC_TRACE(trace_buf);
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++					   &bt_disabled);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++			BTC_TRACE(trace_buf);
++		}
++	}
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++		if (!bt_disabled) {
++		} else {
++		}
++	}
++}
++
++u32 halbtc8812a2ant_decide_ra_mask(IN struct btc_coexist *btcoexist,
++				   IN u32 ra_mask_type)
++{
++	u32	dis_ra_mask = 0x0;
++
++	switch (ra_mask_type) {
++	case 0: /* normal mode */
++		dis_ra_mask = 0x0;
++		break;
++	case 1: /* disable cck 1/2 */
++		dis_ra_mask = 0x00000003;
++		break;
++	case 2: /* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4			 */
++		dis_ra_mask = 0x0001f1f7;
++		break;
++	default:
++		break;
++	}
++
++	return dis_ra_mask;
++}
++
++void halbtc8812a2ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8812a2ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8812a2ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8812a2ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8812a2ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	u32	dis_ra_mask = 0x0;
++
++	coex_dm->cur_ra_mask_type = ra_mask_type;
++	dis_ra_mask = halbtc8812a2ant_decide_ra_mask(btcoexist, ra_mask_type);
++	halbtc8812a2ant_update_ra_mask(btcoexist, force_exec, dis_ra_mask);
++
++	halbtc8812a2ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8812a2ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8812a2ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++void halbtc8812a2ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8812a2ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], High Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		    reg_hp_txrx, reg_hp_tx, reg_hp_tx, reg_hp_rx, reg_hp_rx);
++	BTC_TRACE(trace_buf);
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], Low Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		    reg_lp_txrx, reg_lp_tx, reg_lp_tx, reg_lp_rx, reg_lp_rx);
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++}
++
++void halbtc8812a2ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8	data_len = 3;
++	u8	buf[5] = {0};
++
++	if (!coex_sta->bt_disabled) {
++		if (!coex_sta->bt_info_query_cnt ||
++		    (coex_sta->bt_info_c2h_cnt[BT_INFO_SRC_8812A_2ANT_BT_RSP]
++		     - coex_sta->bt_info_query_cnt) > 2) {
++			buf[0] = data_len;
++			buf[1] = 0x1;	/* polling enable, 1=enable, 0=disable */
++			buf[2] = 0x2;	/* polling time in seconds */
++			buf[3] = 0x1;	/* auto report enable, 1=enable, 0=disable */
++
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_CTRL_BT_INFO,
++					   (void *)&buf[0]);
++		}
++	}
++	coex_sta->bt_info_query_cnt++;
++}
++
++boolean halbtc8812a2ant_is_wifi_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false;
++	boolean	wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean	wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++	}
++
++	return false;
++}
++
++void halbtc8812a2ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++	bt_link_info->acl_busy = coex_sta->acl_busy;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++u8 halbtc8812a2ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	struct  btc_stack_info	*stack_info = &btcoexist->stack_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8812A_2ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 0) {
++		if (bt_link_info->acl_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], ACL Busy only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8812A_2ANT_COEX_ALGO_PANEDR;
++		}
++	} else if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8812A_2ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_2ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_2ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_2ANT_COEX_ALGO_SCO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8812A_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8812A_2ANT_COEX_ALGO_SCO;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (stack_info->num_of_hid >= 2) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], HID*2 + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], HID + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_HID_A2DP;
++				}
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_SCO_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_SCO_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8812A_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_HID_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8812a2ant_set_fw_dac_swing_level(IN struct btc_coexist *btcoexist,
++		IN u8 dac_swing_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	/* There are several type of dacswing */
++	/* 0x18/ 0x10/ 0xc/ 0x8/ 0x4/ 0x6 */
++	h2c_parameter[0] = dac_swing_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x64, 1, h2c_parameter);
++}
++
++void halbtc8812a2ant_set_fw_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				       IN u8 dec_bt_pwr_lvl)
++{
++	u8	data_len = 4;
++	u8	buf[6] = {0};
++
++	buf[0] = data_len;
++	buf[1] = 0x3;		/* OP_Code */
++	buf[2] = 0x2;		/* OP_Code_Length */
++	if (dec_bt_pwr_lvl)
++		buf[3] = 0x1;	/* OP_Code_Content */
++	else
++		buf[3] = 0x0;
++	buf[4] = dec_bt_pwr_lvl;/* pwr_level */
++
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_CTRL_BT_COEX,
++			   (void *)&buf[0]);
++}
++
++void halbtc8812a2ant_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				IN boolean force_exec, IN u8 dec_bt_pwr_lvl)
++{
++	coex_dm->cur_bt_dec_pwr_lvl = dec_bt_pwr_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_dec_pwr_lvl == coex_dm->cur_bt_dec_pwr_lvl)
++			return;
++	}
++	halbtc8812a2ant_set_fw_dec_bt_pwr(btcoexist,
++					  coex_dm->cur_bt_dec_pwr_lvl);
++
++	coex_dm->pre_bt_dec_pwr_lvl = coex_dm->cur_bt_dec_pwr_lvl;
++}
++
++void halbtc8812a2ant_fw_dac_swing_lvl(IN struct btc_coexist *btcoexist,
++			      IN boolean force_exec, IN u8 fw_dac_swing_lvl)
++{
++	coex_dm->cur_fw_dac_swing_lvl = fw_dac_swing_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_fw_dac_swing_lvl ==
++		    coex_dm->cur_fw_dac_swing_lvl)
++			return;
++	}
++
++	halbtc8812a2ant_set_fw_dac_swing_level(btcoexist,
++					       coex_dm->cur_fw_dac_swing_lvl);
++
++	coex_dm->pre_fw_dac_swing_lvl = coex_dm->cur_fw_dac_swing_lvl;
++}
++
++void halbtc8812a2ant_set_sw_rf_rx_lpf_corner(IN struct btc_coexist *btcoexist,
++		IN boolean rx_rf_shrink_on)
++{
++	if (rx_rf_shrink_on) {
++		/* Shrink RF Rx LPF corner */
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Shrink RF Rx LPF corner!!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e, 0xfffff,
++					  0xffffc);
++	} else {
++		/* Resume RF Rx LPF corner */
++		/* After initialized, we can use coex_dm->bt_rf_0x1e_backup */
++		if (btcoexist->initilized) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Resume RF Rx LPF corner!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++					  0xfffff, coex_dm->bt_rf_0x1e_backup);
++		}
++	}
++}
++
++void halbtc8812a2ant_rf_shrink(IN struct btc_coexist *btcoexist,
++		       IN boolean force_exec, IN boolean rx_rf_shrink_on)
++{
++	coex_dm->cur_rf_rx_lpf_shrink = rx_rf_shrink_on;
++
++	if (!force_exec) {
++		if (coex_dm->pre_rf_rx_lpf_shrink ==
++		    coex_dm->cur_rf_rx_lpf_shrink)
++			return;
++	}
++	halbtc8812a2ant_set_sw_rf_rx_lpf_corner(btcoexist,
++						coex_dm->cur_rf_rx_lpf_shrink);
++
++	coex_dm->pre_rf_rx_lpf_shrink = coex_dm->cur_rf_rx_lpf_shrink;
++}
++
++void halbtc8812a2ant_set_sw_penalty_tx_rate_adaptive(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8	tmp_u1;
++
++	tmp_u1 = btcoexist->btc_read_1byte(btcoexist, 0x4fd);
++	tmp_u1 |= BIT(0);
++	if (low_penalty_ra) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Tx rate adaptive, set low penalty!!\n");
++		BTC_TRACE(trace_buf);
++		tmp_u1 &= ~BIT(2);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Tx rate adaptive, set normal!!\n");
++		BTC_TRACE(trace_buf);
++		tmp_u1 |= BIT(2);
++	}
++
++	btcoexist->btc_write_1byte(btcoexist, 0x4fd, tmp_u1);
++}
++
++void halbtc8812a2ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	return;
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8812a2ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8812a2ant_set_dac_swing_reg(IN struct btc_coexist *btcoexist,
++				       IN u32 level)
++{
++	u8	val = (u8)level;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Write SwDacSwing = 0x%x\n", level);
++	BTC_TRACE(trace_buf);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xc5b, 0x3e, val);
++}
++
++void halbtc8812a2ant_set_sw_full_time_dac_swing(IN struct btc_coexist
++		*btcoexist, IN boolean sw_dac_swing_on, IN u32 sw_dac_swing_lvl)
++{
++	if (sw_dac_swing_on)
++		halbtc8812a2ant_set_dac_swing_reg(btcoexist, sw_dac_swing_lvl);
++	else
++		halbtc8812a2ant_set_dac_swing_reg(btcoexist, 0x18);
++}
++
++
++void halbtc8812a2ant_dac_swing(IN struct btc_coexist *btcoexist,
++	IN boolean force_exec, IN boolean dac_swing_on, IN u32 dac_swing_lvl)
++{
++	coex_dm->cur_dac_swing_on = dac_swing_on;
++	coex_dm->cur_dac_swing_lvl = dac_swing_lvl;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_dac_swing_on == coex_dm->cur_dac_swing_on) &&
++		    (coex_dm->pre_dac_swing_lvl ==
++		     coex_dm->cur_dac_swing_lvl))
++			return;
++	}
++	delay_ms(30);
++	halbtc8812a2ant_set_sw_full_time_dac_swing(btcoexist, dac_swing_on,
++			dac_swing_lvl);
++
++	coex_dm->pre_dac_swing_on = coex_dm->cur_dac_swing_on;
++	coex_dm->pre_dac_swing_lvl = coex_dm->cur_dac_swing_lvl;
++}
++
++void halbtc8812a2ant_set_adc_back_off(IN struct btc_coexist *btcoexist,
++				      IN boolean adc_back_off)
++{
++	if (adc_back_off) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB BackOff Level On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x8db, 0x60, 0x3);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB BackOff Level Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x8db, 0x60, 0x1);
++	}
++}
++
++void halbtc8812a2ant_adc_back_off(IN struct btc_coexist *btcoexist,
++			  IN boolean force_exec, IN boolean adc_back_off)
++{
++	coex_dm->cur_adc_back_off = adc_back_off;
++
++	if (!force_exec) {
++		if (coex_dm->pre_adc_back_off == coex_dm->cur_adc_back_off)
++			return;
++	}
++	halbtc8812a2ant_set_adc_back_off(btcoexist, coex_dm->cur_adc_back_off);
++
++	coex_dm->pre_adc_back_off = coex_dm->cur_adc_back_off;
++}
++
++void halbtc8812a2ant_set_agc_table(IN struct btc_coexist *btcoexist,
++				   IN boolean agc_table_en)
++{
++	u8		rssi_adjust_val = 0;
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xef, 0xfffff, 0x02000);
++	if (agc_table_en) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x28F4B);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x10AB2);
++		rssi_adjust_val = 8;
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x2884B);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x104B2);
++	}
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xef, 0xfffff, 0x0);
++
++	/* set rssi_adjust_val for wifi module. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RSSI_ADJ_VAL_FOR_AGC_TABLE_ON,
++			   &rssi_adjust_val);
++}
++
++void halbtc8812a2ant_agc_table(IN struct btc_coexist *btcoexist,
++			       IN boolean force_exec, IN boolean agc_table_en)
++{
++	coex_dm->cur_agc_table_en = agc_table_en;
++
++	if (!force_exec) {
++		if (coex_dm->pre_agc_table_en == coex_dm->cur_agc_table_en)
++			return;
++	}
++	halbtc8812a2ant_set_agc_table(btcoexist, agc_table_en);
++
++	coex_dm->pre_agc_table_en = coex_dm->cur_agc_table_en;
++}
++
++void halbtc8812a2ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8812a2ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8812a2ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8812a2ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	switch (type) {
++	case 0:
++		halbtc8812a2ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 1:
++		halbtc8812a2ant_coex_table(btcoexist, force_exec,
++				   0x5a5a5a5a, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 2:
++		halbtc8812a2ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5ffb5ffb, 0xffffff, 0x3);
++		break;
++	case 3:
++		halbtc8812a2ant_coex_table(btcoexist, force_exec,
++				   0x5fdf5fdf, 0x5fdb5fdb, 0xffffff, 0x3);
++		break;
++	case 4:
++		halbtc8812a2ant_coex_table(btcoexist, force_exec,
++				   0xdfffdfff, 0x5fdb5fdb, 0xffffff, 0x3);
++		break;
++	case 5:
++		halbtc8812a2ant_coex_table(btcoexist, force_exec,
++				   0x5ddd5ddd, 0x5fdb5fdb, 0xffffff, 0x3);
++		break;
++
++	default:
++		break;
++	}
++}
++
++void halbtc8812a2ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8	data_len = 3;
++	u8	buf[5] = {0};
++
++	buf[0] = data_len;
++	buf[1] = 0x1;			/* OP_Code */
++	buf[2] = 0x1;			/* OP_Code_Length */
++	if (enable)
++		buf[3] = 0x1;		/* OP_Code_Content */
++	else
++		buf[3] = 0x0;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_CTRL_BT_COEX,
++			   (void *)&buf[0]);
++}
++
++void halbtc8812a2ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8812a2ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8812a2ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], FW for 1Ant AP mode\n");
++			BTC_TRACE(trace_buf);
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++		}
++	}
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++void halbtc8812a2ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8812a2ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8812a2ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8812a2ant_sw_mechanism1(IN struct btc_coexist *btcoexist,
++			   IN boolean shrink_rx_lpf, IN boolean low_penalty_ra,
++			   IN boolean limited_dig, IN boolean bt_lna_constrain)
++{
++	/*
++	u32	wifi_bw;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if(BTC_WIFI_BW_HT40 != wifi_bw)
++	{
++		if (shrink_rx_lpf)
++			shrink_rx_lpf = false;
++	}
++	*/
++
++	halbtc8812a2ant_rf_shrink(btcoexist, NORMAL_EXEC, shrink_rx_lpf);
++	/* halbtc8812a2ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra); */
++}
++
++void halbtc8812a2ant_sw_mechanism2(IN struct btc_coexist *btcoexist,
++			   IN boolean agc_table_shift, IN boolean adc_back_off,
++			   IN boolean sw_dac_swing, IN u32 dac_swing_lvl)
++{
++	/* halbtc8812a2ant_agc_table(btcoexist, NORMAL_EXEC, agc_table_shift); */
++	halbtc8812a2ant_adc_back_off(btcoexist, NORMAL_EXEC, adc_back_off);
++	halbtc8812a2ant_dac_swing(btcoexist, NORMAL_EXEC, sw_dac_swing,
++				  dac_swing_lvl);
++}
++
++void halbtc8812a2ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean init_hwcfg, IN boolean wifi_off)
++{
++	u8			u8tmp = 0;
++
++	if (init_hwcfg) {
++		btcoexist->btc_write_4byte(btcoexist, 0x900, 0x00000400);
++		btcoexist->btc_write_1byte(btcoexist, 0x76d, 0x1);
++	} else if (wifi_off) {
++
++	}
++
++	/* ext switch setting */
++	switch (ant_pos_type) {
++	case BTC_ANT_WIFI_AT_CPL_MAIN:
++		break;
++	case BTC_ANT_WIFI_AT_CPL_AUX:
++		u8tmp = btcoexist->btc_read_1byte(btcoexist, 0xcb7);
++		u8tmp &= ~BIT(3);
++		u8tmp |= BIT(2);
++		btcoexist->btc_write_1byte(btcoexist, 0xcb7, u8tmp);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8812a2ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++	if (turn_on) {
++		switch (type) {
++		case 1:
++		default:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1a, 0x1a, 0xa1, 0x90);
++			break;
++		case 2:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x12, 0x12, 0xa1, 0x90);
++			break;
++		case 3:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0xb1, 0x90);
++			break;
++		case 4:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x3, 0xb1, 0x90);
++			break;
++		case 5:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1a, 0x1a, 0x21, 0x10);
++			break;
++		case 6:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x12, 0x12, 0x21, 0x10);
++			break;
++		case 7:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0x21, 0x10);
++			break;
++		case 8:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x3, 0x21, 0x10);
++			break;
++		case 9:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1a, 0x1a, 0xa1, 0x10);
++			break;
++		case 10:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x12, 0x12, 0xa1, 0x10);
++			break;
++		case 11:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0xb1, 0x10);
++			break;
++		case 12:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x3, 0xb1, 0x10);
++			break;
++		case 13:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1a, 0x1a, 0x21, 0x10);
++			break;
++		case 14:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x12, 0x12, 0x21, 0x10);
++			break;
++		case 15:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0x21, 0x10);
++			break;
++		case 16:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x3, 0x21, 0x10);
++			break;
++		case 17:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x35, 0x3, 0xb1, 0x11);
++			break;
++		case 18:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x5, 0x5, 0xe1, 0x90);
++			break;
++		case 19:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x25, 0xe1, 0x90);
++			break;
++		case 20:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x25, 0x60, 0x90);
++			break;
++		case 21:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x15, 0x3, 0x70, 0x90);
++			break;
++		case 22:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x1a, 0x1a, 0x21, 0x10);
++			break;
++		case 23:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x03, 0x31, 0x10);
++			break;
++
++		case 71:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1a, 0x1a, 0xe1, 0x90);
++			break;
++
++		/* following cases is for wifi rssi low, started from 81 */
++		case 81:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x3a, 0x3, 0x90, 0x50);
++			break;
++		case 82:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x2b, 0x3, 0x90, 0x50);
++			break;
++		case 83:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x21, 0x3, 0x90, 0x50);
++			break;
++		case 84:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x15, 0x3, 0x90, 0x50);
++			break;
++		case 85:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1d, 0x1d, 0x80, 0x50);
++			break;
++		case 86:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x15, 0x15, 0x80, 0x50);
++			break;
++		}
++	} else {
++		/* disable PS tdma */
++		switch (type) {
++		case 0: /* ANT2PTA, 0x778=0x1 */
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x8,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 1: /* ANT2BT, 0x778=3 */
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x8, 0x0);
++			delay_ms(5);
++			halbtc8812a2ant_set_ant_path(btcoexist,
++				     BTC_ANT_WIFI_AT_CPL_AUX, false, false);
++			break;
++		default:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8812a2ant_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++	/* fw all off */
++	halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8812a2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8812a2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	/* hw all off */
++	halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8812a2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++
++	halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 1);
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 6);
++	halbtc8812a2ant_dec_bt_pwr(btcoexist, FORCE_EXEC, 0);
++
++	halbtc8812a2ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	halbtc8812a2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8812a2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8812a2ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8812a2ant_power_save_state(IN struct btc_coexist *btcoexist,
++		      IN u8 ps_type, IN boolean low_pwr_disable, IN u8 lps_val,
++				      IN u8 rpwm_val)
++{
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8812a2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8812a2ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma. */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8812a2ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, true,
++					 0x0, 0x0);
++
++	halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8812a2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8812a2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++boolean halbtc8812a2ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				common = false, wifi_connected = false, wifi_busy = false;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under inquiry/page scan !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8812a2ant_action_bt_inquiry(btcoexist);
++		return true;
++	}
++
++	if (bt_link_info->sco_exist || bt_link_info->hid_exist)
++		halbtc8812a2ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 0, 0, 0);
++	else
++		halbtc8812a2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++	if (!wifi_connected) {
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 false, 0x0, 0x0);
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non-connected idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		if ((BT_8812A_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		     coex_dm->bt_status) ||
++		    (BT_8812A_2ANT_BT_STATUS_CONNECTED_IDLE ==
++		     coex_dm->bt_status)) {
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++		} else {
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++		}
++
++		halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8812a2ant_sw_mechanism1(btcoexist, false, false, false,
++					      false);
++		halbtc8812a2ant_sw_mechanism2(btcoexist, false, false, false,
++					      0x18);
++
++		common = true;
++	} else {
++		if (BT_8812A_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_power_save_state(btcoexist,
++					 BTC_PS_WIFI_NATIVE, false, 0x0, 0x0);
++			halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC,
++						   false, false, 0x8);
++
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++			halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 6);
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++
++			common = true;
++		} else if (BT_8812A_2ANT_BT_STATUS_CONNECTED_IDLE ==
++			   coex_dm->bt_status) {
++			if (bt_hs_on)
++				return false;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi connected + BT connected-idle!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_power_save_state(btcoexist,
++					 BTC_PS_WIFI_NATIVE, true, 0x0, 0x0);
++			halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC,
++						   false, false, 0x8);
++
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++			halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 6);
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++
++			common = true;
++		} else {
++			if (wifi_busy) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++				BTC_TRACE(trace_buf);
++				common = false;
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++				BTC_TRACE(trace_buf);
++
++				halbtc8812a2ant_power_save_state(btcoexist,
++					 BTC_PS_WIFI_NATIVE, true, 0x0, 0x0);
++
++				halbtc8812a2ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, false, false, 0x8);
++
++				halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++
++				halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 17);
++
++				halbtc8812a2ant_fw_dac_swing_lvl(btcoexist,
++							 NORMAL_EXEC, 6);
++				halbtc8812a2ant_dec_bt_pwr(btcoexist,
++							   NORMAL_EXEC, 0);
++				halbtc8812a2ant_sw_mechanism1(btcoexist, false,
++						      false, false, false);
++				halbtc8812a2ant_sw_mechanism2(btcoexist, false,
++						      false, false, 0x18);
++				common = true;
++			}
++		}
++	}
++
++	return common;
++}
++
++void halbtc8812a2ant_tdma_duration_adjust(IN struct btc_coexist *btcoexist,
++		IN boolean sco_hid, IN boolean tx_pause, IN u8 max_interval)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0;
++
++	coex_dm->auto_tdma_adjust_low_rssi = false;
++
++	if (!coex_dm->auto_tdma_adjust) {
++		coex_dm->auto_tdma_adjust = true;
++		{
++			if (sco_hid) {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					} else if (max_interval == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (max_interval == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					} else if (max_interval == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (max_interval == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			} else {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (max_interval == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (max_interval == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (max_interval == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (max_interval == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					}
++				}
++			}
++		}
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/* accquire the BT TRx retry count from BT_Info byte2 */
++		retry_count = coex_sta->bt_retry_cnt;
++		result = 0;
++		wait_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if ³sÄò n ­Ó2¬í retry count¬°0, «h½Õ¼eWiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {	/* if ³sÄò 2 ­Ó2¬í retry count< 3, «h½Õ¯¶WiFi duration */
++				if (wait_count <= 2)
++					m++; /* ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^ */
++				else
++					m = 1;
++
++				if (m >= 20)  /* m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration. */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++			}
++		} else { /* retry count > 3, ¥u­n1¦¸ retry count > 3, «h½Õ¯¶WiFi duration */
++			if (wait_count == 1)
++				m++; /* ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^ */
++			else
++				m = 1;
++
++			if (m >= 20)  /* m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration. */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++		}
++
++		if (max_interval == 1) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 71) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 5);
++					coex_dm->ps_tdma_du_adj_type = 5;
++				} else if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 5);
++					coex_dm->ps_tdma_du_adj_type = 5;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 13);
++					coex_dm->ps_tdma_du_adj_type = 13;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 71);
++					coex_dm->ps_tdma_du_adj_type = 71;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 9);
++					coex_dm->ps_tdma_du_adj_type = 9;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 71) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 71);
++						coex_dm->ps_tdma_du_adj_type =
++							71;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					}
++				}
++			}
++		} else if (max_interval == 2) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					}
++				}
++			}
++		} else if (max_interval == 3) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			}
++		}
++	}
++
++	/* if current PsTdma not match with the recorded one (when scan, dhcp...), */
++	/* then we have to adjust it back to the previous record one. */
++	if (coex_dm->cur_ps_tdma != coex_dm->ps_tdma_du_adj_type) {
++		boolean	scan = false, link = false, roam = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], PsTdma type dismatch!!!, cur_ps_tdma=%d, recordPsTdma=%d\n",
++			    coex_dm->cur_ps_tdma, coex_dm->ps_tdma_du_adj_type);
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (!scan && !link && !roam)
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						coex_dm->ps_tdma_du_adj_type);
++		else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], roaming/link/scan is under progress, will adjust next time!!!\n");
++			BTC_TRACE(trace_buf);
++		}
++	}
++}
++
++/* ******************
++ * pstdma for wifi rssi low
++ * ****************** */
++void halbtc8812a2ant_tdma_duration_adjust_for_wifi_rssi_low(
++	IN struct btc_coexist *btcoexist/* , */ /* IN u8 wifi_status */)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0, bt_info_ext;
++
++	coex_dm->auto_tdma_adjust = false;
++
++	retry_count = coex_sta->bt_retry_cnt;
++	bt_info_ext = coex_sta->bt_info_ext;
++
++	if (!coex_dm->auto_tdma_adjust_low_rssi) {
++		coex_dm->auto_tdma_adjust_low_rssi = true;
++
++		if (BT_INFO_8812A_2ANT_A2DP_BASIC_RATE(bt_info_ext)) {
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						83);
++			coex_dm->ps_tdma_du_adj_type = 83;
++		} else {
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 82);
++			coex_dm->ps_tdma_du_adj_type = 82;
++		}
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/* accquire the BT TRx retry count from BT_Info byte2
++		*		retry_count = coex_sta->bt_retry_cnt;
++		*		bt_info_ext = coex_sta->bt_info_ext; */
++		result = 0;
++		wait_count++;
++
++		if ((coex_sta->low_priority_tx) > 1150 ||
++		    (coex_sta->low_priority_rx) > 1250)
++			retry_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if retry count during continuous n*2 seconds is 0, enlarge WiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {	/* if continuous 2 retry count(every 2 seconds) >0 and < 3, reduce WiFi duration */
++				if (wait_count <= 2)
++					m++; /* to avoid loop between the two levels */
++				else
++					m = 1;
++
++				if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++			}
++		} else { /* retry count > 3, once retry count > 3, to reduce WiFi duration */
++			if (wait_count == 1)
++				m++; /* to avoid loop between the two levels */
++			else
++				m = 1;
++
++			if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++		}
++
++		if (result == -1) {
++			if ((BT_INFO_8812A_2ANT_A2DP_BASIC_RATE(bt_info_ext)) &&
++			    ((coex_dm->cur_ps_tdma == 81) ||
++			     (coex_dm->cur_ps_tdma == 82))) {
++				halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 84);
++				coex_dm->ps_tdma_du_adj_type = 84;
++			} else if (coex_dm->cur_ps_tdma == 81) {
++				halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 82);
++				coex_dm->ps_tdma_du_adj_type = 82;
++			} else if (coex_dm->cur_ps_tdma == 82) {
++				halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 83);
++				coex_dm->ps_tdma_du_adj_type = 83;
++			} else if (coex_dm->cur_ps_tdma == 83) {
++				halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 84);
++				coex_dm->ps_tdma_du_adj_type = 84;
++			}
++		} else if (result == 1) {
++			if ((BT_INFO_8812A_2ANT_A2DP_BASIC_RATE(bt_info_ext)) &&
++			    ((coex_dm->cur_ps_tdma == 81) ||
++			     (coex_dm->cur_ps_tdma == 82))) {
++				halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 83);
++				coex_dm->ps_tdma_du_adj_type = 83;
++			} else if (coex_dm->cur_ps_tdma == 84) {
++				halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 83);
++				coex_dm->ps_tdma_du_adj_type = 83;
++			} else if (coex_dm->cur_ps_tdma == 83) {
++				halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 82);
++				coex_dm->ps_tdma_du_adj_type = 82;
++			} else if (coex_dm->cur_ps_tdma == 82) {
++				halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 81);
++				coex_dm->ps_tdma_du_adj_type = 81;
++			}
++		}
++
++		if (coex_dm->cur_ps_tdma != 81 &&
++		    coex_dm->cur_ps_tdma != 82 &&
++		    coex_dm->cur_ps_tdma != 83 &&
++		    coex_dm->cur_ps_tdma != 84) {
++			/* recover to previous adjust type */
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						coex_dm->ps_tdma_du_adj_type);
++		}
++	}
++}
++
++void halbtc8812a2ant_get_bt_rssi_threshold(IN struct btc_coexist *btcoexist,
++		IN u8 *pThres0, IN u8 *pThres1)
++{
++	u8 ant_type;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_ANT_TYPE, &ant_type);
++
++	switch (ant_type) {
++	case BTC_ANT_TYPE_0:
++		*pThres0 = 100;
++		*pThres1 = 100;
++		break;
++	case BTC_ANT_TYPE_1:
++		*pThres0 = 34;
++		*pThres1 = 42;
++		break;
++	case BTC_ANT_TYPE_2:
++		*pThres0 = 34;
++		*pThres1 = 42;
++		break;
++	case BTC_ANT_TYPE_3:
++		*pThres0 = 34;
++		*pThres1 = 42;
++		break;
++	case BTC_ANT_TYPE_4:
++		*pThres0 = 34;
++		*pThres1 = 42;
++		break;
++	default:
++		break;
++	}
++}
++
++
++
++void halbtc8812a2ant_action_sco(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		bt_thresh0 = 0, bt_thresh1 = 0;
++
++
++	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0,
++					      &bt_thresh1);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0,
++			bt_thresh1);
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	/*	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42); */
++
++	/* power save state */
++	halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, true,
++					 0x0, 0x0);
++
++	/* coex table */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	else
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	/* pstdma */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++	else
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 9);
++
++	/* decrease BT power */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++
++	/* limited Rx */
++	halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x6);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      true, 0x6);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x6);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      true, 0x6);
++		}
++	}
++}
++
++void halbtc8812a2ant_action_sco_hid(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		bt_thresh0 = 0, bt_thresh1 = 0;
++
++	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0,
++					      &bt_thresh1);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0,
++			bt_thresh1);
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	/*	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42); */
++
++	/* power save state */
++	halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, true,
++					 0x0, 0x0);
++
++	/* coex table */
++	halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	/* pstdma */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++	else
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 9);
++
++	/* decrease BT power	 */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++
++	/* limited Rx */
++	halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, true, 0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x6);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x6);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x6);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x6);
++		}
++	}
++}
++
++void halbtc8812a2ant_action_hid(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		bt_thresh0 = 0, bt_thresh1 = 0;
++
++	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0,
++					      &bt_thresh1);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0,
++			bt_thresh1);
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	/*	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42); */
++
++	/* power save state */
++	halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, true,
++					 0x0, 0x0);
++
++	/* coex table */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++	else
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* pstdma */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 9);
++	else
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++
++	/* decrease BT power */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++
++	/* limited Rx */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++	else
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, true,
++					   0x8);
++
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* A2DP only / PAN(EDR) only/ A2DP+PAN(HS) */
++void halbtc8812a2ant_action_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		bt_thresh0 = 0, bt_thresh1 = 0;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0,
++					      &bt_thresh1);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0,
++			bt_thresh1);
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	/* bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42); */
++
++	/* power save state */
++	if ((ap_enable == true) || (BTC_RSSI_HIGH(wifi_rssi_state) &&
++				    (!BTC_RSSI_LOW(bt_rssi_state))))
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 true, 0x0, 0x0);
++	else
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, true,
++						 0x50, 0x4);
++
++	/* coex table */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* pstdma */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, false, false,
++						     1);
++	else
++		halbtc8812a2ant_tdma_duration_adjust_for_wifi_rssi_low(
++			btcoexist);
++
++	/* decrease BT power */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++
++	/* limited Rx */
++	halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8812a2ant_action_a2dp_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		bt_thresh0 = 0, bt_thresh1 = 0;
++
++	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0,
++					      &bt_thresh1);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0,
++			bt_thresh1);
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	/*	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42); */
++
++	/* power save state */
++	halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, true,
++					 0x0, 0x0);
++
++	/* coex table	 */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++
++	/* pstdma	 */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, false, false,
++						     2);
++	else
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, false, true, 2);
++
++	/* decrease BT power */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++
++	/* limited Rx */
++	halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x6);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      true, 0x6);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x6);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      true, 0x6);
++		}
++	}
++}
++
++void halbtc8812a2ant_action_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		bt_thresh0 = 0, bt_thresh1 = 0;
++	boolean		ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++
++	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0,
++					      &bt_thresh1);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0,
++			bt_thresh1);
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	/*	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42); */
++
++	/* power save state */
++	if ((ap_enable == true) || (BTC_RSSI_HIGH(wifi_rssi_state) &&
++				    (!BTC_RSSI_LOW(bt_rssi_state))))
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 true, 0x0, 0x0);
++	else
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, true,
++						 0x50, 0x4);
++
++	/* coex table */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* pstdma */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 1);
++	else
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 85);
++
++	/* decrease BT power */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++
++	/* limited Rx */
++	halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* PAN(HS) only */
++void halbtc8812a2ant_action_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42);
++
++	/* power save state */
++	halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, true,
++					 0x0, 0x0);
++
++	/* coex table */
++	halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++
++	/* pstdma */
++	halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++
++	/* decrease BT power */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++
++	/* limited Rx */
++	halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* PAN(EDR)+A2DP */
++void halbtc8812a2ant_action_pan_edr_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		bt_thresh0 = 0, bt_thresh1 = 0;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0,
++					      &bt_thresh1);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0,
++			bt_thresh1);
++
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	/*	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42); */
++
++	/* power save state	 */
++	if ((ap_enable == true) || (BTC_RSSI_HIGH(wifi_rssi_state) &&
++				    (!BTC_RSSI_LOW(bt_rssi_state))))
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 true, 0x0, 0x0);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 true, 0x0, 0x0);
++	else
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, true,
++						 0x50, 0x4);
++
++	/* coex table */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	else
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* pstdma */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, false, false,
++						     3);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, false, true, 3);
++	else {
++		coex_dm->auto_tdma_adjust = false;
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 86);
++	}
++
++	/* decrease BT power */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++
++	/* limited Rx */
++	halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	/* sw mechanism	 */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8812a2ant_action_pan_edr_hid(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		bt_thresh0 = 0, bt_thresh1 = 0;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0,
++					      &bt_thresh1);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0,
++			bt_thresh1);
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	/*	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42); */
++
++	/* power save state */
++	if ((ap_enable == true) || (BTC_RSSI_HIGH(wifi_rssi_state) &&
++				    (!BTC_RSSI_LOW(bt_rssi_state))))
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 true, 0x0, 0x0);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 true, 0x0, 0x0);
++	else
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, true,
++						 0x50, 0x4);
++
++	/* coex table */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	else
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* pstdma */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 10);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 14);
++	else
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 85);
++
++	/* decrease BT power */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++
++	/* limited Rx */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++	else
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, true,
++					   0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* HID+A2DP+PAN(EDR) */
++void halbtc8812a2ant_action_hid_a2dp_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		bt_thresh0 = 0, bt_thresh1 = 0;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0,
++					      &bt_thresh1);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0,
++			bt_thresh1);
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	/*	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42); */
++
++	/* power save state */
++	if ((ap_enable == true) || (BTC_RSSI_HIGH(wifi_rssi_state) &&
++				    (!BTC_RSSI_LOW(bt_rssi_state))))
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 true, 0x0, 0x0);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 true, 0x0, 0x0);
++	else
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, true,
++						 0x50, 0x4);
++
++	/* coex table */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	else
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* pstdma */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, true, false, 3);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, true, true, 3);
++	else {
++		coex_dm->auto_tdma_adjust = false;
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 86);
++	}
++
++	/* decrease BT power */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++
++	/* limited Rx */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++	else
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, true,
++					   0x8);
++
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8812a2ant_action_hid_a2dp_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		bt_thresh0 = 0, bt_thresh1 = 0;
++
++	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0,
++					      &bt_thresh1);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0,
++			bt_thresh1);
++
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	/*	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42); */
++
++	/* power save state */
++	halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, true,
++					 0x0, 0x0);
++
++	/* coex table */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	else
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* pstdma */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, true, false, 2);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, true, true, 2);
++	else
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, true, true, 2);
++
++	/* decrease BT power */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++
++	/* limited Rx */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++	else
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, true,
++					   0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8812a2ant_action_hid_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		bt_thresh0 = 0, bt_thresh1 = 0;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0,
++					      &bt_thresh1);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0,
++			bt_thresh1);
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	/*	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42); */
++
++	/* power save state	 */
++	if ((ap_enable == true) || (BTC_RSSI_HIGH(wifi_rssi_state) &&
++				    (!BTC_RSSI_LOW(bt_rssi_state))))
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 true, 0x0, 0x0);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 true, 0x0, 0x0);
++	else
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, true,
++						 0x50, 0x4);
++
++	/* coex table */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	else
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* pstdma */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, true, false, 2);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, true, true, 2);
++	else {
++		coex_dm->auto_tdma_adjust = false;
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 82);
++	}
++
++	/* decrease BT power */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++
++	/* limited Rx */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++	else
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, true,
++					   0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++
++void halbtc8812a2ant_coex_under_5g(IN struct btc_coexist *btcoexist)
++{
++	halbtc8812a2ant_coex_all_off(btcoexist);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], Under 5G, force set BT to ignore Wlan active!!\n");
++	BTC_TRACE(trace_buf);
++	halbtc8812a2ant_ignore_wlan_act(btcoexist, NORMAL_EXEC, true);
++}
++/* **************************************************** */
++void halbtc8812a2ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	boolean				wifi_under_5g = false;
++	u8				algorithm = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), run 5G coex setting!!<===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8812a2ant_coex_under_5g(btcoexist);
++		return;
++	}
++
++
++	algorithm = halbtc8812a2ant_action_algorithm(btcoexist);
++	if (coex_sta->c2h_bt_inquiry_page &&
++	    (BT_8812A_2ANT_COEX_ALGO_PANHS != algorithm)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under inquiry/page scan !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8812a2ant_action_bt_inquiry(btcoexist);
++		return;
++	}
++
++	coex_dm->cur_algorithm = algorithm;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Algorithm = %d\n",
++		    coex_dm->cur_algorithm);
++	BTC_TRACE(trace_buf);
++
++	if (halbtc8812a2ant_is_common_action(btcoexist)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Action 2-Ant common.\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->auto_tdma_adjust = false;
++		coex_dm->auto_tdma_adjust_low_rssi = false;
++	} else {
++		if (coex_dm->cur_algorithm != coex_dm->pre_algorithm) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], pre_algorithm=%d, cur_algorithm=%d\n",
++				coex_dm->pre_algorithm, coex_dm->cur_algorithm);
++			BTC_TRACE(trace_buf);
++			coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++		}
++		switch (coex_dm->cur_algorithm) {
++		case BT_8812A_2ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_sco(btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_SCO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = SCO+HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_sco_hid(btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_hid(btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_a2dp(btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_a2dp_pan_hs(btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_pan_edr(btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_pan_hs(btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_pan_edr_a2dp(btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_pan_edr_hid(btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_hid_a2dp_pan_edr(
++				btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_HID_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_hid_a2dp_pan_hs(
++				btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_hid_a2dp(btcoexist);
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_coex_all_off(btcoexist);
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++
++}
++
++void halbtc8812a2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up)
++{
++	u8	u8tmp = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 2Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	if (back_up) {
++		/* backup rf 0x1e value */
++		coex_dm->bt_rf_0x1e_backup =
++			btcoexist->btc_get_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++						  0xfffff);
++
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	}
++
++	/* ant sw control to BT */
++	halbtc8812a2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_CPL_AUX, true,
++				     false);
++
++	/* 0x790[5:0]=0x5 */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x790);
++	u8tmp &= 0xc0;
++	u8tmp |= 0x5;
++	btcoexist->btc_write_1byte(btcoexist, 0x790, u8tmp);
++
++	/* PTA parameter */
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, 0x0);
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, 0xffff);
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, 0x55555555);
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, 0x55555555);
++
++	/* coex parameters */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++
++	/* enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++	/* enable PTA */
++	btcoexist->btc_write_1byte(btcoexist, 0x40, 0x20);
++
++	/* bt clock related */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x4);
++	u8tmp |= BIT(7);
++	btcoexist->btc_write_1byte(btcoexist, 0x4, u8tmp);
++
++	/* bt clock related */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x7);
++	u8tmp |= BIT(1);
++	btcoexist->btc_write_1byte(btcoexist, 0x7, u8tmp);
++}
++
++/* ************************************************************
++ * work around function start with wa_halbtc8812a2ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8812a2ant_
++ * ************************************************************ */
++void ex_halbtc8812a2ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8812a2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8812a2ant_init_hw_config(btcoexist, true);
++	btcoexist->stop_coex_dm = false;
++}
++
++void ex_halbtc8812a2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++	btcoexist->stop_coex_dm = false;
++	halbtc8812a2ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8812a2ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fw_ver = 0, bt_patch_ver = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "Ant PG number/ Ant mechanism:",
++		   board_info->pg_ant_num, board_info->btdm_ant_num);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%d/ 0x%x/ 0x%x(%d)",
++		   "CoexVer/ FwVer/ PatchVer",
++		   glcoex_ver_date_8812a_2ant, glcoex_ver_8812a_2ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8812A_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8812A_2ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi, coex_sta->bt_retry_cnt);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist);
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_BT_LINK_INFO);
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Info A2DP rate",
++		   (bt_info_ext & BIT(0)) ? "Basic rate" : "EDR rate");
++	CL_PRINTF(cli_buf);
++
++	for (i = 0; i < BT_INFO_SRC_8812A_2ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8812a_2ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	/* Sw mechanism	 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Sw mechanism]============");
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d ",
++		   "SM1[ShRf/ LpRA/ LimDig]",
++		   coex_dm->cur_rf_rx_lpf_shrink, coex_dm->cur_low_penalty_ra,
++		   coex_dm->limited_dig);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d(0x%x) ",
++		   "SM2[AgcT/ AdcB/ SwDacSwing(lvl)]",
++		   coex_dm->cur_agc_table_en, coex_dm->cur_adc_back_off,
++		   coex_dm->cur_dac_swing_on, coex_dm->cur_dac_swing_lvl);
++	CL_PRINTF(cli_buf);
++
++	/* Fw mechanism		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Fw mechanism]============");
++	CL_PRINTF(cli_buf);
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		"\r\n %-35s = %02x %02x %02x %02x %02x case-%d (auto:%d/%d)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4],
++		   ps_tdma_case, coex_dm->auto_tdma_adjust,
++		   coex_dm->auto_tdma_adjust_low_rssi);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "DecBtPwr/ IgnWlanAct",
++		   coex_dm->cur_bt_dec_pwr_lvl, coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x",
++		   "RF-A, 0x1e initVal",
++		   coex_dm->bt_rf_0x1e_backup);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "backup ARFR1/ARFR2/RL/AMaxTime",
++		   coex_dm->backup_arfr_cnt1, coex_dm->backup_arfr_cnt2,
++		   coex_dm->backup_retry_limit,
++		   coex_dm->backup_ampdu_max_time);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x ",
++		   "0x778 (W_Act)/ 0x6cc (CoTab Sel)",
++		   u8tmp[0], u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x8db);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xc5b);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x8db(ADC)/0xc5b[29:25](DAC)",
++		   ((u8tmp[0] & 0x60) >> 5), ((u8tmp[1] & 0x3e) >> 1));
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xcb3);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xcb7);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0xcb3/ 0xcb7",
++		   u8tmp[0], u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x974);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x40/ 0x4c[24:23]/ 0x974",
++		   u8tmp[0], ((u32tmp[0] & 0x01800000) >> 23), u32tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa0a);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0xc50(DIG)/0xa0a(CCK-TH)",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xf48);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5b);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0xf48/ 0xa5b (FA cnt-- OFDM : CCK)",
++		   u32tmp[0], (u8tmp[0] << 8) + u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8/0x6cc(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++#if (BT_AUTO_REPORT_ONLY_8812A_2ANT == 1)
++	halbtc8812a2ant_monitor_bt_ctr(btcoexist);
++#endif
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8812a2ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	boolean	wifi_under_5g = false;
++
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++		halbtc8812a2ant_coex_all_off(btcoexist);
++		halbtc8812a2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_CPL_AUX,
++					     false, true);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], IPS notify, force set BT to ignore Wlan active!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8812a2ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++		ex_halbtc8812a2ant_media_status_notify(btcoexist,
++						       BTC_MEDIA_DISCONNECT);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = false;
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G,
++				   &wifi_under_5g);
++		if (!wifi_under_5g) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], IPS notify, force set BT NOT to ignore Wlan active!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_ignore_wlan_act(btcoexist, FORCE_EXEC,
++							false);
++		}
++	}
++}
++
++void ex_halbtc8812a2ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++	}
++}
++
++void ex_halbtc8812a2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	if (BTC_SCAN_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++	} else if (BTC_SCAN_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8812a2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	if (BTC_ASSOCIATE_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++	} else if (BTC_ASSOCIATE_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8812a2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			data_len = 5;
++	u8			buf[6] = {0};
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] = 0x1;
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	buf[0] = data_len;
++	buf[1] = 0x5;				/* OP_Code */
++	buf[2] = 0x3;				/* OP_Code_Length */
++	buf[3] = h2c_parameter[0];	/* OP_Code_Content */
++	buf[4] = h2c_parameter[1];
++	buf[5] = h2c_parameter[2];
++
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_CTRL_BT_COEX,
++			   (void *)&buf[0]);
++}
++
++void ex_halbtc8812a2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	if (type == BTC_PACKET_DHCP) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], DHCP Packet notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++}
++
++void ex_halbtc8812a2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8			bt_info = 0;
++	u8			i, rsp_source = 0;
++	boolean			bt_busy = false, limited_dig = false;
++	boolean			wifi_connected = false, wifi_under_5g = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8812A_2ANT_MAX)
++		rsp_source = BT_INFO_SRC_8812A_2ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (BT_INFO_SRC_8812A_2ANT_WIFI_FW != rsp_source) {
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		coex_sta->bt_rssi =
++			coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++		if ((coex_sta->bt_info_ext & BIT(1))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++					   &wifi_connected);
++			if (wifi_connected)
++				ex_halbtc8812a2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_CONNECT);
++			else
++				ex_halbtc8812a2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_DISCONNECT);
++		}
++
++		if ((coex_sta->bt_info_ext & BIT(3)) && !wifi_under_5g) {
++			/* BT already ignored WlanAct */
++			if (!btcoexist->manual_control &&
++			    !btcoexist->stop_coex_dm) {
++				if (!coex_sta->under_ips) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++					BTC_TRACE(trace_buf);
++					halbtc8812a2ant_ignore_wlan_act(
++						btcoexist, FORCE_EXEC, false);
++				}
++			}
++		} else {
++			/* BT already NOT ignore Wlan active, do nothing here. */
++
++			if (coex_sta->under_ips) {
++				/* work around for 8812a combo hw bug => when IPS, wlanAct is always high. */
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], wifi is under IPS, set BT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8812a2ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, true);
++			}
++		}
++	}
++
++	/* check BIT2 first ==> check if bt is under inquiry or page scan */
++	if (bt_info & BT_INFO_8812A_2ANT_B_INQ_PAGE)
++		coex_sta->c2h_bt_inquiry_page = true;
++	else
++		coex_sta->c2h_bt_inquiry_page = false;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8812A_2ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++		coex_sta->acl_busy = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8812A_2ANT_B_FTP)
++			coex_sta->pan_exist = true;
++		else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8812A_2ANT_B_A2DP)
++			coex_sta->a2dp_exist = true;
++		else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8812A_2ANT_B_HID)
++			coex_sta->hid_exist = true;
++		else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8812A_2ANT_B_SCO_ESCO)
++			coex_sta->sco_exist = true;
++		else
++			coex_sta->sco_exist = false;
++		if (bt_info & BT_INFO_8812A_2ANT_B_ACL_BUSY)
++			coex_sta->acl_busy = true;
++		else
++			coex_sta->acl_busy = false;
++
++	}
++
++	halbtc8812a2ant_update_bt_link_info(btcoexist);
++
++	if (!(bt_info & BT_INFO_8812A_2ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8812A_2ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8812A_2ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8812A_2ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8812A_2ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8812A_2ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8812A_2ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8812A_2ANT_B_ACL_BUSY) {
++		coex_dm->bt_status = BT_8812A_2ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8812A_2ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8812A_2ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8812A_2ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8812A_2ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status)) {
++		bt_busy = true;
++		if (!wifi_under_5g)
++			limited_dig = true;
++	} else {
++		bt_busy = false;
++		limited_dig = false;
++	}
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	coex_dm->limited_dig = limited_dig;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_LIMITED_DIG, &limited_dig);
++
++	halbtc8812a2ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8812a2ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RF Status notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_RF_ON == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->stop_coex_dm = false;
++	}
++	if (BTC_RF_OFF == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 true, 0x0, 0x0);
++		halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 1);
++		/* halbtc8812a2ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, FORCE_EXEC, false, true); */
++		halbtc8812a2ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++		btcoexist->stop_coex_dm = true;
++
++	}
++}
++
++
++void ex_halbtc8812a2ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8812a2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_CPL_AUX, false,
++				     true);
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], Halt notify, force set BT to ignore Wlan active!!\n");
++	BTC_TRACE(trace_buf);
++	halbtc8812a2ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++	ex_halbtc8812a2ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	/* 0x522=0xff, pause tx */
++	btcoexist->btc_write_1byte(btcoexist, 0x522, 0xff);
++	/* 0x40[7:6]=2'b01, modify BT mode. */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0xc0, 0x2);
++	btcoexist->stop_coex_dm = true;
++}
++
++void ex_halbtc8812a2ant_periodical(IN struct btc_coexist *btcoexist)
++{
++#if (BT_AUTO_REPORT_ONLY_8812A_2ANT == 0)
++	halbtc8812a2ant_query_bt_info(btcoexist);
++	halbtc8812a2ant_monitor_bt_ctr(btcoexist);
++	halbtc8812a2ant_monitor_bt_enable_disable(btcoexist);
++#else
++	if (halbtc8812a2ant_is_wifi_status_changed(btcoexist) ||
++	    coex_dm->auto_tdma_adjust ||
++	    coex_dm->auto_tdma_adjust_low_rssi)
++		halbtc8812a2ant_run_coexist_mechanism(btcoexist);
++#endif
++}
++
++void ex_halbtc8812a2ant_dbg_control(IN struct btc_coexist *btcoexist,
++				    IN u8 op_code, IN u8 op_len, IN u8 *pdata)
++{
++	switch (op_code) {
++	case BTC_DBG_SET_COEX_DEC_BT_PWR:
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Set Dec BT power\n");
++		BTC_TRACE(trace_buf);
++		{
++			u8	data_len = 4;
++			u8	buf[6] = {0};
++			u8	dec_bt_pwr = 0, pwr_level = 0;
++			if (op_len == 2) {
++				dec_bt_pwr = pdata[0];
++				pwr_level = pdata[1];
++
++				buf[0] = data_len;
++				buf[1] = 0x3;		/* OP_Code */
++				buf[2] = 0x2;		/* OP_Code_Length */
++
++				buf[3] = dec_bt_pwr;	/* OP_Code_Content */
++				buf[4] = pwr_level;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Set Dec BT power=%d, pwr_level=%d\n",
++					    dec_bt_pwr, pwr_level);
++				BTC_TRACE(trace_buf);
++				btcoexist->btc_set(btcoexist,
++						   BTC_SET_ACT_CTRL_BT_COEX,
++						   (void *)&buf[0]);
++			}
++		}
++		break;
++
++	case BTC_DBG_SET_COEX_BT_AFH_MAP:
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Set BT AFH Map\n");
++		BTC_TRACE(trace_buf);
++		{
++			u8	data_len = 5;
++			u8	buf[6] = {0};
++			if (op_len == 3) {
++				buf[0] = data_len;
++				buf[1] = 0x5;				/* OP_Code */
++				buf[2] = 0x3;				/* OP_Code_Length */
++
++				buf[3] = pdata[0];			/* OP_Code_Content */
++				buf[4] = pdata[1];
++				buf[5] = pdata[2];
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Set BT AFH Map = %02x %02x %02x\n",
++					    pdata[0], pdata[1], pdata[2]);
++				BTC_TRACE(trace_buf);
++				btcoexist->btc_set(btcoexist,
++						   BTC_SET_ACT_CTRL_BT_COEX,
++						   (void *)&buf[0]);
++			}
++		}
++		break;
++
++	case BTC_DBG_SET_COEX_BT_IGNORE_WLAN_ACT:
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Set BT Ignore Wlan Active\n");
++		BTC_TRACE(trace_buf);
++		{
++			u8	data_len = 3;
++			u8	buf[6] = {0};
++			if (op_len == 1) {
++				buf[0] = data_len;
++				buf[1] = 0x1;			/* OP_Code */
++				buf[2] = 0x1;			/* OP_Code_Length */
++
++				buf[3] = pdata[0];		/* OP_Code_Content */
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Set BT Ignore Wlan Active = 0x%x\n",
++					    pdata[0]);
++				BTC_TRACE(trace_buf);
++
++				btcoexist->btc_set(btcoexist,
++						   BTC_SET_ACT_CTRL_BT_COEX,
++						   (void *)&buf[0]);
++			}
++		}
++		break;
++
++	default:
++		break;
++	}
++}
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
+\ No newline at end of file
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8812a2Ant.h b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8812a2Ant.h
+new file mode 100644
+index 0000000..be08dd3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8812a2Ant.h
+@@ -0,0 +1,202 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8812A_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8812A 2Ant BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8812A_2ANT				0
++
++#define	BT_INFO_8812A_2ANT_B_FTP						BIT(7)
++#define	BT_INFO_8812A_2ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8812A_2ANT_B_HID						BIT(5)
++#define	BT_INFO_8812A_2ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8812A_2ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8812A_2ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8812A_2ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8812A_2ANT_B_CONNECTION				BIT(0)
++
++#define	BT_INFO_8812A_2ANT_A2DP_BASIC_RATE(_BT_INFO_EXT_)	\
++		(((_BT_INFO_EXT_&BIT(0))) ? true : false)
++
++#define		BTC_RSSI_COEX_THRESH_TOL_8812A_2ANT		2
++
++enum bt_info_src_8812a_2ant {
++	BT_INFO_SRC_8812A_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8812A_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8812A_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8812A_2ANT_MAX
++};
++
++enum bt_8812a_2ant_bt_status {
++	BT_8812A_2ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8812A_2ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8812A_2ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8812A_2ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8812A_2ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8812A_2ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8812A_2ANT_BT_STATUS_MAX
++};
++
++enum bt_8812a_2ant_coex_algo {
++	BT_8812A_2ANT_COEX_ALGO_UNDEFINED		= 0x0,
++	BT_8812A_2ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8812A_2ANT_COEX_ALGO_SCO_HID		= 0x2,
++	BT_8812A_2ANT_COEX_ALGO_HID				= 0x3,
++	BT_8812A_2ANT_COEX_ALGO_A2DP			= 0x4,
++	BT_8812A_2ANT_COEX_ALGO_A2DP_PANHS		= 0x5,
++	BT_8812A_2ANT_COEX_ALGO_PANEDR			= 0x6,
++	BT_8812A_2ANT_COEX_ALGO_PANHS			= 0x7,
++	BT_8812A_2ANT_COEX_ALGO_PANEDR_A2DP		= 0x8,
++	BT_8812A_2ANT_COEX_ALGO_PANEDR_HID		= 0x9,
++	BT_8812A_2ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0xa,
++	BT_8812A_2ANT_COEX_ALGO_HID_A2DP_PANHS	= 0xb,
++	BT_8812A_2ANT_COEX_ALGO_HID_A2DP		= 0xc,
++	BT_8812A_2ANT_COEX_ALGO_MAX				= 0xd
++};
++
++struct coex_dm_8812a_2ant {
++	/* fw mechanism */
++	u8		pre_bt_dec_pwr_lvl;
++	u8		cur_bt_dec_pwr_lvl;
++	u8		pre_fw_dac_swing_lvl;
++	u8		cur_fw_dac_swing_lvl;
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		auto_tdma_adjust;
++	boolean		auto_tdma_adjust_low_rssi;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	/* sw mechanism */
++	boolean		pre_rf_rx_lpf_shrink;
++	boolean		cur_rf_rx_lpf_shrink;
++	u32		bt_rf_0x1e_backup;
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	boolean		pre_dac_swing_on;
++	u32		pre_dac_swing_lvl;
++	boolean		cur_dac_swing_on;
++	u32		cur_dac_swing_lvl;
++	boolean		pre_adc_back_off;
++	boolean		cur_adc_back_off;
++	boolean	pre_agc_table_en;
++	boolean		cur_agc_table_en;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		cur_ra_mask_type;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++};
++
++struct coex_sta_8812a_2ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++	boolean					acl_busy;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	u8					bt_rssi;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8812A_2ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8812A_2ANT_MAX];
++	u32					bt_info_query_cnt;
++	boolean					c2h_bt_inquiry_page;
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8812a2ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8812a2ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a2ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8812a2ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8812a2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8812a2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8812a2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8812a2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8812a2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8812a2ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++
++void ex_halbtc8812a2ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a2ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a2ant_display_coex_info(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a2ant_dbg_control(IN struct btc_coexist *btcoexist,
++				    IN u8 op_code, IN u8 op_len, IN u8 *pdata);
++
++#else
++#define	ex_halbtc8812a2ant_power_on_setting(btcoexist)
++#define	ex_halbtc8812a2ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8812a2ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8812a2ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8812a2ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8812a2ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8812a2ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8812a2ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8812a2ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8812a2ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8812a2ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8812a2ant_halt_notify(btcoexist)
++#define	ex_halbtc8812a2ant_periodical(btcoexist)
++#define	ex_halbtc8812a2ant_display_coex_info(btcoexist)
++#define	ex_halbtc8812a2ant_dbg_control(btcoexist, op_code, op_len, pdata)
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8821a1Ant.c b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8821a1Ant.c
+new file mode 100644
+index 0000000..81ddf03
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8821a1Ant.c
+@@ -0,0 +1,3100 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for 8821A_1ANT Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************
++ * SY modify 2015/04/27
++ * ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821A_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8821a_1ant		glcoex_dm_8821a_1ant;
++static struct  coex_dm_8821a_1ant	*coex_dm = &glcoex_dm_8821a_1ant;
++static struct  coex_sta_8821a_1ant		glcoex_sta_8821a_1ant;
++static struct  coex_sta_8821a_1ant	*coex_sta = &glcoex_sta_8821a_1ant;
++
++const char *const glbt_info_src_8821a_1ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8821a_1ant = 20150615;
++u32	glcoex_ver_8821a_1ant = 0x61;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8821a1ant_
++ * ************************************************************ */
++u8 halbtc8821a1ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8821A_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8821A_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8821A_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8821a1ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8821A_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8821A_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8821A_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8821a1ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8821a1ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8821a1ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8821a1ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8821a1ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	switch (ra_mask_type) {
++	case 0:	/* normal mode */
++		halbtc8821a1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0);
++		break;
++	case 1:	/* disable cck 1/2 */
++		halbtc8821a1ant_update_ra_mask(btcoexist, force_exec,
++					       0x00000003);
++		break;
++	case 2:	/* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		halbtc8821a1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0001f1f7);
++		break;
++	default:
++		break;
++	}
++
++	halbtc8821a1ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8821a1ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8821a1ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++
++/* ture/xxxx/x:1
++ * false/false/x: 64
++ * false/ture/x:x */
++void halbtc8821a1ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8821a1ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++#if 0
++	/* to avoid 0x76e[3] = 1 (WLAN_Act control by PTA) during IPS */
++	if (!(btcoexist->btc_read_1byte(btcoexist, 0x76e) & 0x8)) {
++		coex_sta->high_priority_tx = 65535;
++		coex_sta->high_priority_rx = 65535;
++		coex_sta->low_priority_tx = 65535;
++		coex_sta->low_priority_rx = 65535;
++		return;
++	}
++#endif
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++}
++
++void halbtc8821a1ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++boolean halbtc8821a1ant_is_wifi_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false;
++	boolean wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++	}
++
++	return false;
++}
++
++void halbtc8821a1ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++u8 halbtc8821a1ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8821A_1ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Profile = SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8821A_1ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_1ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_1ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID + A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_1ANT_COEX_ALGO_HID_A2DP;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! BT Profile = SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8821a1ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8821a1ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8821a1ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8821a1ant_set_sw_penalty_tx_rate_adaptive(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf5;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xa0;  /* MCS6 or OFDM48// */
++		h2c_parameter[5] = 0xa0; /* MCS5 or OFDM36	// */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8821a1ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8821a1ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8821a1ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8821a1ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8821a1ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8821a1ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** CoexTable(%d) **********\n", type);
++	BTC_TRACE(trace_buf);
++
++	switch (type) {
++	case 0:
++		halbtc8821a1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x55555555, 0xffffff, 0x3);
++		break;
++	case 1:
++		halbtc8821a1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 2:
++		halbtc8821a1ant_coex_table(btcoexist, force_exec,
++				   0x5a5a5a5a, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 3:
++		halbtc8821a1ant_coex_table(btcoexist, force_exec,
++				   0x5a5a5a5a, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 4:
++		halbtc8821a1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 5:
++		halbtc8821a1ant_coex_table(btcoexist, force_exec,
++				   0x5a5a5a5a, 0xaaaa5a5a, 0xffffff, 0x3);
++		break;
++	case 6:
++		halbtc8821a1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0xaaaa5a5a, 0xffffff, 0x3);
++		break;
++	case 7:
++		halbtc8821a1ant_coex_table(btcoexist, force_exec,
++				   0xaaaaaaaa, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8821a1ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8821a1ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8821a1ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8821a1ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], FW for 1Ant AP mode\n");
++			BTC_TRACE(trace_buf);
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++		}
++	}
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++void halbtc8821a1ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8821a1ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8821a1ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8821a1ant_sw_mechanism(IN struct btc_coexist *btcoexist,
++				  IN boolean low_penalty_ra)
++{
++	halbtc8821a1ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8821a1ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean init_hwcfg, IN boolean wifi_off)
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++	u32			u32tmp = 0;
++	u8			h2c_parameter[2] = {0};
++
++	if (init_hwcfg) {
++		/* 0x4c[23]=0, 0x4c[24]=1  Antenna control by WL/BT */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp &= ~BIT(23);
++		u32tmp |= BIT(24);
++		btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++
++		/* 0x765 = 0x18 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x765, 0x18, 0x3);
++
++		if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT) {
++			/* tell firmware "antenna inverse"  ==> WRONG firmware antenna control code.==>need fw to fix */
++			h2c_parameter[0] = 1;
++			h2c_parameter[1] = 1;
++			btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++						h2c_parameter);
++
++			/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0x64, 0x1, 0x1); //Main Ant to  BT for IPS case 0x4c[23]=1 */
++		} else {
++			/* tell firmware "no antenna inverse" ==> WRONG firmware antenna control code.==>need fw to fix */
++			h2c_parameter[0] = 0;
++			h2c_parameter[1] = 1;
++			btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++						h2c_parameter);
++
++			/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0x64, 0x1, 0x0); //Aux Ant to  BT for IPS case 0x4c[23]=1 */
++		}
++	} else if (wifi_off) {
++		/* 0x4c[24:23]=00, Set Antenna control by BT_RFE_CTRL	BT Vendor 0xac=0xf002 */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp &= ~BIT(23);
++		u32tmp &= ~BIT(24);
++		btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++
++		/* 0x765 = 0x18 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x765, 0x18, 0x3);
++	} else {
++		/* 0x765 = 0x0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x765, 0x18, 0x0);
++	}
++
++	/* ext switch setting */
++	switch (ant_pos_type) {
++	case BTC_ANT_PATH_WIFI:
++		btcoexist->btc_write_1byte(btcoexist, 0xcb4, 0x77);
++		if (board_info->btdm_ant_pos ==
++		    BTC_ANTENNA_AT_MAIN_PORT)
++			btcoexist->btc_write_1byte_bitmask(btcoexist,
++							   0xcb7, 0x30, 0x1);
++		else
++			btcoexist->btc_write_1byte_bitmask(btcoexist,
++							   0xcb7, 0x30, 0x2);
++		break;
++	case BTC_ANT_PATH_BT:
++		btcoexist->btc_write_1byte(btcoexist, 0xcb4, 0x77);
++		if (board_info->btdm_ant_pos ==
++		    BTC_ANTENNA_AT_MAIN_PORT)
++			btcoexist->btc_write_1byte_bitmask(btcoexist,
++							   0xcb7, 0x30, 0x2);
++		else
++			btcoexist->btc_write_1byte_bitmask(btcoexist,
++							   0xcb7, 0x30, 0x1);
++		break;
++	default:
++	case BTC_ANT_PATH_PTA:
++		btcoexist->btc_write_1byte(btcoexist, 0xcb4, 0x66);
++		if (board_info->btdm_ant_pos ==
++		    BTC_ANTENNA_AT_MAIN_PORT)
++			btcoexist->btc_write_1byte_bitmask(btcoexist,
++							   0xcb7, 0x30, 0x1);
++		else
++			btcoexist->btc_write_1byte_bitmask(btcoexist,
++							   0xcb7, 0x30, 0x2);
++		break;
++	}
++}
++
++void halbtc8821a1ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	u8			rssi_adjust_val = 0;
++	/* u32			fw_ver=0; */
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	if (coex_dm->cur_ps_tdma_on) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(on, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(off, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	}
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++	if (turn_on) {
++		switch (type) {
++		default:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x1a, 0x1a, 0x0, 0x50);
++			break;
++		case 1:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x3a, 0x03, 0x10, 0x50);
++			rssi_adjust_val = 11;
++			break;
++		case 2:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x2b, 0x03, 0x10, 0x50);
++			rssi_adjust_val = 14;
++			break;
++		case 3:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x1d, 0x1d, 0x0, 0x52);
++			break;
++		case 4:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x15, 0x3, 0x14, 0x0);
++			rssi_adjust_val = 17;
++			break;
++		case 5:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x15, 0x3, 0x11, 0x10);
++			break;
++		case 6:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x20, 0x3, 0x11, 0x13);
++			break;
++		case 7:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xc, 0x5, 0x0, 0x0);
++			break;
++		case 8:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x25, 0x3, 0x10, 0x0);
++			break;
++		case 9:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x21, 0x3, 0x10, 0x50);
++			rssi_adjust_val = 18;
++			break;
++		case 10:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xa, 0xa, 0x0, 0x40);
++			break;
++		case 11:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x15, 0x03, 0x10, 0x50);
++			rssi_adjust_val = 20;
++			break;
++		case 12:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x0a, 0x0a, 0x0, 0x50);
++			break;
++		case 13:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x12, 0x12, 0x0, 0x50);
++			break;
++		case 14:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x1e, 0x3, 0x10, 0x14);
++			break;
++		case 15:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xa, 0x3, 0x8, 0x0);
++			break;
++		case 16:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x15, 0x3, 0x10, 0x0);
++			rssi_adjust_val = 18;
++			break;
++		case 18:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x25, 0x3, 0x10, 0x0);
++			rssi_adjust_val = 14;
++			break;
++		case 20:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x35, 0x03, 0x11, 0x10);
++			break;
++		case 21:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x25, 0x03, 0x11, 0x11);
++			break;
++		case 22:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x25, 0x03, 0x11, 0x10);
++			break;
++		case 23:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0x31, 0x18);
++			rssi_adjust_val = 22;
++			break;
++		case 24:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x15, 0x3, 0x31, 0x18);
++			rssi_adjust_val = 22;
++			break;
++		case 25:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0xa, 0x3, 0x31, 0x18);
++			rssi_adjust_val = 22;
++			break;
++		case 26:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0xa, 0x3, 0x31, 0x18);
++			rssi_adjust_val = 22;
++			break;
++		case 27:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0x31, 0x98);
++			rssi_adjust_val = 22;
++			break;
++		case 28:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x69,
++						      0x25, 0x3, 0x31, 0x0);
++			break;
++		case 29:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0xab,
++						      0x1a, 0x1a, 0x1, 0x10);
++			break;
++		case 30:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x30, 0x3, 0x10, 0x10);
++			break;
++		case 31:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1a, 0x1a, 0, 0x58);
++			break;
++		case 32:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x35, 0x3, 0x11, 0x11);
++			break;
++		case 33:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0xa3,
++						      0x25, 0x3, 0x30, 0x90);
++			break;
++		case 34:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x53,
++						      0x1a, 0x1a, 0x0, 0x10);
++			break;
++		case 35:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x63,
++						      0x1a, 0x1a, 0x0, 0x10);
++			break;
++		case 36:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x12, 0x3, 0x14, 0x50);
++			break;
++		case 40: /* SoftAP only with no sta associated,BT disable ,TDMA mode for power saving */
++			/* here softap mode screen off will cost 70-80mA for phone */
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x23,
++						      0x18, 0x00, 0x10, 0x24);
++			break;
++		case 41:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x15, 0x3, 0x11, 0x11);
++			break;
++		case 42:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x20, 0x3, 0x11, 0x11);
++			break;
++		case 43:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x30, 0x3, 0x10, 0x11);
++			break;
++		}
++	} else {
++		/* disable PS tdma */
++		switch (type) {
++		case 8: /* PTA Control */
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x8,
++						      0x0, 0x0, 0x0, 0x0);
++			halbtc8821a1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_PTA, false, false);
++			break;
++		case 0:
++		default:  /* Software control, Antenna at BT side */
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			halbtc8821a1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_BT, false, false);
++			break;
++		case 9:   /* Software control, Antenna at WiFi side */
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			halbtc8821a1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_WIFI, false, false);
++			break;
++		case 10:	/* under 5G */
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x8, 0x0);
++			halbtc8821a1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_BT, false, false);
++			break;
++		}
++	}
++	rssi_adjust_val = 0;
++	btcoexist->btc_set(btcoexist,
++		BTC_SET_U1_RSSI_ADJ_VAL_FOR_1ANT_COEX_TYPE, &rssi_adjust_val);
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8821a1ant_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++	/* sw all off */
++	halbtc8821a1ant_sw_mechanism(btcoexist, false);
++
++	/* hw all off */
++	halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++boolean halbtc8821a1ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected &&
++	    BT_8821A_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++	    coex_dm->bt_status) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_sw_mechanism(btcoexist, false);
++
++		common = true;
++	} else if (wifi_connected &&
++		   (BT_8821A_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_sw_mechanism(btcoexist, false);
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8821A_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_sw_mechanism(btcoexist, false);
++
++		common = true;
++	} else if (wifi_connected &&
++		(BT_8821A_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_sw_mechanism(btcoexist, false);
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8821A_1ANT_BT_STATUS_CONNECTED_IDLE != coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non connected-idle + BT Busy!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_sw_mechanism(btcoexist, false);
++
++		common = true;
++	} else {
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		}
++
++		common = false;
++	}
++
++	return common;
++}
++
++void halbtc8821a1ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8821a1ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8821a1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8821a1ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma. */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		break;
++	case BTC_PS_LPS_OFF:
++		halbtc8821a1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8821a1ant_coex_under_5g(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8821a1ant_ignore_wlan_act(btcoexist, NORMAL_EXEC, true);
++
++	halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 10);
++
++	halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++	halbtc8821a1ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 5);
++}
++
++void halbtc8821a1ant_action_wifi_only(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 9);
++}
++
++void halbtc8821a1ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++
++	/* This function check if bt is disabled */
++
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is enabled !!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		bt_disable_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], bt all counters=0, %d times!!\n",
++			    bt_disable_cnt);
++		BTC_TRACE(trace_buf);
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++					   &bt_disabled);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_wifi_only(btcoexist);
++		}
++	}
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++		if (!bt_disabled) {
++		} else {
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++					   NULL);
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++					   NULL);
++		}
++	}
++}
++
++/* *********************************************
++ *
++ *	Software Coex Mechanism start
++ *
++ * ********************************************* */
++
++void halbtc8821a1ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	/* halbtc8821a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC, false, false); */
++	halbtc8821a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, false, false);
++	halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++/* SCO only or SCO+PAN(HS) */
++void halbtc8821a1ant_action_sco(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, true);
++}
++
++void halbtc8821a1ant_action_hid(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, true);
++}
++
++/* A2DP only / PAN(EDR) only/ A2DP+PAN(HS) */
++void halbtc8821a1ant_action_a2dp(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8821a1ant_action_a2dp_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8821a1ant_action_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, false);
++}
++
++/* PAN(HS) only */
++void halbtc8821a1ant_action_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, false);
++}
++
++/* PAN(EDR)+A2DP */
++void halbtc8821a1ant_action_pan_edr_a2dp(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8821a1ant_action_pan_edr_hid(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, true);
++}
++
++/* HID+A2DP+PAN(EDR) */
++void halbtc8821a1ant_action_hid_a2dp_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, true);
++}
++
++void halbtc8821a1ant_action_hid_a2dp(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, true);
++}
++
++/* *********************************************
++ *
++ *	Non-Software Coex Mechanism start
++ *
++ * ********************************************* */
++void halbtc8821a1ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8821a1ant_action_hs(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++	halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8821a1ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_connected = false, ap_enable = false, wifi_busy = false,
++				bt_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	if ((!wifi_connected) && (!coex_sta->wifi_is_high_pri_task)) {
++		halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	}
++
++	/* sy modify	 */
++	else if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist) ||
++		 (bt_link_info->a2dp_exist)) {
++		/* SCO/HID/A2DP  busy */
++		halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	}
++
++	/* sy modify */
++
++	else if ((bt_link_info->a2dp_exist) &&
++		 (bt_link_info->hid_exist)) {
++		/* A2DP+HID	busy */
++		halbtc8821a1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++					14);
++
++		halbtc8821a1ant_coex_table_with_type(btcoexist,
++						     NORMAL_EXEC, 1);
++	}
++
++
++	else if ((bt_link_info->pan_exist) || (wifi_busy)) {
++		halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++	}
++}
++
++void halbtc8821a1ant_action_bt_sco_hid_only_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	/* tdma and coex table */
++
++	if (bt_link_info->sco_exist) {
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 41);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	} else { /* HID */
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 42);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8821a1ant_action_wifi_connected_bt_acl_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	u8		bt_rssi_state;
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	bt_rssi_state = halbtc8821a1ant_bt_rssi_state(2, 28, 0);
++
++	if (bt_link_info->hid_only) { /* HID */
++		halbtc8821a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				wifi_status);
++		coex_dm->auto_tdma_adjust = false;
++		return;
++	} else if (bt_link_info->a2dp_only) { /* A2DP		 */
++		if (BT_8821A_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status) {
++			/* halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8); */
++			/* halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2); */
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++			coex_dm->auto_tdma_adjust = false;
++		} else if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++			   (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			/* halbtc8821a1ant_tdma_duration_adjust_for_acl(btcoexist, wifi_status); */
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						14);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		} else { /* for low BT RSSI */
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						14);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++			coex_dm->auto_tdma_adjust = false;
++		}
++	} else if (bt_link_info->hid_exist &&
++		   bt_link_info->a2dp_exist) { /* HID+A2DP */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						14);
++			coex_dm->auto_tdma_adjust = false;
++		} else { /* for low BT RSSI */
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						14);
++			coex_dm->auto_tdma_adjust = false;
++		}
++
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++	} else if ((bt_link_info->pan_only) || (bt_link_info->hid_exist &&
++		bt_link_info->pan_exist)) { /* PAN(OPP,FTP), HID+PAN(OPP,FTP)			 */
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++		coex_dm->auto_tdma_adjust = false;
++	} else if (((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) ||
++		   (bt_link_info->hid_exist && bt_link_info->a2dp_exist &&
++		bt_link_info->pan_exist)) { /* A2DP+PAN(OPP,FTP), HID+A2DP+PAN(OPP,FTP) */
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 43);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++		coex_dm->auto_tdma_adjust = false;
++	} else {
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++		coex_dm->auto_tdma_adjust = false;
++	}
++}
++
++void halbtc8821a1ant_action_wifi_not_connected(IN struct btc_coexist *btcoexist)
++{
++	/* power save state */
++	halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table	 */
++	halbtc8821a1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8821a1ant_action_wifi_not_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if (BT_8821A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			/* sy modify */
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						14);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		} else if (bt_link_info->a2dp_exist && bt_link_info->pan_exist) {
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						20);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8821A_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8821A_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8821a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8821A_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		/* halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20); */
++		/* halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1); */
++
++		/* Bryant Add */
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8821a1ant_action_wifi_not_connected_asso_auth(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist)  || (bt_link_info->hid_exist)) {
++		/* sy modify */
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 14);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++	} else if ((bt_link_info->a2dp_exist)  || (bt_link_info->pan_exist)) {
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8821a1ant_action_wifi_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if (BT_8821A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			/* sy modify */
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						14);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						20);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8821A_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8821A_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8821a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8821A_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		/* halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20); */
++		/* halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1); */
++
++		/* Bryant Add */
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8821a1ant_action_wifi_connected_specific_packet(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	/* sy modify */
++	if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	}
++
++	if ((bt_link_info->hid_exist) && (bt_link_info->a2dp_exist)) {
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++					14);
++		halbtc8821a1ant_coex_table_with_type(btcoexist,
++						     NORMAL_EXEC, 1);
++	}
++
++
++	else if (bt_link_info->pan_exist) {
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8821a1ant_action_wifi_connected(IN struct btc_coexist *btcoexist)
++{
++	boolean	wifi_busy = false;
++	boolean	scan = false, link = false, roam = false;
++	boolean		under_4way = false, ap_enable = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], CoexForWifiConnect()===>\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (under_4way) {
++		halbtc8821a1ant_action_wifi_connected_specific_packet(btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 4way<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++	if (scan || link || roam) {
++		if (scan)
++			halbtc8821a1ant_action_wifi_connected_scan(btcoexist);
++		else
++			halbtc8821a1ant_action_wifi_connected_specific_packet(
++				btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under scan<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	/* power save state */
++	if (!ap_enable &&
++	    BT_8821A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status &&
++	    !btcoexist->bt_link_info.hid_only) {
++		if (!wifi_busy && btcoexist->bt_link_info.a2dp_only)	/* A2DP */
++			halbtc8821a1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		else
++			halbtc8821a1ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++	} else
++		halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++
++	/* tdma and coex table */
++	if (!wifi_busy) {
++		if (BT_8821A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8821a1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8821A_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else if ((BT_8821A_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8821A_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8821a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8821A_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else {
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++		}
++	} else {
++		if (BT_8821A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8821a1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8821A_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else if ((BT_8821A_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8821A_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8821a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8821A_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else {
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++		}
++	}
++}
++
++void halbtc8821a1ant_run_sw_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8	algorithm = 0;
++
++	algorithm = halbtc8821a1ant_action_algorithm(btcoexist);
++	coex_dm->cur_algorithm = algorithm;
++
++	if (halbtc8821a1ant_is_common_action(btcoexist)) {
++
++	} else {
++		switch (coex_dm->cur_algorithm) {
++		case BT_8821A_1ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_sco(btcoexist);
++			break;
++		case BT_8821A_1ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_hid(btcoexist);
++			break;
++		case BT_8821A_1ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_a2dp(btcoexist);
++			break;
++		case BT_8821A_1ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_a2dp_pan_hs(btcoexist);
++			break;
++		case BT_8821A_1ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_pan_edr(btcoexist);
++			break;
++		case BT_8821A_1ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_pan_hs(btcoexist);
++			break;
++		case BT_8821A_1ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_pan_edr_a2dp(btcoexist);
++			break;
++		case BT_8821A_1ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_pan_edr_hid(btcoexist);
++			break;
++		case BT_8821A_1ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_hid_a2dp_pan_edr(
++				btcoexist);
++			break;
++		case BT_8821A_1ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_hid_a2dp(btcoexist);
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821a1ant_coex_all_off(btcoexist); */
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8821a1ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false, bt_hs_on = false;
++	boolean	increase_scan_dev_num = false;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++	u8	wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	wifi_under_5g = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for 5G <===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_coex_under_5g(btcoexist);
++		return;
++	}
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	if ((BT_8821A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8821A_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8821A_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		increase_scan_dev_num = true;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_INC_SCAN_DEV_NUM,
++			   &increase_scan_dev_num);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		halbtc8821a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8821a1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8821a1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (!bt_link_info->sco_exist && !bt_link_info->hid_exist)
++		halbtc8821a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++	else {
++		if (wifi_connected) {
++			wifi_rssi_state = halbtc8821a1ant_wifi_rssi_state(
++						  btcoexist, 1, 2, 30, 0);
++			if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++			    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++				/* halbtc8821a1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1, 1, 1); */
++				halbtc8821a1ant_limited_tx(btcoexist,
++						   NORMAL_EXEC, 1, 1, 0, 1);
++			} else {
++				/* halbtc8821a1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1, 1, 1); */
++				halbtc8821a1ant_limited_tx(btcoexist,
++						   NORMAL_EXEC, 1, 1, 0, 1);
++			}
++		} else
++			halbtc8821a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0,
++						   0, 0);
++
++	}
++
++	if (bt_link_info->sco_exist) {
++		bt_ctrl_agg_buf_size = true;
++		agg_buf_size = 0x3;
++	} else if (bt_link_info->hid_exist) {
++		bt_ctrl_agg_buf_size = true;
++		agg_buf_size = 0x5;
++	} else if (bt_link_info->a2dp_exist || bt_link_info->pan_exist) {
++		bt_ctrl_agg_buf_size = true;
++		agg_buf_size = 0x8;
++	}
++	halbtc8821a1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++				   bt_ctrl_agg_buf_size, agg_buf_size);
++
++	halbtc8821a1ant_run_sw_coexist_mechanism(btcoexist);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8821a1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8821a1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	if (!wifi_connected) {
++		boolean	scan = false, link = false, roam = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is non connected-idle !!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (scan || link || roam) {
++			if (scan)
++				halbtc8821a1ant_action_wifi_not_connected_scan(
++					btcoexist);
++			else
++				halbtc8821a1ant_action_wifi_not_connected_asso_auth(
++					btcoexist);
++		} else
++			halbtc8821a1ant_action_wifi_not_connected(btcoexist);
++	} else	/* wifi LPS/Busy */
++		halbtc8821a1ant_action_wifi_connected(btcoexist);
++}
++
++void halbtc8821a1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++	/* sw all off */
++	halbtc8821a1ant_sw_mechanism(btcoexist, false);
++
++	/* halbtc8821a1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8); */
++	halbtc8821a1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++}
++
++void halbtc8821a1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up, IN boolean wifi_only)
++{
++	u8	u8tmp = 0;
++	boolean			wifi_under_5g = false;
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 1Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	if (wifi_only)
++		return;
++
++	if (back_up) {
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	}
++
++	/* 0x790[5:0]=0x5 */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x790);
++	u8tmp &= 0xc0;
++	u8tmp |= 0x5;
++	btcoexist->btc_write_1byte(btcoexist, 0x790, u8tmp);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	/* Antenna config */
++	if (wifi_under_5g)
++		halbtc8821a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, true,
++					     false);
++	else
++		halbtc8821a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, true,
++					     false);
++
++	/* PTA parameter */
++	halbtc8821a1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	/* Enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e,
++			   0xc); /* 0x76e[3] =1, WLAN_Act control by PTA */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x3);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++}
++
++/* ************************************************************
++ * work around function start with wa_halbtc8821a1ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8821a1ant_
++ * ************************************************************ */
++void ex_halbtc8821a1ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8821a1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8821a1ant_init_hw_config(btcoexist, true, wifi_only);
++}
++
++void ex_halbtc8821a1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = false;
++
++	halbtc8821a1ant_init_coex_dm(btcoexist);
++
++	halbtc8821a1ant_query_bt_info(btcoexist);
++}
++
++void ex_halbtc8821a1ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fw_ver = 0, bt_patch_ver = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	if (btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d",
++		   "Ant PG Num/ Ant Mech/ Ant Pos:",
++		   board_info->pg_ant_num, board_info->btdm_ant_num,
++		   board_info->btdm_ant_pos);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)",
++		   "CoexVer/ FwVer/ PatchVer",
++		   glcoex_ver_date_8821a_1ant, glcoex_ver_8821a_1ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8821A_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8821A_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi, coex_sta->bt_retry_cnt);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist);
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_BT_LINK_INFO);
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Info A2DP rate",
++		   (bt_info_ext & BIT(0)) ? "Basic rate" : "EDR rate");
++	CL_PRINTF(cli_buf);
++
++	for (i = 0; i < BT_INFO_SRC_8821A_1ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8821a_1ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	if (!btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++			   "SM[LowPenaltyRA]",
++			   coex_dm->cur_low_penalty_ra);
++		CL_PRINTF(cli_buf);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanisms]============");
++		CL_PRINTF(cli_buf);
++
++		ps_tdma_case = coex_dm->cur_ps_tdma;
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n %-35s = %02x %02x %02x %02x %02x case-%d (auto:%d)",
++			   "PS TDMA",
++			   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++			   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++			   coex_dm->ps_tdma_para[4], ps_tdma_case,
++			   coex_dm->auto_tdma_adjust);
++		CL_PRINTF(cli_buf);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ",
++			   "IgnWlanAct",
++			   coex_dm->cur_ignore_wlan_act);
++		CL_PRINTF(cli_buf);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x ",
++			   "Latest error condition(should be 0)",
++			   coex_dm->error_condition);
++		CL_PRINTF(cli_buf);
++	}
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "backup ARFR1/ARFR2/RL/AMaxTime",
++		   coex_dm->backup_arfr_cnt1, coex_dm->backup_arfr_cnt2,
++		   coex_dm->backup_retry_limit,
++		   coex_dm->backup_ampdu_max_time);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc58);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x778/ 0xc58[29:25]",
++		   u8tmp[0], (u32tmp[0] & 0x3e000000) >> 25);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x8db);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x8db[6:5]",
++		   ((u8tmp[0] & 0x60) >> 5));
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x975);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0xcb4[29:28]/0xcb4[7:0]/0x974[9:8]",
++		   (u32tmp[0] & 0x30000000) >> 28, u32tmp[0] & 0xff,
++		   u8tmp[0] & 0x3);
++	CL_PRINTF(cli_buf);
++
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x64);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x40/0x4c[24:23]/0x64[0]",
++		   u8tmp[0], ((u32tmp[0] & 0x01800000) >> 23), u8tmp[1] & 0x1);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0xc50(dig)",
++		   u32tmp[0] & 0xff);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xf48);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5d);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "OFDM-FA/ CCK-FA",
++		   u32tmp[0], (u8tmp[0] << 8) + u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++#if (BT_AUTO_REPORT_ONLY_8821A_1ANT == 1)
++	halbtc8821a1ant_monitor_bt_ctr(btcoexist);
++#endif
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8821a1ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	boolean	wifi_under_5g = false;
++
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G,
++			   &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for 5G <===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_coex_under_5g(btcoexist);
++		return;
++	}
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++		halbtc8821a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, false,
++					     true);
++		/* halbtc8821a1ant_set_ant_path_d_cut(btcoexist, false, false, false, BTC_ANT_PATH_BT, BTC_WIFI_STAT_NORMAL_OFF); */
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = false;
++
++		halbtc8821a1ant_init_hw_config(btcoexist, false, false);
++		halbtc8821a1ant_init_coex_dm(btcoexist);
++		halbtc8821a1ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8821a1ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++	}
++}
++
++void ex_halbtc8821a1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++	boolean	wifi_under_5g = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for 5G <===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_coex_under_5g(btcoexist);
++		return;
++	}
++
++	if (BTC_SCAN_START == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821a1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++			8);  /* Force antenna setup for no scan result issue */
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if (coex_sta->bt_disabled)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	halbtc8821a1ant_query_bt_info(btcoexist);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8821a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8821a1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8821a1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8821a1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8821a1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_SCAN_START == type) {
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8821a1ant_action_wifi_not_connected_scan(
++				btcoexist);
++		else	/* wifi is connected */
++			halbtc8821a1ant_action_wifi_connected_scan(btcoexist);
++	} else if (BTC_SCAN_FINISH == type) {
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8821a1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8821a1ant_action_wifi_connected(btcoexist);
++	}
++}
++
++void ex_halbtc8821a1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	boolean	wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++	boolean	wifi_under_5g = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for 5G <===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_coex_under_5g(btcoexist);
++		return;
++	}
++
++	if (BTC_ASSOCIATE_START == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8821a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8821a1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8821a1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8821a1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8821a1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_ASSOCIATE_START == type)
++		halbtc8821a1ant_action_wifi_not_connected_asso_auth(btcoexist);
++	else if (BTC_ASSOCIATE_FINISH == type) {
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++				   &wifi_connected);
++		if (!wifi_connected) /* non-connected scan */
++			halbtc8821a1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8821a1ant_action_wifi_connected(btcoexist);
++	}
++}
++
++void ex_halbtc8821a1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++	boolean	wifi_under_5g = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for 5G <===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_coex_under_5g(btcoexist);
++		return;
++	}
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++	}
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		/* h2c_parameter[0] = 0x1; */
++		h2c_parameter[0] = 0x0;
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++}
++
++void ex_halbtc8821a1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean	bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++	boolean	wifi_under_5g = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for 5G <===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_coex_under_5g(btcoexist);
++		return;
++	}
++
++	if (BTC_PACKET_DHCP == type ||
++	    BTC_PACKET_EAPOL == type ||
++	    BTC_PACKET_ARP == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++
++		if (BTC_PACKET_ARP == type) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], specific Packet ARP notify\n");
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], specific Packet DHCP or EAPOL notify\n");
++			BTC_TRACE(trace_buf);
++		}
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet [Type = %d] notify\n", type);
++		BTC_TRACE(trace_buf);
++	}
++
++	coex_sta->specific_pkt_period_cnt = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8821a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8821a1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8821a1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8821a1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8821a1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_PACKET_DHCP == type ||
++	    BTC_PACKET_EAPOL == type ||
++	    BTC_PACKET_ARP == type) {
++		if (BTC_PACKET_ARP == type) {
++			coex_dm->arp_cnt++;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], ARP Packet Count = %d\n",
++				    coex_dm->arp_cnt);
++			BTC_TRACE(trace_buf);
++			if (coex_dm->arp_cnt >=
++			    10) /* if APR PKT > 10 after connect, do not go to ActionWifiConnectedSpecificPacket(btcoexist) */
++				return;
++		}
++
++		halbtc8821a1ant_action_wifi_connected_specific_packet(btcoexist);
++	}
++}
++
++void ex_halbtc8821a1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8				bt_info = 0;
++	u8				i, rsp_source = 0;
++	boolean				wifi_connected = false;
++	boolean				bt_busy = false;
++	boolean				wifi_under_5g = false;
++
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8821A_1ANT_MAX)
++		rsp_source = BT_INFO_SRC_8821A_1ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++	/* if 0xff, it means BT is under WHCK test */
++	if (bt_info == 0xff)
++		coex_sta->bt_whck_test = true;
++	else
++		coex_sta->bt_whck_test = false;
++
++	if (BT_INFO_SRC_8821A_1ANT_WIFI_FW != rsp_source) {
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x20)
++			coex_sta->c2h_bt_page = true;
++		else
++			coex_sta->c2h_bt_page = false;
++
++		coex_sta->bt_rssi =
++			coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		coex_sta->bt_tx_rx_mask = (coex_sta->bt_info_c2h[rsp_source][2]
++					   & 0x40);
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TX_RX_MASK,
++				   &coex_sta->bt_tx_rx_mask);
++		if (!coex_sta->bt_tx_rx_mask) {
++			/* BT into is responded by BT FW and BT RF REG 0x3C != 0x15 => Need to switch BT TRx Mask */
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Switch BT TRx Mask since BT RF REG 0x3C != 0x15\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF,
++						  0x3c, 0x15);
++		}
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++		if (coex_sta->bt_info_ext & BIT(1)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++					   &wifi_connected);
++			if (wifi_connected)
++				ex_halbtc8821a1ant_media_status_notify(
++					btcoexist, BTC_MEDIA_CONNECT);
++			else
++				ex_halbtc8821a1ant_media_status_notify(
++					btcoexist, BTC_MEDIA_DISCONNECT);
++		}
++
++		if ((coex_sta->bt_info_ext & BIT(3)) && !wifi_under_5g) {
++			if (!btcoexist->manual_control &&
++			    !btcoexist->stop_coex_dm) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821a1ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		} else {
++			/* BT already NOT ignore Wlan active, do nothing here. */
++		}
++#if (BT_AUTO_REPORT_ONLY_8821A_1ANT == 0)
++		if ((coex_sta->bt_info_ext & BIT(4))) {
++			/* BT auto report already enabled, do nothing */
++		} else
++			halbtc8821a1ant_bt_auto_report(btcoexist, FORCE_EXEC,
++						       true);
++#endif
++	}
++
++	/* check BIT2 first ==> check if bt is under inquiry or page scan */
++	if (bt_info & BT_INFO_8821A_1ANT_B_INQ_PAGE)
++		coex_sta->c2h_bt_inquiry_page = true;
++	else
++		coex_sta->c2h_bt_inquiry_page = false;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8821A_1ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8821A_1ANT_B_FTP)
++			coex_sta->pan_exist = true;
++		else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8821A_1ANT_B_A2DP)
++			coex_sta->a2dp_exist = true;
++		else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8821A_1ANT_B_HID)
++			coex_sta->hid_exist = true;
++		else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8821A_1ANT_B_SCO_ESCO)
++			coex_sta->sco_exist = true;
++		else
++			coex_sta->sco_exist = false;
++	}
++
++	halbtc8821a1ant_update_bt_link_info(btcoexist);
++
++	bt_info = bt_info &
++		0x1f;  /* mask profile bit for connect-ilde identification ( for CSR case: A2DP idle --> 0x41) */
++
++	if (!(bt_info & BT_INFO_8821A_1ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8821A_1ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8821A_1ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8821A_1ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8821A_1ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8821A_1ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8821A_1ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8821A_1ANT_B_ACL_BUSY) {
++		if (BT_8821A_1ANT_BT_STATUS_ACL_BUSY != coex_dm->bt_status)
++			coex_dm->auto_tdma_adjust = false;
++		coex_dm->bt_status = BT_8821A_1ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8821A_1ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8821A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8821A_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8821A_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		bt_busy = true;
++	else
++		bt_busy = false;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	halbtc8821a1ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8821a1ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	boolean	wifi_under_5g = false;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for 5G <===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_coex_under_5g(btcoexist);
++		return;
++	}
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8821a1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++	halbtc8821a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, false, true);
++	/* halbtc8821a1ant_set_ant_path_d_cut(btcoexist, false, false, false, BTC_ANT_PATH_BT, BTC_WIFI_STAT_NORMAL_OFF); */
++
++	halbtc8821a1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++	ex_halbtc8821a1ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	btcoexist->stop_coex_dm = true;
++}
++
++void ex_halbtc8821a1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	boolean wifi_under_5g = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for 5G <===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_coex_under_5g(btcoexist);
++		return;
++	}
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++		halbtc8821a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, false,
++					     true);
++		/* halbtc8821a1ant_set_ant_path_d_cut(btcoexist, false, false, false, BTC_ANT_PATH_BT, BTC_WIFI_STAT_NORMAL_OFF); */
++
++		/* Sinda 20150819, workaround for driver skip leave IPS/LPS to speed up sleep time. */
++		/* Driver do not leave IPS/LPS when driver is going to sleep, so BTCoexistence think wifi is still under IPS/LPS */
++		/* BT should clear UnderIPS/UnderLPS state to avoid mismatch state after wakeup. */
++		coex_sta->under_ips = false;
++		coex_sta->under_lps = false;
++		btcoexist->stop_coex_dm = true;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->stop_coex_dm = false;
++		halbtc8821a1ant_init_hw_config(btcoexist, false, false);
++		halbtc8821a1ant_init_coex_dm(btcoexist);
++		halbtc8821a1ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8821a1ant_periodical(IN struct btc_coexist *btcoexist)
++{
++#if (BT_AUTO_REPORT_ONLY_8821A_1ANT == 0)
++	halbtc8821a1ant_query_bt_info(btcoexist);
++	halbtc8821a1ant_monitor_bt_ctr(btcoexist);
++	halbtc8821a1ant_monitor_bt_enable_disable(btcoexist);
++#else
++	if (halbtc8821a1ant_is_wifi_status_changed(btcoexist) ||
++	    coex_dm->auto_tdma_adjust) {
++		/* if(coex_sta->specific_pkt_period_cnt > 2) */
++		/* { */
++		halbtc8821a1ant_run_coexist_mechanism(btcoexist);
++		/* } */
++	}
++
++	coex_sta->specific_pkt_period_cnt++;
++#endif
++}
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8821a1Ant.h b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8821a1Ant.h
+new file mode 100644
+index 0000000..6c9c327
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8821a1Ant.h
+@@ -0,0 +1,197 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821A_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8821A 1ANT BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8821A_1ANT				1
++
++#define	BT_INFO_8821A_1ANT_B_FTP						BIT(7)
++#define	BT_INFO_8821A_1ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8821A_1ANT_B_HID						BIT(5)
++#define	BT_INFO_8821A_1ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8821A_1ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8821A_1ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8821A_1ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8821A_1ANT_B_CONNECTION				BIT(0)
++
++#define	BT_INFO_8821A_1ANT_A2DP_BASIC_RATE(_BT_INFO_EXT_)	\
++		(((_BT_INFO_EXT_&BIT(0))) ? true : false)
++
++#define	BTC_RSSI_COEX_THRESH_TOL_8821A_1ANT		2
++
++enum bt_info_src_8821a_1ant {
++	BT_INFO_SRC_8821A_1ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8821A_1ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8821A_1ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8821A_1ANT_MAX
++};
++
++enum bt_8821a_1ant_bt_status {
++	BT_8821A_1ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8821A_1ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8821A_1ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8821A_1ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8821A_1ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8821A_1ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8821A_1ANT_BT_STATUS_MAX
++};
++
++enum bt_8821a_1ant_wifi_status {
++	BT_8821A_1ANT_WIFI_STATUS_NON_CONNECTED_IDLE				= 0x0,
++	BT_8821A_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN		= 0x1,
++	BT_8821A_1ANT_WIFI_STATUS_CONNECTED_SCAN					= 0x2,
++	BT_8821A_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT				= 0x3,
++	BT_8821A_1ANT_WIFI_STATUS_CONNECTED_IDLE					= 0x4,
++	BT_8821A_1ANT_WIFI_STATUS_CONNECTED_BUSY					= 0x5,
++	BT_8821A_1ANT_WIFI_STATUS_MAX
++};
++
++enum bt_8821a_1ant_coex_algo {
++	BT_8821A_1ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8821A_1ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8821A_1ANT_COEX_ALGO_HID				= 0x2,
++	BT_8821A_1ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8821A_1ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8821A_1ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8821A_1ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8821A_1ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8821A_1ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8821A_1ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8821A_1ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8821A_1ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++struct coex_dm_8821a_1ant {
++	/* fw mechanism */
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	/* sw mechanism */
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++	u32		arp_cnt;
++
++	u8		error_condition;
++};
++
++struct coex_sta_8821a_1ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					specific_pkt_period_cnt;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	u8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8821A_1ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8821A_1ANT_MAX];
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_page;				/* Add for win8.1 page out issue */
++	boolean					wifi_is_high_pri_task;		/* Add for win8.1 page out issue */
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	boolean
++	bt_whck_test;                        /* Add for ASUS WHQL TEST that enable wifi test bt */
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8821a1ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821a1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8821a1ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821a1ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8821a1ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8821a1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8821a1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8821a1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821a1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821a1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8821a1ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821a1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8821a1ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821a1ant_display_coex_info(IN struct btc_coexist *btcoexist);
++
++#else
++#define	ex_halbtc8821a1ant_power_on_setting(btcoexist)
++#define	ex_halbtc8821a1ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8821a1ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8821a1ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8821a1ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8821a1ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8821a1ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8821a1ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8821a1ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8821a1ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8821a1ant_halt_notify(btcoexist)
++#define	ex_halbtc8821a1ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8821a1ant_periodical(btcoexist)
++#define	ex_halbtc8821a1ant_display_coex_info(btcoexist)
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8821a2Ant.c b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8821a2Ant.c
+new file mode 100644
+index 0000000..010a422
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8821a2Ant.c
+@@ -0,0 +1,4560 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8821A Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821A_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8821a_2ant		glcoex_dm_8821a_2ant;
++static struct  coex_dm_8821a_2ant	*coex_dm = &glcoex_dm_8821a_2ant;
++static struct  coex_sta_8821a_2ant		glcoex_sta_8821a_2ant;
++static struct  coex_sta_8821a_2ant	*coex_sta = &glcoex_sta_8821a_2ant;
++
++const char *const glbt_info_src_8821a_2ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8821a_2ant = 20150921;
++u32	glcoex_ver_8821a_2ant = 0x58;
++/* modify 20140903v43 a2dpandhid tdmaonoff a2dp glitch _ tdma off 778=3(case1)->778=1(case0)
++ * and to improve tp while a2dphid case23->case25 , case123->case125 for asus spec
++ * and modify for asus bt WHQL test _ tdma off_ 778=3->1_
++ * ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8821a2ant_
++ * ************************************************************ */
++u8 halbtc8821a2ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8821A_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8821A_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8821A_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8821a2ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8821A_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8821A_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8821A_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8821a2ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32	bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++
++	/* This function check if bt is disabled */
++
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is enabled !!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		bt_disable_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], bt all counters=0, %d times!!\n",
++			    bt_disable_cnt);
++		BTC_TRACE(trace_buf);
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++					   &bt_disabled);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++			BTC_TRACE(trace_buf);
++		}
++	}
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++		if (!bt_disabled) {
++		} else {
++		}
++	}
++}
++
++void halbtc8821a2ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++}
++
++void halbtc8821a2ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	if ((coex_sta->low_priority_rx >= 950)  &&
++	    (coex_sta->low_priority_rx >= coex_sta->low_priority_tx) &&
++	    (!coex_sta->under_ips))
++		bt_link_info->slave_role = true;
++	else
++		bt_link_info->slave_role = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], High Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		    reg_hp_txrx, reg_hp_tx, reg_hp_tx, reg_hp_rx, reg_hp_rx);
++	BTC_TRACE(trace_buf);
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], Low Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		    reg_lp_txrx, reg_lp_tx, reg_lp_tx, reg_lp_rx, reg_lp_rx);
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++}
++
++void halbtc8821a2ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++	if (coex_sta->under_ips) {
++		coex_sta->crc_ok_cck = 0;
++		coex_sta->crc_ok_11g = 0;
++		coex_sta->crc_ok_11n = 0;
++		coex_sta->crc_ok_11n_agg = 0;
++
++		coex_sta->crc_err_cck = 0;
++		coex_sta->crc_err_11g = 0;
++		coex_sta->crc_err_11n = 0;
++		coex_sta->crc_err_11n_agg = 0;
++	} else {
++		coex_sta->crc_ok_cck	= btcoexist->btc_read_4byte(btcoexist,
++					  0xf88);
++		coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf94);
++		coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf90);
++		coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					   0xfb8);
++
++		coex_sta->crc_err_cck	 = btcoexist->btc_read_4byte(btcoexist,
++					   0xf84);
++		coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf96);
++		coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf92);
++		coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					    0xfba);
++	}
++
++	/* reset counter */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x0);
++}
++
++void halbtc8821a2ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++boolean halbtc8821a2ant_is_wifi_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false;
++	boolean			wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean			wifi_connected = false;
++	u8			wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++
++
++		wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 3,
++			  2, BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++
++		if ((BTC_RSSI_STATE_HIGH == wifi_rssi_state) ||
++		    (BTC_RSSI_STATE_LOW == wifi_rssi_state))
++			return true;
++
++	}
++
++	return false;
++}
++
++void halbtc8821a2ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++u8 halbtc8821a2ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8821A_2ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_2ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_2ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_2ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				{
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], HID + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_2ANT_COEX_ALGO_HID_A2DP;
++				}
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_2ANT_COEX_ALGO_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_2ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], SCO + HID + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(HS) ==> SCO\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(EDR) ==> SCO\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_2ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8821a2ant_set_fw_dac_swing_level(IN struct btc_coexist *btcoexist,
++		IN u8 dac_swing_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	/* There are several type of dacswing */
++	/* 0x18/ 0x10/ 0xc/ 0x8/ 0x4/ 0x6 */
++	h2c_parameter[0] = dac_swing_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x64, 1, h2c_parameter);
++}
++
++void halbtc8821a2ant_set_fw_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				       IN u8 dec_bt_pwr_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = dec_bt_pwr_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x62, 1, h2c_parameter);
++}
++
++void halbtc8821a2ant_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				IN boolean force_exec, IN u8 dec_bt_pwr_lvl)
++{
++	coex_dm->cur_bt_dec_pwr_lvl = dec_bt_pwr_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_dec_pwr_lvl == coex_dm->cur_bt_dec_pwr_lvl)
++			return;
++	}
++	halbtc8821a2ant_set_fw_dec_bt_pwr(btcoexist,
++					  coex_dm->cur_bt_dec_pwr_lvl);
++
++	coex_dm->pre_bt_dec_pwr_lvl = coex_dm->cur_bt_dec_pwr_lvl;
++}
++
++void halbtc8821a2ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8821a2ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8821a2ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8821a2ant_fw_dac_swing_lvl(IN struct btc_coexist *btcoexist,
++			      IN boolean force_exec, IN u8 fw_dac_swing_lvl)
++{
++	coex_dm->cur_fw_dac_swing_lvl = fw_dac_swing_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_fw_dac_swing_lvl ==
++		    coex_dm->cur_fw_dac_swing_lvl)
++			return;
++	}
++
++	halbtc8821a2ant_set_fw_dac_swing_level(btcoexist,
++					       coex_dm->cur_fw_dac_swing_lvl);
++
++	coex_dm->pre_fw_dac_swing_lvl = coex_dm->cur_fw_dac_swing_lvl;
++}
++
++void halbtc8821a2ant_set_sw_rf_rx_lpf_corner(IN struct btc_coexist *btcoexist,
++		IN boolean rx_rf_shrink_on)
++{
++	if (rx_rf_shrink_on) {
++		/* Shrink RF Rx LPF corner */
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Shrink RF Rx LPF corner!!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e, 0xfffff,
++					  0xffffc);
++	} else {
++		/* Resume RF Rx LPF corner */
++		/* After initialized, we can use coex_dm->bt_rf_0x1e_backup */
++		if (btcoexist->initilized) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Resume RF Rx LPF corner!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++					  0xfffff, coex_dm->bt_rf_0x1e_backup);
++		}
++	}
++}
++
++void halbtc8821a2ant_rf_shrink(IN struct btc_coexist *btcoexist,
++		       IN boolean force_exec, IN boolean rx_rf_shrink_on)
++{
++	coex_dm->cur_rf_rx_lpf_shrink = rx_rf_shrink_on;
++
++	if (!force_exec) {
++		if (coex_dm->pre_rf_rx_lpf_shrink ==
++		    coex_dm->cur_rf_rx_lpf_shrink)
++			return;
++	}
++	halbtc8821a2ant_set_sw_rf_rx_lpf_corner(btcoexist,
++						coex_dm->cur_rf_rx_lpf_shrink);
++
++	coex_dm->pre_rf_rx_lpf_shrink = coex_dm->cur_rf_rx_lpf_shrink;
++}
++
++void halbtc8821a2ant_set_sw_penalty_tx_rate_adaptive(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf5;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xa0;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xa0;	/* MCS5 or OFDM36 */
++		/* h2c_parameter[3] = 0xf7;  //MCS7 or OFDM54 */
++		/* h2c_parameter[4] = 0xf8;  //MCS6 or OFDM48 */
++		/* h2c_parameter[5] = 0xf9;	//MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8821a2ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8821a2ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8821a2ant_set_dac_swing_reg(IN struct btc_coexist *btcoexist,
++				       IN u32 level)
++{
++	u8	val = (u8)level;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Write SwDacSwing = 0x%x\n", level);
++	BTC_TRACE(trace_buf);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xc5b, 0x3e, val);
++}
++
++void halbtc8821a2ant_set_sw_full_time_dac_swing(IN struct btc_coexist
++		*btcoexist, IN boolean sw_dac_swing_on, IN u32 sw_dac_swing_lvl)
++{
++	if (sw_dac_swing_on)
++		halbtc8821a2ant_set_dac_swing_reg(btcoexist, sw_dac_swing_lvl);
++	else
++		halbtc8821a2ant_set_dac_swing_reg(btcoexist, 0x18);
++}
++
++
++void halbtc8821a2ant_dac_swing(IN struct btc_coexist *btcoexist,
++	IN boolean force_exec, IN boolean dac_swing_on, IN u32 dac_swing_lvl)
++{
++	coex_dm->cur_dac_swing_on = dac_swing_on;
++	coex_dm->cur_dac_swing_lvl = dac_swing_lvl;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_dac_swing_on == coex_dm->cur_dac_swing_on) &&
++		    (coex_dm->pre_dac_swing_lvl ==
++		     coex_dm->cur_dac_swing_lvl))
++			return;
++	}
++	delay_ms(30);
++	halbtc8821a2ant_set_sw_full_time_dac_swing(btcoexist, dac_swing_on,
++			dac_swing_lvl);
++
++	coex_dm->pre_dac_swing_on = coex_dm->cur_dac_swing_on;
++	coex_dm->pre_dac_swing_lvl = coex_dm->cur_dac_swing_lvl;
++}
++
++void halbtc8821a2ant_set_adc_back_off(IN struct btc_coexist *btcoexist,
++				      IN boolean adc_back_off)
++{
++	if (adc_back_off) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB BackOff Level On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x8db, 0x60, 0x3);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB BackOff Level Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x8db, 0x60, 0x1);
++	}
++}
++
++void halbtc8821a2ant_adc_back_off(IN struct btc_coexist *btcoexist,
++			  IN boolean force_exec, IN boolean adc_back_off)
++{
++	coex_dm->cur_adc_back_off = adc_back_off;
++
++	if (!force_exec) {
++		if (coex_dm->pre_adc_back_off == coex_dm->cur_adc_back_off)
++			return;
++	}
++	halbtc8821a2ant_set_adc_back_off(btcoexist, coex_dm->cur_adc_back_off);
++
++	coex_dm->pre_adc_back_off = coex_dm->cur_adc_back_off;
++}
++
++void halbtc8821a2ant_set_agc_table(IN struct btc_coexist *btcoexist,
++				   IN boolean agc_table_en)
++{
++	u8		rssi_adjust_val = 0;
++
++	/* =================BB AGC Gain Table */
++	if (agc_table_en) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB Agc Table On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6e1A0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6d1B0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6c1C0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6b1D0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6a1E0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x691F0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x68200001);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB Agc Table Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xaa1A0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa91B0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa81C0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa71D0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa61E0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa51F0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa4200001);
++	}
++
++
++	/* =================RF Gain */
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xef, 0xfffff, 0x02000);
++	if (agc_table_en) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x38fff);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x38ffe);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x380c3);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x28ce6);
++	}
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xef, 0xfffff, 0x0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xed, 0xfffff, 0x1);
++	if (agc_table_en) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x40, 0xfffff,
++					  0x38fff);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x40, 0xfffff,
++					  0x38ffe);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x40, 0xfffff,
++					  0x380c3);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x40, 0xfffff,
++					  0x28ce6);
++	}
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xed, 0xfffff, 0x0);
++
++	/* set rssi_adjust_val for wifi module. */
++	if (agc_table_en)
++		rssi_adjust_val = 8;
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RSSI_ADJ_VAL_FOR_AGC_TABLE_ON,
++			   &rssi_adjust_val);
++}
++
++void halbtc8821a2ant_agc_table(IN struct btc_coexist *btcoexist,
++			       IN boolean force_exec, IN boolean agc_table_en)
++{
++	coex_dm->cur_agc_table_en = agc_table_en;
++
++	if (!force_exec) {
++		if (coex_dm->pre_agc_table_en == coex_dm->cur_agc_table_en)
++			return;
++	}
++	halbtc8821a2ant_set_agc_table(btcoexist, agc_table_en);
++
++	coex_dm->pre_agc_table_en = coex_dm->cur_agc_table_en;
++}
++
++void halbtc8821a2ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8821a2ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8821a2ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8821a2ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	coex_sta->coex_table_type = type;
++
++	switch (type) {
++	case 0:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x55555555, 0xffffff, 0x3);
++		break;
++	case 1:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5afa5afa, 0xffffff, 0x3);
++		break;
++	case 2:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x5ada5ada, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 3:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0xaaaaaaaa, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 4:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0xffffffff, 0xffffffff, 0xffffff, 0x3);
++		break;
++	case 5:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x5fff5fff, 0x5fff5fff, 0xffffff, 0x3);
++		break;
++	case 6:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55ff55ff, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 7:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 8:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 9:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 10:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 11:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 12:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 13:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x5fff5fff, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 14:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x5fff5fff, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 15:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 16:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x5fdf5fdf, 0x5fdb5fdb, 0xffffff, 0x3);
++		break;
++	case 17:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0xfafafafa, 0xfafafafa, 0xffffff, 0x3);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8821a2ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8821a2ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8821a2ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8821a2ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8821a2ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8821a2ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8821a2ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++
++	h2c_parameter[0] = byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = byte5;
++
++	coex_dm->ps_tdma_para[0] = byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++void halbtc8821a2ant_sw_mechanism1(IN struct btc_coexist *btcoexist,
++			   IN boolean shrink_rx_lpf, IN boolean low_penalty_ra,
++			   IN boolean limited_dig, IN boolean bt_lna_constrain)
++{
++	/*
++	u32	wifi_bw;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if(BTC_WIFI_BW_HT40 != wifi_bw)
++	{
++		if (shrink_rx_lpf)
++			shrink_rx_lpf = false;
++	}
++	*/
++
++	/* halbtc8821a2ant_rf_shrink(btcoexist, NORMAL_EXEC, shrink_rx_lpf); */
++	halbtc8821a2ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8821a2ant_sw_mechanism2(IN struct btc_coexist *btcoexist,
++			   IN boolean agc_table_shift, IN boolean adc_back_off,
++			   IN boolean sw_dac_swing, IN u32 dac_swing_lvl)
++{
++	/* halbtc8821a2ant_agc_table(btcoexist, NORMAL_EXEC, agc_table_shift); */
++	/* halbtc8821a2ant_adc_back_off(btcoexist, NORMAL_EXEC, adc_back_off); */
++	halbtc8821a2ant_dac_swing(btcoexist, NORMAL_EXEC, sw_dac_swing,
++				  dac_swing_lvl);
++}
++
++void halbtc8821a2ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean init_hwcfg, IN boolean wifi_off)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u32				u32tmp = 0;
++	u8				h2c_parameter[2] = {0};
++
++	if (init_hwcfg) {
++		/* 0x4c[23]=0, 0x4c[24]=1  Antenna control by WL/BT */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp &= ~BIT(23);
++		u32tmp |= BIT(24);
++		btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++
++		btcoexist->btc_write_4byte(btcoexist, 0x974, 0x3ff);
++		/* btcoexist->btc_write_1byte(btcoexist, 0xcb4, 0x77); */
++
++		if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT) {
++			/* tell firmware "antenna inverse"  ==> WRONG firmware antenna control code.==>need fw to fix */
++			h2c_parameter[0] = 1;
++			h2c_parameter[1] = 1;
++			btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++						h2c_parameter);
++		} else {
++			/* tell firmware "no antenna inverse" ==> WRONG firmware antenna control code.==>need fw to fix */
++			h2c_parameter[0] = 0;
++			h2c_parameter[1] = 1;
++			btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++						h2c_parameter);
++		}
++	}
++
++	/* ext switch setting */
++	switch (ant_pos_type) {
++	case BTC_ANT_WIFI_AT_MAIN:
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb7,
++						   0x30, 0x1);
++		break;
++	case BTC_ANT_WIFI_AT_AUX:
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb7,
++						   0x30, 0x2);
++		break;
++	}
++}
++
++void halbtc8821a2ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	u8			wifi_rssi_state1, bt_rssi_state;
++
++
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	if (!(BTC_RSSI_HIGH(wifi_rssi_state1) &&
++	      BTC_RSSI_HIGH(bt_rssi_state)) && turn_on) {
++		type = type + 100; /* for WiFi RSSI low or BT RSSI low */
++	}
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++	if (turn_on) {
++		switch (type) {
++		case 1:
++		default:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x1a, 0x1a, 0xe1, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x03, 0xf1, 0x90);
++			break;
++		case 2:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x12, 0x12, 0xe1, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x2d, 0x03, 0xf1, 0x90);
++			break;
++		case 3:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0xf1, 0x90);
++			break;
++		case 4:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x03, 0xf1, 0x90);
++			break;
++		case 5:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x1a, 0x1a, 0x60, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x3, 0x70, 0x90);
++			break;
++		case 6:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x12, 0x12, 0x60, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x2d, 0x3, 0x70, 0x90);
++			break;
++		case 7:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0x70, 0x90);
++			break;
++		case 8:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xa3,
++						      0x10, 0x3, 0x70, 0x90);
++			break;
++		case 9:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x1a, 0x1a, 0xe1, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x03, 0xf1, 0x90);
++			break;
++		case 10:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x12, 0x12, 0xe1, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x2d, 0x03, 0xf1, 0x90);
++			break;
++		case 11:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0xa, 0xa, 0xe1, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0xf1, 0x90);
++			break;
++		case 12:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x5, 0x5, 0xe1, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x3, 0xf1, 0x90);
++			break;
++		case 13:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x1a, 0x1a, 0x60, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x3, 0x70, 0x90);
++			break;
++		case 14:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x12, 0x12, 0x60, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x2d, 0x3, 0x70, 0x90);
++			break;
++		case 15:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0xa, 0xa, 0x60, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0x70, 0x90);
++			break;
++		case 16:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x5, 0x5, 0x60, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x3, 0x70, 0x90);
++			break;
++		case 17:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xa3,
++						      0x2f, 0x2f, 0x60, 0x90);
++			break;
++		case 18:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x5, 0x5, 0xe1, 0x90);
++			break;
++		case 19:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x25, 0xe1, 0x90);
++			break;
++		case 20:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x25, 0x60, 0x90);
++			break;
++		case 21:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x15, 0x03, 0x70, 0x90);
++			break;
++		case 23:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1e, 0x03, 0xf0, 0x14);
++			break;
++		case 24:
++		case 124:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x3c, 0x03, 0x70, 0x50);
++			break;
++		/* case25/case125 : for lenovo bt pan tp degrade<30% while wifi downlink */
++		case 25:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x14, 0x03, 0xf1, 0x90);
++			break;
++		case 26:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x30, 0x03, 0xf1, 0x90);
++			break;
++		case 71:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x1a, 0x1a, 0xe1, 0x90); */
++
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x03, 0xf1, 0x90);
++			break;
++		case 101:
++		case 105:
++		case 171:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x3a, 0x03, 0x70, 0x50);
++			break;
++		case 102:
++		case 106:
++		case 110:
++		case 114:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x2d, 0x03, 0x70, 0x50);
++			break;
++		case 103:
++		case 107:
++		case 111:
++		case 115:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1c, 0x03, 0x70, 0x50);
++			break;
++		case 104:
++		case 108:
++		case 112:
++		case 116:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x10, 0x03, 0x70, 0x50);
++			break;
++		case 109:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x03, 0xf1, 0x90);
++			break;
++		case 113:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x03, 0x70, 0x90);
++			break;
++		case 121:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x15, 0x03, 0x70, 0x90);
++			break;
++		case 22:
++		case 122:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x35, 0x03, 0x71, 0x11);
++			break;
++		case 123:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1c, 0x03, 0x70, 0x54);
++			break;
++		/* case25/case125 : for lenovo bt pan tp degrade<30% while wifi downlink */
++		case 125:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x14, 0x03, 0x70, 0x50);
++			break;
++		case 126:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x30, 0x03, 0x70, 0x50);
++			break;
++		}
++	} else {
++		/* disable PS tdma */
++		switch (type) {
++		case 0:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x40, 0x0);
++			break;
++		case 1:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x48, 0x0);
++			break;
++		default:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x40, 0x0);
++			break;
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8821a2ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8821a2ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8821a2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8821a2ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		coex_sta->force_lps_on = true;
++		break;
++	case BTC_PS_LPS_OFF:
++		halbtc8821a2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	default:
++		break;
++	}
++}
++
++
++void halbtc8821a2ant_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++	/* fw all off */
++	halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821a2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	/* hw all off */
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0); */
++	halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8821a2ant_coex_under_5g(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a2ant_coex_all_off(btcoexist);
++
++	halbtc8821a2ant_ignore_wlan_act(btcoexist, NORMAL_EXEC, true);
++}
++
++void halbtc8821a2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++	halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8821a2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 1);
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 6);
++	halbtc8821a2ant_dec_bt_pwr(btcoexist, FORCE_EXEC, 0);
++
++	halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821a2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8821a2ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	boolean	wifi_connected = false;
++	boolean	low_pwr_disable = true;
++	boolean		scan = false, link = false, roam = false;
++
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++			   &low_pwr_disable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++
++	halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	if (scan || link || roam) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi link process + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     15);
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++	} else if (wifi_connected) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     15);
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi no-link + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++	}
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 6);
++	halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821a2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++
++void halbtc8821a2ant_action_wifi_link_process(IN struct btc_coexist *btcoexist)
++{
++	u8	u8tmpa, u8tmpb;
++
++	halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 15);
++	halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++
++	halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821a2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++
++
++	u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++	u8tmpb = btcoexist->btc_read_1byte(btcoexist, 0x76e);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "############# [BTCoex], 0x765=0x%x, 0x76e=0x%x\n", u8tmpa,
++		    u8tmpb);
++	BTC_TRACE(trace_buf);
++}
++
++boolean halbtc8821a2ant_action_wifi_idle_process(IN struct btc_coexist
++		*btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u8		ap_num = 0;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	/* wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2, BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0); */
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES - 20, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM, &ap_num);
++
++	/* define the office environment */
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) &&
++	    (coex_sta->hid_exist == true) &&
++	    (coex_sta->a2dp_exist == true)) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi  idle process for BT HID+A2DP exist!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821a2ant_dac_swing(btcoexist, NORMAL_EXEC, true, 0x6);
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		/* sw all off */
++		halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false,
++					      false);
++		halbtc8821a2ant_sw_mechanism2(btcoexist, false, false, false,
++					      0x18);
++
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++
++		return true;
++	}
++
++	/*  */
++	else if (coex_sta->pan_exist == true) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi  idle process for BT PAN exist!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821a2ant_dac_swing(btcoexist, NORMAL_EXEC, true, 0x6);
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		/* sw all off */
++		halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false,
++					      false);
++		halbtc8821a2ant_sw_mechanism2(btcoexist, false, false, false,
++					      0x18);
++
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++
++		return true;
++	}
++
++	else {
++		halbtc8821a2ant_dac_swing(btcoexist, NORMAL_EXEC, true, 0x18);
++		return false;
++	}
++
++
++}
++
++
++
++boolean halbtc8821a2ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++	boolean			bt_hs_on = false, low_pwr_disable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected) {
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non-connected idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x0);
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++		halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false,
++					      false);
++		halbtc8821a2ant_sw_mechanism2(btcoexist, false, false, false,
++					      0x18);
++
++		common = true;
++	} else {
++		if (BT_8821A_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status) {
++			low_pwr_disable = false;
++			btcoexist->btc_set(btcoexist,
++					   BTC_SET_ACT_DISABLE_LOW_POWER,
++					   &low_pwr_disable);
++			halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC,
++						   false, false, 0x8);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x0);
++			halbtc8821a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++
++			halbtc8821a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++			halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 0xb);
++			halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false,
++						      false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++
++			common = true;
++		} else if (BT_8821A_2ANT_BT_STATUS_CONNECTED_IDLE ==
++			   coex_dm->bt_status) {
++			low_pwr_disable = true;
++			btcoexist->btc_set(btcoexist,
++					   BTC_SET_ACT_DISABLE_LOW_POWER,
++					   &low_pwr_disable);
++
++			if (bt_hs_on)
++				return false;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi connected + BT connected-idle!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC,
++						   false, false, 0x8);
++
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x0);
++			halbtc8821a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++
++			halbtc8821a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++			halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 0xb);
++			halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++
++			common = true;
++		} else {
++			low_pwr_disable = true;
++			btcoexist->btc_set(btcoexist,
++					   BTC_SET_ACT_DISABLE_LOW_POWER,
++					   &low_pwr_disable);
++
++			if (wifi_busy) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++				BTC_TRACE(trace_buf);
++				common = false;
++				/* common = halbtc8821a2ant_action_wifi_idle_process(btcoexist);	 */
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++				BTC_TRACE(trace_buf);
++				/* common = false;	 */
++				common = halbtc8821a2ant_action_wifi_idle_process(
++						 btcoexist);
++			}
++		}
++	}
++
++	return common;
++}
++void halbtc8821a2ant_tdma_duration_adjust(IN struct btc_coexist *btcoexist,
++		IN boolean sco_hid, IN boolean tx_pause, IN u8 max_interval)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0;
++
++	if (!coex_dm->auto_tdma_adjust) {
++		coex_dm->auto_tdma_adjust = true;
++		{
++			if (sco_hid) {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					} else if (max_interval == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (max_interval == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					} else if (max_interval == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (max_interval == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			} else {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (max_interval == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (max_interval == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (max_interval == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (max_interval == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					}
++				}
++			}
++		}
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/* accquire the BT TRx retry count from BT_Info byte2 */
++		retry_count = coex_sta->bt_retry_cnt;
++		result = 0;
++		wait_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if ³sÄò n ­Ó2¬í retry count¬°0, «h½Õ¼eWiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {	/* if ³sÄò 2 ­Ó2¬í retry count< 3, «h½Õ¯¶WiFi duration */
++				if (wait_count <= 2)
++					m++; /* ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^ */
++				else
++					m = 1;
++
++				if (m >= 20)  /* m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration. */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++			}
++		} else { /* retry count > 3, ¥u­n1¦¸ retry count > 3, «h½Õ¯¶WiFi duration */
++			if (wait_count == 1)
++				m++; /* ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^ */
++			else
++				m = 1;
++
++			if (m >= 20)  /* m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration. */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++		}
++
++		if (max_interval == 1) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 71) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 5);
++					coex_dm->ps_tdma_du_adj_type = 5;
++				} else if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 5);
++					coex_dm->ps_tdma_du_adj_type = 5;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 13);
++					coex_dm->ps_tdma_du_adj_type = 13;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 71);
++					coex_dm->ps_tdma_du_adj_type = 71;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 9);
++					coex_dm->ps_tdma_du_adj_type = 9;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 71) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 71);
++						coex_dm->ps_tdma_du_adj_type =
++							71;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					}
++				}
++			}
++		} else if (max_interval == 2) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					}
++				}
++			}
++		} else if (max_interval == 3) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			}
++		}
++	}
++
++	/* if current PsTdma not match with the recorded one (when scan, dhcp...), */
++	/* then we have to adjust it back to the previous record one. */
++	if (coex_dm->cur_ps_tdma != coex_dm->ps_tdma_du_adj_type) {
++		boolean	scan = false, link = false, roam = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], PsTdma type dismatch!!!, cur_ps_tdma=%d, recordPsTdma=%d\n",
++			    coex_dm->cur_ps_tdma, coex_dm->ps_tdma_du_adj_type);
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (!scan && !link && !roam)
++			halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						coex_dm->ps_tdma_du_adj_type);
++		else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], roaming/link/scan is under progress, will adjust next time!!!\n");
++			BTC_TRACE(trace_buf);
++		}
++	}
++}
++
++/* SCO only or SCO+PAN(HS) */
++void halbtc8821a2ant_action_sco(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8	wifi_rssi_state, bt_rssi_state;
++	u32	wifi_bw;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 4);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) /* for SCO quality at 11b/g mode */
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	else { /* for SCO quality & wifi performance balance at 11n mode */
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			halbtc8821a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 8);
++		else {
++			if (bt_link_info->sco_only)
++				halbtc8821a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 17);
++			else
++				halbtc8821a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 12);
++		}
++	}
++
++	halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++				0); /* for voice quality */
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      true, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      true, 0x18);
++		}
++	}
++}
++
++
++void halbtc8821a2ant_action_hid(IN struct btc_coexist *btcoexist)
++{
++	u8	wifi_rssi_state, bt_rssi_state;
++	u32	wifi_bw;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) /* for HID at 11b/g mode */
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++	else  /* for HID quality & wifi performance balance at 11n mode */
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++
++	halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 24);
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* A2DP only / PAN(EDR) only/ A2DP+PAN(HS) */
++void halbtc8821a2ant_action_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++	u8		ap_num = 0;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM, &ap_num);
++
++	/* define the office environment */
++	if ((ap_num >= 10) && BTC_RSSI_HIGH(wifi_rssi_state1) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++		/* dbg_print(" AP#>10(%d)\n", ap_num); */
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x0);
++		halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++		halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		/* halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1); */
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 23);
++
++		/* sw mechanism */
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x6);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x6);
++		}
++		return;
++
++	}
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     13);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++		/* halbtc8821a2ant_tdma_duration_adjust(btcoexist, false, false, 1); */
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 23);
++	} else {
++		/* halbtc8821a2ant_tdma_duration_adjust(btcoexist, false, true, 1); */
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 23);
++	}
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8821a2ant_action_a2dp_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     13);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	halbtc8821a2ant_tdma_duration_adjust(btcoexist, false, true, 2);
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8821a2ant_action_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     10);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     13);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 26);
++	else
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 26);
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++
++/* PAN(HS) only */
++void halbtc8821a2ant_action_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++	halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* PAN(EDR)+A2DP */
++void halbtc8821a2ant_action_pan_edr_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	else
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     12);
++
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			halbtc8821a2ant_tdma_duration_adjust(btcoexist, false,
++							     true, 3);
++		else
++			halbtc8821a2ant_tdma_duration_adjust(btcoexist, false,
++							     false, 3);
++	} else {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     13);
++		halbtc8821a2ant_tdma_duration_adjust(btcoexist, false, true, 3);
++	}
++
++	/* sw mechanism	 */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8821a2ant_action_pan_edr_hid(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     14);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++		if (BTC_WIFI_BW_HT40 == wifi_bw) {
++			halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 3);
++			/* halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 11); */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x780);
++		} else {
++			halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 6);
++			/* halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7); */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x0);
++		}
++		halbtc8821a2ant_tdma_duration_adjust(btcoexist, true, false, 2);
++	} else {
++		halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		/* halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 14); */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x0);
++		halbtc8821a2ant_tdma_duration_adjust(btcoexist, true, true, 2);
++	}
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* HID+A2DP+PAN(EDR) */
++void halbtc8821a2ant_action_hid_a2dp_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1,  bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     14);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			halbtc8821a2ant_tdma_duration_adjust(btcoexist, true,
++							     true, 3);
++		else
++			halbtc8821a2ant_tdma_duration_adjust(btcoexist, true,
++							     false, 3);
++	} else
++		halbtc8821a2ant_tdma_duration_adjust(btcoexist, true, true, 3);
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8821a2ant_action_hid_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++	u8		ap_num = 0;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	/* bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2, 29, 0); */
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(3,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 37);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, true, 0x5);
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) {
++		if (BTC_RSSI_HIGH(bt_rssi_state))
++			halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++		else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++			halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++		else
++			halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	} else {
++		/* only 802.11N mode we have to dec bt power to 4 degree */
++		if (BTC_RSSI_HIGH(bt_rssi_state)) {
++			btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++					   &ap_num);
++			/* need to check ap Number of Not */
++			if (ap_num < 10)
++				halbtc8821a2ant_dec_bt_pwr(btcoexist,
++							   NORMAL_EXEC, 4);
++			else
++				halbtc8821a2ant_dec_bt_pwr(btcoexist,
++							   NORMAL_EXEC, 2);
++		} else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++			halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++		else
++			halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	}
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     14);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++		/* halbtc8821a2ant_tdma_duration_adjust(btcoexist, true, false, 3); */
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 23);
++	} else {
++		/* halbtc8821a2ant_tdma_duration_adjust(btcoexist, true, true, 3); */
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 23);
++	}
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8821a2ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821a2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++	halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8821a2ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821a2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	/* hw all off */
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0); */
++	halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++}
++
++void halbtc8821a2ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	boolean				wifi_under_5g = false;
++	u8				algorithm = 0;
++	u32				num_of_wifi_link = 0;
++	u32				wifi_link_status = 0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean				miracast_plus_bt = false;
++	boolean				scan = false, link = false, roam = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), run 5G coex setting!!<===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a2ant_coex_under_5g(btcoexist);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a2ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	algorithm = halbtc8821a2ant_action_algorithm(btcoexist);
++	if (coex_sta->c2h_bt_inquiry_page &&
++	    (BT_8821A_2ANT_COEX_ALGO_PANHS != algorithm)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under inquiry/page scan !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a2ant_action_bt_inquiry(btcoexist);
++		return;
++	} else {
++
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++	if (scan || link || roam) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under Link Process !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a2ant_action_wifi_link_process(btcoexist);
++		return;
++	}
++
++	/* for P2P */
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist)
++			miracast_plus_bt = true;
++		else
++			miracast_plus_bt = false;
++
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8821a2ant_action_wifi_multi_port(btcoexist);
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++	coex_dm->cur_algorithm = algorithm;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Algorithm = %d\n",
++		    coex_dm->cur_algorithm);
++	BTC_TRACE(trace_buf);
++
++	if (halbtc8821a2ant_is_common_action(btcoexist)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Action 2-Ant common.\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->auto_tdma_adjust = false;
++	} else {
++		if (coex_dm->cur_algorithm != coex_dm->pre_algorithm) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], pre_algorithm=%d, cur_algorithm=%d\n",
++				coex_dm->pre_algorithm, coex_dm->cur_algorithm);
++			BTC_TRACE(trace_buf);
++			coex_dm->auto_tdma_adjust = false;
++		}
++		switch (coex_dm->cur_algorithm) {
++		case BT_8821A_2ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_sco(btcoexist);
++			break;
++		case BT_8821A_2ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_hid(btcoexist);
++			break;
++		case BT_8821A_2ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_a2dp(btcoexist);
++			break;
++		case BT_8821A_2ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_a2dp_pan_hs(btcoexist);
++			break;
++		case BT_8821A_2ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_pan_edr(btcoexist);
++			break;
++		case BT_8821A_2ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_pan_hs(btcoexist);
++			break;
++		case BT_8821A_2ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_pan_edr_a2dp(btcoexist);
++			break;
++		case BT_8821A_2ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_pan_edr_hid(btcoexist);
++			break;
++		case BT_8821A_2ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_hid_a2dp_pan_edr(
++				btcoexist);
++			break;
++		case BT_8821A_2ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_hid_a2dp(btcoexist);
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_coex_all_off(btcoexist);
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8821a2ant_wifi_off_hw_cfg(IN struct btc_coexist *btcoexist)
++{
++	u8 h2c_parameter[2] = {0};
++	u32 fw_ver = 0;
++
++	/* set wlan_act to low */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++			  0x780); /* WiFi goto standby while GNT_BT 0-->1 */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	if (fw_ver >= 0x180000) {
++		/* Use H2C to set GNT_BT to HIGH */
++		h2c_parameter[0] = 1;
++		btcoexist->btc_fill_h2c(btcoexist, 0x6E, 1, h2c_parameter);
++	} else
++		btcoexist->btc_write_1byte(btcoexist, 0x765, 0x18);
++}
++
++void halbtc8821a2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up)
++{
++	u8	u8tmp = 0;
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 2Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	/* backup rf 0x1e value */
++	coex_dm->bt_rf_0x1e_backup =
++		btcoexist->btc_get_rf_reg(btcoexist, BTC_RF_A, 0x1e, 0xfffff);
++
++	/* 0x790[5:0]=0x5 */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x790);
++	u8tmp &= 0xc0;
++	u8tmp |= 0x5;
++	btcoexist->btc_write_1byte(btcoexist, 0x790, u8tmp);
++
++	/* Antenna config	 */
++	halbtc8821a2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, true,
++				     false);
++	coex_sta->dis_ver_info_cnt = 0;
++
++	/* PTA parameter */
++	halbtc8821a2ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	/* Enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e,
++			   0x4); /* 0x76e[3] =1, WLAN_Act control by PTA */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x3);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++}
++
++/* ************************************************************
++ * work around function start with wa_halbtc8821a2ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8821a2ant_
++ * ************************************************************ */
++void ex_halbtc8821a2ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++
++}
++
++void ex_halbtc8821a2ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x4; /* Set BIT2 by default since it's 2ant case */
++
++	/*  */
++	/* S0 or S1 setting and Local register setting(By the setting fw can get ant number, S0/S1, ... info) */
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++	if (btcoexist->chip_interface == BTC_INTF_USB) {
++		/* fixed at S0 for USB interface */
++		u8tmp |= 0x1;	/* antenna inverse */
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	} else {
++		/* for PCIE and SDIO interface, we check efuse 0xc3[6] */
++		if (board_info->single_ant_path == 0) {
++		} else if (board_info->single_ant_path == 1) {
++			/* set to S0 */
++			u8tmp |= 0x1;	/* antenna inverse */
++		}
++
++		if (btcoexist->chip_interface == BTC_INTF_PCI)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x384,
++							     u8tmp);
++		else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60,
++							     u8tmp);
++	}
++}
++
++void ex_halbtc8821a2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8821a2ant_init_hw_config(btcoexist, true);
++}
++
++void ex_halbtc8821a2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821a2ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8821a2ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u32				u32tmp[4];
++	u32				fa_of_dm, fa_cck;
++	u32				fw_ver = 0, bt_patch_ver = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "Ant PG number/ Ant mechanism:",
++		   board_info->pg_ant_num, board_info->btdm_ant_num);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)",
++		   "CoexVer/ FwVer/ PatchVer",
++		   glcoex_ver_date_8821a_2ant, glcoex_ver_8821a_2ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %ddBm/ %d] ",
++		   "BT [status/ rssi/ retryCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8821A_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8821A_2ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi - 100, coex_sta->bt_retry_cnt);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist);
++	CL_PRINTF(cli_buf);
++
++	{
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++			   "BT Role",
++			   (bt_link_info->slave_role) ? "Slave" : "Master");
++		CL_PRINTF(cli_buf);
++	}
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Info A2DP rate",
++		   (bt_info_ext & BIT(0)) ? "Basic rate" : "EDR rate");
++	CL_PRINTF(cli_buf);
++
++	for (i = 0; i < BT_INFO_SRC_8821A_2ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8821a_2ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	/* Sw mechanism	 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Sw mechanism]============");
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d ",
++		   "SM1[ShRf/ LpRA/ LimDig]",
++		   coex_dm->cur_rf_rx_lpf_shrink, coex_dm->cur_low_penalty_ra,
++		   coex_dm->limited_dig);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d(0x%x) ",
++		   "SM2[AgcT/ AdcB/ SwDacSwing(lvl)]",
++		   coex_dm->cur_agc_table_en, coex_dm->cur_adc_back_off,
++		   coex_dm->cur_dac_swing_on, coex_dm->cur_dac_swing_lvl);
++	CL_PRINTF(cli_buf);
++
++	/* Fw mechanism		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Fw mechanism]============");
++	CL_PRINTF(cli_buf);
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (auto:%d)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   coex_dm->auto_tdma_adjust);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Coex Table Type",
++		   coex_sta->coex_table_type);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "DecBtPwr/ IgnWlanAct",
++		   coex_dm->cur_bt_dec_pwr_lvl, coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x",
++		   "RF-A, 0x1e initVal",
++		   coex_dm->bt_rf_0x1e_backup);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xc5b);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x880);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x778/0x880[29:25]/0xc58[29:25]",
++		   u8tmp[0], (u32tmp[0] & 0x3e000000) >> 25,
++		   ((u8tmp[1] & 0x3e) >> 1));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x764);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x76e);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x764/ 0x765/ 0x76e",
++		   (u32tmp[0] & 0xff), (u32tmp[0] & 0xff00) >> 8, u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0xcb4[7:0](ctrl)/ 0xcb4[29:28](val)",
++		   u32tmp[0] & 0xff, ((u32tmp[0] & 0x30000000) >> 28));
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x974);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x40/ 0x4c[24:23]/ 0x974",
++		   u8tmp[0], ((u32tmp[0] & 0x01800000) >> 23), u32tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x49c);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0xc50(dig)/0x49c(null-drop)",
++		   u32tmp[0] & 0xff, u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xda0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xda4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0xda8);
++	u32tmp[3] = btcoexist->btc_read_4byte(btcoexist, 0xcf0);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5b);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++
++	fa_of_dm = ((u32tmp[0] & 0xffff0000) >> 16) + ((u32tmp[1] & 0xffff0000)
++			>> 16) + (u32tmp[1] & 0xffff) + (u32tmp[2] & 0xffff) + \
++		   ((u32tmp[3] & 0xffff0000) >> 16) + (u32tmp[3] &
++				   0xffff) ;
++	fa_cck = (u8tmp[0] << 8) + u8tmp[1];
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "OFDM-CCA/OFDM-FA/CCK-FA",
++		   u32tmp[0] & 0xffff, fa_of_dm, fa_cck);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8/0x6cc(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++#if (BT_AUTO_REPORT_ONLY_8821A_2ANT == 1)
++	/* halbtc8821a2ant_monitor_bt_ctr(btcoexist); */
++#endif
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8821a2ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++		halbtc8821a2ant_wifi_off_hw_cfg(btcoexist);
++		halbtc8821a2ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++		halbtc8821a2ant_coex_all_off(btcoexist);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = false;
++		halbtc8821a2ant_init_hw_config(btcoexist, false);
++		halbtc8821a2ant_init_coex_dm(btcoexist);
++		halbtc8821a2ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8821a2ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++	}
++}
++
++void ex_halbtc8821a2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	u8	u8tmpa, u8tmpb;
++
++	u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++	u8tmpb = btcoexist->btc_read_1byte(btcoexist, 0x76e);
++
++	if (BTC_SCAN_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++	} else if (BTC_SCAN_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "############# [BTCoex], 0x765=0x%x, 0x76e=0x%x\n", u8tmpa,
++		    u8tmpb);
++	BTC_TRACE(trace_buf);
++}
++
++void ex_halbtc8821a2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	if (BTC_ASSOCIATE_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++	} else if (BTC_ASSOCIATE_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8821a2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++	u8			ap_num = 0;
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] = 0x1;
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else {
++			btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++					   &ap_num);
++			if (ap_num < 10)
++				h2c_parameter[2] = 0x30;
++			else
++				h2c_parameter[2] = 0x20;
++		}
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++}
++
++void ex_halbtc8821a2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	if (type == BTC_PACKET_DHCP) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], DHCP Packet notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8821a2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8			bt_info = 0;
++	u8			i, rsp_source = 0;
++	boolean			bt_busy = false, limited_dig = false;
++	boolean			wifi_connected = false, wifi_under_5g = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8821A_2ANT_MAX)
++		rsp_source = BT_INFO_SRC_8821A_2ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), return for Manual CTRL<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	/* if 0xff, it means BT is under WHCK test */
++	if (bt_info == 0xff)
++		coex_sta->bt_whck_test = true;
++	else
++		coex_sta->bt_whck_test = false;
++
++	if (BT_INFO_SRC_8821A_2ANT_WIFI_FW != rsp_source) {
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		coex_sta->bt_rssi =
++			coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		coex_sta->bt_tx_rx_mask = (coex_sta->bt_info_c2h[rsp_source][2]
++					   & 0x40);
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TX_RX_MASK,
++				   &coex_sta->bt_tx_rx_mask);
++		if (coex_sta->bt_tx_rx_mask) {
++			/* BT into is responded by BT FW and BT RF REG 0x3C != 0x01 => Need to switch BT TRx Mask */
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Switch BT TRx Mask since BT RF REG 0x3C != 0x01\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF,
++						  0x3c, 0x01);
++		}
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++		if ((coex_sta->bt_info_ext & BIT(1))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++			BTC_TRACE(trace_buf);
++			if (wifi_connected)
++				ex_halbtc8821a2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_CONNECT);
++			else
++				ex_halbtc8821a2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_DISCONNECT);
++		}
++
++
++		if (!btcoexist->manual_control && !wifi_under_5g) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT ext info = 0x%x!!\n",
++				    coex_sta->bt_info_ext);
++			BTC_TRACE(trace_buf);
++			if ((coex_sta->bt_info_ext & BIT(3))) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3=1, wifi_connected=%d\n",
++					    wifi_connected);
++				BTC_TRACE(trace_buf);
++				if (wifi_connected) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++					BTC_TRACE(trace_buf);
++					halbtc8821a2ant_ignore_wlan_act(
++						btcoexist, FORCE_EXEC, false);
++				}
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3=0, wifi_connected=%d\n",
++					    wifi_connected);
++				BTC_TRACE(trace_buf);
++				/* BT already NOT ignore Wlan active, do nothing here. */
++				if (!wifi_connected) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT ext info bit3 check, set BT to ignore Wlan active!!\n");
++					BTC_TRACE(trace_buf);
++					halbtc8821a2ant_ignore_wlan_act(
++						btcoexist, FORCE_EXEC, true);
++				}
++			}
++		}
++
++#if (BT_AUTO_REPORT_ONLY_8821A_2ANT == 0)
++		if ((coex_sta->bt_info_ext & BIT(4))) {
++			/* BT auto report already enabled, do nothing */
++		} else
++			halbtc8821a2ant_bt_auto_report(btcoexist, FORCE_EXEC,
++						       true);
++#endif
++	}
++
++	/* check BIT2 first ==> check if bt is under inquiry or page scan */
++	if (bt_info & BT_INFO_8821A_2ANT_B_INQ_PAGE)
++		coex_sta->c2h_bt_inquiry_page = true;
++	else
++		coex_sta->c2h_bt_inquiry_page = false;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8821A_2ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8821A_2ANT_B_FTP)
++			coex_sta->pan_exist = true;
++		else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8821A_2ANT_B_A2DP)
++			coex_sta->a2dp_exist = true;
++		else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8821A_2ANT_B_HID)
++			coex_sta->hid_exist = true;
++		else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8821A_2ANT_B_SCO_ESCO)
++			coex_sta->sco_exist = true;
++		else
++			coex_sta->sco_exist = false;
++
++		if ((coex_sta->hid_exist == false) &&
++		    (coex_sta->c2h_bt_inquiry_page == false) &&
++		    (coex_sta->sco_exist == false)) {
++			if (coex_sta->high_priority_tx  +
++			    coex_sta->high_priority_rx >= 160)
++				coex_sta->hid_exist = true;
++		}
++	}
++
++	halbtc8821a2ant_update_bt_link_info(btcoexist);
++
++	if (!(bt_info & BT_INFO_8821A_2ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8821A_2ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8821A_2ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8821A_2ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8821A_2ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8821A_2ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8821A_2ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8821A_2ANT_B_ACL_BUSY) {
++		coex_dm->bt_status = BT_8821A_2ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8821A_2ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8821A_2ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8821A_2ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8821A_2ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status)) {
++		bt_busy = true;
++		limited_dig = true;
++	} else {
++		bt_busy = false;
++		limited_dig = false;
++	}
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	coex_dm->limited_dig = limited_dig;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_LIMITED_DIG, &limited_dig);
++
++	halbtc8821a2ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8821a2ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821a2ant_wifi_off_hw_cfg(btcoexist);
++	/* remove due to interrupt is disabled that polling c2h will fail and delay 100ms. */
++	/* btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x3c, 0x15); //BT goto standby while GNT_BT 1-->0 */
++	halbtc8821a2ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++	ex_halbtc8821a2ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++}
++
++void ex_halbtc8821a2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a2ant_init_hw_config(btcoexist, false);
++		halbtc8821a2ant_init_coex_dm(btcoexist);
++		halbtc8821a2ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8821a2ant_periodical(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ==========================Periodical===========================\n");
++	BTC_TRACE(trace_buf);
++
++	if (coex_sta->dis_ver_info_cnt <= 5) {
++		coex_sta->dis_ver_info_cnt += 1;
++		if (coex_sta->dis_ver_info_cnt == 3) {
++			/* Antenna config to set 0x765 = 0x0 (GNT_BT control by PTA) after initial */
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Set GNT_BT control by PTA\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_set_ant_path(btcoexist,
++				     BTC_ANT_WIFI_AT_MAIN, false, false);
++		}
++	}
++
++#if (BT_AUTO_REPORT_ONLY_8821A_2ANT == 0)
++	halbtc8821a2ant_query_bt_info(btcoexist);
++	halbtc8821a2ant_monitor_bt_enable_disable(btcoexist);
++#else
++	halbtc8821a2ant_monitor_bt_ctr(btcoexist);
++	halbtc8821a2ant_monitor_wifi_ctr(btcoexist);
++
++	if (halbtc8821a2ant_is_wifi_status_changed(btcoexist) ||
++	    coex_dm->auto_tdma_adjust)
++		halbtc8821a2ant_run_coexist_mechanism(btcoexist);
++#endif
++}
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
+\ No newline at end of file
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8821a2Ant.h b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8821a2Ant.h
+new file mode 100644
+index 0000000..73252dd
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8821a2Ant.h
+@@ -0,0 +1,205 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821A_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8821A 2Ant BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8821A_2ANT				1
++
++
++#define	BT_INFO_8821A_2ANT_B_FTP						BIT(7)
++#define	BT_INFO_8821A_2ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8821A_2ANT_B_HID						BIT(5)
++#define	BT_INFO_8821A_2ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8821A_2ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8821A_2ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8821A_2ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8821A_2ANT_B_CONNECTION				BIT(0)
++
++#define		BTC_RSSI_COEX_THRESH_TOL_8821A_2ANT		2
++
++
++#define	BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES				42  /* WiFi RSSI Threshold for 2-Ant TDMA/1-Ant PS-TDMA translation */
++#define	BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES				46 /* BT RSSI Threshold for 2-Ant TDMA/1-Ant PS-TDMA translation */
++
++enum bt_info_src_8821a_2ant {
++	BT_INFO_SRC_8821A_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8821A_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8821A_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8821A_2ANT_MAX
++};
++
++enum bt_8821a_2ant_bt_status {
++	BT_8821A_2ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8821A_2ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8821A_2ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8821A_2ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8821A_2ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8821A_2ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8821A_2ANT_BT_STATUS_MAX
++};
++
++enum bt_8821a_2ant_coex_algo {
++	BT_8821A_2ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8821A_2ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8821A_2ANT_COEX_ALGO_HID				= 0x2,
++	BT_8821A_2ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8821A_2ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8821A_2ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8821A_2ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8821A_2ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8821A_2ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8821A_2ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8821A_2ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8821A_2ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++struct coex_dm_8821a_2ant {
++	/* fw mechanism */
++	u8		pre_bt_dec_pwr_lvl;
++	u8		cur_bt_dec_pwr_lvl;
++	u8		pre_fw_dac_swing_lvl;
++	u8		cur_fw_dac_swing_lvl;
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		reset_tdma_adjust;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++
++	/* sw mechanism */
++	boolean		pre_rf_rx_lpf_shrink;
++	boolean		cur_rf_rx_lpf_shrink;
++	u32		bt_rf_0x1e_backup;
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	boolean		pre_dac_swing_on;
++	u32		pre_dac_swing_lvl;
++	boolean		cur_dac_swing_on;
++	u32		cur_dac_swing_lvl;
++	boolean		pre_adc_back_off;
++	boolean		cur_adc_back_off;
++	boolean	pre_agc_table_en;
++	boolean		cur_agc_table_en;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	boolean		need_recover0x948;
++	u32		backup0x948;
++
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++};
++
++struct coex_sta_8821a_2ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	u8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8821A_2ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8821A_2ANT_MAX];
++	boolean				bt_whck_test;
++	boolean					c2h_bt_inquiry_page;
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	u8					coex_table_type;
++	boolean					force_lps_on;
++
++	u8					dis_ver_info_cnt;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8821a2ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821a2ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821a2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8821a2ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821a2ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8821a2ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8821a2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8821a2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8821a2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821a2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821a2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8821a2ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821a2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8821a2ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821a2ant_display_coex_info(IN struct btc_coexist *btcoexist);
++
++#else
++#define	ex_halbtc8821a2ant_power_on_setting(btcoexist)
++#define	ex_halbtc8821a2ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8821a2ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8821a2ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8821a2ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8821a2ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8821a2ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8821a2ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8821a2ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8821a2ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8821a2ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8821a2ant_halt_notify(btcoexist)
++#define	ex_halbtc8821a2ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8821a2ant_periodical(btcoexist)
++#define	ex_halbtc8821a2ant_display_coex_info(btcoexist)
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8821aCsr2Ant.c b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8821aCsr2Ant.c
+new file mode 100644
+index 0000000..b69d156
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8821aCsr2Ant.c
+@@ -0,0 +1,3997 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8821A_CSR_CSR Co-exist mechanism
++ *
++ * History
++ * 2012/08/22 Cosa first check in.
++ * 2012/11/14 Cosa Revise for 8821A_CSR 2Ant out sourcing.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821A_SUPPORT == 1)
++
++#define _BTCOEX_CSR 1
++
++#ifndef rtw_warn_on_8821acsr2ant
++#define rtw_warn_on_8821acsr2ant(condition) do {} while (0)
++#endif
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8821a_csr_2ant	glcoex_dm_8821a_csr_2ant;
++static struct  coex_dm_8821a_csr_2ant	*coex_dm = &glcoex_dm_8821a_csr_2ant;
++static struct  coex_sta_8821a_csr_2ant	glcoex_sta_8821a_csr_2ant;
++static struct  coex_sta_8821a_csr_2ant	*coex_sta = &glcoex_sta_8821a_csr_2ant;
++
++const char *const glbt_info_src_8821a_csr_2ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32 glcoex_ver_date_8821a_csr_2ant = 20140901;
++u32 glcoex_ver_8821a_csr_2ant = 0x51;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8821aCsr2ant_
++ * ************************************************************ */
++u8 halbtc8821aCsr2ant_bt_rssi_state(u8 level_num, u8 rssi_thresh,
++				    u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++				BTC_RSSI_COEX_THRESH_TOL_8821A_CSR_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++				BTC_RSSI_COEX_THRESH_TOL_8821A_CSR_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++				BTC_RSSI_COEX_THRESH_TOL_8821A_CSR_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8821aCsr2ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++				  BTC_RSSI_COEX_THRESH_TOL_8821A_CSR_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++				  BTC_RSSI_COEX_THRESH_TOL_8821A_CSR_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++				  BTC_RSSI_COEX_THRESH_TOL_8821A_CSR_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8821aCsr2ant_monitor_bt_enable_disable(IN struct btc_coexist
++		*btcoexist)
++{
++	static u32	bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++
++	/* This function check if bt is disabled */
++
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is enabled !!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		bt_disable_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], bt all counters=0, %d times!!\n",
++			    bt_disable_cnt);
++		BTC_TRACE(trace_buf);
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++					   &bt_disabled);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++			BTC_TRACE(trace_buf);
++		}
++	}
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++		if (!bt_disabled) {
++		} else {
++		}
++	}
++}
++
++void halbtc8821aCsr2ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], High Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		    reg_hp_txrx, reg_hp_tx, reg_hp_tx, reg_hp_rx, reg_hp_rx);
++	BTC_TRACE(trace_buf);
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], Low Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		    reg_lp_txrx, reg_lp_tx, reg_lp_tx, reg_lp_rx, reg_lp_rx);
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x5d);
++}
++
++void halbtc8821aCsr2ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++			       IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8821aCsr2ant_auto_rate_fallback_retry(IN struct btc_coexist
++		*btcoexist, IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8821aCsr2ant_retry_limit(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8821aCsr2ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				       IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		case 2:
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x17);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8821aCsr2Ant_AmpduMaxNum(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_num_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_num_type != coex_dm->cur_ampdu_num_type)) {
++		switch (coex_dm->cur_ampdu_num_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x4ca,
++					   coex_dm->backup_ampdu_max_num);
++			break;
++		case 1:
++			btcoexist->btc_write_2byte(btcoexist, 0x4ca,
++						   0x0808);
++			break;
++		case 2:
++			btcoexist->btc_write_2byte(btcoexist, 0x4ca,
++						   0x1f1f);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_num_type = coex_dm->cur_ampdu_num_type;
++
++}
++
++void halbtc8821aCsr2ant_limited_tx(IN struct btc_coexist *btcoexist,
++		   IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++	   IN u8 retry_limit_type, IN u8 ampdu_time_type, IN u8 ampdu_num_type)
++{
++	switch (ra_mask_type) {
++	case 0:	/* normal mode */
++		halbtc8821aCsr2ant_update_ra_mask(btcoexist, force_exec,
++						  0x0);
++		break;
++	case 1:	/* disable cck 1/2 */
++		halbtc8821aCsr2ant_update_ra_mask(btcoexist, force_exec,
++						  0x00000003);
++		break;
++	case 2:	/* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		halbtc8821aCsr2ant_update_ra_mask(btcoexist, force_exec,
++						  0x0001f1f7);
++		break;
++	default:
++		break;
++	}
++
++	halbtc8821aCsr2ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8821aCsr2ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8821aCsr2ant_ampdu_max_time(btcoexist, force_exec,
++					  ampdu_time_type);
++	halbtc8821aCsr2Ant_AmpduMaxNum(btcoexist, force_exec, ampdu_num_type);
++}
++
++
++
++void halbtc8821aCsr2ant_limited_rx(IN struct btc_coexist *btcoexist,
++			   IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			   IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++}
++
++void halbtc8821aCsr2ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	rtw_warn_on_8821acsr2ant(_BTCOEX_CSR);
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++u8 halbtc8821aCsr2ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_stack_info		*stack_info = &btcoexist->stack_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8821A_CSR_2ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	/* sync StackInfo with BT firmware and stack */
++	stack_info->hid_exist = coex_sta->hid_exist;
++	stack_info->bt_link_exist = coex_sta->bt_link_exist;
++	stack_info->sco_exist = coex_sta->sco_exist;
++	stack_info->pan_exist = coex_sta->pan_exist;
++	stack_info->a2dp_exist = coex_sta->a2dp_exist;
++
++	if (!stack_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No profile exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (stack_info->sco_exist)
++		num_of_diff_profile++;
++	if (stack_info->hid_exist)
++		num_of_diff_profile++;
++	if (stack_info->pan_exist)
++		num_of_diff_profile++;
++	if (stack_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (stack_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8821A_CSR_2ANT_COEX_ALGO_SCO;
++		} else {
++			if (stack_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_CSR_2ANT_COEX_ALGO_HID;
++			} else if (stack_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_CSR_2ANT_COEX_ALGO_A2DP;
++			} else if (stack_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (stack_info->sco_exist) {
++			if (stack_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm =
++					BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (stack_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm =
++					BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (stack_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (stack_info->hid_exist &&
++			    stack_info->a2dp_exist) {
++				if (stack_info->num_of_hid >= 2) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], HID*2 + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], HID + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_HID_A2DP;
++				}
++			} else if (stack_info->hid_exist &&
++				   stack_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (stack_info->pan_exist &&
++				   stack_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (stack_info->sco_exist) {
++			if (stack_info->hid_exist &&
++			    stack_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm =
++					BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (stack_info->hid_exist &&
++				   stack_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (stack_info->pan_exist &&
++				   stack_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (stack_info->hid_exist &&
++			    stack_info->pan_exist &&
++			    stack_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (stack_info->sco_exist) {
++			if (stack_info->hid_exist &&
++			    stack_info->pan_exist &&
++			    stack_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++boolean halbtc8821aCsr2ant_need_to_dec_bt_pwr(IN struct btc_coexist *btcoexist)
++{
++	boolean		ret = false;
++	boolean		bt_hs_on = false, wifi_connected = false;
++	s32		bt_hs_rssi = 0;
++	u8		bt_rssi_state;
++
++	if (!btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on))
++		return false;
++	if (!btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++				&wifi_connected))
++		return false;
++	if (!btcoexist->btc_get(btcoexist, BTC_GET_S4_HS_RSSI, &bt_hs_rssi))
++		return false;
++
++	bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++	if (wifi_connected) {
++		if (bt_hs_on) {
++			if (bt_hs_rssi > 37)
++				ret = true;
++		} else {
++			if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++			    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++				ret = true;
++		}
++	}
++
++	return ret;
++}
++
++void halbtc8821aCsr2ant_set_fw_dac_swing_level(IN struct btc_coexist *btcoexist,
++		IN u8 dac_swing_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	/* There are several type of dacswing */
++	/* 0x18/ 0x10/ 0xc/ 0x8/ 0x4/ 0x6 */
++	h2c_parameter[0] = dac_swing_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x64, 1, h2c_parameter);
++}
++
++void halbtc8821aCsr2ant_set_fw_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++		IN boolean dec_bt_pwr)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (dec_bt_pwr)
++		h2c_parameter[0] |= BIT(1);
++
++	rtw_warn_on_8821acsr2ant(_BTCOEX_CSR);
++	btcoexist->btc_fill_h2c(btcoexist, 0x62, 1, h2c_parameter);
++}
++
++void halbtc8821aCsr2ant_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				   IN boolean force_exec, IN boolean dec_bt_pwr)
++{
++	coex_dm->cur_dec_bt_pwr = dec_bt_pwr;
++
++	if (!force_exec) {
++		if (coex_dm->pre_dec_bt_pwr == coex_dm->cur_dec_bt_pwr)
++			return;
++	}
++
++	/* TODO: may CSR consider to decrease BT power? */
++	/* halbtc8821aCsr2ant_set_fw_dec_bt_pwr(btcoexist, coex_dm->cur_dec_bt_pwr); */
++
++	coex_dm->pre_dec_bt_pwr = coex_dm->cur_dec_bt_pwr;
++}
++
++void halbtc8821aCsr2ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++		IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	rtw_warn_on_8821acsr2ant(_BTCOEX_CSR);
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8821aCsr2ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		       IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	/* halbtc8821aCsr2ant_set_bt_auto_report(btcoexist, coex_dm->cur_bt_auto_report); */
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8821aCsr2ant_fw_dac_swing_lvl(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 fw_dac_swing_lvl)
++{
++	coex_dm->cur_fw_dac_swing_lvl = fw_dac_swing_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_fw_dac_swing_lvl ==
++		    coex_dm->cur_fw_dac_swing_lvl)
++			return;
++	}
++
++	halbtc8821aCsr2ant_set_fw_dac_swing_level(btcoexist,
++			coex_dm->cur_fw_dac_swing_lvl);
++
++	coex_dm->pre_fw_dac_swing_lvl = coex_dm->cur_fw_dac_swing_lvl;
++}
++
++void halbtc8821aCsr2ant_set_sw_rf_rx_lpf_corner(IN struct btc_coexist
++		*btcoexist, IN boolean rx_rf_shrink_on)
++{
++	if (rx_rf_shrink_on) {
++		/* Shrink RF Rx LPF corner */
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Shrink RF Rx LPF corner!!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e, 0xfffff,
++					  0xffffc);
++	} else {
++		/* Resume RF Rx LPF corner */
++		/* After initialized, we can use coex_dm->bt_rf_0x1e_backup */
++		if (btcoexist->initilized) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Resume RF Rx LPF corner!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++					  0xfffff, coex_dm->bt_rf_0x1e_backup);
++		}
++	}
++}
++
++void halbtc8821aCsr2ant_rf_shrink(IN struct btc_coexist *btcoexist,
++			  IN boolean force_exec, IN boolean rx_rf_shrink_on)
++{
++	coex_dm->cur_rf_rx_lpf_shrink = rx_rf_shrink_on;
++
++	if (!force_exec) {
++		if (coex_dm->pre_rf_rx_lpf_shrink ==
++		    coex_dm->cur_rf_rx_lpf_shrink)
++			return;
++	}
++	halbtc8821aCsr2ant_set_sw_rf_rx_lpf_corner(btcoexist,
++			coex_dm->cur_rf_rx_lpf_shrink);
++
++	coex_dm->pre_rf_rx_lpf_shrink = coex_dm->cur_rf_rx_lpf_shrink;
++}
++
++void halbtc8821aCsr2ant_set_sw_penalty_tx_rate_adaptive(
++	IN struct btc_coexist *btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8821aCsr2ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			       IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8821aCsr2ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8821aCsr2ant_set_dac_swing_reg(IN struct btc_coexist *btcoexist,
++		IN u32 level)
++{
++	u8	val = (u8)level;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Write SwDacSwing = 0x%x\n", level);
++	BTC_TRACE(trace_buf);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xc5b, 0x3e, val);
++}
++
++void halbtc8821aCsr2ant_set_sw_full_time_dac_swing(IN struct btc_coexist
++		*btcoexist, IN boolean sw_dac_swing_on, IN u32 sw_dac_swing_lvl)
++{
++	if (sw_dac_swing_on)
++		halbtc8821aCsr2ant_set_dac_swing_reg(btcoexist,
++						     sw_dac_swing_lvl);
++	else
++		halbtc8821aCsr2ant_set_dac_swing_reg(btcoexist, 0x18);
++}
++
++
++void halbtc8821aCsr2ant_dac_swing(IN struct btc_coexist *btcoexist,
++	  IN boolean force_exec, IN boolean dac_swing_on, IN u32 dac_swing_lvl)
++{
++	coex_dm->cur_dac_swing_on = dac_swing_on;
++	coex_dm->cur_dac_swing_lvl = dac_swing_lvl;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_dac_swing_on == coex_dm->cur_dac_swing_on) &&
++		    (coex_dm->pre_dac_swing_lvl ==
++		     coex_dm->cur_dac_swing_lvl))
++			return;
++	}
++	delay_ms(30);
++	halbtc8821aCsr2ant_set_sw_full_time_dac_swing(btcoexist, dac_swing_on,
++			dac_swing_lvl);
++
++	coex_dm->pre_dac_swing_on = coex_dm->cur_dac_swing_on;
++	coex_dm->pre_dac_swing_lvl = coex_dm->cur_dac_swing_lvl;
++}
++
++void halbtc8821aCsr2ant_set_adc_back_off(IN struct btc_coexist *btcoexist,
++		IN boolean adc_back_off)
++{
++	if (adc_back_off) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB BackOff Level On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x8db, 0x60, 0x3);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB BackOff Level Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x8db, 0x60, 0x1);
++	}
++}
++
++void halbtc8821aCsr2ant_adc_back_off(IN struct btc_coexist *btcoexist,
++			     IN boolean force_exec, IN boolean adc_back_off)
++{
++	coex_dm->cur_adc_back_off = adc_back_off;
++
++	if (!force_exec) {
++		if (coex_dm->pre_adc_back_off == coex_dm->cur_adc_back_off)
++			return;
++	}
++	halbtc8821aCsr2ant_set_adc_back_off(btcoexist,
++					    coex_dm->cur_adc_back_off);
++
++	coex_dm->pre_adc_back_off = coex_dm->cur_adc_back_off;
++}
++
++void halbtc8821aCsr2ant_set_agc_table(IN struct btc_coexist *btcoexist,
++				      IN boolean agc_table_en)
++{
++	u8		rssi_adjust_val = 0;
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xef, 0xfffff, 0x02000);
++	if (agc_table_en) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x28F4B);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x10AB2);
++		rssi_adjust_val = 8;
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x2884B);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x104B2);
++	}
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xef, 0xfffff, 0x0);
++
++	/* set rssi_adjust_val for wifi module. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RSSI_ADJ_VAL_FOR_AGC_TABLE_ON,
++			   &rssi_adjust_val);
++}
++
++void halbtc8821aCsr2ant_agc_table(IN struct btc_coexist *btcoexist,
++			  IN boolean force_exec, IN boolean agc_table_en)
++{
++	coex_dm->cur_agc_table_en = agc_table_en;
++
++	if (!force_exec) {
++		if (coex_dm->pre_agc_table_en == coex_dm->cur_agc_table_en)
++			return;
++	}
++	halbtc8821aCsr2ant_set_agc_table(btcoexist, agc_table_en);
++
++	coex_dm->pre_agc_table_en = coex_dm->cur_agc_table_en;
++}
++
++void halbtc8821aCsr2ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8821aCsr2ant_coex_table(IN struct btc_coexist *btcoexist,
++		   IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				   IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8821aCsr2ant_set_coex_table(btcoexist, val0x6c0, val0x6c4,
++					  val0x6c8, val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8821aCsr2ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	rtw_warn_on_8821acsr2ant(_BTCOEX_CSR);
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8821aCsr2ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	/* halbtc8821aCsr2ant_set_fw_ignore_wlan_act(btcoexist, enable); */
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8821aCsr2ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	      IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = byte5;
++	h2c_parameter[5] = 0x01;
++
++	coex_dm->ps_tdma_para[0] = byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = byte5;
++	coex_dm->ps_tdma_para[5] = 0x01;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 6, h2c_parameter);
++}
++
++void halbtc8821aCsr2ant_sw_mechanism1(IN struct btc_coexist *btcoexist,
++		      IN boolean shrink_rx_lpf, IN boolean low_penalty_ra,
++		      IN boolean limited_dig, IN boolean bt_lna_constrain)
++{
++	u32	wifi_bw;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_HT40 != wifi_bw) { /* only shrink RF Rx LPF for HT40 */
++		if (shrink_rx_lpf)
++			shrink_rx_lpf = false;
++	}
++
++	halbtc8821aCsr2ant_rf_shrink(btcoexist, NORMAL_EXEC, shrink_rx_lpf);
++	halbtc8821aCsr2ant_low_penalty_ra(btcoexist, NORMAL_EXEC,
++					  low_penalty_ra);
++
++	/* no limited DIG */
++	/* halbtc8821aCsr2ant_setBtLnaConstrain(btcoexist, NORMAL_EXEC, bt_lna_constrain); */
++}
++
++void halbtc8821aCsr2ant_sw_mechanism2(IN struct btc_coexist *btcoexist,
++		      IN boolean agc_table_shift, IN boolean adc_back_off,
++			      IN boolean sw_dac_swing, IN u32 dac_swing_lvl)
++{
++	/* halbtc8821aCsr2ant_agc_table(btcoexist, NORMAL_EXEC, agc_table_shift); */
++	halbtc8821aCsr2ant_adc_back_off(btcoexist, NORMAL_EXEC, adc_back_off);
++	halbtc8821aCsr2ant_dac_swing(btcoexist, NORMAL_EXEC, sw_dac_swing,
++				     dac_swing_lvl);
++}
++
++void halbtc8821aCsr2ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	     IN u8 ant_pos_type, IN boolean init_hwcfg, IN boolean wifi_off)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u32				u32tmp = 0;
++	u8				h2c_parameter[2] = {0};
++
++	if (init_hwcfg) {
++		/* 0x4c[23]=0, 0x4c[24]=1  Antenna control by WL/BT */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp &= ~BIT(23);
++		u32tmp |= BIT(24);
++		btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++
++		btcoexist->btc_write_4byte(btcoexist, 0x974, 0x3ff);
++		btcoexist->btc_write_1byte(btcoexist, 0xcb4, 0x77);
++
++		if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT) {
++			/* tell firmware "antenna inverse"  ==> WRONG firmware antenna control code.==>need fw to fix */
++			h2c_parameter[0] = 1;
++			h2c_parameter[1] = 1;
++			btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++						h2c_parameter);
++		} else {
++			/* tell firmware "no antenna inverse" ==> WRONG firmware antenna control code.==>need fw to fix */
++			h2c_parameter[0] = 0;
++			h2c_parameter[1] = 1;
++			btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++						h2c_parameter);
++		}
++	}
++
++	/* ext switch setting */
++	switch (ant_pos_type) {
++	case BTC_ANT_WIFI_AT_MAIN:
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb7,
++						   0x30, 0x1);
++		break;
++	case BTC_ANT_WIFI_AT_AUX:
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb7,
++						   0x30, 0x2);
++		break;
++	}
++}
++
++void halbtc8821aCsr2ant_ps_tdma(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++	if (turn_on) {
++		switch (type) {
++		case 1:
++		default:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x1a, 0x1a, 0xe1, 0x90);
++			break;
++		case 2:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x12, 0x12, 0xe1, 0x90);
++			break;
++		case 3:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x1c, 0x3, 0xf1, 0x90);
++			break;
++		case 4:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x10, 0x03, 0xf1, 0x90);
++			break;
++		case 5:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x1a, 0x1a, 0x60, 0x90);
++			break;
++		case 6:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x12, 0x12, 0x60, 0x90);
++			break;
++		case 7:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x1c, 0x3, 0x70, 0x90);
++			break;
++		case 8:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xa3, 0x10, 0x3, 0x70, 0x90);
++			break;
++		case 9:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x1a, 0x1a, 0xe1, 0x90);
++			break;
++		case 10:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x12, 0x12, 0xe1, 0x90);
++			break;
++		case 11:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0xa, 0xa, 0xe1, 0x90);
++			break;
++		case 12:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x5, 0x5, 0xe1, 0x90);
++			break;
++		case 13:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x1a, 0x1a, 0x60, 0x90);
++			break;
++		case 14:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x12, 0x12, 0x60, 0x90);
++			break;
++		case 15:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0xa, 0xa, 0x60, 0x90);
++			break;
++		case 16:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x5, 0x5, 0x60, 0x90);
++			break;
++		case 17:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xa3, 0x2f, 0x2f, 0x60, 0x90);
++			break;
++		case 18:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x5, 0x5, 0xe1, 0x90);
++			break;
++		case 19:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x25, 0x25, 0xe1, 0x90);
++			break;
++		case 20:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x25, 0x25, 0x60, 0x90);
++			break;
++		case 21:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x15, 0x03, 0x70, 0x90);
++			break;
++		case 22:	/* ad2dp master */
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xeb, 0x11, 0x11, 0x21, 0x10);
++			break;
++		case 23:	/* a2dp slave */
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xeb, 0x12, 0x12, 0x20, 0x10);
++			break;
++		case 71:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x1a, 0x1a, 0xe1, 0x90);
++			break;
++		}
++	} else {
++		/* disable PS tdma */
++		switch (type) {
++		case 0:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist, 0x0,
++							 0x0, 0x0, 0x40, 0x0);
++			break;
++		case 1:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist, 0x0,
++							 0x0, 0x0, 0x48, 0x0);
++			break;
++		default:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist, 0x0,
++							 0x0, 0x0, 0x40, 0x0);
++			break;
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8821aCsr2ant_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++	/* fw all off */
++	halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++	/* sw all off */
++	halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	/* hw all off */
++	halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC, 0x55555555,
++				      0x55555555, 0xffff, 0x3);
++}
++
++void halbtc8821aCsr2ant_coex_under_5g(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821aCsr2ant_coex_all_off(btcoexist);
++
++	halbtc8821aCsr2ant_ignore_wlan_act(btcoexist, NORMAL_EXEC, true);
++}
++
++void halbtc8821aCsr2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++	halbtc8821aCsr2ant_coex_table(btcoexist, FORCE_EXEC, 0x55555555,
++				      0x55555555, 0xffff, 0x3);
++
++	halbtc8821aCsr2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 1);
++	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 6);
++	halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, FORCE_EXEC, false);
++
++	halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8821aCsr2ant_bt_inquiry_page(IN struct btc_coexist *btcoexist)
++{
++	boolean	low_pwr_disable = true;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++			   &low_pwr_disable);
++
++	halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC, 0x55ff55ff,
++				      0x5afa5afa, 0xffff, 0x3);
++	halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++}
++boolean halbtc8821aCsr2ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++	boolean			low_pwr_disable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected &&
++	    BT_8821A_CSR_2ANT_BT_STATUS_IDLE == coex_dm->bt_status) {
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi IPS + BT IPS!!\n");
++		BTC_TRACE(trace_buf);
++
++
++		halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++		halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++		halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false, false, false,
++						 false);
++		halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false, false, false,
++						 0x18);
++		halbtc8821aCsr2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0,
++					      0, 0);
++		halbtc8821aCsr2ant_limited_rx(btcoexist, NORMAL_EXEC, 0, 0, 0);
++
++		common = true;
++	} else if (wifi_connected &&
++		   (BT_8821A_CSR_2ANT_BT_STATUS_IDLE ==
++		    coex_dm->bt_status)) {
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Wifi Busy + BT IPS!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++						   false, 1);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Wifi LPS + BT IPS!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++						   false, 1);
++		}
++
++		halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++		halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false, false, false,
++						 false);
++		halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false, false, false,
++						 0x18);
++		halbtc8821aCsr2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0,
++					      0, 0);
++		halbtc8821aCsr2ant_limited_rx(btcoexist, NORMAL_EXEC, 0, 0, 0);
++
++		common = true;
++	} else if (!wifi_connected &&
++		   (BT_8821A_CSR_2ANT_BT_STATUS_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi IPS + BT LPS!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++		halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++		halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false, false, false,
++						 false);
++		halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false, false, false,
++						 0x18);
++		halbtc8821aCsr2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0,
++					      0, 0);
++		halbtc8821aCsr2ant_limited_rx(btcoexist, NORMAL_EXEC, 0, 0, 0);
++
++		common = true;
++	} else if (wifi_connected &&
++		   (BT_8821A_CSR_2ANT_BT_STATUS_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Wifi Busy + BT LPS!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++						   false, 1);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Wifi LPS + BT LPS!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++						   false, 1);
++		}
++
++		halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++		halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true, true,
++						 true);
++		halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false, false, false,
++						 0x18);
++		halbtc8821aCsr2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0,
++					      0, 0);
++		halbtc8821aCsr2ant_limited_rx(btcoexist, NORMAL_EXEC, 0, 0, 0);
++
++		common = true;
++	} else if (!wifi_connected &&
++		   (BT_8821A_CSR_2ANT_BT_STATUS_NON_IDLE ==
++		    coex_dm->bt_status)) {
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi IPS + BT Busy!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1); */
++		halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++		halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false, false, false,
++						 false);
++		halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false, false, false,
++						 0x18);
++		halbtc8821aCsr2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0,
++					      0, 0);
++		halbtc8821aCsr2ant_limited_rx(btcoexist, NORMAL_EXEC, 0, 0, 0);
++
++		common = true;
++	} else {
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Wifi Busy + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++			common = false;
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Wifi LPS + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   21);
++
++			if (halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++				halbtc8821aCsr2ant_dec_bt_pwr(btcoexist,
++						      NORMAL_EXEC, true);
++			else
++				halbtc8821aCsr2ant_dec_bt_pwr(btcoexist,
++						      NORMAL_EXEC, false);
++
++			common = true;
++		}
++
++		halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true, true,
++						 true);
++	}
++
++	if (common == true)
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5afa5afa, 0xffff, 0x3);
++
++	return common;
++}
++void halbtc8821aCsr2ant_tdma_duration_adjust(IN struct btc_coexist *btcoexist,
++		IN boolean sco_hid, IN boolean tx_pause, IN u8 max_interval)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0;
++
++	if (coex_dm->reset_tdma_adjust) {
++		coex_dm->reset_tdma_adjust = false;
++		{
++			if (sco_hid) {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					} else if (max_interval == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (max_interval == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					} else if (max_interval == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (max_interval == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			} else {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (max_interval == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (max_interval == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (max_interval == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (max_interval == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					}
++				}
++			}
++		}
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/* accquire the BT TRx retry count from BT_Info byte2 */
++		retry_count = coex_sta->bt_retry_cnt;
++		result = 0;
++		wait_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if ³sÄò n ­Ó2¬í retry count¬°0, «h½Õ¼eWiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {	/* if ³sÄò 2 ­Ó2¬í retry count< 3, «h½Õ¯¶WiFi duration */
++				if (wait_count <= 2)
++					m++; /* ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^ */
++				else
++					m = 1;
++
++				if (m >= 20)  /* m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration. */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++			}
++		} else { /* retry count > 3, ¥u­n1¦¸ retry count > 3, «h½Õ¯¶WiFi duration */
++			if (wait_count == 1)
++				m++; /* ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^ */
++			else
++				m = 1;
++
++			if (m >= 20)  /* m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration. */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++		}
++
++		if (max_interval == 1) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 71) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 5);
++					coex_dm->ps_tdma_du_adj_type = 5;
++				} else if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 5);
++					coex_dm->ps_tdma_du_adj_type = 5;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 13);
++					coex_dm->ps_tdma_du_adj_type = 13;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 71);
++					coex_dm->ps_tdma_du_adj_type = 71;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 9);
++					coex_dm->ps_tdma_du_adj_type = 9;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 71) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 71);
++						coex_dm->ps_tdma_du_adj_type =
++							71;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					}
++				}
++			}
++		} else if (max_interval == 2) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					}
++				}
++			}
++		} else if (max_interval == 3) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			}
++		}
++	}
++
++	/* if current PsTdma not match with the recorded one (when scan, dhcp...), */
++	/* then we have to adjust it back to the previous record one. */
++	if (coex_dm->cur_ps_tdma != coex_dm->ps_tdma_du_adj_type) {
++		boolean	scan = false, link = false, roam = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], PsTdma type dismatch!!!, cur_ps_tdma=%d, recordPsTdma=%d\n",
++			    coex_dm->cur_ps_tdma, coex_dm->ps_tdma_du_adj_type);
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (!scan && !link && !roam)
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++					   coex_dm->ps_tdma_du_adj_type);
++		else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], roaming/link/scan is under progress, will adjust next time!!!\n");
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	/* when halbtc8821aCsr2ant_tdma_duration_adjust() is called, fw dac swing is included in the function. */
++	/* if(coex_dm->ps_tdma_du_adj_type == 71) */
++	/*	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0xc); //Skip because A2DP get worse at HT40 */
++	/* else */
++	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++					    0x6);
++}
++
++/* SCO only or SCO+PAN(HS) */
++void halbtc8821aCsr2ant_action_sco(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC, 0x55555555,
++				      0x55555555, 0xffffff, 0x3);
++	halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	halbtc8821aCsr2ant_low_penalty_ra(btcoexist, NORMAL_EXEC, true);
++
++	halbtc8821aCsr2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 1, 0, 2, 0);
++
++	if (coex_sta->slave == false)
++		halbtc8821aCsr2ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					      true, 0x4);
++	else
++		halbtc8821aCsr2ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					      true, 0x2);
++
++	/*
++		wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2, 15, 0);
++		bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++		halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 4);
++
++		if(halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++			halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, true);
++		else
++			halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++		if (BTC_WIFI_BW_LEGACY == wifi_bw)
++		{
++			halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC, 0x5a5a5a5a, 0x5a5a5a5a, 0xffff, 0x3);
++		}
++		else
++		{
++			halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC, 0x5aea5aea, 0x5aea5aea, 0xffff, 0x3);
++		}
++
++		if(BTC_WIFI_BW_HT40 == wifi_bw)
++		{
++
++
++
++
++			if( (bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++				(bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++			}
++			else
++			{
++				halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++			}
++
++
++			if( (wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++				(wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8821aCsr2ant_sw_mechanism1(btcoexist,true,true,false,false);
++				halbtc8821aCsr2ant_sw_mechanism2(btcoexist,true,false,false,0x18);
++			}
++			else
++			{
++				halbtc8821aCsr2ant_sw_mechanism1(btcoexist,true,true,false,false);
++				halbtc8821aCsr2ant_sw_mechanism2(btcoexist,false,false,false,0x18);
++			}
++		}
++		else
++		{
++
++
++
++			if( (bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++				(bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++			}
++			else
++			{
++				halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++			}
++
++
++			if( (wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++				(wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				 halbtc8821aCsr2ant_sw_mechanism1(btcoexist,false,true,false,false);
++				 halbtc8821aCsr2ant_sw_mechanism2(btcoexist,true,false,false,0x18);
++			}
++			else
++			{
++				 halbtc8821aCsr2ant_sw_mechanism1(btcoexist,false,true,false,false);
++				 halbtc8821aCsr2ant_sw_mechanism2(btcoexist,false,false,false,0x18);
++			}
++		}
++	*/
++}
++
++
++void halbtc8821aCsr2ant_action_hid(IN struct btc_coexist *btcoexist)
++{
++	u8	wifi_rssi_state, bt_rssi_state;
++	u32	wifi_bw;
++
++	wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2,
++			  15, 0);
++	bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, true);
++	else
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) /* for HID at 11b/g mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5a5a5a5a, 0xffff, 0x3);
++	else  /* for HID quality & wifi performance balance at 11n mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5aea5aea, 0xffff, 0x3);
++
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   9);
++		else
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   13);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true,
++							 false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true,
++							 false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	} else {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   9);
++		else
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   13);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 true, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 true, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	}
++}
++
++/* A2DP only / PAN(EDR) only/ A2DP+PAN(HS) */
++void halbtc8821aCsr2ant_action_a2dp(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821aCsr2ant_limited_rx(btcoexist, NORMAL_EXEC, false, true, 0x8);
++
++	if (coex_sta->slave == false) {
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0xfdfdfdfd, 0xdfdadfda, 0xffffff, 0x3);
++		halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8821aCsr2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0,
++					      0, 1);
++		halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false, false, true,
++						 0x0c);
++	} else {
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0xfdfdfdfd, 0xdfdadfda, 0xffffff, 0x3);
++		halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 23);
++		halbtc8821aCsr2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0,
++					      0, 2);
++		halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false, false, true,
++						 0x18);
++	}
++
++	/*
++		wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2, 15, 0);
++		bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++
++
++
++
++		if(halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++			halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, true);
++		else
++			halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++		if(BTC_WIFI_BW_HT40 == wifi_bw)
++		{
++
++			if( (bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++				(bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist, false, false, 1);
++			}
++			else
++			{
++				halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist, false, true, 1);
++			}
++
++
++			if( (wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++				(wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				 halbtc8821aCsr2ant_sw_mechanism1(btcoexist,true,false,false,false);
++				 halbtc8821aCsr2ant_sw_mechanism2(btcoexist,true,false,false,0x18);
++			}
++			else
++			{
++				 halbtc8821aCsr2ant_sw_mechanism1(btcoexist,true,false,false,false);
++				 halbtc8821aCsr2ant_sw_mechanism2(btcoexist,false,false,false,0x18);
++			}
++		}
++		else
++		{
++
++			if( (bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++				(bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist, false, false, 1);
++			}
++			else
++			{
++				halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist, false, true, 1);
++			}
++
++
++			if( (wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++				(wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				 halbtc8821aCsr2ant_sw_mechanism1(btcoexist,false,false,false,false);
++				 halbtc8821aCsr2ant_sw_mechanism2(btcoexist,true,false,false,0x18);
++			}
++			else
++			{
++				 halbtc8821aCsr2ant_sw_mechanism1(btcoexist,false,false,false,false);
++				 halbtc8821aCsr2ant_sw_mechanism2(btcoexist,false,false,false,0x18);
++			}
++		}
++	*/
++}
++
++void halbtc8821aCsr2ant_action_a2dp_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state, bt_info_ext;
++	u32		wifi_bw;
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2,
++			  15, 0);
++	bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++	/* fw dac swing is called in halbtc8821aCsr2ant_tdma_duration_adjust() */
++	/* halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6); */
++
++
++	if (halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, true);
++	else
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		/* fw mechanism */
++		if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++			halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist,
++								false, true, 2);
++		else				/* a2dp edr rate */
++			halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist,
++								false, true, 1);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	} else {
++		/* fw mechanism */
++		if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++			halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist,
++								false, true, 2);
++		else				/* a2dp edr rate */
++			halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist,
++								false, true, 1);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	}
++}
++
++void halbtc8821aCsr2ant_action_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2,
++			  15, 0);
++	bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, true);
++	else
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) /* for HID at 11b/g mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5aff5aff, 0xffff, 0x3);
++	else  /* for HID quality & wifi performance balance at 11n mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5aff5aff, 0xffff, 0x3);
++
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   1);
++		else
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   5);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	} else {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   1);
++		else
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   5);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	}
++}
++
++
++/* PAN(HS) only */
++void halbtc8821aCsr2ant_action_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2,
++			  15, 0);
++	bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		/* fw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++			halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC,
++						      true);
++		else
++			halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC,
++						      false);
++		halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	} else {
++		/* fw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++			halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC,
++						      true);
++		else
++			halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC,
++						      false);
++
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++						   false, 1);
++		else
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++						   false, 1);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	}
++}
++
++/* PAN(EDR)+A2DP */
++void halbtc8821aCsr2ant_action_pan_edr_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state, bt_info_ext;
++	u32		wifi_bw;
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2,
++			  15, 0);
++	bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, true);
++	else
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) /* for HID at 11b/g mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5afa5afa, 0xffff, 0x3);
++	else  /* for HID quality & wifi performance balance at 11n mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5afa5afa, 0xffff, 0x3);
++
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, false, false, 3);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, false, false, 3);
++		} else {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, false, true, 3);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, false, true, 3);
++		}
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		};
++	} else {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, false, false, 3);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, false, false, 3);
++		} else {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, false, true, 3);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, false, true, 3);
++		}
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	}
++}
++
++void halbtc8821aCsr2ant_action_pan_edr_hid(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2,
++			  15, 0);
++	bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, true);
++	else
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) /* for HID at 11b/g mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5a5f5a5f, 0xffff, 0x3);
++	else  /* for HID quality & wifi performance balance at 11n mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5a5f5a5f, 0xffff, 0x3);
++
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 3);
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   10);
++		else
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   14);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true,
++							 false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true,
++							 false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	} else {
++		halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   10);
++		else
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   14);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 true, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 true, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	}
++}
++
++/* HID+A2DP+PAN(EDR) */
++void halbtc8821aCsr2ant_action_hid_a2dp_pan_edr(IN struct btc_coexist
++		*btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state, bt_info_ext;
++	u32		wifi_bw;
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2,
++			  15, 0);
++	bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, true);
++	else
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) /* for HID at 11b/g mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5a5a5a5a, 0xffff, 0x3);
++	else  /* for HID quality & wifi performance balance at 11n mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5a5a5a5a, 0xffff, 0x3);
++
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 3);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 3);
++		} else {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 3);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 3);
++		}
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true,
++							 false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true,
++							 false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	} else {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, false, 3);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, false, 3);
++		} else {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 3);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 3);
++		}
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 true, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 true, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	}
++}
++
++void halbtc8821aCsr2ant_action_hid_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state, bt_info_ext;
++	u32		wifi_bw;
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2,
++			  15, 0);
++	bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++	if (halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, true);
++	else
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) { /* for HID at 11b/g mode */
++		/* Allen		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC, 0x55ff55ff, 0x5a5a5a5a, 0xffff, 0x3); */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5f5b5f5b, 0xffffff, 0x3);
++	} else { /* for HID quality & wifi performance balance at 11n mode */
++		/* Allen		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC, 0x55ff55ff, 0x5a5a5a5a, 0xffff, 0x3); */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5f5b5f5b, 0xffffff, 0x3);
++
++	}
++
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 2);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 2);
++		} else {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 2);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 2);
++		}
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true,
++							 false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true,
++							 false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	} else {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			if (bt_info_ext & BIT(0)) {	/* a2dp basic rate */
++				/*				halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist, true, false, 2); */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 2);
++
++			} else {			/* a2dp edr rate */
++				/* Allen				halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist, true, false, 2); */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 2);
++			}
++		} else {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 2);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 2);
++		}
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 true, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 true, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	}
++}
++
++void halbtc8821aCsr2ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	boolean				wifi_under_5g = false;
++	u8				algorithm = 0;
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Manual control!!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), run 5G coex setting!!<===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821aCsr2ant_coex_under_5g(btcoexist);
++		return;
++	}
++
++	{
++		algorithm = halbtc8821aCsr2ant_action_algorithm(btcoexist);
++		if (coex_sta->c2h_bt_inquiry_page &&
++		    (BT_8821A_CSR_2ANT_COEX_ALGO_PANHS != algorithm)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT is under inquiry/page scan !!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821aCsr2ant_bt_inquiry_page(btcoexist);
++			return;
++		}
++
++		coex_dm->cur_algorithm = algorithm;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Algorithm = %d\n", coex_dm->cur_algorithm);
++		BTC_TRACE(trace_buf);
++
++		if (halbtc8821aCsr2ant_is_common_action(btcoexist)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action 2-Ant common.\n");
++			BTC_TRACE(trace_buf);
++			coex_dm->reset_tdma_adjust = true;
++		} else {
++			if (coex_dm->cur_algorithm != coex_dm->pre_algorithm) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], pre_algorithm=%d, cur_algorithm=%d\n",
++					    coex_dm->pre_algorithm,
++					    coex_dm->cur_algorithm);
++				BTC_TRACE(trace_buf);
++				coex_dm->reset_tdma_adjust = true;
++			}
++			switch (coex_dm->cur_algorithm) {
++			case BT_8821A_CSR_2ANT_COEX_ALGO_SCO:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = SCO.\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_sco(
++					btcoexist);
++				break;
++			case BT_8821A_CSR_2ANT_COEX_ALGO_HID:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = HID.\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_hid(
++					btcoexist);
++				break;
++			case BT_8821A_CSR_2ANT_COEX_ALGO_A2DP:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = A2DP.\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_a2dp(
++					btcoexist);
++				break;
++			case BT_8821A_CSR_2ANT_COEX_ALGO_A2DP_PANHS:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = A2DP+PAN(HS).\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_a2dp_pan_hs(
++					btcoexist);
++				break;
++			case BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = PAN(EDR).\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_pan_edr(
++					btcoexist);
++				break;
++			case BT_8821A_CSR_2ANT_COEX_ALGO_PANHS:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = HS mode.\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_pan_hs(
++					btcoexist);
++				break;
++			case BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_A2DP:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = PAN+A2DP.\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_pan_edr_a2dp(
++					btcoexist);
++				break;
++			case BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = PAN(EDR)+HID.\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_pan_edr_hid(
++					btcoexist);
++				break;
++			case BT_8821A_CSR_2ANT_COEX_ALGO_HID_A2DP_PANEDR
++					:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = HID+A2DP+PAN.\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_hid_a2dp_pan_edr(
++					btcoexist);
++				break;
++			case BT_8821A_CSR_2ANT_COEX_ALGO_HID_A2DP:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = HID+A2DP.\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_hid_a2dp(
++					btcoexist);
++				break;
++			default:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = coexist All Off!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_coex_all_off(
++					btcoexist);
++				break;
++			}
++			coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++		}
++	}
++}
++
++
++
++/* ************************************************************
++ * work around function start with wa_halbtc8821aCsr2ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8821aCsr2ant_
++ * ************************************************************ */
++void ex_halbtc8821aCsr2ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8821aCsr2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++		IN boolean wifi_only)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 2Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	if (wifi_only)
++		return;
++
++	/* if(back_up) */
++	{
++		/* backup rf 0x1e value */
++		coex_dm->bt_rf_0x1e_backup = btcoexist->btc_get_rf_reg(
++				     btcoexist, BTC_RF_A, 0x1e, 0xfffff);
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++		coex_dm->backup_ampdu_max_num = btcoexist->btc_read_2byte(
++							btcoexist, 0x4ca);
++	}
++
++#if 0 /* REMOVE */
++	/* 0x790[5:0]=0x5 */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x790);
++	u8tmp &= 0xc0;
++	u8tmp |= 0x5;
++	btcoexist->btc_write_1byte(btcoexist, 0x790, u8tmp);
++#endif
++
++	/* Antenna config */
++	halbtc8821aCsr2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, true,
++					false);
++
++	/* PTA parameter */
++	halbtc8821aCsr2ant_coex_table(btcoexist, FORCE_EXEC, 0x55555555,
++				      0x55555555, 0xffff, 0x3);
++
++	/* Enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e,
++			   0xc); /* 0x76e[3] =1, WLAN_Act control by PTA */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x3);
++
++#if 0 /* REMOVE */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++#endif
++}
++
++void ex_halbtc8821aCsr2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821aCsr2ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8821aCsr2ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_stack_info		*stack_info = &btcoexist->stack_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u32				u32tmp[4];
++	u32				fw_ver = 0, bt_patch_ver = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "Ant PG number/ Ant mechanism:",
++		   board_info->pg_ant_num, board_info->btdm_ant_num);
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "[Action Manual control]!!");
++		CL_PRINTF(cli_buf);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%d/ 0x%x/ 0x%x(%d)",
++		   "CoexVer/ FwVer/ PatchVer",
++		   glcoex_ver_date_8821a_csr_2ant, glcoex_ver_8821a_csr_2ant,
++		   fw_ver, bt_patch_ver, bt_patch_ver);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt]",
++		   ((coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan") : ((
++		   BT_8821A_CSR_2ANT_BT_STATUS_IDLE == coex_dm->bt_status)
++		   ? "idle" : ((BT_8821A_CSR_2ANT_BT_STATUS_CONNECTED_IDLE
++			== coex_dm->bt_status) ? "connected-idle" : "busy"))),
++		   coex_sta->bt_rssi, coex_sta->bt_retry_cnt);
++	CL_PRINTF(cli_buf);
++
++	if (stack_info->profile_notified) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d / %d / %d / %d", "SCO/HID/PAN/A2DP",
++			   stack_info->sco_exist, stack_info->hid_exist,
++			   stack_info->pan_exist, stack_info->a2dp_exist);
++		CL_PRINTF(cli_buf);
++
++		btcoexist->btc_disp_dbg_msg(btcoexist,
++					    BTC_DBG_DISP_BT_LINK_INFO);
++	}
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Info A2DP rate",
++		   (bt_info_ext & BIT(0)) ? "Basic rate" : "EDR rate");
++	CL_PRINTF(cli_buf);
++
++	for (i = 0; i < BT_INFO_SRC_8821A_CSR_2ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8821a_csr_2ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	/* Sw mechanism	 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Sw mechanism]============");
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d ",
++		   "SM1[ShRf/ LpRA/ LimDig]",
++		   coex_dm->cur_rf_rx_lpf_shrink, coex_dm->cur_low_penalty_ra,
++		   coex_dm->limited_dig);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d(0x%x) ",
++		   "SM2[AgcT/ AdcB/ SwDacSwing(lvl)]",
++		   coex_dm->cur_agc_table_en, coex_dm->cur_adc_back_off,
++		   coex_dm->cur_dac_swing_on, coex_dm->cur_dac_swing_lvl);
++	CL_PRINTF(cli_buf);
++
++	/* Fw mechanism		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Fw mechanism]============");
++	CL_PRINTF(cli_buf);
++
++	if (!btcoexist->manual_control) {
++		ps_tdma_case = coex_dm->cur_ps_tdma;
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d",
++			   "PS TDMA",
++			   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++			   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++			   coex_dm->ps_tdma_para[4], ps_tdma_case);
++		CL_PRINTF(cli_buf);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++			   "DecBtPwr/ IgnWlanAct",
++			coex_dm->cur_dec_bt_pwr, coex_dm->cur_ignore_wlan_act);
++		CL_PRINTF(cli_buf);
++	}
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x",
++		   "RF-A, 0x1e initVal",
++		   coex_dm->bt_rf_0x1e_backup);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x ",
++		   "0x778 (W_Act)/ 0x6cc (CoTab Sel)",
++		   u8tmp[0], u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x8db);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xc5b);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x8db(ADC)/0xc5b[29:25](DAC)",
++		   ((u8tmp[0] & 0x60) >> 5), ((u8tmp[1] & 0x3e) >> 1));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0xcb4[7:0](ctrl)/ 0xcb4[29:28](val)",
++		   u32tmp[0] & 0xff, ((u32tmp[0] & 0x30000000) >> 28));
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x974);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x40/ 0x4c[24:23]/ 0x974",
++		   u8tmp[0], ((u32tmp[0] & 0x01800000) >> 23), u32tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa0a);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0xc50(DIG)/0xa0a(CCK-TH)",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xf48);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5b);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "OFDM-FA/ CCK-FA",
++		   u32tmp[0], (u8tmp[0] << 8) + u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770 (hi-pri Rx/Tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri Rx/Tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8821aCsr2ant_ips_notify(IN struct btc_coexist *btcoexist,
++				      IN u8 type)
++{
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++		halbtc8821aCsr2ant_coex_all_off(btcoexist);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = false;
++		/* halbtc8821aCsr2ant_init_coex_dm(btcoexist); */
++	}
++}
++
++void ex_halbtc8821aCsr2ant_lps_notify(IN struct btc_coexist *btcoexist,
++				      IN u8 type)
++{
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++	}
++}
++
++void ex_halbtc8821aCsr2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	if (BTC_SCAN_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++	} else if (BTC_SCAN_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8821aCsr2ant_connect_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	if (BTC_ASSOCIATE_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++	} else if (BTC_ASSOCIATE_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8821aCsr2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] = 0x1;
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++}
++
++void ex_halbtc8821aCsr2ant_specific_packet_notify(IN struct btc_coexist
++		*btcoexist, IN u8 type)
++{
++	if (type == BTC_PACKET_DHCP) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], DHCP Packet notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8821aCsr2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++		IN u8 *tmp_buf, IN u8 length)
++{
++	u8			bt_info = 0;
++	u8			i, rsp_source = 0;
++	boolean			bt_busy = false, limited_dig = false;
++	boolean			wifi_connected = false, bt_hs_on = false,
++				wifi_under_5g = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8821A_CSR_2ANT_MAX)
++		rsp_source = BT_INFO_SRC_8821A_CSR_2ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	if (BT_INFO_SRC_8821A_CSR_2ANT_WIFI_FW != rsp_source) {
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		coex_sta->bt_rssi =
++			coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++#if 0 /* REMOVE */
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++		if ((coex_sta->bt_info_ext & BIT(1))) {
++
++			if (wifi_connected)
++				ex_halbtc8821aCsr2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_CONNECT);
++			else
++				ex_halbtc8821aCsr2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_DISCONNECT);
++		}
++#endif
++
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (bt_info ==
++	    BT_INFO_8821A_CSR_2ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_sta->bt_link_exist = true;
++		coex_dm->bt_status =
++			BT_8821A_CSR_2ANT_BT_STATUS_CONNECTED_IDLE;
++	} else if (bt_info &
++		BT_INFO_8821A_CSR_2ANT_B_CONNECTION) {	/* connection exists and some link is busy */
++		coex_sta->bt_link_exist = true;
++
++		if (bt_info & BT_INFO_8821A_CSR_2ANT_B_FTP)
++			coex_sta->pan_exist = true;
++		else
++			coex_sta->pan_exist = false;
++
++		if (bt_info & BT_INFO_8821A_CSR_2ANT_B_A2DP)
++			coex_sta->a2dp_exist = true;
++		else
++			coex_sta->a2dp_exist = false;
++
++		if (bt_info & BT_INFO_8821A_CSR_2ANT_B_HID)
++			coex_sta->hid_exist = true;
++		else
++			coex_sta->hid_exist = false;
++
++		if (bt_info & BT_INFO_8821A_CSR_2ANT_B_SCO_ESCO)
++			coex_sta->sco_exist = true;
++		else
++			coex_sta->sco_exist = false;
++
++		if (coex_sta->bt_info_ext & 0x80)
++			coex_sta->slave = true; /* Slave */
++		else
++			coex_sta->slave = false; /* Master */
++
++		coex_dm->bt_status =
++			BT_8821A_CSR_2ANT_BT_STATUS_NON_IDLE;
++	} else {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->slave = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++		coex_dm->bt_status = BT_8821A_CSR_2ANT_BT_STATUS_IDLE;
++	}
++
++	if (bt_hs_on)
++		coex_dm->bt_status =
++			BT_8821A_CSR_2ANT_BT_STATUS_NON_IDLE;
++
++	if (bt_info & BT_INFO_8821A_CSR_2ANT_B_INQ_PAGE) {
++		coex_sta->c2h_bt_inquiry_page = true;
++		coex_dm->bt_status = BT_8821A_CSR_2ANT_BT_STATUS_NON_IDLE;
++	} else
++		coex_sta->c2h_bt_inquiry_page = false;
++
++
++	if (BT_8821A_CSR_2ANT_BT_STATUS_NON_IDLE == coex_dm->bt_status)
++		bt_busy = true;
++	else
++		bt_busy = false;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	if (BT_8821A_CSR_2ANT_BT_STATUS_IDLE != coex_dm->bt_status)
++		limited_dig = true;
++	else
++		limited_dig = false;
++	coex_dm->limited_dig = limited_dig;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_LIMITED_DIG, &limited_dig);
++
++	halbtc8821aCsr2ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8821aCsr2ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821aCsr2ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++	ex_halbtc8821aCsr2ant_media_status_notify(btcoexist,
++			BTC_MEDIA_DISCONNECT);
++}
++
++void ex_halbtc8821aCsr2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				      IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821aCsr2ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++		/* Sinda 20150819, workaround for driver skip leave IPS/LPS to speed up sleep time. */
++		/* Driver do not leave IPS/LPS when driver is going to sleep, so BTCoexistence think wifi is still under IPS/LPS */
++		/* BT should clear UnderIPS/UnderLPS state to avoid mismatch state after wakeup. */
++		coex_sta->under_ips = false;
++		coex_sta->under_lps = false;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8821aCsr2ant_periodical(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821aCsr2ant_monitor_bt_ctr(btcoexist);
++	halbtc8821aCsr2ant_monitor_bt_enable_disable(btcoexist);
++}
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
+\ No newline at end of file
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8821aCsr2Ant.h b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8821aCsr2Ant.h
+new file mode 100644
+index 0000000..8d228fb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8821aCsr2Ant.h
+@@ -0,0 +1,188 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821A_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8821A_CSR 2Ant BT Co-exist definition
++ * ******************************************* */
++#define	BT_INFO_8821A_CSR_2ANT_B_FTP						BIT(7)
++#define	BT_INFO_8821A_CSR_2ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8821A_CSR_2ANT_B_HID						BIT(5)
++#define	BT_INFO_8821A_CSR_2ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8821A_CSR_2ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8821A_CSR_2ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8821A_CSR_2ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8821A_CSR_2ANT_B_CONNECTION				BIT(0)
++
++#define		BTC_RSSI_COEX_THRESH_TOL_8821A_CSR_2ANT		2
++
++enum bt_info_src_8821a_csr_2ant {
++	BT_INFO_SRC_8821A_CSR_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8821A_CSR_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8821A_CSR_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8821A_CSR_2ANT_MAX
++};
++
++enum bt_8821a_csr_2ant_bt_status {
++	BT_8821A_CSR_2ANT_BT_STATUS_IDLE				= 0x0,
++	BT_8821A_CSR_2ANT_BT_STATUS_CONNECTED_IDLE	= 0x1,
++	BT_8821A_CSR_2ANT_BT_STATUS_NON_IDLE			= 0x2,
++	BT_8821A_CSR_2ANT_BT_STATUS_MAX
++};
++
++enum bt_8821a_csr_2ant_coex_algo {
++	BT_8821A_CSR_2ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8821A_CSR_2ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8821A_CSR_2ANT_COEX_ALGO_HID				= 0x2,
++	BT_8821A_CSR_2ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8821A_CSR_2ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8821A_CSR_2ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8821A_CSR_2ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8821A_CSR_2ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8821A_CSR_2ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++struct coex_dm_8821a_csr_2ant {
++	/* fw mechanism */
++	boolean		pre_dec_bt_pwr;
++	boolean		cur_dec_bt_pwr;
++	u8		pre_fw_dac_swing_lvl;
++	u8		cur_fw_dac_swing_lvl;
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[6];
++	u8		ps_tdma_du_adj_type;
++	boolean		reset_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++
++	/* sw mechanism */
++	boolean		pre_rf_rx_lpf_shrink;
++	boolean		cur_rf_rx_lpf_shrink;
++	u32		bt_rf_0x1e_backup;
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	boolean		pre_dac_swing_on;
++	u32		pre_dac_swing_lvl;
++	boolean		cur_dac_swing_on;
++	u32		cur_dac_swing_lvl;
++	boolean		pre_adc_back_off;
++	boolean		cur_adc_back_off;
++	boolean	pre_agc_table_en;
++	boolean		cur_agc_table_en;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++
++	u8 cur_ampdu_num_type;
++	u8 pre_ampdu_num_type;
++	u16 backup_ampdu_max_num;
++
++	u8 cur_ampdu_time_type;
++	u8 pre_ampdu_time_type;
++	u8 backup_ampdu_max_time;
++
++	u8		cur_arfr_type;
++	u8		pre_arfr_type;
++	u32		backup_arfr_cnt1;
++	u32		backup_arfr_cnt2;
++
++	u8		cur_retry_limit_type;
++	u8		pre_retry_limit_type;
++	u16		backup_retry_limit;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++};
++
++struct coex_sta_8821a_csr_2ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					slave;
++	boolean					hid_exist;
++	boolean					pan_exist;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	u8					bt_rssi;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8821A_CSR_2ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8821A_CSR_2ANT_MAX];
++	boolean					c2h_bt_inquiry_page;
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8821aCsr2ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821aCsr2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++		IN boolean wifi_only);
++void ex_halbtc8821aCsr2ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821aCsr2ant_ips_notify(IN struct btc_coexist *btcoexist,
++				      IN u8 type);
++void ex_halbtc8821aCsr2ant_lps_notify(IN struct btc_coexist *btcoexist,
++				      IN u8 type);
++void ex_halbtc8821aCsr2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8821aCsr2ant_connect_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821aCsr2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821aCsr2ant_specific_packet_notify(IN struct btc_coexist
++		*btcoexist, IN u8 type);
++void ex_halbtc8821aCsr2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++		IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8821aCsr2ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821aCsr2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				      IN u8 pnp_state);
++void ex_halbtc8821aCsr2ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821aCsr2ant_display_coex_info(IN struct btc_coexist *btcoexist);
++
++#else
++#define	ex_halbtc8821aCsr2ant_power_on_setting(btcoexist)
++#define	ex_halbtc8821aCsr2ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8821aCsr2ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8821aCsr2ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8821aCsr2ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8821aCsr2ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8821aCsr2ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8821aCsr2ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8821aCsr2ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8821aCsr2ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8821aCsr2ant_halt_notify(btcoexist)
++#define	ex_halbtc8821aCsr2ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8821aCsr2ant_periodical(btcoexist)
++#define	ex_halbtc8821aCsr2ant_display_coex_info(btcoexist)
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8822b1Ant.c b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8822b1Ant.c
+new file mode 100644
+index 0000000..be0a2ac
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8822b1Ant.c
+@@ -0,0 +1,6006 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8822B Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8822B_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8822b_1ant		glcoex_dm_8822b_1ant;
++static struct  coex_dm_8822b_1ant	*coex_dm = &glcoex_dm_8822b_1ant;
++static struct  coex_sta_8822b_1ant		glcoex_sta_8822b_1ant;
++static struct  coex_sta_8822b_1ant	*coex_sta = &glcoex_sta_8822b_1ant;
++static struct  psdscan_sta_8822b_1ant	gl_psd_scan_8822b_1ant;
++static struct  psdscan_sta_8822b_1ant *psd_scan = &gl_psd_scan_8822b_1ant;
++static struct	rfe_type_8822b_1ant		gl_rfe_type_8822b_1ant;
++static struct	rfe_type_8822b_1ant		*rfe_type = &gl_rfe_type_8822b_1ant;
++
++
++
++const char *const glbt_info_src_8822b_1ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8822b_1ant = 20160411;
++u32	glcoex_ver_8822b_1ant = 0x14;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8822b1ant_
++ * ************************************************************ */
++u8 halbtc8822b1ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8822B_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8822B_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8822B_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8822b1ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8822B_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8822B_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8822B_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8822b1ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8822b1ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8822b1ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8822b1ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8822b1ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	switch (ra_mask_type) {
++	case 0:	/* normal mode */
++		halbtc8822b1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0);
++		break;
++	case 1:	/* disable cck 1/2 */
++		halbtc8822b1ant_update_ra_mask(btcoexist, force_exec,
++					       0x00000003);
++		break;
++	case 2:	/* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		halbtc8822b1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0001f1f7);
++		break;
++	default:
++		break;
++	}
++
++	halbtc8822b1ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8822b1ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8822b1ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++/* 
++1:      true / don't care / don't care
++max: false / false / don't care
++7:     false / true / 7
++*/
++
++void halbtc8822b1ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8822b1ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++void halbtc8822b1ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++	static u8		num_of_bt_counter_chk = 0, cnt_slave = 0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	/* to avoid 0x76e[3] = 1 (WLAN_Act control by PTA) during IPS */
++	/* if (! (btcoexist->btc_read_1byte(btcoexist, 0x76e) & 0x8) ) */
++
++	if (coex_sta->under_ips) {
++		/* coex_sta->high_priority_tx = 65535; */
++		/* coex_sta->high_priority_rx = 65535; */
++		/* coex_sta->low_priority_tx = 65535; */
++		/* coex_sta->low_priority_rx = 65535; */
++		/* return; */
++	}
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Hi-Pri Rx/Tx: %d/%d, Lo-Pri Rx/Tx: %d/%d\n",
++		    reg_hp_rx, reg_hp_tx, reg_lp_rx, reg_lp_tx);
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++
++	if ((coex_sta->low_priority_tx > 1150)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++	
++	if ((coex_sta->low_priority_rx >= 1150) && (coex_sta->low_priority_rx >= coex_sta->low_priority_tx) 
++		 && (!coex_sta->under_ips)  &&    (!coex_sta->c2h_bt_inquiry_page) &&  (coex_sta->bt_link_exist) )	{		
++		if (cnt_slave >= 3) {
++			bt_link_info->slave_role = true;
++			cnt_slave = 3;
++		} else {
++			cnt_slave ++;
++		}
++	} else {
++		if(cnt_slave == 0)	{
++			bt_link_info->slave_role = false;
++			cnt_slave = 0;
++		} else{
++			cnt_slave--;
++		}
++			
++	}
++	
++	if ((coex_sta->high_priority_tx == 0) && (coex_sta->high_priority_rx == 0) && (coex_sta->low_priority_tx == 0) &&
++	    (coex_sta->low_priority_rx == 0)) {
++			num_of_bt_counter_chk++;
++			
++			if (num_of_bt_counter_chk >= 3) {
++					halbtc8822b1ant_query_bt_info(btcoexist);
++					num_of_bt_counter_chk = 0;
++			}		
++	}
++#if 0
++	/* Add Hi-Pri Tx/Rx counter to avoid false detection */
++		if (((coex_sta->hid_exist) || (coex_sta->sco_exist)) &&
++		    (coex_sta->high_priority_tx + coex_sta->high_priority_rx
++		     >= 160)
++		    && (!coex_sta->c2h_bt_inquiry_page))
++			coex_sta->bt_hi_pri_link_exist = true;
++		else
++			coex_sta->bt_hi_pri_link_exist = false;
++
++		if ((coex_sta->acl_busy) &&
++		    (coex_sta->num_of_profile == 0)) {
++			if (coex_sta->low_priority_tx +
++			    coex_sta->low_priority_rx >= 160) {
++				coex_sta->pan_exist = true;
++				coex_sta->num_of_profile++;
++				coex_sta->wrong_profile_notification++;				
++			}
++		}
++#endif
++
++}
++
++
++void halbtc8822b1ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++	{
++		s32 wifi_rssi = 0;
++		boolean wifi_busy = false, wifi_under_b_mode = false;
++		static u8 cck_lock_counter = 0;
++		u32 total_cnt;
++	
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++		btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,&wifi_under_b_mode);
++	
++		if (coex_sta->under_ips) {
++			coex_sta->crc_ok_cck = 0;
++			coex_sta->crc_ok_11g = 0;
++			coex_sta->crc_ok_11n = 0;
++			coex_sta->crc_ok_11n_agg = 0;
++	
++			coex_sta->crc_err_cck = 0;
++			coex_sta->crc_err_11g = 0;
++			coex_sta->crc_err_11n = 0;
++			coex_sta->crc_err_11n_agg = 0;
++		} else {
++			coex_sta->crc_ok_cck	= btcoexist->btc_read_2byte(btcoexist,
++						  0xf04);
++			coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++						  0xf14);
++			coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++						  0xf10);
++			coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++						   0xf0c);
++	
++			coex_sta->crc_err_cck	 = btcoexist->btc_read_2byte(btcoexist,0xf00) +  btcoexist->btc_read_2byte(btcoexist,0xf06);
++			
++			coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++						   0xf16);
++			coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++						   0xf12);
++			coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++							0xf0e);
++		}
++	
++	
++		/* reset counter */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xb58, 0x1, 0x1);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xb58, 0x1, 0x0);
++	
++		if ((wifi_busy) && (wifi_rssi >= 30) && (!wifi_under_b_mode)) {
++			total_cnt = coex_sta->crc_ok_cck + coex_sta->crc_ok_11g +
++					coex_sta->crc_ok_11n +
++					coex_sta->crc_ok_11n_agg;
++	
++			if ((coex_dm->bt_status == BT_8822B_1ANT_BT_STATUS_ACL_BUSY) ||
++				(coex_dm->bt_status ==
++				 BT_8822B_1ANT_BT_STATUS_ACL_SCO_BUSY) ||
++				(coex_dm->bt_status ==
++				 BT_8822B_1ANT_BT_STATUS_SCO_BUSY)) {
++				if (coex_sta->crc_ok_cck > (total_cnt -
++								coex_sta->crc_ok_cck)) {
++					if (cck_lock_counter < 3)
++						cck_lock_counter++;
++				} else {
++					if (cck_lock_counter > 0)
++						cck_lock_counter--;
++				}
++	
++			} else {
++				if (cck_lock_counter > 0)
++					cck_lock_counter--;
++			}
++		} else {
++			if (cck_lock_counter > 0)
++				cck_lock_counter--;
++		}
++	
++		if (!coex_sta->pre_ccklock) {
++	
++			if (cck_lock_counter >= 3)
++				coex_sta->cck_lock = true;
++			else
++				coex_sta->cck_lock = false;
++		} else {
++			if (cck_lock_counter == 0)
++				coex_sta->cck_lock = false;
++			else
++				coex_sta->cck_lock = true;
++		}
++	
++		if (coex_sta->cck_lock)
++			coex_sta->cck_ever_lock = true;
++	
++		coex_sta->pre_ccklock =  coex_sta->cck_lock;
++	
++	
++	}
++
++
++boolean halbtc8822b1ant_is_wifi_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false, pre_bt_off = false;
++	boolean wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (coex_sta->bt_disabled != pre_bt_off)
++	{
++		pre_bt_off = coex_sta->bt_disabled;
++		
++		if (coex_sta->bt_disabled)
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++		else
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is enabled !!\n");
++
++		BTC_TRACE(trace_buf);
++
++		coex_sta->bt_coex_supported_feature = 0;
++		coex_sta->bt_coex_supported_version = 0;
++		return true;	
++	}
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++	}
++
++	return false;
++}
++
++void halbtc8822b1ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++	bt_link_info->bt_hi_pri_link_exist = coex_sta->bt_hi_pri_link_exist;
++	bt_link_info->acl_busy = coex_sta->acl_busy;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++void halbtc8822b1ant_update_wifi_channel_info(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++	    
++		h2c_parameter[0] = 	0x1;  /* enable BT AFH skip WL channel for 8822b because BT Rx LO interference */
++		h2c_parameter[1] = wifi_central_chnl;
++		
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++
++}
++
++u8 halbtc8822b1ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8822B_1ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Profile = SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8822B_1ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8822B_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8822B_1ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8822B_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8822B_1ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8822B_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID + A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8822B_1ANT_COEX_ALGO_HID_A2DP;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8822B_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8822B_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! BT Profile = SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8822b1ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8822b1ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8822b1ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8822b1ant_set_sw_penalty_tx_rate_adaptive(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8822b1ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8822b1ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8822b1ant_write_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	u16				bitpos,
++	IN	BOOLEAN		state
++)
++{
++
++	static u16 originalval = 0x8002;
++
++	if (state)
++		originalval = originalval | bitpos;
++	else
++		originalval = originalval & (~bitpos);
++
++	btcoexist->btc_write_2byte(btcoexist, 0xaa, originalval);
++}
++
++void halbtc8822b1ant_read_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN   u16				*score_board_val
++)
++{
++
++	*score_board_val = (btcoexist->btc_read_2byte(btcoexist,
++			    0xaa)) & 0x7fff;
++}
++
++void halbtc8822b1ant_post_activestate_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_active
++)
++{
++
++	if (wifi_active)
++		halbtc8822b1ant_write_score_board(btcoexist, (u16) BIT(0), TRUE);
++	else
++		halbtc8822b1ant_write_score_board(btcoexist, (u16) BIT(0), FALSE);		
++}
++
++
++void halbtc8822b1ant_post_onoffstate_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_on
++)
++{
++
++	if (wifi_on)
++		halbtc8822b1ant_write_score_board(btcoexist, (u16) BIT(1), TRUE);
++	else
++		halbtc8822b1ant_write_score_board(btcoexist, (u16) BIT(1), FALSE);
++}
++
++
++void halbtc8822b1ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++		static u32		bt_disable_cnt = 0;
++		boolean 		bt_active = true, bt_disabled = false;
++		u16 		u16tmp;
++	
++		/* This function check if bt is disabled */
++#if 1
++		if (coex_sta->high_priority_tx == 0 &&
++			coex_sta->high_priority_rx == 0 &&
++			coex_sta->low_priority_tx == 0 &&
++			coex_sta->low_priority_rx == 0)
++			bt_active = false;
++		if (coex_sta->high_priority_tx == 0xffff &&
++			coex_sta->high_priority_rx == 0xffff &&
++			coex_sta->low_priority_tx == 0xffff &&
++			coex_sta->low_priority_rx == 0xffff)
++			bt_active = false;
++	
++	
++#else
++	
++		/* Read BT on/off status from scoreboard[1], enable this only if BT patch support this feature */
++		halbtc8822b1ant_read_score_board(btcoexist, &u16tmp);
++	
++		bt_active = u16tmp & BIT(1);
++	
++	
++#endif
++	
++		if (bt_active) {
++			bt_disable_cnt = 0;
++			bt_disabled = false;
++			btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++					   &bt_disabled);
++		} else {
++	
++			bt_disable_cnt++;
++			if (bt_disable_cnt >= 2) {
++				bt_disabled = true;
++				bt_disable_cnt = 2;
++			}
++	
++			btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++					   &bt_disabled);
++		}
++	
++	
++		if (coex_sta->bt_disabled != bt_disabled) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT is from %s to %s!!\n",
++					(coex_sta->bt_disabled ? "disabled" : "enabled"),
++					(bt_disabled ? "disabled" : "enabled"));
++			BTC_TRACE(trace_buf);
++			coex_sta->bt_disabled = bt_disabled;
++		}
++	
++}
++
++
++
++void halbtc8822b1ant_enable_gnt_to_gpio(IN struct btc_coexist *btcoexist,
++					boolean isenable)
++{
++	static u8 			bitVal[5] = {0,0,0,0,0};
++	static boolean 		state = false;
++
++	if (state ==isenable)
++		return;
++	else
++		state = isenable;
++
++	if (isenable) {
++
++		/* enable GNT_WL, GNT_BT to GPIO for debug  */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x1);
++
++		/* store original value  */
++		bitVal[0] = (btcoexist->btc_read_1byte(btcoexist, 0x66) & BIT(4)) >>4;	/*0x66[4] */
++		bitVal[1] = (btcoexist->btc_read_1byte(btcoexist, 0x67) & BIT(0));		/*0x66[8] */
++		bitVal[2] = (btcoexist->btc_read_1byte(btcoexist, 0x42) & BIT(3)) >> 3;  /*0x40[19] */
++		bitVal[3] = (btcoexist->btc_read_1byte(btcoexist, 0x65) & BIT(7)) >> 7;  /*0x64[15] */
++		bitVal[4] = (btcoexist->btc_read_1byte(btcoexist, 0x72) & BIT(2)) >> 2;  /*0x70[18] */
++
++		/*  switch GPIO Mux */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x66, BIT(4), 0x0);  /*0x66[4] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, BIT(0), 0x0);  /*0x66[8] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x42, BIT(3), 0x0);  /*0x40[19] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x65, BIT(7), 0x0);  /*0x64[15] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x72, BIT(2), 0x0);  /*0x70[18] = 0 */
++		
++
++	} else {
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x0);
++
++		/*  Restore original value   */
++		/*  switch GPIO Mux */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x66, BIT(4), bitVal[0]);  /*0x66[4] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, BIT(0), bitVal[1]);  /*0x66[8] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x42, BIT(3), bitVal[2]);  /*0x40[19] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x65, BIT(7), bitVal[3]);  /*0x64[15] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x72, BIT(2), bitVal[4]);  /*0x70[18] = 0 */
++	}
++
++}
++
++
++u32 halbtc8822b1ant_ltecoex_indirect_read_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr)
++{
++	u32 j = 0;
++
++
++	/* wait for ready bit before access 0x1700		 */
++	btcoexist->btc_write_4byte(btcoexist, 0x1700, 0x800F0000 | reg_addr);
++
++	do {
++		j++;
++	} while (((btcoexist->btc_read_1byte(btcoexist,
++					     0x1703) & BIT(5)) == 0) &&
++		 (j < BT_8822B_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++	return btcoexist->btc_read_4byte(btcoexist,
++					  0x1708);  /* get read data */
++
++}
++
++void halbtc8822b1ant_ltecoex_indirect_write_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr, IN u32 bit_mask, IN u32 reg_value)
++{
++	u32 val, i = 0, j = 0, bitpos = 0;
++
++
++	if (bit_mask == 0x0)
++		return;
++	if (bit_mask == 0xffffffff) {
++		btcoexist->btc_write_4byte(btcoexist, 0x1704,
++					   reg_value); /* put write data */
++
++		/* wait for ready bit before access 0x1700 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x1703) & BIT(5)) == 0) &&
++			(j < BT_8822B_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x1700,
++					   0xc00F0000 | reg_addr);
++	} else {
++		for (i = 0; i <= 31; i++) {
++			if (((bit_mask >> i) & 0x1) == 0x1) {
++				bitpos = i;
++				break;
++			}
++		}
++
++		/* read back register value before write */
++		val = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++				reg_addr);
++		val = (val & (~bit_mask)) | (reg_value << bitpos);
++
++		/* put write data value */
++		btcoexist->btc_write_4byte(btcoexist, 0x1704,
++					   val); /* put write data */
++
++		/* wait for ready bit before access 0x1700		 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x1703) & BIT(5)) == 0) &&
++			(j < BT_8822B_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++		/* write data add*/
++
++		btcoexist->btc_write_4byte(btcoexist, 0x1700,
++					   0xc00F0000 | reg_addr);
++
++	}
++
++}
++
++void halbtc8822b1ant_ltecoex_enable(IN struct btc_coexist *btcoexist,
++				    IN boolean enable)
++{
++	u8 val;
++
++	val = (enable) ? 1 : 0;
++	/* 0x38[7] */
++	halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist, 0x38, 0x80,
++			val);  /* 0x38[7] */
++
++}
++
++
++void halbtc8822b1ant_ltecoex_pathcontrol_owner(IN struct btc_coexist *btcoexist,
++		IN boolean wifi_control)
++{
++	u8 val;
++
++	val = (wifi_control) ? 1 : 0;
++	/* 0x70[26] */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x4,
++					   val); /* 0x70[26] */
++
++}
++
++void halbtc8822b1ant_ltecoex_set_gnt_bt(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	/*LTE indirect 0x38=0xccxx (sw : gnt_wl=1,sw gnt_bt=1)
++	                      0x38=0xddxx (sw : gnt_bt=1 , sw gnt_wl=0) 
++	                      0x38=0x55xx(hw pta :gnt_wl /gnt_bt ) */
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8822B_1ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0xc000;
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		bit_mask = 0x0c00;
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10]						 */
++		break;
++	case BT_8822B_1ANT_GNT_BLOCK_RFC:
++		bit_mask = 0xc000;
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		break;
++	case BT_8822B_1ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0c00;
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10] */
++		break;
++
++	}
++
++}
++
++void halbtc8822b1ant_ltecoex_set_gnt_wl(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++	/*LTE indirect 0x38=0xccxx (sw : gnt_wl=1,sw gnt_bt=1)
++	                      0x38=0xddxx (sw : gnt_bt=1 , sw gnt_wl=0) 
++			      0x38=0x55xx(hw pta :gnt_wl /gnt_bt ) */
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8822B_1ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0x3000;
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		bit_mask = 0x0300;
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8]						 */
++		break;
++	case BT_8822B_1ANT_GNT_BLOCK_RFC:
++		bit_mask = 0x3000;
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		break;
++	case BT_8822B_1ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0300;
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8] */
++		break;
++
++	}
++
++}
++
++void halbtc8822b1ant_ltecoex_set_coex_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u16 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8822B_1ANT_CTT_WL_VS_LTE:
++		reg_addr = 0xa0;
++		break;
++	case BT_8822B_1ANT_CTT_BT_VS_LTE:
++		reg_addr = 0xa4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xffff, table_content); /* 0xa0[15:0] or 0xa4[15:0] */
++
++
++}
++
++
++void halbtc8822b1ant_ltcoex_set_break_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u8 table_content)	
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8822B_1ANT_LBTT_WL_BREAK_LTE:
++		reg_addr = 0xa8;
++		break;
++	case BT_8822B_1ANT_LBTT_BT_BREAK_LTE:
++		reg_addr = 0xac;
++		break;
++	case BT_8822B_1ANT_LBTT_LTE_BREAK_WL:
++		reg_addr = 0xb0;
++		break;
++	case BT_8822B_1ANT_LBTT_LTE_BREAK_BT:
++		reg_addr = 0xb4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xff, table_content); /* 0xa8[15:0] or 0xb4[15:0] */
++
++
++}
++
++void halbtc8822b1ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8822b1ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8822b1ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8822b1ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	u32	break_table;
++	u8	select_table;
++
++
++
++	coex_sta->coex_table_type = type;
++
++	if (coex_sta->concurrent_rx_mode_on == true) {
++
++		break_table = 0xf0ffffff;  /* set WL hi-pri can break BT */
++		select_table =
++			0xb; 		/* set Tx response = Hi-Pri (ex: Transmitting ACK,BA,CTS) */
++	} else {
++
++		break_table = 0xffffff;
++		select_table = 0x3;
++	}
++
++	switch (type) {
++	case 0:
++		halbtc8822b1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0x55555555, break_table,
++					   select_table);
++		break;
++	case 1:
++		halbtc8822b1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0x5a5a5a5a, break_table,
++					   select_table);
++		break;
++	case 2:
++		halbtc8822b1ant_coex_table(btcoexist, force_exec,
++					   0xaa5a5a5a, 0xaa5a5a5a, break_table,
++					   select_table);
++		break;
++	case 3:
++		halbtc8822b1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0xaa5a5a5a, break_table,
++					   select_table);
++		break;
++	case 4:
++		halbtc8822b1ant_coex_table(btcoexist,
++					   force_exec, 0xaa555555, 0xaa5a5a5a,
++						   break_table, select_table);
++		break;
++	case 5:
++		halbtc8822b1ant_coex_table(btcoexist,
++					   force_exec, 0x5a5a5a5a, 0x5a5a5a5a,
++					   break_table, select_table);
++		break;
++	case 6:
++		halbtc8822b1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 7:
++		halbtc8822b1ant_coex_table(btcoexist, force_exec,
++					   0xaaaaaaaa, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 8:
++		halbtc8822b1ant_coex_table(btcoexist, force_exec,
++					   0xffffffff, 0xffffffff, break_table,
++					   select_table);
++		break;
++			
++	default:
++		break;
++	}
++}
++
++void halbtc8822b1ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	
++
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8822b1ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			{
++			   
++				coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;		
++				return;
++			}
++	}
++	
++	halbtc8822b1ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8822b1ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8822b1ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8822b1ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8822b1ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++		u8	lps_mode = 0x0;
++		u8	h2c_parameter[5] = {0x8, 0, 0, 0, 0};
++	
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++	
++		if (lps_mode) { /* already under LPS state */
++			if (new_ps_state) {
++				/* keep state under LPS, do nothing. */
++			} else {
++				/* will leave LPS state, turn off psTdma first */
++		
++				btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++			}
++		} else {					/* NO PS state */
++			if (new_ps_state) {
++				/* will enter LPS state, turn off psTdma first */
++				
++				btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++			} else {
++				/* keep state under NO PS state, do nothing. */
++			}
++		}
++}
++
++
++void halbtc8822b1ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		coex_sta->force_lps_on = false;
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	case BTC_PS_LPS_ON:
++		
++		coex_sta->force_lps_on = true;
++		halbtc8822b1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8822b1ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		coex_sta->force_lps_on = true;
++		break;
++	case BTC_PS_LPS_OFF:
++		
++		coex_sta->force_lps_on = false;
++		halbtc8822b1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	default:
++		break;
++	}
++}
++
++
++void halbtc8822b1ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++		u8			h2c_parameter[5] = {0};
++		u8			real_byte1 = byte1, real_byte5 = byte5;
++		boolean 		ap_enable = false;
++	
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++				   &ap_enable);
++	
++		if (ap_enable) {
++			if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++				
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], FW for 1Ant AP mode\n");
++				BTC_TRACE(trace_buf);
++				
++				real_byte1 &= ~BIT(4);
++				real_byte1 |= BIT(5);
++	
++				real_byte5 |= BIT(5);
++				real_byte5 &= ~BIT(6);
++	
++				halbtc8822b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++								 0x0);
++			}
++		} else if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++	
++			halbtc8822b1ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++							0x4);
++		} else {
++			halbtc8822b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++							 0x0);
++		}
++	
++	
++		h2c_parameter[0] = real_byte1;
++		h2c_parameter[1] = byte2;
++		h2c_parameter[2] = byte3;
++		h2c_parameter[3] = byte4;
++		h2c_parameter[4] = real_byte5;
++	
++		coex_dm->ps_tdma_para[0] = real_byte1;
++		coex_dm->ps_tdma_para[1] = byte2;
++		coex_dm->ps_tdma_para[2] = byte3;
++		coex_dm->ps_tdma_para[3] = byte4;
++		coex_dm->ps_tdma_para[4] = real_byte5;
++	
++		btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++void halbtc8822b1ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_busy = false;
++	static u8			psTdmaByte4Modify = 0x0, pre_psTdmaByte4Modify = 0x0;
++	static boolean	 pre_wifi_busy = false;
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (wifi_busy != pre_wifi_busy) {
++		force_exec = true;
++		pre_wifi_busy = wifi_busy;
++	}
++
++	/* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++	if ((bt_link_info->slave_role) && (bt_link_info->a2dp_exist))
++		psTdmaByte4Modify = 0x1;
++	else
++		psTdmaByte4Modify = 0x0;
++
++	if (pre_psTdmaByte4Modify != psTdmaByte4Modify) {
++
++		force_exec = true;
++		pre_psTdmaByte4Modify = psTdmaByte4Modify;
++	}
++
++	if (coex_dm->cur_ps_tdma_on) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********TDMA(on, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], **********TDMA(off, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	}
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			{
++		 		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++							"[BTCoex], return for no-TDMA case change\n");
++				BTC_TRACE(trace_buf);
++				
++				return;
++			}
++	}
++
++		
++	if (turn_on) {
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++		
++		switch (type) {
++		default:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++					0x51,0x1a, 0x1a, 0x0, 0x10);
++			break;
++		case 1:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++			        0x61, 0x3a,0x03,0x11, 0x10);
++			break;
++		case 3:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++			        0x51, 0x3a, 0x03, 0x10, 0x10);
++			break;
++		case 4:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++			        0x51, 0x21, 0x03, 0x10, 0x10);
++			break;
++		case 5:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++			        0x61, 0x15, 0x3,0x11, 0x11);
++			break;
++		case 7:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++					0x61, 0x10, 0x03, 0x10,  0x14 | psTdmaByte4Modify);
++			break;
++		case 8:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++					0x51, 0x10, 0x03, 0x10,  0x14 | psTdmaByte4Modify);
++			break;
++		case 13:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++					0x51, 0x25, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 14:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++					0x51, 0x15, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 15:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++					0x51, 0x20, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 17:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++					0x61, 0x10, 0x03, 0x11,  0x14 | psTdmaByte4Modify);
++			break;;
++		
++		case 20:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++			        0x61, 0x30, 0x03,0x11, 0x10);
++			break;
++		case 22:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++			        0x61, 0x25, 0x03,0x11, 0x10);
++			break;		
++		case 32:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++					0x61, 0x35, 0x3,0x11, 0x11);
++			break;
++		case 41:/*HID*/
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++					0x51,0x45, 0x3, 0x11, 0x11);
++			break;
++		case 42:/*A2DP*/
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++					0x51,0x1e, 0x3, 0x10, 0x14| psTdmaByte4Modify);
++			break;
++		case 43:/*A2DP+HID*/
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++					0x51,0x45, 0x3, 0x10, 0x14);
++			break;
++		case 44:/*A2DP+OPP old */
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++					0x51,0x25, 0x3, 0x10, 0x10);
++			break;
++		case 45:/*OPP new -> WIFI FW check the ncuu_p ack of AP , if has no null_p ack , wifi fw will extened wifi slot */ 
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++					0x51,0x3a, 0x3, 0x10, 0x10);
++			break;
++		case 46:/*A2DP+OPP new-> WIFI FW check the ncuu_p ack of AP , if has no null_p ack , wifi fw will extened wifi slot*/
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++					0x51,0x1a, 0x3, 0x10, 0x10);
++			break;		
++
++		}
++	} else {
++
++		switch (type) {
++		case 0:
++		default:  /* Software control, Antenna at BT side */
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++				0x0,0x0, 0x0, 0x0, 0x0);
++			/*
++			halbtc8822b1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_BT, FORCE_EXEC, false,
++						     false); */
++			break;
++		case 8: /* PTA Control */
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++				0x8,0x0, 0x0, 0x0, 0x0);
++			/*
++			halbtc8822b1ant_set_ant_path(btcoexist,
++				     BTC_ANT_PATH_PTA, FORCE_EXEC,  false,
++				     false);  */
++			break;	
++		case 9:   /* Software control, Antenna at WiFi side */
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++				0x0,0x0, 0x0, 0x0, 0x0);
++			/*
++			halbtc8822b1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_WIFI, FORCE_EXEC,false,false); */
++			break;
++		case 10:	/* under 5G , 0x778=1*/		
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++				0x0,0x0, 0x0, 0x0, 0x0);
++
++			/*
++			halbtc8822b1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_WIFI5G, FORCE_EXEC, false,
++						     false);	*/
++
++			break;
++		}
++	}
++
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++
++void halbtc8822b1ant_sw_mechanism(IN struct btc_coexist *btcoexist,
++				  IN boolean low_penalty_ra)
++{
++	halbtc8822b1ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8822b1ant_set_rfe_type(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++
++
++	/* the following setup should be got from Efuse in the future */
++	rfe_type->rfe_module_type = board_info->rfe_type;
++	
++	rfe_type->ext_ant_switch_ctrl_polarity = 0;;
++
++	switch(rfe_type->rfe_module_type)
++	{
++		case 0:
++		default:	
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8822B_1ANT_EXT_ANT_SWITCH_USE_SPDT;         
++			break;
++		case 1:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8822B_1ANT_EXT_ANT_SWITCH_USE_SPDT;        
++			break;
++		case 2:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8822B_1ANT_EXT_ANT_SWITCH_USE_SPDT;            
++			break;	
++		case 3:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8822B_1ANT_EXT_ANT_SWITCH_USE_SPDT;         
++			break;
++		case 4:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8822B_1ANT_EXT_ANT_SWITCH_USE_SP3T;          /* SP3T   */;
++			break;	
++	}
++
++	
++}
++
++
++void halbtc8822b1ant_set_ext_ant_switch(IN struct btc_coexist *btcoexist, IN boolean force_exec, IN u8 ctrl_type, IN u8 pos_type)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	boolean	switch_polatiry_inverse = false;
++	u8		regval_0xcbd = 0, regval_0x64;
++	u32		u32tmp1 = 0, u32tmp2 = 0, u32tmp3 = 0;
++	
++	if (!rfe_type->ext_ant_switch_exist)
++		return;	
++
++	 coex_dm->cur_ext_ant_switch_status = (ctrl_type << 8)  + pos_type;
++	 	
++	if (!force_exec) {
++		if (coex_dm->pre_ext_ant_switch_status == coex_dm->cur_ext_ant_switch_status)
++			return;	
++	} 
++
++	coex_dm->pre_ext_ant_switch_status = coex_dm->cur_ext_ant_switch_status;
++
++	/* swap control polarity if use different switch control polarity*/
++	/*  Normal switch polarity for SPDT, 0xcbd[1:0] = 2b'01 => Ant to BTG,  0xcbd[1:0] = 2b'10 => Ant to WLG */
++	switch_polatiry_inverse = (rfe_type->ext_ant_switch_ctrl_polarity == 1? ~switch_polatiry_inverse: switch_polatiry_inverse); 
++
++	
++	switch(pos_type)
++	{	
++		default:
++		case BT_8822B_1ANT_EXT_ANT_SWITCH_TO_BT:
++		case BT_8822B_1ANT_EXT_ANT_SWITCH_TO_NOCARE:
++			
++			break;
++		case BT_8822B_1ANT_EXT_ANT_SWITCH_TO_WLG:
++			switch_polatiry_inverse =  ~switch_polatiry_inverse;
++			break;
++		case BT_8822B_1ANT_EXT_ANT_SWITCH_TO_WLA:
++			break;
++	}
++	
++
++	if (rfe_type->ext_ant_switch_type == BT_8822B_1ANT_EXT_ANT_SWITCH_USE_SPDT)
++	{
++			switch(ctrl_type)
++			{
++				default:
++				case BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW:
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /*  0x4c[23] = 0 */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x1);  /* 0x4c[24] = 1  */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb4, 0xff, 0x77);	/* BB SW, DPDT use RFE_ctrl8 and RFE_ctrl9 as cotrol pin */
++
++					regval_0xcbd = (switch_polatiry_inverse == false?  0x1 : 0x2);     /* 0xcbd[1:0] = 2b'01 for no switch_polatiry_inverse, ANTSWB =1, ANTSW =0   */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcbd, 0x3, regval_0xcbd);
++
++					break;
++				case BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_PTA:
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /* 0x4c[23] = 0 */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x1);  /* 0x4c[24] = 1 */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb4, 0xff, 0x66);	/* PTA,  DPDT use RFE_ctrl8 and RFE_ctrl9 as cotrol pin */
++
++					regval_0xcbd = (switch_polatiry_inverse == false?  0x2 : 0x1);     /* 0xcbd[1:0] = 2b'10 for no switch_polatiry_inverse, ANTSWB =1, ANTSW =0  @ GNT_BT=1  */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcbd, 0x3, regval_0xcbd);
++					
++					break;
++				case BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_ANTDIV:
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /* 0x4c[23] = 0 */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x1);  /* 0x4c[24] = 1 */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb4, 0xff, 0x88);  /* */
++
++					/* no regval_0xcbd setup required, because  antenna switch control value by antenna diversity */
++
++					break;
++				case BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_MAC:
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x1);  /*  0x4c[23] = 1 */
++
++					regval_0x64 = (switch_polatiry_inverse == false?  0x0 : 0x1);     /* 0x64[0] = 1b'0 for no switch_polatiry_inverse, DPDT_SEL_N =1, DPDT_SEL_P =0 */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x64, 0x1, regval_0x64);
++					break;
++				case BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_BT:
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /* 0x4c[23] = 0  */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x0);  /* 0x4c[24] = 0  */
++
++					/* no  setup required, because  antenna switch control value by BT vendor 0xac[1:0]  */
++					break;
++			}
++	}
++
++		u32tmp1 = btcoexist->btc_read_4byte(btcoexist, 0xcbd);
++		u32tmp2 = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0x64) & 0xff;
++			
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (After Ext Ant switch setup) 0xcbd = 0x%08x, 0x4c = 0x%08x, 0x64= 0x%02x**********\n",
++		    u32tmp1, u32tmp2, u32tmp3);
++		BTC_TRACE(trace_buf);
++
++
++}
++
++
++void halbtc8822b1ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean force_exec,
++	  IN u8 phase)
++
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++	u8			u8tmp = 0;
++	u32			u32tmp1 = 0, u32tmp2 = 0, u32tmp3 = 0;
++
++		 coex_dm->cur_ant_pos_type = (ant_pos_type << 8)  + phase;
++	
++		if (!force_exec) {
++			if (coex_dm->cur_ant_pos_type == coex_dm->pre_ant_pos_type)
++				return; 
++		} 
++		
++		coex_dm->pre_ant_pos_type = coex_dm->cur_ant_pos_type;
++	
++#if 1
++		u32tmp1 = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++				0x38);
++		u32tmp2 = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++				0x54);	
++		u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++
++		u8tmp  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++	
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], ********** (Before Ant Setup) 0xcb4 = 0x%x, 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++				u32tmp3, u8tmp, u32tmp1, u32tmp2);
++		BTC_TRACE(trace_buf);
++#endif
++
++	switch (phase)
++	{
++		case BT_8822B_1ANT_PHASE_COEX_INIT:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, 
++					"[BTCoex], ********** (set_ant_path - 1ANT_PHASE_COEX_INIT) **********\n" );
++			BTC_TRACE(trace_buf);	
++
++			/* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++			halbtc8822b1ant_ltecoex_enable(btcoexist, 0x0);
++
++			/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++			halbtc8822b1ant_ltecoex_set_coex_table(btcoexist,
++					       BT_8822B_1ANT_CTT_WL_VS_LTE, 0xffff);
++
++			/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++			halbtc8822b1ant_ltecoex_set_coex_table(btcoexist,
++					       BT_8822B_1ANT_CTT_BT_VS_LTE, 0xffff);
++
++			/* set GNT_BT to SW high */
++			halbtc8822b1ant_ltecoex_set_gnt_bt(btcoexist,
++								   BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++								   BT_8822B_1ANT_GNT_CTRL_BY_SW,
++								   BT_8822B_1ANT_SIG_STA_SET_TO_HIGH);
++
++			/* set GNT_WL to SW low */
++			halbtc8822b1ant_ltecoex_set_gnt_wl(btcoexist,
++								   BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++								   BT_8822B_1ANT_GNT_CTRL_BY_SW,
++					   			   BT_8822B_1ANT_SIG_STA_SET_TO_LOW);
++
++			 /* set Path control owner to WL at initial step */
++			halbtc8822b1ant_ltecoex_pathcontrol_owner(btcoexist,
++								   BT_8822B_1ANT_PCO_WLSIDE);
++
++			 coex_sta->run_time_state = false;
++
++			/* Ext switch buffer mux  */
++			btcoexist->btc_write_1byte(btcoexist, 0x974, 0xff);
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x1991, 0x3, 0x0);
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcbe, 0x8, 0x0);
++
++			if (BTC_ANT_PATH_AUTO == ant_pos_type)
++					ant_pos_type = BTC_ANT_PATH_BT;			
++
++			break;
++		case BT_8822B_1ANT_PHASE_WLANONLY_INIT:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, 
++					"[BTCoex], ********** (set_ant_path - 1ANT_PHASE_WLANONLY_INIT) **********\n" );
++			BTC_TRACE(trace_buf);	
++
++			 /* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++			halbtc8822b1ant_ltecoex_enable(btcoexist, 0x0);
++
++			/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++			halbtc8822b1ant_ltecoex_set_coex_table(btcoexist,
++									       BT_8822B_1ANT_CTT_WL_VS_LTE, 0xffff);
++
++			/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++			halbtc8822b1ant_ltecoex_set_coex_table(btcoexist,
++						       BT_8822B_1ANT_CTT_BT_VS_LTE, 0xffff);				
++
++			/* set GNT_BT to SW Low */
++			halbtc8822b1ant_ltecoex_set_gnt_bt(btcoexist,
++							BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++					   		BT_8822B_1ANT_GNT_CTRL_BY_SW,
++							BT_8822B_1ANT_SIG_STA_SET_TO_LOW);
++			
++			/* Set GNT_WL to SW high */
++			halbtc8822b1ant_ltecoex_set_gnt_wl(btcoexist,
++						      BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++					  	      BT_8822B_1ANT_GNT_CTRL_BY_SW,
++						      BT_8822B_1ANT_SIG_STA_SET_TO_HIGH);
++
++			/* set Path control owner to WL at initial step */
++			halbtc8822b1ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8822B_1ANT_PCO_WLSIDE);
++
++			coex_sta->run_time_state = false;
++
++			/* Ext switch buffer mux  */
++			btcoexist->btc_write_1byte(btcoexist, 0x974, 0xff);
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x1991, 0x3, 0x0);
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcbe, 0x8, 0x0);
++
++			if (BTC_ANT_PATH_AUTO == ant_pos_type)
++					ant_pos_type = BTC_ANT_PATH_WIFI;
++
++			break;
++		case BT_8822B_1ANT_PHASE_WLAN_OFF:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, 
++					"[BTCoex], ********** (set_ant_path - 1ANT_PHASE_WLAN_OFF) **********\n" );
++			BTC_TRACE(trace_buf);	
++
++			/* Disable LTE Coex Function in WiFi side */
++			halbtc8822b1ant_ltecoex_enable(btcoexist, 0x0);
++
++			/* set Path control owner to BT */
++			halbtc8822b1ant_ltecoex_pathcontrol_owner(btcoexist,
++						BT_8822B_1ANT_PCO_BTSIDE);
++
++			/* Set Ext Ant Switch to BT control at wifi off step  */
++			halbtc8822b1ant_set_ext_ant_switch(btcoexist, 
++						   FORCE_EXEC, 
++						   BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_BT, 
++					   	   BT_8822B_1ANT_EXT_ANT_SWITCH_TO_NOCARE);
++				
++			coex_sta->run_time_state = false;
++
++			break;
++		case BT_8822B_1ANT_PHASE_2G_RUNTIME:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, 
++					"[BTCoex], ********** (set_ant_path - 1ANT_PHASE_2G_RUNTIME) **********\n" );
++			BTC_TRACE(trace_buf);	
++				
++			/* set GNT_BT to PTA */
++			halbtc8822b1ant_ltecoex_set_gnt_bt(btcoexist,
++								BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++								BT_8822B_1ANT_GNT_CTRL_BY_PTA,
++								BT_8822B_1ANT_SIG_STA_SET_BY_HW);
++							
++			/* Set GNT_WL to PTA */
++			halbtc8822b1ant_ltecoex_set_gnt_wl(btcoexist,
++								BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++								BT_8822B_1ANT_GNT_CTRL_BY_PTA,
++								BT_8822B_1ANT_SIG_STA_SET_BY_HW);
++
++			/* set Path control owner to WL at runtime step */
++			halbtc8822b1ant_ltecoex_pathcontrol_owner(btcoexist,
++								BT_8822B_1ANT_PCO_WLSIDE);
++			
++			coex_sta->run_time_state = true;
++			
++			if (BTC_ANT_PATH_AUTO == ant_pos_type)
++					ant_pos_type = BTC_ANT_PATH_PTA;									
++
++			break;
++		case BT_8822B_1ANT_PHASE_5G_RUNTIME:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, 
++					"[BTCoex], ********** (set_ant_path - 1ANT_PHASE_5G_RUNTIME) **********\n" );
++			BTC_TRACE(trace_buf);
++
++			/* set GNT_BT to SW Hi */
++			halbtc8822b1ant_ltecoex_set_gnt_bt(btcoexist,
++							   BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8822B_1ANT_GNT_CTRL_BY_SW,
++					   		   BT_8822B_1ANT_SIG_STA_SET_TO_HIGH);
++				
++			/* Set GNT_WL to SW Hi */
++			halbtc8822b1ant_ltecoex_set_gnt_wl(btcoexist,
++							   BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8822B_1ANT_GNT_CTRL_BY_SW,
++					   		   BT_8822B_1ANT_SIG_STA_SET_TO_HIGH);
++
++			/* set Path control owner to WL at runtime step */
++			halbtc8822b1ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8822B_1ANT_PCO_WLSIDE);
++
++			coex_sta->run_time_state = true;
++
++			if (BTC_ANT_PATH_AUTO == ant_pos_type) 
++						ant_pos_type = BTC_ANT_PATH_WIFI5G;
++				
++			break;
++		case BT_8822B_1ANT_PHASE_BTMPMODE	:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, 
++					"[BTCoex], ********** (set_ant_path - 1ANT_PHASE_BTMPMODE) **********\n" );
++			BTC_TRACE(trace_buf);	
++
++			/* Disable LTE Coex Function in WiFi side */
++			halbtc8822b1ant_ltecoex_enable(btcoexist, 0x0);
++
++			/* set GNT_BT to SW Hi */
++			halbtc8822b1ant_ltecoex_set_gnt_bt(btcoexist,
++							   BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8822B_1ANT_GNT_CTRL_BY_SW,
++					   		   BT_8822B_1ANT_SIG_STA_SET_TO_HIGH);
++				
++			/* Set GNT_WL to SW Lo */
++			halbtc8822b1ant_ltecoex_set_gnt_wl(btcoexist,
++							   BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8822B_1ANT_GNT_CTRL_BY_SW,
++					   		   BT_8822B_1ANT_SIG_STA_SET_TO_LOW);
++
++			/* set Path control owner to WL */
++			halbtc8822b1ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8822B_1ANT_PCO_WLSIDE);
++
++			coex_sta->run_time_state = false;
++				
++			/* Set Ext Ant Switch to BT side at BT MP mode  */
++			if (BTC_ANT_PATH_AUTO == ant_pos_type) 
++					ant_pos_type = BTC_ANT_PATH_BT;
++
++			break;
++	}
++
++	
++	if (phase != BT_8822B_1ANT_PHASE_WLAN_OFF)
++			{
++				switch (ant_pos_type) {
++							case BTC_ANT_PATH_WIFI:
++								halbtc8822b1ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8822B_1ANT_EXT_ANT_SWITCH_TO_WLG);
++								break;
++							case BTC_ANT_PATH_WIFI5G:
++								halbtc8822b1ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8822B_1ANT_EXT_ANT_SWITCH_TO_WLA);
++								break;
++							case BTC_ANT_PATH_BT:
++								halbtc8822b1ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8822B_1ANT_EXT_ANT_SWITCH_TO_BT);			
++								break;
++							default:
++							case BTC_ANT_PATH_PTA:
++								halbtc8822b1ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_PTA, 
++													BT_8822B_1ANT_EXT_ANT_SWITCH_TO_NOCARE);			
++								break;
++					}
++	
++		}
++#if 1
++	u32tmp1 = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++
++	u8tmp  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++	
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (After Ant Setup) 0xcb4 = 0x%x, 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++				u32tmp3, u8tmp, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++	
++#endif
++
++}
++
++
++void halbtc8822b1ant_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++	/* sw all off */
++	halbtc8822b1ant_sw_mechanism(btcoexist, false);
++
++	/* hw all off */
++	halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++boolean halbtc8822b1ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected &&
++	    BT_8822B_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++	    coex_dm->bt_status) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8822b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		   (BT_8822B_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8822b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8822B_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8822b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		(BT_8822B_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8822b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8822B_1ANT_BT_STATUS_CONNECTED_IDLE != coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non connected-idle + BT Busy!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8822b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else {
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		}
++
++		common = false;
++	}
++
++	return common;
++}
++
++void halbtc8822b1ant_action_wifi_under5g(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], under 5g start \n");
++	BTC_TRACE(trace_buf);	
++
++	halbtc8822b1ant_ignore_wlan_act(btcoexist, NORMAL_EXEC, true);
++
++	halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 10);
++
++	halbtc8822b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, FORCE_EXEC,
++				      BT_8822B_1ANT_PHASE_5G_RUNTIME);
++
++	halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 8);
++
++	halbtc8822b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++	halbtc8822b1ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 5);
++
++}
++
++
++
++void halbtc8822b1ant_action_wifi_only(IN struct btc_coexist *btcoexist)
++{
++	boolean wifi_under_5g = false;
++
++    btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if(wifi_under_5g)
++	{
++		halbtc8822b1ant_action_wifi_under5g(btcoexist);
++			
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,	
++		    	"[BTCoex], ********** (wlan only -- under 5g ) **********\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++		
++	halbtc8822b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++	halbtc8822b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++
++	halbtc8822b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, FORCE_EXEC,
++				      BT_8822B_1ANT_PHASE_2G_RUNTIME);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,	
++		    	"[BTCoex], ********** (wlan only -- under 2g ) **********\n");
++	BTC_TRACE(trace_buf);
++	
++}
++
++/* *********************************************
++ *
++ *	Software Coex Mechanism start
++ *
++ * ********************************************* */
++
++/* SCO only or SCO+PAN(HS) */
++
++/*
++void halbtc8822b1ant_action_sco(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8822b1ant_action_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8822b1ant_action_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8822b1ant_action_a2dp_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8822b1ant_action_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8822b1ant_action_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8822b1ant_action_pan_edr_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8822b1ant_action_pan_edr_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8822b1ant_action_hid_a2dp_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, true);
++}
++
++void halbtc8822b1ant_action_hid_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, true);
++}
++
++*/
++
++/* *********************************************
++ *
++ *	Non-Software Coex Mechanism start
++ *
++ * ********************************************* */
++void halbtc8822b1ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex],action_bt_whck_test\n");
++					BTC_TRACE(trace_buf);
++
++	halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	
++	halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++				     
++	halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8822b1ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex],action_wifi_multi_port\n");
++					BTC_TRACE(trace_buf);
++
++	halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++	halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++	
++	halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++}
++
++void halbtc8822b1ant_action_hs(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], action_hs\n");
++					BTC_TRACE(trace_buf);
++
++	halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++
++	halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++	
++	halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++}
++
++/*"""bt inquiry"""" + wifi any + bt any*/
++void halbtc8822b1ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_connected = false, ap_enable = false, wifi_busy = false,
++				bt_busy = false;
++	
++
++	boolean		wifi_scan = false, link = false, roam = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (bt inquiry) **********\n");
++	BTC_TRACE(trace_buf);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &wifi_scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** scan = %d,  link =%d, roam = %d**********\n",
++		    wifi_scan, link, roam);
++	BTC_TRACE(trace_buf);
++
++	 if ( (link) || (roam) || (coex_sta->wifi_is_high_pri_task)){
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (bt inquiry wifi  connect or scan ) **********\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 1);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++		
++	} else if ((wifi_scan) && (coex_sta->bt_create_connection)) {
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++
++	} else if ((!wifi_connected) && (!wifi_scan)) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (bt inquiry wifi non connect) **********\n");
++		BTC_TRACE(trace_buf);
++				
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	} else if ((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) {
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (bt_link_info->a2dp_exist) {
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (wifi_scan) {
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (wifi_busy) {
++
++		/* for BT inquiry/page fail after S4 resume */
++		/* halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);		 */
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     1);
++	}else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (bt inquiry wifi connect) **********\n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     1);
++	}
++
++/*
++	if ((wifi_link) || (wifi_roam) || (coex_sta->wifi_is_high_pri_task)) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++
++	} else if ((wifi_scan) && (coex_sta->bt_create_connection)) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++
++	} else if ((!wifi_connected) && (!wifi_scan)) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if ((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	} else if (bt_link_info->a2dp_exist) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (wifi_scan) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	} else if (wifi_busy) {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 21);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 19);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	}
++*/	
++}
++
++void halbtc8822b1ant_action_bt_sco_hid_only_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (bt sco hid only busy) **********\n");
++	BTC_TRACE(trace_buf);
++
++        /*SCO  + wifi conected idle or busy / 0x778=1@wifi slot*/
++	if (bt_link_info->sco_exist) {
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++		
++	} else { /* HID  + wifi conected idle or busy / 0x778=1@wifi slot */
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++		
++	}
++}
++
++/*wifi connected + bt acl busy*/
++void halbtc8822b1ant_action_wifi_connected_bt_acl_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++
++	u8		bt_rssi_state;
++
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	bt_rssi_state = halbtc8822b1ant_bt_rssi_state(2, 28, 0);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (wifi connect acl busy) **********\n");
++	BTC_TRACE(trace_buf);
++
++	if (bt_link_info->hid_only) { /* HID  + wifi conected idle or busy / 0x778=1@wifi slot */
++		halbtc8822b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				wifi_status);
++		return;
++	} else if (bt_link_info->a2dp_only) { /* A2DP  + wifi conected idle or busy */
++		if (BT_8822B_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status) {
++
++			halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		} else {
++		if (coex_sta->scan_ap_num >=
++			    BT_8822B_1ANT_WIFI_NOISY_THRESH)  {
++				halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++							17);
++			}	else {
++				halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++							42);
++			}
++
++			halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++			coex_dm->auto_tdma_adjust = true;
++		}
++
++		/* A2DP+PAN(OPP,FTP), HID+A2DP+PAN(OPP,FTP) */
++	} else if (((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) ||
++		   (bt_link_info->hid_exist && bt_link_info->a2dp_exist &&
++		bt_link_info->pan_exist)) { /* A2DP+PAN(OPP,FTP), HID+A2DP+PAN(OPP,FTP) */
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 44);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     1);
++	} else if (bt_link_info->hid_exist &&
++		   bt_link_info->a2dp_exist) { /* HID+A2DP */
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 42);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     1);
++
++	} else if ((bt_link_info->pan_only) || (bt_link_info->hid_exist &&
++		bt_link_info->pan_exist)) { /* PAN(OPP,FTP), HID+PAN(OPP,FTP)*/
++		/*
++		if (BT_8723D_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status)
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						4);
++		else
++		*/
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 45);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     1);
++	} else {
++		/* BT no-profile busy (0x9) */
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     1);
++	}
++}
++
++/*wifi not connected + bt action*/
++void halbtc8822b1ant_action_wifi_not_connected(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (wifi not connect) **********\n");
++	BTC_TRACE(trace_buf);
++
++	/* tdma and coex table */
++	halbtc8822b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++
++	halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++	
++	halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++/*""""wl not connected scan"""" + bt action*/
++void halbtc8822b1ant_action_wifi_not_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (wifi non connect scan) **********\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8822b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8822b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8822b1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8822b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8822b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8822b1ant_action_hs(btcoexist);
++		return;
++	}
++	
++	/* tdma and coex table */
++	if (BT_8822B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		} else {
++			halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++			halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		}
++	} else if ((BT_8822B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8822B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8822b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8822B_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     5);
++	}
++}
++
++/*""""wl not connected asso"""" + bt action*/
++void halbtc8822b1ant_action_wifi_not_connected_asso_auth(
++	IN struct btc_coexist *btcoexist)
++{
++	
++	struct	btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32 wifi_link_status = 0;
++	u32 num_of_wifi_link = 0;
++	boolean bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (wifi non connect asso_auth) **********\n");
++	BTC_TRACE(trace_buf);
++	
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++				   &wifi_link_status);
++	
++	num_of_wifi_link = wifi_link_status >> 16;
++	
++	if (num_of_wifi_link >= 2) {
++		
++		halbtc8822b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8822b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++						   bt_ctrl_agg_buf_size, agg_buf_size);
++	
++		if (coex_sta->c2h_bt_inquiry_page) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"############# [BTCoex],  BT Is Inquirying\n");
++				BTC_TRACE(trace_buf);
++				halbtc8822b1ant_action_bt_inquiry(btcoexist);
++		} else
++				halbtc8822b1ant_action_wifi_multi_port(btcoexist);
++			return;
++	}
++	
++		if (coex_sta->c2h_bt_inquiry_page) {
++			halbtc8822b1ant_action_bt_inquiry(btcoexist);
++			return;
++		} else if (bt_hs_on) {
++			halbtc8822b1ant_action_hs(btcoexist);
++			return;
++		}
++	
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist)  || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else {
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 2);
++	}
++}
++
++/*""""wl  connected scan"""" + bt action*/
++void halbtc8822b1ant_action_wifi_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (wifi connect scan) **********\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8822b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8822b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8822b1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8822b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8822b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8822b1ant_action_hs(btcoexist);
++		return;
++	}
++
++	/* tdma and coex table */
++	if (BT_8822B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		} else {
++			halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++			halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		}
++	} else if ((BT_8822B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8822B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8822b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8822B_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++	
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     5);
++	}
++}
++
++/*""""wl  connected specific packet"""" + bt action*/
++void halbtc8822b1ant_action_wifi_connected_specific_packet(
++	IN struct btc_coexist *btcoexist)
++{
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++	boolean wifi_busy = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (wifi connect specific packet) **********\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8822b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8822b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8822b1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8822b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8822b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8822b1ant_action_hs(btcoexist);
++		return;
++	}
++
++	
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	/* no specific packet process for both WiFi and BT very busy */
++	if ((wifi_busy) && ((bt_link_info->pan_exist) ||
++			    (coex_sta->num_of_profile >= 2)))
++		return;
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist)) {
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else if (bt_link_info->a2dp_exist) {
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     1);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     1);
++	} else {
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     5);
++	}
++}
++
++/*wifi connected input point : to set different ps and tdma case (+bt different case)*/
++void halbtc8822b1ant_action_wifi_connected(IN struct btc_coexist *btcoexist)
++{
++
++	boolean	wifi_busy = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean		under_4way = false, ap_enable = false, wifi_under_5g=false;
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], CoexForWifiConnect()===>\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	if (wifi_under_5g) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 5g<===\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_action_wifi_under5g(btcoexist);
++
++		return;
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 2g<===\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++	}
++			
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	
++	if (under_4way) {
++		halbtc8822b1ant_action_wifi_connected_specific_packet(btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 4way<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++	if (scan || link || roam) {
++		if (scan)
++			halbtc8822b1ant_action_wifi_connected_scan(btcoexist);
++		else
++			halbtc8822b1ant_action_wifi_connected_specific_packet(
++				btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under scan<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	/* tdma and coex table */
++	if (!wifi_busy) {
++		if (BT_8822B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8822b1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8822B_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else if ((BT_8822B_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8822B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8822b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8822B_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else {
++	
++			halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++
++			halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++			
++			if ((coex_sta->high_priority_tx) +
++			    (coex_sta->high_priority_rx) <= 60)
++			     /*sy modify case16 -> case17*/
++				halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);		       
++			else
++				halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		}
++	} else {
++		if (BT_8822B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8822b1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8822B_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else if ((BT_8822B_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8822B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8822b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8822B_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else {
++
++			halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++
++			halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++			
++			if ((coex_sta->high_priority_tx) +
++			    (coex_sta->high_priority_rx) <= 60)
++			    /*sy modify case16 -> case17*/
++			    
++				halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++			else
++				halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		}
++	}
++}
++
++void halbtc8822b1ant_run_sw_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++
++	u8				algorithm = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (runswcoexmech) **********\n");
++	BTC_TRACE(trace_buf);
++	algorithm = halbtc8822b1ant_action_algorithm(btcoexist);
++	coex_dm->cur_algorithm = algorithm;
++
++	if (halbtc8822b1ant_is_common_action(btcoexist)) {
++
++	} else {
++		switch (coex_dm->cur_algorithm) {
++		case BT_8822B_1ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_sco(btcoexist); */
++			break;
++		case BT_8822B_1ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_hid(btcoexist); */
++			break;
++		case BT_8822B_1ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_a2dp(btcoexist); */
++			break;
++		case BT_8822B_1ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_a2dp_pan_hs(btcoexist); */
++			break;
++		case BT_8822B_1ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_pan_edr(btcoexist); */
++			break;
++		case BT_8822B_1ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_pan_hs(btcoexist); */
++			break;
++		case BT_8822B_1ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_pan_edr_a2dp(btcoexist); */
++			break;
++		case BT_8822B_1ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_pan_edr_hid(btcoexist); */
++			break;
++		case BT_8822B_1ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_hid_a2dp_pan_edr(btcoexist); */
++			break;
++		case BT_8822B_1ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_hid_a2dp(btcoexist); */
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_coex_all_off(btcoexist); */
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8822b1ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false, bt_hs_on = false;
++	boolean	increase_scan_dev_num = false;
++	boolean	bt_ctrl_agg_buf_size = false;
++	boolean	miracast_plus_bt = false;
++	u8	agg_buf_size = 5;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0, wifi_bw;
++	u8	iot_peer = BTC_IOT_PEER_UNKNOWN;
++	boolean wifi_under_5g = false;
++
++	
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (!coex_sta->run_time_state){
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], return for run_time_state = false !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if(wifi_under_5g)
++	{
++		halbtc8822b1ant_action_wifi_under5g(btcoexist);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		   		 "[BTCoex], WiFi is under 5G!!! \n");
++		BTC_TRACE(trace_buf);
++		return;
++	}else{
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 2G!!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     NORMAL_EXEC, BT_8822B_1ANT_PHASE_2G_RUNTIME);
++	}
++
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8822b1ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	if (coex_sta->bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is disabled !!!\n");
++		halbtc8822b1ant_action_wifi_only(btcoexist);
++		return;
++	}
++
++	if ((BT_8822B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8822B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8822B_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		increase_scan_dev_num = true;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_INC_SCAN_DEV_NUM,
++			   &increase_scan_dev_num);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist) {
++			halbtc8822b1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1,
++						   0, 1);
++			miracast_plus_bt = true;
++		} else {
++			halbtc8822b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++			miracast_plus_bt = false;
++		}
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8822b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if ((bt_link_info->a2dp_exist) &&
++		    (coex_sta->c2h_bt_inquiry_page)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8822b1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8822b1ant_action_wifi_multi_port(btcoexist);
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if ((bt_link_info->bt_link_exist) && (wifi_connected)) {
++		halbtc8822b1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1, 0, 1);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_IOT_PEER, &iot_peer);
++
++		if (BTC_IOT_PEER_CISCO != iot_peer) {
++			if (bt_link_info->sco_exist) /* if (bt_link_info->bt_hi_pri_link_exist) */
++				halbtc8822b1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, true, false, 0x5);
++			else
++				halbtc8822b1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, false, false, 0x5);
++		} else {
++			if (bt_link_info->sco_exist)
++				halbtc8822b1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, true, false, 0x5);
++			else {
++				if (BTC_WIFI_BW_HT40 == wifi_bw)
++					halbtc8822b1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x10);
++				else
++					halbtc8822b1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x8);
++			}
++		}
++
++		halbtc8822b1ant_sw_mechanism(btcoexist, true);
++		halbtc8822b1ant_run_sw_coexist_mechanism(
++			btcoexist);  /* just print debug message */
++	} else {
++		halbtc8822b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++		halbtc8822b1ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x5);
++
++		halbtc8822b1ant_sw_mechanism(btcoexist, false);
++		halbtc8822b1ant_run_sw_coexist_mechanism(
++			btcoexist); /* //just print debug message */
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "############# [BTCoex],  BT Is Inquirying\n");
++		BTC_TRACE(trace_buf);
++		halbtc8822b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8822b1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	if (!wifi_connected) {
++		boolean	scan = false, link = false, roam = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is non connected-idle !!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (scan || link || roam) {
++			if (scan)
++				halbtc8822b1ant_action_wifi_not_connected_scan(
++					btcoexist);
++			else
++				halbtc8822b1ant_action_wifi_not_connected_asso_auth(
++					btcoexist);
++		} else
++			halbtc8822b1ant_action_wifi_not_connected(btcoexist);
++	} else	/* wifi LPS/Busy */
++		halbtc8822b1ant_action_wifi_connected(btcoexist);
++}
++
++u32 halbtc8822b1ant_psd_log2base(IN struct btc_coexist *btcoexist, IN u32 val)
++{
++	u8	j;
++	u32	tmp, tmp2, val_integerd_b = 0, tindex, shiftcount = 0;
++	u32	result, val_fractiond_b = 0, table_fraction[21] = {0, 432, 332, 274, 232, 200,
++				   174, 151, 132, 115, 100, 86, 74, 62, 51, 42,
++							   32, 23, 15, 7, 0
++							      };
++
++	if (val == 0)
++		return 0;
++
++	tmp = val;
++
++	while (1) {
++		if (tmp == 1)
++			break;
++		else {
++			tmp = (tmp >> 1);
++			shiftcount++;
++		}
++	}
++
++
++	val_integerd_b = shiftcount + 1;
++
++	tmp2 = 1;
++	for (j = 1; j <= val_integerd_b; j++)
++		tmp2 = tmp2 * 2;
++
++	tmp = (val * 100) / tmp2;
++	tindex = tmp / 5;
++
++	if (tindex > 20)
++		tindex = 20;
++
++	val_fractiond_b = table_fraction[tindex];
++
++	result = val_integerd_b * 100 - val_fractiond_b;
++
++	return result;
++
++
++}
++
++void halbtc8822b1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++
++	/* sw all off */
++	halbtc8822b1ant_sw_mechanism(btcoexist, false);
++
++	/* halbtc8822b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8); */
++	/* halbtc8822b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0); */
++
++	coex_sta->pop_event_cnt = 0;
++}
++
++void halbtc8822b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up, IN boolean wifi_only)
++{
++
++	u8	u8tmp = 0;
++	boolean			wifi_under_5g = false;
++	u32				u32tmp1 = 0, u32tmp2 = 0, u32tmp3 = 0;
++
++
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	u32tmp1 = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Before Init HW config) 0xcb4 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++		    u32tmp3, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 1Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	coex_sta->bt_coex_supported_feature = 0;
++	coex_sta->bt_coex_supported_version = 0;
++
++	/* Setup RF front end type */
++	halbtc8822b1ant_set_rfe_type(btcoexist);
++
++	/* 0xf0[15:12] --> Chip Cut information */
++	coex_sta->cut_version = (btcoexist->btc_read_1byte(btcoexist,
++				 0xf1) & 0xf0) >> 4;
++
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++
++	/* BT report packet sample rate	 */
++	/* 0x790[5:0]=0x5 */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x790);
++	u8tmp &= 0xc0;
++	u8tmp |= 0x5;
++	btcoexist->btc_write_1byte(btcoexist, 0x790, u8tmp);
++
++	/* Enable BT counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++
++	/* Enable PTA (3-wire function form BT side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x41, 0x02, 0x1);
++
++	/* Enable PTA (tx/rx signal form WiFi side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4c6, 0x10, 0x1);
++
++	/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++	/*btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x1);*/
++
++	/* enable GNT_WL */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x40, 0x0);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x1, 0x0);
++
++	if (btcoexist->btc_read_1byte(btcoexist, 0x80) == 0xc6)
++		halbtc8822b1ant_post_onoffstate_to_bt(btcoexist, TRUE);
++
++	/* Antenna config */
++	if (wifi_only) {
++		
++			coex_sta->concurrent_rx_mode_on = false;
++			halbtc8822b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_WIFI,
++							 FORCE_EXEC, BT_8822B_1ANT_PHASE_WLANONLY_INIT);
++	} else {
++	
++			coex_sta->concurrent_rx_mode_on = true;
++			
++			halbtc8822b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++							 FORCE_EXEC, BT_8822B_1ANT_PHASE_COEX_INIT);
++	}
++
++
++	/* PTA parameter */
++	halbtc8822b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	halbtc8822b1ant_enable_gnt_to_gpio(btcoexist, TRUE);
++
++}
++
++
++
++void halbtc8822b1ant_psd_showdata(IN struct btc_coexist *btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	u32		delta_freq_per_point;
++	u32		freq, freq1, freq2, n = 0, i = 0, j = 0, m = 0, psd_rep1, psd_rep2;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n\n============[PSD info]  (%d)============\n",
++		   psd_scan->psd_gen_count);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->psd_gen_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n No data !!\n");
++		CL_PRINTF(cli_buf);
++		return;
++	}
++
++	if (psd_scan->psd_point == 0)
++		delta_freq_per_point = 0;
++	else
++		delta_freq_per_point = psd_scan->psd_band_width /
++				       psd_scan->psd_point;
++
++	/* if (psd_scan->is_psd_show_max_only) */
++	if (0) {
++		psd_rep1 = psd_scan->psd_max_value / 100;
++		psd_rep2 = psd_scan->psd_max_value - psd_rep1 * 100;
++
++		freq = ((psd_scan->real_cent_freq - 20) * 1000000 +
++			psd_scan->psd_max_value_point * delta_freq_per_point);
++		freq1 = freq / 1000000;
++		freq2 = freq / 1000 - freq1 * 1000;
++
++		if (freq2 < 100)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.0%d MHz",
++				   freq1, freq2);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.%d MHz",
++				   freq1, freq2);
++
++		if (psd_rep2 < 10)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.0%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++
++		CL_PRINTF(cli_buf);
++	} else {
++		m = psd_scan->psd_start_point;
++		n = psd_scan->psd_start_point;
++		i = 1;
++		j = 1;
++
++		while (1) {
++			do {
++				freq = ((psd_scan->real_cent_freq - 20) * 1000000 + m *
++					delta_freq_per_point);
++				freq1 = freq / 1000000;
++				freq2 = freq / 1000 - freq1 * 1000;
++
++				if (i == 1) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.0%2d", freq1,
++							   freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.%3d", freq1,
++							   freq2);
++				} else if ((i % 8 == 0) ||
++					   (m == psd_scan->psd_stop_point)) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000\n", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d\n", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d\n", freq1, freq2);
++				} else {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d", freq1, freq2);
++				}
++
++				i++;
++				m++;
++				CL_PRINTF(cli_buf);
++
++			} while ((i <= 8) && (m <= psd_scan->psd_stop_point));
++
++
++			do {
++				psd_rep1 = psd_scan->psd_report_max_hold[n] / 100;
++				psd_rep2 = psd_scan->psd_report_max_hold[n] - psd_rep1 *
++					   100;
++
++				if (j == 1) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.0%d", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.%d", psd_rep1,
++							   psd_rep2);
++				} else if ((j % 8 == 0)  ||
++					   (n == psd_scan->psd_stop_point)) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d\n", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d\n", psd_rep1, psd_rep2);
++				} else {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d", psd_rep1, psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d", psd_rep1, psd_rep2);
++				}
++
++				j++;
++				n++;
++				CL_PRINTF(cli_buf);
++
++			} while ((j <= 8) && (n <= psd_scan->psd_stop_point));
++
++			if ((m > psd_scan->psd_stop_point) ||
++			    (n > psd_scan->psd_stop_point))
++				break;
++			else {
++				i = 1;
++				j = 1;
++			}
++
++		}
++	}
++
++
++}
++
++void halbtc8822b1ant_psd_max_holddata(IN struct btc_coexist *btcoexist,
++				      IN u32 gen_count)
++{
++	u32	i = 0, i_max = 0, val_max = 0;
++
++	if (gen_count == 1) {
++		memcpy(psd_scan->psd_report_max_hold,
++		       psd_scan->psd_report,
++		       BT_8822B_1ANT_ANTDET_PSD_POINTS * sizeof(u32));
++
++		for (i = psd_scan->psd_start_point;
++		     i <= psd_scan->psd_stop_point; i++) {
++
++		}
++
++		psd_scan->psd_max_value_point = 0;
++		psd_scan->psd_max_value = 0;
++
++	} else {
++		for (i = psd_scan->psd_start_point;
++		     i <= psd_scan->psd_stop_point; i++) {
++			if (psd_scan->psd_report[i] >
++			    psd_scan->psd_report_max_hold[i])
++				psd_scan->psd_report_max_hold[i] =
++					psd_scan->psd_report[i];
++
++			/* search Max Value */
++			if (i == psd_scan->psd_start_point) {
++				i_max = i;
++				val_max = psd_scan->psd_report_max_hold[i];
++			} else {
++				if (psd_scan->psd_report_max_hold[i] >
++				    val_max) {
++					i_max = i;
++					val_max = psd_scan->psd_report_max_hold[i];
++				}
++			}
++
++
++
++		}
++
++		psd_scan->psd_max_value_point = i_max;
++		psd_scan->psd_max_value = val_max;
++
++	}
++
++
++}
++
++u32 halbtc8822b1ant_psd_getdata(IN struct btc_coexist *btcoexist, IN u32 point)
++{
++	/* reg 0x808[9:0]: FFT data x */
++	/* reg 0x808[22]: 0-->1 to get 1 FFT data y */
++	/* reg 0x8b4[15:0]: FFT data y report */
++
++	u32 val = 0, psd_report = 0;
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++
++	val &= 0xffbffc00;
++	val |= point;
++
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	val |= 0x00400000;
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x8b4);
++
++	psd_report = val & 0x0000ffff;
++
++	return psd_report;
++}
++
++
++void halbtc8822b1ant_psd_sweep_point(IN struct btc_coexist *btcoexist,
++	     IN u32 cent_freq, IN s32 offset, IN u32 span, IN u32 points,
++				     IN u32 avgnum)
++{
++	u32	 i, val, n, k = 0;
++	u32	points1 = 0, psd_report = 0;
++	u32	start_p = 0, stop_p = 0, delta_freq_per_point = 156250;
++	u32    psd_center_freq = 20 * 10 ^ 6, freq, freq1, freq2;
++	boolean outloop = false;
++	u8	 flag = 0;
++	u32	tmp, psd_rep1, psd_rep2;
++	u32	wifi_original_channel = 1;
++
++	psd_scan->is_psd_running = true;
++
++	do {
++		switch (flag) {
++		case 0:  /* Get PSD parameters */
++		default:
++
++			psd_scan->psd_band_width = 40 * 1000000;
++			psd_scan->psd_point = points;
++			psd_scan->psd_start_base = points / 2;
++			psd_scan->psd_avg_num = avgnum;
++			psd_scan->real_cent_freq = cent_freq;
++			psd_scan->real_offset = offset;
++			psd_scan->real_span = span;
++
++
++			points1 = psd_scan->psd_point;
++			delta_freq_per_point = psd_scan->psd_band_width /
++					       psd_scan->psd_point;
++
++			/* PSD point setup */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffff0fff;
++
++			switch (psd_scan->psd_point) {
++			case 128:
++				val |= 0x0;
++				break;
++			case 256:
++			default:
++				val |= 0x00004000;
++				break;
++			case 512:
++				val |= 0x00008000;
++				break;
++			case 1024:
++				val |= 0x0000c000;
++				break;
++			}
++
++			switch (psd_scan->psd_avg_num) {
++			case 1:
++				val |= 0x0;
++				break;
++			case 8:
++				val |= 0x00001000;
++				break;
++			case 16:
++				val |= 0x00002000;
++				break;
++			case 32:
++			default:
++				val |= 0x00003000;
++				break;
++			}
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			flag = 1;
++			break;
++		case 1:	  /* calculate the PSD point index from freq/offset/span */
++			psd_center_freq = psd_scan->psd_band_width / 2 +
++					  offset * (1000000);
++
++			start_p = psd_scan->psd_start_base + (psd_center_freq -
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_start_point = start_p -
++						    psd_scan->psd_start_base;
++
++			stop_p = psd_scan->psd_start_base + (psd_center_freq +
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_stop_point = stop_p -
++						   psd_scan->psd_start_base - 1;
++
++			flag = 2;
++			break;
++		case 2:  /* set RF channel/BW/Mode */
++
++			/* set 3-wire off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val |= 0x00300000;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val &= 0xfeffffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* store WiFi original channel */
++			wifi_original_channel = btcoexist->btc_get_rf_reg(
++					btcoexist, BTC_RF_A, 0x18, 0x3ff);
++
++			/* Set RF channel */
++			if (cent_freq == 2484)
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++							  0x18, 0x3ff, 0xe);
++			else
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++					  0x18, 0x3ff, (cent_freq - 2412) / 5 +
++						  1); /* WiFi TRx Mask on */
++
++			/* Set  RF mode = Rx, RF Gain = 0x8a0 */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x0,
++						  0xfffff, 0x308a0);
++
++			/* Set RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++						  0xfffff, 0x3e4);
++
++			/* Set TRx mask off */
++			/* un-lock TRx Mask setup */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdd,
++						  0x80, 0x1);
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdf,
++						  0x1, 0x1);
++
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x0);
++
++			flag = 3;
++			break;
++		case 3:
++			memset(psd_scan->psd_report, 0,
++			       psd_scan->psd_point * sizeof(u32));
++			start_p = psd_scan->psd_start_point +
++				  psd_scan->psd_start_base;
++			stop_p = psd_scan->psd_stop_point +
++				 psd_scan->psd_start_base + 1;
++
++			i = start_p;
++
++			while (i < stop_p) {
++				if (i >= points1)
++					psd_report =
++						halbtc8822b1ant_psd_getdata(
++							btcoexist, i - points1);
++				else
++					psd_report =
++						halbtc8822b1ant_psd_getdata(
++							btcoexist, i);
++
++				if (psd_report == 0)
++					tmp = 0;
++				else
++					/* tmp =  20*log10((double)psd_report); */
++					/* 20*log2(x)/log2(10), log2Base return theresult of the psd_report*100 */
++					tmp = 6 * halbtc8822b1ant_psd_log2base(
++						      btcoexist, psd_report);
++
++				n = i - psd_scan->psd_start_base;
++				psd_scan->psd_report[n] =  tmp;
++				psd_rep1 = psd_scan->psd_report[n] / 100;
++				psd_rep2 = psd_scan->psd_report[n] - psd_rep1 *
++					   100;
++
++				freq = ((cent_freq - 20) * 1000000 + n *
++					delta_freq_per_point);
++				freq1 = freq / 1000000;
++				freq2 = freq / 1000 - freq1 * 1000;
++
++				i++;
++
++				k = 0;
++
++				/* Add Delay between PSD point */
++				while (1) {
++					if (k++ > 20000)
++						break;
++				}
++
++			}
++
++			flag = 100;
++			break;
++		case 99:	/* error */
++
++			outloop = true;
++			break;
++		case 100: /* recovery */
++
++			/* set 3-wire on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val &= 0xffcfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val |= 0x01000000;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* PSD off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffbfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			/* TRx Mask on */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x780);
++
++			/* lock TRx Mask setup */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdd,
++						  0x80, 0x0);
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdf,
++						  0x1, 0x0);
++
++			/* Set RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++						  0xfffff, 0x0);
++
++			/* restore WiFi original channel */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x18,
++						  0x3ff, wifi_original_channel);
++
++			outloop = true;
++			break;
++
++		}
++
++	} while (!outloop);
++
++
++
++	psd_scan->is_psd_running = false;
++
++
++}
++
++#if (BTC_COEX_OFFLOAD == 1)
++void halbtc8822b1ant_wifi_info_notify(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_para[4] = {0};
++	u8			opcode_ver = 0;
++	u8			ap_num = 0;
++	s32			wifi_rssi = 0;
++	boolean			wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM, &ap_num);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	h2c_para[0] = ap_num;					/* AP number */
++	h2c_para[1] = (u8)wifi_busy;		/* Busy */
++	h2c_para[2] = (u8)wifi_rssi;			/* RSSI */
++
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_WIFI_INFO_NOTIFY,
++				      opcode_ver, &h2c_para[0], 3);
++}
++
++void halbtc8822b1ant_setManual(IN struct btc_coexist *btcoexist,
++			       IN boolean manual)
++{
++	u8			h2c_para[4] = {0};
++	u8			opcode_ver = 0;
++	u8			set_type = 0;
++
++	if (manual)
++		set_type = 1;
++	else
++		set_type = 0;
++
++	h2c_para[0] = set_type;				/* set_type */
++
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_SET_CONTROL, opcode_ver,
++				      &h2c_para[0], 1);
++}
++
++/* ************************************************************
++ * work around function start with wa_halbtc8822b1ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8822b1ant_
++ * ************************************************************ */
++
++void ex_halbtc8822b1ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{}
++void ex_halbtc8822b1ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{}
++void ex_halbtc8822b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{}
++void ex_halbtc8822b1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{}
++void ex_halbtc8822b1ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	u8			h2c_para[4] = {0};
++	u8			opcode_ver = 0;
++	u8			ips_notify = 0;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		ips_notify = 1;
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	h2c_para[0] = ips_notify;		/* IPS notify */
++	h2c_para[1] = 0xff;			/* LPS notify */
++	h2c_para[2] = 0xff;			/* RF state notify */
++	h2c_para[3] = 0xff;			/* pnp notify */
++
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_WIFI_POWER_STATE_NOTIFY,
++				      opcode_ver, &h2c_para[0], 4);
++}
++void ex_halbtc8822b1ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	u8			h2c_para[4] = {0};
++	u8			opcode_ver = 0;
++	u8			lps_notify = 0;
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		lps_notify = 1;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	h2c_para[0] = 0xff;			/* IPS notify */
++	h2c_para[1] = lps_notify;		/* LPS notify */
++	h2c_para[2] = 0xff;			/* RF state notify */
++	h2c_para[3] = 0xff;			/* pnp notify */
++
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_WIFI_POWER_STATE_NOTIFY,
++				      opcode_ver, &h2c_para[0], 4);
++}
++
++void ex_halbtc8822b1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	u8			h2c_para[4] = {0};
++	u8			opcode_ver = 0;
++	u8			scan_start = 0;
++	boolean			under_4way = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (BTC_SCAN_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++		scan_start = 1;
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	h2c_para[0] = scan_start;		/* scan notify */
++	h2c_para[1] = 0xff;			/* connect notify */
++	h2c_para[2] = 0xff;			/* specific packet notify */
++	if (under_4way)
++		h2c_para[3] = 1;			/* under 4way progress */
++	else
++		h2c_para[3] = 0;
++
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_WIFI_PROGRESS_NOTIFY,
++				      opcode_ver, &h2c_para[0], 4);
++}
++
++void ex_halbtc8822b1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	u8			h2c_para[4] = {0};
++	u8			opcode_ver = 0;
++	u8			connect_start = 0;
++	boolean			under_4way = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (BTC_ASSOCIATE_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++		connect_start = 1;
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	h2c_para[0] = 0xff;			/* scan notify */
++	h2c_para[1] = connect_start;	/* connect notify */
++	h2c_para[2] = 0xff;			/* specific packet notify */
++	if (under_4way)
++		h2c_para[3] = 1;			/* under 4way progress */
++	else
++		h2c_para[3] = 0;
++
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_WIFI_PROGRESS_NOTIFY,
++				      opcode_ver, &h2c_para[0], 4);
++}
++
++void ex_halbtc8822b1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++	u8			h2c_para[5] = {0};
++	u8			opcode_ver = 0;
++	u8			port = 0, connected = 0, freq = 0, bandwidth = 0, iot_peer = 0;
++	boolean			wifi_under_5g = false;
++
++	if (BTC_MEDIA_CONNECT == type)
++		connected = 1;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	bandwidth = (u8)wifi_bw;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g)
++		freq = 1;
++	else
++		freq = 0;
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_IOT_PEER, &iot_peer);
++
++	h2c_para[0] = (connected << 4) |
++		port;	/* port need to be implemented in the future (p2p port, ...) */
++	h2c_para[1] = (freq << 4) | bandwidth;
++	h2c_para[2] = wifi_central_chnl;
++	h2c_para[3] = iot_peer;
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_WIFI_STATUS_NOTIFY,
++				      opcode_ver, &h2c_para[0], 4);
++}
++
++void ex_halbtc8822b1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_para[4] = {0};
++	u8			opcode_ver = 0;
++	u8			connect_start = 0;
++	boolean			under_4way = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	h2c_para[0] = 0xff;			/* scan notify */
++	h2c_para[1] = 0xff;			/* connect notify */
++	h2c_para[2] = type;			/* specific packet notify */
++	if (under_4way)
++		h2c_para[3] = 1;			/* under 4way progress */
++	else
++		h2c_para[3] = 0;
++
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_WIFI_PROGRESS_NOTIFY,
++				      opcode_ver, &h2c_para[0], 4);
++}
++
++void ex_halbtc8822b1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{}
++void ex_halbtc8822b1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_para[4] = {0};
++	u8			opcode_ver = 0;
++	u8			rfstate_notify = 0;
++
++	if (BTC_RF_ON == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++		rfstate_notify = 1;
++	} else if (BTC_RF_OFF == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	h2c_para[0] = 0xff;			/* IPS notify */
++	h2c_para[1] = 0xff;			/* LPS notify */
++	h2c_para[2] = rfstate_notify;	/* RF state notify */
++	h2c_para[3] = 0xff;			/* pnp notify */
++
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_WIFI_POWER_STATE_NOTIFY,
++				      opcode_ver, &h2c_para[0], 4);
++}
++
++void ex_halbtc8822b1ant_halt_notify(IN struct btc_coexist *btcoexist)
++{}
++void ex_halbtc8822b1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	u8			h2c_para[4] = {0};
++	u8			opcode_ver = 0;
++	u8			pnp_notify = 0;
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++		pnp_notify = 1;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	h2c_para[0] = 0xff;			/* IPS notify */
++	h2c_para[1] = 0xff;			/* LPS notify */
++	h2c_para[2] = 0xff;			/* RF state notify */
++	h2c_para[3] = pnp_notify;		/* pnp notify */
++
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_WIFI_POWER_STATE_NOTIFY,
++				      opcode_ver, &h2c_para[0], 4);
++}
++
++void ex_halbtc8822b1ant_coex_dm_reset(IN struct btc_coexist *btcoexist)
++{}
++void ex_halbtc8822b1ant_periodical(IN struct btc_coexist *btcoexist)
++{
++
++	halbtc8822b1ant_wifi_info_notify(btcoexist);
++}
++
++void ex_halbtc8822b1ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fa_of_dm, fa_cck;
++	u32				fw_ver = 0, bt_patch_ver = 0;
++	static u8			pop_report_in_10s = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	if (btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	if (psd_scan->ant_det_try_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d",
++			   "Ant PG Num/ Mech/ Pos",
++			   board_info->pg_ant_num, board_info->btdm_ant_num,
++			   board_info->btdm_ant_pos);
++		CL_PRINTF(cli_buf);
++	} else {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d/ %d/ %d  (%d/%d/%d)",
++			   "Ant PG Num/ Mech(Ant_Det)/ Pos",
++			board_info->pg_ant_num, board_info->btdm_ant_num_by_ant_det,
++			   board_info->btdm_ant_pos,
++			psd_scan->ant_det_try_count, psd_scan->ant_det_fail_count,
++			   psd_scan->ant_det_result);
++		CL_PRINTF(cli_buf);
++
++		if (board_info->btdm_ant_det_finish) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++				   "Ant Det PSD Value",
++				   psd_scan->ant_det_peak_val);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)",
++		   "CoexVer/ FwVer/ PatchVer",
++		   glcoex_ver_date_8822b_1ant, glcoex_ver_8822b_1ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s/ %s",
++		   "WifibHiPri/ Ccklock/ CckEverLock",
++		   (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"),
++		   (coex_sta->cck_lock ? "Yes" : "No"),
++		   (coex_sta->cck_ever_lock ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	pop_report_in_10s++;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt/ popCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8822B_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8822B_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi, coex_sta->bt_retry_cnt,
++		   coex_sta->pop_event_cnt);
++	CL_PRINTF(cli_buf);
++
++	if (pop_report_in_10s >= 5) {
++		coex_sta->pop_event_cnt = 0;
++		pop_report_in_10s = 0;
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d / %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP/Hi-Pri",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist,
++		   bt_link_info->bt_hi_pri_link_exist);
++	CL_PRINTF(cli_buf);
++
++	{
++		bt_info_ext = coex_sta->bt_info_ext;
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s",
++			   "BT Role/A2DP rate",
++			   (bt_link_info->slave_role) ? "Slave" : "Master",
++			   (bt_info_ext & BIT(0)) ? "BR" : "EDR");
++		CL_PRINTF(cli_buf);
++	}
++
++        /*bt info*/
++	for (i = 0; i < BT_INFO_SRC_8822B_1ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8822b_1ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++
++	if (btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[mechanisms] (before Manual)============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanisms]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "SM[LowPenaltyRA]",
++		   coex_dm->cur_low_penalty_ra);
++	CL_PRINTF(cli_buf);
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (%s,%s)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   (coex_dm->cur_ps_tdma_on ? "On" : "Off"),
++		   (coex_dm->auto_tdma_adjust ? "Adj" : "Fix"));
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "WL/BT Coex Table Type",
++		   coex_sta->coex_table_type);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x778/0x6cc/IgnWlanAct",
++		   u8tmp[0], u32tmp[0],  coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa0);
++	u32tmp[1] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "LTE Coex Table W_L/B_L",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa8);
++	u32tmp[1] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xac);
++	u32tmp[2] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb0);
++	u32tmp[3] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "LTE Break Table W_L/B_L/L_W/L_B",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff,
++		   u32tmp[2] & 0xffff, u32tmp[3] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %s",
++		   "LTE CoexOn/Path Ctrl Owner",
++		(int)((u32tmp[0]&BIT(7)) >> 7), ((u8tmp[0]&BIT(2)) ? "WL" : "BT"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "LTE 3Wire/OPMode/UART/UARTMode",
++		(int)((u32tmp[0]&BIT(6)) >> 6), (int)((u32tmp[0] & (BIT(5) | BIT(4))) >> 4),
++		   (int)((u32tmp[0]&BIT(3)) >> 3),
++		   (int)(u32tmp[0] & (BIT(2) | BIT(1) | BIT(0))));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s",
++		   "GNT_WL_SWCtrl/GNT_BT_SWCtrl/Dbg",
++		   (int)((u32tmp[0]&BIT(12)) >> 12), (int)((u32tmp[0]&BIT(14)) >> 14),
++		   ((u8tmp[0]&BIT(3)) ? "On" : "Off"));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "GNT_WL/GNT_BT/LTE_Busy/UART_Busy",
++		   (int)((u32tmp[0]&BIT(2)) >> 2), (int)((u32tmp[0]&BIT(3)) >> 3),
++		   (int)((u32tmp[0]&BIT(1)) >> 1), (int)(u32tmp[0]&BIT(0)));
++	CL_PRINTF(cli_buf);
++
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x4c6);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x4c6[4]/0x40[5] (WL/BT PTA)",
++		   (int)((u8tmp[0] & BIT(4)) >> 4), (int)((u8tmp[1] & BIT(5)) >> 5));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x953);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ %s",
++		   "0x550(bcn ctrl)/0x522/4-RxAGC",
++		   u32tmp[0], u8tmp[0], (u8tmp[1] & 0x2) ? "On" : "Off");
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xda0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xda4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0xda8);
++	u32tmp[3] = btcoexist->btc_read_4byte(btcoexist, 0xcf0);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5b);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++
++	fa_of_dm = ((u32tmp[0] & 0xffff0000) >> 16) + ((u32tmp[1] & 0xffff0000)
++			>> 16) + (u32tmp[1] & 0xffff) + (u32tmp[2] & 0xffff) + \
++		   ((u32tmp[3] & 0xffff0000) >> 16) + (u32tmp[3] &
++				   0xffff) ;
++	fa_cck = (u8tmp[0] << 8) + u8tmp[1];
++
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0xc50/OFDM-CCA/OFDM-FA/CCK-FA",
++		   u32tmp[1] & 0xff, u32tmp[0] & 0xffff, fa_of_dm, fa_cck);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++#if (BT_AUTO_REPORT_ONLY_8822B_1ANT == 1)
++	/* halbtc8822b1ant_monitor_bt_ctr(btcoexist); */
++#endif
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++void ex_halbtc8822b1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{}
++void ex_halbtc8822b1ant_display_ant_detection(IN struct btc_coexist *btcoexist)
++{}
++void ex_halbtc8822b1ant_dbg_control(IN struct btc_coexist *btcoexist,
++				    IN u8 op_code, IN u8 op_len, IN u8 *pdata)
++{
++	switch (op_code) {
++	case BTC_DBG_SET_COEX_MANUAL_CTRL: {
++		boolean		manual = (boolean)*pdata;
++
++		halbtc8822b1ant_setManual(btcoexist, manual);
++	}
++	break;
++	default:
++		break;
++	}
++}
++
++#else
++void ex_halbtc8822b1ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x0;
++	u16 u16tmp = 0x0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx Execute 8822b 1-Ant PowerOn Setting!! xxxxxxxxxxxxxxxx\n");
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "Ant Det Finish = %s, Ant Det Number  = %d\n",
++		    board_info->btdm_ant_det_finish ? "Yes" : "No",
++		    board_info->btdm_ant_num_by_ant_det);
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = true;
++
++	/* enable BB, REG_SYS_FUNC_EN such that we can write 0x948 correctly. */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x2);
++	btcoexist->btc_write_2byte(btcoexist, 0x2, u16tmp | BIT(0) | BIT(1));
++
++	/* set Path control owner to WiFi */
++	halbtc8822b1ant_ltecoex_pathcontrol_owner(btcoexist,
++			BT_8822B_1ANT_PCO_WLSIDE);
++
++	/* set GNT_BT to high */
++	halbtc8822b1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8822B_1ANT_GNT_CTRL_BY_SW,
++					   BT_8822B_1ANT_SIG_STA_SET_TO_HIGH);
++	/* Set GNT_WL to low */
++	halbtc8822b1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8822B_1ANT_GNT_CTRL_BY_SW,
++					   BT_8822B_1ANT_SIG_STA_SET_TO_LOW);
++
++	/* set WLAN_ACT = 0 */
++	//btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++    /* SD1 Chunchu red x issue */
++	btcoexist->btc_write_1byte(btcoexist, 0xff1a, 0x0);
++
++	halbtc8822b1ant_enable_gnt_to_gpio(btcoexist, TRUE);
++
++	/*  */
++	/* S0 or S1 setting and Local register setting(By the setting fw can get ant number, S0/S1, ... info) */
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++
++	u8tmp = 0;
++	board_info->btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++
++	if (btcoexist->chip_interface == BTC_INTF_USB)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60, u8tmp);
++
++	BTC_TRACE(trace_buf);
++
++
++}
++
++void ex_halbtc8822b1ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8822b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], ********** (ini hw config) **********\n");
++
++	halbtc8822b1ant_init_hw_config(btcoexist, true, wifi_only);
++	btcoexist->stop_coex_dm = false;
++}
++
++void ex_halbtc8822b1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = false;
++
++	halbtc8822b1ant_init_coex_dm(btcoexist);
++
++	halbtc8822b1ant_query_bt_info(btcoexist);
++}
++
++void ex_halbtc8822b1ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fa_of_dm, fa_cck;
++	u32				fw_ver = 0, bt_patch_ver = 0;
++	static u8			pop_report_in_10s = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (display coexinfo) **********\n");
++	BTC_TRACE(trace_buf);
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** displaycoexinfostart, 0xcb4/0xcbd = 0x%x/0x%x\n",
++		    btcoexist->btc_read_1byte(btcoexist, 0xcb4),
++		    btcoexist->btc_read_1byte(btcoexist, 0xcbd));
++	BTC_TRACE(trace_buf);
++	
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	
++	if (btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	if (psd_scan->ant_det_try_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++			   "Ant PG Num/ Mech/ Pos/ RFE",
++			   board_info->pg_ant_num, board_info->btdm_ant_num,
++			   board_info->btdm_ant_pos,
++			   rfe_type->rfe_module_type);
++		CL_PRINTF(cli_buf);
++	} else {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d/ %d/ %d/ %d  (%d/%d/%d)",
++			   "Ant PG Num/ Mech(Ant_Det)/ Pos/ RFE",
++			board_info->pg_ant_num, board_info->btdm_ant_num_by_ant_det,
++			   board_info->btdm_ant_pos,
++			   rfe_type->rfe_module_type,
++			   psd_scan->ant_det_try_count, psd_scan->ant_det_fail_count,
++			   psd_scan->ant_det_result);
++		CL_PRINTF(cli_buf);
++
++		if (board_info->btdm_ant_det_finish) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++				   "Ant Det PSD Value",
++				   psd_scan->ant_det_peak_val);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)/ %c",
++		   "Version Coex/ Fw/ Patch/ Cut",
++		   glcoex_ver_date_8822b_1ant, glcoex_ver_8822b_1ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver, coex_sta->cut_version + 65);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s/ %s",
++		   "WifibHiPri/ Ccklock/ CckEverLock",
++		   (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"),
++		   (coex_sta->cck_lock ? "Yes" : "No"),
++		   (coex_sta->cck_ever_lock ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	pop_report_in_10s++;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt/ popCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8822B_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8822B_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi - 100, coex_sta->bt_retry_cnt,
++		   coex_sta->pop_event_cnt);
++	CL_PRINTF(cli_buf);
++	/*bt rssi */
++	/*bt pop_even_cnt : bt retry*/
++
++	if (pop_report_in_10s >= 5) {
++		coex_sta->pop_event_cnt = 0;
++		pop_report_in_10s = 0;
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d / %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP/Hi-Pri",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist,
++		   bt_link_info->bt_hi_pri_link_exist);
++	CL_PRINTF(cli_buf);
++
++	{
++		bt_info_ext = coex_sta->bt_info_ext;
++
++       CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %s / %d/ %x/ %04x",
++			   "Role/A2DP Rate/Bitpool/Feature/Ver",
++			   ((bt_link_info->slave_role) ? "Slave" : "Master"),
++			(bt_info_ext & BIT(0)) ? "BR" : "EDR", coex_sta->a2dp_bit_pool,
++			coex_sta->bt_coex_supported_feature,
++			coex_sta->bt_coex_supported_version);
++		CL_PRINTF(cli_buf);
++	}
++
++       /*bt info*/
++	for (i = 0; i < BT_INFO_SRC_8822B_1ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8822b_1ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++
++	if (btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[mechanisms] (before Manual)============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanisms]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "SM[LowPenaltyRA]",
++		   coex_dm->cur_low_penalty_ra);
++	CL_PRINTF(cli_buf);
++
++	/*(ps)tdma*/	
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (%s,%s)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   (coex_dm->cur_ps_tdma_on ? "On" : "Off"),
++		   (coex_dm->auto_tdma_adjust ? "Adj" : "Fix"));
++
++	CL_PRINTF(cli_buf);
++
++	/*coex table type*/	
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "WL/BT Coex Table Type",
++		   coex_sta->coex_table_type);
++	CL_PRINTF(cli_buf);
++
++	/*coex table :0x6c0 0x6c4 , break table: 0x6c8*/
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	/*PTA : 0x778=1/3/d , WL BA,RTS,CTS :0x6cc  H/L pri */
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x778/0x6cc/IgnWlanAct",
++		   u8tmp[0], u32tmp[0],  coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++
++        /*LTE : WL/LTE coex table : 0xa0 */
++        
++	u32tmp[0] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa0);
++		
++	/*LTE : BT/LTE coex table : 0xa4 */
++	u32tmp[1] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "LTE Coex Table W_L/B_L",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++        /*LTE : WL/LTE break table : 0xa8 */
++	u32tmp[0] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa8);
++	 /*LTE : WL/LTE break table : 0xac */
++	u32tmp[1] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xac);
++	/*LTE : LTE/WL break table : 0xb0 */
++	u32tmp[2] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb0);
++	/*LTE : LTE/BT break table : 0xb4 */
++	u32tmp[3] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "LTE Break Table W_L/B_L/L_W/L_B",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff,
++		   u32tmp[2] & 0xffff, u32tmp[3] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++        /*ANT setting*/
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xcb4);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0xcbd);
++	u8tmp[3] = btcoexist->btc_read_1byte(btcoexist, 0x1991);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0xcb4/0xcbd/0x1991",
++		   u8tmp[1], u8tmp[2], u8tmp[3]);
++	CL_PRINTF(cli_buf);
++	
++	/*LTE on/off , Path ctrl owner*/
++	/*sy add*/
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x73);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x64);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x73/ 0x4c/ 0x64[0]", u8tmp[0], (u32tmp[0] & ( BIT(24) | BIT(23) )) >> 23, u8tmp[1]&0x1);
++	CL_PRINTF(cli_buf);
++
++	
++	u32tmp[0] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %s",
++		   "LTE CoexOn/Path Ctrl Owner",
++		(int)((u32tmp[0]&BIT(7)) >> 7), ((u8tmp[0]&BIT(2)) ? "WL" : "BT"));
++	CL_PRINTF(cli_buf);
++
++        /*LTE mode*/
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "LTE 3Wire/OPMode/UART/UARTMode",
++		(int)((u32tmp[0]&BIT(6)) >> 6), (int)((u32tmp[0] & (BIT(5) | BIT(4))) >> 4),
++		   (int)((u32tmp[0]&BIT(3)) >> 3),
++		   (int)(u32tmp[0] & (BIT(2) | BIT(1) | BIT(0))));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s",
++		   "GNT_WL_SWCtrl/GNT_BT_SWCtrl/Dbg",
++		   (int)((u32tmp[0]&BIT(12)) >> 12), (int)((u32tmp[0]&BIT(14)) >> 14),
++		   ((u8tmp[0]&BIT(3)) ? "On" : "Off"));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "GNT_WL/GNT_BT/LTE_Busy/UART_Busy",
++		   (int)((u32tmp[0]&BIT(2)) >> 2), (int)((u32tmp[0]&BIT(3)) >> 3),
++		   (int)((u32tmp[0]&BIT(1)) >> 1), (int)(u32tmp[0]&BIT(0)));
++	CL_PRINTF(cli_buf);
++
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x4c6);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x4c6[4]/0x40[5] (WL/BT PTA)",
++		   (int)((u8tmp[0] & BIT(4)) >> 4), (int)((u8tmp[1] & BIT(5)) >> 5));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x974);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0xc50);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522/0x974/0xc50",
++		   u32tmp[0], u8tmp[0], u8tmp[1], u8tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xf48);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xf4c);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0xf08);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5d);
++
++	fa_of_dm = (u32tmp[0] & 0xffff)  +  (u32tmp[1] & 0xffff);
++		
++	fa_cck = (u8tmp[0] << 8) + u8tmp[1];
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "CCK-CCA/CCK-FA/OFDM-CCA/OFDM-FA",
++		   u32tmp[2] & 0xffff, fa_cck, ((u32tmp[2] & 0xffff0000) >> 16), fa_of_dm);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11ac",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11ac",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_agg);
++	CL_PRINTF(cli_buf);
++
++        /*0x770:bt high pri trx*/
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	/*0x774:bt low pri trx*/
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++
++	halbtc8822b1ant_read_score_board(btcoexist,	&u16tmp[0]);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %04x",
++		   "ScoreBoard[14:0] (from BT)", u16tmp[0]);
++
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** displaycoexinfo end, 0xcb4/0xcbd = 0x%x/0x%x\n",
++		    btcoexist->btc_read_1byte(btcoexist, 0xcb4),
++		    btcoexist->btc_read_1byte(btcoexist, 0xcbd));
++	BTC_TRACE(trace_buf);
++}
++
++
++void ex_halbtc8822b1ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	
++	if (BTC_IPS_ENTER == type) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, false);
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++							BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8822B_1ANT_PHASE_WLAN_OFF);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if (BTC_IPS_LEAVE == type) {
++	
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, true);
++
++	    /*leave IPS : run ini hw config (exclude wifi only)*/
++		halbtc8822b1ant_init_hw_config(btcoexist, false, false);
++		/*sw all off*/
++		halbtc8822b1ant_init_coex_dm(btcoexist);
++		/*leave IPS : Query bt info*/
++		halbtc8822b1ant_query_bt_info(btcoexist);
++
++		coex_sta->under_ips = false;
++	}
++}
++
++void ex_halbtc8822b1ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++
++		if (coex_sta->force_lps_on == true) { /* LPS No-32K */
++			/* Write WL "Active" in Score-board for PS-TDMA */
++			halbtc8822b1ant_post_activestate_to_bt(btcoexist, true);
++
++		} else { /* LPS-32K, need check if this h2c 0x71 can work?? (2015/08/28) */
++			/* Write WL "Non-Active" in Score-board for Native-PS */
++			halbtc8822b1ant_post_activestate_to_bt(btcoexist, false);
++
++		}
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, true);
++	}
++}
++
++
++void ex_halbtc8822b1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++    boolean wifi_connected = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN notify()\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8822b1ant_post_activestate_to_bt(btcoexist, true);	
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;	
++
++	if (BTC_SCAN_START == type) 
++	 return;	
++
++	
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++				   &wifi_connected);
++
++	
++	if (BTC_SCAN_START_2G == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], 2g SCAN START notify\n");
++		BTC_TRACE(trace_buf);	
++
++		
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8822b1ant_action_wifi_not_connected_scan(
++				btcoexist);
++		else	/* wifi is connected */
++			halbtc8822b1ant_action_wifi_connected_scan(btcoexist);
++		
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++
++	    /*WL scan finish , then get and update sacn ap numbers */ 
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);	
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], SCAN FINISH notify  (Scan-AP = %d)\n", coex_sta->scan_ap_num);
++		BTC_TRACE(trace_buf);
++
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8822b1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8822b1ant_action_wifi_connected(btcoexist);
++	}
++
++
++}
++
++void ex_halbtc8822b1ant_switchband_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++
++	boolean wifi_connected = false;
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (switchband_notify) **********\n");
++	BTC_TRACE(trace_buf);
++	
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++
++	if(type == BTC_SWITCH_TO_5G) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (switchband_notify BTC_SWITCH_TO_5G) **********\n");
++		BTC_TRACE(trace_buf);
++			
++		halbtc8822b1ant_action_wifi_under5g(btcoexist);
++		return;
++	} else if (type == BTC_SWITCH_TO_24G_NoForScan) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (switchband_notify BTC_SWITCH_TO_2G (no for scan)) **********\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_run_coexist_mechanism(btcoexist);
++
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (switchband_notify BTC_SWITCH_TO_2G) **********\n");
++		BTC_TRACE(trace_buf);
++
++		ex_halbtc8822b1ant_scan_notify(btcoexist,
++				    BTC_SCAN_START_2G);
++	}
++	
++}
++
++void ex_halbtc8822b1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	boolean	wifi_connected = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (connect notify) **********\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8822b1ant_post_activestate_to_bt(btcoexist, true);
++
++	
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++
++	if ( (BTC_ASSOCIATE_5G_START == type) ||  (BTC_ASSOCIATE_5G_FINISH== type)) {
++
++			if (BTC_ASSOCIATE_5G_START== type) {
++		
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], ********** (5G associate start notify) **********\n");
++			BTC_TRACE(trace_buf);
++		
++			halbtc8822b1ant_action_wifi_under5g(btcoexist);			
++			
++		} else if (BTC_ASSOCIATE_5G_FINISH == type) {
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], ********** (5G associate finish notify) **********\n");
++			BTC_TRACE(trace_buf); 
++
++		}
++			
++		return;
++
++}
++
++
++	if (BTC_ASSOCIATE_START == type) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], 2G CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++		
++		coex_sta->wifi_is_high_pri_task = true;
++
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++								BTC_ANT_PATH_AUTO,
++								FORCE_EXEC, 
++								BT_8822B_1ANT_PHASE_2G_RUNTIME);
++		
++		coex_dm->arp_cnt = 0;
++
++		halbtc8822b1ant_action_wifi_not_connected_asso_auth(btcoexist);
++		
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], 2G CONNECT Finish notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->wifi_is_high_pri_task = false;		
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++				   &wifi_connected);
++		
++		if (!wifi_connected) /* non-connected scan */
++			halbtc8822b1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8822b1ant_action_wifi_connected(btcoexist);
++	}
++
++}
++
++void ex_halbtc8822b1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean			wifi_under_b_mode = false;
++	boolean wifi_under_5g = false;
++	u32			cnt_bt_cal_chk = 0;
++	boolean			is_in_mp_mode = false;
++	u8			u8tmp = 0;
++	u32			u32tmp1 = 0, u32tmp2 = 0;
++	
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if(wifi_under_5g)
++	{
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++									"[BTCoex], 5g media notify  \n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, true);
++		
++		halbtc8822b1ant_action_wifi_under5g(btcoexist);
++		return;
++	}
++
++	
++
++	if (BTC_MEDIA_CONNECT == type) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], 2g media connect notify");
++		BTC_TRACE(trace_buf); 
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, true);
++		
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++
++		/* Set CCK Tx/Rx high Pri except 11b mode */
++		if (wifi_under_b_mode) {
++			
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++							"[BTCoex], ********** (media status notity under b mode) **********\n");
++					BTC_TRACE(trace_buf);
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x00); /* CCK Rx */
++		} else {
++			/* btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x10); */ /*CCK Tx */
++			/* btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x10); */ /*CCK Rx */
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++							"[BTCoex], ********** (media status notity not under b mode) **********\n");
++					BTC_TRACE(trace_buf);
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x10); /* CCK Rx */
++		}
++
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], 2g media disconnect notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, false);
++
++		btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x0); /* CCK Tx */
++		btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x0); /* CCK Rx */
++
++		coex_sta->cck_ever_lock = false;
++	}
++       
++	halbtc8822b1ant_update_wifi_channel_info(btcoexist, type);
++
++}
++
++void ex_halbtc8822b1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean	under_4way = false, wifi_under_5g = false;
++	
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++			
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if(wifi_under_5g)
++	{
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++									"[BTCoex], 5g special packet notify  \n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8822b1ant_action_wifi_under5g(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (under_4way) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], specific Packet ---- under_4way!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	} else if (BTC_PACKET_ARP == type) {
++
++		coex_dm->arp_cnt++;
++
++		if (coex_sta->wifi_is_high_pri_task) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], specific Packet ARP notify -cnt = %d\n", coex_dm->arp_cnt);
++			BTC_TRACE(trace_buf);
++		}
++
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet DHCP or EAPOL notify [Type = %d]\n", type);
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	}
++
++	if (coex_sta->wifi_is_high_pri_task)
++		halbtc8822b1ant_action_wifi_connected_specific_packet(btcoexist);
++	
++}
++
++void ex_halbtc8822b1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8				bt_info = 0;
++	u8				i, rsp_source = 0;
++	boolean				bt_busy = false;
++	boolean				wifi_connected = false;
++	boolean wifi_under_5g = false;
++	
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	
++	coex_sta->c2h_bt_info_req_sent = false;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, 
++		"[BTCoex], ********** (BtInfo Notify) **********\n" );
++	BTC_TRACE(trace_buf);
++	
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8822B_1ANT_MAX)
++		rsp_source = BT_INFO_SRC_8822B_1ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	
++	if (BT_INFO_SRC_8822B_1ANT_WIFI_FW != rsp_source) {
++	
++		/* if 0xff, it means BT is under WHCK test */
++		if (bt_info == 0xff)
++			coex_sta->bt_whck_test = true;
++		else
++			coex_sta->bt_whck_test = false;
++	
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++	
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++	
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x20)
++			coex_sta->c2h_bt_page = true;
++		else
++			coex_sta->c2h_bt_page = false;
++	
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x80)
++			coex_sta->bt_create_connection = true;
++		else
++			coex_sta->bt_create_connection = false;
++	
++		/* unit: %, value-100 to translate to unit: dBm  */
++		coex_sta->bt_rssi = coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++	
++		/* coex_sta->bt_info_c2h[rsp_source][3] * 2 - 90; */
++	
++		if ((coex_sta->bt_info_c2h[rsp_source][1] & 0x49) == 0x49) {
++			coex_sta->a2dp_bit_pool =
++				coex_sta->bt_info_c2h[rsp_source][6];
++		} else
++			coex_sta->a2dp_bit_pool = 0;
++	
++		if (coex_sta->bt_info_c2h[rsp_source][1] & 0x9)
++			coex_sta->acl_busy = true;
++		else
++			coex_sta->acl_busy = false;
++	
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++	
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++	
++		if ((!btcoexist->manual_control) && (!btcoexist->stop_coex_dm)) {
++	
++			/*	Re-Init */
++			if (coex_sta->bt_info_ext & BIT(1)) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++				BTC_TRACE(trace_buf);
++				btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++						   &wifi_connected);
++				if (wifi_connected)
++					halbtc8822b1ant_update_wifi_channel_info(btcoexist,
++								BTC_MEDIA_CONNECT);
++				else
++					halbtc8822b1ant_update_wifi_channel_info(btcoexist,
++								BTC_MEDIA_DISCONNECT);
++			}
++	
++				/*	If Ignore_WLanAct && not SetUp_Link */
++			if ((coex_sta->bt_info_ext & BIT(3)) && (!(coex_sta->bt_info_ext & BIT(2)))) {
++	
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8822b1ant_ignore_wlan_act(btcoexist,
++								FORCE_EXEC, false);
++			}
++		}
++			/* check BIT2 first ==> check if bt is under inquiry or page scan */
++		if (bt_info & BT_INFO_8822B_1ANT_B_INQ_PAGE)
++			coex_sta->c2h_bt_inquiry_page = true;
++		else
++			coex_sta->c2h_bt_inquiry_page = false;
++	}
++
++	coex_sta->num_of_profile = 0;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8822B_1ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++
++		coex_sta->bt_hi_pri_link_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8822B_1ANT_B_FTP) {
++			coex_sta->pan_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8822B_1ANT_B_A2DP) {
++			coex_sta->a2dp_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8822B_1ANT_B_HID) {
++			coex_sta->hid_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8822B_1ANT_B_SCO_ESCO) {
++			coex_sta->sco_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->sco_exist = false;
++
++	}
++
++	halbtc8822b1ant_update_bt_link_info(btcoexist);
++
++	bt_info = bt_info &
++		0x1f;  /* mask profile bit for connect-ilde identification ( for CSR case: A2DP idle --> 0x41) */
++
++	if (!(bt_info & BT_INFO_8822B_1ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8822B_1ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8822B_1ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8822B_1ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8822B_1ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8822B_1ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8822B_1ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8822B_1ANT_B_ACL_BUSY) {
++		if (BT_8822B_1ANT_BT_STATUS_ACL_BUSY != coex_dm->bt_status)
++		coex_dm->bt_status = BT_8822B_1ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8822B_1ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8822B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8822B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8822B_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		bt_busy = true;
++	else
++		bt_busy = false;
++	
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	halbtc8822b1ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8822b1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RF Status notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_RF_ON == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->stop_coex_dm = false;
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, true);
++		halbtc8822b1ant_post_onoffstate_to_bt(btcoexist, true);
++	} else if (BTC_RF_OFF == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++							BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8822B_1ANT_PHASE_WLAN_OFF);
++		
++		halbtc8822b1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++		
++		btcoexist->stop_coex_dm = true;
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, false);
++		halbtc8822b1ant_post_onoffstate_to_bt(btcoexist, false);
++
++	}
++}
++
++void ex_halbtc8822b1ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8822b1ant_post_activestate_to_bt(btcoexist, false);
++	halbtc8822b1ant_post_onoffstate_to_bt(btcoexist, false);
++	
++	halbtc8822b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++
++	halbtc8822b1ant_set_ant_path(btcoexist, 
++							BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8822B_1ANT_PHASE_WLAN_OFF);
++					
++	halbtc8822b1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++	ex_halbtc8822b1ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	halbtc8822b1ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++	btcoexist->stop_coex_dm = true;
++}
++
++void ex_halbtc8822b1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, false);
++		halbtc8822b1ant_post_onoffstate_to_bt(btcoexist, false);
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++							BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8822B_1ANT_PHASE_WLAN_OFF);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     5);
++
++		halbtc8822b1ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++		btcoexist->stop_coex_dm = true;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, true);
++		halbtc8822b1ant_post_onoffstate_to_bt(btcoexist, true);
++		
++		btcoexist->stop_coex_dm = false;
++	}
++}
++
++void ex_halbtc8822b1ant_coex_dm_reset(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], *****************Coex DM Reset*****************\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8822b1ant_init_hw_config(btcoexist, false, false);
++	halbtc8822b1ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8822b1ant_periodical(IN struct btc_coexist *btcoexist)
++{
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ==========================Periodical===========================\n");
++	BTC_TRACE(trace_buf);
++
++#if (BT_AUTO_REPORT_ONLY_8822B_1ANT == 0)
++	halbtc8822b1ant_query_bt_info(btcoexist);
++#endif
++
++	halbtc8822b1ant_monitor_bt_ctr(btcoexist);
++	halbtc8822b1ant_monitor_wifi_ctr(btcoexist);
++
++	halbtc8822b1ant_monitor_bt_enable_disable(btcoexist);
++
++	/* for 4-way, DHCP, EAPOL packet */
++	if (coex_sta->specific_pkt_period_cnt > 0) {
++
++		coex_sta->specific_pkt_period_cnt--;
++
++		if ((coex_sta->specific_pkt_period_cnt == 0) && (coex_sta->wifi_is_high_pri_task))
++			coex_sta->wifi_is_high_pri_task = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ***************** Hi-Pri Task = %s*****************\n", (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"));
++		BTC_TRACE(trace_buf);
++	}
++
++	
++	if (coex_sta->bt_coex_supported_feature == 0)
++			coex_sta->bt_coex_supported_feature = btcoexist->btc_get_bt_coex_supported_feature(btcoexist);
++	
++	if	( (coex_sta->bt_coex_supported_version == 0) && (!coex_sta->bt_disabled) )
++			coex_sta->bt_coex_supported_version = btcoexist->btc_get_bt_coex_supported_version(btcoexist);
++
++	if (halbtc8822b1ant_is_wifi_status_changed(btcoexist))
++		halbtc8822b1ant_run_coexist_mechanism(btcoexist);
++
++}
++
++void ex_halbtc8822b1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++}
++
++void ex_halbtc8822b1ant_antenna_isolation(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++
++}
++
++void ex_halbtc8822b1ant_psd_scan(IN struct btc_coexist *btcoexist,
++		 IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++
++}
++
++void ex_halbtc8822b1ant_display_ant_detection(IN struct btc_coexist *btcoexist)
++{
++
++}
++
++void ex_halbtc8822b1ant_dbg_control(IN struct btc_coexist *btcoexist,
++				    IN u8 op_code, IN u8 op_len, IN u8 *pdata)
++{}
++#endif	/*  #if(BTC_COEX_OFFLOAD == 1) */
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8822b1Ant.h b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8822b1Ant.h
+new file mode 100644
+index 0000000..4f091f1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtc8822b1Ant.h
+@@ -0,0 +1,408 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8822B_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8822B 1ANT BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8822B_1ANT				1
++
++#define	BT_INFO_8822B_1ANT_B_FTP						BIT(7)
++#define	BT_INFO_8822B_1ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8822B_1ANT_B_HID						BIT(5)
++#define	BT_INFO_8822B_1ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8822B_1ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8822B_1ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8822B_1ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8822B_1ANT_B_CONNECTION				BIT(0)
++
++#define	BT_INFO_8822B_1ANT_A2DP_BASIC_RATE(_BT_INFO_EXT_)	\
++		(((_BT_INFO_EXT_&BIT(0))) ? true : false)
++
++#define	BTC_RSSI_COEX_THRESH_TOL_8822B_1ANT		2
++
++#define  BT_8822B_1ANT_WIFI_NOISY_THRESH							30   /* max: 255 */
++
++/* for Antenna detection */
++#define	BT_8822B_1ANT_ANTDET_PSDTHRES_BACKGROUND					50
++#define	BT_8822B_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION				70
++#define	BT_8822B_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION			55
++#define	BT_8822B_1ANT_ANTDET_PSDTHRES_1ANT							35
++#define	BT_8822B_1ANT_ANTDET_RETRY_INTERVAL							10	/* retry timer if ant det is fail, unit: second */
++#define	BT_8822B_1ANT_ANTDET_ENABLE									0
++#define	BT_8822B_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE				0
++
++#define	BT_8822B_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT		30000
++#define  BT_8822B_1ANT_WIFI_NOISY_THRESH							30   /* max: 255 */
++
++
++enum bt_8822b_1ant_signal_state {
++	BT_8822B_1ANT_SIG_STA_SET_TO_LOW		= 0x0,
++	BT_8822B_1ANT_SIG_STA_SET_BY_HW		= 0x0,
++	BT_8822B_1ANT_SIG_STA_SET_TO_HIGH		= 0x1,
++	BT_8822B_1ANT_SIG_STA_MAX
++};
++
++enum bt_8822b_1ant_path_ctrl_owner {
++	BT_8822B_1ANT_PCO_BTSIDE		= 0x0,
++	BT_8822B_1ANT_PCO_WLSIDE	= 0x1,
++	BT_8822B_1ANT_PCO_MAX
++};
++
++enum bt_8822b_1ant_gnt_ctrl_type {
++	BT_8822B_1ANT_GNT_CTRL_BY_PTA		= 0x0,
++	BT_8822B_1ANT_GNT_CTRL_BY_SW		= 0x1,
++	BT_8822B_1ANT_GNT_CTRL_MAX
++};
++
++enum bt_8822b_1ant_gnt_ctrl_block {
++	BT_8822B_1ANT_GNT_BLOCK_RFC_BB		= 0x0,
++	BT_8822B_1ANT_GNT_BLOCK_RFC			= 0x1,
++	BT_8822B_1ANT_GNT_BLOCK_BB			= 0x2,
++	BT_8822B_1ANT_GNT_BLOCK_MAX
++};
++
++enum bt_8822b_1ant_lte_coex_table_type {
++	BT_8822B_1ANT_CTT_WL_VS_LTE			= 0x0,
++	BT_8822B_1ANT_CTT_BT_VS_LTE			= 0x1,
++	BT_8822B_1ANT_CTT_MAX
++};
++
++enum bt_8822b_1ant_lte_break_table_type {
++	BT_8822B_1ANT_LBTT_WL_BREAK_LTE			= 0x0,
++	BT_8822B_1ANT_LBTT_BT_BREAK_LTE				= 0x1,
++	BT_8822B_1ANT_LBTT_LTE_BREAK_WL			= 0x2,
++	BT_8822B_1ANT_LBTT_LTE_BREAK_BT				= 0x3,
++	BT_8822B_1ANT_LBTT_MAX
++};
++
++enum bt_info_src_8822b_1ant {
++	BT_INFO_SRC_8822B_1ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8822B_1ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8822B_1ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8822B_1ANT_MAX
++};
++
++enum bt_8822b_1ant_bt_status {
++	BT_8822B_1ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8822B_1ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8822B_1ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8822B_1ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8822B_1ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8822B_1ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8822B_1ANT_BT_STATUS_MAX
++};
++
++enum bt_8822b_1ant_wifi_status {
++	BT_8822B_1ANT_WIFI_STATUS_NON_CONNECTED_IDLE				= 0x0,
++	BT_8822B_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN		= 0x1,
++	BT_8822B_1ANT_WIFI_STATUS_CONNECTED_SCAN					= 0x2,
++	BT_8822B_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT				= 0x3,
++	BT_8822B_1ANT_WIFI_STATUS_CONNECTED_IDLE					= 0x4,
++	BT_8822B_1ANT_WIFI_STATUS_CONNECTED_BUSY					= 0x5,
++	BT_8822B_1ANT_WIFI_STATUS_MAX
++};
++
++enum bt_8822b_1ant_coex_algo {
++	BT_8822B_1ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8822B_1ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8822B_1ANT_COEX_ALGO_HID				= 0x2,
++	BT_8822B_1ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8822B_1ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8822B_1ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8822B_1ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8822B_1ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8822B_1ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8822B_1ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8822B_1ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8822B_1ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++enum bt_8822b_1ant_ext_ant_switch_type {
++	BT_8822B_1ANT_EXT_ANT_SWITCH_USE_SPDT		= 0x0,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_USE_SP3T		= 0x1,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_MAX
++};
++
++enum bt_8822b_1ant_ext_ant_switch_ctrl_type {
++	BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW	= 0x0,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_PTA	= 0x1,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_ANTDIV	= 0x2,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_MAC	= 0x3,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_BT		= 0x4,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_MAX
++};
++
++enum bt_8822b_1ant_ext_ant_switch_pos_type {
++	BT_8822B_1ANT_EXT_ANT_SWITCH_TO_BT			= 0x0,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_TO_WLG			= 0x1,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_TO_WLA			= 0x2,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_TO_NOCARE		= 0x3,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_TO_MAX
++};
++
++enum bt_8822b_1ant_phase{
++	BT_8822B_1ANT_PHASE_COEX_INIT				= 0x0,
++	BT_8822B_1ANT_PHASE_WLANONLY_INIT			= 0x1,	
++	BT_8822B_1ANT_PHASE_WLAN_OFF				= 0x2,
++	BT_8822B_1ANT_PHASE_2G_RUNTIME				= 0x3,
++	BT_8822B_1ANT_PHASE_5G_RUNTIME				= 0x4,
++	BT_8822B_1ANT_PHASE_BTMPMODE				= 0x5,
++	BT_8822B_1ANT_PHASE_MAX
++};
++
++
++struct coex_dm_8822b_1ant {
++	/* hw setting */
++	u32		pre_ant_pos_type;
++	u32		cur_ant_pos_type;
++	/* fw mechanism */
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	/* sw mechanism */
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++	u32		arp_cnt;
++
++	u32		pre_ext_ant_switch_status;
++	u32		cur_ext_ant_switch_status;
++
++	u8		error_condition;
++};
++
++struct coex_sta_8822b_1ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++	boolean					bt_hi_pri_link_exist;
++	u8					num_of_profile;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					specific_pkt_period_cnt;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	s8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8822B_1ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8822B_1ANT_MAX];
++	boolean					bt_whck_test;
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_page;				/* Add for win8.1 page out issue */
++	boolean					wifi_is_high_pri_task;		/* Add for win8.1 page out issue */
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	boolean					cck_lock;
++	boolean					pre_ccklock;
++	boolean					cck_ever_lock;
++	u8					coex_table_type;
++
++	boolean					force_lps_on;
++	u32					wrong_profile_notification;
++
++	boolean					concurrent_rx_mode_on;
++
++	u32 					special_pkt_period_cnt;
++
++	u16					score_board;
++
++	u8					a2dp_bit_pool;
++	u8					cut_version;
++	boolean				acl_busy;
++	boolean				wl_rf_off_on_event;
++	boolean				bt_create_connection;
++	boolean				run_time_state;
++
++	u32					bt_coex_supported_feature;
++	u32					bt_coex_supported_version;
++};
++
++struct rfe_type_8822b_1ant{
++
++	u8			rfe_module_type;	
++	boolean		ext_ant_switch_exist;
++	u8			ext_ant_switch_type;	
++	u8			ext_ant_switch_ctrl_polarity;		/*  iF 0: ANTSW(rfe_sel9)=0, ANTSWB(rfe_sel8)=1 =>  Ant to BT/5G */
++};
++
++
++#define  BT_8822B_1ANT_ANTDET_PSD_POINTS			256	/* MAX:1024 */
++#define  BT_8822B_1ANT_ANTDET_PSD_AVGNUM			1	/* MAX:3 */
++#define	BT_8822B_1ANT_ANTDET_BUF_LEN				16
++
++struct psdscan_sta_8822b_1ant {
++
++	u32			ant_det_bt_le_channel;  /* BT LE Channel ex:2412 */
++	u32			ant_det_bt_tx_time;
++	u32			ant_det_pre_psdscan_peak_val;
++	boolean			ant_det_is_ant_det_available;
++	u32			ant_det_psd_scan_peak_val;
++	boolean			ant_det_is_btreply_available;
++	u32			ant_det_psd_scan_peak_freq;
++
++	u8			ant_det_result;
++	u8			ant_det_peak_val[BT_8822B_1ANT_ANTDET_BUF_LEN];
++	u8			ant_det_peak_freq[BT_8822B_1ANT_ANTDET_BUF_LEN];
++	u32			ant_det_try_count;
++	u32			ant_det_fail_count;
++	u32			ant_det_inteval_count;
++	u32			ant_det_thres_offset;
++
++	u32			real_cent_freq;
++	s32			real_offset;
++	u32			real_span;
++
++	u32			psd_band_width;  /* unit: Hz */
++	u32			psd_point;		/* 128/256/512/1024 */
++	u32			psd_report[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_report_max_hold[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_start_point;
++	u32			psd_stop_point;
++	u32			psd_max_value_point;
++	u32			psd_max_value;
++	u32			psd_start_base;
++	u32			psd_avg_num;	/* 1/8/16/32 */
++	u32			psd_gen_count;
++	boolean			is_psd_running;
++	boolean			is_psd_show_max_only;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8822b1ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8822b1ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8822b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8822b1ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8822b1ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8822b1ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8822b1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8822b1ant_switchband_notify(IN struct btc_coexist *btcoexist,
++					IN u8 type);
++void ex_halbtc8822b1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8822b1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8822b1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8822b1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8822b1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8822b1ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8822b1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8822b1ant_ScoreBoardStatusNotify(IN struct btc_coexist *btcoexist,
++		IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8822b1ant_coex_dm_reset(IN struct btc_coexist *btcoexist);
++void ex_halbtc8822b1ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8822b1ant_display_coex_info(IN struct btc_coexist *btcoexist);
++void ex_halbtc8822b1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8822b1ant_antenna_isolation(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++
++void ex_halbtc8822b1ant_psd_scan(IN struct btc_coexist *btcoexist,
++		 IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8822b1ant_display_ant_detection(IN struct btc_coexist *btcoexist);
++
++void ex_halbtc8822b1ant_dbg_control(IN struct btc_coexist *btcoexist,
++				    IN u8 op_code, IN u8 op_len, IN u8 *pdata);
++
++#else
++#define	ex_halbtc8822b1ant_power_on_setting(btcoexist)
++#define	ex_halbtc8822b1ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8822b1ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8822b1ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8822b1ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8822b1ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8822b1ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8822b1ant_switchband_notify(btcoexist, type)
++#define	ex_halbtc8822b1ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8822b1ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8822b1ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8822b1ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8822b1ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8822b1ant_halt_notify(btcoexist)
++#define	ex_halbtc8822b1ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8822b1ant_ScoreBoardStatusNotify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8822b1ant_coex_dm_reset(btcoexist)
++#define	ex_halbtc8822b1ant_periodical(btcoexist)
++#define	ex_halbtc8822b1ant_display_coex_info(btcoexist)
++#define	ex_halbtc8822b1ant_antenna_detection(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8822b1ant_antenna_isolation(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8822b1ant_psd_scan(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8822b1ant_display_ant_detection(btcoexist)
++#define	ex_halbtc8822b1ant_dbg_control(btcoexist, op_code, op_len, pdata)
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/HalBtcOutSrc.h b/drivers/net/wireless/rtl8723du/hal/btc/HalBtcOutSrc.h
+new file mode 100644
+index 0000000..d22d6e2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/HalBtcOutSrc.h
+@@ -0,0 +1,985 @@
++#ifndef	__HALBTC_OUT_SRC_H__
++#define __HALBTC_OUT_SRC_H__
++
++
++#define		BTC_COEX_OFFLOAD			0
++#define		BTC_TMP_BUF_SHORT		20
++
++extern u1Byte	gl_btc_trace_buf[];
++#define		BTC_SPRINTF			rsprintf
++#define		BTC_TRACE(_MSG_)		RT_TRACE(COMP_COEX, DBG_LOUD, (_MSG_))
++#define		BT_PrintData(adapter, _MSG_, len, data)	RTW_DBG_DUMP((_MSG_), data, len)
++
++
++#define		NORMAL_EXEC					FALSE
++#define		FORCE_EXEC						TRUE
++
++#define		BTC_RF_OFF					0x0
++#define		BTC_RF_ON					0x1
++
++#define		BTC_RF_A					0x0
++#define		BTC_RF_B					0x1
++#define		BTC_RF_C					0x2
++#define		BTC_RF_D					0x3
++
++#define		BTC_SMSP				SINGLEMAC_SINGLEPHY
++#define		BTC_DMDP				DUALMAC_DUALPHY
++#define		BTC_DMSP				DUALMAC_SINGLEPHY
++#define		BTC_MP_UNKNOWN		0xff
++
++#define		BT_COEX_ANT_TYPE_PG			0
++#define		BT_COEX_ANT_TYPE_ANTDIV		1
++#define		BT_COEX_ANT_TYPE_DETECTED	2
++
++#define		BTC_MIMO_PS_STATIC			0	/* 1ss */
++#define		BTC_MIMO_PS_DYNAMIC			1	/* 2ss */
++
++#define		BTC_RATE_DISABLE			0
++#define		BTC_RATE_ENABLE				1
++
++/* single Antenna definition */
++#define		BTC_ANT_PATH_WIFI			0
++#define		BTC_ANT_PATH_BT				1
++#define		BTC_ANT_PATH_PTA			2
++#define		BTC_ANT_PATH_WIFI5G			3
++#define		BTC_ANT_PATH_AUTO			4
++/* dual Antenna definition */
++#define		BTC_ANT_WIFI_AT_MAIN		0
++#define		BTC_ANT_WIFI_AT_AUX			1
++#define		BTC_ANT_WIFI_AT_DIVERSITY	2
++/* coupler Antenna definition */
++#define		BTC_ANT_WIFI_AT_CPL_MAIN	0
++#define		BTC_ANT_WIFI_AT_CPL_AUX		1
++
++typedef enum _BTC_POWERSAVE_TYPE {
++	BTC_PS_WIFI_NATIVE			= 0,	/* wifi original power save behavior */
++	BTC_PS_LPS_ON				= 1,
++	BTC_PS_LPS_OFF				= 2,
++	BTC_PS_MAX
++} BTC_POWERSAVE_TYPE, *PBTC_POWERSAVE_TYPE;
++
++typedef enum _BTC_BT_REG_TYPE {
++	BTC_BT_REG_RF						= 0,
++	BTC_BT_REG_MODEM					= 1,
++	BTC_BT_REG_BLUEWIZE					= 2,
++	BTC_BT_REG_VENDOR					= 3,
++	BTC_BT_REG_LE						= 4,
++	BTC_BT_REG_MAX
++} BTC_BT_REG_TYPE, *PBTC_BT_REG_TYPE;
++
++typedef enum _BTC_CHIP_INTERFACE {
++	BTC_INTF_UNKNOWN	= 0,
++	BTC_INTF_PCI			= 1,
++	BTC_INTF_USB			= 2,
++	BTC_INTF_SDIO		= 3,
++	BTC_INTF_MAX
++} BTC_CHIP_INTERFACE, *PBTC_CHIP_INTERFACE;
++
++typedef enum _BTC_CHIP_TYPE {
++	BTC_CHIP_UNDEF		= 0,
++	BTC_CHIP_CSR_BC4		= 1,
++	BTC_CHIP_CSR_BC8		= 2,
++	BTC_CHIP_RTL8723A		= 3,
++	BTC_CHIP_RTL8821		= 4,
++	BTC_CHIP_RTL8723B		= 5,
++	BTC_CHIP_MAX
++} BTC_CHIP_TYPE, *PBTC_CHIP_TYPE;
++
++/* following is for wifi link status */
++#define		WIFI_STA_CONNECTED				BIT0
++#define		WIFI_AP_CONNECTED				BIT1
++#define		WIFI_HS_CONNECTED				BIT2
++#define		WIFI_P2P_GO_CONNECTED			BIT3
++#define		WIFI_P2P_GC_CONNECTED			BIT4
++
++/* following is for command line utility */
++#define	CL_SPRINTF	rsprintf
++#define	CL_PRINTF	DCMD_Printf
++
++struct btc_board_info {
++	/* The following is some board information */
++	u8				bt_chip_type;
++	u8				pg_ant_num;	/* pg ant number */
++	u8				btdm_ant_num;	/* ant number for btdm */
++	u8				btdm_ant_num_by_ant_det;	/* ant number for btdm after antenna detection */
++	u8				btdm_ant_pos;		/* Bryant Add to indicate Antenna Position for (pg_ant_num = 2) && (btdm_ant_num =1)  (DPDT+1Ant case) */
++	u8				single_ant_path;	/* current used for 8723b only, 1=>s0,  0=>s1 */
++	boolean			tfbga_package;    /* for Antenna detect threshold */
++	boolean			btdm_ant_det_finish;
++	u8				ant_type;
++	u8				rfe_type;
++	u8				ant_div_cfg;
++	boolean			btdm_ant_det_complete_fail;
++	u8				ant_det_result;
++	boolean			ant_det_result_five_complete;
++	u32				antdetval;
++};
++
++typedef enum _BTC_DBG_OPCODE {
++	BTC_DBG_SET_COEX_NORMAL				= 0x0,
++	BTC_DBG_SET_COEX_WIFI_ONLY				= 0x1,
++	BTC_DBG_SET_COEX_BT_ONLY				= 0x2,
++	BTC_DBG_SET_COEX_DEC_BT_PWR				= 0x3,
++	BTC_DBG_SET_COEX_BT_AFH_MAP				= 0x4,
++	BTC_DBG_SET_COEX_BT_IGNORE_WLAN_ACT		= 0x5,
++	BTC_DBG_SET_COEX_MANUAL_CTRL				= 0x6,
++	BTC_DBG_MAX
++} BTC_DBG_OPCODE, *PBTC_DBG_OPCODE;
++
++typedef enum _BTC_RSSI_STATE {
++	BTC_RSSI_STATE_HIGH						= 0x0,
++	BTC_RSSI_STATE_MEDIUM					= 0x1,
++	BTC_RSSI_STATE_LOW						= 0x2,
++	BTC_RSSI_STATE_STAY_HIGH					= 0x3,
++	BTC_RSSI_STATE_STAY_MEDIUM				= 0x4,
++	BTC_RSSI_STATE_STAY_LOW					= 0x5,
++	BTC_RSSI_MAX
++} BTC_RSSI_STATE, *PBTC_RSSI_STATE;
++#define	BTC_RSSI_HIGH(_rssi_)	((_rssi_ == BTC_RSSI_STATE_HIGH || _rssi_ == BTC_RSSI_STATE_STAY_HIGH) ? TRUE:FALSE)
++#define	BTC_RSSI_MEDIUM(_rssi_)	((_rssi_ == BTC_RSSI_STATE_MEDIUM || _rssi_ == BTC_RSSI_STATE_STAY_MEDIUM) ? TRUE:FALSE)
++#define	BTC_RSSI_LOW(_rssi_)	((_rssi_ == BTC_RSSI_STATE_LOW || _rssi_ == BTC_RSSI_STATE_STAY_LOW) ? TRUE:FALSE)
++
++typedef enum _BTC_WIFI_ROLE {
++	BTC_ROLE_STATION						= 0x0,
++	BTC_ROLE_AP								= 0x1,
++	BTC_ROLE_IBSS							= 0x2,
++	BTC_ROLE_HS_MODE						= 0x3,
++	BTC_ROLE_MAX
++} BTC_WIFI_ROLE, *PBTC_WIFI_ROLE;
++
++typedef enum _BTC_WIRELESS_FREQ {
++	BTC_FREQ_2_4G					= 0x0,
++	BTC_FREQ_5G						= 0x1,
++	BTC_FREQ_MAX
++} BTC_WIRELESS_FREQ, *PBTC_WIRELESS_FREQ;
++
++typedef enum _BTC_WIFI_BW_MODE {
++	BTC_WIFI_BW_LEGACY					= 0x0,
++	BTC_WIFI_BW_HT20					= 0x1,
++	BTC_WIFI_BW_HT40					= 0x2,
++	BTC_WIFI_BW_HT80					= 0x3,
++	BTC_WIFI_BW_HT160					= 0x4,
++	BTC_WIFI_BW_MAX
++} BTC_WIFI_BW_MODE, *PBTC_WIFI_BW_MODE;
++
++typedef enum _BTC_WIFI_TRAFFIC_DIR {
++	BTC_WIFI_TRAFFIC_TX					= 0x0,
++	BTC_WIFI_TRAFFIC_RX					= 0x1,
++	BTC_WIFI_TRAFFIC_MAX
++} BTC_WIFI_TRAFFIC_DIR, *PBTC_WIFI_TRAFFIC_DIR;
++
++typedef enum _BTC_WIFI_PNP {
++	BTC_WIFI_PNP_WAKE_UP					= 0x0,
++	BTC_WIFI_PNP_SLEEP						= 0x1,
++	BTC_WIFI_PNP_SLEEP_KEEP_ANT				= 0x2,
++	BTC_WIFI_PNP_MAX
++} BTC_WIFI_PNP, *PBTC_WIFI_PNP;
++
++typedef enum _BTC_IOT_PEER {
++	BTC_IOT_PEER_UNKNOWN = 0,
++	BTC_IOT_PEER_REALTEK = 1,
++	BTC_IOT_PEER_REALTEK_92SE = 2,
++	BTC_IOT_PEER_BROADCOM = 3,
++	BTC_IOT_PEER_RALINK = 4,
++	BTC_IOT_PEER_ATHEROS = 5,
++	BTC_IOT_PEER_CISCO = 6,
++	BTC_IOT_PEER_MERU = 7,
++	BTC_IOT_PEER_MARVELL = 8,
++	BTC_IOT_PEER_REALTEK_SOFTAP = 9, /* peer is RealTek SOFT_AP, by Bohn, 2009.12.17 */
++	BTC_IOT_PEER_SELF_SOFTAP = 10, /* Self is SoftAP */
++	BTC_IOT_PEER_AIRGO = 11,
++	BTC_IOT_PEER_INTEL				= 12,
++	BTC_IOT_PEER_RTK_APCLIENT		= 13,
++	BTC_IOT_PEER_REALTEK_81XX		= 14,
++	BTC_IOT_PEER_REALTEK_WOW		= 15,
++	BTC_IOT_PEER_REALTEK_JAGUAR_BCUTAP = 16,
++	BTC_IOT_PEER_REALTEK_JAGUAR_CCUTAP = 17,
++	BTC_IOT_PEER_MAX,
++} BTC_IOT_PEER, *PBTC_IOT_PEER;
++
++/* for 8723b-d cut large current issue */
++typedef enum _BTC_WIFI_COEX_STATE {
++	BTC_WIFI_STAT_INIT,
++	BTC_WIFI_STAT_IQK,
++	BTC_WIFI_STAT_NORMAL_OFF,
++	BTC_WIFI_STAT_MP_OFF,
++	BTC_WIFI_STAT_NORMAL,
++	BTC_WIFI_STAT_ANT_DIV,
++	BTC_WIFI_STAT_MAX
++} BTC_WIFI_COEX_STATE, *PBTC_WIFI_COEX_STATE;
++
++typedef enum _BTC_ANT_TYPE {
++	BTC_ANT_TYPE_0,
++	BTC_ANT_TYPE_1,
++	BTC_ANT_TYPE_2,
++	BTC_ANT_TYPE_3,
++	BTC_ANT_TYPE_4,
++	BTC_ANT_TYPE_MAX
++} BTC_ANT_TYPE, *PBTC_ANT_TYPE;
++
++typedef enum _BTC_VENDOR {
++	BTC_VENDOR_LENOVO,
++	BTC_VENDOR_ASUS,
++	BTC_VENDOR_OTHER
++} BTC_VENDOR, *PBTC_VENDOR;
++
++
++/* defined for BFP_BTC_GET */
++typedef enum _BTC_GET_TYPE {
++	/* type BOOLEAN */
++	BTC_GET_BL_HS_OPERATION,
++	BTC_GET_BL_HS_CONNECTING,
++	BTC_GET_BL_WIFI_CONNECTED,
++	BTC_GET_BL_WIFI_BUSY,
++	BTC_GET_BL_WIFI_SCAN,
++	BTC_GET_BL_WIFI_LINK,
++	BTC_GET_BL_WIFI_ROAM,
++	BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++	BTC_GET_BL_WIFI_UNDER_5G,
++	BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++	BTC_GET_BL_WIFI_ENABLE_ENCRYPTION,
++	BTC_GET_BL_WIFI_UNDER_B_MODE,
++	BTC_GET_BL_EXT_SWITCH,
++	BTC_GET_BL_WIFI_IS_IN_MP_MODE,
++	BTC_GET_BL_IS_ASUS_8723B,
++
++	/* type s4Byte */
++	BTC_GET_S4_WIFI_RSSI,
++	BTC_GET_S4_HS_RSSI,
++
++	/* type u4Byte */
++	BTC_GET_U4_WIFI_BW,
++	BTC_GET_U4_WIFI_TRAFFIC_DIRECTION,
++	BTC_GET_U4_WIFI_FW_VER,
++	BTC_GET_U4_WIFI_LINK_STATUS,
++	BTC_GET_U4_BT_PATCH_VER,
++	BTC_GET_U4_VENDOR,
++	BTC_GET_U4_WIFI_IQK_TOTAL,
++	BTC_GET_U4_WIFI_IQK_OK,
++	BTC_GET_U4_WIFI_IQK_FAIL,
++
++	/* type u1Byte */
++	BTC_GET_U1_WIFI_DOT11_CHNL,
++	BTC_GET_U1_WIFI_CENTRAL_CHNL,
++	BTC_GET_U1_WIFI_HS_CHNL,
++	BTC_GET_U1_WIFI_P2P_CHNL,
++	BTC_GET_U1_MAC_PHY_MODE,
++	BTC_GET_U1_AP_NUM,
++	BTC_GET_U1_ANT_TYPE,
++	BTC_GET_U1_IOT_PEER,
++
++	/*===== for 1Ant ======*/
++	BTC_GET_U1_LPS_MODE,
++
++	BTC_GET_MAX
++} BTC_GET_TYPE, *PBTC_GET_TYPE;
++
++/* defined for BFP_BTC_SET */
++typedef enum _BTC_SET_TYPE {
++	/* type BOOLEAN */
++	BTC_SET_BL_BT_DISABLE,
++	BTC_SET_BL_BT_TRAFFIC_BUSY,
++	BTC_SET_BL_BT_LIMITED_DIG,
++	BTC_SET_BL_FORCE_TO_ROAM,
++	BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++	BTC_SET_BL_BT_CTRL_AGG_SIZE,
++	BTC_SET_BL_INC_SCAN_DEV_NUM,
++	BTC_SET_BL_BT_TX_RX_MASK,
++	BTC_SET_BL_MIRACAST_PLUS_BT,
++
++	/* type u1Byte */
++	BTC_SET_U1_RSSI_ADJ_VAL_FOR_AGC_TABLE_ON,
++	BTC_SET_U1_AGG_BUF_SIZE,
++
++	/* type trigger some action */
++	BTC_SET_ACT_GET_BT_RSSI,
++	BTC_SET_ACT_AGGREGATE_CTRL,
++	BTC_SET_ACT_ANTPOSREGRISTRY_CTRL,
++	/*===== for 1Ant ======*/
++	/* type BOOLEAN */
++
++	/* type u1Byte */
++	BTC_SET_U1_RSSI_ADJ_VAL_FOR_1ANT_COEX_TYPE,
++	BTC_SET_U1_LPS_VAL,
++	BTC_SET_U1_RPWM_VAL,
++	/* type trigger some action */
++	BTC_SET_ACT_LEAVE_LPS,
++	BTC_SET_ACT_ENTER_LPS,
++	BTC_SET_ACT_NORMAL_LPS,
++	BTC_SET_ACT_DISABLE_LOW_POWER,
++	BTC_SET_ACT_UPDATE_RAMASK,
++	BTC_SET_ACT_SEND_MIMO_PS,
++	/* BT Coex related */
++	BTC_SET_ACT_CTRL_BT_INFO,
++	BTC_SET_ACT_CTRL_BT_COEX,
++	BTC_SET_ACT_CTRL_8723B_ANT,
++	/*=================*/
++	BTC_SET_MAX
++} BTC_SET_TYPE, *PBTC_SET_TYPE;
++
++typedef enum _BTC_DBG_DISP_TYPE {
++	BTC_DBG_DISP_COEX_STATISTICS				= 0x0,
++	BTC_DBG_DISP_BT_LINK_INFO				= 0x1,
++	BTC_DBG_DISP_WIFI_STATUS				= 0x2,
++	BTC_DBG_DISP_MAX
++} BTC_DBG_DISP_TYPE, *PBTC_DBG_DISP_TYPE;
++
++typedef enum _BTC_NOTIFY_TYPE_IPS {
++	BTC_IPS_LEAVE							= 0x0,
++	BTC_IPS_ENTER							= 0x1,
++	BTC_IPS_MAX
++} BTC_NOTIFY_TYPE_IPS, *PBTC_NOTIFY_TYPE_IPS;
++typedef enum _BTC_NOTIFY_TYPE_LPS {
++	BTC_LPS_DISABLE							= 0x0,
++	BTC_LPS_ENABLE							= 0x1,
++	BTC_LPS_MAX
++} BTC_NOTIFY_TYPE_LPS, *PBTC_NOTIFY_TYPE_LPS;
++typedef enum _BTC_NOTIFY_TYPE_SCAN {
++	BTC_SCAN_FINISH							= 0x0,
++	BTC_SCAN_START							= 0x1,
++	BTC_SCAN_START_2G						= 0x2,
++	BTC_SCAN_MAX
++} BTC_NOTIFY_TYPE_SCAN, *PBTC_NOTIFY_TYPE_SCAN;
++typedef enum _BTC_NOTIFY_TYPE_SWITCHBAND {
++	BTC_NOT_SWITCH							= 0x0,
++	BTC_SWITCH_TO_24G						= 0x1,
++	BTC_SWITCH_TO_5G						= 0x2,
++	BTC_SWITCH_TO_24G_NOFORSCAN				= 0x3,
++	BTC_SWITCH_MAX
++} BTC_NOTIFY_TYPE_SWITCHBAND, *PBTC_NOTIFY_TYPE_SWITCHBAND;
++typedef enum _BTC_NOTIFY_TYPE_ASSOCIATE {
++	BTC_ASSOCIATE_FINISH						= 0x0,
++	BTC_ASSOCIATE_START						= 0x1,
++	BTC_ASSOCIATE_5G_FINISH						= 0x2,
++	BTC_ASSOCIATE_5G_START						= 0x3,
++	BTC_ASSOCIATE_MAX
++} BTC_NOTIFY_TYPE_ASSOCIATE, *PBTC_NOTIFY_TYPE_ASSOCIATE;
++typedef enum _BTC_NOTIFY_TYPE_MEDIA_STATUS {
++	BTC_MEDIA_DISCONNECT					= 0x0,
++	BTC_MEDIA_CONNECT						= 0x1,
++	BTC_MEDIA_MAX
++} BTC_NOTIFY_TYPE_MEDIA_STATUS, *PBTC_NOTIFY_TYPE_MEDIA_STATUS;
++typedef enum _BTC_NOTIFY_TYPE_SPECIFIC_PACKET {
++	BTC_PACKET_UNKNOWN					= 0x0,
++	BTC_PACKET_DHCP							= 0x1,
++	BTC_PACKET_ARP							= 0x2,
++	BTC_PACKET_EAPOL						= 0x3,
++	BTC_PACKET_MAX
++} BTC_NOTIFY_TYPE_SPECIFIC_PACKET, *PBTC_NOTIFY_TYPE_SPECIFIC_PACKET;
++typedef enum _BTC_NOTIFY_TYPE_STACK_OPERATION {
++	BTC_STACK_OP_NONE					= 0x0,
++	BTC_STACK_OP_INQ_PAGE_PAIR_START		= 0x1,
++	BTC_STACK_OP_INQ_PAGE_PAIR_FINISH	= 0x2,
++	BTC_STACK_OP_MAX
++} BTC_NOTIFY_TYPE_STACK_OPERATION, *PBTC_NOTIFY_TYPE_STACK_OPERATION;
++
++/* Bryant Add */
++typedef enum _BTC_ANTENNA_POS {
++	BTC_ANTENNA_AT_MAIN_PORT				= 0x1,
++	BTC_ANTENNA_AT_AUX_PORT				= 0x2,
++} BTC_ANTENNA_POS, *PBTC_ANTENNA_POS;
++
++/* Bryant Add */
++typedef enum _BTC_BT_OFFON {
++	BTC_BT_OFF				= 0x0,
++	BTC_BT_ON				= 0x1,
++} BTC_BTOFFON, *PBTC_BT_OFFON;
++
++/*==================================================
++For following block is for coex offload
++==================================================*/
++typedef struct _COL_H2C {
++	u1Byte	opcode;
++	u1Byte	opcode_ver:4;
++	u1Byte	req_num:4;
++	u1Byte	buf[1];
++} COL_H2C, *PCOL_H2C;
++
++#define	COL_C2H_ACK_HDR_LEN	3
++typedef struct _COL_C2H_ACK {
++	u1Byte	status;
++	u1Byte	opcode_ver:4;
++	u1Byte	req_num:4;
++	u1Byte	ret_len;
++	u1Byte	buf[1];
++} COL_C2H_ACK, *PCOL_C2H_ACK;
++
++#define	COL_C2H_IND_HDR_LEN	3
++typedef struct _COL_C2H_IND {
++	u1Byte	type;
++	u1Byte	version;
++	u1Byte	length;
++	u1Byte	data[1];
++} COL_C2H_IND, *PCOL_C2H_IND;
++
++/*============================================
++NOTE: for debug message, the following define should match
++the strings in coexH2cResultString.
++============================================*/
++typedef enum _COL_H2C_STATUS {
++	/* c2h status */
++	COL_STATUS_C2H_OK								= 0x00, /* Wifi received H2C request and check content ok. */
++	COL_STATUS_C2H_UNKNOWN							= 0x01,	/* Not handled routine */
++	COL_STATUS_C2H_UNKNOWN_OPCODE					= 0x02,	/* Invalid OP code, It means that wifi firmware received an undefiend OP code. */
++	COL_STATUS_C2H_OPCODE_VER_MISMATCH			= 0x03, /* Wifi firmware and wifi driver mismatch, need to update wifi driver or wifi or. */
++	COL_STATUS_C2H_PARAMETER_ERROR				= 0x04, /* Error paraneter.(ex: parameters = NULL but it should have values) */
++	COL_STATUS_C2H_PARAMETER_OUT_OF_RANGE		= 0x05, /* Wifi firmware needs to check the parameters from H2C request and return the status.(ex: ch = 500, it's wrong) */
++	/* other COL status start from here */
++	COL_STATUS_C2H_REQ_NUM_MISMATCH			, /* c2h req_num mismatch, means this c2h is not we expected. */
++	COL_STATUS_H2C_HALMAC_FAIL					, /* HALMAC return fail. */
++	COL_STATUS_H2C_TIMTOUT						, /* not received the c2h response from fw */
++	COL_STATUS_INVALID_C2H_LEN					, /* invalid coex offload c2h ack length, must >= 3 */
++	COL_STATUS_COEX_DATA_OVERFLOW				, /* coex returned length over the c2h ack length. */
++	COL_STATUS_MAX
++} COL_H2C_STATUS, *PCOL_H2C_STATUS;
++
++#define	COL_MAX_H2C_REQ_NUM		16
++
++#define	COL_H2C_BUF_LEN			20
++typedef enum _COL_OPCODE {
++	COL_OP_WIFI_STATUS_NOTIFY					= 0x0,
++	COL_OP_WIFI_PROGRESS_NOTIFY					= 0x1,
++	COL_OP_WIFI_INFO_NOTIFY						= 0x2,
++	COL_OP_WIFI_POWER_STATE_NOTIFY				= 0x3,
++	COL_OP_SET_CONTROL							= 0x4,
++	COL_OP_GET_CONTROL							= 0x5,
++	COL_OP_WIFI_OPCODE_MAX
++} COL_OPCODE, *PCOL_OPCODE;
++
++typedef enum _COL_IND_TYPE {
++	COL_IND_BT_INFO								= 0x0,
++	COL_IND_PSTDMA								= 0x1,
++	COL_IND_LIMITED_TX_RX						= 0x2,
++	COL_IND_COEX_TABLE							= 0x3,
++	COL_IND_REQ									= 0x4,
++	COL_IND_MAX
++} COL_IND_TYPE, *PCOL_IND_TYPE;
++
++typedef struct _COL_SINGLE_H2C_RECORD {
++	u1Byte					h2c_buf[COL_H2C_BUF_LEN];	/* the latest sent h2c buffer */
++	u4Byte					h2c_len;
++	u1Byte					c2h_ack_buf[COL_H2C_BUF_LEN];	/* the latest received c2h buffer */
++	u4Byte					c2h_ack_len;
++	u4Byte					count;									/* the total number of the sent h2c command */
++	u4Byte					status[COL_STATUS_MAX];					/* the c2h status for the sent h2c command */
++} COL_SINGLE_H2C_RECORD, *PCOL_SINGLE_H2C_RECORD;
++
++typedef struct _COL_SINGLE_C2H_IND_RECORD {
++	u1Byte					ind_buf[COL_H2C_BUF_LEN];	/* the latest received c2h indication buffer */
++	u4Byte					ind_len;
++	u4Byte					count;									/* the total number of the rcvd c2h indication */
++	u4Byte					status[COL_STATUS_MAX];					/* the c2h indication verified status */
++} COL_SINGLE_C2H_IND_RECORD, *PCOL_SINGLE_C2H_IND_RECORD;
++
++typedef struct _BTC_OFFLOAD {
++	/* H2C command related */
++	u1Byte					h2c_req_num;
++	u4Byte					cnt_h2c_sent;
++	COL_SINGLE_H2C_RECORD	h2c_record[COL_OP_WIFI_OPCODE_MAX];
++
++	/* C2H Ack related */
++	u4Byte					cnt_c2h_ack;
++	u4Byte					status[COL_STATUS_MAX];
++	struct completion		c2h_event[COL_MAX_H2C_REQ_NUM];	/* for req_num = 1~COL_MAX_H2C_REQ_NUM */
++	u1Byte					c2h_ack_buf[COL_MAX_H2C_REQ_NUM][COL_H2C_BUF_LEN];
++	u1Byte					c2h_ack_len[COL_MAX_H2C_REQ_NUM];
++
++	/* C2H Indication related */
++	u4Byte						cnt_c2h_ind;
++	COL_SINGLE_C2H_IND_RECORD	c2h_ind_record[COL_IND_MAX];
++	u4Byte						c2h_ind_status[COL_STATUS_MAX];
++	u1Byte						c2h_ind_buf[COL_H2C_BUF_LEN];
++	u1Byte						c2h_ind_len;
++} BTC_OFFLOAD, *PBTC_OFFLOAD;
++extern BTC_OFFLOAD				gl_coex_offload;
++/*==================================================*/
++
++typedef u1Byte
++(*BFP_BTC_R1)(
++	IN	PVOID			pBtcContext,
++	IN	u4Byte			RegAddr
++	);
++typedef u2Byte
++(*BFP_BTC_R2)(
++	IN	PVOID			pBtcContext,
++	IN	u4Byte			RegAddr
++	);
++typedef u4Byte
++(*BFP_BTC_R4)(
++	IN	PVOID			pBtcContext,
++	IN	u4Byte			RegAddr
++	);
++typedef VOID
++(*BFP_BTC_W1)(
++	IN	PVOID			pBtcContext,
++	IN	u4Byte			RegAddr,
++	IN	u1Byte			Data
++	);
++typedef VOID
++(*BFP_BTC_W1_BIT_MASK)(
++	IN	PVOID			pBtcContext,
++	IN	u4Byte			regAddr,
++	IN	u1Byte			bitMask,
++	IN	u1Byte			data1b
++	);
++typedef VOID
++(*BFP_BTC_W2)(
++	IN	PVOID			pBtcContext,
++	IN	u4Byte			RegAddr,
++	IN	u2Byte			Data
++	);
++typedef VOID
++(*BFP_BTC_W4)(
++	IN	PVOID			pBtcContext,
++	IN	u4Byte			RegAddr,
++	IN	u4Byte			Data
++	);
++typedef VOID
++(*BFP_BTC_LOCAL_REG_W1)(
++	IN	PVOID			pBtcContext,
++	IN	u4Byte			RegAddr,
++	IN	u1Byte			Data
++	);
++typedef VOID
++(*BFP_BTC_SET_BB_REG)(
++	IN	PVOID			pBtcContext,
++	IN	u4Byte			RegAddr,
++	IN	u4Byte			BitMask,
++	IN	u4Byte			Data
++	);
++typedef u4Byte
++(*BFP_BTC_GET_BB_REG)(
++	IN	PVOID			pBtcContext,
++	IN	u4Byte			RegAddr,
++	IN	u4Byte			BitMask
++	);
++typedef VOID
++(*BFP_BTC_SET_RF_REG)(
++	IN	PVOID			pBtcContext,
++	IN	u1Byte			eRFPath,
++	IN	u4Byte			RegAddr,
++	IN	u4Byte			BitMask,
++	IN	u4Byte			Data
++	);
++typedef u4Byte
++(*BFP_BTC_GET_RF_REG)(
++	IN	PVOID			pBtcContext,
++	IN	u1Byte			eRFPath,
++	IN	u4Byte			RegAddr,
++	IN	u4Byte			BitMask
++	);
++typedef VOID
++(*BFP_BTC_FILL_H2C)(
++	IN	PVOID			pBtcContext,
++	IN	u1Byte			elementId,
++	IN	u4Byte			cmdLen,
++	IN	pu1Byte			pCmdBuffer
++	);
++
++typedef	BOOLEAN
++(*BFP_BTC_GET)(
++	IN	PVOID			pBtCoexist,
++	IN	u1Byte			getType,
++	OUT	PVOID			pOutBuf
++	);
++
++typedef	BOOLEAN
++(*BFP_BTC_SET)(
++	IN	PVOID			pBtCoexist,
++	IN	u1Byte			setType,
++	OUT	PVOID			pInBuf
++	);
++typedef u2Byte
++(*BFP_BTC_SET_BT_REG)(
++	IN	PVOID			pBtcContext,
++	IN	u1Byte			regType,
++	IN	u4Byte			offset,
++	IN	u4Byte			value
++	);
++typedef BOOLEAN
++(*BFP_BTC_SET_BT_ANT_DETECTION)(
++	IN	PVOID			pBtcContext,
++	IN	u1Byte			txTime,
++	IN	u1Byte			btChnl
++	);
++
++typedef BOOLEAN
++(*BFP_BTC_SET_BT_TRX_MASK)(
++	IN	PVOID			pBtcContext,
++	IN	u1Byte			bt_trx_mask
++	);
++
++typedef u4Byte
++(*BFP_BTC_GET_BT_REG)(
++	IN	PVOID			pBtcContext,
++	IN	u1Byte			regType,
++	IN	u4Byte			offset
++	);
++typedef VOID
++(*BFP_BTC_DISP_DBG_MSG)(
++	IN	PVOID			pBtCoexist,
++	IN	u1Byte			dispType
++	);
++
++typedef COL_H2C_STATUS
++(*BFP_BTC_COEX_H2C_PROCESS)(
++	IN	PVOID			pBtCoexist,
++	IN	u1Byte			opcode,
++	IN	u1Byte			opcode_ver,
++	IN	pu1Byte			ph2c_par,
++	IN	u1Byte			h2c_par_len
++	);
++
++typedef u4Byte
++(*BFP_BTC_GET_BT_COEX_SUPPORTED_FEATURE)(
++	IN	PVOID			pBtcContext
++	);
++
++typedef u4Byte
++(*BFP_BTC_GET_BT_COEX_SUPPORTED_VERSION)(
++	IN	PVOID			pBtcContext
++	);
++
++typedef u4Byte
++(*BFP_BTC_GET_PHYDM_VERSION)(
++	IN	PVOID			pBtcContext
++	);
++
++typedef VOID
++(*BTC_PHYDM_MODIFY_RA_PCR_THRESHLOD)(
++	IN	PVOID		pDM_Odm,
++	IN	u1Byte		RA_offset_direction,
++	IN	u1Byte		RA_threshold_offset
++	);
++
++typedef u4Byte
++(*BTC_PHYDM_CMNINFOQUERY)(
++	IN		PVOID	pDM_Odm,
++	IN		u1Byte	info_type
++	);
++
++typedef u1Byte
++(*BFP_BTC_GET_ANT_DET_VAL_FROM_BT)(
++
++	IN	PVOID			pBtcContext
++	);
++
++typedef u1Byte
++(*BFP_BTC_GET_BLE_SCAN_TYPE_FROM_BT)(
++	IN	PVOID			pBtcContext
++	);
++
++typedef u4Byte
++(*BFP_BTC_GET_BLE_SCAN_PARA_FROM_BT)(
++	IN	PVOID			pBtcContext,
++	IN  u1Byte			scanType
++	);
++
++struct  btc_bt_info {
++	boolean					bt_disabled;
++	boolean				bt_enable_disable_change;
++	u8					rssi_adjust_for_agc_table_on;
++	u8					rssi_adjust_for_1ant_coex_type;
++	boolean					pre_bt_ctrl_agg_buf_size;
++	boolean					bt_ctrl_agg_buf_size;
++	boolean					pre_reject_agg_pkt;
++	boolean					reject_agg_pkt;
++	boolean					increase_scan_dev_num;
++	boolean					bt_tx_rx_mask;
++	u8					pre_agg_buf_size;
++	u8					agg_buf_size;
++	boolean					bt_busy;
++	boolean					limited_dig;
++	u16					bt_hci_ver;
++	u16					bt_real_fw_ver;
++	u8					bt_fw_ver;
++	u32					get_bt_fw_ver_cnt;
++	u32					bt_get_fw_ver;
++	boolean					miracast_plus_bt;
++
++	boolean					bt_disable_low_pwr;
++
++	boolean					bt_ctrl_lps;
++	boolean					bt_lps_on;
++	boolean					force_to_roam;	/* for 1Ant solution */
++	u8					lps_val;
++	u8					rpwm_val;
++	u32					ra_mask;
++};
++
++struct btc_stack_info {
++	boolean					profile_notified;
++	u16					hci_version;	/* stack hci version */
++	u8					num_of_link;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					acl_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	u8					num_of_hid;
++	boolean					pan_exist;
++	boolean					unknown_acl_exist;
++	s8					min_bt_rssi;
++};
++
++struct btc_bt_link_info {
++	boolean					bt_link_exist;
++	boolean					bt_hi_pri_link_exist;
++	boolean					sco_exist;
++	boolean					sco_only;
++	boolean					a2dp_exist;
++	boolean					a2dp_only;
++	boolean					hid_exist;
++	boolean					hid_only;
++	boolean					pan_exist;
++	boolean					pan_only;
++	boolean					slave_role;
++	boolean					acl_busy;
++};
++
++struct btc_statistics {
++	u32					cnt_bind;
++	u32					cnt_power_on;
++	u32					cnt_pre_load_firmware;
++	u32					cnt_init_hw_config;
++	u32					cnt_init_coex_dm;
++	u32					cnt_ips_notify;
++	u32					cnt_lps_notify;
++	u32					cnt_scan_notify;
++	u32					cnt_connect_notify;
++	u32					cnt_media_status_notify;
++	u32					cnt_specific_packet_notify;
++	u32					cnt_bt_info_notify;
++	u32					cnt_rf_status_notify;
++	u32					cnt_periodical;
++	u32					cnt_coex_dm_switch;
++	u32					cnt_stack_operation_notify;
++	u32					cnt_dbg_ctrl;
++};
++
++struct btc_coexist {
++	BOOLEAN				bBinded;		/*make sure only one adapter can bind the data context*/
++	PVOID				Adapter;		/*default adapter*/
++	struct  btc_board_info		board_info;
++	struct  btc_bt_info			bt_info;		/*some bt info referenced by non-bt module*/
++	struct  btc_stack_info		stack_info;
++	struct  btc_bt_link_info		bt_link_info;
++	BTC_CHIP_INTERFACE		chip_interface;
++	PVOID					odm_priv;
++
++	BOOLEAN					initilized;
++	BOOLEAN					stop_coex_dm;
++	BOOLEAN					manual_control;
++	BOOLEAN					bdontenterLPS;
++	pu1Byte					cli_buf;
++	struct btc_statistics		statistics;
++	u1Byte				pwrModeVal[10];
++
++	/* function pointers */
++	/* io related */
++	BFP_BTC_R1			btc_read_1byte;
++	BFP_BTC_W1			btc_write_1byte;
++	BFP_BTC_W1_BIT_MASK	btc_write_1byte_bitmask;
++	BFP_BTC_R2			btc_read_2byte;
++	BFP_BTC_W2			btc_write_2byte;
++	BFP_BTC_R4			btc_read_4byte;
++	BFP_BTC_W4			btc_write_4byte;
++	BFP_BTC_LOCAL_REG_W1	btc_write_local_reg_1byte;
++	/* read/write bb related */
++	BFP_BTC_SET_BB_REG	btc_set_bb_reg;
++	BFP_BTC_GET_BB_REG	btc_get_bb_reg;
++
++	/* read/write rf related */
++	BFP_BTC_SET_RF_REG	btc_set_rf_reg;
++	BFP_BTC_GET_RF_REG	btc_get_rf_reg;
++
++	/* fill h2c related */
++	BFP_BTC_FILL_H2C		btc_fill_h2c;
++	/* other */
++	BFP_BTC_DISP_DBG_MSG	btc_disp_dbg_msg;
++	/* normal get/set related */
++	BFP_BTC_GET			btc_get;
++	BFP_BTC_SET			btc_set;
++
++	BFP_BTC_GET_BT_REG	btc_get_bt_reg;
++	BFP_BTC_SET_BT_REG	btc_set_bt_reg;
++
++	BFP_BTC_SET_BT_ANT_DETECTION	btc_set_bt_ant_detection;
++
++	BFP_BTC_COEX_H2C_PROCESS	btc_coex_h2c_process;
++	BFP_BTC_SET_BT_TRX_MASK		btc_set_bt_trx_mask;
++	BFP_BTC_GET_BT_COEX_SUPPORTED_FEATURE btc_get_bt_coex_supported_feature;
++	BFP_BTC_GET_BT_COEX_SUPPORTED_VERSION btc_get_bt_coex_supported_version;
++	BFP_BTC_GET_PHYDM_VERSION		btc_get_bt_phydm_version;
++	BTC_PHYDM_MODIFY_RA_PCR_THRESHLOD	btc_phydm_modify_RA_PCR_threshold;
++	BTC_PHYDM_CMNINFOQUERY				btc_phydm_query_PHY_counter;
++	BFP_BTC_GET_ANT_DET_VAL_FROM_BT		btc_get_ant_det_val_from_bt;
++	BFP_BTC_GET_BLE_SCAN_TYPE_FROM_BT	btc_get_ble_scan_type_from_bt;
++	BFP_BTC_GET_BLE_SCAN_PARA_FROM_BT	btc_get_ble_scan_para_from_bt;
++};
++typedef struct btc_coexist *PBTC_COEXIST;
++
++extern struct btc_coexist	GLBtCoexist;
++
++BOOLEAN
++EXhalbtcoutsrc_InitlizeVariables(
++	IN	PVOID		Adapter
++	);
++VOID
++EXhalbtcoutsrc_PowerOnSetting(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtcoutsrc_PreLoadFirmware(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtcoutsrc_InitHwConfig(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN				bWifiOnly
++	);
++VOID
++EXhalbtcoutsrc_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtcoutsrc_IpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtcoutsrc_LpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtcoutsrc_ScanNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtcoutsrc_SetAntennaPathNotify(
++	IN	PBTC_COEXIST	pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtcoutsrc_ConnectNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			action
++	);
++VOID
++EXhalbtcoutsrc_MediaStatusNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	RT_MEDIA_STATUS	mediaStatus
++	);
++VOID
++EXhalbtcoutsrc_SpecificPacketNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			pktType
++	);
++VOID
++EXhalbtcoutsrc_BtInfoNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	pu1Byte			tmpBuf,
++	IN	u1Byte			length
++	);
++VOID
++EXhalbtcoutsrc_RfStatusNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte				type
++	);
++VOID
++EXhalbtcoutsrc_StackOperationNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtcoutsrc_HaltNotify(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtcoutsrc_PnpNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			pnpState
++	);
++VOID
++EXhalbtcoutsrc_CoexDmSwitch(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtcoutsrc_Periodical(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtcoutsrc_DbgControl(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				opCode,
++	IN	u1Byte				opLen,
++	IN	pu1Byte				pData
++	);
++VOID
++EXhalbtcoutsrc_AntennaDetection(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u4Byte					centFreq,
++	IN	u4Byte					offset,
++	IN	u4Byte					span,
++	IN	u4Byte					seconds
++	);
++VOID
++EXhalbtcoutsrc_StackUpdateProfileInfo(
++	VOID
++	);
++VOID
++EXhalbtcoutsrc_SetHciVersion(
++	IN	u2Byte	hciVersion
++	);
++VOID
++EXhalbtcoutsrc_SetBtPatchVersion(
++	IN	u2Byte	btHciVersion,
++	IN	u2Byte	btPatchVersion
++	);
++VOID
++EXhalbtcoutsrc_UpdateMinBtRssi(
++	IN	s1Byte	btRssi
++	);
++#if 0
++VOID
++EXhalbtcoutsrc_SetBtExist(
++	IN	BOOLEAN		bBtExist
++	);
++#endif
++VOID
++EXhalbtcoutsrc_SetChipType(
++	IN	u1Byte		chipType
++	);
++VOID
++EXhalbtcoutsrc_SetAntNum(
++	IN	u1Byte		type,
++	IN	u1Byte		antNum
++	);
++VOID
++EXhalbtcoutsrc_SetSingleAntPath(
++	IN	u1Byte		singleAntPath
++	);
++VOID
++EXhalbtcoutsrc_DisplayBtCoexInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtcoutsrc_DisplayAntDetection(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++
++#define	MASKBYTE0		0xff
++#define	MASKBYTE1		0xff00
++#define	MASKBYTE2		0xff0000
++#define	MASKBYTE3		0xff000000
++#define	MASKHWORD	0xffff0000
++#define	MASKLWORD		0x0000ffff
++#define	MASKDWORD	0xffffffff
++#define	MASK12BITS		0xfff
++#define	MASKH4BITS		0xf0000000
++#define	MASKOFDM_D	0xffc00000
++#define	MASKCCK		0x3f3f3f3f
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/Mp_Precomp.h b/drivers/net/wireless/rtl8723du/hal/btc/Mp_Precomp.h
+new file mode 100644
+index 0000000..52fda4f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/Mp_Precomp.h
+@@ -0,0 +1,104 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __MP_PRECOMP_H__
++#define __MP_PRECOMP_H__
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#define BT_TMP_BUF_SIZE	100
++
++#ifdef PLATFORM_LINUX
++#define rsprintf snprintf
++#elif defined(PLATFORM_WINDOWS)
++#define rsprintf sprintf_s
++#endif
++
++#define DCMD_Printf			DBG_BT_INFO
++
++#define delay_ms(ms)		rtw_mdelay_os(ms)
++
++#ifdef bEnable
++#undef bEnable
++#endif
++
++#define WPP_SOFTWARE_TRACE 0
++
++typedef enum _BTC_MSG_COMP_TYPE{
++	COMP_COEX		= 0,
++	COMP_MAX
++}BTC_MSG_COMP_TYPE;
++extern u4Byte GLBtcDbgType[];
++
++#define DBG_OFF			0
++#define DBG_SEC			1
++#define DBG_SERIOUS		2
++#define DBG_WARNING		3
++#define DBG_LOUD		4
++#define DBG_TRACE		5
++
++#if DBG
++#ifdef RT_TRACE
++#undef RT_TRACE
++#define RT_TRACE(dbgtype, dbgflag, printstr)\
++do {\
++	if (GLBtcDbgType[dbgtype] & BIT(dbgflag))\
++	{\
++		DbgPrint printstr;\
++	}\
++} while (0)
++#endif
++#else
++#define RT_TRACE(dbgtype, dbgflag, printstr)
++#endif
++
++#ifdef CONFIG_BT_COEXIST
++#define BT_SUPPORT		1
++#define COEX_SUPPORT	1
++#define HS_SUPPORT		1
++#else
++#define BT_SUPPORT		0
++#define COEX_SUPPORT	0
++#define HS_SUPPORT		0
++#endif
++
++#include "HalBtcOutSrc.h"
++#include "HalBtc8188c2Ant.h"
++#include "HalBtc8192d2Ant.h"
++#include "HalBtc8192e1Ant.h"
++#include "HalBtc8192e2Ant.h"
++#include "HalBtc8723a1Ant.h"
++#include "HalBtc8723a2Ant.h"
++#include "HalBtc8723b1Ant.h"
++#include "HalBtc8723b2Ant.h"
++#include "HalBtc8812a1Ant.h"
++#include "HalBtc8812a2Ant.h"
++#include "HalBtc8821a1Ant.h"
++#include "HalBtc8821a2Ant.h"
++#include "HalBtc8821aCsr2Ant.h"
++#include "HalBtc8703b1Ant.h"
++#include "halbtc8723d1ant.h"
++#include "halbtc8723d2ant.h"
++#include "HalBtc8822b1Ant.h"
++#include "halbtc8821c1ant.h"
++#include "halbtc8821c2ant.h"
++
++
++#endif // __MP_PRECOMP_H__
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/halbtc8723d1ant.c b/drivers/net/wireless/rtl8723du/hal/btc/halbtc8723d1ant.c
+new file mode 100644
+index 0000000..ef92d57
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/halbtc8723d1ant.c
+@@ -0,0 +1,6169 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8723D Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8723D_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	*trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8723d_1ant		glcoex_dm_8723d_1ant;
++static struct  coex_dm_8723d_1ant	*coex_dm = &glcoex_dm_8723d_1ant;
++static struct  coex_sta_8723d_1ant		glcoex_sta_8723d_1ant;
++static struct  coex_sta_8723d_1ant	*coex_sta = &glcoex_sta_8723d_1ant;
++static struct  psdscan_sta_8723d_1ant	gl_psd_scan_8723d_1ant;
++static struct  psdscan_sta_8723d_1ant *psd_scan = &gl_psd_scan_8723d_1ant;
++
++
++const char *const glbt_info_src_8723d_1ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++/* ************************************************************
++ * BtCoex Version Format:
++ * 1. date :			glcoex_ver_date_XXXXX_1ant
++ * 2. WifiCoexVersion : glcoex_ver_XXXX_1ant
++ * 3. BtCoexVersion :	glcoex_ver_btdesired_XXXXX_1ant
++ * 4. others :			glcoex_ver_XXXXXX_XXXXX_1ant
++ *
++ * Variable should be indicated IC and Antenna numbers !!!
++ * Please strictly follow this order and naming style !!!
++ *
++ * ************************************************************ */
++u32	glcoex_ver_date_8723d_1ant = 20160805;
++u32	glcoex_ver_8723d_1ant = 0x0c;
++u32 glcoex_ver_btdesired_8723d_1ant = 0x0a;
++
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8723d1ant_
++ * ************************************************************ */
++u8 halbtc8723d1ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8723D_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8723D_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8723D_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8723d1ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8723D_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8723D_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8723D_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8723d1ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8723d1ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8723d1ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8723d1ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8723d1ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	switch (ra_mask_type) {
++	case 0:	/* normal mode */
++		halbtc8723d1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0);
++		break;
++	case 1:	/* disable cck 1/2 */
++		halbtc8723d1ant_update_ra_mask(btcoexist, force_exec,
++					       0x00000003);
++		break;
++	case 2:	/* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		halbtc8723d1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0001f1f7);
++		break;
++	default:
++		break;
++	}
++
++	halbtc8723d1ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8723d1ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8723d1ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++void halbtc8723d1ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8723d1ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], WL query BT info!!\n");
++	BTC_TRACE(trace_buf);
++}
++
++void halbtc8723d1ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++	static u8		num_of_bt_counter_chk = 0, cnt_slave = 0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	/* to avoid 0x76e[3] = 1 (WLAN_Act control by PTA) during IPS */
++	/* if (! (btcoexist->btc_read_1byte(btcoexist, 0x76e) & 0x8) ) */
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Hi-Pri Rx/Tx: %d/%d, Lo-Pri Rx/Tx: %d/%d\n",
++		    reg_hp_rx, reg_hp_tx, reg_lp_rx, reg_lp_tx);
++
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++
++	if ((coex_sta->low_priority_tx > 1150)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++
++	if ((coex_sta->low_priority_rx >= 1150) &&
++	    (coex_sta->low_priority_rx >= coex_sta->low_priority_tx)
++	    && (!coex_sta->under_ips)  && (!coex_sta->c2h_bt_inquiry_page) &&
++	    (coex_sta->bt_link_exist))	{
++		if (cnt_slave >= 3) {
++			bt_link_info->slave_role = true;
++			cnt_slave = 3;
++		} else
++			cnt_slave++;
++	} else {
++		if (cnt_slave == 0)	{
++			bt_link_info->slave_role = false;
++			cnt_slave = 0;
++		} else
++			cnt_slave--;
++
++	}
++
++	if ((coex_sta->high_priority_tx == 0) &&
++	    (coex_sta->high_priority_rx == 0) &&
++	    (coex_sta->low_priority_tx == 0) &&
++	    (coex_sta->low_priority_rx == 0)) {
++		num_of_bt_counter_chk++;
++		if (num_of_bt_counter_chk >= 3) {
++			halbtc8723d1ant_query_bt_info(btcoexist);
++			num_of_bt_counter_chk = 0;
++		}
++	}
++
++
++}
++
++
++
++void halbtc8723d1ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++#if 1
++		s32 wifi_rssi = 0;
++		boolean wifi_busy = false, wifi_under_b_mode = false;
++		static u8 cck_lock_counter = 0;
++		u32 total_cnt, reg_val1, reg_val2;
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++		btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++
++		coex_sta->crc_ok_cck = btcoexist->btc_phydm_query_PHY_counter(
++									btcoexist, PHYDM_INFO_CRC32_OK_CCK);
++		coex_sta->crc_ok_11g = btcoexist->btc_phydm_query_PHY_counter(
++									btcoexist, PHYDM_INFO_CRC32_OK_LEGACY);
++		coex_sta->crc_ok_11n = btcoexist->btc_phydm_query_PHY_counter(
++									btcoexist, PHYDM_INFO_CRC32_OK_HT);
++		coex_sta->crc_ok_11n_vht = btcoexist->btc_phydm_query_PHY_counter(
++									btcoexist, PHYDM_INFO_CRC32_OK_VHT);
++
++		coex_sta->crc_err_cck = btcoexist->btc_phydm_query_PHY_counter(
++									btcoexist, PHYDM_INFO_CRC32_ERROR_CCK);
++		coex_sta->crc_err_11g =  btcoexist->btc_phydm_query_PHY_counter(
++									btcoexist, PHYDM_INFO_CRC32_ERROR_LEGACY);
++		coex_sta->crc_err_11n = btcoexist->btc_phydm_query_PHY_counter(
++									btcoexist, PHYDM_INFO_CRC32_ERROR_HT);
++		coex_sta->crc_err_11n_vht = btcoexist->btc_phydm_query_PHY_counter(
++									btcoexist, PHYDM_INFO_CRC32_ERROR_VHT);
++
++
++		if ((wifi_busy) && (wifi_rssi >= 30) && (!wifi_under_b_mode)) {
++			total_cnt = coex_sta->crc_ok_cck + coex_sta->crc_ok_11g +
++					coex_sta->crc_ok_11n + coex_sta->crc_ok_11n_vht;
++
++			if ((coex_dm->bt_status == BT_8723D_1ANT_BT_STATUS_ACL_BUSY) ||
++				(coex_dm->bt_status == BT_8723D_1ANT_BT_STATUS_ACL_SCO_BUSY) ||
++				(coex_dm->bt_status == BT_8723D_1ANT_BT_STATUS_SCO_BUSY)) {
++				if (coex_sta->crc_ok_cck > (total_cnt -
++								coex_sta->crc_ok_cck)) {
++					if (cck_lock_counter < 3)
++						cck_lock_counter++;
++				} else {
++					if (cck_lock_counter > 0)
++						cck_lock_counter--;
++				}
++
++			} else {
++				if (cck_lock_counter > 0)
++					cck_lock_counter--;
++			}
++		} else {
++			if (cck_lock_counter > 0)
++				cck_lock_counter--;
++		}
++
++		if (!coex_sta->pre_ccklock) {
++
++			if (cck_lock_counter >= 3)
++				coex_sta->cck_lock = true;
++			else
++				coex_sta->cck_lock = false;
++		} else {
++			if (cck_lock_counter == 0)
++				coex_sta->cck_lock = false;
++			else
++				coex_sta->cck_lock = true;
++		}
++
++		if (coex_sta->cck_lock)
++			coex_sta->cck_ever_lock = true;
++
++		coex_sta->pre_ccklock =  coex_sta->cck_lock;
++
++#endif
++}
++
++
++
++boolean halbtc8723d1ant_is_wifibt_status_changed(IN struct btc_coexist
++		*btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false, pre_bt_off = false;
++	boolean wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (coex_sta->bt_disabled != pre_bt_off) {
++		pre_bt_off = coex_sta->bt_disabled;
++
++		if (coex_sta->bt_disabled)
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++		else
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is enabled !!\n");
++
++		BTC_TRACE(trace_buf);
++
++		coex_sta->bt_coex_supported_feature = 0;
++		coex_sta->bt_coex_supported_version = 0;
++		coex_sta->bt_reg_vendor_ac = 0xffff;
++		coex_sta->bt_reg_vendor_ae = 0xffff;
++		return true;
++	}
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++	}
++
++	return false;
++}
++
++void halbtc8723d1ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct	btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean		bt_hs_on = false;
++	boolean		bt_busy = false;
++
++
++	coex_sta->num_of_profile = 0;
++
++	/* set link exist status */
++	if (!(coex_sta->bt_info & BT_INFO_8723D_1ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (coex_sta->bt_info & BT_INFO_8723D_1ANT_B_FTP) {
++			coex_sta->pan_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->pan_exist = false;
++
++		if (coex_sta->bt_info & BT_INFO_8723D_1ANT_B_A2DP) {
++			coex_sta->a2dp_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->a2dp_exist = false;
++
++		if (coex_sta->bt_info & BT_INFO_8723D_1ANT_B_HID) {
++			coex_sta->hid_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->hid_exist = false;
++
++		if (coex_sta->bt_info & BT_INFO_8723D_1ANT_B_SCO_ESCO) {
++			coex_sta->sco_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->sco_exist = false;
++
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++	bt_link_info->acl_busy = coex_sta->acl_busy;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++
++	if (!(coex_sta->bt_info & BT_INFO_8723D_1ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8723D_1ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++	} else if (coex_sta->bt_info == BT_INFO_8723D_1ANT_B_CONNECTION) {
++		/* connection exists but no busy */
++		coex_dm->bt_status = BT_8723D_1ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++	} else if (((coex_sta->bt_info & BT_INFO_8723D_1ANT_B_SCO_ESCO) ||
++		    (coex_sta->bt_info & BT_INFO_8723D_1ANT_B_SCO_BUSY)) &&
++		   (coex_sta->bt_info & BT_INFO_8723D_1ANT_B_ACL_BUSY)) {
++		coex_dm->bt_status = BT_8723D_1ANT_BT_STATUS_ACL_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL SCO busy!!!\n");
++	} else if ((coex_sta->bt_info & BT_INFO_8723D_1ANT_B_SCO_ESCO) ||
++		   (coex_sta->bt_info & BT_INFO_8723D_1ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8723D_1ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++	} else if (coex_sta->bt_info & BT_INFO_8723D_1ANT_B_ACL_BUSY) {
++		coex_dm->bt_status = BT_8723D_1ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++	} else {
++		coex_dm->bt_status = BT_8723D_1ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++	}
++
++	BTC_TRACE(trace_buf);
++
++	if ((BT_8723D_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8723D_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8723D_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		bt_busy = true;
++	else
++		bt_busy = false;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++}
++
++
++void halbtc8723d1ant_update_wifi_channel_info(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] =
++			0x1;  /* enable BT AFH skip WL channel for 8723d because BT Rx LO interference */
++		/* h2c_parameter[0] = 0x0; */
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++
++}
++
++u8 halbtc8723d1ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8723D_1ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Profile = SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8723D_1ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_1ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_1ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8723D_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID + A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_1ANT_COEX_ALGO_HID_A2DP;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8723D_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! BT Profile = SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8723d1ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8723d1ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8723d1ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8723d1ant_set_fw_low_penalty_ra(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++#if 0
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++#endif
++}
++
++void halbtc8723d1ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++#if 1
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++
++	if (low_penalty_ra)
++		btcoexist->btc_phydm_modify_RA_PCR_threshold(btcoexist, 0, 15);
++	else
++		btcoexist->btc_phydm_modify_RA_PCR_threshold(btcoexist, 0, 0);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++
++#endif
++
++}
++
++void halbtc8723d1ant_sw_mechanism(IN struct btc_coexist *btcoexist,
++				  IN boolean low_penalty_ra)
++{
++	halbtc8723d1ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8723d1ant_write_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	u16				bitpos,
++	IN	boolean		state
++)
++{
++
++	static u16 originalval = 0x8002;
++
++	if (state)
++		originalval = originalval | bitpos;
++	else
++		originalval = originalval & (~bitpos);
++
++
++	btcoexist->btc_write_2byte(btcoexist, 0xaa, originalval);
++
++}
++
++void halbtc8723d1ant_read_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN   u16				*score_board_val
++)
++{
++
++	*score_board_val = (btcoexist->btc_read_2byte(btcoexist,
++			    0xaa)) & 0x7fff;
++}
++
++void halbtc8723d1ant_post_state_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	u16						type,
++	IN  boolean                 state
++)
++{
++
++	halbtc8723d1ant_write_score_board(btcoexist, (u16) type, state);
++
++}
++
++
++void halbtc8723d1ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++	u16			u16tmp;
++
++	/* This function check if bt is disabled */
++#if 0
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++
++
++#else
++
++	/* Read BT on/off status from scoreboard[1], enable this only if BT patch support this feature */
++	halbtc8723d1ant_read_score_board(btcoexist,	&u16tmp);
++
++	bt_active = u16tmp & BIT(1);
++
++
++#endif
++
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	} else {
++
++		bt_disable_cnt++;
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			bt_disable_cnt = 2;
++		}
++
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	}
++
++
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++	}
++
++}
++
++void halbtc8723d1ant_enable_gnt_to_gpio(IN struct btc_coexist *btcoexist,
++					boolean isenable)
++{
++#if BT_8723D_1ANT_COEX_DBG
++	if (isenable) {
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x1);
++
++		/* enable GNT_BT to GPIO debug */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x40, 0x0);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x1, 0x0);
++
++		/* 0x48[20] = 0  for GPIO14 =  GNT_WL*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4a, 0x10, 0x0);
++		/* 0x40[17] = 0  for GPIO14 =  GNT_WL*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x42, 0x02, 0x0);
++
++		/* 0x66[9] = 0   for GPIO15 =  GNT_B T*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x02, 0x0);
++		/* 0x66[7] = 0
++		for GPIO15 =  GNT_BT*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x66, 0x80, 0x0);
++		/* 0x8[8] = 0    for GPIO15 =  GNT_BT*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x9, 0x1, 0x0);
++
++		/* BT Vendor Reg 0x76[0] = 0  for GPIO15 =  GNT_BT, this is not set here*/
++	} else {
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x0);
++
++		/* Disable GNT_BT debug to GPIO, and enable chip_wakeup_host */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x40, 0x1);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x1, 0x1);
++
++		/* 0x48[20] = 0  for GPIO14 =  GNT_WL*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4a, 0x10, 0x1);
++	}
++
++#endif
++}
++
++u32 halbtc8723d1ant_ltecoex_indirect_read_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr)
++{
++	u32 j = 0;
++
++
++	/* wait for ready bit before access 0x7c0		 */
++	btcoexist->btc_write_4byte(btcoexist, 0x7c0, 0x800F0000 | reg_addr);
++
++	do {
++		j++;
++	} while (((btcoexist->btc_read_1byte(btcoexist,
++					     0x7c3)&BIT(5)) == 0) &&
++		 (j < BT_8723D_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++	return btcoexist->btc_read_4byte(btcoexist,
++					 0x7c8);  /* get read data */
++
++}
++
++void halbtc8723d1ant_ltecoex_indirect_write_reg(IN struct btc_coexist
++		*btcoexist,
++		IN u16 reg_addr, IN u32 bit_mask, IN u32 reg_value)
++{
++	u32 val, i = 0, j = 0, bitpos = 0;
++
++
++	if (bit_mask == 0x0)
++		return;
++	if (bit_mask == 0xffffffff) {
++		btcoexist->btc_write_4byte(btcoexist, 0x7c4,
++					   reg_value); /* put write data */
++
++		/* wait for ready bit before access 0x7c0 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x7c3)&BIT(5)) == 0) &&
++			(j < BT_8723D_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x7c0,
++					   0xc00F0000 | reg_addr);
++	} else {
++		for (i = 0; i <= 31; i++) {
++			if (((bit_mask >> i) & 0x1) == 0x1) {
++				bitpos = i;
++				break;
++			}
++		}
++
++		/* read back register value before write */
++		val = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist,
++				reg_addr);
++		val = (val & (~bit_mask)) | (reg_value << bitpos);
++
++		btcoexist->btc_write_4byte(btcoexist, 0x7c4,
++					   val); /* put write data */
++
++		/* wait for ready bit before access 0x7c0		 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x7c3)&BIT(5)) == 0) &&
++			(j < BT_8723D_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x7c0,
++					   0xc00F0000 | reg_addr);
++
++	}
++
++}
++
++void halbtc8723d1ant_ltecoex_enable(IN struct btc_coexist *btcoexist,
++				    IN boolean enable)
++{
++	u8 val;
++
++	val = (enable) ? 1 : 0;
++	halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist, 0x38, 0x80,
++			val);  /* 0x38[7] */
++
++}
++
++void halbtc8723d1ant_ltecoex_pathcontrol_owner(IN struct btc_coexist *btcoexist,
++		IN boolean wifi_control)
++{
++	u8 val;
++
++	val = (wifi_control) ? 1 : 0;
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x4,
++					   val); /* 0x70[26] */
++
++}
++
++void halbtc8723d1ant_ltecoex_set_gnt_bt(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8723D_1ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0xc000;
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		bit_mask = 0x0c00;
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10]						 */
++		break;
++	case BT_8723D_1ANT_GNT_BLOCK_RFC:
++		bit_mask = 0xc000;
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		break;
++	case BT_8723D_1ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0c00;
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10] */
++		break;
++
++	}
++
++}
++
++void halbtc8723d1ant_ltecoex_set_gnt_wl(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8723D_1ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0x3000;
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		bit_mask = 0x0300;
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8]						 */
++		break;
++	case BT_8723D_1ANT_GNT_BLOCK_RFC:
++		bit_mask = 0x3000;
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		break;
++	case BT_8723D_1ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0300;
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8] */
++		break;
++
++	}
++
++}
++
++void halbtc8723d1ant_ltecoex_set_coex_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u16 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8723D_1ANT_CTT_WL_VS_LTE:
++		reg_addr = 0xa0;
++		break;
++	case BT_8723D_1ANT_CTT_BT_VS_LTE:
++		reg_addr = 0xa4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xffff, table_content); /* 0xa0[15:0] or 0xa4[15:0] */
++
++
++}
++
++
++void halbtc8723d1ant_ltecoex_set_break_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u8 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8723D_1ANT_LBTT_WL_BREAK_LTE:
++		reg_addr = 0xa8;
++		break;
++	case BT_8723D_1ANT_LBTT_BT_BREAK_LTE:
++		reg_addr = 0xac;
++		break;
++	case BT_8723D_1ANT_LBTT_LTE_BREAK_WL:
++		reg_addr = 0xb0;
++		break;
++	case BT_8723D_1ANT_LBTT_LTE_BREAK_BT:
++		reg_addr = 0xb4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xff, table_content); /* 0xa8[15:0] or 0xb4[15:0] */
++
++
++}
++
++void halbtc8723d1ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8723d1ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++
++	halbtc8723d1ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8723d1ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	u32	break_table;
++	u8	select_table;
++
++	coex_sta->coex_table_type = type;
++
++	if (coex_sta->concurrent_rx_mode_on == true) {
++		break_table = 0xf0ffffff;  /* set WL hi-pri can break BT */
++		select_table =
++			0xb;		/* set Tx response = Hi-Pri (ex: Transmitting ACK,BA,CTS) */
++	} else {
++		break_table = 0xffffff;
++		select_table = 0x3;
++	}
++
++	switch (type) {
++	case 0:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0x55555555, break_table,
++					   select_table);
++		break;
++	case 1:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0x5a5a5a5a, break_table,
++					   select_table);
++		break;
++	case 2:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0xaa5a5a5a, 0xaa5a5a5a, break_table,
++					   select_table);
++		break;
++	case 3:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0xaa555555, 0xaa5a5a5a, break_table,
++					   select_table);
++		break;
++	case 4:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					0xa5555555, 0xaa5a5a5a, break_table,
++					select_table);
++		break;
++	case 5:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					0x5a5a5a5a, 0x5a5a5a5a, break_table,
++					select_table);
++		break;
++	case 6:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 7:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0xaaaaaaaa, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 8:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					0xa5555555, 0xaaaaaaaa, break_table,
++					select_table);
++		break;
++	case 9:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					0xffffffff, 0xffffffff, break_table,
++					select_table);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8723d1ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8723d1ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8723d1ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8723d1ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8723d1ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8723d1ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8723d1ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++	u8	h2c_parameter[5] = {0x8, 0, 0, 0, 0};
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			/*halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8); */
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5,
++						h2c_parameter);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			/*halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);*/
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5,
++						h2c_parameter);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8723d1ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		coex_sta->force_lps_on = false;
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++
++		break;
++	case BTC_PS_LPS_ON:
++		coex_sta->force_lps_on = true;
++		halbtc8723d1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8723d1ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++
++		break;
++	case BTC_PS_LPS_OFF:
++		coex_sta->force_lps_on = false;
++		halbtc8723d1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++
++		break;
++	default:
++		break;
++	}
++}
++
++
++void halbtc8723d1ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], FW for AP mode\n");
++			BTC_TRACE(trace_buf);
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++
++			halbtc8723d1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0,
++							 0x0);
++		}
++	} else if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++
++		halbtc8723d1ant_power_save_state(
++			btcoexist, BTC_PS_LPS_ON, 0x50,
++			0x4);
++	} else {
++		halbtc8723d1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0,
++						 0x0);
++	}
++
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++
++void halbtc8723d1ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	boolean			wifi_busy = false;
++	static u8			psTdmaByte4Modify = 0x0, pre_psTdmaByte4Modify = 0x0;
++	static boolean	 pre_wifi_busy = false;
++
++
++#if BT_8723D_1ANT_ANTDET_ENABLE
++
++	if (board_info->btdm_ant_num_by_ant_det == 2) {
++#if 0
++		if (turn_on)
++			type = type +
++			       100;
++#endif
++	}
++
++#endif
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (wifi_busy != pre_wifi_busy) {
++		force_exec = true;
++		pre_wifi_busy = wifi_busy;
++	}
++
++	/* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++	if ((bt_link_info->slave_role) && (bt_link_info->a2dp_exist))
++		psTdmaByte4Modify = 0x1;
++	else
++		psTdmaByte4Modify = 0x0;
++
++	if (pre_psTdmaByte4Modify != psTdmaByte4Modify) {
++
++		force_exec = true;
++		pre_psTdmaByte4Modify = psTdmaByte4Modify;
++	}
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++
++	if (coex_dm->cur_ps_tdma_on) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(on, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(off, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	}
++
++
++	if (turn_on) {
++		switch (type) {
++		default:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x35, 0x03, 0x11, 0x11);
++			break;
++
++		case 3:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x3a, 0x03, 0x10, 0x10);
++			break;
++		case 4:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x21, 0x03, 0x10, 0x10);
++			break;
++		case 5:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x15, 0x03, 0x11, 0x11);
++			break;
++		case 6:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x20, 0x03, 0x11, 0x11);
++			break;
++		case 7:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x10, 0x03, 0x10, 0x14 |
++						      psTdmaByte4Modify);
++			break;
++		case 8:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x10, 0x03, 0x10, 0x14 |
++						      psTdmaByte4Modify);
++			break;
++		case 13:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x25, 0x03, 0x10, 0x10 |
++						      psTdmaByte4Modify);
++			break;
++		case 14:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x15, 0x03, 0x10, 0x10 |
++						      psTdmaByte4Modify);
++			break;
++		case 15:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x20, 0x03, 0x10, 0x10 |
++						      psTdmaByte4Modify);
++			break;
++		case 17:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x10, 0x03, 0x11, 0x14 |
++						      psTdmaByte4Modify);
++			break;
++		case 18:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x30, 0x03, 0x10, 0x10 |
++						      psTdmaByte4Modify);
++			break;
++		case 19:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x15, 0x03, 0x11, 0x10);
++			break;
++		case 20:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x30, 0x03, 0x11, 0x10);
++			break;
++		case 21:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x30, 0x03, 0x11, 0x10);
++			break;
++		case 22:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x25, 0x03, 0x11, 0x10);
++			break;
++		case 32:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x35, 0x03, 0x11, 0x11);
++			break;
++		case 33:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x35, 0x03, 0x11, 0x10);
++			break;
++		case 57:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x10, 0x03, 0x10,  0x10 |
++						      psTdmaByte4Modify);
++			break;
++		case 58:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x10, 0x03, 0x10,  0x10 |
++						      psTdmaByte4Modify);
++			break;
++		case 67:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x10, 0x03, 0x11,  0x10 |
++						      psTdmaByte4Modify);
++			break;
++
++		/*     1-Ant to 2-Ant      TDMA case */
++		case 103:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xd3, 0x3a, 0x03, 0x70, 0x10);
++			break;
++		case 104:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xd3, 0x21, 0x03, 0x70, 0x10);
++			break;
++		case 105:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x15, 0x03, 0x71, 0x11);
++			break;
++		case 106:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x20, 0x03, 0x71, 0x11);
++			break;
++		case 107:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xd3, 0x10, 0x03, 0x70,  0x14 |
++						      psTdmaByte4Modify);
++			break;
++		case 108:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xd3, 0x10, 0x03, 0x70,  0x14 |
++						      psTdmaByte4Modify);
++			break;
++		case 113:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xd3, 0x25, 0x03, 0x70,  0x10 |
++						      psTdmaByte4Modify);
++			break;
++		case 114:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xd3, 0x15, 0x03, 0x70,  0x10 |
++						      psTdmaByte4Modify);
++			break;
++		case 115:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xd3, 0x20, 0x03, 0x70,  0x10 |
++						      psTdmaByte4Modify);
++			break;
++		case 117:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x10, 0x03, 0x71,  0x14 |
++						      psTdmaByte4Modify);
++			break;;
++		case 119:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x15, 0x03, 0x71, 0x10);
++			break;
++		case 120:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x30, 0x03, 0x71, 0x10);
++			break;
++		case 121:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x30, 0x03, 0x71, 0x10);
++			break;
++		case 122:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x25, 0x03, 0x71, 0x10);
++			break;
++		case 132:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x35, 0x03, 0x71, 0x11);
++			break;
++		case 133:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x35, 0x03, 0x71, 0x10);
++			break;
++
++		}
++	} else {
++
++		/* disable PS tdma */
++		switch (type) {
++		case 8: /* PTA Control */
++			halbtc8723d1ant_set_fw_pstdma(btcoexist, 0x8,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 0:
++		default:  /* Software control, Antenna at BT side */
++			halbtc8723d1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 1: /* 2-Ant, 0x778=3, antenna control by antenna diversity */
++			halbtc8723d1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x48, 0x0);
++			break;
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++
++void halbtc8723d1ant_set_ant_path(IN struct btc_coexist *btcoexist,
++				  IN u8 ant_pos_type, IN boolean force_exec,
++				  IN u8 phase)
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++	u32			cnt_bt_cal_chk = 0;
++	boolean			is_in_mp_mode = false, is_hw_ant_div_on = false;
++	u8			u8tmp0 = 0, u8tmp1 = 0;
++	u32			u32tmp1 = 0, u32tmp2 = 0, u32tmp3 = 0;
++	u16			u16tmp0, u16tmp1 = 0;
++
++#if BT_8723D_1ANT_ANTDET_ENABLE
++
++	if (ant_pos_type == BTC_ANT_PATH_PTA) {
++		if ((board_info->btdm_ant_det_finish) &&
++		    (board_info->btdm_ant_num_by_ant_det == 2)) {
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT)
++				ant_pos_type = BTC_ANT_PATH_WIFI;
++			else
++				ant_pos_type = BTC_ANT_PATH_BT;
++		}
++	}
++
++#endif
++
++	coex_dm->cur_ant_pos_type = ant_pos_type;
++
++	if (!force_exec) {
++		if (coex_dm->cur_ant_pos_type == coex_dm->pre_ant_pos_type) {
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], ********** Skip Antenna Path Setup because no change!!**********\n");
++			BTC_TRACE(trace_buf);
++			return;
++		}
++	}
++
++	coex_dm->pre_ant_pos_type = coex_dm->cur_ant_pos_type;
++
++
++#if BT_8723D_1ANT_COEX_DBG
++	u32tmp1 = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++	u16tmp0 = btcoexist->btc_read_2byte(btcoexist, 0xaa);
++	u16tmp1 = btcoexist->btc_read_2byte(btcoexist, 0x948);
++	u8tmp1  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++	u8tmp0 =  btcoexist->btc_read_1byte(btcoexist, 0x67);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** 0x67 = 0x%x, 0x948 = 0x%x, 0x73 = 0x%x(Before Set Ant Pat)\n",
++		    u8tmp0, u16tmp1, u8tmp1);
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********0x38= 0x%x, 0x54= 0x%x, 0xaa = 0x%x(Before Set Ant Path)\n",
++		    u32tmp1, u32tmp2, u16tmp0);
++	BTC_TRACE(trace_buf);
++#endif
++
++
++	switch (phase) {
++	case BT_8723D_1ANT_PHASE_COEX_POWERON:
++		/* Set Path control to WL */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67,
++						   0x80, 0x0);
++
++		/* set Path control owner to WL at initial step */
++		halbtc8723d1ant_ltecoex_pathcontrol_owner(btcoexist,
++				BT_8723D_1ANT_PCO_BTSIDE);
++
++		/* set GNT_BT to SW high */
++		halbtc8723d1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_1ANT_SIG_STA_SET_TO_HIGH);
++		/* Set GNT_WL to SW low */
++		halbtc8723d1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_1ANT_SIG_STA_SET_TO_HIGH);
++
++		if (BTC_ANT_PATH_AUTO == ant_pos_type)
++			ant_pos_type = BTC_ANT_PATH_BT;
++
++		coex_sta->run_time_state = false;
++
++		break;
++	case BT_8723D_1ANT_PHASE_COEX_INIT:
++		/* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++		halbtc8723d1ant_ltecoex_enable(btcoexist, 0x0);
++
++		/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++		halbtc8723d1ant_ltecoex_set_coex_table(btcoexist,
++				       BT_8723D_1ANT_CTT_WL_VS_LTE, 0xffff);
++
++		/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++		halbtc8723d1ant_ltecoex_set_coex_table(btcoexist,
++				       BT_8723D_1ANT_CTT_BT_VS_LTE, 0xffff);
++
++		/* Wait If BT IQK running, because Path control owner is at BT during BT IQK (setup by WiFi firmware) */
++		while (cnt_bt_cal_chk <= 20) {
++			u8tmp0 = btcoexist->btc_read_1byte(btcoexist,
++							   0x49d);
++			cnt_bt_cal_chk++;
++			if (u8tmp0 & BIT(0)) {
++				BTC_SPRINTF(trace_buf,
++					    BT_TMP_BUF_SIZE,
++					"[BTCoex], ########### BT is calibrating (wait cnt=%d) ###########\n",
++					    cnt_bt_cal_chk);
++				BTC_TRACE(trace_buf);
++				delay_ms(50);
++			} else {
++				BTC_SPRINTF(trace_buf,
++					    BT_TMP_BUF_SIZE,
++					"[BTCoex], ********** WL is NOT calibrating (wait cnt=%d)**********\n",
++					    cnt_bt_cal_chk);
++				BTC_TRACE(trace_buf);
++				break;
++			}
++		}
++
++		/* Set Path control to WL */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67,
++						   0x80, 0x1);
++
++		/* set Path control owner to WL at initial step */
++		halbtc8723d1ant_ltecoex_pathcontrol_owner(btcoexist,
++				BT_8723D_1ANT_PCO_WLSIDE);
++
++		/* set GNT_BT to SW high */
++		halbtc8723d1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_1ANT_SIG_STA_SET_TO_HIGH);
++		/* Set GNT_WL to SW low */
++		halbtc8723d1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_1ANT_SIG_STA_SET_TO_HIGH);
++
++		if (BTC_ANT_PATH_AUTO == ant_pos_type)
++			ant_pos_type = BTC_ANT_PATH_BT;
++
++		coex_sta->run_time_state = false;
++		break;
++	case BT_8723D_1ANT_PHASE_WLANONLY_INIT:
++		/* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++		halbtc8723d1ant_ltecoex_enable(btcoexist, 0x0);
++
++		/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++		halbtc8723d1ant_ltecoex_set_coex_table(btcoexist,
++				       BT_8723D_1ANT_CTT_WL_VS_LTE, 0xffff);
++
++		/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++		halbtc8723d1ant_ltecoex_set_coex_table(btcoexist,
++				       BT_8723D_1ANT_CTT_BT_VS_LTE, 0xffff);
++
++		/* Set Path control to WL */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67,
++						   0x80, 0x1);
++
++		/* set Path control owner to WL at initial step */
++		halbtc8723d1ant_ltecoex_pathcontrol_owner(btcoexist,
++				BT_8723D_1ANT_PCO_WLSIDE);
++
++		/* set GNT_BT to SW low */
++		halbtc8723d1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_1ANT_SIG_STA_SET_TO_LOW);
++		/* Set GNT_WL to SW high */
++		halbtc8723d1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_1ANT_SIG_STA_SET_TO_HIGH);
++
++		if (BTC_ANT_PATH_AUTO == ant_pos_type)
++			ant_pos_type = BTC_ANT_PATH_WIFI;
++
++		coex_sta->run_time_state = false;
++		break;
++	case BT_8723D_1ANT_PHASE_WLAN_OFF:
++		/* Disable LTE Coex Function in WiFi side */
++		halbtc8723d1ant_ltecoex_enable(btcoexist, 0x0);
++
++		/* Set Path control to BT */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67,
++						   0x80, 0x0);
++
++		/* set Path control owner to BT */
++		halbtc8723d1ant_ltecoex_pathcontrol_owner(btcoexist,
++				BT_8723D_1ANT_PCO_BTSIDE);
++
++		if (BTC_ANT_PATH_AUTO == ant_pos_type)
++			ant_pos_type = BTC_ANT_PATH_BT;
++
++		coex_sta->run_time_state = false;
++		break;
++	case BT_8723D_1ANT_PHASE_2G_RUNTIME:
++
++		/* wait for WL/BT IQK finish, keep 0x38 = 0xff00 for WL IQK */
++		while (cnt_bt_cal_chk <= 20) {
++			u8tmp0 = btcoexist->btc_read_1byte(btcoexist,
++							   0x1e6);
++
++			u8tmp1 = btcoexist->btc_read_1byte(btcoexist,
++							   0x49d);
++
++			cnt_bt_cal_chk++;
++			if ((u8tmp0 & BIT(0)) || (u8tmp1 & BIT(0))) {
++				BTC_SPRINTF(trace_buf,
++					    BT_TMP_BUF_SIZE,
++					"[BTCoex], ########### WL or BT is IQK (wait cnt=%d)\n",
++					    cnt_bt_cal_chk);
++				BTC_TRACE(trace_buf);
++				delay_ms(50);
++			} else {
++				BTC_SPRINTF(trace_buf,
++					    BT_TMP_BUF_SIZE,
++					"[BTCoex], ********** WL and BT is NOT IQK (wait cnt=%d)\n",
++					    cnt_bt_cal_chk);
++				BTC_TRACE(trace_buf);
++				break;
++			}
++		}
++
++
++		/* Set Path control to WL */
++		/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x80, 0x1); */
++
++		halbtc8723d1ant_ltecoex_pathcontrol_owner(btcoexist,
++				BT_8723D_1ANT_PCO_WLSIDE);
++
++		/* set GNT_BT to PTA */
++		halbtc8723d1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_PTA,
++					   BT_8723D_1ANT_SIG_STA_SET_BY_HW);
++		/* Set GNT_WL to PTA */
++		halbtc8723d1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_PTA,
++					   BT_8723D_1ANT_SIG_STA_SET_BY_HW);
++
++		if (BTC_ANT_PATH_AUTO == ant_pos_type)
++			ant_pos_type = BTC_ANT_PATH_PTA;
++
++		coex_sta->run_time_state = true;
++		break;
++	case BT_8723D_1ANT_PHASE_BTMPMODE:
++		halbtc8723d1ant_ltecoex_pathcontrol_owner(btcoexist,
++				BT_8723D_1ANT_PCO_WLSIDE);
++
++		/* Set Path control to WL */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67,
++						   0x80, 0x1);
++
++		/* set GNT_BT to high */
++		halbtc8723d1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_1ANT_SIG_STA_SET_TO_HIGH);
++		/* Set GNT_WL to low */
++		halbtc8723d1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_1ANT_SIG_STA_SET_TO_LOW);
++
++		if (BTC_ANT_PATH_AUTO == ant_pos_type)
++			ant_pos_type = BTC_ANT_PATH_BT;
++
++		coex_sta->run_time_state = false;
++		break;
++	case BT_8723D_1ANT_PHASE_ANTENNA_DET:
++		halbtc8723d1ant_ltecoex_pathcontrol_owner(btcoexist,
++				BT_8723D_1ANT_PCO_WLSIDE);
++
++		/* Set Path control to WL */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67,
++						   0x80, 0x1);
++
++		/* set GNT_BT to high */
++		halbtc8723d1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_1ANT_SIG_STA_SET_TO_HIGH);
++		/* Set GNT_WL to high */
++		halbtc8723d1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_1ANT_SIG_STA_SET_TO_HIGH);
++
++		if (BTC_ANT_PATH_AUTO == ant_pos_type)
++			ant_pos_type = BTC_ANT_PATH_BT;
++
++		coex_sta->run_time_state = false;
++
++		break;
++	}
++
++
++	is_hw_ant_div_on = board_info->ant_div_cfg;
++
++	if ((is_hw_ant_div_on) && (phase != BT_8723D_1ANT_PHASE_ANTENNA_DET))
++
++		if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT)
++			/* 0x948 = 0x200, 0x0 while antenna diversity */
++			btcoexist->btc_write_2byte(btcoexist, 0x948, 0x100);
++		else /* 0x948 = 0x80, 0x0 while antenna diversity */
++			btcoexist->btc_write_2byte(btcoexist, 0x948, 0x40);
++
++	else if ((is_hw_ant_div_on == false) &&
++		(phase != BT_8723D_1ANT_PHASE_WLAN_OFF)) {  /* internal switch setting */
++
++		switch (ant_pos_type) {
++
++		case BTC_ANT_PATH_WIFI:
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT)
++
++				btcoexist->btc_write_2byte(
++					btcoexist, 0x948, 0x0);
++			else
++				btcoexist->btc_write_2byte(
++					btcoexist, 0x948, 0x280);
++
++			break;
++		case BTC_ANT_PATH_BT:
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT)
++
++				btcoexist->btc_write_2byte(
++					btcoexist, 0x948, 0x280);
++			else
++				btcoexist->btc_write_2byte(
++					btcoexist, 0x948, 0x0);
++
++			break;
++		default:
++		case BTC_ANT_PATH_PTA:
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT)
++				btcoexist->btc_write_2byte(
++					btcoexist, 0x948,
++					0x200);
++			else
++				btcoexist->btc_write_2byte(
++					btcoexist, 0x948, 0x80);
++			break;
++		}
++	}
++
++
++#if BT_8723D_1ANT_COEX_DBG
++	u32tmp1 = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++	u16tmp0 = btcoexist->btc_read_2byte(btcoexist, 0xaa);
++	u16tmp1 = btcoexist->btc_read_2byte(btcoexist, 0x948);
++	u8tmp1  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++	u8tmp0 =  btcoexist->btc_read_1byte(btcoexist, 0x67);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** 0x67 = 0x%x, 0x948 = 0x%x, 0x73 = 0x%x(After Set Ant Pat)\n",
++		    u8tmp0, u16tmp1, u8tmp1);
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********0x38= 0x%x, 0x54= 0x%x, 0xaa = 0x%x(After Set Ant Path)\n",
++		    u32tmp1, u32tmp2, u16tmp0);
++	BTC_TRACE(trace_buf);
++#endif
++
++}
++
++
++boolean halbtc8723d1ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected &&
++	    BT_8723D_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++	    coex_dm->bt_status) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8723d1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		   (BT_8723D_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8723d1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		   (BT_8723D_1ANT_BT_STATUS_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8723d1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		   (BT_8723D_1ANT_BT_STATUS_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8723d1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		   (BT_8723D_1ANT_BT_STATUS_CONNECTED_IDLE !=
++		    coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non connected-idle + BT Busy!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8723d1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else {
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		}
++
++		common = false;
++	}
++
++	return common;
++}
++
++
++/* *********************************************
++ *
++ *	Software Coex Mechanism start
++ *
++ * ********************************************* */
++
++/* SCO only or SCO+PAN(HS) */
++
++/*
++void halbtc8723d1ant_action_sco(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8723d1ant_action_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8723d1ant_action_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8723d1ant_action_a2dp_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8723d1ant_action_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8723d1ant_action_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8723d1ant_action_pan_edr_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8723d1ant_action_pan_edr_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8723d1ant_action_hid_a2dp_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, true);
++}
++
++void halbtc8723d1ant_action_hid_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, true);
++}
++
++*/
++
++/* *********************************************
++ *
++ *	Non-Software Coex Mechanism start
++ *
++ * ********************************************* */
++void halbtc8723d1ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, NORMAL_EXEC,
++				     BT_8723D_1ANT_PHASE_2G_RUNTIME);
++	halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8723d1ant_action_wifi_only(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723d1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, FORCE_EXEC,
++				     BT_8723D_1ANT_PHASE_2G_RUNTIME);
++	halbtc8723d1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++}
++
++void halbtc8723d1ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, NORMAL_EXEC,
++				     BT_8723D_1ANT_PHASE_2G_RUNTIME);
++
++	if (!bt_link_info->pan_exist)
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	else
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8723d1ant_action_hs(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++	halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8723d1ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_connected = false, wifi_busy = false,
++				bt_busy = false;
++	boolean	wifi_scan = false, wifi_link = false, wifi_roam = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &wifi_scan);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &wifi_link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &wifi_roam);
++
++	if ((wifi_link) || (wifi_roam) || (coex_sta->wifi_is_high_pri_task)) {
++
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33);
++
++		if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist))
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		else
++			halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++
++	} else if (((wifi_scan) || (wifi_busy)) &&
++		   (coex_sta->bt_create_connection)) {
++
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++
++		if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist))
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		else
++			halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++
++	} else if ((!wifi_connected) && (!wifi_scan)) {
++
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist)) {
++
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++
++	} else if ((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) {
++
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	} else if (bt_link_info->a2dp_exist) {
++
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (wifi_scan) {
++
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	} else if (wifi_busy) {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 21);
++
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 19);
++
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	}
++}
++
++void halbtc8723d1ant_action_bt_sco_hid_only_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	/* tdma and coex table */
++
++	if (bt_link_info->sco_exist) {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else { /* HID */
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	}
++}
++
++void halbtc8723d1ant_action_wifi_connected_bt_acl_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_busy = false, wifi_turbo = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++#if 1
++	if ((wifi_busy) && (coex_sta->scan_ap_num <= 4))
++		wifi_turbo = true;
++#endif
++
++	if (bt_link_info->hid_only) { /* HID */
++		halbtc8723d1ant_action_bt_sco_hid_only_busy(btcoexist,
++				wifi_status);
++		return;
++	} else if (bt_link_info->a2dp_only) { /* A2DP		 */
++		if (BT_8723D_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status) {
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++
++			btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++					   &coex_sta->scan_ap_num);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  scan_ap_num = %d\n",
++				    coex_sta->scan_ap_num);
++			BTC_TRACE(trace_buf);
++
++			if (coex_sta->scan_ap_num >=
++			    BT_8723D_1ANT_WIFI_NOISY_THRESH)  {
++
++				if (coex_sta->is_setupLink)
++					halbtc8723d1ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true,
++								67);
++				else
++					halbtc8723d1ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true,
++								17);
++			}	else {
++				if (coex_sta->is_setupLink)
++					halbtc8723d1ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true,
++								57);
++				else
++					halbtc8723d1ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true,
++								7);
++			}
++
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if (((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) ||
++		   (bt_link_info->hid_exist && bt_link_info->a2dp_exist &&
++		bt_link_info->pan_exist)) { /* A2DP+PAN(OPP,FTP), HID+A2DP+PAN(OPP,FTP) */
++
++		if (wifi_busy)	{
++			if (((coex_sta->a2dp_bit_pool > 40) &&
++			     (coex_sta->a2dp_bit_pool < 255)) ||
++			    (!coex_sta->is_A2DP_3M))
++				halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 15);
++			else if (wifi_turbo)
++				halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 18);
++			else
++				halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 13);
++		} else
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						14);
++
++		if (bt_link_info->hid_exist)
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		else if (wifi_turbo)
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++								NORMAL_EXEC, 8);
++		else
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++	} else if (bt_link_info->hid_exist &&
++		   bt_link_info->a2dp_exist) { /* HID+A2DP */
++
++		if (coex_sta->is_setupLink)
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						58);
++		else
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						8);
++
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++	} else if ((bt_link_info->pan_only) || (bt_link_info->hid_exist &&
++		bt_link_info->pan_exist)) { /* PAN(OPP,FTP), HID+PAN(OPP,FTP)			 */
++		if (BT_8723D_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status)
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						4);
++		else
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						3);
++
++		if (bt_link_info->hid_exist)
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		else
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++	} else {
++		/* BT no-profile busy (0x9) */
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	}
++}
++
++void halbtc8723d1ant_action_wifi_not_connected(IN struct btc_coexist *btcoexist)
++{
++	/* tdma and coex table */
++	halbtc8723d1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, NORMAL_EXEC,
++				     BT_8723D_1ANT_PHASE_2G_RUNTIME);
++	halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8723d1ant_action_wifi_not_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8723d1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8723d1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8723d1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8723d1ant_action_hs(btcoexist);
++		return;
++	}
++
++	/* tdma and coex table */
++	if (BT_8723D_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						20);
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8723D_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8723D_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8723d1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8723D_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8723d1ant_action_wifi_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8723d1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8723d1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8723d1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8723d1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	/* tdma and coex table */
++	if (BT_8723D_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						20);
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8723D_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8723D_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8723d1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8723D_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8723d1ant_action_wifi_not_connected_asso_auth(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8723d1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8723d1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8723d1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8723d1ant_action_hs(btcoexist);
++		return;
++	}
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist)  || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 2);
++	}
++}
++
++void halbtc8723d1ant_action_wifi_connected_specific_packet(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++	boolean wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8723d1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8723d1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8723d1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8723d1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	/* no specific packet process for both WiFi and BT very busy */
++	if ((wifi_busy) && ((bt_link_info->pan_exist) ||
++			    (coex_sta->num_of_profile >= 2)))
++		return;
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist)) {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else if (bt_link_info->a2dp_exist) {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8723d1ant_action_wifi_connected(IN struct btc_coexist *btcoexist)
++{
++	boolean	wifi_busy = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean		under_4way = false;
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], CoexForWifiConnect()===>\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (under_4way) {
++		halbtc8723d1ant_action_wifi_connected_specific_packet(
++			btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 4way<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++	if (scan || link || roam) {
++		if (scan)
++			halbtc8723d1ant_action_wifi_connected_scan(btcoexist);
++		else
++			halbtc8723d1ant_action_wifi_connected_specific_packet(
++				btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under scan<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++
++	/* tdma and coex table */
++	if (!wifi_busy) {
++		if (BT_8723D_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8723d1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8723D_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else if ((BT_8723D_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8723D_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8723d1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8723D_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else {
++
++			if ((board_info->btdm_ant_det_finish) &&
++			    (board_info->btdm_ant_num_by_ant_det == 2) &&
++			    (BT_8723D_1ANT_BT_STATUS_NON_CONNECTED_IDLE)) {
++				halbtc8723d1ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, false, 8);
++				halbtc8723d1ant_coex_table_with_type(
++					btcoexist,
++					NORMAL_EXEC, 8);
++			} else {
++				halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							false, 8);
++				halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++			}
++		}
++	} else {
++		if (BT_8723D_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8723d1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8723D_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else if ((BT_8723D_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8723D_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8723d1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8723D_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else {
++
++			if ((board_info->btdm_ant_det_finish) &&
++			    (board_info->btdm_ant_num_by_ant_det == 2) &&
++			    (BT_8723D_1ANT_BT_STATUS_NON_CONNECTED_IDLE)) {
++				halbtc8723d1ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, false, 8);
++				halbtc8723d1ant_coex_table_with_type(
++					btcoexist,
++					NORMAL_EXEC, 9);
++			} else {
++				halbtc8723d1ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true,
++							32);
++				halbtc8723d1ant_coex_table_with_type(
++					btcoexist,
++					NORMAL_EXEC,
++					4);
++			}
++		}
++	}
++}
++
++void halbtc8723d1ant_run_sw_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8				algorithm = 0;
++
++	algorithm = halbtc8723d1ant_action_algorithm(btcoexist);
++	coex_dm->cur_algorithm = algorithm;
++
++	if (halbtc8723d1ant_is_common_action(btcoexist)) {
++
++	} else {
++		switch (coex_dm->cur_algorithm) {
++		case BT_8723D_1ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_sco(btcoexist); */
++			break;
++		case BT_8723D_1ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_hid(btcoexist); */
++			break;
++		case BT_8723D_1ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_a2dp(btcoexist); */
++			break;
++		case BT_8723D_1ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_a2dp_pan_hs(btcoexist); */
++			break;
++		case BT_8723D_1ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_pan_edr(btcoexist); */
++			break;
++		case BT_8723D_1ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_pan_hs(btcoexist); */
++			break;
++		case BT_8723D_1ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_pan_edr_a2dp(btcoexist); */
++			break;
++		case BT_8723D_1ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_pan_edr_hid(btcoexist); */
++			break;
++		case BT_8723D_1ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_hid_a2dp_pan_edr(btcoexist); */
++			break;
++		case BT_8723D_1ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_hid_a2dp(btcoexist); */
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_coex_all_off(btcoexist); */
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++
++void halbtc8723d1ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false, bt_hs_on = false;
++	boolean	increase_scan_dev_num = false;
++	boolean	bt_ctrl_agg_buf_size = false;
++	boolean	miracast_plus_bt = false;
++	u8	agg_buf_size = 5;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0, wifi_bw;
++	u8	iot_peer = BTC_IOT_PEER_UNKNOWN;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (!coex_sta->run_time_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], return for run_time_state = false !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->freeze_coexrun_by_btinfo) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), return for freeze_coexrun_by_btinfo\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723d1ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	if (coex_sta->bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is disabled !!!\n");
++		halbtc8723d1ant_action_wifi_only(btcoexist);
++		return;
++	}
++
++	if ((BT_8723D_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8723D_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8723D_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		increase_scan_dev_num = true;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_INC_SCAN_DEV_NUM,
++			   &increase_scan_dev_num);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist) {
++			halbtc8723d1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1,
++						   0, 1);
++			miracast_plus_bt = true;
++		} else {
++			halbtc8723d1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0,
++						   0, 0);
++			miracast_plus_bt = false;
++		}
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8723d1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8723d1ant_action_wifi_multi_port(btcoexist);
++
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if ((bt_link_info->bt_link_exist) && (wifi_connected)) {
++		halbtc8723d1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1, 0, 1);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_IOT_PEER, &iot_peer);
++
++		if (BTC_IOT_PEER_CISCO != iot_peer) {
++			if (bt_link_info->sco_exist) /* if (bt_link_info->bt_hi_pri_link_exist) */
++				halbtc8723d1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, true, false, 0x5);
++			else
++				halbtc8723d1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, false, false, 0x5);
++		} else {
++			if (bt_link_info->sco_exist)
++				halbtc8723d1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, true, false, 0x5);
++			else {
++				if (BTC_WIFI_BW_HT40 == wifi_bw)
++					halbtc8723d1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x10);
++				else
++					halbtc8723d1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x8);
++			}
++		}
++
++		halbtc8723d1ant_sw_mechanism(btcoexist, true);
++		halbtc8723d1ant_run_sw_coexist_mechanism(
++			btcoexist);  /* just print debug message */
++	} else {
++		halbtc8723d1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++		halbtc8723d1ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x5);
++
++		halbtc8723d1ant_sw_mechanism(btcoexist, false);
++		halbtc8723d1ant_run_sw_coexist_mechanism(
++			btcoexist); /* just print debug message */
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "############# [BTCoex],  BT Is Inquirying\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8723d1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	if (!wifi_connected) {
++		boolean	scan = false, link = false, roam = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is non connected-idle !!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (scan || link || roam) {
++			if (scan)
++				halbtc8723d1ant_action_wifi_not_connected_scan(
++					btcoexist);
++			else
++				halbtc8723d1ant_action_wifi_not_connected_asso_auth(
++					btcoexist);
++		} else
++			halbtc8723d1ant_action_wifi_not_connected(btcoexist);
++	} else	/* wifi LPS/Busy */
++		halbtc8723d1ant_action_wifi_connected(btcoexist);
++}
++
++void halbtc8723d1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++
++	/* sw all off */
++	halbtc8723d1ant_sw_mechanism(btcoexist, false);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	coex_sta->pop_event_cnt = 0;
++	coex_sta->cnt_RemoteNameReq = 0;
++	coex_sta->cnt_ReInit = 0;
++	coex_sta->cnt_setupLink = 0;
++	coex_sta->cnt_IgnWlanAct = 0;
++	coex_sta->cnt_Page = 0;
++
++	halbtc8723d1ant_query_bt_info(btcoexist);
++}
++
++void halbtc8723d1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up, IN boolean wifi_only)
++{
++	u32			u32tmp1 = 0, u32tmp2 = 0;
++	u16			u16tmp1 = 0;
++	u8	u8tmp0 = 0, u8tmp1 = 0;
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 1Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++#if BT_8723D_1ANT_COEX_DBG
++	u32tmp1 = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist,
++			0x38);
++	u32tmp2 = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist,
++			0x54);
++	u16tmp1 = btcoexist->btc_read_2byte(btcoexist, 0x948);
++	u8tmp1	= btcoexist->btc_read_1byte(btcoexist, 0x73);
++	u8tmp0 =  btcoexist->btc_read_1byte(btcoexist, 0x67);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** 0x67 = 0x%x, 0x948 = 0x%x, 0x73 = 0x%x(Before init_hw_config)\n",
++		    u8tmp0, u16tmp1, u8tmp1);
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********0x38= 0x%x, 0x54= 0x%x (Before init_hw_config)\n",
++		    u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++#endif
++
++
++	coex_sta->bt_coex_supported_feature = 0;
++	coex_sta->bt_coex_supported_version = 0;
++	coex_sta->bt_reg_vendor_ac = 0xffff;
++	coex_sta->bt_reg_vendor_ae = 0xffff;
++	coex_sta->isolation_btween_wb = BT_8723D_1ANT_DEFAULT_ISOLATION;
++
++	/* 0xf0[15:12] --> Chip Cut information */
++	coex_sta->cut_version = (btcoexist->btc_read_1byte(btcoexist,
++				 0xf1) & 0xf0) >> 4;
++
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++
++	/* BT report packet sample rate	 */
++	btcoexist->btc_write_1byte(btcoexist, 0x790, 0x5);
++
++	/* Init 0x778 = 0x1 for 1-Ant */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++
++	/* Enable PTA (3-wire function form BT side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x41, 0x02, 0x1);
++
++	/* Enable PTA (tx/rx signal form WiFi side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4c6, 0x10, 0x1);
++
++	halbtc8723d1ant_enable_gnt_to_gpio(btcoexist, true);
++
++	/* check if WL firmware download ok */
++	if (btcoexist->btc_read_1byte(btcoexist, 0x80) == 0xc6)
++		halbtc8723d1ant_post_state_to_bt(btcoexist,
++					 BT_8723D_1ANT_SCOREBOARD_ONOFF, true);
++
++	/* PTA parameter */
++	halbtc8723d1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++
++	halbtc8723d1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	psd_scan->ant_det_is_ant_det_available = true;
++
++	/* Antenna config */
++	if (wifi_only) {
++		coex_sta->concurrent_rx_mode_on = false;
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_WIFI,
++					     FORCE_EXEC,
++					     BT_8723D_1ANT_PHASE_WLANONLY_INIT);
++
++		btcoexist->stop_coex_dm = true;
++	} else {
++		/*Set BT polluted packet on for Tx rate adaptive not including Tx retry break by PTA, 0x45c[19] =1 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x45e, 0x8, 0x1);
++
++		coex_sta->concurrent_rx_mode_on = true;
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x953, 0x2, 0x1);
++		/* RF 0x1[0] = 0->Set GNT_WL_RF_Rx always = 1 for con-current Rx */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0x1, 0x0);
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC,
++					     BT_8723D_1ANT_PHASE_COEX_INIT);
++
++		btcoexist->stop_coex_dm = false;
++	}
++
++	if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], **********  Single Antenna, Antenna at Main Port: S1**********\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], **********  Single Antenna, Antenna at Aux Port: S0**********\n");
++		BTC_TRACE(trace_buf);
++	}
++
++}
++
++u32 halbtc8723d1ant_psd_log2base(IN struct btc_coexist *btcoexist, IN u32 val)
++{
++	u8	j;
++	u32	tmp, tmp2, val_integerd_b = 0, tindex, shiftcount = 0;
++	u32	result, val_fractiond_b = 0, table_fraction[21] = {0, 432, 332, 274, 232, 200,
++				   174, 151, 132, 115, 100, 86, 74, 62, 51, 42,
++							   32, 23, 15, 7, 0
++							      };
++
++	if (val == 0)
++		return 0;
++
++	tmp = val;
++
++	while (1) {
++		if (tmp == 1)
++			break;
++		else {
++			tmp = (tmp >> 1);
++			shiftcount++;
++		}
++	}
++
++
++	val_integerd_b = shiftcount + 1;
++
++	tmp2 = 1;
++	for (j = 1; j <= val_integerd_b; j++)
++		tmp2 = tmp2 * 2;
++
++	tmp = (val * 100) / tmp2;
++	tindex = tmp / 5;
++
++	if (tindex > 20)
++		tindex = 20;
++
++	val_fractiond_b = table_fraction[tindex];
++
++	result = val_integerd_b * 100 - val_fractiond_b;
++
++	return result;
++
++
++}
++
++void halbtc8723d1ant_psd_show_antenna_detect_result(IN struct btc_coexist
++		*btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n============[Antenna Detection info]  ============\n");
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 12) { /* Get Ant Det from BT  */
++
++		if (board_info->btdm_ant_num_by_ant_det == 1)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n %-35s = %s (%d~%d)",
++				   "Ant Det Result", "1-Antenna",
++				   BT_8723D_1ANT_ANTDET_PSDTHRES_1ANT,
++				BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION);
++		else {
++
++			if (psd_scan->ant_det_psd_scan_peak_val >
++			    (BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION)
++			    * 100)
++				CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++					   "\r\n %-35s = %s (>%d)",
++					"Ant Det Result", "2-Antenna (Bad-Isolation)",
++					BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++			else
++				CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++					   "\r\n %-35s = %s (%d~%d)",
++					"Ant Det Result", "2-Antenna (Good-Isolation)",
++					BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION,
++					BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++		}
++	} else if (psd_scan->ant_det_result == 1)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (>%d)",
++			   "Ant Det Result", "2-Antenna (Bad-Isolation)",
++			   BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else if (psd_scan->ant_det_result == 2)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "2-Antenna (Good-Isolation)",
++			   BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset,
++			   BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "1-Antenna",
++			   BT_8723D_1ANT_ANTDET_PSDTHRES_1ANT,
++			   BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset);
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s ",
++		   "Antenna Detection Finish",
++		   (board_info->btdm_ant_det_finish
++		    ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	switch (psd_scan->ant_det_result) {
++	case 0:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not available)");
++		break;
++	case 1:  /* 2-Ant bad-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 2:  /* 2-Ant good-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 3:  /* 1-Ant */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 4:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Uncertainty result)");
++		break;
++	case 5:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "(Pre-Scan fai)");
++		break;
++	case 6:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(WiFi is Scanning)");
++		break;
++	case 7:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not idle)");
++		break;
++	case 8:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Abort by WiFi Scanning)");
++		break;
++	case 9:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Antenna Init is not ready)");
++		break;
++	case 10:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Inquiry or page)");
++		break;
++	case 11:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Disabled)");
++	case 12:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available, result from BT");
++		break;
++	}
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 12) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d dB",
++			   "PSD Scan Peak Value",
++			   psd_scan->ant_det_psd_scan_peak_val / 100);
++		CL_PRINTF(cli_buf);
++		return;
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Total Count", psd_scan->ant_det_try_count);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Fail Count", psd_scan->ant_det_fail_count);
++	CL_PRINTF(cli_buf);
++
++	if ((!board_info->btdm_ant_det_finish) &&
++	    (psd_scan->ant_det_result != 5))
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "BT Response",
++		   (psd_scan->ant_det_result ? "ok" : "fail"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ms", "BT Tx Time",
++		   psd_scan->ant_det_bt_tx_time);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "BT Tx Ch",
++		   psd_scan->ant_det_bt_le_channel);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d",
++		   "WiFi PSD Cent-Ch/Offset/Span",
++		   psd_scan->real_cent_freq, psd_scan->real_offset,
++		   psd_scan->real_span);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d dB",
++		   "PSD Pre-Scan Peak Value",
++		   psd_scan->ant_det_pre_psdscan_peak_val / 100);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (<= %d)",
++		   "PSD Pre-Scan result",
++		   (psd_scan->ant_det_result != 5 ? "ok" : "fail"),
++		   BT_8723D_1ANT_ANTDET_PSDTHRES_BACKGROUND
++		   + psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 5)
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s dB",
++		   "PSD Scan Peak Value", psd_scan->ant_det_peak_val);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s MHz",
++		   "PSD Scan Peak Freq", psd_scan->ant_det_peak_freq);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "TFBGA Package",
++		   (board_info->tfbga_package) ?  "Yes" : "No");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "PSD Threshold Offset", psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++}
++
++
++
++void halbtc8723d1ant_psd_showdata(IN struct btc_coexist *btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	u32		delta_freq_per_point;
++	u32		freq, freq1, freq2, n = 0, i = 0, j = 0, m = 0, psd_rep1, psd_rep2;
++
++	if (psd_scan->ant_det_result == 12)
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n\n============[PSD info]  (%d)============\n",
++		   psd_scan->psd_gen_count);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->psd_gen_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n No data !!\n");
++		CL_PRINTF(cli_buf);
++		return;
++	}
++
++	if (psd_scan->psd_point == 0)
++		delta_freq_per_point = 0;
++	else
++		delta_freq_per_point = psd_scan->psd_band_width /
++				       psd_scan->psd_point;
++
++	/* if (psd_scan->is_psd_show_max_only) */
++	if (0) {
++		psd_rep1 = psd_scan->psd_max_value / 100;
++		psd_rep2 = psd_scan->psd_max_value - psd_rep1 * 100;
++
++		freq = ((psd_scan->real_cent_freq - 20) * 1000000 +
++			psd_scan->psd_max_value_point * delta_freq_per_point);
++		freq1 = freq / 1000000;
++		freq2 = freq / 1000 - freq1 * 1000;
++
++		if (freq2 < 100)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.0%d MHz",
++				   freq1, freq2);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.%d MHz",
++				   freq1, freq2);
++
++		if (psd_rep2 < 10)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.0%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++
++		CL_PRINTF(cli_buf);
++	} else {
++		m = psd_scan->psd_start_point;
++		n = psd_scan->psd_start_point;
++		i = 1;
++		j = 1;
++
++		while (1) {
++			do {
++				freq = ((psd_scan->real_cent_freq - 20) *
++					1000000 + m *
++					delta_freq_per_point);
++				freq1 = freq / 1000000;
++				freq2 = freq / 1000 - freq1 * 1000;
++
++				if (i == 1) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "\r\n Freq%6d.000",
++							   freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "\r\n Freq%6d.0%2d",
++							   freq1,
++							   freq2);
++					else
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "\r\n Freq%6d.%3d",
++							   freq1,
++							   freq2);
++				} else if ((i % 8 == 0) ||
++					   (m == psd_scan->psd_stop_point)) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "%6d.000\n", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "%6d.0%2d\n", freq1,
++							   freq2);
++					else
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "%6d.%3d\n", freq1,
++							   freq2);
++				} else {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "%6d.0%2d", freq1,
++							   freq2);
++					else
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "%6d.%3d", freq1,
++							   freq2);
++				}
++
++				i++;
++				m++;
++				CL_PRINTF(cli_buf);
++
++			} while ((i <= 8) && (m <= psd_scan->psd_stop_point));
++
++
++			do {
++				psd_rep1 = psd_scan->psd_report_max_hold[n] /
++					   100;
++				psd_rep2 = psd_scan->psd_report_max_hold[n] -
++					   psd_rep1 *
++					   100;
++
++				if (j == 1) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "\r\n Val %7d.0%d",
++							   psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "\r\n Val %7d.%d",
++							   psd_rep1,
++							   psd_rep2);
++				} else if ((j % 8 == 0)  ||
++					   (n == psd_scan->psd_stop_point)) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							"%7d.0%d\n", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "%7d.%d\n", psd_rep1,
++							   psd_rep2);
++				} else {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "%7d.0%d", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "%7d.%d", psd_rep1,
++							   psd_rep2);
++				}
++
++				j++;
++				n++;
++				CL_PRINTF(cli_buf);
++
++			} while ((j <= 8) && (n <= psd_scan->psd_stop_point));
++
++			if ((m > psd_scan->psd_stop_point) ||
++			    (n > psd_scan->psd_stop_point))
++				break;
++			else {
++				i = 1;
++				j = 1;
++			}
++
++		}
++	}
++
++
++}
++
++
++#ifdef PLATFORM_WINDOWS
++#pragma optimize("", off)
++#endif
++void halbtc8723d1ant_psd_maxholddata(IN struct btc_coexist *btcoexist,
++				     IN u32 gen_count)
++{
++	u32	i = 0;
++	u32 loop_i_max = 0, loop_val_max = 0;
++
++	if (gen_count == 1) {
++		memcpy(psd_scan->psd_report_max_hold,
++		       psd_scan->psd_report,
++		       BT_8723D_1ANT_ANTDET_PSD_POINTS * sizeof(u32));
++	}
++
++	for (i = psd_scan->psd_start_point;
++	     i <= psd_scan->psd_stop_point; i++) {
++
++		/* update max-hold value at each freq point */
++		if (psd_scan->psd_report[i] > psd_scan->psd_report_max_hold[i])
++			psd_scan->psd_report_max_hold[i] =
++				psd_scan->psd_report[i];
++
++		/*  search the max value in this seep */
++		if (psd_scan->psd_report[i] > loop_val_max) {
++			loop_val_max = psd_scan->psd_report[i];
++			loop_i_max = i;
++		}
++	}
++
++	if (gen_count <= BT_8723D_1ANT_ANTDET_PSD_SWWEEPCOUNT)
++		psd_scan->psd_loop_max_value[gen_count - 1] = loop_val_max;
++}
++
++#ifdef PLATFORM_WINDOWS
++#pragma optimize("", off)
++#endif
++u32 halbtc8723d1ant_psd_getdata(IN struct btc_coexist *btcoexist, IN u32 point)
++{
++	/* reg 0x808[9:0]: FFT data x */
++	/* reg 0x808[22]: 0-->1 to get 1 FFT data y */
++	/* reg 0x8b4[15:0]: FFT data y report */
++
++	u32 val = 0, psd_report = 0;
++	int k = 0;
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++
++	val &= 0xffbffc00;
++	val |= point;
++
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	val |= 0x00400000;
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	while (1) {
++		if (k++ > BT_8723D_1ANT_ANTDET_SWEEPPOINT_DELAY)
++			break;
++	}
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x8b4);
++
++	psd_report = val & 0x0000ffff;
++
++	return psd_report;
++}
++
++#ifdef PLATFORM_WINDOWS
++#pragma optimize("", off)
++#endif
++boolean halbtc8723d1ant_psd_sweep_point(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN s32 offset, IN u32 span, IN u32 points,
++					IN u32 avgnum, IN u32 loopcnt)
++{
++	u32	 i = 0, val = 0, n = 0, k = 0, j, point_index = 0;
++	u32	points1 = 0, psd_report = 0;
++	u32	start_p = 0, stop_p = 0, delta_freq_per_point = 156250;
++	u32    psd_center_freq = 20 * 10 ^ 6;
++	boolean outloop = false, scan , roam, is_sweep_ok = true;
++	u8	 flag = 0;
++	u32	tmp = 0, u32tmp1 = 0;
++	u32	wifi_original_channel = 1;
++	u32 psd_sum = 0, avg_cnt = 0;
++	u32	i_max = 0, val_max = 0, val_max2 = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Start!!\n");
++	BTC_TRACE(trace_buf);
++
++	do {
++		switch (flag) {
++		case 0:  /* Get PSD parameters */
++		default:
++
++			psd_scan->psd_band_width = 40 * 1000000;
++			psd_scan->psd_point = points;
++			psd_scan->psd_start_base = points / 2;
++			psd_scan->psd_avg_num = avgnum;
++			psd_scan->real_cent_freq = cent_freq;
++			psd_scan->real_offset = offset;
++			psd_scan->real_span = span;
++
++
++			points1 = psd_scan->psd_point;
++			delta_freq_per_point = psd_scan->psd_band_width /
++					       psd_scan->psd_point;
++
++			/* PSD point setup */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffff0fff;
++
++			switch (psd_scan->psd_point) {
++			case 128:
++				val |= 0x0;
++				break;
++			case 256:
++			default:
++				val |= 0x00004000;
++				break;
++			case 512:
++				val |= 0x00008000;
++				break;
++			case 1024:
++				val |= 0x0000c000;
++				break;
++			}
++
++			switch (psd_scan->psd_avg_num) {
++			case 1:
++				val |= 0x0;
++				break;
++			case 8:
++				val |= 0x00001000;
++				break;
++			case 16:
++				val |= 0x00002000;
++				break;
++			case 32:
++			default:
++				val |= 0x00003000;
++				break;
++			}
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			flag = 1;
++			break;
++		case 1:	  /* calculate the PSD point index from freq/offset/span */
++			psd_center_freq = psd_scan->psd_band_width / 2 +
++					  offset * (1000000);
++
++			start_p = psd_scan->psd_start_base + (psd_center_freq -
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_start_point = start_p -
++						    psd_scan->psd_start_base;
++
++			stop_p = psd_scan->psd_start_base + (psd_center_freq +
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_stop_point = stop_p -
++						   psd_scan->psd_start_base - 1;
++
++			flag = 2;
++			break;
++		case 2:  /* set RF channel/BW/Mode */
++
++			/* set 3-wire off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val |= 0x00300000;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val &= 0xfeffffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause on */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x6f);
++
++			/* store WiFi original channel */
++			wifi_original_channel = btcoexist->btc_get_rf_reg(
++					btcoexist, BTC_RF_A, 0x18, 0x3ff);
++
++			/* Set RF channel */
++			if (cent_freq == 2484)
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++							  0x18, 0x3ff, 0xe);
++			else
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++					  0x18, 0x3ff, (cent_freq - 2412) / 5 +
++						  1); /* WiFi TRx Mask on */
++
++			/* save original RCK value */
++			u32tmp1 =  btcoexist->btc_get_rf_reg(
++					   btcoexist, BTC_RF_A, 0x1d, 0xfffff);
++
++			/* Enter debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x1);
++
++			/* Set RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, 0x2e);
++
++
++			/* Set  RF mode = Rx, RF Gain = 0x320a0 */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x0,
++						  0xfffff, 0x320a0);
++
++			while (1) {
++				if (k++ > BT_8723D_1ANT_ANTDET_SWEEPPOINT_DELAY)
++					break;
++			}
++			flag = 3;
++			break;
++		case 3:
++			psd_scan->psd_gen_count = 0;
++			for (j = 1; j <= loopcnt; j++) {
++
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_SCAN, &scan);
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_ROAM, &roam);
++
++				if (scan || roam) {
++					is_sweep_ok = false;
++					break;
++				}
++				memset(psd_scan->psd_report, 0,
++				       psd_scan->psd_point * sizeof(u32));
++				start_p = psd_scan->psd_start_point +
++					  psd_scan->psd_start_base;
++				stop_p = psd_scan->psd_stop_point +
++					 psd_scan->psd_start_base + 1;
++
++				i = start_p;
++				point_index = 0;
++
++				while (i < stop_p) {
++					if (i >= points1)
++						psd_report =
++							halbtc8723d1ant_psd_getdata(
++							btcoexist, i - points1);
++					else
++						psd_report =
++							halbtc8723d1ant_psd_getdata(
++								btcoexist, i);
++
++					if (psd_report == 0)
++						tmp = 0;
++					else
++						/* tmp =  20*log10((double)psd_report); */
++						/* 20*log2(x)/log2(10), log2Base return theresult of the psd_report*100 */
++						tmp = 6 * halbtc8723d1ant_psd_log2base(
++							btcoexist, psd_report);
++
++					n = i - psd_scan->psd_start_base;
++					psd_scan->psd_report[n] =  tmp;
++
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"Point=%d, psd_dB_data = %d\n",
++						    i, psd_scan->psd_report[n]);
++					BTC_TRACE(trace_buf);
++
++					i++;
++
++				}
++
++				halbtc8723d1ant_psd_maxholddata(btcoexist, j);
++
++				psd_scan->psd_gen_count = j;
++
++				/*Accumulate Max PSD value in this loop if the value > threshold */
++				if (psd_scan->psd_loop_max_value[j - 1] >=
++				    4000) {
++					psd_sum = psd_sum +
++						psd_scan->psd_loop_max_value[j -
++								       1];
++					avg_cnt++;
++				}
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "Loop=%d, Max_dB_data = %d\n",
++					    j, psd_scan->psd_loop_max_value[j
++							    - 1]);
++				BTC_TRACE(trace_buf);
++
++			}
++
++			if (loopcnt == BT_8723D_1ANT_ANTDET_PSD_SWWEEPCOUNT) {
++
++				/* search the Max Value between each-freq-point-max-hold value of all sweep*/
++				for (i = 1;
++				     i <= BT_8723D_1ANT_ANTDET_PSD_SWWEEPCOUNT;
++				     i++) {
++
++					if (i == 1) {
++						i_max = i;
++						val_max = psd_scan->psd_loop_max_value[i
++								       - 1];
++						val_max2 =
++							psd_scan->psd_loop_max_value[i
++								     - 1];
++					} else if (
++						psd_scan->psd_loop_max_value[i -
++							     1] > val_max) {
++						val_max2 = val_max;
++						i_max = i;
++						val_max = psd_scan->psd_loop_max_value[i
++								       - 1];
++					} else if (
++						psd_scan->psd_loop_max_value[i -
++							     1] > val_max2)
++						val_max2 =
++							psd_scan->psd_loop_max_value[i
++								     - 1];
++
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"i = %d, val_hold= %d, val_max = %d, val_max2 = %d\n",
++						i, psd_scan->psd_loop_max_value[i
++								    - 1],
++						    val_max, val_max2);
++
++					BTC_TRACE(trace_buf);
++				}
++
++				psd_scan->psd_max_value_point = i_max;
++				psd_scan->psd_max_value = val_max;
++				psd_scan->psd_max_value2 = val_max2;
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "val_max = %d, val_max2 = %d\n",
++					    psd_scan->psd_max_value,
++					    psd_scan->psd_max_value2);
++				BTC_TRACE(trace_buf);
++			}
++
++			if (avg_cnt != 0) {
++				psd_scan->psd_avg_value = (psd_sum / avg_cnt);
++				if ((psd_sum % avg_cnt) >= (avg_cnt / 2))
++					psd_scan->psd_avg_value++;
++			} else
++				psd_scan->psd_avg_value = 0;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "AvgLoop=%d, Avg_dB_data = %d\n",
++				    avg_cnt, psd_scan->psd_avg_value);
++			BTC_TRACE(trace_buf);
++
++			flag = 100;
++			break;
++		case 99:	/* error */
++
++			outloop = true;
++			break;
++		case 100: /* recovery */
++
++			/* set 3-wire on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val &= 0xffcfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val |= 0x01000000;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause off */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x0);
++
++			/* PSD off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffbfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			/* restore RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, u32tmp1);
++
++			/* Exit debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x0);
++
++			/* restore WiFi original channel */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x18,
++						  0x3ff, wifi_original_channel);
++
++			outloop = true;
++			break;
++
++		}
++
++	} while (!outloop);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Stop!!\n");
++	BTC_TRACE(trace_buf);
++	return is_sweep_ok;
++
++}
++
++#ifdef PLATFORM_WINDOWS
++#pragma optimize("", off)
++#endif
++boolean halbtc8723d1ant_psd_antenna_detection(IN struct btc_coexist
++		*btcoexist)
++{
++	u32	i = 0;
++	u32	wlpsd_cent_freq = 2484, wlpsd_span = 2;
++	s32	wlpsd_offset = -4;
++	u32 bt_tx_time, bt_le_channel;
++	u8	bt_le_ch[13] = {3, 6, 8, 11, 13, 16, 18, 21, 23, 26, 28, 31, 33};
++
++	u8	h2c_parameter[3] = {0}, u8tmpa, u8tmpb;
++
++	u8	state = 0;
++	boolean		outloop = false, bt_resp = false, ant_det_finish = false;
++	u32		freq, freq1, freq2, psd_rep1, psd_rep2, delta_freq_per_point,
++			u32tmp, u32tmp0, u32tmp1, u32tmp2 ;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	memset(psd_scan->ant_det_peak_val, 0, 16 * sizeof(u8));
++	memset(psd_scan->ant_det_peak_freq, 0, 16 * sizeof(u8));
++
++	psd_scan->ant_det_bt_tx_time =
++		BT_8723D_1ANT_ANTDET_BTTXTIME;	   /* 0.42ms*50 = 20ms (0.42ms = 1 PSD sweep) */
++	psd_scan->ant_det_bt_le_channel = BT_8723D_1ANT_ANTDET_BTTXCHANNEL;
++
++	bt_tx_time = psd_scan->ant_det_bt_tx_time;
++	bt_le_channel = psd_scan->ant_det_bt_le_channel;
++
++	if (board_info->tfbga_package) /* for TFBGA */
++		psd_scan->ant_det_thres_offset = 5;
++	else
++		psd_scan->ant_det_thres_offset = 0;
++
++	do {
++		switch (state) {
++		case 0:
++			if (bt_le_channel == 39)
++				wlpsd_cent_freq = 2484;
++			else {
++				for (i = 1; i <= 13; i++) {
++					if (bt_le_ch[i - 1] ==
++					    bt_le_channel) {
++						wlpsd_cent_freq = 2412
++								  + (i - 1) * 5;
++						break;
++					}
++				}
++
++				if (i == 14) {
++
++					BTC_SPRINTF(trace_buf,
++						    BT_TMP_BUF_SIZE,
++						"xxxxxxxxxxxxxxxx AntennaDetect(), Abort!!, Invalid LE channel = %d\n ",
++						    bt_le_channel);
++					BTC_TRACE(trace_buf);
++					outloop = true;
++					break;
++				}
++			}
++#if 0
++			wlpsd_sweep_count = bt_tx_time * 238 /
++					    100; /* bt_tx_time/0.42								 */
++			wlpsd_sweep_count = wlpsd_sweep_count / 5;
++
++			if (wlpsd_sweep_count % 5 != 0)
++				wlpsd_sweep_count = (wlpsd_sweep_count /
++						     5 + 1) * 5;
++#endif
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), BT_LETxTime=%d,  BT_LECh = %d\n",
++				    bt_tx_time, bt_le_channel);
++			BTC_TRACE(trace_buf);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), wlpsd_cent_freq=%d,  wlpsd_offset = %d, wlpsd_span = %d, wlpsd_sweep_count = %d\n",
++				    wlpsd_cent_freq,
++				    wlpsd_offset,
++				    wlpsd_span,
++				    BT_8723D_1ANT_ANTDET_PSD_SWWEEPCOUNT);
++			BTC_TRACE(trace_buf);
++
++			state = 1;
++			break;
++		case 1: /* stop coex DM & set antenna path */
++			/* Stop Coex DM */
++			btcoexist->stop_coex_dm = true;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stop Coex DM!!\n");
++			BTC_TRACE(trace_buf);
++
++			/* Set TDMA off,				 */
++			halbtc8723d1ant_ps_tdma(btcoexist, FORCE_EXEC,
++						false, 0);
++
++			/* Set coex table */
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     FORCE_EXEC, 0);
++
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Main Port\n");
++				BTC_TRACE(trace_buf);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Aux Port\n");
++				BTC_TRACE(trace_buf);
++			}
++
++			/* Set Antenna path, switch WiFi to un-certain antenna port */
++			/* Set Antenna Path,  both GNT_WL/GNT_BT = 1, and control by SW */
++			halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++						     FORCE_EXEC,
++					     BT_8723D_1ANT_PHASE_ANTENNA_DET);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to BT!!\n");
++			BTC_TRACE(trace_buf);
++
++			/* Set AFH mask on at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x1;
++			h2c_parameter[1] = 0xd;
++			h2c_parameter[2] = 0x14;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1],
++				    h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			u32tmp = btcoexist->btc_read_2byte(btcoexist, 0x948);
++			u32tmp0 = btcoexist->btc_read_4byte(btcoexist, 0x70);
++			u32tmp1 = halbtc8723d1ant_ltecoex_indirect_read_reg(
++					  btcoexist, 0x38);
++			u32tmp2 = halbtc8723d1ant_ltecoex_indirect_read_reg(
++					  btcoexist, 0x54);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], ********** 0x948 = 0x%x, 0x70 = 0x%x, 0x38= 0x%x, 0x54= 0x%x (Before Ant Det)\n",
++				    u32tmp, u32tmp0, u32tmp1, u32tmp2);
++			BTC_TRACE(trace_buf);
++
++			state = 2;
++			break;
++		case 2:	/* Pre-sweep background psd */
++			if (!halbtc8723d1ant_psd_sweep_point(btcoexist,
++				     wlpsd_cent_freq, wlpsd_offset, wlpsd_span,
++					     BT_8723D_1ANT_ANTDET_PSD_POINTS,
++				     BT_8723D_1ANT_ANTDET_PSD_AVGNUM, 3)) {
++				ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++			psd_scan->ant_det_pre_psdscan_peak_val =
++				psd_scan->psd_max_value;
++
++			if (psd_scan->ant_det_pre_psdscan_peak_val >
++			    (BT_8723D_1ANT_ANTDET_PSDTHRES_BACKGROUND
++			     + psd_scan->ant_det_thres_offset) * 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Abort Antenna Detection!! becaus background = %d > thres (%d)\n",
++					psd_scan->ant_det_pre_psdscan_peak_val /
++					    100,
++					BT_8723D_1ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 5;
++				state = 99;
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Start Antenna Detection!! becaus background = %d <= thres (%d)\n",
++					psd_scan->ant_det_pre_psdscan_peak_val /
++					    100,
++					BT_8723D_1ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				state = 3;
++			}
++			break;
++		case 3:
++
++			bt_resp = btcoexist->btc_set_bt_ant_detection(
++					  btcoexist, (u8)(bt_tx_time & 0xff),
++					  (u8)(bt_le_channel & 0xff));
++
++			/* Sync WL Rx PSD with BT Tx time because H2C->Mailbox delay */
++			delay_ms(20);
++
++			if (!halbtc8723d1ant_psd_sweep_point(btcoexist,
++					     wlpsd_cent_freq, wlpsd_offset,
++							     wlpsd_span,
++					     BT_8723D_1ANT_ANTDET_PSD_POINTS,
++					     BT_8723D_1ANT_ANTDET_PSD_AVGNUM,
++				     BT_8723D_1ANT_ANTDET_PSD_SWWEEPCOUNT)) {
++				ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++#if 1
++			psd_scan->ant_det_psd_scan_peak_val =
++				psd_scan->psd_max_value;
++#endif
++#if 0
++			psd_scan->ant_det_psd_scan_peak_val =
++				((psd_scan->psd_max_value - psd_scan->psd_avg_value) <
++				 800) ?
++				psd_scan->psd_max_value : ((
++						psd_scan->psd_max_value -
++					psd_scan->psd_max_value2 <= 300) ?
++						   psd_scan->psd_avg_value :
++						   psd_scan->psd_max_value2);
++#endif
++			psd_scan->ant_det_psd_scan_peak_freq =
++				psd_scan->psd_max_value_point;
++			state = 4;
++			break;
++		case 4:
++
++			if (psd_scan->psd_point == 0)
++				delta_freq_per_point = 0;
++			else
++				delta_freq_per_point =
++					psd_scan->psd_band_width /
++					psd_scan->psd_point;
++
++			psd_rep1 = psd_scan->ant_det_psd_scan_peak_val / 100;
++			psd_rep2 = psd_scan->ant_det_psd_scan_peak_val -
++				   psd_rep1 *
++				   100;
++
++			freq = ((psd_scan->real_cent_freq - 20) *
++				1000000 + psd_scan->psd_max_value_point
++				* delta_freq_per_point);
++			freq1 = freq / 1000000;
++			freq2 = freq / 1000 - freq1 * 1000;
++
++			if (freq2 < 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.0%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8723D_1ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", freq1, freq2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8723D_1ANT_ANTDET_BUF_LEN,
++					   "%d.%d", freq1, freq2);
++			}
++
++			if (psd_rep2 < 10) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.0%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8723D_1ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", psd_rep1, psd_rep2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8723D_1ANT_ANTDET_BUF_LEN,
++					   "%d.%d", psd_rep1, psd_rep2);
++			}
++
++			psd_scan->ant_det_is_btreply_available = true;
++
++			if (bt_resp == false) {
++				psd_scan->ant_det_is_btreply_available =
++					false;
++				psd_scan->ant_det_result = 0;
++				ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), BT Response = Fail\n ");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->ant_det_psd_scan_peak_val >
++				(BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION)
++				   * 100) {
++				psd_scan->ant_det_result = 1;
++				ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				coex_sta->isolation_btween_wb = (u8)(85 -
++					psd_scan->ant_det_psd_scan_peak_val /
++							     100) & 0xff;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Bad-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->ant_det_psd_scan_peak_val >
++				(BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++				    + psd_scan->ant_det_thres_offset) * 100) {
++				psd_scan->ant_det_result = 2;
++				ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				coex_sta->isolation_btween_wb = (u8)(85 -
++					psd_scan->ant_det_psd_scan_peak_val /
++							     100) & 0xff;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Good-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->ant_det_psd_scan_peak_val >
++				   (BT_8723D_1ANT_ANTDET_PSDTHRES_1ANT) *
++				   100) {
++				psd_scan->ant_det_result = 3;
++				ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				coex_sta->isolation_btween_wb = (u8)(85 -
++					psd_scan->ant_det_psd_scan_peak_val /
++							     100) & 0xff;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant!!\n");
++				BTC_TRACE(trace_buf);
++			} else {
++				psd_scan->ant_det_result = 4;
++				ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant, un-certainity!!\n");
++				BTC_TRACE(trace_buf);
++			}
++
++			state = 99;
++			break;
++		case 99:  /* restore setup */
++
++			/* Set AFH mask off at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x0;
++			h2c_parameter[1] = 0x0;
++			h2c_parameter[2] = 0x0;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1], h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			/* Set Antenna Path, GNT_WL/GNT_BT control by PTA */
++			/* Set Antenna path, switch WiFi to certain antenna port */
++			halbtc8723d1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_AUTO, FORCE_EXEC,
++					     BT_8723D_1ANT_PHASE_2G_RUNTIME);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to PTA\n!!");
++			BTC_TRACE(trace_buf);
++
++			btcoexist->stop_coex_dm = false;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Resume Coex DM\n!!");
++			BTC_TRACE(trace_buf);
++
++			outloop = true;
++			break;
++		}
++
++	} while (!outloop);
++
++	return ant_det_finish;
++
++}
++
++#ifdef PLATFORM_WINDOWS
++#pragma optimize("", off)
++#endif
++boolean halbtc8723d1ant_psd_antenna_detection_check(IN struct btc_coexist
++		*btcoexist)
++{
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	boolean scan, roam, ant_det_finish = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++	ant_det_count++;
++
++	psd_scan->ant_det_try_count = ant_det_count;
++
++	if (scan || roam) {
++		ant_det_finish = false;
++		psd_scan->ant_det_result = 6;
++	} else if (coex_sta->bt_disabled) {
++		ant_det_finish = false;
++		psd_scan->ant_det_result = 11;
++	} else if (coex_sta->num_of_profile >= 1) {
++		ant_det_finish = false;
++		psd_scan->ant_det_result = 7;
++	} else if (
++		!psd_scan->ant_det_is_ant_det_available) { /* Antenna initial setup is not ready */
++		ant_det_finish = false;
++		psd_scan->ant_det_result = 9;
++	} else if (coex_sta->c2h_bt_inquiry_page) {
++		ant_det_finish = false;
++		psd_scan->ant_det_result = 10;
++	} else {
++
++		ant_det_finish = halbtc8723d1ant_psd_antenna_detection(
++					 btcoexist);
++
++		delay_ms(psd_scan->ant_det_bt_tx_time);
++	}
++
++	/* board_info->ant_det_result = psd_scan->ant_det_result; */
++
++	if (!ant_det_finish)
++		ant_det_fail_count++;
++
++	psd_scan->ant_det_fail_count = ant_det_fail_count;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx AntennaDetect(), result = %d, fail_count = %d, finish = %s\n",
++		    psd_scan->ant_det_result,
++		    psd_scan->ant_det_fail_count,
++		    ant_det_finish == true ? "Yes" : "No");
++	BTC_TRACE(trace_buf);
++
++	return ant_det_finish;
++
++}
++
++
++
++/* ************************************************************
++ * work around function start with wa_halbtc8723d1ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8723d1ant_
++ * ************************************************************ */
++void ex_halbtc8723d1ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x0;
++	u16 u16tmp = 0x0;
++	u32	value = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx Execute 8723d 1-Ant PowerOn Setting xxxxxxxxxxxxxxxx!!\n");
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "Ant Det Finish = %s, Ant Det Number  = %d\n",
++		    (board_info->btdm_ant_det_finish ? "Yes" : "No"),
++		    board_info->btdm_ant_num_by_ant_det);
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = true;
++	psd_scan->ant_det_is_ant_det_available = false;
++
++	/* enable BB, REG_SYS_FUNC_EN such that we can write BB Register correctly. */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x2);
++	btcoexist->btc_write_2byte(btcoexist, 0x2, u16tmp | BIT(0) | BIT(1));
++
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++
++	/* Set Antenna Path to BT side */
++	/* Check efuse 0xc3[6] for Single Antenna Path */
++	if (board_info->single_ant_path == 0) {
++		/* set to S1 */
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++		u8tmp = 0;
++		value = 1;
++	} else if (board_info->single_ant_path == 1) {
++		/* set to S0 */
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++		u8tmp = 1;
++		value = 0;
++	}
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Power On) single_ant_path  = %d, btdm_ant_pos = %d **********\n",
++		    board_info->single_ant_path , board_info->btdm_ant_pos);
++	BTC_TRACE(trace_buf);
++
++	/* Set Antenna Path to BT side */
++	halbtc8723d1ant_set_ant_path(btcoexist,
++				     BTC_ANT_PATH_AUTO,
++				     FORCE_EXEC,
++				     BT_8723D_1ANT_PHASE_COEX_POWERON);
++
++	/* Write Single Antenna Position to Registry to tell BT for 8723d. This line can be removed
++	since BT EFuse also add "single antenna position" in EFuse for 8723d*/
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_ANTPOSREGRISTRY_CTRL,
++			   &value);
++
++	/* Save"single antenna position" info in Local register setting for FW reading, because FW may not ready at  power on */
++	if (btcoexist->chip_interface == BTC_INTF_PCI)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x3e0, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_USB)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60, u8tmp);
++
++	/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++	halbtc8723d1ant_enable_gnt_to_gpio(btcoexist, true);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********  LTE coex Reg 0x38 (Power-On) = 0x%x**********\n",
++		    halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist, 0x38));
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********  MAC Reg 0x70/ BB Reg 0x948 (Power-On) = 0x%x / 0x%x**********\n",
++		    btcoexist->btc_read_4byte(btcoexist, 0x70),
++		    btcoexist->btc_read_2byte(btcoexist, 0x948));
++	BTC_TRACE(trace_buf);
++
++}
++
++void ex_halbtc8723d1ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8723d1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8723d1ant_init_hw_config(btcoexist, true, wifi_only);
++}
++
++void ex_halbtc8723d1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723d1ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8723d1ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_stack_info		*stack_info = &btcoexist->stack_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, ps_tdma_case = 0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fa_ofdm, fa_cck, cca_ofdm, cca_cck;
++	u32				fw_ver = 0, bt_patch_ver = 0, bt_coex_ver = 0;
++	static u8			pop_report_in_10s = 0;
++	u32			phyver = 0;
++	boolean			lte_coex_on = false;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	if (btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	if (psd_scan->ant_det_try_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s",
++			   "Ant PG Num/ Mech/ Pos",
++			   board_info->pg_ant_num, board_info->btdm_ant_num,
++			   (board_info->btdm_ant_pos == 1 ? "S1" : "S0"));
++		CL_PRINTF(cli_buf);
++	} else {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d/ %d/ %s  (%d/%d/%d)",
++			   "Ant PG Num/ Mech(Ant_Det)/ Pos",
++			   board_info->pg_ant_num,
++			   board_info->btdm_ant_num_by_ant_det,
++			   (board_info->btdm_ant_pos == 1 ? "S1" : "S0"),
++			   psd_scan->ant_det_try_count,
++			   psd_scan->ant_det_fail_count,
++			   psd_scan->ant_det_result);
++		CL_PRINTF(cli_buf);
++
++		if (board_info->btdm_ant_det_finish) {
++
++			if (psd_scan->ant_det_result != 12)
++				CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++					   "\r\n %-35s = %s",
++					   "Ant Det PSD Value",
++					   psd_scan->ant_det_peak_val);
++			else
++				CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++					   "\r\n %-35s = %d",
++					   "Ant Det PSD Value",
++					   psd_scan->ant_det_psd_scan_peak_val
++					   / 100);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	if (board_info->ant_det_result_five_complete) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d/ %d",
++			   "AntDet(Registry) Num/PSD Value",
++			   board_info->btdm_ant_num_by_ant_det,
++			   (board_info->antdetval & 0x7f));
++		CL_PRINTF(cli_buf);
++	}
++
++	bt_patch_ver = btcoexist->bt_info.bt_get_fw_ver;
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	phyver = btcoexist->btc_get_bt_phydm_version(btcoexist);
++
++	bt_coex_ver = ((coex_sta->bt_coex_supported_version & 0xff00) >> 8);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%02x/ 0x%02x/ 0x%02x (%s)",
++		   "CoexVer WL/  BT_Desired/ BT_Report",
++		   glcoex_ver_date_8723d_1ant, glcoex_ver_8723d_1ant,
++		   glcoex_ver_btdesired_8723d_1ant,
++		   bt_coex_ver,
++		   (bt_coex_ver == 0xff ? "Unknown" :
++		   (bt_coex_ver >= glcoex_ver_btdesired_8723d_1ant ?
++		      "Match":"Mis-Match")));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ v%d/ %c",
++		   "W_FW/ B_FW/ Phy/ Kt",
++		   fw_ver, bt_patch_ver, phyver,
++		   coex_sta->cut_version + 65);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	pop_report_in_10s++;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = [%s/ %d dBm/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt/ popCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++			   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page")
++			   : ((BT_8723D_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8723D_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi - 100, coex_sta->bt_retry_cnt,
++		   coex_sta->pop_event_cnt);
++	CL_PRINTF(cli_buf);
++
++	if (pop_report_in_10s >= 5) {
++		coex_sta->pop_event_cnt = 0;
++		pop_report_in_10s = 0;
++	}
++
++	if (coex_sta->num_of_profile != 0)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %s%s%s%s%s",
++			   "Profiles",
++			   ((bt_link_info->a2dp_exist) ? "A2DP," : ""),
++			   ((bt_link_info->sco_exist) ?  "SCO," : ""),
++			   ((bt_link_info->hid_exist) ?  "HID," : ""),
++			   ((bt_link_info->pan_exist) ?  "PAN," : ""),
++			   ((coex_sta->voice_over_HOGP) ? "Voice" : ""));
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = None",
++			   "Profiles");
++
++	CL_PRINTF(cli_buf);
++
++	if (bt_link_info->a2dp_exist) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d/ %s",
++			   "A2DP Rate/Bitpool/Auto_Slot",
++			   ((coex_sta->is_A2DP_3M) ? "3M" : "No_3M"),
++			   coex_sta->a2dp_bit_pool,
++			   ((coex_sta->is_autoslot) ? "On" : "Off")
++			  );
++		CL_PRINTF(cli_buf);
++	}
++
++	if (bt_link_info->hid_exist) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++			   "HID PairNum/Forbid_Slot",
++			   coex_sta->hid_pair_cnt,
++			   coex_sta->forbidden_slot
++			  );
++		CL_PRINTF(cli_buf);
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %s/ 0x%x",
++		   "Role/IgnWlanAct/Feature",
++		   ((bt_link_info->slave_role) ? "Slave" : "Master"),
++		   ((coex_dm->cur_ignore_wlan_act) ? "Yes" : "No"),
++		   coex_sta->bt_coex_supported_feature);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d/ %d",
++		   "ReInit/ReLink/IgnWlact/Page/NameReq",
++		   coex_sta->cnt_ReInit,
++		   coex_sta->cnt_setupLink,
++		   coex_sta->cnt_IgnWlanAct,
++		   coex_sta->cnt_Page,
++		   coex_sta->cnt_RemoteNameReq
++		  );
++	CL_PRINTF(cli_buf);
++
++	halbtc8723d1ant_read_score_board(btcoexist,	&u16tmp[0]);
++
++	if ((coex_sta->bt_reg_vendor_ae == 0xffff) ||
++	    (coex_sta->bt_reg_vendor_ac == 0xffff))
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = x/ x/ %04x",
++			   "0xae[4]/0xac[1:0]/Scoreboard", u16tmp[0]);
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = 0x%x/ 0x%x/ %04x",
++			   "0xae[4]/0xac[1:0]/Scoreboard",
++			   ((coex_sta->bt_reg_vendor_ae & BIT(4)) >> 4),
++			   coex_sta->bt_reg_vendor_ac & 0x3, u16tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	for (i = 0; i < BT_INFO_SRC_8723D_1ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x (%d)",
++				   glbt_info_src_8723d_1ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++
++	if (btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[mechanisms] (before Manual)============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[Mechanisms]============");
++
++	CL_PRINTF(cli_buf);
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x (case-%d, %s)",
++		   "TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   (coex_dm->cur_ps_tdma_on ? "TDMA On" : "TDMA Off"));
++
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d/ 0x%x/ 0x%x/ 0x%x",
++		   "Table/0x6c0/0x6c4/0x6c8",
++		   coex_sta->coex_table_type, u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x778/0x6cc",
++		   u8tmp[0], u32tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s",
++		   "AntDiv/ ForceLPS",
++		   ((board_info->ant_div_cfg) ? "On" : "Off"),
++		   ((coex_sta->force_lps_on) ? "On" : "Off"));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	lte_coex_on = ((u32tmp[0] & BIT(7)) >> 7) ?  true : false;
++
++	if (lte_coex_on) {
++
++		u32tmp[0] = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist,
++				0xa0);
++		u32tmp[1] = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist,
++				0xa4);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++			   "LTE Coex  Table W_L/B_L",
++			   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff);
++		CL_PRINTF(cli_buf);
++
++		u32tmp[0] = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist,
++				0xa8);
++		u32tmp[1] = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist,
++				0xac);
++		u32tmp[2] = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist,
++				0xb0);
++		u32tmp[3] = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist,
++				0xb4);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++			   "LTE Break Table W_L/B_L/L_W/L_B",
++			   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff,
++			   u32tmp[2] & 0xffff, u32tmp[3] & 0xffff);
++		CL_PRINTF(cli_buf);
++
++	}
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++	/*
++		u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++		u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++		u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++		u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++			   "0x430/0x434/0x42a/0x456",
++			   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++		CL_PRINTF(cli_buf);
++	*/
++
++	u32tmp[0] = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp[1] = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s",
++		   "LTE Coex/Path Owner",
++		   ((lte_coex_on) ? "On" : "Off") ,
++		   ((u8tmp[0] & BIT(2)) ? "WL" : "BT"));
++	CL_PRINTF(cli_buf);
++
++	if (lte_coex_on) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d/ %d/ %d/ %d",
++			   "LTE 3Wire/OPMode/UART/UARTMode",
++			   (int)((u32tmp[0] & BIT(6)) >> 6),
++			   (int)((u32tmp[0] & (BIT(5) | BIT(4))) >> 4),
++			   (int)((u32tmp[0] & BIT(3)) >> 3),
++			   (int)(u32tmp[0] & (BIT(2) | BIT(1) | BIT(0))));
++		CL_PRINTF(cli_buf);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++			   "LTE_Busy/UART_Busy",
++			(int)((u32tmp[1] & BIT(1)) >> 1), (int)(u32tmp[1] & BIT(0)));
++		CL_PRINTF(cli_buf);
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %s (BB:%s)/ %s (BB:%s)/ %s",
++		   "GNT_WL_Ctrl/GNT_BT_Ctrl/Dbg",
++		   ((u32tmp[0] & BIT(12)) ? "SW" : "HW"),
++		   ((u32tmp[0] & BIT(8)) ?  "SW" : "HW"),
++		   ((u32tmp[0] & BIT(14)) ? "SW" : "HW"),
++		   ((u32tmp[0] & BIT(10)) ?  "SW" : "HW"),
++		   ((u8tmp[0] & BIT(3)) ? "On" : "Off"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "GNT_WL/GNT_BT",
++		   (int)((u32tmp[1] & BIT(2)) >> 2),
++		   (int)((u32tmp[1] & BIT(3)) >> 3));
++	CL_PRINTF(cli_buf);
++
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x948);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x67);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x948/0x67[7]",
++		   u16tmp[0], (int)((u8tmp[0] & BIT(7)) >> 7));
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x964);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x864);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0xab7);
++	u8tmp[3] = btcoexist->btc_read_1byte(btcoexist, 0xa01);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x964[1]/0x864[0]/0xab7[5]/0xa01[7]",
++		   (int)((u8tmp[0] & BIT(1)) >> 1), (int)((u8tmp[1] & BIT(0))),
++		   (int)((u8tmp[2] & BIT(3)) >> 3),
++		   (int)((u8tmp[3] & BIT(7)) >> 7));
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x4c6);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0x45e);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x4c6[4]/0x40[5]/0x45e[3](TxRetry)",
++		   (int)((u8tmp[0] & BIT(4)) >> 4),
++		   (int)((u8tmp[1] & BIT(5)) >> 5),
++		   (int)((u8tmp[2] & BIT(3)) >> 3));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x953);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ %s",
++		   "0x550/0x522/4-RxAGC",
++		   u32tmp[0], u8tmp[0], (u8tmp[1] & 0x2) ? "On" : "Off");
++	CL_PRINTF(cli_buf);
++
++	fa_ofdm = btcoexist->btc_phydm_query_PHY_counter(btcoexist, PHYDM_INFO_FA_OFDM);
++	fa_cck = btcoexist->btc_phydm_query_PHY_counter(btcoexist, PHYDM_INFO_FA_CCK);
++	cca_ofdm = btcoexist->btc_phydm_query_PHY_counter(btcoexist, PHYDM_INFO_CCA_OFDM);
++	cca_cck = btcoexist->btc_phydm_query_PHY_counter(btcoexist, PHYDM_INFO_CCA_CCK);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "CCK-CCA/CCK-FA/OFDM-CCA/OFDM-FA",
++		   cca_cck, fa_cck, cca_ofdm, fa_ofdm);
++	CL_PRINTF(cli_buf);
++
++#if 1
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11n-agg",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_vht);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11n-agg",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_vht);
++	CL_PRINTF(cli_buf);
++#endif
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s/ %s",
++		   "Wifi-HiPri/ Ccklock/ CckEverLock",
++		   (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"),
++		   (coex_sta->cck_lock ? "Yes" : "No"),
++		   (coex_sta->cck_ever_lock ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(Hi-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(Lo-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8723d1ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++
++		/* Write WL "Active" in Score-board for LPS off */
++		halbtc8723d1ant_post_state_to_bt(btcoexist,
++				 BT_8723D_1ANT_SCOREBOARD_ACTIVE, false);
++
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC,
++					     BT_8723D_1ANT_PHASE_WLAN_OFF);
++
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723d1ant_post_state_to_bt(btcoexist,
++					 BT_8723D_1ANT_SCOREBOARD_ACTIVE, true);
++
++		halbtc8723d1ant_init_hw_config(btcoexist, false, false);
++		halbtc8723d1ant_init_coex_dm(btcoexist);;
++
++		coex_sta->under_ips = false;
++	}
++}
++
++void ex_halbtc8723d1ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++
++		if (coex_sta->force_lps_on == true) { /* LPS No-32K */
++			/* Write WL "Active" in Score-board for PS-TDMA */
++			halbtc8723d1ant_post_state_to_bt(btcoexist,
++					 BT_8723D_1ANT_SCOREBOARD_ACTIVE, true);
++
++		} else { /* LPS-32K, need check if this h2c 0x71 can work?? (2015/08/28) */
++			/* Write WL "Non-Active" in Score-board for Native-PS */
++			halbtc8723d1ant_post_state_to_bt(btcoexist,
++				 BT_8723D_1ANT_SCOREBOARD_ACTIVE, false);
++
++		}
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++
++		/* Write WL "Active" in Score-board for LPS off */
++		halbtc8723d1ant_post_state_to_bt(btcoexist,
++					 BT_8723D_1ANT_SCOREBOARD_ACTIVE, true);
++
++	}
++}
++
++void ex_halbtc8723d1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	boolean wifi_connected = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	coex_sta->freeze_coexrun_by_btinfo = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	halbtc8723d1ant_query_bt_info(btcoexist);
++
++	if (BTC_SCAN_START == type) {
++
++		if (!wifi_connected)
++			coex_sta->wifi_is_high_pri_task = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d1ant_post_state_to_bt(btcoexist,
++					 BT_8723D_1ANT_SCOREBOARD_SCAN, true);
++		halbtc8723d1ant_post_state_to_bt(btcoexist,
++					 BT_8723D_1ANT_SCOREBOARD_ACTIVE, true);
++
++		/* Force antenna setup for no scan result issue */
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC,
++					     BT_8723D_1ANT_PHASE_2G_RUNTIME);
++
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8723d1ant_action_wifi_not_connected_scan(
++				btcoexist);
++		else	/* wifi is connected */
++			halbtc8723d1ant_action_wifi_connected_scan(btcoexist);
++
++	} else {
++
++		coex_sta->wifi_is_high_pri_task = false;
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify  (Scan-AP = %d)\n",
++			    coex_sta->scan_ap_num);
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d1ant_post_state_to_bt(btcoexist,
++					 BT_8723D_1ANT_SCOREBOARD_SCAN, false);
++
++		if (!wifi_connected)
++			halbtc8723d1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8723d1ant_action_wifi_connected(btcoexist);
++	}
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], SCAN Notify() end\n");
++	BTC_TRACE(trace_buf);
++
++}
++
++void ex_halbtc8723d1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	boolean	wifi_connected = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	if (BTC_ASSOCIATE_START == type) {
++
++		coex_sta->wifi_is_high_pri_task = true;
++
++		halbtc8723d1ant_post_state_to_bt(btcoexist,
++					 BT_8723D_1ANT_SCOREBOARD_ACTIVE, true);
++
++		/* Force antenna setup for no scan result issue */
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC,
++					     BT_8723D_1ANT_PHASE_2G_RUNTIME);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++
++		coex_dm->arp_cnt = 0;
++
++		halbtc8723d1ant_action_wifi_not_connected_asso_auth(btcoexist);
++
++		/* To keep TDMA case during connect process,
++		to avoid changed by Btinfo and runcoexmechanism */
++		coex_sta->freeze_coexrun_by_btinfo = true;
++	} else {
++
++		coex_sta->wifi_is_high_pri_task = false;
++		coex_sta->freeze_coexrun_by_btinfo = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++
++		if (!wifi_connected) /* non-connected scan */
++			halbtc8723d1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8723d1ant_action_wifi_connected(btcoexist);
++	}
++
++}
++
++void ex_halbtc8723d1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean			wifi_under_b_mode = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_MEDIA_CONNECT == type) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d1ant_post_state_to_bt(btcoexist,
++					 BT_8723D_1ANT_SCOREBOARD_ACTIVE, true);
++
++		/* Force antenna setup for no scan result issue */
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC,
++					     BT_8723D_1ANT_PHASE_2G_RUNTIME);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++
++		/* Set CCK Tx/Rx high Pri except 11b mode */
++		if (wifi_under_b_mode) {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x00); /* CCK Rx */
++		} else {
++			/* btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x10); */ /*CCK Tx */
++			/* btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x10); */ /*CCK Rx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x10); /* CCK Rx */
++		}
++
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d1ant_post_state_to_bt(btcoexist,
++				 BT_8723D_1ANT_SCOREBOARD_ACTIVE, false);
++
++		btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x0); /* CCK Tx */
++		btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x0); /* CCK Rx */
++
++		coex_sta->cck_ever_lock = false;
++	}
++
++	halbtc8723d1ant_update_wifi_channel_info(btcoexist, type);
++
++}
++
++void ex_halbtc8723d1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean	under_4way = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (under_4way) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], specific Packet ---- under_4way!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	} else if (BTC_PACKET_ARP == type) {
++
++		coex_dm->arp_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], specific Packet ARP notify -cnt = %d\n",
++			    coex_dm->arp_cnt);
++		BTC_TRACE(trace_buf);
++
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet DHCP or EAPOL notify [Type = %d]\n",
++			    type);
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	}
++
++	if (coex_sta->wifi_is_high_pri_task)
++		halbtc8723d1ant_action_wifi_connected_specific_packet(
++			btcoexist);
++}
++
++void ex_halbtc8723d1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8			i, rsp_source = 0;
++	boolean	wifi_connected = false;
++
++	if (psd_scan->is_AntDet_running == true) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], bt_info_notify return for AntDet is running\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8723D_1ANT_MAX)
++		rsp_source = BT_INFO_SRC_8723D_1ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt_info[%d], len=%d, data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	coex_sta->bt_info = coex_sta->bt_info_c2h[rsp_source][1];
++	coex_sta->bt_info_ext = coex_sta->bt_info_c2h[rsp_source][4];
++	coex_sta->bt_info_ext2 = coex_sta->bt_info_c2h[rsp_source][5];
++
++	if (BT_INFO_SRC_8723D_1ANT_WIFI_FW != rsp_source) {
++
++		/* if 0xff, it means BT is under WHCK test */
++		coex_sta->bt_whck_test = ((coex_sta->bt_info == 0xff) ? true :
++					  false);
++
++		coex_sta->bt_create_connection = ((
++			coex_sta->bt_info_c2h[rsp_source][2] & 0x80) ? true :
++						  false);
++
++		/* unit: %, value-100 to translate to unit: dBm */
++		coex_sta->bt_rssi = coex_sta->bt_info_c2h[rsp_source][3] * 2 +
++				    10;
++
++		coex_sta->c2h_bt_remote_name_req = ((
++			coex_sta->bt_info_c2h[rsp_source][2] & 0x20) ? true :
++						    false);
++
++		coex_sta->is_A2DP_3M = ((coex_sta->bt_info_c2h[rsp_source][2] &
++					 0x10) ? true : false);
++
++		coex_sta->acl_busy = ((coex_sta->bt_info_c2h[rsp_source][1] &
++				       0x9) ? true : false);
++
++		coex_sta->voice_over_HOGP = ((coex_sta->bt_info_ext & 0x10) ?
++					     true : false);
++
++		coex_sta->c2h_bt_inquiry_page = ((coex_sta->bt_info &
++			  BT_INFO_8723D_1ANT_B_INQ_PAGE) ? true : false);
++
++		coex_sta->a2dp_bit_pool = (((
++			coex_sta->bt_info_c2h[rsp_source][1] & 0x49) == 0x49) ?
++				   coex_sta->bt_info_c2h[rsp_source][6] : 0);
++
++		coex_sta->bt_retry_cnt = coex_sta->bt_info_c2h[rsp_source][2] &
++					 0xf;
++
++		coex_sta->is_autoslot = coex_sta->bt_info_ext2 & 0x8;
++
++		coex_sta->forbidden_slot = coex_sta->bt_info_ext2 & 0x7;
++
++		coex_sta->hid_busy_num = (coex_sta->bt_info_ext2 & 0x30) >> 4;
++
++		coex_sta->hid_pair_cnt = (coex_sta->bt_info_ext2 & 0xc0) >> 6;
++
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++
++		if (coex_sta->c2h_bt_remote_name_req)
++			coex_sta->cnt_RemoteNameReq++;
++
++		if (coex_sta->bt_info_ext & BIT(1))
++			coex_sta->cnt_ReInit++;
++
++		if (coex_sta->bt_info_ext & BIT(2)) {
++			coex_sta->cnt_setupLink++;
++			coex_sta->is_setupLink = true;
++		} else
++			coex_sta->is_setupLink = false;
++
++		if (coex_sta->bt_info_ext & BIT(3))
++			coex_sta->cnt_IgnWlanAct++;
++
++		if (coex_sta->bt_create_connection)
++			coex_sta->cnt_Page++;
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++
++		if ((!btcoexist->manual_control) &&
++		    (!btcoexist->stop_coex_dm)) {
++
++			btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++					   &wifi_connected);
++
++			/*	Re-Init */
++			if ((coex_sta->bt_info_ext & BIT(1))) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++				BTC_TRACE(trace_buf);
++				if (wifi_connected)
++					halbtc8723d1ant_update_wifi_channel_info(
++						btcoexist, BTC_MEDIA_CONNECT);
++				else
++					halbtc8723d1ant_update_wifi_channel_info(
++						btcoexist,
++						BTC_MEDIA_DISCONNECT);
++			}
++
++
++			/*	If Ignore_WLanAct && not SetUp_Link */
++			if ((coex_sta->bt_info_ext & BIT(3)) &&
++			    (!(coex_sta->bt_info_ext & BIT(2)))) {
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8723d1ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		}
++
++	}
++
++
++	halbtc8723d1ant_update_bt_link_info(btcoexist);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), No run_coexist_mechanism for Manual CTRL\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(),	No run_coexist_mechanism for Stop Coex DM\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	halbtc8723d1ant_run_coexist_mechanism(btcoexist);
++}
++
++
++
++void ex_halbtc8723d1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RF Status notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_RF_ON == type) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wl_rf_off_on_event = true;
++		btcoexist->stop_coex_dm = false;
++
++		halbtc8723d1ant_post_state_to_bt(btcoexist,
++					 BT_8723D_1ANT_SCOREBOARD_ACTIVE, true);
++		halbtc8723d1ant_post_state_to_bt(btcoexist,
++					 BT_8723D_1ANT_SCOREBOARD_ONOFF, true);
++
++	} else if (BTC_RF_OFF == type) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d1ant_post_state_to_bt(btcoexist,
++				 BT_8723D_1ANT_SCOREBOARD_ACTIVE, false);
++		halbtc8723d1ant_post_state_to_bt(btcoexist,
++					 BT_8723D_1ANT_SCOREBOARD_ONOFF, false);
++
++		halbtc8723d1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC,
++					     BT_8723D_1ANT_PHASE_WLAN_OFF);
++
++		btcoexist->stop_coex_dm = true;
++		coex_sta->wl_rf_off_on_event = false;
++	}
++}
++
++void ex_halbtc8723d1ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8723d1ant_post_state_to_bt(btcoexist,
++				 BT_8723D_1ANT_SCOREBOARD_ACTIVE, false);
++	halbtc8723d1ant_post_state_to_bt(btcoexist,
++					 BT_8723D_1ANT_SCOREBOARD_ONOFF, false);
++
++	halbtc8723d1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++
++	halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, FORCE_EXEC,
++				     BT_8723D_1ANT_PHASE_WLAN_OFF);
++
++	halbtc8723d1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++	ex_halbtc8723d1ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	btcoexist->stop_coex_dm = true;
++}
++
++void ex_halbtc8723d1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if ((BTC_WIFI_PNP_SLEEP == pnp_state) ||
++	    (BTC_WIFI_PNP_SLEEP_KEEP_ANT == pnp_state)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d1ant_post_state_to_bt(btcoexist,
++				 BT_8723D_1ANT_SCOREBOARD_ACTIVE, false);
++		halbtc8723d1ant_post_state_to_bt(btcoexist,
++					 BT_8723D_1ANT_SCOREBOARD_ONOFF, false);
++
++		if (BTC_WIFI_PNP_SLEEP_KEEP_ANT == pnp_state) {
++
++			halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++						     FORCE_EXEC,
++					     BT_8723D_1ANT_PHASE_2G_RUNTIME);
++		} else {
++
++			halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++						     FORCE_EXEC,
++					     BT_8723D_1ANT_PHASE_WLAN_OFF);
++		}
++
++		btcoexist->stop_coex_dm = true;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d1ant_post_state_to_bt(btcoexist,
++					 BT_8723D_1ANT_SCOREBOARD_ACTIVE, true);
++		halbtc8723d1ant_post_state_to_bt(btcoexist,
++					 BT_8723D_1ANT_SCOREBOARD_ONOFF, true);
++
++		btcoexist->stop_coex_dm = false;
++	}
++}
++
++
++void ex_halbtc8723d1ant_coex_dm_reset(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], *****************Coex DM Reset*****************\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8723d1ant_init_hw_config(btcoexist, false, false);
++	halbtc8723d1ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8723d1ant_periodical(IN struct btc_coexist *btcoexist)
++{
++
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ************* Periodical *************\n");
++	BTC_TRACE(trace_buf);
++
++#if (BT_AUTO_REPORT_ONLY_8723D_1ANT == 0)
++	halbtc8723d1ant_query_bt_info(btcoexist);
++
++#endif
++
++	halbtc8723d1ant_monitor_bt_ctr(btcoexist);
++	halbtc8723d1ant_monitor_wifi_ctr(btcoexist);
++
++	halbtc8723d1ant_monitor_bt_enable_disable(btcoexist);
++
++	/* for 4-way, DHCP, EAPOL packet */
++	if (coex_sta->specific_pkt_period_cnt > 0) {
++
++		coex_sta->specific_pkt_period_cnt--;
++
++		if ((coex_sta->specific_pkt_period_cnt == 0) &&
++		    (coex_sta->wifi_is_high_pri_task))
++			coex_sta->wifi_is_high_pri_task = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ***************** Hi-Pri Task = %s*****************\n",
++			    (coex_sta->wifi_is_high_pri_task ? "Yes" :
++			     "No"));
++		BTC_TRACE(trace_buf);
++
++	}
++
++	if (!coex_sta->bt_disabled) {
++		if (coex_sta->bt_coex_supported_feature == 0)
++			coex_sta->bt_coex_supported_feature =
++				btcoexist->btc_get_bt_coex_supported_feature(
++					btcoexist);
++
++		if ((coex_sta->bt_coex_supported_version == 0) ||
++			 (coex_sta->bt_coex_supported_version == 0xffff))
++			coex_sta->bt_coex_supported_version =
++				btcoexist->btc_get_bt_coex_supported_version(
++					btcoexist);
++
++		if (coex_sta->bt_reg_vendor_ac == 0xffff)
++			coex_sta->bt_reg_vendor_ac = (u16)(
++				     btcoexist->btc_get_bt_reg(btcoexist, 3,
++							     0xac) & 0xffff);
++
++		if (coex_sta->bt_reg_vendor_ae == 0xffff)
++			coex_sta->bt_reg_vendor_ae = (u16)(
++				     btcoexist->btc_get_bt_reg(btcoexist, 3,
++							     0xae) & 0xffff);
++
++#if BT_8723D_1ANT_ANTDET_ENABLE
++
++		if (board_info->btdm_ant_det_finish) {
++			if ((psd_scan->ant_det_result == 12) &&
++			    (psd_scan->ant_det_psd_scan_peak_val == 0)
++			    && (!psd_scan->is_AntDet_running))
++				psd_scan->ant_det_psd_scan_peak_val =
++					btcoexist->btc_get_ant_det_val_from_bt(
++						btcoexist) * 100;
++		}
++
++#endif
++	}
++
++	if (halbtc8723d1ant_is_wifibt_status_changed(btcoexist))
++		halbtc8723d1ant_run_coexist_mechanism(btcoexist);
++
++
++}
++
++void ex_halbtc8723d1ant_set_antenna_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	if (btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (type == 2) { /* two antenna */
++		board_info->ant_div_cfg = true;
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_WIFI,
++					     FORCE_EXEC,
++					     BT_8723D_1ANT_PHASE_2G_RUNTIME);
++	} else { /* one antenna */
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC,
++					     BT_8723D_1ANT_PHASE_2G_RUNTIME);
++	}
++}
++
++#ifdef PLATFORM_WINDOWS
++#pragma optimize("", off)
++#endif
++void ex_halbtc8723d1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u16		u16tmp;
++	u8			AntDetval = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx Ext Call AntennaDetect()!!\n");
++	BTC_TRACE(trace_buf);
++
++#if BT_8723D_1ANT_ANTDET_ENABLE
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx Call AntennaDetect()!!\n");
++	BTC_TRACE(trace_buf);
++
++	if (seconds == 0) {
++		psd_scan->ant_det_try_count	= 0;
++		psd_scan->ant_det_fail_count	= 0;
++		ant_det_count = 0;
++		ant_det_fail_count = 0;
++		board_info->btdm_ant_det_finish = false;
++		board_info->btdm_ant_num_by_ant_det = 1;
++		return;
++	}
++
++	if (!board_info->btdm_ant_det_finish) {
++		psd_scan->ant_det_inteval_count =
++			psd_scan->ant_det_inteval_count + 2;
++
++		if (psd_scan->ant_det_inteval_count >=
++		    BT_8723D_2ANT_ANTDET_RETRY_INTERVAL) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is up, Try Detect!!\n");
++			BTC_TRACE(trace_buf);
++
++			psd_scan->is_AntDet_running = true;
++
++			halbtc8723d1ant_read_score_board(btcoexist,	&u16tmp);
++
++			if (u16tmp & BIT(
++				2)) { /* Antenna detection is already done before last WL power on   */
++				board_info->btdm_ant_det_finish = true;
++				psd_scan->ant_det_try_count = 1;
++				psd_scan->ant_det_fail_count = 0;
++				board_info->btdm_ant_num_by_ant_det = (u16tmp &
++							       BIT(3)) ? 1 : 2;
++				psd_scan->ant_det_result = 12;
++
++				psd_scan->ant_det_psd_scan_peak_val =
++					btcoexist->btc_get_ant_det_val_from_bt(
++						btcoexist) * 100;
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Result from BT (%d-Ant)\n",
++					board_info->btdm_ant_num_by_ant_det);
++				BTC_TRACE(trace_buf);
++			} else
++				board_info->btdm_ant_det_finish =
++					halbtc8723d1ant_psd_antenna_detection_check(
++						btcoexist);
++
++			board_info->ant_det_result = psd_scan->ant_det_result;
++			btcoexist->bdontenterLPS = false;
++
++			if (board_info->btdm_ant_det_finish) {
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Success!!\n");
++				BTC_TRACE(trace_buf);
++
++				if (board_info->btdm_ant_num_by_ant_det == 2) {
++					board_info->ant_div_cfg = true;
++					halbtc8723d1ant_set_ant_path(btcoexist,
++						BTC_ANT_PATH_WIFI, FORCE_EXEC,
++						BT_8723D_1ANT_PHASE_2G_RUNTIME);
++				} else
++					halbtc8723d1ant_set_ant_path(btcoexist,
++						BTC_ANT_PATH_AUTO, FORCE_EXEC,
++						BT_8723D_1ANT_PHASE_2G_RUNTIME);
++
++				/*for 8723d, btc_set_bt_trx_mask is just used to
++					notify BT stop le tx and Ant Det Result , not set BT RF TRx Mask  */
++				if (psd_scan->ant_det_result != 12) {
++
++					AntDetval = (u8)(
++						psd_scan->ant_det_psd_scan_peak_val
++							    / 100) & 0x7f;
++
++					AntDetval =
++						(board_info->btdm_ant_num_by_ant_det
++						 == 1) ? (AntDetval | 0x80) :
++						AntDetval;
++					board_info->antdetval = AntDetval;
++
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"xxxxxx AntennaDetect(), Ant Count = %d, PSD Val = %d\n",
++						    ((AntDetval &
++						      0x80) ? 1
++						     : 2), AntDetval
++						    & 0x7f);
++					BTC_TRACE(trace_buf);
++
++					if (btcoexist->btc_set_bt_trx_mask(
++						    btcoexist, AntDetval))
++						BTC_SPRINTF(trace_buf,
++							    BT_TMP_BUF_SIZE,
++							"xxxxxx AntennaDetect(), Notify BT stop le tx by set_bt_trx_mask ok!\n");
++					else
++						BTC_SPRINTF(trace_buf,
++							    BT_TMP_BUF_SIZE,
++							"xxxxxx AntennaDetect(), Notify BT stop le tx by set_bt_trx_mask fail!\n");
++
++					BTC_TRACE(trace_buf);
++				} else
++					board_info->antdetval =
++						psd_scan->ant_det_psd_scan_peak_val/100;
++
++				board_info->btdm_ant_det_complete_fail = false;
++
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Fail!!\n");
++				BTC_TRACE(trace_buf);
++
++				board_info->btdm_ant_det_complete_fail = true;
++			}
++
++			psd_scan->ant_det_inteval_count = 0;
++			psd_scan->is_AntDet_running = false;
++			/* stimulate coex running */
++			halbtc8723d1ant_run_coexist_mechanism(
++				btcoexist);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stimulate Coex running\n!!");
++			BTC_TRACE(trace_buf);
++
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is not up! (%d)\n",
++				    psd_scan->ant_det_inteval_count);
++			BTC_TRACE(trace_buf);
++
++			if (psd_scan->ant_det_inteval_count == 8)
++				btcoexist->bdontenterLPS = true;
++			else
++				btcoexist->bdontenterLPS = false;
++		}
++
++	}
++#endif
++
++
++}
++
++
++void ex_halbtc8723d1ant_display_ant_detection(IN struct btc_coexist *btcoexist)
++{
++#if BT_8723D_1ANT_ANTDET_ENABLE
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	if (psd_scan->ant_det_try_count != 0)	{
++		halbtc8723d1ant_psd_show_antenna_detect_result(btcoexist);
++
++		if (board_info->btdm_ant_det_finish)
++			halbtc8723d1ant_psd_showdata(btcoexist);
++	}
++#endif
++
++}
++
++void ex_halbtc8723d1ant_antenna_isolation(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++
++}
++
++void ex_halbtc8723d1ant_psd_scan(IN struct btc_coexist *btcoexist,
++		 IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++
++}
++
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/halbtc8723d1ant.h b/drivers/net/wireless/rtl8723du/hal/btc/halbtc8723d1ant.h
+new file mode 100644
+index 0000000..9d9f461
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/halbtc8723d1ant.h
+@@ -0,0 +1,402 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8723D_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8723D 1ANT BT Co-exist definition
++ * ******************************************* */
++#define	BT_8723D_1ANT_COEX_DBG					0
++#define	BT_AUTO_REPORT_ONLY_8723D_1ANT				1
++
++#define	BT_INFO_8723D_1ANT_B_FTP						BIT(7)
++#define	BT_INFO_8723D_1ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8723D_1ANT_B_HID						BIT(5)
++#define	BT_INFO_8723D_1ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8723D_1ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8723D_1ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8723D_1ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8723D_1ANT_B_CONNECTION				BIT(0)
++
++#define	BT_INFO_8723D_1ANT_A2DP_BASIC_RATE(_BT_INFO_EXT_)	\
++	(((_BT_INFO_EXT_&BIT(0))) ? true : false)
++
++#define	BTC_RSSI_COEX_THRESH_TOL_8723D_1ANT		2
++
++#define  BT_8723D_1ANT_WIFI_NOISY_THRESH							30   /* max: 255 */
++#define  BT_8723D_1ANT_DEFAULT_ISOLATION						15	 /*  unit: dB */
++
++
++/* for Antenna detection */
++#define	BT_8723D_1ANT_ANTDET_PSDTHRES_BACKGROUND					50
++#define	BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION				70
++#define	BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION			55
++#define	BT_8723D_1ANT_ANTDET_PSDTHRES_1ANT							35
++#define	BT_8723D_1ANT_ANTDET_RETRY_INTERVAL							10	/* retry timer if ant det is fail, unit: second */
++#define	BT_8723D_1ANT_ANTDET_SWEEPPOINT_DELAY							60000
++#define	BT_8723D_1ANT_ANTDET_ENABLE									1
++#define	BT_8723D_1ANT_ANTDET_BTTXTIME									100
++#define	BT_8723D_1ANT_ANTDET_BTTXCHANNEL								39
++#define	BT_8723D_1ANT_ANTDET_PSD_SWWEEPCOUNT						50
++
++#define	BT_8723D_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT		30000
++
++enum bt_8723d_1ant_signal_state {
++	BT_8723D_1ANT_SIG_STA_SET_TO_LOW		= 0x0,
++	BT_8723D_1ANT_SIG_STA_SET_BY_HW		= 0x0,
++	BT_8723D_1ANT_SIG_STA_SET_TO_HIGH		= 0x1,
++	BT_8723D_1ANT_SIG_STA_MAX
++};
++
++enum bt_8723d_1ant_path_ctrl_owner {
++	BT_8723D_1ANT_PCO_BTSIDE		= 0x0,
++	BT_8723D_1ANT_PCO_WLSIDE	= 0x1,
++	BT_8723D_1ANT_PCO_MAX
++};
++
++enum bt_8723d_1ant_gnt_ctrl_type {
++	BT_8723D_1ANT_GNT_TYPE_CTRL_BY_PTA		= 0x0,
++	BT_8723D_1ANT_GNT_TYPE_CTRL_BY_SW		= 0x1,
++	BT_8723D_1ANT_GNT_TYPE_MAX
++};
++
++enum bt_8723d_1ant_gnt_ctrl_block {
++	BT_8723D_1ANT_GNT_BLOCK_RFC_BB		= 0x0,
++	BT_8723D_1ANT_GNT_BLOCK_RFC			= 0x1,
++	BT_8723D_1ANT_GNT_BLOCK_BB			= 0x2,
++	BT_8723D_1ANT_GNT_BLOCK_MAX
++};
++
++enum bt_8723d_1ant_lte_coex_table_type {
++	BT_8723D_1ANT_CTT_WL_VS_LTE			= 0x0,
++	BT_8723D_1ANT_CTT_BT_VS_LTE			= 0x1,
++	BT_8723D_1ANT_CTT_MAX
++};
++
++enum bt_8723d_1ant_lte_break_table_type {
++	BT_8723D_1ANT_LBTT_WL_BREAK_LTE			= 0x0,
++	BT_8723D_1ANT_LBTT_BT_BREAK_LTE				= 0x1,
++	BT_8723D_1ANT_LBTT_LTE_BREAK_WL			= 0x2,
++	BT_8723D_1ANT_LBTT_LTE_BREAK_BT				= 0x3,
++	BT_8723D_1ANT_LBTT_MAX
++};
++
++enum bt_info_src_8723d_1ant {
++	BT_INFO_SRC_8723D_1ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8723D_1ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8723D_1ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8723D_1ANT_MAX
++};
++
++enum bt_8723d_1ant_bt_status {
++	BT_8723D_1ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8723D_1ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8723D_1ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8723D_1ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8723D_1ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8723D_1ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8723D_1ANT_BT_STATUS_MAX
++};
++
++enum bt_8723d_1ant_wifi_status {
++	BT_8723D_1ANT_WIFI_STATUS_NON_CONNECTED_IDLE				= 0x0,
++	BT_8723D_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN		= 0x1,
++	BT_8723D_1ANT_WIFI_STATUS_CONNECTED_SCAN					= 0x2,
++	BT_8723D_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT				= 0x3,
++	BT_8723D_1ANT_WIFI_STATUS_CONNECTED_IDLE					= 0x4,
++	BT_8723D_1ANT_WIFI_STATUS_CONNECTED_BUSY					= 0x5,
++	BT_8723D_1ANT_WIFI_STATUS_MAX
++};
++
++enum bt_8723d_1ant_coex_algo {
++	BT_8723D_1ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8723D_1ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8723D_1ANT_COEX_ALGO_HID				= 0x2,
++	BT_8723D_1ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8723D_1ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8723D_1ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8723D_1ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8723D_1ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8723D_1ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8723D_1ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8723D_1ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8723D_1ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++enum bt_8723d_1ant_phase {
++	BT_8723D_1ANT_PHASE_COEX_INIT								= 0x0,
++	BT_8723D_1ANT_PHASE_WLANONLY_INIT							= 0x1,
++	BT_8723D_1ANT_PHASE_WLAN_OFF								= 0x2,
++	BT_8723D_1ANT_PHASE_2G_RUNTIME								= 0x3,
++	BT_8723D_1ANT_PHASE_5G_RUNTIME								= 0x4,
++	BT_8723D_1ANT_PHASE_BTMPMODE								= 0x5,
++	BT_8723D_1ANT_PHASE_ANTENNA_DET								= 0x6,
++	BT_8723D_1ANT_PHASE_COEX_POWERON							= 0x7,
++	BT_8723D_1ANT_PHASE_MAX
++};
++
++enum bt_8723d_1ant_Scoreboard {
++	BT_8723D_1ANT_SCOREBOARD_ACTIVE								= BIT(0),
++	BT_8723D_1ANT_SCOREBOARD_ONOFF								= BIT(1),
++	BT_8723D_1ANT_SCOREBOARD_SCAN								= BIT(2)
++};
++
++struct coex_dm_8723d_1ant {
++	/* hw setting */
++	u8		pre_ant_pos_type;
++	u8		cur_ant_pos_type;
++	/* fw mechanism */
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	/* sw mechanism */
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++	u32		arp_cnt;
++
++	u8		error_condition;
++};
++
++struct coex_sta_8723d_1ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++	boolean					bt_hi_pri_link_exist;
++	u8					num_of_profile;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					specific_pkt_period_cnt;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	s8					bt_rssi;
++	boolean				bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean				c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8723D_1ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8723D_1ANT_MAX];
++	boolean				bt_whck_test;
++	boolean				c2h_bt_inquiry_page;
++	boolean				c2h_bt_remote_name_req;
++	boolean				c2h_bt_page;				/* Add for win8.1 page out issue */
++	boolean				wifi_is_high_pri_task;		/* Add for win8.1 page out issue */
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u8					bt_info_ext2;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_vht;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_vht;
++
++	boolean				cck_lock;
++	boolean				pre_ccklock;
++	boolean				cck_ever_lock;
++	u8					coex_table_type;
++
++	boolean				force_lps_on;
++	u32					wrong_profile_notification;
++
++	boolean				concurrent_rx_mode_on;
++
++	u16					score_board;
++	u8					isolation_btween_wb;   /* 0~ 50 */
++
++	u8					a2dp_bit_pool;
++	u8					cut_version;
++	boolean				acl_busy;
++	boolean				wl_rf_off_on_event;
++	boolean				bt_create_connection;
++
++	u32					bt_coex_supported_feature;
++	u32					bt_coex_supported_version;
++
++	boolean				run_time_state;
++	boolean				freeze_coexrun_by_btinfo;
++
++	boolean				is_A2DP_3M;
++	boolean				voice_over_HOGP;
++	u8                  bt_info;
++	boolean				is_autoslot;
++	u8					forbidden_slot;
++	u8					hid_busy_num;
++	u8					hid_pair_cnt;
++
++	u32					cnt_RemoteNameReq;
++	u32					cnt_setupLink;
++	u32					cnt_ReInit;
++	u32					cnt_IgnWlanAct;
++	u32					cnt_Page;
++
++	u16					bt_reg_vendor_ac;
++	u16					bt_reg_vendor_ae;
++
++	boolean				is_setupLink;
++};
++
++#define  BT_8723D_1ANT_ANTDET_PSD_POINTS			256	/* MAX:1024 */
++#define  BT_8723D_1ANT_ANTDET_PSD_AVGNUM			1	/* MAX:3 */
++#define	BT_8723D_1ANT_ANTDET_BUF_LEN				16
++
++struct psdscan_sta_8723d_1ant {
++
++	u32			ant_det_bt_le_channel;  /* BT LE Channel ex:2412 */
++	u32			ant_det_bt_tx_time;
++	u32			ant_det_pre_psdscan_peak_val;
++	boolean			ant_det_is_ant_det_available;
++	u32			ant_det_psd_scan_peak_val;
++	boolean			ant_det_is_btreply_available;
++	u32			ant_det_psd_scan_peak_freq;
++
++	u8			ant_det_result;
++	u8			ant_det_peak_val[BT_8723D_1ANT_ANTDET_BUF_LEN];
++	u8			ant_det_peak_freq[BT_8723D_1ANT_ANTDET_BUF_LEN];
++	u32			ant_det_try_count;
++	u32			ant_det_fail_count;
++	u32			ant_det_inteval_count;
++	u32			ant_det_thres_offset;
++
++	u32			real_cent_freq;
++	s32			real_offset;
++	u32			real_span;
++
++	u32			psd_band_width;  /* unit: Hz */
++	u32			psd_point;		/* 128/256/512/1024 */
++	u32			psd_report[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_report_max_hold[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_start_point;
++	u32			psd_stop_point;
++	u32			psd_max_value_point;
++	u32			psd_max_value;
++	u32			psd_max_value2;
++	u32			psd_avg_value;   /* filter loop_max_value that below BT_8723D_1ANT_ANTDET_PSDTHRES_1ANT, and average the rest*/
++	u32			psd_loop_max_value[BT_8723D_1ANT_ANTDET_PSD_SWWEEPCOUNT];  /*max value in each loop */
++	u32			psd_start_base;
++	u32			psd_avg_num;	/* 1/8/16/32 */
++	u32			psd_gen_count;
++	boolean			is_AntDet_running;
++	boolean			is_psd_show_max_only;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8723d1ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d1ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8723d1ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d1ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8723d1ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8723d1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8723d1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8723d1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723d1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723d1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8723d1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723d1ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8723d1ant_coex_dm_reset(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d1ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d1ant_set_antenna_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723d1ant_display_coex_info(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8723d1ant_antenna_isolation(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++
++void ex_halbtc8723d1ant_psd_scan(IN struct btc_coexist *btcoexist,
++		 IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8723d1ant_display_ant_detection(IN struct btc_coexist *btcoexist);
++
++#else
++#define	ex_halbtc8723d1ant_power_on_setting(btcoexist)
++#define	ex_halbtc8723d1ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8723d1ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8723d1ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8723d1ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8723d1ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8723d1ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8723d1ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8723d1ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8723d1ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8723d1ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8723d1ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8723d1ant_halt_notify(btcoexist)
++#define	ex_halbtc8723d1ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8723d1ant_coex_dm_reset(btcoexist)
++#define	ex_halbtc8723d1ant_periodical(btcoexist)
++#define	ex_halbtc8723d1ant_display_coex_info(btcoexist)
++#define	ex_halbtc8723d1ant_set_antenna_notify(btcoexist, type)
++#define	ex_halbtc8723d1ant_antenna_detection(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8723d1ant_antenna_isolation(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8723d1ant_psd_scan(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8723d1ant_display_ant_detection(btcoexist)
++#endif
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/halbtc8723d2ant.c b/drivers/net/wireless/rtl8723du/hal/btc/halbtc8723d2ant.c
+new file mode 100644
+index 0000000..d3eea3c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/halbtc8723d2ant.c
+@@ -0,0 +1,6381 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8723D Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8723D_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	*trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8723d_2ant		glcoex_dm_8723d_2ant;
++static struct  coex_dm_8723d_2ant	*coex_dm = &glcoex_dm_8723d_2ant;
++static struct  coex_sta_8723d_2ant		glcoex_sta_8723d_2ant;
++static struct  coex_sta_8723d_2ant	*coex_sta = &glcoex_sta_8723d_2ant;
++static struct  psdscan_sta_8723d_2ant	gl_psd_scan_8723d_2ant;
++static struct  psdscan_sta_8723d_2ant *psd_scan = &gl_psd_scan_8723d_2ant;
++
++const char *const glbt_info_src_8723d_2ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++/* ************************************************************
++ * BtCoex Version Format:
++ * 1. date :			glcoex_ver_date_XXXXX_1ant
++ * 2. WifiCoexVersion : glcoex_ver_XXXX_1ant
++ * 3. BtCoexVersion :	glcoex_ver_btdesired_XXXXX_1ant
++ * 4. others :			glcoex_ver_XXXXXX_XXXXX_1ant
++ *
++ * Variable should be indicated IC and Antenna numbers !!!
++ * Please strictly follow this order and naming style !!!
++ *
++ * ************************************************************ */
++u32	glcoex_ver_date_8723d_2ant = 20160805;
++u32	glcoex_ver_8723d_2ant = 0x0c;
++u32 glcoex_ver_btdesired_8723d_2ant = 0x0a;
++
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8723d2ant_
++ * ************************************************************ */
++u8 halbtc8723d2ant_bt_rssi_state(u8 *ppre_bt_rssi_state, u8 level_num,
++				 u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = *ppre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((*ppre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*ppre_bt_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8723D_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return *ppre_bt_rssi_state;
++		}
++
++		if ((*ppre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*ppre_bt_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8723D_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((*ppre_bt_rssi_state == BTC_RSSI_STATE_MEDIUM) ||
++			(*ppre_bt_rssi_state == BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8723D_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	*ppre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8723d2ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 *pprewifi_rssi_state, IN u8 level_num, IN u8 rssi_thresh,
++				   IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = *pprewifi_rssi_state;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((*pprewifi_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*pprewifi_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8723D_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return *pprewifi_rssi_state;
++		}
++
++		if ((*pprewifi_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*pprewifi_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8723D_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((*pprewifi_rssi_state == BTC_RSSI_STATE_MEDIUM) ||
++			(*pprewifi_rssi_state == BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8723D_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	*pprewifi_rssi_state = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8723d2ant_coex_switch_threshold(IN struct btc_coexist *btcoexist,
++		IN u8 isolation_measuared)
++{
++	s8	interference_wl_tx = 0, interference_bt_tx = 0;
++
++
++	interference_wl_tx = BT_8723D_2ANT_WIFI_MAX_TX_POWER -
++			     isolation_measuared;
++	interference_bt_tx = BT_8723D_2ANT_BT_MAX_TX_POWER -
++			     isolation_measuared;
++
++
++
++	coex_sta->wifi_coex_thres		 = BT_8723D_2ANT_WIFI_RSSI_COEXSWITCH_THRES1;
++	coex_sta->wifi_coex_thres2	 = BT_8723D_2ANT_WIFI_RSSI_COEXSWITCH_THRES2;
++
++	coex_sta->bt_coex_thres		 = BT_8723D_2ANT_BT_RSSI_COEXSWITCH_THRES1;
++	coex_sta->bt_coex_thres2		 = BT_8723D_2ANT_BT_RSSI_COEXSWITCH_THRES2;
++
++
++	/*
++		coex_sta->wifi_coex_thres		= interference_wl_tx + BT_8723D_2ANT_WIFI_SIR_THRES1;
++		coex_sta->wifi_coex_thres2		= interference_wl_tx + BT_8723D_2ANT_WIFI_SIR_THRES2;
++
++		coex_sta->bt_coex_thres		= interference_bt_tx + BT_8723D_2ANT_BT_SIR_THRES1;
++		coex_sta->bt_coex_thres2		= interference_bt_tx + BT_8723D_2ANT_BT_SIR_THRES2;
++	*/
++
++
++
++
++
++	/*
++		if  ( BT_8723D_2ANT_WIFI_RSSI_COEXSWITCH_THRES1 < (isolation_measuared -
++					BT_8723D_2ANT_DEFAULT_ISOLATION) )
++			coex_sta->wifi_coex_thres	 = BT_8723D_2ANT_WIFI_RSSI_COEXSWITCH_THRES1;
++		else
++			coex_sta->wifi_coex_thres =  BT_8723D_2ANT_WIFI_RSSI_COEXSWITCH_THRES1 -  (isolation_measuared -
++					BT_8723D_2ANT_DEFAULT_ISOLATION);
++
++		if  ( BT_8723D_2ANT_BT_RSSI_COEXSWITCH_THRES1 < (isolation_measuared -
++					BT_8723D_2ANT_DEFAULT_ISOLATION) )
++			coex_sta->bt_coex_thres	 = BT_8723D_2ANT_BT_RSSI_COEXSWITCH_THRES1;
++		else
++			coex_sta->bt_coex_thres =  BT_8723D_2ANT_BT_RSSI_COEXSWITCH_THRES1 -  (isolation_measuared -
++					BT_8723D_2ANT_DEFAULT_ISOLATION);
++
++	*/
++}
++
++
++void halbtc8723d2ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++}
++
++void halbtc8723d2ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++void halbtc8723d2ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++	static u8		num_of_bt_counter_chk = 0, cnt_slave = 0;
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++
++	if ((coex_sta->low_priority_tx > 1050)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++
++	if ((coex_sta->low_priority_rx >= 950) &&
++	    (coex_sta->low_priority_rx >= coex_sta->low_priority_tx)
++	    && (!coex_sta->under_ips)  && (!coex_sta->c2h_bt_inquiry_page) &&
++	    (coex_sta->bt_link_exist))	{
++		if (cnt_slave >= 2) {
++			bt_link_info->slave_role = true;
++			cnt_slave = 2;
++		} else
++			cnt_slave++;
++	} else {
++		if (cnt_slave == 0)	{
++			bt_link_info->slave_role = false;
++			cnt_slave = 0;
++		} else
++			cnt_slave--;
++
++	}
++
++	if ((coex_sta->high_priority_tx == 0) &&
++	    (coex_sta->high_priority_rx == 0) &&
++	    (coex_sta->low_priority_tx == 0) &&
++	    (coex_sta->low_priority_rx == 0)) {
++		num_of_bt_counter_chk++;
++		if (num_of_bt_counter_chk >= 3) {
++			halbtc8723d2ant_query_bt_info(btcoexist);
++			num_of_bt_counter_chk = 0;
++		}
++	}
++
++}
++
++void halbtc8723d2ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++#if 1
++		s32 wifi_rssi = 0;
++		boolean wifi_busy = false, wifi_under_b_mode = false;
++		static u8 cck_lock_counter = 0;
++		u32 total_cnt, reg_val1, reg_val2;
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++		btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++
++		coex_sta->crc_ok_cck = btcoexist->btc_phydm_query_PHY_counter(
++								btcoexist, PHYDM_INFO_CRC32_OK_CCK);
++		coex_sta->crc_ok_11g = btcoexist->btc_phydm_query_PHY_counter(
++								btcoexist, PHYDM_INFO_CRC32_OK_LEGACY);
++		coex_sta->crc_ok_11n = btcoexist->btc_phydm_query_PHY_counter(
++								btcoexist, PHYDM_INFO_CRC32_OK_HT);
++		coex_sta->crc_ok_11n_vht = btcoexist->btc_phydm_query_PHY_counter(
++								btcoexist, PHYDM_INFO_CRC32_OK_VHT);
++
++		coex_sta->crc_err_cck = btcoexist->btc_phydm_query_PHY_counter(
++								btcoexist, PHYDM_INFO_CRC32_ERROR_CCK);
++		coex_sta->crc_err_11g =  btcoexist->btc_phydm_query_PHY_counter(
++								btcoexist, PHYDM_INFO_CRC32_ERROR_LEGACY);
++		coex_sta->crc_err_11n = btcoexist->btc_phydm_query_PHY_counter(
++								btcoexist, PHYDM_INFO_CRC32_ERROR_HT);
++		coex_sta->crc_err_11n_vht = btcoexist->btc_phydm_query_PHY_counter(
++								btcoexist, PHYDM_INFO_CRC32_ERROR_VHT);
++
++
++		if ((wifi_busy) && (wifi_rssi >= 30) && (!wifi_under_b_mode)) {
++			total_cnt = coex_sta->crc_ok_cck + coex_sta->crc_ok_11g +
++					coex_sta->crc_ok_11n + coex_sta->crc_ok_11n_vht;
++
++			if ((coex_dm->bt_status == BT_8723D_2ANT_BT_STATUS_ACL_BUSY) ||
++				(coex_dm->bt_status == BT_8723D_2ANT_BT_STATUS_ACL_SCO_BUSY) ||
++				(coex_dm->bt_status == BT_8723D_2ANT_BT_STATUS_SCO_BUSY)) {
++				if (coex_sta->crc_ok_cck > (total_cnt -
++								coex_sta->crc_ok_cck)) {
++					if (cck_lock_counter < 3)
++						cck_lock_counter++;
++				} else {
++					if (cck_lock_counter > 0)
++						cck_lock_counter--;
++				}
++
++			} else {
++				if (cck_lock_counter > 0)
++					cck_lock_counter--;
++			}
++		} else {
++			if (cck_lock_counter > 0)
++				cck_lock_counter--;
++		}
++
++		if (!coex_sta->pre_ccklock) {
++
++			if (cck_lock_counter >= 3)
++				coex_sta->cck_lock = true;
++			else
++				coex_sta->cck_lock = false;
++		} else {
++			if (cck_lock_counter == 0)
++				coex_sta->cck_lock = false;
++			else
++				coex_sta->cck_lock = true;
++		}
++
++		if (coex_sta->cck_lock)
++			coex_sta->cck_ever_lock = true;
++
++		coex_sta->pre_ccklock =  coex_sta->cck_lock;
++
++#endif
++}
++
++
++
++boolean halbtc8723d2ant_is_wifibt_status_changed(IN struct btc_coexist
++		*btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false, pre_bt_off = false;
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	boolean			wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean			wifi_connected = false;
++	u8			wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (coex_sta->bt_disabled != pre_bt_off) {
++		pre_bt_off = coex_sta->bt_disabled;
++
++		if (coex_sta->bt_disabled)
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++		else
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is enabled !!\n");
++
++		BTC_TRACE(trace_buf);
++
++		coex_sta->bt_coex_supported_feature = 0;
++		coex_sta->bt_coex_supported_version = 0;
++		coex_sta->bt_reg_vendor_ac = 0xffff;
++		coex_sta->bt_reg_vendor_ae = 0xffff;
++		return true;
++	}
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++
++	}
++
++	return false;
++}
++
++void halbtc8723d2ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean			bt_hs_on = false;
++	boolean			bt_busy = false;
++
++
++	coex_sta->num_of_profile = 0;
++
++	/* set link exist status */
++	if (!(coex_sta->bt_info & BT_INFO_8723D_2ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (coex_sta->bt_info & BT_INFO_8723D_2ANT_B_FTP) {
++			coex_sta->pan_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->pan_exist = false;
++
++		if (coex_sta->bt_info & BT_INFO_8723D_2ANT_B_A2DP) {
++			coex_sta->a2dp_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->a2dp_exist = false;
++
++		if (coex_sta->bt_info & BT_INFO_8723D_2ANT_B_HID) {
++			coex_sta->hid_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->hid_exist = false;
++
++		if (coex_sta->bt_info & BT_INFO_8723D_2ANT_B_SCO_ESCO) {
++			coex_sta->sco_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->sco_exist = false;
++
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++	bt_link_info->acl_busy = coex_sta->acl_busy;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++
++	if (!(coex_sta->bt_info & BT_INFO_8723D_2ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8723D_2ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++	} else if (coex_sta->bt_info == BT_INFO_8723D_2ANT_B_CONNECTION) {
++		/* connection exists but no busy */
++		coex_dm->bt_status = BT_8723D_2ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++	} else if (((coex_sta->bt_info & BT_INFO_8723D_2ANT_B_SCO_ESCO) ||
++		    (coex_sta->bt_info & BT_INFO_8723D_2ANT_B_SCO_BUSY)) &&
++		   (coex_sta->bt_info & BT_INFO_8723D_2ANT_B_ACL_BUSY)) {
++		coex_dm->bt_status = BT_8723D_2ANT_BT_STATUS_ACL_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL SCO busy!!!\n");
++	} else if ((coex_sta->bt_info & BT_INFO_8723D_2ANT_B_SCO_ESCO) ||
++		   (coex_sta->bt_info & BT_INFO_8723D_2ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8723D_2ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++	} else if (coex_sta->bt_info & BT_INFO_8723D_2ANT_B_ACL_BUSY) {
++		coex_dm->bt_status = BT_8723D_2ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++	} else {
++		coex_dm->bt_status = BT_8723D_2ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++	}
++
++	BTC_TRACE(trace_buf);
++
++	if ((BT_8723D_2ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8723D_2ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8723D_2ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		bt_busy = true;
++	else
++		bt_busy = false;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++}
++
++void halbtc8723d2ant_update_wifi_channel_info(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] =
++			0x1;  /* enable BT AFH skip WL channel for 8723d because BT Rx LO interference */
++		/* h2c_parameter[0] = 0x0; */
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++
++}
++
++void halbtc8723d2ant_set_fw_dac_swing_level(IN struct btc_coexist *btcoexist,
++		IN u8 dac_swing_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	/* There are several type of dacswing */
++	/* 0x18/ 0x10/ 0xc/ 0x8/ 0x4/ 0x6 */
++	h2c_parameter[0] = dac_swing_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x64, 1, h2c_parameter);
++}
++
++void halbtc8723d2ant_fw_dac_swing_lvl(IN struct btc_coexist *btcoexist,
++			      IN boolean force_exec, IN u8 fw_dac_swing_lvl)
++{
++	coex_dm->cur_fw_dac_swing_lvl = fw_dac_swing_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_fw_dac_swing_lvl ==
++		    coex_dm->cur_fw_dac_swing_lvl)
++			return;
++	}
++
++	halbtc8723d2ant_set_fw_dac_swing_level(btcoexist,
++					       coex_dm->cur_fw_dac_swing_lvl);
++
++	coex_dm->pre_fw_dac_swing_lvl = coex_dm->cur_fw_dac_swing_lvl;
++}
++
++void halbtc8723d2ant_set_fw_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				       IN u8 dec_bt_pwr_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = dec_bt_pwr_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x62, 1, h2c_parameter);
++}
++
++void halbtc8723d2ant_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				IN boolean force_exec, IN u8 dec_bt_pwr_lvl)
++{
++	coex_dm->cur_bt_dec_pwr_lvl = dec_bt_pwr_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_dec_pwr_lvl == coex_dm->cur_bt_dec_pwr_lvl)
++			return;
++	}
++	halbtc8723d2ant_set_fw_dec_bt_pwr(btcoexist,
++					  coex_dm->cur_bt_dec_pwr_lvl);
++
++	coex_dm->pre_bt_dec_pwr_lvl = coex_dm->cur_bt_dec_pwr_lvl;
++}
++
++void halbtc8723d2ant_set_fw_low_penalty_ra(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++#if 0
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++#endif
++}
++
++void halbtc8723d2ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++#if 1
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++
++	if (low_penalty_ra)
++		btcoexist->btc_phydm_modify_RA_PCR_threshold(btcoexist, 0, 15);
++	else
++		btcoexist->btc_phydm_modify_RA_PCR_threshold(btcoexist, 0, 0);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++
++#endif
++}
++
++void halbtc8723d2ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8723d2ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8723d2ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8723d2ant_sw_mechanism1(IN struct btc_coexist *btcoexist,
++			   IN boolean shrink_rx_lpf, IN boolean low_penalty_ra,
++			   IN boolean limited_dig, IN boolean bt_lna_constrain)
++{
++
++	halbtc8723d2ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8723d2ant_sw_mechanism2(IN struct btc_coexist *btcoexist,
++			   IN boolean agc_table_shift, IN boolean adc_back_off,
++			   IN boolean sw_dac_swing, IN u32 dac_swing_lvl)
++{
++	/* halbtc8723d2ant_agc_table(btcoexist, NORMAL_EXEC, agc_table_shift); */
++	/* halbtc8723d2ant_adc_back_off(btcoexist, NORMAL_EXEC, adc_back_off); */
++}
++
++void halbtc8723d2ant_write_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	u16				bitpos,
++	IN	boolean		state
++)
++{
++
++	static u16 originalval = 0x8002;
++
++	if (state)
++		originalval = originalval | bitpos;
++	else
++		originalval = originalval & (~bitpos);
++
++
++	btcoexist->btc_write_2byte(btcoexist, 0xaa, originalval);
++
++}
++
++void halbtc8723d2ant_read_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN   u16				*score_board_val
++)
++{
++
++	*score_board_val = (btcoexist->btc_read_2byte(btcoexist,
++			    0xaa)) & 0x7fff;
++}
++
++
++void halbtc8723d2ant_post_state_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	u16						type,
++	IN  boolean                 state
++)
++{
++
++	halbtc8723d2ant_write_score_board(btcoexist, (u16) type, state);
++
++}
++
++void halbtc8723d2ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++	u16			u16tmp;
++
++	/* This function check if bt is disabled */
++#if 0
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++
++
++#else
++
++	/* Read BT on/off status from scoreboard[1], enable this only if BT patch support this feature */
++	halbtc8723d2ant_read_score_board(btcoexist,	&u16tmp);
++
++	bt_active = u16tmp & BIT(1);
++
++
++#endif
++
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	} else {
++
++		bt_disable_cnt++;
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			bt_disable_cnt = 2;
++		}
++
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	}
++
++
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++	}
++
++}
++
++void halbtc8723d2ant_enable_gnt_to_gpio(IN struct btc_coexist *btcoexist,
++					boolean isenable)
++{
++#if BT_8723D_2ANT_COEX_DBG
++	if (isenable) {
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x1);
++
++		/* enable GNT_BT to GPIO debug */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x40, 0x0);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x1, 0x0);
++
++		/* 0x48[20] = 0  for GPIO14 =  GNT_WL*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4a, 0x10, 0x0);
++		/* 0x40[17] = 0  for GPIO14 =  GNT_WL*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x42, 0x02, 0x0);
++
++		/* 0x66[9] = 0   for GPIO15 =  GNT_BT*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x02, 0x0);
++		/* 0x66[7] = 0
++		for GPIO15 =  GNT_BT*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x66, 0x80, 0x0);
++		/* 0x8[8] = 0    for GPIO15 =  GNT_BT*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x9, 0x1, 0x0);
++
++		/* BT Vendor Reg 0x76[0] = 0  for GPIO15 =  GNT_BT, this is not set here*/
++	} else {
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x0);
++
++		/* Disable GNT_BT debug to GPIO, and enable chip_wakeup_host */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x40, 0x1);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x1, 0x1);
++
++		/* 0x48[20] = 0  for GPIO14 =  GNT_WL*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4a, 0x10, 0x1);
++	}
++
++#endif
++}
++
++u32 halbtc8723d2ant_ltecoex_indirect_read_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr)
++{
++	u32 j = 0;
++
++
++	/* wait for ready bit before access 0x7c0		 */
++	btcoexist->btc_write_4byte(btcoexist, 0x7c0, 0x800F0000 | reg_addr);
++
++	do {
++		j++;
++	} while (((btcoexist->btc_read_1byte(btcoexist,
++					     0x7c3)&BIT(5)) == 0) &&
++		 (j < BT_8723D_2ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++	return btcoexist->btc_read_4byte(btcoexist,
++					 0x7c8);  /* get read data */
++
++}
++
++void halbtc8723d2ant_ltecoex_indirect_write_reg(IN struct btc_coexist
++		*btcoexist,
++		IN u16 reg_addr, IN u32 bit_mask, IN u32 reg_value)
++{
++	u32 val, i = 0, j = 0, bitpos = 0;
++
++
++	if (bit_mask == 0x0)
++		return;
++	if (bit_mask == 0xffffffff) {
++		btcoexist->btc_write_4byte(btcoexist, 0x7c4,
++					   reg_value); /* put write data */
++
++		/* wait for ready bit before access 0x7c0 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x7c3)&BIT(5)) == 0) &&
++			(j < BT_8723D_2ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x7c0,
++					   0xc00F0000 | reg_addr);
++	} else {
++		for (i = 0; i <= 31; i++) {
++			if (((bit_mask >> i) & 0x1) == 0x1) {
++				bitpos = i;
++				break;
++			}
++		}
++
++		/* read back register value before write */
++		val = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist,
++				reg_addr);
++		val = (val & (~bit_mask)) | (reg_value << bitpos);
++
++		btcoexist->btc_write_4byte(btcoexist, 0x7c4,
++					   val); /* put write data */
++
++		/* wait for ready bit before access 0x7c0		 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x7c3)&BIT(5)) == 0) &&
++			(j < BT_8723D_2ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x7c0,
++					   0xc00F0000 | reg_addr);
++
++	}
++
++}
++
++void halbtc8723d2ant_ltecoex_enable(IN struct btc_coexist *btcoexist,
++				    IN boolean enable)
++{
++	u8 val;
++
++	val = (enable) ? 1 : 0;
++	halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist, 0x38, 0x80,
++			val);  /* 0x38[7] */
++
++}
++
++void halbtc8723d2ant_ltecoex_pathcontrol_owner(IN struct btc_coexist *btcoexist,
++		IN boolean wifi_control)
++{
++	u8 val;
++
++	val = (wifi_control) ? 1 : 0;
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x4,
++					   val); /* 0x70[26] */
++
++}
++
++void halbtc8723d2ant_ltecoex_set_gnt_bt(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8723D_2ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0xc000;
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		bit_mask = 0x0c00;
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10]						 */
++		break;
++	case BT_8723D_2ANT_GNT_BLOCK_RFC:
++		bit_mask = 0xc000;
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		break;
++	case BT_8723D_2ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0c00;
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10] */
++		break;
++
++	}
++
++}
++
++void halbtc8723d2ant_ltecoex_set_gnt_wl(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8723D_2ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0x3000;
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		bit_mask = 0x0300;
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8]						 */
++		break;
++	case BT_8723D_2ANT_GNT_BLOCK_RFC:
++		bit_mask = 0x3000;
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		break;
++	case BT_8723D_2ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0300;
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8] */
++		break;
++
++	}
++
++}
++
++void halbtc8723d2ant_ltecoex_set_coex_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u16 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8723D_2ANT_CTT_WL_VS_LTE:
++		reg_addr = 0xa0;
++		break;
++	case BT_8723D_2ANT_CTT_BT_VS_LTE:
++		reg_addr = 0xa4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xffff, table_content); /* 0xa0[15:0] or 0xa4[15:0] */
++
++
++}
++
++
++void halbtc8723d2ant_ltecoex_set_break_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u8 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8723D_2ANT_LBTT_WL_BREAK_LTE:
++		reg_addr = 0xa8;
++		break;
++	case BT_8723D_2ANT_LBTT_BT_BREAK_LTE:
++		reg_addr = 0xac;
++		break;
++	case BT_8723D_2ANT_LBTT_LTE_BREAK_WL:
++		reg_addr = 0xb0;
++		break;
++	case BT_8723D_2ANT_LBTT_LTE_BREAK_BT:
++		reg_addr = 0xb4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xff, table_content); /* 0xa8[15:0] or 0xb4[15:0] */
++
++
++}
++
++
++void halbtc8723d2ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8723d2ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8723d2ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8723d2ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	u32	break_table;
++	u8	select_table;
++
++	coex_sta->coex_table_type = type;
++
++	if (coex_sta->concurrent_rx_mode_on == true) {
++		break_table = 0xf0ffffff;  /* set WL hi-pri can break BT */
++		select_table =
++			0xb;		/* set Tx response = Hi-Pri (ex: Transmitting ACK,BA,CTS) */
++	} else {
++		break_table = 0xffffff;
++		select_table = 0x3;
++	}
++
++	switch (type) {
++	case 0:
++		halbtc8723d2ant_coex_table(btcoexist, force_exec,
++			   0xffffffff, 0xffffffff, break_table, select_table);
++		break;
++	case 1:
++		halbtc8723d2ant_coex_table(btcoexist, force_exec,
++			   0x55ff55ff, 0x5a7a5a7a, break_table, select_table);
++		break;
++	case 2:
++		halbtc8723d2ant_coex_table(btcoexist, force_exec,
++			   0x5a5a5a5a, 0x5a5a5a5a, break_table, select_table);
++		break;
++	case 3:
++		halbtc8723d2ant_coex_table(btcoexist, force_exec,
++			   0xdafadafa, 0xdafadafa, break_table, select_table);
++		break;
++	case 4:
++		halbtc8723d2ant_coex_table(btcoexist, force_exec,
++			   0xddffddff, 0xffbbffbb, break_table, select_table);
++		break;
++	case 5:
++		halbtc8723d2ant_coex_table(btcoexist, force_exec,
++			   0x5fff5fff, 0x5fff5fff, break_table, select_table);
++		break;
++	case 6:
++		halbtc8723d2ant_coex_table(btcoexist, force_exec,
++			   0x55ff55ff, 0x5a5a5a5a, break_table, select_table);
++		break;
++	case 7:
++		halbtc8723d2ant_coex_table(btcoexist, force_exec,
++			   0xa5ff55ff, 0x5a7a5a7a, break_table, select_table);
++		break;
++	case 8:
++		halbtc8723d2ant_coex_table(btcoexist, force_exec,
++			   0x55555555, 0xfafafafa, break_table, select_table);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8723d2ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8723d2ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8723d2ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8723d2ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8723d2ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8723d2ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8723d2ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++	u8	h2c_parameter[5] = {0, 0, 0, 0x40, 0};
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			/*halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8); */
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5,
++						h2c_parameter);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			/*halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);*/
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5,
++						h2c_parameter);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8723d2ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8723d2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8723d2ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		coex_sta->force_lps_on = true;
++		break;
++	case BTC_PS_LPS_OFF:
++		halbtc8723d2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	default:
++		break;
++	}
++}
++
++
++
++void halbtc8723d2ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], FW for AP mode\n");
++			BTC_TRACE(trace_buf);
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++
++			halbtc8723d2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0,
++							 0x0);
++		}
++	} else if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++
++		halbtc8723d2ant_power_save_state(
++			btcoexist, BTC_PS_LPS_ON, 0x50,
++			0x4);
++	} else {
++		halbtc8723d2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0,
++						 0x0);
++	}
++
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++void halbtc8723d2ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++
++	static u8			psTdmaByte4Modify = 0x0, pre_psTdmaByte4Modify = 0x0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	/* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++	if ((bt_link_info->slave_role) && (bt_link_info->a2dp_exist))
++		psTdmaByte4Modify = 0x1;
++	else
++		psTdmaByte4Modify = 0x0;
++
++	if (pre_psTdmaByte4Modify != psTdmaByte4Modify) {
++
++		force_exec = true;
++		pre_psTdmaByte4Modify = psTdmaByte4Modify;
++	}
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++
++	if (coex_dm->cur_ps_tdma_on) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(on, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(off, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	}
++
++
++	if (turn_on) {
++		switch (type) {
++		case 1:
++		default:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x03, 0xf1,
++						      0x14 | psTdmaByte4Modify);
++			break;
++		case 2:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x35, 0x03, 0x71,
++						      0x11 | psTdmaByte4Modify);
++			break;
++		case 3:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3a, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 4:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x21, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 5:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 6:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 7:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x20, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 11:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x30, 0x03, 0x71,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 12:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x21, 0x03, 0x71,
++						      0x11 | psTdmaByte4Modify);
++			break;
++		case 13:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x03, 0x71,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 14:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x30, 0x03, 0x71,
++						      0x11);
++			break;
++		case 51:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x03, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 101:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x10, 0x03, 0x70,
++						      0x14 | psTdmaByte4Modify);
++			break;
++		case 102:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x35, 0x03, 0x71,
++						      0x11 | psTdmaByte4Modify);
++			break;
++		case 103:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x3a, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 104:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x21, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 105:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x25, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 106:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x10, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 107:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x20, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 108:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x30, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 151:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x10, 0x03, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		}
++	} else {
++		/* disable PS tdma */
++		switch (type) {
++		case 0:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x40, 0x0);
++			break;
++		case 1:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x48, 0x0);
++			break;
++		default:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x40, 0x0);
++			break;
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8723d2ant_set_ant_path(IN struct btc_coexist *btcoexist,
++				  IN u8 ant_pos_type, IN boolean force_exec,
++				  IN u8 phase)
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++	u32			u32tmp = 0;
++	boolean			pg_ext_switch = false,  is_hw_ant_div_on = false;
++	u8			h2c_parameter[2] = {0};
++	u32			cnt_bt_cal_chk = 0;
++	u8			u8tmp0 = 0, u8tmp1 = 0;
++	boolean			is_in_mp_mode = false;
++	u32				u32tmp0 = 0, u32tmp1 = 0, u32tmp2 = 0;
++	u16				u16tmp0 = 0,  u16tmp1 = 0;
++
++	coex_dm->cur_ant_pos_type = ant_pos_type;
++
++	if (!force_exec) {
++		if (coex_dm->cur_ant_pos_type == coex_dm->pre_ant_pos_type) {
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], ********** Skip Antenna Path Setup because no change!!**********\n");
++			BTC_TRACE(trace_buf);
++			return;
++		}
++	}
++
++	coex_dm->pre_ant_pos_type = coex_dm->cur_ant_pos_type;
++
++#if BT_8723D_2ANT_COEX_DBG
++	u32tmp1 = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++	u16tmp0 = btcoexist->btc_read_2byte(btcoexist, 0xaa);
++	u16tmp1 = btcoexist->btc_read_2byte(btcoexist, 0x948);
++	u8tmp1  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++	u8tmp0 =  btcoexist->btc_read_1byte(btcoexist, 0x67);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** 0x67 = 0x%x, 0x948 = 0x%x, 0x73 = 0x%x(Before Set Ant Pat)\n",
++		    u8tmp0, u16tmp1, u8tmp1);
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********0x38= 0x%x, 0x54= 0x%x, 0xaa = 0x%x (Before Set Ant Path)\n",
++		    u32tmp1, u32tmp2, u16tmp0);
++	BTC_TRACE(trace_buf);
++#endif
++
++	switch (phase) {
++	case BT_8723D_2ANT_PHASE_COEX_POWERON:
++		/* Set Path control to WL */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67,
++						   0x80, 0x0);
++
++		/* set Path control owner to WL at initial step */
++		halbtc8723d2ant_ltecoex_pathcontrol_owner(btcoexist,
++				BT_8723D_2ANT_PCO_BTSIDE);
++
++		/* set GNT_BT to SW high */
++		halbtc8723d2ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8723D_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_2ANT_SIG_STA_SET_TO_HIGH);
++		/* Set GNT_WL to SW low */
++		halbtc8723d2ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8723D_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_2ANT_SIG_STA_SET_TO_HIGH);
++
++		if (BTC_ANT_PATH_AUTO == ant_pos_type)
++			ant_pos_type = BTC_ANT_PATH_WIFI;
++
++		coex_sta->run_time_state = false;
++
++		break;
++	case BT_8723D_2ANT_PHASE_COEX_INIT:
++		/* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++		halbtc8723d2ant_ltecoex_enable(btcoexist, 0x0);
++
++		/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++		halbtc8723d2ant_ltecoex_set_coex_table(
++			btcoexist,
++			BT_8723D_2ANT_CTT_WL_VS_LTE,
++			0xffff);
++
++		/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++		halbtc8723d2ant_ltecoex_set_coex_table(
++			btcoexist,
++			BT_8723D_2ANT_CTT_BT_VS_LTE,
++			0xffff);
++
++		/* Wait If BT IQK running, because Path control owner is at BT during BT IQK (setup by WiFi firmware) */
++		while (cnt_bt_cal_chk <= 20) {
++			u8tmp0 = btcoexist->btc_read_1byte(
++					 btcoexist,
++					 0x49d);
++			cnt_bt_cal_chk++;
++			if (u8tmp0 & BIT(0)) {
++				BTC_SPRINTF(
++					trace_buf,
++					BT_TMP_BUF_SIZE,
++					"[BTCoex], ########### BT is calibrating (wait cnt=%d) ###########\n",
++					cnt_bt_cal_chk);
++				BTC_TRACE(
++					trace_buf);
++				delay_ms(50);
++			} else {
++				BTC_SPRINTF(
++					trace_buf,
++					BT_TMP_BUF_SIZE,
++					"[BTCoex], ********** BT is NOT calibrating (wait cnt=%d)**********\n",
++					cnt_bt_cal_chk);
++				BTC_TRACE(
++					trace_buf);
++				break;
++			}
++		}
++
++
++		/* Set Path control to WL */
++		btcoexist->btc_write_1byte_bitmask(btcoexist,
++						   0x67, 0x80, 0x1);
++
++		/* set Path control owner to WL at initial step */
++		halbtc8723d2ant_ltecoex_pathcontrol_owner(
++			btcoexist,
++			BT_8723D_2ANT_PCO_WLSIDE);
++
++		/* set GNT_BT to SW high */
++		halbtc8723d2ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8723D_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_2ANT_SIG_STA_SET_TO_HIGH);
++		/* Set GNT_WL to SW high */
++		halbtc8723d2ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8723D_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_2ANT_SIG_STA_SET_TO_HIGH);
++
++		coex_sta->run_time_state = false;
++
++		if (BTC_ANT_PATH_AUTO == ant_pos_type) {
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT)
++				ant_pos_type =
++					BTC_ANT_WIFI_AT_MAIN;
++			else
++				ant_pos_type =
++					BTC_ANT_WIFI_AT_AUX;
++		}
++
++		break;
++	case BT_8723D_2ANT_PHASE_WLANONLY_INIT:
++		/* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++		halbtc8723d2ant_ltecoex_enable(btcoexist, 0x0);
++
++		/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++		halbtc8723d2ant_ltecoex_set_coex_table(
++			btcoexist,
++			BT_8723D_2ANT_CTT_WL_VS_LTE,
++			0xffff);
++
++		/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++		halbtc8723d2ant_ltecoex_set_coex_table(
++			btcoexist,
++			BT_8723D_2ANT_CTT_BT_VS_LTE,
++			0xffff);
++
++		/* Set Path control to WL */
++		btcoexist->btc_write_1byte_bitmask(btcoexist,
++						   0x67, 0x80, 0x1);
++
++		/* set Path control owner to WL at initial step */
++		halbtc8723d2ant_ltecoex_pathcontrol_owner(
++			btcoexist,
++			BT_8723D_2ANT_PCO_WLSIDE);
++
++		/* set GNT_BT to SW Low */
++		halbtc8723d2ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8723D_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_2ANT_SIG_STA_SET_TO_LOW);
++		/* Set GNT_WL to SW high */
++		halbtc8723d2ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8723D_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_2ANT_SIG_STA_SET_TO_HIGH);
++
++		coex_sta->run_time_state = false;
++
++		if (BTC_ANT_PATH_AUTO == ant_pos_type) {
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT)
++				ant_pos_type =
++					BTC_ANT_WIFI_AT_MAIN;
++			else
++				ant_pos_type =
++					BTC_ANT_WIFI_AT_AUX;
++		}
++
++		break;
++	case BT_8723D_2ANT_PHASE_WLAN_OFF:
++		/* Disable LTE Coex Function in WiFi side */
++		halbtc8723d2ant_ltecoex_enable(btcoexist, 0x0);
++
++		/* Set Path control to BT */
++		btcoexist->btc_write_1byte_bitmask(btcoexist,
++						   0x67, 0x80, 0x0);
++
++		/* set Path control owner to BT */
++		halbtc8723d2ant_ltecoex_pathcontrol_owner(
++			btcoexist,
++			BT_8723D_2ANT_PCO_BTSIDE);
++
++		coex_sta->run_time_state = false;
++		break;
++	case BT_8723D_2ANT_PHASE_2G_RUNTIME:
++
++		/* wait for WL/BT IQK finish, keep 0x38 = 0xff00 for WL IQK */
++		while (cnt_bt_cal_chk <= 20) {
++			u8tmp0 = btcoexist->btc_read_1byte(
++					 btcoexist,
++					 0x1e6);
++
++			u8tmp1 = btcoexist->btc_read_1byte(
++					 btcoexist,
++					 0x49d);
++
++			cnt_bt_cal_chk++;
++			if ((u8tmp0 & BIT(0)) ||
++			    (u8tmp1 & BIT(0))) {
++				BTC_SPRINTF(trace_buf,
++					    BT_TMP_BUF_SIZE,
++					"[BTCoex], ########### WL or BT is IQK (wait cnt=%d)\n",
++					    cnt_bt_cal_chk);
++				BTC_TRACE(trace_buf);
++				delay_ms(50);
++			} else {
++				BTC_SPRINTF(trace_buf,
++					    BT_TMP_BUF_SIZE,
++					"[BTCoex], ********** WL and BT is NOT IQK (wait cnt=%d)\n",
++					    cnt_bt_cal_chk);
++				BTC_TRACE(trace_buf);
++				break;
++			}
++		}
++
++		/* Set Path control to WL */
++		/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x80, 0x1);*/
++
++		/* set Path control owner to WL at runtime step */
++		halbtc8723d2ant_ltecoex_pathcontrol_owner(
++			btcoexist,
++			BT_8723D_2ANT_PCO_WLSIDE);
++
++
++		halbtc8723d2ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8723D_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_2ANT_GNT_TYPE_CTRL_BY_PTA,
++					   BT_8723D_2ANT_SIG_STA_SET_TO_HIGH);
++
++		/* Set GNT_WL to PTA */
++		halbtc8723d2ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8723D_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_2ANT_GNT_TYPE_CTRL_BY_PTA,
++					   BT_8723D_2ANT_SIG_STA_SET_BY_HW);
++
++		coex_sta->run_time_state = true;
++
++		if (BTC_ANT_PATH_AUTO == ant_pos_type) {
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT)
++				ant_pos_type =
++					BTC_ANT_WIFI_AT_MAIN;
++			else
++				ant_pos_type =
++					BTC_ANT_WIFI_AT_AUX;
++		}
++
++		break;
++	case BT_8723D_2ANT_PHASE_BTMPMODE:
++		/* Disable LTE Coex Function in WiFi side */
++		halbtc8723d2ant_ltecoex_enable(btcoexist, 0x0);
++
++		/* Set Path control to WL */
++		btcoexist->btc_write_1byte_bitmask(btcoexist,
++						   0x67, 0x80, 0x1);
++
++		/* set Path control owner to WL */
++		halbtc8723d2ant_ltecoex_pathcontrol_owner(
++			btcoexist,
++			BT_8723D_2ANT_PCO_WLSIDE);
++
++		/* set GNT_BT to SW Hi */
++		halbtc8723d2ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8723D_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_2ANT_SIG_STA_SET_TO_HIGH);
++
++		/* Set GNT_WL to SW Lo */
++		halbtc8723d2ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8723D_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_2ANT_SIG_STA_SET_TO_LOW);
++
++		coex_sta->run_time_state = false;
++
++		if (BTC_ANT_PATH_AUTO == ant_pos_type) {
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT)
++				ant_pos_type =
++					BTC_ANT_WIFI_AT_MAIN;
++			else
++				ant_pos_type =
++					BTC_ANT_WIFI_AT_AUX;
++		}
++
++		break;
++	case BT_8723D_2ANT_PHASE_ANTENNA_DET:
++
++		/* Set Path control to WL */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67,
++						   0x80, 0x1);
++
++		/* set Path control owner to WL */
++		halbtc8723d2ant_ltecoex_pathcontrol_owner(btcoexist,
++				BT_8723D_2ANT_PCO_WLSIDE);
++
++		/* Set Antenna Path,  both GNT_WL/GNT_BT = 1, and control by SW */
++		/* set GNT_BT to SW high */
++		halbtc8723d2ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8723D_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_2ANT_SIG_STA_SET_TO_HIGH);
++
++		/* Set GNT_WL to SW high */
++		halbtc8723d2ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8723D_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_2ANT_SIG_STA_SET_TO_HIGH);
++
++		if (BTC_ANT_PATH_AUTO == ant_pos_type)
++			ant_pos_type = BTC_ANT_WIFI_AT_AUX;
++
++		coex_sta->run_time_state = false;
++
++		break;
++	}
++
++	is_hw_ant_div_on = board_info->ant_div_cfg;
++
++	if ((is_hw_ant_div_on) && (phase != BT_8723D_2ANT_PHASE_ANTENNA_DET))
++		btcoexist->btc_write_2byte(btcoexist, 0x948, 0x140);
++	else if ((is_hw_ant_div_on == false) &&
++		 (phase != BT_8723D_2ANT_PHASE_WLAN_OFF)) {
++
++		switch (ant_pos_type) {
++		case BTC_ANT_WIFI_AT_MAIN:
++
++			btcoexist->btc_write_2byte(btcoexist,
++						   0x948, 0x0);
++			break;
++		case BTC_ANT_WIFI_AT_AUX:
++
++			btcoexist->btc_write_2byte(btcoexist,
++						   0x948, 0x280);
++			break;
++		}
++	}
++
++
++#if BT_8723D_2ANT_COEX_DBG
++	u32tmp1 = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++	u16tmp0 = btcoexist->btc_read_2byte(btcoexist, 0xaa);
++	u16tmp1 = btcoexist->btc_read_2byte(btcoexist, 0x948);
++	u8tmp1  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++	u8tmp0 =  btcoexist->btc_read_1byte(btcoexist, 0x67);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** 0x67 = 0x%x, 0x948 = 0x%x, 0x73 = 0x%x(After Set Ant Pat)\n",
++		    u8tmp0, u16tmp1, u8tmp1);
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********0x38= 0x%x, 0x54= 0x%x, 0xaa= 0x%x (After Set Ant Path)\n",
++		    u32tmp1, u32tmp2, u16tmp0);
++	BTC_TRACE(trace_buf);
++#endif
++
++}
++
++u8 halbtc8723d2ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8723D_2ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 0) {
++
++		if (bt_link_info->acl_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], No-Profile busy\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8723D_2ANT_COEX_ALGO_NOPROFILEBUSY;
++		}
++	} else if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8723D_2ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_2ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_2ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_2ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + A2DP ==> A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_2ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8723D_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				{
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], HID + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_HID_A2DP;
++				}
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8723D_2ANT_COEX_ALGO_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], SCO + HID + A2DP ==> HID + A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_2ANT_COEX_ALGO_HID_A2DP;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_PANEDR_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_PANEDR_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++
++
++void halbtc8723d2ant_action_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++
++	halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* fw all off */
++	halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++void halbtc8723d2ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++
++	boolean	wifi_connected = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean			wifi_busy = false;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++	if (link || roam || coex_sta->wifi_is_high_pri_task) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi link/roam/hi-pri-task process + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     8);
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++
++	} else if (scan) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi scan process + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     8);
++
++		if (coex_sta->bt_create_connection)
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						12);
++		else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						11);
++
++	}  else if (wifi_connected) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     8);
++
++		if (wifi_busy) {
++
++			if ((bt_link_info->a2dp_exist) &&
++			    (bt_link_info->acl_busy))
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 13);
++			else
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 11);
++
++		} else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						13);
++
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi no-link + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++	halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 0x18);
++	halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++void halbtc8723d2ant_action_wifi_link_process(IN struct btc_coexist *btcoexist)
++{
++	u32	u32tmp, u32tmpb;
++	u8	u8tmpa;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 0x18);
++	halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++	if ((bt_link_info->a2dp_exist) && (bt_link_info->acl_busy))
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 14);
++	else
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++
++void halbtc8723d2ant_action_wifi_nonconnected(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* fw all off */
++	halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8723d2ant_action_bt_idle(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++
++	boolean	wifi_connected = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean			wifi_busy = false;
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++	if (scan || link || roam) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi link process + BT Idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     7);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++	} else if (wifi_connected) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT Idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		if (wifi_busy) {
++
++			halbtc8723d2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC,
++							     0);
++			/*
++						if (!BTC_RSSI_HIGH(bt_rssi_state2))
++							halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++											     2);
++						else
++							halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++											     0);
++			*/
++		} else {
++			halbtc8723d2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC,
++							     0);
++		}
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi no-link + BT Idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++	halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 0x18);
++	halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++
++/* SCO only or SCO+PAN(HS) */
++void halbtc8723d2ant_action_sco(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}  else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++void halbtc8723d2ant_action_hid(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}  else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++/* A2DP only / PAN(EDR) only/ A2DP+PAN(HS) */
++void halbtc8723d2ant_action_a2dp(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy) {
++			if (coex_sta->is_setupLink)
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 51);
++			else
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 1);
++		} else
++
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						2);
++	} else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy) {
++			if (coex_sta->is_setupLink)
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 151);
++			else
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 101);
++		} else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						102);
++
++	}
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++void halbtc8723d2ant_action_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++#if 0
++	halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++	coex_dm->is_switch_to_1dot5_ant = false;
++
++	halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	if (wifi_busy)
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++	else
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 4);
++#endif
++
++
++#if 1
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy)
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						3);
++		else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						4);
++	} else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy)
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						103);
++		else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						104);
++
++	}
++
++#endif
++
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++/* PAN(HS) only */
++void halbtc8723d2ant_action_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++
++	} else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++}
++
++
++void halbtc8723d2ant_action_hid_a2dp(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy) {
++			if (coex_sta->is_setupLink)
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 51);
++			else
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 1);
++		} else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						2);
++
++
++	} else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++
++		if (wifi_busy) {
++			if (coex_sta->is_setupLink)
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 151);
++			else
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 101);
++		} else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						102);
++
++	}
++
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++void halbtc8723d2ant_action_a2dp_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) &&
++			    (coex_sta->a2dp_bit_pool < 255))
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 7);
++			else
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 5);
++		} else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						6);
++
++	} else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) &&
++			    (coex_sta->a2dp_bit_pool < 255))
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 107);
++			else
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 105);
++		} else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						106);
++
++	}
++
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++
++/* PAN(EDR)+A2DP */
++void halbtc8723d2ant_action_pan_edr_a2dp(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean	wifi_busy = false, wifi_turbo = false;
++
++
++#if 1
++	if ((wifi_busy) && (coex_sta->scan_ap_num <= 4))
++		wifi_turbo = true;
++#endif
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy) {
++
++			if (((coex_sta->a2dp_bit_pool > 40) &&
++			     (coex_sta->a2dp_bit_pool < 255)) ||
++			    (!coex_sta->is_A2DP_3M))
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 7);
++			else
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 5);
++		} else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						6);
++	} else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) &&
++			    (coex_sta->a2dp_bit_pool < 255))
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 107);
++			else if (wifi_turbo)
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 108);
++			else
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 105);
++		} else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						106);
++
++	}
++
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++void halbtc8723d2ant_action_pan_edr_hid(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy)
++
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						3);
++		else
++
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						4);
++
++
++	} else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++
++		if (wifi_busy)
++
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						103);
++		else
++
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						104);
++
++	}
++
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++/* HID+A2DP+PAN(EDR) */
++void halbtc8723d2ant_action_hid_a2dp_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy) {
++
++			if (((coex_sta->a2dp_bit_pool > 40) &&
++			     (coex_sta->a2dp_bit_pool < 255)) ||
++			    (!coex_sta->is_A2DP_3M))
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 7);
++			else
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 5);
++		} else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						6);
++	} else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) &&
++			    (coex_sta->a2dp_bit_pool < 255))
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 107);
++			else
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 105);
++		} else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						106);
++	}
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++
++void halbtc8723d2ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw mechanism all off */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++}
++
++void halbtc8723d2ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw mechanism all off */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	/* hw all off */
++	halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++}
++
++void halbtc8723d2ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8				algorithm = 0;
++	u32				num_of_wifi_link = 0;
++	u32				wifi_link_status = 0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean				miracast_plus_bt = false;
++	boolean				scan = false, link = false, roam = false,
++					wifi_connected = false;
++
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (!coex_sta->run_time_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], return for run_time_state = false !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->freeze_coexrun_by_btinfo) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), return for freeze_coexrun_by_btinfo\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723d2ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	if (coex_sta->bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is disabled!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723d2ant_action_coex_all_off(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under inquiry/page scan !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723d2ant_action_bt_inquiry(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++	if (scan || link || roam) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under Link Process !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723d2ant_action_wifi_link_process(btcoexist);
++		return;
++	}
++
++	/* for P2P */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist)
++			miracast_plus_bt = true;
++		else
++			miracast_plus_bt = false;
++
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8723d2ant_action_wifi_multi_port(btcoexist);
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++
++	algorithm = halbtc8723d2ant_action_algorithm(btcoexist);
++	coex_dm->cur_algorithm = algorithm;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Algorithm = %d\n",
++		    coex_dm->cur_algorithm);
++	BTC_TRACE(trace_buf);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	if (!wifi_connected) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Action 2-Ant, wifi non-connected!!.\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723d2ant_action_wifi_nonconnected(btcoexist);
++
++	} else if ((BT_8723D_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status) ||
++		   (BT_8723D_2ANT_BT_STATUS_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Action 2-Ant, bt idle!!.\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_action_bt_idle(btcoexist);
++
++	} else {
++
++		if (coex_dm->cur_algorithm != coex_dm->pre_algorithm) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], pre_algorithm=%d, cur_algorithm=%d\n",
++				coex_dm->pre_algorithm, coex_dm->cur_algorithm);
++			BTC_TRACE(trace_buf);
++		}
++
++		switch (coex_dm->cur_algorithm) {
++
++		case BT_8723D_2ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_sco(btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_hid(btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_a2dp(btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_a2dp_pan_hs(btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_pan_edr(btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_pan_hs(btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_pan_edr_a2dp(btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_pan_edr_hid(btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_hid_a2dp_pan_edr(
++				btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_hid_a2dp(btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_NOPROFILEBUSY:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = No-Profile busy.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_bt_idle(btcoexist);
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_coex_all_off(btcoexist);
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8723d2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* fw all off */
++	halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	coex_sta->pop_event_cnt = 0;
++	coex_sta->cnt_RemoteNameReq = 0;
++	coex_sta->cnt_ReInit = 0;
++	coex_sta->cnt_setupLink = 0;
++	coex_sta->cnt_IgnWlanAct = 0;
++	coex_sta->cnt_Page = 0;
++
++	halbtc8723d2ant_query_bt_info(btcoexist);
++}
++
++
++void halbtc8723d2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean wifi_only)
++{
++	u8	u8tmp0 = 0, u8tmp1 = 0;
++	u32	vendor;
++	u32	u32tmp0 = 0, u32tmp1 = 0, u32tmp2 = 0;
++	u16 u16tmp1 = 0;
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 2Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++#if BT_8723D_2ANT_COEX_DBG
++	u32tmp1 = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist,
++			0x38);
++	u32tmp2 = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist,
++			0x54);
++	u16tmp1 = btcoexist->btc_read_2byte(btcoexist, 0x948);
++	u8tmp1	= btcoexist->btc_read_1byte(btcoexist, 0x73);
++	u8tmp0 =  btcoexist->btc_read_1byte(btcoexist, 0x67);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** 0x67 = 0x%x, 0x948 = 0x%x, 0x73 = 0x%x(Before init_hw_config)\n",
++		    u8tmp0, u16tmp1, u8tmp1);
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********0x38= 0x%x, 0x54= 0x%x (Before init_hw_config)\n",
++		    u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++#endif
++
++
++	coex_sta->bt_coex_supported_feature = 0;
++	coex_sta->bt_coex_supported_version = 0;
++	coex_sta->bt_reg_vendor_ac = 0xffff;
++	coex_sta->bt_reg_vendor_ae = 0xffff;
++
++#if 0
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_VENDOR, &vendor);
++	if (vendor == BTC_VENDOR_LENOVO)
++		coex_dm->switch_thres_offset = 0;
++	else
++		coex_dm->switch_thres_offset = 20;
++#endif
++	/* 0xf0[15:12] --> Chip Cut information */
++	coex_sta->cut_version = (btcoexist->btc_read_1byte(btcoexist,
++				 0xf1) & 0xf0) >> 4;
++
++	coex_sta->dis_ver_info_cnt = 0;
++
++	/* default isolation = 15dB */
++	coex_sta->isolation_btween_wb = BT_8723D_2ANT_DEFAULT_ISOLATION;
++	halbtc8723d2ant_coex_switch_threshold(btcoexist,
++					      coex_sta->isolation_btween_wb);
++
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++
++	/* BT report packet sample rate	 */
++	btcoexist->btc_write_1byte(btcoexist, 0x790, 0x5);
++
++	/* Init 0x778 = 0x1 for 2-Ant */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++
++	/* Enable PTA (3-wire function form BT side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x41, 0x02, 0x1);
++
++	/* Enable PTA (tx/rx signal form WiFi side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4c6, 0x10, 0x1);
++
++	halbtc8723d2ant_enable_gnt_to_gpio(btcoexist, true);
++
++	/* check if WL firmware download ok */
++	if (btcoexist->btc_read_1byte(btcoexist, 0x80) == 0xc6)
++		halbtc8723d2ant_post_state_to_bt(btcoexist,
++					 BT_8723D_2ANT_SCOREBOARD_ONOFF, true);
++
++	/* Enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e,
++			   0x4); /* 0x76e[3] =1, WLAN_Act control by PTA */
++
++	/* WLAN_Tx by GNT_WL  0x950[29] = 0 */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x953, 0x20, 0x0);
++
++	halbtc8723d2ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	halbtc8723d2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++
++	psd_scan->ant_det_is_ant_det_available = true;
++
++	if (wifi_only) {
++		coex_sta->concurrent_rx_mode_on = false;
++		/* Path config	 */
++		/* Set Antenna Path */
++		halbtc8723d2ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC,
++					     BT_8723D_2ANT_PHASE_WLANONLY_INIT);
++
++		btcoexist->stop_coex_dm = true;
++	} else {
++		/*Set BT polluted packet on for Tx rate adaptive not including Tx retry break by PTA, 0x45c[19] =1 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x45e, 0x8, 0x1);
++
++		coex_sta->concurrent_rx_mode_on = true;
++		/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0x953, 0x2, 0x1); */
++
++		/* RF 0x1[0] = 0->Set GNT_WL_RF_Rx always = 1 for con-current Rx */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0x1, 0x0);
++
++		/* Path config	 */
++		halbtc8723d2ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC,
++					     BT_8723D_2ANT_PHASE_COEX_INIT);
++
++		btcoexist->stop_coex_dm = false;
++	}
++
++
++}
++
++u32 halbtc8723d2ant_psd_log2base(IN struct btc_coexist *btcoexist, IN u32 val)
++{
++	u8	j;
++	u32	tmp, tmp2, val_integerd_b = 0, tindex, shiftcount = 0;
++	u32	result, val_fractiond_b = 0, table_fraction[21] = {0, 432, 332, 274, 232, 200,
++				   174, 151, 132, 115, 100, 86, 74, 62, 51, 42,
++							   32, 23, 15, 7, 0
++							      };
++
++	if (val == 0)
++		return 0;
++
++	tmp = val;
++
++	while (1) {
++		if (tmp == 1)
++			break;
++		else {
++			tmp = (tmp >> 1);
++			shiftcount++;
++		}
++	}
++
++
++	val_integerd_b = shiftcount + 1;
++
++	tmp2 = 1;
++	for (j = 1; j <= val_integerd_b; j++)
++		tmp2 = tmp2 * 2;
++
++	tmp = (val * 100) / tmp2;
++	tindex = tmp / 5;
++
++	if (tindex > 20)
++		tindex = 20;
++
++	val_fractiond_b = table_fraction[tindex];
++
++	result = val_integerd_b * 100 - val_fractiond_b;
++
++	return result;
++
++
++}
++
++void halbtc8723d2ant_psd_show_antenna_detect_result(IN struct btc_coexist
++		*btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n============[Antenna Detection info]  ============\n");
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 12) { /* Get Ant Det from BT  */
++
++		if (board_info->btdm_ant_num_by_ant_det == 1)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n %-35s = %s (%d~%d)",
++				   "Ant Det Result", "1-Antenna",
++				   BT_8723D_2ANT_ANTDET_PSDTHRES_1ANT,
++				BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION);
++		else {
++
++			if (psd_scan->ant_det_psd_scan_peak_val >
++			    (BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION)
++			    * 100)
++				CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++					   "\r\n %-35s = %s (>%d)",
++					"Ant Det Result", "2-Antenna (Bad-Isolation)",
++					BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++			else
++				CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++					   "\r\n %-35s = %s (%d~%d)",
++					"Ant Det Result", "2-Antenna (Good-Isolation)",
++					BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++					   + psd_scan->ant_det_thres_offset,
++					BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++		}
++
++	} else if (psd_scan->ant_det_result == 1)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (>%d)",
++			   "Ant Det Result", "2-Antenna (Bad-Isolation)",
++			   BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else if (psd_scan->ant_det_result == 2)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "2-Antenna (Good-Isolation)",
++			   BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset,
++			   BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "1-Antenna",
++			   BT_8723D_2ANT_ANTDET_PSDTHRES_1ANT,
++			   BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset);
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s ",
++		   "Antenna Detection Finish",
++		   (board_info->btdm_ant_det_finish
++		    ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	switch (psd_scan->ant_det_result) {
++	case 0:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not available)");
++		break;
++	case 1:  /* 2-Ant bad-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 2:  /* 2-Ant good-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 3:  /* 1-Ant */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 4:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Uncertainty result)");
++		break;
++	case 5:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "(Pre-Scan fai)");
++		break;
++	case 6:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(WiFi is Scanning)");
++		break;
++	case 7:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not idle)");
++		break;
++	case 8:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Abort by WiFi Scanning)");
++		break;
++	case 9:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Antenna Init is not ready)");
++		break;
++	case 10:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Inquiry or page)");
++		break;
++	case 11:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Disabled)");
++	case 12:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available, result from BT");
++		break;
++	}
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 12) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d dB",
++			   "PSD Scan Peak Value",
++			   psd_scan->ant_det_psd_scan_peak_val / 100);
++		CL_PRINTF(cli_buf);
++		return;
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Total Count", psd_scan->ant_det_try_count);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Fail Count", psd_scan->ant_det_fail_count);
++	CL_PRINTF(cli_buf);
++
++	if ((!board_info->btdm_ant_det_finish) &&
++	    (psd_scan->ant_det_result != 5))
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "BT Response",
++		   (psd_scan->ant_det_result ? "ok" : "fail"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ms", "BT Tx Time",
++		   psd_scan->ant_det_bt_tx_time);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "BT Tx Ch",
++		   psd_scan->ant_det_bt_le_channel);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d",
++		   "WiFi PSD Cent-Ch/Offset/Span",
++		   psd_scan->real_cent_freq, psd_scan->real_offset,
++		   psd_scan->real_span);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d dB",
++		   "PSD Pre-Scan Peak Value",
++		   psd_scan->ant_det_pre_psdscan_peak_val / 100);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (<= %d)",
++		   "PSD Pre-Scan result",
++		   (psd_scan->ant_det_result != 5 ? "ok" : "fail"),
++		   BT_8723D_2ANT_ANTDET_PSDTHRES_BACKGROUND
++		   + psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 5)
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s dB",
++		   "PSD Scan Peak Value", psd_scan->ant_det_peak_val);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s MHz",
++		   "PSD Scan Peak Freq", psd_scan->ant_det_peak_freq);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "TFBGA Package",
++		   (board_info->tfbga_package) ?  "Yes" : "No");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "PSD Threshold Offset", psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++}
++
++void halbtc8723d2ant_psd_showdata(IN struct btc_coexist *btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	u32		delta_freq_per_point;
++	u32		freq, freq1, freq2, n = 0, i = 0, j = 0, m = 0, psd_rep1, psd_rep2;
++
++	if (psd_scan->ant_det_result == 12)
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n\n============[PSD info]  (%d)============\n",
++		   psd_scan->psd_gen_count);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->psd_gen_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n No data !!\n");
++		CL_PRINTF(cli_buf);
++		return;
++	}
++
++	if (psd_scan->psd_point == 0)
++		delta_freq_per_point = 0;
++	else
++		delta_freq_per_point = psd_scan->psd_band_width /
++				       psd_scan->psd_point;
++
++	/* if (psd_scan->is_psd_show_max_only) */
++	if (0) {
++		psd_rep1 = psd_scan->psd_max_value / 100;
++		psd_rep2 = psd_scan->psd_max_value - psd_rep1 * 100;
++
++		freq = ((psd_scan->real_cent_freq - 20) * 1000000 +
++			psd_scan->psd_max_value_point * delta_freq_per_point);
++		freq1 = freq / 1000000;
++		freq2 = freq / 1000 - freq1 * 1000;
++
++		if (freq2 < 100)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.0%d MHz",
++				   freq1, freq2);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.%d MHz",
++				   freq1, freq2);
++
++		if (psd_rep2 < 10)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.0%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++
++		CL_PRINTF(cli_buf);
++	} else {
++		m = psd_scan->psd_start_point;
++		n = psd_scan->psd_start_point;
++		i = 1;
++		j = 1;
++
++		while (1) {
++			do {
++				freq = ((psd_scan->real_cent_freq - 20) *
++					1000000 + m *
++					delta_freq_per_point);
++				freq1 = freq / 1000000;
++				freq2 = freq / 1000 - freq1 * 1000;
++
++				if (i == 1) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "\r\n Freq%6d.000",
++							   freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "\r\n Freq%6d.0%2d",
++							   freq1,
++							   freq2);
++					else
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "\r\n Freq%6d.%3d",
++							   freq1,
++							   freq2);
++				} else if ((i % 8 == 0) ||
++					   (m == psd_scan->psd_stop_point)) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "%6d.000\n", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "%6d.0%2d\n", freq1,
++							   freq2);
++					else
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "%6d.%3d\n", freq1,
++							   freq2);
++				} else {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "%6d.0%2d", freq1,
++							   freq2);
++					else
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "%6d.%3d", freq1,
++							   freq2);
++				}
++
++				i++;
++				m++;
++				CL_PRINTF(cli_buf);
++
++			} while ((i <= 8) && (m <= psd_scan->psd_stop_point));
++
++
++			do {
++				psd_rep1 = psd_scan->psd_report_max_hold[n] /
++					   100;
++				psd_rep2 = psd_scan->psd_report_max_hold[n] -
++					   psd_rep1 *
++					   100;
++
++				if (j == 1) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "\r\n Val %7d.0%d",
++							   psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "\r\n Val %7d.%d",
++							   psd_rep1,
++							   psd_rep2);
++				} else if ((j % 8 == 0)  ||
++					   (n == psd_scan->psd_stop_point)) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							"%7d.0%d\n", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "%7d.%d\n", psd_rep1,
++							   psd_rep2);
++				} else {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "%7d.0%d", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf,
++							   BT_TMP_BUF_SIZE,
++							   "%7d.%d", psd_rep1,
++							   psd_rep2);
++				}
++
++				j++;
++				n++;
++				CL_PRINTF(cli_buf);
++
++			} while ((j <= 8) && (n <= psd_scan->psd_stop_point));
++
++			if ((m > psd_scan->psd_stop_point) ||
++			    (n > psd_scan->psd_stop_point))
++				break;
++			else {
++				i = 1;
++				j = 1;
++			}
++
++		}
++	}
++
++
++}
++
++#ifdef PLATFORM_WINDOWS
++#pragma optimize("", off)
++#endif
++void halbtc8723d2ant_psd_maxholddata(IN struct btc_coexist *btcoexist,
++				     IN u32 gen_count)
++{
++	u32 i = 0;
++	u32 loop_i_max = 0, loop_val_max = 0;
++
++	if (gen_count == 1) {
++		memcpy(psd_scan->psd_report_max_hold,
++		       psd_scan->psd_report,
++		       BT_8723D_2ANT_ANTDET_PSD_POINTS * sizeof(u32));
++	}
++
++	for (i = psd_scan->psd_start_point;
++	     i <= psd_scan->psd_stop_point; i++) {
++
++		/* update max-hold value at each freq point */
++		if (psd_scan->psd_report[i] > psd_scan->psd_report_max_hold[i])
++			psd_scan->psd_report_max_hold[i] =
++				psd_scan->psd_report[i];
++
++		/*	search the max value in this seep */
++		if (psd_scan->psd_report[i] > loop_val_max) {
++			loop_val_max = psd_scan->psd_report[i];
++			loop_i_max = i;
++		}
++	}
++
++	if (gen_count <= BT_8723D_2ANT_ANTDET_PSD_SWWEEPCOUNT)
++		psd_scan->psd_loop_max_value[gen_count - 1] = loop_val_max;
++
++}
++
++
++#ifdef PLATFORM_WINDOWS
++#pragma optimize("", off)
++#endif
++u32 halbtc8723d2ant_psd_getdata(IN struct btc_coexist *btcoexist, IN u32 point)
++{
++	/* reg 0x808[9:0]: FFT data x */
++	/* reg 0x808[22]: 0-->1 to get 1 FFT data y */
++	/* reg 0x8b4[15:0]: FFT data y report */
++
++	u32 val = 0, psd_report = 0;
++	int k = 0;
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++
++	val &= 0xffbffc00;
++	val |= point;
++
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	val |= 0x00400000;
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	while (1) {
++		if (k++ > BT_8723D_2ANT_ANTDET_SWEEPPOINT_DELAY)
++			break;
++	}
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x8b4);
++
++	psd_report = val & 0x0000ffff;
++
++	return psd_report;
++}
++
++#ifdef PLATFORM_WINDOWS
++#pragma optimize("", off)
++#endif
++boolean halbtc8723d2ant_psd_sweep_point(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN s32 offset, IN u32 span, IN u32 points,
++					IN u32 avgnum, IN u32 loopcnt)
++{
++	u32	 i = 0, val = 0, n = 0, k = 0, j, point_index = 0;
++	u32	points1 = 0, psd_report = 0;
++	u32	start_p = 0, stop_p = 0, delta_freq_per_point = 156250;
++	u32    psd_center_freq = 20 * 10 ^ 6;
++	boolean outloop = false, scan , roam, is_sweep_ok = true;
++	u8	 flag = 0;
++	u32	tmp = 0, u32tmp1 = 0;
++	u32	wifi_original_channel = 1;
++	u32 psd_sum = 0, avg_cnt = 0;
++	u32	i_max = 0, val_max = 0, val_max2 = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Start!!\n");
++	BTC_TRACE(trace_buf);
++
++	do {
++		switch (flag) {
++		case 0:  /* Get PSD parameters */
++		default:
++
++			psd_scan->psd_band_width = 40 * 1000000;
++			psd_scan->psd_point = points;
++			psd_scan->psd_start_base = points / 2;
++			psd_scan->psd_avg_num = avgnum;
++			psd_scan->real_cent_freq = cent_freq;
++			psd_scan->real_offset = offset;
++			psd_scan->real_span = span;
++
++
++			points1 = psd_scan->psd_point;
++			delta_freq_per_point = psd_scan->psd_band_width /
++					       psd_scan->psd_point;
++
++			/* PSD point setup */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffff0fff;
++
++			switch (psd_scan->psd_point) {
++			case 128:
++				val |= 0x0;
++				break;
++			case 256:
++			default:
++				val |= 0x00004000;
++				break;
++			case 512:
++				val |= 0x00008000;
++				break;
++			case 1024:
++				val |= 0x0000c000;
++				break;
++			}
++
++			switch (psd_scan->psd_avg_num) {
++			case 1:
++				val |= 0x0;
++				break;
++			case 8:
++				val |= 0x00001000;
++				break;
++			case 16:
++				val |= 0x00002000;
++				break;
++			case 32:
++			default:
++				val |= 0x00003000;
++				break;
++			}
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			flag = 1;
++			break;
++		case 1:	  /* calculate the PSD point index from freq/offset/span */
++			psd_center_freq = psd_scan->psd_band_width / 2 +
++					  offset * (1000000);
++
++			start_p = psd_scan->psd_start_base + (psd_center_freq -
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_start_point = start_p -
++						    psd_scan->psd_start_base;
++
++			stop_p = psd_scan->psd_start_base + (psd_center_freq +
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_stop_point = stop_p -
++						   psd_scan->psd_start_base - 1;
++
++			flag = 2;
++			break;
++		case 2:  /* set RF channel/BW/Mode */
++
++			/* set 3-wire off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val |= 0x00300000;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val &= 0xfeffffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause on */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x6f);
++
++			/* store WiFi original channel */
++			wifi_original_channel = btcoexist->btc_get_rf_reg(
++					btcoexist, BTC_RF_A, 0x18, 0x3ff);
++
++			/* Set RF channel */
++			if (cent_freq == 2484)
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++							  0x18, 0x3ff, 0xe);
++			else
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++					  0x18, 0x3ff, (cent_freq - 2412) / 5 +
++						  1); /* WiFi TRx Mask on */
++
++			/* save original RCK value */
++			u32tmp1 =  btcoexist->btc_get_rf_reg(
++					   btcoexist, BTC_RF_A, 0x1d, 0xfffff);
++
++			/* Enter debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x1);
++
++			/* Set RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, 0x2e);
++
++
++			/* Set  RF mode = Rx, RF Gain = 0x320a0 */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x0,
++						  0xfffff, 0x320a0);
++
++			while (1) {
++				if (k++ > BT_8723D_2ANT_ANTDET_SWEEPPOINT_DELAY)
++					break;
++			}
++			flag = 3;
++			break;
++		case 3:
++			psd_scan->psd_gen_count = 0;
++			for (j = 1; j <= loopcnt; j++) {
++
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_SCAN, &scan);
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_ROAM, &roam);
++
++				if (scan || roam) {
++					is_sweep_ok = false;
++					break;
++				}
++				memset(psd_scan->psd_report, 0,
++				       psd_scan->psd_point * sizeof(u32));
++				start_p = psd_scan->psd_start_point +
++					  psd_scan->psd_start_base;
++				stop_p = psd_scan->psd_stop_point +
++					 psd_scan->psd_start_base + 1;
++
++				i = start_p;
++				point_index = 0;
++
++				while (i < stop_p) {
++					if (i >= points1)
++						psd_report =
++							halbtc8723d2ant_psd_getdata(
++							btcoexist, i - points1);
++					else
++						psd_report =
++							halbtc8723d2ant_psd_getdata(
++								btcoexist, i);
++
++					if (psd_report == 0)
++						tmp = 0;
++					else
++						/* tmp =  20*log10((double)psd_report); */
++						/* 20*log2(x)/log2(10), log2Base return theresult of the psd_report*100 */
++						tmp = 6 * halbtc8723d2ant_psd_log2base(
++							btcoexist, psd_report);
++
++					n = i - psd_scan->psd_start_base;
++					psd_scan->psd_report[n] =  tmp;
++
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"Point=%d, psd_dB_data = %d\n",
++						    i, psd_scan->psd_report[n]);
++					BTC_TRACE(trace_buf);
++
++					i++;
++
++				}
++
++				halbtc8723d2ant_psd_maxholddata(btcoexist, j);
++
++				psd_scan->psd_gen_count = j;
++
++				/*Accumulate Max PSD value in this loop if the value > threshold */
++				if (psd_scan->psd_loop_max_value[j - 1] >=
++				    4000) {
++					psd_sum = psd_sum +
++						psd_scan->psd_loop_max_value[j -
++								       1];
++					avg_cnt++;
++				}
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "Loop=%d, Max_dB_data = %d\n",
++					    j, psd_scan->psd_loop_max_value[j
++							    - 1]);
++				BTC_TRACE(trace_buf);
++
++			}
++
++			if (loopcnt == BT_8723D_2ANT_ANTDET_PSD_SWWEEPCOUNT) {
++
++				/* search the Max Value between each-freq-point-max-hold value of all sweep*/
++				for (i = 1;
++				     i <= BT_8723D_2ANT_ANTDET_PSD_SWWEEPCOUNT;
++				     i++) {
++
++					if (i == 1) {
++						i_max = i;
++						val_max = psd_scan->psd_loop_max_value[i
++								       - 1];
++						val_max2 =
++							psd_scan->psd_loop_max_value[i
++								     - 1];
++					} else if (
++						psd_scan->psd_loop_max_value[i -
++							     1] > val_max) {
++						val_max2 = val_max;
++						i_max = i;
++						val_max = psd_scan->psd_loop_max_value[i
++								       - 1];
++					} else if (
++						psd_scan->psd_loop_max_value[i -
++							     1] > val_max2)
++						val_max2 =
++							psd_scan->psd_loop_max_value[i
++								     - 1];
++
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"i = %d, val_hold= %d, val_max = %d, val_max2 = %d\n",
++						i, psd_scan->psd_loop_max_value[i
++								    - 1],
++						    val_max, val_max2);
++
++					BTC_TRACE(trace_buf);
++				}
++
++				psd_scan->psd_max_value_point = i_max;
++				psd_scan->psd_max_value = val_max;
++				psd_scan->psd_max_value2 = val_max2;
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "val_max = %d, val_max2 = %d\n",
++					    psd_scan->psd_max_value,
++					    psd_scan->psd_max_value2);
++				BTC_TRACE(trace_buf);
++			}
++
++			if (avg_cnt != 0) {
++				psd_scan->psd_avg_value = (psd_sum / avg_cnt);
++				if ((psd_sum % avg_cnt) >= (avg_cnt / 2))
++					psd_scan->psd_avg_value++;
++			} else
++				psd_scan->psd_avg_value = 0;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "AvgLoop=%d, Avg_dB_data = %d\n",
++				    avg_cnt, psd_scan->psd_avg_value);
++			BTC_TRACE(trace_buf);
++
++			flag = 100;
++			break;
++		case 99:	/* error */
++
++			outloop = true;
++			break;
++		case 100: /* recovery */
++
++			/* set 3-wire on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val &= 0xffcfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val |= 0x01000000;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause off */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x0);
++
++			/* PSD off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffbfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			/* restore RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, u32tmp1);
++
++			/* Exit debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x0);
++
++			/* restore WiFi original channel */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x18,
++						  0x3ff, wifi_original_channel);
++
++			outloop = true;
++			break;
++
++		}
++
++	} while (!outloop);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Stop!!\n");
++	BTC_TRACE(trace_buf);
++	return is_sweep_ok;
++
++}
++
++#ifdef PLATFORM_WINDOWS
++#pragma optimize("", off)
++#endif
++boolean halbtc8723d2ant_psd_antenna_detection(IN struct btc_coexist
++		*btcoexist)
++{
++	u32	i = 0;
++	u32	wlpsd_cent_freq = 2484, wlpsd_span = 2;
++	s32	wlpsd_offset = -4;
++	u32 bt_tx_time, bt_le_channel;
++	u8	bt_le_ch[13] = {3, 6, 8, 11, 13, 16, 18, 21, 23, 26, 28, 31, 33};
++
++	u8	h2c_parameter[3] = {0}, u8tmpa, u8tmpb;
++
++	u8	state = 0;
++	boolean		outloop = false, bt_resp = false, ant_det_finish = false;
++	u32		freq, freq1, freq2, psd_rep1, psd_rep2, delta_freq_per_point,
++			u32tmp, u32tmp0, u32tmp1, u32tmp2 ;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	memset(psd_scan->ant_det_peak_val, 0, 16 * sizeof(u8));
++	memset(psd_scan->ant_det_peak_freq, 0, 16 * sizeof(u8));
++
++	psd_scan->ant_det_bt_tx_time =
++		BT_8723D_2ANT_ANTDET_BTTXTIME;	   /* 0.42ms*50 = 20ms (0.42ms = 1 PSD sweep) */
++	psd_scan->ant_det_bt_le_channel = BT_8723D_2ANT_ANTDET_BTTXCHANNEL;
++
++	bt_tx_time = psd_scan->ant_det_bt_tx_time;
++	bt_le_channel = psd_scan->ant_det_bt_le_channel;
++
++	if (board_info->tfbga_package) /* for TFBGA */
++		psd_scan->ant_det_thres_offset = 5;
++	else
++		psd_scan->ant_det_thres_offset = 0;
++
++	do {
++		switch (state) {
++		case 0:
++			if (bt_le_channel == 39)
++				wlpsd_cent_freq = 2484;
++			else {
++				for (i = 1; i <= 13; i++) {
++					if (bt_le_ch[i - 1] ==
++					    bt_le_channel) {
++						wlpsd_cent_freq = 2412
++								  + (i - 1) * 5;
++						break;
++					}
++				}
++
++				if (i == 14) {
++
++					BTC_SPRINTF(trace_buf,
++						    BT_TMP_BUF_SIZE,
++						"xxxxxxxxxxxxxxxx AntennaDetect(), Abort!!, Invalid LE channel = %d\n ",
++						    bt_le_channel);
++					BTC_TRACE(trace_buf);
++					outloop = true;
++					break;
++				}
++			}
++#if 0
++			wlpsd_sweep_count = bt_tx_time * 238 /
++					    100; /* bt_tx_time/0.42								 */
++			wlpsd_sweep_count = wlpsd_sweep_count / 5;
++
++			if (wlpsd_sweep_count % 5 != 0)
++				wlpsd_sweep_count = (wlpsd_sweep_count /
++						     5 + 1) * 5;
++#endif
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), BT_LETxTime=%d,  BT_LECh = %d\n",
++				    bt_tx_time, bt_le_channel);
++			BTC_TRACE(trace_buf);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), wlpsd_cent_freq=%d,  wlpsd_offset = %d, wlpsd_span = %d, wlpsd_sweep_count = %d\n",
++				    wlpsd_cent_freq,
++				    wlpsd_offset,
++				    wlpsd_span,
++				    BT_8723D_2ANT_ANTDET_PSD_SWWEEPCOUNT);
++			BTC_TRACE(trace_buf);
++
++			state = 1;
++			break;
++		case 1: /* stop coex DM & set antenna path */
++			/* Stop Coex DM */
++			btcoexist->stop_coex_dm = true;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stop Coex DM!!\n");
++			BTC_TRACE(trace_buf);
++
++			/* Set TDMA off,				 */
++			halbtc8723d2ant_ps_tdma(btcoexist, FORCE_EXEC,
++						false, 0);
++
++			/* Set coex table */
++			halbtc8723d2ant_coex_table_with_type(btcoexist,
++							     FORCE_EXEC, 0);
++
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Main Port\n");
++				BTC_TRACE(trace_buf);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Aux Port\n");
++				BTC_TRACE(trace_buf);
++			}
++
++			/* Set Antenna path, switch WiFi to un-certain antenna port */
++			/* Set Antenna Path,  both GNT_WL/GNT_BT = 1, and control by SW */
++			halbtc8723d2ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++						     FORCE_EXEC,
++					     BT_8723D_2ANT_PHASE_ANTENNA_DET);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to BT!!\n");
++			BTC_TRACE(trace_buf);
++
++			/* Set AFH mask on at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x1;
++			h2c_parameter[1] = 0xd;
++			h2c_parameter[2] = 0x14;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1],
++				    h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			u32tmp = btcoexist->btc_read_2byte(btcoexist, 0x948);
++			u32tmp0 = btcoexist->btc_read_4byte(btcoexist, 0x70);
++			u32tmp1 = halbtc8723d2ant_ltecoex_indirect_read_reg(
++					  btcoexist, 0x38);
++			u32tmp2 = halbtc8723d2ant_ltecoex_indirect_read_reg(
++					  btcoexist, 0x54);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], ********** 0x948 = 0x%x, 0x70 = 0x%x, 0x38= 0x%x, 0x54= 0x%x (Before Ant Det)\n",
++				    u32tmp, u32tmp0, u32tmp1, u32tmp2);
++			BTC_TRACE(trace_buf);
++
++			state = 2;
++			break;
++		case 2:	/* Pre-sweep background psd */
++			if (!halbtc8723d2ant_psd_sweep_point(btcoexist,
++				     wlpsd_cent_freq, wlpsd_offset, wlpsd_span,
++					     BT_8723D_2ANT_ANTDET_PSD_POINTS,
++				     BT_8723D_2ANT_ANTDET_PSD_AVGNUM, 3)) {
++				ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++			psd_scan->ant_det_pre_psdscan_peak_val =
++				psd_scan->psd_max_value;
++
++			if (psd_scan->ant_det_pre_psdscan_peak_val >
++			    (BT_8723D_2ANT_ANTDET_PSDTHRES_BACKGROUND
++			     + psd_scan->ant_det_thres_offset) * 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Abort Antenna Detection!! becaus background = %d > thres (%d)\n",
++					psd_scan->ant_det_pre_psdscan_peak_val /
++					    100,
++					BT_8723D_2ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 5;
++				state = 99;
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Start Antenna Detection!! becaus background = %d <= thres (%d)\n",
++					psd_scan->ant_det_pre_psdscan_peak_val /
++					    100,
++					BT_8723D_2ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				state = 3;
++			}
++			break;
++		case 3:
++			bt_resp = btcoexist->btc_set_bt_ant_detection(
++					  btcoexist, (u8)(bt_tx_time & 0xff),
++					  (u8)(bt_le_channel & 0xff));
++
++			/* Sync WL Rx PSD with BT Tx time because H2C->Mailbox delay */
++			delay_ms(20);
++
++			if (!halbtc8723d2ant_psd_sweep_point(btcoexist,
++					     wlpsd_cent_freq, wlpsd_offset,
++							     wlpsd_span,
++					     BT_8723D_2ANT_ANTDET_PSD_POINTS,
++					     BT_8723D_2ANT_ANTDET_PSD_AVGNUM,
++				     BT_8723D_2ANT_ANTDET_PSD_SWWEEPCOUNT)) {
++				ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++#if 1
++			psd_scan->ant_det_psd_scan_peak_val =
++				psd_scan->psd_max_value;
++#endif
++#if 0
++			psd_scan->ant_det_psd_scan_peak_val =
++				((psd_scan->psd_max_value - psd_scan->psd_avg_value) <
++				 800) ?
++				psd_scan->psd_max_value : ((
++						psd_scan->psd_max_value -
++					psd_scan->psd_max_value2 <= 300) ?
++						   psd_scan->psd_avg_value :
++						   psd_scan->psd_max_value2);
++#endif
++			psd_scan->ant_det_psd_scan_peak_freq =
++				psd_scan->psd_max_value_point;
++			state = 4;
++			break;
++		case 4:
++
++			if (psd_scan->psd_point == 0)
++				delta_freq_per_point = 0;
++			else
++				delta_freq_per_point =
++					psd_scan->psd_band_width /
++					psd_scan->psd_point;
++
++			psd_rep1 = psd_scan->ant_det_psd_scan_peak_val / 100;
++			psd_rep2 = psd_scan->ant_det_psd_scan_peak_val -
++				   psd_rep1 *
++				   100;
++
++			freq = ((psd_scan->real_cent_freq - 20) *
++				1000000 + psd_scan->psd_max_value_point
++				* delta_freq_per_point);
++			freq1 = freq / 1000000;
++			freq2 = freq / 1000 - freq1 * 1000;
++
++			if (freq2 < 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.0%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8723D_2ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", freq1, freq2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8723D_2ANT_ANTDET_BUF_LEN,
++					   "%d.%d", freq1, freq2);
++			}
++
++			if (psd_rep2 < 10) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.0%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8723D_2ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", psd_rep1, psd_rep2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8723D_2ANT_ANTDET_BUF_LEN,
++					   "%d.%d", psd_rep1, psd_rep2);
++			}
++
++			psd_scan->ant_det_is_btreply_available = true;
++
++			if (bt_resp == false) {
++				psd_scan->ant_det_is_btreply_available =
++					false;
++				psd_scan->ant_det_result = 0;
++				ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), BT Response = Fail\n ");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->ant_det_psd_scan_peak_val >
++				(BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION)
++				   * 100) {
++				psd_scan->ant_det_result = 1;
++				ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				coex_sta->isolation_btween_wb = (u8)(85 -
++					psd_scan->ant_det_psd_scan_peak_val /
++							     100) & 0xff;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Bad-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->ant_det_psd_scan_peak_val >
++				(BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++				    + psd_scan->ant_det_thres_offset) * 100) {
++				psd_scan->ant_det_result = 2;
++				ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				coex_sta->isolation_btween_wb = (u8)(85 -
++					psd_scan->ant_det_psd_scan_peak_val /
++							     100) & 0xff;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Good-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->ant_det_psd_scan_peak_val >
++				   (BT_8723D_2ANT_ANTDET_PSDTHRES_1ANT) *
++				   100) {
++				psd_scan->ant_det_result = 3;
++				ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				coex_sta->isolation_btween_wb = (u8)(85 -
++					psd_scan->ant_det_psd_scan_peak_val /
++							     100) & 0xff;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant!!\n");
++				BTC_TRACE(trace_buf);
++			} else {
++				psd_scan->ant_det_result = 4;
++				ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant, un-certainity!!\n");
++				BTC_TRACE(trace_buf);
++			}
++
++			state = 99;
++			break;
++		case 99:  /* restore setup */
++
++			/* Set AFH mask off at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x0;
++			h2c_parameter[1] = 0x0;
++			h2c_parameter[2] = 0x0;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1], h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			/* Set Antenna Path, GNT_WL/GNT_BT control by PTA */
++			/* Set Antenna path, switch WiFi to certain antenna port */
++			halbtc8723d2ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_AUTO, FORCE_EXEC,
++					     BT_8723D_2ANT_PHASE_2G_RUNTIME);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to PTA\n!!");
++			BTC_TRACE(trace_buf);
++
++			btcoexist->stop_coex_dm = false;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Resume Coex DM\n!!");
++			BTC_TRACE(trace_buf);
++
++			outloop = true;
++			break;
++		}
++
++	} while (!outloop);
++
++	return ant_det_finish;
++
++}
++
++#ifdef PLATFORM_WINDOWS
++#pragma optimize("", off)
++#endif
++boolean halbtc8723d2ant_psd_antenna_detection_check(IN struct btc_coexist
++		*btcoexist)
++{
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	boolean scan, roam, ant_det_finish = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++	ant_det_count++;
++
++	psd_scan->ant_det_try_count = ant_det_count;
++
++	if (scan || roam) {
++		ant_det_finish = false;
++		psd_scan->ant_det_result = 6;
++	} else if (coex_sta->bt_disabled) {
++		ant_det_finish = false;
++		psd_scan->ant_det_result = 11;
++	} else if (coex_sta->num_of_profile >= 1) {
++		ant_det_finish = false;
++		psd_scan->ant_det_result = 7;
++	} else if (
++		!psd_scan->ant_det_is_ant_det_available) { /* Antenna initial setup is not ready */
++		ant_det_finish = false;
++		psd_scan->ant_det_result = 9;
++	} else if (coex_sta->c2h_bt_inquiry_page) {
++		ant_det_finish = false;
++		psd_scan->ant_det_result = 10;
++	} else {
++
++		ant_det_finish = halbtc8723d2ant_psd_antenna_detection(
++					 btcoexist);
++
++		delay_ms(psd_scan->ant_det_bt_tx_time);
++	}
++
++
++	if (!ant_det_finish)
++		ant_det_fail_count++;
++
++	psd_scan->ant_det_fail_count = ant_det_fail_count;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx AntennaDetect(), result = %d, fail_count = %d, finish = %s\n",
++		    psd_scan->ant_det_result,
++		    psd_scan->ant_det_fail_count,
++		    ant_det_finish == true ? "Yes" : "No");
++	BTC_TRACE(trace_buf);
++
++	return ant_det_finish;
++
++}
++
++
++/* ************************************************************
++ * work around function start with wa_halbtc8723d2ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8723d2ant_
++ * ************************************************************ */
++void ex_halbtc8723d2ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x0;
++	u16 u16tmp = 0x0;
++	u32	value = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx Execute 8723d 2-Ant PowerOn Setting xxxxxxxxxxxxxxxx!!\n");
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "Ant Det Finish = %s, Ant Det Number  = %d\n",
++		    (board_info->btdm_ant_det_finish ? "Yes" : "No"),
++		    board_info->btdm_ant_num_by_ant_det);
++	BTC_TRACE(trace_buf);
++
++
++	btcoexist->stop_coex_dm = true;
++	psd_scan->ant_det_is_ant_det_available = false;
++
++	/* enable BB, REG_SYS_FUNC_EN such that we can write BB Register correctly. */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x2);
++	btcoexist->btc_write_2byte(btcoexist, 0x2, u16tmp | BIT(0) | BIT(1));
++
++
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++
++	/* Set path control to WL */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x80, 0x1);
++	btcoexist->btc_write_2byte(btcoexist, 0x948, 0x0);
++
++	/* Check efuse 0xc3[6] for Single Antenna Path */
++	if (board_info->single_ant_path == 0) {
++		/* set to S1 */
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++		u8tmp = 4;
++		value = 1;
++	} else if (board_info->single_ant_path == 1) {
++		/* set to S0 */
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++		u8tmp = 5;
++		value = 0;
++	}
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Power On) single_ant_path  = %d, btdm_ant_pos = %d **********\n",
++		    board_info->single_ant_path , board_info->btdm_ant_pos);
++	BTC_TRACE(trace_buf);
++
++	/* Set Antenna Path to BT side */
++	halbtc8723d2ant_set_ant_path(btcoexist,
++				     BTC_ANT_PATH_AUTO,
++				     FORCE_EXEC,
++				     BT_8723D_1ANT_PHASE_COEX_POWERON);
++
++	/* Write Single Antenna Position to Registry to tell BT for 872db. This line can be removed
++	since BT EFuse also add "single antenna position" in EFuse for 8723d*/
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_ANTPOSREGRISTRY_CTRL,
++			   &value);
++
++	/* Save"single antenna position" info in Local register setting for FW reading, because FW may not ready at  power on */
++	if (btcoexist->chip_interface == BTC_INTF_PCI)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x3e0, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_USB)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60, u8tmp);
++
++	/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++	halbtc8723d2ant_enable_gnt_to_gpio(btcoexist, true);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********  LTE coex Reg 0x38 (Power-On) = 0x%x**********\n",
++		    halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x38));
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********  MAC Reg 0x70/ BB Reg 0x948 (Power-On) = 0x%x / 0x%x**********\n",
++		    btcoexist->btc_read_4byte(btcoexist, 0x70),
++		    btcoexist->btc_read_2byte(btcoexist, 0x948));
++	BTC_TRACE(trace_buf);
++}
++
++void ex_halbtc8723d2ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x4; /* Set BIT2 by default since it's 2ant case */
++
++	/* */
++	/* S0 or S1 setting and Local register setting(By the setting fw can get ant number, S0/S1, ... info) */
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++	if (btcoexist->chip_interface == BTC_INTF_USB) {
++		/* fixed at S0 for USB interface */
++		u8tmp |= 0x1;	/* antenna inverse */
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	} else {
++		/* for PCIE and SDIO interface, we check efuse 0xc3[6] */
++		if (board_info->single_ant_path == 0) {
++		} else if (board_info->single_ant_path == 1) {
++			/* set to S0 */
++			u8tmp |= 0x1;	/* antenna inverse */
++		}
++
++		if (btcoexist->chip_interface == BTC_INTF_PCI)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x3e0,
++							     u8tmp);
++		else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60,
++							     u8tmp);
++	}
++}
++
++
++void ex_halbtc8723d2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8723d2ant_init_hw_config(btcoexist, wifi_only);
++}
++
++void ex_halbtc8723d2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++
++	halbtc8723d2ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8723d2ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, ps_tdma_case = 0;
++	u32				u32tmp[4];
++	u16				u16tmp[4];
++	u32				fa_ofdm, fa_cck, cca_ofdm, cca_cck, bt_coex_ver = 0;
++	u32				fw_ver = 0, bt_patch_ver = 0;
++	static u8			pop_report_in_10s = 0;
++	u32			phyver = 0;
++	boolean			lte_coex_on = false;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	if (psd_scan->ant_det_try_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s",
++			   "Ant PG Num/ Mech/ Pos",
++			   board_info->pg_ant_num, board_info->btdm_ant_num,
++			   (board_info->btdm_ant_pos == 1 ? "S1" : "S0"));
++		CL_PRINTF(cli_buf);
++	} else {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n %-35s = %d/ %d/ %s  (retry=%d/fail=%d/result=%d)",
++			   "Ant PG Num/ Mech(Ant_Det)/ Pos",
++			   board_info->pg_ant_num,
++			   board_info->btdm_ant_num_by_ant_det,
++			   (board_info->btdm_ant_pos == 1 ? "S1" : "S0"),
++			   psd_scan->ant_det_try_count,
++			   psd_scan->ant_det_fail_count,
++			   psd_scan->ant_det_result);
++		CL_PRINTF(cli_buf);
++
++		if (board_info->btdm_ant_det_finish) {
++
++			if (psd_scan->ant_det_result != 12)
++				CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++					   "\r\n %-35s = %s",
++					   "Ant Det PSD Value",
++					   psd_scan->ant_det_peak_val);
++			else
++				CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++					   "\r\n %-35s = %d",
++					   "Ant Det PSD Value",
++					   psd_scan->ant_det_psd_scan_peak_val
++					   / 100);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	if (board_info->ant_det_result_five_complete) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d/ %d",
++			   "AntDet(Registry) Num/PSD Value",
++			   board_info->btdm_ant_num_by_ant_det,
++			   (board_info->antdetval & 0x7f));
++		CL_PRINTF(cli_buf);
++	}
++
++
++	bt_patch_ver = btcoexist->bt_info.bt_get_fw_ver;
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	phyver = btcoexist->btc_get_bt_phydm_version(btcoexist);
++
++	bt_coex_ver = coex_sta->bt_coex_supported_version & 0xff;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%02x/ 0x%02x/ 0x%02x (%s)",
++		   "CoexVer WL/  BT_Desired/ BT_Report",
++		   glcoex_ver_date_8723d_2ant, glcoex_ver_8723d_2ant,
++		   glcoex_ver_btdesired_8723d_2ant,
++		   bt_coex_ver,
++		   (bt_coex_ver == 0xff ? "Unknown" :
++		   (bt_coex_ver >= glcoex_ver_btdesired_8723d_2ant ?
++		      "Match":"Mis-Match")));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ v%d/ %c",
++		   "W_FW/ B_FW/ Phy/ Kt",
++		   fw_ver, bt_patch_ver, phyver,
++		   coex_sta->cut_version + 65);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d ",
++		   "Isolation/WL_Thres/BT_Thres",
++		   coex_sta->isolation_btween_wb,
++		   coex_sta->wifi_coex_thres,
++		   coex_sta->bt_coex_thres);
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	pop_report_in_10s++;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = [%s/ %d dBm/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt/ popCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++			   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page")
++			   : ((BT_8723D_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8723D_2ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi - 100, coex_sta->bt_retry_cnt,
++		   coex_sta->pop_event_cnt);
++	CL_PRINTF(cli_buf);
++
++	if (pop_report_in_10s >= 5) {
++		coex_sta->pop_event_cnt = 0;
++		pop_report_in_10s = 0;
++	}
++
++
++	if (coex_sta->num_of_profile != 0)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %s%s%s%s%s",
++			   "Profiles",
++			   ((bt_link_info->a2dp_exist) ? "A2DP," : ""),
++			   ((bt_link_info->sco_exist) ?  "SCO," : ""),
++			   ((bt_link_info->hid_exist) ?  "HID," : ""),
++			   ((bt_link_info->pan_exist) ?  "PAN," : ""),
++			   ((coex_sta->voice_over_HOGP) ? "Voice" : ""));
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = None",
++			   "Profiles");
++
++	CL_PRINTF(cli_buf);
++
++
++	if (bt_link_info->a2dp_exist) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d/ %s",
++			   "A2DP Rate/Bitpool/Auto_Slot",
++			   ((coex_sta->is_A2DP_3M) ? "3M" : "No_3M"),
++			   coex_sta->a2dp_bit_pool,
++			   ((coex_sta->is_autoslot) ? "On" : "Off")
++			  );
++		CL_PRINTF(cli_buf);
++	}
++
++	if (bt_link_info->hid_exist) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++			   "HID PairNum/Forbid_Slot",
++			   coex_sta->hid_pair_cnt,
++			   coex_sta->forbidden_slot
++			  );
++		CL_PRINTF(cli_buf);
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %s/ 0x%x",
++		   "Role/IgnWlanAct/Feature",
++		   ((bt_link_info->slave_role) ? "Slave" : "Master"),
++		   ((coex_dm->cur_ignore_wlan_act) ? "Yes" : "No"),
++		   coex_sta->bt_coex_supported_feature);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d/ %d",
++		   "ReInit/ReLink/IgnWlact/Page/NameReq",
++		   coex_sta->cnt_ReInit,
++		   coex_sta->cnt_setupLink,
++		   coex_sta->cnt_IgnWlanAct,
++		   coex_sta->cnt_Page,
++		   coex_sta->cnt_RemoteNameReq
++		  );
++	CL_PRINTF(cli_buf);
++
++	halbtc8723d2ant_read_score_board(btcoexist,	&u16tmp[0]);
++
++	if ((coex_sta->bt_reg_vendor_ae == 0xffff) ||
++	    (coex_sta->bt_reg_vendor_ac == 0xffff))
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = x/ x/ %04x",
++			   "0xae[4]/0xac[1:0]/Scoreboard", u16tmp[0]);
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = 0x%x/ 0x%x/ %04x",
++			   "0xae[4]/0xac[1:0]/Scoreboard",
++			   ((coex_sta->bt_reg_vendor_ae & BIT(4)) >> 4),
++			   coex_sta->bt_reg_vendor_ac & 0x3, u16tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	for (i = 0; i < BT_INFO_SRC_8723D_2ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x (%d)",
++				   glbt_info_src_8723d_2ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	/* Sw mechanism	 */
++	if (btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[mechanism] (before Manual)============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[Mechanism]============");
++
++	CL_PRINTF(cli_buf);
++
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x (case-%d, %s, %s)",
++		   "TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   (coex_dm->cur_ps_tdma_on ? "TDMA On" : "TDMA Off"),
++		   (coex_dm->is_switch_to_1dot5_ant ? "1.5Ant" : "2Ant"));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d/ 0x%x/ 0x%x/ 0x%x",
++		   "Table/0x6c0/0x6c4/0x6c8",
++		   coex_sta->coex_table_type, u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x778/0x6cc",
++		   u8tmp[0], u32tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s",
++		   "AntDiv/ ForceLPS",
++		   ((board_info->ant_div_cfg) ? "On" : "Off"),
++		   ((coex_sta->force_lps_on) ? "On" : "Off"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "WL_DACSwing/ BT_Dec_Pwr", coex_dm->cur_fw_dac_swing_lvl,
++		   coex_dm->cur_bt_dec_pwr_lvl);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	lte_coex_on = ((u32tmp[0] & BIT(7)) >> 7) ?  true : false;
++
++	if (lte_coex_on) {
++
++		u32tmp[0] = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist,
++				0xa0);
++		u32tmp[1] = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist,
++				0xa4);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++			   "LTE Coex  Table W_L/B_L",
++			   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff);
++		CL_PRINTF(cli_buf);
++
++		u32tmp[0] = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist,
++				0xa8);
++		u32tmp[1] = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist,
++				0xac);
++		u32tmp[2] = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist,
++				0xb0);
++		u32tmp[3] = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist,
++				0xb4);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++			   "LTE Break Table W_L/B_L/L_W/L_B",
++			   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff,
++			   u32tmp[2] & 0xffff, u32tmp[3] & 0xffff);
++		CL_PRINTF(cli_buf);
++
++	}
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++	/*
++		u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++		u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++		u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++		u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++			   "0x430/0x434/0x42a/0x456",
++			   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++		CL_PRINTF(cli_buf);
++	*/
++	u32tmp[0] = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp[1] = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s",
++		   "LTE Coex/Path Owner",
++		   ((lte_coex_on) ? "On" : "Off") ,
++		   ((u8tmp[0] & BIT(2)) ? "WL" : "BT"));
++	CL_PRINTF(cli_buf);
++
++	if (lte_coex_on) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d/ %d/ %d/ %d",
++			   "LTE 3Wire/OPMode/UART/UARTMode",
++			   (int)((u32tmp[0] & BIT(6)) >> 6),
++			   (int)((u32tmp[0] & (BIT(5) | BIT(4))) >> 4),
++			   (int)((u32tmp[0] & BIT(3)) >> 3),
++			   (int)(u32tmp[0] & (BIT(2) | BIT(1) | BIT(0))));
++		CL_PRINTF(cli_buf);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++			   "LTE_Busy/UART_Busy",
++			(int)((u32tmp[1] & BIT(1)) >> 1), (int)(u32tmp[1] & BIT(0)));
++		CL_PRINTF(cli_buf);
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %s (BB:%s)/ %s (BB:%s)/ %s",
++		   "GNT_WL_Ctrl/GNT_BT_Ctrl/Dbg",
++		   ((u32tmp[0] & BIT(12)) ? "SW" : "HW"),
++		   ((u32tmp[0] & BIT(8)) ?  "SW" : "HW"),
++		   ((u32tmp[0] & BIT(14)) ? "SW" : "HW"),
++		   ((u32tmp[0] & BIT(10)) ?  "SW" : "HW"),
++		   ((u8tmp[0] & BIT(3)) ? "On" : "Off"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "GNT_WL/GNT_BT",
++		   (int)((u32tmp[1] & BIT(2)) >> 2),
++		   (int)((u32tmp[1] & BIT(3)) >> 3));
++	CL_PRINTF(cli_buf);
++
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x948);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x67);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x948/0x67[7]",
++		   u16tmp[0], (int)((u8tmp[0] & BIT(7)) >> 7));
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x964);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x864);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0xab7);
++	u8tmp[3] = btcoexist->btc_read_1byte(btcoexist, 0xa01);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x964[1]/0x864[0]/0xab7[5]/0xa01[7]",
++		   (int)((u8tmp[0] & BIT(1)) >> 1), (int)((u8tmp[1] & BIT(0))),
++		   (int)((u8tmp[2] & BIT(3)) >> 3),
++		   (int)((u8tmp[3] & BIT(7)) >> 7));
++	CL_PRINTF(cli_buf);
++
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x4c6);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0x45e);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x4c6[4]/0x40[5]/0x45e[3](TxRetry)",
++		   (int)((u8tmp[0] & BIT(4)) >> 4),
++		   (int)((u8tmp[1] & BIT(5)) >> 5),
++		   (int)((u8tmp[2] & BIT(3)) >> 3));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x953);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ %s",
++		   "0x550/0x522/4-RxAGC",
++		   u32tmp[0], u8tmp[0], (u8tmp[1] & 0x2) ? "On" : "Off");
++	CL_PRINTF(cli_buf);
++
++	fa_ofdm = btcoexist->btc_phydm_query_PHY_counter(btcoexist, PHYDM_INFO_FA_OFDM);
++	fa_cck = btcoexist->btc_phydm_query_PHY_counter(btcoexist, PHYDM_INFO_FA_CCK);
++	cca_ofdm = btcoexist->btc_phydm_query_PHY_counter(btcoexist, PHYDM_INFO_CCA_OFDM);
++	cca_cck = btcoexist->btc_phydm_query_PHY_counter(btcoexist, PHYDM_INFO_CCA_CCK);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "CCK-CCA/CCK-FA/OFDM-CCA/OFDM-FA",
++		   cca_cck, fa_cck, cca_ofdm, fa_ofdm);
++	CL_PRINTF(cli_buf);
++
++#if 1
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11n-agg",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_vht);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11n-agg",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_vht);
++	CL_PRINTF(cli_buf);
++#endif
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s/ %s",
++		   "Wifi-HiPri/ Ccklock/ CckEverLock",
++		   (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"),
++		   (coex_sta->cck_lock ? "Yes" : "No"),
++		   (coex_sta->cck_ever_lock ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(Hi-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(Lo-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8723d2ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++		coex_sta->under_lps = false;
++
++		halbtc8723d2ant_post_state_to_bt(btcoexist,
++				 BT_8723D_2ANT_SCOREBOARD_ACTIVE, false);
++
++		halbtc8723d2ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC,
++					     BT_8723D_2ANT_PHASE_WLAN_OFF);
++
++		halbtc8723d2ant_action_coex_all_off(btcoexist);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = false;
++
++		halbtc8723d2ant_post_state_to_bt(btcoexist,
++					 BT_8723D_2ANT_SCOREBOARD_ACTIVE, true);
++		halbtc8723d2ant_init_hw_config(btcoexist, false);
++		halbtc8723d2ant_init_coex_dm(btcoexist);
++		halbtc8723d2ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8723d2ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++		coex_sta->under_ips = false;
++
++		if (coex_sta->force_lps_on == true) { /* LPS No-32K */
++			/* Write WL "Active" in Score-board for PS-TDMA */
++			halbtc8723d2ant_post_state_to_bt(btcoexist,
++					 BT_8723D_2ANT_SCOREBOARD_ACTIVE, true);
++
++		} else { /* LPS-32K, need check if this h2c 0x71 can work?? (2015/08/28) */
++			/* Write WL "Non-Active" in Score-board for Native-PS */
++			halbtc8723d2ant_post_state_to_bt(btcoexist,
++				 BT_8723D_2ANT_SCOREBOARD_ACTIVE, false);
++		}
++
++
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++
++		halbtc8723d2ant_post_state_to_bt(btcoexist,
++					 BT_8723D_2ANT_SCOREBOARD_ACTIVE, true);
++	}
++}
++
++void ex_halbtc8723d2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	u32	u32tmp;
++	u8	u8tmpa, u8tmpb;
++	boolean	wifi_connected = false;
++
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	/*  this can't be removed for RF off_on event, or BT would dis-connect */
++	halbtc8723d2ant_query_bt_info(btcoexist);
++
++	if (BTC_SCAN_START == type) {
++
++		if (!wifi_connected)
++			coex_sta->wifi_is_high_pri_task = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_post_state_to_bt(btcoexist,
++					 BT_8723D_2ANT_SCOREBOARD_SCAN, true);
++		halbtc8723d2ant_post_state_to_bt(btcoexist,
++					 BT_8723D_2ANT_SCOREBOARD_ACTIVE, true);
++
++		halbtc8723d2ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC,
++					     BT_8723D_2ANT_PHASE_2G_RUNTIME);
++
++		halbtc8723d2ant_run_coexist_mechanism(btcoexist);
++
++	} else if (BTC_SCAN_FINISH == type) {
++
++		coex_sta->wifi_is_high_pri_task = false;
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify  (Scan-AP = %d)\n",
++			    coex_sta->scan_ap_num);
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_post_state_to_bt(btcoexist,
++					 BT_8723D_2ANT_SCOREBOARD_SCAN, false);
++
++		halbtc8723d2ant_run_coexist_mechanism(btcoexist);
++	}
++
++}
++
++void ex_halbtc8723d2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_ASSOCIATE_START == type) {
++
++		coex_sta->wifi_is_high_pri_task = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_post_state_to_bt(btcoexist,
++					 BT_8723D_2ANT_SCOREBOARD_ACTIVE, true);
++
++		halbtc8723d2ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC,
++					     BT_8723D_2ANT_PHASE_2G_RUNTIME);
++
++		halbtc8723d2ant_action_wifi_link_process(btcoexist);
++
++		/* To keep TDMA case during connect process,
++		to avoid changed by Btinfo and runcoexmechanism */
++		coex_sta->freeze_coexrun_by_btinfo = true;
++
++		coex_dm->arp_cnt = 0;
++
++	} else if (BTC_ASSOCIATE_FINISH == type) {
++
++		coex_sta->wifi_is_high_pri_task = false;
++		coex_sta->freeze_coexrun_by_btinfo = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_run_coexist_mechanism(btcoexist);
++	}
++}
++
++void ex_halbtc8723d2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++	u8			ap_num = 0;
++	boolean		wifi_under_b_mode = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_MEDIA_CONNECT == type) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_post_state_to_bt(btcoexist,
++					 BT_8723D_2ANT_SCOREBOARD_ACTIVE, true);
++
++		halbtc8723d2ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC,
++					     BT_8723D_2ANT_PHASE_2G_RUNTIME);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++
++		/* Set CCK Tx/Rx high Pri except 11b mode */
++		if (wifi_under_b_mode) {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x00); /* CCK Rx */
++		} else {
++
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x10); /* CCK Rx */
++		}
++
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x0); /* CCK Tx */
++		btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x0); /* CCK Rx */
++
++		halbtc8723d2ant_post_state_to_bt(btcoexist,
++				 BT_8723D_2ANT_SCOREBOARD_ACTIVE, false);
++	}
++
++
++	halbtc8723d2ant_update_wifi_channel_info(btcoexist, type);
++}
++
++void ex_halbtc8723d2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean under_4way = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (under_4way) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], specific Packet ---- under_4way!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++
++	} else if (BTC_PACKET_ARP == type) {
++
++		coex_dm->arp_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], specific Packet ARP notify -cnt = %d\n",
++			    coex_dm->arp_cnt);
++		BTC_TRACE(trace_buf);
++
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet DHCP or EAPOL notify [Type = %d]\n",
++			    type);
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	}
++
++	if (coex_sta->wifi_is_high_pri_task)
++		halbtc8723d2ant_run_coexist_mechanism(btcoexist);
++
++}
++
++void ex_halbtc8723d2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8			i, rsp_source = 0;
++	boolean		wifi_connected = false;
++
++	if (psd_scan->is_AntDet_running == true) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], bt_info_notify return for AntDet is running\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8723D_2ANT_MAX)
++		rsp_source = BT_INFO_SRC_8723D_2ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt_info[%d], len=%d, data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	coex_sta->bt_info = coex_sta->bt_info_c2h[rsp_source][1];
++	coex_sta->bt_info_ext = coex_sta->bt_info_c2h[rsp_source][4];
++	coex_sta->bt_info_ext2 = coex_sta->bt_info_c2h[rsp_source][5];
++
++	if (BT_INFO_SRC_8723D_2ANT_WIFI_FW != rsp_source) {
++
++		/* if 0xff, it means BT is under WHCK test */
++		coex_sta->bt_whck_test = ((coex_sta->bt_info == 0xff) ? true :
++					  false);
++
++		coex_sta->bt_create_connection = ((
++			coex_sta->bt_info_c2h[rsp_source][2] & 0x80) ? true :
++						  false);
++
++		/* unit: %, value-100 to translate to unit: dBm */
++		coex_sta->bt_rssi = coex_sta->bt_info_c2h[rsp_source][3] * 2 +
++				    10;
++
++		coex_sta->c2h_bt_remote_name_req = ((
++			coex_sta->bt_info_c2h[rsp_source][2] & 0x20) ? true :
++						    false);
++
++		coex_sta->is_A2DP_3M = ((coex_sta->bt_info_c2h[rsp_source][2] &
++					 0x10) ? true : false);
++
++		coex_sta->acl_busy = ((coex_sta->bt_info_c2h[rsp_source][1] &
++				       0x9) ? true : false);
++
++		coex_sta->voice_over_HOGP = ((coex_sta->bt_info_ext & 0x10) ?
++					     true : false);
++
++		coex_sta->c2h_bt_inquiry_page = ((coex_sta->bt_info &
++			  BT_INFO_8723D_2ANT_B_INQ_PAGE) ? true : false);
++
++		coex_sta->a2dp_bit_pool = (((
++			coex_sta->bt_info_c2h[rsp_source][1] & 0x49) == 0x49) ?
++				   coex_sta->bt_info_c2h[rsp_source][6] : 0);
++
++		coex_sta->bt_retry_cnt = coex_sta->bt_info_c2h[rsp_source][2] &
++					 0xf;
++
++		coex_sta->is_autoslot = coex_sta->bt_info_ext2 & 0x8;
++
++		coex_sta->forbidden_slot = coex_sta->bt_info_ext2 & 0x7;
++
++		coex_sta->hid_busy_num = (coex_sta->bt_info_ext2 & 0x30) >> 4;
++
++		coex_sta->hid_pair_cnt = (coex_sta->bt_info_ext2 & 0xc0) >> 6;
++
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++
++		if (coex_sta->c2h_bt_remote_name_req)
++			coex_sta->cnt_RemoteNameReq++;
++
++		if (coex_sta->bt_info_ext & BIT(1))
++			coex_sta->cnt_ReInit++;
++
++		if (coex_sta->bt_info_ext & BIT(2)) {
++			coex_sta->cnt_setupLink++;
++			coex_sta->is_setupLink = true;
++		} else
++			coex_sta->is_setupLink = false;
++
++		if (coex_sta->bt_info_ext & BIT(3))
++			coex_sta->cnt_IgnWlanAct++;
++
++		if (coex_sta->bt_create_connection)
++			coex_sta->cnt_Page++;
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++
++		if ((!btcoexist->manual_control) &&
++		    (!btcoexist->stop_coex_dm)) {
++
++			btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++					   &wifi_connected);
++
++			/*  Re-Init */
++			if ((coex_sta->bt_info_ext & BIT(1))) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++				BTC_TRACE(trace_buf);
++				if (wifi_connected)
++					halbtc8723d2ant_update_wifi_channel_info(
++						btcoexist, BTC_MEDIA_CONNECT);
++				else
++					halbtc8723d2ant_update_wifi_channel_info(
++						btcoexist,
++						BTC_MEDIA_DISCONNECT);
++			}
++
++
++			/*  If Ignore_WLanAct && not SetUp_Link */
++			if ((coex_sta->bt_info_ext & BIT(3)) &&
++			    (!(coex_sta->bt_info_ext & BIT(2)))) {
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8723d2ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		}
++
++	}
++
++
++	halbtc8723d2ant_update_bt_link_info(btcoexist);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), No run_coexist_mechanism for Manual CTRL\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(),  No run_coexist_mechanism for Stop Coex DM\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	halbtc8723d2ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8723d2ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RF Status notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_RF_ON == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wl_rf_off_on_event = true;
++		btcoexist->stop_coex_dm = false;
++
++		halbtc8723d2ant_post_state_to_bt(btcoexist,
++					 BT_8723D_2ANT_SCOREBOARD_ACTIVE, true);
++		halbtc8723d2ant_post_state_to_bt(btcoexist,
++					 BT_8723D_2ANT_SCOREBOARD_ONOFF, true);
++	} else if (BTC_RF_OFF == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC,
++					     BT_8723D_2ANT_PHASE_WLAN_OFF);
++
++		halbtc8723d2ant_action_coex_all_off(btcoexist);
++
++		halbtc8723d2ant_post_state_to_bt(btcoexist,
++				 BT_8723D_2ANT_SCOREBOARD_ACTIVE, false);
++		halbtc8723d2ant_post_state_to_bt(btcoexist,
++					 BT_8723D_2ANT_SCOREBOARD_ONOFF, false);
++		btcoexist->stop_coex_dm = true;
++		coex_sta->wl_rf_off_on_event = false;
++
++	}
++}
++
++void ex_halbtc8723d2ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8723d2ant_set_ant_path(btcoexist,
++				     BTC_ANT_PATH_AUTO,
++				     FORCE_EXEC,
++				     BT_8723D_2ANT_PHASE_WLAN_OFF);
++
++	ex_halbtc8723d2ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	halbtc8723d2ant_post_state_to_bt(btcoexist,
++				 BT_8723D_2ANT_SCOREBOARD_ACTIVE, false);
++	halbtc8723d2ant_post_state_to_bt(btcoexist,
++					 BT_8723D_2ANT_SCOREBOARD_ONOFF, false);
++}
++
++void ex_halbtc8723d2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if ((BTC_WIFI_PNP_SLEEP == pnp_state) ||
++	    (BTC_WIFI_PNP_SLEEP_KEEP_ANT == pnp_state)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		/* Sinda 20150819, workaround for driver skip leave IPS/LPS to speed up sleep time. */
++		/* Driver do not leave IPS/LPS when driver is going to sleep, so BTCoexistence think wifi is still under IPS/LPS */
++		/* BT should clear UnderIPS/UnderLPS state to avoid mismatch state after wakeup. */
++		coex_sta->under_ips = false;
++		coex_sta->under_lps = false;
++
++
++		halbtc8723d2ant_post_state_to_bt(btcoexist,
++				 BT_8723D_2ANT_SCOREBOARD_ACTIVE, false);
++		halbtc8723d2ant_post_state_to_bt(btcoexist,
++					 BT_8723D_2ANT_SCOREBOARD_ONOFF, false);
++
++		if (BTC_WIFI_PNP_SLEEP_KEEP_ANT == pnp_state) {
++
++			halbtc8723d2ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++						     FORCE_EXEC,
++					     BT_8723D_2ANT_PHASE_2G_RUNTIME);
++		} else {
++
++			halbtc8723d2ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++						     FORCE_EXEC,
++					     BT_8723D_2ANT_PHASE_WLAN_OFF);
++		}
++
++
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_post_state_to_bt(btcoexist,
++					 BT_8723D_2ANT_SCOREBOARD_ACTIVE, true);
++		halbtc8723d2ant_post_state_to_bt(btcoexist,
++					 BT_8723D_2ANT_SCOREBOARD_ONOFF, true);
++	}
++}
++
++void ex_halbtc8723d2ant_periodical(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ************* Periodical *************\n");
++	BTC_TRACE(trace_buf);
++
++#if (BT_AUTO_REPORT_ONLY_8723D_2ANT == 0)
++	halbtc8723d2ant_query_bt_info(btcoexist);
++#endif
++
++	halbtc8723d2ant_monitor_bt_ctr(btcoexist);
++	halbtc8723d2ant_monitor_wifi_ctr(btcoexist);
++	halbtc8723d2ant_monitor_bt_enable_disable(btcoexist);
++
++	/* for 4-way, DHCP, EAPOL packet */
++	if (coex_sta->specific_pkt_period_cnt > 0) {
++
++		coex_sta->specific_pkt_period_cnt--;
++
++		if ((coex_sta->specific_pkt_period_cnt == 0) &&
++		    (coex_sta->wifi_is_high_pri_task))
++			coex_sta->wifi_is_high_pri_task = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ***************** Hi-Pri Task = %s*****************\n",
++			    (coex_sta->wifi_is_high_pri_task ? "Yes" :
++			     "No"));
++		BTC_TRACE(trace_buf);
++
++	}
++
++	if (!coex_sta->bt_disabled) {
++		if (coex_sta->bt_coex_supported_feature == 0)
++			coex_sta->bt_coex_supported_feature =
++				btcoexist->btc_get_bt_coex_supported_feature(
++					btcoexist);
++
++		if ((coex_sta->bt_coex_supported_version == 0) ||
++			 (coex_sta->bt_coex_supported_version == 0xffff))
++			coex_sta->bt_coex_supported_version =
++				btcoexist->btc_get_bt_coex_supported_version(
++					btcoexist);
++
++		if (coex_sta->bt_reg_vendor_ac == 0xffff)
++			coex_sta->bt_reg_vendor_ac = (u16)(
++				     btcoexist->btc_get_bt_reg(btcoexist, 3,
++							     0xac) & 0xffff);
++
++		if (coex_sta->bt_reg_vendor_ae == 0xffff)
++			coex_sta->bt_reg_vendor_ae = (u16)(
++				     btcoexist->btc_get_bt_reg(btcoexist, 3,
++							     0xae) & 0xffff);
++
++#if BT_8723D_2ANT_ANTDET_ENABLE
++
++		if (board_info->btdm_ant_det_finish) {
++			if ((psd_scan->ant_det_result == 12) &&
++			    (psd_scan->ant_det_psd_scan_peak_val == 0)
++			    && (!psd_scan->is_AntDet_running))
++				psd_scan->ant_det_psd_scan_peak_val =
++					btcoexist->btc_get_ant_det_val_from_bt(
++						btcoexist) * 100;
++		}
++
++#endif
++	}
++
++
++	if (halbtc8723d2ant_is_wifibt_status_changed(btcoexist))
++		halbtc8723d2ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8723d2ant_set_antenna_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	if (btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (type == 2) { /* two antenna */
++		board_info->ant_div_cfg = true;
++
++		halbtc8723d2ant_set_ant_path(btcoexist, BTC_ANT_PATH_WIFI,
++					     FORCE_EXEC,
++					     BT_8723D_2ANT_PHASE_2G_RUNTIME);
++
++	} else { /* one antenna */
++
++		halbtc8723d2ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC,
++					     BT_8723D_2ANT_PHASE_2G_RUNTIME);
++
++	}
++}
++
++#ifdef PLATFORM_WINDOWS
++#pragma optimize("", off)
++#endif
++void ex_halbtc8723d2ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u16		u16tmp;
++	u8			AntDetval = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx Ext Call AntennaDetect()!!\n");
++	BTC_TRACE(trace_buf);
++
++#if BT_8723D_2ANT_ANTDET_ENABLE
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx Call AntennaDetect()!!\n");
++	BTC_TRACE(trace_buf);
++
++	if (seconds == 0) {
++		psd_scan->ant_det_try_count	= 0;
++		psd_scan->ant_det_fail_count	= 0;
++		ant_det_count = 0;
++		ant_det_fail_count = 0;
++		board_info->btdm_ant_det_finish = false;
++		board_info->btdm_ant_num_by_ant_det = 1;
++		return;
++	}
++
++	if (!board_info->btdm_ant_det_finish) {
++		psd_scan->ant_det_inteval_count =
++			psd_scan->ant_det_inteval_count + 2;
++
++		if (psd_scan->ant_det_inteval_count >=
++		    BT_8723D_2ANT_ANTDET_RETRY_INTERVAL) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is up, Try Detect!!\n");
++			BTC_TRACE(trace_buf);
++
++			psd_scan->is_AntDet_running = true;
++
++			halbtc8723d2ant_read_score_board(btcoexist,	&u16tmp);
++
++			if (u16tmp & BIT(
++				2)) { /* Antenna detection is already done before last WL power on   */
++				board_info->btdm_ant_det_finish = true;
++				psd_scan->ant_det_try_count = 1;
++				psd_scan->ant_det_fail_count = 0;
++				board_info->btdm_ant_num_by_ant_det = (u16tmp &
++							       BIT(3)) ? 1 : 2;
++				psd_scan->ant_det_result = 12;
++
++				psd_scan->ant_det_psd_scan_peak_val =
++					btcoexist->btc_get_ant_det_val_from_bt(
++						btcoexist) * 100;
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Result from BT (%d-Ant)\n",
++					board_info->btdm_ant_num_by_ant_det);
++				BTC_TRACE(trace_buf);
++			} else
++				board_info->btdm_ant_det_finish =
++					halbtc8723d2ant_psd_antenna_detection_check(
++						btcoexist);
++
++			btcoexist->bdontenterLPS = false;
++
++			if (board_info->btdm_ant_det_finish) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Success!!\n");
++				BTC_TRACE(trace_buf);
++
++				/*for 8723d, btc_set_bt_trx_mask is just used to
++					notify BT stop le tx and Ant Det Result , not set BT RF TRx Mask  */
++				if (psd_scan->ant_det_result != 12) {
++
++					AntDetval = (u8)(
++						psd_scan->ant_det_psd_scan_peak_val
++							    / 100) & 0x7f;
++
++					AntDetval =
++						(board_info->btdm_ant_num_by_ant_det
++						 == 1) ? (AntDetval | 0x80) :
++						AntDetval;
++
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"xxxxxx AntennaDetect(), Ant Count = %d, PSD Val = %d\n",
++						    ((AntDetval &
++						      0x80) ? 1
++						     : 2), AntDetval
++						    & 0x7f);
++					BTC_TRACE(trace_buf);
++
++					if (btcoexist->btc_set_bt_trx_mask(
++						    btcoexist, AntDetval))
++						BTC_SPRINTF(trace_buf,
++							    BT_TMP_BUF_SIZE,
++							"xxxxxx AntennaDetect(), Notify BT stop le tx by set_bt_trx_mask ok!\n");
++					else
++						BTC_SPRINTF(trace_buf,
++							    BT_TMP_BUF_SIZE,
++							"xxxxxx AntennaDetect(), Notify BT stop le tx by set_bt_trx_mask fail!\n");
++
++					BTC_TRACE(trace_buf);
++				} else
++					board_info->antdetval =
++						psd_scan->ant_det_psd_scan_peak_val/100;
++				
++				board_info->btdm_ant_det_complete_fail = false;
++
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Fail!!\n");
++				BTC_TRACE(trace_buf);
++			}
++
++			psd_scan->ant_det_inteval_count = 0;
++			psd_scan->is_AntDet_running = false;
++
++			/* stimulate coex running */
++			halbtc8723d2ant_run_coexist_mechanism(
++				btcoexist);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stimulate Coex running\n!!");
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is not up! (%d)\n",
++				    psd_scan->ant_det_inteval_count);
++			BTC_TRACE(trace_buf);
++
++			if (psd_scan->ant_det_inteval_count == 8)
++				btcoexist->bdontenterLPS = true;
++			else
++				btcoexist->bdontenterLPS = false;
++		}
++
++	}
++#endif
++
++
++}
++
++
++void ex_halbtc8723d2ant_display_ant_detection(IN struct btc_coexist *btcoexist)
++{
++
++#if BT_8723D_2ANT_ANTDET_ENABLE
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	if (psd_scan->ant_det_try_count != 0)	{
++		halbtc8723d2ant_psd_show_antenna_detect_result(btcoexist);
++
++		if (board_info->btdm_ant_det_finish)
++			halbtc8723d2ant_psd_showdata(btcoexist);
++	}
++#endif
++
++}
++
++
++#endif
++
++#endif	/*  #if (RTL8723D_SUPPORT == 1) */
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/halbtc8723d2ant.h b/drivers/net/wireless/rtl8723du/hal/btc/halbtc8723d2ant.h
+new file mode 100644
+index 0000000..efa94ca
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/halbtc8723d2ant.h
+@@ -0,0 +1,406 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8723D_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8723D 2Ant BT Co-exist definition
++ * ******************************************* */
++#define	BT_8723D_2ANT_COEX_DBG					0
++#define	BT_AUTO_REPORT_ONLY_8723D_2ANT				1
++
++
++#define	BT_INFO_8723D_2ANT_B_FTP						BIT(7)
++#define	BT_INFO_8723D_2ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8723D_2ANT_B_HID						BIT(5)
++#define	BT_INFO_8723D_2ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8723D_2ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8723D_2ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8723D_2ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8723D_2ANT_B_CONNECTION				BIT(0)
++
++#define		BTC_RSSI_COEX_THRESH_TOL_8723D_2ANT		2
++
++
++#define	BT_8723D_2ANT_WIFI_RSSI_COEXSWITCH_THRES1				80  /* unit: % WiFi RSSI Threshold for   2-Ant free-run/2-Ant TDMA translation, default = 42 */
++#define	BT_8723D_2ANT_BT_RSSI_COEXSWITCH_THRES1				80 /*  unit: % BT RSSI Threshold for      2-Ant free-run/2-Ant TDMA translation, default = 46 */
++#define	BT_8723D_2ANT_WIFI_RSSI_COEXSWITCH_THRES2				80  /* unit: % WiFi RSSI Threshold for   1-Ant TDMA/1-Ant PS-TDMA translation, default = 42 */
++#define	BT_8723D_2ANT_BT_RSSI_COEXSWITCH_THRES2				80 /*  unit: % BT RSSI Threshold for      1-Ant TDMA/1-Ant PS-TDMA translation, default = 46 */
++#define	BT_8723D_2ANT_DEFAULT_ISOLATION						15	 /*  unit: dB */
++#define   BT_8723D_2ANT_WIFI_MAX_TX_POWER						15	 /*  unit: dBm */
++#define   BT_8723D_2ANT_BT_MAX_TX_POWER							3	 /*  unit: dBm */
++#define   BT_8723D_2ANT_WIFI_SIR_THRES1							-15  /*  unit: dB */
++#define   BT_8723D_2ANT_WIFI_SIR_THRES2							-30  /*  unit: dB */
++#define   BT_8723D_2ANT_BT_SIR_THRES1							-15		 /*  unit: dB */
++#define   BT_8723D_2ANT_BT_SIR_THRES2							-30		 /*  unit: dB */
++
++
++/* for Antenna detection */
++#define	BT_8723D_2ANT_ANTDET_PSDTHRES_BACKGROUND						50
++#define	BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION				70
++#define	BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION			52
++#define	BT_8723D_2ANT_ANTDET_PSDTHRES_1ANT							40
++#define	BT_8723D_2ANT_ANTDET_RETRY_INTERVAL							10	/* retry timer if ant det is fail, unit: second */
++#define	BT_8723D_2ANT_ANTDET_SWEEPPOINT_DELAY							60000
++#define	BT_8723D_2ANT_ANTDET_ENABLE										1
++#define	BT_8723D_2ANT_ANTDET_BTTXTIME									100
++#define	BT_8723D_2ANT_ANTDET_BTTXCHANNEL								39
++#define	BT_8723D_2ANT_ANTDET_PSD_SWWEEPCOUNT						50
++
++
++#define	BT_8723D_2ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT		30000
++
++enum bt_8723d_2ant_signal_state {
++	BT_8723D_2ANT_SIG_STA_SET_TO_LOW		= 0x0,
++	BT_8723D_2ANT_SIG_STA_SET_BY_HW		= 0x0,
++	BT_8723D_2ANT_SIG_STA_SET_TO_HIGH		= 0x1,
++	BT_8723D_2ANT_SIG_STA_MAX
++};
++
++enum bt_8723d_2ant_path_ctrl_owner {
++	BT_8723D_2ANT_PCO_BTSIDE		= 0x0,
++	BT_8723D_2ANT_PCO_WLSIDE	= 0x1,
++	BT_8723D_2ANT_PCO_MAX
++};
++
++enum bt_8723d_2ant_gnt_ctrl_type {
++	BT_8723D_2ANT_GNT_TYPE_CTRL_BY_PTA		= 0x0,
++	BT_8723D_2ANT_GNT_TYPE_CTRL_BY_SW		= 0x1,
++	BT_8723D_2ANT_GNT_TYPE_MAX
++};
++
++enum bt_8723d_2ant_gnt_ctrl_block {
++	BT_8723D_2ANT_GNT_BLOCK_RFC_BB		= 0x0,
++	BT_8723D_2ANT_GNT_BLOCK_RFC			= 0x1,
++	BT_8723D_2ANT_GNT_BLOCK_BB			= 0x2,
++	BT_8723D_2ANT_GNT_BLOCK_MAX
++};
++
++enum bt_8723d_2ant_lte_coex_table_type {
++	BT_8723D_2ANT_CTT_WL_VS_LTE			= 0x0,
++	BT_8723D_2ANT_CTT_BT_VS_LTE			= 0x1,
++	BT_8723D_2ANT_CTT_MAX
++};
++
++enum bt_8723d_2ant_lte_break_table_type {
++	BT_8723D_2ANT_LBTT_WL_BREAK_LTE			= 0x0,
++	BT_8723D_2ANT_LBTT_BT_BREAK_LTE				= 0x1,
++	BT_8723D_2ANT_LBTT_LTE_BREAK_WL			= 0x2,
++	BT_8723D_2ANT_LBTT_LTE_BREAK_BT				= 0x3,
++	BT_8723D_2ANT_LBTT_MAX
++};
++
++enum bt_info_src_8723d_2ant {
++	BT_INFO_SRC_8723D_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8723D_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8723D_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8723D_2ANT_MAX
++};
++
++enum bt_8723d_2ant_bt_status {
++	BT_8723D_2ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8723D_2ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8723D_2ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8723D_2ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8723D_2ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8723D_2ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8723D_2ANT_BT_STATUS_MAX
++};
++
++enum bt_8723d_2ant_coex_algo {
++	BT_8723D_2ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8723D_2ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8723D_2ANT_COEX_ALGO_HID				= 0x2,
++	BT_8723D_2ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8723D_2ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8723D_2ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8723D_2ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8723D_2ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8723D_2ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8723D_2ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8723D_2ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8723D_2ANT_COEX_ALGO_NOPROFILEBUSY		= 0xb,
++	BT_8723D_2ANT_COEX_ALGO_MAX
++};
++
++enum bt_8723d_2ant_phase {
++	BT_8723D_2ANT_PHASE_COEX_INIT								= 0x0,
++	BT_8723D_2ANT_PHASE_WLANONLY_INIT							= 0x1,
++	BT_8723D_2ANT_PHASE_WLAN_OFF								= 0x2,
++	BT_8723D_2ANT_PHASE_2G_RUNTIME								= 0x3,
++	BT_8723D_2ANT_PHASE_5G_RUNTIME								= 0x4,
++	BT_8723D_2ANT_PHASE_BTMPMODE								= 0x5,
++	BT_8723D_2ANT_PHASE_ANTENNA_DET								= 0x6,
++	BT_8723D_2ANT_PHASE_COEX_POWERON							= 0x7,
++	BT_8723D_2ANT_PHASE_MAX
++};
++
++enum bt_8723d_2ant_Scoreboard {
++	BT_8723D_2ANT_SCOREBOARD_ACTIVE								= BIT(0),
++	BT_8723D_2ANT_SCOREBOARD_ONOFF								= BIT(1),
++	BT_8723D_2ANT_SCOREBOARD_SCAN								= BIT(2)
++};
++
++
++
++struct coex_dm_8723d_2ant {
++	/* fw mechanism */
++	u8		pre_bt_dec_pwr_lvl;
++	u8		cur_bt_dec_pwr_lvl;
++	u8		pre_fw_dac_swing_lvl;
++	u8		cur_fw_dac_swing_lvl;
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		reset_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++
++	/* sw mechanism */
++	boolean		pre_rf_rx_lpf_shrink;
++	boolean		cur_rf_rx_lpf_shrink;
++	u32		bt_rf_0x1e_backup;
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	boolean		pre_dac_swing_on;
++	u32		pre_dac_swing_lvl;
++	boolean		cur_dac_swing_on;
++	u32		cur_dac_swing_lvl;
++	boolean		pre_adc_back_off;
++	boolean		cur_adc_back_off;
++	boolean	pre_agc_table_en;
++	boolean		cur_agc_table_en;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	boolean		need_recover0x948;
++	u32		backup0x948;
++
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	boolean		is_switch_to_1dot5_ant;
++	u8		switch_thres_offset;
++	u32					arp_cnt;
++
++	u8		pre_ant_pos_type;
++	u8		cur_ant_pos_type;
++};
++
++struct coex_sta_8723d_2ant {
++	boolean				bt_disabled;
++	boolean				bt_link_exist;
++	boolean				sco_exist;
++	boolean				a2dp_exist;
++	boolean				hid_exist;
++	boolean				pan_exist;
++
++	boolean				under_lps;
++	boolean				under_ips;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	u8					bt_rssi;
++	boolean				bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean				c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8723D_2ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8723D_2ANT_MAX];
++	boolean				bt_whck_test;
++	boolean				c2h_bt_inquiry_page;
++	boolean				c2h_bt_remote_name_req;
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u8					bt_info_ext2;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_vht;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_vht;
++
++	boolean				cck_lock;
++	boolean				pre_ccklock;
++	boolean				cck_ever_lock;
++	u8					coex_table_type;
++	boolean				force_lps_on;
++
++	u8					dis_ver_info_cnt;
++
++	u8					a2dp_bit_pool;
++	u8					cut_version;
++
++	boolean				concurrent_rx_mode_on;
++
++	u16					score_board;
++	u8					isolation_btween_wb;   /* 0~ 50 */
++	u8					wifi_coex_thres;
++	u8					bt_coex_thres;
++	u8					wifi_coex_thres2;
++	u8					bt_coex_thres2;
++
++	u8					num_of_profile;
++	boolean				acl_busy;
++	boolean				wl_rf_off_on_event;
++	boolean				bt_create_connection;
++	boolean				wifi_is_high_pri_task;
++	u32					specific_pkt_period_cnt;
++	u32					bt_coex_supported_feature;
++	u32					bt_coex_supported_version;
++
++	boolean				run_time_state;
++	boolean				freeze_coexrun_by_btinfo;
++
++	boolean				is_A2DP_3M;
++	boolean				voice_over_HOGP;
++	u8                  bt_info;
++	boolean				is_autoslot;
++	u8					forbidden_slot;
++	u8					hid_busy_num;
++	u8					hid_pair_cnt;
++
++	u32					cnt_RemoteNameReq;
++	u32					cnt_setupLink;
++	u32					cnt_ReInit;
++	u32					cnt_IgnWlanAct;
++	u32					cnt_Page;
++
++	u16					bt_reg_vendor_ac;
++	u16					bt_reg_vendor_ae;
++
++	boolean				is_setupLink;
++};
++
++#define BT_8723D_2ANT_ANTDET_PSD_POINTS			256	/* MAX:1024 */
++#define BT_8723D_2ANT_ANTDET_PSD_AVGNUM		1	/* MAX:3 */
++#define BT_8723D_2ANT_ANTDET_BUF_LEN			16
++
++struct psdscan_sta_8723d_2ant {
++
++	u32			ant_det_bt_le_channel;  /* BT LE Channel ex:2412 */
++	u32			ant_det_bt_tx_time;
++	u32			ant_det_pre_psdscan_peak_val;
++	boolean			ant_det_is_ant_det_available;
++	u32			ant_det_psd_scan_peak_val;
++	boolean			ant_det_is_btreply_available;
++	u32			ant_det_psd_scan_peak_freq;
++
++	u8			ant_det_result;
++	u8			ant_det_peak_val[BT_8723D_2ANT_ANTDET_BUF_LEN];
++	u8			ant_det_peak_freq[BT_8723D_2ANT_ANTDET_BUF_LEN];
++	u32			ant_det_try_count;
++	u32			ant_det_fail_count;
++	u32			ant_det_inteval_count;
++	u32			ant_det_thres_offset;
++
++	u32			real_cent_freq;
++	s32			real_offset;
++	u32			real_span;
++
++	u32			psd_band_width;  /* unit: Hz */
++	u32			psd_point;		/* 128/256/512/1024 */
++	u32			psd_report[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_report_max_hold[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_start_point;
++	u32			psd_stop_point;
++	u32			psd_max_value_point;
++	u32			psd_max_value;
++	u32			psd_max_value2;
++	u32			psd_avg_value;   /* filter loop_max_value that below BT_8723D_1ANT_ANTDET_PSDTHRES_1ANT, and average the rest*/
++	u32			psd_loop_max_value[BT_8723D_2ANT_ANTDET_PSD_SWWEEPCOUNT];  /*max value in each loop */
++	u32			psd_start_base;
++	u32			psd_avg_num;	/* 1/8/16/32 */
++	u32			psd_gen_count;
++	boolean			is_AntDet_running;
++	boolean			is_psd_show_max_only;
++};
++
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8723d2ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d2ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8723d2ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d2ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8723d2ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8723d2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8723d2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8723d2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723d2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723d2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8723d2ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723d2ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8723d2ant_set_antenna_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723d2ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d2ant_display_coex_info(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d2ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8723d2ant_display_ant_detection(IN struct btc_coexist *btcoexist);
++
++
++#else
++#define	ex_halbtc8723d2ant_power_on_setting(btcoexist)
++#define	ex_halbtc8723d2ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8723d2ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8723d2ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8723d2ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8723d2ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8723d2ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8723d2ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8723d2ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8723d2ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8723d2ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8723d2ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8723d2ant_halt_notify(btcoexist)
++#define	ex_halbtc8723d2ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8723d2ant_periodical(btcoexist)
++#define	ex_halbtc8723d2ant_display_coex_info(btcoexist)
++#define	ex_halbtc8723d2ant_set_antenna_notify(btcoexist, type)
++#define	ex_halbtc8723d2ant_display_ant_detection(btcoexist)
++#define	ex_halbtc8723d2ant_antenna_detection(btcoexist, cent_freq, offset, span, seconds)
++#endif
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/halbtc8821c1ant.c b/drivers/net/wireless/rtl8723du/hal/btc/halbtc8821c1ant.c
+new file mode 100644
+index 0000000..3e722d4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/halbtc8821c1ant.c
+@@ -0,0 +1,5979 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8821C Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821C_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	*trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8821c_1ant		glcoex_dm_8821c_1ant;
++static struct  coex_dm_8821c_1ant	*coex_dm = &glcoex_dm_8821c_1ant;
++static struct  coex_sta_8821c_1ant		glcoex_sta_8821c_1ant;
++static struct  coex_sta_8821c_1ant	*coex_sta = &glcoex_sta_8821c_1ant;
++static struct  psdscan_sta_8821c_1ant		gl_psd_scan_8821c_1ant;
++static struct  psdscan_sta_8821c_1ant 	*psd_scan = &gl_psd_scan_8821c_1ant;
++static struct	rfe_type_8821c_1ant		gl_rfe_type_8821c_1ant;
++static struct	rfe_type_8821c_1ant		*rfe_type = &gl_rfe_type_8821c_1ant;
++
++
++const char *const glbt_info_src_8821c_1ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8821c_1ant = 20160316;
++u32	glcoex_ver_8821c_1ant = 0x00;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8821c1ant_
++ * ************************************************************ */
++u8 halbtc8821c1ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8821C_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8821C_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8821C_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8821c1ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8821C_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8821C_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8821C_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8821c1ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8821c1ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8821c1ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8821c1ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8821c1ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	switch (ra_mask_type) {
++	case 0:	/* normal mode */
++		halbtc8821c1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0);
++		break;
++	case 1:	/* disable cck 1/2 */
++		halbtc8821c1ant_update_ra_mask(btcoexist, force_exec,
++					       0x00000003);
++		break;
++	case 2:	/* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		halbtc8821c1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0001f1f7);
++		break;
++	default:
++		break;
++	}
++
++	halbtc8821c1ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8821c1ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8821c1ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++void halbtc8821c1ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8821c1ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], WL query BT info!!\n");
++	BTC_TRACE(trace_buf);
++}
++
++void halbtc8821c1ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++	static u8		num_of_bt_counter_chk = 0, cnt_slave = 0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	/* to avoid 0x76e[3] = 1 (WLAN_Act control by PTA) during IPS */
++	/* if (! (btcoexist->btc_read_1byte(btcoexist, 0x76e) & 0x8) ) */
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Hi-Pri Rx/Tx: %d/%d, Lo-Pri Rx/Tx: %d/%d\n",
++		    reg_hp_rx, reg_hp_tx, reg_lp_rx, reg_lp_tx);
++
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++
++	if ((coex_sta->low_priority_tx > 1150)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++
++	if ((coex_sta->low_priority_rx >= 1150) && (coex_sta->low_priority_rx >= coex_sta->low_priority_tx)
++	    && (!coex_sta->under_ips)  && (!coex_sta->c2h_bt_inquiry_page) && (coex_sta->bt_link_exist))	{
++		if (cnt_slave >= 3) {
++			bt_link_info->slave_role = true;
++			cnt_slave = 3;
++		} else
++			cnt_slave++;
++	} else {
++		if (cnt_slave == 0)	{
++			bt_link_info->slave_role = false;
++			cnt_slave = 0;
++		} else
++			cnt_slave--;
++
++	}
++
++	if ((coex_sta->high_priority_tx == 0) && (coex_sta->high_priority_rx == 0) && (coex_sta->low_priority_tx == 0) &&
++	    (coex_sta->low_priority_rx == 0)) {
++		num_of_bt_counter_chk++;
++		if (num_of_bt_counter_chk >= 3) {
++			halbtc8821c1ant_query_bt_info(btcoexist);
++			num_of_bt_counter_chk = 0;
++		}
++	}
++
++#if 0
++	/* Add Hi-Pri Tx/Rx counter to avoid false detection */
++	if (((coex_sta->hid_exist) || (coex_sta->sco_exist)) &&
++	    (coex_sta->high_priority_tx + coex_sta->high_priority_rx
++	     >= 160)
++	    && (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->bt_hi_pri_link_exist = true;
++	else
++		coex_sta->bt_hi_pri_link_exist = false;
++
++	if ((coex_sta->acl_busy) &&
++	    (coex_sta->num_of_profile == 0)) {
++		if (coex_sta->low_priority_tx +
++		    coex_sta->low_priority_rx >= 160) {
++			coex_sta->pan_exist = true;
++			coex_sta->num_of_profile++;
++			coex_sta->wrong_profile_notification++;
++		}
++	}
++#endif
++
++}
++
++
++
++void halbtc8821c1ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++	s32	wifi_rssi = 0;
++	boolean wifi_busy = false, wifi_under_b_mode = false;
++	static u8 cck_lock_counter = 0;
++	u32	total_cnt;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++			   &wifi_under_b_mode);
++
++	if (coex_sta->under_ips) {
++		coex_sta->crc_ok_cck = 0;
++		coex_sta->crc_ok_11g = 0;
++		coex_sta->crc_ok_11n = 0;
++		coex_sta->crc_ok_11n_agg = 0;
++
++		coex_sta->crc_err_cck = 0;
++		coex_sta->crc_err_11g = 0;
++		coex_sta->crc_err_11n = 0;
++		coex_sta->crc_err_11n_agg = 0;
++	} else {
++		coex_sta->crc_ok_cck	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf04);
++		coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf14);
++		coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf10);
++		coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					   0xf0c);
++
++		coex_sta->crc_err_cck	 = btcoexist->btc_read_2byte(btcoexist,0xf00) +  btcoexist->btc_read_2byte(btcoexist,0xf06);
++		
++		coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf16);
++		coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf12);
++		coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					    0xf0e);
++	}
++
++
++	/* reset counter */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xb58, 0x1, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xb58, 0x1, 0x0);
++
++	if ((wifi_busy) && (wifi_rssi >= 30) && (!wifi_under_b_mode)) {
++		total_cnt = coex_sta->crc_ok_cck + coex_sta->crc_ok_11g +
++			    coex_sta->crc_ok_11n +
++			    coex_sta->crc_ok_11n_agg;
++
++		if ((coex_dm->bt_status == BT_8821C_1ANT_BT_STATUS_ACL_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8821C_1ANT_BT_STATUS_ACL_SCO_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8821C_1ANT_BT_STATUS_SCO_BUSY)) {
++			if (coex_sta->crc_ok_cck > (total_cnt -
++						    coex_sta->crc_ok_cck)) {
++				if (cck_lock_counter < 3)
++					cck_lock_counter++;
++			} else {
++				if (cck_lock_counter > 0)
++					cck_lock_counter--;
++			}
++
++		} else {
++			if (cck_lock_counter > 0)
++				cck_lock_counter--;
++		}
++	} else {
++		if (cck_lock_counter > 0)
++			cck_lock_counter--;
++	}
++
++	if (!coex_sta->pre_ccklock) {
++
++		if (cck_lock_counter >= 3)
++			coex_sta->cck_lock = true;
++		else
++			coex_sta->cck_lock = false;
++	} else {
++		if (cck_lock_counter == 0)
++			coex_sta->cck_lock = false;
++		else
++			coex_sta->cck_lock = true;
++	}
++
++	if (coex_sta->cck_lock)
++		coex_sta->cck_ever_lock = true;
++
++	coex_sta->pre_ccklock =  coex_sta->cck_lock;
++
++
++}
++
++boolean halbtc8821c1ant_is_wifibt_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false, pre_bt_off = false;
++	boolean wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (coex_sta->bt_disabled != pre_bt_off) {
++		pre_bt_off = coex_sta->bt_disabled;
++
++		if (coex_sta->bt_disabled)
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++		else
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is enabled !!\n");
++
++		BTC_TRACE(trace_buf);
++
++		coex_sta->bt_coex_supported_feature = 0;
++		coex_sta->bt_coex_supported_version = 0;
++		return true;
++	}
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++	}
++
++	return false;
++}
++
++void halbtc8821c1ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++	bt_link_info->bt_hi_pri_link_exist = coex_sta->bt_hi_pri_link_exist;
++	bt_link_info->acl_busy = coex_sta->acl_busy;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++void halbtc8821c1ant_update_wifi_channel_info(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] =
++			0x1;  /* enable BT AFH skip WL channel for 8821c because BT Rx LO interference */
++		/* h2c_parameter[0] = 0x0; */
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++
++}
++
++u8 halbtc8821c1ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8821C_1ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Profile = SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8821C_1ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_1ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_1ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821C_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID + A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_1ANT_COEX_ALGO_HID_A2DP;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821C_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! BT Profile = SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8821c1ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8821c1ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8821c1ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8821c1ant_set_fw_low_penalty_ra(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8821c1ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8821c1ant_set_fw_low_penalty_ra(btcoexist,
++					      coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8821c1ant_sw_mechanism(IN struct btc_coexist *btcoexist,
++				  IN boolean low_penalty_ra)
++{
++	halbtc8821c1ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8821c1ant_write_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	u16				bitpos,
++	IN	BOOLEAN		state
++)
++{
++
++	static u16 originalval = 0x8002;
++
++	if (state)
++		originalval = originalval | bitpos;
++	else
++		originalval = originalval & (~bitpos);
++
++	btcoexist->btc_write_2byte(btcoexist, 0xaa, originalval);
++}
++
++void halbtc8821c1ant_read_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN   u16				*score_board_val
++)
++{
++
++	*score_board_val = (btcoexist->btc_read_2byte(btcoexist,
++			    0xaa)) & 0x7fff;
++}
++
++void halbtc8821c1ant_post_activestate_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_active
++)
++{
++
++	if (wifi_active)
++		halbtc8821c1ant_write_score_board(btcoexist, (u16) BIT(0), TRUE);
++	else
++		halbtc8821c1ant_write_score_board(btcoexist, (u16) BIT(0), FALSE);		
++}
++
++
++void halbtc8821c1ant_post_onoffstate_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_on
++)
++{
++
++	if (wifi_on)
++		halbtc8821c1ant_write_score_board(btcoexist, (u16) BIT(1), TRUE);
++	else
++		halbtc8821c1ant_write_score_board(btcoexist, (u16) BIT(1), FALSE);
++}
++
++void halbtc8821c1ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++	u16			u16tmp;
++
++	/* This function check if bt is disabled */
++#if 0
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++
++
++#else
++
++	/* Read BT on/off status from scoreboard[1], enable this only if BT patch support this feature */
++	halbtc8821c1ant_read_score_board(btcoexist,	&u16tmp);
++
++	bt_active = u16tmp & BIT(1);
++
++
++#endif
++
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	} else {
++
++		bt_disable_cnt++;
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			bt_disable_cnt = 2;
++		}
++
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	}
++
++
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++	}
++
++}
++
++void halbtc8821c1ant_enable_gnt_to_gpio(IN struct btc_coexist *btcoexist,
++					boolean isenable)
++{
++	static u8 			bitVal[5] = {0,0,0,0,0};
++	static boolean 		state = false;
++
++	if (state ==isenable)
++		return;
++	else
++		state = isenable;
++
++	if (isenable) {
++
++		/* enable GNT_WL, GNT_BT to GPIO for debug  */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x1);
++
++		/* store original value  */
++		bitVal[0] = (btcoexist->btc_read_1byte(btcoexist, 0x66) & BIT(4)) >>4;	/*0x66[4] */
++		bitVal[1] = (btcoexist->btc_read_1byte(btcoexist, 0x67) & BIT(0));		/*0x66[8] */
++		bitVal[2] = (btcoexist->btc_read_1byte(btcoexist, 0x42) & BIT(3)) >> 3;  /*0x40[19] */
++		bitVal[3] = (btcoexist->btc_read_1byte(btcoexist, 0x65) & BIT(7)) >> 7;  /*0x64[15] */
++		bitVal[4] = (btcoexist->btc_read_1byte(btcoexist, 0x72) & BIT(2)) >> 2;  /*0x70[18] */
++
++		/*  switch GPIO Mux */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x66, BIT(4), 0x0);  /*0x66[4] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, BIT(0), 0x0);  /*0x66[8] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x42, BIT(3), 0x0);  /*0x40[19] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x65, BIT(7), 0x0);  /*0x64[15] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x72, BIT(2), 0x0);  /*0x70[18] = 0 */
++		
++
++	} else {
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x0);
++
++		/*  Restore original value   */
++		/*  switch GPIO Mux */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x66, BIT(4), bitVal[0]);  /*0x66[4] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, BIT(0), bitVal[1]);  /*0x66[8] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x42, BIT(3), bitVal[2]);  /*0x40[19] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x65, BIT(7), bitVal[3]);  /*0x64[15] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x72, BIT(2), bitVal[4]);  /*0x70[18] = 0 */
++	}
++
++}
++
++u32 halbtc8821c1ant_ltecoex_indirect_read_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr)
++{
++	u32 j = 0;
++
++
++	/* wait for ready bit before access 0x1700		 */
++	btcoexist->btc_write_4byte(btcoexist, 0x1700, 0x800F0000 | reg_addr);
++
++	do {
++		j++;
++	} while (((btcoexist->btc_read_1byte(btcoexist,
++					     0x1703)&BIT(5)) == 0) &&
++		 (j < BT_8821C_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++	return btcoexist->btc_read_4byte(btcoexist,
++					 0x1708);  /* get read data */
++
++}
++
++void halbtc8821c1ant_ltecoex_indirect_write_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr, IN u32 bit_mask, IN u32 reg_value)
++{
++	u32 val, i = 0, j = 0, bitpos = 0;
++
++
++	if (bit_mask == 0x0)
++		return;
++	if (bit_mask == 0xffffffff) {
++		btcoexist->btc_write_4byte(btcoexist, 0x1704,
++					   reg_value); /* put write data */
++
++		/* wait for ready bit before access 0x1700 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x1703)&BIT(5)) == 0) &&
++			(j < BT_8821C_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x1700,
++					   0xc00F0000 | reg_addr);
++	} else {
++		for (i = 0; i <= 31; i++) {
++			if (((bit_mask >> i) & 0x1) == 0x1) {
++				bitpos = i;
++				break;
++			}
++		}
++
++		/* read back register value before write */
++		val = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist,
++				reg_addr);
++		val = (val & (~bit_mask)) | (reg_value << bitpos);
++
++		btcoexist->btc_write_4byte(btcoexist, 0x1704,
++					   val); /* put write data */
++
++		/* wait for ready bit before access 0x1700		 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x1703)&BIT(5)) == 0) &&
++			(j < BT_8821C_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x1700,
++					   0xc00F0000 | reg_addr);
++
++	}
++
++}
++
++void halbtc8821c1ant_ltecoex_enable(IN struct btc_coexist *btcoexist,
++				    IN boolean enable)
++{
++	u8 val;
++
++	val = (enable) ? 1 : 0;
++	halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist, 0x38, 0x80,
++			val);  /* 0x38[7] */
++
++}
++
++void halbtc8821c1ant_ltecoex_pathcontrol_owner(IN struct btc_coexist *btcoexist,
++		IN boolean wifi_control)
++{
++	u8 val;
++
++	val = (wifi_control) ? 1 : 0;
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x4,
++					   val); /* 0x70[26] */
++
++}
++
++void halbtc8821c1ant_ltecoex_set_gnt_bt(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8821C_1ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0xc000;
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		bit_mask = 0x0c00;
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10]						 */
++		break;
++	case BT_8821C_1ANT_GNT_BLOCK_RFC:
++		bit_mask = 0xc000;
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		break;
++	case BT_8821C_1ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0c00;
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10] */
++		break;
++
++	}
++
++}
++
++void halbtc8821c1ant_ltecoex_set_gnt_wl(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8821C_1ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0x3000;
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		bit_mask = 0x0300;
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8]						 */
++		break;
++	case BT_8821C_1ANT_GNT_BLOCK_RFC:
++		bit_mask = 0x3000;
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		break;
++	case BT_8821C_1ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0300;
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8] */
++		break;
++
++	}
++
++}
++
++void halbtc8821c1ant_ltecoex_set_coex_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u16 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8821C_1ANT_CTT_WL_VS_LTE:
++		reg_addr = 0xa0;
++		break;
++	case BT_8821C_1ANT_CTT_BT_VS_LTE:
++		reg_addr = 0xa4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xffff, table_content); /* 0xa0[15:0] or 0xa4[15:0] */
++
++
++}
++
++
++void halbtc8821c1ant_ltecoex_set_break_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u8 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8821C_1ANT_LBTT_WL_BREAK_LTE:
++		reg_addr = 0xa8;
++		break;
++	case BT_8821C_1ANT_LBTT_BT_BREAK_LTE:
++		reg_addr = 0xac;
++		break;
++	case BT_8821C_1ANT_LBTT_LTE_BREAK_WL:
++		reg_addr = 0xb0;
++		break;
++	case BT_8821C_1ANT_LBTT_LTE_BREAK_BT:
++		reg_addr = 0xb4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xff, table_content); /* 0xa8[15:0] or 0xb4[15:0] */
++
++
++}
++
++void halbtc8821c1ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8821c1ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++
++	halbtc8821c1ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8821c1ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	u32	break_table;
++	u8	select_table;
++
++	coex_sta->coex_table_type = type;
++
++	if (coex_sta->concurrent_rx_mode_on == true) {
++		break_table = 0xf0ffffff;  /* set WL hi-pri can break BT */
++		select_table =
++			0xb;		/* set Tx response = Hi-Pri (ex: Transmitting ACK,BA,CTS) */
++	} else {
++		break_table = 0xffffff;
++		select_table = 0x3;
++	}
++
++	switch (type) {
++	case 0:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0x55555555, break_table,
++					   select_table);
++		break;
++	case 1:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0x5a5a5a5a, break_table,
++					   select_table);
++		break;
++	case 2:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0xaa5a5a5a, 0xaa5a5a5a, break_table,
++					   select_table);
++		break;
++	case 3:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0xaa555555, 0xaa5a5a5a, break_table,
++					   select_table);
++		break;
++	case 4:
++		halbtc8821c1ant_coex_table(btcoexist,
++					   force_exec, 0xaa555555, 0xaa5a5a5a,
++					   break_table, select_table);
++		break;
++	case 5:
++		halbtc8821c1ant_coex_table(btcoexist,
++					   force_exec, 0x5a5a5a5a, 0x5a5a5a5a,
++					   break_table, select_table);
++		break;
++	case 6:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 7:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0xaaaaaaaa, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 8:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 9:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 10:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 11:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 12:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 13:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x5fff5fff, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 14:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x5fff5fff, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 15:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8821c1ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8821c1ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8821c1ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8821c1ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8821c1ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8821c1ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8821c1ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++	u8	h2c_parameter[5] = {0x8, 0, 0, 0, 0};
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			/*halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8); */
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			/*halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);*/
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8821c1ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		coex_sta->force_lps_on = false;
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++
++		break;
++	case BTC_PS_LPS_ON:
++		coex_sta->force_lps_on = true;
++		halbtc8821c1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8821c1ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++
++		break;
++	case BTC_PS_LPS_OFF:
++		coex_sta->force_lps_on = false;
++		halbtc8821c1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++
++		break;
++	default:
++		break;
++	}
++}
++
++
++void halbtc8821c1ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], FW for 1Ant AP mode\n");
++			BTC_TRACE(trace_buf);
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++
++			halbtc8821c1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++							 0x0);
++		}
++	} else if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++
++		halbtc8821c1ant_power_save_state(
++			btcoexist, BTC_PS_LPS_ON, 0x50,
++			0x4);
++	} else {
++		halbtc8821c1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++						 0x0);
++	}
++
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++
++void halbtc8821c1ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	boolean			wifi_busy = false;
++	static u8			psTdmaByte4Modify = 0x0, pre_psTdmaByte4Modify = 0x0;
++	static boolean	 pre_wifi_busy = false;
++
++
++#if BT_8821C_1ANT_ANTDET_ENABLE
++#if BT_8821C_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE
++	if (board_info->btdm_ant_num_by_ant_det == 2) {
++		if (turn_on)
++			type = type +
++			       100; /* for WiFi RSSI low or BT RSSI low */
++	}
++
++#endif
++#endif
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (wifi_busy != pre_wifi_busy) {
++		force_exec = true;
++		pre_wifi_busy = wifi_busy;
++	}
++
++	/* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++	if ((bt_link_info->slave_role) && (bt_link_info->a2dp_exist))
++		psTdmaByte4Modify = 0x1;
++	else
++		psTdmaByte4Modify = 0x0;
++
++	if (pre_psTdmaByte4Modify != psTdmaByte4Modify) {
++
++		force_exec = true;
++		pre_psTdmaByte4Modify = psTdmaByte4Modify;
++	}
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++
++	if (coex_dm->cur_ps_tdma_on) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(on, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(off, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	}
++
++
++	if (turn_on) {
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++		
++		switch (type) {
++		default:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x35, 0x03, 0x11, 0x11);
++			break;
++
++		case 3:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x3a, 0x03, 0x10, 0x10);
++			break;
++		case 4:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x21, 0x03, 0x10, 0x10);
++			break;
++		case 5:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x15, 0x03, 0x11, 0x11);
++			break;
++		case 6:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x20, 0x03, 0x11, 0x11);
++			break;
++		case 7:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x10, 0x03, 0x10,  0x14 | psTdmaByte4Modify);
++			break;
++		case 8:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x10, 0x03, 0x10,  0x14 | psTdmaByte4Modify);
++			break;
++		case 13:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x25, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 14:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x15, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 15:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x20, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 17:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0x61, 0x10, 0x03, 0x11,  0x14 | psTdmaByte4Modify);
++			break;;
++		case 19:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x15, 0x03, 0x11, 0x10);
++			break;
++		case 20:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x30, 0x03, 0x11, 0x10);
++			break;
++		case 21:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x30, 0x03, 0x11, 0x10);
++			break;
++		case 22:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x25, 0x03, 0x11, 0x10);
++			break;
++		case 32:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x35, 0x03, 0x11, 0x11);
++			break;
++		case 33:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x35, 0x03, 0x11, 0x10);
++			break;
++
++		/*     1-Ant to 2-Ant      TDMA case */
++		case 103:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xd3, 0x3a, 0x03, 0x70, 0x10);
++			break;
++		case 104:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xd3, 0x21, 0x03, 0x70, 0x10);
++			break;
++		case 105:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x15, 0x03, 0x71, 0x11);
++			break;
++		case 106:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x20, 0x03, 0x71, 0x11);
++			break;
++		case 107:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0xd3, 0x10, 0x03, 0x70,  0x14 | psTdmaByte4Modify);
++			break;
++		case 108:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0xd3, 0x10, 0x03, 0x70,  0x14 | psTdmaByte4Modify);
++			break;
++		case 113:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0xd3, 0x25, 0x03, 0x70,  0x10 | psTdmaByte4Modify);
++			break;
++		case 114:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0xd3, 0x15, 0x03, 0x70,  0x10 | psTdmaByte4Modify);
++			break;
++		case 115:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0xd3, 0x20, 0x03, 0x70,  0x10 | psTdmaByte4Modify);
++			break;
++		case 117:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0xe3, 0x10, 0x03, 0x71,  0x14 | psTdmaByte4Modify);
++			break;;
++		case 119:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x15, 0x03, 0x71, 0x10);
++			break;
++		case 120:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x30, 0x03, 0x71, 0x10);
++			break;
++		case 121:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x30, 0x03, 0x71, 0x10);
++			break;
++		case 122:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x25, 0x03, 0x71, 0x10);
++			break;
++		case 132:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x35, 0x03, 0x71, 0x11);
++			break;
++		case 133:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x35, 0x03, 0x71, 0x10);
++			break;
++
++		}
++	} else {
++
++		/* disable PS tdma */
++		switch (type) {
++		case 8: /* PTA Control */
++			halbtc8821c1ant_set_fw_pstdma(btcoexist, 0x8,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 0:
++		default:  /* Software control, Antenna at BT side */
++			halbtc8821c1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 1: /* 2-Ant, 0x778=3, antenna control by antenna diversity */
++			halbtc8821c1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x48, 0x0);
++			break;
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8821c1ant_set_int_block(IN struct btc_coexist *btcoexist, IN boolean force_exec,  IN u8 pos_type)
++{
++	u8		regval_0xcba;
++	u32		u32tmp1 = 0;
++
++	 coex_dm->cur_int_block_status = pos_type;
++	 	
++	if (!force_exec) {
++		if (coex_dm->pre_int_block_status == coex_dm->cur_int_block_status)
++			return;	
++	} 
++
++	coex_dm->pre_int_block_status = coex_dm->cur_int_block_status;
++
++	regval_0xcba =  btcoexist->btc_read_1byte(btcoexist, 0xcba);
++
++	switch(pos_type){
++
++		case BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLG_OF_BTG:
++			regval_0xcba =  regval_0xcba & (~(BIT(2)) ) | BIT(0);  			/* 0xcb8[16] = 1, 0xcb8[18] = 0, WL_G select BTG */
++			break;
++		case BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG:
++			regval_0xcba =   regval_0xcba & (~(BIT(2) | BIT(0)) );   		/* 0xcb8[16] = 0, 0xcb8[18] = 0, WL_G select WLAG */
++			regval_0xcba =   regval_0xcba | BIT(4) | BIT(5) ;  				/* 0xcb8[21:20] = 2b'11, WL_G @ WLAG on */
++			regval_0xcba =    regval_0xcba & (~(BIT(7)) ) | BIT(6);		/* 0xcb8[23:22] = 2b'01, WL_A @ WLAG off */
++			
++			break;
++		case BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLA_OF_WLAG:
++			regval_0xcba =   regval_0xcba & (~(BIT(2) | BIT(0)) );    		/* 0xcb8[16] = 0, 0xcb8[18] = 0, WL_G select WLAG */
++			regval_0xcba =   regval_0xcba & (~(BIT(5))) | BIT(4);			/* 0xcb8[21:20] = 2b'01, WL_G @ WLAG off */
++			regval_0xcba =   regval_0xcba | BIT(6) | BIT(7);  	 	  		/* 0xcb8[23:22] = 2b'11, WL_A @ WLAG on */
++			
++			break;
++	}
++
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcba, 0xff, regval_0xcba);
++
++	u32tmp1 = btcoexist->btc_read_4byte(btcoexist, 0xcb8);
++			
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (After Int Block setup) 0xcb8 = 0x%08x **********\n",
++		    u32tmp1);
++	BTC_TRACE(trace_buf);
++
++}
++
++void halbtc8821c1ant_set_ext_band_switch(IN struct btc_coexist *btcoexist, IN boolean force_exec, IN u8 pos_type)
++{
++
++#if 0
++	boolean	switch_polatiry_inverse = false;
++	u8		regval_0xcb6; 
++	u32		u32tmp1 = 0, u32tmp2 = 0;
++	
++	if (!rfe_type->ext_band_switch_exist)
++		return;	
++
++	 coex_dm->cur_ext_band_switch_status = pos_type;
++	 	
++	if (!force_exec) {
++		if (coex_dm->pre_ext_band_switch_status == coex_dm->cur_ext_band_switch_status)
++			return;	
++	} 
++
++	coex_dm->pre_ext_band_switch_status = coex_dm->cur_ext_band_switch_status;
++
++	/* swap control polarity if use different switch control polarity*/
++	switch_polatiry_inverse = (rfe_type->ext_band_switch_ctrl_polarity == 1? ~switch_polatiry_inverse: switch_polatiry_inverse); 
++
++	/*swap control polarity for WL_A, default polarity 0xcb4[21] = 0 && 0xcb4[23] = 1 is for WL_G */
++	switch_polatiry_inverse =  (pos_type == BT_8821C_1ANT_EXT_BAND_SWITCH_TO_WLA? ~switch_polatiry_inverse: switch_polatiry_inverse); 
++
++	regval_0xcb6 =  btcoexist->btc_read_1byte(btcoexist, 0xcb6);
++
++	/* for normal switch polrity, 0xcb4[21] =1 && 0xcb4[23] = 0 for WL_A, vice versa  */
++	regval_0xcb6 = (switch_polatiry_inverse == 1? ( (regval_0xcb6 & (~(BIT(7))) ) | BIT(5)) : ( (regval_0xcb6 & (~(BIT(5))) ) | BIT(7)) ); 
++	
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb6, 0xff, regval_0xcb6);	
++
++	u32tmp1 = btcoexist->btc_read_4byte(btcoexist, 0xcb0);
++	u32tmp2 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++			
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (After Ext Band switch setup) 0xcb0 = 0x%08x, 0xcb4 = 0x%08x**********\n",
++		    u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++#endif	
++
++}
++
++void halbtc8821c1ant_set_ext_ant_switch(IN struct btc_coexist *btcoexist, IN boolean force_exec, IN u8 ctrl_type, IN u8 pos_type)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	boolean	switch_polatiry_inverse = false;
++	u8		regval_0xcb7 = 0, regval_0x64;
++	u32		u32tmp1 = 0, u32tmp2 = 0, u32tmp3 = 0;
++	
++	if (!rfe_type->ext_ant_switch_exist)
++		return;	
++
++	 coex_dm->cur_ext_ant_switch_status = (ctrl_type << 8)  + pos_type;
++	 	
++	if (!force_exec) {
++		if (coex_dm->pre_ext_ant_switch_status == coex_dm->cur_ext_ant_switch_status)
++			return;	
++	} 
++
++	coex_dm->pre_ext_ant_switch_status = coex_dm->cur_ext_ant_switch_status;
++
++	/* swap control polarity if use different switch control polarity*/
++	/*  Normal switch polarity for DPDT, 0xcb4[29:28] = 2b'01 => BTG to Main, WLG to Aux,  0xcb4[29:28] = 2b'10 => BTG to Aux, WLG to Main */
++	/*  Normal switch polarity for SPDT, 0xcb4[29:28] = 2b'01 => Ant to BTG,  0xcb4[29:28] = 2b'10 => Ant to WLG */
++	switch_polatiry_inverse = (rfe_type->ext_ant_switch_ctrl_polarity == 1? ~switch_polatiry_inverse: switch_polatiry_inverse); 
++
++	/* swap control polarity if 1-Ant at Aux  */
++	if ( (rfe_type->ext_ant_switch_type == BT_8821C_1ANT_EXT_ANT_SWITCH_USE_DPDT) && (board_info->single_ant_path == 0) ) 
++		switch_polatiry_inverse =  ~switch_polatiry_inverse;
++	
++	switch(pos_type)
++	{	
++		default:
++		case BT_8821C_1ANT_EXT_ANT_SWITCH_TO_BT:
++		case BT_8821C_1ANT_EXT_ANT_SWITCH_TO_NOCARE:
++			
++			break;
++		case BT_8821C_1ANT_EXT_ANT_SWITCH_TO_WLG:
++			switch_polatiry_inverse =  (rfe_type->wlg_Locate_at_btg == 0?  ~switch_polatiry_inverse: switch_polatiry_inverse);
++			break;
++		case BT_8821C_1ANT_EXT_ANT_SWITCH_TO_WLA:
++			/*switch_polatiry_inverse =  (rfe_type->ext_band_switch_exist == 1?  ~switch_polatiry_inverse: switch_polatiry_inverse);*/
++			break;
++	}
++	
++
++	switch(ctrl_type)
++	{
++		default:
++		case BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /*  0x4c[23] = 0 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x1);  /* 0x4c[24] = 1  */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb4, 0xff, 0x77);	/* BB SW, DPDT use RFE_ctrl8 and RFE_ctrl9 as cotrol pin */
++
++			regval_0xcb7 = (switch_polatiry_inverse == false?  0x1 : 0x2);     /* 0xcb4[29:28] = 2b'01 for no switch_polatiry_inverse, DPDT_SEL_N =1, DPDT_SEL_P =0   */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb7, 0x30, regval_0xcb7);
++
++			break;
++		case BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_PTA:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /* 0x4c[23] = 0 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x1);  /* 0x4c[24] = 1 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb4, 0xff, 0x66);	/* PTA,  DPDT use RFE_ctrl8 and RFE_ctrl9 as cotrol pin */
++
++			regval_0xcb7 = (switch_polatiry_inverse == false?  0x2 : 0x1);     /* 0xcb4[29:28] = 2b'10 for no switch_polatiry_inverse, DPDT_SEL_N =1, DPDT_SEL_P =0  @ GNT_BT=1  */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb7, 0x30, regval_0xcb7);
++			
++			break;
++		case BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_ANTDIV:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /* 0x4c[23] = 0 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x1);  /* 0x4c[24] = 1 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb4, 0xff, 0x88);  /* */
++
++			/* no regval_0xcb7 setup required, because  antenna switch control value by antenna diversity */
++
++			break;
++		case BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_MAC:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x1);  /*  0x4c[23] = 1 */
++
++			regval_0x64 = (switch_polatiry_inverse == false?  0x0 : 0x1);     /* 0x64[0] = 1b'0 for no switch_polatiry_inverse, DPDT_SEL_N =1, DPDT_SEL_P =0 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x64, 0x1, regval_0x64);
++			break;
++		case BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_BT:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /* 0x4c[23] = 0  */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x0);  /* 0x4c[24] = 0  */
++
++			/* no  setup required, because  antenna switch control value by BT vendor 0xac[1:0]  */
++			break;
++	}
++
++		u32tmp1 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++		u32tmp2 = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0x64) & 0xff;
++			
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (After Ext Ant switch setup) 0xcb4 = 0x%08x, 0x4c = 0x%08x, 0x64= 0x%02x**********\n",
++		    u32tmp1, u32tmp2, u32tmp3);
++		BTC_TRACE(trace_buf);
++
++
++}
++
++void halbtc8821c1ant_set_rfe_type(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++
++#if 0
++	rfe_type->ext_band_switch_exist = false;
++	rfe_type->ext_band_switch_type = BT_8821C_1ANT_EXT_BAND_SWITCH_USE_SPDT;     // SPDT;
++	rfe_type->ext_band_switch_ctrl_polarity = 0;
++
++	if (rfe_type->ext_band_switch_exist) {
++
++		/* band switch use RFE_ctrl1 (pin name: PAPE_A) and RFE_ctrl3 (pin name: LNAON_A)  */
++
++		/* set RFE_ctrl1 as software control  */		
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb0, 0xf0, 0x7);
++
++		/* set RFE_ctrl3 as software control  */	
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb1, 0xf0, 0x7);
++
++		}
++#endif
++
++	/* the following setup should be got from Efuse in the future */
++	rfe_type->rfe_module_type = board_info->rfe_type;
++	
++	rfe_type->ext_ant_switch_ctrl_polarity = 0;
++	rfe_type->ext_ant_switch_diversity = false;
++
++	switch(rfe_type->rfe_module_type)
++	{
++		case 0:
++		default:	
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_DPDT;          /*2-Ant, DPDT, WLG*/
++			rfe_type->wlg_Locate_at_btg = false;
++			rfe_type->ext_ant_switch_diversity = true;
++			break;
++		case 1:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_SPDT;          /*1-Ant, Main, DPDT or SPDT, WLG   */
++			rfe_type->wlg_Locate_at_btg = false;
++			break;
++		case 2:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_SPDT;            /*1-Ant, Main, DPDT or SPDT, BTG   */
++			rfe_type->wlg_Locate_at_btg = true;
++			break;	
++		case 3:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_DPDT;          /*1-Ant, Aux, DPDT, WLG   */
++			rfe_type->wlg_Locate_at_btg = false;
++			break;
++		case 4:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_DPDT;          /*1-Ant, Aux, DPDT, BTG   */;
++			rfe_type->wlg_Locate_at_btg = true;
++			break;	
++		case 5:
++			rfe_type->ext_ant_switch_exist = false;										 /*2-Ant, no antenna switch, WLG*/
++			rfe_type->wlg_Locate_at_btg = false;	
++
++	}
++
++
++	if (rfe_type->wlg_Locate_at_btg) 
++		halbtc8821c1ant_set_int_block(btcoexist, FORCE_EXEC, BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLG_OF_BTG);
++	else
++		halbtc8821c1ant_set_int_block(btcoexist, FORCE_EXEC, BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG);
++
++	
++}
++
++
++void halbtc8821c1ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean force_exec,
++	  IN u8 phase  )
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++	u32			cnt_bt_cal_chk = 0;
++	boolean			is_in_mp_mode = false;
++	u8			u8tmp = 0;
++	u32			u32tmp1 = 0, u32tmp2 = 0, u32tmp3 = 0;
++	u16			u16tmp1 = 0;
++
++#if BT_8821C_1ANT_ANTDET_ENABLE
++#if BT_8821C_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE
++	if (ant_pos_type == BTC_ANT_PATH_PTA) {
++		if ((board_info->btdm_ant_det_finish) &&
++		    (board_info->btdm_ant_num_by_ant_det == 2)) {
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT)
++				ant_pos_type = BTC_ANT_PATH_WIFI;
++			else
++				ant_pos_type = BTC_ANT_PATH_BT;
++		}
++	}
++#endif
++#endif
++
++	 coex_dm->cur_ant_pos_type = (ant_pos_type << 8)  + phase;
++
++	if (!force_exec) {
++		if (coex_dm->cur_ant_pos_type == coex_dm->pre_ant_pos_type)
++			return;	
++	} 
++	
++	coex_dm->pre_ant_pos_type = coex_dm->cur_ant_pos_type;
++
++#if 1
++	u32tmp1 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist,
++			0x38);
++	u32tmp2 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist,
++			0x54);
++	u8tmp  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Before Ant Setup) 0xcb4 = 0x%x, 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++		    u32tmp3, u8tmp, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++#endif
++
++
++	switch (phase)
++	{
++		case BT_8821C_1ANT_PHASE_COEX_INIT:
++				/* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++				halbtc8821c1ant_ltecoex_enable(btcoexist, 0x0);
++
++				/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++				halbtc8821c1ant_ltecoex_set_coex_table(btcoexist,
++									       BT_8821C_1ANT_CTT_WL_VS_LTE, 0xffff);
++
++				/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++				halbtc8821c1ant_ltecoex_set_coex_table(btcoexist,
++						       BT_8821C_1ANT_CTT_BT_VS_LTE, 0xffff);
++
++				/* Wait If BT IQK running, because Path control owner is at BT during BT IQK (setup by WiFi firmware) */
++				while (cnt_bt_cal_chk <= 20) {
++							u8tmp = btcoexist->btc_read_1byte(btcoexist,
++														  0x49d);
++							cnt_bt_cal_chk++;
++							if (u8tmp & BIT(0)) {
++										BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++										"[BTCoex], ########### BT is calibrating (wait cnt=%d) ###########\n",
++				 	 				      cnt_bt_cal_chk);
++										BTC_TRACE(trace_buf);
++										delay_ms(50);
++							} else {
++										BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++											"[BTCoex], ********** BT is NOT calibrating (wait cnt=%d)**********\n",
++					    											cnt_bt_cal_chk);
++										BTC_TRACE(trace_buf);
++										break;
++							}
++				}
++
++				/* set Path control owner to WL at initial step */
++				halbtc8821c1ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8821C_1ANT_PCO_WLSIDE);
++
++				/* set GNT_BT to SW high */
++				halbtc8821c1ant_ltecoex_set_gnt_bt(btcoexist,
++							BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					   		BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++							BT_8821C_1ANT_SIG_STA_SET_TO_HIGH);
++				/* Set GNT_WL to SW low */
++				halbtc8821c1ant_ltecoex_set_gnt_wl(btcoexist,
++						      BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					  	      BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++						      BT_8821C_1ANT_SIG_STA_SET_TO_LOW);
++
++				coex_sta->run_time_state = false;
++
++				if (BTC_ANT_PATH_AUTO == ant_pos_type)
++					ant_pos_type = BTC_ANT_PATH_BT;
++
++			break;
++		case BT_8821C_1ANT_PHASE_WLANONLY_INIT:
++  			      /* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++				halbtc8821c1ant_ltecoex_enable(btcoexist, 0x0);
++
++				/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++				halbtc8821c1ant_ltecoex_set_coex_table(btcoexist,
++									       BT_8821C_1ANT_CTT_WL_VS_LTE, 0xffff);
++
++				/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++				halbtc8821c1ant_ltecoex_set_coex_table(btcoexist,
++						       BT_8821C_1ANT_CTT_BT_VS_LTE, 0xffff);				
++
++				/* set Path control owner to WL at initial step */
++				halbtc8821c1ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8821C_1ANT_PCO_WLSIDE);
++
++				/* set GNT_BT to SW Low */
++				halbtc8821c1ant_ltecoex_set_gnt_bt(btcoexist,
++							BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					   		BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++							BT_8821C_1ANT_SIG_STA_SET_TO_LOW);
++				/* Set GNT_WL to SW high */
++				halbtc8821c1ant_ltecoex_set_gnt_wl(btcoexist,
++						      BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					  	      BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++						      BT_8821C_1ANT_SIG_STA_SET_TO_HIGH);
++
++				coex_sta->run_time_state = false;
++
++				if (BTC_ANT_PATH_AUTO == ant_pos_type)
++					ant_pos_type = BTC_ANT_PATH_WIFI;
++
++			break;
++		case BT_8821C_1ANT_PHASE_WLAN_OFF:
++				/* Disable LTE Coex Function in WiFi side */
++				halbtc8821c1ant_ltecoex_enable(btcoexist, 0x0);
++
++				/* set Path control owner to BT */
++				halbtc8821c1ant_ltecoex_pathcontrol_owner(btcoexist,
++						BT_8821C_1ANT_PCO_BTSIDE);
++
++				/* Set Ext Ant Switch to BT control at wifi off step  */
++				halbtc8821c1ant_set_ext_ant_switch(btcoexist, 
++						   FORCE_EXEC, 
++						   BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_BT, 
++					   	   BT_8821C_1ANT_EXT_ANT_SWITCH_TO_NOCARE);
++				
++				coex_sta->run_time_state = false;
++			break;
++		case BT_8821C_1ANT_PHASE_2G_RUNTIME:
++
++				/* set Path control owner to WL at runtime step */
++				halbtc8821c1ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8821C_1ANT_PCO_WLSIDE);
++	
++				/* set GNT_BT to PTA */
++				halbtc8821c1ant_ltecoex_set_gnt_bt(btcoexist,
++				  		    BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					   		BT_8821C_1ANT_GNT_TYPE_CTRL_BY_PTA,
++					   		BT_8821C_1ANT_SIG_STA_SET_BY_HW);
++
++				if (rfe_type->wlg_Locate_at_btg)  /* Set GNT_WL to PTA */				
++					halbtc8821c1ant_ltecoex_set_gnt_wl(btcoexist,
++								BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++							   	BT_8821C_1ANT_GNT_TYPE_CTRL_BY_PTA,
++							   	BT_8821C_1ANT_SIG_STA_SET_BY_HW);
++				else  /* Set GNT_WL to SW High */				
++					halbtc8821c1ant_ltecoex_set_gnt_wl(btcoexist,
++								BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++							   	BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++							   	BT_8821C_1ANT_SIG_STA_SET_TO_HIGH);	
++
++				coex_sta->run_time_state = true;
++
++				if (BTC_ANT_PATH_AUTO == ant_pos_type){
++					if (rfe_type->wlg_Locate_at_btg) 
++						ant_pos_type = BTC_ANT_PATH_WIFI;
++					else
++						ant_pos_type = BTC_ANT_PATH_PTA;
++				}				
++
++				if (rfe_type->wlg_Locate_at_btg) 
++					halbtc8821c1ant_set_int_block(btcoexist, NORMAL_EXEC, BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLG_OF_BTG);
++				else
++					halbtc8821c1ant_set_int_block(btcoexist, NORMAL_EXEC, BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG);	
++
++			break;
++		case BT_8821C_1ANT_PHASE_5G_RUNTIME:	
++
++				/* set Path control owner to WL at runtime step */
++				halbtc8821c1ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8821C_1ANT_PCO_WLSIDE);
++
++				/* set GNT_BT to SW Hi */
++				halbtc8821c1ant_ltecoex_set_gnt_bt(btcoexist,
++							   BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   		   BT_8821C_1ANT_SIG_STA_SET_TO_HIGH);
++				
++				/* Set GNT_WL to SW Hi */
++				halbtc8821c1ant_ltecoex_set_gnt_wl(btcoexist,
++							   BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   		   BT_8821C_1ANT_SIG_STA_SET_TO_HIGH);
++
++				coex_sta->run_time_state = true;
++
++				if (BTC_ANT_PATH_AUTO == ant_pos_type) {
++				/*	if (rfe_type->ext_band_switch_exist)	
++						ant_pos_type =   BTC_ANT_PATH_PTA;
++					else */
++						ant_pos_type = BTC_ANT_PATH_WIFI5G;
++				}
++
++				halbtc8821c1ant_set_int_block(btcoexist, NORMAL_EXEC, BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLA_OF_WLAG);
++
++			break;
++		case BT_8821C_1ANT_PHASE_BTMPMODE:
++				/* Disable LTE Coex Function in WiFi side */
++				halbtc8821c1ant_ltecoex_enable(btcoexist, 0x0);
++
++				/* set Path control owner to WL */
++				halbtc8821c1ant_ltecoex_pathcontrol_owner(btcoexist,
++						BT_8821C_1ANT_PCO_WLSIDE);
++
++				/* set GNT_BT to SW Hi */
++				halbtc8821c1ant_ltecoex_set_gnt_bt(btcoexist,
++							   BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   		   BT_8821C_1ANT_SIG_STA_SET_TO_HIGH);
++				
++				/* Set GNT_WL to SW Lo */
++				halbtc8821c1ant_ltecoex_set_gnt_wl(btcoexist,
++							   BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   		   BT_8821C_1ANT_SIG_STA_SET_TO_LOW);
++
++				coex_sta->run_time_state = false;
++				
++				/* Set Ext Ant Switch to BT side at BT MP mode  */
++				if (BTC_ANT_PATH_AUTO == ant_pos_type) 
++					ant_pos_type = BTC_ANT_PATH_BT;
++				
++			break;
++	}
++
++		if (phase != BT_8821C_1ANT_PHASE_WLAN_OFF)
++			{
++				switch (ant_pos_type) {
++							case BTC_ANT_PATH_WIFI:
++								halbtc8821c1ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_TO_WLG);
++								break;
++							case BTC_ANT_PATH_WIFI5G:
++								halbtc8821c1ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_TO_WLA);
++								break;
++							case BTC_ANT_PATH_BT:
++								halbtc8821c1ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_TO_BT);			
++								break;
++							default:
++							case BTC_ANT_PATH_PTA:
++								halbtc8821c1ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_PTA, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_TO_NOCARE);			
++								break;
++					}
++	
++			}
++#if 1
++	u32tmp1 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	u8tmp  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++	
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (After Ant-Setup phase---%d) 0xcb4 = 0x%x, 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++			    phase, u32tmp3, u8tmp, u32tmp1, u32tmp2);
++		
++		BTC_TRACE(trace_buf);
++#endif
++}
++
++
++boolean halbtc8821c1ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected &&
++	    BT_8821C_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++	    coex_dm->bt_status) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8821c1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		   (BT_8821C_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8821c1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8821C_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8821c1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		(BT_8821C_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8821c1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8821C_1ANT_BT_STATUS_CONNECTED_IDLE != coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non connected-idle + BT Busy!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8821c1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else {
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		}
++
++		common = false;
++	}
++
++	return common;
++}
++
++
++/* *********************************************
++ *
++ *	Software Coex Mechanism start
++ *
++ * ********************************************* */
++
++/* SCO only or SCO+PAN(HS) */
++
++/*
++void halbtc8821c1ant_action_sco(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8821c1ant_action_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8821c1ant_action_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8821c1ant_action_a2dp_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8821c1ant_action_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8821c1ant_action_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8821c1ant_action_pan_edr_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8821c1ant_action_pan_edr_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8821c1ant_action_hid_a2dp_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, true);
++}
++
++void halbtc8821c1ant_action_hid_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, true);
++}
++
++*/
++
++/* *********************************************
++ *
++ *	Non-Software Coex Mechanism start
++ *
++ * ********************************************* */
++void halbtc8821c1ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	
++	halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, NORMAL_EXEC,
++				     BT_8821C_1ANT_PHASE_2G_RUNTIME);
++	
++	halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8821c1ant_action_wifi_under5g(IN struct btc_coexist *btcoexist)
++{
++
++	halbtc8821c1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8821c1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++	
++	halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, FORCE_EXEC,
++				      BT_8821C_1ANT_PHASE_5G_RUNTIME);
++}
++
++
++void halbtc8821c1ant_action_wifi_only(IN struct btc_coexist *btcoexist)
++{
++	boolean wifi_under_5g = false;
++
++    btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if(wifi_under_5g)
++	{
++		halbtc8821c1ant_action_wifi_under5g(btcoexist);
++			
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,	
++		    	"[BTCoex], ********** (wlan only -- under 5g ) **********\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	halbtc8821c1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	
++	halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, FORCE_EXEC,
++				      BT_8821C_1ANT_PHASE_2G_RUNTIME);
++	
++	halbtc8821c1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++}
++
++void halbtc8821c1ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	
++	halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, NORMAL_EXEC,
++				     BT_8821C_1ANT_PHASE_2G_RUNTIME);
++	
++	halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8821c1ant_action_hs(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++
++	halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, NORMAL_EXEC,
++				     BT_8821C_1ANT_PHASE_2G_RUNTIME);
++	
++	halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8821c1ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_connected = false, ap_enable = false, wifi_busy = false,
++				bt_busy = false;
++	boolean	wifi_scan = false, wifi_link = false, wifi_roam = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &wifi_scan);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &wifi_link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &wifi_roam);
++
++	if ((wifi_link) || (wifi_roam) || (coex_sta->wifi_is_high_pri_task)) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++
++	} else if ((wifi_scan) && (coex_sta->bt_create_connection)) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++
++	} else if ((!wifi_connected) && (!wifi_scan)) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if ((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	} else if (bt_link_info->a2dp_exist) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (wifi_scan) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	} else if (wifi_busy) {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 21);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 19);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	}
++}
++
++void halbtc8821c1ant_action_bt_sco_hid_only_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	/* tdma and coex table */
++
++	if (bt_link_info->sco_exist) {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else { /* HID */
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	}
++}
++
++void halbtc8821c1ant_action_wifi_connected_bt_acl_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (bt_link_info->hid_only) { /* HID */
++		halbtc8821c1ant_action_bt_sco_hid_only_busy(btcoexist,
++				wifi_status);
++		coex_dm->auto_tdma_adjust = false;
++		return;
++	} else if (bt_link_info->a2dp_only) { /* A2DP		 */
++		if (BT_8821C_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status) {
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = false;
++		} else {
++
++			if (coex_sta->scan_ap_num >=
++			    BT_8821C_1ANT_WIFI_NOISY_THRESH)  {
++				halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++							17);
++			}	else {
++				halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++							7);
++			}
++
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = true;
++		}
++	} else if (((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) ||
++		   (bt_link_info->hid_exist && bt_link_info->a2dp_exist &&
++		bt_link_info->pan_exist)) { /* A2DP+PAN(OPP,FTP), HID+A2DP+PAN(OPP,FTP) */
++
++		if (wifi_busy)	{
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 15);
++			else
++				halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++		} else
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 14);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++		coex_dm->auto_tdma_adjust = false;
++	} else if (bt_link_info->hid_exist &&
++		   bt_link_info->a2dp_exist) { /* HID+A2DP */
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 8);
++		coex_dm->auto_tdma_adjust = false;
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++	} else if ((bt_link_info->pan_only) || (bt_link_info->hid_exist &&
++		bt_link_info->pan_exist)) { /* PAN(OPP,FTP), HID+PAN(OPP,FTP)			 */
++		if (BT_8821C_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status)
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						4);
++		else
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++		coex_dm->auto_tdma_adjust = false;
++	} else {
++		/* BT no-profile busy (0x9) */
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	}
++}
++
++void halbtc8821c1ant_action_wifi_not_connected(IN struct btc_coexist *btcoexist)
++{
++	/* tdma and coex table */
++	halbtc8821c1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	
++	halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, NORMAL_EXEC,
++				    BT_8821C_1ANT_PHASE_2G_RUNTIME );
++	
++	halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8821c1ant_action_wifi_not_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8821c1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8821c1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8821c1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8821c1ant_action_hs(btcoexist);
++		return;
++	}
++
++	/* tdma and coex table */
++	if (BT_8821C_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8821C_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8821C_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8821c1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8821C_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     NORMAL_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++		
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8821c1ant_action_wifi_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8821c1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8821c1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8821c1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8821c1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	/* tdma and coex table */
++	if (BT_8821C_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8821C_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8821C_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8821c1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8821C_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     NORMAL_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++		
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8821c1ant_action_wifi_not_connected_asso_auth(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8821c1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8821c1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8821c1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8821c1ant_action_hs(btcoexist);
++		return;
++	}
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist)  || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     NORMAL_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 2);
++	}
++}
++
++void halbtc8821c1ant_action_wifi_connected_specific_packet(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++	boolean wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8821c1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8821c1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8821c1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8821c1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	/* no specific packet process for both WiFi and BT very busy */
++	if ((wifi_busy) && ((bt_link_info->pan_exist) ||
++			    (coex_sta->num_of_profile >= 2)))
++		return;
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist)) {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else if (bt_link_info->a2dp_exist) {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     NORMAL_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8821c1ant_action_wifi_connected(IN struct btc_coexist *btcoexist)
++{
++	boolean	wifi_busy = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean		under_4way = false, ap_enable = false, wifi_under_5g = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], CoexForWifiConnect()===>\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	if (wifi_under_5g) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 5G!!!\n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8821c1ant_action_wifi_under5g(btcoexist);
++		return;
++	} else {
++
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     			NORMAL_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (under_4way) {
++		halbtc8821c1ant_action_wifi_connected_specific_packet(btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 4way<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++	if (scan || link || roam) {
++		if (scan)
++			halbtc8821c1ant_action_wifi_connected_scan(btcoexist);
++		else
++			halbtc8821c1ant_action_wifi_connected_specific_packet(
++				btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under scan<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++
++	/* tdma and coex table */
++	if (!wifi_busy) {
++		if (BT_8821C_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8821c1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8821C_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else if ((BT_8821C_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8821C_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8821c1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8821C_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else {
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++			
++			halbtc8821c1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_AUTO, NORMAL_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++			
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++		}
++	} else {
++		if (BT_8821C_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8821c1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8821C_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else if ((BT_8821C_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8821C_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8821c1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8821C_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else {
++	
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			
++			halbtc8821c1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_AUTO, NORMAL_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++	
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	}
++}
++
++void halbtc8821c1ant_run_sw_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8				algorithm = 0;
++
++	algorithm = halbtc8821c1ant_action_algorithm(btcoexist);
++	coex_dm->cur_algorithm = algorithm;
++
++	if (halbtc8821c1ant_is_common_action(btcoexist)) {
++
++	} else {
++		switch (coex_dm->cur_algorithm) {
++		case BT_8821C_1ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_sco(btcoexist); */
++			break;
++		case BT_8821C_1ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_hid(btcoexist); */
++			break;
++		case BT_8821C_1ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_a2dp(btcoexist); */
++			break;
++		case BT_8821C_1ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_a2dp_pan_hs(btcoexist); */
++			break;
++		case BT_8821C_1ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_pan_edr(btcoexist); */
++			break;
++		case BT_8821C_1ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_pan_hs(btcoexist); */
++			break;
++		case BT_8821C_1ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_pan_edr_a2dp(btcoexist); */
++			break;
++		case BT_8821C_1ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_pan_edr_hid(btcoexist); */
++			break;
++		case BT_8821C_1ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_hid_a2dp_pan_edr(btcoexist); */
++			break;
++		case BT_8821C_1ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_hid_a2dp(btcoexist); */
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_coex_all_off(btcoexist); */
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++
++void halbtc8821c1ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false, bt_hs_on = false;
++	boolean	increase_scan_dev_num = false;
++	boolean	bt_ctrl_agg_buf_size = false;
++	boolean	miracast_plus_bt = false, wifi_under_5g = false;
++	u8	agg_buf_size = 5;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0, wifi_bw;
++	u8	iot_peer = BTC_IOT_PEER_UNKNOWN;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (!coex_sta->run_time_state){
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], return for run_time_state = false !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	if (wifi_under_5g) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 5G!!!\n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8821c1ant_action_wifi_under5g(btcoexist);
++		return;
++	} else{
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 2G!!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     NORMAL_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++	}
++
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821c1ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	if (coex_sta->bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is disabled !!!\n");
++		halbtc8821c1ant_action_wifi_only(btcoexist);
++		return;
++	}
++
++	if ((BT_8821C_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8821C_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8821C_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		increase_scan_dev_num = true;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_INC_SCAN_DEV_NUM,
++			   &increase_scan_dev_num);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist) {
++			halbtc8821c1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1,
++						   0, 1);
++			miracast_plus_bt = true;
++		} else {
++			halbtc8821c1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++			miracast_plus_bt = false;
++		}
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8821c1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8821c1ant_action_wifi_multi_port(btcoexist);
++
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if ((bt_link_info->bt_link_exist) && (wifi_connected)) {
++		halbtc8821c1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1, 0, 1);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_IOT_PEER, &iot_peer);
++
++		if (BTC_IOT_PEER_CISCO != iot_peer) {
++			if (bt_link_info->sco_exist) /* if (bt_link_info->bt_hi_pri_link_exist) */
++				halbtc8821c1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, true, false, 0x5);
++			else
++				halbtc8821c1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, false, false, 0x5);
++		} else {
++			if (bt_link_info->sco_exist)
++				halbtc8821c1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, true, false, 0x5);
++			else {
++				if (BTC_WIFI_BW_HT40 == wifi_bw)
++					halbtc8821c1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x10);
++				else
++					halbtc8821c1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x8);
++			}
++		}
++
++		halbtc8821c1ant_sw_mechanism(btcoexist, true);
++		halbtc8821c1ant_run_sw_coexist_mechanism(
++			btcoexist);  /* just print debug message */
++	} else {
++		halbtc8821c1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++		halbtc8821c1ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x5);
++
++		halbtc8821c1ant_sw_mechanism(btcoexist, false);
++		halbtc8821c1ant_run_sw_coexist_mechanism(
++			btcoexist); /* just print debug message */
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "############# [BTCoex],  BT Is Inquirying\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8821c1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	if (!wifi_connected) {
++		boolean	scan = false, link = false, roam = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is non connected-idle !!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (scan || link || roam) {
++			if (scan)
++				halbtc8821c1ant_action_wifi_not_connected_scan(
++					btcoexist);
++			else
++				halbtc8821c1ant_action_wifi_not_connected_asso_auth(
++					btcoexist);
++		} else
++			halbtc8821c1ant_action_wifi_not_connected(btcoexist);
++	} else	/* wifi LPS/Busy */
++		halbtc8821c1ant_action_wifi_connected(btcoexist);
++}
++
++void halbtc8821c1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++
++	/* sw all off */
++	halbtc8821c1ant_sw_mechanism(btcoexist, false);
++
++	coex_sta->pop_event_cnt = 0;
++}
++
++void halbtc8821c1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up, IN boolean wifi_only)
++{
++	u32			u32tmp1 = 0, u32tmp2 = 0, u32tmp3 = 0;
++	u16			u16tmp1 = 0;
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++
++
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	u32tmp1 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Before Init HW config) 0xcb4 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++		    u32tmp3, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 1Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	coex_sta->bt_coex_supported_feature = 0;
++	coex_sta->bt_coex_supported_version = 0;
++	
++	/* Setup RF front end type */
++	halbtc8821c1ant_set_rfe_type(btcoexist);
++
++	/* 0xf0[15:12] --> Chip Cut information */
++	coex_sta->cut_version = (btcoexist->btc_read_1byte(btcoexist,
++				 0xf1) & 0xf0) >> 4;
++
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++
++	/* BT report packet sample rate	 */
++	btcoexist->btc_write_1byte(btcoexist, 0x790, 0x5);
++
++	/* Init 0x778 = 0x1 for 1-Ant */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++
++	/* Enable PTA (3-wire function form BT side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x41, 0x02, 0x1);
++
++	/* Enable PTA (tx/rx signal form WiFi side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4c6, 0x10, 0x1);
++
++	halbtc8821c1ant_enable_gnt_to_gpio(btcoexist, TRUE);
++
++	/* check if WL firmware download ok */
++	if (btcoexist->btc_read_1byte(btcoexist, 0x80) == 0xc6)
++		halbtc8821c1ant_post_onoffstate_to_bt(btcoexist, TRUE);
++
++	halbtc8821c1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++
++	/* Antenna config */
++	if (wifi_only) {
++		coex_sta->concurrent_rx_mode_on = false;
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_WIFI,
++					     FORCE_EXEC, BT_8821C_1ANT_PHASE_WLANONLY_INIT);
++	} else {
++		coex_sta->concurrent_rx_mode_on = true;
++		/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0x953, 0x2, 0x1); */
++		
++		/* RF 0x1[1] = 0->Set GNT_WL_RF_Rx always = 1 for con-current Rx, mask Tx only */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0x2, 0x0);
++		
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC, BT_8821C_1ANT_PHASE_COEX_INIT);
++	}
++
++	/* PTA parameter */
++	halbtc8821c1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	psd_scan->ant_det_is_ant_det_available = TRUE;
++
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	u32tmp1 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (After Init HW config) 0xcb4 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++		    u32tmp3, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++
++}
++
++u32 halbtc8821c1ant_psd_log2base(IN struct btc_coexist *btcoexist, IN u32 val)
++{
++	u8	j;
++	u32	tmp, tmp2, val_integerd_b = 0, tindex, shiftcount = 0;
++	u32	result, val_fractiond_b = 0, table_fraction[21] = {0, 432, 332, 274, 232, 200,
++				   174, 151, 132, 115, 100, 86, 74, 62, 51, 42,
++							   32, 23, 15, 7, 0
++							      };
++
++	if (val == 0)
++		return 0;
++
++	tmp = val;
++
++	while (1) {
++		if (tmp == 1)
++			break;
++		else {
++			tmp = (tmp >> 1);
++			shiftcount++;
++		}
++	}
++
++
++	val_integerd_b = shiftcount + 1;
++
++	tmp2 = 1;
++	for (j = 1; j <= val_integerd_b; j++)
++		tmp2 = tmp2 * 2;
++
++	tmp = (val * 100) / tmp2;
++	tindex = tmp / 5;
++
++	if (tindex > 20)
++		tindex = 20;
++
++	val_fractiond_b = table_fraction[tindex];
++
++	result = val_integerd_b * 100 - val_fractiond_b;
++
++	return result;
++
++
++}
++
++void halbtc8821c1ant_psd_show_antenna_detect_result(IN struct btc_coexist
++		*btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n============[Antenna Detection info]  ============\n");
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 1)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (>%d)",
++			   "Ant Det Result", "2-Antenna (Bad-Isolation)",
++			   BT_8821C_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else if (psd_scan->ant_det_result == 2)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "2-Antenna (Good-Isolation)",
++			   BT_8821C_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset,
++			   BT_8821C_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "1-Antenna",
++			   BT_8821C_1ANT_ANTDET_PSDTHRES_1ANT,
++			   BT_8821C_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset);
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s ",
++		   "Antenna Detection Finish",
++		   (board_info->btdm_ant_det_finish
++		    ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	switch (psd_scan->ant_det_result) {
++	case 0:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not available)");
++		break;
++	case 1:  /* 2-Ant bad-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 2:  /* 2-Ant good-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 3:  /* 1-Ant */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 4:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Uncertainty result)");
++		break;
++	case 5:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "(Pre-Scan fai)");
++		break;
++	case 6:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(WiFi is Scanning)");
++		break;
++	case 7:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not idle)");
++		break;
++	case 8:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Abort by WiFi Scanning)");
++		break;
++	case 9:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Antenna Init is not ready)");
++		break;
++	case 10:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Inquiry or page)");
++		break;
++	case 11:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Disabled)");
++		break;
++	}
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Total Count", psd_scan->ant_det_try_count);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Fail Count", psd_scan->ant_det_fail_count);
++	CL_PRINTF(cli_buf);
++
++	if ((!board_info->btdm_ant_det_finish) &&
++	    (psd_scan->ant_det_result != 5))
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "BT Response",
++		   (psd_scan->ant_det_result ? "ok" : "fail"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ms", "BT Tx Time",
++		   psd_scan->ant_det_bt_tx_time);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "BT Tx Ch",
++		   psd_scan->ant_det_bt_le_channel);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d",
++		   "WiFi PSD Cent-Ch/Offset/Span",
++		   psd_scan->real_cent_freq, psd_scan->real_offset,
++		   psd_scan->real_span);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d dB",
++		   "PSD Pre-Scan Peak Value",
++		   psd_scan->ant_det_pre_psdscan_peak_val / 100);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (<= %d)",
++		   "PSD Pre-Scan result",
++		   (psd_scan->ant_det_result != 5 ? "ok" : "fail"),
++		   BT_8821C_1ANT_ANTDET_PSDTHRES_BACKGROUND
++		   + psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 5)
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s dB",
++		   "PSD Scan Peak Value", psd_scan->ant_det_peak_val);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s MHz",
++		   "PSD Scan Peak Freq", psd_scan->ant_det_peak_freq);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "TFBGA Package",
++		   (board_info->tfbga_package) ?  "Yes" : "No");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "PSD Threshold Offset", psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++}
++
++
++
++void halbtc8821c1ant_psd_showdata(IN struct btc_coexist *btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	u32		delta_freq_per_point;
++	u32		freq, freq1, freq2, n = 0, i = 0, j = 0, m = 0, psd_rep1, psd_rep2;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n\n============[PSD info]  (%d)============\n",
++		   psd_scan->psd_gen_count);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->psd_gen_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n No data !!\n");
++		CL_PRINTF(cli_buf);
++		return;
++	}
++
++	if (psd_scan->psd_point == 0)
++		delta_freq_per_point = 0;
++	else
++		delta_freq_per_point = psd_scan->psd_band_width /
++				       psd_scan->psd_point;
++
++	/* if (psd_scan->is_psd_show_max_only) */
++	if (0) {
++		psd_rep1 = psd_scan->psd_max_value / 100;
++		psd_rep2 = psd_scan->psd_max_value - psd_rep1 * 100;
++
++		freq = ((psd_scan->real_cent_freq - 20) * 1000000 +
++			psd_scan->psd_max_value_point * delta_freq_per_point);
++		freq1 = freq / 1000000;
++		freq2 = freq / 1000 - freq1 * 1000;
++
++		if (freq2 < 100)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.0%d MHz",
++				   freq1, freq2);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.%d MHz",
++				   freq1, freq2);
++
++		if (psd_rep2 < 10)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.0%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++
++		CL_PRINTF(cli_buf);
++	} else {
++		m = psd_scan->psd_start_point;
++		n = psd_scan->psd_start_point;
++		i = 1;
++		j = 1;
++
++		while (1) {
++			do {
++				freq = ((psd_scan->real_cent_freq - 20) * 1000000 + m *
++					delta_freq_per_point);
++				freq1 = freq / 1000000;
++				freq2 = freq / 1000 - freq1 * 1000;
++
++				if (i == 1) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.0%2d", freq1,
++							   freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.%3d", freq1,
++							   freq2);
++				} else if ((i % 8 == 0) ||
++					   (m == psd_scan->psd_stop_point)) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000\n", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d\n", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d\n", freq1, freq2);
++				} else {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d", freq1, freq2);
++				}
++
++				i++;
++				m++;
++				CL_PRINTF(cli_buf);
++
++			} while ((i <= 8) && (m <= psd_scan->psd_stop_point));
++
++
++			do {
++				psd_rep1 = psd_scan->psd_report_max_hold[n] / 100;
++				psd_rep2 = psd_scan->psd_report_max_hold[n] - psd_rep1 *
++					   100;
++
++				if (j == 1) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.0%d", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.%d", psd_rep1,
++							   psd_rep2);
++				} else if ((j % 8 == 0)  ||
++					   (n == psd_scan->psd_stop_point)) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d\n", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d\n", psd_rep1, psd_rep2);
++				} else {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d", psd_rep1, psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d", psd_rep1, psd_rep2);
++				}
++
++				j++;
++				n++;
++				CL_PRINTF(cli_buf);
++
++			} while ((j <= 8) && (n <= psd_scan->psd_stop_point));
++
++			if ((m > psd_scan->psd_stop_point) ||
++			    (n > psd_scan->psd_stop_point))
++				break;
++			else {
++				i = 1;
++				j = 1;
++			}
++
++		}
++	}
++
++
++}
++
++void halbtc8821c1ant_psd_maxholddata(IN struct btc_coexist *btcoexist,
++				     IN u32 gen_count)
++{
++	u32	i = 0, i_max = 0, val_max = 0;
++
++	if (gen_count == 1) {
++		memcpy(psd_scan->psd_report_max_hold,
++		       psd_scan->psd_report,
++		       BT_8821C_1ANT_ANTDET_PSD_POINTS * sizeof(u32));
++
++		for (i = psd_scan->psd_start_point;
++		     i <= psd_scan->psd_stop_point; i++) {
++
++		}
++
++		psd_scan->psd_max_value_point = 0;
++		psd_scan->psd_max_value = 0;
++
++	} else {
++		for (i = psd_scan->psd_start_point;
++		     i <= psd_scan->psd_stop_point; i++) {
++			if (psd_scan->psd_report[i] >
++			    psd_scan->psd_report_max_hold[i])
++				psd_scan->psd_report_max_hold[i] =
++					psd_scan->psd_report[i];
++
++			/* search Max Value */
++			if (i == psd_scan->psd_start_point) {
++				i_max = i;
++				val_max = psd_scan->psd_report_max_hold[i];
++			} else {
++				if (psd_scan->psd_report_max_hold[i] >
++				    val_max) {
++					i_max = i;
++					val_max = psd_scan->psd_report_max_hold[i];
++				}
++			}
++
++
++		}
++
++		psd_scan->psd_max_value_point = i_max;
++		psd_scan->psd_max_value = val_max;
++
++	}
++
++
++}
++
++u32 halbtc8821c1ant_psd_getdata(IN struct btc_coexist *btcoexist, IN u32 point)
++{
++	/* reg 0x808[9:0]: FFT data x */
++	/* reg 0x808[22]: 0-->1 to get 1 FFT data y */
++	/* reg 0x8b4[15:0]: FFT data y report */
++
++	u32 val = 0, psd_report = 0;
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++
++	val &= 0xffbffc00;
++	val |= point;
++
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	val |= 0x00400000;
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x8b4);
++
++	psd_report = val & 0x0000ffff;
++
++	return psd_report;
++}
++
++
++boolean halbtc8821c1ant_psd_sweep_point(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN s32 offset, IN u32 span, IN u32 points,
++					IN u32 avgnum, IN u32 loopcnt)
++{
++	u32	 i = 0, val = 0, n = 0, k = 0, j, point_index = 0;
++	u32	points1 = 0, psd_report = 0;
++	u32	start_p = 0, stop_p = 0, delta_freq_per_point = 156250;
++	u32    psd_center_freq = 20 * 10 ^ 6;
++	boolean outloop = false, scan , roam, is_sweep_ok = true;
++	u8	 flag = 0;
++	u32	tmp = 0, u32tmp1 = 0;
++	u32	wifi_original_channel = 1;
++
++	psd_scan->is_psd_running = true;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Start!!\n");
++	BTC_TRACE(trace_buf);
++
++	do {
++		switch (flag) {
++		case 0:  /* Get PSD parameters */
++		default:
++
++			psd_scan->psd_band_width = 40 * 1000000;
++			psd_scan->psd_point = points;
++			psd_scan->psd_start_base = points / 2;
++			psd_scan->psd_avg_num = avgnum;
++			psd_scan->real_cent_freq = cent_freq;
++			psd_scan->real_offset = offset;
++			psd_scan->real_span = span;
++
++
++			points1 = psd_scan->psd_point;
++			delta_freq_per_point = psd_scan->psd_band_width /
++					       psd_scan->psd_point;
++
++			/* PSD point setup */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffff0fff;
++
++			switch (psd_scan->psd_point) {
++			case 128:
++				val |= 0x0;
++				break;
++			case 256:
++			default:
++				val |= 0x00004000;
++				break;
++			case 512:
++				val |= 0x00008000;
++				break;
++			case 1024:
++				val |= 0x0000c000;
++				break;
++			}
++
++			switch (psd_scan->psd_avg_num) {
++			case 1:
++				val |= 0x0;
++				break;
++			case 8:
++				val |= 0x00001000;
++				break;
++			case 16:
++				val |= 0x00002000;
++				break;
++			case 32:
++			default:
++				val |= 0x00003000;
++				break;
++			}
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			flag = 1;
++			break;
++		case 1:	  /* calculate the PSD point index from freq/offset/span */
++			psd_center_freq = psd_scan->psd_band_width / 2 +
++					  offset * (1000000);
++
++			start_p = psd_scan->psd_start_base + (psd_center_freq -
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_start_point = start_p -
++						    psd_scan->psd_start_base;
++
++			stop_p = psd_scan->psd_start_base + (psd_center_freq +
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_stop_point = stop_p -
++						   psd_scan->psd_start_base - 1;
++
++			flag = 2;
++			break;
++		case 2:  /* set RF channel/BW/Mode */
++
++			/* set 3-wire off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val |= 0x00300000;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val &= 0xfeffffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause on */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x6f);
++
++			/* store WiFi original channel */
++			wifi_original_channel = btcoexist->btc_get_rf_reg(
++					btcoexist, BTC_RF_A, 0x18, 0x3ff);
++
++			/* Set RF channel */
++			if (cent_freq == 2484)
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++							  0x18, 0x3ff, 0xe);
++			else
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++					  0x18, 0x3ff, (cent_freq - 2412) / 5 +
++						  1); /* WiFi TRx Mask on */
++
++			/* save original RCK value */
++			u32tmp1 =  btcoexist->btc_get_rf_reg(
++					   btcoexist, BTC_RF_A, 0x1d, 0xfffff);
++
++			/* Enter debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x1);
++
++			/* Set RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, 0x2e);
++
++
++			/* Set  RF mode = Rx, RF Gain = 0x320a0 */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x0,
++						  0xfffff, 0x320a0);
++
++			while (1) {
++				if (k++ > BT_8821C_1ANT_ANTDET_SWEEPPOINT_DELAY)
++					break;
++			}
++			flag = 3;
++			break;
++		case 3:
++			psd_scan->psd_gen_count = 0;
++			for (j = 1; j <= loopcnt; j++) {
++
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_SCAN, &scan);
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_ROAM, &roam);
++
++				if (scan || roam) {
++					is_sweep_ok = false;
++					break;
++				}
++				memset(psd_scan->psd_report, 0,
++				       psd_scan->psd_point * sizeof(u32));
++				start_p = psd_scan->psd_start_point +
++					  psd_scan->psd_start_base;
++				stop_p = psd_scan->psd_stop_point +
++					 psd_scan->psd_start_base + 1;
++
++				i = start_p;
++				point_index = 0;
++
++				while (i < stop_p) {
++					if (i >= points1)
++						psd_report =
++							halbtc8821c1ant_psd_getdata(
++							btcoexist, i - points1);
++					else
++						psd_report =
++							halbtc8821c1ant_psd_getdata(
++								btcoexist, i);
++
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"Point=%d, psd_raw_data = 0x%08x\n",
++						    i, psd_report);
++					BTC_TRACE(trace_buf);
++					if (psd_report == 0)
++						tmp = 0;
++					else
++						/* tmp =  20*log10((double)psd_report); */
++						/* 20*log2(x)/log2(10), log2Base return theresult of the psd_report*100 */
++						tmp = 6 * halbtc8821c1ant_psd_log2base(
++							btcoexist, psd_report);
++
++					n = i - psd_scan->psd_start_base;
++					psd_scan->psd_report[n] =  tmp;
++
++
++					halbtc8821c1ant_psd_maxholddata(
++						btcoexist, j);
++
++					i++;
++
++				}
++
++				psd_scan->psd_gen_count = j;
++			}
++
++			flag = 100;
++			break;
++		case 99:	/* error */
++
++			outloop = true;
++			break;
++		case 100: /* recovery */
++
++			/* set 3-wire on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val &= 0xffcfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val |= 0x01000000;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause off */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x0);
++
++			/* PSD off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffbfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			/* restore RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, u32tmp1);
++
++			/* Exit debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x0);
++
++			/* restore WiFi original channel */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x18,
++						  0x3ff, wifi_original_channel);
++
++			outloop = true;
++			break;
++
++		}
++
++	} while (!outloop);
++
++
++
++	psd_scan->is_psd_running = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Stop!!\n");
++	BTC_TRACE(trace_buf);
++	return is_sweep_ok;
++
++}
++
++
++void halbtc8821c1ant_psd_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 bt_tx_time, IN u32 bt_le_channel)
++{
++	u32	i = 0;
++	u32	wlpsd_cent_freq = 2484, wlpsd_span = 2, wlpsd_sweep_count = 50;
++	s32	wlpsd_offset = -4;
++	u8	bt_le_ch[13] = {3, 6, 8, 11, 13, 16, 18, 21, 23, 26, 28, 31, 33};
++
++	u8	h2c_parameter[3] = {0}, u8tmpa, u8tmpb;
++
++	u8	state = 0;
++	boolean		outloop = false, bt_resp = false;
++	u32		freq, freq1, freq2, psd_rep1, psd_rep2, delta_freq_per_point,
++			u32tmp, u32tmp0, u32tmp1, u32tmp2 ;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	board_info->btdm_ant_det_finish = false;
++	memset(psd_scan->ant_det_peak_val, 0, 16 * sizeof(u8));
++	memset(psd_scan->ant_det_peak_freq, 0, 16 * sizeof(u8));
++
++	if (board_info->tfbga_package) /* for TFBGA */
++		psd_scan->ant_det_thres_offset = 5;
++	else
++		psd_scan->ant_det_thres_offset = 0;
++
++	do {
++		switch (state) {
++		case 0:
++			if (bt_le_channel == 39)
++				wlpsd_cent_freq = 2484;
++			else {
++				for (i = 1; i <= 13; i++) {
++					if (bt_le_ch[i - 1] ==
++					    bt_le_channel) {
++						wlpsd_cent_freq = 2412
++								  + (i - 1) * 5;
++						break;
++					}
++				}
++
++				if (i == 14) {
++
++					BTC_SPRINTF(trace_buf,
++						    BT_TMP_BUF_SIZE,
++						"xxxxxxxxxxxxxxxx AntennaDetect(), Abort!!, Invalid LE channel = %d\n ",
++						    bt_le_channel);
++					BTC_TRACE(trace_buf);
++					outloop = true;
++					break;
++				}
++			}
++
++			wlpsd_sweep_count = bt_tx_time * 238 /
++					    100; /* bt_tx_time/0.42								 */
++			wlpsd_sweep_count = wlpsd_sweep_count / 5;
++
++			if (wlpsd_sweep_count % 5 != 0)
++				wlpsd_sweep_count = (wlpsd_sweep_count /
++						     5 + 1) * 5;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), BT_LETxTime=%d,  BT_LECh = %d\n",
++				    bt_tx_time, bt_le_channel);
++			BTC_TRACE(trace_buf);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), wlpsd_cent_freq=%d,  wlpsd_offset = %d, wlpsd_span = %d, wlpsd_sweep_count = %d\n",
++				    wlpsd_cent_freq,
++				    wlpsd_offset,
++				    wlpsd_span,
++				    wlpsd_sweep_count);
++			BTC_TRACE(trace_buf);
++
++			state = 1;
++			break;
++		case 1: /* stop coex DM & set antenna path */
++			/* Stop Coex DM */
++			btcoexist->stop_coex_dm = true;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stop Coex DM!!\n");
++			BTC_TRACE(trace_buf);
++
++			/* Set TDMA off,				 */
++			halbtc8821c1ant_ps_tdma(btcoexist, FORCE_EXEC,
++						false, 0);
++
++			/* Set coex table */
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     FORCE_EXEC, 0);
++
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Main Port\n");
++				BTC_TRACE(trace_buf);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Aux Port\n");
++				BTC_TRACE(trace_buf);
++			}
++
++			halbtc8821c1ant_set_int_block(btcoexist, FORCE_EXEC, BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG);
++
++			halbtc8821c1ant_set_ext_ant_switch( btcoexist, 
++													FORCE_EXEC, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_TO_BT);
++
++			/* Set Antenna Path,  both GNT_WL/GNT_BT = 1, and control by SW */
++			/* set GNT_BT to SW high */
++			halbtc8821c1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8821C_1ANT_SIG_STA_SET_TO_HIGH);
++			/* Set GNT_WL to SW high */
++			halbtc8821c1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8821C_1ANT_SIG_STA_SET_TO_HIGH);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to BT!!\n");
++			BTC_TRACE(trace_buf);
++
++			/* Set AFH mask on at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x1;
++			h2c_parameter[1] = 0xd;
++			h2c_parameter[2] = 0x14;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1],
++				    h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			u32tmp0 = btcoexist->btc_read_4byte(btcoexist, 0x70);
++			u32tmp1 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++			u32tmp2 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], ********** 0x70 = 0x%x, 0x38= 0x%x, 0x54= 0x%x (Before Ant Det) **********\n",
++				    u32tmp0, u32tmp1, u32tmp2);
++			BTC_TRACE(trace_buf);
++
++			state = 2;
++			break;
++		case 2:	/* Pre-sweep background psd */
++			if (!halbtc8821c1ant_psd_sweep_point(btcoexist,
++				     wlpsd_cent_freq, wlpsd_offset, wlpsd_span,
++					     BT_8821C_1ANT_ANTDET_PSD_POINTS,
++				     BT_8821C_1ANT_ANTDET_PSD_AVGNUM, 3)) {
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++			psd_scan->ant_det_pre_psdscan_peak_val =
++				psd_scan->psd_max_value;
++
++			if (psd_scan->psd_max_value >
++			    (BT_8821C_1ANT_ANTDET_PSDTHRES_BACKGROUND
++			     + psd_scan->ant_det_thres_offset) * 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Abort Antenna Detection!! becaus background = %d > thres (%d)\n",
++					    psd_scan->psd_max_value / 100,
++					BT_8821C_1ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 5;
++				state = 99;
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Start Antenna Detection!! becaus background = %d <= thres (%d)\n",
++					    psd_scan->psd_max_value / 100,
++					BT_8821C_1ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				state = 3;
++			}
++			break;
++		case 3:
++
++			bt_resp = btcoexist->btc_set_bt_ant_detection(
++					  btcoexist, (u8)(bt_tx_time & 0xff),
++					  (u8)(bt_le_channel & 0xff));
++
++			if (!halbtc8821c1ant_psd_sweep_point(btcoexist,
++					     wlpsd_cent_freq, wlpsd_offset,
++							     wlpsd_span,
++					     BT_8821C_1ANT_ANTDET_PSD_POINTS,
++					     BT_8821C_1ANT_ANTDET_PSD_AVGNUM,
++						     wlpsd_sweep_count)) {
++				board_info->btdm_ant_det_finish
++					= false;
++				board_info->btdm_ant_num_by_ant_det
++					= 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++			psd_scan->ant_det_psd_scan_peak_val =
++				psd_scan->psd_max_value;
++			psd_scan->ant_det_psd_scan_peak_freq =
++				psd_scan->psd_max_value_point;
++			state = 4;
++			break;
++		case 4:
++
++			if (psd_scan->psd_point == 0)
++				delta_freq_per_point = 0;
++			else
++				delta_freq_per_point =
++					psd_scan->psd_band_width /
++					psd_scan->psd_point;
++
++			psd_rep1 = psd_scan->psd_max_value / 100;
++			psd_rep2 = psd_scan->psd_max_value - psd_rep1 *
++				   100;
++
++			freq = ((psd_scan->real_cent_freq - 20) *
++				1000000 + psd_scan->psd_max_value_point
++				* delta_freq_per_point);
++			freq1 = freq / 1000000;
++			freq2 = freq / 1000 - freq1 * 1000;
++
++			if (freq2 < 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.0%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8821C_1ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", freq1, freq2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8821C_1ANT_ANTDET_BUF_LEN,
++					   "%d.%d", freq1, freq2);
++			}
++
++			if (psd_rep2 < 10) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.0%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8821C_1ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", psd_rep1, psd_rep2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8821C_1ANT_ANTDET_BUF_LEN,
++					   "%d.%d", psd_rep1, psd_rep2);
++			}
++
++			psd_scan->ant_det_is_btreply_available = true;
++
++			if (bt_resp == false) {
++				psd_scan->ant_det_is_btreply_available =
++					false;
++				psd_scan->ant_det_result = 0;
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), BT Response = Fail\n ");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				(BT_8821C_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION)
++				   * 100) {
++				psd_scan->ant_det_result = 1;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Bad-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				(BT_8821C_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++				    + psd_scan->ant_det_thres_offset) * 100) {
++				psd_scan->ant_det_result = 2;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Good-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				   (BT_8821C_1ANT_ANTDET_PSDTHRES_1ANT) *
++				   100) {
++				psd_scan->ant_det_result = 3;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant!!\n");
++				BTC_TRACE(trace_buf);
++			} else {
++				psd_scan->ant_det_result = 4;
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant, un-certainity!!\n");
++				BTC_TRACE(trace_buf);
++			}
++
++			state = 99;
++			break;
++		case 99:  /* restore setup */
++
++			/* Set AFH mask off at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x0;
++			h2c_parameter[1] = 0x0;
++			h2c_parameter[2] = 0x0;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1], h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			/* Set Antenna Path, GNT_WL/GNT_BT control by PTA */
++			halbtc8821c1ant_set_ant_path(btcoexist,
++				     BTC_ANT_PATH_AUTO, 
++				     FORCE_EXEC, 
++				     BT_8821C_1ANT_PHASE_2G_RUNTIME);
++			
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to PTA\n!!");
++			BTC_TRACE(trace_buf);
++
++			/* Resume Coex DM */
++			btcoexist->stop_coex_dm = false;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Resume Coex DM\n!!");
++			BTC_TRACE(trace_buf);
++
++			/* stimulate coex running */
++			halbtc8821c1ant_run_coexist_mechanism(
++				btcoexist);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stimulate Coex running\n!!");
++			BTC_TRACE(trace_buf);
++
++			outloop = true;
++			break;
++		}
++
++	} while (!outloop);
++
++
++
++}
++
++void halbtc8821c1ant_psd_antenna_detection_check(IN struct btc_coexist
++		*btcoexist)
++{
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	boolean scan, roam;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++
++	/* psd_scan->ant_det_bt_tx_time = 20; */
++	psd_scan->ant_det_bt_tx_time =
++		BT_8821C_1ANT_ANTDET_BTTXTIME;	   /* 0.42ms*50 = 20ms (0.42ms = 1 PSD sweep) */
++	psd_scan->ant_det_bt_le_channel = BT_8821C_1ANT_ANTDET_BTTXCHANNEL;
++
++	ant_det_count++;
++
++	psd_scan->ant_det_try_count = ant_det_count;
++
++	if (scan || roam) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 6;
++	} else if (coex_sta->bt_disabled) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 11;
++	} else if (coex_sta->num_of_profile >= 1) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 7;
++	} else if (
++		!psd_scan->ant_det_is_ant_det_available) { /* Antenna initial setup is not ready */
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 9;
++	} else if (coex_sta->c2h_bt_inquiry_page) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 10;
++	} else {
++
++		btcoexist->stop_coex_dm = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"xxxxxxxxxxxxxxxx AntennaDetect(), Stop Coex DM!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c1ant_psd_antenna_detection(btcoexist,
++					      psd_scan->ant_det_bt_tx_time,
++					      psd_scan->ant_det_bt_le_channel);
++
++		delay_ms(psd_scan->ant_det_bt_tx_time);
++
++		btcoexist->stop_coex_dm = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"xxxxxxxxxxxxxxxx AntennaDetect(), Resume Coex DM\n!!");
++		BTC_TRACE(trace_buf);
++
++		/* stimulate coex running */
++		/*
++		halbtc8821c1ant_run_coexist_mechanism(
++				btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stimulate Coex running\n!!");
++		BTC_TRACE(trace_buf);
++		*/
++	}
++
++	if (!board_info->btdm_ant_det_finish)
++		ant_det_fail_count++;
++
++	psd_scan->ant_det_fail_count = ant_det_fail_count;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx AntennaDetect(), result = %d, fail_count = %d, finish = %s\n",
++		    psd_scan->ant_det_result,
++		    psd_scan->ant_det_fail_count,
++		    board_info->btdm_ant_det_finish == TRUE ? "Yes" : "No");
++	BTC_TRACE(trace_buf);
++
++}
++
++
++/* ************************************************************
++ * work around function start with wa_halbtc8821c1ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8821c1ant_
++ * ************************************************************ */
++void ex_halbtc8821c1ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x0;
++	u16 u16tmp = 0x0;
++	u32	value = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx Execute 8821c 1-Ant PowerOn Setting xxxxxxxxxxxxxxxx!!\n");
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "Ant Det Finish = %s, Ant Det Number  = %d\n",
++		    (board_info->btdm_ant_det_finish ? "Yes" : "No"),
++		    board_info->btdm_ant_num_by_ant_det);
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = true;
++	psd_scan->ant_det_is_ant_det_available = FALSE;
++	
++	/* enable BB, REG_SYS_FUNC_EN such that we can write BB Register correctly. */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x2);
++	btcoexist->btc_write_2byte(btcoexist, 0x2, u16tmp | BIT(0) | BIT(1));
++
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++		
++	/* Check efuse 0xc3[6] for Single Antenna Path */
++	if (board_info->single_ant_path == 0) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], **********  Single Antenna, Antenna at Aux Port**********\n");
++		BTC_TRACE(trace_buf);
++
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++
++		u8tmp = 1;
++	} else if (board_info->single_ant_path == 1) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], **********  Single Antenna, Antenna at Main Port**********\n");
++		BTC_TRACE(trace_buf);
++
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;		
++
++		u8tmp = 0;
++	}
++
++
++	/* Save"single antenna position" info in Local register setting for FW reading, because FW may not ready at  power on */
++	if (btcoexist->chip_interface == BTC_INTF_PCI)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x3e0, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_USB)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60, u8tmp);
++
++	/* Setup RF front end type */
++	halbtc8821c1ant_set_rfe_type(btcoexist);
++	
++	/* Set Antenna Path to BT side */
++	halbtc8821c1ant_set_ant_path(btcoexist, 
++					BTC_ANT_PATH_AUTO,
++					FORCE_EXEC, 
++					BT_8821C_1ANT_PHASE_COEX_INIT);
++
++	/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++	halbtc8821c1ant_enable_gnt_to_gpio(btcoexist, TRUE);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********  LTE coex Reg 0x38 (Power-On) = 0x%x**********\n",
++		    halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x38));
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********  MAC Reg 0x70/ BB Reg 0xcb4 (Power-On) = 0x%x / 0x%x**********\n",
++		btcoexist->btc_read_4byte(btcoexist, 0x70), btcoexist->btc_read_4byte(btcoexist, 0xcb4));
++	BTC_TRACE(trace_buf);
++
++}
++
++void ex_halbtc8821c1ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8821c1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8821c1ant_init_hw_config(btcoexist, true, wifi_only);
++	btcoexist->stop_coex_dm = false;
++
++}
++
++void ex_halbtc8821c1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821c1ant_init_coex_dm(btcoexist);
++
++	/* halbtc8821c1ant_query_bt_info(btcoexist); */
++}
++
++void ex_halbtc8821c1ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_stack_info		*stack_info = &btcoexist->stack_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fa_of_dm, fa_cck;
++	u32				fw_ver = 0, bt_patch_ver = 0;
++	static u8			pop_report_in_10s = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	if (btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	if (psd_scan->ant_det_try_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s / %d",
++			   "Ant PG Num/ Mech/ Pos/ RFE",
++			   board_info->pg_ant_num, board_info->btdm_ant_num,
++			   (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT? "Main" : "Aux"),
++			   rfe_type->rfe_module_type);
++		CL_PRINTF(cli_buf);
++	} else {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d/ %d/ %s/ %d  (%d/%d/%d)",
++			   "Ant PG Num/ Mech(Ant_Det)/ Pos/ RFE",
++			  board_info->pg_ant_num, board_info->btdm_ant_num_by_ant_det,
++			   (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT ? "Main" : "Aux"), 
++			   rfe_type->rfe_module_type,
++			   psd_scan->ant_det_try_count, psd_scan->ant_det_fail_count,
++			   psd_scan->ant_det_result);
++		CL_PRINTF(cli_buf);
++
++		if (board_info->btdm_ant_det_finish) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++				   "Ant Det PSD Value",
++				   psd_scan->ant_det_peak_val);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %d",
++		   "BT stack/ hci ext ver",
++		   ((stack_info->profile_notified) ? "Yes" : "No"),
++		   stack_info->hci_version);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)/ %c",
++		   "Version Coex/ Fw/ Patch/ Cut",
++		   glcoex_ver_date_8821c_1ant, glcoex_ver_8821c_1ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver, coex_sta->cut_version + 65);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s/ %s",
++		   "WifibHiPri/ Ccklock/ CckEverLock",
++		   (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"),
++		   (coex_sta->cck_lock ? "Yes" : "No"),
++		   (coex_sta->cck_ever_lock ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	pop_report_in_10s++;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt/ popCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++			   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page")
++			   : ((BT_8821C_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8821C_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi - 100, coex_sta->bt_retry_cnt,
++		   coex_sta->pop_event_cnt);
++	CL_PRINTF(cli_buf);
++
++	if (pop_report_in_10s >= 5) {
++		coex_sta->pop_event_cnt = 0;
++		pop_report_in_10s = 0;
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d / %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP/Hi-Pri",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist,
++		   bt_link_info->bt_hi_pri_link_exist);
++	CL_PRINTF(cli_buf);
++
++	if (stack_info->profile_notified)
++		btcoexist->btc_disp_dbg_msg(btcoexist,
++					    BTC_DBG_DISP_BT_LINK_INFO);
++	else {
++		bt_info_ext = coex_sta->bt_info_ext;
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %s / %d/ %x/ %04x",
++			   "Role/A2DP Rate/Bitpool/Feature/Ver",
++			   ((bt_link_info->slave_role) ? "Slave" : "Master"),
++			(bt_info_ext & BIT(0)) ? "BR" : "EDR", coex_sta->a2dp_bit_pool,
++			coex_sta->bt_coex_supported_feature,
++			coex_sta->bt_coex_supported_version);
++		CL_PRINTF(cli_buf);
++	}
++
++
++	for (i = 0; i < BT_INFO_SRC_8821C_1ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8821c_1ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++
++	if (btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[mechanisms] (before Manual)============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanisms]============");
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "SM[LowPenaltyRA]",
++		   coex_dm->cur_low_penalty_ra);
++	CL_PRINTF(cli_buf);
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (%s,%s)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   (coex_dm->cur_ps_tdma_on ? "On" : "Off"),
++		   (coex_dm->auto_tdma_adjust ? "Adj" : "Fix"));
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "WL/BT Coex Table Type",
++		   coex_sta->coex_table_type);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x778/0x6cc/IgnWlanAct",
++		   u8tmp[0], u32tmp[0],  coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa0);
++	u32tmp[1] = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "LTE Coex Table W_L/B_L",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa8);
++	u32tmp[1] = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xac);
++	u32tmp[2] = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb0);
++	u32tmp[3] = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "LTE Break Table W_L/B_L/L_W/L_B",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff,
++		   u32tmp[2] & 0xffff, u32tmp[3] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %s",
++		   "LTE CoexOn/Path Ctrl Owner",
++		(int)((u32tmp[0] & BIT(7)) >> 7), ((u8tmp[0] & BIT(2)) ? "WL" : "BT"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "LTE 3Wire/OPMode/UART/UARTMode",
++		(int)((u32tmp[0] & BIT(6)) >> 6), (int)((u32tmp[0] & (BIT(5) | BIT(4))) >> 4),
++		   (int)((u32tmp[0] & BIT(3)) >> 3),
++		   (int)(u32tmp[0] & (BIT(2) | BIT(1) | BIT(0))));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s",
++		   "GNT_WL_SWCtrl/GNT_BT_SWCtrl/Dbg",
++		(int)((u32tmp[0] & BIT(12)) >> 12), (int)((u32tmp[0] & BIT(14)) >> 14),
++		   ((u8tmp[0] & BIT(3)) ? "On" : "Off"));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "GNT_WL/GNT_BT/LTE_Busy/UART_Busy",
++		(int)((u32tmp[0] & BIT(2)) >> 2), (int)((u32tmp[0] & BIT(3)) >> 3),
++		   (int)((u32tmp[0] & BIT(1)) >> 1), (int)(u32tmp[0] & BIT(0)));
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xcb0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xcba);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%04x/ 0x%04x/ 0x%02x %s",
++		   "0xcb0/0xcb4/0xcb8[23:16]",
++		u32tmp[0], u32tmp[1],u8tmp[0],  (   (u8tmp[0] & 0x5) == 0x1 ?  "BTG":   ( (u8tmp[0] & 0xf0) == 0x70?  "WL_G"  : "WL_A" )  ));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0x64);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x4c6);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x4c[24:23]/0x64[0]/x4c6[4]/0x40[5]",
++		(u32tmp[0] & ( BIT(24) | BIT(23) )) >> 23 , u8tmp[2]&0x1 , (int)((u8tmp[0] & BIT(4)) >> 4), (int)((u8tmp[1] & BIT(5)) >> 5));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x953);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0xc50);
++	
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ %s/ 0x%x",
++		   "0x550/0x522/4-RxAGC/0xc50",
++		u32tmp[0], u8tmp[0], (u8tmp[1] & 0x2) ? "On" : "Off", u8tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xf48);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xf4c);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0xf08);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5d);
++
++	fa_of_dm = (u32tmp[0] & 0xffff)  +  (u32tmp[1] & 0xffff);
++		
++	fa_cck = (u8tmp[0] << 8) + u8tmp[1];
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "CCK-CCA/CCK-FA/OFDM-CCA/OFDM-FA",
++		   u32tmp[2] & 0xffff, fa_cck, ((u32tmp[2] & 0xffff0000) >> 16), fa_of_dm);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11ac",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11ac",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++
++	halbtc8821c1ant_read_score_board(btcoexist,	&u16tmp[0]);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %04x",
++		   "ScoreBoard[14:0] (from BT)", u16tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8821c1ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++
++		/* Write WL "Active" in Score-board for LPS off */
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, false);
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		
++		halbtc8821c1ant_set_ant_path(btcoexist, 
++							BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_1ANT_PHASE_WLAN_OFF);
++		
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, true);
++
++		halbtc8821c1ant_init_hw_config(btcoexist, false, false);
++		halbtc8821c1ant_init_coex_dm(btcoexist);;
++
++		coex_sta->under_ips = false;
++	}
++}
++
++void ex_halbtc8821c1ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++
++		if (coex_sta->force_lps_on == true) { /* LPS No-32K */
++			/* Write WL "Active" in Score-board for PS-TDMA */
++			halbtc8821c1ant_post_activestate_to_bt(btcoexist, true);
++
++		} else { /* LPS-32K, need check if this h2c 0x71 can work?? (2015/08/28) */
++			/* Write WL "Non-Active" in Score-board for Native-PS */
++			halbtc8821c1ant_post_activestate_to_bt(btcoexist, false);
++
++		}
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++
++		/* Write WL "Active" in Score-board for LPS off */
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, true);
++
++	}
++}
++
++void ex_halbtc8821c1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	boolean wifi_connected = false;
++
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN notify()\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821c1ant_post_activestate_to_bt(btcoexist, true);
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_SCAN_START == type)   //for dual band, no action for BTC_SCAN_START, the action is change to switchband_notify
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	halbtc8821c1ant_query_bt_info(btcoexist);
++
++	if (BTC_SCAN_START_2G == type) {	
++
++		if (!wifi_connected)
++			coex_sta->wifi_is_high_pri_task = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify  (2G)\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++					8);
++
++		/* Force antenna setup for no scan result issue */
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8821c1ant_action_wifi_not_connected_scan(btcoexist);
++		else	/* wifi is connected */
++			halbtc8821c1ant_action_wifi_connected_scan(btcoexist);
++
++	} else {
++
++		coex_sta->wifi_is_high_pri_task = false;
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], SCAN FINISH notify  (Scan-AP = %d)\n", coex_sta->scan_ap_num);
++		BTC_TRACE(trace_buf);
++
++		if (!wifi_connected)
++			halbtc8821c1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8821c1ant_action_wifi_connected(btcoexist);
++	}
++
++
++}
++
++void ex_halbtc8821c1ant_switchband_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++
++	if(type == BTC_SWITCH_TO_5G) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], switchband_notify ---  switch to 5G\n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8821c1ant_action_wifi_under5g(btcoexist);
++
++	} else {
++	
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], switchband_notify ---  switch to 2G\n");
++		BTC_TRACE(trace_buf);
++		
++		ex_halbtc8821c1ant_scan_notify(btcoexist,
++				    BTC_SCAN_START_2G);
++	}
++}
++
++
++void ex_halbtc8821c1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	boolean	wifi_connected = false;
++
++
++	halbtc8821c1ant_post_activestate_to_bt(btcoexist, true);
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	if ( (BTC_ASSOCIATE_5G_START == type) ||  (BTC_ASSOCIATE_5G_FINISH== type)) {
++
++			if (BTC_ASSOCIATE_5G_START == type)
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						  "[BTCoex], connect_notify ---  5G start\n");
++			else
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						  "[BTCoex], connect_notify ---  5G finish\n");
++				
++			BTC_TRACE(trace_buf);
++
++			halbtc8821c1ant_action_wifi_under5g(btcoexist);
++			return;
++		}
++
++	if (BTC_ASSOCIATE_START == type) {
++
++		coex_sta->wifi_is_high_pri_task = true;
++
++		/* Force antenna setup for no scan result issue */
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify (2G)\n");
++		BTC_TRACE(trace_buf);
++
++		coex_dm->arp_cnt = 0;
++
++		halbtc8821c1ant_action_wifi_not_connected_asso_auth(btcoexist);
++	} else {
++
++		coex_sta->wifi_is_high_pri_task = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify (2G)\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++		if (!wifi_connected) /* non-connected scan */
++			halbtc8821c1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8821c1ant_action_wifi_connected(btcoexist);
++	}
++
++}
++
++void ex_halbtc8821c1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean			wifi_under_b_mode = false, wifi_under_5g = false;
++
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	if (wifi_under_5g) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 5G!!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, true);		
++		halbtc8821c1ant_action_wifi_under5g(btcoexist);
++		return;
++	}
++
++	if (BTC_MEDIA_CONNECT == type) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, true);
++
++		/* Force antenna setup for no scan result issue */
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++
++		/* Set CCK Tx/Rx high Pri except 11b mode */
++		if (wifi_under_b_mode) {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x00); /* CCK Rx */
++		} else {
++			/* btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x10); */ /*CCK Tx */
++			/* btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x10); */ /*CCK Rx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x10); /* CCK Rx */
++		}
++
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, false);
++
++		btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x0); /* CCK Tx */
++		btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x0); /* CCK Rx */
++
++		coex_sta->cck_ever_lock = false;
++	}
++
++	halbtc8821c1ant_update_wifi_channel_info(btcoexist, type);
++
++}
++
++void ex_halbtc8821c1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean	under_4way = false, wifi_under_5g = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	if (wifi_under_5g) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 5G!!!\n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8821c1ant_action_wifi_under5g(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (under_4way) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], specific Packet ---- under_4way!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	} else if (BTC_PACKET_ARP == type) {
++
++		coex_dm->arp_cnt++;
++
++		if (coex_sta->wifi_is_high_pri_task) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], specific Packet ARP notify -cnt = %d\n", coex_dm->arp_cnt);
++			BTC_TRACE(trace_buf);
++		}
++
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet DHCP or EAPOL notify [Type = %d]\n", type);
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	}
++
++	if (coex_sta->wifi_is_high_pri_task)
++		halbtc8821c1ant_action_wifi_connected_specific_packet(btcoexist);
++}
++
++void ex_halbtc8821c1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8				bt_info = 0;
++	u8				i, rsp_source = 0;
++	boolean				wifi_connected = false;
++	boolean				bt_busy = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8821C_1ANT_MAX)
++		rsp_source = BT_INFO_SRC_8821C_1ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (BT_INFO_SRC_8821C_1ANT_WIFI_FW != rsp_source) {
++
++		/* if 0xff, it means BT is under WHCK test */
++		if (bt_info == 0xff)
++			coex_sta->bt_whck_test = true;
++		else
++			coex_sta->bt_whck_test = false;
++
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x20)
++			coex_sta->c2h_bt_page = true;
++		else
++			coex_sta->c2h_bt_page = false;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x80)
++			coex_sta->bt_create_connection = true;
++		else
++			coex_sta->bt_create_connection = false;
++
++		/* unit: %, value-100 to translate to unit: dBm  */
++		coex_sta->bt_rssi = coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		/* coex_sta->bt_info_c2h[rsp_source][3] * 2 - 90; */
++
++		if ((coex_sta->bt_info_c2h[rsp_source][1] & 0x49) == 0x49) {
++			coex_sta->a2dp_bit_pool =
++				coex_sta->bt_info_c2h[rsp_source][6];
++		} else
++			coex_sta->a2dp_bit_pool = 0;
++
++		if (coex_sta->bt_info_c2h[rsp_source][1] & 0x9)
++			coex_sta->acl_busy = true;
++		else
++			coex_sta->acl_busy = false;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++
++		if ((!btcoexist->manual_control) && (!btcoexist->stop_coex_dm)) {
++
++			/*  Re-Init */
++			if (coex_sta->bt_info_ext & BIT(1)) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++				BTC_TRACE(trace_buf);
++				btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++						   &wifi_connected);
++				if (wifi_connected)
++					halbtc8821c1ant_update_wifi_channel_info(btcoexist,
++							BTC_MEDIA_CONNECT);
++				else
++					halbtc8821c1ant_update_wifi_channel_info(btcoexist,
++							BTC_MEDIA_DISCONNECT);
++			}
++
++			/*  If Ignore_WLanAct && not SetUp_Link */
++			if ((coex_sta->bt_info_ext & BIT(3)) && (!(coex_sta->bt_info_ext & BIT(2)))) {
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821c1ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		}
++		/* check BIT2 first ==> check if bt is under inquiry or page scan */
++		if (bt_info & BT_INFO_8821C_1ANT_B_INQ_PAGE)
++			coex_sta->c2h_bt_inquiry_page = true;
++		else
++			coex_sta->c2h_bt_inquiry_page = false;
++	}
++
++	coex_sta->num_of_profile = 0;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8821C_1ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++
++		coex_sta->bt_hi_pri_link_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8821C_1ANT_B_FTP) {
++			coex_sta->pan_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8821C_1ANT_B_A2DP) {
++			coex_sta->a2dp_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8821C_1ANT_B_HID) {
++			coex_sta->hid_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8821C_1ANT_B_SCO_ESCO) {
++			coex_sta->sco_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->sco_exist = false;
++
++	}
++
++	halbtc8821c1ant_update_bt_link_info(btcoexist);
++
++	bt_info = bt_info &
++		0x1f;  /* mask profile bit for connect-ilde identification ( for CSR case: A2DP idle --> 0x41) */
++
++	if (!(bt_info & BT_INFO_8821C_1ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8821C_1ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8821C_1ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8821C_1ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8821C_1ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8821C_1ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8821C_1ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8821C_1ANT_B_ACL_BUSY) {
++		if (BT_8821C_1ANT_BT_STATUS_ACL_BUSY != coex_dm->bt_status)
++			coex_dm->auto_tdma_adjust = false;
++		coex_dm->bt_status = BT_8821C_1ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8821C_1ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8821C_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8821C_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8821C_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		bt_busy = true;
++	else
++		bt_busy = false;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), No run_coexist_mechanism return for Manual CTRL<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(),  No run_coexist_mechanism return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	halbtc8821c1ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8821c1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RF Status notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_RF_ON == type) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wl_rf_off_on_event = true;
++		btcoexist->stop_coex_dm = false;
++
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, TRUE);
++		halbtc8821c1ant_post_onoffstate_to_bt(btcoexist, TRUE);
++
++	} else if (BTC_RF_OFF == type) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, FALSE);
++		halbtc8821c1ant_post_onoffstate_to_bt(btcoexist, FALSE);
++
++		halbtc8821c1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++		halbtc8821c1ant_set_ant_path(btcoexist, 
++							BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_1ANT_PHASE_WLAN_OFF);
++
++		btcoexist->stop_coex_dm = true;
++		coex_sta->wl_rf_off_on_event = false;
++	}
++}
++
++void ex_halbtc8821c1ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++	halbtc8821c1ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++	halbtc8821c1ant_post_activestate_to_bt(btcoexist, FALSE);
++	halbtc8821c1ant_post_onoffstate_to_bt(btcoexist, FALSE);
++
++	halbtc8821c1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++	
++	halbtc8821c1ant_set_ant_path(btcoexist, 
++							BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_1ANT_PHASE_WLAN_OFF);
++
++	halbtc8821c1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++	ex_halbtc8821c1ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	btcoexist->stop_coex_dm = true;
++}
++
++void ex_halbtc8821c1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++		halbtc8821c1ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, FALSE);
++		halbtc8821c1ant_post_onoffstate_to_bt(btcoexist, FALSE);
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		
++		halbtc8821c1ant_set_ant_path(btcoexist, 
++							BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_1ANT_PHASE_WLAN_OFF);
++
++		btcoexist->stop_coex_dm = true;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, TRUE);
++		halbtc8821c1ant_post_onoffstate_to_bt(btcoexist, TRUE);
++
++		btcoexist->stop_coex_dm = false;
++	}
++}
++
++
++void ex_halbtc8821c1ant_coex_dm_reset(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], *****************Coex DM Reset*****************\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821c1ant_init_hw_config(btcoexist, false, false);
++	halbtc8821c1ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8821c1ant_periodical(IN struct btc_coexist *btcoexist)
++{
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ============== Periodical ==============\n");
++	BTC_TRACE(trace_buf);
++
++#if (BT_AUTO_REPORT_ONLY_8821C_1ANT == 0)
++	halbtc8821c1ant_query_bt_info(btcoexist);
++
++#endif
++
++	halbtc8821c1ant_monitor_bt_ctr(btcoexist);
++	halbtc8821c1ant_monitor_wifi_ctr(btcoexist);
++
++	halbtc8821c1ant_monitor_bt_enable_disable(btcoexist);
++
++	/* for 4-way, DHCP, EAPOL packet */
++	if (coex_sta->specific_pkt_period_cnt > 0) {
++
++		coex_sta->specific_pkt_period_cnt--;
++
++		if ((coex_sta->specific_pkt_period_cnt == 0) && (coex_sta->wifi_is_high_pri_task))
++			coex_sta->wifi_is_high_pri_task = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ***************** Hi-Pri Task = %s*****************\n", (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"));
++		BTC_TRACE(trace_buf);
++	}
++
++	if (coex_sta->bt_coex_supported_feature == 0)
++		coex_sta->bt_coex_supported_feature = btcoexist->btc_get_bt_coex_supported_feature(btcoexist);
++
++	if  ( (coex_sta->bt_coex_supported_version == 0) && (!coex_sta->bt_disabled) )
++		coex_sta->bt_coex_supported_version = btcoexist->btc_get_bt_coex_supported_version(btcoexist);
++
++	if (halbtc8821c1ant_is_wifibt_status_changed(btcoexist))
++		halbtc8821c1ant_run_coexist_mechanism(btcoexist);
++
++
++}
++
++void ex_halbtc8821c1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++#if BT_8821C_1ANT_ANTDET_ENABLE
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	/*boolean scan, roam;*/
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx Call AntennaDetect()!!\n");
++	BTC_TRACE(trace_buf);
++
++	if (seconds == 0) {
++		psd_scan->ant_det_try_count	= 0;
++		psd_scan->ant_det_fail_count	= 0;
++		ant_det_count = 0;
++		ant_det_fail_count = 0;
++		board_info->btdm_ant_det_finish = false;
++		board_info->btdm_ant_num_by_ant_det = 1;
++		return;
++	}
++
++	if (!board_info->btdm_ant_det_finish) {
++		psd_scan->ant_det_inteval_count =
++			psd_scan->ant_det_inteval_count + 2;
++
++		if (psd_scan->ant_det_inteval_count >=
++		    BT_8821C_2ANT_ANTDET_RETRY_INTERVAL) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is up, Try Detect!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c1ant_psd_antenna_detection_check(btcoexist);
++
++			if (board_info->btdm_ant_det_finish) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Success!!\n");
++				BTC_TRACE(trace_buf);
++#if 1
++				if (board_info->btdm_ant_num_by_ant_det == 2)
++					halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_WIFI,
++						     FORCE_EXEC, 	BT_8821C_1ANT_PHASE_2G_RUNTIME);
++				else
++					halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++						     FORCE_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++#endif
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Fail!!\n");
++				BTC_TRACE(trace_buf);
++			}
++			psd_scan->ant_det_inteval_count = 0;
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is not up! (%d)\n",
++				    psd_scan->ant_det_inteval_count);
++			BTC_TRACE(trace_buf);
++		}
++
++	}
++#endif
++
++
++}
++
++
++void ex_halbtc8821c1ant_display_ant_detection(IN struct btc_coexist *btcoexist)
++{
++#if BT_8821C_1ANT_ANTDET_ENABLE
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	if (psd_scan->ant_det_try_count != 0)	{
++		halbtc8821c1ant_psd_show_antenna_detect_result(btcoexist);
++
++		if (board_info->btdm_ant_det_finish)
++			halbtc8821c1ant_psd_showdata(btcoexist);
++		return;
++	}
++#endif
++
++}
++
++void ex_halbtc8821c1ant_antenna_isolation(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++
++}
++
++void ex_halbtc8821c1ant_psd_scan(IN struct btc_coexist *btcoexist,
++		 IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++
++}
++
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/halbtc8821c1ant.h b/drivers/net/wireless/rtl8723du/hal/btc/halbtc8821c1ant.h
+new file mode 100644
+index 0000000..a3cb76a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/halbtc8821c1ant.h
+@@ -0,0 +1,432 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821C_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8821C 1ANT BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8821C_1ANT				1
++
++#define	BT_INFO_8821C_1ANT_B_FTP						BIT(7)
++#define	BT_INFO_8821C_1ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8821C_1ANT_B_HID						BIT(5)
++#define	BT_INFO_8821C_1ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8821C_1ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8821C_1ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8821C_1ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8821C_1ANT_B_CONNECTION				BIT(0)
++
++#define	BT_INFO_8821C_1ANT_A2DP_BASIC_RATE(_BT_INFO_EXT_)	\
++	(((_BT_INFO_EXT_&BIT(0))) ? true : false)
++
++#define	BTC_RSSI_COEX_THRESH_TOL_8821C_1ANT		2
++
++#define  BT_8821C_1ANT_WIFI_NOISY_THRESH							30   /* max: 255 */
++
++/* for Antenna detection */
++#define	BT_8821C_1ANT_ANTDET_PSDTHRES_BACKGROUND					50
++#define	BT_8821C_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION				70
++#define	BT_8821C_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION			55
++#define	BT_8821C_1ANT_ANTDET_PSDTHRES_1ANT							35
++#define	BT_8821C_1ANT_ANTDET_RETRY_INTERVAL							10	/* retry timer if ant det is fail, unit: second */
++#define	BT_8821C_1ANT_ANTDET_SWEEPPOINT_DELAY							40000
++#define	BT_8821C_1ANT_ANTDET_ENABLE									0
++#define	BT_8821C_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE				0
++#define	BT_8821C_1ANT_ANTDET_BTTXTIME									100
++#define	BT_8821C_1ANT_ANTDET_BTTXCHANNEL								39
++
++#define	BT_8821C_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT		30000
++
++enum bt_8821c_1ant_signal_state {
++	BT_8821C_1ANT_SIG_STA_SET_TO_LOW		= 0x0,
++	BT_8821C_1ANT_SIG_STA_SET_BY_HW		= 0x0,
++	BT_8821C_1ANT_SIG_STA_SET_TO_HIGH		= 0x1,
++	BT_8821C_1ANT_SIG_STA_MAX
++};
++
++enum bt_8821c_1ant_path_ctrl_owner {
++	BT_8821C_1ANT_PCO_BTSIDE		= 0x0,
++	BT_8821C_1ANT_PCO_WLSIDE	= 0x1,
++	BT_8821C_1ANT_PCO_MAX
++};
++
++enum bt_8821c_1ant_gnt_ctrl_type {
++	BT_8821C_1ANT_GNT_TYPE_CTRL_BY_PTA		= 0x0,
++	BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW		= 0x1,
++	BT_8821C_1ANT_GNT_TYPE_MAX
++};
++
++enum bt_8821c_1ant_gnt_ctrl_block {
++	BT_8821C_1ANT_GNT_BLOCK_RFC_BB		= 0x0,
++	BT_8821C_1ANT_GNT_BLOCK_RFC			= 0x1,
++	BT_8821C_1ANT_GNT_BLOCK_BB			= 0x2,
++	BT_8821C_1ANT_GNT_BLOCK_MAX
++};
++
++enum bt_8821c_1ant_lte_coex_table_type {
++	BT_8821C_1ANT_CTT_WL_VS_LTE			= 0x0,
++	BT_8821C_1ANT_CTT_BT_VS_LTE			= 0x1,
++	BT_8821C_1ANT_CTT_MAX
++};
++
++enum bt_8821c_1ant_lte_break_table_type {
++	BT_8821C_1ANT_LBTT_WL_BREAK_LTE			= 0x0,
++	BT_8821C_1ANT_LBTT_BT_BREAK_LTE				= 0x1,
++	BT_8821C_1ANT_LBTT_LTE_BREAK_WL			= 0x2,
++	BT_8821C_1ANT_LBTT_LTE_BREAK_BT				= 0x3,
++	BT_8821C_1ANT_LBTT_MAX
++};
++
++enum bt_info_src_8821c_1ant {
++	BT_INFO_SRC_8821C_1ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8821C_1ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8821C_1ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8821C_1ANT_MAX
++};
++
++enum bt_8821c_1ant_bt_status {
++	BT_8821C_1ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8821C_1ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8821C_1ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8821C_1ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8821C_1ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8821C_1ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8821C_1ANT_BT_STATUS_MAX
++};
++
++enum bt_8821c_1ant_wifi_status {
++	BT_8821C_1ANT_WIFI_STATUS_NON_CONNECTED_IDLE				= 0x0,
++	BT_8821C_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN		= 0x1,
++	BT_8821C_1ANT_WIFI_STATUS_CONNECTED_SCAN					= 0x2,
++	BT_8821C_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT				= 0x3,
++	BT_8821C_1ANT_WIFI_STATUS_CONNECTED_IDLE					= 0x4,
++	BT_8821C_1ANT_WIFI_STATUS_CONNECTED_BUSY					= 0x5,
++	BT_8821C_1ANT_WIFI_STATUS_MAX
++};
++
++enum bt_8821c_1ant_coex_algo {
++	BT_8821C_1ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8821C_1ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8821C_1ANT_COEX_ALGO_HID				= 0x2,
++	BT_8821C_1ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8821C_1ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8821C_1ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8821C_1ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8821C_1ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8821C_1ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8821C_1ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8821C_1ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8821C_1ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++enum bt_8821c_1ant_ext_ant_switch_type {
++	BT_8821C_1ANT_EXT_ANT_SWITCH_USE_DPDT		= 0x0,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_USE_SPDT		= 0x1,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_MAX
++};
++
++
++enum bt_8821c_1ant_ext_ant_switch_ctrl_type {
++	BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW	= 0x0,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_PTA		= 0x1,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_ANTDIV	= 0x2,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_MAC		= 0x3,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_BT		= 0x4,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_MAX
++};
++
++enum bt_8821c_1ant_ext_ant_switch_pos_type {
++	BT_8821C_1ANT_EXT_ANT_SWITCH_TO_BT			= 0x0,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_TO_WLG			= 0x1,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_TO_WLA			= 0x2,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_TO_NOCARE		= 0x3,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_TO_MAX
++};
++
++enum bt_8821c_1ant_ext_band_switch_pos_type {
++	BT_8821C_1ANT_EXT_BAND_SWITCH_TO_WLG			= 0x0,
++	BT_8821C_1ANT_EXT_BAND_SWITCH_TO_WLA			= 0x1,
++	BT_8821C_1ANT_EXT_BAND_SWITCH_TO_MAX
++};
++
++enum bt_8821c_1ant_int_block{
++	BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLG_OF_BTG			= 0x0,
++	BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG		= 0x1,
++	BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLA_OF_WLAG		= 0x2,
++	BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_MAX
++};
++
++enum bt_8821c_1ant_phase{
++	BT_8821C_1ANT_PHASE_COEX_INIT								= 0x0,
++	BT_8821C_1ANT_PHASE_WLANONLY_INIT							= 0x1,	
++	BT_8821C_1ANT_PHASE_WLAN_OFF								= 0x2,
++	BT_8821C_1ANT_PHASE_2G_RUNTIME								= 0x3,
++	BT_8821C_1ANT_PHASE_5G_RUNTIME								= 0x4,
++	BT_8821C_1ANT_PHASE_BTMPMODE									= 0x5,
++	BT_8821C_1ANT_PHASE_MAX
++};
++
++
++struct coex_dm_8821c_1ant {
++	/* hw setting */
++	u32		pre_ant_pos_type;
++	u32		cur_ant_pos_type;
++	/* fw mechanism */
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	/* sw mechanism */
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++	u32		arp_cnt;
++
++	u32		pre_ext_ant_switch_status;
++	u32		cur_ext_ant_switch_status;
++	
++	u8		pre_ext_band_switch_status;
++	u8		cur_ext_band_switch_status;
++
++	u8		pre_int_block_status;
++	u8		cur_int_block_status;
++
++	u8		error_condition;
++};
++
++struct coex_sta_8821c_1ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++	boolean					bt_hi_pri_link_exist;
++	u8					num_of_profile;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					specific_pkt_period_cnt;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	s8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8821C_1ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8821C_1ANT_MAX];
++	boolean					bt_whck_test;
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_page;				/* Add for win8.1 page out issue */
++	boolean					wifi_is_high_pri_task;		/* Add for win8.1 page out issue */
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	boolean					cck_lock;
++	boolean					pre_ccklock;
++	boolean					cck_ever_lock;
++	u8					coex_table_type;
++
++	boolean					force_lps_on;
++	u32					wrong_profile_notification;
++
++	boolean					concurrent_rx_mode_on;
++
++	u16					score_board;
++
++	u8					a2dp_bit_pool;
++	u8					cut_version;
++	boolean				acl_busy;
++	boolean				wl_rf_off_on_event;
++	boolean				bt_create_connection;
++	boolean				run_time_state;
++
++	u32					bt_coex_supported_feature;
++	u32					bt_coex_supported_version;
++};
++
++
++#define  BT_8821C_1ANT_EXT_BAND_SWITCH_USE_DPDT 	0
++#define  BT_8821C_1ANT_EXT_BAND_SWITCH_USE_SPDT 	1
++
++
++struct rfe_type_8821c_1ant{
++
++	u8			rfe_module_type;	
++	boolean		ext_ant_switch_exist;
++	u8			ext_ant_switch_type;			/* 0:DPDT, 1:SPDT */
++	u8			ext_ant_switch_ctrl_polarity;		/*  iF 0: DPDT_P=0, DPDT_N=1 => BTG to Main, WL_A+G to Aux */
++	
++	boolean		ext_band_switch_exist;
++	u8			ext_band_switch_type;			/* 0:DPDT, 1:SPDT */
++	u8			ext_band_switch_ctrl_polarity;
++
++	boolean		wlg_Locate_at_btg;				/*  If true:  WLG at BTG, If false: WLG at WLAG  */			
++
++	boolean		ext_ant_switch_diversity;		/* If diversity on  */
++};
++
++#define  BT_8821C_1ANT_ANTDET_PSD_POINTS			256	/* MAX:1024 */
++#define  BT_8821C_1ANT_ANTDET_PSD_AVGNUM			1	/* MAX:3 */
++#define	BT_8821C_1ANT_ANTDET_BUF_LEN				16
++
++struct psdscan_sta_8821c_1ant {
++
++	u32			ant_det_bt_le_channel;  /* BT LE Channel ex:2412 */
++	u32			ant_det_bt_tx_time;
++	u32			ant_det_pre_psdscan_peak_val;
++	boolean			ant_det_is_ant_det_available;
++	u32			ant_det_psd_scan_peak_val;
++	boolean			ant_det_is_btreply_available;
++	u32			ant_det_psd_scan_peak_freq;
++
++	u8			ant_det_result;
++	u8			ant_det_peak_val[BT_8821C_1ANT_ANTDET_BUF_LEN];
++	u8			ant_det_peak_freq[BT_8821C_1ANT_ANTDET_BUF_LEN];
++	u32			ant_det_try_count;
++	u32			ant_det_fail_count;
++	u32			ant_det_inteval_count;
++	u32			ant_det_thres_offset;
++
++	u32			real_cent_freq;
++	s32			real_offset;
++	u32			real_span;
++
++	u32			psd_band_width;  /* unit: Hz */
++	u32			psd_point;		/* 128/256/512/1024 */
++	u32			psd_report[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_report_max_hold[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_start_point;
++	u32			psd_stop_point;
++	u32			psd_max_value_point;
++	u32			psd_max_value;
++	u32			psd_start_base;
++	u32			psd_avg_num;	/* 1/8/16/32 */
++	u32			psd_gen_count;
++	boolean			is_psd_running;
++	boolean			is_psd_show_max_only;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8821c1ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c1ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8821c1ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c1ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8821c1ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8821c1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8821c1ant_switchband_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8821c1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8821c1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821c1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821c1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8821c1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821c1ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8821c1ant_coex_dm_reset(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c1ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c1ant_display_coex_info(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8821c1ant_antenna_isolation(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++
++void ex_halbtc8821c1ant_psd_scan(IN struct btc_coexist *btcoexist,
++		 IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8821c1ant_display_ant_detection(IN struct btc_coexist *btcoexist);
++
++#else
++#define	ex_halbtc8821c1ant_power_on_setting(btcoexist)
++#define	ex_halbtc8821c1ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8821c1ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8821c1ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8821c1ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8821c1ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8821c1ant_scan_notify(btcoexist, type)
++#define   ex_halbtc8821c1ant_switchband_notify(btcoexist,type)
++#define	ex_halbtc8821c1ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8821c1ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8821c1ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8821c1ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8821c1ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8821c1ant_halt_notify(btcoexist)
++#define	ex_halbtc8821c1ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8821c1ant_coex_dm_reset(btcoexist)
++#define	ex_halbtc8821c1ant_periodical(btcoexist)
++#define	ex_halbtc8821c1ant_display_coex_info(btcoexist)
++#define	ex_halbtc8821c1ant_antenna_detection(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8821c1ant_antenna_isolation(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8821c1ant_psd_scan(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8821c1ant_display_ant_detection(btcoexist)
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/halbtc8821c2ant.c b/drivers/net/wireless/rtl8723du/hal/btc/halbtc8821c2ant.c
+new file mode 100644
+index 0000000..7579fa9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/halbtc8821c2ant.c
+@@ -0,0 +1,6096 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8821C Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821C_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	*trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8821c_2ant		glcoex_dm_8821c_2ant;
++static struct  coex_dm_8821c_2ant	*coex_dm = &glcoex_dm_8821c_2ant;
++static struct  coex_sta_8821c_2ant		glcoex_sta_8821c_2ant;
++static struct  coex_sta_8821c_2ant	*coex_sta = &glcoex_sta_8821c_2ant;
++static struct  psdscan_sta_8821c_2ant	gl_psd_scan_8821c_2ant;
++static struct  psdscan_sta_8821c_2ant *psd_scan = &gl_psd_scan_8821c_2ant;
++static struct	rfe_type_8821c_2ant		gl_rfe_type_8821c_2ant;
++static struct	rfe_type_8821c_2ant		*rfe_type = &gl_rfe_type_8821c_2ant;
++
++const char *const glbt_info_src_8821c_2ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8821c_2ant = 20160316;
++u32	glcoex_ver_8821c_2ant = 0x00;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8821c2ant_
++ * ************************************************************ */
++u8 halbtc8821c2ant_bt_rssi_state(u8 *ppre_bt_rssi_state, u8 level_num,
++				 u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = *ppre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((*ppre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*ppre_bt_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8821C_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return *ppre_bt_rssi_state;
++		}
++
++		if ((*ppre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*ppre_bt_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8821C_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((*ppre_bt_rssi_state == BTC_RSSI_STATE_MEDIUM) ||
++			(*ppre_bt_rssi_state == BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8821C_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	*ppre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8821c2ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 *pprewifi_rssi_state, IN u8 level_num, IN u8 rssi_thresh,
++				   IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = *pprewifi_rssi_state;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((*pprewifi_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*pprewifi_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8821C_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return *pprewifi_rssi_state;
++		}
++
++		if ((*pprewifi_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*pprewifi_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8821C_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((*pprewifi_rssi_state == BTC_RSSI_STATE_MEDIUM) ||
++			(*pprewifi_rssi_state == BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8821C_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	*pprewifi_rssi_state = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8821c2ant_coex_switch_threshold(IN struct btc_coexist *btcoexist,
++		IN u8 isolation_measuared)
++{
++	s8	interference_wl_tx = 0, interference_bt_tx = 0;
++
++
++	interference_wl_tx = BT_8821C_2ANT_WIFI_MAX_TX_POWER - isolation_measuared;
++	interference_bt_tx = BT_8821C_2ANT_BT_MAX_TX_POWER - isolation_measuared;
++
++
++
++	coex_sta->wifi_coex_thres		 = BT_8821C_2ANT_WIFI_RSSI_COEXSWITCH_THRES1;
++	coex_sta->wifi_coex_thres2	 = BT_8821C_2ANT_WIFI_RSSI_COEXSWITCH_THRES2;
++
++	coex_sta->bt_coex_thres		 = BT_8821C_2ANT_BT_RSSI_COEXSWITCH_THRES1;
++	coex_sta->bt_coex_thres2		 = BT_8821C_2ANT_BT_RSSI_COEXSWITCH_THRES2;
++
++
++	/*
++		coex_sta->wifi_coex_thres		= interference_wl_tx + BT_8821C_2ANT_WIFI_SIR_THRES1;
++		coex_sta->wifi_coex_thres2		= interference_wl_tx + BT_8821C_2ANT_WIFI_SIR_THRES2;
++
++		coex_sta->bt_coex_thres		= interference_bt_tx + BT_8821C_2ANT_BT_SIR_THRES1;
++		coex_sta->bt_coex_thres2		= interference_bt_tx + BT_8821C_2ANT_BT_SIR_THRES2;
++	*/
++
++
++
++
++
++	/*
++		if  ( BT_8821C_2ANT_WIFI_RSSI_COEXSWITCH_THRES1 < (isolation_measuared -
++					BT_8821C_2ANT_DEFAULT_ISOLATION) )
++			coex_sta->wifi_coex_thres	 = BT_8821C_2ANT_WIFI_RSSI_COEXSWITCH_THRES1;
++		else
++			coex_sta->wifi_coex_thres =  BT_8821C_2ANT_WIFI_RSSI_COEXSWITCH_THRES1 -  (isolation_measuared -
++					BT_8821C_2ANT_DEFAULT_ISOLATION);
++
++		if  ( BT_8821C_2ANT_BT_RSSI_COEXSWITCH_THRES1 < (isolation_measuared -
++					BT_8821C_2ANT_DEFAULT_ISOLATION) )
++			coex_sta->bt_coex_thres	 = BT_8821C_2ANT_BT_RSSI_COEXSWITCH_THRES1;
++		else
++			coex_sta->bt_coex_thres =  BT_8821C_2ANT_BT_RSSI_COEXSWITCH_THRES1 -  (isolation_measuared -
++					BT_8821C_2ANT_DEFAULT_ISOLATION);
++
++	*/
++}
++
++
++void halbtc8821c2ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++}
++
++void halbtc8821c2ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++void halbtc8821c2ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++	static u8		num_of_bt_counter_chk = 0, cnt_slave = 0;
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++
++	if ((coex_sta->low_priority_tx > 1050)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++
++	if ((coex_sta->low_priority_rx >= 950) && (coex_sta->low_priority_rx >= coex_sta->low_priority_tx)
++	    && (!coex_sta->under_ips)  && (!coex_sta->c2h_bt_inquiry_page) && (coex_sta->bt_link_exist))	{
++		if (cnt_slave >= 2) {
++			bt_link_info->slave_role = true;
++			cnt_slave = 2;
++		} else
++			cnt_slave++;
++	} else {
++		if (cnt_slave == 0)	{
++			bt_link_info->slave_role = false;
++			cnt_slave = 0;
++		} else
++			cnt_slave--;
++
++	}
++
++	if ((coex_sta->high_priority_tx == 0) && (coex_sta->high_priority_rx == 0) && (coex_sta->low_priority_tx == 0) &&
++	    (coex_sta->low_priority_rx == 0)) {
++		num_of_bt_counter_chk++;
++		if (num_of_bt_counter_chk >= 3) {
++			halbtc8821c2ant_query_bt_info(btcoexist);
++			num_of_bt_counter_chk = 0;
++		}
++	}
++
++}
++
++void halbtc8821c2ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++
++
++	if (coex_sta->under_ips) {
++		coex_sta->crc_ok_cck = 0;
++		coex_sta->crc_ok_11g = 0;
++		coex_sta->crc_ok_11n = 0;
++		coex_sta->crc_ok_11n_agg = 0;
++
++		coex_sta->crc_err_cck = 0;
++		coex_sta->crc_err_11g = 0;
++		coex_sta->crc_err_11n = 0;
++		coex_sta->crc_err_11n_agg = 0;
++	} else {
++		coex_sta->crc_ok_cck	= btcoexist->btc_read_4byte(btcoexist,
++					  0xf88);
++		coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf94);
++		coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf90);
++		coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					   0xfb8);
++
++		coex_sta->crc_err_cck	 = btcoexist->btc_read_4byte(btcoexist,
++					   0xf84);
++		coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf96);
++		coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf92);
++		coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					    0xfba);
++	}
++
++	/* reset counter */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x0);
++}
++
++
++boolean halbtc8821c2ant_is_wifibt_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false, pre_bt_off = false;
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	boolean			wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean			wifi_connected = false;
++	u8			wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (coex_sta->bt_disabled != pre_bt_off) {
++		pre_bt_off = coex_sta->bt_disabled;
++
++		if (coex_sta->bt_disabled)
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++		else
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is enabled !!\n");
++
++		BTC_TRACE(trace_buf);
++
++		coex_sta->bt_coex_supported_feature = 0;
++		coex_sta->bt_coex_supported_version = 0;
++		return true;
++	}
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++
++	}
++
++	return false;
++}
++
++void halbtc8821c2ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++	bt_link_info->acl_busy = coex_sta->acl_busy;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++void halbtc8821c2ant_update_wifi_channel_info(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] =
++			0x1;  /* enable BT AFH skip WL channel for 8821c because BT Rx LO interference */
++		/* h2c_parameter[0] = 0x0; */
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++
++}
++
++void halbtc8821c2ant_set_fw_dac_swing_level(IN struct btc_coexist *btcoexist,
++		IN u8 dac_swing_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	/* There are several type of dacswing */
++	/* 0x18/ 0x10/ 0xc/ 0x8/ 0x4/ 0x6 */
++	h2c_parameter[0] = dac_swing_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x64, 1, h2c_parameter);
++}
++
++void halbtc8821c2ant_fw_dac_swing_lvl(IN struct btc_coexist *btcoexist,
++			      IN boolean force_exec, IN u8 fw_dac_swing_lvl)
++{
++	coex_dm->cur_fw_dac_swing_lvl = fw_dac_swing_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_fw_dac_swing_lvl ==
++		    coex_dm->cur_fw_dac_swing_lvl)
++			return;
++	}
++
++	halbtc8821c2ant_set_fw_dac_swing_level(btcoexist,
++					       coex_dm->cur_fw_dac_swing_lvl);
++
++	coex_dm->pre_fw_dac_swing_lvl = coex_dm->cur_fw_dac_swing_lvl;
++}
++
++void halbtc8821c2ant_set_fw_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				       IN u8 dec_bt_pwr_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = dec_bt_pwr_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x62, 1, h2c_parameter);
++}
++
++void halbtc8821c2ant_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				IN boolean force_exec, IN u8 dec_bt_pwr_lvl)
++{
++	coex_dm->cur_bt_dec_pwr_lvl = dec_bt_pwr_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_dec_pwr_lvl == coex_dm->cur_bt_dec_pwr_lvl)
++			return;
++	}
++	halbtc8821c2ant_set_fw_dec_bt_pwr(btcoexist,
++					  coex_dm->cur_bt_dec_pwr_lvl);
++
++	coex_dm->pre_bt_dec_pwr_lvl = coex_dm->cur_bt_dec_pwr_lvl;
++}
++
++void halbtc8821c2ant_set_fw_low_penalty_ra(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8821c2ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8821c2ant_set_fw_low_penalty_ra(btcoexist,
++					      coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8821c2ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8821c2ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8821c2ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8821c2ant_sw_mechanism1(IN struct btc_coexist *btcoexist,
++			   IN boolean shrink_rx_lpf, IN boolean low_penalty_ra,
++			   IN boolean limited_dig, IN boolean bt_lna_constrain)
++{
++
++	halbtc8821c2ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8821c2ant_sw_mechanism2(IN struct btc_coexist *btcoexist,
++			   IN boolean agc_table_shift, IN boolean adc_back_off,
++			   IN boolean sw_dac_swing, IN u32 dac_swing_lvl)
++{
++	/* halbtc8821c2ant_agc_table(btcoexist, NORMAL_EXEC, agc_table_shift); */
++	/* halbtc8821c2ant_adc_back_off(btcoexist, NORMAL_EXEC, adc_back_off); */
++}
++
++void halbtc8821c2ant_write_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	u16				bitpos,
++	IN	BOOLEAN		state
++)
++{
++
++	static u16 originalval = 0x8002;
++
++	if (state)
++		originalval = originalval | bitpos;
++	else
++		originalval = originalval & (~bitpos);
++
++
++	btcoexist->btc_write_2byte(btcoexist, 0xaa, originalval);
++
++}
++
++void halbtc8821c2ant_read_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN   u16				*score_board_val
++)
++{
++
++	*score_board_val = (btcoexist->btc_read_2byte(btcoexist,
++			    0xaa)) & 0x7fff;
++}
++
++void halbtc8821c2ant_post_activestate_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_active
++)
++{
++
++	if (wifi_active)
++		halbtc8821c2ant_write_score_board(btcoexist, (u16) BIT(0), TRUE);
++	else
++		halbtc8821c2ant_write_score_board(btcoexist, (u16) BIT(0), FALSE);
++
++	/* The BT should set "No Shunt-down" mode if WL = Active for BT Synthesizer on/off interference WL Lo issue at 8703b b-cut. */
++
++}
++
++void halbtc8821c2ant_post_onoffstate_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_on
++)
++{
++
++	if (wifi_on)
++		halbtc8821c2ant_write_score_board(btcoexist, (u16) BIT(1), TRUE);
++	else
++		halbtc8821c2ant_write_score_board(btcoexist, (u16) BIT(1), FALSE);
++
++}
++
++void halbtc8821c2ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++	u16			u16tmp;
++
++	/* This function check if bt is disabled */
++#if 0
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++
++
++#else
++
++	/* Read BT on/off status from scoreboard[1], enable this only if BT patch support this feature */
++	halbtc8821c2ant_read_score_board(btcoexist,	&u16tmp);
++
++	bt_active = u16tmp & BIT(1);
++
++
++#endif
++
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	} else {
++
++		bt_disable_cnt++;
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			bt_disable_cnt = 2;
++		}
++
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	}
++
++
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++	}
++
++}
++
++void halbtc8821c2ant_enable_gnt_to_gpio(IN struct btc_coexist *btcoexist,
++					boolean isenable)
++{
++	static u8 			bitVal[5] = {0,0,0,0,0};
++	static boolean 		state = false;
++
++	if (state ==isenable)
++		return;
++	else
++		state = isenable;
++
++	if (isenable) {
++
++		/* enable GNT_WL, GNT_BT to GPIO for debug  */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x1);
++
++		/* store original value  */
++		bitVal[0] = (btcoexist->btc_read_1byte(btcoexist, 0x66) & BIT(4)) >>4;	/*0x66[4] */
++		bitVal[1] = (btcoexist->btc_read_1byte(btcoexist, 0x67) & BIT(0));		/*0x66[8] */
++		bitVal[2] = (btcoexist->btc_read_1byte(btcoexist, 0x42) & BIT(3)) >> 3;  /*0x40[19] */
++		bitVal[3] = (btcoexist->btc_read_1byte(btcoexist, 0x65) & BIT(7)) >> 7;  /*0x64[15] */
++		bitVal[4] = (btcoexist->btc_read_1byte(btcoexist, 0x72) & BIT(2)) >> 2;  /*0x70[18] */
++
++		/*  switch GPIO Mux */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x66, BIT(4), 0x0);  /*0x66[4] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, BIT(0), 0x0);  /*0x66[8] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x42, BIT(3), 0x0);  /*0x40[19] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x65, BIT(7), 0x0);  /*0x64[15] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x72, BIT(2), 0x0);  /*0x70[18] = 0 */
++		
++
++	} else {
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x0);
++
++		/*  Restore original value   */
++		/*  switch GPIO Mux */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x66, BIT(4), bitVal[0]);  /*0x66[4] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, BIT(0), bitVal[1]);  /*0x66[8] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x42, BIT(3), bitVal[2]);  /*0x40[19] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x65, BIT(7), bitVal[3]);  /*0x64[15] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x72, BIT(2), bitVal[4]);  /*0x70[18] = 0 */
++	}
++
++}
++
++u32 halbtc8821c2ant_ltecoex_indirect_read_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr)
++{
++	u32 j = 0;
++
++
++	/* wait for ready bit before access 0x1700		 */
++	btcoexist->btc_write_4byte(btcoexist, 0x1700, 0x800F0000 | reg_addr);
++
++	do {
++		j++;
++	} while (((btcoexist->btc_read_1byte(btcoexist,
++					     0x1703)&BIT(5)) == 0) &&
++		 (j < BT_8821C_2ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++	return btcoexist->btc_read_4byte(btcoexist,
++					 0x1708);  /* get read data */
++
++}
++
++void halbtc8821c2ant_ltecoex_indirect_write_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr, IN u32 bit_mask, IN u32 reg_value)
++{
++	u32 val, i = 0, j = 0, bitpos = 0;
++
++
++	if (bit_mask == 0x0)
++		return;
++	if (bit_mask == 0xffffffff) {
++		btcoexist->btc_write_4byte(btcoexist, 0x1704,
++					   reg_value); /* put write data */
++
++		/* wait for ready bit before access 0x1700 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x1703)&BIT(5)) == 0) &&
++			(j < BT_8821C_2ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x1700,
++					   0xc00F0000 | reg_addr);
++	} else {
++		for (i = 0; i <= 31; i++) {
++			if (((bit_mask >> i) & 0x1) == 0x1) {
++				bitpos = i;
++				break;
++			}
++		}
++
++		/* read back register value before write */
++		val = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist,
++				reg_addr);
++		val = (val & (~bit_mask)) | (reg_value << bitpos);
++
++		btcoexist->btc_write_4byte(btcoexist, 0x1704,
++					   val); /* put write data */
++
++		/* wait for ready bit before access 0x7c0		 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x1703)&BIT(5)) == 0) &&
++			(j < BT_8821C_2ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x1700,
++					   0xc00F0000 | reg_addr);
++
++	}
++
++}
++
++void halbtc8821c2ant_ltecoex_enable(IN struct btc_coexist *btcoexist,
++				    IN boolean enable)
++{
++	u8 val;
++
++	val = (enable) ? 1 : 0;
++	halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist, 0x38, 0x80,
++			val);  /* 0x38[7] */
++
++}
++
++void halbtc8821c2ant_ltecoex_pathcontrol_owner(IN struct btc_coexist *btcoexist,
++		IN boolean wifi_control)
++{
++	u8 val;
++
++	val = (wifi_control) ? 1 : 0;
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x4,
++					   val); /* 0x70[26] */
++
++}
++
++void halbtc8821c2ant_ltecoex_set_gnt_bt(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8821C_2ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0xc000;
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		bit_mask = 0x0c00;
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10]						 */
++		break;
++	case BT_8821C_2ANT_GNT_BLOCK_RFC:
++		bit_mask = 0xc000;
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		break;
++	case BT_8821C_2ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0c00;
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10] */
++		break;
++
++	}
++
++}
++
++void halbtc8821c2ant_ltecoex_set_gnt_wl(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8821C_2ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0x3000;
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		bit_mask = 0x0300;
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8]						 */
++		break;
++	case BT_8821C_2ANT_GNT_BLOCK_RFC:
++		bit_mask = 0x3000;
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		break;
++	case BT_8821C_2ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0300;
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8] */
++		break;
++
++	}
++
++}
++
++void halbtc8821c2ant_ltecoex_set_coex_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u16 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8821C_2ANT_CTT_WL_VS_LTE:
++		reg_addr = 0xa0;
++		break;
++	case BT_8821C_2ANT_CTT_BT_VS_LTE:
++		reg_addr = 0xa4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xffff, table_content); /* 0xa0[15:0] or 0xa4[15:0] */
++
++
++}
++
++
++void halbtc8821c2ant_ltecoex_set_break_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u8 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8821C_2ANT_LBTT_WL_BREAK_LTE:
++		reg_addr = 0xa8;
++		break;
++	case BT_8821C_2ANT_LBTT_BT_BREAK_LTE:
++		reg_addr = 0xac;
++		break;
++	case BT_8821C_2ANT_LBTT_LTE_BREAK_WL:
++		reg_addr = 0xb0;
++		break;
++	case BT_8821C_2ANT_LBTT_LTE_BREAK_BT:
++		reg_addr = 0xb4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xff, table_content); /* 0xa8[15:0] or 0xb4[15:0] */
++
++
++}
++
++
++void halbtc8821c2ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8821c2ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8821c2ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8821c2ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	u32	break_table;
++	u8	select_table;
++
++	coex_sta->coex_table_type = type;
++
++	if (coex_sta->concurrent_rx_mode_on == true) {
++		break_table = 0xf0ffffff;  /* set WL hi-pri can break BT */
++		select_table =
++			0xb;		/* set Tx response = Hi-Pri (ex: Transmitting ACK,BA,CTS) */
++	} else {
++		break_table = 0xffffff;
++		select_table = 0x3;
++	}
++
++	switch (type) {
++	case 0:
++		halbtc8821c2ant_coex_table(btcoexist, force_exec,
++			   0xffffffff, 0xffffffff, break_table, select_table);
++		break;
++	case 1:
++		halbtc8821c2ant_coex_table(btcoexist, force_exec,
++			   0xaaaaaaaa, 0xaaaaaaaa, break_table, select_table);
++		break;
++	case 2:
++		halbtc8821c2ant_coex_table(btcoexist, force_exec,
++			   0x5a5a5a5a, 0x5a5a5a5a, break_table, select_table);
++		break;
++	case 3:
++		halbtc8821c2ant_coex_table(btcoexist, force_exec,
++			   0xdafadafa, 0xdafadafa, break_table, select_table);
++		break;
++	case 4:
++		halbtc8821c2ant_coex_table(btcoexist, force_exec,
++			   0xddffddff, 0xffbbffbb, break_table, select_table);
++		break;
++	case 5:
++		halbtc8821c2ant_coex_table(btcoexist, force_exec,
++			   0x5fff5fff, 0x5fff5fff, break_table, select_table);
++		break;
++	case 6:
++		halbtc8821c2ant_coex_table(btcoexist, force_exec,
++			   0x55ff55ff, 0x5a5a5a5a, break_table, select_table);
++		break;
++	case 7:
++		halbtc8821c2ant_coex_table(btcoexist, force_exec,
++			   0x5aff55ff, 0x5a7a5a7a, break_table, select_table);
++		break;
++	case 8:
++		halbtc8821c2ant_coex_table(btcoexist, force_exec,
++			   0x55555555, 0xaaaaaaaa, break_table, select_table);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8821c2ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8821c2ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8821c2ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8821c2ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8821c2ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8821c2ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8821c2ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++	u8	h2c_parameter[5] = {0, 0, 0, 0x40, 0};
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			/*halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8); */
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			/*halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);*/
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8821c2ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8821c2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8821c2ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		coex_sta->force_lps_on = true;
++		break;
++	case BTC_PS_LPS_OFF:
++		halbtc8821c2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	default:
++		break;
++	}
++}
++
++
++
++void halbtc8821c2ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], FW for 1Ant AP mode\n");
++			BTC_TRACE(trace_buf);
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++
++			halbtc8821c2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++							 0x0);
++		}
++	} else if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++
++		halbtc8821c2ant_power_save_state(
++			btcoexist, BTC_PS_LPS_ON, 0x50,
++			0x4);
++	} else {
++		halbtc8821c2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++						 0x0);
++	}
++
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++void halbtc8821c2ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++
++	static u8			psTdmaByte4Modify = 0x0, pre_psTdmaByte4Modify = 0x0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	/* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++	if ((bt_link_info->slave_role) && (bt_link_info->a2dp_exist))
++		psTdmaByte4Modify = 0x1;
++	else
++		psTdmaByte4Modify = 0x0;
++
++	if (pre_psTdmaByte4Modify != psTdmaByte4Modify) {
++
++		force_exec = true;
++		pre_psTdmaByte4Modify = psTdmaByte4Modify;
++	}
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], %s turn %s PS TDMA, type=%d\n",
++		(force_exec ? "force to" : ""), (turn_on ? "ON" : "OFF"), type);
++	BTC_TRACE(trace_buf);
++
++
++	if (turn_on)	{
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++	}
++
++
++	if (turn_on) {
++		switch (type) {
++		case 1:
++		default:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x03, 0xf1,
++						      0x14 | psTdmaByte4Modify);
++			break;
++		case 2:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x35, 0x03, 0x71,
++						      0x11 | psTdmaByte4Modify);
++			break;
++		case 3:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3a, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 4:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x21, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 5:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x30, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 6:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 7:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 11:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x30, 0x03, 0x71,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 12:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x21, 0x03, 0x71,
++						      0x11 | psTdmaByte4Modify);
++			break;
++		case 13:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x03, 0x71,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 101:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x10, 0x03, 0x70,
++						      0x14 | psTdmaByte4Modify);
++			break;
++		case 102:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x35, 0x03, 0x71,
++						      0x11 | psTdmaByte4Modify);
++			break;
++		case 103:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x3a, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 104:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x21, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 105:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x30, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 106:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1c, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 107:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x25, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++
++
++		}
++	} else {
++		/* disable PS tdma */
++		switch (type) {
++		case 0:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x40, 0x0);
++			break;
++		case 1:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x48, 0x0);
++			break;
++		default:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x40, 0x0);
++			break;
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8821c2ant_set_int_block(IN struct btc_coexist *btcoexist, IN boolean force_exec,  IN u8 pos_type)
++{
++	u8		regval_0xcba;
++	u32		u32tmp1 = 0;
++
++	 coex_dm->cur_int_block_status = pos_type;
++	 	
++	if (!force_exec) {
++		if (coex_dm->pre_int_block_status == coex_dm->cur_int_block_status)
++			return;	
++	} 
++
++	coex_dm->pre_int_block_status = coex_dm->cur_int_block_status;
++
++	regval_0xcba =  btcoexist->btc_read_1byte(btcoexist, 0xcba);
++
++	switch(pos_type){
++
++		case BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLG_OF_BTG:
++			regval_0xcba =  regval_0xcba & (~(BIT(2)) ) | BIT(0);  			/* 0xcb8[16] = 1, 0xcb8[18] = 0, WL_G select BTG */
++			break;
++		case BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG:
++			regval_0xcba =   regval_0xcba & (~(BIT(2) | BIT(0)) );   		/* 0xcb8[16] = 0, 0xcb8[18] = 0, WL_G select WLAG */
++			regval_0xcba =   regval_0xcba | BIT(4) | BIT(5) ;  				/* 0xcb8[21:20] = 2b'11, WL_G @ WLAG on */
++			regval_0xcba =    regval_0xcba & (~(BIT(7)) ) | BIT(6);		/* 0xcb8[23:22] = 2b'01, WL_A @ WLAG off */
++			
++			break;
++		case BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLA_OF_WLAG:
++			regval_0xcba =   regval_0xcba & (~(BIT(2) | BIT(0)) );    		/* 0xcb8[16] = 0, 0xcb8[18] = 0, WL_G select WLAG */
++			regval_0xcba =   regval_0xcba & (~(BIT(5))) | BIT(4);			/* 0xcb8[21:20] = 2b'01, WL_G @ WLAG off */
++			regval_0xcba =   regval_0xcba | BIT(6) | BIT(7);  	 	  		/* 0xcb8[23:22] = 2b'11, WL_A @ WLAG on */
++			
++			break;
++	}
++
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcba, 0xff, regval_0xcba);
++
++	u32tmp1 = btcoexist->btc_read_4byte(btcoexist, 0xcb8);
++			
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (After Int Block setup) 0xcb8 = 0x%08x **********\n",
++		    u32tmp1);
++	BTC_TRACE(trace_buf);
++
++}
++
++void halbtc8821c2ant_set_ext_band_switch(IN struct btc_coexist *btcoexist, IN boolean force_exec, IN u8 pos_type)
++{
++
++#if 0
++	boolean	switch_polatiry_inverse = false;
++	u8		regval_0xcb6; 
++	u32		u32tmp1 = 0, u32tmp2 = 0;
++	
++	if (!rfe_type->ext_band_switch_exist)
++		return;	
++
++	 coex_dm->cur_ext_band_switch_status = pos_type;
++	 	
++	if (!force_exec) {
++		if (coex_dm->pre_ext_band_switch_status == coex_dm->cur_ext_band_switch_status)
++			return;	
++	} 
++
++	coex_dm->pre_ext_band_switch_status = coex_dm->cur_ext_band_switch_status;
++
++	/* swap control polarity if use different switch control polarity*/
++	switch_polatiry_inverse = (rfe_type->ext_band_switch_ctrl_polarity == 1? ~switch_polatiry_inverse: switch_polatiry_inverse); 
++
++	/*swap control polarity for WL_A, default polarity 0xcb4[21] = 0 && 0xcb4[23] = 1 is for WL_G */
++	switch_polatiry_inverse =  (pos_type == BT_8821C_2ANT_EXT_BAND_SWITCH_TO_WLA? ~switch_polatiry_inverse: switch_polatiry_inverse); 
++
++	regval_0xcb6 =  btcoexist->btc_read_1byte(btcoexist, 0xcb6);
++
++	/* for normal switch polrity, 0xcb4[21] =1 && 0xcb4[23] = 0 for WL_A, vice versa  */
++	regval_0xcb6 = (switch_polatiry_inverse == 1? ( (regval_0xcb6 & (~(BIT(7))) ) | BIT(5)) : ( (regval_0xcb6 & (~(BIT(5))) ) | BIT(7)) ); 
++	
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb6, 0xff, regval_0xcb6);	
++
++	u32tmp1 = btcoexist->btc_read_4byte(btcoexist, 0xcb0);
++	u32tmp2 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++			
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (After Ext Band switch setup) 0xcb0 = 0x%08x, 0xcb4 = 0x%08x**********\n",
++		    u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++#endif	
++
++}
++
++void halbtc8821c2ant_set_ext_ant_switch(IN struct btc_coexist *btcoexist, IN boolean force_exec, IN u8 ctrl_type, IN u8 pos_type)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	boolean	switch_polatiry_inverse = false;
++	u8		regval_0xcb7 = 0, regval_0x64;
++	u32		u32tmp1 = 0, u32tmp2 = 0, u32tmp3 = 0;
++	
++	if (!rfe_type->ext_ant_switch_exist)
++		return;	
++
++	 coex_dm->cur_ext_ant_switch_status = (ctrl_type << 8)  + pos_type;
++	 	
++	if (!force_exec) {
++		if (coex_dm->pre_ext_ant_switch_status == coex_dm->cur_ext_ant_switch_status)
++			return;	
++	} 
++
++	coex_dm->pre_ext_ant_switch_status = coex_dm->cur_ext_ant_switch_status;
++
++	/* swap control polarity if use different switch control polarity*/
++	/*  Normal switch polarity for DPDT, 0xcb4[29:28] = 2b'01 => BTG to Main, WLG to Aux,  0xcb4[29:28] = 2b'10 => BTG to Aux, WLG to Main */
++	/*  Normal switch polarity for SPDT, 0xcb4[29:28] = 2b'01 => Ant to BTG,  0xcb4[29:28] = 2b'10 => Ant to WLG */
++	switch_polatiry_inverse = (rfe_type->ext_ant_switch_ctrl_polarity == 1? ~switch_polatiry_inverse: switch_polatiry_inverse); 
++
++	switch(pos_type)
++		{	
++			default:
++			case BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_BT:
++			case BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_NOCARE:
++			
++				break;
++			case BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_WLG:
++				switch_polatiry_inverse =  (rfe_type->wlg_Locate_at_btg == 0?  ~switch_polatiry_inverse: switch_polatiry_inverse);
++				break;
++			case BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_WLA:
++
++				break;
++	}
++			
++
++	switch(ctrl_type)
++	{
++		default:
++		case BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /*  0x4c[23] = 0 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x1);  /* 0x4c[24] = 1  */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb4, 0xff, 0x77);	/* BB SW, DPDT use RFE_ctrl8 and RFE_ctrl9 as cotrol pin */
++
++			regval_0xcb7 = (switch_polatiry_inverse == false?  0x1 : 0x2);     /* 0xcb4[29:28] = 2b'01 for no switch_polatiry_inverse, DPDT_SEL_N =1, DPDT_SEL_P =0   */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb7, 0x30, regval_0xcb7);
++
++			break;
++		case BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_PTA:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /* 0x4c[23] = 0 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x1);  /* 0x4c[24] = 1 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb4, 0xff, 0x66);	/* PTA,  DPDT use RFE_ctrl8 and RFE_ctrl9 as cotrol pin */
++
++			regval_0xcb7 = (switch_polatiry_inverse == false?  0x2 : 0x1);     /* 0xcb4[29:28] = 2b'10 for no switch_polatiry_inverse, DPDT_SEL_N =1, DPDT_SEL_P =0  @ GNT_BT=1  */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb7, 0x30, regval_0xcb7);
++			
++			break;
++		case BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_ANTDIV:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /* 0x4c[23] = 0 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x1);  /* 0x4c[24] = 1 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb4, 0xff, 0x88);  /* */
++
++			/* no regval_0xcb7 setup required, because  antenna switch control value by antenna diversity */
++
++			break;
++		case BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_MAC:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x1);  /*  0x4c[23] = 1 */
++
++			regval_0x64 = (switch_polatiry_inverse == false?  0x0 : 0x1);     /* 0x64[0] = 1b'0 for no switch_polatiry_inverse, DPDT_SEL_N =1, DPDT_SEL_P =0 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x64, 0x1, regval_0x64);
++			break;
++		case BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_BT:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /* 0x4c[23] = 0  */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x0);  /* 0x4c[24] = 0  */
++
++			/* no  setup required, because  antenna switch control value by BT vendor 0x1c[1:0]  */
++			break;
++	}
++
++		u32tmp1 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++		u32tmp2 = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0x64) & 0xff;
++			
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (After Ext Ant switch setup) 0xcb4 = 0x%08x, 0x4c = 0x%08x, 0x64= 0x%02x**********\n",
++		    u32tmp1, u32tmp2, u32tmp3);
++		BTC_TRACE(trace_buf);
++
++
++}
++
++void halbtc8821c2ant_set_rfe_type(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++
++#if 0
++	rfe_type->ext_band_switch_exist = false;
++	rfe_type->ext_band_switch_type = BT_8821C_2ANT_EXT_BAND_SWITCH_USE_SPDT;     // SPDT;
++	rfe_type->ext_band_switch_ctrl_polarity = 0;
++
++	if (rfe_type->ext_band_switch_exist) {
++
++		/* band switch use RFE_ctrl1 (pin name: PAPE_A) and RFE_ctrl3 (pin name: LNAON_A)  */
++
++		/* set RFE_ctrl1 as software control  */		
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb0, 0xf0, 0x7);
++
++		/* set RFE_ctrl3 as software control  */	
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb1, 0xf0, 0x7);
++
++		}
++#endif
++
++	/* the following setup should be got from Efuse in the future */
++	rfe_type->rfe_module_type = board_info->rfe_type;
++	
++	rfe_type->ext_ant_switch_ctrl_polarity = 0;
++	rfe_type->ext_ant_switch_diversity = false;
++
++	switch(rfe_type->rfe_module_type)
++	{
++		case 0:
++		default:	
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_DPDT;          /*2-Ant, DPDT, WLG*/
++			rfe_type->wlg_Locate_at_btg = false;
++			/*rfe_type->ext_ant_switch_diversity = true;*/
++			break;
++		case 1:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_SPDT;          /*1-Ant, Main, DPDT or SPDT, WLG   */
++			rfe_type->wlg_Locate_at_btg = false;
++			break;
++		case 2:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_SPDT;            /*1-Ant, Main, DPDT or SPDT, BTG   */
++			rfe_type->wlg_Locate_at_btg = true;
++			break;	
++		case 3:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_DPDT;          /*1-Ant, Aux, DPDT, WLG   */
++			rfe_type->wlg_Locate_at_btg = false;
++			break;
++		case 4:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_DPDT;          /*1-Ant, Aux, DPDT, BTG   */;
++			rfe_type->wlg_Locate_at_btg = true;
++			break;	
++		case 5:
++			rfe_type->ext_ant_switch_exist = false;										 /*2-Ant, no antenna switch, WLG*/
++			rfe_type->wlg_Locate_at_btg = false;	
++
++	}
++
++
++	if (rfe_type->wlg_Locate_at_btg) 
++		halbtc8821c2ant_set_int_block(btcoexist, FORCE_EXEC, BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLG_OF_BTG);
++	else
++		halbtc8821c2ant_set_int_block(btcoexist, FORCE_EXEC, BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG);
++
++	
++}
++
++
++void halbtc8821c2ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean force_exec,
++	  IN u8 phase  )
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++	u32			cnt_bt_cal_chk = 0;
++	boolean			is_in_mp_mode = false;
++	u8			u8tmp = 0;
++	u32			u32tmp1 = 0, u32tmp2 = 0, u32tmp3 = 0;
++	u16			u16tmp1 = 0;
++
++#if BT_8821C_2ANT_ANTDET_ENABLE
++#if BT_8821C_2ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE
++	if (ant_pos_type == BTC_ANT_PATH_PTA) {
++		if ((board_info->btdm_ant_det_finish) &&
++		    (board_info->btdm_ant_num_by_ant_det == 2)) {
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT)
++				ant_pos_type = BTC_ANT_WIFI_AT_MAIN;
++			else
++				ant_pos_type = BTC_ANT_WIFI_AT_AUX;
++		}
++	}
++#endif
++#endif
++
++	 coex_dm->cur_ant_pos_type = (ant_pos_type << 8)  + phase;
++
++	if (!force_exec) {
++		if (coex_dm->cur_ant_pos_type == coex_dm->pre_ant_pos_type)
++			return;	
++	} 
++	
++	coex_dm->pre_ant_pos_type = coex_dm->cur_ant_pos_type;
++
++#if 1
++	u32tmp1 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist,
++			0x38);
++	u32tmp2 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist,
++			0x54);
++	u8tmp  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Before Ant Setup) 0xcb4 = 0x%x, 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++		    u32tmp3, u8tmp, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++#endif
++
++
++	switch (phase)
++	{
++		case BT_8821C_2ANT_PHASE_COEX_INIT:
++				/* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++				halbtc8821c2ant_ltecoex_enable(btcoexist, 0x0);
++
++				/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++				halbtc8821c2ant_ltecoex_set_coex_table(btcoexist,
++									       BT_8821C_2ANT_CTT_WL_VS_LTE, 0xffff);
++
++				/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++				halbtc8821c2ant_ltecoex_set_coex_table(btcoexist,
++						       BT_8821C_2ANT_CTT_BT_VS_LTE, 0xffff);
++
++				/* Wait If BT IQK running, because Path control owner is at BT during BT IQK (setup by WiFi firmware) */
++				while (cnt_bt_cal_chk <= 20) {
++							u8tmp = btcoexist->btc_read_1byte(btcoexist,
++														  0x49d);
++							cnt_bt_cal_chk++;
++							if (u8tmp & BIT(0)) {
++										BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++										"[BTCoex], ########### BT is calibrating (wait cnt=%d) ###########\n",
++				 	 				      cnt_bt_cal_chk);
++										BTC_TRACE(trace_buf);
++										delay_ms(50);
++							} else {
++										BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++											"[BTCoex], ********** BT is NOT calibrating (wait cnt=%d)**********\n",
++					    											cnt_bt_cal_chk);
++										BTC_TRACE(trace_buf);
++										break;
++							}
++				}
++
++				/* set Path control owner to WL at initial step */
++				halbtc8821c2ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8821C_2ANT_PCO_WLSIDE);
++
++				/* set GNT_BT to SW high */
++				halbtc8821c2ant_ltecoex_set_gnt_bt(btcoexist,
++							BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					   		BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++							BT_8821C_2ANT_SIG_STA_SET_TO_HIGH);
++				/* Set GNT_WL to SW high */
++				halbtc8821c2ant_ltecoex_set_gnt_wl(btcoexist,
++						      BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					  	      BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++						      BT_8821C_2ANT_SIG_STA_SET_TO_HIGH);
++
++				coex_sta->run_time_state = false;
++
++				if (BTC_ANT_PATH_AUTO == ant_pos_type)
++				{
++					if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT)				
++						ant_pos_type = BTC_ANT_WIFI_AT_MAIN;
++					else
++						ant_pos_type = BTC_ANT_WIFI_AT_AUX;
++				}
++
++			break;
++		case BT_8821C_2ANT_PHASE_WLANONLY_INIT:
++  			      /* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++				halbtc8821c2ant_ltecoex_enable(btcoexist, 0x0);
++
++				/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++				halbtc8821c2ant_ltecoex_set_coex_table(btcoexist,
++									       BT_8821C_2ANT_CTT_WL_VS_LTE, 0xffff);
++
++				/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++				halbtc8821c2ant_ltecoex_set_coex_table(btcoexist,
++						       BT_8821C_2ANT_CTT_BT_VS_LTE, 0xffff);				
++
++				/* set Path control owner to WL at initial step */
++				halbtc8821c2ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8821C_2ANT_PCO_WLSIDE);
++
++				/* set GNT_BT to SW Low */
++				halbtc8821c2ant_ltecoex_set_gnt_bt(btcoexist,
++							BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					   		BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++							BT_8821C_2ANT_SIG_STA_SET_TO_LOW);
++				/* Set GNT_WL to SW high */
++				halbtc8821c2ant_ltecoex_set_gnt_wl(btcoexist,
++						      BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					  	      BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++						      BT_8821C_2ANT_SIG_STA_SET_TO_HIGH);
++
++				coex_sta->run_time_state = false;
++
++				if (BTC_ANT_PATH_AUTO == ant_pos_type)
++				{
++					if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT)				
++						ant_pos_type = BTC_ANT_WIFI_AT_MAIN;
++					else
++						ant_pos_type = BTC_ANT_WIFI_AT_AUX;
++				}
++
++			break;
++		case BT_8821C_2ANT_PHASE_WLAN_OFF:
++				/* Disable LTE Coex Function in WiFi side */
++				halbtc8821c2ant_ltecoex_enable(btcoexist, 0x0);
++
++				/* set Path control owner to BT */
++				halbtc8821c2ant_ltecoex_pathcontrol_owner(btcoexist,
++						BT_8821C_2ANT_PCO_BTSIDE);
++
++				/* Set Ext Ant Switch to BT control at wifi off step  */
++				halbtc8821c2ant_set_ext_ant_switch(btcoexist, 
++						   FORCE_EXEC, 
++						   BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_BT, 
++					   	   BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_NOCARE);
++				coex_sta->run_time_state = false;
++			break;
++		case BT_8821C_2ANT_PHASE_2G_RUNTIME:
++
++				/* set Path control owner to WL at runtime step */
++				halbtc8821c2ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8821C_2ANT_PCO_WLSIDE);
++	
++				/* set GNT_BT to PTA */
++				halbtc8821c2ant_ltecoex_set_gnt_bt(btcoexist,
++				  		       BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					   		BT_8821C_2ANT_GNT_TYPE_CTRL_BY_PTA,
++					   		BT_8821C_2ANT_SIG_STA_SET_BY_HW);
++				
++				/* Set GNT_WL to PTA */
++				halbtc8821c2ant_ltecoex_set_gnt_wl(btcoexist,
++							BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++						   	BT_8821C_2ANT_GNT_TYPE_CTRL_BY_PTA,
++						   	BT_8821C_2ANT_SIG_STA_SET_BY_HW);
++
++				coex_sta->run_time_state = true;				
++
++				if (rfe_type->wlg_Locate_at_btg) 
++					halbtc8821c2ant_set_int_block(btcoexist, NORMAL_EXEC, BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLG_OF_BTG);
++				else
++					halbtc8821c2ant_set_int_block(btcoexist, NORMAL_EXEC, BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG);	
++
++				if (BTC_ANT_PATH_AUTO == ant_pos_type)
++				{
++					if (rfe_type->ext_ant_switch_diversity)
++						ant_pos_type = BTC_ANT_WIFI_AT_DIVERSITY;
++					else {
++							if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT)				
++								ant_pos_type = BTC_ANT_WIFI_AT_MAIN;
++							else
++								ant_pos_type = BTC_ANT_WIFI_AT_AUX;
++					}
++				}
++
++			break;
++		case BT_8821C_2ANT_PHASE_5G_RUNTIME:	
++
++				/* set Path control owner to WL at runtime step */
++				halbtc8821c2ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8821C_2ANT_PCO_WLSIDE);
++
++				/* set GNT_BT to SW Hi */
++				halbtc8821c2ant_ltecoex_set_gnt_bt(btcoexist,
++							   BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   		   BT_8821C_2ANT_SIG_STA_SET_TO_HIGH);
++				
++				/* Set GNT_WL to SW Hi */
++				halbtc8821c2ant_ltecoex_set_gnt_wl(btcoexist,
++							   BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   		   BT_8821C_2ANT_SIG_STA_SET_TO_HIGH);
++
++				coex_sta->run_time_state = true;
++
++				halbtc8821c2ant_set_int_block(btcoexist, NORMAL_EXEC, BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLA_OF_WLAG);
++
++				if (BTC_ANT_PATH_AUTO == ant_pos_type)
++				{
++					if (rfe_type->ext_ant_switch_diversity)
++						ant_pos_type = BTC_ANT_WIFI_AT_DIVERSITY;
++					else {
++							if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT)				
++								ant_pos_type = BTC_ANT_WIFI_AT_MAIN;
++							else
++								ant_pos_type = BTC_ANT_WIFI_AT_AUX;
++					}
++				}
++
++			break;
++		case BT_8821C_2ANT_PHASE_BTMPMODE:
++				/* Disable LTE Coex Function in WiFi side */
++				halbtc8821c2ant_ltecoex_enable(btcoexist, 0x0);
++
++				/* set Path control owner to WL */
++				halbtc8821c2ant_ltecoex_pathcontrol_owner(btcoexist,
++						BT_8821C_2ANT_PCO_WLSIDE);
++
++				/* set GNT_BT to SW Hi */
++				halbtc8821c2ant_ltecoex_set_gnt_bt(btcoexist,
++							   BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   		   BT_8821C_2ANT_SIG_STA_SET_TO_HIGH);
++				
++				/* Set GNT_WL to SW Lo */
++				halbtc8821c2ant_ltecoex_set_gnt_wl(btcoexist,
++							   BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   		   BT_8821C_2ANT_SIG_STA_SET_TO_LOW);
++
++				coex_sta->run_time_state = false;
++				
++				if (BTC_ANT_PATH_AUTO == ant_pos_type)
++				{
++					if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT)				
++						ant_pos_type = BTC_ANT_WIFI_AT_MAIN;
++					else
++						ant_pos_type = BTC_ANT_WIFI_AT_AUX;
++				}
++				
++			break;
++	}
++
++		if (phase != BT_8821C_2ANT_PHASE_WLAN_OFF)
++			{
++				switch (ant_pos_type) {
++							default:
++							case BTC_ANT_WIFI_AT_MAIN:
++								halbtc8821c2ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_WLG);
++								break;
++							case BTC_ANT_WIFI_AT_AUX:
++								halbtc8821c2ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_BT);
++								break;
++							case BTC_ANT_WIFI_AT_DIVERSITY:
++								halbtc8821c2ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_ANTDIV, 
++													BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_NOCARE);			
++								break;
++					}
++	
++			}
++#if 1
++	u32tmp1 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	u8tmp  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++	
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (After Ant-Setup phase---%d) 0xcb4 = 0x%x, 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++			    phase, u32tmp3, u8tmp, u32tmp1, u32tmp2);
++		
++		BTC_TRACE(trace_buf);
++#endif
++
++}
++
++
++u8 halbtc8821c2ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8821C_2ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 0) {
++
++		if (bt_link_info->acl_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], No-Profile busy\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8821C_2ANT_COEX_ALGO_NOPROFILEBUSY;
++		}
++	} else if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8821C_2ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_2ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_2ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_2ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + A2DP ==> A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_2ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821C_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =	BT_8821C_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				{
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], HID + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_HID_A2DP;
++				}
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821C_2ANT_COEX_ALGO_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], SCO + HID + A2DP ==> HID + A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_2ANT_COEX_ALGO_HID_A2DP;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_PANEDR_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_PANEDR_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++
++
++void halbtc8821c2ant_action_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++
++	halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* fw all off */
++	halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++void halbtc8821c2ant_action_wifi_under5g(IN struct btc_coexist *btcoexist)
++{
++
++	/* fw all off */
++	halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	
++	halbtc8821c2ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, FORCE_EXEC,
++				      BT_8821C_2ANT_PHASE_5G_RUNTIME);	
++}
++
++void halbtc8821c2ant_action_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* fw all off */
++	halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	coex_sta->pop_event_cnt = 0;
++}
++
++void halbtc8821c2ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++
++	boolean	wifi_connected = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean			wifi_busy = false;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++	if (link || roam || coex_sta->wifi_is_high_pri_task) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi link/roam/hi-pri-task process + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     8);
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++
++	} else if (scan) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi scan process + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     8);
++
++		if (coex_sta->bt_create_connection)
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 12);
++		else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++
++	}  else if (wifi_connected) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     7);
++
++		if (wifi_busy) {
++
++			if ((bt_link_info->a2dp_exist) && (bt_link_info->acl_busy))
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++			else
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++
++		} else
++
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi no-link + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++void halbtc8821c2ant_action_wifi_link_process(IN struct btc_coexist *btcoexist)
++{
++	u32	u32tmp, u32tmpb;
++	u8	u8tmpa;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++	if ((bt_link_info->a2dp_exist) && (bt_link_info->acl_busy))
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++	else
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++
++void halbtc8821c2ant_action_wifi_nonconnected(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* fw all off */
++	halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8821c2ant_action_bt_idle(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++
++	boolean	wifi_connected = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean			wifi_busy = false;
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++	if (scan || link || roam) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi link process + BT Idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     7);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++	} else if (wifi_connected) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT Idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		if (wifi_busy) {
++			if (!BTC_RSSI_HIGH(bt_rssi_state2))
++				halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++								     2);
++			else
++				halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++								     0);
++		} else {
++			halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++							     0);
++		}
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi no-link + BT Idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++
++/* SCO only or SCO+PAN(HS) */
++void halbtc8821c2ant_action_sco(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}  else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++void halbtc8821c2ant_action_hid(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}  else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++/* A2DP only / PAN(EDR) only/ A2DP+PAN(HS) */
++void halbtc8821c2ant_action_a2dp(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy)
++
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 1);
++		else
++
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 2);
++	} else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy)
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 101);
++		else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 102);
++
++	}
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++void halbtc8821c2ant_action_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++#if 0
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	coex_dm->is_switch_to_1dot5_ant = false;
++
++	halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++#endif
++
++
++#if 1
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy)
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++		else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 4);
++	} else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy)
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 103);
++		else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 104);
++
++	}
++
++#endif
++
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++/* PAN(HS) only */
++void halbtc8821c2ant_action_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++
++	} else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++}
++
++
++void halbtc8821c2ant_action_hid_a2dp(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy)
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 1);
++		else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 2);
++
++
++	} else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy)
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 101);
++		else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 102);
++
++	}
++
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++void halbtc8821c2ant_action_a2dp_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 7);
++			else
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		} else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++
++	} else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 107);
++			else
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 105);
++		} else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 106);
++
++	}
++
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++
++/* PAN(EDR)+A2DP */
++void halbtc8821c2ant_action_pan_edr_a2dp(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 7);
++			else
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		} else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++	} else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 107);
++			else
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 105);
++		} else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 106);
++
++	}
++
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++void halbtc8821c2ant_action_pan_edr_hid(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy)
++
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++		else
++
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 4);
++
++
++	} else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy)
++
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 103);
++		else
++
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 104);
++
++	}
++
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++/* HID+A2DP+PAN(EDR) */
++void halbtc8821c2ant_action_hid_a2dp_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 7);
++			else
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		} else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++	} else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 107);
++			else
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 105);
++		} else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 106);
++	}
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++
++void halbtc8821c2ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw mechanism all off */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++}
++
++void halbtc8821c2ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw mechanism all off */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	/* hw all off */
++	halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++}
++
++void halbtc8821c2ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8				algorithm = 0;
++	u32				num_of_wifi_link = 0;
++	u32				wifi_link_status = 0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean				miracast_plus_bt = false;
++	boolean				scan = false, link = false, roam = false, wifi_connected = false, wifi_under_5g =false;
++
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (!coex_sta->run_time_state){
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], return for run_time_state = false !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	if (wifi_under_5g) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 5G!!!\n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8821c2ant_action_wifi_under5g(btcoexist);
++		return;
++	} else{
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 2G!!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     NORMAL_EXEC, BT_8821C_2ANT_PHASE_2G_RUNTIME);
++	}
++	
++
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821c2ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	if (coex_sta->bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is disabled!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821c2ant_action_coex_all_off(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under inquiry/page scan !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821c2ant_action_bt_inquiry(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++	if (scan || link || roam) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under Link Process !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821c2ant_action_wifi_link_process(btcoexist);
++		return;
++	}
++
++	/* for P2P */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist)
++			miracast_plus_bt = true;
++		else
++			miracast_plus_bt = false;
++
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8821c2ant_action_wifi_multi_port(btcoexist);
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++
++	algorithm = halbtc8821c2ant_action_algorithm(btcoexist);
++	coex_dm->cur_algorithm = algorithm;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Algorithm = %d\n",
++		    coex_dm->cur_algorithm);
++	BTC_TRACE(trace_buf);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	if (!wifi_connected) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Action 2-Ant, wifi non-connected!!.\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821c2ant_action_wifi_nonconnected(btcoexist);
++
++	} else if ((BT_8821C_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		coex_dm->bt_status) || (BT_8821C_2ANT_BT_STATUS_CONNECTED_IDLE ==
++					    coex_dm->bt_status)) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Action 2-Ant, bt idle!!.\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_action_bt_idle(btcoexist);
++
++	} else {
++
++		if (coex_dm->cur_algorithm != coex_dm->pre_algorithm) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], pre_algorithm=%d, cur_algorithm=%d\n",
++				coex_dm->pre_algorithm, coex_dm->cur_algorithm);
++			BTC_TRACE(trace_buf);
++		}
++
++		switch (coex_dm->cur_algorithm) {
++
++		case BT_8821C_2ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_sco(btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_hid(btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_a2dp(btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_a2dp_pan_hs(btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_pan_edr(btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_pan_hs(btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_pan_edr_a2dp(btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_pan_edr_hid(btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_hid_a2dp_pan_edr(
++				btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_hid_a2dp(btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_NOPROFILEBUSY:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = No-Profile busy.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_bt_idle(btcoexist);
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_coex_all_off(btcoexist);
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8821c2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean wifi_only)
++{
++	u8	u8tmp = 0;
++	u32	 vendor;
++	u32				u32tmp0 = 0, u32tmp1 = 0, u32tmp2 = 0, u32tmp3 =0;
++
++
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	u32tmp1 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Before Init HW config) 0xcb4 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++		    u32tmp3, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 2Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	coex_sta->bt_coex_supported_feature = 0;
++	coex_sta->bt_coex_supported_version = 0;
++
++
++	/* 0xf0[15:12] --> Chip Cut information */
++	coex_sta->cut_version = (btcoexist->btc_read_1byte(btcoexist,
++				 0xf1) & 0xf0) >> 4;
++
++	coex_sta->dis_ver_info_cnt = 0;
++
++	/* default isolation = 15dB */
++	coex_sta->isolation_btween_wb = BT_8821C_2ANT_DEFAULT_ISOLATION;
++	halbtc8821c2ant_coex_switch_threshold(btcoexist, coex_sta->isolation_btween_wb);
++
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++
++	/* BT report packet sample rate	 */
++	btcoexist->btc_write_1byte(btcoexist, 0x790, 0x5);
++
++	/* Init 0x778 = 0x1 for 2-Ant */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++
++	/* Enable PTA (3-wire function form BT side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x41, 0x02, 0x1);
++
++	/* Enable PTA (tx/rx signal form WiFi side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4c6, 0x10, 0x1);
++
++	halbtc8821c2ant_enable_gnt_to_gpio(btcoexist, TRUE);
++
++	/* check if WL firmware download ok */
++	if (btcoexist->btc_read_1byte(btcoexist, 0x80) == 0xc6)
++		halbtc8821c2ant_post_onoffstate_to_bt(btcoexist, true);
++
++	/* Enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e,
++			   0x4); /* 0x76e[3] =1, WLAN_Act control by PTA */
++
++	if (wifi_only) {
++		
++		coex_sta->concurrent_rx_mode_on = false;
++
++		/* Set Antenna Path */
++		halbtc8821c2ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_2ANT_PHASE_WLANONLY_INIT);
++	} else {
++		 coex_sta->concurrent_rx_mode_on = true; 
++		/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0x953, 0x2, 0x1); */
++
++		/* RF 0x1[1] = 0->Set GNT_WL_RF_Rx always = 1 for con-current Rx, mask Tx only */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0x2, 0x0);
++
++		/* Set Antenna Path */
++		halbtc8821c2ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO,
++						FORCE_EXEC, 
++						BT_8821C_2ANT_PHASE_COEX_INIT);
++	}
++
++	/* WLAN_Tx by GNT_WL  0x950[29] = 0 */
++	/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0x953, 0x20, 0x0); */
++
++	halbtc8821c2ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	halbtc8821c2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++
++	psd_scan->ant_det_is_ant_det_available = TRUE;
++
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	u32tmp1 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Before Init HW config) 0xcb4 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++		    u32tmp3, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++
++}
++
++u32 halbtc8821c2ant_psd_log2base(IN struct btc_coexist *btcoexist, IN u32 val)
++{
++	u8	j;
++	u32	tmp, tmp2, val_integerd_b = 0, tindex, shiftcount = 0;
++	u32	result, val_fractiond_b = 0, table_fraction[21] = {0, 432, 332, 274, 232, 200,
++				   174, 151, 132, 115, 100, 86, 74, 62, 51, 42,
++							   32, 23, 15, 7, 0
++							      };
++
++	if (val == 0)
++		return 0;
++
++	tmp = val;
++
++	while (1) {
++		if (tmp == 1)
++			break;
++		else {
++			tmp = (tmp >> 1);
++			shiftcount++;
++		}
++	}
++
++
++	val_integerd_b = shiftcount + 1;
++
++	tmp2 = 1;
++	for (j = 1; j <= val_integerd_b; j++)
++		tmp2 = tmp2 * 2;
++
++	tmp = (val * 100) / tmp2;
++	tindex = tmp / 5;
++
++	if (tindex > 20)
++		tindex = 20;
++
++	val_fractiond_b = table_fraction[tindex];
++
++	result = val_integerd_b * 100 - val_fractiond_b;
++
++	return result;
++
++
++}
++
++void halbtc8821c2ant_psd_show_antenna_detect_result(IN struct btc_coexist
++		*btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n============[Antenna Detection info]  ============\n");
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 1)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (>%d)",
++			   "Ant Det Result", "2-Antenna (Bad-Isolation)",
++			   BT_8821C_2ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else if (psd_scan->ant_det_result == 2)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "2-Antenna (Good-Isolation)",
++			   BT_8821C_2ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset,
++			   BT_8821C_2ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "1-Antenna",
++			   BT_8821C_2ANT_ANTDET_PSDTHRES_1ANT,
++			   BT_8821C_2ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset);
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s ",
++		   "Antenna Detection Finish",
++		   (board_info->btdm_ant_det_finish
++		    ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	switch (psd_scan->ant_det_result) {
++	case 0:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not available)");
++		break;
++	case 1:  /* 2-Ant bad-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 2:  /* 2-Ant good-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 3:  /* 1-Ant */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 4:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Uncertainty result)");
++		break;
++	case 5:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "(Pre-Scan fai)");
++		break;
++	case 6:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(WiFi is Scanning)");
++		break;
++	case 7:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not idle)");
++		break;
++	case 8:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Abort by WiFi Scanning)");
++		break;
++	case 9:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Antenna Init is not ready)");
++		break;
++	case 10:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Inquiry or page)");
++		break;
++	case 11:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Disabled)");
++		break;
++	}
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Total Count", psd_scan->ant_det_try_count);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Fail Count", psd_scan->ant_det_fail_count);
++	CL_PRINTF(cli_buf);
++
++	if ((!board_info->btdm_ant_det_finish) &&
++	    (psd_scan->ant_det_result != 5))
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "BT Response",
++		   (psd_scan->ant_det_result ? "ok" : "fail"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ms", "BT Tx Time",
++		   psd_scan->ant_det_bt_tx_time);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "BT Tx Ch",
++		   psd_scan->ant_det_bt_le_channel);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d",
++		   "WiFi PSD Cent-Ch/Offset/Span",
++		   psd_scan->real_cent_freq, psd_scan->real_offset,
++		   psd_scan->real_span);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d dB",
++		   "PSD Pre-Scan Peak Value",
++		   psd_scan->ant_det_pre_psdscan_peak_val / 100);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (<= %d)",
++		   "PSD Pre-Scan result",
++		   (psd_scan->ant_det_result != 5 ? "ok" : "fail"),
++		   BT_8821C_2ANT_ANTDET_PSDTHRES_BACKGROUND
++		   + psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 5)
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s dB",
++		   "PSD Scan Peak Value", psd_scan->ant_det_peak_val);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s MHz",
++		   "PSD Scan Peak Freq", psd_scan->ant_det_peak_freq);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "TFBGA Package",
++		   (board_info->tfbga_package) ?  "Yes" : "No");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "PSD Threshold Offset", psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++}
++
++void halbtc8821c2ant_psd_showdata(IN struct btc_coexist *btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	u32		delta_freq_per_point;
++	u32		freq, freq1, freq2, n = 0, i = 0, j = 0, m = 0, psd_rep1, psd_rep2;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n\n============[PSD info]  (%d)============\n",
++		   psd_scan->psd_gen_count);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->psd_gen_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n No data !!\n");
++		CL_PRINTF(cli_buf);
++		return;
++	}
++
++	if (psd_scan->psd_point == 0)
++		delta_freq_per_point = 0;
++	else
++		delta_freq_per_point = psd_scan->psd_band_width /
++				       psd_scan->psd_point;
++
++	/* if (psd_scan->is_psd_show_max_only) */
++	if (0) {
++		psd_rep1 = psd_scan->psd_max_value / 100;
++		psd_rep2 = psd_scan->psd_max_value - psd_rep1 * 100;
++
++		freq = ((psd_scan->real_cent_freq - 20) * 1000000 +
++			psd_scan->psd_max_value_point * delta_freq_per_point);
++		freq1 = freq / 1000000;
++		freq2 = freq / 1000 - freq1 * 1000;
++
++		if (freq2 < 100)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.0%d MHz",
++				   freq1, freq2);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.%d MHz",
++				   freq1, freq2);
++
++		if (psd_rep2 < 10)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.0%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++
++		CL_PRINTF(cli_buf);
++	} else {
++		m = psd_scan->psd_start_point;
++		n = psd_scan->psd_start_point;
++		i = 1;
++		j = 1;
++
++		while (1) {
++			do {
++				freq = ((psd_scan->real_cent_freq - 20) * 1000000 + m *
++					delta_freq_per_point);
++				freq1 = freq / 1000000;
++				freq2 = freq / 1000 - freq1 * 1000;
++
++				if (i == 1) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.0%2d", freq1,
++							   freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.%3d", freq1,
++							   freq2);
++				} else if ((i % 8 == 0) ||
++					   (m == psd_scan->psd_stop_point)) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000\n", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d\n", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d\n", freq1, freq2);
++				} else {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d", freq1, freq2);
++				}
++
++				i++;
++				m++;
++				CL_PRINTF(cli_buf);
++
++			} while ((i <= 8) && (m <= psd_scan->psd_stop_point));
++
++
++			do {
++				psd_rep1 = psd_scan->psd_report_max_hold[n] / 100;
++				psd_rep2 = psd_scan->psd_report_max_hold[n] - psd_rep1 *
++					   100;
++
++				if (j == 1) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.0%d", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.%d", psd_rep1,
++							   psd_rep2);
++				} else if ((j % 8 == 0)  ||
++					   (n == psd_scan->psd_stop_point)) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d\n", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d\n", psd_rep1, psd_rep2);
++				} else {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d", psd_rep1, psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d", psd_rep1, psd_rep2);
++				}
++
++				j++;
++				n++;
++				CL_PRINTF(cli_buf);
++
++			} while ((j <= 8) && (n <= psd_scan->psd_stop_point));
++
++			if ((m > psd_scan->psd_stop_point) ||
++			    (n > psd_scan->psd_stop_point))
++				break;
++			else {
++				i = 1;
++				j = 1;
++			}
++
++		}
++	}
++
++
++}
++
++void halbtc8821c2ant_psd_maxholddata(IN struct btc_coexist *btcoexist,
++				     IN u32 gen_count)
++{
++	u32	i = 0, i_max = 0, val_max = 0;
++
++	if (gen_count == 1) {
++		memcpy(psd_scan->psd_report_max_hold,
++		       psd_scan->psd_report,
++		       BT_8821C_2ANT_ANTDET_PSD_POINTS * sizeof(u32));
++
++		psd_scan->psd_max_value_point = 0;
++		psd_scan->psd_max_value = 0;
++
++	} else {
++		for (i = psd_scan->psd_start_point;
++		     i <= psd_scan->psd_stop_point; i++) {
++			if (psd_scan->psd_report[i] >
++			    psd_scan->psd_report_max_hold[i])
++				psd_scan->psd_report_max_hold[i] =
++					psd_scan->psd_report[i];
++
++			/* search Max Value */
++			if (i == psd_scan->psd_start_point) {
++				i_max = i;
++				val_max = psd_scan->psd_report_max_hold[i];
++			} else {
++				if (psd_scan->psd_report_max_hold[i] >
++				    val_max) {
++					i_max = i;
++					val_max = psd_scan->psd_report_max_hold[i];
++				}
++			}
++
++		}
++
++		psd_scan->psd_max_value_point = i_max;
++		psd_scan->psd_max_value = val_max;
++
++	}
++
++
++}
++
++u32 halbtc8821c2ant_psd_getdata(IN struct btc_coexist *btcoexist, IN u32 point)
++{
++	/* reg 0x808[9:0]: FFT data x */
++	/* reg 0x808[22]: 0-->1 to get 1 FFT data y */
++	/* reg 0x8b4[15:0]: FFT data y report */
++
++	u32 val = 0, psd_report = 0;
++	int k = 0;
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++
++	val &= 0xffbffc00;
++	val |= point;
++
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	val |= 0x00400000;
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	while (1) {
++		if (k++ > BT_8821C_2ANT_ANTDET_SWEEPPOINT_DELAY)
++			break;
++	}
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x8b4);
++
++	psd_report = val & 0x0000ffff;
++
++	return psd_report;
++}
++
++
++boolean halbtc8821c2ant_psd_sweep_point(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN s32 offset, IN u32 span, IN u32 points,
++					IN u32 avgnum, IN u32 loopcnt)
++{
++	u32	 i = 0, val = 0, n = 0, k = 0, j, point_index = 0;
++	u32	points1 = 0, psd_report = 0;
++	u32	start_p = 0, stop_p = 0, delta_freq_per_point = 156250;
++	u32    psd_center_freq = 20 * 10 ^ 6;
++	boolean outloop = false, scan , roam, is_sweep_ok = true;
++	u8	 flag = 0;
++	u32	tmp = 0, u32tmp1 = 0;
++	u32	wifi_original_channel = 1;
++
++	psd_scan->is_psd_running = true;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Start!!\n");
++	BTC_TRACE(trace_buf);
++
++	do {
++		switch (flag) {
++		case 0:  /* Get PSD parameters */
++		default:
++
++			psd_scan->psd_band_width = 40 * 1000000;
++			psd_scan->psd_point = points;
++			psd_scan->psd_start_base = points / 2;
++			psd_scan->psd_avg_num = avgnum;
++			psd_scan->real_cent_freq = cent_freq;
++			psd_scan->real_offset = offset;
++			psd_scan->real_span = span;
++
++
++			points1 = psd_scan->psd_point;
++			delta_freq_per_point = psd_scan->psd_band_width /
++					       psd_scan->psd_point;
++
++			/* PSD point setup */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffff0fff;
++
++			switch (psd_scan->psd_point) {
++			case 128:
++				val |= 0x0;
++				break;
++			case 256:
++			default:
++				val |= 0x00004000;
++				break;
++			case 512:
++				val |= 0x00008000;
++				break;
++			case 1024:
++				val |= 0x0000c000;
++				break;
++			}
++
++			switch (psd_scan->psd_avg_num) {
++			case 1:
++				val |= 0x0;
++				break;
++			case 8:
++				val |= 0x00001000;
++				break;
++			case 16:
++				val |= 0x00002000;
++				break;
++			case 32:
++			default:
++				val |= 0x00003000;
++				break;
++			}
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			flag = 1;
++			break;
++		case 1:	  /* calculate the PSD point index from freq/offset/span */
++			psd_center_freq = psd_scan->psd_band_width / 2 +
++					  offset * (1000000);
++
++			start_p = psd_scan->psd_start_base + (psd_center_freq -
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_start_point = start_p -
++						    psd_scan->psd_start_base;
++
++			stop_p = psd_scan->psd_start_base + (psd_center_freq +
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_stop_point = stop_p -
++						   psd_scan->psd_start_base - 1;
++
++			flag = 2;
++			break;
++		case 2:  /* set RF channel/BW/Mode */
++
++			/* set 3-wire off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val |= 0x00300000;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val &= 0xfeffffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause on */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x6f);
++
++			/* store WiFi original channel */
++			wifi_original_channel = btcoexist->btc_get_rf_reg(
++					btcoexist, BTC_RF_A, 0x18, 0x3ff);
++
++			/* Set RF channel */
++			if (cent_freq == 2484)
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++							  0x18, 0x3ff, 0xe);
++			else
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++					  0x18, 0x3ff, (cent_freq - 2412) / 5 +
++						  1); /* WiFi TRx Mask on */
++
++			/* save original RCK value */
++			u32tmp1 =  btcoexist->btc_get_rf_reg(
++					   btcoexist, BTC_RF_A, 0x1d, 0xfffff);
++
++			/* Enter debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x1);
++
++			/* Set RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, 0x2e);
++
++
++			/* Set  RF mode = Rx, RF Gain = 0x320a0 */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x0,
++						  0xfffff, 0x320a0);
++
++			while (1) {
++				if (k++ > BT_8821C_2ANT_ANTDET_SWEEPPOINT_DELAY)
++					break;
++			}
++			flag = 3;
++			break;
++		case 3:
++			psd_scan->psd_gen_count = 0;
++
++			for (j = 1; j <= loopcnt; j++) {
++
++				/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x0, 0xfffff, 0x320a0); */
++
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_SCAN, &scan);
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_ROAM, &roam);
++
++				if (scan || roam) {
++					is_sweep_ok = false;
++					break;
++				}
++				memset(psd_scan->psd_report, 0,
++				       psd_scan->psd_point * sizeof(u32));
++				start_p = psd_scan->psd_start_point +
++					  psd_scan->psd_start_base;
++				stop_p = psd_scan->psd_stop_point +
++					 psd_scan->psd_start_base + 1;
++
++				i = start_p;
++				point_index = 0;
++
++				while (i < stop_p) {
++					if (i >= points1)
++						psd_report =
++							halbtc8821c2ant_psd_getdata(
++							btcoexist, i - points1);
++					else
++						psd_report =
++							halbtc8821c2ant_psd_getdata(
++								btcoexist, i);
++
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"Point=%d, psd_raw_data = 0x%08x\n",
++						    i, psd_report);
++					BTC_TRACE(trace_buf);
++					if (psd_report == 0)
++						tmp = 0;
++					else
++						/* tmp =  20*log10((double)psd_report); */
++						/* 20*log2(x)/log2(10), log2Base return theresult of the psd_report*100 */
++						tmp = 6 * halbtc8821c2ant_psd_log2base(
++							btcoexist, psd_report);
++
++					n = i - psd_scan->psd_start_base;
++					psd_scan->psd_report[n] =  tmp;
++
++
++					halbtc8821c2ant_psd_maxholddata(
++						btcoexist, j);
++
++					i++;
++
++				}
++
++				psd_scan->psd_gen_count = j;
++
++
++				/*
++				val = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++				tmp = btcoexist->btc_read_4byte(btcoexist, 0x64);
++				u32tmp1 =  btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"0x54 = 0x%08x, 0x67 = 0x%08x, 0x6c4 = 0x%08x\n", val, (tmp & 0xff000000) >> 24 ,u32tmp1);
++					BTC_TRACE(trace_buf);
++				*/
++
++			}
++
++			flag = 100;
++			break;
++		case 99:	/* error */
++
++			outloop = true;
++			break;
++		case 100: /* recovery */
++
++			/* set 3-wire on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val &= 0xffcfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val |= 0x01000000;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause off */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x0);
++
++			/* PSD off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffbfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			/* restore RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, u32tmp1);
++
++			/* Exit debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x0);
++
++			/* restore WiFi original channel */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x18,
++						  0x3ff, wifi_original_channel);
++
++			outloop = true;
++			break;
++
++		}
++
++	} while (!outloop);
++
++
++
++	psd_scan->is_psd_running = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Stop!!\n");
++	BTC_TRACE(trace_buf);
++	return is_sweep_ok;
++
++}
++
++void halbtc8821c2ant_psd_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 bt_tx_time, IN u32 bt_le_channel)
++{
++	u32	i = 0;
++	u32	wlpsd_cent_freq = 2484, wlpsd_span = 2, wlpsd_sweep_count = 50;
++	s32	wlpsd_offset = -4;
++	u8	bt_le_ch[13] = {3, 6, 8, 11, 13, 16, 18, 21, 23, 26, 28, 31, 33};
++
++	u8	h2c_parameter[3] = {0}, u8tmpa, u8tmpb;
++
++	u8	state = 0;
++	boolean		outloop = false, bt_resp = false;
++	u32		freq, freq1, freq2, psd_rep1, psd_rep2, delta_freq_per_point,
++			u32tmp, u32tmp0, u32tmp1, u32tmp2 ;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	board_info->btdm_ant_det_finish = false;
++	memset(psd_scan->ant_det_peak_val, 0, 16 * sizeof(u8));
++	memset(psd_scan->ant_det_peak_freq, 0, 16 * sizeof(u8));
++
++	if (board_info->tfbga_package) /* for TFBGA */
++		psd_scan->ant_det_thres_offset = 5;
++	else
++		psd_scan->ant_det_thres_offset = 0;
++
++	do {
++		switch (state) {
++		case 0:
++			if (bt_le_channel == 39)
++				wlpsd_cent_freq = 2484;
++			else {
++				for (i = 1; i <= 13; i++) {
++					if (bt_le_ch[i - 1] ==
++					    bt_le_channel) {
++						wlpsd_cent_freq = 2412
++								  + (i - 1) * 5;
++						break;
++					}
++				}
++
++				if (i == 14) {
++
++					BTC_SPRINTF(trace_buf,
++						    BT_TMP_BUF_SIZE,
++						"xxxxxxxxxxxxxxxx AntennaDetect(), Abort!!, Invalid LE channel = %d\n ",
++						    bt_le_channel);
++					BTC_TRACE(trace_buf);
++					outloop = true;
++					break;
++				}
++			}
++
++			wlpsd_sweep_count = bt_tx_time * 238 /
++					    100; /* bt_tx_time/0.42								 */
++			wlpsd_sweep_count = wlpsd_sweep_count / 5;
++
++			if (wlpsd_sweep_count % 5 != 0)
++				wlpsd_sweep_count = (wlpsd_sweep_count /
++						     5 + 1) * 5;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), BT_LETxTime=%d,  BT_LECh = %d\n",
++				    bt_tx_time, bt_le_channel);
++			BTC_TRACE(trace_buf);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), wlpsd_cent_freq=%d,  wlpsd_offset = %d, wlpsd_span = %d, wlpsd_sweep_count = %d\n",
++				    wlpsd_cent_freq,
++				    wlpsd_offset,
++				    wlpsd_span,
++				    wlpsd_sweep_count);
++			BTC_TRACE(trace_buf);
++
++			state = 1;
++			break;
++		case 1: /* stop coex DM & set antenna path */
++			/* Stop Coex DM */
++			/*
++			btcoexist->stop_coex_dm = true;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stop Coex DM!!\n");
++			BTC_TRACE(trace_buf);  */
++
++			/* Set TDMA off,				 */
++			halbtc8821c2ant_ps_tdma(btcoexist, FORCE_EXEC,
++						false, 0);
++
++			/* Set coex table */
++			halbtc8821c2ant_coex_table_with_type(btcoexist,
++							     FORCE_EXEC, 0);
++
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Main Port\n");
++				BTC_TRACE(trace_buf);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Aux Port\n");
++				BTC_TRACE(trace_buf);
++			}
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to BT!!\n");
++			BTC_TRACE(trace_buf);
++
++			halbtc8821c2ant_set_int_block(btcoexist, FORCE_EXEC, BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG);
++
++			halbtc8821c2ant_set_ext_ant_switch( btcoexist, 
++													FORCE_EXEC, 
++													BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_BT);
++
++			/* Set Antenna Path,  both GNT_WL/GNT_BT = 1, and control by SW */
++			/* set GNT_BT to SW high */
++			halbtc8821c2ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8821C_2ANT_SIG_STA_SET_TO_HIGH);
++			/* Set GNT_WL to SW high */
++			halbtc8821c2ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8821C_2ANT_SIG_STA_SET_TO_HIGH);
++			
++
++			/* Set AFH mask on at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x1;
++			h2c_parameter[1] = 0xd;
++			h2c_parameter[2] = 0x14;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1],
++				    h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			u32tmp = btcoexist->btc_read_2byte(btcoexist, 0x948);
++			u32tmp0 = btcoexist->btc_read_4byte(btcoexist, 0x70);
++			u32tmp1 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++			u32tmp2 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], ********** 0x948 = 0x%x, 0x70 = 0x%x, 0x38= 0x%x, 0x54= 0x%x (Before Ant Det) **********\n",
++				    u32tmp, u32tmp0, u32tmp1, u32tmp2);
++			BTC_TRACE(trace_buf);
++
++			state = 2;
++			break;
++		case 2:	/* Pre-sweep background psd */
++			if (!halbtc8821c2ant_psd_sweep_point(btcoexist,
++				     wlpsd_cent_freq, wlpsd_offset, wlpsd_span,
++					     BT_8821C_2ANT_ANTDET_PSD_POINTS,
++				     BT_8821C_2ANT_ANTDET_PSD_AVGNUM, 3)) {
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++			psd_scan->ant_det_pre_psdscan_peak_val =
++				psd_scan->psd_max_value;
++
++			if (psd_scan->psd_max_value >
++			    (BT_8821C_2ANT_ANTDET_PSDTHRES_BACKGROUND
++			     + psd_scan->ant_det_thres_offset) * 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Abort Antenna Detection!! becaus background = %d > thres (%d)\n",
++					    psd_scan->psd_max_value / 100,
++					BT_8821C_2ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 5;
++				state = 99;
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Start Antenna Detection!! becaus background = %d <= thres (%d)\n",
++					    psd_scan->psd_max_value / 100,
++					BT_8821C_2ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				state = 3;
++			}
++			break;
++		case 3:
++			bt_resp = btcoexist->btc_set_bt_ant_detection(
++					  btcoexist, (u8)(bt_tx_time & 0xff),
++					  (u8)(bt_le_channel & 0xff));
++
++			if (!halbtc8821c2ant_psd_sweep_point(btcoexist,
++					     wlpsd_cent_freq, wlpsd_offset,
++							     wlpsd_span,
++					     BT_8821C_2ANT_ANTDET_PSD_POINTS,
++					     BT_8821C_2ANT_ANTDET_PSD_AVGNUM,
++						     wlpsd_sweep_count)) {
++				board_info->btdm_ant_det_finish
++					= false;
++				board_info->btdm_ant_num_by_ant_det
++					= 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++			psd_scan->ant_det_psd_scan_peak_val =
++				psd_scan->psd_max_value;
++			psd_scan->ant_det_psd_scan_peak_freq =
++				psd_scan->psd_max_value_point;
++			state = 4;
++			break;
++		case 4:
++
++			if (psd_scan->psd_point == 0)
++				delta_freq_per_point = 0;
++			else
++				delta_freq_per_point =
++					psd_scan->psd_band_width /
++					psd_scan->psd_point;
++
++			psd_rep1 = psd_scan->psd_max_value / 100;
++			psd_rep2 = psd_scan->psd_max_value - psd_rep1 *
++				   100;
++
++			freq = ((psd_scan->real_cent_freq - 20) *
++				1000000 + psd_scan->psd_max_value_point
++				* delta_freq_per_point);
++			freq1 = freq / 1000000;
++			freq2 = freq / 1000 - freq1 * 1000;
++
++			if (freq2 < 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.0%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8821C_2ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", freq1, freq2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8821C_2ANT_ANTDET_BUF_LEN,
++					   "%d.%d", freq1, freq2);
++			}
++
++			if (psd_rep2 < 10) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.0%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8821C_2ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", psd_rep1, psd_rep2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8821C_2ANT_ANTDET_BUF_LEN,
++					   "%d.%d", psd_rep1, psd_rep2);
++			}
++
++			psd_scan->ant_det_is_btreply_available = true;
++
++			if (bt_resp == false) {
++				psd_scan->ant_det_is_btreply_available =
++					false;
++				psd_scan->ant_det_result = 0;
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), BT Response = Fail\n ");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				(BT_8821C_2ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION)
++				   * 100) {
++				psd_scan->ant_det_result = 1;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				coex_sta->isolation_btween_wb = (u8)(85 - psd_scan->psd_max_value / 100) & 0xff;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Bad-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				(BT_8821C_2ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++				    + psd_scan->ant_det_thres_offset) * 100) {
++				psd_scan->ant_det_result = 2;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				coex_sta->isolation_btween_wb = (u8)(85 - psd_scan->psd_max_value / 100) & 0xff;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Good-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				   (BT_8821C_2ANT_ANTDET_PSDTHRES_1ANT) *
++				   100) {
++				psd_scan->ant_det_result = 3;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				coex_sta->isolation_btween_wb = (u8)(85 - psd_scan->psd_max_value / 100) & 0xff;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant!!\n");
++				BTC_TRACE(trace_buf);
++			} else {
++				psd_scan->ant_det_result = 4;
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant, un-certainity!!\n");
++				BTC_TRACE(trace_buf);
++			}
++
++			state = 99;
++			break;
++		case 99:  /* restore setup */
++
++			/* Set AFH mask off at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x0;
++			h2c_parameter[1] = 0x0;
++			h2c_parameter[2] = 0x0;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1], h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			/* Set Antenna Path, GNT_WL/GNT_BT control by PTA */
++			/* Set Antenna path, switch WiFi to certain antenna port */
++			halbtc8821c2ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO,
++						FORCE_EXEC, 
++						BT_8821C_2ANT_PHASE_2G_RUNTIME);
++			
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to PTA\n!!");
++			BTC_TRACE(trace_buf);
++
++			/* Resume Coex DM */
++			/*
++			btcoexist->stop_coex_dm = false;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Resume Coex DM\n!!");
++			BTC_TRACE(trace_buf);  */
++
++			/* stimulate coex running */
++			
++			halbtc8821c2ant_run_coexist_mechanism(
++				btcoexist);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stimulate Coex running\n!!");
++			BTC_TRACE(trace_buf);  
++
++			outloop = true;
++			break;
++		}
++
++	} while (!outloop);
++
++
++
++}
++
++void halbtc8821c2ant_psd_antenna_detection_check(IN struct btc_coexist
++		*btcoexist)
++{
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	boolean scan, roam;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++
++	/* psd_scan->ant_det_bt_tx_time = 20; */
++	psd_scan->ant_det_bt_tx_time =
++		BT_8821C_2ANT_ANTDET_BTTXTIME;	   /* 0.42ms*50 = 20ms (0.42ms = 1 PSD sweep) */
++	psd_scan->ant_det_bt_le_channel = BT_8821C_2ANT_ANTDET_BTTXCHANNEL;
++
++	ant_det_count++;
++
++	psd_scan->ant_det_try_count = ant_det_count;
++
++	if (scan || roam) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 6;
++	} else if (coex_sta->bt_disabled) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 11;
++	} else if (coex_sta->num_of_profile >= 1) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 7;
++	} else if (
++		!psd_scan->ant_det_is_ant_det_available) { /* Antenna initial setup is not ready */
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 9;
++	} else if (coex_sta->c2h_bt_inquiry_page) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 10;
++	} else {
++
++		btcoexist->stop_coex_dm = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"xxxxxxxxxxxxxxxx AntennaDetect(), Stop Coex DM!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_psd_antenna_detection(btcoexist,
++					      psd_scan->ant_det_bt_tx_time,
++					      psd_scan->ant_det_bt_le_channel);
++
++		delay_ms(psd_scan->ant_det_bt_tx_time);
++
++		btcoexist->stop_coex_dm = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"xxxxxxxxxxxxxxxx AntennaDetect(), Resume Coex DM\n!!");
++		BTC_TRACE(trace_buf);
++
++		/* stimulate coex running */
++
++		halbtc8821c2ant_run_coexist_mechanism(
++			btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"xxxxxxxxxxxxxxxx AntennaDetect(), Stimulate Coex running\n!!");
++		BTC_TRACE(trace_buf);
++	}
++
++
++	if (!board_info->btdm_ant_det_finish)
++		ant_det_fail_count++;
++
++	psd_scan->ant_det_fail_count = ant_det_fail_count;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx AntennaDetect(), result = %d, fail_count = %d, finish = %s\n",
++		    psd_scan->ant_det_result,
++		    psd_scan->ant_det_fail_count,
++		    board_info->btdm_ant_det_finish == TRUE ? "Yes" : "No");
++	BTC_TRACE(trace_buf);
++
++}
++
++
++/* ************************************************************
++ * work around function start with wa_halbtc8821c2ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8821c2ant_
++ * ************************************************************ */
++void ex_halbtc8821c2ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x0;
++	u16 u16tmp = 0x0;
++	u32	value = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx Execute 8821c 2-Ant PowerOn Setting xxxxxxxxxxxxxxxx!!\n");
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "Ant Det Finish = %s, Ant Det Number  = %d\n",
++		    (board_info->btdm_ant_det_finish ? "Yes" : "No"),
++		    board_info->btdm_ant_num_by_ant_det);
++	BTC_TRACE(trace_buf);
++
++
++	btcoexist->stop_coex_dm = true;
++	psd_scan->ant_det_is_ant_det_available = FALSE;
++
++	/* enable BB, REG_SYS_FUNC_EN such that we can write BB Register correctly. */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x2);
++	btcoexist->btc_write_2byte(btcoexist, 0x2, u16tmp | BIT(0) | BIT(1));
++
++
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++
++	/* Check efuse 0xc3[6] for Single Antenna Path */
++	if (board_info->single_ant_path == 0) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], **********  Single Antenna, Antenna at Aux Port**********\n");
++		BTC_TRACE(trace_buf);
++
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++
++		u8tmp = 7;
++	} else if (board_info->single_ant_path == 1) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], **********  Single Antenna, Antenna at Main Port**********\n");
++		BTC_TRACE(trace_buf);
++
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;		
++
++		u8tmp = 6;
++	}
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Power On) single_ant_path  = %d, btdm_ant_pos = %d **********\n",
++		    board_info->single_ant_path , board_info->btdm_ant_pos);
++	BTC_TRACE(trace_buf);
++
++	/* Save"single antenna position" info in Local register setting for FW reading, because FW may not ready at  power on */
++	if (btcoexist->chip_interface == BTC_INTF_PCI)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x3e0, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_USB)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60, u8tmp);
++
++	/* Setup RF front end type */
++	halbtc8821c2ant_set_rfe_type(btcoexist);
++	
++	/* Set Antenna Path by Efuse */
++	halbtc8821c2ant_set_ant_path(btcoexist, 
++					BTC_ANT_PATH_AUTO,
++					FORCE_EXEC, 
++					BT_8821C_2ANT_PHASE_COEX_INIT);
++
++	/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++	halbtc8821c2ant_enable_gnt_to_gpio(btcoexist, TRUE);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********  LTE coex Reg 0x38 (Power-On) = 0x%x**********\n",
++		    halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x38));
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********  MAC Reg 0x70/ BB Reg 0xcb4 (Power-On) = 0x%x / 0x%x**********\n",
++		btcoexist->btc_read_4byte(btcoexist, 0x70), btcoexist->btc_read_4byte(btcoexist, 0xcb4));
++	BTC_TRACE(trace_buf);
++	
++}
++
++void ex_halbtc8821c2ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x4; /* Set BIT2 by default since it's 2ant case */
++
++	/* */
++	/* S0 or S1 setting and Local register setting(By the setting fw can get ant number, S0/S1, ... info) */
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++	if (btcoexist->chip_interface == BTC_INTF_USB) {
++		/* fixed at S0 for USB interface */
++		u8tmp |= 0x1;	/* antenna inverse */
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	} else {
++		/* for PCIE and SDIO interface, we check efuse 0xc3[6] */
++		if (board_info->single_ant_path == 0) {
++		} else if (board_info->single_ant_path == 1) {
++			/* set to S0 */
++			u8tmp |= 0x1;	/* antenna inverse */
++		}
++
++		if (btcoexist->chip_interface == BTC_INTF_PCI)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x3e0,
++							     u8tmp);
++		else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60,
++							     u8tmp);
++	}
++}
++
++
++void ex_halbtc8821c2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	btcoexist->stop_coex_dm = false;
++	halbtc8821c2ant_init_hw_config(btcoexist, wifi_only);
++}
++
++void ex_halbtc8821c2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = false;
++
++	halbtc8821c2ant_action_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8821c2ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_stack_info		*stack_info = &btcoexist->stack_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fa_of_dm, fa_cck;
++	u32				fw_ver = 0, bt_patch_ver = 0;
++	static u8			pop_report_in_10s = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	if (btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	if (psd_scan->ant_det_try_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s / %d",
++			   "Ant PG Num/ Mech/ Pos/ RFE",
++			   board_info->pg_ant_num, board_info->btdm_ant_num,
++			   (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT? "Main" : "Aux"),
++			   rfe_type->rfe_module_type);
++		CL_PRINTF(cli_buf);
++	} else {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d/ %d/ %s/ %d  (%d/%d/%d)",
++			   "Ant PG Num/ Mech(Ant_Det)/ Pos/ RFE",
++			  board_info->pg_ant_num, board_info->btdm_ant_num_by_ant_det,
++			   (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT ? "Main" : "Aux"), 
++			   rfe_type->rfe_module_type,
++			   psd_scan->ant_det_try_count, psd_scan->ant_det_fail_count,
++			   psd_scan->ant_det_result);
++		CL_PRINTF(cli_buf);
++
++		if (board_info->btdm_ant_det_finish) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++				   "Ant Det PSD Value",
++				   psd_scan->ant_det_peak_val);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %d",
++		   "BT stack/ hci ext ver",
++		   ((stack_info->profile_notified) ? "Yes" : "No"),
++		   stack_info->hci_version);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)/ %c",
++		   "Version Coex/ Fw/ Patch/ Cut",
++		   glcoex_ver_date_8821c_2ant, glcoex_ver_8821c_2ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver, coex_sta->cut_version + 65);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s/ %s",
++		   "WifibHiPri/ Ccklock/ CckEverLock",
++		   (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"),
++		   (coex_sta->cck_lock ? "Yes" : "No"),
++		   (coex_sta->cck_ever_lock ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	pop_report_in_10s++;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt/ popCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++			   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page")
++			   : ((BT_8821C_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8821C_2ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi - 100, coex_sta->bt_retry_cnt,
++		   coex_sta->pop_event_cnt);
++	CL_PRINTF(cli_buf);
++
++	if (pop_report_in_10s >= 5) {
++		coex_sta->pop_event_cnt = 0;
++		pop_report_in_10s = 0;
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d / %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP/Hi-Pri",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist,
++		   bt_link_info->bt_hi_pri_link_exist);
++	CL_PRINTF(cli_buf);
++
++	if (stack_info->profile_notified)
++		btcoexist->btc_disp_dbg_msg(btcoexist,
++					    BTC_DBG_DISP_BT_LINK_INFO);
++	else {
++		bt_info_ext = coex_sta->bt_info_ext;
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %s / %d/ %x/ %04x",
++			   "Role/A2DP Rate/Bitpool/Feature/Ver",
++			   ((bt_link_info->slave_role) ? "Slave" : "Master"),
++			(bt_info_ext & BIT(0)) ? "BR" : "EDR", coex_sta->a2dp_bit_pool,
++			coex_sta->bt_coex_supported_feature,
++			coex_sta->bt_coex_supported_version);
++		CL_PRINTF(cli_buf);
++	}
++
++
++	for (i = 0; i < BT_INFO_SRC_8821C_2ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8821c_2ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++
++	if (btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[mechanisms] (before Manual)============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanisms]============");
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "SM[LowPenaltyRA]",
++		   coex_dm->cur_low_penalty_ra);
++	CL_PRINTF(cli_buf);
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (%s,%s)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   (coex_dm->cur_ps_tdma_on ? "On" : "Off"),
++		   (coex_dm->auto_tdma_adjust ? "Adj" : "Fix"));
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "WL/BT Coex Table Type",
++		   coex_sta->coex_table_type);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x778/0x6cc/IgnWlanAct",
++		   u8tmp[0], u32tmp[0],  coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa0);
++	u32tmp[1] = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "LTE Coex Table W_L/B_L",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa8);
++	u32tmp[1] = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist,
++			0xac);
++	u32tmp[2] = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb0);
++	u32tmp[3] = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "LTE Break Table W_L/B_L/L_W/L_B",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff,
++		   u32tmp[2] & 0xffff, u32tmp[3] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %s",
++		   "LTE CoexOn/Path Ctrl Owner",
++		(int)((u32tmp[0] & BIT(7)) >> 7), ((u8tmp[0] & BIT(2)) ? "WL" : "BT"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "LTE 3Wire/OPMode/UART/UARTMode",
++		(int)((u32tmp[0] & BIT(6)) >> 6), (int)((u32tmp[0] & (BIT(5) | BIT(4))) >> 4),
++		   (int)((u32tmp[0] & BIT(3)) >> 3),
++		   (int)(u32tmp[0] & (BIT(2) | BIT(1) | BIT(0))));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s",
++		   "GNT_WL_SWCtrl/GNT_BT_SWCtrl/Dbg",
++		(int)((u32tmp[0] & BIT(12)) >> 12), (int)((u32tmp[0] & BIT(14)) >> 14),
++		   ((u8tmp[0] & BIT(3)) ? "On" : "Off"));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "GNT_WL/GNT_BT/LTE_Busy/UART_Busy",
++		(int)((u32tmp[0] & BIT(2)) >> 2), (int)((u32tmp[0] & BIT(3)) >> 3),
++		   (int)((u32tmp[0] & BIT(1)) >> 1), (int)(u32tmp[0] & BIT(0)));
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xcb0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xcba);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%04x/ 0x%04x/ 0x%02x %s",
++		   "0xcb0/0xcb4/0xcb8[23:16]",
++		u32tmp[0], u32tmp[1],u8tmp[0],  (   (u8tmp[0] & 0x5) == 0x1 ?  "BTG":   ( (u8tmp[0] & 0xf0) == 0x70?  "WL_G"  : "WL_A" )  ));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0x64);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x4c6);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x4c[24:23]/0x64[0]/x4c6[4]/0x40[5]",
++		(u32tmp[0] & ( BIT(24) | BIT(23) )) >> 23 , u8tmp[2]&0x1 , (int)((u8tmp[0] & BIT(4)) >> 4), (int)((u8tmp[1] & BIT(5)) >> 5));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x953);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0xc50);
++	
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ %s/ 0x%x",
++		   "0x550/0x522/4-RxAGC/0xc50",
++		u32tmp[0], u8tmp[0], (u8tmp[1] & 0x2) ? "On" : "Off", u8tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xf48);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xf4c);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0xf08);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5d);
++
++	fa_of_dm = (u32tmp[0] & 0xffff)  +  (u32tmp[1] & 0xffff);
++		
++	fa_cck = (u8tmp[0] << 8) + u8tmp[1];
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "CCK-CCA/CCK-FA/OFDM-CCA/OFDM-FA",
++		   u32tmp[2] & 0xffff, fa_cck, ((u32tmp[2] & 0xffff0000) >> 16), fa_of_dm);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11ac",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11ac",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++
++	halbtc8821c2ant_read_score_board(btcoexist,	&u16tmp[0]);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %04x",
++		   "ScoreBoard[14:0] (from BT)", u16tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8821c2ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++		coex_sta->under_lps = false;
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, false);
++		
++		halbtc8821c2ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_2ANT_PHASE_WLAN_OFF);
++		
++		halbtc8821c2ant_action_coex_all_off(btcoexist);
++	} else if (BTC_IPS_LEAVE == type) {
++	
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		
++		coex_sta->under_ips = false;
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, true);
++		
++		halbtc8821c2ant_init_hw_config(btcoexist, false);
++		halbtc8821c2ant_action_init_coex_dm(btcoexist);
++		halbtc8821c2ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8821c2ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_LPS_ENABLE == type) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		
++		coex_sta->under_lps = true;
++		coex_sta->under_ips = false;
++
++		if (coex_sta->force_lps_on == true) { /* LPS No-32K */
++			/* Write WL "Active" in Score-board for PS-TDMA */
++			halbtc8821c2ant_post_activestate_to_bt(btcoexist, true);
++
++		} else { /* LPS-32K, need check if this h2c 0x71 can work?? (2015/08/28) */
++			/* Write WL "Non-Active" in Score-board for Native-PS */
++			halbtc8821c2ant_post_activestate_to_bt(btcoexist, false);
++
++		}
++	} else if (BTC_LPS_DISABLE == type) {
++	
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		
++		coex_sta->under_lps = false;
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, true);
++	}
++}
++
++void ex_halbtc8821c2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	u32	u32tmp;
++	u8	u8tmpa, u8tmpb;
++	boolean	wifi_connected = false;
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN notify()\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821c2ant_post_activestate_to_bt(btcoexist, true);
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_SCAN_START == type)   //for dual band, no action for BTC_SCAN_START, the action is change to switchband_notify
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	halbtc8821c2ant_query_bt_info(btcoexist);  /*  this can't be removed for RF off_on event, or BT would dis-connect */
++
++	if (BTC_SCAN_START_2G == type) {
++
++		if (!wifi_connected)
++			coex_sta->wifi_is_high_pri_task = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify (2G)\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_2ANT_PHASE_2G_RUNTIME);
++
++		halbtc8821c2ant_run_coexist_mechanism(btcoexist);
++
++	} else if (BTC_SCAN_FINISH == type) {
++
++		coex_sta->wifi_is_high_pri_task = false;
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], SCAN FINISH notify  (Scan-AP = %d)\n", coex_sta->scan_ap_num);
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_run_coexist_mechanism(btcoexist);
++	}
++
++}
++
++void ex_halbtc8821c2ant_switchband_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	if(type == BTC_SWITCH_TO_5G) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], switchband_notify ---  switch to 5G\n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8821c2ant_action_wifi_under5g(btcoexist);
++
++	} else {
++	
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], switchband_notify ---  switch to 2G\n");
++		BTC_TRACE(trace_buf);
++		
++		ex_halbtc8821c2ant_scan_notify(btcoexist,
++				    BTC_SCAN_START_2G);
++	}
++}
++
++
++void ex_halbtc8821c2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++
++	halbtc8821c2ant_post_activestate_to_bt(btcoexist, true);
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	if ( (BTC_ASSOCIATE_5G_START == type) ||  (BTC_ASSOCIATE_5G_FINISH== type)) {
++
++				if (BTC_ASSOCIATE_5G_START == type)
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], connect_notify ---  5G start\n");
++				else
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], connect_notify ---  5G finish\n");
++				
++				BTC_TRACE(trace_buf);
++
++				halbtc8821c2ant_action_wifi_under5g(btcoexist);
++				return;
++	}
++
++
++	if (BTC_ASSOCIATE_START == type) {
++
++		coex_sta->wifi_is_high_pri_task = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify (2G)\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_2ANT_PHASE_2G_RUNTIME);
++
++		halbtc8821c2ant_run_coexist_mechanism(btcoexist);
++
++		coex_dm->arp_cnt = 0;
++
++	} else if (BTC_ASSOCIATE_FINISH == type) {
++
++		coex_sta->wifi_is_high_pri_task = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify	(2G)\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_run_coexist_mechanism(btcoexist);
++	}
++}
++
++void ex_halbtc8821c2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++	u8			ap_num = 0;
++	boolean		wifi_under_b_mode = false, wifi_under_5g = false;
++
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	if (wifi_under_5g) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 5G!!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, true);		
++		halbtc8821c2ant_action_wifi_under5g(btcoexist);
++		return;
++	}
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, true);
++
++		halbtc8821c2ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_2ANT_PHASE_2G_RUNTIME);
++
++		/* psd_scan->ant_det_is_ant_det_available = TRUE; */
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++
++		/* Set CCK Tx/Rx high Pri except 11b mode */
++		if (wifi_under_b_mode) {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x00); /* CCK Rx */
++		} else {
++
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x10); /* CCK Rx */
++		}
++
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, false);
++
++		btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x0); /* CCK Tx */
++		btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x0); /* CCK Rx */
++	}
++
++
++	halbtc8821c2ant_update_wifi_channel_info(btcoexist, type);
++}
++
++void ex_halbtc8821c2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean under_4way = false, wifi_under_5g = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	if (wifi_under_5g) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 5G!!!\n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8821c2ant_action_wifi_under5g(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (under_4way) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], specific Packet ---- under_4way!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++
++	} else if (BTC_PACKET_ARP == type) {
++
++		coex_dm->arp_cnt++;
++		
++		if (coex_sta->wifi_is_high_pri_task) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], specific Packet ARP notify -cnt = %d\n", coex_dm->arp_cnt);
++			BTC_TRACE(trace_buf);
++		}
++
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet DHCP or EAPOL notify [Type = %d]\n", type);
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	}
++
++	if (coex_sta->wifi_is_high_pri_task)
++		halbtc8821c2ant_run_coexist_mechanism(btcoexist);
++
++}
++
++void ex_halbtc8821c2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8			bt_info = 0;
++	u8			i, rsp_source = 0;
++	boolean			bt_busy = false, limited_dig = false;
++	boolean			wifi_connected = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8821C_2ANT_MAX)
++		rsp_source = BT_INFO_SRC_8821C_2ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (BT_INFO_SRC_8821C_2ANT_WIFI_FW != rsp_source) {
++
++		/* if 0xff, it means BT is under WHCK test */
++		if (bt_info == 0xff)
++			coex_sta->bt_whck_test = true;
++		else
++			coex_sta->bt_whck_test = false;
++
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x80)
++			coex_sta->bt_create_connection = true;
++		else
++			coex_sta->bt_create_connection = false;
++
++		/* unit: %, value-100 to translate to unit: dBm  */
++		coex_sta->bt_rssi = coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x20)
++			coex_sta->c2h_bt_remote_name_req = true;
++		else
++			coex_sta->c2h_bt_remote_name_req = false;
++
++		if ((coex_sta->bt_info_c2h[rsp_source][1] & 0x49) == 0x49) {
++			coex_sta->a2dp_bit_pool =
++				coex_sta->bt_info_c2h[rsp_source][6];
++		} else
++			coex_sta->a2dp_bit_pool = 0;
++
++		if (coex_sta->bt_info_c2h[rsp_source][1] & 0x9)
++			coex_sta->acl_busy = true;
++		else
++			coex_sta->acl_busy = false;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++
++		if ((!btcoexist->manual_control) && (!btcoexist->stop_coex_dm)) {
++
++			/*  Re-Init */
++			if ((coex_sta->bt_info_ext & BIT(1))) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++				BTC_TRACE(trace_buf);
++				if (wifi_connected)
++					ex_halbtc8821c2ant_media_status_notify(
++						btcoexist, BTC_MEDIA_CONNECT);
++				else
++					ex_halbtc8821c2ant_media_status_notify(
++						btcoexist, BTC_MEDIA_DISCONNECT);
++			}
++
++
++			/*  If Ignore_WLanAct && not SetUp_Link */
++			if ((coex_sta->bt_info_ext & BIT(3)) && (!(coex_sta->bt_info_ext & BIT(2)))) {
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821c2ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		}
++
++		/* check BIT2 first ==> check if bt is under inquiry or page scan */
++		if (bt_info & BT_INFO_8821C_2ANT_B_INQ_PAGE)
++			coex_sta->c2h_bt_inquiry_page = true;
++		else
++			coex_sta->c2h_bt_inquiry_page = false;
++	}
++
++	coex_sta->num_of_profile = 0;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8821C_2ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8821C_2ANT_B_FTP) {
++			coex_sta->pan_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->pan_exist = false;
++
++		if (bt_info & BT_INFO_8821C_2ANT_B_A2DP) {
++			coex_sta->a2dp_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->a2dp_exist = false;
++
++		if (bt_info & BT_INFO_8821C_2ANT_B_HID) {
++			coex_sta->hid_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->hid_exist = false;
++
++		if (bt_info & BT_INFO_8821C_2ANT_B_SCO_ESCO) {
++			coex_sta->sco_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->sco_exist = false;
++
++	}
++
++	halbtc8821c2ant_update_bt_link_info(btcoexist);
++
++	if (!(bt_info & BT_INFO_8821C_2ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8821C_2ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8821C_2ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8821C_2ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8821C_2ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8821C_2ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8821C_2ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8821C_2ANT_B_ACL_BUSY) {
++		coex_dm->bt_status = BT_8821C_2ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8821C_2ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8821C_2ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8821C_2ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8821C_2ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status)) {
++		bt_busy = true;
++		limited_dig = true;
++	} else {
++		bt_busy = false;
++		limited_dig = false;
++	}
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	coex_dm->limited_dig = limited_dig;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_LIMITED_DIG, &limited_dig);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), No run_coexist_mechanism return for Manual CTRL<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(),  No run_coexist_mechanism return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	halbtc8821c2ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8821c2ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RF Status notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_RF_ON == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wl_rf_off_on_event = true;
++		btcoexist->stop_coex_dm = false;
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, TRUE);
++		halbtc8821c2ant_post_onoffstate_to_bt(btcoexist, TRUE);
++	} else if (BTC_RF_OFF == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_2ANT_PHASE_WLAN_OFF);
++		
++		halbtc8821c2ant_action_coex_all_off(btcoexist);
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, FALSE);
++		halbtc8821c2ant_post_onoffstate_to_bt(btcoexist, FALSE);
++		btcoexist->stop_coex_dm = true;
++		coex_sta->wl_rf_off_on_event = false;
++
++	}
++}
++
++void ex_halbtc8821c2ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821c2ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_2ANT_PHASE_WLAN_OFF);
++
++	ex_halbtc8821c2ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	halbtc8821c2ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++	halbtc8821c2ant_post_activestate_to_bt(btcoexist, FALSE);
++	halbtc8821c2ant_post_onoffstate_to_bt(btcoexist, FALSE);
++}
++
++void ex_halbtc8821c2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		/* Sinda 20150819, workaround for driver skip leave IPS/LPS to speed up sleep time. */
++		/* Driver do not leave IPS/LPS when driver is going to sleep, so BTCoexistence think wifi is still under IPS/LPS */
++		/* BT should clear UnderIPS/UnderLPS state to avoid mismatch state after wakeup. */
++		coex_sta->under_ips = false;
++		coex_sta->under_lps = false;
++
++		halbtc8821c2ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, FALSE);
++		halbtc8821c2ant_post_onoffstate_to_bt(btcoexist, FALSE);
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, TRUE);
++		halbtc8821c2ant_post_onoffstate_to_bt(btcoexist, TRUE);
++	}
++}
++
++void ex_halbtc8821c2ant_periodical(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ============== Periodical ==============\n");
++	BTC_TRACE(trace_buf);
++
++#if (BT_AUTO_REPORT_ONLY_8821C_2ANT == 0)
++	halbtc8821c2ant_query_bt_info(btcoexist);
++#endif
++
++	halbtc8821c2ant_monitor_bt_ctr(btcoexist);
++	halbtc8821c2ant_monitor_wifi_ctr(btcoexist);
++	halbtc8821c2ant_monitor_bt_enable_disable(btcoexist);
++
++	/* for 4-way, DHCP, EAPOL packet */
++	if (coex_sta->specific_pkt_period_cnt > 0) {
++
++		coex_sta->specific_pkt_period_cnt--;
++
++		if ((coex_sta->specific_pkt_period_cnt == 0) && (coex_sta->wifi_is_high_pri_task))
++			coex_sta->wifi_is_high_pri_task = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ***************** Hi-Pri Task = %s*****************\n", (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"));
++		BTC_TRACE(trace_buf);
++
++	}
++
++	if (coex_sta->bt_coex_supported_feature == 0)
++		coex_sta->bt_coex_supported_feature = btcoexist->btc_get_bt_coex_supported_feature(btcoexist);
++	
++	if	( (coex_sta->bt_coex_supported_version == 0) && (!coex_sta->bt_disabled) )
++			coex_sta->bt_coex_supported_version = btcoexist->btc_get_bt_coex_supported_version(btcoexist);
++
++	if (halbtc8821c2ant_is_wifibt_status_changed(btcoexist))
++		halbtc8821c2ant_run_coexist_mechanism(btcoexist);
++}
++
++
++void ex_halbtc8821c2ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx Ext Call AntennaDetect()!!\n");
++	BTC_TRACE(trace_buf);
++
++#if BT_8821C_2ANT_ANTDET_ENABLE
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	/*boolean scan, roam;*/
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx Call AntennaDetect()!!\n");
++	BTC_TRACE(trace_buf);
++
++	if (seconds == 0) {
++		psd_scan->ant_det_try_count	= 0;
++		psd_scan->ant_det_fail_count	= 0;
++		ant_det_count = 0;
++		ant_det_fail_count = 0;
++		board_info->btdm_ant_det_finish = false;
++		board_info->btdm_ant_num_by_ant_det = 1;
++		return;
++	}
++
++	if (!board_info->btdm_ant_det_finish) {
++		psd_scan->ant_det_inteval_count =
++			psd_scan->ant_det_inteval_count + 2;
++
++		if (psd_scan->ant_det_inteval_count >=
++		    BT_8821C_2ANT_ANTDET_RETRY_INTERVAL) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is up, Try Detect!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_psd_antenna_detection_check(btcoexist);
++
++			if (board_info->btdm_ant_det_finish) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Success!!\n");
++				BTC_TRACE(trace_buf);
++
++#if 0
++				board_info->btdm_ant_det_finish = false;
++#endif
++
++#if 0
++				if (board_info->btdm_ant_num_by_ant_det == 2)
++					halbtc8821c2ant_mechanism_switch(
++						btcoexist, true);
++				else
++					halbtc8821c2ant_mechanism_switch(
++						btcoexist, false);
++#endif
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Fail!!\n");
++				BTC_TRACE(trace_buf);
++			}
++			psd_scan->ant_det_inteval_count = 0;
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is not up! (%d)\n",
++				    psd_scan->ant_det_inteval_count);
++			BTC_TRACE(trace_buf);
++		}
++
++	}
++#endif
++
++
++}
++
++
++void ex_halbtc8821c2ant_display_ant_detection(IN struct btc_coexist *btcoexist)
++{
++
++#if BT_8821C_2ANT_ANTDET_ENABLE
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	if (psd_scan->ant_det_try_count != 0)	{
++		halbtc8821c2ant_psd_show_antenna_detect_result(btcoexist);
++
++		if (board_info->btdm_ant_det_finish)
++			halbtc8821c2ant_psd_showdata(btcoexist);
++		return;
++	}
++#endif
++
++}
++
++
++#endif
++
++#endif	/*  #if (RTL8821C_SUPPORT == 1) */
+diff --git a/drivers/net/wireless/rtl8723du/hal/btc/halbtc8821c2ant.h b/drivers/net/wireless/rtl8723du/hal/btc/halbtc8821c2ant.h
+new file mode 100644
+index 0000000..5c6abbf
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/btc/halbtc8821c2ant.h
+@@ -0,0 +1,433 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821C_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8821C 2Ant BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8821C_2ANT				1
++
++
++#define	BT_INFO_8821C_2ANT_B_FTP						BIT(7)
++#define	BT_INFO_8821C_2ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8821C_2ANT_B_HID						BIT(5)
++#define	BT_INFO_8821C_2ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8821C_2ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8821C_2ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8821C_2ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8821C_2ANT_B_CONNECTION				BIT(0)
++
++#define		BTC_RSSI_COEX_THRESH_TOL_8821C_2ANT		2
++
++
++#define	BT_8821C_2ANT_WIFI_RSSI_COEXSWITCH_THRES1				80  /* unit: % WiFi RSSI Threshold for   2-Ant free-run/2-Ant TDMA translation, default = 42 */
++#define	BT_8821C_2ANT_BT_RSSI_COEXSWITCH_THRES1				80 /*  unit: % BT RSSI Threshold for      2-Ant free-run/2-Ant TDMA translation, default = 46 */
++#define	BT_8821C_2ANT_WIFI_RSSI_COEXSWITCH_THRES2				80  /* unit: % WiFi RSSI Threshold for   1-Ant TDMA/1-Ant PS-TDMA translation, default = 42 */
++#define	BT_8821C_2ANT_BT_RSSI_COEXSWITCH_THRES2				80 /*  unit: % BT RSSI Threshold for      1-Ant TDMA/1-Ant PS-TDMA translation, default = 46 */
++#define	BT_8821C_2ANT_DEFAULT_ISOLATION						15	 /*  unit: dB */
++#define   BT_8821C_2ANT_WIFI_MAX_TX_POWER						15	 /*  unit: dBm */
++#define   BT_8821C_2ANT_BT_MAX_TX_POWER							3	 /*  unit: dBm */
++#define   BT_8821C_2ANT_WIFI_SIR_THRES1							-15  /*  unit: dB */
++#define   BT_8821C_2ANT_WIFI_SIR_THRES2							-30  /*  unit: dB */
++#define   BT_8821C_2ANT_BT_SIR_THRES1							-15		 /*  unit: dB */
++#define   BT_8821C_2ANT_BT_SIR_THRES2							-30		 /*  unit: dB */
++
++
++/* for Antenna detection */
++#define	BT_8821C_2ANT_ANTDET_PSDTHRES_BACKGROUND						50
++#define	BT_8821C_2ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION				70
++#define	BT_8821C_2ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION			52
++#define	BT_8821C_2ANT_ANTDET_PSDTHRES_1ANT							40
++#define	BT_8821C_2ANT_ANTDET_RETRY_INTERVAL							10	/* retry timer if ant det is fail, unit: second */
++#define	BT_8821C_2ANT_ANTDET_SWEEPPOINT_DELAY							40000
++#define	BT_8821C_2ANT_ANTDET_ENABLE										0
++#define	BT_8821C_2ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE			0
++#define	BT_8821C_2ANT_ANTDET_BTTXTIME									100
++#define	BT_8821C_2ANT_ANTDET_BTTXCHANNEL								39
++
++#define	BT_8821C_2ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT		30000
++
++enum bt_8821c_2ant_signal_state {
++	BT_8821C_2ANT_SIG_STA_SET_TO_LOW		= 0x0,
++	BT_8821C_2ANT_SIG_STA_SET_BY_HW		= 0x0,
++	BT_8821C_2ANT_SIG_STA_SET_TO_HIGH		= 0x1,
++	BT_8821C_2ANT_SIG_STA_MAX
++};
++
++enum bt_8821c_2ant_path_ctrl_owner {
++	BT_8821C_2ANT_PCO_BTSIDE		= 0x0,
++	BT_8821C_2ANT_PCO_WLSIDE	= 0x1,
++	BT_8821C_2ANT_PCO_MAX
++};
++
++enum bt_8821c_2ant_gnt_ctrl_type {
++	BT_8821C_2ANT_GNT_TYPE_CTRL_BY_PTA		= 0x0,
++	BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW		= 0x1,
++	BT_8821C_2ANT_GNT_TYPE_MAX
++};
++
++enum bt_8821c_2ant_gnt_ctrl_block {
++	BT_8821C_2ANT_GNT_BLOCK_RFC_BB		= 0x0,
++	BT_8821C_2ANT_GNT_BLOCK_RFC			= 0x1,
++	BT_8821C_2ANT_GNT_BLOCK_BB			= 0x2,
++	BT_8821C_2ANT_GNT_BLOCK_MAX
++};
++
++enum bt_8821c_2ant_lte_coex_table_type {
++	BT_8821C_2ANT_CTT_WL_VS_LTE			= 0x0,
++	BT_8821C_2ANT_CTT_BT_VS_LTE			= 0x1,
++	BT_8821C_2ANT_CTT_MAX
++};
++
++enum bt_8821c_2ant_lte_break_table_type {
++	BT_8821C_2ANT_LBTT_WL_BREAK_LTE			= 0x0,
++	BT_8821C_2ANT_LBTT_BT_BREAK_LTE				= 0x1,
++	BT_8821C_2ANT_LBTT_LTE_BREAK_WL			= 0x2,
++	BT_8821C_2ANT_LBTT_LTE_BREAK_BT				= 0x3,
++	BT_8821C_2ANT_LBTT_MAX
++};
++
++enum bt_info_src_8821c_2ant {
++	BT_INFO_SRC_8821C_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8821C_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8821C_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8821C_2ANT_MAX
++};
++
++enum bt_8821c_2ant_bt_status {
++	BT_8821C_2ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8821C_2ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8821C_2ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8821C_2ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8821C_2ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8821C_2ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8821C_2ANT_BT_STATUS_MAX
++};
++
++enum bt_8821c_2ant_coex_algo {
++	BT_8821C_2ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8821C_2ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8821C_2ANT_COEX_ALGO_HID				= 0x2,
++	BT_8821C_2ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8821C_2ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8821C_2ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8821C_2ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8821C_2ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8821C_2ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8821C_2ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8821C_2ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8821C_2ANT_COEX_ALGO_NOPROFILEBUSY		= 0xb,
++	BT_8821C_2ANT_COEX_ALGO_MAX
++};
++
++enum bt_8821c_2ant_ext_ant_switch_ctrl_type {
++	BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW	= 0x0,
++	BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_PTA		= 0x1,
++	BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_ANTDIV	= 0x2,
++	BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_MAC		= 0x3,
++	BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_BT		= 0x4,
++	BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_MAX
++};
++
++enum bt_8821c_2ant_ext_ant_switch_pos_type {
++	BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_BT			= 0x0,
++	BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_WLG			= 0x1,
++	BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_WLA			= 0x2,
++	BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_NOCARE		= 0x3,
++	BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_MAX
++};
++
++enum bt_8821c_2ant_ext_band_switch_pos_type {
++	BT_8821C_2ANT_EXT_BAND_SWITCH_TO_WLG			= 0x0,
++	BT_8821C_2ANT_EXT_BAND_SWITCH_TO_WLA			= 0x1,
++	BT_8821C_2ANT_EXT_BAND_SWITCH_TO_MAX
++};
++
++enum bt_8821c_2ant_int_block{
++	BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLG_OF_BTG			= 0x0,
++	BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG		= 0x1,
++	BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLA_OF_WLAG		= 0x2,
++	BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_MAX
++};
++
++enum bt_8821c_2ant_phase{
++	BT_8821C_2ANT_PHASE_COEX_INIT								= 0x0,
++	BT_8821C_2ANT_PHASE_WLANONLY_INIT							= 0x1,	
++	BT_8821C_2ANT_PHASE_WLAN_OFF								= 0x2,
++	BT_8821C_2ANT_PHASE_2G_RUNTIME								= 0x3,
++	BT_8821C_2ANT_PHASE_5G_RUNTIME								= 0x4,
++	BT_8821C_2ANT_PHASE_BTMPMODE									= 0x5,
++	BT_8821C_2ANT_PHASE_MAX
++};
++
++struct coex_dm_8821c_2ant {
++	/* hw setting */
++	u32		pre_ant_pos_type;
++	u32		cur_ant_pos_type;
++	/* fw mechanism */
++	u8		pre_bt_dec_pwr_lvl;
++	u8		cur_bt_dec_pwr_lvl;
++	u8		pre_fw_dac_swing_lvl;
++	u8		cur_fw_dac_swing_lvl;
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		reset_tdma_adjust;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++
++	/* sw mechanism */
++	boolean		pre_rf_rx_lpf_shrink;
++	boolean		cur_rf_rx_lpf_shrink;
++	u32		bt_rf_0x1e_backup;
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	boolean		pre_dac_swing_on;
++	u32		pre_dac_swing_lvl;
++	boolean		cur_dac_swing_on;
++	u32		cur_dac_swing_lvl;
++	boolean		pre_adc_back_off;
++	boolean		cur_adc_back_off;
++	boolean	pre_agc_table_en;
++	boolean		cur_agc_table_en;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	boolean		need_recover0x948;
++	u32		backup0x948;
++
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	boolean		is_switch_to_1dot5_ant;
++	u8		switch_thres_offset;
++	u32					arp_cnt;
++
++	u32		pre_ext_ant_switch_status;
++	u32		cur_ext_ant_switch_status;
++	
++	u8		pre_ext_band_switch_status;
++	u8		cur_ext_band_switch_status;
++
++	u8		pre_int_block_status;
++	u8		cur_int_block_status;
++};
++
++struct coex_sta_8821c_2ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	u8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8821C_2ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8821C_2ANT_MAX];
++	boolean				bt_whck_test;
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_remote_name_req;
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	
++	boolean					cck_lock;
++	boolean					pre_ccklock;
++	boolean					cck_ever_lock;
++
++	u8					coex_table_type;
++	boolean					force_lps_on;
++
++	u8					dis_ver_info_cnt;
++
++	u8					a2dp_bit_pool;
++	u8					cut_version;
++
++	boolean					concurrent_rx_mode_on;
++
++	u16					score_board;
++	u8					isolation_btween_wb;   /* 0~ 50 */
++	u8					wifi_coex_thres;
++	u8					bt_coex_thres;
++	u8					wifi_coex_thres2;
++	u8					bt_coex_thres2;
++
++	u8					num_of_profile;
++	boolean				acl_busy;
++	boolean				wl_rf_off_on_event;
++	boolean				bt_create_connection;
++	boolean				run_time_state;
++	boolean				wifi_is_high_pri_task;
++	u32					specific_pkt_period_cnt;
++	u32					bt_coex_supported_feature;
++	u32					bt_coex_supported_version;
++};
++
++#define  BT_8821C_2ANT_EXT_ANT_SWITCH_USE_DPDT 		0
++#define  BT_8821C_2ANT_EXT_ANT_SWITCH_USE_SPDT 		1
++
++#define  BT_8821C_2ANT_EXT_BAND_SWITCH_USE_DPDT 	0
++#define  BT_8821C_2ANT_EXT_BAND_SWITCH_USE_SPDT 	1
++
++
++struct rfe_type_8821c_2ant{
++
++	u8			rfe_module_type;	
++	boolean		ext_ant_switch_exist;
++	u8			ext_ant_switch_type;			/* 0:DPDT, 1:SPDT */
++	u8			ext_ant_switch_ctrl_polarity;		/*  iF 0: DPDT_P=0, DPDT_N=1 => BTG to Main, WL_A+G to Aux */
++	
++	boolean		ext_band_switch_exist;
++	u8			ext_band_switch_type;			/* 0:DPDT, 1:SPDT */
++	u8			ext_band_switch_ctrl_polarity;
++
++	boolean		wlg_Locate_at_btg;				/*  If true:  WLG at BTG, If false: WLG at WLAG  */	
++
++	boolean		ext_ant_switch_diversity;		/* If diversity on  */
++};
++
++#define BT_8821C_2ANT_ANTDET_PSD_POINTS			256	/* MAX:1024 */
++#define BT_8821C_2ANT_ANTDET_PSD_AVGNUM		1	/* MAX:3 */
++#define BT_8821C_2ANT_ANTDET_BUF_LEN			16
++
++struct psdscan_sta_8821c_2ant {
++
++	u32			ant_det_bt_le_channel;  /* BT LE Channel ex:2412 */
++	u32			ant_det_bt_tx_time;
++	u32			ant_det_pre_psdscan_peak_val;
++	boolean			ant_det_is_ant_det_available;
++	u32			ant_det_psd_scan_peak_val;
++	boolean			ant_det_is_btreply_available;
++	u32			ant_det_psd_scan_peak_freq;
++
++	u8			ant_det_result;
++	u8			ant_det_peak_val[BT_8821C_2ANT_ANTDET_BUF_LEN];
++	u8			ant_det_peak_freq[BT_8821C_2ANT_ANTDET_BUF_LEN];
++	u32			ant_det_try_count;
++	u32			ant_det_fail_count;
++	u32			ant_det_inteval_count;
++	u32			ant_det_thres_offset;
++
++	u32			real_cent_freq;
++	s32			real_offset;
++	u32			real_span;
++
++	u32			psd_band_width;  /* unit: Hz */
++	u32			psd_point;		/* 128/256/512/1024 */
++	u32			psd_report[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_report_max_hold[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_start_point;
++	u32			psd_stop_point;
++	u32			psd_max_value_point;
++	u32			psd_max_value;
++	u32			psd_start_base;
++	u32			psd_avg_num;	/* 1/8/16/32 */
++	u32			psd_gen_count;
++	boolean			is_psd_running;
++	boolean			is_psd_show_max_only;
++};
++
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8821c2ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c2ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8821c2ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c2ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8821c2ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8821c2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8821c2ant_switchband_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8821c2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8821c2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821c2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821c2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8821c2ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821c2ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8821c2ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c2ant_display_coex_info(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c2ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8821c2ant_display_ant_detection(IN struct btc_coexist *btcoexist);
++
++
++#else
++#define	ex_halbtc8821c2ant_power_on_setting(btcoexist)
++#define	ex_halbtc8821c2ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8821c2ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8821c2ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8821c2ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8821c2ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8821c2ant_scan_notify(btcoexist, type)
++#define   ex_halbtc8821c2ant_switchband_notify(btcoexist,type)
++#define	ex_halbtc8821c2ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8821c2ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8821c2ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8821c2ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8821c2ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8821c2ant_halt_notify(btcoexist)
++#define	ex_halbtc8821c2ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8821c2ant_periodical(btcoexist)
++#define	ex_halbtc8821c2ant_display_coex_info(btcoexist)
++#define	ex_halbtc8821c2ant_display_ant_detection(btcoexist)
++#define	ex_halbtc8821c2ant_antenna_detection(btcoexist, centFreq, offset, span, seconds)
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/efuse/efuse_mask.h b/drivers/net/wireless/rtl8723du/hal/efuse/efuse_mask.h
+new file mode 100644
+index 0000000..e1c38c1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/efuse/efuse_mask.h
+@@ -0,0 +1,98 @@
++
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++
++#if defined(CONFIG_RTL8188E)
++	#include "rtl8188e/HalEfuseMask8188E_USB.h"
++#endif
++
++#if defined(CONFIG_RTL8812A)
++	#include "rtl8812a/HalEfuseMask8812A_USB.h"
++#endif
++
++#if defined(CONFIG_RTL8821A)
++	#include "rtl8812a/HalEfuseMask8821A_USB.h"
++#endif
++
++#if defined(CONFIG_RTL8192E)
++	#include "rtl8192e/HalEfuseMask8192E_USB.h"
++#endif
++
++#if defined(CONFIG_RTL8723B)
++	#include "rtl8723b/HalEfuseMask8723B_USB.h"
++#endif
++
++#if defined(CONFIG_RTL8814A)
++	#include "rtl8814a/HalEfuseMask8814A_USB.h"
++#endif
++
++#if defined(CONFIG_RTL8703B)
++	#include "rtl8703b/HalEfuseMask8703B_USB.h"
++#endif
++
++#if defined(CONFIG_RTL8723D)
++	#include "rtl8723d/HalEfuseMask8723D_USB.h"
++#endif
++
++#if defined(CONFIG_RTL8188F)
++	#include "rtl8188f/HalEfuseMask8188F_USB.h"
++#endif
++
++#if defined(CONFIG_RTL8822B)
++	#include "rtl8822b/HalEfuseMask8822B_USB.h"
++#endif
++
++#elif DEV_BUS_TYPE == RT_PCI_INTERFACE
++
++#if defined(CONFIG_RTL8188E)
++	#include "rtl8188e/HalEfuseMask8188E_PCIE.h"
++#endif
++
++#if defined(CONFIG_RTL8812A)
++	#include "rtl8812a/HalEfuseMask8812A_PCIE.h"
++#endif
++
++#if defined(CONFIG_RTL8821A)
++	#include "rtl8812a/HalEfuseMask8821A_PCIE.h"
++#endif
++
++#if defined(CONFIG_RTL8192E)
++	#include "rtl8192e/HalEfuseMask8192E_PCIE.h"
++#endif
++
++#if defined(CONFIG_RTL8723B)
++	#include "rtl8723b/HalEfuseMask8723B_PCIE.h"
++#endif
++
++#if defined(CONFIG_RTL8814A)
++	#include "rtl8814a/HalEfuseMask8814A_PCIE.h"
++#endif
++
++#if defined(CONFIG_RTL8703B)
++	#include "rtl8703b/HalEfuseMask8703B_PCIE.h"
++#endif
++
++#if defined(CONFIG_RTL8822B)
++	#include "rtl8822b/HalEfuseMask8822B_PCIE.h"
++#endif
++#if defined(CONFIG_RTL8723D)
++	#include "rtl8723d/HalEfuseMask8723D_PCIE.h"
++#endif
++
++#elif DEV_BUS_TYPE == RT_SDIO_INTERFACE
++
++#if defined(CONFIG_RTL8188E)
++	#include "rtl8188e/HalEfuseMask8188E_SDIO.h"
++#endif
++
++#if defined(CONFIG_RTL8703B)
++	#include "rtl8703b/HalEfuseMask8703B_SDIO.h"
++#endif
++
++#if defined(CONFIG_RTL8188F)
++	#include "rtl8188f/HalEfuseMask8188F_SDIO.h"
++#endif
++
++#if defined(CONFIG_RTL8723D)
++	#include "rtl8723d/HalEfuseMask8723D_SDIO.h"
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/efuse/rtl8723d/HalEfuseMask8723D_PCIE.c b/drivers/net/wireless/rtl8723du/hal/efuse/rtl8723d/HalEfuseMask8723D_PCIE.c
+new file mode 100644
+index 0000000..1ecae7b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/efuse/rtl8723d/HalEfuseMask8723D_PCIE.c
+@@ -0,0 +1,96 @@
++/******************************************************************************
++*
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++*
++* This program is free software; you can redistribute it and/or modify it
++* under the terms of version 2 of the GNU General Public License as
++* published by the Free Software Foundation.
++*
++* This program is distributed in the hope that it will be useful, but WITHOUT
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++* more details.
++*
++* You should have received a copy of the GNU General Public License along with
++* this program; if not, write to the Free Software Foundation, Inc.,
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++*
++*
++******************************************************************************/
++
++/*#include "Mp_Precomp.h"*/
++#include <drv_types.h>
++
++#include "HalEfuseMask8723D_PCIE.h"
++
++/******************************************************************************
++*                           MPCIE.TXT
++******************************************************************************/
++
++u1Byte Array_MP_8723D_MPCIE[] = {
++	0xFF,
++	0xF3,
++	0x00,
++	0x0E,
++	0x70,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x07,
++	0xF3,
++	0xFF,
++	0xFF,
++	0x7C,
++	0x70,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++};
++
++u2Byte
++EFUSE_GetArrayLen_MP_8723D_MPCIE(VOID)
++{
++	return sizeof(Array_MP_8723D_MPCIE) / sizeof(u1Byte);
++}
++
++VOID
++EFUSE_GetMaskArray_MP_8723D_MPCIE(
++	IN	OUT pu1Byte Array
++)
++{
++	u2Byte len = EFUSE_GetArrayLen_MP_8723D_MPCIE(), i = 0;
++
++	for (i = 0; i < len; ++i)
++		Array[i] = Array_MP_8723D_MPCIE[i];
++}
++BOOLEAN
++EFUSE_IsAddressMasked_MP_8723D_MPCIE(
++	IN   u2Byte  Offset
++)
++{
++	int r = Offset / 16;
++	int c = (Offset % 16) / 2;
++	int result = 0;
++
++	if (c < 4) /* Upper double word */
++		result = (Array_MP_8723D_MPCIE[r] & (0x10 << c));
++	else
++		result = (Array_MP_8723D_MPCIE[r] & (0x01 << (c - 4)));
++
++	return (result > 0) ? 0 : 1;
++}
+diff --git a/drivers/net/wireless/rtl8723du/hal/efuse/rtl8723d/HalEfuseMask8723D_PCIE.h b/drivers/net/wireless/rtl8723du/hal/efuse/rtl8723d/HalEfuseMask8723D_PCIE.h
+new file mode 100644
+index 0000000..5a7f6c1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/efuse/rtl8723d/HalEfuseMask8723D_PCIE.h
+@@ -0,0 +1,37 @@
++/******************************************************************************
++*
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++*
++* This program is free software; you can redistribute it and/or modify it
++* under the terms of version 2 of the GNU General Public License as
++* published by the Free Software Foundation.
++*
++* This program is distributed in the hope that it will be useful, but WITHOUT
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++* more details.
++*
++* You should have received a copy of the GNU General Public License along with
++* this program; if not, write to the Free Software Foundation, Inc.,
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++*
++*
++******************************************************************************/
++
++/******************************************************************************
++*                           MPCIE.TXT
++******************************************************************************/
++
++
++u2Byte
++EFUSE_GetArrayLen_MP_8723D_MPCIE(VOID);
++
++VOID
++EFUSE_GetMaskArray_MP_8723D_MPCIE(
++	IN	OUT pu1Byte Array
++);
++
++BOOLEAN
++EFUSE_IsAddressMasked_MP_8723D_MPCIE(/* TC: Test Chip, MP: MP Chip */
++	IN   u2Byte  Offset
++);
+diff --git a/drivers/net/wireless/rtl8723du/hal/efuse/rtl8723d/HalEfuseMask8723D_SDIO.c b/drivers/net/wireless/rtl8723du/hal/efuse/rtl8723d/HalEfuseMask8723D_SDIO.c
+new file mode 100644
+index 0000000..13e973f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/efuse/rtl8723d/HalEfuseMask8723D_SDIO.c
+@@ -0,0 +1,93 @@
++/******************************************************************************
++*
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++*
++* This program is free software; you can redistribute it and/or modify it
++* under the terms of version 2 of the GNU General Public License as
++* published by the Free Software Foundation.
++*
++* This program is distributed in the hope that it will be useful, but WITHOUT
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++* more details.
++*
++* You should have received a copy of the GNU General Public License along with
++* this program; if not, write to the Free Software Foundation, Inc.,
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++*
++******************************************************************************/
++
++#include <drv_types.h>
++#include "HalEfuseMask8723D_SDIO.h"
++
++/******************************************************************************
++*                           MSDIO.TXT
++******************************************************************************/
++
++u1Byte Array_MP_8723D_MSDIO[] = {
++	0xFF,
++	0xF3,
++	0x00,
++	0x0E,
++	0x70,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x07,
++	0xF3,
++	0xFF,
++	0xFF,
++	0xFF,
++	0xFF,
++	0xFF,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++};
++
++u2Byte
++EFUSE_GetArrayLen_MP_8723D_MSDIO(VOID)
++{
++	return sizeof(Array_MP_8723D_MSDIO) / sizeof(u1Byte);
++}
++
++VOID
++EFUSE_GetMaskArray_MP_8723D_MSDIO(
++	IN	OUT pu1Byte Array
++)
++{
++	u2Byte len = EFUSE_GetArrayLen_MP_8723D_MSDIO(), i = 0;
++
++	for (i = 0; i < len; ++i)
++		Array[i] = Array_MP_8723D_MSDIO[i];
++}
++BOOLEAN
++EFUSE_IsAddressMasked_MP_8723D_MSDIO(
++	IN   u2Byte  Offset
++)
++{
++	int r = Offset / 16;
++	int c = (Offset % 16) / 2;
++	int result = 0;
++	/* Upper double word */
++	if (c < 4)
++		result = (Array_MP_8723D_MSDIO[r] & (0x10 << c));
++	else
++		result = (Array_MP_8723D_MSDIO[r] & (0x01 << (c - 4)));
++
++	return (result > 0) ? 0 : 1;
++}
+diff --git a/drivers/net/wireless/rtl8723du/hal/efuse/rtl8723d/HalEfuseMask8723D_SDIO.h b/drivers/net/wireless/rtl8723du/hal/efuse/rtl8723d/HalEfuseMask8723D_SDIO.h
+new file mode 100644
+index 0000000..dc4fafc
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/efuse/rtl8723d/HalEfuseMask8723D_SDIO.h
+@@ -0,0 +1,35 @@
++/******************************************************************************
++*
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++*
++* This program is free software; you can redistribute it and/or modify it
++* under the terms of version 2 of the GNU General Public License as
++* published by the Free Software Foundation.
++*
++* This program is distributed in the hope that it will be useful, but WITHOUT
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++* more details.
++*
++* You should have received a copy of the GNU General Public License along with
++* this program; if not, write to the Free Software Foundation, Inc.,
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++*
++******************************************************************************/
++
++/******************************************************************************
++*                           MSDIO.TXT
++******************************************************************************/
++
++u2Byte
++EFUSE_GetArrayLen_MP_8723D_MSDIO(VOID);
++
++VOID
++EFUSE_GetMaskArray_MP_8723D_MSDIO(
++	IN	OUT pu1Byte Array
++);
++/* TC: Test Chip, MP: MP Chip */
++BOOLEAN
++EFUSE_IsAddressMasked_MP_8723D_MSDIO(
++	IN   u2Byte  Offset
++);
+diff --git a/drivers/net/wireless/rtl8723du/hal/efuse/rtl8723d/HalEfuseMask8723D_USB.c b/drivers/net/wireless/rtl8723du/hal/efuse/rtl8723d/HalEfuseMask8723D_USB.c
+new file mode 100644
+index 0000000..dbccd82
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/efuse/rtl8723d/HalEfuseMask8723D_USB.c
+@@ -0,0 +1,97 @@
++/******************************************************************************
++*
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++*
++* This program is free software; you can redistribute it and/or modify it
++* under the terms of version 2 of the GNU General Public License as
++* published by the Free Software Foundation.
++*
++* This program is distributed in the hope that it will be useful, but WITHOUT
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++* more details.
++*
++* You should have received a copy of the GNU General Public License along with
++* this program; if not, write to the Free Software Foundation, Inc.,
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++*
++*
++******************************************************************************/
++
++/* #include "Mp_Precomp.h" */
++/* #include "../odm_precomp.h" */
++
++#include <drv_types.h>
++#include "HalEfuseMask8723D_USB.h"
++/******************************************************************************
++*                           MUSB.TXT
++******************************************************************************/
++
++u1Byte Array_MP_8723D_MUSB[] = {
++	0xFF,
++	0xF3,
++	0x00,
++	0x0E,
++	0x70,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x07,
++	0xF3,
++	0x00,
++	0x00,
++	0x00,
++	0xFF,
++	0xFF,
++	0xFF,
++	0xFF,
++	0xB0,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++
++};
++
++u2Byte
++EFUSE_GetArrayLen_MP_8723D_MUSB(VOID)
++{
++	return sizeof(Array_MP_8723D_MUSB) / sizeof(u1Byte);
++}
++
++VOID
++EFUSE_GetMaskArray_MP_8723D_MUSB(
++	IN	OUT pu1Byte Array
++)
++{
++	u2Byte len = EFUSE_GetArrayLen_MP_8723D_MUSB(), i = 0;
++
++	for (i = 0; i < len; ++i)
++		Array[i] = Array_MP_8723D_MUSB[i];
++}
++BOOLEAN
++EFUSE_IsAddressMasked_MP_8723D_MUSB(
++	IN   u2Byte  Offset
++)
++{
++	int r = Offset / 16;
++	int c = (Offset % 16) / 2;
++	int result = 0;
++
++	if (c < 4) /* Upper double word */
++		result = (Array_MP_8723D_MUSB[r] & (0x10 << c));
++	else
++		result = (Array_MP_8723D_MUSB[r] & (0x01 << (c - 4)));
++
++	return (result > 0) ? 0 : 1;
++}
+diff --git a/drivers/net/wireless/rtl8723du/hal/efuse/rtl8723d/HalEfuseMask8723D_USB.h b/drivers/net/wireless/rtl8723du/hal/efuse/rtl8723d/HalEfuseMask8723D_USB.h
+new file mode 100644
+index 0000000..888fc47
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/efuse/rtl8723d/HalEfuseMask8723D_USB.h
+@@ -0,0 +1,39 @@
++/******************************************************************************
++*
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++*
++* This program is free software; you can redistribute it and/or modify it
++* under the terms of version 2 of the GNU General Public License as
++* published by the Free Software Foundation.
++*
++* This program is distributed in the hope that it will be useful, but WITHOUT
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++* more details.
++*
++* You should have received a copy of the GNU General Public License along with
++* this program; if not, write to the Free Software Foundation, Inc.,
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++*
++*
++******************************************************************************/
++
++
++
++/******************************************************************************
++*                           MUSB.TXT
++******************************************************************************/
++
++
++u2Byte
++EFUSE_GetArrayLen_MP_8723D_MUSB(VOID);
++
++VOID
++EFUSE_GetMaskArray_MP_8723D_MUSB(
++	IN	OUT pu1Byte Array
++);
++
++BOOLEAN
++EFUSE_IsAddressMasked_MP_8723D_MUSB(/* TC: Test Chip, MP: MP Chip */
++	IN   u2Byte  Offset
++);
+diff --git a/drivers/net/wireless/rtl8723du/hal/hal_btcoex.c b/drivers/net/wireless/rtl8723du/hal/hal_btcoex.c
+new file mode 100644
+index 0000000..a62b611
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/hal_btcoex.c
+@@ -0,0 +1,4290 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define __HAL_BTCOEX_C__
++
++#ifdef CONFIG_BT_COEXIST
++
++#include <hal_data.h>
++#include <hal_btcoex.h>
++#include <Mp_Precomp.h>
++
++/* ************************************
++ *		Global variables
++ * ************************************ */
++const char *const BtProfileString[] = {
++	"NONE",
++	"A2DP",
++	"PAN",
++	"HID",
++	"SCO",
++};
++
++const char *const BtSpecString[] = {
++	"1.0b",
++	"1.1",
++	"1.2",
++	"2.0+EDR",
++	"2.1+EDR",
++	"3.0+HS",
++	"4.0",
++};
++
++const char *const BtLinkRoleString[] = {
++	"Master",
++	"Slave",
++};
++
++const char *const h2cStaString[] = {
++	"successful",
++	"h2c busy",
++	"rf off",
++	"fw not read",
++};
++
++const char *const ioStaString[] = {
++	"success",
++	"can not IO",
++	"rf off",
++	"fw not read",
++	"wait io timeout",
++	"invalid len",
++	"idle Q empty",
++	"insert waitQ fail",
++	"unknown fail",
++	"wrong level",
++	"h2c stopped",
++};
++
++const char *const GLBtcWifiBwString[] = {
++	"11bg",
++	"HT20",
++	"HT40",
++	"HT80",
++	"HT160"
++};
++
++const char *const GLBtcWifiFreqString[] = {
++	"2.4G",
++	"5G"
++};
++
++const char *const GLBtcIotPeerString[] = {
++	"UNKNOWN",
++	"REALTEK",
++	"REALTEK_92SE",
++	"BROADCOM",
++	"RALINK",
++	"ATHEROS",
++	"CISCO",
++	"MERU",
++	"MARVELL",
++	"REALTEK_SOFTAP", /* peer is RealTek SOFT_AP, by Bohn, 2009.12.17 */
++	"SELF_SOFTAP", /* Self is SoftAP */
++	"AIRGO",
++	"INTEL",
++	"RTK_APCLIENT",
++	"REALTEK_81XX",
++	"REALTEK_WOW",
++	"REALTEK_JAGUAR_BCUTAP",
++	"REALTEK_JAGUAR_CCUTAP"
++};
++
++const char *const coexOpcodeString[] = {
++	"Wifi status notify",
++	"Wifi progress",
++	"Wifi info",
++	"Power state",
++	"Set Control",
++	"Get Control"
++};
++
++const char *const coexIndTypeString[] = {
++	"bt info",
++	"pstdma",
++	"limited tx/rx",
++	"coex table",
++	"request"
++};
++
++const char *const coexH2cResultString[] = {
++	"ok",
++	"unknown",
++	"un opcode",
++	"opVer MM",
++	"par Err",
++	"par OoR",
++	"reqNum MM",
++	"halMac Fail",
++	"h2c TimeOut",
++	"Invalid c2h Len",
++	"data overflow"
++};
++
++#define HALBTCOUTSRC_AGG_CHK_WINDOW_IN_MS	8000
++
++struct btc_coexist GLBtCoexist;
++BTC_OFFLOAD gl_coex_offload;
++u8 GLBtcWiFiInScanState;
++u8 GLBtcWiFiInIQKState;
++u8 GLBtcWiFiInIPS;
++u8 GLBtcWiFiInLPS;
++u8 GLBtcBtCoexAliveRegistered;
++
++/*
++ * BT control H2C/C2H
++ */
++/* EXT_EID */
++typedef enum _bt_ext_eid {
++	C2H_WIFI_FW_ACTIVE_RSP	= 0,
++	C2H_TRIG_BY_BT_FW
++} BT_EXT_EID;
++
++/* C2H_STATUS */
++typedef enum _bt_c2h_status {
++	BT_STATUS_OK = 0,
++	BT_STATUS_VERSION_MISMATCH,
++	BT_STATUS_UNKNOWN_OPCODE,
++	BT_STATUS_ERROR_PARAMETER
++} BT_C2H_STATUS;
++
++/* C2H BT OP CODES */
++typedef enum _bt_op_code {
++	BT_OP_GET_BT_VERSION				= 0,
++	BT_OP_WRITE_REG_ADDR				= 12,
++	BT_OP_WRITE_REG_VALUE,
++	BT_OP_READ_REG						= 17,
++	BT_OP_GET_BT_COEX_SUPPORTED_FEATURE	= 42,
++	BT_OP_GET_BT_COEX_SUPPORTED_VERSION	= 43
++} BT_OP_CODE;
++
++#define BTC_MPOPER_TIMEOUT	50	/* unit: ms */
++
++#define C2H_MAX_SIZE		16
++u8 GLBtcBtMpOperSeq;
++_mutex GLBtcBtMpOperLock;
++_timer GLBtcBtMpOperTimer;
++_sema GLBtcBtMpRptSema;
++u8 GLBtcBtMpRptSeq;
++u8 GLBtcBtMpRptStatus;
++u8 GLBtcBtMpRptRsp[C2H_MAX_SIZE];
++u8 GLBtcBtMpRptRspSize;
++u8 GLBtcBtMpRptWait;
++u8 GLBtcBtMpRptWiFiOK;
++u8 GLBtcBtMpRptBTOK;
++
++/*
++ * Debug
++ */
++u32 GLBtcDbgType[COMP_MAX];
++u8 GLBtcDbgBuf[BT_TMP_BUF_SIZE];
++u1Byte	gl_btc_trace_buf[BT_TMP_BUF_SIZE];
++
++typedef struct _btcoexdbginfo {
++	u8 *info;
++	u32 size; /* buffer total size */
++	u32 len; /* now used length */
++} BTCDBGINFO, *PBTCDBGINFO;
++
++BTCDBGINFO GLBtcDbgInfo;
++
++#define	BT_Operation(Adapter)						_FALSE
++
++static void DBG_BT_INFO_INIT(PBTCDBGINFO pinfo, u8 *pbuf, u32 size)
++{
++	if (NULL == pinfo)
++		return;
++
++	_rtw_memset(pinfo, 0, sizeof(BTCDBGINFO));
++
++	if (pbuf && size) {
++		pinfo->info = pbuf;
++		pinfo->size = size;
++	}
++}
++
++void DBG_BT_INFO(u8 *dbgmsg)
++{
++	PBTCDBGINFO pinfo;
++	u32 msglen, buflen;
++	u8 *pbuf;
++
++
++	pinfo = &GLBtcDbgInfo;
++
++	if (NULL == pinfo->info)
++		return;
++
++	msglen = strlen(dbgmsg);
++	if (pinfo->len + msglen > pinfo->size)
++		return;
++
++	pbuf = pinfo->info + pinfo->len;
++	_rtw_memcpy(pbuf, dbgmsg, msglen);
++	pinfo->len += msglen;
++}
++
++/* ************************************
++ *		Debug related function
++ * ************************************ */
++static u8 halbtcoutsrc_IsBtCoexistAvailable(PBTC_COEXIST pBtCoexist)
++{
++	if (!pBtCoexist->bBinded ||
++	    NULL == pBtCoexist->Adapter)
++		return _FALSE;
++	return _TRUE;
++}
++
++static void halbtcoutsrc_DbgInit(void)
++{
++	u8	i;
++
++	for (i = 0; i < COMP_MAX; i++)
++		GLBtcDbgType[i] = 0;
++}
++
++static u8 halbtcoutsrc_IsCsrBtCoex(PBTC_COEXIST pBtCoexist)
++{
++	if (pBtCoexist->board_info.bt_chip_type == BTC_CHIP_CSR_BC4
++	    || pBtCoexist->board_info.bt_chip_type == BTC_CHIP_CSR_BC8
++	   )
++		return _TRUE;
++	return _FALSE;
++}
++
++static u8 halbtcoutsrc_IsHwMailboxExist(PBTC_COEXIST pBtCoexist)
++{
++	if (pBtCoexist->board_info.bt_chip_type == BTC_CHIP_CSR_BC4
++	    || pBtCoexist->board_info.bt_chip_type == BTC_CHIP_CSR_BC8
++	   )
++		return _FALSE;
++	else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter))
++		return _FALSE;
++	else
++		return _TRUE;
++}
++
++static void halbtcoutsrc_LeaveLps(PBTC_COEXIST pBtCoexist)
++{
++	PADAPTER padapter;
++
++
++	padapter = pBtCoexist->Adapter;
++
++	pBtCoexist->bt_info.bt_ctrl_lps = _TRUE;
++	pBtCoexist->bt_info.bt_lps_on = _FALSE;
++
++	rtw_btcoex_LPS_Leave(padapter);
++}
++
++void halbtcoutsrc_EnterLps(PBTC_COEXIST pBtCoexist)
++{
++	PADAPTER padapter;
++
++
++	padapter = pBtCoexist->Adapter;
++
++	if (pBtCoexist->bdontenterLPS == _FALSE) {
++		pBtCoexist->bt_info.bt_ctrl_lps = _TRUE;
++		pBtCoexist->bt_info.bt_lps_on = _TRUE;
++
++		rtw_btcoex_LPS_Enter(padapter);
++	}
++}
++
++void halbtcoutsrc_NormalLps(PBTC_COEXIST pBtCoexist)
++{
++	PADAPTER padapter;
++
++
++
++	padapter = pBtCoexist->Adapter;
++
++	if (pBtCoexist->bt_info.bt_ctrl_lps) {
++		pBtCoexist->bt_info.bt_lps_on = _FALSE;
++		rtw_btcoex_LPS_Leave(padapter);
++		pBtCoexist->bt_info.bt_ctrl_lps = _FALSE;
++
++		/* recover the LPS state to the original */
++#if 0
++		padapter->HalFunc.UpdateLPSStatusHandler(
++			padapter,
++			pPSC->RegLeisurePsMode,
++			pPSC->RegPowerSaveMode);
++#endif
++	}
++}
++
++/*
++ *  Constraint:
++ *	   1. this function will request pwrctrl->lock
++ */
++void halbtcoutsrc_LeaveLowPower(PBTC_COEXIST pBtCoexist)
++{
++#ifdef CONFIG_LPS_LCLK
++	PADAPTER padapter;
++	PHAL_DATA_TYPE pHalData;
++	struct pwrctrl_priv *pwrctrl;
++	s32 ready;
++	u32 stime;
++	s32 utime;
++	u32 timeout; /* unit: ms */
++
++
++	padapter = pBtCoexist->Adapter;
++	pHalData = GET_HAL_DATA(padapter);
++	pwrctrl = adapter_to_pwrctl(padapter);
++	ready = _FAIL;
++#ifdef LPS_RPWM_WAIT_MS
++	timeout = LPS_RPWM_WAIT_MS;
++#else /* !LPS_RPWM_WAIT_MS */
++	timeout = 30;
++#endif /* !LPS_RPWM_WAIT_MS */
++
++	if (GLBtcBtCoexAliveRegistered == _TRUE)
++		return;
++
++	stime = rtw_get_current_time();
++	do {
++		ready = rtw_register_task_alive(padapter, BTCOEX_ALIVE);
++		if (_SUCCESS == ready)
++			break;
++
++		utime = rtw_get_passing_time_ms(stime);
++		if (utime > timeout)
++			break;
++
++		rtw_msleep_os(1);
++	} while (1);
++
++	GLBtcBtCoexAliveRegistered = _TRUE;
++#endif /* CONFIG_LPS_LCLK */
++}
++
++/*
++ *  Constraint:
++ *	   1. this function will request pwrctrl->lock
++ */
++void halbtcoutsrc_NormalLowPower(PBTC_COEXIST pBtCoexist)
++{
++#ifdef CONFIG_LPS_LCLK
++	PADAPTER padapter;
++
++	if (GLBtcBtCoexAliveRegistered == _FALSE)
++		return;
++
++	padapter = pBtCoexist->Adapter;
++	rtw_unregister_task_alive(padapter, BTCOEX_ALIVE);
++
++	GLBtcBtCoexAliveRegistered = _FALSE;
++#endif /* CONFIG_LPS_LCLK */
++}
++
++void halbtcoutsrc_DisableLowPower(PBTC_COEXIST pBtCoexist, u8 bLowPwrDisable)
++{
++	pBtCoexist->bt_info.bt_disable_low_pwr = bLowPwrDisable;
++	if (bLowPwrDisable)
++		halbtcoutsrc_LeaveLowPower(pBtCoexist);		/* leave 32k low power. */
++	else
++		halbtcoutsrc_NormalLowPower(pBtCoexist);	/* original 32k low power behavior. */
++}
++
++void halbtcoutsrc_AggregationCheck(PBTC_COEXIST pBtCoexist)
++{
++	PADAPTER padapter;
++	BOOLEAN bNeedToAct = _FALSE;
++	static u32 preTime = 0;
++	u32 curTime = 0;
++
++	padapter = pBtCoexist->Adapter;
++
++	/* ===================================== */
++	/* To void continuous deleteBA=>addBA=>deleteBA=>addBA */
++	/* This function is not allowed to continuous called. */
++	/* It can only be called after 8 seconds. */
++	/* ===================================== */
++
++	curTime = rtw_systime_to_ms(rtw_get_current_time());
++	if ((curTime - preTime) < HALBTCOUTSRC_AGG_CHK_WINDOW_IN_MS)	/* over 8 seconds you can execute this function again. */
++		return;
++	else
++		preTime = curTime;
++
++	if (pBtCoexist->bt_info.reject_agg_pkt) {
++		bNeedToAct = _TRUE;
++		pBtCoexist->bt_info.pre_reject_agg_pkt = pBtCoexist->bt_info.reject_agg_pkt;
++	} else {
++		if (pBtCoexist->bt_info.pre_reject_agg_pkt) {
++			bNeedToAct = _TRUE;
++			pBtCoexist->bt_info.pre_reject_agg_pkt = pBtCoexist->bt_info.reject_agg_pkt;
++		}
++
++		if (pBtCoexist->bt_info.pre_bt_ctrl_agg_buf_size !=
++		    pBtCoexist->bt_info.bt_ctrl_agg_buf_size) {
++			bNeedToAct = _TRUE;
++			pBtCoexist->bt_info.pre_bt_ctrl_agg_buf_size = pBtCoexist->bt_info.bt_ctrl_agg_buf_size;
++		}
++
++		if (pBtCoexist->bt_info.bt_ctrl_agg_buf_size) {
++			if (pBtCoexist->bt_info.pre_agg_buf_size !=
++			    pBtCoexist->bt_info.agg_buf_size)
++				bNeedToAct = _TRUE;
++			pBtCoexist->bt_info.pre_agg_buf_size = pBtCoexist->bt_info.agg_buf_size;
++		}
++	}
++
++	if (bNeedToAct)
++		rtw_btcoex_rx_ampdu_apply(padapter);
++}
++
++u8 halbtcoutsrc_IsWifiBusy(PADAPTER padapter)
++{
++	if (rtw_mi_check_status(padapter, MI_AP_MODE))
++		return _TRUE;
++	if (rtw_mi_busy_traffic_check(padapter, _FALSE))
++		return _TRUE;
++
++	return _FALSE;
++}
++
++static u32 _halbtcoutsrc_GetWifiLinkStatus(PADAPTER padapter)
++{
++	struct mlme_priv *pmlmepriv;
++	u8 bp2p;
++	u32 portConnectedStatus;
++
++
++	pmlmepriv = &padapter->mlmepriv;
++	bp2p = _FALSE;
++	portConnectedStatus = 0;
++
++#ifdef CONFIG_P2P
++	if (!rtw_p2p_chk_state(&padapter->wdinfo, P2P_STATE_NONE))
++		bp2p = _TRUE;
++#endif /* CONFIG_P2P */
++
++	if (check_fwstate(pmlmepriv, WIFI_ASOC_STATE) == _TRUE) {
++		if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++			if (_TRUE == bp2p)
++				portConnectedStatus |= WIFI_P2P_GO_CONNECTED;
++			else
++				portConnectedStatus |= WIFI_AP_CONNECTED;
++		} else {
++			if (_TRUE == bp2p)
++				portConnectedStatus |= WIFI_P2P_GC_CONNECTED;
++			else
++				portConnectedStatus |= WIFI_STA_CONNECTED;
++		}
++	}
++
++	return portConnectedStatus;
++}
++
++u32 halbtcoutsrc_GetWifiLinkStatus(PBTC_COEXIST pBtCoexist)
++{
++	/* ================================= */
++	/* return value: */
++	/* [31:16]=> connected port number */
++	/* [15:0]=> port connected bit define */
++	/* ================================ */
++
++	PADAPTER padapter;
++	u32 retVal;
++	u32 portConnectedStatus, numOfConnectedPort;
++	struct dvobj_priv *dvobj;
++	_adapter *iface;
++	int i;
++
++	padapter = pBtCoexist->Adapter;
++	retVal = 0;
++	portConnectedStatus = 0;
++	numOfConnectedPort = 0;
++	dvobj = adapter_to_dvobj(padapter);
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++			retVal = _halbtcoutsrc_GetWifiLinkStatus(iface);
++			if (retVal) {
++				portConnectedStatus |= retVal;
++				numOfConnectedPort++;
++			}
++		}
++	}
++	retVal = (numOfConnectedPort << 16) | portConnectedStatus;
++
++	return retVal;
++}
++
++static u8 _is_btfwver_valid(PBTC_COEXIST pBtCoexist, u16 btfwver)
++{
++	if (!btfwver)
++		return _FALSE;
++
++	if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter))
++		if (btfwver == 0x8723)
++			return _FALSE;
++
++	return _TRUE;
++}
++
++static void _btmpoper_timer_hdl(void *p)
++{
++	if (GLBtcBtMpRptWait) {
++		GLBtcBtMpRptWait = 0;
++		_rtw_up_sema(&GLBtcBtMpRptSema);
++	}
++}
++
++/*
++ * !IMPORTANT!
++ *	Before call this function, caller should acquire "GLBtcBtMpOperLock"!
++ *	Othrewise there will be racing problem and something may go wrong.
++ */
++static u8 _btmpoper_cmd(PBTC_COEXIST pBtCoexist, u8 opcode, u8 opcodever, u8 *cmd, u8 size)
++{
++	PADAPTER padapter;
++	u8 buf[H2C_BTMP_OPER_LEN] = {0};
++	u8 buflen;
++	u8 seq;
++	u8 timer_cancelled;
++	s32 ret;
++
++
++	if (!cmd && size)
++		size = 0;
++	if ((size + 2) > H2C_BTMP_OPER_LEN)
++		return BT_STATUS_H2C_LENGTH_EXCEEDED;
++	buflen = size + 2;
++
++	seq = GLBtcBtMpOperSeq & 0xF;
++	GLBtcBtMpOperSeq++;
++
++	buf[0] = (opcodever & 0xF) | (seq << 4);
++	buf[1] = opcode;
++	if (cmd && size)
++		_rtw_memcpy(buf + 2, cmd, size);
++
++	GLBtcBtMpRptWait = 1;
++	GLBtcBtMpRptWiFiOK = 0;
++	GLBtcBtMpRptBTOK = 0;
++	GLBtcBtMpRptStatus = 0;
++	padapter = pBtCoexist->Adapter;
++	_set_timer(&GLBtcBtMpOperTimer, BTC_MPOPER_TIMEOUT);
++	if (rtw_hal_fill_h2c_cmd(padapter, H2C_BT_MP_OPER, buflen, buf) == _FAIL) {
++		_cancel_timer(&GLBtcBtMpOperTimer, &timer_cancelled);
++		ret = BT_STATUS_H2C_FAIL;
++		goto exit;
++	}
++
++	_rtw_down_sema(&GLBtcBtMpRptSema);
++	/* GLBtcBtMpRptWait should be 0 here*/
++
++	if (!GLBtcBtMpRptWiFiOK) {
++		RTW_INFO("%s: Didn't get H2C Rsp Event!\n", __FUNCTION__);
++		ret = BT_STATUS_H2C_TIMTOUT;
++		goto exit;
++	}
++	if (!GLBtcBtMpRptBTOK) {
++		RTW_INFO("%s: Didn't get BT response!\n", __FUNCTION__);
++		ret = BT_STATUS_H2C_BT_NO_RSP;
++		goto exit;
++	}
++	if (seq != GLBtcBtMpRptSeq) {
++		RTW_INFO("%s: Sequence number not match!(%d!=%d)!\n",
++			 __FUNCTION__, seq, GLBtcBtMpRptSeq);
++		ret = BT_STATUS_C2H_REQNUM_MISMATCH;
++		goto exit;
++	}
++
++	switch (GLBtcBtMpRptStatus) {
++	/* Examine the status reported from C2H */
++	case BT_STATUS_OK:
++		ret = BT_STATUS_BT_OP_SUCCESS;
++		RTW_INFO("%s: C2H status = BT_STATUS_BT_OP_SUCCESS\n", __FUNCTION__);
++		break;
++	case BT_STATUS_VERSION_MISMATCH:
++		ret = BT_STATUS_OPCODE_L_VERSION_MISMATCH;
++		RTW_INFO("%s: C2H status = BT_STATUS_OPCODE_L_VERSION_MISMATCH\n", __FUNCTION__);
++		break;
++	case BT_STATUS_UNKNOWN_OPCODE:
++		ret = BT_STATUS_UNKNOWN_OPCODE_L;
++		RTW_INFO("%s: C2H status = MP_BT_STATUS_UNKNOWN_OPCODE_L\n", __FUNCTION__);
++		break;
++	case BT_STATUS_ERROR_PARAMETER:
++		ret = BT_STATUS_PARAMETER_FORMAT_ERROR_L;
++		RTW_INFO("%s: C2H status = MP_BT_STATUS_PARAMETER_FORMAT_ERROR_L\n", __FUNCTION__);
++		break;
++	default:
++		ret = BT_STATUS_UNKNOWN_STATUS_L;
++		RTW_INFO("%s: C2H status = MP_BT_STATUS_UNKNOWN_STATUS_L\n", __FUNCTION__);
++		break;
++	}
++
++exit:
++	return ret;
++}
++
++u32 halbtcoutsrc_GetBtPatchVer(PBTC_COEXIST pBtCoexist)
++{
++	if (_is_btfwver_valid(pBtCoexist, pBtCoexist->bt_info.bt_real_fw_ver) == _TRUE)
++		goto exit;
++
++	if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _TRUE) {
++		_irqL irqL;
++		u8 ret;
++
++
++		_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
++
++		ret = _btmpoper_cmd(pBtCoexist, BT_OP_GET_BT_VERSION, 0, NULL, 0);
++		if (BT_STATUS_BT_OP_SUCCESS == ret) {
++			pBtCoexist->bt_info.bt_real_fw_ver = le16_to_cpu(*(u16 *)GLBtcBtMpRptRsp);
++			pBtCoexist->bt_info.bt_fw_ver = *(GLBtcBtMpRptRsp + 2);
++		}
++		pBtCoexist->bt_info.get_bt_fw_ver_cnt++;
++
++		_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
++	} else {
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++		u1Byte dataLen = 2;
++		u1Byte buf[4] = {0};
++
++		buf[0] = 0x0;	/* OP_Code */
++		buf[1] = 0x0;	/* OP_Code_Length */
++		BT_SendEventExtBtCoexControl(pBtCoexist->Adapter, _FALSE, dataLen, &buf[0]);
++#endif /* !CONFIG_BT_COEXIST_SOCKET_TRX */
++	}
++
++exit:
++	return pBtCoexist->bt_info.bt_real_fw_ver;
++}
++
++s32 halbtcoutsrc_GetWifiRssi(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData;
++	s32 UndecoratedSmoothedPWDB = 0;
++
++	pHalData = GET_HAL_DATA(padapter);
++
++	UndecoratedSmoothedPWDB = pHalData->EntryMinUndecoratedSmoothedPWDB;
++
++	return UndecoratedSmoothedPWDB;
++}
++
++static u8 halbtcoutsrc_GetWifiScanAPNum(PADAPTER padapter)
++{
++	struct mlme_priv *pmlmepriv;
++	struct mlme_ext_priv *pmlmeext;
++	static u8 scan_AP_num = 0;
++
++
++	pmlmepriv = &padapter->mlmepriv;
++	pmlmeext = &padapter->mlmeextpriv;
++
++	if (GLBtcWiFiInScanState == _FALSE) {
++		if (pmlmepriv->num_of_scanned > 0xFF)
++			scan_AP_num = 0xFF;
++		else
++			scan_AP_num = (u8)pmlmepriv->num_of_scanned;
++	}
++
++	return scan_AP_num;
++}
++
++u8 halbtcoutsrc_Get(void *pBtcContext, u8 getType, void *pOutBuf)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++	PHAL_DATA_TYPE pHalData;
++	struct mlme_ext_priv *mlmeext;
++	u8 bSoftApExist, bVwifiExist;
++	u8 *pu8;
++	s32 *pS4Tmp;
++	u32 *pU4Tmp;
++	u8 *pU1Tmp;
++	u8 ret;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return _FALSE;
++
++	padapter = pBtCoexist->Adapter;
++	pHalData = GET_HAL_DATA(padapter);
++	mlmeext = &padapter->mlmeextpriv;
++	bSoftApExist = _FALSE;
++	bVwifiExist = _FALSE;
++	pu8 = (u8 *)pOutBuf;
++	pS4Tmp = (s32 *)pOutBuf;
++	pU4Tmp = (u32 *)pOutBuf;
++	pU1Tmp = (u8 *)pOutBuf;
++	ret = _TRUE;
++
++	switch (getType) {
++	case BTC_GET_BL_HS_OPERATION:
++		*pu8 = _FALSE;
++		ret = _FALSE;
++		break;
++
++	case BTC_GET_BL_HS_CONNECTING:
++		*pu8 = _FALSE;
++		ret = _FALSE;
++		break;
++
++	case BTC_GET_BL_WIFI_CONNECTED:
++		*pu8 = (rtw_mi_check_status(padapter, MI_LINKED)) ? _TRUE : _FALSE;
++		break;
++
++	case BTC_GET_BL_WIFI_BUSY:
++		*pu8 = halbtcoutsrc_IsWifiBusy(padapter);
++		break;
++
++	case BTC_GET_BL_WIFI_SCAN:
++#if 0
++		*pu8 = (rtw_mi_check_fwstate(padapter, WIFI_SITE_MONITOR)) ? _TRUE : _FALSE;
++#else
++		/* Use the value of the new variable GLBtcWiFiInScanState to judge whether WiFi is in scan state or not, since the originally used flag
++			WIFI_SITE_MONITOR in fwstate may not be cleared in time */
++		*pu8 = GLBtcWiFiInScanState;
++#endif
++		break;
++
++	case BTC_GET_BL_WIFI_LINK:
++		*pu8 = (rtw_mi_check_status(padapter, MI_STA_LINKING)) ? _TRUE : _FALSE;
++		break;
++
++	case BTC_GET_BL_WIFI_ROAM:
++		*pu8 = (rtw_mi_check_status(padapter, MI_STA_LINKING)) ? _TRUE : _FALSE;
++		break;
++
++	case BTC_GET_BL_WIFI_4_WAY_PROGRESS:
++		*pu8 = _FALSE;
++		break;
++
++	case BTC_GET_BL_WIFI_UNDER_5G:
++		*pu8 = (pHalData->CurrentBandType == 1) ? _TRUE : _FALSE;
++		break;
++
++	case BTC_GET_BL_WIFI_AP_MODE_ENABLE:
++		*pu8 = (rtw_mi_check_status(padapter, MI_AP_MODE)) ? _TRUE : _FALSE;
++		break;
++
++	case BTC_GET_BL_WIFI_ENABLE_ENCRYPTION:
++		*pu8 = padapter->securitypriv.dot11PrivacyAlgrthm == 0 ? _FALSE : _TRUE;
++		break;
++
++	case BTC_GET_BL_WIFI_UNDER_B_MODE:
++		if (mlmeext->cur_wireless_mode == WIRELESS_11B)
++			*pu8 = _TRUE;
++		else
++			*pu8 = _FALSE;
++		break;
++
++	case BTC_GET_BL_WIFI_IS_IN_MP_MODE:
++		if (padapter->registrypriv.mp_mode == 0)
++			*pu8 = _FALSE;
++		else
++			*pu8 = _TRUE;
++		break;
++
++	case BTC_GET_BL_EXT_SWITCH:
++		*pu8 = _FALSE;
++		break;
++	case BTC_GET_BL_IS_ASUS_8723B:
++		/* Always return FALSE in linux driver since this case is added only for windows driver */
++		*pu8 = _FALSE;
++		break;
++
++	case BTC_GET_S4_WIFI_RSSI:
++		*pS4Tmp = halbtcoutsrc_GetWifiRssi(padapter);
++		break;
++
++	case BTC_GET_S4_HS_RSSI:
++		*pS4Tmp = 0;
++		ret = _FALSE;
++		break;
++
++	case BTC_GET_U4_WIFI_BW:
++		if (IsLegacyOnly(mlmeext->cur_wireless_mode))
++			*pU4Tmp = BTC_WIFI_BW_LEGACY;
++		else {
++			switch (pHalData->CurrentChannelBW) {
++			case CHANNEL_WIDTH_20:
++				*pU4Tmp = BTC_WIFI_BW_HT20;
++				break;
++			case CHANNEL_WIDTH_40:
++				*pU4Tmp = BTC_WIFI_BW_HT40;
++				break;
++			case CHANNEL_WIDTH_80:
++				*pU4Tmp = BTC_WIFI_BW_HT80;
++				break;
++			case CHANNEL_WIDTH_160:
++				*pU4Tmp = BTC_WIFI_BW_HT160;
++				break;
++			default:
++				RTW_INFO("[BTCOEX] unkown bandwidth(%d)\n", pHalData->CurrentChannelBW);
++				*pU4Tmp = BTC_WIFI_BW_HT40;
++				break;
++			}
++
++		}
++		break;
++
++	case BTC_GET_U4_WIFI_TRAFFIC_DIRECTION: {
++		PRT_LINK_DETECT_T plinkinfo;
++		plinkinfo = &padapter->mlmepriv.LinkDetectInfo;
++
++		if (plinkinfo->NumTxOkInPeriod > plinkinfo->NumRxOkInPeriod)
++			*pU4Tmp = BTC_WIFI_TRAFFIC_TX;
++		else
++			*pU4Tmp = BTC_WIFI_TRAFFIC_RX;
++	}
++		break;
++
++	case BTC_GET_U4_WIFI_FW_VER:
++		*pU4Tmp = pHalData->FirmwareVersion << 16;
++		*pU4Tmp |= pHalData->FirmwareSubVersion;
++		break;
++
++	case BTC_GET_U4_WIFI_LINK_STATUS:
++		*pU4Tmp = halbtcoutsrc_GetWifiLinkStatus(pBtCoexist);
++		break;
++
++	case BTC_GET_U4_BT_PATCH_VER:
++		*pU4Tmp = halbtcoutsrc_GetBtPatchVer(pBtCoexist);
++		break;
++
++	case BTC_GET_U4_VENDOR:
++		*pU4Tmp = BTC_VENDOR_OTHER;
++		break;
++
++	case BTC_GET_U4_WIFI_IQK_TOTAL:
++		*pU4Tmp = pHalData->odmpriv.nIQK_Cnt;
++		break;
++
++	case BTC_GET_U4_WIFI_IQK_OK:
++		*pU4Tmp = pHalData->odmpriv.nIQK_OK_Cnt;
++		break;
++
++	case BTC_GET_U4_WIFI_IQK_FAIL:
++		*pU4Tmp = pHalData->odmpriv.nIQK_Fail_Cnt;
++		break;
++
++	case BTC_GET_U1_WIFI_DOT11_CHNL:
++		*pU1Tmp = padapter->mlmeextpriv.cur_channel;
++		break;
++
++	case BTC_GET_U1_WIFI_CENTRAL_CHNL:
++		*pU1Tmp = pHalData->CurrentChannel;
++		break;
++
++	case BTC_GET_U1_WIFI_HS_CHNL:
++		*pU1Tmp = 0;
++		ret = _FALSE;
++		break;
++
++	case BTC_GET_U1_WIFI_P2P_CHNL:
++#ifdef CONFIG_P2P
++		{
++			struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++			
++			*pU1Tmp = pwdinfo->operating_channel;
++		}
++#else
++		*pU1Tmp = 0;
++#endif
++		break;
++
++	case BTC_GET_U1_MAC_PHY_MODE:
++		/*			*pU1Tmp = BTC_SMSP;
++		 *			*pU1Tmp = BTC_DMSP;
++		 *			*pU1Tmp = BTC_DMDP;
++		 *			*pU1Tmp = BTC_MP_UNKNOWN; */
++		break;
++
++	case BTC_GET_U1_AP_NUM:
++		*pU1Tmp = halbtcoutsrc_GetWifiScanAPNum(padapter);
++		break;
++	case BTC_GET_U1_ANT_TYPE:
++		switch (pHalData->bt_coexist.btAntisolation) {
++		case 0:
++			*pU1Tmp = (u1Byte)BTC_ANT_TYPE_0;
++			pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_0;
++			break;
++		case 1:
++			*pU1Tmp = (u1Byte)BTC_ANT_TYPE_1;
++			pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_1;
++			break;
++		case 2:
++			*pU1Tmp = (u1Byte)BTC_ANT_TYPE_2;
++			pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_2;
++			break;
++		case 3:
++			*pU1Tmp = (u1Byte)BTC_ANT_TYPE_3;
++			pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_3;
++			break;
++		case 4:
++			*pU1Tmp = (u1Byte)BTC_ANT_TYPE_4;
++			pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_4;
++			break;
++		}
++		break;
++	case BTC_GET_U1_IOT_PEER:
++		*pU1Tmp = mlmeext->mlmext_info.assoc_AP_vendor;
++		break;
++
++	/* =======1Ant=========== */
++	case BTC_GET_U1_LPS_MODE:
++		*pU1Tmp = padapter->dvobj->pwrctl_priv.pwr_mode;
++		break;
++
++	default:
++		ret = _FALSE;
++		break;
++	}
++
++	return ret;
++}
++
++u8 halbtcoutsrc_Set(void *pBtcContext, u8 setType, void *pInBuf)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++	PHAL_DATA_TYPE pHalData;
++	u8 *pu8;
++	u8 *pU1Tmp;
++	u32	*pU4Tmp;
++	u8 ret;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++	pHalData = GET_HAL_DATA(padapter);
++	pu8 = (u8 *)pInBuf;
++	pU1Tmp = (u8 *)pInBuf;
++	pU4Tmp = (u32 *)pInBuf;
++	ret = _TRUE;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return _FALSE;
++
++	switch (setType) {
++	/* set some u8 type variables. */
++	case BTC_SET_BL_BT_DISABLE:
++		pBtCoexist->bt_info.bt_disabled = *pu8;
++		break;
++
++	case BTC_SET_BL_BT_TRAFFIC_BUSY:
++		pBtCoexist->bt_info.bt_busy = *pu8;
++		break;
++
++	case BTC_SET_BL_BT_LIMITED_DIG:
++		pBtCoexist->bt_info.limited_dig = *pu8;
++		break;
++
++	case BTC_SET_BL_FORCE_TO_ROAM:
++		pBtCoexist->bt_info.force_to_roam = *pu8;
++		break;
++
++	case BTC_SET_BL_TO_REJ_AP_AGG_PKT:
++		pBtCoexist->bt_info.reject_agg_pkt = *pu8;
++		break;
++
++	case BTC_SET_BL_BT_CTRL_AGG_SIZE:
++		pBtCoexist->bt_info.bt_ctrl_agg_buf_size = *pu8;
++		break;
++
++	case BTC_SET_BL_INC_SCAN_DEV_NUM:
++		pBtCoexist->bt_info.increase_scan_dev_num = *pu8;
++		break;
++
++	case BTC_SET_BL_BT_TX_RX_MASK:
++		pBtCoexist->bt_info.bt_tx_rx_mask = *pu8;
++		break;
++
++	case BTC_SET_BL_MIRACAST_PLUS_BT:
++		pBtCoexist->bt_info.miracast_plus_bt = *pu8;
++		break;
++
++	/* set some u8 type variables. */
++	case BTC_SET_U1_RSSI_ADJ_VAL_FOR_AGC_TABLE_ON:
++		pBtCoexist->bt_info.rssi_adjust_for_agc_table_on = *pU1Tmp;
++		break;
++
++	case BTC_SET_U1_AGG_BUF_SIZE:
++		pBtCoexist->bt_info.agg_buf_size = *pU1Tmp;
++		break;
++
++	/* the following are some action which will be triggered */
++	case BTC_SET_ACT_GET_BT_RSSI:
++#if 0
++		BT_SendGetBtRssiEvent(padapter);
++#else
++		ret = _FALSE;
++#endif
++		break;
++
++	case BTC_SET_ACT_AGGREGATE_CTRL:
++		halbtcoutsrc_AggregationCheck(pBtCoexist);
++		break;
++
++	/* =======1Ant=========== */
++	/* set some u8 type variables. */
++	case BTC_SET_U1_RSSI_ADJ_VAL_FOR_1ANT_COEX_TYPE:
++		pBtCoexist->bt_info.rssi_adjust_for_1ant_coex_type = *pU1Tmp;
++		break;
++
++	case BTC_SET_U1_LPS_VAL:
++		pBtCoexist->bt_info.lps_val = *pU1Tmp;
++		break;
++
++	case BTC_SET_U1_RPWM_VAL:
++		pBtCoexist->bt_info.rpwm_val = *pU1Tmp;
++		break;
++
++	/* the following are some action which will be triggered */
++	case BTC_SET_ACT_LEAVE_LPS:
++		halbtcoutsrc_LeaveLps(pBtCoexist);
++		break;
++
++	case BTC_SET_ACT_ENTER_LPS:
++		halbtcoutsrc_EnterLps(pBtCoexist);
++		break;
++
++	case BTC_SET_ACT_NORMAL_LPS:
++		halbtcoutsrc_NormalLps(pBtCoexist);
++		break;
++
++	case BTC_SET_ACT_DISABLE_LOW_POWER:
++		halbtcoutsrc_DisableLowPower(pBtCoexist, *pu8);
++		break;
++
++	case BTC_SET_ACT_UPDATE_RAMASK:
++		pBtCoexist->bt_info.ra_mask = *pU4Tmp;
++
++		if (check_fwstate(&padapter->mlmepriv, WIFI_ASOC_STATE) == _TRUE) {
++			struct sta_info *psta;
++			PWLAN_BSSID_EX cur_network;
++
++			cur_network = &padapter->mlmeextpriv.mlmext_info.network;
++			psta = rtw_get_stainfo(&padapter->stapriv, cur_network->MacAddress);
++			rtw_hal_update_ra_mask(psta, 0);
++		}
++		break;
++
++	case BTC_SET_ACT_SEND_MIMO_PS: {
++		u8 newMimoPsMode = 3;
++		struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++		struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++
++		/* *pU1Tmp = 0 use SM_PS static type */
++		/* *pU1Tmp = 1 disable SM_PS */
++		if (*pU1Tmp == 0)
++			newMimoPsMode = WLAN_HT_CAP_SM_PS_STATIC;
++		else if (*pU1Tmp == 1)
++			newMimoPsMode = WLAN_HT_CAP_SM_PS_DISABLED;
++
++		if (check_fwstate(&padapter->mlmepriv , WIFI_ASOC_STATE) == _TRUE) {
++			/* issue_action_SM_PS(padapter, get_my_bssid(&(pmlmeinfo->network)), newMimoPsMode); */
++			issue_action_SM_PS_wait_ack(padapter , get_my_bssid(&(pmlmeinfo->network)) , newMimoPsMode, 3 , 1);
++		}
++	}
++	break;
++
++	case BTC_SET_ACT_CTRL_BT_INFO:
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++		{
++			u8 dataLen = *pU1Tmp;
++			u8 tmpBuf[BTC_TMP_BUF_SHORT];
++			if (dataLen)
++				_rtw_memcpy(tmpBuf, pU1Tmp + 1, dataLen);
++			BT_SendEventExtBtInfoControl(padapter, dataLen, &tmpBuf[0]);
++		}
++#else /* !CONFIG_BT_COEXIST_SOCKET_TRX */
++		ret = _FALSE;
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++		break;
++
++	case BTC_SET_ACT_CTRL_BT_COEX:
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++		{
++			u8 dataLen = *pU1Tmp;
++			u8 tmpBuf[BTC_TMP_BUF_SHORT];
++			if (dataLen)
++				_rtw_memcpy(tmpBuf, pU1Tmp + 1, dataLen);
++			BT_SendEventExtBtCoexControl(padapter, _FALSE, dataLen, &tmpBuf[0]);
++		}
++#else /* !CONFIG_BT_COEXIST_SOCKET_TRX */
++		ret = _FALSE;
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++		break;
++	case BTC_SET_ACT_CTRL_8723B_ANT:
++#if 0
++		{
++			u1Byte	dataLen = *pU1Tmp;
++			u1Byte	tmpBuf[BTC_TMP_BUF_SHORT];
++			if (dataLen)
++				PlatformMoveMemory(&tmpBuf[0], pU1Tmp + 1, dataLen);
++			BT_Set8723bAnt(Adapter, dataLen, &tmpBuf[0]);
++		}
++#else
++		ret = _FALSE;
++#endif
++		break;
++	/* ===================== */
++	default:
++		ret = _FALSE;
++		break;
++	}
++
++	return ret;
++}
++
++u8 halbtcoutsrc_UnderIps(PBTC_COEXIST pBtCoexist)
++{
++	PADAPTER padapter;
++	struct pwrctrl_priv *pwrpriv;
++	u8 bMacPwrCtrlOn;
++
++	padapter = pBtCoexist->Adapter;
++	pwrpriv = &padapter->dvobj->pwrctl_priv;
++	bMacPwrCtrlOn = _FALSE;
++
++	if ((_TRUE == pwrpriv->bips_processing)
++	    && (IPS_NONE != pwrpriv->ips_mode_req)
++	   )
++		return _TRUE;
++
++	if (rf_off == pwrpriv->rf_pwrstate)
++		return _TRUE;
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_APFM_ON_MAC, &bMacPwrCtrlOn);
++	if (_FALSE == bMacPwrCtrlOn)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++u8 halbtcoutsrc_UnderLps(PBTC_COEXIST pBtCoexist)
++{
++	return GLBtcWiFiInLPS;
++}
++
++u8 halbtcoutsrc_Under32K(PBTC_COEXIST pBtCoexist)
++{
++	/* todo: the method to check whether wifi is under 32K or not */
++	return _FALSE;
++}
++
++u8 halbtcoutsrc_is_autoload_fail(PBTC_COEXIST pBtCoexist)
++{
++	PADAPTER padapter;
++	PHAL_DATA_TYPE pHalData;
++
++	padapter = pBtCoexist->Adapter;
++	pHalData = GET_HAL_DATA(padapter);
++
++	return pHalData->bautoload_fail_flag;
++}
++
++u8 halbtcoutsrc_is_fw_ready(PBTC_COEXIST pBtCoexist)
++{
++	PADAPTER padapter;
++
++	padapter = pBtCoexist->Adapter;
++
++	return padapter->bFWReady;
++}
++
++void halbtcoutsrc_DisplayCoexStatistics(PBTC_COEXIST pBtCoexist)
++{
++#if 0
++	PADAPTER padapter = (PADAPTER)pBtCoexist->Adapter;
++	PBT_MGNT pBtMgnt = &padapter->MgntInfo.BtInfo.BtMgnt;
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++	u8 *cliBuf = pBtCoexist->cliBuf;
++	u1Byte			i, j;
++	u1Byte			tmpbuf[BTC_TMP_BUF_SHORT];
++
++
++	if (gl_coex_offload.cnt_h2c_sent) {
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Coex h2c notify]============");
++		CL_PRINTF(cliBuf);
++
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = H2c(%d)/Ack(%d)", "Coex h2c/c2h overall statistics",
++			gl_coex_offload.cnt_h2c_sent, gl_coex_offload.cnt_c2h_ack);
++		for (j = 0; j < COL_STATUS_MAX; j++) {
++			if (gl_coex_offload.status[j]) {
++				CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, ", %s:%d", coexH2cResultString[j], gl_coex_offload.status[j]);
++				CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, BTC_TMP_BUF_SHORT);
++			}
++		}
++		CL_PRINTF(cliBuf);
++	}
++	for (i = 0; i < COL_OP_WIFI_OPCODE_MAX; i++) {
++		if (gl_coex_offload.h2c_record[i].count) {
++			/*==========================================*/
++			/*	H2C result statistics*/
++			/*==========================================*/
++			CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = total:%d", coexOpcodeString[i], gl_coex_offload.h2c_record[i].count);
++			for (j = 0; j < COL_STATUS_MAX; j++) {
++				if (gl_coex_offload.h2c_record[i].status[j]) {
++					CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, ", %s:%d", coexH2cResultString[j], gl_coex_offload.h2c_record[i].status[j]);
++					CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, BTC_TMP_BUF_SHORT);
++				}
++			}
++			CL_PRINTF(cliBuf);
++			/*==========================================*/
++			/*	H2C/C2H content*/
++			/*==========================================*/
++			CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = ", "H2C / C2H content");
++			for (j = 0; j < gl_coex_offload.h2c_record[i].h2c_len; j++) {
++				CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, "%02x ", gl_coex_offload.h2c_record[i].h2c_buf[j]);
++				CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, 3);
++			}
++			if (gl_coex_offload.h2c_record[i].c2h_ack_len) {
++				CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, "/ ", 2);
++				for (j = 0; j < gl_coex_offload.h2c_record[i].c2h_ack_len; j++) {
++					CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, "%02x ", gl_coex_offload.h2c_record[i].c2h_ack_buf[j]);
++					CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, 3);
++				}
++			}
++			CL_PRINTF(cliBuf);
++			/*==========================================*/
++		}
++	}
++
++	if (gl_coex_offload.cnt_c2h_ind) {
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Coex c2h indication]============");
++		CL_PRINTF(cliBuf);
++
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = Ind(%d)", "C2H indication statistics",
++			   gl_coex_offload.cnt_c2h_ind);
++		for (j = 0; j < COL_STATUS_MAX; j++) {
++			if (gl_coex_offload.c2h_ind_status[j]) {
++				CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, ", %s:%d", coexH2cResultString[j], gl_coex_offload.c2h_ind_status[j]);
++				CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, BTC_TMP_BUF_SHORT);
++			}
++		}
++		CL_PRINTF(cliBuf);
++	}
++	for (i = 0; i < COL_IND_MAX; i++) {
++		if (gl_coex_offload.c2h_ind_record[i].count) {
++			/*==========================================*/
++			/*	H2C result statistics*/
++			/*==========================================*/
++			CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = total:%d", coexIndTypeString[i], gl_coex_offload.c2h_ind_record[i].count);
++			for (j = 0; j < COL_STATUS_MAX; j++) {
++				if (gl_coex_offload.c2h_ind_record[i].status[j]) {
++					CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, ", %s:%d", coexH2cResultString[j], gl_coex_offload.c2h_ind_record[i].status[j]);
++					CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, BTC_TMP_BUF_SHORT);
++				}
++			}
++			CL_PRINTF(cliBuf);
++			/*==========================================*/
++			/*	content*/
++			/*==========================================*/
++			CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = ", "C2H indication content");
++			for (j = 0; j < gl_coex_offload.c2h_ind_record[i].ind_len; j++) {
++				CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, "%02x ", gl_coex_offload.c2h_ind_record[i].ind_buf[j]);
++				CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, 3);
++			}
++			CL_PRINTF(cliBuf);
++			/*==========================================*/
++		}
++	}
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Statistics]============");
++	CL_PRINTF(cliBuf);
++
++#if (H2C_USE_IO_THREAD != 1)
++	for (i = 0; i < H2C_STATUS_MAX; i++) {
++		if (pHalData->h2cStatistics[i]) {
++			CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s] = %d", "H2C statistics", \
++				   h2cStaString[i], pHalData->h2cStatistics[i]);
++			CL_PRINTF(cliBuf);
++		}
++	}
++#else
++	for (i = 0; i < IO_STATUS_MAX; i++) {
++		if (Adapter->ioComStr.ioH2cStatistics[i]) {
++			CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s] = %d", "H2C statistics", \
++				ioStaString[i], Adapter->ioComStr.ioH2cStatistics[i]);
++			CL_PRINTF(cliBuf);
++		}
++	}
++#endif
++#if 0
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "lastHMEBoxNum", \
++		   pHalData->LastHMEBoxNum);
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x / 0x%x", "LastOkH2c/FirstFailH2c(fwNotRead)", \
++		   pHalData->lastSuccessH2cEid, pHalData->firstFailedH2cEid);
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d/ %d", "c2hIsr/c2hIntr/clr1AF/noRdy/noBuf", \
++		pHalData->InterruptLog.nIMR_C2HCMD, DBG_Var.c2hInterruptCnt, DBG_Var.c2hClrReadC2hCnt,
++		   DBG_Var.c2hNotReadyCnt, DBG_Var.c2hBufAlloFailCnt);
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "c2hPacket", \
++		   DBG_Var.c2hPacketCnt);
++	CL_PRINTF(cliBuf);
++#endif
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d", "Periodical/ DbgCtrl", \
++		pBtCoexist->statistics.cntPeriodical, pBtCoexist->statistics.cntDbgCtrl);
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d", "PowerOn/InitHw/InitCoexDm/RfStatus", \
++		pBtCoexist->statistics.cntPowerOn, pBtCoexist->statistics.cntInitHwConfig, pBtCoexist->statistics.cntInitCoexDm,
++		   pBtCoexist->statistics.cntRfStatusNotify);
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d/ %d", "Ips/Lps/Scan/Connect/Mstatus", \
++		pBtCoexist->statistics.cntIpsNotify, pBtCoexist->statistics.cntLpsNotify,
++		pBtCoexist->statistics.cntScanNotify, pBtCoexist->statistics.cntConnectNotify,
++		   pBtCoexist->statistics.cntMediaStatusNotify);
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d", "Special pkt/Bt info/ bind",
++		pBtCoexist->statistics.cntSpecialPacketNotify, pBtCoexist->statistics.cntBtInfoNotify,
++		   pBtCoexist->statistics.cntBind);
++	CL_PRINTF(cliBuf);
++#endif
++	PADAPTER		padapter = pBtCoexist->Adapter;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	u8				*cliBuf = pBtCoexist->cli_buf;
++
++	if (pHalData->EEPROMBluetoothCoexist == 1) {
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Coex Status]============");
++		CL_PRINTF(cliBuf);
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ", "IsBtDisabled", rtw_btcoex_IsBtDisabled(padapter));
++		CL_PRINTF(cliBuf);
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ", "IsBtControlLps", rtw_btcoex_IsBtControlLps(padapter));
++		CL_PRINTF(cliBuf);
++	}
++}
++
++void halbtcoutsrc_DisplayBtLinkInfo(PBTC_COEXIST pBtCoexist)
++{
++#if 0
++	PADAPTER padapter = (PADAPTER)pBtCoexist->Adapter;
++	PBT_MGNT pBtMgnt = &padapter->MgntInfo.BtInfo.BtMgnt;
++	u8 *cliBuf = pBtCoexist->cliBuf;
++	u8 i;
++
++
++	if (pBtCoexist->stack_info.profile_notified) {
++		for (i = 0; i < pBtMgnt->ExtConfig.NumberOfACL; i++) {
++			if (pBtMgnt->ExtConfig.HCIExtensionVer >= 1) {
++				CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s/ %s", "Bt link type/spec/role", \
++					BtProfileString[pBtMgnt->ExtConfig.aclLink[i].BTProfile],
++					BtSpecString[pBtMgnt->ExtConfig.aclLink[i].BTCoreSpec],
++					BtLinkRoleString[pBtMgnt->ExtConfig.aclLink[i].linkRole]);
++				CL_PRINTF(cliBuf);
++			} else {
++				CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s", "Bt link type/spec", \
++					BtProfileString[pBtMgnt->ExtConfig.aclLink[i].BTProfile],
++					BtSpecString[pBtMgnt->ExtConfig.aclLink[i].BTCoreSpec]);
++				CL_PRINTF(cliBuf);
++			}
++		}
++	}
++#endif
++}
++
++void halbtcoutsrc_DisplayWifiStatus(PBTC_COEXIST pBtCoexist)
++{
++	PADAPTER	padapter = pBtCoexist->Adapter;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	u8			*cliBuf = pBtCoexist->cli_buf;
++	s32			wifiRssi = 0, btHsRssi = 0;
++	BOOLEAN	bScan = _FALSE, bLink = _FALSE, bRoam = _FALSE, bWifiBusy = _FALSE, bWifiUnderBMode = _FALSE;
++	u32			wifiBw = BTC_WIFI_BW_HT20, wifiTrafficDir = BTC_WIFI_TRAFFIC_TX, wifiFreq = BTC_FREQ_2_4G;
++	u32			wifiLinkStatus = 0x0;
++	BOOLEAN	bBtHsOn = _FALSE, bLowPower = _FALSE;
++	u8			wifiChnl = 0, wifiP2PChnl = 0, nScanAPNum = 0, FwPSState;
++	u32			iqk_cnt_total = 0, iqk_cnt_ok = 0, iqk_cnt_fail = 0;
++
++	wifiLinkStatus = halbtcoutsrc_GetWifiLinkStatus(pBtCoexist);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d/ %d", "STA/vWifi/HS/p2pGo/p2pGc", \
++		((wifiLinkStatus & WIFI_STA_CONNECTED) ? 1 : 0), ((wifiLinkStatus & WIFI_AP_CONNECTED) ? 1 : 0),
++		((wifiLinkStatus & WIFI_HS_CONNECTED) ? 1 : 0), ((wifiLinkStatus & WIFI_P2P_GO_CONNECTED) ? 1 : 0),
++		   ((wifiLinkStatus & WIFI_P2P_GC_CONNECTED) ? 1 : 0));
++	CL_PRINTF(cliBuf);
++
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_BL_WIFI_SCAN, &bScan);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_BL_WIFI_LINK, &bLink);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_BL_WIFI_ROAM, &bRoam);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d ", "Link/ Roam/ Scan", \
++		bLink, bRoam, bScan);
++	CL_PRINTF(cliBuf);	
++
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_U4_WIFI_IQK_TOTAL, &iqk_cnt_total);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_U4_WIFI_IQK_OK, &iqk_cnt_ok);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_U4_WIFI_IQK_FAIL, &iqk_cnt_fail);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d %s %s",
++		"IQK All/ OK/ Fail/AutoLoad/FWDL", iqk_cnt_total, iqk_cnt_ok, iqk_cnt_fail,
++		((halbtcoutsrc_is_autoload_fail(pBtCoexist) == _TRUE) ? "fail":"ok"), ((halbtcoutsrc_is_fw_ready(pBtCoexist) == _TRUE) ? "ok":"fail"));
++	CL_PRINTF(cliBuf);
++	
++	if (wifiLinkStatus & WIFI_STA_CONNECTED) {
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "IOT Peer", GLBtcIotPeerString[padapter->mlmeextpriv.mlmext_info.assoc_AP_vendor]);
++		CL_PRINTF(cliBuf);
++	}
++
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_S4_WIFI_RSSI, &wifiRssi);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_U1_WIFI_DOT11_CHNL, &wifiChnl);
++	if ((wifiLinkStatus & WIFI_P2P_GO_CONNECTED) || (wifiLinkStatus & WIFI_P2P_GC_CONNECTED)) 
++		pBtCoexist->btc_get(pBtCoexist, BTC_GET_U1_WIFI_P2P_CHNL, &wifiP2PChnl);	
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d dBm/ %d/ %d", "RSSI/ STA_Chnl/ P2P_Chnl", \
++		wifiRssi -100, wifiChnl, wifiP2PChnl);
++	CL_PRINTF(cliBuf);
++
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifiFreq);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_BL_WIFI_UNDER_B_MODE, &bWifiUnderBMode);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_U1_AP_NUM, &nScanAPNum);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %s/ %s/ %d ", "Band/ BW/ Traffic/ APCnt", \
++		GLBtcWifiFreqString[wifiFreq], ((bWifiUnderBMode) ? "11b" : GLBtcWifiBwString[wifiBw]),
++		((!bWifiBusy) ? "idle" : ((BTC_WIFI_TRAFFIC_TX == wifiTrafficDir) ? "uplink" : "downlink")),
++		   nScanAPNum);
++	CL_PRINTF(cliBuf);
++
++	/* power status */
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s%s%s", "Power Status", \
++		((halbtcoutsrc_UnderIps(pBtCoexist) == _TRUE) ? "IPS ON" : "IPS OFF"),
++		((halbtcoutsrc_UnderLps(pBtCoexist) == _TRUE) ? ", LPS ON" : ", LPS OFF"),
++		((halbtcoutsrc_Under32K(pBtCoexist) == _TRUE) ? ", 32k" : ""));
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x %02x %02x %02x (0x%x/0x%x)", "Power mode cmd(lps/rpwm)", \
++		   pBtCoexist->pwrModeVal[0], pBtCoexist->pwrModeVal[1],
++		   pBtCoexist->pwrModeVal[2], pBtCoexist->pwrModeVal[3],
++		   pBtCoexist->pwrModeVal[4], pBtCoexist->pwrModeVal[5],
++		   pBtCoexist->bt_info.lps_val,
++		   pBtCoexist->bt_info.rpwm_val);
++	CL_PRINTF(cliBuf);
++}
++
++void halbtcoutsrc_DisplayDbgMsg(void *pBtcContext, u8 dispType)
++{
++	PBTC_COEXIST pBtCoexist;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	switch (dispType) {
++	case BTC_DBG_DISP_COEX_STATISTICS:
++		halbtcoutsrc_DisplayCoexStatistics(pBtCoexist);
++		break;
++	case BTC_DBG_DISP_BT_LINK_INFO:
++		halbtcoutsrc_DisplayBtLinkInfo(pBtCoexist);
++		break;
++	case BTC_DBG_DISP_WIFI_STATUS:
++		halbtcoutsrc_DisplayWifiStatus(pBtCoexist);
++		break;
++	default:
++		break;
++	}
++}
++
++/* ************************************
++ *		IO related function
++ * ************************************ */
++u8 halbtcoutsrc_Read1Byte(void *pBtcContext, u32 RegAddr)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	return rtw_read8(padapter, RegAddr);
++}
++
++u16 halbtcoutsrc_Read2Byte(void *pBtcContext, u32 RegAddr)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	return	rtw_read16(padapter, RegAddr);
++}
++
++u32 halbtcoutsrc_Read4Byte(void *pBtcContext, u32 RegAddr)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	return	rtw_read32(padapter, RegAddr);
++}
++
++void halbtcoutsrc_Write1Byte(void *pBtcContext, u32 RegAddr, u8 Data)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	rtw_write8(padapter, RegAddr, Data);
++}
++
++void halbtcoutsrc_BitMaskWrite1Byte(void *pBtcContext, u32 regAddr, u8 bitMask, u8 data1b)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++	u8 originalValue, bitShift;
++	u8 i;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++	originalValue = 0;
++	bitShift = 0;
++
++	if (bitMask != 0xff) {
++		originalValue = rtw_read8(padapter, regAddr);
++
++		for (i = 0; i <= 7; i++) {
++			if ((bitMask >> i) & 0x1)
++				break;
++		}
++		bitShift = i;
++
++		data1b = (originalValue & ~bitMask) | ((data1b << bitShift) & bitMask);
++	}
++
++	rtw_write8(padapter, regAddr, data1b);
++}
++
++void halbtcoutsrc_Write2Byte(void *pBtcContext, u32 RegAddr, u16 Data)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	rtw_write16(padapter, RegAddr, Data);
++}
++
++void halbtcoutsrc_Write4Byte(void *pBtcContext, u32 RegAddr, u32 Data)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	rtw_write32(padapter, RegAddr, Data);
++}
++
++void halbtcoutsrc_WriteLocalReg1Byte(void *pBtcContext, u32 RegAddr, u8 Data)
++{
++	PBTC_COEXIST		pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	PADAPTER			Adapter = pBtCoexist->Adapter;
++
++	if (BTC_INTF_SDIO == pBtCoexist->chip_interface)
++		rtw_write8(Adapter, SDIO_LOCAL_BASE | RegAddr, Data);
++	else
++		rtw_write8(Adapter, RegAddr, Data);
++}
++
++void halbtcoutsrc_SetBbReg(void *pBtcContext, u32 RegAddr, u32 BitMask, u32 Data)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	PHY_SetBBReg(padapter, RegAddr, BitMask, Data);
++}
++
++
++u32 halbtcoutsrc_GetBbReg(void *pBtcContext, u32 RegAddr, u32 BitMask)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	return PHY_QueryBBReg(padapter, RegAddr, BitMask);
++}
++
++void halbtcoutsrc_SetRfReg(void *pBtcContext, u8 eRFPath, u32 RegAddr, u32 BitMask, u32 Data)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	PHY_SetRFReg(padapter, eRFPath, RegAddr, BitMask, Data);
++}
++
++u32 halbtcoutsrc_GetRfReg(void *pBtcContext, u8 eRFPath, u32 RegAddr, u32 BitMask)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	return PHY_QueryRFReg(padapter, eRFPath, RegAddr, BitMask);
++}
++
++u16 halbtcoutsrc_SetBtReg(void *pBtcContext, u8 RegType, u32 RegAddr, u32 Data)
++{
++	PBTC_COEXIST pBtCoexist;
++	u16 ret = BT_STATUS_BT_OP_SUCCESS;
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++
++	if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _TRUE) {
++		u8 buf[3] = {0};
++		_irqL irqL;
++		u8 op_code;
++		u8 status;
++
++		_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
++
++		Data = cpu_to_le32(Data);
++		op_code = BT_OP_WRITE_REG_VALUE;
++		status = _btmpoper_cmd(pBtCoexist, op_code, 0, (u8 *)&Data, 3);
++		if (status != BT_STATUS_BT_OP_SUCCESS)
++			ret = SET_BT_MP_OPER_RET(op_code, status);
++		else {
++			buf[0] = RegType;
++			*(u16 *)(buf + 1) = cpu_to_le16((u16)RegAddr);
++			op_code = BT_OP_WRITE_REG_ADDR;
++			status = _btmpoper_cmd(pBtCoexist, op_code, 0, buf, 3);
++			if (status != BT_STATUS_BT_OP_SUCCESS)
++				ret = SET_BT_MP_OPER_RET(op_code, status);
++		}
++
++		_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
++	} else
++		ret = BT_STATUS_NOT_IMPLEMENT;
++
++	return ret;
++}
++
++u8 halbtcoutsrc_SetBtAntDetection(void *pBtcContext, u8 txTime, u8 btChnl)
++{
++	/* Always return _FALSE since we don't implement this yet */
++#if 0
++	PBTC_COEXIST		pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	PADAPTER			Adapter = pBtCoexist->Adapter;
++	u1Byte				btCanTx = 0;
++	BOOLEAN			bStatus = FALSE;
++
++	bStatus = NDBG_SetBtAntDetection(Adapter, txTime, btChnl, &btCanTx);
++	if (bStatus && btCanTx)
++		return _TRUE;
++	else
++		return _FALSE;
++#else
++	return _FALSE;
++#endif
++}
++
++BOOLEAN
++halbtcoutsrc_SetBtTRXMASK(
++	IN 	PVOID			pBtcContext,
++	IN	u1Byte			bt_trx_mask
++	)
++{
++#if 0
++	struct btc_coexist *pBtCoexist=(struct btc_coexist *)pBtcContext;
++	PADAPTER			Adapter=pBtCoexist->Adapter;
++	BOOLEAN				bStatus=FALSE;
++	u1Byte				btCanTx=0;
++
++	if(IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter))
++	{	
++		bStatus = NDBG_SetBtTRXMASK(Adapter, 1, bt_trx_mask, &btCanTx);
++	}
++
++	
++	if(bStatus && btCanTx)
++		return TRUE;
++	else
++		return FALSE;
++#else
++	return _FALSE;
++#endif
++}
++
++u16 halbtcoutsrc_GetBtReg_with_status(void *pBtcContext, u8 RegType, u32 RegAddr, u32 *data)
++{
++	PBTC_COEXIST pBtCoexist;
++	u16 ret = BT_STATUS_BT_OP_SUCCESS;
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++
++	if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _TRUE) {
++		u8 buf[3] = {0};
++		_irqL irqL;
++		u8 op_code;
++		u8 status;
++
++		buf[0] = RegType;
++		*(u16 *)(buf + 1) = cpu_to_le16((u16)RegAddr);
++
++		_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
++
++		op_code = BT_OP_READ_REG;
++		status = _btmpoper_cmd(pBtCoexist, op_code, 0, buf, 3);
++		if (status == BT_STATUS_BT_OP_SUCCESS)
++			*data = le16_to_cpu(*(u16 *)GLBtcBtMpRptRsp);
++		else
++			ret = SET_BT_MP_OPER_RET(op_code, status);
++
++		_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
++
++	} else
++		ret = BT_STATUS_NOT_IMPLEMENT;
++
++	return ret;
++}
++
++u32 halbtcoutsrc_GetBtReg(void *pBtcContext, u8 RegType, u32 RegAddr)
++{
++	u32 regVal;
++	
++	return (BT_STATUS_BT_OP_SUCCESS == halbtcoutsrc_GetBtReg_with_status(pBtcContext, RegType, RegAddr, &regVal)) ? regVal : 0xffffffff;
++}
++
++void halbtcoutsrc_FillH2cCmd(void *pBtcContext, u8 elementId, u32 cmdLen, u8 *pCmdBuffer)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	rtw_hal_fill_h2c_cmd(padapter, elementId, cmdLen, pCmdBuffer);
++}
++
++static void halbtcoutsrc_coex_offload_init(void)
++{
++	u1Byte	i;
++
++	gl_coex_offload.h2c_req_num = 0;
++	gl_coex_offload.cnt_h2c_sent = 0;
++	gl_coex_offload.cnt_c2h_ack = 0;
++	gl_coex_offload.cnt_c2h_ind = 0;
++
++	for (i = 0; i < COL_MAX_H2C_REQ_NUM; i++)
++		init_completion(&gl_coex_offload.c2h_event[i]);
++}
++
++static COL_H2C_STATUS halbtcoutsrc_send_h2c(PADAPTER Adapter, PCOL_H2C pcol_h2c, u16 h2c_cmd_len)
++{
++	COL_H2C_STATUS		h2c_status = COL_STATUS_C2H_OK;
++	u8				i;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 13, 0))
++	reinit_completion(&gl_coex_offload.c2h_event[pcol_h2c->req_num]);		/* set event to un signaled state */
++#else
++	INIT_COMPLETION(gl_coex_offload.c2h_event[pcol_h2c->req_num]);
++#endif
++
++	if (TRUE) {
++#if 0	/*(USE_HAL_MAC_API == 1) */
++		if (RT_STATUS_SUCCESS == HAL_MAC_Send_BT_COEX(&GET_HAL_MAC_INFO(Adapter), (pu1Byte)(pcol_h2c), (u4Byte)h2c_cmd_len, 1)) {
++			if (!wait_for_completion_timeout(&gl_coex_offload.c2h_event[pcol_h2c->req_num], 20)) {
++				h2c_status = COL_STATUS_H2C_TIMTOUT;
++			}
++		} else {
++			h2c_status = COL_STATUS_H2C_HALMAC_FAIL;
++		}
++#endif
++	}
++
++	return h2c_status;
++}
++
++static COL_H2C_STATUS halbtcoutsrc_check_c2h_ack(PADAPTER Adapter, PCOL_SINGLE_H2C_RECORD pH2cRecord)
++{
++	COL_H2C_STATUS	c2h_status = COL_STATUS_C2H_OK;
++	PCOL_H2C		p_h2c_cmd = (PCOL_H2C)&pH2cRecord->h2c_buf[0];
++	u8			req_num = p_h2c_cmd->req_num;
++	PCOL_C2H_ACK	p_c2h_ack = (PCOL_C2H_ACK)&gl_coex_offload.c2h_ack_buf[req_num];
++
++
++	if ((COL_C2H_ACK_HDR_LEN + p_c2h_ack->ret_len) > gl_coex_offload.c2h_ack_len[req_num]) {
++		c2h_status = COL_STATUS_COEX_DATA_OVERFLOW;
++		return c2h_status;
++	}
++	/* else */
++	{
++		_rtw_memmove(&pH2cRecord->c2h_ack_buf[0], &gl_coex_offload.c2h_ack_buf[req_num], gl_coex_offload.c2h_ack_len[req_num]);
++		pH2cRecord->c2h_ack_len = gl_coex_offload.c2h_ack_len[req_num];
++	}
++
++
++	if (p_c2h_ack->req_num != p_h2c_cmd->req_num) {
++		c2h_status = COL_STATUS_C2H_REQ_NUM_MISMATCH;
++	} else if (p_c2h_ack->opcode_ver != p_h2c_cmd->opcode_ver) {
++		c2h_status = COL_STATUS_C2H_OPCODE_VER_MISMATCH;
++	} else {
++		c2h_status = p_c2h_ack->status;
++	}
++
++	return c2h_status;
++}
++
++COL_H2C_STATUS halbtcoutsrc_CoexH2cProcess(void *pBtCoexist,
++		u8 opcode, u8 opcode_ver, u8 *ph2c_par, u8 h2c_par_len)
++{
++	PADAPTER			Adapter = ((struct btc_coexist *)pBtCoexist)->Adapter;
++	u8				H2C_Parameter[BTC_TMP_BUF_SHORT] = {0};
++	PCOL_H2C			pcol_h2c = (PCOL_H2C)&H2C_Parameter[0];
++	u16				paraLen = 0;
++	COL_H2C_STATUS		h2c_status = COL_STATUS_C2H_OK, c2h_status = COL_STATUS_C2H_OK;
++	COL_H2C_STATUS		ret_status = COL_STATUS_C2H_OK;
++	u16				i, col_h2c_len = 0;
++
++	pcol_h2c->opcode = opcode;
++	pcol_h2c->opcode_ver = opcode_ver;
++	pcol_h2c->req_num = gl_coex_offload.h2c_req_num;
++	gl_coex_offload.h2c_req_num++;
++	gl_coex_offload.h2c_req_num %= 16;
++
++	_rtw_memmove(&pcol_h2c->buf[0], ph2c_par, h2c_par_len);
++
++
++	col_h2c_len = h2c_par_len + 2;	/* 2=sizeof(OPCode, OPCode_version and  Request number) */
++	BT_PrintData(Adapter, "[COL], H2C cmd: ", col_h2c_len, H2C_Parameter);
++
++	gl_coex_offload.cnt_h2c_sent++;
++
++	gl_coex_offload.h2c_record[opcode].count++;
++	gl_coex_offload.h2c_record[opcode].h2c_len = col_h2c_len;
++	_rtw_memmove((PVOID)&gl_coex_offload.h2c_record[opcode].h2c_buf[0], (PVOID)pcol_h2c, col_h2c_len);
++
++	h2c_status = halbtcoutsrc_send_h2c(Adapter, pcol_h2c, col_h2c_len);
++
++	gl_coex_offload.h2c_record[opcode].c2h_ack_len = 0;
++
++	if (COL_STATUS_C2H_OK == h2c_status) {
++		/* if reach here, it means H2C get the correct c2h response, */
++		c2h_status = halbtcoutsrc_check_c2h_ack(Adapter, &gl_coex_offload.h2c_record[opcode]);
++		ret_status = c2h_status;
++	} else {
++		/* check h2c status error, return error status code to upper layer. */
++		ret_status = h2c_status;
++	}
++	gl_coex_offload.h2c_record[opcode].status[ret_status]++;
++	gl_coex_offload.status[ret_status]++;
++
++	return ret_status;
++}
++
++u32 halbtcoutsrc_GetBtCoexSupportedFeature(void *pBtcContext)
++{
++	PBTC_COEXIST pBtCoexist;
++	u32 ret = BT_STATUS_BT_OP_SUCCESS;
++	u32 data = 0;
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++
++	if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _TRUE) {
++		u8 buf[3] = {0};
++		_irqL irqL;
++		u8 op_code;
++		u8 status;
++		
++		_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
++
++		op_code = BT_OP_GET_BT_COEX_SUPPORTED_FEATURE;
++		status = _btmpoper_cmd(pBtCoexist, op_code, 0, buf, 0);
++		if (status == BT_STATUS_BT_OP_SUCCESS)
++			data = le16_to_cpu(*(u16 *)GLBtcBtMpRptRsp);
++		else
++			ret = SET_BT_MP_OPER_RET(op_code, status);
++
++		_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
++
++	} else
++		ret = BT_STATUS_NOT_IMPLEMENT;
++
++	return data;
++}
++
++u32 halbtcoutsrc_GetBtCoexSupportedVersion(void *pBtcContext)
++{
++	PBTC_COEXIST pBtCoexist;
++	u32 ret = BT_STATUS_BT_OP_SUCCESS;
++	u32 data = 0xFFFF;
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++
++	if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _TRUE) {
++		u8 buf[3] = {0};
++		_irqL irqL;
++		u8 op_code;
++		u8 status;
++		
++		
++		_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
++
++		op_code = BT_OP_GET_BT_COEX_SUPPORTED_VERSION;
++		status = _btmpoper_cmd(pBtCoexist, op_code, 0, buf, 0);
++		if (status == BT_STATUS_BT_OP_SUCCESS)
++			data = le16_to_cpu(*(u16 *)GLBtcBtMpRptRsp);
++		else
++			ret = SET_BT_MP_OPER_RET(op_code, status);
++
++		_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
++
++	} else
++		ret = BT_STATUS_NOT_IMPLEMENT;
++
++	return data;
++}	
++
++u8 halbtcoutsrc_GetAntDetValFromBt(void *pBtcContext)
++{
++	/* Always return 0 since we don't implement this yet */
++#if 0
++	struct btc_coexist *pBtCoexist = (struct btc_coexist *)pBtcContext;
++	PADAPTER			Adapter = pBtCoexist->Adapter;
++	u1Byte				AntDetVal = 0x0;
++	u1Byte				opcodeVer = 1;
++	BOOLEAN				status = false;
++
++	status = NDBG_GetAntDetValFromBt(Adapter, opcodeVer, &AntDetVal);
++
++	RT_TRACE(COMP_DBG, DBG_LOUD, ("$$$ halbtcoutsrc_GetAntDetValFromBt(): status = %d, feature = %x\n", status, AntDetVal));
++	
++	return AntDetVal;
++#else
++	return 0;
++#endif
++}
++
++u8 halbtcoutsrc_GetBleScanTypeFromBt(void *pBtcContext)
++{
++	struct btc_coexist *pBtCoexist = (struct btc_coexist *)pBtcContext;
++	PADAPTER			Adapter = pBtCoexist->Adapter;
++	u1Byte				scanType = 0x0;
++	u1Byte				opcodeVer = 1;
++	BOOLEAN				status = false;
++
++#if 0
++	status = NDBG_GetBleScanTypeFromBt(Adapter, opcodeVer, &scanType);
++
++	RT_TRACE(COMP_DBG, DBG_LOUD, ("$$$ halbtcoutsrc_GetBleScanTypeFromBt(): status = %d, returnVal = %x\n", status, scanType));
++#endif
++
++	return scanType;
++}
++
++u32 halbtcoutsrc_GetBleScanParaFromBt(void *pBtcContext, u8 scanType)
++{
++	struct btc_coexist *pBtCoexist = (struct btc_coexist *)pBtcContext;
++	PADAPTER			Adapter = pBtCoexist->Adapter;
++	u4Byte				scanPara = 0x0;
++	u1Byte				opcodeVer = 1;
++	BOOLEAN				status = false;
++#if 0
++	status = NDBG_GetBleScanParaFromBt(Adapter, opcodeVer, scanType, &scanPara);
++
++	RT_TRACE(COMP_DBG, DBG_LOUD, ("$$$ halbtcoutsrc_GetBleScanParaFromBt(): status = %d, returnVal = %x\n", status, scanPara));
++#endif
++
++	return scanPara;
++}
++
++u32 halbtcoutsrc_GetPhydmVersion(void *pBtcContext)
++{
++	struct btc_coexist *pBtCoexist = (struct btc_coexist *)pBtcContext;
++	PADAPTER		Adapter = pBtCoexist->Adapter;
++
++#ifdef CONFIG_RTL8192E
++	return RELEASE_VERSION_8192E;
++#endif
++
++#ifdef CONFIG_RTL8821A
++	return RELEASE_VERSION_8821A;
++#endif
++
++#ifdef CONFIG_RTL8723B
++	return RELEASE_VERSION_8723B;
++#endif
++
++#ifdef CONFIG_RTL8812A
++	return RELEASE_VERSION_8812A;
++#endif
++
++#ifdef CONFIG_RTL8703B
++	return RELEASE_VERSION_8703B;
++#endif
++
++#ifdef CONFIG_RTL8822B
++	return RELEASE_VERSION_8822B;
++#endif
++
++#ifdef CONFIG_RTL8723D
++	return RELEASE_VERSION_8723D;
++#endif
++
++}
++
++void halbtcoutsrc_phydm_modify_RA_PCR_threshold(void *pBtcContext, u8 RA_offset_direction, u8 RA_threshold_offset)
++{
++	struct btc_coexist *pBtCoexist = (struct btc_coexist *)pBtcContext;
++
++/* switch to #if 0 in case the phydm version does not provide the function */
++#if 1
++	phydm_modify_RA_PCR_threshold(pBtCoexist->odm_priv, RA_offset_direction, RA_threshold_offset);
++#endif
++}
++
++u32 halbtcoutsrc_phydm_query_PHY_counter(void *pBtcContext, u8 info_type)
++{
++	struct btc_coexist *pBtCoexist = (struct btc_coexist *)pBtcContext;
++
++/* switch to #if 0 in case the phydm version does not provide the function */
++#if 1
++	return PHYDM_CmnInfoQuery((PDM_ODM_T)pBtCoexist->odm_priv, (PHYDM_INFO_QUERY_E)info_type);
++#else
++	return 0;
++#endif
++}
++
++#if 0
++static void BT_CoexOffloadRecordErrC2hAck(PADAPTER	Adapter)
++{
++	PADAPTER		pDefaultAdapter = GetDefaultAdapter(Adapter);
++
++	if (pDefaultAdapter != Adapter)
++		return;
++
++	if (!hal_btcoex_IsBtExist(Adapter))
++		return;
++
++	gl_coex_offload.cnt_c2h_ack++;
++
++	gl_coex_offload.status[COL_STATUS_INVALID_C2H_LEN]++;
++}
++
++static void BT_CoexOffloadC2hAckCheck(PADAPTER	Adapter, u8 *tmpBuf, u8 length)
++{
++	PADAPTER		pDefaultAdapter = GetDefaultAdapter(Adapter);
++	PCOL_C2H_ACK	p_c2h_ack = NULL;
++	u8			req_num = 0xff;
++
++	if (pDefaultAdapter != Adapter)
++		return;
++
++	if (!hal_btcoex_IsBtExist(Adapter))
++		return;
++
++	gl_coex_offload.cnt_c2h_ack++;
++
++	if (length < COL_C2H_ACK_HDR_LEN) {		/* c2h ack length must >= 3 (status, opcode_ver, req_num and ret_len) */
++		gl_coex_offload.status[COL_STATUS_INVALID_C2H_LEN]++;
++	} else {
++		BT_PrintData(Adapter, "[COL], c2h ack:", length, tmpBuf);
++
++		p_c2h_ack = (PCOL_C2H_ACK)tmpBuf;
++		req_num = p_c2h_ack->req_num;
++
++		_rtw_memmove(&gl_coex_offload.c2h_ack_buf[req_num][0], tmpBuf, length);
++		gl_coex_offload.c2h_ack_len[req_num] = length;
++
++		complete(&gl_coex_offload.c2h_event[req_num]);
++	}
++}
++
++static void BT_CoexOffloadC2hIndCheck(PADAPTER Adapter, u8 *tmpBuf, u8 length)
++{
++	PADAPTER		pDefaultAdapter = GetDefaultAdapter(Adapter);
++	PCOL_C2H_IND	p_c2h_ind = NULL;
++	u8			ind_type = 0, ind_version = 0, ind_length = 0;
++
++	if (pDefaultAdapter != Adapter)
++		return;
++
++	if (!hal_btcoex_IsBtExist(Adapter))
++		return;
++
++	gl_coex_offload.cnt_c2h_ind++;
++
++	if (length < COL_C2H_IND_HDR_LEN) {		/* c2h indication length must >= 3 (type, version and length) */
++		gl_coex_offload.c2h_ind_status[COL_STATUS_INVALID_C2H_LEN]++;
++	} else {
++		BT_PrintData(Adapter, "[COL], c2h indication:", length, tmpBuf);
++
++		p_c2h_ind = (PCOL_C2H_IND)tmpBuf;
++		ind_type = p_c2h_ind->type;
++		ind_version = p_c2h_ind->version;
++		ind_length = p_c2h_ind->length;
++
++		_rtw_memmove(&gl_coex_offload.c2h_ind_buf[0], tmpBuf, length);
++		gl_coex_offload.c2h_ind_len = length;
++
++		/* log */
++		gl_coex_offload.c2h_ind_record[ind_type].count++;
++		gl_coex_offload.c2h_ind_record[ind_type].status[COL_STATUS_C2H_OK]++;
++		_rtw_memmove(&gl_coex_offload.c2h_ind_record[ind_type].ind_buf[0], tmpBuf, length);
++		gl_coex_offload.c2h_ind_record[ind_type].ind_len = length;
++
++		gl_coex_offload.c2h_ind_status[COL_STATUS_C2H_OK]++;
++		/*TODO: need to check c2h indication length*/
++		/* TODO: Notification */
++	}
++}
++
++void BT_CoexOffloadC2hCheck(PADAPTER Adapter, u8 *Buffer, u8 Length)
++{
++#if 0 /*(USE_HAL_MAC_API == 1)*/
++	u8	c2hSubCmdId = 0, c2hAckLen = 0, h2cCmdId = 0, h2cSubCmdId = 0, c2hIndLen = 0;
++
++	BT_PrintData(Adapter, "[COL], c2h packet:", Length - 2, Buffer + 2);
++	c2hSubCmdId = (u1Byte)C2H_HDR_GET_C2H_SUB_CMD_ID(Buffer);
++
++	if (c2hSubCmdId == C2H_SUB_CMD_ID_H2C_ACK_HDR ||
++	    c2hSubCmdId == C2H_SUB_CMD_ID_BT_COEX_INFO) {
++		if (c2hSubCmdId == C2H_SUB_CMD_ID_H2C_ACK_HDR) {
++			/* coex c2h ack */
++			h2cCmdId = (u1Byte)H2C_ACK_HDR_GET_H2C_CMD_ID(Buffer);
++			h2cSubCmdId = (u1Byte)H2C_ACK_HDR_GET_H2C_SUB_CMD_ID(Buffer);
++			if (h2cCmdId == 0xff && h2cSubCmdId == 0x60) {
++				c2hAckLen = (u1Byte)C2H_HDR_GET_LEN(Buffer);
++				if (c2hAckLen >= 8)
++					BT_CoexOffloadC2hAckCheck(Adapter, &Buffer[12], (u1Byte)(c2hAckLen - 8));
++				else
++					BT_CoexOffloadRecordErrC2hAck(Adapter);
++			}
++		} else if (c2hSubCmdId == C2H_SUB_CMD_ID_BT_COEX_INFO) {
++			/* coex c2h indication */
++			c2hIndLen = (u1Byte)C2H_HDR_GET_LEN(Buffer);
++			BT_CoexOffloadC2hIndCheck(Adapter, &Buffer[4], (u1Byte)c2hIndLen);
++		}
++	}
++#endif
++}
++#endif
++
++/* ************************************
++ *		Extern functions called by other module
++ * ************************************ */
++u8 EXhalbtcoutsrc_BindBtCoexWithAdapter(void *padapter)
++{
++	PBTC_COEXIST		pBtCoexist = &GLBtCoexist;
++	u8	antNum = 1, chipType = 0, singleAntPath = 0;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA((PADAPTER)padapter);
++
++	if (pBtCoexist->bBinded)
++		return _FALSE;
++	else
++		pBtCoexist->bBinded = _TRUE;
++
++	pBtCoexist->statistics.cnt_bind++;
++
++	pBtCoexist->Adapter = padapter;
++	pBtCoexist->odm_priv = (PVOID)&(pHalData->odmpriv);
++
++	pBtCoexist->stack_info.profile_notified = _FALSE;
++
++	pBtCoexist->bt_info.bt_ctrl_agg_buf_size = _FALSE;
++	pBtCoexist->bt_info.agg_buf_size = 5;
++
++	pBtCoexist->bt_info.increase_scan_dev_num = _FALSE;
++	pBtCoexist->bt_info.miracast_plus_bt = _FALSE;
++
++	antNum = rtw_btcoex_get_pg_ant_num((PADAPTER)padapter);
++	EXhalbtcoutsrc_SetAntNum(BT_COEX_ANT_TYPE_PG, antNum);
++
++	if (antNum == 1) {
++		singleAntPath = rtw_btcoex_get_pg_single_ant_path((PADAPTER)padapter);
++		EXhalbtcoutsrc_SetSingleAntPath(singleAntPath);
++	}
++	/* set default antenna position to main  port */
++	pBtCoexist->board_info.btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++
++	pBtCoexist->board_info.btdm_ant_det_finish = _FALSE;
++	pBtCoexist->board_info.btdm_ant_num_by_ant_det = 1;
++
++	pBtCoexist->board_info.tfbga_package = rtw_btcoex_is_tfbga_package_type((PADAPTER)padapter);
++
++	pBtCoexist->board_info.ant_div_cfg = rtw_btcoex_get_ant_div_cfg((PADAPTER)padapter);
++
++	return _TRUE;
++}
++
++u8 EXhalbtcoutsrc_InitlizeVariables(void *padapter)
++{
++	PBTC_COEXIST pBtCoexist = &GLBtCoexist;
++
++	/* pBtCoexist->statistics.cntBind++; */
++
++	halbtcoutsrc_DbgInit();
++
++	halbtcoutsrc_coex_offload_init();
++
++#ifdef CONFIG_PCI_HCI
++	pBtCoexist->chip_interface = BTC_INTF_PCI;
++#elif defined(CONFIG_USB_HCI)
++	pBtCoexist->chip_interface = BTC_INTF_USB;
++#elif defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	pBtCoexist->chip_interface = BTC_INTF_SDIO;
++#else
++	pBtCoexist->chip_interface = BTC_INTF_UNKNOWN;
++#endif
++
++	EXhalbtcoutsrc_BindBtCoexWithAdapter(padapter);
++
++	pBtCoexist->btc_read_1byte = halbtcoutsrc_Read1Byte;
++	pBtCoexist->btc_write_1byte = halbtcoutsrc_Write1Byte;
++	pBtCoexist->btc_write_1byte_bitmask = halbtcoutsrc_BitMaskWrite1Byte;
++	pBtCoexist->btc_read_2byte = halbtcoutsrc_Read2Byte;
++	pBtCoexist->btc_write_2byte = halbtcoutsrc_Write2Byte;
++	pBtCoexist->btc_read_4byte = halbtcoutsrc_Read4Byte;
++	pBtCoexist->btc_write_4byte = halbtcoutsrc_Write4Byte;
++	pBtCoexist->btc_write_local_reg_1byte = halbtcoutsrc_WriteLocalReg1Byte;
++
++	pBtCoexist->btc_set_bb_reg = halbtcoutsrc_SetBbReg;
++	pBtCoexist->btc_get_bb_reg = halbtcoutsrc_GetBbReg;
++
++	pBtCoexist->btc_set_rf_reg = halbtcoutsrc_SetRfReg;
++	pBtCoexist->btc_get_rf_reg = halbtcoutsrc_GetRfReg;
++
++	pBtCoexist->btc_fill_h2c = halbtcoutsrc_FillH2cCmd;
++	pBtCoexist->btc_disp_dbg_msg = halbtcoutsrc_DisplayDbgMsg;
++
++	pBtCoexist->btc_get = halbtcoutsrc_Get;
++	pBtCoexist->btc_set = halbtcoutsrc_Set;
++	pBtCoexist->btc_get_bt_reg = halbtcoutsrc_GetBtReg;
++	pBtCoexist->btc_set_bt_reg = halbtcoutsrc_SetBtReg;
++	pBtCoexist->btc_set_bt_ant_detection = halbtcoutsrc_SetBtAntDetection;
++	pBtCoexist->btc_set_bt_trx_mask = halbtcoutsrc_SetBtTRXMASK;
++	pBtCoexist->btc_coex_h2c_process = halbtcoutsrc_CoexH2cProcess;
++	pBtCoexist->btc_get_bt_coex_supported_feature = halbtcoutsrc_GetBtCoexSupportedFeature;
++	pBtCoexist->btc_get_bt_coex_supported_version= halbtcoutsrc_GetBtCoexSupportedVersion;
++	pBtCoexist->btc_get_ant_det_val_from_bt = halbtcoutsrc_GetAntDetValFromBt;
++	pBtCoexist->btc_get_ble_scan_type_from_bt = halbtcoutsrc_GetBleScanTypeFromBt;
++	pBtCoexist->btc_get_ble_scan_para_from_bt = halbtcoutsrc_GetBleScanParaFromBt;
++	pBtCoexist->btc_get_bt_phydm_version = halbtcoutsrc_GetPhydmVersion;
++	pBtCoexist->btc_phydm_modify_RA_PCR_threshold = halbtcoutsrc_phydm_modify_RA_PCR_threshold;
++	pBtCoexist->btc_phydm_query_PHY_counter = halbtcoutsrc_phydm_query_PHY_counter;
++
++	pBtCoexist->cli_buf = &GLBtcDbgBuf[0];
++
++	GLBtcWiFiInScanState = _FALSE;
++
++	GLBtcWiFiInIQKState = _FALSE;
++
++	GLBtcWiFiInIPS = _FALSE;
++
++	GLBtcWiFiInLPS = _FALSE;
++
++	GLBtcBtCoexAliveRegistered = _FALSE;
++
++	/* BT Control H2C/C2H*/
++	GLBtcBtMpOperSeq = 0;
++	_rtw_mutex_init(&GLBtcBtMpOperLock);
++	_init_timer(&GLBtcBtMpOperTimer, ((PADAPTER)padapter)->pnetdev, _btmpoper_timer_hdl, pBtCoexist);
++	_rtw_init_sema(&GLBtcBtMpRptSema, 0);
++	GLBtcBtMpRptSeq = 0;
++	GLBtcBtMpRptStatus = 0;
++	_rtw_memset(GLBtcBtMpRptRsp, 0, C2H_MAX_SIZE);
++	GLBtcBtMpRptRspSize = 0;
++	GLBtcBtMpRptWait = 0;
++	GLBtcBtMpRptWiFiOK = 0;
++	GLBtcBtMpRptBTOK = 0;
++
++	return _TRUE;
++}
++
++void EXhalbtcoutsrc_PowerOnSetting(PBTC_COEXIST pBtCoexist)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	/* Power on setting function is only added in 8723B currently */
++	if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_power_on_setting(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_power_on_setting(pBtCoexist);
++	}
++
++	if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_power_on_setting(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_power_on_setting(pBtCoexist);
++	}
++
++	if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_power_on_setting(pBtCoexist);
++	}
++
++	if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_power_on_setting(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_power_on_setting(pBtCoexist);
++	}
++}
++
++void EXhalbtcoutsrc_PreLoadFirmware(PBTC_COEXIST pBtCoexist)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->statistics.cnt_pre_load_firmware++;
++
++	if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_pre_load_firmware(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_pre_load_firmware(pBtCoexist);
++	}
++
++	if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_pre_load_firmware(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_pre_load_firmware(pBtCoexist);
++	}
++
++	if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_pre_load_firmware(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_pre_load_firmware(pBtCoexist);
++	}
++}
++
++void EXhalbtcoutsrc_init_hw_config(PBTC_COEXIST pBtCoexist, u8 bWifiOnly)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->statistics.cnt_init_hw_config++;
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_init_hw_config(pBtCoexist, bWifiOnly);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_init_hw_config(pBtCoexist, bWifiOnly);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_init_hw_config(pBtCoexist, bWifiOnly);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_init_hw_config(pBtCoexist, bWifiOnly);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_init_hw_config(pBtCoexist, bWifiOnly);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_init_hw_config(pBtCoexist, bWifiOnly);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_init_hw_config(pBtCoexist, bWifiOnly);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_init_hw_config(pBtCoexist, bWifiOnly);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_init_hw_config(pBtCoexist, bWifiOnly);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_init_hw_config(pBtCoexist, bWifiOnly);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_init_hw_config(pBtCoexist, bWifiOnly);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_init_hw_config(pBtCoexist, bWifiOnly);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_init_hw_config(pBtCoexist, bWifiOnly);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_init_hw_config(pBtCoexist, bWifiOnly);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_init_hw_config(pBtCoexist, bWifiOnly);
++	}
++}
++
++void EXhalbtcoutsrc_init_coex_dm(PBTC_COEXIST pBtCoexist)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->statistics.cnt_init_coex_dm++;
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_init_coex_dm(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_init_coex_dm(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_init_coex_dm(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_init_coex_dm(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_init_coex_dm(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_init_coex_dm(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_init_coex_dm(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_init_coex_dm(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_init_coex_dm(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_init_coex_dm(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_init_coex_dm(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_init_coex_dm(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_init_coex_dm(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_init_coex_dm(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_init_coex_dm(pBtCoexist);
++	}
++
++	pBtCoexist->initilized = _TRUE;
++}
++
++void EXhalbtcoutsrc_ips_notify(PBTC_COEXIST pBtCoexist, u8 type)
++{
++	u8	ipsType;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->statistics.cnt_ips_notify++;
++	if (pBtCoexist->manual_control)
++		return;
++
++	if (IPS_NONE == type) {
++		ipsType = BTC_IPS_LEAVE;
++		GLBtcWiFiInIPS = _FALSE;
++	} else {
++		ipsType = BTC_IPS_ENTER;
++		GLBtcWiFiInIPS = _TRUE;
++	}
++
++	/* All notify is called in cmd thread, don't need to leave low power again
++	*	halbtcoutsrc_LeaveLowPower(pBtCoexist); */
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_ips_notify(pBtCoexist, ipsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_ips_notify(pBtCoexist, ipsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_ips_notify(pBtCoexist, ipsType);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_ips_notify(pBtCoexist, ipsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_ips_notify(pBtCoexist, ipsType);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_ips_notify(pBtCoexist, ipsType);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_ips_notify(pBtCoexist, ipsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_ips_notify(pBtCoexist, ipsType);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_ips_notify(pBtCoexist, ipsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_ips_notify(pBtCoexist, ipsType);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_ips_notify(pBtCoexist, ipsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_ips_notify(pBtCoexist, ipsType);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_ips_notify(pBtCoexist, ipsType);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_ips_notify(pBtCoexist, ipsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_ips_notify(pBtCoexist, ipsType);
++	}
++
++	/*	halbtcoutsrc_NormalLowPower(pBtCoexist); */
++}
++
++void EXhalbtcoutsrc_lps_notify(PBTC_COEXIST pBtCoexist, u8 type)
++{
++	u8 lpsType;
++
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->statistics.cnt_lps_notify++;
++	if (pBtCoexist->manual_control)
++		return;
++
++	if (PS_MODE_ACTIVE == type) {
++		lpsType = BTC_LPS_DISABLE;
++		GLBtcWiFiInLPS = _FALSE;
++	} else {
++		lpsType = BTC_LPS_ENABLE;
++		GLBtcWiFiInLPS = _TRUE;
++	}
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_lps_notify(pBtCoexist, lpsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_lps_notify(pBtCoexist, lpsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_lps_notify(pBtCoexist, lpsType);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_lps_notify(pBtCoexist, lpsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_lps_notify(pBtCoexist, lpsType);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_lps_notify(pBtCoexist, lpsType);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_lps_notify(pBtCoexist, lpsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_lps_notify(pBtCoexist, lpsType);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_lps_notify(pBtCoexist, lpsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_lps_notify(pBtCoexist, lpsType);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_lps_notify(pBtCoexist, lpsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_lps_notify(pBtCoexist, lpsType);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_lps_notify(pBtCoexist, lpsType);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_lps_notify(pBtCoexist, lpsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_lps_notify(pBtCoexist, lpsType);
++	}
++}
++
++void EXhalbtcoutsrc_scan_notify(PBTC_COEXIST pBtCoexist, u8 type)
++{
++	u8	scanType;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++	pBtCoexist->statistics.cnt_scan_notify++;
++	if (pBtCoexist->manual_control)
++		return;
++
++	if (type) {
++		scanType = BTC_SCAN_START;
++		GLBtcWiFiInScanState = _TRUE;
++	} else {
++		scanType = BTC_SCAN_FINISH;
++		GLBtcWiFiInScanState = _FALSE;
++	}
++
++	/* All notify is called in cmd thread, don't need to leave low power again
++	*	halbtcoutsrc_LeaveLowPower(pBtCoexist); */
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_scan_notify(pBtCoexist, scanType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_scan_notify(pBtCoexist, scanType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_scan_notify(pBtCoexist, scanType);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_scan_notify(pBtCoexist, scanType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_scan_notify(pBtCoexist, scanType);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_scan_notify(pBtCoexist, scanType);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_scan_notify(pBtCoexist, scanType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_scan_notify(pBtCoexist, scanType);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_scan_notify(pBtCoexist, scanType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_scan_notify(pBtCoexist, scanType);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_scan_notify(pBtCoexist, scanType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_scan_notify(pBtCoexist, scanType);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_scan_notify(pBtCoexist, scanType);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_scan_notify(pBtCoexist, scanType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_scan_notify(pBtCoexist, scanType);
++	}
++
++	/*	halbtcoutsrc_NormalLowPower(pBtCoexist); */
++}
++
++void EXhalbtcoutsrc_SetAntennaPathNotify(PBTC_COEXIST pBtCoexist, u8 type)
++{
++#if 0
++	u8	switchType;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	if (pBtCoexist->manual_control)
++		return;
++
++	halbtcoutsrc_LeaveLowPower(pBtCoexist);
++
++	switchType = type;
++
++	if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_set_antenna_notify(pBtCoexist, type);
++	}
++	if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_set_antenna_notify(pBtCoexist, type);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_set_antenna_notify(pBtCoexist, type);
++	}
++
++	halbtcoutsrc_NormalLowPower(pBtCoexist);
++#endif
++}
++
++void EXhalbtcoutsrc_connect_notify(PBTC_COEXIST pBtCoexist, u8 action)
++{
++	u8	assoType;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++	pBtCoexist->statistics.cnt_connect_notify++;
++	if (pBtCoexist->manual_control)
++		return;
++
++	if (action)
++		assoType = BTC_ASSOCIATE_START;
++	else
++		assoType = BTC_ASSOCIATE_FINISH;
++
++	/* All notify is called in cmd thread, don't need to leave low power again
++	*	halbtcoutsrc_LeaveLowPower(pBtCoexist); */
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_connect_notify(pBtCoexist, assoType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_connect_notify(pBtCoexist, assoType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_connect_notify(pBtCoexist, assoType);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_connect_notify(pBtCoexist, assoType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_connect_notify(pBtCoexist, assoType);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_connect_notify(pBtCoexist, assoType);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_connect_notify(pBtCoexist, assoType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_connect_notify(pBtCoexist, assoType);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_connect_notify(pBtCoexist, assoType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_connect_notify(pBtCoexist, assoType);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_connect_notify(pBtCoexist, assoType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_connect_notify(pBtCoexist, assoType);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_connect_notify(pBtCoexist, assoType);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_connect_notify(pBtCoexist, assoType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_connect_notify(pBtCoexist, assoType);
++	}
++
++	/*	halbtcoutsrc_NormalLowPower(pBtCoexist); */
++}
++
++void EXhalbtcoutsrc_media_status_notify(PBTC_COEXIST pBtCoexist, RT_MEDIA_STATUS mediaStatus)
++{
++	u8 mStatus;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->statistics.cnt_media_status_notify++;
++	if (pBtCoexist->manual_control)
++		return;
++
++	if (RT_MEDIA_CONNECT == mediaStatus)
++		mStatus = BTC_MEDIA_CONNECT;
++	else
++		mStatus = BTC_MEDIA_DISCONNECT;
++
++	/* All notify is called in cmd thread, don't need to leave low power again
++	*	halbtcoutsrc_LeaveLowPower(pBtCoexist); */
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_media_status_notify(pBtCoexist, mStatus);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_media_status_notify(pBtCoexist, mStatus);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_media_status_notify(pBtCoexist, mStatus);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_media_status_notify(pBtCoexist, mStatus);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_media_status_notify(pBtCoexist, mStatus);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_media_status_notify(pBtCoexist, mStatus);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_media_status_notify(pBtCoexist, mStatus);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_media_status_notify(pBtCoexist, mStatus);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_media_status_notify(pBtCoexist, mStatus);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_media_status_notify(pBtCoexist, mStatus);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_media_status_notify(pBtCoexist, mStatus);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_media_status_notify(pBtCoexist, mStatus);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_media_status_notify(pBtCoexist, mStatus);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_media_status_notify(pBtCoexist, mStatus);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_media_status_notify(pBtCoexist, mStatus);
++	}
++
++	/*	halbtcoutsrc_NormalLowPower(pBtCoexist); */
++}
++
++void EXhalbtcoutsrc_specific_packet_notify(PBTC_COEXIST pBtCoexist, u8 pktType)
++{
++	u8	packetType;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++	pBtCoexist->statistics.cnt_specific_packet_notify++;
++	if (pBtCoexist->manual_control)
++		return;
++
++	if (PACKET_DHCP == pktType)
++		packetType = BTC_PACKET_DHCP;
++	else if (PACKET_EAPOL == pktType)
++		packetType = BTC_PACKET_EAPOL;
++	else if (PACKET_ARP == pktType)
++		packetType = BTC_PACKET_ARP;
++	else {
++		packetType = BTC_PACKET_UNKNOWN;
++		return;
++	}
++
++	/* All notify is called in cmd thread, don't need to leave low power again
++	*	halbtcoutsrc_LeaveLowPower(pBtCoexist); */
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_specific_packet_notify(pBtCoexist, packetType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_specific_packet_notify(pBtCoexist, packetType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_specific_packet_notify(pBtCoexist, packetType);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_specific_packet_notify(pBtCoexist, packetType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_specific_packet_notify(pBtCoexist, packetType);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_specific_packet_notify(pBtCoexist, packetType);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_specific_packet_notify(pBtCoexist, packetType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_specific_packet_notify(pBtCoexist, packetType);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_specific_packet_notify(pBtCoexist, packetType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_specific_packet_notify(pBtCoexist, packetType);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_specific_packet_notify(pBtCoexist, packetType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_specific_packet_notify(pBtCoexist, packetType);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_specific_packet_notify(pBtCoexist, packetType);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_specific_packet_notify(pBtCoexist, packetType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_specific_packet_notify(pBtCoexist, packetType);
++	}
++
++	/*	halbtcoutsrc_NormalLowPower(pBtCoexist); */
++}
++
++void EXhalbtcoutsrc_bt_info_notify(PBTC_COEXIST pBtCoexist, u8 *tmpBuf, u8 length)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->statistics.cnt_bt_info_notify++;
++
++	/* All notify is called in cmd thread, don't need to leave low power again
++	*	halbtcoutsrc_LeaveLowPower(pBtCoexist); */
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++	}
++
++	/*	halbtcoutsrc_NormalLowPower(pBtCoexist); */
++}
++
++VOID
++EXhalbtcoutsrc_RfStatusNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte				type
++)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++	pBtCoexist->statistics.cnt_rf_status_notify++;
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_rf_status_notify(pBtCoexist, type);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_rf_status_notify(pBtCoexist, type);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_rf_status_notify(pBtCoexist, type);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_rf_status_notify(pBtCoexist, type);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_rf_status_notify(pBtCoexist, type);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_rf_status_notify(pBtCoexist, type);
++	}
++}
++
++void EXhalbtcoutsrc_StackOperationNotify(PBTC_COEXIST pBtCoexist, u8 type)
++{
++#if 0
++	u8	stackOpType;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++	pBtCoexist->statistics.cntStackOperationNotify++;
++	if (pBtCoexist->manual_control)
++		return;
++
++	if ((HCI_BT_OP_INQUIRY_START == type) ||
++	    (HCI_BT_OP_PAGING_START == type) ||
++	    (HCI_BT_OP_PAIRING_START == type))
++		stackOpType = BTC_STACK_OP_INQ_PAGE_PAIR_START;
++	else if ((HCI_BT_OP_INQUIRY_FINISH == type) ||
++		 (HCI_BT_OP_PAGING_SUCCESS == type) ||
++		 (HCI_BT_OP_PAGING_UNSUCCESS == type) ||
++		 (HCI_BT_OP_PAIRING_FINISH == type))
++		stackOpType = BTC_STACK_OP_INQ_PAGE_PAIR_FINISH;
++	else
++		stackOpType = BTC_STACK_OP_NONE;
++
++#endif
++}
++
++void EXhalbtcoutsrc_halt_notify(PBTC_COEXIST pBtCoexist)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_halt_notify(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_halt_notify(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_halt_notify(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_halt_notify(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_halt_notify(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_halt_notify(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_halt_notify(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_halt_notify(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_halt_notify(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_halt_notify(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_halt_notify(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_halt_notify(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_halt_notify(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_halt_notify(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_halt_notify(pBtCoexist);
++	}
++}
++
++void EXhalbtcoutsrc_SwitchBtTRxMask(PBTC_COEXIST pBtCoexist)
++{
++	if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2) {
++			halbtcoutsrc_SetBtReg(pBtCoexist, 0, 0x3c, 0x01); /* BT goto standby while GNT_BT 1-->0 */
++		} else if (pBtCoexist->board_info.btdm_ant_num == 1) {
++			halbtcoutsrc_SetBtReg(pBtCoexist, 0, 0x3c, 0x15); /* BT goto standby while GNT_BT 1-->0 */
++		}
++	}
++}
++
++void EXhalbtcoutsrc_pnp_notify(PBTC_COEXIST pBtCoexist, u8 pnpState)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	/*  */
++	/* currently only 1ant we have to do the notification, */
++	/* once pnp is notified to sleep state, we have to leave LPS that we can sleep normally. */
++	/*  */
++
++	if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_pnp_notify(pBtCoexist, pnpState);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_pnp_notify(pBtCoexist, pnpState);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_pnp_notify(pBtCoexist, pnpState);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_pnp_notify(pBtCoexist, pnpState);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_pnp_notify(pBtCoexist, pnpState);
++	} else if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_pnp_notify(pBtCoexist, pnpState);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_pnp_notify(pBtCoexist, pnpState);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_pnp_notify(pBtCoexist, pnpState);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_pnp_notify(pBtCoexist, pnpState);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_pnp_notify(pBtCoexist, pnpState);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_pnp_notify(pBtCoexist, pnpState);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_pnp_notify(pBtCoexist, pnpState);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_pnp_notify(pBtCoexist, pnpState);
++	}
++}
++
++void EXhalbtcoutsrc_CoexDmSwitch(PBTC_COEXIST pBtCoexist)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++	pBtCoexist->statistics.cnt_coex_dm_switch++;
++
++	halbtcoutsrc_LeaveLowPower(pBtCoexist);
++
++	if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1) {
++			pBtCoexist->stop_coex_dm = TRUE;
++			ex_halbtc8723b1ant_coex_dm_reset(pBtCoexist);
++			EXhalbtcoutsrc_SetAntNum(BT_COEX_ANT_TYPE_DETECTED, 2);
++			ex_halbtc8723b2ant_init_hw_config(pBtCoexist, FALSE);
++			ex_halbtc8723b2ant_init_coex_dm(pBtCoexist);
++			pBtCoexist->stop_coex_dm = FALSE;
++		}
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1) {
++			pBtCoexist->stop_coex_dm = TRUE;
++			ex_halbtc8723d1ant_coex_dm_reset(pBtCoexist);
++			EXhalbtcoutsrc_SetAntNum(BT_COEX_ANT_TYPE_DETECTED, 2);
++			ex_halbtc8723d2ant_init_hw_config(pBtCoexist, FALSE);
++			ex_halbtc8723d2ant_init_coex_dm(pBtCoexist);
++			pBtCoexist->stop_coex_dm = FALSE;
++		}
++	}
++
++	halbtcoutsrc_NormalLowPower(pBtCoexist);
++}
++
++void EXhalbtcoutsrc_periodical(PBTC_COEXIST pBtCoexist)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++	pBtCoexist->statistics.cnt_periodical++;
++
++	/* Periodical should be called in cmd thread, */
++	/* don't need to leave low power again
++	*	halbtcoutsrc_LeaveLowPower(pBtCoexist); */
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_periodical(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_periodical(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1) {
++			if (!halbtcoutsrc_UnderIps(pBtCoexist))
++				ex_halbtc8821a1ant_periodical(pBtCoexist);
++		}
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_periodical(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_periodical(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_periodical(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_periodical(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_periodical(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_periodical(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_periodical(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_periodical(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_periodical(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_periodical(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_periodical(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_periodical(pBtCoexist);
++	}
++
++	/*	halbtcoutsrc_NormalLowPower(pBtCoexist); */
++}
++
++void EXhalbtcoutsrc_dbg_control(PBTC_COEXIST pBtCoexist, u8 opCode, u8 opLen, u8 *pData)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->statistics.cnt_dbg_ctrl++;
++
++	/* This function doesn't be called yet, */
++	/* default no need to leave low power to avoid deadlock
++	*	halbtcoutsrc_LeaveLowPower(pBtCoexist); */
++
++	if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_dbg_control(pBtCoexist, opCode, opLen, pData);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_dbg_control(pBtCoexist, opCode, opLen, pData);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_dbg_control(pBtCoexist, opCode, opLen, pData);
++	} else if(IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter))
++		if(pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_dbg_control(pBtCoexist, opCode, opLen, pData);
++
++	/*	halbtcoutsrc_NormalLowPower(pBtCoexist); */
++}
++
++#if 0
++VOID
++EXhalbtcoutsrc_AntennaDetection(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u4Byte					centFreq,
++	IN	u4Byte					offset,
++	IN	u4Byte					span,
++	IN	u4Byte					seconds
++)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	/* Need to refine the following power save operations to enable this function in the future */
++#if 0
++	IPSDisable(pBtCoexist->Adapter, FALSE, 0);
++	LeisurePSLeave(pBtCoexist->Adapter, LPS_DISABLE_BT_COEX);
++#endif
++
++	if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_AntennaDetection(pBtCoexist, centFreq, offset, span, seconds);
++	}
++
++	/* IPSReturn(pBtCoexist->Adapter, 0xff); */
++}
++#endif
++
++void EXhalbtcoutsrc_StackUpdateProfileInfo(void)
++{
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	PBTC_COEXIST pBtCoexist = &GLBtCoexist;
++	PADAPTER padapter = (PADAPTER)GLBtCoexist.Adapter;
++	PBT_MGNT pBtMgnt = &padapter->coex_info.BtMgnt;
++	u8 i;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->stack_info.profile_notified = _TRUE;
++
++	pBtCoexist->stack_info.num_of_link =
++		pBtMgnt->ExtConfig.NumberOfACL + pBtMgnt->ExtConfig.NumberOfSCO;
++
++	/* reset first */
++	pBtCoexist->stack_info.bt_link_exist = _FALSE;
++	pBtCoexist->stack_info.sco_exist = _FALSE;
++	pBtCoexist->stack_info.acl_exist = _FALSE;
++	pBtCoexist->stack_info.a2dp_exist = _FALSE;
++	pBtCoexist->stack_info.hid_exist = _FALSE;
++	pBtCoexist->stack_info.num_of_hid = 0;
++	pBtCoexist->stack_info.pan_exist = _FALSE;
++
++	if (!pBtMgnt->ExtConfig.NumberOfACL)
++		pBtCoexist->stack_info.min_bt_rssi = 0;
++
++	if (pBtCoexist->stack_info.num_of_link) {
++		pBtCoexist->stack_info.bt_link_exist = _TRUE;
++		if (pBtMgnt->ExtConfig.NumberOfSCO)
++			pBtCoexist->stack_info.sco_exist = _TRUE;
++		if (pBtMgnt->ExtConfig.NumberOfACL)
++			pBtCoexist->stack_info.acl_exist = _TRUE;
++	}
++
++	for (i = 0; i < pBtMgnt->ExtConfig.NumberOfACL; i++) {
++		if (BT_PROFILE_A2DP == pBtMgnt->ExtConfig.aclLink[i].BTProfile)
++			pBtCoexist->stack_info.a2dp_exist = _TRUE;
++		else if (BT_PROFILE_PAN == pBtMgnt->ExtConfig.aclLink[i].BTProfile)
++			pBtCoexist->stack_info.pan_exist = _TRUE;
++		else if (BT_PROFILE_HID == pBtMgnt->ExtConfig.aclLink[i].BTProfile) {
++			pBtCoexist->stack_info.hid_exist = _TRUE;
++			pBtCoexist->stack_info.num_of_hid++;
++		} else
++			pBtCoexist->stack_info.unknown_acl_exist = _TRUE;
++	}
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++}
++
++void EXhalbtcoutsrc_UpdateMinBtRssi(s8 btRssi)
++{
++	PBTC_COEXIST pBtCoexist = &GLBtCoexist;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->stack_info.min_bt_rssi = btRssi;
++}
++
++void EXhalbtcoutsrc_SetHciVersion(u16 hciVersion)
++{
++	PBTC_COEXIST pBtCoexist = &GLBtCoexist;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->stack_info.hci_version = hciVersion;
++}
++
++void EXhalbtcoutsrc_SetBtPatchVersion(u16 btHciVersion, u16 btPatchVersion)
++{
++	PBTC_COEXIST pBtCoexist = &GLBtCoexist;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->bt_info.bt_real_fw_ver = btPatchVersion;
++	pBtCoexist->bt_info.bt_hci_ver = btHciVersion;
++}
++
++#if 0
++void EXhalbtcoutsrc_SetBtExist(u8 bBtExist)
++{
++	GLBtCoexist.boardInfo.bBtExist = bBtExist;
++}
++#endif
++void EXhalbtcoutsrc_SetChipType(u8 chipType)
++{
++	switch (chipType) {
++	default:
++	case BT_2WIRE:
++	case BT_ISSC_3WIRE:
++	case BT_ACCEL:
++	case BT_RTL8756:
++		GLBtCoexist.board_info.bt_chip_type = BTC_CHIP_UNDEF;
++		break;
++	case BT_CSR_BC4:
++		GLBtCoexist.board_info.bt_chip_type = BTC_CHIP_CSR_BC4;
++		break;
++	case BT_CSR_BC8:
++		GLBtCoexist.board_info.bt_chip_type = BTC_CHIP_CSR_BC8;
++		break;
++	case BT_RTL8723A:
++		GLBtCoexist.board_info.bt_chip_type = BTC_CHIP_RTL8723A;
++		break;
++	case BT_RTL8821:
++		GLBtCoexist.board_info.bt_chip_type = BTC_CHIP_RTL8821;
++		break;
++	case BT_RTL8723B:
++		GLBtCoexist.board_info.bt_chip_type = BTC_CHIP_RTL8723B;
++		break;
++	}
++}
++
++void EXhalbtcoutsrc_SetAntNum(u8 type, u8 antNum)
++{
++	if (BT_COEX_ANT_TYPE_PG == type) {
++		GLBtCoexist.board_info.pg_ant_num = antNum;
++		GLBtCoexist.board_info.btdm_ant_num = antNum;
++#if 0
++		/* The antenna position: Main (default) or Aux for pgAntNum=2 && btdmAntNum =1 */
++		/* The antenna position should be determined by auto-detect mechanism */
++		/* The following is assumed to main, and those must be modified if y auto-detect mechanism is ready */
++		if ((GLBtCoexist.board_info.pg_ant_num == 2) && (GLBtCoexist.board_info.btdm_ant_num == 1))
++			GLBtCoexist.board_info.btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++		else
++			GLBtCoexist.board_info.btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++#endif
++	} else if (BT_COEX_ANT_TYPE_ANTDIV == type) {
++		GLBtCoexist.board_info.btdm_ant_num = antNum;
++		/* GLBtCoexist.boardInfo.btdmAntPos = BTC_ANTENNA_AT_MAIN_PORT;	 */
++	} else if (BT_COEX_ANT_TYPE_DETECTED == type) {
++		GLBtCoexist.board_info.btdm_ant_num = antNum;
++		/* GLBtCoexist.boardInfo.btdmAntPos = BTC_ANTENNA_AT_MAIN_PORT; */
++	}
++}
++
++/*
++ * Currently used by 8723b only, S0 or S1
++ *   */
++void EXhalbtcoutsrc_SetSingleAntPath(u8 singleAntPath)
++{
++	GLBtCoexist.board_info.single_ant_path = singleAntPath;
++}
++
++void EXhalbtcoutsrc_DisplayBtCoexInfo(PBTC_COEXIST pBtCoexist)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	halbtcoutsrc_LeaveLowPower(pBtCoexist);
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_display_coex_info(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_display_coex_info(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_display_coex_info(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_display_coex_info(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_display_coex_info(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_display_coex_info(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_display_coex_info(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_display_coex_info(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_display_coex_info(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_display_coex_info(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_display_coex_info(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_display_coex_info(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_display_coex_info(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_display_coex_info(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_display_coex_info(pBtCoexist);
++	}
++
++	halbtcoutsrc_NormalLowPower(pBtCoexist);
++}
++
++void EXhalbtcoutsrc_DisplayAntDetection(PBTC_COEXIST pBtCoexist)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	halbtcoutsrc_LeaveLowPower(pBtCoexist);
++
++	if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_display_ant_detection(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_display_ant_detection(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_display_ant_detection(pBtCoexist);
++	}
++
++	halbtcoutsrc_NormalLowPower(pBtCoexist);
++}
++
++void EXhalbtcoutsrc_BTOffOnNotify(PBTC_COEXIST pBtCoexist, u8 bBTON)
++{
++#if 0	/*  Jenyu Need commit to windows' SVN */
++	if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_bt_off_on_notify(pBtCoexist, (bBTON == _TRUE) ? BTC_BT_ON : BTC_BT_OFF);
++	}
++#endif
++}
++
++void EXhalbtcoutsrc_set_rfe_type(u8 type)
++{
++	GLBtCoexist.board_info.rfe_type= type;
++}
++
++void EXhalbtcoutsrc_switchband_notify(struct btc_coexist *pBtCoexist, u8 type)
++{
++	if(!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++	
++	if(pBtCoexist->manual_control)
++		return;
++
++
++	halbtcoutsrc_LeaveLowPower(pBtCoexist);
++
++	if(IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if(pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_switchband_notify(pBtCoexist, type);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_switchband_notify(pBtCoexist, type);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_switchband_notify(pBtCoexist, type);
++	}
++
++	halbtcoutsrc_NormalLowPower(pBtCoexist);
++}
++
++static void halbt_init_hw_config92C(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData;
++	u8 u1Tmp;
++
++
++	pHalData = GET_HAL_DATA(padapter);
++	if ((pHalData->bt_coexist.btChipType == BT_CSR_BC4) ||
++	    (pHalData->bt_coexist.btChipType == BT_CSR_BC8)) {
++		if (pHalData->rf_type == RF_1T1R) {
++			/* Config to 1T1R */
++			u1Tmp = rtw_read8(padapter, rOFDM0_TRxPathEnable);
++			u1Tmp &= ~BIT(1);
++			rtw_write8(padapter, rOFDM0_TRxPathEnable, u1Tmp);
++			RT_DISP(FBT, BT_TRACE, ("[BTCoex], BT write 0xC04 = 0x%x\n", u1Tmp));
++
++			u1Tmp = rtw_read8(padapter, rOFDM1_TRxPathEnable);
++			u1Tmp &= ~BIT(1);
++			rtw_write8(padapter, rOFDM1_TRxPathEnable, u1Tmp);
++			RT_DISP(FBT, BT_TRACE, ("[BTCoex], BT write 0xD04 = 0x%x\n", u1Tmp));
++		}
++	}
++}
++
++static void halbt_init_hw_config92D(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData;
++	u8 u1Tmp;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if ((pHalData->bt_coexist.btChipType == BT_CSR_BC4) ||
++	    (pHalData->bt_coexist.btChipType == BT_CSR_BC8)) {
++		if (pHalData->rf_type == RF_1T1R) {
++			/* Config to 1T1R */
++			u1Tmp = rtw_read8(padapter, rOFDM0_TRxPathEnable);
++			u1Tmp &= ~BIT(1);
++			rtw_write8(padapter, rOFDM0_TRxPathEnable, u1Tmp);
++			RT_DISP(FBT, BT_TRACE, ("[BTCoex], BT write 0xC04 = 0x%x\n", u1Tmp));
++
++			u1Tmp = rtw_read8(padapter, rOFDM1_TRxPathEnable);
++			u1Tmp &= ~BIT(1);
++			rtw_write8(padapter, rOFDM1_TRxPathEnable, u1Tmp);
++			RT_DISP(FBT, BT_TRACE, ("[BTCoex], BT write 0xD04 = 0x%x\n", u1Tmp));
++		}
++	}
++}
++
++/*
++ * Description:
++ *	Run BT-Coexist mechansim or not
++ *
++ */
++void hal_btcoex_SetBTCoexist(PADAPTER padapter, u8 bBtExist)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	pHalData->bt_coexist.bBtExist = bBtExist;
++}
++
++/*
++ * Dewcription:
++ *	Check is co-exist mechanism enabled or not
++ *
++ * Return:
++ *	_TRUE	Enable BT co-exist mechanism
++ *	_FALSE	Disable BT co-exist mechanism
++ */
++u8 hal_btcoex_IsBtExist(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	return pHalData->bt_coexist.bBtExist;
++}
++
++u8 hal_btcoex_IsBtDisabled(PADAPTER padapter)
++{
++	if (!hal_btcoex_IsBtExist(padapter))
++		return _TRUE;
++
++	if (GLBtCoexist.bt_info.bt_disabled)
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++void hal_btcoex_SetChipType(PADAPTER padapter, u8 chipType)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	pHalData->bt_coexist.btChipType = chipType;
++}
++
++void hal_btcoex_SetPgAntNum(PADAPTER padapter, u8 antNum)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++
++	pHalData = GET_HAL_DATA(padapter);
++
++	pHalData->bt_coexist.btTotalAntNum = antNum;
++}
++
++u8 hal_btcoex_Initialize(PADAPTER padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	u8 ret;
++
++
++	_rtw_memset(&GLBtCoexist, 0, sizeof(GLBtCoexist));
++
++	hal_btcoex_SetBTCoexist(padapter, rtw_btcoex_get_bt_coexist(padapter));
++	hal_btcoex_SetChipType(padapter, rtw_btcoex_get_chip_type(padapter));
++	hal_btcoex_SetPgAntNum(padapter, rtw_btcoex_get_pg_ant_num(padapter));
++
++	ret = EXhalbtcoutsrc_InitlizeVariables((void *)padapter);
++
++	return ret;
++}
++
++void hal_btcoex_PowerOnSetting(PADAPTER padapter)
++{
++	EXhalbtcoutsrc_PowerOnSetting(&GLBtCoexist);
++}
++
++void hal_btcoex_PreLoadFirmware(PADAPTER padapter)
++{
++	EXhalbtcoutsrc_PreLoadFirmware(&GLBtCoexist);
++}
++
++void hal_btcoex_InitHwConfig(PADAPTER padapter, u8 bWifiOnly)
++{
++	if (!hal_btcoex_IsBtExist(padapter))
++		return;
++
++	EXhalbtcoutsrc_init_hw_config(&GLBtCoexist, bWifiOnly);
++	EXhalbtcoutsrc_init_coex_dm(&GLBtCoexist);
++}
++
++void hal_btcoex_IpsNotify(PADAPTER padapter, u8 type)
++{
++	EXhalbtcoutsrc_ips_notify(&GLBtCoexist, type);
++}
++
++void hal_btcoex_LpsNotify(PADAPTER padapter, u8 type)
++{
++	EXhalbtcoutsrc_lps_notify(&GLBtCoexist, type);
++}
++
++void hal_btcoex_ScanNotify(PADAPTER padapter, u8 type)
++{
++	EXhalbtcoutsrc_scan_notify(&GLBtCoexist, type);
++}
++
++void hal_btcoex_ConnectNotify(PADAPTER padapter, u8 action)
++{
++	EXhalbtcoutsrc_connect_notify(&GLBtCoexist, action);
++}
++
++void hal_btcoex_MediaStatusNotify(PADAPTER padapter, u8 mediaStatus)
++{
++	EXhalbtcoutsrc_media_status_notify(&GLBtCoexist, mediaStatus);
++}
++
++void hal_btcoex_SpecialPacketNotify(PADAPTER padapter, u8 pktType)
++{
++	EXhalbtcoutsrc_specific_packet_notify(&GLBtCoexist, pktType);
++}
++
++void hal_btcoex_IQKNotify(PADAPTER padapter, u8 state)
++{
++	GLBtcWiFiInIQKState = state;
++}
++
++void hal_btcoex_BtInfoNotify(PADAPTER padapter, u8 length, u8 *tmpBuf)
++{
++	if (GLBtcWiFiInIQKState == _TRUE)
++		return;
++
++	EXhalbtcoutsrc_bt_info_notify(&GLBtCoexist, tmpBuf, length);
++}
++
++void hal_btcoex_BtMpRptNotify(PADAPTER padapter, u8 length, u8 *tmpBuf)
++{
++	u8 extid, status, len, seq;
++
++
++	if (!GLBtcBtMpRptWait)
++		return;
++
++	if ((length < 3) || (!tmpBuf))
++		return;
++
++	extid = tmpBuf[0];
++	/* not response from BT FW then exit*/
++	switch (extid) {
++	case C2H_WIFI_FW_ACTIVE_RSP:
++		GLBtcBtMpRptWiFiOK = 1;
++		return;
++
++	case C2H_TRIG_BY_BT_FW:
++		_cancel_timer_ex(&GLBtcBtMpOperTimer);
++		GLBtcBtMpRptWait = 0;
++		GLBtcBtMpRptBTOK = 1;
++		break;
++
++	default:
++		return;
++	}
++
++	status = tmpBuf[1] & 0xF;
++	len = length - 3;
++	seq = tmpBuf[2] >> 4;
++
++	GLBtcBtMpRptSeq = seq;
++	GLBtcBtMpRptStatus = status;
++	_rtw_memcpy(GLBtcBtMpRptRsp, tmpBuf + 3, len);
++	GLBtcBtMpRptRspSize = len;
++	_rtw_up_sema(&GLBtcBtMpRptSema);
++}
++
++void hal_btcoex_SuspendNotify(PADAPTER padapter, u8 state)
++{
++	switch (state) {
++	case BTCOEX_SUSPEND_STATE_SUSPEND:
++		EXhalbtcoutsrc_pnp_notify(&GLBtCoexist, BTC_WIFI_PNP_SLEEP);
++		break;
++	case BTCOEX_SUSPEND_STATE_SUSPEND_KEEP_ANT:
++		/* should switch to "#if 1" once all ICs' coex. revision are upgraded to support the KEEP_ANT case */
++#if 0
++		EXhalbtcoutsrc_pnp_notify(&GLBtCoexist, BTC_WIFI_PNP_SLEEP_KEEP_ANT);
++#else
++		EXhalbtcoutsrc_pnp_notify(&GLBtCoexist, BTC_WIFI_PNP_SLEEP);
++		EXhalbtcoutsrc_pnp_notify(&GLBtCoexist, BTC_WIFI_PNP_SLEEP_KEEP_ANT);
++#endif
++		break;
++	case BTCOEX_SUSPEND_STATE_RESUME:
++		EXhalbtcoutsrc_pnp_notify(&GLBtCoexist, BTC_WIFI_PNP_WAKE_UP);
++		break;
++	}
++}
++
++void hal_btcoex_HaltNotify(PADAPTER padapter, u8 do_halt)
++{
++	if (do_halt == 1)
++		EXhalbtcoutsrc_halt_notify(&GLBtCoexist);
++
++	GLBtCoexist.bBinded = _FALSE;
++	GLBtCoexist.Adapter = NULL;
++}
++
++void hal_btcoex_SwitchBtTRxMask(PADAPTER padapter)
++{
++	EXhalbtcoutsrc_SwitchBtTRxMask(&GLBtCoexist);
++}
++
++void hal_btcoex_Hanlder(PADAPTER padapter)
++{
++	u32	bt_patch_ver;
++
++	EXhalbtcoutsrc_periodical(&GLBtCoexist);
++
++	if (GLBtCoexist.bt_info.bt_get_fw_ver == 0) {
++		GLBtCoexist.btc_get(&GLBtCoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++		GLBtCoexist.bt_info.bt_get_fw_ver = bt_patch_ver;
++	}
++}
++
++s32 hal_btcoex_IsBTCoexRejectAMPDU(PADAPTER padapter)
++{
++	return (s32)GLBtCoexist.bt_info.reject_agg_pkt;
++}
++
++s32 hal_btcoex_IsBTCoexCtrlAMPDUSize(PADAPTER padapter)
++{
++	return (s32)GLBtCoexist.bt_info.bt_ctrl_agg_buf_size;
++}
++
++u32 hal_btcoex_GetAMPDUSize(PADAPTER padapter)
++{
++	return (u32)GLBtCoexist.bt_info.agg_buf_size;
++}
++
++void hal_btcoex_SetManualControl(PADAPTER padapter, u8 bmanual)
++{
++	GLBtCoexist.manual_control = bmanual;
++}
++
++u8 hal_btcoex_1Ant(PADAPTER padapter)
++{
++	if (hal_btcoex_IsBtExist(padapter) == _FALSE)
++		return _FALSE;
++
++	if (GLBtCoexist.board_info.btdm_ant_num == 1)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++u8 hal_btcoex_IsBtControlLps(PADAPTER padapter)
++{
++	if (GLBtCoexist.bdontenterLPS == _TRUE)
++		return _TRUE;
++	
++	if (hal_btcoex_IsBtExist(padapter) == _FALSE)
++		return _FALSE;
++
++	if (GLBtCoexist.bt_info.bt_disabled)
++		return _FALSE;
++
++	if (GLBtCoexist.bt_info.bt_ctrl_lps)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++u8 hal_btcoex_IsLpsOn(PADAPTER padapter)
++{
++	if (GLBtCoexist.bdontenterLPS == _TRUE)
++		return _FALSE;
++	
++	if (hal_btcoex_IsBtExist(padapter) == _FALSE)
++		return _FALSE;
++
++	if (GLBtCoexist.bt_info.bt_disabled)
++		return _FALSE;
++
++	if (GLBtCoexist.bt_info.bt_lps_on)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++u8 hal_btcoex_RpwmVal(PADAPTER padapter)
++{
++	return GLBtCoexist.bt_info.rpwm_val;
++}
++
++u8 hal_btcoex_LpsVal(PADAPTER padapter)
++{
++	return GLBtCoexist.bt_info.lps_val;
++}
++
++u32 hal_btcoex_GetRaMask(PADAPTER padapter)
++{
++	if (!hal_btcoex_IsBtExist(padapter))
++		return 0;
++
++	if (GLBtCoexist.bt_info.bt_disabled)
++		return 0;
++
++	/* Modify by YiWei , suggest by Cosa and Jenyu
++	 * Remove the limit antenna number , because 2 antenna case (ex: 8192eu)also want to get BT coex report rate mask.
++	 */
++	/*if (GLBtCoexist.board_info.btdm_ant_num != 1)
++		return 0;*/
++
++	return GLBtCoexist.bt_info.ra_mask;
++}
++
++void hal_btcoex_RecordPwrMode(PADAPTER padapter, u8 *pCmdBuf, u8 cmdLen)
++{
++
++	_rtw_memcpy(GLBtCoexist.pwrModeVal, pCmdBuf, cmdLen);
++}
++
++void hal_btcoex_DisplayBtCoexInfo(PADAPTER padapter, u8 *pbuf, u32 bufsize)
++{
++	PBTCDBGINFO pinfo;
++
++
++	pinfo = &GLBtcDbgInfo;
++	DBG_BT_INFO_INIT(pinfo, pbuf, bufsize);
++	EXhalbtcoutsrc_DisplayBtCoexInfo(&GLBtCoexist);
++	DBG_BT_INFO_INIT(pinfo, NULL, 0);
++}
++
++void hal_btcoex_SetDBG(PADAPTER padapter, u32 *pDbgModule)
++{
++	u32 i;
++
++
++	if (NULL == pDbgModule)
++		return;
++
++	for (i = 0; i < COMP_MAX; i++)
++		GLBtcDbgType[i] = pDbgModule[i];
++}
++
++u32 hal_btcoex_GetDBG(PADAPTER padapter, u8 *pStrBuf, u32 bufSize)
++{
++	s32 count;
++	u8 *pstr;
++	u32 leftSize;
++
++
++	if ((NULL == pStrBuf) || (0 == bufSize))
++		return 0;
++
++	count = 0;
++	pstr = pStrBuf;
++	leftSize = bufSize;
++	/*	RTW_INFO(FUNC_ADPT_FMT ": bufsize=%d\n", FUNC_ADPT_ARG(padapter), bufSize); */
++
++	count = rtw_sprintf(pstr, leftSize, "#define DBG\t%d\n", DBG);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++
++	count = rtw_sprintf(pstr, leftSize, "BTCOEX Debug Setting:\n");
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++
++	count = rtw_sprintf(pstr, leftSize,
++			    "COMP_COEX: 0x%08X\n\n",
++			    GLBtcDbgType[COMP_COEX]);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++
++#if 0
++	count = rtw_sprintf(pstr, leftSize, "INTERFACE Debug Setting Definition:\n");
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[0]=%d for INTF_INIT\n",
++		    GLBtcDbgType[BTC_MSG_INTERFACE] & INTF_INIT ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[2]=%d for INTF_NOTIFY\n\n",
++		    GLBtcDbgType[BTC_MSG_INTERFACE] & INTF_NOTIFY ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++
++	count = rtw_sprintf(pstr, leftSize, "ALGORITHM Debug Setting Definition:\n");
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[0]=%d for BT_RSSI_STATE\n",
++		GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_BT_RSSI_STATE ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[1]=%d for WIFI_RSSI_STATE\n",
++		GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_WIFI_RSSI_STATE ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[2]=%d for BT_MONITOR\n",
++		    GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_BT_MONITOR ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[3]=%d for TRACE\n",
++		    GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[4]=%d for TRACE_FW\n",
++		    GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE_FW ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[5]=%d for TRACE_FW_DETAIL\n",
++		GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE_FW_DETAIL ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[6]=%d for TRACE_FW_EXEC\n",
++		GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE_FW_EXEC ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[7]=%d for TRACE_SW\n",
++		    GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE_SW ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[8]=%d for TRACE_SW_DETAIL\n",
++		GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE_SW_DETAIL ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[9]=%d for TRACE_SW_EXEC\n",
++		GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE_SW_EXEC ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++#endif
++
++exit:
++	count = pstr - pStrBuf;
++	/*	RTW_INFO(FUNC_ADPT_FMT ": usedsize=%d\n", FUNC_ADPT_ARG(padapter), count); */
++
++	return count;
++}
++
++u8 hal_btcoex_IncreaseScanDeviceNum(PADAPTER padapter)
++{
++	if (!hal_btcoex_IsBtExist(padapter))
++		return _FALSE;
++
++	if (GLBtCoexist.bt_info.increase_scan_dev_num)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++u8 hal_btcoex_IsBtLinkExist(PADAPTER padapter)
++{
++	if (GLBtCoexist.bt_link_info.bt_link_exist)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++void hal_btcoex_SetBtPatchVersion(PADAPTER padapter, u16 btHciVer, u16 btPatchVer)
++{
++	EXhalbtcoutsrc_SetBtPatchVersion(btHciVer, btPatchVer);
++}
++
++void hal_btcoex_SetHciVersion(PADAPTER padapter, u16 hciVersion)
++{
++	EXhalbtcoutsrc_SetHciVersion(hciVersion);
++}
++
++void hal_btcoex_StackUpdateProfileInfo(void)
++{
++	EXhalbtcoutsrc_StackUpdateProfileInfo();
++}
++
++void hal_btcoex_BTOffOnNotify(PADAPTER padapter, u8 bBTON)
++{
++	EXhalbtcoutsrc_BTOffOnNotify(&GLBtCoexist, bBTON);
++}
++
++/*
++ *	Description:
++ *	Setting BT coex antenna isolation type .
++ *	coex mechanisn/ spital stream/ best throughput
++ *	anttype = 0	,	PSTDMA	/	2SS	/	0.5T	,	bad isolation , WiFi/BT ANT Distance<15cm , (<20dB) for 2,3 antenna
++ *	anttype = 1	,	PSTDMA	/	1SS	/	0.5T	,	normal isolaiton , 50cm>WiFi/BT ANT Distance>15cm , (>20dB) for 2 antenna
++ *	anttype = 2	,	TDMA	/	2SS	/	T ,		normal isolaiton , 50cm>WiFi/BT ANT Distance>15cm , (>20dB) for 3 antenna
++ *	anttype = 3	,	no TDMA	/	1SS	/	0.5T	,	good isolation , WiFi/BT ANT Distance >50cm , (>40dB) for 2 antenna
++ *	anttype = 4	,	no TDMA	/	2SS	/	T ,		good isolation , WiFi/BT ANT Distance >50cm , (>40dB) for 3 antenna
++ *	wifi only throughput ~ T
++ *	wifi/BT share one antenna with SPDT
++ */
++void hal_btcoex_SetAntIsolationType(PADAPTER padapter, u8 anttype)
++{
++	PHAL_DATA_TYPE pHalData;
++	PBTC_COEXIST	pBtCoexist = &GLBtCoexist;
++
++	/*RTW_INFO("####%s , anttype = %d  , %d\n" , __func__ , anttype , __LINE__); */
++	pHalData = GET_HAL_DATA(padapter);
++
++
++	pHalData->bt_coexist.btAntisolation = anttype;
++
++	switch (pHalData->bt_coexist.btAntisolation) {
++	case 0:
++		pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_0;
++		break;
++	case 1:
++		pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_1;
++		break;
++	case 2:
++		pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_2;
++		break;
++	case 3:
++		pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_3;
++		break;
++	case 4:
++		pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_4;
++		break;
++	}
++
++}
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++int
++hal_btcoex_ParseAntIsolationConfigFile(
++	PADAPTER		Adapter,
++	char			*buffer
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u32	i = 0 , j = 0;
++	char	*szLine , *ptmp;
++	int rtStatus = _SUCCESS;
++	char param_value_string[10];
++	u8 param_value;
++	u8 anttype = 4;
++
++	u8 ant_num = 3 , ant_distance = 50 , rfe_type = 1;
++
++	typedef struct ant_isolation {
++		char *param_name;  /* antenna isolation config parameter name */
++		u8 *value; /* antenna isolation config parameter value */
++	} ANT_ISOLATION;
++
++	ANT_ISOLATION ant_isolation_param[] = {
++		{"ANT_NUMBER" , &ant_num},
++		{"ANT_DISTANCE" , &ant_distance},
++		{"RFE_TYPE" , &rfe_type},
++		{NULL , 0}
++	};
++
++
++
++	/* RTW_INFO("===>Hal_ParseAntIsolationConfigFile()\n" ); */
++
++	ptmp = buffer;
++	for (szLine = GetLineFromBuffer(ptmp) ; szLine != NULL; szLine = GetLineFromBuffer(ptmp)) {
++		/* skip comment */
++		if (IsCommentString(szLine))
++			continue;
++
++		/* RTW_INFO("%s : szLine = %s , strlen(szLine) = %d\n" , __func__ , szLine , strlen(szLine));*/
++		for (j = 0 ; ant_isolation_param[j].param_name != NULL ; j++) {
++			if (strstr(szLine , ant_isolation_param[j].param_name) != NULL) {
++				i = 0;
++				while (i < strlen(szLine)) {
++					if (szLine[i] != '"')
++						++i;
++					else {
++						/* skip only has one " */
++						if (strpbrk(szLine , "\"") == strrchr(szLine , '"')) {
++							RTW_INFO("Fail to parse parameters , format error!\n");
++							break;
++						}
++						_rtw_memset((PVOID)param_value_string , 0 , 10);
++						if (!ParseQualifiedString(szLine , &i , param_value_string , '"' , '"')) {
++							RTW_INFO("Fail to parse parameters\n");
++							return _FAIL;
++						} else if (!GetU1ByteIntegerFromStringInDecimal(param_value_string , ant_isolation_param[j].value))
++							RTW_INFO("Fail to GetU1ByteIntegerFromStringInDecimal\n");
++
++						break;
++					}
++				}
++			}
++		}
++	}
++
++	/* YiWei 20140716 , for BT coex antenna isolation control */
++	/* rfe_type = 0 was SPDT , rfe_type = 1 was coupler */
++	if (ant_num == 3 && ant_distance >= 50)
++		anttype = 3;
++	else if (ant_num == 2 && ant_distance >= 50 && rfe_type == 1)
++		anttype = 2;
++	else if (ant_num == 3 && ant_distance >= 15 && ant_distance < 50)
++		anttype = 2;
++	else if (ant_num == 2 && ant_distance >= 15 && ant_distance < 50 && rfe_type == 1)
++		anttype = 2;
++	else if ((ant_num == 2 && ant_distance < 15 && rfe_type == 1) || (ant_num == 3 && ant_distance < 15))
++		anttype = 1;
++	else if (ant_num == 2 && rfe_type == 0)
++		anttype = 0;
++	else
++		anttype = 0;
++
++	hal_btcoex_SetAntIsolationType(Adapter, anttype);
++
++	RTW_INFO("%s : ant_num = %d\n" , __func__ , ant_num);
++	RTW_INFO("%s : ant_distance = %d\n" , __func__ , ant_distance);
++	RTW_INFO("%s : rfe_type = %d\n" , __func__ , rfe_type);
++	/* RTW_INFO("<===Hal_ParseAntIsolationConfigFile()\n"); */
++	return rtStatus;
++}
++
++
++int
++hal_btcoex_AntIsolationConfig_ParaFile(
++	IN	PADAPTER	Adapter,
++	IN	char		*pFileName
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	int	rlen = 0 , rtStatus = _FAIL;
++
++	_rtw_memset(pHalData->para_file_buf , 0 , MAX_PARA_FILE_BUF_LEN);
++
++	rtw_get_phy_file_path(Adapter, pFileName);
++	if (rtw_is_file_readable(rtw_phy_para_file_path) == _TRUE) {
++		rlen = rtw_retrieve_from_file(rtw_phy_para_file_path, pHalData->para_file_buf, MAX_PARA_FILE_BUF_LEN);
++		if (rlen > 0)
++			rtStatus = _SUCCESS;
++	}
++
++
++	if (rtStatus == _SUCCESS) {
++		/*RTW_INFO("%s(): read %s ok\n", __func__ , pFileName);*/
++		rtStatus = hal_btcoex_ParseAntIsolationConfigFile(Adapter , pHalData->para_file_buf);
++	} else
++		RTW_INFO("%s(): No File %s, Load from *** Array!\n" , __func__ , pFileName);
++
++	return rtStatus;
++}
++#endif /* CONFIG_LOAD_PHY_PARA_FROM_FILE */
++
++u16 hal_btcoex_btreg_read(PADAPTER padapter, u8 type, u16 addr, u32 *data)
++{
++	u16 ret = 0;
++
++	halbtcoutsrc_LeaveLowPower(&GLBtCoexist);
++
++	ret = halbtcoutsrc_GetBtReg_with_status(&GLBtCoexist, type, addr, data);
++
++	halbtcoutsrc_NormalLowPower(&GLBtCoexist);
++
++	return ret;
++}
++
++u16 hal_btcoex_btreg_write(PADAPTER padapter, u8 type, u16 addr, u16 val)
++{
++	u16 ret = 0;
++
++	halbtcoutsrc_LeaveLowPower(&GLBtCoexist);
++
++	ret = halbtcoutsrc_SetBtReg(&GLBtCoexist, type, addr, val);
++
++	halbtcoutsrc_NormalLowPower(&GLBtCoexist);
++
++	return ret;
++}
++
++void hal_btcoex_set_rfe_type(u8 type)
++{
++	EXhalbtcoutsrc_set_rfe_type(type);
++}
++void hal_btcoex_switchband_notify(u8 under_scan, u8 band_type)
++{
++	switch (band_type) {
++	case BAND_ON_2_4G:
++		if (under_scan)
++			EXhalbtcoutsrc_switchband_notify(&GLBtCoexist, BTC_SWITCH_TO_24G);
++		else
++			EXhalbtcoutsrc_switchband_notify(&GLBtCoexist, BTC_SWITCH_TO_24G_NOFORSCAN);
++		break;
++	case BAND_ON_5G:
++		EXhalbtcoutsrc_switchband_notify(&GLBtCoexist, BTC_SWITCH_TO_5G);
++		break;
++	default:
++		RTW_INFO("[BTCOEX] unkown switch band type\n");
++		break;
++	}
++}
++#endif /* CONFIG_BT_COEXIST */
+diff --git a/drivers/net/wireless/rtl8723du/hal/hal_com.c b/drivers/net/wireless/rtl8723du/hal/hal_com.c
+new file mode 100644
+index 0000000..e1e4f0e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/hal_com.c
+@@ -0,0 +1,10040 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HAL_COM_C_
++
++#include <drv_types.h>
++#include "hal_com_h2c.h"
++
++#include "hal_data.h"
++
++/* #define CONFIG_GTK_OL_DBG */
++
++/*#define DBG_SEC_CAM_MOVE*/
++#ifdef DBG_SEC_CAM_MOVE
++void rtw_hal_move_sta_gk_to_dk(_adapter *adapter)
++{
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	int cam_id, index = 0;
++	u8 *addr = NULL;
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		return;
++
++	addr = get_bssid(pmlmepriv);
++
++	if (addr == NULL) {
++		RTW_INFO("%s: get bssid MAC addr fail!!\n", __func__);
++		return;
++	}
++
++	rtw_clean_dk_section(adapter);
++
++	do {
++		cam_id = rtw_camid_search(adapter, addr, index, 1);
++
++		if (cam_id == -1)
++			RTW_INFO("%s: cam_id: %d, key_id:%d\n", __func__, cam_id, index);
++		else
++			rtw_sec_cam_swap(adapter, cam_id, index);
++
++		index++;
++	} while (index < 4);
++
++}
++
++void rtw_hal_read_sta_dk_key(_adapter *adapter, u8 key_id)
++{
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++	u8 get_key[16];
++
++	_rtw_memset(get_key, 0, sizeof(get_key));
++
++	if (key_id > 4) {
++		RTW_INFO("%s [ERROR] gtk_keyindex:%d invalid\n", __func__, key_id);
++		rtw_warn_on(1);
++		return;
++	}
++	rtw_sec_read_cam_ent(adapter, key_id, NULL, NULL, get_key);
++
++	/*update key into related sw variable*/
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	if (_rtw_camid_is_gk(adapter, key_id)) {
++		RTW_INFO("[HW KEY] -Key-id:%d "KEY_FMT"\n", key_id, KEY_ARG(get_key));
++		RTW_INFO("[cam_cache KEY] - Key-id:%d "KEY_FMT"\n", key_id, KEY_ARG(&dvobj->cam_cache[key_id].key));
++	}
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++
++}
++#endif
++
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	char	rtw_phy_para_file_path[PATH_LENGTH_MAX];
++#endif
++
++void dump_chip_info(HAL_VERSION	ChipVersion)
++{
++	int cnt = 0;
++	u8 buf[128] = {0};
++
++	if (IS_8188E(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8188E_");
++	else if (IS_8188F(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8188F_");
++	else if (IS_8812_SERIES(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8812_");
++	else if (IS_8192E(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8192E_");
++	else if (IS_8821_SERIES(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8821_");
++	else if (IS_8723B_SERIES(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8723B_");
++	else if (IS_8703B_SERIES(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8703B_");
++	else if (IS_8723D_SERIES(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8723D_");
++	else if (IS_8814A_SERIES(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8814A_");
++	else if (IS_8822B_SERIES(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8822B_");
++	else if (IS_8821C_SERIES(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8821C_");
++	else
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_UNKNOWN_");
++
++	cnt += sprintf((buf + cnt), "%s_", IS_NORMAL_CHIP(ChipVersion) ? "Normal_Chip" : "Test_Chip");
++	if (IS_CHIP_VENDOR_TSMC(ChipVersion))
++		cnt += sprintf((buf + cnt), "%s_", "TSMC");
++	else if (IS_CHIP_VENDOR_UMC(ChipVersion))
++		cnt += sprintf((buf + cnt), "%s_", "UMC");
++	else if (IS_CHIP_VENDOR_SMIC(ChipVersion))
++		cnt += sprintf((buf + cnt), "%s_", "SMIC");
++
++	if (IS_A_CUT(ChipVersion))
++		cnt += sprintf((buf + cnt), "A_CUT_");
++	else if (IS_B_CUT(ChipVersion))
++		cnt += sprintf((buf + cnt), "B_CUT_");
++	else if (IS_C_CUT(ChipVersion))
++		cnt += sprintf((buf + cnt), "C_CUT_");
++	else if (IS_D_CUT(ChipVersion))
++		cnt += sprintf((buf + cnt), "D_CUT_");
++	else if (IS_E_CUT(ChipVersion))
++		cnt += sprintf((buf + cnt), "E_CUT_");
++	else if (IS_F_CUT(ChipVersion))
++		cnt += sprintf((buf + cnt), "F_CUT_");
++	else if (IS_I_CUT(ChipVersion))
++		cnt += sprintf((buf + cnt), "I_CUT_");
++	else if (IS_J_CUT(ChipVersion))
++		cnt += sprintf((buf + cnt), "J_CUT_");
++	else if (IS_K_CUT(ChipVersion))
++		cnt += sprintf((buf + cnt), "K_CUT_");
++	else
++		cnt += sprintf((buf + cnt), "UNKNOWN_CUT(%d)_", ChipVersion.CUTVersion);
++
++	if (IS_1T1R(ChipVersion))
++		cnt += sprintf((buf + cnt), "1T1R_");
++	else if (IS_1T2R(ChipVersion))
++		cnt += sprintf((buf + cnt), "1T2R_");
++	else if (IS_2T2R(ChipVersion))
++		cnt += sprintf((buf + cnt), "2T2R_");
++	else if (IS_3T3R(ChipVersion))
++		cnt += sprintf((buf + cnt), "3T3R_");
++	else if (IS_3T4R(ChipVersion))
++		cnt += sprintf((buf + cnt), "3T4R_");
++	else if (IS_4T4R(ChipVersion))
++		cnt += sprintf((buf + cnt), "4T4R_");
++	else
++		cnt += sprintf((buf + cnt), "UNKNOWN_RFTYPE(%d)_", ChipVersion.RFType);
++
++	cnt += sprintf((buf + cnt), "RomVer(%d)\n", ChipVersion.ROMVer);
++
++	RTW_INFO("%s", buf);
++}
++void rtw_hal_config_rftype(PADAPTER  padapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	if (IS_1T1R(pHalData->VersionID)) {
++		pHalData->rf_type = RF_1T1R;
++		pHalData->NumTotalRFPath = 1;
++	} else if (IS_2T2R(pHalData->VersionID)) {
++		pHalData->rf_type = RF_2T2R;
++		pHalData->NumTotalRFPath = 2;
++	} else if (IS_1T2R(pHalData->VersionID)) {
++		pHalData->rf_type = RF_1T2R;
++		pHalData->NumTotalRFPath = 2;
++	} else if (IS_3T3R(pHalData->VersionID)) {
++		pHalData->rf_type = RF_3T3R;
++		pHalData->NumTotalRFPath = 3;
++	} else if (IS_4T4R(pHalData->VersionID)) {
++		pHalData->rf_type = RF_4T4R;
++		pHalData->NumTotalRFPath = 4;
++	} else {
++		pHalData->rf_type = RF_1T1R;
++		pHalData->NumTotalRFPath = 1;
++	}
++
++	RTW_INFO("%s RF_Type is %d TotalTxPath is %d\n", __FUNCTION__, pHalData->rf_type, pHalData->NumTotalRFPath);
++}
++
++#define	EEPROM_CHANNEL_PLAN_BY_HW_MASK	0x80
++
++/*
++ * Description:
++ *	Use hardware(efuse), driver parameter(registry) and default channel plan
++ *	to decide which one should be used.
++ *
++ * Parameters:
++ *	padapter			pointer of adapter
++ *	hw_alpha2		country code from HW (efuse/eeprom/mapfile)
++ *	hw_chplan		channel plan from HW (efuse/eeprom/mapfile)
++ *						BIT[7] software configure mode; 0:Enable, 1:disable
++ *						BIT[6:0] Channel Plan
++ *	sw_alpha2		country code from HW (registry/module param)
++ *	sw_chplan		channel plan from SW (registry/module param)
++ *	def_chplan		channel plan used when HW/SW both invalid
++ *	AutoLoadFail		efuse autoload fail or not
++ *
++ * Return:
++ *	Final channel plan decision
++ *
++ */
++u8 hal_com_config_channel_plan(
++	IN	PADAPTER padapter,
++	IN	char *hw_alpha2,
++	IN	u8 hw_chplan,
++	IN	char *sw_alpha2,
++	IN	u8 sw_chplan,
++	IN	u8 def_chplan,
++	IN	BOOLEAN AutoLoadFail
++)
++{
++	PHAL_DATA_TYPE	pHalData;
++	u8 force_hw_chplan = _FALSE;
++	int chplan = -1;
++	const struct country_chplan *country_ent = NULL, *ent;
++
++	pHalData = GET_HAL_DATA(padapter);
++
++	/* treat 0xFF as invalid value, bypass hw_chplan & force_hw_chplan parsing */
++	if (hw_chplan == 0xFF)
++		goto chk_hw_country_code;
++
++	if (AutoLoadFail == _TRUE)
++		goto chk_sw_config;
++
++#ifndef CONFIG_FORCE_SW_CHANNEL_PLAN
++	if (hw_chplan & EEPROM_CHANNEL_PLAN_BY_HW_MASK)
++		force_hw_chplan = _TRUE;
++#endif
++
++	hw_chplan &= (~EEPROM_CHANNEL_PLAN_BY_HW_MASK);
++
++chk_hw_country_code:
++	if (hw_alpha2 && !IS_ALPHA2_NO_SPECIFIED(hw_alpha2)) {
++		ent = rtw_get_chplan_from_country(hw_alpha2);
++		if (ent) {
++			/* get chplan from hw country code, by pass hw chplan setting */
++			country_ent = ent;
++			chplan = ent->chplan;
++			goto chk_sw_config;
++		} else
++			RTW_PRINT("%s unsupported hw_alpha2:\"%c%c\"\n", __func__, hw_alpha2[0], hw_alpha2[1]);
++	}
++
++	if (rtw_is_channel_plan_valid(hw_chplan))
++		chplan = hw_chplan;
++	else if (force_hw_chplan == _TRUE) {
++		RTW_PRINT("%s unsupported hw_chplan:0x%02X\n", __func__, hw_chplan);
++		/* hw infomaton invalid, refer to sw information */
++		force_hw_chplan = _FALSE;
++	}
++
++chk_sw_config:
++	if (force_hw_chplan == _TRUE)
++		goto done;
++
++	if (sw_alpha2 && !IS_ALPHA2_NO_SPECIFIED(sw_alpha2)) {
++		ent = rtw_get_chplan_from_country(sw_alpha2);
++		if (ent) {
++			/* get chplan from sw country code, by pass sw chplan setting */
++			country_ent = ent;
++			chplan = ent->chplan;
++			goto done;
++		} else
++			RTW_PRINT("%s unsupported sw_alpha2:\"%c%c\"\n", __func__, sw_alpha2[0], sw_alpha2[1]);
++	}
++
++	if (rtw_is_channel_plan_valid(sw_chplan)) {
++		/* cancel hw_alpha2 because chplan is specified by sw_chplan*/
++		country_ent = NULL;
++		chplan = sw_chplan;
++	} else if (sw_chplan != RTW_CHPLAN_MAX)
++		RTW_PRINT("%s unsupported sw_chplan:0x%02X\n", __func__, sw_chplan);
++
++done:
++	if (chplan == -1) {
++		RTW_PRINT("%s use def_chplan:0x%02X\n", __func__, def_chplan);
++		chplan = def_chplan;
++	} else if (country_ent) {
++		RTW_PRINT("%s country code:\"%c%c\" with chplan:0x%02X\n", __func__
++			, country_ent->alpha2[0], country_ent->alpha2[1], country_ent->chplan);
++	} else
++		RTW_PRINT("%s chplan:0x%02X\n", __func__, chplan);
++
++	padapter->mlmepriv.country_ent = country_ent;
++	pHalData->bDisableSWChannelPlan = force_hw_chplan;
++
++	return chplan;
++}
++
++BOOLEAN
++HAL_IsLegalChannel(
++	IN	PADAPTER	Adapter,
++	IN	u32			Channel
++)
++{
++	BOOLEAN bLegalChannel = _TRUE;
++
++	if (Channel > 14) {
++		if (IsSupported5G(Adapter->registrypriv.wireless_mode) == _FALSE) {
++			bLegalChannel = _FALSE;
++			RTW_INFO("Channel > 14 but wireless_mode do not support 5G\n");
++		}
++	} else if ((Channel <= 14) && (Channel >= 1)) {
++		if (IsSupported24G(Adapter->registrypriv.wireless_mode) == _FALSE) {
++			bLegalChannel = _FALSE;
++			RTW_INFO("(Channel <= 14) && (Channel >=1) but wireless_mode do not support 2.4G\n");
++		}
++	} else {
++		bLegalChannel = _FALSE;
++		RTW_INFO("Channel is Invalid !!!\n");
++	}
++
++	return bLegalChannel;
++}
++
++u8	MRateToHwRate(u8 rate)
++{
++	u8	ret = DESC_RATE1M;
++
++	switch (rate) {
++	case MGN_1M:
++		ret = DESC_RATE1M;
++		break;
++	case MGN_2M:
++		ret = DESC_RATE2M;
++		break;
++	case MGN_5_5M:
++		ret = DESC_RATE5_5M;
++		break;
++	case MGN_11M:
++		ret = DESC_RATE11M;
++		break;
++	case MGN_6M:
++		ret = DESC_RATE6M;
++		break;
++	case MGN_9M:
++		ret = DESC_RATE9M;
++		break;
++	case MGN_12M:
++		ret = DESC_RATE12M;
++		break;
++	case MGN_18M:
++		ret = DESC_RATE18M;
++		break;
++	case MGN_24M:
++		ret = DESC_RATE24M;
++		break;
++	case MGN_36M:
++		ret = DESC_RATE36M;
++		break;
++	case MGN_48M:
++		ret = DESC_RATE48M;
++		break;
++	case MGN_54M:
++		ret = DESC_RATE54M;
++		break;
++
++	case MGN_MCS0:
++		ret = DESC_RATEMCS0;
++		break;
++	case MGN_MCS1:
++		ret = DESC_RATEMCS1;
++		break;
++	case MGN_MCS2:
++		ret = DESC_RATEMCS2;
++		break;
++	case MGN_MCS3:
++		ret = DESC_RATEMCS3;
++		break;
++	case MGN_MCS4:
++		ret = DESC_RATEMCS4;
++		break;
++	case MGN_MCS5:
++		ret = DESC_RATEMCS5;
++		break;
++	case MGN_MCS6:
++		ret = DESC_RATEMCS6;
++		break;
++	case MGN_MCS7:
++		ret = DESC_RATEMCS7;
++		break;
++	case MGN_MCS8:
++		ret = DESC_RATEMCS8;
++		break;
++	case MGN_MCS9:
++		ret = DESC_RATEMCS9;
++		break;
++	case MGN_MCS10:
++		ret = DESC_RATEMCS10;
++		break;
++	case MGN_MCS11:
++		ret = DESC_RATEMCS11;
++		break;
++	case MGN_MCS12:
++		ret = DESC_RATEMCS12;
++		break;
++	case MGN_MCS13:
++		ret = DESC_RATEMCS13;
++		break;
++	case MGN_MCS14:
++		ret = DESC_RATEMCS14;
++		break;
++	case MGN_MCS15:
++		ret = DESC_RATEMCS15;
++		break;
++	case MGN_MCS16:
++		ret = DESC_RATEMCS16;
++		break;
++	case MGN_MCS17:
++		ret = DESC_RATEMCS17;
++		break;
++	case MGN_MCS18:
++		ret = DESC_RATEMCS18;
++		break;
++	case MGN_MCS19:
++		ret = DESC_RATEMCS19;
++		break;
++	case MGN_MCS20:
++		ret = DESC_RATEMCS20;
++		break;
++	case MGN_MCS21:
++		ret = DESC_RATEMCS21;
++		break;
++	case MGN_MCS22:
++		ret = DESC_RATEMCS22;
++		break;
++	case MGN_MCS23:
++		ret = DESC_RATEMCS23;
++		break;
++	case MGN_MCS24:
++		ret = DESC_RATEMCS24;
++		break;
++	case MGN_MCS25:
++		ret = DESC_RATEMCS25;
++		break;
++	case MGN_MCS26:
++		ret = DESC_RATEMCS26;
++		break;
++	case MGN_MCS27:
++		ret = DESC_RATEMCS27;
++		break;
++	case MGN_MCS28:
++		ret = DESC_RATEMCS28;
++		break;
++	case MGN_MCS29:
++		ret = DESC_RATEMCS29;
++		break;
++	case MGN_MCS30:
++		ret = DESC_RATEMCS30;
++		break;
++	case MGN_MCS31:
++		ret = DESC_RATEMCS31;
++		break;
++
++	case MGN_VHT1SS_MCS0:
++		ret = DESC_RATEVHTSS1MCS0;
++		break;
++	case MGN_VHT1SS_MCS1:
++		ret = DESC_RATEVHTSS1MCS1;
++		break;
++	case MGN_VHT1SS_MCS2:
++		ret = DESC_RATEVHTSS1MCS2;
++		break;
++	case MGN_VHT1SS_MCS3:
++		ret = DESC_RATEVHTSS1MCS3;
++		break;
++	case MGN_VHT1SS_MCS4:
++		ret = DESC_RATEVHTSS1MCS4;
++		break;
++	case MGN_VHT1SS_MCS5:
++		ret = DESC_RATEVHTSS1MCS5;
++		break;
++	case MGN_VHT1SS_MCS6:
++		ret = DESC_RATEVHTSS1MCS6;
++		break;
++	case MGN_VHT1SS_MCS7:
++		ret = DESC_RATEVHTSS1MCS7;
++		break;
++	case MGN_VHT1SS_MCS8:
++		ret = DESC_RATEVHTSS1MCS8;
++		break;
++	case MGN_VHT1SS_MCS9:
++		ret = DESC_RATEVHTSS1MCS9;
++		break;
++	case MGN_VHT2SS_MCS0:
++		ret = DESC_RATEVHTSS2MCS0;
++		break;
++	case MGN_VHT2SS_MCS1:
++		ret = DESC_RATEVHTSS2MCS1;
++		break;
++	case MGN_VHT2SS_MCS2:
++		ret = DESC_RATEVHTSS2MCS2;
++		break;
++	case MGN_VHT2SS_MCS3:
++		ret = DESC_RATEVHTSS2MCS3;
++		break;
++	case MGN_VHT2SS_MCS4:
++		ret = DESC_RATEVHTSS2MCS4;
++		break;
++	case MGN_VHT2SS_MCS5:
++		ret = DESC_RATEVHTSS2MCS5;
++		break;
++	case MGN_VHT2SS_MCS6:
++		ret = DESC_RATEVHTSS2MCS6;
++		break;
++	case MGN_VHT2SS_MCS7:
++		ret = DESC_RATEVHTSS2MCS7;
++		break;
++	case MGN_VHT2SS_MCS8:
++		ret = DESC_RATEVHTSS2MCS8;
++		break;
++	case MGN_VHT2SS_MCS9:
++		ret = DESC_RATEVHTSS2MCS9;
++		break;
++	case MGN_VHT3SS_MCS0:
++		ret = DESC_RATEVHTSS3MCS0;
++		break;
++	case MGN_VHT3SS_MCS1:
++		ret = DESC_RATEVHTSS3MCS1;
++		break;
++	case MGN_VHT3SS_MCS2:
++		ret = DESC_RATEVHTSS3MCS2;
++		break;
++	case MGN_VHT3SS_MCS3:
++		ret = DESC_RATEVHTSS3MCS3;
++		break;
++	case MGN_VHT3SS_MCS4:
++		ret = DESC_RATEVHTSS3MCS4;
++		break;
++	case MGN_VHT3SS_MCS5:
++		ret = DESC_RATEVHTSS3MCS5;
++		break;
++	case MGN_VHT3SS_MCS6:
++		ret = DESC_RATEVHTSS3MCS6;
++		break;
++	case MGN_VHT3SS_MCS7:
++		ret = DESC_RATEVHTSS3MCS7;
++		break;
++	case MGN_VHT3SS_MCS8:
++		ret = DESC_RATEVHTSS3MCS8;
++		break;
++	case MGN_VHT3SS_MCS9:
++		ret = DESC_RATEVHTSS3MCS9;
++		break;
++	case MGN_VHT4SS_MCS0:
++		ret = DESC_RATEVHTSS4MCS0;
++		break;
++	case MGN_VHT4SS_MCS1:
++		ret = DESC_RATEVHTSS4MCS1;
++		break;
++	case MGN_VHT4SS_MCS2:
++		ret = DESC_RATEVHTSS4MCS2;
++		break;
++	case MGN_VHT4SS_MCS3:
++		ret = DESC_RATEVHTSS4MCS3;
++		break;
++	case MGN_VHT4SS_MCS4:
++		ret = DESC_RATEVHTSS4MCS4;
++		break;
++	case MGN_VHT4SS_MCS5:
++		ret = DESC_RATEVHTSS4MCS5;
++		break;
++	case MGN_VHT4SS_MCS6:
++		ret = DESC_RATEVHTSS4MCS6;
++		break;
++	case MGN_VHT4SS_MCS7:
++		ret = DESC_RATEVHTSS4MCS7;
++		break;
++	case MGN_VHT4SS_MCS8:
++		ret = DESC_RATEVHTSS4MCS8;
++		break;
++	case MGN_VHT4SS_MCS9:
++		ret = DESC_RATEVHTSS4MCS9;
++		break;
++	default:
++		break;
++	}
++
++	return ret;
++}
++
++u8	HwRateToMRate(u8 rate)
++{
++	u8	ret_rate = MGN_1M;
++
++	switch (rate) {
++
++	case DESC_RATE1M:
++		ret_rate = MGN_1M;
++		break;
++	case DESC_RATE2M:
++		ret_rate = MGN_2M;
++		break;
++	case DESC_RATE5_5M:
++		ret_rate = MGN_5_5M;
++		break;
++	case DESC_RATE11M:
++		ret_rate = MGN_11M;
++		break;
++	case DESC_RATE6M:
++		ret_rate = MGN_6M;
++		break;
++	case DESC_RATE9M:
++		ret_rate = MGN_9M;
++		break;
++	case DESC_RATE12M:
++		ret_rate = MGN_12M;
++		break;
++	case DESC_RATE18M:
++		ret_rate = MGN_18M;
++		break;
++	case DESC_RATE24M:
++		ret_rate = MGN_24M;
++		break;
++	case DESC_RATE36M:
++		ret_rate = MGN_36M;
++		break;
++	case DESC_RATE48M:
++		ret_rate = MGN_48M;
++		break;
++	case DESC_RATE54M:
++		ret_rate = MGN_54M;
++		break;
++	case DESC_RATEMCS0:
++		ret_rate = MGN_MCS0;
++		break;
++	case DESC_RATEMCS1:
++		ret_rate = MGN_MCS1;
++		break;
++	case DESC_RATEMCS2:
++		ret_rate = MGN_MCS2;
++		break;
++	case DESC_RATEMCS3:
++		ret_rate = MGN_MCS3;
++		break;
++	case DESC_RATEMCS4:
++		ret_rate = MGN_MCS4;
++		break;
++	case DESC_RATEMCS5:
++		ret_rate = MGN_MCS5;
++		break;
++	case DESC_RATEMCS6:
++		ret_rate = MGN_MCS6;
++		break;
++	case DESC_RATEMCS7:
++		ret_rate = MGN_MCS7;
++		break;
++	case DESC_RATEMCS8:
++		ret_rate = MGN_MCS8;
++		break;
++	case DESC_RATEMCS9:
++		ret_rate = MGN_MCS9;
++		break;
++	case DESC_RATEMCS10:
++		ret_rate = MGN_MCS10;
++		break;
++	case DESC_RATEMCS11:
++		ret_rate = MGN_MCS11;
++		break;
++	case DESC_RATEMCS12:
++		ret_rate = MGN_MCS12;
++		break;
++	case DESC_RATEMCS13:
++		ret_rate = MGN_MCS13;
++		break;
++	case DESC_RATEMCS14:
++		ret_rate = MGN_MCS14;
++		break;
++	case DESC_RATEMCS15:
++		ret_rate = MGN_MCS15;
++		break;
++	case DESC_RATEMCS16:
++		ret_rate = MGN_MCS16;
++		break;
++	case DESC_RATEMCS17:
++		ret_rate = MGN_MCS17;
++		break;
++	case DESC_RATEMCS18:
++		ret_rate = MGN_MCS18;
++		break;
++	case DESC_RATEMCS19:
++		ret_rate = MGN_MCS19;
++		break;
++	case DESC_RATEMCS20:
++		ret_rate = MGN_MCS20;
++		break;
++	case DESC_RATEMCS21:
++		ret_rate = MGN_MCS21;
++		break;
++	case DESC_RATEMCS22:
++		ret_rate = MGN_MCS22;
++		break;
++	case DESC_RATEMCS23:
++		ret_rate = MGN_MCS23;
++		break;
++	case DESC_RATEMCS24:
++		ret_rate = MGN_MCS24;
++		break;
++	case DESC_RATEMCS25:
++		ret_rate = MGN_MCS25;
++		break;
++	case DESC_RATEMCS26:
++		ret_rate = MGN_MCS26;
++		break;
++	case DESC_RATEMCS27:
++		ret_rate = MGN_MCS27;
++		break;
++	case DESC_RATEMCS28:
++		ret_rate = MGN_MCS28;
++		break;
++	case DESC_RATEMCS29:
++		ret_rate = MGN_MCS29;
++		break;
++	case DESC_RATEMCS30:
++		ret_rate = MGN_MCS30;
++		break;
++	case DESC_RATEMCS31:
++		ret_rate = MGN_MCS31;
++		break;
++	case DESC_RATEVHTSS1MCS0:
++		ret_rate = MGN_VHT1SS_MCS0;
++		break;
++	case DESC_RATEVHTSS1MCS1:
++		ret_rate = MGN_VHT1SS_MCS1;
++		break;
++	case DESC_RATEVHTSS1MCS2:
++		ret_rate = MGN_VHT1SS_MCS2;
++		break;
++	case DESC_RATEVHTSS1MCS3:
++		ret_rate = MGN_VHT1SS_MCS3;
++		break;
++	case DESC_RATEVHTSS1MCS4:
++		ret_rate = MGN_VHT1SS_MCS4;
++		break;
++	case DESC_RATEVHTSS1MCS5:
++		ret_rate = MGN_VHT1SS_MCS5;
++		break;
++	case DESC_RATEVHTSS1MCS6:
++		ret_rate = MGN_VHT1SS_MCS6;
++		break;
++	case DESC_RATEVHTSS1MCS7:
++		ret_rate = MGN_VHT1SS_MCS7;
++		break;
++	case DESC_RATEVHTSS1MCS8:
++		ret_rate = MGN_VHT1SS_MCS8;
++		break;
++	case DESC_RATEVHTSS1MCS9:
++		ret_rate = MGN_VHT1SS_MCS9;
++		break;
++	case DESC_RATEVHTSS2MCS0:
++		ret_rate = MGN_VHT2SS_MCS0;
++		break;
++	case DESC_RATEVHTSS2MCS1:
++		ret_rate = MGN_VHT2SS_MCS1;
++		break;
++	case DESC_RATEVHTSS2MCS2:
++		ret_rate = MGN_VHT2SS_MCS2;
++		break;
++	case DESC_RATEVHTSS2MCS3:
++		ret_rate = MGN_VHT2SS_MCS3;
++		break;
++	case DESC_RATEVHTSS2MCS4:
++		ret_rate = MGN_VHT2SS_MCS4;
++		break;
++	case DESC_RATEVHTSS2MCS5:
++		ret_rate = MGN_VHT2SS_MCS5;
++		break;
++	case DESC_RATEVHTSS2MCS6:
++		ret_rate = MGN_VHT2SS_MCS6;
++		break;
++	case DESC_RATEVHTSS2MCS7:
++		ret_rate = MGN_VHT2SS_MCS7;
++		break;
++	case DESC_RATEVHTSS2MCS8:
++		ret_rate = MGN_VHT2SS_MCS8;
++		break;
++	case DESC_RATEVHTSS2MCS9:
++		ret_rate = MGN_VHT2SS_MCS9;
++		break;
++	case DESC_RATEVHTSS3MCS0:
++		ret_rate = MGN_VHT3SS_MCS0;
++		break;
++	case DESC_RATEVHTSS3MCS1:
++		ret_rate = MGN_VHT3SS_MCS1;
++		break;
++	case DESC_RATEVHTSS3MCS2:
++		ret_rate = MGN_VHT3SS_MCS2;
++		break;
++	case DESC_RATEVHTSS3MCS3:
++		ret_rate = MGN_VHT3SS_MCS3;
++		break;
++	case DESC_RATEVHTSS3MCS4:
++		ret_rate = MGN_VHT3SS_MCS4;
++		break;
++	case DESC_RATEVHTSS3MCS5:
++		ret_rate = MGN_VHT3SS_MCS5;
++		break;
++	case DESC_RATEVHTSS3MCS6:
++		ret_rate = MGN_VHT3SS_MCS6;
++		break;
++	case DESC_RATEVHTSS3MCS7:
++		ret_rate = MGN_VHT3SS_MCS7;
++		break;
++	case DESC_RATEVHTSS3MCS8:
++		ret_rate = MGN_VHT3SS_MCS8;
++		break;
++	case DESC_RATEVHTSS3MCS9:
++		ret_rate = MGN_VHT3SS_MCS9;
++		break;
++	case DESC_RATEVHTSS4MCS0:
++		ret_rate = MGN_VHT4SS_MCS0;
++		break;
++	case DESC_RATEVHTSS4MCS1:
++		ret_rate = MGN_VHT4SS_MCS1;
++		break;
++	case DESC_RATEVHTSS4MCS2:
++		ret_rate = MGN_VHT4SS_MCS2;
++		break;
++	case DESC_RATEVHTSS4MCS3:
++		ret_rate = MGN_VHT4SS_MCS3;
++		break;
++	case DESC_RATEVHTSS4MCS4:
++		ret_rate = MGN_VHT4SS_MCS4;
++		break;
++	case DESC_RATEVHTSS4MCS5:
++		ret_rate = MGN_VHT4SS_MCS5;
++		break;
++	case DESC_RATEVHTSS4MCS6:
++		ret_rate = MGN_VHT4SS_MCS6;
++		break;
++	case DESC_RATEVHTSS4MCS7:
++		ret_rate = MGN_VHT4SS_MCS7;
++		break;
++	case DESC_RATEVHTSS4MCS8:
++		ret_rate = MGN_VHT4SS_MCS8;
++		break;
++	case DESC_RATEVHTSS4MCS9:
++		ret_rate = MGN_VHT4SS_MCS9;
++		break;
++
++	default:
++		RTW_INFO("HwRateToMRate(): Non supported Rate [%x]!!!\n", rate);
++		break;
++	}
++
++	return ret_rate;
++}
++
++void	HalSetBrateCfg(
++	IN PADAPTER		Adapter,
++	IN u8			*mBratesOS,
++	OUT u16			*pBrateCfg)
++{
++	u8	i, is_brate, brate;
++
++	for (i = 0; i < NDIS_802_11_LENGTH_RATES_EX; i++) {
++		is_brate = mBratesOS[i] & IEEE80211_BASIC_RATE_MASK;
++		brate = mBratesOS[i] & 0x7f;
++
++		if (is_brate) {
++			switch (brate) {
++			case IEEE80211_CCK_RATE_1MB:
++				*pBrateCfg |= RATE_1M;
++				break;
++			case IEEE80211_CCK_RATE_2MB:
++				*pBrateCfg |= RATE_2M;
++				break;
++			case IEEE80211_CCK_RATE_5MB:
++				*pBrateCfg |= RATE_5_5M;
++				break;
++			case IEEE80211_CCK_RATE_11MB:
++				*pBrateCfg |= RATE_11M;
++				break;
++			case IEEE80211_OFDM_RATE_6MB:
++				*pBrateCfg |= RATE_6M;
++				break;
++			case IEEE80211_OFDM_RATE_9MB:
++				*pBrateCfg |= RATE_9M;
++				break;
++			case IEEE80211_OFDM_RATE_12MB:
++				*pBrateCfg |= RATE_12M;
++				break;
++			case IEEE80211_OFDM_RATE_18MB:
++				*pBrateCfg |= RATE_18M;
++				break;
++			case IEEE80211_OFDM_RATE_24MB:
++				*pBrateCfg |= RATE_24M;
++				break;
++			case IEEE80211_OFDM_RATE_36MB:
++				*pBrateCfg |= RATE_36M;
++				break;
++			case IEEE80211_OFDM_RATE_48MB:
++				*pBrateCfg |= RATE_48M;
++				break;
++			case IEEE80211_OFDM_RATE_54MB:
++				*pBrateCfg |= RATE_54M;
++				break;
++			}
++		}
++	}
++}
++
++static VOID
++_OneOutPipeMapping(
++	IN	PADAPTER	pAdapter
++)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(pAdapter);
++
++	pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];/* VO */
++	pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[0];/* VI */
++	pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[0];/* BE */
++	pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[0];/* BK */
++
++	pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];/* BCN */
++	pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];/* MGT */
++	pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];/* HIGH */
++	pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];/* TXCMD */
++}
++
++static VOID
++_TwoOutPipeMapping(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bWIFICfg
++)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(pAdapter);
++
++	if (bWIFICfg) { /* WMM */
++
++		/*	BK, 	BE, 	VI, 	VO, 	BCN,	CMD,MGT,HIGH,HCCA  */
++		/* {  0, 	1, 	0, 	1, 	0, 	0, 	0, 	0, 		0	}; */
++		/* 0:ep_0 num, 1:ep_1 num */
++
++		pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[1];/* VO */
++		pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[0];/* VI */
++		pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[1];/* BE */
++		pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[0];/* BK */
++
++		pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];/* BCN */
++		pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];/* MGT */
++		pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];/* HIGH */
++		pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];/* TXCMD */
++
++	} else { /* typical setting */
++
++
++		/* BK, 	BE, 	VI, 	VO, 	BCN,	CMD,MGT,HIGH,HCCA */
++		/* {  1, 	1, 	0, 	0, 	0, 	0, 	0, 	0, 		0	};			 */
++		/* 0:ep_0 num, 1:ep_1 num */
++
++		pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];/* VO */
++		pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[0];/* VI */
++		pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[1];/* BE */
++		pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[1];/* BK */
++
++		pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];/* BCN */
++		pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];/* MGT */
++		pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];/* HIGH */
++		pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];/* TXCMD	 */
++
++	}
++
++}
++
++static VOID _ThreeOutPipeMapping(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bWIFICfg
++)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(pAdapter);
++
++	if (bWIFICfg) { /* for WMM */
++
++		/*	BK, 	BE, 	VI, 	VO, 	BCN,	CMD,MGT,HIGH,HCCA  */
++		/* {  1, 	2, 	1, 	0, 	0, 	0, 	0, 	0, 		0	}; */
++		/* 0:H, 1:N, 2:L */
++
++		pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];/* VO */
++		pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[1];/* VI */
++		pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[2];/* BE */
++		pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[1];/* BK */
++
++		pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];/* BCN */
++		pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];/* MGT */
++		pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];/* HIGH */
++		pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];/* TXCMD */
++
++	} else { /* typical setting */
++
++
++		/*	BK, 	BE, 	VI, 	VO, 	BCN,	CMD,MGT,HIGH,HCCA  */
++		/* {  2, 	2, 	1, 	0, 	0, 	0, 	0, 	0, 		0	};			 */
++		/* 0:H, 1:N, 2:L */
++
++		pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];/* VO */
++		pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[1];/* VI */
++		pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[2];/* BE */
++		pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[2];/* BK */
++
++		pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];/* BCN */
++		pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];/* MGT */
++		pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];/* HIGH */
++		pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];/* TXCMD	 */
++	}
++
++}
++static VOID _FourOutPipeMapping(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bWIFICfg
++)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(pAdapter);
++
++	if (bWIFICfg) { /* for WMM */
++
++		/*	BK, 	BE, 	VI, 	VO, 	BCN,	CMD,MGT,HIGH,HCCA  */
++		/* {  1, 	2, 	1, 	0, 	0, 	0, 	0, 	0, 		0	}; */
++		/* 0:H, 1:N, 2:L ,3:E */
++
++		pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];/* VO */
++		pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[1];/* VI */
++		pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[2];/* BE */
++		pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[1];/* BK */
++
++		pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];/* BCN */
++		pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];/* MGT */
++		pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[3];/* HIGH */
++		pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];/* TXCMD */
++
++	} else { /* typical setting */
++
++
++		/*	BK, 	BE, 	VI, 	VO, 	BCN,	CMD,MGT,HIGH,HCCA  */
++		/* {  2, 	2, 	1, 	0, 	0, 	0, 	0, 	0, 		0	};			 */
++		/* 0:H, 1:N, 2:L */
++
++		pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];/* VO */
++		pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[1];/* VI */
++		pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[2];/* BE */
++		pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[2];/* BK */
++
++		pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];/* BCN */
++		pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];/* MGT */
++		pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[3];/* HIGH */
++		pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];/* TXCMD	 */
++	}
++
++}
++BOOLEAN
++Hal_MappingOutPipe(
++	IN	PADAPTER	pAdapter,
++	IN	u8		NumOutPipe
++)
++{
++	struct registry_priv *pregistrypriv = &pAdapter->registrypriv;
++
++	BOOLEAN	 bWIFICfg = (pregistrypriv->wifi_spec) ? _TRUE : _FALSE;
++
++	BOOLEAN result = _TRUE;
++
++	switch (NumOutPipe) {
++	case 2:
++		_TwoOutPipeMapping(pAdapter, bWIFICfg);
++		break;
++	case 3:
++	case 4:
++		_ThreeOutPipeMapping(pAdapter, bWIFICfg);
++		break;
++	case 1:
++		_OneOutPipeMapping(pAdapter);
++		break;
++	default:
++		result = _FALSE;
++		break;
++	}
++
++	return result;
++
++}
++
++void rtw_hal_dump_macaddr(void *sel, _adapter *adapter)
++{
++	int i;
++	_adapter *iface;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	u8 mac_addr[ETH_ALEN];
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++	rtw_mbid_cam_dump(sel, __func__, adapter);
++#else
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface) {
++			rtw_hal_get_macaddr_port(iface, mac_addr);
++			RTW_PRINT_SEL(sel, ADPT_FMT"- hw port(%d) mac_addr ="MAC_FMT"\n",
++				ADPT_ARG(iface), iface->hw_port, MAC_ARG(mac_addr));
++		}
++	}
++#endif
++}
++
++void rtw_restore_mac_addr(_adapter *adapter)
++{
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++	_adapter *iface;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++
++	rtw_mbid_cam_restore(adapter);
++#else
++	int i;
++	_adapter *iface;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface)
++			rtw_hal_set_macaddr_port(iface, adapter_mac_addr(iface));
++	}
++#endif
++	if (1)
++		rtw_hal_dump_macaddr(RTW_DBGDUMP, adapter);
++}
++
++void rtw_init_hal_com_default_value(PADAPTER Adapter)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	struct registry_priv *regsty = adapter_to_regsty(Adapter);
++
++	pHalData->AntDetection = 1;
++	pHalData->u1ForcedIgiLb = regsty->force_igi_lb;
++}
++
++#ifdef CONFIG_FW_C2H_REG
++void c2h_evt_clear(_adapter *adapter)
++{
++	rtw_write8(adapter, REG_C2HEVT_CLEAR, C2H_EVT_HOST_CLOSE);
++}
++
++s32 c2h_evt_read_88xx(_adapter *adapter, u8 *buf)
++{
++	s32 ret = _FAIL;
++	int i;
++	u8 trigger;
++
++	if (buf == NULL)
++		goto exit;
++
++	trigger = rtw_read8(adapter, REG_C2HEVT_CLEAR);
++
++	if (trigger == C2H_EVT_HOST_CLOSE) {
++		goto exit; /* Not ready */
++	} else if (trigger != C2H_EVT_FW_CLOSE) {
++		goto clear_evt; /* Not a valid value */
++	}
++
++	_rtw_memset(buf, 0, C2H_REG_LEN);
++
++	/* Read ID, LEN, SEQ */
++	SET_C2H_ID_88XX(buf, rtw_read8(adapter, REG_C2HEVT_MSG_NORMAL));
++	SET_C2H_SEQ_88XX(buf, rtw_read8(adapter, REG_C2HEVT_CMD_SEQ_88XX));
++	SET_C2H_PLEN_88XX(buf, rtw_read8(adapter, REG_C2HEVT_CMD_LEN_88XX));
++
++	if (0) {
++		RTW_INFO("%s id=0x%02x, seq=%u, plen=%u, trigger=0x%02x\n", __func__
++			, C2H_ID_88XX(buf), C2H_SEQ_88XX(buf), C2H_PLEN_88XX(buf), trigger);
++	}
++
++	/* Read the content */
++	for (i = 0; i < C2H_PLEN_88XX(buf); i++)
++		*(C2H_PAYLOAD_88XX(buf) + i) = rtw_read8(adapter, REG_C2HEVT_MSG_NORMAL + 2 + i);
++
++	RTW_DBG_DUMP("payload:\n", C2H_PAYLOAD_88XX(buf), C2H_PLEN_88XX(buf));
++
++	ret = _SUCCESS;
++
++clear_evt:
++	/*
++	* Clear event to notify FW we have read the command.
++	* If this field isn't clear, the FW won't update the next command message.
++	*/
++	c2h_evt_clear(adapter);
++
++exit:
++	return ret;
++}
++#endif /* CONFIG_FW_C2H_REG */
++
++#ifdef CONFIG_FW_C2H_PKT
++#ifndef DBG_C2H_PKT_PRE_HDL
++#define DBG_C2H_PKT_PRE_HDL 0
++#endif
++#ifndef DBG_C2H_PKT_HDL
++#define DBG_C2H_PKT_HDL 0
++#endif
++void rtw_hal_c2h_pkt_pre_hdl(_adapter *adapter, u8 *buf, u16 len)
++{
++#ifdef RTW_HALMAC
++	/* TODO: extract hal_mac IC's code here*/
++#else
++	u8 parse_fail = 0;
++	u8 hdl_here = 0;
++	s32 ret = _FAIL;
++	u8 id, seq, plen;
++	u8 *payload;
++
++	if (rtw_hal_c2h_pkt_hdr_parse(adapter, buf, len, &id, &seq, &plen, &payload) != _SUCCESS) {
++		parse_fail = 1;
++		goto exit;
++	}
++
++	hdl_here = rtw_hal_c2h_id_handle_directly(adapter, id, seq, plen, payload) == _TRUE ? 1 : 0;
++	if (hdl_here) 
++		ret = rtw_hal_c2h_handler(adapter, id, seq, plen, payload);
++	else
++		ret = rtw_c2h_packet_wk_cmd(adapter, buf, len);
++
++exit:
++	if (parse_fail)
++		RTW_ERR("%s parse fail, buf=%p, len=:%u\n", __func__, buf, len);
++	else if (ret != _SUCCESS || DBG_C2H_PKT_PRE_HDL > 0) {
++		RTW_PRINT("%s: id=0x%02x, seq=%u, plen=%u, %s %s\n", __func__, id, seq, plen
++			, hdl_here ? "handle" : "enqueue"
++			, ret == _SUCCESS ? "ok" : "fail"
++		);
++		if (DBG_C2H_PKT_PRE_HDL >= 2)
++			RTW_PRINT_DUMP("dump: ", buf, len);
++	}
++#endif
++}
++
++void rtw_hal_c2h_pkt_hdl(_adapter *adapter, u8 *buf, u16 len)
++{
++#ifdef RTW_HALMAC
++	adapter->HalFunc.hal_mac_c2h_handler(adapter, buf, len);
++#else
++	u8 parse_fail = 0;
++	u8 bypass = 0;
++	s32 ret = _FAIL;
++	u8 id, seq, plen;
++	u8 *payload;
++
++	if (rtw_hal_c2h_pkt_hdr_parse(adapter, buf, len, &id, &seq, &plen, &payload) != _SUCCESS) {
++		parse_fail = 1;
++		goto exit;
++	}
++
++#ifdef CONFIG_WOWLAN
++	if (adapter_to_pwrctl(adapter)->wowlan_mode == _TRUE) {
++		bypass = 1;
++		ret = _SUCCESS;
++		goto exit;
++	}
++#endif
++
++	ret = rtw_hal_c2h_handler(adapter, id, seq, plen, payload);
++
++exit:
++	if (parse_fail)
++		RTW_ERR("%s parse fail, buf=%p, len=:%u\n", __func__, buf, len);
++	else if (ret != _SUCCESS || bypass || DBG_C2H_PKT_HDL > 0) {
++		RTW_PRINT("%s: id=0x%02x, seq=%u, plen=%u, %s %s\n", __func__, id, seq, plen
++			, !bypass ? "handle" : "bypass"
++			, ret == _SUCCESS ? "ok" : "fail"
++		);
++		if (DBG_C2H_PKT_HDL >= 2)
++			RTW_PRINT_DUMP("dump: ", buf, len);
++	}
++#endif
++}
++#endif /* CONFIG_FW_C2H_PKT */
++
++void c2h_iqk_offload(_adapter *adapter, u8 *data, u8 len)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct submit_ctx *iqk_sctx = &hal_data->iqk_sctx;
++
++	RTW_INFO("IQK offload finish in %dms\n", rtw_get_passing_time_ms(iqk_sctx->submit_time));
++	if (0)
++		RTW_INFO_DUMP("C2H_IQK_FINISH: ", data, len);
++
++	rtw_sctx_done(&iqk_sctx);
++}
++
++int c2h_iqk_offload_wait(_adapter *adapter, u32 timeout_ms)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct submit_ctx *iqk_sctx = &hal_data->iqk_sctx;
++
++	iqk_sctx->submit_time = rtw_get_current_time();
++	iqk_sctx->timeout_ms = timeout_ms;
++	iqk_sctx->status = RTW_SCTX_SUBMITTED;
++
++	return rtw_sctx_wait(iqk_sctx, __func__);
++}
++
++#define	GET_C2H_MAC_HIDDEN_RPT_UUID_X(_data)			LE_BITS_TO_1BYTE(((u8 *)(_data)) + 0, 0, 8)
++#define	GET_C2H_MAC_HIDDEN_RPT_UUID_Y(_data)			LE_BITS_TO_1BYTE(((u8 *)(_data)) + 1, 0, 8)
++#define	GET_C2H_MAC_HIDDEN_RPT_UUID_Z(_data)			LE_BITS_TO_1BYTE(((u8 *)(_data)) + 2, 0, 5)
++#define	GET_C2H_MAC_HIDDEN_RPT_UUID_CRC(_data)			LE_BITS_TO_2BYTE(((u8 *)(_data)) + 2, 5, 11)
++#define	GET_C2H_MAC_HIDDEN_RPT_HCI_TYPE(_data)			LE_BITS_TO_1BYTE(((u8 *)(_data)) + 4, 0, 4)
++#define	GET_C2H_MAC_HIDDEN_RPT_PACKAGE_TYPE(_data)		LE_BITS_TO_1BYTE(((u8 *)(_data)) + 4, 4, 3)
++#define	GET_C2H_MAC_HIDDEN_RPT_TR_SWITCH(_data)			LE_BITS_TO_1BYTE(((u8 *)(_data)) + 4, 7, 1)
++#define	GET_C2H_MAC_HIDDEN_RPT_WL_FUNC(_data)			LE_BITS_TO_1BYTE(((u8 *)(_data)) + 5, 0, 4)
++#define	GET_C2H_MAC_HIDDEN_RPT_HW_STYPE(_data)			LE_BITS_TO_1BYTE(((u8 *)(_data)) + 5, 4, 4)
++#define	GET_C2H_MAC_HIDDEN_RPT_BW(_data)				LE_BITS_TO_1BYTE(((u8 *)(_data)) + 6, 0, 3)
++#define	GET_C2H_MAC_HIDDEN_RPT_FAB(_data)				LE_BITS_TO_1BYTE(((u8 *)(_data)) + 6, 3, 2)
++#define	GET_C2H_MAC_HIDDEN_RPT_ANT_NUM(_data)			LE_BITS_TO_1BYTE(((u8 *)(_data)) + 6, 5, 3)
++#define	GET_C2H_MAC_HIDDEN_RPT_80211_PROTOCOL(_data)	LE_BITS_TO_1BYTE(((u8 *)(_data)) + 7, 2, 2)
++#define	GET_C2H_MAC_HIDDEN_RPT_NIC_ROUTER(_data)		LE_BITS_TO_1BYTE(((u8 *)(_data)) + 7, 6, 2)
++
++#ifndef DBG_C2H_MAC_HIDDEN_RPT_HANDLE
++#define DBG_C2H_MAC_HIDDEN_RPT_HANDLE 0
++#endif
++
++int c2h_mac_hidden_rpt_hdl(_adapter *adapter, u8 *data, u8 len)
++{
++	HAL_DATA_TYPE	*hal_data = GET_HAL_DATA(adapter);
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	int ret = _FAIL;
++
++	u32 uuid;
++	u8 uuid_x;
++	u8 uuid_y;
++	u8 uuid_z;
++	u16 uuid_crc;
++
++	u8 hci_type;
++	u8 package_type;
++	u8 tr_switch;
++	u8 wl_func;
++	u8 hw_stype;
++	u8 bw;
++	u8 fab;
++	u8 ant_num;
++	u8 protocol;
++	u8 nic;
++
++	int i;
++
++	if (len < MAC_HIDDEN_RPT_LEN) {
++		RTW_WARN("%s len(%u) < %d\n", __func__, len, MAC_HIDDEN_RPT_LEN);
++		goto exit;
++	}
++
++	uuid_x = GET_C2H_MAC_HIDDEN_RPT_UUID_X(data);
++	uuid_y = GET_C2H_MAC_HIDDEN_RPT_UUID_Y(data);
++	uuid_z = GET_C2H_MAC_HIDDEN_RPT_UUID_Z(data);
++	uuid_crc = GET_C2H_MAC_HIDDEN_RPT_UUID_CRC(data);
++
++	hci_type = GET_C2H_MAC_HIDDEN_RPT_HCI_TYPE(data);
++	package_type = GET_C2H_MAC_HIDDEN_RPT_PACKAGE_TYPE(data);
++
++	tr_switch = GET_C2H_MAC_HIDDEN_RPT_TR_SWITCH(data);
++
++	wl_func = GET_C2H_MAC_HIDDEN_RPT_WL_FUNC(data);
++	hw_stype = GET_C2H_MAC_HIDDEN_RPT_HW_STYPE(data);
++
++	bw = GET_C2H_MAC_HIDDEN_RPT_BW(data);
++	fab = GET_C2H_MAC_HIDDEN_RPT_FAB(data);
++	ant_num = GET_C2H_MAC_HIDDEN_RPT_ANT_NUM(data);
++
++	protocol = GET_C2H_MAC_HIDDEN_RPT_80211_PROTOCOL(data);
++	nic = GET_C2H_MAC_HIDDEN_RPT_NIC_ROUTER(data);
++
++	if (DBG_C2H_MAC_HIDDEN_RPT_HANDLE) {
++		for (i = 0; i < len; i++)
++			RTW_PRINT("%s: 0x%02X\n", __func__, *(data + i));
++
++		RTW_PRINT("uuid x:0x%02x y:0x%02x z:0x%x crc:0x%x\n", uuid_x, uuid_y, uuid_z, uuid_crc);
++		RTW_PRINT("hci_type:0x%x\n", hci_type);
++		RTW_PRINT("package_type:0x%x\n", package_type);
++		RTW_PRINT("tr_switch:0x%x\n", tr_switch);
++		RTW_PRINT("wl_func:0x%x\n", wl_func);
++		RTW_PRINT("hw_stype:0x%x\n", hw_stype);
++		RTW_PRINT("bw:0x%x\n", bw);
++		RTW_PRINT("fab:0x%x\n", fab);
++		RTW_PRINT("ant_num:0x%x\n", ant_num);
++		RTW_PRINT("protocol:0x%x\n", protocol);
++		RTW_PRINT("nic:0x%x\n", nic);
++	}
++
++	/*
++	* NOTICE:
++	* for now, the following is common info/format
++	* if there is any hal difference need to export
++	* some IC dependent code will need to be implement
++	*/
++	hal_data->PackageType = package_type;
++	hal_spec->wl_func &= mac_hidden_wl_func_to_hal_wl_func(wl_func);
++	hal_spec->bw_cap &= mac_hidden_max_bw_to_hal_bw_cap(bw);
++	hal_spec->nss_num = rtw_min(hal_spec->nss_num, ant_num);
++	hal_spec->proto_cap &= mac_hidden_proto_to_hal_proto_cap(protocol);
++
++	/* TODO: tr_switch */
++	/* TODO: fab */
++
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++int c2h_mac_hidden_rpt_2_hdl(_adapter *adapter, u8 *data, u8 len)
++{
++	HAL_DATA_TYPE	*hal_data = GET_HAL_DATA(adapter);
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	int ret = _FAIL;
++
++	int i;
++
++	if (len < MAC_HIDDEN_RPT_2_LEN) {
++		RTW_WARN("%s len(%u) < %d\n", __func__, len, MAC_HIDDEN_RPT_2_LEN);
++		goto exit;
++	}
++
++	if (DBG_C2H_MAC_HIDDEN_RPT_HANDLE) {
++		for (i = 0; i < len; i++)
++			RTW_PRINT("%s: 0x%02X\n", __func__, *(data + i));
++	}
++
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++int hal_read_mac_hidden_rpt(_adapter *adapter)
++{
++	int ret = _FAIL;
++	int ret_fwdl;
++	u8 mac_hidden_rpt[MAC_HIDDEN_RPT_LEN + MAC_HIDDEN_RPT_2_LEN] = {0};
++	u32 start = rtw_get_current_time();
++	u32 cnt = 0;
++	u32 timeout_ms = 800;
++	u32 min_cnt = 10;
++	u8 id = C2H_DEFEATURE_RSVD;
++	int i;
++
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_PCI_HCI)
++	u8 hci_type = rtw_get_intf_type(adapter);
++
++	if ((hci_type == RTW_USB || hci_type == RTW_PCIE)
++		&& !rtw_is_hw_init_completed(adapter))
++		rtw_hal_power_on(adapter);
++#endif
++
++	/* inform FW mac hidden rpt from reg is needed */
++	rtw_write8(adapter, REG_C2HEVT_MSG_NORMAL, C2H_DEFEATURE_RSVD);
++
++	/* download FW */
++	ret_fwdl = rtw_hal_fw_dl(adapter, _FALSE);
++	if (ret_fwdl != _SUCCESS)
++		goto mac_hidden_rpt_hdl;
++
++	/* polling for data ready */
++	start = rtw_get_current_time();
++	do {
++		cnt++;
++		id = rtw_read8(adapter, REG_C2HEVT_MSG_NORMAL);
++		if (id == C2H_MAC_HIDDEN_RPT || RTW_CANNOT_IO(adapter))
++			break;
++		rtw_msleep_os(10);
++	} while (rtw_get_passing_time_ms(start) < timeout_ms || cnt < min_cnt);
++
++	if (id == C2H_MAC_HIDDEN_RPT) {
++		/* read data */
++		for (i = 0; i < MAC_HIDDEN_RPT_LEN + MAC_HIDDEN_RPT_2_LEN; i++)
++			mac_hidden_rpt[i] = rtw_read8(adapter, REG_C2HEVT_MSG_NORMAL + 2 + i);
++	}
++
++	/* inform FW mac hidden rpt has read */
++	rtw_write8(adapter, REG_C2HEVT_MSG_NORMAL, C2H_DBG);
++
++mac_hidden_rpt_hdl:
++	c2h_mac_hidden_rpt_hdl(adapter, mac_hidden_rpt, MAC_HIDDEN_RPT_LEN);
++	c2h_mac_hidden_rpt_2_hdl(adapter, mac_hidden_rpt + MAC_HIDDEN_RPT_LEN, MAC_HIDDEN_RPT_2_LEN);
++
++	if (ret_fwdl == _SUCCESS && id == C2H_MAC_HIDDEN_RPT)
++		ret = _SUCCESS;
++
++exit:
++
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_PCI_HCI)
++	if ((hci_type == RTW_USB || hci_type == RTW_PCIE)
++		&& !rtw_is_hw_init_completed(adapter))
++		rtw_hal_power_off(adapter);
++#endif
++
++	RTW_INFO("%s %s! (%u, %dms), fwdl:%d, id:0x%02x\n", __func__
++		, (ret == _SUCCESS) ? "OK" : "Fail", cnt, rtw_get_passing_time_ms(start), ret_fwdl, id);
++
++	return ret;
++}
++
++int c2h_defeature_dbg_hdl(_adapter *adapter, u8 *data, u8 len)
++{
++	HAL_DATA_TYPE	*hal_data = GET_HAL_DATA(adapter);
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	int ret = _FAIL;
++
++	int i;
++
++	if (len < DEFEATURE_DBG_LEN) {
++		RTW_WARN("%s len(%u) < %d\n", __func__, len, DEFEATURE_DBG_LEN);
++		goto exit;
++	}
++
++	for (i = 0; i < len; i++)
++		RTW_PRINT("%s: 0x%02X\n", __func__, *(data + i));
++
++	ret = _SUCCESS;
++	
++exit:
++	return ret;
++}
++
++u8  rtw_hal_networktype_to_raid(_adapter *adapter, struct sta_info *psta)
++{
++#ifdef CONFIG_GET_RAID_BY_DRV	/*Just for 8188E now*/
++	if (IS_NEW_GENERATION_IC(adapter))
++		return networktype_to_raid_ex(adapter, psta);
++	else
++		return networktype_to_raid(adapter, psta);
++#else
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(adapter);
++	u8 bw;
++
++	bw = rtw_get_tx_bw_mode(adapter, psta);
++
++	return phydm_rate_id_mapping(&pHalData->odmpriv, psta->wireless_mode, pHalData->rf_type, bw);
++#endif
++}
++u8 rtw_get_mgntframe_raid(_adapter *adapter, unsigned char network_type)
++{
++
++	u8 raid;
++	if (IS_NEW_GENERATION_IC(adapter)) {
++
++		raid = (network_type & WIRELESS_11B)	? RATEID_IDX_B
++		       : RATEID_IDX_G;
++	} else {
++		raid = (network_type & WIRELESS_11B)	? RATR_INX_WIRELESS_B
++		       : RATR_INX_WIRELESS_G;
++	}
++	return raid;
++}
++
++void rtw_hal_update_sta_rate_mask(PADAPTER padapter, struct sta_info *psta)
++{
++	u8	i, rf_type, limit;
++	u64	tx_ra_bitmap;
++
++	if (psta == NULL)
++		return;
++
++	tx_ra_bitmap = 0;
++
++	/* b/g mode ra_bitmap  */
++	for (i = 0; i < sizeof(psta->bssrateset); i++) {
++		if (psta->bssrateset[i])
++			tx_ra_bitmap |= rtw_get_bit_value_from_ieee_value(psta->bssrateset[i] & 0x7f);
++	}
++
++#ifdef CONFIG_80211N_HT
++#ifdef CONFIG_80211AC_VHT
++	/* AC mode ra_bitmap */
++	if (psta->vhtpriv.vht_option)
++		tx_ra_bitmap |= (rtw_vht_rate_to_bitmap(psta->vhtpriv.vht_mcs_map) << 12);
++	else
++#endif /* CONFIG_80211AC_VHT */
++	{
++		/* n mode ra_bitmap */
++		if (psta->htpriv.ht_option) {
++			rf_type = RF_1T1R;
++			rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++			if (rf_type == RF_2T2R)
++				limit = 16; /* 2R */
++			else if (rf_type == RF_3T3R)
++				limit = 24; /* 3R */
++			else
++				limit = 8; /* 1R */
++
++
++			/* Handling SMPS mode for AP MODE only*/
++			if (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE) {
++				/*0:static SMPS, 1:dynamic SMPS, 3:SMPS disabled, 2:reserved*/
++				if (psta->htpriv.smps_cap == 0 || psta->htpriv.smps_cap == 1) {
++					/*operate with only one active receive chain // 11n-MCS rate <= MSC7*/
++					limit = 8;/*  1R*/
++				}
++			}
++
++			for (i = 0; i < limit; i++) {
++				if (psta->htpriv.ht_cap.supp_mcs_set[i / 8] & BIT(i % 8))
++					tx_ra_bitmap |= BIT(i + 12);
++			}
++		}
++	}
++#endif /* CONFIG_80211N_HT */
++	RTW_INFO("supp_mcs_set = %02x, %02x, %02x, rf_type=%d, tx_ra_bitmap=%016llx\n"
++		, psta->htpriv.ht_cap.supp_mcs_set[0], psta->htpriv.ht_cap.supp_mcs_set[1], psta->htpriv.ht_cap.supp_mcs_set[2], rf_type, tx_ra_bitmap);
++	psta->ra_mask = tx_ra_bitmap;
++	psta->init_rate = get_highest_rate_idx(tx_ra_bitmap) & 0x3f;
++}
++
++#ifndef SEC_CAM_ACCESS_TIMEOUT_MS
++	#define SEC_CAM_ACCESS_TIMEOUT_MS 200
++#endif
++
++#ifndef DBG_SEC_CAM_ACCESS
++	#define DBG_SEC_CAM_ACCESS 0
++#endif
++
++u32 rtw_sec_read_cam(_adapter *adapter, u8 addr)
++{
++	_mutex *mutex = &adapter_to_dvobj(adapter)->cam_ctl.sec_cam_access_mutex;
++	u32 rdata;
++	u32 cnt = 0;
++	u32 start = 0, end = 0;
++	u8 timeout = 0;
++	u8 sr = 0;
++
++	_enter_critical_mutex(mutex, NULL);
++
++	rtw_write32(adapter, REG_CAMCMD, CAM_POLLINIG | addr);
++
++	start = rtw_get_current_time();
++	while (1) {
++		if (rtw_is_surprise_removed(adapter)) {
++			sr = 1;
++			break;
++		}
++
++		cnt++;
++		if (0 == (rtw_read32(adapter, REG_CAMCMD) & CAM_POLLINIG))
++			break;
++
++		if (rtw_get_passing_time_ms(start) > SEC_CAM_ACCESS_TIMEOUT_MS) {
++			timeout = 1;
++			break;
++		}
++	}
++	end = rtw_get_current_time();
++
++	rdata = rtw_read32(adapter, REG_CAMREAD);
++
++	_exit_critical_mutex(mutex, NULL);
++
++	if (DBG_SEC_CAM_ACCESS || timeout) {
++		RTW_INFO(FUNC_ADPT_FMT" addr:0x%02x, rdata:0x%08x, to:%u, polling:%u, %d ms\n"
++			, FUNC_ADPT_ARG(adapter), addr, rdata, timeout, cnt, rtw_get_time_interval_ms(start, end));
++	}
++
++	return rdata;
++}
++
++void rtw_sec_write_cam(_adapter *adapter, u8 addr, u32 wdata)
++{
++	_mutex *mutex = &adapter_to_dvobj(adapter)->cam_ctl.sec_cam_access_mutex;
++	u32 cnt = 0;
++	u32 start = 0, end = 0;
++	u8 timeout = 0;
++	u8 sr = 0;
++
++	_enter_critical_mutex(mutex, NULL);
++
++	rtw_write32(adapter, REG_CAMWRITE, wdata);
++	rtw_write32(adapter, REG_CAMCMD, CAM_POLLINIG | CAM_WRITE | addr);
++
++	start = rtw_get_current_time();
++	while (1) {
++		if (rtw_is_surprise_removed(adapter)) {
++			sr = 1;
++			break;
++		}
++
++		cnt++;
++		if (0 == (rtw_read32(adapter, REG_CAMCMD) & CAM_POLLINIG))
++			break;
++
++		if (rtw_get_passing_time_ms(start) > SEC_CAM_ACCESS_TIMEOUT_MS) {
++			timeout = 1;
++			break;
++		}
++	}
++	end = rtw_get_current_time();
++
++	_exit_critical_mutex(mutex, NULL);
++
++	if (DBG_SEC_CAM_ACCESS || timeout) {
++		RTW_INFO(FUNC_ADPT_FMT" addr:0x%02x, wdata:0x%08x, to:%u, polling:%u, %d ms\n"
++			, FUNC_ADPT_ARG(adapter), addr, wdata, timeout, cnt, rtw_get_time_interval_ms(start, end));
++	}
++}
++
++void rtw_sec_read_cam_ent(_adapter *adapter, u8 id, u8 *ctrl, u8 *mac, u8 *key)
++{
++	unsigned int val, addr;
++	u8 i;
++	u32 rdata;
++	u8 begin = 0;
++	u8 end = 5; /* TODO: consider other key length accordingly */
++
++	if (!ctrl && !mac && !key) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	/* TODO: check id range */
++
++	if (!ctrl && !mac)
++		begin = 2; /* read from key */
++
++	if (!key && !mac)
++		end = 0; /* read to ctrl */
++	else if (!key)
++		end = 2; /* read to mac */
++
++	for (i = begin; i <= end; i++) {
++		rdata = rtw_sec_read_cam(adapter, (id << 3) | i);
++
++		switch (i) {
++		case 0:
++			if (ctrl)
++				_rtw_memcpy(ctrl, (u8 *)(&rdata), 2);
++			if (mac)
++				_rtw_memcpy(mac, ((u8 *)(&rdata)) + 2, 2);
++			break;
++		case 1:
++			if (mac)
++				_rtw_memcpy(mac + 2, (u8 *)(&rdata), 4);
++			break;
++		default:
++			if (key)
++				_rtw_memcpy(key + (i - 2) * 4, (u8 *)(&rdata), 4);
++			break;
++		}
++	}
++
++exit:
++	return;
++}
++
++
++void rtw_sec_write_cam_ent(_adapter *adapter, u8 id, u16 ctrl, u8 *mac, u8 *key)
++{
++	unsigned int i;
++	int j;
++	u8 addr;
++	u32 wdata;
++
++	/* TODO: consider other key length accordingly */
++#if 0
++	switch ((ctrl & 0x1c) >> 2) {
++	case _WEP40_:
++	case _TKIP_:
++	case _AES_:
++	case _WEP104_:
++
++	}
++#else
++	j = 7;
++#endif
++
++	for (; j >= 0; j--) {
++		switch (j) {
++		case 0:
++			wdata = (ctrl | (mac[0] << 16) | (mac[1] << 24));
++			break;
++		case 1:
++			wdata = (mac[2] | (mac[3] << 8) | (mac[4] << 16) | (mac[5] << 24));
++			break;
++		case 6:
++		case 7:
++			wdata = 0;
++			break;
++		default:
++			i = (j - 2) << 2;
++			wdata = (key[i] | (key[i + 1] << 8) | (key[i + 2] << 16) | (key[i + 3] << 24));
++			break;
++		}
++
++		addr = (id << 3) + j;
++
++		rtw_sec_write_cam(adapter, addr, wdata);
++	}
++}
++
++void rtw_sec_clr_cam_ent(_adapter *adapter, u8 id)
++{
++	u8 addr;
++
++	addr = (id << 3);
++	rtw_sec_write_cam(adapter, addr, 0);
++}
++
++bool rtw_sec_read_cam_is_gk(_adapter *adapter, u8 id)
++{
++	bool res;
++	u16 ctrl;
++
++	rtw_sec_read_cam_ent(adapter, id, (u8 *)&ctrl, NULL, NULL);
++
++	res = (ctrl & BIT6) ? _TRUE : _FALSE;
++	return res;
++}
++#ifdef CONFIG_MBSSID_CAM
++void rtw_mbid_cam_init(struct dvobj_priv *dvobj)
++{
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	_rtw_spinlock_init(&mbid_cam_ctl->lock);
++	mbid_cam_ctl->bitmap = 0;
++	ATOMIC_SET(&mbid_cam_ctl->mbid_entry_num, 0);
++	_rtw_memset(&dvobj->mbid_cam_cache, 0, sizeof(dvobj->mbid_cam_cache));
++}
++
++void rtw_mbid_cam_deinit(struct dvobj_priv *dvobj)
++{
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	_rtw_spinlock_free(&mbid_cam_ctl->lock);
++}
++
++void rtw_mbid_cam_reset(_adapter *adapter)
++{
++	_irqL irqL;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	mbid_cam_ctl->bitmap = 0;
++	_rtw_memset(&dvobj->mbid_cam_cache, 0, sizeof(dvobj->mbid_cam_cache));
++	_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);
++
++	ATOMIC_SET(&mbid_cam_ctl->mbid_entry_num, 0);
++}
++static u8 _rtw_mbid_cam_search_by_macaddr(_adapter *adapter, u8 *mac_addr)
++{
++	u8 i;
++	u8 cam_id = INVALID_CAM_ID;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++
++	for (i = 0; i < TOTAL_MBID_CAM_NUM; i++) {
++		if (mac_addr && _rtw_memcmp(dvobj->mbid_cam_cache[i].mac_addr, mac_addr, ETH_ALEN) == _TRUE) {
++			cam_id = i;
++			break;
++		}
++	}
++
++	RTW_INFO("%s mac:"MAC_FMT" - cam_id:%d\n", __func__, MAC_ARG(mac_addr), cam_id);
++	return cam_id;
++}
++
++u8 rtw_mbid_cam_search_by_macaddr(_adapter *adapter, u8 *mac_addr)
++{
++	_irqL irqL;
++
++	u8 cam_id = INVALID_CAM_ID;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	cam_id = _rtw_mbid_cam_search_by_macaddr(adapter, mac_addr);
++	_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);
++
++	return cam_id;
++}
++static u8 _rtw_mbid_cam_search_by_ifaceid(_adapter *adapter, u8 iface_id)
++{
++	u8 i;
++	u8 cam_id = INVALID_CAM_ID;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++
++	for (i = 0; i < TOTAL_MBID_CAM_NUM; i++) {
++		if (iface_id == dvobj->mbid_cam_cache[i].iface_id) {
++			cam_id = i;
++			break;
++		}
++	}
++	if (cam_id != INVALID_CAM_ID)
++		RTW_INFO("%s iface_id:%d mac:"MAC_FMT" - cam_id:%d\n",
++			__func__, iface_id, MAC_ARG(dvobj->mbid_cam_cache[cam_id].mac_addr), cam_id);
++
++	return cam_id;
++}
++
++u8 rtw_mbid_cam_search_by_ifaceid(_adapter *adapter, u8 iface_id)
++{
++	_irqL irqL;
++	u8 cam_id = INVALID_CAM_ID;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	cam_id = _rtw_mbid_cam_search_by_ifaceid(adapter, iface_id);
++	_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);
++
++	return cam_id;
++}
++u8 rtw_get_max_mbid_cam_id(_adapter *adapter)
++{
++	_irqL irqL;
++	s8 i;
++	u8 cam_id = INVALID_CAM_ID;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	for (i = (TOTAL_MBID_CAM_NUM - 1); i >= 0; i--) {
++		if (mbid_cam_ctl->bitmap & BIT(i)) {
++			cam_id = i;
++			break;
++		}
++	}
++	_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	/*RTW_INFO("%s max cam_id:%d\n", __func__, cam_id);*/
++	return cam_id;
++}
++
++inline u8 rtw_get_mbid_cam_entry_num(_adapter *adapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	return ATOMIC_READ(&mbid_cam_ctl->mbid_entry_num);
++}
++
++static inline void mbid_cam_cache_init(_adapter *adapter, struct mbid_cam_cache *pmbid_cam, u8 *mac_addr)
++{
++	if (adapter && pmbid_cam && mac_addr) {
++		_rtw_memcpy(pmbid_cam->mac_addr, mac_addr, ETH_ALEN);
++		pmbid_cam->iface_id = adapter->iface_id;
++	}
++}
++static inline void mbid_cam_cache_clr(struct mbid_cam_cache *pmbid_cam)
++{
++	if (pmbid_cam) {
++		_rtw_memset(pmbid_cam->mac_addr, 0, ETH_ALEN);
++		pmbid_cam->iface_id = CONFIG_IFACE_NUMBER;
++	}
++}
++
++u8 rtw_mbid_camid_alloc(_adapter *adapter, u8 *mac_addr)
++{
++	_irqL irqL;
++	u8 cam_id = INVALID_CAM_ID, i;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++	u8 entry_num = ATOMIC_READ(&mbid_cam_ctl->mbid_entry_num);
++
++	if (entry_num >= TOTAL_MBID_CAM_NUM) {
++		RTW_INFO(FUNC_ADPT_FMT" failed !! MBSSID number :%d over TOTAL_CAM_ENTRY(8)\n", FUNC_ADPT_ARG(adapter), entry_num);
++		rtw_warn_on(1);
++	}
++
++	if (INVALID_CAM_ID != rtw_mbid_cam_search_by_macaddr(adapter, mac_addr))
++		goto exit;
++
++	_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	for (i = 0; i < TOTAL_MBID_CAM_NUM; i++) {
++		if (!(mbid_cam_ctl->bitmap & BIT(i))) {
++			mbid_cam_ctl->bitmap |= BIT(i);
++			cam_id = i;
++			break;
++		}
++	}
++	if ((cam_id != INVALID_CAM_ID) && (mac_addr))
++		mbid_cam_cache_init(adapter, &dvobj->mbid_cam_cache[cam_id], mac_addr);
++	_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);
++
++	if (cam_id != INVALID_CAM_ID) {
++		ATOMIC_INC(&mbid_cam_ctl->mbid_entry_num);
++		RTW_INFO("%s mac:"MAC_FMT" - cam_id:%d\n", __func__, MAC_ARG(mac_addr), cam_id);
++#ifdef DBG_MBID_CAM_DUMP
++		rtw_mbid_cam_cache_dump(RTW_DBGDUMP, __func__, adapter);
++#endif
++	} else
++		RTW_INFO("%s [WARN] "MAC_FMT" - invalid cam_id:%d\n", __func__, MAC_ARG(mac_addr), cam_id);
++exit:
++	return cam_id;
++}
++
++u8 rtw_mbid_cam_info_change(_adapter *adapter, u8 *mac_addr)
++{
++	_irqL irqL;
++	u8 entry_id = INVALID_CAM_ID;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	entry_id = _rtw_mbid_cam_search_by_ifaceid(adapter, adapter->iface_id);
++	if (entry_id != INVALID_CAM_ID)
++		mbid_cam_cache_init(adapter, &dvobj->mbid_cam_cache[entry_id], mac_addr);
++
++	_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);
++
++	return entry_id;
++}
++
++u8 rtw_mbid_cam_assign(_adapter *adapter, u8 *mac_addr, u8 camid)
++{
++	_irqL irqL;
++	u8 ret = _FALSE;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	if ((camid >= TOTAL_MBID_CAM_NUM) || (camid == INVALID_CAM_ID)) {
++		RTW_INFO(FUNC_ADPT_FMT" failed !! invlaid mbid_canid :%d\n", FUNC_ADPT_ARG(adapter), camid);
++		rtw_warn_on(1);
++	}
++	if (INVALID_CAM_ID != rtw_mbid_cam_search_by_macaddr(adapter, mac_addr))
++		goto exit;
++
++	_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	if (!(mbid_cam_ctl->bitmap & BIT(camid))) {
++		if (mac_addr) {
++			mbid_cam_ctl->bitmap |= BIT(camid);
++			mbid_cam_cache_init(adapter, &dvobj->mbid_cam_cache[camid], mac_addr);
++			ret = _TRUE;
++		}
++	}
++	_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);
++
++	if (ret == _TRUE) {
++		ATOMIC_INC(&mbid_cam_ctl->mbid_entry_num);
++		RTW_INFO("%s mac:"MAC_FMT" - cam_id:%d\n", __func__, MAC_ARG(mac_addr), camid);
++#ifdef DBG_MBID_CAM_DUMP
++		rtw_mbid_cam_cache_dump(RTW_DBGDUMP, __func__, adapter);
++#endif
++	} else
++		RTW_INFO("%s  [WARN] mac:"MAC_FMT" - cam_id:%d assigned failed\n", __func__, MAC_ARG(mac_addr), camid);
++
++exit:
++	return ret;
++}
++
++void rtw_mbid_camid_clean(_adapter *adapter, u8 mbss_canid)
++{
++	_irqL irqL;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	if ((mbss_canid >= TOTAL_MBID_CAM_NUM) || (mbss_canid == INVALID_CAM_ID)) {
++		RTW_INFO(FUNC_ADPT_FMT" failed !! invlaid mbid_canid :%d\n", FUNC_ADPT_ARG(adapter), mbss_canid);
++		rtw_warn_on(1);
++	}
++	_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	mbid_cam_cache_clr(&dvobj->mbid_cam_cache[mbss_canid]);
++	mbid_cam_ctl->bitmap &= (~BIT(mbss_canid));
++	_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	ATOMIC_DEC(&mbid_cam_ctl->mbid_entry_num);
++	RTW_INFO("%s - cam_id:%d\n", __func__, mbss_canid);
++}
++int rtw_mbid_cam_cache_dump(void *sel, const char *fun_name, _adapter *adapter)
++{
++	_irqL irqL;
++	u8 i;
++	_adapter *iface;
++	u8 iface_id;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++	u8 entry_num = ATOMIC_READ(&mbid_cam_ctl->mbid_entry_num);
++	u8 max_cam_id = rtw_get_max_mbid_cam_id(adapter);
++
++	RTW_PRINT_SEL(sel, "== MBSSID CAM DUMP (%s)==\n", fun_name);
++
++	_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	RTW_PRINT_SEL(sel, "Entry numbers:%d, max_camid:%d, bitmap:0x%08x\n", entry_num, max_cam_id, mbid_cam_ctl->bitmap);
++	for (i = 0; i < TOTAL_MBID_CAM_NUM; i++) {
++		RTW_PRINT_SEL(sel, "CAM_ID = %d\t", i);
++
++		if (mbid_cam_ctl->bitmap & BIT(i)) {
++			iface_id = dvobj->mbid_cam_cache[i].iface_id;
++			RTW_PRINT_SEL(sel, "IF_ID:%d\t", iface_id);
++			RTW_PRINT_SEL(sel, "MAC Addr:"MAC_FMT"\t", MAC_ARG(dvobj->mbid_cam_cache[i].mac_addr));
++
++			iface = dvobj->padapters[iface_id];
++			if (iface) {
++				if (check_fwstate(&iface->mlmepriv, WIFI_STATION_STATE) == _TRUE)
++					RTW_PRINT_SEL(sel, "ROLE:%s\n", "STA");
++				else if (check_fwstate(&iface->mlmepriv, WIFI_AP_STATE) == _TRUE)
++					RTW_PRINT_SEL(sel, "ROLE:%s\n", "AP");
++				else
++					RTW_PRINT_SEL(sel, "ROLE:%s\n", "NONE");
++			}
++
++		} else
++			RTW_PRINT_SEL(sel, "N/A\n");
++	}
++	_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	return 0;
++}
++
++static void read_mbssid_cam(_adapter *padapter, u8 cam_addr, u8 *mac)
++{
++	u8 poll = 1;
++	u8 cam_ready = _FALSE;
++	u32 cam_data1 = 0;
++	u16 cam_data2 = 0;
++
++	if (RTW_CANNOT_RUN(padapter))
++		return;
++
++	rtw_write32(padapter, REG_MBIDCAMCFG_2, BIT_MBIDCAM_POLL | ((cam_addr & MBIDCAM_ADDR_MASK) << MBIDCAM_ADDR_SHIFT));
++
++	do {
++		if (0 == (rtw_read32(padapter, REG_MBIDCAMCFG_2) & BIT_MBIDCAM_POLL)) {
++			cam_ready = _TRUE;
++			break;
++		}
++		poll++;
++	} while ((poll % 10) != 0 && !RTW_CANNOT_RUN(padapter));
++
++	if (cam_ready) {
++		cam_data1 = rtw_read32(padapter, REG_MBIDCAMCFG_1);
++		mac[0] = cam_data1 & 0xFF;
++		mac[1] = (cam_data1 >> 8) & 0xFF;
++		mac[2] = (cam_data1 >> 16) & 0xFF;
++		mac[3] = (cam_data1 >> 24) & 0xFF;
++
++		cam_data2 = rtw_read16(padapter, REG_MBIDCAMCFG_2);
++		mac[4] = cam_data2 & 0xFF;
++		mac[5] = (cam_data2 >> 8) & 0xFF;
++	}
++
++}
++int rtw_mbid_cam_dump(void *sel, const char *fun_name, _adapter *adapter)
++{
++	/*_irqL irqL;*/
++	u8 i;
++	u8 mac_addr[ETH_ALEN];
++
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	RTW_PRINT_SEL(sel, "\n== MBSSID HW-CAM DUMP (%s)==\n", fun_name);
++
++	/*_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);*/
++	for (i = 0; i < TOTAL_MBID_CAM_NUM; i++) {
++		RTW_PRINT_SEL(sel, "CAM_ID = %d\t", i);
++		_rtw_memset(mac_addr, 0, ETH_ALEN);
++		read_mbssid_cam(adapter, i, mac_addr);
++		RTW_PRINT_SEL(sel, "MAC Addr:"MAC_FMT"\n", MAC_ARG(mac_addr));
++	}
++	/*_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);*/
++	return 0;
++}
++
++static void write_mbssid_cam(_adapter *padapter, u8 cam_addr, u8 *mac)
++{
++	u32	cam_val[2] = {0};
++
++	cam_val[0] = (mac[3] << 24) | (mac[2] << 16) | (mac[1] << 8) | mac[0];
++	cam_val[1] = ((cam_addr & MBIDCAM_ADDR_MASK) << MBIDCAM_ADDR_SHIFT)  | (mac[5] << 8) | mac[4];
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_MBSSID_CAM_WRITE, (u8 *)cam_val);
++}
++
++static void clear_mbssid_cam(_adapter *padapter, u8 cam_addr)
++{
++	rtw_hal_set_hwreg(padapter, HW_VAR_MBSSID_CAM_CLEAR, &cam_addr);
++}
++static void enable_mbssid_cam(_adapter *adapter)
++{
++	u8 max_cam_id = rtw_get_max_mbid_cam_id(adapter);
++	/*enable MBSSID*/
++	rtw_write32(adapter, REG_RCR, rtw_read32(adapter, REG_RCR) | RCR_ENMBID);
++	if (max_cam_id != INVALID_CAM_ID) {
++		rtw_write8(adapter, REG_MBID_NUM,
++			((rtw_read8(adapter, REG_MBID_NUM) & 0xF8) | (max_cam_id & 0x07)));
++	}
++}
++void rtw_mbid_cam_restore(_adapter *adapter)
++{
++	u8 i;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++#ifdef DBG_MBID_CAM_DUMP
++	rtw_mbid_cam_cache_dump(RTW_DBGDUMP, __func__, adapter);
++#endif
++
++	for (i = 0; i < TOTAL_MBID_CAM_NUM; i++) {
++		if (mbid_cam_ctl->bitmap & BIT(i)) {
++			write_mbssid_cam(adapter, i, dvobj->mbid_cam_cache[i].mac_addr);
++			RTW_INFO("%s - cam_id:%d => mac:"MAC_FMT"\n", __func__, i, MAC_ARG(dvobj->mbid_cam_cache[i].mac_addr));
++		}
++	}
++	enable_mbssid_cam(adapter);
++}
++#endif /*CONFIG_MBSSID_CAM*/
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++void rtw_hal_set_macaddr_mbid(_adapter *adapter, u8 *mac_addr)
++{
++
++#if 0 /*TODO - modify for more flexible*/
++	u8 idx = 0;
++
++	if ((check_fwstate(&adapter->mlmepriv, WIFI_STATION_STATE) == _TRUE) &&
++	    (adapter_to_dvobj(adapter)->iface_state.sta_num == 1)) {
++		for (idx = 0; idx < 6; idx++)
++			rtw_write8(GET_PRIMARY_ADAPTER(adapter), (REG_MACID + idx), val[idx]);
++	}  else {
++		/*MBID entry_id = 0~7 ,0 for root AP, 1~7 for VAP*/
++		u8 entry_id;
++
++		if ((check_fwstate(&adapter->mlmepriv, WIFI_AP_STATE) == _TRUE) &&
++		    (adapter_to_dvobj(adapter)->iface_state.ap_num == 1)) {
++			entry_id = 0;
++			if (rtw_mbid_cam_assign(adapter, val, entry_id)) {
++				RTW_INFO(FUNC_ADPT_FMT" Root AP assigned success\n", FUNC_ADPT_ARG(adapter));
++				write_mbssid_cam(adapter, entry_id, val);
++			}
++		} else {
++			entry_id = rtw_mbid_camid_alloc(adapter, val);
++			if (entry_id != INVALID_CAM_ID)
++				write_mbssid_cam(adapter, entry_id, val);
++		}
++	}
++#else
++	{
++		/*
++			MBID entry_id = 0~7 ,for IFACE_ID0 ~ IFACE_IDx
++		*/
++		u8 entry_id = rtw_mbid_camid_alloc(adapter, mac_addr);
++
++
++		if (entry_id != INVALID_CAM_ID) {
++			write_mbssid_cam(adapter, entry_id, mac_addr);
++			enable_mbssid_cam(adapter);
++		}
++	}
++#endif
++}
++
++void rtw_hal_change_macaddr_mbid(_adapter *adapter, u8 *mac_addr)
++{
++	u8 idx = 0;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	u8 entry_id;
++
++	if (!mac_addr) {
++		rtw_warn_on(1);
++		return;
++	}
++
++
++	entry_id = rtw_mbid_cam_info_change(adapter, mac_addr);
++
++	if (entry_id != INVALID_CAM_ID)
++		write_mbssid_cam(adapter, entry_id, mac_addr);
++}
++
++
++#endif/*#ifdef CONFIG_MI_WITH_MBSSID_CAM*/
++
++void rtw_hal_set_macaddr_port(_adapter *adapter, u8 *val)
++{
++	u8 idx = 0;
++	u32 reg_macid = 0;
++
++	if (val == NULL)
++		return;
++
++	RTW_INFO("%s "ADPT_FMT"- hw port(%d) mac_addr ="MAC_FMT"\n",  __func__,
++		 ADPT_ARG(adapter), adapter->hw_port, MAC_ARG(val));
++
++	switch (adapter->hw_port) {
++	case HW_PORT0:
++	default:
++		reg_macid = REG_MACID;
++		break;
++	case HW_PORT1:
++		reg_macid = REG_MACID1;
++		break;
++#if defined(CONFIG_RTL8814A)
++	case HW_PORT2:
++		reg_macid = REG_MACID2;
++		break;
++	case HW_PORT3:
++		reg_macid = REG_MACID3;
++		break;
++	case HW_PORT4:
++		reg_macid = REG_MACID4;
++		break;
++#endif/*defined(CONFIG_RTL8814A)*/
++	}
++
++	for (idx = 0; idx < 6; idx++)
++		rtw_write8(GET_PRIMARY_ADAPTER(adapter), (reg_macid + idx), val[idx]);
++}
++void rtw_hal_get_macaddr_port(_adapter *adapter, u8 *mac_addr)
++{
++	u8 idx = 0;
++	u32 reg_macid = 0;
++
++	if (mac_addr == NULL)
++		return;
++
++	_rtw_memset(mac_addr, 0, ETH_ALEN);
++	switch (adapter->hw_port) {
++	case HW_PORT0:
++	default:
++		reg_macid = REG_MACID;
++		break;
++	case HW_PORT1:
++		reg_macid = REG_MACID1;
++		break;
++#if defined(CONFIG_RTL8814A)
++	case HW_PORT2:
++		reg_macid = REG_MACID2;
++		break;
++	case HW_PORT3:
++		reg_macid = REG_MACID3;
++		break;
++	case HW_PORT4:
++		reg_macid = REG_MACID4;
++		break;
++#endif /*defined(CONFIG_RTL8814A)*/
++	}
++
++	for (idx = 0; idx < 6; idx++)
++		mac_addr[idx] = rtw_read8(GET_PRIMARY_ADAPTER(adapter), (reg_macid + idx));
++
++	RTW_INFO("%s "ADPT_FMT"- hw port(%d) mac_addr ="MAC_FMT"\n",  __func__,
++		 ADPT_ARG(adapter), adapter->hw_port, MAC_ARG(mac_addr));
++}
++
++void rtw_hal_set_bssid(_adapter *adapter, u8 *val)
++{
++	u8	idx = 0;
++	u32 reg_bssid = 0;
++
++	switch (adapter->hw_port) {
++	case HW_PORT0:
++	default:
++		reg_bssid = REG_BSSID;
++		break;
++	case HW_PORT1:
++		reg_bssid = REG_BSSID1;
++		break;
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B)
++	case HW_PORT2:
++		reg_bssid = REG_BSSID2;
++		break;
++	case HW_PORT3:
++		reg_bssid = REG_BSSID3;
++		break;
++	case HW_PORT4:
++		reg_bssid = REG_BSSID4;
++		break;
++#endif/*defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B)*/
++	}
++
++	for (idx = 0 ; idx < 6; idx++)
++		rtw_write8(adapter, (reg_bssid + idx), val[idx]);
++
++	RTW_INFO("%s "ADPT_FMT"- hw port -%d BSSID: "MAC_FMT"\n", __func__, ADPT_ARG(adapter), adapter->hw_port, MAC_ARG(val));
++}
++
++void rtw_hal_get_msr(_adapter *adapter, u8 *net_type)
++{
++	switch (adapter->hw_port) {
++	case HW_PORT0:
++		/*REG_CR - BIT[17:16]-Network Type for port 1*/
++		*net_type = rtw_read8(adapter, MSR) & 0x03;
++		break;
++	case HW_PORT1:
++		/*REG_CR - BIT[19:18]-Network Type for port 1*/
++		*net_type = (rtw_read8(adapter, MSR) & 0x0C) >> 2;
++		break;
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B)
++	case HW_PORT2:
++		/*REG_CR_EXT- BIT[1:0]-Network Type for port 2*/
++		*net_type = rtw_read8(adapter, MSR1) & 0x03;
++		break;
++	case HW_PORT3:
++		/*REG_CR_EXT- BIT[3:2]-Network Type for port 3*/
++		*net_type = (rtw_read8(adapter, MSR1) & 0x0C) >> 2;
++		break;
++	case HW_PORT4:
++		/*REG_CR_EXT- BIT[5:4]-Network Type for port 4*/
++		*net_type = (rtw_read8(adapter, MSR1) & 0x30) >> 4;
++		break;
++#endif /*#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B)*/
++	default:
++		RTW_INFO("[WARN] "ADPT_FMT"- invalid hw port -%d\n",
++			 ADPT_ARG(adapter), adapter->hw_port);
++		rtw_warn_on(1);
++		break;
++	}
++}
++
++void rtw_hal_set_msr(_adapter *adapter, u8 net_type)
++{
++	u8 val8 = 0;
++
++	switch (adapter->hw_port) {
++	case HW_PORT0:
++#if defined(CONFIG_MI_WITH_MBSSID_CAM) && defined(CONFIG_MBSSID_CAM) /*For 2 hw ports - 88E/92E/8812/8821/8723B*/
++		if (rtw_get_mbid_cam_entry_num(adapter)) {
++			if (net_type != _HW_STATE_NOLINK_)
++				net_type = _HW_STATE_AP_;
++		}
++#endif
++		/*REG_CR - BIT[17:16]-Network Type for port 0*/
++		val8 = rtw_read8(adapter, MSR) & 0x0C;
++		val8 |= net_type;
++		rtw_write8(adapter, MSR, val8);
++		break;
++	case HW_PORT1:
++		/*REG_CR - BIT[19:18]-Network Type for port 1*/
++		val8 = rtw_read8(adapter, MSR) & 0x03;
++		val8 |= net_type << 2;
++		rtw_write8(adapter, MSR, val8);
++		break;
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++	case HW_PORT2:
++		/*REG_CR_EXT- BIT[1:0]-Network Type for port 2*/
++		val8 = rtw_read8(adapter, MSR1) & 0xFC;
++		val8 |= net_type;
++		rtw_write8(adapter, MSR1, val8);
++		break;
++	case HW_PORT3:
++		/*REG_CR_EXT- BIT[3:2]-Network Type for port 3*/
++		val8 = rtw_read8(adapter, MSR1) & 0xF3;
++		val8 |= net_type << 2;
++		rtw_write8(adapter, MSR1, val8);
++		break;
++	case HW_PORT4:
++		/*REG_CR_EXT- BIT[5:4]-Network Type for port 4*/
++		val8 = rtw_read8(adapter, MSR1) & 0xCF;
++		val8 |= net_type << 4;
++		rtw_write8(adapter, MSR1, val8);
++		break;
++#endif /* CONFIG_RTL8814A | CONFIG_RTL8822B */
++	default:
++		RTW_INFO("[WARN] "ADPT_FMT"- invalid hw port -%d\n",
++			 ADPT_ARG(adapter), adapter->hw_port);
++		rtw_warn_on(1);
++		break;
++	}
++}
++
++void rtw_hal_port_reconfig(_adapter *adapter, u8 port)
++{
++#ifdef CONFIG_CONCURRENT_MODE
++	u8 hal_port_num = 0;
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++
++	if (port > (hal_spec->port_num - 1)) {
++		RTW_INFO("[WARN] "ADPT_FMT"- hw_port : %d,will switch to invalid port-%d\n",
++			 ADPT_ARG(adapter), adapter->hw_port, port);
++		rtw_warn_on(1);
++	}
++
++	RTW_PRINT(ADPT_FMT"- hw_port : %d,will switch to port-%d\n",
++		  ADPT_ARG(adapter), adapter->hw_port, port);
++
++#endif
++
++}
++
++
++void hw_var_port_switch(_adapter *adapter)
++{
++#ifdef CONFIG_CONCURRENT_MODE
++#ifdef CONFIG_RUNTIME_PORT_SWITCH
++	/*
++	0x102: MSR
++	0x550: REG_BCN_CTRL
++	0x551: REG_BCN_CTRL_1
++	0x55A: REG_ATIMWND
++	0x560: REG_TSFTR
++	0x568: REG_TSFTR1
++	0x570: REG_ATIMWND_1
++	0x610: REG_MACID
++	0x618: REG_BSSID
++	0x700: REG_MACID1
++	0x708: REG_BSSID1
++	*/
++
++	int i;
++	u8 msr;
++	u8 bcn_ctrl;
++	u8 bcn_ctrl_1;
++	u8 atimwnd[2];
++	u8 atimwnd_1[2];
++	u8 tsftr[8];
++	u8 tsftr_1[8];
++	u8 macid[6];
++	u8 bssid[6];
++	u8 macid_1[6];
++	u8 bssid_1[6];
++
++	u8 hw_port;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	_adapter *iface = NULL;
++
++	msr = rtw_read8(adapter, MSR);
++	bcn_ctrl = rtw_read8(adapter, REG_BCN_CTRL);
++	bcn_ctrl_1 = rtw_read8(adapter, REG_BCN_CTRL_1);
++
++	for (i = 0; i < 2; i++)
++		atimwnd[i] = rtw_read8(adapter, REG_ATIMWND + i);
++	for (i = 0; i < 2; i++)
++		atimwnd_1[i] = rtw_read8(adapter, REG_ATIMWND_1 + i);
++
++	for (i = 0; i < 8; i++)
++		tsftr[i] = rtw_read8(adapter, REG_TSFTR + i);
++	for (i = 0; i < 8; i++)
++		tsftr_1[i] = rtw_read8(adapter, REG_TSFTR1 + i);
++
++	for (i = 0; i < 6; i++)
++		macid[i] = rtw_read8(adapter, REG_MACID + i);
++
++	for (i = 0; i < 6; i++)
++		bssid[i] = rtw_read8(adapter, REG_BSSID + i);
++
++	for (i = 0; i < 6; i++)
++		macid_1[i] = rtw_read8(adapter, REG_MACID1 + i);
++
++	for (i = 0; i < 6; i++)
++		bssid_1[i] = rtw_read8(adapter, REG_BSSID1 + i);
++
++#ifdef DBG_RUNTIME_PORT_SWITCH
++	RTW_INFO(FUNC_ADPT_FMT" before switch\n"
++		 "msr:0x%02x\n"
++		 "bcn_ctrl:0x%02x\n"
++		 "bcn_ctrl_1:0x%02x\n"
++		 "atimwnd:0x%04x\n"
++		 "atimwnd_1:0x%04x\n"
++		 "tsftr:%llu\n"
++		 "tsftr1:%llu\n"
++		 "macid:"MAC_FMT"\n"
++		 "bssid:"MAC_FMT"\n"
++		 "macid_1:"MAC_FMT"\n"
++		 "bssid_1:"MAC_FMT"\n"
++		 , FUNC_ADPT_ARG(adapter)
++		 , msr
++		 , bcn_ctrl
++		 , bcn_ctrl_1
++		 , *((u16 *)atimwnd)
++		 , *((u16 *)atimwnd_1)
++		 , *((u64 *)tsftr)
++		 , *((u64 *)tsftr_1)
++		 , MAC_ARG(macid)
++		 , MAC_ARG(bssid)
++		 , MAC_ARG(macid_1)
++		 , MAC_ARG(bssid_1)
++		);
++#endif /* DBG_RUNTIME_PORT_SWITCH */
++
++	/* disable bcn function, disable update TSF */
++	rtw_write8(adapter, REG_BCN_CTRL, (bcn_ctrl & (~EN_BCN_FUNCTION)) | DIS_TSF_UDT);
++	rtw_write8(adapter, REG_BCN_CTRL_1, (bcn_ctrl_1 & (~EN_BCN_FUNCTION)) | DIS_TSF_UDT);
++
++	/* switch msr */
++	msr = (msr & 0xf0) | ((msr & 0x03) << 2) | ((msr & 0x0c) >> 2);
++	rtw_write8(adapter, MSR, msr);
++
++	/* write port0 */
++	rtw_write8(adapter, REG_BCN_CTRL, bcn_ctrl_1 & ~EN_BCN_FUNCTION);
++	for (i = 0; i < 2; i++)
++		rtw_write8(adapter, REG_ATIMWND + i, atimwnd_1[i]);
++	for (i = 0; i < 8; i++)
++		rtw_write8(adapter, REG_TSFTR + i, tsftr_1[i]);
++	for (i = 0; i < 6; i++)
++		rtw_write8(adapter, REG_MACID + i, macid_1[i]);
++	for (i = 0; i < 6; i++)
++		rtw_write8(adapter, REG_BSSID + i, bssid_1[i]);
++
++	/* write port1 */
++	rtw_write8(adapter, REG_BCN_CTRL_1, bcn_ctrl & ~EN_BCN_FUNCTION);
++	for (i = 0; i < 2; i++)
++		rtw_write8(adapter, REG_ATIMWND_1 + i, atimwnd[i]);
++	for (i = 0; i < 8; i++)
++		rtw_write8(adapter, REG_TSFTR1 + i, tsftr[i]);
++	for (i = 0; i < 6; i++)
++		rtw_write8(adapter, REG_MACID1 + i, macid[i]);
++	for (i = 0; i < 6; i++)
++		rtw_write8(adapter, REG_BSSID1 + i, bssid[i]);
++
++	/* write bcn ctl */
++#ifdef CONFIG_BT_COEXIST
++	/* always enable port0 beacon function for PSTDMA */
++	if (IS_HARDWARE_TYPE_8723B(adapter) || IS_HARDWARE_TYPE_8703B(adapter)
++	    || IS_HARDWARE_TYPE_8723D(adapter))
++		bcn_ctrl_1 |= EN_BCN_FUNCTION;
++	/* always disable port1 beacon function for PSTDMA */
++	if (IS_HARDWARE_TYPE_8723B(adapter) || IS_HARDWARE_TYPE_8703B(adapter))
++		bcn_ctrl &= ~EN_BCN_FUNCTION;
++#endif
++	rtw_write8(adapter, REG_BCN_CTRL, bcn_ctrl_1);
++	rtw_write8(adapter, REG_BCN_CTRL_1, bcn_ctrl);
++
++	if (adapter->iface_id == IFACE_ID0)
++		iface = dvobj->padapters[IFACE_ID1];
++	else if (adapter->iface_id == IFACE_ID1)
++		iface = dvobj->padapters[IFACE_ID0];
++
++
++	if (adapter->hw_port == HW_PORT0) {
++		adapter->hw_port = HW_PORT1;
++		iface->hw_port = HW_PORT0;
++		RTW_PRINT("port switch - port0("ADPT_FMT"), port1("ADPT_FMT")\n",
++			  ADPT_ARG(iface), ADPT_ARG(adapter));
++	} else {
++		adapter->hw_port = HW_PORT0;
++		iface->hw_port = HW_PORT1;
++		RTW_PRINT("port switch - port0("ADPT_FMT"), port1("ADPT_FMT")\n",
++			  ADPT_ARG(adapter), ADPT_ARG(iface));
++	}
++
++#ifdef DBG_RUNTIME_PORT_SWITCH
++	msr = rtw_read8(adapter, MSR);
++	bcn_ctrl = rtw_read8(adapter, REG_BCN_CTRL);
++	bcn_ctrl_1 = rtw_read8(adapter, REG_BCN_CTRL_1);
++
++	for (i = 0; i < 2; i++)
++		atimwnd[i] = rtw_read8(adapter, REG_ATIMWND + i);
++	for (i = 0; i < 2; i++)
++		atimwnd_1[i] = rtw_read8(adapter, REG_ATIMWND_1 + i);
++
++	for (i = 0; i < 8; i++)
++		tsftr[i] = rtw_read8(adapter, REG_TSFTR + i);
++	for (i = 0; i < 8; i++)
++		tsftr_1[i] = rtw_read8(adapter, REG_TSFTR1 + i);
++
++	for (i = 0; i < 6; i++)
++		macid[i] = rtw_read8(adapter, REG_MACID + i);
++
++	for (i = 0; i < 6; i++)
++		bssid[i] = rtw_read8(adapter, REG_BSSID + i);
++
++	for (i = 0; i < 6; i++)
++		macid_1[i] = rtw_read8(adapter, REG_MACID1 + i);
++
++	for (i = 0; i < 6; i++)
++		bssid_1[i] = rtw_read8(adapter, REG_BSSID1 + i);
++
++	RTW_INFO(FUNC_ADPT_FMT" after switch\n"
++		 "msr:0x%02x\n"
++		 "bcn_ctrl:0x%02x\n"
++		 "bcn_ctrl_1:0x%02x\n"
++		 "atimwnd:%u\n"
++		 "atimwnd_1:%u\n"
++		 "tsftr:%llu\n"
++		 "tsftr1:%llu\n"
++		 "macid:"MAC_FMT"\n"
++		 "bssid:"MAC_FMT"\n"
++		 "macid_1:"MAC_FMT"\n"
++		 "bssid_1:"MAC_FMT"\n"
++		 , FUNC_ADPT_ARG(adapter)
++		 , msr
++		 , bcn_ctrl
++		 , bcn_ctrl_1
++		 , *((u16 *)atimwnd)
++		 , *((u16 *)atimwnd_1)
++		 , *((u64 *)tsftr)
++		 , *((u64 *)tsftr_1)
++		 , MAC_ARG(macid)
++		 , MAC_ARG(bssid)
++		 , MAC_ARG(macid_1)
++		 , MAC_ARG(bssid_1)
++		);
++#endif /* DBG_RUNTIME_PORT_SWITCH */
++
++#endif /* CONFIG_RUNTIME_PORT_SWITCH */
++#endif /* CONFIG_CONCURRENT_MODE */
++}
++
++const char *const _h2c_msr_role_str[] = {
++	"RSVD",
++	"STA",
++	"AP",
++	"GC",
++	"GO",
++	"TDLS",
++	"ADHOC",
++	"INVALID",
++};
++
++/*
++* rtw_hal_set_FwMediaStatusRpt_cmd -
++*
++* @adapter:
++* @opmode:  0:disconnect, 1:connect
++* @miracast: 0:it's not in miracast scenario. 1:it's in miracast scenario
++* @miracast_sink: 0:source. 1:sink
++* @role: The role of this macid. 0:rsvd. 1:STA. 2:AP. 3:GC. 4:GO. 5:TDLS
++* @macid:
++* @macid_ind:  0:update Media Status to macid.  1:update Media Status from macid to macid_end
++* @macid_end:
++*/
++s32 rtw_hal_set_FwMediaStatusRpt_cmd(_adapter *adapter, bool opmode, bool miracast, bool miracast_sink, u8 role, u8 macid, bool macid_ind, u8 macid_end)
++{
++	struct macid_ctl_t *macid_ctl = &adapter->dvobj->macid_ctl;
++	u8 parm[H2C_MEDIA_STATUS_RPT_LEN] = {0};
++	int i;
++	s32 ret;
++
++	SET_H2CCMD_MSRRPT_PARM_OPMODE(parm, opmode);
++	SET_H2CCMD_MSRRPT_PARM_MACID_IND(parm, macid_ind);
++	SET_H2CCMD_MSRRPT_PARM_MIRACAST(parm, miracast);
++	SET_H2CCMD_MSRRPT_PARM_MIRACAST_SINK(parm, miracast_sink);
++	SET_H2CCMD_MSRRPT_PARM_ROLE(parm, role);
++	SET_H2CCMD_MSRRPT_PARM_MACID(parm, macid);
++	SET_H2CCMD_MSRRPT_PARM_MACID_END(parm, macid_end);
++
++	RTW_DBG_DUMP("MediaStatusRpt parm:", parm, H2C_MEDIA_STATUS_RPT_LEN);
++
++#ifdef CONFIG_DFS_MASTER
++	/* workaround for TXPAUSE cleared issue by FW's MediaStatusRpt handling */
++	if (macid_ind == 0 && macid == 1) {
++		u8 parm0_bak = parm[0];
++
++		SET_H2CCMD_MSRRPT_PARM_MACID_IND(&parm0_bak, 0);
++		if (macid_ctl->h2c_msr[macid] == parm0_bak) {
++			ret = _SUCCESS;
++			goto post_action;
++		}
++	}
++#endif
++
++	ret = rtw_hal_fill_h2c_cmd(adapter, H2C_MEDIA_STATUS_RPT, H2C_MEDIA_STATUS_RPT_LEN, parm);
++	if (ret != _SUCCESS)
++		goto exit;
++
++#ifdef CONFIG_DFS_MASTER
++post_action:
++#endif
++
++#if defined(CONFIG_RTL8188E)
++	if (rtw_get_chip_type(adapter) == RTL8188E) {
++		HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++
++		/* 8188E FW doesn't set macid no link, driver does it by self */
++		if (opmode)
++			rtw_hal_set_hwreg(adapter, HW_VAR_MACID_LINK, &macid);
++		else
++			rtw_hal_set_hwreg(adapter, HW_VAR_MACID_NOLINK, &macid);
++
++		/* for 8188E RA */
++#if (RATE_ADAPTIVE_SUPPORT == 1)
++		if (hal_data->fw_ractrl == _FALSE) {
++			u8 max_macid;
++
++			max_macid = rtw_search_max_mac_id(adapter);
++			rtw_hal_set_hwreg(adapter, HW_VAR_TX_RPT_MAX_MACID, &max_macid);
++		}
++#endif
++	}
++#endif
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++	/* TODO: this should move to IOT issue area */
++	if (rtw_get_chip_type(adapter) == RTL8812
++		|| rtw_get_chip_type(adapter) == RTL8821
++	) {
++		if (MLME_IS_STA(adapter))
++			Hal_PatchwithJaguar_8812(adapter, opmode);
++	}
++#endif
++
++	SET_H2CCMD_MSRRPT_PARM_MACID_IND(parm, 0);
++	if (macid_ind == 0)
++		macid_end = macid;
++
++	for (i = macid; macid <= macid_end; macid++) {
++		rtw_macid_ctl_set_h2c_msr(macid_ctl, macid, parm[0]);
++		if (!opmode) {
++			rtw_macid_ctl_set_bw(macid_ctl, macid, CHANNEL_WIDTH_20);
++			rtw_macid_ctl_set_vht_en(macid_ctl, macid, 0);
++			rtw_macid_ctl_set_rate_bmp0(macid_ctl, macid, 0);
++			rtw_macid_ctl_set_rate_bmp1(macid_ctl, macid, 0);
++		}
++	}
++	if (!opmode)
++		rtw_update_tx_rate_bmp(adapter_to_dvobj(adapter));
++
++exit:
++	return ret;
++}
++
++inline s32 rtw_hal_set_FwMediaStatusRpt_single_cmd(_adapter *adapter, bool opmode, bool miracast, bool miracast_sink, u8 role, u8 macid)
++{
++	return rtw_hal_set_FwMediaStatusRpt_cmd(adapter, opmode, miracast, miracast_sink, role, macid, 0, 0);
++}
++
++inline s32 rtw_hal_set_FwMediaStatusRpt_range_cmd(_adapter *adapter, bool opmode, bool miracast, bool miracast_sink, u8 role, u8 macid, u8 macid_end)
++{
++	return rtw_hal_set_FwMediaStatusRpt_cmd(adapter, opmode, miracast, miracast_sink, role, macid, 1, macid_end);
++}
++
++void rtw_hal_set_FwRsvdPage_cmd(PADAPTER padapter, PRSVDPAGE_LOC rsvdpageloc)
++{
++	struct	hal_ops *pHalFunc = &padapter->HalFunc;
++	u8	u1H2CRsvdPageParm[H2C_RSVDPAGE_LOC_LEN] = {0};
++	u8	ret = 0;
++
++	RTW_INFO("RsvdPageLoc: ProbeRsp=%d PsPoll=%d Null=%d QoSNull=%d BTNull=%d\n",
++		 rsvdpageloc->LocProbeRsp, rsvdpageloc->LocPsPoll,
++		 rsvdpageloc->LocNullData, rsvdpageloc->LocQosNull,
++		 rsvdpageloc->LocBTQosNull);
++
++	SET_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(u1H2CRsvdPageParm, rsvdpageloc->LocProbeRsp);
++	SET_H2CCMD_RSVDPAGE_LOC_PSPOLL(u1H2CRsvdPageParm, rsvdpageloc->LocPsPoll);
++	SET_H2CCMD_RSVDPAGE_LOC_NULL_DATA(u1H2CRsvdPageParm, rsvdpageloc->LocNullData);
++	SET_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(u1H2CRsvdPageParm, rsvdpageloc->LocQosNull);
++	SET_H2CCMD_RSVDPAGE_LOC_BT_QOS_NULL_DATA(u1H2CRsvdPageParm, rsvdpageloc->LocBTQosNull);
++
++	ret = rtw_hal_fill_h2c_cmd(padapter,
++				   H2C_RSVD_PAGE,
++				   H2C_RSVDPAGE_LOC_LEN,
++				   u1H2CRsvdPageParm);
++
++}
++
++#ifdef CONFIG_GPIO_WAKEUP
++void rtw_hal_switch_gpio_wl_ctrl(_adapter *padapter, u8 index, u8 enable)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++
++	if (IS_8723D_SERIES(pHalData->VersionID))
++		rtw_hal_set_hwreg(padapter, HW_SET_GPIO_WL_CTRL, (u8 *)(&enable));
++	/*
++	* Switch GPIO_13, GPIO_14 to wlan control, or pull GPIO_13,14 MUST fail.
++	* It happended at 8723B/8192E/8821A. New IC will check multi function GPIO,
++	* and implement HAL function.
++	* TODO: GPIO_8 multi function?
++	*/
++
++	if (index == 13 || index == 14)
++		rtw_hal_set_hwreg(padapter, HW_SET_GPIO_WL_CTRL, (u8 *)(&enable));
++}
++
++void rtw_hal_set_output_gpio(_adapter *padapter, u8 index, u8 outputval)
++{
++	if (index <= 7) {
++		/* config GPIO mode */
++		rtw_write8(padapter, REG_GPIO_PIN_CTRL + 3,
++			rtw_read8(padapter, REG_GPIO_PIN_CTRL + 3) & ~BIT(index));
++
++		/* config GPIO Sel */
++		/* 0: input */
++		/* 1: output */
++		rtw_write8(padapter, REG_GPIO_PIN_CTRL + 2,
++			rtw_read8(padapter, REG_GPIO_PIN_CTRL + 2) | BIT(index));
++
++		/* set output value */
++		if (outputval) {
++			rtw_write8(padapter, REG_GPIO_PIN_CTRL + 1,
++				rtw_read8(padapter, REG_GPIO_PIN_CTRL + 1) | BIT(index));
++		} else {
++			rtw_write8(padapter, REG_GPIO_PIN_CTRL + 1,
++				rtw_read8(padapter, REG_GPIO_PIN_CTRL + 1) & ~BIT(index));
++		}
++	} else if (index <= 15) {
++		/* 88C Series: */
++		/* index: 11~8 transform to 3~0 */
++		/* 8723 Series: */
++		/* index: 12~8 transform to 4~0 */
++
++		index -= 8;
++
++		/* config GPIO mode */
++		rtw_write8(padapter, REG_GPIO_PIN_CTRL_2 + 3,
++			rtw_read8(padapter, REG_GPIO_PIN_CTRL_2 + 3) & ~BIT(index));
++
++		/* config GPIO Sel */
++		/* 0: input */
++		/* 1: output */
++		rtw_write8(padapter, REG_GPIO_PIN_CTRL_2 + 2,
++			rtw_read8(padapter, REG_GPIO_PIN_CTRL_2 + 2) | BIT(index));
++
++		/* set output value */
++		if (outputval) {
++			rtw_write8(padapter, REG_GPIO_PIN_CTRL_2 + 1,
++				rtw_read8(padapter, REG_GPIO_PIN_CTRL_2 + 1) | BIT(index));
++		} else {
++			rtw_write8(padapter, REG_GPIO_PIN_CTRL_2 + 1,
++				rtw_read8(padapter, REG_GPIO_PIN_CTRL_2 + 1) & ~BIT(index));
++		}
++	} else {
++		RTW_INFO("%s: invalid GPIO%d=%d\n",
++			 __FUNCTION__, index, outputval);
++	}
++}
++#endif
++
++void rtw_hal_set_FwAoacRsvdPage_cmd(PADAPTER padapter, PRSVDPAGE_LOC rsvdpageloc)
++{
++	struct	hal_ops *pHalFunc = &padapter->HalFunc;
++	struct	pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	u8	res = 0, count = 0, ret = 0;
++#ifdef CONFIG_WOWLAN
++	u8 u1H2CAoacRsvdPageParm[H2C_AOAC_RSVDPAGE_LOC_LEN] = {0};
++
++	RTW_INFO("AOACRsvdPageLoc: RWC=%d ArpRsp=%d NbrAdv=%d GtkRsp=%d GtkInfo=%d ProbeReq=%d NetworkList=%d\n",
++		 rsvdpageloc->LocRemoteCtrlInfo, rsvdpageloc->LocArpRsp,
++		 rsvdpageloc->LocNbrAdv, rsvdpageloc->LocGTKRsp,
++		 rsvdpageloc->LocGTKInfo, rsvdpageloc->LocProbeReq,
++		 rsvdpageloc->LocNetList);
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED)) {
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_REMOTE_WAKE_CTRL_INFO(u1H2CAoacRsvdPageParm, rsvdpageloc->LocRemoteCtrlInfo);
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_ARP_RSP(u1H2CAoacRsvdPageParm, rsvdpageloc->LocArpRsp);
++		/* SET_H2CCMD_AOAC_RSVDPAGE_LOC_NEIGHBOR_ADV(u1H2CAoacRsvdPageParm, rsvdpageloc->LocNbrAdv); */
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_GTK_RSP(u1H2CAoacRsvdPageParm, rsvdpageloc->LocGTKRsp);
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_GTK_INFO(u1H2CAoacRsvdPageParm, rsvdpageloc->LocGTKInfo);
++#ifdef CONFIG_GTK_OL
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_GTK_EXT_MEM(u1H2CAoacRsvdPageParm, rsvdpageloc->LocGTKEXTMEM);
++#endif /* CONFIG_GTK_OL */
++		ret = rtw_hal_fill_h2c_cmd(padapter,
++					   H2C_AOAC_RSVD_PAGE,
++					   H2C_AOAC_RSVDPAGE_LOC_LEN,
++					   u1H2CAoacRsvdPageParm);
++	}
++#ifdef CONFIG_PNO_SUPPORT
++	else {
++
++		if (!pwrpriv->pno_in_resume) {
++			RTW_INFO("NLO_INFO=%d\n", rsvdpageloc->LocPNOInfo);
++			_rtw_memset(&u1H2CAoacRsvdPageParm, 0,
++				    sizeof(u1H2CAoacRsvdPageParm));
++			SET_H2CCMD_AOAC_RSVDPAGE_LOC_NLO_INFO(u1H2CAoacRsvdPageParm,
++						      rsvdpageloc->LocPNOInfo);
++			ret = rtw_hal_fill_h2c_cmd(padapter,
++						   H2C_AOAC_RSVDPAGE3,
++						   H2C_AOAC_RSVDPAGE_LOC_LEN,
++						   u1H2CAoacRsvdPageParm);
++		}
++	}
++#endif /* CONFIG_PNO_SUPPORT */
++#endif /* CONFIG_WOWLAN */
++}
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++static void rtw_hal_force_enable_rxdma(_adapter *adapter)
++{
++	RTW_INFO("%s: Set 0x690=0x00\n", __func__);
++	rtw_write8(adapter, REG_WOW_CTRL,
++		   (rtw_read8(adapter, REG_WOW_CTRL) & 0xf0));
++	RTW_PRINT("%s: Release RXDMA\n", __func__);
++	rtw_write32(adapter, REG_RXPKT_NUM,
++		    (rtw_read32(adapter, REG_RXPKT_NUM) & (~RW_RELEASE_EN)));
++}
++
++static void rtw_hal_disable_tx_report(_adapter *adapter)
++{
++	rtw_write8(adapter, REG_TX_RPT_CTRL,
++		   ((rtw_read8(adapter, REG_TX_RPT_CTRL) & ~BIT(1))) & ~BIT(5));
++	RTW_INFO("disable TXRPT:0x%02x\n", rtw_read8(adapter, REG_TX_RPT_CTRL));
++}
++
++static void rtw_hal_enable_tx_report(_adapter *adapter)
++{
++	rtw_write8(adapter, REG_TX_RPT_CTRL,
++		   ((rtw_read8(adapter, REG_TX_RPT_CTRL) | BIT(1))) | BIT(5));
++	RTW_INFO("enable TX_RPT:0x%02x\n", rtw_read8(adapter, REG_TX_RPT_CTRL));
++}
++
++static void rtw_hal_release_rx_dma(_adapter *adapter)
++{
++	u32 val32 = 0;
++
++	val32 = rtw_read32(adapter, REG_RXPKT_NUM);
++
++	rtw_write32(adapter, REG_RXPKT_NUM, (val32 & (~RW_RELEASE_EN)));
++
++	RTW_INFO("%s, [0x%04x]: 0x%08x\n",
++		 __func__, REG_RXPKT_NUM, (val32 & (~RW_RELEASE_EN)));
++}
++
++static u8 rtw_hal_pause_rx_dma(_adapter *adapter)
++{
++	PHAL_DATA_TYPE hal = GET_HAL_DATA(adapter);
++	u8 ret = 0;
++	s8 trycnt = 100;
++	u16 len = 0;
++	u32 tmp = 0;
++	int res = 0;
++	/* RX DMA stop */
++	RTW_PRINT("Pause DMA\n");
++	rtw_write32(adapter, REG_RXPKT_NUM,
++		    (rtw_read32(adapter, REG_RXPKT_NUM) | RW_RELEASE_EN));
++	do {
++		if ((rtw_read32(adapter, REG_RXPKT_NUM) & RXDMA_IDLE)) {
++#ifdef CONFIG_USB_HCI
++			/* stop interface before leave */
++			if (_TRUE == hal->usb_intf_start) {
++				rtw_intf_stop(adapter);
++				RTW_ENABLE_FUNC(adapter, DF_RX_BIT);
++				RTW_ENABLE_FUNC(adapter, DF_TX_BIT);
++			}
++#endif /* CONFIG_USB_HCI */
++
++			RTW_PRINT("RX_DMA_IDLE is true\n");
++			ret = _SUCCESS;
++			break;
++		}
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		else {
++			/* If RX_DMA is not idle, receive one pkt from DMA */
++			res = sdio_local_read(adapter,
++				      SDIO_REG_RX0_REQ_LEN, 4, (u8 *)&tmp);
++			len = le16_to_cpu(tmp);
++			RTW_PRINT("RX len:%d\n", len);
++
++			if (len > 0)
++				res = RecvOnePkt(adapter, len);
++			else
++				RTW_PRINT("read length fail %d\n", len);
++
++			RTW_PRINT("RecvOnePkt Result: %d\n", res);
++		}
++#endif /* CONFIG_SDIO_HCI || CONFIG_GSPI_HCI */
++
++#ifdef CONFIG_USB_HCI
++		else {
++			/* to avoid interface start repeatedly  */
++			if (_FALSE == hal->usb_intf_start)
++				rtw_intf_start(adapter);
++		}
++#endif /* CONFIG_USB_HCI */
++	} while (trycnt--);
++
++	if (trycnt < 0) {
++		tmp = rtw_read16(adapter, REG_RXPKT_NUM + 3);
++
++		RTW_PRINT("Stop RX DMA failed......\n");
++		RTW_PRINT("%s, RXPKT_NUM: 0x%04x\n",
++			  __func__, tmp);
++		tmp = rtw_read16(adapter, REG_RXPKT_NUM + 2);
++		if (tmp & BIT(3))
++			RTW_PRINT("%s, RX DMA has req\n",
++				  __func__);
++		else
++			RTW_PRINT("%s, RX DMA no req\n",
++				  __func__);
++		ret = _FAIL;
++	}
++
++	return ret;
++}
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++static u8 rtw_hal_enable_cpwm2(_adapter *adapter)
++{
++	u8 ret = 0;
++	int res = 0;
++	u32 tmp = 0;
++#ifdef CONFIG_GPIO_WAKEUP
++	return _SUCCESS;
++#else
++	RTW_PRINT("%s\n", __func__);
++
++	res = sdio_local_read(adapter, SDIO_REG_HIMR, 4, (u8 *)&tmp);
++	if (!res)
++		RTW_INFO("read SDIO_REG_HIMR: 0x%08x\n", tmp);
++	else
++		RTW_INFO("sdio_local_read fail\n");
++
++	tmp = SDIO_HIMR_CPWM2_MSK;
++
++	res = sdio_local_write(adapter, SDIO_REG_HIMR, 4, (u8 *)&tmp);
++
++	if (!res) {
++		res = sdio_local_read(adapter, SDIO_REG_HIMR, 4, (u8 *)&tmp);
++		RTW_INFO("read again SDIO_REG_HIMR: 0x%08x\n", tmp);
++		ret = _SUCCESS;
++	} else {
++		RTW_INFO("sdio_local_write fail\n");
++		ret = _FAIL;
++	}
++
++	return ret;
++#endif /* CONFIG_CPIO_WAKEUP */
++}
++#endif /* CONFIG_SDIO_HCI, CONFIG_GSPI_HCI */
++#endif /* CONFIG_WOWLAN || CONFIG_AP_WOWLAN */
++
++#ifdef CONFIG_WOWLAN
++/*
++ * rtw_hal_check_wow_ctrl
++ * chk_type: _TRUE means to check enable, if 0x690 & bit1, WOW enable successful
++ *		     _FALSE means to check disable, if 0x690 & bit1, WOW disable fail
++ */
++static u8 rtw_hal_check_wow_ctrl(_adapter *adapter, u8 chk_type)
++{
++	u8 mstatus = 0;
++	u8 trycnt = 25;
++	u8 res = _FALSE;
++
++	mstatus = rtw_read8(adapter, REG_WOW_CTRL);
++	RTW_INFO("%s mstatus:0x%02x\n", __func__, mstatus);
++
++	if (chk_type) {
++		while (!(mstatus & BIT1) && trycnt > 1) {
++			mstatus = rtw_read8(adapter, REG_WOW_CTRL);
++			RTW_PRINT("Loop index: %d :0x%02x\n",
++				  trycnt, mstatus);
++			trycnt--;
++			rtw_msleep_os(20);
++		}
++		if (mstatus & BIT1)
++			res = _TRUE;
++		else
++			res = _FALSE;
++	} else {
++		while (mstatus & BIT1 && trycnt > 1) {
++			mstatus = rtw_read8(adapter, REG_WOW_CTRL);
++			RTW_PRINT("Loop index: %d :0x%02x\n",
++				  trycnt, mstatus);
++			trycnt--;
++			rtw_msleep_os(20);
++		}
++
++		if (mstatus & BIT1)
++			res = _FALSE;
++		else
++			res = _TRUE;
++	}
++	RTW_PRINT("%s check_type: %d res: %d trycnt: %d\n",
++		  __func__, chk_type, res, (25 - trycnt));
++	return res;
++}
++
++#ifdef CONFIG_PNO_SUPPORT
++static u8 rtw_hal_check_pno_enabled(_adapter *adapter)
++{
++	struct pwrctrl_priv *ppwrpriv = adapter_to_pwrctl(adapter);
++	u8 res = 0, count = 0;
++	u8 ret = _FALSE;
++
++	if (ppwrpriv->wowlan_pno_enable && ppwrpriv->pno_in_resume == _FALSE) {
++		res = rtw_read8(adapter, REG_PNO_STATUS);
++		while (!(res & BIT(7)) && count < 25) {
++			RTW_INFO("[%d] cmd: 0x81 REG_PNO_STATUS: 0x%02x\n",
++				 count, res);
++			res = rtw_read8(adapter, REG_PNO_STATUS);
++			count++;
++			rtw_msleep_os(2);
++		}
++		if (res & BIT(7))
++			ret = _TRUE;
++		else
++			ret = _FALSE;
++		RTW_INFO("cmd: 0x81 REG_PNO_STATUS: ret(%d)\n", ret);
++	}
++	return ret;
++}
++#endif
++
++static void rtw_hal_backup_rate(_adapter *adapter)
++{
++	RTW_INFO("%s\n", __func__);
++	/* backup data rate to register 0x8b for wowlan FW */
++	rtw_write8(adapter, 0x8d, 1);
++	rtw_write8(adapter, 0x8c, 0);
++	rtw_write8(adapter, 0x8f, 0x40);
++	rtw_write8(adapter, 0x8b, rtw_read8(adapter, 0x2f0));
++}
++
++#ifdef CONFIG_GTK_OL
++static void rtw_hal_fw_sync_cam_id(_adapter *adapter)
++{
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	int cam_id, index = 0;
++	u8 *addr = NULL;
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		return;
++
++	addr = get_bssid(pmlmepriv);
++
++	if (addr == NULL) {
++		RTW_INFO("%s: get bssid MAC addr fail!!\n", __func__);
++		return;
++	}
++
++	rtw_clean_dk_section(adapter);
++
++	do {
++		cam_id = rtw_camid_search(adapter, addr, index, 1);
++
++		if (cam_id == -1)
++			RTW_INFO("%s: cam_id: %d, key_id:%d\n", __func__, cam_id, index);
++		else
++			rtw_sec_cam_swap(adapter, cam_id, index);
++
++		index++;
++	} while (index < 4);
++
++	rtw_write8(adapter, REG_SECCFG, 0xcc);
++}
++static void rtw_hal_update_gtk_offload_info(_adapter *adapter)
++{
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++	u8 get_key[16];
++	u8 gtk_keyindex = 0;
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		return;
++
++	_rtw_memset(get_key, 0, sizeof(get_key));
++
++	if (psecuritypriv->binstallKCK_KEK == _TRUE) {
++
++		/*read gtk key index*/
++		gtk_keyindex = rtw_read8(adapter, 0x48c);
++
++		if (gtk_keyindex > 4) {
++			RTW_INFO("%s [ERROR] gtk_keyindex:%d invalid\n", __func__, gtk_keyindex);
++			rtw_warn_on(1);
++			return;
++		}
++		/*read key from sec-cam,for DK ,keyindex is equal to cam-id*/
++		rtw_sec_read_cam_ent(adapter, gtk_keyindex, NULL, NULL, get_key);
++
++			/*update key into related sw variable and sec-cam cache*/
++		psecuritypriv->dot118021XGrpKeyid = gtk_keyindex;
++		_rtw_memcpy(psecuritypriv->dot118021XGrpKey[gtk_keyindex].skey, get_key, 16);
++
++		rtw_clean_hw_dk_cam(adapter);
++		if (_rtw_camid_is_gk(adapter, gtk_keyindex)) {
++			_enter_critical_bh(&cam_ctl->lock, &irqL);
++			_rtw_memcpy(&dvobj->cam_cache[gtk_keyindex].key, get_key, 16);
++			_exit_critical_bh(&cam_ctl->lock, &irqL);
++		} else {
++			struct setkey_parm aes_gtk;
++
++			aes_gtk.algorithm = _AES_;
++			aes_gtk.keyid = gtk_keyindex;
++			_rtw_memcpy(aes_gtk.key, get_key, 16);
++			setkey_hdl(adapter, (u8 *)&aes_gtk);
++		}
++		rtw_clean_dk_section(adapter);
++
++		RTW_PRINT("GTK (%d) "KEY_FMT"\n",
++			  gtk_keyindex,
++			KEY_ARG(psecuritypriv->dot118021XGrpKey[gtk_keyindex].skey));
++
++		rtw_write8(adapter, REG_SECCFG, 0x0c);
++
++		#ifdef CONFIG_GTK_OL_DBG
++		/* if (gtk_keyindex != 5) */
++		dump_sec_cam(RTW_DBGDUMP, adapter);
++		dump_sec_cam_cache(RTW_DBGDUMP, adapter);
++		#endif
++	}
++}
++#endif
++
++static void rtw_hal_update_tx_iv(_adapter *adapter)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(adapter);
++	u64 iv_low = 0, iv_high = 0;
++
++	/* 3.1 read fw iv */
++	iv_low = rtw_read32(adapter, REG_TXPKTBUF_IV_LOW);
++	/* only low two bytes is PN, check AES_IV macro for detail */
++	iv_low &= 0xffff;
++	iv_high = rtw_read32(adapter, REG_TXPKTBUF_IV_HIGH);
++	/* get the real packet number */
++	pwrctl->wowlan_fw_iv = iv_high << 16 | iv_low;
++	RTW_PRINT("fw_iv: 0x%016llx\n", pwrctl->wowlan_fw_iv);
++	/* Update TX iv data. */
++	rtw_set_sec_pn(adapter);
++}
++
++static u8 rtw_hal_set_keep_alive_cmd(_adapter *adapter, u8 enable, u8 pkt_type)
++{
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++
++	u8 u1H2CKeepAliveParm[H2C_KEEP_ALIVE_CTRL_LEN] = {0};
++	u8 adopt = 1, check_period = 5;
++	u8 ret = _FAIL;
++
++	RTW_INFO("%s(): enable = %d\n", __func__, enable);
++	SET_H2CCMD_KEEPALIVE_PARM_ENABLE(u1H2CKeepAliveParm, enable);
++	SET_H2CCMD_KEEPALIVE_PARM_ADOPT(u1H2CKeepAliveParm, adopt);
++	SET_H2CCMD_KEEPALIVE_PARM_PKT_TYPE(u1H2CKeepAliveParm, pkt_type);
++	SET_H2CCMD_KEEPALIVE_PARM_CHECK_PERIOD(u1H2CKeepAliveParm, check_period);
++
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_KEEP_ALIVE,
++				   H2C_KEEP_ALIVE_CTRL_LEN,
++				   u1H2CKeepAliveParm);
++
++	return ret;
++}
++
++static u8 rtw_hal_set_disconnect_decision_cmd(_adapter *adapter, u8 enable)
++{
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	u8 u1H2CDisconDecisionParm[H2C_DISCON_DECISION_LEN] = {0};
++	u8 adopt = 1, check_period = 10, trypkt_num = 0;
++	u8 ret = _FAIL;
++
++	RTW_INFO("%s(): enable = %d\n", __func__, enable);
++	SET_H2CCMD_DISCONDECISION_PARM_ENABLE(u1H2CDisconDecisionParm, enable);
++	SET_H2CCMD_DISCONDECISION_PARM_ADOPT(u1H2CDisconDecisionParm, adopt);
++	SET_H2CCMD_DISCONDECISION_PARM_CHECK_PERIOD(u1H2CDisconDecisionParm, check_period);
++	SET_H2CCMD_DISCONDECISION_PARM_TRY_PKT_NUM(u1H2CDisconDecisionParm, trypkt_num);
++
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_DISCON_DECISION,
++				   H2C_DISCON_DECISION_LEN,
++				   u1H2CDisconDecisionParm);
++	return ret;
++}
++
++static u8 rtw_hal_set_wowlan_ctrl_cmd(_adapter *adapter, u8 enable, u8 change_unit)
++{
++	struct security_priv *psecpriv = &adapter->securitypriv;
++	struct pwrctrl_priv *ppwrpriv = adapter_to_pwrctl(adapter);
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++
++	u8 u1H2CWoWlanCtrlParm[H2C_WOWLAN_LEN] = {0};
++	u8 discont_wake = 1, gpionum = 0, gpio_dur = 0;
++	u8 hw_unicast = 0, gpio_pulse_cnt = 0, gpio_pulse_en = 0;
++	u8 sdio_wakeup_enable = 1;
++	u8 gpio_high_active = 0;
++	u8 magic_pkt = 0;
++	u8 gpio_unit = 0; /*0: 64ns, 1: 8ms*/
++	u8 ret = _FAIL;
++
++#ifdef CONFIG_GPIO_WAKEUP
++	gpio_high_active = ppwrpriv->is_high_active;
++	gpionum = WAKEUP_GPIO_IDX;
++	sdio_wakeup_enable = 0;
++#endif /* CONFIG_GPIO_WAKEUP */
++
++	if (!ppwrpriv->wowlan_pno_enable)
++		magic_pkt = enable;
++
++	if (psecpriv->dot11PrivacyAlgrthm == _WEP40_ || psecpriv->dot11PrivacyAlgrthm == _WEP104_)
++		hw_unicast = 1;
++	else
++		hw_unicast = 0;
++
++	RTW_INFO("%s(): enable=%d change_unit=%d\n", __func__,
++		 enable, change_unit);
++
++	/* time = (gpio_dur/2) * gpio_unit, default:256 ms */
++	if (enable && change_unit) {
++		gpio_dur = 0x40;
++		gpio_unit = 1;
++		gpio_pulse_en = 1;
++	}
++
++#ifdef CONFIG_PLATFORM_ARM_RK3188
++	if (enable) {
++		gpio_pulse_en = 1;
++		gpio_pulse_cnt = 0x04;
++	}
++#endif
++
++	SET_H2CCMD_WOWLAN_FUNC_ENABLE(u1H2CWoWlanCtrlParm, enable);
++	SET_H2CCMD_WOWLAN_PATTERN_MATCH_ENABLE(u1H2CWoWlanCtrlParm, enable);
++	SET_H2CCMD_WOWLAN_MAGIC_PKT_ENABLE(u1H2CWoWlanCtrlParm, magic_pkt);
++	SET_H2CCMD_WOWLAN_UNICAST_PKT_ENABLE(u1H2CWoWlanCtrlParm, hw_unicast);
++	SET_H2CCMD_WOWLAN_ALL_PKT_DROP(u1H2CWoWlanCtrlParm, 0);
++	SET_H2CCMD_WOWLAN_GPIO_ACTIVE(u1H2CWoWlanCtrlParm, gpio_high_active);
++
++#ifdef CONFIG_GTK_OL
++	if (enable == _TRUE) {
++		/* GTK rekey only for AES, if GTK rekey is TKIP, then wake up*/
++		if (psecpriv->dot118021XGrpPrivacy == _AES_)
++			SET_H2CCMD_WOWLAN_REKEY_WAKE_UP(u1H2CWoWlanCtrlParm, 0);
++		else if (psecpriv->dot118021XGrpPrivacy == _TKIP_)
++			SET_H2CCMD_WOWLAN_REKEY_WAKE_UP(u1H2CWoWlanCtrlParm, 1);
++	}
++#else
++	SET_H2CCMD_WOWLAN_REKEY_WAKE_UP(u1H2CWoWlanCtrlParm, enable);
++#endif
++	SET_H2CCMD_WOWLAN_DISCONNECT_WAKE_UP(u1H2CWoWlanCtrlParm, discont_wake);
++	SET_H2CCMD_WOWLAN_GPIONUM(u1H2CWoWlanCtrlParm, gpionum);
++	SET_H2CCMD_WOWLAN_DATAPIN_WAKE_UP(u1H2CWoWlanCtrlParm, sdio_wakeup_enable);
++
++	SET_H2CCMD_WOWLAN_GPIO_DURATION(u1H2CWoWlanCtrlParm, gpio_dur);
++	SET_H2CCMD_WOWLAN_CHANGE_UNIT(u1H2CWoWlanCtrlParm, gpio_unit);
++
++	SET_H2CCMD_WOWLAN_GPIO_PULSE_EN(u1H2CWoWlanCtrlParm, gpio_pulse_en);
++	SET_H2CCMD_WOWLAN_GPIO_PULSE_COUNT(u1H2CWoWlanCtrlParm, gpio_pulse_cnt);
++
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_WOWLAN,
++				   H2C_WOWLAN_LEN,
++				   u1H2CWoWlanCtrlParm);
++	return ret;
++}
++
++static u8 rtw_hal_set_remote_wake_ctrl_cmd(_adapter *adapter, u8 enable)
++{
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	struct security_priv *psecuritypriv = &(adapter->securitypriv);
++	struct pwrctrl_priv *ppwrpriv = adapter_to_pwrctl(adapter);
++	struct registry_priv *pregistrypriv = &adapter->registrypriv;
++	u8 u1H2CRemoteWakeCtrlParm[H2C_REMOTE_WAKE_CTRL_LEN] = {0};
++	u8 ret = _FAIL, count = 0;
++
++	RTW_INFO("%s(): enable=%d\n", __func__, enable);
++
++	if (!ppwrpriv->wowlan_pno_enable) {
++		SET_H2CCMD_REMOTE_WAKECTRL_ENABLE(
++			u1H2CRemoteWakeCtrlParm, enable);
++		SET_H2CCMD_REMOTE_WAKE_CTRL_ARP_OFFLOAD_EN(
++			u1H2CRemoteWakeCtrlParm, 1);
++#ifdef CONFIG_GTK_OL
++		if (psecuritypriv->binstallKCK_KEK == _TRUE &&
++		    psecuritypriv->dot11PrivacyAlgrthm == _AES_ &&
++		    psecuritypriv->dot118021XGrpPrivacy == _AES_) {
++			SET_H2CCMD_REMOTE_WAKE_CTRL_GTK_OFFLOAD_EN(
++				u1H2CRemoteWakeCtrlParm, 1);
++		} else {
++			RTW_INFO("no kck or security is not AES\n");
++			SET_H2CCMD_REMOTE_WAKE_CTRL_GTK_OFFLOAD_EN(
++				u1H2CRemoteWakeCtrlParm, 0);
++		}
++#endif /* CONFIG_GTK_OL */
++
++		if (pregistrypriv->default_patterns_en == _FALSE) {
++			SET_H2CCMD_REMOTE_WAKE_CTRL_FW_UNICAST_EN(
++				u1H2CRemoteWakeCtrlParm, enable);
++			/*
++			 * filter NetBios name service pkt to avoid being waked-up
++			 * by this kind of unicast pkt this exceptional modification
++			 * is used for match competitor's behavior
++			 */
++			SET_H2CCMD_REMOTE_WAKE_CTRL_NBNS_FILTER_EN(
++				u1H2CRemoteWakeCtrlParm, enable);
++		}
++
++		if ((psecuritypriv->dot11PrivacyAlgrthm == _AES_) ||
++		    (psecuritypriv->dot11PrivacyAlgrthm == _NO_PRIVACY_)) {
++			SET_H2CCMD_REMOTE_WAKE_CTRL_ARP_ACTION(
++				u1H2CRemoteWakeCtrlParm, 0);
++		} else {
++			SET_H2CCMD_REMOTE_WAKE_CTRL_ARP_ACTION(
++				u1H2CRemoteWakeCtrlParm, 1);
++		}
++
++		SET_H2CCMD_REMOTE_WAKE_CTRL_FW_PARSING_UNTIL_WAKEUP(
++			u1H2CRemoteWakeCtrlParm, 1);
++	}
++#ifdef CONFIG_PNO_SUPPORT
++	else {
++		SET_H2CCMD_REMOTE_WAKECTRL_ENABLE(
++			u1H2CRemoteWakeCtrlParm, enable);
++		SET_H2CCMD_REMOTE_WAKE_CTRL_NLO_OFFLOAD_EN(
++			u1H2CRemoteWakeCtrlParm, enable);
++	}
++#endif
++
++#ifdef CONFIG_P2P_WOWLAN
++	if (_TRUE == ppwrpriv->wowlan_p2p_mode) {
++		RTW_INFO("P2P OFFLOAD ENABLE\n");
++		SET_H2CCMD_REMOTE_WAKE_CTRL_P2P_OFFLAD_EN(u1H2CRemoteWakeCtrlParm, 1);
++	} else {
++		RTW_INFO("P2P OFFLOAD DISABLE\n");
++		SET_H2CCMD_REMOTE_WAKE_CTRL_P2P_OFFLAD_EN(u1H2CRemoteWakeCtrlParm, 0);
++	}
++#endif /* CONFIG_P2P_WOWLAN */
++
++
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_REMOTE_WAKE_CTRL,
++				   H2C_REMOTE_WAKE_CTRL_LEN,
++				   u1H2CRemoteWakeCtrlParm);
++	return ret;
++}
++
++static u8 rtw_hal_set_global_info_cmd(_adapter *adapter, u8 group_alg, u8 pairwise_alg)
++{
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	u8 ret = _FAIL;
++	u8 u1H2CAOACGlobalInfoParm[H2C_AOAC_GLOBAL_INFO_LEN] = {0};
++
++	RTW_INFO("%s(): group_alg=%d pairwise_alg=%d\n",
++		 __func__, group_alg, pairwise_alg);
++	SET_H2CCMD_AOAC_GLOBAL_INFO_PAIRWISE_ENC_ALG(u1H2CAOACGlobalInfoParm,
++			pairwise_alg);
++	SET_H2CCMD_AOAC_GLOBAL_INFO_GROUP_ENC_ALG(u1H2CAOACGlobalInfoParm,
++			group_alg);
++
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_AOAC_GLOBAL_INFO,
++				   H2C_AOAC_GLOBAL_INFO_LEN,
++				   u1H2CAOACGlobalInfoParm);
++
++	return ret;
++}
++
++#ifdef CONFIG_PNO_SUPPORT
++static u8 rtw_hal_set_scan_offload_info_cmd(_adapter *adapter,
++		PRSVDPAGE_LOC rsvdpageloc, u8 enable)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++
++	u8 u1H2CScanOffloadInfoParm[H2C_SCAN_OFFLOAD_CTRL_LEN] = {0};
++	u8 res = 0, count = 0, ret = _FAIL;
++
++	RTW_INFO("%s: loc_probe_packet:%d, loc_scan_info: %d loc_ssid_info:%d\n",
++		 __func__, rsvdpageloc->LocProbePacket,
++		 rsvdpageloc->LocScanInfo, rsvdpageloc->LocSSIDInfo);
++
++	SET_H2CCMD_AOAC_NLO_FUN_EN(u1H2CScanOffloadInfoParm, enable);
++	SET_H2CCMD_AOAC_NLO_IPS_EN(u1H2CScanOffloadInfoParm, enable);
++	SET_H2CCMD_AOAC_RSVDPAGE_LOC_SCAN_INFO(u1H2CScanOffloadInfoParm,
++					       rsvdpageloc->LocScanInfo);
++	SET_H2CCMD_AOAC_RSVDPAGE_LOC_PROBE_PACKET(u1H2CScanOffloadInfoParm,
++			rsvdpageloc->LocProbePacket);
++	/*
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_SSID_INFO(u1H2CScanOffloadInfoParm,
++				rsvdpageloc->LocSSIDInfo);
++	*/
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_D0_SCAN_OFFLOAD_INFO,
++				   H2C_SCAN_OFFLOAD_CTRL_LEN,
++				   u1H2CScanOffloadInfoParm);
++	return ret;
++}
++#endif /* CONFIG_PNO_SUPPORT */
++
++void rtw_hal_set_fw_wow_related_cmd(_adapter *padapter, u8 enable)
++{
++	struct security_priv *psecpriv = &padapter->securitypriv;
++	struct pwrctrl_priv *ppwrpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct sta_info *psta = NULL;
++	u16 media_status_rpt;
++	u8	pkt_type = 0;
++	u8 ret = _SUCCESS;
++
++	RTW_PRINT("+%s()+: enable=%d\n", __func__, enable);
++
++	rtw_hal_set_wowlan_ctrl_cmd(padapter, enable, _FALSE);
++
++	if (enable) {
++		rtw_hal_set_global_info_cmd(padapter,
++					    psecpriv->dot118021XGrpPrivacy,
++					    psecpriv->dot11PrivacyAlgrthm);
++
++		if (!(ppwrpriv->wowlan_pno_enable)) {
++			rtw_hal_set_disconnect_decision_cmd(padapter, enable);
++#ifdef CONFIG_ARP_KEEP_ALIVE
++			if ((psecpriv->dot11PrivacyAlgrthm == _WEP40_) ||
++			    (psecpriv->dot11PrivacyAlgrthm == _WEP104_))
++				pkt_type = 0;
++			else
++				pkt_type = 1;
++#else
++			pkt_type = 0;
++#endif /* CONFIG_ARP_KEEP_ALIVE */
++			rtw_hal_set_keep_alive_cmd(padapter, enable, pkt_type);
++		}
++		rtw_hal_set_remote_wake_ctrl_cmd(padapter, enable);
++#ifdef CONFIG_PNO_SUPPORT
++		rtw_hal_check_pno_enabled(padapter);
++#endif /* CONFIG_PNO_SUPPORT */
++	} else {
++#if 0
++		{
++			u32 PageSize = 0;
++			rtw_hal_get_def_var(padapter, HAL_DEF_TX_PAGE_SIZE, (u8 *)&PageSize);
++			dump_TX_FIFO(padapter, 4, PageSize);
++		}
++#endif
++
++		rtw_hal_set_remote_wake_ctrl_cmd(padapter, enable);
++	}
++	RTW_PRINT("-%s()-\n", __func__);
++}
++#endif /* CONFIG_WOWLAN */
++
++#ifdef CONFIG_AP_WOWLAN
++static u8 rtw_hal_set_ap_wowlan_ctrl_cmd(_adapter *adapter, u8 enable)
++{
++	struct security_priv *psecpriv = &adapter->securitypriv;
++	struct pwrctrl_priv *ppwrpriv = adapter_to_pwrctl(adapter);
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++
++	u8 u1H2CAPWoWlanCtrlParm[H2C_AP_WOW_GPIO_CTRL_LEN] = {0};
++	u8 gpionum = 0, gpio_dur = 0;
++	u8 gpio_pulse = enable;
++	u8 sdio_wakeup_enable = 1;
++	u8 gpio_high_active = 0;
++	u8 ret = _FAIL;
++
++#ifdef CONFIG_GPIO_WAKEUP
++	gpio_high_active = ppwrpriv->is_high_active;
++	gpionum = WAKEUP_GPIO_IDX;
++	sdio_wakeup_enable = 0;
++#endif /*CONFIG_GPIO_WAKEUP*/
++
++	RTW_INFO("%s(): enable=%d\n", __func__, enable);
++
++	SET_H2CCMD_AP_WOW_GPIO_CTRL_INDEX(u1H2CAPWoWlanCtrlParm,
++					  gpionum);
++	SET_H2CCMD_AP_WOW_GPIO_CTRL_PLUS(u1H2CAPWoWlanCtrlParm,
++					 gpio_pulse);
++	SET_H2CCMD_AP_WOW_GPIO_CTRL_HIGH_ACTIVE(u1H2CAPWoWlanCtrlParm,
++						gpio_high_active);
++	SET_H2CCMD_AP_WOW_GPIO_CTRL_EN(u1H2CAPWoWlanCtrlParm,
++				       enable);
++	SET_H2CCMD_AP_WOW_GPIO_CTRL_DURATION(u1H2CAPWoWlanCtrlParm,
++					     gpio_dur);
++
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_AP_WOW_GPIO_CTRL,
++				   H2C_AP_WOW_GPIO_CTRL_LEN,
++				   u1H2CAPWoWlanCtrlParm);
++
++	return ret;
++}
++
++static u8 rtw_hal_set_ap_offload_ctrl_cmd(_adapter *adapter, u8 enable)
++{
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	u8 u1H2CAPOffloadCtrlParm[H2C_WOWLAN_LEN] = {0};
++	u8 ret = _FAIL;
++
++	RTW_INFO("%s(): bFuncEn=%d\n", __func__, enable);
++
++	SET_H2CCMD_AP_WOWLAN_EN(u1H2CAPOffloadCtrlParm, enable);
++
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_AP_OFFLOAD,
++				   H2C_AP_OFFLOAD_LEN,
++				   u1H2CAPOffloadCtrlParm);
++
++	return ret;
++}
++
++static u8 rtw_hal_set_ap_ps_cmd(_adapter *adapter, u8 enable)
++{
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	u8 ap_ps_parm[H2C_AP_PS_LEN] = {0};
++	u8 ret = _FAIL;
++
++	RTW_INFO("%s(): enable=%d\n" , __func__ , enable);
++
++	SET_H2CCMD_AP_WOW_PS_EN(ap_ps_parm, enable);
++#ifndef CONFIG_USB_HCI
++	SET_H2CCMD_AP_WOW_PS_32K_EN(ap_ps_parm, enable);
++#endif /*CONFIG_USB_HCI*/
++	SET_H2CCMD_AP_WOW_PS_RF(ap_ps_parm, enable);
++
++	if (enable)
++		SET_H2CCMD_AP_WOW_PS_DURATION(ap_ps_parm, 0x32);
++	else
++		SET_H2CCMD_AP_WOW_PS_DURATION(ap_ps_parm, 0x0);
++
++	ret = rtw_hal_fill_h2c_cmd(adapter, H2C_SAP_PS_,
++				   H2C_AP_PS_LEN, ap_ps_parm);
++
++	return ret;
++}
++
++static void rtw_hal_set_ap_rsvdpage_loc_cmd(PADAPTER padapter,
++		PRSVDPAGE_LOC rsvdpageloc)
++{
++	struct hal_ops *pHalFunc = &padapter->HalFunc;
++	u8 rsvdparm[H2C_AOAC_RSVDPAGE_LOC_LEN] = {0};
++	u8 ret = _FAIL, header = 0;
++
++	if (pHalFunc->fill_h2c_cmd == NULL) {
++		RTW_INFO("%s: Please hook fill_h2c_cmd first!\n", __func__);
++		return;
++	}
++
++	header = rtw_read8(padapter, REG_BCNQ_BDNY);
++
++	RTW_INFO("%s: beacon: %d, probeRsp: %d, header:0x%02x\n", __func__,
++		 rsvdpageloc->LocApOffloadBCN,
++		 rsvdpageloc->LocProbeRsp,
++		 header);
++
++	SET_H2CCMD_AP_WOWLAN_RSVDPAGE_LOC_BCN(rsvdparm,
++				      rsvdpageloc->LocApOffloadBCN + header);
++
++	ret = rtw_hal_fill_h2c_cmd(padapter, H2C_BCN_RSVDPAGE,
++				   H2C_BCN_RSVDPAGE_LEN, rsvdparm);
++
++	if (ret == _FAIL)
++		RTW_INFO("%s: H2C_BCN_RSVDPAGE cmd fail\n", __func__);
++
++	rtw_msleep_os(10);
++
++	_rtw_memset(&rsvdparm, 0, sizeof(rsvdparm));
++
++	SET_H2CCMD_AP_WOWLAN_RSVDPAGE_LOC_ProbeRsp(rsvdparm,
++			rsvdpageloc->LocProbeRsp + header);
++
++	ret = rtw_hal_fill_h2c_cmd(padapter, H2C_PROBERSP_RSVDPAGE,
++				   H2C_PROBERSP_RSVDPAGE_LEN, rsvdparm);
++
++	if (ret == _FAIL)
++		RTW_INFO("%s: H2C_PROBERSP_RSVDPAGE cmd fail\n", __func__);
++
++	rtw_msleep_os(10);
++}
++
++static void rtw_hal_set_fw_ap_wow_related_cmd(_adapter *padapter, u8 enable)
++{
++	rtw_hal_set_ap_offload_ctrl_cmd(padapter, enable);
++	rtw_hal_set_ap_wowlan_ctrl_cmd(padapter, enable);
++	rtw_hal_set_ap_ps_cmd(padapter, enable);
++}
++
++static void rtw_hal_ap_wow_enable(_adapter *padapter)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct hal_ops *pHalFunc = &padapter->HalFunc;
++	struct sta_info *psta = NULL;
++#ifdef DBG_CHECK_FW_PS_STATE
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++#endif /*DBG_CHECK_FW_PS_STATE*/
++	int res;
++	u16 media_status_rpt;
++
++	RTW_INFO("%s, WOWLAN_AP_ENABLE\n", __func__);
++#ifdef DBG_CHECK_FW_PS_STATE
++	if (rtw_fw_ps_state(padapter) == _FAIL) {
++		pdbgpriv->dbg_enwow_dload_fw_fail_cnt++;
++		RTW_PRINT("wowlan enable no leave 32k\n");
++	}
++#endif /*DBG_CHECK_FW_PS_STATE*/
++
++	/* 1. Download WOWLAN FW*/
++	rtw_hal_fw_dl(padapter, _TRUE);
++
++	media_status_rpt = RT_MEDIA_CONNECT;
++	rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_JOINBSSRPT,
++			  (u8 *)&media_status_rpt);
++
++	issue_beacon(padapter, 0);
++
++	rtw_msleep_os(2);
++
++	if (IS_HARDWARE_TYPE_8188E(padapter))
++		rtw_hal_disable_tx_report(padapter);
++
++	/* RX DMA stop */
++	res = rtw_hal_pause_rx_dma(padapter);
++	if (res == _FAIL)
++		RTW_PRINT("[WARNING] pause RX DMA fail\n");
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	/* Enable CPWM2 only. */
++	res = rtw_hal_enable_cpwm2(padapter);
++	if (res == _FAIL)
++		RTW_PRINT("[WARNING] enable cpwm2 fail\n");
++#endif
++
++#ifdef CONFIG_GPIO_WAKEUP
++	rtw_hal_switch_gpio_wl_ctrl(padapter, WAKEUP_GPIO_IDX, _TRUE);
++#endif
++	/* 5. Set Enable WOWLAN H2C command. */
++	RTW_PRINT("Set Enable AP WOWLan cmd\n");
++	rtw_hal_set_fw_ap_wow_related_cmd(padapter, 1);
++
++	rtw_write8(padapter, REG_MCUTST_WOWLAN, 0);
++#ifdef CONFIG_USB_HCI
++	rtw_mi_intf_stop(padapter);
++	/* Invoid SE0 reset signal during suspending*/
++	rtw_write8(padapter, REG_RSV_CTRL, 0x20);
++	rtw_write8(padapter, REG_RSV_CTRL, 0x60);
++#endif /*CONFIG_USB_HCI*/
++}
++
++static void rtw_hal_ap_wow_disable(_adapter *padapter)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	struct hal_ops *pHalFunc = &padapter->HalFunc;
++#ifdef DBG_CHECK_FW_PS_STATE
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++#endif /*DBG_CHECK_FW_PS_STATE*/
++	u16 media_status_rpt;
++	u8 val8;
++
++	RTW_INFO("%s, WOWLAN_AP_DISABLE\n", __func__);
++	/* 1. Read wakeup reason*/
++	pwrctl->wowlan_wake_reason = rtw_read8(padapter, REG_MCUTST_WOWLAN);
++
++	RTW_PRINT("wakeup_reason: 0x%02x\n",
++		  pwrctl->wowlan_wake_reason);
++
++	rtw_hal_set_fw_ap_wow_related_cmd(padapter, 0);
++
++	rtw_msleep_os(2);
++#ifdef DBG_CHECK_FW_PS_STATE
++	if (rtw_fw_ps_state(padapter) == _FAIL) {
++		pdbgpriv->dbg_diswow_dload_fw_fail_cnt++;
++		RTW_PRINT("wowlan enable no leave 32k\n");
++	}
++#endif /*DBG_CHECK_FW_PS_STATE*/
++
++	if (IS_HARDWARE_TYPE_8188E(padapter))
++		rtw_hal_enable_tx_report(padapter);
++
++	rtw_hal_force_enable_rxdma(padapter);
++
++	rtw_hal_fw_dl(padapter, _FALSE);
++
++#ifdef CONFIG_GPIO_WAKEUP
++	val8 = (pwrctl->is_high_active == 0) ? 1 : 0;
++	RTW_PRINT("Set Wake GPIO to default(%d).\n", val8);
++	rtw_hal_set_output_gpio(padapter, WAKEUP_GPIO_IDX, val8);
++#endif
++	media_status_rpt = RT_MEDIA_CONNECT;
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_JOINBSSRPT,
++			  (u8 *)&media_status_rpt);
++
++	issue_beacon(padapter, 0);
++}
++#endif /*CONFIG_AP_WOWLAN*/
++
++#ifdef CONFIG_P2P_WOWLAN
++static int update_hidden_ssid(u8 *ies, u32 ies_len, u8 hidden_ssid_mode)
++{
++	u8 *ssid_ie;
++	sint ssid_len_ori;
++	int len_diff = 0;
++
++	ssid_ie = rtw_get_ie(ies,  WLAN_EID_SSID, &ssid_len_ori, ies_len);
++
++	/* RTW_INFO("%s hidden_ssid_mode:%u, ssid_ie:%p, ssid_len_ori:%d\n", __FUNCTION__, hidden_ssid_mode, ssid_ie, ssid_len_ori); */
++
++	if (ssid_ie && ssid_len_ori > 0) {
++		switch (hidden_ssid_mode) {
++		case 1: {
++			u8 *next_ie = ssid_ie + 2 + ssid_len_ori;
++			u32 remain_len = 0;
++
++			remain_len = ies_len - (next_ie - ies);
++
++			ssid_ie[1] = 0;
++			_rtw_memcpy(ssid_ie + 2, next_ie, remain_len);
++			len_diff -= ssid_len_ori;
++
++			break;
++		}
++		case 2:
++			_rtw_memset(&ssid_ie[2], 0, ssid_len_ori);
++			break;
++		default:
++			break;
++		}
++	}
++
++	return len_diff;
++}
++
++static void rtw_hal_construct_P2PBeacon(_adapter *padapter, u8 *pframe, u32 *pLength)
++{
++	/* struct xmit_frame	*pmgntframe; */
++	/* struct pkt_attrib	*pattrib; */
++	/* unsigned char	*pframe; */
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	unsigned short *fctrl;
++	unsigned int	rate_len;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++	u32	pktlen;
++	/* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++	/*	_irqL irqL;
++	 *	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	 * #endif */ /* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++
++	/* for debug */
++	u8 *dbgbuf = pframe;
++	u8 dbgbufLen = 0, index = 0;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++	/* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++	/*	_enter_critical_bh(&pmlmepriv->bcn_update_lock, &irqL);
++	 * #endif */ /* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(cur_network), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0/*pmlmeext->mgnt_seq*/);
++	/* pmlmeext->mgnt_seq++; */
++	SetFrameSubType(pframe, WIFI_BEACON);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) {
++		/* RTW_INFO("ie len=%d\n", cur_network->IELength); */
++#ifdef CONFIG_P2P
++		/* for P2P : Primary Device Type & Device Name */
++		u32 wpsielen = 0, insert_len = 0;
++		u8 *wpsie = NULL;
++		wpsie = rtw_get_wps_ie(cur_network->IEs + _FIXED_IE_LENGTH_, cur_network->IELength - _FIXED_IE_LENGTH_, NULL, &wpsielen);
++
++		if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO) && wpsie && wpsielen > 0) {
++			uint wps_offset, remainder_ielen;
++			u8 *premainder_ie, *pframe_wscie;
++
++			wps_offset = (uint)(wpsie - cur_network->IEs);
++
++			premainder_ie = wpsie + wpsielen;
++
++			remainder_ielen = cur_network->IELength - wps_offset - wpsielen;
++
++#ifdef CONFIG_IOCTL_CFG80211
++			if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++				if (pmlmepriv->wps_beacon_ie && pmlmepriv->wps_beacon_ie_len > 0) {
++					_rtw_memcpy(pframe, cur_network->IEs, wps_offset);
++					pframe += wps_offset;
++					pktlen += wps_offset;
++
++					_rtw_memcpy(pframe, pmlmepriv->wps_beacon_ie, pmlmepriv->wps_beacon_ie_len);
++					pframe += pmlmepriv->wps_beacon_ie_len;
++					pktlen += pmlmepriv->wps_beacon_ie_len;
++
++					/* copy remainder_ie to pframe */
++					_rtw_memcpy(pframe, premainder_ie, remainder_ielen);
++					pframe += remainder_ielen;
++					pktlen += remainder_ielen;
++				} else {
++					_rtw_memcpy(pframe, cur_network->IEs, cur_network->IELength);
++					pframe += cur_network->IELength;
++					pktlen += cur_network->IELength;
++				}
++			} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++			{
++				pframe_wscie = pframe + wps_offset;
++				_rtw_memcpy(pframe, cur_network->IEs, wps_offset + wpsielen);
++				pframe += (wps_offset + wpsielen);
++				pktlen += (wps_offset + wpsielen);
++
++				/* now pframe is end of wsc ie, insert Primary Device Type & Device Name */
++				/*	Primary Device Type */
++				/*	Type: */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(WPS_ATTR_PRIMARY_DEV_TYPE);
++				insert_len += 2;
++
++				/*	Length: */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(0x0008);
++				insert_len += 2;
++
++				/*	Value: */
++				/*	Category ID */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(WPS_PDT_CID_MULIT_MEDIA);
++				insert_len += 2;
++
++				/*	OUI */
++				*(u32 *)(pframe + insert_len) = cpu_to_be32(WPSOUI);
++				insert_len += 4;
++
++				/*	Sub Category ID */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(WPS_PDT_SCID_MEDIA_SERVER);
++				insert_len += 2;
++
++
++				/*	Device Name */
++				/*	Type: */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++				insert_len += 2;
++
++				/*	Length: */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(pwdinfo->device_name_len);
++				insert_len += 2;
++
++				/*	Value: */
++				_rtw_memcpy(pframe + insert_len, pwdinfo->device_name, pwdinfo->device_name_len);
++				insert_len += pwdinfo->device_name_len;
++
++
++				/* update wsc ie length */
++				*(pframe_wscie + 1) = (wpsielen - 2) + insert_len;
++
++				/* pframe move to end */
++				pframe += insert_len;
++				pktlen += insert_len;
++
++				/* copy remainder_ie to pframe */
++				_rtw_memcpy(pframe, premainder_ie, remainder_ielen);
++				pframe += remainder_ielen;
++				pktlen += remainder_ielen;
++			}
++		} else
++#endif /* CONFIG_P2P */
++		{
++			int len_diff;
++			_rtw_memcpy(pframe, cur_network->IEs, cur_network->IELength);
++			len_diff = update_hidden_ssid(
++					   pframe + _BEACON_IE_OFFSET_
++				   , cur_network->IELength - _BEACON_IE_OFFSET_
++					   , pmlmeinfo->hidden_ssid_mode
++				   );
++			pframe += (cur_network->IELength + len_diff);
++			pktlen += (cur_network->IELength + len_diff);
++		}
++#if 0
++		{
++			u8 *wps_ie;
++			uint wps_ielen;
++			u8 sr = 0;
++			wps_ie = rtw_get_wps_ie(pmgntframe->buf_addr + TXDESC_OFFSET + sizeof(struct rtw_ieee80211_hdr_3addr) + _BEACON_IE_OFFSET_,
++				pattrib->pktlen - sizeof(struct rtw_ieee80211_hdr_3addr) - _BEACON_IE_OFFSET_, NULL, &wps_ielen);
++			if (wps_ie && wps_ielen > 0)
++				rtw_get_wps_attr_content(wps_ie,  wps_ielen, WPS_ATTR_SELECTED_REGISTRAR, (u8 *)(&sr), NULL);
++			if (sr != 0)
++				set_fwstate(pmlmepriv, WIFI_UNDER_WPS);
++			else
++				_clr_fwstate_(pmlmepriv, WIFI_UNDER_WPS);
++		}
++#endif
++#ifdef CONFIG_P2P
++		if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++			u32 len;
++#ifdef CONFIG_IOCTL_CFG80211
++			if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++				len = pmlmepriv->p2p_beacon_ie_len;
++				if (pmlmepriv->p2p_beacon_ie && len > 0)
++					_rtw_memcpy(pframe, pmlmepriv->p2p_beacon_ie, len);
++			} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++			{
++				len = build_beacon_p2p_ie(pwdinfo, pframe);
++			}
++
++			pframe += len;
++			pktlen += len;
++
++			#ifdef CONFIG_WFD
++			len = rtw_append_beacon_wfd_ie(padapter, pframe);
++			pframe += len;
++			pktlen += len;
++			#endif
++
++		}
++#endif /* CONFIG_P2P */
++
++		goto _issue_bcn;
++
++	}
++
++	/* below for ad-hoc mode */
++
++	/* timestamp will be inserted by hardware */
++	pframe += 8;
++	pktlen += 8;
++
++	/* beacon interval: 2 bytes */
++
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_beacon_interval_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	pktlen += 2;
++
++	/* capability info: 2 bytes */
++
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_capability_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	pktlen += 2;
++
++	/* SSID */
++	pframe = rtw_set_ie(pframe, _SSID_IE_, cur_network->Ssid.SsidLength, cur_network->Ssid.Ssid, &pktlen);
++
++	/* supported rates... */
++	rate_len = rtw_get_rateset_len(cur_network->SupportedRates);
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, ((rate_len > 8) ? 8 : rate_len), cur_network->SupportedRates, &pktlen);
++
++	/* DS parameter set */
++	pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&(cur_network->Configuration.DSConfig), &pktlen);
++
++	/* if( (pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE) */
++	{
++		u8 erpinfo = 0;
++		u32 ATIMWindow;
++		/* IBSS Parameter Set... */
++		/* ATIMWindow = cur->Configuration.ATIMWindow; */
++		ATIMWindow = 0;
++		pframe = rtw_set_ie(pframe, _IBSS_PARA_IE_, 2, (unsigned char *)(&ATIMWindow), &pktlen);
++
++		/* ERP IE */
++		pframe = rtw_set_ie(pframe, _ERPINFO_IE_, 1, &erpinfo, &pktlen);
++	}
++
++
++	/* EXTERNDED SUPPORTED RATE */
++	if (rate_len > 8)
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_, (rate_len - 8), (cur_network->SupportedRates + 8), &pktlen);
++
++
++	/* todo:HT for adhoc */
++
++_issue_bcn:
++
++	/* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++	/*	pmlmepriv->update_bcn = _FALSE;
++	 *
++	 *	_exit_critical_bh(&pmlmepriv->bcn_update_lock, &irqL);
++	 * #endif */ /* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++
++	*pLength = pktlen;
++#if 0
++	/* printf dbg msg */
++	dbgbufLen = pktlen;
++	RTW_INFO("======> DBG MSG FOR CONSTRAUCT P2P BEACON\n");
++
++	for (index = 0; index < dbgbufLen; index++)
++		printk("%x ", *(dbgbuf + index));
++
++	printk("\n");
++	RTW_INFO("<====== DBG MSG FOR CONSTRAUCT P2P BEACON\n");
++
++#endif
++}
++
++static int get_reg_classes_full_count(struct p2p_channels channel_list)
++{
++	int cnt = 0;
++	int i;
++
++	for (i = 0; i < channel_list.reg_classes; i++)
++		cnt += channel_list.reg_class[i].channels;
++
++	return cnt;
++}
++
++static void rtw_hal_construct_P2PProbeRsp(_adapter *padapter, u8 *pframe, u32 *pLength)
++{
++	/* struct xmit_frame			*pmgntframe; */
++	/* struct pkt_attrib			*pattrib; */
++	/* unsigned char					*pframe; */
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	unsigned char					*mac;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	/* WLAN_BSSID_EX 		*cur_network = &(pmlmeinfo->network); */
++	u16					beacon_interval = 100;
++	u16					capInfo = 0;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8					wpsie[255] = { 0x00 };
++	u32					wpsielen = 0, p2pielen = 0;
++	u32					pktlen;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++#ifdef CONFIG_INTEL_WIDI
++	u8 zero_array_check[L2SDTA_SERVICE_VE_LEN] = { 0x00 };
++#endif /* CONFIG_INTEL_WIDI */
++
++	/* for debug */
++	u8 *dbgbuf = pframe;
++	u8 dbgbufLen = 0, index = 0;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	mac = adapter_mac_addr(padapter);
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	/* DA filled by FW */
++	_rtw_memset(pwlanhdr->addr1, 0, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, mac, ETH_ALEN);
++
++	/*	Use the device address for BSSID field.	 */
++	_rtw_memcpy(pwlanhdr->addr3, mac, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0);
++	SetFrameSubType(fctrl, WIFI_PROBERSP);
++
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	pframe += pktlen;
++
++
++	/* timestamp will be inserted by hardware */
++	pframe += 8;
++	pktlen += 8;
++
++	/* beacon interval: 2 bytes */
++	_rtw_memcpy(pframe, (unsigned char *) &beacon_interval, 2);
++	pframe += 2;
++	pktlen += 2;
++
++	/*	capability info: 2 bytes */
++	/*	ESS and IBSS bits must be 0 (defined in the 3.1.2.1.1 of WiFi Direct Spec) */
++	capInfo |= cap_ShortPremble;
++	capInfo |= cap_ShortSlot;
++
++	_rtw_memcpy(pframe, (unsigned char *) &capInfo, 2);
++	pframe += 2;
++	pktlen += 2;
++
++
++	/* SSID */
++	pframe = rtw_set_ie(pframe, _SSID_IE_, 7, pwdinfo->p2p_wildcard_ssid, &pktlen);
++
++	/* supported rates... */
++	/*	Use the OFDM rate in the P2P probe response frame. ( 6(B), 9(B), 12, 18, 24, 36, 48, 54 ) */
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, 8, pwdinfo->support_rate, &pktlen);
++
++	/* DS parameter set */
++	pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&pwdinfo->listen_channel, &pktlen);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++		if (pmlmepriv->wps_probe_resp_ie != NULL && pmlmepriv->p2p_probe_resp_ie != NULL) {
++			/* WPS IE */
++			_rtw_memcpy(pframe, pmlmepriv->wps_probe_resp_ie, pmlmepriv->wps_probe_resp_ie_len);
++			pktlen += pmlmepriv->wps_probe_resp_ie_len;
++			pframe += pmlmepriv->wps_probe_resp_ie_len;
++
++			/* P2P IE */
++			_rtw_memcpy(pframe, pmlmepriv->p2p_probe_resp_ie, pmlmepriv->p2p_probe_resp_ie_len);
++			pktlen += pmlmepriv->p2p_probe_resp_ie_len;
++			pframe += pmlmepriv->p2p_probe_resp_ie_len;
++		}
++	} else
++#endif /* CONFIG_IOCTL_CFG80211		 */
++	{
++
++		/*	Todo: WPS IE */
++		/*	Noted by Albert 20100907 */
++		/*	According to the WPS specification, all the WPS attribute is presented by Big Endian. */
++
++		wpsielen = 0;
++		/*	WPS OUI */
++		*(u32 *)(wpsie) = cpu_to_be32(WPSOUI);
++		wpsielen += 4;
++
++		/*	WPS version */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++		wpsielen += 2;
++
++		/*	Value: */
++		wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++
++#ifdef CONFIG_INTEL_WIDI
++		/*	Commented by Kurt */
++		/*	Appended WiDi info. only if we did issued_probereq_widi(), and then we saved ven. ext. in pmlmepriv->sa_ext. */
++		if (_rtw_memcmp(pmlmepriv->sa_ext, zero_array_check, L2SDTA_SERVICE_VE_LEN) == _FALSE
++		    || pmlmepriv->num_p2p_sdt != 0) {
++			/* Sec dev type */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_SEC_DEV_TYPE_LIST);
++			wpsielen += 2;
++
++			/*	Length: */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0008);
++			wpsielen += 2;
++
++			/*	Value: */
++			/*	Category ID */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_CID_DISPLAYS);
++			wpsielen += 2;
++
++			/*	OUI */
++			*(u32 *)(wpsie + wpsielen) = cpu_to_be32(INTEL_DEV_TYPE_OUI);
++			wpsielen += 4;
++
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_SCID_WIDI_CONSUMER_SINK);
++			wpsielen += 2;
++
++			if (_rtw_memcmp(pmlmepriv->sa_ext, zero_array_check, L2SDTA_SERVICE_VE_LEN) == _FALSE) {
++				/*	Vendor Extension */
++				_rtw_memcpy(wpsie + wpsielen, pmlmepriv->sa_ext, L2SDTA_SERVICE_VE_LEN);
++				wpsielen += L2SDTA_SERVICE_VE_LEN;
++			}
++		}
++#endif /* CONFIG_INTEL_WIDI */
++
++		/*	WiFi Simple Config State */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_SIMPLE_CONF_STATE);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++		wpsielen += 2;
++
++		/*	Value: */
++		wpsie[wpsielen++] = WPS_WSC_STATE_NOT_CONFIG;	/*	Not Configured. */
++
++		/*	Response Type */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_RESP_TYPE);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++		wpsielen += 2;
++
++		/*	Value: */
++		wpsie[wpsielen++] = WPS_RESPONSE_TYPE_8021X;
++
++		/*	UUID-E */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_UUID_E);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0010);
++		wpsielen += 2;
++
++		/*	Value: */
++		if (pwdinfo->external_uuid == 0) {
++			_rtw_memset(wpsie + wpsielen, 0x0, 16);
++			_rtw_memcpy(wpsie + wpsielen, mac, ETH_ALEN);
++		} else
++			_rtw_memcpy(wpsie + wpsielen, pwdinfo->uuid, 0x10);
++		wpsielen += 0x10;
++
++		/*	Manufacturer */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_MANUFACTURER);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0007);
++		wpsielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(wpsie + wpsielen, "Realtek", 7);
++		wpsielen += 7;
++
++		/*	Model Name */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_MODEL_NAME);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0006);
++		wpsielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(wpsie + wpsielen, "8192CU", 6);
++		wpsielen += 6;
++
++		/*	Model Number */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_MODEL_NUMBER);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++		wpsielen += 2;
++
++		/*	Value: */
++		wpsie[wpsielen++] = 0x31;		/*	character 1 */
++
++		/*	Serial Number */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_SERIAL_NUMBER);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(ETH_ALEN);
++		wpsielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(wpsie + wpsielen, "123456" , ETH_ALEN);
++		wpsielen += ETH_ALEN;
++
++		/*	Primary Device Type */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_PRIMARY_DEV_TYPE);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0008);
++		wpsielen += 2;
++
++		/*	Value: */
++		/*	Category ID */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_CID_MULIT_MEDIA);
++		wpsielen += 2;
++
++		/*	OUI */
++		*(u32 *)(wpsie + wpsielen) = cpu_to_be32(WPSOUI);
++		wpsielen += 4;
++
++		/*	Sub Category ID */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_SCID_MEDIA_SERVER);
++		wpsielen += 2;
++
++		/*	Device Name */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(pwdinfo->device_name_len);
++		wpsielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(wpsie + wpsielen, pwdinfo->device_name, pwdinfo->device_name_len);
++		wpsielen += pwdinfo->device_name_len;
++
++		/*	Config Method */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_CONF_METHOD);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0002);
++		wpsielen += 2;
++
++		/*	Value: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(pwdinfo->supported_wps_cm);
++		wpsielen += 2;
++
++
++		pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pktlen);
++
++
++		p2pielen = build_probe_resp_p2p_ie(pwdinfo, pframe);
++		pframe += p2pielen;
++		pktlen += p2pielen;
++	}
++
++#ifdef CONFIG_WFD
++	wfdielen = rtw_append_probe_resp_wfd_ie(padapter, pframe);
++	pframe += wfdielen;
++	pktlen += wfdielen;
++#endif
++
++	*pLength = pktlen;
++
++#if 0
++	/* printf dbg msg */
++	dbgbufLen = pktlen;
++	RTW_INFO("======> DBG MSG FOR CONSTRAUCT P2P Probe Rsp\n");
++
++	for (index = 0; index < dbgbufLen; index++)
++		printk("%x ", *(dbgbuf + index));
++
++	printk("\n");
++	RTW_INFO("<====== DBG MSG FOR CONSTRAUCT P2P Probe Rsp\n");
++#endif
++}
++static void rtw_hal_construct_P2PNegoRsp(_adapter *padapter, u8 *pframe, u32 *pLength)
++{
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_GO_NEGO_RESP;
++	u8			wpsie[255] = { 0x00 }, p2pie[255] = { 0x00 };
++	u8			p2pielen = 0, i;
++	uint			wpsielen = 0;
++	u16			wps_devicepassword_id = 0x0000;
++	uint			wps_devicepassword_id_len = 0;
++	u8			channel_cnt_24g = 0, channel_cnt_5gl = 0, channel_cnt_5gh;
++	u16			len_channellist_attr = 0;
++	u32			pktlen;
++	u8			dialogToken = 0;
++
++	/* struct xmit_frame			*pmgntframe; */
++	/* struct pkt_attrib			*pattrib; */
++	/* unsigned char					*pframe; */
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	/* WLAN_BSSID_EX 		*cur_network = &(pmlmeinfo->network); */
++
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	/* for debug */
++	u8 *dbgbuf = pframe;
++	u8 dbgbufLen = 0, index = 0;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	/* RA, filled by FW */
++	_rtw_memset(pwlanhdr->addr1, 0, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0);
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	pframe += pktlen;
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pktlen));
++
++	/* dialog token, filled by FW */
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pktlen));
++
++	_rtw_memset(wpsie, 0x00, 255);
++	wpsielen = 0;
++
++	/*	WPS Section */
++	wpsielen = 0;
++	/*	WPS OUI */
++	*(u32 *)(wpsie) = cpu_to_be32(WPSOUI);
++	wpsielen += 4;
++
++	/*	WPS version */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++	wpsielen += 2;
++
++	/*	Value: */
++	wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++
++	/*	Device Password ID */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_DEVICE_PWID);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0002);
++	wpsielen += 2;
++
++	/*	Value: */
++	if (wps_devicepassword_id == WPS_DPID_USER_SPEC)
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_REGISTRAR_SPEC);
++	else if (wps_devicepassword_id == WPS_DPID_REGISTRAR_SPEC)
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_USER_SPEC);
++	else
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_PBC);
++	wpsielen += 2;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pktlen);
++
++
++	/*	P2P IE Section. */
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20100908 */
++	/*	According to the P2P Specification, the group negoitation response frame should contain 9 P2P attributes */
++	/*	1. Status */
++	/*	2. P2P Capability */
++	/*	3. Group Owner Intent */
++	/*	4. Configuration Timeout */
++	/*	5. Operating Channel */
++	/*	6. Intended P2P Interface Address */
++	/*	7. Channel List */
++	/*	8. Device Info */
++	/*	9. Group ID	( Only GO ) */
++
++
++	/*	ToDo: */
++
++	/*	P2P Status */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_STATUS;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0001);
++	p2pielen += 2;
++
++	/*	Value, filled by FW */
++	p2pie[p2pielen++] = 1;
++
++	/*	P2P Capability */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CAPABILITY;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Device Capability Bitmap, 1 byte */
++
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT)) {
++		/*	Commented by Albert 2011/03/08 */
++		/*	According to the P2P specification */
++		/*	if the sending device will be client, the P2P Capability should be reserved of group negotation response frame */
++		p2pie[p2pielen++] = 0;
++	} else {
++		/*	Be group owner or meet the error case */
++		p2pie[p2pielen++] = DMP_P2P_DEVCAP_SUPPORT;
++	}
++
++	/*	Group Capability Bitmap, 1 byte */
++	if (pwdinfo->persistent_supported)
++		p2pie[p2pielen++] = P2P_GRPCAP_CROSS_CONN | P2P_GRPCAP_PERSISTENT_GROUP;
++	else
++		p2pie[p2pielen++] = P2P_GRPCAP_CROSS_CONN;
++
++	/*	Group Owner Intent */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_GO_INTENT;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0001);
++	p2pielen += 2;
++
++	/*	Value: */
++	if (pwdinfo->peer_intent & 0x01) {
++		/*	Peer's tie breaker bit is 1, our tie breaker bit should be 0 */
++		p2pie[p2pielen++] = (pwdinfo->intent << 1);
++	} else {
++		/*	Peer's tie breaker bit is 0, our tie breaker bit should be 1 */
++		p2pie[p2pielen++] = ((pwdinfo->intent << 1) | BIT(0));
++	}
++
++
++	/*	Configuration Timeout */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CONF_TIMEOUT;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P GO */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P Client */
++
++	/*	Operating Channel */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_OPERATING_CH;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Operating Class */
++	if (pwdinfo->operating_channel <= 14) {
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x51;
++	} else if ((pwdinfo->operating_channel >= 36) && (pwdinfo->operating_channel <= 48)) {
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x73;
++	} else {
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x7c;
++	}
++
++	/*	Channel Number */
++	p2pie[p2pielen++] = pwdinfo->operating_channel;	/*	operating channel number */
++
++	/*	Intended P2P Interface Address	 */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_INTENTED_IF_ADDR;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(ETH_ALEN);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++	/*	Channel List */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CH_LIST;
++
++	/* Country String(3) */
++	/* + ( Operating Class (1) + Number of Channels(1) ) * Operation Classes (?) */
++	/* + number of channels in all classes */
++	len_channellist_attr = 3
++		       + (1 + 1) * (u16)pmlmeext->channel_list.reg_classes
++		       + get_reg_classes_full_count(pmlmeext->channel_list);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_buddy_check_fwstate(padapter, _FW_LINKED))
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(5 + 1);
++	else
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++
++#else
++
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++
++#endif
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Channel Entry List */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED)) {
++		u8 union_ch = rtw_mi_get_union_chan(padapter);
++
++		/*	Operating Class */
++		if (union_ch > 14) {
++			if (union_ch >= 149)
++				p2pie[p2pielen++] = 0x7c;
++			else
++				p2pie[p2pielen++] = 0x73;
++		} else
++			p2pie[p2pielen++] = 0x51;
++
++
++		/*	Number of Channels */
++		/*	Just support 1 channel and this channel is AP's channel */
++		p2pie[p2pielen++] = 1;
++
++		/*	Channel List */
++		p2pie[p2pielen++] = union_ch;
++	} else {
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			/*	Number of Channels */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			/*	Channel List */
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++		}
++	}
++#else /* CONFIG_CONCURRENT_MODE */
++	{
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			/*	Number of Channels */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			/*	Channel List */
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++		}
++	}
++#endif /* CONFIG_CONCURRENT_MODE */
++
++
++	/*	Device Info */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	21->P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes)  */
++	/*	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes) */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(21 + pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	P2P Device Address */
++	_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++	/*	Config Method */
++	/*	This field should be big endian. Noted by P2P specification. */
++
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(pwdinfo->supported_wps_cm);
++
++	p2pielen += 2;
++
++	/*	Primary Device Type */
++	/*	Category ID */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_CID_MULIT_MEDIA);
++	p2pielen += 2;
++
++	/*	OUI */
++	*(u32 *)(p2pie + p2pielen) = cpu_to_be32(WPSOUI);
++	p2pielen += 4;
++
++	/*	Sub Category ID */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_SCID_MEDIA_SERVER);
++	p2pielen += 2;
++
++	/*	Number of Secondary Device Types */
++	p2pie[p2pielen++] = 0x00;	/*	No Secondary Device Type List */
++
++	/*	Device Name */
++	/*	Type: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++	p2pielen += 2;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_name , pwdinfo->device_name_len);
++	p2pielen += pwdinfo->device_name_len;
++
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		/*	Group ID Attribute */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_GROUP_ID;
++
++		/*	Length: */
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(ETH_ALEN + pwdinfo->nego_ssidlen);
++		p2pielen += 2;
++
++		/*	Value: */
++		/*	p2P Device Address */
++		_rtw_memcpy(p2pie + p2pielen , pwdinfo->device_addr, ETH_ALEN);
++		p2pielen += ETH_ALEN;
++
++		/*	SSID */
++		_rtw_memcpy(p2pie + p2pielen, pwdinfo->nego_ssid, pwdinfo->nego_ssidlen);
++		p2pielen += pwdinfo->nego_ssidlen;
++
++	}
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pktlen);
++
++#ifdef CONFIG_WFD
++	wfdielen = build_nego_resp_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pktlen += wfdielen;
++#endif
++
++	*pLength = pktlen;
++#if 0
++	/* printf dbg msg */
++	dbgbufLen = pktlen;
++	RTW_INFO("======> DBG MSG FOR CONSTRAUCT Nego Rsp\n");
++
++	for (index = 0; index < dbgbufLen; index++)
++		printk("%x ", *(dbgbuf + index));
++
++	printk("\n");
++	RTW_INFO("<====== DBG MSG FOR CONSTRAUCT Nego Rsp\n");
++#endif
++}
++
++static void rtw_hal_construct_P2PInviteRsp(_adapter *padapter, u8 *pframe, u32 *pLength)
++{
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_INVIT_RESP;
++	u8			p2pie[255] = { 0x00 };
++	u8			p2pielen = 0, i;
++	u8			channel_cnt_24g = 0, channel_cnt_5gl = 0, channel_cnt_5gh = 0;
++	u16			len_channellist_attr = 0;
++	u32			pktlen;
++	u8			dialogToken = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	/* struct xmit_frame			*pmgntframe; */
++	/* struct pkt_attrib			*pattrib; */
++	/* unsigned char					*pframe; */
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	/* for debug */
++	u8 *dbgbuf = pframe;
++	u8 dbgbufLen = 0, index = 0;
++
++
++	RTW_INFO("%s\n", __FUNCTION__);
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	/* RA fill by FW */
++	_rtw_memset(pwlanhdr->addr1, 0, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++
++	/* BSSID fill by FW */
++	_rtw_memset(pwlanhdr->addr3, 0, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0);
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pktlen));
++
++	/* dialog token, filled by FW */
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pktlen));
++
++	/*	P2P IE Section. */
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20101005 */
++	/*	According to the P2P Specification, the P2P Invitation response frame should contain 5 P2P attributes */
++	/*	1. Status */
++	/*	2. Configuration Timeout */
++	/*	3. Operating Channel	( Only GO ) */
++	/*	4. P2P Group BSSID	( Only GO ) */
++	/*	5. Channel List */
++
++	/*	P2P Status */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_STATUS;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0001);
++	p2pielen += 2;
++
++	/*	Value: filled by FW, defult value is FAIL INFO UNAVAILABLE */
++	p2pie[p2pielen++] = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++
++	/*	Configuration Timeout */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CONF_TIMEOUT;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P GO */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P Client */
++
++	/* due to defult value is FAIL INFO UNAVAILABLE, so the following IE is not needed */
++#if 0
++	if (status_code == P2P_STATUS_SUCCESS) {
++		if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++			/*	The P2P Invitation request frame asks this Wi-Fi device to be the P2P GO */
++			/*	In this case, the P2P Invitation response frame should carry the two more P2P attributes. */
++			/*	First one is operating channel attribute. */
++			/*	Second one is P2P Group BSSID attribute. */
++
++			/*	Operating Channel */
++			/*	Type: */
++			p2pie[p2pielen++] = P2P_ATTR_OPERATING_CH;
++
++			/*	Length: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++			p2pielen += 2;
++
++			/*	Value: */
++			/*	Country String */
++			p2pie[p2pielen++] = 'X';
++			p2pie[p2pielen++] = 'X';
++
++			/*	The third byte should be set to 0x04. */
++			/*	Described in the "Operating Channel Attribute" section. */
++			p2pie[p2pielen++] = 0x04;
++
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x51;	/*	Copy from SD7 */
++
++			/*	Channel Number */
++			p2pie[p2pielen++] = pwdinfo->operating_channel;	/*	operating channel number */
++
++
++			/*	P2P Group BSSID */
++			/*	Type: */
++			p2pie[p2pielen++] = P2P_ATTR_GROUP_BSSID;
++
++			/*	Length: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(ETH_ALEN);
++			p2pielen += 2;
++
++			/*	Value: */
++			/*	P2P Device Address for GO */
++			_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++			p2pielen += ETH_ALEN;
++
++		}
++
++		/*	Channel List */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_CH_LIST;
++
++		/*	Length: */
++		/* Country String(3) */
++		/* + ( Operating Class (1) + Number of Channels(1) ) * Operation Classes (?) */
++		/* + number of channels in all classes */
++		len_channellist_attr = 3
++			+ (1 + 1) * (u16)pmlmeext->channel_list.reg_classes
++			+ get_reg_classes_full_count(pmlmeext->channel_list);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(5 + 1);
++		else
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++
++#else
++
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++
++#endif
++		p2pielen += 2;
++
++		/*	Value: */
++		/*	Country String */
++		p2pie[p2pielen++] = 'X';
++		p2pie[p2pielen++] = 'X';
++
++		/*	The third byte should be set to 0x04. */
++		/*	Described in the "Operating Channel Attribute" section. */
++		p2pie[p2pielen++] = 0x04;
++
++		/*	Channel Entry List */
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED)) {
++			u8 union_ch = rtw_mi_get_union_chan(padapter);
++
++			/*	Operating Class */
++			if (union_ch > 14) {
++				if (union_ch >= 149)
++					p2pie[p2pielen++] = 0x7c;
++				else
++					p2pie[p2pielen++] = 0x73;
++
++			} else
++				p2pie[p2pielen++] = 0x51;
++
++
++			/*	Number of Channels */
++			/*	Just support 1 channel and this channel is AP's channel */
++			p2pie[p2pielen++] = 1;
++
++			/*	Channel List */
++			p2pie[p2pielen++] = union_ch;
++		} else {
++			int i, j;
++			for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++				/*	Operating Class */
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++				/*	Number of Channels */
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++				/*	Channel List */
++				for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++					p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++			}
++		}
++#else /* CONFIG_CONCURRENT_MODE */
++		{
++			int i, j;
++			for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++				/*	Operating Class */
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++				/*	Number of Channels */
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++				/*	Channel List */
++				for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++					p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++			}
++		}
++#endif /* CONFIG_CONCURRENT_MODE */
++	}
++#endif
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pktlen);
++
++#ifdef CONFIG_WFD
++	wfdielen = build_invitation_resp_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pktlen += wfdielen;
++#endif
++
++	*pLength = pktlen;
++
++#if 0
++	/* printf dbg msg */
++	dbgbufLen = pktlen;
++	RTW_INFO("======> DBG MSG FOR CONSTRAUCT Invite Rsp\n");
++
++	for (index = 0; index < dbgbufLen; index++)
++		printk("%x ", *(dbgbuf + index));
++
++	printk("\n");
++	RTW_INFO("<====== DBG MSG FOR CONSTRAUCT Invite Rsp\n");
++#endif
++}
++
++
++static void rtw_hal_construct_P2PProvisionDisRsp(_adapter *padapter, u8 *pframe, u32 *pLength)
++{
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u8			dialogToken = 0;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_PROVISION_DISC_RESP;
++	u8			wpsie[100] = { 0x00 };
++	u8			wpsielen = 0;
++	u32			pktlen;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	/* struct xmit_frame			*pmgntframe; */
++	/* struct pkt_attrib			*pattrib; */
++	/* unsigned char					*pframe; */
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	/* for debug */
++	u8 *dbgbuf = pframe;
++	u8 dbgbufLen = 0, index = 0;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	/* RA filled by FW */
++	_rtw_memset(pwlanhdr->addr1, 0, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0);
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pktlen));
++	/* dialog token, filled by FW */
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pktlen));
++
++	wpsielen = 0;
++	/*	WPS OUI */
++	/* *(u32*) ( wpsie ) = cpu_to_be32( WPSOUI ); */
++	RTW_PUT_BE32(wpsie, WPSOUI);
++	wpsielen += 4;
++
++#if 0
++	/*	WPS version */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++	wpsielen += 2;
++
++	/*	Value: */
++	wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++#endif
++
++	/*	Config Method */
++	/*	Type: */
++	/* *(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_CONF_METHOD ); */
++	RTW_PUT_BE16(wpsie + wpsielen, WPS_ATTR_CONF_METHOD);
++	wpsielen += 2;
++
++	/*	Length: */
++	/* *(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0002 ); */
++	RTW_PUT_BE16(wpsie + wpsielen, 0x0002);
++	wpsielen += 2;
++
++	/*	Value: filled by FW, default value is PBC */
++	/* *(u16*) ( wpsie + wpsielen ) = cpu_to_be16( config_method ); */
++	RTW_PUT_BE16(wpsie + wpsielen, WPS_CM_PUSH_BUTTON);
++	wpsielen += 2;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pktlen);
++
++#ifdef CONFIG_WFD
++	wfdielen = build_provdisc_resp_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pktlen += wfdielen;
++#endif
++
++	*pLength = pktlen;
++
++	/* printf dbg msg */
++#if 0
++	dbgbufLen = pktlen;
++	RTW_INFO("======> DBG MSG FOR CONSTRAUCT  ProvisionDis Rsp\n");
++
++	for (index = 0; index < dbgbufLen; index++)
++		printk("%x ", *(dbgbuf + index));
++
++	printk("\n");
++	RTW_INFO("<====== DBG MSG FOR CONSTRAUCT ProvisionDis Rsp\n");
++#endif
++}
++
++u8 rtw_hal_set_FwP2PRsvdPage_cmd(_adapter *adapter, PRSVDPAGE_LOC rsvdpageloc)
++{
++	u8 u1H2CP2PRsvdPageParm[H2C_P2PRSVDPAGE_LOC_LEN] = {0};
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	u8 ret = _FAIL;
++
++	RTW_INFO("P2PRsvdPageLoc: P2PBeacon=%d P2PProbeRsp=%d NegoRsp=%d InviteRsp=%d PDRsp=%d\n",
++		 rsvdpageloc->LocP2PBeacon, rsvdpageloc->LocP2PProbeRsp,
++		 rsvdpageloc->LocNegoRsp, rsvdpageloc->LocInviteRsp,
++		 rsvdpageloc->LocPDRsp);
++
++	SET_H2CCMD_RSVDPAGE_LOC_P2P_BCN(u1H2CP2PRsvdPageParm, rsvdpageloc->LocProbeRsp);
++	SET_H2CCMD_RSVDPAGE_LOC_P2P_PROBE_RSP(u1H2CP2PRsvdPageParm, rsvdpageloc->LocPsPoll);
++	SET_H2CCMD_RSVDPAGE_LOC_P2P_NEGO_RSP(u1H2CP2PRsvdPageParm, rsvdpageloc->LocNullData);
++	SET_H2CCMD_RSVDPAGE_LOC_P2P_INVITE_RSP(u1H2CP2PRsvdPageParm, rsvdpageloc->LocQosNull);
++	SET_H2CCMD_RSVDPAGE_LOC_P2P_PD_RSP(u1H2CP2PRsvdPageParm, rsvdpageloc->LocBTQosNull);
++
++	/* FillH2CCmd8723B(padapter, H2C_8723B_P2P_OFFLOAD_RSVD_PAGE, H2C_P2PRSVDPAGE_LOC_LEN, u1H2CP2PRsvdPageParm); */
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_P2P_OFFLOAD_RSVD_PAGE,
++				   H2C_P2PRSVDPAGE_LOC_LEN,
++				   u1H2CP2PRsvdPageParm);
++
++	return ret;
++}
++
++u8 rtw_hal_set_p2p_wowlan_offload_cmd(_adapter *adapter)
++{
++
++	u8 offload_cmd[H2C_P2P_OFFLOAD_LEN] = {0};
++	struct wifidirect_info	*pwdinfo = &(adapter->wdinfo);
++	struct P2P_WoWlan_Offload_t *p2p_wowlan_offload = (struct P2P_WoWlan_Offload_t *)offload_cmd;
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	u8 ret = _FAIL;
++
++	_rtw_memset(p2p_wowlan_offload, 0 , sizeof(struct P2P_WoWlan_Offload_t));
++	RTW_INFO("%s\n", __func__);
++	switch (pwdinfo->role) {
++	case P2P_ROLE_DEVICE:
++		RTW_INFO("P2P_ROLE_DEVICE\n");
++		p2p_wowlan_offload->role = 0;
++		break;
++	case P2P_ROLE_CLIENT:
++		RTW_INFO("P2P_ROLE_CLIENT\n");
++		p2p_wowlan_offload->role = 1;
++		break;
++	case P2P_ROLE_GO:
++		RTW_INFO("P2P_ROLE_GO\n");
++		p2p_wowlan_offload->role = 2;
++		break;
++	default:
++		RTW_INFO("P2P_ROLE_DISABLE\n");
++		break;
++	}
++	p2p_wowlan_offload->Wps_Config[0] = pwdinfo->supported_wps_cm >> 8;
++	p2p_wowlan_offload->Wps_Config[1] = pwdinfo->supported_wps_cm;
++	offload_cmd = (u8 *)p2p_wowlan_offload;
++	RTW_INFO("p2p_wowlan_offload: %x:%x:%x\n", offload_cmd[0], offload_cmd[1], offload_cmd[2]);
++
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_P2P_OFFLOAD,
++				   H2C_P2P_OFFLOAD_LEN,
++				   offload_cmd);
++	return ret;
++
++	/* FillH2CCmd8723B(adapter, H2C_8723B_P2P_OFFLOAD, sizeof(struct P2P_WoWlan_Offload_t), (u8 *)p2p_wowlan_offload); */
++}
++#endif /* CONFIG_P2P_WOWLAN */
++
++static void rtw_hal_construct_beacon(_adapter *padapter,
++				     u8 *pframe, u32 *pLength)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;
++	u32					rate_len, pktlen;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(cur_network), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0/*pmlmeext->mgnt_seq*/);
++	/* pmlmeext->mgnt_seq++; */
++	SetFrameSubType(pframe, WIFI_BEACON);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	/* timestamp will be inserted by hardware */
++	pframe += 8;
++	pktlen += 8;
++
++	/* beacon interval: 2 bytes */
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_beacon_interval_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	pktlen += 2;
++
++	/* capability info: 2 bytes */
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_capability_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	pktlen += 2;
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) {
++		/* RTW_INFO("ie len=%d\n", cur_network->IELength); */
++		pktlen += cur_network->IELength - sizeof(NDIS_802_11_FIXED_IEs);
++		_rtw_memcpy(pframe, cur_network->IEs + sizeof(NDIS_802_11_FIXED_IEs), pktlen);
++
++		goto _ConstructBeacon;
++	}
++
++	/* below for ad-hoc mode */
++
++	/* SSID */
++	pframe = rtw_set_ie(pframe, _SSID_IE_, cur_network->Ssid.SsidLength, cur_network->Ssid.Ssid, &pktlen);
++
++	/* supported rates... */
++	rate_len = rtw_get_rateset_len(cur_network->SupportedRates);
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, ((rate_len > 8) ? 8 : rate_len), cur_network->SupportedRates, &pktlen);
++
++	/* DS parameter set */
++	pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&(cur_network->Configuration.DSConfig), &pktlen);
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) {
++		u32 ATIMWindow;
++		/* IBSS Parameter Set... */
++		/* ATIMWindow = cur->Configuration.ATIMWindow; */
++		ATIMWindow = 0;
++		pframe = rtw_set_ie(pframe, _IBSS_PARA_IE_, 2, (unsigned char *)(&ATIMWindow), &pktlen);
++	}
++
++
++	/* todo: ERP IE */
++
++
++	/* EXTERNDED SUPPORTED RATE */
++	if (rate_len > 8)
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_, (rate_len - 8), (cur_network->SupportedRates + 8), &pktlen);
++
++
++	/* todo:HT for adhoc */
++
++_ConstructBeacon:
++
++	if ((pktlen + TXDESC_SIZE) > 512) {
++		RTW_INFO("beacon frame too large\n");
++		return;
++	}
++
++	*pLength = pktlen;
++
++	/* RTW_INFO("%s bcn_sz=%d\n", __FUNCTION__, pktlen); */
++
++}
++
++static void rtw_hal_construct_PSPoll(_adapter *padapter,
++				     u8 *pframe, u32 *pLength)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;
++	u32					pktlen;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	/* Frame control. */
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	SetPwrMgt(fctrl);
++	SetFrameSubType(pframe, WIFI_PSPOLL);
++
++	/* AID. */
++	SetDuration(pframe, (pmlmeinfo->aid | 0xc000));
++
++	/* BSSID. */
++	_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	/* TA. */
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++
++	*pLength = 16;
++}
++
++void rtw_hal_construct_NullFunctionData(
++	PADAPTER padapter,
++	u8		*pframe,
++	u32		*pLength,
++	u8		*StaAddr,
++	u8		bQoS,
++	u8		AC,
++	u8		bEosp,
++	u8		bForcePowerSave)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16						*fctrl;
++	u32						pktlen;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network		*cur_network = &pmlmepriv->cur_network;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++
++	/* RTW_INFO("%s:%d\n", __FUNCTION__, bForcePowerSave); */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++	if (bForcePowerSave)
++		SetPwrMgt(fctrl);
++
++	switch (cur_network->network.InfrastructureMode) {
++	case Ndis802_11Infrastructure:
++		SetToDs(fctrl);
++		_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, StaAddr, ETH_ALEN);
++		break;
++	case Ndis802_11APMode:
++		SetFrDs(fctrl);
++		_rtw_memcpy(pwlanhdr->addr1, StaAddr, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++		break;
++	case Ndis802_11IBSS:
++	default:
++		_rtw_memcpy(pwlanhdr->addr1, StaAddr, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++		break;
++	}
++
++	SetSeqNum(pwlanhdr, 0);
++
++	if (bQoS == _TRUE) {
++		struct rtw_ieee80211_hdr_3addr_qos *pwlanqoshdr;
++
++		SetFrameSubType(pframe, WIFI_QOS_DATA_NULL);
++
++		pwlanqoshdr = (struct rtw_ieee80211_hdr_3addr_qos *)pframe;
++		SetPriority(&pwlanqoshdr->qc, AC);
++		SetEOSP(&pwlanqoshdr->qc, bEosp);
++
++		pktlen = sizeof(struct rtw_ieee80211_hdr_3addr_qos);
++	} else {
++		SetFrameSubType(pframe, WIFI_DATA_NULL);
++
++		pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	}
++
++	*pLength = pktlen;
++}
++
++void rtw_hal_construct_ProbeRsp(_adapter *padapter, u8 *pframe, u32 *pLength,
++				u8 *StaAddr, BOOLEAN bHideSSID)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;
++	u8					*mac, *bssid;
++	u32					pktlen;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX  *cur_network = &(pmlmeinfo->network);
++
++	/*RTW_INFO("%s\n", __FUNCTION__);*/
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	mac = adapter_mac_addr(padapter);
++	bssid = cur_network->MacAddress;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	_rtw_memcpy(pwlanhdr->addr1, StaAddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, mac, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, bssid, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0);
++	SetFrameSubType(fctrl, WIFI_PROBERSP);
++
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	pframe += pktlen;
++
++	if (cur_network->IELength > MAX_IE_SZ)
++		return;
++
++	_rtw_memcpy(pframe, cur_network->IEs, cur_network->IELength);
++	pframe += cur_network->IELength;
++	pktlen += cur_network->IELength;
++
++	*pLength = pktlen;
++}
++
++#ifdef CONFIG_WOWLAN
++/*
++ * Description:
++ *	Construct the ARP response packet to support ARP offload.
++ *   */
++static void rtw_hal_construct_ARPRsp(
++	PADAPTER padapter,
++	u8			*pframe,
++	u32			*pLength,
++	u8			*pIPAddress
++)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16	*fctrl;
++	u32	pktlen;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network	*cur_network = &pmlmepriv->cur_network;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++	static u8	ARPLLCHeader[8] = {0xAA, 0xAA, 0x03, 0x00, 0x00, 0x00, 0x08, 0x06};
++	u8	*pARPRspPkt = pframe;
++	/* for TKIP Cal MIC */
++	u8	*payload = pframe;
++	u8	EncryptionHeadOverhead = 0;
++	/* RTW_INFO("%s:%d\n", __FUNCTION__, bForcePowerSave); */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	/* ------------------------------------------------------------------------- */
++	/* MAC Header. */
++	/* ------------------------------------------------------------------------- */
++	SetFrameType(fctrl, WIFI_DATA);
++	/* SetFrameSubType(fctrl, 0); */
++	SetToDs(fctrl);
++	_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0);
++	SetDuration(pwlanhdr, 0);
++	/* SET_80211_HDR_FRAME_CONTROL(pARPRspPkt, 0); */
++	/* SET_80211_HDR_TYPE_AND_SUBTYPE(pARPRspPkt, Type_Data); */
++	/* SET_80211_HDR_TO_DS(pARPRspPkt, 1); */
++	/* SET_80211_HDR_ADDRESS1(pARPRspPkt, pMgntInfo->Bssid); */
++	/* SET_80211_HDR_ADDRESS2(pARPRspPkt, Adapter->CurrentAddress); */
++	/* SET_80211_HDR_ADDRESS3(pARPRspPkt, pMgntInfo->Bssid); */
++
++	/* SET_80211_HDR_DURATION(pARPRspPkt, 0); */
++	/* SET_80211_HDR_FRAGMENT_SEQUENCE(pARPRspPkt, 0); */
++#ifdef CONFIG_WAPI_SUPPORT
++	*pLength = sMacHdrLng;
++#else
++	*pLength = 24;
++#endif
++	switch (psecuritypriv->dot11PrivacyAlgrthm) {
++	case _WEP40_:
++	case _WEP104_:
++		EncryptionHeadOverhead = 4;
++		break;
++	case _TKIP_:
++		EncryptionHeadOverhead = 8;
++		break;
++	case _AES_:
++		EncryptionHeadOverhead = 8;
++		break;
++#ifdef CONFIG_WAPI_SUPPORT
++	case _SMS4_:
++		EncryptionHeadOverhead = 18;
++		break;
++#endif
++	default:
++		EncryptionHeadOverhead = 0;
++	}
++
++	if (EncryptionHeadOverhead > 0) {
++		_rtw_memset(&(pframe[*pLength]), 0, EncryptionHeadOverhead);
++		*pLength += EncryptionHeadOverhead;
++		/* SET_80211_HDR_WEP(pARPRspPkt, 1);  */ /* Suggested by CCW. */
++		SetPrivacy(fctrl);
++	}
++
++	/* ------------------------------------------------------------------------- */
++	/* Frame Body. */
++	/* ------------------------------------------------------------------------- */
++	pARPRspPkt = (u8 *)(pframe + *pLength);
++	payload = pARPRspPkt; /* Get Payload pointer */
++	/* LLC header */
++	_rtw_memcpy(pARPRspPkt, ARPLLCHeader, 8);
++	*pLength += 8;
++
++	/* ARP element */
++	pARPRspPkt += 8;
++	SET_ARP_PKT_HW(pARPRspPkt, 0x0100);
++	SET_ARP_PKT_PROTOCOL(pARPRspPkt, 0x0008);	/* IP protocol */
++	SET_ARP_PKT_HW_ADDR_LEN(pARPRspPkt, 6);
++	SET_ARP_PKT_PROTOCOL_ADDR_LEN(pARPRspPkt, 4);
++	SET_ARP_PKT_OPERATION(pARPRspPkt, 0x0200);	/* ARP response */
++	SET_ARP_PKT_SENDER_MAC_ADDR(pARPRspPkt, adapter_mac_addr(padapter));
++	SET_ARP_PKT_SENDER_IP_ADDR(pARPRspPkt, pIPAddress);
++#ifdef CONFIG_ARP_KEEP_ALIVE
++	if (!is_zero_mac_addr(pmlmepriv->gw_mac_addr)) {
++		SET_ARP_PKT_TARGET_MAC_ADDR(pARPRspPkt, pmlmepriv->gw_mac_addr);
++		SET_ARP_PKT_TARGET_IP_ADDR(pARPRspPkt, pmlmepriv->gw_ip);
++	} else
++#endif
++	{
++		SET_ARP_PKT_TARGET_MAC_ADDR(pARPRspPkt,
++				    get_my_bssid(&(pmlmeinfo->network)));
++		SET_ARP_PKT_TARGET_IP_ADDR(pARPRspPkt,
++					   pIPAddress);
++		RTW_INFO("%s Target Mac Addr:" MAC_FMT "\n", __FUNCTION__,
++			 MAC_ARG(get_my_bssid(&(pmlmeinfo->network))));
++		RTW_INFO("%s Target IP Addr" IP_FMT "\n", __FUNCTION__,
++			 IP_ARG(pIPAddress));
++	}
++
++	*pLength += 28;
++
++	if (psecuritypriv->dot11PrivacyAlgrthm == _TKIP_) {
++		u8	mic[8];
++		struct mic_data	micdata;
++		struct sta_info	*psta = NULL;
++		u8	priority[4] = {0x0, 0x0, 0x0, 0x0};
++		u8	null_key[16] = {0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0};
++
++		RTW_INFO("%s(): Add MIC\n", __FUNCTION__);
++
++		psta = rtw_get_stainfo(&padapter->stapriv,
++				       get_my_bssid(&(pmlmeinfo->network)));
++		if (psta != NULL) {
++			if (_rtw_memcmp(&psta->dot11tkiptxmickey.skey[0],
++					null_key, 16) == _TRUE) {
++				RTW_INFO("%s(): STA dot11tkiptxmickey==0\n",
++					 __func__);
++			}
++			/* start to calculate the mic code */
++			rtw_secmicsetkey(&micdata,
++					 &psta->dot11tkiptxmickey.skey[0]);
++		}
++
++		rtw_secmicappend(&micdata, pwlanhdr->addr3, 6);  /* DA */
++
++		rtw_secmicappend(&micdata, pwlanhdr->addr2, 6); /* SA */
++
++		priority[0] = 0;
++
++		rtw_secmicappend(&micdata, &priority[0], 4);
++
++		rtw_secmicappend(&micdata, payload, 36); /* payload length = 8 + 28 */
++
++		rtw_secgetmic(&micdata, &(mic[0]));
++
++		pARPRspPkt += 28;
++		_rtw_memcpy(pARPRspPkt, &(mic[0]), 8);
++
++		*pLength += 8;
++	}
++}
++
++#ifdef CONFIG_PNO_SUPPORT
++static void rtw_hal_construct_ProbeReq(_adapter *padapter, u8 *pframe,
++				       u32 *pLength, pno_ssid_t *ssid)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16				*fctrl;
++	u32				pktlen;
++	unsigned char			*mac;
++	unsigned char			bssrate[NumRates];
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	int	bssrate_len = 0;
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++	mac = adapter_mac_addr(padapter);
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, bc_addr, ETH_ALEN);
++
++	_rtw_memcpy(pwlanhdr->addr2, mac, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0);
++	SetFrameSubType(pframe, WIFI_PROBEREQ);
++
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	pframe += pktlen;
++
++	if (ssid == NULL)
++		pframe = rtw_set_ie(pframe, _SSID_IE_, 0, NULL, &pktlen);
++	else {
++		/* RTW_INFO("%s len:%d\n", ssid->SSID, ssid->SSID_len); */
++		pframe = rtw_set_ie(pframe, _SSID_IE_, ssid->SSID_len, ssid->SSID, &pktlen);
++	}
++
++	get_rate_set(padapter, bssrate, &bssrate_len);
++
++	if (bssrate_len > 8) {
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , 8, bssrate, &pktlen);
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_ , (bssrate_len - 8), (bssrate + 8), &pktlen);
++	} else
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , bssrate_len , bssrate, &pktlen);
++
++	*pLength = pktlen;
++}
++
++static void rtw_hal_construct_PNO_info(_adapter *padapter,
++				       u8 *pframe, u32 *pLength)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	int i;
++
++	u8	*pPnoInfoPkt = pframe;
++	pPnoInfoPkt = (u8 *)(pframe + *pLength);
++	_rtw_memcpy(pPnoInfoPkt, &pwrctl->pnlo_info->ssid_num, 1);
++
++	pPnoInfoPkt += 1;
++	_rtw_memcpy(pPnoInfoPkt, &pwrctl->pnlo_info->hidden_ssid_num, 1);
++
++	pPnoInfoPkt += 3;
++	_rtw_memcpy(pPnoInfoPkt, &pwrctl->pnlo_info->fast_scan_period, 1);
++
++	pPnoInfoPkt += 4;
++	_rtw_memcpy(pPnoInfoPkt, &pwrctl->pnlo_info->fast_scan_iterations, 4);
++
++	pPnoInfoPkt += 4;
++	_rtw_memcpy(pPnoInfoPkt, &pwrctl->pnlo_info->slow_scan_period, 4);
++
++	pPnoInfoPkt += 4;
++	_rtw_memcpy(pPnoInfoPkt, &pwrctl->pnlo_info->ssid_length, MAX_PNO_LIST_COUNT);
++
++	pPnoInfoPkt += MAX_PNO_LIST_COUNT;
++	_rtw_memcpy(pPnoInfoPkt, &pwrctl->pnlo_info->ssid_cipher_info, MAX_PNO_LIST_COUNT);
++
++	pPnoInfoPkt += MAX_PNO_LIST_COUNT;
++	_rtw_memcpy(pPnoInfoPkt, &pwrctl->pnlo_info->ssid_channel_info, MAX_PNO_LIST_COUNT);
++
++	pPnoInfoPkt += MAX_PNO_LIST_COUNT;
++	_rtw_memcpy(pPnoInfoPkt, &pwrctl->pnlo_info->loc_probe_req, MAX_HIDDEN_AP);
++
++	pPnoInfoPkt += MAX_HIDDEN_AP;
++
++	/*
++	SSID is located at 128th Byte in NLO info Page
++	*/
++
++	*pLength += 128;
++	pPnoInfoPkt = pframe + 128;
++
++	for (i = 0; i < pwrctl->pnlo_info->ssid_num ; i++) {
++		_rtw_memcpy(pPnoInfoPkt, &pwrctl->pno_ssid_list->node[i].SSID,
++			    pwrctl->pnlo_info->ssid_length[i]);
++		*pLength += WLAN_SSID_MAXLEN;
++		pPnoInfoPkt += WLAN_SSID_MAXLEN;
++	}
++}
++
++static void rtw_hal_construct_ssid_list(_adapter *padapter,
++					u8 *pframe, u32 *pLength)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	u8 *pSSIDListPkt = pframe;
++	int i;
++
++	pSSIDListPkt = (u8 *)(pframe + *pLength);
++
++	for (i = 0; i < pwrctl->pnlo_info->ssid_num ; i++) {
++		_rtw_memcpy(pSSIDListPkt, &pwrctl->pno_ssid_list->node[i].SSID,
++			    pwrctl->pnlo_info->ssid_length[i]);
++
++		*pLength += WLAN_SSID_MAXLEN;
++		pSSIDListPkt += WLAN_SSID_MAXLEN;
++	}
++}
++
++static void rtw_hal_construct_scan_info(_adapter *padapter,
++					u8 *pframe, u32 *pLength)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	u8 *pScanInfoPkt = pframe;
++	int i;
++
++	pScanInfoPkt = (u8 *)(pframe + *pLength);
++
++	_rtw_memcpy(pScanInfoPkt, &pwrctl->pscan_info->channel_num, 1);
++
++	*pLength += 1;
++	pScanInfoPkt += 1;
++	_rtw_memcpy(pScanInfoPkt, &pwrctl->pscan_info->orig_ch, 1);
++
++
++	*pLength += 1;
++	pScanInfoPkt += 1;
++	_rtw_memcpy(pScanInfoPkt, &pwrctl->pscan_info->orig_bw, 1);
++
++
++	*pLength += 1;
++	pScanInfoPkt += 1;
++	_rtw_memcpy(pScanInfoPkt, &pwrctl->pscan_info->orig_40_offset, 1);
++
++	*pLength += 1;
++	pScanInfoPkt += 1;
++	_rtw_memcpy(pScanInfoPkt, &pwrctl->pscan_info->orig_80_offset, 1);
++
++	*pLength += 1;
++	pScanInfoPkt += 1;
++	_rtw_memcpy(pScanInfoPkt, &pwrctl->pscan_info->periodScan, 1);
++
++	*pLength += 1;
++	pScanInfoPkt += 1;
++	_rtw_memcpy(pScanInfoPkt, &pwrctl->pscan_info->period_scan_time, 1);
++
++	*pLength += 1;
++	pScanInfoPkt += 1;
++	_rtw_memcpy(pScanInfoPkt, &pwrctl->pscan_info->enableRFE, 1);
++
++	*pLength += 1;
++	pScanInfoPkt += 1;
++	_rtw_memcpy(pScanInfoPkt, &pwrctl->pscan_info->rfe_type, 8);
++
++	*pLength += 8;
++	pScanInfoPkt += 8;
++
++	for (i = 0 ; i < MAX_SCAN_LIST_COUNT ; i++) {
++		_rtw_memcpy(pScanInfoPkt,
++			    &pwrctl->pscan_info->ssid_channel_info[i], 4);
++		*pLength += 4;
++		pScanInfoPkt += 4;
++	}
++}
++#endif /* CONFIG_PNO_SUPPORT */
++
++#ifdef CONFIG_GTK_OL
++static void rtw_hal_construct_GTKRsp(
++	PADAPTER	padapter,
++	u8		*pframe,
++	u32		*pLength
++)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16	*fctrl;
++	u32	pktlen;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network	*cur_network = &pmlmepriv->cur_network;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++	static u8	LLCHeader[8] = {0xAA, 0xAA, 0x03, 0x00, 0x00, 0x00, 0x88, 0x8E};
++	static u8	GTKbody_a[11] = {0x01, 0x03, 0x00, 0x5F, 0x02, 0x03, 0x12, 0x00, 0x10, 0x42, 0x0B};
++	u8	*pGTKRspPkt = pframe;
++	u8	EncryptionHeadOverhead = 0;
++	/* RTW_INFO("%s:%d\n", __FUNCTION__, bForcePowerSave); */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	/* ------------------------------------------------------------------------- */
++	/* MAC Header. */
++	/* ------------------------------------------------------------------------- */
++	SetFrameType(fctrl, WIFI_DATA);
++	/* SetFrameSubType(fctrl, 0); */
++	SetToDs(fctrl);
++
++	_rtw_memcpy(pwlanhdr->addr1,
++		    get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	_rtw_memcpy(pwlanhdr->addr2,
++		    adapter_mac_addr(padapter), ETH_ALEN);
++
++	_rtw_memcpy(pwlanhdr->addr3,
++		    get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0);
++	SetDuration(pwlanhdr, 0);
++
++#ifdef CONFIG_WAPI_SUPPORT
++	*pLength = sMacHdrLng;
++#else
++	*pLength = 24;
++#endif /* CONFIG_WAPI_SUPPORT */
++
++	/* ------------------------------------------------------------------------- */
++	/* Security Header: leave space for it if necessary. */
++	/* ------------------------------------------------------------------------- */
++	switch (psecuritypriv->dot11PrivacyAlgrthm) {
++	case _WEP40_:
++	case _WEP104_:
++		EncryptionHeadOverhead = 4;
++		break;
++	case _TKIP_:
++		EncryptionHeadOverhead = 8;
++		break;
++	case _AES_:
++		EncryptionHeadOverhead = 8;
++		break;
++#ifdef CONFIG_WAPI_SUPPORT
++	case _SMS4_:
++		EncryptionHeadOverhead = 18;
++		break;
++#endif /* CONFIG_WAPI_SUPPORT */
++	default:
++		EncryptionHeadOverhead = 0;
++	}
++
++	if (EncryptionHeadOverhead > 0) {
++		_rtw_memset(&(pframe[*pLength]), 0, EncryptionHeadOverhead);
++		*pLength += EncryptionHeadOverhead;
++		/* SET_80211_HDR_WEP(pGTKRspPkt, 1);  */ /* Suggested by CCW. */
++		/* GTK's privacy bit is done by FW */
++		/* SetPrivacy(fctrl); */
++	}
++	/* ------------------------------------------------------------------------- */
++	/* Frame Body. */
++	/* ------------------------------------------------------------------------- */
++	pGTKRspPkt = (u8 *)(pframe + *pLength);
++	/* LLC header */
++	_rtw_memcpy(pGTKRspPkt, LLCHeader, 8);
++	*pLength += 8;
++
++	/* GTK element */
++	pGTKRspPkt += 8;
++
++	/* GTK frame body after LLC, part 1 */
++	_rtw_memcpy(pGTKRspPkt, GTKbody_a, 11);
++	*pLength += 11;
++	pGTKRspPkt += 11;
++	/* GTK frame body after LLC, part 2 */
++	_rtw_memset(&(pframe[*pLength]), 0, 88);
++	*pLength += 88;
++	pGTKRspPkt += 88;
++
++}
++#endif /* CONFIG_GTK_OL */
++
++void rtw_hal_set_wow_fw_rsvd_page(_adapter *adapter, u8 *pframe, u16 index,
++		  u8 tx_desc, u32 page_size, u8 *page_num, u32 *total_pkt_len,
++				  RSVDPAGE_LOC *rsvd_page_loc)
++{
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(adapter);
++	struct mlme_ext_priv	*pmlmeext;
++	struct mlme_ext_info	*pmlmeinfo;
++	u32	ARPLegnth = 0, GTKLegnth = 0, PNOLength = 0, ScanInfoLength = 0;
++	u32	SSIDLegnth = 0, ProbeReqLength = 0;
++	u8 CurtPktPageNum = 0;
++	u8 currentip[4];
++	u8 cur_dot11txpn[8];
++
++#ifdef CONFIG_GTK_OL
++	struct sta_priv *pstapriv = &adapter->stapriv;
++	struct sta_info *psta;
++	u8 kek[RTW_KEK_LEN];
++	u8 kck[RTW_KCK_LEN];
++#endif /* CONFIG_GTK_OL */
++#ifdef CONFIG_PNO_SUPPORT
++	int pno_index;
++	u8 ssid_num;
++#endif /* CONFIG_PNO_SUPPORT */
++
++	pmlmeext = &adapter->mlmeextpriv;
++	pmlmeinfo = &pmlmeext->mlmext_info;
++
++	if (pwrctl->wowlan_pno_enable == _FALSE) {
++		/* ARP RSP * 1 page */
++		rtw_get_current_ip_address(adapter, currentip);
++
++		rsvd_page_loc->LocArpRsp = *page_num;
++
++		RTW_INFO("LocArpRsp: %d\n", rsvd_page_loc->LocArpRsp);
++
++		rtw_hal_construct_ARPRsp(adapter, &pframe[index],
++					 &ARPLegnth, currentip);
++
++		rtw_hal_fill_fake_txdesc(adapter,
++					 &pframe[index - tx_desc],
++					 ARPLegnth, _FALSE, _FALSE, _TRUE);
++
++		CurtPktPageNum = (u8)PageNum(tx_desc + ARPLegnth, page_size);
++
++		*page_num += CurtPktPageNum;
++
++		index += (CurtPktPageNum * page_size);
++
++		/* 3 SEC IV * 1 page */
++		rtw_get_sec_iv(adapter, cur_dot11txpn,
++			       get_my_bssid(&pmlmeinfo->network));
++
++		rsvd_page_loc->LocRemoteCtrlInfo = *page_num;
++
++		RTW_INFO("LocRemoteCtrlInfo: %d\n", rsvd_page_loc->LocRemoteCtrlInfo);
++
++		_rtw_memcpy(pframe + index - tx_desc, cur_dot11txpn, _AES_IV_LEN_);
++
++		CurtPktPageNum = (u8)PageNum(_AES_IV_LEN_, page_size);
++
++		*page_num += CurtPktPageNum;
++
++		*total_pkt_len = index + _AES_IV_LEN_;
++#ifdef CONFIG_GTK_OL
++		index += (CurtPktPageNum * page_size);
++
++		/* if the ap staion info. exists, get the kek, kck from staion info. */
++		psta = rtw_get_stainfo(pstapriv, get_bssid(pmlmepriv));
++		if (psta == NULL) {
++			_rtw_memset(kek, 0, RTW_KEK_LEN);
++			_rtw_memset(kck, 0, RTW_KCK_LEN);
++			RTW_INFO("%s, KEK, KCK download rsvd page all zero\n",
++				 __func__);
++		} else {
++			_rtw_memcpy(kek, psta->kek, RTW_KEK_LEN);
++			_rtw_memcpy(kck, psta->kck, RTW_KCK_LEN);
++		}
++
++		/* 3 KEK, KCK */
++		rsvd_page_loc->LocGTKInfo = *page_num;
++		RTW_INFO("LocGTKInfo: %d\n", rsvd_page_loc->LocGTKInfo);
++
++		if (IS_HARDWARE_TYPE_8188E(adapter) || IS_HARDWARE_TYPE_8812(adapter)) {
++			struct security_priv *psecpriv = NULL;
++
++			psecpriv = &adapter->securitypriv;
++			_rtw_memcpy(pframe + index - tx_desc,
++				    &psecpriv->dot11PrivacyAlgrthm, 1);
++			_rtw_memcpy(pframe + index - tx_desc + 1,
++				    &psecpriv->dot118021XGrpPrivacy, 1);
++			_rtw_memcpy(pframe + index - tx_desc + 2,
++				    kck, RTW_KCK_LEN);
++			_rtw_memcpy(pframe + index - tx_desc + 2 + RTW_KCK_LEN,
++				    kek, RTW_KEK_LEN);
++			CurtPktPageNum = (u8)PageNum(tx_desc + 2 + RTW_KCK_LEN + RTW_KEK_LEN, page_size);
++		} else {
++			_rtw_memcpy(pframe + index - tx_desc, kck, RTW_KCK_LEN);
++			_rtw_memcpy(pframe + index - tx_desc + RTW_KCK_LEN, kek, RTW_KEK_LEN);
++			CurtPktPageNum = (u8)PageNum(tx_desc + RTW_KCK_LEN + RTW_KEK_LEN, page_size);
++		}
++
++
++
++#if 0
++		{
++			int i;
++			printk("\ntoFW KCK: ");
++			for (i = 0; i < 16; i++)
++				printk(" %02x ", kck[i]);
++			printk("\ntoFW KEK: ");
++			for (i = 0; i < 16; i++)
++				printk(" %02x ", kek[i]);
++			printk("\n");
++		}
++
++		RTW_INFO("%s(): HW_VAR_SET_TX_CMD: KEK KCK %p %d\n",
++			 __FUNCTION__, &pframe[index - tx_desc],
++			 (tx_desc + RTW_KCK_LEN + RTW_KEK_LEN));
++#endif
++
++		*page_num += CurtPktPageNum;
++
++		index += (CurtPktPageNum * page_size);
++
++		/* 3 GTK Response */
++		rsvd_page_loc->LocGTKRsp = *page_num;
++		RTW_INFO("LocGTKRsp: %d\n", rsvd_page_loc->LocGTKRsp);
++		rtw_hal_construct_GTKRsp(adapter, &pframe[index], &GTKLegnth);
++
++		rtw_hal_fill_fake_txdesc(adapter, &pframe[index - tx_desc],
++					 GTKLegnth, _FALSE, _FALSE, _TRUE);
++#if 0
++		{
++			int gj;
++			printk("123GTK pkt=>\n");
++			for (gj = 0; gj < GTKLegnth + tx_desc; gj++) {
++				printk(" %02x ", pframe[index - tx_desc + gj]);
++				if ((gj + 1) % 16 == 0)
++					printk("\n");
++			}
++			printk(" <=end\n");
++		}
++
++		RTW_INFO("%s(): HW_VAR_SET_TX_CMD: GTK RSP %p %d\n",
++			 __FUNCTION__, &pframe[index - tx_desc],
++			 (tx_desc + GTKLegnth));
++#endif
++
++		CurtPktPageNum = (u8)PageNum(tx_desc + GTKLegnth, page_size);
++
++		*page_num += CurtPktPageNum;
++
++		index += (CurtPktPageNum * page_size);
++
++		/* below page is empty for GTK extension memory */
++		/* 3(11) GTK EXT MEM */
++		rsvd_page_loc->LocGTKEXTMEM = *page_num;
++
++		CurtPktPageNum = 2;
++
++		if (page_size >= 256)
++			CurtPktPageNum = 1;
++
++		*page_num += CurtPktPageNum;
++		/* extension memory for FW */
++		*total_pkt_len = index + (page_size * CurtPktPageNum);
++
++#endif /* CONFIG_GTK_OL */
++	} else {
++#ifdef CONFIG_PNO_SUPPORT
++		if (pwrctl->pno_in_resume == _FALSE &&
++		    pwrctl->pno_inited == _TRUE) {
++
++			/* Broadcast Probe Request */
++			rsvd_page_loc->LocProbePacket = *page_num;
++
++			RTW_INFO("loc_probe_req: %d\n",
++				 rsvd_page_loc->LocProbePacket);
++
++			rtw_hal_construct_ProbeReq(
++				adapter,
++				&pframe[index],
++				&ProbeReqLength,
++				NULL);
++
++			rtw_hal_fill_fake_txdesc(adapter,
++						 &pframe[index - tx_desc],
++				 ProbeReqLength, _FALSE, _FALSE, _FALSE);
++
++			CurtPktPageNum =
++				(u8)PageNum(tx_desc + ProbeReqLength, page_size);
++
++			*page_num += CurtPktPageNum;
++
++			index += (CurtPktPageNum * page_size);
++
++			/* Hidden SSID Probe Request */
++			ssid_num = pwrctl->pnlo_info->hidden_ssid_num;
++
++			for (pno_index = 0 ; pno_index < ssid_num ; pno_index++) {
++				pwrctl->pnlo_info->loc_probe_req[pno_index] =
++					*page_num;
++
++				rtw_hal_construct_ProbeReq(
++					adapter,
++					&pframe[index],
++					&ProbeReqLength,
++					&pwrctl->pno_ssid_list->node[pno_index]);
++
++				rtw_hal_fill_fake_txdesc(adapter,
++						 &pframe[index - tx_desc],
++					ProbeReqLength, _FALSE, _FALSE, _FALSE);
++
++				CurtPktPageNum =
++					(u8)PageNum(tx_desc + ProbeReqLength, page_size);
++
++				*page_num += CurtPktPageNum;
++
++				index += (CurtPktPageNum * page_size);
++			}
++
++			/* PNO INFO Page */
++			rsvd_page_loc->LocPNOInfo = *page_num;
++			RTW_INFO("LocPNOInfo: %d\n", rsvd_page_loc->LocPNOInfo);
++			rtw_hal_construct_PNO_info(adapter,
++						   &pframe[index - tx_desc],
++						   &PNOLength);
++
++			CurtPktPageNum = (u8)PageNum(PNOLength, page_size);
++			*page_num += CurtPktPageNum;
++			index += (CurtPktPageNum * page_size);
++
++			/* Scan Info Page */
++			rsvd_page_loc->LocScanInfo = *page_num;
++			RTW_INFO("LocScanInfo: %d\n", rsvd_page_loc->LocScanInfo);
++			rtw_hal_construct_scan_info(adapter,
++						    &pframe[index - tx_desc],
++						    &ScanInfoLength);
++
++			CurtPktPageNum = (u8)PageNum(ScanInfoLength, page_size);
++			*page_num += CurtPktPageNum;
++			*total_pkt_len = index + ScanInfoLength;
++			index += (CurtPktPageNum * page_size);
++
++		}
++#endif /* CONFIG_PNO_SUPPORT */
++	}
++}
++
++static void rtw_hal_gate_bb(_adapter *adapter, bool stop)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++	u8 val8 = 0;
++	u16 val16 = 0;
++
++	if (stop) {
++		/* Pause TX*/
++		pwrpriv->wowlan_txpause_status = rtw_read8(adapter, REG_TXPAUSE);
++		rtw_write8(adapter, REG_TXPAUSE, 0xff);
++		val8 = rtw_read8(adapter, REG_SYS_FUNC_EN);
++		val8 &= ~BIT(0);
++		rtw_write8(adapter, REG_SYS_FUNC_EN, val8);
++		RTW_INFO("%s: BB gated: 0x%02x, store TXPAUSE: %02x\n",
++			 __func__,
++			 rtw_read8(adapter, REG_SYS_FUNC_EN),
++			 pwrpriv->wowlan_txpause_status);
++	} else {
++		val8 = rtw_read8(adapter, REG_SYS_FUNC_EN);
++		val8 |= BIT(0);
++		rtw_write8(adapter, REG_SYS_FUNC_EN, val8);
++		RTW_INFO("%s: BB release: 0x%02x, recover TXPAUSE:%02x\n",
++			 __func__, rtw_read8(adapter, REG_SYS_FUNC_EN),
++			 pwrpriv->wowlan_txpause_status);
++		/* release TX*/
++		rtw_write8(adapter, REG_TXPAUSE, pwrpriv->wowlan_txpause_status);
++	}
++}
++
++static void rtw_hal_reset_mac_rx(_adapter *adapter)
++{
++	u8 val8 = 0;
++	/* Set REG_CR bit1, bit3, bit7 to 0*/
++	val8 = rtw_read8(adapter, REG_CR);
++	val8 &= 0x75;
++	rtw_write8(adapter, REG_CR, val8);
++	val8 = rtw_read8(adapter, REG_CR);
++	/* Set REG_CR bit1, bit3, bit7 to 1*/
++	val8 |= 0x8a;
++	rtw_write8(adapter, REG_CR, val8);
++	RTW_INFO("0x%04x: %02x\n", REG_CR, rtw_read8(adapter, REG_CR));
++}
++
++static void rtw_hal_set_wow_rxff_boundary(_adapter *adapter, bool wow_mode)
++{
++	u8 val8 = 0;
++	u16 rxff_bndy = 0;
++	u32 rx_dma_buff_sz = 0;
++
++	val8 = rtw_read8(adapter, REG_FIFOPAGE + 3);
++	if (val8 != 0)
++		RTW_INFO("%s:[%04x]some PKTs in TXPKTBUF\n",
++			 __func__, (REG_FIFOPAGE + 3));
++
++	rtw_hal_reset_mac_rx(adapter);
++
++	if (wow_mode) {
++		rtw_hal_get_def_var(adapter, HAL_DEF_RX_DMA_SZ_WOW,
++				    (u8 *)&rx_dma_buff_sz);
++		rxff_bndy = rx_dma_buff_sz - 1;
++
++		rtw_write16(adapter, (REG_TRXFF_BNDY + 2), rxff_bndy);
++		RTW_INFO("%s: wow mode, 0x%04x: 0x%04x\n", __func__,
++			 REG_TRXFF_BNDY + 2,
++			 rtw_read16(adapter, (REG_TRXFF_BNDY + 2)));
++	} else {
++		rtw_hal_get_def_var(adapter, HAL_DEF_RX_DMA_SZ,
++				    (u8 *)&rx_dma_buff_sz);
++		rxff_bndy = rx_dma_buff_sz - 1;
++		rtw_write16(adapter, (REG_TRXFF_BNDY + 2), rxff_bndy);
++		RTW_INFO("%s: normal mode, 0x%04x: 0x%04x\n", __func__,
++			 REG_TRXFF_BNDY + 2,
++			 rtw_read16(adapter, (REG_TRXFF_BNDY + 2)));
++	}
++}
++
++static int rtw_hal_set_pattern(_adapter *adapter, u8 *pattern,
++			       u8 len, u8 *mask, u8 idx)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(adapter);
++	struct mlme_ext_priv *pmlmeext = NULL;
++	struct mlme_ext_info *pmlmeinfo = NULL;
++	struct rtl_wow_pattern wow_pattern;
++	u8 mask_hw[MAX_WKFM_SIZE] = {0};
++	u8 content[MAX_WKFM_PATTERN_SIZE] = {0};
++	u8 broadcast_addr[6] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u8 multicast_addr1[2] = {0x33, 0x33};
++	u8 multicast_addr2[3] = {0x01, 0x00, 0x5e};
++	u8 res = _FALSE, index = 0, mask_len = 0;
++	u8 mac_addr[ETH_ALEN] = {0};
++	u16 count = 0;
++	int i, j;
++
++	if (pwrctl->wowlan_pattern_idx > MAX_WKFM_NUM) {
++		RTW_INFO("%s pattern_idx is more than MAX_FMC_NUM: %d\n",
++			 __func__, MAX_WKFM_NUM);
++		return _FALSE;
++	}
++
++	pmlmeext = &adapter->mlmeextpriv;
++	pmlmeinfo = &pmlmeext->mlmext_info;
++	_rtw_memcpy(mac_addr, adapter_mac_addr(adapter), ETH_ALEN);
++	_rtw_memset(&wow_pattern, 0, sizeof(struct rtl_wow_pattern));
++
++	mask_len = DIV_ROUND_UP(len, 8);
++
++	/* 1. setup A1 table */
++	if (memcmp(pattern, broadcast_addr, ETH_ALEN) == 0)
++		wow_pattern.type = PATTERN_BROADCAST;
++	else if (memcmp(pattern, multicast_addr1, 2) == 0)
++		wow_pattern.type = PATTERN_MULTICAST;
++	else if (memcmp(pattern, multicast_addr2, 3) == 0)
++		wow_pattern.type = PATTERN_MULTICAST;
++	else if (memcmp(pattern, mac_addr, ETH_ALEN) == 0)
++		wow_pattern.type = PATTERN_UNICAST;
++	else
++		wow_pattern.type = PATTERN_INVALID;
++
++	/* translate mask from os to mask for hw */
++
++/******************************************************************************
++ * pattern from OS uses 'ethenet frame', like this:
++
++	|    6   |    6   |   2  |     20    |  Variable  |  4  |
++	|--------+--------+------+-----------+------------+-----|
++	|    802.3 Mac Header    | IP Header | TCP Packet | FCS |
++	|   DA   |   SA   | Type |
++
++ * BUT, packet catched by our HW is in '802.11 frame', begin from LLC,
++
++	|     24 or 30      |    6   |   2  |     20    |  Variable  |  4  |
++	|-------------------+--------+------+-----------+------------+-----|
++	| 802.11 MAC Header |       LLC     | IP Header | TCP Packet | FCS |
++			    | Others | Tpye |
++
++ * Therefore, we need translate mask_from_OS to mask_to_hw.
++ * We should left-shift mask by 6 bits, then set the new bit[0~5] = 0,
++ * because new mask[0~5] means 'SA', but our HW packet begins from LLC,
++ * bit[0~5] corresponds to first 6 Bytes in LLC, they just don't match.
++ ******************************************************************************/
++	/* Shift 6 bits */
++	for (i = 0; i < mask_len - 1; i++) {
++		mask_hw[i] = mask[i] >> 6;
++		mask_hw[i] |= (mask[i + 1] & 0x3F) << 2;
++	}
++
++	mask_hw[i] = (mask[i] >> 6) & 0x3F;
++	/* Set bit 0-5 to zero */
++	mask_hw[0] &= 0xC0;
++
++	for (i = 0; i < (MAX_WKFM_SIZE / 4); i++) {
++		wow_pattern.mask[i] = mask_hw[i * 4];
++		wow_pattern.mask[i] |= (mask_hw[i * 4 + 1] << 8);
++		wow_pattern.mask[i] |= (mask_hw[i * 4 + 2] << 16);
++		wow_pattern.mask[i] |= (mask_hw[i * 4 + 3] << 24);
++	}
++
++	/* To get the wake up pattern from the mask.
++	 * We do not count first 12 bits which means
++	 * DA[6] and SA[6] in the pattern to match HW design. */
++	count = 0;
++	for (i = 12; i < len; i++) {
++		if ((mask[i / 8] >> (i % 8)) & 0x01) {
++			content[count] = pattern[i];
++			count++;
++		}
++	}
++
++	wow_pattern.crc = rtw_calc_crc(content, count);
++
++	if (wow_pattern.crc != 0) {
++		if (wow_pattern.type == PATTERN_INVALID)
++			wow_pattern.type = PATTERN_VALID;
++	}
++
++	index = idx;
++
++	if (!pwrctl->bInSuspend)
++		index += 2;
++
++	/* write pattern */
++	res = rtw_write_to_frame_mask(adapter, index, &wow_pattern);
++
++	if (res == _FALSE)
++		RTW_INFO("%s: ERROR!! idx: %d write_to_frame_mask_cam fail\n",
++			 __func__, idx);
++
++	return res;
++}
++
++static void rtw_hal_dl_pattern(_adapter *adapter, u8 mode)
++{
++	struct registry_priv *pregistrypriv = &adapter->registrypriv;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++	int i = 0, total = 0;
++
++	total = pwrpriv->wowlan_pattern_idx;
++
++	if (total > MAX_WKFM_NUM)
++		total = MAX_WKFM_NUM;
++
++	rtw_clean_pattern(adapter);
++
++	switch (mode) {
++	case 0:
++		RTW_INFO("%s: total patterns: %d\n", __func__, total);
++		break;
++	case 1:
++		rtw_set_default_pattern(adapter);
++		for (i = 0 ; i < total ; i++) {
++			rtw_hal_set_pattern(adapter,
++					    pwrpriv->patterns[i].content,
++					    pwrpriv->patterns[i].len,
++					    pwrpriv->patterns[i].mask, i);
++		}
++		rtw_write8(adapter, REG_WKFMCAM_NUM, total);
++		RTW_INFO("%s: pattern total: %d downloaded\n",
++			 __func__, total);
++		break;
++	case 2:
++		pwrpriv->wowlan_pattern_idx = DEFAULT_PATTERN_NUM;
++
++		for (i = DEFAULT_PATTERN_NUM ; i < MAX_WKFM_NUM ; i++) {
++			_rtw_memset(pwrpriv->patterns[i].content, '\0',
++				    sizeof(pwrpriv->patterns[i].content));
++			_rtw_memset(pwrpriv->patterns[i].mask, '\0',
++				    sizeof(pwrpriv->patterns[i].mask));
++			pwrpriv->patterns[i].len = 0;
++		}
++		RTW_INFO("%s: clean patterns\n", __func__);
++		break;
++	default:
++		RTW_INFO("%s: unknown mode\n", __func__);
++		break;
++	}
++}
++
++static void rtw_hal_wow_enable(_adapter *adapter)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(adapter);
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	struct sta_info *psta = NULL;
++	int res;
++	u16 media_status_rpt;
++
++
++	RTW_PRINT("%s, WOWLAN_ENABLE\n", __func__);
++	rtw_hal_gate_bb(adapter, _TRUE);
++#ifdef CONFIG_GTK_OL
++	if (psecuritypriv->dot11PrivacyAlgrthm == _AES_ &&
++		psecuritypriv->dot118021XGrpPrivacy == _AES_)
++		rtw_hal_fw_sync_cam_id(adapter);
++#endif
++	if (IS_HARDWARE_TYPE_8723B(adapter))
++		rtw_hal_backup_rate(adapter);
++
++	/* RX DMA stop */
++	if (IS_HARDWARE_TYPE_8188E(adapter))
++		rtw_hal_disable_tx_report(adapter);
++
++	res = rtw_hal_pause_rx_dma(adapter);
++	if (res == _FAIL)
++		RTW_PRINT("[WARNING] pause RX DMA fail\n");
++
++	/* Reconfig RX_FF Boundary */
++	rtw_hal_set_wow_rxff_boundary(adapter, _TRUE);
++
++	/* redownload wow pattern */
++	rtw_hal_dl_pattern(adapter, 1);
++
++	rtw_hal_fw_dl(adapter, _TRUE);
++	media_status_rpt = RT_MEDIA_CONNECT;
++	rtw_hal_set_hwreg(adapter, HW_VAR_H2C_FW_JOINBSSRPT,
++			  (u8 *)&media_status_rpt);
++
++	if (!pwrctl->wowlan_pno_enable) {
++		psta = rtw_get_stainfo(&adapter->stapriv, get_bssid(pmlmepriv));
++		if (psta != NULL)
++			rtw_sta_media_status_rpt(adapter, psta, 1);
++	}
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	/* Enable CPWM2 only. */
++	res = rtw_hal_enable_cpwm2(adapter);
++	if (res == _FAIL)
++		RTW_PRINT("[WARNING] enable cpwm2 fail\n");
++#endif
++#ifdef CONFIG_GPIO_WAKEUP
++	rtw_hal_switch_gpio_wl_ctrl(adapter, WAKEUP_GPIO_IDX, _TRUE);
++#endif
++	/* Set WOWLAN H2C command. */
++	RTW_PRINT("Set WOWLan cmd\n");
++	rtw_hal_set_fw_wow_related_cmd(adapter, 1);
++
++	res = rtw_hal_check_wow_ctrl(adapter, _TRUE);
++
++	if (res == _FALSE)
++		RTW_INFO("[Error]%s: set wowlan CMD fail!!\n", __func__);
++
++	pwrctl->wowlan_wake_reason =
++		rtw_read8(adapter, REG_WOWLAN_WAKE_REASON);
++
++	RTW_PRINT("wowlan_wake_reason: 0x%02x\n",
++		  pwrctl->wowlan_wake_reason);
++#ifdef CONFIG_GTK_OL_DBG
++	dump_sec_cam(RTW_DBGDUMP, adapter);
++#endif
++#ifdef CONFIG_USB_HCI
++	/* free adapter's resource */
++	rtw_mi_intf_stop(adapter);
++
++	/* Invoid SE0 reset signal during suspending*/
++	rtw_write8(adapter, REG_RSV_CTRL, 0x20);
++	rtw_write8(adapter, REG_RSV_CTRL, 0x60);
++#endif /*CONFIG_USB_HCI*/
++
++	rtw_hal_gate_bb(adapter, _FALSE);
++}
++
++static void rtw_hal_wow_disable(_adapter *adapter)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(adapter);
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	struct sta_info *psta = NULL;
++	int res;
++	u16 media_status_rpt;
++	u8 val8;
++
++	RTW_PRINT("%s, WOWLAN_DISABLE\n", __func__);
++
++	if (!pwrctl->wowlan_pno_enable) {
++		psta = rtw_get_stainfo(&adapter->stapriv, get_bssid(pmlmepriv));
++		if (psta != NULL)
++			rtw_sta_media_status_rpt(adapter, psta, 0);
++		else
++			RTW_INFO("%s: psta is null\n", __func__);
++	}
++
++	if (0) {
++		RTW_INFO("0x630:0x%02x\n", rtw_read8(adapter, 0x630));
++		RTW_INFO("0x631:0x%02x\n", rtw_read8(adapter, 0x631));
++	}
++
++	pwrctl->wowlan_wake_reason = rtw_read8(adapter, REG_WOWLAN_WAKE_REASON);
++
++	RTW_PRINT("wakeup_reason: 0x%02x\n",
++		  pwrctl->wowlan_wake_reason);
++
++	rtw_hal_set_fw_wow_related_cmd(adapter, 0);
++
++	res = rtw_hal_check_wow_ctrl(adapter, _FALSE);
++
++	if (res == _FALSE) {
++		RTW_INFO("[Error]%s: disable WOW cmd fail\n!!", __func__);
++		rtw_hal_force_enable_rxdma(adapter);
++	}
++
++	rtw_hal_gate_bb(adapter, _TRUE);
++
++	res = rtw_hal_pause_rx_dma(adapter);
++	if (res == _FAIL)
++		RTW_PRINT("[WARNING] pause RX DMA fail\n");
++
++	/* clean HW pattern match */
++	rtw_hal_dl_pattern(adapter, 0);
++
++	/* config RXFF boundary to original */
++	rtw_hal_set_wow_rxff_boundary(adapter, _FALSE);
++
++	rtw_hal_release_rx_dma(adapter);
++
++	if (IS_HARDWARE_TYPE_8188E(adapter))
++		rtw_hal_enable_tx_report(adapter);
++
++	rtw_hal_update_tx_iv(adapter);
++
++#ifdef CONFIG_GTK_OL
++	if (psecuritypriv->dot11PrivacyAlgrthm == _AES_ &&
++		psecuritypriv->dot118021XGrpPrivacy == _AES_)
++		rtw_hal_update_gtk_offload_info(adapter);
++#endif /*CONFIG_GTK_OL*/
++
++	rtw_hal_fw_dl(adapter, _FALSE);
++
++#ifdef CONFIG_GPIO_WAKEUP
++	val8 = (pwrctl->is_high_active == 0) ? 1 : 0;
++	RTW_PRINT("Set Wake GPIO to default(%d).\n", val8);
++	rtw_hal_set_output_gpio(adapter, WAKEUP_GPIO_IDX, val8);
++#endif
++
++	if ((pwrctl->wowlan_wake_reason != FW_DECISION_DISCONNECT) &&
++	    (pwrctl->wowlan_wake_reason != RX_PAIRWISEKEY) &&
++	    (pwrctl->wowlan_wake_reason != RX_DISASSOC) &&
++	    (pwrctl->wowlan_wake_reason != RX_DEAUTH)) {
++
++		media_status_rpt = RT_MEDIA_CONNECT;
++		rtw_hal_set_hwreg(adapter, HW_VAR_H2C_FW_JOINBSSRPT,
++				  (u8 *)&media_status_rpt);
++
++		if (psta != NULL)
++			rtw_sta_media_status_rpt(adapter, psta, 1);
++	}
++	rtw_hal_gate_bb(adapter, _FALSE);
++}
++#endif /*CONFIG_WOWLAN*/
++
++#ifdef CONFIG_P2P_WOWLAN
++void rtw_hal_set_p2p_wow_fw_rsvd_page(_adapter *adapter, u8 *pframe, u16 index,
++	      u8 tx_desc, u32 page_size, u8 *page_num, u32 *total_pkt_len,
++				      RSVDPAGE_LOC *rsvd_page_loc)
++{
++	u32 P2PNegoRspLength = 0, P2PInviteRspLength = 0;
++	u32 P2PPDRspLength = 0, P2PProbeRspLength = 0, P2PBCNLength = 0;
++	u8 CurtPktPageNum = 0;
++
++	/* P2P Beacon */
++	rsvd_page_loc->LocP2PBeacon = *page_num;
++	rtw_hal_construct_P2PBeacon(adapter, &pframe[index], &P2PBCNLength);
++	rtw_hal_fill_fake_txdesc(adapter, &pframe[index - tx_desc],
++				 P2PBCNLength, _FALSE, _FALSE, _FALSE);
++
++#if 0
++	RTW_INFO("%s(): HW_VAR_SET_TX_CMD: PROBE RSP %p %d\n",
++		__FUNCTION__, &pframe[index - tx_desc], (P2PBCNLength + tx_desc));
++#endif
++
++	CurtPktPageNum = (u8)PageNum(tx_desc + P2PBCNLength, page_size);
++
++	*page_num += CurtPktPageNum;
++
++	index += (CurtPktPageNum * page_size);
++
++	/* P2P Probe rsp */
++	rsvd_page_loc->LocP2PProbeRsp = *page_num;
++	rtw_hal_construct_P2PProbeRsp(adapter, &pframe[index],
++				      &P2PProbeRspLength);
++	rtw_hal_fill_fake_txdesc(adapter, &pframe[index - tx_desc],
++				 P2PProbeRspLength, _FALSE, _FALSE, _FALSE);
++
++	/* RTW_INFO("%s(): HW_VAR_SET_TX_CMD: PROBE RSP %p %d\n",  */
++	/*	__FUNCTION__, &pframe[index-tx_desc], (P2PProbeRspLength+tx_desc)); */
++
++	CurtPktPageNum = (u8)PageNum(tx_desc + P2PProbeRspLength, page_size);
++
++	*page_num += CurtPktPageNum;
++
++	index += (CurtPktPageNum * page_size);
++
++	/* P2P nego rsp */
++	rsvd_page_loc->LocNegoRsp = *page_num;
++	rtw_hal_construct_P2PNegoRsp(adapter, &pframe[index],
++				     &P2PNegoRspLength);
++	rtw_hal_fill_fake_txdesc(adapter, &pframe[index - tx_desc],
++				 P2PNegoRspLength, _FALSE, _FALSE, _FALSE);
++
++	/* RTW_INFO("%s(): HW_VAR_SET_TX_CMD: QOS NULL DATA %p %d\n",  */
++	/*	__FUNCTION__, &pframe[index-tx_desc], (NegoRspLength+tx_desc)); */
++
++	CurtPktPageNum = (u8)PageNum(tx_desc + P2PNegoRspLength, page_size);
++
++	*page_num += CurtPktPageNum;
++
++	index += (CurtPktPageNum * page_size);
++
++	/* P2P invite rsp */
++	rsvd_page_loc->LocInviteRsp = *page_num;
++	rtw_hal_construct_P2PInviteRsp(adapter, &pframe[index],
++				       &P2PInviteRspLength);
++	rtw_hal_fill_fake_txdesc(adapter, &pframe[index - tx_desc],
++				 P2PInviteRspLength, _FALSE, _FALSE, _FALSE);
++
++	/* RTW_INFO("%s(): HW_VAR_SET_TX_CMD: QOS NULL DATA %p %d\n",  */
++	/* __FUNCTION__, &pframe[index-tx_desc], (InviteRspLength+tx_desc)); */
++
++	CurtPktPageNum = (u8)PageNum(tx_desc + P2PInviteRspLength, page_size);
++
++	*page_num += CurtPktPageNum;
++
++	index += (CurtPktPageNum * page_size);
++
++	/* P2P provision discovery rsp */
++	rsvd_page_loc->LocPDRsp = *page_num;
++	rtw_hal_construct_P2PProvisionDisRsp(adapter,
++					     &pframe[index], &P2PPDRspLength);
++
++	rtw_hal_fill_fake_txdesc(adapter, &pframe[index - tx_desc],
++				 P2PPDRspLength, _FALSE, _FALSE, _FALSE);
++
++	/* RTW_INFO("%s(): HW_VAR_SET_TX_CMD: QOS NULL DATA %p %d\n",  */
++	/*	__FUNCTION__, &pframe[index-tx_desc], (PDRspLength+tx_desc)); */
++
++	CurtPktPageNum = (u8)PageNum(tx_desc + P2PPDRspLength, page_size);
++
++	*page_num += CurtPktPageNum;
++
++	*total_pkt_len = index + P2PPDRspLength;
++
++	index += (CurtPktPageNum * page_size);
++
++
++}
++#endif /* CONFIG_P2P_WOWLAN */
++
++#ifdef CONFIG_LPS_PG
++	#define LPSPG_RSVD_PAGE_SET_MACID(_rsvd_pag, _value)		SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x00, 0, 8, _value)/*used macid*/
++	#define LPSPG_RSVD_PAGE_SET_MBSSCAMID(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x00, 8, 8, _value)/*used BSSID CAM entry*/
++	#define LPSPG_RSVD_PAGE_SET_PMC_NUM(_rsvd_pag, _value)		SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x00, 16, 8, _value)/*Max used Pattern Match CAM entry*/
++	#define LPSPG_RSVD_PAGE_SET_MU_RAID_GID(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x00, 24, 8, _value)/*Max MU rate table Group ID*/
++	#define LPSPG_RSVD_PAGE_SET_SEC_CAM_NUM(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x04, 0, 8, _value)/*used Security CAM entry number*/
++	#define LPSPG_RSVD_PAGE_SET_SEC_CAM_ID1(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x08, 0, 8, _value)/*used Security CAM entry -1*/
++	#define LPSPG_RSVD_PAGE_SET_SEC_CAM_ID2(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x08, 8, 8, _value)/*used Security CAM entry -2*/
++	#define LPSPG_RSVD_PAGE_SET_SEC_CAM_ID3(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x08, 16, 8, _value)/*used Security CAM entry -3*/
++	#define LPSPG_RSVD_PAGE_SET_SEC_CAM_ID4(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x08, 24, 8, _value)/*used Security CAM entry -4*/
++	#define LPSPG_RSVD_PAGE_SET_SEC_CAM_ID5(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x0C, 0, 8, _value)/*used Security CAM entry -5*/
++	#define LPSPG_RSVD_PAGE_SET_SEC_CAM_ID6(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x0C, 8, 8, _value)/*used Security CAM entry -6*/
++	#define LPSPG_RSVD_PAGE_SET_SEC_CAM_ID7(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x0C, 16, 8, _value)/*used Security CAM entry -7*/
++	#define LPSPG_RSVD_PAGE_SET_SEC_CAM_ID8(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x0C, 24, 8, _value)/*used Security CAM entry -8*/
++#endif
++#ifdef CONFIG_LPS_PG
++#include "hal_halmac.h"
++
++#define DBG_LPSPG_SEC_DUMP
++#define LPS_PG_INFO_RSVD_LEN	16
++
++static void rtw_hal_set_lps_pg_info_rsvd_page(_adapter *adapter)
++{
++	u8 cur_pag_num = 0;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++	struct sta_info	*psta = rtw_get_stainfo(&adapter->stapriv, get_bssid(&adapter->mlmepriv));
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	u8 lps_pg_info[LPS_PG_INFO_RSVD_LEN] = {0};
++#ifdef CONFIG_MBSSID_CAM
++	u8 cam_id = INVALID_CAM_ID;
++#endif
++	u8 *psec_cam_id = lps_pg_info + 8;
++	u8 sec_cam_num = 0;
++
++	if (!psta) {
++		RTW_ERR("%s [ERROR] sta is NULL\n", __func__);
++		rtw_warn_on(1);
++		return;
++	}
++
++	LPSPG_RSVD_PAGE_SET_MACID(lps_pg_info, psta->mac_id);	/*used macid*/
++	RTW_INFO("[LPSPG-INFO] mac_id:%d\n", psta->mac_id);
++
++#ifdef CONFIG_MBSSID_CAM
++	cam_id = rtw_mbid_cam_search_by_ifaceid(adapter, adapter->iface_id);
++	if (cam_id != INVALID_CAM_ID)
++		LPSPG_RSVD_PAGE_SET_MBSSCAMID(lps_pg_info, cam_id);	/*used BSSID CAM entry*/
++	RTW_INFO("[LPSPG-INFO] mbss_cam_id:%d\n", cam_id);
++#endif
++
++#ifdef CONFIG_WOWLAN /*&& pattern match cam used*/
++	if (pwrpriv->wowlan_mode == _TRUE &&
++	    check_fwstate(&adapter->mlmepriv, _FW_LINKED) == _TRUE) {
++		LPSPG_RSVD_PAGE_SET_PMC_NUM(lps_pg_info, pwrpriv->wowlan_pattern_idx);	/*Max used Pattern Match CAM entry*/
++		RTW_INFO("[LPSPG-INFO] Max Pattern Match CAM entry :%d\n", _value);
++	}
++#endif
++#ifdef CONFIG_BEAMFORMING  /*&& MU BF*/
++	LPSPG_RSVD_PAGE_SET_MU_RAID_GID(lps_pg_info, _value);	/*Max MU rate table Group ID*/
++	RTW_INFO("[LPSPG-INFO] Max MU rate table Group ID :%d\n", _value);
++#endif
++
++	sec_cam_num = rtw_get_sec_camid(adapter, 8, psec_cam_id);
++	if (sec_cam_num < 8)
++		LPSPG_RSVD_PAGE_SET_SEC_CAM_NUM(lps_pg_info, sec_cam_num);	/*used Security CAM entry number*/
++	RTW_INFO("[LPSPG-INFO] Security CAM entry number :%d\n", sec_cam_num);
++
++#ifdef DBG_LPSPG_SEC_DUMP
++	{
++		int i;
++
++		for (i = 0; i < sec_cam_num; i++)
++			RTW_INFO("%d = sec_cam_id:%d\n", i, psec_cam_id[i]);
++	}
++#endif
++
++#ifdef DBG_LPSPG_INFO_DUMP
++	RTW_INFO("==== DBG_LPSPG_INFO_RSVD_PAGE_DUMP====\n");
++	RTW_INFO("  %02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X\n",
++		*(lps_pg_info), *(lps_pg_info + 1), *(lps_pg_info + 2), *(lps_pg_info + 3),
++		*(lps_pg_info + 4), *(lps_pg_info + 5), *(lps_pg_info + 6), *(lps_pg_info + 7));
++	RTW_INFO("  %02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X\n",
++		*(lps_pg_info + 8), *(lps_pg_info + 9), *(lps_pg_info + 10), *(lps_pg_info + 11),
++		*(lps_pg_info + 12), *(lps_pg_info + 13), *(lps_pg_info + 14), *(lps_pg_info + 15));
++	RTW_INFO("==== DBG_LPSPG_INFO_RSVD_PAGE_DUMP====\n");
++#endif
++
++	rtw_halmac_download_rsvd_page(dvobj, pwrpriv->lpspg_rsvd_page_locate, lps_pg_info, LPS_PG_INFO_RSVD_LEN);
++
++}
++
++#define DBG_LPSPG_INFO_DUMP
++static u8 rtw_hal_set_lps_pg_info_cmd(_adapter *adapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++
++	u8 lpspg_info[H2C_LPS_PG_INFO_LEN] = {0};
++	u8 ret = _FAIL;
++
++	RTW_INFO("%s: loc_lpspg_info:%d\n", __func__, pwrpriv->lpspg_rsvd_page_locate);
++
++	if (_NO_PRIVACY_ != adapter->securitypriv.dot11PrivacyAlgrthm)
++		SET_H2CCMD_LPSPG_SEC_CAM_EN(lpspg_info, 1);	/*SecurityCAM_En*/
++#ifdef CONFIG_MBSSID_CAM
++	SET_H2CCMD_LPSPG_MBID_CAM_EN(lpspg_info, 1);		/*BSSIDCAM_En*/
++#endif
++
++#ifdef CONFIG_WOWLAN /*&& pattern match cam used*/
++	if (pwrpriv->wowlan_mode == _TRUE &&
++	    check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++
++		SET_H2CCMD_LPSPG_PMC_CAM_EN(lpspg_info, 1);	/*PatternMatchCAM_En*/
++	}
++#endif
++
++#ifdef CONFIG_MACID_SEARCH
++	SET_H2CCMD_LPSPG_MACID_SEARCH_EN(lpspg_info, 1);	/*MACIDSearch_En*/
++#endif
++
++#ifdef CONFIG_TX_SC
++	SET_H2CCMD_LPSPG_TXSC_EN(lpspg_info, 1);	/*TXSC_En*/
++#endif
++
++#ifdef CONFIG_BEAMFORMING  /*&& MU BF*/
++	SET_H2CCMD_LPSPG_MU_RATE_TB_EN(lpspg_info, 1);	/*MURateTable_En*/
++#endif
++
++	SET_H2CCMD_LPSPG_LOC(lpspg_info, pwrpriv->lpspg_rsvd_page_locate);
++
++#ifdef DBG_LPSPG_INFO_DUMP
++	RTW_INFO("==== DBG_LPSPG_INFO_CMD_DUMP====\n");
++	RTW_INFO("  H2C_CMD: 0x%02x, H2C_LEN: %d\n", H2C_LPS_PG_INFO, H2C_LPS_PG_INFO_LEN);
++	RTW_INFO("  %02X:%02X\n", *(lpspg_info), *(lpspg_info + 1));
++	RTW_INFO("==== DBG_LPSPG_INFO_CMD_DUMP====\n");
++#endif
++
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_LPS_PG_INFO,
++				   H2C_LPS_PG_INFO_LEN,
++				   lpspg_info);
++	return ret;
++}
++u8 rtw_hal_set_lps_pg_info(_adapter *adapter)
++{
++	u8 ret = _FAIL;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++
++	if (pwrpriv->lpspg_rsvd_page_locate == 0) {
++		RTW_ERR("%s [ERROR] lpspg_rsvd_page_locate = 0\n", __func__);
++		rtw_warn_on(1);
++		return ret;
++	}
++
++	rtw_hal_set_lps_pg_info_rsvd_page(adapter);
++	ret = rtw_hal_set_lps_pg_info_cmd(adapter);
++	if (_SUCCESS == ret)
++		pwrpriv->blpspg_info_up = _FALSE;
++
++	return ret;
++}
++#endif /*CONFIG_LPS_PG*/
++
++/*
++ * Description: Fill the reserved packets that FW will use to RSVD page.
++ *			Now we just send 4 types packet to rsvd page.
++ *			(1)Beacon, (2)Ps-poll, (3)Null data, (4)ProbeRsp.
++ * Input:
++ * finished - FALSE:At the first time we will send all the packets as a large packet to Hw,
++ *		    so we need to set the packet length to total lengh.
++ *	      TRUE: At the second time, we should send the first packet (default:beacon)
++ *		    to Hw again and set the lengh in descriptor to the real beacon lengh.
++ * 2009.10.15 by tynli.
++ *
++ * Page Size = 128: 8188e, 8723a/b, 8192c/d,
++ * Page Size = 256: 8192e, 8821a
++ * Page Size = 512: 8812a
++ */
++
++void rtw_hal_set_fw_rsvd_page(_adapter *adapter, bool finished)
++{
++	PHAL_DATA_TYPE pHalData;
++	struct xmit_frame	*pcmdframe;
++	struct pkt_attrib	*pattrib;
++	struct xmit_priv	*pxmitpriv;
++	struct mlme_ext_priv	*pmlmeext;
++	struct mlme_ext_info	*pmlmeinfo;
++	struct pwrctrl_priv *pwrctl;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	u32	BeaconLength = 0, ProbeRspLength = 0, PSPollLength = 0;
++	u32	NullDataLength = 0, QosNullLength = 0, BTQosNullLength = 0;
++	u32	ProbeReqLength = 0, NullFunctionDataLength = 0;
++	u8	TxDescLen = TXDESC_SIZE, TxDescOffset = TXDESC_OFFSET;
++	u8	TotalPageNum = 0 , CurtPktPageNum = 0 , RsvdPageNum = 0;
++	u8	*ReservedPagePacket;
++	u16	BufIndex = 0;
++	u32	TotalPacketLen = 0, MaxRsvdPageBufSize = 0, PageSize = 0;
++	RSVDPAGE_LOC	RsvdPageLoc;
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	struct sreset_priv *psrtpriv;
++#endif /* DBG_CONFIG_ERROR_DETECT */
++
++#ifdef CONFIG_MCC_MODE
++	u8 dl_mcc_page = _FAIL;
++#endif /* CONFIG_MCC_MODE */
++
++	pHalData = GET_HAL_DATA(adapter);
++#ifdef DBG_CONFIG_ERROR_DETECT
++	psrtpriv = &pHalData->srestpriv;
++#endif
++	pxmitpriv = &adapter->xmitpriv;
++	pmlmeext = &adapter->mlmeextpriv;
++	pmlmeinfo = &pmlmeext->mlmext_info;
++	pwrctl = adapter_to_pwrctl(adapter);
++
++	rtw_hal_get_def_var(adapter, HAL_DEF_TX_PAGE_SIZE, (u8 *)&PageSize);
++
++	if (PageSize == 0) {
++		RTW_INFO("[Error]: %s, PageSize is zero!!\n", __func__);
++		return;
++	}
++
++	if (pwrctl->wowlan_mode == _TRUE || pwrctl->wowlan_ap_mode == _TRUE)
++		RsvdPageNum = rtw_hal_get_txbuff_rsvd_page_num(adapter, _TRUE);
++	else
++		RsvdPageNum = rtw_hal_get_txbuff_rsvd_page_num(adapter, _FALSE);
++
++	RTW_INFO("%s PageSize: %d, RsvdPageNUm: %d\n", __func__, PageSize, RsvdPageNum);
++
++	MaxRsvdPageBufSize = RsvdPageNum * PageSize;
++
++	if (MaxRsvdPageBufSize > MAX_CMDBUF_SZ) {
++		RTW_INFO("%s MaxRsvdPageBufSize(%d) is larger than MAX_CMDBUF_SZ(%d)",
++			 __func__, MaxRsvdPageBufSize, MAX_CMDBUF_SZ);
++		rtw_warn_on(1);
++		return;
++	}
++
++	pcmdframe = rtw_alloc_cmdxmitframe(pxmitpriv);
++
++	if (pcmdframe == NULL) {
++		RTW_INFO("%s: alloc ReservedPagePacket fail!\n", __FUNCTION__);
++		return;
++	}
++
++	ReservedPagePacket = pcmdframe->buf_addr;
++	_rtw_memset(&RsvdPageLoc, 0, sizeof(RSVDPAGE_LOC));
++
++	/* beacon * 2 pages */
++	BufIndex = TxDescOffset;
++	rtw_hal_construct_beacon(adapter,
++				 &ReservedPagePacket[BufIndex], &BeaconLength);
++
++	/*
++	* When we count the first page size, we need to reserve description size for the RSVD
++	* packet, it will be filled in front of the packet in TXPKTBUF.
++	*/
++	CurtPktPageNum = (u8)PageNum((TxDescLen + BeaconLength), PageSize);
++	/* If we don't add 1 more page, ARP offload function will fail at 8723bs.*/
++	if (CurtPktPageNum == 1)
++		CurtPktPageNum += 1;
++
++	TotalPageNum += CurtPktPageNum;
++
++	BufIndex += (CurtPktPageNum * PageSize);
++
++	if (pwrctl->wowlan_ap_mode == _TRUE) {
++		/* (4) probe response*/
++		RsvdPageLoc.LocProbeRsp = TotalPageNum;
++		rtw_hal_construct_ProbeRsp(
++			adapter, &ReservedPagePacket[BufIndex],
++			&ProbeRspLength,
++			get_my_bssid(&pmlmeinfo->network), _FALSE);
++		rtw_hal_fill_fake_txdesc(adapter,
++				 &ReservedPagePacket[BufIndex - TxDescLen],
++				 ProbeRspLength, _FALSE, _FALSE, _FALSE);
++
++		CurtPktPageNum = (u8)PageNum(TxDescLen + ProbeRspLength, PageSize);
++		TotalPageNum += CurtPktPageNum;
++		TotalPacketLen = BufIndex + ProbeRspLength;
++		BufIndex += (CurtPktPageNum * PageSize);
++		goto download_page;
++	}
++
++	/* ps-poll * 1 page */
++	RsvdPageLoc.LocPsPoll = TotalPageNum;
++	RTW_INFO("LocPsPoll: %d\n", RsvdPageLoc.LocPsPoll);
++	rtw_hal_construct_PSPoll(adapter,
++				 &ReservedPagePacket[BufIndex], &PSPollLength);
++	rtw_hal_fill_fake_txdesc(adapter,
++				 &ReservedPagePacket[BufIndex - TxDescLen],
++				 PSPollLength, _TRUE, _FALSE, _FALSE);
++
++	CurtPktPageNum = (u8)PageNum((TxDescLen + PSPollLength), PageSize);
++
++	TotalPageNum += CurtPktPageNum;
++
++	BufIndex += (CurtPktPageNum * PageSize);
++
++#ifdef CONFIG_BT_COEXIST
++	/* BT Qos null data * 1 page */
++	RsvdPageLoc.LocBTQosNull = TotalPageNum;
++	RTW_INFO("LocBTQosNull: %d\n", RsvdPageLoc.LocBTQosNull);
++	rtw_hal_construct_NullFunctionData(
++		adapter,
++		&ReservedPagePacket[BufIndex],
++		&BTQosNullLength,
++		get_my_bssid(&pmlmeinfo->network),
++		_TRUE, 0, 0, _FALSE);
++	rtw_hal_fill_fake_txdesc(adapter,
++				 &ReservedPagePacket[BufIndex - TxDescLen],
++				 BTQosNullLength, _FALSE, _TRUE, _FALSE);
++
++	CurtPktPageNum = (u8)PageNum(TxDescLen + BTQosNullLength, PageSize);
++
++	TotalPageNum += CurtPktPageNum;
++
++	BufIndex += (CurtPktPageNum * PageSize);
++#endif /* CONFIG_BT_COEXIT */
++
++#ifdef CONFIG_MCC_MODE
++	if (MCC_EN(adapter)) {
++		dl_mcc_page = rtw_hal_dl_mcc_fw_rsvd_page(adapter, ReservedPagePacket,
++				&BufIndex, TxDescLen, PageSize,
++				&TotalPageNum, &TotalPacketLen, &RsvdPageLoc);
++	} else
++		dl_mcc_page = _FAIL;
++
++	if (dl_mcc_page == _FAIL) {
++#endif /* CONFIG_MCC_MODE */
++
++		/* null data * 1 page */
++		RsvdPageLoc.LocNullData = TotalPageNum;
++		RTW_INFO("LocNullData: %d\n", RsvdPageLoc.LocNullData);
++		rtw_hal_construct_NullFunctionData(
++			adapter,
++			&ReservedPagePacket[BufIndex],
++			&NullDataLength,
++			get_my_bssid(&pmlmeinfo->network),
++			_FALSE, 0, 0, _FALSE);
++		rtw_hal_fill_fake_txdesc(adapter,
++				 &ReservedPagePacket[BufIndex - TxDescLen],
++				 NullDataLength, _FALSE, _FALSE, _FALSE);
++
++		CurtPktPageNum = (u8)PageNum(TxDescLen + NullDataLength, PageSize);
++
++		TotalPageNum += CurtPktPageNum;
++
++		BufIndex += (CurtPktPageNum * PageSize);
++#ifdef CONFIG_MCC_MODE
++	}
++#endif /* CONFIG_MCC_MODE */
++
++	/* Qos null data * 1 page */
++	RsvdPageLoc.LocQosNull = TotalPageNum;
++	RTW_INFO("LocQosNull: %d\n", RsvdPageLoc.LocQosNull);
++	rtw_hal_construct_NullFunctionData(
++		adapter,
++		&ReservedPagePacket[BufIndex],
++		&QosNullLength,
++		get_my_bssid(&pmlmeinfo->network),
++		_TRUE, 0, 0, _FALSE);
++	rtw_hal_fill_fake_txdesc(adapter,
++				 &ReservedPagePacket[BufIndex - TxDescLen],
++				 QosNullLength, _FALSE, _FALSE, _FALSE);
++
++	CurtPktPageNum = (u8)PageNum(TxDescLen + QosNullLength, PageSize);
++
++	TotalPageNum += CurtPktPageNum;
++
++	TotalPacketLen = BufIndex + QosNullLength;
++
++	BufIndex += (CurtPktPageNum * PageSize);
++
++#ifdef CONFIG_WOWLAN
++	if (pwrctl->wowlan_mode == _TRUE) {
++		rtw_hal_set_wow_fw_rsvd_page(adapter, ReservedPagePacket,
++					     BufIndex, TxDescLen, PageSize,
++			     &TotalPageNum, &TotalPacketLen, &RsvdPageLoc);
++	}
++#endif /* CONFIG_WOWLAN */
++
++#ifdef CONFIG_P2P_WOWLAN
++	if (_TRUE == pwrctl->wowlan_p2p_mode) {
++		rtw_hal_set_p2p_wow_fw_rsvd_page(adapter, ReservedPagePacket,
++						 BufIndex, TxDescLen, PageSize,
++				 &TotalPageNum, &TotalPacketLen, &RsvdPageLoc);
++	}
++#endif /* CONFIG_P2P_WOWLAN */
++
++#ifdef CONFIG_LPS_PG
++	/* must reserved last 1 x page for LPS PG Info*/
++	pwrctl->lpspg_rsvd_page_locate = TotalPageNum;
++	pwrctl->blpspg_info_up = _TRUE;
++#endif
++
++download_page:
++	/* RTW_INFO("%s BufIndex(%d), TxDescLen(%d), PageSize(%d)\n",__func__, BufIndex, TxDescLen, PageSize);*/
++	RTW_INFO("%s PageNum(%d), pktlen(%d)\n",
++		 __func__, TotalPageNum, TotalPacketLen);
++
++	if (TotalPacketLen > MaxRsvdPageBufSize) {
++		RTW_INFO("%s(ERROR): rsvd page size is not enough!!TotalPacketLen %d, MaxRsvdPageBufSize %d\n",
++			 __FUNCTION__, TotalPacketLen, MaxRsvdPageBufSize);
++		rtw_warn_on(1);
++		goto error;
++	} else {
++		/* update attribute */
++		pattrib = &pcmdframe->attrib;
++		update_mgntframe_attrib(adapter, pattrib);
++		pattrib->qsel = QSLT_BEACON;
++		pattrib->pktlen = TotalPacketLen - TxDescOffset;
++		pattrib->last_txcmdsz = TotalPacketLen - TxDescOffset;
++#ifdef CONFIG_PCI_HCI
++		dump_mgntframe(adapter, pcmdframe);
++#else
++		dump_mgntframe_and_wait(adapter, pcmdframe, 100);
++#endif
++	}
++
++	RTW_INFO("%s: Set RSVD page location to Fw ,TotalPacketLen(%d), TotalPageNum(%d)\n",
++		 __func__, TotalPacketLen, TotalPageNum);
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++		rtw_hal_set_FwRsvdPage_cmd(adapter, &RsvdPageLoc);
++		if (pwrctl->wowlan_mode == _TRUE)
++			rtw_hal_set_FwAoacRsvdPage_cmd(adapter, &RsvdPageLoc);
++#ifdef CONFIG_AP_WOWLAN
++		if (pwrctl->wowlan_ap_mode == _TRUE)
++			rtw_hal_set_ap_rsvdpage_loc_cmd(adapter, &RsvdPageLoc);
++#endif /* CONFIG_AP_WOWLAN */
++	} else if (pwrctl->wowlan_pno_enable) {
++#ifdef CONFIG_PNO_SUPPORT
++		rtw_hal_set_FwAoacRsvdPage_cmd(adapter, &RsvdPageLoc);
++		if (pwrctl->pno_in_resume)
++			rtw_hal_set_scan_offload_info_cmd(adapter,
++							  &RsvdPageLoc, 0);
++		else
++			rtw_hal_set_scan_offload_info_cmd(adapter,
++							  &RsvdPageLoc, 1);
++#endif /* CONFIG_PNO_SUPPORT */
++	}
++#ifdef CONFIG_P2P_WOWLAN
++	if (_TRUE == pwrctl->wowlan_p2p_mode)
++		rtw_hal_set_FwP2PRsvdPage_cmd(adapter, &RsvdPageLoc);
++#endif /* CONFIG_P2P_WOWLAN */
++	return;
++error:
++	rtw_free_xmitframe(pxmitpriv, pcmdframe);
++}
++static void rtw_hal_set_hw_update_tsf(PADAPTER padapter)
++{
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++#if defined(CONFIG_RTL8822B) || defined(CONFIG_MI_WITH_MBSSID_CAM)
++	RTW_INFO("[Warn] %s "ADPT_FMT" enter func\n", __func__, ADPT_ARG(padapter));
++	rtw_warn_on(1);
++	return;
++#endif
++
++	if (!pmlmeext->en_hw_update_tsf)
++		return;
++
++	/* check REG_RCR bit is set */
++	if (!(rtw_read32(padapter, REG_RCR) & RCR_CBSSID_BCN))
++		return;
++
++	/* enable hw update tsf function for non-AP */
++	if (rtw_linked_check(padapter) &&
++	    check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE) {
++#ifdef CONFIG_CONCURRENT_MODE
++		if (padapter->hw_port == HW_PORT1)
++			rtw_write8(padapter, REG_BCN_CTRL_1, rtw_read8(padapter, REG_BCN_CTRL_1) & (~DIS_TSF_UDT));
++		else
++#endif
++			rtw_write8(padapter, REG_BCN_CTRL, rtw_read8(padapter, REG_BCN_CTRL) & (~DIS_TSF_UDT));
++	}
++	pmlmeext->en_hw_update_tsf = _FALSE;
++}
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++s32 rtw_hal_ch_sw_oper_offload(_adapter *padapter, u8 channel, u8 channel_offset, u16 bwmode)
++{
++	PHAL_DATA_TYPE	pHalData =  GET_HAL_DATA(padapter);
++	u8 ch_sw_h2c_buf[4] = {0x00, 0x00, 0x00, 0x00};
++
++
++	SET_H2CCMD_CH_SW_OPER_OFFLOAD_CH_NUM(ch_sw_h2c_buf, channel);
++	SET_H2CCMD_CH_SW_OPER_OFFLOAD_BW_MODE(ch_sw_h2c_buf, bwmode);
++	switch (bwmode) {
++	case CHANNEL_WIDTH_40:
++		SET_H2CCMD_CH_SW_OPER_OFFLOAD_BW_40M_SC(ch_sw_h2c_buf, channel_offset);
++		break;
++	case CHANNEL_WIDTH_80:
++		SET_H2CCMD_CH_SW_OPER_OFFLOAD_BW_80M_SC(ch_sw_h2c_buf, channel_offset);
++		break;
++	case CHANNEL_WIDTH_20:
++	default:
++		break;
++	}
++	SET_H2CCMD_CH_SW_OPER_OFFLOAD_RFE_TYPE(ch_sw_h2c_buf, pHalData->RFEType);
++
++	return rtw_hal_fill_h2c_cmd(padapter, H2C_CHNL_SWITCH_OPER_OFFLOAD, sizeof(ch_sw_h2c_buf), ch_sw_h2c_buf);
++}
++#endif
++#endif
++
++void SetHwReg(_adapter *adapter, u8 variable, u8 *val)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++
++	switch (variable) {
++	case HW_VAR_MEDIA_STATUS: {
++		u8 net_type = *((u8 *)val);
++
++		rtw_hal_set_msr(adapter, net_type);
++	}
++	break;
++	case HW_VAR_MAC_ADDR:
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		rtw_hal_set_macaddr_mbid(adapter, val);
++#else
++		rtw_hal_set_macaddr_port(adapter, val);
++#endif
++		break;
++	case HW_VAR_BSSID:
++		rtw_hal_set_bssid(adapter, val);
++		break;
++#ifdef CONFIG_MBSSID_CAM
++	case HW_VAR_MBSSID_CAM_WRITE: {
++		u32	cmd = 0;
++		u32	*cam_val = (u32 *)val;
++
++		rtw_write32(adapter, REG_MBIDCAMCFG_1, cam_val[0]);
++		cmd = BIT_MBIDCAM_POLL | BIT_MBIDCAM_WT_EN | BIT_MBIDCAM_VALID | cam_val[1];
++		rtw_write32(adapter, REG_MBIDCAMCFG_2, cmd);
++	}
++		break;
++	case HW_VAR_MBSSID_CAM_CLEAR: {
++		u32 cmd;
++		u8 entry_id = *(u8 *)val;
++
++		rtw_write32(adapter, REG_MBIDCAMCFG_1, 0);
++
++		cmd = BIT_MBIDCAM_POLL | BIT_MBIDCAM_WT_EN | ((entry_id & MBIDCAM_ADDR_MASK) << MBIDCAM_ADDR_SHIFT);
++		rtw_write32(adapter, REG_MBIDCAMCFG_2, cmd);
++	}
++		break;
++	case HW_VAR_RCR_MBSSID_EN:
++		if (*((u8 *)val))
++			rtw_write32(adapter, REG_RCR, rtw_read32(adapter, REG_RCR) | RCR_ENMBID);
++		else {
++			u32	val32;
++
++			val32 = rtw_read32(adapter, REG_RCR);
++			val32 &= ~(RCR_ENMBID);
++			rtw_write32(adapter, REG_RCR, val32);
++		}
++		break;
++#endif
++	case HW_VAR_PORT_SWITCH:
++		hw_var_port_switch(adapter);
++		break;
++	case HW_VAR_INIT_RTS_RATE: {
++		u16 brate_cfg = *((u16 *)val);
++		u8 rate_index = 0;
++		HAL_VERSION *hal_ver = &hal_data->VersionID;
++
++		if (IS_8188E(*hal_ver)) {
++
++			while (brate_cfg > 0x1) {
++				brate_cfg = (brate_cfg >> 1);
++				rate_index++;
++			}
++			rtw_write8(adapter, REG_INIRTS_RATE_SEL, rate_index);
++		} else
++			rtw_warn_on(1);
++	}
++		break;
++	case HW_VAR_SEC_CFG: {
++		u16 reg_scr_ori;
++		u16 reg_scr;
++
++		reg_scr = reg_scr_ori = rtw_read16(adapter, REG_SECCFG);
++		reg_scr |= (SCR_CHK_KEYID | SCR_RxDecEnable | SCR_TxEncEnable);
++
++		if (_rtw_camctl_chk_cap(adapter, SEC_CAP_CHK_BMC))
++			reg_scr |= SCR_CHK_BMC;
++
++		if (_rtw_camctl_chk_flags(adapter, SEC_STATUS_STA_PK_GK_CONFLICT_DIS_BMC_SEARCH))
++			reg_scr |= SCR_NoSKMC;
++
++		if (reg_scr != reg_scr_ori)
++			rtw_write16(adapter, REG_SECCFG, reg_scr);
++	}
++		break;
++	case HW_VAR_SEC_DK_CFG: {
++		struct security_priv *sec = &adapter->securitypriv;
++		u8 reg_scr = rtw_read8(adapter, REG_SECCFG);
++
++		if (val) { /* Enable default key related setting */
++			reg_scr |= SCR_TXBCUSEDK;
++			if (sec->dot11AuthAlgrthm != dot11AuthAlgrthm_8021X)
++				reg_scr |= (SCR_RxUseDK | SCR_TxUseDK);
++		} else /* Disable default key related setting */
++			reg_scr &= ~(SCR_RXBCUSEDK | SCR_TXBCUSEDK | SCR_RxUseDK | SCR_TxUseDK);
++
++		rtw_write8(adapter, REG_SECCFG, reg_scr);
++	}
++		break;
++
++	case HW_VAR_ASIX_IOT:
++		/* enable  ASIX IOT function */
++		if (*((u8 *)val) == _TRUE) {
++			/* 0xa2e[0]=0 (disable rake receiver) */
++			rtw_write8(adapter, rCCK0_FalseAlarmReport + 2,
++				rtw_read8(adapter, rCCK0_FalseAlarmReport + 2) & ~(BIT0));
++			/* 0xa1c=0xa0 (reset channel estimation if signal quality is bad) */
++			rtw_write8(adapter, rCCK0_DSPParameter2, 0xa0);
++		} else {
++			/* restore reg:0xa2e,   reg:0xa1c */
++			rtw_write8(adapter, rCCK0_FalseAlarmReport + 2,
++				rtw_read8(adapter, rCCK0_FalseAlarmReport + 2) | (BIT0));
++			rtw_write8(adapter, rCCK0_DSPParameter2, 0x00);
++		}
++		break;
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	case HW_VAR_WOWLAN: {
++		struct wowlan_ioctl_param *poidparam;
++
++		poidparam = (struct wowlan_ioctl_param *)val;
++		switch (poidparam->subcode) {
++#ifdef CONFIG_WOWLAN
++		case WOWLAN_PATTERN_CLEAN:
++			rtw_hal_dl_pattern(adapter, 2);
++			break;
++		case WOWLAN_ENABLE:
++			rtw_hal_wow_enable(adapter);
++			break;
++		case WOWLAN_DISABLE:
++			rtw_hal_wow_disable(adapter);
++			break;
++#endif /*CONFIG_WOWLAN*/
++#ifdef CONFIG_AP_WOWLAN
++		case WOWLAN_AP_ENABLE:
++			rtw_hal_ap_wow_enable(adapter);
++			break;
++		case WOWLAN_AP_DISABLE:
++			rtw_hal_ap_wow_disable(adapter);
++			break;
++#endif /*CONFIG_AP_WOWLAN*/
++		default:
++			break;
++		}
++	}
++		break;
++#endif /*defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)*/
++
++	case HW_VAR_EN_HW_UPDATE_TSF:
++		rtw_hal_set_hw_update_tsf(adapter);
++		break;
++
++	case HW_VAR_APFM_ON_MAC:
++		hal_data->bMacPwrCtrlOn = *val;
++		RTW_INFO("%s: bMacPwrCtrlOn=%d\n", __func__, hal_data->bMacPwrCtrlOn);
++		break;
++	default:
++		if (0)
++			RTW_PRINT(FUNC_ADPT_FMT" variable(%d) not defined!\n",
++				  FUNC_ADPT_ARG(adapter), variable);
++		break;
++	}
++
++}
++
++void GetHwReg(_adapter *adapter, u8 variable, u8 *val)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++
++
++	switch (variable) {
++	case HW_VAR_BASIC_RATE:
++		*((u16 *)val) = hal_data->BasicRateSet;
++		break;
++	case HW_VAR_RF_TYPE:
++		*((u8 *)val) = hal_data->rf_type;
++		break;
++	case HW_VAR_MEDIA_STATUS:
++		rtw_hal_get_msr(adapter, val);
++		break;
++	case HW_VAR_DO_IQK:
++		*val = hal_data->bNeedIQK;
++		break;
++	case HW_VAR_CH_SW_NEED_TO_TAKE_CARE_IQK_INFO:
++		if (hal_is_band_support(adapter, BAND_ON_5G))
++			*val = _TRUE;
++		else
++			*val = _FALSE;
++		break;
++	case HW_VAR_APFM_ON_MAC:
++		*val = hal_data->bMacPwrCtrlOn;
++		break;
++	default:
++		if (0)
++			RTW_PRINT(FUNC_ADPT_FMT" variable(%d) not defined!\n",
++				  FUNC_ADPT_ARG(adapter), variable);
++		break;
++	}
++
++}
++
++u8
++SetHalDefVar(_adapter *adapter, HAL_DEF_VARIABLE variable, void *value)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	u8 bResult = _SUCCESS;
++
++	switch (variable) {
++
++	case HAL_DEF_DBG_DUMP_RXPKT:
++		hal_data->bDumpRxPkt = *((u8 *)value);
++		break;
++	case HAL_DEF_DBG_DUMP_TXPKT:
++		hal_data->bDumpTxPkt = *((u8 *)value);
++		break;
++	case HAL_DEF_ANT_DETECT:
++		hal_data->AntDetection = *((u8 *)value);
++		break;
++	case HAL_DEF_DBG_DIS_PWT:
++		hal_data->bDisableTXPowerTraining = *((u8 *)value);
++		break;
++	default:
++		RTW_PRINT("%s: [WARNING] HAL_DEF_VARIABLE(%d) not defined!\n", __FUNCTION__, variable);
++		bResult = _FAIL;
++		break;
++	}
++
++	return bResult;
++}
++
++#ifdef CONFIG_BEAMFORMING
++u8 rtw_hal_query_txbfer_rf_num(_adapter *adapter)
++{
++	struct registry_priv	*pregistrypriv = &adapter->registrypriv;
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++
++	if ((pregistrypriv->beamformer_rf_num) && (IS_HARDWARE_TYPE_8814AE(adapter) || IS_HARDWARE_TYPE_8814AU(adapter) || IS_HARDWARE_TYPE_8822BU(adapter) || IS_HARDWARE_TYPE_8821C(adapter)))
++		return pregistrypriv->beamformer_rf_num;
++	else if (IS_HARDWARE_TYPE_8814AE(adapter)
++#if 0
++#if defined(CONFIG_USB_HCI)
++		|| (IS_HARDWARE_TYPE_8814AU(adapter) && (pUsbModeMech->CurUsbMode == 2 || pUsbModeMech->HubUsbMode == 2))  /* for USB3.0 */
++#endif
++#endif
++		) {
++		/*BF cap provided by Yu Chen, Sean, 2015, 01 */
++		if (hal_data->rf_type == RF_3T3R)
++			return 2;
++		else if (hal_data->rf_type == RF_4T4R)
++			return 3;
++		else
++			return 1;
++	} else
++		return 1;
++
++}
++u8 rtw_hal_query_txbfee_rf_num(_adapter *adapter)
++{
++	struct registry_priv		*pregistrypriv = &adapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++
++	if ((pregistrypriv->beamformee_rf_num) && (IS_HARDWARE_TYPE_8814AE(adapter) || IS_HARDWARE_TYPE_8814AU(adapter) || IS_HARDWARE_TYPE_8822BU(adapter) || IS_HARDWARE_TYPE_8821C(adapter)))
++		return pregistrypriv->beamformee_rf_num;
++	else if (IS_HARDWARE_TYPE_8814AE(adapter) || IS_HARDWARE_TYPE_8814AU(adapter)) {
++		if (pmlmeinfo->assoc_AP_vendor == HT_IOT_PEER_BROADCOM)
++			return 2;
++		else
++			return 2;/*TODO: May be 3 in the future, by ChenYu. */
++	} else
++		return 1;
++
++}
++#endif
++
++u8
++GetHalDefVar(_adapter *adapter, HAL_DEF_VARIABLE variable, void *value)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	u8 bResult = _SUCCESS;
++
++	switch (variable) {
++	case HAL_DEF_UNDERCORATEDSMOOTHEDPWDB: {
++		struct mlme_priv *pmlmepriv;
++		struct sta_priv *pstapriv;
++		struct sta_info *psta;
++
++		pmlmepriv = &adapter->mlmepriv;
++		pstapriv = &adapter->stapriv;
++		psta = rtw_get_stainfo(pstapriv, pmlmepriv->cur_network.network.MacAddress);
++		if (psta)
++			*((int *)value) = psta->rssi_stat.UndecoratedSmoothedPWDB;
++	}
++	break;
++	case HAL_DEF_DBG_DUMP_RXPKT:
++		*((u8 *)value) = hal_data->bDumpRxPkt;
++		break;
++	case HAL_DEF_DBG_DUMP_TXPKT:
++		*((u8 *)value) = hal_data->bDumpTxPkt;
++		break;
++	case HAL_DEF_ANT_DETECT:
++		*((u8 *)value) = hal_data->AntDetection;
++		break;
++	case HAL_DEF_MACID_SLEEP:
++		*(u8 *)value = _FALSE;
++		break;
++	case HAL_DEF_TX_PAGE_SIZE:
++		*((u32 *)value) = PAGE_SIZE_128;
++		break;
++	case HAL_DEF_DBG_DIS_PWT:
++		*(u8 *)value = hal_data->bDisableTXPowerTraining;
++		break;
++	case HAL_DEF_EXPLICIT_BEAMFORMER:
++	case HAL_DEF_EXPLICIT_BEAMFORMEE:
++	case HAL_DEF_VHT_MU_BEAMFORMER:
++	case HAL_DEF_VHT_MU_BEAMFORMEE:
++		*(u8 *)value = _FALSE;
++		break;
++#ifdef CONFIG_BEAMFORMING
++	case HAL_DEF_BEAMFORMER_CAP:
++		*(u8 *)value = rtw_hal_query_txbfer_rf_num(adapter);
++		break;
++	case HAL_DEF_BEAMFORMEE_CAP:
++		*(u8 *)value = rtw_hal_query_txbfee_rf_num(adapter);
++		break;
++#endif
++	default:
++		RTW_PRINT("%s: [WARNING] HAL_DEF_VARIABLE(%d) not defined!\n", __FUNCTION__, variable);
++		bResult = _FAIL;
++		break;
++	}
++
++	return bResult;
++}
++
++void SetHalODMVar(
++	PADAPTER				Adapter,
++	HAL_ODM_VARIABLE		eVariable,
++	PVOID					pValue1,
++	BOOLEAN					bSet)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T podmpriv = &pHalData->odmpriv;
++	/* _irqL irqL; */
++	switch (eVariable) {
++	case HAL_ODM_STA_INFO: {
++		struct sta_info *psta = (struct sta_info *)pValue1;
++		if (bSet) {
++			RTW_INFO("### Set STA_(%d) info ###\n", psta->mac_id);
++			ODM_CmnInfoPtrArrayHook(podmpriv, ODM_CMNINFO_STA_STATUS, psta->mac_id, psta);
++		} else {
++			RTW_INFO("### Clean STA_(%d) info ###\n", psta->mac_id);
++			/* _enter_critical_bh(&pHalData->odm_stainfo_lock, &irqL); */
++			ODM_CmnInfoPtrArrayHook(podmpriv, ODM_CMNINFO_STA_STATUS, psta->mac_id, NULL);
++
++			/* _exit_critical_bh(&pHalData->odm_stainfo_lock, &irqL); */
++		}
++	}
++		break;
++	case HAL_ODM_P2P_STATE:
++		ODM_CmnInfoUpdate(podmpriv, ODM_CMNINFO_WIFI_DIRECT, bSet);
++		break;
++	case HAL_ODM_WIFI_DISPLAY_STATE:
++		ODM_CmnInfoUpdate(podmpriv, ODM_CMNINFO_WIFI_DISPLAY, bSet);
++		break;
++	case HAL_ODM_REGULATION:
++		ODM_CmnInfoInit(podmpriv, ODM_CMNINFO_DOMAIN_CODE_2G, pHalData->Regulation2_4G);
++		ODM_CmnInfoInit(podmpriv, ODM_CMNINFO_DOMAIN_CODE_5G, pHalData->Regulation5G);
++		break;
++#if defined(CONFIG_SIGNAL_DISPLAY_DBM) && defined(CONFIG_BACKGROUND_NOISE_MONITOR)
++	case HAL_ODM_NOISE_MONITOR: {
++		struct noise_info *pinfo = (struct noise_info *)pValue1;
++
++#ifdef DBG_NOISE_MONITOR
++		RTW_INFO("### Noise monitor chan(%d)-bPauseDIG:%d,IGIValue:0x%02x,max_time:%d (ms) ###\n",
++			pinfo->chan, pinfo->bPauseDIG, pinfo->IGIValue, pinfo->max_time);
++#endif
++
++		pHalData->noise[pinfo->chan] = ODM_InbandNoise_Monitor(podmpriv, pinfo->bPauseDIG, pinfo->IGIValue, pinfo->max_time);
++		RTW_INFO("chan_%d, noise = %d (dBm)\n", pinfo->chan, pHalData->noise[pinfo->chan]);
++#ifdef DBG_NOISE_MONITOR
++		RTW_INFO("noise_a = %d, noise_b = %d  noise_all:%d\n",
++			 podmpriv->noise_level.noise[ODM_RF_PATH_A],
++			 podmpriv->noise_level.noise[ODM_RF_PATH_B],
++			 podmpriv->noise_level.noise_all);
++#endif
++	}
++		break;
++#endif/*#ifdef CONFIG_BACKGROUND_NOISE_MONITOR*/
++
++	case HAL_ODM_INITIAL_GAIN: {
++		u8 rx_gain = *((u8 *)(pValue1));
++		/*printk("rx_gain:%x\n",rx_gain);*/
++		if (rx_gain == 0xff) {/*restore rx gain*/
++			/*ODM_Write_DIG(podmpriv,pDigTable->BackupIGValue);*/
++			odm_PauseDIG(podmpriv, PHYDM_RESUME, PHYDM_PAUSE_LEVEL_0, rx_gain);
++		} else {
++			/*pDigTable->BackupIGValue = pDigTable->CurIGValue;*/
++			/*ODM_Write_DIG(podmpriv,rx_gain);*/
++			odm_PauseDIG(podmpriv, PHYDM_PAUSE, PHYDM_PAUSE_LEVEL_0, rx_gain);
++		}
++	}
++	break;
++	case HAL_ODM_FA_CNT_DUMP:
++		if (*((u8 *)pValue1))
++			podmpriv->DebugComponents |= (ODM_COMP_DIG | ODM_COMP_FA_CNT);
++		else
++			podmpriv->DebugComponents &= ~(ODM_COMP_DIG | ODM_COMP_FA_CNT);
++		break;
++	case HAL_ODM_DBG_FLAG:
++		ODM_CmnInfoUpdate(podmpriv, ODM_CMNINFO_DBG_COMP, *((u8Byte *)pValue1));
++		break;
++	case HAL_ODM_DBG_LEVEL:
++		ODM_CmnInfoUpdate(podmpriv, ODM_CMNINFO_DBG_LEVEL, *((u4Byte *)pValue1));
++		break;
++	case HAL_ODM_RX_INFO_DUMP: {
++		PFALSE_ALARM_STATISTICS FalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure(podmpriv , PHYDM_FALSEALMCNT);
++		pDIG_T	pDM_DigTable = &podmpriv->DM_DigTable;
++		void *sel;
++
++		sel = pValue1;
++
++		_RTW_PRINT_SEL(sel , "============ Rx Info dump ===================\n");
++		_RTW_PRINT_SEL(sel , "bLinked = %d, RSSI_Min = %d(%%), CurrentIGI = 0x%x\n", podmpriv->bLinked, podmpriv->RSSI_Min, pDM_DigTable->CurIGValue);
++		_RTW_PRINT_SEL(sel , "Cnt_Cck_fail = %d, Cnt_Ofdm_fail = %d, Total False Alarm = %d\n", FalseAlmCnt->Cnt_Cck_fail, FalseAlmCnt->Cnt_Ofdm_fail, FalseAlmCnt->Cnt_all);
++
++		if (podmpriv->bLinked) {
++			_RTW_PRINT_SEL(sel , "RxRate = %s", HDATA_RATE(podmpriv->RxRate));
++			_RTW_PRINT_SEL(sel , " RSSI_A = %d(%%), RSSI_B = %d(%%)\n", podmpriv->RSSI_A, podmpriv->RSSI_B);
++#ifdef DBG_RX_SIGNAL_DISPLAY_RAW_DATA
++			rtw_dump_raw_rssi_info(Adapter, sel);
++#endif
++		}
++	}
++		break;
++	case HAL_ODM_RX_Dframe_INFO: {
++		void *sel;
++
++		sel = pValue1;
++
++		/*_RTW_PRINT_SEL(sel , "HAL_ODM_RX_Dframe_INFO\n");*/
++#ifdef DBG_RX_DFRAME_RAW_DATA
++		rtw_dump_rx_dframe_info(Adapter, sel);
++#endif
++	}
++		break;
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	case HAL_ODM_AUTO_CHNL_SEL: {
++		ACS_OP	acs_op = *(ACS_OP *)pValue1;
++
++		rtw_phydm_func_set(Adapter, ODM_BB_NHM_CNT);
++
++		if (ACS_INIT == acs_op) {
++#ifdef DBG_AUTO_CHNL_SEL_NHM
++			RTW_INFO("[ACS-"ADPT_FMT"] HAL_ODM_AUTO_CHNL_SEL: ACS_INIT\n", ADPT_ARG(Adapter));
++#endif
++			odm_AutoChannelSelectInit(podmpriv);
++		} else if (ACS_RESET == acs_op) {
++			/* Reset statistics for auto channel selection mechanism.*/
++#ifdef DBG_AUTO_CHNL_SEL_NHM
++			RTW_INFO("[ACS-"ADPT_FMT"] HAL_ODM_AUTO_CHNL_SEL: ACS_RESET\n", ADPT_ARG(Adapter));
++#endif
++			odm_AutoChannelSelectReset(podmpriv);
++
++		} else if (ACS_SELECT == acs_op) {
++			/* Collect NHM measurement result after current channel */
++#ifdef DBG_AUTO_CHNL_SEL_NHM
++			RTW_INFO("[ACS-"ADPT_FMT"] HAL_ODM_AUTO_CHNL_SEL: ACS_SELECT, CH(%d)\n", ADPT_ARG(Adapter), rtw_get_acs_channel(Adapter));
++#endif
++			odm_AutoChannelSelect(podmpriv, rtw_get_acs_channel(Adapter));
++		} else
++			RTW_INFO("[ACS-"ADPT_FMT"] HAL_ODM_AUTO_CHNL_SEL: Unexpected OP\n", ADPT_ARG(Adapter));
++
++	}
++		break;
++#endif
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	case HAL_ODM_ANTDIV_SELECT: {
++		u8	antenna = (*(u8 *)pValue1);
++
++		/*switch antenna*/
++		ODM_UpdateRxIdleAnt(&pHalData->odmpriv, antenna);
++		/*RTW_INFO("==> HAL_ODM_ANTDIV_SELECT, Ant_(%s)\n", (antenna == MAIN_ANT) ? "MAIN_ANT" : "AUX_ANT");*/
++
++	}
++		break;
++#endif
++
++	default:
++		break;
++	}
++}
++
++void GetHalODMVar(
++	PADAPTER				Adapter,
++	HAL_ODM_VARIABLE		eVariable,
++	PVOID					pValue1,
++	PVOID					pValue2)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T podmpriv = &pHalData->odmpriv;
++
++	switch (eVariable) {
++#if defined(CONFIG_SIGNAL_DISPLAY_DBM) && defined(CONFIG_BACKGROUND_NOISE_MONITOR)
++	case HAL_ODM_NOISE_MONITOR: {
++		u8 chan = *(u8 *)pValue1;
++		*(s16 *)pValue2 = pHalData->noise[chan];
++#ifdef DBG_NOISE_MONITOR
++		RTW_INFO("### Noise monitor chan(%d)-noise:%d (dBm) ###\n",
++			 chan, pHalData->noise[chan]);
++#endif
++	}
++		break;
++#endif/*#ifdef CONFIG_BACKGROUND_NOISE_MONITOR*/
++	case HAL_ODM_DBG_FLAG:
++		*((u8Byte *)pValue1) = podmpriv->DebugComponents;
++		break;
++	case HAL_ODM_DBG_LEVEL:
++		*((u4Byte *)pValue1) = podmpriv->DebugLevel;
++		break;
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	case HAL_ODM_AUTO_CHNL_SEL: {
++#ifdef DBG_AUTO_CHNL_SEL_NHM
++		RTW_INFO("[ACS-"ADPT_FMT"] HAL_ODM_AUTO_CHNL_SEL: GET_BEST_CHAN\n", ADPT_ARG(Adapter));
++#endif
++		/* Retrieve better channel from NHM mechanism	*/
++		if (IsSupported24G(Adapter->registrypriv.wireless_mode))
++			*((u8 *)(pValue1)) = ODM_GetAutoChannelSelectResult(podmpriv, BAND_ON_2_4G);
++		if (IsSupported5G(Adapter->registrypriv.wireless_mode))
++			*((u8 *)(pValue2)) = ODM_GetAutoChannelSelectResult(podmpriv, BAND_ON_5G);
++	}
++		break;
++#endif
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	case HAL_ODM_ANTDIV_SELECT: {
++		pFAT_T	pDM_FatTable = &podmpriv->DM_FatTable;
++		*((u8 *)pValue1) = pDM_FatTable->RxIdleAnt;
++	}
++		break;
++#endif
++	case HAL_ODM_INITIAL_GAIN: {
++		pDIG_T pDM_DigTable = &podmpriv->DM_DigTable;
++		*((u8 *)pValue1) = pDM_DigTable->CurIGValue;
++	}
++		break;
++	default:
++		break;
++	}
++}
++
++
++u32 rtw_phydm_ability_ops(_adapter *adapter, HAL_PHYDM_OPS ops, u32 ability)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(adapter);
++	PDM_ODM_T podmpriv = &pHalData->odmpriv;
++	u32 result = 0;
++
++	switch (ops) {
++	case HAL_PHYDM_DIS_ALL_FUNC:
++		podmpriv->SupportAbility = DYNAMIC_FUNC_DISABLE;
++		break;
++	case HAL_PHYDM_FUNC_SET:
++		podmpriv->SupportAbility |= ability;
++		break;
++	case HAL_PHYDM_FUNC_CLR:
++		podmpriv->SupportAbility &= ~(ability);
++		break;
++	case HAL_PHYDM_ABILITY_BK:
++		/* dm flag backup*/
++		podmpriv->BK_SupportAbility = podmpriv->SupportAbility;
++		break;
++	case HAL_PHYDM_ABILITY_RESTORE:
++		/* restore dm flag */
++		podmpriv->SupportAbility = podmpriv->BK_SupportAbility;
++		break;
++	case HAL_PHYDM_ABILITY_SET:
++		podmpriv->SupportAbility = ability;
++		break;
++	case HAL_PHYDM_ABILITY_GET:
++		result = podmpriv->SupportAbility;
++		break;
++	}
++	return result;
++}
++
++
++BOOLEAN
++eqNByte(
++	u8	*str1,
++	u8	*str2,
++	u32	num
++)
++{
++	if (num == 0)
++		return _FALSE;
++	while (num > 0) {
++		num--;
++		if (str1[num] != str2[num])
++			return _FALSE;
++	}
++	return _TRUE;
++}
++
++/*
++ *	Description:
++ *		Translate a character to hex digit.
++ *   */
++u32
++MapCharToHexDigit(
++	IN		char		chTmp
++)
++{
++	if (chTmp >= '0' && chTmp <= '9')
++		return chTmp - '0';
++	else if (chTmp >= 'a' && chTmp <= 'f')
++		return 10 + (chTmp - 'a');
++	else if (chTmp >= 'A' && chTmp <= 'F')
++		return 10 + (chTmp - 'A');
++	else
++		return 0;
++}
++
++
++
++/*
++ *	Description:
++ *		Parse hex number from the string pucStr.
++ *   */
++BOOLEAN
++GetHexValueFromString(
++	IN		char			*szStr,
++	IN OUT	u32			*pu4bVal,
++	IN OUT	u32			*pu4bMove
++)
++{
++	char		*szScan = szStr;
++
++	/* Check input parameter. */
++	if (szStr == NULL || pu4bVal == NULL || pu4bMove == NULL) {
++		RTW_INFO("GetHexValueFromString(): Invalid inpur argumetns! szStr: %p, pu4bVal: %p, pu4bMove: %p\n", szStr, pu4bVal, pu4bMove);
++		return _FALSE;
++	}
++
++	/* Initialize output. */
++	*pu4bMove = 0;
++	*pu4bVal = 0;
++
++	/* Skip leading space. */
++	while (*szScan != '\0' &&
++	       (*szScan == ' ' || *szScan == '\t')) {
++		szScan++;
++		(*pu4bMove)++;
++	}
++
++	/* Skip leading '0x' or '0X'. */
++	if (*szScan == '0' && (*(szScan + 1) == 'x' || *(szScan + 1) == 'X')) {
++		szScan += 2;
++		(*pu4bMove) += 2;
++	}
++
++	/* Check if szScan is now pointer to a character for hex digit, */
++	/* if not, it means this is not a valid hex number. */
++	if (!IsHexDigit(*szScan))
++		return _FALSE;
++
++	/* Parse each digit. */
++	do {
++		(*pu4bVal) <<= 4;
++		*pu4bVal += MapCharToHexDigit(*szScan);
++
++		szScan++;
++		(*pu4bMove)++;
++	} while (IsHexDigit(*szScan));
++
++	return _TRUE;
++}
++
++BOOLEAN
++GetFractionValueFromString(
++	IN		char			*szStr,
++	IN OUT	u8				*pInteger,
++	IN OUT	u8				*pFraction,
++	IN OUT	u32			*pu4bMove
++)
++{
++	char	*szScan = szStr;
++
++	/* Initialize output. */
++	*pu4bMove = 0;
++	*pInteger = 0;
++	*pFraction = 0;
++
++	/* Skip leading space. */
++	while (*szScan != '\0' &&	(*szScan == ' ' || *szScan == '\t')) {
++		++szScan;
++		++(*pu4bMove);
++	}
++
++	/* Parse each digit. */
++	do {
++		(*pInteger) *= 10;
++		*pInteger += (*szScan - '0');
++
++		++szScan;
++		++(*pu4bMove);
++
++		if (*szScan == '.') {
++			++szScan;
++			++(*pu4bMove);
++
++			if (*szScan < '0' || *szScan > '9')
++				return _FALSE;
++			else {
++				*pFraction = *szScan - '0';
++				++szScan;
++				++(*pu4bMove);
++				return _TRUE;
++			}
++		}
++	} while (*szScan >= '0' && *szScan <= '9');
++
++	return _TRUE;
++}
++
++/*
++ *	Description:
++ * Return TRUE if szStr is comment out with leading " */ /* ".
++ *   */
++BOOLEAN
++IsCommentString(
++	IN		char			*szStr
++)
++{
++	if (*szStr == '/' && *(szStr + 1) == '/')
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++BOOLEAN
++GetU1ByteIntegerFromStringInDecimal(
++	IN		char	*Str,
++	IN OUT	u8		*pInt
++)
++{
++	u16 i = 0;
++	*pInt = 0;
++
++	while (Str[i] != '\0') {
++		if (Str[i] >= '0' && Str[i] <= '9') {
++			*pInt *= 10;
++			*pInt += (Str[i] - '0');
++		} else
++			return _FALSE;
++		++i;
++	}
++
++	return _TRUE;
++}
++
++/* <20121004, Kordan> For example,
++ * ParseQualifiedString(inString, 0, outString, '[', ']') gets "Kordan" from a string "Hello [Kordan]".
++ * If RightQualifier does not exist, it will hang on in the while loop */
++BOOLEAN
++ParseQualifiedString(
++	IN		char	*In,
++	IN OUT	u32	*Start,
++	OUT		char	*Out,
++	IN		char		LeftQualifier,
++	IN		char		RightQualifier
++)
++{
++	u32	i = 0, j = 0;
++	char	c = In[(*Start)++];
++
++	if (c != LeftQualifier)
++		return _FALSE;
++
++	i = (*Start);
++	while ((c = In[(*Start)++]) != RightQualifier)
++		; /* find ']' */
++	j = (*Start) - 2;
++	strncpy((char *)Out, (const char *)(In + i), j - i + 1);
++
++	return _TRUE;
++}
++
++BOOLEAN
++isAllSpaceOrTab(
++	u8	*data,
++	u8	size
++)
++{
++	u8	cnt = 0, NumOfSpaceAndTab = 0;
++
++	while (size > cnt) {
++		if (data[cnt] == ' ' || data[cnt] == '\t' || data[cnt] == '\0')
++			++NumOfSpaceAndTab;
++
++		++cnt;
++	}
++
++	return size == NumOfSpaceAndTab;
++}
++
++
++void rtw_hal_check_rxfifo_full(_adapter *adapter)
++{
++	struct dvobj_priv *psdpriv = adapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(adapter);
++	struct registry_priv *regsty = &adapter->registrypriv;
++	int save_cnt = _FALSE;
++
++	if (regsty->check_hw_status == 1) {
++		/* switch counter to RX fifo */
++		if (IS_8188E(pHalData->VersionID) ||
++		    IS_8188F(pHalData->VersionID) ||
++		    IS_8812_SERIES(pHalData->VersionID) ||
++		    IS_8821_SERIES(pHalData->VersionID) ||
++		    IS_8723B_SERIES(pHalData->VersionID) ||
++		    IS_8192E(pHalData->VersionID) ||
++		    IS_8703B_SERIES(pHalData->VersionID) ||
++		    IS_8723D_SERIES(pHalData->VersionID)) {
++			rtw_write8(adapter, REG_RXERR_RPT + 3, rtw_read8(adapter, REG_RXERR_RPT + 3) | 0xa0);
++			save_cnt = _TRUE;
++		} else {
++			/* todo: other chips */
++		}
++
++
++		if (save_cnt) {
++			pdbgpriv->dbg_rx_fifo_last_overflow = pdbgpriv->dbg_rx_fifo_curr_overflow;
++			pdbgpriv->dbg_rx_fifo_curr_overflow = rtw_read16(adapter, REG_RXERR_RPT);
++			pdbgpriv->dbg_rx_fifo_diff_overflow = pdbgpriv->dbg_rx_fifo_curr_overflow - pdbgpriv->dbg_rx_fifo_last_overflow;
++		} else {
++			/* special value to indicate no implementation */
++			pdbgpriv->dbg_rx_fifo_last_overflow = 1;
++			pdbgpriv->dbg_rx_fifo_curr_overflow = 1;
++			pdbgpriv->dbg_rx_fifo_diff_overflow = 1;
++		}
++	}
++}
++
++void linked_info_dump(_adapter *padapter, u8 benable)
++{
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++
++	if (padapter->bLinkInfoDump == benable)
++		return;
++
++	RTW_INFO("%s %s\n", __FUNCTION__, (benable) ? "enable" : "disable");
++
++	if (benable) {
++#ifdef CONFIG_LPS
++		pwrctrlpriv->org_power_mgnt = pwrctrlpriv->power_mgnt;/* keep org value */
++		rtw_pm_set_lps(padapter, PS_MODE_ACTIVE);
++#endif
++
++#ifdef CONFIG_IPS
++		pwrctrlpriv->ips_org_mode = pwrctrlpriv->ips_mode;/* keep org value */
++		rtw_pm_set_ips(padapter, IPS_NONE);
++#endif
++	} else {
++#ifdef CONFIG_IPS
++		rtw_pm_set_ips(padapter, pwrctrlpriv->ips_org_mode);
++#endif /* CONFIG_IPS */
++
++#ifdef CONFIG_LPS
++		rtw_pm_set_lps(padapter, pwrctrlpriv->org_power_mgnt);
++#endif /* CONFIG_LPS */
++	}
++	padapter->bLinkInfoDump = benable ;
++}
++
++#ifdef DBG_RX_SIGNAL_DISPLAY_RAW_DATA
++void rtw_get_raw_rssi_info(void *sel, _adapter *padapter)
++{
++	u8 isCCKrate, rf_path;
++	PHAL_DATA_TYPE	pHalData =  GET_HAL_DATA(padapter);
++	struct rx_raw_rssi *psample_pkt_rssi = &padapter->recvpriv.raw_rssi_info;
++	RTW_PRINT_SEL(sel, "RxRate = %s, PWDBALL = %d(%%), rx_pwr_all = %d(dBm)\n",
++		HDATA_RATE(psample_pkt_rssi->data_rate), psample_pkt_rssi->pwdball, psample_pkt_rssi->pwr_all);
++	isCCKrate = (psample_pkt_rssi->data_rate <= DESC_RATE11M) ? TRUE : FALSE;
++
++	if (isCCKrate)
++		psample_pkt_rssi->mimo_signal_strength[0] = psample_pkt_rssi->pwdball;
++
++	for (rf_path = 0; rf_path < pHalData->NumTotalRFPath; rf_path++) {
++		RTW_PRINT_SEL(sel, "RF_PATH_%d=>signal_strength:%d(%%),signal_quality:%d(%%)\n"
++			, rf_path, psample_pkt_rssi->mimo_signal_strength[rf_path], psample_pkt_rssi->mimo_signal_quality[rf_path]);
++
++		if (!isCCKrate) {
++			RTW_PRINT_SEL(sel, "\trx_ofdm_pwr:%d(dBm),rx_ofdm_snr:%d(dB)\n",
++				psample_pkt_rssi->ofdm_pwr[rf_path], psample_pkt_rssi->ofdm_snr[rf_path]);
++		}
++	}
++}
++
++void rtw_dump_raw_rssi_info(_adapter *padapter, void *sel)
++{
++	u8 isCCKrate, rf_path;
++	PHAL_DATA_TYPE	pHalData =  GET_HAL_DATA(padapter);
++	struct rx_raw_rssi *psample_pkt_rssi = &padapter->recvpriv.raw_rssi_info;
++	_RTW_PRINT_SEL(sel, "============ RAW Rx Info dump ===================\n");
++	_RTW_PRINT_SEL(sel, "RxRate = %s, PWDBALL = %d(%%), rx_pwr_all = %d(dBm)\n", HDATA_RATE(psample_pkt_rssi->data_rate), psample_pkt_rssi->pwdball, psample_pkt_rssi->pwr_all);
++
++	isCCKrate = (psample_pkt_rssi->data_rate <= DESC_RATE11M) ? TRUE : FALSE;
++
++	if (isCCKrate)
++		psample_pkt_rssi->mimo_signal_strength[0] = psample_pkt_rssi->pwdball;
++
++	for (rf_path = 0; rf_path < pHalData->NumTotalRFPath; rf_path++) {
++		_RTW_PRINT_SEL(sel , "RF_PATH_%d=>signal_strength:%d(%%),signal_quality:%d(%%)"
++			, rf_path, psample_pkt_rssi->mimo_signal_strength[rf_path], psample_pkt_rssi->mimo_signal_quality[rf_path]);
++
++		if (!isCCKrate)
++			_RTW_PRINT_SEL(sel , ",rx_ofdm_pwr:%d(dBm),rx_ofdm_snr:%d(dB)\n", psample_pkt_rssi->ofdm_pwr[rf_path], psample_pkt_rssi->ofdm_snr[rf_path]);
++		else
++			_RTW_PRINT_SEL(sel , "\n");
++
++	}
++}
++#endif
++
++#ifdef DBG_RX_DFRAME_RAW_DATA
++void rtw_dump_rx_dframe_info(_adapter *padapter, void *sel)
++{
++	_irqL irqL;
++	u8 isCCKrate, rf_path;
++	struct recv_priv *precvpriv = &(padapter->recvpriv);
++	PHAL_DATA_TYPE	pHalData =  GET_HAL_DATA(padapter);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta;
++	struct sta_recv_dframe_info *psta_dframe_info;
++	int i;
++	_list	*plist, *phead;
++	char *BW;
++	u8 bc_addr[6] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u8 null_addr[6] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
++
++	if (precvpriv->store_law_data_flag) {
++
++		_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++		for (i = 0; i < NUM_STA; i++) {
++			phead = &(pstapriv->sta_hash[i]);
++			plist = get_next(phead);
++
++			while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++
++				psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++				plist = get_next(plist);
++
++				if (psta) {
++					psta_dframe_info = &psta->sta_dframe_info;
++					if ((_rtw_memcmp(psta->hwaddr, bc_addr, 6)  !=   _TRUE)
++					    && (_rtw_memcmp(psta->hwaddr, null_addr, 6)  !=  _TRUE)
++					    && (_rtw_memcmp(psta->hwaddr, adapter_mac_addr(padapter), 6)  !=  _TRUE)) {
++
++
++						isCCKrate = (psta_dframe_info->sta_data_rate <= DESC_RATE11M) ? TRUE : FALSE;
++
++						switch (psta_dframe_info->sta_bw_mode) {
++
++						case CHANNEL_WIDTH_20:
++							BW = "20M";
++							break;
++
++						case CHANNEL_WIDTH_40:
++							BW = "40M";
++							break;
++
++						case CHANNEL_WIDTH_80:
++							BW = "80M";
++							break;
++
++						case CHANNEL_WIDTH_160:
++							BW = "160M";
++							break;
++
++						default:
++							BW = "";
++							break;
++						}
++
++						RTW_PRINT_SEL(sel, "==============================\n");
++						_RTW_PRINT_SEL(sel, "macaddr =" MAC_FMT "\n", MAC_ARG(psta->hwaddr));
++						_RTW_PRINT_SEL(sel, "BW=%s, sgi =%d\n", BW, psta_dframe_info->sta_sgi);
++						_RTW_PRINT_SEL(sel, "Rx_Data_Rate = %s\n", HDATA_RATE(psta_dframe_info->sta_data_rate));
++
++						for (rf_path = 0; rf_path < pHalData->NumTotalRFPath; rf_path++) {
++
++							if (!isCCKrate) {
++
++								_RTW_PRINT_SEL(sel , "RF_PATH_%d RSSI:%d(dBm)", rf_path, psta_dframe_info->sta_RxPwr[rf_path]);
++								_RTW_PRINT_SEL(sel , ",rx_ofdm_snr:%d(dB)\n", psta_dframe_info->sta_ofdm_snr[rf_path]);
++
++							} else
++
++								_RTW_PRINT_SEL(sel , "RF_PATH_%d RSSI:%d(dBm)\n", rf_path, (psta_dframe_info->sta_mimo_signal_strength[rf_path]) - 100);
++						}
++					}
++				}
++			}
++		}
++		_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++	}
++}
++#endif
++void rtw_store_phy_info(_adapter *padapter, union recv_frame *prframe)
++{
++	u8 isCCKrate, rf_path , dframe_type;
++	u8 *ptr;
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++#ifdef DBG_RX_DFRAME_RAW_DATA
++	struct sta_recv_dframe_info *psta_dframe_info;
++#endif
++	struct recv_priv *precvpriv = &(padapter->recvpriv);
++	PHAL_DATA_TYPE	pHalData =  GET_HAL_DATA(padapter);
++	struct rx_pkt_attrib *pattrib = &prframe->u.hdr.attrib;
++	struct sta_info *psta = prframe->u.hdr.psta;
++	PODM_PHY_INFO_T pPhyInfo  = (PODM_PHY_INFO_T)(&pattrib->phy_info);
++	struct rx_raw_rssi *psample_pkt_rssi = &padapter->recvpriv.raw_rssi_info;
++	psample_pkt_rssi->data_rate = pattrib->data_rate;
++	ptr = prframe->u.hdr.rx_data;
++	dframe_type = GetFrameType(ptr);
++	/*RTW_INFO("=>%s\n", __FUNCTION__);*/
++
++
++	if (precvpriv->store_law_data_flag) {
++		isCCKrate = (pattrib->data_rate <= DESC_RATE11M) ? TRUE : FALSE;
++
++		psample_pkt_rssi->pwdball = pPhyInfo->RxPWDBAll;
++		psample_pkt_rssi->pwr_all = pPhyInfo->RecvSignalPower;
++
++		for (rf_path = 0; rf_path < pHalData->NumTotalRFPath; rf_path++) {
++			psample_pkt_rssi->mimo_signal_strength[rf_path] = pPhyInfo->RxMIMOSignalStrength[rf_path];
++			psample_pkt_rssi->mimo_signal_quality[rf_path] = pPhyInfo->RxMIMOSignalQuality[rf_path];
++			if (!isCCKrate) {
++				psample_pkt_rssi->ofdm_pwr[rf_path] = pPhyInfo->RxPwr[rf_path];
++				psample_pkt_rssi->ofdm_snr[rf_path] = pPhyInfo->RxSNR[rf_path];
++			}
++		}
++#ifdef DBG_RX_DFRAME_RAW_DATA
++		if ((dframe_type == WIFI_DATA_TYPE) || (dframe_type == WIFI_QOS_DATA_TYPE) || (padapter->registrypriv.mp_mode == 1)) {
++
++			/*RTW_INFO("=>%s WIFI_DATA_TYPE or WIFI_QOS_DATA_TYPE\n", __FUNCTION__);*/
++			if (psta) {
++				psta_dframe_info = &psta->sta_dframe_info;
++				/*RTW_INFO("=>%s psta->hwaddr="MAC_FMT" !\n", __FUNCTION__, MAC_ARG(psta->hwaddr));*/
++				if ((_rtw_memcmp(psta->hwaddr, bc_addr, ETH_ALEN) != _TRUE) || (padapter->registrypriv.mp_mode == 1)) {
++					psta_dframe_info->sta_data_rate = pattrib->data_rate;
++					psta_dframe_info->sta_sgi = pattrib->sgi;
++					psta_dframe_info->sta_bw_mode = pattrib->bw;
++					for (rf_path = 0; rf_path < pHalData->NumTotalRFPath; rf_path++) {
++
++						psta_dframe_info->sta_mimo_signal_strength[rf_path] = (pPhyInfo->RxMIMOSignalStrength[rf_path]);/*Percentage to dbm*/
++
++						if (!isCCKrate) {
++							psta_dframe_info->sta_ofdm_snr[rf_path] = pPhyInfo->RxSNR[rf_path];
++							psta_dframe_info->sta_RxPwr[rf_path] = pPhyInfo->RxPwr[rf_path];
++						}
++					}
++				}
++			}
++		}
++#endif
++	}
++
++}
++
++
++int check_phy_efuse_tx_power_info_valid(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++	u8 *pContent = pHalData->efuse_eeprom_data;
++	int index = 0;
++	u16 tx_index_offset = 0x0000;
++
++	switch (rtw_get_chip_type(padapter)) {
++	case RTL8723B:
++		tx_index_offset = EEPROM_TX_PWR_INX_8723B;
++		break;
++	case RTL8703B:
++		tx_index_offset = EEPROM_TX_PWR_INX_8703B;
++		break;
++	case RTL8723D:
++		tx_index_offset = EEPROM_TX_PWR_INX_8723D;
++		break;
++	case RTL8188E:
++		tx_index_offset = EEPROM_TX_PWR_INX_88E;
++		break;
++	case RTL8188F:
++		tx_index_offset = EEPROM_TX_PWR_INX_8188F;
++		break;
++	case RTL8192E:
++		tx_index_offset = EEPROM_TX_PWR_INX_8192E;
++		break;
++	case RTL8821:
++		tx_index_offset = EEPROM_TX_PWR_INX_8821;
++		break;
++	case RTL8812:
++		tx_index_offset = EEPROM_TX_PWR_INX_8812;
++		break;
++	case RTL8814A:
++		tx_index_offset = EEPROM_TX_PWR_INX_8814;
++		break;
++	case RTL8822B:
++		tx_index_offset = EEPROM_TX_PWR_INX_8822B;
++		break;
++	case RTL8821C:
++		tx_index_offset = EEPROM_TX_PWR_INX_8821C;
++		break;
++	default:
++		tx_index_offset = 0x0010;
++		break;
++	}
++
++	/* TODO: chacking length by ICs */
++	for (index = 0 ; index < 11 ; index++) {
++		if (pContent[tx_index_offset + index] == 0xFF)
++			return _FALSE;
++	}
++	return _TRUE;
++}
++
++int hal_efuse_macaddr_offset(_adapter *adapter)
++{
++	u8 interface_type = 0;
++	int addr_offset = -1;
++
++	interface_type = rtw_get_intf_type(adapter);
++
++	switch (rtw_get_chip_type(adapter)) {
++#ifdef CONFIG_RTL8723B
++	case RTL8723B:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8723BU;
++		else if (interface_type == RTW_SDIO)
++			addr_offset = EEPROM_MAC_ADDR_8723BS;
++		else if (interface_type == RTW_PCIE)
++			addr_offset = EEPROM_MAC_ADDR_8723BE;
++		break;
++#endif
++#ifdef CONFIG_RTL8703B
++	case RTL8703B:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8703BU;
++		else if (interface_type == RTW_SDIO)
++			addr_offset = EEPROM_MAC_ADDR_8703BS;
++		break;
++#endif
++#ifdef CONFIG_RTL8723D
++	case RTL8723D:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8723DU;
++		else if (interface_type == RTW_SDIO)
++			addr_offset = EEPROM_MAC_ADDR_8723DS;
++		else if (interface_type == RTW_PCIE)
++			addr_offset = EEPROM_MAC_ADDR_8723DE;
++		break;
++#endif
++
++#ifdef CONFIG_RTL8188E
++	case RTL8188E:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_88EU;
++		else if (interface_type == RTW_SDIO)
++			addr_offset = EEPROM_MAC_ADDR_88ES;
++		else if (interface_type == RTW_PCIE)
++			addr_offset = EEPROM_MAC_ADDR_88EE;
++		break;
++#endif
++#ifdef CONFIG_RTL8188F
++	case RTL8188F:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8188FU;
++		else if (interface_type == RTW_SDIO)
++			addr_offset = EEPROM_MAC_ADDR_8188FS;
++		break;
++#endif
++#ifdef CONFIG_RTL8812A
++	case RTL8812:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8812AU;
++		else if (interface_type == RTW_PCIE)
++			addr_offset = EEPROM_MAC_ADDR_8812AE;
++		break;
++#endif
++#ifdef CONFIG_RTL8821A
++	case RTL8821:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8821AU;
++		else if (interface_type == RTW_SDIO)
++			addr_offset = EEPROM_MAC_ADDR_8821AS;
++		else if (interface_type == RTW_PCIE)
++			addr_offset = EEPROM_MAC_ADDR_8821AE;
++		break;
++#endif
++#ifdef CONFIG_RTL8192E
++	case RTL8192E:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8192EU;
++		else if (interface_type == RTW_SDIO)
++			addr_offset = EEPROM_MAC_ADDR_8192ES;
++		else if (interface_type == RTW_PCIE)
++			addr_offset = EEPROM_MAC_ADDR_8192EE;
++		break;
++#endif
++#ifdef CONFIG_RTL8814A
++	case RTL8814A:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8814AU;
++		else if (interface_type == RTW_PCIE)
++			addr_offset = EEPROM_MAC_ADDR_8814AE;
++		break;
++#endif
++
++#ifdef CONFIG_RTL8822B
++	case RTL8822B:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8822BU;
++		else if (interface_type == RTW_SDIO)
++			addr_offset = EEPROM_MAC_ADDR_8822BS;
++		else if (interface_type == RTW_PCIE)
++			addr_offset = EEPROM_MAC_ADDR_8822BE;
++		break;
++#endif /* CONFIG_RTL8822B */
++
++#ifdef CONFIG_RTL8821C
++	case RTL8821C:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8821CU;
++		else if (interface_type == RTW_SDIO)
++			addr_offset = EEPROM_MAC_ADDR_8821CS;
++		else if (interface_type == RTW_PCIE)
++			addr_offset = EEPROM_MAC_ADDR_8821CE;
++		break;
++#endif /* CONFIG_RTL8821C */
++	}
++
++	if (addr_offset == -1) {
++		RTW_ERR("%s: unknown combination - chip_type:%u, interface:%u\n"
++			, __func__, rtw_get_chip_type(adapter), rtw_get_intf_type(adapter));
++	}
++
++	return addr_offset;
++}
++
++int Hal_GetPhyEfuseMACAddr(PADAPTER padapter, u8 *mac_addr)
++{
++	int ret = _FAIL;
++	int addr_offset;
++
++	addr_offset = hal_efuse_macaddr_offset(padapter);
++	if (addr_offset == -1)
++		goto exit;
++
++	ret = rtw_efuse_map_read(padapter, addr_offset, ETH_ALEN, mac_addr);
++
++exit:
++	return ret;
++}
++
++void rtw_dump_cur_efuse(PADAPTER padapter)
++{
++	int i =0;
++	int mapsize =0;
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(padapter);
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN , (void *)&mapsize, _FALSE);
++
++	if (mapsize <= 0 || mapsize > EEPROM_MAX_SIZE) {
++		RTW_ERR("wrong map size %d\n", mapsize);
++		return;
++	}
++
++	if (hal_data->efuse_file_status == EFUSE_FILE_LOADED)
++		RTW_INFO("EFUSE FILE\n");
++	else
++		RTW_INFO("HW EFUSE\n");
++
++#ifdef CONFIG_RTW_DEBUG
++	for (i = 0; i < mapsize; i++) {
++		if (i % 16 == 0)
++			RTW_PRINT_SEL(RTW_DBGDUMP, "0x%03x: ", i);
++
++		_RTW_PRINT_SEL(RTW_DBGDUMP, "%02X%s"
++			, hal_data->efuse_eeprom_data[i]
++			, ((i + 1) % 16 == 0) ? "\n" : (((i + 1) % 8 == 0) ? "    " : " ")
++		);
++	}
++	_RTW_PRINT_SEL(RTW_DBGDUMP, "\n");
++#endif
++}
++
++
++#ifdef CONFIG_EFUSE_CONFIG_FILE
++u32 Hal_readPGDataFromConfigFile(PADAPTER padapter)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(padapter);
++	u32 ret = _FALSE;
++	u32 maplen = 0;
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN , (void *)&maplen, _FALSE);
++
++	if (maplen < 256 || maplen > EEPROM_MAX_SIZE) {
++		RTW_ERR("eFuse length error :%d\n", maplen);
++		return _FALSE;
++	}	
++
++	ret = rtw_read_efuse_from_file(EFUSE_MAP_PATH, hal_data->efuse_eeprom_data, maplen);
++
++	hal_data->efuse_file_status = ((ret == _FAIL) ? EFUSE_FILE_FAILED : EFUSE_FILE_LOADED);
++
++	if (hal_data->efuse_file_status == EFUSE_FILE_LOADED)
++		rtw_dump_cur_efuse(padapter);
++
++	return ret;
++}
++
++u32 Hal_ReadMACAddrFromFile(PADAPTER padapter, u8 *mac_addr)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(padapter);
++	u32 ret = _FAIL;
++
++	if (rtw_read_macaddr_from_file(WIFIMAC_PATH, mac_addr) == _SUCCESS
++		&& rtw_check_invalid_mac_address(mac_addr, _TRUE) == _FALSE
++	) {
++		hal_data->macaddr_file_status = MACADDR_FILE_LOADED;
++		ret = _SUCCESS;
++	} else
++		hal_data->macaddr_file_status = MACADDR_FILE_FAILED;
++
++	return ret;
++}
++#endif /* CONFIG_EFUSE_CONFIG_FILE */
++
++int hal_config_macaddr(_adapter *adapter, bool autoload_fail)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	u8 addr[ETH_ALEN];
++	int addr_offset = hal_efuse_macaddr_offset(adapter);
++	u8 *hw_addr = NULL;
++	int ret = _SUCCESS;
++
++	if (autoload_fail)
++		goto bypass_hw_pg;
++
++	if (addr_offset != -1)
++		hw_addr = &hal_data->efuse_eeprom_data[addr_offset];
++
++#ifdef CONFIG_EFUSE_CONFIG_FILE
++	/* if the hw_addr is written by efuse file, set to NULL */
++	if (hal_data->efuse_file_status == EFUSE_FILE_LOADED)
++		hw_addr = NULL;
++#endif
++
++	if (!hw_addr) {
++		/* try getting hw pg data */
++		if (Hal_GetPhyEfuseMACAddr(adapter, addr) == _SUCCESS)
++			hw_addr = addr;
++	}
++
++	/* check hw pg data */
++	if (hw_addr && rtw_check_invalid_mac_address(hw_addr, _TRUE) == _FALSE) {
++		_rtw_memcpy(hal_data->EEPROMMACAddr, hw_addr, ETH_ALEN);
++		goto exit;
++	}
++
++bypass_hw_pg:
++
++#ifdef CONFIG_EFUSE_CONFIG_FILE
++	/* check wifi mac file */
++	if (Hal_ReadMACAddrFromFile(adapter, addr) == _SUCCESS) {
++		_rtw_memcpy(hal_data->EEPROMMACAddr, addr, ETH_ALEN);
++		goto exit;
++	}
++#endif
++
++	_rtw_memset(hal_data->EEPROMMACAddr, 0, ETH_ALEN);
++	ret = _FAIL;
++
++exit:
++	return ret;
++}
++
++#ifdef CONFIG_RF_POWER_TRIM
++u32 Array_kfreemap[] = {
++	0x08, 0xe,
++	0x06, 0xc,
++	0x04, 0xa,
++	0x02, 0x8,
++	0x00, 0x6,
++	0x03, 0x4,
++	0x05, 0x2,
++	0x07, 0x0,
++	0x09, 0x0,
++	0x0c, 0x0,
++};
++
++void rtw_bb_rf_gain_offset(_adapter *padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct registry_priv  *registry_par = &padapter->registrypriv;
++	struct kfree_data_t *kfree_data = &pHalData->kfree_data;
++	u8		value = pHalData->EEPROMRFGainOffset;
++	u8		tmp = 0x3e;
++	u32		res, i = 0;
++	u4Byte		ArrayLen	= sizeof(Array_kfreemap) / sizeof(u32);
++	pu4Byte		Array	= Array_kfreemap;
++	u4Byte		v1 = 0, v2 = 0, GainValue = 0, target = 0;
++
++	if (registry_par->RegPwrTrimEnable == 2) {
++		RTW_INFO("Registry kfree default force disable.\n");
++		return;
++	}
++
++#if defined(CONFIG_RTL8723B)
++	if (value & BIT4 || (registry_par->RegPwrTrimEnable == 1)) {
++		RTW_INFO("Offset RF Gain.\n");
++		RTW_INFO("Offset RF Gain.  pHalData->EEPROMRFGainVal=0x%x\n", pHalData->EEPROMRFGainVal);
++
++		if (pHalData->EEPROMRFGainVal != 0xff) {
++
++			if (pHalData->ant_path == ODM_RF_PATH_A)
++				GainValue = (pHalData->EEPROMRFGainVal & 0x0f);
++
++			else
++				GainValue = (pHalData->EEPROMRFGainVal & 0xf0) >> 4;
++			RTW_INFO("Ant PATH_%d GainValue Offset = 0x%x\n", (pHalData->ant_path == ODM_RF_PATH_A) ? (ODM_RF_PATH_A) : (ODM_RF_PATH_B), GainValue);
++
++			for (i = 0; i < ArrayLen; i += 2) {
++				/* RTW_INFO("ArrayLen in =%d ,Array 1 =0x%x ,Array2 =0x%x\n",i,Array[i],Array[i]+1); */
++				v1 = Array[i];
++				v2 = Array[i + 1];
++				if (v1 == GainValue) {
++					RTW_INFO("Offset RF Gain. got v1 =0x%x ,v2 =0x%x\n", v1, v2);
++					target = v2;
++					break;
++				}
++			}
++			RTW_INFO("pHalData->EEPROMRFGainVal=0x%x ,Gain offset Target Value=0x%x\n", pHalData->EEPROMRFGainVal, target);
++
++			res = rtw_hal_read_rfreg(padapter, RF_PATH_A, 0x7f, 0xffffffff);
++			RTW_INFO("Offset RF Gain. before reg 0x7f=0x%08x\n", res);
++			PHY_SetRFReg(padapter, RF_PATH_A, REG_RF_BB_GAIN_OFFSET, BIT18 | BIT17 | BIT16 | BIT15, target);
++			res = rtw_hal_read_rfreg(padapter, RF_PATH_A, 0x7f, 0xffffffff);
++
++			RTW_INFO("Offset RF Gain. After reg 0x7f=0x%08x\n", res);
++
++		} else
++
++			RTW_INFO("Offset RF Gain.  pHalData->EEPROMRFGainVal=0x%x	!= 0xff, didn't run Kfree\n", pHalData->EEPROMRFGainVal);
++	} else
++		RTW_INFO("Using the default RF gain.\n");
++
++#elif defined(CONFIG_RTL8188E)
++	if (value & BIT4 || (registry_par->RegPwrTrimEnable == 1)) {
++		RTW_INFO("8188ES Offset RF Gain.\n");
++		RTW_INFO("8188ES Offset RF Gain. EEPROMRFGainVal=0x%x\n",
++			 pHalData->EEPROMRFGainVal);
++
++		if (pHalData->EEPROMRFGainVal != 0xff) {
++			res = rtw_hal_read_rfreg(padapter, RF_PATH_A,
++					 REG_RF_BB_GAIN_OFFSET, 0xffffffff);
++
++			RTW_INFO("Offset RF Gain. reg 0x55=0x%x\n", res);
++			res &= 0xfff87fff;
++
++			res |= (pHalData->EEPROMRFGainVal & 0x0f) << 15;
++			RTW_INFO("Offset RF Gain. res=0x%x\n", res);
++
++			rtw_hal_write_rfreg(padapter, RF_PATH_A,
++					    REG_RF_BB_GAIN_OFFSET,
++					    RF_GAIN_OFFSET_MASK, res);
++		} else {
++			RTW_INFO("Offset RF Gain. EEPROMRFGainVal=0x%x == 0xff, didn't run Kfree\n",
++				 pHalData->EEPROMRFGainVal);
++		}
++	} else
++		RTW_INFO("Using the default RF gain.\n");
++#else
++	/* TODO: call this when channel switch */
++	if (kfree_data->flag & KFREE_FLAG_ON)
++		rtw_rf_apply_tx_gain_offset(padapter, 6); /* input ch6 to select BB_GAIN_2G */
++#endif
++
++}
++#endif /*CONFIG_RF_POWER_TRIM */
++
++bool kfree_data_is_bb_gain_empty(struct kfree_data_t *data)
++{
++#ifdef CONFIG_RF_POWER_TRIM
++	int i, j;
++
++	for (i = 0; i < BB_GAIN_NUM; i++)
++		for (j = 0; j < RF_PATH_MAX; j++)
++			if (data->bb_gain[i][j] != 0)
++				return 0;
++#endif
++	return 1;
++}
++
++#ifdef CONFIG_USB_RX_AGGREGATION
++void rtw_set_usb_agg_by_mode_normal(_adapter *padapter, u8 cur_wireless_mode)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	if (cur_wireless_mode < WIRELESS_11_24N
++	    && cur_wireless_mode > 0) { /* ABG mode */
++#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++		u32 remainder = 0;
++		u8 quotient = 0;
++
++		remainder = MAX_RECVBUF_SZ % (4 * 1024);
++		quotient = (u8)(MAX_RECVBUF_SZ >> 12);
++
++		if (quotient > 5) {
++			pHalData->rxagg_usb_size = 0x6;
++			pHalData->rxagg_usb_timeout = 0x10;
++		} else {
++			if (remainder >= 2048) {
++				pHalData->rxagg_usb_size = quotient;
++				pHalData->rxagg_usb_timeout = 0x10;
++			} else {
++				pHalData->rxagg_usb_size = (quotient - 1);
++				pHalData->rxagg_usb_timeout = 0x10;
++			}
++		}
++#else /* !CONFIG_PREALLOC_RX_SKB_BUFFER */
++		if (0x6 != pHalData->rxagg_usb_size || 0x10 != pHalData->rxagg_usb_timeout) {
++			pHalData->rxagg_usb_size = 0x6;
++			pHalData->rxagg_usb_timeout = 0x10;
++			rtw_write16(padapter, REG_RXDMA_AGG_PG_TH,
++				pHalData->rxagg_usb_size | (pHalData->rxagg_usb_timeout << 8));
++		}
++#endif /* CONFIG_PREALLOC_RX_SKB_BUFFER */
++
++	} else if (cur_wireless_mode >= WIRELESS_11_24N
++		   && cur_wireless_mode <= WIRELESS_MODE_MAX) { /* N AC mode */
++#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++		u32 remainder = 0;
++		u8 quotient = 0;
++
++		remainder = MAX_RECVBUF_SZ % (4 * 1024);
++		quotient = (u8)(MAX_RECVBUF_SZ >> 12);
++
++		if (quotient > 5) {
++			pHalData->rxagg_usb_size = 0x5;
++			pHalData->rxagg_usb_timeout = 0x20;
++		} else {
++			if (remainder >= 2048) {
++				pHalData->rxagg_usb_size = quotient;
++				pHalData->rxagg_usb_timeout = 0x10;
++			} else {
++				pHalData->rxagg_usb_size = (quotient - 1);
++				pHalData->rxagg_usb_timeout = 0x10;
++			}
++		}
++#else /* !CONFIG_PREALLOC_RX_SKB_BUFFER */
++		if ((0x5 != pHalData->rxagg_usb_size) || (0x20 != pHalData->rxagg_usb_timeout)) {
++			pHalData->rxagg_usb_size = 0x5;
++			pHalData->rxagg_usb_timeout = 0x20;
++			rtw_write16(padapter, REG_RXDMA_AGG_PG_TH,
++				pHalData->rxagg_usb_size | (pHalData->rxagg_usb_timeout << 8));
++		}
++#endif /* CONFIG_PREALLOC_RX_SKB_BUFFER */
++
++	} else {
++		/* RTW_INFO("%s: Unknow wireless mode(0x%x)\n",__func__,padapter->mlmeextpriv.cur_wireless_mode); */
++	}
++}
++
++void rtw_set_usb_agg_by_mode_customer(_adapter *padapter, u8 cur_wireless_mode, u8 UsbDmaSize, u8 Legacy_UsbDmaSize)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	if (cur_wireless_mode < WIRELESS_11_24N
++	    && cur_wireless_mode > 0) { /* ABG mode */
++		if (Legacy_UsbDmaSize != pHalData->rxagg_usb_size
++		    || 0x10 != pHalData->rxagg_usb_timeout) {
++			pHalData->rxagg_usb_size = Legacy_UsbDmaSize;
++			pHalData->rxagg_usb_timeout = 0x10;
++			rtw_write16(padapter, REG_RXDMA_AGG_PG_TH,
++				pHalData->rxagg_usb_size | (pHalData->rxagg_usb_timeout << 8));
++		}
++	} else if (cur_wireless_mode >= WIRELESS_11_24N
++		   && cur_wireless_mode <= WIRELESS_MODE_MAX) { /* N AC mode */
++		if (UsbDmaSize != pHalData->rxagg_usb_size
++		    || 0x20 != pHalData->rxagg_usb_timeout) {
++			pHalData->rxagg_usb_size = UsbDmaSize;
++			pHalData->rxagg_usb_timeout = 0x20;
++			rtw_write16(padapter, REG_RXDMA_AGG_PG_TH,
++				pHalData->rxagg_usb_size | (pHalData->rxagg_usb_timeout << 8));
++		}
++	} else {
++		/* RTW_INFO("%s: Unknown wireless mode(0x%x)\n",__func__,padapter->mlmeextpriv.cur_wireless_mode); */
++	}
++}
++
++void rtw_set_usb_agg_by_mode(_adapter *padapter, u8 cur_wireless_mode)
++{
++#ifdef CONFIG_PLATFORM_NOVATEK_NT72668
++	rtw_set_usb_agg_by_mode_customer(padapter, cur_wireless_mode, 0x3, 0x3);
++	return;
++#endif /* CONFIG_PLATFORM_NOVATEK_NT72668 */
++
++	rtw_set_usb_agg_by_mode_normal(padapter, cur_wireless_mode);
++}
++#endif /* CONFIG_USB_RX_AGGREGATION */
++
++/* To avoid RX affect TX throughput */
++void dm_DynamicUsbTxAgg(_adapter *padapter, u8 from_timer)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct mlme_priv		*pmlmepriv = &(padapter->mlmepriv);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	u8 cur_wireless_mode = WIRELESS_INVALID;
++
++#ifdef CONFIG_USB_RX_AGGREGATION
++	if (IS_HARDWARE_TYPE_8821U(padapter)) { /* || IS_HARDWARE_TYPE_8192EU(padapter)) */
++		/* This AGG_PH_TH only for UsbRxAggMode == USB_RX_AGG_USB */
++		if ((pHalData->rxagg_mode == RX_AGG_USB) && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)) {
++			if (pdvobjpriv->traffic_stat.cur_tx_tp > 2 && pdvobjpriv->traffic_stat.cur_rx_tp < 30)
++				rtw_write16(padapter , REG_RXDMA_AGG_PG_TH , 0x1010);
++			else if (pdvobjpriv->traffic_stat.last_tx_bytes > 220000 && pdvobjpriv->traffic_stat.cur_rx_tp < 30)
++				rtw_write16(padapter , REG_RXDMA_AGG_PG_TH , 0x1006);
++			else
++				rtw_write16(padapter, REG_RXDMA_AGG_PG_TH, 0x2005); /* dmc agg th 20K */
++
++			/* RTW_INFO("TX_TP=%u, RX_TP=%u\n", pdvobjpriv->traffic_stat.cur_tx_tp, pdvobjpriv->traffic_stat.cur_rx_tp); */
++		}
++	} else if (IS_HARDWARE_TYPE_8812(padapter)) {
++#ifdef CONFIG_CONCURRENT_MODE
++		u8 i;
++		_adapter *iface;
++		u8 bassocaed = _FALSE;
++		struct mlme_ext_priv *mlmeext;
++
++		for (i = 0; i < pdvobjpriv->iface_nums; i++) {
++			iface = pdvobjpriv->padapters[i];
++			mlmeext = &iface->mlmeextpriv;
++			if (rtw_linked_check(iface) == _TRUE) {
++				if (mlmeext->cur_wireless_mode >= cur_wireless_mode)
++					cur_wireless_mode = mlmeext->cur_wireless_mode;
++				bassocaed = _TRUE;
++			}
++		}
++		if (bassocaed)
++#endif
++			rtw_set_usb_agg_by_mode(padapter, cur_wireless_mode);
++#ifdef CONFIG_PLATFORM_NOVATEK_NT72668
++	} else {
++		rtw_set_usb_agg_by_mode(padapter, cur_wireless_mode);
++#endif /* CONFIG_PLATFORM_NOVATEK_NT72668 */
++	}
++#endif
++}
++
++/* bus-agg check for SoftAP mode */
++inline u8 rtw_hal_busagg_qsel_check(_adapter *padapter, u8 pre_qsel, u8 next_qsel)
++{
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	u8 chk_rst = _SUCCESS;
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return chk_rst;
++
++	/* if((pre_qsel == 0xFF)||(next_qsel== 0xFF)) */
++	/*	return chk_rst; */
++
++	if (((pre_qsel == QSLT_HIGH) || ((next_qsel == QSLT_HIGH)))
++	    && (pre_qsel != next_qsel)) {
++		/* RTW_INFO("### bus-agg break cause of qsel misatch, pre_qsel=0x%02x,next_qsel=0x%02x ###\n", */
++		/*	pre_qsel,next_qsel); */
++		chk_rst = _FAIL;
++	}
++	return chk_rst;
++}
++
++/*
++ * Description:
++ * dump_TX_FIFO: This is only used to dump TX_FIFO for debug WoW mode offload
++ * contant.
++ *
++ * Input:
++ * adapter: adapter pointer.
++ * page_num: The max. page number that user want to dump.
++ * page_size: page size of each page. eg. 128 bytes, 256 bytes, 512byte.
++ */
++void dump_TX_FIFO(_adapter *padapter, u8 page_num, u16 page_size)
++{
++
++	int i;
++	u8 val = 0;
++	u8 base = 0;
++	u32 addr = 0;
++	u32 count = (page_size / 8);
++
++	if (page_num <= 0) {
++		RTW_INFO("!!%s: incorrect input page_num paramter!\n", __func__);
++		return;
++	}
++
++	if (page_size < 128 || page_size > 512) {
++		RTW_INFO("!!%s: incorrect input page_size paramter!\n", __func__);
++		return;
++	}
++
++	RTW_INFO("+%s+\n", __func__);
++	val = rtw_read8(padapter, 0x106);
++	rtw_write8(padapter, 0x106, 0x69);
++	RTW_INFO("0x106: 0x%02x\n", val);
++	base = rtw_read8(padapter, 0x209);
++	RTW_INFO("0x209: 0x%02x\n", base);
++
++	addr = ((base)*page_size) / 8;
++	for (i = 0 ; i < page_num * count ; i += 2) {
++		rtw_write32(padapter, 0x140, addr + i);
++		printk(" %08x %08x ", rtw_read32(padapter, 0x144), rtw_read32(padapter, 0x148));
++		rtw_write32(padapter, 0x140, addr + i + 1);
++		printk(" %08x %08x\n", rtw_read32(padapter, 0x144), rtw_read32(padapter, 0x148));
++	}
++}
++
++#ifdef CONFIG_GPIO_API
++u8 rtw_hal_get_gpio(_adapter *adapter, u8 gpio_num)
++{
++	u8 value = 0;
++	u8 direction = 0;
++	u32 gpio_ctrl_reg_to_set = REG_GPIO_PIN_CTRL + 2;
++	u8 gpio_num_to_set = gpio_num;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++
++	if (rtw_hal_gpio_func_check(adapter, gpio_num) == _FAIL)
++		return value;
++
++	rtw_ps_deny(adapter, PS_DENY_IOCTL);
++
++	RTW_INFO("rf_pwrstate=0x%02x\n", pwrpriv->rf_pwrstate);
++	LeaveAllPowerSaveModeDirect(adapter);
++
++	if (gpio_num > 7) {
++		gpio_ctrl_reg_to_set = REG_GPIO_PIN_CTRL_2 + 2;
++		gpio_num_to_set = gpio_num - 8;
++	}
++
++	/* Read GPIO Direction */
++	direction = (rtw_read8(adapter, gpio_ctrl_reg_to_set) & BIT(gpio_num_to_set)) >> gpio_num;
++
++	/* According the direction to read register value */
++	if (direction)
++		value =  (rtw_read8(adapter, gpio_ctrl_reg_to_set) & BIT(gpio_num_to_set)) >> gpio_num;
++	else
++		value =  (rtw_read8(adapter, gpio_ctrl_reg_to_set) & BIT(gpio_num_to_set)) >> gpio_num;
++
++	rtw_ps_deny_cancel(adapter, PS_DENY_IOCTL);
++	RTW_INFO("%s direction=%d value=%d\n", __FUNCTION__, direction, value);
++
++	return value;
++}
++
++int  rtw_hal_set_gpio_output_value(_adapter *adapter, u8 gpio_num, bool isHigh)
++{
++	u8 direction = 0;
++	u8 res = -1;
++	u32 gpio_ctrl_reg_to_set = REG_GPIO_PIN_CTRL + 2;
++	u8 gpio_num_to_set = gpio_num;
++
++	if (rtw_hal_gpio_func_check(adapter, gpio_num) == _FAIL)
++		return -1;
++
++	rtw_ps_deny(adapter, PS_DENY_IOCTL);
++
++	LeaveAllPowerSaveModeDirect(adapter);
++
++	if (gpio_num > 7) {
++		gpio_ctrl_reg_to_set = REG_GPIO_PIN_CTRL_2 + 2;
++		gpio_num_to_set = gpio_num - 8;
++	}
++
++	/* Read GPIO direction */
++	direction = (rtw_read8(adapter, REG_GPIO_PIN_CTRL + 2) & BIT(gpio_num)) >> gpio_num;
++
++	/* If GPIO is output direction, setting value. */
++	if (direction) {
++		if (isHigh)
++			rtw_write8(adapter, gpio_ctrl_reg_to_set, rtw_read8(adapter, gpio_ctrl_reg_to_set) | BIT(gpio_num_to_set));
++		else
++			rtw_write8(adapter, gpio_ctrl_reg_to_set, rtw_read8(adapter, gpio_ctrl_reg_to_set) & ~BIT(gpio_num_to_set));
++
++		RTW_INFO("%s Set gpio %x[%d]=%d\n", __FUNCTION__, REG_GPIO_PIN_CTRL + 1, gpio_num, isHigh);
++		res = 0;
++	} else {
++		RTW_INFO("%s The gpio is input,not be set!\n", __FUNCTION__);
++		res = -1;
++	}
++
++	rtw_ps_deny_cancel(adapter, PS_DENY_IOCTL);
++	return res;
++}
++
++int rtw_hal_config_gpio(_adapter *adapter, u8 gpio_num, bool isOutput)
++{
++	u32 gpio_ctrl_reg_to_set = REG_GPIO_PIN_CTRL + 2;
++	u8 gpio_num_to_set = gpio_num;
++
++	if (rtw_hal_gpio_func_check(adapter, gpio_num) == _FAIL)
++		return -1;
++
++	RTW_INFO("%s gpio_num =%d direction=%d\n", __FUNCTION__, gpio_num, isOutput);
++
++	rtw_ps_deny(adapter, PS_DENY_IOCTL);
++
++	LeaveAllPowerSaveModeDirect(adapter);
++
++	rtw_hal_gpio_multi_func_reset(adapter, gpio_num);
++
++	if (gpio_num > 7) {
++		gpio_ctrl_reg_to_set = REG_GPIO_PIN_CTRL_2 + 2;
++		gpio_num_to_set = gpio_num - 8;
++	}
++
++	if (isOutput)
++		rtw_write8(adapter, gpio_ctrl_reg_to_set, rtw_read8(adapter, gpio_ctrl_reg_to_set) | BIT(gpio_num_to_set));
++	else
++		rtw_write8(adapter, gpio_ctrl_reg_to_set, rtw_read8(adapter, gpio_ctrl_reg_to_set) & ~BIT(gpio_num_to_set));
++
++	rtw_ps_deny_cancel(adapter, PS_DENY_IOCTL);
++
++	return 0;
++}
++int rtw_hal_register_gpio_interrupt(_adapter *adapter, int gpio_num, void(*callback)(u8 level))
++{
++	u8 value;
++	u8 direction;
++	PHAL_DATA_TYPE phal = GET_HAL_DATA(adapter);
++
++	if (IS_HARDWARE_TYPE_8188E(adapter)) {
++		if (gpio_num > 7 || gpio_num < 4) {
++			RTW_PRINT("%s The gpio number does not included 4~7.\n", __FUNCTION__);
++			return -1;
++		}
++	}
++
++	rtw_ps_deny(adapter, PS_DENY_IOCTL);
++
++	LeaveAllPowerSaveModeDirect(adapter);
++
++	/* Read GPIO direction */
++	direction = (rtw_read8(adapter, REG_GPIO_PIN_CTRL + 2) & BIT(gpio_num)) >> gpio_num;
++	if (direction) {
++		RTW_PRINT("%s Can't register output gpio as interrupt.\n", __FUNCTION__);
++		return -1;
++	}
++
++	/* Config GPIO Mode */
++	rtw_write8(adapter, REG_GPIO_PIN_CTRL + 3, rtw_read8(adapter, REG_GPIO_PIN_CTRL + 3) | BIT(gpio_num));
++
++	/* Register GPIO interrupt handler*/
++	adapter->gpiointpriv.callback[gpio_num] = callback;
++
++	/* Set GPIO interrupt mode, 0:positive edge, 1:negative edge */
++	value = rtw_read8(adapter, REG_GPIO_PIN_CTRL) & BIT(gpio_num);
++	adapter->gpiointpriv.interrupt_mode = rtw_read8(adapter, REG_HSIMR + 2) ^ value;
++	rtw_write8(adapter, REG_GPIO_INTM, adapter->gpiointpriv.interrupt_mode);
++
++	/* Enable GPIO interrupt */
++	adapter->gpiointpriv.interrupt_enable_mask = rtw_read8(adapter, REG_HSIMR + 2) | BIT(gpio_num);
++	rtw_write8(adapter, REG_HSIMR + 2, adapter->gpiointpriv.interrupt_enable_mask);
++
++	rtw_hal_update_hisr_hsisr_ind(adapter, 1);
++
++	rtw_ps_deny_cancel(adapter, PS_DENY_IOCTL);
++
++	return 0;
++}
++int rtw_hal_disable_gpio_interrupt(_adapter *adapter, int gpio_num)
++{
++	u8 value;
++	u8 direction;
++	PHAL_DATA_TYPE phal = GET_HAL_DATA(adapter);
++
++	if (IS_HARDWARE_TYPE_8188E(adapter)) {
++		if (gpio_num > 7 || gpio_num < 4) {
++			RTW_INFO("%s The gpio number does not included 4~7.\n", __FUNCTION__);
++			return -1;
++		}
++	}
++
++	rtw_ps_deny(adapter, PS_DENY_IOCTL);
++
++	LeaveAllPowerSaveModeDirect(adapter);
++
++	/* Config GPIO Mode */
++	rtw_write8(adapter, REG_GPIO_PIN_CTRL + 3, rtw_read8(adapter, REG_GPIO_PIN_CTRL + 3) & ~BIT(gpio_num));
++
++	/* Unregister GPIO interrupt handler*/
++	adapter->gpiointpriv.callback[gpio_num] = NULL;
++
++	/* Reset GPIO interrupt mode, 0:positive edge, 1:negative edge */
++	adapter->gpiointpriv.interrupt_mode = rtw_read8(adapter, REG_GPIO_INTM) & ~BIT(gpio_num);
++	rtw_write8(adapter, REG_GPIO_INTM, 0x00);
++
++	/* Disable GPIO interrupt */
++	adapter->gpiointpriv.interrupt_enable_mask = rtw_read8(adapter, REG_HSIMR + 2) & ~BIT(gpio_num);
++	rtw_write8(adapter, REG_HSIMR + 2, adapter->gpiointpriv.interrupt_enable_mask);
++
++	if (!adapter->gpiointpriv.interrupt_enable_mask)
++		rtw_hal_update_hisr_hsisr_ind(adapter, 0);
++
++	rtw_ps_deny_cancel(adapter, PS_DENY_IOCTL);
++
++	return 0;
++}
++#endif
++
++s8 rtw_hal_ch_sw_iqk_info_search(_adapter *padapter, u8 central_chnl, u8 bw_mode)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	u8 i;
++
++	for (i = 0; i < MAX_IQK_INFO_BACKUP_CHNL_NUM; i++) {
++		if ((pHalData->iqk_reg_backup[i].central_chnl != 0)) {
++			if ((pHalData->iqk_reg_backup[i].central_chnl == central_chnl)
++			    && (pHalData->iqk_reg_backup[i].bw_mode == bw_mode))
++				return i;
++		}
++	}
++
++	return -1;
++}
++
++void rtw_hal_ch_sw_iqk_info_backup(_adapter *padapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	s8 res;
++	u8 i;
++
++	/* If it's an existed record, overwrite it */
++	res = rtw_hal_ch_sw_iqk_info_search(padapter, pHalData->CurrentChannel, pHalData->CurrentChannelBW);
++	if ((res >= 0) && (res < MAX_IQK_INFO_BACKUP_CHNL_NUM)) {
++		rtw_hal_set_hwreg(padapter, HW_VAR_CH_SW_IQK_INFO_BACKUP, (u8 *)&(pHalData->iqk_reg_backup[res]));
++		return;
++	}
++
++	/* Search for the empty record to use */
++	for (i = 0; i < MAX_IQK_INFO_BACKUP_CHNL_NUM; i++) {
++		if (pHalData->iqk_reg_backup[i].central_chnl == 0) {
++			rtw_hal_set_hwreg(padapter, HW_VAR_CH_SW_IQK_INFO_BACKUP, (u8 *)&(pHalData->iqk_reg_backup[i]));
++			return;
++		}
++	}
++
++	/* Else, overwrite the oldest record */
++	for (i = 1; i < MAX_IQK_INFO_BACKUP_CHNL_NUM; i++)
++		_rtw_memcpy(&(pHalData->iqk_reg_backup[i - 1]), &(pHalData->iqk_reg_backup[i]), sizeof(struct hal_iqk_reg_backup));
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_CH_SW_IQK_INFO_BACKUP, (u8 *)&(pHalData->iqk_reg_backup[MAX_IQK_INFO_BACKUP_CHNL_NUM - 1]));
++}
++
++void rtw_hal_ch_sw_iqk_info_restore(_adapter *padapter, u8 ch_sw_use_case)
++{
++	rtw_hal_set_hwreg(padapter, HW_VAR_CH_SW_IQK_INFO_RESTORE, &ch_sw_use_case);
++}
++
++void rtw_dump_mac_rx_counters(_adapter *padapter, struct dbg_rx_counter *rx_counter)
++{
++	u32	mac_cck_ok = 0, mac_ofdm_ok = 0, mac_ht_ok = 0, mac_vht_ok = 0;
++	u32	mac_cck_err = 0, mac_ofdm_err = 0, mac_ht_err = 0, mac_vht_err = 0;
++	u32	mac_cck_fa = 0, mac_ofdm_fa = 0, mac_ht_fa = 0;
++	u32	DropPacket = 0;
++
++	if (!rx_counter) {
++		rtw_warn_on(1);
++		return;
++	}
++	if (IS_HARDWARE_TYPE_JAGUAR(padapter) || IS_HARDWARE_TYPE_JAGUAR2(padapter))
++		PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT26, 0x0);/*clear bit-26*/
++
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x3);
++	mac_cck_ok	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]	  */
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x0);
++	mac_ofdm_ok	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]	 */
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x6);
++	mac_ht_ok	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]	 */
++	mac_vht_ok	= 0;
++	if (IS_HARDWARE_TYPE_JAGUAR(padapter) || IS_HARDWARE_TYPE_JAGUAR2(padapter)) {
++		PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x0);
++		PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT26, 0x1);
++		mac_vht_ok	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]*/
++		PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT26, 0x0);/*clear bit-26*/
++	}
++
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x4);
++	mac_cck_err	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]	 */
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x1);
++	mac_ofdm_err	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]	 */
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x7);
++	mac_ht_err	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]		 */
++	mac_vht_err	= 0;
++	if (IS_HARDWARE_TYPE_JAGUAR(padapter) || IS_HARDWARE_TYPE_JAGUAR2(padapter)) {
++		PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x1);
++		PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT26, 0x1);
++		mac_vht_err	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]*/
++		PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT26, 0x0);/*clear bit-26*/
++	}
++
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x5);
++	mac_cck_fa	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]	 */
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x2);
++	mac_ofdm_fa	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]	 */
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x9);
++	mac_ht_fa	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]		 */
++
++	/* Mac_DropPacket */
++	rtw_write32(padapter, REG_RXERR_RPT, (rtw_read32(padapter, REG_RXERR_RPT) & 0x0FFFFFFF) | Mac_DropPacket);
++	DropPacket = rtw_read32(padapter, REG_RXERR_RPT) & 0x0000FFFF;
++
++	rx_counter->rx_pkt_ok = mac_cck_ok + mac_ofdm_ok + mac_ht_ok + mac_vht_ok;
++	rx_counter->rx_pkt_crc_error = mac_cck_err + mac_ofdm_err + mac_ht_err + mac_vht_err;
++	rx_counter->rx_cck_fa = mac_cck_fa;
++	rx_counter->rx_ofdm_fa = mac_ofdm_fa;
++	rx_counter->rx_ht_fa = mac_ht_fa;
++	rx_counter->rx_pkt_drop = DropPacket;
++}
++void rtw_reset_mac_rx_counters(_adapter *padapter)
++{
++
++	/* If no packet rx, MaxRx clock be gating ,BIT_DISGCLK bit19 set 1 for fix*/
++	if (IS_HARDWARE_TYPE_8703B(padapter) ||
++	    IS_HARDWARE_TYPE_8723D(padapter) ||
++	    IS_HARDWARE_TYPE_8188F(padapter))
++		PHY_SetMacReg(padapter, REG_RCR, BIT19, 0x1);
++
++	/* reset mac counter */
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT27, 0x1);
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT27, 0x0);
++}
++
++void rtw_dump_phy_rx_counters(_adapter *padapter, struct dbg_rx_counter *rx_counter)
++{
++	u32 cckok = 0, cckcrc = 0, ofdmok = 0, ofdmcrc = 0, htok = 0, htcrc = 0, OFDM_FA = 0, CCK_FA = 0, vht_ok = 0, vht_err = 0;
++	if (!rx_counter) {
++		rtw_warn_on(1);
++		return;
++	}
++	if (IS_HARDWARE_TYPE_JAGUAR(padapter) || IS_HARDWARE_TYPE_JAGUAR2(padapter)) {
++		cckok	= PHY_QueryBBReg(padapter, 0xF04, 0x3FFF);	     /* [13:0] */
++		ofdmok	= PHY_QueryBBReg(padapter, 0xF14, 0x3FFF);	     /* [13:0] */
++		htok		= PHY_QueryBBReg(padapter, 0xF10, 0x3FFF);     /* [13:0] */
++		vht_ok	= PHY_QueryBBReg(padapter, 0xF0C, 0x3FFF);     /* [13:0] */
++		cckcrc	= PHY_QueryBBReg(padapter, 0xF04, 0x3FFF0000); /* [29:16]	 */
++		ofdmcrc	= PHY_QueryBBReg(padapter, 0xF14, 0x3FFF0000); /* [29:16] */
++		htcrc	= PHY_QueryBBReg(padapter, 0xF10, 0x3FFF0000); /* [29:16] */
++		vht_err	= PHY_QueryBBReg(padapter, 0xF0C, 0x3FFF0000); /* [29:16] */
++		CCK_FA	= PHY_QueryBBReg(padapter, 0xA5C, bMaskLWord);
++		OFDM_FA	= PHY_QueryBBReg(padapter, 0xF48, bMaskLWord);
++	} else {
++		cckok	= PHY_QueryBBReg(padapter, 0xF88, bMaskDWord);
++		ofdmok	= PHY_QueryBBReg(padapter, 0xF94, bMaskLWord);
++		htok		= PHY_QueryBBReg(padapter, 0xF90, bMaskLWord);
++		vht_ok	= 0;
++		cckcrc	= PHY_QueryBBReg(padapter, 0xF84, bMaskDWord);
++		ofdmcrc	= PHY_QueryBBReg(padapter, 0xF94, bMaskHWord);
++		htcrc	= PHY_QueryBBReg(padapter, 0xF90, bMaskHWord);
++		vht_err	= 0;
++		OFDM_FA = PHY_QueryBBReg(padapter, 0xCF0, bMaskLWord) + PHY_QueryBBReg(padapter, 0xCF2, bMaskLWord) +
++			PHY_QueryBBReg(padapter, 0xDA2, bMaskLWord) + PHY_QueryBBReg(padapter, 0xDA4, bMaskLWord) +
++			PHY_QueryBBReg(padapter, 0xDA6, bMaskLWord) + PHY_QueryBBReg(padapter, 0xDA8, bMaskLWord);
++
++		CCK_FA = (rtw_read8(padapter, 0xA5B) << 8) | (rtw_read8(padapter, 0xA5C));
++	}
++
++	rx_counter->rx_pkt_ok = cckok + ofdmok + htok + vht_ok;
++	rx_counter->rx_pkt_crc_error = cckcrc + ofdmcrc + htcrc + vht_err;
++	rx_counter->rx_ofdm_fa = OFDM_FA;
++	rx_counter->rx_cck_fa = CCK_FA;
++
++}
++
++void rtw_reset_phy_trx_ok_counters(_adapter *padapter)
++{
++	if (IS_HARDWARE_TYPE_JAGUAR(padapter) || IS_HARDWARE_TYPE_JAGUAR2(padapter)) {
++		PHY_SetBBReg(padapter, 0xB58, BIT0, 0x1);
++		PHY_SetBBReg(padapter, 0xB58, BIT0, 0x0);
++	}
++}
++void rtw_reset_phy_rx_counters(_adapter *padapter)
++{
++	/* reset phy counter */
++	if (IS_HARDWARE_TYPE_JAGUAR(padapter) || IS_HARDWARE_TYPE_JAGUAR2(padapter)) {
++		rtw_reset_phy_trx_ok_counters(padapter);
++
++		PHY_SetBBReg(padapter, 0x9A4, BIT17, 0x1);/* reset  OFDA FA counter */
++		PHY_SetBBReg(padapter, 0x9A4, BIT17, 0x0);
++
++		PHY_SetBBReg(padapter, 0xA2C, BIT15, 0x0);/* reset  CCK FA counter */
++		PHY_SetBBReg(padapter, 0xA2C, BIT15, 0x1);
++	} else {
++		PHY_SetBBReg(padapter, 0xF14, BIT16, 0x1);
++		rtw_msleep_os(10);
++		PHY_SetBBReg(padapter, 0xF14, BIT16, 0x0);
++
++		PHY_SetBBReg(padapter, 0xD00, BIT27, 0x1);/* reset  OFDA FA counter */
++		PHY_SetBBReg(padapter, 0xC0C, BIT31, 0x1);/* reset  OFDA FA counter */
++		PHY_SetBBReg(padapter, 0xD00, BIT27, 0x0);
++		PHY_SetBBReg(padapter, 0xC0C, BIT31, 0x0);
++
++		PHY_SetBBReg(padapter, 0xA2C, BIT15, 0x0);/* reset  CCK FA counter */
++		PHY_SetBBReg(padapter, 0xA2C, BIT15, 0x1);
++	}
++}
++#ifdef DBG_RX_COUNTER_DUMP
++void rtw_dump_drv_rx_counters(_adapter *padapter, struct dbg_rx_counter *rx_counter)
++{
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	if (!rx_counter) {
++		rtw_warn_on(1);
++		return;
++	}
++	rx_counter->rx_pkt_ok = padapter->drv_rx_cnt_ok;
++	rx_counter->rx_pkt_crc_error = padapter->drv_rx_cnt_crcerror;
++	rx_counter->rx_pkt_drop = precvpriv->rx_drop - padapter->drv_rx_cnt_drop;
++}
++void rtw_reset_drv_rx_counters(_adapter *padapter)
++{
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	padapter->drv_rx_cnt_ok = 0;
++	padapter->drv_rx_cnt_crcerror = 0;
++	padapter->drv_rx_cnt_drop = precvpriv->rx_drop;
++}
++void rtw_dump_phy_rxcnts_preprocess(_adapter *padapter, u8 rx_cnt_mode)
++{
++	u8 initialgain;
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(padapter);
++
++	if ((!(padapter->dump_rx_cnt_mode & DUMP_PHY_RX_COUNTER)) && (rx_cnt_mode & DUMP_PHY_RX_COUNTER)) {
++		rtw_hal_get_odm_var(padapter, HAL_ODM_INITIAL_GAIN, &initialgain, NULL);
++		RTW_INFO("%s CurIGValue:0x%02x\n", __FUNCTION__, initialgain);
++		rtw_hal_set_odm_var(padapter, HAL_ODM_INITIAL_GAIN, &initialgain, _FALSE);
++		/*disable dynamic functions, such as high power, DIG*/
++		rtw_phydm_ability_backup(padapter);
++		rtw_phydm_func_clr(padapter, (ODM_BB_DIG | ODM_BB_FA_CNT));
++	} else if ((padapter->dump_rx_cnt_mode & DUMP_PHY_RX_COUNTER) && (!(rx_cnt_mode & DUMP_PHY_RX_COUNTER))) {
++		/* turn on phy-dynamic functions */
++		rtw_phydm_ability_restore(padapter);
++		initialgain = 0xff; /* restore RX GAIN */
++		rtw_hal_set_odm_var(padapter, HAL_ODM_INITIAL_GAIN, &initialgain, _FALSE);
++
++	}
++}
++
++void rtw_dump_rx_counters(_adapter *padapter)
++{
++	struct dbg_rx_counter rx_counter;
++
++	if (padapter->dump_rx_cnt_mode & DUMP_DRV_RX_COUNTER) {
++		_rtw_memset(&rx_counter, 0, sizeof(struct dbg_rx_counter));
++		rtw_dump_drv_rx_counters(padapter, &rx_counter);
++		RTW_INFO("Drv Received packet OK:%d CRC error:%d Drop Packets: %d\n",
++			rx_counter.rx_pkt_ok, rx_counter.rx_pkt_crc_error, rx_counter.rx_pkt_drop);
++		rtw_reset_drv_rx_counters(padapter);
++	}
++
++	if (padapter->dump_rx_cnt_mode & DUMP_MAC_RX_COUNTER) {
++		_rtw_memset(&rx_counter, 0, sizeof(struct dbg_rx_counter));
++		rtw_dump_mac_rx_counters(padapter, &rx_counter);
++		RTW_INFO("Mac Received packet OK:%d CRC error:%d FA Counter: %d Drop Packets: %d\n",
++			 rx_counter.rx_pkt_ok, rx_counter.rx_pkt_crc_error,
++			rx_counter.rx_cck_fa + rx_counter.rx_ofdm_fa + rx_counter.rx_ht_fa,
++			 rx_counter.rx_pkt_drop);
++		rtw_reset_mac_rx_counters(padapter);
++	}
++
++	if (padapter->dump_rx_cnt_mode & DUMP_PHY_RX_COUNTER) {
++		_rtw_memset(&rx_counter, 0, sizeof(struct dbg_rx_counter));
++		rtw_dump_phy_rx_counters(padapter, &rx_counter);
++		/* RTW_INFO("%s: OFDM_FA =%d\n", __FUNCTION__, rx_counter.rx_ofdm_fa); */
++		/* RTW_INFO("%s: CCK_FA =%d\n", __FUNCTION__, rx_counter.rx_cck_fa); */
++		RTW_INFO("Phy Received packet OK:%d CRC error:%d FA Counter: %d\n", rx_counter.rx_pkt_ok, rx_counter.rx_pkt_crc_error,
++			 rx_counter.rx_ofdm_fa + rx_counter.rx_cck_fa);
++		rtw_reset_phy_rx_counters(padapter);
++	}
++}
++#endif
++void rtw_get_noise(_adapter *padapter)
++{
++#if defined(CONFIG_SIGNAL_DISPLAY_DBM) && defined(CONFIG_BACKGROUND_NOISE_MONITOR)
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct noise_info info;
++	if (rtw_linked_check(padapter)) {
++		info.bPauseDIG = _TRUE;
++		info.IGIValue = 0x1e;
++		info.max_time = 100;/* ms */
++		info.chan = pmlmeext->cur_channel ;/* rtw_get_oper_ch(padapter); */
++		rtw_ps_deny(padapter, PS_DENY_IOCTL);
++		LeaveAllPowerSaveModeDirect(padapter);
++
++		rtw_hal_set_odm_var(padapter, HAL_ODM_NOISE_MONITOR, &info, _FALSE);
++		/* ODM_InbandNoise_Monitor(podmpriv,_TRUE,0x20,100); */
++		rtw_ps_deny_cancel(padapter, PS_DENY_IOCTL);
++		rtw_hal_get_odm_var(padapter, HAL_ODM_NOISE_MONITOR, &(info.chan), &(padapter->recvpriv.noise));
++#ifdef DBG_NOISE_MONITOR
++		RTW_INFO("chan:%d,noise_level:%d\n", info.chan, padapter->recvpriv.noise);
++#endif
++	}
++#endif
++
++}
++u8 rtw_get_current_tx_sgi(_adapter *padapter, u8 macid)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++	u8 curr_tx_sgi = 0;
++
++#if defined(CONFIG_RTL8188E)
++	curr_tx_sgi = ODM_RA_GetDecisionRate_8188E(pDM_Odm, macid);
++#else
++	curr_tx_sgi = ((pRA_Table->link_tx_rate[macid]) & 0x80) >> 7;
++#endif
++
++	return curr_tx_sgi;
++
++}
++u8 rtw_get_current_tx_rate(_adapter *padapter, u8 macid)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++	u8 rate_id = 0;
++
++#if (RATE_ADAPTIVE_SUPPORT == 1)
++	rate_id = ODM_RA_GetDecisionRate_8188E(pDM_Odm, macid);
++#else
++	rate_id = (pRA_Table->link_tx_rate[macid]) & 0x7f;
++#endif
++
++	return rate_id;
++
++}
++
++void update_IOT_info(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	switch (pmlmeinfo->assoc_AP_vendor) {
++	case HT_IOT_PEER_MARVELL:
++		pmlmeinfo->turboMode_cts2self = 1;
++		pmlmeinfo->turboMode_rtsen = 0;
++		break;
++
++	case HT_IOT_PEER_RALINK:
++		pmlmeinfo->turboMode_cts2self = 0;
++		pmlmeinfo->turboMode_rtsen = 1;
++		/* disable high power			 */
++		rtw_phydm_func_clr(padapter, ODM_BB_DYNAMIC_TXPWR);
++		break;
++	case HT_IOT_PEER_REALTEK:
++		/* rtw_write16(padapter, 0x4cc, 0xffff); */
++		/* rtw_write16(padapter, 0x546, 0x01c0); */
++		/* disable high power			 */
++		rtw_phydm_func_clr(padapter, ODM_BB_DYNAMIC_TXPWR);
++		break;
++	default:
++		pmlmeinfo->turboMode_cts2self = 0;
++		pmlmeinfo->turboMode_rtsen = 1;
++		break;
++	}
++
++}
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++void rtw_acs_start(_adapter *padapter, bool bStart)
++{
++	if (_TRUE == bStart) {
++		ACS_OP acs_op = ACS_INIT;
++
++		rtw_hal_set_odm_var(padapter, HAL_ODM_AUTO_CHNL_SEL, &acs_op, _TRUE);
++		rtw_set_acs_channel(padapter, 0);
++		SET_ACS_STATE(padapter, ACS_ENABLE);
++	} else {
++		SET_ACS_STATE(padapter, ACS_DISABLE);
++#ifdef DBG_AUTO_CHNL_SEL_NHM
++		if (1) {
++			u8 best_24g_ch = 0;
++			u8 best_5g_ch = 0;
++
++			rtw_hal_get_odm_var(padapter, HAL_ODM_AUTO_CHNL_SEL, &(best_24g_ch), &(best_5g_ch));
++			RTW_INFO("[ACS-"ADPT_FMT"] Best 2.4G CH:%u\n", ADPT_ARG(padapter), best_24g_ch);
++			RTW_INFO("[ACS-"ADPT_FMT"] Best 5G CH:%u\n", ADPT_ARG(padapter), best_5g_ch);
++		}
++#endif
++	}
++}
++#endif
++
++/* TODO: merge with phydm, see odm_SetCrystalCap() */
++void hal_set_crystal_cap(_adapter *adapter, u8 crystal_cap)
++{
++	crystal_cap = crystal_cap & 0x3F;
++
++	switch (rtw_get_chip_type(adapter)) {
++#if defined(CONFIG_RTL8188E) || defined(CONFIG_RTL8188F)
++	case RTL8188E:
++	case RTL8188F:
++		/* write 0x24[16:11] = 0x24[22:17] = CrystalCap */
++		PHY_SetBBReg(adapter, REG_AFE_XTAL_CTRL, 0x007FF800, (crystal_cap | (crystal_cap << 6)));
++		break;
++#endif
++#if defined(CONFIG_RTL8812A)
++	case RTL8812:
++		/* write 0x2C[30:25] = 0x2C[24:19] = CrystalCap */
++		PHY_SetBBReg(adapter, REG_MAC_PHY_CTRL, 0x7FF80000, (crystal_cap | (crystal_cap << 6)));
++		break;
++#endif
++#if defined(CONFIG_RTL8723B) || defined(CONFIG_RTL8703B) || \
++		defined(CONFIG_RTL8723D) || defined(CONFIG_RTL8821A) || \
++		defined(CONFIG_RTL8192E)
++	case RTL8723B:
++	case RTL8703B:
++	case RTL8723D:
++	case RTL8821:
++	case RTL8192E:
++		/* write 0x2C[23:18] = 0x2C[17:12] = CrystalCap */
++		PHY_SetBBReg(adapter, REG_MAC_PHY_CTRL, 0x00FFF000, (crystal_cap | (crystal_cap << 6)));
++		break;
++#endif
++#if defined(CONFIG_RTL8814A)
++	case RTL8814A:
++		/* write 0x2C[26:21] = 0x2C[20:15] = CrystalCap*/
++		PHY_SetBBReg(adapter, REG_MAC_PHY_CTRL, 0x07FF8000, (crystal_cap | (crystal_cap << 6)));
++		break;
++#endif
++#if defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++
++	case RTL8822B:
++	case RTL8821C:
++		/* write 0x28[6:1] = 0x24[30:25] = CrystalCap */
++		crystal_cap = crystal_cap & 0x3F;
++		PHY_SetBBReg(adapter, REG_AFE_XTAL_CTRL, 0x7E000000, crystal_cap);
++		PHY_SetBBReg(adapter, REG_AFE_PLL_CTRL, 0x7E, crystal_cap);
++		break;
++#endif
++	default:
++		rtw_warn_on(1);
++	}
++}
++
++int hal_spec_init(_adapter *adapter)
++{
++	u8 interface_type = 0;
++	int ret = _SUCCESS;
++
++	interface_type = rtw_get_intf_type(adapter);
++
++	switch (rtw_get_chip_type(adapter)) {
++#ifdef CONFIG_RTL8723B
++	case RTL8723B:
++		init_hal_spec_8723b(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8703B
++	case RTL8703B:
++		init_hal_spec_8703b(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8723D
++	case RTL8723D:
++		init_hal_spec_8723d(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8188E
++	case RTL8188E:
++		init_hal_spec_8188e(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8188F
++	case RTL8188F:
++		init_hal_spec_8188f(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8812A
++	case RTL8812:
++		init_hal_spec_8812a(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8821A
++	case RTL8821:
++		init_hal_spec_8821a(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8192E
++	case RTL8192E:
++		init_hal_spec_8192e(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8814A
++	case RTL8814A:
++		init_hal_spec_8814a(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8822B
++	case RTL8822B:
++		rtl8822b_init_hal_spec(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8821C
++	case RTL8821C:
++		init_hal_spec_rtl8821c(adapter);
++		break;
++#endif
++	default:
++		RTW_ERR("%s: unknown chip_type:%u\n"
++			, __func__, rtw_get_chip_type(adapter));
++		ret = _FAIL;
++		break;
++	}
++
++	return ret;
++}
++
++static const char *const _band_cap_str[] = {
++	/* BIT0 */"2G",
++	/* BIT1 */"5G",
++};
++
++static const char *const _bw_cap_str[] = {
++	/* BIT0 */"5M",
++	/* BIT1 */"10M",
++	/* BIT2 */"20M",
++	/* BIT3 */"40M",
++	/* BIT4 */"80M",
++	/* BIT5 */"160M",
++	/* BIT6 */"80_80M",
++};
++
++static const char *const _proto_cap_str[] = {
++	/* BIT0 */"b",
++	/* BIT1 */"g",
++	/* BIT2 */"n",
++	/* BIT3 */"ac",
++};
++
++static const char *const _wl_func_str[] = {
++	/* BIT0 */"P2P",
++	/* BIT1 */"MIRACAST",
++	/* BIT2 */"TDLS",
++	/* BIT3 */"FTM",
++};
++
++void dump_hal_spec(void *sel, _adapter *adapter)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	int i;
++
++	RTW_PRINT_SEL(sel, "macid_num:%u\n", hal_spec->macid_num);
++	RTW_PRINT_SEL(sel, "sec_cap:0x%02x\n", hal_spec->sec_cap);
++	RTW_PRINT_SEL(sel, "sec_cam_ent_num:%u\n", hal_spec->sec_cam_ent_num);
++	RTW_PRINT_SEL(sel, "nss_num:%u\n", hal_spec->nss_num);
++
++	RTW_PRINT_SEL(sel, "band_cap:");
++	for (i = 0; i < BAND_CAP_BIT_NUM; i++) {
++		if (((hal_spec->band_cap) >> i) & BIT0 && _band_cap_str[i])
++			_RTW_PRINT_SEL(sel, "%s ", _band_cap_str[i]);
++	}
++	_RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "bw_cap:");
++	for (i = 0; i < BW_CAP_BIT_NUM; i++) {
++		if (((hal_spec->bw_cap) >> i) & BIT0 && _bw_cap_str[i])
++			_RTW_PRINT_SEL(sel, "%s ", _bw_cap_str[i]);
++	}
++	_RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "proto_cap:");
++	for (i = 0; i < PROTO_CAP_BIT_NUM; i++) {
++		if (((hal_spec->proto_cap) >> i) & BIT0 && _proto_cap_str[i])
++			_RTW_PRINT_SEL(sel, "%s ", _proto_cap_str[i]);
++	}
++	_RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "wl_func:");
++	for (i = 0; i < WL_FUNC_BIT_NUM; i++) {
++		if (((hal_spec->wl_func) >> i) & BIT0 && _wl_func_str[i])
++			_RTW_PRINT_SEL(sel, "%s ", _wl_func_str[i]);
++	}
++	_RTW_PRINT_SEL(sel, "\n");
++}
++
++inline bool hal_chk_band_cap(_adapter *adapter, u8 cap)
++{
++	return GET_HAL_SPEC(adapter)->band_cap & cap;
++}
++
++inline bool hal_chk_bw_cap(_adapter *adapter, u8 cap)
++{
++	return GET_HAL_SPEC(adapter)->bw_cap & cap;
++}
++
++inline bool hal_chk_proto_cap(_adapter *adapter, u8 cap)
++{
++	return GET_HAL_SPEC(adapter)->proto_cap & cap;
++}
++
++inline bool hal_chk_wl_func(_adapter *adapter, u8 func)
++{
++	return GET_HAL_SPEC(adapter)->wl_func & func;
++}
++
++inline bool hal_is_band_support(_adapter *adapter, u8 band)
++{
++	return GET_HAL_SPEC(adapter)->band_cap & band_to_band_cap(band);
++}
++
++inline bool hal_is_bw_support(_adapter *adapter, u8 bw)
++{
++	return GET_HAL_SPEC(adapter)->bw_cap & ch_width_to_bw_cap(bw);
++}
++
++inline bool hal_is_wireless_mode_support(_adapter *adapter, u8 mode)
++{
++	u8 proto_cap = GET_HAL_SPEC(adapter)->proto_cap;
++
++	if (mode == WIRELESS_11B)
++		if ((proto_cap & PROTO_CAP_11B) && hal_chk_band_cap(adapter, BAND_CAP_2G))
++			return 1;
++
++	if (mode == WIRELESS_11G)
++		if ((proto_cap & PROTO_CAP_11G) && hal_chk_band_cap(adapter, BAND_CAP_2G))
++			return 1;
++
++	if (mode == WIRELESS_11A)
++		if ((proto_cap & PROTO_CAP_11G) && hal_chk_band_cap(adapter, BAND_CAP_5G))
++			return 1;
++
++	if (mode == WIRELESS_11_24N)
++		if ((proto_cap & PROTO_CAP_11N) && hal_chk_band_cap(adapter, BAND_CAP_2G))
++			return 1;
++
++	if (mode == WIRELESS_11_5N)
++		if ((proto_cap & PROTO_CAP_11N) && hal_chk_band_cap(adapter, BAND_CAP_5G))
++			return 1;
++
++	if (mode == WIRELESS_11AC)
++		if ((proto_cap & PROTO_CAP_11AC) && hal_chk_band_cap(adapter, BAND_CAP_5G))
++			return 1;
++
++	return 0;
++}
++
++/*
++* hal_largest_bw - starting from in_bw, get largest bw supported by HAL
++* @adapter:
++* @in_bw: starting bw, value of CHANNEL_WIDTH
++*
++* Returns: value of CHANNEL_WIDTH
++*/
++u8 hal_largest_bw(_adapter *adapter, u8 in_bw)
++{
++	for (; in_bw > CHANNEL_WIDTH_20; in_bw--) {
++		if (hal_is_bw_support(adapter, in_bw))
++			break;
++	}
++
++	if (!hal_is_bw_support(adapter, in_bw))
++		rtw_warn_on(1);
++
++	return in_bw;
++}
++
++void rtw_hal_correct_tsf(_adapter *padapter, u8 hw_port, u64 tsf)
++{
++	if (hw_port == HW_PORT0) {
++		/*disable related TSF function*/
++		rtw_write8(padapter, REG_BCN_CTRL, rtw_read8(padapter, REG_BCN_CTRL) & (~EN_BCN_FUNCTION));
++
++		rtw_write32(padapter, REG_TSFTR, tsf);
++		rtw_write32(padapter, REG_TSFTR + 4, tsf >> 32);
++
++		/*enable related TSF function*/
++		rtw_write8(padapter, REG_BCN_CTRL, rtw_read8(padapter, REG_BCN_CTRL) | EN_BCN_FUNCTION);
++	} else if (hw_port == HW_PORT1) {
++		/*disable related TSF function*/
++		rtw_write8(padapter, REG_BCN_CTRL_1, rtw_read8(padapter, REG_BCN_CTRL_1) & (~EN_BCN_FUNCTION));
++
++		rtw_write32(padapter, REG_TSFTR1, tsf);
++		rtw_write32(padapter, REG_TSFTR1 + 4, tsf >> 32);
++
++		/*enable related TSF function*/
++		rtw_write8(padapter, REG_BCN_CTRL_1, rtw_read8(padapter, REG_BCN_CTRL_1) | EN_BCN_FUNCTION);
++	} else
++		RTW_INFO("%s-[WARN] "ADPT_FMT" invalid hw_port:%d\n", __func__, ADPT_ARG(padapter), hw_port);
++}
++
++void ResumeTxBeacon(_adapter *padapter)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++
++
++	/* 2010.03.01. Marked by tynli. No need to call workitem beacause we record the value */
++	/* which should be read from register to a global variable. */
++
++
++	pHalData->RegFwHwTxQCtrl |= BIT(6);
++	rtw_write8(padapter, REG_FWHW_TXQ_CTRL + 2, pHalData->RegFwHwTxQCtrl);
++	rtw_write8(padapter, REG_TBTT_PROHIBIT + 1, 0xff);
++	pHalData->RegReg542 |= BIT(0);
++	rtw_write8(padapter, REG_TBTT_PROHIBIT + 2, pHalData->RegReg542);
++}
++
++void StopTxBeacon(_adapter *padapter)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++
++
++	/* 2010.03.01. Marked by tynli. No need to call workitem beacause we record the value */
++	/* which should be read from register to a global variable. */
++
++
++	pHalData->RegFwHwTxQCtrl &= ~BIT(6);
++	rtw_write8(padapter, REG_FWHW_TXQ_CTRL + 2, pHalData->RegFwHwTxQCtrl);
++	rtw_write8(padapter, REG_TBTT_PROHIBIT + 1, 0x64);
++	pHalData->RegReg542 &= ~BIT(0);
++	rtw_write8(padapter, REG_TBTT_PROHIBIT + 2, pHalData->RegReg542);
++
++	/*CheckFwRsvdPageContent(padapter);*/  /* 2010.06.23. Added by tynli. */
++}
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM /*HW port0 - MBSS*/
++void hw_var_set_opmode_mbid(_adapter *Adapter, u8 mode)
++{
++	RTW_INFO("%s()-"ADPT_FMT" mode = %d\n", __func__, ADPT_ARG(Adapter), mode);
++
++	rtw_write32(Adapter, REG_RCR, rtw_read32(Adapter, REG_RCR) & (~(RCR_CBSSID_DATA | RCR_CBSSID_BCN)));
++
++	/* disable Port0 TSF update*/
++	rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL) | DIS_TSF_UDT);
++
++	/* set net_type */
++	Set_MSR(Adapter, mode);
++
++	if ((mode == _HW_STATE_STATION_) || (mode == _HW_STATE_NOLINK_)) {
++		if (!rtw_mi_check_status(Adapter, MI_AP_MODE))
++			StopTxBeacon(Adapter);
++
++		rtw_write8(Adapter, REG_BCN_CTRL, DIS_TSF_UDT | EN_BCN_FUNCTION | DIS_ATIM);/*disable atim wnd*/
++	} else if (mode == _HW_STATE_ADHOC_) {
++		ResumeTxBeacon(Adapter);
++		rtw_write8(Adapter, REG_BCN_CTRL, DIS_TSF_UDT | EN_BCN_FUNCTION | DIS_BCNQ_SUB);
++
++	} else if (mode == _HW_STATE_AP_) {
++		ResumeTxBeacon(Adapter);
++
++		rtw_write8(Adapter, REG_BCN_CTRL, DIS_TSF_UDT | DIS_BCNQ_SUB);
++
++		/*enable to rx data frame*/
++		rtw_write16(Adapter, REG_RXFLTMAP2, 0xFFFF);
++
++		/*Beacon Control related register for first time*/
++		rtw_write8(Adapter, REG_BCNDMATIM, 0x02); /* 2ms */
++
++		/*rtw_write8(Adapter, REG_BCN_MAX_ERR, 0xFF);*/
++		rtw_write8(Adapter, REG_ATIMWND, 0x0a); /* 10ms */
++		rtw_write16(Adapter, REG_BCNTCFG, 0x00);
++		rtw_write16(Adapter, REG_TBTT_PROHIBIT, 0xff04);
++		rtw_write16(Adapter, REG_TSFTR_SYN_OFFSET, 0x7fff);/* +32767 (~32ms) */
++
++		/*reset TSF*/
++		rtw_write8(Adapter, REG_DUAL_TSF_RST, BIT(0));
++
++		/*enable BCN0 Function for if1*/
++		/*don't enable update TSF0 for if1 (due to TSF update when beacon,probe rsp are received)*/
++		rtw_write8(Adapter, REG_BCN_CTRL, (DIS_TSF_UDT | EN_BCN_FUNCTION | EN_TXBCN_RPT | DIS_BCNQ_SUB));
++
++		if (IS_HARDWARE_TYPE_8821(Adapter) || IS_HARDWARE_TYPE_8192E(Adapter))/* select BCN on port 0 for DualBeacon*/
++			rtw_write8(Adapter, REG_CCK_CHECK, rtw_read8(Adapter, REG_CCK_CHECK) & (~BIT_BCN_PORT_SEL));
++
++	}
++
++}
++#endif
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++u8	rtw_hal_antdiv_before_linked(_adapter *padapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	u8 cur_ant, change_ant;
++
++	if (!pHalData->AntDivCfg)
++		return _FALSE;
++
++	if (pHalData->sw_antdiv_bl_state == 0) {
++		pHalData->sw_antdiv_bl_state = 1;
++
++		rtw_hal_get_odm_var(padapter, HAL_ODM_ANTDIV_SELECT, &cur_ant, NULL);
++		change_ant = (cur_ant == MAIN_ANT) ? AUX_ANT : MAIN_ANT;
++
++		return rtw_antenna_select_cmd(padapter, change_ant, _FALSE);
++	}
++
++	pHalData->sw_antdiv_bl_state = 0;
++	return _FALSE;
++}
++
++void	rtw_hal_antdiv_rssi_compared(_adapter *padapter, WLAN_BSSID_EX *dst, WLAN_BSSID_EX *src)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	if (pHalData->AntDivCfg) {
++		/*RTW_INFO("update_network=> org-RSSI(%d), new-RSSI(%d)\n", dst->Rssi, src->Rssi);*/
++		/*select optimum_antenna for before linked =>For antenna diversity*/
++		if (dst->Rssi >=  src->Rssi) {/*keep org parameter*/
++			src->Rssi = dst->Rssi;
++			src->PhyInfo.Optimum_antenna = dst->PhyInfo.Optimum_antenna;
++		}
++	}
++}
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/hal_com_c2h.h b/drivers/net/wireless/rtl8723du/hal/hal_com_c2h.h
+new file mode 100644
+index 0000000..191a00d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/hal_com_c2h.h
+@@ -0,0 +1,103 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __COMMON_C2H_H__
++#define __COMMON_C2H_H__
++
++#define C2H_TYPE_REG 0
++#define C2H_TYPE_PKT 1
++
++/* 
++* C2H event format:
++* Fields    TRIGGER    PAYLOAD    SEQ    PLEN    ID
++* BITS     [127:120]    [119:16]   [15:8]  [7:4]  [3:0]
++*/
++#define C2H_ID(_c2h)		LE_BITS_TO_1BYTE(((u8*)(_c2h)), 0, 4)
++#define C2H_PLEN(_c2h)		LE_BITS_TO_1BYTE(((u8*)(_c2h)), 4, 4)
++#define C2H_SEQ(_c2h)		LE_BITS_TO_1BYTE(((u8*)(_c2h)) + 1, 0, 8)
++#define C2H_PAYLOAD(_c2h)	(((u8*)(_c2h)) + 2)
++
++#define SET_C2H_ID(_c2h, _val)		SET_BITS_TO_LE_1BYTE(((u8*)(_c2h)), 0, 4, _val)
++#define SET_C2H_PLEN(_c2h, _val)	SET_BITS_TO_LE_1BYTE(((u8*)(_c2h)), 4, 4, _val)
++#define SET_C2H_SEQ(_c2h, _val)		SET_BITS_TO_LE_1BYTE(((u8*)(_c2h)) + 1 , 0, 8, _val)
++
++/* 
++* C2H event format:
++* Fields    TRIGGER     PLEN      PAYLOAD    SEQ      ID
++* BITS    [127:120]  [119:112]  [111:16]   [15:8]   [7:0]
++*/
++#define C2H_ID_88XX(_c2h)		LE_BITS_TO_1BYTE(((u8*)(_c2h)), 0, 8)
++#define C2H_SEQ_88XX(_c2h)		LE_BITS_TO_1BYTE(((u8*)(_c2h)) + 1, 0, 8)
++#define C2H_PAYLOAD_88XX(_c2h)	(((u8*)(_c2h)) + 2)
++#define C2H_PLEN_88XX(_c2h)		LE_BITS_TO_1BYTE(((u8*)(_c2h)) + 14, 0, 8)
++#define C2H_TRIGGER_88XX(_c2h)	LE_BITS_TO_1BYTE(((u8*)(_c2h)) + 15, 0, 8)
++
++#define SET_C2H_ID_88XX(_c2h, _val)		SET_BITS_TO_LE_1BYTE(((u8*)(_c2h)), 0, 8, _val)
++#define SET_C2H_SEQ_88XX(_c2h, _val)	SET_BITS_TO_LE_1BYTE(((u8*)(_c2h)) + 1, 0, 8, _val)
++#define SET_C2H_PLEN_88XX(_c2h, _val)	SET_BITS_TO_LE_1BYTE(((u8*)(_c2h)) + 14, 0, 8, _val)
++
++typedef enum _C2H_EVT {
++	C2H_DBG = 0x00,
++	C2H_LB = 0x01,
++	C2H_TXBF = 0x02,
++	C2H_CCX_TX_RPT = 0x03,
++	C2H_FW_SCAN_COMPLETE = 0x7,
++	C2H_BT_INFO = 0x09,
++	C2H_BT_MP_INFO = 0x0B,
++	C2H_RA_RPT = 0x0C,
++	C2H_RA_PARA_RPT = 0x0E,
++	C2H_FW_CHNL_SWITCH_COMPLETE = 0x10,
++	C2H_IQK_FINISH = 0x11,
++	C2H_MAILBOX_STATUS = 0x15,
++	C2H_P2P_RPORT = 0x16,
++	C2H_MCC = 0x17,
++	C2H_MAC_HIDDEN_RPT = 0x19,
++	C2H_MAC_HIDDEN_RPT_2 = 0x1A,
++	C2H_BCN_EARLY_RPT = 0x1E,
++	C2H_DEFEATURE_DBG = 0x22,
++	C2H_DEFEATURE_RSVD = 0xFD,
++	C2H_EXTEND = 0xff,
++} C2H_EVT;
++
++typedef enum _EXTEND_C2H_EVT {
++	EXTEND_C2H_DBG_PRINT = 0
++} EXTEND_C2H_EVT;
++
++#define C2H_REG_LEN 16
++
++/* C2H_IQK_FINISH, 0x11 */
++#define IQK_OFFLOAD_LEN 1
++void c2h_iqk_offload(_adapter *adapter, u8 *data, u8 len);
++int	c2h_iqk_offload_wait(_adapter *adapter, u32 timeout_ms);
++#define rtl8812_iqk_wait c2h_iqk_offload_wait /* TODO: remove this after phydm call c2h_iqk_offload_wait instead */
++
++/* C2H_MAC_HIDDEN_RPT, 0x19 */
++#define MAC_HIDDEN_RPT_LEN 8
++int c2h_mac_hidden_rpt_hdl(_adapter *adapter, u8 *data, u8 len);
++
++/* C2H_MAC_HIDDEN_RPT_2, 0x1A */
++#define MAC_HIDDEN_RPT_2_LEN 5
++int c2h_mac_hidden_rpt_2_hdl(_adapter *adapter, u8 *data, u8 len);
++int hal_read_mac_hidden_rpt(_adapter *adapter);
++
++/* C2H_DEFEATURE_DBG, 0x22 */
++#define DEFEATURE_DBG_LEN 1
++int c2h_defeature_dbg_hdl(_adapter *adapter, u8 *data, u8 len);
++
++#endif /* __COMMON_C2H_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/hal/hal_com_phycfg.c b/drivers/net/wireless/rtl8723du/hal/hal_com_phycfg.c
+new file mode 100644
+index 0000000..8cea370
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/hal_com_phycfg.c
+@@ -0,0 +1,5616 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HAL_COM_PHYCFG_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#define PG_TXPWR_MSB_DIFF_S4BIT(_pg_v) (((_pg_v) & 0xf0) >> 4)
++#define PG_TXPWR_LSB_DIFF_S4BIT(_pg_v) ((_pg_v) & 0x0f)
++#define PG_TXPWR_MSB_DIFF_TO_S8BIT(_pg_v) ((PG_TXPWR_MSB_DIFF_S4BIT(_pg_v) & BIT3) ? (PG_TXPWR_MSB_DIFF_S4BIT(_pg_v) | 0xF0) : PG_TXPWR_MSB_DIFF_S4BIT(_pg_v))
++#define PG_TXPWR_LSB_DIFF_TO_S8BIT(_pg_v) ((PG_TXPWR_LSB_DIFF_S4BIT(_pg_v) & BIT3) ? (PG_TXPWR_LSB_DIFF_S4BIT(_pg_v) | 0xF0) : PG_TXPWR_LSB_DIFF_S4BIT(_pg_v))
++#define IS_PG_TXPWR_BASE_INVALID(_base) ((_base) > 63)
++#define IS_PG_TXPWR_DIFF_INVALID(_diff) ((_diff) > 7 || (_diff) < -8)
++#define PG_TXPWR_INVALID_BASE 255
++#define PG_TXPWR_INVALID_DIFF 8
++
++#if !IS_PG_TXPWR_BASE_INVALID(PG_TXPWR_INVALID_BASE)
++#error "PG_TXPWR_BASE definition has problem"
++#endif
++
++#if !IS_PG_TXPWR_DIFF_INVALID(PG_TXPWR_INVALID_DIFF)
++#error "PG_TXPWR_DIFF definition has problem"
++#endif
++
++#define PG_TXPWR_SRC_PG_DATA	0
++#define PG_TXPWR_SRC_IC_DEF		1
++#define PG_TXPWR_SRC_DEF		2
++#define PG_TXPWR_SRC_NUM		3
++
++const char *const _pg_txpwr_src_str[] = {
++	"PG_DATA",
++	"IC_DEF",
++	"DEF",
++	"UNKNOWN"
++};
++
++#define pg_txpwr_src_str(src) (((src) >= PG_TXPWR_SRC_NUM) ? _pg_txpwr_src_str[PG_TXPWR_SRC_NUM] : _pg_txpwr_src_str[(src)])
++
++#ifndef DBG_PG_TXPWR_READ
++#define DBG_PG_TXPWR_READ 0
++#endif
++
++void dump_pg_txpwr_info_2g(void *sel, TxPowerInfo24G *txpwr_info, u8 rfpath_num, u8 max_tx_cnt)
++{
++	int path, group, tx_idx;
++
++	RTW_PRINT_SEL(sel, "2.4G\n");
++	RTW_PRINT_SEL(sel, "CCK-1T base:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (group = 0; group < MAX_CHNL_GROUP_24G; group++)
++		_RTW_PRINT_SEL(sel, "G%02d ", group);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (group = 0; group < MAX_CHNL_GROUP_24G; group++)
++			_RTW_PRINT_SEL(sel, "%3u ", txpwr_info->IndexCCK_Base[path][group]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "CCK diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++)
++		_RTW_PRINT_SEL(sel, "%dT ", path + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", txpwr_info->CCK_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW40-1S base:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (group = 0; group < MAX_CHNL_GROUP_24G - 1; group++)
++		_RTW_PRINT_SEL(sel, "G%02d ", group);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (group = 0; group < MAX_CHNL_GROUP_24G - 1; group++)
++			_RTW_PRINT_SEL(sel, "%3u ", txpwr_info->IndexBW40_Base[path][group]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "OFDM diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++)
++		_RTW_PRINT_SEL(sel, "%dT ", path + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", txpwr_info->OFDM_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW20 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++)
++		_RTW_PRINT_SEL(sel, "%dS ", path + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", txpwr_info->BW20_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW40 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++)
++		_RTW_PRINT_SEL(sel, "%dS ", path + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", txpwr_info->BW40_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++}
++
++void dump_pg_txpwr_info_5g(void *sel, TxPowerInfo5G *txpwr_info, u8 rfpath_num, u8 max_tx_cnt)
++{
++	int path, group, tx_idx;
++
++	RTW_PRINT_SEL(sel, "5G\n");
++	RTW_PRINT_SEL(sel, "BW40-1S base:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (group = 0; group < MAX_CHNL_GROUP_5G; group++)
++		_RTW_PRINT_SEL(sel, "G%02d ", group);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (group = 0; group < MAX_CHNL_GROUP_5G; group++)
++			_RTW_PRINT_SEL(sel, "%3u ", txpwr_info->IndexBW40_Base[path][group]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "OFDM diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++)
++		_RTW_PRINT_SEL(sel, "%dT ", path + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", txpwr_info->OFDM_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW20 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++)
++		_RTW_PRINT_SEL(sel, "%dS ", path + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", txpwr_info->BW20_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW40 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++)
++		_RTW_PRINT_SEL(sel, "%dS ", path + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", txpwr_info->BW40_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW80 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++)
++		_RTW_PRINT_SEL(sel, "%dS ", path + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", txpwr_info->BW80_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW160 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++)
++		_RTW_PRINT_SEL(sel, "%dS ", path + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", txpwr_info->BW160_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++}
++
++const struct map_t pg_txpwr_def_info =
++	MAP_ENT(0xB8, 1, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 168,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x24, 0xEE, 0xEE, 0xEE, 0xEE,
++			0xEE, 0xEE, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x04, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x24, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x04, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE,
++			0xEE, 0xEE, 0xEE, 0xEE, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x24,
++			0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x2A, 0x2A, 0x2A, 0x2A, 0x04, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0x2D, 0x2D,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x24, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE,
++			0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x04, 0xEE,
++			0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE)
++	);
++
++#ifdef CONFIG_RTL8188E
++static const struct map_t rtl8188e_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 1, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 12,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x24)
++	);
++#endif
++
++#ifdef CONFIG_RTL8188F
++static const struct map_t rtl8188f_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 1, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 12,
++			0x22, 0x22, 0x22, 0x22, 0x22, 0x22, 0x27, 0x27, 0x27, 0x27, 0x27, 0x24)
++	);
++#endif
++
++#ifdef CONFIG_RTL8723B
++static const struct map_t rtl8723b_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 2, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 12,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0xE0)
++		, MAPSEG_ARRAY_ENT(0x3A, 12,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0xE0)
++	);
++#endif
++
++#ifdef CONFIG_RTL8703B
++static const struct map_t rtl8703b_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 1, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 12,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02)
++	);
++#endif
++
++#ifdef CONFIG_RTL8723D
++static const struct map_t rtl8723d_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 2, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 12,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02)
++		, MAPSEG_ARRAY_ENT(0x3A, 12,
++			0x22, 0x22, 0x22, 0x22, 0x22, 0x22, 0x21, 0x21, 0x21, 0x21, 0x21, 0x02)
++	);
++#endif
++
++#ifdef CONFIG_RTL8192E
++static const struct map_t rtl8192e_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 2, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 14,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x24, 0xEE, 0xEE)
++		, MAPSEG_ARRAY_ENT(0x3A, 14,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x24, 0xEE, 0xEE)
++	);
++#endif
++
++#ifdef CONFIG_RTL8821A
++static const struct map_t rtl8821a_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 1, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 39,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x24, 0xFF, 0xFF, 0xFF, 0xFF,
++			0xFF, 0xFF, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x04, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x00)
++	);
++#endif
++
++#ifdef CONFIG_RTL8821C
++static const struct map_t rtl8821c_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 1, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 54,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02, 0xFF, 0xFF, 0xFF, 0xFF, 
++			0xFF, 0xFF, 0x28, 0x28, 0x28, 0x28, 0x28, 0x28, 0x28, 0x28, 0x28, 0x28, 0x28, 0x28, 0x28, 0x28, 
++			0x02, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xEC, 0xFF, 0xFF, 0xFF, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02)
++	);
++#endif
++
++#ifdef CONFIG_RTL8812A
++static const struct map_t rtl8812a_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 1, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 82,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02, 0xEE, 0xEE, 0xFF, 0xFF,
++			0xFF, 0xFF, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x02, 0xEE, 0xFF, 0xFF, 0xEE, 0xFF, 0x00, 0xEE, 0xFF, 0xFF, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02, 0xEE, 0xEE, 0xFF, 0xFF, 0xFF, 0xFF, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x02, 0xEE, 0xFF, 0xFF, 0xEE, 0xFF,
++			0x00, 0xEE)
++	);
++#endif
++
++#ifdef CONFIG_RTL8822B
++static const struct map_t rtl8822b_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 1, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 82,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02, 0xEE, 0xEE, 0xFF, 0xFF,
++			0xFF, 0xFF, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x02, 0xEE, 0xFF, 0xFF, 0xEE, 0xFF, 0xEC, 0xEC, 0xFF, 0xFF, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02, 0xEE, 0xEE, 0xFF, 0xFF, 0xFF, 0xFF, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x02, 0xEE, 0xFF, 0xFF, 0xEE, 0xFF,
++			0xEC, 0xEC)
++	);
++#endif
++
++#ifdef CONFIG_RTL8814A
++static const struct map_t rtl8814a_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 1, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 168,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02, 0xEE, 0xEE, 0xEE, 0xEE,
++			0xEE, 0xEE, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x02, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0x00, 0xEE, 0xEE, 0xEE, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x02, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE,
++			0x00, 0xEE, 0xEE, 0xEE, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02,
++			0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x2A, 0x2A, 0x2A, 0x2A, 0x02, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0x00, 0xEE, 0xEE, 0xEE, 0x2D, 0x2D,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE,
++			0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x02, 0xEE,
++			0xEE, 0xEE, 0xEE, 0xEE, 0x00, 0xEE, 0xEE, 0xEE)
++	);
++#endif
++
++const struct map_t *hal_pg_txpwr_def_info(_adapter *adapter)
++{
++	u8 interface_type = 0;
++	const struct map_t *map = NULL;
++
++	interface_type = rtw_get_intf_type(adapter);
++
++	switch (rtw_get_chip_type(adapter)) {
++#ifdef CONFIG_RTL8723B
++	case RTL8723B:
++		map = &rtl8723b_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8703B
++	case RTL8703B:
++		map = &rtl8703b_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8723D
++	case RTL8723D:
++		map = &rtl8723d_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8188E
++	case RTL8188E:
++		map = &rtl8188e_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8188F
++	case RTL8188F:
++		map = &rtl8188f_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8812A
++	case RTL8812:
++		map = &rtl8812a_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8821A
++	case RTL8821:
++		map = &rtl8821a_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8192E
++	case RTL8192E:
++		map = &rtl8192e_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8814A
++	case RTL8814A:
++		map = &rtl8814a_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8822B
++	case RTL8822B:
++		map = &rtl8822b_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8821C
++	case RTL8821C:
++		map = &rtl8821c_pg_txpwr_def_info;
++		break;
++#endif
++	}
++
++	if (map == NULL) {
++		RTW_ERR("%s: unknown chip_type:%u\n"
++			, __func__, rtw_get_chip_type(adapter));
++		rtw_warn_on(1);
++	}
++
++	return map;
++}
++
++static u8 hal_chk_pg_txpwr_info_2g(_adapter *adapter, TxPowerInfo24G *pwr_info)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	u8 path, group, tx_idx;
++
++	if (pwr_info == NULL || !hal_chk_band_cap(adapter, BAND_CAP_2G))
++		return _SUCCESS;
++
++	for (path = 0; path < MAX_RF_PATH; path++) {
++		if (!HAL_SPEC_CHK_RF_PATH(hal_spec, path))
++			continue;
++		for (group = 0; group < MAX_CHNL_GROUP_24G; group++) {
++			if (IS_PG_TXPWR_BASE_INVALID(pwr_info->IndexCCK_Base[path][group])
++				|| IS_PG_TXPWR_BASE_INVALID(pwr_info->IndexBW40_Base[path][group]))
++				return _FAIL;
++		}
++		for (tx_idx = 0; tx_idx < MAX_TX_COUNT; tx_idx++) {
++			if (!HAL_SPEC_CHK_TX_CNT(hal_spec, tx_idx))
++				continue;
++			if (IS_PG_TXPWR_DIFF_INVALID(pwr_info->CCK_Diff[path][tx_idx])
++				|| IS_PG_TXPWR_DIFF_INVALID(pwr_info->OFDM_Diff[path][tx_idx])
++				|| IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW20_Diff[path][tx_idx])
++				|| IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW40_Diff[path][tx_idx]))
++				return _FAIL;
++		}
++	}
++
++	return _SUCCESS;
++}
++
++static u8 hal_chk_pg_txpwr_info_5g(_adapter *adapter, TxPowerInfo5G *pwr_info)
++{
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	u8 path, group, tx_idx;
++
++	if (pwr_info == NULL || !hal_chk_band_cap(adapter, BAND_CAP_5G))
++		return _SUCCESS;
++
++	for (path = 0; path < MAX_RF_PATH; path++) {
++		if (!HAL_SPEC_CHK_RF_PATH(hal_spec, path))
++			continue;
++		for (group = 0; group < MAX_CHNL_GROUP_5G; group++)
++			if (IS_PG_TXPWR_BASE_INVALID(pwr_info->IndexBW40_Base[path][group]))
++				return _FAIL;
++		for (tx_idx = 0; tx_idx < MAX_TX_COUNT; tx_idx++) {
++			if (!HAL_SPEC_CHK_TX_CNT(hal_spec, tx_idx))
++				continue;
++			if (IS_PG_TXPWR_DIFF_INVALID(pwr_info->OFDM_Diff[path][tx_idx])
++				|| IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW20_Diff[path][tx_idx])
++				|| IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW40_Diff[path][tx_idx])
++				|| IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW80_Diff[path][tx_idx])
++				|| IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW160_Diff[path][tx_idx]))
++				return _FAIL;
++		}
++	}
++#endif /* CONFIG_IEEE80211_BAND_5GHZ */
++	return _SUCCESS;
++}
++
++static inline void hal_init_pg_txpwr_info_2g(_adapter *adapter, TxPowerInfo24G *pwr_info)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	u8 path, group, tx_idx;
++
++	if (pwr_info == NULL)
++		return;
++
++	_rtw_memset(pwr_info, 0, sizeof(TxPowerInfo24G));
++
++	/* init with invalid value */
++	for (path = 0; path < MAX_RF_PATH; path++) {
++		for (group = 0; group < MAX_CHNL_GROUP_24G; group++) {
++			pwr_info->IndexCCK_Base[path][group] = PG_TXPWR_INVALID_BASE;
++			pwr_info->IndexBW40_Base[path][group] = PG_TXPWR_INVALID_BASE;
++		}
++		for (tx_idx = 0; tx_idx < MAX_TX_COUNT; tx_idx++) {
++			pwr_info->CCK_Diff[path][tx_idx] = PG_TXPWR_INVALID_DIFF;
++			pwr_info->OFDM_Diff[path][tx_idx] = PG_TXPWR_INVALID_DIFF;
++			pwr_info->BW20_Diff[path][tx_idx] = PG_TXPWR_INVALID_DIFF;
++			pwr_info->BW40_Diff[path][tx_idx] = PG_TXPWR_INVALID_DIFF;
++		}
++	}
++
++	/* init for dummy base and diff */
++	for (path = 0; path < MAX_RF_PATH; path++) {
++		if (!HAL_SPEC_CHK_RF_PATH(hal_spec, path))
++			break;
++		/* 2.4G BW40 base has 1 less group than CCK base*/
++		pwr_info->IndexBW40_Base[path][MAX_CHNL_GROUP_24G - 1] = 0;
++
++		/* dummy diff */
++		pwr_info->CCK_Diff[path][0] = 0; /* 2.4G CCK-1TX */
++		pwr_info->BW40_Diff[path][0] = 0; /* 2.4G BW40-1S */
++	}
++}
++
++static inline void hal_init_pg_txpwr_info_5g(_adapter *adapter, TxPowerInfo5G *pwr_info)
++{
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	u8 path, group, tx_idx;
++
++	if (pwr_info == NULL)
++		return;
++
++	_rtw_memset(pwr_info, 0, sizeof(TxPowerInfo5G));
++
++	/* init with invalid value */
++	for (path = 0; path < MAX_RF_PATH; path++) {
++		for (group = 0; group < MAX_CHNL_GROUP_5G; group++)
++			pwr_info->IndexBW40_Base[path][group] = PG_TXPWR_INVALID_BASE;
++		for (tx_idx = 0; tx_idx < MAX_TX_COUNT; tx_idx++) {
++			pwr_info->OFDM_Diff[path][tx_idx] = PG_TXPWR_INVALID_DIFF;
++			pwr_info->BW20_Diff[path][tx_idx] = PG_TXPWR_INVALID_DIFF;
++			pwr_info->BW40_Diff[path][tx_idx] = PG_TXPWR_INVALID_DIFF;
++			pwr_info->BW80_Diff[path][tx_idx] = PG_TXPWR_INVALID_DIFF;
++			pwr_info->BW160_Diff[path][tx_idx] = PG_TXPWR_INVALID_DIFF;
++		}
++	}
++
++	for (path = 0; path < MAX_RF_PATH; path++) {
++		if (!HAL_SPEC_CHK_RF_PATH(hal_spec, path))
++			break;
++		/* dummy diff */
++		pwr_info->BW40_Diff[path][0] = 0; /* 5G BW40-1S */
++	}
++#endif /* CONFIG_IEEE80211_BAND_5GHZ */
++}
++
++#if DBG_PG_TXPWR_READ
++#define LOAD_PG_TXPWR_WARN_COND(_txpwr_src) 1
++#else
++#define LOAD_PG_TXPWR_WARN_COND(_txpwr_src) (_txpwr_src > PG_TXPWR_SRC_PG_DATA)
++#endif
++
++u16 hal_load_pg_txpwr_info_path_2g(
++	_adapter *adapter,
++	TxPowerInfo24G	*pwr_info,
++	u32 path,
++	u8 txpwr_src,
++	const struct map_t *txpwr_map,
++	u16 pg_offset)
++{
++#define PG_TXPWR_1PATH_BYTE_NUM_2G 18
++
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	u16 offset = pg_offset;
++	u8 group, tx_idx;
++	u8 val;
++	u8 tmp_base;
++	s8 tmp_diff;
++
++	if (pwr_info == NULL || !hal_chk_band_cap(adapter, BAND_CAP_2G)) {
++		offset += PG_TXPWR_1PATH_BYTE_NUM_2G;
++		goto exit;
++	}
++
++	if (DBG_PG_TXPWR_READ)
++		RTW_INFO("%s [%c] offset:0x%03x\n", __func__, rf_path_char(path), offset);
++
++	for (group = 0; group < MAX_CHNL_GROUP_24G; group++) {
++		if (HAL_SPEC_CHK_RF_PATH(hal_spec, path)) {
++			tmp_base = map_read8(txpwr_map, offset);
++			if (!IS_PG_TXPWR_BASE_INVALID(tmp_base)
++				&& IS_PG_TXPWR_BASE_INVALID(pwr_info->IndexCCK_Base[path][group])
++			) {
++				pwr_info->IndexCCK_Base[path][group] = tmp_base;
++				if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++					RTW_INFO("[%c] 2G G%02d CCK-1T base:%u from %s\n", rf_path_char(path), group, tmp_base, pg_txpwr_src_str(txpwr_src));
++			}
++		}
++		offset++;
++	}
++
++	for (group = 0; group < MAX_CHNL_GROUP_24G - 1; group++) {
++		if (HAL_SPEC_CHK_RF_PATH(hal_spec, path)) {
++			tmp_base = map_read8(txpwr_map, offset);
++			if (!IS_PG_TXPWR_BASE_INVALID(tmp_base)
++				&& IS_PG_TXPWR_BASE_INVALID(pwr_info->IndexBW40_Base[path][group])
++			) {
++				pwr_info->IndexBW40_Base[path][group] =	tmp_base;
++				if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++					RTW_INFO("[%c] 2G G%02d BW40-1S base:%u from %s\n", rf_path_char(path), group, tmp_base, pg_txpwr_src_str(txpwr_src));
++			}
++		}
++		offset++;
++	}
++
++	for (tx_idx = 0; tx_idx < MAX_TX_COUNT; tx_idx++) {
++		if (tx_idx == 0) {
++			if (HAL_SPEC_CHK_RF_PATH(hal_spec, path) && HAL_SPEC_CHK_TX_CNT(hal_spec, tx_idx)) {
++				val = map_read8(txpwr_map, offset);
++				tmp_diff = PG_TXPWR_MSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW20_Diff[path][tx_idx])
++				) {
++					pwr_info->BW20_Diff[path][tx_idx] = tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 2G BW20-%dS diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++				}
++				tmp_diff = PG_TXPWR_LSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->OFDM_Diff[path][tx_idx])
++				) {
++					pwr_info->OFDM_Diff[path][tx_idx] = tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 2G OFDM-%dT diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++				}
++			}
++			offset++;
++		} else {
++			if (HAL_SPEC_CHK_RF_PATH(hal_spec, path) && HAL_SPEC_CHK_TX_CNT(hal_spec, tx_idx)) {
++				val = map_read8(txpwr_map, offset);
++				tmp_diff = PG_TXPWR_MSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW40_Diff[path][tx_idx])
++				) {
++					pwr_info->BW40_Diff[path][tx_idx] = tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 2G BW40-%dS diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++
++				}
++				tmp_diff = PG_TXPWR_LSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW20_Diff[path][tx_idx])
++				) {
++					pwr_info->BW20_Diff[path][tx_idx] = tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 2G BW20-%dS diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++				}
++			}
++			offset++;
++
++			if (HAL_SPEC_CHK_RF_PATH(hal_spec, path) && HAL_SPEC_CHK_TX_CNT(hal_spec, tx_idx)) {
++				val = map_read8(txpwr_map, offset);
++				tmp_diff = PG_TXPWR_MSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->OFDM_Diff[path][tx_idx])
++				) {
++					pwr_info->OFDM_Diff[path][tx_idx] = tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 2G OFDM-%dT diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++				}
++				tmp_diff = PG_TXPWR_LSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->CCK_Diff[path][tx_idx])
++				) {
++					pwr_info->CCK_Diff[path][tx_idx] =	tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 2G CCK-%dT diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++				}
++			}
++			offset++;
++		}
++	}
++
++	if (offset != pg_offset + PG_TXPWR_1PATH_BYTE_NUM_2G) {
++		RTW_ERR("%s parse %d bytes != %d\n", __func__, offset - pg_offset, PG_TXPWR_1PATH_BYTE_NUM_2G);
++		rtw_warn_on(1);
++	}
++
++exit:	
++	return offset;
++}
++
++u16 hal_load_pg_txpwr_info_path_5g(
++	_adapter *adapter,
++	TxPowerInfo5G	*pwr_info,
++	u32 path,
++	u8 txpwr_src,
++	const struct map_t *txpwr_map,
++	u16 pg_offset)
++{
++#define PG_TXPWR_1PATH_BYTE_NUM_5G 24
++
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	u16 offset = pg_offset;
++	u8 group, tx_idx;
++	u8 val;
++	u8 tmp_base;
++	s8 tmp_diff;
++
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	if (pwr_info == NULL || !hal_chk_band_cap(adapter, BAND_CAP_5G))
++#endif
++	{
++		offset += PG_TXPWR_1PATH_BYTE_NUM_5G;
++		goto exit;
++	}
++	
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	if (DBG_PG_TXPWR_READ)
++		RTW_INFO("%s[%c] eaddr:0x%03x\n", __func__, rf_path_char(path), offset);
++
++	for (group = 0; group < MAX_CHNL_GROUP_5G; group++) {
++		if (HAL_SPEC_CHK_RF_PATH(hal_spec, path)) {
++			tmp_base = map_read8(txpwr_map, offset);
++			if (!IS_PG_TXPWR_BASE_INVALID(tmp_base)
++				&& IS_PG_TXPWR_BASE_INVALID(pwr_info->IndexBW40_Base[path][group])
++			) {
++				pwr_info->IndexBW40_Base[path][group] = tmp_base;
++				if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++					RTW_INFO("[%c] 5G G%02d BW40-1S base:%u from %s\n", rf_path_char(path), group, tmp_base, pg_txpwr_src_str(txpwr_src));
++			}
++		}
++		offset++;
++	}
++
++	for (tx_idx = 0; tx_idx < MAX_TX_COUNT; tx_idx++) {
++		if (tx_idx == 0) {
++			if (HAL_SPEC_CHK_RF_PATH(hal_spec, path) && HAL_SPEC_CHK_TX_CNT(hal_spec, tx_idx)) {
++				val = map_read8(txpwr_map, offset);
++				tmp_diff = PG_TXPWR_MSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW20_Diff[path][tx_idx])
++				) {
++					pwr_info->BW20_Diff[path][tx_idx] = tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 5G BW20-%dS diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++				}
++				tmp_diff = PG_TXPWR_LSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->OFDM_Diff[path][tx_idx])
++				) {
++					pwr_info->OFDM_Diff[path][tx_idx] = tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 5G OFDM-%dT diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++				}
++			}
++			offset++;
++		} else {
++			if (HAL_SPEC_CHK_RF_PATH(hal_spec, path) && HAL_SPEC_CHK_TX_CNT(hal_spec, tx_idx)) {
++				val = map_read8(txpwr_map, offset);
++				tmp_diff = PG_TXPWR_MSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW40_Diff[path][tx_idx])
++				) {
++					pwr_info->BW40_Diff[path][tx_idx] = tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 5G BW40-%dS diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++				}
++				tmp_diff = PG_TXPWR_LSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW20_Diff[path][tx_idx])
++				) {
++					pwr_info->BW20_Diff[path][tx_idx] = tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 5G BW20-%dS diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++				}
++			}
++			offset++;
++		}
++	}	
++
++	/* OFDM diff 2T ~ 3T */
++	if (HAL_SPEC_CHK_RF_PATH(hal_spec, path) && HAL_SPEC_CHK_TX_CNT(hal_spec, 1)) {
++		val = map_read8(txpwr_map, offset);
++		tmp_diff = PG_TXPWR_MSB_DIFF_TO_S8BIT(val);
++		if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++			&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->OFDM_Diff[path][1])
++		) {
++			pwr_info->OFDM_Diff[path][1] = tmp_diff;
++			if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++				RTW_INFO("[%c] 5G OFDM-%dT diff:%d from %s\n", rf_path_char(path), 2, tmp_diff, pg_txpwr_src_str(txpwr_src));
++		}
++		if (HAL_SPEC_CHK_TX_CNT(hal_spec, 2)) {
++			tmp_diff = PG_TXPWR_LSB_DIFF_TO_S8BIT(val);
++			if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++				&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->OFDM_Diff[path][2])
++			) {
++				pwr_info->OFDM_Diff[path][2] = tmp_diff;
++				if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++					RTW_INFO("[%c] 5G OFDM-%dT diff:%d from %s\n", rf_path_char(path), 3, tmp_diff, pg_txpwr_src_str(txpwr_src));
++			}
++		}
++	}
++	offset++;
++
++	/* OFDM diff 4T */
++	if (HAL_SPEC_CHK_RF_PATH(hal_spec, path) && HAL_SPEC_CHK_TX_CNT(hal_spec, 3)) {
++		val = map_read8(txpwr_map, offset);
++		tmp_diff = PG_TXPWR_LSB_DIFF_TO_S8BIT(val);
++		if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++			&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->OFDM_Diff[path][3])
++		) {
++			pwr_info->OFDM_Diff[path][3] = tmp_diff;
++			if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++				RTW_INFO("[%c] 5G OFDM-%dT diff:%d from %s\n", rf_path_char(path), 4, tmp_diff, pg_txpwr_src_str(txpwr_src));
++		}
++	}
++	offset++;
++
++	for (tx_idx = 0; tx_idx < MAX_TX_COUNT; tx_idx++) {
++		if (HAL_SPEC_CHK_RF_PATH(hal_spec, path) && HAL_SPEC_CHK_TX_CNT(hal_spec, tx_idx)) {
++			val = map_read8(txpwr_map, offset);
++			tmp_diff = PG_TXPWR_MSB_DIFF_TO_S8BIT(val);
++			if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++				&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW80_Diff[path][tx_idx])
++			) {
++				pwr_info->BW80_Diff[path][tx_idx] = tmp_diff;
++				if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++					RTW_INFO("[%c] 5G BW80-%dS diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++			}
++			tmp_diff = PG_TXPWR_LSB_DIFF_TO_S8BIT(val);
++			if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++				&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW160_Diff[path][tx_idx])
++			) {
++				pwr_info->BW160_Diff[path][tx_idx] = tmp_diff;
++				if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++					RTW_INFO("[%c] 5G BW160-%dS diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++			}
++		}
++		offset++;
++	}
++
++	if (offset != pg_offset + PG_TXPWR_1PATH_BYTE_NUM_5G) {
++		RTW_ERR("%s parse %d bytes != %d\n", __func__, offset - pg_offset, PG_TXPWR_1PATH_BYTE_NUM_5G);
++		rtw_warn_on(1);
++	}
++
++#endif /* #ifdef CONFIG_IEEE80211_BAND_5GHZ */
++
++exit:
++	return offset;
++}
++
++void hal_load_pg_txpwr_info(
++	_adapter *adapter,
++	TxPowerInfo24G *pwr_info_2g,
++	TxPowerInfo5G *pwr_info_5g,
++	u8 *pg_data,
++	BOOLEAN AutoLoadFail
++)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	u8 path;
++	u16 pg_offset;
++	u8 txpwr_src = PG_TXPWR_SRC_PG_DATA;
++	struct map_t pg_data_map = MAP_ENT(184, 1, 0xFF, MAPSEG_PTR_ENT(0x00, 184, pg_data));
++	const struct map_t *txpwr_map = NULL;
++
++	/* init with invalid value and some dummy base and diff */
++	hal_init_pg_txpwr_info_2g(adapter, pwr_info_2g);
++	hal_init_pg_txpwr_info_5g(adapter, pwr_info_5g);
++
++select_src:
++	pg_offset = 0x10;
++
++	switch (txpwr_src) {
++	case PG_TXPWR_SRC_PG_DATA:
++		txpwr_map = &pg_data_map;
++		break;
++	case PG_TXPWR_SRC_IC_DEF:
++		txpwr_map = hal_pg_txpwr_def_info(adapter);
++		break;
++	case PG_TXPWR_SRC_DEF:
++	default:
++		txpwr_map = &pg_txpwr_def_info;
++		break;
++	};
++
++	if (txpwr_map == NULL)
++		goto end_parse;
++
++	for (path = 0; path < MAX_RF_PATH ; path++) {
++		if (!HAL_SPEC_CHK_RF_PATH(hal_spec, path))
++			break;
++		pg_offset = hal_load_pg_txpwr_info_path_2g(adapter, pwr_info_2g, path, txpwr_src, txpwr_map, pg_offset);
++		pg_offset = hal_load_pg_txpwr_info_path_5g(adapter, pwr_info_5g, path, txpwr_src, txpwr_map, pg_offset);
++	}
++
++	if (hal_chk_pg_txpwr_info_2g(adapter, pwr_info_2g) == _SUCCESS
++		&& hal_chk_pg_txpwr_info_5g(adapter, pwr_info_5g) == _SUCCESS)
++		goto exit;
++
++end_parse:
++	txpwr_src++;
++	if (txpwr_src < PG_TXPWR_SRC_NUM)
++		goto select_src;
++
++	if (hal_chk_pg_txpwr_info_2g(adapter, pwr_info_2g) != _SUCCESS
++		|| hal_chk_pg_txpwr_info_5g(adapter, pwr_info_5g) != _SUCCESS)
++		rtw_warn_on(1);
++
++exit:
++	if (DBG_PG_TXPWR_READ) {
++		if (pwr_info_2g)
++			dump_pg_txpwr_info_2g(RTW_DBGDUMP, pwr_info_2g, 4, 4);
++		if (pwr_info_5g)
++			dump_pg_txpwr_info_5g(RTW_DBGDUMP, pwr_info_5g, 4, 4);
++	}
++
++	return;
++}
++
++void hal_load_txpwr_info(
++	_adapter *adapter,
++	TxPowerInfo24G *pwr_info_2g,
++	TxPowerInfo5G *pwr_info_5g,
++	u8 *pg_data
++)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	u8 rfpath_num = hal_spec->rfpath_num;
++	u8 max_tx_cnt = hal_spec->max_tx_cnt;
++	u8 rfpath, ch_idx, group, tx_idx;
++
++	/* load from pg data (or default value) */
++	hal_load_pg_txpwr_info(adapter, pwr_info_2g, pwr_info_5g, pg_data, _FALSE);
++
++	/* transform to hal_data */
++	for (rfpath = 0; rfpath < MAX_RF_PATH; rfpath++) {
++		if (rfpath >= rfpath_num)
++			break;
++
++		if (!pwr_info_2g)
++			continue;
++
++		/* 2.4G base */
++		for (ch_idx = 0; ch_idx < CENTER_CH_2G_NUM; ch_idx++) {
++			u8 cck_group;
++
++			if (rtw_get_ch_group(ch_idx + 1, &group, &cck_group) != BAND_ON_2_4G)
++				continue;
++
++			hal_data->Index24G_CCK_Base[rfpath][ch_idx] = pwr_info_2g->IndexCCK_Base[rfpath][cck_group];
++			hal_data->Index24G_BW40_Base[rfpath][ch_idx] = pwr_info_2g->IndexBW40_Base[rfpath][group];
++		}
++
++		/* 2.4G diff */
++		for (tx_idx = 0; tx_idx < MAX_TX_COUNT; tx_idx++) {
++			if (tx_idx >= max_tx_cnt)
++				break;
++
++			hal_data->CCK_24G_Diff[rfpath][tx_idx] = pwr_info_2g->CCK_Diff[rfpath][tx_idx];
++			hal_data->OFDM_24G_Diff[rfpath][tx_idx] = pwr_info_2g->OFDM_Diff[rfpath][tx_idx];
++			hal_data->BW20_24G_Diff[rfpath][tx_idx] = pwr_info_2g->BW20_Diff[rfpath][tx_idx];
++			hal_data->BW40_24G_Diff[rfpath][tx_idx] = pwr_info_2g->BW40_Diff[rfpath][tx_idx];
++		}
++
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++		if (!pwr_info_5g)
++			continue;
++
++		/* 5G base */
++		for (ch_idx = 0; ch_idx < CENTER_CH_5G_ALL_NUM; ch_idx++) {
++			if (rtw_get_ch_group(center_ch_5g_all[ch_idx], &group, NULL) != BAND_ON_5G)
++				continue;
++			hal_data->Index5G_BW40_Base[rfpath][ch_idx] = pwr_info_5g->IndexBW40_Base[rfpath][group];
++		}
++
++		for (ch_idx = 0 ; ch_idx < CENTER_CH_5G_80M_NUM; ch_idx++) {
++			u8 upper, lower;
++
++			if (rtw_get_ch_group(center_ch_5g_80m[ch_idx], &group, NULL) != BAND_ON_5G)
++				continue;
++
++			upper = pwr_info_5g->IndexBW40_Base[rfpath][group];
++			lower = pwr_info_5g->IndexBW40_Base[rfpath][group + 1];
++			hal_data->Index5G_BW80_Base[rfpath][ch_idx] = (upper + lower) / 2;
++		}
++
++		/* 5G diff */
++		for (tx_idx = 0; tx_idx < MAX_TX_COUNT; tx_idx++) {
++			if (tx_idx >= max_tx_cnt)
++				break;
++
++			hal_data->OFDM_5G_Diff[rfpath][tx_idx] = pwr_info_5g->OFDM_Diff[rfpath][tx_idx];
++			hal_data->BW20_5G_Diff[rfpath][tx_idx] = pwr_info_5g->BW20_Diff[rfpath][tx_idx];
++			hal_data->BW40_5G_Diff[rfpath][tx_idx] = pwr_info_5g->BW40_Diff[rfpath][tx_idx];
++			hal_data->BW80_5G_Diff[rfpath][tx_idx] = pwr_info_5g->BW80_Diff[rfpath][tx_idx];
++		}
++#endif /* CONFIG_IEEE80211_BAND_5GHZ */
++	}
++}
++
++void dump_hal_txpwr_info_2g(void *sel, _adapter *adapter, u8 rfpath_num, u8 max_tx_cnt)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	int path, ch_idx, tx_idx;
++
++	RTW_PRINT_SEL(sel, "2.4G\n");
++	RTW_PRINT_SEL(sel, "CCK-1T base:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (ch_idx = 0; ch_idx < CENTER_CH_2G_NUM; ch_idx++)
++		_RTW_PRINT_SEL(sel, "%2d ", center_ch_2g[ch_idx]);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (ch_idx = 0; ch_idx < CENTER_CH_2G_NUM; ch_idx++)
++			_RTW_PRINT_SEL(sel, "%2u ", hal_data->Index24G_CCK_Base[path][ch_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "CCK diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++		_RTW_PRINT_SEL(sel, "%dT ", tx_idx + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", hal_data->CCK_24G_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW40-1S base:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (ch_idx = 0; ch_idx < CENTER_CH_2G_NUM; ch_idx++)
++		_RTW_PRINT_SEL(sel, "%2d ", center_ch_2g[ch_idx]);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (ch_idx = 0; ch_idx < CENTER_CH_2G_NUM; ch_idx++)
++			_RTW_PRINT_SEL(sel, "%2u ", hal_data->Index24G_BW40_Base[path][ch_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "OFDM diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++		_RTW_PRINT_SEL(sel, "%dT ", tx_idx + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", hal_data->OFDM_24G_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW20 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++		_RTW_PRINT_SEL(sel, "%dS ", tx_idx + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", hal_data->BW20_24G_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW40 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++		_RTW_PRINT_SEL(sel, "%dS ", tx_idx + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", hal_data->BW40_24G_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++}
++
++void dump_hal_txpwr_info_5g(void *sel, _adapter *adapter, u8 rfpath_num, u8 max_tx_cnt)
++{
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	int path, ch_idx, tx_idx;
++	u8 dump_section = 0;
++	u8 ch_idx_s = 0;
++
++	RTW_PRINT_SEL(sel, "5G\n");
++	RTW_PRINT_SEL(sel, "BW40-1S base:\n");
++	do {
++		#define DUMP_5G_BW40_BASE_SECTION_NUM 3
++		u8 end[DUMP_5G_BW40_BASE_SECTION_NUM] = {64, 144, 177};
++
++		RTW_PRINT_SEL(sel, "%4s ", "");
++		for (ch_idx = ch_idx_s; ch_idx < CENTER_CH_5G_ALL_NUM; ch_idx++) {
++			_RTW_PRINT_SEL(sel, "%3d ", center_ch_5g_all[ch_idx]);
++			if (end[dump_section] == center_ch_5g_all[ch_idx])
++				break;
++		}
++		_RTW_PRINT_SEL(sel, "\n");
++		for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++			RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++			for (ch_idx = ch_idx_s; ch_idx < CENTER_CH_5G_ALL_NUM; ch_idx++) {
++				_RTW_PRINT_SEL(sel, "%3u ", hal_data->Index5G_BW40_Base[path][ch_idx]);
++				if (end[dump_section] == center_ch_5g_all[ch_idx])
++					break;
++			}
++			_RTW_PRINT_SEL(sel, "\n");
++		}
++		RTW_PRINT_SEL(sel, "\n");
++
++		ch_idx_s = ch_idx + 1;
++		dump_section++;
++		if (dump_section >= DUMP_5G_BW40_BASE_SECTION_NUM)
++			break;
++	} while (1);
++
++	RTW_PRINT_SEL(sel, "BW80-1S base:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (ch_idx = 0; ch_idx < CENTER_CH_5G_80M_NUM; ch_idx++)
++		_RTW_PRINT_SEL(sel, "%3d ", center_ch_5g_80m[ch_idx]);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (ch_idx = 0; ch_idx < CENTER_CH_5G_80M_NUM; ch_idx++)
++			_RTW_PRINT_SEL(sel, "%3u ", hal_data->Index5G_BW80_Base[path][ch_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "OFDM diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++		_RTW_PRINT_SEL(sel, "%dT ", tx_idx + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", hal_data->OFDM_5G_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW20 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++		_RTW_PRINT_SEL(sel, "%dS ", tx_idx + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", hal_data->BW20_5G_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW40 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++		_RTW_PRINT_SEL(sel, "%dS ", tx_idx + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", hal_data->BW40_5G_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW80 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++		_RTW_PRINT_SEL(sel, "%dS ", tx_idx + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", hal_data->BW80_5G_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++#endif /* CONFIG_IEEE80211_BAND_5GHZ */
++}
++
++/*
++* rtw_regsty_get_target_tx_power -
++*
++* Return dBm or -1 for undefined
++*/
++s8 rtw_regsty_get_target_tx_power(
++	IN	PADAPTER		Adapter,
++	IN	u8				Band,
++	IN	u8				RfPath,
++	IN	RATE_SECTION	RateSection
++)
++{
++	struct registry_priv *regsty = adapter_to_regsty(Adapter);
++	s8 value = 0;
++
++	if (RfPath > RF_PATH_D) {
++		RTW_PRINT("%s invalid RfPath:%d\n", __func__, RfPath);
++		return -1;
++	}
++
++	if (Band != BAND_ON_2_4G
++		#ifdef CONFIG_IEEE80211_BAND_5GHZ
++		&& Band != BAND_ON_5G
++		#endif
++	) {
++		RTW_PRINT("%s invalid Band:%d\n", __func__, Band);
++		return -1;
++	}
++
++	if (RateSection >= RATE_SECTION_NUM
++		#ifdef CONFIG_IEEE80211_BAND_5GHZ
++		|| (Band == BAND_ON_5G && RateSection == CCK)
++		#endif
++	) {
++		RTW_PRINT("%s invalid RateSection:%d in Band:%d, RfPath:%d\n", __func__
++			, RateSection, Band, RfPath);
++		return -1;
++	}
++
++	if (Band == BAND_ON_2_4G)
++		value = regsty->target_tx_pwr_2g[RfPath][RateSection];
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	else /* BAND_ON_5G */
++		value = regsty->target_tx_pwr_5g[RfPath][RateSection - 1];
++#endif
++
++	return value;
++}
++
++bool rtw_regsty_chk_target_tx_power_valid(_adapter *adapter)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	int path, tx_num, band, rs;
++	s8 target;
++
++	for (band = BAND_ON_2_4G; band <= BAND_ON_5G; band++) {
++		if (!hal_is_band_support(adapter, band))
++			continue;
++
++		for (path = 0; path < RF_PATH_MAX; path++) {
++			if (path >= hal_data->NumTotalRFPath)
++				break;
++
++			for (rs = 0; rs < RATE_SECTION_NUM; rs++) {
++				tx_num = rate_section_to_tx_num(rs);
++				if (tx_num >= hal_spec->nss_num)
++					continue;
++
++				if (band == BAND_ON_5G && IS_CCK_RATE_SECTION(rs))
++					continue;
++
++				if (IS_VHT_RATE_SECTION(rs) && !IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(adapter))
++					continue;
++
++				target = rtw_regsty_get_target_tx_power(adapter, band, path, rs);
++				if (target == -1) {
++					RTW_PRINT("%s return _FALSE for band:%d, path:%d, rs:%d, t:%d\n", __func__, band, path, rs, target);
++					return _FALSE;
++				}
++			}
++		}
++	}
++
++	return _TRUE;
++}
++
++/*
++* PHY_GetTxPowerByRateBase -
++*
++* Return 2 times of dBm
++*/
++u8
++PHY_GetTxPowerByRateBase(
++	IN	PADAPTER		Adapter,
++	IN	u8				Band,
++	IN	u8				RfPath,
++	IN	u8				TxNum,
++	IN	RATE_SECTION	RateSection
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	u8 value = 0;
++
++	if (RfPath > RF_PATH_D) {
++		RTW_PRINT("%s invalid RfPath:%d\n", __func__, RfPath);
++		return 0;
++	}
++
++	if (Band != BAND_ON_2_4G && Band != BAND_ON_5G) {
++		RTW_PRINT("%s invalid Band:%d\n", __func__, Band);
++		return 0;
++	}
++
++	if (RateSection >= RATE_SECTION_NUM
++		|| (Band == BAND_ON_5G && RateSection == CCK)
++	) {
++		RTW_PRINT("%s invalid RateSection:%d in Band:%d, RfPath:%d, TxNum:%d\n", __func__
++			, RateSection, Band, RfPath, TxNum);
++		return 0;
++	}
++
++	if (Band == BAND_ON_2_4G)
++		value = pHalData->TxPwrByRateBase2_4G[RfPath][TxNum][RateSection];
++	else /* BAND_ON_5G */
++		value = pHalData->TxPwrByRateBase5G[RfPath][TxNum][RateSection - 1];
++
++	return value;
++}
++
++VOID
++phy_SetTxPowerByRateBase(
++	IN	PADAPTER		Adapter,
++	IN	u8				Band,
++	IN	u8				RfPath,
++	IN	RATE_SECTION	RateSection,
++	IN	u8				TxNum,
++	IN	u8				Value
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++
++	if (RfPath > RF_PATH_D) {
++		RTW_PRINT("%s invalid RfPath:%d\n", __func__, RfPath);
++		return;
++	}
++
++	if (Band != BAND_ON_2_4G && Band != BAND_ON_5G) {
++		RTW_PRINT("%s invalid Band:%d\n", __func__, Band);
++		return;
++	}
++
++	if (RateSection >= RATE_SECTION_NUM
++		|| (Band == BAND_ON_5G && RateSection == CCK)
++	) {
++		RTW_PRINT("%s invalid RateSection:%d in %sG, RfPath:%d, TxNum:%d\n", __func__
++			, RateSection, (Band == BAND_ON_2_4G) ? "2.4" : "5", RfPath, TxNum);
++		return;
++	}
++
++	if (Band == BAND_ON_2_4G)
++		pHalData->TxPwrByRateBase2_4G[RfPath][TxNum][RateSection] = Value;
++	else /* BAND_ON_5G */
++		pHalData->TxPwrByRateBase5G[RfPath][TxNum][RateSection - 1] = Value;
++}
++
++#ifdef TX_POWER_BY_RATE_OLD
++VOID
++phy_StoreTxPowerByRateBaseOld(
++	IN	PADAPTER	pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u16			rawValue = 0;
++	u8			base = 0;
++	u8			path = 0;
++
++	rawValue = (u16)(pHalData->MCSTxPowerLevelOriginalOffset[0][7] >> 8) & 0xFF;
++	base = (rawValue >> 4) * 10 + (rawValue & 0xF);
++	phy_SetTxPowerByRateBase(pAdapter, BAND_ON_2_4G, ODM_RF_PATH_A, CCK, RF_1TX, base);
++
++	rawValue = (u16)(pHalData->MCSTxPowerLevelOriginalOffset[0][1] >> 24) & 0xFF;
++	base = (rawValue >> 4) * 10 + (rawValue & 0xF);
++	phy_SetTxPowerByRateBase(pAdapter, BAND_ON_2_4G, ODM_RF_PATH_A, OFDM, RF_1TX, base);
++
++	rawValue = (u16)(pHalData->MCSTxPowerLevelOriginalOffset[0][3] >> 24) & 0xFF;
++	base = (rawValue >> 4) * 10 + (rawValue & 0xF);
++	phy_SetTxPowerByRateBase(pAdapter, BAND_ON_2_4G, ODM_RF_PATH_A, HT_MCS0_MCS7, RF_1TX, base);
++
++	rawValue = (u16)(pHalData->MCSTxPowerLevelOriginalOffset[0][5] >> 24) & 0xFF;
++	base = (rawValue >> 4) * 10 + (rawValue & 0xF);
++	phy_SetTxPowerByRateBase(pAdapter, BAND_ON_2_4G, ODM_RF_PATH_A, HT_MCS8_MCS15, RF_2TX, base);
++
++	rawValue = (u16)(pHalData->MCSTxPowerLevelOriginalOffset[0][7] & 0xFF);
++	base = (rawValue >> 4) * 10 + (rawValue & 0xF);
++	phy_SetTxPowerByRateBase(pAdapter, BAND_ON_2_4G, ODM_RF_PATH_B, CCK, RF_1TX, base);
++
++	rawValue = (u16)(pHalData->MCSTxPowerLevelOriginalOffset[0][9] >> 24) & 0xFF;
++	base = (rawValue >> 4) * 10 + (rawValue & 0xF);
++	phy_SetTxPowerByRateBase(pAdapter, BAND_ON_2_4G, ODM_RF_PATH_B, OFDM, RF_1TX, base);
++
++	rawValue = (u16)(pHalData->MCSTxPowerLevelOriginalOffset[0][11] >> 24) & 0xFF;
++	base = (rawValue >> 4) * 10 + (rawValue & 0xF);
++	phy_SetTxPowerByRateBase(pAdapter, BAND_ON_2_4G, ODM_RF_PATH_B, HT_MCS0_MCS7, RF_1TX, base);
++
++	rawValue = (u16)(pHalData->MCSTxPowerLevelOriginalOffset[0][13] >> 24) & 0xFF;
++	base = (rawValue >> 4) * 10 + (rawValue & 0xF);
++	phy_SetTxPowerByRateBase(pAdapter, BAND_ON_2_4G, ODM_RF_PATH_B, HT_MCS8_MCS15, RF_2TX, base);
++}
++#endif /* TX_POWER_BY_RATE_OLD */
++
++VOID
++phy_StoreTxPowerByRateBase(
++	IN	PADAPTER	pAdapter
++)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(pAdapter);
++	struct registry_priv *regsty = adapter_to_regsty(pAdapter);
++
++	u8 rate_sec_base[RATE_SECTION_NUM] = {
++		MGN_11M,
++		MGN_54M,
++		MGN_MCS7,
++		MGN_MCS15,
++		MGN_MCS23,
++		MGN_MCS31,
++		MGN_VHT1SS_MCS7,
++		MGN_VHT2SS_MCS7,
++		MGN_VHT3SS_MCS7,
++		MGN_VHT4SS_MCS7,
++	};
++
++	u8 band, path, rs, tx_num, base, index;
++
++	for (band = BAND_ON_2_4G; band <= BAND_ON_5G; band++) {
++		if (!hal_is_band_support(pAdapter, band))
++			continue;
++
++		for (path = RF_PATH_A; path < RF_PATH_MAX; path++) {
++			/* TODO: 8814A's NumTotalRFPath differs at probe(3) and up(4), need fixed
++			if (path >= hal_data->NumTotalRFPath)
++				break;
++			*/
++
++			for (rs = 0; rs < RATE_SECTION_NUM; rs++) {
++				tx_num = rate_section_to_tx_num(rs);
++				if (tx_num >= hal_spec->nss_num)
++					continue;
++
++				if (band == BAND_ON_5G && IS_CCK_RATE_SECTION(rs))
++					continue;
++
++				if (IS_VHT_RATE_SECTION(rs) && !IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(pAdapter))
++					continue;
++
++				if (regsty->target_tx_pwr_valid == _TRUE)
++					base = 2 * rtw_regsty_get_target_tx_power(pAdapter, band, path, rs);
++				else
++					base = _PHY_GetTxPowerByRate(pAdapter, band, path, tx_num, rate_sec_base[rs]);
++				phy_SetTxPowerByRateBase(pAdapter, band, path, rs, tx_num, base);
++			}
++		}
++	}
++}
++
++#ifdef TX_POWER_BY_RATE_OLD
++u8
++PHY_GetRateSectionIndexOfTxPowerByRate(
++	IN	PADAPTER	pAdapter,
++	IN	u32			RegAddr,
++	IN	u32			BitMask
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	u8			index = 0;
++
++	if (pDM_Odm->PhyRegPgVersion == 0) {
++		switch (RegAddr) {
++		case rTxAGC_A_Rate18_06:
++			index = 0;
++			break;
++		case rTxAGC_A_Rate54_24:
++			index = 1;
++			break;
++		case rTxAGC_A_CCK1_Mcs32:
++			index = 6;
++			break;
++		case rTxAGC_B_CCK11_A_CCK2_11:
++			if (BitMask == bMaskH3Bytes)
++				index = 7;
++			else if (BitMask == 0x000000ff)
++				index = 15;
++			break;
++
++		case rTxAGC_A_Mcs03_Mcs00:
++			index = 2;
++			break;
++		case rTxAGC_A_Mcs07_Mcs04:
++			index = 3;
++			break;
++		case rTxAGC_A_Mcs11_Mcs08:
++			index = 4;
++			break;
++		case rTxAGC_A_Mcs15_Mcs12:
++			index = 5;
++			break;
++		case rTxAGC_B_Rate18_06:
++			index = 8;
++			break;
++		case rTxAGC_B_Rate54_24:
++			index = 9;
++			break;
++		case rTxAGC_B_CCK1_55_Mcs32:
++			index = 14;
++			break;
++		case rTxAGC_B_Mcs03_Mcs00:
++			index = 10;
++			break;
++		case rTxAGC_B_Mcs07_Mcs04:
++			index = 11;
++			break;
++		case rTxAGC_B_Mcs11_Mcs08:
++			index = 12;
++			break;
++		case rTxAGC_B_Mcs15_Mcs12:
++			index = 13;
++			break;
++		default:
++			RTW_INFO("Invalid RegAddr 0x3%x in PHY_GetRateSectionIndexOfTxPowerByRate()", RegAddr);
++			break;
++		};
++	}
++
++	return index;
++}
++#endif /* TX_POWER_BY_RATE_OLD */
++
++VOID
++PHY_GetRateValuesOfTxPowerByRate(
++	IN	PADAPTER pAdapter,
++	IN	u32 RegAddr,
++	IN	u32 BitMask,
++	IN	u32 Value,
++	OUT	u8 *Rate,
++	OUT	s8 *PwrByRateVal,
++	OUT	u8 *RateNum
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	u8				index = 0, i = 0;
++
++	switch (RegAddr) {
++	case rTxAGC_A_Rate18_06:
++	case rTxAGC_B_Rate18_06:
++		Rate[0] = MGN_6M;
++		Rate[1] = MGN_9M;
++		Rate[2] = MGN_12M;
++		Rate[3] = MGN_18M;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case rTxAGC_A_Rate54_24:
++	case rTxAGC_B_Rate54_24:
++		Rate[0] = MGN_24M;
++		Rate[1] = MGN_36M;
++		Rate[2] = MGN_48M;
++		Rate[3] = MGN_54M;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case rTxAGC_A_CCK1_Mcs32:
++		Rate[0] = MGN_1M;
++		PwrByRateVal[0] = (s8)((((Value >> (8 + 4)) & 0xF)) * 10 +
++				       ((Value >> 8) & 0xF));
++		*RateNum = 1;
++		break;
++
++	case rTxAGC_B_CCK11_A_CCK2_11:
++		if (BitMask == 0xffffff00) {
++			Rate[0] = MGN_2M;
++			Rate[1] = MGN_5_5M;
++			Rate[2] = MGN_11M;
++			for (i = 1; i < 4; ++i) {
++				PwrByRateVal[i - 1] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++						   ((Value >> (i * 8)) & 0xF));
++			}
++			*RateNum = 3;
++		} else if (BitMask == 0x000000ff) {
++			Rate[0] = MGN_11M;
++			PwrByRateVal[0] = (s8)((((Value >> 4) & 0xF)) * 10 +
++					       (Value & 0xF));
++			*RateNum = 1;
++		}
++		break;
++
++	case rTxAGC_A_Mcs03_Mcs00:
++	case rTxAGC_B_Mcs03_Mcs00:
++		Rate[0] = MGN_MCS0;
++		Rate[1] = MGN_MCS1;
++		Rate[2] = MGN_MCS2;
++		Rate[3] = MGN_MCS3;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case rTxAGC_A_Mcs07_Mcs04:
++	case rTxAGC_B_Mcs07_Mcs04:
++		Rate[0] = MGN_MCS4;
++		Rate[1] = MGN_MCS5;
++		Rate[2] = MGN_MCS6;
++		Rate[3] = MGN_MCS7;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case rTxAGC_A_Mcs11_Mcs08:
++	case rTxAGC_B_Mcs11_Mcs08:
++		Rate[0] = MGN_MCS8;
++		Rate[1] = MGN_MCS9;
++		Rate[2] = MGN_MCS10;
++		Rate[3] = MGN_MCS11;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case rTxAGC_A_Mcs15_Mcs12:
++	case rTxAGC_B_Mcs15_Mcs12:
++		Rate[0] = MGN_MCS12;
++		Rate[1] = MGN_MCS13;
++		Rate[2] = MGN_MCS14;
++		Rate[3] = MGN_MCS15;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++
++		break;
++
++	case rTxAGC_B_CCK1_55_Mcs32:
++		Rate[0] = MGN_1M;
++		Rate[1] = MGN_2M;
++		Rate[2] = MGN_5_5M;
++		for (i = 1; i < 4; ++i) {
++			PwrByRateVal[i - 1] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++						   ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 3;
++		break;
++
++	case 0xC20:
++	case 0xE20:
++	case 0x1820:
++	case 0x1a20:
++		Rate[0] = MGN_1M;
++		Rate[1] = MGN_2M;
++		Rate[2] = MGN_5_5M;
++		Rate[3] = MGN_11M;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC24:
++	case 0xE24:
++	case 0x1824:
++	case 0x1a24:
++		Rate[0] = MGN_6M;
++		Rate[1] = MGN_9M;
++		Rate[2] = MGN_12M;
++		Rate[3] = MGN_18M;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC28:
++	case 0xE28:
++	case 0x1828:
++	case 0x1a28:
++		Rate[0] = MGN_24M;
++		Rate[1] = MGN_36M;
++		Rate[2] = MGN_48M;
++		Rate[3] = MGN_54M;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC2C:
++	case 0xE2C:
++	case 0x182C:
++	case 0x1a2C:
++		Rate[0] = MGN_MCS0;
++		Rate[1] = MGN_MCS1;
++		Rate[2] = MGN_MCS2;
++		Rate[3] = MGN_MCS3;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC30:
++	case 0xE30:
++	case 0x1830:
++	case 0x1a30:
++		Rate[0] = MGN_MCS4;
++		Rate[1] = MGN_MCS5;
++		Rate[2] = MGN_MCS6;
++		Rate[3] = MGN_MCS7;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC34:
++	case 0xE34:
++	case 0x1834:
++	case 0x1a34:
++		Rate[0] = MGN_MCS8;
++		Rate[1] = MGN_MCS9;
++		Rate[2] = MGN_MCS10;
++		Rate[3] = MGN_MCS11;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC38:
++	case 0xE38:
++	case 0x1838:
++	case 0x1a38:
++		Rate[0] = MGN_MCS12;
++		Rate[1] = MGN_MCS13;
++		Rate[2] = MGN_MCS14;
++		Rate[3] = MGN_MCS15;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC3C:
++	case 0xE3C:
++	case 0x183C:
++	case 0x1a3C:
++		Rate[0] = MGN_VHT1SS_MCS0;
++		Rate[1] = MGN_VHT1SS_MCS1;
++		Rate[2] = MGN_VHT1SS_MCS2;
++		Rate[3] = MGN_VHT1SS_MCS3;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC40:
++	case 0xE40:
++	case 0x1840:
++	case 0x1a40:
++		Rate[0] = MGN_VHT1SS_MCS4;
++		Rate[1] = MGN_VHT1SS_MCS5;
++		Rate[2] = MGN_VHT1SS_MCS6;
++		Rate[3] = MGN_VHT1SS_MCS7;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC44:
++	case 0xE44:
++	case 0x1844:
++	case 0x1a44:
++		Rate[0] = MGN_VHT1SS_MCS8;
++		Rate[1] = MGN_VHT1SS_MCS9;
++		Rate[2] = MGN_VHT2SS_MCS0;
++		Rate[3] = MGN_VHT2SS_MCS1;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC48:
++	case 0xE48:
++	case 0x1848:
++	case 0x1a48:
++		Rate[0] = MGN_VHT2SS_MCS2;
++		Rate[1] = MGN_VHT2SS_MCS3;
++		Rate[2] = MGN_VHT2SS_MCS4;
++		Rate[3] = MGN_VHT2SS_MCS5;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC4C:
++	case 0xE4C:
++	case 0x184C:
++	case 0x1a4C:
++		Rate[0] = MGN_VHT2SS_MCS6;
++		Rate[1] = MGN_VHT2SS_MCS7;
++		Rate[2] = MGN_VHT2SS_MCS8;
++		Rate[3] = MGN_VHT2SS_MCS9;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xCD8:
++	case 0xED8:
++	case 0x18D8:
++	case 0x1aD8:
++		Rate[0] = MGN_MCS16;
++		Rate[1] = MGN_MCS17;
++		Rate[2] = MGN_MCS18;
++		Rate[3] = MGN_MCS19;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xCDC:
++	case 0xEDC:
++	case 0x18DC:
++	case 0x1aDC:
++		Rate[0] = MGN_MCS20;
++		Rate[1] = MGN_MCS21;
++		Rate[2] = MGN_MCS22;
++		Rate[3] = MGN_MCS23;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xCE0:
++	case 0xEE0:
++	case 0x18E0:
++	case 0x1aE0:
++		Rate[0] = MGN_VHT3SS_MCS0;
++		Rate[1] = MGN_VHT3SS_MCS1;
++		Rate[2] = MGN_VHT3SS_MCS2;
++		Rate[3] = MGN_VHT3SS_MCS3;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xCE4:
++	case 0xEE4:
++	case 0x18E4:
++	case 0x1aE4:
++		Rate[0] = MGN_VHT3SS_MCS4;
++		Rate[1] = MGN_VHT3SS_MCS5;
++		Rate[2] = MGN_VHT3SS_MCS6;
++		Rate[3] = MGN_VHT3SS_MCS7;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xCE8:
++	case 0xEE8:
++	case 0x18E8:
++	case 0x1aE8:
++		Rate[0] = MGN_VHT3SS_MCS8;
++		Rate[1] = MGN_VHT3SS_MCS9;
++		for (i = 0; i < 2; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 2;
++		break;
++
++	default:
++		RTW_PRINT("Invalid RegAddr 0x%x in %s()\n", RegAddr, __func__);
++		break;
++	};
++}
++
++void
++PHY_StoreTxPowerByRateNew(
++	IN	PADAPTER	pAdapter,
++	IN	u32			Band,
++	IN	u32			RfPath,
++	IN	u32			TxNum,
++	IN	u32			RegAddr,
++	IN	u32			BitMask,
++	IN	u32			Data
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++	u8	i = 0, rates[4] = {0}, rateNum = 0;
++	s8	PwrByRateVal[4] = {0};
++
++	PHY_GetRateValuesOfTxPowerByRate(pAdapter, RegAddr, BitMask, Data, rates, PwrByRateVal, &rateNum);
++
++	if (Band != BAND_ON_2_4G && Band != BAND_ON_5G) {
++		RTW_PRINT("Invalid Band %d\n", Band);
++		return;
++	}
++
++	if (RfPath > ODM_RF_PATH_D) {
++		RTW_PRINT("Invalid RfPath %d\n", RfPath);
++		return;
++	}
++
++	if (TxNum > ODM_RF_PATH_D) {
++		RTW_PRINT("Invalid TxNum %d\n", TxNum);
++		return;
++	}
++
++	for (i = 0; i < rateNum; ++i) {
++		u8 rate_idx = PHY_GetRateIndexOfTxPowerByRate(rates[i]);
++
++		if (IS_1T_RATE(rates[i]))
++			pHalData->TxPwrByRateOffset[Band][RfPath][RF_1TX][rate_idx] = PwrByRateVal[i];
++		else if (IS_2T_RATE(rates[i]))
++			pHalData->TxPwrByRateOffset[Band][RfPath][RF_2TX][rate_idx] = PwrByRateVal[i];
++		else if (IS_3T_RATE(rates[i]))
++			pHalData->TxPwrByRateOffset[Band][RfPath][RF_3TX][rate_idx] = PwrByRateVal[i];
++		else if (IS_4T_RATE(rates[i]))
++			pHalData->TxPwrByRateOffset[Band][RfPath][RF_4TX][rate_idx] = PwrByRateVal[i];
++		else
++			rtw_warn_on(1);
++	}
++}
++
++#ifdef TX_POWER_BY_RATE_OLD
++void
++PHY_StoreTxPowerByRateOld(
++	IN	PADAPTER		pAdapter,
++	IN	u32				RegAddr,
++	IN	u32				BitMask,
++	IN	u32				Data
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u8			index = PHY_GetRateSectionIndexOfTxPowerByRate(pAdapter, RegAddr, BitMask);
++
++	pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][index] = Data;
++	/* RTW_INFO("MCSTxPowerLevelOriginalOffset[%d][0] = 0x%x\n", pHalData->pwrGroupCnt, */
++	/*	pHalData->MCSTxPowerLevelOriginalOffset[pHalData->pwrGroupCnt][0]); */
++}
++#endif /* TX_POWER_BY_RATE_OLD */
++
++VOID
++PHY_InitTxPowerByRate(
++	IN	PADAPTER	pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u8	band = 0, rfPath = 0, TxNum = 0, rate = 0, i = 0, j = 0;
++
++	if (IS_HARDWARE_TYPE_8188E(pAdapter)) {
++		for (i = 0; i < MAX_PG_GROUP; ++i)
++			for (j = 0; j < 16; ++j)
++				pHalData->MCSTxPowerLevelOriginalOffset[i][j] = 0;
++	} else {
++		for (band = BAND_ON_2_4G; band <= BAND_ON_5G; ++band)
++			for (rfPath = 0; rfPath < TX_PWR_BY_RATE_NUM_RF; ++rfPath)
++				for (TxNum = 0; TxNum < TX_PWR_BY_RATE_NUM_RF; ++TxNum)
++					for (rate = 0; rate < TX_PWR_BY_RATE_NUM_RATE; ++rate)
++						pHalData->TxPwrByRateOffset[band][rfPath][TxNum][rate] = 0;
++	}
++}
++
++VOID
++PHY_StoreTxPowerByRate(
++	IN	PADAPTER	pAdapter,
++	IN	u32			Band,
++	IN	u32			RfPath,
++	IN	u32			TxNum,
++	IN	u32			RegAddr,
++	IN	u32			BitMask,
++	IN	u32			Data
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++
++	if (pDM_Odm->PhyRegPgVersion > 0)
++		PHY_StoreTxPowerByRateNew(pAdapter, Band, RfPath, TxNum, RegAddr, BitMask, Data);
++#ifdef TX_POWER_BY_RATE_OLD
++	else if (pDM_Odm->PhyRegPgVersion == 0) {
++		PHY_StoreTxPowerByRateOld(pAdapter, RegAddr, BitMask, Data);
++
++		if (RegAddr == rTxAGC_A_Mcs15_Mcs12 && pHalData->rf_type == RF_1T1R)
++			pHalData->pwrGroupCnt++;
++		else if (RegAddr == rTxAGC_B_Mcs15_Mcs12 && pHalData->rf_type != RF_1T1R)
++			pHalData->pwrGroupCnt++;
++	}
++#endif
++	else
++		RTW_INFO("Invalid PHY_REG_PG.txt version %d\n",  pDM_Odm->PhyRegPgVersion);
++
++}
++
++#ifdef TX_POWER_BY_RATE_OLD
++VOID
++phy_ConvertTxPowerByRateByBase(
++	IN	u32		*pData,
++	IN	u8			Start,
++	IN	u8			End,
++	IN	u8			BaseValue
++)
++{
++	s8	i = 0;
++	u8	TempValue = 0;
++	u32	TempData = 0;
++
++	for (i = 3; i >= 0; --i) {
++		if (i >= Start && i <= End) {
++			/* Get the exact value */
++			TempValue = (u8)(*pData >> (i * 8)) & 0xF;
++			TempValue += ((u8)((*pData >> (i * 8 + 4)) & 0xF)) * 10;
++
++			/* Change the value to a relative value */
++			TempValue = (TempValue > BaseValue) ? TempValue - BaseValue : BaseValue - TempValue;
++		} else
++			TempValue = (u8)(*pData >> (i * 8)) & 0xFF;
++
++		TempData <<= 8;
++		TempData |= TempValue;
++	}
++
++	*pData = TempData;
++}
++
++
++VOID
++PHY_ConvertTxPowerByRateInDbmToRelativeValuesOld(
++	IN	PADAPTER	pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u8			base = 0;
++
++	/* RTW_INFO("===>PHY_ConvertTxPowerByRateInDbmToRelativeValuesOld()\n" ); */
++
++	/* CCK */
++	base = PHY_GetTxPowerByRateBase(pAdapter, BAND_ON_2_4G, ODM_RF_PATH_A, RF_1TX, CCK);
++	phy_ConvertTxPowerByRateByBase(
++		&(pHalData->MCSTxPowerLevelOriginalOffset[0][6]), 1, 1, base);
++	phy_ConvertTxPowerByRateByBase(
++		&(pHalData->MCSTxPowerLevelOriginalOffset[0][7]), 1, 3, base);
++
++	/* OFDM */
++	base = PHY_GetTxPowerByRateBase(pAdapter, BAND_ON_2_4G, ODM_RF_PATH_A, RF_1TX, OFDM);
++	phy_ConvertTxPowerByRateByBase(
++		&(pHalData->MCSTxPowerLevelOriginalOffset[0][0]), 0, 3, base);
++	phy_ConvertTxPowerByRateByBase(
++		&(pHalData->MCSTxPowerLevelOriginalOffset[0][1]),	0, 3, base);
++
++	/* HT MCS0~7 */
++	base = PHY_GetTxPowerByRateBase(pAdapter, BAND_ON_2_4G, ODM_RF_PATH_A, RF_1TX, HT_MCS0_MCS7);
++	phy_ConvertTxPowerByRateByBase(
++		&(pHalData->MCSTxPowerLevelOriginalOffset[0][2]),	0, 3, base);
++	phy_ConvertTxPowerByRateByBase(
++		&(pHalData->MCSTxPowerLevelOriginalOffset[0][3]),	0, 3, base);
++
++	/* HT MCS8~15 */
++	base = PHY_GetTxPowerByRateBase(pAdapter, BAND_ON_2_4G, ODM_RF_PATH_A, RF_2TX, HT_MCS8_MCS15);
++	phy_ConvertTxPowerByRateByBase(
++		&(pHalData->MCSTxPowerLevelOriginalOffset[0][4]), 0, 3, base);
++	phy_ConvertTxPowerByRateByBase(
++		&(pHalData->MCSTxPowerLevelOriginalOffset[0][5]), 0, 3, base);
++
++	/* CCK */
++	base = PHY_GetTxPowerByRateBase(pAdapter, BAND_ON_2_4G, ODM_RF_PATH_B, RF_1TX, CCK);
++	phy_ConvertTxPowerByRateByBase(
++		&(pHalData->MCSTxPowerLevelOriginalOffset[0][14]), 1, 3, base);
++	phy_ConvertTxPowerByRateByBase(
++		&(pHalData->MCSTxPowerLevelOriginalOffset[0][15]), 0, 0, base);
++
++	/* OFDM */
++	base = PHY_GetTxPowerByRateBase(pAdapter, BAND_ON_2_4G, ODM_RF_PATH_B, RF_1TX, OFDM);
++	phy_ConvertTxPowerByRateByBase(
++		&(pHalData->MCSTxPowerLevelOriginalOffset[0][8]), 0, 3, base);
++	phy_ConvertTxPowerByRateByBase(
++		&(pHalData->MCSTxPowerLevelOriginalOffset[0][9]),	0, 3, base);
++
++	/* HT MCS0~7 */
++	base = PHY_GetTxPowerByRateBase(pAdapter, BAND_ON_2_4G, ODM_RF_PATH_B, RF_1TX, HT_MCS0_MCS7);
++	phy_ConvertTxPowerByRateByBase(
++		&(pHalData->MCSTxPowerLevelOriginalOffset[0][10]), 0, 3, base);
++	phy_ConvertTxPowerByRateByBase(
++		&(pHalData->MCSTxPowerLevelOriginalOffset[0][11]), 0, 3, base);
++
++	/* HT MCS8~15 */
++	base = PHY_GetTxPowerByRateBase(pAdapter, BAND_ON_2_4G, ODM_RF_PATH_B, RF_2TX, HT_MCS8_MCS15);
++	phy_ConvertTxPowerByRateByBase(
++		&(pHalData->MCSTxPowerLevelOriginalOffset[0][12]), 0, 3, base);
++	phy_ConvertTxPowerByRateByBase(
++		&(pHalData->MCSTxPowerLevelOriginalOffset[0][13]), 0, 3, base);
++
++	/* RTW_INFO("<===PHY_ConvertTxPowerByRateInDbmToRelativeValuesOld()\n" ); */
++}
++#endif /* TX_POWER_BY_RATE_OLD */
++
++VOID
++phy_ConvertTxPowerByRateInDbmToRelativeValues(
++	IN	PADAPTER	pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u8			base = 0, i = 0, value = 0,
++				band = 0, path = 0, txNum = 0, index = 0,
++				startIndex = 0, endIndex = 0;
++	u8	cckRates[4] = {MGN_1M, MGN_2M, MGN_5_5M, MGN_11M},
++		ofdmRates[8] = {MGN_6M, MGN_9M, MGN_12M, MGN_18M, MGN_24M, MGN_36M, MGN_48M, MGN_54M},
++		mcs0_7Rates[8] = {MGN_MCS0, MGN_MCS1, MGN_MCS2, MGN_MCS3, MGN_MCS4, MGN_MCS5, MGN_MCS6, MGN_MCS7},
++		mcs8_15Rates[8] = {MGN_MCS8, MGN_MCS9, MGN_MCS10, MGN_MCS11, MGN_MCS12, MGN_MCS13, MGN_MCS14, MGN_MCS15},
++		mcs16_23Rates[8] = {MGN_MCS16, MGN_MCS17, MGN_MCS18, MGN_MCS19, MGN_MCS20, MGN_MCS21, MGN_MCS22, MGN_MCS23},
++		vht1ssRates[10] = {MGN_VHT1SS_MCS0, MGN_VHT1SS_MCS1, MGN_VHT1SS_MCS2, MGN_VHT1SS_MCS3, MGN_VHT1SS_MCS4,
++			MGN_VHT1SS_MCS5, MGN_VHT1SS_MCS6, MGN_VHT1SS_MCS7, MGN_VHT1SS_MCS8, MGN_VHT1SS_MCS9},
++		vht2ssRates[10] = {MGN_VHT2SS_MCS0, MGN_VHT2SS_MCS1, MGN_VHT2SS_MCS2, MGN_VHT2SS_MCS3, MGN_VHT2SS_MCS4,
++			MGN_VHT2SS_MCS5, MGN_VHT2SS_MCS6, MGN_VHT2SS_MCS7, MGN_VHT2SS_MCS8, MGN_VHT2SS_MCS9},
++		vht3ssRates[10] = {MGN_VHT3SS_MCS0, MGN_VHT3SS_MCS1, MGN_VHT3SS_MCS2, MGN_VHT3SS_MCS3, MGN_VHT3SS_MCS4,
++			MGN_VHT3SS_MCS5, MGN_VHT3SS_MCS6, MGN_VHT3SS_MCS7, MGN_VHT3SS_MCS8, MGN_VHT3SS_MCS9};
++
++	/* RTW_INFO("===>PHY_ConvertTxPowerByRateInDbmToRelativeValues()\n" ); */
++
++	for (band = BAND_ON_2_4G; band <= BAND_ON_5G; ++band) {
++		for (path = ODM_RF_PATH_A; path <= ODM_RF_PATH_D; ++path) {
++			for (txNum = RF_1TX; txNum < RF_MAX_TX_NUM; ++txNum) {
++				/* CCK */
++				if (band == BAND_ON_2_4G) {
++					base = PHY_GetTxPowerByRateBase(pAdapter, band, path, txNum, CCK);
++					for (i = 0; i < sizeof(cckRates); ++i) {
++						value = PHY_GetTxPowerByRate(pAdapter, band, path, txNum, cckRates[i]);
++						PHY_SetTxPowerByRate(pAdapter, band, path, txNum, cckRates[i], value - base);
++					}
++				}
++
++				/* OFDM */
++				base = PHY_GetTxPowerByRateBase(pAdapter, band, path, txNum, OFDM);
++				for (i = 0; i < sizeof(ofdmRates); ++i) {
++					value = PHY_GetTxPowerByRate(pAdapter, band, path, txNum, ofdmRates[i]);
++					PHY_SetTxPowerByRate(pAdapter, band, path, txNum, ofdmRates[i], value - base);
++				}
++
++				/* HT MCS0~7 */
++				base = PHY_GetTxPowerByRateBase(pAdapter, band, path, txNum, HT_1SS);
++				for (i = 0; i < sizeof(mcs0_7Rates); ++i) {
++					value = PHY_GetTxPowerByRate(pAdapter, band, path, txNum, mcs0_7Rates[i]);
++					PHY_SetTxPowerByRate(pAdapter, band, path, txNum, mcs0_7Rates[i], value - base);
++				}
++
++				/* HT MCS8~15 */
++				base = PHY_GetTxPowerByRateBase(pAdapter, band, path, txNum, HT_2SS);
++				for (i = 0; i < sizeof(mcs8_15Rates); ++i) {
++					value = PHY_GetTxPowerByRate(pAdapter, band, path, txNum, mcs8_15Rates[i]);
++					PHY_SetTxPowerByRate(pAdapter, band, path, txNum, mcs8_15Rates[i], value - base);
++				}
++
++				/* HT MCS16~23 */
++				base = PHY_GetTxPowerByRateBase(pAdapter, band, path, txNum, HT_3SS);
++				for (i = 0; i < sizeof(mcs16_23Rates); ++i) {
++					value = PHY_GetTxPowerByRate(pAdapter, band, path, txNum, mcs16_23Rates[i]);
++					PHY_SetTxPowerByRate(pAdapter, band, path, txNum, mcs16_23Rates[i], value - base);
++				}
++
++				/* VHT 1SS */
++				base = PHY_GetTxPowerByRateBase(pAdapter, band, path, txNum, VHT_1SS);
++				for (i = 0; i < sizeof(vht1ssRates); ++i) {
++					value = PHY_GetTxPowerByRate(pAdapter, band, path, txNum, vht1ssRates[i]);
++					PHY_SetTxPowerByRate(pAdapter, band, path, txNum, vht1ssRates[i], value - base);
++				}
++
++				/* VHT 2SS */
++				base = PHY_GetTxPowerByRateBase(pAdapter, band, path, txNum, VHT_2SS);
++				for (i = 0; i < sizeof(vht2ssRates); ++i) {
++					value = PHY_GetTxPowerByRate(pAdapter, band, path, txNum, vht2ssRates[i]);
++					PHY_SetTxPowerByRate(pAdapter, band, path, txNum, vht2ssRates[i], value - base);
++				}
++
++				/* VHT 3SS */
++				base = PHY_GetTxPowerByRateBase(pAdapter, band, path, txNum, VHT_3SS);
++				for (i = 0; i < sizeof(vht3ssRates); ++i) {
++					value = PHY_GetTxPowerByRate(pAdapter, band, path, txNum, vht3ssRates[i]);
++					PHY_SetTxPowerByRate(pAdapter, band, path, txNum, vht3ssRates[i], value - base);
++				}
++			}
++		}
++	}
++
++	/* RTW_INFO("<===PHY_ConvertTxPowerByRateInDbmToRelativeValues()\n" ); */
++}
++
++/*
++  * This function must be called if the value in the PHY_REG_PG.txt(or header)
++  * is exact dBm values
++  */
++VOID
++PHY_TxPowerByRateConfiguration(
++	IN  PADAPTER			pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	phy_StoreTxPowerByRateBase(pAdapter);
++	phy_ConvertTxPowerByRateInDbmToRelativeValues(pAdapter);
++}
++
++VOID
++PHY_SetTxPowerIndexByRateSection(
++	IN	PADAPTER		pAdapter,
++	IN	u8				RFPath,
++	IN	u8				Channel,
++	IN	u8				RateSection
++)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(pAdapter);
++
++	if (RateSection >= RATE_SECTION_NUM) {
++		RTW_INFO("Invalid RateSection %d in %s", RateSection, __func__);
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (RateSection == CCK && pHalData->CurrentBandType != BAND_ON_2_4G)
++		goto exit;
++
++	PHY_SetTxPowerIndexByRateArray(pAdapter, RFPath, pHalData->CurrentChannelBW, Channel,
++		rates_by_sections[RateSection].rates, rates_by_sections[RateSection].rate_num);
++
++exit:
++	return;
++}
++
++BOOLEAN
++phy_GetChnlIndex(
++	IN	u8	Channel,
++	OUT u8	*ChannelIdx
++)
++{
++	u8  i = 0;
++	BOOLEAN bIn24G = _TRUE;
++
++	if (Channel <= 14) {
++		bIn24G = _TRUE;
++		*ChannelIdx = Channel - 1;
++	} else {
++		bIn24G = _FALSE;
++
++		for (i = 0; i < CENTER_CH_5G_ALL_NUM; ++i) {
++			if (center_ch_5g_all[i] == Channel) {
++				*ChannelIdx = i;
++				return bIn24G;
++			}
++		}
++	}
++
++	return bIn24G;
++}
++
++u8
++PHY_GetTxPowerIndexBase(
++	IN	PADAPTER		pAdapter,
++	IN	u8				RFPath,
++	IN	u8				Rate,
++	IN	CHANNEL_WIDTH	BandWidth,
++	IN	u8				Channel,
++	OUT PBOOLEAN		bIn24G
++)
++{
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T			pDM_Odm = &pHalData->odmpriv;
++	u8					i = 0;	/* default set to 1S */
++	u8					txPower = 0;
++	u8					chnlIdx = (Channel - 1);
++
++	if (HAL_IsLegalChannel(pAdapter, Channel) == _FALSE) {
++		chnlIdx = 0;
++		RTW_INFO("Illegal channel!!\n");
++	}
++
++	*bIn24G = phy_GetChnlIndex(Channel, &chnlIdx);
++
++	/* RTW_INFO("[%s] Channel Index: %d\n", (*bIn24G?"2.4G":"5G"), chnlIdx); */
++
++	if (*bIn24G) { /* 3 ============================== 2.4 G ============================== */
++		if (IS_CCK_RATE(Rate))
++			txPower = pHalData->Index24G_CCK_Base[RFPath][chnlIdx];
++		else if (MGN_6M <= Rate)
++			txPower = pHalData->Index24G_BW40_Base[RFPath][chnlIdx];
++		else
++			RTW_INFO("PHY_GetTxPowerIndexBase: INVALID Rate.\n");
++
++		/* RTW_INFO("Base Tx power(RF-%c, Rate #%d, Channel Index %d) = 0x%X\n",  */
++		/*		((RFPath==0)?'A':'B'), Rate, chnlIdx, txPower); */
++
++		/* OFDM-1T */
++		if ((MGN_6M <= Rate && Rate <= MGN_54M) && !IS_CCK_RATE(Rate)) {
++			txPower += pHalData->OFDM_24G_Diff[RFPath][TX_1S];
++			/* RTW_INFO("+PowerDiff 2.4G (RF-%c): (OFDM-1T) = (%d)\n", ((RFPath==0)?'A':'B'), pHalData->OFDM_24G_Diff[RFPath][TX_1S]); */
++		}
++		/* BW20-1S, BW20-2S */
++		if (BandWidth == CHANNEL_WIDTH_20) {
++			if ((MGN_MCS0 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT1SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW20_24G_Diff[RFPath][TX_1S];
++			if ((MGN_MCS8 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT2SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW20_24G_Diff[RFPath][TX_2S];
++			if ((MGN_MCS16 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT3SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW20_24G_Diff[RFPath][TX_3S];
++			if ((MGN_MCS24 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT4SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW20_24G_Diff[RFPath][TX_4S];
++
++			/* RTW_INFO("+PowerDiff 2.4G (RF-%c): (BW20-1S, BW20-2S, BW20-3S, BW20-4S) = (%d, %d, %d, %d)\n", ((RFPath==0)?'A':(RFPath==1)?'B':(RFPath==2)?'C':'D'),  */
++			/*	pHalData->BW20_24G_Diff[RFPath][TX_1S], pHalData->BW20_24G_Diff[RFPath][TX_2S],  */
++			/*	pHalData->BW20_24G_Diff[RFPath][TX_3S], pHalData->BW20_24G_Diff[RFPath][TX_4S]); */
++		}
++		/* BW40-1S, BW40-2S */
++		else if (BandWidth == CHANNEL_WIDTH_40) {
++			if ((MGN_MCS0 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT1SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_24G_Diff[RFPath][TX_1S];
++			if ((MGN_MCS8 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT2SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_24G_Diff[RFPath][TX_2S];
++			if ((MGN_MCS16 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT3SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_24G_Diff[RFPath][TX_3S];
++			if ((MGN_MCS24 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT4SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_24G_Diff[RFPath][TX_4S];
++
++			/* RTW_INFO("+PowerDiff 2.4G (RF-%c): (BW40-1S, BW40-2S, BW40-3S, BW40-4S) = (%d, %d, %d, %d)\n", ((RFPath==0)?'A':(RFPath==1)?'B':(RFPath==2)?'C':'D'),  */
++			/*	pHalData->BW40_24G_Diff[RFPath][TX_1S], pHalData->BW40_24G_Diff[RFPath][TX_2S], */
++			/*	pHalData->BW40_24G_Diff[RFPath][TX_3S], pHalData->BW40_24G_Diff[RFPath][TX_4S]); */
++		}
++		/* Willis suggest adopt BW 40M power index while in BW 80 mode */
++		else if (BandWidth == CHANNEL_WIDTH_80) {
++			if ((MGN_MCS0 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT1SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_24G_Diff[RFPath][TX_1S];
++			if ((MGN_MCS8 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT2SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_24G_Diff[RFPath][TX_2S];
++			if ((MGN_MCS16 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT3SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_24G_Diff[RFPath][TX_3S];
++			if ((MGN_MCS24 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT4SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_24G_Diff[RFPath][TX_4S];
++
++			/* RTW_INFO("+PowerDiff 2.4G (RF-%c): (BW40-1S, BW40-2S, BW40-3S, BW40-4T) = (%d, %d, %d, %d) P.S. Current is in BW 80MHz\n", ((RFPath==0)?'A':(RFPath==1)?'B':(RFPath==2)?'C':'D'),  */
++			/*	pHalData->BW40_24G_Diff[RFPath][TX_1S], pHalData->BW40_24G_Diff[RFPath][TX_2S], */
++			/*	pHalData->BW40_24G_Diff[RFPath][TX_3S], pHalData->BW40_24G_Diff[RFPath][TX_4S]); */
++		}
++	}
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	else { /* 3 ============================== 5 G ============================== */
++		if (MGN_6M <= Rate)
++			txPower = pHalData->Index5G_BW40_Base[RFPath][chnlIdx];
++		else
++			RTW_INFO("===> mpt_ProQueryCalTxPower_Jaguar: INVALID Rate.\n");
++
++		/* RTW_INFO("Base Tx power(RF-%c, Rate #%d, Channel Index %d) = 0x%X\n",  */
++		/*	((RFPath==0)?'A':'B'), Rate, chnlIdx, txPower); */
++
++		/* OFDM-1T */
++		if ((MGN_6M <= Rate && Rate <= MGN_54M) && !IS_CCK_RATE(Rate)) {
++			txPower += pHalData->OFDM_5G_Diff[RFPath][TX_1S];
++			/* RTW_INFO("+PowerDiff 5G (RF-%c): (OFDM-1T) = (%d)\n", ((RFPath==0)?'A':'B'), pHalData->OFDM_5G_Diff[RFPath][TX_1S]); */
++		}
++
++		/* BW20-1S, BW20-2S */
++		if (BandWidth == CHANNEL_WIDTH_20) {
++			if ((MGN_MCS0 <= Rate && Rate <= MGN_MCS31)  || (MGN_VHT1SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW20_5G_Diff[RFPath][TX_1S];
++			if ((MGN_MCS8 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT2SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW20_5G_Diff[RFPath][TX_2S];
++			if ((MGN_MCS16 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT3SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW20_5G_Diff[RFPath][TX_3S];
++			if ((MGN_MCS24 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT4SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW20_5G_Diff[RFPath][TX_4S];
++
++			/* RTW_INFO("+PowerDiff 5G (RF-%c): (BW20-1S, BW20-2S, BW20-3S, BW20-4S) = (%d, %d, %d, %d)\n", ((RFPath==0)?'A':(RFPath==1)?'B':(RFPath==2)?'C':'D'),  */
++			/*	pHalData->BW20_5G_Diff[RFPath][TX_1S], pHalData->BW20_5G_Diff[RFPath][TX_2S], */
++			/*	pHalData->BW20_5G_Diff[RFPath][TX_3S], pHalData->BW20_5G_Diff[RFPath][TX_4S]); */
++		}
++		/* BW40-1S, BW40-2S */
++		else if (BandWidth == CHANNEL_WIDTH_40) {
++			if ((MGN_MCS0 <= Rate && Rate <= MGN_MCS31)  || (MGN_VHT1SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_5G_Diff[RFPath][TX_1S];
++			if ((MGN_MCS8 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT2SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_5G_Diff[RFPath][TX_2S];
++			if ((MGN_MCS16 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT3SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_5G_Diff[RFPath][TX_3S];
++			if ((MGN_MCS24 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT4SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_5G_Diff[RFPath][TX_4S];
++
++			/* RTW_INFO("+PowerDiff 5G(RF-%c): (BW40-1S, BW40-2S) = (%d, %d, %d, %d)\n", ((RFPath==0)?'A':(RFPath==1)?'B':(RFPath==2)?'C':'D'),  */
++			/*	pHalData->BW40_5G_Diff[RFPath][TX_1S], pHalData->BW40_5G_Diff[RFPath][TX_2S], */
++			/*	pHalData->BW40_5G_Diff[RFPath][TX_3S], pHalData->BW40_5G_Diff[RFPath][TX_4S]); */
++		}
++		/* BW80-1S, BW80-2S */
++		else if (BandWidth == CHANNEL_WIDTH_80) {
++			/* <20121220, Kordan> Get the index of array "Index5G_BW80_Base". */
++			for (i = 0; i < CENTER_CH_5G_80M_NUM; ++i)
++				if (center_ch_5g_80m[i] == Channel)
++					chnlIdx = i;
++
++			txPower = pHalData->Index5G_BW80_Base[RFPath][chnlIdx];
++
++			if ((MGN_MCS0 <= Rate && Rate <= MGN_MCS31)  || (MGN_VHT1SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += + pHalData->BW80_5G_Diff[RFPath][TX_1S];
++			if ((MGN_MCS8 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT2SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW80_5G_Diff[RFPath][TX_2S];
++			if ((MGN_MCS16 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT3SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW80_5G_Diff[RFPath][TX_3S];
++			if ((MGN_MCS23 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT4SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW80_5G_Diff[RFPath][TX_4S];
++
++			/* RTW_INFO("+PowerDiff 5G(RF-%c): (BW80-1S, BW80-2S, BW80-3S, BW80-4S) = (%d, %d, %d, %d)\n",((RFPath==0)?'A':(RFPath==1)?'B':(RFPath==2)?'C':'D'),  */
++			/*	pHalData->BW80_5G_Diff[RFPath][TX_1S], pHalData->BW80_5G_Diff[RFPath][TX_2S], */
++			/*	pHalData->BW80_5G_Diff[RFPath][TX_3S], pHalData->BW80_5G_Diff[RFPath][TX_4S]); */
++		}
++	}
++#endif /* CONFIG_IEEE80211_BAND_5GHZ */
++
++	return txPower;
++}
++
++s8
++PHY_GetTxPowerTrackingOffset(
++	PADAPTER	pAdapter,
++	u8			RFPath,
++	u8			Rate
++)
++{
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T			pDM_Odm = &pHalData->odmpriv;
++	s8	offset = 0;
++
++	if (pDM_Odm->RFCalibrateInfo.TxPowerTrackControl  == _FALSE)
++		return offset;
++
++	if ((Rate == MGN_1M) || (Rate == MGN_2M) || (Rate == MGN_5_5M) || (Rate == MGN_11M)) {
++		offset = pDM_Odm->RFCalibrateInfo.Remnant_CCKSwingIdx;
++		/*RTW_INFO("+Remnant_CCKSwingIdx = 0x%x\n", RFPath, Rate, pRFCalibrateInfo->Remnant_CCKSwingIdx);*/
++	} else {
++		offset = pDM_Odm->RFCalibrateInfo.Remnant_OFDMSwingIdx[RFPath];
++		/*RTW_INFO("+Remanant_OFDMSwingIdx[RFPath %u][Rate 0x%x] = 0x%x\n", RFPath, Rate, pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath]);	*/
++
++	}
++
++	return offset;
++}
++
++/*The same as MRateToHwRate in hal_com.c*/
++u8
++PHY_GetRateIndexOfTxPowerByRate(
++	IN	u8		Rate
++)
++{
++	u8	index = 0;
++	switch (Rate) {
++	case MGN_1M:
++		index = 0;
++		break;
++	case MGN_2M:
++		index = 1;
++		break;
++	case MGN_5_5M:
++		index = 2;
++		break;
++	case MGN_11M:
++		index = 3;
++		break;
++	case MGN_6M:
++		index = 4;
++		break;
++	case MGN_9M:
++		index = 5;
++		break;
++	case MGN_12M:
++		index = 6;
++		break;
++	case MGN_18M:
++		index = 7;
++		break;
++	case MGN_24M:
++		index = 8;
++		break;
++	case MGN_36M:
++		index = 9;
++		break;
++	case MGN_48M:
++		index = 10;
++		break;
++	case MGN_54M:
++		index = 11;
++		break;
++	case MGN_MCS0:
++		index = 12;
++		break;
++	case MGN_MCS1:
++		index = 13;
++		break;
++	case MGN_MCS2:
++		index = 14;
++		break;
++	case MGN_MCS3:
++		index = 15;
++		break;
++	case MGN_MCS4:
++		index = 16;
++		break;
++	case MGN_MCS5:
++		index = 17;
++		break;
++	case MGN_MCS6:
++		index = 18;
++		break;
++	case MGN_MCS7:
++		index = 19;
++		break;
++	case MGN_MCS8:
++		index = 20;
++		break;
++	case MGN_MCS9:
++		index = 21;
++		break;
++	case MGN_MCS10:
++		index = 22;
++		break;
++	case MGN_MCS11:
++		index = 23;
++		break;
++	case MGN_MCS12:
++		index = 24;
++		break;
++	case MGN_MCS13:
++		index = 25;
++		break;
++	case MGN_MCS14:
++		index = 26;
++		break;
++	case MGN_MCS15:
++		index = 27;
++		break;
++	case MGN_MCS16:
++		index = 28;
++		break;
++	case MGN_MCS17:
++		index = 29;
++		break;
++	case MGN_MCS18:
++		index = 30;
++		break;
++	case MGN_MCS19:
++		index = 31;
++		break;
++	case MGN_MCS20:
++		index = 32;
++		break;
++	case MGN_MCS21:
++		index = 33;
++		break;
++	case MGN_MCS22:
++		index = 34;
++		break;
++	case MGN_MCS23:
++		index = 35;
++		break;
++	case MGN_MCS24:
++		index = 36;
++		break;
++	case MGN_MCS25:
++		index = 37;
++		break;
++	case MGN_MCS26:
++		index = 38;
++		break;
++	case MGN_MCS27:
++		index = 39;
++		break;
++	case MGN_MCS28:
++		index = 40;
++		break;
++	case MGN_MCS29:
++		index = 41;
++		break;
++	case MGN_MCS30:
++		index = 42;
++		break;
++	case MGN_MCS31:
++		index = 43;
++		break;
++	case MGN_VHT1SS_MCS0:
++		index = 44;
++		break;
++	case MGN_VHT1SS_MCS1:
++		index = 45;
++		break;
++	case MGN_VHT1SS_MCS2:
++		index = 46;
++		break;
++	case MGN_VHT1SS_MCS3:
++		index = 47;
++		break;
++	case MGN_VHT1SS_MCS4:
++		index = 48;
++		break;
++	case MGN_VHT1SS_MCS5:
++		index = 49;
++		break;
++	case MGN_VHT1SS_MCS6:
++		index = 50;
++		break;
++	case MGN_VHT1SS_MCS7:
++		index = 51;
++		break;
++	case MGN_VHT1SS_MCS8:
++		index = 52;
++		break;
++	case MGN_VHT1SS_MCS9:
++		index = 53;
++		break;
++	case MGN_VHT2SS_MCS0:
++		index = 54;
++		break;
++	case MGN_VHT2SS_MCS1:
++		index = 55;
++		break;
++	case MGN_VHT2SS_MCS2:
++		index = 56;
++		break;
++	case MGN_VHT2SS_MCS3:
++		index = 57;
++		break;
++	case MGN_VHT2SS_MCS4:
++		index = 58;
++		break;
++	case MGN_VHT2SS_MCS5:
++		index = 59;
++		break;
++	case MGN_VHT2SS_MCS6:
++		index = 60;
++		break;
++	case MGN_VHT2SS_MCS7:
++		index = 61;
++		break;
++	case MGN_VHT2SS_MCS8:
++		index = 62;
++		break;
++	case MGN_VHT2SS_MCS9:
++		index = 63;
++		break;
++	case MGN_VHT3SS_MCS0:
++		index = 64;
++		break;
++	case MGN_VHT3SS_MCS1:
++		index = 65;
++		break;
++	case MGN_VHT3SS_MCS2:
++		index = 66;
++		break;
++	case MGN_VHT3SS_MCS3:
++		index = 67;
++		break;
++	case MGN_VHT3SS_MCS4:
++		index = 68;
++		break;
++	case MGN_VHT3SS_MCS5:
++		index = 69;
++		break;
++	case MGN_VHT3SS_MCS6:
++		index = 70;
++		break;
++	case MGN_VHT3SS_MCS7:
++		index = 71;
++		break;
++	case MGN_VHT3SS_MCS8:
++		index = 72;
++		break;
++	case MGN_VHT3SS_MCS9:
++		index = 73;
++		break;
++	case MGN_VHT4SS_MCS0:
++		index = 74;
++		break;
++	case MGN_VHT4SS_MCS1:
++		index = 75;
++		break;
++	case MGN_VHT4SS_MCS2:
++		index = 76;
++		break;
++	case MGN_VHT4SS_MCS3:
++		index = 77;
++		break;
++	case MGN_VHT4SS_MCS4:
++		index = 78;
++		break;
++	case MGN_VHT4SS_MCS5:
++		index = 79;
++		break;
++	case MGN_VHT4SS_MCS6:
++		index = 80;
++		break;
++	case MGN_VHT4SS_MCS7:
++		index = 81;
++		break;
++	case MGN_VHT4SS_MCS8:
++		index = 82;
++		break;
++	case MGN_VHT4SS_MCS9:
++		index = 83;
++		break;
++	default:
++		RTW_INFO("Invalid rate 0x%x in %s\n", Rate, __FUNCTION__);
++		break;
++	};
++
++	return index;
++}
++
++s8
++_PHY_GetTxPowerByRate(
++	IN	PADAPTER	pAdapter,
++	IN	u8			Band,
++	IN	u8			RFPath,
++	IN	u8			TxNum,
++	IN	u8			Rate
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++	s8 value = 0;
++	u8 rateIndex = PHY_GetRateIndexOfTxPowerByRate(Rate);
++
++	if (Band != BAND_ON_2_4G && Band != BAND_ON_5G) {
++		RTW_INFO("Invalid band %d in %s\n", Band, __func__);
++		goto exit;
++	}
++	if (RFPath > ODM_RF_PATH_D) {
++		RTW_INFO("Invalid RfPath %d in %s\n", RFPath, __func__);
++		goto exit;
++	}
++	if (TxNum >= RF_MAX_TX_NUM) {
++		RTW_INFO("Invalid TxNum %d in %s\n", TxNum, __func__);
++		goto exit;
++	}
++	if (rateIndex >= TX_PWR_BY_RATE_NUM_RATE) {
++		RTW_INFO("Invalid RateIndex %d in %s\n", rateIndex, __func__);
++		goto exit;
++	}
++
++	value = pHalData->TxPwrByRateOffset[Band][RFPath][TxNum][rateIndex];
++
++exit:
++	return value;
++}
++
++
++s8
++PHY_GetTxPowerByRate(
++	IN	PADAPTER	pAdapter,
++	IN	u8			Band,
++	IN	u8			RFPath,
++	IN	u8			TxNum,
++	IN	u8			Rate
++)
++{
++	if (!phy_is_tx_power_by_rate_needed(pAdapter))
++		return 0;
++
++	return _PHY_GetTxPowerByRate(pAdapter, Band, RFPath, TxNum, Rate);
++}
++
++#ifdef CONFIG_PHYDM_POWERTRACK_BY_TSSI
++s8
++PHY_GetTxPowerByRateOriginal(
++	IN	PADAPTER	pAdapter,
++	IN	u8			Band,
++	IN	u8			RFPath,
++	IN	u8			TxNum,
++	IN	u8			Rate
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	s8	value = 0, limit = 0;
++	u8	rateIndex = PHY_GetRateIndexOfTxPowerByRate(Rate);
++
++	if ((pAdapter->registrypriv.RegEnableTxPowerByRate == 2 && pHalData->EEPROMRegulatory == 2) ||
++		pAdapter->registrypriv.RegEnableTxPowerByRate == 0)
++		return 0;
++
++	if (Band != BAND_ON_2_4G && Band != BAND_ON_5G) {
++		DBG_871X("Invalid band %d in %s\n", Band, __func__);
++		return value;
++	}
++	if (RFPath > ODM_RF_PATH_D) {
++		DBG_871X("Invalid RfPath %d in %s\n", RFPath, __func__);
++		return value;
++	}
++	if (TxNum >= RF_MAX_TX_NUM) {
++		DBG_871X("Invalid TxNum %d in %s\n", TxNum, __func__);
++		return value;
++	}
++	if (rateIndex >= TX_PWR_BY_RATE_NUM_RATE) {
++		DBG_871X("Invalid RateIndex %d in %s\n", rateIndex, __func__);
++		return value;
++	}
++
++	value = pHalData->TxPwrByRate[Band][RFPath][TxNum][rateIndex];
++
++	return value;
++}
++
++#endif
++
++
++VOID
++PHY_SetTxPowerByRate(
++	IN	PADAPTER	pAdapter,
++	IN	u8			Band,
++	IN	u8			RFPath,
++	IN	u8			TxNum,
++	IN	u8			Rate,
++	IN	s8			Value
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u8	rateIndex = PHY_GetRateIndexOfTxPowerByRate(Rate);
++
++	if (Band != BAND_ON_2_4G && Band != BAND_ON_5G) {
++		RTW_INFO("Invalid band %d in %s\n", Band, __FUNCTION__);
++		return;
++	}
++	if (RFPath > ODM_RF_PATH_D) {
++		RTW_INFO("Invalid RfPath %d in %s\n", RFPath, __FUNCTION__);
++		return;
++	}
++	if (TxNum >= RF_MAX_TX_NUM) {
++		RTW_INFO("Invalid TxNum %d in %s\n", TxNum, __FUNCTION__);
++		return;
++	}
++	if (rateIndex >= TX_PWR_BY_RATE_NUM_RATE) {
++		RTW_INFO("Invalid RateIndex %d in %s\n", rateIndex, __FUNCTION__);
++		return;
++	}
++
++	pHalData->TxPwrByRateOffset[Band][RFPath][TxNum][rateIndex] = Value;
++}
++
++VOID
++PHY_SetTxPowerLevelByPath(
++	IN	PADAPTER	Adapter,
++	IN	u8			channel,
++	IN	u8			path
++)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	BOOLEAN bIsIn24G = (pHalData->CurrentBandType == BAND_ON_2_4G);
++
++	/* if ( pMgntInfo->RegNByteAccess == 0 ) */
++	{
++		if (bIsIn24G)
++			PHY_SetTxPowerIndexByRateSection(Adapter, path, channel, CCK);
++
++		PHY_SetTxPowerIndexByRateSection(Adapter, path, channel, OFDM);
++		PHY_SetTxPowerIndexByRateSection(Adapter, path, channel, HT_MCS0_MCS7);
++
++		if (IS_HARDWARE_TYPE_JAGUAR(Adapter) || IS_HARDWARE_TYPE_8814A(Adapter))
++			PHY_SetTxPowerIndexByRateSection(Adapter, path, channel, VHT_1SSMCS0_1SSMCS9);
++
++		if (pHalData->NumTotalRFPath >= 2) {
++			PHY_SetTxPowerIndexByRateSection(Adapter, path, channel, HT_MCS8_MCS15);
++
++			if (IS_HARDWARE_TYPE_JAGUAR(Adapter) || IS_HARDWARE_TYPE_8814A(Adapter))
++				PHY_SetTxPowerIndexByRateSection(Adapter, path, channel, VHT_2SSMCS0_2SSMCS9);
++
++			if (IS_HARDWARE_TYPE_8814A(Adapter)) {
++				PHY_SetTxPowerIndexByRateSection(Adapter, path, channel, HT_MCS16_MCS23);
++				PHY_SetTxPowerIndexByRateSection(Adapter, path, channel, VHT_3SSMCS0_3SSMCS9);
++			}
++		}
++	}
++}
++
++#ifndef DBG_TX_POWER_IDX
++#define DBG_TX_POWER_IDX 0
++#endif
++
++VOID
++PHY_SetTxPowerIndexByRateArray(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	CHANNEL_WIDTH		BandWidth,
++	IN	u8					Channel,
++	IN	u8					*Rates,
++	IN	u8					RateArraySize
++)
++{
++	u32	powerIndex = 0;
++	int	i = 0;
++
++	for (i = 0; i < RateArraySize; ++i) {
++#if DBG_TX_POWER_IDX
++		struct txpwr_idx_comp tic;
++
++		powerIndex = rtw_hal_get_tx_power_index(pAdapter, RFPath, Rates[i], BandWidth, Channel, &tic);
++		RTW_INFO("TXPWR: [%c][%s]ch:%u, %s, pwr_idx:%u = %u + (%d=%d:%d) + (%d) + (%d)\n"
++			, rf_path_char(RFPath), ch_width_str(BandWidth), Channel, MGN_RATE_STR(Rates[i])
++			, powerIndex, tic.base, (tic.by_rate > tic.limit ? tic.limit : tic.by_rate), tic.by_rate, tic.limit, tic.tpt, tic.ebias);
++#else
++		powerIndex = PHY_GetTxPowerIndex(pAdapter, RFPath, Rates[i], BandWidth, Channel);
++#endif
++		PHY_SetTxPowerIndex(pAdapter, powerIndex, RFPath, Rates[i]);
++	}
++}
++
++s8
++phy_GetWorldWideLimit(
++	s8 *LimitTable
++)
++{
++	s8	min = LimitTable[0];
++	u8	i = 0;
++
++	for (i = 0; i < MAX_REGULATION_NUM; ++i) {
++		if (LimitTable[i] < min)
++			min = LimitTable[i];
++	}
++
++	return min;
++}
++
++s8
++phy_GetChannelIndexOfTxPowerLimit(
++	IN	u8			Band,
++	IN	u8			Channel
++)
++{
++	s8	channelIndex = -1;
++	u8	i = 0;
++
++	if (Band == BAND_ON_2_4G)
++		channelIndex = Channel - 1;
++	else if (Band == BAND_ON_5G) {
++		for (i = 0; i < CENTER_CH_5G_ALL_NUM; ++i) {
++			if (center_ch_5g_all[i] == Channel)
++				channelIndex = i;
++		}
++	} else
++		RTW_PRINT("Invalid Band %d in %s\n", Band, __func__);
++
++	if (channelIndex == -1)
++		RTW_PRINT("Invalid Channel %d of Band %d in %s\n", Channel, Band, __func__);
++
++	return channelIndex;
++}
++
++static s8 _phy_get_txpwr_lmt(
++	IN	PADAPTER			Adapter,
++	IN	u32					RegPwrTblSel,
++	IN	BAND_TYPE			Band,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					RfPath,
++	IN	u8					DataRate,
++	IN	u8					Channel,
++	BOOLEAN no_sc
++)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(Adapter);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(Adapter);
++	s8 regulation = -1, bw = -1, rs = -1;
++	u8 cch = 0;
++	u8 bw_bmp = 0;
++	s8 min_lmt = MAX_POWER_INDEX;
++	s8 tmp_lmt;
++	u8 final_bw = Bandwidth, final_cch = Channel;
++
++	if ((Adapter->registrypriv.RegEnableTxPowerLimit == 2 && hal_data->EEPROMRegulatory != 1) ||
++		Adapter->registrypriv.RegEnableTxPowerLimit == 0)
++		goto exit;
++
++	switch (RegPwrTblSel) {
++	case 1:
++		regulation = TXPWR_LMT_ETSI;
++		break;
++	case 2:
++		regulation = TXPWR_LMT_MKK;
++		break;
++	case 3:
++		regulation = TXPWR_LMT_FCC;
++		break;
++	case 4:
++		regulation = TXPWR_LMT_WW;
++		break;
++	default:
++		regulation = (Band == BAND_ON_2_4G) ? hal_data->Regulation2_4G : hal_data->Regulation5G;
++		break;
++	}
++
++	if (Band != BAND_ON_2_4G && Band != BAND_ON_5G) {
++		RTW_ERR("%s invalid band:%u\n", __func__, Band);
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (IS_CCK_RATE(DataRate))
++		rs = CCK;
++	else if (IS_OFDM_RATE(DataRate))
++		rs = OFDM;
++	else if (IS_HT1SS_RATE(DataRate))
++		rs = HT_1SS;
++	else if (IS_HT2SS_RATE(DataRate))
++		rs = HT_2SS;
++	else if (IS_HT3SS_RATE(DataRate))
++		rs = HT_3SS;
++	else if (IS_HT4SS_RATE(DataRate))
++		rs = HT_4SS;
++	else if (IS_VHT1SS_RATE(DataRate))
++		rs = VHT_1SS;
++	else if (IS_VHT2SS_RATE(DataRate))
++		rs = VHT_2SS;
++	else if (IS_VHT3SS_RATE(DataRate))
++		rs = VHT_3SS;
++	else if (IS_VHT4SS_RATE(DataRate))
++		rs = VHT_4SS;
++	else {
++		RTW_ERR("%s invalid rate 0x%x\n", __func__, DataRate);
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (Band == BAND_ON_5G  && rs == CCK) {
++		RTW_ERR("Wrong rate No CCK(0x%x) in 5G Band\n", DataRate);
++		goto exit;
++	}
++
++	if (no_sc == _TRUE) {
++		/* use the input center channel and bandwidth directly */
++		cch = Channel;
++		bw_bmp = ch_width_to_bw_cap(Bandwidth);
++	} else {
++		/*
++		* find the possible tx bandwidth bmp for this rate, and then will get center channel for each bandwidth
++		* if no possible tx bandwidth bmp, select valid bandwidth up to current RF bandwidth into bmp
++		*/
++		if (rs == CCK || rs == OFDM)
++			bw_bmp = BW_CAP_20M; /* CCK, OFDM only BW 20M */
++		else if (IS_HT_RATE_SECTION(rs)) {
++			bw_bmp = rtw_get_tx_bw_bmp_of_ht_rate(dvobj, DataRate, Bandwidth);
++			if (bw_bmp == 0)
++				bw_bmp = ch_width_to_bw_cap(Bandwidth > CHANNEL_WIDTH_40 ? CHANNEL_WIDTH_40 : Bandwidth);
++		} else if (IS_VHT_RATE_SECTION(rs)) {
++			bw_bmp = rtw_get_tx_bw_bmp_of_vht_rate(dvobj, DataRate, Bandwidth);
++			if (bw_bmp == 0)
++				bw_bmp = ch_width_to_bw_cap(Bandwidth > CHANNEL_WIDTH_160 ? CHANNEL_WIDTH_160 : Bandwidth);
++		} else
++			rtw_warn_on(1);
++	}
++
++	if (bw_bmp == 0)
++		goto exit;
++
++	/* loop for each possible tx bandwidth to find minimum limit */
++	for (bw = CHANNEL_WIDTH_20; bw <= Bandwidth; bw++) {
++		s8 ch_idx;
++
++		if (!(ch_width_to_bw_cap(bw) & bw_bmp))
++			continue;
++
++		if (no_sc == _FALSE) {
++			if (bw == CHANNEL_WIDTH_20)
++				cch = hal_data->cch_20;
++			else if (bw == CHANNEL_WIDTH_40)
++				cch = hal_data->cch_40;
++			else if (bw == CHANNEL_WIDTH_80)
++				cch = hal_data->cch_80;
++			else {
++				cch = 0;
++				rtw_warn_on(1);
++			}
++		}
++
++		ch_idx = phy_GetChannelIndexOfTxPowerLimit(Band, cch);
++		if (ch_idx == -1)
++			continue;
++
++		if (Band == BAND_ON_2_4G) {
++			s8 limits[MAX_REGULATION_NUM] = {0};
++			u8 i = 0;
++
++			for (i = 0; i < MAX_REGULATION_NUM; ++i)
++				limits[i] = hal_data->TxPwrLimit_2_4G[i][bw][rs][ch_idx][RfPath];
++
++			tmp_lmt = (regulation == TXPWR_LMT_WW) ? phy_GetWorldWideLimit(limits) :
++				hal_data->TxPwrLimit_2_4G[regulation][bw][rs][ch_idx][RfPath];
++
++		} else if (Band == BAND_ON_5G) {
++			s8 limits[MAX_REGULATION_NUM] = {0};
++			u8 i = 0;
++
++			for (i = 0; i < MAX_REGULATION_NUM; ++i)
++				limits[i] = hal_data->TxPwrLimit_5G[i][bw][rs][ch_idx][RfPath];
++
++			tmp_lmt = (regulation == TXPWR_LMT_WW) ? phy_GetWorldWideLimit(limits) :
++				hal_data->TxPwrLimit_5G[regulation][bw][rs][ch_idx][RfPath];
++		} else
++			continue;
++
++		if (min_lmt >= tmp_lmt) {
++			min_lmt = tmp_lmt;
++			final_cch = cch;
++			final_bw = bw;
++		}
++	}
++
++exit:
++	return min_lmt;
++}
++
++inline s8
++PHY_GetTxPowerLimit(
++	IN	PADAPTER			Adapter,
++	IN	u32					RegPwrTblSel,
++	IN	BAND_TYPE			Band,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					RfPath,
++	IN	u8					DataRate,
++	IN	u8					Channel
++)
++{
++	BOOLEAN no_sc = _FALSE;
++
++	/* MP mode channel don't use secondary channel */
++	if (rtw_mi_mp_mode_check(Adapter) == _TRUE)
++		no_sc = _TRUE;
++
++	return _phy_get_txpwr_lmt(Adapter, RegPwrTblSel, Band, Bandwidth, RfPath, DataRate, Channel, no_sc);
++}
++
++inline s8
++PHY_GetTxPowerLimit_no_sc(
++	IN	PADAPTER			Adapter,
++	IN	u32					RegPwrTblSel,
++	IN	BAND_TYPE			Band,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					RfPath,
++	IN	u8					DataRate,
++	IN	u8					Channel
++)
++{
++	return _phy_get_txpwr_lmt(Adapter, RegPwrTblSel, Band, Bandwidth, RfPath, DataRate, Channel, _TRUE);
++}
++
++#ifdef CONFIG_PHYDM_POWERTRACK_BY_TSSI
++s8
++PHY_GetTxPowerLimitOriginal(
++	IN	PADAPTER			Adapter,
++	IN	u32					RegPwrTblSel,
++	IN	BAND_TYPE			Band,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					RfPath,
++	IN	u8					DataRate,
++	IN	u8					Channel
++)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	s16				band = -1, regulation = -1, bandwidth = -1,
++					rateSection = -1, channel = -1;
++	s8				powerLimit = MAX_POWER_INDEX;
++
++	if ((Adapter->registrypriv.RegEnableTxPowerLimit == 2 && pHalData->EEPROMRegulatory != 1) ||
++	    Adapter->registrypriv.RegEnableTxPowerLimit == 0)
++		return MAX_POWER_INDEX;
++
++	switch (Adapter->registrypriv.RegPwrTblSel) {
++	case 1:
++		regulation = TXPWR_LMT_ETSI;
++		break;
++
++	case 2:
++		regulation = TXPWR_LMT_MKK;
++		break;
++
++	case 3:
++		regulation = TXPWR_LMT_FCC;
++		break;
++
++	case 4:
++		regulation = TXPWR_LMT_WW;
++		break;
++
++	default:
++		regulation = (Band == BAND_ON_2_4G) ? pHalData->Regulation2_4G
++			     : pHalData->Regulation5G;
++		break;
++	}
++
++	/*DBG_871X("pMgntInfo->RegPwrTblSel %d, final regulation %d\n", Adapter->registrypriv.RegPwrTblSel, regulation );*/
++
++
++	if (Band == BAND_ON_2_4G)
++		band = 0;
++	else if (Band == BAND_ON_5G)
++		band = 1;
++
++	if (Bandwidth == CHANNEL_WIDTH_20)
++		bandwidth = 0;
++	else if (Bandwidth == CHANNEL_WIDTH_40)
++		bandwidth = 1;
++	else if (Bandwidth == CHANNEL_WIDTH_80)
++		bandwidth = 2;
++	else if (Bandwidth == CHANNEL_WIDTH_160)
++		bandwidth = 3;
++
++	switch (DataRate) {
++	case MGN_1M:
++	case MGN_2M:
++	case MGN_5_5M:
++	case MGN_11M:
++		rateSection = 0;
++		break;
++
++	case MGN_6M:
++	case MGN_9M:
++	case MGN_12M:
++	case MGN_18M:
++	case MGN_24M:
++	case MGN_36M:
++	case MGN_48M:
++	case MGN_54M:
++		rateSection = 1;
++		break;
++
++	case MGN_MCS0:
++	case MGN_MCS1:
++	case MGN_MCS2:
++	case MGN_MCS3:
++	case MGN_MCS4:
++	case MGN_MCS5:
++	case MGN_MCS6:
++	case MGN_MCS7:
++		rateSection = 2;
++		break;
++
++	case MGN_MCS8:
++	case MGN_MCS9:
++	case MGN_MCS10:
++	case MGN_MCS11:
++	case MGN_MCS12:
++	case MGN_MCS13:
++	case MGN_MCS14:
++	case MGN_MCS15:
++		rateSection = 3;
++		break;
++
++	case MGN_MCS16:
++	case MGN_MCS17:
++	case MGN_MCS18:
++	case MGN_MCS19:
++	case MGN_MCS20:
++	case MGN_MCS21:
++	case MGN_MCS22:
++	case MGN_MCS23:
++		rateSection = 4;
++		break;
++
++	case MGN_MCS24:
++	case MGN_MCS25:
++	case MGN_MCS26:
++	case MGN_MCS27:
++	case MGN_MCS28:
++	case MGN_MCS29:
++	case MGN_MCS30:
++	case MGN_MCS31:
++		rateSection = 5;
++		break;
++
++	case MGN_VHT1SS_MCS0:
++	case MGN_VHT1SS_MCS1:
++	case MGN_VHT1SS_MCS2:
++	case MGN_VHT1SS_MCS3:
++	case MGN_VHT1SS_MCS4:
++	case MGN_VHT1SS_MCS5:
++	case MGN_VHT1SS_MCS6:
++	case MGN_VHT1SS_MCS7:
++	case MGN_VHT1SS_MCS8:
++	case MGN_VHT1SS_MCS9:
++		rateSection = 6;
++		break;
++
++	case MGN_VHT2SS_MCS0:
++	case MGN_VHT2SS_MCS1:
++	case MGN_VHT2SS_MCS2:
++	case MGN_VHT2SS_MCS3:
++	case MGN_VHT2SS_MCS4:
++	case MGN_VHT2SS_MCS5:
++	case MGN_VHT2SS_MCS6:
++	case MGN_VHT2SS_MCS7:
++	case MGN_VHT2SS_MCS8:
++	case MGN_VHT2SS_MCS9:
++		rateSection = 7;
++		break;
++
++	case MGN_VHT3SS_MCS0:
++	case MGN_VHT3SS_MCS1:
++	case MGN_VHT3SS_MCS2:
++	case MGN_VHT3SS_MCS3:
++	case MGN_VHT3SS_MCS4:
++	case MGN_VHT3SS_MCS5:
++	case MGN_VHT3SS_MCS6:
++	case MGN_VHT3SS_MCS7:
++	case MGN_VHT3SS_MCS8:
++	case MGN_VHT3SS_MCS9:
++		rateSection = 8;
++		break;
++
++	case MGN_VHT4SS_MCS0:
++	case MGN_VHT4SS_MCS1:
++	case MGN_VHT4SS_MCS2:
++	case MGN_VHT4SS_MCS3:
++	case MGN_VHT4SS_MCS4:
++	case MGN_VHT4SS_MCS5:
++	case MGN_VHT4SS_MCS6:
++	case MGN_VHT4SS_MCS7:
++	case MGN_VHT4SS_MCS8:
++	case MGN_VHT4SS_MCS9:
++		rateSection = 9;
++		break;
++
++	default:
++		DBG_871X("Wrong rate 0x%x\n", DataRate);
++		break;
++	}
++
++	if (Band == BAND_ON_5G  && rateSection == 0)
++		DBG_871X("Wrong rate 0x%x: No CCK in 5G Band\n", DataRate);
++
++	/*workaround for wrong index combination to obtain tx power limit,*/
++	/*OFDM only exists in BW 20M*/
++	if (rateSection == 1)
++		bandwidth = 0;
++
++	/*workaround for wrong index combination to obtain tx power limit,*/
++	/*CCK table will only be given in BW 20M*/
++	if (rateSection == 0)
++		bandwidth = 0;
++
++	/*workaround for wrong indxe combination to obtain tx power limit,*/
++	/*HT on 80M will reference to HT on 40M*/
++	if ((rateSection == 2 || rateSection == 3) && Band == BAND_ON_5G && bandwidth == 2)
++		bandwidth = 1;
++
++	if (Band == BAND_ON_2_4G)
++		channel = phy_GetChannelIndexOfTxPowerLimit(BAND_ON_2_4G, Channel);
++	else if (Band == BAND_ON_5G)
++		channel = phy_GetChannelIndexOfTxPowerLimit(BAND_ON_5G, Channel);
++	else if (Band == BAND_ON_BOTH)
++		/*BAND_ON_BOTH don't care temporarily*/
++
++		if (band == -1 || regulation == -1 || bandwidth == -1 ||
++		    rateSection == -1 || channel == -1) {
++			/*DBG_871X("Wrong index value to access power limit table [band %d][regulation %d][bandwidth %d][rf_path %d][rate_section %d][chnlGroup %d]\n",*/
++			/*	  band, regulation, bandwidth, RfPath, rateSection, channelGroup );*/
++
++			return MAX_POWER_INDEX;
++		}
++
++	if (Band == BAND_ON_2_4G) {
++		s8 limits[10] = {0};
++		u8 i = 0;
++
++		if (bandwidth >= MAX_2_4G_BANDWIDTH_NUM)
++			bandwidth = MAX_2_4G_BANDWIDTH_NUM - 1;
++
++		for (i = 0; i < MAX_REGULATION_NUM; ++i)
++			limits[i] = pHalData->TxPwrLimit_2_4G_Original[i][bandwidth][rateSection][channel][RfPath];
++
++		powerLimit = (regulation == TXPWR_LMT_WW) ? phy_GetWorldWideLimit(limits) :
++			pHalData->TxPwrLimit_2_4G_Original[regulation][bandwidth][rateSection][channel][RfPath];
++
++	} else if (Band == BAND_ON_5G) {
++		s8 limits[10] = {0};
++		u8 i = 0;
++
++		for (i = 0; i < MAX_REGULATION_NUM; ++i)
++			limits[i] = pHalData->TxPwrLimit_5G_Original[i][bandwidth][rateSection][channel][RfPath];
++
++		powerLimit = (regulation == TXPWR_LMT_WW) ? phy_GetWorldWideLimit(limits) :
++			pHalData->TxPwrLimit_5G_Original[regulation][bandwidth][rateSection][channel][RfPath];
++	} else
++		DBG_871X("No power limit table of the specified band\n");
++
++	/*combine 5G VHT & HT rate*/
++	/*5G 20M and 40M HT and VHT can cross reference*/
++	/*
++	if (Band == BAND_ON_5G && powerLimit == MAX_POWER_INDEX) {
++		if (bandwidth == 0 || bandwidth == 1) {
++			if (rateSection == 2)
++				powerLimit = pHalData->TxPwrLimit_5G_Original[regulation]
++										[bandwidth][4][channelGroup][RfPath];
++			else if (rateSection == 4)
++				powerLimit = pHalData->TxPwrLimit_5G_Original[regulation]
++										[bandwidth][2][channelGroup][RfPath];
++			else if (rateSection == 3)
++				powerLimit = pHalData->TxPwrLimit_5G_Original[regulation]
++										[bandwidth][5][channelGroup][RfPath];
++			else if (rateSection == 5)
++				powerLimit = pHalData->TxPwrLimit_5G_Original[regulation]
++										[bandwidth][3][channelGroup][RfPath];
++		}
++	}
++	*/
++	/*DBG_871X("TxPwrLmt[Regulation %d][Band %d][BW %d][RFPath %d][Rate 0x%x][Chnl %d] = %d\n",*/
++	/*		regulation, pHalData->CurrentBandType, Bandwidth, RfPath, DataRate, Channel, powerLimit);*/
++	return powerLimit;
++}
++#endif
++
++
++VOID
++phy_CrossReferenceHTAndVHTTxPowerLimit(
++	IN	PADAPTER			pAdapter
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++	u8 regulation, bw, channel, rs, ref_rs;
++	int ht_ref_vht_5g_20_40 = 0;
++	int vht_ref_ht_5g_20_40 = 0;
++	int ht_has_ref_5g_20_40 = 0;
++	int vht_has_ref_5g_20_40 = 0;
++
++	pHalData->tx_pwr_lmt_5g_20_40_ref = 0;
++
++	for (regulation = 0; regulation < MAX_REGULATION_NUM; ++regulation) {
++
++		for (bw = 0; bw < MAX_5G_BANDWIDTH_NUM; ++bw) {
++
++			for (channel = 0; channel < CENTER_CH_5G_ALL_NUM; ++channel) {
++
++				for (rs = 0; rs < MAX_RATE_SECTION_NUM; ++rs) {
++
++					/* 5G 20M 40M VHT and HT can cross reference */
++					if (bw == CHANNEL_WIDTH_20 || bw == CHANNEL_WIDTH_40) {
++						if (rs == HT_1SS)
++							ref_rs = VHT_1SS;
++						else if (rs == HT_2SS)
++							ref_rs = VHT_2SS;
++						else if (rs == HT_3SS)
++							ref_rs = VHT_3SS;
++						else if (rs == HT_4SS)
++							ref_rs = VHT_4SS;
++						else if (rs == VHT_1SS)
++							ref_rs = HT_1SS;
++						else if (rs == VHT_2SS)
++							ref_rs = HT_2SS;
++						else if (rs == VHT_3SS)
++							ref_rs = HT_3SS;
++						else if (rs == VHT_4SS)
++							ref_rs = HT_4SS;
++						else
++							continue;
++
++						if (pHalData->TxPwrLimit_5G[regulation][bw][ref_rs][channel][RF_PATH_A] == MAX_POWER_INDEX)
++							continue;
++
++						if (IS_HT_RATE_SECTION(rs))
++							ht_has_ref_5g_20_40++;
++						else if (IS_VHT_RATE_SECTION(rs))
++							vht_has_ref_5g_20_40++;
++						else
++							continue;
++
++						if (pHalData->TxPwrLimit_5G[regulation][bw][rs][channel][RF_PATH_A] != MAX_POWER_INDEX)
++							continue;
++
++						if (IS_HT_RATE_SECTION(rs) && IS_VHT_RATE_SECTION(ref_rs))
++							ht_ref_vht_5g_20_40++;
++						else if (IS_VHT_RATE_SECTION(rs) && IS_HT_RATE_SECTION(ref_rs))
++							vht_ref_ht_5g_20_40++;
++
++						if (0)
++							RTW_INFO("reg:%u, bw:%u, ch:%u, %s ref %s\n"
++								, regulation, bw, channel
++								, rate_section_str(rs), rate_section_str(ref_rs));
++
++						pHalData->TxPwrLimit_5G[regulation][bw][rs][channel][RF_PATH_A] =
++							pHalData->TxPwrLimit_5G[regulation][bw][ref_rs][channel][RF_PATH_A];
++					}
++
++				}
++			}
++		}
++	}
++
++	if (0) {
++		RTW_INFO("ht_ref_vht_5g_20_40:%d, ht_has_ref_5g_20_40:%d\n", ht_ref_vht_5g_20_40, ht_has_ref_5g_20_40);
++		RTW_INFO("vht_ref_hht_5g_20_40:%d, vht_has_ref_5g_20_40:%d\n", vht_ref_ht_5g_20_40, vht_has_ref_5g_20_40);
++	}
++
++	/* 5G 20M&40M HT all come from VHT*/
++	if (ht_ref_vht_5g_20_40 && ht_has_ref_5g_20_40 == ht_ref_vht_5g_20_40)
++		pHalData->tx_pwr_lmt_5g_20_40_ref |= TX_PWR_LMT_REF_HT_FROM_VHT;
++
++	/* 5G 20M&40M VHT all come from HT*/
++	if (vht_ref_ht_5g_20_40 && vht_has_ref_5g_20_40 == vht_ref_ht_5g_20_40)
++		pHalData->tx_pwr_lmt_5g_20_40_ref |= TX_PWR_LMT_REF_VHT_FROM_HT;
++}
++
++VOID
++PHY_ConvertTxPowerLimitToPowerIndex(
++	IN	PADAPTER			Adapter
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	u8 base;
++	u8 regulation, bw, channel, rateSection;
++	s8 tempValue = 0, tempPwrLmt = 0;
++	u8 rfPath = 0;
++
++	if (pHalData->odmpriv.PhyRegPgValueType != PHY_REG_PG_EXACT_VALUE) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	phy_CrossReferenceHTAndVHTTxPowerLimit(Adapter);
++
++	for (regulation = 0; regulation < MAX_REGULATION_NUM; ++regulation) {
++
++		for (bw = 0; bw < MAX_2_4G_BANDWIDTH_NUM; ++bw) {
++
++			for (channel = 0; channel < CENTER_CH_2G_NUM; ++channel) {
++
++				for (rateSection = CCK; rateSection <= HT_4SS; ++rateSection) {
++					tempPwrLmt = pHalData->TxPwrLimit_2_4G[regulation][bw][rateSection][channel][RF_PATH_A];
++
++					if (tempPwrLmt != MAX_POWER_INDEX) {
++
++						for (rfPath = RF_PATH_A; rfPath < MAX_RF_PATH; ++rfPath) {
++							base = PHY_GetTxPowerByRateBase(Adapter, BAND_ON_2_4G, rfPath, rate_section_to_tx_num(rateSection), rateSection);
++							tempValue = tempPwrLmt - base;
++							pHalData->TxPwrLimit_2_4G[regulation][bw][rateSection][channel][rfPath] = tempValue;
++						}
++					}
++				}
++			}
++		}
++	}
++
++	if (IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(Adapter)) {
++
++		for (regulation = 0; regulation < MAX_REGULATION_NUM; ++regulation) {
++
++			for (bw = 0; bw < MAX_5G_BANDWIDTH_NUM; ++bw) {
++
++				for (channel = 0; channel < CENTER_CH_5G_ALL_NUM; ++channel) {
++
++					for (rateSection = OFDM; rateSection <= VHT_4SS; ++rateSection) {
++						tempPwrLmt = pHalData->TxPwrLimit_5G[regulation][bw][rateSection][channel][RF_PATH_A];
++
++						if (tempPwrLmt != MAX_POWER_INDEX) {
++
++							for (rfPath = RF_PATH_A; rfPath < MAX_RF_PATH; ++rfPath) {
++								base = PHY_GetTxPowerByRateBase(Adapter, BAND_ON_5G, rfPath, rate_section_to_tx_num(rateSection), rateSection);
++								tempValue = tempPwrLmt - base;
++								pHalData->TxPwrLimit_5G[regulation][bw][rateSection][channel][rfPath] = tempValue;
++							}
++						}
++					}
++				}
++			}
++		}
++	}
++}
++
++/*
++* PHY_InitTxPowerLimit - Set all hal_data.TxPwrLimit_2_4G, TxPwrLimit_5G array to MAX_POWER_INDEX
++*/
++VOID
++PHY_InitTxPowerLimit(
++	IN	PADAPTER		Adapter
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	u8 i, j, k, l, m;
++
++	for (i = 0; i < MAX_REGULATION_NUM; ++i)
++		for (j = 0; j < MAX_2_4G_BANDWIDTH_NUM; ++j)
++			for (k = 0; k < MAX_RATE_SECTION_NUM; ++k)
++				for (m = 0; m < CENTER_CH_2G_NUM; ++m)
++					for (l = 0; l < MAX_RF_PATH; ++l)
++						pHalData->TxPwrLimit_2_4G[i][j][k][m][l] = MAX_POWER_INDEX;
++
++	for (i = 0; i < MAX_REGULATION_NUM; ++i)
++		for (j = 0; j < MAX_5G_BANDWIDTH_NUM; ++j)
++			for (k = 0; k < MAX_RATE_SECTION_NUM; ++k)
++				for (m = 0; m < CENTER_CH_5G_ALL_NUM; ++m)
++					for (l = 0; l < MAX_RF_PATH; ++l)
++						pHalData->TxPwrLimit_5G[i][j][k][m][l] = MAX_POWER_INDEX;
++}
++
++/*
++* PHY_SetTxPowerLimit - Parsing TX power limit from phydm array, called by odm_ConfigBB_TXPWR_LMT_XXX in phydm
++*/
++VOID
++PHY_SetTxPowerLimit(
++	IN	PDM_ODM_T		pDM_Odm,
++	IN	u8				*Regulation,
++	IN	u8				*Band,
++	IN	u8				*Bandwidth,
++	IN	u8				*RateSection,
++	IN	u8				*RfPath,
++	IN	u8				*Channel,
++	IN	u8				*PowerLimit
++)
++{
++	PADAPTER Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	u8 regulation = 0, bandwidth = 0, rateSection = 0, channel;
++	s8 powerLimit = 0, prevPowerLimit, channelIndex;
++
++	if (0)
++		RTW_INFO("Index of power limit table [band %s][regulation %s][bw %s][rate section %s][rf path %s][chnl %s][val %s]\n"
++			, Band, Regulation, Bandwidth, RateSection, RfPath, Channel, PowerLimit);
++
++	if (GetU1ByteIntegerFromStringInDecimal((s8 *)Channel, &channel) == _FALSE
++		|| GetU1ByteIntegerFromStringInDecimal((s8 *)PowerLimit, &powerLimit) == _FALSE
++	) {
++		RTW_PRINT("Illegal index of power limit table [ch %s][val %s]\n", Channel, PowerLimit);
++		return;
++	}
++
++	powerLimit = powerLimit > MAX_POWER_INDEX ? MAX_POWER_INDEX : powerLimit;
++
++	if (eqNByte(Regulation, (u8 *)("FCC"), 3))
++		regulation = TXPWR_LMT_FCC;
++	else if (eqNByte(Regulation, (u8 *)("MKK"), 3))
++		regulation = TXPWR_LMT_MKK;
++	else if (eqNByte(Regulation, (u8 *)("ETSI"), 4))
++		regulation = TXPWR_LMT_ETSI;
++	else if (eqNByte(Regulation, (u8 *)("WW13"), 4))
++		regulation = TXPWR_LMT_WW;
++	else {
++		RTW_PRINT("unknown regulation:%s", Regulation);
++		return;
++	}
++
++	if (eqNByte(RateSection, (u8 *)("CCK"), 3) && eqNByte(RfPath, (u8 *)("1T"), 2))
++		rateSection = CCK;
++	else if (eqNByte(RateSection, (u8 *)("OFDM"), 4) && eqNByte(RfPath, (u8 *)("1T"), 2))
++		rateSection = OFDM;
++	else if (eqNByte(RateSection, (u8 *)("HT"), 2) && eqNByte(RfPath, (u8 *)("1T"), 2))
++		rateSection = HT_1SS;
++	else if (eqNByte(RateSection, (u8 *)("HT"), 2) && eqNByte(RfPath, (u8 *)("2T"), 2))
++		rateSection = HT_2SS;
++	else if (eqNByte(RateSection, (u8 *)("HT"), 2) && eqNByte(RfPath, (u8 *)("3T"), 2))
++		rateSection = HT_3SS;
++	else if (eqNByte(RateSection, (u8 *)("HT"), 2) && eqNByte(RfPath, (u8 *)("4T"), 2))
++		rateSection = HT_4SS;
++	else if (eqNByte(RateSection, (u8 *)("VHT"), 3) && eqNByte(RfPath, (u8 *)("1T"), 2))
++		rateSection = VHT_1SS;
++	else if (eqNByte(RateSection, (u8 *)("VHT"), 3) && eqNByte(RfPath, (u8 *)("2T"), 2))
++		rateSection = VHT_2SS;
++	else if (eqNByte(RateSection, (u8 *)("VHT"), 3) && eqNByte(RfPath, (u8 *)("3T"), 2))
++		rateSection = VHT_3SS;
++	else if (eqNByte(RateSection, (u8 *)("VHT"), 3) && eqNByte(RfPath, (u8 *)("4T"), 2))
++		rateSection = VHT_4SS;
++	else {
++		RTW_PRINT("Wrong rate section: (%s,%s)\n", RateSection, RfPath);
++		return;
++	}
++
++	if (eqNByte(Bandwidth, (u8 *)("20M"), 3))
++		bandwidth = CHANNEL_WIDTH_20;
++	else if (eqNByte(Bandwidth, (u8 *)("40M"), 3))
++		bandwidth = CHANNEL_WIDTH_40;
++	else if (eqNByte(Bandwidth, (u8 *)("80M"), 3))
++		bandwidth = CHANNEL_WIDTH_80;
++	else {
++		RTW_PRINT("unknown bandwidth: %s\n", Bandwidth);
++		return;
++	}
++
++	if (eqNByte(Band, (u8 *)("2.4G"), 4)) {
++		channelIndex = phy_GetChannelIndexOfTxPowerLimit(BAND_ON_2_4G, channel);
++
++		if (channelIndex == -1) {
++			RTW_PRINT("unsupported channel: %d at 2.4G\n", channel);
++			return;
++		}
++
++		if (bandwidth >= MAX_2_4G_BANDWIDTH_NUM) {
++			RTW_PRINT("unsupported bandwidth: %s at 2.4G\n", Bandwidth);
++			return;
++		}
++
++		prevPowerLimit = pHalData->TxPwrLimit_2_4G[regulation][bandwidth][rateSection][channelIndex][RF_PATH_A];
++
++		if (prevPowerLimit != MAX_POWER_INDEX)
++			RTW_PRINT("duplicate tx power limit combination [band %s][regulation %s][bw %s][rate section %s][rf path %s][chnl %s]\n"
++				, Band, Regulation, Bandwidth, RateSection, RfPath, Channel);
++
++		if (powerLimit < prevPowerLimit)
++			pHalData->TxPwrLimit_2_4G[regulation][bandwidth][rateSection][channelIndex][RF_PATH_A] = powerLimit;
++
++		if (0)
++			RTW_INFO("2.4G Band value : [regulation %d][bw %d][rate_section %d][chnl %d][val %d]\n"
++				, regulation, bandwidth, rateSection, channelIndex, pHalData->TxPwrLimit_2_4G[regulation][bandwidth][rateSection][channelIndex][ODM_RF_PATH_A]);
++	} else if (eqNByte(Band, (u8 *)("5G"), 2)) {
++
++		channelIndex = phy_GetChannelIndexOfTxPowerLimit(BAND_ON_5G, channel);
++
++		if (channelIndex == -1) {
++			RTW_PRINT("unsupported channel: %d at 5G\n", channel);
++			return;
++		}
++
++		prevPowerLimit = pHalData->TxPwrLimit_5G[regulation][bandwidth][rateSection][channelIndex][RF_PATH_A];
++
++		if (prevPowerLimit != MAX_POWER_INDEX)
++			RTW_PRINT("duplicate tx power limit combination [band %s][regulation %s][bw %s][rate section %s][rf path %s][chnl %s]\n"
++				, Band, Regulation, Bandwidth, RateSection, RfPath, Channel);
++
++		if (powerLimit < prevPowerLimit)
++			pHalData->TxPwrLimit_5G[regulation][bandwidth][rateSection][channelIndex][RF_PATH_A] = powerLimit;
++
++		if (0)
++			RTW_INFO("5G Band value : [regulation %d][bw %d][rate_section %d][chnl %d][val %d]\n"
++				, regulation, bandwidth, rateSection, channel, pHalData->TxPwrLimit_5G[regulation][bandwidth][rateSection][channelIndex][RF_PATH_A]);
++	} else {
++		RTW_PRINT("Cannot recognize the band info in %s\n", Band);
++		return;
++	}
++}
++
++u8
++PHY_GetTxPowerIndex(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	u8					Rate,
++	IN	CHANNEL_WIDTH		BandWidth,
++	IN	u8					Channel
++)
++{
++	return rtw_hal_get_tx_power_index(pAdapter, RFPath, Rate, BandWidth, Channel, NULL);
++}
++
++VOID
++PHY_SetTxPowerIndex(
++	IN	PADAPTER		pAdapter,
++	IN	u32				PowerIndex,
++	IN	u8				RFPath,
++	IN	u8				Rate
++)
++{
++	if (IS_HARDWARE_TYPE_8814A(pAdapter)) {
++#if (RTL8814A_SUPPORT == 1)
++		PHY_SetTxPowerIndex_8814A(pAdapter, PowerIndex, RFPath, Rate);
++#endif
++	} else if (IS_HARDWARE_TYPE_JAGUAR(pAdapter)) {
++#if ((RTL8812A_SUPPORT == 1) || (RTL8821A_SUPPORT == 1))
++		PHY_SetTxPowerIndex_8812A(pAdapter, PowerIndex, RFPath, Rate);
++#endif
++	} else if (IS_HARDWARE_TYPE_8723B(pAdapter)) {
++#if (RTL8723B_SUPPORT == 1)
++		PHY_SetTxPowerIndex_8723B(pAdapter, PowerIndex, RFPath, Rate);
++#endif
++	} else if (IS_HARDWARE_TYPE_8703B(pAdapter)) {
++#if (RTL8703B_SUPPORT == 1)
++		PHY_SetTxPowerIndex_8703B(pAdapter, PowerIndex, RFPath, Rate);
++#endif
++	} else if (IS_HARDWARE_TYPE_8723D(pAdapter)) {
++#if (RTL8723D_SUPPORT == 1)
++		PHY_SetTxPowerIndex_8723D(pAdapter, PowerIndex, RFPath, Rate);
++#endif
++	} else if (IS_HARDWARE_TYPE_8192E(pAdapter)) {
++#if (RTL8192E_SUPPORT == 1)
++		PHY_SetTxPowerIndex_8192E(pAdapter, PowerIndex, RFPath, Rate);
++#endif
++	} else if (IS_HARDWARE_TYPE_8188E(pAdapter)) {
++#if (RTL8188E_SUPPORT == 1)
++		PHY_SetTxPowerIndex_8188E(pAdapter, PowerIndex, RFPath, Rate);
++#endif
++	} else if (IS_HARDWARE_TYPE_8188F(pAdapter)) {
++#if (RTL8188F_SUPPORT == 1)
++		PHY_SetTxPowerIndex_8188F(pAdapter, PowerIndex, RFPath, Rate);
++#endif
++	} else if (IS_HARDWARE_TYPE_8822B(pAdapter))
++		rtw_hal_set_tx_power_index(pAdapter, PowerIndex, RFPath, Rate);
++	else if (IS_HARDWARE_TYPE_8821C(pAdapter))
++		rtw_hal_set_tx_power_index(pAdapter, PowerIndex, RFPath, Rate);
++}
++
++void dump_tx_power_idx_title(void *sel, _adapter *adapter)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	u8 bw = hal_data->CurrentChannelBW;
++
++	RTW_PRINT_SEL(sel, "%s", ch_width_str(bw));
++	if (bw >= CHANNEL_WIDTH_80)
++		_RTW_PRINT_SEL(sel, ", cch80:%u", hal_data->cch_80);
++	if (bw >= CHANNEL_WIDTH_40)
++		_RTW_PRINT_SEL(sel, ", cch40:%u", hal_data->cch_40);
++	_RTW_PRINT_SEL(sel, ", cch20:%u\n", hal_data->cch_20);
++
++	RTW_PRINT_SEL(sel, "%-4s %-9s %-3s %-4s %-3s %-4s %-4s %-3s %-5s\n"
++		, "path", "rate", "pwr", "base", "", "(byr", "lmt)", "tpt", "ebias");
++}
++
++void dump_tx_power_idx_by_path_rs(void *sel, _adapter *adapter, u8 rfpath, u8 rs)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	u8 power_idx;
++	struct txpwr_idx_comp tic;
++	u8 tx_num, i;
++	u8 band = hal_data->CurrentBandType;
++	u8 cch = hal_data->CurrentChannel;
++	u8 bw = hal_data->CurrentChannelBW;
++
++	if (!HAL_SPEC_CHK_RF_PATH(hal_spec, rfpath))
++		return;
++
++	if (rs >= RATE_SECTION_NUM)
++		return;
++
++	tx_num = rate_section_to_tx_num(rs);
++	if (tx_num >= hal_spec->nss_num || tx_num >= hal_spec->max_tx_cnt)
++		return;
++
++	if (band == BAND_ON_5G && IS_CCK_RATE_SECTION(rs))
++		return;
++
++	if (IS_VHT_RATE_SECTION(rs) && !IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(adapter))
++		return;
++
++	for (i = 0; i < rates_by_sections[rs].rate_num; i++) {
++		power_idx = rtw_hal_get_tx_power_index(adapter, rfpath, rates_by_sections[rs].rates[i], bw, cch, &tic);
++
++		RTW_PRINT_SEL(sel, "%4c %9s %3u %4u %3d (%3d %3d) %3d %5d\n"
++			, rf_path_char(rfpath), MGN_RATE_STR(rates_by_sections[rs].rates[i])
++			, power_idx, tic.base, (tic.by_rate > tic.limit ? tic.limit : tic.by_rate), tic.by_rate, tic.limit, tic.tpt, tic.ebias);
++	}
++}
++
++void dump_tx_power_idx(void *sel, _adapter *adapter)
++{
++	u8 rfpath, rs;
++
++	dump_tx_power_idx_title(sel, adapter);
++	for (rfpath = RF_PATH_A; rfpath < RF_PATH_MAX; rfpath++)
++		for (rs = CCK; rs < RATE_SECTION_NUM; rs++)
++			dump_tx_power_idx_by_path_rs(sel, adapter, rfpath, rs);
++}
++
++bool phy_is_tx_power_limit_needed(_adapter *adapter)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct registry_priv *regsty = dvobj_to_regsty(adapter_to_dvobj(adapter));
++
++	if (regsty->RegEnableTxPowerLimit == 1
++		|| (regsty->RegEnableTxPowerLimit == 2 && hal_data->EEPROMRegulatory == 1))
++		return _TRUE;
++	return _FALSE;
++}
++
++bool phy_is_tx_power_by_rate_needed(_adapter *adapter)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct registry_priv *regsty = dvobj_to_regsty(adapter_to_dvobj(adapter));
++
++	if (regsty->RegEnableTxPowerByRate == 1
++		|| (regsty->RegEnableTxPowerByRate == 2 && hal_data->EEPROMRegulatory != 2))
++		return _TRUE;
++	return _FALSE;
++}
++
++int phy_load_tx_power_by_rate(_adapter *adapter, u8 chk_file)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct registry_priv *regsty = dvobj_to_regsty(adapter_to_dvobj(adapter));
++	int ret = _FAIL;
++
++	hal_data->txpwr_by_rate_loaded = 0;
++	PHY_InitTxPowerByRate(adapter);
++
++	/* tx power limit is based on tx power by rate */
++	hal_data->txpwr_limit_loaded = 0;
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	if (chk_file
++		&& phy_ConfigBBWithPgParaFile(adapter, PHY_FILE_PHY_REG_PG) == _SUCCESS
++	) {
++		hal_data->txpwr_by_rate_from_file = 1;
++		goto post_hdl;
++	}
++#endif
++
++#ifdef CONFIG_EMBEDDED_FWIMG
++	if (HAL_STATUS_SUCCESS == ODM_ConfigBBWithHeaderFile(&hal_data->odmpriv, CONFIG_BB_PHY_REG_PG)) {
++		RTW_INFO("default power by rate loaded\n");
++		hal_data->txpwr_by_rate_from_file = 0;
++		goto post_hdl;
++	}
++#endif
++
++	RTW_ERR("%s():Read Tx power by rate fail\n", __func__);
++	goto exit;
++
++post_hdl:
++	if (hal_data->odmpriv.PhyRegPgValueType != PHY_REG_PG_EXACT_VALUE) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	PHY_TxPowerByRateConfiguration(adapter);
++	hal_data->txpwr_by_rate_loaded = 1;
++
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++int phy_load_tx_power_limit(_adapter *adapter, u8 chk_file)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct registry_priv *regsty = dvobj_to_regsty(adapter_to_dvobj(adapter));
++	int ret = _FAIL;
++
++	hal_data->txpwr_limit_loaded = 0;
++	PHY_InitTxPowerLimit(adapter);
++
++	if (!hal_data->txpwr_by_rate_loaded && regsty->target_tx_pwr_valid != _TRUE) {
++		RTW_ERR("%s():Read Tx power limit before target tx power is specify\n", __func__);
++		goto exit;
++	}
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	if (chk_file
++		&& PHY_ConfigRFWithPowerLimitTableParaFile(adapter, PHY_FILE_TXPWR_LMT) == _SUCCESS
++	) {
++		hal_data->txpwr_limit_from_file = 1;
++		goto post_hdl;
++	}
++#endif
++
++#ifdef CONFIG_EMBEDDED_FWIMG
++	if (HAL_STATUS_SUCCESS == ODM_ConfigRFWithHeaderFile(&hal_data->odmpriv, CONFIG_RF_TXPWR_LMT, (ODM_RF_RADIO_PATH_E)0)) {
++		RTW_INFO("default power limit loaded\n");
++		hal_data->txpwr_limit_from_file = 0;
++		goto post_hdl;
++	}
++#endif
++
++	RTW_ERR("%s():Read Tx power limit fail\n", __func__);
++	goto exit;
++
++post_hdl:
++	PHY_ConvertTxPowerLimitToPowerIndex(adapter);
++	hal_data->txpwr_limit_loaded = 1;
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++void phy_load_tx_power_ext_info(_adapter *adapter, u8 chk_file)
++{
++	struct registry_priv *regsty = adapter_to_regsty(adapter);
++
++	/* check registy target tx power */
++	regsty->target_tx_pwr_valid = rtw_regsty_chk_target_tx_power_valid(adapter);
++
++	/* power by rate and limit */
++	if (phy_is_tx_power_by_rate_needed(adapter)
++		|| (phy_is_tx_power_limit_needed(adapter) && regsty->target_tx_pwr_valid != _TRUE)
++	)
++		phy_load_tx_power_by_rate(adapter, chk_file);
++
++	if (phy_is_tx_power_limit_needed(adapter))
++		phy_load_tx_power_limit(adapter, chk_file);
++}
++
++inline void phy_reload_tx_power_ext_info(_adapter *adapter)
++{
++	phy_load_tx_power_ext_info(adapter, 1);
++}
++
++inline void phy_reload_default_tx_power_ext_info(_adapter *adapter)
++{
++	phy_load_tx_power_ext_info(adapter, 0);
++}
++
++void dump_tx_power_ext_info(void *sel, _adapter *adapter)
++{
++	struct registry_priv *regsty = adapter_to_regsty(adapter);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++
++	if (regsty->target_tx_pwr_valid == _TRUE)
++		RTW_PRINT_SEL(sel, "target_tx_power: from registry\n");
++	else if (phy_is_tx_power_by_rate_needed(adapter))
++		RTW_PRINT_SEL(sel, "target_tx_power: from power by rate\n"); 
++	else
++		RTW_PRINT_SEL(sel, "target_tx_power: unavailable\n");
++
++	RTW_PRINT_SEL(sel, "tx_power_by_rate: %s, %s, %s\n"
++		, phy_is_tx_power_by_rate_needed(adapter) ? "enabled" : "disabled"
++		, hal_data->txpwr_by_rate_loaded ? "loaded" : "unloaded"
++		, hal_data->txpwr_by_rate_from_file ? "file" : "default"
++	);
++
++	RTW_PRINT_SEL(sel, "tx_power_limit: %s, %s, %s\n"
++		, phy_is_tx_power_limit_needed(adapter) ? "enabled" : "disabled"
++		, hal_data->txpwr_limit_loaded ? "loaded" : "unloaded"
++		, hal_data->txpwr_limit_from_file ? "file" : "default"
++	);
++}
++
++void dump_target_tx_power(void *sel, _adapter *adapter)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct registry_priv *regsty = adapter_to_regsty(adapter);
++	int path, tx_num, band, rs;
++	u8 target;
++
++	for (band = BAND_ON_2_4G; band <= BAND_ON_5G; band++) {
++		if (!hal_is_band_support(adapter, band))
++			continue;
++
++		for (path = 0; path < RF_PATH_MAX; path++) {
++			if (path >= hal_data->NumTotalRFPath)
++				break;
++
++			RTW_PRINT_SEL(sel, "[%s][%c]\n", band_str(band), rf_path_char(path));
++
++			for (rs = 0; rs < RATE_SECTION_NUM; rs++) {
++				tx_num = rate_section_to_tx_num(rs);
++				if (tx_num >= hal_spec->nss_num)
++					continue;
++
++				if (band == BAND_ON_5G && IS_CCK_RATE_SECTION(rs))
++					continue;
++
++				if (IS_VHT_RATE_SECTION(rs) && !IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(adapter))
++					continue;
++
++				target = PHY_GetTxPowerByRateBase(adapter, band, path, rate_section_to_tx_num(rs), rs);
++
++				if (target % 2)
++					_RTW_PRINT_SEL(sel, "%7s: %2d.5\n", rate_section_str(rs), target / 2);
++				else
++					_RTW_PRINT_SEL(sel, "%7s: %4d\n", rate_section_str(rs), target / 2);
++			}
++		}
++	}
++
++exit:
++	return;
++}
++
++void dump_tx_power_by_rate(void *sel, _adapter *adapter)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	int path, tx_num, band, n, rs;
++	u8 rate_num, max_rate_num, base;
++	s8 by_rate_offset;
++
++	for (band = BAND_ON_2_4G; band <= BAND_ON_5G; band++) {
++		if (!hal_is_band_support(adapter, band))
++			continue;
++
++		for (path = 0; path < RF_PATH_MAX; path++) {
++			if (path >= hal_data->NumTotalRFPath)
++				break;
++
++			RTW_PRINT_SEL(sel, "[%s][%c]\n", band_str(band), rf_path_char(path));
++
++			for (rs = 0; rs < RATE_SECTION_NUM; rs++) {
++				tx_num = rate_section_to_tx_num(rs);
++				if (tx_num >= hal_spec->nss_num)
++					continue;
++
++				if (band == BAND_ON_5G && IS_CCK_RATE_SECTION(rs))
++					continue;
++
++				if (IS_VHT_RATE_SECTION(rs) && !IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(adapter))
++					continue;
++
++				if (IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(adapter))
++					max_rate_num = 10;
++				else
++					max_rate_num = 8;
++				rate_num = rate_section_rate_num(rs);
++				base = PHY_GetTxPowerByRateBase(adapter, band, path, tx_num, rs);
++
++				RTW_PRINT_SEL(sel, "%7s: ", rate_section_str(rs));
++
++				/* dump power by rate in db */
++				for (n = rate_num - 1; n >= 0; n--) {
++					by_rate_offset = PHY_GetTxPowerByRate(adapter, band, path, tx_num, rates_by_sections[rs].rates[n]);
++
++					if ((base + by_rate_offset) % 2)
++						_RTW_PRINT_SEL(sel, "%2d.5 ", (base + by_rate_offset) / 2);
++					else
++						_RTW_PRINT_SEL(sel, "%4d ", (base + by_rate_offset) / 2);
++				}
++				for (n = 0; n < max_rate_num - rate_num; n++)
++					_RTW_PRINT_SEL(sel, "%4s ", "");
++
++				_RTW_PRINT_SEL(sel, "|");
++
++				/* dump power by rate in offset */
++				for (n = rate_num - 1; n >= 0; n--) {
++					by_rate_offset = PHY_GetTxPowerByRate(adapter, band, path, tx_num, rates_by_sections[rs].rates[n]);
++					_RTW_PRINT_SEL(sel, "%3d ", by_rate_offset);
++				}
++				RTW_PRINT_SEL(sel, "\n");
++
++			}
++		}
++	}
++}
++
++void dump_tx_power_limit(void *sel, _adapter *adapter)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct registry_priv *regsty = dvobj_to_regsty(adapter_to_dvobj(adapter));
++
++	int bw, band, ch_num, rs, i, path;
++	u8 ch, n, rd;
++
++	if (IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(adapter))
++		RTW_PRINT_SEL(sel, "tx_pwr_lmt_5g_20_40_ref:0x%02x\n", hal_data->tx_pwr_lmt_5g_20_40_ref);
++
++	for (band = BAND_ON_2_4G; band <= BAND_ON_5G; band++) {
++		if (!hal_is_band_support(adapter, band))
++			continue;
++
++		rd = (band == BAND_ON_2_4G ? hal_data->Regulation2_4G : hal_data->Regulation5G);
++
++		for (bw = 0; bw < MAX_5G_BANDWIDTH_NUM; bw++) {
++
++			if (bw >= CHANNEL_WIDTH_160)
++				break;
++			if (band == BAND_ON_2_4G && bw >= CHANNEL_WIDTH_80)
++				break;
++
++			if (band == BAND_ON_2_4G)
++				ch_num = CENTER_CH_2G_NUM;
++			else
++				ch_num = center_chs_5g_num(bw);
++
++			if (ch_num == 0) {
++				rtw_warn_on(1);
++				break;
++			}
++
++			for (rs = 0; rs < RATE_SECTION_NUM; rs++) {
++				if (band == BAND_ON_2_4G && IS_VHT_RATE_SECTION(rs))
++					continue;
++				if (band == BAND_ON_5G && IS_CCK_RATE_SECTION(rs))
++					continue;
++				if (bw > CHANNEL_WIDTH_20 && (IS_CCK_RATE_SECTION(rs) || IS_OFDM_RATE_SECTION(rs)))
++					continue;
++				if (bw > CHANNEL_WIDTH_40 && IS_HT_RATE_SECTION(rs))
++					continue;
++
++				if (rate_section_to_tx_num(rs) >= hal_spec->nss_num)
++					continue;
++
++				if (IS_VHT_RATE_SECTION(rs) && !IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(adapter))
++					continue;
++
++				/* by pass 5G 20M, 40M pure reference */
++				if (band == BAND_ON_5G && (bw == CHANNEL_WIDTH_20 || bw == CHANNEL_WIDTH_40)) {
++					if (hal_data->tx_pwr_lmt_5g_20_40_ref == TX_PWR_LMT_REF_HT_FROM_VHT) {
++						if (IS_HT_RATE_SECTION(rs))
++							continue;
++					} else if (hal_data->tx_pwr_lmt_5g_20_40_ref == TX_PWR_LMT_REF_VHT_FROM_HT) {
++						if (IS_VHT_RATE_SECTION(rs) && bw <= CHANNEL_WIDTH_40)
++							continue;
++					}
++				}
++
++				RTW_PRINT_SEL(sel, "[%s][%s][%s]\n"
++					, band_str(band)
++					, ch_width_str(bw)
++					, rate_section_str(rs)
++				);
++
++				/* header for limit in db */
++				RTW_PRINT_SEL(sel, "%3s %5s %5s %5s %5s "
++					, "ch"
++					, (rd == TXPWR_LMT_FCC ? "*FCC" : "FCC")
++					, (rd == TXPWR_LMT_ETSI ? "*ETSI" : "ETSI")
++					, (rd == TXPWR_LMT_MKK ? "*MKK" : "MKK")
++					, (rd == TXPWR_LMT_WW ? "*WW" : "WW")
++				);
++
++				/* header for limit offset */
++				for (path = 0; path < RF_PATH_MAX; path++) {
++					if (path >= hal_data->NumTotalRFPath)
++						break;
++					_RTW_PRINT_SEL(sel, "|%3c %3c %3c %3c "
++						, (rd == TXPWR_LMT_FCC ? rf_path_char(path) : ' ')
++						, (rd == TXPWR_LMT_ETSI ? rf_path_char(path) : ' ')
++						, (rd == TXPWR_LMT_MKK ? rf_path_char(path) : ' ')
++						, (rd == TXPWR_LMT_WW ? rf_path_char(path) : ' ')
++					);
++				}
++				_RTW_PRINT_SEL(sel, "\n");
++
++				for (n = 0; n < ch_num; n++) {
++					s8 limit_idx[RF_PATH_MAX][MAX_REGULATION_NUM];
++					s8 limit_offset[MAX_REGULATION_NUM];
++					u8 base;
++
++					if (band == BAND_ON_2_4G)
++						ch = n + 1;
++					else
++						ch = center_chs_5g(bw, n);
++
++					if (ch == 0) {
++						rtw_warn_on(1);
++						break;
++					}
++
++					/* dump limit in db (calculate from path A) */
++					limit_offset[0] = PHY_GetTxPowerLimit_no_sc(adapter, 3, band, bw, RF_PATH_A, rates_by_sections[rs].rates[0], ch); /* FCC */
++					limit_offset[1] = PHY_GetTxPowerLimit_no_sc(adapter, 1, band, bw, RF_PATH_A, rates_by_sections[rs].rates[0], ch); /* ETSI */
++					limit_offset[2] = PHY_GetTxPowerLimit_no_sc(adapter, 2, band, bw, RF_PATH_A, rates_by_sections[rs].rates[0], ch); /* MKK */
++					limit_offset[3] = PHY_GetTxPowerLimit_no_sc(adapter, 4, band, bw, RF_PATH_A, rates_by_sections[rs].rates[0], ch); /* WW */
++
++					base = PHY_GetTxPowerByRateBase(adapter, band, RF_PATH_A, rate_section_to_tx_num(rs), rs);
++
++					RTW_PRINT_SEL(sel, "%3u ", ch);
++					for (i = 0; i < MAX_REGULATION_NUM; i++) {
++						if (limit_offset[i] == MAX_POWER_INDEX) {
++							limit_idx[0][i] = MAX_POWER_INDEX;
++							_RTW_PRINT_SEL(sel, "%5s ", "NA");
++						} else {
++							limit_idx[0][i] = limit_offset[i] + base;
++							if ((limit_offset[i] + base) % 2)
++								_RTW_PRINT_SEL(sel, "%3d.5 ", (limit_offset[i] + base) / 2);
++							else
++								_RTW_PRINT_SEL(sel, "%5d ", (limit_offset[i] + base) / 2);
++						}
++					}
++
++					/* dump limit offset of each path */
++					for (path = 0; path < RF_PATH_MAX; path++) {
++						if (path >= hal_data->NumTotalRFPath)
++							break;
++						limit_offset[0] = PHY_GetTxPowerLimit_no_sc(adapter, 3, band, bw, path, rates_by_sections[rs].rates[0], ch); /* FCC */
++						limit_offset[1] = PHY_GetTxPowerLimit_no_sc(adapter, 1, band, bw, path, rates_by_sections[rs].rates[0], ch); /* ETSI */
++						limit_offset[2] = PHY_GetTxPowerLimit_no_sc(adapter, 2, band, bw, path, rates_by_sections[rs].rates[0], ch); /* MKK */
++						limit_offset[3] = PHY_GetTxPowerLimit_no_sc(adapter, 4, band, bw, path, rates_by_sections[rs].rates[0], ch); /* WW */
++
++						base = PHY_GetTxPowerByRateBase(adapter, band, path, rate_section_to_tx_num(rs), rs);
++
++						_RTW_PRINT_SEL(sel, "|");
++						for (i = 0; i < MAX_REGULATION_NUM; i++) {
++							if (limit_offset[i] == MAX_POWER_INDEX) {
++								limit_idx[path][i] = MAX_POWER_INDEX;
++								_RTW_PRINT_SEL(sel, "%3s ", "NA");
++							} else {
++								limit_idx[path][i] = limit_offset[i] + base;
++								_RTW_PRINT_SEL(sel, "%3d ", limit_offset[i]);
++							}
++						}
++					}
++
++					/* compare limit_idx of each path, print 'x' when mismatch */
++					if (hal_data->NumTotalRFPath > 1) {
++						for (i = 0; i < MAX_REGULATION_NUM; i++) {
++							for (path = 0; path < RF_PATH_MAX; path++) {
++								if (path >= hal_data->NumTotalRFPath)
++									break;
++								if (limit_idx[path][i] != limit_idx[(path + 1) % hal_data->NumTotalRFPath][i])
++									break;
++							}
++							if (path >= hal_data->NumTotalRFPath)
++								_RTW_PRINT_SEL(sel, " ");
++							else
++								_RTW_PRINT_SEL(sel, "x");
++						}
++					}
++					_RTW_PRINT_SEL(sel, "\n");
++
++				}
++				RTW_PRINT_SEL(sel, "\n");
++			}
++		}
++	}
++}
++
++/*
++ * phy file path is stored in global char array rtw_phy_para_file_path
++ * need to care about racing
++ */
++int rtw_get_phy_file_path(_adapter *adapter, const char *file_name)
++{
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	int len = 0;
++
++	if (file_name) {
++		len += snprintf(rtw_phy_para_file_path, PATH_LENGTH_MAX, "%s", rtw_phy_file_path);
++		#if defined(CONFIG_MULTIDRV) || defined(REALTEK_CONFIG_PATH_WITH_IC_NAME_FOLDER)
++		len += snprintf(rtw_phy_para_file_path + len, PATH_LENGTH_MAX - len, "%s/", hal_spec->ic_name);
++		#endif
++		len += snprintf(rtw_phy_para_file_path + len, PATH_LENGTH_MAX - len, "%s", file_name);
++
++		return _TRUE;
++	}
++#endif
++	return _FALSE;
++}
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++int
++phy_ConfigMACWithParaFile(
++	IN	PADAPTER	Adapter,
++	IN	char		*pFileName
++)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	int	rlen = 0, rtStatus = _FAIL;
++	char	*szLine, *ptmp;
++	u32	u4bRegOffset, u4bRegValue, u4bMove;
++
++	if (!(Adapter->registrypriv.load_phy_file & LOAD_MAC_PARA_FILE))
++		return rtStatus;
++
++	_rtw_memset(pHalData->para_file_buf, 0, MAX_PARA_FILE_BUF_LEN);
++
++	if ((pHalData->mac_reg_len == 0) && (pHalData->mac_reg == NULL)) {
++		rtw_get_phy_file_path(Adapter, pFileName);
++		if (rtw_is_file_readable(rtw_phy_para_file_path) == _TRUE) {
++			rlen = rtw_retrieve_from_file(rtw_phy_para_file_path, pHalData->para_file_buf, MAX_PARA_FILE_BUF_LEN);
++			if (rlen > 0) {
++				rtStatus = _SUCCESS;
++				pHalData->mac_reg = rtw_zvmalloc(rlen);
++				if (pHalData->mac_reg) {
++					_rtw_memcpy(pHalData->mac_reg, pHalData->para_file_buf, rlen);
++					pHalData->mac_reg_len = rlen;
++				} else
++					RTW_INFO("%s mac_reg alloc fail !\n", __FUNCTION__);
++			}
++		}
++	} else {
++		if ((pHalData->mac_reg_len != 0) && (pHalData->mac_reg != NULL)) {
++			_rtw_memcpy(pHalData->para_file_buf, pHalData->mac_reg, pHalData->mac_reg_len);
++			rtStatus = _SUCCESS;
++		} else
++			RTW_INFO("%s(): Critical Error !!!\n", __FUNCTION__);
++	}
++
++	if (rtStatus == _SUCCESS) {
++		ptmp = pHalData->para_file_buf;
++		for (szLine = GetLineFromBuffer(ptmp); szLine != NULL; szLine = GetLineFromBuffer(ptmp)) {
++			if (!IsCommentString(szLine)) {
++				/* Get 1st hex value as register offset */
++				if (GetHexValueFromString(szLine, &u4bRegOffset, &u4bMove)) {
++					if (u4bRegOffset == 0xffff) {
++						/* Ending. */
++						break;
++					}
++
++					/* Get 2nd hex value as register value. */
++					szLine += u4bMove;
++					if (GetHexValueFromString(szLine, &u4bRegValue, &u4bMove))
++						rtw_write8(Adapter, u4bRegOffset, (u8)u4bRegValue);
++				}
++			}
++		}
++	} else
++		RTW_INFO("%s(): No File %s, Load from HWImg Array!\n", __FUNCTION__, pFileName);
++
++	return rtStatus;
++}
++
++int
++phy_ConfigBBWithParaFile(
++	IN	PADAPTER	Adapter,
++	IN	char		*pFileName,
++	IN	u32			ConfigType
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	int	rlen = 0, rtStatus = _FAIL;
++	char	*szLine, *ptmp;
++	u32	u4bRegOffset, u4bRegValue, u4bMove;
++	char	*pBuf = NULL;
++	u32	*pBufLen = NULL;
++
++	if (!(Adapter->registrypriv.load_phy_file & LOAD_BB_PARA_FILE))
++		return rtStatus;
++
++	switch (ConfigType) {
++	case CONFIG_BB_PHY_REG:
++		pBuf = pHalData->bb_phy_reg;
++		pBufLen = &pHalData->bb_phy_reg_len;
++		break;
++	case CONFIG_BB_AGC_TAB:
++		pBuf = pHalData->bb_agc_tab;
++		pBufLen = &pHalData->bb_agc_tab_len;
++		break;
++	default:
++		RTW_INFO("Unknown ConfigType!! %d\r\n", ConfigType);
++		break;
++	}
++
++	_rtw_memset(pHalData->para_file_buf, 0, MAX_PARA_FILE_BUF_LEN);
++
++	if ((pBufLen != NULL) && (*pBufLen == 0) && (pBuf == NULL)) {
++		rtw_get_phy_file_path(Adapter, pFileName);
++		if (rtw_is_file_readable(rtw_phy_para_file_path) == _TRUE) {
++			rlen = rtw_retrieve_from_file(rtw_phy_para_file_path, pHalData->para_file_buf, MAX_PARA_FILE_BUF_LEN);
++			if (rlen > 0) {
++				rtStatus = _SUCCESS;
++				pBuf = rtw_zvmalloc(rlen);
++				if (pBuf) {
++					_rtw_memcpy(pBuf, pHalData->para_file_buf, rlen);
++					*pBufLen = rlen;
++
++					switch (ConfigType) {
++					case CONFIG_BB_PHY_REG:
++						pHalData->bb_phy_reg = pBuf;
++						break;
++					case CONFIG_BB_AGC_TAB:
++						pHalData->bb_agc_tab = pBuf;
++						break;
++					}
++				} else
++					RTW_INFO("%s(): ConfigType %d  alloc fail !\n", __FUNCTION__, ConfigType);
++			}
++		}
++	} else {
++		if ((pBufLen != NULL) && (*pBufLen != 0) && (pBuf != NULL)) {
++			_rtw_memcpy(pHalData->para_file_buf, pBuf, *pBufLen);
++			rtStatus = _SUCCESS;
++		} else
++			RTW_INFO("%s(): Critical Error !!!\n", __FUNCTION__);
++	}
++
++	if (rtStatus == _SUCCESS) {
++		ptmp = pHalData->para_file_buf;
++		for (szLine = GetLineFromBuffer(ptmp); szLine != NULL; szLine = GetLineFromBuffer(ptmp)) {
++			if (!IsCommentString(szLine)) {
++				/* Get 1st hex value as register offset. */
++				if (GetHexValueFromString(szLine, &u4bRegOffset, &u4bMove)) {
++					if (u4bRegOffset == 0xffff) {
++						/* Ending. */
++						break;
++					} else if (u4bRegOffset == 0xfe || u4bRegOffset == 0xffe) {
++#ifdef CONFIG_LONG_DELAY_ISSUE
++						rtw_msleep_os(50);
++#else
++						rtw_mdelay_os(50);
++#endif
++					} else if (u4bRegOffset == 0xfd)
++						rtw_mdelay_os(5);
++					else if (u4bRegOffset == 0xfc)
++						rtw_mdelay_os(1);
++					else if (u4bRegOffset == 0xfb)
++						rtw_udelay_os(50);
++					else if (u4bRegOffset == 0xfa)
++						rtw_udelay_os(5);
++					else if (u4bRegOffset == 0xf9)
++						rtw_udelay_os(1);
++
++					/* Get 2nd hex value as register value. */
++					szLine += u4bMove;
++					if (GetHexValueFromString(szLine, &u4bRegValue, &u4bMove)) {
++						/* RTW_INFO("[BB-ADDR]%03lX=%08lX\n", u4bRegOffset, u4bRegValue); */
++						PHY_SetBBReg(Adapter, u4bRegOffset, bMaskDWord, u4bRegValue);
++
++						if (u4bRegOffset == 0xa24)
++							pHalData->odmpriv.RFCalibrateInfo.RegA24 = u4bRegValue;
++
++						/* Add 1us delay between BB/RF register setting. */
++						rtw_udelay_os(1);
++					}
++				}
++			}
++		}
++	} else
++		RTW_INFO("%s(): No File %s, Load from HWImg Array!\n", __FUNCTION__, pFileName);
++
++	return rtStatus;
++}
++
++VOID
++phy_DecryptBBPgParaFile(
++	PADAPTER		Adapter,
++	char			*buffer
++)
++{
++	u32	i = 0, j = 0;
++	u8	map[95] = {0};
++	u8	currentChar;
++	char	*BufOfLines, *ptmp;
++
++	/* RTW_INFO("=====>phy_DecryptBBPgParaFile()\n"); */
++	/* 32 the ascii code of the first visable char, 126 the last one */
++	for (i = 0; i < 95; ++i)
++		map[i] = (u8)(94 - i);
++
++	ptmp = buffer;
++	i = 0;
++	for (BufOfLines = GetLineFromBuffer(ptmp); BufOfLines != NULL; BufOfLines = GetLineFromBuffer(ptmp)) {
++		/* RTW_INFO("Encrypted Line: %s\n", BufOfLines); */
++
++		for (j = 0; j < strlen(BufOfLines); ++j) {
++			currentChar = BufOfLines[j];
++
++			if (currentChar == '\0')
++				break;
++
++			currentChar -= (u8)((((i + j) * 3) % 128));
++
++			BufOfLines[j] = map[currentChar - 32] + 32;
++		}
++		/* RTW_INFO("Decrypted Line: %s\n", BufOfLines ); */
++		if (strlen(BufOfLines) != 0)
++			i++;
++		BufOfLines[strlen(BufOfLines)] = '\n';
++	}
++}
++
++int
++phy_ParseBBPgParaFile(
++	PADAPTER		Adapter,
++	char			*buffer
++)
++{
++	int	rtStatus = _SUCCESS;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	char	*szLine, *ptmp;
++	u32	u4bRegOffset, u4bRegMask, u4bRegValue;
++	u32	u4bMove;
++	BOOLEAN firstLine = _TRUE;
++	u8	tx_num = 0;
++	u8	band = 0, rf_path = 0;
++
++	/* RTW_INFO("=====>phy_ParseBBPgParaFile()\n"); */
++
++	if (Adapter->registrypriv.RegDecryptCustomFile == 1)
++		phy_DecryptBBPgParaFile(Adapter, buffer);
++
++	ptmp = buffer;
++	for (szLine = GetLineFromBuffer(ptmp); szLine != NULL; szLine = GetLineFromBuffer(ptmp)) {
++		if (isAllSpaceOrTab(szLine, sizeof(*szLine)))
++			continue;
++
++		if (!IsCommentString(szLine)) {
++			/* Get header info (relative value or exact value) */
++			if (firstLine) {
++				if (eqNByte(szLine, (u8 *)("#[v1]"), 5)) {
++
++					pHalData->odmpriv.PhyRegPgVersion = szLine[3] - '0';
++					/* RTW_INFO("This is a new format PHY_REG_PG.txt\n"); */
++				} else if (eqNByte(szLine, (u8 *)("#[v0]"), 5)) {
++					pHalData->odmpriv.PhyRegPgVersion = szLine[3] - '0';
++					/* RTW_INFO("This is a old format PHY_REG_PG.txt ok\n"); */
++				} else {
++					RTW_INFO("The format in PHY_REG_PG are invalid %s\n", szLine);
++					return _FAIL;
++				}
++
++				if (eqNByte(szLine + 5, (u8 *)("[Exact]#"), 8)) {
++					pHalData->odmpriv.PhyRegPgValueType = PHY_REG_PG_EXACT_VALUE;
++					/* RTW_INFO("The values in PHY_REG_PG are exact values ok\n"); */
++					firstLine = _FALSE;
++					continue;
++				} else if (eqNByte(szLine + 5, (pu1Byte)("[Relative]#"), 11)) {
++					pHalData->odmpriv.PhyRegPgValueType = PHY_REG_PG_RELATIVE_VALUE;
++					/* RTW_INFO("The values in PHY_REG_PG are relative values ok\n"); */
++					firstLine = _FALSE;
++					continue;
++				} else {
++					RTW_INFO("The values in PHY_REG_PG are invalid %s\n", szLine);
++					return _FAIL;
++				}
++			}
++
++			if (pHalData->odmpriv.PhyRegPgVersion == 0) {
++				/* Get 1st hex value as register offset. */
++				if (GetHexValueFromString(szLine, &u4bRegOffset, &u4bMove)) {
++					szLine += u4bMove;
++					if (u4bRegOffset == 0xffff) {
++						/* Ending. */
++						break;
++					}
++
++					/* Get 2nd hex value as register mask. */
++					if (GetHexValueFromString(szLine, &u4bRegMask, &u4bMove))
++						szLine += u4bMove;
++					else
++						return _FAIL;
++
++					if (pHalData->odmpriv.PhyRegPgValueType == PHY_REG_PG_RELATIVE_VALUE) {
++						/* Get 3rd hex value as register value. */
++						if (GetHexValueFromString(szLine, &u4bRegValue, &u4bMove)) {
++							PHY_StoreTxPowerByRate(Adapter, 0, 0, 1, u4bRegOffset, u4bRegMask, u4bRegValue);
++							/* RTW_INFO("[ADDR] %03X=%08X Mask=%08x\n", u4bRegOffset, u4bRegValue, u4bRegMask); */
++						} else
++							return _FAIL;
++					} else if (pHalData->odmpriv.PhyRegPgValueType == PHY_REG_PG_EXACT_VALUE) {
++						u32	combineValue = 0;
++						u8	integer = 0, fraction = 0;
++
++						if (GetFractionValueFromString(szLine, &integer, &fraction, &u4bMove))
++							szLine += u4bMove;
++						else
++							return _FAIL;
++
++						integer *= 2;
++						if (fraction == 5)
++							integer += 1;
++						combineValue |= (((integer / 10) << 4) + (integer % 10));
++						/* RTW_INFO(" %d", integer ); */
++
++						if (GetFractionValueFromString(szLine, &integer, &fraction, &u4bMove))
++							szLine += u4bMove;
++						else
++							return _FAIL;
++
++						integer *= 2;
++						if (fraction == 5)
++							integer += 1;
++						combineValue <<= 8;
++						combineValue |= (((integer / 10) << 4) + (integer % 10));
++						/* RTW_INFO(" %d", integer ); */
++
++						if (GetFractionValueFromString(szLine, &integer, &fraction, &u4bMove))
++							szLine += u4bMove;
++						else
++							return _FAIL;
++
++						integer *= 2;
++						if (fraction == 5)
++							integer += 1;
++						combineValue <<= 8;
++						combineValue |= (((integer / 10) << 4) + (integer % 10));
++						/* RTW_INFO(" %d", integer ); */
++
++						if (GetFractionValueFromString(szLine, &integer, &fraction, &u4bMove))
++							szLine += u4bMove;
++						else
++							return _FAIL;
++
++						integer *= 2;
++						if (fraction == 5)
++							integer += 1;
++						combineValue <<= 8;
++						combineValue |= (((integer / 10) << 4) + (integer % 10));
++						/* RTW_INFO(" %d", integer ); */
++						PHY_StoreTxPowerByRate(Adapter, 0, 0, 1, u4bRegOffset, u4bRegMask, combineValue);
++
++						/* RTW_INFO("[ADDR] 0x%3x = 0x%4x\n", u4bRegOffset, combineValue ); */
++					}
++				}
++			} else if (pHalData->odmpriv.PhyRegPgVersion > 0) {
++				u32	index = 0, cnt = 0;
++
++				if (eqNByte(szLine, "0xffff", 6))
++					break;
++
++				if (!eqNByte("#[END]#", szLine, 7)) {
++					/* load the table label info */
++					if (szLine[0] == '#') {
++						index = 0;
++						if (eqNByte(szLine, "#[2.4G]" , 7)) {
++							band = BAND_ON_2_4G;
++							index += 8;
++						} else if (eqNByte(szLine, "#[5G]", 5)) {
++							band = BAND_ON_5G;
++							index += 6;
++						} else {
++							RTW_INFO("Invalid band %s in PHY_REG_PG.txt\n", szLine);
++							return _FAIL;
++						}
++
++						rf_path = szLine[index] - 'A';
++						/* RTW_INFO(" Table label Band %d, RfPath %d\n", band, rf_path ); */
++					} else { /* load rows of tables */
++						if (szLine[1] == '1')
++							tx_num = RF_1TX;
++						else if (szLine[1] == '2')
++							tx_num = RF_2TX;
++						else if (szLine[1] == '3')
++							tx_num = RF_3TX;
++						else if (szLine[1] == '4')
++							tx_num = RF_4TX;
++						else {
++							RTW_INFO("Invalid row in PHY_REG_PG.txt '%c'(%d)\n", szLine[1], szLine[1]);
++							return _FAIL;
++						}
++
++						while (szLine[index] != ']')
++							++index;
++						++index;/* skip ] */
++
++						/* Get 2nd hex value as register offset. */
++						szLine += index;
++						if (GetHexValueFromString(szLine, &u4bRegOffset, &u4bMove))
++							szLine += u4bMove;
++						else
++							return _FAIL;
++
++						/* Get 2nd hex value as register mask. */
++						if (GetHexValueFromString(szLine, &u4bRegMask, &u4bMove))
++							szLine += u4bMove;
++						else
++							return _FAIL;
++
++						if (pHalData->odmpriv.PhyRegPgValueType == PHY_REG_PG_RELATIVE_VALUE) {
++							/* Get 3rd hex value as register value. */
++							if (GetHexValueFromString(szLine, &u4bRegValue, &u4bMove)) {
++								PHY_StoreTxPowerByRate(Adapter, band, rf_path, tx_num, u4bRegOffset, u4bRegMask, u4bRegValue);
++								/* RTW_INFO("[ADDR] %03X (tx_num %d) =%08X Mask=%08x\n", u4bRegOffset, tx_num, u4bRegValue, u4bRegMask); */
++							} else
++								return _FAIL;
++						} else if (pHalData->odmpriv.PhyRegPgValueType == PHY_REG_PG_EXACT_VALUE) {
++							u32	combineValue = 0;
++							u8	integer = 0, fraction = 0;
++
++							if (GetFractionValueFromString(szLine, &integer, &fraction, &u4bMove))
++								szLine += u4bMove;
++							else
++								return _FAIL;
++
++							integer *= 2;
++							if (fraction == 5)
++								integer += 1;
++							combineValue |= (((integer / 10) << 4) + (integer % 10));
++							/* RTW_INFO(" %d", integer ); */
++
++							if (GetFractionValueFromString(szLine, &integer, &fraction, &u4bMove))
++								szLine += u4bMove;
++							else
++								return _FAIL;
++
++							integer *= 2;
++							if (fraction == 5)
++								integer += 1;
++							combineValue <<= 8;
++							combineValue |= (((integer / 10) << 4) + (integer % 10));
++							/* RTW_INFO(" %d", integer ); */
++
++							if (GetFractionValueFromString(szLine, &integer, &fraction, &u4bMove))
++								szLine += u4bMove;
++							else
++								return _FAIL;
++
++							integer *= 2;
++							if (fraction == 5)
++								integer += 1;
++							combineValue <<= 8;
++							combineValue |= (((integer / 10) << 4) + (integer % 10));
++							/* RTW_INFO(" %d", integer ); */
++
++							if (GetFractionValueFromString(szLine, &integer, &fraction, &u4bMove))
++								szLine += u4bMove;
++							else
++								return _FAIL;
++
++							integer *= 2;
++							if (fraction == 5)
++								integer += 1;
++							combineValue <<= 8;
++							combineValue |= (((integer / 10) << 4) + (integer % 10));
++							/* RTW_INFO(" %d", integer ); */
++							PHY_StoreTxPowerByRate(Adapter, band, rf_path, tx_num, u4bRegOffset, u4bRegMask, combineValue);
++
++							/* RTW_INFO("[ADDR] 0x%3x (tx_num %d) = 0x%4x\n", u4bRegOffset, tx_num, combineValue ); */
++						}
++					}
++				}
++			}
++		}
++	}
++	/* RTW_INFO("<=====phy_ParseBBPgParaFile()\n"); */
++	return rtStatus;
++}
++
++int
++phy_ConfigBBWithPgParaFile(
++	IN	PADAPTER	Adapter,
++	IN	const char	*pFileName)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	int	rlen = 0, rtStatus = _FAIL;
++
++	if (!(Adapter->registrypriv.load_phy_file & LOAD_BB_PG_PARA_FILE))
++		return rtStatus;
++
++	_rtw_memset(pHalData->para_file_buf, 0, MAX_PARA_FILE_BUF_LEN);
++
++	if (pHalData->bb_phy_reg_pg == NULL) {
++		rtw_get_phy_file_path(Adapter, pFileName);
++		if (rtw_is_file_readable(rtw_phy_para_file_path) == _TRUE) {
++			rlen = rtw_retrieve_from_file(rtw_phy_para_file_path, pHalData->para_file_buf, MAX_PARA_FILE_BUF_LEN);
++			if (rlen > 0) {
++				rtStatus = _SUCCESS;
++				pHalData->bb_phy_reg_pg = rtw_zvmalloc(rlen);
++				if (pHalData->bb_phy_reg_pg) {
++					_rtw_memcpy(pHalData->bb_phy_reg_pg, pHalData->para_file_buf, rlen);
++					pHalData->bb_phy_reg_pg_len = rlen;
++				} else
++					RTW_INFO("%s bb_phy_reg_pg alloc fail !\n", __FUNCTION__);
++			}
++		}
++	} else {
++		if ((pHalData->bb_phy_reg_pg_len != 0) && (pHalData->bb_phy_reg_pg != NULL)) {
++			_rtw_memcpy(pHalData->para_file_buf, pHalData->bb_phy_reg_pg, pHalData->bb_phy_reg_pg_len);
++			rtStatus = _SUCCESS;
++		} else
++			RTW_INFO("%s(): Critical Error !!!\n", __FUNCTION__);
++	}
++
++	if (rtStatus == _SUCCESS) {
++		/* RTW_INFO("phy_ConfigBBWithPgParaFile(): read %s ok\n", pFileName); */
++		phy_ParseBBPgParaFile(Adapter, pHalData->para_file_buf);
++	} else
++		RTW_INFO("%s(): No File %s, Load from HWImg Array!\n", __FUNCTION__, pFileName);
++
++	return rtStatus;
++}
++
++#if (MP_DRIVER == 1)
++
++int
++phy_ConfigBBWithMpParaFile(
++	IN	PADAPTER	Adapter,
++	IN	char		*pFileName
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	int	rlen = 0, rtStatus = _FAIL;
++	char	*szLine, *ptmp;
++	u32	u4bRegOffset, u4bRegValue, u4bMove;
++
++	if (!(Adapter->registrypriv.load_phy_file & LOAD_BB_MP_PARA_FILE))
++		return rtStatus;
++
++	_rtw_memset(pHalData->para_file_buf, 0, MAX_PARA_FILE_BUF_LEN);
++
++	if ((pHalData->bb_phy_reg_mp_len == 0) && (pHalData->bb_phy_reg_mp == NULL)) {
++		rtw_get_phy_file_path(Adapter, pFileName);
++		if (rtw_is_file_readable(rtw_phy_para_file_path) == _TRUE) {
++			rlen = rtw_retrieve_from_file(rtw_phy_para_file_path, pHalData->para_file_buf, MAX_PARA_FILE_BUF_LEN);
++			if (rlen > 0) {
++				rtStatus = _SUCCESS;
++				pHalData->bb_phy_reg_mp = rtw_zvmalloc(rlen);
++				if (pHalData->bb_phy_reg_mp) {
++					_rtw_memcpy(pHalData->bb_phy_reg_mp, pHalData->para_file_buf, rlen);
++					pHalData->bb_phy_reg_mp_len = rlen;
++				} else
++					RTW_INFO("%s bb_phy_reg_mp alloc fail !\n", __FUNCTION__);
++			}
++		}
++	} else {
++		if ((pHalData->bb_phy_reg_mp_len != 0) && (pHalData->bb_phy_reg_mp != NULL)) {
++			_rtw_memcpy(pHalData->para_file_buf, pHalData->bb_phy_reg_mp, pHalData->bb_phy_reg_mp_len);
++			rtStatus = _SUCCESS;
++		} else
++			RTW_INFO("%s(): Critical Error !!!\n", __FUNCTION__);
++	}
++
++	if (rtStatus == _SUCCESS) {
++		/* RTW_INFO("phy_ConfigBBWithMpParaFile(): read %s ok\n", pFileName); */
++
++		ptmp = pHalData->para_file_buf;
++		for (szLine = GetLineFromBuffer(ptmp); szLine != NULL; szLine = GetLineFromBuffer(ptmp)) {
++			if (!IsCommentString(szLine)) {
++				/* Get 1st hex value as register offset. */
++				if (GetHexValueFromString(szLine, &u4bRegOffset, &u4bMove)) {
++					if (u4bRegOffset == 0xffff) {
++						/* Ending. */
++						break;
++					} else if (u4bRegOffset == 0xfe || u4bRegOffset == 0xffe) {
++#ifdef CONFIG_LONG_DELAY_ISSUE
++						rtw_msleep_os(50);
++#else
++						rtw_mdelay_os(50);
++#endif
++					} else if (u4bRegOffset == 0xfd)
++						rtw_mdelay_os(5);
++					else if (u4bRegOffset == 0xfc)
++						rtw_mdelay_os(1);
++					else if (u4bRegOffset == 0xfb)
++						rtw_udelay_os(50);
++					else if (u4bRegOffset == 0xfa)
++						rtw_udelay_os(5);
++					else if (u4bRegOffset == 0xf9)
++						rtw_udelay_os(1);
++
++					/* Get 2nd hex value as register value. */
++					szLine += u4bMove;
++					if (GetHexValueFromString(szLine, &u4bRegValue, &u4bMove)) {
++						/* RTW_INFO("[ADDR]%03lX=%08lX\n", u4bRegOffset, u4bRegValue); */
++						PHY_SetBBReg(Adapter, u4bRegOffset, bMaskDWord, u4bRegValue);
++
++						/* Add 1us delay between BB/RF register setting. */
++						rtw_udelay_os(1);
++					}
++				}
++			}
++		}
++	} else
++		RTW_INFO("%s(): No File %s, Load from HWImg Array!\n", __FUNCTION__, pFileName);
++
++	return rtStatus;
++}
++
++#endif
++
++int
++PHY_ConfigRFWithParaFile(
++	IN	PADAPTER	Adapter,
++	IN	char		*pFileName,
++	IN	u8			eRFPath
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	int	rlen = 0, rtStatus = _FAIL;
++	char	*szLine, *ptmp;
++	u32	u4bRegOffset, u4bRegValue, u4bMove;
++	u16	i;
++	char	*pBuf = NULL;
++	u32	*pBufLen = NULL;
++
++	if (!(Adapter->registrypriv.load_phy_file & LOAD_RF_PARA_FILE))
++		return rtStatus;
++
++	switch (eRFPath) {
++	case ODM_RF_PATH_A:
++		pBuf = pHalData->rf_radio_a;
++		pBufLen = &pHalData->rf_radio_a_len;
++		break;
++	case ODM_RF_PATH_B:
++		pBuf = pHalData->rf_radio_b;
++		pBufLen = &pHalData->rf_radio_b_len;
++		break;
++	default:
++		RTW_INFO("Unknown RF path!! %d\r\n", eRFPath);
++		break;
++	}
++
++	_rtw_memset(pHalData->para_file_buf, 0, MAX_PARA_FILE_BUF_LEN);
++
++	if ((pBufLen != NULL) && (*pBufLen == 0) && (pBuf == NULL)) {
++		rtw_get_phy_file_path(Adapter, pFileName);
++		if (rtw_is_file_readable(rtw_phy_para_file_path) == _TRUE) {
++			rlen = rtw_retrieve_from_file(rtw_phy_para_file_path, pHalData->para_file_buf, MAX_PARA_FILE_BUF_LEN);
++			if (rlen > 0) {
++				rtStatus = _SUCCESS;
++				pBuf = rtw_zvmalloc(rlen);
++				if (pBuf) {
++					_rtw_memcpy(pBuf, pHalData->para_file_buf, rlen);
++					*pBufLen = rlen;
++
++					switch (eRFPath) {
++					case ODM_RF_PATH_A:
++						pHalData->rf_radio_a = pBuf;
++						break;
++					case ODM_RF_PATH_B:
++						pHalData->rf_radio_b = pBuf;
++						break;
++					}
++				} else
++					RTW_INFO("%s(): eRFPath=%d  alloc fail !\n", __FUNCTION__, eRFPath);
++			}
++		}
++	} else {
++		if ((pBufLen != NULL) && (*pBufLen != 0) && (pBuf != NULL)) {
++			_rtw_memcpy(pHalData->para_file_buf, pBuf, *pBufLen);
++			rtStatus = _SUCCESS;
++		} else
++			RTW_INFO("%s(): Critical Error !!!\n", __FUNCTION__);
++	}
++
++	if (rtStatus == _SUCCESS) {
++		/* RTW_INFO("%s(): read %s successfully\n", __FUNCTION__, pFileName); */
++
++		ptmp = pHalData->para_file_buf;
++		for (szLine = GetLineFromBuffer(ptmp); szLine != NULL; szLine = GetLineFromBuffer(ptmp)) {
++			if (!IsCommentString(szLine)) {
++				/* Get 1st hex value as register offset. */
++				if (GetHexValueFromString(szLine, &u4bRegOffset, &u4bMove)) {
++					if (u4bRegOffset == 0xfe || u4bRegOffset == 0xffe) {
++						/* Deay specific ms. Only RF configuration require delay.												 */
++#ifdef CONFIG_LONG_DELAY_ISSUE
++						rtw_msleep_os(50);
++#else
++						rtw_mdelay_os(50);
++#endif
++					} else if (u4bRegOffset == 0xfd) {
++						/* delay_ms(5); */
++						for (i = 0; i < 100; i++)
++							rtw_udelay_os(MAX_STALL_TIME);
++					} else if (u4bRegOffset == 0xfc) {
++						/* delay_ms(1); */
++						for (i = 0; i < 20; i++)
++							rtw_udelay_os(MAX_STALL_TIME);
++					} else if (u4bRegOffset == 0xfb)
++						rtw_udelay_os(50);
++					else if (u4bRegOffset == 0xfa)
++						rtw_udelay_os(5);
++					else if (u4bRegOffset == 0xf9)
++						rtw_udelay_os(1);
++					else if (u4bRegOffset == 0xffff)
++						break;
++
++					/* Get 2nd hex value as register value. */
++					szLine += u4bMove;
++					if (GetHexValueFromString(szLine, &u4bRegValue, &u4bMove)) {
++						PHY_SetRFReg(Adapter, eRFPath, u4bRegOffset, bRFRegOffsetMask, u4bRegValue);
++
++						/* Temp add, for frequency lock, if no delay, that may cause */
++						/* frequency shift, ex: 2412MHz => 2417MHz */
++						/* If frequency shift, the following action may works. */
++						/* Fractional-N table in radio_a.txt */
++						/* 0x2a 0x00001		 */ /* channel 1 */
++						/* 0x2b 0x00808		frequency divider. */
++						/* 0x2b 0x53333 */
++						/* 0x2c 0x0000c */
++						rtw_udelay_os(1);
++					}
++				}
++			}
++		}
++	} else
++		RTW_INFO("%s(): No File %s, Load from HWImg Array!\n", __FUNCTION__, pFileName);
++
++	return rtStatus;
++}
++
++VOID
++initDeltaSwingIndexTables(
++	PADAPTER	Adapter,
++	char		*Band,
++	char		*Path,
++	char		*Sign,
++	char		*Channel,
++	char		*Rate,
++	char		*Data
++)
++{
++#define STR_EQUAL_5G(_band, _path, _sign, _rate, _chnl) \
++	((strcmp(Band, _band) == 0) && (strcmp(Path, _path) == 0) && (strcmp(Sign, _sign) == 0) &&\
++	 (strcmp(Rate, _rate) == 0) && (strcmp(Channel, _chnl) == 0)\
++	)
++#define STR_EQUAL_2G(_band, _path, _sign, _rate) \
++	((strcmp(Band, _band) == 0) && (strcmp(Path, _path) == 0) && (strcmp(Sign, _sign) == 0) &&\
++	 (strcmp(Rate, _rate) == 0)\
++	)
++
++#define STORE_SWING_TABLE(_array, _iteratedIdx) \
++	do {	\
++	for (token = strsep(&Data, delim); token != NULL; token = strsep(&Data, delim)) {\
++		sscanf(token, "%d", &idx);\
++		_array[_iteratedIdx++] = (u8)idx;\
++	} } while (0)\
++
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	u32	j = 0;
++	char	*token;
++	char	delim[] = ",";
++	u32	idx = 0;
++
++	/* RTW_INFO("===>initDeltaSwingIndexTables(): Band: %s;\nPath: %s;\nSign: %s;\nChannel: %s;\nRate: %s;\n, Data: %s;\n",  */
++	/*	Band, Path, Sign, Channel, Rate, Data); */
++
++	if (STR_EQUAL_2G("2G", "A", "+", "CCK"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_P, j);
++	else if (STR_EQUAL_2G("2G", "A", "-", "CCK"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_N, j);
++	else if (STR_EQUAL_2G("2G", "B", "+", "CCK"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_P, j);
++	else if (STR_EQUAL_2G("2G", "B", "-", "CCK"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_N, j);
++	else if (STR_EQUAL_2G("2G", "A", "+", "ALL"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_2GA_P, j);
++	else if (STR_EQUAL_2G("2G", "A", "-", "ALL"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_2GA_N, j);
++	else if (STR_EQUAL_2G("2G", "B", "+", "ALL"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_2GB_P, j);
++	else if (STR_EQUAL_2G("2G", "B", "-", "ALL"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_2GB_N, j);
++	else if (STR_EQUAL_5G("5G", "A", "+", "ALL", "0"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P[0], j);
++	else if (STR_EQUAL_5G("5G", "A", "-", "ALL", "0"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N[0], j);
++	else if (STR_EQUAL_5G("5G", "B", "+", "ALL", "0"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P[0], j);
++	else if (STR_EQUAL_5G("5G", "B", "-", "ALL", "0"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N[0], j);
++	else if (STR_EQUAL_5G("5G", "A", "+", "ALL", "1"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P[1], j);
++	else if (STR_EQUAL_5G("5G", "A", "-", "ALL", "1"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N[1], j);
++	else if (STR_EQUAL_5G("5G", "B", "+", "ALL", "1"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P[1], j);
++	else if (STR_EQUAL_5G("5G", "B", "-", "ALL", "1"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N[1], j);
++	else if (STR_EQUAL_5G("5G", "A", "+", "ALL", "2"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P[2], j);
++	else if (STR_EQUAL_5G("5G", "A", "-", "ALL", "2"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N[2], j);
++	else if (STR_EQUAL_5G("5G", "B", "+", "ALL", "2"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P[2], j);
++	else if (STR_EQUAL_5G("5G", "B", "-", "ALL", "2"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N[2], j);
++	else if (STR_EQUAL_5G("5G", "A", "+", "ALL", "3"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P[3], j);
++	else if (STR_EQUAL_5G("5G", "A", "-", "ALL", "3"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N[3], j);
++	else if (STR_EQUAL_5G("5G", "B", "+", "ALL", "3"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P[3], j);
++	else if (STR_EQUAL_5G("5G", "B", "-", "ALL", "3"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N[3], j);
++	else
++		RTW_INFO("===>initDeltaSwingIndexTables(): The input is invalid!!\n");
++}
++
++int
++PHY_ConfigRFWithTxPwrTrackParaFile(
++	IN	PADAPTER		Adapter,
++	IN	char			*pFileName
++)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T			pDM_Odm = &pHalData->odmpriv;
++	PODM_RF_CAL_T		pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	int	rlen = 0, rtStatus = _FAIL;
++	char	*szLine, *ptmp;
++	u32	i = 0, j = 0;
++	char	c = 0;
++
++	if (!(Adapter->registrypriv.load_phy_file & LOAD_RF_TXPWR_TRACK_PARA_FILE))
++		return rtStatus;
++
++	_rtw_memset(pHalData->para_file_buf, 0, MAX_PARA_FILE_BUF_LEN);
++
++	if ((pHalData->rf_tx_pwr_track_len == 0) && (pHalData->rf_tx_pwr_track == NULL)) {
++		rtw_get_phy_file_path(Adapter, pFileName);
++		if (rtw_is_file_readable(rtw_phy_para_file_path) == _TRUE) {
++			rlen = rtw_retrieve_from_file(rtw_phy_para_file_path, pHalData->para_file_buf, MAX_PARA_FILE_BUF_LEN);
++			if (rlen > 0) {
++				rtStatus = _SUCCESS;
++				pHalData->rf_tx_pwr_track = rtw_zvmalloc(rlen);
++				if (pHalData->rf_tx_pwr_track) {
++					_rtw_memcpy(pHalData->rf_tx_pwr_track, pHalData->para_file_buf, rlen);
++					pHalData->rf_tx_pwr_track_len = rlen;
++				} else
++					RTW_INFO("%s rf_tx_pwr_track alloc fail !\n", __FUNCTION__);
++			}
++		}
++	} else {
++		if ((pHalData->rf_tx_pwr_track_len != 0) && (pHalData->rf_tx_pwr_track != NULL)) {
++			_rtw_memcpy(pHalData->para_file_buf, pHalData->rf_tx_pwr_track, pHalData->rf_tx_pwr_track_len);
++			rtStatus = _SUCCESS;
++		} else
++			RTW_INFO("%s(): Critical Error !!!\n", __FUNCTION__);
++	}
++
++	if (rtStatus == _SUCCESS) {
++		/* RTW_INFO("%s(): read %s successfully\n", __FUNCTION__, pFileName); */
++
++		ptmp = pHalData->para_file_buf;
++		for (szLine = GetLineFromBuffer(ptmp); szLine != NULL; szLine = GetLineFromBuffer(ptmp)) {
++			if (!IsCommentString(szLine)) {
++				char	band[5] = "", path[5] = "", sign[5]  = "";
++				char	chnl[5] = "", rate[10] = "";
++				char	data[300] = ""; /* 100 is too small */
++
++				if (strlen(szLine) < 10 || szLine[0] != '[')
++					continue;
++
++				strncpy(band, szLine + 1, 2);
++				strncpy(path, szLine + 5, 1);
++				strncpy(sign, szLine + 8, 1);
++
++				i = 10; /* szLine+10 */
++				if (!ParseQualifiedString(szLine, &i, rate, '[', ']')) {
++					/* RTW_INFO("Fail to parse rate!\n"); */
++				}
++				if (!ParseQualifiedString(szLine, &i, chnl, '[', ']')) {
++					/* RTW_INFO("Fail to parse channel group!\n"); */
++				}
++				while (szLine[i] != '{' && i < strlen(szLine))
++					i++;
++				if (!ParseQualifiedString(szLine, &i, data, '{', '}')) {
++					/* RTW_INFO("Fail to parse data!\n"); */
++				}
++
++				initDeltaSwingIndexTables(Adapter, band, path, sign, chnl, rate, data);
++			}
++		}
++	} else
++		RTW_INFO("%s(): No File %s, Load from HWImg Array!\n", __FUNCTION__, pFileName);
++#if 0
++	for (i = 0; i < DELTA_SWINGIDX_SIZE; ++i) {
++		RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_2GA_P[%d] = %d\n", i, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_P[i]);
++		RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_2GA_N[%d] = %d\n", i, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_N[i]);
++		RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_2GB_P[%d] = %d\n", i, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_P[i]);
++		RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_2GB_N[%d] = %d\n", i, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_N[i]);
++		RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_P[%d] = %d\n", i, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_P[i]);
++		RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_N[%d] = %d\n", i, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_N[i]);
++		RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_P[%d] = %d\n", i, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_P[i]);
++		RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_N[%d] = %d\n", i, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_N[i]);
++
++		for (j = 0; j < 3; ++j) {
++			RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P[%d][%d] = %d\n", j, i, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P[j][i]);
++			RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N[%d][%d] = %d\n", j, i, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N[j][i]);
++			RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P[%d][%d] = %d\n", j, i, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P[j][i]);
++			RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N[%d][%d] = %d\n", j, i, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N[j][i]);
++		}
++	}
++#endif
++	return rtStatus;
++}
++
++int
++phy_ParsePowerLimitTableFile(
++	PADAPTER		Adapter,
++	char			*buffer
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T	pDM_Odm = &(pHalData->odmpriv);
++	u32	i = 0, forCnt = 0;
++	u8	loadingStage = 0, limitValue = 0, fraction = 0;
++	char	*szLine, *ptmp;
++	int	rtStatus = _SUCCESS;
++	char band[10], bandwidth[10], rateSection[10],
++	     regulation[TXPWR_LMT_MAX_REGULATION_NUM][10], rfPath[10], colNumBuf[10];
++	u8	colNum = 0;
++
++	RTW_INFO("===>phy_ParsePowerLimitTableFile()\n");
++
++	if (Adapter->registrypriv.RegDecryptCustomFile == 1)
++		phy_DecryptBBPgParaFile(Adapter, buffer);
++
++	ptmp = buffer;
++	for (szLine = GetLineFromBuffer(ptmp); szLine != NULL; szLine = GetLineFromBuffer(ptmp)) {
++		if (isAllSpaceOrTab(szLine, sizeof(*szLine)))
++			continue;
++
++		/* skip comment */
++		if (IsCommentString(szLine))
++			continue;
++
++		if (loadingStage == 0) {
++			for (forCnt = 0; forCnt < TXPWR_LMT_MAX_REGULATION_NUM; ++forCnt)
++				_rtw_memset((PVOID) regulation[forCnt], 0, 10);
++			_rtw_memset((PVOID) band, 0, 10);
++			_rtw_memset((PVOID) bandwidth, 0, 10);
++			_rtw_memset((PVOID) rateSection, 0, 10);
++			_rtw_memset((PVOID) rfPath, 0, 10);
++			_rtw_memset((PVOID) colNumBuf, 0, 10);
++
++			if (szLine[0] != '#' || szLine[1] != '#')
++				continue;
++
++			/* skip the space */
++			i = 2;
++			while (szLine[i] == ' ' || szLine[i] == '\t')
++				++i;
++
++			szLine[--i] = ' '; /* return the space in front of the regulation info */
++
++			/* Parse the label of the table */
++			if (!ParseQualifiedString(szLine, &i, band, ' ', ',')) {
++				RTW_INFO("Fail to parse band!\n");
++				return _FAIL;
++			}
++			if (!ParseQualifiedString(szLine, &i, bandwidth, ' ', ',')) {
++				RTW_INFO("Fail to parse bandwidth!\n");
++				return _FAIL;
++			}
++			if (!ParseQualifiedString(szLine, &i, rfPath, ' ', ',')) {
++				RTW_INFO("Fail to parse rf path!\n");
++				return _FAIL;
++			}
++			if (!ParseQualifiedString(szLine, &i, rateSection, ' ', ',')) {
++				RTW_INFO("Fail to parse rate!\n");
++				return _FAIL;
++			}
++
++			loadingStage = 1;
++		} else if (loadingStage == 1) {
++			if (szLine[0] != '#' || szLine[1] != '#')
++				continue;
++
++			/* skip the space */
++			i = 2;
++			while (szLine[i] == ' ' || szLine[i] == '\t')
++				++i;
++
++			if (!eqNByte((u8 *)(szLine + i), (u8 *)("START"), 5)) {
++				RTW_INFO("Lost \"##   START\" label\n");
++				return _FAIL;
++			}
++
++			loadingStage = 2;
++		} else if (loadingStage == 2) {
++			if (szLine[0] != '#' || szLine[1] != '#')
++				continue;
++
++			/* skip the space */
++			i = 2;
++			while (szLine[i] == ' ' || szLine[i] == '\t')
++				++i;
++
++			if (!ParseQualifiedString(szLine, &i, colNumBuf, '#', '#')) {
++				RTW_INFO("Fail to parse column number!\n");
++				return _FAIL;
++			}
++
++			if (!GetU1ByteIntegerFromStringInDecimal(colNumBuf, &colNum))
++				return _FAIL;
++
++			if (colNum > TXPWR_LMT_MAX_REGULATION_NUM) {
++				RTW_INFO("unvalid col number %d (greater than max %d)\n",
++					 colNum, TXPWR_LMT_MAX_REGULATION_NUM);
++				return _FAIL;
++			}
++
++			for (forCnt = 0; forCnt < colNum; ++forCnt) {
++				u8	regulation_name_cnt = 0;
++
++				/* skip the space */
++				while (szLine[i] == ' ' || szLine[i] == '\t')
++					++i;
++
++				while (szLine[i] != ' ' && szLine[i] != '\t' && szLine[i] != '\0')
++					regulation[forCnt][regulation_name_cnt++] = szLine[i++];
++				/* RTW_INFO("regulation %s!\n", regulation[forCnt]); */
++
++				if (regulation_name_cnt == 0) {
++					RTW_INFO("unvalid number of regulation!\n");
++					return _FAIL;
++				}
++			}
++
++			loadingStage = 3;
++		} else if (loadingStage == 3) {
++			char	channel[10] = {0}, powerLimit[10] = {0};
++			u8	cnt = 0;
++
++			/* the table ends */
++			if (szLine[0] == '#' && szLine[1] == '#') {
++				i = 2;
++				while (szLine[i] == ' ' || szLine[i] == '\t')
++					++i;
++
++				if (eqNByte((u8 *)(szLine + i), (u8 *)("END"), 3)) {
++					loadingStage = 0;
++					continue;
++				} else {
++					RTW_INFO("Wrong format\n");
++					RTW_INFO("<===== phy_ParsePowerLimitTableFile()\n");
++					return _FAIL;
++				}
++			}
++
++			if ((szLine[0] != 'c' && szLine[0] != 'C') ||
++			    (szLine[1] != 'h' && szLine[1] != 'H')) {
++				RTW_INFO("Meet wrong channel => power limt pair '%c','%c'(%d,%d)\n", szLine[0], szLine[1], szLine[0], szLine[1]);
++				continue;
++			}
++			i = 2;/* move to the  location behind 'h' */
++
++			/* load the channel number */
++			cnt = 0;
++			while (szLine[i] >= '0' && szLine[i] <= '9') {
++				channel[cnt] = szLine[i];
++				++cnt;
++				++i;
++			}
++			/* RTW_INFO("chnl %s!\n", channel); */
++
++			for (forCnt = 0; forCnt < colNum; ++forCnt) {
++				/* skip the space between channel number and the power limit value */
++				while (szLine[i] == ' ' || szLine[i] == '\t')
++					++i;
++
++				/* load the power limit value */
++				cnt = 0;
++				fraction = 0;
++				_rtw_memset((PVOID) powerLimit, 0, 10);
++				while ((szLine[i] >= '0' && szLine[i] <= '9') || szLine[i] == '.') {
++					if (szLine[i] == '.') {
++						if ((szLine[i + 1] >= '0' && szLine[i + 1] <= '9')) {
++							fraction = szLine[i + 1];
++							i += 2;
++						} else {
++							RTW_INFO("Wrong fraction in TXPWR_LMT.txt\n");
++							return _FAIL;
++						}
++
++						break;
++					}
++
++					powerLimit[cnt] = szLine[i];
++					++cnt;
++					++i;
++				}
++
++				if (powerLimit[0] == '\0') {
++					powerLimit[0] = '6';
++					powerLimit[1] = '3';
++					i += 2;
++				} else {
++					if (!GetU1ByteIntegerFromStringInDecimal(powerLimit, &limitValue))
++						return _FAIL;
++
++					limitValue *= 2;
++					cnt = 0;
++					if (fraction == '5')
++						++limitValue;
++
++					/* the value is greater or equal to 100 */
++					if (limitValue >= 100) {
++						powerLimit[cnt++] = limitValue / 100 + '0';
++						limitValue %= 100;
++
++						if (limitValue >= 10) {
++							powerLimit[cnt++] = limitValue / 10 + '0';
++							limitValue %= 10;
++						} else
++							powerLimit[cnt++] = '0';
++
++						powerLimit[cnt++] = limitValue + '0';
++					}
++					/* the value is greater or equal to 10 */
++					else if (limitValue >= 10) {
++						powerLimit[cnt++] = limitValue / 10 + '0';
++						limitValue %= 10;
++						powerLimit[cnt++] = limitValue + '0';
++					}
++					/* the value is less than 10 */
++					else
++						powerLimit[cnt++] = limitValue + '0';
++
++					powerLimit[cnt] = '\0';
++				}
++
++				/* RTW_INFO("ch%s => %s\n", channel, powerLimit); */
++
++				/* store the power limit value */
++				PHY_SetTxPowerLimit(pDM_Odm, (u8 *)regulation[forCnt], (u8 *)band,
++					(u8 *)bandwidth, (u8 *)rateSection, (u8 *)rfPath, (u8 *)channel, (u8 *)powerLimit);
++
++			}
++		} else {
++			RTW_INFO("Abnormal loading stage in phy_ParsePowerLimitTableFile()!\n");
++			rtStatus = _FAIL;
++			break;
++		}
++	}
++
++	RTW_INFO("<===phy_ParsePowerLimitTableFile()\n");
++	return rtStatus;
++}
++
++int
++PHY_ConfigRFWithPowerLimitTableParaFile(
++	IN	PADAPTER	Adapter,
++	IN	const char	*pFileName
++)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	int	rlen = 0, rtStatus = _FAIL;
++
++	if (!(Adapter->registrypriv.load_phy_file & LOAD_RF_TXPWR_LMT_PARA_FILE))
++		return rtStatus;
++
++	_rtw_memset(pHalData->para_file_buf, 0, MAX_PARA_FILE_BUF_LEN);
++
++	if (pHalData->rf_tx_pwr_lmt == NULL) {
++		rtw_get_phy_file_path(Adapter, pFileName);
++		if (rtw_is_file_readable(rtw_phy_para_file_path) == _TRUE) {
++			rlen = rtw_retrieve_from_file(rtw_phy_para_file_path, pHalData->para_file_buf, MAX_PARA_FILE_BUF_LEN);
++			if (rlen > 0) {
++				rtStatus = _SUCCESS;
++				pHalData->rf_tx_pwr_lmt = rtw_zvmalloc(rlen);
++				if (pHalData->rf_tx_pwr_lmt) {
++					_rtw_memcpy(pHalData->rf_tx_pwr_lmt, pHalData->para_file_buf, rlen);
++					pHalData->rf_tx_pwr_lmt_len = rlen;
++				} else
++					RTW_INFO("%s rf_tx_pwr_lmt alloc fail !\n", __FUNCTION__);
++			}
++		}
++	} else {
++		if ((pHalData->rf_tx_pwr_lmt_len != 0) && (pHalData->rf_tx_pwr_lmt != NULL)) {
++			_rtw_memcpy(pHalData->para_file_buf, pHalData->rf_tx_pwr_lmt, pHalData->rf_tx_pwr_lmt_len);
++			rtStatus = _SUCCESS;
++		} else
++			RTW_INFO("%s(): Critical Error !!!\n", __FUNCTION__);
++	}
++
++	if (rtStatus == _SUCCESS) {
++		/* RTW_INFO("%s(): read %s ok\n", __FUNCTION__, pFileName); */
++		rtStatus = phy_ParsePowerLimitTableFile(Adapter, pHalData->para_file_buf);
++	} else
++		RTW_INFO("%s(): No File %s, Load from HWImg Array!\n", __FUNCTION__, pFileName);
++
++	return rtStatus;
++}
++
++void phy_free_filebuf_mask(_adapter *padapter, u8 mask)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	if (pHalData->mac_reg && (mask & LOAD_MAC_PARA_FILE)) {
++		rtw_vmfree(pHalData->mac_reg, pHalData->mac_reg_len);
++		pHalData->mac_reg = NULL;
++	}
++	if (mask & LOAD_BB_PARA_FILE) {
++		if (pHalData->bb_phy_reg) {
++			rtw_vmfree(pHalData->bb_phy_reg, pHalData->bb_phy_reg_len);
++			pHalData->bb_phy_reg = NULL;
++		}
++		if (pHalData->bb_agc_tab) {
++			rtw_vmfree(pHalData->bb_agc_tab, pHalData->bb_agc_tab_len);
++			pHalData->bb_agc_tab = NULL;
++		}
++	}
++	if (pHalData->bb_phy_reg_pg && (mask & LOAD_BB_PG_PARA_FILE)) {
++		rtw_vmfree(pHalData->bb_phy_reg_pg, pHalData->bb_phy_reg_pg_len);
++		pHalData->bb_phy_reg_pg = NULL;
++	}
++	if (pHalData->bb_phy_reg_mp && (mask & LOAD_BB_MP_PARA_FILE)) {
++		rtw_vmfree(pHalData->bb_phy_reg_mp, pHalData->bb_phy_reg_mp_len);
++		pHalData->bb_phy_reg_mp = NULL;
++	}
++	if (mask & LOAD_RF_PARA_FILE) {
++		if (pHalData->rf_radio_a) {
++			rtw_vmfree(pHalData->rf_radio_a, pHalData->rf_radio_a_len);
++			pHalData->rf_radio_a = NULL;
++		}
++		if (pHalData->rf_radio_b) {
++			rtw_vmfree(pHalData->rf_radio_b, pHalData->rf_radio_b_len);
++			pHalData->rf_radio_b = NULL;
++		}
++	}
++	if (pHalData->rf_tx_pwr_track && (mask & LOAD_RF_TXPWR_TRACK_PARA_FILE)) {
++		rtw_vmfree(pHalData->rf_tx_pwr_track, pHalData->rf_tx_pwr_track_len);
++		pHalData->rf_tx_pwr_track = NULL;
++	}
++	if (pHalData->rf_tx_pwr_lmt && (mask & LOAD_RF_TXPWR_LMT_PARA_FILE)) {
++		rtw_vmfree(pHalData->rf_tx_pwr_lmt, pHalData->rf_tx_pwr_lmt_len);
++		pHalData->rf_tx_pwr_lmt = NULL;
++	}
++}
++
++inline void phy_free_filebuf(_adapter *padapter)
++{
++	phy_free_filebuf_mask(padapter, 0xFF);
++}
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/hal_dm.c b/drivers/net/wireless/rtl8723du/hal/hal_dm.c
+new file mode 100644
+index 0000000..89d4649
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/hal_dm.c
+@@ -0,0 +1,215 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2014 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++/* A mapping from HalData to ODM. */
++ODM_BOARD_TYPE_E boardType(u8 InterfaceSel)
++{
++	ODM_BOARD_TYPE_E        board	= ODM_BOARD_DEFAULT;
++
++#ifdef CONFIG_PCI_HCI
++	INTERFACE_SELECT_PCIE   pcie	= (INTERFACE_SELECT_PCIE)InterfaceSel;
++	switch (pcie) {
++	case INTF_SEL0_SOLO_MINICARD:
++		board |= ODM_BOARD_MINICARD;
++		break;
++	case INTF_SEL1_BT_COMBO_MINICARD:
++		board |= ODM_BOARD_BT;
++		board |= ODM_BOARD_MINICARD;
++		break;
++	default:
++		board = ODM_BOARD_DEFAULT;
++		break;
++	}
++
++#elif defined(CONFIG_USB_HCI)
++	INTERFACE_SELECT_USB    usb	= (INTERFACE_SELECT_USB)InterfaceSel;
++	switch (usb) {
++	case INTF_SEL1_USB_High_Power:
++		board |= ODM_BOARD_EXT_LNA;
++		board |= ODM_BOARD_EXT_PA;
++		break;
++	case INTF_SEL2_MINICARD:
++		board |= ODM_BOARD_MINICARD;
++		break;
++	case INTF_SEL4_USB_Combo:
++		board |= ODM_BOARD_BT;
++		break;
++	case INTF_SEL5_USB_Combo_MF:
++		board |= ODM_BOARD_BT;
++		break;
++	case INTF_SEL0_USB:
++	case INTF_SEL3_USB_Solo:
++	default:
++		board = ODM_BOARD_DEFAULT;
++		break;
++	}
++
++#endif
++	/* RTW_INFO("===> boardType(): (pHalData->InterfaceSel, pDM_Odm->BoardType) = (%d, %d)\n", InterfaceSel, board); */
++
++	return board;
++}
++
++void Init_ODM_ComInfo(_adapter *adapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(adapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++	struct mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(adapter);
++	int i;
++
++	_rtw_memset(pDM_Odm, 0, sizeof(*pDM_Odm));
++
++	pDM_Odm->Adapter = adapter;
++
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_PLATFORM, ODM_CE);
++
++	rtw_odm_init_ic_type(adapter);
++
++	if (rtw_get_intf_type(adapter) == RTW_GSPI)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_INTERFACE, ODM_ITRF_SDIO);
++	else
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_INTERFACE, rtw_get_intf_type(adapter));
++
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_MP_TEST_CHIP, IS_NORMAL_CHIP(pHalData->VersionID));
++
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_PATCH_ID, pHalData->CustomerID);
++
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_BWIFI_TEST, adapter->registrypriv.wifi_spec);
++
++
++	if (pHalData->rf_type == RF_1T1R)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_1T1R);
++	else if (pHalData->rf_type == RF_1T2R)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_1T2R);
++	else if (pHalData->rf_type == RF_2T2R)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_2T2R);
++	else if (pHalData->rf_type == RF_2T2R_GREEN)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_2T2R_GREEN);
++	else if (pHalData->rf_type == RF_2T3R)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_2T3R);
++	else if (pHalData->rf_type == RF_2T4R)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_2T4R);
++	else if (pHalData->rf_type == RF_3T3R)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_3T3R);
++	else if (pHalData->rf_type == RF_3T4R)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_3T4R);
++	else if (pHalData->rf_type == RF_4T4R)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_4T4R);
++	else
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_XTXR);
++
++
++	{
++		/* 1 ======= BoardType: ODM_CMNINFO_BOARD_TYPE ======= */
++		u8 odm_board_type = ODM_BOARD_DEFAULT;
++
++		if (pHalData->ExternalLNA_2G != 0) {
++			odm_board_type |= ODM_BOARD_EXT_LNA;
++			ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_EXT_LNA, 1);
++		}
++		if (pHalData->ExternalLNA_5G != 0) {
++			odm_board_type |= ODM_BOARD_EXT_LNA_5G;
++			ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_5G_EXT_LNA, 1);
++		}
++		if (pHalData->ExternalPA_2G != 0) {
++			odm_board_type |= ODM_BOARD_EXT_PA;
++			ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_EXT_PA, 1);
++		}
++		if (pHalData->ExternalPA_5G != 0) {
++			odm_board_type |= ODM_BOARD_EXT_PA_5G;
++			ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_5G_EXT_PA, 1);
++		}
++		if (pHalData->EEPROMBluetoothCoexist)
++			odm_board_type |= ODM_BOARD_BT;
++
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_BOARD_TYPE, odm_board_type);
++		/* 1 ============== End of BoardType ============== */
++	}
++
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_DOMAIN_CODE_2G, pHalData->Regulation2_4G);
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_DOMAIN_CODE_5G, pHalData->Regulation5G);
++
++#ifdef CONFIG_DFS_MASTER
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_DFS_REGION_DOMAIN, adapter->registrypriv.dfs_region_domain);
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_DFS_MASTER_ENABLE, &(adapter_to_rfctl(adapter)->dfs_master_enabled));
++#endif
++
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_GPA, pHalData->TypeGPA);
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_APA, pHalData->TypeAPA);
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_GLNA, pHalData->TypeGLNA);
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_ALNA, pHalData->TypeALNA);
++
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RFE_TYPE, pHalData->RFEType);
++
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_EXT_TRSW, 0);
++
++	/*Add by YuChen for kfree init*/
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_REGRFKFREEENABLE, adapter->registrypriv.RegPwrTrimEnable);
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RFKFREEENABLE, pHalData->RfKFreeEnable);
++
++	/*Antenna diversity relative parameters*/
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_ANTENNA_TYPE, pHalData->TRxAntDivType);
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_BE_FIX_TX_ANT, pHalData->b_fix_tx_ant);
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_WITH_EXT_ANTENNA_SWITCH, pHalData->with_extenal_ant_switch);
++
++	/*Add by YuChen for adaptivity init*/
++	phydm_adaptivityInfoInit(pDM_Odm, PHYDM_ADAPINFO_CARRIER_SENSE_ENABLE, (adapter->registrypriv.adaptivity_mode != 0) ? TRUE : FALSE);
++	phydm_adaptivityInfoInit(pDM_Odm, PHYDM_ADAPINFO_DCBACKOFF, adapter->registrypriv.adaptivity_dc_backoff);
++	phydm_adaptivityInfoInit(pDM_Odm, PHYDM_ADAPINFO_DYNAMICLINKADAPTIVITY, (adapter->registrypriv.adaptivity_dml != 0) ? TRUE : FALSE);
++	phydm_adaptivityInfoInit(pDM_Odm, PHYDM_ADAPINFO_TH_L2H_INI, adapter->registrypriv.adaptivity_th_l2h_ini);
++	phydm_adaptivityInfoInit(pDM_Odm, PHYDM_ADAPINFO_TH_EDCCA_HL_DIFF, adapter->registrypriv.adaptivity_th_edcca_hl_diff);
++
++
++	/* Pointer reference */
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_TX_UNI, &(dvobj->traffic_stat.tx_bytes));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_RX_UNI, &(dvobj->traffic_stat.rx_bytes));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_WM_MODE, &(pmlmeext->cur_wireless_mode));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_BAND, &(pHalData->CurrentBandType));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_FORCED_RATE, &(pHalData->ForcedDataRate));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_FORCED_IGI_LB, &(pHalData->u1ForcedIgiLb));
++
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_SEC_CHNL_OFFSET, &(pHalData->nCur40MhzPrimeSC));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_SEC_MODE, &(adapter->securitypriv.dot11PrivacyAlgrthm));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_BW, &(pHalData->CurrentChannelBW));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_CHNL, &(pHalData->CurrentChannel));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_NET_CLOSED, &(adapter->net_closed));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_FORCED_IGI_LB, &(pHalData->u1ForcedIgiLb));
++
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_SCAN, &(pmlmepriv->bScanInProcess));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_POWER_SAVING, &(pwrctl->bpower_saving));
++	/*Add by Yuchen for phydm beamforming*/
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_TX_TP, &(dvobj->traffic_stat.cur_tx_tp));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_RX_TP, &(dvobj->traffic_stat.cur_rx_tp));
++#ifdef CONFIG_USB_HCI
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_HUBUSBMODE, &(dvobj->usb_speed));
++#endif
++	for (i = 0; i < ODM_ASSOCIATE_ENTRY_NUM; i++)
++		ODM_CmnInfoPtrArrayHook(pDM_Odm, ODM_CMNINFO_STA_STATUS, i, NULL);
++
++	/* TODO */
++	/* ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_BT_OPERATION, _FALSE); */
++	/* ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_BT_DISABLE_EDCA, _FALSE); */
++}
+diff --git a/drivers/net/wireless/rtl8723du/hal/hal_dm.h b/drivers/net/wireless/rtl8723du/hal/hal_dm.h
+new file mode 100644
+index 0000000..1232708
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/hal_dm.h
+@@ -0,0 +1,25 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_DM_H__
++#define __HAL_DM_H__
++
++void Init_ODM_ComInfo(_adapter *adapter);
++
++#endif /* __HAL_DM_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/hal/hal_halmac.c b/drivers/net/wireless/rtl8723du/hal/hal_halmac.c
+new file mode 100644
+index 0000000..d20812b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/hal_halmac.c
+@@ -0,0 +1,2379 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HAL_HALMAC_C_
++
++#include <drv_types.h>		/* PADAPTER, struct dvobj_priv, SDIO_ERR_VAL8 and etc. */
++#include <hal_data.h>		/* efuse, PHAL_DATA_TYPE and etc. */
++#include "halmac/halmac_api.h"	/* HALMAC_FW_SIZE_MAX_88XX and etc. */
++#include "hal_halmac.h"		/* dvobj_to_halmac() and ect. */
++
++#define DEFAULT_INDICATOR_TIMELMT	1000	/* ms */
++#define FIRMWARE_MAX_SIZE		HALMAC_FW_SIZE_MAX_88XX
++
++/*
++ * Driver API for HALMAC operations
++ */
++
++#ifdef CONFIG_SDIO_HCI
++#include <rtw_sdio.h>
++static u8 _halmac_sdio_cmd52_read(void *p, u32 offset)
++{
++	struct dvobj_priv *d;
++	u8 val;
++	u8 ret;
++
++
++	d = (struct dvobj_priv *)p;
++	ret = rtw_sdio_read_cmd52(d, offset, &val, 1);
++	if (_FAIL == ret) {
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++		return SDIO_ERR_VAL8;
++	}
++
++	return val;
++}
++
++static void _halmac_sdio_cmd52_write(void *p, u32 offset, u8 val)
++{
++	struct dvobj_priv *d;
++	u8 ret;
++
++
++	d = (struct dvobj_priv *)p;
++	ret = rtw_sdio_write_cmd52(d, offset, &val, 1);
++	if (_FAIL == ret)
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++}
++
++static u8 _halmac_sdio_reg_read_8(void *p, u32 offset)
++{
++	struct dvobj_priv *d;
++	u8 *pbuf;
++	u8 val;
++	int err;
++
++
++	d = (struct dvobj_priv *)p;
++	val = SDIO_ERR_VAL8;
++	pbuf = rtw_zmalloc(1);
++	if (!pbuf)
++		return val;
++
++	err = d->intf_ops->read(d, offset, pbuf, 1, 0);
++	if (err) {
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++		goto exit;
++	}
++
++	val = *pbuf;
++
++exit:
++	rtw_mfree(pbuf, 1);
++
++	return val;
++}
++
++static u16 _halmac_sdio_reg_read_16(void *p, u32 offset)
++{
++	struct dvobj_priv *d;
++	u8 *pbuf;
++	u16 val;
++	int err;
++
++
++	d = (struct dvobj_priv *)p;
++	val = SDIO_ERR_VAL16;
++	pbuf = rtw_zmalloc(2);
++	if (!pbuf)
++		return val;
++
++	err = d->intf_ops->read(d, offset, pbuf, 2, 0);
++	if (err) {
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++		goto exit;
++	}
++
++	val = le16_to_cpu(*(u16 *)pbuf);
++
++exit:
++	rtw_mfree(pbuf, 2);
++
++	return val;
++}
++
++static u32 _halmac_sdio_reg_read_32(void *p, u32 offset)
++{
++	struct dvobj_priv *d;
++	u8 *pbuf;
++	u32 val;
++	int err;
++
++
++	d = (struct dvobj_priv *)p;
++	val = SDIO_ERR_VAL32;
++	pbuf = rtw_zmalloc(4);
++	if (!pbuf)
++		return val;
++
++	err = d->intf_ops->read(d, offset, pbuf, 4, 0);
++	if (err) {
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++		goto exit;
++	}
++
++	val = le32_to_cpu(*(u32 *)pbuf);
++
++exit:
++	rtw_mfree(pbuf, 4);
++
++	return val;
++}
++
++static u8 _halmac_sdio_reg_read_n(void *p, u32 offset, u32 size, u8 *data)
++{
++	struct dvobj_priv *d = (struct dvobj_priv *)p;
++	PSDIO_DATA psdio = &d->intf_data;
++
++	u8 *pbuf;
++	int err;
++	u8 rst = _FALSE;
++	u32 sdio_read_size;
++
++	sdio_read_size = RND4(size);
++	if (sdio_read_size > psdio->block_transfer_len)
++		sdio_read_size = _RND(sdio_read_size, psdio->block_transfer_len);
++
++	pbuf = rtw_zmalloc(sdio_read_size);
++	if ((!pbuf) || (!data))
++		return rst;
++
++	err = d->intf_ops->read(d, offset, pbuf, sdio_read_size, 0);
++	if (err) {
++		RTW_ERR("%s: [ERROR] I/O FAIL!\n", __func__);
++		goto exit;
++	}
++
++	_rtw_memcpy(data, pbuf, size);
++	rst = _TRUE;
++exit:
++	rtw_mfree(pbuf, sdio_read_size);
++
++	return rst;
++}
++
++static void _halmac_sdio_reg_write_8(void *p, u32 offset, u8 val)
++{
++	struct dvobj_priv *d;
++	u8 *pbuf;
++	int err;
++
++
++	d = (struct dvobj_priv *)p;
++	pbuf = rtw_zmalloc(1);
++	if (!pbuf)
++		return;
++	_rtw_memcpy(pbuf, &val, 1);
++
++	err = d->intf_ops->write(d, offset, pbuf, 1, 0);
++	if (err)
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++
++	rtw_mfree(pbuf, 1);
++}
++
++static void _halmac_sdio_reg_write_16(void *p, u32 offset, u16 val)
++{
++	struct dvobj_priv *d;
++	u8 *pbuf;
++	int err;
++
++
++	d = (struct dvobj_priv *)p;
++	val = cpu_to_le16(val);
++	pbuf = rtw_zmalloc(2);
++	if (!pbuf)
++		return;
++	_rtw_memcpy(pbuf, &val, 2);
++
++	err = d->intf_ops->write(d, offset, pbuf, 2, 0);
++	if (err)
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++
++	rtw_mfree(pbuf, 2);
++}
++
++static void _halmac_sdio_reg_write_32(void *p, u32 offset, u32 val)
++{
++	struct dvobj_priv *d;
++	u8 *pbuf;
++	int err;
++
++
++	d = (struct dvobj_priv *)p;
++	val = cpu_to_le32(val);
++	pbuf = rtw_zmalloc(4);
++	if (!pbuf)
++		return;
++	_rtw_memcpy(pbuf, &val, 4);
++
++	err = d->intf_ops->write(d, offset, pbuf, 4, 0);
++	if (err)
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++
++	rtw_mfree(pbuf, 4);
++}
++
++#else /* !CONFIG_SDIO_HCI */
++
++static u8 _halmac_reg_read_8(void *p, u32 offset)
++{
++	struct dvobj_priv *d;
++	PADAPTER adapter;
++
++
++	d = (struct dvobj_priv *)p;
++	adapter = d->padapters[IFACE_ID0];
++
++	return rtw_read8(adapter, offset);
++}
++
++static u16 _halmac_reg_read_16(void *p, u32 offset)
++{
++	struct dvobj_priv *d;
++	PADAPTER adapter;
++
++
++	d = (struct dvobj_priv *)p;
++	adapter = d->padapters[IFACE_ID0];
++
++	return rtw_read16(adapter, offset);
++}
++
++static u32 _halmac_reg_read_32(void *p, u32 offset)
++{
++	struct dvobj_priv *d;
++	PADAPTER adapter;
++
++
++	d = (struct dvobj_priv *)p;
++	adapter = d->padapters[IFACE_ID0];
++
++	return rtw_read32(adapter, offset);
++}
++
++static void _halmac_reg_write_8(void *p, u32 offset, u8 val)
++{
++	struct dvobj_priv *d;
++	PADAPTER adapter;
++	int err;
++
++
++	d = (struct dvobj_priv *)p;
++	adapter = d->padapters[IFACE_ID0];
++
++	err = rtw_write8(adapter, offset, val);
++	if (err == _FAIL)
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++}
++
++static void _halmac_reg_write_16(void *p, u32 offset, u16 val)
++{
++	struct dvobj_priv *d;
++	PADAPTER adapter;
++	int err;
++
++
++	d = (struct dvobj_priv *)p;
++	adapter = d->padapters[IFACE_ID0];
++
++	err = rtw_write16(adapter, offset, val);
++	if (err == _FAIL)
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++}
++
++static void _halmac_reg_write_32(void *p, u32 offset, u32 val)
++{
++	struct dvobj_priv *d;
++	PADAPTER adapter;
++	int err;
++
++
++	d = (struct dvobj_priv *)p;
++	adapter = d->padapters[IFACE_ID0];
++
++	err = rtw_write32(adapter, offset, val);
++	if (err == _FAIL)
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++}
++#endif /* !CONFIG_SDIO_HCI */
++
++static u8 _halmac_mfree(void *p, void *buffer, u32 size)
++{
++	rtw_mfree(buffer, size);
++	return _TRUE;
++}
++
++static void *_halmac_malloc(void *p, u32 size)
++{
++	return rtw_zmalloc(size);
++}
++
++static u8 _halmac_memcpy(void *p, void *dest, void *src, u32 size)
++{
++	_rtw_memcpy(dest, src, size);
++	return _TRUE;
++}
++
++static u8 _halmac_memset(void *p, void *addr, u8 value, u32 size)
++{
++	_rtw_memset(addr, value, size);
++	return _TRUE;
++}
++
++static void _halmac_udelay(void *p, u32 us)
++{
++	rtw_udelay_os(us);
++}
++
++static u8 _halmac_mutex_init(void *p, HALMAC_MUTEX *pMutex)
++{
++	_rtw_mutex_init(pMutex);
++	return _TRUE;
++}
++
++static u8 _halmac_mutex_deinit(void *p, HALMAC_MUTEX *pMutex)
++{
++	_rtw_mutex_free(pMutex);
++	return _TRUE;
++}
++
++static u8 _halmac_mutex_lock(void *p, HALMAC_MUTEX *pMutex)
++{
++	int err;
++
++	err = _enter_critical_mutex(pMutex, NULL);
++	if (err)
++		return _FALSE;
++
++	return _TRUE;
++}
++
++static u8 _halmac_mutex_unlock(void *p, HALMAC_MUTEX *pMutex)
++{
++	_exit_critical_mutex(pMutex, NULL);
++	return _TRUE;
++}
++
++static u8 _halmac_msg_print(void *p, u32 msg_type, u8 msg_level, s8 *fmt, ...)
++{
++#define MSG_LEN		100
++#define MSG_PREFIX	"[HALMAC]"
++	va_list args;
++	u8 str[MSG_LEN] = {0};
++	u32 type;
++	u8 level;
++
++
++	str[0] = '\n';
++	type = 0xFFFFFFFF;
++	if (rtw_drv_log_level <= _DRV_ERR_)
++		level = HALMAC_DBG_ERR;
++	else if (rtw_drv_log_level <= _DRV_INFO_)
++		level = HALMAC_DBG_WARN;
++	else
++		level = HALMAC_DBG_TRACE;
++
++	if (!(type & BIT(msg_type)))
++		return _TRUE;
++	if (level < msg_level)
++		return _TRUE;
++
++	va_start(args, fmt);
++	vsnprintf(str, MSG_LEN, fmt, args);
++	va_end(args);
++
++	if (msg_level <= HALMAC_DBG_ERR)
++		RTW_ERR(MSG_PREFIX "%s", str);
++	else if (msg_level <= HALMAC_DBG_WARN)
++		RTW_WARN(MSG_PREFIX "%s", str);
++	else
++		RTW_DBG(MSG_PREFIX "%s", str);
++
++	return _TRUE;
++}
++
++static u8 _halmac_buff_print(void *p, u32 msg_type, u8 msg_level, s8 *buf, u32 size)
++{
++#define MSG_PREFIX	"[HALMAC]"
++	u32 type;
++	u8 level;
++
++	type = 0xFFFFFFFF;
++	if (rtw_drv_log_level <= _DRV_ERR_)
++		level = HALMAC_DBG_ERR;
++	else if (rtw_drv_log_level <= _DRV_INFO_)
++		level = HALMAC_DBG_WARN;
++	else
++		level = HALMAC_DBG_TRACE;
++
++	if (!(type & BIT(msg_type)))
++		return _TRUE;
++	if (level < msg_level)
++		return _TRUE;
++
++	if (msg_level <= HALMAC_DBG_WARN)
++		RTW_INFO_DUMP(MSG_PREFIX, buf, size);
++	else
++		RTW_DBG_DUMP(MSG_PREFIX, buf, size);
++
++	return _TRUE;
++}
++
++
++const char *const RTW_HALMAC_FEATURE_NAME[] = {
++	"HALMAC_FEATURE_CFG_PARA",
++	"HALMAC_FEATURE_DUMP_PHYSICAL_EFUSE",
++	"HALMAC_FEATURE_DUMP_LOGICAL_EFUSE",
++	"HALMAC_FEATURE_UPDATE_PACKET",
++	"HALMAC_FEATURE_UPDATE_DATAPACK",
++	"HALMAC_FEATURE_RUN_DATAPACK",
++	"HALMAC_FEATURE_CHANNEL_SWITCH",
++	"HALMAC_FEATURE_IQK",
++	"HALMAC_FEATURE_POWER_TRACKING",
++	"HALMAC_FEATURE_PSD",
++	"HALMAC_FEATURE_ALL"
++};
++
++static inline u8 is_valid_id_status(HALMAC_FEATURE_ID id, HALMAC_CMD_PROCESS_STATUS status)
++{
++	switch (id) {
++	case HALMAC_FEATURE_CFG_PARA:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		break;
++	case HALMAC_FEATURE_DUMP_PHYSICAL_EFUSE:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		if (HALMAC_CMD_PROCESS_DONE != status) {
++			RTW_INFO("%s: <WARN> id(%d) unspecified status(%d)!\n",
++				 __FUNCTION__, id, status);
++		}
++		break;
++	case HALMAC_FEATURE_DUMP_LOGICAL_EFUSE:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		if (HALMAC_CMD_PROCESS_DONE != status) {
++			RTW_INFO("%s: <WARN> id(%d) unspecified status(%d)!\n",
++				 __FUNCTION__, id, status);
++		}
++		break;
++	case HALMAC_FEATURE_UPDATE_PACKET:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		break;
++	case HALMAC_FEATURE_UPDATE_DATAPACK:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		break;
++	case HALMAC_FEATURE_RUN_DATAPACK:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		break;
++	case HALMAC_FEATURE_CHANNEL_SWITCH:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		break;
++	case HALMAC_FEATURE_IQK:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		break;
++	case HALMAC_FEATURE_POWER_TRACKING:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		break;
++	case HALMAC_FEATURE_PSD:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		break;
++	case HALMAC_FEATURE_ALL:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		break;
++	default:
++		RTW_INFO("%s: unknown feature id(%d)\n", __FUNCTION__, id);
++		return _FALSE;
++	}
++
++	return _TRUE;
++}
++
++static int init_halmac_event_with_waittime(struct dvobj_priv *d, HALMAC_FEATURE_ID id, u8 *buf, u32 size, u32 time)
++{
++	struct submit_ctx *sctx;
++
++
++	if (!d->hmpriv.indicator[id].sctx) {
++		sctx = (struct submit_ctx *)rtw_zmalloc(sizeof(*sctx));
++		if (!sctx)
++			return -1;
++	} else {
++		RTW_INFO("%s: <WARN> id(%d) sctx is not NULL!!\n", __FUNCTION__, id);
++		sctx = d->hmpriv.indicator[id].sctx;
++		d->hmpriv.indicator[id].sctx = NULL;
++	}
++
++	rtw_sctx_init(sctx, time);
++	d->hmpriv.indicator[id].buffer = buf;
++	d->hmpriv.indicator[id].buf_size = size;
++	d->hmpriv.indicator[id].ret_size = 0;
++	d->hmpriv.indicator[id].status = 0;
++	/* fill sctx at least to sure other variables are all ready! */
++	d->hmpriv.indicator[id].sctx = sctx;
++
++	return 0;
++}
++
++static inline int init_halmac_event(struct dvobj_priv *d, HALMAC_FEATURE_ID id, u8 *buf, u32 size)
++{
++	return init_halmac_event_with_waittime(d, id, buf, size, DEFAULT_INDICATOR_TIMELMT);
++}
++
++static void free_halmac_event(struct dvobj_priv *d, HALMAC_FEATURE_ID id)
++{
++	struct submit_ctx *sctx;
++
++
++	if (!d->hmpriv.indicator[id].sctx)
++		return;
++
++	sctx = d->hmpriv.indicator[id].sctx;
++	d->hmpriv.indicator[id].sctx = NULL;
++	rtw_mfree((u8 *)sctx, sizeof(*sctx));
++}
++
++static int wait_halmac_event(struct dvobj_priv *d, HALMAC_FEATURE_ID id)
++{
++	struct submit_ctx *sctx;
++	int ret;
++
++
++	sctx = d->hmpriv.indicator[id].sctx;
++	if (!sctx)
++		return -1;
++
++	ret = rtw_sctx_wait(sctx, RTW_HALMAC_FEATURE_NAME[id]);
++	free_halmac_event(d, id);
++	if (_SUCCESS == ret)
++		return 0;
++
++	return -1;
++}
++
++/*
++ * Return:
++ *	Always return _TRUE, HALMAC don't care the return value.
++ */
++static u8 _halmac_event_indication(void *p, HALMAC_FEATURE_ID feature_id, HALMAC_CMD_PROCESS_STATUS process_status, u8 *buf, u32 size)
++{
++	struct dvobj_priv *d;
++	PADAPTER adapter;
++	PHAL_DATA_TYPE hal;
++	struct halmac_indicator *tbl, *indicator;
++	struct submit_ctx *sctx;
++	u32 cpsz;
++	u8 ret;
++
++
++	d = (struct dvobj_priv *)p;
++	adapter = d->padapters[IFACE_ID0];
++	hal = GET_HAL_DATA(adapter);
++	tbl = d->hmpriv.indicator;
++
++	ret = is_valid_id_status(feature_id, process_status);
++	if (_FALSE == ret)
++		goto exit;
++
++	indicator = &tbl[feature_id];
++	indicator->status = process_status;
++	indicator->ret_size = size;
++	if (!indicator->sctx) {
++		RTW_INFO("%s: No feature id(%d) waiting!!\n", __FUNCTION__, feature_id);
++		goto exit;
++	}
++	sctx = indicator->sctx;
++
++	if (HALMAC_CMD_PROCESS_ERROR == process_status) {
++		RTW_INFO("%s: Something wrong id(%d)!!\n", __FUNCTION__, feature_id);
++		rtw_sctx_done_err(&sctx, RTW_SCTX_DONE_UNKNOWN);
++		goto exit;
++	}
++
++	if (size > indicator->buf_size) {
++		RTW_INFO("%s: <WARN> id(%d) buffer is not enough(%d<%d), data will be truncated!\n",
++			 __FUNCTION__, feature_id, indicator->buf_size, size);
++		cpsz = indicator->buf_size;
++	} else
++		cpsz = size;
++	if (cpsz && indicator->buffer)
++		_rtw_memcpy(indicator->buffer, buf, cpsz);
++
++	rtw_sctx_done(&sctx);
++
++exit:
++	return _TRUE;
++}
++
++HALMAC_PLATFORM_API rtw_halmac_platform_api = {
++	/* R/W register */
++#ifdef CONFIG_SDIO_HCI
++	.SDIO_CMD52_READ = _halmac_sdio_cmd52_read,
++	.SDIO_CMD53_READ_8 = _halmac_sdio_reg_read_8,
++	.SDIO_CMD53_READ_16 = _halmac_sdio_reg_read_16,
++	.SDIO_CMD53_READ_32 = _halmac_sdio_reg_read_32,
++	.SDIO_CMD53_READ_N = _halmac_sdio_reg_read_n,
++	.SDIO_CMD52_WRITE = _halmac_sdio_cmd52_write,
++	.SDIO_CMD53_WRITE_8 = _halmac_sdio_reg_write_8,
++	.SDIO_CMD53_WRITE_16 = _halmac_sdio_reg_write_16,
++	.SDIO_CMD53_WRITE_32 = _halmac_sdio_reg_write_32,
++
++#endif /* CONFIG_SDIO_HCI */
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_PCIE_HCI)
++	.REG_READ_8 = _halmac_reg_read_8,
++	.REG_READ_16 = _halmac_reg_read_16,
++	.REG_READ_32 = _halmac_reg_read_32,
++	.REG_WRITE_8 = _halmac_reg_write_8,
++	.REG_WRITE_16 = _halmac_reg_write_16,
++	.REG_WRITE_32 = _halmac_reg_write_32,
++#endif /* CONFIG_USB_HCI || CONFIG_PCIE_HCI */
++
++	/* Write data */
++#if 0
++	/* impletement in HAL-IC level */
++	.SEND_RSVD_PAGE = sdio_write_data_rsvd_page,
++	.SEND_H2C_PKT = sdio_write_data_h2c,
++#endif
++	/* Memory allocate */
++	.RTL_FREE = _halmac_mfree,
++	.RTL_MALLOC = _halmac_malloc,
++	.RTL_MEMCPY = _halmac_memcpy,
++	.RTL_MEMSET = _halmac_memset,
++
++	/* Sleep */
++	.RTL_DELAY_US = _halmac_udelay,
++
++	/* Process Synchronization */
++	.MUTEX_INIT = _halmac_mutex_init,
++	.MUTEX_DEINIT = _halmac_mutex_deinit,
++	.MUTEX_LOCK = _halmac_mutex_lock,
++	.MUTEX_UNLOCK = _halmac_mutex_unlock,
++
++	.MSG_PRINT = _halmac_msg_print,
++	.BUFF_PRINT = _halmac_buff_print,
++	.EVENT_INDICATION = _halmac_event_indication,
++};
++
++u8 rtw_halmac_read8(struct intf_hdl *pintfhdl, u32 addr)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++
++
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	return api->halmac_reg_read_8(mac, addr);
++}
++
++u16 rtw_halmac_read16(struct intf_hdl *pintfhdl, u32 addr)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++
++
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	return api->halmac_reg_read_16(mac, addr);
++}
++
++u32 rtw_halmac_read32(struct intf_hdl *pintfhdl, u32 addr)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++
++
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	return api->halmac_reg_read_32(mac, addr);
++}
++
++void rtw_halmac_read_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem)
++{
++#if defined(CONFIG_SDIO_HCI)
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++
++	if (pmem == NULL) {
++		RTW_ERR("pmem is NULL\n");
++		return;
++	}
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	api->halmac_reg_sdio_cmd53_read_n(mac, addr, cnt, pmem);
++#endif
++}
++
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++u8 rtw_halmac_iread8(struct intf_hdl *pintfhdl, u32 addr)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	/*return api->halmac_reg_read_indirect_8(mac, addr);*/
++	return api->halmac_reg_read_8(mac, addr);
++}
++
++u16 rtw_halmac_iread16(struct intf_hdl *pintfhdl, u32 addr)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	u16 val16 = 0;
++
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	/*return api->halmac_reg_read_indirect_16(mac, addr);*/
++	return api->halmac_reg_read_16(mac, addr);
++}
++
++u32 rtw_halmac_iread32(struct intf_hdl *pintfhdl, u32 addr)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++
++
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	return api->halmac_reg_read_indirect_32(mac, addr);
++}
++#endif
++
++int rtw_halmac_write8(struct intf_hdl *pintfhdl, u32 addr, u8 value)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++
++
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_reg_write_8(mac, addr, value);
++
++	if (status == HALMAC_RET_SUCCESS)
++		return 0;
++
++	return -1;
++}
++
++int rtw_halmac_write16(struct intf_hdl *pintfhdl, u32 addr, u16 value)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++
++
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_reg_write_16(mac, addr, value);
++
++	if (status == HALMAC_RET_SUCCESS)
++		return 0;
++
++	return -1;
++}
++
++int rtw_halmac_write32(struct intf_hdl *pintfhdl, u32 addr, u32 value)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++
++
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_reg_write_32(mac, addr, value);
++
++	if (status == HALMAC_RET_SUCCESS)
++		return 0;
++
++	return -1;
++}
++
++static int init_priv(struct halmacpriv *priv)
++{
++	struct halmac_indicator *indicator;
++	u32 count, size;
++
++
++	size = sizeof(*priv);
++	_rtw_memset(priv, 0, size);
++
++	count = HALMAC_FEATURE_ALL + 1;
++	size = sizeof(*indicator) * count;
++	indicator = (struct halmac_indicator *)rtw_zmalloc(size);
++	if (!indicator)
++		return -1;
++	priv->indicator = indicator;
++
++	return 0;
++}
++
++static void deinit_priv(struct halmacpriv *priv)
++{
++	struct halmac_indicator *indicator;
++
++
++	indicator = priv->indicator;
++	priv->indicator = NULL;
++	if (indicator) {
++		u32 count, size;
++
++		count = HALMAC_FEATURE_ALL + 1;
++#ifdef CONFIG_RTW_DEBUG
++		{
++			struct submit_ctx *sctx;
++			u32 i;
++
++			for (i = 0; i < count; i++) {
++				if (!indicator[i].sctx)
++					continue;
++
++				RTW_INFO("%s: <WARN> %s id(%d) sctx still exist!!\n",
++					__FUNCTION__, RTW_HALMAC_FEATURE_NAME[i], i);
++				sctx = indicator[i].sctx;
++				indicator[i].sctx = NULL;
++				rtw_mfree((u8 *)sctx, sizeof(*sctx));
++			}
++		}
++#endif /* !CONFIG_RTW_DEBUG */
++		size = sizeof(*indicator) * count;
++		rtw_mfree((u8 *)indicator, size);
++	}
++}
++
++int rtw_halmac_init_adapter(struct dvobj_priv *d, PHALMAC_PLATFORM_API pf_api)
++{
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_INTERFACE intf;
++	HALMAC_RET_STATUS status;
++	int err = 0;
++
++
++	halmac = dvobj_to_halmac(d);
++	if (halmac) {
++		err = 0;
++		goto out;
++	}
++
++	err = init_priv(&d->hmpriv);
++	if (err)
++		goto out;
++
++#ifdef CONFIG_SDIO_HCI
++	intf = HALMAC_INTERFACE_SDIO;
++#elif defined(CONFIG_USB_HCI)
++	intf = HALMAC_INTERFACE_USB;
++#elif defined(CONFIG_PCIE_HCI)
++	intf = HALMAC_INTERFACE_PCIE;
++#else
++#warning "INTERFACE(CONFIG_XXX_HCI) not be defined!!"
++	intf = HALMAC_INTERFACE_UNDEFINE;
++#endif
++	status = halmac_init_adapter(d, pf_api, intf, &halmac, &api);
++	if (HALMAC_RET_SUCCESS != status) {
++		RTW_INFO("%s: halmac_init_adapter fail!(status=%d)\n", __FUNCTION__, status);
++		err = -1;
++		goto out;
++	}
++
++	dvobj_set_halmac(d, halmac);
++
++out:
++	if (err)
++		rtw_halmac_deinit_adapter(d);
++
++	return err;
++}
++
++int rtw_halmac_deinit_adapter(struct dvobj_priv *d)
++{
++	PHALMAC_ADAPTER halmac;
++	HALMAC_RET_STATUS status;
++	int err = 0;
++
++
++	halmac = dvobj_to_halmac(d);
++	if (!halmac) {
++		err = 0;
++		goto out;
++	}
++
++	deinit_priv(&d->hmpriv);
++
++	status = halmac_deinit_adapter(halmac);
++	dvobj_set_halmac(d, NULL);
++	if (status != HALMAC_RET_SUCCESS) {
++		err = -1;
++		goto out;
++	}
++
++out:
++	return err;
++}
++
++int rtw_halmac_poweron(struct dvobj_priv *d)
++{
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	int err = -1;
++
++
++	halmac = dvobj_to_halmac(d);
++	if (!halmac)
++		goto out;
++
++	api = HALMAC_GET_API(halmac);
++
++	status = api->halmac_pre_init_system_cfg(halmac);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	status = api->halmac_mac_power_switch(halmac, HALMAC_MAC_POWER_ON);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	status = api->halmac_init_system_cfg(halmac);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	err = 0;
++out:
++	return err;
++}
++
++int rtw_halmac_poweroff(struct dvobj_priv *d)
++{
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	int err = -1;
++
++
++	halmac = dvobj_to_halmac(d);
++	if (!halmac)
++		goto out;
++
++	api = HALMAC_GET_API(halmac);
++
++	status = api->halmac_mac_power_switch(halmac, HALMAC_MAC_POWER_OFF);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	err = 0;
++out:
++	return err;
++}
++
++/*
++ * Note:
++ *	When this function return, the register REG_RCR may be changed.
++ */
++int rtw_halmac_config_rx_info(struct dvobj_priv *d, HALMAC_DRV_INFO info)
++{
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	int err = -1;
++
++
++	halmac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(halmac);
++
++	status = api->halmac_cfg_drv_info(halmac, info);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	err = 0;
++out:
++	return err;
++}
++
++#ifdef CONFIG_SUPPORT_TRX_SHARED
++static inline HALMAC_RX_FIFO_EXPANDING_MODE _trx_share_mode_drv2halmac(u8 trx_share_mode)
++{
++	if (0 == trx_share_mode)
++		return HALMAC_RX_FIFO_EXPANDING_MODE_DISABLE;
++	else if (1 == trx_share_mode)
++		return HALMAC_RX_FIFO_EXPANDING_MODE_1_BLOCK;
++	else if (2 == trx_share_mode)
++		return HALMAC_RX_FIFO_EXPANDING_MODE_2_BLOCK;
++	else if (3 == trx_share_mode)
++		return HALMAC_RX_FIFO_EXPANDING_MODE_3_BLOCK;
++	else
++		return HALMAC_RX_FIFO_EXPANDING_MODE_DISABLE;
++}
++static HALMAC_RX_FIFO_EXPANDING_MODE _rtw_get_trx_share_mode(_adapter *adapter)
++{
++	struct registry_priv  *registry_par = &adapter->registrypriv;
++
++	return _trx_share_mode_drv2halmac(registry_par->trx_share_mode);
++}
++void dump_trx_share_mode(void *sel, _adapter *adapter)
++{
++	struct registry_priv  *registry_par = &adapter->registrypriv;
++	u8 mode =  _trx_share_mode_drv2halmac(registry_par->trx_share_mode);
++
++	if (HALMAC_RX_FIFO_EXPANDING_MODE_1_BLOCK == mode)
++		RTW_PRINT_SEL(sel, "TRx share mode : %s\n", "RX_FIFO_EXPANDING_MODE_1");
++	else if (HALMAC_RX_FIFO_EXPANDING_MODE_2_BLOCK == mode)
++		RTW_PRINT_SEL(sel, "TRx share mode : %s\n", "RX_FIFO_EXPANDING_MODE_2");
++	else if (HALMAC_RX_FIFO_EXPANDING_MODE_3_BLOCK == mode)
++		RTW_PRINT_SEL(sel, "TRx share mode : %s\n", "RX_FIFO_EXPANDING_MODE_3");
++	else
++		RTW_PRINT_SEL(sel, "TRx share mode : %s\n", "DISABLE");
++}
++#endif
++
++static HALMAC_RET_STATUS init_mac_flow(struct dvobj_priv *d)
++{
++	PADAPTER p;
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_WLAN_ADDR hwa;
++	HALMAC_RET_STATUS status;
++	u8 wifi_test = 0;
++	u8 nettype;
++	int err;
++
++
++	p = d->padapters[IFACE_ID0];
++	halmac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(halmac);
++	if (p->registrypriv.wifi_spec)
++		wifi_test = 1;
++
++#ifdef CONFIG_SUPPORT_TRX_SHARED
++	status = api->halmac_cfg_rx_fifo_expanding_mode(halmac, _rtw_get_trx_share_mode(p));
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++#endif
++
++#if 0
++	status = api->halmac_cfg_drv_rsvd_pg_num(halmac, HALMAC_RSVD_PG_NUM16);/*HALMAC_RSVD_PG_NUM24/HALMAC_RSVD_PG_NUM32*/
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++#endif
++
++#ifdef CONFIG_USB_HCI
++	status = api->halmac_set_bulkout_num(halmac, d->RtNumOutPipes);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++#endif /* CONFIG_USB_HCI */
++
++	if (wifi_test)
++		status = api->halmac_init_mac_cfg(halmac, HALMAC_TRX_MODE_WMM);
++	else
++		status = api->halmac_init_mac_cfg(halmac, HALMAC_TRX_MODE_NORMAL);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	err = rtw_halmac_rx_agg_switch(d, _TRUE);
++	if (err)
++		goto out;
++
++	nettype = dvobj_to_regsty(d)->wireless_mode;
++	if (IsSupportedVHT(nettype) == _TRUE)
++		status = api->halmac_cfg_operation_mode(halmac, HALMAC_WIRELESS_MODE_AC);
++	else if (IsSupportedHT(nettype) == _TRUE)
++		status = api->halmac_cfg_operation_mode(halmac, HALMAC_WIRELESS_MODE_N);
++	else if (IsSupportedTxOFDM(nettype) == _TRUE)
++		status = api->halmac_cfg_operation_mode(halmac, HALMAC_WIRELESS_MODE_G);
++	else
++		status = api->halmac_cfg_operation_mode(halmac, HALMAC_WIRELESS_MODE_B);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++out:
++	return status;
++}
++
++static inline HALMAC_RF_TYPE _rf_type_drv2halmac(RT_RF_TYPE_DEF_E rf_drv)
++{
++	HALMAC_RF_TYPE rf_mac;
++
++
++	switch (rf_drv) {
++	case RF_1T2R:
++		rf_mac = HALMAC_RF_1T2R;
++		break;
++	case RF_2T4R:
++		rf_mac = HALMAC_RF_2T4R;
++		break;
++	case RF_2T2R:
++		rf_mac = HALMAC_RF_2T2R;
++		break;
++	case RF_1T1R:
++		rf_mac = HALMAC_RF_1T1R;
++		break;
++	case RF_2T2R_GREEN:
++		rf_mac = HALMAC_RF_2T2R_GREEN;
++		break;
++	case RF_2T3R:
++		rf_mac = HALMAC_RF_2T3R;
++		break;
++	case RF_3T3R:
++		rf_mac = HALMAC_RF_3T3R;
++		break;
++	case RF_3T4R:
++		rf_mac = HALMAC_RF_3T4R;
++		break;
++	case RF_4T4R:
++		rf_mac = HALMAC_RF_4T4R;
++		break;
++	default:
++		rf_mac = (HALMAC_RF_TYPE)rf_drv;
++		break;
++	}
++
++	return rf_mac;
++}
++
++static int _send_general_info(struct dvobj_priv *d)
++{
++	PADAPTER adapter;
++	PHAL_DATA_TYPE hal;
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_GENERAL_INFO info;
++	HALMAC_RET_STATUS status;
++	u8 val8;
++
++
++	adapter = d->padapters[IFACE_ID0];
++	hal = GET_HAL_DATA(adapter);
++	halmac = dvobj_to_halmac(d);
++	if (!halmac)
++		return -1;
++	api = HALMAC_GET_API(halmac);
++
++	_rtw_memset(&info, 0, sizeof(info));
++	info.rfe_type = (u8)hal->RFEType;
++	rtw_hal_get_hwreg(adapter, HW_VAR_RF_TYPE, &val8);
++	info.rf_type = _rf_type_drv2halmac(val8);
++
++	status = api->halmac_send_general_info(halmac, &info);
++	switch (status) {
++	case HALMAC_RET_SUCCESS:
++		break;
++	case HALMAC_RET_NO_DLFW:
++		RTW_WARN("%s: halmac_send_general_info() fail because fw not dl!\n",
++			 __FUNCTION__);
++		/* go through */
++	default:
++		return -1;
++	}
++
++	return 0;
++}
++
++/*
++ * Notices:
++ *	Make sure
++ *	1. rtw_hal_get_hwreg(HW_VAR_RF_TYPE)
++ *	2. HAL_DATA_TYPE.rfe_type
++ *	already ready for use before calling this function.
++ */
++static int _halmac_init_hal(struct dvobj_priv *d, u8 *fw, u32 fwsize)
++{
++	PADAPTER adapter;
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u32 ok = _TRUE;
++	u8 fw_ok = _FALSE;
++	int err, err_ret = -1;
++
++
++	adapter = d->padapters[IFACE_ID0];
++	halmac = dvobj_to_halmac(d);
++	if (!halmac)
++		goto out;
++	api = HALMAC_GET_API(halmac);
++
++	/* StatePowerOff */
++
++	/* SKIP: halmac_init_adapter (Already done before) */
++
++	/* halmac_pre_Init_system_cfg */
++	/* halmac_mac_power_switch(on) */
++	/* halmac_Init_system_cfg */
++	ok = rtw_hal_power_on(adapter);
++	if (_FALSE == ok)
++		goto out;
++
++	/* StatePowerOn */
++
++	/* DownloadFW */
++	d->hmpriv.send_general_info = 0;
++	if (fw && fwsize) {
++		err = rtw_halmac_dlfw(d, fw, fwsize);
++		if (err)
++			goto out;
++		fw_ok = _TRUE;
++	}
++
++	/* InitMACFlow */
++	status = init_mac_flow(d);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	/* halmac_send_general_info */
++	if (_TRUE == fw_ok) {
++		d->hmpriv.send_general_info = 0;
++		err = _send_general_info(d);
++		if (err)
++			goto out;
++	} else
++		d->hmpriv.send_general_info = 1;
++
++	/* Init Phy parameter-MAC */
++	ok = rtw_hal_init_mac_register(adapter);
++	if (_FALSE == ok)
++		goto out;
++
++	/* StateMacInitialized */
++
++	/* halmac_cfg_drv_info */
++	err = rtw_halmac_config_rx_info(d, HALMAC_DRV_INFO_PHY_STATUS);
++	if (err)
++		goto out;
++
++	/* halmac_set_hw_value(HALMAC_HW_EN_BB_RF) */
++	/* Init BB, RF */
++	ok = rtw_hal_init_phy(adapter);
++	if (_FALSE == ok)
++		goto out;
++
++	status = api->halmac_init_interface_cfg(halmac);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	/* SKIP: halmac_verify_platform_api */
++	/* SKIP: halmac_h2c_lb */
++
++	/* StateRxIdle */
++
++	err_ret = 0;
++out:
++	return err_ret;
++}
++
++int rtw_halmac_init_hal(struct dvobj_priv *d)
++{
++	return _halmac_init_hal(d, NULL, 0);
++}
++
++/*
++ * Notices:
++ *	Make sure
++ *	1. rtw_hal_get_hwreg(HW_VAR_RF_TYPE)
++ *	2. HAL_DATA_TYPE.rfe_type
++ *	already ready for use before calling this function.
++ */
++int rtw_halmac_init_hal_fw(struct dvobj_priv *d, u8 *fw, u32 fwsize)
++{
++	return _halmac_init_hal(d, fw, fwsize);
++}
++
++/*
++ * Notices:
++ *	Make sure
++ *	1. rtw_hal_get_hwreg(HW_VAR_RF_TYPE)
++ *	2. HAL_DATA_TYPE.rfe_type
++ *	already ready for use before calling this function.
++ */
++int rtw_halmac_init_hal_fw_file(struct dvobj_priv *d, u8 *fwpath)
++{
++	u8 *fw = NULL;
++	u32 fwmaxsize, size = 0;
++	int err = 0;
++
++
++	fwmaxsize = FIRMWARE_MAX_SIZE;
++	fw = rtw_zmalloc(fwmaxsize);
++	if (!fw)
++		return -1;
++
++	size = rtw_retrieve_from_file(fwpath, fw, fwmaxsize);
++	if (!size) {
++		err = -1;
++		goto exit;
++	}
++
++	err = _halmac_init_hal(d, fw, size);
++
++exit:
++	rtw_mfree(fw, fwmaxsize);
++	fw = NULL;
++
++	return err;
++}
++
++int rtw_halmac_deinit_hal(struct dvobj_priv *d)
++{
++	PADAPTER adapter;
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	int err = -1;
++
++
++	adapter = d->padapters[IFACE_ID0];
++	halmac = dvobj_to_halmac(d);
++	if (!halmac)
++		goto out;
++	api = HALMAC_GET_API(halmac);
++
++	status = api->halmac_deinit_interface_cfg(halmac);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	rtw_hal_power_off(adapter);
++
++	err = 0;
++out:
++	return err;
++}
++
++int rtw_halmac_self_verify(struct dvobj_priv *d)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	int err = -1;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_verify_platform_api(mac);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	status = api->halmac_h2c_lb(mac);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	err = 0;
++out:
++	return err;
++}
++
++int rtw_halmac_dlfw(struct dvobj_priv *d, u8 *fw, u32 fwsize)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	int err = 0;
++	PHAL_DATA_TYPE hal;
++	HALMAC_FW_VERSION fw_vesion;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++	hal = GET_HAL_DATA(d->padapters[IFACE_ID0]);
++
++	if ((!fw) || (!fwsize))
++		return -1;
++
++	/* 1. Driver Stop Tx */
++	/* ToDo */
++
++	/* 2. Driver Check Tx FIFO is empty */
++	/* ToDo */
++
++	/* 3. Config MAX download size */
++#ifdef CONFIG_USB_HCI
++	/* for USB do not exceed MAX_CMDBUF_SZ */
++	api->halmac_cfg_max_dl_size(mac, 0x1000);
++#elif defined CONFIG_PCIE_HCI                                                   
++	/* required a even length from u32 */
++        api->halmac_cfg_max_dl_size(mac, (MAX_CMDBUF_SZ - TXDESC_OFFSET) & 0xFFFFFFFE);
++#endif
++
++	/* 4. Download Firmware */
++	status = api->halmac_download_firmware(mac, fw, fwsize);
++	if (HALMAC_RET_SUCCESS != status)
++		return -1;
++
++	if (d->hmpriv.send_general_info) {
++		d->hmpriv.send_general_info = 0;
++		err = _send_general_info(d);
++	}
++
++	/* 5. Driver resume TX if needed */
++	/* ToDo */
++
++	/* 6. Reset driver variables if needed */
++	hal->LastHMEBoxNum = 0;
++
++
++	/* 7. Get FW version */
++	status = api->halmac_get_fw_version(mac, &fw_vesion);
++	if (status == HALMAC_RET_SUCCESS) {
++		hal->FirmwareVersion = fw_vesion.version;
++		hal->FirmwareSubVersion = fw_vesion.sub_version;
++	}
++
++	return err;
++}
++
++int rtw_halmac_dlfw_from_file(struct dvobj_priv *d, u8 *fwpath)
++{
++	u8 *fw = NULL;
++	u32 fwmaxsize, size = 0;
++	int err = 0;
++
++
++	fwmaxsize = FIRMWARE_MAX_SIZE;
++	fw = rtw_zmalloc(fwmaxsize);
++	if (!fw)
++		return -1;
++
++	size = rtw_retrieve_from_file(fwpath, fw, fwmaxsize);
++	if (size)
++		err = rtw_halmac_dlfw(d, fw, size);
++	else
++		err = -1;
++
++	rtw_mfree(fw, fwmaxsize);
++	fw = NULL;
++
++	return err;
++}
++
++/*
++ * Description:
++ *	Power on/off BB/RF domain.
++ *
++ * Parameters:
++ *	enable	_TRUE/_FALSE for power on/off
++ *
++ * Return:
++ *	0	Success
++ *	others	Fail
++ */
++int rtw_halmac_phy_power_switch(struct dvobj_priv *d, u8 enable)
++{
++	PADAPTER adapter;
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++
++
++	adapter = d->padapters[IFACE_ID0];
++	halmac = dvobj_to_halmac(d);
++	if (!halmac)
++		return -1;
++	api = HALMAC_GET_API(halmac);
++
++	status = api->halmac_set_hw_value(halmac, HALMAC_HW_EN_BB_RF, &enable);
++	if (status != HALMAC_RET_SUCCESS)
++		return -1;
++
++	return 0;
++}
++
++static u8 _is_fw_read_cmd_down(PADAPTER adapter, u8 msgbox_num)
++{
++	u8 read_down = _FALSE;
++	int retry_cnts = 100;
++	u8 valid;
++
++	/* RTW_INFO("_is_fw_read_cmd_down, reg_1cc(%x), msg_box(%d)...\n", rtw_read8(adapter, REG_HMETFR), msgbox_num); */
++
++	do {
++		valid = rtw_read8(adapter, REG_HMETFR) & BIT(msgbox_num);
++		if (0 == valid)
++			read_down = _TRUE;
++		else
++			rtw_msleep_os(1);
++	} while ((!read_down) && (retry_cnts--));
++
++	return read_down;
++}
++
++int rtw_halmac_send_h2c(struct dvobj_priv *d, u8 *h2c)
++{
++	PADAPTER adapter = d->padapters[IFACE_ID0];
++	PHAL_DATA_TYPE hal = GET_HAL_DATA(adapter);
++	u8 h2c_box_num = 0;
++	u32 msgbox_addr = 0;
++	u32 msgbox_ex_addr = 0;
++	u32 h2c_cmd = 0;
++	u32 h2c_cmd_ex = 0;
++	s32 ret = _FAIL;
++
++	if (adapter->bFWReady == _FALSE) {
++		RTW_INFO("%s: return H2C cmd because fw is not ready\n", __FUNCTION__);
++		return ret;
++	}
++
++	if (!h2c) {
++		RTW_INFO("%s: pbuf is NULL\n", __FUNCTION__);
++		return ret;
++	}
++
++	if (rtw_is_surprise_removed(adapter)) {
++		RTW_INFO("%s: surprise removed\n", __FUNCTION__);
++		return ret;
++	}
++
++	_enter_critical_mutex(&d->h2c_fwcmd_mutex, NULL);
++
++	/* pay attention to if race condition happened in  H2C cmd setting */
++	h2c_box_num = hal->LastHMEBoxNum;
++
++	if (!_is_fw_read_cmd_down(adapter, h2c_box_num)) {
++		RTW_INFO(" fw read cmd failed...\n");
++		goto exit;
++	}
++
++	/* Write Ext command(byte 4 -7) */
++	msgbox_ex_addr = REG_HMEBOX_E0 + (h2c_box_num * EX_MESSAGE_BOX_SIZE);
++	_rtw_memcpy((u8 *)(&h2c_cmd_ex), h2c + 4, EX_MESSAGE_BOX_SIZE);
++	h2c_cmd_ex = le32_to_cpu(h2c_cmd_ex);
++	rtw_write32(adapter, msgbox_ex_addr, h2c_cmd_ex);
++
++	/* Write command (byte 0 -3 ) */
++	msgbox_addr = REG_HMEBOX0 + (h2c_box_num * MESSAGE_BOX_SIZE);
++	_rtw_memcpy((u8 *)(&h2c_cmd), h2c, 4);
++	h2c_cmd = le32_to_cpu(h2c_cmd);
++	rtw_write32(adapter, msgbox_addr, h2c_cmd);
++
++	/* update last msg box number */
++	hal->LastHMEBoxNum = (h2c_box_num + 1) % MAX_H2C_BOX_NUMS;
++	ret = _SUCCESS;
++
++exit:
++	_exit_critical_mutex(&d->h2c_fwcmd_mutex, NULL);
++	return ret;
++}
++
++int rtw_halmac_c2h_handle(struct dvobj_priv *d, u8 *c2h, u32 size)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_get_c2h_info(mac, c2h, size);
++	if (HALMAC_RET_SUCCESS != status)
++		return -1;
++
++	return 0;
++}
++
++int rtw_halmac_get_physical_efuse_size(struct dvobj_priv *d, u32 *size)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u32 val;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_get_efuse_size(mac, &val);
++	if (HALMAC_RET_SUCCESS != status)
++		return -1;
++
++	*size = val;
++	return 0;
++}
++
++int rtw_halmac_read_physical_efuse_map(struct dvobj_priv *d, u8 *map, u32 size)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	HALMAC_FEATURE_ID id;
++	int ret;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++	id = HALMAC_FEATURE_DUMP_PHYSICAL_EFUSE;
++
++	ret = init_halmac_event(d, id, map, size);
++	if (ret)
++		return -1;
++
++	status = api->halmac_dump_efuse_map(mac, HALMAC_EFUSE_R_AUTO);
++	if (HALMAC_RET_SUCCESS != status) {
++		free_halmac_event(d, id);
++		return -1;
++	}
++
++	ret = wait_halmac_event(d, id);
++	if (ret)
++		return -1;
++
++	return 0;
++}
++
++int rtw_halmac_read_physical_efuse(struct dvobj_priv *d, u32 offset, u32 cnt, u8 *data)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u8 v;
++	u32 i;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	for (i = 0; i < cnt; i++) {
++		status = api->halmac_read_efuse(mac, offset + i, &v);
++		if (HALMAC_RET_SUCCESS != status)
++			return -1;
++		data[i] = v;
++	}
++
++	return 0;
++}
++
++int rtw_halmac_write_physical_efuse(struct dvobj_priv *d, u32 offset, u32 cnt, u8 *data)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u32 i;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	for (i = 0; i < cnt; i++) {
++		status = api->halmac_write_efuse(mac, offset + i, data[i]);
++		if (HALMAC_RET_SUCCESS != status)
++			return -1;
++	}
++
++	return 0;
++}
++
++int rtw_halmac_get_logical_efuse_size(struct dvobj_priv *d, u32 *size)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u32 val;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_get_logical_efuse_size(mac, &val);
++	if (HALMAC_RET_SUCCESS != status)
++		return -1;
++
++	*size = val;
++	return 0;
++}
++
++int rtw_halmac_read_logical_efuse_map(struct dvobj_priv *d, u8 *map, u32 size)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	HALMAC_FEATURE_ID id;
++	int ret;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++	id = HALMAC_FEATURE_DUMP_LOGICAL_EFUSE;
++
++	ret = init_halmac_event(d, id, map, size);
++	if (ret)
++		return -1;
++
++	status = api->halmac_dump_logical_efuse_map(mac, HALMAC_EFUSE_R_AUTO);
++	if (HALMAC_RET_SUCCESS != status) {
++		free_halmac_event(d, id);
++		return -1;
++	}
++
++	ret = wait_halmac_event(d, id);
++	if (ret)
++		return -1;
++
++	return 0;
++}
++
++int rtw_halmac_write_logical_efuse_map(struct dvobj_priv *d, u8 *map, u32 size, u8 *maskmap, u32 masksize)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_PG_EFUSE_INFO pginfo;
++	HALMAC_RET_STATUS status;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	pginfo.pEfuse_map = map;
++	pginfo.efuse_map_size = size;
++	pginfo.pEfuse_mask = maskmap;
++	pginfo.efuse_mask_size = masksize;
++
++	status = api->halmac_pg_efuse_by_map(mac, &pginfo, HALMAC_EFUSE_R_AUTO);
++	if (HALMAC_RET_SUCCESS != status)
++		return -1;
++
++	return 0;
++}
++
++int rtw_halmac_read_logical_efuse(struct dvobj_priv *d, u32 offset, u32 cnt, u8 *data)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u8 v;
++	u32 i;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	for (i = 0; i < cnt; i++) {
++		status = api->halmac_read_logical_efuse(mac, offset + i, &v);
++		if (HALMAC_RET_SUCCESS != status)
++			return -1;
++		data[i] = v;
++	}
++
++	return 0;
++}
++
++int rtw_halmac_write_logical_efuse(struct dvobj_priv *d, u32 offset, u32 cnt, u8 *data)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u32 i;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	for (i = 0; i < cnt; i++) {
++		status = api->halmac_write_logical_efuse(mac, offset + i, data[i]);
++		if (HALMAC_RET_SUCCESS != status)
++			return -1;
++	}
++
++	return 0;
++}
++
++int rtw_halmac_write_bt_physical_efuse(struct dvobj_priv *d, u32 offset, u32 cnt, u8 *data)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u32 i;
++	u8 bank = 1;
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	for (i = 0; i < cnt; i++) {
++		status = api->halmac_write_efuse_bt(mac, offset + i, data[i], bank);
++		if (HALMAC_RET_SUCCESS != status) {
++			printk("%s: halmac_write_efuse_bt status = %d\n", __FUNCTION__, status);
++			return -1;
++		}
++	}
++	printk("%s: halmac_write_efuse_bt status = HALMAC_RET_SUCCESS %d\n", __FUNCTION__, status);
++	return 0;
++}
++
++
++int rtw_halmac_read_bt_physical_efuse_map(struct dvobj_priv *d, u8 *map, u32 size)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	HALMAC_FEATURE_ID id;
++	int ret;
++	int bank = 1;
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_dump_efuse_map_bt(mac, bank, size, map);
++	if (HALMAC_RET_SUCCESS != status) {		
++		printk("%s: halmac_dump_efuse_map_bt fail!\n", __FUNCTION__);
++		return -1;
++	}
++
++	printk("%s: OK!\n", __FUNCTION__);
++
++	return 0;
++}
++
++static inline u8 _hw_port_drv2halmac(enum _hw_port hwport)
++{
++	u8 port = 0;
++
++
++	switch (hwport) {
++	case HW_PORT0:
++		port = 0;
++		break;
++	case HW_PORT1:
++		port = 1;
++		break;
++	case HW_PORT2:
++		port = 2;
++		break;
++	case HW_PORT3:
++		port = 3;
++		break;
++	case HW_PORT4:
++		port = 4;
++		break;
++	default:
++		port = hwport;
++		break;
++	}
++
++	return port;
++}
++
++int rtw_halmac_set_mac_address(struct dvobj_priv *d, enum _hw_port hwport, u8 *addr)
++{
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	u8 port;
++	HALMAC_WLAN_ADDR hwa;
++	HALMAC_RET_STATUS status;
++	int err = -1;
++
++
++	halmac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(halmac);
++
++	port = _hw_port_drv2halmac(hwport);
++	_rtw_memset(&hwa, 0, sizeof(hwa));
++	_rtw_memcpy(hwa.Address, addr, 6);
++
++	status = api->halmac_cfg_mac_addr(halmac, port, &hwa);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	err = 0;
++out:
++	return err;
++}
++
++int rtw_halmac_set_bssid(struct dvobj_priv *d, enum _hw_port hwport, u8 *addr)
++{
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	u8 port;
++	HALMAC_WLAN_ADDR hwa;
++	HALMAC_RET_STATUS status;
++	int err = -1;
++
++	halmac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(halmac);
++	port = _hw_port_drv2halmac(hwport);
++
++	_rtw_memset(&hwa, 0, sizeof(HALMAC_WLAN_ADDR));
++	_rtw_memcpy(hwa.Address, addr, 6);
++	status = api->halmac_cfg_bssid(halmac, port, &hwa);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	err = 0;
++out:
++	return err;
++}
++
++int rtw_halmac_set_bandwidth(struct dvobj_priv *d, u8 channel, u8 pri_ch_idx, u8 bw)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_cfg_ch_bw(mac, channel, pri_ch_idx, bw);
++	if (HALMAC_RET_SUCCESS != status)
++		return -1;
++
++	return 0;
++}
++
++int rtw_halmac_get_hw_value(struct dvobj_priv *d, HALMAC_HW_ID hw_id, VOID *pvalue)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_get_hw_value(mac, hw_id, pvalue);
++	if (HALMAC_RET_SUCCESS != status)
++		return -1;
++
++	return 0;
++}
++
++int rtw_halmac_dump_fifo(struct dvobj_priv *d, HAL_FIFO_SEL halmac_fifo_sel)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u8 *pfifo_map = NULL;
++	u32 fifo_size = 0;
++	s8	ret = 0;
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	fifo_size = api->halmac_get_fifo_size(mac, halmac_fifo_sel);
++	if (fifo_size)
++		pfifo_map = rtw_vmalloc(fifo_size);
++	if (pfifo_map == NULL)
++		return -1;
++
++	status = api->halmac_dump_fifo(mac, halmac_fifo_sel, pfifo_map, fifo_size);
++	if (HALMAC_RET_SUCCESS != status) {
++		ret = -1;
++		goto _exit;
++	}
++
++_exit:
++	if (pfifo_map)
++		rtw_vmfree(pfifo_map, fifo_size);
++	return ret;
++
++}
++
++int rtw_halmac_rx_agg_switch(struct dvobj_priv *d, u8 enable)
++{
++	PADAPTER adapter;
++	PHAL_DATA_TYPE hal;
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_RXAGG_CFG rxaggcfg;
++	HALMAC_RET_STATUS status;
++	int err = -1;
++
++
++	adapter = d->padapters[IFACE_ID0];
++	hal = GET_HAL_DATA(adapter);
++	halmac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(halmac);
++	_rtw_memset((void *)&rxaggcfg, 0, sizeof(rxaggcfg));
++
++	if (_TRUE == enable) {
++#ifdef CONFIG_SDIO_HCI
++		rxaggcfg.mode = HALMAC_RX_AGG_MODE_DMA;
++		rxaggcfg.threshold.drv_define = 0;
++#elif defined(CONFIG_USB_HCI) && defined(CONFIG_USB_RX_AGGREGATION)
++		switch (hal->rxagg_mode) {
++		case RX_AGG_DISABLE:
++			rxaggcfg.mode = HALMAC_RX_AGG_MODE_NONE;
++			break;
++
++		case RX_AGG_DMA:
++			rxaggcfg.mode = HALMAC_RX_AGG_MODE_DMA;
++			if (hal->rxagg_dma_size || hal->rxagg_dma_timeout) {
++				rxaggcfg.threshold.drv_define = 1;
++				rxaggcfg.threshold.timeout = hal->rxagg_dma_timeout;
++				rxaggcfg.threshold.size = hal->rxagg_dma_size;
++			}
++			break;
++
++		case RX_AGG_USB:
++		case RX_AGG_MIX:
++			rxaggcfg.mode = HALMAC_RX_AGG_MODE_USB;
++			if (hal->rxagg_usb_size || hal->rxagg_usb_timeout) {
++				rxaggcfg.threshold.drv_define = 1;
++				rxaggcfg.threshold.timeout = hal->rxagg_usb_timeout;
++				rxaggcfg.threshold.size = hal->rxagg_usb_size;
++			}
++			break;
++		}
++#endif /* CONFIG_USB_HCI */
++	} else
++		rxaggcfg.mode = HALMAC_RX_AGG_MODE_NONE;
++
++	status = api->halmac_cfg_rx_aggregation(halmac, &rxaggcfg);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	err = 0;
++out:
++	return err;
++}
++
++int rtw_halmac_get_wow_reason(struct dvobj_priv *d, u8 *reason)
++{
++	PADAPTER adapter;
++	u8 val8;
++	int err = -1;
++
++
++	adapter = d->padapters[IFACE_ID0];
++
++	val8 = rtw_read8(adapter, 0x1C7);
++	if (val8 == 0xEA)
++		goto out;
++
++	*reason = val8;
++	err = 0;
++out:
++	return err;
++}
++
++/*
++ * Description:
++ *	Get RX driver info size. RX driver info is a small memory space between
++ *	scriptor and RX payload.
++ *
++ *	+-------------------------+
++ *	| RX descriptor           |
++ *	| usually 24 bytes        |
++ *	+-------------------------+
++ *	| RX driver info          |
++ *	| depends on driver cfg   |
++ *	+-------------------------+
++ *	| RX paylad               |
++ *	|                         |
++ *	+-------------------------+
++ *
++ * Parameter:
++ *	d	pointer to struct dvobj_priv of driver
++ *	sz	rx driver info size in bytes.
++ *
++ * Rteurn:
++ *	0	Success
++ *	other	Fail
++ */
++int rtw_halmac_get_drv_info_sz(struct dvobj_priv *d, u8 *sz)
++{
++	HALMAC_RET_STATUS status;
++	PHALMAC_ADAPTER halmac = dvobj_to_halmac(d);
++	PHALMAC_API api = HALMAC_GET_API(halmac);
++	u8 dw = 0;
++
++	status = api->halmac_get_hw_value(halmac, HALMAC_HW_DRV_INFO_SIZE, &dw);
++	if (status != HALMAC_RET_SUCCESS)
++		return -1;
++
++	*sz = dw * 8;
++	return 0;
++}
++int rtw_halmac_get_rsvd_drv_pg_bndy(struct dvobj_priv *dvobj, u16 *drv_pg)
++{
++	HALMAC_RET_STATUS status;
++	PHALMAC_ADAPTER halmac = dvobj_to_halmac(dvobj);
++	PHALMAC_API api = HALMAC_GET_API(halmac);
++
++	status = api->halmac_get_hw_value(halmac, HALMAC_HW_RSVD_PG_BNDY, drv_pg);
++	if (status != HALMAC_RET_SUCCESS)
++		return -1;
++
++	return 0;
++}
++
++int rtw_halmac_download_rsvd_page(struct dvobj_priv *dvobj, u8 pg_offset, u8 *pbuf, u32 size)
++{
++	HALMAC_RET_STATUS status = HALMAC_RET_SUCCESS;
++	PHALMAC_ADAPTER halmac = dvobj_to_halmac(dvobj);
++	PHALMAC_API api = HALMAC_GET_API(halmac);
++
++	status = api->halmac_dl_drv_rsvd_page(halmac, pg_offset, pbuf, size);
++	if (status != HALMAC_RET_SUCCESS)
++		return -1;
++
++	return 0;
++
++}
++
++#ifdef CONFIG_SDIO_HCI
++
++/*
++ * Description:
++ *	Update queue allocated page number to driver
++ *
++ * Parameter:
++ *	d	pointer to struct dvobj_priv of driver
++ *
++ * Rteurn:
++ *	0	Success, "page" is valid.
++ *	others	Fail, "page" is invalid.
++ */
++int rtw_halmac_query_tx_page_num(struct dvobj_priv *d)
++{
++	PADAPTER adapter;
++	struct halmacpriv *hmpriv;
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_RQPN_MAP rqpn;
++	HALMAC_DMA_MAPPING dmaqueue;
++	HALMAC_TXFF_ALLOCATION fifosize;
++	HALMAC_RET_STATUS status;
++	u8 i;
++
++
++	adapter = d->padapters[IFACE_ID0];
++	hmpriv = &d->hmpriv;
++	halmac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(halmac);
++	_rtw_memset((void *)&rqpn, 0, sizeof(rqpn));
++	_rtw_memset((void *)&fifosize, 0, sizeof(fifosize));
++
++	status = api->halmac_get_hw_value(halmac, HALMAC_HW_RQPN_MAPPING, &rqpn);
++	if (status != HALMAC_RET_SUCCESS)
++		return -1;
++	status = api->halmac_get_hw_value(halmac, HALMAC_HW_TXFF_ALLOCATION, &fifosize);
++	if (status != HALMAC_RET_SUCCESS)
++		return -1;
++
++	for (i = 0; i < HW_QUEUE_ENTRY; i++) {
++		hmpriv->txpage[i] = 0;
++
++		/* Driver index mapping to HALMAC DMA queue */
++		dmaqueue = HALMAC_DMA_MAPPING_UNDEFINE;
++		switch (i) {
++		case VO_QUEUE_INX:
++			dmaqueue = rqpn.dma_map_vo;
++			break;
++		case VI_QUEUE_INX:
++			dmaqueue = rqpn.dma_map_vi;
++			break;
++		case BE_QUEUE_INX:
++			dmaqueue = rqpn.dma_map_be;
++			break;
++		case BK_QUEUE_INX:
++			dmaqueue = rqpn.dma_map_bk;
++			break;
++		case MGT_QUEUE_INX:
++			dmaqueue = rqpn.dma_map_mg;
++			break;
++		case HIGH_QUEUE_INX:
++			dmaqueue = rqpn.dma_map_hi;
++			break;
++		case BCN_QUEUE_INX:
++		case TXCMD_QUEUE_INX:
++			/* Unlimited */
++			hmpriv->txpage[i] = 0xFFFF;
++			continue;
++		}
++
++		switch (dmaqueue) {
++		case HALMAC_DMA_MAPPING_EXTRA:
++			hmpriv->txpage[i] = fifosize.extra_queue_pg_num;
++			break;
++		case HALMAC_DMA_MAPPING_LOW:
++			hmpriv->txpage[i] = fifosize.low_queue_pg_num;
++			break;
++		case HALMAC_DMA_MAPPING_NORMAL:
++			hmpriv->txpage[i] = fifosize.normal_queue_pg_num;
++			break;
++		case HALMAC_DMA_MAPPING_HIGH:
++			hmpriv->txpage[i] = fifosize.high_queue_pg_num;
++			break;
++		case HALMAC_DMA_MAPPING_UNDEFINE:
++			break;
++		}
++		hmpriv->txpage[i] += fifosize.pub_queue_pg_num;
++	}
++
++	return 0;
++}
++
++/*
++ * Description:
++ *	Get specific queue allocated page number
++ *
++ * Parameter:
++ *	d	pointer to struct dvobj_priv of driver
++ *	queue	target queue to query, VO/VI/BE/BK/.../TXCMD_QUEUE_INX
++ *	page	return allocated page number
++ *
++ * Rteurn:
++ *	0	Success, "page" is valid.
++ *	others	Fail, "page" is invalid.
++ */
++int rtw_halmac_get_tx_queue_page_num(struct dvobj_priv *d, u8 queue, u32 *page)
++{
++	*page = 0;
++	if (queue < HW_QUEUE_ENTRY)
++		*page = d->hmpriv.txpage[queue];
++
++	return 0;
++}
++
++/*
++ * Return:
++ *	address for SDIO command
++ */
++u32 rtw_halmac_sdio_get_tx_addr(struct dvobj_priv *d, u8 *desc, u32 size)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u32 addr;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_get_sdio_tx_addr(mac, desc, size, &addr);
++	if (HALMAC_RET_SUCCESS != status)
++		return 0;
++
++	return addr;
++}
++
++int rtw_halmac_sdio_tx_allowed(struct dvobj_priv *d, u8 *buf, u32 size)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_tx_allowed_sdio(mac, buf, size);
++	if (HALMAC_RET_SUCCESS != status)
++		return -1;
++
++	return 0;
++}
++
++u32 rtw_halmac_sdio_get_rx_addr(struct dvobj_priv *d, u8 *seq)
++{
++	u8 id;
++
++#define RTW_SDIO_ADDR_RX_RX0FF_PRFIX	0x0E000
++#define RTW_SDIO_ADDR_RX_RX0FF_GEN(a)	(RTW_SDIO_ADDR_RX_RX0FF_PRFIX|(a&0x3))
++
++	id = *seq;
++	(*seq)++;
++	return RTW_SDIO_ADDR_RX_RX0FF_GEN(id);
++}
++#endif /* CONFIG_SDIO_HCI */
++
++#ifdef CONFIG_USB_HCI
++u8 rtw_halmac_usb_get_bulkout_id(struct dvobj_priv *d, u8 *buf, u32 size)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u8 bulkout_id;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_get_usb_bulkout_id(mac, buf, size, &bulkout_id);
++	if (HALMAC_RET_SUCCESS != status)
++		return 0;
++
++	return bulkout_id;
++}
++
++static inline HALMAC_USB_MODE _usb_mode_drv2halmac(enum RTW_USB_SPEED usb_mode)
++{
++	HALMAC_USB_MODE halmac_usb_mode = HALMAC_USB_MODE_U2;
++
++	switch (usb_mode) {
++	case RTW_USB_SPEED_2:
++		halmac_usb_mode = HALMAC_USB_MODE_U2;
++		break;
++	case RTW_USB_SPEED_3:
++		halmac_usb_mode = HALMAC_USB_MODE_U3;
++		break;
++	default:
++		halmac_usb_mode = HALMAC_USB_MODE_U2;
++		break;
++	}
++
++	return halmac_usb_mode;
++}
++
++u8 rtw_halmac_switch_usb_mode(struct dvobj_priv *d, enum RTW_USB_SPEED usb_mode)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	PADAPTER adapter;
++	HALMAC_USB_MODE halmac_usb_mode;
++
++	adapter = d->padapters[IFACE_ID0];
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++	halmac_usb_mode = _usb_mode_drv2halmac(usb_mode);
++	status = api->halmac_set_hw_value(mac, HALMAC_HW_USB_MODE, (void *)&halmac_usb_mode);
++
++	if (HALMAC_RET_SUCCESS != status)
++		return _FAIL;
++
++	return _SUCCESS;
++}
++#endif /* CONFIG_USB_HCI */
+diff --git a/drivers/net/wireless/rtl8723du/hal/hal_halmac.h b/drivers/net/wireless/rtl8723du/hal/hal_halmac.h
+new file mode 100644
+index 0000000..2864011
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/hal_halmac.h
+@@ -0,0 +1,118 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _HAL_HALMAC_H_
++#define _HAL_HALMAC_H_
++
++#include <drv_types.h>		/* adapter_to_dvobj(), struct intf_hdl and etc. */
++#include "halmac/halmac_api.h"	/* PHALMAC_ADAPTER and etc. */
++
++/* HALMAC Definition for Driver */
++#define RTW_HALMAC_H2C_MAX_SIZE		HALMAC_H2C_CMD_ORIGINAL_SIZE_88XX
++#define RTW_HALMAC_BA_SSN_RPT_SIZE	4
++
++#define dvobj_set_halmac(d, mac)	((d)->halmac = (mac))
++#define dvobj_to_halmac(d)		((PHALMAC_ADAPTER)((d)->halmac))
++#define adapter_to_halmac(p)		dvobj_to_halmac(adapter_to_dvobj(p))
++
++/* for H2C cmd */
++#define MAX_H2C_BOX_NUMS 4
++#define MESSAGE_BOX_SIZE 4
++#define EX_MESSAGE_BOX_SIZE 4
++
++typedef enum _RTW_HALMAC_MODE {
++	RTW_HALMAC_MODE_NORMAL,
++	RTW_HALMAC_MODE_WIFI_TEST,
++} RTW_HALMAC_MODE;
++
++extern HALMAC_PLATFORM_API rtw_halmac_platform_api;
++
++/* HALMAC API for Driver(HAL) */
++u8 rtw_halmac_read8(struct intf_hdl *, u32 addr);
++u16 rtw_halmac_read16(struct intf_hdl *, u32 addr);
++u32 rtw_halmac_read32(struct intf_hdl *, u32 addr);
++void rtw_halmac_read_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++u8 rtw_halmac_iread8(struct intf_hdl *pintfhdl, u32 addr);
++u16 rtw_halmac_iread16(struct intf_hdl *pintfhdl, u32 addr);
++u32 rtw_halmac_iread32(struct intf_hdl *pintfhdl, u32 addr);
++#endif
++int rtw_halmac_write8(struct intf_hdl *, u32 addr, u8 value);
++int rtw_halmac_write16(struct intf_hdl *, u32 addr, u16 value);
++int rtw_halmac_write32(struct intf_hdl *, u32 addr, u32 value);
++
++int rtw_halmac_init_adapter(struct dvobj_priv *, PHALMAC_PLATFORM_API);
++int rtw_halmac_deinit_adapter(struct dvobj_priv *);
++int rtw_halmac_poweron(struct dvobj_priv *);
++int rtw_halmac_poweroff(struct dvobj_priv *);
++int rtw_halmac_init_hal(struct dvobj_priv *);
++int rtw_halmac_init_hal_fw(struct dvobj_priv *, u8 *fw, u32 fwsize);
++int rtw_halmac_init_hal_fw_file(struct dvobj_priv *, u8 *fwpath);
++int rtw_halmac_deinit_hal(struct dvobj_priv *);
++int rtw_halmac_self_verify(struct dvobj_priv *);
++int rtw_halmac_dlfw(struct dvobj_priv *, u8 *fw, u32 fwsize);
++int rtw_halmac_dlfw_from_file(struct dvobj_priv *, u8 *fwpath);
++int rtw_halmac_phy_power_switch(struct dvobj_priv *, u8 enable);
++int rtw_halmac_send_h2c(struct dvobj_priv *, u8 *h2c);
++int rtw_halmac_c2h_handle(struct dvobj_priv *, u8 *c2h, u32 size);
++
++int rtw_halmac_get_physical_efuse_size(struct dvobj_priv *, u32 *size);
++int rtw_halmac_read_physical_efuse_map(struct dvobj_priv *, u8 *map, u32 size);
++int rtw_halmac_read_physical_efuse(struct dvobj_priv *, u32 offset, u32 cnt, u8 *data);
++int rtw_halmac_write_physical_efuse(struct dvobj_priv *, u32 offset, u32 cnt, u8 *data);
++int rtw_halmac_get_logical_efuse_size(struct dvobj_priv *, u32 *size);
++int rtw_halmac_read_logical_efuse_map(struct dvobj_priv *, u8 *map, u32 size);
++int rtw_halmac_write_logical_efuse_map(struct dvobj_priv *, u8 *map, u32 size, u8 *maskmap, u32 masksize);
++int rtw_halmac_read_logical_efuse(struct dvobj_priv *, u32 offset, u32 cnt, u8 *data);
++int rtw_halmac_write_logical_efuse(struct dvobj_priv *, u32 offset, u32 cnt, u8 *data);
++
++int rtw_halmac_write_bt_physical_efuse(struct dvobj_priv *, u32 offset, u32 cnt, u8 *data);
++int rtw_halmac_read_bt_physical_efuse_map(struct dvobj_priv *, u8 *map, u32 size);
++
++int rtw_halmac_config_rx_info(struct dvobj_priv *, HALMAC_DRV_INFO);
++int rtw_halmac_set_mac_address(struct dvobj_priv *, enum _hw_port, u8 *addr);
++int rtw_halmac_set_bssid(struct dvobj_priv *d, enum _hw_port hwport, u8 *addr);
++
++int rtw_halmac_set_bandwidth(struct dvobj_priv *, u8 channel, u8 pri_ch_idx, u8 bw);
++int rtw_halmac_rx_agg_switch(struct dvobj_priv *, u8 enable);
++int rtw_halmac_get_hw_value(struct dvobj_priv *d, HALMAC_HW_ID hw_id, VOID *pvalue);
++
++int rtw_halmac_get_wow_reason(struct dvobj_priv *, u8 *reason);
++int rtw_halmac_get_drv_info_sz(struct dvobj_priv *d, u8 *sz);
++
++int rtw_halmac_get_rsvd_drv_pg_bndy(struct dvobj_priv *dvobj, u16 *drv_pg);
++int rtw_halmac_download_rsvd_page(struct dvobj_priv *dvobj, u8 pg_offset, u8 *pbuf, u32 size);
++
++#ifdef CONFIG_SDIO_HCI
++int rtw_halmac_query_tx_page_num(struct dvobj_priv *);
++int rtw_halmac_get_tx_queue_page_num(struct dvobj_priv *, u8 queue, u32 *page);
++u32 rtw_halmac_sdio_get_tx_addr(struct dvobj_priv *, u8 *desc, u32 size);
++int rtw_halmac_sdio_tx_allowed(struct dvobj_priv *, u8 *buf, u32 size);
++u32 rtw_halmac_sdio_get_rx_addr(struct dvobj_priv *, u8 *seq);
++#endif /* CONFIG_SDIO_HCI */
++
++#ifdef CONFIG_USB_HCI
++u8 rtw_halmac_usb_get_bulkout_id(struct dvobj_priv *, u8 *buf, u32 size);
++u8 rtw_halmac_switch_usb_mode(struct dvobj_priv *d, enum RTW_USB_SPEED usb_mode);
++#endif /* CONFIG_USB_HCI */
++
++#ifdef CONFIG_SUPPORT_TRX_SHARED
++void dump_trx_share_mode(void *sel, _adapter *adapter);
++#endif
++#endif /* _HAL_HALMAC_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/hal/hal_hci/hal_usb.c b/drivers/net/wireless/rtl8723du/hal/hal_hci/hal_usb.c
+new file mode 100644
+index 0000000..dd26a18
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/hal_hci/hal_usb.c
+@@ -0,0 +1,550 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HAL_USB_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#ifdef CONFIG_RTL8821C
++	#include <rtl8821cu_hal.h>	/* MAX_RECVBUF_SZ */
++#endif /* CONFIG_RTL8821C */
++
++int	usb_init_recv_priv(_adapter *padapter, u16 ini_in_buf_sz)
++{
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++	int	i, res = _SUCCESS;
++	struct recv_buf *precvbuf;
++
++#ifdef CONFIG_RECV_THREAD_MODE
++	_rtw_init_sema(&precvpriv->recv_sema, 0);/* will be removed */
++	_rtw_init_sema(&precvpriv->terminate_recvthread_sema, 0);/* will be removed */
++#endif /* CONFIG_RECV_THREAD_MODE */
++
++#ifdef PLATFORM_LINUX
++	tasklet_init(&precvpriv->recv_tasklet,
++		     (void(*)(unsigned long))usb_recv_tasklet,
++		     (unsigned long)padapter);
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++#ifdef CONFIG_RX_INDICATE_QUEUE
++	TASK_INIT(&precvpriv->rx_indicate_tasklet, 0, rtw_rx_indicate_tasklet, padapter);
++#endif /* CONFIG_RX_INDICATE_QUEUE */
++#endif /* PLATFORM_FREEBSD */
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++#ifdef PLATFORM_LINUX
++	precvpriv->int_in_urb = usb_alloc_urb(0, GFP_KERNEL);
++	if (precvpriv->int_in_urb == NULL) {
++		res = _FAIL;
++		RTW_INFO("alloc_urb for interrupt in endpoint fail !!!!\n");
++		goto exit;
++	}
++#endif /* PLATFORM_LINUX */
++	precvpriv->int_in_buf = rtw_zmalloc(ini_in_buf_sz);
++	if (precvpriv->int_in_buf == NULL) {
++		res = _FAIL;
++		RTW_INFO("alloc_mem for interrupt in endpoint fail !!!!\n");
++		goto exit;
++	}
++#endif /* CONFIG_USB_INTERRUPT_IN_PIPE */
++
++	/* init recv_buf */
++	_rtw_init_queue(&precvpriv->free_recv_buf_queue);
++	_rtw_init_queue(&precvpriv->recv_buf_pending_queue);
++#ifndef CONFIG_USE_USB_BUFFER_ALLOC_RX
++	/* this is used only when RX_IOBUF is sk_buff */
++	skb_queue_head_init(&precvpriv->free_recv_skb_queue);
++#endif
++
++	RTW_INFO("NR_RECVBUFF: %d\n", NR_RECVBUFF);
++	RTW_INFO("MAX_RECVBUF_SZ: %d\n", MAX_RECVBUF_SZ);
++	precvpriv->pallocated_recv_buf = rtw_zmalloc(NR_RECVBUFF * sizeof(struct recv_buf) + 4);
++	if (precvpriv->pallocated_recv_buf == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	precvpriv->precv_buf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(precvpriv->pallocated_recv_buf), 4);
++
++	precvbuf = (struct recv_buf *)precvpriv->precv_buf;
++
++	for (i = 0; i < NR_RECVBUFF ; i++) {
++		_rtw_init_listhead(&precvbuf->list);
++
++		_rtw_spinlock_init(&precvbuf->recvbuf_lock);
++
++		precvbuf->alloc_sz = MAX_RECVBUF_SZ;
++
++		res = rtw_os_recvbuf_resource_alloc(padapter, precvbuf);
++		if (res == _FAIL)
++			break;
++
++		precvbuf->ref_cnt = 0;
++		precvbuf->adapter = padapter;
++
++		/* rtw_list_insert_tail(&precvbuf->list, &(precvpriv->free_recv_buf_queue.queue)); */
++
++		precvbuf++;
++	}
++
++	precvpriv->free_recv_buf_queue_cnt = NR_RECVBUFF;
++
++#if defined(PLATFORM_LINUX) || defined(PLATFORM_FREEBSD)
++
++	skb_queue_head_init(&precvpriv->rx_skb_queue);
++
++#ifdef CONFIG_RTW_NAPI
++	skb_queue_head_init(&precvpriv->rx_napi_skb_queue);
++#endif
++
++#ifdef CONFIG_RX_INDICATE_QUEUE
++	memset(&precvpriv->rx_indicate_queue, 0, sizeof(struct ifqueue));
++	mtx_init(&precvpriv->rx_indicate_queue.ifq_mtx, "rx_indicate_queue", NULL, MTX_DEF);
++#endif /* CONFIG_RX_INDICATE_QUEUE */
++
++#ifdef CONFIG_PREALLOC_RECV_SKB
++	{
++		int i;
++		SIZE_PTR tmpaddr = 0;
++		SIZE_PTR alignment = 0;
++		struct sk_buff *pskb = NULL;
++
++		RTW_INFO("NR_PREALLOC_RECV_SKB: %d\n", NR_PREALLOC_RECV_SKB);
++#ifdef CONFIG_FIX_NR_BULKIN_BUFFER
++		RTW_INFO("Enable CONFIG_FIX_NR_BULKIN_BUFFER\n");
++#endif
++
++		for (i = 0; i < NR_PREALLOC_RECV_SKB; i++) {
++#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++			pskb = rtw_alloc_skb_premem(MAX_RECVBUF_SZ);
++#else
++			pskb = rtw_skb_alloc(MAX_RECVBUF_SZ + RECVBUFF_ALIGN_SZ);
++#endif /* CONFIG_PREALLOC_RX_SKB_BUFFER */
++
++			if (pskb) {
++#ifdef PLATFORM_FREEBSD
++				pskb->dev = padapter->pifp;
++#else
++				pskb->dev = padapter->pnetdev;
++#endif /* PLATFORM_FREEBSD */
++
++#ifndef CONFIG_PREALLOC_RX_SKB_BUFFER
++				tmpaddr = (SIZE_PTR)pskb->data;
++				alignment = tmpaddr & (RECVBUFF_ALIGN_SZ - 1);
++				skb_reserve(pskb, (RECVBUFF_ALIGN_SZ - alignment));
++#endif
++				skb_queue_tail(&precvpriv->free_recv_skb_queue, pskb);
++			}
++		}
++	}
++#endif /* CONFIG_PREALLOC_RECV_SKB */
++
++#endif /* defined(PLATFORM_LINUX) || defined(PLATFORM_FREEBSD) */
++
++exit:
++
++	return res;
++}
++
++void usb_free_recv_priv(_adapter *padapter, u16 ini_in_buf_sz)
++{
++	int i;
++	struct recv_buf *precvbuf;
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++
++	precvbuf = (struct recv_buf *)precvpriv->precv_buf;
++
++	for (i = 0; i < NR_RECVBUFF ; i++) {
++		rtw_os_recvbuf_resource_free(padapter, precvbuf);
++		precvbuf++;
++	}
++
++	if (precvpriv->pallocated_recv_buf)
++		rtw_mfree(precvpriv->pallocated_recv_buf, NR_RECVBUFF * sizeof(struct recv_buf) + 4);
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++#ifdef PLATFORM_LINUX
++	if (precvpriv->int_in_urb)
++		usb_free_urb(precvpriv->int_in_urb);
++#endif
++	if (precvpriv->int_in_buf)
++		rtw_mfree(precvpriv->int_in_buf, ini_in_buf_sz);
++#endif /* CONFIG_USB_INTERRUPT_IN_PIPE */
++
++#ifdef PLATFORM_LINUX
++
++	if (skb_queue_len(&precvpriv->rx_skb_queue))
++		RTW_WARN("rx_skb_queue not empty\n");
++
++	rtw_skb_queue_purge(&precvpriv->rx_skb_queue);
++
++#ifdef CONFIG_RTW_NAPI
++	
++	if (skb_queue_len(&precvpriv->rx_napi_skb_queue)) 
++		RTW_WARN("rx_napi_skb_queue not empty\n");
++	
++	rtw_skb_queue_purge(&precvpriv->rx_napi_skb_queue);
++#endif	
++
++	if (skb_queue_len(&precvpriv->free_recv_skb_queue))
++		RTW_WARN("free_recv_skb_queue not empty, %d\n", skb_queue_len(&precvpriv->free_recv_skb_queue));
++
++#if !defined(CONFIG_USE_USB_BUFFER_ALLOC_RX)
++#if defined(CONFIG_PREALLOC_RECV_SKB) && defined(CONFIG_PREALLOC_RX_SKB_BUFFER)
++	{
++		struct sk_buff *skb;
++
++		while ((skb = skb_dequeue(&precvpriv->free_recv_skb_queue)) != NULL) {
++			if (rtw_free_skb_premem(skb) != 0)
++				rtw_skb_free(skb);
++		}
++	}
++#else
++	rtw_skb_queue_purge(&precvpriv->free_recv_skb_queue);
++#endif /* defined(CONFIG_PREALLOC_RX_SKB_BUFFER) && defined(CONFIG_PREALLOC_RECV_SKB) */
++#endif /* !defined(CONFIG_USE_USB_BUFFER_ALLOC_RX) */
++
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	struct sk_buff  *pskb;
++	while (NULL != (pskb = skb_dequeue(&precvpriv->rx_skb_queue)))
++		rtw_skb_free(pskb);
++
++#if !defined(CONFIG_USE_USB_BUFFER_ALLOC_RX)
++	rtw_skb_queue_purge(&precvpriv->free_recv_skb_queue);
++#endif
++
++#ifdef CONFIG_RX_INDICATE_QUEUE
++	struct mbuf *m;
++	for (;;) {
++		IF_DEQUEUE(&precvpriv->rx_indicate_queue, m);
++		if (m == NULL)
++			break;
++		m_freem(m);
++	}
++	mtx_destroy(&precvpriv->rx_indicate_queue.ifq_mtx);
++#endif /* CONFIG_RX_INDICATE_QUEUE */
++
++#endif /* PLATFORM_FREEBSD */
++}
++
++#ifdef CONFIG_FW_C2H_REG
++void usb_c2h_hisr_hdl(_adapter *adapter, u8 *buf)
++{
++	u8 *c2h_evt = buf;
++	u8 id, seq, plen;
++	u8 *payload;
++
++	if (rtw_hal_c2h_reg_hdr_parse(adapter, buf, &id, &seq, &plen, &payload) != _SUCCESS)
++		return;
++
++	if (0)
++		RTW_PRINT("%s C2H == %d\n", __func__, id);
++
++	if (rtw_hal_c2h_id_handle_directly(adapter, id, seq, plen, payload)) {
++		/* Handle directly */
++		rtw_hal_c2h_handler(adapter, id, seq, plen, payload);
++
++		/* Replace with special pointer to trigger c2h_evt_clear only */
++		if (rtw_cbuf_push(adapter->evtpriv.c2h_queue, (void*)&adapter->evtpriv) != _SUCCESS)
++			RTW_ERR("%s rtw_cbuf_push fail\n", __func__);
++	} else {
++		c2h_evt = rtw_malloc(C2H_REG_LEN);
++		if (c2h_evt != NULL) {
++			_rtw_memcpy(c2h_evt, buf, C2H_REG_LEN);
++			if (rtw_cbuf_push(adapter->evtpriv.c2h_queue, (void*)c2h_evt) != _SUCCESS)
++				RTW_ERR("%s rtw_cbuf_push fail\n", __func__);
++		} else {
++			/* Error handling for malloc fail */
++			if (rtw_cbuf_push(adapter->evtpriv.c2h_queue, (void*)NULL) != _SUCCESS)
++				RTW_ERR("%s rtw_cbuf_push fail\n", __func__);
++		}
++	}
++	_set_workitem(&adapter->evtpriv.c2h_wk);
++}
++#endif
++
++#ifdef CONFIG_USB_SUPPORT_ASYNC_VDN_REQ
++int usb_write_async(struct usb_device *udev, u32 addr, void *pdata, u16 len)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	int ret;
++
++	requesttype = VENDOR_WRITE;/* write_out */
++	request = REALTEK_USB_VENQT_CMD_REQ;
++	index = REALTEK_USB_VENQT_CMD_IDX;/* n/a */
++
++	wvalue = (u16)(addr & 0x0000ffff);
++
++	ret = _usbctrl_vendorreq_async_write(udev, request, wvalue, index, pdata, len, requesttype);
++
++	return ret;
++}
++
++int usb_async_write8(struct intf_hdl *pintfhdl, u32 addr, u8 val)
++{
++	u8 data;
++	int ret;
++	struct dvobj_priv  *pdvobjpriv = (struct dvobj_priv *)pintfhdl->pintf_dev;
++	struct usb_device *udev = pdvobjpriv->pusbdev;
++
++	data = val;
++	ret = usb_write_async(udev, addr, &data, 1);
++
++	return ret;
++}
++
++int usb_async_write16(struct intf_hdl *pintfhdl, u32 addr, u16 val)
++{
++	u16 data;
++	int ret;
++	struct dvobj_priv  *pdvobjpriv = (struct dvobj_priv *)pintfhdl->pintf_dev;
++	struct usb_device *udev = pdvobjpriv->pusbdev;
++
++	data = val;
++	ret = usb_write_async(udev, addr, &data, 2);
++
++	return ret;
++}
++
++int usb_async_write32(struct intf_hdl *pintfhdl, u32 addr, u32 val)
++{
++	u32 data;
++	int ret;
++	struct dvobj_priv  *pdvobjpriv = (struct dvobj_priv *)pintfhdl->pintf_dev;
++	struct usb_device *udev = pdvobjpriv->pusbdev;
++
++	data = val;
++	ret = usb_write_async(udev, addr, &data, 4);
++
++	return ret;
++}
++#endif /* CONFIG_USB_SUPPORT_ASYNC_VDN_REQ */
++
++u8 usb_read8(struct intf_hdl *pintfhdl, u32 addr)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u8 data = 0;
++
++
++	request = 0x05;
++	requesttype = 0x01;/* read_in */
++	index = 0;/* n/a */
++
++	wvalue = (u16)(addr & 0x0000ffff);
++	len = 1;
++	usbctrl_vendorreq(pintfhdl, request, wvalue, index,
++			  &data, len, requesttype);
++
++
++	return data;
++}
++
++u16 usb_read16(struct intf_hdl *pintfhdl, u32 addr)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u16 data = 0;
++
++
++	request = 0x05;
++	requesttype = 0x01;/* read_in */
++	index = 0;/* n/a */
++
++	wvalue = (u16)(addr & 0x0000ffff);
++	len = 2;
++	usbctrl_vendorreq(pintfhdl, request, wvalue, index,
++			  &data, len, requesttype);
++
++
++	return data;
++
++}
++
++u32 usb_read32(struct intf_hdl *pintfhdl, u32 addr)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u32 data = 0;
++
++
++	request = 0x05;
++	requesttype = 0x01;/* read_in */
++	index = 0;/* n/a */
++
++	wvalue = (u16)(addr & 0x0000ffff);
++	len = 4;
++	usbctrl_vendorreq(pintfhdl, request, wvalue, index,
++			  &data, len, requesttype);
++
++
++	return data;
++}
++
++int usb_write8(struct intf_hdl *pintfhdl, u32 addr, u8 val)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u8 data;
++	int ret;
++
++
++	request = 0x05;
++	requesttype = 0x00;/* write_out */
++	index = 0;/* n/a */
++
++	wvalue = (u16)(addr & 0x0000ffff);
++	len = 1;
++
++	data = val;
++	ret = usbctrl_vendorreq(pintfhdl, request, wvalue, index,
++				&data, len, requesttype);
++
++
++	return ret;
++}
++
++int usb_write16(struct intf_hdl *pintfhdl, u32 addr, u16 val)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u16 data;
++	int ret;
++
++
++	request = 0x05;
++	requesttype = 0x00;/* write_out */
++	index = 0;/* n/a */
++
++	wvalue = (u16)(addr & 0x0000ffff);
++	len = 2;
++
++	data = val;
++	ret = usbctrl_vendorreq(pintfhdl, request, wvalue, index,
++				&data, len, requesttype);
++
++
++	return ret;
++
++}
++
++int usb_write32(struct intf_hdl *pintfhdl, u32 addr, u32 val)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u32 data;
++	int ret;
++
++
++	request = 0x05;
++	requesttype = 0x00;/* write_out */
++	index = 0;/* n/a */
++
++	wvalue = (u16)(addr & 0x0000ffff);
++	len = 4;
++	data = val;
++	ret = usbctrl_vendorreq(pintfhdl, request, wvalue, index,
++				&data, len, requesttype);
++
++
++	return ret;
++
++}
++
++int usb_writeN(struct intf_hdl *pintfhdl, u32 addr, u32 length, u8 *pdata)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u8 buf[VENDOR_CMD_MAX_DATA_LEN] = {0};
++	int ret;
++
++
++	request = 0x05;
++	requesttype = 0x00;/* write_out */
++	index = 0;/* n/a */
++
++	wvalue = (u16)(addr & 0x0000ffff);
++	len = length;
++	_rtw_memcpy(buf, pdata, len);
++	ret = usbctrl_vendorreq(pintfhdl, request, wvalue, index,
++				buf, len, requesttype);
++
++
++	return ret;
++}
++
++void usb_set_intf_ops(_adapter *padapter, struct _io_ops *pops)
++{
++	_rtw_memset((u8 *)pops, 0, sizeof(struct _io_ops));
++
++	pops->_read8 = &usb_read8;
++	pops->_read16 = &usb_read16;
++	pops->_read32 = &usb_read32;
++	pops->_read_mem = &usb_read_mem;
++	pops->_read_port = &usb_read_port;
++
++	pops->_write8 = &usb_write8;
++	pops->_write16 = &usb_write16;
++	pops->_write32 = &usb_write32;
++	pops->_writeN = &usb_writeN;
++
++#ifdef CONFIG_USB_SUPPORT_ASYNC_VDN_REQ
++	pops->_write8_async = &usb_async_write8;
++	pops->_write16_async = &usb_async_write16;
++	pops->_write32_async = &usb_async_write32;
++#endif
++	pops->_write_mem = &usb_write_mem;
++	pops->_write_port = &usb_write_port;
++
++	pops->_read_port_cancel = &usb_read_port_cancel;
++	pops->_write_port_cancel = &usb_write_port_cancel;
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++	pops->_read_interrupt = &usb_read_interrupt;
++#endif
++
++}
+diff --git a/drivers/net/wireless/rtl8723du/hal/hal_intf.c b/drivers/net/wireless/rtl8723du/hal/hal_intf.c
+new file mode 100644
+index 0000000..2145666
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/hal_intf.c
+@@ -0,0 +1,1292 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#define _HAL_INTF_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++const u32 _chip_type_to_odm_ic_type[] = {
++	0,
++	ODM_RTL8188E,
++	ODM_RTL8192E,
++	ODM_RTL8812,
++	ODM_RTL8821,
++	ODM_RTL8723B,
++	ODM_RTL8814A,
++	ODM_RTL8703B,
++	ODM_RTL8188F,
++	ODM_RTL8822B,
++	ODM_RTL8723D,
++	ODM_RTL8821C,
++	0,
++};
++
++void rtw_hal_chip_configure(_adapter *padapter)
++{
++	padapter->HalFunc.intf_chip_configure(padapter);
++}
++
++void rtw_hal_read_chip_info(_adapter *padapter)
++{
++	u8 hci_type = rtw_get_intf_type(padapter);
++	u32 start = rtw_get_current_time();
++
++	/*  before access eFuse, make sure card enable has been called */
++	if ((hci_type == RTW_SDIO || hci_type == RTW_GSPI)
++	    && !rtw_is_hw_init_completed(padapter))
++		rtw_hal_power_on(padapter);
++
++	padapter->HalFunc.read_adapter_info(padapter);
++
++	if ((hci_type == RTW_SDIO || hci_type == RTW_GSPI)
++	    && !rtw_is_hw_init_completed(padapter))
++		rtw_hal_power_off(padapter);
++
++	RTW_INFO("%s in %d ms\n", __func__, rtw_get_passing_time_ms(start));
++}
++
++void rtw_hal_read_chip_version(_adapter *padapter)
++{
++	padapter->HalFunc.read_chip_version(padapter);
++	rtw_odm_init_ic_type(padapter);
++}
++
++void rtw_hal_def_value_init(_adapter *padapter)
++{
++	if (is_primary_adapter(padapter)) {
++		padapter->HalFunc.init_default_value(padapter);
++
++		rtw_init_hal_com_default_value(padapter);
++
++		{
++			struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++			struct hal_spec_t *hal_spec = GET_HAL_SPEC(padapter);
++
++			/* hal_spec is ready here */
++			dvobj->macid_ctl.num = rtw_min(hal_spec->macid_num, MACID_NUM_SW_LIMIT);
++
++			dvobj->cam_ctl.sec_cap = hal_spec->sec_cap;
++			dvobj->cam_ctl.num = rtw_min(hal_spec->sec_cam_ent_num, SEC_CAM_ENT_NUM_SW_LIMIT);
++		}
++	}
++}
++
++u8 rtw_hal_data_init(_adapter *padapter)
++{
++	if (is_primary_adapter(padapter)) {
++		padapter->hal_data_sz = sizeof(HAL_DATA_TYPE);
++		padapter->HalData = rtw_zvmalloc(padapter->hal_data_sz);
++		if (padapter->HalData == NULL) {
++			RTW_INFO("cant not alloc memory for HAL DATA\n");
++			return _FAIL;
++		}
++	}
++	return _SUCCESS;
++}
++
++void rtw_hal_data_deinit(_adapter *padapter)
++{
++	if (is_primary_adapter(padapter)) {
++		if (padapter->HalData) {
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++			phy_free_filebuf(padapter);
++#endif
++			rtw_vmfree(padapter->HalData, padapter->hal_data_sz);
++			padapter->HalData = NULL;
++			padapter->hal_data_sz = 0;
++		}
++	}
++}
++
++void	rtw_hal_free_data(_adapter *padapter)
++{
++	/* free HAL Data	 */
++	rtw_hal_data_deinit(padapter);
++}
++void rtw_hal_dm_init(_adapter *padapter)
++{
++	if (is_primary_adapter(padapter)) {
++		PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++
++		padapter->HalFunc.dm_init(padapter);
++
++		_rtw_spinlock_init(&pHalData->IQKSpinLock);
++
++		phy_load_tx_power_ext_info(padapter, 1);
++	}
++}
++void rtw_hal_dm_deinit(_adapter *padapter)
++{
++	if (is_primary_adapter(padapter)) {
++		PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++
++		padapter->HalFunc.dm_deinit(padapter);
++
++		_rtw_spinlock_free(&pHalData->IQKSpinLock);
++	}
++}
++void	rtw_hal_sw_led_init(_adapter *padapter)
++{
++	if (padapter->HalFunc.InitSwLeds)
++		padapter->HalFunc.InitSwLeds(padapter);
++}
++
++void rtw_hal_sw_led_deinit(_adapter *padapter)
++{
++	if (padapter->HalFunc.DeInitSwLeds)
++		padapter->HalFunc.DeInitSwLeds(padapter);
++}
++
++u32 rtw_hal_power_on(_adapter *padapter)
++{
++	return padapter->HalFunc.hal_power_on(padapter);
++}
++void rtw_hal_power_off(_adapter *padapter)
++{
++	struct macid_ctl_t *macid_ctl = &padapter->dvobj->macid_ctl;
++
++	_rtw_memset(macid_ctl->h2c_msr, 0, MACID_NUM_SW_LIMIT);
++
++	padapter->HalFunc.hal_power_off(padapter);
++}
++
++
++void rtw_hal_init_opmode(_adapter *padapter)
++{
++	NDIS_802_11_NETWORK_INFRASTRUCTURE networkType = Ndis802_11InfrastructureMax;
++	struct  mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	sint fw_state;
++
++	fw_state = get_fwstate(pmlmepriv);
++
++	if (fw_state & WIFI_ADHOC_STATE)
++		networkType = Ndis802_11IBSS;
++	else if (fw_state & WIFI_STATION_STATE)
++		networkType = Ndis802_11Infrastructure;
++	else if (fw_state & WIFI_AP_STATE)
++		networkType = Ndis802_11APMode;
++	else
++		return;
++
++	rtw_setopmode_cmd(padapter, networkType, _FALSE);
++}
++
++uint	 rtw_hal_init(_adapter *padapter)
++{
++	uint	status = _SUCCESS;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	int i;
++
++	status = padapter->HalFunc.hal_init(padapter);
++
++	if (status == _SUCCESS) {
++		pHalData->hw_init_completed = _TRUE;
++		rtw_restore_mac_addr(padapter);
++
++		if (padapter->registrypriv.notch_filter == 1)
++			rtw_hal_notch_filter(padapter, 1);
++
++		for (i = 0; i < dvobj->iface_nums; i++)
++			rtw_sec_restore_wep_key(dvobj->padapters[i]);
++
++		rtw_led_control(padapter, LED_CTL_POWER_ON);
++
++		init_hw_mlme_ext(padapter);
++
++		rtw_hal_init_opmode(padapter);
++
++#ifdef CONFIG_RF_POWER_TRIM
++		rtw_bb_rf_gain_offset(padapter);
++#endif /*CONFIG_RF_POWER_TRIM*/
++
++	} else {
++		pHalData->hw_init_completed = _FALSE;
++		RTW_INFO("rtw_hal_init: hal__init fail\n");
++	}
++
++
++	return status;
++
++}
++
++uint rtw_hal_deinit(_adapter *padapter)
++{
++	uint	status = _SUCCESS;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	int i;
++
++	status = padapter->HalFunc.hal_deinit(padapter);
++
++	if (status == _SUCCESS) {
++		rtw_led_control(padapter, LED_CTL_POWER_OFF);
++		pHalData->hw_init_completed = _FALSE;
++	} else
++		RTW_INFO("\n rtw_hal_deinit: hal_init fail\n");
++
++
++	return status;
++}
++
++void rtw_hal_set_hwreg(_adapter *padapter, u8 variable, u8 *val)
++{
++	padapter->HalFunc.SetHwRegHandler(padapter, variable, val);
++}
++
++void rtw_hal_get_hwreg(_adapter *padapter, u8 variable, u8 *val)
++{
++	padapter->HalFunc.GetHwRegHandler(padapter, variable, val);
++}
++
++u8 rtw_hal_set_def_var(_adapter *padapter, HAL_DEF_VARIABLE eVariable, PVOID pValue)
++{
++	return padapter->HalFunc.SetHalDefVarHandler(padapter, eVariable, pValue);
++}
++u8 rtw_hal_get_def_var(_adapter *padapter, HAL_DEF_VARIABLE eVariable, PVOID pValue)
++{
++	return padapter->HalFunc.GetHalDefVarHandler(padapter, eVariable, pValue);
++}
++
++void rtw_hal_set_odm_var(_adapter *padapter, HAL_ODM_VARIABLE eVariable, PVOID pValue1, BOOLEAN bSet)
++{
++	padapter->HalFunc.SetHalODMVarHandler(padapter, eVariable, pValue1, bSet);
++}
++void	rtw_hal_get_odm_var(_adapter *padapter, HAL_ODM_VARIABLE eVariable, PVOID pValue1, PVOID pValue2)
++{
++	padapter->HalFunc.GetHalODMVarHandler(padapter, eVariable, pValue1, pValue2);
++}
++
++/* FOR SDIO & PCIE */
++void rtw_hal_enable_interrupt(_adapter *padapter)
++{
++#if defined(CONFIG_PCI_HCI) || defined(CONFIG_SDIO_HCI) || defined (CONFIG_GSPI_HCI)
++	padapter->HalFunc.enable_interrupt(padapter);
++#endif /* #if defined(CONFIG_PCI_HCI) || defined (CONFIG_SDIO_HCI) || defined (CONFIG_GSPI_HCI) */
++}
++
++/* FOR SDIO & PCIE */
++void rtw_hal_disable_interrupt(_adapter *padapter)
++{
++#if defined(CONFIG_PCI_HCI) || defined(CONFIG_SDIO_HCI) || defined (CONFIG_GSPI_HCI)
++	padapter->HalFunc.disable_interrupt(padapter);
++#endif /* #if defined(CONFIG_PCI_HCI) || defined (CONFIG_SDIO_HCI) || defined (CONFIG_GSPI_HCI) */
++}
++
++
++u8 rtw_hal_check_ips_status(_adapter *padapter)
++{
++	u8 val = _FALSE;
++	if (padapter->HalFunc.check_ips_status)
++		val = padapter->HalFunc.check_ips_status(padapter);
++	else
++		RTW_INFO("%s: HalFunc.check_ips_status is NULL!\n", __FUNCTION__);
++
++	return val;
++}
++
++s32 rtw_hal_fw_dl(_adapter *padapter, u8 wowlan)
++{
++	return padapter->HalFunc.fw_dl(padapter, wowlan);
++}
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++void rtw_hal_clear_interrupt(_adapter *padapter)
++{
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	padapter->HalFunc.clear_interrupt(padapter);
++#endif
++}
++#endif
++
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_PCI_HCI)
++u32	rtw_hal_inirp_init(_adapter *padapter)
++{
++	if (is_primary_adapter(padapter))
++		return padapter->HalFunc.inirp_init(padapter);
++	return _SUCCESS;
++}
++u32	rtw_hal_inirp_deinit(_adapter *padapter)
++{
++
++	if (is_primary_adapter(padapter))
++		return padapter->HalFunc.inirp_deinit(padapter);
++
++	return _SUCCESS;
++}
++#endif /* #if defined(CONFIG_USB_HCI) || defined (CONFIG_PCI_HCI) */
++
++#if defined(CONFIG_PCI_HCI)
++void	rtw_hal_irp_reset(_adapter *padapter)
++{
++	padapter->HalFunc.irp_reset(GET_PRIMARY_ADAPTER(padapter));
++}
++#endif /* #if defined(CONFIG_PCI_HCI) */
++
++/* for USB Auto-suspend */
++u8	rtw_hal_intf_ps_func(_adapter *padapter, HAL_INTF_PS_FUNC efunc_id, u8 *val)
++{
++	if (padapter->HalFunc.interface_ps_func)
++		return padapter->HalFunc.interface_ps_func(padapter, efunc_id, val);
++	return _FAIL;
++}
++
++s32	rtw_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	return padapter->HalFunc.hal_xmitframe_enqueue(padapter, pxmitframe);
++}
++
++s32	rtw_hal_xmit(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	return padapter->HalFunc.hal_xmit(padapter, pxmitframe);
++}
++
++/*
++ * [IMPORTANT] This function would be run in interrupt context.
++ */
++s32	rtw_hal_mgnt_xmit(_adapter *padapter, struct xmit_frame *pmgntframe)
++{
++	s32 ret = _FAIL;
++	u8	*pframe, subtype;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct sta_info	*psta;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++
++	update_mgntframe_attrib_addr(padapter, pmgntframe);
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	subtype = GetFrameSubType(pframe); /* bit(7)~bit(2) */
++
++	/* pwlanhdr = (struct rtw_ieee80211_hdr *)pframe; */
++	/* _rtw_memcpy(pmgntframe->attrib.ra, pwlanhdr->addr1, ETH_ALEN); */
++
++#ifdef CONFIG_IEEE80211W
++	if (padapter->securitypriv.binstallBIPkey == _TRUE && (subtype == WIFI_DEAUTH || subtype == WIFI_DISASSOC ||
++			subtype == WIFI_ACTION)) {
++		if (IS_MCAST(pmgntframe->attrib.ra) && pmgntframe->attrib.key_type != IEEE80211W_NO_KEY) {
++			pmgntframe->attrib.encrypt = _BIP_;
++			/* pmgntframe->attrib.bswenc = _TRUE; */
++		} else if (pmgntframe->attrib.key_type != IEEE80211W_NO_KEY) {
++			psta = rtw_get_stainfo(pstapriv, pmgntframe->attrib.ra);
++			if (psta && psta->bpairwise_key_installed == _TRUE) {
++				pmgntframe->attrib.encrypt = _AES_;
++				pmgntframe->attrib.bswenc = _TRUE;
++			} else {
++				RTW_INFO("%s, %d, bpairwise_key_installed is FALSE\n", __func__, __LINE__);
++				goto no_mgmt_coalesce;
++			}
++		}
++		RTW_INFO("encrypt=%d, bswenc=%d\n", pmgntframe->attrib.encrypt, pmgntframe->attrib.bswenc);
++		rtw_mgmt_xmitframe_coalesce(padapter, pmgntframe->pkt, pmgntframe);
++	}
++#endif /* CONFIG_IEEE80211W */
++no_mgmt_coalesce:
++	ret = padapter->HalFunc.mgnt_xmit(padapter, pmgntframe);
++	return ret;
++}
++
++s32	rtw_hal_init_xmit_priv(_adapter *padapter)
++{
++	return padapter->HalFunc.init_xmit_priv(padapter);
++}
++void	rtw_hal_free_xmit_priv(_adapter *padapter)
++{
++	padapter->HalFunc.free_xmit_priv(padapter);
++}
++
++s32	rtw_hal_init_recv_priv(_adapter *padapter)
++{
++	return padapter->HalFunc.init_recv_priv(padapter);
++}
++void	rtw_hal_free_recv_priv(_adapter *padapter)
++{
++	padapter->HalFunc.free_recv_priv(padapter);
++}
++void rtw_update_ramask(_adapter *padapter, struct sta_info *psta, u32 mac_id, u8 rssi_level)
++{
++	padapter->HalFunc.UpdateRAMaskHandler(padapter, psta, psta->mac_id, rssi_level);
++}
++void rtw_hal_update_ra_mask(struct sta_info *psta, u8 rssi_level)
++{
++	_adapter *padapter;
++	struct mlme_priv *pmlmepriv;
++
++	if (!psta)
++		return;
++
++	padapter = psta->padapter;
++
++	pmlmepriv = &(padapter->mlmepriv);
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		add_RATid(padapter, psta, rssi_level);
++	else {
++		psta->raid = rtw_hal_networktype_to_raid(padapter, psta);
++		rtw_update_ramask(padapter, psta, psta->mac_id, rssi_level);
++	}
++}
++
++/*	Start specifical interface thread		*/
++void	rtw_hal_start_thread(_adapter *padapter)
++{
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++#ifndef CONFIG_SDIO_TX_TASKLET
++	padapter->HalFunc.run_thread(padapter);
++#endif
++#endif
++}
++/*	Start specifical interface thread		*/
++void	rtw_hal_stop_thread(_adapter *padapter)
++{
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++#ifndef CONFIG_SDIO_TX_TASKLET
++
++	padapter->HalFunc.cancel_thread(padapter);
++
++#endif
++#endif
++}
++
++u32	rtw_hal_read_bbreg(_adapter *padapter, u32 RegAddr, u32 BitMask)
++{
++	u32 data = 0;
++	if (padapter->HalFunc.read_bbreg)
++		data = padapter->HalFunc.read_bbreg(padapter, RegAddr, BitMask);
++	return data;
++}
++void	rtw_hal_write_bbreg(_adapter *padapter, u32 RegAddr, u32 BitMask, u32 Data)
++{
++	if (padapter->HalFunc.write_bbreg)
++		padapter->HalFunc.write_bbreg(padapter, RegAddr, BitMask, Data);
++}
++
++u32 rtw_hal_read_rfreg(_adapter *padapter, u32 eRFPath, u32 RegAddr, u32 BitMask)
++{
++	u32 data = 0;
++
++	if (padapter->HalFunc.read_rfreg) {
++		data = padapter->HalFunc.read_rfreg(padapter, eRFPath, RegAddr, BitMask);
++
++		if (match_rf_read_sniff_ranges(eRFPath, RegAddr, BitMask)) {
++			RTW_INFO("DBG_IO rtw_hal_read_rfreg(%u, 0x%04x, 0x%08x) read:0x%08x(0x%08x)\n"
++				, eRFPath, RegAddr, BitMask, (data << PHY_CalculateBitShift(BitMask)), data);
++		}
++	}
++
++	return data;
++}
++
++void rtw_hal_write_rfreg(_adapter *padapter, u32 eRFPath, u32 RegAddr, u32 BitMask, u32 Data)
++{
++	if (padapter->HalFunc.write_rfreg) {
++
++		if (match_rf_write_sniff_ranges(eRFPath, RegAddr, BitMask)) {
++			RTW_INFO("DBG_IO rtw_hal_write_rfreg(%u, 0x%04x, 0x%08x) write:0x%08x(0x%08x)\n"
++				, eRFPath, RegAddr, BitMask, (Data << PHY_CalculateBitShift(BitMask)), Data);
++		}
++
++		padapter->HalFunc.write_rfreg(padapter, eRFPath, RegAddr, BitMask, Data);
++
++#ifdef CONFIG_PCI_HCI
++		if (!IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(padapter)) /*For N-Series IC, suggest by Jenyu*/
++			rtw_udelay_os(2);
++#endif
++	}
++}
++
++#if defined(CONFIG_PCI_HCI)
++s32	rtw_hal_interrupt_handler(_adapter *padapter)
++{
++	s32 ret = _FAIL;
++	ret = padapter->HalFunc.interrupt_handler(padapter);
++	return ret;
++}
++#endif
++#if defined(CONFIG_USB_HCI) && defined(CONFIG_SUPPORT_USB_INT)
++void	rtw_hal_interrupt_handler(_adapter *padapter, u16 pkt_len, u8 *pbuf)
++{
++	padapter->HalFunc.interrupt_handler(padapter, pkt_len, pbuf);
++}
++#endif
++
++void	rtw_hal_set_chnl_bw(_adapter *padapter, u8 channel, CHANNEL_WIDTH Bandwidth, u8 Offset40, u8 Offset80)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++	u8 cch_160 = Bandwidth == CHANNEL_WIDTH_160 ? channel : 0;
++	u8 cch_80 = Bandwidth == CHANNEL_WIDTH_80 ? channel : 0;
++	u8 cch_40 = Bandwidth == CHANNEL_WIDTH_40 ? channel : 0;
++	u8 cch_20 = Bandwidth == CHANNEL_WIDTH_20 ? channel : 0;
++
++	ODM_AcquireSpinLock(pDM_Odm, RT_IQK_SPINLOCK);
++	if (pDM_Odm->RFCalibrateInfo.bIQKInProgress == _TRUE)
++		RTW_ERR("%s, %d, IQK may race condition\n", __func__, __LINE__);
++	ODM_ReleaseSpinLock(pDM_Odm, RT_IQK_SPINLOCK);
++
++	/* MP mode channel don't use secondary channel */
++	if (rtw_mi_mp_mode_check(padapter) == _FALSE) {
++		#if 0
++		if (cch_160 != 0)
++			cch_80 = rtw_get_scch_by_cch_offset(cch_160, CHANNEL_WIDTH_160, Offset80);
++		#endif
++		if (cch_80 != 0)
++			cch_40 = rtw_get_scch_by_cch_offset(cch_80, CHANNEL_WIDTH_80, Offset80);
++		if (cch_40 != 0)
++			cch_20 = rtw_get_scch_by_cch_offset(cch_40, CHANNEL_WIDTH_40, Offset40);
++	}
++
++	pHalData->cch_80 = cch_80;
++	pHalData->cch_40 = cch_40;
++	pHalData->cch_20 = cch_20;
++
++	if (0)
++		RTW_INFO("%s cch:%u, %s, offset40:%u, offset80:%u (%u, %u, %u)\n", __func__
++			, channel, ch_width_str(Bandwidth), Offset40, Offset80
++			, pHalData->cch_80, pHalData->cch_40, pHalData->cch_20);
++
++	padapter->HalFunc.set_chnl_bw_handler(padapter, channel, Bandwidth, Offset40, Offset80);
++}
++
++void	rtw_hal_set_tx_power_level(_adapter *padapter, u8 channel)
++{
++	if (padapter->HalFunc.set_tx_power_level_handler)
++		padapter->HalFunc.set_tx_power_level_handler(padapter, channel);
++}
++
++void	rtw_hal_get_tx_power_level(_adapter *padapter, s32 *powerlevel)
++{
++	if (padapter->HalFunc.get_tx_power_level_handler)
++		padapter->HalFunc.get_tx_power_level_handler(padapter, powerlevel);
++}
++
++void	rtw_hal_dm_watchdog(_adapter *padapter)
++{
++	if (!is_primary_adapter(padapter))
++		return;
++
++#ifdef CONFIG_MCC_MODE
++	if (MCC_EN(padapter)) {
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC))
++			return;
++	}
++#endif /* CONFIG_MCC_MODE */
++
++	padapter->HalFunc.hal_dm_watchdog(padapter);
++
++}
++
++#ifdef CONFIG_LPS_LCLK_WD_TIMER
++void	rtw_hal_dm_watchdog_in_lps(_adapter *padapter)
++{
++#if defined(CONFIG_CONCURRENT_MODE)
++	if (padapter->hw_port != HW_PORT0)
++		return;
++#endif
++
++	if (adapter_to_pwrctl(padapter)->bFwCurrentInPSMode == _TRUE) {
++		padapter->HalFunc.hal_dm_watchdog_in_lps(padapter);/* this fuction caller is in interrupt context					 */
++	}
++}
++#endif
++
++void rtw_hal_bcn_related_reg_setting(_adapter *padapter)
++{
++	padapter->HalFunc.SetBeaconRelatedRegistersHandler(padapter);
++}
++
++#ifdef CONFIG_HOSTAPD_MLME
++s32	rtw_hal_hostap_mgnt_xmit_entry(_adapter *padapter, _pkt *pkt)
++{
++	if (padapter->HalFunc.hostap_mgnt_xmit_entry)
++		return padapter->HalFunc.hostap_mgnt_xmit_entry(padapter, pkt);
++	return _FAIL;
++}
++#endif /* CONFIG_HOSTAPD_MLME */
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++void	rtw_hal_sreset_init(_adapter *padapter)
++{
++	padapter->HalFunc.sreset_init_value(padapter);
++}
++void rtw_hal_sreset_reset(_adapter *padapter)
++{
++	padapter = GET_PRIMARY_ADAPTER(padapter);
++	padapter->HalFunc.silentreset(padapter);
++}
++
++void rtw_hal_sreset_reset_value(_adapter *padapter)
++{
++	padapter->HalFunc.sreset_reset_value(padapter);
++}
++
++void rtw_hal_sreset_xmit_status_check(_adapter *padapter)
++{
++	if (!is_primary_adapter(padapter))
++		return;
++
++	padapter->HalFunc.sreset_xmit_status_check(padapter);
++}
++void rtw_hal_sreset_linked_status_check(_adapter *padapter)
++{
++	if (!is_primary_adapter(padapter))
++		return;
++	padapter->HalFunc.sreset_linked_status_check(padapter);
++}
++u8   rtw_hal_sreset_get_wifi_status(_adapter *padapter)
++{
++	return padapter->HalFunc.sreset_get_wifi_status(padapter);
++}
++
++bool rtw_hal_sreset_inprogress(_adapter *padapter)
++{
++	padapter = GET_PRIMARY_ADAPTER(padapter);
++	return padapter->HalFunc.sreset_inprogress(padapter);
++}
++#endif /* DBG_CONFIG_ERROR_DETECT */
++
++#ifdef CONFIG_IOL
++int rtw_hal_iol_cmd(ADAPTER *adapter, struct xmit_frame *xmit_frame, u32 max_wating_ms, u32 bndy_cnt)
++{
++	if (adapter->HalFunc.IOL_exec_cmds_sync)
++		return adapter->HalFunc.IOL_exec_cmds_sync(adapter, xmit_frame, max_wating_ms, bndy_cnt);
++	return _FAIL;
++}
++#endif
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++s32 rtw_hal_xmit_thread_handler(_adapter *padapter)
++{
++	return padapter->HalFunc.xmit_thread_handler(padapter);
++}
++#endif
++
++void rtw_hal_notch_filter(_adapter *adapter, bool enable)
++{
++	if (adapter->HalFunc.hal_notch_filter)
++		adapter->HalFunc.hal_notch_filter(adapter, enable);
++}
++
++#ifdef CONFIG_FW_C2H_REG
++inline bool rtw_hal_c2h_valid(_adapter *adapter, u8 *buf)
++{
++	HAL_DATA_TYPE *HalData = GET_HAL_DATA(adapter);
++	HAL_VERSION *hal_ver = &HalData->VersionID;
++	bool ret = _FAIL;
++
++	ret = C2H_ID_88XX(buf) || C2H_PLEN_88XX(buf);
++
++	return ret;
++}
++
++inline s32 rtw_hal_c2h_evt_read(_adapter *adapter, u8 *buf)
++{
++	HAL_DATA_TYPE *HalData = GET_HAL_DATA(adapter);
++	HAL_VERSION *hal_ver = &HalData->VersionID;
++	s32 ret = _FAIL;
++
++	ret = c2h_evt_read_88xx(adapter, buf);
++
++	return ret;
++}
++
++bool rtw_hal_c2h_reg_hdr_parse(_adapter *adapter, u8 *buf, u8 *id, u8 *seq, u8 *plen, u8 **payload)
++{
++	HAL_DATA_TYPE *HalData = GET_HAL_DATA(adapter);
++	HAL_VERSION *hal_ver = &HalData->VersionID;
++	bool ret = _FAIL;
++
++	*id = C2H_ID_88XX(buf);
++	*seq = C2H_SEQ_88XX(buf);
++	*plen = C2H_PLEN_88XX(buf);
++	*payload = C2H_PAYLOAD_88XX(buf);
++	ret = _SUCCESS;
++
++	return ret;
++}
++#endif /* CONFIG_FW_C2H_REG */
++
++#ifdef CONFIG_FW_C2H_PKT
++bool rtw_hal_c2h_pkt_hdr_parse(_adapter *adapter, u8 *buf, u16 len, u8 *id, u8 *seq, u8 *plen, u8 **payload)
++{
++	HAL_DATA_TYPE *HalData = GET_HAL_DATA(adapter);
++	HAL_VERSION *hal_ver = &HalData->VersionID;
++	bool ret = _FAIL;
++
++	if (!buf || len > 256 || len < 3)
++		goto exit;
++
++	*id = C2H_ID_88XX(buf);
++	*seq = C2H_SEQ_88XX(buf);
++	*plen = len - 2;
++	*payload = C2H_PAYLOAD_88XX(buf);
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++#endif /* CONFIG_FW_C2H_PKT */
++
++#if defined(CONFIG_MP_INCLUDED) && defined(CONFIG_RTL8723B)
++#include <rtw_bt_mp.h> /* for MPTBT_FwC2hBtMpCtrl */
++#endif
++s32 c2h_handler(_adapter *adapter, u8 id, u8 seq, u8 plen, u8 *payload)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	DM_ODM_T *odm = &hal_data->odmpriv;
++	u8 sub_id = 0;
++	s32 ret = _SUCCESS;
++
++	switch (id) {
++	case C2H_DBG:
++		RTW_INFO_DUMP("C2H_DBG: ", payload, plen);
++		break;
++	case C2H_FW_SCAN_COMPLETE:
++		RTW_INFO("[C2H], FW Scan Complete\n");
++		break;
++
++#ifdef CONFIG_BT_COEXIST
++	case C2H_BT_INFO:
++		rtw_btcoex_BtInfoNotify(adapter, plen, payload);
++		break;
++	case C2H_BT_MP_INFO:
++		#if defined(CONFIG_MP_INCLUDED) && defined(CONFIG_RTL8723B)
++		MPTBT_FwC2hBtMpCtrl(adapter, payload, plen);
++		#endif
++		rtw_btcoex_BtMpRptNotify(adapter, plen, payload);
++		break;
++	case C2H_MAILBOX_STATUS:
++		RTW_INFO_DUMP("C2H_MAILBOX_STATUS: ", payload, plen);
++		break;
++#endif /* CONFIG_BT_COEXIST */
++
++	case C2H_IQK_FINISH:
++		c2h_iqk_offload(adapter, payload, plen);
++		break;
++
++#if defined(CONFIG_TDLS) && defined(CONFIG_TDLS_CH_SW)
++	case C2H_FW_CHNL_SWITCH_COMPLETE:
++		rtw_tdls_chsw_oper_done(adapter);
++		break;
++	case C2H_BCN_EARLY_RPT:
++		rtw_tdls_ch_sw_back_to_base_chnl(adapter);
++		break;
++#endif
++
++#ifdef CONFIG_MCC_MODE
++	case C2H_MCC:
++		rtw_hal_mcc_c2h_handler(adapter, plen, payload);
++		break;
++#endif
++
++	case C2H_MAC_HIDDEN_RPT:
++		c2h_mac_hidden_rpt_hdl(adapter, payload, plen);
++		break;
++	case C2H_MAC_HIDDEN_RPT_2:
++		c2h_mac_hidden_rpt_2_hdl(adapter, payload, plen);
++		break;
++	case C2H_DEFEATURE_DBG:
++		c2h_defeature_dbg_hdl(adapter, payload, plen);
++		break;
++
++	case C2H_EXTEND:
++		sub_id = payload[0];
++		/* no handle, goto default */
++
++	default:
++		if (phydm_c2H_content_parsing(odm, id, plen, payload) != TRUE)
++			ret = _FAIL;
++		break;
++	}
++
++exit:
++	if (ret != _SUCCESS) {
++		if (id == C2H_EXTEND)
++			RTW_WARN("%s: unknown C2H(0x%02x, 0x%02x)\n", __func__, id, sub_id);
++		else
++			RTW_WARN("%s: unknown C2H(0x%02x)\n", __func__, id);
++	}
++
++	return ret;
++}
++
++#ifndef RTW_HALMAC
++s32 rtw_hal_c2h_handler(_adapter *adapter, u8 id, u8 seq, u8 plen, u8 *payload)
++{
++	s32 ret = _FAIL;
++
++	ret = adapter->HalFunc.c2h_handler(adapter, id, seq, plen, payload);
++	if (ret != _SUCCESS)
++		ret = c2h_handler(adapter, id, seq, plen, payload);
++
++	return ret;
++}
++
++s32 rtw_hal_c2h_id_handle_directly(_adapter *adapter, u8 id, u8 seq, u8 plen, u8 *payload)
++{
++	switch (id) {
++	case C2H_CCX_TX_RPT:
++	case C2H_BT_MP_INFO:
++	case C2H_FW_CHNL_SWITCH_COMPLETE:
++	case C2H_IQK_FINISH:
++	case C2H_MCC:
++	case C2H_BCN_EARLY_RPT:
++		return _TRUE;
++	default:
++		return _FALSE;
++	}
++}
++#endif /* !RTW_HALMAC */
++
++s32 rtw_hal_is_disable_sw_channel_plan(PADAPTER padapter)
++{
++	return GET_HAL_DATA(padapter)->bDisableSWChannelPlan;
++}
++
++s32 rtw_hal_macid_sleep(PADAPTER padapter, u8 macid)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	u8 support;
++
++	support = _FALSE;
++	rtw_hal_get_def_var(padapter, HAL_DEF_MACID_SLEEP, &support);
++	if (_FALSE == support)
++		return _FAIL;
++
++	if (macid >= macid_ctl->num) {
++		RTW_ERR(FUNC_ADPT_FMT": Invalid macid(%u)\n",
++			FUNC_ADPT_ARG(padapter), macid);
++		return _FAIL;
++	}
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_MACID_SLEEP, &macid);
++
++	return _SUCCESS;
++}
++
++s32 rtw_hal_macid_wakeup(PADAPTER padapter, u8 macid)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	u8 support;
++
++	support = _FALSE;
++	rtw_hal_get_def_var(padapter, HAL_DEF_MACID_SLEEP, &support);
++	if (_FALSE == support)
++		return _FAIL;
++
++	if (macid >= macid_ctl->num) {
++		RTW_ERR(FUNC_ADPT_FMT": Invalid macid(%u)\n",
++			FUNC_ADPT_ARG(padapter), macid);
++		return _FAIL;
++	}
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_MACID_WAKEUP, &macid);
++
++	return _SUCCESS;
++}
++
++s32 rtw_hal_fill_h2c_cmd(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer)
++{
++	_adapter *pri_adapter = GET_PRIMARY_ADAPTER(padapter);
++
++	if (pri_adapter->bFWReady == _TRUE)
++		return padapter->HalFunc.fill_h2c_cmd(padapter, ElementID, CmdLen, pCmdBuffer);
++	else if (padapter->registrypriv.mp_mode == 0)
++		RTW_PRINT(FUNC_ADPT_FMT" FW doesn't exit when no MP mode, by pass H2C id:0x%02x\n"
++			  , FUNC_ADPT_ARG(padapter), ElementID);
++	return _FAIL;
++}
++
++void rtw_hal_fill_fake_txdesc(_adapter *padapter, u8 *pDesc, u32 BufferLen,
++			      u8 IsPsPoll, u8 IsBTQosNull, u8 bDataFrame)
++{
++	padapter->HalFunc.fill_fake_txdesc(padapter, pDesc, BufferLen, IsPsPoll, IsBTQosNull, bDataFrame);
++
++}
++u8 rtw_hal_get_txbuff_rsvd_page_num(_adapter *adapter, bool wowlan)
++{
++	return adapter->HalFunc.hal_get_tx_buff_rsvd_page_num(adapter, wowlan);
++}
++
++#ifdef CONFIG_GPIO_API
++void rtw_hal_update_hisr_hsisr_ind(_adapter *padapter, u32 flag)
++{
++	if (padapter->HalFunc.update_hisr_hsisr_ind)
++		padapter->HalFunc.update_hisr_hsisr_ind(padapter, flag);
++}
++
++int rtw_hal_gpio_func_check(_adapter *padapter, u8 gpio_num)
++{
++	int ret = _SUCCESS;
++
++	if (padapter->HalFunc.hal_gpio_func_check)
++		ret = padapter->HalFunc.hal_gpio_func_check(padapter, gpio_num);
++
++	return ret;
++}
++
++void rtw_hal_gpio_multi_func_reset(_adapter *padapter, u8 gpio_num)
++{
++	if (padapter->HalFunc.hal_gpio_multi_func_reset)
++		padapter->HalFunc.hal_gpio_multi_func_reset(padapter, gpio_num);
++}
++#endif
++
++void rtw_hal_fw_correct_bcn(_adapter *padapter)
++{
++	if (padapter->HalFunc.fw_correct_bcn)
++		padapter->HalFunc.fw_correct_bcn(padapter);
++}
++
++void rtw_hal_set_tx_power_index(PADAPTER padapter, u32 powerindex, u8 rfpath, u8 rate)
++{
++	return padapter->HalFunc.set_tx_power_index_handler(padapter, powerindex, rfpath, rate);
++}
++
++u8 rtw_hal_get_tx_power_index(PADAPTER padapter, u8 rfpath, u8 rate, u8 bandwidth, u8 channel, struct txpwr_idx_comp *tic)
++{
++	return padapter->HalFunc.get_tx_power_index_handler(padapter, rfpath, rate, bandwidth, channel, tic);
++}
++
++#ifdef RTW_HALMAC
++/*
++ * Description:
++ *	Initialize MAC registers
++ *
++ * Return:
++ *	_TRUE	success
++ *	_FALSE	fail
++ */
++u8 rtw_hal_init_mac_register(PADAPTER adapter)
++{
++	return adapter->HalFunc.init_mac_register(adapter);
++}
++
++/*
++ * Description:
++ *	Initialize PHY(BB/RF) related functions
++ *
++ * Return:
++ *	_TRUE	success
++ *	_FALSE	fail
++ */
++u8 rtw_hal_init_phy(PADAPTER adapter)
++{
++	return adapter->HalFunc.init_phy(adapter);
++}
++#endif /* RTW_HALMAC */
++
++#define rtw_hal_error_msg(ops_fun)		\
++	RTW_PRINT("### %s - Error : Please hook HalFunc.%s ###\n", __FUNCTION__, ops_fun)
++
++u8 rtw_hal_ops_check(_adapter *padapter)
++{
++	u8 ret = _SUCCESS;
++#if 1
++	/*** initialize section ***/
++	if (NULL == padapter->HalFunc.read_chip_version) {
++		rtw_hal_error_msg("read_chip_version");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.init_default_value) {
++		rtw_hal_error_msg("init_default_value");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.intf_chip_configure) {
++		rtw_hal_error_msg("intf_chip_configure");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.read_adapter_info) {
++		rtw_hal_error_msg("read_adapter_info");
++		ret = _FAIL;
++	}
++
++	if (NULL == padapter->HalFunc.hal_power_on) {
++		rtw_hal_error_msg("hal_power_on");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.hal_power_off) {
++		rtw_hal_error_msg("hal_power_off");
++		ret = _FAIL;
++	}
++
++	if (NULL == padapter->HalFunc.hal_init) {
++		rtw_hal_error_msg("hal_init");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.hal_deinit) {
++		rtw_hal_error_msg("hal_deinit");
++		ret = _FAIL;
++	}
++
++	/*** xmit section ***/
++	if (NULL == padapter->HalFunc.init_xmit_priv) {
++		rtw_hal_error_msg("init_xmit_priv");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.free_xmit_priv) {
++		rtw_hal_error_msg("free_xmit_priv");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.hal_xmit) {
++		rtw_hal_error_msg("hal_xmit");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.mgnt_xmit) {
++		rtw_hal_error_msg("mgnt_xmit");
++		ret = _FAIL;
++	}
++#ifdef CONFIG_XMIT_THREAD_MODE
++	if (NULL == padapter->HalFunc.xmit_thread_handler) {
++		rtw_hal_error_msg("xmit_thread_handler");
++		ret = _FAIL;
++	}
++#endif
++	if (NULL == padapter->HalFunc.hal_xmitframe_enqueue) {
++		rtw_hal_error_msg("hal_xmitframe_enqueue");
++		ret = _FAIL;
++	}
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++#ifndef CONFIG_SDIO_TX_TASKLET
++	if (NULL == padapter->HalFunc.run_thread) {
++		rtw_hal_error_msg("run_thread");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.cancel_thread) {
++		rtw_hal_error_msg("cancel_thread");
++		ret = _FAIL;
++	}
++#endif
++#endif
++
++	/*** recv section ***/
++	if (NULL == padapter->HalFunc.init_recv_priv) {
++		rtw_hal_error_msg("init_recv_priv");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.free_recv_priv) {
++		rtw_hal_error_msg("free_recv_priv");
++		ret = _FAIL;
++	}
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_PCI_HCI)
++	if (NULL == padapter->HalFunc.inirp_init) {
++		rtw_hal_error_msg("inirp_init");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.inirp_deinit) {
++		rtw_hal_error_msg("inirp_deinit");
++		ret = _FAIL;
++	}
++#endif /* #if defined(CONFIG_USB_HCI) || defined (CONFIG_PCI_HCI) */
++
++
++	/*** interrupt hdl section ***/
++#if defined(CONFIG_PCI_HCI)
++	if (NULL == padapter->HalFunc.irp_reset) {
++		rtw_hal_error_msg("irp_reset");
++		ret = _FAIL;
++	}
++#endif/*#if defined(CONFIG_PCI_HCI)*/
++#if (defined(CONFIG_PCI_HCI)) || (defined(CONFIG_USB_HCI) && defined(CONFIG_SUPPORT_USB_INT))
++	if (NULL == padapter->HalFunc.interrupt_handler) {
++		rtw_hal_error_msg("interrupt_handler");
++		ret = _FAIL;
++	}
++#endif /*#if (defined(CONFIG_PCI_HCI)) || (defined(CONFIG_USB_HCI) && defined(CONFIG_SUPPORT_USB_INT))*/
++
++#if defined(CONFIG_PCI_HCI) || defined(CONFIG_SDIO_HCI) || defined (CONFIG_GSPI_HCI)
++	if (NULL == padapter->HalFunc.enable_interrupt) {
++		rtw_hal_error_msg("enable_interrupt");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.disable_interrupt) {
++		rtw_hal_error_msg("disable_interrupt");
++		ret = _FAIL;
++	}
++#endif /* defined(CONFIG_PCI_HCI) || defined (CONFIG_SDIO_HCI) || defined (CONFIG_GSPI_HCI) */
++
++
++	/*** DM section ***/
++	if (NULL == padapter->HalFunc.dm_init) {
++		rtw_hal_error_msg("dm_init");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.dm_deinit) {
++		rtw_hal_error_msg("dm_deinit");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.hal_dm_watchdog) {
++		rtw_hal_error_msg("hal_dm_watchdog");
++		ret = _FAIL;
++	}
++#ifdef CONFIG_LPS_LCLK_WD_TIMER
++	if (NULL == padapter->HalFunc.hal_dm_watchdog_in_lps) {
++		rtw_hal_error_msg("hal_dm_watchdog_in_lps");
++		ret = _FAIL;
++	}
++#endif
++
++	/*** xxx section ***/
++	if (NULL == padapter->HalFunc.set_chnl_bw_handler) {
++		rtw_hal_error_msg("set_chnl_bw_handler");
++		ret = _FAIL;
++	}
++
++	if (NULL == padapter->HalFunc.SetHwRegHandler) {
++		rtw_hal_error_msg("SetHwRegHandler");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.GetHwRegHandler) {
++		rtw_hal_error_msg("GetHwRegHandler");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.GetHalDefVarHandler) {
++		rtw_hal_error_msg("GetHalDefVarHandler");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.SetHalDefVarHandler) {
++		rtw_hal_error_msg("SetHalDefVarHandler");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.GetHalODMVarHandler) {
++		rtw_hal_error_msg("GetHalODMVarHandler");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.SetHalODMVarHandler) {
++		rtw_hal_error_msg("SetHalODMVarHandler");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.UpdateRAMaskHandler) {
++		rtw_hal_error_msg("UpdateRAMaskHandler");
++		ret = _FAIL;
++	}
++
++	if (NULL == padapter->HalFunc.SetBeaconRelatedRegistersHandler) {
++		rtw_hal_error_msg("SetBeaconRelatedRegistersHandler");
++		ret = _FAIL;
++	}
++
++	if (NULL == padapter->HalFunc.fill_h2c_cmd) {
++		rtw_hal_error_msg("fill_h2c_cmd");
++		ret = _FAIL;
++	}
++
++#ifdef RTW_HALMAC
++	if (NULL == padapter->HalFunc.hal_mac_c2h_handler) {
++		rtw_hal_error_msg("hal_mac_c2h_handler");
++		ret = _FAIL;
++	}
++#elif !defined(CONFIG_RTL8188E)
++	if (NULL == padapter->HalFunc.c2h_handler) {
++		rtw_hal_error_msg("c2h_handler");
++		ret = _FAIL;
++	}
++#endif
++
++#if defined(CONFIG_LPS) || defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	if (NULL == padapter->HalFunc.fill_fake_txdesc) {
++		rtw_hal_error_msg("fill_fake_txdesc");
++		ret = _FAIL;
++	}
++#endif
++	if (NULL == padapter->HalFunc.hal_get_tx_buff_rsvd_page_num) {
++		rtw_hal_error_msg("hal_get_tx_buff_rsvd_page_num");
++		ret = _FAIL;
++	}
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	if (NULL == padapter->HalFunc.clear_interrupt) {
++		rtw_hal_error_msg("clear_interrupt");
++		ret = _FAIL;
++	}
++#endif
++#endif /* CONFIG_WOWLAN */
++
++	if (NULL == padapter->HalFunc.fw_dl) {
++		rtw_hal_error_msg("fw_dl");
++		ret = _FAIL;
++	}
++
++	if ((IS_HARDWARE_TYPE_8814A(padapter)
++	     || IS_HARDWARE_TYPE_8822BU(padapter) || IS_HARDWARE_TYPE_8822BS(padapter))
++	    && NULL == padapter->HalFunc.fw_correct_bcn) {
++		rtw_hal_error_msg("fw_correct_bcn");
++		ret = _FAIL;
++	}
++
++	if (IS_HARDWARE_TYPE_8822B(padapter) || IS_HARDWARE_TYPE_8821C(padapter)) {
++		if (!padapter->HalFunc.set_tx_power_index_handler) {
++			rtw_hal_error_msg("set_tx_power_index_handler");
++			ret = _FAIL;
++		}
++	}
++
++	if (!padapter->HalFunc.get_tx_power_index_handler) {
++		rtw_hal_error_msg("get_tx_power_index_handler");
++		ret = _FAIL;
++	}
++
++	/*** SReset section ***/
++#ifdef DBG_CONFIG_ERROR_DETECT
++	if (NULL == padapter->HalFunc.sreset_init_value) {
++		rtw_hal_error_msg("sreset_init_value");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.sreset_reset_value) {
++		rtw_hal_error_msg("sreset_reset_value");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.silentreset) {
++		rtw_hal_error_msg("silentreset");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.sreset_xmit_status_check) {
++		rtw_hal_error_msg("sreset_xmit_status_check");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.sreset_linked_status_check) {
++		rtw_hal_error_msg("sreset_linked_status_check");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.sreset_get_wifi_status) {
++		rtw_hal_error_msg("sreset_get_wifi_status");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.sreset_inprogress) {
++		rtw_hal_error_msg("sreset_inprogress");
++		ret = _FAIL;
++	}
++#endif  /* #ifdef DBG_CONFIG_ERROR_DETECT */
++
++#ifdef RTW_HALMAC
++	if (NULL == padapter->HalFunc.init_mac_register) {
++		rtw_hal_error_msg("init_mac_register");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.init_phy) {
++		rtw_hal_error_msg("init_phy");
++		ret = _FAIL;
++	}
++#endif /* RTW_HALMAC */
++#endif
++	return  ret;
++}
+diff --git a/drivers/net/wireless/rtl8723du/hal/hal_mcc.c b/drivers/net/wireless/rtl8723du/hal/hal_mcc.c
+new file mode 100644
+index 0000000..eb65f59
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/hal_mcc.c
+@@ -0,0 +1,1490 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ ******************************************************************************/
++#ifdef CONFIG_MCC_MODE
++#define _HAL_MCC_C_
++
++#include <drv_types.h> /* PADAPTER */
++#include <rtw_mcc.h> /* mcc structure */
++#include <hal_data.h> /* HAL_DATA */
++#include <rtw_pwrctrl.h> /* power control */
++
++/* backup IQK value */
++void rtw_hal_mcc_backup_IQK_val(PADAPTER padapter)
++{
++	u8 take_care_iqk = _FALSE;
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_CH_SW_NEED_TO_TAKE_CARE_IQK_INFO, &take_care_iqk);
++	if (take_care_iqk == _TRUE && MCC_EN(padapter))
++		rtw_hal_ch_sw_iqk_info_restore(padapter, CH_SW_USE_CASE_MCC);
++}
++
++u8 rtw_hal_check_mcc_status(PADAPTER padapter, u8 mcc_status)
++{
++	struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++
++	if (pmccobjpriv->mcc_status & (mcc_status))
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++void rtw_hal_set_mcc_status(PADAPTER padapter, u8 mcc_status)
++{
++	struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++
++	pmccobjpriv->mcc_status |= (mcc_status);
++}
++
++void rtw_hal_clear_mcc_status(PADAPTER padapter, u8 mcc_status)
++{
++	struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++
++	pmccobjpriv->mcc_status &= (~mcc_status);
++}
++
++static void rtw_hal_config_mcc_role_setting(PADAPTER padapter)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct mcc_obj_priv *pmccobjpriv = &(pdvobjpriv->mcc_objpriv);
++	struct mcc_adapter_priv *pmccadapriv = &padapter->mcc_adapterpriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct wlan_network *cur_network = &(pmlmepriv->cur_network);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta = NULL;
++	struct registry_priv *preg = &padapter->registrypriv;
++
++	/* GO/AP is 1nd order  GC/STA is 2nd order */
++	switch (pmccadapriv->role) {
++	case MCC_ROLE_STA:
++	case MCC_ROLE_GC:
++		pmccadapriv->order = 1;
++		pmccadapriv->mcc_duration = pmccobjpriv->duration;
++
++		switch (pmlmeext->cur_bwmode) {
++		case CHANNEL_WIDTH_20:
++			/*
++			* target tx byte(bytes) = target tx tp(Mbits/sec) * 1024 * 1024 / 8 * (duration(ms) / 1024)
++			*					= target tx tp(Mbits/sec) * 128 * duration(ms)
++			* note:
++			* target tx tp(Mbits/sec) * 1024 * 1024 / 8 ==> Mbits to bytes
++			* duration(ms) / 1024 ==> msec to sec
++			*/
++			pmccadapriv->mcc_target_tx_bytes_to_port = preg->rtw_mcc_sta_bw20_target_tx_tp * 128 * pmccadapriv->mcc_duration;
++			break;
++		case CHANNEL_WIDTH_40:
++			pmccadapriv->mcc_target_tx_bytes_to_port = preg->rtw_mcc_sta_bw40_target_tx_tp * 128 * pmccadapriv->mcc_duration;
++			break;
++		case CHANNEL_WIDTH_80:
++			pmccadapriv->mcc_target_tx_bytes_to_port = preg->rtw_mcc_sta_bw80_target_tx_tp * 128 * pmccadapriv->mcc_duration;
++			break;
++		case CHANNEL_WIDTH_160:
++		case CHANNEL_WIDTH_80_80:
++			RTW_INFO(FUNC_ADPT_FMT": not support bwmode = %d\n"
++				, FUNC_ADPT_ARG(padapter), pmlmeext->cur_bwmode);
++			break;
++		}
++
++		/* assign used mac to avoid affecting RA */
++		pmccadapriv->mgmt_queue_macid = MCC_ROLE_STA_GC_MGMT_QUEUE_MACID;
++
++		psta = rtw_get_stainfo(pstapriv, cur_network->network.MacAddress);
++		if (psta) {
++			/* combine AP/GO macid and mgmt queue macid to bitmap */
++			pmccadapriv->mcc_macid_bitmap = BIT(psta->mac_id) | BIT(pmccadapriv->mgmt_queue_macid);
++		} else {
++			RTW_INFO(FUNC_ADPT_FMT":AP/GO station info is NULL\n", FUNC_ADPT_ARG(padapter));
++			rtw_warn_on(1);
++		}
++		break;
++	case MCC_ROLE_AP:
++	case MCC_ROLE_GO:
++		pmccadapriv->order = 0;
++		pmccadapriv->mcc_duration = 100 - pmccobjpriv->duration; /* 100 means beacon interval */
++
++		switch (pmlmeext->cur_bwmode) {
++		case CHANNEL_WIDTH_20:
++			pmccadapriv->mcc_target_tx_bytes_to_port = preg->rtw_mcc_ap_bw20_target_tx_tp * 128 * pmccadapriv->mcc_duration;
++			break;
++		case CHANNEL_WIDTH_40:
++			pmccadapriv->mcc_target_tx_bytes_to_port = preg->rtw_mcc_ap_bw40_target_tx_tp * 128 * pmccadapriv->mcc_duration;
++			break;
++		case CHANNEL_WIDTH_80:
++			pmccadapriv->mcc_target_tx_bytes_to_port = preg->rtw_mcc_ap_bw80_target_tx_tp * 128 * pmccadapriv->mcc_duration;
++			break;
++		case CHANNEL_WIDTH_160:
++		case CHANNEL_WIDTH_80_80:
++			RTW_INFO(FUNC_ADPT_FMT": not support bwmode = %d\n"
++				, FUNC_ADPT_ARG(padapter), pmlmeext->cur_bwmode);
++			break;
++		}
++
++
++		psta = rtw_get_bcmc_stainfo(padapter);
++
++		if (psta != NULL)
++			pmccadapriv->mgmt_queue_macid = psta->mac_id;
++		else {
++			pmccadapriv->mgmt_queue_macid = MCC_ROLE_SOFTAP_GO_MGMT_QUEUE_MACID;
++			RTW_INFO(FUNC_ADPT_FMT":bcmc station is NULL, use macid %d\n"
++				, FUNC_ADPT_ARG(padapter), pmccadapriv->mgmt_queue_macid);
++		}
++
++		/* combine client macid and mgmt queue macid to bitmap */
++		pmccadapriv->mcc_macid_bitmap = (0xff << 8) | BIT(pmccadapriv->mgmt_queue_macid);
++		break;
++	default:
++		RTW_INFO("Unknown role\n");
++		rtw_warn_on(1);
++		break;
++	}
++
++	pmccobjpriv->iface[pmccadapriv->order] = padapter;
++	RTW_INFO(FUNC_ADPT_FMT": order:%d, role:%d, mcc duration:%d, target tx bytes:%d, mgmt queue macid:%d, bitmap:0x%02x\n"
++		, FUNC_ADPT_ARG(padapter), pmccadapriv->order, pmccadapriv->role, pmccadapriv->mcc_duration
++		, pmccadapriv->mcc_target_tx_bytes_to_port, pmccadapriv->mgmt_queue_macid, pmccadapriv->mcc_macid_bitmap);
++}
++
++static void rtw_hal_clear_mcc_macid(PADAPTER padapter)
++{
++	struct mcc_adapter_priv *pmccadapriv = &padapter->mcc_adapterpriv;
++
++	switch (pmccadapriv->role) {
++	case MCC_ROLE_STA:
++	case MCC_ROLE_GC:
++		/* release  mgmt queue macid */
++		rtw_hal_set_FwMediaStatusRpt_single_cmd(padapter
++			, 0, 0, 0, H2C_MSR_ROLE_AP, pmccadapriv->mgmt_queue_macid);
++		break;
++	case MCC_ROLE_AP:
++	case MCC_ROLE_GO:
++		/* nothing to do */
++		break;
++	default:
++		RTW_INFO("Unknown role\n");
++		rtw_warn_on(1);
++		break;
++	}
++}
++static u8 rtw_hal_decide_mcc_role(PADAPTER padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	_adapter *iface = NULL;
++	struct mcc_adapter_priv *pmccadapriv = NULL;
++	struct wifidirect_info *pwdinfo = NULL;
++	struct mlme_priv *pmlmepriv = NULL;
++	u8 ret = _SUCCESS, i = 0;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface == NULL)
++			continue;
++
++		pmccadapriv = &iface->mcc_adapterpriv;
++
++		if (MLME_IS_GO(iface))
++			pmccadapriv->role = MCC_ROLE_GO;
++		else if (MLME_IS_AP(iface))
++			pmccadapriv->role = MCC_ROLE_AP;
++		else if (MLME_IS_GC(iface))
++			pmccadapriv->role = MCC_ROLE_GC;
++		else if (MLME_IS_STA(iface))
++			pmccadapriv->role = MCC_ROLE_STA;
++		else {
++			pwdinfo = &iface->wdinfo;
++			pmlmepriv = &iface->mlmepriv;
++
++			RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(iface));
++			RTW_INFO("Unknown:P2P state:%d, mlme state:0x%2x, mlmext info state:0x%02x\n",
++				pwdinfo->role, pmlmepriv->fw_state, iface->mlmeextpriv.mlmext_info.state);
++			rtw_warn_on(1);
++			ret =  _FAIL;
++			goto exit;
++		}
++
++		if (ret == _SUCCESS)
++			rtw_hal_config_mcc_role_setting(iface);
++	}
++
++exit:
++	return ret;
++}
++
++static void rtw_hal_init_mcc_parameter(PADAPTER padapter)
++{
++}
++
++static void rtw_hal_construct_CTS(PADAPTER padapter, u8 *pframe, u32 *pLength)
++{
++	u8 broadcast_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++	/* frame type, length = 1*/
++	SetFrameSubType(pframe, WIFI_RTS);
++
++	/* frame control flag, length = 1 */
++	*(pframe + 1) = 0;
++
++	/* frame duration, length = 2 */
++	*(pframe + 2) = 0x00;
++	*(pframe + 3) = 0x78;
++
++	/* frame recvaddr, length = 6 */
++	_rtw_memcpy((pframe + 4), broadcast_addr, ETH_ALEN);
++	_rtw_memcpy((pframe + 4 + ETH_ALEN), adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy((pframe + 4 + ETH_ALEN * 2), adapter_mac_addr(padapter), ETH_ALEN);
++	*pLength = 22;
++}
++
++u8 rtw_hal_dl_mcc_fw_rsvd_page(_adapter *adapter, u8 *pframe, u16 *index,
++	       u8 tx_desc, u32 page_size, u8 *page_num, u32 *total_pkt_len,
++			       RSVDPAGE_LOC *rsvd_page_loc)
++{
++	u32 len = 0;
++	_adapter *iface = NULL;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mcc_obj_priv *pmccobjpriv = &(dvobj->mcc_objpriv);
++	struct mlme_ext_info *pmlmeinfo = NULL;
++	struct mlme_ext_priv *pmlmeext = NULL;
++	u8 ret = _SUCCESS, i = 0, order = 0, CurtPktPageNum = 0;
++	u8 bssid[ETH_ALEN] = {0};
++
++	/* check proccess mcc start setting */
++	if (!rtw_hal_check_mcc_status(adapter, MCC_STATUS_PROCESS_MCC_START_SETTING)) {
++		ret = _FAIL;
++		goto exit;
++	}
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface == NULL)
++			continue;
++
++		order = iface->mcc_adapterpriv.order;
++		dvobj->mcc_objpriv.mcc_loc_rsvd_paga[order] = *page_num;
++
++		switch (iface->mcc_adapterpriv.role) {
++		case MCC_ROLE_STA:
++		case MCC_ROLE_GC:
++			/* Build NULL DATA */
++			RTW_INFO("LocNull(order:%d): %d\n"
++				, order, dvobj->mcc_objpriv.mcc_loc_rsvd_paga[order]);
++			len = 0;
++			pmlmeext = &iface->mlmeextpriv;
++			pmlmeinfo = &pmlmeext->mlmext_info;
++
++			_rtw_memcpy(bssid, get_my_bssid(&pmlmeinfo->network), ETH_ALEN);
++			rtw_hal_construct_NullFunctionData(iface
++				, &pframe[*index], &len, bssid, _FALSE, 0, 0, _FALSE);
++			rtw_hal_fill_fake_txdesc(iface, &pframe[*index - tx_desc],
++						 len, _FALSE, _FALSE, _FALSE);
++
++			CurtPktPageNum = (u8)PageNum(tx_desc + len, page_size);
++			*page_num += CurtPktPageNum;
++			*index += (CurtPktPageNum * page_size);
++			*total_pkt_len = *index + len;
++			break;
++		case MCC_ROLE_AP:
++			/* Bulid CTS */
++			RTW_INFO("LocCTS(order:%d): %d\n"
++				, order, dvobj->mcc_objpriv.mcc_loc_rsvd_paga[order]);
++
++			len = 0;
++			rtw_hal_construct_CTS(iface, &pframe[*index], &len);
++			rtw_hal_fill_fake_txdesc(iface, &pframe[*index - tx_desc],
++						 len, _FALSE, _FALSE, _FALSE);
++
++			CurtPktPageNum = (u8)PageNum(tx_desc + len, page_size);
++			*page_num += CurtPktPageNum;
++			*index += (CurtPktPageNum * page_size);
++			*total_pkt_len = *index + len;
++			break;
++		case MCC_ROLE_GO:
++			/* To DO */
++			break;
++		}
++	}
++exit:
++	return ret;
++}
++
++/*
++* 1. Download MCC rsvd page
++* 2. Re-Download beacon after download rsvd page
++*/
++static void rtw_hal_set_fw_mcc_rsvd_page(PADAPTER padapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	struct mcc_adapter_priv *pmccadapriv = &padapter->mcc_adapterpriv;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	PADAPTER port0_iface = dvobj_get_port0_adapter(dvobj);
++	PADAPTER iface = NULL;
++	struct mcc_obj_priv *pmccobjpriv = &(dvobj->mcc_objpriv);
++	u8 mstatus = RT_MEDIA_CONNECT, i = 0;
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++	rtw_hal_set_hwreg(port0_iface, HW_VAR_H2C_FW_JOINBSSRPT, (u8 *)(&mstatus));
++
++	/* Re-Download beacon */
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = pmccobjpriv->iface[i];
++		pmccadapriv = &iface->mcc_adapterpriv;
++		if (pmccadapriv->role == MCC_ROLE_AP
++		    || pmccadapriv->role == MCC_ROLE_GO)
++			tx_beacon_hdl(iface, NULL);
++	}
++}
++
++static void rtw_hal_set_mcc_rsvdpage_cmd(_adapter *padapter)
++{
++	u8 cmd[H2C_MCC_LOCATION_LEN] = {0}, i = 0, order = 0;
++	_adapter *iface = NULL;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct mcc_obj_priv *pmccobjpriv = &(dvobj->mcc_objpriv);
++
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface == NULL)
++			continue;
++
++		order = iface->mcc_adapterpriv.order;
++		if (order >= H2C_MCC_LOCATION_LEN) {
++			RTW_INFO(FUNC_ADPT_FMT" only support 3 interface at most(%d)\n"
++				 , FUNC_ADPT_ARG(padapter), order);
++			continue;
++		}
++
++		SET_H2CCMD_MCC_RSVDPAGE_LOC((cmd + order), (pmccobjpriv->mcc_loc_rsvd_paga[order]));
++	}
++
++#ifdef CONFIG_MCC_MODE_DEBUG
++	RTW_INFO("=========================\n");
++	RTW_INFO("MCC RSVD PAGE LOC:\n");
++	for (i = 0; i < H2C_MCC_LOCATION_LEN; i++)
++		pr_dbg("0x%x ", cmd[i]);
++	pr_dbg("\n");
++	RTW_INFO("=========================\n");
++#endif /* CONFIG_MCC_MODE_DEBUG */
++
++	rtw_hal_fill_h2c_cmd(padapter, H2C_MCC_LOCATION, H2C_MCC_LOCATION_LEN, cmd);
++}
++
++static void rtw_hal_set_mcc_noa_cmd(PADAPTER padapter)
++{
++	struct mcc_adapter_priv *pmccadapriv = &padapter->mcc_adapterpriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	u8 cmd[H2C_MCC_NOA_PARAM_LEN] = {0};
++	u8 noa_fw_eable = 1;
++	u8 noa_tsf_sync_offset = 50;
++	u8 noa_start_time = 30;
++	u8 noa_interval = pmlmepriv->cur_network.network.Configuration.BeaconPeriod;
++	u8 swchannel_early_time = MCC_SWCH_FW_EARLY_TIME;
++	u8 i = 0;
++
++	/* FW set NOA enable */
++	SET_H2CCMD_MCC_NOA_FW_EN(cmd, noa_fw_eable);
++	/* TSF Sync offset */
++	SET_H2CCMD_MCC_NOA_TSF_SYNC_OFFSET(cmd, noa_tsf_sync_offset);
++	/* NoA start time offset */
++	SET_H2CCMD_MCC_NOA_START_TIME(cmd, noa_start_time);
++	/* NoA interval */
++	SET_H2CCMD_MCC_NOA_INTERVAL(cmd, noa_interval);
++	/* Early time to inform driver by C2H before switch channel */
++	SET_H2CCMD_MCC_EARLY_TIME(cmd, swchannel_early_time);
++
++#ifdef CONFIG_MCC_MODE_DEBUG
++	RTW_INFO("=========================\n");
++	RTW_INFO("NoA:\n");
++	for (i = 0; i < H2C_MCC_NOA_PARAM_LEN; i++)
++		pr_dbg("0x%x ", cmd[i]);
++	pr_dbg("\n");
++	RTW_INFO("=========================\n");
++#endif /* CONFIG_MCC_MODE_DEBUG */
++
++	rtw_hal_fill_h2c_cmd(padapter, H2C_MCC_NOA_PARAM, H2C_MCC_NOA_PARAM_LEN, cmd);
++}
++
++static void rtw_hal_set_mcc_IQK_offload_cmd(PADAPTER padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct mcc_adapter_priv *pmccadapriv = NULL;
++	_adapter *iface = NULL;
++	u8 cmd[H2C_MCC_IQK_PARAM_LEN] = {0}, bready = 0, i = 0, order = 0;
++	u16 TX_X = 0, TX_Y = 0, RX_X = 0, RX_Y = 0;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface == NULL)
++			continue;
++
++		pmccadapriv = &iface->mcc_adapterpriv;
++		order = pmccadapriv->order;
++		/* TO DO for multi-antenna(FW not support) */
++		TX_X = pmccadapriv->mcc_iqk_arr[0].TX_X & 0x7ff;/* [10:0] */
++		TX_Y = pmccadapriv->mcc_iqk_arr[0].TX_Y & 0x7ff;/* [10:0] */
++		RX_X = pmccadapriv->mcc_iqk_arr[0].RX_X & 0x3ff;/* [9:0] */
++		RX_Y = pmccadapriv->mcc_iqk_arr[0].RX_Y & 0x3ff;/* [9:0] */
++		_rtw_memset(cmd, 0, H2C_MCC_IQK_PARAM_LEN);
++
++		/* ready or not */
++		if (order == 1)
++			bready = 1;
++		else
++			bready = 0;
++
++		SET_H2CCMD_MCC_IQK_READY(cmd, bready);
++		SET_H2CCMD_MCC_IQK_ORDER(cmd, order);
++
++		/* fill RX_X[7:0] to (cmd+1)[7:0] bitlen=8 */
++		SET_H2CCMD_MCC_IQK_RX_L(cmd, (u8)(RX_X & 0xff));
++		/* fill RX_X[9:8] to (cmd+2)[1:0] bitlen=2 */
++		SET_H2CCMD_MCC_IQK_RX_M1(cmd, (u8)((RX_X >> 8) & 0x03));
++		/* fill RX_Y[5:0] to (cmd+2)[7:2] bitlen=6 */
++		SET_H2CCMD_MCC_IQK_RX_M2(cmd, (u8)(RX_Y & 0x3f));
++		/* fill RX_Y[9:6] to (cmd+3)[3:0] bitlen=4 */
++		SET_H2CCMD_MCC_IQK_RX_H(cmd, (u8)((RX_Y >> 6) & 0x0f));
++
++
++		/* fill TX_X[7:0] to (cmd+4)[7:0] bitlen=8 */
++		SET_H2CCMD_MCC_IQK_TX_L(cmd, (u8)(TX_X & 0xff));
++		/* fill TX_X[10:8] to (cmd+5)[2:0] bitlen=3 */
++		SET_H2CCMD_MCC_IQK_TX_M1(cmd, (u8)((TX_X >> 8) & 0x07));
++		/* fill TX_Y[4:0] to (cmd+5)[7:3] bitlen=5 */
++		SET_H2CCMD_MCC_IQK_TX_M2(cmd, (u8)(TX_Y & 0x1f));
++		/* fill TX_Y[10:5] to (cmd+6)[5:0] bitlen=6 */
++		SET_H2CCMD_MCC_IQK_TX_H(cmd, (u8)((TX_Y >> 5) & 0x3f));
++
++#ifdef CONFIG_MCC_MODE_DEBUG
++		RTW_INFO("=========================\n");
++		RTW_INFO(FUNC_ADPT_FMT" IQK:\n", FUNC_ADPT_ARG(iface));
++		RTW_INFO("TX_X: 0x%02x\n", TX_X);
++		RTW_INFO("TX_Y: 0x%02x\n", TX_Y);
++		RTW_INFO("RX_X: 0x%02x\n", RX_X);
++		RTW_INFO("RX_Y: 0x%02x\n", RX_Y);
++		RTW_INFO("cmd[0]:0x%02x\n", cmd[0]);
++		RTW_INFO("cmd[1]:0x%02x\n", cmd[1]);
++		RTW_INFO("cmd[2]:0x%02x\n", cmd[2]);
++		RTW_INFO("cmd[3]:0x%02x\n", cmd[3]);
++		RTW_INFO("cmd[4]:0x%02x\n", cmd[4]);
++		RTW_INFO("cmd[5]:0x%02x\n", cmd[5]);
++		RTW_INFO("cmd[6]:0x%02x\n", cmd[6]);
++		RTW_INFO("=========================\n");
++#endif /* CONFIG_MCC_MODE_DEBUG */
++
++		rtw_hal_fill_h2c_cmd(padapter, H2C_MCC_IQK_PARAM, H2C_MCC_IQK_PARAM_LEN, cmd);
++	}
++}
++
++
++static void rtw_hal_set_mcc_macid_cmd(PADAPTER padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct mcc_adapter_priv *pmccadapriv = NULL;
++	_adapter *iface = NULL;
++	u8 cmd[H2C_MCC_MACID_BITMAP_LEN] = {0}, i = 0, order = 0;
++	u16 bitmap = 0;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface == NULL)
++			continue;
++
++		pmccadapriv = &iface->mcc_adapterpriv;
++		order = pmccadapriv->order;
++		bitmap = pmccadapriv->mcc_macid_bitmap;
++
++		if (order >= (H2C_MCC_MACID_BITMAP_LEN / 2)) {
++			RTW_INFO(FUNC_ADPT_FMT" only support 3 interface at most(%d)\n"
++				 , FUNC_ADPT_ARG(padapter), order);
++			continue;
++		}
++		SET_H2CCMD_MCC_MACID_BITMAP_L((cmd + order * 2), (u8)(bitmap & 0xff));
++		SET_H2CCMD_MCC_MACID_BITMAP_H((cmd + order * 2), (u8)((bitmap >> 8) & 0xff));
++	}
++
++#ifdef CONFIG_MCC_MODE_DEBUG
++	RTW_INFO("=========================\n");
++	RTW_INFO("MACID BITMAP: ");
++	for (i = 0; i < H2C_MCC_MACID_BITMAP_LEN; i++)
++		pr_dbg("0x%x ", cmd[i]);
++	pr_dbg("\n");
++	RTW_INFO("=========================\n");
++#endif /* CONFIG_MCC_MODE_DEBUG */
++	rtw_hal_fill_h2c_cmd(padapter, H2C_MCC_MACID_BITMAP, H2C_MCC_MACID_BITMAP_LEN, cmd);
++}
++
++static void rtw_hal_set_mcc_parameter_cmd(PADAPTER padapter, u8 stop)
++{
++	u8 cmd[H2C_MCC_INFO_LEN] = {0}, i = 0;
++	u8 order = 0, totalnum = 0, chidx = 0, bw = 0, bw40sc = 0, bw80sc = 0;
++	u8 duration = 0, role = 0, incurch = 0, rfetype = 0, distxnull = 0, c2hrpt = 0, chscan = 0;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct mcc_obj_priv *pmccobjpriv = &(dvobj->mcc_objpriv);
++	struct mlme_ext_priv *pmlmeext = NULL;
++	struct mlme_ext_info *pmlmeinfo = NULL;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	_adapter *iface = NULL;
++
++	RTW_INFO(FUNC_ADPT_FMT": stop=%d\n", FUNC_ADPT_ARG(padapter), stop);
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = pmccobjpriv->iface[i];
++		if (iface == NULL)
++			continue;
++
++		if (stop) {
++			if (iface != padapter)
++				continue;
++		}
++
++
++		order = iface->mcc_adapterpriv.order;
++		if (!stop)
++			totalnum = dvobj->iface_nums;
++		else
++			totalnum = 0xff; /* 0xff means stop */
++
++		pmlmeext = &iface->mlmeextpriv;
++		chidx = pmlmeext->cur_channel;
++		bw = pmlmeext->cur_bwmode;
++		bw40sc = pmlmeext->cur_ch_offset;
++
++		/* decide 80 band width offset */
++		if (bw == CHANNEL_WIDTH_80) {
++			u8 center_ch = rtw_get_center_ch(chidx, bw, bw40sc);
++
++			if (center_ch > chidx)
++				bw80sc = HAL_PRIME_CHNL_OFFSET_LOWER;
++			else if (center_ch < chidx)
++				bw80sc = HAL_PRIME_CHNL_OFFSET_UPPER;
++			else
++				bw80sc = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		} else
++			bw80sc = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++		duration = iface->mcc_adapterpriv.mcc_duration;
++		role = iface->mcc_adapterpriv.role;
++
++		incurch = _FALSE;
++
++		if (IS_HARDWARE_TYPE_8812(padapter))
++			rfetype = pHalData->RFEType; /* RFETYPE (only for 8812)*/
++		else
++			rfetype = 0;
++
++		/* STA/GC TX NULL data to inform AP/GC for ps mode */
++		switch (role) {
++		case MCC_ROLE_GO:
++		case MCC_ROLE_AP:
++			distxnull = MCC_DISABLE_TX_NULL;
++			break;
++		case MCC_ROLE_GC:
++		case MCC_ROLE_STA:
++			distxnull = MCC_ENABLE_TX_NULL;
++			break;
++		}
++
++		c2hrpt = MCC_C2H_REPORT_ALL_STATUS;
++		chscan = MCC_CHIDX;
++
++		SET_H2CCMD_MCC_INFO_ORDER(cmd, order);
++		SET_H2CCMD_MCC_INFO_TOTALNUM(cmd, totalnum);
++		SET_H2CCMD_MCC_INFO_CHIDX(cmd, chidx);
++		SET_H2CCMD_MCC_INFO_BW(cmd, bw);
++		SET_H2CCMD_MCC_INFO_BW40SC(cmd, bw40sc);
++		SET_H2CCMD_MCC_INFO_BW80SC(cmd, bw80sc);
++		SET_H2CCMD_MCC_INFO_DURATION(cmd, duration);
++		SET_H2CCMD_MCC_INFO_ROLE(cmd, role);
++		SET_H2CCMD_MCC_INFO_INCURCH(cmd, incurch);
++		SET_H2CCMD_MCC_INFO_RFETYPE(cmd, rfetype);
++		SET_H2CCMD_MCC_INFO_DISTXNULL(cmd, distxnull);
++		SET_H2CCMD_MCC_INFO_C2HRPT(cmd, c2hrpt);
++		SET_H2CCMD_MCC_INFO_CHSCAN(cmd, chscan);
++
++#ifdef CONFIG_MCC_MODE_DEBUG
++		RTW_INFO("=========================\n");
++		RTW_INFO(FUNC_ADPT_FMT" MCC INFO:\n", FUNC_ADPT_ARG(iface));
++		RTW_INFO("cmd[0]:0x%02x\n", cmd[0]);
++		RTW_INFO("cmd[1]:0x%02x\n", cmd[1]);
++		RTW_INFO("cmd[2]:0x%02x\n", cmd[2]);
++		RTW_INFO("cmd[3]:0x%02x\n", cmd[3]);
++		RTW_INFO("cmd[4]:0x%02x\n", cmd[4]);
++		RTW_INFO("cmd[5]:0x%02x\n", cmd[5]);
++		RTW_INFO("cmd[6]:0x%02x\n", cmd[6]);
++		RTW_INFO("=========================\n");
++#endif /* CONFIG_MCC_MODE_DEBUG */
++
++		rtw_hal_fill_h2c_cmd(padapter, H2C_MCC_INFO, H2C_MCC_INFO_LEN, cmd);
++	}
++}
++
++static u8 rtw_hal_set_mcc_start_setting(PADAPTER padapter, u8 status)
++{
++	u8 ret = _SUCCESS;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv *pwrpriv = dvobj_to_pwrctl(dvobj);
++
++	if (pwrpriv->pwr_mode != PS_MODE_ACTIVE) {
++		rtw_warn_on(1);
++		RTW_INFO("PS mode is not active before start mcc, force exit ps mode\n");
++		LeaveAllPowerSaveModeDirect(padapter);
++	}
++
++	if (dvobj->iface_nums > MAX_MCC_NUM) {
++		RTW_INFO("%s: current iface num(%d) > MAX_MCC_NUM(%d)\n", __func__, dvobj->iface_nums, MAX_MCC_NUM);
++		ret = _FAIL;
++		goto exit;
++	}
++
++	if (rtw_hal_decide_mcc_role(padapter) == _FAIL) {
++		ret = _FAIL;
++		goto exit;
++	}
++
++	/* set mcc status to indicate process mcc start setting */
++	rtw_hal_set_mcc_status(padapter, MCC_STATUS_PROCESS_MCC_START_SETTING);
++
++	/* only download rsvd page for connect */
++	if (status == MCC_SETCMD_STATUS_START_CONNECT) {
++		/* download mcc rsvd page */
++		rtw_hal_set_fw_mcc_rsvd_page(padapter);
++		rtw_hal_set_mcc_rsvdpage_cmd(padapter);
++	}
++
++	/* configure NoA setting */
++	rtw_hal_set_mcc_noa_cmd(padapter);
++
++	/* IQK value offload */
++	rtw_hal_set_mcc_IQK_offload_cmd(padapter);
++
++	/* set mac id to fw */
++	rtw_hal_set_mcc_macid_cmd(padapter);
++
++	/* set mcc parameter */
++	rtw_hal_set_mcc_parameter_cmd(padapter, _FALSE);
++
++exit:
++	return ret;
++}
++
++static void rtw_hal_set_mcc_stop_setting(PADAPTER padapter, u8 status)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	_adapter *iface = NULL;
++	u8 i = 0;
++	/*
++	 * when adapter disconnect, stop mcc mod
++	 * total=0xf means stop mcc mode
++	 */
++
++	switch (status) {
++	default:
++		/* let fw switch to other interface channel */
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if (iface == NULL)
++				continue;
++			/* use other interface to set cmd */
++			if (iface != padapter) {
++				rtw_hal_set_mcc_parameter_cmd(iface, _TRUE);
++				break;
++			}
++		}
++		break;
++	}
++}
++
++static void rtw_hal_mcc_status_hdl(PADAPTER padapter, u8 status)
++{
++	switch (status) {
++	case MCC_SETCMD_STATUS_STOP_DISCONNECT:
++		rtw_hal_clear_mcc_status(padapter, MCC_STATUS_NEED_MCC | MCC_STATUS_DOING_MCC);
++		break;
++	case MCC_SETCMD_STATUS_STOP_SCAN_START:
++		rtw_hal_set_mcc_status(padapter, MCC_STATUS_NEED_MCC);
++		rtw_hal_clear_mcc_status(padapter, MCC_STATUS_DOING_MCC);
++		break;
++
++	case MCC_SETCMD_STATUS_START_CONNECT:
++	case MCC_SETCMD_STATUS_START_SCAN_DONE:
++		rtw_hal_set_mcc_status(padapter, MCC_STATUS_NEED_MCC | MCC_STATUS_DOING_MCC);
++		break;
++	default:
++		RTW_INFO(FUNC_ADPT_FMT" error status(%d)\n", FUNC_ADPT_ARG(padapter), status);
++		break;
++	}
++}
++
++static void rtw_hal_mcc_stop_posthdl(PADAPTER padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	_adapter *iface = NULL;
++	u8 i = 0;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface == NULL)
++			continue;
++		/* release network queue */
++		rtw_netif_wake_queue(iface->pnetdev);
++		iface->mcc_adapterpriv.mcc_tx_bytes_from_kernel = 0;
++		iface->mcc_adapterpriv.mcc_last_tx_bytes_from_kernel = 0;
++		iface->mcc_adapterpriv.mcc_tx_bytes_to_port = 0;
++	}
++}
++
++static void rtw_hal_mcc_start_posthdl(PADAPTER padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	_adapter *iface = NULL;
++	u8 i = 0;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface == NULL)
++			continue;
++		iface->mcc_adapterpriv.mcc_tx_bytes_from_kernel = 0;
++		iface->mcc_adapterpriv.mcc_last_tx_bytes_from_kernel = 0;
++		iface->mcc_adapterpriv.mcc_tx_bytes_to_port = 0;
++	}
++}
++
++/*
++ * rtw_hal_set_mcc_setting - set mcc setting
++ * @padapter: currnet padapter to stop/start MCC
++ * @stop: stop mcc or not
++ * @return val: 1 for SUCCESS, 0 for fail
++ */
++static u8 rtw_hal_set_mcc_setting(PADAPTER padapter, u8 status)
++{
++	u8 ret = _FAIL;
++	struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++	u8 stop = (status < MCC_SETCMD_STATUS_START_CONNECT) ? _TRUE : _FALSE;
++	u32 start_time = rtw_get_current_time();
++
++	RTW_INFO("===> "FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++	rtw_sctx_init(&pmccobjpriv->mcc_sctx, MCC_EXPIRE_TIME);
++	pmccobjpriv->mcc_c2h_status = MCC_RPT_MAX;
++
++	if (stop == _FALSE) {
++		pmccobjpriv->duration = MCC_DURATION;
++
++		/* handle mcc start */
++		if (rtw_hal_set_mcc_start_setting(padapter, status) == _FAIL)
++			goto exit;
++
++		/* wait for C2H */
++		if (!rtw_sctx_wait(&pmccobjpriv->mcc_sctx, __func__))
++			RTW_INFO(FUNC_ADPT_FMT": wait for mcc start C2H time out\n", FUNC_ADPT_ARG(padapter));
++		else
++			ret = _SUCCESS;
++
++		if (ret == _SUCCESS) {
++			RTW_INFO(FUNC_ADPT_FMT": mcc start sucecssfully\n", FUNC_ADPT_ARG(padapter));
++			rtw_hal_mcc_start_posthdl(padapter);
++		}
++	} else {
++
++		/* set mcc status to indicate process mcc start setting */
++		rtw_hal_set_mcc_status(padapter, MCC_STATUS_PROCESS_MCC_STOP_SETTING);
++
++		/* handle mcc stop */
++		rtw_hal_set_mcc_stop_setting(padapter, status);
++
++		/* wait for C2H */
++		if (!rtw_sctx_wait(&pmccobjpriv->mcc_sctx, __func__))
++			RTW_INFO(FUNC_ADPT_FMT": wait for mcc stop C2H time out\n", FUNC_ADPT_ARG(padapter));
++		else {
++			ret = _SUCCESS;
++			rtw_hal_mcc_stop_posthdl(padapter);
++		}
++	}
++
++exit:
++
++	rtw_hal_mcc_status_hdl(padapter, status);
++	/* clear mcc status */
++	rtw_hal_clear_mcc_status(padapter
++		, MCC_STATUS_PROCESS_MCC_START_SETTING | MCC_STATUS_PROCESS_MCC_STOP_SETTING);
++
++	RTW_INFO(FUNC_ADPT_FMT" in %dms <===\n"
++		, FUNC_ADPT_ARG(padapter), rtw_get_passing_time_ms(start_time));
++	return ret;
++}
++
++/**
++ * rtw_hal_mcc_check_case_not_limit_traffic - handler flow ctrl for special case
++ * @cur_iface: fw stay channel setting of this iface
++ * @next_iface: fw will swich channel setting of this iface
++ */
++static void rtw_hal_mcc_check_case_not_limit_traffic(PADAPTER cur_iface, PADAPTER next_iface)
++{
++	u8 cur_bw = cur_iface->mlmeextpriv.cur_bwmode;
++	u8 next_bw = next_iface->mlmeextpriv.cur_bwmode;
++
++	/* for both interface are VHT80, doesn't limit_traffic according to iperf results */
++	if (cur_bw == CHANNEL_WIDTH_80 && next_bw == CHANNEL_WIDTH_80) {
++		cur_iface->mcc_adapterpriv.mcc_tp_limit = _FALSE;
++		next_iface->mcc_adapterpriv.mcc_tp_limit = _FALSE;
++	}
++}
++
++
++/**
++ * rtw_hal_mcc_sw_ch_fw_notify_hdl - handler flow ctrl
++ */
++static void rtw_hal_mcc_sw_ch_fw_notify_hdl(PADAPTER padapter)
++{
++	struct dvobj_priv *pdvobjpriv = adapter_to_dvobj(padapter);
++	struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++	struct mcc_adapter_priv *cur_mccadapriv = NULL, *next_mccadapriv = NULL;
++	_adapter *iface = NULL, *cur_iface = NULL, *next_iface = NULL;
++	struct registry_priv *preg = &padapter->registrypriv;
++	u8 cur_op_ch = pdvobjpriv->oper_channel;
++	u8 i = 0, iface_num = pdvobjpriv->iface_nums, cur_order = 0, next_order = 0;
++	static u8 cnt = 1;
++	u32 single_tx_cri = preg->rtw_mcc_single_tx_cri;
++
++	for (i = 0; i < iface_num; i++) {
++		iface = pdvobjpriv->padapters[i];
++		if (cur_op_ch == iface->mlmeextpriv.cur_channel) {
++			cur_iface = iface;
++			cur_mccadapriv = &cur_iface->mcc_adapterpriv;
++			cur_order = cur_mccadapriv->order;
++			next_order = (cur_order + 1) % iface_num;
++			next_iface = pmccobjpriv->iface[next_order];
++			next_mccadapriv = &next_iface->mcc_adapterpriv;
++			break;
++		}
++	}
++
++	/* check other interface tx busy traffic or not under every 2 switch channel notify(Mbits/100ms) */
++	if (cnt == 2) {
++		cur_mccadapriv->mcc_tp = (cur_mccadapriv->mcc_tx_bytes_from_kernel
++			- cur_mccadapriv->mcc_last_tx_bytes_from_kernel) * 10 * 8 / 1024 / 1024;
++		cur_mccadapriv->mcc_last_tx_bytes_from_kernel = cur_mccadapriv->mcc_tx_bytes_from_kernel;
++
++		next_mccadapriv->mcc_tp = (next_mccadapriv->mcc_tx_bytes_from_kernel
++			- next_mccadapriv->mcc_last_tx_bytes_from_kernel) * 10 * 8 / 1024 / 1024;
++		next_mccadapriv->mcc_last_tx_bytes_from_kernel = next_mccadapriv->mcc_tx_bytes_from_kernel;
++
++		cnt = 1;
++	} else
++		cnt = 2;
++
++	/* check single TX or cuncurrnet TX */
++	if (next_mccadapriv->mcc_tp < single_tx_cri) {
++		/* single TX, does not stop */
++		cur_mccadapriv->mcc_tx_stop = _FALSE;
++		cur_mccadapriv->mcc_tp_limit = _FALSE;
++	} else {
++		/* concurrent TX, stop */
++		cur_mccadapriv->mcc_tx_stop = _TRUE;
++		cur_mccadapriv->mcc_tp_limit = _TRUE;
++	}
++
++	if (cur_mccadapriv->mcc_tp < single_tx_cri) {
++		next_mccadapriv->mcc_tx_stop  = _FALSE;
++		next_mccadapriv->mcc_tp_limit = _FALSE;
++	} else {
++		next_mccadapriv->mcc_tx_stop = _FALSE;
++		next_mccadapriv->mcc_tp_limit = _TRUE;
++		next_mccadapriv->mcc_tx_bytes_to_port = 0;
++	}
++
++	/* stop current iface kernel queue or not */
++	if (cur_mccadapriv->mcc_tx_stop)
++		rtw_netif_stop_queue(cur_iface->pnetdev);
++	else
++		rtw_netif_wake_queue(cur_iface->pnetdev);
++
++	/* stop next iface kernel queue or not */
++	if (next_mccadapriv->mcc_tx_stop)
++		rtw_netif_stop_queue(next_iface->pnetdev);
++	else
++		rtw_netif_wake_queue(next_iface->pnetdev);
++
++	/* start xmit tasklet */
++	rtw_os_xmit_schedule(next_iface);
++
++	rtw_hal_mcc_check_case_not_limit_traffic(cur_iface, next_iface);
++
++	if (0) {
++		RTW_INFO("order:%d, mcc_tx_stop:%d, mcc_tp:%d\n",
++			cur_mccadapriv->order, cur_mccadapriv->mcc_tx_stop, cur_mccadapriv->mcc_tp);
++		dump_os_queue(0, cur_iface);
++		RTW_INFO("order:%d, mcc_tx_stop:%d, mcc_tp:%d\n",
++			next_mccadapriv->order, next_mccadapriv->mcc_tx_stop, next_mccadapriv->mcc_tp);
++		dump_os_queue(0, next_iface);
++	}
++}
++
++/**
++ * rtw_hal_mcc_c2h_handler - mcc c2h handler
++ */
++void rtw_hal_mcc_c2h_handler(PADAPTER padapter, u8 buflen, u8 *tmpBuf)
++{
++	struct dvobj_priv *pdvobjpriv = adapter_to_dvobj(padapter);
++	struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++	struct mcc_adapter_priv *pmccadapriv = &padapter->mcc_adapterpriv;
++	struct submit_ctx *mcc_sctx = &pmccobjpriv->mcc_sctx;
++	_irqL irqL;
++
++	/* RTW_INFO("[length]=%d, [C2H data]="MAC_FMT"\n", buflen, MAC_ARG(tmpBuf)); */
++	/* To avoid reg is set, but driver recive c2h to set wrong oper_channel */
++	if (MCC_RPT_STOPMCC == pmccobjpriv->mcc_c2h_status) {
++		RTW_INFO(FUNC_ADPT_FMT" MCC alread stops return\n", FUNC_ADPT_ARG(padapter));
++		return;
++	}
++
++	pmccobjpriv->mcc_c2h_status = tmpBuf[0];
++	switch (pmccobjpriv->mcc_c2h_status) {
++	case MCC_RPT_SUCCESS:
++		pdvobjpriv->oper_channel = tmpBuf[1];
++		_enter_critical_bh(&pmccobjpriv->mcc_lock, &irqL);
++		pmccobjpriv->cur_mcc_success_cnt++;
++		_exit_critical_bh(&pmccobjpriv->mcc_lock, &irqL);
++		break;
++	case MCC_RPT_TXNULL_FAIL:
++		RTW_INFO("[MCC] TXNULL FAIL\n");
++		break;
++	case MCC_RPT_STOPMCC:
++		RTW_INFO("[MCC] MCC stop (time:%d)\n", rtw_get_current_time());
++		pmccobjpriv->mcc_c2h_status = MCC_RPT_STOPMCC;
++		rtw_sctx_done(&mcc_sctx);
++		break;
++	case MCC_RPT_READY:
++		_enter_critical_bh(&pmccobjpriv->mcc_lock, &irqL);
++		/* initialize counter & time */
++		pmccobjpriv->mcc_launch_time = rtw_get_current_time();
++		pmccobjpriv->mcc_c2h_status = MCC_RPT_READY;
++		pmccobjpriv->cur_mcc_success_cnt = 0;
++		pmccobjpriv->prev_mcc_success_cnt = 0;
++		pmccobjpriv->mcc_tolerance_time = MCC_TOLERANCE_TIME;
++		_exit_critical_bh(&pmccobjpriv->mcc_lock, &irqL);
++
++		RTW_INFO("[MCC] MCC ready (time:%d)\n", pmccobjpriv->mcc_launch_time);
++		rtw_sctx_done(&mcc_sctx);
++		break;
++	case MCC_RPT_SWICH_CHANNEL_NOTIFY:
++		pdvobjpriv->oper_channel = tmpBuf[1];
++		rtw_hal_mcc_sw_ch_fw_notify_hdl(padapter);
++		break;
++	default:
++		/* RTW_INFO("[MCC] Other MCC status(%d)\n", pmccobjpriv->mcc_c2h_status); */
++		break;
++	}
++}
++
++
++/**
++ * rtw_hal_mcc_sw_status_check - check mcc swich channel status
++ * @padapter: primary adapter
++ */
++void rtw_hal_mcc_sw_status_check(PADAPTER padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct mcc_obj_priv *pmccobjpriv = &(dvobj->mcc_objpriv);
++	struct pwrctrl_priv	*pwrpriv = dvobj_to_pwrctl(dvobj);
++	u8 cur_cnt = 0, prev_cnt = 0, diff_cnt = 0, check_ret = _FAIL;
++	_irqL irqL;
++
++	/* #define MCC_RESTART 1 */
++
++	if (!MCC_EN(padapter))
++		return;
++
++	_enter_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++
++	if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)) {
++
++		if (pwrpriv->pwr_mode != PS_MODE_ACTIVE) {
++			rtw_warn_on(1);
++			RTW_INFO("PS mode is not active under mcc, force exit ps mode\n");
++			LeaveAllPowerSaveModeDirect(padapter);
++		}
++
++		if (rtw_get_passing_time_ms(pmccobjpriv->mcc_launch_time) > 2000) {
++			_enter_critical_bh(&pmccobjpriv->mcc_lock, &irqL);
++
++			cur_cnt = pmccobjpriv->cur_mcc_success_cnt;
++			prev_cnt = pmccobjpriv->prev_mcc_success_cnt;
++			if (cur_cnt < prev_cnt)
++				diff_cnt = (cur_cnt + 255) - prev_cnt;
++			else
++				diff_cnt = cur_cnt - prev_cnt;
++
++			if (diff_cnt < 30) {
++				pmccobjpriv->mcc_tolerance_time--;
++				RTW_INFO("%s: diff_cnt:%d, tolerance_time:%d\n",
++					__func__, diff_cnt, pmccobjpriv->mcc_tolerance_time);
++			} else
++				pmccobjpriv->mcc_tolerance_time = MCC_TOLERANCE_TIME;
++
++			pmccobjpriv->prev_mcc_success_cnt = pmccobjpriv->cur_mcc_success_cnt;
++
++			if (pmccobjpriv->mcc_tolerance_time != 0)
++				check_ret = _SUCCESS;
++
++			_exit_critical_bh(&pmccobjpriv->mcc_lock, &irqL);
++
++			if (check_ret != _SUCCESS) {
++				RTW_INFO("============ MCC swich channel check fail (%d)=============\n", diff_cnt);
++				/* restart MCC */
++#ifdef MCC_RESTART
++				rtw_hal_set_mcc_setting(padapter, MCC_SETCMD_STATUS_STOP_DISCONNECT);
++				rtw_hal_set_mcc_setting(padapter, MCC_SETCMD_STATUS_START_CONNECT);
++#endif /* MCC_RESTART */
++			}
++		} else {
++			_enter_critical_bh(&pmccobjpriv->mcc_lock, &irqL);
++			pmccobjpriv->prev_mcc_success_cnt = pmccobjpriv->cur_mcc_success_cnt;
++			_exit_critical_bh(&pmccobjpriv->mcc_lock, &irqL);
++		}
++
++	}
++	_exit_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++}
++
++/**
++ * rtw_hal_mcc_change_scan_flag - change scan flag under mcc
++ *
++ * MCC mode under sitesurvey goto AP channel to tx bcn & data
++ * MCC mode under sitesurvey doesn't support TX data for station mode (FW not support)
++ *
++ * @padapter: the adapter to be change scan flag
++ * @ch: pointer to rerurn ch
++ * @bw: pointer to rerurn bw
++ * @offset: pointer to rerurn offset
++ */
++u8 rtw_hal_mcc_change_scan_flag(PADAPTER padapter, u8 *ch, u8 *bw, u8 *offset)
++{
++	u8 need_ch_setting_union = _TRUE, i = 0, flags = 0, role = 0;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct mcc_adapter_priv *pmccadapriv = NULL;
++	struct mlme_ext_priv *pmlmeext = NULL;
++
++	if (!MCC_EN(padapter))
++		goto exit;
++
++	if (!rtw_hal_check_mcc_status(padapter, MCC_STATUS_NEED_MCC))
++		goto exit;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		if (!dvobj->padapters[i])
++			continue;
++
++		pmlmeext = &dvobj->padapters[i]->mlmeextpriv;
++		pmccadapriv = &dvobj->padapters[i]->mcc_adapterpriv;
++		role = pmccadapriv->role;
++
++		switch (role) {
++		case MCC_ROLE_AP:
++		case MCC_ROLE_GO:
++			*ch = pmlmeext->cur_channel;
++			*bw = pmlmeext->cur_bwmode;
++			*offset = pmlmeext->cur_ch_offset;
++			need_ch_setting_union = _FALSE;
++			break;
++		case MCC_ROLE_STA:
++		case MCC_ROLE_GC:
++			break;
++		default:
++			RTW_INFO("unknown role\n");
++			rtw_warn_on(1);
++			break;
++		}
++
++		/* check other scan flag */
++		flags = mlmeext_scan_backop_flags(pmlmeext);
++		if (mlmeext_chk_scan_backop_flags(pmlmeext, SS_BACKOP_PS_ANNC))
++			flags &= ~SS_BACKOP_PS_ANNC;
++
++		if (mlmeext_chk_scan_backop_flags(pmlmeext, SS_BACKOP_TX_RESUME))
++			flags &= ~SS_BACKOP_TX_RESUME;
++
++		mlmeext_assign_scan_backop_flags(pmlmeext, flags);
++
++	}
++exit:
++	return need_ch_setting_union;
++}
++
++/**
++ * rtw_hal_mcc_calc_tx_bytes_from_kernel - calculte tx bytes from kernel to check concurrent tx or not
++ * @padapter: the adapter to be record tx bytes
++ * @len: data len
++ */
++inline void rtw_hal_mcc_calc_tx_bytes_from_kernel(PADAPTER padapter, u32 len)
++{
++	struct mcc_adapter_priv *pmccadapriv = &padapter->mcc_adapterpriv;
++
++	if (MCC_EN(padapter)) {
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)) {
++			pmccadapriv->mcc_tx_bytes_from_kernel += len;
++			if (0)
++				RTW_INFO("%s(order:%d): mcc tx bytes from kernel:%lld\n"
++					, __func__, pmccadapriv->order, pmccadapriv->mcc_tx_bytes_from_kernel);
++		}
++	}
++}
++
++/**
++ * rtw_hal_mcc_calc_tx_bytes_to_port - calculte tx bytes to write port in order to flow crtl
++ * @padapter: the adapter to be record tx bytes
++ * @len: data len
++ */
++inline void rtw_hal_mcc_calc_tx_bytes_to_port(PADAPTER padapter, u32 len)
++{
++	if (MCC_EN(padapter)) {
++		struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++		struct mcc_adapter_priv *pmccadapriv = &padapter->mcc_adapterpriv;
++
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC))
++			pmccadapriv->mcc_tx_bytes_to_port += len;
++		if (0)
++			RTW_INFO("%s(order:%d): mcc tx bytes to port:%d, mcc target tx bytes to port:%d\n"
++				, __func__, pmccadapriv->order, pmccadapriv->mcc_tx_bytes_to_port
++				 , pmccadapriv->mcc_target_tx_bytes_to_port);
++	}
++}
++
++/**
++ * rtw_hal_mcc_stop_tx_bytes_to_port - stop write port to hw or not
++ * @padapter: the adapter to be stopped
++ */
++inline u8 rtw_hal_mcc_stop_tx_bytes_to_port(PADAPTER padapter)
++{
++	if (MCC_EN(padapter)) {
++		struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++		struct mcc_adapter_priv *pmccadapriv = &padapter->mcc_adapterpriv;
++
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)) {
++			if (pmccadapriv->mcc_tp_limit) {
++				if (pmccadapriv->mcc_tx_bytes_to_port >= pmccadapriv->mcc_target_tx_bytes_to_port) {
++					pmccadapriv->mcc_tx_stop = _TRUE;
++					rtw_netif_stop_queue(padapter->pnetdev);
++					return _TRUE;
++				}
++			}
++		}
++	}
++
++	return _FALSE;
++}
++
++/**
++ * rtw_hal_set_mcc_setting_scan_start - setting mcc under scan start
++ * @padapter: the adapter to be setted
++ * @ch_setting_changed: softap channel setting to be changed or not
++ */
++u8 rtw_hal_set_mcc_setting_scan_start(PADAPTER padapter)
++{
++	u8 ret = _FAIL;
++
++	if (MCC_EN(padapter)) {
++		struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++
++		_enter_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_NEED_MCC)) {
++			if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)) {
++				ret = rtw_hal_set_mcc_setting(padapter,  MCC_SETCMD_STATUS_STOP_SCAN_START);
++				/* issue null data to all station connected to AP before scan */
++				rtw_hal_mcc_issue_null_data(padapter, 0, 1);
++			}
++		}
++		_exit_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++	}
++
++	return ret;
++}
++
++/**
++ * rtw_hal_set_mcc_setting_scan_complete - setting mcc after scan commplete
++ * @padapter: the adapter to be setted
++ * @ch_setting_changed: softap channel setting to be changed or not
++ */
++u8 rtw_hal_set_mcc_setting_scan_complete(PADAPTER padapter)
++{
++	u8 ret = _FAIL;
++
++	if (MCC_EN(padapter)) {
++		struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++
++		_enter_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_NEED_MCC))
++			ret = rtw_hal_set_mcc_setting(padapter,  MCC_SETCMD_STATUS_START_SCAN_DONE);
++
++		_exit_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++	}
++
++	return ret;
++}
++
++
++/**
++ * rtw_hal_set_mcc_setting_start_bss_network - setting mcc under softap start
++ * @padapter: the adapter to be setted
++ * @chbw_grouped: channel bw offset can not be allowed or not
++ */
++u8 rtw_hal_set_mcc_setting_start_bss_network(PADAPTER padapter, u8 chbw_allow)
++{
++	u8 ret = _FAIL;
++
++	if (MCC_EN(padapter)) {
++		/* channel bw offset can not be allowed, start MCC */
++		if (chbw_allow == _FALSE) {
++			struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++
++			rtw_hal_mcc_backup_IQK_val(padapter);
++			_enter_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++			ret = rtw_hal_set_mcc_setting(padapter, MCC_SETCMD_STATUS_START_CONNECT);
++			_exit_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++		}
++	}
++
++	return ret;
++}
++
++/**
++ * rtw_hal_set_mcc_setting_disconnect - setting mcc under mlme disconnect(stop softap/disconnect from AP)
++ * @padapter: the adapter to be setted
++ */
++u8 rtw_hal_set_mcc_setting_disconnect(PADAPTER padapter)
++{
++	u8 ret = _FAIL;
++
++	if (MCC_EN(padapter)) {
++		struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++
++		_enter_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_NEED_MCC)) {
++			if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC))
++				ret = rtw_hal_set_mcc_setting(padapter,  MCC_SETCMD_STATUS_STOP_DISCONNECT);
++		}
++		_exit_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++	}
++
++	return ret;
++}
++
++/**
++ * rtw_hal_set_mcc_setting_join_done_chk_ch - setting mcc under join done
++ * @padapter: the adapter to be checked
++ */
++u8 rtw_hal_set_mcc_setting_join_done_chk_ch(PADAPTER padapter)
++{
++	u8 ret = _FAIL;
++
++	if (MCC_EN(padapter)) {
++		u8 sta_num = 0, ld_sta_num = 0, lg_sta_num = 0, ap_num = 0, ld_ap_num = 0;
++
++		rtw_mi_status_no_self(padapter, &sta_num, &ld_sta_num, &lg_sta_num, &ap_num, &ld_ap_num, NULL);
++
++		if (ld_sta_num || lg_sta_num || ap_num) {
++			bool chbw_allow = _TRUE;
++			u8 u_ch, u_offset, u_bw;
++			struct mlme_ext_priv *cur_mlmeext = &padapter->mlmeextpriv;
++			struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++			if (rtw_mi_get_ch_setting_union_no_self(padapter, &u_ch, &u_bw, &u_offset) <= 0) {
++				dump_adapters_status(RTW_DBGDUMP , dvobj);
++				rtw_warn_on(1);
++			}
++			RTW_INFO(FUNC_ADPT_FMT" union no self: %u,%u,%u\n"
++				, FUNC_ADPT_ARG(padapter), u_ch, u_bw, u_offset);
++
++			/* chbw_allow? */
++			chbw_allow = rtw_is_chbw_grouped(cur_mlmeext->cur_channel
++				, cur_mlmeext->cur_bwmode, cur_mlmeext->cur_ch_offset
++						 , u_ch, u_bw, u_offset);
++
++			RTW_INFO(FUNC_ADPT_FMT" chbw_allow:%d\n"
++				 , FUNC_ADPT_ARG(padapter), chbw_allow);
++
++			/* if chbw_allow = false, start MCC setting */
++			if (chbw_allow == _FALSE) {
++				struct mcc_obj_priv *pmccobjpriv = &dvobj->mcc_objpriv;
++
++				rtw_hal_mcc_backup_IQK_val(padapter);
++				_enter_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++				ret = rtw_hal_set_mcc_setting(padapter, MCC_SETCMD_STATUS_START_CONNECT);
++				_exit_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++			}
++		}
++	}
++
++	return ret;
++}
++
++/**
++ * rtw_hal_set_mcc_setting_chk_start_clnt_join - check change channel under start clnt join
++ * @padapter: the adapter to be checked
++ * @ch: pointer to rerurn ch
++ * @bw: pointer to rerurn bw
++ * @offset: pointer to rerurn offset
++ * @chbw_allow: allow to use adapter's channel setting
++ */
++u8 rtw_hal_set_mcc_setting_chk_start_clnt_join(PADAPTER padapter, u8 *ch, u8 *bw, u8 *offset, u8 chbw_allow)
++{
++	u8 ret = _FAIL;
++
++	/* if chbw_allow = false under en_mcc = TRUE, we do not change channel related setting */
++	if (MCC_EN(padapter)) {
++		/* restore union channel related setting to current channel related setting */
++		if (chbw_allow == _FALSE) {
++			struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++			*ch = pmlmeext->cur_channel;
++			*bw = pmlmeext->cur_bwmode;
++			*offset = pmlmeext->cur_ch_offset;
++
++			RTW_INFO(FUNC_ADPT_FMT" en_mcc:%d(%d,%d,%d,)\n"
++				, FUNC_ADPT_ARG(padapter), padapter->registrypriv.en_mcc
++				 , *ch, *bw, *offset);
++			ret = _SUCCESS;
++		}
++	}
++
++	return ret;
++}
++
++void rtw_hal_dump_mcc_info(void *sel, struct dvobj_priv *dvobj)
++{
++	struct mcc_obj_priv *pmccobjpriv = &(dvobj->mcc_objpriv);
++	struct mcc_adapter_priv *pmccadapriv = NULL;
++	_adapter *iface = NULL, *adapter = NULL;
++	struct registry_priv *regpriv = NULL;
++	u8 i = 0;
++
++	/* regpriv is common for all adapter */
++	adapter = dvobj->padapters[IFACE_ID0];
++
++	RTW_PRINT_SEL(sel, "**********************************************\n");
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (!iface)
++			continue;
++
++		regpriv = &iface->registrypriv;
++		pmccadapriv = &iface->mcc_adapterpriv;
++		if (pmccadapriv) {
++			RTW_PRINT_SEL(sel, "adapter mcc info:\n");
++			RTW_PRINT_SEL(sel, "ifname:%s\n", ADPT_ARG(iface));
++			RTW_PRINT_SEL(sel, "order:%d\n", pmccadapriv->order);
++			RTW_PRINT_SEL(sel, "duration:%d\n", pmccadapriv->mcc_duration);
++			RTW_PRINT_SEL(sel, "target tx bytes:%d\n", pmccadapriv->mcc_target_tx_bytes_to_port);
++			RTW_PRINT_SEL(sel, "current TP:%d\n", pmccadapriv->mcc_tp);
++			RTW_PRINT_SEL(sel, "mgmt queue macid:%d\n", pmccadapriv->mgmt_queue_macid);
++			RTW_PRINT_SEL(sel, "macid bitmap:0x%02x\n\n", pmccadapriv->mcc_macid_bitmap);
++			RTW_PRINT_SEL(sel, "registry data:\n");
++			RTW_PRINT_SEL(sel, "en_mcc:%d\n", regpriv->en_mcc);
++			RTW_PRINT_SEL(sel, "ap target tx TP(BW:20M):%d Mbps\n", regpriv->rtw_mcc_ap_bw20_target_tx_tp);
++			RTW_PRINT_SEL(sel, "ap target tx TP(BW:40M):%d Mbps\n", regpriv->rtw_mcc_ap_bw40_target_tx_tp);
++			RTW_PRINT_SEL(sel, "ap target tx TP(BW:80M):%d Mbps\n", regpriv->rtw_mcc_ap_bw80_target_tx_tp);
++			RTW_PRINT_SEL(sel, "sta target tx TP(BW:20M):%d Mbps\n", regpriv->rtw_mcc_sta_bw20_target_tx_tp);
++			RTW_PRINT_SEL(sel, "sta target tx TP(BW:40M ):%d Mbps\n", regpriv->rtw_mcc_sta_bw40_target_tx_tp);
++			RTW_PRINT_SEL(sel, "sta target tx TP(BW:80M):%d Mbps\n", regpriv->rtw_mcc_sta_bw80_target_tx_tp);
++			RTW_PRINT_SEL(sel, "single tx criteria:%d Mbps\n", regpriv->rtw_mcc_single_tx_cri);
++			RTW_PRINT_SEL(sel, "**********************************************\n");
++		}
++	}
++	RTW_PRINT_SEL(sel, "------------------------------------------\n");
++	RTW_PRINT_SEL(sel, "define data:\n");
++	RTW_PRINT_SEL(sel, "ap target tx TP(BW:20M):%d Mbps\n", MCC_AP_BW20_TARGET_TX_TP);
++	RTW_PRINT_SEL(sel, "ap target tx TP(BW:40M):%d Mbps\n", MCC_AP_BW40_TARGET_TX_TP);
++	RTW_PRINT_SEL(sel, "ap target tx TP(BW:80M):%d Mbps\n", MCC_AP_BW80_TARGET_TX_TP);
++	RTW_PRINT_SEL(sel, "sta target tx TP(BW:20M):%d Mbps\n", MCC_STA_BW20_TARGET_TX_TP);
++	RTW_PRINT_SEL(sel, "sta target tx TP(BW:40M):%d Mbps\n", MCC_STA_BW40_TARGET_TX_TP);
++	RTW_PRINT_SEL(sel, "sta target tx TP(BW:80M):%d Mbps\n", MCC_STA_BW80_TARGET_TX_TP);
++	RTW_PRINT_SEL(sel, "single tx criteria:%d Mbps\n", MCC_SINGLE_TX_CRITERIA);
++	RTW_PRINT_SEL(sel, "------------------------------------------\n");
++}
++
++inline void update_mcc_mgntframe_attrib(_adapter *padapter, struct pkt_attrib *pattrib)
++{
++	if (MCC_EN(padapter)) {
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)) {
++			/* use QSLT_MGNT to check mgnt queue or bcn queue */
++			if (pattrib->qsel == QSLT_MGNT) {
++				pattrib->mac_id = padapter->mcc_adapterpriv.mgmt_queue_macid;
++				pattrib->qsel = QSLT_VO;
++			}
++		}
++	}
++}
++
++inline u8 rtw_hal_mcc_link_status_chk(_adapter *padapter, const char *msg)
++{
++	u8 ret = _TRUE, i = 0;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	_adapter *iface;
++	struct mlme_ext_priv *mlmeext;
++
++	if (MCC_EN(padapter)) {
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_NEED_MCC)) {
++			for (i = 0; i < dvobj->iface_nums; i++) {
++				iface = dvobj->padapters[i];
++				mlmeext = &iface->mlmeextpriv;
++				if (mlmeext_scan_state(mlmeext) != SCAN_DISABLE) {
++#ifdef DBG_EXPIRATION_CHK
++					RTW_INFO(FUNC_ADPT_FMT" don't enter %s under scan for MCC mode\n", FUNC_ADPT_ARG(padapter), msg);
++#endif
++					ret = _FALSE;
++					goto exit;
++				}
++			}
++		}
++	}
++
++exit:
++	return ret;
++}
++
++void rtw_hal_mcc_issue_null_data(_adapter *padapter, u8 chbw_allow, u8 ps_mode)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	_adapter *iface = NULL;
++	u32 start = rtw_get_current_time();
++	u8 i = 0;
++
++	if (MCC_EN(padapter)) {
++		if (chbw_allow == _FALSE) {
++			for (i = 0; i < dvobj->iface_nums; i++) {
++				iface = dvobj->padapters[i];
++				/* issue null data to inform ap station will leave */
++				if (is_client_associated_to_ap(iface)) {
++					struct mlme_ext_priv *mlmeext = &iface->mlmeextpriv;
++					u8 ch = mlmeext->cur_channel;
++					u8 bw = mlmeext->cur_bwmode;
++					u8 offset = mlmeext->cur_ch_offset;
++
++					set_channel_bwmode(iface, ch, bw, offset);
++					issue_nulldata(iface, NULL, ps_mode, 3, 50);
++				}
++			}
++			RTW_INFO("%s(%d ms)\n", __func__, rtw_get_passing_time_ms(start));
++		}
++	}
++}
++
++#endif /* CONFIG_MCC_MODE */
+diff --git a/drivers/net/wireless/rtl8723du/hal/hal_mp.c b/drivers/net/wireless/rtl8723du/hal/hal_mp.c
+new file mode 100644
+index 0000000..9c730c8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/hal_mp.c
+@@ -0,0 +1,2255 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HAL_MP_C_
++
++#include <drv_types.h>
++
++#ifdef CONFIG_MP_INCLUDED
++
++#ifdef RTW_HALMAC
++	#include <hal_data.h>		/* struct HAL_DATA_TYPE, RF register definition and etc. */
++#else /* !RTW_HALMAC */
++	#ifdef CONFIG_RTL8188E
++		#include <rtl8188e_hal.h>
++	#endif
++	#ifdef CONFIG_RTL8723B
++		#include <rtl8723b_hal.h>
++	#endif
++	#ifdef CONFIG_RTL8192E
++		#include <rtl8192e_hal.h>
++	#endif
++	#ifdef CONFIG_RTL8814A
++		#include <rtl8814a_hal.h>
++	#endif
++	#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++		#include <rtl8812a_hal.h>
++	#endif
++	#ifdef CONFIG_RTL8703B
++		#include <rtl8703b_hal.h>
++	#endif
++	#ifdef CONFIG_RTL8723D
++		#include <rtl8723d_hal.h>
++	#endif
++	#ifdef CONFIG_RTL8188F
++		#include <rtl8188f_hal.h>
++	#endif
++#endif /* !RTW_HALMAC */
++
++
++u8 MgntQuery_NssTxRate(u16 Rate)
++{
++	u8	NssNum = RF_TX_NUM_NONIMPLEMENT;
++
++	if ((Rate >= MGN_MCS8 && Rate <= MGN_MCS15) ||
++	    (Rate >= MGN_VHT2SS_MCS0 && Rate <= MGN_VHT2SS_MCS9))
++		NssNum = RF_2TX;
++	else if ((Rate >= MGN_MCS16 && Rate <= MGN_MCS23) ||
++		 (Rate >= MGN_VHT3SS_MCS0 && Rate <= MGN_VHT3SS_MCS9))
++		NssNum = RF_3TX;
++	else if ((Rate >= MGN_MCS24 && Rate <= MGN_MCS31) ||
++		 (Rate >= MGN_VHT4SS_MCS0 && Rate <= MGN_VHT4SS_MCS9))
++		NssNum = RF_4TX;
++	else
++		NssNum = RF_1TX;
++
++	return NssNum;
++}
++
++void hal_mpt_SwitchRfSetting(PADAPTER	pAdapter)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT		pMptCtx = &(pAdapter->mppriv.MptCtx);
++	u8				ChannelToSw = pMptCtx->MptChannelToSw;
++	ULONG				ulRateIdx = pMptCtx->MptRateIndex;
++	ULONG				ulbandwidth = pMptCtx->MptBandWidth;
++
++	/* <20120525, Kordan> Dynamic mechanism for APK, asked by Dennis.*/
++	if (IS_HARDWARE_TYPE_8188ES(pAdapter) && (1 <= ChannelToSw && ChannelToSw <= 11) &&
++	    (ulRateIdx == MPT_RATE_MCS0 || ulRateIdx == MPT_RATE_1M || ulRateIdx == MPT_RATE_6M)) {
++		pMptCtx->backup0x52_RF_A = (u1Byte)PHY_QueryRFReg(pAdapter, ODM_RF_PATH_A, RF_0x52, 0x000F0);
++		pMptCtx->backup0x52_RF_B = (u1Byte)PHY_QueryRFReg(pAdapter, ODM_RF_PATH_B, RF_0x52, 0x000F0);
++
++		if ((PlatformEFIORead4Byte(pAdapter, 0xF4) & BIT29) == BIT29) {
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_0x52, 0x000F0, 0xB);
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_0x52, 0x000F0, 0xB);
++		} else {
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_0x52, 0x000F0, 0xD);
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_0x52, 0x000F0, 0xD);
++		}
++	} else if (IS_HARDWARE_TYPE_8188EE(pAdapter)) { /* <20140903, VincentL> Asked by RF Eason and Edlu*/
++		if (ChannelToSw == 3 && ulbandwidth == MPT_BW_40MHZ) {
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_0x52, 0x000F0, 0xB); /*RF 0x52 = 0x0007E4BD*/
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_0x52, 0x000F0, 0xB); /*RF 0x52 = 0x0007E4BD*/
++		} else {
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_0x52, 0x000F0, 0x9); /*RF 0x52 = 0x0007E49D*/
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_0x52, 0x000F0, 0x9); /*RF 0x52 = 0x0007E49D*/
++		}
++	} else if (IS_HARDWARE_TYPE_8188E(pAdapter)) {
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_0x52, 0x000F0, pMptCtx->backup0x52_RF_A);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_0x52, 0x000F0, pMptCtx->backup0x52_RF_B);
++	}
++}
++
++s32 hal_mpt_SetPowerTracking(PADAPTER padapter, u8 enable)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++
++
++	if (!netif_running(padapter->pnetdev)) {
++		return _FAIL;
++	}
++
++	if (check_fwstate(&padapter->mlmepriv, WIFI_MP_STATE) == _FALSE) {
++		return _FAIL;
++	}
++	if (enable)
++		pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = _TRUE;
++	else
++		pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = _FALSE;
++
++	return _SUCCESS;
++}
++
++void hal_mpt_GetPowerTracking(PADAPTER padapter, u8 *enable)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++
++
++	*enable = pDM_Odm->RFCalibrateInfo.TxPowerTrackControl;
++}
++
++
++void hal_mpt_CCKTxPowerAdjust(PADAPTER Adapter, BOOLEAN bInCH14)
++{
++	u32		TempVal = 0, TempVal2 = 0, TempVal3 = 0;
++	u32		CurrCCKSwingVal = 0, CCKSwingIndex = 12;
++	u8		i;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PMPT_CONTEXT		pMptCtx = &(Adapter->mppriv.MptCtx);
++	u1Byte				u1Channel = pHalData->CurrentChannel;
++	ULONG				ulRateIdx = pMptCtx->MptRateIndex;
++	u1Byte				DataRate = 0xFF;
++
++	/* Suggested by BB David. 2015.04.27*/
++	if(IS_HARDWARE_TYPE_8188F(Adapter))
++		return;
++
++	/* Do not modify CCK TX filter parameters for 8822B*/
++	if(IS_HARDWARE_TYPE_8822B(Adapter) || IS_HARDWARE_TYPE_8821C(Adapter) || IS_HARDWARE_TYPE_8723D(Adapter))
++		return;
++
++	DataRate = MptToMgntRate(ulRateIdx);
++
++	if (u1Channel == 14 && IS_CCK_RATE(DataRate))
++		pHalData->bCCKinCH14 = TRUE;
++	else
++		pHalData->bCCKinCH14 = FALSE;
++
++	if (IS_HARDWARE_TYPE_8703B(Adapter)) {
++		if ((u1Channel == 14) && IS_CCK_RATE(DataRate)) {
++			/* Channel 14 in CCK, need to set 0xA26~0xA29 to 0 for 8703B */
++			PHY_SetBBReg(Adapter, rCCK0_TxFilter2, bMaskHWord, 0);
++			PHY_SetBBReg(Adapter, rCCK0_DebugPort, bMaskLWord, 0);
++
++		} else {
++			/* Normal setting for 8703B, just recover to the default setting. */
++			/* This hardcore values reference from the parameter which BB team gave. */
++			for (i = 0 ; i < 2 ; ++i)
++				PHY_SetBBReg(Adapter, pHalData->RegForRecover[i].offset, bMaskDWord, pHalData->RegForRecover[i].value);
++
++		}
++	} else if (IS_HARDWARE_TYPE_8723D(Adapter)) {
++		/* 2.4G CCK TX DFIR */
++		/* 2016.01.20 Suggest from RS BB mingzhi*/
++		if ((u1Channel == 14)) {
++			PHY_SetBBReg(Adapter, rCCK0_TxFilter2, bMaskDWord, 0x0000B81C);
++			PHY_SetBBReg(Adapter, rCCK0_DebugPort, bMaskDWord, 0x00000000);
++			PHY_SetBBReg(Adapter, 0xAAC, bMaskDWord, 0x00003667);
++		} else {
++			for (i = 0 ; i < 3 ; ++i) {
++				PHY_SetBBReg(Adapter,
++					     pHalData->RegForRecover[i].offset,
++					     bMaskDWord,
++					     pHalData->RegForRecover[i].value);
++			}
++		}
++	} else {
++
++		/* get current cck swing value and check 0xa22 & 0xa23 later to match the table.*/
++		CurrCCKSwingVal = read_bbreg(Adapter, rCCK0_TxFilter1, bMaskHWord);
++
++		if (!pHalData->bCCKinCH14) {
++			/* Readback the current bb cck swing value and compare with the table to */
++			/* get the current swing index */
++			for (i = 0; i < CCK_TABLE_SIZE; i++) {
++				if (((CurrCCKSwingVal & 0xff) == (u32)CCKSwingTable_Ch1_Ch13[i][0]) &&
++				    (((CurrCCKSwingVal & 0xff00) >> 8) == (u32)CCKSwingTable_Ch1_Ch13[i][1])) {
++					CCKSwingIndex = i;
++					break;
++				}
++			}
++
++			/*Write 0xa22 0xa23*/
++			TempVal = CCKSwingTable_Ch1_Ch13[CCKSwingIndex][0] +
++				(CCKSwingTable_Ch1_Ch13[CCKSwingIndex][1] << 8);
++
++
++			/*Write 0xa24 ~ 0xa27*/
++			TempVal2 = 0;
++			TempVal2 = CCKSwingTable_Ch1_Ch13[CCKSwingIndex][2] +
++				(CCKSwingTable_Ch1_Ch13[CCKSwingIndex][3] << 8) +
++				(CCKSwingTable_Ch1_Ch13[CCKSwingIndex][4] << 16) +
++				(CCKSwingTable_Ch1_Ch13[CCKSwingIndex][5] << 24);
++
++			/*Write 0xa28  0xa29*/
++			TempVal3 = 0;
++			TempVal3 = CCKSwingTable_Ch1_Ch13[CCKSwingIndex][6] +
++				(CCKSwingTable_Ch1_Ch13[CCKSwingIndex][7] << 8);
++		}  else {
++			for (i = 0; i < CCK_TABLE_SIZE; i++) {
++				if (((CurrCCKSwingVal & 0xff) == (u32)CCKSwingTable_Ch14[i][0]) &&
++				    (((CurrCCKSwingVal & 0xff00) >> 8) == (u32)CCKSwingTable_Ch14[i][1])) {
++					CCKSwingIndex = i;
++					break;
++				}
++			}
++
++			/*Write 0xa22 0xa23*/
++			TempVal = CCKSwingTable_Ch14[CCKSwingIndex][0] +
++				  (CCKSwingTable_Ch14[CCKSwingIndex][1] << 8);
++
++			/*Write 0xa24 ~ 0xa27*/
++			TempVal2 = 0;
++			TempVal2 = CCKSwingTable_Ch14[CCKSwingIndex][2] +
++				   (CCKSwingTable_Ch14[CCKSwingIndex][3] << 8) +
++				(CCKSwingTable_Ch14[CCKSwingIndex][4] << 16) +
++				   (CCKSwingTable_Ch14[CCKSwingIndex][5] << 24);
++
++			/*Write 0xa28  0xa29*/
++			TempVal3 = 0;
++			TempVal3 = CCKSwingTable_Ch14[CCKSwingIndex][6] +
++				   (CCKSwingTable_Ch14[CCKSwingIndex][7] << 8);
++		}
++
++		write_bbreg(Adapter, rCCK0_TxFilter1, bMaskHWord, TempVal);
++		write_bbreg(Adapter, rCCK0_TxFilter2, bMaskDWord, TempVal2);
++		write_bbreg(Adapter, rCCK0_DebugPort, bMaskLWord, TempVal3);
++	}
++
++}
++
++void hal_mpt_SetChannel(PADAPTER pAdapter)
++{
++	u8 eRFPath;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++	struct mp_priv	*pmp = &pAdapter->mppriv;
++	u8		channel = pmp->channel;
++	u8		bandwidth = pmp->bandwidth;
++
++	hal_mpt_SwitchRfSetting(pAdapter);
++
++	pHalData->bSwChnl = _TRUE;
++	pHalData->bSetChnlBW = _TRUE;
++	rtw_hal_set_chnl_bw(pAdapter, channel, bandwidth, 0, 0);
++
++	hal_mpt_CCKTxPowerAdjust(pAdapter, pHalData->bCCKinCH14);
++
++}
++
++/*
++ * Notice
++ *	Switch bandwitdth may change center frequency(channel)
++ */
++void hal_mpt_SetBandwidth(PADAPTER pAdapter)
++{
++	struct mp_priv *pmp = &pAdapter->mppriv;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	u8		channel = pmp->channel;
++	u8		bandwidth = pmp->bandwidth;
++
++	pHalData->bSwChnl = _TRUE;
++	pHalData->bSetChnlBW = _TRUE;
++	rtw_hal_set_chnl_bw(pAdapter, channel, bandwidth, 0, 0);
++
++	hal_mpt_SwitchRfSetting(pAdapter);
++}
++
++void mpt_SetTxPower_Old(PADAPTER pAdapter, MPT_TXPWR_DEF Rate, u8 *pTxPower)
++{
++	switch (Rate) {
++	case MPT_CCK: {
++		u4Byte	TxAGC = 0, pwr = 0;
++		u1Byte	rf;
++
++		pwr = pTxPower[ODM_RF_PATH_A];
++		if (pwr < 0x3f) {
++			TxAGC = (pwr << 16) | (pwr << 8) | (pwr);
++			PHY_SetBBReg(pAdapter, rTxAGC_A_CCK1_Mcs32, bMaskByte1, pTxPower[ODM_RF_PATH_A]);
++			PHY_SetBBReg(pAdapter, rTxAGC_B_CCK11_A_CCK2_11, 0xffffff00, TxAGC);
++		}
++		pwr = pTxPower[ODM_RF_PATH_B];
++		if (pwr < 0x3f) {
++			TxAGC = (pwr << 16) | (pwr << 8) | (pwr);
++			PHY_SetBBReg(pAdapter, rTxAGC_B_CCK11_A_CCK2_11, bMaskByte0, pTxPower[ODM_RF_PATH_B]);
++			PHY_SetBBReg(pAdapter, rTxAGC_B_CCK1_55_Mcs32, 0xffffff00, TxAGC);
++		}
++	}
++	break;
++
++	case MPT_OFDM_AND_HT: {
++		u4Byte	TxAGC = 0;
++		u1Byte	pwr = 0, rf;
++
++		pwr = pTxPower[0];
++		if (pwr < 0x3f) {
++			TxAGC |= ((pwr << 24) | (pwr << 16) | (pwr << 8) | pwr);
++			RTW_INFO("HT Tx-rf(A) Power = 0x%x\n", TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_A_Rate18_06, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_A_Rate54_24, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_A_Mcs03_Mcs00, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_A_Mcs07_Mcs04, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_A_Mcs11_Mcs08, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_A_Mcs15_Mcs12, bMaskDWord, TxAGC);
++		}
++		TxAGC = 0;
++		pwr = pTxPower[1];
++		if (pwr < 0x3f) {
++			TxAGC |= ((pwr << 24) | (pwr << 16) | (pwr << 8) | pwr);
++			RTW_INFO("HT Tx-rf(B) Power = 0x%x\n", TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_B_Rate18_06, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_B_Rate54_24, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_B_Mcs03_Mcs00, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_B_Mcs07_Mcs04, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_B_Mcs11_Mcs08, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_B_Mcs15_Mcs12, bMaskDWord, TxAGC);
++		}
++	}
++	break;
++
++	default:
++		break;
++	}
++	RTW_INFO("<===mpt_SetTxPower_Old()\n");
++}
++
++void
++mpt_SetTxPower(
++	PADAPTER		pAdapter,
++	MPT_TXPWR_DEF	Rate,
++	pu1Byte	pTxPower
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	u1Byte path = 0 , i = 0, MaxRate = MGN_6M;
++	u1Byte StartPath = ODM_RF_PATH_A, EndPath = ODM_RF_PATH_B;
++
++	if (IS_HARDWARE_TYPE_8814A(pAdapter))
++		EndPath = ODM_RF_PATH_D;
++	else if (IS_HARDWARE_TYPE_8188F(pAdapter) || IS_HARDWARE_TYPE_8723D(pAdapter) || IS_HARDWARE_TYPE_8821C(pAdapter))
++		EndPath = ODM_RF_PATH_A;
++
++	switch (Rate) {
++	case MPT_CCK: {
++		u1Byte rate[] = {MGN_1M, MGN_2M, MGN_5_5M, MGN_11M};
++
++		for (path = StartPath; path <= EndPath; path++)
++			for (i = 0; i < sizeof(rate); ++i)
++				PHY_SetTxPowerIndex(pAdapter, pTxPower[path], path, rate[i]);
++	}
++	break;
++	case MPT_OFDM: {
++		u1Byte rate[] = {
++			MGN_6M, MGN_9M, MGN_12M, MGN_18M,
++			MGN_24M, MGN_36M, MGN_48M, MGN_54M,
++		};
++
++		for (path = StartPath; path <= EndPath; path++)
++			for (i = 0; i < sizeof(rate); ++i)
++				PHY_SetTxPowerIndex(pAdapter, pTxPower[path], path, rate[i]);
++	}
++	break;
++	case MPT_HT: {
++		u1Byte rate[] = {
++			MGN_MCS0, MGN_MCS1, MGN_MCS2, MGN_MCS3, MGN_MCS4,
++			MGN_MCS5, MGN_MCS6, MGN_MCS7, MGN_MCS8, MGN_MCS9,
++			MGN_MCS10, MGN_MCS11, MGN_MCS12, MGN_MCS13, MGN_MCS14,
++			MGN_MCS15, MGN_MCS16, MGN_MCS17, MGN_MCS18, MGN_MCS19,
++			MGN_MCS20, MGN_MCS21, MGN_MCS22, MGN_MCS23, MGN_MCS24,
++			MGN_MCS25, MGN_MCS26, MGN_MCS27, MGN_MCS28, MGN_MCS29,
++			MGN_MCS30, MGN_MCS31,
++		};
++		if (pHalData->rf_type == RF_3T3R)
++			MaxRate = MGN_MCS23;
++		else if (pHalData->rf_type == RF_2T2R)
++			MaxRate = MGN_MCS15;
++		else
++			MaxRate = MGN_MCS7;
++		for (path = StartPath; path <= EndPath; path++) {
++			for (i = 0; i < sizeof(rate); ++i) {
++				if (rate[i] > MaxRate)
++					break;
++				PHY_SetTxPowerIndex(pAdapter, pTxPower[path], path, rate[i]);
++			}
++		}
++	}
++	break;
++	case MPT_VHT: {
++		u1Byte rate[] = {
++			MGN_VHT1SS_MCS0, MGN_VHT1SS_MCS1, MGN_VHT1SS_MCS2, MGN_VHT1SS_MCS3, MGN_VHT1SS_MCS4,
++			MGN_VHT1SS_MCS5, MGN_VHT1SS_MCS6, MGN_VHT1SS_MCS7, MGN_VHT1SS_MCS8, MGN_VHT1SS_MCS9,
++			MGN_VHT2SS_MCS0, MGN_VHT2SS_MCS1, MGN_VHT2SS_MCS2, MGN_VHT2SS_MCS3, MGN_VHT2SS_MCS4,
++			MGN_VHT2SS_MCS5, MGN_VHT2SS_MCS6, MGN_VHT2SS_MCS7, MGN_VHT2SS_MCS8, MGN_VHT2SS_MCS9,
++			MGN_VHT3SS_MCS0, MGN_VHT3SS_MCS1, MGN_VHT3SS_MCS2, MGN_VHT3SS_MCS3, MGN_VHT3SS_MCS4,
++			MGN_VHT3SS_MCS5, MGN_VHT3SS_MCS6, MGN_VHT3SS_MCS7, MGN_VHT3SS_MCS8, MGN_VHT3SS_MCS9,
++			MGN_VHT4SS_MCS0, MGN_VHT4SS_MCS1, MGN_VHT4SS_MCS2, MGN_VHT4SS_MCS3, MGN_VHT4SS_MCS4,
++			MGN_VHT4SS_MCS5, MGN_VHT4SS_MCS6, MGN_VHT4SS_MCS7, MGN_VHT4SS_MCS8, MGN_VHT4SS_MCS9,
++		};
++		if (pHalData->rf_type == RF_3T3R)
++			MaxRate = MGN_VHT3SS_MCS9;
++		else if (pHalData->rf_type == RF_2T2R || pHalData->rf_type == RF_2T4R)
++			MaxRate = MGN_VHT2SS_MCS9;
++		else
++			MaxRate = MGN_VHT1SS_MCS9;
++
++		for (path = StartPath; path <= EndPath; path++) {
++			for (i = 0; i < sizeof(rate); ++i) {
++				if (rate[i] > MaxRate)
++					break;
++				PHY_SetTxPowerIndex(pAdapter, pTxPower[path], path, rate[i]);
++			}
++		}
++	}
++	break;
++	default:
++		RTW_INFO("<===mpt_SetTxPower: Illegal channel!!\n");
++		break;
++	}
++}
++
++void hal_mpt_SetTxPower(PADAPTER pAdapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT		pMptCtx = &(pAdapter->mppriv.MptCtx);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++
++	if (pHalData->rf_chip < RF_TYPE_MAX) {
++		if (IS_HARDWARE_TYPE_8188E(pAdapter) ||
++		    IS_HARDWARE_TYPE_8723B(pAdapter) ||
++		    IS_HARDWARE_TYPE_8192E(pAdapter) ||
++		    IS_HARDWARE_TYPE_8703B(pAdapter) ||
++		    IS_HARDWARE_TYPE_8188F(pAdapter)) {
++			u8 path = (pHalData->AntennaTxPath == ANTENNA_A) ? (ODM_RF_PATH_A) : (ODM_RF_PATH_B);
++
++			RTW_INFO("===> MPT_ProSetTxPower: Old\n");
++
++			mpt_SetTxPower_Old(pAdapter, MPT_CCK, pMptCtx->TxPwrLevel);
++			mpt_SetTxPower_Old(pAdapter, MPT_OFDM_AND_HT, pMptCtx->TxPwrLevel);
++
++		} else {
++			RTW_INFO("===> MPT_ProSetTxPower: Jaguar/Jaguar2\n");
++			mpt_SetTxPower(pAdapter, MPT_CCK, pMptCtx->TxPwrLevel);
++			mpt_SetTxPower(pAdapter, MPT_OFDM, pMptCtx->TxPwrLevel);
++			mpt_SetTxPower(pAdapter, MPT_HT, pMptCtx->TxPwrLevel);
++			mpt_SetTxPower(pAdapter, MPT_VHT, pMptCtx->TxPwrLevel);
++
++		}
++	} else
++		RTW_INFO("RFChipID < RF_TYPE_MAX, the RF chip is not supported - %d\n", pHalData->rf_chip);
++
++	ODM_ClearTxPowerTrackingState(pDM_Odm);
++}
++
++void hal_mpt_SetDataRate(PADAPTER pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT		pMptCtx = &(pAdapter->mppriv.MptCtx);
++	u32 DataRate;
++
++	DataRate = MptToMgntRate(pMptCtx->MptRateIndex);
++
++	hal_mpt_SwitchRfSetting(pAdapter);
++
++	hal_mpt_CCKTxPowerAdjust(pAdapter, pHalData->bCCKinCH14);
++#ifdef CONFIG_RTL8723B
++	if (IS_HARDWARE_TYPE_8723B(pAdapter) || IS_HARDWARE_TYPE_8188F(pAdapter)) {
++		if (IS_CCK_RATE(DataRate)) {
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_A)
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51, 0xF, 0x6);
++			else
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x71, 0xF, 0x6);
++		} else {
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_A)
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51, 0xF, 0xE);
++			else
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x71, 0xF, 0xE);
++		}
++	}
++
++	if ((IS_HARDWARE_TYPE_8723BS(pAdapter) &&
++	     ((pHalData->PackageType == PACKAGE_TFBGA79) || (pHalData->PackageType == PACKAGE_TFBGA90)))) {
++		if (pMptCtx->MptRfPath == ODM_RF_PATH_A)
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51, 0xF, 0xE);
++		else
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x71, 0xF, 0xE);
++	}
++#endif
++}
++
++#define RF_PATH_AB	22
++
++#ifdef CONFIG_RTL8814A
++VOID mpt_ToggleIG_8814A(PADAPTER	pAdapter)
++{
++	u1Byte Path = 0;
++	u4Byte IGReg = rA_IGI_Jaguar, IGvalue = 0;
++
++	for (Path; Path <= ODM_RF_PATH_D; Path++) {
++		switch (Path) {
++		case ODM_RF_PATH_B:
++			IGReg = rB_IGI_Jaguar;
++			break;
++		case ODM_RF_PATH_C:
++			IGReg = rC_IGI_Jaguar2;
++			break;
++		case ODM_RF_PATH_D:
++			IGReg = rD_IGI_Jaguar2;
++			break;
++		default:
++			IGReg = rA_IGI_Jaguar;
++			break;
++		}
++
++		IGvalue = PHY_QueryBBReg(pAdapter, IGReg, bMaskByte0);
++		PHY_SetBBReg(pAdapter, IGReg, bMaskByte0, IGvalue + 2);
++		PHY_SetBBReg(pAdapter, IGReg, bMaskByte0, IGvalue);
++	}
++}
++
++VOID mpt_SetRFPath_8814A(PADAPTER	pAdapter)
++{
++
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT	pMptCtx = &pAdapter->mppriv.MptCtx;
++	R_ANTENNA_SELECT_OFDM	*p_ofdm_tx;	/* OFDM Tx register */
++	R_ANTENNA_SELECT_CCK	*p_cck_txrx;
++	u8	ForcedDataRate = MptToMgntRate(pMptCtx->MptRateIndex);
++	u8	HtStbcCap = pAdapter->registrypriv.stbc_cap;
++	/*/PRT_HIGH_THROUGHPUT		pHTInfo = GET_HT_INFO(pMgntInfo);*/
++	/*/PRT_VERY_HIGH_THROUGHPUT	pVHTInfo = GET_VHT_INFO(pMgntInfo);*/
++
++	u32	ulAntennaTx = pHalData->AntennaTxPath;
++	u32	ulAntennaRx = pHalData->AntennaRxPath;
++	u8	NssforRate = MgntQuery_NssTxRate(ForcedDataRate);
++
++	if ((NssforRate == RF_2TX) || ((NssforRate == RF_1TX) && IS_HT_RATE(ForcedDataRate)) || ((NssforRate == RF_1TX) && IS_VHT_RATE(ForcedDataRate))) {
++		RTW_INFO("===> SetAntenna 2T ForcedDataRate %d NssforRate %d AntennaTx %d\n", ForcedDataRate, NssforRate, ulAntennaTx);
++
++		switch (ulAntennaTx) {
++		case ANTENNA_BC:
++			pMptCtx->MptRfPath = ODM_RF_PATH_BC;
++			/*pHalData->ValidTxPath = 0x06; linux no use */
++			PHY_SetBBReg(pAdapter, rTxAnt_23Nsts_Jaguar2, 0x0000fff0, 0x106);	/*/ 0x940[15:4]=12'b0000_0100_0011*/
++			break;
++
++		case ANTENNA_CD:
++			pMptCtx->MptRfPath = ODM_RF_PATH_CD;
++			/*pHalData->ValidTxPath = 0x0C;*/
++			PHY_SetBBReg(pAdapter, rTxAnt_23Nsts_Jaguar2, 0x0000fff0, 0x40c);	/*/ 0x940[15:4]=12'b0000_0100_0011*/
++			break;
++		case ANTENNA_AB:
++		default:
++			pMptCtx->MptRfPath = ODM_RF_PATH_AB;
++			/*pHalData->ValidTxPath = 0x03;*/
++			PHY_SetBBReg(pAdapter, rTxAnt_23Nsts_Jaguar2, 0x0000fff0, 0x043);	/*/ 0x940[15:4]=12'b0000_0100_0011*/
++			break;
++		}
++
++	} else if (NssforRate == RF_3TX) {
++		RTW_INFO("===> SetAntenna 3T ForcedDataRate %d NssforRate %d AntennaTx %d\n", ForcedDataRate, NssforRate, ulAntennaTx);
++
++		switch (ulAntennaTx) {
++		case ANTENNA_BCD:
++			pMptCtx->MptRfPath = ODM_RF_PATH_BCD;
++			/*pHalData->ValidTxPath = 0x0e;*/
++			PHY_SetBBReg(pAdapter, rTxAnt_23Nsts_Jaguar2, 0x0fff0000, 0x90e);	/*/ 0x940[27:16]=12'b0010_0100_0111*/
++			break;
++
++		case ANTENNA_ABC:
++		default:
++			pMptCtx->MptRfPath = ODM_RF_PATH_ABC;
++			/*pHalData->ValidTxPath = 0x0d;*/
++			PHY_SetBBReg(pAdapter, rTxAnt_23Nsts_Jaguar2, 0x0fff0000, 0x247);	/*/ 0x940[27:16]=12'b0010_0100_0111*/
++			break;
++		}
++
++	} else { /*/if(NssforRate == RF_1TX)*/
++		RTW_INFO("===> SetAntenna 1T ForcedDataRate %d NssforRate %d AntennaTx %d\n", ForcedDataRate, NssforRate, ulAntennaTx);
++		switch (ulAntennaTx) {
++		case ANTENNA_BCD:
++			pMptCtx->MptRfPath = ODM_RF_PATH_BCD;
++			/*pHalData->ValidTxPath = 0x0e;*/
++			PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0xf0000000, 0x7);
++			PHY_SetBBReg(pAdapter, rTxAnt_1Nsts_Jaguar2, 0x000f00000, 0xe);
++			PHY_SetBBReg(pAdapter, rTxPath_Jaguar, 0xf0, 0xe);
++			break;
++
++		case ANTENNA_BC:
++			pMptCtx->MptRfPath = ODM_RF_PATH_BC;
++			/*pHalData->ValidTxPath = 0x06;*/
++			PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0xf0000000, 0x6);
++			PHY_SetBBReg(pAdapter, rTxAnt_1Nsts_Jaguar2, 0x000f00000, 0x6);
++			PHY_SetBBReg(pAdapter, rTxPath_Jaguar, 0xf0, 0x6);
++			break;
++		case ANTENNA_B:
++			pMptCtx->MptRfPath = ODM_RF_PATH_B;
++			/*pHalData->ValidTxPath = 0x02;*/
++			PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0xf0000000, 0x4);			/*/ 0xa07[7:4] = 4'b0100*/
++			PHY_SetBBReg(pAdapter, rTxAnt_1Nsts_Jaguar2, 0xfff00000, 0x002);	/*/ 0x93C[31:20]=12'b0000_0000_0010*/
++			PHY_SetBBReg(pAdapter, rTxPath_Jaguar, 0xf0, 0x2);					/* 0x80C[7:4] = 4'b0010*/
++			break;
++
++		case ANTENNA_C:
++			pMptCtx->MptRfPath = ODM_RF_PATH_C;
++			/*pHalData->ValidTxPath = 0x04;*/
++			PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0xf0000000, 0x2);			/*/ 0xa07[7:4] = 4'b0010*/
++			PHY_SetBBReg(pAdapter, rTxAnt_1Nsts_Jaguar2, 0xfff00000, 0x004);	/*/ 0x93C[31:20]=12'b0000_0000_0100*/
++			PHY_SetBBReg(pAdapter, rTxPath_Jaguar, 0xf0, 0x4);					/*/ 0x80C[7:4] = 4'b0100*/
++			break;
++
++		case ANTENNA_D:
++			pMptCtx->MptRfPath = ODM_RF_PATH_D;
++			/*pHalData->ValidTxPath = 0x08;*/
++			PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0xf0000000, 0x1);			/*/ 0xa07[7:4] = 4'b0001*/
++			PHY_SetBBReg(pAdapter, rTxAnt_1Nsts_Jaguar2, 0xfff00000, 0x008);	/*/ 0x93C[31:20]=12'b0000_0000_1000*/
++			PHY_SetBBReg(pAdapter, rTxPath_Jaguar, 0xf0, 0x8);					/*/ 0x80C[7:4] = 4'b1000*/
++			break;
++
++		case ANTENNA_A:
++		default:
++			pMptCtx->MptRfPath = ODM_RF_PATH_A;
++			/*pHalData->ValidTxPath = 0x01;*/
++			PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0xf0000000, 0x8);			/*/ 0xa07[7:4] = 4'b1000*/
++			PHY_SetBBReg(pAdapter, rTxAnt_1Nsts_Jaguar2, 0xfff00000, 0x001);	/*/ 0x93C[31:20]=12'b0000_0000_0001*/
++			PHY_SetBBReg(pAdapter, rTxPath_Jaguar, 0xf0, 0x1);					/*/ 0x80C[7:4] = 4'b0001*/
++			break;
++		}
++	}
++
++	switch (ulAntennaRx) {
++	case ANTENNA_A:
++		/*pHalData->ValidRxPath = 0x01;*/
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x2);
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0x11);
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x3);
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0x0C000000, 0x0);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_A_0x0[19:16] = 3, RX mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_B_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_C, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_C_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_D, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_D_0x0[19:16] = 1, Standby mode*/
++		/*/ CCA related PD_delay_th*/
++		PHY_SetBBReg(pAdapter, rAGC_table_Jaguar, 0x0F000000, 0x5);
++		PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, 0x0000000F, 0xA);
++		break;
++
++	case ANTENNA_B:
++		/*pHalData->ValidRxPath = 0x02;*/
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x2);
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0x22);
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x3);
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0x0C000000, 0x1);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_A_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_B_0x0[19:16] = 3, RX mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_C, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_C_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_D, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_D_0x0[19:16] = 1, Standby mode*/
++		/*/ CCA related PD_delay_th*/
++		PHY_SetBBReg(pAdapter, rAGC_table_Jaguar, 0x0F000000, 0x5);
++		PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, 0x0000000F, 0xA);
++		break;
++
++	case ANTENNA_C:
++		/*pHalData->ValidRxPath = 0x04;*/
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x2);
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0x44);
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x3);
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0x0C000000, 0x2);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_A_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_B_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_C, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_C_0x0[19:16] = 3, RX mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_D, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_D_0x0[19:16] = 1, Standby mode*/
++		/*/ CCA related PD_delay_th*/
++		PHY_SetBBReg(pAdapter, rAGC_table_Jaguar, 0x0F000000, 0x5);
++		PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, 0x0000000F, 0xA);
++		break;
++
++	case ANTENNA_D:
++		/*pHalData->ValidRxPath = 0x08;*/
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x2);
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0x88);
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x3);
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0x0C000000, 0x3);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_A_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_B_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_C, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_C_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_D, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_D_0x0[19:16] = 3, RX mode*/
++		/*/ CCA related PD_delay_th*/
++		PHY_SetBBReg(pAdapter, rAGC_table_Jaguar, 0x0F000000, 0x5);
++		PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, 0x0000000F, 0xA);
++		break;
++
++	case ANTENNA_BC:
++		/*pHalData->ValidRxPath = 0x06;*/
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x2);
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0x66);
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x3);
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0x0f000000, 0x6);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_A_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_B_0x0[19:16] = 3, RX mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_C, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_C_0x0[19:16] = 3, Rx mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_D, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_D_0x0[19:16] = 1, Standby mode*/
++		/*/ CCA related PD_delay_th*/
++		PHY_SetBBReg(pAdapter, rAGC_table_Jaguar, 0x0F000000, 0x5);
++		PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, 0x0000000F, 0xA);
++		break;
++
++	case ANTENNA_CD:
++		/*pHalData->ValidRxPath = 0x0C;*/
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x2);
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0xcc);
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x3);
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0x0f000000, 0xB);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_A_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_B_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_C, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_C_0x0[19:16] = 3, Rx mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_D, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_D_0x0[19:16] = 3, RX mode*/
++		/*/ CCA related PD_delay_th*/
++		PHY_SetBBReg(pAdapter, rAGC_table_Jaguar, 0x0F000000, 0x5);
++		PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, 0x0000000F, 0xA);
++		break;
++
++	case ANTENNA_BCD:
++		/*pHalData->ValidRxPath = 0x0e;*/
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x2);
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0xee);
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x3);
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0x0f000000, 0x6);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_A_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_B_0x0[19:16] = 3, RX mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_C, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_C_0x0[19:16] = 3, RX mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_D, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_D_0x0[19:16] = 3, Rx mode*/
++		/*/ CCA related PD_delay_th*/
++		PHY_SetBBReg(pAdapter, rAGC_table_Jaguar, 0x0F000000, 0x3);
++		PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, 0x0000000F, 0x8);
++		break;
++
++	case ANTENNA_ABCD:
++		/*pHalData->ValidRxPath = 0x0f;*/
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x2);
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0xff);
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x3);
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0x0f000000, 0x1);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_A_0x0[19:16] = 3, RX mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_B_0x0[19:16] = 3, RX mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_C, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_C_0x0[19:16] = 3, RX mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_D, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_D_0x0[19:16] = 3, RX mode*/
++		/*/ CCA related PD_delay_th*/
++		PHY_SetBBReg(pAdapter, rAGC_table_Jaguar, 0x0F000000, 0x3);
++		PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, 0x0000000F, 0x8);
++		break;
++
++	default:
++		break;
++	}
++
++	PHY_Set_SecCCATH_by_RXANT_8814A(pAdapter, ulAntennaRx);
++
++	mpt_ToggleIG_8814A(pAdapter);
++}
++#endif /* CONFIG_RTL8814A */
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++VOID
++mpt_SetSingleTone_8814A(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN	bSingleTone,
++	IN	BOOLEAN	bEnPMacTx)
++{
++
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);
++	u1Byte StartPath = ODM_RF_PATH_A,  EndPath = ODM_RF_PATH_A;
++	static u4Byte		regIG0 = 0, regIG1 = 0, regIG2 = 0, regIG3 = 0;
++
++	if (bSingleTone) {
++		regIG0 = PHY_QueryBBReg(pAdapter, rA_TxScale_Jaguar, bMaskDWord);		/*/ 0xC1C[31:21]*/
++		regIG1 = PHY_QueryBBReg(pAdapter, rB_TxScale_Jaguar, bMaskDWord);		/*/ 0xE1C[31:21]*/
++		regIG2 = PHY_QueryBBReg(pAdapter, rC_TxScale_Jaguar2, bMaskDWord);	/*/ 0x181C[31:21]*/
++		regIG3 = PHY_QueryBBReg(pAdapter, rD_TxScale_Jaguar2, bMaskDWord);	/*/ 0x1A1C[31:21]*/
++
++		switch (pMptCtx->MptRfPath) {
++		case ODM_RF_PATH_A:
++		case ODM_RF_PATH_B:
++		case ODM_RF_PATH_C:
++		case ODM_RF_PATH_D:
++			StartPath = pMptCtx->MptRfPath;
++			EndPath = pMptCtx->MptRfPath;
++			break;
++		case ODM_RF_PATH_AB:
++			EndPath = ODM_RF_PATH_B;
++			break;
++		case ODM_RF_PATH_BC:
++			StartPath = ODM_RF_PATH_B;
++			EndPath = ODM_RF_PATH_C;
++			break;
++		case ODM_RF_PATH_ABC:
++			EndPath = ODM_RF_PATH_C;
++			break;
++		case ODM_RF_PATH_BCD:
++			StartPath = ODM_RF_PATH_B;
++			EndPath = ODM_RF_PATH_D;
++			break;
++		case ODM_RF_PATH_ABCD:
++			EndPath = ODM_RF_PATH_D;
++			break;
++		}
++
++		if (bEnPMacTx == FALSE) {
++			hal_mpt_SetOFDMContinuousTx(pAdapter, _TRUE);
++			issue_nulldata(pAdapter, NULL, 1, 3, 500);
++		}
++
++		PHY_SetBBReg(pAdapter, rCCAonSec_Jaguar, BIT1, 0x1); /*/ Disable CCA*/
++
++		for (StartPath; StartPath <= EndPath; StartPath++) {
++			PHY_SetRFReg(pAdapter, StartPath, RF_AC_Jaguar, 0xF0000, 0x2); /*/ Tx mode: RF0x00[19:16]=4'b0010 */
++			PHY_SetRFReg(pAdapter, StartPath, RF_AC_Jaguar, 0x1F, 0x0); /*/ Lowest RF gain index: RF_0x0[4:0] = 0*/
++
++			PHY_SetRFReg(pAdapter, StartPath, LNA_Low_Gain_3, BIT1, 0x1); /*/ RF LO enabled*/
++		}
++
++		PHY_SetBBReg(pAdapter, rA_TxScale_Jaguar, 0xFFE00000, 0); /*/ 0xC1C[31:21]*/
++		PHY_SetBBReg(pAdapter, rB_TxScale_Jaguar, 0xFFE00000, 0); /*/ 0xE1C[31:21]*/
++		PHY_SetBBReg(pAdapter, rC_TxScale_Jaguar2, 0xFFE00000, 0); /*/ 0x181C[31:21]*/
++		PHY_SetBBReg(pAdapter, rD_TxScale_Jaguar2, 0xFFE00000, 0); /*/ 0x1A1C[31:21]*/
++	} else {
++		switch (pMptCtx->MptRfPath) {
++		case ODM_RF_PATH_A:
++		case ODM_RF_PATH_B:
++		case ODM_RF_PATH_C:
++		case ODM_RF_PATH_D:
++			StartPath = pMptCtx->MptRfPath;
++			EndPath = pMptCtx->MptRfPath;
++			break;
++		case ODM_RF_PATH_AB:
++			EndPath = ODM_RF_PATH_B;
++			break;
++		case ODM_RF_PATH_BC:
++			StartPath = ODM_RF_PATH_B;
++			EndPath = ODM_RF_PATH_C;
++			break;
++		case ODM_RF_PATH_ABC:
++			EndPath = ODM_RF_PATH_C;
++			break;
++		case ODM_RF_PATH_BCD:
++			StartPath = ODM_RF_PATH_B;
++			EndPath = ODM_RF_PATH_D;
++			break;
++		case ODM_RF_PATH_ABCD:
++			EndPath = ODM_RF_PATH_D;
++			break;
++		}
++		for (StartPath; StartPath <= EndPath; StartPath++)
++			PHY_SetRFReg(pAdapter, StartPath, LNA_Low_Gain_3, BIT1, 0x0); /* RF LO disabled */
++
++		PHY_SetBBReg(pAdapter, rCCAonSec_Jaguar, BIT1, 0x0); /* Enable CCA*/
++
++		if (bEnPMacTx == FALSE)
++			hal_mpt_SetOFDMContinuousTx(pAdapter, _FALSE);
++
++		PHY_SetBBReg(pAdapter, rA_TxScale_Jaguar, bMaskDWord, regIG0); /* 0xC1C[31:21]*/
++		PHY_SetBBReg(pAdapter, rB_TxScale_Jaguar, bMaskDWord, regIG1); /* 0xE1C[31:21]*/
++		PHY_SetBBReg(pAdapter, rC_TxScale_Jaguar2, bMaskDWord, regIG2); /* 0x181C[31:21]*/
++		PHY_SetBBReg(pAdapter, rD_TxScale_Jaguar2, bMaskDWord, regIG3); /* 0x1A1C[31:21]*/
++	}
++}
++
++#endif
++
++#if	defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++void mpt_SetRFPath_8812A(PADAPTER pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT	pMptCtx = &pAdapter->mppriv.MptCtx;
++	struct mp_priv *pmp = &pAdapter->mppriv;
++	u8		channel = pmp->channel;
++	u8		bandwidth = pmp->bandwidth;
++	u8		eLNA_2g = pHalData->ExternalLNA_2G;
++	u32		ulAntennaTx, ulAntennaRx;
++
++	ulAntennaTx = pHalData->AntennaTxPath;
++	ulAntennaRx = pHalData->AntennaRxPath;
++
++	switch (ulAntennaTx) {
++	case ANTENNA_A:
++		pMptCtx->MptRfPath = ODM_RF_PATH_A;
++		PHY_SetBBReg(pAdapter, rTxPath_Jaguar, bMaskLWord, 0x1111);
++		if (pHalData->RFEType == 3 && IS_HARDWARE_TYPE_8812(pAdapter))
++			PHY_SetBBReg(pAdapter, r_ANTSEL_SW_Jaguar, bMask_AntselPathFollow_Jaguar, 0x0);
++		break;
++	case ANTENNA_B:
++		pMptCtx->MptRfPath = ODM_RF_PATH_B;
++		PHY_SetBBReg(pAdapter, rTxPath_Jaguar, bMaskLWord, 0x2222);
++		if (pHalData->RFEType == 3 && IS_HARDWARE_TYPE_8812(pAdapter))
++			PHY_SetBBReg(pAdapter,	r_ANTSEL_SW_Jaguar, bMask_AntselPathFollow_Jaguar, 0x1);
++		break;
++	case ANTENNA_AB:
++		pMptCtx->MptRfPath = ODM_RF_PATH_AB;
++		PHY_SetBBReg(pAdapter, rTxPath_Jaguar, bMaskLWord, 0x3333);
++		if (pHalData->RFEType == 3 && IS_HARDWARE_TYPE_8812(pAdapter))
++			PHY_SetBBReg(pAdapter, r_ANTSEL_SW_Jaguar, bMask_AntselPathFollow_Jaguar, 0x0);
++		break;
++	default:
++		pMptCtx->MptRfPath = ODM_RF_PATH_AB;
++		RTW_INFO("Unknown Tx antenna.\n");
++		break;
++	}
++
++	switch (ulAntennaRx) {
++		u32 reg0xC50 = 0;
++	case ANTENNA_A:
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0x11);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_B_0x0[19:16] = 1, Standby mode*/
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, bCCK_RX_Jaguar, 0x0);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, BIT19 | BIT18 | BIT17 | BIT16, 0x3);
++
++		/*/ <20121101, Kordan> To prevent gain table from not switched, asked by Ynlin.*/
++		reg0xC50 = PHY_QueryBBReg(pAdapter, rA_IGI_Jaguar, bMaskByte0);
++		PHY_SetBBReg(pAdapter, rA_IGI_Jaguar, bMaskByte0, reg0xC50 + 2);
++		PHY_SetBBReg(pAdapter, rA_IGI_Jaguar, bMaskByte0, reg0xC50);
++
++		/* set PWED_TH for BB Yn user guide R29 */
++		if (IS_HARDWARE_TYPE_8812(pAdapter)) {
++			if (channel <= 14) { /* 2.4G */
++				if (bandwidth == CHANNEL_WIDTH_20
++				    && eLNA_2g == 0) {
++					/* 0x830[3:1]=3'b010 */
++					PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, BIT1 | BIT2 | BIT3, 0x02);
++				} else
++					/* 0x830[3:1]=3'b100 */
++					PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, BIT1 | BIT2 | BIT3, 0x04);
++			} else
++				/* 0x830[3:1]=3'b100 for 5G */
++				PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, BIT1 | BIT2 | BIT3, 0x04);
++		}
++		break;
++	case ANTENNA_B:
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0x22);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, 0xF0000, 0x1);/*/ RF_A_0x0[19:16] = 1, Standby mode */
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, bCCK_RX_Jaguar, 0x1);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, BIT19 | BIT18 | BIT17 | BIT16, 0x3);
++
++		/*/ <20121101, Kordan> To prevent gain table from not switched, asked by Ynlin.*/
++		reg0xC50 = PHY_QueryBBReg(pAdapter, rB_IGI_Jaguar, bMaskByte0);
++		PHY_SetBBReg(pAdapter, rB_IGI_Jaguar, bMaskByte0, reg0xC50 + 2);
++		PHY_SetBBReg(pAdapter, rB_IGI_Jaguar, bMaskByte0, reg0xC50);
++
++		/* set PWED_TH for BB Yn user guide R29 */
++		if (IS_HARDWARE_TYPE_8812(pAdapter)) {
++			if (channel <= 14) {
++				if (bandwidth == CHANNEL_WIDTH_20
++				    && eLNA_2g == 0) {
++					/* 0x830[3:1]=3'b010 */
++					PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, BIT1 | BIT2 | BIT3, 0x02);
++				} else
++					/* 0x830[3:1]=3'b100 */
++					PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, BIT1 | BIT2 | BIT3, 0x04);
++			} else
++				/* 0x830[3:1]=3'b100 for 5G */
++				PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, BIT1 | BIT2 | BIT3, 0x04);
++		}
++		break;
++	case ANTENNA_AB:
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0x33);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_B_0x0[19:16] = 3, Rx mode*/
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, bCCK_RX_Jaguar, 0x0);
++		/* set PWED_TH for BB Yn user guide R29 */
++		PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, BIT1 | BIT2 | BIT3, 0x04);
++		break;
++	default:
++		RTW_INFO("Unknown Rx antenna.\n");
++		break;
++	}
++}
++#endif
++
++#ifdef CONFIG_RTL8723B
++void mpt_SetRFPath_8723B(PADAPTER pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u32		ulAntennaTx, ulAntennaRx;
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);
++	PDM_ODM_T	pDM_Odm = &pHalData->odmpriv;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	ulAntennaTx = pHalData->AntennaTxPath;
++	ulAntennaRx = pHalData->AntennaRxPath;
++
++	if (pHalData->rf_chip >= RF_TYPE_MAX) {
++		RTW_INFO("This RF chip ID is not supported\n");
++		return;
++	}
++
++	switch (pAdapter->mppriv.antenna_tx) {
++		u8 p = 0, i = 0;
++	case ANTENNA_A: { /*/ Actually path S1  (Wi-Fi)*/
++		pMptCtx->MptRfPath = ODM_RF_PATH_A;
++		PHY_SetBBReg(pAdapter, rS0S1_PathSwitch, BIT9 | BIT8 | BIT7, 0x0);
++		PHY_SetBBReg(pAdapter, 0xB2C, BIT31, 0x0); /* AGC Table Sel*/
++
++		/*/<20130522, Kordan> 0x51 and 0x71 should be set immediately after path switched, or they might be overwritten.*/
++		if ((pHalData->PackageType == PACKAGE_TFBGA79) || (pHalData->PackageType == PACKAGE_TFBGA90))
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51, bRFRegOffsetMask, 0x6B10E);
++		else
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51, bRFRegOffsetMask, 0x6B04E);
++
++		for (i = 0; i < 3; ++i) {
++			u4Byte offset = pRFCalibrateInfo->TxIQC_8723B[ODM_RF_PATH_A][i][0];
++			u4Byte data = pRFCalibrateInfo->TxIQC_8723B[ODM_RF_PATH_A][i][1];
++
++			if (offset != 0) {
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, data);
++				RTW_INFO("Switch to S1 TxIQC(offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++		}
++		for (i = 0; i < 2; ++i) {
++			u4Byte offset = pRFCalibrateInfo->RxIQC_8723B[ODM_RF_PATH_A][i][0];
++			u4Byte data = pRFCalibrateInfo->RxIQC_8723B[ODM_RF_PATH_A][i][1];
++
++			if (offset != 0) {
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, data);
++				RTW_INFO("Switch to S1 RxIQC (offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++		}
++	}
++	break;
++	case ANTENNA_B: { /*/ Actually path S0 (BT)*/
++		u4Byte offset;
++		u4Byte data;
++
++		pMptCtx->MptRfPath = ODM_RF_PATH_B;
++		PHY_SetBBReg(pAdapter, rS0S1_PathSwitch, BIT9 | BIT8 | BIT7, 0x5);
++		PHY_SetBBReg(pAdapter, 0xB2C, BIT31, 0x1); /*/ AGC Table Sel.*/
++		/* <20130522, Kordan> 0x51 and 0x71 should be set immediately after path switched, or they might be overwritten.*/
++		if ((pHalData->PackageType == PACKAGE_TFBGA79) || (pHalData->PackageType == PACKAGE_TFBGA90))
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51, bRFRegOffsetMask, 0x6B10E);
++		else
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51, bRFRegOffsetMask, 0x6B04E);
++
++		for (i = 0; i < 3; ++i) {
++			/*/ <20130603, Kordan> Because BB suppors only 1T1R, we restore IQC  to S1 instead of S0.*/
++			offset = pRFCalibrateInfo->TxIQC_8723B[ODM_RF_PATH_A][i][0];
++			data = pRFCalibrateInfo->TxIQC_8723B[ODM_RF_PATH_B][i][1];
++			if (pRFCalibrateInfo->TxIQC_8723B[ODM_RF_PATH_B][i][0] != 0) {
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, data);
++				RTW_INFO("Switch to S0 TxIQC (offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++		}
++		/*/ <20130603, Kordan> Because BB suppors only 1T1R, we restore IQC to S1 instead of S0.*/
++		for (i = 0; i < 2; ++i) {
++			offset = pRFCalibrateInfo->RxIQC_8723B[ODM_RF_PATH_A][i][0];
++			data = pRFCalibrateInfo->RxIQC_8723B[ODM_RF_PATH_B][i][1];
++			if (pRFCalibrateInfo->RxIQC_8723B[ODM_RF_PATH_B][i][0] != 0) {
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, data);
++				RTW_INFO("Switch to S0 RxIQC (offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++		}
++	}
++	break;
++	default:
++		pMptCtx->MptRfPath = RF_PATH_AB;
++		break;
++	}
++}
++#endif
++
++#ifdef CONFIG_RTL8703B
++void mpt_SetRFPath_8703B(PADAPTER pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u4Byte					ulAntennaTx, ulAntennaRx;
++	PMPT_CONTEXT		pMptCtx = &(pAdapter->mppriv.MptCtx);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	PODM_RF_CAL_T			pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	ulAntennaTx = pHalData->AntennaTxPath;
++	ulAntennaRx = pHalData->AntennaRxPath;
++
++	if (pHalData->rf_chip >= RF_TYPE_MAX) {
++		RTW_INFO("This RF chip ID is not supported\n");
++		return;
++	}
++
++	switch (pAdapter->mppriv.antenna_tx) {
++		u1Byte p = 0, i = 0;
++
++	case ANTENNA_A: { /* Actually path S1  (Wi-Fi) */
++		pMptCtx->MptRfPath = ODM_RF_PATH_A;
++		PHY_SetBBReg(pAdapter, rS0S1_PathSwitch, BIT9 | BIT8 | BIT7, 0x0);
++		PHY_SetBBReg(pAdapter, 0xB2C, BIT31, 0x0); /* AGC Table Sel*/
++
++		for (i = 0; i < 3; ++i) {
++			u4Byte offset = pRFCalibrateInfo->TxIQC_8703B[i][0];
++			u4Byte data = pRFCalibrateInfo->TxIQC_8703B[i][1];
++
++			if (offset != 0) {
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, data);
++				RTW_INFO("Switch to S1 TxIQC(offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++
++		}
++		for (i = 0; i < 2; ++i) {
++			u4Byte offset = pRFCalibrateInfo->RxIQC_8703B[i][0];
++			u4Byte data = pRFCalibrateInfo->RxIQC_8703B[i][1];
++
++			if (offset != 0) {
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, data);
++				RTW_INFO("Switch to S1 RxIQC (offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++		}
++	}
++	break;
++	case ANTENNA_B: { /* Actually path S0 (BT)*/
++		pMptCtx->MptRfPath = ODM_RF_PATH_B;
++		PHY_SetBBReg(pAdapter, rS0S1_PathSwitch, BIT9 | BIT8 | BIT7, 0x5);
++		PHY_SetBBReg(pAdapter, 0xB2C, BIT31, 0x1); /* AGC Table Sel */
++
++		for (i = 0; i < 3; ++i) {
++			u4Byte offset = pRFCalibrateInfo->TxIQC_8703B[i][0];
++			u4Byte data = pRFCalibrateInfo->TxIQC_8703B[i][1];
++
++			if (pRFCalibrateInfo->TxIQC_8703B[i][0] != 0) {
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, data);
++				RTW_INFO("Switch to S0 TxIQC (offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++		}
++		for (i = 0; i < 2; ++i) {
++			u4Byte offset = pRFCalibrateInfo->RxIQC_8703B[i][0];
++			u4Byte data = pRFCalibrateInfo->RxIQC_8703B[i][1];
++
++			if (pRFCalibrateInfo->RxIQC_8703B[i][0] != 0) {
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, data);
++				RTW_INFO("Switch to S0 RxIQC (offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++		}
++	}
++	break;
++	default:
++		pMptCtx->MptRfPath = RF_PATH_AB;
++		break;
++	}
++
++}
++#endif
++
++#ifdef CONFIG_RTL8723D
++void mpt_SetRFPath_8723D(PADAPTER pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u1Byte	p = 0, i = 0;
++	u4Byte	ulAntennaTx, ulAntennaRx, offset = 0, data = 0, val32 = 0;
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);
++	PDM_ODM_T	pDM_Odm = &pHalData->odmpriv;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	ulAntennaTx = pHalData->AntennaTxPath;
++	ulAntennaRx = pHalData->AntennaRxPath;
++
++	if (pHalData->rf_chip >= RF_TYPE_MAX) {
++		RTW_INFO("This RF chip ID is not supported\n");
++		return;
++	}
++
++	switch (pAdapter->mppriv.antenna_tx) {
++	/* Actually path S1  (Wi-Fi) */
++	case ANTENNA_A: {
++		pMptCtx->MptRfPath = ODM_RF_PATH_A;
++		PHY_SetBBReg(pAdapter, rS0S1_PathSwitch, BIT9|BIT8|BIT7|BIT6, 0);
++	}
++	break;
++	/* Actually path S0 (BT) */
++	case ANTENNA_B: {
++		pMptCtx->MptRfPath = ODM_RF_PATH_B;
++		PHY_SetBBReg(pAdapter, rS0S1_PathSwitch, BIT9|BIT8|BIT7|BIT6, 0xA);
++
++	}
++	break;
++	default:
++		pMptCtx->MptRfPath = RF_PATH_AB;
++		break;
++	}
++}
++#endif
++
++VOID mpt_SetRFPath_819X(PADAPTER	pAdapter)
++{
++	HAL_DATA_TYPE			*pHalData	= GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT		pMptCtx = &(pAdapter->mppriv.MptCtx);
++	u4Byte			ulAntennaTx, ulAntennaRx;
++	R_ANTENNA_SELECT_OFDM	*p_ofdm_tx;	/* OFDM Tx register */
++	R_ANTENNA_SELECT_CCK	*p_cck_txrx;
++	u1Byte		r_rx_antenna_ofdm = 0, r_ant_select_cck_val = 0;
++	u1Byte		chgTx = 0, chgRx = 0;
++	u4Byte		r_ant_sel_cck_val = 0, r_ant_select_ofdm_val = 0, r_ofdm_tx_en_val = 0;
++
++	ulAntennaTx = pHalData->AntennaTxPath;
++	ulAntennaRx = pHalData->AntennaRxPath;
++
++	p_ofdm_tx = (R_ANTENNA_SELECT_OFDM *)&r_ant_select_ofdm_val;
++	p_cck_txrx = (R_ANTENNA_SELECT_CCK *)&r_ant_select_cck_val;
++
++	p_ofdm_tx->r_ant_ht1			= 0x1;
++	p_ofdm_tx->r_ant_ht2			= 0x2;/*Second TX RF path is A*/
++	p_ofdm_tx->r_ant_non_ht			= 0x3;/*/ 0x1+0x2=0x3 */
++
++	switch (ulAntennaTx) {
++	case ANTENNA_A:
++		p_ofdm_tx->r_tx_antenna		= 0x1;
++		r_ofdm_tx_en_val		= 0x1;
++		p_ofdm_tx->r_ant_l		= 0x1;
++		p_ofdm_tx->r_ant_ht_s1		= 0x1;
++		p_ofdm_tx->r_ant_non_ht_s1	= 0x1;
++		p_cck_txrx->r_ccktx_enable	= 0x8;
++		chgTx = 1;
++		/*/ From SD3 Willis suggestion !!! Set RF A=TX and B as standby*/
++		/*/if (IS_HARDWARE_TYPE_8192S(pAdapter))*/
++		{
++			PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter2, 0xe, 2);
++			PHY_SetBBReg(pAdapter, rFPGA0_XB_HSSIParameter2, 0xe, 1);
++			r_ofdm_tx_en_val			= 0x3;
++			/*/ Power save*/
++			/*/cosa r_ant_select_ofdm_val = 0x11111111;*/
++			/*/ We need to close RFB by SW control*/
++			if (pHalData->rf_type == RF_2T2R) {
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT10, 0);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT26, 1);
++				PHY_SetBBReg(pAdapter, rFPGA0_XB_RFInterfaceOE, BIT10, 0);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT1, 1);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT17, 0);
++			}
++		}
++		pMptCtx->MptRfPath = ODM_RF_PATH_A;
++		break;
++	case ANTENNA_B:
++		p_ofdm_tx->r_tx_antenna		= 0x2;
++		r_ofdm_tx_en_val		= 0x2;
++		p_ofdm_tx->r_ant_l		= 0x2;
++		p_ofdm_tx->r_ant_ht_s1		= 0x2;
++		p_ofdm_tx->r_ant_non_ht_s1	= 0x2;
++		p_cck_txrx->r_ccktx_enable	= 0x4;
++		chgTx = 1;
++		/*/ From SD3 Willis suggestion !!! Set RF A as standby*/
++		/*/if (IS_HARDWARE_TYPE_8192S(pAdapter))*/
++		{
++			PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter2, 0xe, 1);
++			PHY_SetBBReg(pAdapter, rFPGA0_XB_HSSIParameter2, 0xe, 2);
++
++			/*/ 2008/10/31 MH From SD3 Willi's suggestion. We must read RF 1T table.*/
++			/*/ 2009/01/08 MH From Sd3 Willis. We need to close RFA by SW control*/
++			if (pHalData->rf_type == RF_2T2R || pHalData->rf_type == RF_1T2R) {
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT10, 1);
++				PHY_SetBBReg(pAdapter, rFPGA0_XA_RFInterfaceOE, BIT10, 0);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT26, 0);
++				/*/PHY_SetBBReg(pAdapter, rFPGA0_XB_RFInterfaceOE, BIT10, 0);*/
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT1, 0);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT17, 1);
++			}
++		}
++		pMptCtx->MptRfPath = ODM_RF_PATH_B;
++		break;
++	case ANTENNA_AB:/*/ For 8192S*/
++		p_ofdm_tx->r_tx_antenna		= 0x3;
++		r_ofdm_tx_en_val		= 0x3;
++		p_ofdm_tx->r_ant_l		= 0x3;
++		p_ofdm_tx->r_ant_ht_s1		= 0x3;
++		p_ofdm_tx->r_ant_non_ht_s1	= 0x3;
++		p_cck_txrx->r_ccktx_enable	= 0xC;
++		chgTx = 1;
++		/*/ From SD3Willis suggestion !!! Set RF B as standby*/
++		/*/if (IS_HARDWARE_TYPE_8192S(pAdapter))*/
++		{
++			PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter2, 0xe, 2);
++			PHY_SetBBReg(pAdapter, rFPGA0_XB_HSSIParameter2, 0xe, 2);
++			/* Disable Power save*/
++			/*cosa r_ant_select_ofdm_val = 0x3321333;*/
++			/* 2009/01/08 MH From Sd3 Willis. We need to enable RFA/B by SW control*/
++			if (pHalData->rf_type == RF_2T2R) {
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT10, 0);
++
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT26, 0);
++				/*/PHY_SetBBReg(pAdapter, rFPGA0_XB_RFInterfaceOE, BIT10, 0);*/
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT1, 1);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT17, 1);
++			}
++		}
++		pMptCtx->MptRfPath = ODM_RF_PATH_AB;
++		break;
++	default:
++		break;
++	}
++#if 0
++	/*  r_rx_antenna_ofdm, bit0=A, bit1=B, bit2=C, bit3=D */
++	/*  r_cckrx_enable : CCK default, 0=A, 1=B, 2=C, 3=D */
++	/* r_cckrx_enable_2 : CCK option, 0=A, 1=B, 2=C, 3=D	 */
++#endif
++	switch (ulAntennaRx) {
++	case ANTENNA_A:
++		r_rx_antenna_ofdm		= 0x1;	/* A*/
++		p_cck_txrx->r_cckrx_enable	= 0x0;	/* default: A*/
++		p_cck_txrx->r_cckrx_enable_2	= 0x0;	/* option: A*/
++		chgRx = 1;
++		break;
++	case ANTENNA_B:
++		r_rx_antenna_ofdm			= 0x2;	/*/ B*/
++		p_cck_txrx->r_cckrx_enable	= 0x1;	/*/ default: B*/
++		p_cck_txrx->r_cckrx_enable_2	= 0x1;	/*/ option: B*/
++		chgRx = 1;
++		break;
++	case ANTENNA_AB:/*/ For 8192S and 8192E/U...*/
++		r_rx_antenna_ofdm		= 0x3;/*/ AB*/
++		p_cck_txrx->r_cckrx_enable	= 0x0;/*/ default:A*/
++		p_cck_txrx->r_cckrx_enable_2	= 0x1;/*/ option:B*/
++		chgRx = 1;
++		break;
++	default:
++		break;
++	}
++
++
++	if (chgTx && chgRx) {
++		switch (pHalData->rf_chip) {
++		case RF_8225:
++		case RF_8256:
++		case RF_6052:
++			/*/r_ant_sel_cck_val = r_ant_select_cck_val;*/
++			PHY_SetBBReg(pAdapter, rFPGA1_TxInfo, 0x7fffffff, r_ant_select_ofdm_val);		/*/OFDM Tx*/
++			PHY_SetBBReg(pAdapter, rFPGA0_TxInfo, 0x0000000f, r_ofdm_tx_en_val);		/*/OFDM Tx*/
++			PHY_SetBBReg(pAdapter, rOFDM0_TRxPathEnable, 0x0000000f, r_rx_antenna_ofdm);	/*/OFDM Rx*/
++			PHY_SetBBReg(pAdapter, rOFDM1_TRxPathEnable, 0x0000000f, r_rx_antenna_ofdm);	/*/OFDM Rx*/
++			if (IS_HARDWARE_TYPE_8192E(pAdapter)) {
++				PHY_SetBBReg(pAdapter, rOFDM0_TRxPathEnable, 0x000000F0, r_rx_antenna_ofdm);	/*/OFDM Rx*/
++				PHY_SetBBReg(pAdapter, rOFDM1_TRxPathEnable, 0x000000F0, r_rx_antenna_ofdm);	/*/OFDM Rx*/
++			}
++			PHY_SetBBReg(pAdapter, rCCK0_AFESetting, bMaskByte3, r_ant_select_cck_val);/*/r_ant_sel_cck_val); /CCK TxRx*/
++			break;
++
++		default:
++			RTW_INFO("Unsupported RFChipID for switching antenna.\n");
++			break;
++		}
++	}
++}	/* MPT_ProSetRFPath */
++
++
++void hal_mpt_SetAntenna(PADAPTER	pAdapter)
++
++{
++	RTW_INFO("Do %s\n", __func__);
++#ifdef CONFIG_RTL8814A
++	if (IS_HARDWARE_TYPE_8814A(pAdapter)) {
++		mpt_SetRFPath_8814A(pAdapter);
++		return;
++	}
++#endif
++#ifdef CONFIG_RTL8822B
++	if (IS_HARDWARE_TYPE_8822B(pAdapter)) {
++		rtl8822b_mp_config_rfpath(pAdapter);
++		return;
++	}
++#endif
++#ifdef CONFIG_RTL8821C
++	if (IS_HARDWARE_TYPE_8821C(pAdapter)) {
++		rtl8821c_mp_config_rfpath(pAdapter);
++		return;
++	}
++#endif
++#if	defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++	if (IS_HARDWARE_TYPE_JAGUAR(pAdapter)) {
++		mpt_SetRFPath_8812A(pAdapter);
++		return;
++	}
++#endif
++#ifdef CONFIG_RTL8723B
++	if (IS_HARDWARE_TYPE_8723B(pAdapter)) {
++		mpt_SetRFPath_8723B(pAdapter);
++		return;
++	}
++#endif
++
++#ifdef CONFIG_RTL8703B
++	if (IS_HARDWARE_TYPE_8703B(pAdapter)) {
++		mpt_SetRFPath_8703B(pAdapter);
++		return;
++	}
++#endif
++
++#ifdef CONFIG_RTL8723D
++	if (IS_HARDWARE_TYPE_8723D(pAdapter)) {
++		mpt_SetRFPath_8723D(pAdapter);
++		return;
++	}
++#endif
++	/*	else if (IS_HARDWARE_TYPE_8821B(pAdapter))
++			mpt_SetRFPath_8821B(pAdapter);
++		Prepare for 8822B
++		else if (IS_HARDWARE_TYPE_8822B(Context))
++			mpt_SetRFPath_8822B(Context);
++	*/
++	mpt_SetRFPath_819X(pAdapter);
++	RTW_INFO("mpt_SetRFPath_819X Do %s\n", __func__);
++}
++
++s32 hal_mpt_SetThermalMeter(PADAPTER pAdapter, u8 target_ther)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++
++	if (!netif_running(pAdapter->pnetdev)) {
++		return _FAIL;
++	}
++
++
++	if (check_fwstate(&pAdapter->mlmepriv, WIFI_MP_STATE) == _FALSE) {
++		return _FAIL;
++	}
++
++
++	target_ther &= 0xff;
++	if (target_ther < 0x07)
++		target_ther = 0x07;
++	else if (target_ther > 0x1d)
++		target_ther = 0x1d;
++
++	pHalData->EEPROMThermalMeter = target_ther;
++
++	return _SUCCESS;
++}
++
++
++void hal_mpt_TriggerRFThermalMeter(PADAPTER pAdapter)
++{
++	PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x42, BIT17 | BIT16, 0x03);
++
++}
++
++
++u8 hal_mpt_ReadRFThermalMeter(PADAPTER pAdapter)
++
++{
++	u32 ThermalValue = 0;
++
++	ThermalValue = (u1Byte)PHY_QueryRFReg(pAdapter, ODM_RF_PATH_A, 0x42, 0xfc00);	/*0x42: RF Reg[15:10]*/
++	return (u8)ThermalValue;
++
++}
++
++
++void hal_mpt_GetThermalMeter(PADAPTER pAdapter, u8 *value)
++{
++#if 0
++	fw_cmd(pAdapter, IOCMD_GET_THERMAL_METER);
++	rtw_msleep_os(1000);
++	fw_cmd_data(pAdapter, value, 1);
++	*value &= 0xFF;
++#else
++	hal_mpt_TriggerRFThermalMeter(pAdapter);
++	rtw_msleep_os(1000);
++	*value = hal_mpt_ReadRFThermalMeter(pAdapter);
++#endif
++
++}
++
++
++void hal_mpt_SetSingleCarrierTx(PADAPTER pAdapter, u8 bStart)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++
++	pAdapter->mppriv.MptCtx.bSingleCarrier = bStart;
++
++	if (bStart) {/*/ Start Single Carrier.*/
++		/*/ Start Single Carrier.*/
++		/*/ 1. if OFDM block on?*/
++		if (!PHY_QueryBBReg(pAdapter, rFPGA0_RFMOD, bOFDMEn))
++			PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bOFDMEn, 1); /*set OFDM block on*/
++
++		/*/ 2. set CCK test mode off, set to CCK normal mode*/
++		PHY_SetBBReg(pAdapter, rCCK0_System, bCCKBBMode, 0);
++
++		/*/ 3. turn on scramble setting*/
++		PHY_SetBBReg(pAdapter, rCCK0_System, bCCKScramble, 1);
++
++		/*/ 4. Turn On Continue Tx and turn off the other test modes.*/
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) || defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++		if (IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(pAdapter))
++			PHY_SetBBReg(pAdapter, rSingleTone_ContTx_Jaguar, BIT18 | BIT17 | BIT16, OFDM_SingleCarrier);
++		else
++#endif /* CONFIG_RTL8812A || CONFIG_RTL8821A || CONFIG_RTL8814A || CONFIG_RTL8822B || CONFIG_RTL8821C */
++			PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_SingleCarrier);
++
++	} else {
++		/*/ Stop Single Carrier.*/
++		/*/ Stop Single Carrier.*/
++		/*/ Turn off all test modes.*/
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) || defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++		if (IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(pAdapter))
++			PHY_SetBBReg(pAdapter, rSingleTone_ContTx_Jaguar, BIT18 | BIT17 | BIT16, OFDM_ALL_OFF);
++		else
++#endif /* CONFIG_RTL8812A || CONFIG_RTL8821A || CONFIG_RTL8814A || CONFIG_RTL8822B || CONFIG_RTL8821C */
++			PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ALL_OFF);
++
++		rtw_msleep_os(10);
++		/*/BB Reset*/
++		PHY_SetBBReg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
++		PHY_SetBBReg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
++	}
++}
++
++
++void hal_mpt_SetSingleToneTx(PADAPTER pAdapter, u8 bStart)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT		pMptCtx = &(pAdapter->mppriv.MptCtx);
++	u4Byte			ulAntennaTx = pHalData->AntennaTxPath;
++	static u4Byte		regRF = 0, regBB0 = 0, regBB1 = 0, regBB2 = 0, regBB3 = 0;
++	u8 rfPath;
++
++	switch (ulAntennaTx) {
++	case ANTENNA_B:
++		rfPath = ODM_RF_PATH_B;
++		break;
++	case ANTENNA_C:
++		rfPath = ODM_RF_PATH_C;
++		break;
++	case ANTENNA_D:
++		rfPath = ODM_RF_PATH_D;
++		break;
++	case ANTENNA_A:
++	default:
++		rfPath = ODM_RF_PATH_A;
++		break;
++	}
++
++	pAdapter->mppriv.MptCtx.bSingleTone = bStart;
++	if (bStart) {
++		/*/ Start Single Tone.*/
++		/*/ <20120326, Kordan> To amplify the power of tone for Xtal calibration. (asked by Edlu)*/
++		if (IS_HARDWARE_TYPE_8188E(pAdapter)) {
++			regRF = PHY_QueryRFReg(pAdapter, rfPath, LNA_Low_Gain_3, bRFRegOffsetMask);
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, LNA_Low_Gain_3, BIT1, 0x1); /*/ RF LO enabled*/
++			PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bCCKEn, 0x0);
++			PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bOFDMEn, 0x0);
++		} else if (IS_HARDWARE_TYPE_8192E(pAdapter)) { /*/ USB need to do RF LO disable first, PCIE isn't required to follow this order.*/
++			/*/Set MAC REG 88C: Prevent SingleTone Fail*/
++			PHY_SetMacReg(pAdapter, 0x88C, 0xF00000, 0xF);
++			PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, LNA_Low_Gain_3, BIT1, 0x1); /*/ RF LO disabled*/
++			PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, RF_AC, 0xF0000, 0x2); /*/ Tx mode*/
++		} else if (IS_HARDWARE_TYPE_8723B(pAdapter)) {
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_A) {
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, 0xF0000, 0x2); /*/ Tx mode*/
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x56, 0xF, 0x1); /*/ RF LO enabled*/
++			} else {
++				/*/ S0/S1 both use PATH A to configure*/
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, 0xF0000, 0x2); /*/ Tx mode*/
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x76, 0xF, 0x1); /*/ RF LO enabled*/
++			}
++		} else if (IS_HARDWARE_TYPE_8703B(pAdapter)) {
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_A) {
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, 0xF0000, 0x2); /* Tx mode */
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x53, 0xF000, 0x1); /* RF LO enabled */
++			}
++		} else if (IS_HARDWARE_TYPE_8188F(pAdapter)) {
++			/*Set BB REG 88C: Prevent SingleTone Fail*/
++			PHY_SetBBReg(pAdapter, rFPGA0_AnalogParameter4, 0xF00000, 0xF);
++			PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, LNA_Low_Gain_3, BIT1, 0x1);
++			PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, RF_AC, 0xF0000, 0x2);
++
++		} else if (IS_HARDWARE_TYPE_8723D(pAdapter)) {
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_A) {
++				PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bCCKEn|bOFDMEn, 0);
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, BIT16, 0x0);
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x53, BIT0, 0x1);
++			} else {/* S0/S1 both use PATH A to configure */
++				PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bCCKEn|bOFDMEn, 0);
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, BIT16, 0x0);
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x63, BIT0, 0x1);
++			}
++		} else if (IS_HARDWARE_TYPE_JAGUAR(pAdapter) || IS_HARDWARE_TYPE_8822B(pAdapter)) {
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++			u1Byte p = ODM_RF_PATH_A;
++
++			regRF = PHY_QueryRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, bRFRegOffsetMask);
++			regBB0 = PHY_QueryBBReg(pAdapter, rA_RFE_Pinmux_Jaguar, bMaskDWord);
++			regBB1 = PHY_QueryBBReg(pAdapter, rB_RFE_Pinmux_Jaguar, bMaskDWord);
++			regBB2 = PHY_QueryBBReg(pAdapter, rA_RFE_Pinmux_Jaguar + 4, bMaskDWord);
++			regBB3 = PHY_QueryBBReg(pAdapter, rB_RFE_Pinmux_Jaguar + 4, bMaskDWord);
++
++			PHY_SetBBReg(pAdapter, rOFDMCCKEN_Jaguar, BIT29 | BIT28, 0x0); /*/ Disable CCK and OFDM*/
++
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_AB) {
++				for (p = ODM_RF_PATH_A; p <= ODM_RF_PATH_B; ++p) {
++					PHY_SetRFReg(pAdapter, p, RF_AC_Jaguar, 0xF0000, 0x2); /*/ Tx mode: RF0x00[19:16]=4'b0010 */
++					PHY_SetRFReg(pAdapter, p, RF_AC_Jaguar, 0x1F, 0x0); /*/ Lowest RF gain index: RF_0x0[4:0] = 0*/
++					PHY_SetRFReg(pAdapter, p, LNA_Low_Gain_3, BIT1, 0x1); /*/ RF LO enabled*/
++				}
++			} else {
++				PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, RF_AC_Jaguar, 0xF0000, 0x2); /*/ Tx mode: RF0x00[19:16]=4'b0010 */
++				PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, RF_AC_Jaguar, 0x1F, 0x0); /*/ Lowest RF gain index: RF_0x0[4:0] = 0*/
++				PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, LNA_Low_Gain_3, BIT1, 0x1); /*/ RF LO enabled*/
++			}
++
++			PHY_SetBBReg(pAdapter, rA_RFE_Pinmux_Jaguar, 0xFF00F0, 0x77007);  /*/ 0xCB0[[23:16, 7:4] = 0x77007*/
++			PHY_SetBBReg(pAdapter, rB_RFE_Pinmux_Jaguar, 0xFF00F0, 0x77007);  /*/ 0xCB0[[23:16, 7:4] = 0x77007*/
++
++			if (pHalData->ExternalPA_5G) {
++				PHY_SetBBReg(pAdapter, rA_RFE_Pinmux_Jaguar + 4, 0xFF00000, 0x12); /*/ 0xCB4[23:16] = 0x12*/
++				PHY_SetBBReg(pAdapter, rB_RFE_Pinmux_Jaguar + 4, 0xFF00000, 0x12); /*/ 0xEB4[23:16] = 0x12*/
++			} else if (pHalData->ExternalPA_2G) {
++				PHY_SetBBReg(pAdapter, rA_RFE_Pinmux_Jaguar + 4, 0xFF00000, 0x11); /*/ 0xCB4[23:16] = 0x11*/
++				PHY_SetBBReg(pAdapter, rB_RFE_Pinmux_Jaguar + 4, 0xFF00000, 0x11); /*/ 0xEB4[23:16] = 0x11*/
++			}
++#endif
++		}
++#ifdef CONFIG_RTL8814A
++		else if (IS_HARDWARE_TYPE_8814A(pAdapter))
++			mpt_SetSingleTone_8814A(pAdapter, TRUE, FALSE);
++#endif
++		else	/*/ Turn On SingleTone and turn off the other test modes.*/
++			PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_SingleTone);
++
++		write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000500);
++		write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000500);
++
++	} else {/*/ Stop Single Ton e.*/
++
++		if (IS_HARDWARE_TYPE_8188E(pAdapter)) {
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, LNA_Low_Gain_3, bRFRegOffsetMask, regRF);
++			PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bCCKEn, 0x1);
++			PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bOFDMEn, 0x1);
++		} else if (IS_HARDWARE_TYPE_8192E(pAdapter)) {
++			PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, RF_AC, 0xF0000, 0x3);/*/ Tx mode*/
++			PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, LNA_Low_Gain_3, BIT1, 0x0);/*/ RF LO disabled */
++			/*/ RESTORE MAC REG 88C: Enable RF Functions*/
++			PHY_SetMacReg(pAdapter, 0x88C, 0xF00000, 0x0);
++		} else if (IS_HARDWARE_TYPE_8723B(pAdapter)) {
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_A) {
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, 0xF0000, 0x3); /*/ Rx mode*/
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x56, 0xF, 0x0); /*/ RF LO disabled*/
++			} else {
++				/*/ S0/S1 both use PATH A to configure*/
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, 0xF0000, 0x3); /*/ Rx mode*/
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x76, 0xF, 0x0); /*/ RF LO disabled*/
++			}
++		} else if (IS_HARDWARE_TYPE_8703B(pAdapter)) {
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_A) {
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, 0xF0000, 0x3); /* Rx mode */
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x53, 0xF000, 0x0); /* RF LO disabled */
++			}
++		} else if (IS_HARDWARE_TYPE_8188F(pAdapter)) {
++			PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, RF_AC, 0xF0000, 0x3); /*Tx mode*/
++			PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, LNA_Low_Gain_3, BIT1, 0x0); /*RF LO disabled*/
++			/*Set BB REG 88C: Prevent SingleTone Fail*/
++			PHY_SetBBReg(pAdapter, rFPGA0_AnalogParameter4, 0xF00000, 0xc);
++		} else if (IS_HARDWARE_TYPE_8723D(pAdapter)) {
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_A) {
++				PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bCCKEn|bOFDMEn, 0x3);
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, BIT16, 0x1);
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x53, BIT0, 0x0);
++			} else {	/* S0/S1 both use PATH A to configure */
++				PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bCCKEn|bOFDMEn, 0x3);
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, BIT16, 0x1);
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x63, BIT0, 0x0);
++			}
++		} else if (IS_HARDWARE_TYPE_JAGUAR(pAdapter) || IS_HARDWARE_TYPE_8822B(pAdapter)) {
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++			u1Byte p = ODM_RF_PATH_A;
++
++			PHY_SetBBReg(pAdapter, rOFDMCCKEN_Jaguar, BIT29 | BIT28, 0x3); /*/ Disable CCK and OFDM*/
++
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_AB) {
++				for (p = ODM_RF_PATH_A; p <= ODM_RF_PATH_B; ++p) {
++					PHY_SetRFReg(pAdapter, p, RF_AC_Jaguar, bRFRegOffsetMask, regRF);
++					PHY_SetRFReg(pAdapter, p, LNA_Low_Gain_3, BIT1, 0x0); /*/ RF LO disabled*/
++				}
++			} else {
++				PHY_SetRFReg(pAdapter, p, RF_AC_Jaguar, bRFRegOffsetMask, regRF);
++				PHY_SetRFReg(pAdapter, p, LNA_Low_Gain_3, BIT1, 0x0); /*/ RF LO disabled*/
++			}
++
++			PHY_SetBBReg(pAdapter, rA_RFE_Pinmux_Jaguar, bMaskDWord, regBB0);
++			PHY_SetBBReg(pAdapter, rB_RFE_Pinmux_Jaguar, bMaskDWord, regBB1);
++			PHY_SetBBReg(pAdapter, rA_RFE_Pinmux_Jaguar + 4, bMaskDWord, regBB2);
++			PHY_SetBBReg(pAdapter, rB_RFE_Pinmux_Jaguar + 4, bMaskDWord, regBB3);
++#endif
++		}
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++		else if (IS_HARDWARE_TYPE_8814A(pAdapter))
++			mpt_SetSingleTone_8814A(pAdapter, FALSE, FALSE);
++
++		else/*/ Turn off all test modes.*/
++			PHY_SetBBReg(pAdapter, rSingleTone_ContTx_Jaguar, BIT18 | BIT17 | BIT16, OFDM_ALL_OFF);
++#endif
++		write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000100);
++		write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000100);
++
++	}
++}
++
++void hal_mpt_SetCarrierSuppressionTx(PADAPTER pAdapter, u8 bStart)
++{
++	u8 Rate;
++
++	pAdapter->mppriv.MptCtx.bCarrierSuppression = bStart;
++
++	Rate = HwRateToMPTRate(pAdapter->mppriv.rateidx);
++	if (bStart) {/* Start Carrier Suppression.*/
++		if (Rate <= MPT_RATE_11M) {
++			/*/ 1. if CCK block on?*/
++			if (!read_bbreg(pAdapter, rFPGA0_RFMOD, bCCKEn))
++				write_bbreg(pAdapter, rFPGA0_RFMOD, bCCKEn, bEnable);/*set CCK block on*/
++
++			/*/Turn Off All Test Mode*/
++			if (IS_HARDWARE_TYPE_JAGUAR(pAdapter) || IS_HARDWARE_TYPE_8814A(pAdapter) /*|| IS_HARDWARE_TYPE_8822B(pAdapter)*/)
++				PHY_SetBBReg(pAdapter, 0x914, BIT18 | BIT17 | BIT16, OFDM_ALL_OFF); /* rSingleTone_ContTx_Jaguar*/
++			else
++				PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ALL_OFF);
++
++			write_bbreg(pAdapter, rCCK0_System, bCCKBBMode, 0x2);    /*/transmit mode*/
++			write_bbreg(pAdapter, rCCK0_System, bCCKScramble, 0x0);  /*/turn off scramble setting*/
++
++			/*/Set CCK Tx Test Rate*/
++			write_bbreg(pAdapter, rCCK0_System, bCCKTxRate, 0x0);    /*/Set FTxRate to 1Mbps*/
++		}
++
++		/*Set for dynamic set Power index*/
++		write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000500);
++		write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000500);
++
++	} else {/* Stop Carrier Suppression.*/
++
++		if (Rate <= MPT_RATE_11M) {
++			write_bbreg(pAdapter, rCCK0_System, bCCKBBMode, 0x0);    /*normal mode*/
++			write_bbreg(pAdapter, rCCK0_System, bCCKScramble, 0x1);  /*turn on scramble setting*/
++
++			/*BB Reset*/
++			write_bbreg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
++			write_bbreg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
++		}
++		/*Stop for dynamic set Power index*/
++		write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000100);
++		write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000100);
++	}
++	RTW_INFO("\n MPT_ProSetCarrierSupp() is finished.\n");
++}
++
++void hal_mpt_SetCCKContinuousTx(PADAPTER pAdapter, u8 bStart)
++{
++	u32 cckrate;
++
++	if (bStart) {
++
++		/*/ 1. if CCK block on?*/
++		if (!read_bbreg(pAdapter, rFPGA0_RFMOD, bCCKEn))
++			write_bbreg(pAdapter, rFPGA0_RFMOD, bCCKEn, bEnable);/*set CCK block on*/
++
++		/*/Turn Off All Test Mode*/
++		if (IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(pAdapter))
++			PHY_SetBBReg(pAdapter, 0x914, BIT18 | BIT17 | BIT16, OFDM_ALL_OFF); /*rSingleTone_ContTx_Jaguar*/
++		else
++			PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ALL_OFF);
++
++		/*/Set CCK Tx Test Rate*/
++
++		cckrate  = pAdapter->mppriv.rateidx;
++
++		write_bbreg(pAdapter, rCCK0_System, bCCKTxRate, cckrate);
++		write_bbreg(pAdapter, rCCK0_System, bCCKBBMode, 0x2);	/*/transmit mode*/
++		write_bbreg(pAdapter, rCCK0_System, bCCKScramble, bEnable);	/*/turn on scramble setting*/
++
++		if (!IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(pAdapter)) {
++			PHY_SetBBReg(pAdapter, 0xa14, 0x300, 0x3);  /* rCCK0_RxHP 0xa15[1:0] = 11 force cck rxiq = 0*/
++			PHY_SetBBReg(pAdapter, rOFDM0_TRMuxPar, 0x10000, 0x1);		/*/ 0xc08[16] = 1 force ofdm rxiq = ofdm txiq*/
++			PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter2, BIT14, 1);
++			PHY_SetBBReg(pAdapter, 0x0B34, BIT14, 1);
++		}
++
++		write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000500);
++		write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000500);
++
++	} else {
++
++		write_bbreg(pAdapter, rCCK0_System, bCCKBBMode, 0x0);	/*/normal mode*/
++		write_bbreg(pAdapter, rCCK0_System, bCCKScramble, bEnable);	/*/turn on scramble setting*/
++
++		if (!IS_HARDWARE_TYPE_JAGUAR(pAdapter)  && !IS_HARDWARE_TYPE_8814A(pAdapter) /* && !IS_HARDWARE_TYPE_8822B(pAdapter) */) {
++			PHY_SetBBReg(pAdapter, 0xa14, 0x300, 0x0);/* rCCK0_RxHP 0xa15[1:0] = 2b00*/
++			PHY_SetBBReg(pAdapter, rOFDM0_TRMuxPar, 0x10000, 0x0);		/*/ 0xc08[16] = 0*/
++			PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter2, BIT14, 0);
++			PHY_SetBBReg(pAdapter, 0x0B34, BIT14, 0);
++		}
++
++		/*/BB Reset*/
++		write_bbreg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
++		write_bbreg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
++
++		write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000100);
++		write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000100);
++	}
++
++	pAdapter->mppriv.MptCtx.bCckContTx = bStart;
++	pAdapter->mppriv.MptCtx.bOfdmContTx = _FALSE;
++}
++
++void hal_mpt_SetOFDMContinuousTx(PADAPTER pAdapter, u8 bStart)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++
++	if (bStart) {
++		if (!PHY_QueryBBReg(pAdapter, rFPGA0_RFMOD, bOFDMEn))
++			PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bOFDMEn, 1);/*/set OFDM block on*/
++
++		/*/ 2. set CCK test mode off, set to CCK normal mode*/
++		PHY_SetBBReg(pAdapter, rCCK0_System, bCCKBBMode, 0);
++
++		/*/ 3. turn on scramble setting*/
++		PHY_SetBBReg(pAdapter, rCCK0_System, bCCKScramble, 1);
++
++		if (!IS_HARDWARE_TYPE_JAGUAR(pAdapter) && !IS_HARDWARE_TYPE_8814A(pAdapter) /*&& !IS_HARDWARE_TYPE_8822B(pAdapter)*/) {
++			PHY_SetBBReg(pAdapter, 0xa14, 0x300, 0x3);			/* rCCK0_RxHP 0xa15[1:0] = 2b'11*/
++			PHY_SetBBReg(pAdapter, rOFDM0_TRMuxPar, 0x10000, 0x1);		/* 0xc08[16] = 1*/
++		}
++
++		/*/ 4. Turn On Continue Tx and turn off the other test modes.*/
++		if (IS_HARDWARE_TYPE_JAGUAR(pAdapter) || IS_HARDWARE_TYPE_8814A(pAdapter) /*|| IS_HARDWARE_TYPE_8822B(pAdapter)*/)
++			PHY_SetBBReg(pAdapter, 0x914, BIT18 | BIT17 | BIT16, OFDM_ContinuousTx); /*rSingleTone_ContTx_Jaguar*/
++		else
++			PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ContinuousTx);
++
++		write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000500);
++		write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000500);
++
++	} else {
++		if (IS_HARDWARE_TYPE_JAGUAR(pAdapter) || IS_HARDWARE_TYPE_8814A(pAdapter) /*|| IS_HARDWARE_TYPE_8822B(pAdapter)*/)
++			PHY_SetBBReg(pAdapter, 0x914, BIT18 | BIT17 | BIT16, OFDM_ALL_OFF);
++		else
++			PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ALL_OFF);
++		/*/Delay 10 ms*/
++		rtw_msleep_os(10);
++
++		if (!IS_HARDWARE_TYPE_JAGUAR(pAdapter) && !IS_HARDWARE_TYPE_8814A(pAdapter) /*&&! IS_HARDWARE_TYPE_8822B(pAdapter)*/) {
++			PHY_SetBBReg(pAdapter, 0xa14, 0x300, 0x0);/*/ 0xa15[1:0] = 0*/
++			PHY_SetBBReg(pAdapter, rOFDM0_TRMuxPar, 0x10000, 0x0);/*/ 0xc08[16] = 0*/
++		}
++
++		/*/BB Reset*/
++		PHY_SetBBReg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
++		PHY_SetBBReg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
++
++		write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000100);
++		write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000100);
++	}
++
++	pAdapter->mppriv.MptCtx.bCckContTx = _FALSE;
++	pAdapter->mppriv.MptCtx.bOfdmContTx = bStart;
++}
++
++void hal_mpt_SetContinuousTx(PADAPTER pAdapter, u8 bStart)
++{
++	u8 Rate;
++
++	Rate = HwRateToMPTRate(pAdapter->mppriv.rateidx);
++	pAdapter->mppriv.MptCtx.bStartContTx = bStart;
++
++	if (Rate <= MPT_RATE_11M)
++		hal_mpt_SetCCKContinuousTx(pAdapter, bStart);
++	else if (Rate >= MPT_RATE_6M)
++		hal_mpt_SetOFDMContinuousTx(pAdapter, bStart);
++}
++
++u32 hal_mpt_query_phytxok(PADAPTER	pAdapter)
++{
++	PMPT_CONTEXT pMptCtx = &(pAdapter->mppriv.MptCtx);
++	RT_PMAC_TX_INFO PMacTxInfo = pMptCtx->PMacTxInfo;
++	u16 count = 0;
++
++	if (IS_MPT_CCK_RATE(PMacTxInfo.TX_RATE))
++		count = PHY_QueryBBReg(pAdapter, 0xF50, bMaskLWord); /* [15:0]*/
++	else
++		count = PHY_QueryBBReg(pAdapter, 0xF50, bMaskHWord); /* [31:16]*/
++
++	if (count > 50000) {
++		rtw_reset_phy_trx_ok_counters(pAdapter);
++		pAdapter->mppriv.tx.sended += count;
++		count = 0;
++	}
++
++	return pAdapter->mppriv.tx.sended + count;
++
++}
++
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8821B) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++/* for HW TX mode */
++static	VOID mpt_StopCckContTx(
++	PADAPTER	pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);
++	u1Byte			u1bReg;
++
++	pMptCtx->bCckContTx = FALSE;
++	pMptCtx->bOfdmContTx = FALSE;
++
++	PHY_SetBBReg(pAdapter, rCCK0_System, bCCKBBMode, 0x0);	/*normal mode*/
++	PHY_SetBBReg(pAdapter, rCCK0_System, bCCKScramble, 0x1);	/*turn on scramble setting*/
++
++	if (!IS_HARDWARE_TYPE_JAGUAR(pAdapter) && !IS_HARDWARE_TYPE_JAGUAR2(pAdapter)) {
++		PHY_SetBBReg(pAdapter, 0xa14, 0x300, 0x0);			/* 0xa15[1:0] = 2b00*/
++		PHY_SetBBReg(pAdapter, rOFDM0_TRMuxPar, 0x10000, 0x0);		/* 0xc08[16] = 0*/
++
++		PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter2, BIT14, 0);
++		PHY_SetBBReg(pAdapter, 0x0B34, BIT14, 0);
++	}
++
++	/*BB Reset*/
++	PHY_SetBBReg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
++	PHY_SetBBReg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
++
++	PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000100);
++	PHY_SetBBReg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000100);
++
++}	/* mpt_StopCckContTx */
++
++
++static	VOID mpt_StopOfdmContTx(
++	PADAPTER	pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);
++	u1Byte			u1bReg;
++	u4Byte			data;
++
++	pMptCtx->bCckContTx = FALSE;
++	pMptCtx->bOfdmContTx = FALSE;
++
++	if (IS_HARDWARE_TYPE_JAGUAR(pAdapter) || IS_HARDWARE_TYPE_JAGUAR2(pAdapter))
++		PHY_SetBBReg(pAdapter, 0x914, BIT18 | BIT17 | BIT16, OFDM_ALL_OFF);
++	else
++		PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ALL_OFF);
++
++	rtw_mdelay_os(10);
++
++	if (!IS_HARDWARE_TYPE_JAGUAR(pAdapter) && !IS_HARDWARE_TYPE_JAGUAR2(pAdapter)) {
++		PHY_SetBBReg(pAdapter, 0xa14, 0x300, 0x0);			/* 0xa15[1:0] = 0*/
++		PHY_SetBBReg(pAdapter, rOFDM0_TRMuxPar, 0x10000, 0x0);		/* 0xc08[16] = 0*/
++	}
++
++	/*BB Reset*/
++	PHY_SetBBReg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
++	PHY_SetBBReg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
++
++	PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000100);
++	PHY_SetBBReg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000100);
++}	/* mpt_StopOfdmContTx */
++
++
++static	VOID mpt_StartCckContTx(
++	PADAPTER		pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);
++	u4Byte			cckrate;
++
++	/* 1. if CCK block on */
++	if (!PHY_QueryBBReg(pAdapter, rFPGA0_RFMOD, bCCKEn))
++		PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bCCKEn, 1);/*set CCK block on*/
++
++	/*Turn Off All Test Mode*/
++	if (IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(pAdapter))
++		PHY_SetBBReg(pAdapter, 0x914, BIT18 | BIT17 | BIT16, OFDM_ALL_OFF);
++	else
++		PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ALL_OFF);
++
++	cckrate  = pAdapter->mppriv.rateidx;
++
++	PHY_SetBBReg(pAdapter, rCCK0_System, bCCKTxRate, cckrate);
++
++	PHY_SetBBReg(pAdapter, rCCK0_System, bCCKBBMode, 0x2);	/*transmit mode*/
++	PHY_SetBBReg(pAdapter, rCCK0_System, bCCKScramble, 0x1);	/*turn on scramble setting*/
++
++	if (!IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(pAdapter)) {
++		PHY_SetBBReg(pAdapter, 0xa14, 0x300, 0x3);			/* 0xa15[1:0] = 11 force cck rxiq = 0*/
++		PHY_SetBBReg(pAdapter, rOFDM0_TRMuxPar, 0x10000, 0x1);		/* 0xc08[16] = 1 force ofdm rxiq = ofdm txiq*/
++		PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter2, BIT14, 1);
++		PHY_SetBBReg(pAdapter, 0x0B34, BIT14, 1);
++	}
++
++	PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000500);
++	PHY_SetBBReg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000500);
++
++	pMptCtx->bCckContTx = TRUE;
++	pMptCtx->bOfdmContTx = FALSE;
++
++}	/* mpt_StartCckContTx */
++
++
++static	VOID mpt_StartOfdmContTx(
++	PADAPTER		pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);
++
++	/* 1. if OFDM block on?*/
++	if (!PHY_QueryBBReg(pAdapter, rFPGA0_RFMOD, bOFDMEn))
++		PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bOFDMEn, 1);/*set OFDM block on*/
++
++	/* 2. set CCK test mode off, set to CCK normal mode*/
++	PHY_SetBBReg(pAdapter, rCCK0_System, bCCKBBMode, 0);
++
++	/* 3. turn on scramble setting*/
++	PHY_SetBBReg(pAdapter, rCCK0_System, bCCKScramble, 1);
++
++	if (!IS_HARDWARE_TYPE_JAGUAR(pAdapter) && !IS_HARDWARE_TYPE_JAGUAR2(pAdapter)) {
++		PHY_SetBBReg(pAdapter, 0xa14, 0x300, 0x3);			/* 0xa15[1:0] = 2b'11*/
++		PHY_SetBBReg(pAdapter, rOFDM0_TRMuxPar, 0x10000, 0x1);		/* 0xc08[16] = 1*/
++	}
++
++	/* 4. Turn On Continue Tx and turn off the other test modes.*/
++	if (IS_HARDWARE_TYPE_JAGUAR(pAdapter) || IS_HARDWARE_TYPE_JAGUAR2(pAdapter))
++		PHY_SetBBReg(pAdapter, 0x914, BIT18 | BIT17 | BIT16, OFDM_ContinuousTx);
++	else
++		PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ContinuousTx);
++
++	PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000500);
++	PHY_SetBBReg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000500);
++
++	pMptCtx->bCckContTx = FALSE;
++	pMptCtx->bOfdmContTx = TRUE;
++}	/* mpt_StartOfdmContTx */
++
++
++void mpt_ProSetPMacTx(PADAPTER	Adapter)
++{
++	PMPT_CONTEXT	pMptCtx		=	&(Adapter->mppriv.MptCtx);
++	RT_PMAC_TX_INFO	PMacTxInfo	=	pMptCtx->PMacTxInfo;
++	u32			u4bTmp;
++
++	DbgPrint("SGI %d bSPreamble %d bSTBC %d bLDPC %d NDP_sound %d\n", PMacTxInfo.bSGI, PMacTxInfo.bSPreamble, PMacTxInfo.bSTBC, PMacTxInfo.bLDPC, PMacTxInfo.NDP_sound);
++	DbgPrint("TXSC %d BandWidth %d PacketPeriod %d PacketCount %d PacketLength %d PacketPattern %d\n", PMacTxInfo.TX_SC, PMacTxInfo.BandWidth, PMacTxInfo.PacketPeriod, PMacTxInfo.PacketCount,
++		 PMacTxInfo.PacketLength, PMacTxInfo.PacketPattern);
++#if 0
++	PRINT_DATA("LSIG ", PMacTxInfo.LSIG, 3);
++	PRINT_DATA("HT_SIG", PMacTxInfo.HT_SIG, 6);
++	PRINT_DATA("VHT_SIG_A", PMacTxInfo.VHT_SIG_A, 6);
++	PRINT_DATA("VHT_SIG_B", PMacTxInfo.VHT_SIG_B, 4);
++	DbgPrint("VHT_SIG_B_CRC %x\n", PMacTxInfo.VHT_SIG_B_CRC);
++	PRINT_DATA("VHT_Delimiter", PMacTxInfo.VHT_Delimiter, 4);
++
++	PRINT_DATA("Src Address", Adapter->mac_addr, 6);
++	PRINT_DATA("Dest Address", PMacTxInfo.MacAddress, 6);
++#endif
++
++	if (PMacTxInfo.bEnPMacTx == FALSE) {
++		if (PMacTxInfo.Mode == CONTINUOUS_TX) {
++			PHY_SetBBReg(Adapter, 0xb04, 0xf, 2);			/*	TX Stop*/
++			if (IS_MPT_CCK_RATE(PMacTxInfo.TX_RATE))
++				mpt_StopCckContTx(Adapter);
++			else
++				mpt_StopOfdmContTx(Adapter);
++		} else if (IS_MPT_CCK_RATE(PMacTxInfo.TX_RATE)) {
++			u4bTmp = PHY_QueryBBReg(Adapter, 0xf50, bMaskLWord);
++			PHY_SetBBReg(Adapter, 0xb1c, bMaskLWord, u4bTmp + 50);
++			PHY_SetBBReg(Adapter, 0xb04, 0xf, 2);		/*TX Stop*/
++		} else
++			PHY_SetBBReg(Adapter, 0xb04, 0xf, 2);		/*	TX Stop*/
++
++		if (PMacTxInfo.Mode == OFDM_Single_Tone_TX) {
++			/* Stop HW TX -> Stop Continuous TX -> Stop RF Setting*/
++			if (IS_MPT_CCK_RATE(PMacTxInfo.TX_RATE))
++				mpt_StopCckContTx(Adapter);
++			else
++				mpt_StopOfdmContTx(Adapter);
++
++			mpt_SetSingleTone_8814A(Adapter, FALSE, TRUE);
++		}
++
++		return;
++	}
++
++	if (PMacTxInfo.Mode == CONTINUOUS_TX) {
++		PMacTxInfo.PacketCount = 1;
++
++		if (IS_MPT_CCK_RATE(PMacTxInfo.TX_RATE))
++			mpt_StartCckContTx(Adapter);
++		else
++			mpt_StartOfdmContTx(Adapter);
++	} else if (PMacTxInfo.Mode == OFDM_Single_Tone_TX) {
++		/* Continuous TX -> HW TX -> RF Setting */
++		PMacTxInfo.PacketCount = 1;
++
++		if (IS_MPT_CCK_RATE(PMacTxInfo.TX_RATE))
++			mpt_StartCckContTx(Adapter);
++		else
++			mpt_StartOfdmContTx(Adapter);
++	} else if (PMacTxInfo.Mode == PACKETS_TX) {
++		if (IS_MPT_CCK_RATE(PMacTxInfo.TX_RATE) && PMacTxInfo.PacketCount == 0)
++			PMacTxInfo.PacketCount = 0xffff;
++	}
++
++	if (IS_MPT_CCK_RATE(PMacTxInfo.TX_RATE)) {
++		/* 0xb1c[0:15] TX packet count 0xb1C[31:16]	SFD*/
++		u4bTmp = PMacTxInfo.PacketCount | (PMacTxInfo.SFD << 16);
++		PHY_SetBBReg(Adapter, 0xb1c, bMaskDWord, u4bTmp);
++		/* 0xb40 7:0 SIGNAL	15:8 SERVICE	31:16 LENGTH*/
++		u4bTmp = PMacTxInfo.SignalField | (PMacTxInfo.ServiceField << 8) | (PMacTxInfo.LENGTH << 16);
++		PHY_SetBBReg(Adapter, 0xb40, bMaskDWord, u4bTmp);
++		u4bTmp = PMacTxInfo.CRC16[0] | (PMacTxInfo.CRC16[1] << 8);
++		PHY_SetBBReg(Adapter, 0xb44, bMaskLWord, u4bTmp);
++
++		if (PMacTxInfo.bSPreamble)
++			PHY_SetBBReg(Adapter, 0xb0c, BIT27, 0);
++		else
++			PHY_SetBBReg(Adapter, 0xb0c, BIT27, 1);
++	} else {
++		PHY_SetBBReg(Adapter, 0xb18, 0xfffff, PMacTxInfo.PacketCount);
++
++		u4bTmp = PMacTxInfo.LSIG[0] | ((PMacTxInfo.LSIG[1]) << 8) | ((PMacTxInfo.LSIG[2]) << 16) | ((PMacTxInfo.PacketPattern) << 24);
++		PHY_SetBBReg(Adapter, 0xb08, bMaskDWord, u4bTmp);	/*	Set 0xb08[23:0] = LSIG, 0xb08[31:24] =  Data init octet*/
++
++		if (PMacTxInfo.PacketPattern == 0x12)
++			u4bTmp = 0x3000000;
++		else
++			u4bTmp = 0;
++	}
++
++	if (IS_MPT_HT_RATE(PMacTxInfo.TX_RATE)) {
++		u4bTmp |= PMacTxInfo.HT_SIG[0] | ((PMacTxInfo.HT_SIG[1]) << 8) | ((PMacTxInfo.HT_SIG[2]) << 16);
++		PHY_SetBBReg(Adapter, 0xb0c, bMaskDWord, u4bTmp);
++		u4bTmp = PMacTxInfo.HT_SIG[3] | ((PMacTxInfo.HT_SIG[4]) << 8) | ((PMacTxInfo.HT_SIG[5]) << 16);
++		PHY_SetBBReg(Adapter, 0xb10, 0xffffff, u4bTmp);
++	} else if (IS_MPT_VHT_RATE(PMacTxInfo.TX_RATE)) {
++		u4bTmp |= PMacTxInfo.VHT_SIG_A[0] | ((PMacTxInfo.VHT_SIG_A[1]) << 8) | ((PMacTxInfo.VHT_SIG_A[2]) << 16);
++		PHY_SetBBReg(Adapter, 0xb0c, bMaskDWord, u4bTmp);
++		u4bTmp = PMacTxInfo.VHT_SIG_A[3] | ((PMacTxInfo.VHT_SIG_A[4]) << 8) | ((PMacTxInfo.VHT_SIG_A[5]) << 16);
++		PHY_SetBBReg(Adapter, 0xb10, 0xffffff, u4bTmp);
++
++		_rtw_memcpy(&u4bTmp, PMacTxInfo.VHT_SIG_B, 4);
++		PHY_SetBBReg(Adapter, 0xb14, bMaskDWord, u4bTmp);
++	}
++
++	if (IS_MPT_VHT_RATE(PMacTxInfo.TX_RATE)) {
++		u4bTmp = (PMacTxInfo.VHT_SIG_B_CRC << 24) | PMacTxInfo.PacketPeriod;	/* for TX interval */
++		PHY_SetBBReg(Adapter, 0xb20, bMaskDWord, u4bTmp);
++
++		_rtw_memcpy(&u4bTmp, PMacTxInfo.VHT_Delimiter, 4);
++		PHY_SetBBReg(Adapter, 0xb24, bMaskDWord, u4bTmp);
++
++		/* 0xb28 - 0xb34 24 byte Probe Request MAC Header*/
++		/*& Duration & Frame control*/
++		PHY_SetBBReg(Adapter, 0xb28, bMaskDWord, 0x00000040);
++
++		/* Address1 [0:3]*/
++		u4bTmp = PMacTxInfo.MacAddress[0] | (PMacTxInfo.MacAddress[1] << 8) | (PMacTxInfo.MacAddress[2] << 16) | (PMacTxInfo.MacAddress[3] << 24);
++		PHY_SetBBReg(Adapter, 0xb2C, bMaskDWord, u4bTmp);
++
++		/* Address3 [3:0]*/
++		PHY_SetBBReg(Adapter, 0xb38, bMaskDWord, u4bTmp);
++
++		/* Address2[0:1] & Address1 [5:4]*/
++		u4bTmp = PMacTxInfo.MacAddress[4] | (PMacTxInfo.MacAddress[5] << 8) | (Adapter->mac_addr[0] << 16) | (Adapter->mac_addr[1] << 24);
++		PHY_SetBBReg(Adapter, 0xb30, bMaskDWord, u4bTmp);
++
++		/* Address2 [5:2]*/
++		u4bTmp = Adapter->mac_addr[2] | (Adapter->mac_addr[3] << 8) | (Adapter->mac_addr[4] << 16) | (Adapter->mac_addr[5] << 24);
++		PHY_SetBBReg(Adapter, 0xb34, bMaskDWord, u4bTmp);
++
++		/* Sequence Control & Address3 [5:4]*/
++		/*u4bTmp = PMacTxInfo.MacAddress[4]|(PMacTxInfo.MacAddress[5] << 8) ;*/
++		/*PHY_SetBBReg(Adapter, 0xb38, bMaskDWord, u4bTmp);*/
++	} else {
++		PHY_SetBBReg(Adapter, 0xb20, bMaskDWord, PMacTxInfo.PacketPeriod);	/* for TX interval*/
++		/* & Duration & Frame control */
++		PHY_SetBBReg(Adapter, 0xb24, bMaskDWord, 0x00000040);
++
++		/* 0xb24 - 0xb38 24 byte Probe Request MAC Header*/
++		/* Address1 [0:3]*/
++		u4bTmp = PMacTxInfo.MacAddress[0] | (PMacTxInfo.MacAddress[1] << 8) | (PMacTxInfo.MacAddress[2] << 16) | (PMacTxInfo.MacAddress[3] << 24);
++		PHY_SetBBReg(Adapter, 0xb28, bMaskDWord, u4bTmp);
++
++		/* Address3 [3:0]*/
++		PHY_SetBBReg(Adapter, 0xb34, bMaskDWord, u4bTmp);
++
++		/* Address2[0:1] & Address1 [5:4]*/
++		u4bTmp = PMacTxInfo.MacAddress[4] | (PMacTxInfo.MacAddress[5] << 8) | (Adapter->mac_addr[0] << 16) | (Adapter->mac_addr[1] << 24);
++		PHY_SetBBReg(Adapter, 0xb2c, bMaskDWord, u4bTmp);
++
++		/* Address2 [5:2] */
++		u4bTmp = Adapter->mac_addr[2] | (Adapter->mac_addr[3] << 8) | (Adapter->mac_addr[4] << 16) | (Adapter->mac_addr[5] << 24);
++		PHY_SetBBReg(Adapter, 0xb30, bMaskDWord, u4bTmp);
++
++		/* Sequence Control & Address3 [5:4]*/
++		u4bTmp = PMacTxInfo.MacAddress[4] | (PMacTxInfo.MacAddress[5] << 8);
++		PHY_SetBBReg(Adapter, 0xb38, bMaskDWord, u4bTmp);
++	}
++
++	PHY_SetBBReg(Adapter, 0xb48, bMaskByte3, PMacTxInfo.TX_RATE_HEX);
++
++	/* 0xb4c 3:0 TXSC	5:4	BW	7:6 m_STBC	8 NDP_Sound*/
++	u4bTmp = (PMacTxInfo.TX_SC) | ((PMacTxInfo.BandWidth) << 4) | ((PMacTxInfo.m_STBC - 1) << 6) | ((PMacTxInfo.NDP_sound) << 8);
++	PHY_SetBBReg(Adapter, 0xb4c, 0x1ff, u4bTmp);
++
++	if (IS_HARDWARE_TYPE_8814A(Adapter) || IS_HARDWARE_TYPE_8822B(Adapter)) {
++		u4Byte offset = 0xb44;
++
++		if (IS_MPT_OFDM_RATE(PMacTxInfo.TX_RATE))
++			PHY_SetBBReg(Adapter, offset, 0xc0000000, 0);
++		else if (IS_MPT_HT_RATE(PMacTxInfo.TX_RATE))
++			PHY_SetBBReg(Adapter, offset, 0xc0000000, 1);
++		else if (IS_MPT_VHT_RATE(PMacTxInfo.TX_RATE))
++			PHY_SetBBReg(Adapter, offset, 0xc0000000, 2);
++	}
++
++	PHY_SetBBReg(Adapter, 0xb00, BIT8, 1);		/*	Turn on PMAC*/
++	/* PHY_SetBBReg(Adapter, 0xb04, 0xf, 2);				 */ /* TX Stop */
++	if (IS_MPT_CCK_RATE(PMacTxInfo.TX_RATE)) {
++		PHY_SetBBReg(Adapter, 0xb04, 0xf, 8);		/*TX CCK ON*/
++		PHY_SetBBReg(Adapter, 0xA84, BIT31, 0);
++	} else
++		PHY_SetBBReg(Adapter, 0xb04, 0xf, 4);		/*	TX Ofdm ON	*/
++
++	if (PMacTxInfo.Mode == OFDM_Single_Tone_TX)
++		mpt_SetSingleTone_8814A(Adapter, TRUE, TRUE);
++
++}
++#endif
++
++#endif /* CONFIG_MP_INCLUDE*/
+diff --git a/drivers/net/wireless/rtl8723du/hal/hal_phy.c b/drivers/net/wireless/rtl8723du/hal/hal_phy.c
+new file mode 100644
+index 0000000..5c87dbb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/hal_phy.c
+@@ -0,0 +1,260 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HAL_PHY_C_
++
++#include <drv_types.h>
++
++/* ********************************************************************************
++ *	Constant.
++ * ********************************************************************************
++ * 2008/11/20 MH For Debug only, RF */
++static RF_SHADOW_T RF_Shadow[RF6052_MAX_PATH][RF6052_MAX_REG];
++
++/**
++* Function:	PHY_CalculateBitShift
++*
++* OverView:	Get shifted position of the BitMask
++*
++* Input:
++*			u4Byte		BitMask,
++*
++* Output:	none
++* Return:		u4Byte		Return the shift bit bit position of the mask
++*/
++u32
++PHY_CalculateBitShift(
++	u32 BitMask
++)
++{
++	u32 i;
++
++	for (i = 0; i <= 31; i++) {
++		if (((BitMask >> i) &  0x1) == 1)
++			break;
++	}
++
++	return i;
++}
++
++
++/*
++ * ==> RF shadow Operation API Code Section!!!
++ *
++ *-----------------------------------------------------------------------------
++ * Function:	PHY_RFShadowRead
++ *				PHY_RFShadowWrite
++ *				PHY_RFShadowCompare
++ *				PHY_RFShadowRecorver
++ *				PHY_RFShadowCompareAll
++ *				PHY_RFShadowRecorverAll
++ *				PHY_RFShadowCompareFlagSet
++ *				PHY_RFShadowRecorverFlagSet
++ *
++ * Overview:	When we set RF register, we must write shadow at first.
++ *			When we are running, we must compare shadow abd locate error addr.
++ *			Decide to recorver or not.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/20/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++u32
++PHY_RFShadowRead(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset)
++{
++	return	RF_Shadow[eRFPath][Offset].Value;
++
++}	/* PHY_RFShadowRead */
++
++
++VOID
++PHY_RFShadowWrite(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset,
++	IN	u32				Data)
++{
++	RF_Shadow[eRFPath][Offset].Value = (Data & bRFRegOffsetMask);
++	RF_Shadow[eRFPath][Offset].Driver_Write = _TRUE;
++
++}	/* PHY_RFShadowWrite */
++
++
++BOOLEAN
++PHY_RFShadowCompare(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset)
++{
++	u32	reg;
++	/* Check if we need to check the register */
++	if (RF_Shadow[eRFPath][Offset].Compare == _TRUE) {
++		reg = rtw_hal_read_rfreg(Adapter, eRFPath, Offset, bRFRegOffsetMask);
++		/* Compare shadow and real rf register for 20bits!! */
++		if (RF_Shadow[eRFPath][Offset].Value != reg) {
++			/* Locate error position. */
++			RF_Shadow[eRFPath][Offset].ErrorOrNot = _TRUE;
++		}
++		return RF_Shadow[eRFPath][Offset].ErrorOrNot ;
++	}
++	return _FALSE;
++}	/* PHY_RFShadowCompare */
++
++
++VOID
++PHY_RFShadowRecorver(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset)
++{
++	/* Check if the address is error */
++	if (RF_Shadow[eRFPath][Offset].ErrorOrNot == _TRUE) {
++		/* Check if we need to recorver the register. */
++		if (RF_Shadow[eRFPath][Offset].Recorver == _TRUE) {
++			rtw_hal_write_rfreg(Adapter, eRFPath, Offset, bRFRegOffsetMask,
++					    RF_Shadow[eRFPath][Offset].Value);
++		}
++	}
++
++}	/* PHY_RFShadowRecorver */
++
++
++VOID
++PHY_RFShadowCompareAll(
++	IN	PADAPTER			Adapter)
++{
++	u8		eRFPath = 0 ;
++	u32		Offset = 0, maxReg = GET_RF6052_REAL_MAX_REG(Adapter);
++
++	for (eRFPath = 0; eRFPath < RF6052_MAX_PATH; eRFPath++) {
++		for (Offset = 0; Offset < maxReg; Offset++)
++			PHY_RFShadowCompare(Adapter, eRFPath, Offset);
++	}
++
++}	/* PHY_RFShadowCompareAll */
++
++
++VOID
++PHY_RFShadowRecorverAll(
++	IN	PADAPTER			Adapter)
++{
++	u8		eRFPath = 0;
++	u32		Offset = 0, maxReg = GET_RF6052_REAL_MAX_REG(Adapter);
++
++	for (eRFPath = 0; eRFPath < RF6052_MAX_PATH; eRFPath++) {
++		for (Offset = 0; Offset < maxReg; Offset++)
++			PHY_RFShadowRecorver(Adapter, eRFPath, Offset);
++	}
++
++}	/* PHY_RFShadowRecorverAll */
++
++
++VOID
++PHY_RFShadowCompareFlagSet(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset,
++	IN	u8				Type)
++{
++	/* Set True or False!!! */
++	RF_Shadow[eRFPath][Offset].Compare = Type;
++
++}	/* PHY_RFShadowCompareFlagSet */
++
++
++VOID
++PHY_RFShadowRecorverFlagSet(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset,
++	IN	u8				Type)
++{
++	/* Set True or False!!! */
++	RF_Shadow[eRFPath][Offset].Recorver = Type;
++
++}	/* PHY_RFShadowRecorverFlagSet */
++
++
++VOID
++PHY_RFShadowCompareFlagSetAll(
++	IN	PADAPTER			Adapter)
++{
++	u8		eRFPath = 0;
++	u32		Offset = 0, maxReg = GET_RF6052_REAL_MAX_REG(Adapter);
++
++	for (eRFPath = 0; eRFPath < RF6052_MAX_PATH; eRFPath++) {
++		for (Offset = 0; Offset < maxReg; Offset++) {
++			/* 2008/11/20 MH For S3S4 test, we only check reg 26/27 now!!!! */
++			if (Offset != 0x26 && Offset != 0x27)
++				PHY_RFShadowCompareFlagSet(Adapter, eRFPath, Offset, _FALSE);
++			else
++				PHY_RFShadowCompareFlagSet(Adapter, eRFPath, Offset, _TRUE);
++		}
++	}
++
++}	/* PHY_RFShadowCompareFlagSetAll */
++
++
++VOID
++PHY_RFShadowRecorverFlagSetAll(
++	IN	PADAPTER			Adapter)
++{
++	u8		eRFPath = 0;
++	u32		Offset = 0, maxReg = GET_RF6052_REAL_MAX_REG(Adapter);
++
++	for (eRFPath = 0; eRFPath < RF6052_MAX_PATH; eRFPath++) {
++		for (Offset = 0; Offset < maxReg; Offset++) {
++			/* 2008/11/20 MH For S3S4 test, we only check reg 26/27 now!!!! */
++			if (Offset != 0x26 && Offset != 0x27)
++				PHY_RFShadowRecorverFlagSet(Adapter, eRFPath, Offset, _FALSE);
++			else
++				PHY_RFShadowRecorverFlagSet(Adapter, eRFPath, Offset, _TRUE);
++		}
++	}
++
++}	/* PHY_RFShadowCompareFlagSetAll */
++
++VOID
++PHY_RFShadowRefresh(
++	IN	PADAPTER			Adapter)
++{
++	u8		eRFPath = 0;
++	u32		Offset = 0, maxReg = GET_RF6052_REAL_MAX_REG(Adapter);
++
++	for (eRFPath = 0; eRFPath < RF6052_MAX_PATH; eRFPath++) {
++		for (Offset = 0; Offset < maxReg; Offset++) {
++			RF_Shadow[eRFPath][Offset].Value = 0;
++			RF_Shadow[eRFPath][Offset].Compare = _FALSE;
++			RF_Shadow[eRFPath][Offset].Recorver  = _FALSE;
++			RF_Shadow[eRFPath][Offset].ErrorOrNot = _FALSE;
++			RF_Shadow[eRFPath][Offset].Driver_Write = _FALSE;
++		}
++	}
++
++}	/* PHY_RFShadowRead */
+diff --git a/drivers/net/wireless/rtl8723du/hal/led/hal_usb_led.c b/drivers/net/wireless/rtl8723du/hal/led/hal_usb_led.c
+new file mode 100644
+index 0000000..44324f6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/led/hal_usb_led.c
+@@ -0,0 +1,4287 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++/*
++ *	Description:
++ *		Implementation of LED blinking behavior.
++ *		It toggle off LED and schedule corresponding timer if necessary.
++ *   */
++void
++SwLedBlink(
++	PLED_USB			pLed
++)
++{
++	_adapter			*padapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	u8				bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(padapter, pLed);
++	} else {
++		SwLedOff(padapter, pLed);
++	}
++
++	/* Determine if we shall change LED state again. */
++	pLed->BlinkTimes--;
++	switch (pLed->CurrLedState) {
++
++	case LED_BLINK_NORMAL:
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		break;
++
++	case LED_BLINK_StartToBlink:
++		if (check_fwstate(pmlmepriv, _FW_LINKED) && check_fwstate(pmlmepriv, WIFI_STATION_STATE))
++			bStopBlinking = _TRUE;
++		if (check_fwstate(pmlmepriv, _FW_LINKED) &&
++		    (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) || check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE)))
++			bStopBlinking = _TRUE;
++		else if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		break;
++
++	case LED_BLINK_WPS:
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		break;
++
++
++	default:
++		bStopBlinking = _TRUE;
++		break;
++
++	}
++
++	if (bStopBlinking) {
++		if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++			SwLedOff(padapter, pLed);
++		else if ((check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) && (pLed->bLedOn == _FALSE))
++			SwLedOn(padapter, pLed);
++		else if ((check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) &&  pLed->bLedOn == _TRUE)
++			SwLedOff(padapter, pLed);
++
++		pLed->BlinkTimes = 0;
++		pLed->bLedBlinkInProgress = _FALSE;
++	} else {
++		/* Assign LED state to toggle. */
++		if (pLed->BlinkingLedState == RTW_LED_ON)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++
++		/* Schedule a timer to toggle LED state. */
++		switch (pLed->CurrLedState) {
++		case LED_BLINK_NORMAL:
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++			break;
++
++		case LED_BLINK_SLOWLY:
++		case LED_BLINK_StartToBlink:
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++			break;
++
++		case LED_BLINK_WPS: {
++			if (pLed->BlinkingLedState == RTW_LED_ON)
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LONG_INTERVAL);
++			else
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LONG_INTERVAL);
++		}
++		break;
++
++		default:
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++			break;
++		}
++	}
++}
++
++void
++SwLedBlink1(
++	PLED_USB			pLed
++)
++{
++	_adapter				*padapter = pLed->padapter;
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(padapter);
++	struct led_priv		*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv		*pmlmepriv = &(padapter->mlmepriv);
++	PLED_USB			pLed1 = &(ledpriv->SwLed1);
++	u8					bStopBlinking = _FALSE;
++
++	u32 uLedBlinkNoLinkInterval = LED_BLINK_NO_LINK_INTERVAL_ALPHA; /* add by ylb 20121012 for customer led for alpha */
++	if (pHalData->CustomerID == RT_CID_819x_ALPHA_Dlink)
++		uLedBlinkNoLinkInterval = LED_BLINK_NO_LINK_INTERVAL_ALPHA_500MS;
++
++	if (pHalData->CustomerID == RT_CID_819x_CAMEO)
++		pLed = &(ledpriv->SwLed1);
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(padapter, pLed);
++	} else {
++		SwLedOff(padapter, pLed);
++	}
++
++
++	if (pHalData->CustomerID == RT_CID_DEFAULT) {
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++			if (!pLed1->bSWLedCtrl) {
++				SwLedOn(padapter, pLed1);
++				pLed1->bSWLedCtrl = _TRUE;
++			} else if (!pLed1->bLedOn)
++				SwLedOn(padapter, pLed1);
++		} else {
++			if (!pLed1->bSWLedCtrl) {
++				SwLedOff(padapter, pLed1);
++				pLed1->bSWLedCtrl = _TRUE;
++			} else if (pLed1->bLedOn)
++				SwLedOff(padapter, pLed1);
++		}
++	}
++
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_SLOWLY:
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), uLedBlinkNoLinkInterval);/* change by ylb 20121012 for customer led for alpha */
++		break;
++
++	case LED_BLINK_NORMAL:
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++		break;
++
++	case LED_BLINK_SCAN:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				pLed->bLedLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_NORMAL;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++
++			} else if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				pLed->bLedNoLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), uLedBlinkNoLinkInterval);
++			}
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_TXRX:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				pLed->bLedLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_NORMAL;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++			} else if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				pLed->bLedNoLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), uLedBlinkNoLinkInterval);
++			}
++			pLed->BlinkTimes = 0;
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_WPS:
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		break;
++
++	case LED_BLINK_WPS_STOP:	/* WPS success */
++		if (pLed->BlinkingLedState == RTW_LED_ON) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_WPS_SUCESS_INTERVAL_ALPHA);
++			bStopBlinking = _FALSE;
++		} else
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else {
++				pLed->bLedLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_NORMAL;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++			}
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++		break;
++
++	default:
++		break;
++	}
++
++}
++
++void
++SwLedBlink2(
++	PLED_USB			pLed
++)
++{
++	_adapter				*padapter = pLed->padapter;
++	struct mlme_priv		*pmlmepriv = &(padapter->mlmepriv);
++	u8					bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(padapter, pLed);
++	} else {
++		SwLedOff(padapter, pLed);
++	}
++
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_SCAN:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				SwLedOn(padapter, pLed);
++
++			} else if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				SwLedOff(padapter, pLed);
++			}
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_TXRX:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				SwLedOn(padapter, pLed);
++
++			} else if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				SwLedOff(padapter, pLed);
++			}
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	default:
++		break;
++	}
++
++}
++
++void
++SwLedBlink3(
++	PLED_USB			pLed
++)
++{
++	_adapter			*padapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	u8				bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(padapter, pLed);
++	} else {
++		if (pLed->CurrLedState != LED_BLINK_WPS_STOP)
++			SwLedOff(padapter, pLed);
++	}
++
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_SCAN:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				if (!pLed->bLedOn)
++					SwLedOn(padapter, pLed);
++
++			} else if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				if (pLed->bLedOn)
++					SwLedOff(padapter, pLed);
++
++			}
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_TXRX:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++
++				if (!pLed->bLedOn)
++					SwLedOn(padapter, pLed);
++
++			} else if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++
++				if (pLed->bLedOn)
++					SwLedOff(padapter, pLed);
++
++
++			}
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_WPS:
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		break;
++
++	case LED_BLINK_WPS_STOP:	/* WPS success */
++		if (pLed->BlinkingLedState == RTW_LED_ON) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_WPS_SUCESS_INTERVAL_ALPHA);
++			bStopBlinking = _FALSE;
++		} else
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else {
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				SwLedOn(padapter, pLed);
++			}
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++		break;
++
++
++	default:
++		break;
++	}
++
++}
++
++
++void
++SwLedBlink4(
++	PLED_USB			pLed
++)
++{
++	_adapter			*padapter = pLed->padapter;
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	PLED_USB		pLed1 = &(ledpriv->SwLed1);
++	u8				bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(padapter, pLed);
++	} else {
++		SwLedOff(padapter, pLed);
++	}
++
++	if (!pLed1->bLedWPSBlinkInProgress && pLed1->BlinkingLedState == LED_UNKNOWN) {
++		pLed1->BlinkingLedState = RTW_LED_OFF;
++		pLed1->CurrLedState = RTW_LED_OFF;
++		SwLedOff(padapter, pLed1);
++	}
++
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_SLOWLY:
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++		break;
++
++	case LED_BLINK_StartToBlink:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		}
++		break;
++
++	case LED_BLINK_SCAN:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _FALSE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(padapter, pLed);
++			else {
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			}
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(padapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_TXRX:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(padapter, pLed);
++			else {
++				pLed->bLedNoLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			}
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(padapter, pLed);
++			else {
++
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_WPS:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		}
++		break;
++
++	case LED_BLINK_WPS_STOP:	/* WPS authentication fail */
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		break;
++
++	case LED_BLINK_WPS_STOP_OVERLAP:	/* WPS session overlap */
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0) {
++			if (pLed->bLedOn)
++				pLed->BlinkTimes = 1;
++			else
++				bStopBlinking = _TRUE;
++		}
++
++		if (bStopBlinking) {
++			pLed->BlinkTimes = 10;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++		} else {
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		}
++		break;
++
++	case LED_BLINK_ALWAYS_ON:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(padapter, pLed);
++			else {
++				pLed->bLedNoLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			}
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS) {
++				SwLedOff(padapter, pLed);
++			} else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	default:
++		break;
++	}
++
++
++
++}
++
++void
++SwLedBlink5(
++	PLED_USB			pLed
++)
++{
++	_adapter			*padapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	u8				bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(padapter, pLed);
++	} else {
++		SwLedOff(padapter, pLed);
++	}
++
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_SCAN:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS) {
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				if (pLed->bLedOn)
++					SwLedOff(padapter, pLed);
++			} else {
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				if (!pLed->bLedOn)
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(padapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++
++	case LED_BLINK_TXRX:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS) {
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				if (pLed->bLedOn)
++					SwLedOff(padapter, pLed);
++			} else {
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				if (!pLed->bLedOn)
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(padapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	default:
++		break;
++	}
++
++
++
++}
++
++void
++SwLedBlink6(
++	PLED_USB			pLed
++)
++{
++	_adapter			*padapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	u8				bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(padapter, pLed);
++	} else {
++		SwLedOff(padapter, pLed);
++	}
++
++}
++
++void
++SwLedBlink7(
++	PLED_USB			pLed
++)
++{
++	PADAPTER Adapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	BOOLEAN bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(Adapter, pLed);
++	} else {
++		if (pLed->CurrLedState != LED_BLINK_WPS_STOP)
++			SwLedOff(Adapter, pLed);
++	}
++
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_SCAN:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on)
++				SwLedOff(Adapter, pLed);
++			else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				if (!pLed->bLedOn)
++					SwLedOn(Adapter, pLed);
++
++			} else if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				if (pLed->bLedOn)
++					SwLedOff(Adapter, pLed);
++
++			}
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on)
++				SwLedOff(Adapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_NETGEAR);
++			}
++		}
++		break;
++
++	case LED_BLINK_WPS:
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_NETGEAR);
++		break;
++
++	case LED_BLINK_WPS_STOP:	/* WPS success */
++		if (pLed->BlinkingLedState == RTW_LED_ON) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_NETGEAR);
++			bStopBlinking = _FALSE;
++		} else
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on)
++				SwLedOff(Adapter, pLed);
++			else {
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				SwLedOn(Adapter, pLed);
++			}
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++		break;
++
++
++	default:
++		break;
++	}
++
++
++}
++
++void
++SwLedBlink8(
++	PLED_USB			pLed
++)
++{
++	PADAPTER Adapter = pLed->padapter;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(Adapter, pLed);
++	} else {
++		SwLedOff(Adapter, pLed);
++	}
++
++
++}
++
++/* page added for Belkin AC950. 20120813 */
++void
++SwLedBlink9(
++	PLED_USB			pLed
++)
++{
++	PADAPTER Adapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	BOOLEAN bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(Adapter, pLed);
++	} else {
++		SwLedOff(Adapter, pLed);
++	}
++	/* RTW_INFO("%s, pLed->CurrLedState=%d, pLed->BlinkingLedState=%d\n", __FUNCTION__, pLed->CurrLedState, pLed->BlinkingLedState); */
++
++
++	switch (pLed->CurrLedState) {
++	case RTW_LED_ON:
++		SwLedOn(Adapter, pLed);
++		break;
++
++	case RTW_LED_OFF:
++		SwLedOff(Adapter, pLed);
++		break;
++
++	case LED_BLINK_SLOWLY:
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++		break;
++
++	case LED_BLINK_StartToBlink:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		}
++		break;
++
++	case LED_BLINK_SCAN:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on)
++				SwLedOff(Adapter, pLed);
++			else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				pLed->bLedLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++			} else if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				pLed->bLedNoLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			}
++			pLed->BlinkTimes = 0;
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_TXRX:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else {
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_WPS:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		}
++		break;
++
++	case LED_BLINK_WPS_STOP:	/* WPS authentication fail */
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		break;
++
++	case LED_BLINK_WPS_STOP_OVERLAP:	/* WPS session overlap		 */
++		pLed->BlinkTimes--;
++		pLed->BlinkCounter--;
++		if (pLed->BlinkCounter == 0) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			pLed->CurrLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		} else {
++			if (pLed->BlinkTimes == 0) {
++				if (pLed->bLedOn)
++					pLed->BlinkTimes = 1;
++				else
++					bStopBlinking = _TRUE;
++			}
++
++			if (bStopBlinking) {
++				pLed->BlinkTimes = 10;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++			} else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++			}
++		}
++		break;
++
++	case LED_BLINK_ALWAYS_ON:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else {
++				if (IS_HARDWARE_TYPE_8812AU(Adapter)) {
++					pLed->BlinkingLedState = RTW_LED_ON;
++					pLed->CurrLedState = LED_BLINK_ALWAYS_ON;
++				} else {
++					pLed->bLedNoLinkBlinkInProgress = _TRUE;
++					pLed->CurrLedState = LED_BLINK_SLOWLY;
++					if (pLed->bLedOn)
++						pLed->BlinkingLedState = RTW_LED_OFF;
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++				}
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			}
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS) {
++				SwLedOff(Adapter, pLed);
++			} else {
++				if (IS_HARDWARE_TYPE_8812AU(Adapter))
++					pLed->BlinkingLedState = RTW_LED_ON;
++				else {
++					if (pLed->bLedOn)
++						pLed->BlinkingLedState = RTW_LED_OFF;
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++				}
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_LINK_IN_PROCESS:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ON_BELKIN);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_OFF_BELKIN);
++		}
++		break;
++
++	case LED_BLINK_AUTH_ERROR:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking == _FALSE) {
++			if (pLed->bLedOn) {
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_ERROR_INTERVAL_BELKIN);
++			} else {
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_ERROR_INTERVAL_BELKIN);
++			}
++		} else {
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_ERROR_INTERVAL_BELKIN);
++		}
++		break;
++
++	default:
++		break;
++	}
++
++}
++
++/* page added for Netgear A6200V2. 20120827 */
++void
++SwLedBlink10(
++	PLED_USB			pLed
++)
++{
++	PADAPTER Adapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	BOOLEAN bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(Adapter, pLed);
++	} else {
++		SwLedOff(Adapter, pLed);
++	}
++
++
++	switch (pLed->CurrLedState) {
++	case RTW_LED_ON:
++		SwLedOn(Adapter, pLed);
++		break;
++
++	case RTW_LED_OFF:
++		SwLedOff(Adapter, pLed);
++		break;
++
++	case LED_BLINK_SLOWLY:
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++		break;
++
++	case LED_BLINK_StartToBlink:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		}
++		break;
++
++	case LED_BLINK_SCAN:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on)
++				SwLedOff(Adapter, pLed);
++			else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			}
++			pLed->BlinkTimes = 0;
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else {
++				if (pLed->bLedOn) {
++					pLed->BlinkingLedState = RTW_LED_OFF;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_NETGEAR);
++				} else {
++					pLed->BlinkingLedState = RTW_LED_ON;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_SLOWLY_INTERVAL_NETGEAR + LED_BLINK_LINK_INTERVAL_NETGEAR);
++				}
++			}
++		}
++		break;
++
++	case LED_BLINK_WPS:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_NETGEAR);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL + LED_BLINK_LINK_INTERVAL_NETGEAR);
++		}
++		break;
++
++	case LED_BLINK_WPS_STOP:	/* WPS authentication fail */
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		break;
++
++	case LED_BLINK_WPS_STOP_OVERLAP:	/* WPS session overlap */
++		pLed->BlinkTimes--;
++		pLed->BlinkCounter--;
++		if (pLed->BlinkCounter == 0) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			pLed->CurrLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		} else {
++			if (pLed->BlinkTimes == 0) {
++				if (pLed->bLedOn)
++					pLed->BlinkTimes = 1;
++				else
++					bStopBlinking = _TRUE;
++			}
++
++			if (bStopBlinking) {
++				pLed->BlinkTimes = 10;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++			} else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++			}
++		}
++		break;
++
++	case LED_BLINK_ALWAYS_ON:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else {
++				if (IS_HARDWARE_TYPE_8812AU(Adapter)) {
++					pLed->BlinkingLedState = RTW_LED_ON;
++					pLed->CurrLedState = LED_BLINK_ALWAYS_ON;
++				} else {
++					pLed->bLedNoLinkBlinkInProgress = _TRUE;
++					pLed->CurrLedState = LED_BLINK_SLOWLY;
++					if (pLed->bLedOn)
++						pLed->BlinkingLedState = RTW_LED_OFF;
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++				}
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			}
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS) {
++				SwLedOff(Adapter, pLed);
++			} else {
++				if (IS_HARDWARE_TYPE_8812AU(Adapter))
++					pLed->BlinkingLedState = RTW_LED_ON;
++				else {
++					if (pLed->bLedOn)
++						pLed->BlinkingLedState = RTW_LED_OFF;
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++				}
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_LINK_IN_PROCESS:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ON_BELKIN);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_OFF_BELKIN);
++		}
++		break;
++
++	case LED_BLINK_AUTH_ERROR:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking == _FALSE) {
++			if (pLed->bLedOn) {
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_ERROR_INTERVAL_BELKIN);
++			} else {
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_ERROR_INTERVAL_BELKIN);
++			}
++		} else {
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_ERROR_INTERVAL_BELKIN);
++		}
++		break;
++
++	default:
++		break;
++	}
++
++
++}
++
++void
++SwLedBlink11(
++	PLED_USB			pLed
++)
++{
++	PADAPTER Adapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	BOOLEAN bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(Adapter, pLed);
++	} else {
++		SwLedOff(Adapter, pLed);
++	}
++
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_TXRX:
++		if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++			SwLedOff(Adapter, pLed);
++		else {
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		}
++
++		break;
++
++	case LED_BLINK_WPS:
++		if (pLed->BlinkTimes == 5) {
++			SwLedOn(Adapter, pLed);
++			_set_timer(&(pLed->BlinkTimer), LED_CM11_LINK_ON_INTERVEL);
++		} else {
++			if (pLed->bLedOn) {
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_CM11_BLINK_INTERVAL);
++			} else {
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_CM11_BLINK_INTERVAL);
++			}
++		}
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking == _TRUE)
++			pLed->BlinkTimes = 5;
++		break;
++
++	case LED_BLINK_WPS_STOP:	/* WPS authentication fail */
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		} else {
++			pLed->CurrLedState = RTW_LED_ON;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			SwLedOn(Adapter, pLed);
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	default:
++		break;
++	}
++
++}
++
++void
++SwLedBlink12(
++	PLED_USB			pLed
++)
++{
++	PADAPTER Adapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	BOOLEAN bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(Adapter, pLed);
++	} else {
++		SwLedOff(Adapter, pLed);
++	}
++
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_SLOWLY:
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++		break;
++
++	case LED_BLINK_TXRX:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS) {
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				if (pLed->bLedOn)
++					SwLedOff(Adapter, pLed);
++			} else {
++				pLed->bLedNoLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			}
++
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	default:
++		break;
++	}
++
++
++
++}
++
++VOID
++SwLedBlink13(
++	IN PLED_USB			pLed
++)
++{
++	PADAPTER Adapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	BOOLEAN bStopBlinking = _FALSE;
++	static u8	LinkBlinkCnt = 0;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(Adapter, pLed);
++	} else {
++		if (pLed->CurrLedState != LED_BLINK_WPS_STOP)
++			SwLedOff(Adapter, pLed);
++	}
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_LINK_IN_PROCESS:
++		if (!pLed->bLedWPSBlinkInProgress)
++			LinkBlinkCnt++;
++
++		if (LinkBlinkCnt > 15) {
++			LinkBlinkCnt = 0;
++			pLed->bLedBlinkInProgress = _FALSE;
++			break;
++		}
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), 500);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), 500);
++		}
++
++		break;
++
++	case LED_BLINK_WPS:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_WPS_BLINK_ON_INTERVAL_NETGEAR);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_WPS_BLINK_OFF_INTERVAL_NETGEAR);
++		}
++
++		break;
++
++	case LED_BLINK_WPS_STOP:	/* WPS success */
++		SwLedOff(Adapter, pLed);
++		pLed->bLedWPSBlinkInProgress = _FALSE;
++		break;
++
++	default:
++		LinkBlinkCnt = 0;
++		break;
++	}
++
++
++}
++
++VOID
++SwLedBlink14(
++	IN PLED_USB			pLed
++)
++{
++	PADAPTER Adapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	BOOLEAN bStopBlinking = _FALSE;
++	static u8	LinkBlinkCnt = 0;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(Adapter, pLed);
++	} else {
++		if (pLed->CurrLedState != LED_BLINK_WPS_STOP)
++			SwLedOff(Adapter, pLed);
++	}
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_TXRX:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else
++				SwLedOn(Adapter, pLed);
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else {
++				if (pLed->bLedOn) {
++					pLed->BlinkingLedState = RTW_LED_OFF;
++					if (IS_HARDWARE_TYPE_8812AU(Adapter))
++						_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++					else
++						_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++				} else {
++					pLed->BlinkingLedState = RTW_LED_ON;
++					if (IS_HARDWARE_TYPE_8812AU(Adapter))
++						_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++					else
++						_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++				}
++			}
++		}
++
++		break;
++
++	default:
++		LinkBlinkCnt = 0;
++		break;
++	}
++
++}
++
++VOID
++SwLedBlink15(
++	IN PLED_USB			pLed
++)
++{
++	PADAPTER Adapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	BOOLEAN bStopBlinking = _FALSE;
++	static u8	LinkBlinkCnt = 0;
++	/* Change LED according to BlinkingLedState specified. */
++
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(Adapter, pLed);
++	} else {
++		if (pLed->CurrLedState != LED_BLINK_WPS_STOP)
++			SwLedOff(Adapter, pLed);
++	}
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_WPS:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_WPS_BLINK_ON_INTERVAL_DLINK);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_WPS_BLINK_OFF_INTERVAL_DLINK);
++		}
++		break;
++
++	case LED_BLINK_WPS_STOP:	/* WPS success */
++
++		if (pLed->BlinkingLedState == RTW_LED_OFF) {
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++			return;
++		}
++
++		pLed->CurrLedState = LED_BLINK_WPS_STOP;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++
++		_set_timer(&(pLed->BlinkTimer), LED_WPS_BLINK_LINKED_ON_INTERVAL_DLINK);
++		break;
++
++	case LED_BLINK_NO_LINK: {
++		static BOOLEAN		bLedOn = _TRUE;
++		if (bLedOn) {
++			bLedOn = _FALSE;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		} else {
++			bLedOn = _TRUE;
++			pLed->BlinkingLedState = RTW_LED_ON;
++		}
++		pLed->bLedBlinkInProgress = _TRUE;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL);
++	}
++	break;
++
++	case LED_BLINK_LINK_IDEL: {
++		static BOOLEAN		bLedOn = _TRUE;
++		if (bLedOn) {
++			bLedOn = _FALSE;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		} else {
++			bLedOn = _TRUE;
++			pLed->BlinkingLedState = RTW_LED_ON;
++
++		}
++		pLed->bLedBlinkInProgress = _TRUE;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_IDEL_INTERVAL);
++	}
++	break;
++
++	case LED_BLINK_SCAN: {
++		static u8	BlinkTime = 0;
++		if (BlinkTime % 2 == 0)
++			pLed->BlinkingLedState = RTW_LED_ON;
++		else
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		BlinkTime++;
++
++		if (BlinkTime < 24) {
++			pLed->bLedBlinkInProgress = _TRUE;
++
++			if (pLed->BlinkingLedState == RTW_LED_ON)
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_OFF_INTERVAL);
++			else
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_ON_INTERVAL);
++		} else {
++			/* if(pLed->OLDLedState ==LED_NO_LINK_BLINK) */
++			if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				pLed->CurrLedState = LED_BLINK_NO_LINK;
++				pLed->BlinkingLedState = RTW_LED_ON;
++
++				_set_timer(&(pLed->BlinkTimer), 100);
++			}
++			BlinkTime = 0;
++		}
++	}
++	break;
++
++	case LED_BLINK_TXRX:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else
++				SwLedOn(Adapter, pLed);
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	default:
++		LinkBlinkCnt = 0;
++		break;
++	}
++
++}
++
++/*
++ *	Description:
++ *		Handler function of LED Blinking.
++ *		We dispatch acture LED blink action according to LedStrategy.
++ *   */
++void BlinkHandler(PLED_USB pLed)
++{
++	_adapter		*padapter = pLed->padapter;
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++
++	/* RTW_INFO("%s (%s:%d)\n",__FUNCTION__, current->comm, current->pid); */
++
++	if (RTW_CANNOT_RUN(padapter) || (!rtw_is_hw_init_completed(padapter))) {
++		/*RTW_INFO("%s bDriverStopped:%s, bSurpriseRemoved:%s\n"
++		, __func__
++		, rtw_is_drv_stopped(padapter)?"True":"False"
++		, rtw_is_surprise_removed(padapter)?"True":"False" );*/
++		return;
++	}
++
++	switch (ledpriv->LedStrategy) {
++	case SW_LED_MODE0:
++		SwLedBlink(pLed);
++		break;
++
++	case SW_LED_MODE1:
++		SwLedBlink1(pLed);
++		break;
++
++	case SW_LED_MODE2:
++		SwLedBlink2(pLed);
++		break;
++
++	case SW_LED_MODE3:
++		SwLedBlink3(pLed);
++		break;
++
++	case SW_LED_MODE4:
++		SwLedBlink4(pLed);
++		break;
++
++	case SW_LED_MODE5:
++		SwLedBlink5(pLed);
++		break;
++
++	case SW_LED_MODE6:
++		SwLedBlink6(pLed);
++		break;
++
++	case SW_LED_MODE7:
++		SwLedBlink7(pLed);
++		break;
++
++	case SW_LED_MODE8:
++		SwLedBlink8(pLed);
++		break;
++
++	case SW_LED_MODE9:
++		SwLedBlink9(pLed);
++		break;
++
++	case SW_LED_MODE10:
++		SwLedBlink10(pLed);
++		break;
++
++	case SW_LED_MODE11:
++		SwLedBlink11(pLed);
++		break;
++
++	case SW_LED_MODE12:
++		SwLedBlink12(pLed);
++		break;
++
++	case SW_LED_MODE13:
++		SwLedBlink13(pLed);
++		break;
++
++	case SW_LED_MODE14:
++		SwLedBlink14(pLed);
++		break;
++
++	case SW_LED_MODE15:
++		SwLedBlink15(pLed);
++		break;
++
++	default:
++		/* SwLedBlink(pLed); */
++		break;
++	}
++}
++
++/*
++ *	Description:
++ *		Callback function of LED BlinkTimer,
++ *		it just schedules to corresponding BlinkWorkItem/led_blink_hdl
++ *   */
++void BlinkTimerCallback(void *data)
++{
++	PLED_USB	 pLed = (PLED_USB)data;
++	_adapter		*padapter = pLed->padapter;
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	if (RTW_CANNOT_RUN(padapter) || (!rtw_is_hw_init_completed(padapter))) {
++		/*RTW_INFO("%s bDriverStopped:%s, bSurpriseRemoved:%s\n"
++			, __func__
++			, rtw_is_drv_stopped(padapter)?"True":"False"
++			, rtw_is_surprise_removed(padapter)?"True":"False" );*/
++		return;
++	}
++
++#ifdef CONFIG_LED_HANDLED_BY_CMD_THREAD
++	rtw_led_blink_cmd(padapter, (PVOID)pLed);
++#else
++	_set_workitem(&(pLed->BlinkWorkItem));
++#endif
++}
++
++/*
++ *	Description:
++ *		Callback function of LED BlinkWorkItem.
++ *		We dispatch acture LED blink action according to LedStrategy.
++ *   */
++void BlinkWorkItemCallback(_workitem *work)
++{
++	PLED_USB	 pLed = container_of(work, LED_USB, BlinkWorkItem);
++	BlinkHandler(pLed);
++}
++
++static void
++SwLedControlMode0(
++	_adapter		*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	PLED_USB	pLed = &(ledpriv->SwLed1);
++
++	/* Decide led state */
++	switch (LedAction) {
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			pLed->bLedBlinkInProgress = _TRUE;
++
++			pLed->CurrLedState = LED_BLINK_NORMAL;
++			pLed->BlinkTimes = 2;
++
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		}
++		break;
++
++	case LED_CTL_START_TO_LINK:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			pLed->bLedBlinkInProgress = _TRUE;
++
++			pLed->CurrLedState = LED_BLINK_StartToBlink;
++			pLed->BlinkTimes = 24;
++
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++		} else
++			pLed->CurrLedState = LED_BLINK_StartToBlink;
++		break;
++
++	case LED_CTL_LINK:
++		pLed->CurrLedState = RTW_LED_ON;
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_NO_LINK:
++		pLed->CurrLedState = RTW_LED_OFF;
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		SwLedOff(padapter, pLed);
++		break;
++
++	case LED_CTL_START_WPS:
++		if (pLed->bLedBlinkInProgress == _FALSE || pLed->CurrLedState == RTW_LED_ON) {
++			pLed->bLedBlinkInProgress = _TRUE;
++
++			pLed->CurrLedState = LED_BLINK_WPS;
++			pLed->BlinkTimes = 20;
++
++			if (pLed->bLedOn) {
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LONG_INTERVAL);
++			} else {
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LONG_INTERVAL);
++			}
++		}
++		break;
++
++	case LED_CTL_STOP_WPS:
++		if (pLed->bLedBlinkInProgress) {
++			pLed->CurrLedState = RTW_LED_OFF;
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		break;
++
++
++	default:
++		break;
++	}
++
++
++}
++
++/* ALPHA, added by chiyoko, 20090106 */
++static void
++SwLedControlMode1(
++	_adapter		*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv		*ledpriv = &(padapter->ledpriv);
++	PLED_USB			pLed = &(ledpriv->SwLed0);
++	struct mlme_priv		*pmlmepriv = &(padapter->mlmepriv);
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(padapter);
++
++	u32 uLedBlinkNoLinkInterval = LED_BLINK_NO_LINK_INTERVAL_ALPHA; /* add by ylb 20121012 for customer led for alpha */
++	if (pHalData->CustomerID == RT_CID_819x_ALPHA_Dlink)
++		uLedBlinkNoLinkInterval = LED_BLINK_NO_LINK_INTERVAL_ALPHA_500MS;
++
++	if (pHalData->CustomerID == RT_CID_819x_CAMEO)
++		pLed = &(ledpriv->SwLed1);
++
++	switch (LedAction) {
++	case LED_CTL_POWER_ON:
++	case LED_CTL_START_TO_LINK:
++	case LED_CTL_NO_LINK:
++		if (pLed->bLedNoLinkBlinkInProgress == _FALSE) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++			if (pLed->bLedLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++
++			pLed->bLedNoLinkBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SLOWLY;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), uLedBlinkNoLinkInterval);/* change by ylb 20121012 for customer led for alpha */
++		}
++		break;
++
++	case LED_CTL_LINK:
++		if (pLed->bLedLinkBlinkInProgress == _FALSE) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			pLed->bLedLinkBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_NORMAL;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_SITE_SURVEY:
++		if ((pmlmepriv->LinkDetectInfo.bBusyTraffic) && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE))
++			;
++		else if (pLed->bLedScanBlinkInProgress == _FALSE) {
++			if (IS_LED_WPS_BLINKING(pLed))
++				return;
++
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			pLed->bLedScanBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SCAN;
++			pLed->BlinkTimes = 24;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason == RF_CHANGE_BY_IPS)
++				_set_timer(&(pLed->BlinkTimer), LED_INITIAL_INTERVAL);
++			else
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++
++		}
++		break;
++
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedLinkBlinkInProgress = _FALSE;
++			}
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_TXRX;
++			pLed->BlinkTimes = 2;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		if (pLed->bLedWPSBlinkInProgress == _FALSE) {
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedScanBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_WPS;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		}
++		break;
++
++
++	case LED_CTL_STOP_WPS:
++		if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedNoLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedLinkBlinkInProgress == _TRUE) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedBlinkInProgress == _TRUE) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress == _TRUE) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedWPSBlinkInProgress)
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++		else
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++
++		pLed->CurrLedState = LED_BLINK_WPS_STOP;
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_WPS_SUCESS_INTERVAL_ALPHA);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_STOP_WPS_FAIL:
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		pLed->bLedNoLinkBlinkInProgress = _TRUE;
++		pLed->CurrLedState = LED_BLINK_SLOWLY;
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), uLedBlinkNoLinkInterval);/* change by ylb 20121012 for customer led for alpha */
++		break;
++
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		if (pLed->bLedNoLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedNoLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++
++		SwLedOff(padapter, pLed);
++		break;
++
++	default:
++		break;
++
++	}
++
++}
++
++/* Arcadyan/Sitecom , added by chiyoko, 20090216 */
++static void
++SwLedControlMode2(
++	_adapter				*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	PLED_USB		pLed = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_SITE_SURVEY:
++		if (pmlmepriv->LinkDetectInfo.bBusyTraffic)
++			;
++		else if (pLed->bLedScanBlinkInProgress == _FALSE) {
++			if (IS_LED_WPS_BLINKING(pLed))
++				return;
++
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			pLed->bLedScanBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SCAN;
++			pLed->BlinkTimes = 24;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if ((pLed->bLedBlinkInProgress == _FALSE) && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_TXRX;
++			pLed->BlinkTimes = 2;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_LINK:
++		pLed->CurrLedState = RTW_LED_ON;
++		pLed->BlinkingLedState = RTW_LED_ON;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		if (pLed->bLedWPSBlinkInProgress == _FALSE) {
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedScanBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++			pLed->CurrLedState = RTW_LED_ON;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_STOP_WPS:
++		pLed->bLedWPSBlinkInProgress = _FALSE;
++		if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on) {
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		} else {
++			pLed->CurrLedState = RTW_LED_ON;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_STOP_WPS_FAIL:
++		pLed->bLedWPSBlinkInProgress = _FALSE;
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_START_TO_LINK:
++	case LED_CTL_NO_LINK:
++		if (!IS_LED_BLINKING(pLed)) {
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		SwLedOff(padapter, pLed);
++		break;
++
++	default:
++		break;
++
++	}
++
++}
++
++/* COREGA, added by chiyoko, 20090316 */
++static void
++SwLedControlMode3(
++	_adapter				*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	PLED_USB		pLed = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_SITE_SURVEY:
++		if (pmlmepriv->LinkDetectInfo.bBusyTraffic)
++			;
++		else if (pLed->bLedScanBlinkInProgress == _FALSE) {
++			if (IS_LED_WPS_BLINKING(pLed))
++				return;
++
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			pLed->bLedScanBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SCAN;
++			pLed->BlinkTimes = 24;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if ((pLed->bLedBlinkInProgress == _FALSE) && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_TXRX;
++			pLed->BlinkTimes = 2;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_LINK:
++		if (IS_LED_WPS_BLINKING(pLed))
++			return;
++
++		pLed->CurrLedState = RTW_LED_ON;
++		pLed->BlinkingLedState = RTW_LED_ON;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		if (pLed->bLedWPSBlinkInProgress == _FALSE) {
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedScanBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_WPS;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_STOP_WPS:
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		} else
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++
++		pLed->CurrLedState = LED_BLINK_WPS_STOP;
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_WPS_SUCESS_INTERVAL_ALPHA);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++
++		break;
++
++	case LED_CTL_STOP_WPS_FAIL:
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_START_TO_LINK:
++	case LED_CTL_NO_LINK:
++		if (!IS_LED_BLINKING(pLed)) {
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		SwLedOff(padapter, pLed);
++		break;
++
++	default:
++		break;
++
++	}
++
++}
++
++
++/* Edimax-Belkin, added by chiyoko, 20090413 */
++static void
++SwLedControlMode4(
++	_adapter				*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	PLED_USB		pLed = &(ledpriv->SwLed0);
++	PLED_USB		pLed1 = &(ledpriv->SwLed1);
++
++	switch (LedAction) {
++	case LED_CTL_START_TO_LINK:
++		if (pLed1->bLedWPSBlinkInProgress) {
++			pLed1->bLedWPSBlinkInProgress = _FALSE;
++			_cancel_timer_ex(&(pLed1->BlinkTimer));
++
++			pLed1->BlinkingLedState = RTW_LED_OFF;
++			pLed1->CurrLedState = RTW_LED_OFF;
++
++			if (pLed1->bLedOn)
++				_set_timer(&(pLed->BlinkTimer), 0);
++		}
++
++		if (pLed->bLedStartToLinkBlinkInProgress == _FALSE) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++
++			pLed->bLedStartToLinkBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_StartToBlink;
++			if (pLed->bLedOn) {
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++			} else {
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++			}
++		}
++		break;
++
++	case LED_CTL_LINK:
++	case LED_CTL_NO_LINK:
++		/* LED1 settings */
++		if (LedAction == LED_CTL_LINK) {
++			if (pLed1->bLedWPSBlinkInProgress) {
++				pLed1->bLedWPSBlinkInProgress = _FALSE;
++				_cancel_timer_ex(&(pLed1->BlinkTimer));
++
++				pLed1->BlinkingLedState = RTW_LED_OFF;
++				pLed1->CurrLedState = RTW_LED_OFF;
++
++				if (pLed1->bLedOn)
++					_set_timer(&(pLed->BlinkTimer), 0);
++			}
++		}
++
++		if (pLed->bLedNoLinkBlinkInProgress == _FALSE) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++
++			pLed->bLedNoLinkBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SLOWLY;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_SITE_SURVEY:
++		if ((pmlmepriv->LinkDetectInfo.bBusyTraffic) && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE))
++			;
++		else if (pLed->bLedScanBlinkInProgress == _FALSE) {
++			if (IS_LED_WPS_BLINKING(pLed))
++				return;
++
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			pLed->bLedScanBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SCAN;
++			pLed->BlinkTimes = 24;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_TXRX;
++			pLed->BlinkTimes = 2;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		if (pLed1->bLedWPSBlinkInProgress) {
++			pLed1->bLedWPSBlinkInProgress = _FALSE;
++			_cancel_timer_ex(&(pLed1->BlinkTimer));
++
++			pLed1->BlinkingLedState = RTW_LED_OFF;
++			pLed1->CurrLedState = RTW_LED_OFF;
++
++			if (pLed1->bLedOn)
++				_set_timer(&(pLed->BlinkTimer), 0);
++		}
++
++		if (pLed->bLedWPSBlinkInProgress == _FALSE) {
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedScanBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_WPS;
++			if (pLed->bLedOn) {
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++			} else {
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++			}
++		}
++		break;
++
++	case LED_CTL_STOP_WPS:	/* WPS connect success */
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		pLed->bLedNoLinkBlinkInProgress = _TRUE;
++		pLed->CurrLedState = LED_BLINK_SLOWLY;
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++
++		break;
++
++	case LED_CTL_STOP_WPS_FAIL:		/* WPS authentication fail */
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		pLed->bLedNoLinkBlinkInProgress = _TRUE;
++		pLed->CurrLedState = LED_BLINK_SLOWLY;
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++
++		/* LED1 settings */
++		if (pLed1->bLedWPSBlinkInProgress)
++			_cancel_timer_ex(&(pLed1->BlinkTimer));
++		else
++			pLed1->bLedWPSBlinkInProgress = _TRUE;
++
++		pLed1->CurrLedState = LED_BLINK_WPS_STOP;
++		if (pLed1->bLedOn)
++			pLed1->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed1->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++
++		break;
++
++	case LED_CTL_STOP_WPS_FAIL_OVERLAP:	/* WPS session overlap */
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		pLed->bLedNoLinkBlinkInProgress = _TRUE;
++		pLed->CurrLedState = LED_BLINK_SLOWLY;
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++
++		/* LED1 settings */
++		if (pLed1->bLedWPSBlinkInProgress)
++			_cancel_timer_ex(&(pLed1->BlinkTimer));
++		else
++			pLed1->bLedWPSBlinkInProgress = _TRUE;
++
++		pLed1->CurrLedState = LED_BLINK_WPS_STOP_OVERLAP;
++		pLed1->BlinkTimes = 10;
++		if (pLed1->bLedOn)
++			pLed1->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed1->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++
++		break;
++
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++
++		if (pLed->bLedNoLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedNoLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedStartToLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedStartToLinkBlinkInProgress = _FALSE;
++		}
++
++		if (pLed1->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed1->BlinkTimer));
++			pLed1->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		pLed1->BlinkingLedState = LED_UNKNOWN;
++		SwLedOff(padapter, pLed);
++		SwLedOff(padapter, pLed1);
++		break;
++
++	case LED_CTL_CONNECTION_NO_TRANSFER:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			pLed->bLedBlinkInProgress = _TRUE;
++
++			pLed->CurrLedState = LED_BLINK_ALWAYS_ON;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++		}
++		break;
++
++	default:
++		break;
++
++	}
++
++}
++
++
++
++/* Sercomm-Belkin, added by chiyoko, 20090415 */
++static void
++SwLedControlMode5(
++	_adapter				*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	PLED_USB		pLed = &(ledpriv->SwLed0);
++
++	if (pHalData->CustomerID == RT_CID_819x_CAMEO)
++		pLed = &(ledpriv->SwLed1);
++
++	switch (LedAction) {
++	case LED_CTL_POWER_ON:
++	case LED_CTL_NO_LINK:
++	case LED_CTL_LINK:	/* solid blue */
++		pLed->CurrLedState = RTW_LED_ON;
++		pLed->BlinkingLedState = RTW_LED_ON;
++
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_SITE_SURVEY:
++		if ((pmlmepriv->LinkDetectInfo.bBusyTraffic) && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE))
++			;
++		else if (pLed->bLedScanBlinkInProgress == _FALSE) {
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			pLed->bLedScanBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SCAN;
++			pLed->BlinkTimes = 24;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN)
++				return;
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_TXRX;
++			pLed->BlinkTimes = 2;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++
++		SwLedOff(padapter, pLed);
++		break;
++
++	default:
++		break;
++
++	}
++
++}
++
++/* WNC-Corega, added by chiyoko, 20090902 */
++static void
++SwLedControlMode6(
++	_adapter				*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	PLED_USB	pLed0 = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_POWER_ON:
++	case LED_CTL_LINK:
++	case LED_CTL_NO_LINK:
++		_cancel_timer_ex(&(pLed0->BlinkTimer));
++		pLed0->CurrLedState = RTW_LED_ON;
++		pLed0->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed0->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_POWER_OFF:
++		SwLedOff(padapter, pLed0);
++		break;
++
++	default:
++		break;
++	}
++
++}
++
++/* Netgear, added by sinda, 2011/11/11 */
++void
++SwLedControlMode7(
++	PADAPTER			 Adapter,
++	LED_CTL_MODE		 LedAction
++)
++{
++	struct led_priv	*ledpriv = &(Adapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	PLED_USB	pLed = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_SITE_SURVEY:
++		if (pmlmepriv->LinkDetectInfo.bBusyTraffic)
++			;
++		else if (pLed->bLedScanBlinkInProgress == _FALSE) {
++			if (IS_LED_WPS_BLINKING(pLed))
++				return;
++
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			pLed->bLedScanBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SCAN;
++			pLed->BlinkTimes = 6;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_NETGEAR);
++		}
++		break;
++
++	case LED_CTL_LINK:
++		if (IS_LED_WPS_BLINKING(pLed))
++			return;
++
++		pLed->CurrLedState = RTW_LED_ON;
++		pLed->BlinkingLedState = RTW_LED_ON;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		if (pLed->bLedWPSBlinkInProgress == _FALSE) {
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedScanBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_WPS;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_NETGEAR);
++		}
++		break;
++
++	case LED_CTL_STOP_WPS:
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		} else
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++
++		pLed->CurrLedState = LED_BLINK_WPS_STOP;
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_NETGEAR);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++
++		break;
++
++
++	case LED_CTL_STOP_WPS_FAIL:
++	case LED_CTL_STOP_WPS_FAIL_OVERLAP:	/* WPS session overlap			 */
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_START_TO_LINK:
++	case LED_CTL_NO_LINK:
++		if (!IS_LED_BLINKING(pLed)) {
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_POWER_OFF:
++	case LED_CTL_POWER_ON:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	default:
++		break;
++
++	}
++
++}
++
++void
++SwLedControlMode8(
++	PADAPTER			Adapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(Adapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	PLED_USB	pLed0 = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_LINK:
++		_cancel_timer_ex(&(pLed0->BlinkTimer));
++		pLed0->CurrLedState = RTW_LED_ON;
++		pLed0->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed0->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_NO_LINK:
++		_cancel_timer_ex(&(pLed0->BlinkTimer));
++		pLed0->CurrLedState = RTW_LED_OFF;
++		pLed0->BlinkingLedState = RTW_LED_OFF;
++		_set_timer(&(pLed0->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_POWER_OFF:
++		SwLedOff(Adapter, pLed0);
++		break;
++
++	default:
++		break;
++	}
++
++
++}
++
++/* page added for Belkin AC950, 20120813 */
++void
++SwLedControlMode9(
++	IN	PADAPTER			Adapter,
++	IN	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(Adapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	PLED_USB	pLed = &(ledpriv->SwLed0);
++	PLED_USB	pLed1 = &(ledpriv->SwLed1);
++	PLED_USB	pLed2 = &(ledpriv->SwLed2);
++	BOOLEAN  bWPSOverLap = _FALSE;
++	/* RTW_INFO("LedAction=%d\n", LedAction); */
++	switch (LedAction) {
++	case LED_CTL_START_TO_LINK:
++		if (pLed2->bLedBlinkInProgress == _FALSE) {
++			pLed2->bLedBlinkInProgress = _TRUE;
++			pLed2->BlinkingLedState = RTW_LED_ON;
++			pLed2->CurrLedState = LED_BLINK_LINK_IN_PROCESS;
++
++			_set_timer(&(pLed2->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_LINK:
++	case LED_CTL_NO_LINK:
++		/* LED1 settings */
++		if (LedAction == LED_CTL_NO_LINK) {
++			/* if(pMgntInfo->AuthStatus == AUTH_STATUS_FAILED) */
++			if (0) {
++				pLed1->CurrLedState = LED_BLINK_AUTH_ERROR;
++				if (pLed1->bLedOn)
++					pLed1->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed1->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed1->BlinkTimer), 0);
++			} else {
++				pLed1->CurrLedState = RTW_LED_OFF;
++				pLed1->BlinkingLedState = RTW_LED_OFF;
++				if (pLed1->bLedOn)
++					_set_timer(&(pLed1->BlinkTimer), 0);
++			}
++		} else {
++			pLed1->CurrLedState = RTW_LED_OFF;
++			pLed1->BlinkingLedState = RTW_LED_OFF;
++			if (pLed1->bLedOn)
++				_set_timer(&(pLed1->BlinkTimer), 0);
++		}
++
++		/* LED2 settings */
++		if (LedAction == LED_CTL_LINK) {
++			if (Adapter->securitypriv.dot11PrivacyAlgrthm != _NO_PRIVACY_) {
++				if (pLed2->bLedBlinkInProgress == _TRUE) {
++					_cancel_timer_ex(&(pLed2->BlinkTimer));
++					pLed2->bLedBlinkInProgress = _FALSE;
++				}
++				pLed2->CurrLedState = RTW_LED_ON;
++				pLed2->bLedNoLinkBlinkInProgress = _TRUE;
++				if (!pLed2->bLedOn)
++					_set_timer(&(pLed2->BlinkTimer), 0);
++			} else {
++				if (pLed2->bLedWPSBlinkInProgress != _TRUE) {
++					pLed2->CurrLedState = RTW_LED_OFF;
++					pLed2->BlinkingLedState = RTW_LED_OFF;
++					if (pLed2->bLedOn)
++						_set_timer(&(pLed2->BlinkTimer), 0);
++				}
++			}
++		} else { /* NO_LINK */
++			if (pLed2->bLedWPSBlinkInProgress == _FALSE) {
++				pLed2->CurrLedState = RTW_LED_OFF;
++				pLed2->BlinkingLedState = RTW_LED_OFF;
++				if (pLed2->bLedOn)
++					_set_timer(&(pLed2->BlinkTimer), 0);
++			}
++		}
++
++		/* LED0 settings			 */
++		if (pLed->bLedNoLinkBlinkInProgress == _FALSE) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++
++			pLed->bLedNoLinkBlinkInProgress = _TRUE;
++			if (IS_HARDWARE_TYPE_8812AU(Adapter)) {
++				if (LedAction == LED_CTL_LINK) {
++					pLed->BlinkingLedState = RTW_LED_ON;
++					pLed->CurrLedState = LED_BLINK_SLOWLY;
++				} else {
++					pLed->CurrLedState = LED_BLINK_SLOWLY;
++					if (pLed->bLedOn)
++						pLed->BlinkingLedState = RTW_LED_OFF;
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++				}
++			} else {
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++			}
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++		}
++
++		break;
++
++	case LED_CTL_SITE_SURVEY:
++		if ((pmlmepriv->LinkDetectInfo.bBusyTraffic) && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE))
++			;
++		else { /* if(pLed->bLedScanBlinkInProgress ==FALSE) */
++			if (IS_LED_WPS_BLINKING(pLed))
++				return;
++
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			pLed->bLedScanBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SCAN;
++			pLed->BlinkTimes = 24;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++
++		}
++		break;
++
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_TXRX;
++			pLed->BlinkTimes = 2;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		pLed2->bLedBlinkInProgress = _TRUE;
++		pLed2->BlinkingLedState = RTW_LED_ON;
++		pLed2->CurrLedState = LED_BLINK_LINK_IN_PROCESS;
++		pLed2->bLedWPSBlinkInProgress = _TRUE;
++
++		_set_timer(&(pLed2->BlinkTimer), 500);
++
++		break;
++
++	case LED_CTL_STOP_WPS:	/* WPS connect success	 */
++		/* LED2 settings */
++		if (pLed2->bLedWPSBlinkInProgress == _TRUE) {
++			_cancel_timer_ex(&(pLed2->BlinkTimer));
++			pLed2->bLedBlinkInProgress = _FALSE;
++			pLed2->bLedWPSBlinkInProgress = _FALSE;
++		}
++		pLed2->CurrLedState = RTW_LED_ON;
++		pLed2->bLedNoLinkBlinkInProgress = _TRUE;
++		if (!pLed2->bLedOn)
++			_set_timer(&(pLed2->BlinkTimer), 0);
++
++		/* LED1 settings */
++		_cancel_timer_ex(&(pLed1->BlinkTimer));
++		pLed1->CurrLedState = RTW_LED_OFF;
++		pLed1->BlinkingLedState = RTW_LED_OFF;
++		if (pLed1->bLedOn)
++			_set_timer(&(pLed1->BlinkTimer), 0);
++
++
++		break;
++
++	case LED_CTL_STOP_WPS_FAIL:		/* WPS authentication fail	 */
++		/* LED1 settings */
++		/* if(bWPSOverLap == _FALSE) */
++	{
++		pLed1->CurrLedState = LED_BLINK_AUTH_ERROR;
++		pLed1->BlinkTimes = 50;
++		if (pLed1->bLedOn)
++			pLed1->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed1->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed1->BlinkTimer), 0);
++	}
++		/* else */
++		/* { */
++		/*	bWPSOverLap = _FALSE; */
++		/*	pLed1->CurrLedState = RTW_LED_OFF; */
++		/*	pLed1->BlinkingLedState = RTW_LED_OFF;  */
++		/*	_set_timer(&(pLed1->BlinkTimer), 0); */
++		/* } */
++
++		/* LED2 settings */
++	pLed2->CurrLedState = RTW_LED_OFF;
++	pLed2->BlinkingLedState = RTW_LED_OFF;
++	pLed2->bLedWPSBlinkInProgress = _FALSE;
++	if (pLed2->bLedOn)
++		_set_timer(&(pLed2->BlinkTimer), 0);
++
++	break;
++
++	case LED_CTL_STOP_WPS_FAIL_OVERLAP:	/* WPS session overlap */
++		/* LED1 settings */
++		bWPSOverLap = _TRUE;
++		pLed1->CurrLedState = LED_BLINK_WPS_STOP_OVERLAP;
++		pLed1->BlinkTimes = 10;
++		pLed1->BlinkCounter = 50;
++		if (pLed1->bLedOn)
++			pLed1->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed1->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed1->BlinkTimer), 0);
++
++		/* LED2 settings */
++		pLed2->CurrLedState = RTW_LED_OFF;
++		pLed2->BlinkingLedState = RTW_LED_OFF;
++		pLed2->bLedWPSBlinkInProgress = _FALSE;
++		if (pLed2->bLedOn)
++			_set_timer(&(pLed2->BlinkTimer), 0);
++
++		break;
++
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++
++		if (pLed->bLedNoLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedNoLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedStartToLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedStartToLinkBlinkInProgress = _FALSE;
++		}
++
++		if (pLed1->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed1->BlinkTimer));
++			pLed1->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++
++		pLed1->BlinkingLedState = LED_UNKNOWN;
++		SwLedOff(Adapter, pLed);
++		SwLedOff(Adapter, pLed1);
++		break;
++
++	case LED_CTL_CONNECTION_NO_TRANSFER:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			pLed->bLedBlinkInProgress = _TRUE;
++
++			pLed->CurrLedState = LED_BLINK_ALWAYS_ON;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++		}
++		break;
++
++	default:
++		break;
++
++	}
++
++}
++
++/* page added for Netgear A6200V2, 20120827 */
++void
++SwLedControlMode10(
++	PADAPTER			Adapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct led_priv	*ledpriv = &(Adapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	PLED_USB	pLed = &(ledpriv->SwLed0);
++	PLED_USB	pLed1 = &(ledpriv->SwLed1);
++
++	switch (LedAction) {
++	case LED_CTL_START_TO_LINK:
++		if (pLed1->bLedBlinkInProgress == _FALSE) {
++			pLed1->bLedBlinkInProgress = _TRUE;
++			pLed1->BlinkingLedState = RTW_LED_ON;
++			pLed1->CurrLedState = LED_BLINK_LINK_IN_PROCESS;
++
++			_set_timer(&(pLed1->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_LINK:
++	case LED_CTL_NO_LINK:
++		if (LedAction == LED_CTL_LINK) {
++			if (pLed->bLedWPSBlinkInProgress == _TRUE || pLed1->bLedWPSBlinkInProgress == _TRUE)
++				;
++			else {
++				if (pHalData->CurrentBandType == BAND_ON_2_4G)
++					/* LED0 settings */
++				{
++					pLed->CurrLedState = RTW_LED_ON;
++					pLed->BlinkingLedState = RTW_LED_ON;
++					if (pLed->bLedBlinkInProgress == _TRUE) {
++						_cancel_timer_ex(&(pLed->BlinkTimer));
++						pLed->bLedBlinkInProgress = _FALSE;
++					}
++					_set_timer(&(pLed->BlinkTimer), 0);
++
++					pLed1->CurrLedState = RTW_LED_OFF;
++					pLed1->BlinkingLedState = RTW_LED_OFF;
++					_set_timer(&(pLed1->BlinkTimer), 0);
++				} else if (pHalData->CurrentBandType == BAND_ON_5G)
++					/* LED1 settings */
++				{
++					pLed1->CurrLedState = RTW_LED_ON;
++					pLed1->BlinkingLedState = RTW_LED_ON;
++					if (pLed1->bLedBlinkInProgress == _TRUE) {
++						_cancel_timer_ex(&(pLed1->BlinkTimer));
++						pLed1->bLedBlinkInProgress = _FALSE;
++					}
++					_set_timer(&(pLed1->BlinkTimer), 0);
++
++					pLed->CurrLedState = RTW_LED_OFF;
++					pLed->BlinkingLedState = RTW_LED_OFF;
++					_set_timer(&(pLed->BlinkTimer), 0);
++				}
++			}
++		} else if (LedAction == LED_CTL_NO_LINK) { /* TODO by page */
++			if (pLed->bLedWPSBlinkInProgress == _TRUE || pLed1->bLedWPSBlinkInProgress == _TRUE)
++				;
++			else {
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				if (pLed->bLedOn)
++					_set_timer(&(pLed->BlinkTimer), 0);
++
++				pLed1->CurrLedState = RTW_LED_OFF;
++				pLed1->BlinkingLedState = RTW_LED_OFF;
++				if (pLed1->bLedOn)
++					_set_timer(&(pLed1->BlinkTimer), 0);
++			}
++		}
++
++		break;
++
++	case LED_CTL_SITE_SURVEY:
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++			;                                                                  /* don't blink when media connect */
++		else { /* if(pLed->bLedScanBlinkInProgress ==FALSE) */
++			if (IS_LED_WPS_BLINKING(pLed) || IS_LED_WPS_BLINKING(pLed1))
++				return;
++
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			pLed->bLedScanBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SCAN;
++			pLed->BlinkTimes = 12;
++			pLed->BlinkingLedState = LED_BLINK_SCAN;
++			_set_timer(&(pLed->BlinkTimer), 0);
++
++			if (pLed1->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed1->BlinkTimer));
++				pLed1->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed1->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed1->BlinkTimer));
++				pLed1->bLedBlinkInProgress = _FALSE;
++			}
++			pLed1->bLedScanBlinkInProgress = _TRUE;
++			pLed1->CurrLedState = LED_BLINK_SCAN;
++			pLed1->BlinkTimes = 12;
++			pLed1->BlinkingLedState = LED_BLINK_SCAN;
++			_set_timer(&(pLed1->BlinkTimer), LED_BLINK_LINK_SLOWLY_INTERVAL_NETGEAR);
++
++		}
++		break;
++
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		/* LED0 settings */
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++			pLed->BlinkingLedState = LED_BLINK_WPS;
++			pLed->CurrLedState = LED_BLINK_WPS;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++
++		/* LED1 settings */
++		if (pLed1->bLedBlinkInProgress == _FALSE) {
++			pLed1->bLedBlinkInProgress = _TRUE;
++			pLed1->bLedWPSBlinkInProgress = _TRUE;
++			pLed1->BlinkingLedState = LED_BLINK_WPS;
++			pLed1->CurrLedState = LED_BLINK_WPS;
++			_set_timer(&(pLed1->BlinkTimer), LED_BLINK_NORMAL_INTERVAL + LED_BLINK_LINK_INTERVAL_NETGEAR);
++		}
++
++
++		break;
++
++	case LED_CTL_STOP_WPS:	/* WPS connect success */
++		if (pHalData->CurrentBandType == BAND_ON_2_4G)
++			/* LED0 settings */
++		{
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++			pLed->CurrLedState = RTW_LED_ON;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			_set_timer(&(pLed->BlinkTimer), 0);
++
++			pLed1->CurrLedState = RTW_LED_OFF;
++			pLed1->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed1->BlinkTimer), 0);
++		} else if (pHalData->CurrentBandType == BAND_ON_5G)
++			/* LED1 settings */
++		{
++			pLed1->bLedWPSBlinkInProgress = _FALSE;
++			pLed1->CurrLedState = RTW_LED_ON;
++			pLed1->BlinkingLedState = RTW_LED_ON;
++			if (pLed1->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed1->BlinkTimer));
++				pLed1->bLedBlinkInProgress = _FALSE;
++			}
++			_set_timer(&(pLed1->BlinkTimer), 0);
++
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++
++		break;
++
++	case LED_CTL_STOP_WPS_FAIL:		/* WPS authentication fail	 */
++		/* LED1 settings */
++		pLed1->bLedWPSBlinkInProgress = _FALSE;
++		pLed1->CurrLedState = RTW_LED_OFF;
++		pLed1->BlinkingLedState = RTW_LED_OFF;
++		_set_timer(&(pLed1->BlinkTimer), 0);
++
++		/* LED0 settings */
++		pLed->bLedWPSBlinkInProgress = _FALSE;
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		if (pLed->bLedOn)
++			_set_timer(&(pLed->BlinkTimer), 0);
++
++		break;
++
++
++	default:
++		break;
++
++	}
++
++}
++
++/* Edimax-ASUS, added by Page, 20121221 */
++void
++SwLedControlMode11(
++	PADAPTER			Adapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(Adapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	PLED_USB	pLed = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_POWER_ON:
++	case LED_CTL_START_TO_LINK:
++	case LED_CTL_NO_LINK:
++		pLed->CurrLedState = RTW_LED_ON;
++		pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_LINK:
++		if (pLed->bLedBlinkInProgress == _TRUE) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		pLed->bLedBlinkInProgress = _TRUE;
++		pLed->CurrLedState = LED_BLINK_TXRX;
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		break;
++
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		if (pLed->bLedBlinkInProgress == _TRUE) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		pLed->bLedWPSBlinkInProgress = _TRUE;
++		pLed->bLedBlinkInProgress = _TRUE;
++		pLed->CurrLedState = LED_BLINK_WPS;
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		pLed->BlinkTimes = 5;
++		_set_timer(&(pLed->BlinkTimer), 0);
++
++		break;
++
++
++	case LED_CTL_STOP_WPS:
++	case LED_CTL_STOP_WPS_FAIL:
++		if (pLed->bLedBlinkInProgress == _TRUE) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		pLed->CurrLedState = LED_BLINK_WPS_STOP;
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++
++		if (pLed->bLedNoLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedNoLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++
++		SwLedOff(Adapter, pLed);
++		break;
++
++	default:
++		break;
++
++	}
++
++}
++
++/* page added for NEC */
++
++VOID
++SwLedControlMode12(
++	PADAPTER			Adapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(Adapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	PLED_USB	pLed = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_POWER_ON:
++	case LED_CTL_NO_LINK:
++	case LED_CTL_LINK:
++	case LED_CTL_SITE_SURVEY:
++
++		if (pLed->bLedNoLinkBlinkInProgress == _FALSE) {
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++
++			pLed->bLedNoLinkBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SLOWLY;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_TXRX;
++			pLed->BlinkTimes = 2;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++
++		if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedNoLinkBlinkInProgress = _FALSE;
++		}
++
++		SwLedOff(Adapter, pLed);
++		break;
++
++	default:
++		break;
++
++	}
++
++}
++
++/* Maddest add for NETGEAR R6100 */
++
++VOID
++SwLedControlMode13(
++	IN	PADAPTER			Adapter,
++	IN	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(Adapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	PLED_USB	pLed = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_LINK:
++		if (pLed->bLedWPSBlinkInProgress)
++			return;
++
++
++		pLed->CurrLedState = RTW_LED_ON;
++		pLed->BlinkingLedState = RTW_LED_ON;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		if (pLed->bLedWPSBlinkInProgress == _FALSE) {
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedScanBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_WPS;
++			if (pLed->bLedOn) {
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_WPS_BLINK_OFF_INTERVAL_NETGEAR);
++			} else {
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_WPS_BLINK_ON_INTERVAL_NETGEAR);
++			}
++		}
++		break;
++
++	case LED_CTL_STOP_WPS:
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		} else
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++
++		pLed->bLedWPSBlinkInProgress = _FALSE;
++		pLed->CurrLedState = LED_BLINK_WPS_STOP;
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++
++		break;
++
++
++	case LED_CTL_STOP_WPS_FAIL:
++	case LED_CTL_STOP_WPS_FAIL_OVERLAP: /* WPS session overlap */
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_START_TO_LINK:
++		if ((pLed->bLedBlinkInProgress == _FALSE) && (pLed->bLedWPSBlinkInProgress == _FALSE)) {
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			pLed->CurrLedState = LED_BLINK_LINK_IN_PROCESS;
++
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_NO_LINK:
++
++		if (pLed->bLedWPSBlinkInProgress)
++			return;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++		/* if(!IS_LED_BLINKING(pLed)) */
++		{
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_POWER_OFF:
++	case LED_CTL_POWER_ON:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		if (LedAction == LED_CTL_POWER_ON)
++			_set_timer(&(pLed->BlinkTimer), 0);
++		else
++			SwLedOff(Adapter, pLed);
++		break;
++
++	default:
++		break;
++
++	}
++
++
++}
++
++/* Maddest add for DNI Buffalo */
++
++VOID
++SwLedControlMode14(
++	IN	PADAPTER			Adapter,
++	IN	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(Adapter->ledpriv);
++	PLED_USB	pLed = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		SwLedOff(Adapter, pLed);
++		break;
++
++	case LED_CTL_POWER_ON:
++		SwLedOn(Adapter, pLed);
++		break;
++
++	case LED_CTL_LINK:
++	case LED_CTL_NO_LINK:
++		if (IS_HARDWARE_TYPE_8812AU(Adapter))
++			SwLedOn(Adapter, pLed);
++		break;
++
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_TXRX;
++			pLed->BlinkTimes = 2;
++			if (pLed->bLedOn) {
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				if (IS_HARDWARE_TYPE_8812AU(Adapter))
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++				else
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			} else {
++				pLed->BlinkingLedState = RTW_LED_ON;
++				if (IS_HARDWARE_TYPE_8812AU(Adapter))
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++				else
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	default:
++		break;
++	}
++}
++
++/* Maddest add for Dlink */
++
++VOID
++SwLedControlMode15(
++	IN	PADAPTER			Adapter,
++	IN	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(Adapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	PLED_USB	pLed = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		if (pLed->bLedWPSBlinkInProgress == _FALSE) {
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedScanBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_WPS;
++			if (pLed->bLedOn) {
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_WPS_BLINK_OFF_INTERVAL_NETGEAR);
++			} else {
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_WPS_BLINK_ON_INTERVAL_NETGEAR);
++			}
++		}
++		break;
++
++	case LED_CTL_STOP_WPS:
++		if (pLed->bLedWPSBlinkInProgress)
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++
++		pLed->CurrLedState = LED_BLINK_WPS_STOP;
++		/* if(check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE) */
++		{
++			pLed->BlinkingLedState = RTW_LED_ON;
++
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++
++		break;
++
++	case LED_CTL_STOP_WPS_FAIL:
++	case LED_CTL_STOP_WPS_FAIL_OVERLAP: /* WPS session overlap */
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_NO_LINK:
++		if (pLed->bLedWPSBlinkInProgress)
++			return;
++
++		/*if(Adapter->securitypriv.dot11PrivacyAlgrthm > _NO_PRIVACY_)
++		{
++			if(SecIsTxKeyInstalled(Adapter, pMgntInfo->Bssid))
++			{
++			}
++			else
++			{
++				if(pMgntInfo->LEDAssocState ==LED_ASSOC_SECURITY_BEGIN)
++					return;
++			}
++		}*/
++
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++		/* if(!IS_LED_BLINKING(pLed)) */
++		{
++			pLed->CurrLedState = LED_BLINK_NO_LINK;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), 30);
++		}
++		break;
++
++	case LED_CTL_LINK:
++
++		if (pLed->bLedWPSBlinkInProgress)
++			return;
++
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++
++		pLed->CurrLedState = LED_BLINK_LINK_IDEL;
++		pLed->BlinkingLedState = RTW_LED_ON;
++
++		_set_timer(&(pLed->BlinkTimer), 30);
++		break;
++
++	case LED_CTL_SITE_SURVEY:
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++			return;
++
++		if (pLed->bLedWPSBlinkInProgress == _TRUE)
++			return;
++
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		pLed->CurrLedState = LED_BLINK_SCAN;
++		pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if (pLed->bLedWPSBlinkInProgress)
++			return;
++
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++
++		pLed->bLedBlinkInProgress = _TRUE;
++		pLed->CurrLedState = LED_BLINK_TXRX;
++		pLed->BlinkTimes = 2;
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++		break;
++
++	default:
++		break;
++	}
++}
++
++void
++LedControlUSB(
++	_adapter				*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++
++#if (MP_DRIVER == 1)
++	if (padapter->registrypriv.mp_mode == 1)
++		return;
++#endif
++
++	if (RTW_CANNOT_RUN(padapter) || (!rtw_is_hw_init_completed(padapter))) {
++		/*RTW_INFO("%s bDriverStopped:%s, bSurpriseRemoved:%s\n"
++		, __func__
++		, rtw_is_drv_stopped(padapter)?"True":"False"
++		, rtw_is_surprise_removed(padapter)?"True":"False" );*/
++		return;
++	}
++
++	if (ledpriv->bRegUseLed == _FALSE)
++		return;
++
++	/* if(priv->bInHctTest) */
++	/*	return; */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	/* Only do led action for PRIMARY_ADAPTER */
++	if (padapter->adapter_type != PRIMARY_ADAPTER)
++		return;
++#endif
++
++	if ((adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on &&
++	     adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS) &&
++	    (LedAction == LED_CTL_TX || LedAction == LED_CTL_RX ||
++	     LedAction == LED_CTL_SITE_SURVEY ||
++	     LedAction == LED_CTL_LINK ||
++	     LedAction == LED_CTL_NO_LINK ||
++	     LedAction == LED_CTL_POWER_ON))
++		return;
++
++	switch (ledpriv->LedStrategy) {
++	case SW_LED_MODE0:
++		SwLedControlMode0(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE1:
++		SwLedControlMode1(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE2:
++		SwLedControlMode2(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE3:
++		SwLedControlMode3(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE4:
++		SwLedControlMode4(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE5:
++		SwLedControlMode5(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE6:
++		SwLedControlMode6(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE7:
++		SwLedControlMode7(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE8:
++		SwLedControlMode8(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE9:
++		SwLedControlMode9(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE10:
++		SwLedControlMode10(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE11:
++		SwLedControlMode11(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE12:
++		SwLedControlMode12(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE13:
++		SwLedControlMode13(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE14:
++		SwLedControlMode14(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE15:
++		SwLedControlMode15(padapter, LedAction);
++		break;
++
++	default:
++		break;
++	}
++
++}
++
++/*
++ *	Description:
++ *		Reset status of LED_871x object.
++ *   */
++void ResetLedStatus(PLED_USB pLed)
++{
++
++	pLed->CurrLedState = RTW_LED_OFF; /* Current LED state. */
++	pLed->bLedOn = _FALSE; /* true if LED is ON, false if LED is OFF. */
++
++	pLed->bLedBlinkInProgress = _FALSE; /* true if it is blinking, false o.w.. */
++	pLed->bLedWPSBlinkInProgress = _FALSE;
++
++	pLed->BlinkTimes = 0; /* Number of times to toggle led state for blinking. */
++	pLed->BlinkCounter = 0;
++	pLed->BlinkingLedState = LED_UNKNOWN; /* Next state for blinking, either RTW_LED_ON or RTW_LED_OFF are. */
++
++	pLed->bLedNoLinkBlinkInProgress = _FALSE;
++	pLed->bLedLinkBlinkInProgress = _FALSE;
++	pLed->bLedStartToLinkBlinkInProgress = _FALSE;
++	pLed->bLedScanBlinkInProgress = _FALSE;
++}
++
++/*
++*	Description:
++*		Initialize an LED_871x object.
++*   */
++void
++InitLed(
++	_adapter			*padapter,
++	PLED_USB		pLed,
++	LED_PIN			LedPin
++)
++{
++	pLed->padapter = padapter;
++	pLed->LedPin = LedPin;
++
++	ResetLedStatus(pLed);
++	_init_timer(&(pLed->BlinkTimer), padapter->pnetdev, BlinkTimerCallback, pLed);
++	_init_workitem(&(pLed->BlinkWorkItem), BlinkWorkItemCallback, pLed);
++}
++
++
++/*
++ *	Description:
++ *		DeInitialize an LED_871x object.
++ *   */
++void
++DeInitLed(
++	PLED_USB		pLed
++)
++{
++	_cancel_workitem_sync(&(pLed->BlinkWorkItem));
++	_cancel_timer_ex(&(pLed->BlinkTimer));
++	ResetLedStatus(pLed);
++}
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/halhwimg.h b/drivers/net/wireless/rtl8723du/hal/phydm/halhwimg.h
+new file mode 100644
+index 0000000..108f715
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/halhwimg.h
+@@ -0,0 +1,123 @@
++#pragma once
++#ifndef __INC_HW_IMG_H
++#define __INC_HW_IMG_H
++
++//
++// 2011/03/15 MH Add for different IC HW image file selection. code size consideration.
++//
++#if RT_PLATFORM == PLATFORM_LINUX
++
++	#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++	// For 92C
++	#define		RTL8192CE_HWIMG_SUPPORT					1
++	#define		RTL8192CE_TEST_HWIMG_SUPPORT			0
++	#define		RTL8192CU_HWIMG_SUPPORT					0
++	#define		RTL8192CU_TEST_HWIMG_SUPPORT			0
++
++	// For 92D
++	#define		RTL8192DE_HWIMG_SUPPORT					1
++	#define		RTL8192DE_TEST_HWIMG_SUPPORT			0
++	#define		RTL8192DU_HWIMG_SUPPORT					0
++	#define		RTL8192DU_TEST_HWIMG_SUPPORT			0
++
++	// For 8723
++	#define		RTL8723E_HWIMG_SUPPORT					1
++	#define		RTL8723U_HWIMG_SUPPORT					0
++	#define		RTL8723S_HWIMG_SUPPORT					0
++
++	//For 88E
++	#define		RTL8188EE_HWIMG_SUPPORT					0
++	#define		RTL8188EU_HWIMG_SUPPORT					0
++	#define		RTL8188ES_HWIMG_SUPPORT					0
++	
++	#elif (DEV_BUS_TYPE == RT_USB_INTERFACE)
++	// For 92C
++	#define 	RTL8192CE_HWIMG_SUPPORT 				0
++	#define 	RTL8192CE_TEST_HWIMG_SUPPORT			0
++	#define 	RTL8192CU_HWIMG_SUPPORT 				1
++	#define 	RTL8192CU_TEST_HWIMG_SUPPORT			0
++
++	//For 92D
++	#define 	RTL8192DE_HWIMG_SUPPORT 				0
++	#define 	RTL8192DE_TEST_HWIMG_SUPPORT			0
++	#define 	RTL8192DU_HWIMG_SUPPORT 				1
++	#define 	RTL8192DU_TEST_HWIMG_SUPPORT			0
++
++	// For 8723
++	#define 	RTL8723E_HWIMG_SUPPORT					0
++	#define 	RTL8723U_HWIMG_SUPPORT					1
++	#define 	RTL8723S_HWIMG_SUPPORT					0
++
++	//For 88E
++	#define		RTL8188EE_HWIMG_SUPPORT					0
++	#define		RTL8188EU_HWIMG_SUPPORT					0
++	#define		RTL8188ES_HWIMG_SUPPORT					0
++	
++	#elif (DEV_BUS_TYPE == RT_SDIO_INTERFACE)
++	// For 92C
++	#define 	RTL8192CE_HWIMG_SUPPORT 				0
++	#define 	RTL8192CE_TEST_HWIMG_SUPPORT			0
++	#define 	RTL8192CU_HWIMG_SUPPORT 				1
++	#define 	RTL8192CU_TEST_HWIMG_SUPPORT			0
++
++	//For 92D
++	#define 	RTL8192DE_HWIMG_SUPPORT 				0
++	#define 	RTL8192DE_TEST_HWIMG_SUPPORT			0
++	#define 	RTL8192DU_HWIMG_SUPPORT 				1
++	#define 	RTL8192DU_TEST_HWIMG_SUPPORT			0
++
++	// For 8723
++	#define 	RTL8723E_HWIMG_SUPPORT					0
++	#define 	RTL8723U_HWIMG_SUPPORT					0
++	#define 	RTL8723S_HWIMG_SUPPORT					1
++
++	//For 88E
++	#define		RTL8188EE_HWIMG_SUPPORT					0
++	#define		RTL8188EU_HWIMG_SUPPORT					0
++	#define		RTL8188ES_HWIMG_SUPPORT					0
++	#endif
++
++#else	// PLATFORM_WINDOWS & MacOSX
++
++//For 92C
++#define		RTL8192CE_HWIMG_SUPPORT						1
++#define		RTL8192CE_TEST_HWIMG_SUPPORT				1
++#define		RTL8192CU_HWIMG_SUPPORT						1
++#define		RTL8192CU_TEST_HWIMG_SUPPORT				1
++
++// For 92D
++#define		RTL8192DE_HWIMG_SUPPORT					1
++#define		RTL8192DE_TEST_HWIMG_SUPPORT				1
++#define		RTL8192DU_HWIMG_SUPPORT					1
++#define		RTL8192DU_TEST_HWIMG_SUPPORT				1
++
++	#if defined(UNDER_CE)
++	// For 8723
++	#define		RTL8723E_HWIMG_SUPPORT					0
++	#define		RTL8723U_HWIMG_SUPPORT					0
++	#define		RTL8723S_HWIMG_SUPPORT					1
++
++	// For 88E
++	#define		RTL8188EE_HWIMG_SUPPORT					0
++	#define		RTL8188EU_HWIMG_SUPPORT					0
++	#define		RTL8188ES_HWIMG_SUPPORT					0
++
++	#else 
++
++	// For 8723
++	#define		RTL8723E_HWIMG_SUPPORT					1
++	//#define		RTL_8723E_TEST_HWIMG_SUPPORT			1
++	#define		RTL8723U_HWIMG_SUPPORT					1
++	//#define		RTL_8723U_TEST_HWIMG_SUPPORT			1
++	#define		RTL8723S_HWIMG_SUPPORT					1
++	//#define		RTL_8723S_TEST_HWIMG_SUPPORT			1
++
++	//For 88E
++	#define		RTL8188EE_HWIMG_SUPPORT					1
++	#define		RTL8188EU_HWIMG_SUPPORT					1
++	#define		RTL8188ES_HWIMG_SUPPORT					1
++	#endif
++
++#endif
++
++#endif //__INC_HW_IMG_H
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/halphyrf_ap.c b/drivers/net/wireless/rtl8723du/hal/phydm/halphyrf_ap.c
+new file mode 100644
+index 0000000..1e9f923
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/halphyrf_ap.c
+@@ -0,0 +1,2779 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++ #include "mp_precomp.h"
++ #include "phydm_precomp.h"
++
++#ifndef index_mapping_NUM_88E
++ #define	index_mapping_NUM_88E	15
++#endif
++
++//#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++
++#define 	CALCULATE_SWINGTALBE_OFFSET(_offset, _direction, _size, _deltaThermal) \
++					do {\
++						for(_offset = 0; _offset < _size; _offset++)\
++						{\
++							if(_deltaThermal < thermalThreshold[_direction][_offset])\
++							{\
++								if(_offset != 0)\
++									_offset--;\
++								break;\
++							}\
++						}			\
++						if(_offset >= _size)\
++							_offset = _size-1;\
++					} while(0)
++
++
++void ConfigureTxpowerTrack(
++	IN	PVOID		pDM_VOID,
++	OUT	PTXPWRTRACK_CFG	pConfig
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if RTL8812A_SUPPORT
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	//if (IS_HARDWARE_TYPE_8812(pDM_Odm->Adapter))
++	if(pDM_Odm->SupportICType==ODM_RTL8812)
++		ConfigureTxpowerTrack_8812A(pConfig);
++	//else
++#endif
++#endif
++
++#if RTL8814A_SUPPORT
++	if(pDM_Odm->SupportICType== ODM_RTL8814A)
++		ConfigureTxpowerTrack_8814A(pConfig);
++#endif
++
++
++#if RTL8188E_SUPPORT
++	if(pDM_Odm->SupportICType==ODM_RTL8188E)
++		ConfigureTxpowerTrack_8188E(pConfig);
++#endif 
++
++#if RTL8197F_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8197F)
++		ConfigureTxpowerTrack_8197F(pConfig);
++#endif 
++
++#if RTL8822B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8822B)
++		ConfigureTxpowerTrack_8822B(pConfig);
++#endif
++
++
++}
++
++#if (RTL8192E_SUPPORT==1) 
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter_92E(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	ThermalValue = 0, delta, delta_IQK, delta_LCK, channel, is_decrease, rf_mimo_mode;
++	u1Byte	ThermalValue_AVG_count = 0;
++    	u1Byte     OFDM_min_index = 10; //OFDM BB Swing should be less than +2.5dB, which is required by Arthur
++	s1Byte	OFDM_index[2], index ;
++    	u4Byte	ThermalValue_AVG = 0, Reg0x18;
++	u4Byte	i = 0, j = 0, rf;
++	s4Byte	value32, CCK_index = 0, ele_A, ele_D, ele_C, X, Y;
++	prtl8192cd_priv 	priv = pDM_Odm->priv;
++
++	rf_mimo_mode = pDM_Odm->RFType;
++	//ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("%s:%d rf_mimo_mode:%d\n", __FUNCTION__, __LINE__, rf_mimo_mode));
++
++#ifdef MP_TEST
++	if ((OPMODE & WIFI_MP_STATE) || priv->pshare->rf_ft_var.mp_specific) {
++		channel = priv->pshare->working_channel;
++		if (priv->pshare->mp_txpwr_tracking == FALSE)
++			return;
++	} else
++#endif
++	{
++		channel = (priv->pmib->dot11RFEntry.dot11channel);
++	}
++
++	ThermalValue = (unsigned char)ODM_GetRFReg(pDM_Odm, RF_PATH_A, ODM_RF_T_METER_92E, 0xfc00);	//0x42: RF Reg[15:10] 88E
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("\nReadback Thermal Meter = 0x%x pre thermal meter 0x%x EEPROMthermalmeter 0x%x\n", ThermalValue, priv->pshare->ThermalValue, priv->pmib->dot11RFEntry.ther));
++
++
++	switch (rf_mimo_mode) {
++		case MIMO_1T1R:
++			rf = 1;      
++			break;
++		case MIMO_2T2R:
++			rf = 2;
++			break;
++		default:
++			rf = 2;
++			break;
++	}
++
++	//Query OFDM path A default setting 	Bit[31:21]
++	ele_D = PHY_QueryBBReg(priv, rOFDM0_XATxIQImbalance, bMaskOFDM_D);
++	for (i = 0; i < OFDM_TABLE_SIZE_92E; i++) {
++		if (ele_D == (OFDMSwingTable_92E[i] >> 22)) {
++			OFDM_index[0] = (unsigned char)i;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("PathA 0xC80[31:22] = 0x%x, OFDM_index=%d\n", ele_D, OFDM_index[0]));
++			break;
++		}
++	}
++
++	//Query OFDM path B default setting
++	if (rf_mimo_mode == MIMO_2T2R) {
++		ele_D = PHY_QueryBBReg(priv, rOFDM0_XBTxIQImbalance, bMaskOFDM_D);
++		for (i = 0; i < OFDM_TABLE_SIZE_92E; i++) {
++			if (ele_D == (OFDMSwingTable_92E[i] >> 22)) {
++				OFDM_index[1] = (unsigned char)i;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("PathB 0xC88[31:22] = 0x%x, OFDM_index=%d\n", ele_D, OFDM_index[1]));
++				break;
++			}
++		}
++	}
++
++	/* calculate average thermal meter */
++	{
++		priv->pshare->ThermalValue_AVG_88XX[priv->pshare->ThermalValue_AVG_index_88XX] = ThermalValue;
++		priv->pshare->ThermalValue_AVG_index_88XX++;
++		if (priv->pshare->ThermalValue_AVG_index_88XX == AVG_THERMAL_NUM_88XX)
++			priv->pshare->ThermalValue_AVG_index_88XX = 0;
++
++		for (i = 0; i < AVG_THERMAL_NUM_88XX; i++) {
++			if (priv->pshare->ThermalValue_AVG_88XX[i]) {
++				ThermalValue_AVG += priv->pshare->ThermalValue_AVG_88XX[i];
++				ThermalValue_AVG_count++;
++			}
++		}
++
++		if (ThermalValue_AVG_count) {
++			ThermalValue = (unsigned char)(ThermalValue_AVG / ThermalValue_AVG_count);
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("AVG Thermal Meter = 0x%x \n", ThermalValue));
++		}
++	}
++
++	/* Initialize */
++	if (!priv->pshare->ThermalValue) {
++		priv->pshare->ThermalValue = priv->pmib->dot11RFEntry.ther;
++		priv->pshare->ThermalValue_IQK = ThermalValue;
++		priv->pshare->ThermalValue_LCK = ThermalValue;
++	}
++
++	if (ThermalValue != priv->pshare->ThermalValue) {
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("\n******** START POWER TRACKING ********\n")); 					
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("\nReadback Thermal Meter = 0x%x pre thermal meter 0x%x EEPROMthermalmeter 0x%x\n", ThermalValue, priv->pshare->ThermalValue, priv->pmib->dot11RFEntry.ther)); 			
++
++		delta = RTL_ABS(ThermalValue, priv->pmib->dot11RFEntry.ther);
++		delta_IQK = RTL_ABS(ThermalValue, priv->pshare->ThermalValue_IQK);
++		delta_LCK = RTL_ABS(ThermalValue, priv->pshare->ThermalValue_LCK);
++		is_decrease = ((ThermalValue < priv->pmib->dot11RFEntry.ther) ? 1 : 0);
++		
++#ifdef _TRACKING_TABLE_FILE
++		if (priv->pshare->rf_ft_var.pwr_track_file) {				
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("Diff: (%s)%d ==> get index from table : %d)\n", (is_decrease?"-":"+"), delta, get_tx_tracking_index(priv, channel, i, delta, is_decrease, 0)));
++        
++            	if (is_decrease) {					
++                	for (i = 0; i < rf; i++) {
++				OFDM_index[i] = priv->pshare->OFDM_index0[i] + get_tx_tracking_index(priv, channel, i, delta, is_decrease, 0);
++				OFDM_index[i] = ((OFDM_index[i] > (OFDM_TABLE_SIZE_92E- 1)) ? (OFDM_TABLE_SIZE_92E - 1) : OFDM_index[i]);
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,(">>> decrese power ---> new OFDM_INDEX:%d (%d + %d)\n", OFDM_index[i], priv->pshare->OFDM_index0[i], get_tx_tracking_index(priv, channel, i, delta, is_decrease, 0)));
++	                        CCK_index = priv->pshare->CCK_index0 + get_tx_tracking_index(priv, channel, i, delta, is_decrease, 1);                        
++				CCK_index = ((CCK_index > (CCK_TABLE_SIZE_92E - 1)) ? (CCK_TABLE_SIZE_92E - 1) : CCK_index);				
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,(">>> Decrese power ---> new CCK_INDEX:%d (%d + %d)\n",  CCK_index, priv->pshare->CCK_index0, get_tx_tracking_index(priv, channel, i, delta, is_decrease, 1)));
++			}
++		} else {
++			for (i = 0; i < rf; i++) {
++				OFDM_index[i] = priv->pshare->OFDM_index0[i] - get_tx_tracking_index(priv, channel, i, delta, is_decrease, 0);
++				OFDM_index[i] = ((OFDM_index[i] < OFDM_min_index) ?  OFDM_min_index : OFDM_index[i]);
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,(">>> Increse power ---> new OFDM_INDEX:%d (%d - %d)\n", OFDM_index[i], priv->pshare->OFDM_index0[i], get_tx_tracking_index(priv, channel, i, delta, is_decrease, 0)));
++				CCK_index = priv->pshare->CCK_index0 - get_tx_tracking_index(priv, channel, i, delta, is_decrease, 1);						  
++	                        CCK_index = ((CCK_index < 0 )? 0 : CCK_index);  
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,(">>> Increse power ---> new CCK_INDEX:%d (%d - %d)\n", CCK_index, priv->pshare->CCK_index0, get_tx_tracking_index(priv, channel, i, delta, is_decrease, 1)));
++			}
++		}
++		}
++#endif //CFG_TRACKING_TABLE_FILE
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("OFDMSwingTable_92E[(unsigned int)OFDM_index[0]] = %x \n",OFDMSwingTable_92E[(unsigned int)OFDM_index[0]]));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("OFDMSwingTable_92E[(unsigned int)OFDM_index[1]] = %x \n",OFDMSwingTable_92E[(unsigned int)OFDM_index[1]]));
++
++		//Adujst OFDM Ant_A according to IQK result
++		ele_D = (OFDMSwingTable_92E[(unsigned int)OFDM_index[0]] & 0xFFC00000) >> 22;
++		X = priv->pshare->RegE94;
++		Y = priv->pshare->RegE9C;
++
++		if (X != 0) {
++			if ((X & 0x00000200) != 0)
++				X = X | 0xFFFFFC00;
++			ele_A = ((X * ele_D) >> 8) & 0x000003FF;
++
++			//new element C = element D x Y
++			if ((Y & 0x00000200) != 0)
++				Y = Y | 0xFFFFFC00;
++			ele_C = ((Y * ele_D) >> 8) & 0x000003FF;
++
++			//wirte new elements A, C, D to regC80 and regC94, element B is always 0
++			value32 = (ele_D << 22) | ((ele_C & 0x3F) << 16) | ele_A;
++			PHY_SetBBReg(priv, rOFDM0_XATxIQImbalance, bMaskDWord, value32);
++
++			value32 = (ele_C&0x000003C0)>>6;
++			PHY_SetBBReg(priv, rOFDM0_XCTxAFE, bMaskH4Bits, value32);
++			
++			value32 = ((X * ele_D)>>7)&0x01;
++			PHY_SetBBReg(priv, rOFDM0_ECCAThreshold, BIT(24), value32);
++		} else {
++			PHY_SetBBReg(priv, rOFDM0_XATxIQImbalance, bMaskDWord, OFDMSwingTable_92E[(unsigned int)OFDM_index[0]]);
++			PHY_SetBBReg(priv, rOFDM0_XCTxAFE, bMaskH4Bits, 0x00);
++			PHY_SetBBReg(priv, rOFDM0_ECCAThreshold, BIT(24), 0x00);
++		}
++
++		set_CCK_swing_index(priv, CCK_index);
++
++		if (rf == 2) {
++			ele_D = (OFDMSwingTable_92E[(unsigned int)OFDM_index[1]] & 0xFFC00000) >> 22;
++			X = priv->pshare->RegEB4;
++			Y = priv->pshare->RegEBC;
++
++			if (X != 0) {
++				if ((X & 0x00000200) != 0)	//consider minus
++					X = X | 0xFFFFFC00;
++				ele_A = ((X * ele_D) >> 8) & 0x000003FF;
++
++				//new element C = element D x Y
++				if ((Y & 0x00000200) != 0)
++					Y = Y | 0xFFFFFC00;
++				ele_C = ((Y * ele_D) >> 8) & 0x00003FF;
++
++				//wirte new elements A, C, D to regC88 and regC9C, element B is always 0
++				value32 = (ele_D << 22) | ((ele_C & 0x3F) << 16) | ele_A;
++				PHY_SetBBReg(priv, rOFDM0_XBTxIQImbalance, bMaskDWord, value32);
++				
++				value32 = (ele_C & 0x000003C0) >> 6;
++				PHY_SetBBReg(priv, rOFDM0_XDTxAFE, bMaskH4Bits, value32);
++
++				value32 = ((X * ele_D) >> 7) & 0x01;
++				PHY_SetBBReg(priv, rOFDM0_ECCAThreshold, BIT(28), value32);
++			} else {
++				PHY_SetBBReg(priv, rOFDM0_XBTxIQImbalance, bMaskDWord, OFDMSwingTable_92E[(unsigned int)OFDM_index[1]]);
++				PHY_SetBBReg(priv, rOFDM0_XDTxAFE, bMaskH4Bits, 0x00);
++				PHY_SetBBReg(priv, rOFDM0_ECCAThreshold, BIT(28), 0x00);
++			}
++
++		}
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("0xc80 = 0x%x \n", PHY_QueryBBReg(priv, rOFDM0_XATxIQImbalance, bMaskDWord)));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("0xc88 = 0x%x \n", PHY_QueryBBReg(priv, rOFDM0_XBTxIQImbalance, bMaskDWord)));
++
++		if (delta_IQK > 3) {
++			priv->pshare->ThermalValue_IQK = ThermalValue;
++#ifdef MP_TEST
++			if (!(priv->pshare->rf_ft_var.mp_specific && (OPMODE & (WIFI_MP_CTX_BACKGROUND | WIFI_MP_CTX_PACKET))))
++#endif	
++				PHY_IQCalibrate_8192E(pDM_Odm,false);
++		}
++
++		if (delta_LCK > 8) {
++			RTL_W8(0x522, 0xff);
++			Reg0x18 = PHY_QueryRFReg(priv, RF_PATH_A, 0x18, bMask20Bits, 1);
++			PHY_SetRFReg(priv, RF_PATH_A, 0xB4, BIT(14), 1);			
++			PHY_SetRFReg(priv, RF_PATH_A, 0x18, BIT(15), 1);
++			delay_ms(1);
++			PHY_SetRFReg(priv, RF_PATH_A, 0xB4, BIT(14), 0);
++			PHY_SetRFReg(priv, RF_PATH_A, 0x18, bMask20Bits, Reg0x18);		
++			RTL_W8(0x522, 0x0);
++			priv->pshare->ThermalValue_LCK = ThermalValue;
++		}	
++	}
++
++	//update thermal meter value
++	priv->pshare->ThermalValue = ThermalValue;
++	for (i = 0 ; i < rf ; i++)
++		priv->pshare->OFDM_index[i] = OFDM_index[i];
++	priv->pshare->CCK_index = CCK_index;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,  ("\n******** END:%s() ********\n", __FUNCTION__));	
++}
++#endif
++
++
++
++#if (RTL8197F_SUPPORT == 1 || RTL8822B_SUPPORT == 1)					
++		
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter_JaguarSeries3(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	)
++{
++#if 1
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			ThermalValue = 0, delta, delta_LCK, delta_IQK, channel, is_increase;
++	u1Byte			ThermalValue_AVG_count = 0, p = 0, i = 0;
++	u4Byte			ThermalValue_AVG = 0;
++	prtl8192cd_priv		priv = pDM_Odm->priv;
++	TXPWRTRACK_CFG	c;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	/*4 1. The following TWO tables decide the final index of OFDM/CCK swing table.*/
++	pu1Byte			deltaSwingTableIdx_TUP_A = NULL, deltaSwingTableIdx_TDOWN_A = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_B = NULL, deltaSwingTableIdx_TDOWN_B = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_CCK_A = NULL, deltaSwingTableIdx_TDOWN_CCK_A = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_CCK_B = NULL, deltaSwingTableIdx_TDOWN_CCK_B = NULL;
++	/*for 8814 add by Yu Chen*/
++	pu1Byte			deltaSwingTableIdx_TUP_C = NULL, deltaSwingTableIdx_TDOWN_C = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_D = NULL, deltaSwingTableIdx_TDOWN_D = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_CCK_C = NULL, deltaSwingTableIdx_TDOWN_CCK_C = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_CCK_D = NULL, deltaSwingTableIdx_TDOWN_CCK_D = NULL;
++
++#ifdef MP_TEST
++	if ((OPMODE & WIFI_MP_STATE) || priv->pshare->rf_ft_var.mp_specific) {
++		channel = priv->pshare->working_channel;
++		if (priv->pshare->mp_txpwr_tracking == FALSE)
++			return;
++	} else
++#endif
++	{
++		channel = (priv->pmib->dot11RFEntry.dot11channel);
++	}
++
++	ConfigureTxpowerTrack(pDM_Odm, &c);
++	
++	(*c.GetDeltaAllSwingTable)(pDM_Odm, (pu1Byte *)&deltaSwingTableIdx_TUP_A, (pu1Byte *)&deltaSwingTableIdx_TDOWN_A,
++									  (pu1Byte *)&deltaSwingTableIdx_TUP_B, (pu1Byte *)&deltaSwingTableIdx_TDOWN_B,
++									  (pu1Byte *)&deltaSwingTableIdx_TUP_CCK_A, (pu1Byte *)&deltaSwingTableIdx_TDOWN_CCK_A,
++									  (pu1Byte *)&deltaSwingTableIdx_TUP_CCK_B, (pu1Byte *)&deltaSwingTableIdx_TDOWN_CCK_B);
++	
++	ThermalValue = (u1Byte)ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, c.ThermalRegAddr, 0xfc00); /*0x42: RF Reg[15:10] 88E*/
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++		("Readback Thermal Meter = 0x%x(%d) EEPROMthermalmeter 0x%x(%d)\n"
++		, ThermalValue, ThermalValue, priv->pmib->dot11RFEntry.ther, priv->pmib->dot11RFEntry.ther));
++
++	/* Initialize */
++	if (!pDM_Odm->RFCalibrateInfo.ThermalValue)
++		pDM_Odm->RFCalibrateInfo.ThermalValue = priv->pmib->dot11RFEntry.ther;
++	
++	if (!pDM_Odm->RFCalibrateInfo.ThermalValue_LCK)
++		pDM_Odm->RFCalibrateInfo.ThermalValue_LCK = priv->pmib->dot11RFEntry.ther;
++
++	if (!pDM_Odm->RFCalibrateInfo.ThermalValue_IQK)
++		pDM_Odm->RFCalibrateInfo.ThermalValue_IQK = priv->pmib->dot11RFEntry.ther;
++
++	/* calculate average thermal meter */
++	pDM_Odm->RFCalibrateInfo.ThermalValue_AVG[pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index] = ThermalValue;
++	pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index++;
++	
++	if (pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index == c.AverageThermalNum)   /*Average times =  c.AverageThermalNum*/
++		pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index = 0;
++
++	for (i = 0; i < c.AverageThermalNum; i++) {
++		if (pDM_Odm->RFCalibrateInfo.ThermalValue_AVG[i]) {
++			ThermalValue_AVG += pDM_Odm->RFCalibrateInfo.ThermalValue_AVG[i];
++			ThermalValue_AVG_count++;
++		}
++	}
++
++	if (ThermalValue_AVG_count) {/*Calculate Average ThermalValue after average enough times*/
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("ThermalValue_AVG=0x%x(%d)  ThermalValue_AVG_count = %d\n"
++			, ThermalValue_AVG, ThermalValue_AVG, ThermalValue_AVG_count));
++		
++		ThermalValue = (u1Byte)(ThermalValue_AVG / ThermalValue_AVG_count);
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("AVG Thermal Meter = 0x%X(%d), EEPROMthermalmeter = 0x%X(%d)\n", ThermalValue, ThermalValue, priv->pmib->dot11RFEntry.ther, priv->pmib->dot11RFEntry.ther));
++	}
++
++	/*4 Calculate delta, delta_LCK, delta_IQK.*/
++	delta = RTL_ABS(ThermalValue, priv->pmib->dot11RFEntry.ther);	
++	delta_LCK = RTL_ABS(ThermalValue, pDM_Odm->RFCalibrateInfo.ThermalValue_LCK);
++	delta_IQK = RTL_ABS(ThermalValue, pDM_Odm->RFCalibrateInfo.ThermalValue_IQK);
++	is_increase = ((ThermalValue < priv->pmib->dot11RFEntry.ther) ? 0 : 1);
++
++	if (delta > 29) { /* power track table index(thermal diff.) upper bound*/
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("delta(%d) > 29, set delta to 29\n", delta));
++		delta = 29;
++	}
++
++
++	/*4 if necessary, do LCK.*/
++	
++	if (delta_LCK > c.Threshold_IQK) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("delta_LCK(%d) >= Threshold_IQK(%d)\n", delta_LCK, c.Threshold_IQK));
++		pDM_Odm->RFCalibrateInfo.ThermalValue_LCK = ThermalValue;
++		if (c.PHY_LCCalibrate)
++			(*c.PHY_LCCalibrate)(pDM_Odm);
++	} 
++
++	if (delta_IQK > c.Threshold_IQK) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("delta_IQK(%d) >= Threshold_IQK(%d)\n", delta_IQK, c.Threshold_IQK));
++		pDM_Odm->RFCalibrateInfo.ThermalValue_IQK = ThermalValue;
++		if (c.DoIQK)
++			(*c.DoIQK)(pDM_Odm, TRUE, 0, 0);
++	} 
++
++	if (!priv->pmib->dot11RFEntry.ther)	/*Don't do power tracking since no calibrated thermal value*/
++		return;
++	
++	/*4 Do Power Tracking*/
++
++	if (ThermalValue != pDM_Odm->RFCalibrateInfo.ThermalValue) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("\n\n******** START POWER TRACKING ********\n"));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("Readback Thermal Meter = 0x%x pre thermal meter 0x%x EEPROMthermalmeter 0x%x\n",
++			ThermalValue, pDM_Odm->RFCalibrateInfo.ThermalValue, priv->pmib->dot11RFEntry.ther));
++				
++#ifdef _TRACKING_TABLE_FILE
++		if (priv->pshare->rf_ft_var.pwr_track_file) {				
++			if (is_increase) {			/*thermal is higher than base*/
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++					switch (p) {
++					case ODM_RF_PATH_B:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TUP_B[%d] = %d deltaSwingTableIdx_TUP_CCK_B[%d] = %d\n", delta, deltaSwingTableIdx_TUP_B[delta], delta, deltaSwingTableIdx_TUP_CCK_B[delta]));
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = deltaSwingTableIdx_TUP_B[delta];
++						pRFCalibrateInfo->Absolute_CCKSwingIdx[p] = deltaSwingTableIdx_TUP_CCK_B[delta]; 
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pRF->Absolute_OFDMSwingIdx[ODM_RF_PATH_B] = %d pRF->Absolute_CCKSwingIdx[ODM_RF_PATH_B] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p], pRFCalibrateInfo->Absolute_CCKSwingIdx[p]));
++					break;
++
++					case ODM_RF_PATH_C:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TUP_C[%d] = %d deltaSwingTableIdx_TUP_CCK_C[%d] = %d\n", delta, deltaSwingTableIdx_TUP_C[delta], delta, deltaSwingTableIdx_TUP_CCK_C[delta]));
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = deltaSwingTableIdx_TUP_C[delta];
++						pRFCalibrateInfo->Absolute_CCKSwingIdx[p] = deltaSwingTableIdx_TUP_CCK_C[delta];
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pRF->Absolute_OFDMSwingIdx[ODM_RF_PATH_C] = %d pRF->Absolute_CCKSwingIdx[ODM_RF_PATH_C] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p], pRFCalibrateInfo->Absolute_CCKSwingIdx[p]));
++					break;
++
++					case ODM_RF_PATH_D:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TUP_D[%d] = %d deltaSwingTableIdx_TUP_CCK_D[%d] = %d\n", delta, deltaSwingTableIdx_TUP_D[delta], delta, deltaSwingTableIdx_TUP_CCK_D[delta]));
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = deltaSwingTableIdx_TUP_D[delta];
++						pRFCalibrateInfo->Absolute_CCKSwingIdx[p] = deltaSwingTableIdx_TUP_CCK_D[delta]; 
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pRF->Absolute_OFDMSwingIdx[ODM_RF_PATH_D] = %d pRF->Absolute_CCKSwingIdx[ODM_RF_PATH_D] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p], pRFCalibrateInfo->Absolute_CCKSwingIdx[p]));
++						break;
++					default:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TUP_A[%d] = %d deltaSwingTableIdx_TUP_CCK_A[%d] = %d\n", delta, deltaSwingTableIdx_TUP_A[delta], delta, deltaSwingTableIdx_TUP_CCK_A[delta]));
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = deltaSwingTableIdx_TUP_A[delta];
++						pRFCalibrateInfo->Absolute_CCKSwingIdx[p] = deltaSwingTableIdx_TUP_CCK_A[delta]; 
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pRF->Absolute_OFDMSwingIdx[ODM_RF_PATH_A] = %d pRF->Absolute_CCKSwingIdx[ODM_RF_PATH_A] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p], pRFCalibrateInfo->Absolute_CCKSwingIdx[p])); 
++					break;
++					}
++				}
++			} else {			/* thermal is lower than base*/
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++					switch (p) {
++					case ODM_RF_PATH_B:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TDOWN_B[%d] = %d   deltaSwingTableIdx_TDOWN_CCK_B[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_B[delta], delta, deltaSwingTableIdx_TDOWN_CCK_B[delta]));  
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_B[delta];
++						pRFCalibrateInfo->Absolute_CCKSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_CCK_B[delta];
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is lower and pRF->Absolute_OFDMSwingIdx[ODM_RF_PATH_B] = %d   pRF->Absolute_CCKSwingIdx[ODM_RF_PATH_B] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p], pRFCalibrateInfo->Absolute_CCKSwingIdx[p])); 
++					break;
++
++					case ODM_RF_PATH_C:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TDOWN_C[%d] = %d   deltaSwingTableIdx_TDOWN_CCK_C[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_C[delta], delta, deltaSwingTableIdx_TDOWN_CCK_C[delta]));  
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_C[delta];
++						pRFCalibrateInfo->Absolute_CCKSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_CCK_C[delta];
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is lower and pRF->Absolute_OFDMSwingIdx[ODM_RF_PATH_C] = %d   pRF->Absolute_CCKSwingIdx[ODM_RF_PATH_C] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p], pRFCalibrateInfo->Absolute_CCKSwingIdx[p])); 
++					break;
++
++					case ODM_RF_PATH_D:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TDOWN_D[%d] = %d   deltaSwingTableIdx_TDOWN_CCK_D[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_D[delta], delta, deltaSwingTableIdx_TDOWN_CCK_D[delta]));  
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_D[delta];
++						pRFCalibrateInfo->Absolute_CCKSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_CCK_D[delta];
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is lower and pRF->Absolute_OFDMSwingIdx[ODM_RF_PATH_D] = %d   pRF->Absolute_CCKSwingIdx[ODM_RF_PATH_D] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p], pRFCalibrateInfo->Absolute_CCKSwingIdx[p])); 
++					break;
++
++					default:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TDOWN_A[%d] = %d   deltaSwingTableIdx_TDOWN_CCK_A[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_A[delta], delta, deltaSwingTableIdx_TDOWN_CCK_A[delta]));  
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_A[delta];
++						pRFCalibrateInfo->Absolute_CCKSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_CCK_A[delta];
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is lower and pRF->Absolute_OFDMSwingIdx[ODM_RF_PATH_A] = %d   pRF->Absolute_CCKSwingIdx[ODM_RF_PATH_A] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p], pRFCalibrateInfo->Absolute_CCKSwingIdx[p])); 
++					break;
++					}		
++				}
++			}
++				
++			if (is_increase) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, (">>> increse power --->\n"));
++					if (GET_CHIP_VER(priv) == VERSION_8197F) {
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) 
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, p, 0);
++					} else if (GET_CHIP_VER(priv) == VERSION_8822B) {
++						for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) 
++							(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, 0);
++					}
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, (">>> decrese power --->\n"));
++					if (GET_CHIP_VER(priv) == VERSION_8197F) {
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) 
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, p, 0);
++					} else if (GET_CHIP_VER(priv) == VERSION_8822B) {
++						for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) 
++							(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, 0);
++					}
++			}
++		}
++#endif		
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("\n******** END:%s() ********\n\n", __func__));
++	/*update thermal meter value*/
++	pDM_Odm->RFCalibrateInfo.ThermalValue =  ThermalValue;
++
++	}
++
++#endif
++}
++
++/*#if (RTL8814A_SUPPORT == 1)*/
++#elif(RTL8814A_SUPPORT == 1)
++		
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter_JaguarSeries2(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			ThermalValue = 0, delta, delta_LCK, delta_IQK, channel, is_increase;
++	u1Byte			ThermalValue_AVG_count = 0, p = 0, i = 0;
++	u4Byte			ThermalValue_AVG = 0, Reg0x18;
++	u4Byte 			BBSwingReg[4] = {rA_TxScale_Jaguar,rB_TxScale_Jaguar,rC_TxScale_Jaguar2,rD_TxScale_Jaguar2};
++	s4Byte			ele_D;
++	u4Byte			BBswingIdx;
++	prtl8192cd_priv	priv = pDM_Odm->priv;
++	TXPWRTRACK_CFG 	c;
++	BOOLEAN			bTSSIenable = FALSE;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	//4 1. The following TWO tables decide the final index of OFDM/CCK swing table.
++	pu1Byte			deltaSwingTableIdx_TUP_A = NULL, deltaSwingTableIdx_TDOWN_A = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_B = NULL, deltaSwingTableIdx_TDOWN_B = NULL;
++	//for 8814 add by Yu Chen
++	pu1Byte			deltaSwingTableIdx_TUP_C = NULL, deltaSwingTableIdx_TDOWN_C = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_D = NULL, deltaSwingTableIdx_TDOWN_D = NULL;
++
++#ifdef MP_TEST
++	if ((OPMODE & WIFI_MP_STATE) || priv->pshare->rf_ft_var.mp_specific) {
++		channel = priv->pshare->working_channel;
++		if (priv->pshare->mp_txpwr_tracking == FALSE)
++			return;
++	} else
++#endif
++	{
++		channel = (priv->pmib->dot11RFEntry.dot11channel);
++	}
++
++	ConfigureTxpowerTrack(pDM_Odm, &c);
++	pRFCalibrateInfo->DefaultOfdmIndex = priv->pshare->OFDM_index0[ODM_RF_PATH_A];
++
++	(*c.GetDeltaSwingTable)(pDM_Odm, (pu1Byte*)&deltaSwingTableIdx_TUP_A, (pu1Byte*)&deltaSwingTableIdx_TDOWN_A,
++									  (pu1Byte*)&deltaSwingTableIdx_TUP_B, (pu1Byte*)&deltaSwingTableIdx_TDOWN_B);
++
++	if(pDM_Odm->SupportICType & ODM_RTL8814A)	// for 8814 path C & D
++	(*c.GetDeltaSwingTable8814only)(pDM_Odm, (pu1Byte*)&deltaSwingTableIdx_TUP_C, (pu1Byte*)&deltaSwingTableIdx_TDOWN_C,
++									  (pu1Byte*)&deltaSwingTableIdx_TUP_D, (pu1Byte*)&deltaSwingTableIdx_TDOWN_D);
++	
++	ThermalValue = (u1Byte)ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, c.ThermalRegAddr, 0xfc00); //0x42: RF Reg[15:10] 88E
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++		("\nReadback Thermal Meter = 0x%x, pre thermal meter 0x%x, EEPROMthermalmeter 0x%x\n", ThermalValue, pDM_Odm->RFCalibrateInfo.ThermalValue, priv->pmib->dot11RFEntry.ther));
++
++	/* Initialize */
++	if (!pDM_Odm->RFCalibrateInfo.ThermalValue) {
++		pDM_Odm->RFCalibrateInfo.ThermalValue = priv->pmib->dot11RFEntry.ther;
++	}
++	
++	if (!pDM_Odm->RFCalibrateInfo.ThermalValue_LCK) {
++		pDM_Odm->RFCalibrateInfo.ThermalValue_LCK = priv->pmib->dot11RFEntry.ther;
++	}
++
++	if (!pDM_Odm->RFCalibrateInfo.ThermalValue_IQK) {
++		pDM_Odm->RFCalibrateInfo.ThermalValue_IQK = priv->pmib->dot11RFEntry.ther;
++	}
++	
++	bTSSIenable = (BOOLEAN)ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, rRF_TxGainOffset, BIT7);	// check TSSI enable
++	
++	//4 Query OFDM BB swing default setting 	Bit[31:21]	
++	for(p = ODM_RF_PATH_A ; p < c.RfPathCount ; p++)
++	{
++		ele_D = ODM_GetBBReg(pDM_Odm, BBSwingReg[p], 0xffe00000);	
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("0x%x:0x%x ([31:21] = 0x%x)\n", BBSwingReg[p], ODM_GetBBReg(pDM_Odm, BBSwingReg[p], bMaskDWord), ele_D));
++		
++		for (BBswingIdx = 0; BBswingIdx < TXSCALE_TABLE_SIZE; BBswingIdx++) {//4 
++			if (ele_D == TxScalingTable_Jaguar[BBswingIdx]) {
++				pDM_Odm->RFCalibrateInfo.OFDM_index[p] = (u1Byte)BBswingIdx;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++					("OFDM_index[%d]=%d\n",p, pDM_Odm->RFCalibrateInfo.OFDM_index[p]));				
++				break;
++			}
++		}
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("KfreeOffset[%d]=%d\n",p, pRFCalibrateInfo->KfreeOffset[p]));
++		
++	}
++
++	/* calculate average thermal meter */
++	pDM_Odm->RFCalibrateInfo.ThermalValue_AVG[pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index] = ThermalValue;
++	pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index++;
++	if(pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index == c.AverageThermalNum)   //Average times =  c.AverageThermalNum
++		pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index = 0;
++
++	for(i = 0; i < c.AverageThermalNum; i++)
++	{
++		if(pDM_Odm->RFCalibrateInfo.ThermalValue_AVG[i])
++		{
++			ThermalValue_AVG += pDM_Odm->RFCalibrateInfo.ThermalValue_AVG[i];
++			ThermalValue_AVG_count++;
++		}
++	}
++
++	if(ThermalValue_AVG_count)               //Calculate Average ThermalValue after average enough times
++	{
++		ThermalValue = (u1Byte)(ThermalValue_AVG / ThermalValue_AVG_count);
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("AVG Thermal Meter = 0x%X, EEPROMthermalmeter = 0x%X\n", ThermalValue, priv->pmib->dot11RFEntry.ther));					
++	}
++
++	//4 Calculate delta, delta_LCK, delta_IQK.
++	delta = RTL_ABS(ThermalValue, priv->pmib->dot11RFEntry.ther);	
++	delta_LCK = RTL_ABS(ThermalValue, pDM_Odm->RFCalibrateInfo.ThermalValue_LCK);
++	delta_IQK = RTL_ABS(ThermalValue, pDM_Odm->RFCalibrateInfo.ThermalValue_IQK);
++	is_increase = ((ThermalValue < priv->pmib->dot11RFEntry.ther) ? 0 : 1);
++
++	//4 if necessary, do LCK.
++	if (!(pDM_Odm->SupportICType & ODM_RTL8821)) {
++		if (delta_LCK > c.Threshold_IQK) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("delta_LCK(%d) >= Threshold_IQK(%d)\n", delta_LCK, c.Threshold_IQK));
++			pDM_Odm->RFCalibrateInfo.ThermalValue_LCK = ThermalValue;
++
++			/*Use RTLCK, so close power tracking driver LCK*/
++			#if (RTL8814A_SUPPORT != 1)
++				if (!(pDM_Odm->SupportICType & ODM_RTL8814A)) {
++					if (c.PHY_LCCalibrate)
++						(*c.PHY_LCCalibrate)(pDM_Odm);
++				}
++			#endif
++		}
++	}
++
++	if (delta_IQK > c.Threshold_IQK) 
++	{
++		panic_printk("%s(%d)\n", __FUNCTION__, __LINE__);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("delta_IQK(%d) >= Threshold_IQK(%d)\n", delta_IQK, c.Threshold_IQK));
++		pDM_Odm->RFCalibrateInfo.ThermalValue_IQK = ThermalValue;
++		if(c.DoIQK)
++			(*c.DoIQK)(pDM_Odm, TRUE, 0, 0);
++	} 
++
++	if(!priv->pmib->dot11RFEntry.ther)	/*Don't do power tracking since no calibrated thermal value*/
++		return;
++	
++	 //4 Do Power Tracking
++
++	 if(bTSSIenable == TRUE)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("**********Enter PURE TSSI MODE**********\n"));
++		for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++			(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, TSSI_MODE, p, 0);
++	}
++	else if (ThermalValue != pDM_Odm->RFCalibrateInfo.ThermalValue)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("\n******** START POWER TRACKING ********\n")); 					
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("\nReadback Thermal Meter = 0x%x pre thermal meter 0x%x EEPROMthermalmeter 0x%x\n", ThermalValue, pDM_Odm->RFCalibrateInfo.ThermalValue, priv->pmib->dot11RFEntry.ther)); 			
++				
++#ifdef _TRACKING_TABLE_FILE
++		if (priv->pshare->rf_ft_var.pwr_track_file)
++		{				
++			if (is_increase)			// thermal is higher than base
++			{
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) 
++				{
++					switch(p)
++					{
++					case ODM_RF_PATH_B:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TUP_B[%d] = %d\n", delta, deltaSwingTableIdx_TUP_B[delta])); 						
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = deltaSwingTableIdx_TUP_B[delta];       // Record delta swing for mix mode power tracking
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pDM_Odm->Absolute_OFDMSwingIdx[ODM_RF_PATH_B] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++					case ODM_RF_PATH_C:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TUP_C[%d] = %d\n", delta, deltaSwingTableIdx_TUP_C[delta]));								
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = deltaSwingTableIdx_TUP_C[delta];       // Record delta swing for mix mode power tracking
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pDM_Odm->Absolute_OFDMSwingIdx[ODM_RF_PATH_C] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++					case ODM_RF_PATH_D:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TUP_D[%d] = %d\n", delta, deltaSwingTableIdx_TUP_D[delta]));							
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = deltaSwingTableIdx_TUP_D[delta];       // Record delta swing for mix mode power tracking
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pDM_Odm->Absolute_OFDMSwingIdx[ODM_RF_PATH_D] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++					default:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++							("deltaSwingTableIdx_TUP_A[%d] = %d\n", delta, deltaSwingTableIdx_TUP_A[delta]));						
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = deltaSwingTableIdx_TUP_A[delta];        // Record delta swing for mix mode power tracking
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pDM_Odm->Absolute_OFDMSwingIdx[ODM_RF_PATH_A] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++					}		
++				}
++			}
++			else					// thermal is lower than base
++			{
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) 
++				{
++					switch(p)
++					{
++					case ODM_RF_PATH_B:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TDOWN_B[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_B[delta]));  
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_B[delta];        // Record delta swing for mix mode power tracking
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is lower and pDM_Odm->Absolute_OFDMSwingIdx[ODM_RF_PATH_B] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p])); 
++					break;
++
++					case ODM_RF_PATH_C:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TDOWN_C[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_C[delta]));  
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_C[delta];        // Record delta swing for mix mode power tracking
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is lower and pDM_Odm->Absolute_OFDMSwingIdx[ODM_RF_PATH_C] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));   
++					break;
++
++					case ODM_RF_PATH_D:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TDOWN_D[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_D[delta]));  
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_D[delta];        // Record delta swing for mix mode power tracking
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is lower and pDM_Odm->Absolute_OFDMSwingIdx[ODM_RF_PATH_D] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++					default:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TDOWN_A[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_A[delta]));  
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_A[delta];        // Record delta swing for mix mode power tracking
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is lower and pDM_Odm->Absolute_OFDMSwingIdx[ODM_RF_PATH_A] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++					}		
++				}
++			}
++				
++			if (is_increase)
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,(">>> increse power ---> \n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) 
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, 0);
++			} 
++			else
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,(">>> decrese power --->\n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) 
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, 0);
++			}
++		}
++#endif		
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("\n******** END:%s() ********\n", __FUNCTION__));
++	//update thermal meter value
++	pDM_Odm->RFCalibrateInfo.ThermalValue =  ThermalValue;
++
++	}
++}
++
++#elif(ODM_IC_11AC_SERIES_SUPPORT)
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter_JaguarSeries(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	unsigned char			ThermalValue = 0, delta, delta_LCK, channel, is_decrease;
++	unsigned char			ThermalValue_AVG_count = 0;
++	unsigned int			ThermalValue_AVG = 0, Reg0x18;
++	unsigned int 			BBSwingReg[4]={0xc1c,0xe1c,0x181c,0x1a1c};
++	int 					ele_D, value32;
++	char					OFDM_index[2], index;
++	unsigned int			i = 0, j = 0, rf_path, max_rf_path =2 ,rf;
++	prtl8192cd_priv		priv = pDM_Odm->priv;
++	unsigned char			OFDM_min_index = 7; //OFDM BB Swing should be less than +2.5dB, which is required by Arthur and Mimic
++
++#ifdef MP_TEST
++	if ((OPMODE & WIFI_MP_STATE) || priv->pshare->rf_ft_var.mp_specific) {
++		channel = priv->pshare->working_channel;
++		if (priv->pshare->mp_txpwr_tracking == FALSE)
++			return;
++	} else
++#endif
++	{
++		channel = (priv->pmib->dot11RFEntry.dot11channel);
++	}
++
++#if RTL8881A_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8881A) {
++		max_rf_path = 1;
++		if ((get_bonding_type_8881A() == BOND_8881AM ||get_bonding_type_8881A() == BOND_8881AN) 			
++			&& priv->pshare->rf_ft_var.use_intpa8881A && (priv->pmib->dot11RFEntry.phyBandSelect == PHY_BAND_2G))			
++			OFDM_min_index = 6;		// intPA - upper bond set to +3 dB (base: -2 dB)ot11RFEntry.phyBandSelect == PHY_BAND_2G))
++		else
++			OFDM_min_index = 10;		//OFDM BB Swing should be less than +1dB, which is required by Arthur and Mimic
++	}
++#endif
++
++
++	ThermalValue = (unsigned char)PHY_QueryRFReg(priv, RF_PATH_A, 0x42, 0xfc00, 1); //0x42: RF Reg[15:10] 88E
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("\nReadback Thermal Meter = 0x%x pre thermal meter 0x%x EEPROMthermalmeter 0x%x\n", ThermalValue, priv->pshare->ThermalValue, priv->pmib->dot11RFEntry.ther));
++
++
++	//4 Query OFDM BB swing default setting 	Bit[31:21]
++	for(rf_path = 0 ; rf_path < max_rf_path ; rf_path++){
++		ele_D = PHY_QueryBBReg(priv, BBSwingReg[rf_path], 0xffe00000);	
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("0x%x:0x%x ([31:21] = 0x%x)\n",BBSwingReg[rf_path], PHY_QueryBBReg(priv, BBSwingReg[rf_path], bMaskDWord),ele_D)); 			
++		for (i = 0; i < OFDM_TABLE_SIZE_8812; i++) {//4 
++			if (ele_D == OFDMSwingTable_8812[i]) {
++				OFDM_index[rf_path] = (unsigned char)i;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("OFDM_index[%d]=%d\n",rf_path, OFDM_index[rf_path]));				
++				break;
++			}
++		}
++	}
++#if 0	
++	//Query OFDM path A default setting 	Bit[31:21]
++	ele_D = PHY_QueryBBReg(priv, 0xc1c, 0xffe00000);	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("0xc1c:0x%x ([31:21] = 0x%x)\n", PHY_QueryBBReg(priv, 0xc1c, bMaskDWord),ele_D)); 			
++	for (i = 0; i < OFDM_TABLE_SIZE_8812; i++) {//4 
++		if (ele_D == OFDMSwingTable_8812[i]) {
++			OFDM_index[0] = (unsigned char)i;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("OFDM_index[0]=%d\n", OFDM_index[0]));				
++			break;
++		}
++	}
++	//Query OFDM path B default setting
++	if (rf == 2) {
++		ele_D = PHY_QueryBBReg(priv, 0xe1c, 0xffe00000);		
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("0xe1c:0x%x ([32:21] = 0x%x)\n", PHY_QueryBBReg(priv, 0xe1c, bMaskDWord),ele_D)); 			
++		for (i = 0; i < OFDM_TABLE_SIZE_8812; i++) {
++			if (ele_D == OFDMSwingTable_8812[i]) {
++				OFDM_index[1] = (unsigned char)i;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("OFDM_index[1]=%d\n", OFDM_index[1])); 			
++				break;
++			}
++		}
++	}
++#endif
++	/* Initialize */
++	if (!priv->pshare->ThermalValue) {
++		priv->pshare->ThermalValue = priv->pmib->dot11RFEntry.ther;
++		priv->pshare->ThermalValue_LCK = ThermalValue;
++	}
++
++	/* calculate average thermal meter */
++	{
++		priv->pshare->ThermalValue_AVG_8812[priv->pshare->ThermalValue_AVG_index_8812] = ThermalValue;
++		priv->pshare->ThermalValue_AVG_index_8812++;
++		if (priv->pshare->ThermalValue_AVG_index_8812 == AVG_THERMAL_NUM_8812)
++			priv->pshare->ThermalValue_AVG_index_8812 = 0;
++
++		for (i = 0; i < AVG_THERMAL_NUM_8812; i++) {
++			if (priv->pshare->ThermalValue_AVG_8812[i]) {
++				ThermalValue_AVG += priv->pshare->ThermalValue_AVG_8812[i];
++				ThermalValue_AVG_count++;
++			}
++		}
++
++		if (ThermalValue_AVG_count) {
++			ThermalValue = (unsigned char)(ThermalValue_AVG / ThermalValue_AVG_count);
++			//printk("AVG Thermal Meter = 0x%x \n", ThermalValue);
++		}
++	}
++	
++
++	//4 If necessary,  do power tracking
++
++	if(!priv->pmib->dot11RFEntry.ther) /*Don't do power tracking since no calibrated thermal value*/
++		return;  
++
++	if (ThermalValue != priv->pshare->ThermalValue) {
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("\n******** START POWER TRACKING ********\n")); 					
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("\nReadback Thermal Meter = 0x%x pre thermal meter 0x%x EEPROMthermalmeter 0x%x\n", ThermalValue, priv->pshare->ThermalValue, priv->pmib->dot11RFEntry.ther)); 			
++		delta = RTL_ABS(ThermalValue, priv->pmib->dot11RFEntry.ther);
++		delta_LCK = RTL_ABS(ThermalValue, priv->pshare->ThermalValue_LCK);
++		is_decrease = ((ThermalValue < priv->pmib->dot11RFEntry.ther) ? 1 : 0);
++		//if (priv->pmib->dot11RFEntry.phyBandSelect == PHY_BAND_5G) 
++		{
++#ifdef _TRACKING_TABLE_FILE
++			if (priv->pshare->rf_ft_var.pwr_track_file) {				
++				for (rf_path = 0; rf_path < max_rf_path; rf_path++) {
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("Diff: (%s)%d ==> get index from table : %d)\n", (is_decrease?"-":"+"), delta, get_tx_tracking_index(priv, channel, rf_path, delta, is_decrease, 0)));
++					if (is_decrease) {
++						OFDM_index[rf_path] = priv->pshare->OFDM_index0[rf_path] + get_tx_tracking_index(priv, channel, rf_path, delta, is_decrease, 0);
++						OFDM_index[rf_path] = ((OFDM_index[rf_path] > (OFDM_TABLE_SIZE_8812 - 1)) ? (OFDM_TABLE_SIZE_8812 - 1) : OFDM_index[rf_path]);
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,(">>> decrese power ---> new OFDM_INDEX:%d (%d + %d)\n", OFDM_index[rf_path], priv->pshare->OFDM_index0[rf_path], get_tx_tracking_index(priv, channel, rf_path, delta, is_decrease, 0)));
++#if 0// RTL8881A_SUPPORT
++						if (pDM_Odm->SupportICType == ODM_RTL8881A){
++							if(priv->pshare->rf_ft_var.pwrtrk_TxAGC_enable){
++								if(priv->pshare->AddTxAGC){//TxAGC has been added
++									AddTxPower88XX_AC(priv,0); 
++									priv->pshare->AddTxAGC = 0;
++									priv->pshare->AddTxAGC_index = 0;
++								}
++							}
++						}
++#endif				
++					} else {
++
++						OFDM_index[rf_path] = priv->pshare->OFDM_index0[rf_path] - get_tx_tracking_index(priv, channel, rf_path, delta, is_decrease, 0);
++#if 0// RTL8881A_SUPPORT
++						if(pDM_Odm->SupportICType == ODM_RTL8881A){ 
++							if(priv->pshare->rf_ft_var.pwrtrk_TxAGC_enable){
++								if(OFDM_index[i] < OFDM_min_index){
++									priv->pshare->AddTxAGC_index = (OFDM_min_index - OFDM_index[i])/2;  // Calculate Remnant TxAGC Value,  2 index for 1 TxAGC 
++									AddTxPower88XX_AC(priv,priv->pshare->AddTxAGC_index);
++									priv->pshare->AddTxAGC = 1;     //AddTxAGC Flag = 1
++									OFDM_index[i] = OFDM_min_index;
++								}
++								else{
++									if(priv->pshare->AddTxAGC){// TxAGC been added
++										priv->pshare->AddTxAGC = 0;
++										priv->pshare->AddTxAGC_index = 0;
++										AddTxPower88XX_AC(priv,0); //minus the added TPI
++									}
++								}
++							}
++						}
++#else
++						OFDM_index[rf_path] = ((OFDM_index[rf_path] < OFDM_min_index) ?  OFDM_min_index : OFDM_index[rf_path]);
++#endif
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,(">>> increse power ---> new OFDM_INDEX:%d (%d - %d)\n", OFDM_index[rf_path], priv->pshare->OFDM_index0[rf_path], get_tx_tracking_index(priv, channel, rf_path, delta, is_decrease, 0)));
++					}
++				}
++			}
++#endif
++			//4 Set new BB swing index
++			for (rf_path = 0; rf_path < max_rf_path; rf_path++) {
++				PHY_SetBBReg(priv, BBSwingReg[rf_path], 0xffe00000, OFDMSwingTable_8812[(unsigned int)OFDM_index[rf_path]]);
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("Readback 0x%x[31:21] = 0x%x, OFDM_index:%d\n",BBSwingReg[rf_path], PHY_QueryBBReg(priv, BBSwingReg[rf_path], 0xffe00000), OFDM_index[rf_path]));				
++			}
++
++		}
++		if (delta_LCK > 8) {
++			RTL_W8(0x522, 0xff);
++			Reg0x18 = PHY_QueryRFReg(priv, RF_PATH_A, 0x18, bMask20Bits, 1);
++			PHY_SetRFReg(priv, RF_PATH_A, 0xB4, BIT(14), 1);			
++			PHY_SetRFReg(priv, RF_PATH_A, 0x18, BIT(15), 1);
++            delay_ms(200); // frequency deviation
++			PHY_SetRFReg(priv, RF_PATH_A, 0xB4, BIT(14), 0);
++			PHY_SetRFReg(priv, RF_PATH_A, 0x18, bMask20Bits, Reg0x18);
++			#ifdef CONFIG_RTL_8812_SUPPORT
++			if (GET_CHIP_VER(priv)== VERSION_8812E)			
++				UpdateBBRFVal8812(priv, priv->pmib->dot11RFEntry.dot11channel);	
++			#endif
++			RTL_W8(0x522, 0x0);
++			priv->pshare->ThermalValue_LCK = ThermalValue;
++		}	
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("\n******** END:%s() ********\n", __FUNCTION__));
++
++		//update thermal meter value
++		priv->pshare->ThermalValue = ThermalValue;
++		for (rf_path = 0; rf_path < max_rf_path; rf_path++)
++			priv->pshare->OFDM_index[rf_path] = OFDM_index[rf_path];
++	}
++}
++
++#endif
++
++
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	
++
++#if (RTL8197F_SUPPORT == 1 || RTL8822B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8197F || pDM_Odm->SupportICType == ODM_RTL8822B) {
++		ODM_TXPowerTrackingCallback_ThermalMeter_JaguarSeries3(pDM_Odm);
++		return;
++	}
++#elif (RTL8814A_SUPPORT == 1)		/*use this function to do power tracking after 8814 by YuChen*/
++	if (pDM_Odm->SupportICType & ODM_RTL8814A) {
++		ODM_TXPowerTrackingCallback_ThermalMeter_JaguarSeries2(pDM_Odm);
++		return;
++		}
++#elif ODM_IC_11AC_SERIES_SUPPORT
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++		ODM_TXPowerTrackingCallback_ThermalMeter_JaguarSeries(pDM_Odm);
++		return;
++	}
++#endif
++
++#if (RTL8192E_SUPPORT == 1)
++	if (pDM_Odm->SupportICType==ODM_RTL8192E) {
++		ODM_TXPowerTrackingCallback_ThermalMeter_92E(pDM_Odm);
++		return;
++	}
++#endif
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	//PMGNT_INFO      		pMgntInfo = &Adapter->MgntInfo;
++#endif
++	
++	u1Byte			ThermalValue = 0, delta, delta_LCK, delta_IQK, offset;
++	u1Byte			ThermalValue_AVG_count = 0;
++	u4Byte			ThermalValue_AVG = 0;	
++//	s4Byte			ele_A=0, ele_D, TempCCk, X, value32;
++//	s4Byte			Y, ele_C=0;
++//	s1Byte			OFDM_index[2], CCK_index=0, OFDM_index_old[2]={0,0}, CCK_index_old=0, index;
++//	s1Byte			deltaPowerIndex = 0;
++	u4Byte			i = 0;//, j = 0;
++	BOOLEAN 		is2T = FALSE;
++//	BOOLEAN 		bInteralPA = FALSE;
++
++	u1Byte			OFDM_max_index = 34, rf = (is2T) ? 2 : 1; //OFDM BB Swing should be less than +3.0dB, which is required by Arthur
++	u1Byte			Indexforchannel = 0;/*GetRightChnlPlaceforIQK(pHalData->CurrentChannel)*/
++    enum            _POWER_DEC_INC { POWER_DEC, POWER_INC };
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++
++	TXPWRTRACK_CFG 	c;
++
++
++	//4 1. The following TWO tables decide the final index of OFDM/CCK swing table.
++	s1Byte			deltaSwingTableIdx[2][index_mapping_NUM_88E] = { 
++                        // {{Power decreasing(lower temperature)}, {Power increasing(higher temperature)}}
++                        {0,0,2,3,4,4,5,6,7,7,8,9,10,10,11}, {0,0,1,2,3,4,4,4,4,5,7,8,9,9,10}
++                    };	
++	u1Byte			thermalThreshold[2][index_mapping_NUM_88E]={
++                        // {{Power decreasing(lower temperature)}, {Power increasing(higher temperature)}}
++					    {0,2,4,6,8,10,12,14,16,18,20,22,24,26,27}, {0,2,4,6,8,10,12,14,16,18,20,22,25,25,25}
++                    };		
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	prtl8192cd_priv	priv = pDM_Odm->priv;
++#endif	
++
++	//4 2. Initilization ( 7 steps in total )
++
++	ConfigureTxpowerTrack(pDM_Odm, &c);
++	
++	pDM_Odm->RFCalibrateInfo.TXPowerTrackingCallbackCnt++; //cosa add for debug
++	pDM_Odm->RFCalibrateInfo.bTXPowerTrackingInit = TRUE;
++    
++#if (MP_DRIVER == 1)      
++    pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = pHalData->TxPowerTrackControl; // <Kordan> We should keep updating the control variable according to HalData.
++    // <Kordan> RFCalibrateInfo.RegA24 will be initialized when ODM HW configuring, but MP configures with para files.
++    pDM_Odm->RFCalibrateInfo.RegA24 = 0x090e1317; 
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP) && defined(MP_TEST)
++	if ((OPMODE & WIFI_MP_STATE) || pDM_Odm->priv->pshare->rf_ft_var.mp_specific) {
++		if(pDM_Odm->priv->pshare->mp_txpwr_tracking == FALSE)
++			return;
++	}
++#endif
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("===>odm_TXPowerTrackingCallback_ThermalMeter_8188E, pDM_Odm->BbSwingIdxCckBase: %d, pDM_Odm->BbSwingIdxOfdmBase: %d \n", pRFCalibrateInfo->BbSwingIdxCckBase, pRFCalibrateInfo->BbSwingIdxOfdmBase));
++/*
++	if (!pDM_Odm->RFCalibrateInfo.TM_Trigger) {
++		ODM_SetRFReg(pDM_Odm, RF_PATH_A, c.ThermalRegAddr, BIT17 | BIT16, 0x3);
++		pDM_Odm->RFCalibrateInfo.TM_Trigger = 1;
++		return;
++	}
++*/	
++	ThermalValue = (u1Byte)ODM_GetRFReg(pDM_Odm, RF_PATH_A, c.ThermalRegAddr, 0xfc00);	//0x42: RF Reg[15:10] 88E
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	if( ! ThermalValue || ! pDM_Odm->RFCalibrateInfo.TxPowerTrackControl)
++#else
++	if( ! pDM_Odm->RFCalibrateInfo.TxPowerTrackControl)
++#endif		
++        return;
++
++	//4 3. Initialize ThermalValues of RFCalibrateInfo
++	
++	if( ! pDM_Odm->RFCalibrateInfo.ThermalValue)
++	{
++		pDM_Odm->RFCalibrateInfo.ThermalValue_LCK = ThermalValue;				
++		pDM_Odm->RFCalibrateInfo.ThermalValue_IQK = ThermalValue;										
++	}			
++
++	if(pDM_Odm->RFCalibrateInfo.bReloadtxpowerindex)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("reload ofdm index for band switch\n"));				
++	}
++
++	//4 4. Calculate average thermal meter
++	
++	pDM_Odm->RFCalibrateInfo.ThermalValue_AVG[pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index] = ThermalValue;
++	pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index++;
++	if(pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index == c.AverageThermalNum)
++		pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index = 0;
++
++	for(i = 0; i < c.AverageThermalNum; i++)
++	{
++		if(pDM_Odm->RFCalibrateInfo.ThermalValue_AVG[i])
++		{
++			ThermalValue_AVG += pDM_Odm->RFCalibrateInfo.ThermalValue_AVG[i];
++			ThermalValue_AVG_count++;
++		}
++	}
++
++	if(ThermalValue_AVG_count)
++	{
++		// Give the new thermo value a weighting
++		ThermalValue_AVG += (ThermalValue*4);
++		
++		ThermalValue = (u1Byte)(ThermalValue_AVG / (ThermalValue_AVG_count+4));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("AVG Thermal Meter = 0x%x \n", ThermalValue));					
++	}
++			
++	//4 5. Calculate delta, delta_LCK, delta_IQK.
++	
++	delta 	  = (ThermalValue > pDM_Odm->RFCalibrateInfo.ThermalValue)?(ThermalValue - pDM_Odm->RFCalibrateInfo.ThermalValue):(pDM_Odm->RFCalibrateInfo.ThermalValue - ThermalValue);
++	delta_LCK = (ThermalValue > pDM_Odm->RFCalibrateInfo.ThermalValue_LCK)?(ThermalValue - pDM_Odm->RFCalibrateInfo.ThermalValue_LCK):(pDM_Odm->RFCalibrateInfo.ThermalValue_LCK - ThermalValue);
++	delta_IQK = (ThermalValue > pDM_Odm->RFCalibrateInfo.ThermalValue_IQK)?(ThermalValue - pDM_Odm->RFCalibrateInfo.ThermalValue_IQK):(pDM_Odm->RFCalibrateInfo.ThermalValue_IQK - ThermalValue);
++		
++	//4 6. If necessary, do LCK.	
++	if (!(pDM_Odm->SupportICType & ODM_RTL8821)) {
++	/*if((delta_LCK > pHalData->Delta_LCK) && (pHalData->Delta_LCK != 0))*/
++		if (delta_LCK >= c.Threshold_IQK) { 
++			/*Delta temperature is equal to or larger than 20 centigrade.*/
++			pDM_Odm->RFCalibrateInfo.ThermalValue_LCK = ThermalValue;
++			(*c.PHY_LCCalibrate)(pDM_Odm);
++		}
++	}
++
++	//3 7. If necessary, move the index of swing table to adjust Tx power.	
++	
++	if (delta > 0 && pDM_Odm->RFCalibrateInfo.TxPowerTrackControl)
++	{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))			
++	    delta = ThermalValue > pHalData->EEPROMThermalMeter?(ThermalValue - pHalData->EEPROMThermalMeter):(pHalData->EEPROMThermalMeter - ThermalValue);		
++#else
++	    delta = (ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther)?(ThermalValue - pDM_Odm->priv->pmib->dot11RFEntry.ther):(pDM_Odm->priv->pmib->dot11RFEntry.ther - ThermalValue);		
++#endif
++
++
++		//4 7.1 The Final Power Index = BaseIndex + PowerIndexOffset
++		
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))				
++		if(ThermalValue > pHalData->EEPROMThermalMeter) {
++#else
++		if(ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther) {
++#endif
++			CALCULATE_SWINGTALBE_OFFSET(offset, POWER_INC, index_mapping_NUM_88E, delta);
++			pDM_Odm->RFCalibrateInfo.DeltaPowerIndexLast = pDM_Odm->RFCalibrateInfo.DeltaPowerIndex;
++			pDM_Odm->RFCalibrateInfo.DeltaPowerIndex =  deltaSwingTableIdx[POWER_INC][offset];
++
++        } else {
++        
++			CALCULATE_SWINGTALBE_OFFSET(offset, POWER_DEC, index_mapping_NUM_88E, delta);
++			pDM_Odm->RFCalibrateInfo.DeltaPowerIndexLast = pDM_Odm->RFCalibrateInfo.DeltaPowerIndex;
++			pDM_Odm->RFCalibrateInfo.DeltaPowerIndex = (-1)*deltaSwingTableIdx[POWER_DEC][offset];
++        }
++		
++		if (pDM_Odm->RFCalibrateInfo.DeltaPowerIndex == pDM_Odm->RFCalibrateInfo.DeltaPowerIndexLast)
++			pDM_Odm->RFCalibrateInfo.PowerIndexOffset = 0;
++		else
++			pDM_Odm->RFCalibrateInfo.PowerIndexOffset = pDM_Odm->RFCalibrateInfo.DeltaPowerIndex - pDM_Odm->RFCalibrateInfo.DeltaPowerIndexLast;
++		
++	    for(i = 0; i < rf; i++) 		
++	    	pDM_Odm->RFCalibrateInfo.OFDM_index[i] = pRFCalibrateInfo->BbSwingIdxOfdmBase + pDM_Odm->RFCalibrateInfo.PowerIndexOffset;
++		pDM_Odm->RFCalibrateInfo.CCK_index = pRFCalibrateInfo->BbSwingIdxCckBase + pDM_Odm->RFCalibrateInfo.PowerIndexOffset;
++
++		pRFCalibrateInfo->BbSwingIdxCck = pDM_Odm->RFCalibrateInfo.CCK_index;	
++		pRFCalibrateInfo->BbSwingIdxOfdm[RF_PATH_A] = pDM_Odm->RFCalibrateInfo.OFDM_index[RF_PATH_A];	
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("The 'CCK' final index(%d) = BaseIndex(%d) + PowerIndexOffset(%d)\n", pRFCalibrateInfo->BbSwingIdxCck, pRFCalibrateInfo->BbSwingIdxCckBase, pDM_Odm->RFCalibrateInfo.PowerIndexOffset));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("The 'OFDM' final index(%d) = BaseIndex(%d) + PowerIndexOffset(%d)\n", pRFCalibrateInfo->BbSwingIdxOfdm[RF_PATH_A], pRFCalibrateInfo->BbSwingIdxOfdmBase, pDM_Odm->RFCalibrateInfo.PowerIndexOffset));
++
++		//4 7.1 Handle boundary conditions of index.
++		
++		
++		for(i = 0; i < rf; i++)
++		{
++			if(pDM_Odm->RFCalibrateInfo.OFDM_index[i] > OFDM_max_index)
++			{
++				pDM_Odm->RFCalibrateInfo.OFDM_index[i] = OFDM_max_index;
++			}
++			else if (pDM_Odm->RFCalibrateInfo.OFDM_index[i] < 0)
++			{
++				pDM_Odm->RFCalibrateInfo.OFDM_index[i] = 0;
++			}
++		}
++
++		if(pDM_Odm->RFCalibrateInfo.CCK_index > c.SwingTableSize_CCK-1)
++			pDM_Odm->RFCalibrateInfo.CCK_index = c.SwingTableSize_CCK-1;
++		else if (pDM_Odm->RFCalibrateInfo.CCK_index < 0)
++			pDM_Odm->RFCalibrateInfo.CCK_index = 0;
++	}
++	else
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("The thermal meter is unchanged or TxPowerTracking OFF: ThermalValue: %d , pDM_Odm->RFCalibrateInfo.ThermalValue: %d)\n", ThermalValue, pDM_Odm->RFCalibrateInfo.ThermalValue));
++		pDM_Odm->RFCalibrateInfo.PowerIndexOffset = 0;
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++		("TxPowerTracking: [CCK] Swing Current Index: %d, Swing Base Index: %d\n", pDM_Odm->RFCalibrateInfo.CCK_index, pRFCalibrateInfo->BbSwingIdxCckBase));
++				
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++		("TxPowerTracking: [OFDM] Swing Current Index: %d, Swing Base Index: %d\n", pDM_Odm->RFCalibrateInfo.OFDM_index[RF_PATH_A], pRFCalibrateInfo->BbSwingIdxOfdmBase));
++	
++	if (pDM_Odm->RFCalibrateInfo.PowerIndexOffset != 0 && pDM_Odm->RFCalibrateInfo.TxPowerTrackControl)
++	{
++		//4 7.2 Configure the Swing Table to adjust Tx Power.
++		
++			pDM_Odm->RFCalibrateInfo.bTxPowerChanged = TRUE; // Always TRUE after Tx Power is adjusted by power tracking.			
++			//
++			// 2012/04/23 MH According to Luke's suggestion, we can not write BB digital
++			// to increase TX power. Otherwise, EVM will be bad.
++			//
++			// 2012/04/25 MH Add for tx power tracking to set tx power in tx agc for 88E.
++			if (ThermalValue > pDM_Odm->RFCalibrateInfo.ThermalValue)
++			{
++				//ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				//	("Temperature Increasing: delta_pi: %d , delta_t: %d, Now_t: %d, EFUSE_t: %d, Last_t: %d\n", 
++				//	pDM_Odm->RFCalibrateInfo.PowerIndexOffset, delta, ThermalValue, pHalData->EEPROMThermalMeter, pDM_Odm->RFCalibrateInfo.ThermalValue));	
++			}
++			else if (ThermalValue < pDM_Odm->RFCalibrateInfo.ThermalValue)// Low temperature
++			{
++				//ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				//	("Temperature Decreasing: delta_pi: %d , delta_t: %d, Now_t: %d, EFUSE_t: %d, Last_t: %d\n",
++				//		pDM_Odm->RFCalibrateInfo.PowerIndexOffset, delta, ThermalValue, pHalData->EEPROMThermalMeter, pDM_Odm->RFCalibrateInfo.ThermalValue));				
++			}
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			if (ThermalValue > pHalData->EEPROMThermalMeter)
++#else
++			if (ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther)
++#endif
++			{
++//				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("Temperature(%d) hugher than PG value(%d), increases the power by TxAGC\n", ThermalValue, pHalData->EEPROMThermalMeter));
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, TXAGC, 0, 0);							
++			}
++			else
++			{
++	//			ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("Temperature(%d) lower than PG value(%d), increases the power by TxAGC\n", ThermalValue, pHalData->EEPROMThermalMeter));
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, RF_PATH_A, Indexforchannel);	
++				if(is2T)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, RF_PATH_B, Indexforchannel);				
++			}
++			
++			pRFCalibrateInfo->BbSwingIdxCckBase = pRFCalibrateInfo->BbSwingIdxCck;
++			pRFCalibrateInfo->BbSwingIdxOfdmBase = pRFCalibrateInfo->BbSwingIdxOfdm[RF_PATH_A];
++			pDM_Odm->RFCalibrateInfo.ThermalValue = ThermalValue;
++
++	}
++		
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	// if((delta_IQK > pHalData->Delta_IQK) && (pHalData->Delta_IQK != 0))
++	if ((delta_IQK >= 8)) // Delta temperature is equal to or larger than 20 centigrade.
++		(*c.DoIQK)(pDM_Odm, delta_IQK, ThermalValue, 8);
++#endif		
++			
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("<===dm_TXPowerTrackingCallback_ThermalMeter_8188E\n"));
++	
++	pDM_Odm->RFCalibrateInfo.TXPowercount = 0;
++}
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++
++
++VOID
++phy_PathAStandBy(
++	IN	PADAPTER	pAdapter
++	)
++{
++	RTPRINT(FINIT, INIT_IQK, ("Path-A standby mode!\n"));
++
++	PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0x0);
++	PHY_SetBBReg(pAdapter, 0x840, bMaskDWord, 0x00010000);
++	PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0x808000);
++}
++
++//1 7.	IQK
++//#define MAX_TOLERANCE		5
++//#define IQK_DELAY_TIME		1		//ms
++
++u1Byte			//bit0 = 1 => Tx OK, bit1 = 1 => Rx OK
++phy_PathA_IQK_8192C(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		configPathB
++	)
++{
++
++	u4Byte regEAC, regE94, regE9C, regEA4;
++	u1Byte result = 0x00;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	RTPRINT(FINIT, INIT_IQK, ("Path A IQK!\n"));
++
++	//path-A IQK setting
++	RTPRINT(FINIT, INIT_IQK, ("Path-A IQK setting!\n"));
++	if(pAdapter->interfaceIndex == 0)
++	{
++		PHY_SetBBReg(pAdapter, rTx_IQK_Tone_A, bMaskDWord, 0x10008c1f);
++		PHY_SetBBReg(pAdapter, rRx_IQK_Tone_A, bMaskDWord, 0x10008c1f);
++	}
++	else
++	{
++		PHY_SetBBReg(pAdapter, rTx_IQK_Tone_A, bMaskDWord, 0x10008c22);
++		PHY_SetBBReg(pAdapter, rRx_IQK_Tone_A, bMaskDWord, 0x10008c22);	
++	}
++
++	PHY_SetBBReg(pAdapter, rTx_IQK_PI_A, bMaskDWord, 0x82140102);
++
++	PHY_SetBBReg(pAdapter, rRx_IQK_PI_A, bMaskDWord, configPathB ? 0x28160202 : 
++		IS_81xxC_VENDOR_UMC_B_CUT(pHalData->VersionID)?0x28160202:0x28160502);
++
++	//path-B IQK setting
++	if(configPathB)
++	{
++		PHY_SetBBReg(pAdapter, rTx_IQK_Tone_B, bMaskDWord, 0x10008c22);
++		PHY_SetBBReg(pAdapter, rRx_IQK_Tone_B, bMaskDWord, 0x10008c22);
++		PHY_SetBBReg(pAdapter, rTx_IQK_PI_B, bMaskDWord, 0x82140102);
++		PHY_SetBBReg(pAdapter, rRx_IQK_PI_B, bMaskDWord, 0x28160202);
++	}
++
++	//LO calibration setting
++	RTPRINT(FINIT, INIT_IQK, ("LO calibration setting!\n"));
++	PHY_SetBBReg(pAdapter, rIQK_AGC_Rsp, bMaskDWord, 0x001028d1);
++
++	//One shot, path A LOK & IQK
++	RTPRINT(FINIT, INIT_IQK, ("One shot, path A LOK & IQK!\n"));
++	PHY_SetBBReg(pAdapter, rIQK_AGC_Pts, bMaskDWord, 0xf9000000);
++	PHY_SetBBReg(pAdapter, rIQK_AGC_Pts, bMaskDWord, 0xf8000000);
++	
++	// delay x ms
++	RTPRINT(FINIT, INIT_IQK, ("Delay %d ms for One shot, path A LOK & IQK.\n", IQK_DELAY_TIME));
++	PlatformStallExecution(IQK_DELAY_TIME*1000);
++
++	// Check failed
++	regEAC = PHY_QueryBBReg(pAdapter, rRx_Power_After_IQK_A_2, bMaskDWord);
++	RTPRINT(FINIT, INIT_IQK, ("0xeac = 0x%x\n", regEAC));
++	regE94 = PHY_QueryBBReg(pAdapter, rTx_Power_Before_IQK_A, bMaskDWord);
++	RTPRINT(FINIT, INIT_IQK, ("0xe94 = 0x%x\n", regE94));
++	regE9C= PHY_QueryBBReg(pAdapter, rTx_Power_After_IQK_A, bMaskDWord);
++	RTPRINT(FINIT, INIT_IQK, ("0xe9c = 0x%x\n", regE9C));
++	regEA4= PHY_QueryBBReg(pAdapter, rRx_Power_Before_IQK_A_2, bMaskDWord);
++	RTPRINT(FINIT, INIT_IQK, ("0xea4 = 0x%x\n", regEA4));
++
++	if(!(regEAC & BIT28) &&		
++		(((regE94 & 0x03FF0000)>>16) != 0x142) &&
++		(((regE9C & 0x03FF0000)>>16) != 0x42) )
++		result |= 0x01;
++	else							//if Tx not OK, ignore Rx
++		return result;
++
++	if(!(regEAC & BIT27) &&		//if Tx is OK, check whether Rx is OK
++		(((regEA4 & 0x03FF0000)>>16) != 0x132) &&
++		(((regEAC & 0x03FF0000)>>16) != 0x36))
++		result |= 0x02;
++	else
++		RTPRINT(FINIT, INIT_IQK, ("Path A Rx IQK fail!!\n"));
++	
++	return result;
++
++
++}
++
++u1Byte				//bit0 = 1 => Tx OK, bit1 = 1 => Rx OK
++phy_PathB_IQK_8192C(
++	IN	PADAPTER	pAdapter
++	)
++{
++	u4Byte regEAC, regEB4, regEBC, regEC4, regECC;
++	u1Byte	result = 0x00;
++	RTPRINT(FINIT, INIT_IQK, ("Path B IQK!\n"));
++
++	//One shot, path B LOK & IQK
++	RTPRINT(FINIT, INIT_IQK, ("One shot, path A LOK & IQK!\n"));
++	PHY_SetBBReg(pAdapter, rIQK_AGC_Cont, bMaskDWord, 0x00000002);
++	PHY_SetBBReg(pAdapter, rIQK_AGC_Cont, bMaskDWord, 0x00000000);
++
++	// delay x ms
++	RTPRINT(FINIT, INIT_IQK, ("Delay %d ms for One shot, path B LOK & IQK.\n", IQK_DELAY_TIME));
++	PlatformStallExecution(IQK_DELAY_TIME*1000);
++
++	// Check failed
++	regEAC = PHY_QueryBBReg(pAdapter, rRx_Power_After_IQK_A_2, bMaskDWord);
++	RTPRINT(FINIT, INIT_IQK, ("0xeac = 0x%x\n", regEAC));
++	regEB4 = PHY_QueryBBReg(pAdapter, rTx_Power_Before_IQK_B, bMaskDWord);
++	RTPRINT(FINIT, INIT_IQK, ("0xeb4 = 0x%x\n", regEB4));
++	regEBC= PHY_QueryBBReg(pAdapter, rTx_Power_After_IQK_B, bMaskDWord);
++	RTPRINT(FINIT, INIT_IQK, ("0xebc = 0x%x\n", regEBC));
++	regEC4= PHY_QueryBBReg(pAdapter, rRx_Power_Before_IQK_B_2, bMaskDWord);
++	RTPRINT(FINIT, INIT_IQK, ("0xec4 = 0x%x\n", regEC4));
++	regECC= PHY_QueryBBReg(pAdapter, rRx_Power_After_IQK_B_2, bMaskDWord);
++	RTPRINT(FINIT, INIT_IQK, ("0xecc = 0x%x\n", regECC));
++
++	if(!(regEAC & BIT31) &&
++		(((regEB4 & 0x03FF0000)>>16) != 0x142) &&
++		(((regEBC & 0x03FF0000)>>16) != 0x42))
++		result |= 0x01;
++	else
++		return result;
++
++	if(!(regEAC & BIT30) &&
++		(((regEC4 & 0x03FF0000)>>16) != 0x132) &&
++		(((regECC & 0x03FF0000)>>16) != 0x36))
++		result |= 0x02;
++	else
++		RTPRINT(FINIT, INIT_IQK, ("Path B Rx IQK fail!!\n"));
++	
++
++	return result;
++
++}
++
++VOID
++phy_PathAFillIQKMatrix(
++	IN	PADAPTER	pAdapter,
++	IN  BOOLEAN    	bIQKOK,
++	IN	s4Byte		result[][8],
++	IN	u1Byte		final_candidate,
++	IN  BOOLEAN		bTxOnly
++	)
++{
++	u4Byte	Oldval_0, X, TX0_A, reg;
++	s4Byte	Y, TX0_C;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);	
++	
++	RTPRINT(FINIT, INIT_IQK, ("Path A IQ Calibration %s !\n",(bIQKOK)?"Success":"Failed"));
++
++	if(final_candidate == 0xFF)
++		return;
++
++	else if(bIQKOK)
++	{
++		Oldval_0 = (PHY_QueryBBReg(pAdapter, rOFDM0_XATxIQImbalance, bMaskDWord) >> 22) & 0x3FF;
++
++		X = result[final_candidate][0];
++		if ((X & 0x00000200) != 0)
++			X = X | 0xFFFFFC00;				
++		TX0_A = (X * Oldval_0) >> 8;
++		RTPRINT(FINIT, INIT_IQK, ("X = 0x%x, TX0_A = 0x%x, Oldval_0 0x%x\n", X, TX0_A, Oldval_0));
++		PHY_SetBBReg(pAdapter, rOFDM0_XATxIQImbalance, 0x3FF, TX0_A);
++		PHY_SetBBReg(pAdapter, rOFDM0_ECCAThreshold, BIT(31), ((X * Oldval_0>>7) & 0x1));
++     
++		Y = result[final_candidate][1];
++		if ((Y & 0x00000200) != 0)
++			Y = Y | 0xFFFFFC00;		
++
++		//path B IQK result + 3
++		if(pAdapter->interfaceIndex == 1 && pHalData->CurrentBandType == BAND_ON_5G)
++			Y += 3;
++		
++		TX0_C = (Y * Oldval_0) >> 8;
++		RTPRINT(FINIT, INIT_IQK, ("Y = 0x%x, TX = 0x%x\n", Y, TX0_C));
++		PHY_SetBBReg(pAdapter, rOFDM0_XCTxAFE, 0xF0000000, ((TX0_C&0x3C0)>>6));
++		PHY_SetBBReg(pAdapter, rOFDM0_XATxIQImbalance, 0x003F0000, (TX0_C&0x3F));
++		PHY_SetBBReg(pAdapter, rOFDM0_ECCAThreshold, BIT(29), ((Y * Oldval_0>>7) & 0x1));
++
++		if(bTxOnly)
++		{
++			RTPRINT(FINIT, INIT_IQK, ("phy_PathAFillIQKMatrix only Tx OK\n"));		
++			return;
++		}
++
++		reg = result[final_candidate][2];
++		PHY_SetBBReg(pAdapter, rOFDM0_XARxIQImbalance, 0x3FF, reg);
++	
++		reg = result[final_candidate][3] & 0x3F;
++		PHY_SetBBReg(pAdapter, rOFDM0_XARxIQImbalance, 0xFC00, reg);
++
++		reg = (result[final_candidate][3] >> 6) & 0xF;
++		PHY_SetBBReg(pAdapter, rOFDM0_RxIQExtAnta, 0xF0000000, reg);
++	}
++}
++
++VOID
++phy_PathBFillIQKMatrix(
++	IN	PADAPTER	pAdapter,
++	IN  BOOLEAN   	bIQKOK,
++	IN	s4Byte		result[][8],
++	IN	u1Byte		final_candidate,
++	IN	BOOLEAN		bTxOnly			//do Tx only
++	)
++{
++	u4Byte	Oldval_1, X, TX1_A, reg;
++	s4Byte	Y, TX1_C;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);	
++	
++	RTPRINT(FINIT, INIT_IQK, ("Path B IQ Calibration %s !\n",(bIQKOK)?"Success":"Failed"));
++
++	if(final_candidate == 0xFF)
++		return;
++
++	else if(bIQKOK)
++	{
++		Oldval_1 = (PHY_QueryBBReg(pAdapter, rOFDM0_XBTxIQImbalance, bMaskDWord) >> 22) & 0x3FF;
++
++		X = result[final_candidate][4];
++		if ((X & 0x00000200) != 0)
++			X = X | 0xFFFFFC00;		
++		TX1_A = (X * Oldval_1) >> 8;
++		RTPRINT(FINIT, INIT_IQK, ("X = 0x%x, TX1_A = 0x%x\n", X, TX1_A));
++		PHY_SetBBReg(pAdapter, rOFDM0_XBTxIQImbalance, 0x3FF, TX1_A);
++		PHY_SetBBReg(pAdapter, rOFDM0_ECCAThreshold, BIT(27), ((X * Oldval_1>>7) & 0x1));
++
++		Y = result[final_candidate][5];
++		if ((Y & 0x00000200) != 0)
++			Y = Y | 0xFFFFFC00;		
++		if(pHalData->CurrentBandType == BAND_ON_5G)		
++			Y += 3;		//temp modify for preformance
++		TX1_C = (Y * Oldval_1) >> 8;
++		RTPRINT(FINIT, INIT_IQK, ("Y = 0x%x, TX1_C = 0x%x\n", Y, TX1_C));
++		PHY_SetBBReg(pAdapter, rOFDM0_XDTxAFE, 0xF0000000, ((TX1_C&0x3C0)>>6));
++		PHY_SetBBReg(pAdapter, rOFDM0_XBTxIQImbalance, 0x003F0000, (TX1_C&0x3F));
++		PHY_SetBBReg(pAdapter, rOFDM0_ECCAThreshold, BIT(25), ((Y * Oldval_1>>7) & 0x1));
++
++		if(bTxOnly)
++			return;
++
++		reg = result[final_candidate][6];
++		PHY_SetBBReg(pAdapter, rOFDM0_XBRxIQImbalance, 0x3FF, reg);
++	
++		reg = result[final_candidate][7] & 0x3F;
++		PHY_SetBBReg(pAdapter, rOFDM0_XBRxIQImbalance, 0xFC00, reg);
++
++		reg = (result[final_candidate][7] >> 6) & 0xF;
++		PHY_SetBBReg(pAdapter, rOFDM0_AGCRSSITable, 0x0000F000, reg);
++	}
++}
++
++
++BOOLEAN							
++phy_SimularityCompare_92C(
++	IN	PADAPTER	pAdapter,
++	IN	s4Byte 		result[][8],
++	IN	u1Byte		 c1,
++	IN	u1Byte		 c2
++	)
++{
++	u4Byte		i, j, diff, SimularityBitMap, bound = 0;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);	
++	u1Byte		final_candidate[2] = {0xFF, 0xFF};	//for path A and path B
++	BOOLEAN		bResult = TRUE, is2T = IS_92C_SERIAL( pHalData->VersionID);
++	
++	if(is2T)
++		bound = 8;
++	else
++		bound = 4;
++
++	SimularityBitMap = 0;
++	
++	for( i = 0; i < bound; i++ )
++	{
++		diff = (result[c1][i] > result[c2][i]) ? (result[c1][i] - result[c2][i]) : (result[c2][i] - result[c1][i]);
++		if (diff > MAX_TOLERANCE)
++		{
++			if((i == 2 || i == 6) && !SimularityBitMap)
++			{
++				if(result[c1][i]+result[c1][i+1] == 0)
++					final_candidate[(i/4)] = c2;
++				else if (result[c2][i]+result[c2][i+1] == 0)
++					final_candidate[(i/4)] = c1;
++				else
++					SimularityBitMap = SimularityBitMap|(1<<i);					
++			}
++			else
++				SimularityBitMap = SimularityBitMap|(1<<i);
++		}
++	}
++	
++	if ( SimularityBitMap == 0)
++	{
++		for( i = 0; i < (bound/4); i++ )
++		{
++			if(final_candidate[i] != 0xFF)
++			{
++				for( j = i*4; j < (i+1)*4-2; j++)
++					result[3][j] = result[final_candidate[i]][j];
++				bResult = FALSE;
++			}
++		}
++		return bResult;
++	}
++	else if (!(SimularityBitMap & 0x0F))			//path A OK
++	{
++		for(i = 0; i < 4; i++)
++			result[3][i] = result[c1][i];
++		return FALSE;
++	}
++	else if (!(SimularityBitMap & 0xF0) && is2T)	//path B OK
++	{
++		for(i = 4; i < 8; i++)
++			result[3][i] = result[c1][i];
++		return FALSE;
++	}	
++	else		
++		return FALSE;
++	
++}
++
++/*
++return FALSE => do IQK again
++*/
++BOOLEAN							
++phy_SimularityCompare(
++	IN	PADAPTER	pAdapter,
++	IN	s4Byte 		result[][8],
++	IN	u1Byte		 c1,
++	IN	u1Byte		 c2
++	)
++{	
++	return phy_SimularityCompare_92C(pAdapter, result, c1, c2);	
++
++}
++
++VOID	
++phy_IQCalibrate_8192C(
++	IN	PADAPTER	pAdapter,
++	IN	s4Byte 		result[][8],
++	IN	u1Byte		t,
++	IN	BOOLEAN		is2T
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u4Byte			i;
++	u1Byte			PathAOK, PathBOK;
++	u4Byte			ADDA_REG[IQK_ADDA_REG_NUM] = {	
++						rFPGA0_XCD_SwitchControl, 	rBlue_Tooth, 	
++						rRx_Wait_CCA, 		rTx_CCK_RFON,
++						rTx_CCK_BBON, 	rTx_OFDM_RFON, 	
++						rTx_OFDM_BBON, 	rTx_To_Rx,
++						rTx_To_Tx, 		rRx_CCK, 	
++						rRx_OFDM, 		rRx_Wait_RIFS,
++						rRx_TO_Rx, 		rStandby, 	
++						rSleep, 			rPMPD_ANAEN };
++	u4Byte			IQK_MAC_REG[IQK_MAC_REG_NUM] = {
++						REG_TXPAUSE, 		REG_BCN_CTRL,	
++						REG_BCN_CTRL_1,	REG_GPIO_MUXCFG};
++					
++	//since 92C & 92D have the different define in IQK_BB_REG	
++	u4Byte	IQK_BB_REG_92C[IQK_BB_REG_NUM] = {
++							rOFDM0_TRxPathEnable, 		rOFDM0_TRMuxPar,	
++							rFPGA0_XCD_RFInterfaceSW,	rConfig_AntA,	rConfig_AntB,
++							rFPGA0_XAB_RFInterfaceSW,	rFPGA0_XA_RFInterfaceOE,	
++							rFPGA0_XB_RFInterfaceOE,	/*rFPGA0_RFMOD*/ rCCK0_AFESetting	
++							};	
++
++	u4Byte	IQK_BB_REG_92D[IQK_BB_REG_NUM_92D] = {	//for normal
++							rFPGA0_XAB_RFInterfaceSW,	rFPGA0_XA_RFInterfaceOE,	
++							rFPGA0_XB_RFInterfaceOE,	rOFDM0_TRMuxPar,
++							rFPGA0_XCD_RFInterfaceSW,	rOFDM0_TRxPathEnable,	
++							/*rFPGA0_RFMOD*/ rCCK0_AFESetting,			rFPGA0_AnalogParameter4,
++							rOFDM0_XAAGCCore1,		rOFDM0_XBAGCCore1						
++						};		
++#if MP_DRIVER
++	const u4Byte	retryCount = 9;
++#else
++	const u4Byte	retryCount = 2;
++#endif
++	//Neil Chen--2011--05--19--
++       //3 Path Div	
++	u1Byte                 rfPathSwitch=0x0;
++
++	// Note: IQ calibration must be performed after loading 
++	// 		PHY_REG.txt , and radio_a, radio_b.txt	
++	
++	u4Byte bbvalue;
++
++	if(t==0)
++	{
++	 	 //bbvalue = PHY_QueryBBReg(pAdapter, rFPGA0_RFMOD, bMaskDWord);
++		//	RTPRINT(FINIT, INIT_IQK, ("phy_IQCalibrate_8192C()==>0x%08x\n",bbvalue));
++
++			RTPRINT(FINIT, INIT_IQK, ("IQ Calibration for %s\n", (is2T ? "2T2R" : "1T1R")));
++	
++	 	// Save ADDA parameters, turn Path A ADDA on
++	 	phy_SaveADDARegisters(pAdapter, ADDA_REG, pHalData->ADDA_backup, IQK_ADDA_REG_NUM);
++		phy_SaveMACRegisters(pAdapter, IQK_MAC_REG, pHalData->IQK_MAC_backup);
++		phy_SaveADDARegisters(pAdapter, IQK_BB_REG_92C, pHalData->IQK_BB_backup, IQK_BB_REG_NUM);
++	}
++	
++ 	phy_PathADDAOn(pAdapter, ADDA_REG, TRUE, is2T);
++	
++	if(t==0)
++	{
++		pHalData->bRfPiEnable = (u1Byte)PHY_QueryBBReg(pAdapter, rFPGA0_XA_HSSIParameter1, BIT(8));
++	}
++	
++	if(!pHalData->bRfPiEnable){
++		// Switch BB to PI mode to do IQ Calibration.
++		phy_PIModeSwitch(pAdapter, TRUE);
++	}
++	
++	//MAC settings
++	phy_MACSettingCalibration(pAdapter, IQK_MAC_REG, pHalData->IQK_MAC_backup);
++	
++	//PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, BIT24, 0x00);		
++	PHY_SetBBReg(pAdapter, rCCK0_AFESetting, bMaskDWord, (0x0f000000 | (PHY_QueryBBReg(pAdapter, rCCK0_AFESetting, bMaskDWord))) );
++	PHY_SetBBReg(pAdapter, rOFDM0_TRxPathEnable, bMaskDWord, 0x03a05600);
++	PHY_SetBBReg(pAdapter, rOFDM0_TRMuxPar, bMaskDWord, 0x000800e4);
++	PHY_SetBBReg(pAdapter, rFPGA0_XCD_RFInterfaceSW, bMaskDWord, 0x22204000);
++	{
++		PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT10, 0x01);
++		PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT26, 0x01);	
++		PHY_SetBBReg(pAdapter, rFPGA0_XA_RFInterfaceOE, BIT10, 0x00);
++		PHY_SetBBReg(pAdapter, rFPGA0_XB_RFInterfaceOE, BIT10, 0x00);	
++	}
++
++	if(is2T)
++	{
++		PHY_SetBBReg(pAdapter, rFPGA0_XA_LSSIParameter, bMaskDWord, 0x00010000);
++		PHY_SetBBReg(pAdapter, rFPGA0_XB_LSSIParameter, bMaskDWord, 0x00010000);
++	}
++
++	{
++		//Page B init
++		PHY_SetBBReg(pAdapter, rConfig_AntA, bMaskDWord, 0x00080000);
++		
++		if(is2T)
++		{
++			PHY_SetBBReg(pAdapter, rConfig_AntB, bMaskDWord, 0x00080000);
++		}
++	}
++	// IQ calibration setting
++	RTPRINT(FINIT, INIT_IQK, ("IQK setting!\n"));		
++	PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0x808000);
++	PHY_SetBBReg(pAdapter, rTx_IQK, bMaskDWord, 0x01007c00);
++	PHY_SetBBReg(pAdapter, rRx_IQK, bMaskDWord, 0x01004800);
++
++	for(i = 0 ; i < retryCount ; i++){
++		PathAOK = phy_PathA_IQK_8192C(pAdapter, is2T);
++		if(PathAOK == 0x03){
++			RTPRINT(FINIT, INIT_IQK, ("Path A IQK Success!!\n"));
++				result[t][0] = (PHY_QueryBBReg(pAdapter, rTx_Power_Before_IQK_A, bMaskDWord)&0x3FF0000)>>16;
++				result[t][1] = (PHY_QueryBBReg(pAdapter, rTx_Power_After_IQK_A, bMaskDWord)&0x3FF0000)>>16;
++				result[t][2] = (PHY_QueryBBReg(pAdapter, rRx_Power_Before_IQK_A_2, bMaskDWord)&0x3FF0000)>>16;
++				result[t][3] = (PHY_QueryBBReg(pAdapter, rRx_Power_After_IQK_A_2, bMaskDWord)&0x3FF0000)>>16;
++			break;
++		}
++		else if (i == (retryCount-1) && PathAOK == 0x01)	//Tx IQK OK
++		{
++			RTPRINT(FINIT, INIT_IQK, ("Path A IQK Only  Tx Success!!\n"));
++			
++			result[t][0] = (PHY_QueryBBReg(pAdapter, rTx_Power_Before_IQK_A, bMaskDWord)&0x3FF0000)>>16;
++			result[t][1] = (PHY_QueryBBReg(pAdapter, rTx_Power_After_IQK_A, bMaskDWord)&0x3FF0000)>>16;			
++		}
++	}
++
++	if(0x00 == PathAOK){		
++		RTPRINT(FINIT, INIT_IQK, ("Path A IQK failed!!\n"));		
++	}
++
++	if(is2T){
++		phy_PathAStandBy(pAdapter);
++
++		// Turn Path B ADDA on
++		phy_PathADDAOn(pAdapter, ADDA_REG, FALSE, is2T);
++
++		for(i = 0 ; i < retryCount ; i++){
++			PathBOK = phy_PathB_IQK_8192C(pAdapter);
++			if(PathBOK == 0x03){
++				RTPRINT(FINIT, INIT_IQK, ("Path B IQK Success!!\n"));
++				result[t][4] = (PHY_QueryBBReg(pAdapter, rTx_Power_Before_IQK_B, bMaskDWord)&0x3FF0000)>>16;
++				result[t][5] = (PHY_QueryBBReg(pAdapter, rTx_Power_After_IQK_B, bMaskDWord)&0x3FF0000)>>16;
++				result[t][6] = (PHY_QueryBBReg(pAdapter, rRx_Power_Before_IQK_B_2, bMaskDWord)&0x3FF0000)>>16;
++				result[t][7] = (PHY_QueryBBReg(pAdapter, rRx_Power_After_IQK_B_2, bMaskDWord)&0x3FF0000)>>16;
++				break;
++			}
++			else if (i == (retryCount - 1) && PathBOK == 0x01)	//Tx IQK OK
++			{
++				RTPRINT(FINIT, INIT_IQK, ("Path B Only Tx IQK Success!!\n"));
++				result[t][4] = (PHY_QueryBBReg(pAdapter, rTx_Power_Before_IQK_B, bMaskDWord)&0x3FF0000)>>16;
++				result[t][5] = (PHY_QueryBBReg(pAdapter, rTx_Power_After_IQK_B, bMaskDWord)&0x3FF0000)>>16;				
++			}
++		}
++
++		if(0x00 == PathBOK){		
++			RTPRINT(FINIT, INIT_IQK, ("Path B IQK failed!!\n"));		
++		}
++	}
++
++	//Back to BB mode, load original value
++	RTPRINT(FINIT, INIT_IQK, ("IQK:Back to BB mode, load original value!\n"));
++	PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0);
++
++	if(t!=0)
++	{
++		if(!pHalData->bRfPiEnable){
++			// Switch back BB to SI mode after finish IQ Calibration.
++			phy_PIModeSwitch(pAdapter, FALSE);
++		}
++
++	 	// Reload ADDA power saving parameters
++	 	phy_ReloadADDARegisters(pAdapter, ADDA_REG, pHalData->ADDA_backup, IQK_ADDA_REG_NUM);
++
++		// Reload MAC parameters
++		phy_ReloadMACRegisters(pAdapter, IQK_MAC_REG, pHalData->IQK_MAC_backup);
++		
++	 	// Reload BB parameters
++		phy_ReloadADDARegisters(pAdapter, IQK_BB_REG_92C, pHalData->IQK_BB_backup, IQK_BB_REG_NUM);
++		
++		/*Restore RX initial gain*/
++		PHY_SetBBReg(pAdapter, rFPGA0_XA_LSSIParameter, bMaskDWord, 0x00032ed3);
++		if (is2T)
++			PHY_SetBBReg(pAdapter, rFPGA0_XB_LSSIParameter, bMaskDWord, 0x00032ed3);
++		//load 0xe30 IQC default value
++		PHY_SetBBReg(pAdapter, rTx_IQK_Tone_A, bMaskDWord, 0x01008c00);		
++		PHY_SetBBReg(pAdapter, rRx_IQK_Tone_A, bMaskDWord, 0x01008c00);				
++		
++	}
++	RTPRINT(FINIT, INIT_IQK, ("phy_IQCalibrate_8192C() <==\n"));
++	
++}
++
++
++VOID	
++phy_LCCalibrate92C(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		is2T
++	)
++{
++	u1Byte	tmpReg;
++	u4Byte	RF_Amode=0, RF_Bmode=0, LC_Cal;
++//	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	//Check continuous TX and Packet TX
++	tmpReg = PlatformEFIORead1Byte(pAdapter, 0xd03);
++
++	if((tmpReg&0x70) != 0)			//Deal with contisuous TX case
++		PlatformEFIOWrite1Byte(pAdapter, 0xd03, tmpReg&0x8F);	//disable all continuous TX
++	else							// Deal with Packet TX case
++		PlatformEFIOWrite1Byte(pAdapter, REG_TXPAUSE, 0xFF);			// block all queues
++
++	if((tmpReg&0x70) != 0)
++	{
++		//1. Read original RF mode
++		//Path-A
++		RF_Amode = PHY_QueryRFReg(pAdapter, RF_PATH_A, RF_AC, bMask12Bits);
++
++		//Path-B
++		if(is2T)
++			RF_Bmode = PHY_QueryRFReg(pAdapter, RF_PATH_B, RF_AC, bMask12Bits);	
++
++		//2. Set RF mode = standby mode
++		//Path-A
++		PHY_SetRFReg(pAdapter, RF_PATH_A, RF_AC, bMask12Bits, (RF_Amode&0x8FFFF)|0x10000);
++
++		//Path-B
++		if(is2T)
++			PHY_SetRFReg(pAdapter, RF_PATH_B, RF_AC, bMask12Bits, (RF_Bmode&0x8FFFF)|0x10000);			
++	}
++	
++	//3. Read RF reg18
++	LC_Cal = PHY_QueryRFReg(pAdapter, RF_PATH_A, RF_CHNLBW, bMask12Bits);
++	
++	//4. Set LC calibration begin	bit15
++	PHY_SetRFReg(pAdapter, RF_PATH_A, RF_CHNLBW, bMask12Bits, LC_Cal|0x08000);
++
++	delay_ms(100);		
++
++
++	//Restore original situation
++	if((tmpReg&0x70) != 0)	//Deal with contisuous TX case 
++	{  
++		//Path-A
++		PlatformEFIOWrite1Byte(pAdapter, 0xd03, tmpReg);
++		PHY_SetRFReg(pAdapter, RF_PATH_A, RF_AC, bMask12Bits, RF_Amode);
++		
++		//Path-B
++		if(is2T)
++			PHY_SetRFReg(pAdapter, RF_PATH_B, RF_AC, bMask12Bits, RF_Bmode);
++	}
++	else // Deal with Packet TX case
++	{
++		PlatformEFIOWrite1Byte(pAdapter, REG_TXPAUSE, 0x00);	
++	}
++}
++
++
++VOID	
++phy_LCCalibrate(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		is2T
++	)
++{
++	phy_LCCalibrate92C(pAdapter, is2T);
++}
++
++
++
++//Analog Pre-distortion calibration
++#define		APK_BB_REG_NUM	8
++#define		APK_CURVE_REG_NUM 4
++#define		PATH_NUM		2
++
++VOID	
++phy_APCalibrate_8192C(
++	IN	PADAPTER	pAdapter,
++	IN	s1Byte 		delta,
++	IN	BOOLEAN		is2T
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	u4Byte 			regD[PATH_NUM];
++	u4Byte			tmpReg, index, offset, i, apkbound;
++	u1Byte			path, pathbound = PATH_NUM;
++	u4Byte			BB_backup[APK_BB_REG_NUM];
++	u4Byte			BB_REG[APK_BB_REG_NUM] = {	
++						rFPGA1_TxBlock, 	rOFDM0_TRxPathEnable, 
++						rFPGA0_RFMOD, 	rOFDM0_TRMuxPar, 
++						rFPGA0_XCD_RFInterfaceSW,	rFPGA0_XAB_RFInterfaceSW, 
++						rFPGA0_XA_RFInterfaceOE, 	rFPGA0_XB_RFInterfaceOE	};
++	u4Byte			BB_AP_MODE[APK_BB_REG_NUM] = {	
++						0x00000020, 0x00a05430, 0x02040000, 
++						0x000800e4, 0x00204000 };
++	u4Byte			BB_normal_AP_MODE[APK_BB_REG_NUM] = {	
++						0x00000020, 0x00a05430, 0x02040000, 
++						0x000800e4, 0x22204000 };						
++
++	u4Byte			AFE_backup[IQK_ADDA_REG_NUM];
++	u4Byte			AFE_REG[IQK_ADDA_REG_NUM] = {	
++						rFPGA0_XCD_SwitchControl, 	rBlue_Tooth, 	
++						rRx_Wait_CCA, 		rTx_CCK_RFON,
++						rTx_CCK_BBON, 	rTx_OFDM_RFON, 	
++						rTx_OFDM_BBON, 	rTx_To_Rx,
++						rTx_To_Tx, 		rRx_CCK, 	
++						rRx_OFDM, 		rRx_Wait_RIFS,
++						rRx_TO_Rx, 		rStandby, 	
++						rSleep, 			rPMPD_ANAEN };
++
++	u4Byte			MAC_backup[IQK_MAC_REG_NUM];
++	u4Byte			MAC_REG[IQK_MAC_REG_NUM] = {
++						REG_TXPAUSE, 		REG_BCN_CTRL,	
++						REG_BCN_CTRL_1,	REG_GPIO_MUXCFG};
++
++	u4Byte			APK_RF_init_value[PATH_NUM][APK_BB_REG_NUM] = {
++					{0x0852c, 0x1852c, 0x5852c, 0x1852c, 0x5852c},
++					{0x2852e, 0x0852e, 0x3852e, 0x0852e, 0x0852e}
++					};	
++
++	u4Byte			APK_normal_RF_init_value[PATH_NUM][APK_BB_REG_NUM] = {
++					{0x0852c, 0x0a52c, 0x3a52c, 0x5a52c, 0x5a52c},	//path settings equal to path b settings
++					{0x0852c, 0x0a52c, 0x5a52c, 0x5a52c, 0x5a52c}
++					};
++	
++	u4Byte			APK_RF_value_0[PATH_NUM][APK_BB_REG_NUM] = {
++					{0x52019, 0x52014, 0x52013, 0x5200f, 0x5208d},
++					{0x5201a, 0x52019, 0x52016, 0x52033, 0x52050}
++					};
++
++	u4Byte			APK_normal_RF_value_0[PATH_NUM][APK_BB_REG_NUM] = {
++					{0x52019, 0x52017, 0x52010, 0x5200d, 0x5206a},	//path settings equal to path b settings
++					{0x52019, 0x52017, 0x52010, 0x5200d, 0x5206a}
++					};
++#if 0	
++	u4Byte			APK_RF_value_A[PATH_NUM][APK_BB_REG_NUM] = {
++					{0x1adb0, 0x1adb0, 0x1ada0, 0x1ad90, 0x1ad80},		
++					{0x00fb0, 0x00fb0, 0x00fa0, 0x00f90, 0x00f80}						
++					};
++#endif
++	u4Byte			AFE_on_off[PATH_NUM] = {
++					0x04db25a4, 0x0b1b25a4};	//path A on path B off / path A off path B on
++
++	u4Byte			APK_offset[PATH_NUM] = {
++					rConfig_AntA, rConfig_AntB};
++
++	u4Byte			APK_normal_offset[PATH_NUM] = {
++					rConfig_Pmpd_AntA, rConfig_Pmpd_AntB};
++					
++	u4Byte			APK_value[PATH_NUM] = {
++					0x92fc0000, 0x12fc0000};					
++
++	u4Byte			APK_normal_value[PATH_NUM] = {
++					0x92680000, 0x12680000};					
++
++	s1Byte			APK_delta_mapping[APK_BB_REG_NUM][13] = {
++					{-4, -3, -2, -2, -1, -1, 0, 1, 2, 3, 4, 5, 6},
++					{-4, -3, -2, -2, -1, -1, 0, 1, 2, 3, 4, 5, 6},											
++					{-6, -4, -2, -2, -1, -1, 0, 1, 2, 3, 4, 5, 6},
++					{-1, -1, -1, -1, -1, -1, 0, 1, 2, 3, 4, 5, 6},
++					{-11, -9, -7, -5, -3, -1, 0, 0, 0, 0, 0, 0, 0}
++					};
++	
++	u4Byte			APK_normal_setting_value_1[13] = {
++					0x01017018, 0xf7ed8f84, 0x1b1a1816, 0x2522201e, 0x322e2b28,
++					0x433f3a36, 0x5b544e49, 0x7b726a62, 0xa69a8f84, 0xdfcfc0b3,
++					0x12680000, 0x00880000, 0x00880000
++					};
++
++	u4Byte			APK_normal_setting_value_2[16] = {
++					0x01c7021d, 0x01670183, 0x01000123, 0x00bf00e2, 0x008d00a3,
++					0x0068007b, 0x004d0059, 0x003a0042, 0x002b0031, 0x001f0025,
++					0x0017001b, 0x00110014, 0x000c000f, 0x0009000b, 0x00070008,
++					0x00050006
++					};
++	
++	u4Byte			APK_result[PATH_NUM][APK_BB_REG_NUM];	//val_1_1a, val_1_2a, val_2a, val_3a, val_4a
++//	u4Byte			AP_curve[PATH_NUM][APK_CURVE_REG_NUM];
++
++	s4Byte			BB_offset, delta_V, delta_offset;
++
++#if MP_DRIVER == 1
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->MptCtx);	
++
++	pMptCtx->APK_bound[0] = 45;
++	pMptCtx->APK_bound[1] = 52;		
++#endif
++
++	RTPRINT(FINIT, INIT_IQK, ("==>phy_APCalibrate_8192C() delta %d\n", delta));
++	RTPRINT(FINIT, INIT_IQK, ("AP Calibration for %s\n", (is2T ? "2T2R" : "1T1R")));
++	if(!is2T)
++		pathbound = 1;
++
++	//2 FOR NORMAL CHIP SETTINGS
++
++// Temporarily do not allow normal driver to do the following settings because these offset
++// and value will cause RF internal PA to be unpredictably disabled by HW, such that RF Tx signal
++// will disappear after disable/enable card many times on 88CU. RF SD and DD have not find the
++// root cause, so we remove these actions temporarily. Added by tynli and SD3 Allen. 2010.05.31.
++#if MP_DRIVER != 1
++	return;
++#endif
++	//settings adjust for normal chip
++	for(index = 0; index < PATH_NUM; index ++)
++	{
++		APK_offset[index] = APK_normal_offset[index];
++		APK_value[index] = APK_normal_value[index];
++		AFE_on_off[index] = 0x6fdb25a4;
++	}
++
++	for(index = 0; index < APK_BB_REG_NUM; index ++)
++	{
++		for(path = 0; path < pathbound; path++)
++		{
++			APK_RF_init_value[path][index] = APK_normal_RF_init_value[path][index];
++			APK_RF_value_0[path][index] = APK_normal_RF_value_0[path][index];
++		}
++		BB_AP_MODE[index] = BB_normal_AP_MODE[index];
++	}			
++
++	apkbound = 6;
++	
++	//save BB default value
++	for(index = 0; index < APK_BB_REG_NUM ; index++)
++	{
++		if(index == 0)		//skip 
++			continue;				
++		BB_backup[index] = PHY_QueryBBReg(pAdapter, BB_REG[index], bMaskDWord);
++	}
++	
++	//save MAC default value													
++	phy_SaveMACRegisters(pAdapter, MAC_REG, MAC_backup);
++	
++	//save AFE default value
++	phy_SaveADDARegisters(pAdapter, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);
++
++	for(path = 0; path < pathbound; path++)
++	{
++
++
++		if(path == RF_PATH_A)
++		{
++			//path A APK
++			//load APK setting
++			//path-A		
++			offset = rPdp_AntA;
++			for(index = 0; index < 11; index ++)			
++			{
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x%x value 0x%x\n", offset, PHY_QueryBBReg(pAdapter, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}
++			
++			PHY_SetBBReg(pAdapter, rConfig_Pmpd_AntB, bMaskDWord, 0x12680000);
++			
++			offset = rConfig_AntA;
++			for(; index < 13; index ++) 		
++			{
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x%x value 0x%x\n", offset, PHY_QueryBBReg(pAdapter, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}	
++			
++			//page-B1
++			PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0x400000);
++		
++			//path A
++			offset = rPdp_AntA;
++			for(index = 0; index < 16; index++)
++			{
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, APK_normal_setting_value_2[index]);		
++				RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x%x value 0x%x\n", offset, PHY_QueryBBReg(pAdapter, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}				
++			PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0);							
++		}
++		else if(path == RF_PATH_B)
++		{
++			//path B APK
++			//load APK setting
++			//path-B		
++			offset = rPdp_AntB;
++			for(index = 0; index < 10; index ++)			
++			{
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x%x value 0x%x\n", offset, PHY_QueryBBReg(pAdapter, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}
++			PHY_SetBBReg(pAdapter, rConfig_Pmpd_AntA, bMaskDWord, 0x12680000);
++			
++			PHY_SetBBReg(pAdapter, rConfig_Pmpd_AntB, bMaskDWord, 0x12680000);
++			
++			offset = rConfig_AntA;
++			index = 11;
++			for(; index < 13; index ++) //offset 0xb68, 0xb6c		
++			{
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x%x value 0x%x\n", offset, PHY_QueryBBReg(pAdapter, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}	
++			
++			//page-B1
++			PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0x400000);
++			
++			//path B
++			offset = 0xb60;
++			for(index = 0; index < 16; index++)
++			{
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, APK_normal_setting_value_2[index]);		
++				RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x%x value 0x%x\n", offset, PHY_QueryBBReg(pAdapter, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}				
++			PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0);							
++		}
++	
++		//save RF default value
++		regD[path] = PHY_QueryRFReg(pAdapter, path, RF_TXBIAS_A, bRFRegOffsetMask);
++		
++		//Path A AFE all on, path B AFE All off or vise versa
++		for(index = 0; index < IQK_ADDA_REG_NUM ; index++)
++			PHY_SetBBReg(pAdapter, AFE_REG[index], bMaskDWord, AFE_on_off[path]);
++		RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0xe70 %x\n", PHY_QueryBBReg(pAdapter, rRx_Wait_CCA, bMaskDWord)));		
++
++		//BB to AP mode
++		if(path == 0)
++		{				
++			for(index = 0; index < APK_BB_REG_NUM ; index++)
++			{
++
++				if(index == 0)		//skip 
++					continue;			
++				else if (index < 5)
++				PHY_SetBBReg(pAdapter, BB_REG[index], bMaskDWord, BB_AP_MODE[index]);
++				else if (BB_REG[index] == 0x870)
++					PHY_SetBBReg(pAdapter, BB_REG[index], bMaskDWord, BB_backup[index]|BIT10|BIT26);
++				else
++					PHY_SetBBReg(pAdapter, BB_REG[index], BIT10, 0x0);					
++			}
++
++			PHY_SetBBReg(pAdapter, rTx_IQK_Tone_A, bMaskDWord, 0x01008c00);			
++			PHY_SetBBReg(pAdapter, rRx_IQK_Tone_A, bMaskDWord, 0x01008c00);					
++		}
++		else		//path B
++		{
++			PHY_SetBBReg(pAdapter, rTx_IQK_Tone_B, bMaskDWord, 0x01008c00);			
++			PHY_SetBBReg(pAdapter, rRx_IQK_Tone_B, bMaskDWord, 0x01008c00);					
++		
++		}
++
++		RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x800 %x\n", PHY_QueryBBReg(pAdapter, 0x800, bMaskDWord)));				
++
++		//MAC settings
++		phy_MACSettingCalibration(pAdapter, MAC_REG, MAC_backup);
++		
++		if(path == RF_PATH_A)	//Path B to standby mode
++		{
++			PHY_SetRFReg(pAdapter, RF_PATH_B, RF_AC, bRFRegOffsetMask, 0x10000);			
++		}
++		else			//Path A to standby mode
++		{
++			PHY_SetRFReg(pAdapter, RF_PATH_A, RF_AC, bRFRegOffsetMask, 0x10000);			
++			PHY_SetRFReg(pAdapter, RF_PATH_A, RF_MODE1, bRFRegOffsetMask, 0x1000f);			
++			PHY_SetRFReg(pAdapter, RF_PATH_A, RF_MODE2, bRFRegOffsetMask, 0x20103);						
++		}
++
++		delta_offset = ((delta+14)/2);
++		if(delta_offset < 0)
++			delta_offset = 0;
++		else if (delta_offset > 12)
++			delta_offset = 12;
++			
++		//AP calibration
++		for(index = 0; index < APK_BB_REG_NUM; index++)
++		{
++			if(index != 1)	//only DO PA11+PAD01001, AP RF setting
++				continue;
++					
++			tmpReg = APK_RF_init_value[path][index];
++#if 1			
++			if(!pHalData->bAPKThermalMeterIgnore)
++			{
++				BB_offset = (tmpReg & 0xF0000) >> 16;
++
++				if(!(tmpReg & BIT15)) //sign bit 0
++				{
++					BB_offset = -BB_offset;
++				}
++
++				delta_V = APK_delta_mapping[index][delta_offset];
++				
++				BB_offset += delta_V;
++
++				RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() APK index %d tmpReg 0x%x delta_V %d delta_offset %d\n", index, tmpReg, delta_V, delta_offset));		
++				
++				if(BB_offset < 0)
++				{
++					tmpReg = tmpReg & (~BIT15);
++					BB_offset = -BB_offset;
++				}
++				else
++				{
++					tmpReg = tmpReg | BIT15;
++				}
++				tmpReg = (tmpReg & 0xFFF0FFFF) | (BB_offset << 16);
++			}
++#endif
++
++#if DEV_BUS_TYPE==RT_PCI_INTERFACE
++			if(IS_81xxC_VENDOR_UMC_B_CUT(pHalData->VersionID))
++				PHY_SetRFReg(pAdapter, path, RF_IPA_A, bRFRegOffsetMask, 0x894ae);
++			else
++#endif	
++				PHY_SetRFReg(pAdapter, path, RF_IPA_A, bRFRegOffsetMask, 0x8992e);
++			RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0xc %x\n", PHY_QueryRFReg(pAdapter, path, RF_IPA_A, bRFRegOffsetMask)));		
++			PHY_SetRFReg(pAdapter, path, RF_AC, bRFRegOffsetMask, APK_RF_value_0[path][index]);
++			RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x0 %x\n", PHY_QueryRFReg(pAdapter, path, RF_AC, bRFRegOffsetMask)));		
++			PHY_SetRFReg(pAdapter, path, RF_TXBIAS_A, bRFRegOffsetMask, tmpReg);
++			RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0xd %x\n", PHY_QueryRFReg(pAdapter, path, RF_TXBIAS_A, bRFRegOffsetMask)));					
++			
++			// PA11+PAD01111, one shot	
++			i = 0;
++			do
++			{
++				PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0x800000);
++				{
++					PHY_SetBBReg(pAdapter, APK_offset[path], bMaskDWord, APK_value[0]);		
++					RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x%x value 0x%x\n", APK_offset[path], PHY_QueryBBReg(pAdapter, APK_offset[path], bMaskDWord)));
++					delay_ms(3);				
++					PHY_SetBBReg(pAdapter, APK_offset[path], bMaskDWord, APK_value[1]);
++					RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x%x value 0x%x\n", APK_offset[path], PHY_QueryBBReg(pAdapter, APK_offset[path], bMaskDWord)));
++
++					delay_ms(20);
++				}
++				PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0);
++
++				if(path == RF_PATH_A)
++					tmpReg = PHY_QueryBBReg(pAdapter, rAPK, 0x03E00000);
++				else
++					tmpReg = PHY_QueryBBReg(pAdapter, rAPK, 0xF8000000);
++				RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0xbd8[25:21] %x\n", tmpReg));		
++				
++
++				i++;
++			}
++			while(tmpReg > apkbound && i < 4);
++
++			APK_result[path][index] = tmpReg;
++		}
++	}
++
++	//reload MAC default value	
++	phy_ReloadMACRegisters(pAdapter, MAC_REG, MAC_backup);
++	
++	//reload BB default value	
++	for(index = 0; index < APK_BB_REG_NUM ; index++)
++	{
++
++		if(index == 0)		//skip 
++			continue;					
++		PHY_SetBBReg(pAdapter, BB_REG[index], bMaskDWord, BB_backup[index]);
++	}
++
++	//reload AFE default value
++	phy_ReloadADDARegisters(pAdapter, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);
++
++	//reload RF path default value
++	for(path = 0; path < pathbound; path++)
++	{
++		PHY_SetRFReg(pAdapter, path, RF_TXBIAS_A, bRFRegOffsetMask, regD[path]);
++		if(path == RF_PATH_B)
++		{
++			PHY_SetRFReg(pAdapter, RF_PATH_A, RF_MODE1, bRFRegOffsetMask, 0x1000f);			
++			PHY_SetRFReg(pAdapter, RF_PATH_A, RF_MODE2, bRFRegOffsetMask, 0x20101);						
++		}
++
++		//note no index == 0
++		if (APK_result[path][1] > 6)
++			APK_result[path][1] = 6;
++		RTPRINT(FINIT, INIT_IQK, ("apk path %d result %d 0x%x \t", path, 1, APK_result[path][1]));					
++	}
++
++	RTPRINT(FINIT, INIT_IQK, ("\n"));
++	
++
++	for(path = 0; path < pathbound; path++)
++	{
++		PHY_SetRFReg(pAdapter, path, RF_BS_PA_APSET_G1_G4, bRFRegOffsetMask, 
++		((APK_result[path][1] << 15) | (APK_result[path][1] << 10) | (APK_result[path][1] << 5) | APK_result[path][1]));
++		if(path == RF_PATH_A)
++			PHY_SetRFReg(pAdapter, path, RF_BS_PA_APSET_G5_G8, bRFRegOffsetMask, 
++			((APK_result[path][1] << 15) | (APK_result[path][1] << 10) | (0x00 << 5) | 0x05));		
++		else
++		PHY_SetRFReg(pAdapter, path, RF_BS_PA_APSET_G5_G8, bRFRegOffsetMask, 
++			((APK_result[path][1] << 15) | (APK_result[path][1] << 10) | (0x02 << 5) | 0x05));						
++			
++		PHY_SetRFReg(pAdapter, path, RF_BS_PA_APSET_G9_G11, bRFRegOffsetMask, ((0x08 << 15) | (0x08 << 10) | (0x08 << 5) | 0x08));			
++	}
++
++	pHalData->bAPKdone = TRUE;
++
++	RTPRINT(FINIT, INIT_IQK, ("<==phy_APCalibrate_8192C()\n"));
++}
++
++
++VOID
++PHY_IQCalibrate_8192C(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN 	bReCovery
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	s4Byte			result[4][8];	//last is final result
++	u1Byte			i, final_candidate, Indexforchannel;
++	BOOLEAN			bPathAOK, bPathBOK;
++	s4Byte			RegE94, RegE9C, RegEA4, RegEAC, RegEB4, RegEBC, RegEC4, RegECC, RegTmp = 0;
++	BOOLEAN			is12simular, is13simular, is23simular;	
++	BOOLEAN 		bStartContTx = FALSE, bSingleTone = FALSE, bCarrierSuppression = FALSE;
++	u4Byte			IQK_BB_REG_92C[IQK_BB_REG_NUM] = {
++					rOFDM0_XARxIQImbalance, 	rOFDM0_XBRxIQImbalance, 
++					rOFDM0_ECCAThreshold, 	rOFDM0_AGCRSSITable,
++					rOFDM0_XATxIQImbalance, 	rOFDM0_XBTxIQImbalance, 
++					rOFDM0_XCTxAFE, 			rOFDM0_XDTxAFE, 
++					rOFDM0_RxIQExtAnta};
++
++	if (ODM_CheckPowerStatus(pAdapter) == FALSE)
++		return;
++	
++#if MP_DRIVER == 1	
++	bStartContTx = pAdapter->MptCtx.bStartContTx;
++	bSingleTone = pAdapter->MptCtx.bSingleTone;
++	bCarrierSuppression = pAdapter->MptCtx.bCarrierSuppression;	
++#endif
++	
++	//ignore IQK when continuous Tx
++	if(bStartContTx || bSingleTone || bCarrierSuppression)
++		return;
++
++#ifdef DISABLE_BB_RF
++	return;
++#endif
++	if(pAdapter->bSlaveOfDMSP)
++		return;
++
++	if (bReCovery)
++		{
++			phy_ReloadADDARegisters(pAdapter, IQK_BB_REG_92C, pHalData->IQK_BB_backup_recover, 9);
++			return;		
++
++		}
++
++	RTPRINT(FINIT, INIT_IQK, ("IQK:Start!!!\n"));
++
++	for(i = 0; i < 8; i++)
++	{
++		result[0][i] = 0;
++		result[1][i] = 0;
++		result[2][i] = 0;
++		result[3][i] = 0;
++	}
++	final_candidate = 0xff;
++	bPathAOK = FALSE;
++	bPathBOK = FALSE;
++	is12simular = FALSE;
++	is23simular = FALSE;
++	is13simular = FALSE;
++
++	AcquireCCKAndRWPageAControl(pAdapter);
++	/*RT_TRACE(COMP_INIT,DBG_LOUD,("Acquire Mutex in IQCalibrate\n"));*/
++	for (i=0; i<3; i++)
++	{
++		/*For 88C 1T1R*/
++		phy_IQCalibrate_8192C(pAdapter, result, i, FALSE);
++		
++		if(i == 1)
++		{
++			is12simular = phy_SimularityCompare(pAdapter, result, 0, 1);
++			if(is12simular)
++			{
++				final_candidate = 0;
++				break;
++			}
++		}
++		
++		if(i == 2)
++		{
++			is13simular = phy_SimularityCompare(pAdapter, result, 0, 2);
++			if(is13simular)
++			{
++				final_candidate = 0;			
++				break;
++			}
++			
++			is23simular = phy_SimularityCompare(pAdapter, result, 1, 2);
++			if(is23simular)
++				final_candidate = 1;
++			else
++			{
++				for(i = 0; i < 8; i++)
++					RegTmp += result[3][i];
++
++				if(RegTmp != 0)
++					final_candidate = 3;			
++				else
++					final_candidate = 0xFF;
++			}
++		}
++	}
++//	RT_TRACE(COMP_INIT,DBG_LOUD,("Release Mutex in IQCalibrate \n"));
++	ReleaseCCKAndRWPageAControl(pAdapter);
++
++	for (i=0; i<4; i++)
++	{
++		RegE94 = result[i][0];
++		RegE9C = result[i][1];
++		RegEA4 = result[i][2];
++		RegEAC = result[i][3];
++		RegEB4 = result[i][4];
++		RegEBC = result[i][5];
++		RegEC4 = result[i][6];
++		RegECC = result[i][7];
++		RTPRINT(FINIT, INIT_IQK, ("IQK: RegE94=%x RegE9C=%x RegEA4=%x RegEAC=%x RegEB4=%x RegEBC=%x RegEC4=%x RegECC=%x\n ", RegE94, RegE9C, RegEA4, RegEAC, RegEB4, RegEBC, RegEC4, RegECC));
++	}
++	
++	if(final_candidate != 0xff)
++	{
++		pHalData->RegE94 = RegE94 = result[final_candidate][0];
++		pHalData->RegE9C = RegE9C = result[final_candidate][1];
++		RegEA4 = result[final_candidate][2];
++		RegEAC = result[final_candidate][3];
++		pHalData->RegEB4 = RegEB4 = result[final_candidate][4];
++		pHalData->RegEBC = RegEBC = result[final_candidate][5];
++		RegEC4 = result[final_candidate][6];
++		RegECC = result[final_candidate][7];
++		RTPRINT(FINIT, INIT_IQK, ("IQK: final_candidate is %x\n",final_candidate));
++		RTPRINT(FINIT, INIT_IQK, ("IQK: RegE94=%x RegE9C=%x RegEA4=%x RegEAC=%x RegEB4=%x RegEBC=%x RegEC4=%x RegECC=%x\n ", RegE94, RegE9C, RegEA4, RegEAC, RegEB4, RegEBC, RegEC4, RegECC));
++		bPathAOK = bPathBOK = TRUE;
++	}
++	else
++	{
++		RegE94 = RegEB4 = pHalData->RegE94 = pHalData->RegEB4 = 0x100;	//X default value
++		RegE9C = RegEBC = pHalData->RegE9C = pHalData->RegEBC = 0x0;		//Y default value
++	}
++	
++	if((RegE94 != 0)/*&&(RegEA4 != 0)*/)
++	{
++		if(pHalData->CurrentBandType == BAND_ON_5G)
++			phy_PathAFillIQKMatrix_5G_Normal(pAdapter, bPathAOK, result, final_candidate, (RegEA4 == 0));			
++		else		
++			phy_PathAFillIQKMatrix(pAdapter, bPathAOK, result, final_candidate, (RegEA4 == 0));
++
++	}
++	
++	if (IS_92C_SERIAL(pHalData->VersionID) || IS_92D_SINGLEPHY(pHalData->VersionID))
++	{
++		if((RegEB4 != 0)/*&&(RegEC4 != 0)*/)
++		{
++			if(pHalData->CurrentBandType == BAND_ON_5G)		
++				phy_PathBFillIQKMatrix_5G_Normal(pAdapter, bPathBOK, result, final_candidate, (RegEC4 == 0));
++			else
++				phy_PathBFillIQKMatrix(pAdapter, bPathBOK, result, final_candidate, (RegEC4 == 0));
++		}
++	}
++	
++	phy_SaveADDARegisters(pAdapter, IQK_BB_REG_92C, pHalData->IQK_BB_backup_recover, 9);
++
++}
++
++
++VOID
++PHY_LCCalibrate_8192C(
++	IN	PADAPTER	pAdapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	BOOLEAN 		bStartContTx = FALSE, bSingleTone = FALSE, bCarrierSuppression = FALSE;
++	PMGNT_INFO		pMgntInfo=&pAdapter->MgntInfo;
++	PMGNT_INFO		pMgntInfoBuddyAdapter;
++	u4Byte			timeout = 2000, timecount = 0;
++	PADAPTER	BuddyAdapter = pAdapter->BuddyAdapter;
++
++#if MP_DRIVER == 1	
++	bStartContTx = pAdapter->MptCtx.bStartContTx;
++	bSingleTone = pAdapter->MptCtx.bSingleTone;
++	bCarrierSuppression = pAdapter->MptCtx.bCarrierSuppression;		
++#endif
++
++#ifdef DISABLE_BB_RF
++	return;
++#endif
++
++	//ignore LCK when continuous Tx
++	if(bStartContTx || bSingleTone || bCarrierSuppression)
++		return;
++
++	if(BuddyAdapter != NULL &&
++		((pAdapter->interfaceIndex == 0 && pHalData->CurrentBandType == BAND_ON_2_4G) ||
++		(pAdapter->interfaceIndex == 1 && pHalData->CurrentBandType == BAND_ON_5G)))
++	{
++		pMgntInfoBuddyAdapter=&BuddyAdapter->MgntInfo;
++		while(pMgntInfoBuddyAdapter->bScanInProgress && timecount < timeout)
++		{
++			delay_ms(50);
++			timecount += 50;
++		}
++	}
++
++	while(pMgntInfo->bScanInProgress && timecount < timeout)
++	{
++		delay_ms(50);
++		timecount += 50;
++	}	
++	
++	pHalData->bLCKInProgress = TRUE;
++
++	RTPRINT(FINIT, INIT_IQK, ("LCK:Start!!!interface %d currentband %x delay %d ms\n", pAdapter->interfaceIndex, pHalData->CurrentBandType, timecount));
++	
++	//if(IS_92C_SERIAL(pHalData->VersionID) || IS_92D_SINGLEPHY(pHalData->VersionID))
++	if(IS_2T2R(pHalData->VersionID))
++	{
++		phy_LCCalibrate(pAdapter, TRUE);
++	}
++	else{
++		// For 88C 1T1R
++		phy_LCCalibrate(pAdapter, FALSE);
++	}
++
++	pHalData->bLCKInProgress = FALSE;
++
++	RTPRINT(FINIT, INIT_IQK, ("LCK:Finish!!!interface %d\n", pAdapter->interfaceIndex));
++	
++
++}
++
++VOID
++PHY_APCalibrate_8192C(
++	IN	PADAPTER	pAdapter,
++	IN	s1Byte 		delta	
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	//default disable APK, because Tx NG issue, suggest by Jenyu, 2011.11.25
++	return;
++
++#ifdef DISABLE_BB_RF
++	return;
++#endif
++
++#if FOR_BRAZIL_PRETEST != 1
++	if(pHalData->bAPKdone)
++#endif		
++		return;
++
++	if(IS_92C_SERIAL( pHalData->VersionID)){
++		phy_APCalibrate_8192C(pAdapter, delta, TRUE);
++	}
++	else{
++		// For 88C 1T1R
++		phy_APCalibrate_8192C(pAdapter, delta, FALSE);
++	}
++}
++
++
++#endif
++
++
++//3============================================================
++//3 IQ Calibration
++//3============================================================
++
++VOID
++ODM_ResetIQKResult(
++	IN	PVOID		pDM_VOID 
++)
++{
++	return;
++}
++#if 1//!(DM_ODM_SUPPORT_TYPE & ODM_AP)
++u1Byte ODM_GetRightChnlPlaceforIQK(u1Byte chnl)
++{
++	u1Byte	channel_all[ODM_TARGET_CHNL_NUM_2G_5G] = 
++	{1,2,3,4,5,6,7,8,9,10,11,12,13,14,36,38,40,42,44,46,48,50,52,54,56,58,60,62,64,100,102,104,106,108,110,112,114,116,118,120,122,124,126,128,130,132,134,136,138,140,149,151,153,155,157,159,161,163,165};
++	u1Byte	place = chnl;
++
++	
++	if(chnl > 14)
++	{
++		for(place = 14; place<sizeof(channel_all); place++)
++		{
++			if(channel_all[place] == chnl)
++			{
++				return place-13;
++			}
++		}
++	}	
++	return 0;
++
++}
++#endif
++
++VOID
++odm_IQCalibrate(
++		IN	PDM_ODM_T	pDM_Odm 
++		)
++{
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	if (*pDM_Odm->pIsFcsModeEnable)
++		return;
++#endif
++
++	
++
++	if (pDM_Odm->bLinked) {
++		if ((*pDM_Odm->pChannel != pDM_Odm->preChannel) && (!*pDM_Odm->pbScanInProcess)) {
++			pDM_Odm->preChannel = *pDM_Odm->pChannel;
++			pDM_Odm->LinkedInterval = 0;
++		}
++
++		if (pDM_Odm->LinkedInterval < 3)
++			pDM_Odm->LinkedInterval++;
++		
++		if (pDM_Odm->LinkedInterval == 2) {
++			
++			#if (RTL8814A_SUPPORT == 1)	
++			if (pDM_Odm->SupportICType == ODM_RTL8814A) 
++				PHY_IQCalibrate_8814A(pDM_Odm, FALSE);
++			#endif
++			
++			#if (RTL8822B_SUPPORT == 1)	
++			if (pDM_Odm->SupportICType == ODM_RTL8822B) 
++				PHY_IQCalibrate_8822B(pDM_Odm, FALSE);
++			#endif
++
++			#if (RTL8821A_SUPPORT == 1)				
++			if (pDM_Odm->SupportICType == ODM_RTL8821) 
++				PHY_IQCalibrate_8821A(pDM_Odm, FALSE);
++			#endif
++			
++			#if (RTL8812A_SUPPORT == 1)	
++			if (pDM_Odm->SupportICType == ODM_RTL8812) 
++				phy_IQCalibrate_8812A(pDM_Odm, FALSE);
++			#endif
++		}
++	} else
++		pDM_Odm->LinkedInterval = 0;
++
++}
++
++void phydm_rf_init(IN	PVOID		pDM_VOID)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	odm_TXPowerTrackingInit(pDM_Odm);
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	ODM_ClearTxPowerTrackingState(pDM_Odm);	
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++#if (RTL8814A_SUPPORT == 1)		
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		PHY_IQCalibrate_8814A_Init(pDM_Odm);
++#endif	
++#endif
++
++}
++
++void phydm_rf_watchdog(IN	PVOID		pDM_VOID)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	ODM_TXPowerTrackingCheck(pDM_Odm);
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		odm_IQCalibrate(pDM_Odm);
++#endif
++}
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/halphyrf_ap.h b/drivers/net/wireless/rtl8723du/hal/phydm/halphyrf_ap.h
+new file mode 100644
+index 0000000..5b61b42
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/halphyrf_ap.h
+@@ -0,0 +1,176 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++ #ifndef __HAL_PHY_RF_H__
++ #define __HAL_PHY_RF_H__
++
++#include "phydm_powertracking_ap.h"
++#if (RTL8814A_SUPPORT == 1)
++#include "rtl8814a/phydm_iqk_8814a.h"
++#endif
++
++#if (RTL8822B_SUPPORT == 1)
++#include "rtl8822b/phydm_iqk_8822b.h"
++#endif
++
++
++typedef enum _PWRTRACK_CONTROL_METHOD {
++	BBSWING,
++	TXAGC,
++	MIX_MODE,
++	TSSI_MODE
++} PWRTRACK_METHOD;
++
++typedef VOID 	(*FuncSetPwr)(PVOID, PWRTRACK_METHOD, u1Byte, u1Byte);
++typedef VOID(*FuncIQK)(PVOID, u1Byte, u1Byte, u1Byte);
++typedef VOID 	(*FuncLCK)(PVOID);
++				//refine by YuChen for 8814A
++typedef VOID  	(*FuncSwing)(PVOID, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*);
++typedef VOID	(*FuncSwing8814only)(PVOID, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*);
++typedef VOID	(*FuncAllSwing)(PVOID, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*);
++
++
++typedef struct _TXPWRTRACK_CFG {
++	u1Byte 		SwingTableSize_CCK;	
++	u1Byte 		SwingTableSize_OFDM;
++	u1Byte 		Threshold_IQK;
++	u1Byte 		Threshold_DPK;	
++	u1Byte 		AverageThermalNum;
++	u1Byte 		RfPathCount;
++	u4Byte 		ThermalRegAddr;	
++	FuncSetPwr 	ODM_TxPwrTrackSetPwr;
++	FuncIQK 	DoIQK;
++	FuncLCK		PHY_LCCalibrate;
++	FuncSwing	GetDeltaSwingTable;
++	FuncSwing8814only	GetDeltaSwingTable8814only;
++	FuncAllSwing	GetDeltaAllSwingTable;
++} TXPWRTRACK_CFG, *PTXPWRTRACK_CFG;
++
++VOID 
++ConfigureTxpowerTrack(
++	IN	PVOID		pDM_VOID,
++	OUT	PTXPWRTRACK_CFG	pConfig
++	);
++
++
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	);
++
++#if (RTL8192E_SUPPORT==1) 
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter_92E(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	);
++#endif
++
++#if (RTL8814A_SUPPORT == 1)
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter_JaguarSeries2(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	);
++
++#elif ODM_IC_11AC_SERIES_SUPPORT
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter_JaguarSeries(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	);
++
++#elif (RTL8197F_SUPPORT == 1 || RTL8822B_SUPPORT == 1)
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter_JaguarSeries3(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	);
++
++#endif
++
++#define IS_CCK_RATE(_rate) 				(ODM_MGN_1M == _rate || _rate == ODM_MGN_2M || _rate == ODM_MGN_5_5M || _rate == ODM_MGN_11M )
++
++
++#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++#define MAX_TOLERANCE          5
++#define IQK_DELAY_TIME         1               //ms
++
++ //
++// BB/MAC/RF other monitor API
++//
++
++void	PHY_SetMonitorMode8192C(IN	PADAPTER	pAdapter,
++										IN	BOOLEAN		bEnableMonitorMode	);
++										
++//
++// IQ calibrate
++//
++void	
++PHY_IQCalibrate_8192C(		IN	PADAPTER	pAdapter,	
++							IN	BOOLEAN 	bReCovery);
++							
++//
++// LC calibrate
++//
++void	
++PHY_LCCalibrate_8192C(		IN	PADAPTER	pAdapter);
++
++//
++// AP calibrate
++//
++void	
++PHY_APCalibrate_8192C(		IN	PADAPTER	pAdapter,
++								IN 	s1Byte		delta);
++#endif
++
++#define ODM_TARGET_CHNL_NUM_2G_5G	59
++
++
++VOID
++ODM_ResetIQKResult(
++	IN	PVOID		pDM_VOID
++);
++u1Byte 
++ODM_GetRightChnlPlaceforIQK(
++    IN u1Byte chnl
++);
++
++void phydm_rf_init(IN	PVOID		pDM_VOID);
++void phydm_rf_watchdog(IN	PVOID		pDM_VOID);
++								
++#endif	// #ifndef __HAL_PHY_RF_H__
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/halphyrf_ce.c b/drivers/net/wireless/rtl8723du/hal/phydm/halphyrf_ce.c
+new file mode 100644
+index 0000000..1d407a5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/halphyrf_ce.c
+@@ -0,0 +1,796 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#define 	CALCULATE_SWINGTALBE_OFFSET(_offset, _direction, _size, _deltaThermal) \
++					do {\
++						for(_offset = 0; _offset < _size; _offset++)\
++						{\
++							if(_deltaThermal < thermalThreshold[_direction][_offset])\
++							{\
++								if(_offset != 0)\
++									_offset--;\
++								break;\
++							}\
++						}			\
++						if(_offset >= _size)\
++							_offset = _size-1;\
++					} while(0)
++
++void ConfigureTxpowerTrack(
++	IN		PVOID					pDM_VOID,
++	OUT	PTXPWRTRACK_CFG	pConfig
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++#if RTL8192E_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8192E)
++		ConfigureTxpowerTrack_8192E(pConfig);
++#endif	
++#if RTL8821A_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8821)
++		ConfigureTxpowerTrack_8821A(pConfig);
++#endif
++#if RTL8812A_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8812)
++		ConfigureTxpowerTrack_8812A(pConfig);
++#endif
++#if RTL8188E_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8188E)
++		ConfigureTxpowerTrack_8188E(pConfig);
++#endif 
++
++#if RTL8723B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8723B)
++		ConfigureTxpowerTrack_8723B(pConfig);
++#endif
++
++#if RTL8814A_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8814A)
++		ConfigureTxpowerTrack_8814A(pConfig);
++#endif
++
++#if RTL8703B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8703B)
++		ConfigureTxpowerTrack_8703B(pConfig);
++#endif
++
++#if RTL8188F_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8188F)
++		ConfigureTxpowerTrack_8188F(pConfig);
++#endif 
++#if RTL8723D_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8723D)
++		ConfigureTxpowerTrack_8723D(pConfig);
++#endif 
++#if RTL8822B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8822B)
++		ConfigureTxpowerTrack_8822B(pConfig);
++#endif 
++
++}
++
++//======================================================================
++// <20121113, Kordan> This function should be called when TxAGC changed.
++// Otherwise the previous compensation is gone, because we record the 
++// delta of temperature between two TxPowerTracking watch dogs.
++//
++// NOTE: If Tx BB swing or Tx scaling is varified during run-time, still 
++//       need to call this function.
++//======================================================================
++VOID
++ODM_ClearTxPowerTrackingState(
++	IN		PVOID					pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(pDM_Odm->Adapter);
++	u1Byte 			p = 0;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	
++	pRFCalibrateInfo->BbSwingIdxCckBase = pRFCalibrateInfo->DefaultCckIndex;
++	pRFCalibrateInfo->BbSwingIdxCck = pRFCalibrateInfo->DefaultCckIndex;
++	pDM_Odm->RFCalibrateInfo.CCK_index = 0;
++	
++	for (p = ODM_RF_PATH_A; p < MAX_RF_PATH; ++p)
++	{
++		pRFCalibrateInfo->BbSwingIdxOfdmBase[p] = pRFCalibrateInfo->DefaultOfdmIndex;
++		pRFCalibrateInfo->BbSwingIdxOfdm[p] = pRFCalibrateInfo->DefaultOfdmIndex;
++		pRFCalibrateInfo->OFDM_index[p] = pRFCalibrateInfo->DefaultOfdmIndex;
++
++		pRFCalibrateInfo->PowerIndexOffset[p] = 0;
++		pRFCalibrateInfo->DeltaPowerIndex[p] = 0;
++		pRFCalibrateInfo->DeltaPowerIndexLast[p] = 0;
++
++		pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = 0;    /* Initial Mix mode power tracking*/
++		pRFCalibrateInfo->Remnant_OFDMSwingIdx[p] = 0;			  
++		pRFCalibrateInfo->KfreeOffset[p] = 0;
++	}
++	
++	pRFCalibrateInfo->Modify_TxAGC_Flag_PathA = FALSE;       /*Initial at Modify Tx Scaling Mode*/
++	pRFCalibrateInfo->Modify_TxAGC_Flag_PathB = FALSE;       /*Initial at Modify Tx Scaling Mode*/
++	pRFCalibrateInfo->Modify_TxAGC_Flag_PathC = FALSE;       /*Initial at Modify Tx Scaling Mode*/
++	pRFCalibrateInfo->Modify_TxAGC_Flag_PathD = FALSE;       /*Initial at Modify Tx Scaling Mode*/
++	pRFCalibrateInfo->Remnant_CCKSwingIdx = 0;
++	pRFCalibrateInfo->ThermalValue = pHalData->EEPROMThermalMeter;
++
++	pRFCalibrateInfo->Modify_TxAGC_Value_CCK=0;			//modify by Mingzhi.Guo
++	pRFCalibrateInfo->Modify_TxAGC_Value_OFDM=0;		//modify by Mingzhi.Guo
++
++}
++
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm
++#else
++	IN PADAPTER	Adapter
++#endif
++	)
++{
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++#endif
++
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	u1Byte			ThermalValue = 0, delta, delta_LCK, delta_IQK, p = 0, i = 0;
++	s1Byte			diff_DPK[4] = {0};
++	u1Byte			ThermalValue_AVG_count = 0;
++	u4Byte			ThermalValue_AVG = 0, RegC80, RegCd0, RegCd4, Regab4;	
++
++	u1Byte			OFDM_min_index = 0;  // OFDM BB Swing should be less than +3.0dB, which is required by Arthur
++	u1Byte			Indexforchannel = 0; // GetRightChnlPlaceforIQK(pHalData->CurrentChannel)
++	u1Byte			PowerTrackingType = pHalData->RfPowerTrackingType;
++	u1Byte			XtalOffsetEanble = 0;
++
++	TXPWRTRACK_CFG 	c;
++
++	//4 1. The following TWO tables decide the final index of OFDM/CCK swing table.
++	pu1Byte			deltaSwingTableIdx_TUP_A = NULL;
++	pu1Byte			deltaSwingTableIdx_TDOWN_A = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_B = NULL;
++	pu1Byte			deltaSwingTableIdx_TDOWN_B = NULL;
++	/*for 8814 add by Yu Chen*/
++	pu1Byte			deltaSwingTableIdx_TUP_C = NULL;
++	pu1Byte			deltaSwingTableIdx_TDOWN_C = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_D = NULL;
++	pu1Byte			deltaSwingTableIdx_TDOWN_D = NULL;
++	/*for Xtal Offset by James.Tung*/
++	ps1Byte			deltaSwingTableXtal_UP = NULL;
++	ps1Byte			deltaSwingTableXtal_DOWN = NULL;
++
++	//4 2. Initilization ( 7 steps in total )
++
++	ConfigureTxpowerTrack(pDM_Odm, &c);
++
++	(*c.GetDeltaSwingTable)(pDM_Odm, (pu1Byte *)&deltaSwingTableIdx_TUP_A, (pu1Byte *)&deltaSwingTableIdx_TDOWN_A,
++			(pu1Byte *)&deltaSwingTableIdx_TUP_B, (pu1Byte *)&deltaSwingTableIdx_TDOWN_B);
++
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)	/*for 8814 path C & D*/
++		(*c.GetDeltaSwingTable8814only)(pDM_Odm, (pu1Byte *)&deltaSwingTableIdx_TUP_C, (pu1Byte *)&deltaSwingTableIdx_TDOWN_C,
++			(pu1Byte *)&deltaSwingTableIdx_TUP_D, (pu1Byte *)&deltaSwingTableIdx_TDOWN_D);
++	
++	if (pDM_Odm->SupportICType & (ODM_RTL8703B | ODM_RTL8723D))	/*for Xtal Offset*/
++		(*c.GetDeltaSwingXtalTable)(pDM_Odm, (ps1Byte *)&deltaSwingTableXtal_UP, (ps1Byte *)&deltaSwingTableXtal_DOWN);
++	
++	pRFCalibrateInfo->TXPowerTrackingCallbackCnt++;	/*cosa add for debug*/
++	pRFCalibrateInfo->bTXPowerTrackingInit = TRUE;
++
++	/*pRFCalibrateInfo->TxPowerTrackControl = pHalData->TxPowerTrackControl;
++	<Kordan> We should keep updating the control variable according to HalData. 
++	<Kordan> RFCalibrateInfo.RegA24 will be initialized when ODM HW configuring, but MP configures with para files. */
++	#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	#if (MP_DRIVER == 1)
++		pRFCalibrateInfo->RegA24 = 0x090e1317;
++	#endif
++	#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++		if (pDM_Odm->mp_mode == TRUE)
++			pRFCalibrateInfo->RegA24 = 0x090e1317;
++	#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++		("===>ODM_TXPowerTrackingCallback_ThermalMeter\n pRFCalibrateInfo->BbSwingIdxCckBase: %d, pRFCalibrateInfo->BbSwingIdxOfdmBase[A]: %d, pRFCalibrateInfo->DefaultOfdmIndex: %d\n", 
++		pRFCalibrateInfo->BbSwingIdxCckBase, pRFCalibrateInfo->BbSwingIdxOfdmBase[ODM_RF_PATH_A], pRFCalibrateInfo->DefaultOfdmIndex));
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++		("pRFCalibrateInfo->TxPowerTrackControl=%d,  pHalData->EEPROMThermalMeter %d\n", pRFCalibrateInfo->TxPowerTrackControl,  pHalData->EEPROMThermalMeter));
++	ThermalValue = (u1Byte)ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, c.ThermalRegAddr, 0xfc00);	//0x42: RF Reg[15:10] 88E
++
++	/*add log by zhao he, check c80/c94/c14/ca0 value*/
++	if (pDM_Odm->SupportICType == ODM_RTL8723D) {	
++		RegC80 = ODM_GetBBReg(pDM_Odm, 0xc80, bMaskDWord);
++		RegCd0 = ODM_GetBBReg(pDM_Odm, 0xcd0, bMaskDWord);
++		RegCd4 = ODM_GetBBReg(pDM_Odm, 0xcd4, bMaskDWord);
++		Regab4 = ODM_GetBBReg(pDM_Odm, 0xab4, 0x000007FF);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xc80 = 0x%x 0xcd0 = 0x%x 0xcd4 = 0x%x 0xab4 = 0x%x\n", RegC80, RegCd0, RegCd4, Regab4));
++	}
++
++	if (!pRFCalibrateInfo->TxPowerTrackControl)
++		return;
++
++
++	/*4 3. Initialize ThermalValues of RFCalibrateInfo*/
++
++	if (pRFCalibrateInfo->bReloadtxpowerindex)
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("reload ofdm index for band switch\n"));				
++
++	/*4 4. Calculate average thermal meter*/
++	
++	pRFCalibrateInfo->ThermalValue_AVG[pRFCalibrateInfo->ThermalValue_AVG_index] = ThermalValue;
++	pRFCalibrateInfo->ThermalValue_AVG_index++;
++	if (pRFCalibrateInfo->ThermalValue_AVG_index == c.AverageThermalNum)   /*Average times =  c.AverageThermalNum*/
++		pRFCalibrateInfo->ThermalValue_AVG_index = 0;
++
++	for(i = 0; i < c.AverageThermalNum; i++)
++	{
++		if (pRFCalibrateInfo->ThermalValue_AVG[i]) {
++			ThermalValue_AVG += pRFCalibrateInfo->ThermalValue_AVG[i];
++			ThermalValue_AVG_count++;
++		}
++	}
++
++	if(ThermalValue_AVG_count)               //Calculate Average ThermalValue after average enough times
++	{
++		ThermalValue = (u1Byte)(ThermalValue_AVG / ThermalValue_AVG_count);
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("AVG Thermal Meter = 0x%X, EFUSE Thermal Base = 0x%X\n", ThermalValue, pHalData->EEPROMThermalMeter));					
++	}
++			
++	//4 5. Calculate delta, delta_LCK, delta_IQK.
++
++	//"delta" here is used to determine whether thermal value changes or not.
++	delta	= (ThermalValue > pRFCalibrateInfo->ThermalValue)?(ThermalValue - pRFCalibrateInfo->ThermalValue):(pRFCalibrateInfo->ThermalValue - ThermalValue);
++	delta_LCK = (ThermalValue > pRFCalibrateInfo->ThermalValue_LCK)?(ThermalValue - pRFCalibrateInfo->ThermalValue_LCK):(pRFCalibrateInfo->ThermalValue_LCK - ThermalValue);
++	delta_IQK = (ThermalValue > pRFCalibrateInfo->ThermalValue_IQK)?(ThermalValue - pRFCalibrateInfo->ThermalValue_IQK):(pRFCalibrateInfo->ThermalValue_IQK - ThermalValue);
++
++	if (pRFCalibrateInfo->ThermalValue_IQK == 0xff) {	/*no PG, use thermal value for IQK*/
++		pRFCalibrateInfo->ThermalValue_IQK = ThermalValue;
++		delta_IQK = (ThermalValue > pRFCalibrateInfo->ThermalValue_IQK)?(ThermalValue - pRFCalibrateInfo->ThermalValue_IQK):(pRFCalibrateInfo->ThermalValue_IQK - ThermalValue);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("no PG, use ThermalValue for IQK\n"));
++	}
++	
++	for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++		diff_DPK[p] = (s1Byte)ThermalValue - (s1Byte)pRFCalibrateInfo->DpkThermal[p];
++
++	/*4 6. If necessary, do LCK.*/
++
++	if (!(pDM_Odm->SupportICType & ODM_RTL8821)) {	/*no PG , do LCK at initial status*/
++		if (pRFCalibrateInfo->ThermalValue_LCK == 0xff) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("no PG, do LCK\n"));
++			pRFCalibrateInfo->ThermalValue_LCK = ThermalValue;
++
++			/*Use RTLCK, so close power tracking driver LCK*/
++			if (!(pDM_Odm->SupportICType & ODM_RTL8814A)) {
++				if (c.PHY_LCCalibrate)
++					(*c.PHY_LCCalibrate)(pDM_Odm);
++			}
++			
++			delta_LCK = (ThermalValue > pRFCalibrateInfo->ThermalValue_LCK)?(ThermalValue - pRFCalibrateInfo->ThermalValue_LCK):(pRFCalibrateInfo->ThermalValue_LCK - ThermalValue);
++		}
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("(delta, delta_LCK, delta_IQK) = (%d, %d, %d)\n", delta, delta_LCK, delta_IQK));
++
++		 /* Delta temperature is equal to or larger than 20 centigrade.*/
++		if (delta_LCK >= c.Threshold_IQK) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("delta_LCK(%d) >= Threshold_IQK(%d)\n", delta_LCK, c.Threshold_IQK));
++			pRFCalibrateInfo->ThermalValue_LCK = ThermalValue;
++
++			/*Use RTLCK, so close power tracking driver LCK*/
++			if (!(pDM_Odm->SupportICType & ODM_RTL8814A)) {
++				if (c.PHY_LCCalibrate)
++					(*c.PHY_LCCalibrate)(pDM_Odm);
++			}
++		}
++	}
++
++	/*3 7. If necessary, move the index of swing table to adjust Tx power.*/	
++	
++	if (delta > 0 && pRFCalibrateInfo->TxPowerTrackControl)
++	{
++		//"delta" here is used to record the absolute value of differrence.
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))			
++	    delta = ThermalValue > pHalData->EEPROMThermalMeter?(ThermalValue - pHalData->EEPROMThermalMeter):(pHalData->EEPROMThermalMeter - ThermalValue);		
++#else
++	    delta = (ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther)?(ThermalValue - pDM_Odm->priv->pmib->dot11RFEntry.ther):(pDM_Odm->priv->pmib->dot11RFEntry.ther - ThermalValue);		
++#endif
++		if (delta >= TXPWR_TRACK_TABLE_SIZE)
++			delta = TXPWR_TRACK_TABLE_SIZE - 1;
++
++		/*4 7.1 The Final Power Index = BaseIndex + PowerIndexOffset*/
++		
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))				
++		if(ThermalValue > pHalData->EEPROMThermalMeter) {
++#else
++		if(ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther) {
++#endif
++
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++				pRFCalibrateInfo->DeltaPowerIndexLast[p] = pRFCalibrateInfo->DeltaPowerIndex[p];	/*recording poer index offset*/
++				switch (p) {
++				case ODM_RF_PATH_B:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TUP_B[%d] = %d\n", delta, deltaSwingTableIdx_TUP_B[delta])); 
++
++					pRFCalibrateInfo->DeltaPowerIndex[p] = deltaSwingTableIdx_TUP_B[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  deltaSwingTableIdx_TUP_B[delta];       /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is higher and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_B] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++				case ODM_RF_PATH_C:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TUP_C[%d] = %d\n", delta, deltaSwingTableIdx_TUP_C[delta]));
++
++					pRFCalibrateInfo->DeltaPowerIndex[p] = deltaSwingTableIdx_TUP_C[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  deltaSwingTableIdx_TUP_C[delta];       /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_C] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++				case ODM_RF_PATH_D:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TUP_D[%d] = %d\n", delta, deltaSwingTableIdx_TUP_D[delta]));
++
++						pRFCalibrateInfo->DeltaPowerIndex[p] = deltaSwingTableIdx_TUP_D[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  deltaSwingTableIdx_TUP_D[delta];       /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is higher and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_D] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++				default:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++						("deltaSwingTableIdx_TUP_A[%d] = %d\n", delta, deltaSwingTableIdx_TUP_A[delta]));
++
++					pRFCalibrateInfo->DeltaPowerIndex[p] = deltaSwingTableIdx_TUP_A[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  deltaSwingTableIdx_TUP_A[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_A] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++				}
++			}
++
++			if (pDM_Odm->SupportICType & (ODM_RTL8703B | ODM_RTL8723D)) {
++				/*Save XtalOffset from Xtal table*/
++				pRFCalibrateInfo->XtalOffsetLast = pRFCalibrateInfo->XtalOffset;	/*recording last Xtal offset*/
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++								("[Xtal] deltaSwingTableXtal_UP[%d] = %d\n", delta, deltaSwingTableXtal_UP[delta]));
++				pRFCalibrateInfo->XtalOffset = deltaSwingTableXtal_UP[delta];
++
++				if (pRFCalibrateInfo->XtalOffsetLast == pRFCalibrateInfo->XtalOffset)
++					XtalOffsetEanble = 0;
++				else
++					XtalOffsetEanble = 1;
++			}
++		
++		} else {
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++				pRFCalibrateInfo->DeltaPowerIndexLast[p] = pRFCalibrateInfo->DeltaPowerIndex[p];	/*recording poer index offset*/
++
++				switch (p) {
++				case ODM_RF_PATH_B:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TDOWN_B[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_B[delta]));  
++					pRFCalibrateInfo->DeltaPowerIndex[p] = -1 * deltaSwingTableIdx_TDOWN_B[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  -1 * deltaSwingTableIdx_TDOWN_B[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is lower and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_B] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p])); 
++					break;
++
++				case ODM_RF_PATH_C:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TDOWN_C[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_C[delta]));  
++					pRFCalibrateInfo->DeltaPowerIndex[p] = -1 * deltaSwingTableIdx_TDOWN_C[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  -1 * deltaSwingTableIdx_TDOWN_C[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is lower and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_C] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));   
++					break;
++
++				case ODM_RF_PATH_D:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TDOWN_D[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_D[delta]));  
++					pRFCalibrateInfo->DeltaPowerIndex[p] = -1 * deltaSwingTableIdx_TDOWN_D[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  -1 * deltaSwingTableIdx_TDOWN_D[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is lower and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_D] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++				default:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TDOWN_A[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_A[delta]));  
++					pRFCalibrateInfo->DeltaPowerIndex[p] = -1 * deltaSwingTableIdx_TDOWN_A[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  -1 * deltaSwingTableIdx_TDOWN_A[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is lower and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_A] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++				}	
++			}
++
++			if (pDM_Odm->SupportICType & (ODM_RTL8703B | ODM_RTL8723D)) {
++				/*Save XtalOffset from Xtal table*/
++				pRFCalibrateInfo->XtalOffsetLast = pRFCalibrateInfo->XtalOffset;	/*recording last Xtal offset*/
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++								("[Xtal] deltaSwingTableXtal_DOWN[%d] = %d\n", delta, deltaSwingTableXtal_DOWN[delta]));
++				pRFCalibrateInfo->XtalOffset = deltaSwingTableXtal_DOWN[delta];
++
++				if (pRFCalibrateInfo->XtalOffsetLast == pRFCalibrateInfo->XtalOffset)
++					XtalOffsetEanble = 0;
++				else
++					XtalOffsetEanble = 1;
++			}
++
++		}
++		
++		for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("\n\n=========================== [Path-%d] Calculating PowerIndexOffset===========================\n", p));  
++
++			if (pRFCalibrateInfo->DeltaPowerIndex[p] == pRFCalibrateInfo->DeltaPowerIndexLast[p])         /*If Thermal value changes but lookup table value still the same*/
++				pRFCalibrateInfo->PowerIndexOffset[p] = 0;
++			else
++				pRFCalibrateInfo->PowerIndexOffset[p] = pRFCalibrateInfo->DeltaPowerIndex[p] - pRFCalibrateInfo->DeltaPowerIndexLast[p];      /*Power Index Diff between 2 times Power Tracking*/
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("[Path-%d] PowerIndexOffset(%d) = DeltaPowerIndex(%d) - DeltaPowerIndexLast(%d)\n", p, pRFCalibrateInfo->PowerIndexOffset[p], pRFCalibrateInfo->DeltaPowerIndex[p], pRFCalibrateInfo->DeltaPowerIndexLast[p]));
++		
++			pRFCalibrateInfo->OFDM_index[p] = pRFCalibrateInfo->BbSwingIdxOfdmBase[p] + pRFCalibrateInfo->PowerIndexOffset[p];
++			pRFCalibrateInfo->CCK_index = pRFCalibrateInfo->BbSwingIdxCckBase + pRFCalibrateInfo->PowerIndexOffset[p];
++
++			pRFCalibrateInfo->BbSwingIdxCck = pRFCalibrateInfo->CCK_index;	
++			pRFCalibrateInfo->BbSwingIdxOfdm[p] = pRFCalibrateInfo->OFDM_index[p];	
++
++			/*************Print BB Swing Base and Index Offset*************/
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("The 'CCK' final index(%d) = BaseIndex(%d) + PowerIndexOffset(%d)\n", pRFCalibrateInfo->BbSwingIdxCck, pRFCalibrateInfo->BbSwingIdxCckBase, pRFCalibrateInfo->PowerIndexOffset[p]));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("The 'OFDM' final index(%d) = BaseIndex[%d](%d) + PowerIndexOffset(%d)\n", pRFCalibrateInfo->BbSwingIdxOfdm[p], p, pRFCalibrateInfo->BbSwingIdxOfdmBase[p], pRFCalibrateInfo->PowerIndexOffset[p]));
++
++			/*4 7.1 Handle boundary conditions of index.*/
++		
++			if (pRFCalibrateInfo->OFDM_index[p] > c.SwingTableSize_OFDM-1)
++				pRFCalibrateInfo->OFDM_index[p] = c.SwingTableSize_OFDM-1;
++			else if (pRFCalibrateInfo->OFDM_index[p] <= OFDM_min_index)
++				pRFCalibrateInfo->OFDM_index[p] = OFDM_min_index;
++		}
++		
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("\n\n========================================================================================================\n"));  
++
++		if (pRFCalibrateInfo->CCK_index > c.SwingTableSize_CCK-1)
++			pRFCalibrateInfo->CCK_index = c.SwingTableSize_CCK-1;
++		else if (pRFCalibrateInfo->CCK_index <= 0)
++			pRFCalibrateInfo->CCK_index = 0;
++	} else {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("The thermal meter is unchanged or TxPowerTracking OFF(%d): ThermalValue: %d , pRFCalibrateInfo->ThermalValue: %d\n", 
++			pRFCalibrateInfo->TxPowerTrackControl, ThermalValue, pRFCalibrateInfo->ThermalValue));
++
++		for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++			pRFCalibrateInfo->PowerIndexOffset[p] = 0;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++		("TxPowerTracking: [CCK] Swing Current Index: %d, Swing Base Index: %d\n", 
++			pRFCalibrateInfo->CCK_index, pRFCalibrateInfo->BbSwingIdxCckBase));       /*Print Swing base & current*/
++
++	for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("TxPowerTracking: [OFDM] Swing Current Index: %d, Swing Base Index[%d]: %d\n",
++			pRFCalibrateInfo->OFDM_index[p], p, pRFCalibrateInfo->BbSwingIdxOfdmBase[p]));
++	}
++
++	if ((pDM_Odm->SupportICType & ODM_RTL8814A)) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("PowerTrackingType=%d\n", PowerTrackingType));
++		
++		if (PowerTrackingType == 0) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX_MODE**********\n"));
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, 0);
++		} else if (PowerTrackingType == 1) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX(2G) TSSI(5G) MODE**********\n"));
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_2G_TSSI_5G_MODE, p, 0);
++		} else if (PowerTrackingType == 2) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX(5G) TSSI(2G)MODE**********\n"));
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_5G_TSSI_2G_MODE, p, 0);
++		} else if (PowerTrackingType == 3) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking TSSI MODE**********\n"));
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, TSSI_MODE, p, 0);
++		}
++		pRFCalibrateInfo->ThermalValue = ThermalValue;         /*Record last Power Tracking Thermal Value*/
++	
++	} else if ((pRFCalibrateInfo->PowerIndexOffset[ODM_RF_PATH_A] != 0 ||
++		pRFCalibrateInfo->PowerIndexOffset[ODM_RF_PATH_B] != 0 ||
++		pRFCalibrateInfo->PowerIndexOffset[ODM_RF_PATH_C] != 0 ||
++		pRFCalibrateInfo->PowerIndexOffset[ODM_RF_PATH_D] != 0) && 
++		pRFCalibrateInfo->TxPowerTrackControl && (pHalData->EEPROMThermalMeter != 0xff)) {
++		//4 7.2 Configure the Swing Table to adjust Tx Power.
++		
++		pRFCalibrateInfo->bTxPowerChanged = TRUE;	/*Always TRUE after Tx Power is adjusted by power tracking.*/			
++		//
++		// 2012/04/23 MH According to Luke's suggestion, we can not write BB digital
++		// to increase TX power. Otherwise, EVM will be bad.
++		//
++		// 2012/04/25 MH Add for tx power tracking to set tx power in tx agc for 88E.
++		if (ThermalValue > pRFCalibrateInfo->ThermalValue) {
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++					("Temperature Increasing(%d): delta_pi: %d , delta_t: %d, Now_t: %d, EFUSE_t: %d, Last_t: %d\n", 
++					p, pRFCalibrateInfo->PowerIndexOffset[p], delta, ThermalValue, pHalData->EEPROMThermalMeter, pRFCalibrateInfo->ThermalValue));	
++			}
++		} else if (ThermalValue < pRFCalibrateInfo->ThermalValue) {	/*Low temperature*/
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++					("Temperature Decreasing(%d): delta_pi: %d , delta_t: %d, Now_t: %d, EFUSE_t: %d, Last_t: %d\n",
++					p, pRFCalibrateInfo->PowerIndexOffset[p], delta, ThermalValue, pHalData->EEPROMThermalMeter, pRFCalibrateInfo->ThermalValue));				
++			}
++		}
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		if (ThermalValue > pHalData->EEPROMThermalMeter)
++#else
++		if (ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther)
++#endif
++		{
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("Temperature(%d) higher than PG value(%d)\n", ThermalValue, pHalData->EEPROMThermalMeter));			
++
++			if (pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType == ODM_RTL8821 ||
++				pDM_Odm->SupportICType == ODM_RTL8812 || pDM_Odm->SupportICType == ODM_RTL8723B || pDM_Odm->SupportICType == ODM_RTL8814A ||
++				pDM_Odm->SupportICType == ODM_RTL8703B || pDM_Odm->SupportICType == ODM_RTL8188F || pDM_Odm->SupportICType == ODM_RTL8822B || pDM_Odm->SupportICType == ODM_RTL8723D) {
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX_MODE**********\n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, 0);
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking BBSWING_MODE**********\n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, p, Indexforchannel);
++			}
++		}
++		else
++		{
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("Temperature(%d) lower than PG value(%d)\n", ThermalValue, pHalData->EEPROMThermalMeter));
++
++			if (pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType == ODM_RTL8821 ||
++				pDM_Odm->SupportICType == ODM_RTL8812 || pDM_Odm->SupportICType == ODM_RTL8723B || pDM_Odm->SupportICType == ODM_RTL8814A ||
++				pDM_Odm->SupportICType == ODM_RTL8703B || pDM_Odm->SupportICType == ODM_RTL8188F || pDM_Odm->SupportICType == ODM_RTL8822B || pDM_Odm->SupportICType == ODM_RTL8723D) {
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX_MODE**********\n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, Indexforchannel);
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking BBSWING_MODE**********\n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, p, Indexforchannel);
++			}
++			
++		}
++
++		pRFCalibrateInfo->BbSwingIdxCckBase = pRFCalibrateInfo->BbSwingIdxCck;    /*Record last time Power Tracking result as base.*/
++		for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++			pRFCalibrateInfo->BbSwingIdxOfdmBase[p] = pRFCalibrateInfo->BbSwingIdxOfdm[p];
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("pRFCalibrateInfo->ThermalValue = %d ThermalValue= %d\n", pRFCalibrateInfo->ThermalValue, ThermalValue));
++		
++		pRFCalibrateInfo->ThermalValue = ThermalValue;         /*Record last Power Tracking Thermal Value*/
++
++	}
++
++
++	if (pDM_Odm->SupportICType == ODM_RTL8703B || pDM_Odm->SupportICType == ODM_RTL8723D) {
++
++		if (XtalOffsetEanble != 0 && pRFCalibrateInfo->TxPowerTrackControl && (pHalData->EEPROMThermalMeter != 0xff)) {
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter Xtal Tracking**********\n"));
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			if (ThermalValue > pHalData->EEPROMThermalMeter) {
++#else
++			if (ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther) {
++#endif
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++					("Temperature(%d) higher than PG value(%d)\n", ThermalValue, pHalData->EEPROMThermalMeter));			
++				(*c.ODM_TxXtalTrackSetXtal)(pDM_Odm);
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++					("Temperature(%d) lower than PG value(%d)\n", ThermalValue, pHalData->EEPROMThermalMeter));			
++				(*c.ODM_TxXtalTrackSetXtal)(pDM_Odm);
++			}
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********End Xtal Tracking**********\n"));
++	}
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++
++	if (!IS_HARDWARE_TYPE_8723B(Adapter)) {
++		/*Delta temperature is equal to or larger than 20 centigrade (When threshold is 8).*/
++		if (delta_IQK >= c.Threshold_IQK) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("delta_IQK(%d) >= Threshold_IQK(%d)\n", delta_IQK, c.Threshold_IQK));
++			if (!pRFCalibrateInfo->bIQKInProgress) 
++				(*c.DoIQK)(pDM_Odm, delta_IQK, ThermalValue, 8);
++		}
++	}
++	if (pRFCalibrateInfo->DpkThermal[ODM_RF_PATH_A] != 0) {
++		if (diff_DPK[ODM_RF_PATH_A] >= c.Threshold_DPK) { 
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xcc4, BIT14|BIT13|BIT12|BIT11|BIT10, (diff_DPK[ODM_RF_PATH_A] / c.Threshold_DPK));
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++		} else if ((diff_DPK[ODM_RF_PATH_A] <= -1 * c.Threshold_DPK)) {
++			s4Byte value = 0x20 + (diff_DPK[ODM_RF_PATH_A] / c.Threshold_DPK);	
++
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xcc4, BIT14|BIT13|BIT12|BIT11|BIT10, value);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++		} else {
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xcc4, BIT14|BIT13|BIT12|BIT11|BIT10, 0);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);	
++		}
++	}
++	if (pRFCalibrateInfo->DpkThermal[ODM_RF_PATH_B] != 0) {
++		if (diff_DPK[ODM_RF_PATH_B] >= c.Threshold_DPK) { 
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xec4, BIT14|BIT13|BIT12|BIT11|BIT10, (diff_DPK[ODM_RF_PATH_B] / c.Threshold_DPK));
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++		} else if ((diff_DPK[ODM_RF_PATH_B] <= -1 * c.Threshold_DPK)) {
++			s4Byte value = 0x20 + (diff_DPK[ODM_RF_PATH_B] / c.Threshold_DPK);	
++
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xec4, BIT14|BIT13|BIT12|BIT11|BIT10, value);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++		} else {
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xec4, BIT14|BIT13|BIT12|BIT11|BIT10, 0);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);	
++		}
++	}
++
++#endif		
++			
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("<===ODM_TXPowerTrackingCallback_ThermalMeter\n"));
++	
++	pRFCalibrateInfo->TXPowercount = 0;
++}
++
++
++
++//3============================================================
++//3 IQ Calibration
++//3============================================================
++
++VOID
++ODM_ResetIQKResult(
++	IN		PVOID					pDM_VOID
++)
++{
++	return;
++}
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++u1Byte ODM_GetRightChnlPlaceforIQK(u1Byte chnl)
++{
++	u1Byte	channel_all[ODM_TARGET_CHNL_NUM_2G_5G] = 
++	{1,2,3,4,5,6,7,8,9,10,11,12,13,14,36,38,40,42,44,46,48,50,52,54,56,58,60,62,64,100,102,104,106,108,110,112,114,116,118,120,122,124,126,128,130,132,134,136,138,140,149,151,153,155,157,159,161,163,165};
++	u1Byte	place = chnl;
++
++	
++	if(chnl > 14)
++	{
++		for(place = 14; place<sizeof(channel_all); place++)
++		{
++			if(channel_all[place] == chnl)
++			{
++				return place-13;
++			}
++		}
++	}	
++	return 0;
++
++}
++#endif
++
++VOID
++odm_IQCalibrate(
++		IN	PDM_ODM_T	pDM_Odm 
++		)
++{
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	if (*pDM_Odm->pIsFcsModeEnable)
++		return;
++#endif
++	
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++	if (IS_HARDWARE_TYPE_8812AU(Adapter))
++		return;
++#endif
++	
++	if (pDM_Odm->bLinked) {
++		if ((*pDM_Odm->pChannel != pDM_Odm->preChannel) && (!*pDM_Odm->pbScanInProcess)) {
++			pDM_Odm->preChannel = *pDM_Odm->pChannel;
++			pDM_Odm->LinkedInterval = 0;
++		}
++
++		if (pDM_Odm->LinkedInterval < 3)
++			pDM_Odm->LinkedInterval++;
++		
++		if (pDM_Odm->LinkedInterval == 2) {
++			if (IS_HARDWARE_TYPE_8814A(Adapter)) {
++				#if (RTL8814A_SUPPORT == 1)	
++				PHY_IQCalibrate_8814A(pDM_Odm, FALSE);
++				#endif
++			} 
++			
++			#if (RTL8822B_SUPPORT == 1)
++			else if (IS_HARDWARE_TYPE_8822B(Adapter))
++				PHY_IQCalibrate_8822B(pDM_Odm, FALSE);
++			#endif
++			
++			#if (RTL8821A_SUPPORT == 1)
++			else if (IS_HARDWARE_TYPE_8821(Adapter))
++				PHY_IQCalibrate_8821A(pDM_Odm, FALSE);
++			#endif
++		}
++	} else
++		pDM_Odm->LinkedInterval = 0;
++}
++
++void phydm_rf_init(IN	PVOID		pDM_VOID)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	odm_TXPowerTrackingInit(pDM_Odm);
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	ODM_ClearTxPowerTrackingState(pDM_Odm);	
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++#if (RTL8814A_SUPPORT == 1)		
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		PHY_IQCalibrate_8814A_Init(pDM_Odm);
++#endif	
++#endif
++
++}
++
++void phydm_rf_watchdog(IN	PVOID		pDM_VOID)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	ODM_TXPowerTrackingCheck(pDM_Odm);
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		odm_IQCalibrate(pDM_Odm);
++#endif
++}
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/halphyrf_ce.h b/drivers/net/wireless/rtl8723du/hal/phydm/halphyrf_ce.h
+new file mode 100644
+index 0000000..82616a3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/halphyrf_ce.h
+@@ -0,0 +1,113 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++ #ifndef __HAL_PHY_RF_H__
++ #define __HAL_PHY_RF_H__
++
++#include "phydm_kfree.h"
++#if (RTL8814A_SUPPORT == 1)
++#include "rtl8814a/phydm_iqk_8814a.h"
++#endif
++
++#if (RTL8822B_SUPPORT == 1)
++#include "rtl8822b/phydm_iqk_8822b.h"
++#endif
++#include "phydm_powertracking_ce.h"
++
++
++typedef enum _SPUR_CAL_METHOD {
++	PLL_RESET,
++	AFE_PHASE_SEL
++} SPUR_CAL_METHOD;
++
++typedef enum _PWRTRACK_CONTROL_METHOD {
++	BBSWING,
++	TXAGC,
++	MIX_MODE,
++	TSSI_MODE,
++	MIX_2G_TSSI_5G_MODE,
++	MIX_5G_TSSI_2G_MODE
++} PWRTRACK_METHOD;
++
++typedef VOID 	(*FuncSetPwr)(PVOID, PWRTRACK_METHOD, u1Byte, u1Byte);
++typedef VOID(*FuncIQK)(PVOID, u1Byte, u1Byte, u1Byte);
++typedef VOID 	(*FuncLCK)(PVOID);
++typedef VOID  	(*FuncSwing)(PVOID, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*);
++typedef VOID	(*FuncSwing8814only)(PVOID, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*);
++typedef VOID(*FuncSwingXtal)(PVOID, ps1Byte*, ps1Byte*);
++typedef VOID(*FuncSetXtal)(PVOID);
++
++typedef struct _TXPWRTRACK_CFG {
++	u1Byte 		SwingTableSize_CCK;	
++	u1Byte 		SwingTableSize_OFDM;
++	u1Byte		Threshold_IQK;
++	u1Byte		Threshold_DPK;
++	u1Byte 		AverageThermalNum;
++	u1Byte 		RfPathCount;
++	u4Byte 		ThermalRegAddr;	
++	FuncSetPwr 	ODM_TxPwrTrackSetPwr;
++	FuncIQK 	DoIQK;
++	FuncLCK		PHY_LCCalibrate;
++	FuncSwing	GetDeltaSwingTable;
++	FuncSwing8814only	GetDeltaSwingTable8814only;
++	FuncSwingXtal			GetDeltaSwingXtalTable;
++	FuncSetXtal			ODM_TxXtalTrackSetXtal;
++} TXPWRTRACK_CFG, *PTXPWRTRACK_CFG;
++
++VOID
++ConfigureTxpowerTrack(
++	IN		PVOID					pDM_VOID,
++	OUT	PTXPWRTRACK_CFG	pConfig
++	);
++
++
++VOID
++ODM_ClearTxPowerTrackingState(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN		PVOID					pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	);
++
++
++
++#define ODM_TARGET_CHNL_NUM_2G_5G	59
++
++
++VOID
++ODM_ResetIQKResult(
++	IN		PVOID					pDM_VOID
++);
++u1Byte 
++ODM_GetRightChnlPlaceforIQK(
++    IN u1Byte chnl
++);
++
++void phydm_rf_init(	IN		PVOID					pDM_VOID);
++void phydm_rf_watchdog(	IN		PVOID					pDM_VOID);
++								
++#endif	// #ifndef __HAL_PHY_RF_H__
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/halphyrf_win.c b/drivers/net/wireless/rtl8723du/hal/phydm/halphyrf_win.c
+new file mode 100644
+index 0000000..8f0d992
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/halphyrf_win.c
+@@ -0,0 +1,780 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#define 	CALCULATE_SWINGTALBE_OFFSET(_offset, _direction, _size, _deltaThermal) \
++					do {\
++						for(_offset = 0; _offset < _size; _offset++)\
++						{\
++							if(_deltaThermal < thermalThreshold[_direction][_offset])\
++							{\
++								if(_offset != 0)\
++									_offset--;\
++								break;\
++							}\
++						}			\
++						if(_offset >= _size)\
++							_offset = _size-1;\
++					} while(0)
++
++void ConfigureTxpowerTrack(
++	IN 	PDM_ODM_T		pDM_Odm,
++	OUT	PTXPWRTRACK_CFG	pConfig
++	)
++{
++#if RTL8192E_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8192E)
++		ConfigureTxpowerTrack_8192E(pConfig);
++#endif	
++#if RTL8821A_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8821)
++		ConfigureTxpowerTrack_8821A(pConfig);
++#endif
++#if RTL8812A_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8812)
++		ConfigureTxpowerTrack_8812A(pConfig);
++#endif
++#if RTL8188E_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8188E)
++		ConfigureTxpowerTrack_8188E(pConfig);
++#endif 
++
++#if RTL8188F_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8188F)
++		ConfigureTxpowerTrack_8188F(pConfig);
++#endif 
++
++#if RTL8723B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8723B)
++		ConfigureTxpowerTrack_8723B(pConfig);
++#endif
++
++#if RTL8814A_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8814A)
++		ConfigureTxpowerTrack_8814A(pConfig);
++#endif
++
++#if RTL8703B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8703B)
++		ConfigureTxpowerTrack_8703B(pConfig);
++#endif
++
++#if RTL8822B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8822B)
++		ConfigureTxpowerTrack_8822B(pConfig);
++#endif
++
++#if RTL8723D_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8723D)
++		ConfigureTxpowerTrack_8723D(pConfig);
++#endif
++}
++
++//======================================================================
++// <20121113, Kordan> This function should be called when TxAGC changed.
++// Otherwise the previous compensation is gone, because we record the 
++// delta of temperature between two TxPowerTracking watch dogs.
++//
++// NOTE: If Tx BB swing or Tx scaling is varified during run-time, still 
++//       need to call this function.
++//======================================================================
++VOID
++ODM_ClearTxPowerTrackingState(
++	IN PDM_ODM_T		pDM_Odm
++	)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(pDM_Odm->Adapter);
++	u1Byte 			p = 0;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	
++	pRFCalibrateInfo->BbSwingIdxCckBase = pRFCalibrateInfo->DefaultCckIndex;
++	pRFCalibrateInfo->BbSwingIdxCck = pRFCalibrateInfo->DefaultCckIndex;
++	pRFCalibrateInfo->CCK_index = 0;
++	
++	for (p = ODM_RF_PATH_A; p < MAX_RF_PATH; ++p)
++	{
++		pRFCalibrateInfo->BbSwingIdxOfdmBase[p] = pRFCalibrateInfo->DefaultOfdmIndex;
++		pRFCalibrateInfo->BbSwingIdxOfdm[p] = pRFCalibrateInfo->DefaultOfdmIndex;
++		pRFCalibrateInfo->OFDM_index[p] = pRFCalibrateInfo->DefaultOfdmIndex;
++
++		pRFCalibrateInfo->PowerIndexOffset[p] = 0;
++		pRFCalibrateInfo->DeltaPowerIndex[p] = 0;
++		pRFCalibrateInfo->DeltaPowerIndexLast[p] = 0;
++
++		pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = 0;    /* Initial Mix mode power tracking*/
++		pRFCalibrateInfo->Remnant_OFDMSwingIdx[p] = 0;			  
++		pRFCalibrateInfo->KfreeOffset[p] = 0;
++	}
++	
++	pRFCalibrateInfo->Modify_TxAGC_Flag_PathA = FALSE;       /*Initial at Modify Tx Scaling Mode*/
++	pRFCalibrateInfo->Modify_TxAGC_Flag_PathB = FALSE;       /*Initial at Modify Tx Scaling Mode*/
++	pRFCalibrateInfo->Modify_TxAGC_Flag_PathC = FALSE;       /*Initial at Modify Tx Scaling Mode*/
++	pRFCalibrateInfo->Modify_TxAGC_Flag_PathD = FALSE;       /*Initial at Modify Tx Scaling Mode*/
++	pRFCalibrateInfo->Remnant_CCKSwingIdx = 0;
++	pRFCalibrateInfo->ThermalValue = pHalData->EEPROMThermalMeter;
++
++	pRFCalibrateInfo->Modify_TxAGC_Value_CCK=0;			//modify by Mingzhi.Guo
++	pRFCalibrateInfo->Modify_TxAGC_Value_OFDM=0;		//modify by Mingzhi.Guo
++
++}
++
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm
++#else
++	IN PADAPTER	Adapter
++#endif
++	)
++{
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#endif
++
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	u1Byte			ThermalValue = 0, delta, delta_LCK, delta_IQK, p = 0, i = 0;
++	s1Byte			diff_DPK[4] = {0};
++	u1Byte			ThermalValue_AVG_count = 0;
++	u4Byte			ThermalValue_AVG = 0, RegC80, RegCd0, RegCd4, Regab4;	
++
++	u1Byte			OFDM_min_index = 0;  // OFDM BB Swing should be less than +3.0dB, which is required by Arthur
++	u1Byte			Indexforchannel = 0; // GetRightChnlPlaceforIQK(pHalData->CurrentChannel)
++	u1Byte			PowerTrackingType = pHalData->RfPowerTrackingType;
++	u1Byte			XtalOffsetEanble = 0;
++
++	TXPWRTRACK_CFG 	c;
++
++	//4 1. The following TWO tables decide the final index of OFDM/CCK swing table.
++	pu1Byte			deltaSwingTableIdx_TUP_A = NULL;
++	pu1Byte			deltaSwingTableIdx_TDOWN_A = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_B = NULL;
++	pu1Byte			deltaSwingTableIdx_TDOWN_B = NULL;
++	/*for 8814 add by Yu Chen*/
++	pu1Byte			deltaSwingTableIdx_TUP_C = NULL;
++	pu1Byte			deltaSwingTableIdx_TDOWN_C = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_D = NULL;
++	pu1Byte			deltaSwingTableIdx_TDOWN_D = NULL;
++	/*for Xtal Offset by James.Tung*/
++	ps1Byte			deltaSwingTableXtal_UP = NULL;
++	ps1Byte			deltaSwingTableXtal_DOWN = NULL;
++
++	//4 2. Initilization ( 7 steps in total )
++
++	ConfigureTxpowerTrack(pDM_Odm, &c);
++
++	(*c.GetDeltaSwingTable)(pDM_Odm, (pu1Byte *)&deltaSwingTableIdx_TUP_A, (pu1Byte *)&deltaSwingTableIdx_TDOWN_A,
++			(pu1Byte *)&deltaSwingTableIdx_TUP_B, (pu1Byte *)&deltaSwingTableIdx_TDOWN_B);
++
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)	/*for 8814 path C & D*/
++		(*c.GetDeltaSwingTable8814only)(pDM_Odm, (pu1Byte *)&deltaSwingTableIdx_TUP_C, (pu1Byte *)&deltaSwingTableIdx_TDOWN_C,
++			(pu1Byte *)&deltaSwingTableIdx_TUP_D, (pu1Byte *)&deltaSwingTableIdx_TDOWN_D);
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8703B | ODM_RTL8723D))	/*for Xtal Offset*/
++		(*c.GetDeltaSwingXtalTable)(pDM_Odm, (ps1Byte *)&deltaSwingTableXtal_UP, (ps1Byte *)&deltaSwingTableXtal_DOWN);
++	
++
++	pRFCalibrateInfo->TXPowerTrackingCallbackCnt++;	/*cosa add for debug*/
++	pRFCalibrateInfo->bTXPowerTrackingInit = TRUE;
++
++	/*pRFCalibrateInfo->TxPowerTrackControl = pHalData->TxPowerTrackControl;
++	<Kordan> We should keep updating the control variable according to HalData. 
++	<Kordan> RFCalibrateInfo.RegA24 will be initialized when ODM HW configuring, but MP configures with para files. */
++	#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	#if (MP_DRIVER == 1)
++		pRFCalibrateInfo->RegA24 = 0x090e1317;
++	#endif
++	#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++		if (pDM_Odm->mp_mode == TRUE)
++			pRFCalibrateInfo->RegA24 = 0x090e1317;
++	#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++		("===>ODM_TXPowerTrackingCallback_ThermalMeter\n pRFCalibrateInfo->BbSwingIdxCckBase: %d, pRFCalibrateInfo->BbSwingIdxOfdmBase[A]: %d, pRFCalibrateInfo->DefaultOfdmIndex: %d\n", 
++		pRFCalibrateInfo->BbSwingIdxCckBase, pRFCalibrateInfo->BbSwingIdxOfdmBase[ODM_RF_PATH_A], pRFCalibrateInfo->DefaultOfdmIndex));
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++		("pRFCalibrateInfo->TxPowerTrackControl=%d,  pHalData->EEPROMThermalMeter %d\n", pRFCalibrateInfo->TxPowerTrackControl,  pHalData->EEPROMThermalMeter));
++	ThermalValue = (u1Byte)ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, c.ThermalRegAddr, 0xfc00);	//0x42: RF Reg[15:10] 88E
++
++	/*add log by zhao he, check c80/c94/c14/ca0 value*/
++	if (pDM_Odm->SupportICType == ODM_RTL8723D) {	
++		RegC80 = ODM_GetBBReg(pDM_Odm, 0xc80, bMaskDWord);
++		RegCd0 = ODM_GetBBReg(pDM_Odm, 0xcd0, bMaskDWord);
++		RegCd4 = ODM_GetBBReg(pDM_Odm, 0xcd4, bMaskDWord);
++		Regab4 = ODM_GetBBReg(pDM_Odm, 0xab4, 0x000007FF);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xc80 = 0x%x 0xcd0 = 0x%x 0xcd4 = 0x%x 0xab4 = 0x%x\n", RegC80, RegCd0, RegCd4, Regab4));
++	}
++
++	if (!pRFCalibrateInfo->TxPowerTrackControl)
++		return;
++
++
++	/*4 3. Initialize ThermalValues of RFCalibrateInfo*/
++
++	if (pRFCalibrateInfo->bReloadtxpowerindex)
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("reload ofdm index for band switch\n"));				
++
++	/*4 4. Calculate average thermal meter*/
++	
++	pRFCalibrateInfo->ThermalValue_AVG[pRFCalibrateInfo->ThermalValue_AVG_index] = ThermalValue;
++	pRFCalibrateInfo->ThermalValue_AVG_index++;
++	if (pRFCalibrateInfo->ThermalValue_AVG_index == c.AverageThermalNum)   /*Average times =  c.AverageThermalNum*/
++		pRFCalibrateInfo->ThermalValue_AVG_index = 0;
++
++	for(i = 0; i < c.AverageThermalNum; i++)
++	{
++		if (pRFCalibrateInfo->ThermalValue_AVG[i]) {
++			ThermalValue_AVG += pRFCalibrateInfo->ThermalValue_AVG[i];
++			ThermalValue_AVG_count++;
++		}
++	}
++
++	if(ThermalValue_AVG_count)               //Calculate Average ThermalValue after average enough times
++	{
++		ThermalValue = (u1Byte)(ThermalValue_AVG / ThermalValue_AVG_count);
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("AVG Thermal Meter = 0x%X, EFUSE Thermal Base = 0x%X\n", ThermalValue, pHalData->EEPROMThermalMeter));					
++	}
++			
++	//4 5. Calculate delta, delta_LCK, delta_IQK.
++
++	//"delta" here is used to determine whether thermal value changes or not.
++	delta	= (ThermalValue > pRFCalibrateInfo->ThermalValue)?(ThermalValue - pRFCalibrateInfo->ThermalValue):(pRFCalibrateInfo->ThermalValue - ThermalValue);
++	delta_LCK = (ThermalValue > pRFCalibrateInfo->ThermalValue_LCK)?(ThermalValue - pRFCalibrateInfo->ThermalValue_LCK):(pRFCalibrateInfo->ThermalValue_LCK - ThermalValue);
++	delta_IQK = (ThermalValue > pRFCalibrateInfo->ThermalValue_IQK)?(ThermalValue - pRFCalibrateInfo->ThermalValue_IQK):(pRFCalibrateInfo->ThermalValue_IQK - ThermalValue);
++
++	if (pRFCalibrateInfo->ThermalValue_IQK == 0xff) {	/*no PG, use thermal value for IQK*/
++		pRFCalibrateInfo->ThermalValue_IQK = ThermalValue;
++		delta_IQK = (ThermalValue > pRFCalibrateInfo->ThermalValue_IQK)?(ThermalValue - pRFCalibrateInfo->ThermalValue_IQK):(pRFCalibrateInfo->ThermalValue_IQK - ThermalValue);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("no PG, use ThermalValue for IQK\n"));
++	}
++	
++	for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++		diff_DPK[p] = (s1Byte)ThermalValue - (s1Byte)pRFCalibrateInfo->DpkThermal[p];
++
++	/*4 6. If necessary, do LCK.*/
++
++	if (!(pDM_Odm->SupportICType & ODM_RTL8821)) {	/*no PG , do LCK at initial status*/
++		if (pRFCalibrateInfo->ThermalValue_LCK == 0xff) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("no PG, do LCK\n"));
++			pRFCalibrateInfo->ThermalValue_LCK = ThermalValue;
++
++			/*Use RTLCK, so close power tracking driver LCK*/
++			if (!(pDM_Odm->SupportICType & ODM_RTL8814A)) {
++				if (c.PHY_LCCalibrate)
++					(*c.PHY_LCCalibrate)(pDM_Odm);
++			}
++			
++			delta_LCK = (ThermalValue > pRFCalibrateInfo->ThermalValue_LCK)?(ThermalValue - pRFCalibrateInfo->ThermalValue_LCK):(pRFCalibrateInfo->ThermalValue_LCK - ThermalValue);
++		}
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("(delta, delta_LCK, delta_IQK) = (%d, %d, %d)\n", delta, delta_LCK, delta_IQK));
++
++		 /* Delta temperature is equal to or larger than 20 centigrade.*/
++		if (delta_LCK >= c.Threshold_IQK) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("delta_LCK(%d) >= Threshold_IQK(%d)\n", delta_LCK, c.Threshold_IQK));
++			pRFCalibrateInfo->ThermalValue_LCK = ThermalValue;
++
++			/*Use RTLCK, so close power tracking driver LCK*/
++			if (!(pDM_Odm->SupportICType & ODM_RTL8814A)) {
++				if (c.PHY_LCCalibrate)
++					(*c.PHY_LCCalibrate)(pDM_Odm);
++			}
++		}
++	}
++
++	/*3 7. If necessary, move the index of swing table to adjust Tx power.*/	
++	
++	if (delta > 0 && pRFCalibrateInfo->TxPowerTrackControl)
++	{
++		//"delta" here is used to record the absolute value of differrence.
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))			
++	    delta = ThermalValue > pHalData->EEPROMThermalMeter?(ThermalValue - pHalData->EEPROMThermalMeter):(pHalData->EEPROMThermalMeter - ThermalValue);		
++#else
++	    delta = (ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther)?(ThermalValue - pDM_Odm->priv->pmib->dot11RFEntry.ther):(pDM_Odm->priv->pmib->dot11RFEntry.ther - ThermalValue);		
++#endif
++		if (delta >= TXPWR_TRACK_TABLE_SIZE)
++			delta = TXPWR_TRACK_TABLE_SIZE - 1;
++
++		/*4 7.1 The Final Power Index = BaseIndex + PowerIndexOffset*/
++		
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))				
++		if(ThermalValue > pHalData->EEPROMThermalMeter) {
++#else
++		if(ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther) {
++#endif
++
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++				pRFCalibrateInfo->DeltaPowerIndexLast[p] = pRFCalibrateInfo->DeltaPowerIndex[p];	/*recording poer index offset*/
++				switch (p) {
++				case ODM_RF_PATH_B:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TUP_B[%d] = %d\n", delta, deltaSwingTableIdx_TUP_B[delta])); 
++
++					pRFCalibrateInfo->DeltaPowerIndex[p] = deltaSwingTableIdx_TUP_B[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  deltaSwingTableIdx_TUP_B[delta];       /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is higher and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_B] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++				case ODM_RF_PATH_C:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TUP_C[%d] = %d\n", delta, deltaSwingTableIdx_TUP_C[delta]));
++
++					pRFCalibrateInfo->DeltaPowerIndex[p] = deltaSwingTableIdx_TUP_C[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  deltaSwingTableIdx_TUP_C[delta];       /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_C] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++				case ODM_RF_PATH_D:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TUP_D[%d] = %d\n", delta, deltaSwingTableIdx_TUP_D[delta]));
++
++						pRFCalibrateInfo->DeltaPowerIndex[p] = deltaSwingTableIdx_TUP_D[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  deltaSwingTableIdx_TUP_D[delta];       /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is higher and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_D] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++				default:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++						("deltaSwingTableIdx_TUP_A[%d] = %d\n", delta, deltaSwingTableIdx_TUP_A[delta]));
++
++					pRFCalibrateInfo->DeltaPowerIndex[p] = deltaSwingTableIdx_TUP_A[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  deltaSwingTableIdx_TUP_A[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_A] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++				}
++			}
++
++			if (pDM_Odm->SupportICType & (ODM_RTL8703B | ODM_RTL8723D)) {
++				/*Save XtalOffset from Xtal table*/
++				pRFCalibrateInfo->XtalOffsetLast = pRFCalibrateInfo->XtalOffset;	/*recording last Xtal offset*/
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++								("[Xtal] deltaSwingTableXtal_UP[%d] = %d\n", delta, deltaSwingTableXtal_UP[delta]));
++				pRFCalibrateInfo->XtalOffset = deltaSwingTableXtal_UP[delta];
++
++				if (pRFCalibrateInfo->XtalOffsetLast == pRFCalibrateInfo->XtalOffset)
++					XtalOffsetEanble = 0;
++				else
++					XtalOffsetEanble = 1;
++			}
++		
++		} else {
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++				pRFCalibrateInfo->DeltaPowerIndexLast[p] = pRFCalibrateInfo->DeltaPowerIndex[p];	/*recording poer index offset*/
++
++				switch (p) {
++				case ODM_RF_PATH_B:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TDOWN_B[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_B[delta]));  
++					pRFCalibrateInfo->DeltaPowerIndex[p] = -1 * deltaSwingTableIdx_TDOWN_B[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  -1 * deltaSwingTableIdx_TDOWN_B[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is lower and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_B] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p])); 
++					break;
++
++				case ODM_RF_PATH_C:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TDOWN_C[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_C[delta]));  
++					pRFCalibrateInfo->DeltaPowerIndex[p] = -1 * deltaSwingTableIdx_TDOWN_C[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  -1 * deltaSwingTableIdx_TDOWN_C[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is lower and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_C] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));   
++					break;
++
++				case ODM_RF_PATH_D:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TDOWN_D[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_D[delta]));  
++					pRFCalibrateInfo->DeltaPowerIndex[p] = -1 * deltaSwingTableIdx_TDOWN_D[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  -1 * deltaSwingTableIdx_TDOWN_D[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is lower and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_D] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++				default:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TDOWN_A[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_A[delta]));  
++					pRFCalibrateInfo->DeltaPowerIndex[p] = -1 * deltaSwingTableIdx_TDOWN_A[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  -1 * deltaSwingTableIdx_TDOWN_A[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is lower and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_A] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++				}	
++			}
++
++			if (pDM_Odm->SupportICType & (ODM_RTL8703B | ODM_RTL8723D)) {
++				/*Save XtalOffset from Xtal table*/
++				pRFCalibrateInfo->XtalOffsetLast = pRFCalibrateInfo->XtalOffset;	/*recording last Xtal offset*/
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++								("[Xtal] deltaSwingTableXtal_DOWN[%d] = %d\n", delta, deltaSwingTableXtal_DOWN[delta]));
++				pRFCalibrateInfo->XtalOffset = deltaSwingTableXtal_DOWN[delta];
++
++				if (pRFCalibrateInfo->XtalOffsetLast == pRFCalibrateInfo->XtalOffset)
++					XtalOffsetEanble = 0;
++				else
++					XtalOffsetEanble = 1;
++			}
++
++		}
++		
++		for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("\n\n=========================== [Path-%d] Calculating PowerIndexOffset===========================\n", p));  
++
++			if (pRFCalibrateInfo->DeltaPowerIndex[p] == pRFCalibrateInfo->DeltaPowerIndexLast[p])         /*If Thermal value changes but lookup table value still the same*/
++				pRFCalibrateInfo->PowerIndexOffset[p] = 0;
++			else
++				pRFCalibrateInfo->PowerIndexOffset[p] = pRFCalibrateInfo->DeltaPowerIndex[p] - pRFCalibrateInfo->DeltaPowerIndexLast[p];      /*Power Index Diff between 2 times Power Tracking*/
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("[Path-%d] PowerIndexOffset(%d) = DeltaPowerIndex(%d) - DeltaPowerIndexLast(%d)\n", p, pRFCalibrateInfo->PowerIndexOffset[p], pRFCalibrateInfo->DeltaPowerIndex[p], pRFCalibrateInfo->DeltaPowerIndexLast[p]));
++		
++			pRFCalibrateInfo->OFDM_index[p] = pRFCalibrateInfo->BbSwingIdxOfdmBase[p] + pRFCalibrateInfo->PowerIndexOffset[p];
++			pRFCalibrateInfo->CCK_index = pRFCalibrateInfo->BbSwingIdxCckBase + pRFCalibrateInfo->PowerIndexOffset[p];
++
++			pRFCalibrateInfo->BbSwingIdxCck = pRFCalibrateInfo->CCK_index;	
++			pRFCalibrateInfo->BbSwingIdxOfdm[p] = pRFCalibrateInfo->OFDM_index[p];	
++
++			/*************Print BB Swing Base and Index Offset*************/
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("The 'CCK' final index(%d) = BaseIndex(%d) + PowerIndexOffset(%d)\n", pRFCalibrateInfo->BbSwingIdxCck, pRFCalibrateInfo->BbSwingIdxCckBase, pRFCalibrateInfo->PowerIndexOffset[p]));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("The 'OFDM' final index(%d) = BaseIndex[%d](%d) + PowerIndexOffset(%d)\n", pRFCalibrateInfo->BbSwingIdxOfdm[p], p, pRFCalibrateInfo->BbSwingIdxOfdmBase[p], pRFCalibrateInfo->PowerIndexOffset[p]));
++
++			/*4 7.1 Handle boundary conditions of index.*/
++		
++			if (pRFCalibrateInfo->OFDM_index[p] > c.SwingTableSize_OFDM-1)
++				pRFCalibrateInfo->OFDM_index[p] = c.SwingTableSize_OFDM-1;
++			else if (pRFCalibrateInfo->OFDM_index[p] <= OFDM_min_index)
++				pRFCalibrateInfo->OFDM_index[p] = OFDM_min_index;
++		}
++		
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("\n\n========================================================================================================\n"));  
++
++		if (pRFCalibrateInfo->CCK_index > c.SwingTableSize_CCK-1)
++			pRFCalibrateInfo->CCK_index = c.SwingTableSize_CCK-1;
++		else if (pRFCalibrateInfo->CCK_index <= 0)
++			pRFCalibrateInfo->CCK_index = 0;
++	} else {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("The thermal meter is unchanged or TxPowerTracking OFF(%d): ThermalValue: %d , pRFCalibrateInfo->ThermalValue: %d\n", 
++			pRFCalibrateInfo->TxPowerTrackControl, ThermalValue, pRFCalibrateInfo->ThermalValue));
++
++		for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++			pRFCalibrateInfo->PowerIndexOffset[p] = 0;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++		("TxPowerTracking: [CCK] Swing Current Index: %d, Swing Base Index: %d\n", 
++			pRFCalibrateInfo->CCK_index, pRFCalibrateInfo->BbSwingIdxCckBase));       /*Print Swing base & current*/
++
++	for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("TxPowerTracking: [OFDM] Swing Current Index: %d, Swing Base Index[%d]: %d\n",
++			pRFCalibrateInfo->OFDM_index[p], p, pRFCalibrateInfo->BbSwingIdxOfdmBase[p]));
++	}
++
++	if ((pDM_Odm->SupportICType & ODM_RTL8814A)) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("PowerTrackingType=%d\n", PowerTrackingType));
++		
++		if (PowerTrackingType == 0) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX_MODE**********\n"));
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, 0);
++		} else if (PowerTrackingType == 1) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX(2G) TSSI(5G) MODE**********\n"));
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_2G_TSSI_5G_MODE, p, 0);
++		} else if (PowerTrackingType == 2) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX(5G) TSSI(2G)MODE**********\n"));
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_5G_TSSI_2G_MODE, p, 0);
++		} else if (PowerTrackingType == 3) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking TSSI MODE**********\n"));
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, TSSI_MODE, p, 0);
++		}
++		pRFCalibrateInfo->ThermalValue = ThermalValue;         /*Record last Power Tracking Thermal Value*/
++	
++	} else if ((pRFCalibrateInfo->PowerIndexOffset[ODM_RF_PATH_A] != 0 ||
++		pRFCalibrateInfo->PowerIndexOffset[ODM_RF_PATH_B] != 0 ||
++		pRFCalibrateInfo->PowerIndexOffset[ODM_RF_PATH_C] != 0 ||
++		pRFCalibrateInfo->PowerIndexOffset[ODM_RF_PATH_D] != 0) && 
++		pRFCalibrateInfo->TxPowerTrackControl && (pHalData->EEPROMThermalMeter != 0xff)) {
++		//4 7.2 Configure the Swing Table to adjust Tx Power.
++		
++		pRFCalibrateInfo->bTxPowerChanged = TRUE;	/*Always TRUE after Tx Power is adjusted by power tracking.*/			
++		//
++		// 2012/04/23 MH According to Luke's suggestion, we can not write BB digital
++		// to increase TX power. Otherwise, EVM will be bad.
++		//
++		// 2012/04/25 MH Add for tx power tracking to set tx power in tx agc for 88E.
++		if (ThermalValue > pRFCalibrateInfo->ThermalValue) {
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++					("Temperature Increasing(%d): delta_pi: %d , delta_t: %d, Now_t: %d, EFUSE_t: %d, Last_t: %d\n", 
++					p, pRFCalibrateInfo->PowerIndexOffset[p], delta, ThermalValue, pHalData->EEPROMThermalMeter, pRFCalibrateInfo->ThermalValue));	
++			}
++		} else if (ThermalValue < pRFCalibrateInfo->ThermalValue) {	/*Low temperature*/
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++					("Temperature Decreasing(%d): delta_pi: %d , delta_t: %d, Now_t: %d, EFUSE_t: %d, Last_t: %d\n",
++					p, pRFCalibrateInfo->PowerIndexOffset[p], delta, ThermalValue, pHalData->EEPROMThermalMeter, pRFCalibrateInfo->ThermalValue));				
++			}
++		}
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		if (ThermalValue > pHalData->EEPROMThermalMeter)
++#else
++		if (ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther)
++#endif
++		{
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("Temperature(%d) higher than PG value(%d)\n", ThermalValue, pHalData->EEPROMThermalMeter));			
++
++			if (pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType == ODM_RTL8821 ||
++				pDM_Odm->SupportICType == ODM_RTL8812 || pDM_Odm->SupportICType == ODM_RTL8723B || pDM_Odm->SupportICType == ODM_RTL8814A ||
++				pDM_Odm->SupportICType == ODM_RTL8703B || pDM_Odm->SupportICType == ODM_RTL8188F || pDM_Odm->SupportICType == ODM_RTL8822B ||
++				pDM_Odm->SupportICType == ODM_RTL8723D) {
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX_MODE**********\n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, 0);
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking BBSWING_MODE**********\n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, p, Indexforchannel);
++			}
++		}
++		else
++		{
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("Temperature(%d) lower than PG value(%d)\n", ThermalValue, pHalData->EEPROMThermalMeter));
++
++			if (pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType == ODM_RTL8821 ||
++				pDM_Odm->SupportICType == ODM_RTL8812 || pDM_Odm->SupportICType == ODM_RTL8723B || pDM_Odm->SupportICType == ODM_RTL8814A ||
++				pDM_Odm->SupportICType == ODM_RTL8703B || pDM_Odm->SupportICType == ODM_RTL8188F || pDM_Odm->SupportICType == ODM_RTL8822B ||
++				pDM_Odm->SupportICType == ODM_RTL8723D) {
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX_MODE**********\n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, Indexforchannel);
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking BBSWING_MODE**********\n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, p, Indexforchannel);
++			}
++			
++		}
++
++		pRFCalibrateInfo->BbSwingIdxCckBase = pRFCalibrateInfo->BbSwingIdxCck;    /*Record last time Power Tracking result as base.*/
++		for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++			pRFCalibrateInfo->BbSwingIdxOfdmBase[p] = pRFCalibrateInfo->BbSwingIdxOfdm[p];
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("pRFCalibrateInfo->ThermalValue = %d ThermalValue= %d\n", pRFCalibrateInfo->ThermalValue, ThermalValue));
++		
++		pRFCalibrateInfo->ThermalValue = ThermalValue;         /*Record last Power Tracking Thermal Value*/
++
++	}
++
++
++	if (pDM_Odm->SupportICType == ODM_RTL8703B || pDM_Odm->SupportICType == ODM_RTL8723D) {
++
++		if (XtalOffsetEanble != 0 && pRFCalibrateInfo->TxPowerTrackControl && (pHalData->EEPROMThermalMeter != 0xff)) {
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter Xtal Tracking**********\n"));
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			if (ThermalValue > pHalData->EEPROMThermalMeter) {
++#else
++			if (ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther) {
++#endif
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++					("Temperature(%d) higher than PG value(%d)\n", ThermalValue, pHalData->EEPROMThermalMeter));			
++				(*c.ODM_TxXtalTrackSetXtal)(pDM_Odm);
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++					("Temperature(%d) lower than PG value(%d)\n", ThermalValue, pHalData->EEPROMThermalMeter));			
++				(*c.ODM_TxXtalTrackSetXtal)(pDM_Odm);
++			}
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********End Xtal Tracking**********\n"));
++	}
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++
++	if (!IS_HARDWARE_TYPE_8723B(Adapter)) {
++		/*Delta temperature is equal to or larger than 20 centigrade (When threshold is 8).*/
++		if (delta_IQK >= c.Threshold_IQK) {
++			pRFCalibrateInfo->ThermalValue_IQK = ThermalValue;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("delta_IQK(%d) >= Threshold_IQK(%d)\n", delta_IQK, c.Threshold_IQK));
++			if (!pRFCalibrateInfo->bIQKInProgress) 
++				(*c.DoIQK)(pDM_Odm, delta_IQK, ThermalValue, 8);
++		}
++	}
++	if (pRFCalibrateInfo->DpkThermal[ODM_RF_PATH_A] != 0) {
++		if (diff_DPK[ODM_RF_PATH_A] >= c.Threshold_DPK) { 
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xcc4, BIT14|BIT13|BIT12|BIT11|BIT10, (diff_DPK[ODM_RF_PATH_A] / c.Threshold_DPK));
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++		} else if ((diff_DPK[ODM_RF_PATH_A] <= -1 * c.Threshold_DPK)) {
++			s4Byte value = 0x20 + (diff_DPK[ODM_RF_PATH_A] / c.Threshold_DPK);	
++
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xcc4, BIT14|BIT13|BIT12|BIT11|BIT10, value);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++		} else {
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xcc4, BIT14|BIT13|BIT12|BIT11|BIT10, 0);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);	
++		}
++	}
++	if (pRFCalibrateInfo->DpkThermal[ODM_RF_PATH_B] != 0) {
++		if (diff_DPK[ODM_RF_PATH_B] >= c.Threshold_DPK) { 
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xec4, BIT14|BIT13|BIT12|BIT11|BIT10, (diff_DPK[ODM_RF_PATH_B] / c.Threshold_DPK));
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++		} else if ((diff_DPK[ODM_RF_PATH_B] <= -1 * c.Threshold_DPK)) {
++			s4Byte value = 0x20 + (diff_DPK[ODM_RF_PATH_B] / c.Threshold_DPK);	
++
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xec4, BIT14|BIT13|BIT12|BIT11|BIT10, value);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++		} else {
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xec4, BIT14|BIT13|BIT12|BIT11|BIT10, 0);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);	
++		}
++	}
++
++#endif		
++			
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("<===ODM_TXPowerTrackingCallback_ThermalMeter\n"));
++	
++	pRFCalibrateInfo->TXPowercount = 0;
++}
++
++
++
++//3============================================================
++//3 IQ Calibration
++//3============================================================
++
++VOID
++ODM_ResetIQKResult(
++	IN PDM_ODM_T	pDM_Odm 
++)
++{
++	return;
++}
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++u1Byte ODM_GetRightChnlPlaceforIQK(u1Byte chnl)
++{
++	u1Byte	channel_all[ODM_TARGET_CHNL_NUM_2G_5G] = 
++	{1,2,3,4,5,6,7,8,9,10,11,12,13,14,36,38,40,42,44,46,48,50,52,54,56,58,60,62,64,100,102,104,106,108,110,112,114,116,118,120,122,124,126,128,130,132,134,136,138,140,149,151,153,155,157,159,161,163,165};
++	u1Byte	place = chnl;
++
++	
++	if(chnl > 14)
++	{
++		for(place = 14; place<sizeof(channel_all); place++)
++		{
++			if(channel_all[place] == chnl)
++			{
++				return place-13;
++			}
++		}
++	}	
++	return 0;
++
++}
++#endif
++
++VOID
++odm_IQCalibrate(
++		IN	PDM_ODM_T	pDM_Odm 
++		)
++{
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	if (*pDM_Odm->pIsFcsModeEnable)
++		return;
++#endif
++
++	if (pDM_Odm->bLinked) {
++
++		if ((*pDM_Odm->pChannel != pDM_Odm->preChannel) && (!*pDM_Odm->pbScanInProcess)) {
++			pDM_Odm->preChannel = *pDM_Odm->pChannel;
++			pDM_Odm->LinkedInterval = 0;
++		}
++
++		if (pDM_Odm->LinkedInterval < 3)
++			pDM_Odm->LinkedInterval++;
++			
++		if (pDM_Odm->LinkedInterval == 2) {
++			PHY_IQCalibrate(Adapter, FALSE);
++		}
++	} else
++		pDM_Odm->LinkedInterval = 0;
++		
++}
++
++void phydm_rf_init(IN		PDM_ODM_T		pDM_Odm)
++{
++
++	odm_TXPowerTrackingInit(pDM_Odm);
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	ODM_ClearTxPowerTrackingState(pDM_Odm);	
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++#if (RTL8814A_SUPPORT == 1)		
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		PHY_IQCalibrate_8814A_Init(pDM_Odm);
++#endif	
++#endif
++
++}
++
++void phydm_rf_watchdog(IN		PDM_ODM_T		pDM_Odm)
++{
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	ODM_TXPowerTrackingCheck(pDM_Odm);
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		odm_IQCalibrate(pDM_Odm);
++#endif
++}
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/halphyrf_win.h b/drivers/net/wireless/rtl8723du/hal/phydm/halphyrf_win.h
+new file mode 100644
+index 0000000..c41e4df
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/halphyrf_win.h
+@@ -0,0 +1,116 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++ #ifndef __HAL_PHY_RF_H__
++ #define __HAL_PHY_RF_H__
++
++#include "phydm_kfree.h"
++#if (RTL8814A_SUPPORT == 1)
++#include "rtl8814a/phydm_iqk_8814a.h"
++#endif
++
++#if (RTL8822B_SUPPORT == 1)
++#include "rtl8822b/phydm_iqk_8822b.h"
++#include "../mac/Halmac_type.h"
++#endif
++#include "phydm_powertracking_win.h"
++
++typedef enum _SPUR_CAL_METHOD {
++	PLL_RESET,
++	AFE_PHASE_SEL
++} SPUR_CAL_METHOD;
++
++typedef enum _PWRTRACK_CONTROL_METHOD {
++	BBSWING,
++	TXAGC,
++	MIX_MODE,
++	TSSI_MODE,
++	MIX_2G_TSSI_5G_MODE,
++	MIX_5G_TSSI_2G_MODE
++} PWRTRACK_METHOD;
++
++typedef VOID(*FuncSetPwr)(PVOID, PWRTRACK_METHOD, u1Byte, u1Byte);
++typedef VOID(*FuncIQK)(PVOID, u1Byte, u1Byte, u1Byte);
++typedef VOID(*FuncLCK)(PVOID);
++typedef VOID(*FuncSwing)(PVOID, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*);
++typedef VOID(*FuncSwing8814only)(PVOID, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*);
++typedef VOID (*FuncSwingXtal)(PVOID, ps1Byte*, ps1Byte*);
++typedef VOID (*FuncSetXtal)(PVOID);
++typedef VOID(*FuncAllSwing)(PVOID, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*);
++
++typedef struct _TXPWRTRACK_CFG {
++	u1Byte 		SwingTableSize_CCK;	
++	u1Byte 		SwingTableSize_OFDM;
++	u1Byte		Threshold_IQK;
++	u1Byte		Threshold_DPK;
++	u1Byte 		AverageThermalNum;
++	u1Byte 		RfPathCount;
++	u4Byte 		ThermalRegAddr;	
++	FuncSetPwr 	ODM_TxPwrTrackSetPwr;
++	FuncIQK 	DoIQK;
++	FuncLCK		PHY_LCCalibrate;
++	FuncSwing	GetDeltaSwingTable;
++	FuncSwing8814only	GetDeltaSwingTable8814only;
++	FuncSwingXtal			GetDeltaSwingXtalTable;
++	FuncSetXtal			ODM_TxXtalTrackSetXtal;
++	FuncAllSwing	GetDeltaAllSwingTable;
++} TXPWRTRACK_CFG, *PTXPWRTRACK_CFG;
++
++VOID
++ConfigureTxpowerTrack(
++	IN 	PDM_ODM_T		pDM_Odm,
++	OUT	PTXPWRTRACK_CFG	pConfig
++	);
++
++
++VOID
++ODM_ClearTxPowerTrackingState(
++	IN PDM_ODM_T		pDM_Odm
++	);
++
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm
++#else
++	IN PADAPTER	Adapter
++#endif
++	);
++
++
++
++#define ODM_TARGET_CHNL_NUM_2G_5G	59
++
++
++VOID
++ODM_ResetIQKResult(
++	IN PDM_ODM_T	pDM_Odm 
++);
++u1Byte 
++ODM_GetRightChnlPlaceforIQK(
++    IN u1Byte chnl
++);
++
++VOID odm_IQCalibrate(IN	PDM_ODM_T	pDM_Odm);
++VOID phydm_rf_init(	IN		PDM_ODM_T		pDM_Odm);
++VOID phydm_rf_watchdog(	IN		PDM_ODM_T		pDM_Odm);
++								
++#endif	// #ifndef __HAL_PHY_RF_H__
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/mp_precomp.h b/drivers/net/wireless/rtl8723du/hal/phydm/mp_precomp.h
+new file mode 100644
+index 0000000..2ae8110
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/mp_precomp.h
+@@ -0,0 +1,20 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm.c
+new file mode 100644
+index 0000000..9d9a312
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm.c
+@@ -0,0 +1,2824 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++const u2Byte dB_Invert_Table[12][8] = {
++	{	1,		1,		1,		2,		2,		2,		2,		3},
++	{	3,		3,		4,		4,		4,		5,		6,		6},
++	{	7,		8,		9,		10,		11,		13,		14,		16},
++	{	18,		20,		22,		25,		28,		32,		35,		40},
++	{	45,		50,		56,		63,		71,		79,		89,		100},
++	{	112,		126,		141,		158,		178,		200,		224,		251},
++	{	282,		316,		355,		398,		447,		501,		562,		631},
++	{	708,		794,		891,		1000,	1122,	1259,	1413,	1585},
++	{	1778,	1995,	2239,	2512,	2818,	3162,	3548,	3981},
++	{	4467,	5012,	5623,	6310,	7079,	7943,	8913,	10000},
++	{	11220,	12589,	14125,	15849,	17783,	19953,	22387,	25119},
++	{	28184,	31623,	35481,	39811,	44668,	50119,	56234,	65535}
++};
++
++
++//============================================================
++// Local Function predefine.
++//============================================================
++
++/* START------------COMMON INFO RELATED--------------- */
++
++VOID
++odm_GlobalAdapterCheck(
++	IN		VOID
++	);
++
++//move to odm_PowerTacking.h by YuChen
++
++
++
++VOID
++odm_UpdatePowerTrainingState(
++	IN	PDM_ODM_T	pDM_Odm
++);
++
++//============================================================
++//3 Export Interface
++//============================================================
++
++/*Y = 10*log(X)*/
++s4Byte
++ODM_PWdB_Conversion(
++	IN  s4Byte X,
++	IN  u4Byte TotalBit,
++	IN  u4Byte DecimalBit
++	)
++{
++	s4Byte Y, integer = 0, decimal = 0;
++	u4Byte i;
++
++	if(X == 0)
++		X = 1; // log2(x), x can't be 0
++
++	for(i = (TotalBit-1); i > 0; i--)
++	{
++		if(X & BIT(i))
++		{
++			integer = i;
++			if(i > 0)
++				decimal = (X & BIT(i-1))?2:0; //decimal is 0.5dB*3=1.5dB~=2dB 
++			break;
++		}
++	}
++	
++	Y = 3*(integer-DecimalBit)+decimal; //10*log(x)=3*log2(x), 
++
++	return Y;
++}
++
++s4Byte
++ODM_SignConversion(
++    IN  s4Byte value,
++    IN  u4Byte TotalBit
++    )
++{
++	if(value&BIT(TotalBit-1))
++		value -= BIT(TotalBit);
++	return value;
++}
++
++void
++phydm_seq_sorting( 
++	IN		PVOID	pDM_VOID,
++	IN OUT	u4Byte	*p_value,
++	IN OUT	u4Byte	*rank_idx,
++	IN OUT	u4Byte	*p_idx_out,	
++	IN		u1Byte	seq_length
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte		i = 0 , j = 0;
++	u4Byte		tmp_a, tmp_b;
++	u4Byte		tmp_idx_a, tmp_idx_b;
++
++	for (i = 0; i < seq_length; i++) {
++		rank_idx[i] = i;
++		/**/
++	}
++
++	for (i = 0; i < (seq_length - 1); i++) {
++		
++		for (j = 0; j < (seq_length - 1 - i); j++) {
++		
++			tmp_a = p_value[j];
++			tmp_b = p_value[j+1];
++
++			tmp_idx_a = rank_idx[j];
++			tmp_idx_b = rank_idx[j+1];
++
++			if (tmp_a < tmp_b) {
++				p_value[j] = tmp_b;
++				p_value[j+1] = tmp_a;
++				
++				rank_idx[j] = tmp_idx_b;
++				rank_idx[j+1] = tmp_idx_a;
++			}
++		}		
++	}
++
++	for (i = 0; i < seq_length; i++) {
++		p_idx_out[rank_idx[i]] = i+1;
++		/**/
++	}
++	
++
++	
++}
++
++VOID
++ODM_InitMpDriverStatus(
++	IN		PDM_ODM_T		pDM_Odm
++)
++{
++#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++
++	// Decide when compile time
++	#if(MP_DRIVER == 1)
++	pDM_Odm->mp_mode = TRUE;
++	#else
++	pDM_Odm->mp_mode = FALSE;
++	#endif
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++
++	PADAPTER	Adapter =  pDM_Odm->Adapter;
++
++	// Update information every period
++	pDM_Odm->mp_mode = (BOOLEAN)Adapter->registrypriv.mp_mode;
++
++#else
++
++	prtl8192cd_priv	 priv = pDM_Odm->priv;
++
++	pDM_Odm->mp_mode = (BOOLEAN)priv->pshare->rf_ft_var.mp_specific;
++	
++#endif
++}
++
++VOID
++ODM_UpdateMpDriverStatus(
++	IN		PDM_ODM_T		pDM_Odm
++)
++{
++#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++
++	// Do nothing.
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PADAPTER	Adapter =  pDM_Odm->Adapter;
++
++	// Update information erery period
++	pDM_Odm->mp_mode = (BOOLEAN)Adapter->registrypriv.mp_mode;
++
++#else
++
++	// Do nothing.
++
++#endif
++}
++
++VOID
++PHYDM_InitTRXAntennaSetting(
++	IN		PDM_ODM_T		pDM_Odm
++)
++{
++/*#if (RTL8814A_SUPPORT == 1)*/
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8814A)) {
++		u1Byte	RxAnt = 0, TxAnt = 0;
++
++		RxAnt = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG(BB_RX_PATH, pDM_Odm), ODM_BIT(BB_RX_PATH, pDM_Odm));
++		TxAnt = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG(BB_TX_PATH, pDM_Odm), ODM_BIT(BB_TX_PATH, pDM_Odm));
++		pDM_Odm->TXAntStatus =  (TxAnt & 0xf);
++		pDM_Odm->RXAntStatus =  (RxAnt & 0xf);
++	} else if (pDM_Odm->SupportICType & (ODM_RTL8723D | ODM_RTL8821C)) {
++		pDM_Odm->TXAntStatus = 0x1;
++		pDM_Odm->RXAntStatus = 0x1;
++			
++	}
++/*#endif*/
++}
++
++void
++phydm_traffic_load_decision( 
++	IN		PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T		pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	
++	/*---trafic load decision---*/
++	pDM_Odm->curTxOkCnt =  *(pDM_Odm->pNumTxBytesUnicast) - pDM_Odm->lastTxOkCnt;
++	pDM_Odm->curRxOkCnt =  *(pDM_Odm->pNumRxBytesUnicast) - pDM_Odm->lastRxOkCnt;
++	pDM_Odm->lastTxOkCnt =  *(pDM_Odm->pNumTxBytesUnicast);
++	pDM_Odm->lastRxOkCnt =  *(pDM_Odm->pNumRxBytesUnicast);
++
++	#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	pDM_Odm->tx_tp = ((pDM_Odm->tx_tp)>>1) + (u4Byte)(((pDM_Odm->curTxOkCnt)>>17)>>1); /* <<3(8bit), >>20(10^6,M)*/
++	pDM_Odm->rx_tp = ((pDM_Odm->rx_tp)>>1) + (u4Byte)(((pDM_Odm->curRxOkCnt)>>17)>>1); /* <<3(8bit), >>20(10^6,M)*/
++	#else
++	pDM_Odm->tx_tp = ((pDM_Odm->tx_tp)>>1) + (u4Byte)(((pDM_Odm->curTxOkCnt)>>18)>>1); /* <<3(8bit), >>20(10^6,M), >>1(2sec)*/
++	pDM_Odm->rx_tp = ((pDM_Odm->rx_tp)>>1) + (u4Byte)(((pDM_Odm->curRxOkCnt)>>18)>>1); /* <<3(8bit), >>20(10^6,M), >>1(2sec)*/
++	#endif
++	pDM_Odm->total_tp = pDM_Odm->tx_tp + pDM_Odm->rx_tp; 
++	
++
++	pDM_Odm->pre_TrafficLoad = pDM_Odm->TrafficLoad;
++	
++	if (pDM_Odm->curTxOkCnt > 1875000 || pDM_Odm->curRxOkCnt > 1875000) {		/* ( 1.875M * 8bit ) / 2sec= 7.5M bits /sec )*/
++	
++		pDM_Odm->TrafficLoad = TRAFFIC_HIGH;
++		/**/
++	} else if (pDM_Odm->curTxOkCnt > 500000 || pDM_Odm->curRxOkCnt > 500000) { /*( 0.5M * 8bit ) / 2sec =  2M bits /sec )*/
++	
++		pDM_Odm->TrafficLoad = TRAFFIC_MID;
++		/**/
++	} else if (pDM_Odm->curTxOkCnt > 100000 || pDM_Odm->curRxOkCnt > 100000)  { /*( 0.1M * 8bit ) / 2sec =  0.4M bits /sec )*/
++	
++		pDM_Odm->TrafficLoad = TRAFFIC_LOW;
++		/**/
++	} else {
++	
++		pDM_Odm->TrafficLoad = TRAFFIC_ULTRA_LOW;
++		/**/
++	}
++}
++
++VOID
++phydm_config_ofdm_tx_path(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		u4Byte			path
++)
++{
++	u1Byte	ofdm_rx_path;
++
++	#if (RTL8192E_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & (ODM_RTL8192E)) {
++		
++		if (path == PHYDM_A) {
++			ODM_SetBBReg(pDM_Odm, 0x90c , bMaskDWord, 0x81321311);
++			/**/
++		} else if (path == PHYDM_B) {
++			ODM_SetBBReg(pDM_Odm, 0x90c , bMaskDWord, 0x82321322);
++			/**/
++		} else  if (path == PHYDM_AB) {
++			ODM_SetBBReg(pDM_Odm, 0x90c , bMaskDWord, 0x83321333);
++			/**/
++		}
++		
++		
++	}
++	#endif
++}
++
++VOID
++phydm_config_ofdm_rx_path(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		u4Byte			path
++)
++{
++	u1Byte	ofdm_rx_path = 0;
++
++	#if (RTL8192E_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & (ODM_RTL8192E)) {
++		
++		if (path == PHYDM_A) {
++			ofdm_rx_path = 1;
++			/**/
++		} else if (path == PHYDM_B) {
++			ofdm_rx_path = 2;
++			/**/
++		} else  if (path == PHYDM_AB) {
++			ofdm_rx_path = 3;
++			/**/
++		}
++		
++		ODM_SetBBReg(pDM_Odm, 0xC04 , 0xff, (((ofdm_rx_path)<<4)|ofdm_rx_path));
++		ODM_SetBBReg(pDM_Odm, 0xD04 , 0xf, ofdm_rx_path);
++	}
++	#endif
++}
++
++VOID
++phydm_config_cck_rx_antenna_init(
++	IN		PDM_ODM_T		pDM_Odm
++)
++{
++	#if (RTL8192E_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & (ODM_RTL8192E)) {
++	
++		/*CCK 2R CCA parameters*/
++		ODM_SetBBReg(pDM_Odm, 0xa2c , BIT18, 1); /*enable 2R Rx path*/
++		ODM_SetBBReg(pDM_Odm, 0xa2c , BIT22, 1); /*enable 2R MRC*/
++		ODM_SetBBReg(pDM_Odm, 0xa84 , BIT28, 1); /*1. pdx1[5:0] > 2*PD_lim 2. RXIQ_3 = 0 ( signed )*/
++		ODM_SetBBReg(pDM_Odm, 0xa70 , BIT7, 0); /*Concurrent CCA at LSB & USB*/
++		ODM_SetBBReg(pDM_Odm, 0xa74 , BIT8, 0); /*RX path diversity enable*/
++		ODM_SetBBReg(pDM_Odm, 0xa08 , BIT28, 1); /* r_cck_2nd_sel_eco*/
++		ODM_SetBBReg(pDM_Odm, 0xa14 , BIT7, 0); /* r_en_mrc_antsel*/
++	}
++	#endif
++}
++
++VOID
++phydm_config_cck_rx_path(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		u1Byte			path,
++	IN		u1Byte			path_div_en
++)
++{
++	u1Byte	path_div_select = 0;
++	u1Byte	cck_1_path = 0, cck_2_path = 0;
++
++	#if (RTL8192E_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & (ODM_RTL8192E)) {
++		
++		if (path == PHYDM_A) {
++			path_div_select = 0;
++			cck_1_path = 0;
++			cck_2_path = 0;
++		} else if (path == PHYDM_B) {
++			path_div_select = 0;
++			cck_1_path = 1;
++			cck_2_path = 1;			
++		} else  if (path == PHYDM_AB) {
++		
++			if (path_div_en == CCA_PATHDIV_ENABLE)
++				path_div_select = 1;
++			
++			cck_1_path = 0;
++			cck_2_path = 1;	
++			
++		}
++		
++		ODM_SetBBReg(pDM_Odm, 0xa04 , (BIT27|BIT26), cck_1_path);
++		ODM_SetBBReg(pDM_Odm, 0xa04 , (BIT25|BIT24), cck_2_path);
++		ODM_SetBBReg(pDM_Odm, 0xa74 , BIT8, path_div_select);
++		
++	}
++	#endif
++}
++
++VOID
++phydm_config_trx_path(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte			*_used,
++	OUT		char			*output,
++	IN		u4Byte			*_out_len
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			pre_support_ability;
++	u4Byte used = *_used;
++	u4Byte out_len = *_out_len;
++
++	/* CCK */
++	if (dm_value[0] == 1) { 
++		
++		if (dm_value[1] == 1) { /*TX*/
++			ODM_SetBBReg(pDM_Odm, 0xa04 , 0xf0000000, dm_value[2]);
++			/**/
++		} else if (dm_value[1] == 2) { /*RX*/
++		
++			phydm_config_cck_rx_antenna_init(pDM_Odm);
++			
++			if (dm_value[2] == 1) {
++				phydm_config_cck_rx_path(pDM_Odm, PHYDM_A, CCA_PATHDIV_DISABLE);
++			} else  if (dm_value[2] == 2) {
++				phydm_config_cck_rx_path(pDM_Odm, PHYDM_B, CCA_PATHDIV_DISABLE);
++			} else  if (dm_value[2] == 3) {
++				if (dm_value[3] == 1) /*enable path diversity*/
++					phydm_config_cck_rx_path(pDM_Odm, PHYDM_AB, CCA_PATHDIV_ENABLE);
++				else
++					phydm_config_cck_rx_path(pDM_Odm, PHYDM_B, CCA_PATHDIV_DISABLE);
++			}
++		}
++	} 
++	/* OFDM */
++	else if (dm_value[0] == 1) {
++
++		if (dm_value[1] == 1) { /*TX*/
++			phydm_config_ofdm_tx_path(pDM_Odm, dm_value[2]);
++			/**/
++		} else if (dm_value[1] == 2) { /*RX*/
++			phydm_config_ofdm_rx_path(pDM_Odm, dm_value[2]);
++			/**/
++		}
++	}
++
++	PHYDM_SNPRINTF((output+used, out_len-used, "PHYDM Set Path [%s] [%s] = [%s%s%s%s]\n", 
++		(dm_value[0] == 1) ? "CCK" : "OFDM",
++		(dm_value[1] == 1) ? "TX" : "RX",
++		(dm_value[2] & 0x1)?"A":"",
++		(dm_value[2] & 0x2)?"B":"",
++		(dm_value[2] & 0x4)?"C":"",
++		(dm_value[2] & 0x8)?"D":""
++		));
++		
++}
++
++VOID
++phydm_Init_cck_setting(
++	IN		PDM_ODM_T		pDM_Odm
++)
++{
++	u4Byte value_824,value_82c;
++
++	pDM_Odm->bCckHighPower = (BOOLEAN) ODM_GetBBReg(pDM_Odm, ODM_REG(CCK_RPT_FORMAT,pDM_Odm), ODM_BIT(CCK_RPT_FORMAT,pDM_Odm));
++
++	#if (RTL8192E_SUPPORT == 1)
++	if(pDM_Odm->SupportICType & (ODM_RTL8192E))
++	{
++		#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		phydm_config_cck_rx_antenna_init(pDM_Odm);
++		phydm_config_cck_rx_path(pDM_Odm, PHYDM_A, CCA_PATHDIV_DISABLE);
++		#endif
++	
++		/* 0x824[9] = 0x82C[9] = 0xA80[7]  those registers setting should be equal or CCK RSSI report may be incorrect */
++		value_824 = ODM_GetBBReg(pDM_Odm, 0x824, BIT9);
++		value_82c = ODM_GetBBReg(pDM_Odm, 0x82c, BIT9);
++		
++		if(value_824 != value_82c)
++		{
++			ODM_SetBBReg(pDM_Odm, 0x82c , BIT9, value_824);
++		}
++		ODM_SetBBReg(pDM_Odm, 0xa80 , BIT7, value_824);
++		pDM_Odm->cck_agc_report_type = (BOOLEAN)value_824;
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("cck_agc_report_type = (( %d )), ExtLNAGain = (( %d ))\n", pDM_Odm->cck_agc_report_type, pDM_Odm->ExtLNAGain));
++	}
++	#endif
++	
++#if ((RTL8703B_SUPPORT == 1) || (RTL8723D_SUPPORT == 1))
++	if (pDM_Odm->SupportICType & (ODM_RTL8703B|ODM_RTL8723D)) {
++
++		pDM_Odm->cck_agc_report_type = ODM_GetBBReg(pDM_Odm, 0x950, BIT11) ? 1 : 0; /*1: 4bit LNA , 0: 3bit LNA */
++		
++		if (pDM_Odm->cck_agc_report_type != 1) {
++			DbgPrint("[Warning] 8703B/8723D CCK should be 4bit LNA, ie. 0x950[11] = 1\n");
++			/**/
++		}
++	}
++#endif
++	
++#if ((RTL8723D_SUPPORT == 1) || (RTL8822B_SUPPORT == 1) || (RTL8197F_SUPPORT == 1))
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8723D|ODM_RTL8822B|ODM_RTL8197F)) {
++		pDM_Odm->cck_new_agc = ODM_GetBBReg(pDM_Odm, 0xa9c, BIT17)?TRUE:FALSE;              /*1: new agc  0: old agc*/
++	} else
++#endif
++		pDM_Odm->cck_new_agc = FALSE;
++	
++}
++
++VOID
++PHYDM_InitSoftMLSetting(
++	IN		PDM_ODM_T		pDM_Odm
++)
++{
++#if (RTL8822B_SUPPORT == 1)
++	if (pDM_Odm->mp_mode == FALSE) {
++		if (pDM_Odm->SupportICType & ODM_RTL8822B)
++			ODM_SetBBReg(pDM_Odm, 0x19a8, bMaskDWord, 0xc10a0000);
++	}
++#endif
++}
++
++VOID
++PHYDM_InitHwInfoByRfe(
++	IN		PDM_ODM_T		pDM_Odm
++)
++{
++#if (RTL8822B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		phydm_init_hw_info_by_rfe_type_8822b(pDM_Odm);
++#endif
++}
++
++VOID
++odm_CommonInfoSelfInit(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{
++	phydm_Init_cck_setting(pDM_Odm);
++	pDM_Odm->RFPathRxEnable = (u1Byte) ODM_GetBBReg(pDM_Odm, ODM_REG(BB_RX_PATH,pDM_Odm), ODM_BIT(BB_RX_PATH,pDM_Odm));
++#if (DM_ODM_SUPPORT_TYPE != ODM_CE)	
++	pDM_Odm->pbNet_closed = &pDM_Odm->BOOLEAN_temp;
++#endif
++
++	PHYDM_InitDebugSetting(pDM_Odm);
++	ODM_InitMpDriverStatus(pDM_Odm);
++	PHYDM_InitTRXAntennaSetting(pDM_Odm);
++	PHYDM_InitSoftMLSetting(pDM_Odm);
++
++	pDM_Odm->TxRate = 0xFF;
++
++	pDM_Odm->number_linked_client = 0;
++	pDM_Odm->pre_number_linked_client = 0;
++	pDM_Odm->number_active_client = 0;
++	pDM_Odm->pre_number_active_client = 0;
++
++	pDM_Odm->lastTxOkCnt = 0;
++	pDM_Odm->lastRxOkCnt = 0;
++	pDM_Odm->tx_tp = 0;
++	pDM_Odm->rx_tp = 0;
++	pDM_Odm->total_tp = 0;
++	pDM_Odm->TrafficLoad = TRAFFIC_LOW;
++
++	pDM_Odm->nbi_set_result = 0;
++	
++}
++
++VOID
++odm_CommonInfoSelfUpdate(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{
++	u1Byte	EntryCnt = 0, num_active_client = 0;
++	u4Byte	i, OneEntry_MACID = 0, ma_rx_tp = 0;
++	PSTA_INFO_T   	pEntry;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++	PADAPTER	Adapter =  pDM_Odm->Adapter;
++	PMGNT_INFO	pMgntInfo = &Adapter->MgntInfo;
++
++	pEntry = pDM_Odm->pODM_StaInfo[0];
++	if (pMgntInfo->mAssoc) {
++		pEntry->bUsed = TRUE;
++		for (i = 0; i < 6; i++)
++			pEntry->MacAddr[i] = pMgntInfo->Bssid[i];
++	} else if (GetFirstClientPort(Adapter)) {
++		PADAPTER	pClientAdapter = GetFirstClientPort(Adapter);
++
++		pEntry->bUsed = TRUE;
++		for (i = 0; i < 6; i++)
++			pEntry->MacAddr[i] = pClientAdapter->MgntInfo.Bssid[i];
++	} else {
++		pEntry->bUsed = FALSE;
++		for (i = 0; i < 6; i++)
++			pEntry->MacAddr[i] = 0;
++	}
++
++	//STA mode is linked to AP
++	if(IS_STA_VALID(pDM_Odm->pODM_StaInfo[0]) && !ACTING_AS_AP(Adapter))
++		pDM_Odm->bsta_state = TRUE;
++	else
++		pDM_Odm->bsta_state = FALSE;
++#endif
++
++/* THis variable cannot be used because it is wrong*/
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	if (*(pDM_Odm->pBandWidth) == ODM_BW40M)
++	{
++		if (*(pDM_Odm->pSecChOffset) == 1)
++			pDM_Odm->ControlChannel = *(pDM_Odm->pChannel) + 2;
++		else if (*(pDM_Odm->pSecChOffset) == 2)
++			pDM_Odm->ControlChannel = *(pDM_Odm->pChannel) - 2;
++	} else if (*(pDM_Odm->pBandWidth) == ODM_BW80M)	{
++		if (*(pDM_Odm->pSecChOffset) == 1)
++			pDM_Odm->ControlChannel = *(pDM_Odm->pChannel) + 6;
++		else if (*(pDM_Odm->pSecChOffset) == 2)
++			pDM_Odm->ControlChannel = *(pDM_Odm->pChannel) - 6;
++	} else
++		pDM_Odm->ControlChannel = *(pDM_Odm->pChannel);
++#else
++	if (*(pDM_Odm->pBandWidth) == ODM_BW40M) {
++		if (*(pDM_Odm->pSecChOffset) == 1)
++			pDM_Odm->ControlChannel = *(pDM_Odm->pChannel) - 2;
++		else if (*(pDM_Odm->pSecChOffset) == 2)
++			pDM_Odm->ControlChannel = *(pDM_Odm->pChannel) + 2;
++	} else
++		pDM_Odm->ControlChannel = *(pDM_Odm->pChannel);
++#endif
++
++	for (i=0; i<ODM_ASSOCIATE_ENTRY_NUM; i++)
++	{
++		pEntry = pDM_Odm->pODM_StaInfo[i];
++		if(IS_STA_VALID(pEntry))
++		{
++			EntryCnt++;
++			if(EntryCnt==1)
++			{
++				OneEntry_MACID=i;
++			}
++
++			#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++				ma_rx_tp =  (pEntry->rx_byte_cnt_LowMAW)<<3; /*  low moving average RX  TP   ( bit /sec)*/
++
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("ClientTP[%d]: ((%d )) bit/sec\n", i, ma_rx_tp));
++				
++				if (ma_rx_tp > ACTIVE_TP_THRESHOLD)
++					num_active_client++;
++			#endif
++                }
++	}
++	
++	if(EntryCnt == 1)
++	{
++		pDM_Odm->bOneEntryOnly = TRUE;
++		pDM_Odm->OneEntry_MACID=OneEntry_MACID;
++	}
++	else
++		pDM_Odm->bOneEntryOnly = FALSE;
++
++	pDM_Odm->pre_number_linked_client = pDM_Odm->number_linked_client;
++	pDM_Odm->pre_number_active_client = pDM_Odm->number_active_client;
++	
++	pDM_Odm->number_linked_client = EntryCnt;
++	pDM_Odm->number_active_client = num_active_client;	
++
++	/* Update MP driver status*/
++	ODM_UpdateMpDriverStatus(pDM_Odm);
++
++	/*Traffic load information update*/
++	phydm_traffic_load_decision(pDM_Odm);	
++}
++
++VOID
++odm_CommonInfoSelfReset(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{
++#if( DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	pDM_Odm->PhyDbgInfo.NumQryBeaconPkt = 0;
++#endif
++}
++
++PVOID
++PhyDM_Get_Structure(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		u1Byte			Structure_Type
++)
++
++{
++	PVOID	pStruct = NULL;
++#if RTL8195A_SUPPORT
++	switch (Structure_Type){
++		case	PHYDM_FALSEALMCNT:
++			pStruct = &FalseAlmCnt;
++		break;
++		
++		case	PHYDM_CFOTRACK:
++			pStruct = &DM_CfoTrack;
++		break;
++
++		case	PHYDM_ADAPTIVITY:
++			pStruct = &(pDM_Odm->Adaptivity);
++		break;
++		
++		default:
++		break;
++	}
++
++#else
++	switch (Structure_Type){
++		case	PHYDM_FALSEALMCNT:
++			pStruct = &(pDM_Odm->FalseAlmCnt);
++		break;
++		
++		case	PHYDM_CFOTRACK:
++			pStruct = &(pDM_Odm->DM_CfoTrack);
++		break;
++
++		case	PHYDM_ADAPTIVITY:
++			pStruct = &(pDM_Odm->Adaptivity);
++		break;
++		
++		default:
++		break;
++	}
++
++#endif
++	return	pStruct;
++}
++
++VOID
++odm_HWSetting(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{
++#if (RTL8821A_SUPPORT == 1)
++	if(pDM_Odm->SupportICType & ODM_RTL8821)
++		odm_HWSetting_8821A(pDM_Odm);
++#endif
++
++#if (RTL8814A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		phydm_hwsetting_8814a(pDM_Odm);
++#endif
++
++}
++
++//
++// 2011/09/21 MH Add to describe different team necessary resource allocate??
++//
++VOID
++ODM_DMInit(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++#endif
++
++	odm_CommonInfoSelfInit(pDM_Odm);
++	odm_DIGInit(pDM_Odm);
++	Phydm_NHMCounterStatisticsInit(pDM_Odm);
++	Phydm_AdaptivityInit(pDM_Odm);
++	phydm_ra_info_init(pDM_Odm);
++	odm_RateAdaptiveMaskInit(pDM_Odm);
++	//odm_RA_ParaAdjust_init(pDM_Odm);
++	ODM_CfoTrackingInit(pDM_Odm);
++	ODM_EdcaTurboInit(pDM_Odm);
++	odm_RSSIMonitorInit(pDM_Odm);
++	phydm_rf_init(pDM_Odm);
++	odm_TXPowerTrackingInit(pDM_Odm);
++	odm_AntennaDiversityInit(pDM_Odm);
++	odm_AutoChannelSelectInit(pDM_Odm);
++	odm_PathDiversityInit(pDM_Odm);
++	odm_DynamicTxPowerInit(pDM_Odm);
++	phydm_initRaInfo(pDM_Odm);
++	
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++#ifdef BEAMFORMING_VERSION_1
++	if (pHalData->BeamformingVersion == BEAMFORMING_VERSION_1)
++#endif
++	{
++		phydm_Beamforming_Init(pDM_Odm);
++	}
++#endif	
++
++	if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++	{
++		odm_DynamicBBPowerSavingInit(pDM_Odm);
++
++#if (RTL8188E_SUPPORT == 1)
++		if(pDM_Odm->SupportICType==ODM_RTL8188E)
++		{
++			ODM_PrimaryCCA_Init(pDM_Odm);
++			ODM_RAInfo_Init_all(pDM_Odm);
++		}
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	
++	#if (RTL8723B_SUPPORT == 1)
++		if(pDM_Odm->SupportICType == ODM_RTL8723B)
++			odm_SwAntDetectInit(pDM_Odm);
++	#endif
++
++	#if (RTL8192E_SUPPORT == 1)
++		if(pDM_Odm->SupportICType==ODM_RTL8192E)
++			odm_PrimaryCCA_Check_Init(pDM_Odm);
++	#endif
++
++#endif
++
++	}
++
++}
++
++VOID
++ODM_DMReset(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{
++	pDIG_T pDM_DigTable = &pDM_Odm->DM_DigTable;
++
++	ODM_AntDivReset(pDM_Odm);	
++	phydm_setEDCCAThresholdAPI(pDM_Odm, pDM_DigTable->CurIGValue);
++}
++
++
++VOID
++phydm_support_ability_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte			*_used,
++	OUT		char			*output,
++	IN		u4Byte			*_out_len
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			pre_support_ability;
++	u4Byte used = *_used;
++	u4Byte out_len = *_out_len;
++
++	pre_support_ability = pDM_Odm->SupportAbility ;	
++	PHYDM_SNPRINTF((output+used, out_len-used,"\n%s\n", "================================"));
++	if(dm_value[0] == 100)
++	{
++		PHYDM_SNPRINTF((output+used, out_len-used, "[Supportability] PhyDM Selection\n"));
++		PHYDM_SNPRINTF((output+used, out_len-used,"%s\n", "================================"));
++		PHYDM_SNPRINTF((output+used, out_len-used, "00. (( %s ))DIG\n", ((pDM_Odm->SupportAbility & ODM_BB_DIG)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "01. (( %s ))RA_MASK\n", ((pDM_Odm->SupportAbility & ODM_BB_RA_MASK)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "02. (( %s ))DYNAMIC_TXPWR\n", ((pDM_Odm->SupportAbility & ODM_BB_DYNAMIC_TXPWR)?("V"):("."))));		
++		PHYDM_SNPRINTF((output+used, out_len-used, "03. (( %s ))FA_CNT\n", ((pDM_Odm->SupportAbility & ODM_BB_FA_CNT)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "04. (( %s ))RSSI_MONITOR\n", ((pDM_Odm->SupportAbility & ODM_BB_RSSI_MONITOR)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "05. (( %s ))CCK_PD\n", ((pDM_Odm->SupportAbility & ODM_BB_CCK_PD)?("V"):("."))));	
++		PHYDM_SNPRINTF((output+used, out_len-used, "06. (( %s ))ANT_DIV\n", ((pDM_Odm->SupportAbility & ODM_BB_ANT_DIV)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "08. (( %s ))PWR_TRAIN\n", ((pDM_Odm->SupportAbility & ODM_BB_PWR_TRAIN)?("V"):("."))));	
++		PHYDM_SNPRINTF((output+used, out_len-used, "09. (( %s ))RATE_ADAPTIVE\n", ((pDM_Odm->SupportAbility & ODM_BB_RATE_ADAPTIVE)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "10. (( %s ))PATH_DIV\n", ((pDM_Odm->SupportAbility & ODM_BB_PATH_DIV)?("V"):(".")))); 
++		PHYDM_SNPRINTF((output+used, out_len-used, "13. (( %s ))ADAPTIVITY\n", ((pDM_Odm->SupportAbility & ODM_BB_ADAPTIVITY)?("V"):("."))));	
++		PHYDM_SNPRINTF((output+used, out_len-used, "14. (( %s ))CFO_TRACKING\n", ((pDM_Odm->SupportAbility & ODM_BB_CFO_TRACKING)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "15. (( %s ))NHM_CNT\n", ((pDM_Odm->SupportAbility & ODM_BB_NHM_CNT)?("V"):("."))));	
++		PHYDM_SNPRINTF((output+used, out_len-used, "16. (( %s ))PRIMARY_CCA\n", ((pDM_Odm->SupportAbility & ODM_BB_PRIMARY_CCA)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "17. (( %s ))TXBF\n", ((pDM_Odm->SupportAbility & ODM_BB_TXBF)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "18. (( %s ))DYNAMIC_ARFR\n", ((pDM_Odm->SupportAbility & ODM_BB_DYNAMIC_ARFR)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "20. (( %s ))EDCA_TURBO\n", ((pDM_Odm->SupportAbility & ODM_MAC_EDCA_TURBO)?("V"):("."))));	
++		PHYDM_SNPRINTF((output+used, out_len-used, "21. (( %s ))EARLY_MODE\n", ((pDM_Odm->SupportAbility & ODM_MAC_EARLY_MODE)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "24. (( %s ))TX_PWR_TRACK\n", ((pDM_Odm->SupportAbility & ODM_RF_TX_PWR_TRACK)?("V"):("."))));	
++		PHYDM_SNPRINTF((output+used, out_len-used, "25. (( %s ))RX_GAIN_TRACK\n", ((pDM_Odm->SupportAbility & ODM_RF_RX_GAIN_TRACK)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "26. (( %s ))RF_CALIBRATION\n", ((pDM_Odm->SupportAbility & ODM_RF_CALIBRATION)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used,"%s\n", "================================"));
++	}
++	/*
++	else if(dm_value[0] == 101)
++	{
++		pDM_Odm->SupportAbility = 0 ;
++		DbgPrint("Disable all SupportAbility components \n");
++		PHYDM_SNPRINTF((output+used, out_len-used,"%s\n", "Disable all SupportAbility components"));	
++	}
++	*/
++	else
++	{
++
++		if(dm_value[1] == 1) //enable
++		{
++			pDM_Odm->SupportAbility |= BIT(dm_value[0]) ;
++			if(BIT(dm_value[0]) & ODM_BB_PATH_DIV)
++			{
++				odm_PathDiversityInit(pDM_Odm);
++			}
++		}
++		else if(dm_value[1] == 2) //disable
++		{
++			pDM_Odm->SupportAbility &= ~(BIT(dm_value[0])) ;
++		}
++		else
++		{
++			//DbgPrint("\n[Warning!!!]  1:enable,  2:disable \n\n");
++			PHYDM_SNPRINTF((output+used, out_len-used,"%s\n", "[Warning!!!]  1:enable,  2:disable"));
++		}
++	}
++	PHYDM_SNPRINTF((output+used, out_len-used,"pre-SupportAbility  =  0x%x\n",  pre_support_ability ));	
++	PHYDM_SNPRINTF((output+used, out_len-used,"Curr-SupportAbility =  0x%x\n", pDM_Odm->SupportAbility ));
++	PHYDM_SNPRINTF((output+used, out_len-used,"%s\n", "================================"));
++}
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++//
++//tmp modify for LC Only
++//
++VOID
++ODM_DMWatchdog_LPS(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{	
++	odm_CommonInfoSelfUpdate(pDM_Odm);
++	odm_FalseAlarmCounterStatistics(pDM_Odm);
++	odm_RSSIMonitorCheck(pDM_Odm);
++	odm_DIGbyRSSI_LPS(pDM_Odm);	
++	odm_CCKPacketDetectionThresh(pDM_Odm);
++	odm_CommonInfoSelfReset(pDM_Odm);
++
++	if(*(pDM_Odm->pbPowerSaving)==TRUE)
++		return;
++}
++#endif
++//
++// 2011/09/20 MH This is the entry pointer for all team to execute HW out source DM.
++// You can not add any dummy function here, be care, you can only use DM structure
++// to perform any new ODM_DM.
++//
++VOID
++ODM_DMWatchdog(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{
++	odm_CommonInfoSelfUpdate(pDM_Odm);
++	phydm_BasicDbgMessage(pDM_Odm);
++	odm_HWSetting(pDM_Odm);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	{
++	prtl8192cd_priv priv		= pDM_Odm->priv;
++	if( (priv->auto_channel != 0) && (priv->auto_channel != 2) )//if ACS running, do not do FA/CCA counter read
++		return;
++	}
++#endif	
++	odm_FalseAlarmCounterStatistics(pDM_Odm);
++	phydm_NoisyDetection(pDM_Odm);
++	
++	odm_RSSIMonitorCheck(pDM_Odm);
++
++	if(*(pDM_Odm->pbPowerSaving) == TRUE)
++	{
++		odm_DIGbyRSSI_LPS(pDM_Odm);
++		{
++			pDIG_T	pDM_DigTable = &pDM_Odm->DM_DigTable;
++			Phydm_Adaptivity(pDM_Odm, pDM_DigTable->CurIGValue);
++		}
++		#if (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++		odm_AntennaDiversity(pDM_Odm); /*enable AntDiv in PS mode, request from SD4 Jeff*/
++		#endif
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD, ("DMWatchdog in power saving mode\n"));
++		return;
++	}
++	
++	Phydm_CheckAdaptivity(pDM_Odm);
++	odm_UpdatePowerTrainingState(pDM_Odm);
++	odm_DIG(pDM_Odm);
++	{
++		pDIG_T	pDM_DigTable = &pDM_Odm->DM_DigTable;
++		Phydm_Adaptivity(pDM_Odm, pDM_DigTable->CurIGValue);
++	}
++	odm_CCKPacketDetectionThresh(pDM_Odm);
++	
++	phydm_ra_info_watchdog(pDM_Odm);
++	odm_EdcaTurboCheck(pDM_Odm);
++	odm_PathDiversity(pDM_Odm);
++	ODM_CfoTracking(pDM_Odm);
++	odm_DynamicTxPower(pDM_Odm);
++	odm_AntennaDiversity(pDM_Odm);
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++	phydm_Beamforming_Watchdog(pDM_Odm);
++#endif
++
++	phydm_rf_watchdog(pDM_Odm);
++
++	if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++	{
++	        
++#if (RTL8188E_SUPPORT == 1)
++		if (pDM_Odm->SupportICType == ODM_RTL8188E)
++			ODM_DynamicPrimaryCCA(pDM_Odm);
++#endif
++
++#if( DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++
++	#if (RTL8192E_SUPPORT == 1)
++		if(pDM_Odm->SupportICType==ODM_RTL8192E)
++			odm_DynamicPrimaryCCA_Check(pDM_Odm); 
++	#endif
++#endif
++	}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	odm_dtc(pDM_Odm);
++#endif
++
++	odm_CommonInfoSelfReset(pDM_Odm);
++	
++}
++
++
++//
++// Init /.. Fixed HW value. Only init time.
++//
++VOID
++ODM_CmnInfoInit(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		ODM_CMNINFO_E	CmnInfo,
++	IN		u4Byte			Value	
++	)
++{
++	//
++	// This section is used for init value
++	//
++	switch	(CmnInfo)
++	{
++		//
++		// Fixed ODM value.
++		//
++		case	ODM_CMNINFO_ABILITY:
++			pDM_Odm->SupportAbility = (u4Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_RF_TYPE:
++			pDM_Odm->RFType = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_PLATFORM:
++			pDM_Odm->SupportPlatform = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_INTERFACE:
++			pDM_Odm->SupportInterface = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_MP_TEST_CHIP:
++			pDM_Odm->bIsMPChip= (u1Byte)Value;
++			break;
++            
++		case	ODM_CMNINFO_IC_TYPE:
++			pDM_Odm->SupportICType = Value;
++			break;
++
++		case	ODM_CMNINFO_CUT_VER:
++			pDM_Odm->CutVersion = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_FAB_VER:
++			pDM_Odm->FabVersion = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_RFE_TYPE:
++			pDM_Odm->RFEType = (u1Byte)Value;
++			PHYDM_InitHwInfoByRfe(pDM_Odm);
++			break;
++
++		case    ODM_CMNINFO_RF_ANTENNA_TYPE:
++			pDM_Odm->AntDivType= (u1Byte)Value;
++			break;
++			
++		case    ODM_CMNINFO_BE_FIX_TX_ANT:
++			pDM_Odm->DM_FatTable.b_fix_tx_ant = (u1Byte)Value;
++			break;	
++
++		case	ODM_CMNINFO_WITH_EXT_ANTENNA_SWITCH:
++			pDM_Odm->with_extenal_ant_switch = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_BOARD_TYPE:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->BoardType = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_PACKAGE_TYPE:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->PackageType = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_EXT_LNA:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->ExtLNA = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_5G_EXT_LNA:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->ExtLNA5G = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_EXT_PA:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->ExtPA = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_5G_EXT_PA:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->ExtPA5G = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_GPA:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->TypeGPA = (u2Byte)Value;
++			break;
++			
++		case	ODM_CMNINFO_APA:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->TypeAPA = (u2Byte)Value;
++			break;
++			
++		case	ODM_CMNINFO_GLNA:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->TypeGLNA = (u2Byte)Value;
++			break;
++			
++		case	ODM_CMNINFO_ALNA:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->TypeALNA = (u2Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_EXT_TRSW:
++			pDM_Odm->ExtTRSW = (u1Byte)Value;
++			break;
++		case	ODM_CMNINFO_EXT_LNA_GAIN:
++			pDM_Odm->ExtLNAGain = (u1Byte)Value;
++			break;
++		case 	ODM_CMNINFO_PATCH_ID:
++			pDM_Odm->PatchID = (u1Byte)Value;
++			break;
++		case 	ODM_CMNINFO_BINHCT_TEST:
++			pDM_Odm->bInHctTest = (BOOLEAN)Value;
++			break;
++		case 	ODM_CMNINFO_BWIFI_TEST:
++			pDM_Odm->WIFITest = (u1Byte)Value;
++			break;	
++		case	ODM_CMNINFO_SMART_CONCURRENT:
++			pDM_Odm->bDualMacSmartConcurrent = (BOOLEAN )Value;
++			break;
++		case	ODM_CMNINFO_DOMAIN_CODE_2G:
++			pDM_Odm->odm_Regulation2_4G = (u1Byte)Value;
++			break;
++		case	ODM_CMNINFO_DOMAIN_CODE_5G:
++			pDM_Odm->odm_Regulation5G = (u1Byte)Value;
++			break;
++		case	ODM_CMNINFO_CONFIG_BB_RF:
++			pDM_Odm->ConfigBBRF = (BOOLEAN)Value;
++			break;
++		case	ODM_CMNINFO_IQKFWOFFLOAD:
++			pDM_Odm->IQKFWOffload = (u1Byte)Value;
++			break;
++		case	ODM_CMNINFO_IQKPAOFF:
++			pDM_Odm->RFCalibrateInfo.bIQKPAoff = (BOOLEAN )Value;
++			break;
++		case	ODM_CMNINFO_REGRFKFREEENABLE:
++			pDM_Odm->RFCalibrateInfo.RegRfKFreeEnable = (u1Byte)Value;
++			break;
++		case	ODM_CMNINFO_RFKFREEENABLE:
++			pDM_Odm->RFCalibrateInfo.RfKFreeEnable = (u1Byte)Value;
++			break;
++#ifdef CONFIG_PHYDM_DFS_MASTER
++		case	ODM_CMNINFO_DFS_REGION_DOMAIN:
++			pDM_Odm->DFS_RegionDomain = (u1Byte)Value;
++			break;
++#endif
++		//To remove the compiler warning, must add an empty default statement to handle the other values.	
++		default:
++			//do nothing
++			break;	
++		
++	}
++
++}
++
++
++VOID
++ODM_CmnInfoHook(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		ODM_CMNINFO_E	CmnInfo,
++	IN		PVOID			pValue	
++	)
++{
++	//
++	// Hook call by reference pointer.
++	//
++	switch	(CmnInfo)
++	{
++		//
++		// Dynamic call by reference pointer.
++		//
++		case	ODM_CMNINFO_MAC_PHY_MODE:
++			pDM_Odm->pMacPhyMode = (u1Byte *)pValue;
++			break;
++		
++		case	ODM_CMNINFO_TX_UNI:
++			pDM_Odm->pNumTxBytesUnicast = (u8Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_RX_UNI:
++			pDM_Odm->pNumRxBytesUnicast = (u8Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_WM_MODE:
++			pDM_Odm->pWirelessMode = (u1Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_BAND:
++			pDM_Odm->pBandType = (u1Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_SEC_CHNL_OFFSET:
++			pDM_Odm->pSecChOffset = (u1Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_SEC_MODE:
++			pDM_Odm->pSecurity = (u1Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_BW:
++			pDM_Odm->pBandWidth = (u1Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_CHNL:
++			pDM_Odm->pChannel = (u1Byte *)pValue;
++			break;
++		
++		case	ODM_CMNINFO_DMSP_GET_VALUE:
++			pDM_Odm->pbGetValueFromOtherMac = (BOOLEAN *)pValue;
++			break;
++
++		case	ODM_CMNINFO_BUDDY_ADAPTOR:
++			pDM_Odm->pBuddyAdapter = (PADAPTER *)pValue;
++			break;
++
++		case	ODM_CMNINFO_DMSP_IS_MASTER:
++			pDM_Odm->pbMasterOfDMSP = (BOOLEAN *)pValue;
++			break;
++
++		case	ODM_CMNINFO_SCAN:
++			pDM_Odm->pbScanInProcess = (BOOLEAN *)pValue;
++			break;
++
++		case	ODM_CMNINFO_POWER_SAVING:
++			pDM_Odm->pbPowerSaving = (BOOLEAN *)pValue;
++			break;
++
++		case	ODM_CMNINFO_ONE_PATH_CCA:
++			pDM_Odm->pOnePathCCA = (u1Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_DRV_STOP:
++			pDM_Odm->pbDriverStopped =  (BOOLEAN *)pValue;
++			break;
++
++		case	ODM_CMNINFO_PNP_IN:
++			pDM_Odm->pbDriverIsGoingToPnpSetPowerSleep =  (BOOLEAN *)pValue;
++			break;
++
++		case	ODM_CMNINFO_INIT_ON:
++			pDM_Odm->pinit_adpt_in_progress =  (BOOLEAN *)pValue;
++			break;
++
++		case	ODM_CMNINFO_ANT_TEST:
++			pDM_Odm->pAntennaTest =  (u1Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_NET_CLOSED:
++			pDM_Odm->pbNet_closed = (BOOLEAN *)pValue;
++			break;
++
++		case 	ODM_CMNINFO_FORCED_RATE:
++			pDM_Odm->pForcedDataRate = (pu2Byte)pValue;
++			break;
++
++		case  ODM_CMNINFO_FORCED_IGI_LB:
++			pDM_Odm->pu1ForcedIgiLb = (u1Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_P2P_LINK:
++			pDM_Odm->DM_DigTable.bP2PInProcess = (u1Byte *)pValue;
++			break;
++
++		case 	ODM_CMNINFO_IS1ANTENNA:
++			pDM_Odm->pIs1Antenna = (BOOLEAN *)pValue;
++			break;
++			
++		case 	ODM_CMNINFO_RFDEFAULTPATH:
++			pDM_Odm->pRFDefaultPath= (u1Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_FCS_MODE:
++			pDM_Odm->pIsFcsModeEnable = (BOOLEAN *)pValue;
++			break;
++		/*add by YuChen for beamforming PhyDM*/
++		case	ODM_CMNINFO_HUBUSBMODE:
++			pDM_Odm->HubUsbMode = (u1Byte *)pValue;
++			break;
++		case	ODM_CMNINFO_FWDWRSVDPAGEINPROGRESS:
++			pDM_Odm->pbFwDwRsvdPageInProgress = (BOOLEAN *)pValue;
++			break;
++		case	ODM_CMNINFO_TX_TP:
++			pDM_Odm->pCurrentTxTP = (u4Byte *)pValue;
++			break;
++		case	ODM_CMNINFO_RX_TP:
++			pDM_Odm->pCurrentRxTP = (u4Byte *)pValue;
++			break;
++		case	ODM_CMNINFO_SOUNDING_SEQ:
++			pDM_Odm->pSoundingSeq = (u1Byte *)pValue;
++			break;
++#ifdef CONFIG_PHYDM_DFS_MASTER
++		case	ODM_CMNINFO_DFS_MASTER_ENABLE:
++			pDM_Odm->dfs_master_enabled = (u1Byte *)pValue;
++			break;
++#endif
++		case	ODM_CMNINFO_FORCE_TX_ANT_BY_TXDESC:
++			pDM_Odm->DM_FatTable.pForceTxAntByDesc = (u1Byte *)pValue;
++			break;
++		//case	ODM_CMNINFO_RTSTA_AID:
++		//	pDM_Odm->pAidMap =  (u1Byte *)pValue;
++		//	break;
++
++		//case	ODM_CMNINFO_BT_COEXIST:
++		//	pDM_Odm->BTCoexist = (BOOLEAN *)pValue;		
++
++		//case	ODM_CMNINFO_STA_STATUS:
++			//pDM_Odm->pODM_StaInfo[] = (PSTA_INFO_T)pValue;
++			//break;
++
++		//case	ODM_CMNINFO_PHY_STATUS:
++		//	pDM_Odm->pPhyInfo = (ODM_PHY_INFO *)pValue;
++		//	break;
++
++		//case	ODM_CMNINFO_MAC_STATUS:
++		//	pDM_Odm->pMacInfo = (ODM_MAC_INFO *)pValue;
++		//	break;
++		//To remove the compiler warning, must add an empty default statement to handle the other values.				
++		default:
++			//do nothing
++			break;
++
++	}
++
++}
++
++
++VOID
++ODM_CmnInfoPtrArrayHook(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		ODM_CMNINFO_E	CmnInfo,
++	IN		u2Byte			Index,
++	IN		PVOID			pValue	
++	)
++{
++	//
++	// Hook call by reference pointer.
++	//
++	switch	(CmnInfo)
++	{
++		//
++		// Dynamic call by reference pointer.
++		//		
++		case	ODM_CMNINFO_STA_STATUS:
++			pDM_Odm->pODM_StaInfo[Index] = (PSTA_INFO_T)pValue;
++			
++			if (IS_STA_VALID(pDM_Odm->pODM_StaInfo[Index]))
++			#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++				pDM_Odm->platform2phydm_macid_table[((PSTA_INFO_T)pValue)->AssociatedMacId] = Index; /*AssociatedMacId are unique bttween different Adapter*/
++			#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++				pDM_Odm->platform2phydm_macid_table[((PSTA_INFO_T)pValue)->aid] = Index;
++			#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++				pDM_Odm->platform2phydm_macid_table[((PSTA_INFO_T)pValue)->mac_id] = Index;
++			#endif
++			
++			break;		
++		//To remove the compiler warning, must add an empty default statement to handle the other values.				
++		default:
++			//do nothing
++			break;
++	}
++	
++}
++
++
++//
++// Update Band/CHannel/.. The values are dynamic but non-per-packet.
++//
++VOID
++ODM_CmnInfoUpdate(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		u4Byte			CmnInfo,
++	IN		u8Byte			Value	
++	)
++{
++	//
++	// This init variable may be changed in run time.
++	//
++	switch	(CmnInfo)
++	{
++		case ODM_CMNINFO_LINK_IN_PROGRESS:
++			pDM_Odm->bLinkInProcess = (BOOLEAN)Value;
++			break;
++		
++		case	ODM_CMNINFO_ABILITY:
++			pDM_Odm->SupportAbility = (u4Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_RF_TYPE:
++			pDM_Odm->RFType = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_WIFI_DIRECT:
++			pDM_Odm->bWIFI_Direct = (BOOLEAN)Value;
++			break;
++
++		case	ODM_CMNINFO_WIFI_DISPLAY:
++			pDM_Odm->bWIFI_Display = (BOOLEAN)Value;
++			break;
++
++		case	ODM_CMNINFO_LINK:
++			pDM_Odm->bLinked = (BOOLEAN)Value;
++			break;
++
++		case	ODM_CMNINFO_STATION_STATE:
++			pDM_Odm->bsta_state = (BOOLEAN)Value;
++			break;
++			
++		case	ODM_CMNINFO_RSSI_MIN:
++			pDM_Odm->RSSI_Min= (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_DBG_COMP:
++			pDM_Odm->DebugComponents = (u4Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_DBG_LEVEL:
++			pDM_Odm->DebugLevel = (u4Byte)Value;
++			break;
++		case	ODM_CMNINFO_RA_THRESHOLD_HIGH:
++			pDM_Odm->RateAdaptive.HighRSSIThresh = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_RA_THRESHOLD_LOW:
++			pDM_Odm->RateAdaptive.LowRSSIThresh = (u1Byte)Value;
++			break;
++#if defined(BT_SUPPORT) && (BT_SUPPORT == 1)
++		// The following is for BT HS mode and BT coexist mechanism.
++		case ODM_CMNINFO_BT_ENABLED:
++			pDM_Odm->bBtEnabled = (BOOLEAN)Value;
++			break;
++			
++		case ODM_CMNINFO_BT_HS_CONNECT_PROCESS:
++			pDM_Odm->bBtConnectProcess = (BOOLEAN)Value;
++			break;
++		
++		case ODM_CMNINFO_BT_HS_RSSI:
++			pDM_Odm->btHsRssi = (u1Byte)Value;
++			break;
++			
++		case	ODM_CMNINFO_BT_OPERATION:
++			pDM_Odm->bBtHsOperation = (BOOLEAN)Value;
++			break;
++
++		case	ODM_CMNINFO_BT_LIMITED_DIG:
++			pDM_Odm->bBtLimitedDig = (BOOLEAN)Value;
++			break;	
++
++		case ODM_CMNINFO_BT_DIG:
++			pDM_Odm->btHsDigVal = (u1Byte)Value;
++			break;
++			
++		case	ODM_CMNINFO_BT_BUSY:
++			pDM_Odm->bBtBusy = (BOOLEAN)Value;
++			break;	
++
++		case	ODM_CMNINFO_BT_DISABLE_EDCA:
++			pDM_Odm->bBtDisableEdcaTurbo = (BOOLEAN)Value;
++			break;
++#endif
++
++#if(DM_ODM_SUPPORT_TYPE & ODM_AP)		// for repeater mode add by YuChen 2014.06.23
++#ifdef UNIVERSAL_REPEATER
++		case	ODM_CMNINFO_VXD_LINK:
++			pDM_Odm->VXD_bLinked= (BOOLEAN)Value;
++			break;
++#endif
++#endif
++
++		case	ODM_CMNINFO_AP_TOTAL_NUM:
++			pDM_Odm->APTotalNum = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_POWER_TRAINING:
++			pDM_Odm->bDisablePowerTraining = (BOOLEAN)Value;
++			break;
++
++#ifdef CONFIG_PHYDM_DFS_MASTER
++		case	ODM_CMNINFO_DFS_REGION_DOMAIN:
++			pDM_Odm->DFS_RegionDomain = (u1Byte)Value;
++			break;
++#endif
++
++/*
++		case	ODM_CMNINFO_OP_MODE:
++			pDM_Odm->OPMode = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_WM_MODE:
++			pDM_Odm->WirelessMode = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_BAND:
++			pDM_Odm->BandType = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_SEC_CHNL_OFFSET:
++			pDM_Odm->SecChOffset = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_SEC_MODE:
++			pDM_Odm->Security = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_BW:
++			pDM_Odm->BandWidth = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_CHNL:
++			pDM_Odm->Channel = (u1Byte)Value;
++			break;			
++*/	
++                default:
++			//do nothing
++			break;
++	}
++
++	
++}
++
++u4Byte
++PHYDM_CmnInfoQuery(
++	IN		PDM_ODM_T					pDM_Odm,
++	IN		PHYDM_INFO_QUERY_E			info_type
++	)
++{
++	PFALSE_ALARM_STATISTICS	FalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_FALSEALMCNT);
++
++	switch (info_type) {
++	case PHYDM_INFO_FA_OFDM:
++		return FalseAlmCnt->Cnt_Ofdm_fail;
++			
++	case PHYDM_INFO_FA_CCK:
++		return FalseAlmCnt->Cnt_Cck_fail;
++
++	case PHYDM_INFO_FA_TOTAL:
++		return FalseAlmCnt->Cnt_all;
++
++	case PHYDM_INFO_CCA_OFDM:
++		return FalseAlmCnt->Cnt_OFDM_CCA;
++
++	case PHYDM_INFO_CCA_CCK:
++		return FalseAlmCnt->Cnt_CCK_CCA;
++
++	case PHYDM_INFO_CCA_ALL:
++		return FalseAlmCnt->Cnt_CCA_all;
++
++	case PHYDM_INFO_CRC32_OK_VHT:
++		return FalseAlmCnt->cnt_vht_crc32_ok;
++
++	case PHYDM_INFO_CRC32_OK_HT:
++		return FalseAlmCnt->cnt_ht_crc32_ok;
++
++	case PHYDM_INFO_CRC32_OK_LEGACY:
++		return FalseAlmCnt->cnt_ofdm_crc32_ok;
++
++	case PHYDM_INFO_CRC32_OK_CCK:
++		return FalseAlmCnt->cnt_cck_crc32_ok;
++
++	case PHYDM_INFO_CRC32_ERROR_VHT:
++		return FalseAlmCnt->cnt_vht_crc32_error;
++
++	case PHYDM_INFO_CRC32_ERROR_HT:
++		return FalseAlmCnt->cnt_ht_crc32_error;
++
++	case PHYDM_INFO_CRC32_ERROR_LEGACY:
++		return FalseAlmCnt->cnt_ofdm_crc32_error;
++
++	case PHYDM_INFO_CRC32_ERROR_CCK:
++		return FalseAlmCnt->cnt_cck_crc32_error;
++
++	case PHYDM_INFO_EDCCA_FLAG:
++		return FalseAlmCnt->edcca_flag;
++
++	case PHYDM_INFO_OFDM_ENABLE:
++		return FalseAlmCnt->ofdm_block_enable;
++
++	case PHYDM_INFO_CCK_ENABLE:
++		return FalseAlmCnt->cck_block_enable;
++
++	case PHYDM_INFO_DBG_PORT_0:
++		return FalseAlmCnt->dbg_port0;
++
++	default:
++		return 0xffffffff;
++		
++	}
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++ODM_InitAllWorkItems(IN PDM_ODM_T	pDM_Odm )
++{
++
++	PADAPTER		pAdapter = pDM_Odm->Adapter;
++#if USE_WORKITEM
++	#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++	ODM_InitializeWorkItem(	pDM_Odm, 
++							&pDM_Odm->DM_SWAT_Table.phydm_SwAntennaSwitchWorkitem, 
++							(RT_WORKITEM_CALL_BACK)ODM_SW_AntDiv_WorkitemCallback,
++							(PVOID)pAdapter,
++							"AntennaSwitchWorkitem");
++	#endif
++	#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++	ODM_InitializeWorkItem(pDM_Odm, 
++						&pDM_Odm->dm_sat_table.hl_smart_antenna_workitem, 
++						(RT_WORKITEM_CALL_BACK)phydm_beam_switch_workitem_callback,
++						(PVOID)pAdapter,
++						"hl_smart_ant_workitem");
++
++	ODM_InitializeWorkItem(pDM_Odm, 
++						&pDM_Odm->dm_sat_table.hl_smart_antenna_decision_workitem, 
++						(RT_WORKITEM_CALL_BACK)phydm_beam_decision_workitem_callback,
++						(PVOID)pAdapter,
++						"hl_smart_ant_decision_workitem");
++	#endif
++	
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->PathDivSwitchWorkitem), 
++		(RT_WORKITEM_CALL_BACK)odm_PathDivChkAntSwitchWorkitemCallback, 
++		(PVOID)pAdapter,
++		"SWAS_WorkItem");
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->CCKPathDiversityWorkitem), 
++		(RT_WORKITEM_CALL_BACK)odm_CCKTXPathDiversityWorkItemCallback, 
++		(PVOID)pAdapter,
++		"CCKTXPathDiversityWorkItem");
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->MPT_DIGWorkitem), 
++		(RT_WORKITEM_CALL_BACK)odm_MPT_DIGWorkItemCallback, 
++		(PVOID)pAdapter,
++		"MPT_DIGWorkitem");
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->RaRptWorkitem), 
++		(RT_WORKITEM_CALL_BACK)ODM_UpdateInitRateWorkItemCallback, 
++		(PVOID)pAdapter,
++		"RaRptWorkitem");
++
++#if( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->FastAntTrainingWorkitem), 
++		(RT_WORKITEM_CALL_BACK)odm_FastAntTrainingWorkItemCallback, 
++		(PVOID)pAdapter,
++		"FastAntTrainingWorkitem");
++#endif
++
++#endif /*#if USE_WORKITEM*/
++
++#if (BEAMFORMING_SUPPORT == 1)
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_EnterWorkItem),
++		(RT_WORKITEM_CALL_BACK)halComTxbf_EnterWorkItemCallback,
++		(PVOID)pAdapter,
++		"Txbf_EnterWorkItem");
++	
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_LeaveWorkItem),
++		(RT_WORKITEM_CALL_BACK)halComTxbf_LeaveWorkItemCallback,
++		(PVOID)pAdapter,
++		"Txbf_LeaveWorkItem");
++	
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_FwNdpaWorkItem),
++		(RT_WORKITEM_CALL_BACK)halComTxbf_FwNdpaWorkItemCallback,
++		(PVOID)pAdapter,
++		"Txbf_FwNdpaWorkItem");
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_ClkWorkItem),
++		(RT_WORKITEM_CALL_BACK)halComTxbf_ClkWorkItemCallback,
++		(PVOID)pAdapter,
++		"Txbf_ClkWorkItem");
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_RateWorkItem),
++		(RT_WORKITEM_CALL_BACK)halComTxbf_RateWorkItemCallback,
++		(PVOID)pAdapter,
++		"Txbf_RateWorkItem");
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_StatusWorkItem),
++		(RT_WORKITEM_CALL_BACK)halComTxbf_StatusWorkItemCallback,
++		(PVOID)pAdapter,
++		"Txbf_StatusWorkItem");
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_ResetTxPathWorkItem),
++		(RT_WORKITEM_CALL_BACK)halComTxbf_ResetTxPathWorkItemCallback,
++		(PVOID)pAdapter,
++		"Txbf_ResetTxPathWorkItem");
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_GetTxRateWorkItem),
++		(RT_WORKITEM_CALL_BACK)halComTxbf_GetTxRateWorkItemCallback,
++		(PVOID)pAdapter,
++		"Txbf_GetTxRateWorkItem");
++#endif
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->Adaptivity.phydm_pauseEDCCAWorkItem),
++		(RT_WORKITEM_CALL_BACK)phydm_pauseEDCCA_WorkItemCallback,
++		(PVOID)pAdapter,
++		"phydm_pauseEDCCAWorkItem");
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->Adaptivity.phydm_resumeEDCCAWorkItem),
++		(RT_WORKITEM_CALL_BACK)phydm_resumeEDCCA_WorkItemCallback,
++		(PVOID)pAdapter,
++		"phydm_resumeEDCCAWorkItem");
++
++}
++
++VOID
++ODM_FreeAllWorkItems(IN PDM_ODM_T	pDM_Odm )
++{
++#if USE_WORKITEM
++
++#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++	ODM_FreeWorkItem(&(pDM_Odm->DM_SWAT_Table.phydm_SwAntennaSwitchWorkitem));
++#endif
++
++#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++	ODM_FreeWorkItem(&(pDM_Odm->dm_sat_table.hl_smart_antenna_workitem));
++	ODM_FreeWorkItem(&(pDM_Odm->dm_sat_table.hl_smart_antenna_decision_workitem));
++#endif
++
++	ODM_FreeWorkItem(&(pDM_Odm->PathDivSwitchWorkitem));      
++	ODM_FreeWorkItem(&(pDM_Odm->CCKPathDiversityWorkitem));
++#if (defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY)) || (defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY))
++	ODM_FreeWorkItem(&(pDM_Odm->FastAntTrainingWorkitem));
++#endif
++	ODM_FreeWorkItem(&(pDM_Odm->MPT_DIGWorkitem));
++	ODM_FreeWorkItem(&(pDM_Odm->RaRptWorkitem));
++	/*ODM_FreeWorkItem((&pDM_Odm->sbdcnt_workitem));*/
++#endif
++
++#if (BEAMFORMING_SUPPORT == 1)
++	ODM_FreeWorkItem((&pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_EnterWorkItem));
++	ODM_FreeWorkItem((&pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_LeaveWorkItem));
++	ODM_FreeWorkItem((&pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_FwNdpaWorkItem));
++	ODM_FreeWorkItem((&pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_ClkWorkItem));
++	ODM_FreeWorkItem((&pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_RateWorkItem));
++	ODM_FreeWorkItem((&pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_StatusWorkItem));
++	ODM_FreeWorkItem((&pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_ResetTxPathWorkItem));
++	ODM_FreeWorkItem((&pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_GetTxRateWorkItem));
++#endif
++
++	ODM_FreeWorkItem((&pDM_Odm->Adaptivity.phydm_pauseEDCCAWorkItem));
++	ODM_FreeWorkItem((&pDM_Odm->Adaptivity.phydm_resumeEDCCAWorkItem));
++
++}
++#endif /*#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)*/
++
++/*
++VOID
++odm_FindMinimumRSSI(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{
++	u4Byte	i;
++	u1Byte	RSSI_Min = 0xFF;
++
++	for(i=0; i<ODM_ASSOCIATE_ENTRY_NUM; i++)
++	{
++//		if(pDM_Odm->pODM_StaInfo[i] != NULL)
++		if(IS_STA_VALID(pDM_Odm->pODM_StaInfo[i]) )
++		{
++			if(pDM_Odm->pODM_StaInfo[i]->RSSI_Ave < RSSI_Min)
++			{
++				RSSI_Min = pDM_Odm->pODM_StaInfo[i]->RSSI_Ave;
++			}
++		}
++	}
++
++	pDM_Odm->RSSI_Min = RSSI_Min;
++
++}
++
++VOID
++odm_IsLinked(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{
++	u4Byte i;
++	BOOLEAN Linked = FALSE;
++	
++	for(i=0; i<ODM_ASSOCIATE_ENTRY_NUM; i++)
++	{
++			if(IS_STA_VALID(pDM_Odm->pODM_StaInfo[i]) )
++			{			
++				Linked = TRUE;
++				break;
++			}
++		
++	}
++
++	pDM_Odm->bLinked = Linked;
++}
++*/
++
++VOID
++ODM_InitAllTimers(
++	IN PDM_ODM_T	pDM_Odm 
++	)
++{
++#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++	ODM_AntDivTimers(pDM_Odm,INIT_ANTDIV_TIMMER);
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++#ifdef MP_TEST
++	if (pDM_Odm->priv->pshare->rf_ft_var.mp_specific) 
++		ODM_InitializeTimer(pDM_Odm, &pDM_Odm->MPT_DIGTimer, 
++			(RT_TIMER_CALL_BACK)odm_MPT_DIGCallback, NULL, "MPT_DIGTimer");	
++#endif
++#elif(DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	ODM_InitializeTimer(pDM_Odm, &pDM_Odm->MPT_DIGTimer, 
++		(RT_TIMER_CALL_BACK)odm_MPT_DIGCallback, NULL, "MPT_DIGTimer");
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	ODM_InitializeTimer(pDM_Odm, &pDM_Odm->PathDivSwitchTimer, 
++		(RT_TIMER_CALL_BACK)odm_PathDivChkAntSwitchCallback, NULL, "PathDivTimer");
++	ODM_InitializeTimer(pDM_Odm, &pDM_Odm->CCKPathDiversityTimer, 
++		(RT_TIMER_CALL_BACK)odm_CCKTXPathDiversityCallback, NULL, "CCKPathDiversityTimer"); 
++	ODM_InitializeTimer(pDM_Odm, &pDM_Odm->sbdcnt_timer,
++		(RT_TIMER_CALL_BACK)phydm_sbd_callback, NULL, "SbdTimer"); 
++#if (BEAMFORMING_SUPPORT == 1)
++	ODM_InitializeTimer(pDM_Odm, &pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_FwNdpaTimer,
++		(RT_TIMER_CALL_BACK)halComTxbf_FwNdpaTimerCallback, NULL, "Txbf_FwNdpaTimer");
++#endif
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++#if (BEAMFORMING_SUPPORT == 1)
++	ODM_InitializeTimer(pDM_Odm, &pDM_Odm->BeamformingInfo.BeamformingTimer,
++		(RT_TIMER_CALL_BACK)Beamforming_SWTimerCallback, NULL, "BeamformingTimer");
++#endif
++#endif
++}
++
++VOID
++ODM_CancelAllTimers(
++	IN PDM_ODM_T	pDM_Odm 
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	//
++	// 2012/01/12 MH Temp BSOD fix. We need to find NIC allocate mem fail reason in 
++	// win7 platform.
++	//
++	HAL_ADAPTER_STS_CHK(pDM_Odm)
++#endif	
++
++#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++	ODM_AntDivTimers(pDM_Odm,CANCEL_ANTDIV_TIMMER);
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++#ifdef MP_TEST
++	if (pDM_Odm->priv->pshare->rf_ft_var.mp_specific)
++		ODM_CancelTimer(pDM_Odm, &pDM_Odm->MPT_DIGTimer);
++#endif
++#elif (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	ODM_CancelTimer(pDM_Odm, &pDM_Odm->MPT_DIGTimer);
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	ODM_CancelTimer(pDM_Odm, &pDM_Odm->PathDivSwitchTimer);
++	ODM_CancelTimer(pDM_Odm, &pDM_Odm->CCKPathDiversityTimer);
++	ODM_CancelTimer(pDM_Odm, &pDM_Odm->MPT_DIGTimer);
++	ODM_CancelTimer(pDM_Odm, &pDM_Odm->sbdcnt_timer);
++#if (BEAMFORMING_SUPPORT == 1)
++	ODM_CancelTimer(pDM_Odm, &pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_FwNdpaTimer);
++#endif
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++#if (BEAMFORMING_SUPPORT == 1)
++	ODM_CancelTimer(pDM_Odm, &pDM_Odm->BeamformingInfo.BeamformingTimer);
++#endif
++#endif
++
++}
++
++
++VOID
++ODM_ReleaseAllTimers(
++	IN PDM_ODM_T	pDM_Odm 
++	)
++{
++#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++	ODM_AntDivTimers(pDM_Odm,RELEASE_ANTDIV_TIMMER);
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++    #ifdef MP_TEST
++	if (pDM_Odm->priv->pshare->rf_ft_var.mp_specific)
++		ODM_ReleaseTimer(pDM_Odm, &pDM_Odm->MPT_DIGTimer);
++    #endif
++#elif(DM_ODM_SUPPORT_TYPE == ODM_WIN)
++ODM_ReleaseTimer(pDM_Odm, &pDM_Odm->MPT_DIGTimer);
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	ODM_ReleaseTimer(pDM_Odm, &pDM_Odm->PathDivSwitchTimer);
++	ODM_ReleaseTimer(pDM_Odm, &pDM_Odm->CCKPathDiversityTimer);
++	ODM_ReleaseTimer(pDM_Odm, &pDM_Odm->MPT_DIGTimer);
++	ODM_ReleaseTimer(pDM_Odm, &pDM_Odm->sbdcnt_timer);
++#if (BEAMFORMING_SUPPORT == 1)
++	ODM_ReleaseTimer(pDM_Odm, &pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_FwNdpaTimer);
++#endif
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++#if (BEAMFORMING_SUPPORT == 1)
++	ODM_ReleaseTimer(pDM_Odm, &pDM_Odm->BeamformingInfo.BeamformingTimer);
++#endif
++#endif
++}
++
++
++//3============================================================
++//3 Tx Power Tracking
++//3============================================================
++
++
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++VOID
++ODM_InitAllThreads(
++	IN PDM_ODM_T	pDM_Odm 
++	)
++{
++	#ifdef TPT_THREAD
++	kTPT_task_init(pDM_Odm->priv);
++	#endif
++}
++
++VOID
++ODM_StopAllThreads(
++	IN PDM_ODM_T	pDM_Odm 
++	)
++{
++	#ifdef TPT_THREAD
++	kTPT_task_stop(pDM_Odm->priv);
++	#endif
++}
++#endif	
++
++
++#if( DM_ODM_SUPPORT_TYPE == ODM_WIN) 
++//
++// 2011/07/26 MH Add an API for testing IQK fail case.
++//
++BOOLEAN
++ODM_CheckPowerStatus(
++	IN	PADAPTER		Adapter)
++{
++
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T			pDM_Odm = &pHalData->DM_OutSrc;
++	RT_RF_POWER_STATE 	rtState;
++	PMGNT_INFO			pMgntInfo	= &(Adapter->MgntInfo);
++
++	// 2011/07/27 MH We are not testing ready~~!! We may fail to get correct value when init sequence.
++	if (pMgntInfo->init_adpt_in_progress == TRUE)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ODM_CheckPowerStatus Return TRUE, due to initadapter\n"));
++		return	TRUE;
++	}
++	
++	//
++	//	2011/07/19 MH We can not execute tx pwoer tracking/ LLC calibrate or IQK.
++	//
++	Adapter->HalFunc.GetHwRegHandler(Adapter, HW_VAR_RF_STATE, (pu1Byte)(&rtState));	
++	if(Adapter->bDriverStopped || Adapter->bDriverIsGoingToPnpSetPowerSleep || rtState == eRfOff)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ODM_CheckPowerStatus Return FALSE, due to %d/%d/%d\n", 
++		Adapter->bDriverStopped, Adapter->bDriverIsGoingToPnpSetPowerSleep, rtState));
++		return	FALSE;
++	}
++	return	TRUE;
++}
++#elif( DM_ODM_SUPPORT_TYPE == ODM_AP)
++BOOLEAN
++ODM_CheckPowerStatus(
++		IN	PADAPTER		Adapter)
++{
++	/*
++	   HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	   PDM_ODM_T			pDM_Odm = &pHalData->DM_OutSrc;
++	   RT_RF_POWER_STATE 	rtState;
++	   PMGNT_INFO			pMgntInfo	= &(Adapter->MgntInfo);
++
++	// 2011/07/27 MH We are not testing ready~~!! We may fail to get correct value when init sequence.
++	if (pMgntInfo->init_adpt_in_progress == TRUE)
++	{
++	ODM_RT_TRACE(pDM_Odm,COMP_INIT, DBG_LOUD, ("ODM_CheckPowerStatus Return TRUE, due to initadapter"));
++	return	TRUE;
++	}
++
++	//
++	//	2011/07/19 MH We can not execute tx pwoer tracking/ LLC calibrate or IQK.
++	//
++	Adapter->HalFunc.GetHwRegHandler(Adapter, HW_VAR_RF_STATE, (pu1Byte)(&rtState));	
++	if(Adapter->bDriverStopped || Adapter->bDriverIsGoingToPnpSetPowerSleep || rtState == eRfOff)
++	{
++	ODM_RT_TRACE(pDM_Odm,COMP_INIT, DBG_LOUD, ("ODM_CheckPowerStatus Return FALSE, due to %d/%d/%d\n", 
++	Adapter->bDriverStopped, Adapter->bDriverIsGoingToPnpSetPowerSleep, rtState));
++	return	FALSE;
++	}
++	 */
++	return	TRUE;
++}
++#endif
++
++// need to ODM CE Platform
++//move to here for ANT detection mechanism using
++
++#if ((DM_ODM_SUPPORT_TYPE == ODM_WIN)||(DM_ODM_SUPPORT_TYPE == ODM_CE))
++u4Byte
++GetPSDData(
++	IN PDM_ODM_T	pDM_Odm,
++	unsigned int 	point,
++	u1Byte initial_gain_psd)
++{
++	//unsigned int	val, rfval;
++	//int	psd_report;
++	u4Byte	psd_report;
++	
++	//HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	//Debug Message
++	//val = PHY_QueryBBReg(Adapter,0x908, bMaskDWord);
++	//DbgPrint("Reg908 = 0x%x\n",val);
++	//val = PHY_QueryBBReg(Adapter,0xDF4, bMaskDWord);
++	//rfval = PHY_QueryRFReg(Adapter, ODM_RF_PATH_A, 0x00, bRFRegOffsetMask);
++	//DbgPrint("RegDF4 = 0x%x, RFReg00 = 0x%x\n",val, rfval);
++	//DbgPrint("PHYTXON = %x, OFDMCCA_PP = %x, CCKCCA_PP = %x, RFReg00 = %x\n",
++		//(val&BIT25)>>25, (val&BIT14)>>14, (val&BIT15)>>15, rfval);
++
++	//Set DCO frequency index, offset=(40MHz/SamplePts)*point
++	ODM_SetBBReg(pDM_Odm, 0x808, 0x3FF, point);
++
++	//Start PSD calculation, Reg808[22]=0->1
++	ODM_SetBBReg(pDM_Odm, 0x808, BIT22, 1);
++	//Need to wait for HW PSD report
++	ODM_StallExecution(1000);
++	ODM_SetBBReg(pDM_Odm, 0x808, BIT22, 0);
++	//Read PSD report, Reg8B4[15:0]
++	psd_report = ODM_GetBBReg(pDM_Odm,0x8B4, bMaskDWord) & 0x0000FFFF;
++	
++#if 1//(DEV_BUS_TYPE == RT_PCI_INTERFACE) && ( (RT_PLATFORM == PLATFORM_LINUX) || (RT_PLATFORM == PLATFORM_MACOSX))
++	psd_report = (u4Byte) (odm_ConvertTo_dB(psd_report))+(u4Byte)(initial_gain_psd-0x1c);
++#else
++	psd_report = (int) (20*log10((double)psd_report))+(int)(initial_gain_psd-0x1c);
++#endif
++
++	return psd_report;
++	
++}
++#endif
++
++u4Byte 
++odm_ConvertTo_dB(
++	u4Byte 	Value)
++{
++	u1Byte i;
++	u1Byte j;
++	u4Byte dB;
++
++	Value = Value & 0xFFFF;
++
++	for (i = 0; i < 12; i++)
++	{
++		if (Value <= dB_Invert_Table[i][7])
++		{
++			break;
++		}
++	}
++
++	if (i >= 12)
++	{
++		return (96);	// maximum 96 dB
++	}
++
++	for (j = 0; j < 8; j++)
++	{
++		if (Value <= dB_Invert_Table[i][j])
++		{
++			break;
++		}
++	}
++
++	dB = (i << 3) + j + 1;
++
++	return (dB);
++}
++
++u4Byte 
++odm_ConvertTo_linear(
++	u4Byte 	Value)
++{
++	u1Byte i;
++	u1Byte j;
++	u4Byte linear;
++	
++	/* 1dB~96dB */
++	
++	Value = Value & 0xFF;
++
++	i = (u1Byte)((Value - 1) >> 3);
++	j = (u1Byte)(Value - 1) - (i << 3);
++
++	linear = dB_Invert_Table[i][j];
++
++	return (linear);
++}
++
++//
++// ODM multi-port consideration, added by Roger, 2013.10.01.
++//
++VOID
++ODM_AsocEntry_Init(
++	IN	PDM_ODM_T	pDM_Odm
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER pLoopAdapter = GetDefaultAdapter(pDM_Odm->Adapter);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pLoopAdapter);
++	PDM_ODM_T		 pDM_OutSrc = &pHalData->DM_OutSrc;
++	u1Byte	TotalAssocEntryNum = 0;
++	u1Byte	index = 0;
++	u1Byte	adaptercount = 0;
++
++	ODM_CmnInfoPtrArrayHook(pDM_OutSrc, ODM_CMNINFO_STA_STATUS, 0, &pLoopAdapter->MgntInfo.DefaultPort[0]);
++	pLoopAdapter->MgntInfo.DefaultPort[0].MultiPortStationIdx = TotalAssocEntryNum;
++		
++	adaptercount += 1;
++	RT_TRACE(COMP_INIT, DBG_LOUD, ("adaptercount=%d\n", adaptercount));	
++	pLoopAdapter = GetNextExtAdapter(pLoopAdapter);
++	TotalAssocEntryNum +=1;
++
++	while(pLoopAdapter)
++	{
++		for (index = 0; index <ASSOCIATE_ENTRY_NUM; index++)
++		{
++			ODM_CmnInfoPtrArrayHook(pDM_OutSrc, ODM_CMNINFO_STA_STATUS, TotalAssocEntryNum+index, &pLoopAdapter->MgntInfo.AsocEntry[index]);
++			pLoopAdapter->MgntInfo.AsocEntry[index].MultiPortStationIdx = TotalAssocEntryNum+index;				
++		}
++		
++		TotalAssocEntryNum+= index;
++		if(IS_HARDWARE_TYPE_8188E((pDM_Odm->Adapter)))
++			pLoopAdapter->RASupport = TRUE;
++		adaptercount += 1;
++		RT_TRACE(COMP_INIT, DBG_LOUD, ("adaptercount=%d\n", adaptercount));
++		pLoopAdapter = GetNextExtAdapter(pLoopAdapter);
++	}
++
++	RT_TRACE(COMP_INIT, DBG_LOUD, ("TotalAssocEntryNum = %d\n", TotalAssocEntryNum));
++	if (TotalAssocEntryNum < (ODM_ASSOCIATE_ENTRY_NUM-1)) {
++	
++		RT_TRACE(COMP_INIT, DBG_LOUD, ("In hook null\n"));
++		for (index = TotalAssocEntryNum; index < ODM_ASSOCIATE_ENTRY_NUM; index++)
++			ODM_CmnInfoPtrArrayHook(pDM_OutSrc, ODM_CMNINFO_STA_STATUS, index, NULL);
++	}
++#endif
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++/* Justin: According to the current RRSI to adjust Response Frame TX power, 2012/11/05 */
++void odm_dtc(PDM_ODM_T pDM_Odm)
++{
++#ifdef CONFIG_DM_RESP_TXAGC
++	#define DTC_BASE            35	/* RSSI higher than this value, start to decade TX power */
++	#define DTC_DWN_BASE       (DTC_BASE-5)	/* RSSI lower than this value, start to increase TX power */
++
++	/* RSSI vs TX power step mapping: decade TX power */
++	static const u8 dtc_table_down[]={
++		DTC_BASE,
++		(DTC_BASE+5),
++		(DTC_BASE+10),
++		(DTC_BASE+15),
++		(DTC_BASE+20),
++		(DTC_BASE+25)
++	};
++
++	/* RSSI vs TX power step mapping: increase TX power */
++	static const u8 dtc_table_up[]={
++		DTC_DWN_BASE,
++		(DTC_DWN_BASE-5),
++		(DTC_DWN_BASE-10),
++		(DTC_DWN_BASE-15),
++		(DTC_DWN_BASE-15),
++		(DTC_DWN_BASE-20),
++		(DTC_DWN_BASE-20),
++		(DTC_DWN_BASE-25),
++		(DTC_DWN_BASE-25),
++		(DTC_DWN_BASE-30),
++		(DTC_DWN_BASE-35)
++	};
++
++	u8 i;
++	u8 dtc_steps=0;
++	u8 sign;
++	u8 resp_txagc=0;
++
++	#if 0
++	/* As DIG is disabled, DTC is also disable */
++	if(!(pDM_Odm->SupportAbility & ODM_XXXXXX))
++		return;
++	#endif
++
++	if (DTC_BASE < pDM_Odm->RSSI_Min) {
++		/* need to decade the CTS TX power */
++		sign = 1;
++		for (i=0;i<ARRAY_SIZE(dtc_table_down);i++)
++		{
++			if ((dtc_table_down[i] >= pDM_Odm->RSSI_Min) || (dtc_steps >= 6))
++				break;
++			else
++				dtc_steps++;
++		}
++	}
++#if 0
++	else if (DTC_DWN_BASE > pDM_Odm->RSSI_Min)
++	{
++		/* needs to increase the CTS TX power */
++		sign = 0;
++		dtc_steps = 1;
++		for (i=0;i<ARRAY_SIZE(dtc_table_up);i++)
++		{
++			if ((dtc_table_up[i] <= pDM_Odm->RSSI_Min) || (dtc_steps>=10))
++				break;
++			else
++				dtc_steps++;
++		}
++	}
++#endif
++	else
++	{
++		sign = 0;
++		dtc_steps = 0;
++	}
++
++	resp_txagc = dtc_steps | (sign << 4);
++	resp_txagc = resp_txagc | (resp_txagc << 5);
++	ODM_Write1Byte(pDM_Odm, 0x06d9, resp_txagc);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_PWR_TRAIN, ODM_DBG_LOUD, ("%s RSSI_Min:%u, set RESP_TXAGC to %s %u\n",
++		__func__, pDM_Odm->RSSI_Min, sign ? "minus" : "plus", dtc_steps));
++#endif /* CONFIG_RESP_TXAGC_ADJUST */
++}
++
++#endif /* #if (DM_ODM_SUPPORT_TYPE == ODM_CE) */
++
++VOID
++odm_UpdatePowerTrainingState(
++	IN	PDM_ODM_T	pDM_Odm
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PFALSE_ALARM_STATISTICS 	FalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure( pDM_Odm , PHYDM_FALSEALMCNT);
++	pDIG_T						pDM_DigTable = &pDM_Odm->DM_DigTable;
++	u4Byte						score = 0;
++
++	if(!(pDM_Odm->SupportAbility & ODM_BB_PWR_TRAIN))
++		return;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState()============>\n"));
++	pDM_Odm->bChangeState = FALSE;
++
++	// Debug command
++	if(pDM_Odm->ForcePowerTrainingState)
++	{
++		if(pDM_Odm->ForcePowerTrainingState == 1 && !pDM_Odm->bDisablePowerTraining)
++		{
++			pDM_Odm->bChangeState = TRUE;
++			pDM_Odm->bDisablePowerTraining = TRUE;
++		}
++		else if(pDM_Odm->ForcePowerTrainingState == 2 && pDM_Odm->bDisablePowerTraining)
++		{
++			pDM_Odm->bChangeState = TRUE;
++			pDM_Odm->bDisablePowerTraining = FALSE;
++		}
++
++		pDM_Odm->PT_score = 0;
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM = 0;
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK = 0;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): ForcePowerTrainingState = %d\n", 
++			pDM_Odm->ForcePowerTrainingState));
++		return;
++	}
++	
++	if(!pDM_Odm->bLinked)
++		return;
++	
++	// First connect
++	if((pDM_Odm->bLinked) && (pDM_DigTable->bMediaConnect_0 == FALSE))
++	{
++		pDM_Odm->PT_score = 0;
++		pDM_Odm->bChangeState = TRUE;
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM = 0;
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK = 0;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): First Connect\n"));
++		return;
++	}
++
++	// Compute score
++	if(pDM_Odm->NHM_cnt_0 >= 215)
++		score = 2;
++	else if(pDM_Odm->NHM_cnt_0 >= 190) 
++		score = 1;							// unknow state
++	else
++	{
++		u4Byte	RX_Pkt_Cnt;
++		
++		RX_Pkt_Cnt = (u4Byte)(pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM) + (u4Byte)(pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK);
++		
++		if((FalseAlmCnt->Cnt_CCA_all > 31 && RX_Pkt_Cnt > 31) && (FalseAlmCnt->Cnt_CCA_all >= RX_Pkt_Cnt))
++		{
++			if((RX_Pkt_Cnt + (RX_Pkt_Cnt >> 1)) <= FalseAlmCnt->Cnt_CCA_all)
++				score = 0;
++			else if((RX_Pkt_Cnt + (RX_Pkt_Cnt >> 2)) <= FalseAlmCnt->Cnt_CCA_all)
++				score = 1;
++			else
++				score = 2;
++		}
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): RX_Pkt_Cnt = %d, Cnt_CCA_all = %d\n", 
++			RX_Pkt_Cnt, FalseAlmCnt->Cnt_CCA_all));
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): NumQryPhyStatusOFDM = %d, NumQryPhyStatusCCK = %d\n",
++			(u4Byte)(pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM), (u4Byte)(pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK)));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): NHM_cnt_0 = %d, score = %d\n", 
++		pDM_Odm->NHM_cnt_0, score));
++
++	// smoothing
++	pDM_Odm->PT_score = (score << 4) + (pDM_Odm->PT_score>>1) + (pDM_Odm->PT_score>>2);
++	score = (pDM_Odm->PT_score + 32) >> 6;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): PT_score = %d, score after smoothing = %d\n", 
++		pDM_Odm->PT_score, score));
++
++	// Mode decision
++	if(score == 2)
++	{
++		if(pDM_Odm->bDisablePowerTraining)
++		{
++			pDM_Odm->bChangeState = TRUE;
++			pDM_Odm->bDisablePowerTraining = FALSE;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): Change state\n"));
++		}
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): Enable Power Training\n"));
++	}
++	else if(score == 0)
++	{
++		if(!pDM_Odm->bDisablePowerTraining)
++		{
++			pDM_Odm->bChangeState = TRUE;
++			pDM_Odm->bDisablePowerTraining = TRUE;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): Change state\n"));
++		}
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): Disable Power Training\n"));
++	}
++
++	pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM = 0;
++	pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK = 0;
++#endif
++}
++
++
++
++/*===========================================================*/
++/* The following is for compile only*/
++/*===========================================================*/
++/*#define TARGET_CHNL_NUM_2G_5G	59*/
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++u1Byte GetRightChnlPlaceforIQK(u1Byte chnl)
++{
++	u1Byte	channel_all[TARGET_CHNL_NUM_2G_5G] = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 36, 38, 40, 42, 44, 46, 48, 50, 52, 54, 56, 58, 60, 62, 64, 100, 
++		102, 104, 106, 108, 110, 112, 114, 116, 118, 120, 122, 124, 126, 128, 130, 132, 134, 136, 138, 140, 149, 151, 153, 155, 157, 159, 161, 163, 165};
++	u1Byte	place = chnl;
++
++	
++	if (chnl > 14) {
++		for (place = 14; place < sizeof(channel_all); place++) {
++			if (channel_all[place] == chnl)
++				return place-13;
++		}
++	}
++	
++	return 0;
++}
++
++#endif
++/*===========================================================*/
++
++VOID
++phydm_NoisyDetection(
++	IN	PDM_ODM_T	pDM_Odm
++	)
++{
++	u4Byte  Total_FA_Cnt, Total_CCA_Cnt;
++	u4Byte  Score = 0, i, Score_Smooth;
++    
++	Total_CCA_Cnt = pDM_Odm->FalseAlmCnt.Cnt_CCA_all;
++	Total_FA_Cnt  = pDM_Odm->FalseAlmCnt.Cnt_all;    
++
++/*
++    if( Total_FA_Cnt*16>=Total_CCA_Cnt*14 )         // 87.5
++    
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*12 )    // 75
++    
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*10 )    // 56.25
++    
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*8 )     // 50
++
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*7 )     // 43.75
++
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*6 )     // 37.5
++
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*5 )     // 31.25%
++        
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*4 )     // 25%
++
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*3 )     // 18.75%
++
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*2 )     // 12.5%
++
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*1 )     // 6.25%
++*/
++    for(i=0;i<=16;i++)
++    {
++        if( Total_FA_Cnt*16>=Total_CCA_Cnt*(16-i) )
++        {
++            Score = 16-i;
++            break;
++        }
++    }
++
++    // NoisyDecision_Smooth = NoisyDecision_Smooth>>1 + (Score<<3)>>1;
++    pDM_Odm->NoisyDecision_Smooth = (pDM_Odm->NoisyDecision_Smooth>>1) + (Score<<2);
++
++    // Round the NoisyDecision_Smooth: +"3" comes from (2^3)/2-1
++    Score_Smooth = (Total_CCA_Cnt>=300)?((pDM_Odm->NoisyDecision_Smooth+3)>>3):0;
++
++    pDM_Odm->NoisyDecision = (Score_Smooth>=3)?1:0;
++/*
++    switch(Score_Smooth)
++    {
++        case 0:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=0%%\n"));
++            break;
++        case 1:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=6.25%%\n"));
++            break;
++        case 2:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=12.5%%\n"));
++            break;
++        case 3:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=18.75%%\n"));
++            break;
++        case 4:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=25%%\n"));
++            break;
++        case 5:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=31.25%%\n"));
++            break;
++        case 6:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=37.5%%\n"));
++            break;
++        case 7:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=43.75%%\n"));
++            break;
++        case 8:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=50%%\n"));
++            break;
++        case 9:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=56.25%%\n"));
++            break;
++        case 10:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=62.5%%\n"));
++            break;
++        case 11:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=68.75%%\n"));
++            break;
++        case 12:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=75%%\n"));
++            break;
++        case 13:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=81.25%%\n"));
++            break;
++        case 14:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=87.5%%\n"));
++            break;
++        case 15:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=93.75%%\n"));            
++            break;
++        case 16:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=100%%\n"));
++            break;
++        default:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Unknown Value!! Need Check!!\n"));            
++    }
++*/        
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_NOISY_DETECT, ODM_DBG_LOUD,
++	("[NoisyDetection] Total_CCA_Cnt=%d, Total_FA_Cnt=%d, NoisyDecision_Smooth=%d, Score=%d, Score_Smooth=%d, pDM_Odm->NoisyDecision=%d\n",
++	Total_CCA_Cnt, Total_FA_Cnt, pDM_Odm->NoisyDecision_Smooth, Score, Score_Smooth, pDM_Odm->NoisyDecision));
++	
++}
++
++VOID
++phydm_set_nbi_reg(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		channel,
++	IN		u4Byte		tone_idx_tmp,
++	IN		u4Byte		bw
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte	nbi_table_128[NBI_TABLE_SIZE_128] = {25, 55, 85, 115, 135, 155, 185, 205, 225, 245,		/*1~10*/		/*tone_idx X 10*/
++												265, 285, 305, 335, 355, 375, 395, 415, 435, 455,	/*11~20*/
++												485, 505, 525, 555, 585, 615, 635};				/*21~27*/
++	
++	u4Byte	nbi_table_256[NBI_TABLE_SIZE_256] = { 25,   55,   85, 115, 135, 155, 175, 195, 225, 245,	/*1~10*/
++												265, 285, 305, 325, 345, 365, 385, 405, 425, 445,	/*11~20*/
++												465, 485, 505, 525, 545, 565, 585, 605, 625, 645,	/*21~30*/
++												665, 695, 715, 735, 755, 775, 795, 815, 835, 855,	/*31~40*/
++												875, 895, 915, 935, 955, 975, 995, 1015, 1035, 1055,	/*41~50*/
++												1085, 1105, 1125, 1145, 1175, 1195, 1225, 1255, 1275};	/*51~59*/
++
++	u4Byte	reg_idx = 0;
++	u4Byte	i;
++	u1Byte	nbi_table_idx = NBI_128_FFT_TYPE;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++		
++		nbi_table_idx = NBI_128_FFT_TYPE;
++	} else if (pDM_Odm->SupportICType & ODM_IC_11AC_1_SERIES) {
++	
++		nbi_table_idx = NBI_256_FFT_TYPE;
++	} else if (pDM_Odm->SupportICType & ODM_IC_11AC_2_SERIES) {
++	
++		if (bw == 80)
++			nbi_table_idx = NBI_256_FFT_TYPE;
++		else /*20M, 40M*/
++			nbi_table_idx = NBI_128_FFT_TYPE;
++	}
++
++	if (nbi_table_idx == NBI_128_FFT_TYPE) {
++		
++		for (i = 0; i < NBI_TABLE_SIZE_128; i++) {
++			if (tone_idx_tmp < nbi_table_128[i]) {
++				reg_idx = i+1;
++				break;
++			}
++		}
++		
++	} else if (nbi_table_idx == NBI_256_FFT_TYPE) {
++
++		for (i = 0; i < NBI_TABLE_SIZE_256; i++) {
++			if (tone_idx_tmp < nbi_table_256[i]) {
++				reg_idx = i+1;
++				break;
++			}
++		}	
++	}
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++		ODM_SetBBReg(pDM_Odm, 0xc40, 0x1f000000, reg_idx);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("Set tone idx:  Reg0xC40[28:24] = ((0x%x))\n", reg_idx));
++		/**/
++	} else {
++		ODM_SetBBReg(pDM_Odm, 0x87c, 0xfc000, reg_idx);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("Set tone idx: Reg0x87C[19:14] = ((0x%x))\n", reg_idx));
++		/**/
++	}
++}
++
++
++VOID
++phydm_nbi_enable(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		enable
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte		reg_value = 0;
++
++	if (enable == NBI_ENABLE)
++		reg_value = 1;
++	else if (enable == NBI_DISABLE)
++		reg_value = 0;
++	
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++
++		ODM_SetBBReg(pDM_Odm, 0xc40, BIT9, reg_value);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("Enable NBI Reg0xC40[9] = ((0x%x))\n", reg_value));
++		
++	} else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++
++		ODM_SetBBReg(pDM_Odm, 0x87c, BIT13, reg_value);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("Enable NBI Reg0x87C[13] = ((0x%x))\n", reg_value));
++	}
++}
++
++u1Byte
++phydm_nbi_setting(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		enable,
++	IN		u4Byte		channel,
++	IN		u4Byte		bw,
++	IN		u4Byte		f_interference,
++	IN		u4Byte		Second_ch
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte		fc, fc_offset;	
++	u4Byte		bw_up, bw_low;	
++	u4Byte		int_distance;
++	u4Byte		tone_idx_tmp;
++	u4Byte		i;
++	u4Byte		start_ch_per_40m[NUM_START_CH_40M] = {36, 44, 52, 60, 100, 108, 116, 124, 132, 140, 149, 157, 165, 173};
++	u4Byte		start_ch_per_80m[NUM_START_CH_80M] = {36, 52, 100, 116, 132, 149, 165}; 
++	pu4Byte		p_start_ch = &(start_ch_per_40m[0]);
++	u4Byte		num_start_channel = NUM_START_CH_40M;
++	u4Byte		channel_offset = 0;
++	
++
++	phydm_nbi_enable(pDM_Odm, enable);
++
++	if (enable == NBI_DISABLE) {
++		
++		return	NBI_SET_SUCCESS;
++		/**/
++	}
++
++
++		
++	/*2.4G*/
++	if (channel <= 14 && channel > 0) {
++
++		if (bw == 80) {
++			phydm_nbi_enable(pDM_Odm, NBI_DISABLE);
++			return	NBI_SET_ERROR;
++		}
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("[Set NBI] CH = ((%d)), BW = ((%d)), f_intf = ((%d)), Scnd_CH = ((%s))\n", 
++		channel, bw, f_interference, ((bw == 20) ? "Don't care" : (Second_ch == PHYDM_ABOVE) ? "H" : "L")));
++		
++		fc = 2412 + (channel - 1)*5;
++
++		if (bw == 40 && (Second_ch == PHYDM_ABOVE)) {
++			
++			if (channel >= 10) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("CH = ((%d)), Scnd_CH = ((%d)) Error Setting\n", channel, Second_ch));
++				phydm_nbi_enable(pDM_Odm, NBI_DISABLE);
++				return	NBI_SET_ERROR;
++			}
++			fc += 10;
++		} else if (bw == 40 && (Second_ch == PHYDM_BELOW)) {
++		
++			if (channel <= 2) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("CH = ((%d)), Scnd_CH = ((%d)) Error Setting\n", channel, Second_ch));
++				phydm_nbi_enable(pDM_Odm, NBI_DISABLE);
++				return	NBI_SET_ERROR;
++			}
++			fc -= 10;
++		}
++	}
++	/*5G*/
++	else if (channel >= 36 && channel <= 177) {
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("[Set NBI] CH = ((%d)), BW = ((%d)), f_intf = ((%d))\n", 
++		channel, bw, f_interference));
++
++		if (bw != 20) {
++			
++			if (bw == 40) {
++				num_start_channel = NUM_START_CH_40M;
++				p_start_ch = &(start_ch_per_40m[0]);
++				channel_offset = CH_OFFSET_40M;
++			} else if (bw == 80) {
++				num_start_channel = NUM_START_CH_80M;
++				p_start_ch = &(start_ch_per_80m[0]);
++				channel_offset = CH_OFFSET_80M;
++			}
++
++			for (i = 0; i < num_start_channel; i++) {
++				
++				if (channel < p_start_ch[i+1]) {
++					channel = p_start_ch[i] + channel_offset;
++					break;
++				}
++			}
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("Mod_CH = ((%d))\n", channel));
++		}
++		
++		fc = 5180 + (channel-36)*5;
++		
++	} else {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("CH = ((%d)) Error Setting\n", channel));
++		phydm_nbi_enable(pDM_Odm, NBI_DISABLE);
++		return	NBI_SET_ERROR;
++	}
++
++	bw_up = fc + bw/2;
++	bw_low = fc - bw/2;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("[f_l, fc, fh] = [ %d, %d, %d ], f_int = ((%d))\n", bw_low, fc, bw_up, f_interference));
++
++	if ((f_interference >= bw_low) && (f_interference <= bw_up)) {
++
++		int_distance = (fc >= f_interference) ? (fc - f_interference) : (f_interference - fc);
++		tone_idx_tmp = (int_distance<<5);  /* =10*(int_distance /0.3125) */
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("int_distance = ((%d MHz)) Mhz, tone_idx_tmp = ((%d.%d))\n", int_distance, (tone_idx_tmp/10), (tone_idx_tmp%10)));
++		phydm_set_nbi_reg(pDM_Odm, channel, tone_idx_tmp, bw);
++		return	NBI_SET_SUCCESS;
++
++	} else {
++		phydm_nbi_enable(pDM_Odm, NBI_DISABLE);
++		return	NBI_SET_NO_NEED;
++	}
++}
++
++VOID
++phydm_nbi_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char			*output,
++	IN		u4Byte		*_out_len
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			used = *_used;
++	u4Byte			out_len = *_out_len;
++	u4Byte			channel =  dm_value[1];
++	u4Byte			bw =  dm_value[2];
++	u4Byte			f_interference =  dm_value[3];
++	u4Byte			Second_ch =  dm_value[4];
++	u1Byte			set_result = 0;
++
++	if (dm_value[0] == 100) {
++		
++		PHYDM_SNPRINTF((output+used, out_len-used, "[HELP]  EN(on=1, off=2)   CH   BW(20/40/80)  f_intf(Mhz)    Scnd_CH(L=1, H=2)\n"));
++		return;
++		
++	} else if (dm_value[0] == NBI_ENABLE) {
++	
++		PHYDM_SNPRINTF((output+used, out_len-used, "[Enable NBI] CH = ((%d)), BW = ((%d)), f_intf = ((%d)), Scnd_CH = ((%s))\n", channel, bw, f_interference, (channel > 14)?"Don't care":((Second_ch == PHYDM_ABOVE) ? "H" : "L")));
++		set_result = phydm_nbi_setting(pDM_Odm,	NBI_ENABLE, channel, bw, f_interference, Second_ch);
++		
++	} else if (dm_value[0] == NBI_DISABLE) {
++	
++		PHYDM_SNPRINTF((output+used, out_len-used, "[Disable NBI]\n"));
++		set_result = phydm_nbi_setting(pDM_Odm, NBI_DISABLE, channel, bw, f_interference, Second_ch);
++		
++	} else {
++	
++		set_result = NBI_SET_ERROR;
++	}
++	PHYDM_SNPRINTF((output+used, out_len-used, "[NBI set result: %s]\n", (set_result == NBI_SET_SUCCESS) ? "Success" : ((set_result == NBI_SET_NO_NEED) ? "No need" : "Error")));
++}
++
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm.h
+new file mode 100644
+index 0000000..7a46dea
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm.h
+@@ -0,0 +1,1404 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#ifndef	__HALDMOUTSRC_H__
++#define __HALDMOUTSRC_H__
++
++//============================================================
++// include files
++//============================================================
++#include "phydm_pre_define.h"
++#include "phydm_dig.h"
++#include "phydm_edcaturbocheck.h"
++#include "phydm_pathdiv.h"
++#include "phydm_antdiv.h"
++#include "phydm_antdect.h"
++#include "phydm_dynamicbbpowersaving.h"
++#include "phydm_rainfo.h"
++#include "phydm_dynamictxpower.h"
++#include "phydm_cfotracking.h"
++#include "phydm_acs.h"
++#include "phydm_adaptivity.h"
++#include "phydm_iqk.h"
++#include "phydm_dfs.h"
++#include "phydm_ccx.h"
++#include "txbf/phydm_hal_txbf_api.h"
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++#include "phydm_beamforming.h"
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++#include "halphyrf_ap.h"
++#include "phydm_adc_sampling.h"
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++#include "phydm_noisemonitor.h"
++#include "halphyrf_ce.h"
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN)) 
++#include "halphyrf_win.h"
++#include "phydm_noisemonitor.h"
++#endif
++
++//============================================================
++// Definition 
++//============================================================
++//
++// 2011/09/22 MH Define all team supprt ability.
++//
++
++/* Traffic load decision */
++#define	TRAFFIC_ULTRA_LOW	1
++#define	TRAFFIC_LOW			2
++#define	TRAFFIC_MID			3
++#define	TRAFFIC_HIGH			4
++
++#define	NONE			0
++
++/*NBI API------------------------------------*/
++#define	NBI_ENABLE 1
++#define	NBI_DISABLE 2
++
++#define	NBI_TABLE_SIZE_128	27
++#define	NBI_TABLE_SIZE_256	59
++
++#define	NUM_START_CH_80M	7
++#define	NUM_START_CH_40M	14
++
++#define	CH_OFFSET_40M		2
++#define	CH_OFFSET_80M		6
++
++#define	NBI_128_FFT_TYPE	1
++#define	NBI_256_FFT_TYPE	2
++
++#define	NBI_SET_SUCCESS	1
++#define	NBI_SET_ERROR		2
++#define	NBI_SET_NO_NEED	3
++
++
++
++//============================================================
++// structure and define
++//============================================================
++
++//
++// 2011/09/20 MH Add for AP/ADSLpseudo DM structuer requirement.
++// We need to remove to other position???
++//
++#if(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++typedef		struct rtl8192cd_priv {
++	u1Byte		temp;
++
++}rtl8192cd_priv, *prtl8192cd_priv;
++#endif
++
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++typedef		struct _ADAPTER{
++	u1Byte		temp;
++	#ifdef AP_BUILD_WORKAROUND
++	HAL_DATA_TYPE*		temp2;
++	prtl8192cd_priv		priv;
++	#endif
++}ADAPTER, *PADAPTER;
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++typedef		struct _WLAN_STA{
++	u1Byte		temp;
++} WLAN_STA, *PRT_WLAN_STA;
++
++#endif
++
++typedef struct _Dynamic_Primary_CCA{
++	u1Byte		PriCCA_flag;
++	u1Byte		intf_flag;
++	u1Byte		intf_type;  
++	u1Byte		DupRTS_flag;
++	u1Byte		Monitor_flag;
++	u1Byte		CH_offset;
++	u1Byte  	MF_state;
++}Pri_CCA_T, *pPri_CCA_T;
++
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	#ifdef ADSL_AP_BUILD_WORKAROUND
++	#define MAX_TOLERANCE			5
++	#define IQK_DELAY_TIME			1		/*ms*/
++	#endif
++#endif	/*#if(DM_ODM_SUPPORT_TYPE & (ODM_AP))*/
++
++#define		DM_Type_ByFW			0
++#define		DM_Type_ByDriver		1
++
++//
++// Declare for common info
++//
++
++#define IQK_THRESHOLD			8
++#define DPK_THRESHOLD			4
++
++
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_AP))
++__PACK typedef struct _ODM_Phy_Status_Info_
++{
++	u1Byte		RxPWDBAll;
++	u1Byte		SignalQuality;					/* in 0-100 index. */
++	u1Byte		RxMIMOSignalStrength[4];		/* in 0~100 index */
++	s1Byte		RxMIMOSignalQuality[4];		/* EVM */
++	s1Byte		RxSNR[4];					/* per-path's SNR */
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++	u1Byte		RxCount:2;					/* RX path counter---*/
++	u1Byte		BandWidth:2;
++	u1Byte		rxsc:4;						/* sub-channel---*/
++#else
++	u1Byte		BandWidth;
++#endif
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++	u1Byte		channel;						/* channel number---*/
++	BOOLEAN		bMuPacket;					/* is MU packet or not---*/
++	BOOLEAN		bBeamformed;				/* BF packet---*/
++#endif
++} __WLAN_ATTRIB_PACK__ ODM_PHY_INFO_T, *PODM_PHY_INFO_T;
++
++typedef struct _ODM_Phy_Status_Info_Append_
++{
++	u1Byte		MAC_CRC32;	
++
++}ODM_PHY_INFO_Append_T,*PODM_PHY_INFO_Append_T;
++
++#else
++
++typedef struct _ODM_Phy_Status_Info_
++{
++	//
++	// Be care, if you want to add any element please insert between 
++	// RxPWDBAll & SignalStrength.
++	//
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN))
++	u4Byte		RxPWDBAll;	
++#else
++	u1Byte		RxPWDBAll;	
++#endif
++	u1Byte		SignalQuality;				/* in 0-100 index. */
++	s1Byte		RxMIMOSignalQuality[4];		/* per-path's EVM */
++	u1Byte		RxMIMOEVMdbm[4];			/* per-path's EVM dbm */
++	u1Byte		RxMIMOSignalStrength[4];	/* in 0~100 index */
++	s2Byte		Cfo_short[4];				/* per-path's Cfo_short */
++	s2Byte		Cfo_tail[4];					/* per-path's Cfo_tail */
++	s1Byte		RxPower;					/* in dBm Translate from PWdB */
++	s1Byte		RecvSignalPower;			/* Real power in dBm for this packet, no beautification and aggregation. Keep this raw info to be used for the other procedures. */
++	u1Byte		BTRxRSSIPercentage;
++	u1Byte		SignalStrength;				/* in 0-100 index. */
++	s1Byte		RxPwr[4];					/* per-path's pwdb */
++	s1Byte		RxSNR[4];					/* per-path's SNR	*/
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++	u1Byte		RxCount:2;					/* RX path counter---*/
++	u1Byte		BandWidth:2;
++	u1Byte		rxsc:4;						/* sub-channel---*/
++#else
++	u1Byte		BandWidth;
++#endif
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++	u1Byte		btCoexPwrAdjust;
++#endif
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++	u1Byte		channel;						/* channel number---*/
++	BOOLEAN		bMuPacket;					/* is MU packet or not---*/
++	BOOLEAN		bBeamformed;				/* BF packet---*/
++#endif
++}ODM_PHY_INFO_T,*PODM_PHY_INFO_T;
++#endif
++
++typedef struct _ODM_Per_Pkt_Info_
++{
++	//u1Byte		Rate;	
++	u1Byte		DataRate;
++	u1Byte		StationID;
++	BOOLEAN		bPacketMatchBSSID;
++	BOOLEAN		bPacketToSelf;
++	BOOLEAN		bPacketBeacon;
++	BOOLEAN		bToSelf;
++}ODM_PACKET_INFO_T,*PODM_PACKET_INFO_T;
++
++
++typedef struct _ODM_Phy_Dbg_Info_
++{
++	//ODM Write,debug info
++	s1Byte		RxSNRdB[4];
++	u4Byte		NumQryPhyStatus;
++	u4Byte		NumQryPhyStatusCCK;
++	u4Byte		NumQryPhyStatusOFDM;
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++	u4Byte		NumQryMuPkt;
++	u4Byte		NumQryBfPkt;
++	u4Byte		NumQryMuVhtPkt[40];
++	u4Byte		NumQryVhtPkt[40];
++#endif
++	u1Byte		NumQryBeaconPkt;
++	//Others
++	s4Byte		RxEVM[4];	
++	
++}ODM_PHY_DBG_INFO_T;
++
++
++typedef struct _ODM_Mac_Status_Info_
++{
++	u1Byte	test;
++	
++}ODM_MAC_INFO;
++
++//
++// 2011/20/20 MH For MP driver RT_WLAN_STA =  STA_INFO_T
++// Please declare below ODM relative info in your STA info structure.
++//
++#if 1
++typedef		struct _ODM_STA_INFO{
++	// Driver Write
++	BOOLEAN		bUsed;				// record the sta status link or not?
++	//u1Byte		WirelessMode;		// 
++	u1Byte		IOTPeer;			// Enum value.	HT_IOT_PEER_E
++
++	// ODM Write
++	//1 PHY_STATUS_INFO
++	u1Byte		RSSI_Path[4];		// 
++	u1Byte		RSSI_Ave;
++	u1Byte		RXEVM[4];
++	u1Byte		RXSNR[4];
++
++	// ODM Write
++	//1 TX_INFO (may changed by IC)
++	//TX_INFO_T		pTxInfo;				// Define in IC folder. Move lower layer.
++#if 0
++	u1Byte		ANTSEL_A;			//in Jagar: 4bit; others: 2bit
++	u1Byte		ANTSEL_B;			//in Jagar: 4bit; others: 2bit
++	u1Byte		ANTSEL_C;			//only in Jagar: 4bit
++	u1Byte		ANTSEL_D;			//only in Jagar: 4bit
++	u1Byte		TX_ANTL;			//not in Jagar: 2bit
++	u1Byte		TX_ANT_HT;			//not in Jagar: 2bit
++	u1Byte		TX_ANT_CCK;			//not in Jagar: 2bit
++	u1Byte		TXAGC_A;			//not in Jagar: 4bit
++	u1Byte		TXAGC_B;			//not in Jagar: 4bit
++	u1Byte		TXPWR_OFFSET;		//only in Jagar: 3bit
++	u1Byte		TX_ANT;				//only in Jagar: 4bit for TX_ANTL/TX_ANTHT/TX_ANT_CCK
++#endif
++
++	//
++	// 	Please use compile flag to disabe the strcutrue for other IC except 88E.
++	//	Move To lower layer.
++	//
++	// ODM Write Wilson will handle this part(said by Luke.Lee)
++	//TX_RPT_T		pTxRpt;				// Define in IC folder. Move lower layer.
++#if 0	
++	//1 For 88E RA (don't redefine the naming)
++	u1Byte		rate_id;
++	u1Byte		rate_SGI;
++	u1Byte		rssi_sta_ra;
++	u1Byte		SGI_enable;
++	u1Byte		Decision_rate;
++	u1Byte		Pre_rate;
++	u1Byte		Active;
++
++	// Driver write Wilson handle.
++	//1 TX_RPT (don't redefine the naming)
++	u2Byte		RTY[4];				// ???
++	u2Byte		TOTAL;				// ???
++	u2Byte		DROP;				// ???
++	//
++	// Please use compile flag to disabe the strcutrue for other IC except 88E.
++	//
++#endif
++
++}ODM_STA_INFO_T, *PODM_STA_INFO_T;
++#endif
++
++//
++// 2011/10/20 MH Define Common info enum for all team.
++//
++typedef enum _ODM_Common_Info_Definition
++{
++//-------------REMOVED CASE-----------//
++	//ODM_CMNINFO_CCK_HP,
++	//ODM_CMNINFO_RFPATH_ENABLE,		// Define as ODM write???	
++	//ODM_CMNINFO_BT_COEXIST,				// ODM_BT_COEXIST_E
++	//ODM_CMNINFO_OP_MODE,				// ODM_OPERATION_MODE_E
++//-------------REMOVED CASE-----------//
++
++	//
++	// Fixed value:
++	//
++
++	//-----------HOOK BEFORE REG INIT-----------//
++	ODM_CMNINFO_PLATFORM = 0,
++	ODM_CMNINFO_ABILITY,					// ODM_ABILITY_E
++	ODM_CMNINFO_INTERFACE,				// ODM_INTERFACE_E
++	ODM_CMNINFO_MP_TEST_CHIP,
++	ODM_CMNINFO_IC_TYPE,					// ODM_IC_TYPE_E
++	ODM_CMNINFO_CUT_VER,					// ODM_CUT_VERSION_E
++	ODM_CMNINFO_FAB_VER,					// ODM_FAB_E
++	ODM_CMNINFO_RF_TYPE,					// ODM_RF_PATH_E or ODM_RF_TYPE_E?
++	ODM_CMNINFO_RFE_TYPE, 
++	ODM_CMNINFO_BOARD_TYPE,				// ODM_BOARD_TYPE_E
++	ODM_CMNINFO_PACKAGE_TYPE,
++	ODM_CMNINFO_EXT_LNA,					// TRUE
++	ODM_CMNINFO_5G_EXT_LNA,	
++	ODM_CMNINFO_EXT_PA,
++	ODM_CMNINFO_5G_EXT_PA,
++	ODM_CMNINFO_GPA,
++	ODM_CMNINFO_APA,
++	ODM_CMNINFO_GLNA,
++	ODM_CMNINFO_ALNA,
++	ODM_CMNINFO_EXT_TRSW,
++	ODM_CMNINFO_EXT_LNA_GAIN,
++	ODM_CMNINFO_PATCH_ID,				//CUSTOMER ID
++	ODM_CMNINFO_BINHCT_TEST,
++	ODM_CMNINFO_BWIFI_TEST,
++	ODM_CMNINFO_SMART_CONCURRENT,
++	ODM_CMNINFO_CONFIG_BB_RF,
++	ODM_CMNINFO_DOMAIN_CODE_2G,
++	ODM_CMNINFO_DOMAIN_CODE_5G,
++	ODM_CMNINFO_IQKFWOFFLOAD,
++	ODM_CMNINFO_IQKPAOFF,
++	ODM_CMNINFO_HUBUSBMODE,
++	ODM_CMNINFO_FWDWRSVDPAGEINPROGRESS,
++	ODM_CMNINFO_TX_TP,
++	ODM_CMNINFO_RX_TP,
++	ODM_CMNINFO_SOUNDING_SEQ,
++	ODM_CMNINFO_REGRFKFREEENABLE,
++	ODM_CMNINFO_RFKFREEENABLE,
++	//-----------HOOK BEFORE REG INIT-----------//	
++
++
++	//
++	// Dynamic value:
++	//
++//--------- POINTER REFERENCE-----------//
++	ODM_CMNINFO_MAC_PHY_MODE,			// ODM_MAC_PHY_MODE_E
++	ODM_CMNINFO_TX_UNI,
++	ODM_CMNINFO_RX_UNI,
++	ODM_CMNINFO_WM_MODE,				// ODM_WIRELESS_MODE_E
++	ODM_CMNINFO_BAND,					// ODM_BAND_TYPE_E
++	ODM_CMNINFO_SEC_CHNL_OFFSET,		// ODM_SEC_CHNL_OFFSET_E
++	ODM_CMNINFO_SEC_MODE,				// ODM_SECURITY_E
++	ODM_CMNINFO_BW,						// ODM_BW_E
++	ODM_CMNINFO_CHNL,
++	ODM_CMNINFO_FORCED_RATE,
++	
++	ODM_CMNINFO_DMSP_GET_VALUE,
++	ODM_CMNINFO_BUDDY_ADAPTOR,
++	ODM_CMNINFO_DMSP_IS_MASTER,
++	ODM_CMNINFO_SCAN,
++	ODM_CMNINFO_POWER_SAVING,
++	ODM_CMNINFO_ONE_PATH_CCA,			// ODM_CCA_PATH_E
++	ODM_CMNINFO_DRV_STOP,
++	ODM_CMNINFO_PNP_IN,
++	ODM_CMNINFO_INIT_ON,
++	ODM_CMNINFO_ANT_TEST,
++	ODM_CMNINFO_NET_CLOSED,
++	//ODM_CMNINFO_RTSTA_AID,				// For win driver only?
++	ODM_CMNINFO_FORCED_IGI_LB,
++	ODM_CMNINFO_P2P_LINK,
++	ODM_CMNINFO_FCS_MODE,
++	ODM_CMNINFO_IS1ANTENNA,
++	ODM_CMNINFO_RFDEFAULTPATH,
++	ODM_CMNINFO_DFS_MASTER_ENABLE,
++	ODM_CMNINFO_FORCE_TX_ANT_BY_TXDESC,
++//--------- POINTER REFERENCE-----------//
++
++//------------CALL BY VALUE-------------//
++	ODM_CMNINFO_WIFI_DIRECT,
++	ODM_CMNINFO_WIFI_DISPLAY,
++	ODM_CMNINFO_LINK_IN_PROGRESS,			
++	ODM_CMNINFO_LINK,
++	ODM_CMNINFO_STATION_STATE,
++	ODM_CMNINFO_RSSI_MIN,
++	ODM_CMNINFO_DBG_COMP,				/* u4SByte*/
++	ODM_CMNINFO_DBG_LEVEL,				/* u4Byte*/
++	ODM_CMNINFO_RA_THRESHOLD_HIGH,		/* u1Byte*/
++	ODM_CMNINFO_RA_THRESHOLD_LOW,		/* u1Byte*/
++	ODM_CMNINFO_RF_ANTENNA_TYPE,			/* u1Byte*/
++	ODM_CMNINFO_WITH_EXT_ANTENNA_SWITCH,
++	ODM_CMNINFO_BE_FIX_TX_ANT,
++	ODM_CMNINFO_BT_ENABLED,
++	ODM_CMNINFO_BT_HS_CONNECT_PROCESS,
++	ODM_CMNINFO_BT_HS_RSSI,
++	ODM_CMNINFO_BT_OPERATION,
++	ODM_CMNINFO_BT_LIMITED_DIG,					//Need to Limited Dig or not
++	ODM_CMNINFO_BT_DIG,
++	ODM_CMNINFO_BT_BUSY,					//Check Bt is using or not//neil	
++	ODM_CMNINFO_BT_DISABLE_EDCA,
++#if(DM_ODM_SUPPORT_TYPE & ODM_AP)		// for repeater mode add by YuChen 2014.06.23
++#ifdef UNIVERSAL_REPEATER
++	ODM_CMNINFO_VXD_LINK,
++#endif
++#endif
++	ODM_CMNINFO_AP_TOTAL_NUM,
++	ODM_CMNINFO_POWER_TRAINING,
++	ODM_CMNINFO_DFS_REGION_DOMAIN,
++//------------CALL BY VALUE-------------//
++
++	//
++	// Dynamic ptr array hook itms.
++	//
++	ODM_CMNINFO_STA_STATUS,
++	ODM_CMNINFO_PHY_STATUS,
++	ODM_CMNINFO_MAC_STATUS,
++	
++	ODM_CMNINFO_MAX,
++
++
++}ODM_CMNINFO_E;
++
++typedef enum _PHYDM_Info_query_type {
++	PHYDM_INFO_FA_OFDM,
++	PHYDM_INFO_FA_CCK,
++	PHYDM_INFO_FA_TOTAL,
++	PHYDM_INFO_CCA_OFDM,
++	PHYDM_INFO_CCA_CCK,
++	PHYDM_INFO_CCA_ALL,
++	PHYDM_INFO_CRC32_OK_VHT,
++	PHYDM_INFO_CRC32_OK_HT,
++	PHYDM_INFO_CRC32_OK_LEGACY,
++	PHYDM_INFO_CRC32_OK_CCK,
++	PHYDM_INFO_CRC32_ERROR_VHT,
++	PHYDM_INFO_CRC32_ERROR_HT,
++	PHYDM_INFO_CRC32_ERROR_LEGACY,
++	PHYDM_INFO_CRC32_ERROR_CCK,
++	PHYDM_INFO_EDCCA_FLAG,
++	PHYDM_INFO_OFDM_ENABLE,
++	PHYDM_INFO_CCK_ENABLE,
++	PHYDM_INFO_DBG_PORT_0
++} PHYDM_INFO_QUERY_E;
++
++//
++// 2011/10/20 MH Define ODM support ability.  ODM_CMNINFO_ABILITY
++//
++typedef enum _ODM_Support_Ability_Definition
++{
++	//
++	// BB ODM section BIT 0-19
++	//
++	ODM_BB_DIG					= BIT0,
++	ODM_BB_RA_MASK				= BIT1,
++	ODM_BB_DYNAMIC_TXPWR		= BIT2,
++	ODM_BB_FA_CNT					= BIT3,
++	ODM_BB_RSSI_MONITOR			= BIT4,
++	ODM_BB_CCK_PD					= BIT5,
++	ODM_BB_ANT_DIV				= BIT6,
++	ODM_BB_PWR_TRAIN				= BIT8,
++	ODM_BB_RATE_ADAPTIVE			= BIT9,
++	ODM_BB_PATH_DIV				= BIT10,
++	ODM_BB_ADAPTIVITY				= BIT13,
++	ODM_BB_CFO_TRACKING			= BIT14,
++	ODM_BB_NHM_CNT				= BIT15,
++	ODM_BB_PRIMARY_CCA			= BIT16,
++	ODM_BB_TXBF					= BIT17,
++	ODM_BB_DYNAMIC_ARFR			= BIT18,
++	
++	//
++	// MAC DM section BIT 20-23
++	//
++	ODM_MAC_EDCA_TURBO			= BIT20,
++	ODM_MAC_EARLY_MODE			= BIT21,
++	
++	//
++	// RF ODM section BIT 24-31
++	//
++	ODM_RF_TX_PWR_TRACK			= BIT24,
++	ODM_RF_RX_GAIN_TRACK			= BIT25,
++	ODM_RF_CALIBRATION			= BIT26,
++	
++}ODM_ABILITY_E;
++
++
++// ODM_CMNINFO_ONE_PATH_CCA
++typedef enum tag_CCA_Path
++{
++	ODM_CCA_2R		= 0,
++	ODM_CCA_1R_A		= 1,
++	ODM_CCA_1R_B		= 2,
++}ODM_CCA_PATH_E;
++
++typedef enum CCA_PATHDIV_EN {
++	CCA_PATHDIV_DISABLE		= 0,
++	CCA_PATHDIV_ENABLE		= 1,
++
++} CCA_PATHDIV_EN_E;
++
++
++typedef enum _BASEBAND_CONFIG_PHY_REG_PG_VALUE_TYPE{
++	PHY_REG_PG_RELATIVE_VALUE = 0,
++	PHY_REG_PG_EXACT_VALUE = 1
++} PHY_REG_PG_TYPE;
++
++//
++// 2011/09/22 MH Copy from SD4 defined structure. We use to support PHY DM integration.
++//
++#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++#if (RT_PLATFORM != PLATFORM_LINUX)
++typedef 
++#endif
++	
++struct DM_Out_Source_Dynamic_Mechanism_Structure
++#else// for AP,ADSL,CE Team
++typedef  struct DM_Out_Source_Dynamic_Mechanism_Structure
++#endif
++{
++	//	Add for different team use temporarily
++	//
++	PADAPTER		Adapter;		// For CE/NIC team
++	prtl8192cd_priv	priv;			// For AP/ADSL team
++	// WHen you use Adapter or priv pointer, you must make sure the pointer is ready.
++	BOOLEAN			odm_ready;
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++	rtl8192cd_priv		fake_priv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	// ADSL_AP_BUILD_WORKAROUND
++	ADAPTER			fake_adapter;
++#endif
++	
++	PHY_REG_PG_TYPE		PhyRegPgValueType;
++	u1Byte				PhyRegPgVersion;
++
++	u4Byte			DebugComponents;
++	u4Byte			DebugLevel;
++	
++	u4Byte			NumQryPhyStatusAll; 	//CCK + OFDM
++	u4Byte			LastNumQryPhyStatusAll; 
++	u4Byte			RxPWDBAve;
++	BOOLEAN			MPDIG_2G; 		//off MPDIG
++	u1Byte			Times_2G;
++	BOOLEAN			bInitHwInfoByRfe;
++	
++//------ ODM HANDLE, DRIVER NEEDS NOT TO HOOK------//
++	BOOLEAN			bCckHighPower; 
++	u1Byte			RFPathRxEnable;		// ODM_CMNINFO_RFPATH_ENABLE
++	u1Byte			ControlChannel;
++//------ ODM HANDLE, DRIVER NEEDS NOT TO HOOK------//
++
++//--------REMOVED COMMON INFO----------//
++	//u1Byte				PseudoMacPhyMode;
++	//BOOLEAN			*BTCoexist;
++	//BOOLEAN			PseudoBtCoexist;
++	//u1Byte				OPMode;
++	//BOOLEAN			bAPMode;
++	//BOOLEAN			bClientMode;
++	//BOOLEAN			bAdHocMode;
++	//BOOLEAN			bSlaveOfDMSP;
++//--------REMOVED COMMON INFO----------//
++
++
++//1  COMMON INFORMATION
++
++	//
++	// Init Value
++	//
++//-----------HOOK BEFORE REG INIT-----------//	
++	// ODM Platform info AP/ADSL/CE/MP = 1/2/3/4
++	u1Byte			SupportPlatform;		
++	// ODM Support Ability DIG/RATR/TX_PWR_TRACK/ ¡K¡K = 1/2/3/¡K
++	u4Byte			SupportAbility;
++	// ODM PCIE/USB/SDIO = 1/2/3
++	u1Byte			SupportInterface;			
++	// ODM composite or independent. Bit oriented/ 92C+92D+ .... or any other type = 1/2/3/...
++	u4Byte			SupportICType;	
++	// Cut Version TestChip/A-cut/B-cut... = 0/1/2/3/...
++	u1Byte			CutVersion;
++	// Fab Version TSMC/UMC = 0/1
++	u1Byte			FabVersion;
++	// RF Type 4T4R/3T3R/2T2R/1T2R/1T1R/...
++	u1Byte			RFType;
++	u1Byte			RFEType;	
++	// Board Type Normal/HighPower/MiniCard/SLIM/Combo/... = 0/1/2/3/4/...
++	u1Byte			BoardType;
++	u1Byte			PackageType;
++	u2Byte			TypeGLNA;
++	u2Byte			TypeGPA;
++	u2Byte			TypeALNA;
++	u2Byte			TypeAPA;
++	// with external LNA  NO/Yes = 0/1
++	u1Byte			ExtLNA; // 2G
++	u1Byte			ExtLNA5G; //5G
++	// with external PA  NO/Yes = 0/1
++	u1Byte			ExtPA; // 2G
++	u1Byte			ExtPA5G; //5G
++	// with external TRSW  NO/Yes = 0/1
++	u1Byte			ExtTRSW;
++	u1Byte			ExtLNAGain; // 2G
++	u1Byte			PatchID; //Customer ID
++	BOOLEAN			bInHctTest;
++	u1Byte			WIFITest;
++
++	BOOLEAN			bDualMacSmartConcurrent;
++	u4Byte			BK_SupportAbility;
++	u1Byte			AntDivType;
++	u1Byte			with_extenal_ant_switch;
++	BOOLEAN			ConfigBBRF;
++	u1Byte			odm_Regulation2_4G;
++	u1Byte			odm_Regulation5G;
++	u1Byte			IQKFWOffload;
++	BOOLEAN			cck_new_agc;
++//-----------HOOK BEFORE REG INIT-----------//	
++
++	//
++	// Dynamic Value
++	//	
++//--------- POINTER REFERENCE-----------//
++
++	u1Byte			u1Byte_temp;
++	BOOLEAN			BOOLEAN_temp;
++	PADAPTER		PADAPTER_temp;
++	
++	// MAC PHY Mode SMSP/DMSP/DMDP = 0/1/2
++	u1Byte			*pMacPhyMode;
++	//TX Unicast byte count
++	u8Byte			*pNumTxBytesUnicast;
++	//RX Unicast byte count
++	u8Byte			*pNumRxBytesUnicast;
++	// Wireless mode B/G/A/N = BIT0/BIT1/BIT2/BIT3
++	u1Byte			*pWirelessMode; //ODM_WIRELESS_MODE_E
++	// Frequence band 2.4G/5G = 0/1
++	u1Byte			*pBandType;
++	// Secondary channel offset don't_care/below/above = 0/1/2
++	u1Byte			*pSecChOffset;
++	// Security mode Open/WEP/AES/TKIP = 0/1/2/3
++	u1Byte			*pSecurity;
++	// BW info 20M/40M/80M = 0/1/2
++	u1Byte			*pBandWidth;
++ 	// Central channel location Ch1/Ch2/....
++	u1Byte			*pChannel;	//central channel number
++	BOOLEAN			DPK_Done;
++	// Common info for 92D DMSP
++	
++	BOOLEAN			*pbGetValueFromOtherMac;
++	PADAPTER		*pBuddyAdapter;
++	BOOLEAN			*pbMasterOfDMSP; //MAC0: master, MAC1: slave
++	// Common info for Status
++	BOOLEAN			*pbScanInProcess;
++	BOOLEAN			*pbPowerSaving;
++	// CCA Path 2-path/path-A/path-B = 0/1/2; using ODM_CCA_PATH_E.
++	u1Byte			*pOnePathCCA;
++	//pMgntInfo->AntennaTest
++	u1Byte			*pAntennaTest;
++	BOOLEAN			*pbNet_closed;
++	//u1Byte			*pAidMap;
++	u1Byte			*pu1ForcedIgiLb;
++	BOOLEAN			*pIsFcsModeEnable;
++/*--------- For 8723B IQK-----------*/
++	BOOLEAN			*pIs1Antenna;
++	u1Byte			*pRFDefaultPath;
++	// 0:S1, 1:S0
++	
++//--------- POINTER REFERENCE-----------//
++	pu2Byte			pForcedDataRate;
++	pu1Byte			HubUsbMode;
++	BOOLEAN			*pbFwDwRsvdPageInProgress;
++	u4Byte			*pCurrentTxTP;
++	u4Byte			*pCurrentRxTP;
++	u1Byte			*pSoundingSeq;
++//------------CALL BY VALUE-------------//
++	BOOLEAN			bLinkInProcess;
++	BOOLEAN			bWIFI_Direct;
++	BOOLEAN			bWIFI_Display;
++	BOOLEAN			bLinked;
++	BOOLEAN			bsta_state;
++#if(DM_ODM_SUPPORT_TYPE & ODM_AP)		// for repeater mode add by YuChen 2014.06.23
++#ifdef UNIVERSAL_REPEATER
++	BOOLEAN			VXD_bLinked;
++#endif
++#endif									// for repeater mode add by YuChen 2014.06.23	
++	u1Byte			RSSI_Min;	
++	u1Byte			InterfaceIndex; /*Add for 92D  dual MAC: 0--Mac0 1--Mac1*/
++	BOOLEAN			bIsMPChip;
++	BOOLEAN			bOneEntryOnly;
++	BOOLEAN			mp_mode;
++	u4Byte			OneEntry_MACID;
++	u1Byte			pre_number_linked_client;	
++	u1Byte			number_linked_client;
++	u1Byte			pre_number_active_client;	
++	u1Byte			number_active_client;
++	// Common info for BTDM
++	BOOLEAN			bBtEnabled;			// BT is enabled
++	BOOLEAN			bBtConnectProcess;	// BT HS is under connection progress.
++	u1Byte			btHsRssi;				// BT HS mode wifi rssi value.
++	BOOLEAN			bBtHsOperation;		// BT HS mode is under progress
++	u1Byte			btHsDigVal;			// use BT rssi to decide the DIG value
++	BOOLEAN			bBtDisableEdcaTurbo;	// Under some condition, don't enable the EDCA Turbo
++	BOOLEAN			bBtBusy;   			// BT is busy.
++	BOOLEAN			bBtLimitedDig;   		// BT is busy.
++	BOOLEAN			bDisablePhyApi;
++//------------CALL BY VALUE-------------//
++	u1Byte			RSSI_A;
++	u1Byte			RSSI_B;
++	u1Byte			RSSI_C;
++	u1Byte			RSSI_D;
++	u8Byte			RSSI_TRSW;	
++	u8Byte			RSSI_TRSW_H;
++	u8Byte			RSSI_TRSW_L;	
++	u8Byte			RSSI_TRSW_iso;
++	u1Byte			TXAntStatus;
++	u1Byte			RXAntStatus;
++	u1Byte			cck_lna_idx;
++	u1Byte			cck_vga_idx;
++	u1Byte			curr_station_id;
++	u1Byte			ofdm_agc_idx[4];
++
++	u1Byte			RxRate;
++	BOOLEAN			bNoisyState;
++	u1Byte			TxRate;
++	u1Byte			LinkedInterval;
++	u1Byte			preChannel;
++	u4Byte			TxagcOffsetValueA;
++	BOOLEAN			IsTxagcOffsetPositiveA;
++	u4Byte			TxagcOffsetValueB;
++	BOOLEAN			IsTxagcOffsetPositiveB;
++	u4Byte			tx_tp;
++	u4Byte			rx_tp;
++	u4Byte			total_tp;
++	u8Byte			curTxOkCnt;
++	u8Byte			curRxOkCnt;	
++	u8Byte			lastTxOkCnt;
++	u8Byte			lastRxOkCnt;
++	u4Byte			BbSwingOffsetA;
++	BOOLEAN			IsBbSwingOffsetPositiveA;
++	u4Byte			BbSwingOffsetB;
++	BOOLEAN			IsBbSwingOffsetPositiveB;
++	u1Byte			IGI_LowerBound;
++	u1Byte			IGI_UpperBound;
++	u1Byte			antdiv_rssi;
++	u1Byte			fat_comb_a;
++	u1Byte			fat_comb_b;
++	u1Byte			antdiv_intvl;
++	u1Byte			AntType;
++	u1Byte			pre_AntType;
++	u1Byte			antdiv_period;
++	u1Byte			antdiv_select;
++	u1Byte			path_select;	
++	u1Byte			antdiv_evm_en;
++	u1Byte			bdc_holdstate;
++	u1Byte			NdpaPeriod;
++	BOOLEAN			H2C_RARpt_connect;
++	BOOLEAN			cck_agc_report_type;
++	
++	u1Byte			dm_dig_max_TH;
++	u1Byte 			dm_dig_min_TH;
++	u1Byte 			print_agc;
++	u1Byte			TrafficLoad;
++	u1Byte			pre_TrafficLoad;
++
++
++	//For Adaptivtiy
++	u2Byte			NHM_cnt_0;
++	u2Byte			NHM_cnt_1;
++	s1Byte			TH_L2H_default;
++	s1Byte			TH_EDCCA_HL_diff_default;
++	s1Byte			TH_L2H_ini;
++	s1Byte			TH_EDCCA_HL_diff;
++	s1Byte			TH_L2H_ini_mode2;
++	s1Byte			TH_EDCCA_HL_diff_mode2;
++	BOOLEAN			Carrier_Sense_enable;
++	u1Byte			Adaptivity_IGI_upper;
++	BOOLEAN			adaptivity_flag;
++	u1Byte			DCbackoff;
++	BOOLEAN			Adaptivity_enable;
++	u1Byte			APTotalNum;
++	BOOLEAN			EDCCA_enable;
++	ADAPTIVITY_STATISTICS	Adaptivity;
++	//For Adaptivtiy
++	u1Byte			LastUSBHub;
++	u1Byte			TxBfDataRate;
++
++	u1Byte			nbi_set_result;
++	
++	u1Byte			c2h_cmd_start;
++	u1Byte			fw_debug_trace[60]; 
++	u1Byte			pre_c2h_seq;
++	BOOLEAN			fw_buff_is_enpty;
++	u4Byte			data_frame_num;
++
++	/*for noise detection*/
++	BOOLEAN			NoisyDecision; /*b_noisy*/
++	BOOLEAN			pre_b_noisy;	
++	u4Byte			NoisyDecision_Smooth;
++
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_CE|ODM_WIN))
++	ODM_NOISE_MONITOR noise_level;//[ODM_MAX_CHANNEL_NUM];
++#endif
++	//
++	//2 Define STA info.
++	// _ODM_STA_INFO
++	// 2012/01/12 MH For MP, we need to reduce one array pointer for default port.??
++	PSTA_INFO_T		pODM_StaInfo[ODM_ASSOCIATE_ENTRY_NUM];
++	u2Byte			platform2phydm_macid_table[ODM_ASSOCIATE_ENTRY_NUM];		/* platform_macid_table[platform_macid] = phydm_macid */
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++	s4Byte			AccumulatePWDB[ODM_ASSOCIATE_ENTRY_NUM];
++#endif
++
++#if (RATE_ADAPTIVE_SUPPORT == 1)
++	u2Byte 			CurrminRptTime;
++	ODM_RA_INFO_T   RAInfo[ODM_ASSOCIATE_ENTRY_NUM]; //Use MacID as array index. STA MacID=0, VWiFi Client MacID={1, ODM_ASSOCIATE_ENTRY_NUM-1} //YJ,add,120119
++#endif
++	//
++	// 2012/02/14 MH Add to share 88E ra with other SW team.
++	// We need to colelct all support abilit to a proper area.
++	//
++	BOOLEAN				RaSupport88E;
++
++	// Define ...........
++
++	// Latest packet phy info (ODM write)
++	ODM_PHY_DBG_INFO_T	 PhyDbgInfo;
++	//PHY_INFO_88E		PhyInfo;
++
++	// Latest packet phy info (ODM write)
++	ODM_MAC_INFO		*pMacInfo;
++	//MAC_INFO_88E		MacInfo;
++
++	// Different Team independt structure??
++
++	//
++	//TX_RTP_CMN		TX_retrpo;
++	//TX_RTP_88E		TX_retrpo;
++	//TX_RTP_8195		TX_retrpo;
++
++	//
++	//ODM Structure
++	//
++#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	BDC_T					DM_BdcTable;
++	#endif
++	
++	#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++	SAT_T						dm_sat_table;
++	#endif
++	
++#endif
++	FAT_T						DM_FatTable;
++	DIG_T						DM_DigTable;
++
++	PS_T						DM_PSTable;
++	Pri_CCA_T					DM_PriCCA;
++	RA_T						DM_RA_Table;  
++	FALSE_ALARM_STATISTICS		FalseAlmCnt;
++	FALSE_ALARM_STATISTICS		FlaseAlmCntBuddyAdapter;
++	SWAT_T						DM_SWAT_Table;
++	CFO_TRACKING    				DM_CfoTrack;
++	ACS							DM_ACS;
++	CCX_INFO					DM_CCX_INFO;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	RT_ADCSMP					adcsmp;
++#endif
++
++#if (RTL8814A_SUPPORT == 1 || RTL8822B_SUPPORT == 1)
++	IQK_INFO	IQK_info;
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	//Path Div Struct
++	PATHDIV_PARA	pathIQK;
++#endif
++#if(defined(CONFIG_PATH_DIVERSITY))
++	PATHDIV_T	DM_PathDiv;
++#endif	
++
++	EDCA_T		DM_EDCA_Table;
++	u4Byte		WMMEDCA_BE;
++
++	// Copy from SD4 structure
++	//
++	// ==================================================
++	//
++
++	//common
++	//u1Byte		DM_Type;	
++	//u1Byte    PSD_Report_RXHP[80];   // Add By Gary
++	//u1Byte    PSD_func_flag;               // Add By Gary
++	//for DIG
++	//u1Byte		bDMInitialGainEnable;
++	//u1Byte		binitialized; // for dm_initial_gain_Multi_STA use.
++
++	BOOLEAN			*pbDriverStopped;
++	BOOLEAN			*pbDriverIsGoingToPnpSetPowerSleep;
++	BOOLEAN			*pinit_adpt_in_progress;
++
++	//PSD
++	BOOLEAN			bUserAssignLevel;
++	u1Byte			RSSI_BT;				/*come from BT*/
++	BOOLEAN			bPSDinProcess;
++	BOOLEAN			bPSDactive;
++	BOOLEAN			bDMInitialGainEnable;
++
++	//MPT DIG
++	RT_TIMER 		MPT_DIGTimer;
++	
++	//for rate adaptive, in fact,  88c/92c fw will handle this
++	u1Byte			bUseRAMask;
++
++	ODM_RATE_ADAPTIVE	RateAdaptive;
++	#if (defined(CONFIG_ANT_DETECTION))
++	ANT_DETECTED_INFO	AntDetectedInfo;	/* Antenna detected information for RSSI tool*/
++	#endif
++	ODM_RF_CAL_T	RFCalibrateInfo;
++	u4Byte			nIQK_Cnt;
++	u4Byte			nIQK_OK_Cnt;
++	u4Byte			nIQK_Fail_Cnt;
++
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))	
++	//
++	// Power Training
++	//
++	u1Byte			ForcePowerTrainingState;
++	BOOLEAN			bChangeState;
++	u4Byte			PT_score;
++	u8Byte			OFDM_RX_Cnt;
++	u8Byte			CCK_RX_Cnt;
++#endif
++	BOOLEAN			bDisablePowerTraining;
++	u1Byte			DynamicTxHighPowerLvl;
++	u1Byte			LastDTPLvl;
++	u4Byte			tx_agc_ofdm_18_6;
++	u1Byte			rx_pkt_type;
++
++	//
++	// ODM system resource.
++	//
++
++	// ODM relative time.
++	RT_TIMER	PathDivSwitchTimer;
++	//2011.09.27 add for Path Diversity
++	RT_TIMER	CCKPathDiversityTimer;
++	RT_TIMER 	FastAntTrainingTimer;
++	#ifdef ODM_EVM_ENHANCE_ANTDIV
++	RT_TIMER 			EVM_FastAntTrainingTimer;
++	#endif
++	RT_TIMER		sbdcnt_timer;
++
++	// ODM relative workitem.
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#if USE_WORKITEM
++	RT_WORK_ITEM			PathDivSwitchWorkitem;
++	RT_WORK_ITEM			CCKPathDiversityWorkitem;
++	RT_WORK_ITEM			FastAntTrainingWorkitem;
++	RT_WORK_ITEM			MPT_DIGWorkitem;
++	RT_WORK_ITEM			RaRptWorkitem;
++	RT_WORK_ITEM			sbdcnt_workitem;
++#endif
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++#if (BEAMFORMING_SUPPORT == 1)
++	RT_BEAMFORMING_INFO BeamformingInfo;
++#endif 
++#endif
++
++#ifdef CONFIG_PHYDM_DFS_MASTER
++	u1Byte DFS_RegionDomain;
++	pu1Byte dfs_master_enabled;
++
++	/*====== phydm_radar_detect_with_dbg_parm start ======*/
++	u1Byte radar_detect_dbg_parm_en;
++	u4Byte radar_detect_reg_918;
++	u4Byte radar_detect_reg_91c;
++	u4Byte radar_detect_reg_920;
++	u4Byte radar_detect_reg_924;
++	/*====== phydm_radar_detect_with_dbg_parm end ======*/
++#endif
++
++#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	
++#if (RT_PLATFORM != PLATFORM_LINUX)
++} DM_ODM_T, *PDM_ODM_T;		// DM_Dynamic_Mechanism_Structure
++#else
++};
++#endif	
++
++#else// for AP,ADSL,CE Team
++} DM_ODM_T, *PDM_ODM_T;		// DM_Dynamic_Mechanism_Structure
++#endif
++
++
++typedef enum _PHYDM_STRUCTURE_TYPE{
++	PHYDM_FALSEALMCNT,
++	PHYDM_CFOTRACK,
++	PHYDM_ADAPTIVITY,
++	PHYDM_ROMINFO,
++	
++}PHYDM_STRUCTURE_TYPE;
++
++
++
++ typedef enum _ODM_RF_CONTENT{
++	odm_radioa_txt = 0x1000,
++	odm_radiob_txt = 0x1001,
++	odm_radioc_txt = 0x1002,
++	odm_radiod_txt = 0x1003
++} ODM_RF_CONTENT;
++
++typedef enum _ODM_BB_Config_Type{
++	CONFIG_BB_PHY_REG,   
++	CONFIG_BB_AGC_TAB,   
++	CONFIG_BB_AGC_TAB_2G,
++	CONFIG_BB_AGC_TAB_5G, 
++	CONFIG_BB_PHY_REG_PG,
++	CONFIG_BB_PHY_REG_MP,
++	CONFIG_BB_AGC_TAB_DIFF,
++} ODM_BB_Config_Type, *PODM_BB_Config_Type;
++
++typedef enum _ODM_RF_Config_Type{ 
++	CONFIG_RF_RADIO,
++    CONFIG_RF_TXPWR_LMT,
++} ODM_RF_Config_Type, *PODM_RF_Config_Type;
++
++typedef enum _ODM_FW_Config_Type{
++    CONFIG_FW_NIC,
++    CONFIG_FW_NIC_2,
++    CONFIG_FW_AP,
++    CONFIG_FW_AP_2,
++    CONFIG_FW_MP,
++    CONFIG_FW_WoWLAN,
++    CONFIG_FW_WoWLAN_2,
++    CONFIG_FW_AP_WoWLAN,
++    CONFIG_FW_BT,
++} ODM_FW_Config_Type;
++
++// Status code
++#if (DM_ODM_SUPPORT_TYPE != ODM_WIN)
++typedef enum _RT_STATUS{
++	RT_STATUS_SUCCESS,
++	RT_STATUS_FAILURE,
++	RT_STATUS_PENDING,
++	RT_STATUS_RESOURCE,
++	RT_STATUS_INVALID_CONTEXT,
++	RT_STATUS_INVALID_PARAMETER,
++	RT_STATUS_NOT_SUPPORT,
++	RT_STATUS_OS_API_FAILED,
++}RT_STATUS,*PRT_STATUS;
++#endif // end of RT_STATUS definition
++
++#ifdef REMOVE_PACK
++#pragma pack()
++#endif
++
++//3===========================================================
++//3 AGC RX High Power Mode
++//3===========================================================
++#define          LNA_Low_Gain_1                      0x64
++#define          LNA_Low_Gain_2                      0x5A
++#define          LNA_Low_Gain_3                      0x58
++
++#define          FA_RXHP_TH1                           5000
++#define          FA_RXHP_TH2                           1500
++#define          FA_RXHP_TH3                             800
++#define          FA_RXHP_TH4                             600
++#define          FA_RXHP_TH5                             500
++
++typedef enum tag_1R_CCA_Type_Definition
++{
++	CCA_1R =0,
++	CCA_2R = 1,
++	CCA_MAX = 2,
++}DM_1R_CCA_E;
++
++typedef enum tag_RF_Type_Definition
++{
++	RF_Save =0,
++	RF_Normal = 1,
++	RF_MAX = 2,
++}DM_RF_E;
++
++//
++// check Sta pointer valid or not
++//
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++#define IS_STA_VALID(pSta)		(pSta && pSta->expire_to)
++#elif (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++#define IS_STA_VALID(pSta)		(pSta && pSta->bUsed)
++#else
++#define IS_STA_VALID(pSta)		(pSta)
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_AP))
++
++BOOLEAN
++ODM_CheckPowerStatus(
++	IN	PADAPTER		Adapter
++	);
++
++#endif
++
++
++
++u4Byte odm_ConvertTo_dB(u4Byte Value);
++
++u4Byte odm_ConvertTo_linear(u4Byte Value);
++
++#if((DM_ODM_SUPPORT_TYPE==ODM_WIN)||(DM_ODM_SUPPORT_TYPE==ODM_CE))
++
++u4Byte
++GetPSDData(
++	PDM_ODM_T	pDM_Odm,
++	unsigned int 	point,
++	u1Byte initial_gain_psd);
++
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)	
++VOID
++ODM_DMWatchdog_LPS(
++	IN		PDM_ODM_T		pDM_Odm
++);
++#endif
++
++
++s4Byte
++ODM_PWdB_Conversion(
++    IN  s4Byte X,
++    IN  u4Byte TotalBit,
++    IN  u4Byte DecimalBit
++    );
++
++s4Byte
++ODM_SignConversion(
++    IN  s4Byte value,
++    IN  u4Byte TotalBit
++    );
++
++void
++phydm_seq_sorting( 
++	IN		PVOID	pDM_VOID,
++	IN OUT	u4Byte	*p_value,
++	IN OUT	u4Byte	*rank_idx,	
++	IN OUT	u4Byte	*p_idx_out,	
++	IN		u1Byte	seq_length
++);
++
++VOID 
++ODM_DMInit(
++ IN	PDM_ODM_T	pDM_Odm
++);
++
++VOID
++ODM_DMReset(
++	IN	PDM_ODM_T	pDM_Odm
++	);
++
++VOID
++phydm_support_ability_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++	);
++
++VOID
++phydm_config_trx_path(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte			*_used,
++	OUT		char			*output,
++	IN		u4Byte			*_out_len
++	);
++
++VOID
++ODM_DMWatchdog(
++	IN		PDM_ODM_T			pDM_Odm			// For common use in the future
++	);
++
++VOID
++ODM_CmnInfoInit(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		ODM_CMNINFO_E	CmnInfo,
++	IN		u4Byte			Value	
++	);
++
++VOID
++ODM_CmnInfoHook(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		ODM_CMNINFO_E	CmnInfo,
++	IN		PVOID			pValue	
++	);
++
++VOID
++ODM_CmnInfoPtrArrayHook(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		ODM_CMNINFO_E	CmnInfo,
++	IN		u2Byte			Index,
++	IN		PVOID			pValue	
++	);
++
++VOID
++ODM_CmnInfoUpdate(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		u4Byte			CmnInfo,
++	IN		u8Byte			Value	
++	);
++
++u4Byte
++PHYDM_CmnInfoQuery(
++	IN		PDM_ODM_T					pDM_Odm,
++	IN		PHYDM_INFO_QUERY_E			info_type
++	);
++
++#if(DM_ODM_SUPPORT_TYPE==ODM_AP)
++VOID 
++ODM_InitAllThreads(
++    IN PDM_ODM_T	pDM_Odm 
++    );
++
++VOID
++ODM_StopAllThreads(
++	IN PDM_ODM_T	pDM_Odm 
++	);
++#endif
++
++VOID 
++ODM_InitAllTimers(
++    IN PDM_ODM_T	pDM_Odm 
++    );
++
++VOID 
++ODM_CancelAllTimers(
++    IN PDM_ODM_T    pDM_Odm 
++    );
++
++VOID
++ODM_ReleaseAllTimers(
++    IN PDM_ODM_T	pDM_Odm 
++    );
++
++
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID ODM_InitAllWorkItems(IN PDM_ODM_T	pDM_Odm );
++VOID ODM_FreeAllWorkItems(IN PDM_ODM_T	pDM_Odm );
++
++
++
++u8Byte
++PlatformDivision64(
++	IN u8Byte	x,
++	IN u8Byte	y
++);
++
++//====================================================
++//3 PathDiV End
++//====================================================
++
++
++#define DM_ChangeDynamicInitGainThresh		ODM_ChangeDynamicInitGainThresh
++
++typedef enum tag_DIG_Connect_Definition
++{
++	DIG_STA_DISCONNECT = 0,	
++	DIG_STA_CONNECT = 1,
++	DIG_STA_BEFORE_CONNECT = 2,
++	DIG_MultiSTA_DISCONNECT = 3,
++	DIG_MultiSTA_CONNECT = 4,
++	DIG_CONNECT_MAX
++}DM_DIG_CONNECT_E;
++
++
++//
++// 2012/01/12 MH Check afapter status. Temp fix BSOD.
++//
++#define	HAL_ADAPTER_STS_CHK(pDM_Odm)\
++	if (pDM_Odm->Adapter == NULL)\
++	{\
++		return;\
++	}\
++
++#endif	// #if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++VOID
++ODM_AsocEntry_Init(
++	IN		PDM_ODM_T		pDM_Odm
++	);
++
++
++PVOID
++PhyDM_Get_Structure(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		u1Byte			Structure_Type
++);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN) ||(DM_ODM_SUPPORT_TYPE == ODM_CE)
++/*===========================================================*/
++/* The following is for compile only*/
++/*===========================================================*/
++
++#define	IS_HARDWARE_TYPE_8723A(_Adapter)			FALSE
++#define	IS_HARDWARE_TYPE_8723AE(_Adapter)			FALSE
++#define	IS_HARDWARE_TYPE_8192C(_Adapter)			FALSE
++#define	IS_HARDWARE_TYPE_8192D(_Adapter)			FALSE
++#define	RF_T_METER_92D					0x42
++
++
++#define GET_RX_STATUS_DESC_RX_MCS(__pRxStatusDesc)				LE_BITS_TO_1BYTE( __pRxStatusDesc+12, 0, 6)
++
++#define		rConfig_ram64x16				0xb2c
++
++#define TARGET_CHNL_NUM_2G_5G	59
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++u1Byte GetRightChnlPlaceforIQK(u1Byte chnl);
++#endif
++
++//===========================================================
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++void odm_dtc(PDM_ODM_T pDM_Odm);
++#endif /* #if (DM_ODM_SUPPORT_TYPE == ODM_CE) */
++
++
++VOID phydm_NoisyDetection(IN	PDM_ODM_T	pDM_Odm	);
++
++
++#endif
++
++VOID
++phydm_nbi_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char			*output,
++	IN		u4Byte		*_out_len
++);
++
++u1Byte
++phydm_nbi_setting(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		enable,
++	IN		u4Byte		channel,
++	IN		u4Byte		bw,
++	IN		u4Byte		f_interference,
++	IN		u4Byte		Second_ch
++);
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_acs.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_acs.c
+new file mode 100644
+index 0000000..5227a3a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_acs.c
+@@ -0,0 +1,1226 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++
++u1Byte
++ODM_GetAutoChannelSelectResult(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Band
++)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PACS					pACS = &pDM_Odm->DM_ACS;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	if(Band == ODM_BAND_2_4G)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("[ACS] ODM_GetAutoChannelSelectResult(): CleanChannel_2G(%d)\n", pACS->CleanChannel_2G));
++		return (u1Byte)pACS->CleanChannel_2G;	
++	}
++	else
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("[ACS] ODM_GetAutoChannelSelectResult(): CleanChannel_5G(%d)\n", pACS->CleanChannel_5G));
++		return (u1Byte)pACS->CleanChannel_5G;	
++	}
++#else
++	return (u1Byte)pACS->CleanChannel_2G;
++#endif
++
++}
++
++VOID
++odm_AutoChannelSelectSetting(
++	IN		PVOID			pDM_VOID,
++	IN		BOOLEAN			IsEnable
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u2Byte						period = 0x2710;// 40ms in default
++	u2Byte						NHMType = 0x7;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("odm_AutoChannelSelectSetting()=========> \n"));
++
++	if(IsEnable)
++	{//20 ms
++		period = 0x1388;
++		NHMType = 0x1;
++	}
++
++	if(pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++	{
++		//PHY parameters initialize for ac series
++		ODM_Write2Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11AC+2, period);	//0x990[31:16]=0x2710	Time duration for NHM unit: 4us, 0x2710=40ms
++		//ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT8|BIT9|BIT10, NHMType);	//0x994[9:8]=3			enable CCX
++	}
++	else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++	{
++		//PHY parameters initialize for n series
++		ODM_Write2Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11N+2, period);	//0x894[31:16]=0x2710	Time duration for NHM unit: 4us, 0x2710=40ms
++		//ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT10|BIT9|BIT8, NHMType);	//0x890[9:8]=3			enable CCX		
++	}
++#endif
++}
++
++VOID
++odm_AutoChannelSelectInit(
++	IN		PVOID			pDM_VOID
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PACS						pACS = &pDM_Odm->DM_ACS;
++	u1Byte						i;
++
++	if(!(pDM_Odm->SupportAbility & ODM_BB_NHM_CNT))
++		return;
++
++	if(pACS->bForceACSResult)
++		return;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("odm_AutoChannelSelectInit()=========> \n"));
++
++	pACS->CleanChannel_2G = 1;
++	pACS->CleanChannel_5G = 36;
++
++	for (i = 0; i < ODM_MAX_CHANNEL_2G; ++i)
++	{
++		pACS->Channel_Info_2G[0][i] = 0;
++		pACS->Channel_Info_2G[1][i] = 0;
++	}
++
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++	{
++		for (i = 0; i < ODM_MAX_CHANNEL_5G; ++i)
++		{
++			pACS->Channel_Info_5G[0][i] = 0;
++			pACS->Channel_Info_5G[1][i] = 0;
++		}
++	}
++#endif
++}
++
++VOID
++odm_AutoChannelSelectReset(
++	IN		PVOID			pDM_VOID
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PACS						pACS = &pDM_Odm->DM_ACS;
++
++	if(!(pDM_Odm->SupportAbility & ODM_BB_NHM_CNT))
++		return;
++
++	if(pACS->bForceACSResult)
++		return;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("odm_AutoChannelSelectReset()=========> \n"));
++
++	odm_AutoChannelSelectSetting(pDM_Odm,TRUE);// for 20ms measurement
++	Phydm_NHMCounterStatisticsReset(pDM_Odm);
++#endif
++}
++
++VOID
++odm_AutoChannelSelect(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Channel
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PACS						pACS = &pDM_Odm->DM_ACS;
++	u1Byte						ChannelIDX = 0, SearchIDX = 0;
++	u2Byte						MaxScore=0;
++
++	if(!(pDM_Odm->SupportAbility & ODM_BB_NHM_CNT))
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_AutoChannelSelect(): Return: SupportAbility ODM_BB_NHM_CNT is disabled\n"));
++		return;
++	}
++
++	if(pACS->bForceACSResult)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_AutoChannelSelect(): Force 2G clean channel = %d, 5G clean channel = %d\n",
++			pACS->CleanChannel_2G, pACS->CleanChannel_5G));
++		return;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("odm_AutoChannelSelect(): Channel = %d=========> \n", Channel));
++
++	Phydm_GetNHMCounterStatistics(pDM_Odm);
++	odm_AutoChannelSelectSetting(pDM_Odm,FALSE);
++
++	if(Channel >=1 && Channel <=14)
++	{
++		ChannelIDX = Channel - 1;
++		pACS->Channel_Info_2G[1][ChannelIDX]++;
++		
++		if(pACS->Channel_Info_2G[1][ChannelIDX] >= 2)
++			pACS->Channel_Info_2G[0][ChannelIDX] = (pACS->Channel_Info_2G[0][ChannelIDX] >> 1) + 
++			(pACS->Channel_Info_2G[0][ChannelIDX] >> 2) + (pDM_Odm->NHM_cnt_0>>2);
++		else
++			pACS->Channel_Info_2G[0][ChannelIDX] = pDM_Odm->NHM_cnt_0;
++	
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("odm_AutoChannelSelect(): NHM_cnt_0 = %d \n", pDM_Odm->NHM_cnt_0));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("odm_AutoChannelSelect(): Channel_Info[0][%d] = %d, Channel_Info[1][%d] = %d\n", ChannelIDX, pACS->Channel_Info_2G[0][ChannelIDX], ChannelIDX, pACS->Channel_Info_2G[1][ChannelIDX]));
++
++		for(SearchIDX = 0; SearchIDX < ODM_MAX_CHANNEL_2G; SearchIDX++)
++		{
++			if(pACS->Channel_Info_2G[1][SearchIDX] != 0)
++			{
++				if(pACS->Channel_Info_2G[0][SearchIDX] >= MaxScore)
++				{
++					MaxScore = pACS->Channel_Info_2G[0][SearchIDX];
++					pACS->CleanChannel_2G = SearchIDX+1;
++				}
++			}
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("(1)odm_AutoChannelSelect(): 2G: CleanChannel_2G = %d, MaxScore = %d \n", 
++			pACS->CleanChannel_2G, MaxScore));
++
++	}
++	else if(Channel >= 36)
++	{
++		// Need to do
++		pACS->CleanChannel_5G = Channel;
++	}
++#endif
++}
++
++#if ( DM_ODM_SUPPORT_TYPE & ODM_AP )
++
++VOID
++phydm_AutoChannelSelectSettingAP(
++    IN  PVOID   pDM_VOID,
++    IN  u4Byte  setting,             // 0: STORE_DEFAULT_NHM_SETTING; 1: RESTORE_DEFAULT_NHM_SETTING, 2: ACS_NHM_SETTING
++    IN  u4Byte  acs_step
++)
++{
++    PDM_ODM_T           pDM_Odm = (PDM_ODM_T)pDM_VOID;
++    prtl8192cd_priv       priv           = pDM_Odm->priv;
++    PACS                    pACS         = &pDM_Odm->DM_ACS;
++
++    ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("odm_AutoChannelSelectSettingAP()=========> \n"));
++
++    //3 Store Default Setting
++    if(setting == STORE_DEFAULT_NHM_SETTING)
++    {
++        ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("STORE_DEFAULT_NHM_SETTING\n"));
++    
++        if(pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)     // store Reg0x990, Reg0x994, Reg0x998, Reg0x99C, Reg0x9a0
++        {
++            pACS->Reg0x990 = ODM_Read4Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11AC);                // Reg0x990
++            pACS->Reg0x994 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC);           // Reg0x994
++            pACS->Reg0x998 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC);       // Reg0x998
++            pACS->Reg0x99C = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC);       // Reg0x99c
++            pACS->Reg0x9A0 = ODM_Read1Byte(pDM_Odm, ODM_REG_NHM_TH8_11AC);                   // Reg0x9a0, u1Byte            
++        }
++        else if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++        {
++            pACS->Reg0x890 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N);             // Reg0x890
++            pACS->Reg0x894 = ODM_Read4Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11N);                  // Reg0x894
++            pACS->Reg0x898 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N);         // Reg0x898
++            pACS->Reg0x89C = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N);         // Reg0x89c
++            pACS->Reg0xE28 = ODM_Read1Byte(pDM_Odm, ODM_REG_NHM_TH8_11N);                     // Reg0xe28, u1Byte    
++        }
++    }
++
++    //3 Restore Default Setting
++    else if(setting == RESTORE_DEFAULT_NHM_SETTING)
++    {
++        ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("RESTORE_DEFAULT_NHM_SETTING\n"));
++        
++        if(pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)     // store Reg0x990, Reg0x994, Reg0x998, Reg0x99C, Reg0x9a0
++        {
++            ODM_Write4Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11AC,          pACS->Reg0x990);
++            ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC,     pACS->Reg0x994);
++            ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, pACS->Reg0x998);
++            ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, pACS->Reg0x99C);
++            ODM_Write1Byte(pDM_Odm, ODM_REG_NHM_TH8_11AC,             pACS->Reg0x9A0);   
++        }
++        else if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++        {
++            ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N,     pACS->Reg0x890);
++            ODM_Write4Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11AC,          pACS->Reg0x894);
++            ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, pACS->Reg0x898);
++            ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, pACS->Reg0x89C);
++            ODM_Write1Byte(pDM_Odm, ODM_REG_NHM_TH8_11N,             pACS->Reg0xE28); 
++        }        
++    }
++
++    //3 ACS Setting
++    else if(setting == ACS_NHM_SETTING)
++    {        
++        ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("ACS_NHM_SETTING\n"));
++        u2Byte  period;
++        period = 0x61a8;
++        pACS->ACS_Step = acs_step;
++            
++        if(pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++        {   
++            //4 Set NHM period, 0x990[31:16]=0x61a8, Time duration for NHM unit: 4us, 0x61a8=100ms
++            ODM_Write2Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11AC+2, period);
++            //4 Set NHM ignore_cca=1, ignore_txon=1, ccx_en=0
++            ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC,BIT8|BIT9|BIT10, 3);
++            
++            if(pACS->ACS_Step == 0)
++            {
++                //4 Set IGI
++                ODM_SetBBReg(pDM_Odm,0xc50,BIT0|BIT1|BIT2|BIT3|BIT4|BIT5|BIT6,0x3E);
++                if (get_rf_mimo_mode(priv) != MIMO_1T1R)
++					ODM_SetBBReg(pDM_Odm,0xe50,BIT0|BIT1|BIT2|BIT3|BIT4|BIT5|BIT6,0x3E);
++                    
++                //4 Set ACS NHM threshold
++                ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, 0x82786e64);
++                ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, 0xffffff8c);
++                ODM_Write1Byte(pDM_Odm, ODM_REG_NHM_TH8_11AC, 0xff);
++                ODM_Write2Byte(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC+2, 0xffff);
++                
++            }
++            else if(pACS->ACS_Step == 1)
++            {
++                //4 Set IGI
++                ODM_SetBBReg(pDM_Odm,0xc50,BIT0|BIT1|BIT2|BIT3|BIT4|BIT5|BIT6,0x2A);
++                if (get_rf_mimo_mode(priv) != MIMO_1T1R)
++					ODM_SetBBReg(pDM_Odm,0xe50,BIT0|BIT1|BIT2|BIT3|BIT4|BIT5|BIT6,0x2A);
++
++                //4 Set ACS NHM threshold
++                ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, 0x5a50463c);
++                ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, 0xffffff64);
++                
++            }
++
++        }
++        else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++        {
++            //4 Set NHM period, 0x894[31:16]=0x61a8, Time duration for NHM unit: 4us, 0x61a8=100ms
++            ODM_Write2Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11AC+2, period);
++            //4 Set NHM ignore_cca=1, ignore_txon=1, ccx_en=0
++            ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N,BIT8|BIT9|BIT10, 3);
++            
++            if(pACS->ACS_Step == 0)
++            {
++                //4 Set IGI
++                ODM_SetBBReg(pDM_Odm,0xc50,BIT0|BIT1|BIT2|BIT3|BIT4|BIT5|BIT6,0x3E);
++                if (get_rf_mimo_mode(priv) != MIMO_1T1R)
++					ODM_SetBBReg(pDM_Odm,0xc58,BIT0|BIT1|BIT2|BIT3|BIT4|BIT5|BIT6,0x3E);
++            
++                //4 Set ACS NHM threshold
++                ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, 0x82786e64);
++                ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, 0xffffff8c);
++                ODM_Write1Byte(pDM_Odm, ODM_REG_NHM_TH8_11N, 0xff);
++                ODM_Write2Byte(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N+2, 0xffff);
++                
++            }
++            else if(pACS->ACS_Step == 1)
++            {
++                //4 Set IGI
++                ODM_SetBBReg(pDM_Odm,0xc50,BIT0|BIT1|BIT2|BIT3|BIT4|BIT5|BIT6,0x2A);
++                if (get_rf_mimo_mode(priv) != MIMO_1T1R)
++					ODM_SetBBReg(pDM_Odm,0xc58,BIT0|BIT1|BIT2|BIT3|BIT4|BIT5|BIT6,0x2A);
++            
++                //4 Set ACS NHM threshold
++                ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, 0x5a50463c);
++                ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, 0xffffff64);
++
++            }            
++        }
++    }	
++	
++}
++
++VOID
++phydm_GetNHMStatisticsAP(
++    IN  PVOID       pDM_VOID,
++    IN  u4Byte      idx,                // @ 2G, Real channel number = idx+1
++    IN  u4Byte      acs_step
++)
++{
++    PDM_ODM_T	    pDM_Odm = (PDM_ODM_T)pDM_VOID;
++    prtl8192cd_priv     priv    = pDM_Odm->priv;
++    PACS                  pACS    = &pDM_Odm->DM_ACS;
++    u4Byte                value32 = 0;
++    u1Byte                i;
++
++    pACS->ACS_Step = acs_step;
++
++    if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++    {
++        //4 Check if NHM result is ready        
++        for (i=0; i<20; i++) {
++            
++            ODM_delay_ms(1);
++            if ( ODM_GetBBReg(pDM_Odm,rFPGA0_PSDReport,BIT17) )
++                break;
++        }
++        
++        //4 Get NHM Statistics        
++        if ( pACS->ACS_Step==1 ) {
++            
++            value32 = ODM_Read4Byte(pDM_Odm,ODM_REG_NHM_CNT7_TO_CNT4_11N);
++            
++            pACS->NHM_Cnt[idx][9] = (value32 & bMaskByte1) >> 8;
++            pACS->NHM_Cnt[idx][8] = (value32 & bMaskByte0);
++
++            value32 = ODM_Read4Byte(pDM_Odm,ODM_REG_NHM_CNT_11N);    // ODM_REG_NHM_CNT3_TO_CNT0_11N
++
++            pACS->NHM_Cnt[idx][7] = (value32 & bMaskByte3) >> 24;
++            pACS->NHM_Cnt[idx][6] = (value32 & bMaskByte2) >> 16;
++            pACS->NHM_Cnt[idx][5] = (value32 & bMaskByte1) >> 8;
++
++        } else if (pACS->ACS_Step==2) {
++        
++            value32 = ODM_Read4Byte(pDM_Odm,ODM_REG_NHM_CNT_11N);   // ODM_REG_NHM_CNT3_TO_CNT0_11N
++
++            pACS->NHM_Cnt[idx][4] = ODM_Read1Byte(pDM_Odm, ODM_REG_NHM_CNT7_TO_CNT4_11N);            
++            pACS->NHM_Cnt[idx][3] = (value32 & bMaskByte3) >> 24;
++            pACS->NHM_Cnt[idx][2] = (value32 & bMaskByte2) >> 16;
++            pACS->NHM_Cnt[idx][1] = (value32 & bMaskByte1) >> 8;
++            pACS->NHM_Cnt[idx][0] = (value32 & bMaskByte0);
++        }
++    }
++    else if(pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++    {
++        //4 Check if NHM result is ready        
++        for (i=0; i<20; i++) {
++            
++		ODM_delay_ms(1);
++		if (ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_DUR_READY_11AC, BIT16))
++			break;
++        }
++    
++        if ( pACS->ACS_Step==1 ) {
++            
++            value32 = ODM_Read4Byte(pDM_Odm,ODM_REG_NHM_CNT7_TO_CNT4_11AC);
++            
++            pACS->NHM_Cnt[idx][9] = (value32 & bMaskByte1) >> 8;
++            pACS->NHM_Cnt[idx][8] = (value32 & bMaskByte0);
++
++            value32 = ODM_Read4Byte(pDM_Odm,ODM_REG_NHM_CNT_11AC);     // ODM_REG_NHM_CNT3_TO_CNT0_11AC
++
++            pACS->NHM_Cnt[idx][7] = (value32 & bMaskByte3) >> 24;
++            pACS->NHM_Cnt[idx][6] = (value32 & bMaskByte2) >> 16;
++            pACS->NHM_Cnt[idx][5] = (value32 & bMaskByte1) >> 8;
++
++        } else if (pACS->ACS_Step==2) {
++        
++            value32 = ODM_Read4Byte(pDM_Odm,ODM_REG_NHM_CNT_11AC);      // ODM_REG_NHM_CNT3_TO_CNT0_11AC
++
++            pACS->NHM_Cnt[idx][4] = ODM_Read1Byte(pDM_Odm, ODM_REG_NHM_CNT7_TO_CNT4_11AC);            
++            pACS->NHM_Cnt[idx][3] = (value32 & bMaskByte3) >> 24;
++            pACS->NHM_Cnt[idx][2] = (value32 & bMaskByte2) >> 16;
++            pACS->NHM_Cnt[idx][1] = (value32 & bMaskByte1) >> 8;
++            pACS->NHM_Cnt[idx][0] = (value32 & bMaskByte0);
++        }            
++    }
++
++}
++
++
++//#define ACS_DEBUG_INFO //acs debug default off
++/*
++int phydm_AutoChannelSelectAP( 
++    IN   PVOID   pDM_VOID,
++    IN   u4Byte  ACS_Type,                      // 0: RXCount_Type, 1:NHM_Type
++    IN   u4Byte  available_chnl_num        // amount of all channels
++    )
++{
++    PDM_ODM_T               pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PACS                    pACS    = &pDM_Odm->DM_ACS;
++    prtl8192cd_priv			priv    = pDM_Odm->priv;
++    
++    static u4Byte           score2G[MAX_2G_CHANNEL_NUM], score5G[MAX_5G_CHANNEL_NUM];
++    u4Byte                  score[MAX_BSS_NUM], use_nhm = 0;
++    u4Byte                  minScore=0xffffffff;
++    u4Byte                  tmpScore, tmpIdx=0;
++    u4Byte                  traffic_check = 0;
++    u4Byte                  fa_count_weighting = 1;
++    int                     i, j, idx=0, idx_2G_end=-1, idx_5G_begin=-1, minChan=0;
++	struct bss_desc *pBss=NULL;
++
++#ifdef _DEBUG_RTL8192CD_
++	char tmpbuf[400];
++	int len=0;
++#endif
++
++	memset(score2G, '\0', sizeof(score2G));
++	memset(score5G, '\0', sizeof(score5G));
++
++	for (i=0; i<priv->available_chnl_num; i++) {
++		if (priv->available_chnl[i] <= 14)
++			idx_2G_end = i;
++		else
++			break;
++	}
++
++	for (i=0; i<priv->available_chnl_num; i++) {
++		if (priv->available_chnl[i] > 14) {
++			idx_5G_begin = i;
++			break;
++		}
++	}
++
++// DELETE
++#ifndef CONFIG_RTL_NEW_AUTOCH
++	for (i=0; i<priv->site_survey->count; i++) {
++		pBss = &priv->site_survey->bss[i];
++		for (idx=0; idx<priv->available_chnl_num; idx++) {
++			if (pBss->channel == priv->available_chnl[idx]) {
++				if (pBss->channel <= 14)
++					setChannelScore(idx, score2G, 0, MAX_2G_CHANNEL_NUM-1);
++				else
++					score5G[idx - idx_5G_begin] += 5;
++				break;
++			}
++		}
++	}
++#endif
++
++	if (idx_2G_end >= 0)
++		for (i=0; i<=idx_2G_end; i++)
++			score[i] = score2G[i];
++	if (idx_5G_begin >= 0)
++		for (i=idx_5G_begin; i<priv->available_chnl_num; i++)
++			score[i] = score5G[i - idx_5G_begin];
++		
++#ifdef CONFIG_RTL_NEW_AUTOCH
++	{
++		u4Byte y, ch_begin=0, ch_end= priv->available_chnl_num;
++
++		u4Byte do_ap_check = 1, ap_ratio = 0;
++		
++		if (idx_2G_end >= 0) 
++			ch_end = idx_2G_end+1;
++		if (idx_5G_begin >= 0)  
++			ch_begin = idx_5G_begin;
++
++#ifdef ACS_DEBUG_INFO//for debug
++		printk("\n");
++		for (y=ch_begin; y<ch_end; y++)
++			printk("1. init: chnl[%d] 20M_rx[%d] 40M_rx[%d] fa_cnt[%d] score[%d]\n",
++				priv->available_chnl[y], 
++				priv->chnl_ss_mac_rx_count[y], 
++				priv->chnl_ss_mac_rx_count_40M[y],
++				priv->chnl_ss_fa_count[y],
++				score[y]);
++		printk("\n");
++#endif
++
++#if defined(CONFIG_RTL_88E_SUPPORT) || defined(CONFIG_WLAN_HAL_8192EE)
++        if( pDM_Odm->SupportICType&(ODM_RTL8188E|ODM_RTL8192E)&& priv->pmib->dot11RFEntry.acs_type )
++		{
++			u4Byte tmp_score[MAX_BSS_NUM];
++			memcpy(tmp_score, score, sizeof(score));
++			if (find_clean_channel(priv, ch_begin, ch_end, tmp_score)) {
++				//memcpy(score, tmp_score, sizeof(score));
++#ifdef _DEBUG_RTL8192CD_
++				printk("!! Found clean channel, select minimum FA channel\n");
++#endif
++				goto USE_CLN_CH;
++			}
++#ifdef _DEBUG_RTL8192CD_
++			printk("!! Not found clean channel, use NHM algorithm\n");
++#endif
++			use_nhm = 1;
++USE_CLN_CH:
++			for (y=ch_begin; y<ch_end; y++) {
++				for (i=0; i<=9; i++) {
++					u4Byte val32 = priv->nhm_cnt[y][i];
++					for (j=0; j<i; j++)
++						val32 *= 3;
++					score[y] += val32;
++				}
++
++#ifdef _DEBUG_RTL8192CD_				
++				printk("nhm_cnt_%d: H<-[ %3d %3d %3d %3d %3d %3d %3d %3d %3d %3d]->L, score: %d\n", 
++					y+1, priv->nhm_cnt[y][9], priv->nhm_cnt[y][8], priv->nhm_cnt[y][7], 
++					priv->nhm_cnt[y][6], priv->nhm_cnt[y][5], priv->nhm_cnt[y][4],
++					priv->nhm_cnt[y][3], priv->nhm_cnt[y][2], priv->nhm_cnt[y][1],
++					priv->nhm_cnt[y][0], score[y]);
++#endif
++			}
++
++			if (!use_nhm)
++				memcpy(score, tmp_score, sizeof(score));
++			
++			goto choose_ch;
++		}
++#endif
++
++            // For each channel, weighting behind channels with MAC RX counter
++            //For each channel, weighting the channel with FA counter
++
++		for (y=ch_begin; y<ch_end; y++) {
++			score[y] += 8 * priv->chnl_ss_mac_rx_count[y];
++			if (priv->chnl_ss_mac_rx_count[y] > 30)
++				do_ap_check = 0;
++			if( priv->chnl_ss_mac_rx_count[y] > MAC_RX_COUNT_THRESHOLD )
++				traffic_check = 1;
++			
++#ifdef RTK_5G_SUPPORT
++			if (priv->pmib->dot11RFEntry.phyBandSelect == PHY_BAND_2G)
++#endif
++			{
++				if ((int)(y-4) >= (int)ch_begin)
++					score[y-4] += 2 * priv->chnl_ss_mac_rx_count[y];				
++				if ((int)(y-3) >= (int)ch_begin)
++					score[y-3] += 8 * priv->chnl_ss_mac_rx_count[y];
++				if ((int)(y-2) >= (int)ch_begin)
++					score[y-2] += 8 * priv->chnl_ss_mac_rx_count[y];
++				if ((int)(y-1) >= (int)ch_begin)
++					score[y-1] += 10 * priv->chnl_ss_mac_rx_count[y];
++				if ((int)(y+1) < (int)ch_end)
++					score[y+1] += 10 * priv->chnl_ss_mac_rx_count[y];
++				if ((int)(y+2) < (int)ch_end)
++					score[y+2] += 8 * priv->chnl_ss_mac_rx_count[y];
++				if ((int)(y+3) < (int)ch_end)
++					score[y+3] += 8 * priv->chnl_ss_mac_rx_count[y];
++				if ((int)(y+4) < (int)ch_end)
++					score[y+4] += 2 * priv->chnl_ss_mac_rx_count[y];
++			}
++
++			//this is for CH_LOAD caculation
++			if( priv->chnl_ss_cca_count[y] > priv->chnl_ss_fa_count[y])
++				priv->chnl_ss_cca_count[y]-= priv->chnl_ss_fa_count[y];
++			else
++				priv->chnl_ss_cca_count[y] = 0;
++		}
++
++#ifdef ACS_DEBUG_INFO//for debug
++		printk("\n");
++		for (y=ch_begin; y<ch_end; y++)
++			printk("2. after 20M check: chnl[%d] score[%d]\n",priv->available_chnl[y], score[y]);
++		printk("\n");
++#endif	
++
++		for (y=ch_begin; y<ch_end; y++) {
++			if (priv->chnl_ss_mac_rx_count_40M[y]) {
++				score[y] += 5 * priv->chnl_ss_mac_rx_count_40M[y];
++				if (priv->chnl_ss_mac_rx_count_40M[y] > 30)
++					do_ap_check = 0;
++				if( priv->chnl_ss_mac_rx_count_40M[y] > MAC_RX_COUNT_THRESHOLD )
++					traffic_check = 1;
++				
++#ifdef RTK_5G_SUPPORT
++				if (priv->pmib->dot11RFEntry.phyBandSelect == PHY_BAND_2G)
++#endif
++				{
++					if ((int)(y-6) >= (int)ch_begin)
++						score[y-6] += 1 * priv->chnl_ss_mac_rx_count_40M[y];
++					if ((int)(y-5) >= (int)ch_begin)
++						score[y-5] += 4 * priv->chnl_ss_mac_rx_count_40M[y];
++					if ((int)(y-4) >= (int)ch_begin)
++						score[y-4] += 4 * priv->chnl_ss_mac_rx_count_40M[y];
++					if ((int)(y-3) >= (int)ch_begin)
++						score[y-3] += 5 * priv->chnl_ss_mac_rx_count_40M[y];
++					if ((int)(y-2) >= (int)ch_begin)
++						score[y-2] += (5 * priv->chnl_ss_mac_rx_count_40M[y])/2;
++					if ((int)(y-1) >= (int)ch_begin)
++						score[y-1] += 5 * priv->chnl_ss_mac_rx_count_40M[y];
++					if ((int)(y+1) < (int)ch_end)
++						score[y+1] += 5 * priv->chnl_ss_mac_rx_count_40M[y];
++					if ((int)(y+2) < (int)ch_end)
++						score[y+2] += (5 * priv->chnl_ss_mac_rx_count_40M[y])/2;
++					if ((int)(y+3) < (int)ch_end)
++						score[y+3] += 5 * priv->chnl_ss_mac_rx_count_40M[y];
++					if ((int)(y+4) < (int)ch_end)
++						score[y+4] += 4 * priv->chnl_ss_mac_rx_count_40M[y];
++					if ((int)(y+5) < (int)ch_end)
++						score[y+5] += 4 * priv->chnl_ss_mac_rx_count_40M[y];
++					if ((int)(y+6) < (int)ch_end)
++						score[y+6] += 1 * priv->chnl_ss_mac_rx_count_40M[y];
++				}
++			}
++		}
++
++#ifdef ACS_DEBUG_INFO//for debug
++		printk("\n");
++		for (y=ch_begin; y<ch_end; y++)
++			printk("3. after 40M check: chnl[%d] score[%d]\n",priv->available_chnl[y], score[y]);
++		printk("\n");
++		printk("4. do_ap_check=%d traffic_check=%d\n", do_ap_check, traffic_check);
++		printk("\n");
++#endif
++
++		if( traffic_check == 0)
++			fa_count_weighting = 5;
++		else
++			fa_count_weighting = 1;
++
++		for (y=ch_begin; y<ch_end; y++) {
++			score[y] += fa_count_weighting * priv->chnl_ss_fa_count[y];
++		}
++
++#ifdef ACS_DEBUG_INFO//for debug
++		printk("\n");
++		for (y=ch_begin; y<ch_end; y++)
++			printk("5. after fa check: chnl[%d] score[%d]\n",priv->available_chnl[y], score[y]);
++		printk("\n");
++#endif			
++
++		if (do_ap_check) {
++			for (i=0; i<priv->site_survey->count; i++) {				
++				pBss = &priv->site_survey->bss[i];
++				for (y=ch_begin; y<ch_end; y++) {
++					if (pBss->channel == priv->available_chnl[y]) {
++						if (pBss->channel <= 14) {
++#ifdef ACS_DEBUG_INFO//for debug
++						printk("\n");
++						printk("chnl[%d] has ap rssi=%d bw[0x%02x]\n",
++							pBss->channel, pBss->rssi, pBss->t_stamp[1]);
++						printk("\n");
++#endif
++							if (pBss->rssi > 60)
++								ap_ratio = 4;
++							else if (pBss->rssi > 35)
++								ap_ratio = 2;
++							else
++								ap_ratio = 1;
++							
++							if ((pBss->t_stamp[1] & 0x6) == 0) {
++								score[y] += 50 * ap_ratio;
++								if ((int)(y-4) >= (int)ch_begin)
++									score[y-4] += 10 * ap_ratio;
++								if ((int)(y-3) >= (int)ch_begin)
++									score[y-3] += 20 * ap_ratio;
++								if ((int)(y-2) >= (int)ch_begin)
++									score[y-2] += 30 * ap_ratio;
++								if ((int)(y-1) >= (int)ch_begin)
++									score[y-1] += 40 * ap_ratio;
++								if ((int)(y+1) < (int)ch_end)
++									score[y+1] += 40 * ap_ratio;
++								if ((int)(y+2) < (int)ch_end)
++									score[y+2] += 30 * ap_ratio;
++								if ((int)(y+3) < (int)ch_end)
++									score[y+3] += 20 * ap_ratio;
++								if ((int)(y+4) < (int)ch_end)
++									score[y+4] += 10 * ap_ratio;
++							}	
++							else if ((pBss->t_stamp[1] & 0x4) == 0) {
++								score[y] += 50 * ap_ratio;
++								if ((int)(y-3) >= (int)ch_begin)
++									score[y-3] += 20 * ap_ratio;
++								if ((int)(y-2) >= (int)ch_begin)
++									score[y-2] += 30 * ap_ratio;
++								if ((int)(y-1) >= (int)ch_begin)
++									score[y-1] += 40 * ap_ratio;
++								if ((int)(y+1) < (int)ch_end)
++									score[y+1] += 50 * ap_ratio;
++								if ((int)(y+2) < (int)ch_end)
++									score[y+2] += 50 * ap_ratio;
++								if ((int)(y+3) < (int)ch_end)
++									score[y+3] += 50 * ap_ratio;
++								if ((int)(y+4) < (int)ch_end)
++									score[y+4] += 50 * ap_ratio;
++								if ((int)(y+5) < (int)ch_end)
++									score[y+5] += 40 * ap_ratio;
++								if ((int)(y+6) < (int)ch_end)
++									score[y+6] += 30 * ap_ratio;
++								if ((int)(y+7) < (int)ch_end)
++									score[y+7] += 20 * ap_ratio;	
++							}	
++							else {
++								score[y] += 50 * ap_ratio;
++								if ((int)(y-7) >= (int)ch_begin)
++									score[y-7] += 20 * ap_ratio;
++								if ((int)(y-6) >= (int)ch_begin)
++									score[y-6] += 30 * ap_ratio;
++								if ((int)(y-5) >= (int)ch_begin)
++									score[y-5] += 40 * ap_ratio;
++								if ((int)(y-4) >= (int)ch_begin)
++									score[y-4] += 50 * ap_ratio;
++								if ((int)(y-3) >= (int)ch_begin)
++									score[y-3] += 50 * ap_ratio;
++								if ((int)(y-2) >= (int)ch_begin)
++									score[y-2] += 50 * ap_ratio;
++								if ((int)(y-1) >= (int)ch_begin)
++									score[y-1] += 50 * ap_ratio;
++								if ((int)(y+1) < (int)ch_end)
++									score[y+1] += 40 * ap_ratio;
++								if ((int)(y+2) < (int)ch_end)
++									score[y+2] += 30 * ap_ratio;
++								if ((int)(y+3) < (int)ch_end)
++									score[y+3] += 20 * ap_ratio;
++							}	
++						}	
++						else {
++							if ((pBss->t_stamp[1] & 0x6) == 0) {
++								score[y] += 500;
++							}
++							else if ((pBss->t_stamp[1] & 0x4) == 0) {
++								score[y] += 500;
++								if ((int)(y+1) < (int)ch_end)
++									score[y+1] += 500;
++							}
++							else {	
++								score[y] += 500;
++								if ((int)(y-1) >= (int)ch_begin)
++									score[y-1] += 500;
++							}
++						}
++						break;
++					}
++				}
++			}
++		}
++
++#ifdef ACS_DEBUG_INFO//for debug
++		printk("\n");
++		for (y=ch_begin; y<ch_end; y++)
++			printk("6. after ap check: chnl[%d]:%d\n", priv->available_chnl[y],score[y]);
++		printk("\n");
++#endif		
++
++#ifdef 	SS_CH_LOAD_PROC
++
++		// caculate noise level -- suggested by wilson
++		for (y=ch_begin; y<ch_end; y++)  {
++			int fa_lv=0, cca_lv=0;
++			if (priv->chnl_ss_fa_count[y]>1000) {
++				fa_lv = 100;
++			} else if (priv->chnl_ss_fa_count[y]>500) {
++				fa_lv = 34 * (priv->chnl_ss_fa_count[y]-500) / 500 + 66;
++			} else if (priv->chnl_ss_fa_count[y]>200) {
++				fa_lv = 33 * (priv->chnl_ss_fa_count[y] - 200) / 300 + 33;
++			} else if (priv->chnl_ss_fa_count[y]>100) {
++				fa_lv = 18 * (priv->chnl_ss_fa_count[y] - 100) / 100 + 15;
++			} else {
++				fa_lv = 15 * priv->chnl_ss_fa_count[y] / 100;
++			} 
++			if (priv->chnl_ss_cca_count[y]>400) {
++				cca_lv = 100;
++			} else if (priv->chnl_ss_cca_count[y]>200) {
++				cca_lv = 34 * (priv->chnl_ss_cca_count[y] - 200) / 200 + 66;
++			} else if (priv->chnl_ss_cca_count[y]>80) {
++				cca_lv = 33 * (priv->chnl_ss_cca_count[y] - 80) / 120 + 33;
++			} else if (priv->chnl_ss_cca_count[y]>40) {
++				cca_lv = 18 * (priv->chnl_ss_cca_count[y] - 40) / 40 + 15;
++			} else {
++				cca_lv = 15 * priv->chnl_ss_cca_count[y] / 40;
++			}
++
++			priv->chnl_ss_load[y] = (((fa_lv > cca_lv)? fa_lv : cca_lv)*75+((score[y]>100)?100:score[y])*25)/100;
++
++			DEBUG_INFO("ch:%d f=%d (%d), c=%d (%d), fl=%d, cl=%d, sc=%d, cu=%d\n", 
++					priv->available_chnl[y],
++					priv->chnl_ss_fa_count[y], fa_thd,
++					priv->chnl_ss_cca_count[y], cca_thd,
++					fa_lv, 
++					cca_lv,
++					score[y],					
++					priv->chnl_ss_load[y]);
++			
++		}		
++#endif		
++	}
++#endif
++
++choose_ch:
++
++#ifdef DFS
++	// heavy weighted DFS channel
++	if (idx_5G_begin >= 0){
++		for (i=idx_5G_begin; i<priv->available_chnl_num; i++) {
++			if (!priv->pmib->dot11DFSEntry.disable_DFS && is_DFS_channel(priv->available_chnl[i]) 
++			&& (score[i]!= 0xffffffff)){
++					score[i] += 1600; 
++		}
++	}
++	}
++#endif
++
++
++//prevent Auto Channel selecting wrong channel in 40M mode-----------------
++	if ((priv->pmib->dot11BssType.net_work_type & WIRELESS_11N)
++		&& priv->pshare->is_40m_bw) {
++#if 0
++		if (GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset == 1) {
++			//Upper Primary Channel, cannot select the two lowest channels
++			if (priv->pmib->dot11BssType.net_work_type & WIRELESS_11G) {
++				score[0] = 0xffffffff;
++				score[1] = 0xffffffff;
++				score[2] = 0xffffffff;
++				score[3] = 0xffffffff;
++				score[4] = 0xffffffff;
++
++				score[13] = 0xffffffff;
++				score[12] = 0xffffffff;
++				score[11] = 0xffffffff;
++			}
++
++//			if (priv->pmib->dot11BssType.net_work_type & WIRELESS_11A) {
++//				score[idx_5G_begin] = 0xffffffff;
++//				score[idx_5G_begin + 1] = 0xffffffff;
++//			}
++		}
++		else if (GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset == 2) {
++			//Lower Primary Channel, cannot select the two highest channels
++			if (priv->pmib->dot11BssType.net_work_type & WIRELESS_11G) {
++				score[0] = 0xffffffff;
++				score[1] = 0xffffffff;
++				score[2] = 0xffffffff;
++
++				score[13] = 0xffffffff;
++				score[12] = 0xffffffff;
++				score[11] = 0xffffffff;
++				score[10] = 0xffffffff;
++				score[9] = 0xffffffff;
++			}
++
++//			if (priv->pmib->dot11BssType.net_work_type & WIRELESS_11A) {
++//				score[priv->available_chnl_num - 2] = 0xffffffff;
++//				score[priv->available_chnl_num - 1] = 0xffffffff;
++//			}
++		}
++#endif
++		for (i=0; i<=idx_2G_end; ++i)
++			if (priv->available_chnl[i] == 14)
++				score[i] = 0xffffffff;		// mask chan14
++
++#ifdef RTK_5G_SUPPORT
++		if (idx_5G_begin >= 0) {
++			for (i=idx_5G_begin; i<priv->available_chnl_num; i++) {
++				int ch = priv->available_chnl[i];
++				if(priv->available_chnl[i] > 144) 
++					--ch;
++				if((ch%4) || ch==140 || ch == 164 )	//mask ch 140, ch 165, ch 184...
++					score[i] = 0xffffffff;
++			}
++		}
++#endif
++
++		
++	}
++
++	if (priv->pmib->dot11RFEntry.disable_ch1213) {
++		for (i=0; i<=idx_2G_end; ++i) {
++			int ch = priv->available_chnl[i];
++			if ((ch == 12) || (ch == 13))
++				score[i] = 0xffffffff;
++		}
++	}
++
++	if (((priv->pmib->dot11StationConfigEntry.dot11RegDomain == DOMAIN_GLOBAL) ||
++			(priv->pmib->dot11StationConfigEntry.dot11RegDomain == DOMAIN_WORLD_WIDE)) &&
++		 (idx_2G_end >= 11) && (idx_2G_end < 14)) {
++		score[13] = 0xffffffff;	// mask chan14
++		score[12] = 0xffffffff; // mask chan13
++		score[11] = 0xffffffff; // mask chan12
++	}
++	
++//------------------------------------------------------------------
++
++#ifdef _DEBUG_RTL8192CD_
++	for (i=0; i<priv->available_chnl_num; i++) {
++		len += sprintf(tmpbuf+len, "ch%d:%u ", priv->available_chnl[i], score[i]);		
++	}
++	strcat(tmpbuf, "\n");
++	panic_printk("%s", tmpbuf);
++
++#endif
++
++	if ( (priv->pmib->dot11RFEntry.phyBandSelect == PHY_BAND_5G)
++		&& (priv->pmib->dot11nConfigEntry.dot11nUse40M == HT_CHANNEL_WIDTH_80)) 
++	{
++		for (i=0; i<priv->available_chnl_num; i++) {
++			if (is80MChannel(priv->available_chnl, priv->available_chnl_num, priv->available_chnl[i])) {
++				tmpScore = 0;
++				for (j=0; j<4; j++) {
++					if ((tmpScore != 0xffffffff) && (score[i+j] != 0xffffffff))
++						tmpScore += score[i+j];
++					else
++						tmpScore = 0xffffffff;
++				}
++				tmpScore = tmpScore / 4;
++				if (minScore > tmpScore) {
++					minScore = tmpScore;
++
++					tmpScore = 0xffffffff;
++					for (j=0; j<4; j++) {
++						if (score[i+j] < tmpScore) {
++							tmpScore = score[i+j];
++							tmpIdx = i+j;
++						}
++					}
++
++					idx = tmpIdx;
++				}
++				i += 3;
++			}
++		}
++		if (minScore == 0xffffffff) {
++			// there is no 80M channels
++			priv->pshare->is_40m_bw = HT_CHANNEL_WIDTH_20;
++			for (i=0; i<priv->available_chnl_num; i++) {
++				if (score[i] < minScore) {
++					minScore = score[i];
++					idx = i;
++				}
++			}
++		}
++	}
++	else if( (priv->pmib->dot11RFEntry.phyBandSelect == PHY_BAND_5G)
++			&& (priv->pmib->dot11nConfigEntry.dot11nUse40M == HT_CHANNEL_WIDTH_20_40))
++ 	{
++		for (i=0; i<priv->available_chnl_num; i++) {
++			if(is40MChannel(priv->available_chnl,priv->available_chnl_num,priv->available_chnl[i])) {
++				tmpScore = 0;
++				for(j=0;j<2;j++) {
++					if ((tmpScore != 0xffffffff) && (score[i+j] != 0xffffffff))
++						tmpScore += score[i+j];
++					else
++						tmpScore = 0xffffffff;
++				}
++				tmpScore = tmpScore / 2;
++				if(minScore > tmpScore) {
++					minScore = tmpScore;
++
++					tmpScore = 0xffffffff;
++					for (j=0; j<2; j++) {
++						if (score[i+j] < tmpScore) {
++							tmpScore = score[i+j];
++							tmpIdx = i+j;
++						}
++					}
++
++					idx = tmpIdx;
++				}
++				i += 1;
++			}
++		}
++		if (minScore == 0xffffffff) {
++			// there is no 40M channels
++			priv->pshare->is_40m_bw = HT_CHANNEL_WIDTH_20;
++			for (i=0; i<priv->available_chnl_num; i++) {
++				if (score[i] < minScore) {
++					minScore = score[i];
++					idx = i;
++				}
++			}
++		}
++	}
++	else if( (priv->pmib->dot11RFEntry.phyBandSelect == PHY_BAND_2G)
++			&& (priv->pmib->dot11nConfigEntry.dot11nUse40M == HT_CHANNEL_WIDTH_20_40)
++			&& (priv->available_chnl_num >= 8) )
++	{
++		u4Byte groupScore[14];
++
++		memset(groupScore, 0xff , sizeof(groupScore));
++		for (i=0; i<priv->available_chnl_num-4; i++) {
++			if (score[i] != 0xffffffff && score[i+4] != 0xffffffff) {
++				groupScore[i] = score[i] + score[i+4];
++				DEBUG_INFO("groupScore, ch %d,%d: %d\n", i+1, i+5, groupScore[i]);
++				if (groupScore[i] < minScore) {
++#ifdef AUTOCH_SS_SPEEDUP
++					if(priv->pmib->miscEntry.autoch_1611_enable)
++					{
++						if(priv->available_chnl[i]==1 || priv->available_chnl[i]==6 || priv->available_chnl[i]==11)
++						{
++							minScore = groupScore[i];
++							idx = i;
++						}
++					}
++					else
++#endif
++					{					
++						minScore = groupScore[i];
++						idx = i;
++					}
++				}
++			}
++		}
++
++		if (score[idx] < score[idx+4]) {
++			GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset = HT_2NDCH_OFFSET_ABOVE;
++			priv->pshare->offset_2nd_chan	= HT_2NDCH_OFFSET_ABOVE;			
++		} else {
++			idx = idx + 4;
++			GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset = HT_2NDCH_OFFSET_BELOW;
++			priv->pshare->offset_2nd_chan	= HT_2NDCH_OFFSET_BELOW;			
++		}
++	}
++	else 
++	{
++		for (i=0; i<priv->available_chnl_num; i++) {
++			if (score[i] < minScore) {
++#ifdef AUTOCH_SS_SPEEDUP
++				if(priv->pmib->miscEntry.autoch_1611_enable)
++				{
++					if(priv->available_chnl[i]==1 || priv->available_chnl[i]==6 || priv->available_chnl[i]==11)
++					{
++						minScore = score[i];
++						idx = i;
++					}
++				}
++				else
++#endif
++				{				
++					minScore = score[i];
++					idx = i;
++				}
++			}
++		}
++	}
++
++	if (IS_A_CUT_8881A(priv) &&
++		(priv->pmib->dot11nConfigEntry.dot11nUse40M == HT_CHANNEL_WIDTH_80)) {
++		if ((priv->available_chnl[idx] == 36) ||
++			(priv->available_chnl[idx] == 52) ||
++			(priv->available_chnl[idx] == 100) ||
++			(priv->available_chnl[idx] == 116) ||
++			(priv->available_chnl[idx] == 132) ||
++			(priv->available_chnl[idx] == 149) ||
++			(priv->available_chnl[idx] == 165))
++			idx++;
++		else if ((priv->available_chnl[idx] == 48) ||
++			(priv->available_chnl[idx] == 64) ||
++			(priv->available_chnl[idx] == 112) ||
++			(priv->available_chnl[idx] == 128) ||
++			(priv->available_chnl[idx] == 144) ||
++			(priv->available_chnl[idx] == 161) ||
++			(priv->available_chnl[idx] == 177))
++			idx--;
++	}
++
++	minChan = priv->available_chnl[idx];
++
++	// skip channel 14 if don't support ofdm
++	if ((priv->pmib->dot11RFEntry.disable_ch14_ofdm) &&
++			(minChan == 14)) {
++		score[idx] = 0xffffffff;
++		
++		minScore = 0xffffffff;
++		for (i=0; i<priv->available_chnl_num; i++) {
++			if (score[i] < minScore) {
++				minScore = score[i];
++				idx = i;
++			}
++		}
++		minChan = priv->available_chnl[idx];
++	}
++
++#if 0
++	//Check if selected channel available for 80M/40M BW or NOT ?
++	if(priv->pmib->dot11RFEntry.phyBandSelect == PHY_BAND_5G)
++	{
++		if(priv->pmib->dot11nConfigEntry.dot11nUse40M == HT_CHANNEL_WIDTH_80)
++		{
++			if(!is80MChannel(priv->available_chnl,priv->available_chnl_num,minChan))
++			{
++				//printk("BW=80M, selected channel = %d is unavaliable! reduce to 40M\n", minChan);
++				//priv->pmib->dot11nConfigEntry.dot11nUse40M = HT_CHANNEL_WIDTH_20_40;
++				priv->pshare->is_40m_bw = HT_CHANNEL_WIDTH_20_40;
++			}
++		}
++			
++		if(priv->pmib->dot11nConfigEntry.dot11nUse40M == HT_CHANNEL_WIDTH_20_40)
++		{
++			if(!is40MChannel(priv->available_chnl,priv->available_chnl_num,minChan))
++			{
++				//printk("BW=40M, selected channel = %d is unavaliable! reduce to 20M\n", minChan);
++				//priv->pmib->dot11nConfigEntry.dot11nUse40M = HT_CHANNEL_WIDTH_20;
++				priv->pshare->is_40m_bw = HT_CHANNEL_WIDTH_20;
++			}
++		}
++	}
++#endif
++
++#ifdef CONFIG_RTL_NEW_AUTOCH
++	RTL_W32(RXERR_RPT, RXERR_RPT_RST);
++#endif
++
++// auto adjust contro-sideband
++	if ((priv->pmib->dot11BssType.net_work_type & WIRELESS_11N)
++			&& (priv->pshare->is_40m_bw ==1 || priv->pshare->is_40m_bw ==2)) {
++
++#ifdef RTK_5G_SUPPORT
++		if (priv->pmib->dot11RFEntry.phyBandSelect & PHY_BAND_5G) {
++			if( (minChan>144) ? ((minChan-1)%8) : (minChan%8)) {
++				GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset = HT_2NDCH_OFFSET_ABOVE;
++				priv->pshare->offset_2nd_chan	= HT_2NDCH_OFFSET_ABOVE;
++			} else {
++				GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset = HT_2NDCH_OFFSET_BELOW;
++				priv->pshare->offset_2nd_chan	= HT_2NDCH_OFFSET_BELOW;
++			}
++
++		} else
++#endif		
++		{
++#if 0
++#ifdef CONFIG_RTL_NEW_AUTOCH
++			unsigned int ch_max;
++
++			if (priv->available_chnl[idx_2G_end] >= 13)
++				ch_max = 13;
++			else
++				ch_max = priv->available_chnl[idx_2G_end];
++
++			if ((minChan >= 5) && (minChan <= (ch_max-5))) {
++				if (score[minChan+4] > score[minChan-4]) { // what if some channels were cancelled?
++					GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset = HT_2NDCH_OFFSET_BELOW;
++					priv->pshare->offset_2nd_chan	= HT_2NDCH_OFFSET_BELOW;
++				} else {
++					GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset = HT_2NDCH_OFFSET_ABOVE;
++					priv->pshare->offset_2nd_chan	= HT_2NDCH_OFFSET_ABOVE;
++				}
++			} else
++#endif
++			{
++				if (minChan < 5) {
++					GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset = HT_2NDCH_OFFSET_ABOVE;
++					priv->pshare->offset_2nd_chan	= HT_2NDCH_OFFSET_ABOVE;
++				}
++				else if (minChan > 7) {
++					GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset = HT_2NDCH_OFFSET_BELOW;
++					priv->pshare->offset_2nd_chan	= HT_2NDCH_OFFSET_BELOW;
++				}
++			}
++#endif
++		}
++	}
++//-----------------------
++
++#if defined(__ECOS) && defined(CONFIG_SDIO_HCI)
++	panic_printk("Auto channel choose ch:%d\n", minChan);
++#else
++#ifdef _DEBUG_RTL8192CD_
++	panic_printk("Auto channel choose ch:%d\n", minChan);
++#endif
++#endif
++#ifdef ACS_DEBUG_INFO//for debug
++	printk("7. minChan:%d 2nd_offset:%d\n", minChan, priv->pshare->offset_2nd_chan);
++#endif
++
++	return minChan;
++}
++*/
++
++#endif
++
++
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_acs.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_acs.h
+new file mode 100644
+index 0000000..92efdf3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_acs.h
+@@ -0,0 +1,106 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMACS_H__
++#define    __PHYDMACS_H__
++
++#define ACS_VERSION	"1.1"	/*20150729 by YuChen*/
++#define CLM_VERSION "1.0"
++
++#define ODM_MAX_CHANNEL_2G			14
++#define ODM_MAX_CHANNEL_5G			24
++
++// For phydm_AutoChannelSelectSettingAP()
++#define STORE_DEFAULT_NHM_SETTING               0
++#define RESTORE_DEFAULT_NHM_SETTING             1
++#define ACS_NHM_SETTING                         2
++
++typedef struct _ACS_
++{
++	BOOLEAN		bForceACSResult;
++	u1Byte		CleanChannel_2G;
++	u1Byte		CleanChannel_5G;
++	u2Byte		Channel_Info_2G[2][ODM_MAX_CHANNEL_2G];		//Channel_Info[1]: Channel Score, Channel_Info[2]:Channel_Scan_Times
++	u2Byte		Channel_Info_5G[2][ODM_MAX_CHANNEL_5G];	
++
++#if ( DM_ODM_SUPPORT_TYPE & ODM_AP )    
++    u1Byte              ACS_Step;
++    // NHM Count 0-11
++    u1Byte              NHM_Cnt[14][11];
++
++    // AC-Series, for storing previous setting
++    u4Byte              Reg0x990; 
++    u4Byte              Reg0x994;
++    u4Byte              Reg0x998;
++    u4Byte              Reg0x99C;
++    u1Byte              Reg0x9A0;   // u1Byte
++
++    // N-Series, for storing previous setting
++    u4Byte              Reg0x890; 
++    u4Byte              Reg0x894;
++    u4Byte              Reg0x898;
++    u4Byte              Reg0x89C;
++    u1Byte              Reg0xE28;   // u1Byte
++#endif
++
++}ACS, *PACS;
++
++
++VOID
++odm_AutoChannelSelectInit(
++	IN		PVOID			pDM_VOID
++);
++
++VOID
++odm_AutoChannelSelectReset(
++	IN		PVOID			pDM_VOID
++);
++
++VOID
++odm_AutoChannelSelect(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Channel
++);
++
++u1Byte
++ODM_GetAutoChannelSelectResult(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Band
++);
++
++#if ( DM_ODM_SUPPORT_TYPE & ODM_AP )
++
++VOID
++phydm_AutoChannelSelectSettingAP(
++    IN  PVOID   pDM_VOID,
++    IN  u4Byte  Setting,             // 0: STORE_DEFAULT_NHM_SETTING; 1: RESTORE_DEFAULT_NHM_SETTING, 2: ACS_NHM_SETTING
++    IN  u4Byte  acs_step        
++);
++
++VOID
++phydm_GetNHMStatisticsAP(
++    IN  PVOID       pDM_VOID,
++    IN  u4Byte      idx,                // @ 2G, Real channel number = idx+1
++    IN  u4Byte      acs_step
++);
++
++#endif  //#if ( DM_ODM_SUPPORT_TYPE & ODM_AP )
++
++#endif  //#ifndef	__PHYDMACS_H__
+\ No newline at end of file
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_adaptivity.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_adaptivity.c
+new file mode 100644
+index 0000000..1c7edd7
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_adaptivity.c
+@@ -0,0 +1,1097 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++#if WPP_SOFTWARE_TRACE
++#include "PhyDM_Adaptivity.tmh"
++#endif
++#endif
++
++
++VOID
++Phydm_CheckAdaptivity(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);
++	
++	if (pDM_Odm->SupportAbility & ODM_BB_ADAPTIVITY) {
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		if (pDM_Odm->APTotalNum > Adaptivity->APNumTH) {
++			pDM_Odm->Adaptivity_enable = FALSE;
++			pDM_Odm->adaptivity_flag = FALSE;
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("AP total num > %d!!, disable adaptivity\n", Adaptivity->APNumTH));
++		} else
++#endif
++		{
++			if (Adaptivity->DynamicLinkAdaptivity || Adaptivity->AcsForAdaptivity) {
++				if (pDM_Odm->bLinked && Adaptivity->bCheck == FALSE) {
++					Phydm_NHMCounterStatistics(pDM_Odm);
++					Phydm_CheckEnvironment(pDM_Odm);
++				} else if (!pDM_Odm->bLinked)
++					Adaptivity->bCheck = FALSE;
++			} else {
++				pDM_Odm->Adaptivity_enable = TRUE;
++
++				if (pDM_Odm->SupportICType & (ODM_IC_11AC_GAIN_IDX_EDCCA | ODM_IC_11N_GAIN_IDX_EDCCA))
++					pDM_Odm->adaptivity_flag = FALSE;
++				else
++					pDM_Odm->adaptivity_flag = TRUE;
++			}
++		}
++	} else {
++		pDM_Odm->Adaptivity_enable = FALSE;
++		pDM_Odm->adaptivity_flag = FALSE;
++	}
++
++	
++
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++BOOLEAN
++Phydm_CheckChannelPlan(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		pAdapter	= pDM_Odm->Adapter;
++	PMGNT_INFO		pMgntInfo = &(pAdapter->MgntInfo);
++	
++	if (pMgntInfo->RegEnableAdaptivity == 2) {
++		if (pDM_Odm->Carrier_Sense_enable == FALSE) {		/*check domain Code for Adaptivity or CarrierSense*/
++			if ((*pDM_Odm->pBandType == ODM_BAND_5G) &&
++			    !(pDM_Odm->odm_Regulation5G == REGULATION_ETSI || pDM_Odm->odm_Regulation5G == REGULATION_WW)) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("Adaptivity skip 5G domain code : %d\n", pDM_Odm->odm_Regulation5G));
++				pDM_Odm->Adaptivity_enable = FALSE;
++				pDM_Odm->adaptivity_flag = FALSE;
++				return TRUE;
++			} else if ((*pDM_Odm->pBandType == ODM_BAND_2_4G) &&
++				   !(pDM_Odm->odm_Regulation2_4G == REGULATION_ETSI || pDM_Odm->odm_Regulation2_4G == REGULATION_WW)) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("Adaptivity skip 2.4G domain code : %d\n", pDM_Odm->odm_Regulation2_4G));
++				pDM_Odm->Adaptivity_enable = FALSE;
++				pDM_Odm->adaptivity_flag = FALSE;
++				return TRUE;
++
++			} else if ((*pDM_Odm->pBandType != ODM_BAND_2_4G) && (*pDM_Odm->pBandType != ODM_BAND_5G)) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("Adaptivity neither 2G nor 5G band, return\n"));
++				pDM_Odm->Adaptivity_enable = FALSE;
++				pDM_Odm->adaptivity_flag = FALSE;
++				return TRUE;
++			}
++		} else {
++			if ((*pDM_Odm->pBandType == ODM_BAND_5G) &&
++			    !(pDM_Odm->odm_Regulation5G == REGULATION_MKK || pDM_Odm->odm_Regulation5G == REGULATION_WW)) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("CarrierSense skip 5G domain code : %d\n", pDM_Odm->odm_Regulation5G));
++				pDM_Odm->Adaptivity_enable = FALSE;
++				pDM_Odm->adaptivity_flag = FALSE;
++				return TRUE;
++			}
++
++			else if ((*pDM_Odm->pBandType == ODM_BAND_2_4G) &&
++				   !(pDM_Odm->odm_Regulation2_4G == REGULATION_MKK  || pDM_Odm->odm_Regulation2_4G == REGULATION_WW)) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("CarrierSense skip 2.4G domain code : %d\n", pDM_Odm->odm_Regulation2_4G));
++				pDM_Odm->Adaptivity_enable = FALSE;
++				pDM_Odm->adaptivity_flag = FALSE;
++				return TRUE;
++
++			} else if ((*pDM_Odm->pBandType != ODM_BAND_2_4G) && (*pDM_Odm->pBandType != ODM_BAND_5G)) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("CarrierSense neither 2G nor 5G band, return\n"));
++				pDM_Odm->Adaptivity_enable = FALSE;
++				pDM_Odm->adaptivity_flag = FALSE;
++				return TRUE;
++			}
++		}
++	}
++
++	return FALSE;
++
++}
++#endif
++
++VOID
++Phydm_NHMCounterStatisticsInit(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++		/*PHY parameters initialize for n series*/
++		ODM_Write2Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11N+ 2, 0xC350);			/*0x894[31:16]=0x0xC350	Time duration for NHM unit: us, 0xc350=200ms*/
++		ODM_Write2Byte(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N + 2, 0xffff);		/*0x890[31:16]=0xffff		th_9, th_10*/
++		ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, 0xffffff50);		/*0x898=0xffffff52			th_3, th_2, th_1, th_0*/
++		ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, 0xffffffff);		/*0x89c=0xffffffff			th_7, th_6, th_5, th_4*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_FPGA0_IQK_11N, bMaskByte0, 0xff);		/*0xe28[7:0]=0xff			th_8*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT10 | BIT9 | BIT8, 0x1);	/*0x890[10:8]=1			ignoreCCA ignore PHYTXON enable CCX*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_RSTC_11N, BIT7, 0x1);			/*0xc0c[7]=1				max power among all RX ants*/
++	}
++#if (RTL8195A_SUPPORT == 0)
++	else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++		/*PHY parameters initialize for ac series*/
++		ODM_Write2Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11AC+ 2, 0xC350);			/*0x990[31:16]=0xC350	Time duration for NHM unit: us, 0xc350=200ms*/
++		ODM_Write2Byte(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC + 2, 0xffff);		/*0x994[31:16]=0xffff		th_9, th_10*/
++		ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, 0xffffff50);	/*0x998=0xffffff52			th_3, th_2, th_1, th_0*/
++		ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, 0xffffffff);	/*0x99c=0xffffffff			th_7, th_6, th_5, th_4*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH8_11AC, bMaskByte0, 0xff);		/*0x9a0[7:0]=0xff			th_8*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT8 | BIT9 | BIT10, 0x1); /*0x994[10:8]=1			ignoreCCA ignore PHYTXON	enable CCX*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_9E8_11AC, BIT0, 0x1);				/*0x9e8[7]=1				max power among all RX ants*/
++
++	}
++#endif
++}
++
++VOID
++Phydm_NHMCounterStatistics(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (!(pDM_Odm->SupportAbility & ODM_BB_NHM_CNT))
++		return;
++
++	/*Get NHM report*/
++	Phydm_GetNHMCounterStatistics(pDM_Odm);
++
++	/*Reset NHM counter*/
++	Phydm_NHMCounterStatisticsReset(pDM_Odm);
++}
++
++VOID
++Phydm_GetNHMCounterStatistics(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte		value32 = 0;
++#if (RTL8195A_SUPPORT == 0)
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_CNT_11AC, bMaskDWord);
++	else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++#endif
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_CNT_11N, bMaskDWord);
++
++	pDM_Odm->NHM_cnt_0 = (u1Byte)(value32 & bMaskByte0);
++	pDM_Odm->NHM_cnt_1 = (u1Byte)((value32 & bMaskByte1) >> 8);
++
++}
++
++VOID
++Phydm_NHMCounterStatisticsReset(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT1, 0);
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT1, 1);
++	}
++#if (RTL8195A_SUPPORT == 0)
++	else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT1, 0);
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT1, 1);
++	}
++
++#endif
++
++}
++
++VOID
++Phydm_SetEDCCAThreshold(
++	IN	PVOID	pDM_VOID,
++	IN	s1Byte	H2L,
++	IN	s1Byte	L2H
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		ODM_SetBBReg(pDM_Odm, rOFDM0_ECCAThreshold, bMaskByte2|bMaskByte0, (u4Byte)((u1Byte)L2H|(u1Byte)H2L<<16));
++#if (RTL8195A_SUPPORT == 0)
++	else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		ODM_SetBBReg(pDM_Odm, rFPGA0_XB_LSSIReadBack, bMaskLWord, (u2Byte)((u1Byte)L2H|(u1Byte)H2L<<8));
++#endif
++
++}
++
++VOID
++Phydm_SetLNA(
++	IN	PVOID				pDM_VOID,
++	IN	PhyDM_set_LNA	type
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	if (pDM_Odm->SupportICType & (ODM_RTL8188E | ODM_RTL8192E)) {
++		if (type == PhyDM_disable_LNA) {
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, 0xfffff, 0x0000f);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, 0xfffff, 0x37f82);	/*disable LNA*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x0);
++			if (pDM_Odm->RFType > ODM_1T1R) {
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, 0x80000, 0x1);
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x30, 0xfffff, 0x18000);
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x31, 0xfffff, 0x0000f);
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x32, 0xfffff, 0x37f82);
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, 0x80000, 0x0);
++			}
++		} else if (type == PhyDM_enable_LNA) {
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, 0xfffff, 0x0000f);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, 0xfffff, 0x77f82);	/*back to normal*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x0);
++			if (pDM_Odm->RFType > ODM_1T1R) {
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, 0x80000, 0x1);
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x30, 0xfffff, 0x18000);
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x31, 0xfffff, 0x0000f);
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x32, 0xfffff, 0x77f82);
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, 0x80000, 0x0);
++			}
++		}
++	} else if (pDM_Odm->SupportICType & ODM_RTL8723B) {
++		if (type == PhyDM_disable_LNA) {
++			/*S0*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, 0xfffff, 0x0001f);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, 0xfffff, 0xe6137);	/*disable LNA*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x0);
++			/*S1*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xed, 0x00020, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x43, 0xfffff, 0x3008d);	/*select Rx mode and disable LNA*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xed, 0x00020, 0x0);
++		} else if (type == PhyDM_enable_LNA) {
++			/*S0*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, 0xfffff, 0x0001f);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, 0xfffff, 0xe6177);	/*disable LNA*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x0);
++			/*S1*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xed, 0x00020, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x43, 0xfffff, 0x300bd);	/*select Rx mode and disable LNA*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xed, 0x00020, 0x0);
++		}
++	
++	} else if (pDM_Odm->SupportICType & ODM_RTL8812) {
++		if (type == PhyDM_disable_LNA) {
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, 0xfffff, 0x3f7ff);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, 0xfffff, 0xc22bf);	/*disable LNA*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x0);
++				if (pDM_Odm->RFType > ODM_1T1R) {
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, 0x80000, 0x1);
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x31, 0xfffff, 0x3f7ff);
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x32, 0xfffff, 0xc22bf);	/*disable LNA*/
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, 0x80000, 0x0);
++				}
++		} else if (type == PhyDM_enable_LNA) {
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, 0xfffff, 0x3f7ff);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, 0xfffff, 0xc26bf);	/*disable LNA*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x0);
++				if (pDM_Odm->RFType > ODM_1T1R) {
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, 0x80000, 0x1);
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x31, 0xfffff, 0x3f7ff);
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x32, 0xfffff, 0xc26bf);	/*disable LNA*/
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, 0x80000, 0x0);
++				}
++		}
++	} else if (pDM_Odm->SupportICType & (ODM_RTL8821 | ODM_RTL8881A)) {
++		if (type == PhyDM_disable_LNA) {
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, 0xfffff, 0x0002f);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, 0xfffff, 0xfb09b);	/*disable LNA*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x0);
++		} else if (type == PhyDM_enable_LNA) {
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, 0xfffff, 0x0002f);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, 0xfffff, 0xfb0bb);	/*disable LNA*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x0);	
++		}
++	}
++}
++
++
++
++VOID
++Phydm_SetTRxMux(
++	IN	PVOID				pDM_VOID,
++	IN	PhyDM_Trx_MUX_Type	txMode,
++	IN	PhyDM_Trx_MUX_Type	rxMode
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_RPT_FORMAT_11N, BIT3 | BIT2 | BIT1, txMode);			/*set TXmod to standby mode to remove outside noise affect*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_RPT_FORMAT_11N, BIT22 | BIT21 | BIT20, rxMode);		/*set RXmod to standby mode to remove outside noise affect*/
++		if (pDM_Odm->RFType > ODM_1T1R) {
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_RPT_FORMAT_11N_B, BIT3 | BIT2 | BIT1, txMode);		/*set TXmod to standby mode to remove outside noise affect*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_RPT_FORMAT_11N_B, BIT22 | BIT21 | BIT20, rxMode);	/*set RXmod to standby mode to remove outside noise affect*/
++		}
++	}
++#if (RTL8195A_SUPPORT == 0)
++	else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++		ODM_SetBBReg(pDM_Odm, ODM_REG_TRMUX_11AC, BIT11 | BIT10 | BIT9 | BIT8, txMode);				/*set TXmod to standby mode to remove outside noise affect*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_TRMUX_11AC, BIT7 | BIT6 | BIT5 | BIT4, rxMode);				/*set RXmod to standby mode to remove outside noise affect*/
++		if (pDM_Odm->RFType > ODM_1T1R) {
++			ODM_SetBBReg(pDM_Odm, ODM_REG_TRMUX_11AC_B, BIT11 | BIT10 | BIT9 | BIT8, txMode);		/*set TXmod to standby mode to remove outside noise affect*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_TRMUX_11AC_B, BIT7 | BIT6 | BIT5 | BIT4, rxMode);			/*set RXmod to standby mode to remove outside noise affect*/
++		}
++	}
++#endif
++
++}
++
++VOID
++Phydm_MACEDCCAState(
++	IN	PVOID					pDM_VOID,
++	IN	PhyDM_MACEDCCA_Type		State
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	if (State == PhyDM_IGNORE_EDCCA) {
++		ODM_SetMACReg(pDM_Odm, REG_TX_PTCL_CTRL, BIT15, 1);	/*ignore EDCCA	reg520[15]=1*/
++/*		ODM_SetMACReg(pDM_Odm, REG_RD_CTRL, BIT11, 0);			*//*reg524[11]=0*/
++	} else {	/*don't set MAC ignore EDCCA signal*/
++		ODM_SetMACReg(pDM_Odm, REG_TX_PTCL_CTRL, BIT15, 0);	/*don't ignore EDCCA	 reg520[15]=0*/
++/*		ODM_SetMACReg(pDM_Odm, REG_RD_CTRL, BIT11, 1);			*//*reg524[11]=1	*/
++	}
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("EDCCA enable State = %d\n", State));
++
++}
++
++BOOLEAN
++Phydm_CalNHMcnt(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u2Byte			Base = 0;
++
++	Base = pDM_Odm->NHM_cnt_0 + pDM_Odm->NHM_cnt_1;
++
++	if (Base != 0) {
++		pDM_Odm->NHM_cnt_0 = ((pDM_Odm->NHM_cnt_0) << 8) / Base;
++		pDM_Odm->NHM_cnt_1 = ((pDM_Odm->NHM_cnt_1) << 8) / Base;
++	}
++	if ((pDM_Odm->NHM_cnt_0 - pDM_Odm->NHM_cnt_1) >= 100)
++		return TRUE;			/*clean environment*/
++	else
++		return FALSE;		/*noisy environment*/
++
++}
++
++
++VOID
++Phydm_CheckEnvironment(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);
++	BOOLEAN 	isCleanEnvironment = FALSE;
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	prtl8192cd_priv	priv = pDM_Odm->priv;
++#endif
++
++	if (Adaptivity->bFirstLink == TRUE) {
++		if (pDM_Odm->SupportICType & (ODM_IC_11AC_GAIN_IDX_EDCCA | ODM_IC_11N_GAIN_IDX_EDCCA))
++			pDM_Odm->adaptivity_flag = FALSE;
++		else
++			pDM_Odm->adaptivity_flag = TRUE;
++
++		Adaptivity->bFirstLink = FALSE;
++		return;
++	} else {
++		if (Adaptivity->NHMWait < 3) {		/*Start enter NHM after 4 NHMWait*/
++			Adaptivity->NHMWait++;
++			Phydm_NHMCounterStatistics(pDM_Odm);
++			return;
++		} else {
++			Phydm_NHMCounterStatistics(pDM_Odm);
++			isCleanEnvironment = Phydm_CalNHMcnt(pDM_Odm);
++			if (isCleanEnvironment == TRUE) {
++				pDM_Odm->TH_L2H_ini = Adaptivity->TH_L2H_ini_backup;			/*adaptivity mode*/
++				pDM_Odm->TH_EDCCA_HL_diff = Adaptivity->TH_EDCCA_HL_diff_backup;
++
++				pDM_Odm->Adaptivity_enable = TRUE;
++
++				if (pDM_Odm->SupportICType & (ODM_IC_11AC_GAIN_IDX_EDCCA | ODM_IC_11N_GAIN_IDX_EDCCA))
++					pDM_Odm->adaptivity_flag = FALSE;
++				else
++					pDM_Odm->adaptivity_flag = TRUE;
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)				
++				priv->pshare->rf_ft_var.isCleanEnvironment = TRUE;
++#endif
++			} else {
++				if (!Adaptivity->AcsForAdaptivity) {			
++					pDM_Odm->TH_L2H_ini = pDM_Odm->TH_L2H_ini_mode2;			/*mode2*/
++					pDM_Odm->TH_EDCCA_HL_diff = pDM_Odm->TH_EDCCA_HL_diff_mode2;
++
++					pDM_Odm->adaptivity_flag = FALSE;
++					pDM_Odm->Adaptivity_enable = FALSE;
++				}
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++				priv->pshare->rf_ft_var.isCleanEnvironment = FALSE;
++#endif
++			}
++			Adaptivity->NHMWait = 0;
++			Adaptivity->bFirstLink = TRUE;
++			Adaptivity->bCheck = TRUE;
++		}
++
++	}
++
++
++}
++
++VOID
++Phydm_SearchPwdBLowerBound(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);
++	u4Byte			value32 = 0;
++	u1Byte			cnt;
++	u1Byte			txEdcca1 = 0, txEdcca0 = 0;
++	BOOLEAN			bAdjust = TRUE;
++	s1Byte 			TH_L2H_dmc, TH_H2L_dmc, IGI_target = 0x32;
++	s1Byte 			Diff;
++	u1Byte			IGI = Adaptivity->IGI_Base + 30 + (u1Byte)pDM_Odm->TH_L2H_ini - (u1Byte)pDM_Odm->TH_EDCCA_HL_diff;
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8723B | ODM_RTL8188E | ODM_RTL8192E | ODM_RTL8812 | ODM_RTL8821 | ODM_RTL8881A))
++		Phydm_SetLNA(pDM_Odm, PhyDM_disable_LNA);
++	else {
++		Phydm_SetTRxMux(pDM_Odm, PhyDM_STANDBY_MODE, PhyDM_STANDBY_MODE);
++		odm_PauseDIG(pDM_Odm, PHYDM_PAUSE, PHYDM_PAUSE_LEVEL_0, 0x7e);
++	}
++
++	Diff = IGI_target - (s1Byte)IGI;
++	TH_L2H_dmc = pDM_Odm->TH_L2H_ini + Diff;
++	if (TH_L2H_dmc > 10)
++		TH_L2H_dmc = 10;
++	TH_H2L_dmc = TH_L2H_dmc - pDM_Odm->TH_EDCCA_HL_diff;
++
++	Phydm_SetEDCCAThreshold(pDM_Odm, TH_H2L_dmc, TH_L2H_dmc);
++	ODM_delay_ms(5);
++
++	while (bAdjust) {
++		for (cnt = 0; cnt < 20; cnt++) {
++			if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++				value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11N, bMaskDWord);
++#if (RTL8195A_SUPPORT == 0)
++			else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++				value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC, bMaskDWord);
++#endif
++			if (value32 & BIT30 && (pDM_Odm->SupportICType & (ODM_RTL8723B | ODM_RTL8188E)))
++				txEdcca1 = txEdcca1 + 1;
++			else if (value32 & BIT29)
++				txEdcca1 = txEdcca1 + 1;
++			else
++				txEdcca0 = txEdcca0 + 1;
++		}
++
++		if (txEdcca1 > 1) {
++			IGI = IGI - 1;
++			TH_L2H_dmc = TH_L2H_dmc + 1;
++			if (TH_L2H_dmc > 10)
++				TH_L2H_dmc = 10;
++			TH_H2L_dmc = TH_L2H_dmc - pDM_Odm->TH_EDCCA_HL_diff;
++
++			Phydm_SetEDCCAThreshold(pDM_Odm, TH_H2L_dmc, TH_L2H_dmc);
++			if (TH_L2H_dmc == 10) {
++				bAdjust = FALSE;
++				Adaptivity->H2L_lb = TH_H2L_dmc;
++				Adaptivity->L2H_lb = TH_L2H_dmc;
++				pDM_Odm->Adaptivity_IGI_upper = IGI;
++			}
++
++			txEdcca1 = 0;
++			txEdcca0 = 0;
++
++		} else {
++			bAdjust = FALSE;
++			Adaptivity->H2L_lb = TH_H2L_dmc;
++			Adaptivity->L2H_lb = TH_L2H_dmc;
++			pDM_Odm->Adaptivity_IGI_upper = IGI;
++			txEdcca1 = 0;
++			txEdcca0 = 0;
++		}
++	}
++
++	pDM_Odm->Adaptivity_IGI_upper = pDM_Odm->Adaptivity_IGI_upper - pDM_Odm->DCbackoff;
++	Adaptivity->H2L_lb = Adaptivity->H2L_lb + pDM_Odm->DCbackoff;
++	Adaptivity->L2H_lb = Adaptivity->L2H_lb + pDM_Odm->DCbackoff;
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8723B | ODM_RTL8188E | ODM_RTL8192E | ODM_RTL8812 | ODM_RTL8821 | ODM_RTL8881A))
++		Phydm_SetLNA(pDM_Odm, PhyDM_enable_LNA);
++	else {
++		Phydm_SetTRxMux(pDM_Odm, PhyDM_TX_MODE, PhyDM_RX_MODE);
++		odm_PauseDIG(pDM_Odm, PHYDM_RESUME, PHYDM_PAUSE_LEVEL_0, NONE);
++	}
++	
++	Phydm_SetEDCCAThreshold(pDM_Odm, 0x7f, 0x7f);				/*resume to no link state*/
++}
++
++BOOLEAN
++phydm_reSearchCondition(
++	IN	PVOID				pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	/*PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);*/
++	u1Byte			Adaptivity_IGI_upper;
++	/*s1Byte		TH_L2H_dmc, IGI_target = 0x32;*/
++	/*s1Byte		Diff;*/
++
++	Adaptivity_IGI_upper = pDM_Odm->Adaptivity_IGI_upper + pDM_Odm->DCbackoff;
++	
++	/*TH_L2H_dmc = 10;*/
++
++	/*Diff = TH_L2H_dmc - pDM_Odm->TH_L2H_ini;*/
++	/*lowest_IGI_upper = IGI_target - Diff;*/
++
++	/*if ((Adaptivity_IGI_upper - lowest_IGI_upper) <= 5)*/
++	if (Adaptivity_IGI_upper <= 0x26)
++		return TRUE;
++	else
++		return FALSE;
++	
++}
++
++VOID
++phydm_adaptivityInfoInit(
++	IN	PVOID				pDM_VOID,
++	IN	PHYDM_ADAPINFO_E	CmnInfo,
++	IN	u4Byte				Value	
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);
++
++	switch (CmnInfo)	{
++	case PHYDM_ADAPINFO_CARRIER_SENSE_ENABLE:
++		pDM_Odm->Carrier_Sense_enable = (BOOLEAN)Value;
++	break;
++
++	case PHYDM_ADAPINFO_DCBACKOFF:
++		pDM_Odm->DCbackoff = (u1Byte)Value;
++	break;
++
++	case PHYDM_ADAPINFO_DYNAMICLINKADAPTIVITY:
++		Adaptivity->DynamicLinkAdaptivity = (BOOLEAN)Value;
++	break;
++
++	case PHYDM_ADAPINFO_TH_L2H_INI:
++		pDM_Odm->TH_L2H_ini = (s1Byte)Value;
++	break;
++
++	case PHYDM_ADAPINFO_TH_EDCCA_HL_DIFF:
++		pDM_Odm->TH_EDCCA_HL_diff = (s1Byte)Value;
++	break;
++
++	case PHYDM_ADAPINFO_AP_NUM_TH:
++		Adaptivity->APNumTH = (u1Byte)Value;
++	break;
++
++	default:
++	break;	
++		
++	}
++
++}
++
++
++
++VOID
++Phydm_AdaptivityInit(
++	IN 	PVOID	 	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);
++	s1Byte	IGItarget = 0x32;
++	/*pDIG_T pDM_DigTable = &pDM_Odm->DM_DigTable;*/
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++
++	if (pDM_Odm->Carrier_Sense_enable == FALSE) {
++		if (pDM_Odm->TH_L2H_ini == 0)
++			pDM_Odm->TH_L2H_ini = 0xf5;
++	} else
++			pDM_Odm->TH_L2H_ini = 0xa;
++
++	if (pDM_Odm->TH_EDCCA_HL_diff == 0)
++		pDM_Odm->TH_EDCCA_HL_diff = 7;
++#if(DM_ODM_SUPPORT_TYPE & (ODM_CE))
++	if (pDM_Odm->WIFITest == TRUE)
++#else
++	if ((pDM_Odm->WIFITest & RT_WIFI_LOGO) == TRUE)
++#endif
++		pDM_Odm->EDCCA_enable = FALSE;		/*even no adaptivity, we still enable EDCCA, AP side use mib control*/
++	else
++		pDM_Odm->EDCCA_enable = TRUE;
++
++#elif (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	prtl8192cd_priv	priv = pDM_Odm->priv;
++
++	if (pDM_Odm->Carrier_Sense_enable) {
++		pDM_Odm->TH_L2H_ini = 0xa;
++		pDM_Odm->TH_EDCCA_HL_diff = 7;
++	} else {
++		pDM_Odm->TH_L2H_ini = pDM_Odm->TH_L2H_default;	/*set by mib*/
++		pDM_Odm->TH_EDCCA_HL_diff = pDM_Odm->TH_EDCCA_HL_diff_default;
++	}
++
++	if (priv->pshare->rf_ft_var.adaptivity_enable == 3)
++		Adaptivity->AcsForAdaptivity = TRUE;
++	else 
++		Adaptivity->AcsForAdaptivity = FALSE;
++
++	if (priv->pshare->rf_ft_var.adaptivity_enable == 2)
++		Adaptivity->DynamicLinkAdaptivity = TRUE;
++	else
++		Adaptivity->DynamicLinkAdaptivity = FALSE;
++
++	priv->pshare->rf_ft_var.isCleanEnvironment = FALSE;
++
++#endif
++
++	pDM_Odm->Adaptivity_IGI_upper = 0;
++	pDM_Odm->Adaptivity_enable = FALSE;	/*use this flag to decide enable or disable*/
++
++	pDM_Odm->TH_L2H_ini_mode2 = 20;
++	pDM_Odm->TH_EDCCA_HL_diff_mode2 = 8;
++	Adaptivity->TH_L2H_ini_backup = pDM_Odm->TH_L2H_ini;
++	Adaptivity->TH_EDCCA_HL_diff_backup = pDM_Odm->TH_EDCCA_HL_diff;
++	
++	Adaptivity->IGI_Base = 0x32;
++	Adaptivity->IGI_target = 0x1c;
++	Adaptivity->H2L_lb = 0;
++	Adaptivity->L2H_lb = 0;
++	Adaptivity->NHMWait = 0;
++	Adaptivity->bCheck = FALSE;
++	Adaptivity->bFirstLink = TRUE;
++	Adaptivity->AdajustIGILevel = 0;
++	Adaptivity->bStopEDCCA = FALSE;
++	Adaptivity->backupH2L = 0;
++	Adaptivity->backupL2H = 0;
++
++	Phydm_MACEDCCAState(pDM_Odm, PhyDM_DONT_IGNORE_EDCCA);
++
++	/*Search pwdB lower bound*/
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11N, bMaskDWord, 0x208);
++#if (RTL8195A_SUPPORT == 0)
++	else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC, bMaskDWord, 0x209);
++#endif
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_GAIN_IDX_EDCCA) {
++		/*ODM_SetBBReg(pDM_Odm, ODM_REG_EDCCA_DOWN_OPT_11N, BIT12 | BIT11 | BIT10, 0x7);*/		/*interfernce need > 2^x us, and then EDCCA will be 1*/
++		if (pDM_Odm->SupportICType & ODM_RTL8197F) {
++			ODM_SetBBReg(pDM_Odm, ODM_REG_PAGE_B1_97F, BIT30, 0x1);								/*set to page B1*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_EDCCA_DCNF_97F, BIT27 | BIT26, 0x1);		/*0:rx_dfir, 1: dcnf_out, 2 :rx_iq, 3: rx_nbi_nf_out*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_PAGE_B1_97F, BIT30, 0x0);
++		} else
++		ODM_SetBBReg(pDM_Odm, ODM_REG_EDCCA_DCNF_11N, BIT21 | BIT20, 0x1);		/*0:rx_dfir, 1: dcnf_out, 2 :rx_iq, 3: rx_nbi_nf_out*/
++	}
++#if (RTL8195A_SUPPORT == 0)
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_GAIN_IDX_EDCCA) {		/*8814a no need to find pwdB lower bound, maybe*/
++		/*ODM_SetBBReg(pDM_Odm, ODM_REG_EDCCA_DOWN_OPT, BIT30 | BIT29 | BIT28, 0x7);*/		/*interfernce need > 2^x us, and then EDCCA will be 1*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_ACBB_EDCCA_ENHANCE, BIT29 | BIT28, 0x1);		/*0:rx_dfir, 1: dcnf_out, 2 :rx_iq, 3: rx_nbi_nf_out*/
++	}
++
++	if (!(pDM_Odm->SupportICType & (ODM_IC_11AC_GAIN_IDX_EDCCA | ODM_IC_11N_GAIN_IDX_EDCCA))) {
++		Phydm_SearchPwdBLowerBound(pDM_Odm);
++		if (phydm_reSearchCondition(pDM_Odm))
++			Phydm_SearchPwdBLowerBound(pDM_Odm);
++	}
++#endif
++
++/*we need to consider PwdB upper bound for 8814 later IC*/
++	Adaptivity->AdajustIGILevel = (u1Byte)((pDM_Odm->TH_L2H_ini + IGItarget) - PwdBUpperBound + DFIRloss);	/*IGI = L2H - PwdB - DFIRloss*/
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("TH_L2H_ini = 0x%x, TH_EDCCA_HL_diff = 0x%x, Adaptivity->AdajustIGILevel = 0x%x\n", pDM_Odm->TH_L2H_ini, pDM_Odm->TH_EDCCA_HL_diff, Adaptivity->AdajustIGILevel));
++
++	/*Check this later on Windows*/
++	/*phydm_setEDCCAThresholdAPI(pDM_Odm, pDM_DigTable->CurIGValue);*/
++
++}
++
++
++VOID
++Phydm_Adaptivity(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			IGI
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	s1Byte			TH_L2H_dmc, TH_H2L_dmc;
++	s1Byte			Diff = 0, IGI_target;
++	PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		pAdapter	= pDM_Odm->Adapter;
++	BOOLEAN			bFwCurrentInPSMode = FALSE;
++
++	pAdapter->HalFunc.GetHwRegHandler(pAdapter, HW_VAR_FW_PSMODE_STATUS, (pu1Byte)(&bFwCurrentInPSMode));
++
++	/*Disable EDCCA mode while under LPS mode, added by Roger, 2012.09.14.*/
++	if (bFwCurrentInPSMode)
++		return;
++#endif
++
++	if ((pDM_Odm->EDCCA_enable == FALSE) || (Adaptivity->bStopEDCCA == TRUE)) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("Disable EDCCA!!!\n"));
++		return;
++	}
++
++	if (!(pDM_Odm->SupportAbility & ODM_BB_ADAPTIVITY)) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("adaptivity disable, enable EDCCA mode!!!\n"));
++		pDM_Odm->TH_L2H_ini = pDM_Odm->TH_L2H_ini_mode2;
++		pDM_Odm->TH_EDCCA_HL_diff = pDM_Odm->TH_EDCCA_HL_diff_mode2;
++	}
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	else{
++		if (Phydm_CheckChannelPlan(pDM_Odm) || (pDM_Odm->APTotalNum > Adaptivity->APNumTH)) {
++			pDM_Odm->TH_L2H_ini = pDM_Odm->TH_L2H_ini_mode2;
++			pDM_Odm->TH_EDCCA_HL_diff = pDM_Odm->TH_EDCCA_HL_diff_mode2;
++		} else {
++			pDM_Odm->TH_L2H_ini = Adaptivity->TH_L2H_ini_backup;
++			pDM_Odm->TH_EDCCA_HL_diff = Adaptivity->TH_EDCCA_HL_diff_backup;
++		}
++	}
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("odm_Adaptivity() =====>\n"));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("IGI_Base=0x%x, TH_L2H_ini = %d, TH_EDCCA_HL_diff = %d\n",
++			 Adaptivity->IGI_Base, pDM_Odm->TH_L2H_ini, pDM_Odm->TH_EDCCA_HL_diff));
++#if (RTL8195A_SUPPORT == 0)
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++		/*fix AC series when enable EDCCA hang issue*/
++		ODM_SetBBReg(pDM_Odm, 0x800, BIT10, 1);	/*ADC_mask disable*/
++		ODM_SetBBReg(pDM_Odm, 0x800, BIT10, 0);	/*ADC_mask enable*/
++	}
++#endif
++	if (*pDM_Odm->pBandWidth == ODM_BW20M)		/*CHANNEL_WIDTH_20*/
++		IGI_target = Adaptivity->IGI_Base;
++	else if (*pDM_Odm->pBandWidth == ODM_BW40M)
++		IGI_target = Adaptivity->IGI_Base + 2;
++#if (RTL8195A_SUPPORT == 0)
++	else if (*pDM_Odm->pBandWidth == ODM_BW80M)
++		IGI_target = Adaptivity->IGI_Base + 2;
++#endif
++	else
++		IGI_target = Adaptivity->IGI_Base;
++	Adaptivity->IGI_target = (u1Byte) IGI_target;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("BandWidth=%s, IGI_target=0x%x, DynamicLinkAdaptivity = %d, AcsForAdaptivity = %d\n",
++			 (*pDM_Odm->pBandWidth == ODM_BW80M) ? "80M" : ((*pDM_Odm->pBandWidth == ODM_BW40M) ? "40M" : "20M"), IGI_target, Adaptivity->DynamicLinkAdaptivity, Adaptivity->AcsForAdaptivity));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("RSSI_min = %d, Adaptivity->AdajustIGILevel= 0x%x, adaptivity_flag = %d, Adaptivity_enable = %d\n",
++			 pDM_Odm->RSSI_Min, Adaptivity->AdajustIGILevel, pDM_Odm->adaptivity_flag, pDM_Odm->Adaptivity_enable));
++
++	if ((Adaptivity->DynamicLinkAdaptivity == TRUE) && (!pDM_Odm->bLinked) && (pDM_Odm->Adaptivity_enable == FALSE)) {
++		Phydm_SetEDCCAThreshold(pDM_Odm, 0x7f, 0x7f);
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("In DynamicLink mode(noisy) and No link, Turn off EDCCA!!\n"));
++		return;
++	}
++
++	if (pDM_Odm->SupportICType & (ODM_IC_11AC_GAIN_IDX_EDCCA | ODM_IC_11N_GAIN_IDX_EDCCA)) {
++		if ((Adaptivity->AdajustIGILevel > IGI) && (pDM_Odm->Adaptivity_enable == TRUE)) 
++			Diff = Adaptivity->AdajustIGILevel - IGI;
++		
++		TH_L2H_dmc = pDM_Odm->TH_L2H_ini - Diff + IGI_target;
++		TH_H2L_dmc = TH_L2H_dmc - pDM_Odm->TH_EDCCA_HL_diff;
++	}
++#if (RTL8195A_SUPPORT == 0)
++	else	{
++		Diff = IGI_target - (s1Byte)IGI;
++		TH_L2H_dmc = pDM_Odm->TH_L2H_ini + Diff;
++		if (TH_L2H_dmc > 10 && (pDM_Odm->Adaptivity_enable == TRUE))
++			TH_L2H_dmc = 10;
++
++		TH_H2L_dmc = TH_L2H_dmc - pDM_Odm->TH_EDCCA_HL_diff;
++
++		/*replace lower bound to prevent EDCCA always equal 1*/
++		if (TH_H2L_dmc < Adaptivity->H2L_lb)
++			TH_H2L_dmc = Adaptivity->H2L_lb;
++		if (TH_L2H_dmc < Adaptivity->L2H_lb)
++			TH_L2H_dmc = Adaptivity->L2H_lb;
++	}
++#endif
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("IGI=0x%x, TH_L2H_dmc = %d, TH_H2L_dmc = %d\n", IGI, TH_L2H_dmc, TH_H2L_dmc));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("Adaptivity_IGI_upper=0x%x, H2L_lb = 0x%x, L2H_lb = 0x%x\n", pDM_Odm->Adaptivity_IGI_upper, Adaptivity->H2L_lb, Adaptivity->L2H_lb));
++
++	Phydm_SetEDCCAThreshold(pDM_Odm, TH_H2L_dmc, TH_L2H_dmc);
++	
++	if (pDM_Odm->Adaptivity_enable == TRUE)
++		ODM_SetMACReg(pDM_Odm, REG_RD_CTRL, BIT11, 1);
++	
++	return;
++}
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++VOID
++Phydm_AdaptivityBSOD(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		pAdapter = pDM_Odm->Adapter;
++	PMGNT_INFO		pMgntInfo = &(pAdapter->MgntInfo);
++	u1Byte			count = 0;
++	u4Byte			u4Value;
++
++	/*
++	1. turn off RF (TRX Mux in standby mode)
++	2. H2C mac id drop
++	3. ignore EDCCA
++	4. wait for clear FIFO
++	5. don't ignore EDCCA
++	6. turn on RF (TRX Mux in TRx mdoe)
++	7. H2C mac id resume
++	*/
++
++	RT_TRACE(COMP_MLME, DBG_WARNING, ("MAC id drop packet!!!!!\n"));
++
++	pAdapter->dropPktByMacIdCnt++;
++	pMgntInfo->bDropPktInProgress = TRUE;
++
++	pAdapter->HalFunc.GetHwRegHandler(pAdapter, HW_VAR_MAX_Q_PAGE_NUM, (pu1Byte)(&u4Value));
++	RT_TRACE(COMP_INIT, DBG_LOUD, ("Queue Reserved Page Number = 0x%08x\n", u4Value));
++	pAdapter->HalFunc.GetHwRegHandler(pAdapter, HW_VAR_AVBL_Q_PAGE_NUM, (pu1Byte)(&u4Value));
++	RT_TRACE(COMP_INIT, DBG_LOUD, ("Available Queue Page Number = 0x%08x\n", u4Value));
++
++	/*Standby mode*/
++	Phydm_SetTRxMux(pDM_Odm, PhyDM_STANDBY_MODE, PhyDM_STANDBY_MODE);
++	ODM_Write_DIG(pDM_Odm, 0x20);
++
++	/*H2C mac id drop*/
++	MacIdIndicateDisconnect(pAdapter);
++
++	/*Ignore EDCCA*/
++	Phydm_MACEDCCAState(pDM_Odm, PhyDM_IGNORE_EDCCA);
++
++	delay_ms(50);
++	count = 5;
++
++	/*Resume EDCCA*/
++	Phydm_MACEDCCAState(pDM_Odm, PhyDM_DONT_IGNORE_EDCCA);
++
++	/*Turn on TRx mode*/
++	Phydm_SetTRxMux(pDM_Odm, PhyDM_TX_MODE, PhyDM_RX_MODE);
++	ODM_Write_DIG(pDM_Odm, 0x20);
++
++	/*Resume H2C macid*/
++	MacIdRecoverMediaStatus(pAdapter);
++
++	pAdapter->HalFunc.GetHwRegHandler(pAdapter, HW_VAR_AVBL_Q_PAGE_NUM, (pu1Byte)(&u4Value));
++	RT_TRACE(COMP_INIT, DBG_LOUD, ("Available Queue Page Number = 0x%08x\n", u4Value));
++
++	pMgntInfo->bDropPktInProgress = FALSE;
++	RT_TRACE(COMP_MLME, DBG_WARNING, ("End of MAC id drop packet, spent %dms\n", count * 10));
++
++}
++
++#endif
++
++/*This API is for solving USB can't Tx problem due to USB3.0 interference in 2.4G*/
++VOID
++phydm_pauseEDCCA(
++	IN	PVOID	pDM_VOID,
++	IN	BOOLEAN	bPasueEDCCA
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);
++	pDIG_T	pDM_DigTable = &pDM_Odm->DM_DigTable;
++	u1Byte	IGI = pDM_DigTable->CurIGValue;
++	s1Byte	Diff = 0;
++
++	if (bPasueEDCCA) {
++		Adaptivity->bStopEDCCA = TRUE;
++
++		if (pDM_Odm->SupportICType & (ODM_IC_11AC_GAIN_IDX_EDCCA | ODM_IC_11N_GAIN_IDX_EDCCA)) {
++				if (Adaptivity->AdajustIGILevel > IGI)
++					Diff = Adaptivity->AdajustIGILevel - IGI;
++				
++				Adaptivity->backupL2H = pDM_Odm->TH_L2H_ini - Diff + Adaptivity->IGI_target;
++				Adaptivity->backupH2L = Adaptivity->backupL2H - pDM_Odm->TH_EDCCA_HL_diff;
++			}
++#if (RTL8195A_SUPPORT == 0)
++			else {
++				Diff = Adaptivity->IGI_target - (s1Byte)IGI;
++				Adaptivity->backupL2H = pDM_Odm->TH_L2H_ini + Diff;
++				if (Adaptivity->backupL2H > 10)
++					Adaptivity->backupL2H = 10;
++
++				Adaptivity->backupH2L = Adaptivity->backupL2H - pDM_Odm->TH_EDCCA_HL_diff;
++
++				/*replace lower bound to prevent EDCCA always equal 1*/
++				if (Adaptivity->backupH2L < Adaptivity->H2L_lb)
++					Adaptivity->backupH2L = Adaptivity->H2L_lb;
++				if (Adaptivity->backupL2H < Adaptivity->L2H_lb)
++					Adaptivity->backupL2H = Adaptivity->L2H_lb;
++			}
++#endif
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("pauseEDCCA : L2Hbak = 0x%x, H2Lbak = 0x%x, IGI = 0x%x\n", Adaptivity->backupL2H, Adaptivity->backupH2L, IGI));
++
++		/*Disable EDCCA*/
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		if (PlatformIsWorkItemScheduled(&(Adaptivity->phydm_pauseEDCCAWorkItem)) == FALSE)
++			PlatformScheduleWorkItem(&(Adaptivity->phydm_pauseEDCCAWorkItem));
++#else
++		phydm_pauseEDCCA_WorkItemCallback(pDM_Odm);
++#endif
++	
++	} else {
++
++		Adaptivity->bStopEDCCA = FALSE;
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("resumeEDCCA : L2Hbak = 0x%x, H2Lbak = 0x%x, IGI = 0x%x\n", Adaptivity->backupL2H, Adaptivity->backupH2L, IGI));
++		/*Resume EDCCA*/
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		if (PlatformIsWorkItemScheduled(&(Adaptivity->phydm_resumeEDCCAWorkItem)) == FALSE)
++			PlatformScheduleWorkItem(&(Adaptivity->phydm_resumeEDCCAWorkItem));
++#else
++		phydm_resumeEDCCA_WorkItemCallback(pDM_Odm);
++#endif
++
++	}
++
++}
++
++
++VOID
++phydm_pauseEDCCA_WorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		ODM_SetBBReg(pDM_Odm, rOFDM0_ECCAThreshold, bMaskByte2|bMaskByte0, (u4Byte)(0x7f|0x7f<<16));
++#if (RTL8195A_SUPPORT == 0)
++	else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		ODM_SetBBReg(pDM_Odm, rFPGA0_XB_LSSIReadBack, bMaskLWord, (u2Byte)(0x7f|0x7f<<8));
++#endif
++
++}
++
++VOID
++phydm_resumeEDCCA_WorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++	PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);
++	
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		ODM_SetBBReg(pDM_Odm, rOFDM0_ECCAThreshold, bMaskByte2|bMaskByte0, (u4Byte)((u1Byte)Adaptivity->backupL2H|(u1Byte)Adaptivity->backupH2L<<16));
++#if (RTL8195A_SUPPORT == 0)
++	else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		ODM_SetBBReg(pDM_Odm, rFPGA0_XB_LSSIReadBack, bMaskLWord, (u2Byte)((u1Byte)Adaptivity->backupL2H|(u1Byte)Adaptivity->backupH2L<<8));
++#endif
++
++}
++
++
++VOID
++phydm_setEDCCAThresholdAPI(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	IGI
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);
++	s1Byte			TH_L2H_dmc, TH_H2L_dmc;
++	s1Byte			Diff = 0, IGI_target = 0x32;
++
++	if (pDM_Odm->SupportAbility & ODM_BB_ADAPTIVITY) {
++		if (pDM_Odm->SupportICType & (ODM_IC_11AC_GAIN_IDX_EDCCA | ODM_IC_11N_GAIN_IDX_EDCCA)) {
++			if (Adaptivity->AdajustIGILevel > IGI) 
++				Diff = Adaptivity->AdajustIGILevel - IGI;
++			
++			TH_L2H_dmc = pDM_Odm->TH_L2H_ini - Diff + IGI_target;
++			TH_H2L_dmc = TH_L2H_dmc - pDM_Odm->TH_EDCCA_HL_diff;
++		}
++#if (RTL8195A_SUPPORT == 0)
++		else	{
++			Diff = IGI_target - (s1Byte)IGI;
++			TH_L2H_dmc = pDM_Odm->TH_L2H_ini + Diff;
++			if (TH_L2H_dmc > 10)
++				TH_L2H_dmc = 10;
++
++			TH_H2L_dmc = TH_L2H_dmc - pDM_Odm->TH_EDCCA_HL_diff;
++
++			/*replace lower bound to prevent EDCCA always equal 1*/
++			if (TH_H2L_dmc < Adaptivity->H2L_lb)
++				TH_H2L_dmc = Adaptivity->H2L_lb;
++			if (TH_L2H_dmc < Adaptivity->L2H_lb)
++				TH_L2H_dmc = Adaptivity->L2H_lb;
++		}
++#endif
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("API :IGI=0x%x, TH_L2H_dmc = %d, TH_H2L_dmc = %d\n", IGI, TH_L2H_dmc, TH_H2L_dmc));
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("API :Adaptivity_IGI_upper=0x%x, H2L_lb = 0x%x, L2H_lb = 0x%x\n", pDM_Odm->Adaptivity_IGI_upper, Adaptivity->H2L_lb, Adaptivity->L2H_lb));
++
++		Phydm_SetEDCCAThreshold(pDM_Odm, TH_H2L_dmc, TH_L2H_dmc);
++	}
++
++}
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_adaptivity.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_adaptivity.h
+new file mode 100644
+index 0000000..75bc838
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_adaptivity.h
+@@ -0,0 +1,222 @@
++
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMADAPTIVITY_H__
++#define    __PHYDMADAPTIVITY_H__
++
++#define ADAPTIVITY_VERSION	"9.3.3"	/*20151230 changed by Kevin, modify 0x524[11] when adaptivity is enabled*/
++
++#define PwdBUpperBound	7
++#define DFIRloss	5
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))
++typedef enum _tag_PhyDM_REGULATION_Type {
++	REGULATION_FCC = 0,
++	REGULATION_MKK = 1,
++	REGULATION_ETSI = 2,
++	REGULATION_WW = 3,	
++	
++	MAX_REGULATION_NUM = 4
++} PhyDM_REGULATION_TYPE;
++#endif
++
++typedef enum _PHYDM_ADAPTIVITY_Info_Definition {
++	PHYDM_ADAPINFO_CARRIER_SENSE_ENABLE = 0,
++	PHYDM_ADAPINFO_DCBACKOFF,
++	PHYDM_ADAPINFO_DYNAMICLINKADAPTIVITY,
++	PHYDM_ADAPINFO_TH_L2H_INI,
++	PHYDM_ADAPINFO_TH_EDCCA_HL_DIFF,
++	PHYDM_ADAPINFO_AP_NUM_TH
++
++} PHYDM_ADAPINFO_E;
++
++
++
++typedef enum tag_PhyDM_set_LNA {
++	PhyDM_disable_LNA		= 0,
++	PhyDM_enable_LNA		= 1,
++} PhyDM_set_LNA;
++
++
++typedef enum tag_PhyDM_TRx_MUX_Type
++{
++	PhyDM_SHUTDOWN			= 0,
++	PhyDM_STANDBY_MODE		= 1,
++	PhyDM_TX_MODE			= 2,
++	PhyDM_RX_MODE			= 3
++}PhyDM_Trx_MUX_Type;
++
++typedef enum tag_PhyDM_MACEDCCA_Type
++{
++	PhyDM_IGNORE_EDCCA			= 0,
++	PhyDM_DONT_IGNORE_EDCCA	= 1
++}PhyDM_MACEDCCA_Type;
++
++typedef struct _ADAPTIVITY_STATISTICS {
++	s1Byte			TH_L2H_ini_backup;
++	s1Byte			TH_EDCCA_HL_diff_backup;
++	s1Byte			IGI_Base;
++	u1Byte			IGI_target;
++	u1Byte			NHMWait;
++	s1Byte			H2L_lb;
++	s1Byte			L2H_lb;
++	BOOLEAN			bFirstLink;
++	BOOLEAN			bCheck;
++	BOOLEAN			DynamicLinkAdaptivity;
++	u1Byte			APNumTH;
++	u1Byte			AdajustIGILevel;
++	BOOLEAN			AcsForAdaptivity;
++	s1Byte			backupL2H;
++	s1Byte			backupH2L;
++	BOOLEAN			bStopEDCCA;
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)	
++	RT_WORK_ITEM	phydm_pauseEDCCAWorkItem;
++	RT_WORK_ITEM	phydm_resumeEDCCAWorkItem;
++#endif
++} ADAPTIVITY_STATISTICS, *PADAPTIVITY_STATISTICS;
++
++VOID
++phydm_pauseEDCCA(
++	IN	PVOID	pDM_VOID,
++	IN	BOOLEAN	bPasueEDCCA
++);
++
++VOID
++Phydm_CheckAdaptivity(
++	IN		PVOID			pDM_VOID
++	);
++
++VOID
++Phydm_CheckEnvironment(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID
++Phydm_NHMCounterStatisticsInit(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID
++Phydm_NHMCounterStatistics(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID
++Phydm_NHMCounterStatisticsReset(
++	IN		PVOID			pDM_VOID
++);
++
++VOID
++Phydm_GetNHMCounterStatistics(
++	IN		PVOID			pDM_VOID
++);
++
++VOID
++Phydm_MACEDCCAState(
++	IN	PVOID					pDM_VOID,
++	IN	PhyDM_MACEDCCA_Type		State
++);
++
++VOID
++Phydm_SetEDCCAThreshold(
++	IN		PVOID		pDM_VOID,
++	IN		s1Byte		H2L,
++	IN		s1Byte		L2H
++);
++
++VOID
++Phydm_SetTRxMux(
++	IN		PVOID			pDM_VOID,
++	IN		PhyDM_Trx_MUX_Type			txMode,
++	IN		PhyDM_Trx_MUX_Type			rxMode
++);	
++
++BOOLEAN
++Phydm_CalNHMcnt(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++Phydm_SearchPwdBLowerBound(
++	IN		PVOID					pDM_VOID
++);
++
++VOID
++phydm_adaptivityInfoInit(
++	IN	PVOID			pDM_VOID,
++	IN	PHYDM_ADAPINFO_E	CmnInfo,
++	IN	u4Byte				Value	
++	);
++
++VOID 
++Phydm_AdaptivityInit(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID
++Phydm_Adaptivity(
++	IN		PVOID					pDM_VOID,
++	IN		u1Byte					IGI
++	);
++
++VOID
++phydm_setEDCCAThresholdAPI(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	IGI
++);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++Phydm_DisableEDCCA(
++	IN		PVOID					pDM_VOID
++);
++
++VOID
++Phydm_DynamicEDCCA(
++	IN		PVOID					pDM_VOID
++);
++
++VOID
++Phydm_AdaptivityBSOD(
++	IN		PVOID					pDM_VOID
++);
++
++#endif
++
++VOID 
++phydm_pauseEDCCA_WorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++VOID 
++phydm_resumeEDCCA_WorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_adc_sampling.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_adc_sampling.c
+new file mode 100644
+index 0000000..2f66f13
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_adc_sampling.c
+@@ -0,0 +1,426 @@
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++#include "rtl8197f/Hal8197FPhyReg.h"
++#if ((RTL8197F_SUPPORT == 1)||(RTL8822B_SUPPORT == 1))
++#include "WlanHAL/HalMac88XX/halmac_reg2.h"
++#else
++#include "WlanHAL/HalHeader/HalComReg.h"
++#endif
++
++#if (PHYDM_LA_MODE_SUPPORT == 1)
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++BOOLEAN
++ADCSmp_BufferAllocate(
++	IN	PADAPTER			Adapter,
++	IN	PRT_ADCSMP			AdcSmp
++	)
++{
++	PRT_ADCSMP_STRING	ADCSmpBuf = &(AdcSmp->ADCSmpBuf);
++
++	if (ADCSmpBuf->Length == 0) {
++		if (PlatformAllocateMemoryWithZero(Adapter, (void **)&(ADCSmpBuf->Octet), 0x10000) == RT_STATUS_SUCCESS)
++			ADCSmpBuf->Length = 0x10000;
++		else
++			return FALSE;
++	}
++
++	return TRUE;
++}
++#endif
++
++VOID
++ADCSmp_GetTxPktBuf(
++	IN		PVOID			pDM_VOID,
++	IN	PRT_ADCSMP_STRING	ADCSmpBuf
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte				i = 0, value32, DataL = 0, DataH = 0;
++	u4Byte				Addr, Finish_Addr;
++	u4Byte				End_Addr = (ADCSmpBuf->start_pos  + ADCSmpBuf->buffer_size)-1;	/*End_Addr = 0x3ffff;*/
++	BOOLEAN				bRoundUp;
++	static u4Byte			page = 0xFF;
++
++
++	PlatformZeroMemory(ADCSmpBuf->Octet, ADCSmpBuf->Length);
++
++	ODM_Write1Byte(pDM_Odm, REG_PKT_BUFF_ACCESS_CTRL, 0x69);
++	/*PlatformEFIOWrite1Byte(Adapter, REG_PKT_BUFF_ACCESS_CTRL_8814A, 0x69);*/
++	/*0x106[7:0]=0x69: access TXPKT Buffer*/
++	/*			0xA5: access RXPKT Buffer*/
++	/*			0x7F: access TXREPORT buffer*/
++
++	DbgPrint("%s\n", __func__);
++
++	value32 = ODM_Read4Byte(pDM_Odm, REG_IQ_DUMP);
++	bRoundUp = (BOOLEAN)((value32 & BIT31) >> 31);
++	Finish_Addr = (value32 & 0x7FFF0000) >> 16;	/*Reg7C0[30:16]: finish addr (unit: 8byte)*/
++
++	if (bRoundUp)
++		Addr = (Finish_Addr+1)<<3;
++	else	
++		Addr = ADCSmpBuf->start_pos;
++
++	DbgPrint("bRoundUp = %d, Finish_Addr=0x%x, value32=0x%x\n", bRoundUp, Finish_Addr, value32);
++	DbgPrint("End_Addr = %x, ADCSmpBuf->start_pos = 0x%x, ADCSmpBuf->buffer_size = 0x%x\n", End_Addr, ADCSmpBuf->start_pos, ADCSmpBuf->buffer_size);
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	watchdog_stop(pDM_Odm->priv);
++#endif
++
++	if (pDM_Odm->SupportICType & ODM_RTL8197F) {
++		for (Addr = 0x0, i = 0; Addr < End_Addr; Addr += 8, i += 2) {	/*64K byte*/
++			if ((Addr&0xfff) == 0)
++				ODM_Write2Byte(pDM_Odm, REG_PKTBUF_DBG_CTRL, 0x780+(Addr >> 12));
++			DataL = ODM_Read4Byte(pDM_Odm, 0x8000+(Addr&0xfff));
++			DataH = ODM_Read4Byte(pDM_Odm, 0x8000+(Addr&0xfff)+4);
++
++			DbgPrint("%08x%08x\n", DataH, DataL);		
++		}
++	} else {
++		while (Addr != (Finish_Addr<<3)) {
++			if (page != (Addr >> 12)) {
++				/*Reg140=0x780+(Addr>>12), Addr=0x30~0x3F, total 16 pages*/
++				page = (Addr >> 12);
++				ODM_Write2Byte(pDM_Odm, REG_PKTBUF_DBG_CTRL, 0x780+page);
++			}
++			/*pDataL = 0x8000+(Addr&0xfff);*/
++			DataL = ODM_Read4Byte(pDM_Odm, 0x8000+(Addr&0xfff));
++			DataH = ODM_Read4Byte(pDM_Odm, 0x8000+(Addr&0xfff)+4);
++
++			/*ADCSmpBuf->Octet[i] = DataH;*/
++			/*ADCSmpBuf->Octet[i+1] = DataL;*/
++			/*DbgPrint("%08x%08x\n", ADCSmpBuf->Octet[i], ADCSmpBuf->Octet[i+1]);*/
++			DbgPrint("%08x%08x\n", DataH, DataL);
++			i = i + 2;
++			
++			if ((Addr+8) >= End_Addr)
++				Addr = ADCSmpBuf->start_pos;
++			else
++				Addr = Addr + 8;
++		}
++	}
++	
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	watchdog_resume(pDM_Odm->priv);
++#endif
++}	
++
++
++VOID
++ADCSmp_Start(
++	IN		PVOID			pDM_VOID,
++	IN		PRT_ADCSMP		AdcSmp
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte					tmpU1b;
++	PRT_ADCSMP_STRING		Buffer = &(AdcSmp->ADCSmpBuf);
++	RT_ADCSMP_TRIG_SIG_SEL	TrigSigSel = AdcSmp->ADCSmpTrigSigSel;
++	u1Byte					backup_DMA;
++
++	DbgPrint("%s\n", __func__);
++
++	if (pDM_Odm->SupportICType & ODM_RTL8197F)
++		ODM_SetBBReg(pDM_Odm, r_dma_trigger_8197F, 0xf00, AdcSmp->ADCSmpDmaDataSigSel);	/*0x9A0[11:8]*/
++	else
++		ODM_SetBBReg(pDM_Odm , ODM_ADC_TRIGGER_Jaguar2, 0xf00, AdcSmp->ADCSmpDmaDataSigSel);	/*0x95C[11:8]*/
++
++	ODM_Write1Byte(pDM_Odm, REG_IQ_DUMP+1, AdcSmp->ADCSmpTriggerTime);
++
++
++	if (pDM_Odm->SupportICType & ODM_RTL8197F)
++		ODM_SetBBReg(pDM_Odm, r_reset_cfo_rpt_ctrl_8197F, BIT26, 0x1);
++	else {	/*for 8814A and 8822B?*/
++		ODM_Write1Byte(pDM_Odm, 0x198c, 0x7);
++		ODM_Write1Byte(pDM_Odm, 0x8b4, 0x80);
++	}
++	
++	if (AdcSmp->ADCSmpTrigSel == ADCSMP_MAC_TRIG) {	/* trigger by MAC*/
++		if (TrigSigSel == ADCSMP_TRIG_REG) {			/* manual trigger 0x7C0[5] = 0 -> 1*/
++			ODM_Write1Byte(pDM_Odm, REG_IQ_DUMP, 0xCB);		/*0x7C0[7:0]=8'b1100_1011*/
++			ODM_Write1Byte(pDM_Odm, REG_IQ_DUMP, 0xEB);		/*0x7C0[7:0]=8'b1110_1011*/
++		} else if (TrigSigSel == ADCSMP_TRIG_CCA)
++			ODM_Write1Byte(pDM_Odm, REG_IQ_DUMP, 0x8B);		/*0x7C0[7:0]=8'b1000_1011*/
++		else if (TrigSigSel == ADCSMP_TRIG_CRCFAIL)
++			ODM_Write1Byte(pDM_Odm, REG_IQ_DUMP, 0x4B);		/*0x7C0[7:0]=8'b0100_1011*/
++		else if (TrigSigSel == ADCSMP_TRIG_CRCOK)
++			ODM_Write1Byte(pDM_Odm, REG_IQ_DUMP, 0x0B);		/*0x7C0[7:0]=8'b0000_1011*/
++	} else {												/*trigger by BB*/
++		if (pDM_Odm->SupportICType & ODM_RTL8197F)
++			ODM_SetBBReg(pDM_Odm, r_dma_trigger_8197F, 0x1f, TrigSigSel);	/*0x9A0[4:0]*/
++		else
++			ODM_SetBBReg(pDM_Odm , ODM_ADC_TRIGGER_Jaguar2, 0x1f, TrigSigSel);	/*0x95C[4:0], 0x1F: trigger by CCA*/
++		ODM_Write1Byte(pDM_Odm, REG_IQ_DUMP, 0x03);	/*0x7C0[7:0]=8'b0000_0011*/
++	}
++	
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	watchdog_stop(pDM_Odm->priv);
++#endif
++
++	/*Polling*/
++	do {
++		tmpU1b = ODM_Read1Byte(pDM_Odm, REG_IQ_DUMP);
++
++		if (AdcSmp->ADCSmpState != ADCSMP_STATE_SET) {
++			DbgPrint("ADCSmpState != ADCSMP_STATE_SET\n");
++			break;
++			
++		} else if (tmpU1b & BIT1) {
++			ODM_delay_us(AdcSmp->ADCSmpPollingTime);
++			continue;
++		} else {
++			DbgPrint("%s Query OK\n", __func__);
++			if (pDM_Odm->SupportICType & ODM_RTL8197F)
++				ODM_SetBBReg(pDM_Odm, REG_IQ_DUMP, BIT0, 0x0);
++			break;
++		}
++	} while (1);
++	
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	watchdog_resume(pDM_Odm->priv);
++#if (RTL8197F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8197F) {
++		/*Stop DMA*/
++		backup_DMA = ODM_GetMACReg(pDM_Odm, 0x300, bMaskLWord);
++		ODM_SetMACReg(pDM_Odm, 0x300, 0x7fff, backup_DMA|0x7fff);
++		
++		/*move LA mode content from IMEM to TxPktBuffer 
++			Src : OCPBASE_IMEM 0x00000000
++			Dest : OCPBASE_TXBUF 0x18780000
++			Len : 64K*/
++		GET_HAL_INTERFACE(pDM_Odm->priv)->InitDDMAHandler(pDM_Odm->priv, OCPBASE_IMEM, OCPBASE_TXBUF, 0x10000);
++	}
++#endif
++#endif
++
++	if (AdcSmp->ADCSmpState == ADCSMP_STATE_SET)
++		ADCSmp_GetTxPktBuf(pDM_Odm, Buffer);
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	if (pDM_Odm->SupportICType & ODM_RTL8197F) 
++		ODM_SetMACReg(pDM_Odm, 0x300, 0x7fff, backup_DMA);	/*Resume DMA*/
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	if (AdcSmp->ADCSmpState == ADCSMP_STATE_SET)
++		AdcSmp->ADCSmpState = ADCSMP_STATE_QUERY;
++#endif
++
++	DbgPrint("%s Status %d\n", __func__, AdcSmp->ADCSmpState);
++}
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++VOID
++ADCSmpWorkItemCallback(
++	IN	PVOID	pContext
++	)
++{
++	PADAPTER			Adapter = (PADAPTER)pContext;
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(Adapter);
++	PRT_ADCSMP			AdcSmp = &(pHalData->ADCSmp);
++
++	ADCSmp_Start(Adapter, AdcSmp); 
++}
++#endif
++
++VOID
++ADCSmp_Set(
++	IN		PVOID			pDM_VOID,
++	IN	RT_ADCSMP_TRIG_SEL		TrigSel,
++	IN	RT_ADCSMP_TRIG_SIG_SEL	TrigSigSel,
++	IN	u1Byte					DmaDataSigSel,
++	IN	u1Byte					TriggerTime,
++	IN	u2Byte					PollingTime
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	BOOLEAN				retValue = TRUE;
++
++	PRT_ADCSMP			AdcSmp = &(pDM_Odm->adcsmp);
++/*	
++	DbgPrint("%s\n ADCSmpState %d ADCSmpTrigSig %d ADCSmpTrigSigSel %d\n", 
++			__FUNCTION__, AdcSmp->ADCSmpState, TrigSel, TrigSigSel);
++
++	DbgPrint("ADCSmpDmaDataSigSel %d, ADCSmpTriggerTime %d ADCSmpPollingTime %d\n", 
++			DmaDataSigSel, TriggerTime, PollingTime);
++*/
++	AdcSmp->ADCSmpTrigSel = TrigSel;
++	AdcSmp->ADCSmpTrigSigSel = TrigSigSel;
++	AdcSmp->ADCSmpDmaDataSigSel = DmaDataSigSel;
++	AdcSmp->ADCSmpTriggerTime = TriggerTime;
++	AdcSmp->ADCSmpPollingTime = PollingTime;
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	if (AdcSmp->ADCSmpState != ADCSMP_STATE_IDLE)
++		retValue = FALSE;
++	else if (AdcSmp->ADCSmpBuf.Length == 0)
++		retValue = ADCSmp_BufferAllocate(pDM_Odm, AdcSmp);
++#endif
++
++	if (retValue) {
++		AdcSmp->ADCSmpState = ADCSMP_STATE_SET;
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++		PlatformScheduleWorkItem(&(pHalData->ADCSmpWorkItem));
++#elif (DM_ODM_SUPPORT_TYPE & ODM_AP)
++		ADCSmp_Start(pDM_Odm, AdcSmp); 
++#endif
++	}	
++
++	DbgPrint("ADCSmpState %d Return Status %d\n", AdcSmp->ADCSmpState, retValue);
++}
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++RT_STATUS
++ADCSmp_Query(
++	IN	PADAPTER			Adapter,
++	IN	ULONG				InformationBufferLength, 
++	OUT	PVOID				InformationBuffer, 
++	OUT	PULONG				BytesWritten
++	)
++{
++	RT_STATUS			retStatus = RT_STATUS_SUCCESS;
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(Adapter);
++	PRT_ADCSMP			AdcSmp = &(pHalData->ADCSmp);
++	PRT_ADCSMP_STRING	ADCSmpBuf = &(AdcSmp->ADCSmpBuf);
++
++	DbgPrint("%s ADCSmpState %d", __func__, AdcSmp->ADCSmpState);
++
++	if (InformationBufferLength != ADCSmpBuf->buffer_size)	{
++		*BytesWritten = 0;
++		retStatus = RT_STATUS_RESOURCE;
++	} else if (ADCSmpBuf->Length != ADCSmpBuf->buffer_size) {
++		*BytesWritten = 0;
++		retStatus = RT_STATUS_RESOURCE;
++	} else if (AdcSmp->ADCSmpState != ADCSMP_STATE_QUERY) {
++		*BytesWritten = 0;
++		retStatus = RT_STATUS_PENDING;
++	} else {
++		PlatformMoveMemory(InformationBuffer, ADCSmpBuf->Octet, ADCSmpBuf->buffer_size);
++		*BytesWritten = ADCSmpBuf->buffer_size;
++
++		AdcSmp->ADCSmpState = ADCSMP_STATE_IDLE;
++	}
++
++	DbgPrint("Return Status %d\n", retStatus);
++
++	return retStatus;
++}
++#endif
++
++VOID
++ADCSmp_Stop(
++	IN		PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;	
++	PRT_ADCSMP			AdcSmp = &(pDM_Odm->adcsmp);
++
++	AdcSmp->ADCSmpState = ADCSMP_STATE_IDLE;
++
++	DbgPrint("%s status %d\n", __func__, AdcSmp->ADCSmpState);
++}
++
++
++
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++u1Byte ADC_buffer[0x20000];
++#endif
++
++VOID
++ADCSmp_Init(
++	IN		PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;	
++	PRT_ADCSMP			AdcSmp = &(pDM_Odm->adcsmp);
++	PRT_ADCSMP_STRING	ADCSmpBuf = &(AdcSmp->ADCSmpBuf);
++
++	AdcSmp->ADCSmpState = ADCSMP_STATE_IDLE;
++
++	if (pDM_Odm->SupportICType & ODM_RTL8814A) {
++		ADCSmpBuf->start_pos = 0x30000;
++		ADCSmpBuf->buffer_size = 0x10000;	
++	} else if (pDM_Odm->SupportICType & ODM_RTL8822B) {
++		ADCSmpBuf->start_pos = 0x20000;
++		ADCSmpBuf->buffer_size = 0x20000;	
++	} else if (pDM_Odm->SupportICType & ODM_RTL8197F) {
++		ADCSmpBuf->start_pos = 0x00000;
++		ADCSmpBuf->buffer_size = 0x10000;	
++	}
++	
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformInitializeWorkItem(
++		Adapter,
++		&(pHalData->ADCSmpWorkItem), 
++		(RT_WORKITEM_CALL_BACK)ADCSmpWorkItemCallback, 
++		(PVOID)Adapter,
++		"ADCSmpWorkItem");
++#endif
++}
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++VOID
++ADCSmp_DeInit(
++	PADAPTER		Adapter
++	)
++{
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(Adapter);
++	PRT_ADCSMP			AdcSmp = &(pHalData->ADCSmp);
++	PRT_ADCSMP_STRING	ADCSmpBuf = &(AdcSmp->ADCSmpBuf);
++
++	ADCSmp_Stop(Adapter);
++
++	PlatformFreeWorkItem(&(pHalData->ADCSmpWorkItem));
++
++	if (ADCSmpBuf->Length != 0x0) {
++		PlatformFreeMemory(ADCSmpBuf->Octet, ADCSmpBuf->Length);
++		ADCSmpBuf->Length = 0x0;
++	}
++}	
++
++
++VOID
++Dump_MAC(
++	PADAPTER		Adapter
++	)
++{
++
++	u4Byte	Addr = 0;
++	
++	for (Addr = 0; Addr < 0x1A3D; Addr++)
++		DbgPrint("%04x %04x\n", Addr, PlatformEFIORead4Byte(Adapter, Addr));
++}
++
++
++VOID
++Dump_BB(
++	PADAPTER		Adapter
++	)
++{
++	u4Byte	Addr = 0;
++	
++	for (Addr = 0; Addr < 0x1AFD; Addr++)
++		DbgPrint("%04x %04x\n", Addr, PHY_QueryBBReg(Adapter, Addr, bMaskDWord));
++}
++
++
++VOID
++Dump_RF(
++	PADAPTER		Adapter
++	)
++{
++	u1Byte	Addr = 0, Path = 0;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	
++	for (Path = ODM_RF_PATH_A; Path < pHalData->NumTotalRFPath; Path++) {
++		for (Addr = 0; Addr < 0xF6; Addr++)
++			DbgPrint("%04x %04x\n", Addr, PHY_QueryRFReg(Adapter, Path, Addr, bRFRegOffsetMask));
++	}
++}
++#endif
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_adc_sampling.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_adc_sampling.h
+new file mode 100644
+index 0000000..7664c16
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_adc_sampling.h
+@@ -0,0 +1,101 @@
++#ifndef __INC_ADCSMP_H
++#define __INC_ADCSMP_H
++
++typedef struct _RT_ADCSMP_STRING {
++	pu4Byte		Octet;
++	u4Byte		Length;
++	u4Byte		buffer_size;
++	u4Byte		start_pos;
++} RT_ADCSMP_STRING, *PRT_ADCSMP_STRING;
++
++
++typedef enum _RT_ADCSMP_TRIG_SEL {
++	ADCSMP_BB_TRIG, 
++	ADCSMP_MAC_TRIG, 
++} RT_ADCSMP_TRIG_SEL, *PRT_ADCSMP_TRIG_SEL;
++
++
++typedef enum _RT_ADCSMP_TRIG_SIG_SEL {
++	ADCSMP_TRIG_CRCOK, 
++	ADCSMP_TRIG_CRCFAIL, 
++	ADCSMP_TRIG_CCA,
++	ADCSMP_TRIG_REG,
++} RT_ADCSMP_TRIG_SIG_SEL, *PRT_ADCSMP_TRIG_SIG_SEL;
++
++
++typedef enum _RT_ADCSMP_STATE {
++	ADCSMP_STATE_IDLE, 
++	ADCSMP_STATE_SET, 
++	ADCSMP_STATE_QUERY,
++} RT_ADCSMP_STATE, *PRT_ADCSMP_STATE;
++
++
++typedef struct _RT_ADCSMP {
++	RT_ADCSMP_STRING		ADCSmpBuf;
++	RT_ADCSMP_STATE			ADCSmpState;
++	RT_ADCSMP_TRIG_SEL		ADCSmpTrigSel;
++	RT_ADCSMP_TRIG_SIG_SEL	ADCSmpTrigSigSel;
++	u1Byte					ADCSmpDmaDataSigSel;
++	u1Byte					ADCSmpTriggerTime;
++	u2Byte					ADCSmpPollingTime;
++} RT_ADCSMP, *PRT_ADCSMP;
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++VOID
++ADCSmpWorkItemCallback(
++	IN	PVOID	pContext
++);
++#endif
++
++VOID
++ADCSmp_Set(
++	IN	PVOID					pDM_VOID,
++	IN	RT_ADCSMP_TRIG_SEL		TrigSel,
++	IN	RT_ADCSMP_TRIG_SIG_SEL	TrigSigSel,
++	IN	u1Byte					DmaDataSigSel,
++	IN	u1Byte					TriggerTime,
++	IN	u2Byte					PollingTime
++);
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++RT_STATUS
++ADCSmp_Query(
++	IN	PADAPTER	Adapter,
++	IN	ULONG	InformationBufferLength, 
++	OUT	PVOID	InformationBuffer, 
++	OUT	PULONG	BytesWritten
++);
++#endif
++VOID
++ADCSmp_Stop(
++	IN	PVOID	pDM_VOID
++);
++
++VOID
++ADCSmp_Init(
++	IN	PVOID	pDM_VOID
++);
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++VOID
++ADCSmp_DeInit(
++	PADAPTER	Adapter
++);
++
++VOID
++Dump_MAC(
++	PADAPTER	Adapter
++);
++
++VOID
++Dump_BB(
++	PADAPTER	Adapter
++);
++
++VOID
++Dump_RF(
++	PADAPTER	Adapter
++);
++#endif
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_antdect.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_antdect.c
+new file mode 100644
+index 0000000..862c597
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_antdect.c
+@@ -0,0 +1,964 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++//#if( DM_ODM_SUPPORT_TYPE & (ODM_WIN |ODM_CE))
++#if(defined(CONFIG_ANT_DETECTION))
++
++//IS_ANT_DETECT_SUPPORT_SINGLE_TONE(Adapter)	
++//IS_ANT_DETECT_SUPPORT_RSSI(Adapter)		
++//IS_ANT_DETECT_SUPPORT_PSD(Adapter)
++
++//1 [1. Single Tone Method] ===================================================
++
++//
++// Description:
++//	Set Single/Dual Antenna default setting for products that do not do detection in advance.
++//
++// Added by Joseph, 2012.03.22
++//
++VOID
++ODM_SingleDualAntennaDefaultSetting(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T		pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	PADAPTER	pAdapter	 =  pDM_Odm->Adapter;
++
++	u1Byte btAntNum=BT_GetPgAntNum(pAdapter);
++	// Set default antenna A and B status
++	if(btAntNum == 2)
++	{
++		pDM_SWAT_Table->ANTA_ON=TRUE;
++		pDM_SWAT_Table->ANTB_ON=TRUE;
++	
++	}
++	else if(btAntNum == 1)
++	{// Set antenna A as default
++		pDM_SWAT_Table->ANTA_ON=TRUE;
++		pDM_SWAT_Table->ANTB_ON=FALSE;
++	
++	}
++	else
++	{
++		RT_ASSERT(FALSE, ("Incorrect antenna number!!\n"));
++	}
++}
++
++
++//2 8723A ANT DETECT
++//
++// Description:
++//	Implement IQK single tone for RF DPK loopback and BB PSD scanning. 
++//	This function is cooperated with BB team Neil. 
++//
++// Added by Roger, 2011.12.15
++//
++BOOLEAN
++ODM_SingleDualAntennaDetection(
++	IN		PVOID		pDM_VOID,
++	IN		u1Byte			mode
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER	pAdapter	 =  pDM_Odm->Adapter;
++	pSWAT_T		pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	u4Byte		CurrentChannel,RfLoopReg;
++	u1Byte		n;
++	u4Byte		Reg88c, Regc08, Reg874, Regc50, Reg948, Regb2c, Reg92c, Reg930, Reg064, AFE_rRx_Wait_CCA;
++	u1Byte		initial_gain = 0x5a;
++	u4Byte		PSD_report_tmp;
++	u4Byte		AntA_report = 0x0, AntB_report = 0x0, AntO_report = 0x0;
++	BOOLEAN		bResult = TRUE;
++	u4Byte		AFE_Backup[16];
++	u4Byte		AFE_REG_8723A[16] = {
++					rRx_Wait_CCA, 	rTx_CCK_RFON, 
++					rTx_CCK_BBON, 	rTx_OFDM_RFON,
++					rTx_OFDM_BBON, 	rTx_To_Rx,
++					rTx_To_Tx, 		rRx_CCK, 
++					rRx_OFDM, 		rRx_Wait_RIFS, 
++					rRx_TO_Rx,		rStandby,
++					rSleep,			rPMPD_ANAEN, 	
++					rFPGA0_XCD_SwitchControl, rBlue_Tooth};
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SingleDualAntennaDetection()============>\n"));	
++
++	
++	if (!(pDM_Odm->SupportICType & ODM_RTL8723B))
++		return bResult;
++
++	// Retrieve antenna detection registry info, added by Roger, 2012.11.27.
++	if(!IS_ANT_DETECT_SUPPORT_SINGLE_TONE(pAdapter))
++		return bResult;
++
++	//1 Backup Current RF/BB Settings	
++	
++	CurrentChannel = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, ODM_CHANNEL, bRFRegOffsetMask);
++	RfLoopReg = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x00, bRFRegOffsetMask);
++	if (pDM_Odm->SupportICType & ODM_RTL8723B) {
++		Reg92c = ODM_GetBBReg(pDM_Odm, rDPDT_control, bMaskDWord);	
++		Reg930 = ODM_GetBBReg(pDM_Odm, rfe_ctrl_anta_src, bMaskDWord);
++		Reg948 = ODM_GetBBReg(pDM_Odm, rS0S1_PathSwitch, bMaskDWord);
++		Regb2c = ODM_GetBBReg(pDM_Odm, rAGC_table_select, bMaskDWord);
++		Reg064 = ODM_GetMACReg(pDM_Odm, rSYM_WLBT_PAPE_SEL, BIT29);
++		ODM_SetBBReg(pDM_Odm, rDPDT_control, 0x3, 0x1);
++		ODM_SetBBReg(pDM_Odm, rfe_ctrl_anta_src, 0xff, 0x77);
++		ODM_SetMACReg(pDM_Odm, rSYM_WLBT_PAPE_SEL, BIT29, 0x1);  //dbg 7
++		ODM_SetBBReg(pDM_Odm, rS0S1_PathSwitch, 0x3c0, 0x0);//dbg 8
++		ODM_SetBBReg(pDM_Odm, rAGC_table_select, BIT31, 0x0);
++	}
++
++	ODM_StallExecution(10);
++	
++	//Store A Path Register 88c, c08, 874, c50
++	Reg88c = ODM_GetBBReg(pDM_Odm, rFPGA0_AnalogParameter4, bMaskDWord);
++	Regc08 = ODM_GetBBReg(pDM_Odm, rOFDM0_TRMuxPar, bMaskDWord);
++	Reg874 = ODM_GetBBReg(pDM_Odm, rFPGA0_XCD_RFInterfaceSW, bMaskDWord);
++	Regc50 = ODM_GetBBReg(pDM_Odm, rOFDM0_XAAGCCore1, bMaskDWord);	
++	
++	// Store AFE Registers
++	if (pDM_Odm->SupportICType & ODM_RTL8723B)
++		AFE_rRx_Wait_CCA = ODM_GetBBReg(pDM_Odm, rRx_Wait_CCA,bMaskDWord);
++	
++	//Set PSD 128 pts
++	ODM_SetBBReg(pDM_Odm, rFPGA0_PSDFunction, BIT14|BIT15, 0x0);  //128 pts
++	
++	// To SET CH1 to do
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, ODM_CHANNEL, bRFRegOffsetMask, 0x7401);     //Channel 1
++	
++	// AFE all on step
++	if (pDM_Odm->SupportICType & ODM_RTL8723B)
++		ODM_SetBBReg(pDM_Odm, rRx_Wait_CCA, bMaskDWord, 0x01c00016);
++
++	// 3 wire Disable
++	ODM_SetBBReg(pDM_Odm, rFPGA0_AnalogParameter4, bMaskDWord, 0xCCF000C0);
++	
++	//BB IQK Setting
++	ODM_SetBBReg(pDM_Odm, rOFDM0_TRMuxPar, bMaskDWord, 0x000800E4);
++	ODM_SetBBReg(pDM_Odm, rFPGA0_XCD_RFInterfaceSW, bMaskDWord, 0x22208000);
++
++	//IQK setting tone@ 4.34Mhz
++	ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_A, bMaskDWord, 0x10008C1C);
++	ODM_SetBBReg(pDM_Odm, rTx_IQK, bMaskDWord, 0x01007c00);	
++
++	//Page B init
++	ODM_SetBBReg(pDM_Odm, rConfig_AntA, bMaskDWord, 0x00080000);
++	ODM_SetBBReg(pDM_Odm, rConfig_AntA, bMaskDWord, 0x0f600000);
++	ODM_SetBBReg(pDM_Odm, rRx_IQK, bMaskDWord, 0x01004800);
++	ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_A, bMaskDWord, 0x10008c1f);
++	if (pDM_Odm->SupportICType & ODM_RTL8723B) {
++		ODM_SetBBReg(pDM_Odm, rTx_IQK_PI_A, bMaskDWord, 0x82150016);
++		ODM_SetBBReg(pDM_Odm, rRx_IQK_PI_A, bMaskDWord, 0x28150016);
++	}
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Rsp, bMaskDWord, 0x001028d0);	
++	ODM_SetBBReg(pDM_Odm, rOFDM0_XAAGCCore1, 0x7f, initial_gain);
++
++	//IQK Single tone start
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x808000);
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf9000000);
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf8000000);
++	
++	ODM_StallExecution(10000);
++
++	// PSD report of antenna A
++	PSD_report_tmp=0x0;
++	for (n=0;n<2;n++)
++ 	{
++ 		PSD_report_tmp =  GetPSDData(pDM_Odm, 14, initial_gain);	
++		if(PSD_report_tmp >AntA_report)
++			AntA_report=PSD_report_tmp;
++	}
++
++	 // change to Antenna B
++	if (pDM_Odm->SupportICType & ODM_RTL8723B) {
++		//ODM_SetBBReg(pDM_Odm, rDPDT_control, 0x3, 0x2);
++		ODM_SetBBReg(pDM_Odm, rS0S1_PathSwitch, 0xfff, 0x280);
++		ODM_SetBBReg(pDM_Odm, rAGC_table_select, BIT31, 0x1);
++	}
++
++	ODM_StallExecution(10);	
++
++	// PSD report of antenna B
++	PSD_report_tmp=0x0;
++	for (n=0;n<2;n++)
++ 	{
++ 		PSD_report_tmp =  GetPSDData(pDM_Odm, 14, initial_gain);	
++		if(PSD_report_tmp > AntB_report)
++			AntB_report=PSD_report_tmp;
++	}
++
++	//Close IQK Single Tone function
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);
++
++	//1 Return to antanna A
++	if (pDM_Odm->SupportICType & ODM_RTL8723B) {
++		// external DPDT
++		ODM_SetBBReg(pDM_Odm, rDPDT_control, bMaskDWord, Reg92c);
++
++		//internal S0/S1
++		ODM_SetBBReg(pDM_Odm, rS0S1_PathSwitch, bMaskDWord, Reg948);
++		ODM_SetBBReg(pDM_Odm, rAGC_table_select, bMaskDWord, Regb2c);
++		ODM_SetBBReg(pDM_Odm, rfe_ctrl_anta_src, bMaskDWord, Reg930);
++		ODM_SetMACReg(pDM_Odm, rSYM_WLBT_PAPE_SEL, BIT29, Reg064);
++	}
++	
++	ODM_SetBBReg(pDM_Odm, rFPGA0_AnalogParameter4, bMaskDWord, Reg88c);
++	ODM_SetBBReg(pDM_Odm, rOFDM0_TRMuxPar, bMaskDWord, Regc08);
++	ODM_SetBBReg(pDM_Odm, rFPGA0_XCD_RFInterfaceSW, bMaskDWord, Reg874);
++	ODM_SetBBReg(pDM_Odm, rOFDM0_XAAGCCore1, 0x7F, 0x40);
++	ODM_SetBBReg(pDM_Odm, rOFDM0_XAAGCCore1, bMaskDWord, Regc50);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_CHNLBW, bRFRegOffsetMask,CurrentChannel);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x00, bRFRegOffsetMask,RfLoopReg);
++
++	//Reload AFE Registers
++	if (pDM_Odm->SupportICType & ODM_RTL8723B)
++		ODM_SetBBReg(pDM_Odm, rRx_Wait_CCA, bMaskDWord, AFE_rRx_Wait_CCA);
++
++	if (pDM_Odm->SupportICType & ODM_RTL8723B) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("psd_report_A[%d]= %d\n", 2416, AntA_report));	
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("psd_report_B[%d]= %d\n", 2416, AntB_report));	
++		
++		//2 Test Ant B based on Ant A is ON
++		if((AntA_report >= 100) && (AntB_report >= 100) && (AntA_report <= 135) && (AntB_report <= 135))
++		{
++			u1Byte TH1=2, TH2=6;
++		
++			if((AntA_report - AntB_report < TH1) || (AntB_report - AntA_report < TH1))
++			{
++				pDM_SWAT_Table->ANTA_ON=TRUE;
++				pDM_SWAT_Table->ANTB_ON=TRUE;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("ODM_SingleDualAntennaDetection(): Dual Antenna\n"));
++			}
++			else if(((AntA_report - AntB_report >= TH1) && (AntA_report - AntB_report <= TH2)) || 
++				((AntB_report - AntA_report >= TH1) && (AntB_report - AntA_report <= TH2)))
++			{
++				pDM_SWAT_Table->ANTA_ON=FALSE;
++				pDM_SWAT_Table->ANTB_ON=FALSE;
++				bResult = FALSE;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SingleDualAntennaDetection(): Need to check again\n"));
++			}
++			else
++			{
++				pDM_SWAT_Table->ANTA_ON = TRUE;
++				pDM_SWAT_Table->ANTB_ON=FALSE;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("ODM_SingleDualAntennaDetection(): Single Antenna\n"));
++			}
++			pDM_Odm->AntDetectedInfo.bAntDetected= TRUE;
++			pDM_Odm->AntDetectedInfo.dBForAntA = AntA_report;
++			pDM_Odm->AntDetectedInfo.dBForAntB = AntB_report;
++			pDM_Odm->AntDetectedInfo.dBForAntO = AntO_report;
++				
++		}
++		else
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("return FALSE!!\n"));
++			bResult = FALSE;
++		}
++	}
++	return bResult;
++
++}
++
++
++
++//1 [2. Scan AP RSSI Method] ==================================================
++
++
++
++
++BOOLEAN
++ODM_SwAntDivCheckBeforeLink(
++	IN		PVOID		pDM_VOID
++	)
++{
++
++#if (RT_MEM_SIZE_LEVEL != RT_MEM_SIZE_MINIMUM)
++
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE*	pHalData = GET_HAL_DATA(Adapter);
++	PMGNT_INFO		pMgntInfo = &Adapter->MgntInfo;
++	pSWAT_T			pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++	s1Byte			Score = 0;
++	PRT_WLAN_BSS	pTmpBssDesc, pTestBssDesc;
++	u1Byte			power_target_L = 9, power_target_H = 16;
++	u1Byte			tmp_power_diff = 0,power_diff = 0,avg_power_diff = 0,max_power_diff = 0,min_power_diff = 0xff;
++	u2Byte			index, counter = 0;
++	static u1Byte		ScanChannel;
++	u4Byte			tmp_SWAS_NoLink_BK_Reg948;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ANTA_ON = (( %d )) , ANTB_ON = (( %d ))\n", pDM_Odm->DM_SWAT_Table.ANTA_ON, pDM_Odm->DM_SWAT_Table.ANTB_ON));
++
++	//if(HP id)
++	{
++		if(pDM_Odm->DM_SWAT_Table.RSSI_AntDect_bResult==TRUE && pDM_Odm->SupportICType == ODM_RTL8723B)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("8723B RSSI-based Antenna Detection is done\n"));
++			return FALSE;
++		}
++		
++		if(pDM_Odm->SupportICType == ODM_RTL8723B)
++		{
++			if(pDM_SWAT_Table->SWAS_NoLink_BK_Reg948 == 0xff)
++				pDM_SWAT_Table->SWAS_NoLink_BK_Reg948 = ODM_Read4Byte(pDM_Odm, rS0S1_PathSwitch );
++		}
++	}
++
++	if (pDM_Odm->Adapter == NULL)  //For BSOD when plug/unplug fast.  //By YJ,120413
++	{	// The ODM structure is not initialized.
++		return FALSE;
++	}
++
++	// Retrieve antenna detection registry info, added by Roger, 2012.11.27.
++	if(!IS_ANT_DETECT_SUPPORT_RSSI(Adapter))
++	{
++		return FALSE;
++	}
++	else
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Antenna Detection: RSSI Method\n"));	
++	}
++
++	// Since driver is going to set BB register, it shall check if there is another thread controlling BB/RF.
++	PlatformAcquireSpinLock(Adapter, RT_RF_STATE_SPINLOCK);
++	if(pHalData->eRFPowerState!=eRfOn || pMgntInfo->RFChangeInProgress || pMgntInfo->bMediaConnect)
++	{
++		PlatformReleaseSpinLock(Adapter, RT_RF_STATE_SPINLOCK);
++	
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, 
++				("ODM_SwAntDivCheckBeforeLink(): RFChangeInProgress(%x), eRFPowerState(%x)\n", 
++				pMgntInfo->RFChangeInProgress, pHalData->eRFPowerState));
++	
++		pDM_SWAT_Table->SWAS_NoLink_State = 0;
++		
++		return FALSE;
++	}
++	else
++	{
++		PlatformReleaseSpinLock(Adapter, RT_RF_STATE_SPINLOCK);
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("pDM_SWAT_Table->SWAS_NoLink_State = %d\n", pDM_SWAT_Table->SWAS_NoLink_State));
++	//1 Run AntDiv mechanism "Before Link" part.
++	if(pDM_SWAT_Table->SWAS_NoLink_State == 0)
++	{
++		//1 Prepare to do Scan again to check current antenna state.
++
++		// Set check state to next step.
++		pDM_SWAT_Table->SWAS_NoLink_State = 1;
++	
++		// Copy Current Scan list.
++		pMgntInfo->tmpNumBssDesc = pMgntInfo->NumBssDesc;
++		PlatformMoveMemory((PVOID)Adapter->MgntInfo.tmpbssDesc, (PVOID)pMgntInfo->bssDesc, sizeof(RT_WLAN_BSS)*MAX_BSS_DESC);
++		
++		// Go back to scan function again.
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SwAntDivCheckBeforeLink: Scan one more time\n"));
++		pMgntInfo->ScanStep=0;
++		pMgntInfo->bScanAntDetect = TRUE;
++		ScanChannel = odm_SwAntDivSelectScanChnl(Adapter);
++
++		
++		if(pDM_Odm->SupportICType & (ODM_RTL8188E|ODM_RTL8821))
++		{
++			if(pDM_FatTable->RxIdleAnt == MAIN_ANT)
++				ODM_UpdateRxIdleAnt(pDM_Odm, AUX_ANT);
++			else
++				ODM_UpdateRxIdleAnt(pDM_Odm, MAIN_ANT);
++			if(ScanChannel == 0)
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, 
++					("ODM_SwAntDivCheckBeforeLink(): No AP List Avaiable, Using Ant(%s)\n", (pDM_FatTable->RxIdleAnt==MAIN_ANT)?"AUX_ANT":"MAIN_ANT"));
++
++				if(IS_5G_WIRELESS_MODE(pMgntInfo->dot11CurrentWirelessMode))
++				{
++					pDM_SWAT_Table->Ant5G = pDM_FatTable->RxIdleAnt;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("pDM_SWAT_Table->Ant5G=%s\n", (pDM_FatTable->RxIdleAnt==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++				}
++				else
++				{
++					pDM_SWAT_Table->Ant2G = pDM_FatTable->RxIdleAnt;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("pDM_SWAT_Table->Ant2G=%s\n", (pDM_FatTable->RxIdleAnt==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++				}
++				return FALSE;
++			}
++
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, 
++				("ODM_SwAntDivCheckBeforeLink: Change to %s for testing.\n", ((pDM_FatTable->RxIdleAnt == MAIN_ANT)?"MAIN_ANT":"AUX_ANT")));
++		} else if (pDM_Odm->SupportICType & (ODM_RTL8723B)) {
++			/*Switch Antenna to another one.*/
++				
++			tmp_SWAS_NoLink_BK_Reg948 = ODM_Read4Byte(pDM_Odm, rS0S1_PathSwitch);
++			
++			if ((pDM_SWAT_Table->CurAntenna == MAIN_ANT) && (tmp_SWAS_NoLink_BK_Reg948 == 0x200)) {
++				ODM_SetBBReg(pDM_Odm, rS0S1_PathSwitch, 0xfff, 0x280);
++				ODM_SetBBReg(pDM_Odm, rAGC_table_select, BIT31, 0x1);
++				pDM_SWAT_Table->CurAntenna = AUX_ANT;
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Reg[948]= (( %x )) was in wrong state\n", tmp_SWAS_NoLink_BK_Reg948));
++				return FALSE;
++			}
++			ODM_StallExecution(10);
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SwAntDivCheckBeforeLink: Change to (( %s-ant))  for testing.\n", (pDM_SWAT_Table->CurAntenna == MAIN_ANT)?"MAIN":"AUX"));
++		}
++		
++		odm_SwAntDivConstructScanChnl(Adapter, ScanChannel);
++		PlatformSetTimer(Adapter, &pMgntInfo->ScanTimer, 5);
++
++		return TRUE;
++	}
++	else //pDM_SWAT_Table->SWAS_NoLink_State == 1
++	{
++		//1 ScanComple() is called after antenna swiched.
++		//1 Check scan result and determine which antenna is going
++		//1 to be used.
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,(" tmpNumBssDesc= (( %d )) \n",pMgntInfo->tmpNumBssDesc));// debug for Dino
++		
++		for(index = 0; index < pMgntInfo->tmpNumBssDesc; index++)
++		{
++			pTmpBssDesc = &(pMgntInfo->tmpbssDesc[index]); // Antenna 1
++			pTestBssDesc = &(pMgntInfo->bssDesc[index]); // Antenna 2
++
++			if(PlatformCompareMemory(pTestBssDesc->bdBssIdBuf, pTmpBssDesc->bdBssIdBuf, 6)!=0)
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SwAntDivCheckBeforeLink(): ERROR!! This shall not happen.\n"));
++				continue;
++			}
++
++			if(pDM_Odm->SupportICType != ODM_RTL8723B)
++			{
++				if(pTmpBssDesc->ChannelNumber == ScanChannel)
++				{
++			if(pTmpBssDesc->RecvSignalPower > pTestBssDesc->RecvSignalPower)
++			{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SwAntDivCheckBeforeLink: Compare scan entry: Score++\n"));
++						RT_PRINT_STR(COMP_SCAN, DBG_WARNING, "GetScanInfo(): new Bss SSID:", pTmpBssDesc->bdSsIdBuf, pTmpBssDesc->bdSsIdLen);
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("at ch %d, Original: %d, Test: %d\n\n", pTmpBssDesc->ChannelNumber, pTmpBssDesc->RecvSignalPower, pTestBssDesc->RecvSignalPower));
++			
++				Score++;
++				PlatformMoveMemory(pTestBssDesc, pTmpBssDesc, sizeof(RT_WLAN_BSS));
++			}
++			else if(pTmpBssDesc->RecvSignalPower < pTestBssDesc->RecvSignalPower)
++			{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SwAntDivCheckBeforeLink: Compare scan entry: Score--\n"));
++						RT_PRINT_STR(COMP_SCAN, DBG_WARNING, "GetScanInfo(): new Bss SSID:", pTmpBssDesc->bdSsIdBuf, pTmpBssDesc->bdSsIdLen);
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("at ch %d, Original: %d, Test: %d\n\n", pTmpBssDesc->ChannelNumber, pTmpBssDesc->RecvSignalPower, pTestBssDesc->RecvSignalPower));
++				Score--;
++			}
++					else
++					{
++						if(pTestBssDesc->bdTstamp - pTmpBssDesc->bdTstamp < 5000)
++						{
++							RT_PRINT_STR(COMP_SCAN, DBG_WARNING, "GetScanInfo(): new Bss SSID:", pTmpBssDesc->bdSsIdBuf, pTmpBssDesc->bdSsIdLen);
++							ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("at ch %d, Original: %d, Test: %d\n", pTmpBssDesc->ChannelNumber, pTmpBssDesc->RecvSignalPower, pTestBssDesc->RecvSignalPower));
++							ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("The 2nd Antenna didn't get this AP\n\n"));
++						}
++					}
++				}
++			}
++			else // 8723B
++			{ 
++				if(pTmpBssDesc->ChannelNumber == ScanChannel)
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("ChannelNumber == ScanChannel -> (( %d )) \n", pTmpBssDesc->ChannelNumber ));
++				
++					if(pTmpBssDesc->RecvSignalPower > pTestBssDesc->RecvSignalPower) // Pow(Ant1) > Pow(Ant2)
++					{
++						counter++;
++						tmp_power_diff=(u1Byte)(pTmpBssDesc->RecvSignalPower - pTestBssDesc->RecvSignalPower);
++						power_diff = power_diff + tmp_power_diff;	
++						
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Original: %d, Test: %d\n", pTmpBssDesc->RecvSignalPower, pTestBssDesc->RecvSignalPower));
++						ODM_PRINT_ADDR(pDM_Odm,ODM_COMP_ANT_DIV, DBG_LOUD, ("SSID:"), pTmpBssDesc->bdSsIdBuf);
++						ODM_PRINT_ADDR(pDM_Odm,ODM_COMP_ANT_DIV, DBG_LOUD, ("BSSID:"), pTmpBssDesc->bdBssIdBuf);
++
++						//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("tmp_power_diff: (( %d)),max_power_diff: (( %d)),min_power_diff: (( %d))  \n", tmp_power_diff,max_power_diff,min_power_diff));
++						if(tmp_power_diff > max_power_diff)
++							max_power_diff=tmp_power_diff;
++						if(tmp_power_diff < min_power_diff)
++							min_power_diff=tmp_power_diff;
++						//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("max_power_diff: (( %d)),min_power_diff: (( %d))  \n",max_power_diff,min_power_diff));
++						
++						PlatformMoveMemory(pTestBssDesc, pTmpBssDesc, sizeof(RT_WLAN_BSS));
++					}
++					else if(pTestBssDesc->RecvSignalPower > pTmpBssDesc->RecvSignalPower) // Pow(Ant1) < Pow(Ant2)
++					{
++						counter++;
++						tmp_power_diff=(u1Byte)(pTestBssDesc->RecvSignalPower - pTmpBssDesc->RecvSignalPower);
++						power_diff = power_diff + tmp_power_diff;						
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Original: %d, Test: %d\n", pTmpBssDesc->RecvSignalPower, pTestBssDesc->RecvSignalPower));
++						ODM_PRINT_ADDR(pDM_Odm,ODM_COMP_ANT_DIV, DBG_LOUD, ("SSID:"), pTmpBssDesc->bdSsIdBuf);
++						ODM_PRINT_ADDR(pDM_Odm,ODM_COMP_ANT_DIV, DBG_LOUD, ("BSSID:"), pTmpBssDesc->bdBssIdBuf);							
++						if(tmp_power_diff > max_power_diff)
++							max_power_diff=tmp_power_diff;
++						if(tmp_power_diff < min_power_diff)
++							min_power_diff=tmp_power_diff;							
++					}
++					else // Pow(Ant1) = Pow(Ant2)
++					{
++						if(pTestBssDesc->bdTstamp > pTmpBssDesc->bdTstamp) //  Stamp(Ant1) < Stamp(Ant2) 
++					{
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("time_diff: %lld\n", (pTestBssDesc->bdTstamp-pTmpBssDesc->bdTstamp)/1000));
++						if(pTestBssDesc->bdTstamp - pTmpBssDesc->bdTstamp > 5000)
++						{
++							counter++;
++							ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Original: %d, Test: %d\n", pTmpBssDesc->RecvSignalPower, pTestBssDesc->RecvSignalPower));
++							ODM_PRINT_ADDR(pDM_Odm,ODM_COMP_ANT_DIV, DBG_LOUD, ("SSID:"), pTmpBssDesc->bdSsIdBuf);
++								ODM_PRINT_ADDR(pDM_Odm,ODM_COMP_ANT_DIV, DBG_LOUD, ("BSSID:"), pTmpBssDesc->bdBssIdBuf);
++								min_power_diff = 0;
++						}
++					}
++						else
++						{
++							ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Error !!!]: Time_diff: %lld\n", (pTestBssDesc->bdTstamp-pTmpBssDesc->bdTstamp)/1000));
++						}
++				}
++			}
++		}
++		}
++
++		if(pDM_Odm->SupportICType & (ODM_RTL8188E|ODM_RTL8821))
++		{
++			if(pMgntInfo->NumBssDesc!=0 && Score<0)
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,
++							("ODM_SwAntDivCheckBeforeLink(): Using Ant(%s)\n", (pDM_FatTable->RxIdleAnt==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++			}
++			else
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, 
++						("ODM_SwAntDivCheckBeforeLink(): Remain Ant(%s)\n", (pDM_FatTable->RxIdleAnt==MAIN_ANT)?"AUX_ANT":"MAIN_ANT"));
++
++				if(pDM_FatTable->RxIdleAnt == MAIN_ANT)
++					ODM_UpdateRxIdleAnt(pDM_Odm, AUX_ANT);
++				else
++					ODM_UpdateRxIdleAnt(pDM_Odm, MAIN_ANT);
++			}
++			
++			if(IS_5G_WIRELESS_MODE(pMgntInfo->dot11CurrentWirelessMode))
++			{
++				pDM_SWAT_Table->Ant5G = pDM_FatTable->RxIdleAnt;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("pDM_SWAT_Table->Ant5G=%s\n", (pDM_FatTable->RxIdleAnt==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++			}
++			else
++			{
++				pDM_SWAT_Table->Ant2G = pDM_FatTable->RxIdleAnt;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("pDM_SWAT_Table->Ant2G=%s\n", (pDM_FatTable->RxIdleAnt==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++			}
++		}
++		else if(pDM_Odm->SupportICType == ODM_RTL8723B)
++		{
++			if(counter == 0)
++			{	
++				if(pDM_Odm->DM_SWAT_Table.Pre_Aux_FailDetec == FALSE)
++				{
++					pDM_Odm->DM_SWAT_Table.Pre_Aux_FailDetec = TRUE;
++					pDM_Odm->DM_SWAT_Table.RSSI_AntDect_bResult=FALSE;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Counter=(( 0 )) , [[ Cannot find any AP with Aux-ant ]] ->  Scan Target-channel again  \n"));	
++
++                                        //3 [ Scan again ]
++					odm_SwAntDivConstructScanChnl(Adapter, ScanChannel);
++					PlatformSetTimer(Adapter, &pMgntInfo->ScanTimer, 5);
++					return TRUE;
++				}
++				else// Pre_Aux_FailDetec == TRUE
++				{
++					//2 [ Single Antenna ]
++					pDM_Odm->DM_SWAT_Table.Pre_Aux_FailDetec = FALSE;
++					pDM_Odm->DM_SWAT_Table.RSSI_AntDect_bResult=TRUE;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Counter=(( 0 )) , [[  Still cannot find any AP ]] \n"));
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SwAntDivCheckBeforeLink(): Single antenna\n"));	
++				}
++				pDM_Odm->DM_SWAT_Table.Aux_FailDetec_Counter++;
++			}
++			else
++			{
++				pDM_Odm->DM_SWAT_Table.Pre_Aux_FailDetec = FALSE;
++				
++				if(counter==3)
++				{
++					avg_power_diff = ((power_diff-max_power_diff - min_power_diff)>>1)+ ((max_power_diff + min_power_diff)>>2);
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("counter: (( %d )) ,  power_diff: (( %d )) \n", counter, power_diff));
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ counter==3 ] Modified avg_power_diff: (( %d )) , max_power_diff: (( %d )) ,  min_power_diff: (( %d )) \n", avg_power_diff,max_power_diff, min_power_diff));
++				}
++				else if(counter>=4)
++				{
++					avg_power_diff=(power_diff-max_power_diff - min_power_diff) / (counter - 2);
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("counter: (( %d )) ,  power_diff: (( %d )) \n", counter, power_diff));
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ counter>=4 ] Modified avg_power_diff: (( %d )) , max_power_diff: (( %d )) ,  min_power_diff: (( %d )) \n", avg_power_diff,max_power_diff, min_power_diff));
++					
++				}
++				else//counter==1,2
++				{
++					avg_power_diff=power_diff/counter;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("avg_power_diff: (( %d )) , counter: (( %d )) ,  power_diff: (( %d )) \n", avg_power_diff,counter, power_diff));
++				}
++
++				//2 [ Retry ]
++				if( (avg_power_diff >=power_target_L) && (avg_power_diff <=power_target_H)  )
++				{
++					pDM_Odm->DM_SWAT_Table.Retry_Counter++;
++					
++					if(pDM_Odm->DM_SWAT_Table.Retry_Counter<=3)
++					{
++						pDM_Odm->DM_SWAT_Table.RSSI_AntDect_bResult=FALSE;
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[[ Low confidence result ]] avg_power_diff= (( %d ))  ->  Scan Target-channel again ]] \n", avg_power_diff));	
++
++					         //3 [ Scan again ]
++						odm_SwAntDivConstructScanChnl(Adapter, ScanChannel);
++						PlatformSetTimer(Adapter, &pMgntInfo->ScanTimer, 5);
++						return TRUE;					         
++					}
++					else
++			{
++						pDM_Odm->DM_SWAT_Table.RSSI_AntDect_bResult=TRUE;
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[[ Still Low confidence result ]]  (( Retry_Counter > 3 )) \n"));
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SwAntDivCheckBeforeLink(): Single antenna\n"));
++					}
++					
++				}
++				//2 [ Dual Antenna ]
++				else if( (pMgntInfo->NumBssDesc != 0) && (avg_power_diff < power_target_L)   ) 
++				{
++					pDM_Odm->DM_SWAT_Table.RSSI_AntDect_bResult=TRUE;
++					if(pDM_Odm->DM_SWAT_Table.ANTB_ON == FALSE)
++					{
++						pDM_Odm->DM_SWAT_Table.ANTA_ON = TRUE;
++						pDM_Odm->DM_SWAT_Table.ANTB_ON = TRUE;
++					}
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("ODM_SwAntDivCheckBeforeLink(): Dual antenna\n"));
++					pDM_Odm->DM_SWAT_Table.Dual_Ant_Counter++;
++
++					// set bt coexDM from 1ant coexDM to 2ant coexDM
++					BT_SetBtCoexAntNum(Adapter, BT_COEX_ANT_TYPE_DETECTED, 2);
++					
++					//3 [ Init antenna diversity ]
++					pDM_Odm->SupportAbility |= ODM_BB_ANT_DIV; 
++					ODM_AntDivInit(pDM_Odm);
++				}
++				//2 [ Single Antenna ]
++				else if(avg_power_diff > power_target_H)
++				{
++					pDM_Odm->DM_SWAT_Table.RSSI_AntDect_bResult=TRUE;
++					if(pDM_Odm->DM_SWAT_Table.ANTB_ON == TRUE)
++					{
++						pDM_Odm->DM_SWAT_Table.ANTA_ON = TRUE;
++						pDM_Odm->DM_SWAT_Table.ANTB_ON = FALSE;
++						//BT_SetBtCoexAntNum(Adapter, BT_COEX_ANT_TYPE_DETECTED, 1);
++					}
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SwAntDivCheckBeforeLink(): Single antenna\n"));
++					pDM_Odm->DM_SWAT_Table.Single_Ant_Counter++;
++				}
++			}
++			//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("bResult=(( %d ))\n",pDM_Odm->DM_SWAT_Table.RSSI_AntDect_bResult));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("Dual_Ant_Counter = (( %d )), Single_Ant_Counter = (( %d )) , Retry_Counter = (( %d )) , Aux_FailDetec_Counter = (( %d ))\n\n\n",
++			pDM_Odm->DM_SWAT_Table.Dual_Ant_Counter,pDM_Odm->DM_SWAT_Table.Single_Ant_Counter,pDM_Odm->DM_SWAT_Table.Retry_Counter,pDM_Odm->DM_SWAT_Table.Aux_FailDetec_Counter));
++
++			//2 recover the antenna setting
++
++			if(pDM_Odm->DM_SWAT_Table.ANTB_ON == FALSE)
++				ODM_SetBBReg(pDM_Odm, rS0S1_PathSwitch, 0xfff, (pDM_SWAT_Table->SWAS_NoLink_BK_Reg948));
++			
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("bResult=(( %d )), Recover  Reg[948]= (( %x )) \n\n",pDM_Odm->DM_SWAT_Table.RSSI_AntDect_bResult, pDM_SWAT_Table->SWAS_NoLink_BK_Reg948 ));
++
++			
++		}
++		
++		// Check state reset to default and wait for next time.
++		pDM_SWAT_Table->SWAS_NoLink_State = 0;
++		pMgntInfo->bScanAntDetect = FALSE;
++
++		return FALSE;
++	}
++
++#else
++		return	FALSE;
++#endif
++
++return FALSE;
++}
++
++
++
++
++
++
++//1 [3. PSD Method] ==========================================================
++
++
++
++
++u4Byte
++odm_GetPSDData(
++	IN 	PVOID			pDM_VOID,
++	IN u2Byte			point,
++	IN u1Byte 		initial_gain)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			psd_report;
++	
++	ODM_SetBBReg(pDM_Odm, 0x808, 0x3FF, point);
++	ODM_SetBBReg(pDM_Odm, 0x808, BIT22, 1);  //Start PSD calculation, Reg808[22]=0->1
++	ODM_StallExecution(150);//Wait for HW PSD report
++	ODM_SetBBReg(pDM_Odm, 0x808, BIT22, 0);//Stop PSD calculation,  Reg808[22]=1->0
++	psd_report = ODM_GetBBReg(pDM_Odm,0x8B4, bMaskDWord) & 0x0000FFFF;//Read PSD report, Reg8B4[15:0]
++	
++	psd_report = (u4Byte) (odm_ConvertTo_dB(psd_report));//+(u4Byte)(initial_gain);
++	return psd_report;
++}
++
++
++
++VOID
++ODM_SingleDualAntennaDetection_PSD(
++	IN	 PVOID 	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte	Channel_ori;
++	u1Byte 	initial_gain = 0x36;
++	u1Byte	tone_idx;
++	u1Byte	Tone_lenth_1=7, Tone_lenth_2=4;
++	u2Byte	Tone_idx_1[7]={88, 104, 120, 8, 24, 40, 56};
++	u2Byte	Tone_idx_2[4]={8, 24, 40, 56};
++	u4Byte	PSD_report_Main[11]={0}, PSD_report_Aux[11]={0};
++	//u1Byte	Tone_lenth_1=4, Tone_lenth_2=2;
++	//u2Byte	Tone_idx_1[4]={88, 120, 24, 56};
++	//u2Byte	Tone_idx_2[2]={ 24,  56};
++	//u4Byte	PSD_report_Main[6]={0}, PSD_report_Aux[6]={0};
++
++	u4Byte	PSD_report_temp,MAX_PSD_report_Main=0,MAX_PSD_report_Aux=0;
++	u4Byte	PSD_power_threshold;
++	u4Byte	Main_psd_result=0, Aux_psd_result=0;
++	u4Byte	Regc50, Reg948, Regb2c,Regc14,Reg908;
++	u4Byte	i=0,test_num=8;
++	
++
++	if(pDM_Odm->SupportICType != ODM_RTL8723B)
++		return;
++	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SingleDualAntennaDetection_PSD()============> \n"));	
++	
++	//2 [ Backup Current RF/BB Settings ]	
++	
++	Channel_ori = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, ODM_CHANNEL, bRFRegOffsetMask);
++	Reg948 = ODM_GetBBReg(pDM_Odm, rS0S1_PathSwitch, bMaskDWord);
++	Regb2c =  ODM_GetBBReg(pDM_Odm, rAGC_table_select, bMaskDWord);
++	Regc50 = ODM_GetBBReg(pDM_Odm, rOFDM0_XAAGCCore1, bMaskDWord);
++	Regc14 = ODM_GetBBReg(pDM_Odm, 0xc14, bMaskDWord);
++	Reg908 = ODM_GetBBReg(pDM_Odm, 0x908, bMaskDWord);
++
++	//2 [ Setting for doing PSD function (CH4)]
++	ODM_SetBBReg(pDM_Odm, rFPGA0_RFMOD, BIT24, 0); //disable whole CCK block
++	ODM_Write1Byte(pDM_Odm, REG_TXPAUSE, 0xFF); // Turn off TX  ->  Pause TX Queue
++	ODM_SetBBReg(pDM_Odm, 0xC14, bMaskDWord, 0x0); // [ Set IQK Matrix = 0 ] equivalent to [ Turn off CCA]
++
++	// PHYTXON while loop
++	ODM_SetBBReg(pDM_Odm, 0x908, bMaskDWord, 0x803); 
++	while (ODM_GetBBReg(pDM_Odm, 0xdf4, BIT6)) 
++	{
++		i++;
++		if (i > 1000000) 
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Wait in %s() more than %d times!\n", __FUNCTION__, i));	
++			break;
++		}
++	}
++	
++	ODM_SetBBReg(pDM_Odm, 0xc50, 0x7f, initial_gain);  
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, ODM_CHANNEL, 0x7ff, 0x04);     // Set RF to CH4 & 40M
++	ODM_SetBBReg(pDM_Odm, rFPGA0_AnalogParameter4, 0xf00000, 0xf);	// 3 wire Disable    88c[23:20]=0xf
++	ODM_SetBBReg(pDM_Odm, rFPGA0_PSDFunction, BIT14|BIT15, 0x0);  //128 pt	//Set PSD 128 ptss
++	ODM_StallExecution(3000);	
++	
++	
++	//2 [ Doing PSD Function in (CH4)]
++	
++        //Antenna A
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Switch to Main-ant   (CH4)\n"));
++	ODM_SetBBReg(pDM_Odm, 0x948, 0xfff, 0x200);
++	ODM_StallExecution(10);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("dbg\n"));
++	for (i=0;i<test_num;i++)
++	{	
++		for (tone_idx=0;tone_idx<Tone_lenth_1;tone_idx++)
++		{
++			PSD_report_temp = odm_GetPSDData(pDM_Odm, Tone_idx_1[tone_idx], initial_gain);
++			//if(  PSD_report_temp>PSD_report_Main[tone_idx]  )
++				PSD_report_Main[tone_idx]+=PSD_report_temp;
++		}
++	}
++        //Antenna B
++       ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Switch to Aux-ant   (CH4)\n"));
++       ODM_SetBBReg(pDM_Odm, 0x948, 0xfff, 0x280);
++       ODM_StallExecution(10);	
++	for (i=0;i<test_num;i++)
++	{
++		for (tone_idx=0;tone_idx<Tone_lenth_1;tone_idx++)
++		{
++			PSD_report_temp = odm_GetPSDData(pDM_Odm, Tone_idx_1[tone_idx], initial_gain);
++			//if(  PSD_report_temp>PSD_report_Aux[tone_idx]  )
++				PSD_report_Aux[tone_idx]+=PSD_report_temp;
++		}
++	}
++	//2 [ Doing PSD Function in (CH8)]
++
++	ODM_SetBBReg(pDM_Odm, rFPGA0_AnalogParameter4, 0xf00000, 0x0);	// 3 wire enable    88c[23:20]=0x0
++	ODM_StallExecution(3000);	
++	
++	ODM_SetBBReg(pDM_Odm, 0xc50, 0x7f, initial_gain);  
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, ODM_CHANNEL, 0x7ff, 0x04);     // Set RF to CH8 & 40M
++	
++	ODM_SetBBReg(pDM_Odm, rFPGA0_AnalogParameter4, 0xf00000, 0xf);	// 3 wire Disable    88c[23:20]=0xf
++	ODM_StallExecution(3000);
++
++        //Antenna A
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Switch to Main-ant   (CH8)\n"));
++	ODM_SetBBReg(pDM_Odm, 0x948, 0xfff, 0x200);
++	ODM_StallExecution(10);
++
++	for (i=0;i<test_num;i++)
++	{
++		for (tone_idx=0;tone_idx<Tone_lenth_2;tone_idx++)
++		{
++			PSD_report_temp = odm_GetPSDData(pDM_Odm, Tone_idx_2[tone_idx], initial_gain);
++			//if(  PSD_report_temp>PSD_report_Main[tone_idx]  )
++				PSD_report_Main[Tone_lenth_1+tone_idx]+=PSD_report_temp;
++		}
++	}
++
++        //Antenna B
++        ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Switch to Aux-ant   (CH8)\n"));
++        ODM_SetBBReg(pDM_Odm, 0x948, 0xfff, 0x280);
++	ODM_StallExecution(10);	
++
++	for (i=0;i<test_num;i++)
++	{
++		for (tone_idx=0;tone_idx<Tone_lenth_2;tone_idx++)
++		{
++			PSD_report_temp = odm_GetPSDData(pDM_Odm, Tone_idx_2[tone_idx], initial_gain);
++			//if(  PSD_report_temp>PSD_report_Aux[tone_idx]  )
++				PSD_report_Aux[Tone_lenth_1+tone_idx]+=PSD_report_temp;
++		}
++	}
++
++        //2 [ Calculate Result ]
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("\nMain PSD Result: (ALL) \n"));
++	for (tone_idx=0;tone_idx<(Tone_lenth_1+Tone_lenth_2);tone_idx++)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Tone-%d]: %d, \n",(tone_idx+1), PSD_report_Main[tone_idx] ));
++		Main_psd_result+= PSD_report_Main[tone_idx];
++		if(PSD_report_Main[tone_idx]>MAX_PSD_report_Main)
++			MAX_PSD_report_Main=PSD_report_Main[tone_idx];
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("--------------------------- \nTotal_Main= (( %d ))\n", Main_psd_result));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("MAX_Main = (( %d ))\n", MAX_PSD_report_Main));
++	
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("\nAux PSD Result: (ALL) \n"));
++	for (tone_idx=0;tone_idx<(Tone_lenth_1+Tone_lenth_2);tone_idx++)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Tone-%d]: %d, \n",(tone_idx+1), PSD_report_Aux[tone_idx] ));
++		Aux_psd_result+= PSD_report_Aux[tone_idx];
++		if(PSD_report_Aux[tone_idx]>MAX_PSD_report_Aux)
++			MAX_PSD_report_Aux=PSD_report_Aux[tone_idx];
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("--------------------------- \nTotal_Aux= (( %d ))\n", Aux_psd_result));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("MAX_Aux = (( %d ))\n\n", MAX_PSD_report_Aux));
++		
++	//Main_psd_result=Main_psd_result-MAX_PSD_report_Main;
++	//Aux_psd_result=Aux_psd_result-MAX_PSD_report_Aux;
++	PSD_power_threshold=(Main_psd_result*7)>>3;
++	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Main_result , Aux_result ] = [ %d , %d ], PSD_power_threshold=(( %d ))\n", Main_psd_result, Aux_psd_result,PSD_power_threshold));
++	
++	//3 [ Dual Antenna ]
++	 if(Aux_psd_result >= PSD_power_threshold   ) 
++	{
++		if(pDM_Odm->DM_SWAT_Table.ANTB_ON == FALSE)
++		{
++			pDM_Odm->DM_SWAT_Table.ANTA_ON = TRUE;
++			pDM_Odm->DM_SWAT_Table.ANTB_ON = TRUE;
++		}
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("ODM_SwAntDivCheckBeforeLink(): Dual antenna\n"));
++		
++		// set bt coexDM from 1ant coexDM to 2ant coexDM
++		//BT_SetBtCoexAntNum(pAdapter, BT_COEX_ANT_TYPE_DETECTED, 2);
++					
++		// Init antenna diversity
++		pDM_Odm->SupportAbility |= ODM_BB_ANT_DIV; 
++		ODM_AntDivInit(pDM_Odm);
++		}
++	//3 [ Single Antenna ]
++	else
++	{
++		if(pDM_Odm->DM_SWAT_Table.ANTB_ON == TRUE)
++		{
++			pDM_Odm->DM_SWAT_Table.ANTA_ON = TRUE;
++			pDM_Odm->DM_SWAT_Table.ANTB_ON = FALSE;
++		}
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SwAntDivCheckBeforeLink(): Single antenna\n"));
++	}
++
++	//2 [ Recover all parameters ]
++	
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_CHNLBW, bRFRegOffsetMask,Channel_ori);	
++	ODM_SetBBReg(pDM_Odm, rFPGA0_AnalogParameter4, 0xf00000, 0x0);	// 3 wire enable    88c[23:20]=0x0
++	ODM_SetBBReg(pDM_Odm, 0xc50, 0x7f, Regc50);  	
++	
++	ODM_SetBBReg(pDM_Odm, rS0S1_PathSwitch, bMaskDWord, Reg948);
++	ODM_SetBBReg(pDM_Odm, rAGC_table_select, bMaskDWord, Regb2c);
++
++	ODM_SetBBReg(pDM_Odm, rFPGA0_RFMOD, BIT24, 1); //enable whole CCK block
++	ODM_Write1Byte(pDM_Odm, REG_TXPAUSE, 0x0); //Turn on TX 	// Resume TX Queue
++	ODM_SetBBReg(pDM_Odm, 0xC14, bMaskDWord, Regc14); // [ Set IQK Matrix = 0 ] equivalent to [ Turn on CCA]
++	ODM_SetBBReg(pDM_Odm, 0x908, bMaskDWord, Reg908); 
++	
++	return;
++
++}
++
++#endif
++void
++odm_SwAntDetectInit(
++	IN		PVOID		pDM_VOID
++	)
++{
++#if(defined(CONFIG_ANT_DETECTION))
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T		pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++
++	//pDM_SWAT_Table->PreAntenna = MAIN_ANT;
++	//pDM_SWAT_Table->CurAntenna = MAIN_ANT;
++	pDM_SWAT_Table->SWAS_NoLink_State = 0;
++	pDM_SWAT_Table->Pre_Aux_FailDetec = FALSE;
++	pDM_SWAT_Table->SWAS_NoLink_BK_Reg948 = 0xff;
++#endif
++}
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_antdect.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_antdect.h
+new file mode 100644
+index 0000000..419d9ea
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_antdect.h
+@@ -0,0 +1,98 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMANTDECT_H__
++#define    __PHYDMANTDECT_H__
++
++#define ANTDECT_VERSION	"2.1"	/*2015.07.29 by YuChen*/
++
++#if(defined(CONFIG_ANT_DETECTION))
++//#if( DM_ODM_SUPPORT_TYPE & (ODM_WIN |ODM_CE))
++//ANT Test
++#define		ANTTESTALL		0x00	/*Ant A or B will be Testing*/   
++#define		ANTTESTA		0x01	/*Ant A will be Testing*/	
++#define		ANTTESTB		0x02	/*Ant B will be testing*/
++
++#define	MAX_ANTENNA_DETECTION_CNT	10 
++
++
++typedef struct _ANT_DETECTED_INFO{
++	BOOLEAN			bAntDetected;
++	u4Byte			dBForAntA;
++	u4Byte			dBForAntB;
++	u4Byte			dBForAntO;
++}ANT_DETECTED_INFO, *PANT_DETECTED_INFO;
++
++
++typedef enum tag_SW_Antenna_Switch_Definition
++{
++	Antenna_A = 1,
++	Antenna_B = 2,	
++	Antenna_MAX = 3,
++}DM_SWAS_E;
++
++
++
++//1 [1. Single Tone Method] ===================================================
++
++
++
++VOID
++ODM_SingleDualAntennaDefaultSetting(
++	IN		PVOID		pDM_VOID
++	);
++
++BOOLEAN
++ODM_SingleDualAntennaDetection(
++	IN		PVOID		pDM_VOID,
++	IN		u1Byte			mode
++	);
++
++//1 [2. Scan AP RSSI Method] ==================================================
++
++#define SwAntDivCheckBeforeLink	ODM_SwAntDivCheckBeforeLink
++
++BOOLEAN 
++ODM_SwAntDivCheckBeforeLink(
++	IN		PVOID		pDM_VOID
++	);
++
++
++
++
++//1 [3. PSD Method] ==========================================================
++
++
++VOID
++ODM_SingleDualAntennaDetection_PSD(
++	IN		PVOID		pDM_VOID
++);
++
++#endif
++
++VOID
++odm_SwAntDetectInit(
++	IN		PVOID		pDM_VOID
++	);
++
++
++#endif
++
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_antdiv.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_antdiv.c
+new file mode 100644
+index 0000000..07b7440
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_antdiv.c
+@@ -0,0 +1,5300 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++//======================================================
++// when antenna test utility is on or some testing need to disable antenna diversity
++// call this function to disable all ODM related mechanisms which will switch antenna.
++//======================================================
++VOID
++ODM_StopAntennaSwitchDm(
++	IN		PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	// disable ODM antenna diversity
++	pDM_Odm->SupportAbility &= ~ODM_BB_ANT_DIV;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("STOP Antenna Diversity \n"));
++}
++
++VOID
++ODM_SetAntConfig(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte		antSetting	// 0=A, 1=B, 2=C, ....
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++		if (antSetting == 0)		/* ant A*/
++			ODM_SetBBReg(pDM_Odm, 0x948, bMaskDWord, 0x00000000);
++		else if (antSetting == 1)
++			ODM_SetBBReg(pDM_Odm, 0x948, bMaskDWord, 0x00000280);
++	} else if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++		if (antSetting == 0)		/* ant A*/
++			ODM_SetBBReg(pDM_Odm, 0x948, bMaskLWord, 0x0000);
++		else if (antSetting == 1)
++			ODM_SetBBReg(pDM_Odm, 0x948, bMaskLWord, 0x0280);
++	}
++}
++
++//======================================================
++
++
++VOID
++ODM_SwAntDivRestAfterLink(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T		pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	pFAT_T		pDM_FatTable = &pDM_Odm->DM_FatTable;
++	u4Byte             i;
++
++	if (pDM_Odm->AntDivType == S0S1_SW_ANTDIV) {
++		
++		pDM_SWAT_Table->try_flag = SWAW_STEP_INIT;
++		pDM_SWAT_Table->RSSI_Trying = 0;
++		pDM_SWAT_Table->Double_chk_flag= 0;
++		
++		pDM_FatTable->RxIdleAnt=MAIN_ANT;
++		
++		for (i=0; i<ODM_ASSOCIATE_ENTRY_NUM; i++)
++		{
++			pDM_FatTable->MainAnt_Sum[i] = 0;
++			pDM_FatTable->AuxAnt_Sum[i] = 0;
++			pDM_FatTable->MainAnt_Cnt[i] = 0;
++			pDM_FatTable->AuxAnt_Cnt[i] = 0;
++		}
++
++	}
++}
++
++
++#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++VOID
++odm_AntDiv_on_off( 
++	IN 	PVOID		pDM_VOID ,
++	IN 	u1Byte 		swch
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++	
++	if(pDM_FatTable->AntDiv_OnOff != swch)
++	{
++		if (pDM_Odm->AntDivType == S0S1_SW_ANTDIV) 
++			return;
++
++		if(pDM_Odm->SupportICType & ODM_N_ANTDIV_SUPPORT)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("(( Turn %s )) N-Series HW-AntDiv block\n",(swch==ANTDIV_ON)?"ON" : "OFF"));
++			ODM_SetBBReg(pDM_Odm, 0xc50 , BIT7, swch); 
++			ODM_SetBBReg(pDM_Odm, 0xa00 , BIT15, swch); 
++			
++		}
++		else if(pDM_Odm->SupportICType & ODM_AC_ANTDIV_SUPPORT)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("(( Turn %s )) AC-Series HW-AntDiv block\n",(swch==ANTDIV_ON)?"ON" : "OFF"));
++			if (pDM_Odm->SupportICType == ODM_RTL8812) {
++				ODM_SetBBReg(pDM_Odm, 0xc50 , BIT7, swch); //OFDM AntDiv function block enable
++				ODM_SetBBReg(pDM_Odm, 0xa00 , BIT15, swch); //CCK AntDiv function block enable
++			} else {
++				ODM_SetBBReg(pDM_Odm, 0x8D4 , BIT24, swch); //OFDM AntDiv function block enable
++				
++				if( (pDM_Odm->CutVersion >= ODM_CUT_C) && (pDM_Odm->SupportICType == ODM_RTL8821) && ( pDM_Odm->AntDivType != S0S1_SW_ANTDIV))
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("(( Turn %s )) CCK HW-AntDiv block\n",(swch==ANTDIV_ON)?"ON" : "OFF"));
++					ODM_SetBBReg(pDM_Odm, 0x800 , BIT25, swch); 
++					ODM_SetBBReg(pDM_Odm, 0xA00 , BIT15, swch); //CCK AntDiv function block enable
++				}
++		        }
++		}
++	}
++	pDM_FatTable->AntDiv_OnOff =swch;
++	
++}
++
++VOID
++phydm_FastTraining_enable(
++	IN		PVOID		pDM_VOID, 
++	IN 		u1Byte  			swch
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			enable;
++
++	if (swch == FAT_ON)
++		enable=1;
++	else
++		enable=0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Fast Ant Training_en = ((%d))\n", enable));
++
++	if (pDM_Odm->SupportICType == ODM_RTL8188E) {
++		ODM_SetBBReg(pDM_Odm, 0xe08 , BIT16, enable);	/*enable fast training*/
++		/**/
++	} else if (pDM_Odm->SupportICType == ODM_RTL8192E) {
++		ODM_SetBBReg(pDM_Odm, 0xB34 , BIT28, enable);	/*enable fast training (path-A)*/
++		/*ODM_SetBBReg(pDM_Odm, 0xB34 , BIT29, enable);*/	/*enable fast training (path-B)*/
++	} else if (pDM_Odm->SupportICType == ODM_RTL8821) {
++		ODM_SetBBReg(pDM_Odm, 0x900 , BIT19, enable);	/*enable fast training */
++		/**/
++	}
++}
++
++VOID
++odm_Tx_By_TxDesc_or_Reg( 
++	IN 		PVOID		pDM_VOID, 
++	IN 		u1Byte 			swch
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++	u1Byte enable;
++
++	if (pDM_FatTable->b_fix_tx_ant == NO_FIX_TX_ANT)
++		enable = (swch == TX_BY_DESC) ? 1 : 0;
++	else
++		enable = 0;/*Force TX by Reg*/
++
++	if(pDM_Odm->AntDivType != CGCS_RX_HW_ANTDIV)
++	{
++		if(pDM_Odm->SupportICType & ODM_N_ANTDIV_SUPPORT)
++		{
++				ODM_SetBBReg(pDM_Odm, 0x80c , BIT21, enable); 
++		}	
++		else if(pDM_Odm->SupportICType & ODM_AC_ANTDIV_SUPPORT)
++		{
++				ODM_SetBBReg(pDM_Odm, 0x900 , BIT18, enable); 
++		}
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[AntDiv] TX_Ant_BY (( %s ))\n", (enable == TX_BY_DESC) ? "DESC":"REG"));
++	}
++}
++
++VOID
++ODM_UpdateRxIdleAnt(
++	IN 		PVOID 		pDM_VOID, 
++	IN 		u1Byte 		Ant
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	u4Byte			DefaultAnt, OptionalAnt, value32, Default_tx_Ant;
++
++	if(pDM_FatTable->RxIdleAnt != Ant)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Ant ] RxIdleAnt =%s\n",(Ant==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++
++		if(!(pDM_Odm->SupportICType & ODM_RTL8723B))
++                	pDM_FatTable->RxIdleAnt = Ant;
++
++		if(Ant == MAIN_ANT)
++		{
++			DefaultAnt   =  ANT1_2G; 
++			OptionalAnt =  ANT2_2G; 
++		}
++		else
++		{
++			DefaultAnt  =   ANT2_2G;
++			OptionalAnt =  ANT1_2G;
++		}
++		
++		if (pDM_FatTable->b_fix_tx_ant != NO_FIX_TX_ANT)
++			Default_tx_Ant = (pDM_FatTable->b_fix_tx_ant == FIX_TX_AT_MAIN) ? 0 : 1;
++		else
++			Default_tx_Ant = DefaultAnt;
++	
++		if(pDM_Odm->SupportICType & ODM_N_ANTDIV_SUPPORT)
++		{
++			if(pDM_Odm->SupportICType==ODM_RTL8192E)
++			{
++				ODM_SetBBReg(pDM_Odm, 0xB38 , BIT5|BIT4|BIT3, DefaultAnt); //Default RX
++				ODM_SetBBReg(pDM_Odm, 0xB38 , BIT8|BIT7|BIT6, OptionalAnt);//Optional RX
++				ODM_SetBBReg(pDM_Odm, 0x860, BIT14|BIT13|BIT12, DefaultAnt);//Default TX	
++			}
++			#if (RTL8723B_SUPPORT == 1)
++			else if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++				
++				value32 = ODM_GetBBReg(pDM_Odm, 0x948, 0xFFF);
++			
++				if(value32 !=0x280)
++				ODM_UpdateRxIdleAnt_8723B(pDM_Odm, Ant, DefaultAnt, OptionalAnt);
++				else
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Ant ] 8723B: Fail to set RX antenna due to 0x948 = 0x280\n"));
++			}
++			#endif
++			else { /*8188E & 8188F*/
++
++				if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++					#if (RTL8723D_SUPPORT == 1)
++						phydm_set_tx_ant_pwr_8723d(pDM_Odm, Ant);
++					#endif
++				}
++				#if (RTL8188F_SUPPORT == 1)
++				else if (pDM_Odm->SupportICType == ODM_RTL8188F) {
++					phydm_update_rx_idle_antenna_8188F(pDM_Odm, DefaultAnt);
++					/**/
++				}
++				#endif
++				
++				ODM_SetBBReg(pDM_Odm, 0x864 , BIT5|BIT4|BIT3, DefaultAnt);		/*Default RX*/
++				ODM_SetBBReg(pDM_Odm, 0x864 , BIT8|BIT7|BIT6, OptionalAnt);	/*Optional RX*/		
++				ODM_SetBBReg(pDM_Odm, 0x860, BIT14|BIT13|BIT12, Default_tx_Ant);	/*Default TX*/
++			}
++		}
++		else if(pDM_Odm->SupportICType & ODM_AC_ANTDIV_SUPPORT)
++		{
++			u2Byte	value16 = ODM_Read2Byte(pDM_Odm, ODM_REG_TRMUX_11AC+2);
++			//
++			// 2014/01/14 MH/Luke.Lee Add direct write for register 0xc0a to prevnt 
++			// incorrect 0xc08 bit0-15 .We still not know why it is changed.
++			//
++			value16 &= ~(BIT11|BIT10|BIT9|BIT8|BIT7|BIT6|BIT5|BIT4|BIT3);
++			value16 |= ((u2Byte)DefaultAnt <<3);
++			value16 |= ((u2Byte)OptionalAnt <<6);
++			value16 |= ((u2Byte)DefaultAnt <<9);
++			ODM_Write2Byte(pDM_Odm, ODM_REG_TRMUX_11AC+2, value16);
++			/*
++			ODM_SetBBReg(pDM_Odm, ODM_REG_TRMUX_11AC , BIT21|BIT20|BIT19, DefaultAnt);	 //Default RX
++			ODM_SetBBReg(pDM_Odm, ODM_REG_TRMUX_11AC , BIT24|BIT23|BIT22, OptionalAnt);//Optional RX
++			ODM_SetBBReg(pDM_Odm, ODM_REG_TRMUX_11AC , BIT27|BIT26|BIT25, DefaultAnt);	 //Default TX
++			*/
++		}
++
++		if (pDM_Odm->SupportICType == ODM_RTL8188E)
++		{		
++			ODM_SetMACReg(pDM_Odm, 0x6D8 , BIT7|BIT6, Default_tx_Ant);		/*PathA Resp Tx*/
++			/**/
++		}
++		else
++		{
++			ODM_SetMACReg(pDM_Odm, 0x6D8 , BIT10|BIT9|BIT8, Default_tx_Ant);	/*PathA Resp Tx*/
++			/**/
++		}	
++
++	}
++	else// pDM_FatTable->RxIdleAnt == Ant
++        {
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Stay in Ori-Ant ]  RxIdleAnt =%s\n",(Ant==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++		pDM_FatTable->RxIdleAnt = Ant;
++	}
++}
++
++VOID
++odm_UpdateTxAnt(
++	IN 		PVOID 		pDM_VOID, 
++	IN 		u1Byte 		Ant, 
++	IN 		u4Byte 		MacId
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++	u1Byte	TxAnt;
++	
++	if (pDM_FatTable->b_fix_tx_ant != NO_FIX_TX_ANT)
++		Ant = (pDM_FatTable->b_fix_tx_ant == FIX_TX_AT_MAIN) ? MAIN_ANT : AUX_ANT;
++
++	if (pDM_Odm->AntDivType==CG_TRX_SMART_ANTDIV)
++	{
++		TxAnt=Ant;
++	}
++	else
++	{
++        	if(Ant == MAIN_ANT)
++        		TxAnt = ANT1_2G;
++        	else
++        		TxAnt = ANT2_2G;
++	}
++	
++	pDM_FatTable->antsel_a[MacId] = TxAnt&BIT0;
++	pDM_FatTable->antsel_b[MacId] = (TxAnt&BIT1)>>1;
++	pDM_FatTable->antsel_c[MacId] = (TxAnt&BIT2)>>2;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Set TX-DESC value]: MacID:(( %d )),  TxAnt = (( %s ))\n", MacId, (Ant == MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++	//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("antsel_tr_mux=(( 3'b%d%d%d ))\n",pDM_FatTable->antsel_c[MacId] , pDM_FatTable->antsel_b[MacId] , pDM_FatTable->antsel_a[MacId] ));
++	
++}
++
++#ifdef BEAMFORMING_SUPPORT
++#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++VOID
++odm_BDC_Init(
++	IN 		PVOID 		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pBDC_T	pDM_BdcTable=&pDM_Odm->DM_BdcTable;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("\n[ BDC Initialization......] \n"));
++	pDM_BdcTable->BDC_state=BDC_DIV_TRAIN_STATE;
++	pDM_BdcTable->BDC_Mode=BDC_MODE_NULL;
++	pDM_BdcTable->BDC_Try_flag=0;
++	pDM_BdcTable->BDCcoexType_wBfer=0;
++	pDM_Odm->bdc_holdstate=0xff;
++	
++	if(pDM_Odm->SupportICType == ODM_RTL8192E)
++	{
++		ODM_SetBBReg(pDM_Odm, 0xd7c , 0x0FFFFFFF, 0x1081008); 
++		ODM_SetBBReg(pDM_Odm, 0xd80 , 0x0FFFFFFF, 0); 
++	}
++	else if(pDM_Odm->SupportICType == ODM_RTL8812)
++	{
++		ODM_SetBBReg(pDM_Odm, 0x9b0 , 0x0FFFFFFF, 0x1081008);     //0x9b0[30:0] = 01081008
++		ODM_SetBBReg(pDM_Odm, 0x9b4 , 0x0FFFFFFF, 0);                 //0x9b4[31:0] = 00000000
++	}
++	
++}
++
++
++VOID
++odm_CSI_on_off(
++	IN 		PVOID 		pDM_VOID, 
++	IN 		u1Byte 			CSI_en
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	if(CSI_en==CSI_ON)
++	{
++		if(pDM_Odm->SupportICType == ODM_RTL8192E)
++		{
++			ODM_SetMACReg(pDM_Odm, 0xd84 , BIT11, 1);  //0xd84[11]=1
++		}
++		else if(pDM_Odm->SupportICType == ODM_RTL8812)
++		{
++			ODM_SetMACReg(pDM_Odm, 0x9b0 , BIT31, 1);  //0x9b0[31]=1
++		}
++	
++	}
++	else if(CSI_en==CSI_OFF)
++	{
++		if(pDM_Odm->SupportICType == ODM_RTL8192E)
++		{
++			ODM_SetMACReg(pDM_Odm, 0xd84 , BIT11, 0);  //0xd84[11]=0
++		}
++		else if(pDM_Odm->SupportICType == ODM_RTL8812)
++		{
++			ODM_SetMACReg(pDM_Odm, 0x9b0 , BIT31, 0);  //0x9b0[31]=0
++		}
++	}	
++}
++
++VOID
++odm_BDCcoexType_withBferClient(
++	IN 		PVOID 		pDM_VOID, 
++	IN 		u1Byte 			swch
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pBDC_T 	pDM_BdcTable = &pDM_Odm->DM_BdcTable;
++	u1Byte     BDCcoexType_wBfer;
++	
++	if(swch==DIVON_CSIOFF)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[BDCcoexType: 1] {DIV,CSI} ={1,0} \n"));
++		BDCcoexType_wBfer=1;
++
++		if(BDCcoexType_wBfer != pDM_BdcTable->BDCcoexType_wBfer)
++		{
++			odm_AntDiv_on_off(pDM_Odm, ANTDIV_ON);
++			odm_CSI_on_off(pDM_Odm,CSI_OFF);
++			pDM_BdcTable->BDCcoexType_wBfer=1;
++		}
++	}
++	else if(swch==DIVOFF_CSION)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[BDCcoexType: 2] {DIV,CSI} ={0,1}\n"));
++		BDCcoexType_wBfer=2;
++
++		if(BDCcoexType_wBfer != pDM_BdcTable->BDCcoexType_wBfer)
++		{
++			odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++			odm_CSI_on_off(pDM_Odm,CSI_ON);
++			pDM_BdcTable->BDCcoexType_wBfer=2;
++		}
++	}
++}
++
++VOID
++odm_BF_AntDiv_ModeArbitration(
++	IN 		PVOID 		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pBDC_T 			pDM_BdcTable = &pDM_Odm->DM_BdcTable;
++	u1Byte			current_BDC_Mode;
++
++	#if(DM_ODM_SUPPORT_TYPE  == ODM_AP)
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("\n"));
++	
++		//2 Mode 1
++		if((pDM_BdcTable->num_Txbfee_Client !=0) && (pDM_BdcTable->num_Txbfer_Client == 0))
++		{
++			current_BDC_Mode=BDC_MODE_1;
++			
++			if(current_BDC_Mode != pDM_BdcTable->BDC_Mode)
++			{
++				pDM_BdcTable->BDC_Mode=BDC_MODE_1;
++				odm_BDCcoexType_withBferClient( pDM_Odm, DIVON_CSIOFF);
++				pDM_BdcTable->BDC_RxIdleUpdate_counter=1;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Change to (( Mode1 ))\n"));
++			}
++
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Antdiv + BF coextance Mode] : (( Mode1 ))\n"));
++		}
++		//2 Mode 2
++		else if((pDM_BdcTable->num_Txbfee_Client ==0) && (pDM_BdcTable->num_Txbfer_Client != 0))
++		{
++			current_BDC_Mode=BDC_MODE_2;
++			
++			if(current_BDC_Mode != pDM_BdcTable->BDC_Mode)
++			{
++				pDM_BdcTable->BDC_Mode=BDC_MODE_2;
++				pDM_BdcTable->BDC_state=BDC_DIV_TRAIN_STATE;
++				pDM_BdcTable->BDC_Try_flag=0;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Change to (( Mode2 ))\n"));
++				
++			}
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Antdiv + BF coextance Mode] : (( Mode2 ))\n"));
++		}
++		//2 Mode 3
++		else if((pDM_BdcTable->num_Txbfee_Client !=0) && (pDM_BdcTable->num_Txbfer_Client != 0))
++		{
++			current_BDC_Mode=BDC_MODE_3;
++			
++			if(current_BDC_Mode != pDM_BdcTable->BDC_Mode)
++			{
++				pDM_BdcTable->BDC_Mode=BDC_MODE_3;
++				pDM_BdcTable->BDC_state=BDC_DIV_TRAIN_STATE;
++				pDM_BdcTable->BDC_Try_flag=0;
++				pDM_BdcTable->BDC_RxIdleUpdate_counter=1;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Change to (( Mode3 ))\n"));
++			}
++
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Antdiv + BF coextance Mode] : (( Mode3 ))\n"));
++		}
++		//2 Mode 4
++		else if((pDM_BdcTable->num_Txbfee_Client ==0) && (pDM_BdcTable->num_Txbfer_Client == 0))
++		{
++			current_BDC_Mode=BDC_MODE_4;
++			
++			if(current_BDC_Mode != pDM_BdcTable->BDC_Mode)
++			{
++				pDM_BdcTable->BDC_Mode=BDC_MODE_4;
++				odm_BDCcoexType_withBferClient( pDM_Odm, DIVON_CSIOFF);
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Change to (( Mode4 ))\n"));
++			}
++
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Antdiv + BF coextance Mode] : (( Mode4 ))\n"));
++		}
++	#endif
++
++}
++
++VOID
++odm_DivTrainState_setting( 
++	IN		PVOID 		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pBDC_T	pDM_BdcTable=&pDM_Odm->DM_BdcTable;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("\n*****[S T A R T ]*****  [2-0. DIV_TRAIN_STATE] \n"));
++	pDM_BdcTable->BDC_Try_counter =2;
++	pDM_BdcTable->BDC_Try_flag=1; 
++	pDM_BdcTable->BDC_state=BDC_BFer_TRAIN_STATE;					
++	odm_BDCcoexType_withBferClient( pDM_Odm, DIVON_CSIOFF);
++}
++
++VOID
++odm_BDCcoex_BFeeRxDiv_Arbitration(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pBDC_T    pDM_BdcTable = &pDM_Odm->DM_BdcTable;
++	BOOLEAN StopBF_flag;
++	u1Byte 	BDC_active_Mode;
++
++
++	#if(DM_ODM_SUPPORT_TYPE  == ODM_AP)
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***{ num_BFee,  num_BFer , num_Client}  = (( %d  ,  %d  ,  %d))  \n",pDM_BdcTable->num_Txbfee_Client,pDM_BdcTable->num_Txbfer_Client,pDM_BdcTable->num_Client));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***{ num_BF_tars,  num_DIV_tars }  = ((  %d  ,  %d ))  \n",pDM_BdcTable->num_BfTar , pDM_BdcTable->num_DivTar ));
++
++		//2 [ MIB control ]
++		if (pDM_Odm->bdc_holdstate==2) 
++		{
++			odm_BDCcoexType_withBferClient( pDM_Odm, DIVOFF_CSION); 
++			pDM_BdcTable->BDC_state=BDC_BF_HOLD_STATE;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Force in [ BF STATE] \n"));
++			return;	
++		}
++		else if (pDM_Odm->bdc_holdstate==1) 
++		{
++			pDM_BdcTable->BDC_state=BDC_DIV_HOLD_STATE;
++			odm_BDCcoexType_withBferClient( pDM_Odm, DIVON_CSIOFF); 
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Force in [ DIV STATE] \n"));
++			return;	
++		}
++
++		//------------------------------------------------------------
++
++
++		
++		//2 Mode 2 & 3
++		if(pDM_BdcTable->BDC_Mode==BDC_MODE_2 ||pDM_BdcTable->BDC_Mode==BDC_MODE_3)
++		{
++
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("\n{ Try_flag ,  Try_counter } = {  %d , %d  } \n",pDM_BdcTable->BDC_Try_flag,pDM_BdcTable->BDC_Try_counter));
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BDCcoexType = (( %d ))  \n\n", pDM_BdcTable->BDCcoexType_wBfer));
++			
++                        // All Client have Bfer-Cap-------------------------------
++			if(pDM_BdcTable->num_Txbfer_Client == pDM_BdcTable->num_Client) //BFer STA Only?: yes
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BFer STA only?  (( Yes ))\n"));
++				pDM_BdcTable->BDC_Try_flag=0;
++				pDM_BdcTable->BDC_state=BDC_DIV_TRAIN_STATE;
++				odm_BDCcoexType_withBferClient( pDM_Odm, DIVOFF_CSION);
++				return;
++			}
++			else
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BFer STA only?  (( No ))\n"));
++			}
++			//
++			if(pDM_BdcTable->bAll_BFSta_Idle==FALSE && pDM_BdcTable->bAll_DivSta_Idle==TRUE)
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("All DIV-STA are idle, but BF-STA not\n"));
++				pDM_BdcTable->BDC_Try_flag=0;
++				pDM_BdcTable->BDC_state=BDC_BFer_TRAIN_STATE;
++				odm_BDCcoexType_withBferClient( pDM_Odm, DIVOFF_CSION);
++				return;
++			}
++			else if(pDM_BdcTable->bAll_BFSta_Idle==TRUE && pDM_BdcTable->bAll_DivSta_Idle==FALSE)
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("All BF-STA are idle, but DIV-STA not\n"));
++				pDM_BdcTable->BDC_Try_flag=0;
++				pDM_BdcTable->BDC_state=BDC_DIV_TRAIN_STATE;
++				odm_BDCcoexType_withBferClient( pDM_Odm, DIVON_CSIOFF);
++				return;
++			}
++
++			//Select active mode--------------------------------------
++			if(pDM_BdcTable->num_BfTar ==0) //  Selsect_1,  Selsect_2
++			{
++				if(pDM_BdcTable->num_DivTar ==0)  // Selsect_3
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Select active mode (( 1 )) \n"));
++					pDM_BdcTable->BDC_active_Mode=1;
++				}
++				else
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Select active mode  (( 2 ))\n"));
++					pDM_BdcTable->BDC_active_Mode=2;
++				}
++				pDM_BdcTable->BDC_Try_flag=0;
++				pDM_BdcTable->BDC_state=BDC_DIV_TRAIN_STATE;
++				odm_BDCcoexType_withBferClient( pDM_Odm, DIVON_CSIOFF);
++				return;
++			}
++			else // num_BfTar > 0
++			{			
++				if(pDM_BdcTable->num_DivTar ==0)  // Selsect_3
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Select active mode (( 3 ))\n"));		
++					pDM_BdcTable->BDC_active_Mode=3;
++					pDM_BdcTable->BDC_Try_flag=0;
++					pDM_BdcTable->BDC_state=BDC_BFer_TRAIN_STATE;
++					odm_BDCcoexType_withBferClient( pDM_Odm, DIVOFF_CSION);
++					return;
++				}
++				else // Selsect_4
++				{
++					BDC_active_Mode=4;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Select active mode (( 4 ))\n"));	
++					
++					if(BDC_active_Mode!=pDM_BdcTable->BDC_active_Mode)
++					{
++						pDM_BdcTable->BDC_active_Mode=4;
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Change to active mode (( 4 ))  &  return!!! \n"));	
++						return;
++					}
++				}
++			}
++
++#if 1
++		if (pDM_Odm->bdc_holdstate==0xff) 
++		{
++			pDM_BdcTable->BDC_state=BDC_DIV_HOLD_STATE;
++			odm_BDCcoexType_withBferClient( pDM_Odm, DIVON_CSIOFF); 
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Force in [ DIV STATE] \n"));	
++			return;
++		}
++#endif
++
++			// Does Client number changed ? -------------------------------
++			if(pDM_BdcTable->num_Client !=pDM_BdcTable->pre_num_Client)
++			{ 
++				pDM_BdcTable->BDC_Try_flag=0;
++				pDM_BdcTable->BDC_state=BDC_DIV_TRAIN_STATE;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[  The number of client has been changed !!!]   return to (( BDC_DIV_TRAIN_STATE )) \n"));	
++			}
++			pDM_BdcTable->pre_num_Client=pDM_BdcTable->num_Client;
++
++			if( pDM_BdcTable->BDC_Try_flag==0)
++			{
++				//2 DIV_TRAIN_STATE (Mode 2-0)
++				if(pDM_BdcTable->BDC_state==BDC_DIV_TRAIN_STATE)
++				{
++					odm_DivTrainState_setting( pDM_Odm);
++				}
++				//2 BFer_TRAIN_STATE (Mode 2-1)
++				else if(pDM_BdcTable->BDC_state==BDC_BFer_TRAIN_STATE) 
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*****[2-1. BFer_TRAIN_STATE ]*****  \n"));
++					
++					//if(pDM_BdcTable->num_BfTar==0) 
++					//{
++					//	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BF_tars exist?  : (( No )),   [ BDC_BFer_TRAIN_STATE ] >> [BDC_DIV_TRAIN_STATE] \n"));
++					//	odm_DivTrainState_setting( pDM_Odm);
++					//}
++					//else //num_BfTar != 0
++					//{
++						pDM_BdcTable->BDC_Try_counter=2;
++						pDM_BdcTable->BDC_Try_flag=1;
++						pDM_BdcTable->BDC_state=BDC_DECISION_STATE;
++						odm_BDCcoexType_withBferClient( pDM_Odm, DIVOFF_CSION); 
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BF_tars exist?  : (( Yes )),   [ BDC_BFer_TRAIN_STATE ] >> [BDC_DECISION_STATE] \n"));
++					//}
++				}
++				//2 DECISION_STATE (Mode 2-2)
++				else if(pDM_BdcTable->BDC_state==BDC_DECISION_STATE)
++				{			
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*****[2-2. DECISION_STATE]***** \n"));
++					//if(pDM_BdcTable->num_BfTar==0) 
++					//{
++					//	ODM_AntDiv_Printk(("BF_tars exist?  : (( No )),   [ DECISION_STATE ] >> [BDC_DIV_TRAIN_STATE] \n"));
++					//	odm_DivTrainState_setting( pDM_Odm);
++					//}
++					//else //num_BfTar != 0
++					//{
++						if(pDM_BdcTable->BF_pass==FALSE || pDM_BdcTable->DIV_pass == FALSE)
++							StopBF_flag=TRUE;
++						else
++							StopBF_flag=FALSE;
++						
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BF_tars exist?  : (( Yes )),  {BF_pass, DIV_pass, StopBF_flag }  = { %d, %d, %d } \n" ,pDM_BdcTable->BF_pass,pDM_BdcTable->DIV_pass,StopBF_flag));
++					
++						if(StopBF_flag==TRUE) //DIV_en
++						{
++							pDM_BdcTable->BDC_Hold_counter=10; //20
++							odm_BDCcoexType_withBferClient( pDM_Odm, DIVON_CSIOFF); 
++							pDM_BdcTable->BDC_state=BDC_DIV_HOLD_STATE;
++							ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ StopBF_flag= ((TRUE)),   BDC_DECISION_STATE ] >> [BDC_DIV_HOLD_STATE] \n"));
++						}
++						else //BF_en
++						{
++							pDM_BdcTable->BDC_Hold_counter=10; //20
++							odm_BDCcoexType_withBferClient( pDM_Odm, DIVOFF_CSION); 
++							pDM_BdcTable->BDC_state=BDC_BF_HOLD_STATE;
++							ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[StopBF_flag= ((FALSE)),   BDC_DECISION_STATE ] >> [BDC_BF_HOLD_STATE] \n"));
++						}
++					//}
++				}
++				//2 BF-HOLD_STATE (Mode 2-3)
++				else if(pDM_BdcTable->BDC_state==BDC_BF_HOLD_STATE)
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*****[2-3. BF_HOLD_STATE ]*****\n"));	
++
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BDC_Hold_counter = (( %d )) \n",pDM_BdcTable->BDC_Hold_counter ));	
++
++					if(pDM_BdcTable->BDC_Hold_counter==1)
++					{
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ BDC_BF_HOLD_STATE ] >> [BDC_DIV_TRAIN_STATE] \n"));	
++						odm_DivTrainState_setting( pDM_Odm);
++					}
++					else
++					{
++						pDM_BdcTable->BDC_Hold_counter--;
++						
++						//if(pDM_BdcTable->num_BfTar==0) 
++						//{
++						//	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BF_tars exist?  : (( No )),   [ BDC_BF_HOLD_STATE ] >> [BDC_DIV_TRAIN_STATE] \n"));	
++						//	odm_DivTrainState_setting( pDM_Odm);
++						//}
++						//else //num_BfTar != 0
++						//{
++							//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BF_tars exist?  : (( Yes ))\n"));	
++							pDM_BdcTable->BDC_state=BDC_BF_HOLD_STATE;
++							odm_BDCcoexType_withBferClient( pDM_Odm, DIVOFF_CSION);
++							ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ BDC_BF_HOLD_STATE ] >> [BDC_BF_HOLD_STATE] \n"));	
++						//}
++					}
++				
++				}
++				//2 DIV-HOLD_STATE (Mode 2-4)
++				else if(pDM_BdcTable->BDC_state==BDC_DIV_HOLD_STATE)
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*****[2-4. DIV_HOLD_STATE ]*****\n"));	
++					
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BDC_Hold_counter = (( %d )) \n",pDM_BdcTable->BDC_Hold_counter ));
++					
++					if(pDM_BdcTable->BDC_Hold_counter==1)
++					{
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ BDC_DIV_HOLD_STATE ] >> [BDC_DIV_TRAIN_STATE] \n"));	
++						odm_DivTrainState_setting( pDM_Odm);
++					}
++					else
++					{
++						pDM_BdcTable->BDC_Hold_counter--;
++						pDM_BdcTable->BDC_state=BDC_DIV_HOLD_STATE;
++						odm_BDCcoexType_withBferClient( pDM_Odm, DIVON_CSIOFF); 
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ BDC_DIV_HOLD_STATE ] >> [BDC_DIV_HOLD_STATE] \n"));	
++					}
++				
++				}
++				
++			}
++			else if( pDM_BdcTable->BDC_Try_flag==1)
++			{
++				//2 Set Training Counter
++				if(pDM_BdcTable->BDC_Try_counter >1)
++				{
++					pDM_BdcTable->BDC_Try_counter--;
++					if(pDM_BdcTable->BDC_Try_counter ==1)
++						pDM_BdcTable->BDC_Try_flag=0; 
++						
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Training !!\n"));
++					//return ;
++				}
++				
++			}
++			
++		}
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("\n[end]\n"));
++
++	#endif //#if(DM_ODM_SUPPORT_TYPE  == ODM_AP)
++
++
++
++
++	
++
++}
++
++#endif
++#endif //#ifdef BEAMFORMING_SUPPORT
++
++
++#if (RTL8188E_SUPPORT == 1)
++
++
++VOID
++odm_RX_HWAntDiv_Init_88E(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte	value32;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	#if 0
++	if(pDM_Odm->mp_mode == TRUE)
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_IGI_A_11N , BIT7, 0); // disable HW AntDiv 
++		ODM_SetBBReg(pDM_Odm, ODM_REG_LNA_SWITCH_11N , BIT31, 1);  // 1:CG, 0:CS
++        	return;
++	}
++	#endif
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8188E AntDiv_Init =>  AntDivType=[CGCS_RX_HW_ANTDIV]\n"));
++	
++	//MAC Setting
++	value32 = ODM_GetMACReg(pDM_Odm, ODM_REG_ANTSEL_PIN_11N, bMaskDWord);
++	ODM_SetMACReg(pDM_Odm, ODM_REG_ANTSEL_PIN_11N, bMaskDWord, value32|(BIT23|BIT25)); //Reg4C[25]=1, Reg4C[23]=1 for pin output
++	//Pin Settings
++	ODM_SetBBReg(pDM_Odm, ODM_REG_PIN_CTRL_11N , BIT9|BIT8, 0);//Reg870[8]=1'b0, Reg870[9]=1'b0 		//antsel antselb by HW
++	ODM_SetBBReg(pDM_Odm, ODM_REG_RX_ANT_CTRL_11N , BIT10, 0);	//Reg864[10]=1'b0 	//antsel2 by HW
++	ODM_SetBBReg(pDM_Odm, ODM_REG_LNA_SWITCH_11N , BIT22, 1);	//Regb2c[22]=1'b0 	//disable CS/CG switch
++	ODM_SetBBReg(pDM_Odm, ODM_REG_LNA_SWITCH_11N , BIT31, 1);	//Regb2c[31]=1'b1	//output at CG only
++	//OFDM Settings
++	ODM_SetBBReg(pDM_Odm, ODM_REG_ANTDIV_PARA1_11N , bMaskDWord, 0x000000a0);
++	//CCK Settings
++	ODM_SetBBReg(pDM_Odm, ODM_REG_BB_PWR_SAV4_11N , BIT7, 1); //Fix CCK PHY status report issue
++	ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_ANTDIV_PARA2_11N , BIT4, 1); //CCK complete HW AntDiv within 64 samples	
++	
++	ODM_SetBBReg(pDM_Odm, ODM_REG_ANT_MAPPING1_11N , 0xFFFF, 0x0001);	//antenna mapping table
++
++	pDM_FatTable->enable_ctrl_frame_antdiv = 1;
++}
++
++VOID
++odm_TRX_HWAntDiv_Init_88E(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte	value32;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	#if 0
++	if(pDM_Odm->mp_mode == TRUE)
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_IGI_A_11N , BIT7, 0); // disable HW AntDiv 
++		ODM_SetBBReg(pDM_Odm, ODM_REG_RX_ANT_CTRL_11N , BIT5|BIT4|BIT3, 0); //Default RX   (0/1)
++		return;
++	}
++	#endif
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8188E AntDiv_Init =>  AntDivType=[CG_TRX_HW_ANTDIV (SPDT)]\n"));
++	
++	//MAC Setting
++	value32 = ODM_GetMACReg(pDM_Odm, ODM_REG_ANTSEL_PIN_11N, bMaskDWord);
++	ODM_SetMACReg(pDM_Odm, ODM_REG_ANTSEL_PIN_11N, bMaskDWord, value32|(BIT23|BIT25)); //Reg4C[25]=1, Reg4C[23]=1 for pin output
++	//Pin Settings
++	ODM_SetBBReg(pDM_Odm, ODM_REG_PIN_CTRL_11N , BIT9|BIT8, 0);//Reg870[8]=1'b0, Reg870[9]=1'b0 		//antsel antselb by HW
++	ODM_SetBBReg(pDM_Odm, ODM_REG_RX_ANT_CTRL_11N , BIT10, 0);	//Reg864[10]=1'b0 	//antsel2 by HW
++	ODM_SetBBReg(pDM_Odm, ODM_REG_LNA_SWITCH_11N , BIT22, 0);	//Regb2c[22]=1'b0 	//disable CS/CG switch
++	ODM_SetBBReg(pDM_Odm, ODM_REG_LNA_SWITCH_11N , BIT31, 1);	//Regb2c[31]=1'b1	//output at CG only
++	//OFDM Settings
++	ODM_SetBBReg(pDM_Odm, ODM_REG_ANTDIV_PARA1_11N , bMaskDWord, 0x000000a0);
++	//CCK Settings
++	ODM_SetBBReg(pDM_Odm, ODM_REG_BB_PWR_SAV4_11N , BIT7, 1); //Fix CCK PHY status report issue
++	ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_ANTDIV_PARA2_11N , BIT4, 1); //CCK complete HW AntDiv within 64 samples
++
++	//antenna mapping table
++	if(!pDM_Odm->bIsMPChip) //testchip
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_RX_DEFUALT_A_11N , BIT10|BIT9|BIT8, 1);	//Reg858[10:8]=3'b001
++		ODM_SetBBReg(pDM_Odm, ODM_REG_RX_DEFUALT_A_11N , BIT13|BIT12|BIT11, 2);	//Reg858[13:11]=3'b010
++	}
++	else //MPchip
++		ODM_SetBBReg(pDM_Odm, ODM_REG_ANT_MAPPING1_11N , bMaskDWord, 0x0201);	/*Reg914=3'b010, Reg915=3'b001*/
++
++	pDM_FatTable->enable_ctrl_frame_antdiv = 1;
++}
++
++
++#if( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++VOID
++odm_Smart_HWAntDiv_Init_88E(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte	value32, i;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8188E AntDiv_Init =>  AntDivType=[CG_TRX_SMART_ANTDIV]\n"));
++
++	#if 0
++	if(pDM_Odm->mp_mode == TRUE)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("pDM_Odm->AntDivType: %d\n", pDM_Odm->AntDivType));
++		return;
++	}
++	#endif
++
++	pDM_FatTable->TrainIdx = 0;
++	pDM_FatTable->FAT_State = FAT_PREPARE_STATE;
++	
++	pDM_Odm->fat_comb_a=5;
++	pDM_Odm->antdiv_intvl = 0x64; // 100ms
++
++	for(i=0; i<6; i++)
++	{
++		pDM_FatTable->Bssid[i] = 0;
++	}
++	for(i=0; i< (pDM_Odm->fat_comb_a) ; i++)
++	{
++		pDM_FatTable->antSumRSSI[i] = 0;
++		pDM_FatTable->antRSSIcnt[i] = 0;
++		pDM_FatTable->antAveRSSI[i] = 0;
++	}
++
++	//MAC Setting
++	value32 = ODM_GetMACReg(pDM_Odm, 0x4c, bMaskDWord);
++	ODM_SetMACReg(pDM_Odm, 0x4c, bMaskDWord, value32|(BIT23|BIT25)); //Reg4C[25]=1, Reg4C[23]=1 for pin output
++	value32 = ODM_GetMACReg(pDM_Odm,  0x7B4, bMaskDWord);
++	ODM_SetMACReg(pDM_Odm, 0x7b4, bMaskDWord, value32|(BIT16|BIT17)); //Reg7B4[16]=1 enable antenna training, Reg7B4[17]=1 enable A2 match
++	//value32 = PlatformEFIORead4Byte(Adapter, 0x7B4);
++	//PlatformEFIOWrite4Byte(Adapter, 0x7b4, value32|BIT18);	//append MACID in reponse packet
++
++	//Match MAC ADDR
++	ODM_SetMACReg(pDM_Odm, 0x7b4, 0xFFFF, 0);
++	ODM_SetMACReg(pDM_Odm, 0x7b0, bMaskDWord, 0);
++	
++	ODM_SetBBReg(pDM_Odm, 0x870 , BIT9|BIT8, 0);//Reg870[8]=1'b0, Reg870[9]=1'b0 		//antsel antselb by HW
++	ODM_SetBBReg(pDM_Odm, 0x864 , BIT10, 0);	//Reg864[10]=1'b0 	//antsel2 by HW
++	ODM_SetBBReg(pDM_Odm, 0xb2c , BIT22, 0);	//Regb2c[22]=1'b0 	//disable CS/CG switch
++	ODM_SetBBReg(pDM_Odm, 0xb2c , BIT31, 0);	//Regb2c[31]=1'b1	//output at CS only
++	ODM_SetBBReg(pDM_Odm, 0xca4 , bMaskDWord, 0x000000a0);
++	
++	//antenna mapping table
++	if(pDM_Odm->fat_comb_a == 2)
++	{
++		if(!pDM_Odm->bIsMPChip) //testchip
++		{
++			ODM_SetBBReg(pDM_Odm, 0x858 , BIT10|BIT9|BIT8, 1);	//Reg858[10:8]=3'b001
++			ODM_SetBBReg(pDM_Odm, 0x858 , BIT13|BIT12|BIT11, 2);	//Reg858[13:11]=3'b010
++		}
++		else //MPchip
++		{
++			ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte0, 1);
++			ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte1, 2);
++		}
++	}
++	else
++	{
++		if(!pDM_Odm->bIsMPChip) //testchip
++		{
++			ODM_SetBBReg(pDM_Odm, 0x858 , BIT10|BIT9|BIT8, 0);	//Reg858[10:8]=3'b000
++			ODM_SetBBReg(pDM_Odm, 0x858 , BIT13|BIT12|BIT11, 1);	//Reg858[13:11]=3'b001
++			ODM_SetBBReg(pDM_Odm, 0x878 , BIT16, 0);
++			ODM_SetBBReg(pDM_Odm, 0x858 , BIT15|BIT14, 2);	//(Reg878[0],Reg858[14:15])=3'b010
++			ODM_SetBBReg(pDM_Odm, 0x878 , BIT19|BIT18|BIT17, 3);//Reg878[3:1]=3b'011
++			ODM_SetBBReg(pDM_Odm, 0x878 , BIT22|BIT21|BIT20, 4);//Reg878[6:4]=3b'100
++			ODM_SetBBReg(pDM_Odm, 0x878 , BIT25|BIT24|BIT23, 5);//Reg878[9:7]=3b'101 
++			ODM_SetBBReg(pDM_Odm, 0x878 , BIT28|BIT27|BIT26, 6);//Reg878[12:10]=3b'110 
++			ODM_SetBBReg(pDM_Odm, 0x878 , BIT31|BIT30|BIT29, 7);//Reg878[15:13]=3b'111
++		}
++		else //MPchip
++		{
++			ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte0, 4);     // 0: 3b'000
++			ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte1, 2);     // 1: 3b'001	
++			ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte2, 0);     // 2: 3b'010
++			ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte3, 1);     // 3: 3b'011
++			ODM_SetBBReg(pDM_Odm, 0x918 , bMaskByte0, 3);     // 4: 3b'100
++			ODM_SetBBReg(pDM_Odm, 0x918 , bMaskByte1, 5);     // 5: 3b'101
++			ODM_SetBBReg(pDM_Odm, 0x918 , bMaskByte2, 6);     // 6: 3b'110
++			ODM_SetBBReg(pDM_Odm, 0x918 , bMaskByte3, 255); // 7: 3b'111
++		}
++	}
++
++	//Default Ant Setting when no fast training
++	ODM_SetBBReg(pDM_Odm, 0x864 , BIT5|BIT4|BIT3, 0);	//Default RX
++	ODM_SetBBReg(pDM_Odm, 0x864 , BIT8|BIT7|BIT6, 1);	//Optional RX
++	ODM_SetBBReg(pDM_Odm, 0x860 , BIT14|BIT13|BIT12, 0);//Default TX
++
++	//Enter Traing state
++	ODM_SetBBReg(pDM_Odm, 0x864 , BIT2|BIT1|BIT0, (pDM_Odm->fat_comb_a-1));	//Reg864[2:0]=3'd6	//ant combination=reg864[2:0]+1
++
++	//SW Control
++	//PHY_SetBBReg(Adapter, 0x864 , BIT10, 1);
++	//PHY_SetBBReg(Adapter, 0x870 , BIT9, 1);
++	//PHY_SetBBReg(Adapter, 0x870 , BIT8, 1);
++	//PHY_SetBBReg(Adapter, 0x864 , BIT11, 1);
++	//PHY_SetBBReg(Adapter, 0x860 , BIT9, 0);
++	//PHY_SetBBReg(Adapter, 0x860 , BIT8, 0);
++}
++#endif
++
++#endif //#if (RTL8188E_SUPPORT == 1)
++
++
++#if (RTL8192E_SUPPORT == 1)
++VOID
++odm_RX_HWAntDiv_Init_92E(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	#if 0
++	if(pDM_Odm->mp_mode == TRUE)
++	{
++		odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++		ODM_SetBBReg(pDM_Odm, 0xc50 , BIT8, 0); //r_rxdiv_enable_anta  Regc50[8]=1'b0  0: control by c50[9]
++		ODM_SetBBReg(pDM_Odm, 0xc50 , BIT9, 1);  // 1:CG, 0:CS
++		return;
++	}
++	#endif
++	
++	 ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8192E AntDiv_Init =>  AntDivType=[CGCS_RX_HW_ANTDIV]\n"));
++	
++	 //Pin Settings
++	 ODM_SetBBReg(pDM_Odm, 0x870 , BIT8, 0);//Reg870[8]=1'b0,    // "antsel" is controled by HWs
++	 ODM_SetBBReg(pDM_Odm, 0xc50 , BIT8, 1); //Regc50[8]=1'b1  //" CS/CG switching" is controled by HWs
++
++	 //Mapping table
++	 ODM_SetBBReg(pDM_Odm, 0x914 , 0xFFFF, 0x0100); //antenna mapping table
++	  
++	 //OFDM Settings
++	 ODM_SetBBReg(pDM_Odm, 0xca4 , 0x7FF, 0xA0); //thershold
++	 ODM_SetBBReg(pDM_Odm, 0xca4 , 0x7FF000, 0x0); //bias
++	 
++	 //CCK Settings
++	 ODM_SetBBReg(pDM_Odm, 0xa04 , 0xF000000, 0); //Select which path to receive for CCK_1 & CCK_2
++	 ODM_SetBBReg(pDM_Odm, 0xb34 , BIT30, 0); //(92E) ANTSEL_CCK_opt = r_en_antsel_cck? ANTSEL_CCK: 1'b0
++	 ODM_SetBBReg(pDM_Odm, 0xa74 , BIT7, 1); //Fix CCK PHY status report issue
++	 ODM_SetBBReg(pDM_Odm, 0xa0c , BIT4, 1); //CCK complete HW AntDiv within 64 samples 	 
++	 
++	 #ifdef ODM_EVM_ENHANCE_ANTDIV
++	//EVM enhance AntDiv method init----------------------------------------------------------------------
++	pDM_FatTable->EVM_method_enable=0;
++	pDM_FatTable->FAT_State = NORMAL_STATE_MIAN;
++	pDM_Odm->antdiv_intvl = 0x64; 
++	ODM_SetBBReg(pDM_Odm, 0x910 , 0x3f, 0xf );	   
++	pDM_Odm->antdiv_evm_en=1;
++	//pDM_Odm->antdiv_period=1;
++	pDM_Odm->evm_antdiv_period = 3;
++
++	#endif
++	 
++}
++
++VOID
++odm_TRX_HWAntDiv_Init_92E(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	#if 0
++	if(pDM_Odm->mp_mode == TRUE)
++	{
++		odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++		ODM_SetBBReg(pDM_Odm, 0xc50 , BIT8, 0); //r_rxdiv_enable_anta  Regc50[8]=1'b0  0: control by c50[9]
++		ODM_SetBBReg(pDM_Odm, 0xc50 , BIT9, 1);  // 1:CG, 0:CS
++		return;
++	}
++	#endif
++
++	 ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8192E AntDiv_Init =>  AntDivType=[ Only for DIR605, CG_TRX_HW_ANTDIV]\n"));
++	
++	//3 --RFE pin setting---------
++	//[MAC]
++	ODM_SetMACReg(pDM_Odm, 0x38, BIT11, 1);            //DBG PAD Driving control (GPIO 8)
++	ODM_SetMACReg(pDM_Odm, 0x4c, BIT23, 0);            //path-A , RFE_CTRL_3 
++	ODM_SetMACReg(pDM_Odm, 0x4c, BIT29, 1);            //path-A , RFE_CTRL_8
++	//[BB]
++	ODM_SetBBReg(pDM_Odm, 0x944 , BIT3, 1);              //RFE_buffer
++	ODM_SetBBReg(pDM_Odm, 0x944 , BIT8, 1);	
++	ODM_SetBBReg(pDM_Odm, 0x940 , BIT7|BIT6, 0x0); // r_rfe_path_sel_   (RFE_CTRL_3)
++	ODM_SetBBReg(pDM_Odm, 0x940 , BIT17|BIT16, 0x0); // r_rfe_path_sel_   (RFE_CTRL_8)
++	ODM_SetBBReg(pDM_Odm, 0x944 , BIT31, 0);     //RFE_buffer
++	ODM_SetBBReg(pDM_Odm, 0x92C , BIT3, 0);     //rfe_inv  (RFE_CTRL_3)
++	ODM_SetBBReg(pDM_Odm, 0x92C , BIT8, 1);     //rfe_inv  (RFE_CTRL_8)
++	ODM_SetBBReg(pDM_Odm, 0x930 , 0xF000, 0x8);           //path-A , RFE_CTRL_3 
++	ODM_SetBBReg(pDM_Odm, 0x934 , 0xF, 0x8);           //path-A , RFE_CTRL_8
++	//3 -------------------------
++	
++	 //Pin Settings
++	ODM_SetBBReg(pDM_Odm, 0xC50 , BIT8, 0);	   //path-A   	//disable CS/CG switch
++
++/* Let it follows PHY_REG for bit9 setting
++	if(pDM_Odm->priv->pshare->rf_ft_var.use_ext_pa || pDM_Odm->priv->pshare->rf_ft_var.use_ext_lna)
++		ODM_SetBBReg(pDM_Odm, 0xC50 , BIT9, 1);//path-A 	//output at CS
++	else
++		ODM_SetBBReg(pDM_Odm, 0xC50 , BIT9, 0);    //path-A 	//output at CG ->normal power
++*/
++
++	ODM_SetBBReg(pDM_Odm, 0x870 , BIT9|BIT8, 0);  //path-A  	//antsel antselb by HW
++	ODM_SetBBReg(pDM_Odm, 0xB38 , BIT10, 0);	   //path-A    	//antsel2 by HW	
++ 
++	//Mapping table
++	 ODM_SetBBReg(pDM_Odm, 0x914 , 0xFFFF, 0x0100); //antenna mapping table
++	  
++	 //OFDM Settings
++	 ODM_SetBBReg(pDM_Odm, 0xca4 , 0x7FF, 0xA0); //thershold
++	 ODM_SetBBReg(pDM_Odm, 0xca4 , 0x7FF000, 0x0); //bias
++	 
++	 //CCK Settings
++	 ODM_SetBBReg(pDM_Odm, 0xa04 , 0xF000000, 0); //Select which path to receive for CCK_1 & CCK_2
++	 ODM_SetBBReg(pDM_Odm, 0xb34 , BIT30, 0); //(92E) ANTSEL_CCK_opt = r_en_antsel_cck? ANTSEL_CCK: 1'b0
++	 ODM_SetBBReg(pDM_Odm, 0xa74 , BIT7, 1); //Fix CCK PHY status report issue
++	 ODM_SetBBReg(pDM_Odm, 0xa0c , BIT4, 1); //CCK complete HW AntDiv within 64 samples 
++
++	 //Timming issue
++	 ODM_SetBBReg(pDM_Odm, 0xE20 , BIT23|BIT22|BIT21|BIT20, 8); /*keep antidx after tx for ACK ( unit x 3.2 mu sec)*/
++
++	#ifdef ODM_EVM_ENHANCE_ANTDIV
++	//EVM enhance AntDiv method init----------------------------------------------------------------------
++	pDM_FatTable->EVM_method_enable=0;
++	pDM_FatTable->FAT_State = NORMAL_STATE_MIAN;
++	pDM_Odm->antdiv_intvl = 0x64; 
++	ODM_SetBBReg(pDM_Odm, 0x910 , 0x3f, 0xf );	   
++	pDM_Odm->antdiv_evm_en=1;
++	//pDM_Odm->antdiv_period=1;
++	pDM_Odm->evm_antdiv_period = 3;
++	#endif
++}
++
++#if( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++VOID
++odm_Smart_HWAntDiv_Init_92E(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8192E AntDiv_Init =>  AntDivType=[CG_TRX_SMART_ANTDIV]\n"));
++}
++#endif
++
++#endif //#if (RTL8192E_SUPPORT == 1)
++
++#if (RTL8723D_SUPPORT == 1)
++VOID
++odm_TRX_HWAntDiv_Init_8723D(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[8723D] AntDiv_Init =>  AntDivType=[S0S1_HW_TRX_AntDiv]\n"));
++
++	/*BT Coexistence*/
++	/*keep antsel_map when GNT_BT = 1*/
++	ODM_SetBBReg(pDM_Odm, 0x864, BIT12, 1); 
++	/* //Disable hw antsw & fast_train.antsw when GNT_BT=1*/
++	ODM_SetBBReg(pDM_Odm, 0x874 , BIT23, 0);
++	/*//Disable hw antsw & fast_train.antsw when BT TX/RX*/
++	ODM_SetBBReg(pDM_Odm, 0xE64 , 0xFFFF0000, 0x000c); 
++
++
++	ODM_SetBBReg(pDM_Odm, 0x870 , BIT9|BIT8, 0); 
++	/*PTA setting: WL_BB_SEL_BTG_TRXG_anta,  (1: HW CTRL  0: SW CTRL)*/
++	/*ODM_SetBBReg(pDM_Odm, 0x948 , BIT6, 0);*/
++	/*ODM_SetBBReg(pDM_Odm, 0x948 , BIT8, 0);*/
++	/*GNT_WL tx*/
++	ODM_SetBBReg(pDM_Odm, 0x950 , BIT29, 0); 
++	
++	  
++	/*Mapping Table*/
++	ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte0, 0);
++	ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte1, 3);
++	ODM_SetBBReg(pDM_Odm, 0x864 , BIT5|BIT4|BIT3, 0);	
++	ODM_SetBBReg(pDM_Odm, 0x864 , BIT8|BIT7|BIT6, 1); 
++	
++	/*  //Set WLBB_SEL_RF_ON 1 if RXFIR_PWDB > 0xCcc[3:0]*/
++	ODM_SetBBReg(pDM_Odm, 0xCcc, BIT12, 0);     
++	/*  //Low-to-High threshold for WLBB_SEL_RF_ON when OFDM enable*/
++	ODM_SetBBReg(pDM_Odm, 0xCcc , 0x0F, 0x01);   
++	/*//High-to-Low threshold for WLBB_SEL_RF_ON when OFDM enable*/
++	ODM_SetBBReg(pDM_Odm, 0xCcc , 0xF0, 0x0);     
++	/* //b Low-to-High threshold for WLBB_SEL_RF_ON when OFDM disable ( only CCK )*/
++	ODM_SetBBReg(pDM_Odm, 0xAbc , 0xFF, 0x06);    
++	/* //High-to-Low threshold for WLBB_SEL_RF_ON when OFDM disable ( only CCK )*/
++	ODM_SetBBReg(pDM_Odm, 0xAbc , 0xFF00, 0x00);    
++	
++	
++	/*OFDM HW AntDiv Parameters*/
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , 0x7FF, 0xa0); 
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , 0x7FF000, 0x00); 
++	ODM_SetBBReg(pDM_Odm, 0xC5C , BIT20|BIT19|BIT18, 0x04); 
++		
++	/*CCK HW AntDiv Parameters*/
++	ODM_SetBBReg(pDM_Odm, 0xA74 , BIT7, 1); 
++	ODM_SetBBReg(pDM_Odm, 0xA0C , BIT4, 1); 
++	ODM_SetBBReg(pDM_Odm, 0xAA8 , BIT8, 0); 
++	
++	ODM_SetBBReg(pDM_Odm, 0xA0C , 0x0F, 0xf); 
++	ODM_SetBBReg(pDM_Odm, 0xA14 , 0x1F, 0x8);
++	ODM_SetBBReg(pDM_Odm, 0xA10 , BIT13, 0x1);  
++	ODM_SetBBReg(pDM_Odm, 0xA74 , BIT8, 0x0);   
++	ODM_SetBBReg(pDM_Odm, 0xB34 , BIT30, 0x1);   
++	
++	/*disable antenna training	*/
++	ODM_SetBBReg(pDM_Odm, 0xE08 , BIT16, 0); 
++	ODM_SetBBReg(pDM_Odm, 0xc50 , BIT8, 0);
++	/*Timming issue*/
++	ODM_SetBBReg(pDM_Odm, 0xE20 , BIT23|BIT22|BIT21|BIT20, 5); /*3.2us * 5 = 16us*/
++
++	
++}
++
++VOID
++phydm_set_tx_ant_pwr_8723d(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Ant
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	PADAPTER		pAdapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	pDM_FatTable->RxIdleAnt = Ant;
++	
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		 pAdapter->HalFunc.SetTxPowerLevelHandler(pAdapter, pHalData->CurrentChannel);
++	#elif(DM_ODM_SUPPORT_TYPE == ODM_CE)
++		rtw_hal_set_tx_power_level(pAdapter, pHalData->CurrentChannel);
++	#endif
++	
++}
++#endif
++
++#if (RTL8723B_SUPPORT == 1)
++VOID
++odm_TRX_HWAntDiv_Init_8723B(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8723B AntDiv_Init =>  AntDivType=[CG_TRX_HW_ANTDIV(DPDT)]\n"));
++      
++	//Mapping Table
++	ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte0, 0);
++	ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte1, 1);
++	
++	//OFDM HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , 0x7FF, 0xa0); //thershold
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , 0x7FF000, 0x00); //bias
++		
++	//CCK HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0xA74 , BIT7, 1); //patch for clk from 88M to 80M
++	ODM_SetBBReg(pDM_Odm, 0xA0C , BIT4, 1); //do 64 samples
++	
++	//BT Coexistence
++	ODM_SetBBReg(pDM_Odm, 0x864, BIT12, 0); //keep antsel_map when GNT_BT = 1
++	ODM_SetBBReg(pDM_Odm, 0x874 , BIT23, 0); //Disable hw antsw & fast_train.antsw when GNT_BT=1
++
++        //Output Pin Settings
++	ODM_SetBBReg(pDM_Odm, 0x870 , BIT8, 0); //
++		
++	ODM_SetBBReg(pDM_Odm, 0x948 , BIT6, 0); //WL_BB_SEL_BTG_TRXG_anta,  (1: HW CTRL  0: SW CTRL)
++	ODM_SetBBReg(pDM_Odm, 0x948 , BIT7, 0);
++		
++	ODM_SetMACReg(pDM_Odm, 0x40 , BIT3, 1);
++	ODM_SetMACReg(pDM_Odm, 0x38 , BIT11, 1);
++	ODM_SetMACReg(pDM_Odm, 0x4C ,  BIT24|BIT23, 2); //select DPDT_P and DPDT_N as output pin
++		
++	ODM_SetBBReg(pDM_Odm, 0x944 , BIT0|BIT1, 3); //in/out
++	ODM_SetBBReg(pDM_Odm, 0x944 , BIT31, 0); //
++
++	ODM_SetBBReg(pDM_Odm, 0x92C , BIT1, 0); //DPDT_P non-inverse
++	ODM_SetBBReg(pDM_Odm, 0x92C , BIT0, 1); //DPDT_N inverse
++
++	ODM_SetBBReg(pDM_Odm, 0x930 , 0xF0, 8); // DPDT_P = ANTSEL[0]
++	ODM_SetBBReg(pDM_Odm, 0x930 , 0xF, 8); // DPDT_N = ANTSEL[0]
++
++	//Timming issue
++	ODM_SetBBReg(pDM_Odm, 0xE20 , BIT23|BIT22|BIT21|BIT20, 8); /*keep antidx after tx for ACK ( unit x 3.2 mu sec)*/
++
++	//2 [--For HW Bug Setting]
++	if(pDM_Odm->AntType == ODM_AUTO_ANT)
++		ODM_SetBBReg(pDM_Odm, 0xA00 , BIT15, 0); //CCK AntDiv function block enable
++
++}
++
++	
++
++VOID
++odm_S0S1_SWAntDiv_Init_8723B(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T		pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	pFAT_T		pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8723B AntDiv_Init => AntDivType=[ S0S1_SW_AntDiv] \n"));
++
++	//Mapping Table
++	ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte0, 0);
++	ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte1, 1);
++	
++	//Output Pin Settings
++	//ODM_SetBBReg(pDM_Odm, 0x948 , BIT6, 0x1); 
++	ODM_SetBBReg(pDM_Odm, 0x870 , BIT9|BIT8, 0); 
++
++	pDM_FatTable->bBecomeLinked  =FALSE;
++	pDM_SWAT_Table->try_flag = SWAW_STEP_INIT;	
++	pDM_SWAT_Table->Double_chk_flag = 0;
++
++	//Timming issue
++	ODM_SetBBReg(pDM_Odm, 0xE20 , BIT23|BIT22|BIT21|BIT20, 8); /*keep antidx after tx for ACK ( unit x 3.2 mu sec)*/
++	
++	//2 [--For HW Bug Setting]
++	ODM_SetBBReg(pDM_Odm, 0x80C , BIT21, 0); //TX Ant  by Reg
++
++}
++
++VOID
++ODM_UpdateRxIdleAnt_8723B(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Ant,
++	IN		u4Byte			DefaultAnt, 
++	IN		u4Byte			OptionalAnt
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	PADAPTER 		pAdapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u1Byte			count=0;
++	u1Byte			u1Temp;
++	u1Byte			H2C_Parameter;
++
++	if ((!pDM_Odm->bLinked) && (pDM_Odm->AntType == ODM_AUTO_ANT))
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Ant ] 8723B: Fail to set RX antenna due to no link\n"));
++		return;
++	}
++
++#if 0
++	// Send H2C command to FW
++	// Enable wifi calibration
++	H2C_Parameter = TRUE;
++	ODM_FillH2CCmd(pDM_Odm, ODM_H2C_WIFI_CALIBRATION, 1, &H2C_Parameter);
++
++	// Check if H2C command sucess or not (0x1e6)
++	u1Temp = ODM_Read1Byte(pDM_Odm, 0x1e6);
++	while((u1Temp != 0x1) && (count < 100))
++	{
++		ODM_delay_us(10);	
++		u1Temp = ODM_Read1Byte(pDM_Odm, 0x1e6);
++		count++;
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Ant ] 8723B: H2C command status = %d, count = %d\n", u1Temp, count));
++
++	if(u1Temp == 0x1)
++	{
++		// Check if BT is doing IQK (0x1e7)
++		count = 0;
++		u1Temp = ODM_Read1Byte(pDM_Odm, 0x1e7);
++		while((!(u1Temp & BIT0))  && (count < 100))
++		{
++			ODM_delay_us(50);	
++			u1Temp = ODM_Read1Byte(pDM_Odm, 0x1e7);
++			count++;
++		}
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Ant ] 8723B: BT IQK status = %d, count = %d\n", u1Temp, count));
++
++		if(u1Temp & BIT0)
++		{
++			ODM_SetBBReg(pDM_Odm, 0x948 , BIT6, 0x1);
++			ODM_SetBBReg(pDM_Odm, 0x948 , BIT9, DefaultAnt);	
++			ODM_SetBBReg(pDM_Odm, 0x864 , BIT5|BIT4|BIT3, DefaultAnt);	//Default RX
++			ODM_SetBBReg(pDM_Odm, 0x864 , BIT8|BIT7|BIT6, OptionalAnt);	//Optional RX
++			ODM_SetBBReg(pDM_Odm, 0x860, BIT14|BIT13|BIT12, DefaultAnt); //Default TX	
++			pDM_FatTable->RxIdleAnt = Ant;
++
++			// Set TX AGC by S0/S1
++			// Need to consider Linux driver
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++			 pAdapter->HalFunc.SetTxPowerLevelHandler(pAdapter, pHalData->CurrentChannel);
++#elif(DM_ODM_SUPPORT_TYPE == ODM_CE)
++			rtw_hal_set_tx_power_level(pAdapter, pHalData->CurrentChannel);
++#endif
++
++			// Set IQC by S0/S1
++			ODM_SetIQCbyRFpath(pDM_Odm,DefaultAnt);
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Ant ] 8723B: Sucess to set RX antenna\n"));
++		}
++		else
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Ant ] 8723B: Fail to set RX antenna due to BT IQK\n"));
++	}
++	else
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Ant ] 8723B: Fail to set RX antenna due to H2C command fail\n"));
++
++	// Send H2C command to FW
++	// Disable wifi calibration
++	H2C_Parameter = FALSE;
++	ODM_FillH2CCmd(pDM_Odm, ODM_H2C_WIFI_CALIBRATION, 1, &H2C_Parameter);
++#else
++
++	ODM_SetBBReg(pDM_Odm, 0x948 , BIT6, 0x1);
++	ODM_SetBBReg(pDM_Odm, 0x948 , BIT9, DefaultAnt);	
++	ODM_SetBBReg(pDM_Odm, 0x864 , BIT5|BIT4|BIT3, DefaultAnt);          /*Default RX*/
++	ODM_SetBBReg(pDM_Odm, 0x864 , BIT8|BIT7|BIT6, OptionalAnt);         /*Optional RX*/
++	ODM_SetBBReg(pDM_Odm, 0x860, BIT14|BIT13|BIT12, DefaultAnt);        /*Default TX*/
++	pDM_FatTable->RxIdleAnt = Ant;
++
++	/* Set TX AGC by S0/S1 */
++	/* Need to consider Linux driver */
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		 pAdapter->HalFunc.SetTxPowerLevelHandler(pAdapter, pHalData->CurrentChannel);
++	#elif(DM_ODM_SUPPORT_TYPE == ODM_CE)
++		rtw_hal_set_tx_power_level(pAdapter, pHalData->CurrentChannel);
++	#endif
++
++	/* Set IQC by S0/S1 */
++	ODM_SetIQCbyRFpath(pDM_Odm, DefaultAnt);
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Ant ] 8723B: Success to set RX antenna\n"));
++
++#endif
++}
++
++BOOLEAN
++phydm_IsBtEnable_8723b(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			bt_state;
++	/*u4Byte			reg75;*/
++
++	/*reg75 = ODM_GetBBReg(pDM_Odm, 0x74 , BIT8);*/
++	/*ODM_SetBBReg(pDM_Odm, 0x74 , BIT8, 0x0);*/
++	ODM_SetBBReg(pDM_Odm, 0xa0 , BIT24|BIT25|BIT26, 0x5);
++	bt_state = ODM_GetBBReg(pDM_Odm, 0xa0 , (BIT3|BIT2|BIT1|BIT0));
++	/*ODM_SetBBReg(pDM_Odm, 0x74 , BIT8, reg75);*/
++
++	if ((bt_state == 4) || (bt_state == 7) || (bt_state == 9) || (bt_state == 13))
++		return TRUE;
++	else
++		return FALSE;
++}
++#endif //#if (RTL8723B_SUPPORT == 1)
++
++#if (RTL8821A_SUPPORT == 1)
++#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++VOID
++phydm_hl_smart_ant_type1_init_8821a(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSAT_T			pdm_sat_table = &(pDM_Odm->dm_sat_table);
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	u4Byte			value32;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8821A SmartAnt_Init => AntDivType=[Hong-Lin Smart Ant Type1]\n"));
++	
++	/*----------------------------------------
++	GPIO 2-3 for Beam control 
++	    reg0x66[2]=0
++	    reg0x44[27:26] = 0
++	    reg0x44[23:16] //enable_output for P_GPIO[7:0]
++	    reg0x44[15:8] //output_value for P_GPIO[7:0]
++	    reg0x40[1:0] = 0 //GPIO function
++	------------------------------------------*/
++	
++	/*GPIO Setting*/
++	ODM_SetMACReg(pDM_Odm, 0x64 , BIT18, 0); 
++	ODM_SetMACReg(pDM_Odm, 0x44 , BIT27|BIT26, 0);
++	ODM_SetMACReg(pDM_Odm, 0x44 , BIT19|BIT18, 0x3);	/*enable_output for P_GPIO[3:2]*/
++	/*ODM_SetMACReg(pDM_Odm, 0x44 , BIT11|BIT10, 0);*/ /*output value*/
++	ODM_SetMACReg(pDM_Odm, 0x40 , BIT1|BIT0, 0);		/*GPIO function*/
++
++	/*Hong_lin smart antenna HW Setting*/
++	pdm_sat_table->data_codeword_bit_num  = 24;/*max=32*/
++	pdm_sat_table->beam_patten_num_each_ant = 4;
++
++	#if DEV_BUS_TYPE == RT_SDIO_INTERFACE
++	pdm_sat_table->latch_time = 100; /*mu sec*/
++	#elif DEV_BUS_TYPE == RT_USB_INTERFACE
++	pdm_sat_table->latch_time = 100; /*mu sec*/
++	#endif
++	pdm_sat_table->pkt_skip_statistic_en = 0;
++	
++	pdm_sat_table->ant_num = 1;/*max=8*/
++	pdm_sat_table->ant_num_total = NUM_ANTENNA_8821A;
++	pdm_sat_table->first_train_ant = MAIN_ANT;
++	
++	pdm_sat_table->rfu_codeword_table[0] = 0x0;
++	pdm_sat_table->rfu_codeword_table[1] = 0x4;
++	pdm_sat_table->rfu_codeword_table[2] = 0x8;
++	pdm_sat_table->rfu_codeword_table[3] = 0xc;
++
++	pdm_sat_table->rfu_codeword_table_5g[0] = 0x1;
++	pdm_sat_table->rfu_codeword_table_5g[1] = 0x2;
++	pdm_sat_table->rfu_codeword_table_5g[2] = 0x4;
++	pdm_sat_table->rfu_codeword_table_5g[3] = 0x8;
++
++	pdm_sat_table->fix_beam_pattern_en  = 0;
++	pdm_sat_table->decision_holding_period = 0;
++
++	/*beam training setting*/
++	pdm_sat_table->pkt_counter = 0;
++	pdm_sat_table->per_beam_training_pkt_num = 10;
++
++	/*set default beam*/
++	pdm_sat_table->fast_training_beam_num = 0;
++	pdm_sat_table->pre_fast_training_beam_num = pdm_sat_table->fast_training_beam_num;
++	phydm_set_all_ant_same_beam_num(pDM_Odm);
++
++	pDM_FatTable->FAT_State = FAT_BEFORE_LINK_STATE;
++
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskDWord, 0x01000100);
++	ODM_SetBBReg(pDM_Odm, 0xCA8 , bMaskDWord, 0x01000100);
++
++	/*[BB] FAT Setting*/
++	ODM_SetBBReg(pDM_Odm, 0xc08 , BIT18|BIT17|BIT16, pdm_sat_table->ant_num);
++	ODM_SetBBReg(pDM_Odm, 0xc08 , BIT31, 0); /*increase ant num every FAT period 0:+1, 1+2*/
++	ODM_SetBBReg(pDM_Odm, 0x8c4 , BIT2|BIT1, 1); /*change cca antenna timming threshold if no CCA occurred: 0:200ms / 1:100ms / 2:no use / 3: 300*/
++	ODM_SetBBReg(pDM_Odm, 0x8c4 , BIT0, 1); /*FAT_watchdog_en*/
++	
++	value32 = ODM_GetMACReg(pDM_Odm,  0x7B4, bMaskDWord);
++	ODM_SetMACReg(pDM_Odm, 0x7b4, bMaskDWord, value32|(BIT16|BIT17));	/*Reg7B4[16]=1 enable antenna training */
++																		/*Reg7B4[17]=1 enable  match MAC Addr*/
++	ODM_SetMACReg(pDM_Odm, 0x7b4, 0xFFFF, 0);/*Match MAC ADDR*/
++	ODM_SetMACReg(pDM_Odm, 0x7b0, bMaskDWord, 0);
++
++}
++#endif
++
++VOID
++odm_TRX_HWAntDiv_Init_8821A(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8821A AntDiv_Init => AntDivType=[ CG_TRX_HW_ANTDIV (DPDT)] \n"));
++
++	//Output Pin Settings
++	ODM_SetMACReg(pDM_Odm, 0x4C , BIT25, 0);
++
++	ODM_SetMACReg(pDM_Odm, 0x64 , BIT29, 1); //PAPE by WLAN control
++	ODM_SetMACReg(pDM_Odm, 0x64 , BIT28, 1); //LNAON by WLAN control
++
++	ODM_SetBBReg(pDM_Odm, 0xCB0 , bMaskDWord, 0x77775745);
++	ODM_SetBBReg(pDM_Odm, 0xCB8 , BIT16, 0);
++	
++	ODM_SetMACReg(pDM_Odm, 0x4C , BIT23, 0); //select DPDT_P and DPDT_N as output pin
++	ODM_SetMACReg(pDM_Odm, 0x4C , BIT24, 1); //by WLAN control
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , 0xF, 8); // DPDT_P = ANTSEL[0]
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , 0xF0, 8); // DPDT_N = ANTSEL[0]
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT29, 0); //DPDT_P non-inverse
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT28, 1); //DPDT_N inverse
++
++	//Mapping Table
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskByte0, 0);
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskByte1, 1);
++
++	//OFDM HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0x8D4 , 0x7FF, 0xA0); //thershold
++	ODM_SetBBReg(pDM_Odm, 0x8D4 , 0x7FF000, 0x10); //bias
++		
++	//CCK HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0xA74 , BIT7, 1); //patch for clk from 88M to 80M
++	ODM_SetBBReg(pDM_Odm, 0xA0C , BIT4, 1); //do 64 samples
++
++	ODM_SetBBReg(pDM_Odm, 0x800 , BIT25, 0); //ANTSEL_CCK sent to the smart_antenna circuit
++	ODM_SetBBReg(pDM_Odm, 0xA00 , BIT15, 0); //CCK AntDiv function block enable
++
++	//BT Coexistence
++	ODM_SetBBReg(pDM_Odm, 0xCAC , BIT9, 1); //keep antsel_map when GNT_BT = 1
++	ODM_SetBBReg(pDM_Odm, 0x804 , BIT4, 1); //Disable hw antsw & fast_train.antsw when GNT_BT=1
++
++	//Timming issue
++	ODM_SetBBReg(pDM_Odm, 0x818 , BIT23|BIT22|BIT21|BIT20, 8); /*keep antidx after tx for ACK ( unit x 3.2 mu sec)*/
++	ODM_SetBBReg(pDM_Odm, 0x8CC , BIT20|BIT19|BIT18, 3); //settling time of antdiv by RF LNA = 100ns
++
++	//response TX ant by RX ant
++	ODM_SetMACReg(pDM_Odm, 0x668 , BIT3, 1);
++			
++}
++
++VOID
++odm_S0S1_SWAntDiv_Init_8821A(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T		pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8821A AntDiv_Init => AntDivType=[ S0S1_SW_AntDiv]\n"));
++
++	//Output Pin Settings
++	ODM_SetMACReg(pDM_Odm, 0x4C , BIT25, 0);
++
++	ODM_SetMACReg(pDM_Odm, 0x64 , BIT29, 1); //PAPE by WLAN control
++	ODM_SetMACReg(pDM_Odm, 0x64 , BIT28, 1); //LNAON by WLAN control
++
++	ODM_SetBBReg(pDM_Odm, 0xCB0 , bMaskDWord, 0x77775745);
++	ODM_SetBBReg(pDM_Odm, 0xCB8 , BIT16, 0);
++	
++	ODM_SetMACReg(pDM_Odm, 0x4C , BIT23, 0); //select DPDT_P and DPDT_N as output pin
++	ODM_SetMACReg(pDM_Odm, 0x4C , BIT24, 1); //by WLAN control
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , 0xF, 8); // DPDT_P = ANTSEL[0]
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , 0xF0, 8); // DPDT_N = ANTSEL[0]
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT29, 0); //DPDT_P non-inverse
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT28, 1); //DPDT_N inverse
++
++	//Mapping Table
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskByte0, 0);
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskByte1, 1);
++
++	//OFDM HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0x8D4 , 0x7FF, 0xA0); //thershold
++	ODM_SetBBReg(pDM_Odm, 0x8D4 , 0x7FF000, 0x10); //bias
++		
++	//CCK HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0xA74 , BIT7, 1); //patch for clk from 88M to 80M
++	ODM_SetBBReg(pDM_Odm, 0xA0C , BIT4, 1); //do 64 samples
++
++	ODM_SetBBReg(pDM_Odm, 0x800 , BIT25, 0); //ANTSEL_CCK sent to the smart_antenna circuit
++	ODM_SetBBReg(pDM_Odm, 0xA00 , BIT15, 0); //CCK AntDiv function block enable
++
++	//BT Coexistence
++	ODM_SetBBReg(pDM_Odm, 0xCAC , BIT9, 1); //keep antsel_map when GNT_BT = 1
++	ODM_SetBBReg(pDM_Odm, 0x804 , BIT4, 1); //Disable hw antsw & fast_train.antsw when GNT_BT=1
++
++	//Timming issue
++	ODM_SetBBReg(pDM_Odm, 0x818 , BIT23|BIT22|BIT21|BIT20, 8); /*keep antidx after tx for ACK ( unit x 3.2 mu sec)*/
++	ODM_SetBBReg(pDM_Odm, 0x8CC , BIT20|BIT19|BIT18, 3); //settling time of antdiv by RF LNA = 100ns
++
++	//response TX ant by RX ant
++	ODM_SetMACReg(pDM_Odm, 0x668 , BIT3, 1);
++
++
++	ODM_SetBBReg(pDM_Odm, 0x900 , BIT18, 0); 
++	
++	pDM_SWAT_Table->try_flag = SWAW_STEP_INIT;	
++	pDM_SWAT_Table->Double_chk_flag = 0;
++	pDM_SWAT_Table->CurAntenna = MAIN_ANT;
++	pDM_SWAT_Table->PreAntenna = MAIN_ANT;
++	pDM_SWAT_Table->SWAS_NoLink_State = 0;
++
++}
++#endif //#if (RTL8821A_SUPPORT == 1)
++
++#if (RTL8881A_SUPPORT == 1)
++VOID
++odm_RX_HWAntDiv_Init_8881A(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8881A AntDiv_Init => AntDivType=[ CGCS_RX_HW_ANTDIV] \n"));
++
++}
++
++VOID
++odm_TRX_HWAntDiv_Init_8881A(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8881A AntDiv_Init => AntDivType=[ CG_TRX_HW_ANTDIV (SPDT)] \n"));
++
++	//Output Pin Settings
++	// [SPDT related]
++	ODM_SetMACReg(pDM_Odm, 0x4C , BIT25, 0);
++	ODM_SetMACReg(pDM_Odm, 0x4C , BIT26, 0);
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT31, 0); //delay buffer
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT22, 0); 
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT24, 1);
++	ODM_SetBBReg(pDM_Odm, 0xCB0 , 0xF00, 8); // DPDT_P = ANTSEL[0]
++	ODM_SetBBReg(pDM_Odm, 0xCB0 , 0xF0000, 8); // DPDT_N = ANTSEL[0]	
++	
++	//Mapping Table
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskByte0, 0);
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskByte1, 1);
++
++	//OFDM HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0x8D4 , 0x7FF, 0xA0); //thershold
++	ODM_SetBBReg(pDM_Odm, 0x8D4 , 0x7FF000, 0x0); //bias
++	ODM_SetBBReg(pDM_Odm, 0x8CC , BIT20|BIT19|BIT18, 3); //settling time of antdiv by RF LNA = 100ns
++	
++	//CCK HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0xA74 , BIT7, 1); //patch for clk from 88M to 80M
++	ODM_SetBBReg(pDM_Odm, 0xA0C , BIT4, 1); //do 64 samples
++
++	//Timming issue
++	ODM_SetBBReg(pDM_Odm, 0x818 , BIT23|BIT22|BIT21|BIT20, 8); /*keep antidx after tx for ACK ( unit x 3.2 mu sec)*/
++
++	//2 [--For HW Bug Setting]
++
++	ODM_SetBBReg(pDM_Odm, 0x900 , BIT18, 0); //TX Ant  by Reg //  A-cut bug
++}
++
++#endif //#if (RTL8881A_SUPPORT == 1)
++
++
++#if (RTL8812A_SUPPORT == 1)
++VOID
++odm_TRX_HWAntDiv_Init_8812A(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8812A AntDiv_Init => AntDivType=[ CG_TRX_HW_ANTDIV (SPDT)] \n"));
++
++	//3 //3 --RFE pin setting---------
++	//[BB]
++	ODM_SetBBReg(pDM_Odm, 0x900 , BIT10|BIT9|BIT8, 0x0);	  //disable SW switch
++	ODM_SetBBReg(pDM_Odm, 0x900 , BIT17|BIT16, 0x0);	 
++	ODM_SetBBReg(pDM_Odm, 0x974 , BIT7|BIT6, 0x3);     // in/out
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT31, 0); //delay buffer
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT26, 0); 
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT27, 1);
++	ODM_SetBBReg(pDM_Odm, 0xCB0 , 0xF000000, 8); // DPDT_P = ANTSEL[0]
++	ODM_SetBBReg(pDM_Odm, 0xCB0 , 0xF0000000, 8); // DPDT_N = ANTSEL[0]
++	//3 -------------------------
++
++	//Mapping Table
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskByte0, 0);
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskByte1, 1);
++
++	//OFDM HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0x8D4 , 0x7FF, 0xA0); //thershold
++	ODM_SetBBReg(pDM_Odm, 0x8D4 , 0x7FF000, 0x0); //bias
++	ODM_SetBBReg(pDM_Odm, 0x8CC , BIT20|BIT19|BIT18, 3); //settling time of antdiv by RF LNA = 100ns
++	
++	//CCK HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0xA74 , BIT7, 1); //patch for clk from 88M to 80M
++	ODM_SetBBReg(pDM_Odm, 0xA0C , BIT4, 1); //do 64 samples
++
++	//Timming issue
++	ODM_SetBBReg(pDM_Odm, 0x818 , BIT23|BIT22|BIT21|BIT20, 8); /*keep antidx after tx for ACK ( unit x 3.2 mu sec)*/
++
++	//2 [--For HW Bug Setting]
++
++	ODM_SetBBReg(pDM_Odm, 0x900 , BIT18, 0); //TX Ant  by Reg //  A-cut bug
++	
++}
++
++#endif //#if (RTL8812A_SUPPORT == 1)
++
++#if (RTL8188F_SUPPORT == 1)
++VOID
++odm_S0S1_SWAntDiv_Init_8188F(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T		pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	pFAT_T		pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8188F AntDiv_Init => AntDivType=[ S0S1_SW_AntDiv]\n"));
++
++
++	/*GPIO Setting*/
++	/*ODM_SetMACReg(pDM_Odm, 0x64 , BIT18, 0); */
++	/*ODM_SetMACReg(pDM_Odm, 0x44 , BIT28|BIT27, 0);*/
++	ODM_SetMACReg(pDM_Odm, 0x44 , BIT20|BIT19, 0x3);	/*enable_output for P_GPIO[4:3]*/
++	/*ODM_SetMACReg(pDM_Odm, 0x44 , BIT12|BIT11, 0);*/ /*output value*/
++	/*ODM_SetMACReg(pDM_Odm, 0x40 , BIT1|BIT0, 0);*/		/*GPIO function*/
++
++	pDM_FatTable->bBecomeLinked  = FALSE;
++	pDM_SWAT_Table->try_flag = SWAW_STEP_INIT;	
++	pDM_SWAT_Table->Double_chk_flag = 0;
++}
++
++VOID
++phydm_update_rx_idle_antenna_8188F(
++	IN	PVOID	pDM_VOID,
++	IN	u4Byte	default_ant
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte		codeword;
++
++	if (default_ant == ANT1_2G)
++		codeword = 1; /*2'b01*/
++	else
++		codeword = 2;/*2'b10*/
++	
++	ODM_SetMACReg(pDM_Odm, 0x44 , (BIT12|BIT11), codeword); /*GPIO[4:3] output value*/
++}
++
++#endif
++
++
++
++#ifdef ODM_EVM_ENHANCE_ANTDIV
++
++VOID
++odm_EVM_FastAnt_Reset(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++		
++	pDM_FatTable->EVM_method_enable=0;
++	odm_AntDiv_on_off(pDM_Odm, ANTDIV_ON);
++	pDM_FatTable->FAT_State = NORMAL_STATE_MIAN;
++	pDM_Odm->antdiv_period=0;
++	ODM_SetMACReg(pDM_Odm, 0x608, BIT8, 0);
++}
++
++
++VOID
++odm_EVM_Enhance_AntDiv(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte	Main_RSSI, Aux_RSSI ;
++	u4Byte	Main_CRC_utility=0,Aux_CRC_utility=0,utility_ratio=1;
++	u4Byte	Main_EVM, Aux_EVM,Diff_RSSI=0,diff_EVM=0;	
++	u1Byte	score_EVM=0,score_CRC=0;
++	u1Byte	rssi_larger_ant = 0;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++	u4Byte	value32, i;
++	BOOLEAN Main_above1=FALSE,Aux_above1=FALSE;
++	BOOLEAN Force_antenna=FALSE;
++	PSTA_INFO_T   	pEntry;
++	pDM_FatTable->TargetAnt_enhance=0xFF;
++	
++	
++	if((pDM_Odm->SupportICType & ODM_EVM_ENHANCE_ANTDIV_SUPPORT_IC))
++	{
++		if(pDM_Odm->bOneEntryOnly)
++		{
++			//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[One Client only] \n"));
++			i = pDM_Odm->OneEntry_MACID;
++
++			Main_RSSI = (pDM_FatTable->MainAnt_Cnt[i]!=0)?(pDM_FatTable->MainAnt_Sum[i]/pDM_FatTable->MainAnt_Cnt[i]):0;
++			Aux_RSSI = (pDM_FatTable->AuxAnt_Cnt[i]!=0)?(pDM_FatTable->AuxAnt_Sum[i]/pDM_FatTable->AuxAnt_Cnt[i]):0;
++
++			if((Main_RSSI==0 && Aux_RSSI !=0 && Aux_RSSI>=FORCE_RSSI_DIFF) || (Main_RSSI!=0 && Aux_RSSI==0 && Main_RSSI>=FORCE_RSSI_DIFF))
++			{
++				Diff_RSSI=FORCE_RSSI_DIFF;
++			}
++			else if(Main_RSSI!=0 && Aux_RSSI !=0)
++			{
++				Diff_RSSI = (Main_RSSI>=Aux_RSSI)?(Main_RSSI-Aux_RSSI):(Aux_RSSI-Main_RSSI); 
++			}
++			
++			if (Main_RSSI >= Aux_RSSI)
++				rssi_larger_ant = MAIN_ANT;
++			else
++				rssi_larger_ant = AUX_ANT;
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, (" Main_Cnt = (( %d ))  , Main_RSSI= ((  %d ))\n", pDM_FatTable->MainAnt_Cnt[i], Main_RSSI));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, (" Aux_Cnt   = (( %d ))  , Aux_RSSI = ((  %d ))\n", pDM_FatTable->AuxAnt_Cnt[i], Aux_RSSI));
++						
++			if(  ((Main_RSSI>=Evm_RSSI_TH_High||Aux_RSSI>=Evm_RSSI_TH_High )|| (pDM_FatTable->EVM_method_enable==1)  )
++				//&& (Diff_RSSI <= FORCE_RSSI_DIFF + 1)
++                                    )
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[> TH_H || EVM_method_enable==1]  && "));
++				
++				if(((Main_RSSI>=Evm_RSSI_TH_Low)||(Aux_RSSI>=Evm_RSSI_TH_Low) ))
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[> TH_L ] \n"));
++
++					//2 [ Normal state Main]
++					if(pDM_FatTable->FAT_State == NORMAL_STATE_MIAN)
++					{
++
++						pDM_FatTable->EVM_method_enable=1;
++						odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++						pDM_Odm->antdiv_period = pDM_Odm->evm_antdiv_period;
++
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ start training: MIAN] \n"));
++						pDM_FatTable->MainAntEVM_Sum[i] = 0;
++						pDM_FatTable->AuxAntEVM_Sum[i] = 0;
++						pDM_FatTable->MainAntEVM_Cnt[i] = 0;
++						pDM_FatTable->AuxAntEVM_Cnt[i] = 0;
++
++						pDM_FatTable->FAT_State = NORMAL_STATE_AUX;
++						ODM_SetMACReg(pDM_Odm, 0x608, BIT8, 1); //Accept CRC32 Error packets.
++						ODM_UpdateRxIdleAnt(pDM_Odm, MAIN_ANT);
++						
++						pDM_FatTable->CRC32_Ok_Cnt=0;
++						pDM_FatTable->CRC32_Fail_Cnt=0;
++						ODM_SetTimer(pDM_Odm,&pDM_Odm->EVM_FastAntTrainingTimer, pDM_Odm->antdiv_intvl ); //m
++					}
++					//2 [ Normal state Aux ]
++					else if(pDM_FatTable->FAT_State == NORMAL_STATE_AUX)
++					{
++						pDM_FatTable->MainCRC32_Ok_Cnt=pDM_FatTable->CRC32_Ok_Cnt;
++						pDM_FatTable->MainCRC32_Fail_Cnt=pDM_FatTable->CRC32_Fail_Cnt;
++						
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ start training: AUX] \n"));
++						pDM_FatTable->FAT_State = TRAINING_STATE;
++						ODM_UpdateRxIdleAnt(pDM_Odm, AUX_ANT);
++
++						pDM_FatTable->CRC32_Ok_Cnt=0;
++						pDM_FatTable->CRC32_Fail_Cnt=0;
++						ODM_SetTimer(pDM_Odm,&pDM_Odm->EVM_FastAntTrainingTimer, pDM_Odm->antdiv_intvl ); //ms
++					}					
++					else if(pDM_FatTable->FAT_State == TRAINING_STATE)
++					{
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Training state ] \n"));
++						pDM_FatTable->FAT_State = NORMAL_STATE_MIAN;
++						
++						//3 [CRC32 statistic]
++						pDM_FatTable->AuxCRC32_Ok_Cnt=pDM_FatTable->CRC32_Ok_Cnt;
++						pDM_FatTable->AuxCRC32_Fail_Cnt=pDM_FatTable->CRC32_Fail_Cnt;
++
++						if ((pDM_FatTable->MainCRC32_Ok_Cnt > ((pDM_FatTable->AuxCRC32_Ok_Cnt)<<1)) || ((Diff_RSSI >= 20) && (rssi_larger_ant == MAIN_ANT))) {
++							pDM_FatTable->TargetAnt_CRC32=MAIN_ANT;
++							Force_antenna=TRUE;
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("CRC32 Force Main\n"));
++						} else if ((pDM_FatTable->AuxCRC32_Ok_Cnt > ((pDM_FatTable->MainCRC32_Ok_Cnt)<<1)) || ((Diff_RSSI >= 20) && (rssi_larger_ant == AUX_ANT))) {
++							pDM_FatTable->TargetAnt_CRC32=AUX_ANT;
++							Force_antenna=TRUE;
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("CRC32 Force Aux\n"));
++						}
++						else
++						{
++							if(pDM_FatTable->MainCRC32_Fail_Cnt<=5)
++								pDM_FatTable->MainCRC32_Fail_Cnt=5;
++							
++							if(pDM_FatTable->AuxCRC32_Fail_Cnt<=5)
++								pDM_FatTable->AuxCRC32_Fail_Cnt=5;
++						
++							if(pDM_FatTable->MainCRC32_Ok_Cnt >pDM_FatTable->MainCRC32_Fail_Cnt )
++								Main_above1=TRUE;
++						
++							if(pDM_FatTable->AuxCRC32_Ok_Cnt >pDM_FatTable->AuxCRC32_Fail_Cnt )
++								Aux_above1=TRUE;
++
++							if(Main_above1==TRUE && Aux_above1==FALSE)
++							{
++								Force_antenna=TRUE;
++								pDM_FatTable->TargetAnt_CRC32=MAIN_ANT;
++							}
++							else if(Main_above1==FALSE && Aux_above1==TRUE)
++							{
++								Force_antenna=TRUE;
++								pDM_FatTable->TargetAnt_CRC32=AUX_ANT;
++							}
++							else if(Main_above1==TRUE && Aux_above1==TRUE)
++							{
++								Main_CRC_utility=((pDM_FatTable->MainCRC32_Ok_Cnt)<<7)/pDM_FatTable->MainCRC32_Fail_Cnt;
++								Aux_CRC_utility=((pDM_FatTable->AuxCRC32_Ok_Cnt)<<7)/pDM_FatTable->AuxCRC32_Fail_Cnt;
++								pDM_FatTable->TargetAnt_CRC32 = (Main_CRC_utility==Aux_CRC_utility)?(pDM_FatTable->pre_TargetAnt_enhance):((Main_CRC_utility>=Aux_CRC_utility)?MAIN_ANT:AUX_ANT);
++								
++								if(Main_CRC_utility!=0 && Aux_CRC_utility!=0)
++								{
++									if(Main_CRC_utility>=Aux_CRC_utility)
++										utility_ratio=(Main_CRC_utility<<1)/Aux_CRC_utility;
++									else
++										utility_ratio=(Aux_CRC_utility<<1)/Main_CRC_utility;
++								}
++							}
++							else if(Main_above1==FALSE && Aux_above1==FALSE)
++							{
++								if(pDM_FatTable->MainCRC32_Ok_Cnt==0)
++									pDM_FatTable->MainCRC32_Ok_Cnt=1;
++								if(pDM_FatTable->AuxCRC32_Ok_Cnt==0)
++									pDM_FatTable->AuxCRC32_Ok_Cnt=1;
++								
++								Main_CRC_utility=((pDM_FatTable->MainCRC32_Fail_Cnt)<<7)/pDM_FatTable->MainCRC32_Ok_Cnt;
++								Aux_CRC_utility=((pDM_FatTable->AuxCRC32_Fail_Cnt)<<7)/pDM_FatTable->AuxCRC32_Ok_Cnt;
++								pDM_FatTable->TargetAnt_CRC32 = (Main_CRC_utility==Aux_CRC_utility)?(pDM_FatTable->pre_TargetAnt_enhance):((Main_CRC_utility<=Aux_CRC_utility)?MAIN_ANT:AUX_ANT);	
++
++								if(Main_CRC_utility!=0 && Aux_CRC_utility!=0)
++								{
++									if(Main_CRC_utility>=Aux_CRC_utility)
++										utility_ratio=(Main_CRC_utility<<1)/(Aux_CRC_utility);
++									else
++										utility_ratio=(Aux_CRC_utility<<1)/(Main_CRC_utility);
++								}
++							}
++						}
++						ODM_SetMACReg(pDM_Odm, 0x608, BIT8, 0);//NOT Accept CRC32 Error packets.
++
++						//3 [EVM statistic]			
++						Main_EVM = (pDM_FatTable->MainAntEVM_Cnt[i]!=0)?(pDM_FatTable->MainAntEVM_Sum[i]/pDM_FatTable->MainAntEVM_Cnt[i]):0;
++						Aux_EVM = (pDM_FatTable->AuxAntEVM_Cnt[i]!=0)?(pDM_FatTable->AuxAntEVM_Sum[i]/pDM_FatTable->AuxAntEVM_Cnt[i]):0;
++						pDM_FatTable->TargetAnt_EVM = (Main_EVM==Aux_EVM)?(pDM_FatTable->pre_TargetAnt_enhance):((Main_EVM>=Aux_EVM)?MAIN_ANT:AUX_ANT);
++
++						if((Main_EVM==0 || Aux_EVM==0))
++							diff_EVM=0;
++						else if(Main_EVM>=Aux_EVM)
++							diff_EVM=Main_EVM-Aux_EVM;
++						else
++							diff_EVM=Aux_EVM-Main_EVM;
++
++						//2 [ Decision state ]					
++						if (pDM_FatTable->TargetAnt_EVM == pDM_FatTable->TargetAnt_CRC32) {
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Decision Type 1, CRC_utility = ((%d)), EVM_diff = ((%d))\n", utility_ratio, diff_EVM));
++							
++							if ((utility_ratio < 2 && Force_antenna == FALSE) && diff_EVM <= 30)
++								pDM_FatTable->TargetAnt_enhance = pDM_FatTable->pre_TargetAnt_enhance;
++							else
++								pDM_FatTable->TargetAnt_enhance = pDM_FatTable->TargetAnt_EVM;
++						} else if ((diff_EVM <= 50 && (utility_ratio > 4 && Force_antenna == FALSE)) || (Force_antenna == TRUE)) {
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Decision Type 2, CRC_utility = ((%d)), EVM_diff = ((%d))\n", utility_ratio, diff_EVM));
++							pDM_FatTable->TargetAnt_enhance = pDM_FatTable->TargetAnt_CRC32;
++						} else if (diff_EVM >= 100) {
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Decision Type 3, CRC_utility = ((%d)), EVM_diff = ((%d))\n", utility_ratio, diff_EVM));
++							pDM_FatTable->TargetAnt_enhance = pDM_FatTable->TargetAnt_EVM;
++						} else if (utility_ratio >= 6 && Force_antenna == FALSE) {
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Decision Type 4, CRC_utility = ((%d)), EVM_diff = ((%d))\n", utility_ratio, diff_EVM));
++							pDM_FatTable->TargetAnt_enhance = pDM_FatTable->TargetAnt_CRC32;
++						} else {
++						
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Decision Type 5, CRC_utility = ((%d)), EVM_diff = ((%d))\n", utility_ratio, diff_EVM));
++						
++							if (Force_antenna == TRUE)
++								score_CRC = 3;
++							else if (utility_ratio >= 3) /*>0.5*/
++								score_CRC = 2;
++							else if (utility_ratio >= 2) /*>1*/
++								score_CRC = 1;
++							else
++								score_CRC = 0;
++							
++							if (diff_EVM >= 100)
++								score_EVM = 2;
++							else if (diff_EVM  >= 50)
++								score_EVM = 1;
++							else
++								score_EVM = 0;
++
++							if (score_CRC > score_EVM)
++								pDM_FatTable->TargetAnt_enhance = pDM_FatTable->TargetAnt_CRC32;
++							else if (score_CRC < score_EVM)
++								pDM_FatTable->TargetAnt_enhance = pDM_FatTable->TargetAnt_EVM;
++							else
++								pDM_FatTable->TargetAnt_enhance = pDM_FatTable->pre_TargetAnt_enhance;
++				}
++				pDM_FatTable->pre_TargetAnt_enhance=pDM_FatTable->TargetAnt_enhance;
++
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Client[ %d ] : MainEVM_Cnt = (( %d ))  , Main_EVM= ((  %d )) \n",i, pDM_FatTable->MainAntEVM_Cnt[i], Main_EVM));
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Client[ %d ] : AuxEVM_Cnt   = (( %d ))  , Aux_EVM = ((  %d )) \n" ,i, pDM_FatTable->AuxAntEVM_Cnt[i] , Aux_EVM));
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** TargetAnt_EVM = (( %s ))\n", ( pDM_FatTable->TargetAnt_EVM  ==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("M_CRC_Ok = (( %d ))  , M_CRC_Fail = ((  %d )), Main_CRC_utility = (( %d )) \n" , pDM_FatTable->MainCRC32_Ok_Cnt, pDM_FatTable->MainCRC32_Fail_Cnt,Main_CRC_utility));
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("A_CRC_Ok  = (( %d ))  , A_CRC_Fail = ((  %d )), Aux_CRC_utility   = ((  %d )) \n" , pDM_FatTable->AuxCRC32_Ok_Cnt, pDM_FatTable->AuxCRC32_Fail_Cnt,Aux_CRC_utility));
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** TargetAnt_CRC32 = (( %s ))\n", ( pDM_FatTable->TargetAnt_CRC32 ==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("****** TargetAnt_enhance = (( %s ))******\n", ( pDM_FatTable->TargetAnt_enhance ==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++				
++					
++					}
++				}
++				else // RSSI< = Evm_RSSI_TH_Low
++				{ 
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ <TH_L: escape from > TH_L ] \n"));
++					odm_EVM_FastAnt_Reset(pDM_Odm);
++				}
++			}
++			else 
++			{ 
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[escape from> TH_H || EVM_method_enable==1] \n"));
++				odm_EVM_FastAnt_Reset(pDM_Odm);
++			}
++		}
++		else
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[multi-Client] \n"));
++			odm_EVM_FastAnt_Reset(pDM_Odm);
++		}			
++	}
++}
++
++VOID
++odm_EVM_FastAntTrainingCallback(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("******odm_EVM_FastAntTrainingCallback****** \n"));
++	odm_HW_AntDiv(pDM_Odm);
++}
++#endif
++
++VOID
++odm_HW_AntDiv(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte	i,MinMaxRSSI=0xFF,  AntDivMaxRSSI=0, MaxRSSI=0, LocalMaxRSSI;
++	u4Byte	Main_RSSI, Aux_RSSI;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;	
++	u1Byte	RxIdleAnt = pDM_FatTable->RxIdleAnt, TargetAnt = 7;
++	pDIG_T	pDM_DigTable = &pDM_Odm->DM_DigTable;
++	PSTA_INFO_T   	pEntry;
++
++	#if (BEAMFORMING_SUPPORT == 1)
++	#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++	pBDC_T    pDM_BdcTable = &pDM_Odm->DM_BdcTable;
++	u4Byte	TH1=500000;
++	u4Byte	TH2=10000000; 
++	u4Byte	MA_rx_Temp, degrade_TP_temp, improve_TP_temp;
++	u1Byte	Monitor_RSSI_threshold=30;
++
++	pDM_BdcTable->BF_pass=TRUE;
++	pDM_BdcTable->DIV_pass=TRUE;
++	pDM_BdcTable->bAll_DivSta_Idle=TRUE;
++	pDM_BdcTable->bAll_BFSta_Idle=TRUE;
++	pDM_BdcTable->num_BfTar=0 ;
++	pDM_BdcTable->num_DivTar=0;
++	pDM_BdcTable->num_Client=0;
++	#endif
++	#endif
++
++	if(!pDM_Odm->bLinked) //bLinked==False
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[No Link!!!]\n"));
++		
++		if(pDM_FatTable->bBecomeLinked == TRUE)
++		{
++			odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++			ODM_UpdateRxIdleAnt(pDM_Odm, MAIN_ANT);
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++			pDM_Odm->antdiv_period=0;
++
++			pDM_FatTable->bBecomeLinked = pDM_Odm->bLinked;
++		}
++		return;
++	}	
++	else
++	{
++		if(pDM_FatTable->bBecomeLinked ==FALSE)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Linked !!!]\n"));
++			odm_AntDiv_on_off(pDM_Odm, ANTDIV_ON);
++			/*odm_Tx_By_TxDesc_or_Reg(pDM_Odm , TX_BY_DESC);*/
++			
++			//if(pDM_Odm->SupportICType == ODM_RTL8821 )
++				//ODM_SetBBReg(pDM_Odm, 0x800 , BIT25, 0); //CCK AntDiv function disable
++				
++			//#if(DM_ODM_SUPPORT_TYPE  == ODM_AP)
++			//else if(pDM_Odm->SupportICType == ODM_RTL8881A)
++			//	ODM_SetBBReg(pDM_Odm, 0x800 , BIT25, 0); //CCK AntDiv function disable
++			//#endif
++			
++			//else if(pDM_Odm->SupportICType == ODM_RTL8723B ||pDM_Odm->SupportICType == ODM_RTL8812)
++				//ODM_SetBBReg(pDM_Odm, 0xA00 , BIT15, 0); //CCK AntDiv function disable
++			
++			pDM_FatTable->bBecomeLinked = pDM_Odm->bLinked;
++
++			if(pDM_Odm->SupportICType==ODM_RTL8723B && pDM_Odm->AntDivType == CG_TRX_HW_ANTDIV)
++			{
++				ODM_SetBBReg(pDM_Odm, 0x930 , 0xF0, 8); // DPDT_P = ANTSEL[0]   // for 8723B AntDiv function patch.  BB  Dino  130412	
++				ODM_SetBBReg(pDM_Odm, 0x930 , 0xF, 8); // DPDT_N = ANTSEL[0]
++			}
++			
++			//2 BDC Init
++			#if (BEAMFORMING_SUPPORT == 1)
++			#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++				odm_BDC_Init(pDM_Odm);
++			#endif
++			#endif
++			
++			#ifdef ODM_EVM_ENHANCE_ANTDIV
++				odm_EVM_FastAnt_Reset(pDM_Odm);
++			#endif
++		}	
++	}	
++
++	if (*(pDM_FatTable->pForceTxAntByDesc) == FALSE) {
++		if (pDM_Odm->bOneEntryOnly == TRUE)
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++		else
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_DESC);
++	}
++		
++
++	//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("\n AntDiv Start =>\n"));
++
++	#ifdef ODM_EVM_ENHANCE_ANTDIV
++	if(pDM_Odm->antdiv_evm_en==1)
++	{
++		odm_EVM_Enhance_AntDiv(pDM_Odm);
++		if(pDM_FatTable->FAT_State !=NORMAL_STATE_MIAN)
++			return;
++	}
++	else
++	{
++		odm_EVM_FastAnt_Reset(pDM_Odm);
++	}
++	#endif
++	
++	//2 BDC Mode Arbitration
++	#if (BEAMFORMING_SUPPORT == 1)
++	#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++	if(pDM_Odm->antdiv_evm_en == 0 ||pDM_FatTable->EVM_method_enable==0)
++	{
++		odm_BF_AntDiv_ModeArbitration(pDM_Odm);
++	}
++	#endif
++	#endif
++
++	for (i=0; i<ODM_ASSOCIATE_ENTRY_NUM; i++)
++	{
++		pEntry = pDM_Odm->pODM_StaInfo[i];
++		if(IS_STA_VALID(pEntry))
++		{
++			//2 Caculate RSSI per Antenna
++			Main_RSSI = (pDM_FatTable->MainAnt_Cnt[i]!=0)?(pDM_FatTable->MainAnt_Sum[i]/pDM_FatTable->MainAnt_Cnt[i]):0;
++			Aux_RSSI = (pDM_FatTable->AuxAnt_Cnt[i]!=0)?(pDM_FatTable->AuxAnt_Sum[i]/pDM_FatTable->AuxAnt_Cnt[i]):0;
++			TargetAnt = (Main_RSSI==Aux_RSSI)?pDM_FatTable->RxIdleAnt:((Main_RSSI>=Aux_RSSI)?MAIN_ANT:AUX_ANT);
++		
++			//ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("*** SupportICType=[%d] \n",pDM_Odm->SupportICType));
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Client[ %d ] : Main_Cnt = (( %d ))  , Main_RSSI= ((  %d )) \n",i, pDM_FatTable->MainAnt_Cnt[i], Main_RSSI));
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Client[ %d ] : Aux_Cnt   = (( %d ))  , Aux_RSSI = ((  %d )) \n" ,i, pDM_FatTable->AuxAnt_Cnt[i] , Aux_RSSI));
++			//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** MAC ID:[ %d ] , TargetAnt = (( %s )) \n", i ,( TargetAnt ==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++			//ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("*** Phy_AntSel_A=[ %d, %d, %d] \n",((pDM_Odm->DM_FatTable.antsel_rx_keep_0)&BIT2)>>2,
++			//	                                                                              ((pDM_Odm->DM_FatTable.antsel_rx_keep_0)&BIT1) >>1, ((pDM_Odm->DM_FatTable.antsel_rx_keep_0)&BIT0)));
++
++			LocalMaxRSSI = (Main_RSSI>Aux_RSSI)?Main_RSSI:Aux_RSSI;
++			//2 Select MaxRSSI for DIG
++			if((LocalMaxRSSI > AntDivMaxRSSI) && (LocalMaxRSSI < 40))
++				AntDivMaxRSSI = LocalMaxRSSI;
++			if(LocalMaxRSSI > MaxRSSI)
++				MaxRSSI = LocalMaxRSSI;
++
++			//2 Select RX Idle Antenna
++			if ( (LocalMaxRSSI != 0) &&  (LocalMaxRSSI < MinMaxRSSI) )
++			{
++				RxIdleAnt = TargetAnt;
++				MinMaxRSSI = LocalMaxRSSI;
++			}
++
++			#ifdef ODM_EVM_ENHANCE_ANTDIV
++			if(pDM_Odm->antdiv_evm_en==1)
++			{
++				if(pDM_FatTable->TargetAnt_enhance!=0xFF)
++				{
++					TargetAnt=pDM_FatTable->TargetAnt_enhance;
++					RxIdleAnt = pDM_FatTable->TargetAnt_enhance;
++				}
++			}
++			#endif
++
++			//2 Select TX Antenna
++			if(pDM_Odm->AntDivType != CGCS_RX_HW_ANTDIV)
++			{
++				#if (BEAMFORMING_SUPPORT == 1)
++				#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++					if(pDM_BdcTable->w_BFee_Client[i]==0)
++				#endif	
++				#endif
++					{
++						odm_UpdateTxAnt(pDM_Odm, TargetAnt, i);
++					}
++			}
++
++			//------------------------------------------------------------
++
++			#if (BEAMFORMING_SUPPORT == 1)
++			#if(DM_ODM_SUPPORT_TYPE  == ODM_AP) 
++
++			pDM_BdcTable->num_Client++;
++
++			if(pDM_BdcTable->BDC_Mode==BDC_MODE_2 ||pDM_BdcTable->BDC_Mode==BDC_MODE_3)
++			{
++				//2 Byte Counter
++
++				MA_rx_Temp=  (pEntry->rx_byte_cnt_LowMAW)<<3 ; //  RX  TP   ( bit /sec)
++				
++				if(pDM_BdcTable->BDC_state==BDC_BFer_TRAIN_STATE)
++				{
++					pDM_BdcTable->MA_rx_TP_DIV[i]=  MA_rx_Temp ;
++				}
++				else
++				{
++					pDM_BdcTable->MA_rx_TP[i] =MA_rx_Temp ;
++				}
++
++				if( (MA_rx_Temp < TH2)   &&  (MA_rx_Temp > TH1) && (LocalMaxRSSI<=Monitor_RSSI_threshold))
++				{
++					if(pDM_BdcTable->w_BFer_Client[i]==1) // Bfer_Target
++					{
++						pDM_BdcTable->num_BfTar++;
++						
++						if(pDM_BdcTable->BDC_state==BDC_DECISION_STATE && pDM_BdcTable->BDC_Try_flag==0)
++						{
++						        improve_TP_temp = (pDM_BdcTable->MA_rx_TP_DIV[i] * 9)>>3 ; //* 1.125
++					        	pDM_BdcTable->BF_pass = (pDM_BdcTable->MA_rx_TP[i] > improve_TP_temp)?TRUE:FALSE;
++							ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Client[ %d ] :  { MA_rx_TP,improve_TP_temp , MA_rx_TP_DIV,  BF_pass}={ %d,  %d, %d , %d }  \n" ,i,pDM_BdcTable->MA_rx_TP[i],improve_TP_temp,pDM_BdcTable->MA_rx_TP_DIV[i], pDM_BdcTable->BF_pass ));
++						}		
++					}		
++					else// DIV_Target
++					{
++						pDM_BdcTable->num_DivTar++;
++						
++						if(pDM_BdcTable->BDC_state==BDC_DECISION_STATE && pDM_BdcTable->BDC_Try_flag==0)
++						{
++					        	degrade_TP_temp=(pDM_BdcTable->MA_rx_TP_DIV[i]*5)>>3;//* 0.625
++					        	pDM_BdcTable->DIV_pass = (pDM_BdcTable->MA_rx_TP[i] >degrade_TP_temp)?TRUE:FALSE;
++							ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Client[ %d ] :  { MA_rx_TP, degrade_TP_temp , MA_rx_TP_DIV,  DIV_pass}=\n{ %d,  %d, %d , %d }  \n" ,i,pDM_BdcTable->MA_rx_TP[i],degrade_TP_temp,pDM_BdcTable->MA_rx_TP_DIV[i], pDM_BdcTable->DIV_pass ));
++						}							
++					}
++				}
++
++				if(MA_rx_Temp > TH1)
++				{
++					if(pDM_BdcTable->w_BFer_Client[i]==1) // Bfer_Target
++					{
++						pDM_BdcTable->bAll_BFSta_Idle=FALSE;
++					}		
++					else// DIV_Target
++					{
++						pDM_BdcTable->bAll_DivSta_Idle=FALSE;
++					}
++				}
++		
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Client[ %d ] :  { BFmeeCap , BFmerCap}  = { %d , %d } \n" ,i, pDM_BdcTable->w_BFee_Client[i] , pDM_BdcTable->w_BFer_Client[i]));
++
++				if(pDM_BdcTable->BDC_state==BDC_BFer_TRAIN_STATE)
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Client[ %d ] :    MA_rx_TP_DIV = (( %d ))  \n",i,pDM_BdcTable->MA_rx_TP_DIV[i]  ));
++					
++				}
++				else
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Client[ %d ] :    MA_rx_TP = (( %d ))  \n",i,pDM_BdcTable->MA_rx_TP[i]  ));
++				}
++			
++			}
++			#endif
++			#endif
++
++		}
++
++		#if (BEAMFORMING_SUPPORT == 1)
++		#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++		if(pDM_BdcTable->BDC_Try_flag==0)
++		#endif
++		#endif	
++		{
++        		pDM_FatTable->MainAnt_Sum[i] = 0;
++        		pDM_FatTable->AuxAnt_Sum[i] = 0;
++        		pDM_FatTable->MainAnt_Cnt[i] = 0;
++         		pDM_FatTable->AuxAnt_Cnt[i] = 0;
++                }
++	}
++       
++
++	
++	//2 Set RX Idle Antenna & TX Antenna(Because of HW Bug )	
++	#if(DM_ODM_SUPPORT_TYPE  == ODM_AP ) 
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** RxIdleAnt = (( %s ))\n\n", ( RxIdleAnt ==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++		
++		#if (BEAMFORMING_SUPPORT == 1)
++		#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++			if(pDM_BdcTable->BDC_Mode==BDC_MODE_1 ||pDM_BdcTable->BDC_Mode==BDC_MODE_3)
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** BDC_RxIdleUpdate_counter = (( %d ))\n", pDM_BdcTable->BDC_RxIdleUpdate_counter));
++			
++				if(pDM_BdcTable->BDC_RxIdleUpdate_counter==1)
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***Update RxIdle Antenna!!! \n"));
++					pDM_BdcTable->BDC_RxIdleUpdate_counter=30;
++					ODM_UpdateRxIdleAnt(pDM_Odm, RxIdleAnt);
++				}
++				else
++				{
++					pDM_BdcTable->BDC_RxIdleUpdate_counter--;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***NOT update RxIdle Antenna because of BF  ( need to fix TX-ant)\n"));
++				}
++			}
++			else
++		#endif
++		#endif	
++				ODM_UpdateRxIdleAnt(pDM_Odm, RxIdleAnt);
++	#else
++	
++		ODM_UpdateRxIdleAnt(pDM_Odm, RxIdleAnt);
++	
++	#endif//#if(DM_ODM_SUPPORT_TYPE  == ODM_AP)
++
++
++
++	//2 BDC Main Algorithm
++	#if (BEAMFORMING_SUPPORT == 1)
++	#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++	if(pDM_Odm->antdiv_evm_en ==0 ||pDM_FatTable->EVM_method_enable==0)
++	{
++		odm_BDCcoex_BFeeRxDiv_Arbitration(pDM_Odm);
++	}
++	#endif
++	#endif
++
++	if(AntDivMaxRSSI == 0)
++		pDM_DigTable->AntDiv_RSSI_max = pDM_Odm->RSSI_Min;
++	else
++		pDM_DigTable->AntDiv_RSSI_max = AntDivMaxRSSI;
++	
++	pDM_DigTable->RSSI_max = MaxRSSI;
++}
++
++
++
++#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++
++VOID
++odm_S0S1_SWAntDiv_Reset(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T		pDM_SWAT_Table	= &pDM_Odm->DM_SWAT_Table;
++	pFAT_T		pDM_FatTable		= &pDM_Odm->DM_FatTable;
++
++	pDM_FatTable->bBecomeLinked  = FALSE;
++	pDM_SWAT_Table->try_flag = SWAW_STEP_INIT;	
++	pDM_SWAT_Table->Double_chk_flag = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("odm_S0S1_SWAntDiv_Reset(): pDM_FatTable->bBecomeLinked = %d\n", pDM_FatTable->bBecomeLinked));
++}
++
++VOID
++odm_S0S1_SwAntDiv(
++	IN		PVOID			pDM_VOID,	
++	IN		u1Byte			Step
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T			pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;	
++	u4Byte			i, MinMaxRSSI = 0xFF, LocalMaxRSSI, LocalMinRSSI;
++	u4Byte			Main_RSSI, Aux_RSSI;
++	u1Byte			HighTraffic_TrainTime_U = 0x32, HighTraffic_TrainTime_L = 0, Train_time_temp;
++	u1Byte			LowTraffic_TrainTime_U = 200, LowTraffic_TrainTime_L = 0;
++	u1Byte			RxIdleAnt = pDM_SWAT_Table->PreAntenna, TargetAnt, nextAnt = 0;
++	PSTA_INFO_T		pEntry = NULL;
++	u4Byte			value32;
++
++	
++	if(!pDM_Odm->bLinked) //bLinked==False
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[No Link!!!]\n"));
++		if(pDM_FatTable->bBecomeLinked == TRUE)
++		{
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++			if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Set REG 948[9:6]=0x0\n"));
++				ODM_SetBBReg(pDM_Odm, 0x948 , (BIT9|BIT8|BIT7|BIT6), 0x0); 
++			}
++			pDM_FatTable->bBecomeLinked = pDM_Odm->bLinked;
++		}
++		return;
++	}
++	else
++	{
++		if(pDM_FatTable->bBecomeLinked ==FALSE)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Linked !!!]\n"));
++			
++			if(pDM_Odm->SupportICType == ODM_RTL8723B)
++			{
++				value32 = ODM_GetBBReg(pDM_Odm, 0x864, BIT5|BIT4|BIT3);
++
++				#if (RTL8723B_SUPPORT == 1)
++					if (value32 == 0x0)
++						ODM_UpdateRxIdleAnt_8723B(pDM_Odm, MAIN_ANT, ANT1_2G, ANT2_2G);
++					else if (value32 == 0x1)
++						ODM_UpdateRxIdleAnt_8723B(pDM_Odm, AUX_ANT, ANT2_2G, ANT1_2G);
++				#endif
++				
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("8723B: First link! Force antenna to  %s\n",(value32 == 0x0?"MAIN":"AUX") ));
++			}			
++			pDM_FatTable->bBecomeLinked = pDM_Odm->bLinked;
++		}
++	}
++
++	if (*(pDM_FatTable->pForceTxAntByDesc) == FALSE) {
++		if (pDM_Odm->bOneEntryOnly == TRUE)
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++		else
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_DESC);
++	}
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[%d] { try_flag=(( %d )), Step=(( %d )), Double_chk_flag = (( %d )) }\n",
++		__LINE__,pDM_SWAT_Table->try_flag,Step,pDM_SWAT_Table->Double_chk_flag));
++
++	// Handling step mismatch condition.
++	// Peak step is not finished at last time. Recover the variable and check again.
++	if(	Step != pDM_SWAT_Table->try_flag	)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Step != try_flag]    Need to Reset After Link\n"));
++		ODM_SwAntDivRestAfterLink(pDM_Odm);
++	}
++
++	if (pDM_SWAT_Table->try_flag == SWAW_STEP_INIT) {
++		
++		pDM_SWAT_Table->try_flag = SWAW_STEP_PEEK;
++		pDM_SWAT_Table->Train_time_flag=0;
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[set try_flag = 0]  Prepare for peek!\n\n"));
++		return;
++		
++	} else {
++	
++		//1 Normal State (Begin Trying)
++		if (pDM_SWAT_Table->try_flag == SWAW_STEP_PEEK) {
++		
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("TxOkCnt=(( %llu )), RxOkCnt=(( %llu )), TrafficLoad = (%d))\n", pDM_Odm->curTxOkCnt, pDM_Odm->curRxOkCnt, pDM_Odm->TrafficLoad));
++			
++			if (pDM_Odm->TrafficLoad == TRAFFIC_HIGH)
++			{
++				Train_time_temp = pDM_SWAT_Table->Train_time ;
++				
++				if(pDM_SWAT_Table->Train_time_flag==3)
++				{
++					HighTraffic_TrainTime_L=0xa;
++					
++					if(Train_time_temp<=16)
++						Train_time_temp=HighTraffic_TrainTime_L;
++					else
++						Train_time_temp-=16;
++					
++				}				
++				else if(pDM_SWAT_Table->Train_time_flag==2)
++				{
++					Train_time_temp-=8;
++					HighTraffic_TrainTime_L=0xf;
++				}	
++				else if(pDM_SWAT_Table->Train_time_flag==1)
++				{
++					Train_time_temp-=4;
++					HighTraffic_TrainTime_L=0x1e;
++				}
++				else if(pDM_SWAT_Table->Train_time_flag==0)
++				{
++					Train_time_temp+=8;
++					HighTraffic_TrainTime_L=0x28;
++				}
++
++				
++				//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Train_time_temp = ((%d))\n",Train_time_temp));
++
++				//--
++				if(Train_time_temp > HighTraffic_TrainTime_U)
++					Train_time_temp=HighTraffic_TrainTime_U;
++				
++				else if(Train_time_temp < HighTraffic_TrainTime_L)
++					Train_time_temp=HighTraffic_TrainTime_L;
++
++				pDM_SWAT_Table->Train_time = Train_time_temp; /*10ms~200ms*/
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Train_time_flag=((%d)), Train_time=((%d))\n", pDM_SWAT_Table->Train_time_flag, pDM_SWAT_Table->Train_time));
++
++			} else if ((pDM_Odm->TrafficLoad == TRAFFIC_MID) || (pDM_Odm->TrafficLoad == TRAFFIC_LOW)) { 
++			
++				Train_time_temp=pDM_SWAT_Table->Train_time ;
++				
++				if(pDM_SWAT_Table->Train_time_flag==3)
++				{
++					LowTraffic_TrainTime_L=10;
++					if(Train_time_temp<50)
++						Train_time_temp=LowTraffic_TrainTime_L;
++					else
++						Train_time_temp-=50;
++				}				
++				else if(pDM_SWAT_Table->Train_time_flag==2)
++				{
++					Train_time_temp-=30;
++					LowTraffic_TrainTime_L=36;
++				}	
++				else if(pDM_SWAT_Table->Train_time_flag==1)
++				{
++					Train_time_temp-=10;
++					LowTraffic_TrainTime_L=40;
++				} else {
++				
++					Train_time_temp += 10;
++					LowTraffic_TrainTime_L = 50;
++				}
++				
++				//--
++				if(Train_time_temp >= LowTraffic_TrainTime_U)
++					Train_time_temp=LowTraffic_TrainTime_U;
++				
++				else if(Train_time_temp <= LowTraffic_TrainTime_L)
++					Train_time_temp=LowTraffic_TrainTime_L;
++
++				pDM_SWAT_Table->Train_time = Train_time_temp; /*10ms~200ms*/
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Train_time_flag=((%d)) , Train_time=((%d))\n", pDM_SWAT_Table->Train_time_flag, pDM_SWAT_Table->Train_time));
++
++			} else {
++				pDM_SWAT_Table->Train_time = 0xc8; /*200ms*/
++
++			}
++				
++			//-----------------
++		
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Current MinMaxRSSI is ((%d))\n", pDM_FatTable->MinMaxRSSI));
++
++                        //---reset index---
++			if (pDM_SWAT_Table->reset_idx >= RSSI_CHECK_RESET_PERIOD) {
++				
++				pDM_FatTable->MinMaxRSSI = 0;
++				pDM_SWAT_Table->reset_idx = 0;
++			}
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("reset_idx = (( %d ))\n", pDM_SWAT_Table->reset_idx));
++
++			pDM_SWAT_Table->reset_idx++;
++
++			//---double check flag---
++			if ((pDM_FatTable->MinMaxRSSI > RSSI_CHECK_THRESHOLD) && (pDM_SWAT_Table->Double_chk_flag == 0))
++			{			
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, (" MinMaxRSSI is ((%d)), and > %d\n",
++					pDM_FatTable->MinMaxRSSI, RSSI_CHECK_THRESHOLD));
++
++				pDM_SWAT_Table->Double_chk_flag =1;
++				pDM_SWAT_Table->try_flag = SWAW_STEP_DETERMINE; 
++				pDM_SWAT_Table->RSSI_Trying = 0;
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Test the current Ant for (( %d )) ms again\n", pDM_SWAT_Table->Train_time));
++				ODM_UpdateRxIdleAnt(pDM_Odm, pDM_FatTable->RxIdleAnt);
++				ODM_SetTimer(pDM_Odm, &(pDM_SWAT_Table->phydm_SwAntennaSwitchTimer), pDM_SWAT_Table->Train_time); /*ms*/	
++				return;
++			}
++			
++			nextAnt = (pDM_FatTable->RxIdleAnt == MAIN_ANT)? AUX_ANT : MAIN_ANT;
++
++			pDM_SWAT_Table->try_flag = SWAW_STEP_DETERMINE;
++			
++			if(pDM_SWAT_Table->reset_idx<=1)
++				pDM_SWAT_Table->RSSI_Trying = 2;
++			else
++				pDM_SWAT_Table->RSSI_Trying = 1;
++
++			odm_S0S1_SwAntDivByCtrlFrame(pDM_Odm, SWAW_STEP_PEEK);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[set try_flag=1]  Normal State:  Begin Trying!!\n"));	
++			
++		} else if ((pDM_SWAT_Table->try_flag == SWAW_STEP_DETERMINE) && (pDM_SWAT_Table->Double_chk_flag == 0)) {
++			
++			nextAnt = (pDM_FatTable->RxIdleAnt  == MAIN_ANT)? AUX_ANT : MAIN_ANT;		
++			pDM_SWAT_Table->RSSI_Trying--;
++		}
++		
++		//1 Decision State
++		if ((pDM_SWAT_Table->try_flag == SWAW_STEP_DETERMINE) && (pDM_SWAT_Table->RSSI_Trying == 0)) {
++			
++			BOOLEAN bByCtrlFrame = FALSE;
++			u8Byte	pkt_cnt_total = 0;
++		
++			for (i=0; i<ODM_ASSOCIATE_ENTRY_NUM; i++)
++			{
++				pEntry = pDM_Odm->pODM_StaInfo[i];
++				if(IS_STA_VALID(pEntry))
++				{
++					//2 Caculate RSSI per Antenna
++					Main_RSSI = (pDM_FatTable->MainAnt_Cnt[i]!=0)?(pDM_FatTable->MainAnt_Sum[i]/pDM_FatTable->MainAnt_Cnt[i]):0;
++					Aux_RSSI = (pDM_FatTable->AuxAnt_Cnt[i]!=0)?(pDM_FatTable->AuxAnt_Sum[i]/pDM_FatTable->AuxAnt_Cnt[i]):0;
++					
++					if(pDM_FatTable->MainAnt_Cnt[i]<=1 && pDM_FatTable->CCK_counter_main>=1)
++						Main_RSSI=0;	
++					
++					if(pDM_FatTable->AuxAnt_Cnt[i]<=1 && pDM_FatTable->CCK_counter_aux>=1)
++						Aux_RSSI=0;
++					
++					TargetAnt = (Main_RSSI==Aux_RSSI)?pDM_SWAT_Table->PreAntenna:((Main_RSSI>=Aux_RSSI)?MAIN_ANT:AUX_ANT);
++					LocalMaxRSSI = (Main_RSSI>=Aux_RSSI) ? Main_RSSI : Aux_RSSI;
++					LocalMinRSSI = (Main_RSSI>=Aux_RSSI) ? Aux_RSSI : Main_RSSI;
++					
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***  CCK_counter_main = (( %d ))  , CCK_counter_aux= ((  %d )) \n", pDM_FatTable->CCK_counter_main, pDM_FatTable->CCK_counter_aux));
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***  OFDM_counter_main = (( %d ))  , OFDM_counter_aux= ((  %d )) \n", pDM_FatTable->OFDM_counter_main, pDM_FatTable->OFDM_counter_aux));
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***  Main_Cnt = (( %d ))  , Main_RSSI= ((  %d )) \n", pDM_FatTable->MainAnt_Cnt[i], Main_RSSI));
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***  Aux_Cnt   = (( %d ))  , Aux_RSSI = ((  %d )) \n", pDM_FatTable->AuxAnt_Cnt[i]  , Aux_RSSI ));
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** MAC ID:[ %d ] , TargetAnt = (( %s )) \n", i ,( TargetAnt ==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++					
++					//2 Select RX Idle Antenna
++					
++					if (LocalMaxRSSI != 0 && LocalMaxRSSI < MinMaxRSSI)
++					{
++						RxIdleAnt = TargetAnt;
++						MinMaxRSSI = LocalMaxRSSI;
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** LocalMaxRSSI-LocalMinRSSI = ((%d))\n",(LocalMaxRSSI-LocalMinRSSI)));
++				
++						if((LocalMaxRSSI-LocalMinRSSI)>8)
++						{
++							if(LocalMinRSSI != 0)
++								pDM_SWAT_Table->Train_time_flag=3;
++							else
++							{
++								if (MinMaxRSSI > RSSI_CHECK_THRESHOLD)
++									pDM_SWAT_Table->Train_time_flag=0;
++								else
++									pDM_SWAT_Table->Train_time_flag=3;
++							}
++						}
++						else if((LocalMaxRSSI-LocalMinRSSI)>5)
++							pDM_SWAT_Table->Train_time_flag=2;
++						else if((LocalMaxRSSI-LocalMinRSSI)>2)
++							pDM_SWAT_Table->Train_time_flag=1;
++						else
++							pDM_SWAT_Table->Train_time_flag=0;
++							
++					}
++					
++					//2 Select TX Antenna
++					if(TargetAnt == MAIN_ANT)
++						pDM_FatTable->antsel_a[i] = ANT1_2G;
++					else
++						pDM_FatTable->antsel_a[i] = ANT2_2G;
++			
++				}
++				pDM_FatTable->MainAnt_Sum[i] = 0;
++				pDM_FatTable->AuxAnt_Sum[i] = 0;
++				pDM_FatTable->MainAnt_Cnt[i] = 0;
++				pDM_FatTable->AuxAnt_Cnt[i] = 0;
++			}
++
++			if(pDM_SWAT_Table->bSWAntDivByCtrlFrame)
++			{
++				odm_S0S1_SwAntDivByCtrlFrame(pDM_Odm, SWAW_STEP_DETERMINE);
++				bByCtrlFrame = TRUE;
++			}
++
++			pkt_cnt_total = pDM_FatTable->CCK_counter_main + pDM_FatTable->CCK_counter_aux + 
++							pDM_FatTable->OFDM_counter_main + pDM_FatTable->OFDM_counter_aux;
++			pDM_FatTable->CCK_counter_main=0;
++			pDM_FatTable->CCK_counter_aux=0;
++			pDM_FatTable->OFDM_counter_main=0;
++			pDM_FatTable->OFDM_counter_aux=0;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("Control frame packet counter = %d, Data frame packet counter = %llu\n", 
++				pDM_SWAT_Table->PktCnt_SWAntDivByCtrlFrame, pkt_cnt_total));
++			
++			if(MinMaxRSSI == 0xff || ((pkt_cnt_total < (pDM_SWAT_Table->PktCnt_SWAntDivByCtrlFrame >> 1)) && pDM_Odm->PhyDbgInfo.NumQryBeaconPkt < 2))
++			{	
++				MinMaxRSSI = 0;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("Check RSSI of control frame because MinMaxRSSI == 0xff\n"));
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("bByCtrlFrame = %d\n", bByCtrlFrame));
++				
++				if(bByCtrlFrame)
++				{
++					Main_RSSI = (pDM_FatTable->MainAnt_CtrlFrame_Cnt!=0)?(pDM_FatTable->MainAnt_CtrlFrame_Sum/pDM_FatTable->MainAnt_CtrlFrame_Cnt):0;
++					Aux_RSSI = (pDM_FatTable->AuxAnt_CtrlFrame_Cnt!=0)?(pDM_FatTable->AuxAnt_CtrlFrame_Sum/pDM_FatTable->AuxAnt_CtrlFrame_Cnt):0;
++					
++					if(pDM_FatTable->MainAnt_CtrlFrame_Cnt<=1 && pDM_FatTable->CCK_CtrlFrame_Cnt_main>=1)
++						Main_RSSI=0;	
++					
++					if(pDM_FatTable->AuxAnt_CtrlFrame_Cnt<=1 && pDM_FatTable->CCK_CtrlFrame_Cnt_aux>=1)
++						Aux_RSSI=0;
++
++					if (Main_RSSI != 0 || Aux_RSSI != 0)
++					{
++						RxIdleAnt = (Main_RSSI==Aux_RSSI)?pDM_SWAT_Table->PreAntenna:((Main_RSSI>=Aux_RSSI)?MAIN_ANT:AUX_ANT);
++						LocalMaxRSSI = (Main_RSSI>=Aux_RSSI) ? Main_RSSI : Aux_RSSI;
++						LocalMinRSSI = (Main_RSSI>=Aux_RSSI) ? Aux_RSSI : Main_RSSI;
++
++						if((LocalMaxRSSI-LocalMinRSSI)>8)
++							pDM_SWAT_Table->Train_time_flag=3;
++						else if((LocalMaxRSSI-LocalMinRSSI)>5)
++							pDM_SWAT_Table->Train_time_flag=2;
++						else if((LocalMaxRSSI-LocalMinRSSI)>2)
++							pDM_SWAT_Table->Train_time_flag=1;
++						else
++							pDM_SWAT_Table->Train_time_flag=0;
++
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("Control frame: Main_RSSI = %d, Aux_RSSI = %d\n", Main_RSSI, Aux_RSSI));
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("RxIdleAnt decided by control frame = %s\n", (RxIdleAnt == MAIN_ANT?"MAIN":"AUX")));
++					}
++				}
++			}
++
++			pDM_FatTable->MinMaxRSSI = MinMaxRSSI;
++			pDM_SWAT_Table->try_flag = SWAW_STEP_PEEK;
++						
++			if( pDM_SWAT_Table->Double_chk_flag==1)
++			{
++				pDM_SWAT_Table->Double_chk_flag=0;
++				
++				if (pDM_FatTable->MinMaxRSSI > RSSI_CHECK_THRESHOLD) {
++					
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, (" [Double check] MinMaxRSSI ((%d)) > %d again!!\n",
++						pDM_FatTable->MinMaxRSSI, RSSI_CHECK_THRESHOLD));
++					
++					ODM_UpdateRxIdleAnt(pDM_Odm, RxIdleAnt);	
++					
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[reset try_flag = 0] Training accomplished !!!]\n\n\n"));
++					return;
++				}
++				else
++				{
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, (" [Double check] MinMaxRSSI ((%d)) <= %d !!\n",
++						pDM_FatTable->MinMaxRSSI, RSSI_CHECK_THRESHOLD));
++
++					nextAnt = (pDM_FatTable->RxIdleAnt  == MAIN_ANT)? AUX_ANT : MAIN_ANT;
++					pDM_SWAT_Table->try_flag = SWAW_STEP_PEEK; 
++					pDM_SWAT_Table->reset_idx = RSSI_CHECK_RESET_PERIOD;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[set try_flag=0]  Normal State:  Need to tryg again!!\n\n\n"));
++					return;
++				}
++			}
++			else
++			{
++				if (pDM_FatTable->MinMaxRSSI < RSSI_CHECK_THRESHOLD)
++					pDM_SWAT_Table->reset_idx = RSSI_CHECK_RESET_PERIOD;
++				
++				pDM_SWAT_Table->PreAntenna =RxIdleAnt;
++				ODM_UpdateRxIdleAnt(pDM_Odm, RxIdleAnt );
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("[reset try_flag = 0] Training accomplished !!!] \n\n\n"));
++				return;
++			}
++			
++		}
++
++	}
++
++	//1 4.Change TRX antenna
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("RSSI_Trying = (( %d )),    Ant: (( %s )) >>> (( %s )) \n",
++		pDM_SWAT_Table->RSSI_Trying, (pDM_FatTable->RxIdleAnt  == MAIN_ANT?"MAIN":"AUX"),(nextAnt == MAIN_ANT?"MAIN":"AUX")));
++		
++	ODM_UpdateRxIdleAnt(pDM_Odm, nextAnt);
++
++	//1 5.Reset Statistics
++
++	pDM_FatTable->RxIdleAnt  = nextAnt;
++
++	//1 6.Set next timer   (Trying State)
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, (" Test ((%s)) Ant for (( %d )) ms\n", (nextAnt == MAIN_ANT?"MAIN":"AUX"), pDM_SWAT_Table->Train_time));
++	ODM_SetTimer(pDM_Odm, &(pDM_SWAT_Table->phydm_SwAntennaSwitchTimer), pDM_SWAT_Table->Train_time); /*ms*/
++}
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++ODM_SW_AntDiv_Callback(
++	PRT_TIMER		pTimer
++)
++{
++	PADAPTER		Adapter = (PADAPTER)pTimer->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	pSWAT_T			pDM_SWAT_Table = &pHalData->DM_OutSrc.DM_SWAT_Table;
++
++	#if DEV_BUS_TYPE==RT_PCI_INTERFACE
++		#if USE_WORKITEM
++			ODM_ScheduleWorkItem(&pDM_SWAT_Table->phydm_SwAntennaSwitchWorkitem);
++		#else
++			{
++			//DbgPrint("SW_antdiv_Callback");
++			odm_S0S1_SwAntDiv(&pHalData->DM_OutSrc, SWAW_STEP_DETERMINE);
++			}
++		#endif
++	#else
++	ODM_ScheduleWorkItem(&pDM_SWAT_Table->phydm_SwAntennaSwitchWorkitem);
++	#endif
++}
++VOID
++ODM_SW_AntDiv_WorkitemCallback(
++    IN PVOID            pContext
++    )
++{
++	PADAPTER		pAdapter = (PADAPTER)pContext;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	
++	//DbgPrint("SW_antdiv_Workitem_Callback");
++	odm_S0S1_SwAntDiv(&pHalData->DM_OutSrc, SWAW_STEP_DETERMINE);
++}
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++VOID
++ODM_SW_AntDiv_WorkitemCallback(
++	IN PVOID	pContext
++)
++{
++	PADAPTER
++	pAdapter = (PADAPTER)pContext;
++	HAL_DATA_TYPE
++	*pHalData = GET_HAL_DATA(pAdapter);
++
++	/*DbgPrint("SW_antdiv_Workitem_Callback");*/
++	odm_S0S1_SwAntDiv(&pHalData->odmpriv, SWAW_STEP_DETERMINE);
++}
++
++VOID
++ODM_SW_AntDiv_Callback(void *FunctionContext)
++{
++	PDM_ODM_T	pDM_Odm= (PDM_ODM_T)FunctionContext;
++	PADAPTER	padapter = pDM_Odm->Adapter;
++	if(padapter->net_closed == _TRUE)
++		return;
++	
++	#if 0 /* Can't do I/O in timer callback*/
++	odm_S0S1_SwAntDiv(pDM_Odm, SWAW_STEP_DETERMINE);
++	#else
++	rtw_run_in_thread_cmd(padapter, ODM_SW_AntDiv_WorkitemCallback, padapter);
++	#endif
++}
++
++
++#endif
++
++VOID
++odm_S0S1_SwAntDivByCtrlFrame(
++	IN		PVOID			pDM_VOID,	
++	IN		u1Byte			Step
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T	pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	pFAT_T		pDM_FatTable = &pDM_Odm->DM_FatTable;
++	
++	switch(Step)
++	{
++		case SWAW_STEP_PEEK:
++			pDM_SWAT_Table->PktCnt_SWAntDivByCtrlFrame = 0;
++			pDM_SWAT_Table->bSWAntDivByCtrlFrame = TRUE;
++			pDM_FatTable->MainAnt_CtrlFrame_Cnt = 0;
++			pDM_FatTable->AuxAnt_CtrlFrame_Cnt = 0;
++			pDM_FatTable->MainAnt_CtrlFrame_Sum = 0;
++			pDM_FatTable->AuxAnt_CtrlFrame_Sum = 0;
++			pDM_FatTable->CCK_CtrlFrame_Cnt_main = 0;
++			pDM_FatTable->CCK_CtrlFrame_Cnt_aux = 0;
++			pDM_FatTable->OFDM_CtrlFrame_Cnt_main = 0;
++			pDM_FatTable->OFDM_CtrlFrame_Cnt_aux = 0;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("odm_S0S1_SwAntDivForAPMode(): Start peek and reset counter\n"));
++			break;
++		case SWAW_STEP_DETERMINE:
++			pDM_SWAT_Table->bSWAntDivByCtrlFrame = FALSE;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("odm_S0S1_SwAntDivForAPMode(): Stop peek\n"));
++			break;
++		default:
++			pDM_SWAT_Table->bSWAntDivByCtrlFrame = FALSE;
++			break;
++	}			
++}
++
++VOID
++odm_AntselStatisticsOfCtrlFrame(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			antsel_tr_mux,
++	IN		u4Byte			RxPWDBAll
++	
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	if(antsel_tr_mux == ANT1_2G)
++	{
++		pDM_FatTable->MainAnt_CtrlFrame_Sum+=RxPWDBAll;
++		pDM_FatTable->MainAnt_CtrlFrame_Cnt++;
++	}
++	else
++	{
++		pDM_FatTable->AuxAnt_CtrlFrame_Sum+=RxPWDBAll;
++		pDM_FatTable->AuxAnt_CtrlFrame_Cnt++;
++	}
++}
++
++VOID
++odm_S0S1_SwAntDivByCtrlFrame_ProcessRSSI(
++	IN		PVOID			pDM_VOID,	
++	IN		PVOID			p_phy_info_void,
++	IN		PVOID			p_pkt_info_void
++	//IN		PODM_PHY_INFO_T		pPhyInfo,
++	//IN		PODM_PACKET_INFO_T		pPktinfo
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_PHY_INFO_T	 pPhyInfo=(PODM_PHY_INFO_T)p_phy_info_void;
++	PODM_PACKET_INFO_T 	pPktinfo=(PODM_PACKET_INFO_T)p_pkt_info_void;
++	pSWAT_T	pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	pFAT_T		pDM_FatTable = &pDM_Odm->DM_FatTable;
++	BOOLEAN		isCCKrate;
++
++	if(!(pDM_Odm->SupportAbility & ODM_BB_ANT_DIV))
++		return;
++
++	if(pDM_Odm->AntDivType != S0S1_SW_ANTDIV)
++		return;
++
++	// In try state
++	if(!pDM_SWAT_Table->bSWAntDivByCtrlFrame)
++		return;
++
++	// No HW error and match receiver address
++	if(!pPktinfo->bToSelf)
++		return;
++	
++	pDM_SWAT_Table->PktCnt_SWAntDivByCtrlFrame++;
++	isCCKrate = ((pPktinfo->DataRate >= DESC_RATE1M ) && (pPktinfo->DataRate <= DESC_RATE11M ))?TRUE :FALSE;
++
++	if(isCCKrate)
++	{
++	 	pDM_FatTable->antsel_rx_keep_0 = (pDM_FatTable->RxIdleAnt == MAIN_ANT) ? ANT1_2G : ANT2_2G;
++
++		if(pDM_FatTable->antsel_rx_keep_0==ANT1_2G)
++			pDM_FatTable->CCK_CtrlFrame_Cnt_main++;
++		else
++			pDM_FatTable->CCK_CtrlFrame_Cnt_aux++;
++
++		odm_AntselStatisticsOfCtrlFrame(pDM_Odm, pDM_FatTable->antsel_rx_keep_0, pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A]);
++	}
++	else
++	{
++		if(pDM_FatTable->antsel_rx_keep_0==ANT1_2G)
++			pDM_FatTable->OFDM_CtrlFrame_Cnt_main++;
++		else
++			pDM_FatTable->OFDM_CtrlFrame_Cnt_aux++;
++
++		odm_AntselStatisticsOfCtrlFrame(pDM_Odm, pDM_FatTable->antsel_rx_keep_0, pPhyInfo->RxPWDBAll);
++	}
++}
++
++#endif //#if (RTL8723B_SUPPORT == 1)||(RTL8821A_SUPPORT == 1)
++
++
++
++
++VOID
++odm_SetNextMACAddrTarget(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	PSTA_INFO_T   	pEntry;
++	u4Byte			value32, i;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("odm_SetNextMACAddrTarget() ==>\n"));
++	
++	if (pDM_Odm->bLinked)
++	{
++		for (i = 0; i < ODM_ASSOCIATE_ENTRY_NUM; i++) {
++			
++			if ((pDM_FatTable->TrainIdx+1) == ODM_ASSOCIATE_ENTRY_NUM)
++				pDM_FatTable->TrainIdx = 0;
++			else
++				pDM_FatTable->TrainIdx++;
++			
++			pEntry = pDM_Odm->pODM_StaInfo[pDM_FatTable->TrainIdx];
++			
++			if (IS_STA_VALID(pEntry)) {
++				
++				/*Match MAC ADDR*/
++				#if (DM_ODM_SUPPORT_TYPE & (ODM_AP | ODM_CE))
++				value32 = (pEntry->hwaddr[5]<<8)|pEntry->hwaddr[4];
++				#else
++				value32 = (pEntry->MacAddr[5]<<8)|pEntry->MacAddr[4];
++				#endif
++				
++				ODM_SetMACReg(pDM_Odm, 0x7b4, 0xFFFF, value32);/*0x7b4~0x7b5*/
++				
++				#if (DM_ODM_SUPPORT_TYPE & (ODM_AP | ODM_CE))
++				value32 = (pEntry->hwaddr[3]<<24)|(pEntry->hwaddr[2]<<16) |(pEntry->hwaddr[1]<<8) |pEntry->hwaddr[0];
++				#else
++				value32 = (pEntry->MacAddr[3]<<24)|(pEntry->MacAddr[2]<<16) |(pEntry->MacAddr[1]<<8) |pEntry->MacAddr[0];
++				#endif
++				ODM_SetMACReg(pDM_Odm, 0x7b0, bMaskDWord, value32);/*0x7b0~0x7b3*/
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("pDM_FatTable->TrainIdx=%d\n", pDM_FatTable->TrainIdx));
++				
++				#if (DM_ODM_SUPPORT_TYPE & (ODM_AP | ODM_CE))
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Training MAC Addr = %x:%x:%x:%x:%x:%x\n",
++					pEntry->hwaddr[5], pEntry->hwaddr[4], pEntry->hwaddr[3], pEntry->hwaddr[2], pEntry->hwaddr[1], pEntry->hwaddr[0]));
++				#else
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Training MAC Addr = %x:%x:%x:%x:%x:%x\n",
++					pEntry->MacAddr[5], pEntry->MacAddr[4], pEntry->MacAddr[3], pEntry->MacAddr[2], pEntry->MacAddr[1], pEntry->MacAddr[0]));
++				#endif
++
++				break;
++			}
++		}
++	}
++
++#if 0
++	//
++	//2012.03.26 LukeLee: This should be removed later, the MAC address is changed according to MACID in turn
++	//
++	#if( DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	{		
++		PADAPTER	Adapter =  pDM_Odm->Adapter;
++		PMGNT_INFO	pMgntInfo = &Adapter->MgntInfo;
++
++		for (i=0; i<6; i++)
++		{
++			Bssid[i] = pMgntInfo->Bssid[i];
++			//DbgPrint("Bssid[%d]=%x\n", i, Bssid[i]);
++		}
++	}
++	#endif
++
++	//odm_SetNextMACAddrTarget(pDM_Odm);
++	
++	//1 Select MAC Address Filter
++	for (i=0; i<6; i++)
++	{
++		if(Bssid[i] != pDM_FatTable->Bssid[i])
++		{
++			bMatchBSSID = FALSE;
++			break;
++		}
++	}
++	if(bMatchBSSID == FALSE)
++	{
++		//Match MAC ADDR
++		value32 = (Bssid[5]<<8)|Bssid[4];
++		ODM_SetMACReg(pDM_Odm, 0x7b4, 0xFFFF, value32);
++		value32 = (Bssid[3]<<24)|(Bssid[2]<<16) |(Bssid[1]<<8) |Bssid[0];
++		ODM_SetMACReg(pDM_Odm, 0x7b0, bMaskDWord, value32);
++	}
++
++	return bMatchBSSID;
++#endif
++				
++}
++
++#if (defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY)) || (defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY))
++
++VOID
++odm_FastAntTraining(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	u4Byte	MaxRSSI_pathA=0, Pckcnt_pathA=0;
++	u1Byte	i,TargetAnt_pathA=0;
++	BOOLEAN	bPktFilterMacth_pathA = FALSE;
++	#if(RTL8192E_SUPPORT == 1)
++	u4Byte	MaxRSSI_pathB=0, Pckcnt_pathB=0;
++	u1Byte	TargetAnt_pathB=0;
++	BOOLEAN	bPktFilterMacth_pathB = FALSE;
++	#endif
++
++
++	if(!pDM_Odm->bLinked) //bLinked==False
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[No Link!!!]\n"));
++		
++		if(pDM_FatTable->bBecomeLinked == TRUE)
++		{
++			odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++			phydm_FastTraining_enable(pDM_Odm , FAT_OFF);
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++			pDM_FatTable->bBecomeLinked = pDM_Odm->bLinked;
++		}
++		return;
++	}
++	else
++	{
++		if(pDM_FatTable->bBecomeLinked ==FALSE)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Linked!!!]\n"));
++			pDM_FatTable->bBecomeLinked = pDM_Odm->bLinked;
++		}
++	}
++
++	if (*(pDM_FatTable->pForceTxAntByDesc) == FALSE) {
++		if (pDM_Odm->bOneEntryOnly == TRUE)
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++		else
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_DESC);
++	}
++
++		
++        if(pDM_Odm->SupportICType == ODM_RTL8188E)
++	{
++           ODM_SetBBReg(pDM_Odm, 0x864 , BIT2|BIT1|BIT0, ((pDM_Odm->fat_comb_a)-1));
++        }
++	#if(RTL8192E_SUPPORT == 1)
++        else if(pDM_Odm->SupportICType == ODM_RTL8192E)
++        {
++           ODM_SetBBReg(pDM_Odm, 0xB38 , BIT2|BIT1|BIT0, ((pDM_Odm->fat_comb_a)-1) );	   //path-A  // ant combination=regB38[2:0]+1
++	   ODM_SetBBReg(pDM_Odm, 0xB38 , BIT18|BIT17|BIT16, ((pDM_Odm->fat_comb_b)-1) );  //path-B  // ant combination=regB38[18:16]+1
++        }
++	#endif
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("==>odm_FastAntTraining()\n"));
++
++	//1 TRAINING STATE
++	if(pDM_FatTable->FAT_State == FAT_TRAINING_STATE)
++	{
++		//2 Caculate RSSI per Antenna
++
++                //3 [path-A]---------------------------
++		for (i=0; i<(pDM_Odm->fat_comb_a); i++) // i : antenna index
++		{
++			if(pDM_FatTable->antRSSIcnt[i] == 0)
++				pDM_FatTable->antAveRSSI[i] = 0;
++			else
++			{
++			pDM_FatTable->antAveRSSI[i] = pDM_FatTable->antSumRSSI[i] /pDM_FatTable->antRSSIcnt[i];
++				bPktFilterMacth_pathA = TRUE;
++			}
++			
++			if(pDM_FatTable->antAveRSSI[i] > MaxRSSI_pathA)
++			{
++				MaxRSSI_pathA = pDM_FatTable->antAveRSSI[i];
++                                Pckcnt_pathA = pDM_FatTable ->antRSSIcnt[i];
++				TargetAnt_pathA =  i ; 
++			}
++                        else if(pDM_FatTable->antAveRSSI[i] == MaxRSSI_pathA)
++			{
++				if(  (pDM_FatTable->antRSSIcnt[i] )   >   Pckcnt_pathA)
++			{
++					MaxRSSI_pathA = pDM_FatTable->antAveRSSI[i];
++					Pckcnt_pathA = pDM_FatTable ->antRSSIcnt[i];
++				        TargetAnt_pathA = i ;
++			        }
++			}
++
++			ODM_RT_TRACE("*** Ant-Index : [ %d ],      Counter = (( %d )),     Avg RSSI = (( %d )) \n", i, pDM_FatTable->antRSSIcnt[i],  pDM_FatTable->antAveRSSI[i] );
++		}
++
++
++		/*
++		#if(RTL8192E_SUPPORT == 1)
++		//3 [path-B]---------------------------
++		for (i=0; i<(pDM_Odm->fat_comb_b); i++)
++		{
++			if(pDM_FatTable->antRSSIcnt_pathB[i] == 0)
++				pDM_FatTable->antAveRSSI_pathB[i] = 0;				
++			else // (antRSSIcnt[i] != 0)
++			{
++				pDM_FatTable->antAveRSSI_pathB[i] = pDM_FatTable->antSumRSSI_pathB[i] /pDM_FatTable->antRSSIcnt_pathB[i];
++				bPktFilterMacth_pathB = TRUE;
++			}
++			if(pDM_FatTable->antAveRSSI_pathB[i] > MaxRSSI_pathB)
++			{
++				MaxRSSI_pathB = pDM_FatTable->antAveRSSI_pathB[i];
++                                Pckcnt_pathB = pDM_FatTable ->antRSSIcnt_pathB[i];
++				TargetAnt_pathB = (u1Byte) i; 
++			}
++                        if(pDM_FatTable->antAveRSSI_pathB[i] == MaxRSSI_pathB)
++			{
++				if(pDM_FatTable ->antRSSIcnt_pathB > Pckcnt_pathB)
++		{
++					MaxRSSI_pathB = pDM_FatTable->antAveRSSI_pathB[i];
++					TargetAnt_pathB = (u1Byte) i;
++				} 
++		}
++			if (pDM_Odm->fat_print_rssi==1)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***{Path-B}: Sum RSSI[%d] = (( %d )),      cnt RSSI [%d] = (( %d )),     Avg RSSI[%d] = (( %d )) \n",
++				i, pDM_FatTable->antSumRSSI_pathB[i], i, pDM_FatTable->antRSSIcnt_pathB[i], i, pDM_FatTable->antAveRSSI_pathB[i]));
++			}
++		}
++		#endif
++		*/
++
++	//1 DECISION STATE
++
++		//2 Select TRX Antenna
++
++		phydm_FastTraining_enable(pDM_Odm, FAT_OFF);
++
++		//3 [path-A]---------------------------
++		if(bPktFilterMacth_pathA  == FALSE)
++		{
++			//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("{Path-A}: None Packet is matched\n"));
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("{Path-A}: None Packet is matched\n"));
++			odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++		}
++		else
++		{
++			ODM_RT_TRACE("TargetAnt_pathA = (( %d )) , MaxRSSI_pathA = (( %d )) \n",TargetAnt_pathA,MaxRSSI_pathA);
++
++			//3 [ update RX-optional ant ]        Default RX is Omni, Optional RX is the best decision by FAT
++			if(pDM_Odm->SupportICType == ODM_RTL8188E)
++			{
++				ODM_SetBBReg(pDM_Odm, 0x864 , BIT8|BIT7|BIT6, TargetAnt_pathA);	
++			}
++			else if(pDM_Odm->SupportICType == ODM_RTL8192E)
++			{
++				ODM_SetBBReg(pDM_Odm, 0xB38 , BIT8|BIT7|BIT6, TargetAnt_pathA);//Optional RX [pth-A]
++			}
++			//3 [ update TX ant ]
++			odm_UpdateTxAnt(pDM_Odm, TargetAnt_pathA, (pDM_FatTable->TrainIdx)); 
++
++			if(TargetAnt_pathA == 0)
++				odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++		}
++		/*
++		#if(RTL8192E_SUPPORT == 1)
++		//3 [path-B]---------------------------
++		if(bPktFilterMacth_pathB == FALSE)
++		{
++			if (pDM_Odm->fat_print_rssi==1)
++			{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***[%d]{Path-B}: None Packet is matched\n\n\n",__LINE__));
++			}
++		}
++		else
++		{
++			if (pDM_Odm->fat_print_rssi==1)
++			{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, 
++				(" ***TargetAnt_pathB = (( %d )) *** MaxRSSI = (( %d ))***\n\n\n",TargetAnt_pathB,MaxRSSI_pathB));
++			}
++			ODM_SetBBReg(pDM_Odm, 0xB38 , BIT21|BIT20|BIT19, TargetAnt_pathB);	//Default RX is Omni, Optional RX is the best decision by FAT		
++			ODM_SetBBReg(pDM_Odm, 0x80c , BIT21, 1); //Reg80c[21]=1'b1		//from TX Info
++
++			pDM_FatTable->antsel_pathB[pDM_FatTable->TrainIdx] = TargetAnt_pathB;
++		}
++		#endif
++		*/
++
++		//2 Reset Counter
++		for(i=0; i<(pDM_Odm->fat_comb_a); i++)
++		{
++			pDM_FatTable->antSumRSSI[i] = 0;
++			pDM_FatTable->antRSSIcnt[i] = 0;
++		}
++		/*
++		#if(RTL8192E_SUPPORT == 1)
++		for(i=0; i<=(pDM_Odm->fat_comb_b); i++)
++		{
++			pDM_FatTable->antSumRSSI_pathB[i] = 0;
++			pDM_FatTable->antRSSIcnt_pathB[i] = 0;
++		}
++		#endif
++		*/
++		
++		pDM_FatTable->FAT_State = FAT_PREPARE_STATE;
++		return;
++	}
++
++	//1 NORMAL STATE
++	if (pDM_FatTable->FAT_State == FAT_PREPARE_STATE)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Start Prepare State ]\n"));
++
++		odm_SetNextMACAddrTarget(pDM_Odm);
++
++		//2 Prepare Training
++		pDM_FatTable->FAT_State = FAT_TRAINING_STATE;
++		phydm_FastTraining_enable(pDM_Odm , FAT_ON);
++		odm_AntDiv_on_off(pDM_Odm, ANTDIV_ON);		//enable HW AntDiv
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Start Training State]\n"));
++
++		ODM_SetTimer(pDM_Odm,&pDM_Odm->FastAntTrainingTimer, pDM_Odm->antdiv_intvl ); //ms
++	}
++		
++}
++
++VOID
++odm_FastAntTrainingCallback(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PADAPTER	padapter = pDM_Odm->Adapter;
++	if(padapter->net_closed == _TRUE)
++	    return;
++	//if(*pDM_Odm->pbNet_closed == TRUE)
++	   // return;
++#endif
++
++#if USE_WORKITEM
++	ODM_ScheduleWorkItem(&pDM_Odm->FastAntTrainingWorkitem);
++#else
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("******odm_FastAntTrainingCallback****** \n"));
++	odm_FastAntTraining(pDM_Odm);
++#endif
++}
++
++VOID
++odm_FastAntTrainingWorkItemCallback(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("******odm_FastAntTrainingWorkItemCallback****** \n"));
++	odm_FastAntTraining(pDM_Odm);
++}
++
++#endif
++
++#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++
++u4Byte
++phydm_construct_hl_beam_codeword(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*beam_pattern_idx,
++	IN		u4Byte		ant_num
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSAT_T		pdm_sat_table = &(pDM_Odm->dm_sat_table);
++	u4Byte		codeword = 0;
++	u4Byte		data_tmp;
++	u4Byte		i;
++	u4Byte		break_counter = 0;
++
++	if (ant_num < 8) {
++		for (i = 0; i < (pdm_sat_table->ant_num_total); i++) {
++			/*ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("beam_pattern_num[%x] = %x\n",i,beam_pattern_num[i] ));*/
++			if ((i < (pdm_sat_table->first_train_ant-1)) || (break_counter >= (pdm_sat_table->ant_num))) {
++				data_tmp = 0;
++				/**/
++			} else {
++
++				break_counter++;
++
++				if (beam_pattern_idx[i] == 0) {
++
++					if (*pDM_Odm->pBandType == ODM_BAND_5G)
++						data_tmp = pdm_sat_table->rfu_codeword_table_5g[0];
++					else
++						data_tmp = pdm_sat_table->rfu_codeword_table[0];
++					
++				} else if (beam_pattern_idx[i] == 1) {
++					
++					
++					if (*pDM_Odm->pBandType == ODM_BAND_5G)
++						data_tmp = pdm_sat_table->rfu_codeword_table_5g[1];
++					else
++						data_tmp = pdm_sat_table->rfu_codeword_table[1];
++					
++				} else if (beam_pattern_idx[i] == 2) {
++
++					if (*pDM_Odm->pBandType == ODM_BAND_5G)
++						data_tmp = pdm_sat_table->rfu_codeword_table_5g[2];
++					else
++						data_tmp = pdm_sat_table->rfu_codeword_table[2];
++					
++				} else if (beam_pattern_idx[i] == 3) {
++				
++					if (*pDM_Odm->pBandType == ODM_BAND_5G)
++						data_tmp = pdm_sat_table->rfu_codeword_table_5g[3];
++					else
++						data_tmp = pdm_sat_table->rfu_codeword_table[3];
++				}
++			}
++
++			
++			codeword |= (data_tmp<<(i*4));
++
++		}
++	}
++
++	return codeword;
++}
++
++VOID
++phydm_update_beam_pattern(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		codeword,
++	IN		u4Byte		codeword_length
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSAT_T			pdm_sat_table = &(pDM_Odm->dm_sat_table);
++	u1Byte			i;
++	BOOLEAN			beam_ctrl_signal;
++	u4Byte			one = 0x1;
++	u4Byte			reg44_tmp_p, reg44_tmp_n, reg44_ori;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ SmartAnt ] Set Beam Pattern =0x%x\n", codeword));
++	
++	reg44_ori = ODM_GetMACReg(pDM_Odm, 0x44, bMaskDWord);
++	/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("reg44_ori =0x%x\n", reg44_ori));*/
++	
++	for (i = 0; i <= (codeword_length-1); i++) {
++		beam_ctrl_signal = (BOOLEAN)((codeword&BIT(i)) >> i);
++
++		if (pDM_Odm->DebugComponents & ODM_COMP_ANT_DIV) {
++			
++			if (i == (codeword_length-1)) {
++				DbgPrint("%d ]\n", beam_ctrl_signal);
++				/**/
++			} else if (i == 0) {
++				DbgPrint("Send codeword[1:24] ---> [ %d ", beam_ctrl_signal);	
++				/**/
++			} else if ((i % 4) == 3) {
++				DbgPrint("%d  |  ", beam_ctrl_signal);	
++				/**/
++			} else {
++				DbgPrint("%d ", beam_ctrl_signal);
++				/**/
++			}
++		}
++		
++		#if 1
++		reg44_tmp_p = reg44_ori & (~(BIT11|BIT10)); /*clean bit 10 & 11*/
++		reg44_tmp_p |= ((1<<11) | (beam_ctrl_signal<<10));
++		reg44_tmp_n = reg44_ori & (~(BIT11|BIT10));
++
++		/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("reg44_tmp_p =(( 0x%x )), reg44_tmp_n = (( 0x%x ))\n", reg44_tmp_p, reg44_tmp_n));*/
++		ODM_SetMACReg(pDM_Odm, 0x44 , bMaskDWord, reg44_tmp_p);
++		ODM_SetMACReg(pDM_Odm, 0x44 , bMaskDWord, reg44_tmp_n); 
++		#else
++		ODM_SetMACReg(pDM_Odm, 0x44 , BIT11|BIT10, ((1<<1) | beam_ctrl_signal));
++		ODM_SetMACReg(pDM_Odm, 0x44 , BIT11, 0); 
++		#endif
++
++	}
++}
++
++VOID
++phydm_update_rx_idle_beam(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	pSAT_T			pdm_sat_table = &(pDM_Odm->dm_sat_table);
++	u4Byte			i;
++
++	pdm_sat_table->update_beam_codeword = phydm_construct_hl_beam_codeword(pDM_Odm, &(pdm_sat_table->rx_idle_beam[0]), pdm_sat_table->ant_num);
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Set target beam_pattern codeword = (( 0x%x ))\n", pdm_sat_table->update_beam_codeword));
++
++	for (i = 0; i < (pdm_sat_table->ant_num); i++) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Beam ] RxIdleBeam[%d] =%d\n", i, pdm_sat_table->rx_idle_beam[i]));
++		/**/
++	}
++	
++	#if DEV_BUS_TYPE == RT_PCI_INTERFACE
++	phydm_update_beam_pattern(pDM_Odm, pdm_sat_table->update_beam_codeword, pdm_sat_table->data_codeword_bit_num);
++	#else
++	ODM_ScheduleWorkItem(&pdm_sat_table->hl_smart_antenna_workitem);
++	/*ODM_StallExecution(1);*/
++	#endif
++	
++	pdm_sat_table->pre_codeword = pdm_sat_table->update_beam_codeword;
++}
++
++VOID
++phydm_hl_smart_ant_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char			*output,
++	IN		u4Byte		*_out_len
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSAT_T			pdm_sat_table = &(pDM_Odm->dm_sat_table);	
++	u4Byte			used = *_used;
++	u4Byte			out_len = *_out_len;
++	u4Byte			one = 0x1;
++	u4Byte			codeword_length = pdm_sat_table->data_codeword_bit_num;
++	u4Byte			beam_ctrl_signal, i;
++	
++	if (dm_value[0] == 1) { /*fix beam pattern*/
++		
++		pdm_sat_table->fix_beam_pattern_en = dm_value[1];
++		
++		if (pdm_sat_table->fix_beam_pattern_en == 1) {
++			
++			pdm_sat_table->fix_beam_pattern_codeword = dm_value[2];
++
++			if (pdm_sat_table->fix_beam_pattern_codeword  > (one<<codeword_length)) {
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ SmartAnt ] Codeword overflow, Current codeword is ((0x%x)), and should be less than ((%d))bit\n", 
++					pdm_sat_table->fix_beam_pattern_codeword, codeword_length));
++				(pdm_sat_table->fix_beam_pattern_codeword) &= 0xffffff;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ SmartAnt ] Auto modify to (0x%x)\n", pdm_sat_table->fix_beam_pattern_codeword));
++			}
++			
++			pdm_sat_table->update_beam_codeword = pdm_sat_table->fix_beam_pattern_codeword;
++
++			/*---------------------------------------------------------*/
++			PHYDM_SNPRINTF((output+used, out_len-used, "Fix Beam Pattern\n"));
++			for (i = 0; i <= (codeword_length-1); i++) {
++				beam_ctrl_signal = (BOOLEAN)((pdm_sat_table->update_beam_codeword&BIT(i)) >> i);
++				
++				if (i == (codeword_length-1)) {
++					PHYDM_SNPRINTF((output+used, out_len-used, "%d]\n", beam_ctrl_signal));
++					/**/
++				} else if (i == 0) {
++					PHYDM_SNPRINTF((output+used, out_len-used, "Send Codeword[1:24] to RFU -> [%d", beam_ctrl_signal));
++					/**/
++				} else if ((i % 4) == 3) {
++					PHYDM_SNPRINTF((output+used, out_len-used, "%d|", beam_ctrl_signal));
++					/**/
++				} else {
++					PHYDM_SNPRINTF((output+used, out_len-used, "%d", beam_ctrl_signal));
++					/**/
++				}
++			}
++			/*---------------------------------------------------------*/
++
++			
++			#if DEV_BUS_TYPE == RT_PCI_INTERFACE
++			phydm_update_beam_pattern(pDM_Odm, pdm_sat_table->update_beam_codeword, pdm_sat_table->data_codeword_bit_num);
++			#else
++			ODM_ScheduleWorkItem(&pdm_sat_table->hl_smart_antenna_workitem);
++			/*ODM_StallExecution(1);*/
++			#endif
++		} else if (pdm_sat_table->fix_beam_pattern_en == 0) {
++			PHYDM_SNPRINTF((output+used, out_len-used, "[ SmartAnt ] Smart Antenna: Enable\n"));
++		}
++		
++	} else if (dm_value[0] == 2) { /*set latch time*/
++		
++		pdm_sat_table->latch_time = dm_value[1];
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ SmartAnt ]  latch_time =0x%x\n", pdm_sat_table->latch_time));
++	} else if (dm_value[0] == 3) {
++	
++		pdm_sat_table->fix_training_num_en = dm_value[1];
++		
++		if (pdm_sat_table->fix_training_num_en == 1) {
++			pdm_sat_table->per_beam_training_pkt_num = (u1Byte)dm_value[2];
++			pdm_sat_table->decision_holding_period = (u1Byte)dm_value[3];
++			
++			PHYDM_SNPRINTF((output+used, out_len-used, "[SmartAnt][Dbg] Fix_train_en = (( %d )), train_pkt_num = (( %d )), holding_period = (( %d )),\n", 
++				pdm_sat_table->fix_training_num_en, pdm_sat_table->per_beam_training_pkt_num, pdm_sat_table->decision_holding_period));
++
++		} else if (pdm_sat_table->fix_training_num_en == 0) {
++			PHYDM_SNPRINTF((output+used, out_len-used, "[ SmartAnt ]  AUTO per_beam_training_pkt_num\n"));
++			/**/
++		}
++	} else if (dm_value[0] == 4) {
++
++		if (dm_value[1] == 1) {
++			pdm_sat_table->ant_num = 1;
++			pdm_sat_table->first_train_ant = MAIN_ANT;
++			
++		} else if (dm_value[1] == 2) {
++			pdm_sat_table->ant_num = 1;
++			pdm_sat_table->first_train_ant = AUX_ANT;
++			
++		} else if (dm_value[1] == 3) {
++			pdm_sat_table->ant_num = 2;
++			pdm_sat_table->first_train_ant = MAIN_ANT;
++		}
++
++		PHYDM_SNPRINTF((output+used, out_len-used, "[ SmartAnt ]  Set Ant Num = (( %d )), first_train_ant = (( %d ))\n", 
++			pdm_sat_table->ant_num, (pdm_sat_table->first_train_ant-1)));
++	} else if (dm_value[0] == 5) {
++
++		if (dm_value[1] <= 3) {
++			pdm_sat_table->rfu_codeword_table[dm_value[1]] = dm_value[2];
++			PHYDM_SNPRINTF((output+used, out_len-used, "[ SmartAnt ] Set Beam_2G: (( %d )), RFU codeword table = (( 0x%x ))\n", 
++					dm_value[1], dm_value[2]));
++		} else {
++			for (i = 0; i < 4; i++) {
++				PHYDM_SNPRINTF((output+used, out_len-used, "[ SmartAnt ] Show Beam_2G: (( %d )), RFU codeword table = (( 0x%x ))\n", 
++					i, pdm_sat_table->rfu_codeword_table[i]));
++			}
++		}
++	} else if (dm_value[0] == 6) {
++
++		if (dm_value[1] <= 3) {
++			pdm_sat_table->rfu_codeword_table_5g[dm_value[1]] = dm_value[2];
++			PHYDM_SNPRINTF((output+used, out_len-used, "[ SmartAnt ] Set Beam_5G: (( %d )), RFU codeword table = (( 0x%x ))\n", 
++					dm_value[1], dm_value[2]));
++		} else {
++			for (i = 0; i < 4; i++) {
++				PHYDM_SNPRINTF((output+used, out_len-used, "[ SmartAnt ] Show Beam_5G: (( %d )), RFU codeword table = (( 0x%x ))\n", 
++					i, pdm_sat_table->rfu_codeword_table_5g[i]));
++			}
++		}
++	} else if (dm_value[0] == 7) {
++
++		if (dm_value[1] <= 4) {
++			
++			pdm_sat_table->beam_patten_num_each_ant = dm_value[1];
++			PHYDM_SNPRINTF((output+used, out_len-used, "[ SmartAnt ] Set Beam number = (( %d ))\n", 
++					pdm_sat_table->beam_patten_num_each_ant));
++		} else {
++			
++			PHYDM_SNPRINTF((output+used, out_len-used, "[ SmartAnt ] Show Beam number = (( %d ))\n", 
++				pdm_sat_table->beam_patten_num_each_ant));
++		}
++	}
++		
++}
++
++
++void
++phydm_set_all_ant_same_beam_num(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSAT_T			pdm_sat_table = &(pDM_Odm->dm_sat_table);
++
++	if (pDM_Odm->AntDivType == HL_SW_SMART_ANT_TYPE1) { /*2Ant for 8821A*/
++		
++		pdm_sat_table->rx_idle_beam[0] = pdm_sat_table->fast_training_beam_num;
++		pdm_sat_table->rx_idle_beam[1] = pdm_sat_table->fast_training_beam_num;
++	}
++	
++	pdm_sat_table->update_beam_codeword = phydm_construct_hl_beam_codeword(pDM_Odm, &(pdm_sat_table->rx_idle_beam[0]), pdm_sat_table->ant_num);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ SmartAnt ] Set all ant beam_pattern: codeword = (( 0x%x ))\n", pdm_sat_table->update_beam_codeword));
++
++	#if DEV_BUS_TYPE == RT_PCI_INTERFACE
++	phydm_update_beam_pattern(pDM_Odm, pdm_sat_table->update_beam_codeword, pdm_sat_table->data_codeword_bit_num);
++	#else
++	ODM_ScheduleWorkItem(&pdm_sat_table->hl_smart_antenna_workitem);
++	/*ODM_StallExecution(1);*/
++	#endif
++}
++
++VOID
++odm_FastAntTraining_hl_smart_antenna_type1(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSAT_T		pdm_sat_table = &(pDM_Odm->dm_sat_table);
++	pFAT_T		pDM_FatTable	 = &(pDM_Odm->DM_FatTable);
++	pSWAT_T		pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	u4Byte		codeword = 0, i, j;
++	u4Byte		TargetAnt;
++	u4Byte		avg_rssi_tmp, avg_rssi_tmp_ma;
++	u4Byte		target_ant_beam_max_rssi[SUPPORT_RF_PATH_NUM] = {0};
++	u4Byte		max_beam_ant_rssi = 0;
++	u4Byte		target_ant_beam[SUPPORT_RF_PATH_NUM] = {0};
++	u4Byte		beam_tmp;
++	u1Byte		next_ant;
++	u4Byte		rssi_sorting_seq[SUPPORT_BEAM_PATTERN_NUM] = {0};
++	u4Byte		rank_idx_seq[SUPPORT_BEAM_PATTERN_NUM] = {0};
++	u4Byte		rank_idx_out[SUPPORT_BEAM_PATTERN_NUM] = {0};
++	u1Byte		per_beam_rssi_diff_tmp = 0, training_pkt_num_offset;
++	u4Byte		break_counter = 0;
++	u4Byte		used_ant;
++
++
++	if (!pDM_Odm->bLinked) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[No Link!!!]\n"));
++				
++		if (pDM_FatTable->bBecomeLinked == TRUE) {
++			
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Link -> no Link\n"));
++			pDM_FatTable->FAT_State = FAT_BEFORE_LINK_STATE;
++			odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("change to (( %d )) FAT_state\n", pDM_FatTable->FAT_State));
++			
++			pDM_FatTable->bBecomeLinked = pDM_Odm->bLinked;
++		}
++		return;
++		
++	} else {
++		if (pDM_FatTable->bBecomeLinked == FALSE) {
++			
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Linked !!!]\n"));
++			
++			pDM_FatTable->FAT_State = FAT_PREPARE_STATE;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("change to (( %d )) FAT_state\n", pDM_FatTable->FAT_State));
++			
++			/*pdm_sat_table->fast_training_beam_num = 0;*/
++			/*phydm_set_all_ant_same_beam_num(pDM_Odm);*/
++			
++			pDM_FatTable->bBecomeLinked = pDM_Odm->bLinked;
++		}
++	}
++
++	if (*(pDM_FatTable->pForceTxAntByDesc) == FALSE) {
++		if (pDM_Odm->bOneEntryOnly == TRUE)
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++		else
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_DESC);
++	}		
++
++	/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("HL Smart Ant Training: State (( %d ))\n", pDM_FatTable->FAT_State));*/
++
++	/* [DECISION STATE] */
++	/*=======================================================================================*/
++	if (pDM_FatTable->FAT_State == FAT_DECISION_STATE) {
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 3. In Decision State]\n"));
++		phydm_FastTraining_enable(pDM_Odm , FAT_OFF);
++
++		break_counter = 0;
++		/*compute target beam in each antenna*/
++		for (i = (pdm_sat_table->first_train_ant-1); i < pdm_sat_table->ant_num_total; i++) {
++			for (j = 0; j < (pdm_sat_table->beam_patten_num_each_ant); j++) {
++
++				if (pdm_sat_table->pkt_rssi_cnt[i][j] == 0) {
++					avg_rssi_tmp = pdm_sat_table->pkt_rssi_pre[i][j];
++					avg_rssi_tmp = (avg_rssi_tmp >= 2) ? (avg_rssi_tmp - 2) : avg_rssi_tmp;
++					avg_rssi_tmp_ma = avg_rssi_tmp;
++				} else {
++					avg_rssi_tmp = (pdm_sat_table->pkt_rssi_sum[i][j]) / (pdm_sat_table->pkt_rssi_cnt[i][j]);
++					avg_rssi_tmp_ma = (avg_rssi_tmp + pdm_sat_table->pkt_rssi_pre[i][j])>>1;
++				}
++
++				rssi_sorting_seq[j] = avg_rssi_tmp;
++				pdm_sat_table->pkt_rssi_pre[i][j] = avg_rssi_tmp;
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Ant[%d], Beam[%d]: pkt_cnt=(( %d )), avg_rssi_MA=(( %d )), avg_rssi=(( %d ))\n", 
++					i, j, pdm_sat_table->pkt_rssi_cnt[i][j], avg_rssi_tmp_ma, avg_rssi_tmp));
++				
++				if (avg_rssi_tmp > target_ant_beam_max_rssi[i]) {
++					target_ant_beam[i] = j;
++					target_ant_beam_max_rssi[i] = avg_rssi_tmp;
++				}
++
++				/*reset counter value*/
++				pdm_sat_table->pkt_rssi_sum[i][j] = 0;
++				pdm_sat_table->pkt_rssi_cnt[i][j] = 0;
++								
++			}
++			pdm_sat_table->rx_idle_beam[i] = target_ant_beam[i];
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("---------> Target of Ant[%d]: Beam_num-(( %d )) RSSI= ((%d))\n", 
++					i,  target_ant_beam[i], target_ant_beam_max_rssi[i]));
++
++			/*sorting*/
++			/*
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Pre]rssi_sorting_seq = [%d, %d, %d, %d]\n", rssi_sorting_seq[0], rssi_sorting_seq[1], rssi_sorting_seq[2], rssi_sorting_seq[3]));
++			*/
++
++			/*phydm_seq_sorting(pDM_Odm, &rssi_sorting_seq[0], &rank_idx_seq[0], &rank_idx_out[0], SUPPORT_BEAM_PATTERN_NUM);*/
++			
++			/*
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Post]rssi_sorting_seq = [%d, %d, %d, %d]\n", rssi_sorting_seq[0], rssi_sorting_seq[1], rssi_sorting_seq[2], rssi_sorting_seq[3]));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Post]rank_idx_seq = [%d, %d, %d, %d]\n", rank_idx_seq[0], rank_idx_seq[1], rank_idx_seq[2], rank_idx_seq[3]));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Post]rank_idx_out = [%d, %d, %d, %d]\n", rank_idx_out[0], rank_idx_out[1], rank_idx_out[2], rank_idx_out[3]));
++			*/
++
++			if (target_ant_beam_max_rssi[i] > max_beam_ant_rssi) {
++				TargetAnt = i;
++				max_beam_ant_rssi = target_ant_beam_max_rssi[i];
++				/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Target of Ant = (( %d )) max_beam_ant_rssi = (( %d ))\n", 
++					TargetAnt,  max_beam_ant_rssi));*/
++			}
++			break_counter++;
++			if (break_counter >= (pdm_sat_table->ant_num))
++				break;
++		}
++		
++		#ifdef CONFIG_FAT_PATCH
++		break_counter = 0;
++		for (i = (pdm_sat_table->first_train_ant-1); i < pdm_sat_table->ant_num_total; i++) {
++			for (j = 0; j < (pdm_sat_table->beam_patten_num_each_ant); j++) {
++				
++				per_beam_rssi_diff_tmp = (u1Byte)(max_beam_ant_rssi - pdm_sat_table->pkt_rssi_pre[i][j]);
++				pdm_sat_table->beam_train_rssi_diff[i][j] = per_beam_rssi_diff_tmp;
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Ant[%d], Beam[%d]: RSSI_diff= ((%d))\n", 
++					i,  j, per_beam_rssi_diff_tmp));
++			}
++			break_counter++;
++			if (break_counter >= (pdm_sat_table->ant_num))
++				break;
++		}
++		#endif
++
++		if (TargetAnt == 0) 
++			TargetAnt = MAIN_ANT;
++		else if (TargetAnt == 1)
++			TargetAnt = AUX_ANT;
++
++		if (pdm_sat_table->ant_num > 1) {
++			/* [ update RX ant ]*/
++			ODM_UpdateRxIdleAnt(pDM_Odm, (u1Byte)TargetAnt);
++
++			/* [ update TX ant ]*/
++			odm_UpdateTxAnt(pDM_Odm, (u1Byte)TargetAnt, (pDM_FatTable->TrainIdx));
++		}
++		
++		/*set beam in each antenna*/
++		phydm_update_rx_idle_beam(pDM_Odm);
++
++		odm_AntDiv_on_off(pDM_Odm, ANTDIV_ON);		
++		pDM_FatTable->FAT_State = FAT_PREPARE_STATE;
++
++	} 
++	/* [TRAINING STATE] */
++	else if (pDM_FatTable->FAT_State == FAT_TRAINING_STATE) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 2. In Training State]\n"));
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("fat_beam_n = (( %d )), pre_fat_beam_n = (( %d ))\n", 
++			pdm_sat_table->fast_training_beam_num, pdm_sat_table->pre_fast_training_beam_num));
++		
++		if (pdm_sat_table->fast_training_beam_num > pdm_sat_table->pre_fast_training_beam_num) {
++			
++			pdm_sat_table->force_update_beam_en = 0;
++
++		} else {
++		
++			pdm_sat_table->force_update_beam_en = 1;
++			
++			pdm_sat_table->pkt_counter = 0;
++			beam_tmp = pdm_sat_table->fast_training_beam_num;
++			if (pdm_sat_table->fast_training_beam_num >= (pdm_sat_table->beam_patten_num_each_ant-1)) {
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Timeout Update]  Beam_num (( %d )) -> (( decision ))\n", pdm_sat_table->fast_training_beam_num));	
++				pDM_FatTable->FAT_State = FAT_DECISION_STATE;					
++				odm_FastAntTraining_hl_smart_antenna_type1(pDM_Odm);
++
++			} else {
++				pdm_sat_table->fast_training_beam_num++;
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Timeout Update]  Beam_num (( %d )) -> (( %d ))\n", beam_tmp, pdm_sat_table->fast_training_beam_num));
++				phydm_set_all_ant_same_beam_num(pDM_Odm);
++				pDM_FatTable->FAT_State = FAT_TRAINING_STATE;	
++				
++			}
++		}
++		pdm_sat_table->pre_fast_training_beam_num = pdm_sat_table->fast_training_beam_num;
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Update Pre_Beam =(( %d ))\n", pdm_sat_table->pre_fast_training_beam_num));
++	}
++	/*  [Prepare State] */
++	/*=======================================================================================*/
++	else if (pDM_FatTable->FAT_State == FAT_PREPARE_STATE) {
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("\n\n[ 1. In Prepare State]\n"));
++		
++		if (pDM_Odm->pre_TrafficLoad == (pDM_Odm->TrafficLoad)) {
++			if (pdm_sat_table->decision_holding_period != 0) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Holding_period = (( %d )), return!!!\n", pdm_sat_table->decision_holding_period));
++				pdm_sat_table->decision_holding_period--;
++				return;
++			}
++		}
++				
++		
++		/* Set training packet number*/
++		if (pdm_sat_table->fix_training_num_en == 0) {
++
++			switch (pDM_Odm->TrafficLoad) {
++
++			case TRAFFIC_HIGH: 
++				pdm_sat_table->per_beam_training_pkt_num = 8;
++				pdm_sat_table->decision_holding_period = 2;
++				break;
++			case TRAFFIC_MID: 
++				pdm_sat_table->per_beam_training_pkt_num = 6;
++				pdm_sat_table->decision_holding_period = 3;
++				break;
++			case TRAFFIC_LOW: 
++				pdm_sat_table->per_beam_training_pkt_num = 3; /*ping 60000*/
++				pdm_sat_table->decision_holding_period = 4;
++				break;
++			case TRAFFIC_ULTRA_LOW: 
++				pdm_sat_table->per_beam_training_pkt_num = 1;
++				pdm_sat_table->decision_holding_period = 6;
++				break;
++			default:
++				break;			
++			}
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Fix_training_en = (( %d )), training_pkt_num_base = (( %d )), holding_period = ((%d))\n",
++			pdm_sat_table->fix_training_num_en , pdm_sat_table->per_beam_training_pkt_num, pdm_sat_table->decision_holding_period));
++
++
++		#ifdef CONFIG_FAT_PATCH
++		break_counter = 0;
++		for (i = (pdm_sat_table->first_train_ant-1); i < pdm_sat_table->ant_num_total; i++) {
++			for (j = 0; j < (pdm_sat_table->beam_patten_num_each_ant); j++) {
++				
++				per_beam_rssi_diff_tmp = pdm_sat_table->beam_train_rssi_diff[i][j];
++				training_pkt_num_offset = per_beam_rssi_diff_tmp;
++
++				if ((pdm_sat_table->per_beam_training_pkt_num) > training_pkt_num_offset)
++					pdm_sat_table->beam_train_cnt[i][j] = pdm_sat_table->per_beam_training_pkt_num - training_pkt_num_offset;
++				else
++					pdm_sat_table->beam_train_cnt[i][j] = 1;
++					
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Ant[%d]: Beam_num-(( %d ))  training_pkt_num = ((%d))\n", 
++					i,  j, pdm_sat_table->beam_train_cnt[i][j]));
++			}
++			break_counter++;
++			if (break_counter >= (pdm_sat_table->ant_num))
++				break;
++		}
++		
++		
++			phydm_FastTraining_enable(pDM_Odm , FAT_OFF);
++			pdm_sat_table->pre_beacon_counter = pdm_sat_table->beacon_counter;
++			pdm_sat_table->update_beam_idx = 0;
++
++			if (*pDM_Odm->pBandType == ODM_BAND_5G) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Set 5G ant\n"));
++				/*used_ant = (pdm_sat_table->first_train_ant == MAIN_ANT) ? AUX_ANT : MAIN_ANT;*/
++				used_ant = pdm_sat_table->first_train_ant;
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Set 2.4G ant\n"));
++				used_ant = pdm_sat_table->first_train_ant;
++			}
++
++			ODM_UpdateRxIdleAnt(pDM_Odm, (u1Byte)used_ant);
++
++		#else
++			/* Set training MAC Addr. of target */
++			odm_SetNextMACAddrTarget(pDM_Odm);
++			phydm_FastTraining_enable(pDM_Odm , FAT_ON);
++		#endif
++
++		odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++		pdm_sat_table->pkt_counter = 0;
++		pdm_sat_table->fast_training_beam_num = 0;
++		phydm_set_all_ant_same_beam_num(pDM_Odm);
++		pdm_sat_table->pre_fast_training_beam_num = pdm_sat_table->fast_training_beam_num;
++		pDM_FatTable->FAT_State = FAT_TRAINING_STATE;
++	}
++		
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++VOID
++phydm_beam_switch_workitem_callback(
++	IN	PVOID	pContext
++	)
++{
++	PADAPTER		pAdapter = (PADAPTER)pContext;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	pSAT_T			pdm_sat_table = &(pDM_Odm->dm_sat_table);
++
++	#if DEV_BUS_TYPE != RT_PCI_INTERFACE
++	pdm_sat_table->pkt_skip_statistic_en = 1;
++	#endif
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ SmartAnt ] Beam Switch Workitem Callback, pkt_skip_statistic_en = (( %d ))\n", pdm_sat_table->pkt_skip_statistic_en));
++	
++	phydm_update_beam_pattern(pDM_Odm, pdm_sat_table->update_beam_codeword, pdm_sat_table->data_codeword_bit_num);
++
++	#if DEV_BUS_TYPE != RT_PCI_INTERFACE
++	/*ODM_StallExecution(pdm_sat_table->latch_time);*/
++	pdm_sat_table->pkt_skip_statistic_en = 0;
++	#endif
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("pkt_skip_statistic_en = (( %d )), latch_time = (( %d ))\n", pdm_sat_table->pkt_skip_statistic_en, pdm_sat_table->latch_time));
++}
++
++VOID
++phydm_beam_decision_workitem_callback(
++	IN	PVOID	pContext
++	)
++{
++	PADAPTER		pAdapter = (PADAPTER)pContext;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ SmartAnt ] Beam decision Workitem Callback\n"));
++	odm_FastAntTraining_hl_smart_antenna_type1(pDM_Odm);
++}
++#endif
++
++#endif /*#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1*/
++
++VOID
++ODM_AntDivInit(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	pSWAT_T			pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++
++
++	if(!(pDM_Odm->SupportAbility & ODM_BB_ANT_DIV))
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[Return!!!]   Not Support Antenna Diversity Function\n"));
++		return;
++	}
++        //---
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	if(pDM_FatTable->AntDiv_2G_5G == ODM_ANTDIV_2G)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[2G AntDiv Init]: Only Support 2G Antenna Diversity Function\n"));
++		if(!(pDM_Odm->SupportICType & ODM_ANTDIV_2G_SUPPORT_IC))
++			return;
++	}
++	else 	if(pDM_FatTable->AntDiv_2G_5G == ODM_ANTDIV_5G)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[5G AntDiv Init]: Only Support 5G Antenna Diversity Function\n"));
++		if(!(pDM_Odm->SupportICType & ODM_ANTDIV_5G_SUPPORT_IC))
++			return;
++	}
++	else 	if(pDM_FatTable->AntDiv_2G_5G == (ODM_ANTDIV_2G|ODM_ANTDIV_5G))
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[2G & 5G AntDiv Init]:Support Both 2G & 5G Antenna Diversity Function\n"));
++	}
++
++#endif	
++	//---
++
++	//2 [--General---]
++	pDM_Odm->antdiv_period=0;
++
++	pDM_FatTable->bBecomeLinked =FALSE;
++	pDM_FatTable->AntDiv_OnOff =0xff;
++
++	//3       -   AP   -
++	#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	
++		#if (BEAMFORMING_SUPPORT == 1)
++		#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++		odm_BDC_Init(pDM_Odm);
++		#endif
++		#endif
++		
++	//3     -   WIN   -
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		pDM_SWAT_Table->Ant5G = MAIN_ANT;
++		pDM_SWAT_Table->Ant2G = MAIN_ANT;
++		pDM_FatTable->CCK_counter_main=0;
++		pDM_FatTable->CCK_counter_aux=0;
++		pDM_FatTable->OFDM_counter_main=0;
++		pDM_FatTable->OFDM_counter_aux=0;
++	#endif
++
++	//2 [---Set MAIN_ANT as default antenna if Auto-Ant enable---]
++	odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++
++	pDM_Odm->AntType = ODM_AUTO_ANT;
++
++	pDM_FatTable->RxIdleAnt = 0xff; /*to make RX-idle-antenna will be updated absolutly*/
++	ODM_UpdateRxIdleAnt(pDM_Odm, MAIN_ANT);
++		
++	//2 [---Set TX Antenna---]
++	pDM_FatTable->ForceTxAntByDesc = 0;
++	pDM_FatTable->pForceTxAntByDesc = &(pDM_FatTable->ForceTxAntByDesc);
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("pForceTxAntByDesc = %d\n", *pDM_FatTable->pForceTxAntByDesc));
++
++	odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++
++		
++	//2 [--88E---]
++	if(pDM_Odm->SupportICType == ODM_RTL8188E)
++	{
++	#if (RTL8188E_SUPPORT == 1)
++		//pDM_Odm->AntDivType = CGCS_RX_HW_ANTDIV;
++		//pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++		//pDM_Odm->AntDivType = CG_TRX_SMART_ANTDIV;
++
++		if( (pDM_Odm->AntDivType != CGCS_RX_HW_ANTDIV)  && (pDM_Odm->AntDivType != CG_TRX_HW_ANTDIV) && (pDM_Odm->AntDivType != CG_TRX_SMART_ANTDIV))
++		{
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[Return!!!]  88E Not Supprrt This AntDiv Type\n"));
++			pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++			return;
++		}
++		
++		if(pDM_Odm->AntDivType == CGCS_RX_HW_ANTDIV)
++			odm_RX_HWAntDiv_Init_88E(pDM_Odm);
++		else if(pDM_Odm->AntDivType == CG_TRX_HW_ANTDIV)
++			odm_TRX_HWAntDiv_Init_88E(pDM_Odm);
++		#if( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++		else if(pDM_Odm->AntDivType == CG_TRX_SMART_ANTDIV)
++			odm_Smart_HWAntDiv_Init_88E(pDM_Odm);
++	        #endif	
++	#endif
++	}
++	
++	//2 [--92E---]
++	#if (RTL8192E_SUPPORT == 1)
++	else if(pDM_Odm->SupportICType == ODM_RTL8192E)
++	{	
++		//pDM_Odm->AntDivType = CGCS_RX_HW_ANTDIV;
++		//pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++		//pDM_Odm->AntDivType = CG_TRX_SMART_ANTDIV;
++
++		if( (pDM_Odm->AntDivType != CGCS_RX_HW_ANTDIV) && (pDM_Odm->AntDivType != CG_TRX_HW_ANTDIV)   && (pDM_Odm->AntDivType != CG_TRX_SMART_ANTDIV))
++		{
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[Return!!!]  8192E Not Supprrt This AntDiv Type\n"));
++			pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++			return;
++		}
++		
++		if(pDM_Odm->AntDivType == CGCS_RX_HW_ANTDIV)
++			odm_RX_HWAntDiv_Init_92E(pDM_Odm);
++		else if(pDM_Odm->AntDivType == CG_TRX_HW_ANTDIV)
++			odm_TRX_HWAntDiv_Init_92E(pDM_Odm);
++		#if( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++		else if(pDM_Odm->AntDivType == CG_TRX_SMART_ANTDIV)
++			odm_Smart_HWAntDiv_Init_92E(pDM_Odm);
++		#endif
++	
++	}
++	#endif	
++	
++	//2 [--8723B---]
++	#if (RTL8723B_SUPPORT == 1)
++	else if(pDM_Odm->SupportICType == ODM_RTL8723B)
++	{		
++		pDM_Odm->AntDivType = S0S1_SW_ANTDIV;
++		//pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++
++		if(pDM_Odm->AntDivType != S0S1_SW_ANTDIV && pDM_Odm->AntDivType != CG_TRX_HW_ANTDIV)
++		{
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[Return!!!] 8723B  Not Supprrt This AntDiv Type\n"));
++			pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++			return;
++		}
++			
++		if( pDM_Odm->AntDivType==S0S1_SW_ANTDIV)
++			odm_S0S1_SWAntDiv_Init_8723B(pDM_Odm);
++		else if(pDM_Odm->AntDivType==CG_TRX_HW_ANTDIV)
++			odm_TRX_HWAntDiv_Init_8723B(pDM_Odm);		
++	}
++	#endif
++	/*2 [--8723D---]*/
++	#if (RTL8723D_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8723D) {		
++		if (pDM_Odm->AntDivType == S0S1_TRX_HW_ANTDIV)
++			odm_TRX_HWAntDiv_Init_8723D(pDM_Odm);
++		else {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Return!!!] 8723D  Not Supprrt This AntDiv Type\n"));
++			pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++			return;
++		}
++
++	}
++	#endif	
++	//2 [--8811A 8821A---]
++	#if (RTL8821A_SUPPORT == 1)
++	else if(pDM_Odm->SupportICType == ODM_RTL8821)
++	{
++		#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++		pDM_Odm->AntDivType = HL_SW_SMART_ANT_TYPE1;
++		
++		if (pDM_Odm->AntDivType == HL_SW_SMART_ANT_TYPE1) {
++			
++			odm_TRX_HWAntDiv_Init_8821A(pDM_Odm);
++			phydm_hl_smart_ant_type1_init_8821a(pDM_Odm);
++		} else 
++		#endif
++		{
++			/*pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;*/
++			pDM_Odm->AntDivType = S0S1_SW_ANTDIV;
++				
++			if (pDM_Odm->AntDivType != CG_TRX_HW_ANTDIV && pDM_Odm->AntDivType != S0S1_SW_ANTDIV) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Return!!!] 8821A & 8811A  Not Supprrt This AntDiv Type\n"));
++				pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++				return;
++			}
++			if (pDM_Odm->AntDivType == CG_TRX_HW_ANTDIV)	
++				odm_TRX_HWAntDiv_Init_8821A(pDM_Odm);
++			else if (pDM_Odm->AntDivType == S0S1_SW_ANTDIV)
++				odm_S0S1_SWAntDiv_Init_8821A(pDM_Odm);
++		}
++	}
++	#endif
++	
++	//2 [--8881A---]
++	#if (RTL8881A_SUPPORT == 1)
++	else if(pDM_Odm->SupportICType == ODM_RTL8881A)
++	{
++			//pDM_Odm->AntDivType = CGCS_RX_HW_ANTDIV;
++			//pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++			
++			if(pDM_Odm->AntDivType != CGCS_RX_HW_ANTDIV && pDM_Odm->AntDivType != CG_TRX_HW_ANTDIV)
++			{
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[Return!!!] 8881A  Not Supprrt This AntDiv Type\n"));
++				pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++				return;
++			}
++			if(pDM_Odm->AntDivType == CGCS_RX_HW_ANTDIV)
++				odm_RX_HWAntDiv_Init_8881A(pDM_Odm);
++			else if(pDM_Odm->AntDivType == CG_TRX_HW_ANTDIV)
++				odm_TRX_HWAntDiv_Init_8881A(pDM_Odm);	
++	}
++	#endif
++	
++	//2 [--8812---]
++	#if (RTL8812A_SUPPORT == 1)
++	else if(pDM_Odm->SupportICType == ODM_RTL8812)
++	{	
++			//pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++			
++			if( pDM_Odm->AntDivType != CG_TRX_HW_ANTDIV)
++			{
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[Return!!!] 8812A  Not Supprrt This AntDiv Type\n"));
++				pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++				return;
++			}
++			odm_TRX_HWAntDiv_Init_8812A(pDM_Odm);
++	}
++	#endif
++
++	/*[--8188F---]*/
++	#if (RTL8188F_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8188F) {
++		
++		pDM_Odm->AntDivType = S0S1_SW_ANTDIV;
++		odm_S0S1_SWAntDiv_Init_8188F(pDM_Odm);
++	}
++	#endif
++	/*
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** SupportICType=[%lu]\n",pDM_Odm->SupportICType));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** AntDiv SupportAbility=[%lu]\n",(pDM_Odm->SupportAbility & ODM_BB_ANT_DIV)>>6));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** AntDiv Type=[%d]\n",pDM_Odm->AntDivType));
++	*/
++}
++
++VOID
++ODM_AntDiv(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		pAdapter	= pDM_Odm->Adapter;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++	pSAT_T			pdm_sat_table = &(pDM_Odm->dm_sat_table);
++	#endif
++
++	if(*pDM_Odm->pBandType == ODM_BAND_5G )
++	{
++		if(pDM_FatTable->idx_AntDiv_counter_5G <  pDM_Odm->antdiv_period )
++		{
++			pDM_FatTable->idx_AntDiv_counter_5G++;
++			return;
++		}
++		else
++			pDM_FatTable->idx_AntDiv_counter_5G=0;
++	}
++	else 	if(*pDM_Odm->pBandType == ODM_BAND_2_4G )
++	{
++		if(pDM_FatTable->idx_AntDiv_counter_2G <  pDM_Odm->antdiv_period )
++		{
++			pDM_FatTable->idx_AntDiv_counter_2G++;
++			return;
++		}
++		else
++			pDM_FatTable->idx_AntDiv_counter_2G=0;
++	}
++	
++	//----------
++	if(!(pDM_Odm->SupportAbility & ODM_BB_ANT_DIV))
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[Return!!!]   Not Support Antenna Diversity Function\n"));
++		return;
++	}
++
++	//----------
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++	if (pDM_FatTable->enable_ctrl_frame_antdiv) {
++		
++		if ((pDM_Odm->data_frame_num <= 10) && (pDM_Odm->bLinked))
++			pDM_FatTable->use_ctrl_frame_antdiv = 1;
++		else
++			pDM_FatTable->use_ctrl_frame_antdiv = 0;
++		
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("use_ctrl_frame_antdiv = (( %d )), data_frame_num = (( %d ))\n", pDM_FatTable->use_ctrl_frame_antdiv, pDM_Odm->data_frame_num));
++		pDM_Odm->data_frame_num = 0;
++	}
++
++	if(pAdapter->MgntInfo.AntennaTest)
++		return;
++	
++        {
++	#if (BEAMFORMING_SUPPORT == 1)
++	        BEAMFORMING_CAP		BeamformCap = (pDM_Odm->BeamformingInfo.BeamformCap);
++
++		if( BeamformCap & BEAMFORMEE_CAP ) //  BFmee On  &&   Div On ->  Div Off
++		{	
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[ AntDiv : OFF ]   BFmee ==1 \n"));
++			if(pDM_FatTable->fix_ant_bfee == 0)
++			{
++				odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++				pDM_FatTable->fix_ant_bfee = 1;
++			}
++			return;
++		}
++		else // BFmee Off   &&   Div Off ->  Div On
++		{
++			if((pDM_FatTable->fix_ant_bfee == 1)  &&  pDM_Odm->bLinked) 
++			{
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ AntDiv : ON ]   BFmee ==0\n"));
++				if((pDM_Odm->AntDivType!=S0S1_SW_ANTDIV) )
++					odm_AntDiv_on_off(pDM_Odm, ANTDIV_ON);
++
++				pDM_FatTable->fix_ant_bfee = 0;
++			}
++		}
++	#endif	
++	}
++#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	//----------just for fool proof
++
++	if(pDM_Odm->antdiv_rssi)
++		pDM_Odm->DebugComponents |= ODM_COMP_ANT_DIV;
++	else
++		pDM_Odm->DebugComponents &= ~ODM_COMP_ANT_DIV;
++
++	if(pDM_FatTable->AntDiv_2G_5G == ODM_ANTDIV_2G)
++	{
++		//ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[ 2G AntDiv Running ]\n"));
++		if(!(pDM_Odm->SupportICType & ODM_ANTDIV_2G_SUPPORT_IC))
++			return;
++	}
++	else if(pDM_FatTable->AntDiv_2G_5G == ODM_ANTDIV_5G)
++	{
++		//ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[ 5G AntDiv Running ]\n"));
++		if(!(pDM_Odm->SupportICType & ODM_ANTDIV_5G_SUPPORT_IC))
++			return;
++	}
++	//else 	if(pDM_FatTable->AntDiv_2G_5G == (ODM_ANTDIV_2G|ODM_ANTDIV_5G))
++	//{
++		//ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[ 2G & 5G AntDiv Running ]\n"));
++	//}
++#endif
++
++	//----------
++
++	if (pDM_Odm->antdiv_select==1)
++		pDM_Odm->AntType = ODM_FIX_MAIN_ANT;
++	else if (pDM_Odm->antdiv_select==2)
++		pDM_Odm->AntType = ODM_FIX_AUX_ANT;
++	else  //if (pDM_Odm->antdiv_select==0)
++		pDM_Odm->AntType = ODM_AUTO_ANT;
++
++	//ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("AntType= (( %d )) , pre_AntType= (( %d ))  \n",pDM_Odm->AntType,pDM_Odm->pre_AntType));
++	
++	if(pDM_Odm->AntType != ODM_AUTO_ANT)
++	{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Fix Antenna at (( %s ))\n",(pDM_Odm->AntType == ODM_FIX_MAIN_ANT)?"MAIN":"AUX"));
++			
++		if(pDM_Odm->AntType != pDM_Odm->pre_AntType)
++		{
++			odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++						
++			if(pDM_Odm->AntType == ODM_FIX_MAIN_ANT)
++				ODM_UpdateRxIdleAnt(pDM_Odm, MAIN_ANT);
++			else if(pDM_Odm->AntType == ODM_FIX_AUX_ANT)
++				ODM_UpdateRxIdleAnt(pDM_Odm, AUX_ANT);
++		}
++		pDM_Odm->pre_AntType=pDM_Odm->AntType; 
++		return;
++	}
++	else
++	{
++		if(pDM_Odm->AntType != pDM_Odm->pre_AntType)
++		{
++			odm_AntDiv_on_off(pDM_Odm, ANTDIV_ON);
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_DESC);
++		}
++		pDM_Odm->pre_AntType=pDM_Odm->AntType;
++	}
++	 
++	
++	//3 -----------------------------------------------------------------------------------------------------------
++	//2 [--88E---]
++	if(pDM_Odm->SupportICType == ODM_RTL8188E)
++	{
++		#if (RTL8188E_SUPPORT == 1)
++		if(pDM_Odm->AntDivType==CG_TRX_HW_ANTDIV ||pDM_Odm->AntDivType==CGCS_RX_HW_ANTDIV)
++			odm_HW_AntDiv(pDM_Odm);
++
++		#if( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++		else if (pDM_Odm->AntDivType==CG_TRX_SMART_ANTDIV)
++			odm_FastAntTraining(pDM_Odm);	
++		#endif
++		
++		#endif
++
++	}
++	//2 [--92E---]	
++	#if (RTL8192E_SUPPORT == 1)
++	else if(pDM_Odm->SupportICType == ODM_RTL8192E)
++	{
++		if(pDM_Odm->AntDivType==CGCS_RX_HW_ANTDIV || pDM_Odm->AntDivType==CG_TRX_HW_ANTDIV)
++			odm_HW_AntDiv(pDM_Odm);
++		
++		#if( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++		else if (pDM_Odm->AntDivType==CG_TRX_SMART_ANTDIV)
++			odm_FastAntTraining(pDM_Odm);	
++		#endif
++		
++	}
++	#endif
++
++	#if (RTL8723B_SUPPORT == 1)	
++	//2 [--8723B---]
++	else if(pDM_Odm->SupportICType == ODM_RTL8723B)
++	{
++		if (phydm_IsBtEnable_8723b(pDM_Odm)) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[BT is enable!!!]\n"));
++			if (pDM_FatTable->bBecomeLinked == TRUE) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Set REG 948[9:6]=0x0\n"));
++				if (pDM_Odm->SupportICType == ODM_RTL8723B)
++					ODM_SetBBReg(pDM_Odm, 0x948 , BIT9|BIT8|BIT7|BIT6, 0x0); 
++				
++				pDM_FatTable->bBecomeLinked = FALSE;
++			}
++		} else {
++			if (pDM_Odm->AntDivType == S0S1_SW_ANTDIV) {
++				
++				#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++				odm_S0S1_SwAntDiv(pDM_Odm, SWAW_STEP_PEEK);
++				#endif
++			} else if (pDM_Odm->AntDivType == CG_TRX_HW_ANTDIV)
++				odm_HW_AntDiv(pDM_Odm);
++		}
++	}
++	#endif
++     /*8723D*/
++	#if (RTL8723D_SUPPORT == 1)	
++	else if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++		
++		odm_HW_AntDiv(pDM_Odm);
++		/**/
++	}
++	#endif
++	
++	//2 [--8821A---]
++	#if (RTL8821A_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8821)
++	{
++		#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++		if (pDM_Odm->AntDivType == HL_SW_SMART_ANT_TYPE1) {
++
++			if (pdm_sat_table->fix_beam_pattern_en != 0) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, (" [ SmartAnt ] Fix SmartAnt Pattern = 0x%x\n", pdm_sat_table->fix_beam_pattern_codeword));
++				/*return;*/
++			} else {
++				/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ SmartAnt ] AntDivType = HL_SW_SMART_ANT_TYPE1\n"));*/
++				odm_FastAntTraining_hl_smart_antenna_type1(pDM_Odm);
++			}
++
++		} else 
++		#endif
++		{
++
++			if (!pDM_Odm->bBtEnabled)  /*BT disabled*/
++			{
++				if (pDM_Odm->AntDivType == S0S1_SW_ANTDIV) {
++					pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, (" [S0S1_SW_ANTDIV]  ->  [CG_TRX_HW_ANTDIV]\n"));
++					/*ODM_SetBBReg(pDM_Odm, 0x8D4 , BIT24, 1); */
++					if (pDM_FatTable->bBecomeLinked == TRUE)
++						odm_AntDiv_on_off(pDM_Odm, ANTDIV_ON);
++				}
++				
++			} else { /*BT enabled*/
++			
++				if (pDM_Odm->AntDivType == CG_TRX_HW_ANTDIV) {
++					pDM_Odm->AntDivType = S0S1_SW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, (" [CG_TRX_HW_ANTDIV]  ->  [S0S1_SW_ANTDIV]\n"));
++					/*ODM_SetBBReg(pDM_Odm, 0x8D4 , BIT24, 0);*/
++					odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++				}	
++			}
++
++			if (pDM_Odm->AntDivType == S0S1_SW_ANTDIV) {
++
++				#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++				odm_S0S1_SwAntDiv(pDM_Odm, SWAW_STEP_PEEK);
++				#endif
++			} else if (pDM_Odm->AntDivType == CG_TRX_HW_ANTDIV)
++				odm_HW_AntDiv(pDM_Odm);
++		}
++	}
++	#endif
++	
++	//2 [--8881A---]
++	#if (RTL8881A_SUPPORT == 1)
++	else if(pDM_Odm->SupportICType == ODM_RTL8881A)		
++		odm_HW_AntDiv(pDM_Odm);
++	#endif
++	
++	//2 [--8812A---]
++	#if (RTL8812A_SUPPORT == 1)
++	else if(pDM_Odm->SupportICType == ODM_RTL8812)
++		odm_HW_AntDiv(pDM_Odm);
++	#endif
++
++	#if (RTL8188F_SUPPORT == 1)	
++	/* [--8188F---]*/
++	else if (pDM_Odm->SupportICType == ODM_RTL8188F)	{
++	
++		#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++		odm_S0S1_SwAntDiv(pDM_Odm, SWAW_STEP_PEEK);
++		#endif		
++	}
++	#endif
++
++}
++
++
++VOID
++odm_AntselStatistics(
++	IN		PVOID			pDM_VOID,	
++	IN		u1Byte			antsel_tr_mux,
++	IN		u4Byte			MacId,
++	IN		u4Byte			utility,
++	IN            u1Byte			method
++
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++	if(method==RSSI_METHOD)
++	{
++		if(antsel_tr_mux == ANT1_2G)
++		{
++			pDM_FatTable->MainAnt_Sum[MacId]+=utility;
++			pDM_FatTable->MainAnt_Cnt[MacId]++;
++		}
++		else
++		{
++			pDM_FatTable->AuxAnt_Sum[MacId]+=utility;
++			pDM_FatTable->AuxAnt_Cnt[MacId]++;
++		}
++	}
++	#ifdef ODM_EVM_ENHANCE_ANTDIV
++	else if(method==EVM_METHOD)
++	{
++		if(antsel_tr_mux == ANT1_2G)
++		{
++			pDM_FatTable->MainAntEVM_Sum[MacId]+=(utility<<5);
++			pDM_FatTable->MainAntEVM_Cnt[MacId]++;
++		}
++		else
++		{
++			pDM_FatTable->AuxAntEVM_Sum[MacId]+=(utility<<5);
++			pDM_FatTable->AuxAntEVM_Cnt[MacId]++;
++		}
++	}
++	else if(method==CRC32_METHOD)
++	{
++		if(utility==0)
++			pDM_FatTable->CRC32_Fail_Cnt++;
++		else
++			pDM_FatTable->CRC32_Ok_Cnt+=utility;
++	}
++	#endif
++}
++
++
++VOID
++ODM_Process_RSSIForAntDiv(	
++	IN OUT		PVOID			pDM_VOID,	
++	IN			PVOID			p_phy_info_void,
++	IN			PVOID			p_pkt_info_void
++	//IN		PODM_PHY_INFO_T				pPhyInfo,
++	//IN		PODM_PACKET_INFO_T			pPktinfo
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_PHY_INFO_T 	pPhyInfo=(PODM_PHY_INFO_T)p_phy_info_void;
++	PODM_PACKET_INFO_T	 pPktinfo=(PODM_PACKET_INFO_T)p_pkt_info_void;
++	u1Byte			isCCKrate=0,CCKMaxRate=ODM_RATE11M;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++	pSAT_T			pdm_sat_table = &(pDM_Odm->dm_sat_table);
++	u4Byte			beam_tmp;
++	u1Byte			next_ant;
++	u1Byte			train_pkt_number;
++	#endif
++
++	#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN))
++	u4Byte			RxPower_Ant0, RxPower_Ant1;	
++	u4Byte			RxEVM_Ant0, RxEVM_Ant1;
++	#else
++	u1Byte			RxPower_Ant0, RxPower_Ant1;	
++	u1Byte			RxEVM_Ant0, RxEVM_Ant1;
++	#endif
++
++	CCKMaxRate=ODM_RATE11M;
++	isCCKrate = (pPktinfo->DataRate <= CCKMaxRate)?TRUE:FALSE;
++		
++	if ((pDM_Odm->SupportICType & (ODM_RTL8192E|ODM_RTL8812)) && (pPktinfo->DataRate > CCKMaxRate))
++	{
++		RxPower_Ant0 = pPhyInfo->RxMIMOSignalStrength[0];
++		RxPower_Ant1= pPhyInfo->RxMIMOSignalStrength[1];
++
++		RxEVM_Ant0 =pPhyInfo->RxMIMOSignalQuality[0];
++		RxEVM_Ant1 =pPhyInfo->RxMIMOSignalQuality[1];
++	}
++	else
++		RxPower_Ant0=pPhyInfo->RxPWDBAll;
++
++	#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++	#ifdef CONFIG_FAT_PATCH
++	if ((pDM_Odm->AntDivType == HL_SW_SMART_ANT_TYPE1) && (pDM_FatTable->FAT_State == FAT_TRAINING_STATE)) {
++
++		/*[Beacon]*/		
++		if (pPktinfo->bPacketBeacon) {
++			
++			pdm_sat_table->beacon_counter++;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("MatchBSSID_beacon_counter = ((%d))\n", pdm_sat_table->beacon_counter));	
++			
++			if (pdm_sat_table->beacon_counter >= pdm_sat_table->pre_beacon_counter + 2) {
++
++				if (pdm_sat_table->ant_num > 1) {
++					next_ant = (pDM_FatTable->RxIdleAnt == MAIN_ANT) ? AUX_ANT : MAIN_ANT;
++					ODM_UpdateRxIdleAnt(pDM_Odm, next_ant);
++				}
++
++				pdm_sat_table->update_beam_idx++;
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("pre_beacon_counter = ((%d)), pkt_counter = ((%d)), update_beam_idx = ((%d))\n", 
++					pdm_sat_table->pre_beacon_counter, pdm_sat_table->pkt_counter, pdm_sat_table->update_beam_idx));
++
++				pdm_sat_table->pre_beacon_counter = pdm_sat_table->beacon_counter;
++				pdm_sat_table->pkt_counter = 0;
++			}
++		} 
++		/*[Data]*/
++		else if (pPktinfo->bPacketToSelf) {
++		
++			if (pdm_sat_table->pkt_skip_statistic_en == 0) {
++				/*
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("StaID[%d]:  antsel_pathA = ((%d)), hw_antsw_occur = ((%d)), Beam_num = ((%d)), RSSI = ((%d))\n",
++					pPktinfo->StationID, pDM_FatTable->antsel_rx_keep_0, pDM_FatTable->hw_antsw_occur, pdm_sat_table->fast_training_beam_num, RxPower_Ant0));
++				*/
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ID[%d][pkt_cnt = %d]: {ANT, Beam} = {%d, %d}, RSSI = ((%d))\n",
++					pPktinfo->StationID, pdm_sat_table->pkt_counter, pDM_FatTable->antsel_rx_keep_0, pdm_sat_table->fast_training_beam_num, RxPower_Ant0));
++
++				pdm_sat_table->pkt_rssi_sum[pDM_FatTable->antsel_rx_keep_0][pdm_sat_table->fast_training_beam_num] += RxPower_Ant0;
++				pdm_sat_table->pkt_rssi_cnt[pDM_FatTable->antsel_rx_keep_0][pdm_sat_table->fast_training_beam_num]++;
++				pdm_sat_table->pkt_counter++;
++
++				#if 1
++				train_pkt_number = pdm_sat_table->beam_train_cnt[pDM_FatTable->RxIdleAnt-1][pdm_sat_table->fast_training_beam_num];
++				#else
++				train_pkt_number =  pdm_sat_table->per_beam_training_pkt_num;
++				#endif
++				
++				/*Swich Antenna erery N pkts*/
++				if (pdm_sat_table->pkt_counter == train_pkt_number) {
++
++					if (pdm_sat_table->ant_num > 1) {
++						
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("packet enugh ((%d ))pkts ---> Switch antenna\n", train_pkt_number));
++						next_ant = (pDM_FatTable->RxIdleAnt == MAIN_ANT) ? AUX_ANT : MAIN_ANT;
++						ODM_UpdateRxIdleAnt(pDM_Odm, next_ant);
++					}
++
++					pdm_sat_table->update_beam_idx++;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("pre_beacon_counter = ((%d)), update_beam_idx_counter = ((%d))\n", 
++						pdm_sat_table->pre_beacon_counter, pdm_sat_table->update_beam_idx));
++
++					pdm_sat_table->pre_beacon_counter = pdm_sat_table->beacon_counter;
++					pdm_sat_table->pkt_counter = 0;
++				}
++			}
++		}
++		
++		/*Swich Beam after switch "pdm_sat_table->ant_num" antennas*/
++		if (pdm_sat_table->update_beam_idx == pdm_sat_table->ant_num) {
++			
++			pdm_sat_table->update_beam_idx = 0;
++			pdm_sat_table->pkt_counter = 0;
++			beam_tmp = pdm_sat_table->fast_training_beam_num;
++							
++			if (pdm_sat_table->fast_training_beam_num >= (pdm_sat_table->beam_patten_num_each_ant-1)) {
++				
++				pDM_FatTable->FAT_State = FAT_DECISION_STATE;
++				
++				#if DEV_BUS_TYPE == RT_PCI_INTERFACE
++				odm_FastAntTraining_hl_smart_antenna_type1(pDM_Odm);
++				#else
++				ODM_ScheduleWorkItem(&pdm_sat_table->hl_smart_antenna_decision_workitem);
++				#endif
++
++
++			} else {
++				pdm_sat_table->fast_training_beam_num++;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Update Beam_num (( %d )) -> (( %d ))\n", beam_tmp, pdm_sat_table->fast_training_beam_num));
++				phydm_set_all_ant_same_beam_num(pDM_Odm);
++				
++				pDM_FatTable->FAT_State = FAT_TRAINING_STATE;	
++			}
++		}
++		
++	} 
++	#else
++
++	if (pDM_Odm->AntDivType == HL_SW_SMART_ANT_TYPE1)
++	{
++		if ((pDM_Odm->SupportICType & ODM_HL_SMART_ANT_TYPE1_SUPPORT) && 
++			(pPktinfo->bPacketToSelf)   && 
++			(pDM_FatTable->FAT_State == FAT_TRAINING_STATE)
++			) {
++			
++			if (pdm_sat_table->pkt_skip_statistic_en == 0) {
++				/*
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("StaID[%d]:  antsel_pathA = ((%d)), hw_antsw_occur = ((%d)), Beam_num = ((%d)), RSSI = ((%d))\n",
++					pPktinfo->StationID, pDM_FatTable->antsel_rx_keep_0, pDM_FatTable->hw_antsw_occur, pdm_sat_table->fast_training_beam_num, RxPower_Ant0));
++				*/
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("StaID[%d]:  antsel_pathA = ((%d)), bPacketToSelf = ((%d)), Beam_num = ((%d)), RSSI = ((%d))\n",
++					pPktinfo->StationID, pDM_FatTable->antsel_rx_keep_0, pPktinfo->bPacketToSelf, pdm_sat_table->fast_training_beam_num, RxPower_Ant0));
++
++				
++				pdm_sat_table->pkt_rssi_sum[pDM_FatTable->antsel_rx_keep_0][pdm_sat_table->fast_training_beam_num] += RxPower_Ant0;
++				pdm_sat_table->pkt_rssi_cnt[pDM_FatTable->antsel_rx_keep_0][pdm_sat_table->fast_training_beam_num]++;
++				pdm_sat_table->pkt_counter++;
++			
++				/*swich beam every N pkt*/
++				if ((pdm_sat_table->pkt_counter) >= (pdm_sat_table->per_beam_training_pkt_num)) {
++
++					pdm_sat_table->pkt_counter = 0;
++					beam_tmp = pdm_sat_table->fast_training_beam_num;
++									
++					if (pdm_sat_table->fast_training_beam_num >= (pdm_sat_table->beam_patten_num_each_ant-1)) {
++						
++						pDM_FatTable->FAT_State = FAT_DECISION_STATE;
++						
++						#if DEV_BUS_TYPE == RT_PCI_INTERFACE
++						odm_FastAntTraining_hl_smart_antenna_type1(pDM_Odm);
++						#else
++						ODM_ScheduleWorkItem(&pdm_sat_table->hl_smart_antenna_decision_workitem);
++						#endif
++
++
++					} else {
++						pdm_sat_table->fast_training_beam_num++;
++						phydm_set_all_ant_same_beam_num(pDM_Odm);
++						
++						pDM_FatTable->FAT_State = FAT_TRAINING_STATE;	
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Update  Beam_num (( %d )) -> (( %d ))\n", beam_tmp, pdm_sat_table->fast_training_beam_num));
++					}
++				}
++			}
++		}
++	}
++	#endif
++	else 
++	#endif
++	if (pDM_Odm->AntDivType == CG_TRX_SMART_ANTDIV) {
++		if( (pDM_Odm->SupportICType & ODM_SMART_ANT_SUPPORT) &&  (pPktinfo->bPacketToSelf)   && (pDM_FatTable->FAT_State == FAT_TRAINING_STATE) )//(pPktinfo->bPacketMatchBSSID && (!pPktinfo->bPacketBeacon))
++		{
++			u1Byte	antsel_tr_mux;
++			antsel_tr_mux = (pDM_FatTable->antsel_rx_keep_2<<2) |(pDM_FatTable->antsel_rx_keep_1 <<1) |pDM_FatTable->antsel_rx_keep_0;
++			pDM_FatTable->antSumRSSI[antsel_tr_mux] += RxPower_Ant0;
++			pDM_FatTable->antRSSIcnt[antsel_tr_mux]++;
++		}
++	}
++	else //AntDivType != CG_TRX_SMART_ANTDIV 
++	{
++		if ((pDM_Odm->SupportICType & ODM_ANTDIV_SUPPORT) && (pPktinfo->bPacketToSelf || pDM_FatTable->use_ctrl_frame_antdiv))
++		{
++			if(pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8192E)
++			{
++				odm_AntselStatistics(pDM_Odm, pDM_FatTable->antsel_rx_keep_0, pPktinfo->StationID,RxPower_Ant0,RSSI_METHOD);
++
++				#ifdef ODM_EVM_ENHANCE_ANTDIV
++				if(!isCCKrate)
++				{
++					odm_AntselStatistics(pDM_Odm, pDM_FatTable->antsel_rx_keep_0, pPktinfo->StationID,RxEVM_Ant0,EVM_METHOD);
++				}
++				#endif
++			}
++			else// SupportICType == ODM_RTL8821 and ODM_RTL8723B and ODM_RTL8812)
++			{
++				if(isCCKrate && (pDM_Odm->AntDivType == S0S1_SW_ANTDIV))
++				{
++				 	pDM_FatTable->antsel_rx_keep_0 = (pDM_FatTable->RxIdleAnt == MAIN_ANT) ? ANT1_2G : ANT2_2G;
++
++
++					if(pDM_FatTable->antsel_rx_keep_0==ANT1_2G)
++						pDM_FatTable->CCK_counter_main++;
++					else// if(pDM_FatTable->antsel_rx_keep_0==ANT2_2G)
++						pDM_FatTable->CCK_counter_aux++;
++
++					odm_AntselStatistics(pDM_Odm, pDM_FatTable->antsel_rx_keep_0, pPktinfo->StationID, RxPower_Ant0,RSSI_METHOD);
++				}
++				else
++				{
++					if(pDM_FatTable->antsel_rx_keep_0==ANT1_2G)
++						pDM_FatTable->OFDM_counter_main++;
++					else// if(pDM_FatTable->antsel_rx_keep_0==ANT2_2G)
++						pDM_FatTable->OFDM_counter_aux++;
++					odm_AntselStatistics(pDM_Odm, pDM_FatTable->antsel_rx_keep_0, pPktinfo->StationID, RxPower_Ant0,RSSI_METHOD);
++				}
++			}
++		}
++	}
++	//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("isCCKrate=%d, PWDB_ALL=%d\n",isCCKrate, pPhyInfo->RxPWDBAll));
++	//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("antsel_tr_mux=3'b%d%d%d\n",pDM_FatTable->antsel_rx_keep_2, pDM_FatTable->antsel_rx_keep_1, pDM_FatTable->antsel_rx_keep_0));
++}
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++VOID
++ODM_SetTxAntByTxInfo(
++	IN		PVOID			pDM_VOID,	
++	IN		pu1Byte			pDesc,
++	IN		u1Byte			macId	
++
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	if (!(pDM_Odm->SupportAbility & ODM_BB_ANT_DIV))
++		return;
++
++	if (pDM_Odm->AntDivType == CGCS_RX_HW_ANTDIV)
++		return;
++
++
++	if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++#if (RTL8723B_SUPPORT == 1)
++		SET_TX_DESC_ANTSEL_A_8723B(pDesc, pDM_FatTable->antsel_a[macId]);
++		/*ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[8723B] SetTxAntByTxInfo_WIN: MacID=%d, antsel_tr_mux=3'b%d%d%d\n", 
++			macId, pDM_FatTable->antsel_c[macId], pDM_FatTable->antsel_b[macId], pDM_FatTable->antsel_a[macId]));*/
++#endif
++	} else if (pDM_Odm->SupportICType == ODM_RTL8821) {
++#if (RTL8821A_SUPPORT == 1)
++		SET_TX_DESC_ANTSEL_A_8812(pDesc, pDM_FatTable->antsel_a[macId]);
++		/*ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[8821A] SetTxAntByTxInfo_WIN: MacID=%d, antsel_tr_mux=3'b%d%d%d\n", 
++			macId, pDM_FatTable->antsel_c[macId], pDM_FatTable->antsel_b[macId], pDM_FatTable->antsel_a[macId]));*/
++#endif
++	} else if (pDM_Odm->SupportICType == ODM_RTL8188E) {
++#if (RTL8188E_SUPPORT == 1)
++		SET_TX_DESC_ANTSEL_A_88E(pDesc, pDM_FatTable->antsel_a[macId]);
++		SET_TX_DESC_ANTSEL_B_88E(pDesc, pDM_FatTable->antsel_b[macId]);
++		SET_TX_DESC_ANTSEL_C_88E(pDesc, pDM_FatTable->antsel_c[macId]);
++		/*ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[8188E] SetTxAntByTxInfo_WIN: MacID=%d, antsel_tr_mux=3'b%d%d%d\n", 
++			macId, pDM_FatTable->antsel_c[macId], pDM_FatTable->antsel_b[macId], pDM_FatTable->antsel_a[macId]));*/
++#endif
++	}
++}
++#elif(DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++VOID
++ODM_SetTxAntByTxInfo(
++	struct	rtl8192cd_priv		*priv,
++	struct	tx_desc	*pdesc,
++	unsigned short			aid	
++)
++{
++	PDM_ODM_T	pDM_Odm = &(priv->pshare->_dmODM);
++	pFAT_T		pDM_FatTable = &priv->pshare->_dmODM.DM_FatTable;
++	u4Byte		SupportICType = priv->pshare->_dmODM.SupportICType;
++
++	if (!(pDM_Odm->SupportAbility & ODM_BB_ANT_DIV))
++		return;
++
++	if (pDM_Odm->AntDivType == CGCS_RX_HW_ANTDIV)
++		return;
++
++	if (SupportICType == ODM_RTL8881A) {
++		/*panic_printk("[%s] [%d]   ******ODM_SetTxAntByTxInfo_8881E******\n",__FUNCTION__,__LINE__);	*/
++		pdesc->Dword6 &= set_desc(~(BIT(18)|BIT(17)|BIT(16)));	
++		pdesc->Dword6 |= set_desc(pDM_FatTable->antsel_a[aid]<<16);
++	} else if (SupportICType == ODM_RTL8192E) {
++		/*panic_printk("[%s] [%d]   ******ODM_SetTxAntByTxInfo_8192E******\n",__FUNCTION__,__LINE__);	*/
++		pdesc->Dword6 &= set_desc(~(BIT(18)|BIT(17)|BIT(16)));	
++		pdesc->Dword6 |= set_desc(pDM_FatTable->antsel_a[aid]<<16);
++	} else if (SupportICType == ODM_RTL8188E) {
++		/*panic_printk("[%s] [%d]   ******ODM_SetTxAntByTxInfo_8188E******\n",__FUNCTION__,__LINE__);*/
++		pdesc->Dword2 &= set_desc(~BIT(24));
++		pdesc->Dword2 &= set_desc(~BIT(25));
++		pdesc->Dword7 &= set_desc(~BIT(29));
++
++		pdesc->Dword2 |= set_desc(pDM_FatTable->antsel_a[aid]<<24);
++		pdesc->Dword2 |= set_desc(pDM_FatTable->antsel_b[aid]<<25);
++		pdesc->Dword7 |= set_desc(pDM_FatTable->antsel_c[aid]<<29);
++			
++		
++	} else if (SupportICType == ODM_RTL8812) {
++		/*[path-A]*/
++		/*panic_printk("[%s] [%d]   ******ODM_SetTxAntByTxInfo_8881E******\n",__FUNCTION__,__LINE__);*/
++			
++		pdesc->Dword6 &= set_desc(~BIT(16));
++		pdesc->Dword6 &= set_desc(~BIT(17));
++		pdesc->Dword6 &= set_desc(~BIT(18));
++
++		pdesc->Dword6 |= set_desc(pDM_FatTable->antsel_a[aid]<<16);
++		pdesc->Dword6 |= set_desc(pDM_FatTable->antsel_b[aid]<<17);
++		pdesc->Dword6 |= set_desc(pDM_FatTable->antsel_c[aid]<<18);
++			
++	}
++}
++
++
++#if 1 /*def CONFIG_WLAN_HAL*/
++VOID
++ODM_SetTxAntByTxInfo_HAL(
++	struct	rtl8192cd_priv		*priv,
++	PVOID	pdesc_data,
++	u2Byte					aid	
++)
++{
++	PDM_ODM_T	pDM_Odm = &(priv->pshare->_dmODM);
++	pFAT_T		pDM_FatTable = &priv->pshare->_dmODM.DM_FatTable;
++	u4Byte		SupportICType = priv->pshare->_dmODM.SupportICType;
++	PTX_DESC_DATA_88XX	pdescdata = (PTX_DESC_DATA_88XX)pdesc_data;
++
++	if (!(pDM_Odm->SupportAbility & ODM_BB_ANT_DIV))
++		return;
++
++	if (pDM_Odm->AntDivType == CGCS_RX_HW_ANTDIV)
++		return;
++	
++	if (SupportICType == ODM_RTL8881A || SupportICType == ODM_RTL8192E || SupportICType == ODM_RTL8814A) {
++		/*panic_printk("[%s] [%d] ******ODM_SetTxAntByTxInfo_HAL******\n",__FUNCTION__,__LINE__);*/
++		pdescdata->antSel = 1;
++		pdescdata->antSel_A = pDM_FatTable->antsel_a[aid];
++	}
++}
++#endif	/*#ifdef  CONFIG_WLAN_HAL*/
++
++#endif
++
++
++VOID
++ODM_AntDiv_Config(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))
++		ODM_RT_TRACE (pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("WIN Config Antenna Diversity\n"));
++		/*
++		if(pDM_Odm->SupportICType==ODM_RTL8723B)
++		{
++			if((!pDM_Odm->DM_SWAT_Table.ANTA_ON || !pDM_Odm->DM_SWAT_Table.ANTB_ON))
++				pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++		}
++		*/
++		if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++			
++			pDM_Odm->AntDivType = S0S1_TRX_HW_ANTDIV;
++			/**/
++		}	
++#elif (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("CE Config Antenna Diversity\n"));
++				
++		if(pDM_Odm->SupportICType==ODM_RTL8723B)
++		{
++			pDM_Odm->AntDivType = S0S1_SW_ANTDIV;
++			
++		
++		}			
++
++#elif (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("AP Config Antenna Diversity\n"));
++
++	//2 [ NOT_SUPPORT_ANTDIV ]
++	#if(defined(CONFIG_NOT_SUPPORT_ANTDIV)) 
++		pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Disable AntDiv function] : Not Support 2.4G & 5G Antenna Diversity\n"));
++		
++		//2 [ 2G&5G_SUPPORT_ANTDIV ]
++	#elif(defined(CONFIG_2G5G_SUPPORT_ANTDIV))
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Enable AntDiv function] : 2.4G & 5G Support Antenna Diversity Simultaneously \n"));
++		pDM_FatTable->AntDiv_2G_5G = (ODM_ANTDIV_2G|ODM_ANTDIV_5G);
++
++		if(pDM_Odm->SupportICType & ODM_ANTDIV_SUPPORT)
++			pDM_Odm->SupportAbility |= ODM_BB_ANT_DIV;
++		if(*pDM_Odm->pBandType == ODM_BAND_5G )
++		{
++				#if ( defined(CONFIG_5G_CGCS_RX_DIVERSITY) )
++					pDM_Odm->AntDivType = CGCS_RX_HW_ANTDIV; 
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 5G] : AntDiv Type = CGCS_RX_HW_ANTDIV\n"));
++					panic_printk("[ 5G] : AntDiv Type = CGCS_RX_HW_ANTDIV\n");
++				#elif( defined(CONFIG_5G_CG_TRX_DIVERSITY)||defined(CONFIG_2G5G_CG_TRX_DIVERSITY_8881A))
++					pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 5G] : AntDiv Type = CG_TRX_HW_ANTDIV\n"));				
++					panic_printk("[ 5G] : AntDiv Type = CG_TRX_HW_ANTDIV\n");
++				#elif( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) )
++					pDM_Odm->AntDivType = CG_TRX_SMART_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 5G] : AntDiv Type = CG_SMART_ANTDIV\n"));
++				#elif( defined(CONFIG_5G_S0S1_SW_ANT_DIVERSITY) )
++					pDM_Odm->AntDivType = S0S1_SW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 5G] : AntDiv Type = S0S1_SW_ANTDIV\n"));
++				#endif
++		}		
++		else if(*pDM_Odm->pBandType == ODM_BAND_2_4G )
++		 {
++				#if ( defined(CONFIG_2G_CGCS_RX_DIVERSITY) )
++						pDM_Odm->AntDivType = CGCS_RX_HW_ANTDIV;
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 2.4G] : AntDiv Type = CGCS_RX_HW_ANTDIV\n"));		
++				#elif( defined(CONFIG_2G_CG_TRX_DIVERSITY) || defined(CONFIG_2G5G_CG_TRX_DIVERSITY_8881A))
++						pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 2.4G] : AntDiv Type = CG_TRX_HW_ANTDIV\n"));
++				#elif( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++						pDM_Odm->AntDivType = CG_TRX_SMART_ANTDIV;
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 2.4G] : AntDiv Type = CG_SMART_ANTDIV\n"));
++				#elif( defined(CONFIG_2G_S0S1_SW_ANT_DIVERSITY) )
++					pDM_Odm->AntDivType = S0S1_SW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 2.4G] : AntDiv Type = S0S1_SW_ANTDIV\n"));
++				#endif
++		}
++		
++		//2 [ 5G_SUPPORT_ANTDIV ]
++	#elif(defined(CONFIG_5G_SUPPORT_ANTDIV))
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Enable AntDiv function] : Only 5G Support Antenna Diversity\n"));
++		panic_printk("[ Enable AntDiv function] : Only 5G Support Antenna Diversity\n");
++		pDM_FatTable->AntDiv_2G_5G = (ODM_ANTDIV_5G);
++		if(*pDM_Odm->pBandType == ODM_BAND_5G )
++		{
++				if(pDM_Odm->SupportICType & ODM_ANTDIV_5G_SUPPORT_IC)
++				pDM_Odm->SupportAbility |= ODM_BB_ANT_DIV;	
++				#if ( defined(CONFIG_5G_CGCS_RX_DIVERSITY) )
++					pDM_Odm->AntDivType = CGCS_RX_HW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 5G] : AntDiv Type = CGCS_RX_HW_ANTDIV\n"));
++					panic_printk("[ 5G] : AntDiv Type = CGCS_RX_HW_ANTDIV\n");
++				#elif( defined(CONFIG_5G_CG_TRX_DIVERSITY) )
++					pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++					panic_printk("[ 5G] : AntDiv Type = CG_TRX_HW_ANTDIV\n");
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 5G] : AntDiv Type = CG_TRX_HW_ANTDIV\n"));
++				#elif( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) )
++					pDM_Odm->AntDivType = CG_TRX_SMART_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 5G] : AntDiv Type = CG_SMART_ANTDIV\n"));
++				#elif( defined(CONFIG_5G_S0S1_SW_ANT_DIVERSITY) )
++					pDM_Odm->AntDivType = S0S1_SW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 5G] : AntDiv Type = S0S1_SW_ANTDIV\n"));
++				#endif
++		}
++		else if(*pDM_Odm->pBandType == ODM_BAND_2_4G )
++		{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("Not Support 2G AntDivType\n"));
++				pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++		}
++		
++		//2 [ 2G_SUPPORT_ANTDIV ]
++	#elif(defined(CONFIG_2G_SUPPORT_ANTDIV)) 
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Enable AntDiv function] : Only 2.4G Support Antenna Diversity\n"));
++		pDM_FatTable->AntDiv_2G_5G = (ODM_ANTDIV_2G);
++		if(*pDM_Odm->pBandType == ODM_BAND_2_4G )
++		{
++				if(pDM_Odm->SupportICType & ODM_ANTDIV_2G_SUPPORT_IC)
++					pDM_Odm->SupportAbility |= ODM_BB_ANT_DIV;
++				#if ( defined(CONFIG_2G_CGCS_RX_DIVERSITY) )
++					pDM_Odm->AntDivType = CGCS_RX_HW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 2.4G] : AntDiv Type = CGCS_RX_HW_ANTDIV\n"));		
++				#elif( defined(CONFIG_2G_CG_TRX_DIVERSITY) )
++					pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 2.4G] : AntDiv Type = CG_TRX_HW_ANTDIV\n"));
++				#elif( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++					pDM_Odm->AntDivType = CG_TRX_SMART_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 2.4G] : AntDiv Type = CG_SMART_ANTDIV\n"));
++				#elif( defined(CONFIG_2G_S0S1_SW_ANT_DIVERSITY) )
++					pDM_Odm->AntDivType = S0S1_SW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 2.4G] : AntDiv Type = S0S1_SW_ANTDIV\n"));
++				#endif
++		}
++		else if(*pDM_Odm->pBandType == ODM_BAND_5G )
++		{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("Not Support 5G AntDivType\n"));
++				pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++		}
++	#endif	
++#endif	
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[AntDiv Config Info] AntDiv_SupportAbility = (( %x ))\n", ((pDM_Odm->SupportAbility & ODM_BB_ANT_DIV) ? 1 : 0)));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[AntDiv Config Info] be_fix_tx_ant = ((%d))\n", pDM_Odm->DM_FatTable.b_fix_tx_ant));
++
++}
++
++
++VOID
++ODM_AntDivTimers(
++	IN		PVOID		pDM_VOID,	
++	IN 		u1Byte		state
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	if(state==INIT_ANTDIV_TIMMER)
++	{
++		#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++			ODM_InitializeTimer(pDM_Odm, &(pDM_Odm->DM_SWAT_Table.phydm_SwAntennaSwitchTimer),
++			(RT_TIMER_CALL_BACK)ODM_SW_AntDiv_Callback, NULL, "phydm_SwAntennaSwitchTimer");
++		#elif ( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++			ODM_InitializeTimer(pDM_Odm,&pDM_Odm->FastAntTrainingTimer,
++			(RT_TIMER_CALL_BACK)odm_FastAntTrainingCallback, NULL, "FastAntTrainingTimer");
++		#endif
++
++		#ifdef ODM_EVM_ENHANCE_ANTDIV
++			ODM_InitializeTimer(pDM_Odm,&pDM_Odm->EVM_FastAntTrainingTimer,
++			(RT_TIMER_CALL_BACK)odm_EVM_FastAntTrainingCallback, NULL, "EVM_FastAntTrainingTimer");
++		#endif
++	}
++	else if(state==CANCEL_ANTDIV_TIMMER)
++	{
++		#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++			ODM_CancelTimer(pDM_Odm, &(pDM_Odm->DM_SWAT_Table.phydm_SwAntennaSwitchTimer));
++		#elif ( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++			ODM_CancelTimer(pDM_Odm,&pDM_Odm->FastAntTrainingTimer);
++		#endif
++
++		#ifdef ODM_EVM_ENHANCE_ANTDIV
++			ODM_CancelTimer(pDM_Odm,&pDM_Odm->EVM_FastAntTrainingTimer);
++		#endif
++	}
++	else if(state==RELEASE_ANTDIV_TIMMER)
++	{
++		#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++			ODM_ReleaseTimer(pDM_Odm, &(pDM_Odm->DM_SWAT_Table.phydm_SwAntennaSwitchTimer));
++		#elif ( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++			ODM_ReleaseTimer(pDM_Odm,&pDM_Odm->FastAntTrainingTimer);
++		#endif
++
++		#ifdef ODM_EVM_ENHANCE_ANTDIV
++			ODM_ReleaseTimer(pDM_Odm,&pDM_Odm->EVM_FastAntTrainingTimer);
++		#endif
++	}
++
++}
++
++VOID
++phydm_antdiv_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char			*output,
++	IN		u4Byte		*_out_len
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	/*pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;*/
++	u4Byte used = *_used;
++	u4Byte out_len = *_out_len;
++
++	if (dm_value[0] == 1) { /*fixed or auto antenna*/
++	
++		if (dm_value[1] == 0) {
++			pDM_Odm->antdiv_select = 0;
++			PHYDM_SNPRINTF((output+used, out_len-used, "AntDiv: Auto\n"));
++		} else if (dm_value[1] == 1) {
++			pDM_Odm->antdiv_select = 1;
++			PHYDM_SNPRINTF((output+used, out_len-used, "AntDiv: Fix MAin\n"));
++		} else if (dm_value[1] == 2) {
++			pDM_Odm->antdiv_select = 2;
++			PHYDM_SNPRINTF((output+used, out_len-used, "AntDiv: Fix Aux\n"));
++		}
++	} else if (dm_value[0] == 2) { /*dynamic period for AntDiv*/
++	
++		pDM_Odm->antdiv_period = (u1Byte)dm_value[1];
++		PHYDM_SNPRINTF((output+used, out_len-used, "AntDiv_period = ((%d))\n", pDM_Odm->antdiv_period));
++	}	
++}
++
++#endif /*#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))*/
++
++VOID
++ODM_AntDivReset(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (pDM_Odm->AntDivType == S0S1_SW_ANTDIV)
++	{
++		#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++		odm_S0S1_SWAntDiv_Reset(pDM_Odm);
++		#endif
++	}
++
++}
++
++VOID
++odm_AntennaDiversityInit(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	#if 0
++	if(pDM_Odm->mp_mode == TRUE)
++		return;
++	#endif
++	
++	#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++		ODM_AntDiv_Config(pDM_Odm);
++		ODM_AntDivInit(pDM_Odm);
++	#endif
++}
++
++VOID
++odm_AntennaDiversity(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	if(pDM_Odm->mp_mode == TRUE)
++		return;
++
++	#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++		ODM_AntDiv(pDM_Odm);
++	#endif
++}
++
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_antdiv.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_antdiv.h
+new file mode 100644
+index 0000000..c1acbe9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_antdiv.h
+@@ -0,0 +1,621 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef	__PHYDMANTDIV_H__
++#define    __PHYDMANTDIV_H__
++
++/*#define ANTDIV_VERSION	"2.0"  //2014.11.04*/
++/*#define ANTDIV_VERSION	"2.1"  //2015.01.13  Dino*/
++/*#define ANTDIV_VERSION	"2.2"  2015.01.16  Dino*/
++/*#define ANTDIV_VERSION	"3.1"  2015.07.29  YuChen, remove 92c 92d 8723a*/
++/*#define ANTDIV_VERSION	"3.2"  2015.08.11  Stanley, disable antenna diversity when BT is enable for 8723B*/
++/*#define ANTDIV_VERSION	"3.3"  2015.08.12  Stanley. 8723B does not need to check the antenna is control by BT, 
++							because antenna diversity only works when BT is disable or radio off*/
++/*#define ANTDIV_VERSION	"3.4"  2015.08.28  Dino  1.Add 8821A Smart Antenna 2. Add 8188F SW S0S1 Antenna Diversity*/
++/*#define ANTDIV_VERSION	"3.5"  2015.10.07  Stanley  Always check antenna detection result from BT-coex. for 8723B, not from PHYDM*/
++/*#define ANTDIV_VERSION	"3.6"*/  /*2015.11.16  Stanley  */
++/*#define ANTDIV_VERSION	"3.7"*/  /*2015.11.20  Dino Add SmartAnt FAT Patch */
++/*#define ANTDIV_VERSION	"3.8"  2015.12.21  Dino, Add SmartAnt dynamic training packet num */
++#define ANTDIV_VERSION	"3.9"  /*2016.01.05  Dino, Add SmartAnt cmd for converting single & two smtant, and add cmd for adjust truth table */
++
++//1 ============================================================
++//1  Definition 
++//1 ============================================================
++
++#define	ANTDIV_INIT		0xff
++#define	MAIN_ANT	1		/*Ant A or Ant Main   or S1*/
++#define	AUX_ANT		2		/*AntB or Ant Aux   or S0*/
++#define	MAX_ANT		3		/* 3 for AP using*/
++
++#define ANT1_2G 0 /* = ANT2_5G              for 8723D  BTG S1 RX S0S1 diversity for 8723D, TX fixed at S1 */ 
++#define ANT2_2G 1 /* = ANT1_5G             for 8723D  BTG S0  RX S0S1 diversity for 8723D, TX fixed at S1 */ 
++/*smart antenna*/
++#define SUPPORT_RF_PATH_NUM 4
++#define SUPPORT_BEAM_PATTERN_NUM 4
++#define NUM_ANTENNA_8821A	2
++
++#define	NO_FIX_TX_ANT		0
++#define	FIX_TX_AT_MAIN	1
++#define	FIX_AUX_AT_MAIN	2
++
++//Antenna Diversty Control Type
++#define	ODM_AUTO_ANT		0
++#define	ODM_FIX_MAIN_ANT	1
++#define	ODM_FIX_AUX_ANT	2
++
++#define ODM_N_ANTDIV_SUPPORT		(ODM_RTL8188E|ODM_RTL8192E|ODM_RTL8723B|ODM_RTL8188F|ODM_RTL8723D)
++#define ODM_AC_ANTDIV_SUPPORT	(ODM_RTL8821|ODM_RTL8881A|ODM_RTL8812)
++#define ODM_ANTDIV_SUPPORT		(ODM_N_ANTDIV_SUPPORT|ODM_AC_ANTDIV_SUPPORT)
++#define ODM_SMART_ANT_SUPPORT	(ODM_RTL8188E|ODM_RTL8192E)
++#define ODM_HL_SMART_ANT_TYPE1_SUPPORT		(ODM_RTL8821)
++
++#define ODM_ANTDIV_2G_SUPPORT_IC			(ODM_RTL8188E|ODM_RTL8192E|ODM_RTL8723B|ODM_RTL8881A|ODM_RTL8188F|ODM_RTL8723D)
++#define ODM_ANTDIV_5G_SUPPORT_IC			(ODM_RTL8821|ODM_RTL8881A|ODM_RTL8812)
++
++#define ODM_EVM_ENHANCE_ANTDIV_SUPPORT_IC	(ODM_RTL8192E)
++
++#define ODM_ANTDIV_2G	BIT0
++#define ODM_ANTDIV_5G	BIT1
++
++#define ANTDIV_ON	1
++#define ANTDIV_OFF	0
++
++#define FAT_ON	1
++#define FAT_OFF	0
++
++#define TX_BY_DESC	1
++#define TX_BY_REG	0
++
++#define RSSI_METHOD		0
++#define EVM_METHOD		1
++#define CRC32_METHOD	2
++
++#define INIT_ANTDIV_TIMMER		0
++#define CANCEL_ANTDIV_TIMMER	1
++#define RELEASE_ANTDIV_TIMMER	2
++
++#define CRC32_FAIL	1
++#define CRC32_OK	0
++
++#define Evm_RSSI_TH_High	25
++#define Evm_RSSI_TH_Low	20
++
++#define NORMAL_STATE_MIAN	1
++#define NORMAL_STATE_AUX	2
++#define TRAINING_STATE		3
++
++#define FORCE_RSSI_DIFF 10
++
++#define CSI_ON	1
++#define CSI_OFF	0
++
++#define DIVON_CSIOFF 1
++#define DIVOFF_CSION 2
++
++#define BDC_DIV_TRAIN_STATE	0
++#define BDC_BFer_TRAIN_STATE	1
++#define BDC_DECISION_STATE		2
++#define BDC_BF_HOLD_STATE		3
++#define BDC_DIV_HOLD_STATE		4
++
++#define BDC_MODE_1 1
++#define BDC_MODE_2 2
++#define BDC_MODE_3 3
++#define BDC_MODE_4 4
++#define BDC_MODE_NULL 0xff
++
++/*SW S0S1 antenna diversity*/
++#define SWAW_STEP_INIT			0xff
++#define SWAW_STEP_PEEK		0
++#define SWAW_STEP_DETERMINE	1
++
++#define RSSI_CHECK_RESET_PERIOD	10
++#define RSSI_CHECK_THRESHOLD		50
++
++/*Hong Lin Smart antenna*/
++#define HL_SMTANT_2WIRE_DATA_LEN 24
++
++//1 ============================================================
++//1  structure
++//1 ============================================================
++
++
++typedef struct _SW_Antenna_Switch_
++{
++	u1Byte		Double_chk_flag;	/*If current antenna RSSI > "RSSI_CHECK_THRESHOLD", than check this antenna again*/
++	u1Byte		try_flag;
++	s4Byte		PreRSSI;
++	u1Byte		CurAntenna;
++	u1Byte		PreAntenna;
++	u1Byte		RSSI_Trying;
++	u1Byte 		reset_idx;
++	u1Byte		Train_time;
++	u1Byte		Train_time_flag; /*base on RSSI difference between two antennas*/
++	RT_TIMER	phydm_SwAntennaSwitchTimer;
++	u4Byte		PktCnt_SWAntDivByCtrlFrame;
++	BOOLEAN		bSWAntDivByCtrlFrame;
++	
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	#if USE_WORKITEM
++	RT_WORK_ITEM	phydm_SwAntennaSwitchWorkitem;	
++	#endif
++	#endif	
++
++	/* AntDect (Before link Antenna Switch check) need to be moved*/
++	u2Byte		Single_Ant_Counter;
++	u2Byte		Dual_Ant_Counter;
++	u2Byte		Aux_FailDetec_Counter;
++	u2Byte		Retry_Counter;	
++	u1Byte		SWAS_NoLink_State;
++	u4Byte		SWAS_NoLink_BK_Reg948;
++	BOOLEAN		ANTA_ON;	/*To indicate Ant A is or not*/
++	BOOLEAN		ANTB_ON;	/*To indicate Ant B is on or not*/
++	BOOLEAN		Pre_Aux_FailDetec;
++	BOOLEAN		RSSI_AntDect_bResult;	
++	u1Byte		Ant5G;
++	u1Byte		Ant2G;
++
++	
++}SWAT_T, *pSWAT_T;
++
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++typedef struct _BF_DIV_COEX_
++{
++	BOOLEAN w_BFer_Client[ODM_ASSOCIATE_ENTRY_NUM];
++	BOOLEAN w_BFee_Client[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	MA_rx_TP[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	MA_rx_TP_DIV[ODM_ASSOCIATE_ENTRY_NUM];
++
++	u1Byte  BDCcoexType_wBfer;
++	u1Byte num_Txbfee_Client;
++	u1Byte num_Txbfer_Client;
++	u1Byte BDC_Try_counter;
++	u1Byte BDC_Hold_counter;
++	u1Byte BDC_Mode;
++	u1Byte BDC_active_Mode;
++	u1Byte BDC_state;
++	u1Byte BDC_RxIdleUpdate_counter;
++	u1Byte num_Client;
++	u1Byte pre_num_Client;
++	u1Byte num_BfTar;
++	u1Byte num_DivTar;
++	
++	BOOLEAN bAll_DivSta_Idle;
++	BOOLEAN bAll_BFSta_Idle;
++	BOOLEAN BDC_Try_flag;
++	BOOLEAN BF_pass;
++	BOOLEAN DIV_pass;	
++}BDC_T,*pBDC_T;
++#endif
++#endif
++
++#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++typedef struct _SMART_ANTENNA_TRAINNING_ {
++	u4Byte	latch_time;
++	BOOLEAN	pkt_skip_statistic_en;
++	u4Byte	fix_beam_pattern_en;
++	u4Byte	fix_training_num_en;
++	u4Byte	fix_beam_pattern_codeword;
++	u4Byte	update_beam_codeword;
++	u4Byte	ant_num; /*number of used smart beam antenna*/
++	u4Byte	ant_num_total;/*number of total smart beam antenna*/
++	u4Byte	first_train_ant; /*decide witch antenna to train first*/
++	u4Byte	rfu_codeword_table[4]; /*2G beam truth table*/
++	u4Byte	rfu_codeword_table_5g[4]; /*5G beam truth table*/
++	u4Byte	beam_patten_num_each_ant;/*number of  beam can be switched in each antenna*/
++	u4Byte	data_codeword_bit_num;
++	u1Byte	per_beam_training_pkt_num;
++	u1Byte	decision_holding_period;
++	u1Byte	pkt_counter;
++	u4Byte	fast_training_beam_num;
++	u4Byte	pre_fast_training_beam_num;
++	u4Byte	pkt_rssi_pre[SUPPORT_RF_PATH_NUM][SUPPORT_BEAM_PATTERN_NUM];
++	u1Byte	beam_train_cnt[SUPPORT_RF_PATH_NUM][SUPPORT_BEAM_PATTERN_NUM];
++	u1Byte	beam_train_rssi_diff[SUPPORT_RF_PATH_NUM][SUPPORT_BEAM_PATTERN_NUM];
++	u4Byte	pkt_rssi_sum[8][SUPPORT_BEAM_PATTERN_NUM];
++	u4Byte	pkt_rssi_cnt[8][SUPPORT_BEAM_PATTERN_NUM];
++	u4Byte	rx_idle_beam[SUPPORT_RF_PATH_NUM];
++	u4Byte	pre_codeword;
++	BOOLEAN	force_update_beam_en;
++	u4Byte	beacon_counter;
++	u4Byte	pre_beacon_counter;
++	u1Byte	update_beam_idx;
++
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	RT_WORK_ITEM	hl_smart_antenna_workitem;
++	RT_WORK_ITEM	hl_smart_antenna_decision_workitem;	
++	#endif
++
++} SAT_T, *pSAT_T;
++#endif
++
++typedef struct _FAST_ANTENNA_TRAINNING_
++{
++	u1Byte	Bssid[6];
++	u1Byte	antsel_rx_keep_0;
++	u1Byte	antsel_rx_keep_1;
++	u1Byte	antsel_rx_keep_2;
++	u1Byte	antsel_rx_keep_3;
++	u4Byte	antSumRSSI[7];
++	u4Byte	antRSSIcnt[7];
++	u4Byte	antAveRSSI[7];
++	u1Byte	FAT_State;
++	u4Byte	TrainIdx;
++	u1Byte	antsel_a[ODM_ASSOCIATE_ENTRY_NUM];
++	u1Byte	antsel_b[ODM_ASSOCIATE_ENTRY_NUM];
++	u1Byte	antsel_c[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	MainAnt_Sum[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	AuxAnt_Sum[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	MainAnt_Cnt[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	AuxAnt_Cnt[ODM_ASSOCIATE_ENTRY_NUM];
++	u1Byte	RxIdleAnt;
++	u1Byte	AntDiv_OnOff;
++	BOOLEAN	bBecomeLinked;
++	u4Byte	MinMaxRSSI;
++	u1Byte	idx_AntDiv_counter_2G;
++	u1Byte	idx_AntDiv_counter_5G;
++	u1Byte	AntDiv_2G_5G;
++	u4Byte    CCK_counter_main;
++	u4Byte    CCK_counter_aux;	
++	u4Byte    OFDM_counter_main;
++	u4Byte    OFDM_counter_aux;
++
++	#ifdef ODM_EVM_ENHANCE_ANTDIV
++	u4Byte	MainAntEVM_Sum[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	AuxAntEVM_Sum[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	MainAntEVM_Cnt[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	AuxAntEVM_Cnt[ODM_ASSOCIATE_ENTRY_NUM];
++	BOOLEAN	EVM_method_enable;
++	u1Byte	TargetAnt_EVM;
++	u1Byte	TargetAnt_CRC32;
++	u1Byte	TargetAnt_enhance;
++	u1Byte	pre_TargetAnt_enhance;
++	u2Byte	Main_MPDU_OK_cnt;
++	u2Byte	Aux_MPDU_OK_cnt;	
++
++	u4Byte	CRC32_Ok_Cnt;
++	u4Byte	CRC32_Fail_Cnt;
++	u4Byte	MainCRC32_Ok_Cnt;
++	u4Byte	AuxCRC32_Ok_Cnt;
++	u4Byte	MainCRC32_Fail_Cnt;
++	u4Byte	AuxCRC32_Fail_Cnt;
++	#endif	
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	u4Byte    CCK_CtrlFrame_Cnt_main;
++	u4Byte    CCK_CtrlFrame_Cnt_aux;
++	u4Byte    OFDM_CtrlFrame_Cnt_main;
++	u4Byte    OFDM_CtrlFrame_Cnt_aux;
++	u4Byte	MainAnt_CtrlFrame_Sum;
++	u4Byte	AuxAnt_CtrlFrame_Sum;
++	u4Byte	MainAnt_CtrlFrame_Cnt;
++	u4Byte	AuxAnt_CtrlFrame_Cnt;
++	#endif
++	u1Byte	b_fix_tx_ant;
++	BOOLEAN	fix_ant_bfee;
++	BOOLEAN	enable_ctrl_frame_antdiv;
++	BOOLEAN	use_ctrl_frame_antdiv;
++	u1Byte	hw_antsw_occur;
++	u1Byte	*pForceTxAntByDesc;
++	u1Byte	ForceTxAntByDesc; /*A temp value, will hook to driver team's outer parameter later*/
++}FAT_T,*pFAT_T;
++
++
++//1 ============================================================
++//1  enumeration
++//1 ============================================================
++
++
++
++typedef enum _FAT_STATE /*Fast antenna training*/
++{
++	FAT_BEFORE_LINK_STATE	= 0,
++	FAT_PREPARE_STATE			= 1,
++	FAT_TRAINING_STATE		= 2,
++	FAT_DECISION_STATE		= 3
++}FAT_STATE_E, *PFAT_STATE_E;
++
++typedef enum _ANT_DIV_TYPE
++{
++	NO_ANTDIV			= 0xFF,	
++	CG_TRX_HW_ANTDIV			= 0x01,
++	CGCS_RX_HW_ANTDIV		= 0x02,
++	FIXED_HW_ANTDIV		= 0x03,
++	CG_TRX_SMART_ANTDIV	= 0x04,
++	CGCS_RX_SW_ANTDIV	= 0x05,
++	S0S1_SW_ANTDIV          = 0x06, /*8723B intrnal switch S0 S1*/
++	S0S1_TRX_HW_ANTDIV     = 0x07, /*TRX S0S1 diversity for 8723D*/
++	HL_SW_SMART_ANT_TYPE1	= 0x10 /*Hong-Lin Smart antenna use for 8821AE which is a 2 Ant. entitys, and each Ant. is equipped with 4 antenna patterns*/
++}ANT_DIV_TYPE_E, *PANT_DIV_TYPE_E;
++
++
++//1 ============================================================
++//1  function prototype
++//1 ============================================================
++
++
++VOID
++ODM_StopAntennaSwitchDm(
++	IN	PVOID	pDM_VOID
++	);
++VOID
++ODM_SetAntConfig(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte		antSetting	// 0=A, 1=B, 2=C, ....
++	);
++
++
++#define SwAntDivRestAfterLink	ODM_SwAntDivRestAfterLink
++
++VOID ODM_SwAntDivRestAfterLink(	
++	IN	PVOID	pDM_VOID
++	);
++
++#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++
++VOID
++ODM_UpdateRxIdleAnt(
++	IN		PVOID		pDM_VOID, 
++	IN		 u1Byte		Ant
++);
++
++#if (RTL8723B_SUPPORT == 1)
++VOID
++ODM_UpdateRxIdleAnt_8723B(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Ant,
++	IN		u4Byte			DefaultAnt, 
++	IN		u4Byte			OptionalAnt
++);
++#endif
++
++#if (RTL8188F_SUPPORT == 1)
++VOID
++phydm_update_rx_idle_antenna_8188F(
++	IN	PVOID	pDM_VOID,
++	IN	u4Byte	default_ant
++);
++#endif
++
++#if (RTL8723D_SUPPORT == 1)
++
++VOID
++phydm_set_tx_ant_pwr_8723d(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Ant
++);
++
++#endif
++
++#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++ODM_SW_AntDiv_Callback(
++	IN 	PRT_TIMER		pTimer
++	);
++
++VOID
++ODM_SW_AntDiv_WorkitemCallback(
++	IN	PVOID	pContext
++	);
++
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++VOID
++ODM_SW_AntDiv_WorkitemCallback(
++	IN PVOID	pContext
++);
++
++VOID
++ODM_SW_AntDiv_Callback(
++	void 		*FunctionContext
++	);
++
++#endif
++
++VOID
++odm_S0S1_SwAntDivByCtrlFrame(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Step
++);
++
++VOID
++odm_AntselStatisticsOfCtrlFrame(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			antsel_tr_mux,
++	IN		u4Byte			RxPWDBAll
++);
++
++VOID
++odm_S0S1_SwAntDivByCtrlFrame_ProcessRSSI(
++	IN		PVOID				pDM_VOID,
++	IN		PVOID		p_phy_info_void,
++	IN		PVOID		p_pkt_info_void
++);
++
++#endif
++
++#ifdef ODM_EVM_ENHANCE_ANTDIV
++VOID
++odm_EVM_FastAntTrainingCallback(
++	IN		PVOID		pDM_VOID
++);
++#endif
++
++VOID
++odm_HW_AntDiv(
++	IN		PVOID		pDM_VOID
++);
++
++#if( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++VOID
++odm_FastAntTraining(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++odm_FastAntTrainingCallback(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++odm_FastAntTrainingWorkItemCallback(
++	IN		PVOID		pDM_VOID
++);
++#endif
++
++
++#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++phydm_beam_switch_workitem_callback(
++	IN	PVOID	pContext
++	);
++
++VOID
++phydm_beam_decision_workitem_callback(
++	IN	PVOID	pContext
++	);
++
++#endif
++
++VOID
++phydm_update_beam_pattern(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		codeword,
++	IN		u4Byte		codeword_length
++	);
++
++void
++phydm_set_all_ant_same_beam_num(
++	IN		PVOID		pDM_VOID
++	);
++
++VOID
++phydm_hl_smart_ant_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char			*output,
++	IN		u4Byte		*_out_len
++);
++
++#endif/*#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1*/
++
++VOID
++ODM_AntDivInit(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++ODM_AntDiv(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++odm_AntselStatistics(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			antsel_tr_mux,
++	IN		u4Byte			MacId,
++	IN		u4Byte			utility,
++	IN		u1Byte			method
++);
++
++VOID
++ODM_Process_RSSIForAntDiv(	
++	IN OUT	PVOID		pDM_VOID,
++	IN		PVOID		p_phy_info_void,
++	IN		PVOID		p_pkt_info_void
++);
++
++
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++VOID
++ODM_SetTxAntByTxInfo(
++	IN		PVOID			pDM_VOID,
++	IN		pu1Byte			pDesc,
++	IN		u1Byte			macId	
++);
++
++#elif(DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++struct tx_desc; /*declared tx_desc here or compile error happened when enabled 8822B*/
++
++VOID
++ODM_SetTxAntByTxInfo(
++	struct	rtl8192cd_priv		*priv,
++	struct 	tx_desc			*pdesc,
++	unsigned short			aid	
++);
++
++#if 1/*def def CONFIG_WLAN_HAL*/
++VOID
++ODM_SetTxAntByTxInfo_HAL(
++	struct	rtl8192cd_priv		*priv,
++	PVOID	pdesc_data,
++	u2Byte		aid	
++);
++#endif	/*#ifdef  CONFIG_WLAN_HAL*/
++#endif
++
++
++VOID
++ODM_AntDiv_Config(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++ODM_AntDivTimers(
++	IN		PVOID		pDM_VOID,
++	IN 		u1Byte		state
++);
++
++VOID
++phydm_antdiv_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char			*output,
++	IN		u4Byte		*_out_len
++);
++
++#endif /*#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))*/
++
++VOID
++ODM_AntDivReset(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++odm_AntennaDiversityInit(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++odm_AntennaDiversity(
++	IN		PVOID		pDM_VOID
++);
++
++#endif /*#ifndef	__ODMANTDIV_H__*/
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_beamforming.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_beamforming.c
+new file mode 100644
+index 0000000..624810a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_beamforming.c
+@@ -0,0 +1,1956 @@
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#if WPP_SOFTWARE_TRACE
++#include "phydm_beamforming.tmh"
++#endif
++#endif
++
++#if (BEAMFORMING_SUPPORT == 1)
++
++PRT_BEAMFORM_STAINFO
++phydm_staInfoInit(
++	IN PDM_ODM_T		pDM_Odm,
++	IN u2Byte			staIdx
++	)
++{
++	PRT_BEAMFORMING_INFO		pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORM_STAINFO		pEntry = &(pBeamInfo->BeamformSTAinfo);
++	PSTA_INFO_T					pSTA = pDM_Odm->pODM_StaInfo[staIdx];
++	PADAPTER					Adapter = pDM_Odm->Adapter;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PMGNT_INFO					pMgntInfo = &Adapter->MgntInfo;
++	PRT_HIGH_THROUGHPUT		pHTInfo = GET_HT_INFO(pMgntInfo);
++	PRT_VERY_HIGH_THROUGHPUT	pVHTInfo = GET_VHT_INFO(pMgntInfo);
++
++	ODM_MoveMemory(pDM_Odm, pEntry->MyMacAddr, Adapter->CurrentAddress, 6);
++	
++	pEntry->HtBeamformCap = pHTInfo->HtBeamformCap;
++	pEntry->VhtBeamformCap = pVHTInfo->VhtBeamformCap;
++
++	/*IBSS, AP mode*/
++	if (staIdx != 0) {
++		pEntry->AID = pSTA->AID;
++		pEntry->RA = pSTA->MacAddr;
++		pEntry->MacID = pSTA->AssociatedMacId;
++		pEntry->WirelessMode = pSTA->WirelessMode;
++		pEntry->BW = pSTA->BandWidth;
++		pEntry->CurBeamform = pSTA->HTInfo.HtCurBeamform;
++	} else {/*client mode*/
++		pEntry->AID = pMgntInfo->mAId;
++		pEntry->RA = pMgntInfo->Bssid;
++		pEntry->MacID = pMgntInfo->mMacId;
++		pEntry->WirelessMode = pMgntInfo->dot11CurrentWirelessMode;
++		pEntry->BW = pMgntInfo->dot11CurrentChannelBandWidth;
++		pEntry->CurBeamform = pHTInfo->HtCurBeamform;
++	}	
++
++	if ((pEntry->WirelessMode & WIRELESS_MODE_AC_5G) || (pEntry->WirelessMode & WIRELESS_MODE_AC_24G)) {
++		if (staIdx != 0)
++			pEntry->CurBeamformVHT = pSTA->VHTInfo.VhtCurBeamform;
++		else
++			pEntry->CurBeamformVHT = pVHTInfo->VhtCurBeamform;	
++		}
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("pSTA->wireless_mode = 0x%x, staidx = %d\n", pSTA->WirelessMode, staIdx));
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++	if (!IS_STA_VALID(pSTA)) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s => sta_info(mac_id:%d) failed\n", __func__, staIdx));
++		rtw_warn_on(1);
++		return pEntry;
++	}
++
++	ODM_MoveMemory(pDM_Odm, pEntry->MyMacAddr, adapter_mac_addr(pSTA->padapter), 6);
++	pEntry->HtBeamformCap = pSTA->htpriv.beamform_cap;
++
++	pEntry->AID = pSTA->aid;
++	pEntry->RA = pSTA->hwaddr;
++	pEntry->MacID = pSTA->mac_id;
++	pEntry->WirelessMode = pSTA->wireless_mode;
++	pEntry->BW = pSTA->bw_mode;
++
++	pEntry->CurBeamform = pSTA->htpriv.beamform_cap;
++#if	ODM_IC_11AC_SERIES_SUPPORT
++	if ((pEntry->WirelessMode & WIRELESS_MODE_AC_5G) || (pEntry->WirelessMode & WIRELESS_MODE_AC_24G)) {
++		pEntry->CurBeamformVHT = pSTA->vhtpriv.beamform_cap;
++		pEntry->VhtBeamformCap = pSTA->vhtpriv.beamform_cap;
++	}
++#endif
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("pSTA->wireless_mode = 0x%x, staidx = %d\n", pSTA->wireless_mode, staIdx));
++#endif
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("pEntry->CurBeamform = 0x%x, pEntry->CurBeamformVHT = 0x%x\n", pEntry->CurBeamform, pEntry->CurBeamformVHT));
++	return pEntry;
++
++}
++void phydm_staInfoUpdate(
++	IN PDM_ODM_T			pDM_Odm,
++	IN u2Byte				staIdx,
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry
++	)
++{
++	PSTA_INFO_T pSTA = pDM_Odm->pODM_StaInfo[staIdx];
++	
++	if (!IS_STA_VALID(pSTA))
++		return;
++	
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	pSTA->txbf_paid = pBeamformEntry->P_AID;
++	pSTA->txbf_gid = pBeamformEntry->G_ID;
++#endif	
++}
++	
++
++u1Byte
++Beamforming_GetHTNDPTxRate(
++	IN	PVOID	pDM_VOID,
++	u1Byte	CompSteeringNumofBFer
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte Nr_index = 0;
++	u1Byte NDPTxRate;
++	/*Find Nr*/
++	
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		Nr_index = TxBF_Nr(halTxbf8814A_GetNtx(pDM_Odm), CompSteeringNumofBFer);
++	else
++		Nr_index = TxBF_Nr(1, CompSteeringNumofBFer);
++	
++	switch (Nr_index) {
++	case 1:
++	NDPTxRate = MGN_MCS8;
++	break;
++
++	case 2:
++	NDPTxRate = MGN_MCS16;
++	break;
++
++	case 3:
++	NDPTxRate = MGN_MCS24;
++	break;
++			
++	default:
++	NDPTxRate = MGN_MCS8;
++	break;
++	}
++
++return NDPTxRate;
++
++}
++
++u1Byte
++Beamforming_GetVHTNDPTxRate(
++	IN	PVOID	pDM_VOID,
++	u1Byte	CompSteeringNumofBFer
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte Nr_index = 0;
++	u1Byte NDPTxRate;
++	/*Find Nr*/
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		Nr_index = TxBF_Nr(halTxbf8814A_GetNtx(pDM_Odm), CompSteeringNumofBFer);
++	else
++		Nr_index = TxBF_Nr(1, CompSteeringNumofBFer);
++	
++	switch (Nr_index) {
++	case 1:
++	NDPTxRate = MGN_VHT2SS_MCS0;
++	break;
++
++	case 2:
++	NDPTxRate = MGN_VHT3SS_MCS0;
++	break;
++
++	case 3:
++	NDPTxRate = MGN_VHT4SS_MCS0;
++	break;
++			
++	default:
++	NDPTxRate = MGN_VHT2SS_MCS0;
++	break;
++	}
++
++return NDPTxRate;
++
++}
++
++
++PRT_BEAMFORMEE_ENTRY
++phydm_Beamforming_GetBFeeEntryByAddr(
++	IN	PVOID		pDM_VOID,
++	IN	pu1Byte		RA,
++	OUT	pu1Byte		Idx
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	i = 0;
++	PRT_BEAMFORMING_INFO pBeamInfo = &pDM_Odm->BeamformingInfo;
++	
++	for (i = 0; i < BEAMFORMEE_ENTRY_NUM; i++) {
++		if (pBeamInfo->BeamformeeEntry[i].bUsed && (eqMacAddr(RA, pBeamInfo->BeamformeeEntry[i].MacAddr))) {
++			*Idx = i;
++			return &(pBeamInfo->BeamformeeEntry[i]);
++		}
++	}
++
++	return NULL;
++}
++
++PRT_BEAMFORMER_ENTRY
++phydm_Beamforming_GetBFerEntryByAddr(
++	IN	PVOID	pDM_VOID,
++	IN	pu1Byte 	TA,
++	OUT	pu1Byte	Idx
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte		i = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	
++	for (i = 0; i < BEAMFORMER_ENTRY_NUM; i++) {
++		if (pBeamInfo->BeamformerEntry[i].bUsed &&  (eqMacAddr(TA, pBeamInfo->BeamformerEntry[i].MacAddr))) {
++			*Idx = i;
++			return &(pBeamInfo->BeamformerEntry[i]);
++		}
++	}
++
++	return NULL;
++}
++
++
++PRT_BEAMFORMEE_ENTRY
++phydm_Beamforming_GetEntryByMacId(
++	IN	PVOID		pDM_VOID,
++	IN	u1Byte		MacId,
++	OUT	pu1Byte		Idx
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	i = 0;
++	PRT_BEAMFORMING_INFO pBeamInfo = &pDM_Odm->BeamformingInfo;
++	
++	for (i = 0; i < BEAMFORMEE_ENTRY_NUM; i++) {
++		if (pBeamInfo->BeamformeeEntry[i].bUsed && (MacId == pBeamInfo->BeamformeeEntry[i].MacId)) {
++			*Idx = i;
++			return &(pBeamInfo->BeamformeeEntry[i]);
++		}
++	}
++
++	return NULL;
++}
++
++
++BEAMFORMING_CAP
++phydm_Beamforming_GetEntryBeamCapByMacId(
++	IN	PVOID		pDM_VOID,
++	IN	u1Byte		MacId
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	i = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	BEAMFORMING_CAP			BeamformEntryCap = BEAMFORMING_CAP_NONE;
++	
++	for (i = 0; i < BEAMFORMEE_ENTRY_NUM; i++) {
++		if (pBeamInfo->BeamformeeEntry[i].bUsed && (MacId == pBeamInfo->BeamformeeEntry[i].MacId)) {
++			BeamformEntryCap =  pBeamInfo->BeamformeeEntry[i].BeamformEntryCap;
++			i = BEAMFORMEE_ENTRY_NUM;
++		}
++	}
++
++	return BeamformEntryCap;
++}
++
++
++PRT_BEAMFORMEE_ENTRY
++phydm_Beamforming_GetFreeBFeeEntry(
++	IN	PVOID		pDM_VOID,
++	OUT	pu1Byte		Idx
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	i = 0;
++	PRT_BEAMFORMING_INFO pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	for (i = 0; i < BEAMFORMEE_ENTRY_NUM; i++) {
++		if (pBeamInfo->BeamformeeEntry[i].bUsed == FALSE) {
++			*Idx = i;
++			return &(pBeamInfo->BeamformeeEntry[i]);
++		}	
++	}
++	return NULL;
++}
++
++PRT_BEAMFORMER_ENTRY
++phydm_Beamforming_GetFreeBFerEntry(
++	IN	PVOID		pDM_VOID,
++	OUT	pu1Byte		Idx
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	i = 0;
++	PRT_BEAMFORMING_INFO pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s ===>\n", __func__));
++
++	for (i = 0; i < BEAMFORMER_ENTRY_NUM; i++) {
++		if (pBeamInfo->BeamformerEntry[i].bUsed == FALSE) {
++			*Idx = i;
++			return &(pBeamInfo->BeamformerEntry[i]);
++		}	
++	}
++	return NULL;
++}
++
++/*
++// Description: Get the first entry index of MU Beamformee.
++//
++// Return Value: Index of the first MU sta.
++//
++// 2015.05.25. Created by tynli.
++//
++*/
++u1Byte
++phydm_Beamforming_GetFirstMUBFeeEntryIdx(
++	IN	PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte					idx = 0xFF;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	BOOLEAN					bFound = FALSE;
++
++	for (idx = 0; idx < BEAMFORMEE_ENTRY_NUM; idx++) {
++		if (pBeamInfo->BeamformeeEntry[idx].bUsed && pBeamInfo->BeamformeeEntry[idx].is_mu_sta) {			
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] idx=%d!\n", __func__, idx));
++			bFound = TRUE;
++			break;
++		}	
++	}
++
++	if (!bFound)
++		idx = 0xFF;
++
++	return idx;
++}
++
++
++/*Add SU BFee and MU BFee*/
++PRT_BEAMFORMEE_ENTRY
++Beamforming_AddBFeeEntry(
++	IN	PVOID					pDM_VOID,
++	IN	PRT_BEAMFORM_STAINFO	pSTA,
++	IN	BEAMFORMING_CAP		BeamformCap,
++	IN	u1Byte					NumofSoundingDim,
++	IN	u1Byte					CompSteeringNumofBFer,
++	OUT	pu1Byte					Idx
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMEE_ENTRY	pEntry = phydm_Beamforming_GetFreeBFeeEntry(pDM_Odm, Idx);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	if (pEntry != NULL) {	
++		pEntry->bUsed = TRUE;
++		pEntry->AID = pSTA->AID;
++		pEntry->MacId = pSTA->MacID;
++		pEntry->SoundBW = pSTA->BW;
++		ODM_MoveMemory(pDM_Odm, pEntry->MyMacAddr, pSTA->MyMacAddr, 6);
++		
++		if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_AP)) {
++			/*BSSID[44:47] xor BSSID[40:43]*/
++			u2Byte BSSID = ((pSTA->MyMacAddr[5] & 0xf0) >> 4) ^ (pSTA->MyMacAddr[5] & 0xf);
++			/*(dec(A) + dec(B)*32) mod 512*/
++			pEntry->P_AID = (pSTA->AID + BSSID * 32) & 0x1ff;
++			pEntry->G_ID = 63;
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: BFee P_AID addressed to STA=%d\n", __func__, pEntry->P_AID));
++		} else if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS)) {
++			/*ad hoc mode*/
++			pEntry->P_AID = 0;
++			pEntry->G_ID = 63;
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: BFee P_AID as IBSS=%d\n", __func__, pEntry->P_AID));
++		} else {
++			/*client mode*/
++			pEntry->P_AID =  pSTA->RA[5];
++			/*BSSID[39:47]*/
++			pEntry->P_AID = (pEntry->P_AID << 1) | (pSTA->RA[4] >> 7);
++			pEntry->G_ID = 0;
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: BFee P_AID addressed to AP=0x%X\n", __func__, pEntry->P_AID));
++		}
++		cpMacAddr(pEntry->MacAddr, pSTA->RA);
++		pEntry->bTxBF = FALSE;
++		pEntry->bSound = FALSE;
++		pEntry->SoundPeriod = 400;
++		pEntry->BeamformEntryCap = BeamformCap;
++		pEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_UNINITIALIZE;
++
++/*		pEntry->LogSeq = 0xff;				Move to Beamforming_AddBFerEntry*/
++/*		pEntry->LogRetryCnt = 0;			Move to Beamforming_AddBFerEntry*/
++/*		pEntry->LogSuccessCnt = 0;		Move to Beamforming_AddBFerEntry*/
++
++		pEntry->LogStatusFailCnt = 0;
++
++		pEntry->NumofSoundingDim = NumofSoundingDim;
++		pEntry->CompSteeringNumofBFer = CompSteeringNumofBFer;
++
++		if (BeamformCap & BEAMFORMER_CAP_VHT_MU) {
++			pDM_Odm->BeamformingInfo.beamformee_mu_cnt += 1;
++			pEntry->is_mu_sta = TRUE;
++			pDM_Odm->BeamformingInfo.FirstMUBFeeIndex = phydm_Beamforming_GetFirstMUBFeeEntryIdx(pDM_Odm);
++		} else if  (BeamformCap & (BEAMFORMER_CAP_VHT_SU|BEAMFORMER_CAP_HT_EXPLICIT)) {
++			pDM_Odm->BeamformingInfo.beamformee_su_cnt += 1;
++			pEntry->is_mu_sta = FALSE;
++		}
++
++		return pEntry;
++	}
++	else
++		return NULL;
++}
++
++/*Add SU BFee and MU BFer*/
++PRT_BEAMFORMER_ENTRY
++Beamforming_AddBFerEntry(
++	IN	PVOID					pDM_VOID,
++	IN	PRT_BEAMFORM_STAINFO	pSTA,
++	IN	BEAMFORMING_CAP		BeamformCap,
++	IN	u1Byte					NumofSoundingDim,
++	OUT	pu1Byte					Idx
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMER_ENTRY	pEntry = phydm_Beamforming_GetFreeBFerEntry(pDM_Odm, Idx);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	if (pEntry != NULL) {
++		pEntry->bUsed = TRUE;
++		ODM_MoveMemory(pDM_Odm, pEntry->MyMacAddr, pSTA->MyMacAddr, 6);
++		if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_AP)) {
++			/*BSSID[44:47] xor BSSID[40:43]*/
++			u2Byte BSSID = ((pSTA->MyMacAddr[5] & 0xf0) >> 4) ^ (pSTA->MyMacAddr[5] & 0xf);
++			
++			pEntry->P_AID = (pSTA->AID + BSSID * 32) & 0x1ff;
++			pEntry->G_ID = 63;
++			/*(dec(A) + dec(B)*32) mod 512*/
++		} else if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS)) {
++			pEntry->P_AID = 0;
++			pEntry->G_ID = 63;
++		} else {
++			pEntry->P_AID =  pSTA->RA[5];
++			/*BSSID[39:47]*/
++			pEntry->P_AID = (pEntry->P_AID << 1) | (pSTA->RA[4] >> 7);
++			pEntry->G_ID = 0;
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: P_AID addressed to AP=0x%X\n", __func__, pEntry->P_AID));
++		}
++		
++		cpMacAddr(pEntry->MacAddr, pSTA->RA);
++		pEntry->BeamformEntryCap = BeamformCap;
++
++		pEntry->PreLogSeq = 0;	/*Modified by Jeffery @2015-04-13*/
++		pEntry->LogSeq = 0;		/*Modified by Jeffery @2014-10-29*/
++		pEntry->LogRetryCnt = 0;	/*Modified by Jeffery @2014-10-29*/
++		pEntry->LogSuccess = 0;	/*LogSuccess is NOT needed to be accumulated, so  LogSuccessCnt->LogSuccess, 2015-04-13, Jeffery*/
++		pEntry->ClockResetTimes = 0;	/*Modified by Jeffery @2015-04-13*/
++
++		pEntry->NumofSoundingDim = NumofSoundingDim;
++
++		if (BeamformCap & BEAMFORMEE_CAP_VHT_MU) {
++			pDM_Odm->BeamformingInfo.beamformer_mu_cnt += 1;
++			pEntry->is_mu_ap = TRUE;
++			pEntry->AID = pSTA->AID;
++		} else if (BeamformCap & (BEAMFORMEE_CAP_VHT_SU|BEAMFORMEE_CAP_HT_EXPLICIT)) {
++			pDM_Odm->BeamformingInfo.beamformer_su_cnt += 1;
++			pEntry->is_mu_ap = FALSE;
++		}
++
++		return pEntry;
++	}
++	else
++		return NULL;
++}
++
++#if 0
++BOOLEAN
++Beamforming_RemoveEntry(
++	IN	PADAPTER			Adapter,
++	IN	pu1Byte		RA,
++	OUT	pu1Byte		Idx
++	)
++{
++	HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T				pDM_Odm = &pHalData->DM_OutSrc;
++
++	PRT_BEAMFORMER_ENTRY	pBFerEntry = phydm_Beamforming_GetBFerEntryByAddr(pDM_Odm, RA, Idx);
++	PRT_BEAMFORMEE_ENTRY	pEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, Idx);
++	BOOLEAN ret = FALSE;
++    
++	RT_DISP(FBEAM, FBEAM_FUN, ("[Beamforming]@%s Start!\n", __func__));
++	RT_DISP(FBEAM, FBEAM_FUN, ("[Beamforming]@%s, pBFerEntry=0x%x\n", __func__, pBFerEntry));
++	RT_DISP(FBEAM, FBEAM_FUN, ("[Beamforming]@%s, pEntry=0x%x\n", __func__, pEntry));
++	
++	if (pEntry != NULL) {	
++		pEntry->bUsed = FALSE;
++		pEntry->BeamformEntryCap = BEAMFORMING_CAP_NONE;
++		/*pEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_UNINITIALIZE;*/
++		pEntry->bBeamformingInProgress = FALSE;
++		ret = TRUE;
++	} 
++	if (pBFerEntry != NULL) {
++		pBFerEntry->bUsed = FALSE;
++		pBFerEntry->BeamformEntryCap = BEAMFORMING_CAP_NONE;
++		ret = TRUE;
++	}
++	return ret;
++
++}
++#endif
++
++/* Used for BeamformingStart_V1  */
++VOID
++phydm_Beamforming_NDPARate(
++	IN	PVOID		pDM_VOID,
++	CHANNEL_WIDTH 	BW, 
++	u1Byte			Rate
++)
++{
++	u2Byte			NDPARate = Rate;
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	if (NDPARate == 0) {
++		if(pDM_Odm->RSSI_Min > 30) // link RSSI > 30%
++			NDPARate = ODM_RATE24M;
++		else
++			NDPARate = ODM_RATE6M;
++	}
++
++	if (NDPARate < ODM_RATEMCS0)
++		BW = (CHANNEL_WIDTH)ODM_BW20M;
++
++	NDPARate = (NDPARate << 8) | BW;
++	HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_RATE, (pu1Byte)&NDPARate);
++
++}
++
++
++/* Used for BeamformingStart_SW and  BeamformingStart_FW */
++VOID
++phydm_Beamforming_DymNDPARate(
++	IN	PVOID		pDM_VOID
++)
++{
++	u2Byte			NDPARate = ODM_RATE6M, BW;
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	if (pDM_Odm->RSSI_Min > 30)	/*link RSSI > 30%*/
++		NDPARate = ODM_RATE24M;
++	else
++		NDPARate = ODM_RATE6M;
++
++	BW = ODM_BW20M;
++	NDPARate = NDPARate << 8 | BW;
++	HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_RATE, (pu1Byte)&NDPARate);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s End, NDPA Rate = 0x%X\n", __func__, NDPARate));
++}
++
++/*	
++*	SW Sounding : SW Timer unit 1ms 
++*				 HW Timer unit (1/32000) s  32k is clock. 
++*	FW Sounding : FW Timer unit 10ms
++*/
++VOID
++Beamforming_DymPeriod(
++	IN	PVOID		pDM_VOID,
++	IN  u8          status
++)
++{
++	u1Byte 					Idx;
++	BOOLEAN					bChangePeriod = FALSE;	
++	u2Byte					SoundPeriod_SW, SoundPeriod_FW;
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_SOUNDING_INFO		pSoundInfo = &(pBeamInfo->SoundingInfo);
++
++	PRT_BEAMFORMEE_ENTRY	pEntry = &(pBeamInfo->BeamformeeEntry[pBeamInfo->BeamformeeCurIdx]);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++	
++	//3 TODO  per-client throughput caculation.
++
++	if ((*(pDM_Odm->pCurrentTxTP) + *(pDM_Odm->pCurrentRxTP) > 2) && ((pEntry->LogStatusFailCnt <= 20) || status)) {
++		SoundPeriod_SW = 40;	/* 40ms */
++		SoundPeriod_FW = 40;	/* From  H2C cmd, unit = 10ms */
++	} else {
++		SoundPeriod_SW = 4000;/* 4s */
++		SoundPeriod_FW = 400;
++	}
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]SoundPeriod_SW=%d, SoundPeriod_FW=%d\n",	__func__, SoundPeriod_SW, SoundPeriod_FW));
++
++	for (Idx = 0; Idx < BEAMFORMEE_ENTRY_NUM; Idx++) {
++		pBeamformEntry = pBeamInfo->BeamformeeEntry+Idx;
++		
++		if (pBeamformEntry->DefaultCSICnt > 20) {
++			/*Modified by David*/
++			SoundPeriod_SW = 4000;
++			SoundPeriod_FW = 400;
++		}
++		
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Period = %d\n", __func__, SoundPeriod_SW));		
++		if (pBeamformEntry->BeamformEntryCap & (BEAMFORMER_CAP_HT_EXPLICIT | BEAMFORMER_CAP_VHT_SU)) {
++			if (pSoundInfo->SoundMode == SOUNDING_FW_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_FW_HT_TIMER) {				
++				if (pBeamformEntry->SoundPeriod != SoundPeriod_FW) {
++					pBeamformEntry->SoundPeriod = SoundPeriod_FW;
++					bChangePeriod = TRUE;		/*Only FW sounding need to send H2C packet to change sound period. */
++				}
++			} else if (pBeamformEntry->SoundPeriod != SoundPeriod_SW) {
++				pBeamformEntry->SoundPeriod = SoundPeriod_SW;
++			}
++		}
++	}
++
++	if (bChangePeriod)
++		HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_FW_NDPA, (pu1Byte)&Idx);
++}
++
++
++
++
++BOOLEAN
++Beamforming_SendHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW,
++	IN	u1Byte			QIdx
++	)
++{
++	BOOLEAN		ret = TRUE;
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (QIdx == BEACON_QUEUE)
++		ret = SendFWHTNDPAPacket(pDM_Odm, RA, BW);
++	else
++		ret = SendSWHTNDPAPacket(pDM_Odm, RA, BW);
++
++	return ret;
++}
++
++
++
++BOOLEAN
++Beamforming_SendVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW,
++	IN	u1Byte			QIdx
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	BOOLEAN		ret = TRUE;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++
++	HalComTxbf_Set(pDM_Odm, TXBF_SET_GET_TX_RATE, NULL);
++
++	if ((pDM_Odm->TxBfDataRate >= ODM_RATEVHTSS3MCS7) && (pDM_Odm->TxBfDataRate <= ODM_RATEVHTSS3MCS9)) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s: 3SS VHT 789 don't sounding\n", __func__));
++
++	} else  {
++		if (QIdx == BEACON_QUEUE) /* Send to reserved page => FW NDPA */
++			ret = SendFWVHTNDPAPacket(pDM_Odm, RA, AID, BW);
++		else {
++#ifdef SUPPORT_MU_BF
++		#if (SUPPORT_MU_BF == 1)
++			pBeamInfo->is_mu_sounding = TRUE;
++			ret = SendSWVHTMUNDPAPacket(pDM_Odm, BW);
++		#else
++			pBeamInfo->is_mu_sounding = FALSE;
++			ret = SendSWVHTNDPAPacket(pDM_Odm, RA, AID, BW);
++		#endif
++#else
++			pBeamInfo->is_mu_sounding = FALSE;
++			ret = SendSWVHTNDPAPacket(pDM_Odm, RA, AID, BW);
++#endif
++		}
++	}
++		return ret;
++}
++
++
++BEAMFORMING_NOTIFY_STATE
++phydm_beamfomring_bSounding(
++	IN	PVOID				pDM_VOID,
++	PRT_BEAMFORMING_INFO 	pBeamInfo,
++	pu1Byte					Idx
++	)
++{
++	BEAMFORMING_NOTIFY_STATE	bSounding = BEAMFORMING_NOTIFY_NONE;
++	RT_BEAMFORMING_OID_INFO	BeamOidInfo = pBeamInfo->BeamformingOidInfo;
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	/*if(( Beamforming_GetBeamCap(pBeamInfo) & BEAMFORMER_CAP) == 0)*/
++	/*bSounding = BEAMFORMING_NOTIFY_RESET;*/
++	if (BeamOidInfo.SoundOidMode == SOUNDING_STOP_All_TIMER)
++		bSounding = BEAMFORMING_NOTIFY_RESET;
++	else {
++		u1Byte i;
++
++		for (i = 0 ; i < BEAMFORMEE_ENTRY_NUM ; i++) {
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s: BFee Entry %d bUsed=%d, bSound=%d\n", __func__, i, pBeamInfo->BeamformeeEntry[i].bUsed, pBeamInfo->BeamformeeEntry[i].bSound));
++			if (pBeamInfo->BeamformeeEntry[i].bUsed && (!pBeamInfo->BeamformeeEntry[i].bSound)) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: Add BFee entry %d\n", __func__, i));
++				*Idx = i;
++				if (pBeamInfo->BeamformeeEntry[i].is_mu_sta)
++					bSounding = BEAMFORMEE_NOTIFY_ADD_MU;
++				else
++					bSounding = BEAMFORMEE_NOTIFY_ADD_SU;
++			}
++
++			if ((!pBeamInfo->BeamformeeEntry[i].bUsed) && pBeamInfo->BeamformeeEntry[i].bSound) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: Delete BFee entry %d\n", __func__, i));
++				*Idx = i;
++				if (pBeamInfo->BeamformeeEntry[i].is_mu_sta)
++					bSounding = BEAMFORMEE_NOTIFY_DELETE_MU;
++				else
++					bSounding = BEAMFORMEE_NOTIFY_DELETE_SU;
++			}
++		}
++	}
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s End, bSounding = %d\n", __func__, bSounding));
++	return bSounding;
++}
++
++
++//This function is unused
++u1Byte
++phydm_beamforming_SoundingIdx(
++	IN	PVOID				pDM_VOID,
++	PRT_BEAMFORMING_INFO 		pBeamInfo
++	)
++{
++	u1Byte					Idx = 0;
++	RT_BEAMFORMING_OID_INFO	BeamOidInfo = pBeamInfo->BeamformingOidInfo;
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	if (BeamOidInfo.SoundOidMode == SOUNDING_SW_HT_TIMER || BeamOidInfo.SoundOidMode == SOUNDING_SW_VHT_TIMER ||
++		BeamOidInfo.SoundOidMode == SOUNDING_HW_HT_TIMER || BeamOidInfo.SoundOidMode == SOUNDING_HW_VHT_TIMER)
++		Idx = BeamOidInfo.SoundOidIdx;
++	else {
++		u1Byte	i;
++		for (i = 0; i < BEAMFORMEE_ENTRY_NUM; i++) {
++			if (pBeamInfo->BeamformeeEntry[i].bUsed && (FALSE == pBeamInfo->BeamformeeEntry[i].bSound)) {
++				Idx = i;
++				break;
++			}
++		}
++	}
++
++	return Idx;
++}
++
++
++SOUNDING_MODE
++phydm_beamforming_SoundingMode(
++	IN	PVOID				pDM_VOID,
++	PRT_BEAMFORMING_INFO 	pBeamInfo,
++	u1Byte					Idx
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte 			SupportInterface = pDM_Odm->SupportInterface;
++
++	RT_BEAMFORMEE_ENTRY		BeamEntry = pBeamInfo->BeamformeeEntry[Idx];
++	RT_BEAMFORMING_OID_INFO	BeamOidInfo = pBeamInfo->BeamformingOidInfo;
++	SOUNDING_MODE				Mode = BeamOidInfo.SoundOidMode;
++
++	if (BeamOidInfo.SoundOidMode == SOUNDING_SW_VHT_TIMER || BeamOidInfo.SoundOidMode == SOUNDING_HW_VHT_TIMER) {
++		if (BeamEntry.BeamformEntryCap & BEAMFORMER_CAP_VHT_SU)
++			Mode = BeamOidInfo.SoundOidMode;
++		else 
++			Mode = SOUNDING_STOP_All_TIMER;
++	} else if (BeamOidInfo.SoundOidMode == SOUNDING_SW_HT_TIMER || BeamOidInfo.SoundOidMode == SOUNDING_HW_HT_TIMER) {
++		if (BeamEntry.BeamformEntryCap & BEAMFORMER_CAP_HT_EXPLICIT)
++			Mode = BeamOidInfo.SoundOidMode;
++		else
++			Mode = SOUNDING_STOP_All_TIMER;
++	} else if (BeamEntry.BeamformEntryCap & BEAMFORMER_CAP_VHT_SU) {
++		if ((SupportInterface == ODM_ITRF_USB) && !(pDM_Odm->SupportICType & (ODM_RTL8814A | ODM_RTL8822B)))
++			Mode = SOUNDING_FW_VHT_TIMER;
++		else
++			Mode = SOUNDING_SW_VHT_TIMER;
++	} else if (BeamEntry.BeamformEntryCap & BEAMFORMER_CAP_HT_EXPLICIT) {
++		if ((SupportInterface == ODM_ITRF_USB) && !(pDM_Odm->SupportICType & (ODM_RTL8814A | ODM_RTL8822B)))
++			Mode = SOUNDING_FW_HT_TIMER;
++		else
++			Mode = SOUNDING_SW_HT_TIMER;
++	} else 
++		Mode = SOUNDING_STOP_All_TIMER;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] SupportInterface=%d, Mode=%d\n", __func__, SupportInterface, Mode));
++
++	return Mode;
++}
++
++
++u2Byte
++phydm_beamforming_SoundingTime(
++	IN	PVOID				pDM_VOID,
++	PRT_BEAMFORMING_INFO 	pBeamInfo,
++	SOUNDING_MODE			Mode,
++	u1Byte					Idx
++	)
++{
++	u2Byte						SoundingTime = 0xffff;
++	RT_BEAMFORMEE_ENTRY		BeamEntry = pBeamInfo->BeamformeeEntry[Idx];
++	RT_BEAMFORMING_OID_INFO	BeamOidInfo = pBeamInfo->BeamformingOidInfo;
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	if (Mode == SOUNDING_HW_HT_TIMER || Mode == SOUNDING_HW_VHT_TIMER)
++		SoundingTime = BeamOidInfo.SoundOidPeriod * 32;
++	else if (Mode == SOUNDING_SW_HT_TIMER || Mode == SOUNDING_SW_VHT_TIMER)
++		/*Modified by David*/
++		SoundingTime = BeamEntry.SoundPeriod;	/*BeamOidInfo.SoundOidPeriod;*/
++	else
++		SoundingTime = BeamEntry.SoundPeriod;
++
++	return SoundingTime;
++}
++
++
++CHANNEL_WIDTH
++phydm_beamforming_SoundingBW(
++	IN	PVOID				pDM_VOID,
++	PRT_BEAMFORMING_INFO 	pBeamInfo,
++	SOUNDING_MODE			Mode,
++	u1Byte					Idx
++	)
++{
++	CHANNEL_WIDTH				SoundingBW = CHANNEL_WIDTH_20;
++	RT_BEAMFORMEE_ENTRY		BeamEntry = pBeamInfo->BeamformeeEntry[Idx];
++	RT_BEAMFORMING_OID_INFO	BeamOidInfo = pBeamInfo->BeamformingOidInfo;
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (Mode == SOUNDING_HW_HT_TIMER || Mode == SOUNDING_HW_VHT_TIMER)
++		SoundingBW = BeamOidInfo.SoundOidBW;
++	else if (Mode == SOUNDING_SW_HT_TIMER || Mode == SOUNDING_SW_VHT_TIMER)
++		/*Modified by David*/
++		SoundingBW = BeamEntry.SoundBW;		/*BeamOidInfo.SoundOidBW;*/
++	else 
++		SoundingBW = BeamEntry.SoundBW;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s, SoundingBW=0x%X\n", __func__, SoundingBW));
++
++	return SoundingBW;
++}
++
++
++BOOLEAN
++phydm_Beamforming_SelectBeamEntry(
++	IN	PVOID				pDM_VOID,
++	PRT_BEAMFORMING_INFO 	pBeamInfo
++	)
++{
++	PRT_SOUNDING_INFO		pSoundInfo = &(pBeamInfo->SoundingInfo);
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	/*pEntry.bSound is different between first and latter NDPA, and should not be used as BFee entry selection*/
++	/*BTW, latter modification should sync to the selection mechanism of AP/ADSL instead of the fixed SoundIdx.*/
++	pSoundInfo->SoundIdx = phydm_beamforming_SoundingIdx(pDM_Odm, pBeamInfo);
++	/*pSoundInfo->SoundIdx = 0;*/
++
++	if (pSoundInfo->SoundIdx < BEAMFORMEE_ENTRY_NUM)
++		pSoundInfo->SoundMode = phydm_beamforming_SoundingMode(pDM_Odm, pBeamInfo, pSoundInfo->SoundIdx);
++	else
++		pSoundInfo->SoundMode = SOUNDING_STOP_All_TIMER;
++	
++	if (SOUNDING_STOP_All_TIMER == pSoundInfo->SoundMode) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Return because of SOUNDING_STOP_All_TIMER\n", __func__));
++		return FALSE;
++	} else {
++		pSoundInfo->SoundBW = phydm_beamforming_SoundingBW(pDM_Odm, pBeamInfo, pSoundInfo->SoundMode, pSoundInfo->SoundIdx );
++		pSoundInfo->SoundPeriod = phydm_beamforming_SoundingTime(pDM_Odm, pBeamInfo, pSoundInfo->SoundMode, pSoundInfo->SoundIdx );
++		return TRUE;
++	}
++}
++
++/*SU BFee Entry Only*/
++BOOLEAN
++phydm_beamforming_StartPeriod(
++	IN	PVOID				pDM_VOID
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER					Adapter = pDM_Odm->Adapter;
++	BOOLEAN						Ret = TRUE;
++	PRT_BEAMFORMING_INFO 		pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_SOUNDING_INFO			pSoundInfo = &(pBeamInfo->SoundingInfo); 
++	
++	phydm_Beamforming_DymNDPARate(pDM_Odm);
++
++	phydm_Beamforming_SelectBeamEntry(pDM_Odm, pBeamInfo);		// Modified
++
++	if (pSoundInfo->SoundMode == SOUNDING_SW_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_SW_HT_TIMER)
++		ODM_SetTimer(pDM_Odm, &pBeamInfo->BeamformingTimer, pSoundInfo->SoundPeriod);
++	else if (pSoundInfo->SoundMode == SOUNDING_HW_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_HW_HT_TIMER ||
++			pSoundInfo->SoundMode == SOUNDING_AUTO_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_AUTO_HT_TIMER) {
++		HAL_HW_TIMER_TYPE TimerType = HAL_TIMER_TXBF;
++		u4Byte	val = (pSoundInfo->SoundPeriod | (TimerType<<16));
++
++		//HW timer stop: All IC has the same setting
++		Adapter->HalFunc.SetHwRegHandler(Adapter, HW_VAR_HW_REG_TIMER_STOP,  (pu1Byte)(&TimerType));
++		//ODM_Write1Byte(pDM_Odm, 0x15F, 0);
++		//HW timer init: All IC has the same setting, but 92E & 8812A only write 2 bytes
++		Adapter->HalFunc.SetHwRegHandler(Adapter, HW_VAR_HW_REG_TIMER_INIT,  (pu1Byte)(&val));
++		//ODM_Write1Byte(pDM_Odm, 0x164, 1);
++		//ODM_Write4Byte(pDM_Odm, 0x15C, val);
++		//HW timer start: All IC has the same setting
++		Adapter->HalFunc.SetHwRegHandler(Adapter, HW_VAR_HW_REG_TIMER_START,  (pu1Byte)(&TimerType));
++		//ODM_Write1Byte(pDM_Odm, 0x15F, 0x5);
++	} else if (pSoundInfo->SoundMode == SOUNDING_FW_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_FW_HT_TIMER)
++		Ret = BeamformingStart_FW(pDM_Odm, pSoundInfo->SoundIdx);
++	else
++		Ret = FALSE;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] SoundIdx=%d, SoundMode=%d, SoundBW=%d, SoundPeriod=%d\n", __func__, 
++			pSoundInfo->SoundIdx, pSoundInfo->SoundMode, pSoundInfo->SoundBW, pSoundInfo->SoundPeriod));
++
++	return Ret;
++}
++
++// Used after Beamforming_Leave, and will clear the setting of the "already deleted" entry
++/*SU BFee Entry Only*/
++VOID
++phydm_beamforming_EndPeriod_SW(
++	IN	PVOID				pDM_VOID
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER					Adapter = pDM_Odm->Adapter;
++	PRT_BEAMFORMING_INFO 		pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_SOUNDING_INFO			pSoundInfo = &(pBeamInfo->SoundingInfo);
++	
++	HAL_HW_TIMER_TYPE TimerType = HAL_TIMER_TXBF;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	if (pSoundInfo->SoundMode == SOUNDING_SW_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_SW_HT_TIMER)
++		ODM_CancelTimer(pDM_Odm, &pBeamInfo->BeamformingTimer);
++	else if (pSoundInfo->SoundMode == SOUNDING_HW_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_HW_HT_TIMER ||
++				pSoundInfo->SoundMode == SOUNDING_AUTO_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_AUTO_HT_TIMER)
++		/*HW timer stop: All IC has the same setting*/
++		Adapter->HalFunc.SetHwRegHandler(Adapter, HW_VAR_HW_REG_TIMER_STOP,  (pu1Byte)(&TimerType));
++		/*ODM_Write1Byte(pDM_Odm, 0x15F, 0);*/
++}
++
++VOID
++phydm_beamforming_EndPeriod_FW(
++	IN	PVOID				pDM_VOID
++	)
++{
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte				Idx = 0;
++
++	HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_FW_NDPA, (pu1Byte)&Idx);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]\n", __func__));
++}
++
++
++/*SU BFee Entry Only*/
++VOID 
++phydm_beamforming_ClearEntry_SW(
++	IN	PVOID			pDM_VOID,
++	BOOLEAN				IsDelete,
++	u1Byte				DeleteIdx
++	)
++{
++	u1Byte						Idx = 0;
++	PRT_BEAMFORMEE_ENTRY		pBeamformEntry = NULL;
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO 		pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	if (IsDelete) {
++		if (DeleteIdx < BEAMFORMEE_ENTRY_NUM) {
++			pBeamformEntry = pBeamInfo->BeamformeeEntry + DeleteIdx;
++			if (!((!pBeamformEntry->bUsed) && pBeamformEntry->bSound)) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] SW DeleteIdx is wrong!!!!!\n", __func__));
++				return;
++			}
++		}
++
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] SW delete BFee entry %d\n", __func__, DeleteIdx));
++		if (pBeamformEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSING) {
++			pBeamformEntry->bBeamformingInProgress = FALSE;
++			pBeamformEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_UNINITIALIZE;
++		} else if (pBeamformEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++			pBeamformEntry->BeamformEntryState  = BEAMFORMING_ENTRY_STATE_UNINITIALIZE;
++			HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_STATUS, (pu1Byte)&DeleteIdx);
++		}
++		pBeamformEntry->bSound = FALSE;
++	} else {
++		for (Idx = 0; Idx < BEAMFORMEE_ENTRY_NUM; Idx++) {
++			pBeamformEntry = pBeamInfo->BeamformeeEntry+Idx;
++
++			/*Used after bSounding=RESET, and will clear the setting of "ever sounded" entry, which is not necessarily be deleted.*/
++			/*This function is mainly used in case "BeamOidInfo.SoundOidMode == SOUNDING_STOP_All_TIMER".*/
++			/*However, setting oid doesn't delete entries (bUsed is still TRUE), new entries may fail to be added in.*/
++		
++			if (pBeamformEntry->bSound) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] SW reset BFee entry %d\n", __func__, Idx));
++				/*	
++				*	If End procedure is 
++				*	1. Between (Send NDPA, C2H packet return), reset state to initialized.
++				*	After C2H packet return , status bit will be set to zero. 
++				*
++				*	2. After C2H packet, then reset state to initialized and clear status bit.
++				*/
++
++				if (pBeamformEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSING)
++					phydm_Beamforming_End_SW(pDM_Odm, 0);
++				else if (pBeamformEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++					pBeamformEntry->BeamformEntryState  = BEAMFORMING_ENTRY_STATE_INITIALIZED;
++					HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_STATUS, (pu1Byte)&Idx);
++				}
++
++				pBeamformEntry->bSound = FALSE;
++			}
++		}
++	}
++}
++
++VOID
++phydm_beamforming_ClearEntry_FW(
++	IN	PVOID			pDM_VOID,
++	BOOLEAN				IsDelete,
++	u1Byte				DeleteIdx
++	)
++{
++	u1Byte						Idx = 0;
++	PRT_BEAMFORMEE_ENTRY		pBeamformEntry = NULL;
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO 		pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	if (IsDelete) {
++		if (DeleteIdx < BEAMFORMEE_ENTRY_NUM) {
++			pBeamformEntry = pBeamInfo->BeamformeeEntry + DeleteIdx;
++
++			if (!((!pBeamformEntry->bUsed) && pBeamformEntry->bSound)) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] FW DeleteIdx is wrong!!!!!\n", __func__));
++				return;
++			}
++		}
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: FW delete BFee entry %d\n", __func__, DeleteIdx));
++		pBeamformEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_UNINITIALIZE;
++		pBeamformEntry->bSound = FALSE;
++	} else {
++		for (Idx = 0; Idx < BEAMFORMEE_ENTRY_NUM; Idx++) {
++			pBeamformEntry = pBeamInfo->BeamformeeEntry+Idx;
++
++			/*Used after bSounding=RESET, and will clear the setting of "ever sounded" entry, which is not necessarily be deleted.*/
++			/*This function is mainly used in case "BeamOidInfo.SoundOidMode == SOUNDING_STOP_All_TIMER".*/
++			/*However, setting oid doesn't delete entries (bUsed is still TRUE), new entries may fail to be added in.*/
++		
++			if (pBeamformEntry->bSound) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]FW reset BFee entry %d\n", __func__, Idx));
++				/*	
++				*	If End procedure is 
++				*	1. Between (Send NDPA, C2H packet return), reset state to initialized.
++				*	After C2H packet return , status bit will be set to zero. 
++				*
++				*	2. After C2H packet, then reset state to initialized and clear status bit.
++				*/
++				
++				pBeamformEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_INITIALIZED;
++				pBeamformEntry->bSound = FALSE;
++			}
++		}
++	}
++}
++
++/*
++* 	Called : 
++*	1. Add and delete entry : Beamforming_Enter/Beamforming_Leave
++*	2. FW trigger :  Beamforming_SetTxBFen
++*	3. Set OID_RT_BEAMFORMING_PERIOD : BeamformingControl_V2
++*/
++VOID
++phydm_Beamforming_Notify(
++	IN	PVOID			pDM_VOID
++	)
++{
++	u1Byte						Idx=BEAMFORMEE_ENTRY_NUM;
++	BEAMFORMING_NOTIFY_STATE	bSounding = BEAMFORMING_NOTIFY_NONE;
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO 		pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_SOUNDING_INFO			pSoundInfo = &(pBeamInfo->SoundingInfo);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	bSounding = phydm_beamfomring_bSounding(pDM_Odm, pBeamInfo, &Idx);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s, Before notify, bSounding=%d, Idx=%d\n", __func__, bSounding, Idx));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: pBeamInfo->beamformee_su_cnt = %d\n", __func__, pBeamInfo->beamformee_su_cnt));
++	
++
++	switch (bSounding) {
++	case BEAMFORMEE_NOTIFY_ADD_SU:
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: BEAMFORMEE_NOTIFY_ADD_SU\n", __func__));
++		phydm_beamforming_StartPeriod(pDM_Odm);
++	break;
++
++	case BEAMFORMEE_NOTIFY_DELETE_SU:
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: BEAMFORMEE_NOTIFY_DELETE_SU\n", __func__));
++		if (pSoundInfo->SoundMode == SOUNDING_FW_HT_TIMER || pSoundInfo->SoundMode == SOUNDING_FW_VHT_TIMER) {
++			phydm_beamforming_ClearEntry_FW(pDM_Odm, TRUE, Idx);
++			if (pBeamInfo->beamformee_su_cnt == 0) { /* For 2->1 entry, we should not cancel SW timer */
++				phydm_beamforming_EndPeriod_FW(pDM_Odm);
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: No BFee left\n", __func__));
++			}
++		} else {
++			phydm_beamforming_ClearEntry_SW(pDM_Odm, TRUE, Idx);
++			if (pBeamInfo->beamformee_su_cnt == 0) { /* For 2->1 entry, we should not cancel SW timer */
++				phydm_beamforming_EndPeriod_SW(pDM_Odm);
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: No BFee left\n", __func__));
++			}
++		}
++	break;
++
++	case BEAMFORMEE_NOTIFY_ADD_MU:
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: BEAMFORMEE_NOTIFY_ADD_MU\n", __func__));
++		if (pBeamInfo->beamformee_mu_cnt == 2) {
++			/*if (pSoundInfo->SoundMode == SOUNDING_SW_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_SW_HT_TIMER)
++				ODM_SetTimer(pDM_Odm, &pBeamInfo->BeamformingTimer, pSoundInfo->SoundPeriod);*/
++			ODM_SetTimer(pDM_Odm, &pBeamInfo->BeamformingTimer, 1000); /*Do MU sounding every 1sec*/
++		} else
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: Less or larger than 2 MU STAs, not to set timer\n", __func__));
++	break;
++
++	case BEAMFORMEE_NOTIFY_DELETE_MU:
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: BEAMFORMEE_NOTIFY_DELETE_MU\n", __func__));
++		if (pBeamInfo->beamformee_mu_cnt == 1) {
++			/*if (pSoundInfo->SoundMode == SOUNDING_SW_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_SW_HT_TIMER)*/{
++				ODM_CancelTimer(pDM_Odm, &pBeamInfo->BeamformingTimer);
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: Less than 2 MU STAs, stop sounding\n", __func__));
++			}
++		}
++	break;
++
++	case BEAMFORMING_NOTIFY_RESET:
++		if (pSoundInfo->SoundMode == SOUNDING_FW_HT_TIMER || pSoundInfo->SoundMode == SOUNDING_FW_VHT_TIMER) {	
++			phydm_beamforming_ClearEntry_FW(pDM_Odm, FALSE, Idx);
++			phydm_beamforming_EndPeriod_FW(pDM_Odm);
++		} else {
++			phydm_beamforming_ClearEntry_SW(pDM_Odm, FALSE, Idx);
++			phydm_beamforming_EndPeriod_SW(pDM_Odm);
++		}
++
++	break;
++
++	default:
++	break;
++	}
++
++}
++
++
++
++BOOLEAN
++Beamforming_InitEntry(
++	IN	PVOID		pDM_VOID,
++	IN	u2Byte		staIdx,
++	pu1Byte			BFerBFeeIdx
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMEE_ENTRY		pBeamformEntry = NULL;
++	PRT_BEAMFORMER_ENTRY		pBeamformerEntry = NULL;
++	PRT_BEAMFORM_STAINFO		pSTA = NULL;
++	BEAMFORMING_CAP			BeamformCap = BEAMFORMING_CAP_NONE;
++	u1Byte						BFerIdx=0xF, BFeeIdx=0xF;
++	u1Byte						NumofSoundingDim = 0, CompSteeringNumofBFer = 0;
++
++	pSTA = phydm_staInfoInit(pDM_Odm, staIdx);
++
++	/*The current setting does not support Beaforming*/
++	if (BEAMFORMING_CAP_NONE == pSTA->HtBeamformCap && BEAMFORMING_CAP_NONE == pSTA->VhtBeamformCap) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("The configuration disabled Beamforming! Skip...\n"));		
++		return FALSE;
++	}
++
++	if (pSTA->WirelessMode < WIRELESS_MODE_N_24G)
++		return FALSE;
++	else {
++		if (pSTA->WirelessMode & WIRELESS_MODE_N_5G || pSTA->WirelessMode & WIRELESS_MODE_N_24G) {/*HT*/
++			if (TEST_FLAG(pSTA->CurBeamform, BEAMFORMING_HT_BEAMFORMER_ENABLE)) {/*We are Beamformee because the STA is Beamformer*/
++				BeamformCap = (BEAMFORMING_CAP)(BeamformCap | BEAMFORMEE_CAP_HT_EXPLICIT);
++				NumofSoundingDim = (pSTA->CurBeamform&BEAMFORMING_HT_BEAMFORMEE_CHNL_EST_CAP)>>6;
++			}
++			/*We are Beamformer because the STA is Beamformee*/
++			if (TEST_FLAG(pSTA->CurBeamform, BEAMFORMING_HT_BEAMFORMEE_ENABLE) ||
++				TEST_FLAG(pSTA->HtBeamformCap, BEAMFORMING_HT_BEAMFORMER_TEST)) {
++				BeamformCap = (BEAMFORMING_CAP)(BeamformCap | BEAMFORMER_CAP_HT_EXPLICIT);
++				CompSteeringNumofBFer = (pSTA->CurBeamform & BEAMFORMING_HT_BEAMFORMER_STEER_NUM)>>4;
++			}
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] HT CurBeamform=0x%X, BeamformCap=0x%X\n", __func__, pSTA->CurBeamform, BeamformCap));
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] HT NumofSoundingDim=%d, CompSteeringNumofBFer=%d\n", __func__, NumofSoundingDim, CompSteeringNumofBFer));
++		}
++#if	(ODM_IC_11AC_SERIES_SUPPORT == 1)
++		if (pSTA->WirelessMode & WIRELESS_MODE_AC_5G || pSTA->WirelessMode & WIRELESS_MODE_AC_24G) {	/*VHT*/	
++
++			/* We are Beamformee because the STA is SU Beamformer*/
++			if (TEST_FLAG(pSTA->CurBeamformVHT, BEAMFORMING_VHT_BEAMFORMER_ENABLE)) {
++				BeamformCap =(BEAMFORMING_CAP)(BeamformCap |BEAMFORMEE_CAP_VHT_SU);
++				NumofSoundingDim = (pSTA->CurBeamformVHT & BEAMFORMING_VHT_BEAMFORMEE_SOUND_DIM)>>12;
++			}
++			/* We are Beamformer because the STA is SU Beamformee*/
++			if (TEST_FLAG(pSTA->CurBeamformVHT, BEAMFORMING_VHT_BEAMFORMEE_ENABLE) ||
++				TEST_FLAG(pSTA->VhtBeamformCap, BEAMFORMING_VHT_BEAMFORMER_TEST)) {
++				BeamformCap =(BEAMFORMING_CAP)(BeamformCap |BEAMFORMER_CAP_VHT_SU);
++				CompSteeringNumofBFer = (pSTA->CurBeamformVHT & BEAMFORMING_VHT_BEAMFORMER_STS_CAP)>>8;
++			}
++			/* We are Beamformee because the STA is MU Beamformer*/
++			if (TEST_FLAG(pSTA->CurBeamformVHT, BEAMFORMING_VHT_MU_MIMO_AP_ENABLE)) {
++				BeamformCap = (BEAMFORMING_CAP)(BeamformCap | BEAMFORMEE_CAP_VHT_MU);
++				NumofSoundingDim = (pSTA->CurBeamformVHT & BEAMFORMING_VHT_BEAMFORMEE_SOUND_DIM)>>12;
++			}
++			/* We are Beamformer because the STA is MU Beamformee*/
++			if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_AP)) { /* Only AP mode supports to act an MU beamformer */
++				if (TEST_FLAG(pSTA->CurBeamformVHT, BEAMFORMING_VHT_MU_MIMO_STA_ENABLE) ||
++					TEST_FLAG(pSTA->VhtBeamformCap, BEAMFORMING_VHT_BEAMFORMER_TEST)) {
++					BeamformCap = (BEAMFORMING_CAP)(BeamformCap | BEAMFORMER_CAP_VHT_MU);
++					CompSteeringNumofBFer = (pSTA->CurBeamformVHT & BEAMFORMING_VHT_BEAMFORMER_STS_CAP)>>8;
++				}
++			}
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]VHT CurBeamformVHT=0x%X, BeamformCap=0x%X\n", __func__, pSTA->CurBeamformVHT, BeamformCap));
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]VHT NumofSoundingDim=0x%X, CompSteeringNumofBFer=0x%X\n", __func__, NumofSoundingDim, CompSteeringNumofBFer));
++			
++		}
++#endif
++	}
++
++
++	if(BeamformCap == BEAMFORMING_CAP_NONE)
++		return FALSE;
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Self BF Entry Cap = 0x%02X\n", __func__, BeamformCap));
++
++	/*We are BFee, so the entry is BFer*/
++	if (BeamformCap & (BEAMFORMEE_CAP_VHT_MU | BEAMFORMEE_CAP_VHT_SU | BEAMFORMEE_CAP_HT_EXPLICIT)) {
++		pBeamformerEntry = phydm_Beamforming_GetBFerEntryByAddr(pDM_Odm, pSTA->RA, &BFerIdx);
++		
++		if (pBeamformerEntry == NULL) {
++			pBeamformerEntry = Beamforming_AddBFerEntry(pDM_Odm, pSTA, BeamformCap, NumofSoundingDim , &BFerIdx);
++			if (pBeamformerEntry == NULL)
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]Not enough BFer entry!!!!!\n", __func__));
++		}
++	}
++
++	/*We are BFer, so the entry is BFee*/
++	if (BeamformCap & (BEAMFORMER_CAP_VHT_MU | BEAMFORMER_CAP_VHT_SU | BEAMFORMER_CAP_HT_EXPLICIT)) {
++		pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, pSTA->RA, &BFeeIdx);
++
++		/*¦pªGBFeeIdx = 0xF «h¥Nªí¥Ø«eentry·í¤¤¨S¦³¬Û¦PªºMACID¦b¤º*/
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Get BFee entry 0x%X by address\n", __func__, BFeeIdx));
++		if (pBeamformEntry == NULL) {
++			pBeamformEntry = Beamforming_AddBFeeEntry(pDM_Odm, pSTA, BeamformCap, NumofSoundingDim, CompSteeringNumofBFer, &BFeeIdx);
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]: pSTA->AID=%d, pSTA->MacID=%d\n", __func__, pSTA->AID, pSTA->MacID));
++
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]: Add BFee entry %d\n", __func__, BFeeIdx));
++
++			if (pBeamformEntry == NULL)
++				return FALSE;
++			else
++				pBeamformEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_INITIALIZEING;
++		} else {
++			/*Entry has been created. If entry is initialing or progressing then errors occur.*/
++			if (pBeamformEntry->BeamformEntryState != BEAMFORMING_ENTRY_STATE_INITIALIZED && 
++				pBeamformEntry->BeamformEntryState != BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++				return FALSE;
++			} else
++				pBeamformEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_INITIALIZEING;
++		}
++		pBeamformEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_INITIALIZED;
++		phydm_staInfoUpdate(pDM_Odm, staIdx, pBeamformEntry);
++	}
++
++	*BFerBFeeIdx = (BFerIdx<<4) | BFeeIdx;
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] End: BFerIdx=0x%X, BFeeIdx=0x%X, BFerBFeeIdx=0x%X\n", __func__, BFerIdx, BFeeIdx, *BFerBFeeIdx));
++
++	return TRUE;
++}
++
++
++VOID
++Beamforming_DeInitEntry(
++	IN	PVOID		pDM_VOID,
++	pu1Byte			RA
++	)
++{
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte				Idx = 0;
++
++	PRT_BEAMFORMER_ENTRY	pBFerEntry = phydm_Beamforming_GetBFerEntryByAddr(pDM_Odm, RA, &Idx);
++	PRT_BEAMFORMEE_ENTRY	pBFeeEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++	BOOLEAN ret = FALSE;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n",  __func__));
++	
++	if (pBFeeEntry != NULL) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s, pBFeeEntry\n", __func__));
++		pBFeeEntry->bUsed = FALSE;
++		pBFeeEntry->BeamformEntryCap = BEAMFORMING_CAP_NONE;
++		pBFeeEntry->bBeamformingInProgress = FALSE;
++		if (pBFeeEntry->is_mu_sta) {
++			pDM_Odm->BeamformingInfo.beamformee_mu_cnt -= 1;
++			pDM_Odm->BeamformingInfo.FirstMUBFeeIndex = phydm_Beamforming_GetFirstMUBFeeEntryIdx(pDM_Odm);
++		} else {
++			pDM_Odm->BeamformingInfo.beamformee_su_cnt -= 1;
++		}
++		ret = TRUE;
++	} 
++	
++	if (pBFerEntry != NULL) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s, pBFerEntry\n", __func__));
++		pBFerEntry->bUsed = FALSE;
++		pBFerEntry->BeamformEntryCap = BEAMFORMING_CAP_NONE;
++		if (pBFerEntry->is_mu_ap)
++			pDM_Odm->BeamformingInfo.beamformer_mu_cnt -= 1;
++		else
++			pDM_Odm->BeamformingInfo.beamformer_su_cnt -= 1;
++		ret = TRUE;
++	}
++
++	if (ret == TRUE)
++		HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_LEAVE, (pu1Byte)&Idx);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s End, Idx = 0x%X\n", __func__, Idx));
++}
++
++
++BOOLEAN
++BeamformingStart_V1(
++	IN	PVOID		pDM_VOID,
++	pu1Byte			RA,
++	BOOLEAN			Mode,
++	CHANNEL_WIDTH	BW,
++	u1Byte			Rate
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte					Idx = 0;
++	PRT_BEAMFORMEE_ENTRY	pEntry;
++	BOOLEAN					ret = TRUE;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	
++	pEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++
++	if (pEntry->bUsed == FALSE) {
++		pEntry->bBeamformingInProgress = FALSE;
++		return FALSE;
++	} else {
++		if (pEntry->bBeamformingInProgress)
++			return FALSE;
++
++		pEntry->bBeamformingInProgress = TRUE;
++
++		if (Mode == 1) {	
++			if (!(pEntry->BeamformEntryCap & BEAMFORMER_CAP_HT_EXPLICIT)) {
++				pEntry->bBeamformingInProgress = FALSE;
++				return FALSE;
++			}
++		} else if (Mode == 0) {
++			if (!(pEntry->BeamformEntryCap & BEAMFORMER_CAP_VHT_SU)) {
++				pEntry->bBeamformingInProgress = FALSE;
++				return FALSE;
++			}
++		}
++
++		if (pEntry->BeamformEntryState != BEAMFORMING_ENTRY_STATE_INITIALIZED && pEntry->BeamformEntryState != BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++			pEntry->bBeamformingInProgress = FALSE;
++			return FALSE;
++		} else {
++			pEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_PROGRESSING;
++			pEntry->bSound = TRUE;
++		}
++	}
++
++	pEntry->SoundBW = BW;
++	pBeamInfo->BeamformeeCurIdx = Idx;
++	phydm_Beamforming_NDPARate(pDM_Odm, BW, Rate);
++	HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_STATUS, (pu1Byte)&Idx);
++
++	if (Mode == 1)
++		ret = Beamforming_SendHTNDPAPacket(pDM_Odm, RA, BW, NORMAL_QUEUE);	
++	else
++		ret = Beamforming_SendVHTNDPAPacket(pDM_Odm, RA, pEntry->AID, BW, NORMAL_QUEUE);
++
++	if (ret == FALSE) {
++		Beamforming_Leave(pDM_Odm, RA);
++		pEntry->bBeamformingInProgress = FALSE;
++		return FALSE;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s  Idx %d\n", __func__, Idx));
++	return TRUE;
++}
++
++
++BOOLEAN
++BeamformingStart_SW(
++	IN	PVOID		pDM_VOID,
++	u1Byte			Idx,
++	u1Byte			Mode, 
++	CHANNEL_WIDTH	BW
++	)
++{
++	pu1Byte					RA = NULL;
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMEE_ENTRY	pEntry;
++	BOOLEAN					ret = TRUE;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++
++	if (pBeamInfo->is_mu_sounding) {
++		pBeamInfo->is_mu_sounding_in_progress = TRUE;
++		pEntry = &(pBeamInfo->BeamformeeEntry[Idx]);
++		RA = pEntry->MacAddr;
++
++	} else {
++		pEntry = &(pBeamInfo->BeamformeeEntry[Idx]);
++
++		if (pEntry->bUsed == FALSE) {
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("Skip Beamforming, no entry for Idx =%d\n", Idx));
++			pEntry->bBeamformingInProgress = FALSE;
++			return FALSE;
++		} else {
++			if (pEntry->bBeamformingInProgress) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("bBeamformingInProgress, skip...\n"));
++				return FALSE;
++			}
++
++			pEntry->bBeamformingInProgress = TRUE;
++			RA = pEntry->MacAddr;
++			
++			if (Mode == SOUNDING_SW_HT_TIMER || Mode == SOUNDING_HW_HT_TIMER || Mode == SOUNDING_AUTO_HT_TIMER) {	
++				if (!(pEntry->BeamformEntryCap & BEAMFORMER_CAP_HT_EXPLICIT)) {
++					pEntry->bBeamformingInProgress = FALSE;
++					ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Return by not support BEAMFORMER_CAP_HT_EXPLICIT <==\n", __func__));
++					return FALSE;
++				}
++			} else if (Mode == SOUNDING_SW_VHT_TIMER || Mode == SOUNDING_HW_VHT_TIMER || Mode == SOUNDING_AUTO_VHT_TIMER) {
++				if (!(pEntry->BeamformEntryCap & BEAMFORMER_CAP_VHT_SU)) {
++					pEntry->bBeamformingInProgress = FALSE;
++					ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Return by not support BEAMFORMER_CAP_VHT_SU <==\n", __func__));
++					return FALSE;
++				}
++			}
++			if (pEntry->BeamformEntryState != BEAMFORMING_ENTRY_STATE_INITIALIZED && pEntry->BeamformEntryState != BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++				pEntry->bBeamformingInProgress = FALSE;
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Return by incorrect BeamformEntryState(%d) <==\n", __func__, pEntry->BeamformEntryState));
++				return FALSE;
++			} else {
++				pEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_PROGRESSING;
++				pEntry->bSound = TRUE;
++			}
++		}
++
++		pBeamInfo->BeamformeeCurIdx = Idx;
++	}
++	
++	/*2014.12.22 Luke: Need to be checked*/
++	/*GET_TXBF_INFO(Adapter)->fTxbfSet(Adapter, TXBF_SET_SOUNDING_STATUS, (pu1Byte)&Idx);*/
++
++	if (Mode == SOUNDING_SW_HT_TIMER || Mode == SOUNDING_HW_HT_TIMER || Mode == SOUNDING_AUTO_HT_TIMER)
++		ret = Beamforming_SendHTNDPAPacket(pDM_Odm, RA , BW, NORMAL_QUEUE);	
++	else
++		ret = Beamforming_SendVHTNDPAPacket(pDM_Odm, RA , pEntry->AID, BW, NORMAL_QUEUE);
++
++	if (ret == FALSE) {
++		Beamforming_Leave(pDM_Odm, RA);
++		pEntry->bBeamformingInProgress = FALSE;
++		return FALSE;
++	}
++
++	
++	/*--------------------------
++	// Send BF Report Poll for MU BF
++	--------------------------*/
++#ifdef SUPPORT_MU_BF
++#if (SUPPORT_MU_BF == 1)
++{
++	u1Byte				idx, PollSTACnt = 0;
++	BOOLEAN				bGetFirstBFee = FALSE;
++	
++	if (pBeamInfo->beamformee_mu_cnt > 1) { /* More than 1 MU STA*/
++	
++		for (idx = 0; idx < BEAMFORMEE_ENTRY_NUM; idx++) {
++			pEntry = &(pBeamInfo->BeamformeeEntry[idx]);
++			if (pEntry->is_mu_sta) {
++				if (bGetFirstBFee) {
++					PollSTACnt++;
++					if (PollSTACnt == (pBeamInfo->beamformee_mu_cnt - 1))/* The last STA*/
++						SendSWVHTBFReportPoll(pDM_Odm, pEntry->MacAddr, TRUE);
++					else
++						SendSWVHTBFReportPoll(pDM_Odm, pEntry->MacAddr, FALSE);
++				} else {
++					bGetFirstBFee = TRUE;
++				}
++			}
++		}
++	}
++}
++#endif
++#endif
++	return TRUE;
++}
++
++
++BOOLEAN
++BeamformingStart_FW(
++	IN PVOID		pDM_VOID,
++	u1Byte			Idx
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMEE_ENTRY	pEntry;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++
++	pEntry = &(pBeamInfo->BeamformeeEntry[Idx]);
++	if (pEntry->bUsed == FALSE) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("Skip Beamforming, no entry for Idx =%d\n", Idx));
++		return FALSE;
++	}
++
++	pEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_PROGRESSING;
++	pEntry->bSound = TRUE;
++	HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_FW_NDPA, (pu1Byte)&Idx);
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] End, Idx=0x%X\n", __func__, Idx));
++	return TRUE;
++}
++
++VOID
++Beamforming_CheckSoundingSuccess(
++	IN PVOID			pDM_VOID,
++	BOOLEAN			Status	
++)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMEE_ENTRY	pEntry = &(pBeamInfo->BeamformeeEntry[pBeamInfo->BeamformeeCurIdx]);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[David]@%s Start!\n", __func__));
++
++	if (Status == 1) {
++		if (pEntry->LogStatusFailCnt == 21)
++			Beamforming_DymPeriod(pDM_Odm, Status);
++		pEntry->LogStatusFailCnt = 0;
++	} else if (pEntry->LogStatusFailCnt <= 20) {
++		pEntry->LogStatusFailCnt++;
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s LogStatusFailCnt %d\n", __func__, pEntry->LogStatusFailCnt));
++	}
++	if (pEntry->LogStatusFailCnt > 20) {
++		pEntry->LogStatusFailCnt = 21;
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s LogStatusFailCnt > 20, Stop SOUNDING\n", __func__));
++		Beamforming_DymPeriod(pDM_Odm, Status);
++	}
++}
++
++VOID
++phydm_Beamforming_End_SW(
++	IN PVOID		pDM_VOID,
++	BOOLEAN			Status	
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO 	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pEntry = &(pBeamInfo->BeamformeeEntry[pBeamInfo->BeamformeeCurIdx]);
++
++	if (pBeamInfo->is_mu_sounding) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: MU sounding done\n", __func__));
++		pBeamInfo->is_mu_sounding_in_progress = FALSE;
++		HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_STATUS, (pu1Byte)&(pBeamInfo->BeamformeeCurIdx));
++	} else {
++		if (pEntry->BeamformEntryState != BEAMFORMING_ENTRY_STATE_PROGRESSING) {
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] BeamformStatus %d\n", __func__, pEntry->BeamformEntryState));
++			return;
++		}
++
++		if ((pDM_Odm->TxBfDataRate >= ODM_RATEVHTSS3MCS7) && (pDM_Odm->TxBfDataRate <= ODM_RATEVHTSS3MCS9)) {
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] VHT3SS 7,8,9, do not apply V matrix.\n", __func__));
++			pEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_INITIALIZED;
++			HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_STATUS, (pu1Byte)&(pBeamInfo->BeamformeeCurIdx));
++		} else if (Status == 1) {
++			pEntry->LogStatusFailCnt = 0;
++			pEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_PROGRESSED;
++			HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_STATUS, (pu1Byte)&(pBeamInfo->BeamformeeCurIdx));
++		} else {
++			pEntry->LogStatusFailCnt++;
++			pEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_INITIALIZED;
++			HalComTxbf_Set(pDM_Odm, TXBF_SET_TX_PATH_RESET, (pu1Byte)&(pBeamInfo->BeamformeeCurIdx));
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] LogStatusFailCnt %d\n", __func__, pEntry->LogStatusFailCnt));
++		}
++		
++		if (pEntry->LogStatusFailCnt > 50) {
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s LogStatusFailCnt > 50, Stop SOUNDING\n", __func__));
++			pEntry->bSound = FALSE;
++			Beamforming_DeInitEntry(pDM_Odm, pEntry->MacAddr); 
++
++			/*Modified by David - Every action of deleting entry should follow by Notify*/
++			phydm_Beamforming_Notify(pDM_Odm);
++		}	
++		
++		pEntry->bBeamformingInProgress = FALSE;
++	}
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: Status=%d\n", __func__, Status));
++}	
++
++
++VOID
++Beamforming_TimerCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN PVOID			pDM_VOID
++#elif(DM_ODM_SUPPORT_TYPE == ODM_CE)
++	IN PVOID            pContext
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER					Adapter = pDM_Odm->Adapter;
++#elif(DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PADAPTER					Adapter = (PADAPTER)pContext;
++	PHAL_DATA_TYPE				pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T					pDM_Odm = &pHalData->odmpriv;
++#endif
++	BOOLEAN						ret = FALSE;
++	PRT_BEAMFORMING_INFO		pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMEE_ENTRY		pEntry = &(pBeamInfo->BeamformeeEntry[pBeamInfo->BeamformeeCurIdx]);
++	PRT_SOUNDING_INFO			pSoundInfo = &(pBeamInfo->SoundingInfo);
++	BOOLEAN					bBeamformingInProgress;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	if (pBeamInfo->is_mu_sounding)
++		bBeamformingInProgress = pBeamInfo->is_mu_sounding_in_progress;
++	else
++		bBeamformingInProgress = pEntry->bBeamformingInProgress;
++
++	if (bBeamformingInProgress) {
++	 	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("bBeamformingInProgress, reset it\n"));
++		phydm_Beamforming_End_SW(pDM_Odm, 0);
++	 }
++
++	ret = phydm_Beamforming_SelectBeamEntry(pDM_Odm, pBeamInfo);
++#if (SUPPORT_MU_BF == 1)
++	if (ret && pBeamInfo->beamformee_mu_cnt > 1)
++		ret = 1;
++	else
++		ret = 0;
++#endif
++	if (ret)
++		ret = BeamformingStart_SW(pDM_Odm, pSoundInfo->SoundIdx, pSoundInfo->SoundMode, pSoundInfo->SoundBW);
++	else
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s, Error value return from BeamformingStart_V2\n", __func__));
++
++	if ((pBeamInfo->beamformee_su_cnt != 0) || (pBeamInfo->beamformee_mu_cnt > 1)) {
++		if (pSoundInfo->SoundMode == SOUNDING_SW_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_SW_HT_TIMER)
++			ODM_SetTimer(pDM_Odm, &pBeamInfo->BeamformingTimer, pSoundInfo->SoundPeriod);
++		else {
++			u4Byte	val = (pSoundInfo->SoundPeriod << 16) | HAL_TIMER_TXBF;
++			Adapter->HalFunc.SetHwRegHandler(Adapter, HW_VAR_HW_REG_TIMER_RESTART, (pu1Byte)(&val));
++		}
++	}
++}
++
++
++VOID
++Beamforming_SWTimerCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PRT_TIMER		pTimer
++#elif(DM_ODM_SUPPORT_TYPE == ODM_CE)
++	void *FunctionContext
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = (PADAPTER)pTimer->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++	Beamforming_TimerCallback(pDM_Odm);
++#elif(DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)FunctionContext;
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++	if (Adapter->net_closed == TRUE)
++		return;
++	rtw_run_in_thread_cmd(Adapter, Beamforming_TimerCallback, Adapter);
++#endif
++	
++}
++
++
++VOID
++phydm_Beamforming_Init(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO 		pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMING_OID_INFO	pBeamOidInfo = &(pBeamInfo->BeamformingOidInfo);
++	
++	pBeamOidInfo->SoundOidMode = SOUNDING_STOP_OID_TIMER;
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Mode (%d)\n", __func__, pBeamOidInfo->SoundOidMode));
++
++	pBeamInfo->beamformee_su_cnt = 0;
++	pBeamInfo->beamformer_su_cnt = 0;
++	pBeamInfo->beamformee_mu_cnt = 0;
++	pBeamInfo->beamformer_mu_cnt = 0;
++	pBeamInfo->beamformee_mu_reg_maping = 0;
++	pBeamInfo->mu_ap_index = 0;
++	pBeamInfo->is_mu_sounding = FALSE;
++	pBeamInfo->FirstMUBFeeIndex = 0xFF;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	pBeamInfo->SourceAdapter = pDM_Odm->Adapter;
++#endif
++	halComTxbf_beamformInit(pDM_Odm);
++}	
++
++
++BOOLEAN
++phydm_actingDetermine(
++	IN PVOID			pDM_VOID,
++	IN PHYDM_ACTING_TYPE	type
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	BOOLEAN		ret = FALSE;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER	Adapter = pDM_Odm->BeamformingInfo.SourceAdapter;
++#else
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	if (type == PhyDM_ACTING_AS_AP)
++		ret = ACTING_AS_AP(Adapter);
++	else if (type == PhyDM_ACTING_AS_IBSS)
++		ret = ACTING_AS_IBSS(Adapter);
++#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++	struct mlme_priv			*pmlmepriv = &(Adapter->mlmepriv);
++
++	if (type == PhyDM_ACTING_AS_AP)
++		ret = check_fwstate(pmlmepriv, WIFI_AP_STATE);
++	else if (type == PhyDM_ACTING_AS_IBSS)
++		ret = check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) || check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++#endif
++
++	return ret;
++
++}
++
++VOID
++Beamforming_Enter(
++	IN PVOID			pDM_VOID,
++	IN u2Byte		staIdx
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			BFerBFeeIdx = 0xff;
++	
++	if (Beamforming_InitEntry(pDM_Odm, staIdx, &BFerBFeeIdx))
++		HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_ENTER, (pu1Byte)&BFerBFeeIdx);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] End!\n", __func__));
++}
++
++
++VOID
++Beamforming_Leave(
++	IN PVOID			pDM_VOID,
++	pu1Byte			RA
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (RA != NULL) {
++		Beamforming_DeInitEntry(pDM_Odm, RA);
++		phydm_Beamforming_Notify(pDM_Odm);
++	}
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] End!!\n", __func__));
++}
++
++#if 0
++//Nobody calls this function
++VOID
++phydm_Beamforming_SetTxBFen(
++	IN	PVOID		pDM_VOID,
++	u1Byte			MacId,
++	BOOLEAN			bTxBF
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte					Idx = 0;
++	PRT_BEAMFORMEE_ENTRY	pEntry;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	pEntry = phydm_Beamforming_GetEntryByMacId(pDM_Odm, MacId, &Idx);
++
++	if(pEntry == NULL)
++		return;
++	else
++		pEntry->bTxBF = bTxBF;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s MacId %d TxBF %d\n", __func__, pEntry->MacId, pEntry->bTxBF));
++
++	phydm_Beamforming_Notify(pDM_Odm);
++}
++#endif
++
++BEAMFORMING_CAP
++phydm_Beamforming_GetBeamCap(
++	IN PVOID						pDM_VOID,
++	IN PRT_BEAMFORMING_INFO 	pBeamInfo
++	)
++{
++	u1Byte					i;
++	BOOLEAN 				bSelfBeamformer = FALSE;
++	BOOLEAN 				bSelfBeamformee = FALSE;
++	RT_BEAMFORMEE_ENTRY	BeamformeeEntry;
++	RT_BEAMFORMER_ENTRY	BeamformerEntry;
++	BEAMFORMING_CAP 		BeamformCap = BEAMFORMING_CAP_NONE;
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	for (i = 0; i < BEAMFORMEE_ENTRY_NUM; i++) {
++		BeamformeeEntry = pBeamInfo->BeamformeeEntry[i];
++
++		if (BeamformeeEntry.bUsed) {
++			bSelfBeamformer = TRUE;
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] BFee entry %d bUsed=TRUE\n", __func__, i));
++			break;
++		}
++	}
++
++	for (i = 0; i < BEAMFORMER_ENTRY_NUM; i++) {
++		BeamformerEntry = pBeamInfo->BeamformerEntry[i];
++
++		if (BeamformerEntry.bUsed) {
++			bSelfBeamformee = TRUE;
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]: BFer entry %d bUsed=TRUE\n", __func__, i));
++			break;
++		}
++	}
++
++	if (bSelfBeamformer)
++		BeamformCap = (BEAMFORMING_CAP)(BeamformCap | BEAMFORMER_CAP);
++	if (bSelfBeamformee)
++		BeamformCap = (BEAMFORMING_CAP)(BeamformCap | BEAMFORMEE_CAP);
++
++	return BeamformCap;
++}
++
++
++BOOLEAN
++BeamformingControl_V1(
++	IN PVOID			pDM_VOID,
++	pu1Byte			RA,
++	u1Byte			AID,
++	u1Byte			Mode, 
++	CHANNEL_WIDTH	BW,
++	u1Byte			Rate
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	BOOLEAN		ret = TRUE;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("AID (%d), Mode (%d), BW (%d)\n", AID, Mode, BW));
++
++	switch (Mode) {	
++	case 0:
++	ret = BeamformingStart_V1(pDM_Odm, RA, 0, BW, Rate);
++	break;
++	case 1:
++	ret = BeamformingStart_V1(pDM_Odm, RA, 1, BW, Rate);
++	break;
++	case 2:
++	phydm_Beamforming_NDPARate(pDM_Odm, BW, Rate);
++	ret = Beamforming_SendVHTNDPAPacket(pDM_Odm, RA, AID, BW, NORMAL_QUEUE);
++	break;
++	case 3:
++	phydm_Beamforming_NDPARate(pDM_Odm, BW, Rate);
++	ret = Beamforming_SendHTNDPAPacket(pDM_Odm, RA, BW, NORMAL_QUEUE);
++	break;
++	}
++	return ret;
++}
++
++/*Only OID uses this function*/
++BOOLEAN
++phydm_BeamformingControl_V2(
++	IN	PVOID		pDM_VOID,
++	u1Byte			Idx,
++	u1Byte			Mode, 
++	CHANNEL_WIDTH	BW,
++	u2Byte			Period
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO		pBeamInfo =  &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMING_OID_INFO	pBeamOidInfo = &(pBeamInfo->BeamformingOidInfo);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("Idx (%d), Mode (%d), BW (%d), Period (%d)\n", Idx, Mode, BW, Period));
++
++	pBeamOidInfo->SoundOidIdx = Idx;
++	pBeamOidInfo->SoundOidMode = (SOUNDING_MODE) Mode;
++	pBeamOidInfo->SoundOidBW = BW;
++	pBeamOidInfo->SoundOidPeriod = Period;
++
++	phydm_Beamforming_Notify(pDM_Odm);
++
++	return TRUE;
++}
++
++
++VOID
++phydm_Beamforming_Watchdog(
++	IN	PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO 		pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_TRACE, ("%s Start!\n", __func__));
++
++	if (pBeamInfo->beamformee_su_cnt == 0)
++		return;
++
++	Beamforming_DymPeriod(pDM_Odm,0);
++	phydm_Beamforming_DymNDPARate(pDM_Odm);
++
++}
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_beamforming.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_beamforming.h
+new file mode 100644
+index 0000000..1ed943f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_beamforming.h
+@@ -0,0 +1,377 @@
++#ifndef __INC_PHYDM_BEAMFORMING_H
++#define __INC_PHYDM_BEAMFORMING_H
++
++#ifndef BEAMFORMING_SUPPORT
++#define	BEAMFORMING_SUPPORT		0
++#endif
++
++/*Beamforming Related*/
++#include "txbf/halcomtxbf.h"
++#include "txbf/haltxbfjaguar.h"
++#include "txbf/haltxbf8192e.h"
++#include "txbf/haltxbf8814a.h"
++#include "txbf/haltxbf8822b.h"
++#include "txbf/haltxbfinterface.h"
++
++#if (BEAMFORMING_SUPPORT == 1)
++
++#define MAX_BEAMFORMEE_SU	2
++#define MAX_BEAMFORMER_SU	2
++#if (RTL8822B_SUPPORT == 1)
++#define MAX_BEAMFORMEE_MU	6
++#define MAX_BEAMFORMER_MU	1
++#else
++#define MAX_BEAMFORMEE_MU	0
++#define MAX_BEAMFORMER_MU	0
++#endif
++
++#define BEAMFORMEE_ENTRY_NUM		(MAX_BEAMFORMEE_SU + MAX_BEAMFORMEE_MU)
++#define BEAMFORMER_ENTRY_NUM		(MAX_BEAMFORMER_SU + MAX_BEAMFORMER_MU)
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++/*for different naming between WIN and CE*/
++#define BEACON_QUEUE	BCN_QUEUE_INX
++#define NORMAL_QUEUE	MGT_QUEUE_INX
++#define RT_DISABLE_FUNC RTW_DISABLE_FUNC
++#define RT_ENABLE_FUNC RTW_ENABLE_FUNC
++#endif
++
++typedef enum _BEAMFORMING_ENTRY_STATE {
++	BEAMFORMING_ENTRY_STATE_UNINITIALIZE, 
++	BEAMFORMING_ENTRY_STATE_INITIALIZEING, 
++	BEAMFORMING_ENTRY_STATE_INITIALIZED, 
++	BEAMFORMING_ENTRY_STATE_PROGRESSING, 
++	BEAMFORMING_ENTRY_STATE_PROGRESSED 
++} BEAMFORMING_ENTRY_STATE, *PBEAMFORMING_ENTRY_STATE;
++
++
++typedef enum _BEAMFORMING_NOTIFY_STATE {
++	BEAMFORMING_NOTIFY_NONE,
++	BEAMFORMING_NOTIFY_ADD,
++	BEAMFORMING_NOTIFY_DELETE,
++	BEAMFORMEE_NOTIFY_ADD_SU,
++	BEAMFORMEE_NOTIFY_DELETE_SU,
++	BEAMFORMEE_NOTIFY_ADD_MU,
++	BEAMFORMEE_NOTIFY_DELETE_MU,
++	BEAMFORMING_NOTIFY_RESET
++} BEAMFORMING_NOTIFY_STATE, *PBEAMFORMING_NOTIFY_STATE;
++
++typedef enum _BEAMFORMING_CAP {
++	BEAMFORMING_CAP_NONE = 0x0,
++	BEAMFORMER_CAP_HT_EXPLICIT = BIT1, 
++	BEAMFORMEE_CAP_HT_EXPLICIT = BIT2, 
++	BEAMFORMER_CAP_VHT_SU = BIT5,			/* Self has er Cap, because Reg er  & peer ee */
++	BEAMFORMEE_CAP_VHT_SU = BIT6,			/* Self has ee Cap, because Reg ee & peer er */
++	BEAMFORMER_CAP_VHT_MU = BIT7,			/* Self has er Cap, because Reg er  & peer ee */
++	BEAMFORMEE_CAP_VHT_MU = BIT8,			/* Self has ee Cap, because Reg ee & peer er */
++	BEAMFORMER_CAP = BIT9,
++	BEAMFORMEE_CAP = BIT10,
++}BEAMFORMING_CAP, *PBEAMFORMING_CAP;
++
++
++typedef enum _SOUNDING_MODE {
++	SOUNDING_SW_VHT_TIMER = 0x0,
++	SOUNDING_SW_HT_TIMER = 0x1, 
++	SOUNDING_STOP_All_TIMER = 0x2, 
++	SOUNDING_HW_VHT_TIMER = 0x3,			
++	SOUNDING_HW_HT_TIMER = 0x4,
++	SOUNDING_STOP_OID_TIMER = 0x5, 
++	SOUNDING_AUTO_VHT_TIMER = 0x6,
++	SOUNDING_AUTO_HT_TIMER = 0x7,
++	SOUNDING_FW_VHT_TIMER = 0x8,
++	SOUNDING_FW_HT_TIMER = 0x9,
++}SOUNDING_MODE, *PSOUNDING_MODE;
++
++typedef struct _RT_BEAMFORM_STAINFO {
++	pu1Byte						RA; 
++	u2Byte						AID; 
++	u2Byte						MacID;
++	u1Byte						MyMacAddr[6];
++	WIRELESS_MODE				WirelessMode;
++	CHANNEL_WIDTH				BW;
++	BEAMFORMING_CAP			BeamformCap;
++	u1Byte						HtBeamformCap;
++	u2Byte						VhtBeamformCap;
++	u1Byte						CurBeamform; 
++	u2Byte						CurBeamformVHT;
++} RT_BEAMFORM_STAINFO, *PRT_BEAMFORM_STAINFO;
++
++
++typedef struct _RT_BEAMFORMEE_ENTRY {
++	BOOLEAN bUsed;
++	BOOLEAN	bTxBF;
++	BOOLEAN bSound;
++	u2Byte	AID;				/*Used to construct AID field of NDPA packet.*/
++	u2Byte	MacId;				/*Used to Set Reg42C in IBSS mode. */
++	u2Byte	P_AID;				/*Used to fill Reg42C & Reg714 to compare with P_AID of Tx DESC. */
++	u2Byte	G_ID;				/*Used to fill Tx DESC*/
++	u1Byte	MyMacAddr[6];
++	u1Byte	MacAddr[6];			/*Used to fill Reg6E4 to fill Mac address of CSI report frame.*/
++	CHANNEL_WIDTH			SoundBW;		/*Sounding BandWidth*/
++	u2Byte					SoundPeriod;
++	BEAMFORMING_CAP			BeamformEntryCap;
++	BEAMFORMING_ENTRY_STATE	BeamformEntryState;	
++	BOOLEAN						bBeamformingInProgress;
++	/*u1Byte	LogSeq;									// Move to _RT_BEAMFORMER_ENTRY*/
++	/*u2Byte	LogRetryCnt:3;		// 0~4				// Move to _RT_BEAMFORMER_ENTRY*/
++	/*u2Byte	LogSuccessCnt:2;		// 0~2				// Move to _RT_BEAMFORMER_ENTRY*/
++	u2Byte	LogStatusFailCnt:5;	// 0~21
++	u2Byte	DefaultCSICnt:5;		// 0~21
++	u1Byte	CSIMatrix[327];
++	u2Byte	CSIMatrixLen;
++	u1Byte	NumofSoundingDim;
++	u1Byte	CompSteeringNumofBFer;
++	u1Byte	su_reg_index;
++	/*For MU-MIMO*/
++	BOOLEAN	is_mu_sta;
++	u1Byte	mu_reg_index;
++	u1Byte	gid_valid[8];
++	u1Byte	user_position[16];
++} RT_BEAMFORMEE_ENTRY, *PRT_BEAMFORMEE_ENTRY;
++
++typedef struct _RT_BEAMFORMER_ENTRY {
++	BOOLEAN 			bUsed;
++	/*P_AID of BFer entry is probably not used*/
++	u2Byte				P_AID;					/*Used to fill Reg42C & Reg714 to compare with P_AID of Tx DESC. */
++	u2Byte				G_ID;
++	u1Byte				MyMacAddr[6];
++	u1Byte				MacAddr[6];
++	BEAMFORMING_CAP		BeamformEntryCap;
++	u1Byte				NumofSoundingDim;
++	u1Byte				ClockResetTimes;		/*Modified by Jeffery @2015-04-10*/
++	u1Byte				PreLogSeq;				/*Modified by Jeffery @2015-03-30*/
++	u1Byte				LogSeq;					/*Modified by Jeffery @2014-10-29*/
++	u2Byte				LogRetryCnt:3;			/*Modified by Jeffery @2014-10-29*/
++	u2Byte				LogSuccess:2;			/*Modified by Jeffery @2014-10-29*/
++	u1Byte				su_reg_index;
++	 /*For MU-MIMO*/
++	BOOLEAN				is_mu_ap;
++	u1Byte				gid_valid[8];
++	u1Byte				user_position[16];
++	u2Byte				AID;
++} RT_BEAMFORMER_ENTRY, *PRT_BEAMFORMER_ENTRY;
++
++typedef struct _RT_SOUNDING_INFO {
++	u1Byte			SoundIdx;
++	CHANNEL_WIDTH	SoundBW;
++	SOUNDING_MODE	SoundMode; 
++	u2Byte			SoundPeriod;
++} RT_SOUNDING_INFO, *PRT_SOUNDING_INFO;
++
++
++
++typedef struct _RT_BEAMFORMING_OID_INFO {
++	u1Byte			SoundOidIdx;
++	CHANNEL_WIDTH	SoundOidBW;	
++	SOUNDING_MODE	SoundOidMode;
++	u2Byte			SoundOidPeriod;
++} RT_BEAMFORMING_OID_INFO, *PRT_BEAMFORMING_OID_INFO;
++
++
++typedef struct _RT_BEAMFORMING_INFO {
++	BEAMFORMING_CAP			BeamformCap;
++	RT_BEAMFORMEE_ENTRY		BeamformeeEntry[BEAMFORMEE_ENTRY_NUM];
++	RT_BEAMFORMER_ENTRY		BeamformerEntry[BEAMFORMER_ENTRY_NUM];
++	RT_BEAMFORM_STAINFO		BeamformSTAinfo;
++	u1Byte					BeamformeeCurIdx;
++	RT_TIMER					BeamformingTimer;
++	RT_TIMER					mu_timer;
++	RT_SOUNDING_INFO			SoundingInfo;
++	RT_BEAMFORMING_OID_INFO	BeamformingOidInfo;
++	HAL_TXBF_INFO			TxbfInfo;
++	u1Byte					SoundingSequence;
++	u1Byte					beamformee_su_cnt;
++	u1Byte					beamformer_su_cnt;
++	u4Byte					beamformee_su_reg_maping;
++	u4Byte					beamformer_su_reg_maping;
++	/*For MU-MINO*/
++	u1Byte					beamformee_mu_cnt;
++	u1Byte					beamformer_mu_cnt;
++	u4Byte					beamformee_mu_reg_maping;
++	u1Byte					mu_ap_index;
++	BOOLEAN					is_mu_sounding;
++	u1Byte					FirstMUBFeeIndex;
++	BOOLEAN					is_mu_sounding_in_progress;
++	BOOLEAN					dbg_disable_mu_tx;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER				SourceAdapter;
++#endif
++	/* Control register */
++	u4Byte					RegMUTxCtrl;		/* For USB/SDIO interfaces aync I/O  */
++} RT_BEAMFORMING_INFO, *PRT_BEAMFORMING_INFO;
++
++
++typedef struct _RT_NDPA_STA_INFO {
++	u2Byte	AID:12;	
++	u2Byte	FeedbackType:1;
++	u2Byte	NcIndex:3;	
++} RT_NDPA_STA_INFO, *PRT_NDPA_STA_INFO;
++
++typedef enum _PHYDM_ACTING_TYPE {
++	PhyDM_ACTING_AS_IBSS = 0,
++	PhyDM_ACTING_AS_AP = 1
++} PHYDM_ACTING_TYPE;
++
++
++BEAMFORMING_CAP
++phydm_Beamforming_GetEntryBeamCapByMacId(
++	IN	PVOID	pDM_VOID,
++	IN 	u1Byte 	MacId
++ );
++
++PRT_BEAMFORMEE_ENTRY
++phydm_Beamforming_GetBFeeEntryByAddr(
++	IN	PVOID		pDM_VOID,
++	IN	pu1Byte		RA,
++	OUT	pu1Byte		Idx
++	);
++
++PRT_BEAMFORMER_ENTRY
++phydm_Beamforming_GetBFerEntryByAddr(
++	IN	PVOID	pDM_VOID,
++	IN	pu1Byte	TA,
++	OUT	pu1Byte	Idx
++	);
++
++u1Byte
++Beamforming_GetHTNDPTxRate(
++	IN	PVOID	pDM_VOID,
++	u1Byte	CompSteeringNumofBFer
++);
++
++u1Byte
++Beamforming_GetVHTNDPTxRate(
++	IN	PVOID	pDM_VOID,
++	u1Byte	CompSteeringNumofBFer
++);
++
++VOID
++phydm_Beamforming_Notify(
++	IN	PVOID	pDM_VOID
++	);
++
++BOOLEAN
++phydm_actingDetermine(
++	IN PVOID		pDM_VOID,
++	IN	PHYDM_ACTING_TYPE	type
++	);
++
++VOID
++Beamforming_Enter(
++	IN PVOID		pDM_VOID,
++	IN u2Byte	staIdx
++	);
++
++VOID
++Beamforming_Leave(
++	IN PVOID		pDM_VOID,
++	pu1Byte			RA
++	);
++
++BOOLEAN
++BeamformingStart_FW(
++	IN PVOID			pDM_VOID,
++	u1Byte			Idx
++	);
++
++VOID
++Beamforming_CheckSoundingSuccess(
++	IN PVOID			pDM_VOID,
++	BOOLEAN			Status	
++);
++
++VOID
++phydm_Beamforming_End_SW(
++	IN PVOID		pDM_VOID,
++	BOOLEAN			Status	
++	);
++
++VOID
++Beamforming_TimerCallback(
++	IN PVOID			pDM_VOID
++	);
++
++VOID
++phydm_Beamforming_Init(
++	IN	PVOID		pDM_VOID
++	);
++
++
++
++BEAMFORMING_CAP
++phydm_Beamforming_GetBeamCap(
++	IN PVOID			pDM_VOID,
++	IN PRT_BEAMFORMING_INFO 	pBeamInfo
++	);
++
++
++BOOLEAN
++BeamformingControl_V1(
++	IN PVOID			pDM_VOID,
++	pu1Byte			RA,
++	u1Byte			AID,
++	u1Byte			Mode,
++	CHANNEL_WIDTH	BW,
++	u1Byte			Rate
++	);
++
++
++BOOLEAN
++phydm_BeamformingControl_V2(
++	IN	PVOID		pDM_VOID,
++	u1Byte			Idx,
++	u1Byte			Mode, 
++	CHANNEL_WIDTH	BW,
++	u2Byte			Period
++	);
++
++VOID
++phydm_Beamforming_Watchdog(
++	IN	PVOID		pDM_VOID
++	);
++
++VOID
++Beamforming_SWTimerCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PRT_TIMER		pTimer
++#elif(DM_ODM_SUPPORT_TYPE == ODM_CE)
++	void *FunctionContext
++#endif
++	);
++
++BOOLEAN
++Beamforming_SendHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW, 
++	IN	u1Byte			QIdx
++	);
++
++
++BOOLEAN
++Beamforming_SendVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW,
++	IN	u1Byte			QIdx
++	);
++
++#else
++#define Beamforming_GidPAid(Adapter, pTcb)
++#define	phydm_actingDetermine(pDM_Odm, type)	FALSE
++#define Beamforming_Enter(pDM_Odm, staIdx)
++#define Beamforming_Leave(pDM_Odm, RA)
++#define Beamforming_End_FW(pDMOdm)
++#define BeamformingControl_V1(pDM_Odm, RA, AID, Mode, BW, Rate)		TRUE
++#define BeamformingControl_V2(pDM_Odm, Idx, Mode, BW, Period)		TRUE
++#define phydm_Beamforming_End_SW(pDM_Odm, _Status)
++#define Beamforming_TimerCallback(pDM_Odm)
++#define phydm_Beamforming_Init(pDM_Odm)
++#define phydm_BeamformingControl_V2(pDM_Odm, _Idx, _Mode, _BW, _Period)	FALSE
++#define Beamforming_Watchdog(pDM_Odm)
++#define phydm_Beamforming_Watchdog(pDM_Odm)
++
++
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_ccx.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_ccx.c
+new file mode 100644
+index 0000000..7d81f22
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_ccx.c
+@@ -0,0 +1,400 @@
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++/*Set NHM period, threshold, disable ignore cca or not, disable ignore txon or not*/
++VOID
++phydm_NHMsetting(
++	IN		PVOID		pDM_VOID,
++	u1Byte	NHMsetting
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCCX_INFO	CCX_INFO = &pDM_Odm->DM_CCX_INFO;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++
++		if (NHMsetting == SET_NHM_SETTING){
++			
++			/*Set inexclude_cca, inexclude_txon*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT9, CCX_INFO->NHM_inexclude_cca);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT10, CCX_INFO->NHM_inexclude_txon);
++
++			/*Set NHM period*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCX_PERIOD_11AC, bMaskHWord, CCX_INFO->NHM_period);
++
++			/*Set NHM threshold*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte0, CCX_INFO->NHM_th[0]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte1, CCX_INFO->NHM_th[1]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte2, CCX_INFO->NHM_th[2]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte3, CCX_INFO->NHM_th[3]);		
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte0, CCX_INFO->NHM_th[4]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte1, CCX_INFO->NHM_th[5]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte2, CCX_INFO->NHM_th[6]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte3, CCX_INFO->NHM_th[7]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH8_11AC, bMaskByte0, CCX_INFO->NHM_th[8]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, bMaskByte2, CCX_INFO->NHM_th[9]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, bMaskByte3, CCX_INFO->NHM_th[10]);
++
++			/*CCX EN*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT8, CCX_EN);
++			
++		}
++		else if (NHMsetting == STORE_NHM_SETTING) {
++
++			/*Store pervious disable_ignore_cca, disable_ignore_txon*/
++			CCX_INFO->NHM_inexclude_cca_restore = (BOOLEAN)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT9);
++			CCX_INFO->NHM_inexclude_txon_restore = (BOOLEAN)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT10);
++
++			/*Store pervious NHM period*/
++			CCX_INFO->NHM_period_restore = (u2Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_CCX_PERIOD_11AC, bMaskHWord);
++
++			/*Store NHM threshold*/
++			CCX_INFO->NHM_th_restore[0] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte0);
++			CCX_INFO->NHM_th_restore[1] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte1);
++			CCX_INFO->NHM_th_restore[2] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte2);
++			CCX_INFO->NHM_th_restore[3] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte3);		
++			CCX_INFO->NHM_th_restore[4] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte0);
++			CCX_INFO->NHM_th_restore[5] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte1);
++			CCX_INFO->NHM_th_restore[6] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte2);
++			CCX_INFO->NHM_th_restore[7] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte3);
++			CCX_INFO->NHM_th_restore[8] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH8_11AC, bMaskByte0);
++			CCX_INFO->NHM_th_restore[9] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, bMaskByte2);
++			CCX_INFO->NHM_th_restore[10] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, bMaskByte3);
++		}
++		else if (NHMsetting == RESTORE_NHM_SETTING) {
++
++			/*Set disable_ignore_cca, disable_ignore_txon*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT9, CCX_INFO->NHM_inexclude_cca_restore);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT10, CCX_INFO->NHM_inexclude_txon_restore);
++
++			/*Set NHM period*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCX_PERIOD_11AC, bMaskHWord, CCX_INFO->NHM_period);
++
++			/*Set NHM threshold*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte0, CCX_INFO->NHM_th_restore[0]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte1, CCX_INFO->NHM_th_restore[1]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte2, CCX_INFO->NHM_th_restore[2]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte3, CCX_INFO->NHM_th_restore[3]);		
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte0, CCX_INFO->NHM_th_restore[4]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte1, CCX_INFO->NHM_th_restore[5]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte2, CCX_INFO->NHM_th_restore[6]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte3, CCX_INFO->NHM_th_restore[7]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH8_11AC, bMaskByte0, CCX_INFO->NHM_th_restore[8]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, bMaskByte2, CCX_INFO->NHM_th_restore[9]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, bMaskByte3, CCX_INFO->NHM_th_restore[10]);
++		}
++		else
++			return;
++	}
++
++	else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++
++		if (NHMsetting == SET_NHM_SETTING){
++		
++			/*Set disable_ignore_cca, disable_ignore_txon*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT9, CCX_INFO->NHM_inexclude_cca);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT10, CCX_INFO->NHM_inexclude_txon);
++
++			/*Set NHM period*/	
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCX_PERIOD_11N, bMaskHWord, CCX_INFO->NHM_period);
++
++			/*Set NHM threshold*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte0, CCX_INFO->NHM_th[0]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte1, CCX_INFO->NHM_th[1]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte2, CCX_INFO->NHM_th[2]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte3, CCX_INFO->NHM_th[3]);		
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte0, CCX_INFO->NHM_th[4]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte1, CCX_INFO->NHM_th[5]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte2, CCX_INFO->NHM_th[6]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte3, CCX_INFO->NHM_th[7]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH8_11N, bMaskByte0, CCX_INFO->NHM_th[8]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, bMaskByte2, CCX_INFO->NHM_th[9]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, bMaskByte3, CCX_INFO->NHM_th[10]);
++
++			/*CCX EN*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT8, CCX_EN);
++		}
++		else if (NHMsetting == STORE_NHM_SETTING) {
++
++			/*Store pervious disable_ignore_cca, disable_ignore_txon*/
++			CCX_INFO->NHM_inexclude_cca_restore = (BOOLEAN)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT9);
++			CCX_INFO->NHM_inexclude_txon_restore= (BOOLEAN)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT10);
++
++			/*Store pervious NHM period*/
++			CCX_INFO->NHM_period_restore= (u2Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_CCX_PERIOD_11N, bMaskHWord);
++
++			/*Store NHM threshold*/
++			CCX_INFO->NHM_th_restore[0] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte0);
++			CCX_INFO->NHM_th_restore[1] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte1);
++			CCX_INFO->NHM_th_restore[2] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte2);
++			CCX_INFO->NHM_th_restore[3] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte3);		
++			CCX_INFO->NHM_th_restore[4] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte0);
++			CCX_INFO->NHM_th_restore[5] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte1);
++			CCX_INFO->NHM_th_restore[6] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte2);
++			CCX_INFO->NHM_th_restore[7] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte3);
++			CCX_INFO->NHM_th_restore[8] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH8_11N, bMaskByte0);
++			CCX_INFO->NHM_th_restore[9] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, bMaskByte2);
++			CCX_INFO->NHM_th_restore[10] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, bMaskByte3);			
++
++		}
++		else if (NHMsetting == RESTORE_NHM_SETTING) {
++
++			/*Set disable_ignore_cca, disable_ignore_txon*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT9, CCX_INFO->NHM_inexclude_cca_restore);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT10, CCX_INFO->NHM_inexclude_txon_restore);
++
++			/*Set NHM period*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCX_PERIOD_11N, bMaskHWord, CCX_INFO->NHM_period_restore);
++
++			/*Set NHM threshold*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte0, CCX_INFO->NHM_th_restore[0]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte1, CCX_INFO->NHM_th_restore[1]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte2, CCX_INFO->NHM_th_restore[2]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte3, CCX_INFO->NHM_th_restore[3]);		
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte0, CCX_INFO->NHM_th_restore[4]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte1, CCX_INFO->NHM_th_restore[5]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte2, CCX_INFO->NHM_th_restore[6]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte3, CCX_INFO->NHM_th_restore[7]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH8_11N, bMaskByte0, CCX_INFO->NHM_th_restore[8]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, bMaskByte2, CCX_INFO->NHM_th_restore[9]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, bMaskByte3, CCX_INFO->NHM_th_restore[10]);
++		}
++		else
++			return;
++		
++	}
++}
++
++VOID
++phydm_NHMtrigger(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCCX_INFO		CCX_INFO = &pDM_Odm->DM_CCX_INFO;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++
++		/*Trigger NHM*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT1, 0);
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT1, 1);
++	}
++	else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++
++		/*Trigger NHM*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT1, 0);
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT1, 1);		
++	}
++}
++
++VOID
++phydm_getNHMresult(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			value32;
++	PCCX_INFO		CCX_INFO = &pDM_Odm->DM_CCX_INFO;
++	
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++
++			value32 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_CNT_11AC);
++			CCX_INFO->NHM_result[0] = (u1Byte)(value32 & bMaskByte0);
++			CCX_INFO->NHM_result[1] = (u1Byte)((value32 & bMaskByte1) >> 8);
++			CCX_INFO->NHM_result[2] = (u1Byte)((value32 & bMaskByte2) >> 16);
++			CCX_INFO->NHM_result[3] = (u1Byte)((value32 & bMaskByte3) >> 24);
++
++			value32 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_CNT7_TO_CNT4_11AC);
++			CCX_INFO->NHM_result[4] = (u1Byte)(value32 & bMaskByte0);
++			CCX_INFO->NHM_result[5] = (u1Byte)((value32 & bMaskByte1) >> 8);
++			CCX_INFO->NHM_result[6] = (u1Byte)((value32 & bMaskByte2) >> 16);
++			CCX_INFO->NHM_result[7] = (u1Byte)((value32 & bMaskByte3) >> 24);
++
++			value32 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_CNT11_TO_CNT8_11AC);
++			CCX_INFO->NHM_result[8] = (u1Byte)(value32 & bMaskByte0);
++			CCX_INFO->NHM_result[9] = (u1Byte)((value32 & bMaskByte1) >> 8);
++			CCX_INFO->NHM_result[10] = (u1Byte)((value32 & bMaskByte2) >> 16);
++			CCX_INFO->NHM_result[11] = (u1Byte)((value32 & bMaskByte3) >> 24);
++
++			/*Get NHM duration*/
++			value32 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_DUR_READY_11AC);
++			CCX_INFO->NHM_duration = (u2Byte)(value32 & bMaskLWord);
++			
++	}
++
++	else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++
++			value32 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_CNT_11N);
++			CCX_INFO->NHM_result[0] = (u1Byte)(value32 & bMaskByte0);
++			CCX_INFO->NHM_result[1] = (u1Byte)((value32 & bMaskByte1) >> 8);
++			CCX_INFO->NHM_result[2] = (u1Byte)((value32 & bMaskByte2) >> 16);
++			CCX_INFO->NHM_result[3] = (u1Byte)((value32 & bMaskByte3) >> 24);
++
++			value32 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_CNT7_TO_CNT4_11N);
++			CCX_INFO->NHM_result[4] = (u1Byte)(value32 & bMaskByte0);
++			CCX_INFO->NHM_result[5] = (u1Byte)((value32 & bMaskByte1) >> 8);
++			CCX_INFO->NHM_result[6] = (u1Byte)((value32 & bMaskByte2) >> 16);
++			CCX_INFO->NHM_result[7] = (u1Byte)((value32 & bMaskByte3) >> 24);
++
++			value32 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_CNT9_TO_CNT8_11N);
++			CCX_INFO->NHM_result[8] = (u1Byte)((value32 & bMaskByte2) >> 16);
++			CCX_INFO->NHM_result[9] = (u1Byte)((value32 & bMaskByte3) >> 24);
++
++			value32 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_CNT10_TO_CNT11_11N);
++			CCX_INFO->NHM_result[10] = (u1Byte)((value32 & bMaskByte2) >> 16);
++			CCX_INFO->NHM_result[11] = (u1Byte)((value32 & bMaskByte3) >> 24);
++
++			/*Get NHM duration*/
++			value32 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_CNT10_TO_CNT11_11N);
++			CCX_INFO->NHM_duration = (u2Byte)(value32 & bMaskLWord);
++
++	}
++
++}
++
++BOOLEAN
++phydm_checkNHMready(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			value32 = 0;
++	u1Byte			i;
++	BOOLEAN			ret = FALSE;
++	
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_CLM_RESULT_11AC, bMaskDWord);
++		
++		for (i = 0; i < 200; i ++) {
++
++			ODM_delay_ms(1);
++			if (ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_DUR_READY_11AC, BIT17)) {
++				ret = 1;
++				break;
++			}
++		}
++	}
++	
++	else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_CLM_READY_11N, bMaskDWord);
++		
++		for (i = 0; i < 200; i ++) {
++
++			ODM_delay_ms(1);
++			if (ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_DUR_READY_11AC, BIT17) ) {
++				ret = 1;
++				break;
++			}
++		}		
++	}
++	return ret;
++}
++
++VOID
++phydm_storeNHMsetting(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCCX_INFO	CCX_INFO = &pDM_Odm->DM_CCX_INFO;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++
++
++	}
++	else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++		
++
++		
++	}
++}
++
++VOID
++phydm_CLMsetting(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;		
++	PCCX_INFO	CCX_INFO = &pDM_Odm->DM_CCX_INFO;
++
++
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CCX_PERIOD_11AC, bMaskLWord, CCX_INFO->CLM_period);	/*4us sample 1 time*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CLM_11AC, BIT8, 0x1);										/*Enable CCX for CLM*/
++		
++	} else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CCX_PERIOD_11N, bMaskLWord, CCX_INFO->CLM_period);	/*4us sample 1 time*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CLM_11N, BIT8, 0x1);								/*Enable CCX for CLM*/	
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CCX, ODM_DBG_LOUD, ("[%s] : CLM period = %dus\n", __func__,  CCX_INFO->CLM_period*4));
++		
++}
++
++VOID
++phydm_CLMtrigger(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CLM_11AC, BIT0, 0x0);	/*Trigger CLM*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CLM_11AC, BIT0, 0x1);
++	} else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CLM_11N, BIT0, 0x0);	/*Trigger CLM*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CLM_11N, BIT0, 0x1);
++	}
++}
++
++BOOLEAN
++phydm_checkCLMready(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			value32 = 0;
++	BOOLEAN			ret = FALSE;
++	
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_CLM_RESULT_11AC, bMaskDWord);				/*make sure CLM calc is ready*/
++	else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_CLM_READY_11N, bMaskDWord);				/*make sure CLM calc is ready*/
++
++	if ((pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) && (value32 & BIT16))
++		ret = TRUE;
++	else if ((pDM_Odm->SupportICType & ODM_IC_11N_SERIES) && (value32 & BIT17))
++		ret = TRUE;
++	else
++		ret = FALSE;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CCX, ODM_DBG_LOUD, ("[%s] : CLM ready = %d\n", __func__, ret));
++
++	return ret;
++}
++
++void
++phydm_getCLMresult(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCCX_INFO	CCX_INFO = &pDM_Odm->DM_CCX_INFO;
++
++	u4Byte			value32 = 0;
++	u2Byte			results = 0;
++	
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_CLM_RESULT_11AC, bMaskDWord);				/*read CLM calc result*/
++	else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_CLM_RESULT_11N, bMaskDWord);				/*read CLM calc result*/
++
++	CCX_INFO->CLM_result = (u2Byte)(value32 & bMaskLWord);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CCX, ODM_DBG_LOUD, ("[%s] : CLM result = %dus\n", __func__, CCX_INFO->CLM_result*4));
++	
++}
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_ccx.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_ccx.h
+new file mode 100644
+index 0000000..18b0dd2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_ccx.h
+@@ -0,0 +1,102 @@
++#ifndef	__PHYDMCCX_H__
++#define    __PHYDMCCX_H__
++
++#define CCX_EN 1
++
++#define SET_NHM_SETTING 		0
++#define STORE_NHM_SETTING 		1
++#define RESTORE_NHM_SETTING 	2
++
++/*
++#define NHM_EXCLUDE_CCA 			0
++#define NHM_INCLUDE_CCA 			1
++#define NHM_EXCLUDE_TXON 			0
++#define NHM_INCLUDE_TXON			1
++*/
++
++typedef enum NHM_inexclude_cca {
++	NHM_EXCLUDE_CCA,
++	NHM_INCLUDE_CCA
++}NHM_INEXCLUDE_CCA;
++
++typedef enum NHM_inexclude_txon {
++	NHM_EXCLUDE_TXON,
++	NHM_INCLUDE_TXON
++}NHM_INEXCLUDE_TXON;
++
++
++typedef struct _CCX_INFO{
++
++	/*Settings*/
++	u1Byte					NHM_th[11];
++	u2Byte					NHM_period;				/* 4us per unit */
++	u2Byte					CLM_period;				/* 4us per unit */
++	NHM_INEXCLUDE_TXON		NHM_inexclude_txon;
++	NHM_INEXCLUDE_CCA		NHM_inexclude_cca;
++
++	/*Previous Settings*/
++	u1Byte					NHM_th_restore[11];
++	u2Byte					NHM_period_restore;				/* 4us per unit */
++	u2Byte					CLM_period_restore;				/* 4us per unit */
++	NHM_INEXCLUDE_TXON		NHM_inexclude_txon_restore;
++	NHM_INEXCLUDE_CCA		NHM_inexclude_cca_restore;
++	
++	/*Report*/
++	u1Byte		NHM_result[12];
++	u2Byte		NHM_duration;
++	u2Byte		CLM_result;
++
++
++	BOOLEAN		echo_NHM_en;
++	BOOLEAN		echo_CLM_en;
++	u1Byte		echo_IGI;
++	
++}CCX_INFO, *PCCX_INFO;
++
++/*NHM*/
++
++VOID
++phydm_NHMsetting(
++	IN		PVOID		pDM_VOID,
++	u1Byte	NHMsetting
++);
++
++VOID
++phydm_NHMtrigger(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++phydm_getNHMresult(
++	IN		PVOID		pDM_VOID
++);
++
++BOOLEAN
++phydm_checkNHMready(
++	IN		PVOID		pDM_VOID
++);
++
++/*CLM*/
++
++VOID
++phydm_CLMsetting(
++	IN		PVOID			pDM_VOID
++);
++
++VOID
++phydm_CLMtrigger(
++	IN		PVOID			pDM_VOID
++);
++
++BOOLEAN
++phydm_checkCLMready(
++	IN		PVOID			pDM_VOID
++);
++
++VOID
++phydm_getCLMresult(
++	IN		PVOID			pDM_VOID
++);
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_cfotracking.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_cfotracking.c
+new file mode 100644
+index 0000000..24bc9da
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_cfotracking.c
+@@ -0,0 +1,338 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++VOID
++odm_SetCrystalCap(
++	IN		PVOID					pDM_VOID,
++	IN		u1Byte					CrystalCap
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCFO_TRACKING				pCfoTrack = (PCFO_TRACKING)PhyDM_Get_Structure( pDM_Odm, PHYDM_CFOTRACK);
++
++	if(pCfoTrack->CrystalCap == CrystalCap)
++		return;
++
++	pCfoTrack->CrystalCap = CrystalCap;
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8188E | ODM_RTL8188F)) {
++		/* write 0x24[22:17] = 0x24[16:11] = CrystalCap */
++		CrystalCap = CrystalCap & 0x3F;
++		ODM_SetBBReg(pDM_Odm, REG_AFE_XTAL_CTRL, 0x007ff800, (CrystalCap|(CrystalCap << 6)));
++	} else if (pDM_Odm->SupportICType & ODM_RTL8812) {
++		/* write 0x2C[30:25] = 0x2C[24:19] = CrystalCap */
++		CrystalCap = CrystalCap & 0x3F;
++		ODM_SetBBReg(pDM_Odm, REG_MAC_PHY_CTRL, 0x7FF80000, (CrystalCap|(CrystalCap << 6)));
++	} else if ((pDM_Odm->SupportICType & (ODM_RTL8703B|ODM_RTL8723B|ODM_RTL8192E|ODM_RTL8821))) {
++		/* 0x2C[23:18] = 0x2C[17:12] = CrystalCap */
++		CrystalCap = CrystalCap & 0x3F;
++		ODM_SetBBReg(pDM_Odm, REG_MAC_PHY_CTRL, 0x00FFF000, (CrystalCap|(CrystalCap << 6)));	
++	}  else if (pDM_Odm->SupportICType & ODM_RTL8814A) {
++		/* write 0x2C[26:21] = 0x2C[20:15] = CrystalCap */
++		CrystalCap = CrystalCap & 0x3F;
++		ODM_SetBBReg(pDM_Odm, REG_MAC_PHY_CTRL, 0x07FF8000, (CrystalCap|(CrystalCap << 6)));
++	} else if (pDM_Odm->SupportICType & ODM_RTL8822B) {
++		/* write 0x24[30:25] = 0x28[6:1] = CrystalCap */
++		CrystalCap = CrystalCap & 0x3F;
++		ODM_SetBBReg(pDM_Odm, REG_AFE_XTAL_CTRL, 0x7e000000, CrystalCap);
++		ODM_SetBBReg(pDM_Odm, REG_AFE_PLL_CTRL, 0x7e, CrystalCap);
++	} else {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("odm_SetCrystalCap(): Use default setting.\n"));
++		ODM_SetBBReg(pDM_Odm, REG_MAC_PHY_CTRL, 0xFFF000, (CrystalCap|(CrystalCap << 6)));
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("odm_SetCrystalCap(): CrystalCap = 0x%x\n", CrystalCap));
++#endif
++}
++
++u1Byte
++odm_GetDefaultCrytaltalCap(
++	IN		PVOID					pDM_VOID
++)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte						CrystalCap = 0x20;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PADAPTER					Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE				*pHalData = GET_HAL_DATA(Adapter);
++
++	CrystalCap = pHalData->CrystalCap;
++#else
++	prtl8192cd_priv	priv		= pDM_Odm->priv;
++
++	if(priv->pmib->dot11RFEntry.xcap > 0)
++		CrystalCap = priv->pmib->dot11RFEntry.xcap;
++#endif
++
++	CrystalCap = CrystalCap & 0x3f;
++
++	return CrystalCap;
++}
++
++VOID
++odm_SetATCStatus(
++	IN		PVOID					pDM_VOID,
++	IN		BOOLEAN					ATCStatus
++)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCFO_TRACKING				pCfoTrack = (PCFO_TRACKING)PhyDM_Get_Structure( pDM_Odm, PHYDM_CFOTRACK);
++
++	if(pCfoTrack->bATCStatus == ATCStatus)
++		return;
++	
++	ODM_SetBBReg(pDM_Odm, ODM_REG(BB_ATC,pDM_Odm), ODM_BIT(BB_ATC,pDM_Odm), ATCStatus);
++	pCfoTrack->bATCStatus = ATCStatus;
++}
++
++BOOLEAN
++odm_GetATCStatus(
++	IN		PVOID					pDM_VOID
++)
++{
++	BOOLEAN						ATCStatus;
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ATCStatus = (BOOLEAN)ODM_GetBBReg(pDM_Odm, ODM_REG(BB_ATC,pDM_Odm), ODM_BIT(BB_ATC,pDM_Odm));
++	return ATCStatus;
++}
++
++VOID
++ODM_CfoTrackingReset(
++	IN		PVOID					pDM_VOID
++)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCFO_TRACKING				pCfoTrack = (PCFO_TRACKING)PhyDM_Get_Structure( pDM_Odm, PHYDM_CFOTRACK);
++
++	pCfoTrack->DefXCap = odm_GetDefaultCrytaltalCap(pDM_Odm);
++	pCfoTrack->bAdjust = TRUE;
++
++	if(pCfoTrack->CrystalCap > pCfoTrack->DefXCap)
++	{
++		odm_SetCrystalCap(pDM_Odm, pCfoTrack->CrystalCap - 1);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD,
++			("ODM_CfoTrackingReset(): approch default value (0x%x)\n", pCfoTrack->CrystalCap));
++	} else if (pCfoTrack->CrystalCap < pCfoTrack->DefXCap)
++	{
++		odm_SetCrystalCap(pDM_Odm, pCfoTrack->CrystalCap + 1);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD,
++			("ODM_CfoTrackingReset(): approch default value (0x%x)\n", pCfoTrack->CrystalCap));
++	}
++
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	odm_SetATCStatus(pDM_Odm, TRUE);
++	#endif
++}
++
++VOID
++ODM_CfoTrackingInit(
++	IN		PVOID					pDM_VOID
++)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCFO_TRACKING				pCfoTrack = (PCFO_TRACKING)PhyDM_Get_Structure( pDM_Odm, PHYDM_CFOTRACK);
++
++	pCfoTrack->DefXCap = pCfoTrack->CrystalCap = odm_GetDefaultCrytaltalCap(pDM_Odm);
++	pCfoTrack->bATCStatus = odm_GetATCStatus(pDM_Odm);
++	pCfoTrack->bAdjust = TRUE;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking_init()=========>\n"));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking_init(): bATCStatus = %d, CrystalCap = 0x%x\n", pCfoTrack->bATCStatus, pCfoTrack->DefXCap));
++
++#if RTL8822B_SUPPORT
++	/* Crystal cap. control by WiFi */
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		ODM_SetBBReg(pDM_Odm, 0x10, 0x40, 0x1);
++#endif
++}
++
++VOID
++ODM_CfoTracking(
++	IN		PVOID					pDM_VOID
++)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCFO_TRACKING				pCfoTrack = (PCFO_TRACKING)PhyDM_Get_Structure( pDM_Odm, PHYDM_CFOTRACK);
++	int							CFO_kHz_A, CFO_kHz_B, CFO_ave = 0;
++	int							CFO_ave_diff;
++	int							CrystalCap = (int)pCfoTrack->CrystalCap;
++	u1Byte						Adjust_Xtal = 1;
++
++	//4 Support ability
++	if(!(pDM_Odm->SupportAbility & ODM_BB_CFO_TRACKING))
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): Return: SupportAbility ODM_BB_CFO_TRACKING is disabled\n"));
++		return;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking()=========> \n"));
++
++	if(!pDM_Odm->bLinked || !pDM_Odm->bOneEntryOnly)
++	{	
++		//4 No link or more than one entry
++		ODM_CfoTrackingReset(pDM_Odm);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): Reset: bLinked = %d, bOneEntryOnly = %d\n", 
++			pDM_Odm->bLinked, pDM_Odm->bOneEntryOnly));
++	}
++	else
++	{
++		//3 1. CFO Tracking
++		//4 1.1 No new packet
++		if(pCfoTrack->packetCount == pCfoTrack->packetCount_pre)
++		{
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): packet counter doesn't change\n"));
++			return;
++		}
++		pCfoTrack->packetCount_pre = pCfoTrack->packetCount;
++	
++		//4 1.2 Calculate CFO
++		CFO_kHz_A =  (int)((pCfoTrack->CFO_tail[0] * 3125)  / 10)>>7; /* CFO_tail[1:0] is S(8,7),    (num_subcarrier>>7) x 312.5K = CFO value(K Hz)   */
++		CFO_kHz_B =  (int)((pCfoTrack->CFO_tail[1] * 3125)  / 10)>>7;
++		
++		if(pDM_Odm->RFType < ODM_2T2R)
++			CFO_ave = CFO_kHz_A;
++		else
++			CFO_ave = (int)(CFO_kHz_A + CFO_kHz_B) >> 1;
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): CFO_kHz_A = %dkHz, CFO_kHz_B = %dkHz, CFO_ave = %dkHz\n", 
++						CFO_kHz_A, CFO_kHz_B, CFO_ave));
++
++		//4 1.3 Avoid abnormal large CFO
++		CFO_ave_diff = (pCfoTrack->CFO_ave_pre >= CFO_ave)?(pCfoTrack->CFO_ave_pre - CFO_ave):(CFO_ave - pCfoTrack->CFO_ave_pre);
++		if(CFO_ave_diff > 20 && pCfoTrack->largeCFOHit == 0 && !pCfoTrack->bAdjust)
++		{
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): first large CFO hit\n"));
++			pCfoTrack->largeCFOHit = 1;
++			return;
++		}
++		else
++			pCfoTrack->largeCFOHit = 0;
++		pCfoTrack->CFO_ave_pre = CFO_ave;
++
++		//4 1.4 Dynamic Xtal threshold
++		if(pCfoTrack->bAdjust == FALSE)
++		{
++			if(CFO_ave > CFO_TH_XTAL_HIGH || CFO_ave < (-CFO_TH_XTAL_HIGH))
++				pCfoTrack->bAdjust = TRUE;
++		}
++		else
++		{
++			if(CFO_ave < CFO_TH_XTAL_LOW && CFO_ave > (-CFO_TH_XTAL_LOW))
++				pCfoTrack->bAdjust = FALSE;
++		}
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++		//4 1.5 BT case: Disable CFO tracking
++		if(pDM_Odm->bBtEnabled)
++		{
++			pCfoTrack->bAdjust = FALSE;
++			odm_SetCrystalCap(pDM_Odm, pCfoTrack->DefXCap);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): Disable CFO tracking for BT!!\n"));
++		}
++/*
++		//4 1.6 Big jump 
++		if(pCfoTrack->bAdjust)
++		{
++			if(CFO_ave > CFO_TH_XTAL_LOW)
++				Adjust_Xtal =  Adjust_Xtal + ((CFO_ave - CFO_TH_XTAL_LOW) >> 2);
++			else if(CFO_ave < (-CFO_TH_XTAL_LOW))
++				Adjust_Xtal =  Adjust_Xtal + ((CFO_TH_XTAL_LOW - CFO_ave) >> 2);
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): Crystal cap offset = %d\n", Adjust_Xtal));
++		}
++*/
++#endif
++		
++		//4 1.7 Adjust Crystal Cap.
++		if(pCfoTrack->bAdjust)
++		{
++			if(CFO_ave > CFO_TH_XTAL_LOW)
++				CrystalCap = CrystalCap + Adjust_Xtal;
++			else if(CFO_ave < (-CFO_TH_XTAL_LOW))
++				CrystalCap = CrystalCap - Adjust_Xtal;
++
++			if(CrystalCap > 0x3f)
++				CrystalCap = 0x3f;
++			else if (CrystalCap < 0)
++				CrystalCap = 0;
++
++			odm_SetCrystalCap(pDM_Odm, (u1Byte)CrystalCap);
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): Crystal cap = 0x%x, Default Crystal cap = 0x%x\n", 
++			pCfoTrack->CrystalCap, pCfoTrack->DefXCap));
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++		if(pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++			return;
++		
++		//3 2. Dynamic ATC switch
++		if(CFO_ave < CFO_TH_ATC && CFO_ave > -CFO_TH_ATC)
++		{
++			odm_SetATCStatus(pDM_Odm, FALSE);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): Disable ATC!!\n"));
++		}
++		else
++		{
++			odm_SetATCStatus(pDM_Odm, TRUE);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): Enable ATC!!\n"));
++		}
++#endif
++	}
++}
++
++VOID
++ODM_ParsingCFO(
++	IN		PVOID			pDM_VOID,
++	IN		PVOID			pPktinfo_VOID,
++	IN		s1Byte* 			pcfotail
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_PACKET_INFO_T		pPktinfo = (PODM_PACKET_INFO_T)pPktinfo_VOID;
++	PCFO_TRACKING			pCfoTrack = (PCFO_TRACKING)PhyDM_Get_Structure( pDM_Odm, PHYDM_CFOTRACK);
++	u1Byte					i;
++
++	if(!(pDM_Odm->SupportAbility & ODM_BB_CFO_TRACKING))
++		return;
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	if(pPktinfo->bPacketMatchBSSID)
++#else
++	if(pPktinfo->StationID != 0)
++#endif
++	{				
++		//3 Update CFO report for path-A & path-B
++		// Only paht-A and path-B have CFO tail and short CFO
++		for(i = ODM_RF_PATH_A; i <= ODM_RF_PATH_B; i++)   
++		{
++			pCfoTrack->CFO_tail[i] = (int)pcfotail[i];
++	 	}
++
++		//3 Update packet counter
++		if(pCfoTrack->packetCount == 0xffffffff)
++			pCfoTrack->packetCount = 0;
++		else
++	 		pCfoTrack->packetCount++;
++	}
++}
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_cfotracking.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_cfotracking.h
+new file mode 100644
+index 0000000..dbcbc1a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_cfotracking.h
+@@ -0,0 +1,68 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef	__PHYDMCFOTRACK_H__
++#define    __PHYDMCFOTRACK_H__
++
++#define CFO_TRACKING_VERSION	"1.4" /*2015.10.01	Stanley, Modify for 8822B*/
++
++#define		CFO_TH_XTAL_HIGH			20			// kHz
++#define		CFO_TH_XTAL_LOW			10			// kHz
++#define		CFO_TH_ATC					80			// kHz
++
++typedef struct _CFO_TRACKING_
++{
++	BOOLEAN			bATCStatus;
++	BOOLEAN			largeCFOHit;
++	BOOLEAN			bAdjust;
++	u1Byte			CrystalCap;
++	u1Byte			DefXCap;
++	int				CFO_tail[2];
++	int				CFO_ave_pre;
++	u4Byte			packetCount;
++	u4Byte			packetCount_pre;
++
++	BOOLEAN			bForceXtalCap;
++	BOOLEAN			bReset;
++}CFO_TRACKING, *PCFO_TRACKING;
++
++VOID
++ODM_CfoTrackingReset(
++	IN		PVOID					pDM_VOID
++);
++
++VOID
++ODM_CfoTrackingInit(
++	IN		PVOID					pDM_VOID
++);
++
++VOID
++ODM_CfoTracking(
++	IN		PVOID					pDM_VOID
++);
++
++VOID
++ODM_ParsingCFO(
++	IN		PVOID					pDM_VOID,
++	IN		PVOID					pPktinfo_VOID,
++	IN     	s1Byte* 					pcfotail
++);
++
++#endif
+\ No newline at end of file
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_debug.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_debug.c
+new file mode 100644
+index 0000000..8d92b46
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_debug.c
+@@ -0,0 +1,2737 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++VOID
++PHYDM_InitDebugSetting(
++	IN		PDM_ODM_T		pDM_Odm
++)
++{
++	pDM_Odm->DebugLevel = ODM_DBG_TRACE;
++
++	pDM_Odm->DebugComponents			=
++		\
++#if DBG
++/*BB Functions*/
++/*									ODM_COMP_DIG					|*/
++/*									ODM_COMP_RA_MASK				|*/
++/*									ODM_COMP_DYNAMIC_TXPWR			|*/
++/*									ODM_COMP_FA_CNT				|*/
++/*									ODM_COMP_RSSI_MONITOR			|*/
++/*									ODM_COMP_SNIFFER				|*/
++/*									ODM_COMP_ANT_DIV				|*/
++/*									ODM_COMP_NOISY_DETECT			|*/
++/*									ODM_COMP_RATE_ADAPTIVE			|*/
++/*									ODM_COMP_PATH_DIV				|*/
++/*									ODM_COMP_DYNAMIC_PRICCA		|*/
++/*									ODM_COMP_MP					|*/
++/*									ODM_COMP_CFO_TRACKING			|*/
++/*									ODM_COMP_ACS					|*/
++/*									PHYDM_COMP_ADAPTIVITY			|*/
++/*									PHYDM_COMP_RA_DBG				|*/
++/*									PHYDM_COMP_TXBF					|*/
++
++/*MAC Functions*/
++/*									ODM_COMP_EDCA_TURBO			|*/
++/*									ODM_FW_DEBUG_TRACE				|*/
++
++/*RF Functions*/
++/*									ODM_COMP_TX_PWR_TRACK			|*/
++/*									ODM_COMP_RX_GAIN_TRACK			|*/
++/*									ODM_COMP_CALIBRATION			|*/
++
++/*Common*/
++/*									ODM_PHY_CONFIG					|*/
++/*									ODM_COMP_INIT					|*/
++/*									ODM_COMP_COMMON				|*/
++
++
++#endif
++		0;
++
++	pDM_Odm->fw_buff_is_enpty = TRUE;
++	pDM_Odm->pre_c2h_seq = 0;
++}
++
++VOID
++phydm_BB_RxHang_Info(
++	IN		PVOID			pDM_VOID,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++)
++{
++	u4Byte	value32 = 0;
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte used = *_used;
++	u4Byte out_len = *_out_len;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		return;
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xF80 , bMaskDWord);
++	PHYDM_SNPRINTF((output + used, out_len - used,  "\r\n %-35s = 0x%x", "rptreg of sc/bw/ht/...", value32));
++
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		ODM_SetBBReg(pDM_Odm, 0x198c , BIT2|BIT1|BIT0, 7);
++
++	/* dbg_port = basic state machine */
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0x000);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "basic state machine", value32));
++	}
++
++	/* dbg_port = state machine */
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0x007);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "state machine", value32));
++	}
++
++	/* dbg_port = CCA-related*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0x204);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "CCA-related", value32));
++	}
++
++
++	/* dbg_port = edcca/rxd*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0x278);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "edcca/rxd", value32));
++	}
++
++	/* dbg_port = rx_state/mux_state/ADC_MASK_OFDM*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0x290);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "rx_state/mux_state/ADC_MASK_OFDM", value32));
++	}
++
++	/* dbg_port = bf-related*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0x2B2);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "bf-related", value32));
++	}
++
++	/* dbg_port = bf-related*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0x2B8);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "bf-related", value32));
++	}
++
++	/* dbg_port = txon/rxd*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0xA03);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "txon/rxd", value32));
++	}
++
++	/* dbg_port = l_rate/l_length*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0xA0B);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "l_rate/l_length", value32));
++	}
++
++	/* dbg_port = rxd/rxd_hit*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0xA0D);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "rxd/rxd_hit", value32));
++	}
++
++	/* dbg_port = dis_cca*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0xAA0);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "dis_cca", value32));
++	}
++
++
++	/* dbg_port = tx*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0xAB0);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "tx", value32));
++	}
++
++	/* dbg_port = rx plcp*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0xAD0);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "rx plcp", value32));
++
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0xAD1);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "rx plcp", value32));
++
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0xAD2);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "rx plcp", value32));
++
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0xAD3);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "rx plcp", value32));
++	}
++
++}
++
++
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++static u1Byte	BbDbgBuf[BB_TMP_BUF_SIZE];
++
++VOID
++phydm_BB_Debug_Info(IN PDM_ODM_T pDM_Odm)
++{
++
++	u1Byte	RX_HT_BW, RX_VHT_BW, RXSC, RX_HT, RX_BW;
++	static u1Byte vRX_BW ;
++	u4Byte	value32, value32_1, value32_2, value32_3;
++	s4Byte	SFO_A, SFO_B, SFO_C, SFO_D;
++	s4Byte	LFO_A, LFO_B, LFO_C, LFO_D;
++	static u1Byte	MCSS, Tail, Parity, rsv, vrsv, idx, smooth, htsound, agg, stbc, vstbc, fec, fecext, sgi, sgiext, htltf, vgid, vNsts, vtxops, vrsv2, vbrsv, bf, vbcrc;
++	static u2Byte	HLength, htcrc8, Length;
++	static u2Byte vpaid;
++	static u2Byte	vLength, vhtcrc8, vMCSS, vTail, vbTail;
++	static u1Byte	HMCSS, HRX_BW;
++
++
++	u1Byte    pwDB;
++	s1Byte    RXEVM_0, RXEVM_1, RXEVM_2 ;
++	u1Byte    RF_gain_pathA, RF_gain_pathB, RF_gain_pathC, RF_gain_pathD;
++	u1Byte    RX_SNR_pathA, RX_SNR_pathB, RX_SNR_pathC, RX_SNR_pathD;
++	s4Byte    sig_power;
++
++	const char *L_rate[8] = {"6M", "9M", "12M", "18M", "24M", "36M", "48M", "54M"};
++
++
++	/*
++	const double evm_comp_20M = 0.579919469776867; //10*log10(64.0/56.0)
++	const double evm_comp_40M = 0.503051183113957; //10*log10(128.0/114.0)
++	const double evm_comp_80M = 0.244245993314183; //10*log10(256.0/242.0)
++	const double evm_comp_160M = 0.244245993314183; //10*log10(512.0/484.0)
++	   */
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		return;
++
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s\n", "BB Report Info");
++	DCMD_Printf(BbDbgBuf);
++
++	/*BW & Mode Detection*/
++	
++	value32 = ODM_GetBBReg(pDM_Odm, 0xf80 , bMaskDWord);
++	value32_2 = value32;
++	RX_HT_BW = (u1Byte)(value32 & 0x1);
++	RX_VHT_BW = (u1Byte)((value32 >> 1) & 0x3);
++	RXSC = (u1Byte)(value32 & 0x78);
++	value32_1 = (value32 & 0x180) >> 7;
++	RX_HT = (u1Byte)(value32_1);
++	/*
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "F80", value32_2);
++	DCMD_Printf(BbDbgBuf);
++
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "RX_HT_BW", RX_HT_BW);
++	DCMD_Printf(BbDbgBuf);
++
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "RX_VHT_BW", RX_VHT_BW);
++	DCMD_Printf(BbDbgBuf);
++
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "RX_SC", RXSC);
++	DCMD_Printf(BbDbgBuf);
++
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "RX_HT", RX_HT);
++	DCMD_Printf(BbDbgBuf);
++	*/
++
++	/*rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n  RX_HT:%s ", RXHT_table[RX_HT]);*/
++	/*DCMD_Printf(BbDbgBuf);*/
++	RX_BW = 0;
++
++	if (RX_HT == 2) {
++		rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n  Mode: VHT Mode");
++		DCMD_Printf(BbDbgBuf);
++		if (RX_VHT_BW == 0) {
++			rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "     BW=20M");
++			DCMD_Printf(BbDbgBuf);
++		} else if (RX_VHT_BW == 1) {
++			rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "     BW=40M");
++			DCMD_Printf(BbDbgBuf);
++		} else {
++			rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "     BW=80M");
++			DCMD_Printf(BbDbgBuf);
++		}
++		RX_BW = RX_VHT_BW;
++	} else if (RX_HT == 1) {
++		rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n  Mode: HT Mode");
++		DCMD_Printf(BbDbgBuf);
++		if (RX_HT_BW == 0) {
++			rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "     BW=20M");
++			DCMD_Printf(BbDbgBuf);
++		} else if (RX_HT_BW == 1) {
++			rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "     BW=40M");
++			DCMD_Printf(BbDbgBuf);
++		}
++		RX_BW = RX_HT_BW;
++	} else {
++		rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n  Mode: Legeacy Mode");
++		DCMD_Printf(BbDbgBuf);
++	}
++
++	if (RX_HT != 0) {
++		if (RXSC == 0)
++			rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n  duplicate/full bw");
++		else if (RXSC == 1)
++			rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n  usc20-1");
++		else if (RXSC == 2)
++			rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n  lsc20-1");
++		else if (RXSC == 3)
++			rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n  usc20-2");
++		else if (RXSC == 4)
++			rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n  lsc20-2");
++		else if (RXSC == 9)
++			rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n  usc40");
++		else if (RXSC == 10)
++			rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n  lsc40");
++		DCMD_Printf(BbDbgBuf);
++	}
++	/*
++	if(RX_HT == 2){
++		rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "  BW:%s", BW_table[RX_VHT_BW]);
++		RX_BW = RX_VHT_BW;
++		}
++	else if(RX_HT == 1){
++		rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "  BW:%s", BW_table[RX_HT_BW]);
++		RX_BW = RX_HT_BW;
++		}
++	else
++		rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE,  "");
++	
++	DCMD_Printf(BbDbgBuf);	
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "  RXSC:%s", RXSC_table[RXSC]);
++	DCMD_Printf(BbDbgBuf);
++	*/
++
++
++/*	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "dB Conversion: 10log(65)", ODM_PWdB_Conversion(65,10,0));*/
++/*	DCMD_Printf(BbDbgBuf);*/
++
++	/* RX signal power and AGC related info*/
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xF90 , bMaskDWord);
++	pwDB = (u1Byte)((value32 & bMaskByte1) >> 8);
++	pwDB = pwDB >> 1;
++	sig_power = -110 + pwDB;
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "OFDM RX Signal Power(dB)", sig_power);
++	DCMD_Printf(BbDbgBuf);
++
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xd14 , bMaskDWord);
++	RX_SNR_pathA = (u1Byte)(value32 & 0xFF) >> 1;
++	RF_gain_pathA = (s1Byte)((value32 & bMaskByte1) >> 8);
++	RF_gain_pathA *= 2;
++	value32 = ODM_GetBBReg(pDM_Odm, 0xd54 , bMaskDWord);
++	RX_SNR_pathB = (u1Byte)(value32 & 0xFF) >> 1;
++	RF_gain_pathB = (s1Byte)((value32 & bMaskByte1) >> 8);
++	RF_gain_pathB *= 2;
++	value32 = ODM_GetBBReg(pDM_Odm, 0xd94 , bMaskDWord);
++	RX_SNR_pathC = (u1Byte)(value32 & 0xFF) >> 1;
++	RF_gain_pathC = (s1Byte)((value32 & bMaskByte1) >> 8);
++	RF_gain_pathC *= 2;
++	value32 = ODM_GetBBReg(pDM_Odm, 0xdd4 , bMaskDWord);
++	RX_SNR_pathD = (u1Byte)(value32 & 0xFF) >> 1;
++	RF_gain_pathD = (s1Byte)((value32 & bMaskByte1) >> 8);
++	RF_gain_pathD *= 2;
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d", "OFDM RX RF Gain(A/B/C/D)", RF_gain_pathA, RF_gain_pathA, RF_gain_pathC, RF_gain_pathD);
++	DCMD_Printf(BbDbgBuf);
++
++
++	/* RX Counter related info*/
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xF08, bMaskDWord);
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "OFDM CCA Counter", ((value32&0xFFFF0000)>>16));
++	DCMD_Printf(BbDbgBuf);
++	
++	value32 = ODM_GetBBReg(pDM_Odm, 0xFD0, bMaskDWord);
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "OFDM SBD Fail Counter", value32&0xFFFF);
++	DCMD_Printf(BbDbgBuf);
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xFC4, bMaskDWord);
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d", "VHT SIGA/SIGB CRC8 Fail Counter", value32&0xFFFF, ((value32&0xFFFF0000)>>16));
++	DCMD_Printf(BbDbgBuf);
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xFCC, bMaskDWord);
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "CCK CCA Counter", value32&0xFFFF);
++	DCMD_Printf(BbDbgBuf);
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xFBC, bMaskDWord);
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d", "LSIG (\"Parity Fail\"/\"Rate Illegal\") Counter", value32&0xFFFF, ((value32&0xFFFF0000)>>16));
++	DCMD_Printf(BbDbgBuf);
++
++	value32_1 = ODM_GetBBReg(pDM_Odm, 0xFC8, bMaskDWord);
++	value32_2 = ODM_GetBBReg(pDM_Odm, 0xFC0, bMaskDWord);
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d", "HT/VHT MCS NOT SUPPORT counter", ((value32_2&0xFFFF0000)>>16), value32_1&0xFFFF);
++	DCMD_Printf(BbDbgBuf);
++
++
++	/* PostFFT related info*/
++
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xF8c , bMaskDWord);
++	RXEVM_0 = (s1Byte)((value32 & bMaskByte2) >> 16);
++	RXEVM_0 /= 2;
++	if (RXEVM_0 < -63)
++		RXEVM_0 = 0;
++
++	DCMD_Printf(BbDbgBuf);
++	RXEVM_1 = (s1Byte)((value32 & bMaskByte3) >> 24);
++	RXEVM_1 /= 2;
++	value32 = ODM_GetBBReg(pDM_Odm, 0xF88 , bMaskDWord);
++	RXEVM_2 = (s1Byte)((value32 & bMaskByte2) >> 16);
++	RXEVM_2 /= 2;
++
++	if (RXEVM_1 < -63)
++		RXEVM_1 = 0;
++	if (RXEVM_2 < -63)
++		RXEVM_2 = 0;
++
++	/*
++	if(RX_BW == 0){
++		RXEVM_0 -= evm_comp_20M;
++		RXEVM_1 -= evm_comp_20M;
++		RXEVM_2 -= evm_comp_20M;
++		}
++	else if(RX_BW == 1){
++		RXEVM_0 -= evm_comp_40M;
++		RXEVM_1 -= evm_comp_40M;
++		RXEVM_2 -= evm_comp_40M;
++		}
++	else if (RX_BW == 2){
++		RXEVM_0 -= evm_comp_80M;
++		RXEVM_1 -= evm_comp_80M;
++		RXEVM_2 -= evm_comp_80M;
++		}
++		*/
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d", "RXEVM (1ss/2ss/3ss)", RXEVM_0, RXEVM_1, RXEVM_2);
++	DCMD_Printf(BbDbgBuf);
++
++/*	value32 = ODM_GetBBReg(pDM_Odm, 0xD14 ,bMaskDWord);*/
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d", "RXSNR(A/B/C/D, dB)", RX_SNR_pathA, RX_SNR_pathB, RX_SNR_pathC, RX_SNR_pathD);
++	DCMD_Printf(BbDbgBuf);
++/*	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "B_RXSNR", (value32&0xFF00)>>9);*/
++/*	DCMD_Printf(BbDbgBuf);*/
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xF8C , bMaskDWord);
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d", "CSI_1st /CSI_2nd", value32&0xFFFF, ((value32&0xFFFF0000)>>16));
++	DCMD_Printf(BbDbgBuf);
++
++
++	//BW & Mode Detection
++
++	//Reset Page F Counter
++	ODM_SetBBReg(pDM_Odm, 0xB58 , BIT0, 1);
++	ODM_SetBBReg(pDM_Odm, 0xB58 , BIT0, 0);
++
++	//CFO Report Info
++	//Short CFO
++	value32 = ODM_GetBBReg(pDM_Odm, 0xd0c , bMaskDWord);
++	value32_1 = ODM_GetBBReg(pDM_Odm, 0xd4c , bMaskDWord);
++	value32_2 = ODM_GetBBReg(pDM_Odm, 0xd8c , bMaskDWord);
++	value32_3 = ODM_GetBBReg(pDM_Odm, 0xdcc , bMaskDWord);
++
++	SFO_A = (s4Byte)(value32 & bMask12Bits);
++	SFO_B = (s4Byte)(value32_1 & bMask12Bits);
++	SFO_C = (s4Byte)(value32_2 & bMask12Bits);
++	SFO_D = (s4Byte)(value32_3 & bMask12Bits);
++
++	LFO_A = (s4Byte)(value32 >> 16);
++	LFO_B = (s4Byte)(value32_1 >> 16);
++	LFO_C = (s4Byte)(value32_2 >> 16);
++	LFO_D = (s4Byte)(value32_3 >> 16);
++
++	//SFO 2's to dec
++	if (SFO_A > 2047)
++		SFO_A = SFO_A - 4096;
++	SFO_A = (SFO_A * 312500) / 2048;
++
++	if (SFO_B > 2047)
++		SFO_B = SFO_B - 4096;
++	SFO_B = (SFO_B * 312500) / 2048;
++	if (SFO_C > 2047)
++		SFO_C = SFO_C - 4096;
++	SFO_C = (SFO_C * 312500) / 2048;
++	if (SFO_D > 2047)
++		SFO_D = SFO_D - 4096;
++	SFO_D = (SFO_D * 312500) / 2048;
++
++	//LFO 2's to dec
++
++	if (LFO_A > 4095)
++		LFO_A = LFO_A - 8192;
++
++	if (LFO_B > 4095)
++		LFO_B = LFO_B - 8192;
++
++	if (LFO_C > 4095)
++		LFO_C = LFO_C - 8192;
++
++	if (LFO_D > 4095)
++		LFO_D = LFO_D - 8192;
++	LFO_A = LFO_A * 312500 / 4096;
++	LFO_B = LFO_B * 312500 / 4096;
++	LFO_C = LFO_C * 312500 / 4096;
++	LFO_D = LFO_D * 312500 / 4096;
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "CFO Report Info");
++	DCMD_Printf(BbDbgBuf);
++
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d/ %d/ %d", "  Short CFO(Hz) <A/B/C/D>", SFO_A, SFO_B, SFO_C, SFO_D);
++	DCMD_Printf(BbDbgBuf);
++
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d/ %d/ %d", "  Long CFO(Hz) <A/B/C/D>", LFO_A, LFO_B, LFO_C, LFO_D);
++	DCMD_Printf(BbDbgBuf);
++
++	//SCFO
++	value32 = ODM_GetBBReg(pDM_Odm, 0xd10 , bMaskDWord);
++	value32_1 = ODM_GetBBReg(pDM_Odm, 0xd50 , bMaskDWord);
++	value32_2 = ODM_GetBBReg(pDM_Odm, 0xd90 , bMaskDWord);
++	value32_3 = ODM_GetBBReg(pDM_Odm, 0xdd0 , bMaskDWord);
++
++	SFO_A = (s4Byte)(value32 & 0x7ff);
++	SFO_B = (s4Byte)(value32_1 & 0x7ff);
++	SFO_C = (s4Byte)(value32_2 & 0x7ff);
++	SFO_D = (s4Byte)(value32_3 & 0x7ff);
++
++	if (SFO_A > 1023)
++		SFO_A = SFO_A - 2048;
++
++	if (SFO_B > 2047)
++		SFO_B = SFO_B - 4096;
++
++	if (SFO_C > 2047)
++		SFO_C = SFO_C - 4096;
++
++	if (SFO_D > 2047)
++		SFO_D = SFO_D - 4096;
++
++	SFO_A = SFO_A * 312500 / 1024;
++	SFO_B = SFO_B * 312500 / 1024;
++	SFO_C = SFO_C * 312500 / 1024;
++	SFO_D = SFO_D * 312500 / 1024;
++
++	LFO_A = (s4Byte)(value32 >> 16);
++	LFO_B = (s4Byte)(value32_1 >> 16);
++	LFO_C = (s4Byte)(value32_2 >> 16);
++	LFO_D = (s4Byte)(value32_3 >> 16);
++
++	if (LFO_A > 4095)
++		LFO_A = LFO_A - 8192;
++
++	if (LFO_B > 4095)
++		LFO_B = LFO_B - 8192;
++
++	if (LFO_C > 4095)
++		LFO_C = LFO_C - 8192;
++
++	if (LFO_D > 4095)
++		LFO_D = LFO_D - 8192;
++	LFO_A = LFO_A * 312500 / 4096;
++	LFO_B = LFO_B * 312500 / 4096;
++	LFO_C = LFO_C * 312500 / 4096;
++	LFO_D = LFO_D * 312500 / 4096;
++	
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d/ %d/ %d", "  Value SCFO(Hz) <A/B/C/D>", SFO_A, SFO_B, SFO_C, SFO_D);
++	DCMD_Printf(BbDbgBuf);
++
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d/ %d/ %d", "  ACQ CFO(Hz) <A/B/C/D>", LFO_A, LFO_B, LFO_C, LFO_D);
++	DCMD_Printf(BbDbgBuf);
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xd14 , bMaskDWord);
++	value32_1 = ODM_GetBBReg(pDM_Odm, 0xd54 , bMaskDWord);
++	value32_2 = ODM_GetBBReg(pDM_Odm, 0xd94 , bMaskDWord);
++	value32_3 = ODM_GetBBReg(pDM_Odm, 0xdd4 , bMaskDWord);
++
++	LFO_A = (s4Byte)(value32 >> 16);
++	LFO_B = (s4Byte)(value32_1 >> 16);
++	LFO_C = (s4Byte)(value32_2 >> 16);
++	LFO_D = (s4Byte)(value32_3 >> 16);
++
++	if (LFO_A > 4095)
++		LFO_A = LFO_A - 8192;
++
++	if (LFO_B > 4095)
++		LFO_B = LFO_B - 8192;
++
++	if (LFO_C > 4095)
++		LFO_C = LFO_C - 8192;
++
++	if (LFO_D > 4095)
++		LFO_D = LFO_D - 8192;
++
++	LFO_A = LFO_A * 312500 / 4096;
++	LFO_B = LFO_B * 312500 / 4096;
++	LFO_C = LFO_C * 312500 / 4096;
++	LFO_D = LFO_D * 312500 / 4096;
++
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d/ %d/ %d", "  End CFO(Hz) <A/B/C/D>", LFO_A, LFO_B, LFO_C, LFO_D);
++	DCMD_Printf(BbDbgBuf);
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xf20 , bMaskDWord);  /*L SIG*/
++
++	Tail = (u1Byte)((value32 & 0xfc0000) >> 16);
++	Parity = (u1Byte)((value32 & 0x20000) >> 16);
++	Length = (u2Byte)((value32 & 0x1ffe00) >> 8);
++	rsv = (u1Byte)(value32 & 0x10);
++	MCSS = (u1Byte)(value32 & 0x0f);
++
++	switch (MCSS) {
++	case 0x0b:
++		idx = 0;
++		break;
++	case 0x0f:
++		idx = 1;
++		break;
++	case 0x0a:
++		idx = 2;
++		break;
++	case 0x0e:
++		idx = 3;
++		break;
++	case 0x09:
++		idx = 4;
++		break;
++	case 0x08:
++		idx = 5;
++		break;
++	case 0x0c:
++		idx = 6;
++		break;
++	default:
++		idx = 6;
++		break;
++
++	}
++
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "L-SIG");
++	DCMD_Printf(BbDbgBuf);
++
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n   Rate:%s", L_rate[idx]);		
++	DCMD_Printf(BbDbgBuf);	
++
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %x/ %x /%x", "  Rsv/Length/Parity", rsv, RX_BW, Length);
++	DCMD_Printf(BbDbgBuf);
++
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "HT-SIG1");
++	DCMD_Printf(BbDbgBuf);
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xf2c , bMaskDWord);  /*HT SIG*/
++	if (RX_HT == 1) {
++
++		HMCSS = (u1Byte)(value32 & 0x7F);
++		HRX_BW = (u1Byte)(value32 & 0x80);
++		HLength = (u2Byte)((value32 >> 8) & 0xffff);
++	}
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %x / %x/ %x", "  MCS/BW/Length", HMCSS, HRX_BW, HLength);
++	DCMD_Printf(BbDbgBuf);
++
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "HT-SIG2");
++	DCMD_Printf(BbDbgBuf);
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xf30 , bMaskDWord);  /*HT SIG*/
++
++	if (RX_HT == 1) {
++		smooth = (u1Byte)(value32 & 0x01);
++		htsound = (u1Byte)(value32 & 0x02);
++		rsv = (u1Byte)(value32 & 0x04);
++		agg = (u1Byte)(value32 & 0x08);
++		stbc = (u1Byte)(value32 & 0x30);
++		fec = (u1Byte)(value32 & 0x40);
++		sgi = (u1Byte)(value32 & 0x80);
++		htltf = (u1Byte)((value32 & 0x300) >> 8);
++		htcrc8 = (u2Byte)((value32 & 0x3fc00) >> 8);
++		Tail = (u1Byte)((value32 & 0xfc0000) >> 16);
++
++
++	}
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %x / %x/ %x/ %x/ %x/ %x", "  Smooth/NoSound/Rsv/Aggregate/STBC/LDPC", smooth, htsound, rsv, agg, stbc, fec);
++	DCMD_Printf(BbDbgBuf);
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %x / %x/ %x/ %x", "  SGI/E-HT-LTFs/CRC/Tail", sgi, htltf, htcrc8, Tail);
++	DCMD_Printf(BbDbgBuf);
++
++
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "VHT-SIG-A1");
++	DCMD_Printf(BbDbgBuf);
++	value32 = ODM_GetBBReg(pDM_Odm, 0xf2c , bMaskDWord);  /*VHT SIG A1*/
++	if (RX_HT == 2) {
++		/* value32 = ODM_GetBBReg(pDM_Odm, 0xf2c ,bMaskDWord);*/
++		vRX_BW = (u1Byte)(value32 & 0x03);
++		vrsv = (u1Byte)(value32 & 0x04);
++		vstbc = (u1Byte)(value32 & 0x08);
++		vgid = (u1Byte)((value32 & 0x3f0) >> 4);
++		vNsts = (u1Byte)(((value32 & 0x1c00) >> 8) + 1);
++		vpaid = (u2Byte)(value32 & 0x3fe);
++		vtxops = (u1Byte)((value32 & 0x400000) >> 20);
++		vrsv2 = (u1Byte)((value32 & 0x800000) >> 20);
++	}
++
++	/*rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %x", "F2C", value32);*/
++	/*DCMD_Printf(BbDbgBuf);*/
++
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %x / %x/ %x/ %x/ %x/ %x /%x /%x", "  BW/Rsv1/STBC/GID/Nsts/PAID/TXOPPS/Rsv2", vRX_BW, vrsv, vstbc, vgid, vNsts, vpaid, vtxops, vrsv2);
++	DCMD_Printf(BbDbgBuf);
++
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "VHT-SIG-A2");
++	DCMD_Printf(BbDbgBuf);
++	value32 = ODM_GetBBReg(pDM_Odm, 0xf30 , bMaskDWord);  /*VHT SIG*/
++
++
++	if (RX_HT == 2) {
++		/*value32 = ODM_GetBBReg(pDM_Odm, 0xf30 ,bMaskDWord); */  /*VHT SIG*/
++
++		//sgi=(u1Byte)(value32&0x01);
++		sgiext = (u1Byte)(value32 & 0x03);
++		//fec = (u1Byte)(value32&0x04);
++		fecext = (u1Byte)(value32 & 0x0C);
++
++		vMCSS = (u1Byte)(value32 & 0xf0);
++		bf = (u1Byte)((value32 & 0x100) >> 8);
++		vrsv = (u1Byte)((value32 & 0x200) >> 8);
++		vhtcrc8 = (u2Byte)((value32 & 0x3fc00) >> 8);
++		vTail = (u1Byte)((value32 & 0xfc0000) >> 16);
++	}
++	/*rsprintf(BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %x", "F30", value32);*/
++	/*DCMD_Printf(BbDbgBuf);*/
++	
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %x / %x/ %x/ %x/ %x/ %x/ %x", "  SGI/FEC/MCS/BF/Rsv/CRC/Tail", sgiext, fecext, vMCSS, bf, vrsv, vhtcrc8, vTail);
++	DCMD_Printf(BbDbgBuf);
++
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "VHT-SIG-B");
++	DCMD_Printf(BbDbgBuf);
++	value32 = ODM_GetBBReg(pDM_Odm, 0xf34 , bMaskDWord);  /*VHT SIG*/
++	{
++		vLength = (u2Byte)(value32 & 0x1fffff);
++		vbrsv = (u1Byte)((value32 & 0x600000) >> 20);
++		vbTail = (u2Byte)((value32 & 0x1f800000) >> 20);
++		vbcrc = (u1Byte)((value32 & 0x80000000) >> 28);
++
++	}
++	/*rsprintf(BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %x", "F34", value32);*/
++	/*DCMD_Printf(BbDbgBuf);*/
++	rsprintf((char *)BbDbgBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %x / %x/ %x/ %x/", "  Length/Rsv/Tail/CRC", vLength, vbrsv, vbTail, vbcrc);
++	DCMD_Printf(BbDbgBuf);
++
++
++}
++
++void phydm_sbd_check(
++	IN	PDM_ODM_T					pDM_Odm
++)
++{
++	static u4Byte	pkt_cnt = 0;
++	static BOOLEAN sbd_state = 0;
++	u4Byte	sym_count, count, value32;
++
++	if (sbd_state == 0) {
++		pkt_cnt++;
++		if (pkt_cnt % 5 == 0) { /*read SBD conter once every 5 packets*/
++			ODM_SetTimer(pDM_Odm, &pDM_Odm->sbdcnt_timer, 0); /*ms*/
++			sbd_state = 1;
++		}
++	} else { /*read counter*/
++		value32 = ODM_GetBBReg(pDM_Odm, 0xF98, bMaskDWord);
++		sym_count = (value32 & 0x7C000000) >> 26;
++		count = (value32 & 0x3F00000) >> 20;
++		DbgPrint("#SBD#    sym_count   %d   count   %d\n", sym_count, count);
++		sbd_state = 0;
++	}
++}
++
++void phydm_sbd_callback(
++	PRT_TIMER		pTimer
++)
++{
++	PADAPTER		Adapter = (PADAPTER)pTimer->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++
++#if USE_WORKITEM
++	ODM_ScheduleWorkItem(&pDM_Odm->sbdcnt_workitem);
++#else
++	phydm_sbd_check(pDM_Odm);
++#endif
++}
++
++void phydm_sbd_workitem_callback(
++	IN PVOID            pContext
++)
++{
++	PADAPTER	pAdapter = (PADAPTER)pContext;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++
++	phydm_sbd_check(pDM_Odm);
++}
++#endif
++VOID
++phydm_BasicDbgMessage
++(
++	IN		PVOID			pDM_VOID
++)
++{
++#if( DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PFALSE_ALARM_STATISTICS FalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure(pDM_Odm , PHYDM_FALSEALMCNT);
++	pDIG_T	pDM_DigTable = &pDM_Odm->DM_DigTable;
++	pRA_T	pRA_Table = &pDM_Odm->DM_RA_Table;
++	u2Byte	macid, phydm_macid, client_cnt = 0;
++	PSTA_INFO_T	pEntry;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("[PHYDM Common MSG]-------------->\n"));
++
++	if (pDM_Odm->bLinked) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("Curr_STA_ID =  0x%x\n", pDM_Odm->curr_station_id));
++		
++		/*Print RX Rate*/
++		if (pDM_Odm->RxRate <= ODM_RATE11M) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("[CCK AGC Report] LNA_idx = 0x%x, VGA_idx = 0x%x\n",
++				pDM_Odm->cck_lna_idx, pDM_Odm->cck_vga_idx));		
++		} else {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("[OFDM AGC Report] { 0x%x, 0x%x, 0x%x, 0x%x }\n",
++				pDM_Odm->ofdm_agc_idx[0], pDM_Odm->ofdm_agc_idx[1], pDM_Odm->ofdm_agc_idx[2], pDM_Odm->ofdm_agc_idx[3]));	
++		}
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("RSSI: { %d,  %d,  %d,  %d },    RxRate:",
++			(pDM_Odm->RSSI_A == 0xff) ? 0 : pDM_Odm->RSSI_A , 
++			(pDM_Odm->RSSI_B == 0xff) ? 0 : pDM_Odm->RSSI_B , 
++			(pDM_Odm->RSSI_C == 0xff) ? 0 : pDM_Odm->RSSI_C, 
++			(pDM_Odm->RSSI_D == 0xff) ? 0 : pDM_Odm->RSSI_D));
++
++		phydm_print_rate(pDM_Odm, pDM_Odm->RxRate, ODM_COMP_COMMON);
++		
++		/*Print TX Rate*/
++		for (macid = 0; macid < ODM_ASSOCIATE_ENTRY_NUM; macid++) {
++			
++			pEntry = pDM_Odm->pODM_StaInfo[macid];
++			if (IS_STA_VALID(pEntry)) {
++				
++				phydm_macid = (pDM_Odm->platform2phydm_macid_table[macid]);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("TXRate [%d]:", macid));
++				phydm_print_rate(pDM_Odm, pRA_Table->link_tx_rate[macid], ODM_COMP_COMMON);
++				
++				client_cnt++;
++			
++				if (client_cnt == pDM_Odm->number_linked_client)
++					break;
++			}
++		}
++		
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("TP { TX, RX, total} = {%d, %d, %d }Mbps, TrafficLoad = (%d))\n", 
++			pDM_Odm->tx_tp, pDM_Odm->rx_tp, pDM_Odm->total_tp, pDM_Odm->TrafficLoad));
++		
++	} else {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("No Link !!!\n"));
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("[CCA Cnt] {CCK, OFDM, Total} = {%d, %d, %d}\n",	
++		FalseAlmCnt->Cnt_CCK_CCA, FalseAlmCnt->Cnt_OFDM_CCA, FalseAlmCnt->Cnt_CCA_all));
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("[FA Cnt] {CCK, OFDM, Total} = {%d, %d, %d}\n",	
++		FalseAlmCnt->Cnt_Cck_fail, FalseAlmCnt->Cnt_Ofdm_fail, FalseAlmCnt->Cnt_all));
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("[OFDM FA Detail] Parity_Fail = (( %d )), Rate_Illegal = (( %d )), CRC8_fail = (( %d )), Mcs_fail = (( %d )), Fast_Fsync = (( %d )), SB_Search_fail = (( %d ))\n",	
++		FalseAlmCnt->Cnt_Parity_Fail, FalseAlmCnt->Cnt_Rate_Illegal, FalseAlmCnt->Cnt_Crc8_fail, FalseAlmCnt->Cnt_Mcs_fail, FalseAlmCnt->Cnt_Fast_Fsync, FalseAlmCnt->Cnt_SB_Search_fail));
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("bLinked = %d, Num_client = %d, RSSI_Min = %d, CurrentIGI = 0x%x, bNoisy=%d\n\n",
++		pDM_Odm->bLinked, pDM_Odm->number_linked_client, pDM_Odm->RSSI_Min, pDM_DigTable->CurIGValue, pDM_Odm->NoisyDecision));
++
++/*
++	temp_reg = ODM_GetBBReg(pDM_Odm, 0xDD0, bMaskByte0);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD, ("0xDD0 = 0x%x\n",temp_reg));
++		
++	temp_reg = ODM_GetBBReg(pDM_Odm, 0xDDc, bMaskByte1);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD, ("0xDDD = 0x%x\n",temp_reg));
++	
++	temp_reg = ODM_GetBBReg(pDM_Odm, 0xc50, bMaskByte0);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD, ("0xC50 = 0x%x\n",temp_reg));
++
++	temp_reg = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x0, 0x3fe0);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD, ("RF 0x0[13:5] = 0x%x\n\n",temp_reg));
++*/	
++
++#endif
++}
++
++
++VOID phydm_BasicProfile(
++	IN		PVOID			pDM_VOID,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	char  *Cut = NULL;
++	char *ICType = NULL;
++	u4Byte used = *_used;
++	u4Byte out_len = *_out_len;
++	u4Byte	commit_ver = 0;
++	u4Byte	date = 0;
++	char	*commit_by = NULL;
++	u4Byte	release_ver = 0;
++
++	PHYDM_SNPRINTF((output + used, out_len - used, "%-35s\n", "% Basic Profile %"));
++
++	if (pDM_Odm->SupportICType == ODM_RTL8188E) {
++		#if (RTL8188E_SUPPORT == 1)
++		ICType = "RTL8188E";
++		date = RELEASE_DATE_8188E;
++		commit_by = COMMIT_BY_8188E;
++		release_ver = RELEASE_VERSION_8188E;
++		#endif
++	}
++	#if (RTL8812A_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8812) {
++		ICType = "RTL8812A";
++		date = RELEASE_DATE_8812A;
++		commit_by = COMMIT_BY_8812A;
++		release_ver = RELEASE_VERSION_8812A;
++	}
++	#endif
++	#if (RTL8821A_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8821) {
++		ICType = "RTL8821A";
++		date = RELEASE_DATE_8821A;
++		commit_by = COMMIT_BY_8821A;
++		release_ver = RELEASE_VERSION_8821A;
++	}
++	#endif
++	#if (RTL8192E_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8192E) {
++		ICType = "RTL8192E";
++		date = RELEASE_DATE_8192E;
++		commit_by = COMMIT_BY_8192E;
++		release_ver = RELEASE_VERSION_8192E;
++	}
++	#endif
++	#if (RTL8723B_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++		ICType = "RTL8723B";
++		date = RELEASE_DATE_8723B;
++		commit_by = COMMIT_BY_8723B;
++		release_ver = RELEASE_VERSION_8723B;
++	}
++	#endif
++	#if (RTL8814A_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8814A) {
++		ICType = "RTL8814A";
++		date = RELEASE_DATE_8814A;
++		commit_by = COMMIT_BY_8814A;
++		release_ver = RELEASE_VERSION_8814A;
++	}
++	#endif
++	#if (RTL8881A_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8881A) {
++		ICType = "RTL8881A";
++		/**/
++	}
++	#endif
++	#if (RTL8822B_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8822B) {
++		ICType = "RTL8822B";
++		date = RELEASE_DATE_8822B;
++		commit_by = COMMIT_BY_8822B;
++		release_ver = RELEASE_VERSION_8822B;
++	}
++	#endif
++	#if (RTL8197F_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8197F) {
++		ICType = "RTL8197F";
++		date = RELEASE_DATE_8197F;
++		commit_by = COMMIT_BY_8197F;
++		release_ver = RELEASE_VERSION_8197F;
++	}
++	#endif
++
++	#if (RTL8703B_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8703B) {
++		
++		ICType = "RTL8703B";
++		date = RELEASE_DATE_8703B;
++		commit_by = COMMIT_BY_8703B;
++		release_ver = RELEASE_VERSION_8703B;
++		
++	} 
++	#endif
++	#if (RTL8195A_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8195A) {
++		ICType = "RTL8195A";
++		/**/		
++	}
++	#endif
++	#if (RTL8188F_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8188F) {
++		ICType = "RTL8188F";
++		date = RELEASE_DATE_8188F;
++		commit_by = COMMIT_BY_8188F;
++		release_ver = RELEASE_VERSION_8188F;
++	}
++	#endif
++	#if (RTL8723D_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++		ICType = "RTL8723D";
++		date = RELEASE_DATE_8723D;
++		commit_by = COMMIT_BY_8723D;
++		release_ver = RELEASE_VERSION_8723D;
++		/**/	
++	}
++	#endif
++	#if (RTL8821C_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8821C) {
++		ICType = "RTL8821C";
++		date = RELEASE_DATE_8821C;
++		commit_by = COMMIT_BY_8821C;
++		release_ver = RELEASE_VERSION_8821C;
++	}
++	#endif
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s (MP Chip: %s)\n", "IC Type", ICType, pDM_Odm->bIsMPChip ? "Yes" : "No"));
++
++	if (pDM_Odm->CutVersion == ODM_CUT_A)			
++		Cut = "A";
++	else if (pDM_Odm->CutVersion == ODM_CUT_B)            
++		Cut = "B";
++	else if (pDM_Odm->CutVersion == ODM_CUT_C)            
++		Cut = "C";
++	else if (pDM_Odm->CutVersion == ODM_CUT_D)            
++		Cut = "D";
++	else if (pDM_Odm->CutVersion == ODM_CUT_E)            
++		Cut = "E";
++	else if (pDM_Odm->CutVersion == ODM_CUT_F)            
++		Cut = "F";
++	else if (pDM_Odm->CutVersion == ODM_CUT_I)            
++		Cut = "I";
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Cut Version", Cut));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %d\n", "PHY Parameter Version", ODM_GetHWImgVersion(pDM_Odm)));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %d\n", "PHY Parameter Commit date", date));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "PHY Parameter Commit by", commit_by));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %d\n", "PHY Parameter Release Version", release_ver));
++	
++#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	{
++		PADAPTER		       Adapter = pDM_Odm->Adapter;
++		PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %d (Subversion: %d)\n", "FW Version", Adapter->MgntInfo.FirmwareVersion, Adapter->MgntInfo.FirmwareSubVersion));
++	}
++#elif (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	{
++		struct rtl8192cd_priv *priv = pDM_Odm->priv;
++		PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %d (Subversion: %d)\n", "FW Version", priv->pshare->fw_version, priv->pshare->fw_sub_version));
++	}
++#else
++	{
++		PADAPTER		       Adapter = pDM_Odm->Adapter;
++		HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++		PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %d (Subversion: %d)\n", "FW Version", pHalData->FirmwareVersion, pHalData->FirmwareSubVersion));
++	}
++#endif
++	//1 PHY DM Version List
++	PHYDM_SNPRINTF((output + used, out_len - used, "%-35s\n", "% PHYDM Version %"));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Code Base", PHYDM_CODE_BASE));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Adaptivity", ADAPTIVITY_VERSION));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "DIG", DIG_VERSION));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Dynamic BB PowerSaving", DYNAMIC_BBPWRSAV_VERSION));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "CFO Tracking", CFO_TRACKING_VERSION));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Antenna Diversity", ANTDIV_VERSION));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Power Tracking", POWRTRACKING_VERSION));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Dynamic TxPower", DYNAMIC_TXPWR_VERSION));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "RA Info", RAINFO_VERSION));
++#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Antenna Detection", ANTDECT_VERSION));
++#endif
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Auto Channel Selection", ACS_VERSION));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "EDCA Turbo", EDCATURBO_VERSION));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Path Diversity", PATHDIV_VERSION));
++
++#if (RTL8822B_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "PHY config 8822B", PHY_CONFIG_VERSION_8822B));
++	
++#endif
++#if (RTL8197F_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType & ODM_RTL8197F)
++		PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "PHY config 8197F", PHY_CONFIG_VERSION_8197F));
++#endif
++	*_used = used;
++	*_out_len = out_len;
++
++}
++
++VOID
++phydm_fw_trace_en_h2c(
++	IN	PVOID	pDM_VOID,
++	IN	BOOLEAN		enable,
++	IN	u4Byte		monitor_mode,
++	IN	u4Byte		macid
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			H2C_Parameter[3] = {0};
++
++	H2C_Parameter[0] = enable;
++	H2C_Parameter[1] = (u1Byte)monitor_mode;
++	H2C_Parameter[2] = (u1Byte)macid;
++	ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("---->\n"));
++	if (monitor_mode == 0){
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[H2C] FW_debug_en: (( %d ))\n", enable));
++	} else {
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[H2C] FW_debug_en: (( %d )), mode: (( %d )), macid: (( %d ))\n", enable, monitor_mode, macid));
++	}
++	ODM_FillH2CCmd(pDM_Odm, PHYDM_H2C_FW_TRACE_EN, 3, H2C_Parameter);
++}
++
++
++#if (RTL8822B_SUPPORT == 1 || RTL8197F_SUPPORT == 1 || RTL8821C_SUPPORT == 1)
++BOOLEAN
++phydm_api_set_txagc(
++	IN	PDM_ODM_T				pDM_Odm,
++	IN	u4Byte					PowerIndex,
++	IN	ODM_RF_RADIO_PATH_E		Path,	
++	IN	u1Byte					HwRate,
++	IN	BOOLEAN					bSingleRate
++	)
++{
++	BOOLEAN		ret = FALSE;
++	
++#if ((RTL8822B_SUPPORT == 1) || (RTL8821C_SUPPORT == 1))
++	if (pDM_Odm->SupportICType & (ODM_RTL8822B|ODM_RTL8821C)) {
++		if (bSingleRate) {
++#if (RTL8822B_SUPPORT == 1)
++			if (pDM_Odm->SupportICType == ODM_RTL8822B)
++				ret = phydm_write_txagc_1byte_8822b(pDM_Odm, PowerIndex, Path, HwRate);
++#endif
++#if (RTL8821C_SUPPORT == 1)
++			if (pDM_Odm->SupportICType == ODM_RTL8821C)
++				ret = phydm_write_txagc_1byte_8821c(pDM_Odm, PowerIndex, Path, HwRate);
++#endif
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			SetCurrentTxAGC(pDM_Odm->priv, Path, HwRate, (u1Byte)PowerIndex);
++#endif
++
++		} else {
++			u1Byte	i;
++#if (RTL8822B_SUPPORT == 1)
++			if (pDM_Odm->SupportICType == ODM_RTL8822B)
++				ret = config_phydm_write_txagc_8822b(pDM_Odm, PowerIndex, Path, HwRate);
++#endif
++#if (RTL8821C_SUPPORT == 1)
++			if (pDM_Odm->SupportICType == ODM_RTL8821C)
++				ret = config_phydm_write_txagc_8821c(pDM_Odm, PowerIndex, Path, HwRate);
++#endif
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)		
++			for (i = 0; i < 4; i++)
++				SetCurrentTxAGC(pDM_Odm->priv, Path, (HwRate + i), (u1Byte)PowerIndex);
++#endif
++		}
++	}
++#endif
++
++
++#if (RTL8197F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8197F)
++		ret = config_phydm_write_txagc_8197f(pDM_Odm, PowerIndex, Path, HwRate);
++#endif
++
++	return ret;
++}
++
++u1Byte
++phydm_api_get_txagc(
++	IN	PDM_ODM_T				pDM_Odm,
++	IN	ODM_RF_RADIO_PATH_E	Path,
++	IN	u1Byte					HwRate
++	)
++{
++	u1Byte	ret = 0;
++	
++#if (RTL8822B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		ret = config_phydm_read_txagc_8822b(pDM_Odm, Path, HwRate);
++#endif
++
++#if (RTL8197F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8197F)
++		ret = config_phydm_read_txagc_8197f(pDM_Odm, Path, HwRate);
++#endif
++
++#if (RTL8821C_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8821C)
++		ret = config_phydm_read_txagc_8821c(pDM_Odm, Path, HwRate);
++#endif
++
++	return ret;
++}
++
++
++BOOLEAN
++phydm_api_switch_bw_channel(
++	IN	PDM_ODM_T				pDM_Odm,
++	IN	u1Byte					central_ch,
++	IN	u1Byte					primary_ch_idx,
++	IN	ODM_BW_E				bandwidth
++	)
++{
++	BOOLEAN		ret = FALSE;
++	
++#if (RTL8822B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		ret = config_phydm_switch_channel_bw_8822b(pDM_Odm, central_ch, primary_ch_idx, bandwidth);
++#endif
++
++#if (RTL8197F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8197F)
++		ret = config_phydm_switch_channel_bw_8197f(pDM_Odm, central_ch, primary_ch_idx, bandwidth);
++#endif
++
++#if (RTL8821C_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8821C)
++		ret = config_phydm_switch_channel_bw_8821c(pDM_Odm, central_ch, primary_ch_idx, bandwidth);
++#endif
++
++	return ret;
++}
++
++BOOLEAN
++phydm_api_trx_mode(
++	IN	PDM_ODM_T				pDM_Odm,
++	IN	ODM_RF_PATH_E			TxPath,
++	IN	ODM_RF_PATH_E			RxPath,
++	IN	BOOLEAN					bTx2Path
++	)
++{
++	BOOLEAN		ret = FALSE;
++	
++#if (RTL8822B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		ret = config_phydm_trx_mode_8822b(pDM_Odm, TxPath, RxPath, bTx2Path);
++#endif
++
++#if (RTL8197F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8197F)
++		ret = config_phydm_trx_mode_8197f(pDM_Odm, TxPath, RxPath, bTx2Path);
++#endif
++
++	return ret;
++}
++#endif
++
++VOID
++phydm_get_per_path_txagc(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			path,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			rate_idx;
++	u1Byte			txagc;
++	u4Byte			used = *_used;
++	u4Byte			out_len = *_out_len;
++
++#if ((RTL8822B_SUPPORT == 1) || (RTL8197F_SUPPORT == 1) || (RTL8821C_SUPPORT == 1))
++	if (((pDM_Odm->SupportICType & (ODM_RTL8822B|ODM_RTL8197F)) && (path <= ODM_RF_PATH_B)) ||
++		((pDM_Odm->SupportICType & (ODM_RTL8821C)) && (path <= ODM_RF_PATH_A))) {
++		for (rate_idx = 0; rate_idx <= 0x53; rate_idx++) {
++			if (rate_idx == ODM_RATE1M)
++				PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s\n", "CCK====>"));
++			else if (rate_idx == ODM_RATE6M)
++				PHYDM_SNPRINTF((output + used, out_len - used, "\n  %-35s\n", "OFDM====>"));
++			else if (rate_idx == ODM_RATEMCS0)
++				PHYDM_SNPRINTF((output + used, out_len - used, "\n  %-35s\n", "HT 1ss====>"));
++			else if (rate_idx == ODM_RATEMCS8)
++				PHYDM_SNPRINTF((output + used, out_len - used, "\n  %-35s\n", "HT 2ss====>"));
++			else if (rate_idx == ODM_RATEMCS16)
++				PHYDM_SNPRINTF((output + used, out_len - used, "\n  %-35s\n", "HT 3ss====>"));
++			else if (rate_idx == ODM_RATEMCS24)
++				PHYDM_SNPRINTF((output + used, out_len - used, "\n  %-35s\n", "HT 4ss====>"));
++			else if (rate_idx == ODM_RATEVHTSS1MCS0)
++				PHYDM_SNPRINTF((output + used, out_len - used, "\n  %-35s\n", "VHT 1ss====>"));
++			else if (rate_idx == ODM_RATEVHTSS2MCS0)
++				PHYDM_SNPRINTF((output + used, out_len - used, "\n  %-35s\n", "VHT 2ss====>"));
++			else if (rate_idx == ODM_RATEVHTSS3MCS0)
++				PHYDM_SNPRINTF((output + used, out_len - used, "\n  %-35s\n", "VHT 3ss====>"));
++			else if (rate_idx == ODM_RATEVHTSS4MCS0)
++				PHYDM_SNPRINTF((output + used, out_len - used, "\n  %-35s\n", "VHT 4ss====>"));
++			
++			txagc = phydm_api_get_txagc(pDM_Odm, (ODM_RF_RADIO_PATH_E) path, rate_idx);
++			if (config_phydm_read_txagc_check(txagc))
++				PHYDM_SNPRINTF((output + used, out_len - used, "  0x%02x    ", txagc));
++			else
++				PHYDM_SNPRINTF((output + used, out_len - used, "  0x%s    ", "xx"));
++		}
++	}
++#endif
++}
++
++
++VOID
++phydm_get_txagc(
++	IN		PVOID			pDM_VOID,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			used = *_used;
++	u4Byte			out_len = *_out_len;
++	
++	/* Path-A */
++	PHYDM_SNPRINTF((output + used, out_len - used, "%-35s\n", "Path-A===================="));
++	phydm_get_per_path_txagc(pDM_Odm, ODM_RF_PATH_A, _used, output, _out_len);
++	
++	/* Path-B */
++	PHYDM_SNPRINTF((output + used, out_len - used, "\n%-35s\n", "Path-B===================="));
++	phydm_get_per_path_txagc(pDM_Odm, ODM_RF_PATH_B, _used, output, _out_len);
++
++	/* Path-C */
++	PHYDM_SNPRINTF((output + used, out_len - used, "\n%-35s\n", "Path-C===================="));
++	phydm_get_per_path_txagc(pDM_Odm, ODM_RF_PATH_C, _used, output, _out_len);
++
++	/* Path-D */
++	PHYDM_SNPRINTF((output + used, out_len - used, "\n%-35s\n", "Path-D===================="));
++	phydm_get_per_path_txagc(pDM_Odm, ODM_RF_PATH_D, _used, output, _out_len);
++
++}
++
++VOID
++phydm_set_txagc(
++	IN		PVOID			pDM_VOID,
++	IN		u4Byte			*const dm_value,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			used = *_used;
++	u4Byte			out_len = *_out_len;
++
++/*dm_value[1] = Path*/
++/*dm_value[2] = HwRate*/
++/*dm_value[3] = PowerIndex*/
++
++#if (RTL8822B_SUPPORT == 1 || RTL8197F_SUPPORT == 1 || RTL8821C_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & (ODM_RTL8822B|ODM_RTL8197F|ODM_RTL8821C)) {
++		if (dm_value[1] <= 1) {
++			if ((u1Byte)dm_value[2] != 0xff) {
++				if (phydm_api_set_txagc(pDM_Odm, dm_value[3], (ODM_RF_RADIO_PATH_E) dm_value[1], (u1Byte)dm_value[2], TRUE))
++					PHYDM_SNPRINTF((output + used, out_len - used, "  %s%d   %s%x%s%x\n", "Write path-", dm_value[1], "rate index-0x", dm_value[2], " = 0x", dm_value[3]));
++				else
++					PHYDM_SNPRINTF((output + used, out_len - used, "  %s%d   %s%x%s\n", "Write path-", (dm_value[1] & 0x1), "rate index-0x", (dm_value[2] & 0x7f), " fail"));
++			} else {
++				u1Byte	i;
++				u4Byte	power_index;
++				BOOLEAN	status = TRUE;
++
++				power_index = (dm_value[3] & 0x3f);
++
++				if (pDM_Odm->SupportICType & (ODM_RTL8822B|ODM_RTL8821C)) {
++					power_index = (power_index << 24)|(power_index << 16)|(power_index << 8)|(power_index);
++
++					for (i = 0; i < ODM_RATEVHTSS2MCS9; i += 4)
++						status = (status & phydm_api_set_txagc(pDM_Odm, power_index, (ODM_RF_RADIO_PATH_E) dm_value[1], i, FALSE));
++				} else if (pDM_Odm->SupportICType & ODM_RTL8197F) {
++					for (i = 0; i <= ODM_RATEMCS15; i++)
++						status = (status & phydm_api_set_txagc(pDM_Odm, power_index, (ODM_RF_RADIO_PATH_E) dm_value[1], i, FALSE));
++				}
++
++				if (status)
++					PHYDM_SNPRINTF((output + used, out_len - used, "  %s%d   %s%x\n", "Write all TXAGC of path-", dm_value[1], " = 0x", dm_value[3]));
++				else
++					PHYDM_SNPRINTF((output + used, out_len - used, "  %s%d   %s\n", "Write all TXAGC of path-", dm_value[1], " fail"));	
++			}
++		} else {
++			PHYDM_SNPRINTF((output + used, out_len - used, "  %s%d   %s%x%s\n", "Write path-", (dm_value[1] & 0x1), "rate index-0x", (dm_value[2] & 0x7f), " fail"));
++		}
++	}
++#endif
++}
++
++VOID
++odm_debug_trace(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char		*output,
++	IN		u4Byte		*_out_len
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			pre_debug_components, one = 1;
++	u4Byte			used = *_used;
++	u4Byte			out_len = *_out_len;
++
++	pre_debug_components = pDM_Odm->DebugComponents;
++
++	PHYDM_SNPRINTF((output + used, out_len - used, "\n%s\n", "================================"));
++	if (dm_value[0] == 100) {
++		PHYDM_SNPRINTF((output + used, out_len - used, "%s\n", "[Debug Message] PhyDM Selection"));
++		PHYDM_SNPRINTF((output + used, out_len - used, "%s\n", "================================"));
++		PHYDM_SNPRINTF((output + used, out_len - used, "00. (( %s ))DIG\n", ((pDM_Odm->DebugComponents & ODM_COMP_DIG) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "01. (( %s ))RA_MASK\n", ((pDM_Odm->DebugComponents & ODM_COMP_RA_MASK) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "02. (( %s ))DYNAMIC_TXPWR\n", ((pDM_Odm->DebugComponents & ODM_COMP_DYNAMIC_TXPWR) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "03. (( %s ))FA_CNT\n", ((pDM_Odm->DebugComponents & ODM_COMP_FA_CNT) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "04. (( %s ))RSSI_MONITOR\n", ((pDM_Odm->DebugComponents & ODM_COMP_RSSI_MONITOR) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "05. (( %s ))SNIFFER\n", ((pDM_Odm->DebugComponents & ODM_COMP_SNIFFER) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "06. (( %s ))ANT_DIV\n", ((pDM_Odm->DebugComponents & ODM_COMP_ANT_DIV) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "07. (( %s ))DFS\n", ((pDM_Odm->DebugComponents & ODM_COMP_DFS) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "08. (( %s ))NOISY_DETECT\n", ((pDM_Odm->DebugComponents & ODM_COMP_NOISY_DETECT) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "09. (( %s ))RATE_ADAPTIVE\n", ((pDM_Odm->DebugComponents & ODM_COMP_RATE_ADAPTIVE) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "10. (( %s ))PATH_DIV\n", ((pDM_Odm->DebugComponents & ODM_COMP_PATH_DIV) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "12. (( %s ))DYNAMIC_PRICCA\n", ((pDM_Odm->DebugComponents & ODM_COMP_DYNAMIC_PRICCA) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "14. (( %s ))MP\n", ((pDM_Odm->DebugComponents & ODM_COMP_MP) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "15. (( %s ))CFO_TRACKING\n", ((pDM_Odm->DebugComponents & ODM_COMP_CFO_TRACKING) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "16. (( %s ))ACS\n", ((pDM_Odm->DebugComponents & ODM_COMP_ACS) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "17. (( %s ))ADAPTIVITY\n", ((pDM_Odm->DebugComponents & PHYDM_COMP_ADAPTIVITY) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "18. (( %s ))RA_DBG\n", ((pDM_Odm->DebugComponents & PHYDM_COMP_RA_DBG) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "19. (( %s ))TXBF\n", ((pDM_Odm->DebugComponents & PHYDM_COMP_TXBF) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "20. (( %s ))EDCA_TURBO\n", ((pDM_Odm->DebugComponents & ODM_COMP_EDCA_TURBO) ? ("V") : ("."))));
++
++		PHYDM_SNPRINTF((output + used, out_len - used, "22. (( %s ))FW_DEBUG_TRACE\n", ((pDM_Odm->DebugComponents & ODM_FW_DEBUG_TRACE) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "24. (( %s ))TX_PWR_TRACK\n", ((pDM_Odm->DebugComponents & ODM_COMP_TX_PWR_TRACK) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "25. (( %s ))RX_GAIN_TRACK\n", ((pDM_Odm->DebugComponents & ODM_COMP_RX_GAIN_TRACK) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "26. (( %s ))CALIBRATION\n", ((pDM_Odm->DebugComponents & ODM_COMP_CALIBRATION) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "28. (( %s ))PHY_CONFIG\n", ((pDM_Odm->DebugComponents & ODM_PHY_CONFIG) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "29. (( %s ))INIT\n", ((pDM_Odm->DebugComponents & ODM_COMP_INIT) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "30. (( %s ))COMMON\n", ((pDM_Odm->DebugComponents & ODM_COMP_COMMON) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "%s\n", "================================"));
++
++	} else if (dm_value[0] == 101) {
++		pDM_Odm->DebugComponents = 0;
++		PHYDM_SNPRINTF((output + used, out_len - used, "%s\n", "Disable all debug components"));
++	} else {
++		if (dm_value[1] == 1) { /*enable*/
++			pDM_Odm->DebugComponents |= (one << dm_value[0]);
++
++			if (dm_value[0] == 22) { /*FW trace function*/
++				phydm_fw_trace_en_h2c(pDM_Odm, 1, dm_value[2], dm_value[3]); /*H2C to enable C2H Msg*/
++			}
++		} else if (dm_value[1] == 2) { /*disable*/
++			pDM_Odm->DebugComponents &= ~(one << dm_value[0]);
++
++			if (dm_value[0] == 22) { /*FW trace function*/
++				phydm_fw_trace_en_h2c(pDM_Odm, 0, dm_value[2], dm_value[3]); /*H2C to disable C2H Msg*/
++			}
++		} else
++			PHYDM_SNPRINTF((output + used, out_len - used, "%s\n", "[Warning!!!]  1:enable,  2:disable"));
++	}
++	PHYDM_SNPRINTF((output + used, out_len - used, "pre-DbgComponents = 0x%x\n", pre_debug_components));
++	PHYDM_SNPRINTF((output + used, out_len - used, "Curr-DbgComponents = 0x%x\n", pDM_Odm->DebugComponents));
++	PHYDM_SNPRINTF((output + used, out_len - used, "%s\n", "================================"));
++}
++
++VOID
++phydm_DumpBbReg(
++	IN		PVOID			pDM_VOID,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			Addr = 0;
++	u4Byte			used = *_used;
++	u4Byte			out_len = *_out_len;
++
++	
++	/* BB Reg, For Nseries IC we only need to dump page8 to pageF using 3 digits*/
++	for (Addr = 0x800; Addr < 0xfff; Addr += 4) {
++		if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++			PHYDM_SNPRINTF((output+used, out_len-used, "0x%03x 0x%08x,\n", Addr, ODM_GetBBReg(pDM_Odm, Addr, bMaskDWord)));
++		else
++			PHYDM_SNPRINTF((output+used, out_len-used, "0x%04x 0x%08x,\n", Addr, ODM_GetBBReg(pDM_Odm, Addr, bMaskDWord)));
++	}
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8822B | ODM_RTL8814A | ODM_RTL8821C)) {
++
++		if (pDM_Odm->RFType > ODM_2T2R) {
++			for (Addr = 0x1800; Addr < 0x18ff; Addr += 4)
++				PHYDM_SNPRINTF((output+used, out_len-used, "0x%04x 0x%08x,\n", Addr, ODM_GetBBReg(pDM_Odm, Addr, bMaskDWord)));
++		}
++
++		if (pDM_Odm->RFType > ODM_3T3R) {
++			for (Addr = 0x1a00; Addr < 0x1aff; Addr += 4)
++				PHYDM_SNPRINTF((output+used, out_len-used, "0x%04x 0x%08x,\n", Addr, ODM_GetBBReg(pDM_Odm, Addr, bMaskDWord)));
++		}
++
++		for (Addr = 0x1900; Addr < 0x19ff; Addr += 4)
++			PHYDM_SNPRINTF((output+used, out_len-used, "0x%04x 0x%08x,\n", Addr, ODM_GetBBReg(pDM_Odm, Addr, bMaskDWord)));
++
++		for (Addr = 0x1c00; Addr < 0x1cff; Addr += 4)
++			PHYDM_SNPRINTF((output+used, out_len-used, "0x%04x 0x%08x,\n", Addr, ODM_GetBBReg(pDM_Odm, Addr, bMaskDWord)));
++
++		for (Addr = 0x1f00; Addr < 0x1fff; Addr += 4)
++			PHYDM_SNPRINTF((output+used, out_len-used, "0x%04x 0x%08x,\n", Addr, ODM_GetBBReg(pDM_Odm, Addr, bMaskDWord)));
++	}
++}
++
++VOID
++phydm_DumpAllReg(
++	IN		PVOID			pDM_VOID,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			Addr = 0;
++	u4Byte			used = *_used;
++	u4Byte			out_len = *_out_len;
++
++	/* dump MAC register */
++	PHYDM_SNPRINTF((output+used, out_len-used, "MAC==========\n"));
++	for (Addr = 0; Addr < 0x7ff; Addr += 4)
++		PHYDM_SNPRINTF((output+used, out_len-used, "0x%04x 0x%08x,\n", Addr, ODM_GetBBReg(pDM_Odm, Addr, bMaskDWord)));
++
++	for (Addr = 0x1000; Addr < 0x17ff; Addr += 4)
++		PHYDM_SNPRINTF((output+used, out_len-used, "0x%04x 0x%08x,\n", Addr, ODM_GetBBReg(pDM_Odm, Addr, bMaskDWord)));
++
++	/* dump BB register */
++	PHYDM_SNPRINTF((output+used, out_len-used, "BB==========\n"));
++	phydm_DumpBbReg(pDM_Odm, &used, output, &out_len);
++
++	/* dump RF register */
++	PHYDM_SNPRINTF((output+used, out_len-used, "RF-A==========\n"));
++	for (Addr = 0; Addr < 0xFF; Addr++)
++		PHYDM_SNPRINTF((output+used, out_len-used, "0x%02x 0x%05x,\n", Addr, ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, Addr, bRFRegOffsetMask)));
++
++	if (pDM_Odm->RFType > ODM_1T1R) {
++		PHYDM_SNPRINTF((output+used, out_len-used, "RF-B==========\n"));
++		for (Addr = 0; Addr < 0xFF; Addr++)
++			PHYDM_SNPRINTF((output+used, out_len-used, "0x%02x 0x%05x,\n", Addr, ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_B, Addr, bRFRegOffsetMask)));
++	}
++
++	if (pDM_Odm->RFType > ODM_2T2R) {
++		PHYDM_SNPRINTF((output+used, out_len-used, "RF-C==========\n"));
++		for (Addr = 0; Addr < 0xFF; Addr++)
++			PHYDM_SNPRINTF((output+used, out_len-used, "0x%02x 0x%05x,\n", Addr, ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_C, Addr, bRFRegOffsetMask)));
++	}
++
++	if (pDM_Odm->RFType > ODM_3T3R) {
++		PHYDM_SNPRINTF((output+used, out_len-used, "RF-D==========\n"));
++		for (Addr = 0; Addr < 0xFF; Addr++)
++			PHYDM_SNPRINTF((output+used, out_len-used, "0x%02x 0x%05x,\n", Addr, ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_D, Addr, bRFRegOffsetMask)));
++	}
++}
++
++VOID
++phydm_EnableBigJump(
++	IN	PDM_ODM_T	pDM_Odm,
++	IN	BOOLEAN		state
++	)
++{
++#if (RTL8822B_SUPPORT == 1)
++	pDIG_T			pDM_DigTable = &pDM_Odm->DM_DigTable;
++
++	if (state == FALSE) {
++		pDM_Odm->DM_DigTable.enableAdjustBigJump = FALSE;
++		ODM_SetBBReg(pDM_Odm, 0x8c8, 0xfe, ((pDM_DigTable->bigJumpStep3<<5)|(pDM_DigTable->bigJumpStep2<<3)|pDM_DigTable->bigJumpStep1));
++	} else
++		pDM_Odm->DM_DigTable.enableAdjustBigJump = TRUE;
++#endif
++}
++
++struct _PHYDM_COMMAND {
++	char name[16];
++	u1Byte id;
++};
++
++enum PHYDM_CMD_ID {
++	PHYDM_DEMO,
++	PHYDM_RA,
++	PHYDM_PROFILE,
++	PHYDM_ANTDIV,
++	PHYDM_PATHDIV,
++	PHYDM_DEBUG,
++	PHYDM_SUPPORT_ABILITY,
++	PHYDM_GET_TXAGC,
++	PHYDM_SET_TXAGC,
++	PHYDM_SMART_ANT,
++	PHYDM_API,
++	PHYDM_TRX_PATH,
++	PHYDM_LA_MODE,
++	PHYDM_DUMP_REG,
++	PHYDM_MU_MIMO,
++	PHYDM_HANG,
++	PHYDM_BIG_JUMP,
++	PHYDM_SHOW_RXRATE,
++	PHYDM_NBI_EN,
++	PHYDM_DFS,
++	PHYDM_IQK,
++	PHYDM_NHM,
++	PHYDM_CLM
++};
++
++struct _PHYDM_COMMAND phy_dm_ary[] = {
++	{"demo", PHYDM_DEMO},
++	{"ra", PHYDM_RA},
++	{"profile", PHYDM_PROFILE},
++	{"antdiv", PHYDM_ANTDIV},
++	{"pathdiv", PHYDM_PATHDIV},
++	{"dbg", PHYDM_DEBUG},
++	{"ability", PHYDM_SUPPORT_ABILITY},
++	{"get_txagc", PHYDM_GET_TXAGC},
++	{"set_txagc", PHYDM_SET_TXAGC},
++	{"smtant", PHYDM_SMART_ANT},
++	{"api", PHYDM_API},
++	{"trxpath", PHYDM_TRX_PATH},
++	{"lamode", PHYDM_LA_MODE},
++	{"dumpreg", PHYDM_DUMP_REG},
++	{"mu", PHYDM_MU_MIMO},
++	{"hang", PHYDM_HANG},
++	{"bigjump", PHYDM_BIG_JUMP},
++	{"rxrate", PHYDM_SHOW_RXRATE},
++	{"nbi", PHYDM_NBI_EN},
++	{"dfs", PHYDM_DFS},
++	{"iqk", PHYDM_IQK},
++	{"nhm", PHYDM_NHM},
++	{"clm", PHYDM_CLM}
++};
++
++VOID
++phydm_cmd_parser(
++	IN PDM_ODM_T	pDM_Odm,
++	IN char		input[][MAX_ARGV],
++	IN u4Byte	input_num,
++	IN u1Byte	flag,
++	OUT char	*output,
++	IN u4Byte	out_len
++)
++{
++	u4Byte used = 0;
++	u1Byte id = 0;
++	int var1[10] = {0};
++	int i, input_idx = 0;
++
++	if (flag == 0) {
++		PHYDM_SNPRINTF((output + used, out_len - used, "GET, nothing to print\n"));
++		return;
++	}
++
++	PHYDM_SNPRINTF((output + used, out_len - used, "\n"));
++
++	//Parsing Cmd ID
++	if (input_num) {
++		int n, i;
++
++		n = sizeof(phy_dm_ary) / sizeof(struct _PHYDM_COMMAND);
++		for (i = 0; i < n; i++) {
++			if (strcmp(phy_dm_ary[i].name, input[0]) == 0) {
++				id = phy_dm_ary[i].id;
++				break;
++			}
++		}
++		if (i == n) {
++			PHYDM_SNPRINTF((output + used, out_len - used, "SET, command not found!\n"));
++			return;
++		}
++	}
++
++	switch (id) {
++	case PHYDM_DEMO: /*echo demo 10 0x3a z abcde >cmd*/
++			{
++				u4Byte   directory = 0;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_AP))				
++				char   char_temp;
++#else
++				u4Byte char_temp = ' ';
++#endif
++		PHYDM_SSCANF(input[1], DCMD_DECIMAL, &directory);
++		PHYDM_SNPRINTF((output + used, out_len - used, "Decimal Value = %d\n", directory));
++		PHYDM_SSCANF(input[2], DCMD_HEX, &directory);
++		PHYDM_SNPRINTF((output + used, out_len - used, "Hex Value = 0x%x\n", directory));
++		PHYDM_SSCANF(input[3], DCMD_CHAR, &char_temp);
++		PHYDM_SNPRINTF((output + used, out_len - used, "Char = %c\n", char_temp));
++		PHYDM_SNPRINTF((output + used, out_len - used, "String = %s\n", input[4]));
++	}
++	break;
++
++	case PHYDM_RA:
++
++		for (i = 0; i < 5; i++) {
++			if (input[i + 1]) {
++				PHYDM_SSCANF(input[i + 1], DCMD_DECIMAL, &var1[i]);
++
++				/*PHYDM_SNPRINTF((output + used, out_len - used, "new SET, RA_var[%d]= (( %d ))\n", i , var1[i]));*/
++				input_idx++;
++			}
++		}
++
++		if (input_idx >= 1) {
++			/*PHYDM_SNPRINTF((output+used, out_len-used, "odm_RA_debug\n"));*/
++			#if (defined(CONFIG_RA_DBG_CMD))
++			odm_RA_debug((PVOID)pDM_Odm, (pu4Byte) var1);
++			#else
++			phydm_RA_debug_PCR(pDM_Odm, (u4Byte *)var1, &used, output, &out_len);
++			#endif
++		}
++
++
++		break;
++		
++	case PHYDM_ANTDIV:
++
++		for (i = 0; i < 5; i++) {
++			if (input[i + 1]) {
++				PHYDM_SSCANF(input[i + 1], DCMD_HEX, &var1[i]);
++
++				/*PHYDM_SNPRINTF((output+used, out_len-used, "new SET, PATHDIV_var[%d]= (( %d ))\n", i , var1[i]));*/
++				input_idx++;
++			}
++		}
++
++		if (input_idx >= 1) {
++			/*PHYDM_SNPRINTF((output+used, out_len-used, "odm_PATHDIV_debug\n"));*/
++			#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++			phydm_antdiv_debug(pDM_Odm, (u4Byte *)var1, &used, output, &out_len);
++			#endif
++		}
++
++		break;
++
++	case PHYDM_PATHDIV:
++
++		for (i = 0; i < 5; i++) {
++			if (input[i + 1]) {
++				PHYDM_SSCANF(input[i + 1], DCMD_HEX, &var1[i]);
++
++				/*PHYDM_SNPRINTF((output+used, out_len-used, "new SET, PATHDIV_var[%d]= (( %d ))\n", i , var1[i]));*/
++				input_idx++;
++			}
++		}
++
++		if (input_idx >= 1) {
++			/*PHYDM_SNPRINTF((output+used, out_len-used, "odm_PATHDIV_debug\n"));*/
++#if (defined(CONFIG_PATH_DIVERSITY))
++			odm_pathdiv_debug(pDM_Odm, (u4Byte *)var1, &used, output, &out_len);
++#endif
++		}
++
++		break;
++
++	case PHYDM_DEBUG:
++
++		for (i = 0; i < 5; i++) {
++			if (input[i + 1]) {
++				PHYDM_SSCANF(input[i + 1], DCMD_DECIMAL, &var1[i]);
++
++				/*PHYDM_SNPRINTF((output+used, out_len-used, "new SET, Debug_var[%d]= (( %d ))\n", i , var1[i]));*/
++				input_idx++;
++			}
++		}
++
++		if (input_idx >= 1) {
++			/*PHYDM_SNPRINTF((output+used, out_len-used, "odm_debug_comp\n"));*/
++			odm_debug_trace(pDM_Odm, (u4Byte *)var1, &used, output, &out_len);
++		}
++
++
++		break;
++
++	case PHYDM_SUPPORT_ABILITY:
++
++		for (i = 0; i < 5; i++) {
++			if (input[i + 1]) {
++				PHYDM_SSCANF(input[i + 1], DCMD_DECIMAL, &var1[i]);
++
++				/*PHYDM_SNPRINTF((output+used, out_len-used, "new SET, support ablity_var[%d]= (( %d ))\n", i , var1[i]));*/
++				input_idx++;
++			}
++		}
++
++		if (input_idx >= 1) {
++			/*PHYDM_SNPRINTF((output+used, out_len-used, "support ablity\n"));*/
++			phydm_support_ability_debug(pDM_Odm, (u4Byte *)var1, &used, output, &out_len);
++		}
++
++		break;
++		
++	case PHYDM_SMART_ANT:
++
++		for (i = 0; i < 5; i++) {
++			if (input[i + 1]) {
++				PHYDM_SSCANF(input[i + 1], DCMD_HEX, &var1[i]);
++				input_idx++;
++			}
++		}
++
++		if (input_idx >= 1) {
++			#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++			#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++			phydm_hl_smart_ant_debug(pDM_Odm, (u4Byte *)var1, &used, output, &out_len);
++			#endif
++			#endif
++		}
++
++		break;
++
++	case PHYDM_API:
++#if (RTL8822B_SUPPORT == 1 || RTL8197F_SUPPORT == 1 || RTL8821C_SUPPORT == 1)
++	{
++		if (pDM_Odm->SupportICType & (ODM_RTL8822B|ODM_RTL8197F | ODM_RTL8821C)) {
++			BOOLEAN	bEnableDbgMode;
++			u1Byte central_ch, primary_ch_idx, bandwidth;
++			
++			for (i = 0; i < 4; i++) {
++				if (input[i + 1])
++					PHYDM_SSCANF(input[i + 1], DCMD_DECIMAL, &var1[i]);
++			}
++			
++			bEnableDbgMode = (BOOLEAN)var1[0];
++			central_ch = (u1Byte) var1[1];
++			primary_ch_idx = (u1Byte) var1[2];
++			bandwidth = (ODM_BW_E) var1[3];
++
++			if (bEnableDbgMode) {
++				pDM_Odm->bDisablePhyApi = FALSE;
++				phydm_api_switch_bw_channel(pDM_Odm, central_ch, primary_ch_idx, (ODM_BW_E) bandwidth);
++				pDM_Odm->bDisablePhyApi = TRUE;
++				PHYDM_SNPRINTF((output+used, out_len-used, "central_ch = %d, primary_ch_idx = %d, bandwidth = %d\n", central_ch, primary_ch_idx, bandwidth));
++			} else {
++				pDM_Odm->bDisablePhyApi = FALSE;
++				PHYDM_SNPRINTF((output+used, out_len-used, "Disable API debug mode\n"));
++			}
++		} else
++			PHYDM_SNPRINTF((output+used, out_len-used, "This IC doesn't support PHYDM API function\n"));
++	}
++#else
++		PHYDM_SNPRINTF((output+used, out_len-used, "This IC doesn't support PHYDM API function\n"));
++#endif
++		break;	
++		
++	case PHYDM_PROFILE: /*echo profile, >cmd*/
++		phydm_BasicProfile(pDM_Odm, &used, output, &out_len);
++		break;
++
++	case PHYDM_GET_TXAGC:
++		phydm_get_txagc(pDM_Odm, &used, output, &out_len);
++		break;
++		
++	case PHYDM_SET_TXAGC:
++	{
++		BOOLEAN		bEnableDbgMode;
++		
++		for (i = 0; i < 5; i++) {
++			if (input[i + 1]) {
++				PHYDM_SSCANF(input[i + 1], DCMD_DECIMAL, &var1[i]);
++				input_idx++;
++			}
++		}
++
++		bEnableDbgMode = (BOOLEAN)var1[0];
++		if (bEnableDbgMode) {
++			pDM_Odm->bDisablePhyApi = FALSE;
++			phydm_set_txagc(pDM_Odm, (u4Byte *)var1, &used, output, &out_len);
++			pDM_Odm->bDisablePhyApi = TRUE;
++		} else {
++			pDM_Odm->bDisablePhyApi = FALSE;
++			PHYDM_SNPRINTF((output+used, out_len-used, "Disable API debug mode\n"));
++		}
++	}
++		break;
++		
++	case PHYDM_TRX_PATH:
++
++		for (i = 0; i < 4; i++) {
++			if (input[i + 1])
++				PHYDM_SSCANF(input[i + 1], DCMD_DECIMAL, &var1[i]);
++		}
++		#if (RTL8822B_SUPPORT == 1 || RTL8197F_SUPPORT == 1)
++		if (pDM_Odm->SupportICType & (ODM_RTL8822B|ODM_RTL8197F)) {
++			u1Byte		TxPath, RxPath;
++			BOOLEAN		bEnableDbgMode, bTx2Path;
++			
++			bEnableDbgMode = (BOOLEAN)var1[0];
++			TxPath = (u1Byte) var1[1];
++			RxPath = (u1Byte) var1[2];
++			bTx2Path = (BOOLEAN) var1[3];
++
++			if (bEnableDbgMode) {
++				pDM_Odm->bDisablePhyApi = FALSE;
++				phydm_api_trx_mode(pDM_Odm, (ODM_RF_PATH_E) TxPath, (ODM_RF_PATH_E) RxPath, bTx2Path);
++				pDM_Odm->bDisablePhyApi = TRUE;
++				PHYDM_SNPRINTF((output+used, out_len-used, "TxPath = 0x%x, RxPath = 0x%x, bTx2Path = %d\n", TxPath, RxPath, bTx2Path));
++			} else {
++				pDM_Odm->bDisablePhyApi = FALSE;
++				PHYDM_SNPRINTF((output+used, out_len-used, "Disable API debug mode\n"));
++			}
++		} else
++		#endif
++			phydm_config_trx_path(pDM_Odm, (u4Byte *)var1, &used, output, &out_len);
++
++		break;
++
++	case PHYDM_LA_MODE:
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_AP))
++#if ((RTL8822B_SUPPORT == 1) || (RTL8814A_SUPPORT == 1) || (RTL8197F_SUPPORT == 1) || (RTL8821C_SUPPORT == 1))
++	{
++		if (pDM_Odm->SupportICType & PHYDM_IC_SUPPORT_LA_MODE) {
++			u2Byte		PollingTime;
++			u1Byte		TrigSel, TrigSigSel, DmaDataSigSel, TriggerTime;
++			BOOLEAN		bEnableLaMode, bTriggerEdge;
++			u4Byte		DbgPort;
++
++			for (i = 0; i < 6; i++) {
++				if (input[i + 1])
++					PHYDM_SSCANF(input[i + 1], DCMD_DECIMAL, &var1[i]);
++			}
++
++			bEnableLaMode = (BOOLEAN)var1[0];
++			if (bEnableLaMode) {
++				TrigSel = (u1Byte)var1[1]; /*0: BB, 1: MAC*/
++				TrigSigSel = (u1Byte)var1[2];
++				DmaDataSigSel = (u1Byte)var1[3];
++				TriggerTime = (u1Byte)var1[4]; /*unit: us*/
++				PollingTime = (((u1Byte)var1[5]) << 6); /*unit: ms*/
++				PHYDM_SSCANF(input[7], DCMD_HEX, &var1[6]);
++				PHYDM_SSCANF(input[8], DCMD_DECIMAL, &var1[7]);
++				if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++					DbgPort = (u4Byte)var1[6];
++					ODM_SetBBReg(pDM_Odm, 0x198C , BIT2|BIT1|BIT0, 7); /*disable dbg clk gating*/
++					ODM_SetBBReg(pDM_Odm, 0x8FC, bMaskDWord, DbgPort);
++					bTriggerEdge = (BOOLEAN) var1[7];
++					ODM_SetBBReg(pDM_Odm, 0x95C , BIT31, bTriggerEdge); /*0: posedge, 1: negedge*/
++				} else {
++					DbgPort = (u4Byte)var1[6];
++					ODM_SetBBReg(pDM_Odm, 0x908, bMaskDWord, DbgPort);
++					bTriggerEdge = (BOOLEAN) var1[7];
++					ODM_SetBBReg(pDM_Odm, 0x9A0 , BIT31, bTriggerEdge); /*0: posedge, 1: negedge*/
++				}
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++				ADCSmp_Set(pDM_Odm->Adapter, (RT_ADCSMP_TRIG_SEL) TrigSel, (RT_ADCSMP_TRIG_SIG_SEL) TrigSigSel, DmaDataSigSel, TriggerTime, PollingTime);
++#else
++				ADCSmp_Set(pDM_Odm, (RT_ADCSMP_TRIG_SEL) TrigSel, (RT_ADCSMP_TRIG_SIG_SEL) TrigSigSel, DmaDataSigSel, TriggerTime, PollingTime);
++#endif
++				PHYDM_SNPRINTF((output+used, out_len-used, "TrigSel = %d, TrigSigSel = %d, DmaDataSigSel = %d\n", TrigSel, TrigSigSel, DmaDataSigSel));
++				PHYDM_SNPRINTF((output+used, out_len-used, "TriggerTime = %d, PollingTime = %d\n", TriggerTime, PollingTime));
++			} else {
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++				ADCSmp_Stop(pDM_Odm->Adapter);
++#else
++				ADCSmp_Stop(pDM_Odm);
++#endif
++				PHYDM_SNPRINTF((output+used, out_len-used, "Disable LA mode\n"));
++			}
++		} else
++			PHYDM_SNPRINTF((output+used, out_len-used, "This IC doesn't support LA mode\n"));
++	}
++#else
++		PHYDM_SNPRINTF((output+used, out_len-used, "This IC doesn't support LA mode\n"));
++#endif
++#else
++		PHYDM_SNPRINTF((output+used, out_len-used, "This IC doesn't support LA mode\n"));
++#endif
++		break;
++
++	case PHYDM_DUMP_REG:
++	{
++		u1Byte	type = 0;
++		
++		if (input[1]) {
++			PHYDM_SSCANF(input[1], DCMD_DECIMAL, &var1[0]);
++			type = (u1Byte)var1[0];
++		}
++
++		if (type == 0)
++			phydm_DumpBbReg(pDM_Odm, &used, output, &out_len);
++		else if (type == 1)
++			phydm_DumpAllReg(pDM_Odm, &used, output, &out_len);
++	}
++		break;
++
++	case PHYDM_MU_MIMO:
++#if (RTL8822B_SUPPORT == 1)
++		
++		if (input[1])
++			PHYDM_SSCANF(input[1], DCMD_DECIMAL, &var1[0]);
++		else
++			var1[0] = 0;
++		
++		if (var1[0] == 1) {
++			int index, ptr;
++			u4Byte Dword_H, Dword_L;
++
++			PHYDM_SNPRINTF((output+used, out_len-used, "Get MU BFee CSI\n"));
++			ODM_SetBBReg(pDM_Odm, 0x9e8, BIT17|BIT16, 2); /*Read BFee*/
++			ODM_SetBBReg(pDM_Odm, 0x1910, BIT15, 1); /*Select BFee's CSI report*/
++			ODM_SetBBReg(pDM_Odm, 0x19b8, BIT6, 1); /*set as CSI report*/
++			ODM_SetBBReg(pDM_Odm, 0x19a8, 0xFFFF, 0xFFFF); /*disable gated_clk*/
++
++			for (index = 0; index < 80; index++) {
++				ptr = index + 256;
++				if (ptr > 311)
++					ptr -= 312;
++				ODM_SetBBReg(pDM_Odm, 0x1910, 0x03FF0000, ptr); /*Select Address*/
++				Dword_H = ODM_GetBBReg(pDM_Odm, 0xF74, bMaskDWord);
++				Dword_L = ODM_GetBBReg(pDM_Odm, 0xF5C, bMaskDWord);
++				if (index % 2 == 0)
++					PHYDM_SNPRINTF((output+used, out_len-used, "%02x  %02x  %02x  %02x  %02x  %02x  %02x  %02x\n", 
++					Dword_L & bMaskByte0, (Dword_L & bMaskByte1) >> 8, (Dword_L & bMaskByte2) >> 16, (Dword_L & bMaskByte3) >> 24,
++					Dword_H & bMaskByte0, (Dword_H & bMaskByte1) >> 8, (Dword_H & bMaskByte2) >> 16, (Dword_H & bMaskByte3) >> 24));
++				else
++					PHYDM_SNPRINTF((output+used, out_len-used, "%02x  %02x  %02x  %02x  %02x  %02x  %02x  %02x\n", 
++					Dword_L & bMaskByte0, (Dword_L & bMaskByte1) >> 8, (Dword_L & bMaskByte2) >> 16, (Dword_L & bMaskByte3) >> 24,
++					Dword_H & bMaskByte0, (Dword_H & bMaskByte1) >> 8, (Dword_H & bMaskByte2) >> 16, (Dword_H & bMaskByte3) >> 24));
++			}
++		} else if (var1[0] == 2) {
++			int index, ptr;
++			u4Byte Dword_H, Dword_L;
++
++			PHYDM_SSCANF(input[2], DCMD_DECIMAL, &var1[1]);
++			PHYDM_SNPRINTF((output+used, out_len-used, "Get MU BFer's STA%d CSI\n", var1[1]));
++			ODM_SetBBReg(pDM_Odm, 0x9e8, BIT24, 0); /*Read BFer*/
++			ODM_SetBBReg(pDM_Odm, 0x9e8, BIT25, 1); /*enable Read/Write RAM*/
++			ODM_SetBBReg(pDM_Odm, 0x9e8, BIT30|BIT29|BIT28, var1[1]); /*read which STA's CSI report*/
++			ODM_SetBBReg(pDM_Odm, 0x1910, BIT15, 0); /*select BFer's CSI*/
++			ODM_SetBBReg(pDM_Odm, 0x19e0, 0x00003FC0, 0xFF); /*disable gated_clk*/
++
++			for (index = 0; index < 80; index++) {
++				ptr = index + 256;
++				if (ptr > 311)
++					ptr -= 312;
++				ODM_SetBBReg(pDM_Odm, 0x1910, 0x03FF0000, ptr); /*Select Address*/
++				Dword_H = ODM_GetBBReg(pDM_Odm, 0xF74, bMaskDWord);
++				Dword_L = ODM_GetBBReg(pDM_Odm, 0xF5C, bMaskDWord);
++				if (index % 2 == 0)
++					PHYDM_SNPRINTF((output+used, out_len-used, "%02x  %02x  %02x  %02x  %02x  %02x  %02x  %02x\n", 
++					Dword_L & bMaskByte0, (Dword_L & bMaskByte1) >> 8, (Dword_L & bMaskByte2) >> 16, (Dword_L & bMaskByte3) >> 24,
++					Dword_H & bMaskByte0, (Dword_H & bMaskByte1) >> 8, (Dword_H & bMaskByte2) >> 16, (Dword_H & bMaskByte3) >> 24));
++				else
++					PHYDM_SNPRINTF((output+used, out_len-used, "%02x  %02x  %02x  %02x  %02x  %02x  %02x  %02x\n", 
++					Dword_L & bMaskByte0, (Dword_L & bMaskByte1) >> 8, (Dword_L & bMaskByte2) >> 16, (Dword_L & bMaskByte3) >> 24,
++					Dword_H & bMaskByte0, (Dword_H & bMaskByte1) >> 8, (Dword_H & bMaskByte2) >> 16, (Dword_H & bMaskByte3) >> 24));
++				
++				PHYDM_SNPRINTF((output+used, out_len-used, "ptr=%d : 0x%8x  %8x\n", ptr, Dword_H, Dword_L));
++			}
++
++		}
++#endif
++		break;
++
++	case PHYDM_BIG_JUMP:
++	{
++#if (RTL8822B_SUPPORT == 1)
++		if (input[1]) {
++			PHYDM_SSCANF(input[1], DCMD_DECIMAL, &var1[0]);
++			phydm_EnableBigJump(pDM_Odm, (BOOLEAN)(var1[0]));
++		} else
++			PHYDM_SNPRINTF((output + used, out_len - used, "unknown command!\n"));
++#else
++		PHYDM_SNPRINTF((output + used, out_len - used, "The command is only for 8822B!\n"));
++#endif
++		break;
++	}
++	
++	case PHYDM_HANG:
++		phydm_BB_RxHang_Info(pDM_Odm, &used, output, &out_len);
++		break;
++
++	case PHYDM_SHOW_RXRATE:
++#if (RTL8822B_SUPPORT == 1)
++	{
++		u1Byte	rate_idx;
++	
++		if (input[1])
++			PHYDM_SSCANF(input[1], DCMD_DECIMAL, &var1[0]);
++
++		if (var1[0] == 1) {
++			PHYDM_SNPRINTF((output+used, out_len-used, "=====Rx SU Rate Statistics=====\n"));
++			PHYDM_SNPRINTF((output+used, out_len-used, "1SS MCS0 = %d, 1SS MCS1 = %d, 1SS MCS2 = %d, 1SS MCS 3 = %d\n",
++				pDM_Odm->PhyDbgInfo.NumQryVhtPkt[0], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[1], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[2], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[3]));
++			PHYDM_SNPRINTF((output+used, out_len-used, "1SS MCS4 = %d, 1SS MCS5 = %d, 1SS MCS6 = %d, 1SS MCS 7 = %d\n",
++				pDM_Odm->PhyDbgInfo.NumQryVhtPkt[4], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[5], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[6], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[7]));
++			PHYDM_SNPRINTF((output+used, out_len-used, "1SS MCS8 = %d, 1SS MCS9 = %d\n",
++				pDM_Odm->PhyDbgInfo.NumQryVhtPkt[8], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[9]));
++			PHYDM_SNPRINTF((output+used, out_len-used, "2SS MCS0 = %d, 2SS MCS1 = %d, 2SS MCS2 = %d, 2SS MCS 3 = %d\n",
++				pDM_Odm->PhyDbgInfo.NumQryVhtPkt[10], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[11], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[12], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[13]));
++			PHYDM_SNPRINTF((output+used, out_len-used, "2SS MCS4 = %d, 2SS MCS5 = %d, 2SS MCS6 = %d, 2SS MCS 7 = %d\n",
++				pDM_Odm->PhyDbgInfo.NumQryVhtPkt[14], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[15], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[16], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[17]));
++			PHYDM_SNPRINTF((output+used, out_len-used, "2SS MCS8 = %d, 2SS MCS9 = %d\n",
++				pDM_Odm->PhyDbgInfo.NumQryVhtPkt[18], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[19]));
++			
++			PHYDM_SNPRINTF((output+used, out_len-used, "=====Rx MU Rate Statistics=====\n"));
++			PHYDM_SNPRINTF((output+used, out_len-used, "1SS MCS0 = %d, 1SS MCS1 = %d, 1SS MCS2 = %d, 1SS MCS 3 = %d\n",
++				pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[0], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[1], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[2], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[3]));
++			PHYDM_SNPRINTF((output+used, out_len-used, "1SS MCS4 = %d, 1SS MCS5 = %d, 1SS MCS6 = %d, 1SS MCS 7 = %d\n",
++				pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[4], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[5], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[6], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[7]));
++			PHYDM_SNPRINTF((output+used, out_len-used, "1SS MCS8 = %d, 1SS MCS9 = %d\n",
++				pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[8], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[9]));
++			PHYDM_SNPRINTF((output+used, out_len-used, "2SS MCS0 = %d, 2SS MCS1 = %d, 2SS MCS2 = %d, 2SS MCS 3 = %d\n",
++				pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[10], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[11], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[12], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[13]));
++			PHYDM_SNPRINTF((output+used, out_len-used, "2SS MCS4 = %d, 2SS MCS5 = %d, 2SS MCS6 = %d, 2SS MCS 7 = %d\n",
++				pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[14], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[15], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[16], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[17]));
++			PHYDM_SNPRINTF((output+used, out_len-used, "2SS MCS8 = %d, 2SS MCS9 = %d\n",
++				pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[18], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[19]));
++		} else {
++			PHYDM_SNPRINTF((output+used, out_len-used, "Reset Rx rate counter\n"));
++
++			for (rate_idx = 0; rate_idx < 40; rate_idx++) {
++				pDM_Odm->PhyDbgInfo.NumQryVhtPkt[rate_idx] = 0;
++				pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[rate_idx] = 0;
++			}
++		}
++	}	
++#endif
++	break;
++
++	case PHYDM_NBI_EN:
++		
++		for (i = 0; i < 5; i++) {
++			if (input[i + 1]) {
++				PHYDM_SSCANF(input[i + 1], DCMD_DECIMAL, &var1[i]);
++				input_idx++;
++			}
++		}
++
++		if (input_idx >= 1) {
++			
++			phydm_nbi_debug(pDM_Odm, (u4Byte *)var1, &used, output, &out_len);
++			/**/
++		}
++
++
++		break;
++
++	case PHYDM_DFS:
++#if (DM_ODM_SUPPORT_TYPE & ODM_CE)
++	{
++		u4Byte var[6] = {0};
++
++		for (i = 0; i < 6; i++) {
++			if (input[i + 1]) {
++				PHYDM_SSCANF(input[i + 1], DCMD_HEX, &var[i]);
++				input_idx++;
++			}
++		}
++	
++		if (input_idx >= 1)
++			phydm_dfs_debug(pDM_Odm, var, &used, output, &out_len);
++	}
++#endif
++		break;
++
++	case PHYDM_IQK:
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++		PHY_IQCalibrate(pDM_Odm->priv);
++		PHYDM_SNPRINTF((output + used, out_len - used, "IQK !!\n"));
++#endif
++		break;
++
++	case PHYDM_NHM:
++	{	
++		u1Byte		target_rssi;
++		u4Byte		value32;
++		u2Byte		nhm_period = 0xC350;	//200ms
++		u1Byte		IGI;
++		PCCX_INFO	CCX_INFO = &pDM_Odm->DM_CCX_INFO;
++
++		PHYDM_SSCANF(input[1], DCMD_DECIMAL, &var1[0]);
++
++		if(input_num == 1) {
++
++			CCX_INFO->echo_NHM_en = FALSE;			
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r\n Trigger NHM: echo nhm 1\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r (Exclude CCA)\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r Trigger NHM: echo nhm 2\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r (Include CCA)\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r Get NHM results: echo nhm 3\n"));
++			
++			return;
++		}
++
++		/* NMH trigger */
++		if ((var1[0] <= 2) && (var1[0] != 0)) {
++
++			CCX_INFO->echo_NHM_en = TRUE;
++			CCX_INFO->echo_IGI = (u1Byte)ODM_GetBBReg(pDM_Odm, 0xC50, bMaskByte0);
++
++			target_rssi = CCX_INFO->echo_IGI - 10;
++
++			CCX_INFO->NHM_th[0] = (target_rssi -15 + 10) * 2;
++
++			for(i = 1; i <= 10; i ++) {
++				CCX_INFO->NHM_th[i] = CCX_INFO->NHM_th[0] + 6 * i;
++			}
++
++			//4 1. store previous NHM setting
++			phydm_NHMsetting(pDM_Odm, STORE_NHM_SETTING);
++
++			//4 2. Set NHM period, 0x990[31:16]=0xC350, Time duration for NHM unit: 4us, 0xC350=200ms
++			CCX_INFO->NHM_period = nhm_period;
++
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r\n Monitor NHM for %d us", nhm_period*4));
++
++			//4 3. Set NHM inexclude_txon, inexclude_cca, ccx_en
++
++			
++			CCX_INFO->NHM_inexclude_cca = (var1[0] == 1) ? NHM_EXCLUDE_CCA : NHM_INCLUDE_CCA;
++			CCX_INFO->NHM_inexclude_txon = NHM_EXCLUDE_TXON;
++			
++			phydm_NHMsetting(pDM_Odm, SET_NHM_SETTING);
++
++			for(i = 0; i <= 10; i ++) {
++				
++				if (i == 5) {
++					PHYDM_SNPRINTF((output + used, out_len - used, "\r\n NHM_th[%d] = 0x%x, echo_IGI = 0x%x", i, CCX_INFO->NHM_th[i], CCX_INFO->echo_IGI));
++				}
++				else if (i == 10)
++					PHYDM_SNPRINTF((output + used, out_len - used, "\r\n NHM_th[%d] = 0x%x\n", i, CCX_INFO->NHM_th[i]));
++				else
++					PHYDM_SNPRINTF((output + used, out_len - used, "\r\n NHM_th[%d] = 0x%x", i, CCX_INFO->NHM_th[i]));
++			}
++
++			//4 4. Trigger NHM
++			phydm_NHMtrigger(pDM_Odm);
++
++		}
++		
++		/*Get NHM results*/
++		else if (var1[0] == 3) {
++
++			IGI = (u1Byte)ODM_GetBBReg(pDM_Odm, 0xC50, bMaskByte0);
++
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r\n Cur_IGI = 0x%x", IGI));			
++
++			phydm_getNHMresult(pDM_Odm);
++			
++			//4 Resotre NHM setting
++			phydm_NHMsetting(pDM_Odm, RESTORE_NHM_SETTING);
++			
++			for(i = 0; i <= 11; i++) {
++				
++				if (i == 5) 			
++					PHYDM_SNPRINTF((output + used, out_len - used, "\r\n nhm_result[%d] = %d, echo_IGI = 0x%x", i, CCX_INFO->NHM_result[i], CCX_INFO->echo_IGI));
++				else if (i == 11)
++					PHYDM_SNPRINTF((output + used, out_len - used, "\r\n nhm_result[%d] = %d\n", i, CCX_INFO->NHM_result[i]));
++				else
++					PHYDM_SNPRINTF((output + used, out_len - used, "\r\n nhm_result[%d] = %d", i, CCX_INFO->NHM_result[i]));
++			}
++			
++			CCX_INFO->echo_NHM_en = FALSE;
++		}
++		else {
++					
++			CCX_INFO->echo_NHM_en = FALSE;
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r\n Trigger NHM: echo nhm 1\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r (Exclude CCA)\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r Trigger NHM: echo nhm 2\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r (Include CCA)\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r Get NHM results: echo nhm 3\n"));
++			
++			return;
++		}
++	}
++	break;
++
++	case PHYDM_CLM:
++	{
++		PCCX_INFO	CCX_INFO = &pDM_Odm->DM_CCX_INFO;
++		PHYDM_SSCANF(input[1], DCMD_DECIMAL, &var1[0]);
++
++		//PHYDM_SNPRINTF((output + used, out_len - used, "\r\n input_num = %d\n", input_num));
++
++		if (input_num == 1) {
++
++			CCX_INFO->echo_CLM_en = FALSE;
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r\n Trigger CLM: echo clm 1\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r Get CLM results: echo clm 2\n"));
++			return;
++		}
++
++		/* Set & trigger CLM */
++		if (var1[0] == 1) {
++
++			CCX_INFO->echo_CLM_en = TRUE;
++			CCX_INFO->CLM_period = 0xC350;		/*100ms*/
++			phydm_CLMsetting(pDM_Odm);
++			phydm_CLMtrigger(pDM_Odm);				
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r\n Monitor CLM for 200ms\n"));
++		}
++		
++		/* Get CLM results */
++		else if (var1[0] == 2) {
++
++			CCX_INFO->echo_CLM_en = FALSE;
++			phydm_getCLMresult(pDM_Odm);
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r\n CLM_result = %d us\n", CCX_INFO->CLM_result*4));
++			
++		} else {
++
++			CCX_INFO->echo_CLM_en = FALSE;
++			PHYDM_SNPRINTF((output + used, out_len - used, "\n\r Error command !\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r Trigger CLM: echo clm 1\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r Get CLM results: echo clm 2\n"));
++		}
++
++		break;
++	}
++
++	default:
++		PHYDM_SNPRINTF((output + used, out_len - used, "SET, unknown command!\n"));
++		break;
++
++	}
++}
++
++#ifdef __ECOS
++char *strsep(char **s, const char *ct)
++{
++	char *sbegin = *s;
++	char *end;
++
++	if (sbegin == NULL)
++		return NULL;
++
++	end = strpbrk(sbegin, ct);
++	if (end)
++		*end++ = '\0';
++	*s = end;
++	return sbegin;
++}
++#endif
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_AP))
++s4Byte
++phydm_cmd(
++	IN PDM_ODM_T	pDM_Odm,
++	IN char		*input,
++	IN u4Byte	in_len,
++	IN u1Byte	flag,
++	OUT char	*output,
++	IN u4Byte	out_len
++)
++{
++	char *token;
++	u4Byte	Argc = 0;
++	char		Argv[MAX_ARGC][MAX_ARGV];
++
++	do {
++		token = strsep(&input, ", ");
++		if (token) {
++			strcpy(Argv[Argc], token);
++			Argc++;
++		} else
++			break;
++	} while (Argc < MAX_ARGC);
++
++	if (Argc == 1)
++		Argv[0][strlen(Argv[0]) - 1] = '\0';
++
++	phydm_cmd_parser(pDM_Odm, Argv, Argc, flag, output, out_len);
++
++	return 0;
++}
++#endif
++
++
++VOID
++phydm_fw_trace_handler(
++	IN	PVOID	pDM_VOID,
++	IN	pu1Byte	CmdBuf,
++	IN	u1Byte	CmdLen
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	/*u1Byte	debug_trace_11byte[60];*/
++	u1Byte		freg_num, c2h_seq, buf_0 = 0;
++
++	if (!(pDM_Odm->SupportICType & PHYDM_IC_3081_SERIES))
++		return;
++
++	if (CmdLen > 12)
++		return;
++	
++	buf_0 = CmdBuf[0];
++	freg_num = (buf_0 & 0xf);
++	c2h_seq = (buf_0 & 0xf0) >> 4;
++	/*ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE,ODM_DBG_LOUD,("[FW debug message] freg_num = (( %d )), c2h_seq = (( %d ))\n", freg_num,c2h_seq ));*/
++
++	/*strncpy(debug_trace_11byte,&CmdBuf[1],(CmdLen-1));*/
++	/*debug_trace_11byte[CmdLen-1] = '\0';*/
++	/*ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE,ODM_DBG_LOUD,("[FW debug message] %s\n", debug_trace_11byte));*/
++	/*ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE,ODM_DBG_LOUD,("[FW debug message] CmdLen = (( %d ))\n", CmdLen));*/
++	/*ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE,ODM_DBG_LOUD,("[FW debug message] c2h_cmd_start  = (( %d ))\n", pDM_Odm->c2h_cmd_start));*/
++
++
++
++	/*ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE,ODM_DBG_LOUD,("pre_seq = (( %d )), current_seq = (( %d ))\n", pDM_Odm->pre_c2h_seq, c2h_seq));*/
++	/*ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE,ODM_DBG_LOUD,("fw_buff_is_enpty = (( %d ))\n", pDM_Odm->fw_buff_is_enpty));*/
++
++	if ((c2h_seq != pDM_Odm->pre_c2h_seq)  &&  pDM_Odm->fw_buff_is_enpty == FALSE) {
++		pDM_Odm->fw_debug_trace[pDM_Odm->c2h_cmd_start] = '\0';
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW Dbg Queue Overflow] %s\n", pDM_Odm->fw_debug_trace));
++		pDM_Odm->c2h_cmd_start = 0;
++	}
++
++	if ((CmdLen - 1) > (60 - pDM_Odm->c2h_cmd_start)) {
++		pDM_Odm->fw_debug_trace[pDM_Odm->c2h_cmd_start] = '\0';
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW Dbg Queue error: wrong C2H length] %s\n", pDM_Odm->fw_debug_trace));
++		pDM_Odm->c2h_cmd_start = 0;
++		return;
++	}
++
++	strncpy((char *)&(pDM_Odm->fw_debug_trace[pDM_Odm->c2h_cmd_start]), (char *)&CmdBuf[1], (CmdLen-1));
++	pDM_Odm->c2h_cmd_start += (CmdLen - 1);
++	pDM_Odm->fw_buff_is_enpty = FALSE;	
++	
++	if (freg_num == 0 || pDM_Odm->c2h_cmd_start >= 60) {
++		if (pDM_Odm->c2h_cmd_start < 60)
++			pDM_Odm->fw_debug_trace[pDM_Odm->c2h_cmd_start] = '\0';
++		else
++			pDM_Odm->fw_debug_trace[59] = '\0';
++
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW DBG Msg] %s\n", pDM_Odm->fw_debug_trace));
++		/*DbgPrint("[FW DBG Msg] %s\n", pDM_Odm->fw_debug_trace);*/
++		pDM_Odm->c2h_cmd_start = 0;
++		pDM_Odm->fw_buff_is_enpty = TRUE;
++	}
++
++	pDM_Odm->pre_c2h_seq = c2h_seq;
++}
++
++VOID
++phydm_fw_trace_handler_code(
++	IN	PVOID	pDM_VOID,
++	IN	pu1Byte	Buffer,
++	IN	u1Byte	CmdLen
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	function = Buffer[0];
++	u1Byte	dbg_num = Buffer[1];
++	u2Byte	content_0 = (((u2Byte)Buffer[3])<<8)|((u2Byte)Buffer[2]);
++	u2Byte	content_1 = (((u2Byte)Buffer[5])<<8)|((u2Byte)Buffer[4]);		
++	u2Byte	content_2 = (((u2Byte)Buffer[7])<<8)|((u2Byte)Buffer[6]);	
++	u2Byte	content_3 = (((u2Byte)Buffer[9])<<8)|((u2Byte)Buffer[8]);
++	u2Byte	content_4 = (((u2Byte)Buffer[11])<<8)|((u2Byte)Buffer[10]);
++
++	if(CmdLen >12) {
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE,ODM_DBG_LOUD,("[FW Msg] Invalid cmd length (( %d )) >12 \n", CmdLen));
++	}
++	
++	//ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE,ODM_DBG_LOUD,("[FW Msg] Func=((%d)),  num=((%d)), ct_0=((%d)), ct_1=((%d)), ct_2=((%d)), ct_3=((%d)), ct_4=((%d))\n", 
++	//	function, dbg_num, content_0, content_1, content_2, content_3, content_4));
++	
++	/*--------------------------------------------*/
++#if (CONFIG_RA_FW_DBG_CODE)
++	if(function == RATE_DECISION) {
++		if(dbg_num == 0) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] RA_CNT=((%d))  Max_device=((%d))--------------------------->\n", content_1, content_2));
++			} else if(content_0 == 2) {
++				 ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] Check RA macid= ((%d)), MediaStatus=((%d)), Dis_RA=((%d)),  try_bit=((0x%x))\n", content_1, content_2, content_3, content_4));
++			} else if(content_0 == 3) {
++				 ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] Check RA  total=((%d)),  drop=((0x%x)), TXRPT_TRY_bit=((%x)), bNoisy=((%x))\n", content_1, content_2, content_3, content_4));
++			}
++		} else if(dbg_num == 1) {
++			if (content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] RTY[0,1,2,3]=[ %d , %d , %d , %d ]\n", content_1, content_2, content_3, content_4));
++			} else if (content_0 == 2) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] RTY[4]=[ %d ], drop=(( %d )), total=(( %d )), current_rate=((0x %x ))", content_1, content_2, content_3, content_4));
++				phydm_print_rate(pDM_Odm, (u1Byte)content_4, ODM_FW_DEBUG_TRACE);
++			} else if (content_0 == 3) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] penality_idx=(( %d ))\n", content_1));
++			} else if (content_0 == 4) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] RSSI=(( %d )), ra_stage = (( %d ))\n", content_1, content_2));
++			}
++		}
++		
++		else if(dbg_num == 3) {
++			if (content_0 == 1)
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] Fast_RA (( DOWN ))  total=((%d)),  total>>1=((%d)), R4+R3+R2 = ((%d)), RateDownHold = ((%d))\n", content_1, content_2, content_3, content_4));
++			else if (content_0 == 2)
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] Fast_RA (( UP ))  total_acc=((%d)),  total_acc>>1=((%d)), R4+R3+R2 = ((%d)), RateDownHold = ((%d))\n", content_1, content_2, content_3, content_4));
++			else if (content_0 == 3)
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] Fast_RA (( UP )) ((Rate Down Hold))  RA_CNT=((%d))\n", content_1));
++			else if (content_0 == 4)
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] Fast_RA (( UP )) ((tota_accl<5 skip))  RA_CNT=((%d))\n", content_1));
++			else if (content_0 == 8)
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] Fast_RA (( Reset Tx Rpt )) RA_CNT=((%d))\n", content_1));
++		}
++
++		else if (dbg_num == 4) {
++			if (content_0 == 3) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] RER_CNT   PCR_ori =(( %d )),  ratio_ori =(( %d )), pcr_updown_bitmap =(( 0x%x )), pcr_var_diff =(( %d ))\n", content_1, content_2, content_3, content_4));
++				/**/
++			} else if (content_0 == 4) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] pcr_shift_value =(( %s%d )), rate_down_threshold =(( %d )), rate_up_threshold =(( %d ))\n", ((content_1) ? "+" : "-"), content_2, content_3, content_4));
++				/**/
++			} else if (content_0 == 5) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] pcr_mean =(( %d )), PCR_VAR =(( %d )), offset =(( %d )), decision_offset_p =(( %d ))\n", content_1, content_2, content_3, content_4));
++				/**/
++			}
++		}
++		
++		else if(dbg_num == 5) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] (( UP))  Nsc=(( %d )), N_High=(( %d )), RateUp_Waiting=(( %d )), RateUp_Fail=(( %d ))\n", content_1, content_2, content_3, content_4));
++			} else if(content_0 == 2) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] ((DOWN))  Nsc=(( %d )), N_Low=(( %d ))\n", content_1, content_2));
++			} else if(content_0 == 3) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] ((HOLD))  Nsc=((%d)), N_High=((%d)), N_Low=((%d)), Reset_CNT=((%d))\n", content_1, content_2, content_3, content_4));
++			}
++		}
++		else if(dbg_num == 0x60) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] ((AP RPT))  macid=((%d)), BUPDATE[macid]=((%d))\n", content_1, content_2));
++			} else if(content_0 == 4) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] ((AP RPT))  pass=((%d)), rty_num=((%d)), drop=((%d)), total=((%d))\n", content_1, content_2, content_3, content_4));
++			} else if(content_0 == 5) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] ((AP RPT))  PASS=((%d)), RTY_NUM=((%d)), DROP=((%d)), TOTAL=((%d))\n", content_1, content_2, content_3, content_4));
++			}
++		}
++	} 
++	/*--------------------------------------------*/
++	else if (function == INIT_RA_TABLE){
++		if(dbg_num == 3) {
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][INIT_RA_INFO] Ra_init, RA_SKIP_CNT = (( %d ))\n", content_0));
++		}
++		
++	} 
++	/*--------------------------------------------*/
++	else if (function == RATE_UP) {
++		if(dbg_num == 2) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][RateUp]  ((Highest rate -> return)), macid=((%d))  Nsc=((%d))\n", content_1, content_2));
++			}
++		} else if(dbg_num == 5) {
++			if (content_0 == 0)
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][RateUp]  ((Rate UP)), up_rate_tmp=((0x%x)), rate_idx=((0x%x)), SGI_en=((%d)),  SGI=((%d))\n", content_1, content_2, content_3, content_4));
++			else if (content_0 == 1)
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][RateUp]  ((Rate UP)), rate_1=((0x%x)), rate_2=((0x%x)), BW=((%d)), Try_Bit=((%d))\n", content_1, content_2, content_3, content_4));
++		}
++		
++	} 
++	/*--------------------------------------------*/
++	else if (function == RATE_DOWN) {
++		 if(dbg_num == 5) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][RateDownStep]  ((Rate Down)), macid=((%d)), rate1=((0x%x)),  rate2=((0x%x)), BW=((%d))\n", content_1, content_2, content_3, content_4));
++			}
++		}
++	} else if (function == TRY_DONE) {
++		if (dbg_num == 1) {
++			if (content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][Try Done]  ((try succsess )) macid=((%d)), Try_Done_cnt=((%d))\n", content_1, content_2));
++				/**/
++			}
++		} else if (dbg_num == 2) {
++			if (content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][Try Done]  ((try)) macid=((%d)), Try_Done_cnt=((%d)),  rate_2=((%d)),  try_succes=((%d))\n", content_1, content_2, content_3, content_4));
++				/**/
++			}
++		}
++	} 
++	/*--------------------------------------------*/
++	else if (function == RA_H2C) {
++		if (dbg_num == 1) {
++			if (content_0 == 0) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][H2C=0x49]  fw_trace_en=((%d)), mode =((%d)),  macid=((%d))\n", content_1, content_2, content_3));
++				/**/
++				/*C2H_RA_Dbg_code(F_RA_H2C,1,0, SysMib.ODM.DEBUG.fw_trace_en, mode, macid , 0);    //RA MASK*/
++			}
++			#if 0
++			else if (dbg_num == 2) {
++			
++				if (content_0 == 1) {
++					ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][H2C=0x40]  MACID=((%d)), Rate ID=((%d)),  SGI=((%d)),  BW=((%d))\n", content_1, content_2, content_3, content_4));
++					/**/
++				} else if (content_0 == 2) {
++					ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][H2C=0x40]   VHT_en=((%d)), Disable_PowerTraining=((%d)),  Disable_RA=((%d)),  No_Update=((%d))\n", content_1, content_2, content_3, content_4));
++					/**/
++				} else if (content_0 == 3) {
++					ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][H2C=0x40]   RA_MSK=[%x | %x | %x | %x ]\n", content_1, content_2, content_3, content_4));
++					/**/
++				}
++			}
++			#endif
++		}
++	}
++	/*--------------------------------------------*/
++	else if (function == F_RATE_AP_RPT) {
++		 if(dbg_num == 1) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][AP RPT]  ((1)), SPE_STATIS=((0x%x))---------->\n", content_3));				
++			} 
++		} else if(dbg_num == 2) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][AP RPT]  RTY_all=((%d))\n", content_1));				
++			} 
++		} else if(dbg_num == 3) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][AP RPT]  MACID1[%d], TOTAL=((%d)),  RTY=((%d))\n", content_3, content_1, content_2));
++			} 
++		} else if(dbg_num == 4) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][AP RPT]  MACID2[%d], TOTAL=((%d)),  RTY=((%d))\n", content_3, content_1, content_2));
++			} 
++		} else if(dbg_num == 5) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][AP RPT]  MACID1[%d], PASS=((%d)),  DROP=((%d))\n", content_3, content_1, content_2));
++			} 
++		} else if(dbg_num == 6) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][AP RPT]  MACID2[%d],, PASS=((%d)),  DROP=((%d))\n", content_3, content_1, content_2));
++			} 
++		}
++	} else {
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][general][%d, %d, %d] = {%d, %d, %d, %d}\n", function, dbg_num, content_0, content_1, content_2, content_3, content_4));
++		/**/
++	}
++#else
++	ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][general][%d, %d, %d] = {%d, %d, %d, %d}\n", function, dbg_num, content_0, content_1, content_2, content_3, content_4));
++#endif
++	/*--------------------------------------------*/
++		
++
++}
++
++VOID
++phydm_fw_trace_handler_8051(
++	IN	PVOID	pDM_VOID,
++	IN	pu1Byte	Buffer,
++	IN	u1Byte	CmdLen
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if 0
++	if (CmdLen >= 3)
++		CmdBuf[CmdLen - 1] = '\0';
++	ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW DBG Msg] %s\n", &(CmdBuf[3])));
++#else
++
++	int i = 0;
++	u1Byte	Extend_c2hSubID = 0, Extend_c2hDbgLen = 0, Extend_c2hDbgSeq = 0;
++	u1Byte	fw_debug_trace[128];
++	pu1Byte	Extend_c2hDbgContent = 0;
++
++	if (CmdLen > 127)
++		return;
++
++	Extend_c2hSubID = Buffer[0];
++	Extend_c2hDbgLen = Buffer[1];
++	Extend_c2hDbgContent = Buffer + 2; /*DbgSeq+DbgContent  for show HEX*/
++
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	RT_DISP(FC2H, C2H_Summary, ("[Extend C2H packet], Extend_c2hSubId=0x%x, Extend_c2hDbgLen=%d\n", 
++			Extend_c2hSubID, Extend_c2hDbgLen));
++	
++	RT_DISP_DATA(FC2H, C2H_Summary, "[Extend C2H packet], Content Hex:", Extend_c2hDbgContent, CmdLen-2);
++	#endif
++
++GoBackforAggreDbgPkt:
++	i = 0;
++	Extend_c2hDbgSeq = Buffer[2];
++	Extend_c2hDbgContent = Buffer + 3;
++	
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	RT_DISP(FC2H, C2H_Summary, ("[RTKFW, SEQ= %d] :", Extend_c2hDbgSeq));
++	#endif	
++
++	for (; ; i++) {
++		fw_debug_trace[i] = Extend_c2hDbgContent[i];
++		if (Extend_c2hDbgContent[i + 1] == '\0') {
++			fw_debug_trace[i + 1] = '\0';
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW DBG Msg] %s", &(fw_debug_trace[0])));
++			break;
++		} else if (Extend_c2hDbgContent[i] == '\n') {
++			fw_debug_trace[i + 1] = '\0';
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW DBG Msg] %s", &(fw_debug_trace[0])));
++			Buffer = Extend_c2hDbgContent + i + 3;
++			goto GoBackforAggreDbgPkt;
++		}
++	}
++
++
++#endif
++}
++
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_debug.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_debug.h
+new file mode 100644
+index 0000000..6b990b3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_debug.h
+@@ -0,0 +1,327 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#ifndef	__ODM_DBG_H__
++#define __ODM_DBG_H__
++
++/*#define DEBUG_VERSION	"1.1"*/  /*2015.07.29 YuChen*/
++#define DEBUG_VERSION	"1.2"  /*2015.08.28 Dino*/
++//-----------------------------------------------------------------------------
++//	Define the debug levels
++//
++//	1.	DBG_TRACE and DBG_LOUD are used for normal cases.
++//	So that, they can help SW engineer to develope or trace states changed 
++//	and also help HW enginner to trace every operation to and from HW, 
++//	e.g IO, Tx, Rx. 
++//
++//	2.	DBG_WARNNING and DBG_SERIOUS are used for unusual or error cases, 
++//	which help us to debug SW or HW.
++//
++//-----------------------------------------------------------------------------
++//
++//	Never used in a call to ODM_RT_TRACE()!
++//
++#define ODM_DBG_OFF					1
++
++//
++//	Fatal bug. 
++//	For example, Tx/Rx/IO locked up, OS hangs, memory access violation, 
++//	resource allocation failed, unexpected HW behavior, HW BUG and so on.
++//
++#define ODM_DBG_SERIOUS				2
++
++//
++//	Abnormal, rare, or unexpeted cases.
++//	For example, IRP/Packet/OID canceled, device suprisely unremoved and so on.
++//
++#define ODM_DBG_WARNING				3
++
++//
++//	Normal case with useful information about current SW or HW state. 
++//	For example, Tx/Rx descriptor to fill, Tx/Rx descriptor completed status, 
++//	SW protocol state change, dynamic mechanism state change and so on.
++//
++#define ODM_DBG_LOUD					4
++
++//
++//	Normal case with detail execution flow or information.
++//
++#define ODM_DBG_TRACE					5
++
++/*FW DBG MSG*/
++#define	RATE_DECISION	BIT0
++#define	INIT_RA_TABLE	BIT1
++#define	RATE_UP			BIT2
++#define	RATE_DOWN		BIT3
++#define	TRY_DONE		BIT4
++#define	RA_H2C		BIT5
++#define	F_RATE_AP_RPT	BIT7
++
++//-----------------------------------------------------------------------------
++// Define the tracing components
++//
++//-----------------------------------------------------------------------------
++//BB Functions
++#define	ODM_COMP_DIG					BIT0	
++#define	ODM_COMP_RA_MASK				BIT1	
++#define	ODM_COMP_DYNAMIC_TXPWR		BIT2
++#define	ODM_COMP_FA_CNT				BIT3
++#define	ODM_COMP_RSSI_MONITOR		BIT4
++#define	ODM_COMP_SNIFFER				BIT5
++#define	ODM_COMP_ANT_DIV				BIT6
++#define	ODM_COMP_DFS					BIT7
++#define	ODM_COMP_NOISY_DETECT		BIT8
++#define	ODM_COMP_RATE_ADAPTIVE		BIT9
++#define	ODM_COMP_PATH_DIV			BIT10
++#define	ODM_COMP_CCX					BIT11
++
++#define	ODM_COMP_DYNAMIC_PRICCA		BIT12
++									/*BIT13 TBD*/
++#define	ODM_COMP_MP					BIT14
++#define	ODM_COMP_CFO_TRACKING		BIT15
++#define	ODM_COMP_ACS					BIT16
++#define	PHYDM_COMP_ADAPTIVITY		BIT17
++#define	PHYDM_COMP_RA_DBG			BIT18
++#define	PHYDM_COMP_TXBF				BIT19
++//MAC Functions
++#define	ODM_COMP_EDCA_TURBO			BIT20
++									/*BIT21 TBD*/
++#define	ODM_FW_DEBUG_TRACE			BIT22
++//RF Functions
++									/*BIT23 TBD*/
++#define	ODM_COMP_TX_PWR_TRACK		BIT24
++#define	ODM_COMP_RX_GAIN_TRACK		BIT25
++#define	ODM_COMP_CALIBRATION			BIT26
++//Common Functions
++#define	ODM_PHY_CONFIG				BIT28
++#define	ODM_COMP_INIT					BIT29
++#define	ODM_COMP_COMMON				BIT30
++
++									/*BIT31 TBD*/
++
++/*------------------------Export Marco Definition---------------------------*/
++
++#define	config_phydm_read_txagc_check(data)		(data != INVALID_TXAGC_DATA)
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#define RT_PRINTK				DbgPrint
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#define DbgPrint	printk
++	#define RT_PRINTK(fmt, args...)	DbgPrint( "%s(): " fmt, __FUNCTION__, ## args);
++	#define	RT_DISP(dbgtype, dbgflag, printstr)
++#else
++	#define DbgPrint	panic_printk
++	#define RT_PRINTK(fmt, args...)	DbgPrint( "%s(): " fmt, __FUNCTION__, ## args);
++#endif
++
++#ifndef ASSERT
++	#define ASSERT(expr)
++#endif
++
++#if DBG
++#define ODM_RT_TRACE(pDM_Odm, comp, level, fmt)									\
++	do {	\
++		if(((comp) & pDM_Odm->DebugComponents) && (level <= pDM_Odm->DebugLevel || level == ODM_DBG_SERIOUS))	\
++		{																			\
++			if (pDM_Odm->SupportICType == ODM_RTL8188E)							\
++				DbgPrint("[PhyDM-8188E] ");											\
++			else if(pDM_Odm->SupportICType == ODM_RTL8192E) 						\
++				DbgPrint("[PhyDM-8192E] ");											\
++			else if(pDM_Odm->SupportICType == ODM_RTL8812)							\
++				DbgPrint("[PhyDM-8812A] ");											\
++			else if(pDM_Odm->SupportICType == ODM_RTL8821)							\
++				DbgPrint("[PhyDM-8821A] ");											\
++			else if(pDM_Odm->SupportICType == ODM_RTL8814A)							\
++				DbgPrint("[PhyDM-8814A] ");											\
++			else if(pDM_Odm->SupportICType == ODM_RTL8703B)							\
++				DbgPrint("[PhyDM-8703B] ");											\
++			else if(pDM_Odm->SupportICType == ODM_RTL8822B)							\
++				DbgPrint("[PhyDM-8822B] ");											\
++			else if (pDM_Odm->SupportICType == ODM_RTL8188F)							\
++				DbgPrint("[PhyDM-8188F] ");											\
++			RT_PRINTK fmt;															\
++		}	\
++	} while (0)
++
++#define ODM_RT_TRACE_F(pDM_Odm, comp, level, fmt)									\
++		if(((comp) & pDM_Odm->DebugComponents) && (level <= pDM_Odm->DebugLevel))	\
++		{																			\
++			RT_PRINTK fmt;															\
++		}
++
++#define ODM_RT_ASSERT(pDM_Odm, expr, fmt)											\
++		if(!(expr)) {																	\
++			DbgPrint( "Assertion failed! %s at ......\n", #expr);								\
++			DbgPrint( "      ......%s,%s,line=%d\n",__FILE__,__FUNCTION__,__LINE__);			\
++			RT_PRINTK fmt;															\
++			ASSERT(FALSE);															\
++		}
++#define ODM_dbg_enter() { DbgPrint("==> %s\n", __FUNCTION__); }
++#define ODM_dbg_exit() { DbgPrint("<== %s\n", __FUNCTION__); }
++#define ODM_dbg_trace(str) { DbgPrint("%s:%s\n", __FUNCTION__, str); }
++
++#define ODM_PRINT_ADDR(pDM_Odm, comp, level, title_str, ptr)							\
++			if(((comp) & pDM_Odm->DebugComponents) && (level <= pDM_Odm->DebugLevel))	\
++			{																		\
++				int __i;																\
++				pu1Byte	__ptr = (pu1Byte)ptr;											\
++				DbgPrint("[ODM] ");													\
++				DbgPrint(title_str);													\
++				DbgPrint(" ");														\
++				for( __i=0; __i<6; __i++ )												\
++					DbgPrint("%02X%s", __ptr[__i], (__i==5)?"":"-");						\
++				DbgPrint("\n");														\
++			}
++#else
++#define ODM_RT_TRACE(pDM_Odm, comp, level, fmt)
++#define ODM_RT_TRACE_F(pDM_Odm, comp, level, fmt)
++#define ODM_RT_ASSERT(pDM_Odm, expr, fmt)
++#define ODM_dbg_enter()
++#define ODM_dbg_exit()
++#define ODM_dbg_trace(str)
++#define ODM_PRINT_ADDR(pDM_Odm, comp, level, title_str, ptr)
++#endif
++
++
++VOID 
++PHYDM_InitDebugSetting(IN		PDM_ODM_T		pDM_Odm);
++
++#define	BB_TMP_BUF_SIZE		100
++VOID phydm_BB_Debug_Info(IN PDM_ODM_T pDM_Odm);
++VOID phydm_BasicDbgMessage(	IN		PVOID			pDM_VOID);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#define	PHYDM_DBGPRINT		0
++#define	PHYDM_SSCANF(x, y, z)	DCMD_Scanf(x, y, z)
++#if (PHYDM_DBGPRINT == 1)
++#define	PHYDM_SNPRINTF(msg)	\
++		do {\
++			rsprintf msg;\
++			DbgPrint(output);\
++		} while (0)
++#else
++#define	PHYDM_SNPRINTF(msg)	\
++		do {\
++			rsprintf msg;\
++			DCMD_Printf(output);\
++		} while (0)
++#endif
++#else
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE) || defined(__OSK__)
++#define	PHYDM_DBGPRINT		0
++#else
++#define	PHYDM_DBGPRINT		1
++#endif
++#define	MAX_ARGC				20
++#define	MAX_ARGV				16
++#define	DCMD_DECIMAL			"%d"
++#define	DCMD_CHAR				"%c"
++#define	DCMD_HEX				"%x"
++
++#define	PHYDM_SSCANF(x, y, z)	sscanf(x, y, z)
++#if (PHYDM_DBGPRINT == 1)
++#define	PHYDM_SNPRINTF(msg)\
++		do {\
++			snprintf msg;\
++			DbgPrint(output);\
++		} while (0)
++#else
++#define	PHYDM_SNPRINTF(msg)\
++		do {\
++			if(out_len > used)\
++				used+=snprintf msg;\
++		} while (0)
++#endif
++#endif
++
++
++VOID phydm_BasicProfile(
++	IN		PVOID			pDM_VOID,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++	);
++#if(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_AP))
++s4Byte
++phydm_cmd(
++	IN PDM_ODM_T	pDM_Odm,
++	IN char		*input,
++	IN u4Byte	in_len,
++	IN u1Byte	flag,
++	OUT char	*output,
++	IN u4Byte	out_len
++);
++#endif
++VOID
++phydm_cmd_parser(
++	IN PDM_ODM_T	pDM_Odm,
++	IN char		input[][16],
++	IN u4Byte	input_num,
++	IN u1Byte	flag,
++	OUT char	*output,
++	IN u4Byte	out_len
++);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++void phydm_sbd_check(
++	IN	PDM_ODM_T					pDM_Odm
++	);
++
++void phydm_sbd_callback(
++	PRT_TIMER		pTimer
++	);
++
++void phydm_sbd_workitem_callback(
++    IN PVOID            pContext
++	);
++#endif
++
++VOID
++phydm_fw_trace_en_h2c(
++	IN	PVOID	pDM_VOID,
++	IN	BOOLEAN		enable,
++	IN	u4Byte		monitor_mode,
++	IN	u4Byte		macid
++);
++
++VOID
++phydm_fw_trace_handler(
++	IN		PVOID	pDM_VOID,
++	IN		pu1Byte	CmdBuf,
++	IN		u1Byte	CmdLen
++);
++
++VOID
++phydm_fw_trace_handler_code(
++	IN	PVOID	pDM_VOID,
++	IN	pu1Byte	Buffer,
++	IN	u1Byte	CmdLen
++);
++
++VOID
++phydm_fw_trace_handler_8051(
++	IN	PVOID	pDM_VOID,
++	IN	pu1Byte	CmdBuf,
++	IN	u1Byte	CmdLen
++);
++
++#endif	// __ODM_DBG_H__
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dfs.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dfs.c
+new file mode 100644
+index 0000000..12f7e6f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dfs.c
+@@ -0,0 +1,258 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++/*
++============================================================
++ include files
++============================================================
++*/
++
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#if defined(CONFIG_PHYDM_DFS_MASTER)
++VOID phydm_radar_detect_reset(PVOID pDM_VOID)
++{
++	PDM_ODM_T pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ODM_SetBBReg(pDM_Odm, 0x924 , BIT15, 0);
++	ODM_SetBBReg(pDM_Odm, 0x924 , BIT15, 1);
++}
++
++VOID phydm_radar_detect_disable(PVOID pDM_VOID)
++{
++	PDM_ODM_T pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ODM_SetBBReg(pDM_Odm, 0x924 , BIT15, 0);
++}
++
++static VOID phydm_radar_detect_with_dbg_parm(PVOID pDM_VOID)
++{
++	PDM_ODM_T pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ODM_SetBBReg(pDM_Odm, 0x918, bMaskDWord, pDM_Odm->radar_detect_reg_918);
++	ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, pDM_Odm->radar_detect_reg_91c);
++	ODM_SetBBReg(pDM_Odm, 0x920, bMaskDWord, pDM_Odm->radar_detect_reg_920);
++	ODM_SetBBReg(pDM_Odm, 0x924, bMaskDWord, pDM_Odm->radar_detect_reg_924);
++}
++
++/* Init radar detection parameters, called after ch, bw is set */
++VOID phydm_radar_detect_enable(PVOID pDM_VOID)
++{
++	PDM_ODM_T pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte region_domain = pDM_Odm->DFS_RegionDomain;
++	u1Byte c_channel = *(pDM_Odm->pChannel);
++
++	if (region_domain == PHYDM_DFS_DOMAIN_UNKNOWN) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DFS, ODM_DBG_LOUD, ("PHYDM_DFS_DOMAIN_UNKNOWN\n"));
++		return;
++	}
++
++	 if (pDM_Odm->SupportICType & (ODM_RTL8821 | ODM_RTL8812 | ODM_RTL8881A)) {
++
++		ODM_SetBBReg(pDM_Odm, 0x814, 0x3fffffff, 0x04cc4d10);
++		ODM_SetBBReg(pDM_Odm, 0x834, bMaskByte0, 0x06);
++
++		if (pDM_Odm->radar_detect_dbg_parm_en) {
++			phydm_radar_detect_with_dbg_parm(pDM_Odm);
++			goto exit;
++		}
++
++		if (region_domain == PHYDM_DFS_DOMAIN_ETSI) {
++			ODM_SetBBReg(pDM_Odm, 0x918, bMaskDWord, 0x1c17ecdf);
++			ODM_SetBBReg(pDM_Odm, 0x924, bMaskDWord, 0x01528500);
++			ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x0fa21a20);
++			ODM_SetBBReg(pDM_Odm, 0x920, bMaskDWord, 0xe0f69204);
++
++		} else if (region_domain == PHYDM_DFS_DOMAIN_MKK) {
++			ODM_SetBBReg(pDM_Odm, 0x924, bMaskDWord, 0x01528500);
++			ODM_SetBBReg(pDM_Odm, 0x920, bMaskDWord, 0xe0d67234);
++
++			if (c_channel >= 52 && c_channel <= 64) {
++				ODM_SetBBReg(pDM_Odm, 0x918, bMaskDWord, 0x1c16ecdf);
++				ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x0f141a20);
++			} else {
++				ODM_SetBBReg(pDM_Odm, 0x918, bMaskDWord, 0x1c16acdf);
++				if (pDM_Odm->pBandWidth == ODM_BW20M)
++					ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x64721a20);
++				else
++					ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x68721a20);
++			}
++
++		} else if (region_domain == PHYDM_DFS_DOMAIN_FCC) {
++			ODM_SetBBReg(pDM_Odm, 0x918, bMaskDWord, 0x1c16acdf);
++			ODM_SetBBReg(pDM_Odm, 0x924, bMaskDWord, 0x01528500);
++			ODM_SetBBReg(pDM_Odm, 0x920, bMaskDWord, 0xe0d67231);
++			if (pDM_Odm->pBandWidth == ODM_BW20M)
++				ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x64741a20);
++			else
++				ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x68741a20);
++		} else {
++			/* not supported */
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DFS, ODM_DBG_LOUD, ("Unsupported DFS_RegionDomain:%d\n", region_domain));
++		}
++
++	} else if (pDM_Odm->SupportICType & (ODM_RTL8814A | ODM_RTL8822B)) {
++	
++		ODM_SetBBReg(pDM_Odm, 0x814, 0x3fffffff, 0x04cc4d10);
++		ODM_SetBBReg(pDM_Odm, 0x834, bMaskByte0, 0x06);
++		
++		/* 8822B only, when BW = 20M, DFIR output is 40Mhz, but DFS input is 80MMHz, so it need to upgrade to 80MHz */
++		if (pDM_Odm->SupportICType & ODM_RTL8822B) {
++			if (pDM_Odm->pBandWidth == ODM_BW20M)
++				ODM_SetBBReg(pDM_Odm, 0x1984, BIT26, 1);
++			else
++				ODM_SetBBReg(pDM_Odm, 0x1984, BIT26, 0);
++		}
++
++		if (pDM_Odm->radar_detect_dbg_parm_en) {
++			phydm_radar_detect_with_dbg_parm(pDM_Odm);
++			goto exit;
++		}
++
++		if (region_domain == PHYDM_DFS_DOMAIN_ETSI) {
++			ODM_SetBBReg(pDM_Odm, 0x918, bMaskDWord, 0x1c16acdf);
++			ODM_SetBBReg(pDM_Odm, 0x924, bMaskDWord, 0x095a8500);
++			ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x0fa21a20);
++			ODM_SetBBReg(pDM_Odm, 0x920, bMaskDWord, 0xe0f57204);
++
++		} else if (region_domain == PHYDM_DFS_DOMAIN_MKK) {
++			ODM_SetBBReg(pDM_Odm, 0x924, bMaskDWord, 0x095a8500);
++			ODM_SetBBReg(pDM_Odm, 0x920, bMaskDWord, 0xe0d67234);
++
++			if (c_channel >= 52 && c_channel <= 64) {
++				ODM_SetBBReg(pDM_Odm, 0x918, bMaskDWord, 0x1c16ecdf);
++				ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x0f141a20);
++			} else {
++				ODM_SetBBReg(pDM_Odm, 0x918, bMaskDWord, 0x1c166cdf);
++				if (pDM_Odm->pBandWidth == ODM_BW20M)
++					ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x64721a20);
++				else
++					ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x68721a20);
++			}
++		} else if (region_domain == PHYDM_DFS_DOMAIN_FCC) {
++			ODM_SetBBReg(pDM_Odm, 0x918, bMaskDWord, 0x1c166cdf);
++			ODM_SetBBReg(pDM_Odm, 0x924, bMaskDWord, 0x095a8500);
++			ODM_SetBBReg(pDM_Odm, 0x920, bMaskDWord, 0xe0d67231);
++			if (pDM_Odm->pBandWidth == ODM_BW20M)
++				ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x64741a20);
++			else
++				ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x68741a20);
++		} else {
++			/* not supported */
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DFS, ODM_DBG_LOUD, ("Unsupported DFS_RegionDomain:%d\n", region_domain));
++		}
++	} else {
++		/* not supported IC type*/
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DFS, ODM_DBG_LOUD, ("Unsupported IC Type:%d\n", pDM_Odm->SupportICType));
++	}
++
++exit:
++	phydm_radar_detect_reset(pDM_Odm);
++}
++
++BOOLEAN phydm_radar_detect(PVOID pDM_VOID)
++{
++	PDM_ODM_T pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	BOOLEAN enable_DFS = FALSE;
++	BOOLEAN radar_detected = FALSE;
++	u1Byte region_domain = pDM_Odm->DFS_RegionDomain;
++
++	if (region_domain == PHYDM_DFS_DOMAIN_UNKNOWN) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DFS, ODM_DBG_LOUD, ("PHYDM_DFS_DOMAIN_UNKNOWN\n"));
++		return FALSE;
++	}
++
++	if (ODM_GetBBReg(pDM_Odm , 0x924, BIT15))
++		enable_DFS = TRUE;
++
++	if ((ODM_GetBBReg(pDM_Odm , 0xf98, BIT17))
++		|| (!(region_domain == PHYDM_DFS_DOMAIN_ETSI) && (ODM_GetBBReg(pDM_Odm , 0xf98, BIT19))))
++		radar_detected = TRUE;
++
++	if (enable_DFS && radar_detected) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DFS, ODM_DBG_LOUD
++			, ("Radar detect: enable_DFS:%d, radar_detected:%d\n"
++				, enable_DFS, radar_detected));
++
++		phydm_radar_detect_reset(pDM_Odm);
++	}
++
++exit:
++	return (enable_DFS && radar_detected);
++}
++#endif /* defined(CONFIG_PHYDM_DFS_MASTER) */
++
++BOOLEAN
++phydm_dfs_master_enabled(
++	IN		PVOID		pDM_VOID
++	)
++{
++#ifdef CONFIG_PHYDM_DFS_MASTER
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	return *pDM_Odm->dfs_master_enabled ? TRUE : FALSE;
++#else
++	return FALSE;
++#endif
++}
++
++VOID
++phydm_dfs_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const argv,
++	IN		u4Byte		*_used,
++	OUT		char		*output,
++	IN		u4Byte		*_out_len
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte used = *_used;
++	u4Byte out_len = *_out_len;
++
++	switch (argv[0]) {
++	case 1:
++		#if defined(CONFIG_PHYDM_DFS_MASTER)
++		/* set dbg parameters for radar detection instead of the default value */
++		if (argv[1] == 1) {
++			pDM_Odm->radar_detect_reg_918 = argv[2];
++			pDM_Odm->radar_detect_reg_91c = argv[3];
++			pDM_Odm->radar_detect_reg_920 = argv[4];
++			pDM_Odm->radar_detect_reg_924 = argv[5];
++			pDM_Odm->radar_detect_dbg_parm_en = 1;
++
++			PHYDM_SNPRINTF((output+used, out_len-used, "Radar detection with dbg parameter\n"));
++			PHYDM_SNPRINTF((output+used, out_len-used, "reg918:0x%08X\n", pDM_Odm->radar_detect_reg_918));
++			PHYDM_SNPRINTF((output+used, out_len-used, "reg91c:0x%08X\n", pDM_Odm->radar_detect_reg_91c));
++			PHYDM_SNPRINTF((output+used, out_len-used, "reg920:0x%08X\n", pDM_Odm->radar_detect_reg_920));
++			PHYDM_SNPRINTF((output+used, out_len-used, "reg924:0x%08X\n", pDM_Odm->radar_detect_reg_924));
++		} else {
++			pDM_Odm->radar_detect_dbg_parm_en = 0;
++			PHYDM_SNPRINTF((output+used, out_len-used, "Radar detection with default parameter\n"));
++		}
++		phydm_radar_detect_enable(pDM_Odm);
++		#endif /* defined(CONFIG_PHYDM_DFS_MASTER) */
++
++		break;
++	default:
++		break;
++	}
++}
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dfs.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dfs.h
+new file mode 100644
+index 0000000..bc55a43
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dfs.h
+@@ -0,0 +1,76 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __PHYDM_DFS_H__
++#define __PHYDM_DFS_H__
++
++#define DFS_VERSION	"0.0"
++
++/* ============================================================
++  Definition 
++ ============================================================
++*/
++
++/*
++============================================================
++1  structure
++ ============================================================
++*/
++
++/* ============================================================
++  enumeration
++ ============================================================
++*/
++
++typedef enum _tag_PhyDM_DFS_REGION_DOMAIN {
++	PHYDM_DFS_DOMAIN_UNKNOWN = 0,
++	PHYDM_DFS_DOMAIN_FCC = 1,
++	PHYDM_DFS_DOMAIN_MKK = 2,
++	PHYDM_DFS_DOMAIN_ETSI = 3,
++} PHYDM_DFS_REGION_DOMAIN;
++
++/* 
++============================================================
++  function prototype
++============================================================
++*/
++#if defined(CONFIG_PHYDM_DFS_MASTER)
++VOID phydm_radar_detect_reset(PVOID pDM_VOID);
++VOID phydm_radar_detect_disable(PVOID pDM_VOID);
++VOID phydm_radar_detect_enable(PVOID pDM_VOID);
++BOOLEAN phydm_radar_detect(PVOID pDM_VOID);
++#endif /* defined(CONFIG_PHYDM_DFS_MASTER) */
++
++BOOLEAN
++phydm_dfs_master_enabled(
++	IN		PVOID		pDM_VOID
++	);
++
++VOID
++phydm_dfs_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const argv,
++	IN		u4Byte		*_used,
++	OUT		char		*output,
++	IN		u4Byte		*_out_len
++	);
++
++#endif /*#ifndef __PHYDM_DFS_H__ */
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dig.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dig.c
+new file mode 100644
+index 0000000..ef4392c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dig.c
+@@ -0,0 +1,2209 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++
++VOID
++ODM_ChangeDynamicInitGainThresh(
++	IN	PVOID		pDM_VOID,
++	IN	u4Byte		DM_Type,
++	IN	u4Byte		DM_Value
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T			pDM_DigTable = &pDM_Odm->DM_DigTable;
++
++	if (DM_Type == DIG_TYPE_THRESH_HIGH)
++	{
++		pDM_DigTable->RssiHighThresh = DM_Value;		
++	}
++	else if (DM_Type == DIG_TYPE_THRESH_LOW)
++	{
++		pDM_DigTable->RssiLowThresh = DM_Value;
++	}
++	else if (DM_Type == DIG_TYPE_ENABLE)
++	{
++		pDM_DigTable->Dig_Enable_Flag	= TRUE;
++	}	
++	else if (DM_Type == DIG_TYPE_DISABLE)
++	{
++		pDM_DigTable->Dig_Enable_Flag = FALSE;
++	}	
++	else if (DM_Type == DIG_TYPE_BACKOFF)
++	{
++		if(DM_Value > 30)
++			DM_Value = 30;
++		pDM_DigTable->BackoffVal = (u1Byte)DM_Value;
++	}
++	else if(DM_Type == DIG_TYPE_RX_GAIN_MIN)
++	{
++		if(DM_Value == 0)
++			DM_Value = 0x1;
++		pDM_DigTable->rx_gain_range_min = (u1Byte)DM_Value;
++	}
++	else if(DM_Type == DIG_TYPE_RX_GAIN_MAX)
++	{
++		if(DM_Value > 0x50)
++			DM_Value = 0x50;
++		pDM_DigTable->rx_gain_range_max = (u1Byte)DM_Value;
++	}
++}	// DM_ChangeDynamicInitGainThresh //
++
++int 
++getIGIForDiff(int value_IGI)
++{
++	#define ONERCCA_LOW_TH		0x30
++	#define ONERCCA_LOW_DIFF		8
++
++	if (value_IGI < ONERCCA_LOW_TH) {
++		if ((ONERCCA_LOW_TH - value_IGI) < ONERCCA_LOW_DIFF)
++			return ONERCCA_LOW_TH;
++		else
++			return value_IGI + ONERCCA_LOW_DIFF;
++	} else {
++		return value_IGI;
++	}
++}
++
++VOID
++odm_FAThresholdCheck(
++	IN		PVOID			pDM_VOID,
++	IN		BOOLEAN			bDFSBand,
++	IN		BOOLEAN			bPerformance,
++	IN		u4Byte			RxTp,
++	IN		u4Byte			TxTp,
++	OUT		u4Byte*			dm_FA_thres
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	if(pDM_Odm->bLinked && (bPerformance||bDFSBand))
++	{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++		/*For AP*/
++		if ((RxTp>>2) > TxTp && RxTp < 10000 && RxTp > 500) {			/*10Mbps & 0.5Mbps*/
++			dm_FA_thres[0] = 0x080;
++			dm_FA_thres[1] = 0x100;
++			dm_FA_thres[2] = 0x200;
++		} else {
++			dm_FA_thres[0] = 0x100;
++			dm_FA_thres[1] = 0x200;
++			dm_FA_thres[2] = 0x300;
++		}
++#else
++		/*For NIC*/
++		dm_FA_thres[0] = DM_DIG_FA_TH0;
++		dm_FA_thres[1] = DM_DIG_FA_TH1;
++		dm_FA_thres[2] = DM_DIG_FA_TH2;
++#endif
++	} else {
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_CE))
++		if(bDFSBand)
++		{
++			// For DFS band and no link
++			dm_FA_thres[0] = 250;
++			dm_FA_thres[1] = 1000;
++			dm_FA_thres[2] = 2000;
++		}
++		else
++#endif
++		{
++			dm_FA_thres[0] = 2000;
++			dm_FA_thres[1] = 4000;
++			dm_FA_thres[2] = 5000;
++		}
++	}
++	return;
++}
++
++u1Byte
++odm_ForbiddenIGICheck(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			DIG_Dynamic_MIN,
++	IN		u1Byte			CurrentIGI
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T						pDM_DigTable = &pDM_Odm->DM_DigTable;
++	PFALSE_ALARM_STATISTICS 	pFalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure( pDM_Odm, PHYDM_FALSEALMCNT);
++	u1Byte						rx_gain_range_min = pDM_DigTable->rx_gain_range_min;
++
++	if (pDM_DigTable->LargeFA_Timeout) {
++		if (--pDM_DigTable->LargeFA_Timeout == 0)
++			pDM_DigTable->LargeFAHit = 0;
++	}
++
++	if (pFalseAlmCnt->Cnt_all > 10000) {
++		
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Abnormally false alarm case.\n"));
++
++		if(pDM_DigTable->LargeFAHit != 3)
++			pDM_DigTable->LargeFAHit++;
++		
++		if(pDM_DigTable->ForbiddenIGI < CurrentIGI)//if(pDM_DigTable->ForbiddenIGI < pDM_DigTable->CurIGValue)
++		{
++			pDM_DigTable->ForbiddenIGI = CurrentIGI;//pDM_DigTable->ForbiddenIGI = pDM_DigTable->CurIGValue;
++			pDM_DigTable->LargeFAHit = 1;
++			pDM_DigTable->LargeFA_Timeout = LARGE_FA_TIMEOUT;
++		}
++
++		if(pDM_DigTable->LargeFAHit >= 3)
++		{
++			if((pDM_DigTable->ForbiddenIGI + 2) > pDM_DigTable->rx_gain_range_max)
++				rx_gain_range_min = pDM_DigTable->rx_gain_range_max;
++			else
++				rx_gain_range_min = (pDM_DigTable->ForbiddenIGI + 2);
++			pDM_DigTable->Recover_cnt = 1800;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Abnormally false alarm case: Recover_cnt = %d\n", pDM_DigTable->Recover_cnt));
++		}
++	}
++
++	else if (pFalseAlmCnt->Cnt_all > 2000) {
++		
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("Abnormally false alarm case.\n"));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("Cnt_all=%d, Cnt_all_pre=%d, CurrentIGI=0x%x, PreIGValue=0x%x\n", 
++			pFalseAlmCnt->Cnt_all, pFalseAlmCnt->Cnt_all_pre, CurrentIGI, pDM_DigTable->PreIGValue));
++
++		/* pFalseAlmCnt->Cnt_all = 1.1875*pFalseAlmCnt->Cnt_all_pre */
++		if ((pFalseAlmCnt->Cnt_all > (pFalseAlmCnt->Cnt_all_pre + (pFalseAlmCnt->Cnt_all_pre >> 3) + (pFalseAlmCnt->Cnt_all_pre >> 4))) && (CurrentIGI < pDM_DigTable->PreIGValue)) {
++			if (pDM_DigTable->LargeFAHit != 3)
++				pDM_DigTable->LargeFAHit++;
++			
++			if (pDM_DigTable->ForbiddenIGI < CurrentIGI)	{	/*if(pDM_DigTable->ForbiddenIGI < pDM_DigTable->CurIGValue)*/
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("Updating ForbiddenIGI by CurrentIGI, ForbiddenIGI=0x%x, CurrentIGI=0x%x\n",
++					pDM_DigTable->ForbiddenIGI, CurrentIGI));
++				
++				pDM_DigTable->ForbiddenIGI = CurrentIGI;	/*pDM_DigTable->ForbiddenIGI = pDM_DigTable->CurIGValue;*/
++				pDM_DigTable->LargeFAHit = 1;
++				pDM_DigTable->LargeFA_Timeout = LARGE_FA_TIMEOUT;
++			}
++			
++		}
++		
++		if (pDM_DigTable->LargeFAHit >= 3) {
++			
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("FaHit is greater than 3, rx_gain_range_max=0x%x, rx_gain_range_min=0x%x, ForbiddenIGI=0x%x\n",
++				pDM_DigTable->rx_gain_range_max, rx_gain_range_min, pDM_DigTable->ForbiddenIGI));
++
++			if ((pDM_DigTable->ForbiddenIGI + 1) > pDM_DigTable->rx_gain_range_max)
++				rx_gain_range_min = pDM_DigTable->rx_gain_range_max;
++			else
++				rx_gain_range_min = (pDM_DigTable->ForbiddenIGI + 1);
++
++			pDM_DigTable->Recover_cnt = 1200;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("Abnormally false alarm case: Recover_cnt = %d,  rx_gain_range_min = 0x%x\n", pDM_DigTable->Recover_cnt, rx_gain_range_min));
++		}
++	}	
++	
++	else
++	{
++		if (pDM_DigTable->Recover_cnt != 0) {
++			
++			pDM_DigTable->Recover_cnt --;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Normal Case: Recover_cnt = %d\n", pDM_DigTable->Recover_cnt));
++		}
++		else
++		{
++			if(pDM_DigTable->LargeFAHit < 3)
++			{
++				if((pDM_DigTable->ForbiddenIGI - 2) < DIG_Dynamic_MIN) //DM_DIG_MIN)
++				{
++					pDM_DigTable->ForbiddenIGI = DIG_Dynamic_MIN; //DM_DIG_MIN;
++					rx_gain_range_min = DIG_Dynamic_MIN; //DM_DIG_MIN;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Normal Case: At Lower Bound\n"));
++				}
++				else
++				{
++					if (pDM_DigTable->LargeFAHit == 0) {
++						pDM_DigTable->ForbiddenIGI -= 2;
++						rx_gain_range_min = (pDM_DigTable->ForbiddenIGI + 2);
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Normal Case: Approach Lower Bound\n"));
++				}
++			}
++			}
++			else
++			{
++				pDM_DigTable->LargeFAHit = 0;
++			}
++		}
++	}
++	
++	return rx_gain_range_min;
++
++}
++
++VOID
++odm_InbandNoiseCalculate (	
++	IN		PVOID		pDM_VOID
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T				pDM_DigTable = &pDM_Odm->DM_DigTable;
++	u1Byte				IGIBackup, TimeCnt = 0, ValidCnt = 0;
++	BOOLEAN				bTimeout = TRUE;
++	s1Byte				sNoise_A, sNoise_B;
++	s4Byte				NoiseRpt_A = 0,NoiseRpt_B = 0;
++	u4Byte				tmp = 0;
++	static	u1Byte		failCnt = 0;
++
++	if(!(pDM_Odm->SupportICType & (ODM_RTL8192E)))
++		return;
++
++	if(pDM_Odm->RFType == ODM_1T1R || *(pDM_Odm->pOnePathCCA) != ODM_CCA_2R)
++		return;
++
++	if(!pDM_DigTable->bNoiseEst)
++		return;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_InbandNoiseEstimate()========>\n"));
++	
++	//1 Set initial gain.
++	IGIBackup = pDM_DigTable->CurIGValue;
++	pDM_DigTable->IGIOffset_A = 0;
++	pDM_DigTable->IGIOffset_B = 0;
++	ODM_Write_DIG(pDM_Odm, 0x24);
++
++	//1 Update idle time power report	
++	if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		ODM_SetBBReg(pDM_Odm, ODM_REG_TX_ANT_CTRL_11N, BIT25, 0x0);
++
++	delay_ms(2);
++
++	//1 Get noise power level
++	while(1)
++	{
++		//2 Read Noise Floor Report
++		if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++			tmp = ODM_GetBBReg(pDM_Odm, 0x8f8, bMaskLWord);
++
++		sNoise_A = (s1Byte)(tmp & 0xff);
++		sNoise_B = (s1Byte)((tmp & 0xff00)>>8);
++
++		//ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("sNoise_A = %d, sNoise_B = %d\n",sNoise_A, sNoise_B));
++
++		if((sNoise_A < 20 && sNoise_A >= -70) && (sNoise_B < 20 && sNoise_B >= -70))
++		{
++			ValidCnt++;
++			NoiseRpt_A += sNoise_A;
++			NoiseRpt_B += sNoise_B;
++			//ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("sNoise_A = %d, sNoise_B = %d\n",sNoise_A, sNoise_B));
++		}
++
++		TimeCnt++;
++		bTimeout = (TimeCnt >= 150)?TRUE:FALSE;
++		
++		if(ValidCnt == 20 || bTimeout)
++			break;
++
++		delay_ms(2);
++		
++	}
++
++	//1 Keep idle time power report	
++	if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		ODM_SetBBReg(pDM_Odm, ODM_REG_TX_ANT_CTRL_11N, BIT25, 0x1);
++
++	//1 Recover IGI
++	ODM_Write_DIG(pDM_Odm, IGIBackup);
++	
++	//1 Calculate Noise Floor
++	if(ValidCnt != 0)
++	{
++		NoiseRpt_A  /= (ValidCnt<<1);
++		NoiseRpt_B  /= (ValidCnt<<1);
++	}
++	
++	if(bTimeout)
++	{
++		NoiseRpt_A = 0;
++		NoiseRpt_B = 0;
++
++		failCnt ++;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("Noise estimate fail time = %d\n", failCnt));
++		
++		if(failCnt == 3)
++		{
++			failCnt = 0;
++			pDM_DigTable->bNoiseEst = FALSE;
++		}
++	}
++	else
++	{
++		NoiseRpt_A = -110 + 0x24 + NoiseRpt_A -6;
++		NoiseRpt_B = -110 + 0x24 + NoiseRpt_B -6;
++		pDM_DigTable->bNoiseEst = FALSE;
++		failCnt = 0;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("NoiseRpt_A = %d, NoiseRpt_B = %d\n", NoiseRpt_A, NoiseRpt_B));
++	}
++
++	//1 Calculate IGI Offset
++	if(NoiseRpt_A > NoiseRpt_B)
++	{
++		pDM_DigTable->IGIOffset_A = NoiseRpt_A - NoiseRpt_B;
++		pDM_DigTable->IGIOffset_B = 0;
++	}
++	else
++	{
++		pDM_DigTable->IGIOffset_A = 0;
++		pDM_DigTable->IGIOffset_B = NoiseRpt_B - NoiseRpt_A;
++	}
++
++#endif
++	return;
++}
++
++VOID
++odm_DigForBtHsMode(
++	IN		PVOID		pDM_VOID
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T					pDM_DigTable=&pDM_Odm->DM_DigTable;
++	u1Byte					digForBtHs=0;
++	u1Byte					digUpBound=0x5a;
++	
++	if (pDM_Odm->bBtConnectProcess) {
++		digForBtHs = 0x22;
++	} else {
++		//
++		// Decide DIG value by BT HS RSSI.
++		//
++		digForBtHs = pDM_Odm->btHsRssi+4;
++		
++		//DIG Bound
++		if(digForBtHs > digUpBound)
++			digForBtHs = digUpBound;
++		if(digForBtHs < 0x1c)
++			digForBtHs = 0x1c;
++
++		// update Current IGI
++		pDM_DigTable->BT30_CurIGI = digForBtHs;
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DigForBtHsMode() : set DigValue=0x%x\n", digForBtHs));
++#endif
++}
++
++VOID
++phydm_setBigJumpStep(
++	IN	PVOID			pDM_VOID,
++	IN	u1Byte			CurrentIGI
++)
++{
++#if (RTL8822B_SUPPORT == 1 || RTL8197F_SUPPORT == 1)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T			pDM_DigTable = &pDM_Odm->DM_DigTable;
++	u1Byte			step1[8] = {24, 30, 40, 50, 60, 70, 80, 90};
++	u1Byte			i;
++
++	if (pDM_DigTable->enableAdjustBigJump == 0)
++		return;
++
++	for (i = 0; i <= pDM_DigTable->bigJumpStep1; i++) {
++		if ((CurrentIGI + step1[i]) > pDM_DigTable->bigJumpLmt[pDM_DigTable->agcTableIdx]) {
++			if (i != 0)
++				i = i - 1;
++			break;
++		} else if (i == pDM_DigTable->bigJumpStep1)
++			break;
++	}
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		ODM_SetBBReg(pDM_Odm, 0x8c8, 0xe, i);
++	else if (pDM_Odm->SupportICType & ODM_RTL8197F)
++		ODM_SetBBReg(pDM_Odm, ODM_REG_BB_AGC_SET_2_11N, 0xe, i);
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("phydm_setBigJumpStep(): bigjump = %d (ori = 0x%d), LMT=0x%x\n", i, pDM_DigTable->bigJumpStep1, pDM_DigTable->bigJumpLmt[pDM_DigTable->agcTableIdx]));
++#endif
++}
++
++VOID
++ODM_Write_DIG(
++	IN	PVOID			pDM_VOID,
++	IN	u1Byte			CurrentIGI
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T			pDM_DigTable = &pDM_Odm->DM_DigTable;
++
++	if (pDM_DigTable->bStopDIG) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("ODM_Write_DIG(): Stop Writing IGI\n"));
++		return;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_TRACE, ("ODM_Write_DIG(): ODM_REG(IGI_A,pDM_Odm)=0x%x, ODM_BIT(IGI,pDM_Odm)=0x%x\n",
++		ODM_REG(IGI_A,pDM_Odm),ODM_BIT(IGI,pDM_Odm)));
++
++	//1 Check initial gain by upper bound		
++	if ((!pDM_DigTable->bPSDInProgress) && pDM_Odm->bLinked)
++	{
++		if (CurrentIGI > pDM_DigTable->rx_gain_range_max) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_TRACE, ("ODM_Write_DIG(): CurrentIGI(0x%02x) is larger than upper bound !!\n", CurrentIGI));
++			CurrentIGI = pDM_DigTable->rx_gain_range_max;
++		}
++		if (pDM_Odm->SupportAbility & ODM_BB_ADAPTIVITY && pDM_Odm->adaptivity_flag == TRUE)
++		{
++			if(CurrentIGI > pDM_Odm->Adaptivity_IGI_upper)
++				CurrentIGI = pDM_Odm->Adaptivity_IGI_upper;
++	
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("ODM_Write_DIG(): Adaptivity case: Force upper bound to 0x%x !!!!!!\n", CurrentIGI));
++		}
++	}
++
++	if(pDM_DigTable->CurIGValue != CurrentIGI)
++	{
++
++#if (RTL8822B_SUPPORT == 1 | RTL8197F_SUPPORT == 1)
++		/* Modify big jump step for 8822B and 8197F */
++		if (pDM_Odm->SupportICType & (ODM_RTL8822B|ODM_RTL8197F))
++			phydm_setBigJumpStep(pDM_Odm, CurrentIGI);
++#endif
++
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++		/* Set IGI value of CCK for new CCK AGC */
++		if (pDM_Odm->cck_new_agc) {
++			if (pDM_Odm->SupportICType & ODM_IC_PHY_STATUE_NEW_TYPE)
++				ODM_SetBBReg(pDM_Odm, 0xa0c, 0x00003f00, (CurrentIGI>>1));
++		}
++#endif
++
++		/*Add by YuChen for USB IO too slow issue*/
++		if ((pDM_Odm->SupportAbility & ODM_BB_ADAPTIVITY) && (CurrentIGI > pDM_DigTable->CurIGValue))
++			Phydm_Adaptivity(pDM_Odm, CurrentIGI);
++
++		//1 Set IGI value
++		if (pDM_Odm->SupportPlatform & (ODM_WIN|ODM_CE)) {
++			ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_A,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++
++			if(pDM_Odm->RFType > ODM_1T1R)
++				ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_B,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++
++#if (RTL8814A_SUPPORT == 1)
++			if (pDM_Odm->SupportICType & ODM_RTL8814A) {
++				ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_C,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++				ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_D,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++			}
++#endif
++		} else if (pDM_Odm->SupportPlatform & (ODM_AP)) {
++			switch(*(pDM_Odm->pOnePathCCA))
++			{
++				case ODM_CCA_2R:
++					ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_A,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++
++					if(pDM_Odm->RFType > ODM_1T1R)
++						ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_B,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++#if (RTL8814A_SUPPORT == 1)					
++					if (pDM_Odm->SupportICType & ODM_RTL8814A) {
++						ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_C,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++						ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_D,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++					}
++#endif
++					break;
++				case ODM_CCA_1R_A:
++					ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_A,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++					if(pDM_Odm->RFType != ODM_1T1R)
++						ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_B,pDM_Odm), ODM_BIT(IGI,pDM_Odm), getIGIForDiff(CurrentIGI));
++					break;
++				case ODM_CCA_1R_B:
++					ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_A,pDM_Odm), ODM_BIT(IGI,pDM_Odm), getIGIForDiff(CurrentIGI));
++					if(pDM_Odm->RFType != ODM_1T1R)
++						ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_B,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++					break;
++			}
++		}
++
++		pDM_DigTable->CurIGValue = CurrentIGI;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_TRACE, ("ODM_Write_DIG(): CurrentIGI(0x%02x).\n", CurrentIGI));
++	
++}
++
++VOID
++odm_PauseDIG(
++	IN		PVOID					pDM_VOID,
++	IN		PHYDM_PAUSE_TYPE		PauseType,
++	IN		PHYDM_PAUSE_LEVEL		pause_level,
++	IN		u1Byte					IGIValue
++)
++{
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T				pDM_DigTable = &pDM_Odm->DM_DigTable;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG()=========> level = %d\n", pause_level));
++
++	if ((pDM_DigTable->pause_dig_level == 0) && (!(pDM_Odm->SupportAbility & ODM_BB_DIG) || !(pDM_Odm->SupportAbility & ODM_BB_FA_CNT))) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, 
++			("odm_PauseDIG(): Return: SupportAbility DIG or FA is disabled !!\n"));
++		return;
++	}
++
++	if (pause_level > DM_DIG_MAX_PAUSE_TYPE) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, 
++			("odm_PauseDIG(): Return: Wrong pause level !!\n"));
++		return;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): pause level = 0x%x, Current value = 0x%x\n", pDM_DigTable->pause_dig_level, IGIValue));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): pause value = 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x\n", 
++		pDM_DigTable->pause_dig_value[7], pDM_DigTable->pause_dig_value[6], pDM_DigTable->pause_dig_value[5], pDM_DigTable->pause_dig_value[4],
++		pDM_DigTable->pause_dig_value[3], pDM_DigTable->pause_dig_value[2], pDM_DigTable->pause_dig_value[1], pDM_DigTable->pause_dig_value[0]));
++	
++	switch (PauseType) {
++	/* Pause DIG */
++	case PHYDM_PAUSE:
++	{
++		/* Disable DIG */
++		ODM_CmnInfoUpdate(pDM_Odm, ODM_CMNINFO_ABILITY, pDM_Odm->SupportAbility & (~ODM_BB_DIG));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): Pause DIG !!\n"));
++		
++		/* Backup IGI value */
++		if (pDM_DigTable->pause_dig_level == 0) {
++			pDM_DigTable->IGIBackup = pDM_DigTable->CurIGValue;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): Backup IGI  = 0x%x, new IGI = 0x%x\n", pDM_DigTable->IGIBackup, IGIValue));
++		}
++
++		/* Record IGI value */
++		pDM_DigTable->pause_dig_value[pause_level] = IGIValue;
++
++		/* Update pause level */
++		pDM_DigTable->pause_dig_level = (pDM_DigTable->pause_dig_level | BIT(pause_level));
++
++		/* Write new IGI value */
++		if (BIT(pause_level + 1) > pDM_DigTable->pause_dig_level) {
++			ODM_Write_DIG(pDM_Odm, IGIValue);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): IGI of higher level = 0x%x\n",  IGIValue));
++		}
++		break;
++	}
++	/* Resume DIG */
++	case PHYDM_RESUME:
++	{
++		/* check if the level is illegal or not */
++		if ((pDM_DigTable->pause_dig_level & (BIT(pause_level))) != 0) {
++			pDM_DigTable->pause_dig_level = pDM_DigTable->pause_dig_level & (~(BIT(pause_level)));
++			pDM_DigTable->pause_dig_value[pause_level] = 0;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): Resume DIG !!\n"));
++		} else {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): Wrong resume level !!\n"));
++			break;
++		}
++
++		/* Resume DIG */
++		if (pDM_DigTable->pause_dig_level == 0) {
++			/* Write backup IGI value */
++			ODM_Write_DIG(pDM_Odm, pDM_DigTable->IGIBackup);
++			pDM_DigTable->bIgnoreDIG = TRUE;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): Write original IGI = 0x%x\n", pDM_DigTable->IGIBackup));
++
++			/* Enable DIG */
++			ODM_CmnInfoUpdate(pDM_Odm, ODM_CMNINFO_ABILITY, pDM_Odm->SupportAbility | ODM_BB_DIG);	
++			break;
++		}
++
++		if (BIT(pause_level) > pDM_DigTable->pause_dig_level) {
++			s1Byte		max_level;
++		
++			/* Calculate the maximum level now */
++			for (max_level = (pause_level - 1); max_level >= 0; max_level--) {
++				if ((pDM_DigTable->pause_dig_level & BIT(max_level)) > 0)
++					break;
++			}
++		
++			/* write IGI of lower level */
++			ODM_Write_DIG(pDM_Odm, pDM_DigTable->pause_dig_value[max_level]);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): Write IGI (0x%x) of level (%d)\n",  
++				 pDM_DigTable->pause_dig_value[max_level], max_level));
++			break;
++		}
++		break;
++	}
++	default:
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): Wrong  type !!\n"));
++		break;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): pause level = 0x%x, Current value = 0x%x\n", pDM_DigTable->pause_dig_level, IGIValue));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): pause value = 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x\n", 
++		pDM_DigTable->pause_dig_value[7], pDM_DigTable->pause_dig_value[6], pDM_DigTable->pause_dig_value[5], pDM_DigTable->pause_dig_value[4],
++		pDM_DigTable->pause_dig_value[3], pDM_DigTable->pause_dig_value[2], pDM_DigTable->pause_dig_value[1], pDM_DigTable->pause_dig_value[0]));
++
++}
++
++BOOLEAN 
++odm_DigAbort(
++	IN		PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T			pDM_DigTable = &pDM_Odm->DM_DigTable;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	prtl8192cd_priv	priv = pDM_Odm->priv;
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		pAdapter	= pDM_Odm->Adapter; 
++#endif
++
++	//SupportAbility
++	if(!(pDM_Odm->SupportAbility & ODM_BB_FA_CNT))
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Return: SupportAbility ODM_BB_FA_CNT is disabled\n"));
++		return	TRUE;
++	}
++
++	//SupportAbility
++	if(!(pDM_Odm->SupportAbility & ODM_BB_DIG))
++	{	
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Return: SupportAbility ODM_BB_DIG is disabled\n"));
++		return	TRUE;
++	}
++
++	//ScanInProcess
++	if(*(pDM_Odm->pbScanInProcess))
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Return: In Scan Progress \n"));
++	    	return	TRUE;
++	}
++
++	if(pDM_DigTable->bIgnoreDIG)
++	{
++		pDM_DigTable->bIgnoreDIG = FALSE;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Return: Ignore DIG \n"));
++	    	return	TRUE;
++	}
++
++	//add by Neil Chen to avoid PSD is processing
++	if(pDM_Odm->bDMInitialGainEnable == FALSE)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Return: PSD is Processing \n"));
++		return	TRUE;
++	}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#if OS_WIN_FROM_WIN7(OS_VERSION)
++	if(IsAPModeExist( pAdapter) && pAdapter->bInHctTest)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Return: Is AP mode or In HCT Test \n"));
++	    	return	TRUE;
++	}
++	#endif
++
++	if(pDM_Odm->bBtHsOperation)
++	{
++		odm_DigForBtHsMode(pDM_Odm);
++	}	
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#ifdef CONFIG_SPECIAL_SETTING_FOR_FUNAI_TV	
++	if((pDM_Odm->bLinked) && (pDM_Odm->Adapter->registrypriv.force_igi !=0))
++	{	
++		printk("pDM_Odm->RSSI_Min=%d \n",pDM_Odm->RSSI_Min);
++		ODM_Write_DIG(pDM_Odm,pDM_Odm->Adapter->registrypriv.force_igi);
++		return	TRUE;
++	}
++	#endif
++#else
++	if (!(priv->up_time > 5))
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Return: Not In DIG Operation Period \n"));
++		return	TRUE;
++	}
++#endif
++
++	return	FALSE;
++}
++
++VOID
++odm_DIGInit(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T						pDM_DigTable = &pDM_Odm->DM_DigTable;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	PFALSE_ALARM_STATISTICS 	FalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure( pDM_Odm, PHYDM_FALSEALMCNT);
++#endif
++	u4Byte						ret_value;
++	u1Byte						i;
++
++	pDM_DigTable->bStopDIG = FALSE;
++	pDM_DigTable->bIgnoreDIG = FALSE;
++	pDM_DigTable->bPSDInProgress = FALSE;
++	pDM_DigTable->CurIGValue = (u1Byte) ODM_GetBBReg(pDM_Odm, ODM_REG(IGI_A,pDM_Odm), ODM_BIT(IGI,pDM_Odm));
++	pDM_DigTable->PreIGValue = 0;
++	pDM_DigTable->RssiLowThresh 	= DM_DIG_THRESH_LOW;
++	pDM_DigTable->RssiHighThresh 	= DM_DIG_THRESH_HIGH;
++	pDM_DigTable->FALowThresh	= DM_FALSEALARM_THRESH_LOW;
++	pDM_DigTable->FAHighThresh	= DM_FALSEALARM_THRESH_HIGH;
++	pDM_DigTable->BackoffVal = DM_DIG_BACKOFF_DEFAULT;
++	pDM_DigTable->BackoffVal_range_max = DM_DIG_BACKOFF_MAX;
++	pDM_DigTable->BackoffVal_range_min = DM_DIG_BACKOFF_MIN;
++	pDM_DigTable->PreCCK_CCAThres = 0xFF;
++	pDM_DigTable->CurCCK_CCAThres = 0x83;
++	pDM_DigTable->ForbiddenIGI = DM_DIG_MIN_NIC;
++	pDM_DigTable->LargeFAHit = 0;
++	pDM_DigTable->LargeFA_Timeout = 0;
++	pDM_DigTable->Recover_cnt = 0;
++	pDM_DigTable->bMediaConnect_0 = FALSE;
++	pDM_DigTable->bMediaConnect_1 = FALSE;
++
++	//To Initialize pDM_Odm->bDMInitialGainEnable == FALSE to avoid DIG error
++	pDM_Odm->bDMInitialGainEnable = TRUE;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	pDM_DigTable->DIG_Dynamic_MIN_0 = 0x25;
++	pDM_DigTable->DIG_Dynamic_MIN_1 = 0x25;
++
++	// For AP\ ADSL modified DIG
++	pDM_DigTable->bTpTarget = FALSE;
++	pDM_DigTable->bNoiseEst = TRUE;
++	pDM_DigTable->IGIOffset_A = 0;
++	pDM_DigTable->IGIOffset_B = 0;
++	pDM_DigTable->TpTrainTH_min = 0;
++
++	// For RTL8881A
++	FalseAlmCnt->Cnt_Ofdm_fail_pre = 0;
++
++	//Dyanmic EDCCA
++	if(pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++	{
++		ODM_SetBBReg(pDM_Odm, 0xC50, 0xFFFF0000, 0xfafd);
++	}
++#else
++	pDM_DigTable->DIG_Dynamic_MIN_0 = DM_DIG_MIN_NIC;
++	pDM_DigTable->DIG_Dynamic_MIN_1 = DM_DIG_MIN_NIC;
++
++	//To Initi BT30 IGI
++	pDM_DigTable->BT30_CurIGI=0x32;
++
++	ODM_Memory_Set(pDM_Odm, pDM_DigTable->pause_dig_value, 0, (DM_DIG_MAX_PAUSE_TYPE + 1));
++	pDM_DigTable->pause_dig_level = 0;
++	ODM_Memory_Set(pDM_Odm, pDM_DigTable->pause_cckpd_value, 0, (DM_DIG_MAX_PAUSE_TYPE + 1));
++	pDM_DigTable->pause_cckpd_level = 0;
++#endif
++
++	if(pDM_Odm->BoardType & (ODM_BOARD_EXT_PA|ODM_BOARD_EXT_LNA))
++	{
++		pDM_DigTable->rx_gain_range_max = DM_DIG_MAX_NIC;
++		pDM_DigTable->rx_gain_range_min = DM_DIG_MIN_NIC;
++	}
++	else
++	{
++		pDM_DigTable->rx_gain_range_max = DM_DIG_MAX_NIC;
++		pDM_DigTable->rx_gain_range_min = DM_DIG_MIN_NIC;
++	}
++
++#if (RTL8822B_SUPPORT == 1 || RTL8197F_SUPPORT == 1)
++	pDM_DigTable->enableAdjustBigJump = 1;
++	if (pDM_Odm->SupportICType & ODM_RTL8822B) {
++		ret_value = ODM_GetBBReg(pDM_Odm, 0x8c8, bMaskLWord);
++		pDM_DigTable->bigJumpStep1 = (u1Byte)(ret_value & 0xe) >> 1;
++		pDM_DigTable->bigJumpStep2 = (u1Byte)(ret_value & 0x30)>>4;
++		pDM_DigTable->bigJumpStep3 = (u1Byte)(ret_value & 0xc0)>>6;
++
++	} else if (pDM_Odm->SupportICType & ODM_RTL8197F) {
++		ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_BB_AGC_SET_2_11N, bMaskLWord);
++		pDM_DigTable->bigJumpStep1 = (u1Byte)(ret_value & 0xe) >> 1;
++		pDM_DigTable->bigJumpStep2 = (u1Byte)(ret_value & 0x30)>>4;
++		pDM_DigTable->bigJumpStep3 = (u1Byte)(ret_value & 0xc0)>>6;
++	}
++	if (pDM_Odm->SupportICType & (ODM_RTL8822B|ODM_RTL8197F)) {
++		for (i = 0; i < sizeof(pDM_DigTable->bigJumpLmt); i++) {
++			if (pDM_DigTable->bigJumpLmt[i] == 0)
++				pDM_DigTable->bigJumpLmt[i] = 0x64;		/* Set -10dBm as default value */
++		}
++	}
++#endif
++}
++
++
++VOID 
++odm_DIG(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER					pAdapter	= pDM_Odm->Adapter;
++	HAL_DATA_TYPE				*pHalData = GET_HAL_DATA(pDM_Odm->Adapter);
++#elif (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	prtl8192cd_priv				priv = pDM_Odm->priv;
++	PSTA_INFO_T   				pEntry;
++#endif
++
++	// Common parameters
++	pDIG_T						pDM_DigTable = &pDM_Odm->DM_DigTable;
++	PFALSE_ALARM_STATISTICS		pFalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure( pDM_Odm, PHYDM_FALSEALMCNT);
++	BOOLEAN						FirstConnect,FirstDisConnect;
++	u1Byte						DIG_MaxOfMin, DIG_Dynamic_MIN;
++	u1Byte						dm_dig_max, dm_dig_min;
++	u1Byte						CurrentIGI = pDM_DigTable->CurIGValue;
++	u1Byte						offset;
++	u4Byte						dm_FA_thres[3];
++	u4Byte						TxTp = 0, RxTp = 0;
++	BOOLEAN						DIG_GoUpCheck = TRUE;
++	BOOLEAN						bDFSBand = FALSE;
++	BOOLEAN						bPerformance = TRUE, bFirstTpTarget = FALSE, bFirstCoverage = FALSE;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	u4Byte						TpTrainTH_MIN = DM_DIG_TP_Target_TH0;
++	static		u1Byte			TimeCnt = 0;
++	u1Byte						i;
++#endif
++
++	if(odm_DigAbort(pDM_Odm) == TRUE)
++		return;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG()===========================>\n\n"));
++	
++
++	//1 Update status
++	{
++		DIG_Dynamic_MIN = pDM_DigTable->DIG_Dynamic_MIN_0;
++		FirstConnect = (pDM_Odm->bLinked) && (pDM_DigTable->bMediaConnect_0 == FALSE);
++		FirstDisConnect = (!pDM_Odm->bLinked) && (pDM_DigTable->bMediaConnect_0 == TRUE);
++	}
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	//1 Noise Floor Estimate
++	//pDM_DigTable->bNoiseEst = (FirstConnect)?TRUE:pDM_DigTable->bNoiseEst;
++	//odm_InbandNoiseCalculate (pDM_Odm);
++	
++	//1 Mode decision
++	if(pDM_Odm->bLinked)
++	{
++		//2 Calculate total TP
++		for (i=0; i<ODM_ASSOCIATE_ENTRY_NUM; i++)
++		{
++			pEntry = pDM_Odm->pODM_StaInfo[i];
++			if(IS_STA_VALID(pEntry))
++			{
++				RxTp += (u4Byte)(pEntry->rx_byte_cnt_LowMAW>>7);
++				TxTp += (u4Byte)(pEntry->tx_byte_cnt_LowMAW>>7);			//Kbps
++			}
++		}
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): TX TP = %dkbps, RX TP = %dkbps\n", TxTp, RxTp));
++	}
++
++	switch(pDM_Odm->priv->pshare->rf_ft_var.dig_cov_enable)
++	{
++		case 0:
++		{
++			bPerformance = TRUE;
++			break;
++		}
++		case 1:
++		{
++			bPerformance = FALSE;
++			break;
++		}
++		case 2:
++		{
++			if(pDM_Odm->bLinked)
++			{
++				if(pDM_DigTable->TpTrainTH_min > DM_DIG_TP_Target_TH0)
++					TpTrainTH_MIN = pDM_DigTable->TpTrainTH_min;
++
++				if(pDM_DigTable->TpTrainTH_min > DM_DIG_TP_Target_TH1)
++					TpTrainTH_MIN = DM_DIG_TP_Target_TH1;
++
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): TP training mode lower bound = %dkbps\n", TpTrainTH_MIN));
++
++				//2 Decide DIG mode by total TP
++				if((TxTp + RxTp) > DM_DIG_TP_Target_TH1)			// change to performance mode
++				{
++					bFirstTpTarget = (!pDM_DigTable->bTpTarget)?TRUE:FALSE;
++					pDM_DigTable->bTpTarget = TRUE;
++					bPerformance = TRUE;
++				}
++				else if((TxTp + RxTp) < TpTrainTH_MIN)	// change to coverage mode
++				{
++					bFirstCoverage = (pDM_DigTable->bTpTarget)?TRUE:FALSE;
++					
++					if(TimeCnt < DM_DIG_TP_Training_Period)
++					{
++						pDM_DigTable->bTpTarget = FALSE;
++						bPerformance = FALSE;
++						TimeCnt++;
++					}
++					else
++					{
++						pDM_DigTable->bTpTarget = TRUE;
++						bPerformance = TRUE;
++						bFirstTpTarget = TRUE;
++						TimeCnt = 0;
++					}
++				}
++				else										// remain previous mode
++				{
++					bPerformance = pDM_DigTable->bTpTarget;
++
++					if(!bPerformance)
++					{
++						if(TimeCnt < DM_DIG_TP_Training_Period)
++							TimeCnt++;
++						else
++						{
++							pDM_DigTable->bTpTarget = TRUE;
++							bPerformance = TRUE;
++							bFirstTpTarget = TRUE;
++							TimeCnt = 0;
++						}
++					}
++				}
++
++				if(!bPerformance)
++					pDM_DigTable->TpTrainTH_min = RxTp + TxTp;
++
++			}
++			else
++			{
++				bPerformance = FALSE;
++				pDM_DigTable->TpTrainTH_min = 0;
++			}
++			break;
++		}
++		default:
++			bPerformance = TRUE;
++	}
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("====== DIG mode = %d  ======\n", pDM_Odm->priv->pshare->rf_ft_var.dig_cov_enable));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("====== bPerformance = %d ======\n", bPerformance));
++#endif
++
++	//1 Boundary Decision
++	{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++		//2 For AP\ADSL
++		if(!bPerformance)
++		{
++			dm_dig_max = DM_DIG_MAX_AP_COVERAGR;
++			dm_dig_min = DM_DIG_MIN_AP_COVERAGE;
++			DIG_MaxOfMin = DM_DIG_MAX_OF_MIN_COVERAGE;
++		}
++		else
++		{
++			if (pDM_Odm->RFType == ODM_1T1R)
++				dm_dig_max = DM_DIG_MAX_AP - 6;
++			else
++				dm_dig_max = DM_DIG_MAX_AP;
++			dm_dig_min = DM_DIG_MIN_AP;
++			DIG_MaxOfMin = DM_DIG_MAX_OF_MIN;
++		}
++		
++		//4 TX2path
++		if (priv->pmib->dot11RFEntry.tx2path && !bDFSBand && (*(pDM_Odm->pWirelessMode) == ODM_WM_B))
++				dm_dig_max = 0x2A;
++
++#if RTL8192E_SUPPORT
++#ifdef HIGH_POWER_EXT_LNA
++		if ((pDM_Odm->SupportICType & (ODM_RTL8192E)) && (pDM_Odm->ExtLNA))
++			dm_dig_max = 0x42;						
++#endif
++#endif
++		if (pDM_Odm->IGI_LowerBound) {
++			if (dm_dig_min < pDM_Odm->IGI_LowerBound)
++				dm_dig_min = pDM_Odm->IGI_LowerBound;
++			if (DIG_MaxOfMin < pDM_Odm->IGI_LowerBound)
++				DIG_MaxOfMin = pDM_Odm->IGI_LowerBound;			
++		}
++		if (pDM_Odm->IGI_UpperBound) {
++			if (dm_dig_max > pDM_Odm->IGI_UpperBound)
++				dm_dig_max = pDM_Odm->IGI_UpperBound;	
++			if (DIG_MaxOfMin > pDM_Odm->IGI_UpperBound)
++				DIG_MaxOfMin = pDM_Odm->IGI_UpperBound;
++		}
++#else
++		//2 For WIN\CE
++		if(pDM_Odm->SupportICType >= ODM_RTL8188E)
++			dm_dig_max = 0x5A;
++		else
++			dm_dig_max = DM_DIG_MAX_NIC;
++		
++		if(pDM_Odm->SupportICType != ODM_RTL8821)
++			dm_dig_min = DM_DIG_MIN_NIC;
++		else
++			dm_dig_min = 0x1C;
++
++		DIG_MaxOfMin = DM_DIG_MAX_AP;
++#endif
++
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_CE))
++		/* Modify lower bound for DFS band */
++		if ((((*pDM_Odm->pChannel >= 52) && (*pDM_Odm->pChannel <= 64)) ||
++			((*pDM_Odm->pChannel >= 100) && (*pDM_Odm->pChannel <= 140)))
++			#if (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++			&& phydm_dfs_master_enabled(pDM_Odm) == TRUE
++			#endif
++		) {
++			bDFSBand = TRUE;
++			if (*pDM_Odm->pBandWidth == ODM_BW20M)
++				dm_dig_min = DM_DIG_MIN_AP_DFS+2;
++			else
++				dm_dig_min = DM_DIG_MIN_AP_DFS;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): ====== In DFS band ======\n"));
++		}
++#endif
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Absolutly upper bound = 0x%x, lower bound = 0x%x\n",dm_dig_max, dm_dig_min));
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	if (pDM_Odm->pu1ForcedIgiLb && (0 < *pDM_Odm->pu1ForcedIgiLb)) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Force IGI lb to: 0x%02x !!!!!!\n", *pDM_Odm->pu1ForcedIgiLb));
++		dm_dig_min = *pDM_Odm->pu1ForcedIgiLb;
++		dm_dig_max = (dm_dig_min <= dm_dig_max) ? (dm_dig_max) : (dm_dig_min + 1);
++	}
++#endif
++
++	//1 Adjust boundary by RSSI
++	if(pDM_Odm->bLinked && bPerformance)
++	{
++		//2 Modify DIG upper bound
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++		offset = 15;
++#else
++		//4 Modify DIG upper bound for 92E, 8723A\B, 8821 & 8812 BT
++		if ((pDM_Odm->SupportICType & (ODM_RTL8192E|ODM_RTL8723B|ODM_RTL8812|ODM_RTL8821)) && (pDM_Odm->bBtLimitedDig == 1))
++		{
++			offset = 10;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Coex. case: Force upper bound to RSSI + %d !!!!!!\n", offset));		
++		}
++		else
++			offset = 15;
++#endif
++
++		if((pDM_Odm->RSSI_Min + offset) > dm_dig_max )
++			pDM_DigTable->rx_gain_range_max = dm_dig_max;
++		else if((pDM_Odm->RSSI_Min + offset) < dm_dig_min )
++			pDM_DigTable->rx_gain_range_max = dm_dig_min;
++		else
++			pDM_DigTable->rx_gain_range_max = pDM_Odm->RSSI_Min + offset;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++		//2 Modify DIG lower bound
++		//if(pDM_Odm->bOneEntryOnly)
++		{
++			if(pDM_Odm->RSSI_Min < dm_dig_min)
++				DIG_Dynamic_MIN = dm_dig_min;
++			else if (pDM_Odm->RSSI_Min > DIG_MaxOfMin)
++				DIG_Dynamic_MIN = DIG_MaxOfMin;
++			else
++				DIG_Dynamic_MIN = pDM_Odm->RSSI_Min;
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_CE)
++			if (bDFSBand) {
++				DIG_Dynamic_MIN = dm_dig_min;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): DFS band: Force lower bound to 0x%x after link !!!!!!\n", dm_dig_min));
++			}
++#endif
++		}
++#else
++		{
++			//4 For AP
++#ifdef __ECOS
++			HAL_REORDER_BARRIER();
++#else
++			rmb();
++#endif
++			if (bDFSBand)
++			{
++				DIG_Dynamic_MIN = dm_dig_min;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): DFS band: Force lower bound to 0x%x after link !!!!!!\n", dm_dig_min));
++			}
++			else 
++			{
++				if(pDM_Odm->RSSI_Min < dm_dig_min)
++					DIG_Dynamic_MIN = dm_dig_min;
++				else if (pDM_Odm->RSSI_Min > DIG_MaxOfMin)
++					DIG_Dynamic_MIN = DIG_MaxOfMin;
++				else
++					DIG_Dynamic_MIN = pDM_Odm->RSSI_Min;
++			}
++		}
++#endif
++	}
++	else
++	{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_CE))
++		if(bPerformance && bDFSBand)
++		{
++			pDM_DigTable->rx_gain_range_max = 0x28;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): DFS band: Force upper bound to 0x%x before link !!!!!!\n", pDM_DigTable->rx_gain_range_max));
++		}
++		else
++#endif
++		{
++			if (bPerformance)
++				pDM_DigTable->rx_gain_range_max = DM_DIG_MAX_OF_MIN;
++			else
++				pDM_DigTable->rx_gain_range_max = dm_dig_max;
++		}
++		DIG_Dynamic_MIN = dm_dig_min;
++	}
++	
++	//1 Force Lower Bound for AntDiv
++	if(pDM_Odm->bLinked && !pDM_Odm->bOneEntryOnly)
++	{
++		if((pDM_Odm->SupportICType & ODM_ANTDIV_SUPPORT) && (pDM_Odm->SupportAbility & ODM_BB_ANT_DIV))
++		{
++			if (pDM_Odm->AntDivType == CG_TRX_HW_ANTDIV || pDM_Odm->AntDivType == CG_TRX_SMART_ANTDIV) {
++				if (pDM_DigTable->AntDiv_RSSI_max > DIG_MaxOfMin)
++					DIG_Dynamic_MIN = DIG_MaxOfMin;
++				else
++					DIG_Dynamic_MIN = (u1Byte) pDM_DigTable->AntDiv_RSSI_max;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Antenna diversity case: Force lower bound to 0x%x !!!!!!\n", DIG_Dynamic_MIN));
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Antenna diversity case: RSSI_max = 0x%x !!!!!!\n", pDM_DigTable->AntDiv_RSSI_max));
++			}
++		}
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Adjust boundary by RSSI Upper bound = 0x%x, Lower bound = 0x%x\n",
++		pDM_DigTable->rx_gain_range_max, DIG_Dynamic_MIN));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Link status: bLinked = %d, RSSI = %d, bFirstConnect = %d, bFirsrDisConnect = %d\n\n",
++		pDM_Odm->bLinked, pDM_Odm->RSSI_Min, FirstConnect, FirstDisConnect));
++
++	//1 Modify DIG lower bound, deal with abnormal case
++	//2 Abnormal false alarm case
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_CE))
++	if(bDFSBand)
++	{
++		pDM_DigTable->rx_gain_range_min = DIG_Dynamic_MIN;
++	}
++	else
++#endif
++	{
++		if(!pDM_Odm->bLinked)
++		{
++			pDM_DigTable->rx_gain_range_min = DIG_Dynamic_MIN;
++
++			if (FirstDisConnect)
++				pDM_DigTable->ForbiddenIGI = DIG_Dynamic_MIN;
++		}
++		else
++			pDM_DigTable->rx_gain_range_min = odm_ForbiddenIGICheck(pDM_Odm, DIG_Dynamic_MIN, CurrentIGI);
++	}
++
++	//2 Abnormal # beacon case
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	if(pDM_Odm->bLinked && !FirstConnect)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("Beacon Num (%d)\n", pDM_Odm->PhyDbgInfo.NumQryBeaconPkt));
++		if((pDM_Odm->PhyDbgInfo.NumQryBeaconPkt < 5) && (pDM_Odm->bsta_state))
++		{
++			pDM_DigTable->rx_gain_range_min = 0x1c;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Abnrormal #beacon (%d) case in STA mode: Force lower bound to 0x%x !!!!!!\n\n",
++				pDM_Odm->PhyDbgInfo.NumQryBeaconPkt, pDM_DigTable->rx_gain_range_min));
++		}
++	}
++#endif
++
++	//2 Abnormal lower bound case
++	if(pDM_DigTable->rx_gain_range_min > pDM_DigTable->rx_gain_range_max)
++	{
++		pDM_DigTable->rx_gain_range_min = pDM_DigTable->rx_gain_range_max;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Abnrormal lower bound case: Force lower bound to 0x%x !!!!!!\n\n",pDM_DigTable->rx_gain_range_min));
++	}
++
++	
++	//1 False alarm threshold decision
++	odm_FAThresholdCheck(pDM_Odm, bDFSBand, bPerformance, RxTp, TxTp, dm_FA_thres);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): False alarm threshold = %d, %d, %d \n\n", dm_FA_thres[0], dm_FA_thres[1], dm_FA_thres[2]));
++
++	//1 Adjust initial gain by false alarm
++	if(pDM_Odm->bLinked && bPerformance)
++	{
++		//2 After link
++		ODM_RT_TRACE(pDM_Odm,	ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Adjust IGI after link\n"));
++
++		if(bFirstTpTarget || (FirstConnect && bPerformance))
++		{	
++			pDM_DigTable->LargeFAHit = 0;
++			
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_CE))
++			if(bDFSBand)
++			{
++				if(pDM_Odm->RSSI_Min > 0x28)
++					CurrentIGI = 0x28;
++				else
++					CurrentIGI = pDM_Odm->RSSI_Min;
++				ODM_RT_TRACE(pDM_Odm,	ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): DFS band: One-shot to 0x28 upmost!!!!!!\n"));
++			}
++			else
++#endif
++			{
++				if(pDM_Odm->RSSI_Min < DIG_MaxOfMin)
++				{
++					if(CurrentIGI < pDM_Odm->RSSI_Min)
++						CurrentIGI = pDM_Odm->RSSI_Min;
++				}
++				else
++				{
++					if(CurrentIGI < DIG_MaxOfMin)
++						CurrentIGI = DIG_MaxOfMin;
++				}
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++#if (RTL8812A_SUPPORT==1) 
++				if(pDM_Odm->SupportICType == ODM_RTL8812)
++					ODM_ConfigBBWithHeaderFile(pDM_Odm, CONFIG_BB_AGC_TAB_DIFF);
++#endif
++#endif
++			}
++
++			ODM_RT_TRACE(pDM_Odm,	ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): First connect case: IGI does on-shot to 0x%x\n", CurrentIGI));
++
++		}
++		else
++		{
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++
++			if (priv->pshare->rf_ft_var.dig_upcheck_enable)
++				DIG_GoUpCheck = phydm_DIG_GoUpCheck(pDM_Odm);			
++#endif
++
++			if((pFalseAlmCnt->Cnt_all > dm_FA_thres[2]) && DIG_GoUpCheck)
++				CurrentIGI = CurrentIGI + 4;
++			else if ((pFalseAlmCnt->Cnt_all > dm_FA_thres[1]) && DIG_GoUpCheck)
++				CurrentIGI = CurrentIGI + 2;
++			else if(pFalseAlmCnt->Cnt_all < dm_FA_thres[0])
++				CurrentIGI = CurrentIGI - 2;
++
++			//4 Abnormal # beacon case
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++			if((pDM_Odm->PhyDbgInfo.NumQryBeaconPkt < 5) && (pFalseAlmCnt->Cnt_all < DM_DIG_FA_TH1) && (pDM_Odm->bsta_state))
++			{						
++				CurrentIGI = pDM_DigTable->rx_gain_range_min;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Abnormal #beacon (%d) case: IGI does one-shot to 0x%x\n", 
++					pDM_Odm->PhyDbgInfo.NumQryBeaconPkt, CurrentIGI));
++			}
++#endif
++		}
++	}	
++	else
++	{
++		//2 Before link
++		ODM_RT_TRACE(pDM_Odm,	ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Adjust IGI before link\n"));
++		
++		if(FirstDisConnect || bFirstCoverage)
++		{
++			CurrentIGI = dm_dig_min;
++			ODM_RT_TRACE(pDM_Odm,	ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): First disconnect case: IGI does on-shot to lower bound\n"));
++		}
++		else
++		{
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++			if (priv->pshare->rf_ft_var.dig_upcheck_enable)
++				DIG_GoUpCheck = phydm_DIG_GoUpCheck(pDM_Odm);			
++#endif
++		
++			if((pFalseAlmCnt->Cnt_all > dm_FA_thres[2]) && DIG_GoUpCheck)
++				CurrentIGI = CurrentIGI + 4;
++			else if ((pFalseAlmCnt->Cnt_all > dm_FA_thres[1]) && DIG_GoUpCheck)
++				CurrentIGI = CurrentIGI + 2;
++			else if(pFalseAlmCnt->Cnt_all < dm_FA_thres[0])
++				CurrentIGI = CurrentIGI - 2;
++		}
++	}
++
++	//1 Check initial gain by upper/lower bound
++	if(CurrentIGI < pDM_DigTable->rx_gain_range_min)
++		CurrentIGI = pDM_DigTable->rx_gain_range_min;
++	
++	if(CurrentIGI > pDM_DigTable->rx_gain_range_max)
++		CurrentIGI = pDM_DigTable->rx_gain_range_max;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): CurIGValue=0x%x, TotalFA = %d\n\n", CurrentIGI, pFalseAlmCnt->Cnt_all));	
++
++	//1 Update status
++	{
++#if ((DM_ODM_SUPPORT_TYPE & ODM_WIN) || ((DM_ODM_SUPPORT_TYPE & ODM_CE) && (ODM_CONFIG_BT_COEXIST == 1)))
++		if(pDM_Odm->bBtHsOperation)
++		{
++			if(pDM_Odm->bLinked)
++			{
++				if(pDM_DigTable->BT30_CurIGI > (CurrentIGI))
++					ODM_Write_DIG(pDM_Odm, CurrentIGI);
++				else
++					ODM_Write_DIG(pDM_Odm, pDM_DigTable->BT30_CurIGI);
++					
++				pDM_DigTable->bMediaConnect_0 = pDM_Odm->bLinked;
++				pDM_DigTable->DIG_Dynamic_MIN_0 = DIG_Dynamic_MIN;
++			}
++			else
++			{
++				if(pDM_Odm->bLinkInProcess)
++					ODM_Write_DIG(pDM_Odm, 0x1c);
++				else if(pDM_Odm->bBtConnectProcess)
++					ODM_Write_DIG(pDM_Odm, 0x28);
++				else
++					ODM_Write_DIG(pDM_Odm, pDM_DigTable->BT30_CurIGI);//ODM_Write_DIG(pDM_Odm, pDM_DigTable->CurIGValue);	
++			}
++		}
++		else		// BT is not using
++#endif
++		{
++			ODM_Write_DIG(pDM_Odm, CurrentIGI);//ODM_Write_DIG(pDM_Odm, pDM_DigTable->CurIGValue);
++			pDM_DigTable->bMediaConnect_0 = pDM_Odm->bLinked;
++			pDM_DigTable->DIG_Dynamic_MIN_0 = DIG_Dynamic_MIN;
++		}
++	}
++}
++
++VOID
++odm_DIGbyRSSI_LPS(
++	IN		PVOID		pDM_VOID
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PFALSE_ALARM_STATISTICS		pFalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure( pDM_Odm, PHYDM_FALSEALMCNT);
++
++	u1Byte	RSSI_Lower=DM_DIG_MIN_NIC;   //0x1E or 0x1C
++	u1Byte	CurrentIGI=pDM_Odm->RSSI_Min;
++
++	if(odm_DigAbort(pDM_Odm) == TRUE)
++		return;
++
++	CurrentIGI=CurrentIGI+RSSI_OFFSET_DIG;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIGbyRSSI_LPS()==>\n"));
++
++	// Using FW PS mode to make IGI
++	//Adjust by  FA in LPS MODE
++	if(pFalseAlmCnt->Cnt_all> DM_DIG_FA_TH2_LPS)
++		CurrentIGI = CurrentIGI+4;
++	else if (pFalseAlmCnt->Cnt_all > DM_DIG_FA_TH1_LPS)
++		CurrentIGI = CurrentIGI+2;
++	else if(pFalseAlmCnt->Cnt_all < DM_DIG_FA_TH0_LPS)
++		CurrentIGI = CurrentIGI-2;	
++
++
++	//Lower bound checking
++
++	//RSSI Lower bound check
++	if((pDM_Odm->RSSI_Min-10) > DM_DIG_MIN_NIC)
++		RSSI_Lower =(pDM_Odm->RSSI_Min-10);
++	else
++		RSSI_Lower =DM_DIG_MIN_NIC;
++
++	//Upper and Lower Bound checking
++	 if(CurrentIGI > DM_DIG_MAX_NIC)
++	 	CurrentIGI = DM_DIG_MAX_NIC;
++	 else if(CurrentIGI < RSSI_Lower)
++		CurrentIGI = RSSI_Lower;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIGbyRSSI_LPS(): pFalseAlmCnt->Cnt_all = %d\n",pFalseAlmCnt->Cnt_all));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIGbyRSSI_LPS(): pDM_Odm->RSSI_Min = %d\n",pDM_Odm->RSSI_Min));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIGbyRSSI_LPS(): CurrentIGI = 0x%x\n",CurrentIGI));
++
++	ODM_Write_DIG(pDM_Odm, CurrentIGI);//ODM_Write_DIG(pDM_Odm, pDM_DigTable->CurIGValue);
++#endif
++}
++
++//3============================================================
++//3 FASLE ALARM CHECK
++//3============================================================
++
++VOID 
++odm_FalseAlarmCounterStatistics(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PFALSE_ALARM_STATISTICS 	FalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure( pDM_Odm, PHYDM_FALSEALMCNT);
++	u4Byte 						ret_value;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++//Mark there, and check this in odm_DMWatchDog
++#if 0 //(DM_ODM_SUPPORT_TYPE == ODM_AP)
++	prtl8192cd_priv priv		= pDM_Odm->priv;
++	if( (priv->auto_channel != 0) && (priv->auto_channel != 2) )
++		return;
++#endif
++#endif
++
++	if(!(pDM_Odm->SupportAbility & ODM_BB_FA_CNT))
++		return;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics()======>\n"));
++
++#if (ODM_IC_11N_SERIES_SUPPORT == 1) 
++	if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++	{
++
++		//hold ofdm counter
++		ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_HOLDC_11N, BIT31, 1); //hold page C counter
++		ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_RSTD_11N, BIT31, 1); //hold page D counter
++	
++		ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_OFDM_FA_TYPE1_11N, bMaskDWord);
++		FalseAlmCnt->Cnt_Fast_Fsync = (ret_value&0xffff);
++		FalseAlmCnt->Cnt_SB_Search_fail = ((ret_value&0xffff0000)>>16);		
++
++		ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_OFDM_FA_TYPE2_11N, bMaskDWord);
++		FalseAlmCnt->Cnt_OFDM_CCA = (ret_value&0xffff); 
++		FalseAlmCnt->Cnt_Parity_Fail = ((ret_value&0xffff0000)>>16);	
++
++		ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_OFDM_FA_TYPE3_11N, bMaskDWord);
++		FalseAlmCnt->Cnt_Rate_Illegal = (ret_value&0xffff);
++		FalseAlmCnt->Cnt_Crc8_fail = ((ret_value&0xffff0000)>>16);
++
++		ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_OFDM_FA_TYPE4_11N, bMaskDWord);
++		FalseAlmCnt->Cnt_Mcs_fail = (ret_value&0xffff);
++
++		FalseAlmCnt->Cnt_Ofdm_fail = 	FalseAlmCnt->Cnt_Parity_Fail + FalseAlmCnt->Cnt_Rate_Illegal +
++								FalseAlmCnt->Cnt_Crc8_fail + FalseAlmCnt->Cnt_Mcs_fail +
++								FalseAlmCnt->Cnt_Fast_Fsync + FalseAlmCnt->Cnt_SB_Search_fail;
++
++#if (RTL8188E_SUPPORT==1)
++		if(pDM_Odm->SupportICType == ODM_RTL8188E)
++		{
++			ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_SC_CNT_11N, bMaskDWord);
++			FalseAlmCnt->Cnt_BW_LSC = (ret_value&0xffff);
++			FalseAlmCnt->Cnt_BW_USC = ((ret_value&0xffff0000)>>16);
++		}
++#endif
++
++		{
++			//hold cck counter
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_FA_RST_11N, BIT12, 1); 
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_FA_RST_11N, BIT14, 1); 
++		
++			ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_CCK_FA_LSB_11N, bMaskByte0);
++			FalseAlmCnt->Cnt_Cck_fail = ret_value;
++
++			ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_CCK_FA_MSB_11N, bMaskByte3);
++			FalseAlmCnt->Cnt_Cck_fail +=  (ret_value& 0xff)<<8;
++
++			ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_CCK_CCA_CNT_11N, bMaskDWord);
++			FalseAlmCnt->Cnt_CCK_CCA = ((ret_value&0xFF)<<8) |((ret_value&0xFF00)>>8);
++		}
++	
++		FalseAlmCnt->Cnt_all_pre = FalseAlmCnt->Cnt_all;
++	
++		FalseAlmCnt->Cnt_all = (	FalseAlmCnt->Cnt_Fast_Fsync + 
++							FalseAlmCnt->Cnt_SB_Search_fail +
++							FalseAlmCnt->Cnt_Parity_Fail +
++							FalseAlmCnt->Cnt_Rate_Illegal +
++							FalseAlmCnt->Cnt_Crc8_fail +
++							FalseAlmCnt->Cnt_Mcs_fail +
++							FalseAlmCnt->Cnt_Cck_fail);	
++
++		FalseAlmCnt->Cnt_CCA_all = FalseAlmCnt->Cnt_OFDM_CCA + FalseAlmCnt->Cnt_CCK_CCA;
++
++		if (pDM_Odm->SupportICType >= ODM_RTL8188E) {
++			/*reset false alarm counter registers*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_RSTC_11N, BIT31, 1);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_RSTC_11N, BIT31, 0);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_RSTD_11N, BIT27, 1);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_RSTD_11N, BIT27, 0);
++
++			/*update ofdm counter*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_HOLDC_11N, BIT31, 0);	/*update page C counter*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_RSTD_11N, BIT31, 0);	/*update page D counter*/
++
++			/*reset CCK CCA counter*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_FA_RST_11N, BIT13|BIT12, 0); 
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_FA_RST_11N, BIT13|BIT12, 2); 
++			/*reset CCK FA counter*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_FA_RST_11N, BIT15|BIT14, 0); 
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_FA_RST_11N, BIT15|BIT14, 2); 
++		}
++		
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_Fast_Fsync=%d, Cnt_SB_Search_fail=%d\n",
++			FalseAlmCnt->Cnt_Fast_Fsync, FalseAlmCnt->Cnt_SB_Search_fail));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_Parity_Fail=%d, Cnt_Rate_Illegal=%d\n",
++			FalseAlmCnt->Cnt_Parity_Fail, FalseAlmCnt->Cnt_Rate_Illegal));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_Crc8_fail=%d, Cnt_Mcs_fail=%d\n",
++		FalseAlmCnt->Cnt_Crc8_fail, FalseAlmCnt->Cnt_Mcs_fail));
++	}
++#endif
++
++#if (ODM_IC_11AC_SERIES_SUPPORT == 1) 
++	if(pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++	{
++		u4Byte CCKenable;
++		
++		/* read OFDM FA counter */
++		FalseAlmCnt->Cnt_Ofdm_fail = ODM_GetBBReg(pDM_Odm, ODM_REG_OFDM_FA_11AC, bMaskLWord);
++
++		/* Read CCK FA counter */
++		FalseAlmCnt->Cnt_Cck_fail = ODM_GetBBReg(pDM_Odm, ODM_REG_CCK_FA_11AC, bMaskLWord);
++
++		/* read CCK/OFDM CCA counter */
++		ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_CCK_CCA_CNT_11AC, bMaskDWord);
++		FalseAlmCnt->Cnt_OFDM_CCA = (ret_value & 0xffff0000) >> 16;
++		FalseAlmCnt->Cnt_CCK_CCA = ret_value & 0xffff;
++
++#if (RTL8881A_SUPPORT==1) 
++		/* For 8881A */
++		if(pDM_Odm->SupportICType == ODM_RTL8881A)
++		{
++			u4Byte Cnt_Ofdm_fail_temp = 0;
++		
++			if(FalseAlmCnt->Cnt_Ofdm_fail >= FalseAlmCnt->Cnt_Ofdm_fail_pre)
++			{
++				Cnt_Ofdm_fail_temp = FalseAlmCnt->Cnt_Ofdm_fail_pre;
++				FalseAlmCnt->Cnt_Ofdm_fail_pre = FalseAlmCnt->Cnt_Ofdm_fail;
++				FalseAlmCnt->Cnt_Ofdm_fail = FalseAlmCnt->Cnt_Ofdm_fail - Cnt_Ofdm_fail_temp;
++			}
++			else
++				FalseAlmCnt->Cnt_Ofdm_fail_pre = FalseAlmCnt->Cnt_Ofdm_fail;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_Ofdm_fail=%d\n",	FalseAlmCnt->Cnt_Ofdm_fail_pre));
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_Ofdm_fail_pre=%d\n",	Cnt_Ofdm_fail_temp));
++			
++			/* Reset FA counter by enable/disable OFDM */
++			if(FalseAlmCnt->Cnt_Ofdm_fail_pre >= 0x7fff)
++			{
++				// reset OFDM
++				ODM_SetBBReg(pDM_Odm, ODM_REG_BB_RX_PATH_11AC, BIT29,0);
++				ODM_SetBBReg(pDM_Odm, ODM_REG_BB_RX_PATH_11AC, BIT29,1);
++				FalseAlmCnt->Cnt_Ofdm_fail_pre = 0;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Reset false alarm counter\n"));
++			}
++		}
++#endif
++
++		/* reset OFDM FA coutner */
++		ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_RST_11AC, BIT17, 1);
++		ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_RST_11AC, BIT17, 0);
++
++		/* reset CCK FA counter */
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_FA_RST_11AC, BIT15, 0);
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_FA_RST_11AC, BIT15, 1);
++
++		/* reset CCA counter */
++		ODM_SetBBReg(pDM_Odm, ODM_REG_RST_RPT_11AC, BIT0, 1);
++		ODM_SetBBReg(pDM_Odm, ODM_REG_RST_RPT_11AC, BIT0, 0);
++
++		CCKenable =  ODM_GetBBReg(pDM_Odm, ODM_REG_BB_RX_PATH_11AC, BIT28);
++		if(CCKenable)//if(*pDM_Odm->pBandType == ODM_BAND_2_4G)
++		{
++			FalseAlmCnt->Cnt_all = FalseAlmCnt->Cnt_Ofdm_fail + FalseAlmCnt->Cnt_Cck_fail;
++			FalseAlmCnt->Cnt_CCA_all = FalseAlmCnt->Cnt_CCK_CCA + FalseAlmCnt->Cnt_OFDM_CCA;
++		}
++		else
++		{
++			FalseAlmCnt->Cnt_all = FalseAlmCnt->Cnt_Ofdm_fail;
++			FalseAlmCnt->Cnt_CCA_all = FalseAlmCnt->Cnt_OFDM_CCA;
++		}
++
++	}
++#endif
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_OFDM_CCA=%d\n", FalseAlmCnt->Cnt_OFDM_CCA));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_CCK_CCA=%d\n", FalseAlmCnt->Cnt_CCK_CCA));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_CCA_all=%d\n", FalseAlmCnt->Cnt_CCA_all));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_Ofdm_fail=%d\n", FalseAlmCnt->Cnt_Ofdm_fail));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_Cck_fail=%d\n", FalseAlmCnt->Cnt_Cck_fail));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_Ofdm_fail=%d\n", FalseAlmCnt->Cnt_Ofdm_fail));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Total False Alarm=%d\n\n", FalseAlmCnt->Cnt_all));
++}
++
++//3============================================================
++//3 CCK Packet Detect Threshold
++//3============================================================
++
++VOID
++odm_PauseCCKPacketDetection(
++	IN		PVOID					pDM_VOID,
++	IN		PHYDM_PAUSE_TYPE		PauseType,
++	IN		PHYDM_PAUSE_LEVEL		pause_level,
++	IN		u1Byte					CCKPDThreshold
++)
++{
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T				pDM_DigTable = &pDM_Odm->DM_DigTable;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection()=========> level = %d\n", pause_level));
++
++	if ((pDM_DigTable->pause_cckpd_level == 0) && (!(pDM_Odm->SupportAbility & ODM_BB_CCK_PD) || !(pDM_Odm->SupportAbility & ODM_BB_FA_CNT))) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("Return: SupportAbility ODM_BB_CCK_PD or ODM_BB_FA_CNT is disabled\n"));
++		return;
++	}
++
++	if (pause_level > DM_DIG_MAX_PAUSE_TYPE) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, 
++			("odm_PauseCCKPacketDetection(): Return: Wrong pause level !!\n"));
++		return;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): pause level = 0x%x, Current value = 0x%x\n", pDM_DigTable->pause_cckpd_level, CCKPDThreshold));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): pause value = 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x\n", 
++		pDM_DigTable->pause_cckpd_value[7], pDM_DigTable->pause_cckpd_value[6], pDM_DigTable->pause_cckpd_value[5], pDM_DigTable->pause_cckpd_value[4],
++		pDM_DigTable->pause_cckpd_value[3], pDM_DigTable->pause_cckpd_value[2], pDM_DigTable->pause_cckpd_value[1], pDM_DigTable->pause_cckpd_value[0]));
++
++	switch (PauseType) {
++	/* Pause CCK Packet Detection Threshold */
++	case PHYDM_PAUSE:
++	{
++		/* Disable CCK PD */
++		ODM_CmnInfoUpdate(pDM_Odm, ODM_CMNINFO_ABILITY, pDM_Odm->SupportAbility & (~ODM_BB_CCK_PD));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): Pause CCK packet detection threshold !!\n"));
++
++		/* Backup original CCK PD threshold decided by CCK PD mechanism */
++		if (pDM_DigTable->pause_cckpd_level == 0) {
++			pDM_DigTable->CCKPDBackup = pDM_DigTable->CurCCK_CCAThres;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, 
++				("odm_PauseCCKPacketDetection(): Backup CCKPD  = 0x%x, new CCKPD = 0x%x\n", pDM_DigTable->CCKPDBackup, CCKPDThreshold));
++		}
++
++		/* Update pause level */
++		pDM_DigTable->pause_cckpd_level = (pDM_DigTable->pause_cckpd_level | BIT(pause_level));
++
++		/* Record CCK PD threshold */
++		pDM_DigTable->pause_cckpd_value[pause_level] = CCKPDThreshold;
++
++		/* Write new CCK PD threshold */
++		if (BIT(pause_level + 1) > pDM_DigTable->pause_cckpd_level) {
++			ODM_Write_CCK_CCA_Thres(pDM_Odm, CCKPDThreshold);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): CCKPD of higher level = 0x%x\n", CCKPDThreshold));
++		}
++		break;
++	}
++	/* Resume CCK Packet Detection Threshold */
++	case PHYDM_RESUME:
++	{	
++		/* check if the level is illegal or not */
++		if ((pDM_DigTable->pause_cckpd_level & (BIT(pause_level))) != 0) {
++			pDM_DigTable->pause_cckpd_level = pDM_DigTable->pause_cckpd_level & (~(BIT(pause_level)));
++			pDM_DigTable->pause_cckpd_value[pause_level] = 0;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): Resume CCK PD !!\n"));
++		} else {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): Wrong resume level !!\n"));
++			break;
++		}
++
++		/* Resume DIG */
++		if (pDM_DigTable->pause_cckpd_level == 0) {
++			/* Write backup IGI value */
++			ODM_Write_CCK_CCA_Thres(pDM_Odm, pDM_DigTable->CCKPDBackup);
++			/* pDM_DigTable->bIgnoreDIG = TRUE; */
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): Write original CCKPD = 0x%x\n", pDM_DigTable->CCKPDBackup));
++
++			/* Enable DIG */
++			ODM_CmnInfoUpdate(pDM_Odm, ODM_CMNINFO_ABILITY, pDM_Odm->SupportAbility | ODM_BB_CCK_PD);	
++			break;
++		}
++
++		if (BIT(pause_level) > pDM_DigTable->pause_cckpd_level) {
++			s1Byte	max_level;
++		
++			/* Calculate the maximum level now */
++			for (max_level = (pause_level - 1); max_level >= 0; max_level--) {
++				if ((pDM_DigTable->pause_cckpd_level & BIT(max_level)) > 0)
++					break;
++			}
++		
++			/* write CCKPD of lower level */
++			ODM_Write_CCK_CCA_Thres(pDM_Odm, pDM_DigTable->pause_cckpd_value[max_level]);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): Write CCKPD (0x%x) of level (%d)\n", 
++				pDM_DigTable->pause_cckpd_value[max_level], max_level));
++			break;
++		}
++		break;
++	}
++	default:
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): Wrong  type !!\n"));
++		break;
++	}	
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): pause level = 0x%x, Current value = 0x%x\n", pDM_DigTable->pause_cckpd_level, CCKPDThreshold));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): pause value = 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x\n", 
++		pDM_DigTable->pause_cckpd_value[7], pDM_DigTable->pause_cckpd_value[6], pDM_DigTable->pause_cckpd_value[5], pDM_DigTable->pause_cckpd_value[4],
++		pDM_DigTable->pause_cckpd_value[3], pDM_DigTable->pause_cckpd_value[2], pDM_DigTable->pause_cckpd_value[1], pDM_DigTable->pause_cckpd_value[0]));
++}
++
++
++VOID 
++odm_CCKPacketDetectionThresh(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T					pDM_DigTable = &pDM_Odm->DM_DigTable;
++	PFALSE_ALARM_STATISTICS 	FalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure( pDM_Odm, PHYDM_FALSEALMCNT);
++	u1Byte					CurCCK_CCAThres = pDM_DigTable->CurCCK_CCAThres, RSSI_thd = 35;
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++//modify by Guo.Mingzhi 2011-12-29
++	if (pDM_Odm->bDualMacSmartConcurrent == TRUE)
++//	if (pDM_Odm->bDualMacSmartConcurrent == FALSE)
++		return;
++	if(pDM_Odm->bBtHsOperation)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_CCKPacketDetectionThresh() write 0xcd for BT HS mode!!\n"));
++		ODM_Write_CCK_CCA_Thres(pDM_Odm, 0xcd);
++		return;
++	}
++#endif
++
++	if((!(pDM_Odm->SupportAbility & ODM_BB_CCK_PD)) ||(!(pDM_Odm->SupportAbility & ODM_BB_FA_CNT)))
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_CCKPacketDetectionThresh()  return==========\n"));
++#ifdef MCR_WIRELESS_EXTEND
++		ODM_Write_CCK_CCA_Thres(pDM_Odm, 0x43);
++#endif
++		return;
++	}
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	if(pDM_Odm->ExtLNA)
++		return;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_CCKPacketDetectionThresh()  ==========>\n"));
++
++	if (pDM_DigTable->cckFaMa == 0xffffffff)
++		pDM_DigTable->cckFaMa = FalseAlmCnt->Cnt_Cck_fail;
++	else
++		pDM_DigTable->cckFaMa = ((pDM_DigTable->cckFaMa<<1) + pDM_DigTable->cckFaMa + FalseAlmCnt->Cnt_Cck_fail) >> 2;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_CCKPacketDetectionThresh(): CCK FA moving average = %d\n", pDM_DigTable->cckFaMa));
++
++	if (pDM_Odm->bLinked) {
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++		if (pDM_Odm->RSSI_Min > (RSSI_thd + 14))
++			CurCCK_CCAThres = 0xed;
++		else if (pDM_Odm->RSSI_Min > (RSSI_thd + 6))
++			CurCCK_CCAThres = 0xdd;
++		else if (pDM_Odm->RSSI_Min > RSSI_thd)
++			CurCCK_CCAThres = 0xcd;
++		else if (pDM_Odm->RSSI_Min > 20) {
++			if (pDM_DigTable->cckFaMa > ((DM_DIG_FA_TH1>>1) + (DM_DIG_FA_TH1>>3)))
++				CurCCK_CCAThres = 0xcd;
++			else if (pDM_DigTable->cckFaMa < (DM_DIG_FA_TH0>>1))
++				CurCCK_CCAThres = 0x83;
++		} else if (pDM_Odm->RSSI_Min > 7)
++			CurCCK_CCAThres = 0x83;
++		else
++			CurCCK_CCAThres = 0x40;
++#else
++		if (pDM_DigTable->CurIGValue > (0x24 + 14))
++			CurCCK_CCAThres = 0xed;
++		else if (pDM_DigTable->CurIGValue > (0x24 + 6))
++			CurCCK_CCAThres = 0xdd;
++		else if (pDM_DigTable->CurIGValue > 0x24)
++			CurCCK_CCAThres = 0xcd;
++		else {
++			if (pDM_DigTable->cckFaMa > 0x400)
++				CurCCK_CCAThres = 0x83;
++			else if (pDM_DigTable->cckFaMa < 0x200)
++				CurCCK_CCAThres = 0x40;
++		}
++
++#endif
++	} else {
++		if (pDM_DigTable->cckFaMa > 0x400)
++			CurCCK_CCAThres = 0x83;
++		else if (pDM_DigTable->cckFaMa < 0x200)
++			CurCCK_CCAThres = 0x40;
++	}
++	
++	ODM_Write_CCK_CCA_Thres(pDM_Odm, CurCCK_CCAThres);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_CCKPacketDetectionThresh()  CurCCK_CCAThres = 0x%x\n", CurCCK_CCAThres));
++}
++
++VOID
++ODM_Write_CCK_CCA_Thres(
++	IN	PVOID			pDM_VOID,
++	IN	u1Byte			CurCCK_CCAThres
++	)
++{
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T				pDM_DigTable = &pDM_Odm->DM_DigTable;
++
++	if(pDM_DigTable->CurCCK_CCAThres!=CurCCK_CCAThres)		//modify by Guo.Mingzhi 2012-01-03
++	{
++		ODM_Write1Byte(pDM_Odm, ODM_REG(CCK_CCA,pDM_Odm), CurCCK_CCAThres);
++		pDM_DigTable->cckFaMa = 0xffffffff;
++	}
++	pDM_DigTable->PreCCK_CCAThres = pDM_DigTable->CurCCK_CCAThres;
++	pDM_DigTable->CurCCK_CCAThres = CurCCK_CCAThres;
++}
++
++BOOLEAN
++phydm_DIG_GoUpCheck(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCCX_INFO				CCX_INFO = &pDM_Odm->DM_CCX_INFO;
++	pDIG_T					pDM_DigTable = &pDM_Odm->DM_DigTable;
++	u1Byte 					CurIGValue = pDM_DigTable->CurIGValue;
++	u1Byte					max_DIG_cover_bond;
++	u1Byte					current_IGI_MaxUp_resolution;
++	u1Byte					rx_gain_range_max;
++	u1Byte					i = 0;
++	
++	u4Byte					total_NHM_cnt;
++	u4Byte					DIG_cover_cnt;
++	u4Byte					over_DIG_cover_cnt;
++	BOOLEAN					ret = TRUE;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	prtl8192cd_priv				priv = pDM_Odm->priv;
++
++	max_DIG_cover_bond = DM_DIG_MAX_AP - priv->pshare->rf_ft_var.dig_upcheck_initial_value;
++	current_IGI_MaxUp_resolution = CurIGValue + 6;
++	rx_gain_range_max = pDM_DigTable->rx_gain_range_max;
++	
++	phydm_getNHMresult(pDM_Odm);
++
++	total_NHM_cnt = CCX_INFO->NHM_result[0] + CCX_INFO->NHM_result[1];
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("phydm_DIG_GoUpCheck(): *****Get NHM results*****\n"));
++	
++	if (total_NHM_cnt != 0) {
++
++		/* CurIGValue < max_DIG_cover_bond - 6 */
++		if (pDM_DigTable->DIG_GoUpCheck_Level == DIG_GOUPCHECK_LEVEL_0) {
++			DIG_cover_cnt = CCX_INFO->NHM_result[1];
++			ret = ((priv->pshare->rf_ft_var.dig_level0_ratio_reciprocal * DIG_cover_cnt) >= total_NHM_cnt) ? TRUE : FALSE;
++		}
++
++		/* (max_DIG_cover_bond - 6) <= CurIGValue < DM_DIG_MAX_AP */
++		else if (pDM_DigTable->DIG_GoUpCheck_Level == DIG_GOUPCHECK_LEVEL_1) {
++			over_DIG_cover_cnt = CCX_INFO->NHM_result[1];
++			ret = (priv->pshare->rf_ft_var.dig_level1_ratio_reciprocal * over_DIG_cover_cnt < total_NHM_cnt) ? TRUE : FALSE;
++
++			if (!ret) {
++				/* update pDM_DigTable->rx_gain_range_max */
++				pDM_DigTable->rx_gain_range_max = (rx_gain_range_max >= max_DIG_cover_bond - 6) ? (max_DIG_cover_bond - 6) : rx_gain_range_max;
++
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("phydm_DIG_GoUpCheck(): Noise power is beyond DIG can filter, lock rx_gain_range_max to 0x%x\n", 
++					pDM_DigTable->rx_gain_range_max));
++			}
++		}
++		
++		/* CurIGValue > DM_DIG_MAX_AP, foolproof */
++		else if (pDM_DigTable->DIG_GoUpCheck_Level == DIG_GOUPCHECK_LEVEL_2) {
++			ret = TRUE;
++		}
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("phydm_DIG_GoUpCheck(): DIG_GoUpCheck_level = %d\n, current_IGI_MaxUp_resolution = 0x%x\n, max_DIG_cover_bond = 0x%x\n, rx_gain_range_max = 0x%x, ret = %d\n", 
++			pDM_DigTable->DIG_GoUpCheck_Level, 
++			current_IGI_MaxUp_resolution, 
++			max_DIG_cover_bond,
++			pDM_DigTable->rx_gain_range_max,
++			ret));
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("phydm_DIG_GoUpCheck(): NHM_result = %d, %d, %d, %d\n", 
++			CCX_INFO->NHM_result[0], CCX_INFO->NHM_result[1], CCX_INFO->NHM_result[2], CCX_INFO->NHM_result[3]));
++		
++	}
++	else
++		ret = TRUE;
++
++	for (i = 0 ; i <= 10 ; i ++) {
++		CCX_INFO->NHM_th[i] = 0xFF;
++	}
++	
++	if (CurIGValue < max_DIG_cover_bond - 6){
++		CCX_INFO->NHM_th[0] = 2 * (CurIGValue - priv->pshare->rf_ft_var.dig_upcheck_initial_value);
++		pDM_DigTable->DIG_GoUpCheck_Level = DIG_GOUPCHECK_LEVEL_0;
++	}
++	else if (CurIGValue <= DM_DIG_MAX_AP) {
++		CCX_INFO->NHM_th[0] = 2 * max_DIG_cover_bond;
++		pDM_DigTable->DIG_GoUpCheck_Level = DIG_GOUPCHECK_LEVEL_1;
++	}
++	/* CurIGValue > DM_DIG_MAX_AP, foolproof */
++	else {
++		pDM_DigTable->DIG_GoUpCheck_Level = DIG_GOUPCHECK_LEVEL_2;
++		ret = TRUE;
++	}
++	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("phydm_DIG_GoUpCheck(): *****Set NHM settings*****\n"));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("phydm_DIG_GoUpCheck(): DIG_GoUpCheck_level = %d\n", 
++		pDM_DigTable->DIG_GoUpCheck_Level));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("phydm_DIG_GoUpCheck(): NHM_th = 0x%x, 0x%x, 0x%x\n", 
++		CCX_INFO->NHM_th[0], CCX_INFO->NHM_th[1], CCX_INFO->NHM_th[2]));
++	
++	CCX_INFO->NHM_inexclude_cca = NHM_EXCLUDE_CCA;	
++	CCX_INFO->NHM_inexclude_txon = NHM_EXCLUDE_TXON;
++	CCX_INFO->NHM_period = 0xC350;
++
++	phydm_NHMsetting(pDM_Odm, SET_NHM_SETTING);
++	phydm_NHMtrigger(pDM_Odm);
++#endif
++
++	return ret;
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++// <20130108, Kordan> E.g., With LNA used, we make the Rx power smaller to have a better EVM. (Asked by Willis)
++VOID
++odm_RFEControl(
++	IN	PDM_ODM_T	pDM_Odm,
++	IN  u8Byte		RSSIVal
++	)
++{
++	PADAPTER		Adapter = (PADAPTER)pDM_Odm->Adapter;
++    HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	static u1Byte 	TRSW_HighPwr = 0;
++	 
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("===> odm_RFEControl, RSSI = %d, TRSW_HighPwr = 0x%X, pHalData->RFEType = %d\n",
++		         RSSIVal, TRSW_HighPwr, pHalData->RFEType ));
++
++    if (pHalData->RFEType == 3) {	   
++		
++        pDM_Odm->RSSI_TRSW = RSSIVal;
++
++        if (pDM_Odm->RSSI_TRSW >= pDM_Odm->RSSI_TRSW_H) 
++		{				 
++            TRSW_HighPwr = 1; // Switch to
++            PHY_SetBBReg(Adapter, r_ANTSEL_SW_Jaguar, BIT1|BIT0, 0x1);  // Set ANTSW=1/ANTSWB=0  for SW control
++            PHY_SetBBReg(Adapter, r_ANTSEL_SW_Jaguar, BIT9|BIT8, 0x3);  // Set ANTSW=1/ANTSWB=0  for SW control
++            
++        } 
++		else if (pDM_Odm->RSSI_TRSW <= pDM_Odm->RSSI_TRSW_L) 
++        {	  
++            TRSW_HighPwr = 0; // Switched back
++            PHY_SetBBReg(Adapter, r_ANTSEL_SW_Jaguar, BIT1|BIT0, 0x1);  // Set ANTSW=1/ANTSWB=0  for SW control
++            PHY_SetBBReg(Adapter, r_ANTSEL_SW_Jaguar, BIT9|BIT8, 0x0);  // Set ANTSW=1/ANTSWB=0  for SW control
++
++        }
++    }  
++
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("(pDM_Odm->RSSI_TRSW_H, pDM_Odm->RSSI_TRSW_L) = (%d, %d)\n", pDM_Odm->RSSI_TRSW_H, pDM_Odm->RSSI_TRSW_L));		
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("(RSSIVal, RSSIVal, pDM_Odm->RSSI_TRSW_iso) = (%d, %d, %d)\n", 
++				 RSSIVal, pDM_Odm->RSSI_TRSW_iso, pDM_Odm->RSSI_TRSW));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("<=== odm_RFEControl, RSSI = %d, TRSW_HighPwr = 0x%X\n", RSSIVal, TRSW_HighPwr));	
++}
++
++VOID
++odm_MPT_DIGWorkItemCallback(
++    IN PVOID            pContext
++    )
++{
++	PADAPTER	Adapter = (PADAPTER)pContext;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++
++	ODM_MPT_DIG(pDM_Odm);
++}
++
++VOID
++odm_MPT_DIGCallback(
++	PRT_TIMER		pTimer
++)
++{
++	PADAPTER		Adapter = (PADAPTER)pTimer->Adapter;
++       HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	  PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++
++
++	#if DEV_BUS_TYPE==RT_PCI_INTERFACE
++		#if USE_WORKITEM
++			PlatformScheduleWorkItem(&pDM_Odm->MPT_DIGWorkitem);
++		#else
++			ODM_MPT_DIG(pDM_Odm);
++		#endif
++	#else
++		PlatformScheduleWorkItem(&pDM_Odm->MPT_DIGWorkitem);
++	#endif
++
++}
++
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++VOID
++odm_MPT_DIGCallback(
++	IN		PVOID					pDM_VOID
++)
++{
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if USE_WORKITEM
++	PlatformScheduleWorkItem(&pDM_Odm->MPT_DIGWorkitem);
++#else
++	ODM_MPT_DIG(pDM_Odm);
++#endif
++}
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE != ODM_CE)
++VOID
++odm_MPT_Write_DIG(
++	IN		PVOID					pDM_VOID,
++	IN		u1Byte					CurIGValue
++)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T						pDM_DigTable = &pDM_Odm->DM_DigTable;
++
++	ODM_Write1Byte( pDM_Odm, ODM_REG(IGI_A,pDM_Odm), CurIGValue);
++
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++	/* Set IGI value of CCK for new CCK AGC */
++		if (pDM_Odm->cck_new_agc) {
++			if (pDM_Odm->SupportICType & ODM_IC_PHY_STATUE_NEW_TYPE)
++				ODM_SetBBReg(pDM_Odm, 0xa0c, 0x00003f00, (CurIGValue>>1));
++		}
++
++#endif
++			
++	if(pDM_Odm->RFType > ODM_1T1R)
++		ODM_Write1Byte( pDM_Odm, ODM_REG(IGI_B,pDM_Odm), CurIGValue);
++
++	if((pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) && (pDM_Odm->RFType > ODM_2T2R))
++	{
++		ODM_Write1Byte( pDM_Odm, ODM_REG(IGI_C,pDM_Odm), CurIGValue);
++		ODM_Write1Byte( pDM_Odm, ODM_REG(IGI_D,pDM_Odm), CurIGValue);	
++	}
++
++	pDM_DigTable->CurIGValue = CurIGValue;
++	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("CurIGValue = 0x%x\n", CurIGValue));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("pDM_Odm->RFType = 0x%x\n", pDM_Odm->RFType));
++}
++
++VOID
++ODM_MPT_DIG(
++	IN		PVOID					pDM_VOID
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T						pDM_DigTable = &pDM_Odm->DM_DigTable;
++	PFALSE_ALARM_STATISTICS		pFalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure( pDM_Odm, PHYDM_FALSEALMCNT);
++	u1Byte						CurrentIGI = pDM_DigTable->CurIGValue;
++	u1Byte						DIG_Upper = 0x40, DIG_Lower = 0x20;
++	u4Byte						RXOK_cal;
++	u4Byte						RxPWDBAve_final;
++	u1Byte						IGI_A = 0x20, IGI_B = 0x20;
++	
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++	#if ODM_FIX_2G_DIG
++	IGI_A = 0x22;
++	IGI_B = 0x24;		
++	#endif
++	
++#else
++	if (!(pDM_Odm->priv->pshare->rf_ft_var.mp_specific && pDM_Odm->priv->pshare->mp_dig_on))
++		return;
++
++	if (*pDM_Odm->pBandType == ODM_BAND_5G)
++		DIG_Lower = 0x22;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("===> ODM_MPT_DIG, pBandType = %d\n", *pDM_Odm->pBandType));
++	
++#if (ODM_FIX_2G_DIG || (DM_ODM_SUPPORT_TYPE & ODM_AP))
++	if (*pDM_Odm->pBandType == ODM_BAND_5G || (pDM_Odm->SupportICType & (ODM_RTL8814A|ODM_RTL8822B))) // for 5G or 8814
++#else
++	if (1) // for both 2G/5G
++#endif
++		{
++		odm_FalseAlarmCounterStatistics(pDM_Odm);
++
++		RXOK_cal = pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK + pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM;
++		RxPWDBAve_final = (RXOK_cal != 0)?pDM_Odm->RxPWDBAve/RXOK_cal:0;
++
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK = 0;
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM = 0;
++		pDM_Odm->RxPWDBAve = 0;
++		pDM_Odm->MPDIG_2G = FALSE;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		pDM_Odm->Times_2G = 0;
++#endif
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("RX OK = %d\n", RXOK_cal));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("RSSI = %d\n", RxPWDBAve_final));
++	
++		if (RXOK_cal >= 70 && RxPWDBAve_final <= 40)
++		{
++			if (CurrentIGI > 0x24)
++				odm_MPT_Write_DIG(pDM_Odm, 0x24);
++		}
++		else
++		{
++			if(pFalseAlmCnt->Cnt_all > 1000){
++				CurrentIGI = CurrentIGI + 8;
++			}
++			else if(pFalseAlmCnt->Cnt_all > 200){
++				CurrentIGI = CurrentIGI + 4;
++			}
++			else if (pFalseAlmCnt->Cnt_all > 50){
++				CurrentIGI = CurrentIGI + 2;
++			}
++			else if (pFalseAlmCnt->Cnt_all < 2){
++				CurrentIGI = CurrentIGI - 2;
++			}
++			
++			if (CurrentIGI < DIG_Lower ){
++				CurrentIGI = DIG_Lower;
++			}
++
++			if(CurrentIGI > DIG_Upper){
++				CurrentIGI = DIG_Upper;
++			}
++
++			odm_MPT_Write_DIG(pDM_Odm, CurrentIGI);
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("DIG = 0x%x, Cnt_all = %d, Cnt_Ofdm_fail = %d, Cnt_Cck_fail = %d\n", 
++				CurrentIGI, pFalseAlmCnt->Cnt_all, pFalseAlmCnt->Cnt_Ofdm_fail, pFalseAlmCnt->Cnt_Cck_fail));
++		}
++	}
++	else
++	{
++		if(pDM_Odm->MPDIG_2G == FALSE)
++		{
++			if((pDM_Odm->SupportPlatform & ODM_WIN) && !(pDM_Odm->SupportICType & (ODM_RTL8814A|ODM_RTL8822B)))
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("===> Fix IGI\n"));
++				ODM_Write1Byte( pDM_Odm, ODM_REG(IGI_A,pDM_Odm), IGI_A);
++				ODM_Write1Byte( pDM_Odm, ODM_REG(IGI_B,pDM_Odm), IGI_B);
++				pDM_DigTable->CurIGValue = IGI_B;
++			}
++			else
++				odm_MPT_Write_DIG(pDM_Odm, IGI_A);
++		}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		pDM_Odm->Times_2G++;
++
++		if (pDM_Odm->Times_2G == 3)
++#endif
++		{
++			pDM_Odm->MPDIG_2G = TRUE;
++		}
++	}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	if (pDM_Odm->SupportICType == ODM_RTL8812)
++		odm_RFEControl(pDM_Odm, RxPWDBAve_final);
++#endif
++
++	ODM_SetTimer(pDM_Odm, &pDM_Odm->MPT_DIGTimer, 700);
++}
++#endif
++
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dig.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dig.h
+new file mode 100644
+index 0000000..66eefa5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dig.h
+@@ -0,0 +1,370 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMDIG_H__
++#define    __PHYDMDIG_H__
++
++#define DIG_VERSION	"1.21"	/* 2016.03.30  Stanley, modify CCK PD */
++
++/* Pause DIG & CCKPD */
++#define		DM_DIG_MAX_PAUSE_TYPE		0x7
++
++typedef enum tag_DIG_GoUpCheck_Level {
++
++	DIG_GOUPCHECK_LEVEL_0,
++	DIG_GOUPCHECK_LEVEL_1,
++	DIG_GOUPCHECK_LEVEL_2
++	
++} DIG_GOUPCHECK_LEVEL;
++
++typedef struct _Dynamic_Initial_Gain_Threshold_
++{
++	BOOLEAN		bStopDIG;		// for debug
++	BOOLEAN		bIgnoreDIG;
++	BOOLEAN		bPSDInProgress;
++
++	u1Byte		Dig_Enable_Flag;
++	u1Byte		Dig_Ext_Port_Stage;
++	
++	int		   	RssiLowThresh;
++	int		    	RssiHighThresh;
++
++	u4Byte		FALowThresh;
++	u4Byte		FAHighThresh;
++
++	u1Byte		CurSTAConnectState;
++	u1Byte		PreSTAConnectState;
++	u1Byte		CurMultiSTAConnectState;
++
++	u1Byte		PreIGValue;
++	u1Byte		CurIGValue;
++	u1Byte		BackupIGValue;		//MP DIG
++	u1Byte		BT30_CurIGI;
++	u1Byte		IGIBackup;
++
++	s1Byte		BackoffVal;
++	s1Byte		BackoffVal_range_max;
++	s1Byte		BackoffVal_range_min;
++	u1Byte		rx_gain_range_max;
++	u1Byte		rx_gain_range_min;
++	u1Byte		Rssi_val_min;
++
++	u1Byte		PreCCK_CCAThres;
++	u1Byte		CurCCK_CCAThres;
++	u1Byte		PreCCKPDState;
++	u1Byte		CurCCKPDState;
++	u1Byte		CCKPDBackup;
++	u1Byte		pause_cckpd_level;
++	u1Byte		pause_cckpd_value[DM_DIG_MAX_PAUSE_TYPE + 1];
++
++	u1Byte		LargeFAHit;
++	u1Byte		LargeFA_Timeout;		/*if (LargeFAHit), monitor "LargeFA_Timeout" sec, if timeout, LargeFAHit=0*/
++	u1Byte		ForbiddenIGI;
++	u4Byte		Recover_cnt;
++
++	u1Byte		DIG_Dynamic_MIN_0;
++	u1Byte		DIG_Dynamic_MIN_1;
++	BOOLEAN		bMediaConnect_0;
++	BOOLEAN		bMediaConnect_1;
++
++	u4Byte		AntDiv_RSSI_max;
++	u4Byte		RSSI_max;
++
++	u1Byte		*bP2PInProcess;
++
++	u1Byte		pause_dig_level;
++	u1Byte		pause_dig_value[DM_DIG_MAX_PAUSE_TYPE + 1];
++
++	u4Byte		cckFaMa;
++	DIG_GOUPCHECK_LEVEL		DIG_GoUpCheck_Level;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	BOOLEAN					bTpTarget;
++	BOOLEAN					bNoiseEst;
++	u4Byte					TpTrainTH_min;
++	u1Byte					IGIOffset_A;
++	u1Byte					IGIOffset_B;
++#endif
++
++#if (RTL8822B_SUPPORT == 1 || RTL8197F_SUPPORT == 1 || RTL8821C_SUPPORT == 1)
++	u1Byte		rfGainIdx;
++	u1Byte		agcTableIdx;
++	u1Byte		bigJumpLmt[16];
++	u1Byte		enableAdjustBigJump:1;
++	u1Byte		bigJumpStep1:3;
++	u1Byte		bigJumpStep2:2;
++	u1Byte		bigJumpStep3:2;
++#endif
++}DIG_T,*pDIG_T;
++
++typedef struct _FALSE_ALARM_STATISTICS{
++	u4Byte	Cnt_Parity_Fail;
++	u4Byte	Cnt_Rate_Illegal;
++	u4Byte	Cnt_Crc8_fail;
++	u4Byte	Cnt_Mcs_fail;
++	u4Byte	Cnt_Ofdm_fail;
++	u4Byte	Cnt_Ofdm_fail_pre;	//For RTL8881A
++	u4Byte	Cnt_Cck_fail;
++	u4Byte	Cnt_all;
++	u4Byte	Cnt_all_pre;
++	u4Byte	Cnt_Fast_Fsync;
++	u4Byte	Cnt_SB_Search_fail;
++	u4Byte	Cnt_OFDM_CCA;
++	u4Byte	Cnt_CCK_CCA;
++	u4Byte	Cnt_CCA_all;
++	u4Byte	Cnt_BW_USC;	//Gary
++	u4Byte	Cnt_BW_LSC;	//Gary
++	u4Byte	cnt_cck_crc32_error;
++	u4Byte	cnt_cck_crc32_ok;
++	u4Byte	cnt_ofdm_crc32_error;
++	u4Byte	cnt_ofdm_crc32_ok;
++	u4Byte	cnt_ht_crc32_error;
++	u4Byte	cnt_ht_crc32_ok;
++	u4Byte	cnt_vht_crc32_error;
++	u4Byte	cnt_vht_crc32_ok;
++	u4Byte	cnt_crc32_error_all;
++	u4Byte	cnt_crc32_ok_all;
++	BOOLEAN	cck_block_enable;
++	BOOLEAN	ofdm_block_enable;
++	u4Byte	dbg_port0;
++	BOOLEAN	edcca_flag;
++}FALSE_ALARM_STATISTICS, *PFALSE_ALARM_STATISTICS;
++
++typedef enum tag_Dynamic_Init_Gain_Operation_Type_Definition
++{
++	DIG_TYPE_THRESH_HIGH	= 0,
++	DIG_TYPE_THRESH_LOW	= 1,
++	DIG_TYPE_BACKOFF		= 2,
++	DIG_TYPE_RX_GAIN_MIN	= 3,
++	DIG_TYPE_RX_GAIN_MAX	= 4,
++	DIG_TYPE_ENABLE 		= 5,
++	DIG_TYPE_DISABLE 		= 6,	
++	DIG_OP_TYPE_MAX
++}DM_DIG_OP_E;
++
++/*
++typedef enum tag_CCK_Packet_Detection_Threshold_Type_Definition
++{
++	CCK_PD_STAGE_LowRssi = 0,
++	CCK_PD_STAGE_HighRssi = 1,
++	CCK_PD_STAGE_MAX = 3,
++}DM_CCK_PDTH_E;
++
++typedef enum tag_DIG_EXT_PORT_ALGO_Definition
++{
++	DIG_EXT_PORT_STAGE_0 = 0,
++	DIG_EXT_PORT_STAGE_1 = 1,
++	DIG_EXT_PORT_STAGE_2 = 2,
++	DIG_EXT_PORT_STAGE_3 = 3,
++	DIG_EXT_PORT_STAGE_MAX = 4,
++}DM_DIG_EXT_PORT_ALG_E;
++
++typedef enum tag_DIG_Connect_Definition
++{
++	DIG_STA_DISCONNECT = 0,	
++	DIG_STA_CONNECT = 1,
++	DIG_STA_BEFORE_CONNECT = 2,
++	DIG_MultiSTA_DISCONNECT = 3,
++	DIG_MultiSTA_CONNECT = 4,
++	DIG_CONNECT_MAX
++}DM_DIG_CONNECT_E;
++
++
++#define DM_MultiSTA_InitGainChangeNotify(Event) {DM_DigTable.CurMultiSTAConnectState = Event;}
++
++#define DM_MultiSTA_InitGainChangeNotify_CONNECT(_ADAPTER)	\
++	DM_MultiSTA_InitGainChangeNotify(DIG_MultiSTA_CONNECT)
++
++#define DM_MultiSTA_InitGainChangeNotify_DISCONNECT(_ADAPTER)	\
++	DM_MultiSTA_InitGainChangeNotify(DIG_MultiSTA_DISCONNECT)
++*/
++
++typedef enum tag_PHYDM_Pause_Type {
++	PHYDM_PAUSE = BIT0,
++	PHYDM_RESUME = BIT1
++} PHYDM_PAUSE_TYPE;
++
++typedef enum tag_PHYDM_Pause_Level {
++/* number of pause level can't exceed DM_DIG_MAX_PAUSE_TYPE */
++	PHYDM_PAUSE_LEVEL_0 = 0,
++	PHYDM_PAUSE_LEVEL_1 = 1,
++	PHYDM_PAUSE_LEVEL_2 = 2,
++	PHYDM_PAUSE_LEVEL_3 = 3,
++	PHYDM_PAUSE_LEVEL_4 = 4,
++	PHYDM_PAUSE_LEVEL_5 = 5,
++	PHYDM_PAUSE_LEVEL_6 = 6,
++	PHYDM_PAUSE_LEVEL_7 = DM_DIG_MAX_PAUSE_TYPE		/* maximum level */
++} PHYDM_PAUSE_LEVEL;
++
++#define		DM_DIG_THRESH_HIGH			40
++#define		DM_DIG_THRESH_LOW			35
++
++#define		DM_FALSEALARM_THRESH_LOW	400
++#define		DM_FALSEALARM_THRESH_HIGH	1000
++
++#define		DM_DIG_MAX_NIC				0x3e
++#define		DM_DIG_MIN_NIC				0x20
++#define		DM_DIG_MAX_OF_MIN_NIC		0x3e
++
++#define		DM_DIG_MAX_AP					0x3e
++#define		DM_DIG_MIN_AP					0x20
++#define		DM_DIG_MAX_OF_MIN			0x2A	//0x32
++#define		DM_DIG_MIN_AP_DFS				0x20
++
++#define		DM_DIG_MAX_NIC_HP			0x46
++#define		DM_DIG_MIN_NIC_HP				0x2e
++
++#define		DM_DIG_MAX_AP_HP				0x42
++#define		DM_DIG_MIN_AP_HP				0x30
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++#define		DM_DIG_MAX_AP_COVERAGR		0x26
++#define		DM_DIG_MIN_AP_COVERAGE		0x1c
++#define		DM_DIG_MAX_OF_MIN_COVERAGE	0x22
++
++#define		DM_DIG_TP_Target_TH0			500
++#define		DM_DIG_TP_Target_TH1			1000
++#define		DM_DIG_TP_Training_Period		10
++#endif
++
++//vivi 92c&92d has different definition, 20110504
++//this is for 92c
++#if (DM_ODM_SUPPORT_TYPE & ODM_CE)
++	#ifdef CONFIG_SPECIAL_SETTING_FOR_FUNAI_TV
++	#define		DM_DIG_FA_TH0				0x80//0x20
++	#else
++	#define		DM_DIG_FA_TH0				0x200//0x20
++	#endif
++#else
++	#define		DM_DIG_FA_TH0				0x200//0x20
++#endif
++
++#define		DM_DIG_FA_TH1					0x300
++#define		DM_DIG_FA_TH2					0x400
++//this is for 92d
++#define		DM_DIG_FA_TH0_92D				0x100
++#define		DM_DIG_FA_TH1_92D				0x400
++#define		DM_DIG_FA_TH2_92D				0x600
++
++#define		DM_DIG_BACKOFF_MAX			12
++#define		DM_DIG_BACKOFF_MIN			-4
++#define		DM_DIG_BACKOFF_DEFAULT		10
++
++#define 		DM_DIG_FA_TH0_LPS				4 //-> 4 in lps
++#define 		DM_DIG_FA_TH1_LPS				15 //-> 15 lps
++#define 		DM_DIG_FA_TH2_LPS				30 //-> 30 lps
++#define 		RSSI_OFFSET_DIG				0x05
++#define		LARGE_FA_TIMEOUT				60
++
++
++VOID
++ODM_ChangeDynamicInitGainThresh(
++	IN		PVOID					pDM_VOID,
++	IN		u4Byte  					DM_Type,
++	IN		u4Byte 					DM_Value
++	);
++
++VOID
++ODM_Write_DIG(
++	IN		PVOID					pDM_VOID, 	
++	IN		u1Byte					CurrentIGI
++	);
++
++VOID
++odm_PauseDIG(
++	IN		PVOID					pDM_VOID,
++	IN		PHYDM_PAUSE_TYPE		PauseType,
++	IN		PHYDM_PAUSE_LEVEL		pause_level,
++	IN		u1Byte					IGIValue
++	);
++
++VOID
++odm_DIGInit(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID	
++odm_DIG(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID
++odm_DIGbyRSSI_LPS(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID 
++odm_FalseAlarmCounterStatistics(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID
++odm_PauseCCKPacketDetection(
++	IN		PVOID					pDM_VOID,
++	IN		PHYDM_PAUSE_TYPE		PauseType,
++	IN		PHYDM_PAUSE_LEVEL		pause_level,
++	IN		u1Byte					CCKPDThreshold
++	);
++
++VOID 
++odm_CCKPacketDetectionThresh(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID 
++ODM_Write_CCK_CCA_Thres(
++	IN		PVOID					pDM_VOID, 
++	IN		u1Byte					CurCCK_CCAThres
++	);
++
++BOOLEAN
++phydm_DIG_GoUpCheck(
++	IN		PVOID		pDM_VOID
++	);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++odm_MPT_DIGCallback(
++	PRT_TIMER						pTimer
++);
++
++VOID
++odm_MPT_DIGWorkItemCallback(
++    IN 		PVOID            			pContext
++    );
++
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++VOID
++odm_MPT_DIGCallback(
++	IN		PVOID					pDM_VOID
++);
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE != ODM_CE)
++VOID
++ODM_MPT_DIG(
++	IN		PVOID					pDM_VOID
++);
++#endif
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dynamicbbpowersaving.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dynamicbbpowersaving.c
+new file mode 100644
+index 0000000..445b04b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dynamicbbpowersaving.c
+@@ -0,0 +1,121 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++VOID 
++odm_DynamicBBPowerSavingInit(
++	IN		PVOID					pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pPS_T	pDM_PSTable = &pDM_Odm->DM_PSTable;
++
++	pDM_PSTable->PreCCAState = CCA_MAX;
++	pDM_PSTable->CurCCAState = CCA_MAX;
++	pDM_PSTable->PreRFState = RF_MAX;
++	pDM_PSTable->CurRFState = RF_MAX;
++	pDM_PSTable->Rssi_val_min = 0;
++	pDM_PSTable->initialize = 0;
++}
++
++void
++ODM_RF_Saving(
++	IN		PVOID					pDM_VOID,
++	IN	u1Byte		bForceInNormal 
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE != ODM_AP)
++	pPS_T	pDM_PSTable = &pDM_Odm->DM_PSTable;
++	u1Byte	Rssi_Up_bound = 30 ;
++	u1Byte	Rssi_Low_bound = 25;
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	if(pDM_Odm->PatchID == 40 ) //RT_CID_819x_FUNAI_TV
++	{
++		Rssi_Up_bound = 50 ;
++		Rssi_Low_bound = 45;
++	}
++#endif
++	if(pDM_PSTable->initialize == 0){
++		
++		pDM_PSTable->Reg874 = (ODM_GetBBReg(pDM_Odm, 0x874, bMaskDWord)&0x1CC000)>>14;
++		pDM_PSTable->RegC70 = (ODM_GetBBReg(pDM_Odm, 0xc70, bMaskDWord)&BIT3)>>3;
++		pDM_PSTable->Reg85C = (ODM_GetBBReg(pDM_Odm, 0x85c, bMaskDWord)&0xFF000000)>>24;
++		pDM_PSTable->RegA74 = (ODM_GetBBReg(pDM_Odm, 0xa74, bMaskDWord)&0xF000)>>12;
++		//Reg818 = PHY_QueryBBReg(pAdapter, 0x818, bMaskDWord);
++		pDM_PSTable->initialize = 1;
++	}
++
++	if(!bForceInNormal)
++	{
++		if(pDM_Odm->RSSI_Min != 0xFF)
++		{			 
++			if(pDM_PSTable->PreRFState == RF_Normal)
++			{
++				if(pDM_Odm->RSSI_Min >= Rssi_Up_bound)
++					pDM_PSTable->CurRFState = RF_Save;
++				else
++					pDM_PSTable->CurRFState = RF_Normal;
++			}
++			else{
++				if(pDM_Odm->RSSI_Min <= Rssi_Low_bound)
++					pDM_PSTable->CurRFState = RF_Normal;
++				else
++					pDM_PSTable->CurRFState = RF_Save;
++			}
++		}
++		else
++			pDM_PSTable->CurRFState=RF_MAX;
++	}
++	else
++	{
++		pDM_PSTable->CurRFState = RF_Normal;
++	}
++	
++	if(pDM_PSTable->PreRFState != pDM_PSTable->CurRFState)
++	{
++		if(pDM_PSTable->CurRFState == RF_Save)
++		{
++			ODM_SetBBReg(pDM_Odm, 0x874  , 0x1C0000, 0x2); //Reg874[20:18]=3'b010
++			ODM_SetBBReg(pDM_Odm, 0xc70, BIT3, 0); //RegC70[3]=1'b0
++			ODM_SetBBReg(pDM_Odm, 0x85c, 0xFF000000, 0x63); //Reg85C[31:24]=0x63
++			ODM_SetBBReg(pDM_Odm, 0x874, 0xC000, 0x2); //Reg874[15:14]=2'b10
++			ODM_SetBBReg(pDM_Odm, 0xa74, 0xF000, 0x3); //RegA75[7:4]=0x3
++			ODM_SetBBReg(pDM_Odm, 0x818, BIT28, 0x0); //Reg818[28]=1'b0
++			ODM_SetBBReg(pDM_Odm, 0x818, BIT28, 0x1); //Reg818[28]=1'b1
++		}
++		else
++		{
++			ODM_SetBBReg(pDM_Odm, 0x874  , 0x1CC000, pDM_PSTable->Reg874); 
++			ODM_SetBBReg(pDM_Odm, 0xc70, BIT3, pDM_PSTable->RegC70); 
++			ODM_SetBBReg(pDM_Odm, 0x85c, 0xFF000000, pDM_PSTable->Reg85C);
++			ODM_SetBBReg(pDM_Odm, 0xa74, 0xF000, pDM_PSTable->RegA74); 
++			ODM_SetBBReg(pDM_Odm,0x818, BIT28, 0x0);  
++		}
++		pDM_PSTable->PreRFState =pDM_PSTable->CurRFState;
++	}
++#endif	
++}
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dynamicbbpowersaving.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dynamicbbpowersaving.h
+new file mode 100644
+index 0000000..506d97d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dynamicbbpowersaving.h
+@@ -0,0 +1,53 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMDYNAMICBBPOWERSAVING_H__
++#define    __PHYDMDYNAMICBBPOWERSAVING_H__
++
++#define DYNAMIC_BBPWRSAV_VERSION	"1.1"
++
++typedef struct _Dynamic_Power_Saving_
++{
++	u1Byte		PreCCAState;
++	u1Byte		CurCCAState;
++
++	u1Byte		PreRFState;
++	u1Byte		CurRFState;
++
++	int		    Rssi_val_min;
++	
++	u1Byte		initialize;
++	u4Byte		Reg874,RegC70,Reg85C,RegA74;
++	
++}PS_T,*pPS_T;
++
++#define dm_RF_Saving	ODM_RF_Saving
++
++void ODM_RF_Saving(
++	IN		PVOID					pDM_VOID,
++	IN	u1Byte		bForceInNormal
++);
++
++VOID 
++odm_DynamicBBPowerSavingInit(
++	IN		PVOID					pDM_VOID
++	);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dynamictxpower.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dynamictxpower.c
+new file mode 100644
+index 0000000..79c1729
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dynamictxpower.c
+@@ -0,0 +1,542 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++VOID 
++odm_DynamicTxPowerInit(
++	IN		PVOID					pDM_VOID	
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++	PMGNT_INFO			pMgntInfo = &Adapter->MgntInfo;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++
++	/*if (!IS_HARDWARE_TYPE_8814A(Adapter)) {*/
++	/*	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, */
++	/*	("odm_DynamicTxPowerInit DynamicTxPowerEnable=%d\n", pMgntInfo->bDynamicTxPowerEnable));*/
++	/*	return;*/
++	/*} else*/
++	{
++		pMgntInfo->bDynamicTxPowerEnable = TRUE;
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, 
++		("odm_DynamicTxPowerInit DynamicTxPowerEnable=%d\n", pMgntInfo->bDynamicTxPowerEnable));
++	}
++		
++	#if DEV_BUS_TYPE==RT_USB_INTERFACE					
++	if(RT_GetInterfaceSelection(Adapter) == INTF_SEL1_USB_High_Power)
++	{
++		odm_DynamicTxPowerSavePowerIndex(pDM_Odm);
++		pMgntInfo->bDynamicTxPowerEnable = TRUE;
++	}		
++	else	
++	#else
++	//so 92c pci do not need dynamic tx power? vivi check it later
++	pMgntInfo->bDynamicTxPowerEnable = FALSE;
++	#endif
++	
++
++	pHalData->LastDTPLvl = TxHighPwrLevel_Normal;
++	pHalData->DynamicTxHighPowerLvl = TxHighPwrLevel_Normal;
++	
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++	pDM_Odm->LastDTPLvl = TxHighPwrLevel_Normal;
++	pDM_Odm->DynamicTxHighPowerLvl = TxHighPwrLevel_Normal;
++	pDM_Odm->tx_agc_ofdm_18_6 = ODM_GetBBReg(pDM_Odm, 0xC24, bMaskDWord); /*TXAGC {18M 12M 9M 6M}*/
++
++#endif
++	
++}
++
++VOID
++odm_DynamicTxPowerSavePowerIndex(
++	IN		PVOID					pDM_VOID	
++	)
++{	
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++	u1Byte		index;
++	u4Byte		Power_Index_REG[6] = {0xc90, 0xc91, 0xc92, 0xc98, 0xc99, 0xc9a};
++	
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);	
++	for(index = 0; index< 6; index++)
++		pHalData->PowerIndex_backup[index] = PlatformEFIORead1Byte(Adapter, Power_Index_REG[index]);
++	
++	
++#endif
++#endif
++}
++
++VOID
++odm_DynamicTxPowerRestorePowerIndex(
++	IN		PVOID					pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++	u1Byte			index;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u4Byte			Power_Index_REG[6] = {0xc90, 0xc91, 0xc92, 0xc98, 0xc99, 0xc9a};
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	for(index = 0; index< 6; index++)
++		PlatformEFIOWrite1Byte(Adapter, Power_Index_REG[index], pHalData->PowerIndex_backup[index]);
++
++
++#endif
++#endif
++}
++
++VOID
++odm_DynamicTxPowerWritePowerIndex(
++	IN		PVOID					pDM_VOID, 
++	IN 	u1Byte		Value)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			index;
++	u4Byte			Power_Index_REG[6] = {0xc90, 0xc91, 0xc92, 0xc98, 0xc99, 0xc9a};
++	
++	for(index = 0; index< 6; index++)
++		//PlatformEFIOWrite1Byte(Adapter, Power_Index_REG[index], Value);
++		ODM_Write1Byte(pDM_Odm, Power_Index_REG[index], Value);
++
++}
++
++VOID 
++odm_DynamicTxPowerNIC_CE(
++	IN		PVOID					pDM_VOID
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++#if (RTL8821A_SUPPORT == 1)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			val;
++	u1Byte			rssi_tmp = pDM_Odm->RSSI_Min;
++
++	if (!(pDM_Odm->SupportAbility & ODM_BB_DYNAMIC_TXPWR))
++		return;
++
++	if (rssi_tmp >= TX_POWER_NEAR_FIELD_THRESH_LVL2) {
++		pDM_Odm->DynamicTxHighPowerLvl = TxHighPwrLevel_Level2;
++		/**/
++	} else if (rssi_tmp >= TX_POWER_NEAR_FIELD_THRESH_LVL1) {
++		pDM_Odm->DynamicTxHighPowerLvl = TxHighPwrLevel_Level1;
++		/**/
++	} else if (rssi_tmp < (TX_POWER_NEAR_FIELD_THRESH_LVL1-5)) {
++		pDM_Odm->DynamicTxHighPowerLvl = TxHighPwrLevel_Normal;
++		/**/
++	}
++
++	if (pDM_Odm->LastDTPLvl != pDM_Odm->DynamicTxHighPowerLvl) {
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, ODM_DBG_LOUD, ("update_DTP_lv: ((%d)) -> ((%d))\n", pDM_Odm->LastDTPLvl, pDM_Odm->DynamicTxHighPowerLvl));
++
++		pDM_Odm->LastDTPLvl = pDM_Odm->DynamicTxHighPowerLvl;
++
++		if (pDM_Odm->SupportICType & (ODM_RTL8821)) {
++
++			if (pDM_Odm->DynamicTxHighPowerLvl == TxHighPwrLevel_Level2) {
++
++				ODM_SetMACReg(pDM_Odm, 0x6D8, BIT20|BIT19|BIT18, 1); /* Resp TXAGC offset = -3dB*/
++
++				val = pDM_Odm->tx_agc_ofdm_18_6 & 0xff;
++				if (val >= 0x20)
++					val -= 0x16;
++
++				ODM_SetBBReg(pDM_Odm, 0xC24, 0xff, val);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, ODM_DBG_LOUD, ("Set TX power: level 2\n"));
++			} else if (pDM_Odm->DynamicTxHighPowerLvl == TxHighPwrLevel_Level1) {
++
++				ODM_SetMACReg(pDM_Odm, 0x6D8, BIT20|BIT19|BIT18, 1); /* Resp TXAGC offset = -3dB*/
++
++				val = pDM_Odm->tx_agc_ofdm_18_6 & 0xff;
++				if (val >= 0x20)
++					val -= 0x10;
++
++				ODM_SetBBReg(pDM_Odm, 0xC24, 0xff, val);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, ODM_DBG_LOUD, ("Set TX power: level 1\n"));
++			} else if (pDM_Odm->DynamicTxHighPowerLvl == TxHighPwrLevel_Normal) {
++			
++				ODM_SetMACReg(pDM_Odm, 0x6D8, BIT20|BIT19|BIT18, 0); /* Resp TXAGC offset = 0dB*/
++				ODM_SetBBReg(pDM_Odm, 0xC24, bMaskDWord, pDM_Odm->tx_agc_ofdm_18_6);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, ODM_DBG_LOUD, ("Set TX power: normal\n"));
++			}
++		}
++	}
++
++#endif
++#endif
++}
++
++
++VOID 
++odm_DynamicTxPower(
++	IN		PVOID					pDM_VOID
++	)
++{
++	// 
++	// For AP/ADSL use prtl8192cd_priv
++	// For CE/NIC use PADAPTER
++	//
++	//PADAPTER		pAdapter = pDM_Odm->Adapter;
++//	prtl8192cd_priv	priv		= pDM_Odm->priv;
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	if (!(pDM_Odm->SupportAbility & ODM_BB_DYNAMIC_TXPWR))
++		return;
++	//
++	// 2011/09/29 MH In HW integration first stage, we provide 4 different handle to operate
++	// at the same time. In the stage2/3, we need to prive universal interface and merge all
++	// HW dynamic mechanism.
++	//
++	switch	(pDM_Odm->SupportPlatform)
++	{
++		case	ODM_WIN:
++			odm_DynamicTxPowerNIC(pDM_Odm);
++			break;
++		case	ODM_CE:
++			odm_DynamicTxPowerNIC_CE(pDM_Odm);
++			break;	
++		case	ODM_AP:
++			odm_DynamicTxPowerAP(pDM_Odm);
++			break;		
++		default:
++			break;
++	}
++
++	
++}
++
++
++VOID 
++odm_DynamicTxPowerNIC(
++	IN		PVOID					pDM_VOID
++	)
++{	
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	if (!(pDM_Odm->SupportAbility & ODM_BB_DYNAMIC_TXPWR))
++		return;
++	
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++
++	if (pDM_Odm->SupportICType == ODM_RTL8814A) {
++		odm_DynamicTxPower_8814A(pDM_Odm);
++	} else if (pDM_Odm->SupportICType & ODM_RTL8821) {
++		PADAPTER		Adapter	 =  pDM_Odm->Adapter;
++		PMGNT_INFO		pMgntInfo = GetDefaultMgntInfo(Adapter);
++
++		if (pMgntInfo->RegRspPwr == 1)	{
++			if (pDM_Odm->RSSI_Min > 60)
++				ODM_SetMACReg(pDM_Odm, ODM_REG_RESP_TX_11AC, BIT20|BIT19|BIT18, 1); /*Resp TXAGC offset = -3dB*/
++			else if (pDM_Odm->RSSI_Min < 55)
++				ODM_SetMACReg(pDM_Odm, ODM_REG_RESP_TX_11AC, BIT20|BIT19|BIT18, 0); /*Resp TXAGC offset = 0dB*/
++		}
++	}
++#endif	
++}
++
++VOID 
++odm_DynamicTxPowerAP(
++	IN		PVOID					pDM_VOID
++
++	)
++{	
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++//#if ((RTL8192C_SUPPORT==1) || (RTL8192D_SUPPORT==1) || (RTL8188E_SUPPORT==1) || (RTL8812E_SUPPORT==1))
++
++
++	prtl8192cd_priv	priv		= pDM_Odm->priv;
++	s4Byte i;
++	s2Byte pwr_thd = 63;
++
++	if(!priv->pshare->rf_ft_var.tx_pwr_ctrl)
++		return;
++	
++#if ((RTL8812A_SUPPORT == 1) || (RTL8881A_SUPPORT == 1) || (RTL8814A_SUPPORT == 1))
++	if (pDM_Odm->SupportICType & (ODM_RTL8812 | ODM_RTL8881A | ODM_RTL8814A))
++		pwr_thd = TX_POWER_NEAR_FIELD_THRESH_LVL1;
++#endif
++
++	/*
++	 *	Check if station is near by to use lower tx power
++	 */
++
++	if ((priv->up_time % 3) == 0 )  {
++		int disable_pwr_ctrl = ((pDM_Odm->FalseAlmCnt.Cnt_all > 1000 ) || ((pDM_Odm->FalseAlmCnt.Cnt_all > 300 ) && ((RTL_R8(0xc50) & 0x7f) >= 0x32))) ? 1 : 0;
++			
++		for(i=0; i<ODM_ASSOCIATE_ENTRY_NUM; i++){
++			PSTA_INFO_T pstat = pDM_Odm->pODM_StaInfo[i];
++			if(IS_STA_VALID(pstat) ) {
++					if(disable_pwr_ctrl)
++						pstat->hp_level = 0;
++					 else if ((pstat->hp_level == 0) && (pstat->rssi > pwr_thd))
++					pstat->hp_level = 1;
++						else if ((pstat->hp_level == 1) && (pstat->rssi < (pwr_thd-8)))
++					pstat->hp_level = 0;
++			}
++		}
++
++#if defined(CONFIG_WLAN_HAL_8192EE)
++		if (GET_CHIP_VER(priv) == VERSION_8192E) {
++			if( !disable_pwr_ctrl && (pDM_Odm->RSSI_Min != 0xff) ) {
++				if(pDM_Odm->RSSI_Min > pwr_thd)
++					RRSR_power_control_11n(priv,  1 );
++				else if(pDM_Odm->RSSI_Min < (pwr_thd-8))
++					RRSR_power_control_11n(priv,  0 );
++			} else {
++					RRSR_power_control_11n(priv,  0 );
++			}
++		}
++#endif			
++
++#ifdef CONFIG_WLAN_HAL_8814AE
++		if (GET_CHIP_VER(priv) == VERSION_8814A) {
++			if (!disable_pwr_ctrl && (pDM_Odm->RSSI_Min != 0xff)) {
++				if (pDM_Odm->RSSI_Min > pwr_thd)
++					RRSR_power_control_14(priv,  1);
++				else if (pDM_Odm->RSSI_Min < (pwr_thd-8))
++					RRSR_power_control_14(priv,  0);
++			} else {
++					RRSR_power_control_14(priv,  0);
++			}
++		}
++#endif		
++
++	}
++//#endif	
++
++#endif	
++}
++
++VOID 
++odm_DynamicTxPower_8821(
++	IN		PVOID			pDM_VOID,	
++	IN		pu1Byte			pDesc,
++	IN		u1Byte			macId	
++	)
++{
++#if (RTL8821A_SUPPORT == 1)
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PSTA_INFO_T		pEntry;
++	u1Byte			reg0xc56_byte;
++	u1Byte			txpwr_offset = 0;
++	
++	pEntry = pDM_Odm->pODM_StaInfo[macId];	
++
++	reg0xc56_byte = ODM_Read1Byte(pDM_Odm, 0xc56);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("reg0xc56_byte=%d\n", reg0xc56_byte));
++
++	if (pEntry[macId].rssi_stat.UndecoratedSmoothedPWDB > 85) {
++
++		/* Avoid TXAGC error after TX power offset is applied.
++		For example: Reg0xc56=0x6, if txpwr_offset=3( reduce 11dB )
++		Total power = 6-11= -5( overflow!! ), PA may be burned !
++		so txpwr_offset should be adjusted by Reg0xc56*/
++		
++		if (reg0xc56_byte < 7)
++			txpwr_offset = 1;
++		else if (reg0xc56_byte < 11)
++			txpwr_offset = 2;
++		else
++			txpwr_offset = 3;
++		
++		SET_TX_DESC_TX_POWER_OFFSET_8812(pDesc, txpwr_offset);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("odm_DynamicTxPower_8821: RSSI=%d, txpwr_offset=%d\n", pEntry[macId].rssi_stat.UndecoratedSmoothedPWDB, txpwr_offset));
++
++	} else{
++		SET_TX_DESC_TX_POWER_OFFSET_8812(pDesc, txpwr_offset);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("odm_DynamicTxPower_8821: RSSI=%d, txpwr_offset=%d\n", pEntry[macId].rssi_stat.UndecoratedSmoothedPWDB, txpwr_offset));
++
++	}
++#endif	/*#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)*/
++#endif	/*#if (RTL8821A_SUPPORT==1)*/
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID 
++odm_DynamicTxPower_8814A(
++	IN		PVOID					pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER Adapter = pDM_Odm->Adapter;
++	PMGNT_INFO			pMgntInfo = &Adapter->MgntInfo;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	s4Byte				UndecoratedSmoothedPWDB;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, 
++	("TxLevel=%d pMgntInfo->IOTAction=%x pMgntInfo->bDynamicTxPowerEnable=%d\n", 
++	pHalData->DynamicTxHighPowerLvl, pMgntInfo->IOTAction, pMgntInfo->bDynamicTxPowerEnable));
++	
++	/*STA not connected and AP not connected*/
++	if ((!pMgntInfo->bMediaConnect) && (pHalData->EntryMinUndecoratedSmoothedPWDB == 0)) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("Not connected to any reset power lvl\n"));
++		pHalData->DynamicTxHighPowerLvl = TxHighPwrLevel_Normal;
++		return;
++	}
++
++
++	if ((pMgntInfo->bDynamicTxPowerEnable != TRUE) || pMgntInfo->IOTAction & HT_IOT_ACT_DISABLE_HIGH_POWER) {
++		pHalData->DynamicTxHighPowerLvl = TxHighPwrLevel_Normal;		
++	} else {
++		if (pMgntInfo->bMediaConnect) {	/*Default port*/
++			if (ACTING_AS_AP(Adapter) || ACTING_AS_IBSS(Adapter)) {
++				UndecoratedSmoothedPWDB = pHalData->EntryMinUndecoratedSmoothedPWDB;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("AP Client PWDB = 0x%x\n", UndecoratedSmoothedPWDB));
++			} else {
++				UndecoratedSmoothedPWDB = pHalData->UndecoratedSmoothedPWDB;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("STA Default Port PWDB = 0x%x\n", UndecoratedSmoothedPWDB));
++			}
++		} else {/*associated entry pwdb*/
++			UndecoratedSmoothedPWDB = pHalData->EntryMinUndecoratedSmoothedPWDB;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("AP Ext Port PWDB = 0x%x\n", UndecoratedSmoothedPWDB));
++			}
++
++		/*Should we separate as 2.4G/5G band?*/
++			
++		if (UndecoratedSmoothedPWDB >= TX_POWER_NEAR_FIELD_THRESH_LVL2) {
++			pHalData->DynamicTxHighPowerLvl = TxHighPwrLevel_Level2;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("TxHighPwrLevel_Level1 (TxPwr=0x0)\n"));
++		} else if ((UndecoratedSmoothedPWDB < (TX_POWER_NEAR_FIELD_THRESH_LVL2-3)) &&
++			(UndecoratedSmoothedPWDB >= TX_POWER_NEAR_FIELD_THRESH_LVL1)) {
++			pHalData->DynamicTxHighPowerLvl = TxHighPwrLevel_Level1;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("TxHighPwrLevel_Level1 (TxPwr=0x10)\n"));
++		} else if (UndecoratedSmoothedPWDB < (TX_POWER_NEAR_FIELD_THRESH_LVL1-5)) {
++			pHalData->DynamicTxHighPowerLvl = TxHighPwrLevel_Normal;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("TxHighPwrLevel_Normal\n"));
++		}
++	}
++
++
++	if (pHalData->DynamicTxHighPowerLvl != pHalData->LastDTPLvl) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("odm_DynamicTxPower_8814A() Channel = %d\n" , pHalData->CurrentChannel));
++		odm_SetTxPowerLevel8814(Adapter, pHalData->CurrentChannel, pHalData->DynamicTxHighPowerLvl);	
++	}
++
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, 
++	("odm_DynamicTxPower_8814A() Channel = %d  TXpower lvl=%d/%d\n" , 
++	pHalData->CurrentChannel, pHalData->LastDTPLvl, pHalData->DynamicTxHighPowerLvl));
++
++	pHalData->LastDTPLvl = pHalData->DynamicTxHighPowerLvl;
++
++}
++
++
++
++/**/
++/*For normal driver we always use the FW method to configure TX power index to reduce I/O transaction.*/
++/**/
++/**/
++VOID
++odm_SetTxPowerLevel8814(
++	IN	PADAPTER		Adapter,
++	IN	u1Byte			Channel,
++	IN	u1Byte			PwrLvl
++	)
++{
++#if (DEV_BUS_TYPE == RT_USB_INTERFACE)
++	u4Byte			i, j, k = 0;
++	u4Byte			value[264] = {0};
++	u4Byte			path = 0, PowerIndex, txagc_table_wd = 0x00801000;
++
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	u1Byte	jaguar2Rates[][4] = { {MGN_1M, MGN_2M, MGN_5_5M, MGN_11M}, 
++								{MGN_6M, MGN_9M, MGN_12M, MGN_18M}, 
++								{MGN_24M, MGN_36M, MGN_48M, MGN_54M}, 
++								{MGN_MCS0, MGN_MCS1, MGN_MCS2, MGN_MCS3},
++								{MGN_MCS4, MGN_MCS5, MGN_MCS6, MGN_MCS7}, 
++								{MGN_MCS8, MGN_MCS9, MGN_MCS10, MGN_MCS11},
++								{MGN_MCS12, MGN_MCS13, MGN_MCS14, MGN_MCS15},
++								{MGN_MCS16, MGN_MCS17, MGN_MCS18, MGN_MCS19}, 
++								{MGN_MCS20, MGN_MCS21, MGN_MCS22, MGN_MCS23},
++								{MGN_VHT1SS_MCS0, MGN_VHT1SS_MCS1, MGN_VHT1SS_MCS2, MGN_VHT1SS_MCS3}, 
++								{MGN_VHT1SS_MCS4, MGN_VHT1SS_MCS5, MGN_VHT1SS_MCS6, MGN_VHT1SS_MCS7}, 
++								{MGN_VHT2SS_MCS8, MGN_VHT2SS_MCS9, MGN_VHT2SS_MCS0, MGN_VHT2SS_MCS1}, 
++								{MGN_VHT2SS_MCS2, MGN_VHT2SS_MCS3, MGN_VHT2SS_MCS4, MGN_VHT2SS_MCS5}, 
++								{MGN_VHT2SS_MCS6, MGN_VHT2SS_MCS7, MGN_VHT2SS_MCS8, MGN_VHT2SS_MCS9},
++								{MGN_VHT3SS_MCS0, MGN_VHT3SS_MCS1, MGN_VHT3SS_MCS2, MGN_VHT3SS_MCS3}, 
++								{MGN_VHT3SS_MCS4, MGN_VHT3SS_MCS5, MGN_VHT3SS_MCS6, MGN_VHT3SS_MCS7}, 
++								{MGN_VHT3SS_MCS8, MGN_VHT3SS_MCS9, 0, 0} };	
++	
++	for (path = ODM_RF_PATH_A; path <= ODM_RF_PATH_D; ++path) {
++		
++		u1Byte	usb_host = UsbModeQueryHubUsbType(Adapter);
++		u1Byte	usb_rfset = UsbModeQueryRfSet(Adapter);
++		u1Byte	usb_rf_type = RT_GetRFType(Adapter);
++			
++		for (i = 0; i <= 16; i++) {
++			for (j = 0; j <= 3; j++) {
++				if (jaguar2Rates[i][j] == 0)
++					continue;
++				
++				txagc_table_wd =  0x00801000;
++				PowerIndex =  (u4Byte) PHY_GetTxPowerIndex(Adapter, (u1Byte)path, jaguar2Rates[i][j], pHalData->CurrentChannelBW, Channel);		
++
++				/*for Query bus type to recude tx power.*/
++				if (usb_host != USB_MODE_U3 && usb_rfset == 1 && IS_HARDWARE_TYPE_8814AU(Adapter) && usb_rf_type == RF_3T3R) {
++					if (Channel <= 14) {
++						if (PowerIndex >= 16)
++							PowerIndex -= 16;
++						else
++							PowerIndex = 0;
++					} else
++						PowerIndex = 0;
++				}
++
++				if (PwrLvl == TxHighPwrLevel_Level1) {
++					if (PowerIndex >= 0x10)
++						PowerIndex -= 0x10;
++					else
++						PowerIndex = 0;
++				} else if (PwrLvl == TxHighPwrLevel_Level2) {
++					PowerIndex = 0;
++				}
++				
++				txagc_table_wd |= (path << 8) | MRateToHwRate(jaguar2Rates[i][j]) | (PowerIndex << 24);
++
++				PHY_SetTxPowerIndexShadow(Adapter, (u1Byte)PowerIndex, (u1Byte)path, jaguar2Rates[i][j]);
++
++				value[k++] = txagc_table_wd;
++			}
++		}
++	}
++
++	if (Adapter->MgntInfo.bScanInProgress == FALSE &&  Adapter->MgntInfo.RegFWOffload == 2)
++		HalDownloadTxPowerLevel8814(Adapter, value);
++#endif
++}
++#endif
++
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dynamictxpower.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dynamictxpower.h
+new file mode 100644
+index 0000000..9d1c7f5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_dynamictxpower.h
+@@ -0,0 +1,110 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMDYNAMICTXPOWER_H__
++#define    __PHYDMDYNAMICTXPOWER_H__
++
++/*#define DYNAMIC_TXPWR_VERSION	"1.0"*/
++/*#define DYNAMIC_TXPWR_VERSION	"1.3" */ /*2015.08.26, Add 8814 Dynamic TX power*/
++#define DYNAMIC_TXPWR_VERSION	"1.4" /*2015.11.06, Add CE 8821A Dynamic TX power*/
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	#define		TX_POWER_NEAR_FIELD_THRESH_LVL2	74
++	#define		TX_POWER_NEAR_FIELD_THRESH_LVL1	60
++	#define		TX_POWER_NEAR_FIELD_THRESH_AP	0x3F
++#elif (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#define		TX_POWER_NEAR_FIELD_THRESH_LVL2	74
++	#define		TX_POWER_NEAR_FIELD_THRESH_LVL1	67
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#define		TX_POWER_NEAR_FIELD_THRESH_LVL2	74
++	#define		TX_POWER_NEAR_FIELD_THRESH_LVL1	60
++#endif
++
++#define		TxHighPwrLevel_Normal		0	
++#define		TxHighPwrLevel_Level1		1
++#define		TxHighPwrLevel_Level2		2
++
++#define		TxHighPwrLevel_BT1			3
++#define		TxHighPwrLevel_BT2			4
++#define		TxHighPwrLevel_15			5
++#define		TxHighPwrLevel_35			6
++#define		TxHighPwrLevel_50			7
++#define		TxHighPwrLevel_70			8
++#define		TxHighPwrLevel_100			9
++
++VOID 
++odm_DynamicTxPowerInit(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID
++odm_DynamicTxPowerRestorePowerIndex(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID 
++odm_DynamicTxPowerNIC(
++	IN		PVOID					pDM_VOID
++	);
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++VOID
++odm_DynamicTxPowerSavePowerIndex(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID
++odm_DynamicTxPowerWritePowerIndex(
++	IN		PVOID					pDM_VOID, 
++	IN 	u1Byte		Value);
++
++VOID 
++odm_DynamicTxPower_8821(
++	IN		PVOID					pDM_VOID,	
++	IN		pu1Byte					pDesc,
++	IN		u1Byte					macId
++	);
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID 
++odm_DynamicTxPower_8814A(
++	IN		PVOID					pDM_VOID
++	);
++
++	
++VOID
++odm_SetTxPowerLevel8814(
++	IN	PADAPTER		Adapter,
++	IN	u1Byte			Channel,
++	IN	u1Byte			PwrLvl
++	);
++#endif
++#endif
++
++VOID 
++odm_DynamicTxPower(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID 
++odm_DynamicTxPowerAP(
++	IN		PVOID					pDM_VOID
++	);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_edcaturbocheck.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_edcaturbocheck.c
+new file mode 100644
+index 0000000..9020839
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_edcaturbocheck.c
+@@ -0,0 +1,763 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++VOID
++ODM_EdcaTurboInit(
++	IN 	PVOID	 	pDM_VOID)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++#if (DM_ODM_SUPPORT_TYPE==ODM_WIN)
++	PADAPTER	Adapter = NULL;
++	HAL_DATA_TYPE	*pHalData = NULL;
++
++	if(pDM_Odm->Adapter==NULL)	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("EdcaTurboInit fail!!!\n"));
++		return;
++	}
++
++	Adapter=pDM_Odm->Adapter;
++	pHalData=GET_HAL_DATA(Adapter);
++
++	pDM_Odm->DM_EDCA_Table.bCurrentTurboEDCA = FALSE;	
++	pDM_Odm->DM_EDCA_Table.bIsCurRDLState = FALSE;
++	pHalData->bIsAnyNonBEPkts = FALSE;
++	
++#elif(DM_ODM_SUPPORT_TYPE==ODM_CE)
++	PADAPTER	Adapter = pDM_Odm->Adapter;	
++	pDM_Odm->DM_EDCA_Table.bCurrentTurboEDCA = FALSE;	
++	pDM_Odm->DM_EDCA_Table.bIsCurRDLState = FALSE;
++	Adapter->recvpriv.bIsAnyNonBEPkts =FALSE;
++
++#endif	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Orginial VO PARAM: 0x%x\n",ODM_Read4Byte(pDM_Odm,ODM_EDCA_VO_PARAM)));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Orginial VI PARAM: 0x%x\n",ODM_Read4Byte(pDM_Odm,ODM_EDCA_VI_PARAM)));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Orginial BE PARAM: 0x%x\n",ODM_Read4Byte(pDM_Odm,ODM_EDCA_BE_PARAM)));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Orginial BK PARAM: 0x%x\n",ODM_Read4Byte(pDM_Odm,ODM_EDCA_BK_PARAM)));
++
++	
++}	// ODM_InitEdcaTurbo
++
++VOID
++odm_EdcaTurboCheck(
++	IN 	PVOID	 	pDM_VOID
++	)
++{
++	// 
++	// For AP/ADSL use prtl8192cd_priv
++	// For CE/NIC use PADAPTER
++	//
++
++	//
++	// 2011/09/29 MH In HW integration first stage, we provide 4 different handle to operate
++	// at the same time. In the stage2/3, we need to prive universal interface and merge all
++	// HW dynamic mechanism.
++	//
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("odm_EdcaTurboCheck========================>\n"));
++
++	if(!(pDM_Odm->SupportAbility& ODM_MAC_EDCA_TURBO ))
++		return;
++
++	switch	(pDM_Odm->SupportPlatform)
++	{
++		case	ODM_WIN:
++
++#if(DM_ODM_SUPPORT_TYPE==ODM_WIN)
++			odm_EdcaTurboCheckMP(pDM_Odm);
++#endif
++			break;
++
++		case	ODM_CE:
++#if(DM_ODM_SUPPORT_TYPE==ODM_CE)
++			odm_EdcaTurboCheckCE(pDM_Odm);
++#endif
++			break;
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("<========================odm_EdcaTurboCheck\n"));
++
++}	// odm_CheckEdcaTurbo
++
++#if(DM_ODM_SUPPORT_TYPE==ODM_CE)
++
++
++VOID
++odm_EdcaTurboCheckCE(
++	IN 	PVOID	 	pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		       Adapter = pDM_Odm->Adapter;
++	u32	EDCA_BE_UL = 0x5ea42b;//Parameter suggested by Scott  //edca_setting_UL[pMgntInfo->IOTPeer];
++	u32	EDCA_BE_DL = 0x5ea42b;//Parameter suggested by Scott  //edca_setting_DL[pMgntInfo->IOTPeer];
++	u32	ICType=pDM_Odm->SupportICType;
++	u32	IOTPeer=0;
++	u8	WirelessMode=0xFF;                   //invalid value
++	u32 	trafficIndex;
++	u32	edca_param;
++	u64	cur_tx_bytes = 0;
++	u64	cur_rx_bytes = 0;
++	u8	bbtchange = _FALSE;
++	u8	bBiasOnRx = _FALSE;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	struct dvobj_priv		*pdvobjpriv = adapter_to_dvobj(Adapter);
++	struct xmit_priv		*pxmitpriv = &(Adapter->xmitpriv);
++	struct recv_priv		*precvpriv = &(Adapter->recvpriv);
++	struct registry_priv	*pregpriv = &Adapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &(Adapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if(pDM_Odm->bLinked != _TRUE)
++	{
++		precvpriv->bIsAnyNonBEPkts = _FALSE;
++		return;
++	}
++
++	if ((pregpriv->wifi_spec == 1) )//|| (pmlmeinfo->HT_enable == 0))
++	{
++		precvpriv->bIsAnyNonBEPkts = _FALSE;
++		return;
++	}
++
++	if(pDM_Odm->pWirelessMode!=NULL)
++		WirelessMode=*(pDM_Odm->pWirelessMode);
++
++	IOTPeer = pmlmeinfo->assoc_AP_vendor;
++
++	if (IOTPeer >=  HT_IOT_PEER_MAX)
++	{
++		precvpriv->bIsAnyNonBEPkts = _FALSE;
++		return;
++	}
++
++	if (pDM_Odm->SupportICType & ODM_RTL8188E) {
++		if((IOTPeer == HT_IOT_PEER_RALINK)||(IOTPeer == HT_IOT_PEER_ATHEROS))
++			bBiasOnRx = _TRUE;
++	}
++
++	// Check if the status needs to be changed.
++	if((bbtchange) || (!precvpriv->bIsAnyNonBEPkts) )
++	{
++		cur_tx_bytes = pdvobjpriv->traffic_stat.cur_tx_bytes;
++		cur_rx_bytes = pdvobjpriv->traffic_stat.cur_rx_bytes;
++
++		//traffic, TX or RX
++		if(bBiasOnRx)
++		{
++			if (cur_tx_bytes > (cur_rx_bytes << 2))
++			{ // Uplink TP is present.
++				trafficIndex = UP_LINK; 
++			}
++			else
++			{ // Balance TP is present.
++				trafficIndex = DOWN_LINK;
++			}
++		}
++		else
++		{
++			if (cur_rx_bytes > (cur_tx_bytes << 2))
++			{ // Downlink TP is present.
++				trafficIndex = DOWN_LINK;
++			}
++			else
++			{ // Balance TP is present.
++				trafficIndex = UP_LINK;
++			}
++		}
++
++		//if ((pDM_Odm->DM_EDCA_Table.prv_traffic_idx != trafficIndex) || (!pDM_Odm->DM_EDCA_Table.bCurrentTurboEDCA))
++		{
++			if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE) {
++				EDCA_BE_UL = 0x6ea42b;
++				EDCA_BE_DL = 0x6ea42b;
++			}
++
++			//92D txop can't be set to 0x3e for cisco1250
++			if ((IOTPeer == HT_IOT_PEER_CISCO) && (WirelessMode == ODM_WM_N24G))
++			{
++				EDCA_BE_DL = edca_setting_DL[IOTPeer];
++				EDCA_BE_UL = edca_setting_UL[IOTPeer];
++			}
++			//merge from 92s_92c_merge temp brunch v2445    20120215 
++			else if((IOTPeer == HT_IOT_PEER_CISCO) &&((WirelessMode==ODM_WM_G)||(WirelessMode==(ODM_WM_B|ODM_WM_G))||(WirelessMode==ODM_WM_A)||(WirelessMode==ODM_WM_B)))
++			{
++				EDCA_BE_DL = edca_setting_DL_GMode[IOTPeer];
++			}
++			else if((IOTPeer== HT_IOT_PEER_AIRGO )&& ((WirelessMode==ODM_WM_G)||(WirelessMode==ODM_WM_A)))
++			{
++				EDCA_BE_DL = 0xa630;
++			}
++			else if(IOTPeer == HT_IOT_PEER_MARVELL)
++			{
++				EDCA_BE_DL = edca_setting_DL[IOTPeer];
++				EDCA_BE_UL = edca_setting_UL[IOTPeer];
++			}
++			else if(IOTPeer == HT_IOT_PEER_ATHEROS)
++			{
++				// Set DL EDCA for Atheros peer to 0x3ea42b. Suggested by SD3 Wilson for ASUS TP issue. 
++				EDCA_BE_DL = edca_setting_DL[IOTPeer];
++			}
++
++			if((ICType==ODM_RTL8812)||(ICType==ODM_RTL8821)||(ICType==ODM_RTL8192E))           //add 8812AU/8812AE
++			{
++				EDCA_BE_UL = 0x5ea42b;
++				EDCA_BE_DL = 0x5ea42b;
++
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("8812A: EDCA_BE_UL=0x%x EDCA_BE_DL =0x%x",EDCA_BE_UL,EDCA_BE_DL));
++			}
++
++			if (trafficIndex == DOWN_LINK)
++				edca_param = EDCA_BE_DL;
++			else
++				edca_param = EDCA_BE_UL;
++
++			rtw_write32(Adapter, REG_EDCA_BE_PARAM, edca_param);
++
++			pDM_Odm->DM_EDCA_Table.prv_traffic_idx = trafficIndex;
++		}
++		
++		pDM_Odm->DM_EDCA_Table.bCurrentTurboEDCA = _TRUE;
++	}
++	else
++	{
++		//
++		// Turn Off EDCA turbo here.
++		// Restore original EDCA according to the declaration of AP.
++		//
++		 if(pDM_Odm->DM_EDCA_Table.bCurrentTurboEDCA)
++		{
++			rtw_write32(Adapter, REG_EDCA_BE_PARAM, pHalData->AcParam_BE);
++			pDM_Odm->DM_EDCA_Table.bCurrentTurboEDCA = _FALSE;
++		}
++	}
++
++}
++
++
++#elif(DM_ODM_SUPPORT_TYPE==ODM_WIN)
++VOID
++odm_EdcaTurboCheckMP(
++	IN 	PVOID	 	pDM_VOID
++	)
++{
++
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		       Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++
++	PADAPTER 			pDefaultAdapter = GetDefaultAdapter(Adapter);
++	PADAPTER 			pExtAdapter = GetFirstExtAdapter(Adapter);//NULL;
++	PMGNT_INFO			pMgntInfo = &Adapter->MgntInfo;
++	PSTA_QOS			pStaQos = Adapter->MgntInfo.pStaQos;
++	//[Win7 Count Tx/Rx statistic for Extension Port] odm_CheckEdcaTurbo's Adapter is always Default. 2009.08.20, by Bohn
++	u8Byte				Ext_curTxOkCnt = 0;
++	u8Byte				Ext_curRxOkCnt = 0;	
++	//For future Win7  Enable Default Port to modify AMPDU size dynamically, 2009.08.20, Bohn.	
++	u1Byte TwoPortStatus = (u1Byte)TWO_PORT_STATUS__WITHOUT_ANY_ASSOCIATE;
++
++	// Keep past Tx/Rx packet count for RT-to-RT EDCA turbo.
++	u8Byte				curTxOkCnt = 0;
++	u8Byte				curRxOkCnt = 0;	
++	u4Byte				EDCA_BE_UL = 0x5ea42b;//Parameter suggested by Scott  //edca_setting_UL[pMgntInfo->IOTPeer];
++	u4Byte				EDCA_BE_DL = 0x5ea42b;//Parameter suggested by Scott  //edca_setting_DL[pMgntInfo->IOTPeer];
++	u4Byte                         EDCA_BE = 0x5ea42b;
++	u1Byte                         IOTPeer=0;
++	BOOLEAN                      *pbIsCurRDLState=NULL;
++	BOOLEAN                      bLastIsCurRDLState=FALSE;
++	BOOLEAN				 bBiasOnRx=FALSE;
++	BOOLEAN				bEdcaTurboOn=FALSE;
++	u1Byte				TxRate = 0xFF;
++	u8Byte				value64;	
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("odm_EdcaTurboCheckMP========================>"));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Orginial BE PARAM: 0x%x\n",ODM_Read4Byte(pDM_Odm,ODM_EDCA_BE_PARAM)));
++
++////===============================
++////list paramter for different platform
++////===============================
++	bLastIsCurRDLState=pDM_Odm->DM_EDCA_Table.bIsCurRDLState;
++	pbIsCurRDLState=&(pDM_Odm->DM_EDCA_Table.bIsCurRDLState);	
++
++	//2012/09/14 MH Add 
++	if (pMgntInfo->NumNonBePkt > pMgntInfo->RegEdcaThresh && !(Adapter->MgntInfo.bWiFiConfg & RT_WIFI_LOGO))
++		pHalData->bIsAnyNonBEPkts = TRUE;
++
++	pMgntInfo->NumNonBePkt = 0;
++
++       // Caculate TX/RX TP:
++	curTxOkCnt = pDM_Odm->curTxOkCnt;
++	curRxOkCnt = pDM_Odm->curRxOkCnt;
++
++
++	if(pExtAdapter == NULL) 
++		pExtAdapter = pDefaultAdapter;
++
++	Ext_curTxOkCnt = pExtAdapter->TxStats.NumTxBytesUnicast - pMgntInfo->Ext_lastTxOkCnt;
++	Ext_curRxOkCnt = pExtAdapter->RxStats.NumRxBytesUnicast - pMgntInfo->Ext_lastRxOkCnt;
++	GetTwoPortSharedResource(Adapter,TWO_PORT_SHARED_OBJECT__STATUS,NULL,&TwoPortStatus);
++	//For future Win7  Enable Default Port to modify AMPDU size dynamically, 2009.08.20, Bohn.
++	if(TwoPortStatus == TWO_PORT_STATUS__EXTENSION_ONLY)
++	{
++		curTxOkCnt = Ext_curTxOkCnt ;
++		curRxOkCnt = Ext_curRxOkCnt ;
++	}
++	//
++	IOTPeer=pMgntInfo->IOTPeer;
++	bBiasOnRx=(pMgntInfo->IOTAction & HT_IOT_ACT_EDCA_BIAS_ON_RX)?TRUE:FALSE;
++	bEdcaTurboOn=((!pHalData->bIsAnyNonBEPkts))?TRUE:FALSE;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("bIsAnyNonBEPkts : 0x%lx  \n",pHalData->bIsAnyNonBEPkts));
++
++
++////===============================
++////check if edca turbo is disabled
++////===============================
++	if(odm_IsEdcaTurboDisable(pDM_Odm))
++	{
++		pHalData->bIsAnyNonBEPkts = FALSE;
++		pMgntInfo->lastTxOkCnt = Adapter->TxStats.NumTxBytesUnicast;
++		pMgntInfo->lastRxOkCnt = Adapter->RxStats.NumRxBytesUnicast;
++		pMgntInfo->Ext_lastTxOkCnt = pExtAdapter->TxStats.NumTxBytesUnicast;
++		pMgntInfo->Ext_lastRxOkCnt = pExtAdapter->RxStats.NumRxBytesUnicast;
++
++	}
++
++////===============================
++////remove iot case out
++////===============================
++	ODM_EdcaParaSelByIot(pDM_Odm, &EDCA_BE_UL, &EDCA_BE_DL);
++
++
++////===============================
++////Check if the status needs to be changed.
++////===============================
++	if(bEdcaTurboOn)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("bEdcaTurboOn : 0x%x bBiasOnRx : 0x%x\n",bEdcaTurboOn,bBiasOnRx));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("curTxOkCnt : 0x%lx \n",curTxOkCnt));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("curRxOkCnt : 0x%lx \n",curRxOkCnt));
++		if(bBiasOnRx)
++			odm_EdcaChooseTrafficIdx(pDM_Odm,curTxOkCnt, curRxOkCnt,   TRUE,  pbIsCurRDLState);
++		else
++			odm_EdcaChooseTrafficIdx(pDM_Odm,curTxOkCnt, curRxOkCnt,   FALSE,  pbIsCurRDLState);
++
++//modify by Guo.Mingzhi 2011-12-29
++			EDCA_BE=((*pbIsCurRDLState)==TRUE)?EDCA_BE_DL:EDCA_BE_UL;
++			if(IS_HARDWARE_TYPE_8821U(Adapter))
++			{
++				if(pMgntInfo->RegTxDutyEnable)
++				{
++					//2013.01.23 LukeLee: debug for 8811AU thermal issue (reduce Tx duty cycle)
++					if(!pMgntInfo->ForcedDataRate) //auto rate
++					{
++						if(pDM_Odm->TxRate != 0xFF)
++							TxRate = Adapter->HalFunc.GetHwRateFromMRateHandler(pDM_Odm->TxRate); 
++					}
++					else //force rate
++					{
++						TxRate = (u1Byte) pMgntInfo->ForcedDataRate;
++					}
++
++					value64 = (curRxOkCnt<<2);
++					if(curTxOkCnt < value64) //Downlink
++						ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,EDCA_BE);
++					else //Uplink
++					{
++						/*DbgPrint("pRFCalibrateInfo->ThermalValue = 0x%X\n", pRFCalibrateInfo->ThermalValue);*/
++						/*if(pRFCalibrateInfo->ThermalValue < pHalData->EEPROMThermalMeter)*/
++						if((pDM_Odm->RFCalibrateInfo.ThermalValue < 0x2c) || (*pDM_Odm->pBandType == BAND_ON_2_4G))
++							ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,EDCA_BE);
++						else
++						{
++							switch (TxRate)
++							{
++								case MGN_VHT1SS_MCS6:
++								case MGN_VHT1SS_MCS5:
++								case MGN_MCS6:
++								case MGN_MCS5:
++								case MGN_48M:
++								case MGN_54M:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0x1ea42b);
++								break;
++								case MGN_VHT1SS_MCS4:
++								case MGN_MCS4:
++								case MGN_36M:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa42b);
++								break;
++								case MGN_VHT1SS_MCS3:
++								case MGN_MCS3:
++								case MGN_24M:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa47f);
++								break;
++								case MGN_VHT1SS_MCS2:
++								case MGN_MCS2:
++								case MGN_18M:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa57f);
++								break;
++								case MGN_VHT1SS_MCS1:
++								case MGN_MCS1:
++								case MGN_9M:
++								case MGN_12M:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa77f);
++								break;
++								case MGN_VHT1SS_MCS0:
++								case MGN_MCS0:
++								case MGN_6M:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa87f);
++								break;
++								default:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,EDCA_BE);
++								break;
++							}
++						}
++					}				
++				}
++				else
++				{
++					ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,EDCA_BE);
++				}
++
++			}
++			else if (IS_HARDWARE_TYPE_8812AU(Adapter)){
++				if(pMgntInfo->RegTxDutyEnable)
++				{
++					//2013.07.26 Wilson: debug for 8812AU thermal issue (reduce Tx duty cycle)
++					// it;s the same issue as 8811AU
++					if(!pMgntInfo->ForcedDataRate) //auto rate
++					{
++						if(pDM_Odm->TxRate != 0xFF)
++							TxRate = Adapter->HalFunc.GetHwRateFromMRateHandler(pDM_Odm->TxRate); 
++					}
++					else //force rate
++					{
++						TxRate = (u1Byte) pMgntInfo->ForcedDataRate;
++					}
++
++					value64 = (curRxOkCnt<<2);
++					if(curTxOkCnt < value64) //Downlink
++						ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,EDCA_BE);
++					else //Uplink
++					{
++						/*DbgPrint("pRFCalibrateInfo->ThermalValue = 0x%X\n", pRFCalibrateInfo->ThermalValue);*/
++						/*if(pRFCalibrateInfo->ThermalValue < pHalData->EEPROMThermalMeter)*/
++						if((pDM_Odm->RFCalibrateInfo.ThermalValue < 0x2c) || (*pDM_Odm->pBandType == BAND_ON_2_4G))
++							ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,EDCA_BE);
++						else
++						{
++							switch (TxRate)
++							{
++								case MGN_VHT2SS_MCS9:
++								case MGN_VHT1SS_MCS9:									
++								case MGN_VHT1SS_MCS8:
++								case MGN_MCS15:
++								case MGN_MCS7:									
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0x1ea44f);							
++								case MGN_VHT2SS_MCS8:
++								case MGN_VHT1SS_MCS7:
++								case MGN_MCS14:
++								case MGN_MCS6:
++								case MGN_54M:									
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa44f);
++								case MGN_VHT2SS_MCS7:
++								case MGN_VHT2SS_MCS6:
++								case MGN_VHT1SS_MCS6:
++								case MGN_VHT1SS_MCS5:
++								case MGN_MCS13:
++								case MGN_MCS5:
++								case MGN_48M:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa630);
++								break;
++								case MGN_VHT2SS_MCS5:
++								case MGN_VHT2SS_MCS4:
++								case MGN_VHT1SS_MCS4:
++								case MGN_VHT1SS_MCS3:	
++								case MGN_MCS12:
++								case MGN_MCS4:	
++								case MGN_MCS3:	
++								case MGN_36M:
++								case MGN_24M:	
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa730);
++								break;
++								case MGN_VHT2SS_MCS3:
++								case MGN_VHT2SS_MCS2:
++								case MGN_VHT2SS_MCS1:
++								case MGN_VHT1SS_MCS2:
++								case MGN_VHT1SS_MCS1:	
++								case MGN_MCS11:	
++								case MGN_MCS10:	
++								case MGN_MCS9:		
++								case MGN_MCS2:	
++								case MGN_MCS1:
++								case MGN_18M:	
++								case MGN_12M:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa830);
++								break;
++								case MGN_VHT2SS_MCS0:
++								case MGN_VHT1SS_MCS0:
++								case MGN_MCS0:	
++								case MGN_MCS8:
++								case MGN_9M:	
++								case MGN_6M:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa87f);
++								break;
++								default:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,EDCA_BE);
++								break;
++							}
++						}
++					}				
++				}
++				else
++				{
++					ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,EDCA_BE);
++				}
++			}
++			else
++				ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,EDCA_BE);
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("EDCA Turbo on: EDCA_BE:0x%lx\n",EDCA_BE));
++
++		pDM_Odm->DM_EDCA_Table.bCurrentTurboEDCA = TRUE;
++		
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("EDCA_BE_DL : 0x%lx  EDCA_BE_UL : 0x%lx  EDCA_BE : 0x%lx  \n",EDCA_BE_DL,EDCA_BE_UL,EDCA_BE));
++
++	}
++	else
++	{
++		// Turn Off EDCA turbo here.
++		// Restore original EDCA according to the declaration of AP.
++		 if(pDM_Odm->DM_EDCA_Table.bCurrentTurboEDCA)
++		{
++			Adapter->HalFunc.SetHwRegHandler(Adapter, HW_VAR_AC_PARAM, GET_WMM_PARAM_ELE_SINGLE_AC_PARAM(pStaQos->WMMParamEle, AC0_BE) );
++
++			pDM_Odm->DM_EDCA_Table.bCurrentTurboEDCA = FALSE;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Restore EDCA BE: 0x%lx  \n",pDM_Odm->WMMEDCA_BE));
++
++		}
++	}
++
++}
++
++
++//check if edca turbo is disabled
++BOOLEAN
++odm_IsEdcaTurboDisable(
++	IN 	PVOID	 	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		       Adapter = pDM_Odm->Adapter;
++	PMGNT_INFO			pMgntInfo = &Adapter->MgntInfo;
++	u4Byte				IOTPeer=pMgntInfo->IOTPeer;
++
++	if(pDM_Odm->bBtDisableEdcaTurbo)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD, ("EdcaTurboDisable for BT!!\n"));
++		return TRUE;
++	}
++
++	if((!(pDM_Odm->SupportAbility& ODM_MAC_EDCA_TURBO ))||
++		(pDM_Odm->WIFITest & RT_WIFI_LOGO)||
++		(IOTPeer>= HT_IOT_PEER_MAX))
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD, ("EdcaTurboDisable\n"));
++		return TRUE;
++	}
++
++
++	// 1. We do not turn on EDCA turbo mode for some AP that has IOT issue
++	// 2. User may disable EDCA Turbo mode with OID settings.
++	if(pMgntInfo->IOTAction & HT_IOT_ACT_DISABLE_EDCA_TURBO){
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD, ("IOTAction:EdcaTurboDisable\n"));
++		return	TRUE;
++		}
++		
++	return	FALSE;
++	
++
++}
++
++//add iot case here: for MP/CE
++VOID 
++ODM_EdcaParaSelByIot(
++	IN 	PVOID	 	pDM_VOID,
++	OUT	u4Byte		*EDCA_BE_UL,
++	OUT u4Byte		*EDCA_BE_DL
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		       Adapter = pDM_Odm->Adapter;
++	u4Byte                         IOTPeer=0;
++	u4Byte                         ICType=pDM_Odm->SupportICType;
++	u1Byte                         WirelessMode=0xFF;                   //invalid value
++	u4Byte                         IOTPeerSubType = 0;
++
++	PMGNT_INFO			pMgntInfo = &Adapter->MgntInfo;
++	u1Byte 				TwoPortStatus = (u1Byte)TWO_PORT_STATUS__WITHOUT_ANY_ASSOCIATE;
++
++	if(pDM_Odm->pWirelessMode!=NULL)
++		WirelessMode=*(pDM_Odm->pWirelessMode);
++		
++///////////////////////////////////////////////////////////
++////list paramter for different platform
++
++	IOTPeer=pMgntInfo->IOTPeer;
++	IOTPeerSubType=pMgntInfo->IOTPeerSubtype;
++	GetTwoPortSharedResource(Adapter,TWO_PORT_SHARED_OBJECT__STATUS,NULL,&TwoPortStatus);
++
++////============================
++/// IOT case for MP
++////============================	
++	if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE) {
++			(*EDCA_BE_UL) = 0x6ea42b;
++			(*EDCA_BE_DL) = 0x6ea42b;
++	}
++ 
++	if(TwoPortStatus == TWO_PORT_STATUS__EXTENSION_ONLY)
++	{
++		(*EDCA_BE_UL) = 0x5ea42b;//Parameter suggested by Scott  //edca_setting_UL[ExtAdapter->MgntInfo.IOTPeer];
++		(*EDCA_BE_DL) = 0x5ea42b;//Parameter suggested by Scott  //edca_setting_DL[ExtAdapter->MgntInfo.IOTPeer];
++	}
++     
++	#if (INTEL_PROXIMITY_SUPPORT == 1)
++	if(pMgntInfo->IntelClassModeInfo.bEnableCA == TRUE)
++	{
++		(*EDCA_BE_UL) = (*EDCA_BE_DL) = 0xa44f;
++	}
++	else
++	#endif		
++	{
++		if((pMgntInfo->IOTAction & (HT_IOT_ACT_FORCED_ENABLE_BE_TXOP|HT_IOT_ACT_AMSDU_ENABLE)))
++		{// To check whether we shall force turn on TXOP configuration.
++			if(!((*EDCA_BE_UL) & 0xffff0000))
++				(*EDCA_BE_UL) |= 0x005e0000; // Force TxOP limit to 0x005e for UL.
++			if(!((*EDCA_BE_DL) & 0xffff0000))
++				(*EDCA_BE_DL) |= 0x005e0000; // Force TxOP limit to 0x005e for DL.
++		}
++		
++		//92D txop can't be set to 0x3e for cisco1250
++		if ((IOTPeer == HT_IOT_PEER_CISCO) && (WirelessMode == ODM_WM_N24G))
++		{
++			(*EDCA_BE_DL) = edca_setting_DL[IOTPeer];
++			(*EDCA_BE_UL) = edca_setting_UL[IOTPeer];
++		}
++		//merge from 92s_92c_merge temp brunch v2445    20120215 
++		else if((IOTPeer == HT_IOT_PEER_CISCO) &&((WirelessMode==ODM_WM_G)||(WirelessMode==(ODM_WM_B|ODM_WM_G))||(WirelessMode==ODM_WM_A)||(WirelessMode==ODM_WM_B)))
++		{
++			(*EDCA_BE_DL) = edca_setting_DL_GMode[IOTPeer];
++		}
++		else if((IOTPeer== HT_IOT_PEER_AIRGO )&& ((WirelessMode==ODM_WM_G)||(WirelessMode==ODM_WM_A)))
++		{
++			(*EDCA_BE_DL) = 0xa630;
++		}
++
++		else if(IOTPeer == HT_IOT_PEER_MARVELL)
++		{
++			(*EDCA_BE_DL) = edca_setting_DL[IOTPeer];
++			(*EDCA_BE_UL) = edca_setting_UL[IOTPeer];
++		}
++		else if(IOTPeer == HT_IOT_PEER_ATHEROS && IOTPeerSubType != HT_IOT_PEER_TPLINK_AC1750)
++		{
++			// Set DL EDCA for Atheros peer to 0x3ea42b. Suggested by SD3 Wilson for ASUS TP issue. 
++			if(WirelessMode==ODM_WM_G)
++				(*EDCA_BE_DL) = edca_setting_DL_GMode[IOTPeer];
++			else
++				(*EDCA_BE_DL) = edca_setting_DL[IOTPeer];
++
++			if(ICType == ODM_RTL8821)
++				 (*EDCA_BE_DL) = 0x5ea630;
++			
++		}
++	}
++
++	if((ICType==ODM_RTL8812)||(ICType==ODM_RTL8192E))           //add 8812AU/8812AE
++	{
++		(*EDCA_BE_UL) = 0x5ea42b;
++		(*EDCA_BE_DL) = 0x5ea42b;
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("8812A: EDCA_BE_UL=0x%lx EDCA_BE_DL =0x%lx\n",(*EDCA_BE_UL),(*EDCA_BE_DL)));
++	}
++
++	if((ICType==ODM_RTL8814A) && (IOTPeer == HT_IOT_PEER_REALTEK))           /*8814AU and 8814AR*/
++	{
++		(*EDCA_BE_UL) = 0x5ea42b;
++		(*EDCA_BE_DL) = 0xa42b;
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("8814A: EDCA_BE_UL=0x%lx EDCA_BE_DL =0x%lx\n",(*EDCA_BE_UL),(*EDCA_BE_DL)));
++	}
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Special: EDCA_BE_UL=0x%lx EDCA_BE_DL =0x%lx, IOTPeer = %d\n",(*EDCA_BE_UL),(*EDCA_BE_DL), IOTPeer));
++
++}
++
++
++VOID
++odm_EdcaChooseTrafficIdx( 
++	IN 	PVOID	 	pDM_VOID,
++	IN	u8Byte  			cur_tx_bytes,  
++	IN	u8Byte  			cur_rx_bytes, 
++	IN	BOOLEAN 		bBiasOnRx,
++	OUT BOOLEAN 		*pbIsCurRDLState
++	)
++{	
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	if(bBiasOnRx)
++	{
++	  
++		if(cur_tx_bytes>(cur_rx_bytes*4))
++		{
++			*pbIsCurRDLState=FALSE;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Uplink Traffic\n "));
++
++		}
++		else
++		{
++			*pbIsCurRDLState=TRUE;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Balance Traffic\n"));
++
++		}
++	}
++	else
++	{
++		if(cur_rx_bytes>(cur_tx_bytes*4))
++		{
++			*pbIsCurRDLState=TRUE;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Downlink	Traffic\n"));
++
++		}
++		else
++		{
++			*pbIsCurRDLState=FALSE;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Balance Traffic\n"));
++		}
++	}
++
++	return ;
++}
++
++#endif
++
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_edcaturbocheck.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_edcaturbocheck.h
+new file mode 100644
+index 0000000..2671f86
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_edcaturbocheck.h
+@@ -0,0 +1,100 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMEDCATURBOCHECK_H__
++#define    __PHYDMEDCATURBOCHECK_H__
++
++/*#define EDCATURBO_VERSION	"2.1"*/
++#define EDCATURBO_VERSION	"2.3"	/*2015.07.29 by YuChen*/
++
++typedef struct _EDCA_TURBO_
++{
++	BOOLEAN bCurrentTurboEDCA;
++	BOOLEAN bIsCurRDLState;
++
++	#if(DM_ODM_SUPPORT_TYPE == ODM_CE	)
++	u4Byte	prv_traffic_idx; // edca turbo
++	#endif
++
++}EDCA_T,*pEDCA_T;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++static u4Byte edca_setting_UL[HT_IOT_PEER_MAX] = 
++// UNKNOWN		REALTEK_90	REALTEK_92SE	BROADCOM		RALINK		ATHEROS		CISCO		MERU        MARVELL	92U_AP		SELF_AP(DownLink/Tx)
++{ 0x5e4322, 		0xa44f, 		0x5e4322,		0x5ea32b,  		0x5ea422, 	0x5ea322,	0x3ea430,	0x5ea42b, 0x5ea44f,	0x5e4322,	0x5e4322};
++
++
++static u4Byte edca_setting_DL[HT_IOT_PEER_MAX] = 
++// UNKNOWN		REALTEK_90	REALTEK_92SE	BROADCOM		RALINK		ATHEROS		CISCO		MERU,       MARVELL	92U_AP		SELF_AP(UpLink/Rx)
++{ 0xa44f, 		0x5ea44f, 	0x5e4322, 		0x5ea42b, 		0xa44f, 		0xa630, 		0x5ea630,	0x5ea42b, 0xa44f,		0xa42b,		0xa42b};
++
++static u4Byte edca_setting_DL_GMode[HT_IOT_PEER_MAX] = 
++// UNKNOWN		REALTEK_90	REALTEK_92SE	BROADCOM		RALINK		ATHEROS		CISCO		MERU,       MARVELL	92U_AP		SELF_AP
++{ 0x4322, 		0xa44f, 		0x5e4322,		0xa42b, 			0x5e4322, 	0x4322, 		0xa42b,		0x5ea42b, 0xa44f,		0x5e4322,	0x5ea42b};
++
++#endif
++
++
++
++VOID
++odm_EdcaTurboCheck(
++	IN 	PVOID	 	pDM_VOID
++	);
++VOID
++ODM_EdcaTurboInit(
++	IN 	PVOID	 	pDM_VOID
++);
++
++#if(DM_ODM_SUPPORT_TYPE==ODM_WIN)
++VOID
++odm_EdcaTurboCheckMP(
++	IN 	PVOID	 	pDM_VOID
++	);
++
++//check if edca turbo is disabled
++BOOLEAN
++odm_IsEdcaTurboDisable(
++	IN 	PVOID	 	pDM_VOID
++);
++//choose edca paramter for special IOT case
++VOID 
++ODM_EdcaParaSelByIot(
++	IN		PVOID					pDM_VOID,
++	OUT	u4Byte		*EDCA_BE_UL,
++	OUT u4Byte		*EDCA_BE_DL
++	);
++//check if it is UL or DL
++VOID
++odm_EdcaChooseTrafficIdx( 
++	IN 	PVOID	 	pDM_VOID,
++	IN	u8Byte  			cur_tx_bytes,  
++	IN	u8Byte  			cur_rx_bytes, 
++	IN	BOOLEAN 		bBiasOnRx,
++	OUT BOOLEAN 		*pbIsCurRDLState
++	);
++
++#elif (DM_ODM_SUPPORT_TYPE==ODM_CE)
++VOID
++odm_EdcaTurboCheckCE(
++	IN 	PVOID	 	pDM_VOID
++	);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_features.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_features.h
+new file mode 100644
+index 0000000..2bcd869
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_features.h
+@@ -0,0 +1,133 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef	__PHYDM_FEATURES_H__
++#define __PHYDM_FEATURES
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	/*Antenna Diversity*/
++	#define CONFIG_PHYDM_ANTENNA_DIVERSITY
++	#ifdef CONFIG_PHYDM_ANTENNA_DIVERSITY
++	
++		#if (RTL8723B_SUPPORT == 1) || (RTL8821A_SUPPORT == 1) || (RTL8188F_SUPPORT == 1)
++		#define	CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++		#endif
++		
++		#if (RTL8821A_SUPPORT == 1)
++		/*#define CONFIG_HL_SMART_ANTENNA_TYPE1*/
++		#define CONFIG_FAT_PATCH
++		#endif
++	#endif
++	
++	#define RA_MASK_PHYDMLIZE_WIN
++	/*#define CONFIG_PATH_DIVERSITY*/
++	/*#define CONFIG_RA_DYNAMIC_RTY_LIMIT*/
++	#define CONFIG_ANT_DETECTION
++	/*#define CONFIG_RA_DBG_CMD*/
++	#define	CONFIG_RA_FW_DBG_CODE	1
++	/*#define CONFIG_PHYDM_RX_SNIFFER_PARSING*/
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++	#define RA_MASK_PHYDMLIZE_AP
++
++	/* #define CONFIG_RA_DBG_CMD*/
++	#define	CONFIG_RA_FW_DBG_CODE	0
++	
++	/*#define CONFIG_PATH_DIVERSITY*/
++	/*#define CONFIG_RA_DYNAMIC_RTY_LIMIT*/
++	#define CONFIG_RA_DYNAMIC_RATE_ID
++	
++	/* [ Configure Antenna Diversity ] */
++	#if defined(CONFIG_RTL_8881A_ANT_SWITCH) || defined(CONFIG_SLOT_0_ANT_SWITCH) || defined(CONFIG_SLOT_1_ANT_SWITCH)
++		#define CONFIG_PHYDM_ANTENNA_DIVERSITY 
++		#define ODM_EVM_ENHANCE_ANTDIV
++
++		/*----------*/
++		
++		#if (!defined(CONFIG_NO_2G_DIVERSITY) && !defined(CONFIG_2G5G_CG_TRX_DIVERSITY_8881A) && !defined(CONFIG_2G_CGCS_RX_DIVERSITY) && !defined(CONFIG_2G_CG_TRX_DIVERSITY) && !defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY))
++			#define CONFIG_NO_2G_DIVERSITY
++		#endif
++
++		#ifdef CONFIG_NO_5G_DIVERSITY_8881A
++			#define CONFIG_NO_5G_DIVERSITY
++		#elif defined(CONFIG_5G_CGCS_RX_DIVERSITY_8881A)
++			#define CONFIG_5G_CGCS_RX_DIVERSITY
++		#elif defined(CONFIG_5G_CG_TRX_DIVERSITY_8881A)
++			#define CONFIG_5G_CG_TRX_DIVERSITY
++		#elif defined(CONFIG_2G5G_CG_TRX_DIVERSITY_8881A)
++			#define CONFIG_2G5G_CG_TRX_DIVERSITY
++		#endif
++		#if (!defined(CONFIG_NO_5G_DIVERSITY) && !defined(CONFIG_5G_CGCS_RX_DIVERSITY) && !defined(CONFIG_5G_CG_TRX_DIVERSITY) && !defined(CONFIG_2G5G_CG_TRX_DIVERSITY) && !defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY))
++			#define CONFIG_NO_5G_DIVERSITY
++		#endif	
++		 /*----------*/
++		#if (defined(CONFIG_NO_2G_DIVERSITY) && defined(CONFIG_NO_5G_DIVERSITY))
++			#define CONFIG_NOT_SUPPORT_ANTDIV 
++		#elif (!defined(CONFIG_NO_2G_DIVERSITY) && defined(CONFIG_NO_5G_DIVERSITY))
++			#define CONFIG_2G_SUPPORT_ANTDIV
++		#elif (defined(CONFIG_NO_2G_DIVERSITY) && !defined(CONFIG_NO_5G_DIVERSITY))
++			#define CONFIG_5G_SUPPORT_ANTDIV
++		#elif ((!defined(CONFIG_NO_2G_DIVERSITY) && !defined(CONFIG_NO_5G_DIVERSITY)) || defined(CONFIG_2G5G_CG_TRX_DIVERSITY))
++			#define CONFIG_2G5G_SUPPORT_ANTDIV 
++		#endif
++		 /*----------*/
++	#endif
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++	#define RA_MASK_PHYDMLIZE_CE 1
++
++	/*Antenna Diversity*/
++	#ifdef CONFIG_ANTENNA_DIVERSITY
++		#define CONFIG_PHYDM_ANTENNA_DIVERSITY
++		
++		#ifdef CONFIG_PHYDM_ANTENNA_DIVERSITY
++		
++			#if (RTL8723B_SUPPORT == 1) || (RTL8821A_SUPPORT == 1) || (RTL8188F_SUPPORT == 1)
++			#define	CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++			#endif
++			
++			#if (RTL8821A_SUPPORT == 1)
++			/*#define CONFIG_HL_SMART_ANTENNA_TYPE1*/
++			#endif
++		#endif
++	#endif
++	
++	#ifdef CONFIG_DFS_MASTER
++		#define CONFIG_PHYDM_DFS_MASTER
++	#endif
++
++	/*#define CONFIG_RA_DBG_CMD*/
++	#define	CONFIG_RA_FW_DBG_CODE	0
++	/*#define CONFIG_ANT_DETECTION*/
++	/*#define CONFIG_PATH_DIVERSITY*/
++	/*#define CONFIG_RA_DYNAMIC_RTY_LIMIT*/
++
++	#ifdef CONFIG_BT_COEXIST
++		#define BT_SUPPORT      1
++	#endif
++
++
++#endif
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_hwconfig.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_hwconfig.c
+new file mode 100644
+index 0000000..70e1526
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_hwconfig.c
+@@ -0,0 +1,3530 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#define READ_AND_CONFIG_MP(ic, txt) (ODM_ReadAndConfig_MP_##ic##txt(pDM_Odm))
++#define READ_AND_CONFIG_TC(ic, txt) (ODM_ReadAndConfig_TC_##ic##txt(pDM_Odm))
++
++
++#if (PHYDM_TESTCHIP_SUPPORT == 1)
++#define READ_AND_CONFIG(ic, txt) do {\
++                                            if (pDM_Odm->bIsMPChip)\
++                                    		    READ_AND_CONFIG_MP(ic,txt);\
++                                            else\
++                                                READ_AND_CONFIG_TC(ic,txt);\
++                                    } while(0)
++#else
++  #define READ_AND_CONFIG     READ_AND_CONFIG_MP
++#endif
++
++
++#define READ_FIRMWARE_MP(ic, txt) 		(ODM_ReadFirmware_MP_##ic##txt(pDM_Odm, pFirmware, pSize))
++#define READ_FIRMWARE_TC(ic, txt) 		(ODM_ReadFirmware_TC_##ic##txt(pDM_Odm, pFirmware, pSize))		
++
++#if (PHYDM_TESTCHIP_SUPPORT == 1)
++#define READ_FIRMWARE(ic, txt) do {\
++						if (pDM_Odm->bIsMPChip)\
++							READ_FIRMWARE_MP(ic,txt);\
++						else\
++							READ_FIRMWARE_TC(ic,txt);\
++					} while(0) 
++#else
++#define READ_FIRMWARE     READ_FIRMWARE_MP
++#endif
++						
++#define GET_VERSION_MP(ic, txt) 		(ODM_GetVersion_MP_##ic##txt())
++#define GET_VERSION_TC(ic, txt) 		(ODM_GetVersion_TC_##ic##txt())
++#define GET_VERSION(ic, txt) (pDM_Odm->bIsMPChip?GET_VERSION_MP(ic,txt):GET_VERSION_TC(ic,txt))
++
++u1Byte
++odm_QueryRxPwrPercentage(
++	IN		s1Byte		AntPower
++	)
++{
++	if ((AntPower <= -100) || (AntPower >= 20))
++		return	0;
++	else if (AntPower >= 0)
++		return	100;
++	else
++		return	(100 + AntPower);
++}
++
++
++//
++// 2012/01/12 MH MOve some signal strength smooth method to MP HAL layer.
++// IF other SW team do not support the feature, remove this section.??
++//
++s4Byte
++odm_SignalScaleMapping_92CSeries_patch_RT_CID_819x_Lenovo(	
++	IN OUT PDM_ODM_T pDM_Odm,
++	s4Byte CurrSig 
++)
++{	
++	s4Byte RetSig = 0;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	//if(pDM_Odm->SupportInterface  == ODM_ITRF_PCIE) 
++	{
++		// Step 1. Scale mapping.
++		// 20100611 Joseph: Re-tunning RSSI presentation for Lenovo.
++		// 20100426 Joseph: Modify Signal strength mapping.
++		// This modification makes the RSSI indication similar to Intel solution.
++		// 20100414 Joseph: Tunning RSSI for Lenovo according to RTL8191SE.
++		if (CurrSig >= 54 && CurrSig <= 100)
++			RetSig = 100;
++		else if (CurrSig >= 42 && CurrSig <= 53)
++			RetSig = 95;
++		else if (CurrSig >= 36 && CurrSig <= 41)
++			RetSig = 74 + ((CurrSig - 36) * 20) / 6;
++		else if (CurrSig >= 33 && CurrSig <= 35)
++			RetSig = 65 + ((CurrSig - 33) * 8) / 2;
++		else if (CurrSig >= 18 && CurrSig <= 32)
++			RetSig = 62 + ((CurrSig - 18) * 2) / 15;
++		else if (CurrSig >= 15 && CurrSig <= 17)
++			RetSig = 33 + ((CurrSig - 15) * 28) / 2;
++		else if (CurrSig >= 10 && CurrSig <= 14)
++			RetSig = 39;
++		else if (CurrSig >= 8 && CurrSig <= 9)
++			RetSig = 33;
++		else if (CurrSig <= 8)
++			RetSig = 19;
++	}
++#endif //ENDIF (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	return RetSig;
++}
++
++s4Byte
++odm_SignalScaleMapping_92CSeries_patch_RT_CID_819x_Netcore(	
++	IN OUT PDM_ODM_T pDM_Odm,
++	s4Byte CurrSig 
++)
++{
++	s4Byte RetSig = 0;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	//if(pDM_Odm->SupportInterface  == ODM_ITRF_USB)
++	{
++		// Netcore request this modification because 2009.04.13 SU driver use it. 
++		if (CurrSig >= 31 && CurrSig <= 100)
++			RetSig = 100;
++		else if (CurrSig >= 21 && CurrSig <= 30)
++			RetSig = 90 + ((CurrSig - 20) / 1);
++		else if (CurrSig >= 11 && CurrSig <= 20)
++			RetSig = 80 + ((CurrSig - 10) / 1);
++		else if (CurrSig >= 7 && CurrSig <= 10)
++			RetSig = 69 + (CurrSig - 7);
++		else if (CurrSig == 6)
++			RetSig = 54;
++		else if (CurrSig == 5)
++			RetSig = 45;
++		else if (CurrSig == 4)
++			RetSig = 36;
++		else if (CurrSig == 3)
++			RetSig = 27;
++		else if (CurrSig == 2)
++			RetSig = 18;
++		else if (CurrSig == 1)
++			RetSig = 9;
++		else
++			RetSig = CurrSig;
++	}
++#endif //ENDIF (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	return RetSig;
++}
++
++
++s4Byte
++odm_SignalScaleMapping_92CSeries(	
++	IN OUT PDM_ODM_T pDM_Odm,
++	IN s4Byte CurrSig 
++)
++{
++	s4Byte RetSig = 0; 
++#if (DEV_BUS_TYPE == RT_PCI_INTERFACE) 
++	if (pDM_Odm->SupportInterface  == ODM_ITRF_PCIE) 
++	{
++		// Step 1. Scale mapping.
++		if(CurrSig >= 61 && CurrSig <= 100)
++		{
++			RetSig = 90 + ((CurrSig - 60) / 4);
++		}
++		else if(CurrSig >= 41 && CurrSig <= 60)
++		{
++			RetSig = 78 + ((CurrSig - 40) / 2);
++		}
++		else if(CurrSig >= 31 && CurrSig <= 40)
++		{
++			RetSig = 66 + (CurrSig - 30);
++		}
++		else if(CurrSig >= 21 && CurrSig <= 30)
++		{
++			RetSig = 54 + (CurrSig - 20);
++		}
++		else if(CurrSig >= 5 && CurrSig <= 20)
++		{
++			RetSig = 42 + (((CurrSig - 5) * 2) / 3);
++		}
++		else if(CurrSig == 4)
++		{
++			RetSig = 36;
++		}
++		else if(CurrSig == 3)
++		{
++			RetSig = 27;
++		}
++		else if(CurrSig == 2)
++		{
++			RetSig = 18;
++		}
++		else if(CurrSig == 1)
++		{
++			RetSig = 9;
++		}
++		else
++		{
++			RetSig = CurrSig;
++		}
++	}
++#endif
++
++#if ((DEV_BUS_TYPE == RT_USB_INTERFACE) ||(DEV_BUS_TYPE == RT_SDIO_INTERFACE))
++	if((pDM_Odm->SupportInterface  == ODM_ITRF_USB) || (pDM_Odm->SupportInterface  == ODM_ITRF_SDIO))
++	{
++		if(CurrSig >= 51 && CurrSig <= 100)
++		{
++			RetSig = 100;
++		}
++		else if(CurrSig >= 41 && CurrSig <= 50)
++		{
++			RetSig = 80 + ((CurrSig - 40)*2);
++		}
++		else if(CurrSig >= 31 && CurrSig <= 40)
++		{
++			RetSig = 66 + (CurrSig - 30);
++		}
++		else if(CurrSig >= 21 && CurrSig <= 30)
++		{
++			RetSig = 54 + (CurrSig - 20);
++		}
++		else if(CurrSig >= 10 && CurrSig <= 20)
++		{
++			RetSig = 42 + (((CurrSig - 10) * 2) / 3);
++		}
++		else if(CurrSig >= 5 && CurrSig <= 9)
++		{
++			RetSig = 22 + (((CurrSig - 5) * 3) / 2);
++		}
++		else if(CurrSig >= 1 && CurrSig <= 4)
++		{
++			RetSig = 6 + (((CurrSig - 1) * 3) / 2);
++		}
++		else
++		{
++			RetSig = CurrSig;
++		}
++	}
++
++#endif
++	return RetSig;
++}
++s4Byte
++odm_SignalScaleMapping(	
++	IN OUT PDM_ODM_T pDM_Odm,
++	IN	s4Byte CurrSig 
++)
++{	
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	if(	(pDM_Odm->SupportPlatform == ODM_WIN) && 
++		(pDM_Odm->SupportInterface  != ODM_ITRF_PCIE) && //USB & SDIO
++		(pDM_Odm->PatchID==10))//pMgntInfo->CustomerID == RT_CID_819x_Netcore
++	{
++		return odm_SignalScaleMapping_92CSeries_patch_RT_CID_819x_Netcore(pDM_Odm,CurrSig);
++	}
++	else if(	(pDM_Odm->SupportPlatform == ODM_WIN) && 
++			(pDM_Odm->SupportInterface  == ODM_ITRF_PCIE) &&
++			(pDM_Odm->PatchID==19))//pMgntInfo->CustomerID == RT_CID_819x_Lenovo)
++	{
++		return odm_SignalScaleMapping_92CSeries_patch_RT_CID_819x_Lenovo(pDM_Odm, CurrSig);
++	}else
++#endif
++		{
++#ifdef CONFIG_SIGNAL_SCALE_MAPPING		
++		return odm_SignalScaleMapping_92CSeries(pDM_Odm,CurrSig);
++#else
++		return CurrSig;
++#endif
++	}
++	
++}
++
++
++
++static u1Byte odm_SQ_process_patch_RT_CID_819x_Lenovo(
++	IN PDM_ODM_T	pDM_Odm,
++	IN u1Byte 		isCCKrate,
++	IN u1Byte 		PWDB_ALL,
++	IN u1Byte 		path,
++	IN u1Byte 		RSSI
++)
++{
++	u1Byte	SQ = 0;
++#if (DM_ODM_SUPPORT_TYPE &  ODM_WIN)			
++
++	if(isCCKrate){
++		
++		if (IS_HARDWARE_TYPE_8192E(pDM_Odm->Adapter)) {
++
++			//
++			// <Roger_Notes> Expected signal strength and bars indication at Lenovo lab. 2013.04.11
++			// 802.11n, 802.11b, 802.11g only at channel 6
++			//
++			//		Attenuation (dB)	OS Signal Bars	RSSI by Xirrus (dBm)
++			//			50				5			-49
++			//			55				5			-49
++			//			60				5			-50
++			//			65				5			-51
++			//			70				5			-52
++			//			75				5			-54
++			//			80				5			-55
++			//			85				4			-60
++			//			90				3			-63
++			//			95				3			-65
++			//			100				2			-67
++			//			102				2			-67
++			//			104				1			-70
++			//			
++
++			if(PWDB_ALL >= 50)
++				SQ = 100;
++			else if(PWDB_ALL >= 35 && PWDB_ALL < 50)				
++				SQ = 80;
++			else if(PWDB_ALL >= 31 && PWDB_ALL < 35)
++				SQ = 60;
++			else if(PWDB_ALL >= 22 && PWDB_ALL < 31)
++				SQ = 40;
++			else if(PWDB_ALL >= 18 && PWDB_ALL < 22)
++				SQ = 20;
++			else
++				SQ = 10;
++		} else {
++			if (PWDB_ALL >= 50)
++				SQ = 100;
++			else if (PWDB_ALL >= 35 && PWDB_ALL < 50)				
++				SQ = 80;
++			else if (PWDB_ALL >= 22 && PWDB_ALL < 35)
++				SQ = 60;
++			else if (PWDB_ALL >= 18 && PWDB_ALL < 22)
++				SQ = 40;
++			else
++				SQ = 10;
++		}
++		
++	}
++	else
++	{//OFDM rate		
++
++		if (IS_HARDWARE_TYPE_8192E(pDM_Odm->Adapter)) {
++			if(RSSI >= 45)
++				SQ = 100;
++			else if(RSSI >= 22 && RSSI < 45)
++				SQ = 80;
++			else if(RSSI >= 18 && RSSI < 22)
++				SQ = 40;
++			else
++			SQ = 20;
++		} else {
++			if(RSSI >= 45)
++			SQ = 100;
++			else if(RSSI >= 22 && RSSI < 45)
++			SQ = 80;
++		else if(RSSI >= 18 && RSSI < 22)
++			SQ = 40;
++		else
++			SQ = 20;			
++		}
++	}
++
++	RT_TRACE(COMP_DBG, DBG_TRACE, ("isCCKrate(%#d), PWDB_ALL(%#d), RSSI(%#d), SQ(%#d)\n", isCCKrate, PWDB_ALL, RSSI, SQ));
++	
++#endif
++	return SQ;
++}
++
++static u1Byte odm_SQ_process_patch_RT_CID_819x_Acer(
++	IN PDM_ODM_T	pDM_Odm,
++	IN u1Byte 		isCCKrate,
++	IN u1Byte 		PWDB_ALL,
++	IN u1Byte 		path,
++	IN u1Byte 		RSSI
++)
++{
++	u1Byte	SQ = 0;
++	
++#if (DM_ODM_SUPPORT_TYPE &  ODM_WIN)			
++
++	if(isCCKrate){
++
++			RT_TRACE(COMP_DBG, DBG_WARNING, ("odm_SQ_process_patch_RT_Acer\n"));
++			
++#if OS_WIN_FROM_WIN8(OS_VERSION)	
++
++			if(PWDB_ALL >= 50)
++				SQ = 100;
++			else if(PWDB_ALL >= 35 && PWDB_ALL < 50)				
++				SQ = 80;
++			else if(PWDB_ALL >= 30 && PWDB_ALL < 35)
++				SQ = 60;
++			else if(PWDB_ALL >= 25 && PWDB_ALL < 30)
++				SQ = 40;
++			else if(PWDB_ALL >= 20 && PWDB_ALL < 25)
++				SQ = 20;
++			else
++				SQ = 10;	
++#else
++			if(PWDB_ALL >= 50)
++				SQ = 100;
++			else if(PWDB_ALL >= 35 && PWDB_ALL < 50)				
++				SQ = 80;
++			else if(PWDB_ALL >= 30 && PWDB_ALL < 35)
++				SQ = 60;
++			else if(PWDB_ALL >= 25 && PWDB_ALL < 30)
++				SQ = 40;
++			else if(PWDB_ALL >= 20 && PWDB_ALL < 25)
++				SQ = 20;
++			else
++				SQ = 10;	
++
++			if(PWDB_ALL == 0)// Abnormal case, do not indicate the value above 20 on Win7
++				SQ = 20;
++#endif		
++
++		
++		
++	}
++	else
++	{//OFDM rate		
++
++		if (IS_HARDWARE_TYPE_8192E(pDM_Odm->Adapter)) {
++			if(RSSI >= 45)
++				SQ = 100;
++			else if(RSSI >= 22 && RSSI < 45)
++				SQ = 80;
++			else if(RSSI >= 18 && RSSI < 22)
++				SQ = 40;
++			else
++			SQ = 20;
++	}
++		else
++		{
++			if(RSSI >= 35)
++			SQ = 100;
++			else if(RSSI >= 30 && RSSI < 35)
++			SQ = 80;
++		else if(RSSI >= 25 && RSSI < 30)
++			SQ = 40;
++		else
++			SQ = 20;			
++	}
++	}
++
++	RT_TRACE(COMP_DBG, DBG_LOUD, ("isCCKrate(%#d), PWDB_ALL(%#d), RSSI(%#d), SQ(%#d)\n", isCCKrate, PWDB_ALL, RSSI, SQ));
++	
++#endif
++	return SQ;
++}
++			
++static u1Byte 
++odm_EVMdbToPercentage(
++    IN		s1Byte Value
++    )
++{
++	//
++	// -33dB~0dB to 0%~99%
++	//
++	s1Byte ret_val;
++    
++	ret_val = Value;
++	ret_val /= 2;
++
++	/*DbgPrint("Value=%d\n", Value);*/
++	/*ODM_RT_DISP(FRX, RX_PHY_SQ, ("EVMdbToPercentage92C Value=%d / %x\n", ret_val, ret_val));*/
++#ifdef ODM_EVM_ENHANCE_ANTDIV
++	if (ret_val >= 0)
++		ret_val = 0;
++
++	if (ret_val <= -40)
++		ret_val = -40;
++
++	ret_val = 0 - ret_val;
++	ret_val *= 3;
++#else
++	if (ret_val >= 0)
++		ret_val = 0;
++
++	if (ret_val <= -33)
++		ret_val = -33;
++
++	ret_val = 0 - ret_val;
++	ret_val *= 3;
++
++	if (ret_val == 99)
++		ret_val = 100;
++#endif
++
++	return (u1Byte)ret_val;
++}
++			
++static u1Byte 
++odm_EVMdbm_JaguarSeries(
++	IN  s1Byte Value
++	)
++{
++	s1Byte ret_val = Value;
++	
++	// -33dB~0dB to 33dB ~ 0dB
++	if(ret_val == -128)
++		ret_val = 127;
++	else if (ret_val < 0)
++		ret_val = 0 - ret_val;
++	
++	ret_val  = ret_val >> 1;
++	return (u1Byte)ret_val;
++}
++
++static s2Byte
++odm_Cfo(
++  IN s1Byte Value
++)
++{
++	s2Byte  ret_val;
++
++	if (Value < 0)
++	{
++		ret_val = 0 - Value;
++		ret_val = (ret_val << 1) + (ret_val >> 1) ;  //  *2.5~=312.5/2^7
++		ret_val = ret_val | BIT12;  // set bit12 as 1 for negative cfo
++	}
++	else
++	{
++		ret_val = Value;
++		ret_val = (ret_val << 1) + (ret_val>>1) ;  //  *2.5~=312.5/2^7
++	}
++	return ret_val;
++}
++
++#if(ODM_IC_11N_SERIES_SUPPORT == 1)
++
++s1Byte
++odm_CCKRSSI_8703B(
++	IN		u2Byte	LNA_idx,
++	IN		u1Byte	VGA_idx
++	)
++{
++	s1Byte	rx_pwr_all = 0x00;
++	
++	switch (LNA_idx) {
++	case 0xf:
++		rx_pwr_all = -48 - (2 * VGA_idx);
++		break;		
++	case 0xb:
++		rx_pwr_all = -42 - (2 * VGA_idx); /*TBD*/
++		break;
++	case 0xa:
++		rx_pwr_all = -36 - (2 * VGA_idx);
++		break;
++	case 8:
++		rx_pwr_all = -32 - (2 * VGA_idx);
++		break;
++	case 7:	
++		rx_pwr_all = -19 - (2 * VGA_idx);
++		break;		
++	case 4:	
++		rx_pwr_all = -6 - (2 * VGA_idx);
++		break;
++	case 0:	
++		rx_pwr_all = -2 - (2 * VGA_idx);
++		break;
++	default:
++	/*rx_pwr_all = -53+(2*(31-VGA_idx));*/
++	/*DbgPrint("wrong LNA index\n");*/
++		break;
++			
++	}
++	return	rx_pwr_all;
++}
++
++s1Byte
++odm_CCKRSSI_8192E(
++	IN OUT	PDM_ODM_T	pDM_Odm,
++	IN		u2Byte		LNA_idx,
++	IN		u1Byte		VGA_idx
++	)
++{
++	s1Byte	rx_pwr_all = 0;
++	s1Byte	lna_gain = 0;
++	s1Byte	lna_gain_table_0[8] = {15, 9, -10, -21, -23, -27, -43, -44};	
++	s1Byte	lna_gain_table_1[8] = {24, 18, 13, -4, -11, -18, -31, -36};/*use 8192EU to calibrate this table. 2015.12.15, Dino*/
++
++	if (pDM_Odm->cck_agc_report_type == 0)
++		lna_gain = lna_gain_table_0[LNA_idx];
++	else
++		lna_gain = lna_gain_table_1[LNA_idx];
++
++	rx_pwr_all = lna_gain - (2 * VGA_idx);
++	
++	return	rx_pwr_all;
++}
++
++s1Byte
++odm_CCKRSSI_8188E(
++	IN OUT	PDM_ODM_T	pDM_Odm,
++	IN		u2Byte		LNA_idx,
++	IN		u1Byte		VGA_idx
++	)
++{
++	s1Byte	rx_pwr_all = 0;
++	s1Byte	lna_gain = 0;
++	s1Byte	lna_gain_table_0[8] = {17, -1, -13, -29, -32, -35, -38, -41};/*only use lna0/1/2/3/7*/
++	s1Byte	lna_gain_table_1[8] = {29, 20, 12, 3, -6, -15, -24, -33}; /*only use lna3 /7*/
++
++	if (pDM_Odm->CutVersion >= ODM_CUT_I) /*SMIC*/
++		lna_gain = lna_gain_table_0[LNA_idx];
++	else	 /*TSMC*/		
++		lna_gain = lna_gain_table_1[LNA_idx];
++		
++	rx_pwr_all = lna_gain - (2 * VGA_idx);
++	
++	return	rx_pwr_all;
++}
++
++VOID
++odm_RxPhyStatus92CSeries_Parsing(
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	OUT		PODM_PHY_INFO_T			pPhyInfo,		
++	IN 		pu1Byte						pPhyStatus,
++	IN		PODM_PACKET_INFO_T			pPktinfo
++	)
++{							
++	SWAT_T				*pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	u1Byte				i, Max_spatial_stream;
++	s1Byte				rx_pwr[4], rx_pwr_all=0;
++	u1Byte				EVM, PWDB_ALL = 0, PWDB_ALL_BT;
++	u1Byte				RSSI, total_rssi=0;
++	BOOLEAN				isCCKrate=FALSE;	
++	u1Byte				rf_rx_num = 0;
++	u1Byte				cck_highpwr = 0;
++	u1Byte				LNA_idx = 0;
++	u1Byte				VGA_idx = 0;
++	u1Byte				cck_agc_rpt;
++	PPHY_STATUS_RPT_8192CD_T pPhyStaRpt = (PPHY_STATUS_RPT_8192CD_T)pPhyStatus;
++
++	isCCKrate = (pPktinfo->DataRate <= ODM_RATE11M) ? TRUE : FALSE;
++
++	if (pPktinfo->bToSelf)
++		pDM_Odm->curr_station_id = pPktinfo->StationID;
++	
++	pPhyInfo->RxMIMOSignalQuality[ODM_RF_PATH_A] = -1;
++	pPhyInfo->RxMIMOSignalQuality[ODM_RF_PATH_B] = -1;
++
++
++	if(isCCKrate)
++	{
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK++;
++		cck_agc_rpt =  pPhyStaRpt->cck_agc_rpt_ofdm_cfosho_a ;
++		
++		if (pDM_Odm->SupportICType & (ODM_RTL8703B)) {
++			
++			#if (RTL8703B_SUPPORT == 1)
++			if (pDM_Odm->cck_agc_report_type == 1) {  /*4 bit LNA*/
++
++				u1Byte cck_agc_rpt_b = (pPhyStaRpt->cck_rpt_b_ofdm_cfosho_b & BIT7) ? 1 : 0;
++								
++				LNA_idx = (cck_agc_rpt_b << 3) | ((cck_agc_rpt & 0xE0) >> 5);
++				VGA_idx = (cck_agc_rpt & 0x1F);
++				
++				rx_pwr_all = odm_CCKRSSI_8703B(LNA_idx, VGA_idx);			
++			}
++			#endif
++		} else { /*3 bit LNA*/
++		
++			LNA_idx = ((cck_agc_rpt & 0xE0) >>5);
++			VGA_idx = (cck_agc_rpt & 0x1F);
++			
++			if (pDM_Odm->SupportICType & (ODM_RTL8188E)) {
++			
++				#if (RTL8188E_SUPPORT == 1)	
++				rx_pwr_all = odm_CCKRSSI_8188E(pDM_Odm, LNA_idx, VGA_idx);
++				/**/
++				#endif
++			}	
++			#if (RTL8192E_SUPPORT == 1)	
++			else if (pDM_Odm->SupportICType & (ODM_RTL8192E)) {
++				
++				rx_pwr_all = odm_CCKRSSI_8192E(pDM_Odm, LNA_idx, VGA_idx);
++				/**/
++			}
++			#endif
++			#if (RTL8723B_SUPPORT == 1)
++			else if (pDM_Odm->SupportICType & (ODM_RTL8723B)) {
++							
++				rx_pwr_all = odm_CCKRSSI_8723B(LNA_idx,VGA_idx);
++				/**/
++			} 
++			#endif
++			#if (RTL8188F_SUPPORT == 1)
++			else if (pDM_Odm->SupportICType & (ODM_RTL8188F)) {
++				
++				rx_pwr_all = odm_CCKRSSI_8188F(LNA_idx, VGA_idx);
++				/**/
++			}
++			#endif
++		}
++			
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("ExtLNAGain (( %d )), LNA_idx: (( 0x%x )), VGA_idx: (( 0x%x )), rx_pwr_all: (( %d ))\n", 
++			pDM_Odm->ExtLNAGain, LNA_idx, VGA_idx, rx_pwr_all));
++		
++		if (pDM_Odm->BoardType & ODM_BOARD_EXT_LNA) 
++			rx_pwr_all -= pDM_Odm->ExtLNAGain;
++
++		PWDB_ALL = odm_QueryRxPwrPercentage(rx_pwr_all);
++		
++		if (pPktinfo->bToSelf) {
++			pDM_Odm->cck_lna_idx = LNA_idx;
++			pDM_Odm->cck_vga_idx = VGA_idx;
++		}
++		pPhyInfo->RxPWDBAll = PWDB_ALL;
++
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++		pPhyInfo->BTRxRSSIPercentage = PWDB_ALL;
++		pPhyInfo->RecvSignalPower = rx_pwr_all;
++#endif		
++		//
++		// (3) Get Signal Quality (EVM)
++		//
++		//if(pPktinfo->bPacketMatchBSSID)
++		{
++			u1Byte	SQ,SQ_rpt;			
++			
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)			
++			if((pDM_Odm->SupportPlatform == ODM_WIN) &&
++				(pDM_Odm->PatchID==RT_CID_819x_Lenovo)){
++				SQ = odm_SQ_process_patch_RT_CID_819x_Lenovo(pDM_Odm,isCCKrate,PWDB_ALL,0,0);
++			}else if((pDM_Odm->SupportPlatform == ODM_WIN) &&
++				(pDM_Odm->PatchID==RT_CID_819x_Acer))
++			{
++				SQ = odm_SQ_process_patch_RT_CID_819x_Acer(pDM_Odm,isCCKrate,PWDB_ALL,0,0);
++			}else 
++#endif
++			if(pPhyInfo->RxPWDBAll > 40 && !pDM_Odm->bInHctTest){
++				SQ = 100;
++			}
++			else{						
++				SQ_rpt = pPhyStaRpt->cck_sig_qual_ofdm_pwdb_all;
++					
++				if(SQ_rpt > 64)
++					SQ = 0;
++				else if (SQ_rpt < 20)
++					SQ = 100;
++				else
++					SQ = ((64-SQ_rpt) * 100) / 44;
++			
++			}
++			
++			//DbgPrint("cck SQ = %d\n", SQ);
++			pPhyInfo->SignalQuality = SQ;
++			pPhyInfo->RxMIMOSignalQuality[ODM_RF_PATH_A] = SQ;
++			pPhyInfo->RxMIMOSignalQuality[ODM_RF_PATH_B] = -1;
++		}
++
++		for (i = ODM_RF_PATH_A; i < ODM_RF_PATH_MAX; i++) {
++			if (i == 0)
++				pPhyInfo->RxMIMOSignalStrength[0] = PWDB_ALL;
++			else
++				pPhyInfo->RxMIMOSignalStrength[1] = 0;
++		}
++	}
++	else //2 is OFDM rate
++	{
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM++;
++
++		// 
++		// (1)Get RSSI for HT rate
++		//
++		
++       	 for(i = ODM_RF_PATH_A; i < ODM_RF_PATH_MAX; i++)   
++		{
++			// 2008/01/30 MH we will judge RF RX path now.
++			if (pDM_Odm->RFPathRxEnable & BIT(i))
++				rf_rx_num++;
++			//else
++				//continue;
++
++			rx_pwr[i] = ((pPhyStaRpt->path_agc[i].gain& 0x3F)*2) - 110;
++			
++			if (pPktinfo->bToSelf) {
++				pDM_Odm->ofdm_agc_idx[i] = (pPhyStaRpt->path_agc[i].gain & 0x3F);
++				/**/
++			}
++
++		#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++			pPhyInfo->RxPwr[i] = rx_pwr[i];
++		#endif	
++
++			/* Translate DBM to percentage. */
++			RSSI = odm_QueryRxPwrPercentage(rx_pwr[i]);
++			total_rssi += RSSI;
++			//RT_DISP(FRX, RX_PHY_SS, ("RF-%d RXPWR=%x RSSI=%d\n", i, rx_pwr[i], RSSI));
++	
++			pPhyInfo->RxMIMOSignalStrength[i] =(u1Byte) RSSI;
++
++		#if (DM_ODM_SUPPORT_TYPE &  (/*ODM_WIN|*/ODM_CE|ODM_AP))
++			//Get Rx snr value in DB		
++			pPhyInfo->RxSNR[i] = pDM_Odm->PhyDbgInfo.RxSNRdB[i] = (s4Byte)(pPhyStaRpt->path_rxsnr[i]/2);
++		#endif
++		
++			/* Record Signal Strength for next packet */
++			//if(pPktinfo->bPacketMatchBSSID)
++			{				
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)				
++				if((pDM_Odm->SupportPlatform == ODM_WIN) &&
++					(pDM_Odm->PatchID==RT_CID_819x_Lenovo))
++				{
++					if(i==ODM_RF_PATH_A)
++						pPhyInfo->SignalQuality = odm_SQ_process_patch_RT_CID_819x_Lenovo(pDM_Odm,isCCKrate,PWDB_ALL,i,RSSI);
++				
++				}		
++				else if((pDM_Odm->SupportPlatform == ODM_WIN) &&
++					(pDM_Odm->PatchID==RT_CID_819x_Acer))
++				{
++					pPhyInfo->SignalQuality = odm_SQ_process_patch_RT_CID_819x_Acer(pDM_Odm,isCCKrate,PWDB_ALL,0,RSSI);
++				}	
++#endif				
++			}
++		}
++		
++		
++		//
++		// (2)PWDB, Average PWDB cacluated by hardware (for rate adaptive)
++		//
++		rx_pwr_all = (((pPhyStaRpt->cck_sig_qual_ofdm_pwdb_all) >> 1 )& 0x7f) -110;		
++		
++		PWDB_ALL_BT = PWDB_ALL = odm_QueryRxPwrPercentage(rx_pwr_all);	
++	
++	
++		pPhyInfo->RxPWDBAll = PWDB_ALL;
++		//ODM_RT_TRACE(pDM_Odm,ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("ODM OFDM RSSI=%d\n",pPhyInfo->RxPWDBAll));
++	#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++		pPhyInfo->BTRxRSSIPercentage = PWDB_ALL_BT;
++		pPhyInfo->RxPower = rx_pwr_all;
++		pPhyInfo->RecvSignalPower = rx_pwr_all;
++	#endif
++		
++		if((pDM_Odm->SupportPlatform == ODM_WIN) &&(pDM_Odm->PatchID==19)){
++			//do nothing	
++		}else if((pDM_Odm->SupportPlatform == ODM_WIN) &&(pDM_Odm->PatchID==25)){
++			//do nothing	
++		}
++		else{//pMgntInfo->CustomerID != RT_CID_819x_Lenovo
++			//
++			// (3)EVM of HT rate
++			//
++			if(pPktinfo->DataRate >=ODM_RATEMCS8 && pPktinfo->DataRate <=ODM_RATEMCS15)
++				Max_spatial_stream = 2; //both spatial stream make sense
++			else
++				Max_spatial_stream = 1; //only spatial stream 1 makes sense
++
++			for(i=0; i<Max_spatial_stream; i++)
++			{
++				// Do not use shift operation like "rx_evmX >>= 1" because the compilor of free build environment
++				// fill most significant bit to "zero" when doing shifting operation which may change a negative 
++				// value to positive one, then the dbm value (which is supposed to be negative)  is not correct anymore.			
++				EVM = odm_EVMdbToPercentage( (pPhyStaRpt->stream_rxevm[i] ));	//dbm
++
++				//GET_RX_STATUS_DESC_RX_MCS(pDesc), pDrvInfo->rxevm[i], "%", EVM));
++				
++				//if(pPktinfo->bPacketMatchBSSID)
++				{
++					if(i==ODM_RF_PATH_A) // Fill value in RFD, Get the first spatial stream only
++					{						
++						pPhyInfo->SignalQuality = (u1Byte)(EVM & 0xff);
++					}					
++					pPhyInfo->RxMIMOSignalQuality[i] = (u1Byte)(EVM & 0xff);
++				}
++			}
++		}
++
++		ODM_ParsingCFO(pDM_Odm, pPktinfo, pPhyStaRpt->path_cfotail);
++		
++	}
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++	//UI BSS List signal strength(in percentage), make it good looking, from 0~100.
++	//It is assigned to the BSS List in GetValueFromBeaconOrProbeRsp().
++	if(isCCKrate)
++	{		
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		// 2012/01/12 MH Use customeris signal strength from HalComRxdDesc.c/	
++		pPhyInfo->SignalStrength = SignalScaleProc(pDM_Odm->Adapter, PWDB_ALL, TRUE, TRUE);
++#else
++		pPhyInfo->SignalStrength = (u1Byte)(odm_SignalScaleMapping(pDM_Odm, PWDB_ALL));/*PWDB_ALL;*/
++#endif /*#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)*/
++	}
++	else
++	{	
++		if (rf_rx_num != 0)
++		{			
++		#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++			// 2012/01/12 MH Use customeris signal strength from HalComRxdDesc.c/	
++			pPhyInfo->SignalStrength = SignalScaleProc(pDM_Odm->Adapter, (total_rssi /= rf_rx_num), TRUE, FALSE);
++		#else
++			pPhyInfo->SignalStrength = (u1Byte)(odm_SignalScaleMapping(pDM_Odm, total_rssi /= rf_rx_num));
++		#endif
++		}
++	}
++#endif /*#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))*/
++
++	//DbgPrint("isCCKrate = %d, pPhyInfo->RxPWDBAll = %d, pPhyStaRpt->cck_agc_rpt_ofdm_cfosho_a = 0x%x\n", 
++		//isCCKrate, pPhyInfo->RxPWDBAll, pPhyStaRpt->cck_agc_rpt_ofdm_cfosho_a);
++
++	//For 92C/92D HW (Hybrid) Antenna Diversity
++#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))	
++	//For 88E HW Antenna Diversity
++	pDM_Odm->DM_FatTable.antsel_rx_keep_0 = pPhyStaRpt->ant_sel;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_1 = pPhyStaRpt->ant_sel_b;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_2 = pPhyStaRpt->antsel_rx_keep_2;
++#endif
++}
++#endif
++
++#if	ODM_IC_11AC_SERIES_SUPPORT
++
++VOID
++odm_RxPhyBWJaguarSeries_Parsing(
++	OUT		PODM_PHY_INFO_T			pPhyInfo,
++	IN		PODM_PACKET_INFO_T			pPktinfo,
++	IN		PPHY_STATUS_RPT_8812_T		pPhyStaRpt
++)
++{
++
++	if(pPktinfo->DataRate <= ODM_RATE54M) {
++		switch (pPhyStaRpt->r_RFMOD) {
++		case 1:
++			if (pPhyStaRpt->sub_chnl == 0)
++				pPhyInfo->BandWidth = 1;
++			else
++				pPhyInfo->BandWidth = 0;
++			break;
++
++		case 2:
++			if (pPhyStaRpt->sub_chnl == 0)
++				pPhyInfo->BandWidth = 2;
++			else if (pPhyStaRpt->sub_chnl == 9 || pPhyStaRpt->sub_chnl == 10)
++				pPhyInfo->BandWidth = 1;
++			else
++				pPhyInfo->BandWidth = 0;
++			break;
++
++		default:
++		case 0:
++			pPhyInfo->BandWidth = 0;
++			break;
++		}
++	}
++
++}
++
++VOID
++odm_RxPhyStatusJaguarSeries_Parsing(
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	OUT		PODM_PHY_INFO_T			pPhyInfo,
++	IN 		pu1Byte						pPhyStatus,
++	IN		PODM_PACKET_INFO_T			pPktinfo
++)
++{
++	u1Byte					i, Max_spatial_stream;
++	s1Byte					rx_pwr[4], rx_pwr_all = 0;
++	u1Byte					EVM, EVMdbm, PWDB_ALL = 0, PWDB_ALL_BT;
++	u1Byte					RSSI, avg_rssi = 0, best_rssi = 0, second_rssi = 0;
++	u1Byte					isCCKrate = 0;	
++	u1Byte					rf_rx_num = 0;
++	u1Byte					cck_highpwr = 0;
++	u1Byte					LNA_idx, VGA_idx;
++	PPHY_STATUS_RPT_8812_T pPhyStaRpt = (PPHY_STATUS_RPT_8812_T)pPhyStatus;
++	pFAT_T					pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	odm_RxPhyBWJaguarSeries_Parsing(pPhyInfo, pPktinfo, pPhyStaRpt);
++
++	if (pPktinfo->DataRate <= ODM_RATE11M)
++		isCCKrate = TRUE;
++	else
++		isCCKrate = FALSE;
++
++	if (pPktinfo->bToSelf)
++		pDM_Odm->curr_station_id = pPktinfo->StationID;
++	else
++		pDM_Odm->curr_station_id = 0xff;
++
++	pPhyInfo->RxMIMOSignalQuality[ODM_RF_PATH_A] = -1;
++	pPhyInfo->RxMIMOSignalQuality[ODM_RF_PATH_B] = -1;
++	pPhyInfo->RxMIMOSignalQuality[ODM_RF_PATH_C] = -1;
++	pPhyInfo->RxMIMOSignalQuality[ODM_RF_PATH_D] = -1;
++
++	if (isCCKrate) {
++		u1Byte cck_agc_rpt;
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK++;
++
++		/*(1)Hardware does not provide RSSI for CCK*/
++		/*(2)PWDB, Average PWDB calculated by hardware (for rate adaptive)*/
++
++		/*if(pHalData->eRFPowerState == eRfOn)*/
++		cck_highpwr = pDM_Odm->bCckHighPower;
++		/*else*/
++		/*cck_highpwr = FALSE;*/
++
++		cck_agc_rpt =  pPhyStaRpt->cfosho[0] ;
++		LNA_idx = ((cck_agc_rpt & 0xE0) >> 5);
++		VGA_idx = (cck_agc_rpt & 0x1F);
++
++		if (pDM_Odm->SupportICType == ODM_RTL8812) {
++			switch (LNA_idx) {
++			case 7:
++				if (VGA_idx <= 27)
++					rx_pwr_all = -100 + 2 * (27 - VGA_idx); /*VGA_idx = 27~2*/
++				else
++					rx_pwr_all = -100;
++				break;
++			case 6:
++				rx_pwr_all = -48 + 2 * (2 - VGA_idx); /*VGA_idx = 2~0*/
++				break;
++			case 5:
++				rx_pwr_all = -42 + 2 * (7 - VGA_idx); /*VGA_idx = 7~5*/
++				break;
++			case 4:
++				rx_pwr_all = -36 + 2 * (7 - VGA_idx); /*VGA_idx = 7~4*/
++				break;
++			case 3:
++				/*rx_pwr_all = -28 + 2*(7-VGA_idx); VGA_idx = 7~0*/
++				rx_pwr_all = -24 + 2 * (7 - VGA_idx); /*VGA_idx = 7~0*/
++				break;
++			case 2:
++				if (cck_highpwr)
++					rx_pwr_all = -12 + 2 * (5 - VGA_idx); /*VGA_idx = 5~0*/
++				else
++					rx_pwr_all = -6 + 2 * (5 - VGA_idx);
++				break;
++			case 1:
++				rx_pwr_all = 8 - 2 * VGA_idx;
++				break;
++			case 0:
++				rx_pwr_all = 14 - 2 * VGA_idx;
++				break;
++			default:
++				/*DbgPrint("CCK Exception default\n");*/
++				break;
++			}
++			rx_pwr_all += 6;
++			PWDB_ALL = odm_QueryRxPwrPercentage(rx_pwr_all);
++
++			if (cck_highpwr == FALSE) {
++				if (PWDB_ALL >= 80)
++					PWDB_ALL = ((PWDB_ALL - 80) << 1) + ((PWDB_ALL - 80) >> 1) + 80;
++				else if ((PWDB_ALL <= 78) && (PWDB_ALL >= 20))
++					PWDB_ALL += 3;
++				if (PWDB_ALL > 100)
++					PWDB_ALL = 100;
++			}
++		} else if (pDM_Odm->SupportICType & (ODM_RTL8821 | ODM_RTL8881A)) {
++			s1Byte Pout = -6;
++
++			switch (LNA_idx) {
++			case 5:
++				rx_pwr_all = Pout - 32 - (2 * VGA_idx);
++				break;
++			case 4:
++				rx_pwr_all = Pout - 24 - (2 * VGA_idx);
++				break;
++			case 2:
++				rx_pwr_all = Pout - 11 - (2 * VGA_idx);
++				break;
++			case 1:
++				rx_pwr_all = Pout + 5 - (2 * VGA_idx);
++				break;
++			case 0:
++				rx_pwr_all = Pout + 21 - (2 * VGA_idx);
++				break;
++			}
++			PWDB_ALL = odm_QueryRxPwrPercentage(rx_pwr_all);
++		} else if (pDM_Odm->SupportICType == ODM_RTL8814A || pDM_Odm->SupportICType == ODM_RTL8822B) {
++			s1Byte Pout = -6;
++
++			switch (LNA_idx) {
++			/*CCK only use LNA: 2, 3, 5, 7*/
++			case 7:
++				rx_pwr_all = Pout - 32 - (2 * VGA_idx);
++				break;
++			case 5:
++				rx_pwr_all = Pout - 22 - (2 * VGA_idx);
++				break;
++			case 3:
++				rx_pwr_all = Pout - 2 - (2 * VGA_idx);
++				break;
++			case 2:
++				rx_pwr_all = Pout + 5 - (2 * VGA_idx);
++				break;
++			/*case 6:*/
++			/*rx_pwr_all = Pout -26 - (2*VGA_idx);*/
++			/*break;*/
++			/*case 4:*/
++			/*rx_pwr_all = Pout - 8 - (2*VGA_idx);*/
++			/*break;*/
++			/*case 1:*/
++			/*rx_pwr_all = Pout + 21 - (2*VGA_idx);*/
++			/*break;*/
++			/*case 0:*/
++			/*rx_pwr_all = Pout + 10 - (2*VGA_idx);*/
++/*			//	break;*/
++			default:
++/*				//DbgPrint("CCK Exception default\n");*/
++				break;
++			}
++			PWDB_ALL = odm_QueryRxPwrPercentage(rx_pwr_all);
++		}
++
++		pDM_Odm->cck_lna_idx = LNA_idx;
++		pDM_Odm->cck_vga_idx = VGA_idx;
++		pPhyInfo->RxPWDBAll = PWDB_ALL;
++/*		//if(pPktinfo->StationID == 0)*/
++/*		//{*/
++/*		//	DbgPrint("CCK: LNA_idx = %d, VGA_idx = %d, pPhyInfo->RxPWDBAll = %d\n",*/
++/*		//		LNA_idx, VGA_idx, pPhyInfo->RxPWDBAll);*/
++/*		//}*/
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++		pPhyInfo->BTRxRSSIPercentage = PWDB_ALL;
++		pPhyInfo->RecvSignalPower = rx_pwr_all;
++#endif
++		/*(3) Get Signal Quality (EVM)*/
++		/*if (pPktinfo->bPacketMatchBSSID)*/
++		{
++			u1Byte	SQ, SQ_rpt;
++
++			if ((pDM_Odm->SupportPlatform == ODM_WIN) &&
++				(pDM_Odm->PatchID == RT_CID_819x_Lenovo)) {
++				SQ = odm_SQ_process_patch_RT_CID_819x_Lenovo(pDM_Odm, isCCKrate, PWDB_ALL, 0, 0);
++			} else if (pPhyInfo->RxPWDBAll > 40 && !pDM_Odm->bInHctTest) {
++				SQ = 100;
++			} else {
++				SQ_rpt = pPhyStaRpt->pwdb_all;
++
++				if (SQ_rpt > 64)
++					SQ = 0;
++				else if (SQ_rpt < 20)
++					SQ = 100;
++				else
++					SQ = ((64 - SQ_rpt) * 100) / 44;
++			}
++
++/*			//DbgPrint("cck SQ = %d\n", SQ);*/
++			pPhyInfo->SignalQuality = SQ;
++			pPhyInfo->RxMIMOSignalQuality[ODM_RF_PATH_A] = SQ;
++		}
++
++		for (i = ODM_RF_PATH_A; i < ODM_RF_PATH_MAX_JAGUAR; i++) {
++			if (i == 0)
++				pPhyInfo->RxMIMOSignalStrength[0] = PWDB_ALL;
++			else
++				pPhyInfo->RxMIMOSignalStrength[i] = 0;
++		}
++	} else {		 
++		/*is OFDM rate*/
++		pDM_FatTable->hw_antsw_occur = pPhyStaRpt->hw_antsw_occur;
++		
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM++;
++
++		/*(1)Get RSSI for OFDM rate*/
++
++		for (i = ODM_RF_PATH_A; i < ODM_RF_PATH_MAX_JAGUAR; i++) {
++			/*2008/01/30 MH we will judge RF RX path now.*/
++/*			//DbgPrint("pDM_Odm->RFPathRxEnable = %x\n", pDM_Odm->RFPathRxEnable);*/
++			if (pDM_Odm->RFPathRxEnable & BIT(i))
++				rf_rx_num++;
++/*			//else*/
++/*			//continue;*/
++			/*2012.05.25 LukeLee: Testchip AGC report is wrong, it should be restored back to old formula in MP chip*/
++/*			//if((pDM_Odm->SupportICType & (ODM_RTL8812|ODM_RTL8821)) && (!pDM_Odm->bIsMPChip))*/
++			if (i < ODM_RF_PATH_C)
++				rx_pwr[i] = (pPhyStaRpt->gain_trsw[i] & 0x7F) - 110;
++			else
++				rx_pwr[i] = (pPhyStaRpt->gain_trsw_cd[i - 2] & 0x7F) - 110;
++/*			//else*/
++			/*rx_pwr[i] = ((pPhyStaRpt->gain_trsw[i]& 0x3F)*2) - 110;  OLD FORMULA*/
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++			pPhyInfo->RxPwr[i] = rx_pwr[i];
++#endif
++
++			/* Translate DBM to percentage. */
++			RSSI = odm_QueryRxPwrPercentage(rx_pwr[i]);	
++		
++			/*total_rssi += RSSI;*/
++			/*Get the best two RSSI*/
++			if (RSSI > best_rssi && RSSI > second_rssi) {
++				second_rssi = best_rssi;
++				best_rssi = RSSI;
++			} else if (RSSI > second_rssi && RSSI <= best_rssi)
++				second_rssi = RSSI;
++
++			/*RT_DISP(FRX, RX_PHY_SS, ("RF-%d RXPWR=%x RSSI=%d\n", i, rx_pwr[i], RSSI));*/
++
++			pPhyInfo->RxMIMOSignalStrength[i] = (u1Byte) RSSI;
++
++
++			/*Get Rx snr value in DB*/
++			if (i < ODM_RF_PATH_C)
++				pPhyInfo->RxSNR[i] = pDM_Odm->PhyDbgInfo.RxSNRdB[i] = pPhyStaRpt->rxsnr[i] / 2;
++			else if (pDM_Odm->SupportICType & (ODM_RTL8814A | ODM_RTL8822B))
++				pPhyInfo->RxSNR[i] = pDM_Odm->PhyDbgInfo.RxSNRdB[i] = pPhyStaRpt->csi_current[i - 2] / 2;
++
++#if (DM_ODM_SUPPORT_TYPE != ODM_AP)
++			/*(2) CFO_short  & CFO_tail*/
++			if (i < ODM_RF_PATH_C) {
++				pPhyInfo->Cfo_short[i] = odm_Cfo((pPhyStaRpt->cfosho[i]));
++				pPhyInfo->Cfo_tail[i] = odm_Cfo((pPhyStaRpt->cfotail[i]));
++			}
++#endif
++			/* Record Signal Strength for next packet */
++			if (pPktinfo->bPacketMatchBSSID) {
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++				if ((pDM_Odm->SupportPlatform == ODM_WIN) &&
++					(pDM_Odm->PatchID == RT_CID_819x_Lenovo)) {
++					if (i == ODM_RF_PATH_A)
++						pPhyInfo->SignalQuality = odm_SQ_process_patch_RT_CID_819x_Lenovo(pDM_Odm, isCCKrate, PWDB_ALL, i, RSSI);
++
++				}
++#endif
++			}
++		}
++
++		/*(3)PWDB, Average PWDB calculated by hardware (for rate adaptive)*/
++
++		/*2012.05.25 LukeLee: Testchip AGC report is wrong, it should be restored back to old formula in MP chip*/
++		if ((pDM_Odm->SupportICType & (ODM_RTL8812 | ODM_RTL8821 | ODM_RTL8881A)) && (!pDM_Odm->bIsMPChip))
++			rx_pwr_all = (pPhyStaRpt->pwdb_all & 0x7f) - 110;
++		else
++			rx_pwr_all = (((pPhyStaRpt->pwdb_all) >> 1) & 0x7f) - 110;	 /*OLD FORMULA*/
++
++		PWDB_ALL_BT = PWDB_ALL = odm_QueryRxPwrPercentage(rx_pwr_all);
++
++		pPhyInfo->RxPWDBAll = PWDB_ALL;
++		/*ODM_RT_TRACE(pDM_Odm,ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("ODM OFDM RSSI=%d\n",pPhyInfo->RxPWDBAll));*/
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++		pPhyInfo->BTRxRSSIPercentage = PWDB_ALL_BT;
++		pPhyInfo->RxPower = rx_pwr_all;
++		pPhyInfo->RecvSignalPower = rx_pwr_all;
++#endif
++
++		if ((pDM_Odm->SupportPlatform == ODM_WIN) && (pDM_Odm->PatchID == 19)) {
++			/*do nothing*/
++		} else {
++			/*pMgntInfo->CustomerID != RT_CID_819x_Lenovo*/
++
++			/*(4)EVM of OFDM rate*/
++			
++			if ((pPktinfo->DataRate >= ODM_RATEMCS8) &&
++				(pPktinfo->DataRate <= ODM_RATEMCS15))
++				Max_spatial_stream = 2;
++			else if ((pPktinfo->DataRate >= ODM_RATEVHTSS2MCS0) &&
++					 (pPktinfo->DataRate <= ODM_RATEVHTSS2MCS9))
++				Max_spatial_stream = 2;
++			else if ((pPktinfo->DataRate >= ODM_RATEMCS16) &&
++					 (pPktinfo->DataRate <= ODM_RATEMCS23))
++				Max_spatial_stream = 3;
++			else if ((pPktinfo->DataRate >= ODM_RATEVHTSS3MCS0) &&
++					 (pPktinfo->DataRate <= ODM_RATEVHTSS3MCS9))
++				Max_spatial_stream = 3;
++			else
++				Max_spatial_stream = 1;
++
++			/*if (pPktinfo->bPacketMatchBSSID) */
++			{
++				/*DbgPrint("pPktinfo->DataRate = %d\n", pPktinfo->DataRate);*/
++
++				for (i = 0; i < Max_spatial_stream; i++) {
++					/*Do not use shift operation like "rx_evmX >>= 1" because the compilor of free build environment*/
++					/*fill most significant bit to "zero" when doing shifting operation which may change a negative*/
++					/*value to positive one, then the dbm value (which is supposed to be negative)  is not correct anymore.*/
++
++					if (pPktinfo->DataRate >= ODM_RATE6M && pPktinfo->DataRate <= ODM_RATE54M) {
++						if (i == ODM_RF_PATH_A) {
++							EVM = odm_EVMdbToPercentage((pPhyStaRpt->sigevm));	/*dbm*/
++							EVM += 20;
++							if (EVM > 100)
++								EVM = 100;
++						}
++					} else {
++						if (i < ODM_RF_PATH_C) {
++							if (pPhyStaRpt->rxevm[i] == -128)
++								pPhyStaRpt->rxevm[i] = -25;
++							EVM = odm_EVMdbToPercentage((pPhyStaRpt->rxevm[i]));	/*dbm*/
++						} else {
++							if (pPhyStaRpt->rxevm_cd[i - 2] == -128){
++								pPhyStaRpt->rxevm_cd[i - 2] = -25;
++							}
++							EVM = odm_EVMdbToPercentage((pPhyStaRpt->rxevm_cd[i - 2]));	/*dbm*/
++						}
++					}
++
++					if (i < ODM_RF_PATH_C)
++						EVMdbm = odm_EVMdbm_JaguarSeries(pPhyStaRpt->rxevm[i]);
++					else
++						EVMdbm = odm_EVMdbm_JaguarSeries(pPhyStaRpt->rxevm_cd[i - 2]);
++					/*RT_DISP(FRX, RX_PHY_SQ, ("RXRATE=%x RXEVM=%x EVM=%s%d\n",*/
++					/*pPktinfo->DataRate, pPhyStaRpt->rxevm[i], "%", EVM));*/
++
++					{
++						if (i == ODM_RF_PATH_A) { 
++							/*Fill value in RFD, Get the first spatial stream only*/
++							pPhyInfo->SignalQuality = EVM;
++						}
++						pPhyInfo->RxMIMOSignalQuality[i] = EVM;
++#if (DM_ODM_SUPPORT_TYPE != ODM_AP)
++						pPhyInfo->RxMIMOEVMdbm[i] = EVMdbm;
++#endif
++					}
++				}
++			}
++		}
++
++		ODM_ParsingCFO(pDM_Odm, pPktinfo, pPhyStaRpt->cfotail);
++
++	}
++/*	//DbgPrint("isCCKrate= %d, pPhyInfo->SignalStrength=%d % PWDB_AL=%d rf_rx_num=%d\n", isCCKrate, pPhyInfo->SignalStrength, PWDB_ALL, rf_rx_num);*/
++
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++	/*UI BSS List signal strength(in percentage), make it good looking, from 0~100.*/
++	/*It is assigned to the BSS List in GetValueFromBeaconOrProbeRsp().*/
++	if (isCCKrate) {
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		/*2012/01/12 MH Use customeris signal strength from HalComRxdDesc.c/*/
++		pPhyInfo->SignalStrength = SignalScaleProc(pDM_Odm->Adapter, PWDB_ALL, FALSE, TRUE);
++#else
++		pPhyInfo->SignalStrength = (u1Byte)(odm_SignalScaleMapping(pDM_Odm, PWDB_ALL));/*PWDB_ALL;*/
++#endif
++	} else {	
++		if (rf_rx_num != 0) {
++			/* 2015/01 Sean, use the best two RSSI only, suggested by Ynlin and ChenYu.*/
++			if (rf_rx_num == 1)
++				avg_rssi = best_rssi;
++			else
++				avg_rssi = (best_rssi + second_rssi)/2;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++			/* 2012/01/12 MH Use customeris signal strength from HalComRxdDesc.c/*/	
++			pPhyInfo->SignalStrength = SignalScaleProc(pDM_Odm->Adapter, avg_rssi, FALSE, FALSE);
++#else
++			pPhyInfo->SignalStrength = (u1Byte)(odm_SignalScaleMapping(pDM_Odm, avg_rssi));
++#endif
++		}
++	}
++#endif
++	pDM_Odm->RxPWDBAve = pDM_Odm->RxPWDBAve + pPhyInfo->RxPWDBAll;
++
++	pDM_Odm->DM_FatTable.antsel_rx_keep_0 = pPhyStaRpt->antidx_anta;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_1 = pPhyStaRpt->antidx_antb;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_2 = pPhyStaRpt->antidx_antc;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_3 = pPhyStaRpt->antidx_antd;
++	/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("StaID[%d]:  antidx_anta = ((%d)), MatchBSSID =  ((%d))\n", pPktinfo->StationID, pPhyStaRpt->antidx_anta, pPktinfo->bPacketMatchBSSID));*/
++
++
++/*		DbgPrint("pPhyStaRpt->antidx_anta = %d, pPhyStaRpt->antidx_antb = %d\n",*/
++/*			pPhyStaRpt->antidx_anta, pPhyStaRpt->antidx_antb);*/
++/*		DbgPrint("----------------------------\n");*/
++/*		DbgPrint("pPktinfo->StationID=%d, pPktinfo->DataRate=0x%x\n",pPktinfo->StationID, pPktinfo->DataRate);*/
++/*		DbgPrint("pPhyStaRpt->r_RFMOD = %d\n", pPhyStaRpt->r_RFMOD);*/
++/*		DbgPrint("pPhyStaRpt->gain_trsw[0]=0x%x, pPhyStaRpt->gain_trsw[1]=0x%x\n",*/
++/*				pPhyStaRpt->gain_trsw[0],pPhyStaRpt->gain_trsw[1]);*/
++/*		DbgPrint("pPhyStaRpt->gain_trsw[2]=0x%x, pPhyStaRpt->gain_trsw[3]=0x%x\n",*/
++/*				pPhyStaRpt->gain_trsw_cd[0],pPhyStaRpt->gain_trsw_cd[1]);*/
++/*		DbgPrint("pPhyStaRpt->pwdb_all = 0x%x, pPhyInfo->RxPWDBAll = %d\n", pPhyStaRpt->pwdb_all, pPhyInfo->RxPWDBAll);*/
++/*		DbgPrint("pPhyStaRpt->cfotail[i] = 0x%x, pPhyStaRpt->CFO_tail[i] = 0x%x\n", pPhyStaRpt->cfotail[0], pPhyStaRpt->cfotail[1]);*/
++/*		DbgPrint("pPhyStaRpt->rxevm[0] = %d, pPhyStaRpt->rxevm[1] = %d\n", pPhyStaRpt->rxevm[0], pPhyStaRpt->rxevm[1]);*/
++/*		DbgPrint("pPhyStaRpt->rxevm[2] = %d, pPhyStaRpt->rxevm[3] = %d\n", pPhyStaRpt->rxevm_cd[0], pPhyStaRpt->rxevm_cd[1]);*/
++/*		DbgPrint("pPhyInfo->RxMIMOSignalStrength[0]=%d, pPhyInfo->RxMIMOSignalStrength[1]=%d, RxPWDBAll=%d\n",*/
++/*				pPhyInfo->RxMIMOSignalStrength[0], pPhyInfo->RxMIMOSignalStrength[1], pPhyInfo->RxPWDBAll);*/
++/*		DbgPrint("pPhyInfo->RxMIMOSignalStrength[2]=%d, pPhyInfo->RxMIMOSignalStrength[3]=%d\n",*/
++/*				pPhyInfo->RxMIMOSignalStrength[2], pPhyInfo->RxMIMOSignalStrength[3]);*/
++/*		DbgPrint("ppPhyInfo->RxMIMOSignalQuality[0]=%d, pPhyInfo->RxMIMOSignalQuality[1]=%d\n",*/
++/*				pPhyInfo->RxMIMOSignalQuality[0], pPhyInfo->RxMIMOSignalQuality[1]);*/
++/*		DbgPrint("ppPhyInfo->RxMIMOSignalQuality[2]=%d, pPhyInfo->RxMIMOSignalQuality[3]=%d\n",*/
++/*				pPhyInfo->RxMIMOSignalQuality[2], pPhyInfo->RxMIMOSignalQuality[3]);*/
++
++}
++
++#endif
++
++VOID
++phydm_reset_rssi_for_dm(
++	IN OUT	PDM_ODM_T	pDM_Odm,
++	IN		u1Byte		station_id
++	)
++{
++	PSTA_INFO_T			pEntry;
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	#endif
++
++	pEntry = pDM_Odm->pODM_StaInfo[station_id];
++
++	if (!IS_STA_VALID(pEntry)) {
++		/**/
++		return;
++	}
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("Reset RSSI for macid = (( %d ))\n", station_id));
++
++	
++	pEntry->rssi_stat.UndecoratedSmoothedCCK = -1;
++	pEntry->rssi_stat.UndecoratedSmoothedOFDM = -1;
++	pEntry->rssi_stat.UndecoratedSmoothedPWDB = -1;
++	pEntry->rssi_stat.OFDM_pkt = 0;
++	pEntry->rssi_stat.CCK_pkt = 0;
++	pEntry->rssi_stat.CCK_sum_power = 0;
++	pEntry->rssi_stat.bsend_rssi = RA_RSSI_STATE_INIT;
++	pEntry->rssi_stat.PacketMap = 0;
++	pEntry->rssi_stat.ValidBit = 0;
++
++	/*in WIN Driver: sta_ID==0 -> pEntry==NULL -> default port HAL_Data*/
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))
++	pEntry->bUsed = 0;
++	if (station_id == 0) { 
++		
++		pHalData->UndecoratedSmoothedPWDB = -1;
++		/**/
++	}
++	#endif
++
++}
++
++VOID
++odm_Init_RSSIForDM(
++	IN OUT	PDM_ODM_T	pDM_Odm
++	)
++{
++
++}
++
++VOID
++odm_Process_RSSIForDM(	
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	OUT		PODM_PHY_INFO_T			pPhyInfo,
++	IN		PODM_PACKET_INFO_T			pPktinfo
++	)
++{
++	
++	s4Byte			UndecoratedSmoothedPWDB, UndecoratedSmoothedCCK, UndecoratedSmoothedOFDM, RSSI_Ave, CCK_pkt;
++	u1Byte			i, isCCKrate=0;	
++	u1Byte			RSSI_max, RSSI_min;
++	u4Byte			Weighting=0;
++	u1Byte			send_rssi_2_fw = 0;
++	PSTA_INFO_T			pEntry;
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))	
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	#endif
++
++	if (pPktinfo->StationID >= ODM_ASSOCIATE_ENTRY_NUM)
++		return;
++
++	#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++	odm_S0S1_SwAntDivByCtrlFrame_ProcessRSSI(pDM_Odm, pPhyInfo, pPktinfo);
++	#endif
++
++	//
++	// 2012/05/30 MH/Luke.Lee Add some description 
++	// In windows driver: AP/IBSS mode STA
++	//
++	//if (pDM_Odm->SupportPlatform == ODM_WIN)
++	//{
++	//	pEntry = pDM_Odm->pODM_StaInfo[pDM_Odm->pAidMap[pPktinfo->StationID-1]];			
++	//}
++	//else
++		pEntry = pDM_Odm->pODM_StaInfo[pPktinfo->StationID];							
++
++	if (!IS_STA_VALID(pEntry)) {	
++		return;
++		/**/
++	}
++		
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))	
++	if ((pDM_Odm->SupportAbility & ODM_BB_ANT_DIV) &&
++		(pDM_FatTable->enable_ctrl_frame_antdiv)
++	)
++	{
++		if (pPktinfo->bPacketMatchBSSID)
++			pDM_Odm->data_frame_num++;
++				
++		if ((pDM_FatTable->use_ctrl_frame_antdiv)) {
++			if (!pPktinfo->bToSelf)/*data frame + CTRL frame*/
++				return;
++		} else {
++			if ((!pPktinfo->bPacketMatchBSSID))/*data frame only*/
++				return;
++		}	
++	} else
++#endif
++	{
++		if ((!pPktinfo->bPacketMatchBSSID))/*data frame only*/
++			return;
++	}
++
++	if(pPktinfo->bPacketBeacon)
++		pDM_Odm->PhyDbgInfo.NumQryBeaconPkt++;
++	
++	isCCKrate = (pPktinfo->DataRate <= ODM_RATE11M )?TRUE :FALSE;
++	pDM_Odm->RxRate = pPktinfo->DataRate;
++
++	//--------------Statistic for antenna/path diversity------------------
++	if(pDM_Odm->SupportAbility & ODM_BB_ANT_DIV)
++	{
++		#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++			ODM_Process_RSSIForAntDiv(pDM_Odm,pPhyInfo,pPktinfo);
++		#endif
++	}
++	#if(defined(CONFIG_PATH_DIVERSITY))
++	else if(pDM_Odm->SupportAbility & ODM_BB_PATH_DIV)
++	{
++		phydm_process_rssi_for_path_div(pDM_Odm,pPhyInfo,pPktinfo);
++	}
++	#endif
++	//-----------------Smart Antenna Debug Message------------------//
++	
++	UndecoratedSmoothedCCK =  pEntry->rssi_stat.UndecoratedSmoothedCCK;
++	UndecoratedSmoothedOFDM = pEntry->rssi_stat.UndecoratedSmoothedOFDM;
++	UndecoratedSmoothedPWDB = pEntry->rssi_stat.UndecoratedSmoothedPWDB;	
++	
++	if(pPktinfo->bPacketToSelf || pPktinfo->bPacketBeacon)
++	{
++
++		if(!isCCKrate)//ofdm rate
++		{
++#if (RTL8814A_SUPPORT == 1) || (RTL8822B_SUPPORT == 1)
++			if (pDM_Odm->SupportICType & (ODM_RTL8814A|ODM_RTL8822B)) {
++				u1Byte RX_count = 0;
++				u4Byte RSSI_linear = 0;
++
++				if (pDM_Odm->RXAntStatus & ODM_RF_A) {
++					pDM_Odm->RSSI_A = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A];
++					RX_count++;
++					RSSI_linear += odm_ConvertTo_linear(pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A]);
++				} else
++					pDM_Odm->RSSI_A = 0;
++
++				if (pDM_Odm->RXAntStatus & ODM_RF_B) {
++					pDM_Odm->RSSI_B = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_B];
++					RX_count++;
++					RSSI_linear += odm_ConvertTo_linear(pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_B]);
++				} else
++					pDM_Odm->RSSI_B = 0;
++				
++				if (pDM_Odm->RXAntStatus & ODM_RF_C) {
++					pDM_Odm->RSSI_C = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_C];
++					RX_count++;
++					RSSI_linear += odm_ConvertTo_linear(pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_C]);
++				} else
++					pDM_Odm->RSSI_C = 0;
++
++				if (pDM_Odm->RXAntStatus & ODM_RF_D) {
++					pDM_Odm->RSSI_D = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_D];
++					RX_count++;
++					RSSI_linear += odm_ConvertTo_linear(pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_D]);
++				} else
++					pDM_Odm->RSSI_D = 0;
++
++				/* Calculate average RSSI */
++				switch (RX_count) {
++				case 2:
++					RSSI_linear = (RSSI_linear >> 1);
++					break;
++				case 3:
++					RSSI_linear = ((RSSI_linear) + (RSSI_linear << 1) + (RSSI_linear << 3)) >> 5;	/* RSSI_linear/3 ~ RSSI_linear*11/32 */
++					break;
++				case 4:
++					RSSI_linear = (RSSI_linear >> 2);
++					break;
++				}			
++				RSSI_Ave = odm_ConvertTo_dB(RSSI_linear);
++			} else
++#endif
++			{
++				if (pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_B] == 0) {
++					RSSI_Ave = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A];
++					pDM_Odm->RSSI_A = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A];
++					pDM_Odm->RSSI_B = 0;
++				} else {
++					/*DbgPrint("pRfd->Status.RxMIMOSignalStrength[0] = %d, pRfd->Status.RxMIMOSignalStrength[1] = %d\n",*/ 
++						/*pRfd->Status.RxMIMOSignalStrength[0], pRfd->Status.RxMIMOSignalStrength[1]);*/
++					pDM_Odm->RSSI_A =  pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A];
++					pDM_Odm->RSSI_B = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_B];
++				
++					if (pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A] > pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_B]) {
++						RSSI_max = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A];
++						RSSI_min = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_B];
++					} else {
++						RSSI_max = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_B];
++						RSSI_min = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A];
++					}
++					if ((RSSI_max - RSSI_min) < 3)
++						RSSI_Ave = RSSI_max;
++					else if ((RSSI_max - RSSI_min) < 6)
++						RSSI_Ave = RSSI_max - 1;
++					else if ((RSSI_max - RSSI_min) < 10)
++						RSSI_Ave = RSSI_max - 2;
++					else
++						RSSI_Ave = RSSI_max - 3;
++				}
++			}
++					
++			//1 Process OFDM RSSI
++			if(UndecoratedSmoothedOFDM <= 0)	// initialize
++			{
++				UndecoratedSmoothedOFDM = pPhyInfo->RxPWDBAll;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("OFDM_INIT: (( %d ))\n", UndecoratedSmoothedOFDM));
++			}
++			else
++			{
++				if(pPhyInfo->RxPWDBAll > (u4Byte)UndecoratedSmoothedOFDM)
++				{
++					UndecoratedSmoothedOFDM = 	
++							( ((UndecoratedSmoothedOFDM)*(Rx_Smooth_Factor-1)) + 
++							(RSSI_Ave)) /(Rx_Smooth_Factor);
++					UndecoratedSmoothedOFDM = UndecoratedSmoothedOFDM + 1;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("OFDM_1: (( %d ))\n", UndecoratedSmoothedOFDM));
++				}
++				else
++				{
++					UndecoratedSmoothedOFDM = 	
++							( ((UndecoratedSmoothedOFDM)*(Rx_Smooth_Factor-1)) + 
++							(RSSI_Ave)) /(Rx_Smooth_Factor);
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("OFDM_2: (( %d ))\n", UndecoratedSmoothedOFDM));
++				}
++			}				
++			if (pEntry->rssi_stat.OFDM_pkt != 64) {
++				i = 63;
++				pEntry->rssi_stat.OFDM_pkt -= (u1Byte)(((pEntry->rssi_stat.PacketMap>>i)&BIT0)-1);
++			}
++			pEntry->rssi_stat.PacketMap = (pEntry->rssi_stat.PacketMap<<1) | BIT0;			
++										
++		}
++		else
++		{
++			RSSI_Ave = pPhyInfo->RxPWDBAll;
++			pDM_Odm->RSSI_A = (u1Byte) pPhyInfo->RxPWDBAll;
++			pDM_Odm->RSSI_B = 0xFF;
++			pDM_Odm->RSSI_C = 0xFF;
++			pDM_Odm->RSSI_D = 0xFF;
++
++			if (pEntry->rssi_stat.CCK_pkt <= 63)
++				pEntry->rssi_stat.CCK_pkt++;
++
++			//1 Process CCK RSSI
++			if(UndecoratedSmoothedCCK <= 0)	// initialize
++			{
++				UndecoratedSmoothedCCK = pPhyInfo->RxPWDBAll;
++				pEntry->rssi_stat.CCK_sum_power = (u2Byte)pPhyInfo->RxPWDBAll ; /*reset*/
++				pEntry->rssi_stat.CCK_pkt = 1; /*reset*/
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("CCK_INIT: (( %d ))\n", UndecoratedSmoothedCCK));
++			} else if (pEntry->rssi_stat.CCK_pkt <= CCK_RSSI_INIT_COUNT) {
++				
++				pEntry->rssi_stat.CCK_sum_power = pEntry->rssi_stat.CCK_sum_power + (u2Byte)pPhyInfo->RxPWDBAll;
++				UndecoratedSmoothedCCK = pEntry->rssi_stat.CCK_sum_power/pEntry->rssi_stat.CCK_pkt;
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("CCK_0: (( %d )), SumPow = (( %d )), CCK_pkt = (( %d ))\n", 
++					UndecoratedSmoothedCCK, pEntry->rssi_stat.CCK_sum_power, pEntry->rssi_stat.CCK_pkt));
++			}
++			else
++			{
++				if(pPhyInfo->RxPWDBAll > (u4Byte)UndecoratedSmoothedCCK)
++				{
++					UndecoratedSmoothedCCK = 	
++							( ((UndecoratedSmoothedCCK)*(Rx_Smooth_Factor-1)) + 
++							(pPhyInfo->RxPWDBAll)) /(Rx_Smooth_Factor);
++					UndecoratedSmoothedCCK = UndecoratedSmoothedCCK + 1;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("CCK_1: (( %d ))\n", UndecoratedSmoothedCCK));
++				}
++				else
++				{
++					UndecoratedSmoothedCCK = 	
++							( ((UndecoratedSmoothedCCK)*(Rx_Smooth_Factor-1)) + 
++							(pPhyInfo->RxPWDBAll)) /(Rx_Smooth_Factor);
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("CCK_2: (( %d ))\n", UndecoratedSmoothedCCK));
++				}
++			}
++			i = 63;
++			pEntry->rssi_stat.OFDM_pkt -= (u1Byte)((pEntry->rssi_stat.PacketMap>>i)&BIT0);			
++			pEntry->rssi_stat.PacketMap = pEntry->rssi_stat.PacketMap<<1;
++		}
++
++		//if(pEntry)
++		{
++			//2011.07.28 LukeLee: modified to prevent unstable CCK RSSI
++			if (pEntry->rssi_stat.OFDM_pkt == 64) { /* speed up when all packets are OFDM*/
++				UndecoratedSmoothedPWDB = UndecoratedSmoothedOFDM;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("PWDB_0[%d] = (( %d ))\n", pPktinfo->StationID, UndecoratedSmoothedCCK));
++			} else {
++				if (pEntry->rssi_stat.ValidBit < 64)
++					pEntry->rssi_stat.ValidBit++;
++
++				if (pEntry->rssi_stat.ValidBit == 64) {
++					Weighting = ((pEntry->rssi_stat.OFDM_pkt) > 4) ? 64 : (pEntry->rssi_stat.OFDM_pkt<<4);
++					UndecoratedSmoothedPWDB = (Weighting*UndecoratedSmoothedOFDM+(64-Weighting)*UndecoratedSmoothedCCK)>>6;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("PWDB_1[%d] = (( %d )), W = (( %d ))\n", pPktinfo->StationID, UndecoratedSmoothedCCK, Weighting));
++				} else {
++					if (pEntry->rssi_stat.ValidBit != 0)
++						UndecoratedSmoothedPWDB = (pEntry->rssi_stat.OFDM_pkt*UndecoratedSmoothedOFDM+(pEntry->rssi_stat.ValidBit-pEntry->rssi_stat.OFDM_pkt)*UndecoratedSmoothedCCK)/pEntry->rssi_stat.ValidBit;
++					else
++						UndecoratedSmoothedPWDB = 0;
++
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("PWDB_2[%d] = (( %d )), OFDM_pkt = (( %d )), Valid_Bit = (( %d ))\n", pPktinfo->StationID, UndecoratedSmoothedCCK, pEntry->rssi_stat.OFDM_pkt, pEntry->rssi_stat.ValidBit));
++				}
++			}
++			
++			
++			if ((pEntry->rssi_stat.OFDM_pkt >= 1 || pEntry->rssi_stat.CCK_pkt >= 5) && (pEntry->rssi_stat.bsend_rssi == RA_RSSI_STATE_INIT)) {
++			
++				send_rssi_2_fw = 1;
++				pEntry->rssi_stat.bsend_rssi = RA_RSSI_STATE_SEND;
++			}
++
++			pEntry->rssi_stat.UndecoratedSmoothedCCK = UndecoratedSmoothedCCK;
++			pEntry->rssi_stat.UndecoratedSmoothedOFDM = UndecoratedSmoothedOFDM;
++			pEntry->rssi_stat.UndecoratedSmoothedPWDB = UndecoratedSmoothedPWDB;
++
++
++			
++			if (send_rssi_2_fw) /* Trigger init rate by RSSI */ {
++				
++				if (pEntry->rssi_stat.OFDM_pkt != 0)
++					pEntry->rssi_stat.UndecoratedSmoothedPWDB = UndecoratedSmoothedOFDM;
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("[Send to FW] PWDB = (( %d )), OFDM_pkt = (( %d )), CCK_pkt = (( %d ))\n", 
++					UndecoratedSmoothedPWDB, pEntry->rssi_stat.OFDM_pkt, pEntry->rssi_stat.CCK_pkt));
++				
++				#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++				phydm_ra_rssi_rpt_wk(pDM_Odm);
++				#endif
++			}
++			
++
++			/*in WIN Driver: sta_ID==0 -> pEntry==NULL -> default port HAL_Data*/
++			#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))	
++				
++				if (pPktinfo->StationID == 0) { 
++					/**/
++					pHalData->UndecoratedSmoothedPWDB = UndecoratedSmoothedPWDB;
++				}
++			#endif
++			
++			//DbgPrint("OFDM_pkt=%d, Weighting=%d\n", OFDM_pkt, Weighting);
++			//DbgPrint("UndecoratedSmoothedOFDM=%d, UndecoratedSmoothedPWDB=%d, UndecoratedSmoothedCCK=%d\n", 
++			//	UndecoratedSmoothedOFDM, UndecoratedSmoothedPWDB, UndecoratedSmoothedCCK);
++			
++		}
++	
++	}
++}
++
++
++#if(ODM_IC_11N_SERIES_SUPPORT ==1)
++//
++// Endianness before calling this API
++//
++VOID
++ODM_PhyStatusQuery_92CSeries(
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	OUT		PODM_PHY_INFO_T				pPhyInfo,
++	IN 		pu1Byte						pPhyStatus,	
++	IN		PODM_PACKET_INFO_T			pPktinfo
++	)
++{
++	odm_RxPhyStatus92CSeries_Parsing(pDM_Odm, pPhyInfo, pPhyStatus, pPktinfo);
++	odm_Process_RSSIForDM(pDM_Odm, pPhyInfo, pPktinfo);
++}
++#endif
++
++
++//
++// Endianness before calling this API
++//
++#if	ODM_IC_11AC_SERIES_SUPPORT
++
++VOID
++ODM_PhyStatusQuery_JaguarSeries(
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	OUT		PODM_PHY_INFO_T			pPhyInfo,
++	IN 		pu1Byte						pPhyStatus,	
++	IN		PODM_PACKET_INFO_T			pPktinfo
++	)
++{
++	odm_RxPhyStatusJaguarSeries_Parsing(pDM_Odm, pPhyInfo,	pPhyStatus, pPktinfo);
++	odm_Process_RSSIForDM(pDM_Odm, pPhyInfo, pPktinfo);
++	
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	/*phydm_sbd_check(pDM_Odm);*/
++	#endif
++}
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++phydm_normal_driver_rx_sniffer(
++	IN OUT	PDM_ODM_T			pDM_Odm,
++	IN		pu1Byte				pDesc,
++	IN		PRT_RFD_STATUS		pRtRfdStatus,
++	IN		pu1Byte				pDrvInfo,
++	IN		u1Byte				PHYStatus
++	)
++{
++	#if (defined(CONFIG_PHYDM_RX_SNIFFER_PARSING)) 
++	u4Byte		*pMsg;
++	u2Byte		seq_num;
++	pFAT_T		pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	if (pRtRfdStatus->PacketReportType != NORMAL_RX)
++		return;
++	
++	if (!pDM_Odm->bLinked) {
++		if (pRtRfdStatus->bHwError)
++			return;
++	}
++
++	if (!(pDM_FatTable->FAT_State == FAT_TRAINING_STATE))
++		return;
++	
++	if (PHYStatus == TRUE) {
++
++		if ((pDM_Odm->rx_pkt_type == Type_BlockAck) || (pDM_Odm->rx_pkt_type == Type_RTS) || (pDM_Odm->rx_pkt_type == Type_CTS))
++			seq_num = 0;
++		else
++			seq_num = pRtRfdStatus->Seq_Num;
++
++		ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, ("%04d , %01s , Rate=0x%02x , L=%04d , %s , %s", 
++			seq_num,
++			/*pRtRfdStatus->MacID,*/
++			((pRtRfdStatus->bCRC) ? "C" : (pRtRfdStatus->bIsAMPDU) ? "A" : "_"),
++			pRtRfdStatus->DataRate,
++			pRtRfdStatus->Length,
++			((pRtRfdStatus->BandWidth == 0) ? "20M":((pRtRfdStatus->BandWidth == 1) ? "40M" : "80M")),
++			((pRtRfdStatus->bLDPC) ? "LDP" : "BCC")
++		));		
++		
++		if (pDM_Odm->rx_pkt_type == Type_Asoc_Req) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "AS_REQ"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_Asoc_Rsp) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "AS_RSP"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_Probe_Req) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "PR_REQ"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_Probe_Rsp) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "PR_RSP"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_Deauth) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "DEAUTH"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_Beacon) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "BEACON"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_BlockAckReq) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "BA_REQ"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_RTS) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "__RTS_"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_CTS) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "__CTS_"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_Ack) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "__ACK_"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_BlockAck) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "__BA__"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_Data) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "_DATA_"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_Data_Ack) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "Data_Ack"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_QosData) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "QoS_Data"));
++			/**/
++		} else {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [0x%x]", pDM_Odm->rx_pkt_type));
++			/**/
++		}
++
++		ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [RSSI=%d,%d,%d,%d ]",
++			pDM_Odm->RSSI_A,
++			pDM_Odm->RSSI_B,
++			pDM_Odm->RSSI_C,
++			pDM_Odm->RSSI_D
++		));
++		
++		pMsg = (pu4Byte)pDrvInfo;
++		
++		ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , P-STS[28:0]=%08x-%08x-%08x-%08x-%08x-%08x-%08x\n",
++			pMsg[6], pMsg[5], pMsg[4], pMsg[3], pMsg[2], pMsg[1], pMsg[1]));
++	} else {
++	
++		ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, ("%04d , %01s , Rate=0x%02x , L=%04d , %s , %s\n", 
++			pRtRfdStatus->Seq_Num,
++			/*pRtRfdStatus->MacID,*/
++			((pRtRfdStatus->bCRC) ? "C" : (pRtRfdStatus->bIsAMPDU) ? "A" : "_"),
++			pRtRfdStatus->DataRate,
++			pRtRfdStatus->Length,
++			((pRtRfdStatus->BandWidth == 0) ? "20M" : ((pRtRfdStatus->BandWidth == 1) ? "40M" : "80M")),
++			((pRtRfdStatus->bLDPC) ? "LDP" : "BCC")
++		));		
++	}
++
++
++	#endif
++}
++#endif
++
++VOID
++ODM_PhyStatusQuery(
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	OUT		PODM_PHY_INFO_T			pPhyInfo,
++	IN 		pu1Byte						pPhyStatus,	
++	IN		PODM_PACKET_INFO_T			pPktinfo
++	)
++{
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_IC_PHY_STATUE_NEW_TYPE) {
++		phydm_RxPhyStatusNewType(pDM_Odm, pPhyStatus, pPktinfo, pPhyInfo);
++		return;
++	}
++#endif
++
++#if	ODM_IC_11AC_SERIES_SUPPORT
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		ODM_PhyStatusQuery_JaguarSeries(pDM_Odm, pPhyInfo, pPhyStatus, pPktinfo);
++#endif
++
++#if	ODM_IC_11N_SERIES_SUPPORT
++	if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES )
++		ODM_PhyStatusQuery_92CSeries(pDM_Odm,pPhyInfo,pPhyStatus,pPktinfo);
++#endif
++}
++	
++// For future use.
++VOID
++ODM_MacStatusQuery(
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	IN 		pu1Byte						pMacStatus,
++	IN		u1Byte						MacID,	
++	IN		BOOLEAN						bPacketMatchBSSID,
++	IN		BOOLEAN						bPacketToSelf,
++	IN		BOOLEAN						bPacketBeacon
++	)
++{
++	// 2011/10/19 Driver team will handle in the future.
++	
++}
++
++
++//
++// If you want to add a new IC, Please follow below template and generate a new one.
++// 
++//
++
++HAL_STATUS
++ODM_ConfigRFWithHeaderFile(
++	IN 	PDM_ODM_T	        	pDM_Odm,
++	IN 	ODM_RF_Config_Type 		ConfigType,
++	IN 	ODM_RF_RADIO_PATH_E 	eRFPath
++    )
++{
++#if (DM_ODM_SUPPORT_TYPE &  ODM_WIN)	
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PMGNT_INFO		pMgntInfo = &(Adapter->MgntInfo);	
++#endif
++
++   ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, 
++		 		("===>ODM_ConfigRFWithHeaderFile (%s)\n", (pDM_Odm->bIsMPChip) ? "MPChip" : "TestChip"));
++    ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, 
++				("pDM_Odm->SupportPlatform: 0x%X, pDM_Odm->SupportInterface: 0x%X, pDM_Odm->BoardType: 0x%X\n",
++				pDM_Odm->SupportPlatform, pDM_Odm->SupportInterface, pDM_Odm->BoardType));
++
++//1 AP doesn't use PHYDM power tracking table in these ICs
++#if (DM_ODM_SUPPORT_TYPE !=  ODM_AP)
++#if (RTL8812A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8812)
++	{
++		if(ConfigType == CONFIG_RF_RADIO) {
++			if(eRFPath == ODM_RF_PATH_A){
++				READ_AND_CONFIG_MP(8812A,_RadioA);
++			}
++			else if(eRFPath == ODM_RF_PATH_B){
++				READ_AND_CONFIG_MP(8812A,_RadioB);
++			}
++		}
++		else if(ConfigType == CONFIG_RF_TXPWR_LMT) {
++			#if (DM_ODM_SUPPORT_TYPE & ODM_WIN) && (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++			HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++			if ((pHalData->EEPROMSVID == 0x17AA && pHalData->EEPROMSMID == 0xA811) ||
++				(pHalData->EEPROMSVID == 0x10EC && pHalData->EEPROMSMID == 0xA812) ||
++				(pHalData->EEPROMSVID == 0x10EC && pHalData->EEPROMSMID == 0x8812))
++				READ_AND_CONFIG_MP(8812A,_TXPWR_LMT_HM812A03);
++			else
++			#endif				
++			READ_AND_CONFIG_MP(8812A,_TXPWR_LMT);
++		}
++	}
++#endif
++#if (RTL8821A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8821)
++	{
++		if(ConfigType == CONFIG_RF_RADIO) {
++	 		if(eRFPath == ODM_RF_PATH_A){
++				READ_AND_CONFIG_MP(8821A,_RadioA);
++			}
++		}
++		else if(ConfigType == CONFIG_RF_TXPWR_LMT) {
++			if (pDM_Odm->SupportInterface == ODM_ITRF_USB) {
++				if (pDM_Odm->ExtPA5G || pDM_Odm->ExtLNA5G)
++					READ_AND_CONFIG_MP(8821A,_TXPWR_LMT_8811AU_FEM);
++				else
++					READ_AND_CONFIG_MP(8821A,_TXPWR_LMT_8811AU_IPA);				
++			} 
++			else {
++				#if (DM_ODM_SUPPORT_TYPE &  ODM_WIN)
++				if (pMgntInfo->CustomerID == RT_CID_8821AE_ASUS_MB)
++					READ_AND_CONFIG_MP(8821A,_TXPWR_LMT_8821A_SAR_8mm);
++				else if (pMgntInfo->CustomerID == RT_CID_ASUS_NB)
++					READ_AND_CONFIG_MP(8821A,_TXPWR_LMT_8821A_SAR_5mm);
++				else
++				#endif
++					READ_AND_CONFIG_MP(8821A,_TXPWR_LMT_8821A);			
++			}
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("<===8821_ODM_ConfigRFWithHeaderFile\n"));
++	}
++#endif
++#if (RTL8192E_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8192E)
++	{
++		if(ConfigType == CONFIG_RF_RADIO) {
++		 	if(eRFPath == ODM_RF_PATH_A)
++				READ_AND_CONFIG_MP(8192E,_RadioA);
++			else if(eRFPath == ODM_RF_PATH_B)
++				READ_AND_CONFIG_MP(8192E,_RadioB);
++		} else if (ConfigType == CONFIG_RF_TXPWR_LMT) {
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN) && (DEV_BUS_TYPE == RT_PCI_INTERFACE)	/*Refine by Vincent Lan for 5mm SAR pwr limit*/
++			HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++			if ((pHalData->EEPROMSVID == 0x11AD && pHalData->EEPROMSMID == 0x8192) || 
++				(pHalData->EEPROMSVID == 0x11AD && pHalData->EEPROMSMID == 0x8193))
++				READ_AND_CONFIG_MP(8192E, _TXPWR_LMT_8192E_SAR_5mm);
++			else
++#endif	
++				READ_AND_CONFIG_MP(8192E, _TXPWR_LMT);
++		}
++	}
++#endif
++#if (RTL8723D_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++		if (ConfigType == CONFIG_RF_RADIO) {
++			if (eRFPath == ODM_RF_PATH_A)
++				READ_AND_CONFIG_MP(8723D, _RadioA);
++		} else if (ConfigType == CONFIG_RF_TXPWR_LMT) 
++			READ_AND_CONFIG_MP(8723D, _TXPWR_LMT);		
++	}
++#endif
++#endif//(DM_ODM_SUPPORT_TYPE !=  ODM_AP)
++
++//1 All platforms support
++#if (RTL8188E_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8188E)
++	{
++		if(ConfigType == CONFIG_RF_RADIO) {
++			if(eRFPath == ODM_RF_PATH_A)
++					READ_AND_CONFIG_MP(8188E,_RadioA);
++		}
++		else if(ConfigType == CONFIG_RF_TXPWR_LMT)
++			READ_AND_CONFIG_MP(8188E,_TXPWR_LMT);
++	}
++#endif
++#if (RTL8723B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++		if (ConfigType == CONFIG_RF_RADIO)
++			READ_AND_CONFIG_MP(8723B, _RadioA);
++		else if (ConfigType == CONFIG_RF_TXPWR_LMT)
++			READ_AND_CONFIG_MP(8723B, _TXPWR_LMT);
++	}
++#endif
++#if (RTL8814A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8814A)
++	{
++		if(ConfigType == CONFIG_RF_RADIO) {
++		 	if(eRFPath == ODM_RF_PATH_A)
++				READ_AND_CONFIG_MP(8814A,_RadioA);
++			else if(eRFPath == ODM_RF_PATH_B)
++				READ_AND_CONFIG_MP(8814A,_RadioB);
++			else if(eRFPath == ODM_RF_PATH_C)
++				READ_AND_CONFIG_MP(8814A,_RadioC);
++			else if(eRFPath == ODM_RF_PATH_D)
++				READ_AND_CONFIG_MP(8814A,_RadioD);
++		}	
++		else if(ConfigType == CONFIG_RF_TXPWR_LMT) 
++			READ_AND_CONFIG_MP(8814A,_TXPWR_LMT);
++	}
++#endif
++#if (RTL8703B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8703B) {
++		if (ConfigType == CONFIG_RF_RADIO) {
++			if (eRFPath == ODM_RF_PATH_A)
++				READ_AND_CONFIG_MP(8703B, _RadioA);
++		}	
++	}
++#endif
++#if (RTL8188F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8188F) {
++		if (ConfigType == CONFIG_RF_RADIO) {
++			if (eRFPath == ODM_RF_PATH_A)
++				READ_AND_CONFIG_MP(8188F, _RadioA);
++		} else if (ConfigType == CONFIG_RF_TXPWR_LMT)
++			READ_AND_CONFIG_MP(8188F, _TXPWR_LMT);
++	}
++#endif
++#if (RTL8822B_SUPPORT == 1)
++		if (pDM_Odm->SupportICType == ODM_RTL8822B) {
++			if (ConfigType == CONFIG_RF_RADIO) {
++				if (eRFPath == ODM_RF_PATH_A)
++					READ_AND_CONFIG_MP(8822B, _RadioA);
++				else if (eRFPath == ODM_RF_PATH_B)
++					READ_AND_CONFIG_MP(8822B, _RadioB);
++			}	
++		}
++#endif
++
++#if (RTL8197F_SUPPORT == 1)
++		if (pDM_Odm->SupportICType == ODM_RTL8197F) {
++			if (ConfigType == CONFIG_RF_RADIO) {
++				if (eRFPath == ODM_RF_PATH_A)
++					READ_AND_CONFIG_MP(8197F, _RadioA);
++				else if (eRFPath == ODM_RF_PATH_B)
++					READ_AND_CONFIG_MP(8197F, _RadioB);
++			}	
++		}
++#endif
++
++#if (RTL8821C_SUPPORT == 1)
++		if (pDM_Odm->SupportICType == ODM_RTL8821C) {
++			if (ConfigType == CONFIG_RF_RADIO) {
++				if (eRFPath == ODM_RF_PATH_A)
++					READ_AND_CONFIG_TC(8821C, _RadioA);
++			} else if (ConfigType == CONFIG_RF_TXPWR_LMT)
++				READ_AND_CONFIG_TC(8821C, _TXPWR_LMT);
++		}
++#endif
++
++	return HAL_STATUS_SUCCESS;
++}
++
++HAL_STATUS
++ODM_ConfigRFWithTxPwrTrackHeaderFile(
++	IN 	PDM_ODM_T	        	pDM_Odm
++    )
++{
++   	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, 
++		 		 ("===>ODM_ConfigRFWithTxPwrTrackHeaderFile (%s)\n", (pDM_Odm->bIsMPChip) ? "MPChip" : "TestChip"));
++   	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, 
++				 ("pDM_Odm->SupportPlatform: 0x%X, pDM_Odm->SupportInterface: 0x%X, pDM_Odm->BoardType: 0x%X\n",
++				 pDM_Odm->SupportPlatform, pDM_Odm->SupportInterface, pDM_Odm->BoardType));
++
++
++//1 AP doesn't use PHYDM power tracking table in these ICs
++#if (DM_ODM_SUPPORT_TYPE !=  ODM_AP)
++#if RTL8821A_SUPPORT
++	if(pDM_Odm->SupportICType == ODM_RTL8821)
++	{
++		if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE)
++			READ_AND_CONFIG_MP(8821A,_TxPowerTrack_PCIE);
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_USB)
++			READ_AND_CONFIG_MP(8821A,_TxPowerTrack_USB);			
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_SDIO)
++			READ_AND_CONFIG_MP(8821A,_TxPowerTrack_SDIO);
++	}
++#endif
++#if RTL8812A_SUPPORT	
++	if(pDM_Odm->SupportICType == ODM_RTL8812)
++	{
++		if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE)
++			READ_AND_CONFIG_MP(8812A,_TxPowerTrack_PCIE);
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_USB) {
++			if (pDM_Odm->RFEType == 3 && pDM_Odm->bIsMPChip) 
++				READ_AND_CONFIG_MP(8812A,_TxPowerTrack_RFE3);	
++			else
++				READ_AND_CONFIG_MP(8812A,_TxPowerTrack_USB);	
++		}
++		
++	}
++#endif	
++#if RTL8192E_SUPPORT 	
++	if(pDM_Odm->SupportICType == ODM_RTL8192E)
++	{
++		if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE)
++			READ_AND_CONFIG_MP(8192E,_TxPowerTrack_PCIE);
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_USB)
++			READ_AND_CONFIG_MP(8192E,_TxPowerTrack_USB); 
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_SDIO)
++			READ_AND_CONFIG_MP(8192E,_TxPowerTrack_SDIO); 
++	}
++#endif
++#if RTL8723D_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++		if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE)
++			READ_AND_CONFIG_MP(8723D, _TxPowerTrack_PCIE);
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_USB)
++			READ_AND_CONFIG_MP(8723D, _TxPowerTrack_USB); 
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_SDIO)
++			READ_AND_CONFIG_MP(8723D, _TxPowerTrack_SDIO); 
++		
++		READ_AND_CONFIG_MP(8723D, _TxXtalTrack);
++	}
++#endif
++#if RTL8188E_SUPPORT 	
++	if(pDM_Odm->SupportICType == ODM_RTL8188E)
++	{
++		if (PHY_QueryMacReg(pDM_Odm->Adapter, 0xF0, 0xF000) >= 8) {		/*if 0xF0[15:12] >= 8, SMIC*/
++			if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE)
++				READ_AND_CONFIG_MP(8188E, _TxPowerTrack_PCIE_ICUT);
++			else if (pDM_Odm->SupportInterface == ODM_ITRF_USB)
++				READ_AND_CONFIG_MP(8188E, _TxPowerTrack_USB_ICUT);
++			else if (pDM_Odm->SupportInterface == ODM_ITRF_SDIO)
++				READ_AND_CONFIG_MP(8188E, _TxPowerTrack_SDIO_ICUT);
++		} else {	/*else 0xF0[15:12] < 8, TSMC*/
++			if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE)
++				READ_AND_CONFIG_MP(8188E, _TxPowerTrack_PCIE);
++			else if (pDM_Odm->SupportInterface == ODM_ITRF_USB)
++				READ_AND_CONFIG_MP(8188E, _TxPowerTrack_USB);
++			else if (pDM_Odm->SupportInterface == ODM_ITRF_SDIO)
++				READ_AND_CONFIG_MP(8188E, _TxPowerTrack_SDIO);
++		}
++		
++	}
++#endif
++#endif//(DM_ODM_SUPPORT_TYPE !=  ODM_AP)
++
++//1 All platforms support
++#if RTL8723B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++		if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE)
++			READ_AND_CONFIG_MP(8723B, _TxPowerTrack_PCIE);
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_USB)
++			READ_AND_CONFIG_MP(8723B, _TxPowerTrack_USB);
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_SDIO)
++			READ_AND_CONFIG_MP(8723B, _TxPowerTrack_SDIO);
++	}
++#endif	
++#if RTL8814A_SUPPORT
++	if(pDM_Odm->SupportICType == ODM_RTL8814A) 
++	{
++		if(pDM_Odm->RFEType == 0)
++			READ_AND_CONFIG_MP(8814A,_TxPowerTrack_Type0);
++		else if(pDM_Odm->RFEType == 2)
++			READ_AND_CONFIG_MP(8814A,_TxPowerTrack_Type2);
++		else if (pDM_Odm->RFEType == 5)
++			READ_AND_CONFIG_MP(8814A, _TxPowerTrack_Type5);
++		else
++			READ_AND_CONFIG_MP(8814A,_TxPowerTrack);
++			
++		READ_AND_CONFIG_MP(8814A, _TxPowerTSSI);
++	}
++#endif
++#if RTL8703B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8703B) {
++		if (pDM_Odm->SupportInterface == ODM_ITRF_USB)
++			READ_AND_CONFIG_MP(8703B, _TxPowerTrack_USB);
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_SDIO)
++			READ_AND_CONFIG_MP(8703B, _TxPowerTrack_SDIO);		
++
++		READ_AND_CONFIG_MP(8703B, _TxXtalTrack);
++	}
++#endif
++
++#if RTL8188F_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8188F) {
++		if (pDM_Odm->SupportInterface == ODM_ITRF_USB)
++			READ_AND_CONFIG_MP(8188F, _TxPowerTrack_USB);
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_SDIO)
++			READ_AND_CONFIG_MP(8188F, _TxPowerTrack_SDIO);
++	}
++#endif
++
++#if RTL8822B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8822B)
++		READ_AND_CONFIG_MP(8822B, _TxPowerTrack);
++#endif
++
++#if RTL8197F_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8197F) {
++		if (pDM_Odm->RFEType == 0)
++			READ_AND_CONFIG_MP(8197F, _TxPowerTrack_Type0);
++		else if (pDM_Odm->RFEType == 1)
++			READ_AND_CONFIG_MP(8197F, _TxPowerTrack_Type1);
++		else
++			READ_AND_CONFIG_MP(8197F, _TxPowerTrack);
++	}
++#endif	
++
++#if RTL8821C_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8821C)
++			READ_AND_CONFIG_TC(8821C, _TxPowerTrack);
++#endif
++
++	return HAL_STATUS_SUCCESS;
++}
++
++HAL_STATUS
++ODM_ConfigBBWithHeaderFile(
++	IN 	PDM_ODM_T	             	pDM_Odm,
++	IN 	ODM_BB_Config_Type 		ConfigType
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE &  ODM_WIN)	
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PMGNT_INFO		pMgntInfo = &(Adapter->MgntInfo);	
++#endif
++
++//1 AP doesn't use PHYDM initialization in these ICs
++#if (DM_ODM_SUPPORT_TYPE !=  ODM_AP)	
++#if (RTL8812A_SUPPORT == 1) 
++	if(pDM_Odm->SupportICType == ODM_RTL8812)
++	{
++		if (ConfigType == CONFIG_BB_PHY_REG) {
++			READ_AND_CONFIG_MP(8812A, _PHY_REG);
++		} else if (ConfigType == CONFIG_BB_AGC_TAB) {
++			READ_AND_CONFIG_MP(8812A, _AGC_TAB);
++		} else if (ConfigType == CONFIG_BB_PHY_REG_PG) {
++			if (pDM_Odm->RFEType == 3 && pDM_Odm->bIsMPChip) 
++				READ_AND_CONFIG_MP(8812A, _PHY_REG_PG_ASUS);
++			#if (DM_ODM_SUPPORT_TYPE &  ODM_WIN)
++			else if (pMgntInfo->CustomerID == RT_CID_WNC_NEC && pDM_Odm->bIsMPChip) 
++				READ_AND_CONFIG_MP(8812A, _PHY_REG_PG_NEC);
++			#if RT_PLATFORM == PLATFORM_MACOSX
++			/*{1827}{1024} for BUFFALO power by rate table. Isaiah 2013-11-29*/
++			else if (pMgntInfo->CustomerID == RT_CID_DNI_BUFFALO)
++				READ_AND_CONFIG_MP(8812A, _PHY_REG_PG_DNI);
++			/* TP-Link T4UH, Isaiah 2015-03-16*/
++			else if (pMgntInfo->CustomerID == RT_CID_TPLINK_HPWR) {
++				DbgPrint("RT_CID_TPLINK_HPWR:: _PHY_REG_PG_TPLINK\n");
++				READ_AND_CONFIG_MP(8812A, _PHY_REG_PG_TPLINK);
++			}
++			#endif
++			#endif			
++			else
++				READ_AND_CONFIG_MP(8812A, _PHY_REG_PG);
++		}
++		else if(ConfigType == CONFIG_BB_PHY_REG_MP){
++			READ_AND_CONFIG_MP(8812A,_PHY_REG_MP);
++		}
++		else if(ConfigType == CONFIG_BB_AGC_TAB_DIFF)
++		{
++			if ((36 <= *pDM_Odm->pChannel)  && (*pDM_Odm->pChannel  <= 64)) 
++				AGC_DIFF_CONFIG_MP(8812A,LB);
++			else if (100 <= *pDM_Odm->pChannel) 
++				AGC_DIFF_CONFIG_MP(8812A,HB);
++		}
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, (" ===> phy_ConfigBBWithHeaderFile() phy:Rtl8812AGCTABArray\n"));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, (" ===> phy_ConfigBBWithHeaderFile() agc:Rtl8812PHY_REGArray\n"));
++	}		
++#endif
++#if (RTL8821A_SUPPORT == 1) 
++	if (pDM_Odm->SupportICType == ODM_RTL8821) {
++		if (ConfigType == CONFIG_BB_PHY_REG) {
++			READ_AND_CONFIG_MP(8821A, _PHY_REG);
++		} else if (ConfigType == CONFIG_BB_AGC_TAB) {
++			READ_AND_CONFIG_MP(8821A, _AGC_TAB);
++		} else if (ConfigType == CONFIG_BB_PHY_REG_PG) {
++			#if (DM_ODM_SUPPORT_TYPE & ODM_WIN) 
++			#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++			HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++			if ((pHalData->EEPROMSVID == 0x1043 && pHalData->EEPROMSMID == 0x207F))
++				READ_AND_CONFIG_MP(8821A, _PHY_REG_PG_E202SA);
++			else
++			#endif
++			#if (RT_PLATFORM == PLATFORM_MACOSX)
++			/*{1827}{1022} for BUFFALO power by rate table. Isaiah 2013-10-18*/
++			if (pMgntInfo->CustomerID == RT_CID_DNI_BUFFALO) {
++				/*{1024} for BUFFALO power by rate table. (JP/US)*/
++				if (pMgntInfo->ChannelPlan == RT_CHANNEL_DOMAIN_US_2G_CANADA_5G)
++					READ_AND_CONFIG_MP(8821A, _PHY_REG_PG_DNI_US);
++				else
++					READ_AND_CONFIG_MP(8821A, _PHY_REG_PG_DNI_JP);
++			} else
++			#endif
++			#endif
++			READ_AND_CONFIG_MP(8821A,_PHY_REG_PG);
++		}		
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, (" ===> phy_ConfigBBWithHeaderFile() phy:Rtl8821AGCTABArray\n"));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, (" ===> phy_ConfigBBWithHeaderFile() agc:Rtl8821PHY_REGArray\n"));
++	}		
++#endif
++#if (RTL8192E_SUPPORT == 1)
++	if(pDM_Odm->SupportICType == ODM_RTL8192E)
++	{
++		if(ConfigType == CONFIG_BB_PHY_REG){
++			READ_AND_CONFIG_MP(8192E,_PHY_REG);
++		}else if(ConfigType == CONFIG_BB_AGC_TAB){
++			READ_AND_CONFIG_MP(8192E,_AGC_TAB);
++		}else if(ConfigType == CONFIG_BB_PHY_REG_PG){
++			READ_AND_CONFIG_MP(8192E,_PHY_REG_PG);
++		}
++	}
++#endif
++#if (RTL8723D_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++		if (ConfigType == CONFIG_BB_PHY_REG)
++			READ_AND_CONFIG_MP(8723D, _PHY_REG);
++		else if (ConfigType == CONFIG_BB_AGC_TAB)
++			READ_AND_CONFIG_MP(8723D, _AGC_TAB);
++		else if (ConfigType == CONFIG_BB_PHY_REG_PG)
++			READ_AND_CONFIG_MP(8723D, _PHY_REG_PG);
++	}
++#endif
++#endif//(DM_ODM_SUPPORT_TYPE !=  ODM_AP)
++
++
++//1 All platforms support
++#if (RTL8188E_SUPPORT == 1)
++	if(pDM_Odm->SupportICType == ODM_RTL8188E)
++	{
++		if(ConfigType == CONFIG_BB_PHY_REG)
++			READ_AND_CONFIG_MP(8188E,_PHY_REG);
++		else if(ConfigType == CONFIG_BB_AGC_TAB)
++			READ_AND_CONFIG_MP(8188E,_AGC_TAB);
++		else if(ConfigType == CONFIG_BB_PHY_REG_PG)
++			READ_AND_CONFIG_MP(8188E,_PHY_REG_PG);
++	}
++#endif
++#if (RTL8723B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++		if (ConfigType == CONFIG_BB_PHY_REG) {
++			READ_AND_CONFIG_MP(8723B, _PHY_REG);
++		} else if (ConfigType == CONFIG_BB_AGC_TAB) {
++			READ_AND_CONFIG_MP(8723B, _AGC_TAB);
++		} else if (ConfigType == CONFIG_BB_PHY_REG_PG) {
++			READ_AND_CONFIG_MP(8723B, _PHY_REG_PG);
++		}
++	}
++#endif
++#if (RTL8814A_SUPPORT == 1)
++	if(pDM_Odm->SupportICType == ODM_RTL8814A)
++	{
++		if(ConfigType == CONFIG_BB_PHY_REG){
++			READ_AND_CONFIG_MP(8814A,_PHY_REG);
++		}else if(ConfigType == CONFIG_BB_AGC_TAB){
++			READ_AND_CONFIG_MP(8814A,_AGC_TAB);
++		}else if(ConfigType == CONFIG_BB_PHY_REG_PG){
++			READ_AND_CONFIG_MP(8814A,_PHY_REG_PG);
++		}else if(ConfigType == CONFIG_BB_PHY_REG_MP){
++			READ_AND_CONFIG_MP(8814A,_PHY_REG_MP);
++		}
++	}
++#endif
++#if (RTL8703B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8703B) {
++		if (ConfigType == CONFIG_BB_PHY_REG)
++			READ_AND_CONFIG_MP(8703B, _PHY_REG);
++		else if (ConfigType == CONFIG_BB_AGC_TAB)
++			READ_AND_CONFIG_MP(8703B, _AGC_TAB);
++		else if (ConfigType == CONFIG_BB_PHY_REG_PG)
++			READ_AND_CONFIG_MP(8703B, _PHY_REG_PG);
++	}
++#endif
++#if (RTL8188F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8188F) {
++		if (ConfigType == CONFIG_BB_PHY_REG) 
++			READ_AND_CONFIG_MP(8188F, _PHY_REG);
++		else if (ConfigType == CONFIG_BB_AGC_TAB) 
++			READ_AND_CONFIG_MP(8188F, _AGC_TAB);
++		else if (ConfigType == CONFIG_BB_PHY_REG_PG) 
++			READ_AND_CONFIG_MP(8188F, _PHY_REG_PG);
++	}
++#endif
++#if (RTL8822B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8822B) {
++		if (ConfigType == CONFIG_BB_PHY_REG)
++			READ_AND_CONFIG_MP(8822B, _PHY_REG);
++		else if (ConfigType == CONFIG_BB_AGC_TAB)
++			READ_AND_CONFIG_MP(8822B, _AGC_TAB);
++		else if (ConfigType == CONFIG_BB_PHY_REG_PG)
++			READ_AND_CONFIG_MP(8822B, _PHY_REG_PG);
++		/*else if (ConfigType == CONFIG_BB_PHY_REG_MP)*/
++			/*READ_AND_CONFIG_MP(8822B, _PHY_REG_MP);*/
++	}
++#endif
++
++#if (RTL8197F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8197F) {
++		if (ConfigType == CONFIG_BB_PHY_REG) {
++			READ_AND_CONFIG_MP(8197F, _PHY_REG);
++			if (pDM_Odm->CutVersion == ODM_CUT_A)
++				ODM_SetBBReg(pDM_Odm, 0x97c, 0xff000000, 0x20);/*97f A-cut workaround*/
++		} else if (ConfigType == CONFIG_BB_AGC_TAB)
++			READ_AND_CONFIG_MP(8197F, _AGC_TAB);
++/*		else if(ConfigType == CONFIG_BB_PHY_REG_PG)
++			READ_AND_CONFIG_MP(8197F, _PHY_REG_PG);
++		else if(ConfigType == CONFIG_BB_PHY_REG_MP)
++			READ_AND_CONFIG_MP(8197F, _PHY_REG_MP); */
++	}
++#endif
++
++#if (RTL8821C_SUPPORT == 1) 
++	if (pDM_Odm->SupportICType == ODM_RTL8821C)
++	{
++		if (ConfigType == CONFIG_BB_PHY_REG) {
++			READ_AND_CONFIG_TC(8821C, _PHY_REG);
++		} else if (ConfigType == CONFIG_BB_AGC_TAB) { 
++		    READ_AND_CONFIG_TC(8821C, _AGC_TAB);
++		} else if (ConfigType == CONFIG_BB_PHY_REG_PG) {
++			READ_AND_CONFIG_TC(8821C, _PHY_REG_PG);
++		}
++	}		
++#endif
++
++#if (RTL8195A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8195A)
++	{
++		if(ConfigType == CONFIG_BB_PHY_REG)
++			READ_AND_CONFIG(8195A, _PHY_REG);
++		else if(ConfigType == CONFIG_BB_AGC_TAB)
++			READ_AND_CONFIG(8195A, _AGC_TAB);
++		else if(ConfigType == CONFIG_BB_PHY_REG_PG)
++			READ_AND_CONFIG(8195A, _PHY_REG_PG);
++	}
++#endif
++
++	return HAL_STATUS_SUCCESS; 
++}                 
++
++HAL_STATUS
++ODM_ConfigMACWithHeaderFile(
++	IN 	PDM_ODM_T	pDM_Odm
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE &  ODM_WIN)	
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, 
++		 		("===>ODM_ConfigMACWithHeaderFile (%s)\n", (pDM_Odm->bIsMPChip) ? "MPChip" : "TestChip"));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, 
++				("pDM_Odm->SupportPlatform: 0x%X, pDM_Odm->SupportInterface: 0x%X, pDM_Odm->BoardType: 0x%X\n",
++				pDM_Odm->SupportPlatform, pDM_Odm->SupportInterface, pDM_Odm->BoardType));
++
++//1 AP doesn't use PHYDM initialization in these ICs
++#if (DM_ODM_SUPPORT_TYPE !=  ODM_AP)	
++#if (RTL8812A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8812){
++		READ_AND_CONFIG_MP(8812A, _MAC_REG);
++	}
++#endif
++#if (RTL8821A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8821){
++		READ_AND_CONFIG_MP(8821A, _MAC_REG);
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("<===8821_ODM_ConfigMACwithHeaderFile\n"));
++	}
++#endif
++#if (RTL8192E_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8192E){
++		READ_AND_CONFIG_MP(8192E, _MAC_REG);
++	}
++#endif
++#if (RTL8723D_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8723D)
++		READ_AND_CONFIG_MP(8723D, _MAC_REG);
++#endif
++#endif//(DM_ODM_SUPPORT_TYPE !=  ODM_AP)
++
++//1 All platforms support
++#if (RTL8188E_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8188E){
++		READ_AND_CONFIG_MP(8188E, _MAC_REG);
++	}
++#endif
++#if (RTL8723B_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++		READ_AND_CONFIG_MP(8723B, _MAC_REG);
++	}
++#endif
++#if (RTL8814A_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8814A){
++		READ_AND_CONFIG_MP(8814A, _MAC_REG);
++	}
++#endif
++#if (RTL8703B_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8703B)
++		READ_AND_CONFIG_MP(8703B, _MAC_REG);
++#endif
++#if (RTL8188F_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8188F) 
++		READ_AND_CONFIG_MP(8188F, _MAC_REG);
++#endif
++#if (RTL8822B_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8822B)
++		READ_AND_CONFIG_MP(8822B, _MAC_REG);
++#endif
++
++#if (RTL8197F_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8197F)
++		READ_AND_CONFIG_MP(8197F, _MAC_REG);
++#endif
++
++#if (RTL8821C_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8821C)
++		READ_AND_CONFIG_TC(8821C, _MAC_REG);
++#endif
++
++#if (RTL8195A_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8195A)
++		READ_AND_CONFIG_MP(8195A, _MAC_REG);
++#endif
++
++	return HAL_STATUS_SUCCESS;    
++} 
++
++HAL_STATUS
++ODM_ConfigFWWithHeaderFile(
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN 	ODM_FW_Config_Type 	ConfigType,
++	OUT u1Byte				*pFirmware,
++	OUT u4Byte				*pSize
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE != ODM_AP)
++
++#if (RTL8188E_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8188E)
++	{
++	#ifdef CONFIG_SFW_SUPPORTED
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8188E_T,_FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN)
++			READ_FIRMWARE_MP(8188E_T,_FW_WoWLAN);
++		else if(ConfigType == CONFIG_FW_NIC_2)
++			READ_FIRMWARE_MP(8188E_S,_FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN_2)
++			READ_FIRMWARE_MP(8188E_S,_FW_WoWLAN);
++		#ifdef CONFIG_AP_WOWLAN
++		if (ConfigType == CONFIG_FW_AP)
++			READ_FIRMWARE_MP(8188E_T,_FW_AP);
++		else if (ConfigType == CONFIG_FW_AP_2)
++			READ_FIRMWARE_MP(8188E_S,_FW_AP);
++		#endif //CONFIG_AP_WOWLAN
++	#else
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8188E_T,_FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN)
++			READ_FIRMWARE_MP(8188E_T,_FW_WoWLAN);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP)
++			READ_FIRMWARE_MP(8188E_T,_FW_AP);
++		#endif //CONFIG_AP_WOWLAN
++	#endif
++	}
++#endif
++#if (RTL8723B_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8723B)
++	{
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8723B,_FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN)
++			READ_FIRMWARE_MP(8723B,_FW_WoWLAN);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP_WoWLAN)
++			READ_FIRMWARE(8723B,_FW_AP_WoWLAN);
++		#endif
++		
++	}
++#endif //#if (RTL8723B_SUPPORT == 1)  
++#if (RTL8812A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8812)
++	{
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8812A,_FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN)
++			READ_FIRMWARE_MP(8812A,_FW_WoWLAN);
++		else if (ConfigType == CONFIG_FW_BT)
++			READ_FIRMWARE_MP(8812A,_FW_NIC_BT);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP_WoWLAN)
++			READ_FIRMWARE(8812A,_FW_AP);
++		#endif
++	}
++#endif
++#if (RTL8821A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8821){
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8821A,_FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN)
++			READ_FIRMWARE_MP(8821A,_FW_WoWLAN);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP_WoWLAN)
++			READ_FIRMWARE_MP(8821A , _FW_AP);
++		#endif /*CONFIG_AP_WOWLAN*/
++		else if (ConfigType == CONFIG_FW_BT)
++			READ_FIRMWARE_MP(8821A,_FW_NIC_BT);
++	}
++#endif
++#if (RTL8192E_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8192E)
++	{
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8192E,_FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN)
++			READ_FIRMWARE_MP(8192E,_FW_WoWLAN);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP_WoWLAN)
++			READ_FIRMWARE_MP(8192E,_FW_AP);
++		#endif
++	}
++#endif
++#if (RTL8723D_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++		if (ConfigType == CONFIG_FW_NIC) {
++			READ_FIRMWARE_MP(8723D, _FW_NIC);
++		} else if (ConfigType == CONFIG_FW_WoWLAN) {
++			READ_FIRMWARE_MP(8723D, _FW_WoWLAN);
++		}
++	}
++#endif
++/*#if (RTL8814A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8814A)
++	{
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8814A, _FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN)
++			READ_FIRMWARE_MP(8814A, _FW_WoWLAN);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP_WoWLAN)
++			READ_FIRMWARE_MP(8814A, _FW_AP);
++		#endif
++	}
++#endif */
++
++#if (RTL8814A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8814A)
++	{
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8814A,_FW_NIC);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP_WoWLAN)
++			READ_FIRMWARE_MP(8814A,_FW_AP);
++		#endif
++	}
++#endif
++
++#if (RTL8703B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8703B) {
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8703B, _FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN)
++			READ_FIRMWARE_MP(8703B, _FW_WoWLAN);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP_WoWLAN)
++			READ_FIRMWARE(8703B, _FW_AP_WoWLAN);
++		#endif
++	}
++#endif
++
++#if (RTL8188F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8188F) {
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8188F, _FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN)
++			READ_FIRMWARE_MP(8188F, _FW_WoWLAN);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP)
++			READ_FIRMWARE_MP(8188F, _FW_AP);
++		#endif
++	}
++#endif
++
++#if (RTL8822B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8822B) {
++		
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8822B,_FW_NIC);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP_WoWLAN)
++			READ_FIRMWARE(8822B,_FW_AP);
++		#endif
++	}
++#endif
++
++#if (RTL8197F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8197F) {
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8197F, _FW_NIC);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP_WoWLAN)
++			READ_FIRMWARE(8197F , _FW_AP);
++		#endif
++	}
++#endif
++
++#endif//(DM_ODM_SUPPORT_TYPE != ODM_AP)
++	return HAL_STATUS_SUCCESS;    
++} 
++
++u4Byte 
++ODM_GetHWImgVersion(
++	IN	PDM_ODM_T	pDM_Odm
++	)
++{
++    u4Byte  Version=0;
++
++//1 AP doesn't use PHYDM initialization in these ICs
++#if (DM_ODM_SUPPORT_TYPE != ODM_AP)
++#if (RTL8821A_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8821)
++		Version = GET_VERSION_MP(8821A,_MAC_REG);
++#endif
++#if (RTL8192E_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8192E)
++		Version = GET_VERSION_MP(8192E,_MAC_REG);
++#endif
++#if (RTL8812A_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8812)
++		Version = GET_VERSION_MP(8812A,_MAC_REG);
++#endif
++#if (RTL8723D_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8723D)
++		Version = GET_VERSION_MP(8723D, _MAC_REG);
++#endif
++#endif //(DM_ODM_SUPPORT_TYPE != ODM_AP)
++
++/*1 All platforms support*/
++#if (RTL8188E_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8188E)
++		Version = GET_VERSION_MP(8188E,_MAC_REG);
++#endif
++#if (RTL8723B_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8723B)
++		Version = GET_VERSION_MP(8723B, _MAC_REG);
++#endif
++#if (RTL8814A_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8814A)
++		Version = GET_VERSION_MP(8814A,_MAC_REG);
++#endif
++#if (RTL8703B_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8703B)
++		Version = GET_VERSION_MP(8703B, _MAC_REG);
++#endif
++#if (RTL8188F_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8188F)
++		Version = GET_VERSION_MP(8188F, _MAC_REG);
++#endif
++#if (RTL8822B_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8822B)
++		Version = GET_VERSION_MP(8822B, _MAC_REG);
++#endif
++
++#if (RTL8197F_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8197F)
++		Version = GET_VERSION_MP(8197F, _MAC_REG);
++#endif
++
++#if (RTL8821C_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8821C)
++		Version = GET_VERSION_TC(8821C, _MAC_REG);
++#endif
++
++	return Version;
++}
++
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++/* For 8822B only!! need to move to FW finally */
++/*==============================================*/
++
++VOID
++phydm_ResetPhyInfo(
++	IN		PDM_ODM_T					pPhydm,
++	OUT		PODM_PHY_INFO_T			pPhyInfo
++)
++{
++	pPhyInfo->RxPWDBAll = 0;
++	pPhyInfo->SignalQuality = 0;
++	pPhyInfo->BandWidth = 0;
++	pPhyInfo->RxCount = 0;
++	ODM_Memory_Set(pPhydm, pPhyInfo->RxMIMOSignalQuality, 0 , 4);
++	ODM_Memory_Set(pPhydm, pPhyInfo->RxMIMOSignalStrength, 0, 4);
++	ODM_Memory_Set(pPhydm, pPhyInfo->RxSNR, 0, 4);
++
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))	
++	pPhyInfo->RxPower = -110;
++	pPhyInfo->RecvSignalPower = -110;
++	pPhyInfo->BTRxRSSIPercentage = 0;
++	pPhyInfo->SignalStrength = 0;
++	pPhyInfo->btCoexPwrAdjust = 0;
++	pPhyInfo->channel = 0;
++	pPhyInfo->bMuPacket = 0;
++	pPhyInfo->bBeamformed = 0;
++	pPhyInfo->rxsc = 0;
++	ODM_Memory_Set(pPhydm, pPhyInfo->RxPwr, -110, 4);
++	ODM_Memory_Set(pPhydm, pPhyInfo->RxMIMOEVMdbm, 0, 4);
++	ODM_Memory_Set(pPhydm, pPhyInfo->Cfo_short, 0, 8);
++	ODM_Memory_Set(pPhydm, pPhyInfo->Cfo_tail, 0, 8);
++#endif
++}
++
++VOID
++phydm_SetPerPathPhyInfo(
++	IN		u1Byte							RxPath,
++	IN		s1Byte							RxPwr,
++	IN		s1Byte							RxEVM,
++	IN		s1Byte							Cfo_tail,
++	IN		s1Byte							RxSNR,
++	OUT		PODM_PHY_INFO_T				pPhyInfo
++)
++{
++	u1Byte			EVMdBm = 0;
++	u1Byte			EVMPercentage = 0;
++
++	/* SNR is S(8,1), EVM is S(8,1), CFO is S(8,7) */
++	
++	if (RxEVM < 0) {
++		/* Calculate EVM in dBm */
++		EVMdBm = ((u1Byte)(0 - RxEVM) >> 1);
++
++		/* Calculate EVM in percentage */
++		if (EVMdBm >= 33)
++			EVMPercentage = 100;
++		else 
++			EVMPercentage = (EVMdBm << 1) + (EVMdBm);
++	}
++	
++
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++	pPhyInfo->RxPwr[RxPath] = RxPwr;
++	pPhyInfo->RxMIMOEVMdbm[RxPath] = EVMdBm;
++
++	/* CFO = CFO_tail * 312.5 / 2^7 ~= CFO tail * 39/512 (kHz)*/
++	pPhyInfo->Cfo_tail[RxPath] = Cfo_tail;
++	pPhyInfo->Cfo_tail[RxPath] = ((pPhyInfo->Cfo_tail[RxPath] << 5) + (pPhyInfo->Cfo_tail[RxPath] << 2) +
++		(pPhyInfo->Cfo_tail[RxPath] << 1) + (pPhyInfo->Cfo_tail[RxPath])) >> 9;
++#endif
++
++	pPhyInfo->RxMIMOSignalStrength[RxPath] = odm_QueryRxPwrPercentage(RxPwr);
++	pPhyInfo->RxMIMOSignalQuality[RxPath] = EVMPercentage;
++	pPhyInfo->RxSNR[RxPath] = RxSNR >> 1;
++
++/*
++	//if (pPktinfo->bPacketMatchBSSID) 
++	{
++		DbgPrint("Path (%d)--------\n", RxPath);
++		DbgPrint("RxPwr = %d, Signal strength = %d\n", pPhyInfo->RxPwr[RxPath], pPhyInfo->RxMIMOSignalStrength[RxPath]);
++		DbgPrint("EVMdBm = %d, Signal quality = %d\n", pPhyInfo->RxMIMOEVMdbm[RxPath], pPhyInfo->RxMIMOSignalQuality[RxPath]);
++		DbgPrint("CFO = %d, SNR = %d\n", pPhyInfo->Cfo_tail[RxPath], pPhyInfo->RxSNR[RxPath]);
++	}	
++*/
++}
++
++VOID
++phydm_SetCommonPhyInfo(
++	IN		s1Byte							RxPower,
++	IN		u1Byte							channel,
++	IN		BOOLEAN							bBeamformed,
++	IN		BOOLEAN							bMuPacket,
++	IN		u1Byte							bandwidth,
++	IN		u1Byte							signalQuality,
++	IN		u1Byte							rxsc,
++	OUT		PODM_PHY_INFO_T				pPhyInfo
++)
++{
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++	pPhyInfo->RxPower = RxPower;											/* RSSI in dB */
++	pPhyInfo->RecvSignalPower = RxPower;										/* RSSI in dB */
++	pPhyInfo->channel = channel;												/* channel number */
++	pPhyInfo->bBeamformed = bBeamformed;									/* apply BF */
++	pPhyInfo->bMuPacket = bMuPacket;										/* MU packet */
++	pPhyInfo->rxsc = rxsc;
++#endif
++	pPhyInfo->RxPWDBAll = odm_QueryRxPwrPercentage(RxPower);				/* RSSI in percentage */
++	pPhyInfo->SignalQuality = signalQuality;										/* signal quality */
++	pPhyInfo->BandWidth = bandwidth;											/* bandwidth */
++
++/*
++	//if (pPktinfo->bPacketMatchBSSID)
++	{
++		DbgPrint("RxPWDBAll = %d, RxPower = %d, RecvSignalPower = %d\n", pPhyInfo->RxPWDBAll, pPhyInfo->RxPower, pPhyInfo->RecvSignalPower);
++		DbgPrint("SignalQuality = %d\n", pPhyInfo->SignalQuality);
++		DbgPrint("bBeamformed = %d, bMuPacket = %d, RxCount = %d\n", pPhyInfo->bBeamformed, pPhyInfo->bMuPacket, pPhyInfo->RxCount + 1);
++		DbgPrint("channel = %d, rxsc = %d, BandWidth = %d\n", channel, rxsc, bandwidth);
++	}
++*/
++}
++
++VOID
++phydm_GetRxPhyStatusType0(
++	IN		PDM_ODM_T						pDM_Odm,
++	IN		pu1Byte							pPhyStatus,
++	IN		PODM_PACKET_INFO_T				pPktinfo,
++	OUT		PODM_PHY_INFO_T				pPhyInfo
++)
++{
++	/* Type 0 is used for cck packet */
++	
++	PPHY_STATUS_RPT_JAGUAR2_TYPE0	pPhyStaRpt = (PPHY_STATUS_RPT_JAGUAR2_TYPE0)pPhyStatus;
++	u1Byte							i, SQ = 0;
++	s1Byte							RxPower = pPhyStaRpt->pwdb - 110;
++
++
++#if (RTL8723D_SUPPORT == 1)
++		if (pDM_Odm->SupportICType & ODM_RTL8723D)
++			RxPower = pPhyStaRpt->pwdb - 97;
++#endif
++
++	/* Calculate Signal Quality*/
++	if (pPktinfo->bPacketMatchBSSID) {
++		if (pPhyStaRpt->signal_quality >= 64)
++			SQ = 0;
++		else if (pPhyStaRpt->signal_quality <= 20)
++			SQ = 100;
++		else {
++			/* mapping to 2~99% */
++			SQ = 64 - pPhyStaRpt->signal_quality;
++			SQ = ((SQ << 3) + SQ) >> 2;
++		}
++	}
++
++	/* Modify CCK PWDB if old AGC */
++	if (pDM_Odm->cck_new_agc == FALSE) {
++		u1Byte	LNA_idx, VGA_idx;
++
++#if (RTL8197F_SUPPORT == 1)		
++		if (pDM_Odm->SupportICType & ODM_RTL8197F)
++			LNA_idx = pPhyStaRpt->lna_l;
++		else
++#endif
++			LNA_idx = ((pPhyStaRpt->lna_h << 3) | pPhyStaRpt->lna_l);
++		VGA_idx = pPhyStaRpt->vga;
++	
++#if (RTL8723D_SUPPORT == 1)
++		if (pDM_Odm->SupportICType & ODM_RTL8723D)
++			RxPower = odm_CCKRSSI_8723D(LNA_idx, VGA_idx);
++#endif
++#if (RTL8822B_SUPPORT == 1)
++		/* Need to do !! */
++		/*if (pDM_Odm->SupportICType & ODM_RTL8822B) */
++			/*RxPower = odm_CCKRSSI_8822B(LNA_idx, VGA_idx);*/
++#endif
++#if (RTL8197F_SUPPORT == 1)
++		if (pDM_Odm->SupportICType & ODM_RTL8197F) 
++			RxPower = odm_CCKRSSI_8197F(pDM_Odm, LNA_idx, VGA_idx);
++#endif
++	}
++
++	/* Update CCK packet counter */
++	pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK++;
++
++	/* Update Common information */
++	phydm_SetCommonPhyInfo(RxPower, pPhyStaRpt->channel, FALSE, 
++		FALSE, ODM_BW20M, SQ, pPhyStaRpt->rxsc, pPhyInfo);
++
++	/* Update CCK pwdb */
++	phydm_SetPerPathPhyInfo(ODM_RF_PATH_A, RxPower, 0, 0, 0, pPhyInfo);					/* Update per-path information */
++
++	pDM_Odm->DM_FatTable.antsel_rx_keep_0 = pPhyStaRpt->antidx_a;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_1 = pPhyStaRpt->antidx_b;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_2 = pPhyStaRpt->antidx_c;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_3 = pPhyStaRpt->antidx_d;
++/*
++	//if (pPktinfo->bPacketMatchBSSID)
++	{
++		DbgPrint("pwdb = 0x%x, MP gain index = 0x%x, TRSW = 0x%x\n", pPhyStaRpt->pwdb, pPhyStaRpt->gain, pPhyStaRpt->trsw);
++		DbgPrint("channel = %d, band = %d, rxsc = %d\n", pPhyStaRpt->channel, pPhyStaRpt->band, pPhyStaRpt->rxsc);
++		DbgPrint("agc_table = 0x%x, agc_rpt 0x%x, bb_power = 0x%x\n", pPhyStaRpt->agc_table, pPhyStaRpt->agc_rpt, pPhyStaRpt->bb_power);
++		DbgPrint("length = %d, SQ = %d\n", pPhyStaRpt->length, pPhyStaRpt->signal_quality);
++		DbgPrint("antidx a = 0x%x, b = 0x%x, c = 0x%x, d = 0x%x\n", pPhyStaRpt->antidx_a, pPhyStaRpt->antidx_b, pPhyStaRpt->antidx_c, pPhyStaRpt->antidx_d);
++		DbgPrint("rsvd_0 = 0x%x, rsvd_1 = 0x%x, rsvd_2 = 0x%x\n", pPhyStaRpt->rsvd_0, pPhyStaRpt->rsvd_1, pPhyStaRpt->rsvd_2);
++		DbgPrint("rsvd_3 = 0x%x, rsvd_4 = 0x%x, rsvd_5 = 0x%x\n", pPhyStaRpt->rsvd_3, pPhyStaRpt->rsvd_4, pPhyStaRpt->rsvd_5);
++		DbgPrint("rsvd_6 = 0x%x, rsvd_7 = 0x%x, rsvd_8 = 0x%x\n", pPhyStaRpt->rsvd_6, pPhyStaRpt->rsvd_7, pPhyStaRpt->rsvd_8);
++	}
++*/
++}
++
++VOID
++phydm_GetRxPhyStatusType1(
++	IN		PDM_ODM_T						pDM_Odm,
++	IN		pu1Byte							pPhyStatus,
++	IN		PODM_PACKET_INFO_T				pPktinfo,
++	OUT		PODM_PHY_INFO_T				pPhyInfo
++)
++{
++	/* Type 1 is used for ofdm packet */
++
++	PPHY_STATUS_RPT_JAGUAR2_TYPE1	pPhyStaRpt = (PPHY_STATUS_RPT_JAGUAR2_TYPE1)pPhyStatus;
++	s1Byte							rx_pwr_db = -120;
++	u1Byte							i, rxsc, bw = ODM_BW20M, RxCount = 0;
++	BOOLEAN							bMU;
++
++	/* Update OFDM packet counter */
++	pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM++;
++
++	/* Update per-path information */
++	for (i = ODM_RF_PATH_A; i < ODM_RF_PATH_MAX_JAGUAR; i++) {
++		if (pDM_Odm->RXAntStatus & BIT(i)) {
++			s1Byte	rx_path_pwr_db;
++
++			/* RX path counter */
++			RxCount++;
++
++			/* Update per-path information (RSSI_dB RSSI_percentage EVM SNR CFO SQ) */
++			/* EVM report is reported by stream, not path */
++			rx_path_pwr_db = pPhyStaRpt->pwdb[i] - 110;					/* per-path pwdb in dB domain */
++			phydm_SetPerPathPhyInfo(i, rx_path_pwr_db, pPhyStaRpt->rxevm[RxCount - 1], 
++				pPhyStaRpt->cfo_tail[i], pPhyStaRpt->rxsnr[i], pPhyInfo);
++
++			/* search maximum pwdb */
++			if (rx_path_pwr_db > rx_pwr_db)
++				rx_pwr_db = rx_path_pwr_db;
++		}
++	}
++
++	/* mapping RX counter from 1~4 to 0~3 */
++	if (RxCount > 0)
++		pPhyInfo->RxCount = RxCount - 1;
++	
++	/* Check if MU packet or not */
++	if ((pPhyStaRpt->gid != 0) && (pPhyStaRpt->gid != 63)) {
++		bMU = TRUE;
++		pDM_Odm->PhyDbgInfo.NumQryMuPkt++;
++	} else
++		bMU = FALSE;
++
++	/* Count BF packet */
++	pDM_Odm->PhyDbgInfo.NumQryBfPkt = pDM_Odm->PhyDbgInfo.NumQryBfPkt + pPhyStaRpt->beamformed;
++
++	/* Check sub-channel */
++	if ((pPktinfo->DataRate > ODM_RATE11M) && (pPktinfo->DataRate < ODM_RATEMCS0))
++		rxsc = pPhyStaRpt->l_rxsc;
++	else
++		rxsc = pPhyStaRpt->ht_rxsc;
++
++	/* Check RX bandwidth */
++	if (pDM_Odm->SupportICType & ODM_RTL8822B) {
++		if ((rxsc >= 1) && (rxsc <= 8))
++			bw = ODM_BW20M;
++		else if ((rxsc >= 9) && (rxsc <= 12))
++			bw = ODM_BW40M;
++		else if (rxsc >= 13)
++			bw = ODM_BW80M;
++		else
++			bw = pPhyStaRpt->rf_mode;
++	} else if (pDM_Odm->SupportICType & (ODM_RTL8197F|ODM_RTL8723D)) {
++		if (pPhyStaRpt->rf_mode == 0)
++			bw = ODM_BW20M;
++		else if ((rxsc == 1) || (rxsc == 2))
++			bw = ODM_BW20M;
++		else
++			bw = ODM_BW40M;
++	}
++
++	/* Update packet information */
++	phydm_SetCommonPhyInfo(rx_pwr_db, pPhyStaRpt->channel, (BOOLEAN)pPhyStaRpt->beamformed,
++		bMU, bw, odm_EVMdbToPercentage(pPhyStaRpt->rxevm[0]), rxsc, pPhyInfo);
++	ODM_ParsingCFO(pDM_Odm, pPktinfo, pPhyStaRpt->cfo_tail);
++	pDM_Odm->DM_FatTable.antsel_rx_keep_0 = pPhyStaRpt->antidx_a;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_1 = pPhyStaRpt->antidx_b;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_2 = pPhyStaRpt->antidx_c;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_3 = pPhyStaRpt->antidx_d;
++
++	if (pPktinfo->bPacketMatchBSSID) {
++/*
++		DbgPrint("channel = %d, band = %d, l_rxsc = %d, ht_rxsc = %d, rf_mode = %d\n", pPhyStaRpt->channel, pPhyStaRpt->band, pPhyStaRpt->l_rxsc, pPhyStaRpt->ht_rxsc, pPhyStaRpt->rf_mode);
++		DbgPrint("Antidx A = %d, B = %d, C = %d, D = %d\n", pPhyStaRpt->antidx_a, pPhyStaRpt->antidx_b, pPhyStaRpt->antidx_c, pPhyStaRpt->antidx_d);
++		DbgPrint("pwdb A: 0x%x, B: 0x%x, C: 0x%x, D: 0x%x\n", pPhyStaRpt->pwdb[0], pPhyStaRpt->pwdb[1], pPhyStaRpt->pwdb[2], pPhyStaRpt->pwdb[3]);
++		DbgPrint("EVM  A: %d, B: %d, C: %d, D: %d\n", pPhyStaRpt->rxevm[0], pPhyStaRpt->rxevm[1], pPhyStaRpt->rxevm[2], pPhyStaRpt->rxevm[3]);
++		DbgPrint("SNR  A: %d, B: %d, C: %d, D: %d\n", pPhyStaRpt->rxsnr[0], pPhyStaRpt->rxsnr[1], pPhyStaRpt->rxsnr[2], pPhyStaRpt->rxsnr[3]);
++		DbgPrint("CFO  A: %d, B: %d, C: %d, D: %d\n", pPhyStaRpt->cfo_tail[0], pPhyStaRpt->cfo_tail[1], pPhyStaRpt->cfo_tail[2], pPhyStaRpt->cfo_tail[3]);
++		DbgPrint("paid = %d, gid = %d, length = %d\n", (pPhyStaRpt->paid + (pPhyStaRpt->paid_msb<<8)), pPhyStaRpt->gid, pPhyStaRpt->lsig_length);
++		DbgPrint("ldpc: %d, stbc: %d, bf: %d, gnt_bt: %d, antsw: %d\n", pPhyStaRpt->ldpc, pPhyStaRpt->stbc, pPhyStaRpt->beamformed, pPhyStaRpt->gnt_bt, pPhyStaRpt->hw_antsw_occu);
++		DbgPrint("NBI: %d, pos: %d\n", pPhyStaRpt->nb_intf_flag, (pPhyStaRpt->intf_pos + (pPhyStaRpt->intf_pos_msb<<8)));
++		DbgPrint("rsvd_0 = %d, rsvd_1 = %d, rsvd_2 = %d, rsvd_3 = %d, rsvd_4 = %d, rsvd_5 = %d\n", pPhyStaRpt->rsvd_0, pPhyStaRpt->rsvd_1, pPhyStaRpt->rsvd_2, pPhyStaRpt->rsvd_3, pPhyStaRpt->rsvd_4, pPhyStaRpt->rsvd_5);
++*/
++		if ((pPhyStaRpt->gid != 0) && (pPhyStaRpt->gid != 63)) {
++			if (pPktinfo->DataRate >= ODM_RATEVHTSS1MCS0)
++				pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[pPktinfo->DataRate - 0x2C]++;
++		} else {
++			if (pPktinfo->DataRate >= ODM_RATEVHTSS1MCS0)
++				pDM_Odm->PhyDbgInfo.NumQryVhtPkt[pPktinfo->DataRate - 0x2C]++;
++		}
++	}
++/*
++	DbgPrint("phydm_GetRxPhyStatusType1   pPktinfo->bPacketMatchBSSID = %d\n", pPktinfo->bPacketMatchBSSID);
++	DbgPrint("pPktinfo->DataRate = 0x%x\n", pPktinfo->DataRate);
++*/
++}
++
++VOID
++phydm_GetRxPhyStatusType2(
++	IN		PDM_ODM_T						pDM_Odm,
++	IN		pu1Byte							pPhyStatus,
++	IN		PODM_PACKET_INFO_T				pPktinfo,
++	OUT		PODM_PHY_INFO_T				pPhyInfo
++)
++{
++	PPHY_STATUS_RPT_JAGUAR2_TYPE2	pPhyStaRpt = (PPHY_STATUS_RPT_JAGUAR2_TYPE2)pPhyStatus;
++	s1Byte							rx_pwr_db = -120;
++	u1Byte							i, rxsc, bw = ODM_BW20M, RxCount = 0;
++
++	/* Update OFDM packet counter */
++	pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM++;
++
++	/* Update per-path information */
++	for (i = ODM_RF_PATH_A; i < ODM_RF_PATH_MAX_JAGUAR; i++) {
++		if (pDM_Odm->RXAntStatus & BIT(i)) {
++			s1Byte	rx_path_pwr_db;
++
++			/* RX path counter */
++			RxCount++;
++
++			/* Update per-path information (RSSI_dB RSSI_percentage EVM SNR CFO SQ) */
++#if (RTL8197F_SUPPORT == 1)
++		if ((pDM_Odm->SupportICType & ODM_RTL8197F) && (pPhyStaRpt->pwdb[i] == 0x7f)) { /*for 97f workaround*/
++			
++			if (i == ODM_RF_PATH_A) {
++				rx_path_pwr_db = (pPhyStaRpt->gain_a)<<1;
++				rx_path_pwr_db = rx_path_pwr_db - 110;
++			} else if (i == ODM_RF_PATH_B) {
++				rx_path_pwr_db = (pPhyStaRpt->gain_b)<<1;
++				rx_path_pwr_db = rx_path_pwr_db - 110;
++			} else
++				rx_path_pwr_db = 0;
++		} else
++#endif
++			rx_path_pwr_db = pPhyStaRpt->pwdb[i] - 110;					/* per-path pwdb in dB domain */
++		
++			phydm_SetPerPathPhyInfo(i, rx_path_pwr_db, 0, 0, 0, pPhyInfo);
++
++			/* search maximum pwdb */
++			if (rx_path_pwr_db > rx_pwr_db)
++				rx_pwr_db = rx_path_pwr_db;
++		}
++	}
++
++	/* mapping RX counter from 1~4 to 0~3 */
++	if (RxCount > 0)
++		pPhyInfo->RxCount = RxCount - 1;
++	
++	/* Check RX sub-channel */
++	if ((pPktinfo->DataRate > ODM_RATE11M) && (pPktinfo->DataRate < ODM_RATEMCS0))
++		rxsc = pPhyStaRpt->l_rxsc;
++	else
++		rxsc = pPhyStaRpt->ht_rxsc;
++
++	/* Check RX bandwidth */
++	/* the BW information of sc=0 is useless, because there is no information of RF mode*/
++
++	if (pDM_Odm->SupportICType & ODM_RTL8822B) {
++		if ((rxsc >= 1) && (rxsc <= 8))
++			bw = ODM_BW20M;
++		else if ((rxsc >= 9) && (rxsc <= 12))
++			bw = ODM_BW40M;
++		else if (rxsc >= 13)
++			bw = ODM_BW80M;
++		else
++			bw = ODM_BW20M;
++	} else if (pDM_Odm->SupportICType & (ODM_RTL8197F|ODM_RTL8723D)) {
++		if (rxsc == 3)
++			bw = ODM_BW40M;
++		else if ((rxsc == 1) || (rxsc == 2))
++			bw = ODM_BW20M;
++		else
++			bw = ODM_BW20M;
++	}
++
++	/* Update packet information */
++	phydm_SetCommonPhyInfo(rx_pwr_db, pPhyStaRpt->channel, (BOOLEAN)pPhyStaRpt->beamformed,
++		FALSE, bw, 0, rxsc, pPhyInfo);
++
++/*
++	//if (pPktinfo->bPacketMatchBSSID)
++	{
++		DbgPrint("channel = %d, band = %d, l_rxsc = %d, ht_rxsc = %d\n", pPhyStaRpt->channel, pPhyStaRpt->band, pPhyStaRpt->l_rxsc, pPhyStaRpt->ht_rxsc);
++		DbgPrint("pwdb A: 0x%x, B: 0x%x, C: 0x%x, D: 0x%x\n", pPhyStaRpt->pwdb[0], pPhyStaRpt->pwdb[1], pPhyStaRpt->pwdb[2], pPhyStaRpt->pwdb[3]);
++		DbgPrint("Agc table A: 0x%x, B: 0x%x, C: 0x%x, D: 0x%x\n", pPhyStaRpt->agc_table_a, pPhyStaRpt->agc_table_b, pPhyStaRpt->agc_table_c, pPhyStaRpt->agc_table_d);
++		DbgPrint("Gain A: 0x%x, B: 0x%x, C: 0x%x, D: 0x%x\n", pPhyStaRpt->gain_a, pPhyStaRpt->gain_b, pPhyStaRpt->gain_c, pPhyStaRpt->gain_d);
++		DbgPrint("TRSW A: 0x%x, B: 0x%x, C: 0x%x, D: 0x%x\n", pPhyStaRpt->trsw_a, pPhyStaRpt->trsw_b, pPhyStaRpt->trsw_c, pPhyStaRpt->trsw_d);
++		DbgPrint("AAGC step A: 0x%x, B: 0x%x, C: 0x%x, D: 0x%x\n", pPhyStaRpt->aagc_step_a, pPhyStaRpt->aagc_step_b, pPhyStaRpt->aagc_step_c, pPhyStaRpt->aagc_step_d);
++		DbgPrint("HT AAGC gain A: 0x%x, B: 0x%x, C: 0x%x, D: 0x%x\n", pPhyStaRpt->ht_aagc_gain[0], pPhyStaRpt->ht_aagc_gain[1], pPhyStaRpt->ht_aagc_gain[2], pPhyStaRpt->ht_aagc_gain[3]);
++		DbgPrint("DAGC gain A: 0x%x, B: 0x%x, C: 0x%x, D: 0x%x\n", pPhyStaRpt->dagc_gain[0], pPhyStaRpt->dagc_gain[1], pPhyStaRpt->dagc_gain[2], pPhyStaRpt->dagc_gain[3]);
++		DbgPrint("ldpc: %d, stbc: %d, bf: %d, gnt_bt: %d, antsw: %d\n", pPhyStaRpt->ldpc, pPhyStaRpt->stbc, pPhyStaRpt->beamformed, pPhyStaRpt->gnt_bt, pPhyStaRpt->hw_antsw_occu);
++		DbgPrint("counter: %d, syn_count: %d\n", pPhyStaRpt->counter, pPhyStaRpt->syn_count);
++		DbgPrint("cnt_cca2agc_rdy: %d, cnt_pw2cca: %d, shift_l_map\n", pPhyStaRpt->cnt_cca2agc_rdy, pPhyStaRpt->cnt_pw2cca, pPhyStaRpt->shift_l_map);
++		DbgPrint("rsvd_0 = %d, rsvd_1 = %d, rsvd_2 = %d, rsvd_3 = %d, rsvd_4 = %d, rsvd_5 = %d\n", pPhyStaRpt->rsvd_0, pPhyStaRpt->rsvd_1, pPhyStaRpt->rsvd_2, pPhyStaRpt->rsvd_3, pPhyStaRpt->rsvd_4);
++		DbgPrint("rsvd_5 = %d, rsvd_6 = %d, rsvd_6 = %d\n", pPhyStaRpt->rsvd_5, pPhyStaRpt->rsvd_6, pPhyStaRpt->rsvd_7);
++	}
++*/
++}
++
++VOID
++phydm_GetRxPhyStatusType5(
++	IN		pu1Byte				pPhyStatus
++)
++{
++/*
++	DbgPrint("DW0: 0x%02x%02x%02x%02x\n", *(pPhyStatus + 3), *(pPhyStatus + 2), *(pPhyStatus + 1), *(pPhyStatus + 0));
++	DbgPrint("DW1: 0x%02x%02x%02x%02x\n", *(pPhyStatus + 7), *(pPhyStatus + 6), *(pPhyStatus + 5), *(pPhyStatus + 4));
++	DbgPrint("DW2: 0x%02x%02x%02x%02x\n", *(pPhyStatus + 11), *(pPhyStatus + 10), *(pPhyStatus + 9), *(pPhyStatus + 8));
++	DbgPrint("DW3: 0x%02x%02x%02x%02x\n", *(pPhyStatus + 15), *(pPhyStatus + 14), *(pPhyStatus + 13), *(pPhyStatus + 12));
++	DbgPrint("DW4: 0x%02x%02x%02x%02x\n", *(pPhyStatus + 19), *(pPhyStatus + 18), *(pPhyStatus + 17), *(pPhyStatus + 16));
++	DbgPrint("DW5: 0x%02x%02x%02x%02x\n", *(pPhyStatus + 23), *(pPhyStatus + 22), *(pPhyStatus + 21), *(pPhyStatus + 20));
++	DbgPrint("DW6: 0x%02x%02x%02x%02x\n", *(pPhyStatus + 27), *(pPhyStatus + 26), *(pPhyStatus + 25), *(pPhyStatus + 24));
++*/
++}
++
++VOID
++phydm_Process_RSSIForDMNewType(	
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	IN		PODM_PHY_INFO_T			pPhyInfo,
++	IN		PODM_PACKET_INFO_T			pPktinfo
++	)
++{
++	s4Byte				UndecoratedSmoothedPWDB, AccumulatePWDB;
++	u4Byte				RSSI_Ave;
++	u1Byte				i;
++	PSTA_INFO_T			pEntry;
++	u1Byte				scaling_factor = 4;
++	
++	if (pPktinfo->StationID >= ODM_ASSOCIATE_ENTRY_NUM)
++		return;
++
++	pEntry = pDM_Odm->pODM_StaInfo[pPktinfo->StationID];							
++
++	if (!IS_STA_VALID(pEntry))
++		return;
++
++	if ((!pPktinfo->bPacketMatchBSSID))/*data frame only*/
++		return;
++
++	if (pPktinfo->bPacketBeacon)
++		pDM_Odm->PhyDbgInfo.NumQryBeaconPkt++;
++
++	#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++	if (pDM_Odm->SupportAbility & ODM_BB_ANT_DIV)
++		ODM_Process_RSSIForAntDiv(pDM_Odm,pPhyInfo,pPktinfo);
++	#endif
++	
++	if (pPktinfo->bPacketToSelf || pPktinfo->bPacketBeacon) {
++		u4Byte RSSI_linear = 0;
++
++		pDM_Odm->RxRate = pPktinfo->DataRate;
++		UndecoratedSmoothedPWDB = pEntry->rssi_stat.UndecoratedSmoothedPWDB;
++		AccumulatePWDB = pDM_Odm->AccumulatePWDB[pPktinfo->StationID];
++		pDM_Odm->RSSI_A = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A];
++		pDM_Odm->RSSI_B = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_B];
++		pDM_Odm->RSSI_C = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_C];
++		pDM_Odm->RSSI_D = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_D];
++
++		for (i = ODM_RF_PATH_A; i < ODM_RF_PATH_MAX_JAGUAR; i++) {
++			if (pPhyInfo->RxMIMOSignalStrength[i] != 0)
++				RSSI_linear += odm_ConvertTo_linear(pPhyInfo->RxMIMOSignalStrength[i]);
++		}
++
++		switch (pPhyInfo->RxCount + 1) {
++		case 2:
++			RSSI_linear = (RSSI_linear >> 1);
++			break;
++		case 3:
++			RSSI_linear = ((RSSI_linear) + (RSSI_linear << 1) + (RSSI_linear << 3)) >> 5;	/* RSSI_linear/3 ~ RSSI_linear*11/32 */
++			break;
++		case 4:
++			RSSI_linear = (RSSI_linear >> 2);
++			break;
++		}
++		RSSI_Ave = odm_ConvertTo_dB(RSSI_linear);
++
++		if (UndecoratedSmoothedPWDB <= 0) {
++			AccumulatePWDB = (pPhyInfo->RxPWDBAll << scaling_factor);
++			UndecoratedSmoothedPWDB = pPhyInfo->RxPWDBAll;
++		} else {
++			AccumulatePWDB = AccumulatePWDB - (AccumulatePWDB>>scaling_factor) + RSSI_Ave;
++			UndecoratedSmoothedPWDB = (AccumulatePWDB + (1<<(scaling_factor - 1)))>>scaling_factor;
++		}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++		if (pEntry->rssi_stat.UndecoratedSmoothedPWDB == -1)
++			phydm_ra_rssi_rpt_wk(pDM_Odm);
++#endif
++		pEntry->rssi_stat.UndecoratedSmoothedPWDB = UndecoratedSmoothedPWDB;
++		pDM_Odm->AccumulatePWDB[pPktinfo->StationID] = AccumulatePWDB;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))		
++		if (pPktinfo->StationID == 0) { 
++			HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pDM_Odm->Adapter);
++			
++			pHalData->UndecoratedSmoothedPWDB = UndecoratedSmoothedPWDB;
++		}
++#endif
++	}
++}
++
++VOID
++phydm_RxPhyStatusNewType(
++	IN		PDM_ODM_T					pPhydm,
++	IN		pu1Byte						pPhyStatus,
++	IN		PODM_PACKET_INFO_T			pPktinfo,
++	OUT		PODM_PHY_INFO_T			pPhyInfo
++)
++{
++	u1Byte		phy_status_type = (*pPhyStatus & 0xf);
++
++	/*DbgPrint("phydm_RxPhyStatusNewType================> (page: %d)\n", phy_status_type);*/
++	
++	/* Memory reset */
++	phydm_ResetPhyInfo(pPhydm, pPhyInfo);
++
++	/* Phy status parsing */
++	switch (phy_status_type) {
++	case 0:
++	{
++		phydm_GetRxPhyStatusType0(pPhydm, pPhyStatus, pPktinfo, pPhyInfo);
++		break;
++	}
++	case 1:
++	{
++		phydm_GetRxPhyStatusType1(pPhydm, pPhyStatus, pPktinfo, pPhyInfo);
++		break;
++	}
++	case 2:
++	{
++		phydm_GetRxPhyStatusType2(pPhydm, pPhyStatus, pPktinfo, pPhyInfo);
++		break;
++	}
++/*
++	case 5:
++	{
++		phydm_GetRxPhyStatusType5(pPhyStatus);
++		return;
++	}
++*/
++	default:
++		return;
++	}
++
++	/* Update signal strength to UI, and pPhyInfo->RxPWDBAll is the maximum RSSI of all path */
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	pPhyInfo->SignalStrength = SignalScaleProc(pPhydm->Adapter, pPhyInfo->RxPWDBAll, FALSE, FALSE);
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	pPhyInfo->SignalStrength = (u1Byte)(odm_SignalScaleMapping(pPhydm, pPhyInfo->RxPWDBAll));
++#endif
++
++	/* Calculate average RSSI and smoothed RSSI */
++	phydm_Process_RSSIForDMNewType(pPhydm, pPhyInfo, pPktinfo);
++
++}
++/*==============================================*/
++#endif
++
++u4Byte
++query_phydm_trx_capability(
++	IN		PDM_ODM_T					pDM_Odm
++)
++{
++	u4Byte value32 = 0xFFFFFFFF;
++
++	#if (RTL8821C_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8821C)
++		value32 = query_phydm_trx_capability_8821c(pDM_Odm);
++	#endif
++
++	return value32;
++}
++
++u4Byte
++query_phydm_stbc_capability(
++	IN		PDM_ODM_T					pDM_Odm
++)
++{
++	u4Byte value32 = 0xFFFFFFFF;
++
++	#if (RTL8821C_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8821C)
++		value32 = query_phydm_stbc_capability_8821c(pDM_Odm);
++	#endif
++
++	return value32;
++}
++
++u4Byte
++query_phydm_ldpc_capability(
++	IN		PDM_ODM_T					pDM_Odm
++)
++{
++	u4Byte value32 = 0xFFFFFFFF;
++
++	#if (RTL8821C_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8821C)
++		value32 = query_phydm_ldpc_capability_8821c(pDM_Odm);
++	#endif
++
++	return value32;
++}
++
++u4Byte
++query_phydm_txbf_parameters(
++	IN		PDM_ODM_T					pDM_Odm
++)
++{
++	u4Byte value32 = 0xFFFFFFFF;
++
++	#if (RTL8821C_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8821C)
++		value32 = query_phydm_txbf_parameters_8821c(pDM_Odm);
++	#endif
++
++	return value32;
++}
++
++u4Byte
++query_phydm_txbf_capability(
++	IN		PDM_ODM_T					pDM_Odm
++)
++{
++	u4Byte value32 = 0xFFFFFFFF;
++
++	#if (RTL8821C_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8821C)
++		value32 = query_phydm_txbf_capability_8821c(pDM_Odm);
++	#endif
++
++	return value32;
++}
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_hwconfig.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_hwconfig.h
+new file mode 100644
+index 0000000..ec31193
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_hwconfig.h
+@@ -0,0 +1,565 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#ifndef	__HALHWOUTSRC_H__
++#define __HALHWOUTSRC_H__
++
++
++/*--------------------------Define -------------------------------------------*/ 
++#define	CCK_RSSI_INIT_COUNT 5
++
++#define	RA_RSSI_STATE_INIT	0
++#define	RA_RSSI_STATE_SEND	1
++#define	RA_RSSI_STATE_HOLD	2
++
++#define AGC_DIFF_CONFIG_MP(ic, band) (ODM_ReadAndConfig_MP_##ic##_AGC_TAB_DIFF(pDM_Odm, Array_MP_##ic##_AGC_TAB_DIFF_##band, \
++                                                                              sizeof(Array_MP_##ic##_AGC_TAB_DIFF_##band)/sizeof(u4Byte)))
++#define AGC_DIFF_CONFIG_TC(ic, band) (ODM_ReadAndConfig_TC_##ic##_AGC_TAB_DIFF(pDM_Odm, Array_TC_##ic##_AGC_TAB_DIFF_##band, \
++                                                                              sizeof(Array_TC_##ic##_AGC_TAB_DIFF_##band)/sizeof(u4Byte)))
++
++#define AGC_DIFF_CONFIG(ic, band) do {\
++                                            if (pDM_Odm->bIsMPChip)\
++                                    		    AGC_DIFF_CONFIG_MP(ic,band);\
++                                            else\
++                                                AGC_DIFF_CONFIG_TC(ic,band);\
++                                    } while(0)
++
++
++//============================================================
++// structure and define
++//============================================================
++
++__PACK typedef struct _Phy_Rx_AGC_Info
++{
++	#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)	
++		u1Byte	gain:7,trsw:1;			
++	#else			
++		u1Byte	trsw:1,gain:7;
++	#endif
++} __WLAN_ATTRIB_PACK__ PHY_RX_AGC_INFO_T, *pPHY_RX_AGC_INFO_T;
++
++__PACK typedef struct _Phy_Status_Rpt_8192cd {
++	PHY_RX_AGC_INFO_T path_agc[2];
++	u1Byte	ch_corr[2];
++	u1Byte	cck_sig_qual_ofdm_pwdb_all;
++	u1Byte	cck_agc_rpt_ofdm_cfosho_a;
++	u1Byte	cck_rpt_b_ofdm_cfosho_b;
++	u1Byte	rsvd_1;/*ch_corr_msb;*/
++	u1Byte	noise_power_db_msb;
++	s1Byte	path_cfotail[2];
++	u1Byte	pcts_mask[2];
++	s1Byte	stream_rxevm[2];
++	u1Byte	path_rxsnr[2];
++	u1Byte	noise_power_db_lsb;
++	u1Byte	rsvd_2[3];
++	u1Byte	stream_csi[2];
++	u1Byte	stream_target_csi[2];
++	s1Byte	sig_evm;
++	u1Byte	rsvd_3;
++
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte	antsel_rx_keep_2: 1;	/*ex_intf_flg:1;*/
++	u1Byte	sgi_en: 1;
++	u1Byte	rxsc: 2;
++	u1Byte	idle_long: 1;
++	u1Byte	r_ant_train_en: 1;
++	u1Byte	ant_sel_b: 1;
++	u1Byte	ant_sel: 1;
++#else	/*_BIG_ENDIAN_	*/
++	u1Byte	ant_sel: 1;
++	u1Byte	ant_sel_b: 1;
++	u1Byte	r_ant_train_en: 1;
++	u1Byte	idle_long: 1;
++	u1Byte	rxsc: 2;
++	u1Byte	sgi_en: 1;
++	u1Byte	antsel_rx_keep_2: 1;/*ex_intf_flg:1;*/
++#endif
++} __WLAN_ATTRIB_PACK__ PHY_STATUS_RPT_8192CD_T, *PPHY_STATUS_RPT_8192CD_T;
++
++
++typedef struct _Phy_Status_Rpt_8812 {
++/*	DWORD 0*/
++	u1Byte			gain_trsw[2];							/*path-A and path-B {TRSW, gain[6:0] }*/
++	u1Byte			chl_num_LSB;							/*channel number[7:0]*/
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte			chl_num_MSB: 2;							/*channel number[9:8]*/
++	u1Byte			sub_chnl: 4;								/*sub-channel location[3:0]*/
++	u1Byte			r_RFMOD: 2;								/*RF mode[1:0]*/
++#else	/*_BIG_ENDIAN_	*/
++	u1Byte			r_RFMOD: 2;
++	u1Byte			sub_chnl: 4;
++	u1Byte			chl_num_MSB: 2;
++#endif
++
++/*	DWORD 1*/
++	u1Byte			pwdb_all;								/*CCK signal quality / OFDM pwdb all*/
++	s1Byte			cfosho[2];		/*DW1 byte 1 DW1 byte2	CCK AGC report and CCK_BB_Power / OFDM Path-A and Path-B short CFO*/
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	/*this should be checked again because the definition of 8812 and 8814 is different*/
++/*	u1Byte			r_cck_rx_enable_pathc:2;					cck rx enable pathc[1:0]*/
++/*	u1Byte			cck_rx_path:4;							cck rx path[3:0]*/
++	u1Byte			resvd_0: 6;
++	u1Byte			bt_RF_ch_MSB: 2;						/*8812A:2'b0			8814A: bt rf channel keep[7:6]*/
++#else	/*_BIG_ENDIAN_*/
++	u1Byte			bt_RF_ch_MSB: 2;
++	u1Byte			resvd_0: 6;
++#endif
++
++/*	DWORD 2*/
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte			ant_div_sw_a: 1;							/*8812A: ant_div_sw_a    8814A: 1'b0*/
++	u1Byte			ant_div_sw_b: 1;							/*8812A: ant_div_sw_b    8814A: 1'b0*/
++	u1Byte			bt_RF_ch_LSB: 6;						/*8812A: 6'b0                   8814A: bt rf channel keep[5:0]*/
++#else	/*_BIG_ENDIAN_	*/
++	u1Byte			bt_RF_ch_LSB: 6;
++	u1Byte			ant_div_sw_b: 1;
++	u1Byte			ant_div_sw_a: 1;
++#endif
++	s1Byte			cfotail[2];		   /*DW2 byte 1 DW2 byte 2	path-A and path-B CFO tail*/
++	u1Byte			PCTS_MSK_RPT_0;						/*PCTS mask report[7:0]*/
++	u1Byte			PCTS_MSK_RPT_1;						/*PCTS mask report[15:8]*/
++
++/*	DWORD 3*/
++	s1Byte			rxevm[2];	         /*DW3 byte 1 DW3 byte 2	stream 1 and stream 2 RX EVM*/
++	s1Byte			rxsnr[2];	         /*DW3 byte 3 DW4 byte 0	path-A and path-B RX SNR*/
++
++/*	DWORD 4*/
++	u1Byte			PCTS_MSK_RPT_2;						/*PCTS mask report[23:16]*/
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte			PCTS_MSK_RPT_3: 6;						/*PCTS mask report[29:24]*/
++	u1Byte			pcts_rpt_valid: 1;							/*pcts_rpt_valid*/
++	u1Byte			resvd_1: 1;								/*1'b0*/
++#else	/*_BIG_ENDIAN_*/
++	u1Byte			resvd_1: 1;
++	u1Byte			pcts_rpt_valid: 1;
++	u1Byte			PCTS_MSK_RPT_3: 6;
++#endif
++	s1Byte			rxevm_cd[2];	   /*DW 4 byte 3 DW5 byte 0  8812A: 16'b0	8814A: stream 3 and stream 4 RX EVM*/
++
++/*	DWORD 5*/
++	u1Byte			csi_current[2];	   /*DW5 byte 1 DW5 byte 2	8812A: stream 1 and 2 CSI	8814A:  path-C and path-D RX SNR*/
++	u1Byte			gain_trsw_cd[2];	   /*DW5 byte 3 DW6 byte 0	path-C and path-D {TRSW, gain[6:0] }*/
++
++/*	DWORD 6*/
++	s1Byte			sigevm;									/*signal field EVM*/
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte			antidx_antc: 3;							/*8812A: 3'b0		8814A: antidx_antc[2:0]*/
++	u1Byte			antidx_antd: 3;							/*8812A: 3'b0		8814A: antidx_antd[2:0]*/
++	u1Byte			dpdt_ctrl_keep: 1;						/*8812A: 1'b0		8814A: dpdt_ctrl_keep*/
++	u1Byte			GNT_BT_keep: 1;							/*8812A: 1'b0		8814A: GNT_BT_keep*/
++#else	/*_BIG_ENDIAN_*/
++	u1Byte			GNT_BT_keep: 1;
++	u1Byte			dpdt_ctrl_keep: 1;
++	u1Byte			antidx_antd: 3;
++	u1Byte			antidx_antc: 3;
++#endif
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte			antidx_anta: 3;							/*antidx_anta[2:0]*/
++	u1Byte			antidx_antb: 3;							/*antidx_antb[2:0]*/
++	u1Byte			hw_antsw_occur: 2;								/*1'b0*/
++#else	/*_BIG_ENDIAN_*/
++	u1Byte			hw_antsw_occur: 2;
++	u1Byte			antidx_antb: 3;
++	u1Byte			antidx_anta: 3;
++#endif
++} PHY_STATUS_RPT_8812_T, *PPHY_STATUS_RPT_8812_T;
++
++VOID
++phydm_reset_rssi_for_dm(
++	IN OUT	PDM_ODM_T	pDM_Odm,
++	IN		u1Byte		station_id
++);
++
++VOID
++odm_Init_RSSIForDM(
++	IN OUT	PDM_ODM_T	pDM_Odm
++);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++phydm_normal_driver_rx_sniffer(
++	IN OUT	PDM_ODM_T			pDM_Odm,
++	IN		pu1Byte				pDesc,
++	IN		PRT_RFD_STATUS		pRtRfdStatus,
++	IN		pu1Byte				pDrvInfo,
++	IN		u1Byte				PHYStatus
++	);
++#endif
++
++VOID
++ODM_PhyStatusQuery(
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	OUT		PODM_PHY_INFO_T			pPhyInfo,
++	IN 		pu1Byte						pPhyStatus,	
++	IN		PODM_PACKET_INFO_T			pPktinfo
++	);
++
++VOID
++ODM_MacStatusQuery(
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	IN 		pu1Byte						pMacStatus,
++	IN		u1Byte						MacID,	
++	IN		BOOLEAN						bPacketMatchBSSID,
++	IN		BOOLEAN						bPacketToSelf,
++	IN		BOOLEAN						bPacketBeacon
++	);
++
++HAL_STATUS
++ODM_ConfigRFWithTxPwrTrackHeaderFile(
++	IN 	PDM_ODM_T	        	pDM_Odm
++    );
++    
++HAL_STATUS
++ODM_ConfigRFWithHeaderFile(
++	IN 	PDM_ODM_T	        	pDM_Odm,
++	IN 	ODM_RF_Config_Type 		ConfigType,
++	IN 	ODM_RF_RADIO_PATH_E 	eRFPath
++	);
++
++HAL_STATUS
++ODM_ConfigBBWithHeaderFile(
++	IN  	PDM_ODM_T	                pDM_Odm,
++	IN	ODM_BB_Config_Type		ConfigType
++    );
++
++HAL_STATUS
++ODM_ConfigMACWithHeaderFile(
++	IN  	PDM_ODM_T	pDM_Odm
++    );
++
++HAL_STATUS
++ODM_ConfigFWWithHeaderFile(
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN 	ODM_FW_Config_Type 	ConfigType,
++	OUT u1Byte				*pFirmware,
++	OUT u4Byte				*pSize
++	);
++
++u4Byte 
++ODM_GetHWImgVersion(
++	IN	PDM_ODM_T	pDM_Odm
++	);
++
++s4Byte
++odm_SignalScaleMapping(	
++	IN OUT PDM_ODM_T pDM_Odm,
++	IN	s4Byte CurrSig 
++	);
++
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++/*For 8822B only!! need to move to FW finally */
++/*==============================================*/
++VOID
++phydm_RxPhyStatusNewType(
++	IN		PDM_ODM_T					pPhydm,
++	IN		pu1Byte						pPhyStatus,
++	IN		PODM_PACKET_INFO_T			pPktinfo,
++	OUT		PODM_PHY_INFO_T			pPhyInfo
++);
++
++typedef struct _Phy_Status_Rpt_Jaguar2_Type0 {
++	/* DW0 */
++	u1Byte		page_num;
++	u1Byte		pwdb;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		gain: 6;
++	u1Byte		rsvd_0: 1;
++	u1Byte		trsw: 1;
++#else
++	u1Byte		trsw: 1;
++	u1Byte		rsvd_0: 1;
++	u1Byte		gain: 6;
++#endif
++	u1Byte		rsvd_1;
++
++	/* DW1 */
++	u1Byte		rsvd_2;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		rxsc: 4;
++	u1Byte		agc_table: 4;
++#else
++	u1Byte		agc_table: 4;
++	u1Byte		rxsc: 4;
++#endif
++	u1Byte		channel;
++	u1Byte		band;
++
++	/* DW2 */
++	u2Byte		length;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		antidx_a: 3;
++	u1Byte		antidx_b: 3;
++	u1Byte		rsvd_3: 2;
++	u1Byte		antidx_c: 3;
++	u1Byte		antidx_d: 3;
++	u1Byte		rsvd_4:2;
++#else
++	u1Byte		rsvd_3: 2;
++	u1Byte		antidx_b: 3;
++	u1Byte		antidx_a: 3;
++	u1Byte		rsvd_4:2;
++	u1Byte		antidx_d: 3;
++	u1Byte		antidx_c: 3;
++#endif
++
++	/* DW3 */
++	u1Byte		signal_quality;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		vga:5;
++	u1Byte		lna_l:3;
++	u1Byte		bb_power:6;
++	u1Byte		rsvd_9:1;
++	u1Byte		lna_h:1;
++#else
++	u1Byte		lna_l:3;
++	u1Byte		vga:5;
++	u1Byte		lna_h:1;
++	u1Byte		rsvd_9:1;
++	u1Byte		bb_power:6;
++#endif
++	u1Byte		rsvd_5;
++
++	/* DW4 */
++	u4Byte		rsvd_6;
++
++	/* DW5 */
++	u4Byte		rsvd_7;
++
++	/* DW6 */
++	u4Byte		rsvd_8;
++} PHY_STATUS_RPT_JAGUAR2_TYPE0, *PPHY_STATUS_RPT_JAGUAR2_TYPE0;
++
++typedef struct _Phy_Status_Rpt_Jaguar2_Type1 {
++	/* DW0 and DW1 */
++	u1Byte		page_num;
++	u1Byte		pwdb[4];
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		l_rxsc: 4;
++	u1Byte		ht_rxsc: 4;
++#else
++	u1Byte		ht_rxsc: 4;
++	u1Byte		l_rxsc: 4;
++#endif
++	u1Byte		channel;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		band: 2;
++	u1Byte		rsvd_0: 1;
++	u1Byte		hw_antsw_occu: 1;
++	u1Byte		gnt_bt: 1;
++	u1Byte		ldpc: 1;
++	u1Byte		stbc: 1;
++	u1Byte		beamformed: 1;
++#else
++	u1Byte		beamformed: 1;
++	u1Byte		stbc: 1;
++	u1Byte		ldpc: 1;
++	u1Byte		gnt_bt: 1;
++	u1Byte		hw_antsw_occu: 1;
++	u1Byte		rsvd_0: 1;
++	u1Byte		band: 2;
++#endif
++
++	/* DW2 */
++	u2Byte		lsig_length;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		antidx_a: 3;
++	u1Byte		antidx_b: 3;
++	u1Byte		rsvd_1: 2;
++	u1Byte		antidx_c: 3;
++	u1Byte		antidx_d: 3;
++	u1Byte		rsvd_2: 2;
++#else
++	u1Byte		rsvd_1: 2;
++	u1Byte		antidx_b: 3;
++	u1Byte		antidx_a: 3;
++	u1Byte		rsvd_2: 2;
++	u1Byte		antidx_d: 3;
++	u1Byte		antidx_c: 3;
++#endif
++
++	/* DW3 */
++	u1Byte		paid;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		paid_msb: 1;
++	u1Byte		gid: 6;
++	u1Byte		rsvd_3: 1;
++#else
++	u1Byte		rsvd_3: 1;
++	u1Byte		gid: 6;
++	u1Byte		paid_msb: 1;
++#endif
++	u1Byte		intf_pos;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		intf_pos_msb: 1;
++	u1Byte		rsvd_4: 2;
++	u1Byte		nb_intf_flag: 1;
++	u1Byte		rf_mode: 2;
++	u1Byte		rsvd_5: 2;
++#else
++	u1Byte		rsvd_5: 2;
++	u1Byte		rf_mode: 2;
++	u1Byte		nb_intf_flag: 1;
++	u1Byte		rsvd_4: 2;
++	u1Byte		intf_pos_msb: 1;
++#endif
++
++	/* DW4 */
++	s1Byte		rxevm[4];			/* s(8,1) */
++
++	/* DW5 */
++	s1Byte		cfo_tail[4];			/* s(8,7) */
++
++	/* DW6 */
++	s1Byte		rxsnr[4];			/* s(8,1) */
++} PHY_STATUS_RPT_JAGUAR2_TYPE1, *PPHY_STATUS_RPT_JAGUAR2_TYPE1;
++
++typedef struct _Phy_Status_Rpt_Jaguar2_Type2 {
++	/* DW0 ane DW1 */
++	u1Byte		page_num;
++	u1Byte		pwdb[4];
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)	
++	u1Byte		l_rxsc: 4;
++	u1Byte		ht_rxsc: 4;
++#else
++	u1Byte		ht_rxsc: 4;
++	u1Byte		l_rxsc: 4;
++#endif
++	u1Byte		channel;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		band: 2;
++	u1Byte		rsvd_0: 1;
++	u1Byte		hw_antsw_occu: 1;
++	u1Byte		gnt_bt: 1;
++	u1Byte		ldpc: 1;
++	u1Byte		stbc: 1;
++	u1Byte		beamformed: 1;
++#else
++	u1Byte		beamformed: 1;
++	u1Byte		stbc: 1;
++	u1Byte		ldpc: 1;
++	u1Byte		gnt_bt: 1;
++	u1Byte		hw_antsw_occu: 1;
++	u1Byte		rsvd_0: 1;
++	u1Byte		band: 2;
++#endif
++
++	/* DW2 */
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		shift_l_map: 6;
++	u1Byte		rsvd_1: 2;
++#else
++	u1Byte		rsvd_1: 2;
++	u1Byte		shift_l_map: 6;
++#endif
++	u1Byte		cnt_pw2cca;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		agc_table_a: 4;
++	u1Byte		agc_table_b: 4;
++	u1Byte		agc_table_c: 4;
++	u1Byte		agc_table_d: 4;
++#else
++	u1Byte		agc_table_b: 4;
++	u1Byte		agc_table_a: 4;
++	u1Byte		agc_table_d: 4;
++	u1Byte		agc_table_c: 4;
++#endif
++
++	/* DW3 ~ DW6*/
++	u1Byte		cnt_cca2agc_rdy;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		gain_a: 6;
++	u1Byte		rsvd_2: 1;
++	u1Byte		trsw_a: 1;
++	u1Byte		gain_b: 6;
++	u1Byte		rsvd_3: 1;
++	u1Byte		trsw_b: 1;
++	u1Byte		gain_c: 6;
++	u1Byte		rsvd_4: 1;
++	u1Byte		trsw_c: 1;
++	u1Byte		gain_d: 6;
++	u1Byte		rsvd_5: 1;
++	u1Byte		trsw_d: 1;
++	u1Byte		aagc_step_a: 2;
++	u1Byte		aagc_step_b: 2;
++	u1Byte		aagc_step_c: 2;
++	u1Byte		aagc_step_d: 2;
++#else
++	u1Byte		trsw_a: 1;
++	u1Byte		rsvd_2: 1;
++	u1Byte		gain_a: 6;
++	u1Byte		trsw_b: 1;
++	u1Byte		rsvd_3: 1;
++	u1Byte		gain_b: 6;
++	u1Byte		trsw_c: 1;
++	u1Byte		rsvd_4: 1;
++	u1Byte		gain_c: 6;
++	u1Byte		trsw_d: 1;
++	u1Byte		rsvd_5: 1;
++	u1Byte		gain_d: 6;
++	u1Byte		aagc_step_d: 2;
++	u1Byte		aagc_step_c: 2;
++	u1Byte		aagc_step_b: 2;
++	u1Byte		aagc_step_a: 2;
++#endif
++	u1Byte		ht_aagc_gain[4];
++	u1Byte		dagc_gain[4];
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		counter: 6;
++	u1Byte		rsvd_6: 2;
++	u1Byte		syn_count: 5;
++	u1Byte		rsvd_7:3;
++#else
++	u1Byte		rsvd_6: 2;
++	u1Byte		counter: 6;
++	u1Byte		rsvd_7:3;
++	u1Byte		syn_count: 5;
++#endif
++} PHY_STATUS_RPT_JAGUAR2_TYPE2, *PPHY_STATUS_RPT_JAGUAR2_TYPE2;
++/*==============================================*/
++#endif /*#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)*/
++
++u4Byte
++query_phydm_trx_capability(
++	IN		PDM_ODM_T					pDM_Odm
++);
++
++u4Byte
++query_phydm_stbc_capability(
++	IN		PDM_ODM_T					pDM_Odm
++);
++
++u4Byte
++query_phydm_ldpc_capability(
++	IN		PDM_ODM_T					pDM_Odm
++);
++
++u4Byte
++query_phydm_txbf_parameters(
++	IN		PDM_ODM_T					pDM_Odm
++);
++
++u4Byte
++query_phydm_txbf_capability(
++	IN		PDM_ODM_T					pDM_Odm
++);
++
++#endif /*#ifndef	__HALHWOUTSRC_H__*/
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_interface.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_interface.c
+new file mode 100644
+index 0000000..89a19df
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_interface.c
+@@ -0,0 +1,961 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++//
++// ODM IO Relative API.
++//
++
++u1Byte
++ODM_Read1Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	prtl8192cd_priv	priv	= pDM_Odm->priv;
++	return	RTL_R8(RegAddr);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	return rtw_read8(Adapter,RegAddr);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	return	PlatformEFIORead1Byte(Adapter, RegAddr);
++#endif	
++
++}
++
++
++u2Byte
++ODM_Read2Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	prtl8192cd_priv	priv	= pDM_Odm->priv;
++	return	RTL_R16(RegAddr);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	return rtw_read16(Adapter,RegAddr);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	return	PlatformEFIORead2Byte(Adapter, RegAddr);
++#endif	
++
++}
++
++
++u4Byte
++ODM_Read4Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	prtl8192cd_priv	priv	= pDM_Odm->priv;
++	return	RTL_R32(RegAddr);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	return rtw_read32(Adapter,RegAddr);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	return	PlatformEFIORead4Byte(Adapter, RegAddr);
++#endif	
++
++}
++
++
++VOID
++ODM_Write1Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr,
++	IN	u1Byte			Data
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	prtl8192cd_priv	priv	= pDM_Odm->priv;
++	RTL_W8(RegAddr, Data);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	rtw_write8(Adapter,RegAddr, Data);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PlatformEFIOWrite1Byte(Adapter, RegAddr, Data);
++#endif
++	
++}
++
++
++VOID
++ODM_Write2Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr,
++	IN	u2Byte			Data
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	prtl8192cd_priv	priv	= pDM_Odm->priv;
++	RTL_W16(RegAddr, Data);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	rtw_write16(Adapter,RegAddr, Data);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PlatformEFIOWrite2Byte(Adapter, RegAddr, Data);
++#endif	
++
++}
++
++
++VOID
++ODM_Write4Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr,
++	IN	u4Byte			Data
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	prtl8192cd_priv	priv	= pDM_Odm->priv;
++	RTL_W32(RegAddr, Data);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	rtw_write32(Adapter,RegAddr, Data);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PlatformEFIOWrite4Byte(Adapter, RegAddr, Data);
++#endif	
++
++}
++
++
++VOID
++ODM_SetMACReg(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	u4Byte		RegAddr,
++	IN	u4Byte		BitMask,
++	IN	u4Byte		Data
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	PHY_SetBBReg(pDM_Odm->priv, RegAddr, BitMask, Data);
++#elif(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PHY_SetBBReg(Adapter, RegAddr, BitMask, Data);
++#endif	
++}
++
++
++u4Byte 
++ODM_GetMACReg(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	u4Byte		RegAddr,
++	IN	u4Byte		BitMask
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	return PHY_QueryBBReg(pDM_Odm->priv, RegAddr, BitMask);
++#elif(DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	return PHY_QueryMacReg(pDM_Odm->Adapter, RegAddr, BitMask);
++#endif	
++}
++
++
++VOID
++ODM_SetBBReg(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	u4Byte		RegAddr,
++	IN	u4Byte		BitMask,
++	IN	u4Byte		Data
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	PHY_SetBBReg(pDM_Odm->priv, RegAddr, BitMask, Data);
++#elif(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PHY_SetBBReg(Adapter, RegAddr, BitMask, Data);
++#endif	
++}
++
++
++u4Byte 
++ODM_GetBBReg(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	u4Byte		RegAddr,
++	IN	u4Byte		BitMask
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	return PHY_QueryBBReg(pDM_Odm->priv, RegAddr, BitMask);
++#elif(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	return PHY_QueryBBReg(Adapter, RegAddr, BitMask);
++#endif	
++}
++
++
++VOID
++ODM_SetRFReg(	
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	ODM_RF_RADIO_PATH_E	eRFPath,
++	IN	u4Byte				RegAddr,
++	IN	u4Byte				BitMask,
++	IN	u4Byte				Data
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	PHY_SetRFReg(pDM_Odm->priv, eRFPath, RegAddr, BitMask, Data);
++#elif (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PHY_SetRFReg(Adapter, eRFPath, RegAddr, BitMask, Data);
++	ODM_delay_us(2);
++		
++#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PHY_SetRFReg(pDM_Odm->Adapter, eRFPath, RegAddr, BitMask, Data);
++#endif	
++}
++
++u4Byte 
++ODM_GetRFReg(	
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	ODM_RF_RADIO_PATH_E	eRFPath,
++	IN	u4Byte				RegAddr,
++	IN	u4Byte				BitMask
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	return PHY_QueryRFReg(pDM_Odm->priv, eRFPath, RegAddr, BitMask, 1);
++#elif(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	return PHY_QueryRFReg(Adapter, eRFPath, RegAddr, BitMask);
++#endif	
++}
++
++
++
++
++//
++// ODM Memory relative API.
++//
++VOID
++ODM_AllocateMemory(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	OUT	PVOID		*pPtr,
++	IN	u4Byte		length
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	*pPtr = kmalloc(length, GFP_ATOMIC);
++#elif (DM_ODM_SUPPORT_TYPE & ODM_CE )
++	*pPtr = rtw_zvmalloc(length);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PlatformAllocateMemory(Adapter, pPtr, length);
++#endif	
++}
++
++// length could be ignored, used to detect memory leakage.
++VOID
++ODM_FreeMemory(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	OUT	PVOID		pPtr,
++	IN	u4Byte		length
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	kfree(pPtr);
++#elif (DM_ODM_SUPPORT_TYPE & ODM_CE )	
++	rtw_vmfree(pPtr, length);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	//PADAPTER    Adapter = pDM_Odm->Adapter;
++	PlatformFreeMemory(pPtr, length);
++#endif	
++}
++
++VOID
++ODM_MoveMemory(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	OUT PVOID		pDest,
++	IN  PVOID		pSrc,
++	IN  u4Byte		Length
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	memcpy(pDest, pSrc, Length);
++#elif (DM_ODM_SUPPORT_TYPE & ODM_CE )	
++	_rtw_memcpy(pDest, pSrc, Length);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformMoveMemory(pDest, pSrc, Length);
++#endif	
++}
++
++void ODM_Memory_Set(
++	IN	PDM_ODM_T	pDM_Odm,
++	IN	PVOID		pbuf,
++	IN	s1Byte		value,
++	IN	u4Byte		length
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	memset(pbuf, value, length);
++#elif (DM_ODM_SUPPORT_TYPE & ODM_CE )	
++	_rtw_memset(pbuf,value, length);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformFillMemory(pbuf,length,value);
++#endif
++}
++s4Byte ODM_CompareMemory(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	PVOID           pBuf1,
++	IN	PVOID           pBuf2,
++	IN	u4Byte          length
++       )
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	return memcmp(pBuf1,pBuf2,length);
++#elif (DM_ODM_SUPPORT_TYPE & ODM_CE )	
++	return _rtw_memcmp(pBuf1,pBuf2,length);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)	
++	return PlatformCompareMemory(pBuf1,pBuf2,length);
++#endif	
++}
++
++
++
++//
++// ODM MISC relative API.
++//
++VOID
++ODM_AcquireSpinLock(	
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	RT_SPINLOCK_TYPE	type
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PADAPTER Adapter = pDM_Odm->Adapter;
++	rtw_odm_acquirespinlock(Adapter, type);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PlatformAcquireSpinLock(Adapter, type);
++#endif	
++}
++VOID
++ODM_ReleaseSpinLock(	
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	RT_SPINLOCK_TYPE	type
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++
++#elif (DM_ODM_SUPPORT_TYPE & ODM_CE )
++	PADAPTER Adapter = pDM_Odm->Adapter;
++	rtw_odm_releasespinlock(Adapter, type);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PlatformReleaseSpinLock(Adapter, type);
++#endif	
++}
++
++//
++// Work item relative API. FOr MP driver only~!
++//
++VOID
++ODM_InitializeWorkItem(	
++	IN 	PDM_ODM_T					pDM_Odm,
++	IN	PRT_WORK_ITEM				pRtWorkItem,
++	IN	RT_WORKITEM_CALL_BACK		RtWorkItemCallback,
++	IN	PVOID						pContext,
++	IN	const char*					szID
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PlatformInitializeWorkItem(Adapter, pRtWorkItem, RtWorkItemCallback, pContext, szID);
++#endif	
++}
++
++
++VOID
++ODM_StartWorkItem(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformStartWorkItem(pRtWorkItem);
++#endif	
++}
++
++
++VOID
++ODM_StopWorkItem(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformStopWorkItem(pRtWorkItem);
++#endif	
++}
++
++
++VOID
++ODM_FreeWorkItem(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformFreeWorkItem(pRtWorkItem);
++#endif	
++}
++
++
++VOID
++ODM_ScheduleWorkItem(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformScheduleWorkItem(pRtWorkItem);
++#endif	
++}
++
++
++VOID
++ODM_IsWorkItemScheduled(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformIsWorkItemScheduled(pRtWorkItem);
++#endif	
++}
++
++
++
++//
++// ODM Timer relative API.
++//
++VOID
++ODM_StallExecution(	
++	IN	u4Byte	usDelay
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	rtw_udelay_os(usDelay);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformStallExecution(usDelay);
++#endif	
++}
++
++VOID
++ODM_delay_ms(IN u4Byte	ms)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	delay_ms(ms);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	rtw_mdelay_os(ms);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	delay_ms(ms);
++#endif			
++}
++
++VOID
++ODM_delay_us(IN u4Byte	us)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	delay_us(us);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	rtw_udelay_os(us);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformStallExecution(us);
++#endif			
++}
++
++VOID
++ODM_sleep_ms(IN u4Byte	ms)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	rtw_msleep_os(ms);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)	
++#endif		
++}
++
++VOID
++ODM_sleep_us(IN u4Byte	us)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	rtw_usleep_os(us);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)	
++#endif		
++}
++
++VOID
++ODM_SetTimer(	
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	PRT_TIMER 		pTimer, 
++	IN	u4Byte 			msDelay
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	mod_timer(pTimer, jiffies + RTL_MILISECONDS_TO_JIFFIES(msDelay));
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	_set_timer(pTimer,msDelay ); //ms
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PlatformSetTimer(Adapter, pTimer, msDelay);
++#endif	
++
++}
++
++VOID
++ODM_InitializeTimer(
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	PRT_TIMER 			pTimer, 
++	IN	RT_TIMER_CALL_BACK	CallBackFunc, 
++	IN	PVOID				pContext,
++	IN	const char*			szID
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	init_timer(pTimer);
++	pTimer->function = CallBackFunc;
++	pTimer->data = (unsigned long)pDM_Odm;
++	mod_timer(pTimer, jiffies+RTL_MILISECONDS_TO_JIFFIES(10));	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PADAPTER Adapter = pDM_Odm->Adapter;
++	_init_timer(pTimer,Adapter->pnetdev,CallBackFunc,pDM_Odm);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER Adapter = pDM_Odm->Adapter;
++	PlatformInitializeTimer(Adapter, pTimer, CallBackFunc,pContext,szID);
++#endif	
++}
++
++
++VOID
++ODM_CancelTimer(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	PRT_TIMER		pTimer
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	del_timer(pTimer);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	_cancel_timer_ex(pTimer);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER Adapter = pDM_Odm->Adapter;
++	PlatformCancelTimer(Adapter, pTimer);
++#endif
++}
++
++
++VOID
++ODM_ReleaseTimer(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	PRT_TIMER		pTimer
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++
++	PADAPTER Adapter = pDM_Odm->Adapter;
++
++    // <20120301, Kordan> If the initilization fails, InitializeAdapterXxx will return regardless of InitHalDm. 
++    // Hence, uninitialized timers cause BSOD when the driver releases resources since the init fail.
++    if (pTimer == 0) 
++    {
++        ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_SERIOUS, ("=====>ODM_ReleaseTimer(), The timer is NULL! Please check it!\n"));
++        return;
++    }
++        
++	PlatformReleaseTimer(Adapter, pTimer);
++#endif
++}
++
++
++u1Byte
++phydm_trans_h2c_id(
++	IN	PDM_ODM_T	pDM_Odm,
++	IN	u1Byte		phydm_h2c_id
++)
++{
++	u1Byte platform_h2c_id=0xff;
++
++	
++	switch(phydm_h2c_id)
++	{
++		//1 [0]
++		case ODM_H2C_RSSI_REPORT:
++
++			#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++				if(pDM_Odm->SupportICType == ODM_RTL8188E)
++					platform_h2c_id = H2C_88E_RSSI_REPORT;
++				else if(pDM_Odm->SupportICType == ODM_RTL8814A)
++					platform_h2c_id =H2C_8814A_RSSI_REPORT;                            
++				else
++					platform_h2c_id = H2C_RSSI_REPORT;
++				
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++				platform_h2c_id = H2C_RSSI_SETTING;
++				
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_AP)
++#if ((RTL8881A_SUPPORT == 1) || (RTL8192E_SUPPORT == 1) || (RTL8814A_SUPPORT == 1) || (RTL8822B_SUPPORT == 1) || (RTL8197F_SUPPORT == 1))
++			if (pDM_Odm->SupportICType == ODM_RTL8881A || pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType & PHYDM_IC_3081_SERIES) 
++				platform_h2c_id = H2C_88XX_RSSI_REPORT;	
++			else
++				#endif
++				#if (RTL8812A_SUPPORT == 1) 
++					if (pDM_Odm->SupportICType == ODM_RTL8812)
++						platform_h2c_id = H2C_8812_RSSI_REPORT;
++			else
++				#endif				
++					{}
++			#endif
++			
++				break;
++
++		//1 [3]	
++		case ODM_H2C_WIFI_CALIBRATION:
++			#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++					platform_h2c_id =H2C_WIFI_CALIBRATION;
++			
++			#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++				#if (RTL8723B_SUPPORT == 1) 
++					platform_h2c_id = H2C_8723B_BT_WLAN_CALIBRATION;
++				#endif
++				
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			#endif
++				break;		
++	
++			
++		//1 [4]
++		case ODM_H2C_IQ_CALIBRATION:
++			#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++				platform_h2c_id =H2C_IQ_CALIBRATION;
++			
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++				#if((RTL8812A_SUPPORT==1) ||(RTL8821A_SUPPORT==1))
++				platform_h2c_id = H2C_8812_IQ_CALIBRATION;
++				#endif
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			#endif
++			
++				break;
++		//1 [5]
++		case ODM_H2C_RA_PARA_ADJUST:
++
++			#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++				if (pDM_Odm->SupportICType & (ODM_RTL8814A | ODM_RTL8822B))
++					platform_h2c_id =H2C_8814A_RA_PARA_ADJUST;                            
++				else
++					platform_h2c_id = H2C_RA_PARA_ADJUST;
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++				#if((RTL8812A_SUPPORT==1) ||(RTL8821A_SUPPORT==1))
++					platform_h2c_id = H2C_8812_RA_PARA_ADJUST;
++				#elif ((RTL8814A_SUPPORT == 1) || (RTL8822B_SUPPORT == 1))
++					platform_h2c_id = H2C_RA_PARA_ADJUST;
++				#elif(RTL8192E_SUPPORT==1)
++					platform_h2c_id =H2C_8192E_RA_PARA_ADJUST;
++				#elif(RTL8723B_SUPPORT==1) 
++					platform_h2c_id =H2C_8723B_RA_PARA_ADJUST;
++				#endif
++				
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_AP)
++#if ((RTL8881A_SUPPORT == 1) || (RTL8192E_SUPPORT == 1) || (RTL8814A_SUPPORT == 1) || (RTL8822B_SUPPORT == 1) || (RTL8197F_SUPPORT == 1)) 
++			if (pDM_Odm->SupportICType == ODM_RTL8881A || pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType & PHYDM_IC_3081_SERIES) 
++				platform_h2c_id = H2C_88XX_RA_PARA_ADJUST;
++			else
++				#endif
++				#if(RTL8812A_SUPPORT==1) 
++					if(pDM_Odm->SupportICType == ODM_RTL8812)
++						platform_h2c_id = H2C_8812_RA_PARA_ADJUST;
++			else
++				#endif
++					{}
++			#endif
++			
++				break;
++
++
++		//1 [6]
++		case PHYDM_H2C_DYNAMIC_TX_PATH:
++
++			#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++				if(pDM_Odm->SupportICType == ODM_RTL8814A)
++				{
++					platform_h2c_id =H2C_8814A_DYNAMIC_TX_PATH;
++				}
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++				#if (RTL8814A_SUPPORT == 1)
++				if (pDM_Odm->SupportICType == ODM_RTL8814A)
++					platform_h2c_id = H2C_DYNAMIC_TX_PATH;
++				#endif
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_AP)
++				#if(RTL8814A_SUPPORT==1)
++					if( pDM_Odm->SupportICType == ODM_RTL8814A)
++					{
++						platform_h2c_id = H2C_88XX_DYNAMIC_TX_PATH;				
++					} 
++				#endif
++
++			#endif
++			
++				break;
++
++		/* [7]*/
++		case PHYDM_H2C_FW_TRACE_EN:
++
++			#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++				if (pDM_Odm->SupportICType & (ODM_RTL8814A|ODM_RTL8822B))
++					platform_h2c_id = H2C_8814A_FW_TRACE_EN;
++				else 
++					platform_h2c_id = H2C_FW_TRACE_EN;
++				
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++
++				
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_AP)
++#if ((RTL8881A_SUPPORT == 1) || (RTL8192E_SUPPORT == 1) || (RTL8814A_SUPPORT == 1) || (RTL8822B_SUPPORT == 1) || (RTL8197F_SUPPORT == 1))
++			if (pDM_Odm->SupportICType == ODM_RTL8881A || pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType & PHYDM_IC_3081_SERIES)
++						platform_h2c_id  = H2C_88XX_FW_TRACE_EN;
++					else
++				#endif
++				#if (RTL8812A_SUPPORT == 1) 
++			if (pDM_Odm->SupportICType == ODM_RTL8812)
++						platform_h2c_id = H2C_8812_FW_TRACE_EN;
++			else
++				#endif
++					{}
++
++			#endif
++			
++				break;
++
++		case PHYDM_H2C_TXBF:
++#if ((RTL8192E_SUPPORT == 1) || (RTL8812A_SUPPORT == 1))
++			platform_h2c_id  = 0x41;	/*H2C_TxBF*/
++#endif
++		break;
++
++		case PHYDM_H2C_MU:
++#if (RTL8822B_SUPPORT == 1) 
++			platform_h2c_id  = 0x4a;	/*H2C_MU*/
++#endif			
++		break;
++
++		default:
++			platform_h2c_id=0xff;
++			break;	
++	}	
++	
++	return platform_h2c_id;
++	
++}
++
++/*ODM FW relative API.*/
++
++VOID
++ODM_FillH2CCmd(
++	IN	PDM_ODM_T		pDM_Odm,
++	IN	u1Byte 			phydm_h2c_id,
++	IN	u4Byte 			CmdLen,
++	IN	pu1Byte			pCmdBuffer
++)
++{
++	PADAPTER 	Adapter = pDM_Odm->Adapter;
++	u1Byte		platform_h2c_id;
++
++	platform_h2c_id=phydm_trans_h2c_id(pDM_Odm, phydm_h2c_id);
++
++	if (platform_h2c_id == 0xff) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("[H2C] Wrong H2C CMD-ID !! platform_h2c_id==0xff ,  PHYDM_ElementID=((%d ))\n", phydm_h2c_id));
++		return;
++	}
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++		if (pDM_Odm->SupportICType == ODM_RTL8188E)	{
++			if (!pDM_Odm->RaSupport88E)
++				FillH2CCmd88E(Adapter, platform_h2c_id, CmdLen, pCmdBuffer);
++		} else if (pDM_Odm->SupportICType == ODM_RTL8814A)		
++			FillH2CCmd8814A(Adapter, platform_h2c_id, CmdLen, pCmdBuffer);		
++		else if (pDM_Odm->SupportICType == ODM_RTL8822B)		
++#if (RTL8822B_SUPPORT == 1)
++			FillH2CCmd8822B(Adapter, platform_h2c_id, CmdLen, pCmdBuffer);
++#endif		
++		else				
++			FillH2CCmd(Adapter, platform_h2c_id, CmdLen, pCmdBuffer);
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++		rtw_hal_fill_h2c_cmd(Adapter, platform_h2c_id, CmdLen, pCmdBuffer);
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_AP)	
++#if ((RTL8881A_SUPPORT == 1) || (RTL8192E_SUPPORT == 1) || (RTL8814A_SUPPORT == 1) || (RTL8822B_SUPPORT == 1) || (RTL8197F_SUPPORT == 1)) 
++		if (pDM_Odm->SupportICType == ODM_RTL8881A || pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType & PHYDM_IC_3081_SERIES) 
++			GET_HAL_INTERFACE(pDM_Odm->priv)->FillH2CCmdHandler(pDM_Odm->priv, platform_h2c_id, CmdLen, pCmdBuffer);
++		else
++#endif
++#if (RTL8812A_SUPPORT == 1) 
++		if (pDM_Odm->SupportICType == ODM_RTL8812)
++			FillH2CCmd8812(pDM_Odm->priv, platform_h2c_id, CmdLen, pCmdBuffer);
++		else
++#endif
++		{}
++#endif
++}
++
++u1Byte
++phydm_c2H_content_parsing(
++	IN	PVOID			pDM_VOID,
++	IN	u1Byte			c2hCmdId,
++	IN	u1Byte			c2hCmdLen,
++	IN	pu1Byte			tmpBuf
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++	#endif
++	u1Byte	Extend_c2hSubID = 0;
++	u1Byte	find_c2h_cmd = TRUE;
++
++	switch (c2hCmdId) {
++	case PHYDM_C2H_DBG:
++		phydm_fw_trace_handler(pDM_Odm, tmpBuf, c2hCmdLen);
++		break;
++
++	case PHYDM_C2H_RA_RPT:
++		phydm_c2h_ra_report_handler(pDM_Odm, tmpBuf, c2hCmdLen);
++		break;
++
++	case PHYDM_C2H_RA_PARA_RPT:
++		ODM_C2HRaParaReportHandler(pDM_Odm, tmpBuf, c2hCmdLen);
++		break;
++		
++	case PHYDM_C2H_DYNAMIC_TX_PATH_RPT:
++		if (pDM_Odm->SupportICType & (ODM_RTL8814A))
++			phydm_c2h_dtp_handler(pDM_Odm, tmpBuf, c2hCmdLen);
++		break;
++		
++	case PHYDM_C2H_IQK_FINISH:
++		#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		
++		if (pDM_Odm->SupportICType & (ODM_RTL8812|ODM_RTL8821)) {
++			
++			RT_TRACE(COMP_MP, DBG_LOUD, ("== FW IQK Finish ==\n"));
++			PlatformAcquireSpinLock(Adapter, RT_IQK_SPINLOCK);
++			pDM_Odm->RFCalibrateInfo.bIQKInProgress = FALSE;
++			PlatformReleaseSpinLock(Adapter, RT_IQK_SPINLOCK);
++			pDM_Odm->RFCalibrateInfo.IQK_ProgressingTime = 0;
++			pDM_Odm->RFCalibrateInfo.IQK_ProgressingTime = ODM_GetProgressingTime(pDM_Odm, pDM_Odm->RFCalibrateInfo.IQK_StartTime);
++		}
++		
++		#endif
++		break;
++
++	case PHYDM_C2H_DBG_CODE:
++		phydm_fw_trace_handler_code(pDM_Odm, tmpBuf, c2hCmdLen);
++		break;	
++
++	case PHYDM_C2H_EXTEND:
++		Extend_c2hSubID= tmpBuf[0];
++		if (Extend_c2hSubID == PHYDM_EXTEND_C2H_DBG_PRINT)
++			phydm_fw_trace_handler_8051(pDM_Odm, tmpBuf, c2hCmdLen);
++		
++		break;
++
++	default:
++		find_c2h_cmd = FALSE;
++		break;
++	}
++
++	return find_c2h_cmd;
++
++}
++
++u8Byte
++ODM_GetCurrentTime(	
++	IN 	PDM_ODM_T		pDM_Odm
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	return  0;
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	return (u8Byte)rtw_get_current_time();
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)	
++	return  PlatformGetCurrentTime();
++#endif
++}
++
++u8Byte
++ODM_GetProgressingTime(	
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u8Byte			Start_Time
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	return  0;
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	return rtw_get_passing_time_ms((u4Byte)Start_Time);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	return   ((PlatformGetCurrentTime() - Start_Time)>>10);
++#endif
++}
++
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_interface.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_interface.h
+new file mode 100644
+index 0000000..fb68142
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_interface.h
+@@ -0,0 +1,428 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#ifndef	__ODM_INTERFACE_H__
++#define __ODM_INTERFACE_H__
++
++#define INTERFACE_VERSION	"1.1"		/*2015.07.29  YuChen*/
++
++//
++// =========== Constant/Structure/Enum/... Define
++//
++
++
++
++//
++// =========== Macro Define
++//
++
++#define _reg_all(_name)			ODM_##_name
++#define _reg_ic(_name, _ic)		ODM_##_name##_ic
++#define _bit_all(_name)			BIT_##_name
++#define _bit_ic(_name, _ic)		BIT_##_name##_ic
++
++// _cat: implemented by Token-Pasting Operator.
++#if 0
++#define _cat(_name, _ic_type, _func)								\
++	( 															\
++		_func##_all(_name)										\
++	)
++#endif
++
++/*===================================
++
++#define ODM_REG_DIG_11N		0xC50
++#define ODM_REG_DIG_11AC	0xDDD
++
++ODM_REG(DIG,_pDM_Odm)
++=====================================*/
++
++#define _reg_11N(_name)			ODM_REG_##_name##_11N 
++#define _reg_11AC(_name)		ODM_REG_##_name##_11AC
++#define _bit_11N(_name)			ODM_BIT_##_name##_11N 
++#define _bit_11AC(_name)		ODM_BIT_##_name##_11AC
++
++#ifdef __ECOS
++#define _rtk_cat(_name, _ic_type, _func)		\
++	( 					\
++		((_ic_type) & ODM_IC_11N_SERIES)? _func##_11N(_name):		\
++		_func##_11AC(_name)	\
++	)
++#else
++
++#define _cat(_name, _ic_type, _func)									\
++	( 															\
++		((_ic_type) & ODM_IC_11N_SERIES)? _func##_11N(_name):		\
++		_func##_11AC(_name)									\
++	)
++#endif
++/* 
++// only sample code
++//#define _cat(_name, _ic_type, _func)									\
++//	( 															\
++//		((_ic_type) & ODM_RTL8188E)? _func##_ic(_name, _8188E):		\
++//		_func##_ic(_name, _8195)									\
++//	)
++*/
++
++// _name: name of register or bit.
++// Example: "ODM_REG(R_A_AGC_CORE1, pDM_Odm)" 
++//        gets "ODM_R_A_AGC_CORE1" or "ODM_R_A_AGC_CORE1_8192C", depends on SupportICType.
++#ifdef __ECOS
++#define ODM_REG(_name, _pDM_Odm)	_rtk_cat(_name, _pDM_Odm->SupportICType, _reg)
++#define ODM_BIT(_name, _pDM_Odm)	_rtk_cat(_name, _pDM_Odm->SupportICType, _bit)
++#else
++#define ODM_REG(_name, _pDM_Odm)	_cat(_name, _pDM_Odm->SupportICType, _reg)
++#define ODM_BIT(_name, _pDM_Odm)	_cat(_name, _pDM_Odm->SupportICType, _bit)
++#endif
++typedef enum _PHYDM_H2C_CMD {
++	ODM_H2C_RSSI_REPORT = 0,
++	ODM_H2C_PSD_RESULT = 1,	
++	ODM_H2C_PathDiv = 2,
++	ODM_H2C_WIFI_CALIBRATION = 3,
++	ODM_H2C_IQ_CALIBRATION = 4,
++	ODM_H2C_RA_PARA_ADJUST = 5,
++	PHYDM_H2C_DYNAMIC_TX_PATH = 6,
++	PHYDM_H2C_FW_TRACE_EN = 7,
++	PHYDM_H2C_TXBF = 8,
++	PHYDM_H2C_MU = 9,
++	ODM_MAX_H2CCMD
++}PHYDM_H2C_CMD;
++
++typedef enum _PHYDM_C2H_EVT {
++	PHYDM_C2H_DBG = 0,
++	PHYDM_C2H_LB = 1,
++	PHYDM_C2H_XBF = 2,
++	PHYDM_C2H_TX_REPORT = 3,
++	PHYDM_C2H_INFO = 9,
++	PHYDM_C2H_BT_MP = 11,
++	PHYDM_C2H_RA_RPT = 12,
++	PHYDM_C2H_RA_PARA_RPT=14,
++	PHYDM_C2H_DYNAMIC_TX_PATH_RPT = 15,
++	PHYDM_C2H_IQK_FINISH = 17, /*0x11*/
++	PHYDM_C2H_DBG_CODE = 0xFE,
++	PHYDM_C2H_EXTEND = 0xFF,
++}PHYDM_C2H_EVT;
++
++typedef enum _PHYDM_EXTEND_C2H_EVT {
++	PHYDM_EXTEND_C2H_DBG_PRINT = 0
++
++}PHYDM_EXTEND_C2H_EVT;
++
++
++//
++// 2012/02/17 MH For non-MP compile pass only. Linux does not support workitem.
++// Suggest HW team to use thread instead of workitem. Windows also support the feature.
++//
++#if (DM_ODM_SUPPORT_TYPE != ODM_WIN)
++typedef  void *PRT_WORK_ITEM ;
++typedef  void RT_WORKITEM_HANDLE,*PRT_WORKITEM_HANDLE;
++typedef VOID (*RT_WORKITEM_CALL_BACK)(PVOID pContext);
++
++#if 0
++typedef struct tasklet_struct RT_WORKITEM_HANDLE, *PRT_WORKITEM_HANDLE;
++
++typedef struct _RT_WORK_ITEM
++{
++	
++	RT_WORKITEM_HANDLE			Handle;			// Platform-dependent handle for this workitem, e.g. Ndis Workitem object.
++	PVOID						Adapter;		// Pointer to Adapter object.
++	PVOID						pContext;		// Parameter to passed to CallBackFunc(). 
++	RT_WORKITEM_CALL_BACK		CallbackFunc;	// Callback function of the workitem.
++	u1Byte						RefCount;		// 0: driver is going to unload, 1: No such workitem scheduled, 2: one workitem is schedueled. 
++	PVOID						pPlatformExt;	// Pointer to platform-dependent extension.	
++	BOOLEAN						bFree;
++	char						szID[36];		// An identity string of this workitem.
++}RT_WORK_ITEM, *PRT_WORK_ITEM;
++
++#endif
++
++
++#endif
++
++//
++// =========== Extern Variable ??? It should be forbidden.
++//
++
++
++//
++// =========== EXtern Function Prototype
++//
++
++
++u1Byte
++ODM_Read1Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr
++	);
++
++u2Byte
++ODM_Read2Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr
++	);
++
++u4Byte
++ODM_Read4Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr
++	);
++
++VOID
++ODM_Write1Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr,
++	IN	u1Byte			Data
++	);
++
++VOID
++ODM_Write2Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr,
++	IN	u2Byte			Data
++	);
++
++VOID
++ODM_Write4Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr,
++	IN	u4Byte			Data
++	);
++
++VOID
++ODM_SetMACReg(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	u4Byte		RegAddr,
++	IN	u4Byte		BitMask,
++	IN	u4Byte		Data
++	);
++
++u4Byte 
++ODM_GetMACReg(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	u4Byte		RegAddr,
++	IN	u4Byte		BitMask
++	);
++
++VOID
++ODM_SetBBReg(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	u4Byte		RegAddr,
++	IN	u4Byte		BitMask,
++	IN	u4Byte		Data
++	);
++
++u4Byte 
++ODM_GetBBReg(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	u4Byte		RegAddr,
++	IN	u4Byte		BitMask
++	);
++
++VOID
++ODM_SetRFReg(	
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	ODM_RF_RADIO_PATH_E	eRFPath,
++	IN	u4Byte				RegAddr,
++	IN	u4Byte				BitMask,
++	IN	u4Byte				Data
++	);
++
++u4Byte 
++ODM_GetRFReg(	
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	ODM_RF_RADIO_PATH_E	eRFPath,
++	IN	u4Byte				RegAddr,
++	IN	u4Byte				BitMask
++	);
++
++
++//
++// Memory Relative Function.
++//
++VOID
++ODM_AllocateMemory(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	OUT	PVOID		*pPtr,
++	IN	u4Byte		length
++	);
++VOID
++ODM_FreeMemory(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	OUT	PVOID		pPtr,
++	IN	u4Byte		length
++	);
++
++VOID
++ODM_MoveMemory(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	OUT PVOID		pDest,
++	IN  PVOID		pSrc,
++	IN  u4Byte		Length
++	);
++
++s4Byte ODM_CompareMemory(
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	PVOID           pBuf1,
++      IN	PVOID           pBuf2,
++      IN	u4Byte          length
++       );
++
++void ODM_Memory_Set
++	(IN 	PDM_ODM_T	pDM_Odm,
++		IN  PVOID	pbuf,
++		IN  s1Byte	value,
++		IN  u4Byte	length);
++	
++//
++// ODM MISC-spin lock relative API.
++//
++VOID
++ODM_AcquireSpinLock(	
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	RT_SPINLOCK_TYPE	type
++	);
++
++VOID
++ODM_ReleaseSpinLock(	
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	RT_SPINLOCK_TYPE	type
++	);
++
++
++//
++// ODM MISC-workitem relative API.
++//
++VOID
++ODM_InitializeWorkItem(	
++	IN 	PDM_ODM_T					pDM_Odm,
++	IN	PRT_WORK_ITEM				pRtWorkItem,
++	IN	RT_WORKITEM_CALL_BACK		RtWorkItemCallback,
++	IN	PVOID						pContext,
++	IN	const char*					szID
++	);
++
++VOID
++ODM_StartWorkItem(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	);
++
++VOID
++ODM_StopWorkItem(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	);
++
++VOID
++ODM_FreeWorkItem(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	);
++
++VOID
++ODM_ScheduleWorkItem(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	);
++
++VOID
++ODM_IsWorkItemScheduled(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	);
++
++//
++// ODM Timer relative API.
++//
++VOID
++ODM_StallExecution(	
++	IN	u4Byte	usDelay
++	);
++
++VOID
++ODM_delay_ms(IN u4Byte	ms);
++
++
++
++VOID
++ODM_delay_us(IN u4Byte	us);
++
++VOID
++ODM_sleep_ms(IN u4Byte	ms);
++
++VOID
++ODM_sleep_us(IN u4Byte	us);
++
++VOID
++ODM_SetTimer(	
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	PRT_TIMER 		pTimer, 
++	IN	u4Byte 			msDelay
++	);
++
++VOID
++ODM_InitializeTimer(
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	PRT_TIMER 			pTimer, 
++	IN	RT_TIMER_CALL_BACK	CallBackFunc, 
++	IN	PVOID				pContext,
++	IN	const char*			szID
++	);
++
++VOID
++ODM_CancelTimer(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	PRT_TIMER		pTimer
++	);
++
++VOID
++ODM_ReleaseTimer(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	PRT_TIMER		pTimer
++	);
++
++//
++// ODM FW relative API.
++//
++VOID
++ODM_FillH2CCmd(
++	IN	PDM_ODM_T		pDM_Odm,
++	IN	u1Byte 			ElementID,
++	IN	u4Byte 			CmdLen,
++	IN	pu1Byte			pCmdBuffer
++);
++
++u1Byte
++phydm_c2H_content_parsing(
++	IN	PVOID			pDM_VOID,
++	IN	u1Byte			c2hCmdId,
++	IN	u1Byte			c2hCmdLen,
++	IN	pu1Byte			tmpBuf
++);
++
++u8Byte
++ODM_GetCurrentTime(	
++	IN 	PDM_ODM_T		pDM_Odm
++	);
++u8Byte
++ODM_GetProgressingTime(	
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u8Byte			Start_Time
++	);
++
++#endif	// __ODM_INTERFACE_H__
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_iqk.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_iqk.h
+new file mode 100644
+index 0000000..211dd24
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_iqk.h
+@@ -0,0 +1,40 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef	__PHYDMIQK_H__
++#define __PHYDMIQK_H__
++
++/*--------------------------Define Parameters-------------------------------*/
++#define	LOK_delay 1
++#define	WBIQK_delay 10
++#define	TX_IQK 0
++#define	RX_IQK 1
++#define	NUM 4	
++/*---------------------------End Define Parameters-------------------------------*/
++
++typedef struct _IQK_INFORMATION {
++	BOOLEAN		LOK_fail[NUM];
++	BOOLEAN		IQK_fail[2][NUM];
++	u4Byte		IQC_Matrix[2][NUM];
++	u1Byte      IQKtimes;
++
++} IQK_INFO, *PIQK_INFO;
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_kfree.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_kfree.c
+new file mode 100644
+index 0000000..a91cdee
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_kfree.c
+@@ -0,0 +1,191 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++/*============================================================*/
++/*include files*/
++/*============================================================*/
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++
++/*<YuChen, 150720> Add for KFree Feature Requested by RF David.*/
++/*This is a phydm API*/
++
++VOID
++phydm_SetKfreeToRF_8814A(
++	IN	PVOID		pDM_VOID,
++	IN	u1Byte		eRFPath,
++	IN	u1Byte		Data
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	BOOLEAN bOdd;
++	
++	if ((Data%2) != 0) {	/*odd -> positive*/
++		Data = Data - 1;
++		ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT19, 1);
++		bOdd = TRUE;
++	} else {		/*even -> negative*/
++		ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT19, 0);
++		bOdd = FALSE;
++	}
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_MP, ODM_DBG_LOUD, ("phy_ConfigKFree8814A(): RF_0x55[19]= %d\n", bOdd));
++		switch (Data) {
++		case 0:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 0);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 0);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 0;
++		break;
++		case 2:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 1);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 0);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 0;
++		break;
++		case 4:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 0);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 1);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 1;
++		break;
++		case 6:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 1);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 1);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 1;
++		break;
++		case 8:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 0);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 2);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 2;
++		break;
++		case 10:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 1);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 2);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 2;
++		break;
++		case 12:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 0);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 3);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 3;
++		break;
++		case 14:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 1);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 3);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 3;
++		break;
++		case 16:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 0);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 4);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 4;
++		break;
++		case 18:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 1);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 4);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 4;
++		break;
++		case 20:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 0);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 5);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 5;
++		break;
++
++		default:
++		break;
++	}
++
++	if (bOdd == FALSE) {
++	/*that means Kfree offset is negative, we need to record it.*/
++		pRFCalibrateInfo->KfreeOffset[eRFPath] = (-1)*pRFCalibrateInfo->KfreeOffset[eRFPath];
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_MP, ODM_DBG_LOUD, ("phy_ConfigKFree8814A(): KfreeOffset = %d\n", pRFCalibrateInfo->KfreeOffset[eRFPath]));
++	} else
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_MP, ODM_DBG_LOUD, ("phy_ConfigKFree8814A(): KfreeOffset = %d\n", pRFCalibrateInfo->KfreeOffset[eRFPath]));
++	
++}
++
++
++VOID
++phydm_SetKfreeToRF(
++	IN	PVOID		pDM_VOID,
++	IN	u1Byte		eRFPath,
++	IN	u1Byte		Data
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		phydm_SetKfreeToRF_8814A(pDM_Odm, eRFPath, Data);
++}
++
++VOID
++phydm_ConfigKFree(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	channelToSW,
++	IN	pu1Byte	kfreeTable
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	u1Byte			rfpath = 0, maxRFpath = 0;
++	u1Byte			channelIdx = 0;
++
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		maxRFpath = 4;	/*0~3*/
++	else if (pDM_Odm->SupportICType & (ODM_RTL8812 | ODM_RTL8192E | ODM_RTL8822B))
++		maxRFpath = 2;	/*0~1*/
++	else
++		maxRFpath = 1;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_MP, ODM_DBG_LOUD, ("===>phy_ConfigKFree8814A()\n"));
++	
++	if (pRFCalibrateInfo->RegRfKFreeEnable == 2) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_MP, ODM_DBG_LOUD, ("phy_ConfigKFree8814A(): RegRfKFreeEnable == 2, Disable\n"));
++		return;
++	} else if (pRFCalibrateInfo->RegRfKFreeEnable == 1 || pRFCalibrateInfo->RegRfKFreeEnable == 0) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_MP, ODM_DBG_LOUD, ("phy_ConfigKFree8814A(): RegRfKFreeEnable == TRUE\n"));
++		/*Make sure the targetval is defined*/
++		if (((pRFCalibrateInfo->RegRfKFreeEnable == 1) && (kfreeTable[0] != 0xFF)) || (pRFCalibrateInfo->RfKFreeEnable == TRUE)) {
++			/*if kfreeTable[0] == 0xff, means no Kfree*/
++			if (*pDM_Odm->pBandType == ODM_BAND_2_4G) {
++				if (channelToSW <= 14 && channelToSW >= 1)
++					channelIdx = PHYDM_2G;
++			} else if (*pDM_Odm->pBandType == ODM_BAND_5G) {
++				if (channelToSW >= 36 && channelToSW <= 48)
++					channelIdx = PHYDM_5GLB1;
++				if (channelToSW >= 52 && channelToSW <= 64)
++					channelIdx = PHYDM_5GLB2;
++				if (channelToSW >= 100 && channelToSW <= 120)
++					channelIdx = PHYDM_5GMB1;
++				if (channelToSW >= 124 && channelToSW <= 144)
++					channelIdx = PHYDM_5GMB2;
++				if (channelToSW >= 149 && channelToSW <= 177)
++					channelIdx = PHYDM_5GHB;
++			}
++
++			for (rfpath = ODM_RF_PATH_A;  rfpath < maxRFpath; rfpath++) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_MP, ODM_DBG_LOUD, ("phydm_kfree(): PATH_%d: %#x\n", rfpath, kfreeTable[channelIdx*maxRFpath + rfpath]));
++				phydm_SetKfreeToRF(pDM_Odm, rfpath, kfreeTable[channelIdx*maxRFpath + rfpath]);
++			}
++		} else {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_MP, ODM_DBG_LOUD, ("phy_ConfigKFree8814A(): targetval not defined, Don't execute KFree Process.\n"));
++			return;
++		}
++	}
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_MP, ODM_DBG_LOUD, ("<===phy_ConfigKFree8814A()\n"));
++}
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_kfree.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_kfree.h
+new file mode 100644
+index 0000000..d95e7cb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_kfree.h
+@@ -0,0 +1,45 @@
++
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef	__PHYDMKFREE_H__
++#define    __PHYDKFREE_H__
++
++#define KFREE_VERSION	"1.0"
++
++typedef enum tag_phydm_kfree_channeltosw {
++	PHYDM_2G = 0,
++	PHYDM_5GLB1 = 1,
++	PHYDM_5GLB2 = 2,
++	PHYDM_5GMB1 = 3,
++	PHYDM_5GMB2 = 4,
++	PHYDM_5GHB = 5,
++} PHYDM_KFREE_CHANNELTOSW;
++
++
++VOID
++phydm_ConfigKFree(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	channelToSW,
++	IN	pu1Byte	kfreeTable
++);
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_noisemonitor.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_noisemonitor.c
+new file mode 100644
+index 0000000..f9fd923
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_noisemonitor.c
+@@ -0,0 +1,305 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++#include "phydm_noisemonitor.h"
++
++//=================================================
++// This function is for inband noise test utility only
++// To obtain the inband noise level(dbm), do the following.
++// 1. disable DIG and Power Saving 
++// 2. Set initial gain = 0x1a
++// 3. Stop updating idle time pwer report (for driver read)
++//	- 0x80c[25]
++//
++//=================================================
++
++#define Valid_Min				-35
++#define Valid_Max			10
++#define ValidCnt				5	
++
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_CE|ODM_WIN))
++
++s2Byte odm_InbandNoise_Monitor_NSeries(PDM_ODM_T	pDM_Odm,u8 bPauseDIG,u8 IGIValue,u32 max_time)
++{
++	u4Byte				tmp4b;	
++	u1Byte				max_rf_path=0,rf_path;	
++	u1Byte				reg_c50, reg_c58,valid_done=0;	
++	struct noise_level		noise_data;
++	u8Byte	start  = 0, func_start = 0,	func_end = 0;
++
++	func_start = ODM_GetCurrentTime(pDM_Odm);
++	pDM_Odm->noise_level.noise_all = 0;
++	
++	if((pDM_Odm->RFType == ODM_1T2R) ||(pDM_Odm->RFType == ODM_2T2R))	
++		max_rf_path = 2;
++	else
++		max_rf_path = 1;
++	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,("odm_DebugControlInbandNoise_Nseries() ==> \n"));
++
++	ODM_Memory_Set(pDM_Odm,&noise_data,0,sizeof(struct noise_level));
++	
++	//
++	// Step 1. Disable DIG && Set initial gain.
++	//
++	
++	if(bPauseDIG)
++	{
++		odm_PauseDIG(pDM_Odm, PHYDM_PAUSE, PHYDM_PAUSE_LEVEL_1, IGIValue);
++	}
++	//
++	// Step 2. Disable all power save for read registers
++	//
++	//dcmd_DebugControlPowerSave(pAdapter, PSDisable);
++
++	//
++	// Step 3. Get noise power level
++	//
++	start = ODM_GetCurrentTime(pDM_Odm);
++	while(1)
++	{
++		
++		//Stop updating idle time pwer report (for driver read)
++		ODM_SetBBReg(pDM_Odm, rFPGA0_TxGainStage, BIT25, 1);	
++		
++		//Read Noise Floor Report
++		tmp4b = ODM_GetBBReg(pDM_Odm, 0x8f8,bMaskDWord );
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,("Noise Floor Report (0x8f8) = 0x%08x\n", tmp4b));
++		
++		//ODM_SetBBReg(pDM_Odm, rOFDM0_XAAGCCore1, bMaskByte0, TestInitialGain);
++		//if(max_rf_path == 2)
++		//	ODM_SetBBReg(pDM_Odm, rOFDM0_XBAGCCore1, bMaskByte0, TestInitialGain);
++		
++		//update idle time pwer report per 5us
++		ODM_SetBBReg(pDM_Odm, rFPGA0_TxGainStage, BIT25, 0);
++		
++		noise_data.value[ODM_RF_PATH_A] = (u1Byte)(tmp4b&0xff);		
++		noise_data.value[ODM_RF_PATH_B]  = (u1Byte)((tmp4b&0xff00)>>8);
++	
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD, ("value_a = 0x%x(%d), value_b = 0x%x(%d)\n", 
++			noise_data.value[ODM_RF_PATH_A], noise_data.value[ODM_RF_PATH_A], noise_data.value[ODM_RF_PATH_B], noise_data.value[ODM_RF_PATH_B]));
++
++		 for(rf_path = ODM_RF_PATH_A; rf_path < max_rf_path; rf_path++) 
++		 {
++		 	noise_data.sval[rf_path] = (s1Byte)noise_data.value[rf_path];
++			noise_data.sval[rf_path] /= 2;
++		 }	
++		 	
++		
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,("sval_a = %d, sval_b = %d\n", 
++			noise_data.sval[ODM_RF_PATH_A], noise_data.sval[ODM_RF_PATH_B]));
++		//ODM_delay_ms(10);
++		//ODM_sleep_ms(10);
++
++		for(rf_path = ODM_RF_PATH_A; rf_path < max_rf_path; rf_path++) 
++		{
++			if( (noise_data.valid_cnt[rf_path] < ValidCnt) && (noise_data.sval[rf_path] < Valid_Max && noise_data.sval[rf_path] >= Valid_Min))
++			{
++				noise_data.valid_cnt[rf_path]++;
++				noise_data.sum[rf_path] += noise_data.sval[rf_path];
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,("RF_Path:%d Valid sval = %d\n", rf_path,noise_data.sval[rf_path]));
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,("Sum of sval = %d, \n", noise_data.sum[rf_path]));
++				if(noise_data.valid_cnt[rf_path] == ValidCnt)
++				{				
++					valid_done++;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,("After divided, RF_Path:%d ,sum = %d \n", rf_path,noise_data.sum[rf_path]));
++				}				
++			
++			}
++			
++		}
++
++		//printk("####### valid_done:%d #############\n",valid_done);
++		if ((valid_done==max_rf_path) || (ODM_GetProgressingTime(pDM_Odm,start) > max_time))
++		{
++			for(rf_path = ODM_RF_PATH_A; rf_path < max_rf_path; rf_path++)
++			{ 
++				//printk("%s PATH_%d - sum = %d, valid_cnt = %d \n",__FUNCTION__,rf_path,noise_data.sum[rf_path], noise_data.valid_cnt[rf_path]);
++				if(noise_data.valid_cnt[rf_path])
++					noise_data.sum[rf_path] /= noise_data.valid_cnt[rf_path];		
++				else
++					noise_data.sum[rf_path]  = 0;
++			}
++			break;
++		}
++	}
++	reg_c50 = (u1Byte)ODM_GetBBReg(pDM_Odm, rOFDM0_XAAGCCore1, bMaskByte0);
++	reg_c50 &= ~BIT7;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,("0x%x = 0x%02x(%d)\n", rOFDM0_XAAGCCore1, reg_c50, reg_c50));
++	pDM_Odm->noise_level.noise[ODM_RF_PATH_A] = (u1Byte)(-110 + reg_c50 + noise_data.sum[ODM_RF_PATH_A]);
++	pDM_Odm->noise_level.noise_all += pDM_Odm->noise_level.noise[ODM_RF_PATH_A];
++		
++	if(max_rf_path == 2){
++		reg_c58 = (u1Byte)ODM_GetBBReg(pDM_Odm, rOFDM0_XBAGCCore1, bMaskByte0);
++		reg_c58 &= ~BIT7;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,("0x%x = 0x%02x(%d)\n", rOFDM0_XBAGCCore1, reg_c58, reg_c58));
++		pDM_Odm->noise_level.noise[ODM_RF_PATH_B] = (u1Byte)(-110 + reg_c58 + noise_data.sum[ODM_RF_PATH_B]);
++		pDM_Odm->noise_level.noise_all += pDM_Odm->noise_level.noise[ODM_RF_PATH_B];
++	}
++	pDM_Odm->noise_level.noise_all /= max_rf_path;
++	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,("noise_a = %d, noise_b = %d\n", 
++		pDM_Odm->noise_level.noise[ODM_RF_PATH_A],
++		pDM_Odm->noise_level.noise[ODM_RF_PATH_B]));
++
++	//
++	// Step 4. Recover the Dig
++	//
++	if(bPauseDIG)
++	{
++		odm_PauseDIG(pDM_Odm, PHYDM_RESUME, PHYDM_PAUSE_LEVEL_1, IGIValue);
++	}	
++	func_end = ODM_GetProgressingTime(pDM_Odm,func_start) ;	
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("odm_DebugControlInbandNoise_Nseries() <==\n"));
++	return pDM_Odm->noise_level.noise_all;
++
++}
++
++s2Byte	
++odm_InbandNoise_Monitor_ACSeries(PDM_ODM_T	pDM_Odm, u8 bPauseDIG, u8 IGIValue, u32 max_time
++	)
++{
++	s4Byte          rxi_buf_anta, rxq_buf_anta; /*rxi_buf_antb, rxq_buf_antb;*/
++	s4Byte	        value32, pwdb_A = 0, sval, noise, sum;
++	BOOLEAN	        pd_flag;
++	u1Byte			i, valid_cnt;
++	u8Byte	start = 0, func_start = 0, func_end = 0;
++
++
++	if (!(pDM_Odm->SupportICType & (ODM_RTL8812 | ODM_RTL8821 | ODM_RTL8814A)))
++		return 0;
++	
++	func_start = ODM_GetCurrentTime(pDM_Odm);
++	pDM_Odm->noise_level.noise_all = 0;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("odm_InbandNoise_Monitor_ACSeries() ==>\n"));
++	
++	/* Step 1. Disable DIG && Set initial gain. */
++	if (bPauseDIG)
++		odm_PauseDIG(pDM_Odm, PHYDM_PAUSE, PHYDM_PAUSE_LEVEL_1, IGIValue);
++
++	/* Step 2. Disable all power save for read registers */
++	/*dcmd_DebugControlPowerSave(pAdapter, PSDisable); */
++
++	/* Step 3. Get noise power level */
++	start = ODM_GetCurrentTime(pDM_Odm);
++
++	/* reset counters */
++	sum = 0;
++	valid_cnt = 0;
++
++	/* Step 3. Get noise power level */
++	while (1) {
++		/*Set IGI=0x1C */
++		ODM_Write_DIG(pDM_Odm, 0x1C);
++		/*stop CK320&CK88 */
++		ODM_SetBBReg(pDM_Odm, 0x8B4, BIT6, 1);
++		/*Read Path-A */
++		ODM_SetBBReg(pDM_Odm, 0x8FC, bMaskDWord, 0x200); /*set debug port*/
++		value32 = ODM_GetBBReg(pDM_Odm, 0xFA0, bMaskDWord); /*read debug port*/
++		
++		rxi_buf_anta = (value32 & 0xFFC00) >> 10; /*rxi_buf_anta=RegFA0[19:10]*/
++		rxq_buf_anta = value32 & 0x3FF; /*rxq_buf_anta=RegFA0[19:10]*/
++
++		pd_flag = (BOOLEAN) ((value32 & BIT31) >> 31);
++
++		/*Not in packet detection period or Tx state */
++		if ((!pd_flag) || (rxi_buf_anta != 0x200)) {
++			/*sign conversion*/
++			rxi_buf_anta = ODM_SignConversion(rxi_buf_anta, 10);
++			rxq_buf_anta = ODM_SignConversion(rxq_buf_anta, 10);
++
++			pwdb_A = ODM_PWdB_Conversion(rxi_buf_anta * rxi_buf_anta + rxq_buf_anta * rxq_buf_anta, 20, 18); /*S(10,9)*S(10,9)=S(20,18)*/
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("pwdb_A= %d dB, rxi_buf_anta= 0x%x, rxq_buf_anta= 0x%x\n", pwdb_A, rxi_buf_anta & 0x3FF, rxq_buf_anta & 0x3FF));
++		}
++		/*Start CK320&CK88*/
++		ODM_SetBBReg(pDM_Odm, 0x8B4, BIT6, 0);
++		/*BB Reset*/
++		ODM_Write1Byte(pDM_Odm, 0x02, ODM_Read1Byte(pDM_Odm, 0x02) & (~BIT0));
++		ODM_Write1Byte(pDM_Odm, 0x02, ODM_Read1Byte(pDM_Odm, 0x02) | BIT0);
++		/*PMAC Reset*/
++		ODM_Write1Byte(pDM_Odm, 0xB03, ODM_Read1Byte(pDM_Odm, 0xB03) & (~BIT0));
++		ODM_Write1Byte(pDM_Odm, 0xB03, ODM_Read1Byte(pDM_Odm, 0xB03) | BIT0);
++		/*CCK Reset*/
++		if (ODM_Read1Byte(pDM_Odm, 0x80B) & BIT4) {
++			ODM_Write1Byte(pDM_Odm, 0x80B, ODM_Read1Byte(pDM_Odm, 0x80B) & (~BIT4));
++			ODM_Write1Byte(pDM_Odm, 0x80B, ODM_Read1Byte(pDM_Odm, 0x80B) | BIT4);		
++		}
++
++		sval = pwdb_A;
++
++		if (sval < 0 && sval >= -27) {
++			if (valid_cnt < ValidCnt) {
++				valid_cnt++;
++				sum += sval;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("Valid sval = %d\n", sval));
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("Sum of sval = %d,\n", sum));
++				if ((valid_cnt >= ValidCnt) || (ODM_GetProgressingTime(pDM_Odm, start) > max_time)) {
++					sum /= valid_cnt;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("After divided, sum = %d\n", sum)); 
++					break;
++				}
++			}
++		}
++	}
++
++	/*ADC backoff is 12dB,*/ 
++	/*Ptarget=0x1C-110=-82dBm*/
++	noise = sum + 12 + 0x1C - 110; 
++	
++	/*Offset*/
++	noise = noise - 3;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("noise = %d\n", noise));
++	pDM_Odm->noise_level.noise_all = (s2Byte)noise;
++
++	/* Step 4. Recover the Dig*/
++	if (bPauseDIG)
++		odm_PauseDIG(pDM_Odm, PHYDM_RESUME, PHYDM_PAUSE_LEVEL_1, IGIValue);
++	
++	func_end = ODM_GetProgressingTime(pDM_Odm, func_start);
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("odm_InbandNoise_Monitor_ACSeries() <==\n"));
++
++	return pDM_Odm->noise_level.noise_all;
++}
++
++
++
++s2Byte
++ODM_InbandNoise_Monitor(PVOID pDM_VOID, u8 bPauseDIG, u8 IGIValue, u32 max_time)
++{
++
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		return odm_InbandNoise_Monitor_ACSeries(pDM_Odm, bPauseDIG, IGIValue, max_time);
++	else
++		return odm_InbandNoise_Monitor_NSeries(pDM_Odm, bPauseDIG, IGIValue, max_time);
++}
++
++#endif
++
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_noisemonitor.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_noisemonitor.h
+new file mode 100644
+index 0000000..6625be6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_noisemonitor.h
+@@ -0,0 +1,49 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ *****************************************************************************/
++#ifndef	__ODMNOISEMONITOR_H__
++#define __ODMNOISEMONITOR_H__
++
++#define	ODM_MAX_CHANNEL_NUM					38//14+24
++struct noise_level
++{
++	//u1Byte				value_a, value_b;
++	u1Byte				value[MAX_RF_PATH];
++	//s1Byte				sval_a, sval_b;
++	s1Byte				sval[MAX_RF_PATH];
++	
++	//s4Byte				noise_a=0, noise_b=0,sum_a=0, sum_b=0;
++	//s4Byte				noise[ODM_RF_PATH_MAX];
++	s4Byte				sum[MAX_RF_PATH];
++	//u1Byte				valid_cnt_a=0, valid_cnt_b=0, 
++	u1Byte				valid[MAX_RF_PATH];
++	u1Byte				valid_cnt[MAX_RF_PATH];
++
++};
++
++
++typedef struct _ODM_NOISE_MONITOR_
++{
++	s1Byte			noise[MAX_RF_PATH];
++	s2Byte			noise_all;	
++}ODM_NOISE_MONITOR;
++
++s2Byte ODM_InbandNoise_Monitor(PVOID pDM_VOID,u8 bPauseDIG,u8 IGIValue,u32 max_time);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_pathdiv.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_pathdiv.c
+new file mode 100644
+index 0000000..0ddeba3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_pathdiv.c
+@@ -0,0 +1,810 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#if(defined(CONFIG_PATH_DIVERSITY))
++#if RTL8814A_SUPPORT
++
++VOID
++phydm_dtp_fix_tx_path(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	path
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pPATHDIV_T		pDM_PathDiv = &pDM_Odm->DM_PathDiv;
++	u1Byte			i,num_enable_path=0;
++
++	if(path==pDM_PathDiv->pre_tx_path)
++	{
++		return;
++	}
++	else
++	{
++		pDM_PathDiv->pre_tx_path=path;
++	}
++
++	ODM_SetBBReg( pDM_Odm, 0x93c, BIT18|BIT19, 3);
++
++	for(i=0; i<4; i++)
++	{
++		if(path&BIT(i))
++			num_enable_path++;
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Number of trun-on path : (( %d ))\n", num_enable_path));
++
++	if(num_enable_path == 1)
++	{
++		ODM_SetBBReg( pDM_Odm, 0x93c, 0xf00000, path);
++	
++		if(path==PHYDM_A)//1-1
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( A ))\n"));
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT25|BIT24, 0);
++		}
++		else 	if(path==PHYDM_B)//1-2
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( B ))\n"));
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT27|BIT26, 0);
++		}
++		else 	if(path==PHYDM_C)//1-3
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( C ))\n"));
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT29|BIT28, 0);
++
++		}
++		else 	if(path==PHYDM_D)//1-4
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( D ))\n"));
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT31|BIT30, 0);
++		}
++
++	}
++	else 	if(num_enable_path == 2)
++	{
++		ODM_SetBBReg( pDM_Odm, 0x93c, 0xf00000, path);
++		ODM_SetBBReg( pDM_Odm, 0x940, 0xf0, path);
++	
++		if(path==PHYDM_AB)//2-1
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( A B ))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT25|BIT24, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT27|BIT26, 1);
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT9|BIT8, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT11|BIT10, 1);			
++		}
++		else 	if(path==PHYDM_AC)//2-2
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( A C ))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT25|BIT24, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT29|BIT28, 1);
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT9|BIT8, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT13|BIT12, 1);	
++		}
++		else 	if(path==PHYDM_AD)//2-3
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( A D ))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT25|BIT24, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT31|BIT30, 1);
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT9|BIT8, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT15|BIT14, 1);	
++		}
++		else 	if(path==PHYDM_BC)//2-4
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( B C ))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT27|BIT26, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT29|BIT28, 1);
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT11|BIT10, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT13|BIT12, 1);	
++		}
++		else 	if(path==PHYDM_BD)//2-5
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( B D ))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT27|BIT26, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT31|BIT30, 1);
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT11|BIT10, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT15|BIT14, 1);	
++		}
++		else 	if(path==PHYDM_CD)//2-6
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( C D ))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT29|BIT28, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT31|BIT30, 1);
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT13|BIT12, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT15|BIT14, 1);	
++		}
++
++	}
++	else 	if(num_enable_path == 3)
++	{
++		ODM_SetBBReg( pDM_Odm, 0x93c, 0xf00000, path);
++		ODM_SetBBReg( pDM_Odm, 0x940, 0xf0, path);
++		ODM_SetBBReg( pDM_Odm, 0x940, 0xf0000, path);
++	
++		if(path==PHYDM_ABC)//3-1
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( A B C))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT25|BIT24, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT27|BIT26, 1);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT29|BIT28, 2);			
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT9|BIT8, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT11|BIT10, 1);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT13|BIT12, 2);
++			//set for 3ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT21|BIT20, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT23|BIT22, 1);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT25|BIT24, 2);
++		}
++		else 	if(path==PHYDM_ABD)//3-2
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( A B D ))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT25|BIT24, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT27|BIT26, 1);		
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT31|BIT30, 2);
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT9|BIT8, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT11|BIT10, 1);		
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT15|BIT14, 2);
++			//set for 3ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT21|BIT20, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT23|BIT22, 1);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT27|BIT26, 2);
++
++		}
++		else 	if(path==PHYDM_ACD)//3-3
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( A C D ))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT25|BIT24, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT29|BIT28, 1);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT31|BIT30, 2);			
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT9|BIT8, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT13|BIT12, 1);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT15|BIT14, 2);
++			//set for 3ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT21|BIT20, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT25|BIT24, 1);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT27|BIT26, 2);
++		}
++		else 	if(path==PHYDM_BCD)//3-4
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( B C D))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT27|BIT26, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT29|BIT28, 1);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT31|BIT30, 2);			
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT11|BIT10, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT13|BIT12, 1);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT15|BIT14, 2);
++			//set for 3ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT23|BIT22, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT25|BIT24, 1);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT27|BIT26, 2);
++		}
++	}
++	else 	if(num_enable_path == 4)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path ((A  B C D))\n"));
++	}
++
++}
++
++VOID
++phydm_find_default_path(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pPATHDIV_T		pDM_PathDiv = &pDM_Odm->DM_PathDiv;
++	u4Byte	rssi_avg_a=0, rssi_avg_b=0, rssi_avg_c=0, rssi_avg_d=0, rssi_avg_bcd=0;
++	u4Byte	rssi_total_a=0, rssi_total_b=0, rssi_total_c=0, rssi_total_d=0;
++
++	//2 Default Path Selection By RSSI
++
++	rssi_avg_a = (pDM_PathDiv->path_a_cnt_all > 0)? (pDM_PathDiv->path_a_sum_all / pDM_PathDiv->path_a_cnt_all) :0 ;
++	rssi_avg_b = (pDM_PathDiv->path_b_cnt_all > 0)? (pDM_PathDiv->path_b_sum_all / pDM_PathDiv->path_b_cnt_all) :0 ;
++	rssi_avg_c = (pDM_PathDiv->path_c_cnt_all > 0)? (pDM_PathDiv->path_c_sum_all / pDM_PathDiv->path_c_cnt_all) :0 ;
++	rssi_avg_d = (pDM_PathDiv->path_d_cnt_all > 0)? (pDM_PathDiv->path_d_sum_all / pDM_PathDiv->path_d_cnt_all) :0 ;
++
++
++	pDM_PathDiv->path_a_sum_all = 0;
++ 	pDM_PathDiv->path_a_cnt_all = 0;
++	pDM_PathDiv->path_b_sum_all = 0;
++ 	pDM_PathDiv->path_b_cnt_all = 0;
++	pDM_PathDiv->path_c_sum_all = 0;
++ 	pDM_PathDiv->path_c_cnt_all = 0;
++	pDM_PathDiv->path_d_sum_all = 0;
++ 	pDM_PathDiv->path_d_cnt_all = 0;
++
++	if(pDM_PathDiv->use_path_a_as_default_ant == 1)
++	{
++		rssi_avg_bcd=(rssi_avg_b+rssi_avg_c+rssi_avg_d)/3;
++
++		if( (rssi_avg_a + ANT_DECT_RSSI_TH) > rssi_avg_bcd  )
++		{
++			pDM_PathDiv->is_pathA_exist=TRUE;
++			pDM_PathDiv->default_path=PATH_A;
++		}
++		else
++		{
++			pDM_PathDiv->is_pathA_exist=FALSE;
++		}
++	}
++	else
++	{
++		if( (rssi_avg_a >=rssi_avg_b) && (rssi_avg_a >=rssi_avg_c)&&(rssi_avg_a >=rssi_avg_d))
++			pDM_PathDiv->default_path=PATH_A;
++		else if(  (rssi_avg_b >=rssi_avg_c)&&(rssi_avg_b >=rssi_avg_d))
++			pDM_PathDiv->default_path=PATH_B;
++		else if(  rssi_avg_c >=rssi_avg_d)
++			pDM_PathDiv->default_path=PATH_C;
++		else
++			pDM_PathDiv->default_path=PATH_D;
++	}
++
++
++}
++
++
++VOID
++phydm_candidate_dtp_update(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pPATHDIV_T		pDM_PathDiv = &pDM_Odm->DM_PathDiv;
++
++	pDM_PathDiv->num_candidate=3;
++	
++	if(pDM_PathDiv->use_path_a_as_default_ant == 1)
++	{
++		if(pDM_PathDiv->num_tx_path==3)
++		{
++			if(pDM_PathDiv->is_pathA_exist)
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_ABC; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_ABD; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_ACD;
++			}
++			else // use path BCD 
++			{
++				pDM_PathDiv->num_candidate=1;
++				phydm_dtp_fix_tx_path(pDM_Odm, PHYDM_BCD);
++				return;
++			}
++		}
++		else 	if(pDM_PathDiv->num_tx_path==2)
++		{
++			if(pDM_PathDiv->is_pathA_exist)
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_AB; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_AC; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_AD; 
++			}
++			else
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_BC; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_BD; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_CD; 
++			}	
++		}
++	}
++	else
++	{
++		//2 3 TX Mode 
++		if(pDM_PathDiv->num_tx_path==3)//choose 3 ant form 4 
++		{
++			if(pDM_PathDiv->default_path == PATH_A) //choose 2 ant form 3
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_ABC; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_ABD; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_ACD; 
++			}
++			else if(pDM_PathDiv->default_path==PATH_B)
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_ABC; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_ABD; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_BCD; 
++			}
++			else if(pDM_PathDiv->default_path == PATH_C)
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_ABC; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_ACD; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_BCD; 
++			}
++			else if(pDM_PathDiv->default_path == PATH_D)
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_ABD; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_ACD; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_BCD; 
++			}
++		}
++		
++		//2 2 TX Mode 
++		else if(pDM_PathDiv->num_tx_path==2)//choose 2 ant form 4 
++		{
++			if(pDM_PathDiv->default_path == PATH_A) //choose 2 ant form 3
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_AB; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_AC; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_AD; 
++			}
++			else if(pDM_PathDiv->default_path==PATH_B)
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_AB; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_BC; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_BD; 
++			}
++			else if(pDM_PathDiv->default_path == PATH_C)
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_AC; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_BC; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_CD; 
++			}
++			else if(pDM_PathDiv->default_path == PATH_D)
++			{
++				pDM_PathDiv->ant_candidate_1=  PHYDM_AD; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_BD; 
++				pDM_PathDiv->ant_candidate_3=  PHYDM_CD; 
++			}
++		}
++	}
++}
++
++
++VOID
++phydm_dynamic_tx_path(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pPATHDIV_T		pDM_PathDiv = &pDM_Odm->DM_PathDiv;	
++	
++	PSTA_INFO_T   	pEntry;
++	u4Byte	i;
++	u1Byte	num_client=0;
++	u1Byte	H2C_Parameter[6] ={0};
++
++
++	if(!pDM_Odm->bLinked) //bLinked==False
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, ("DTP_8814 [No Link!!!]\n"));
++		
++		if(pDM_PathDiv->bBecomeLinked == TRUE)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" [Be disconnected]----->\n"));
++			pDM_PathDiv->bBecomeLinked = pDM_Odm->bLinked;
++		}
++		return;
++	}	
++	else
++	{
++		if(pDM_PathDiv->bBecomeLinked ==FALSE)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" [Be Linked !!!]----->\n"));
++			pDM_PathDiv->bBecomeLinked = pDM_Odm->bLinked;
++		}	
++	}	
++	
++	//2 [Period CTRL]
++	if(pDM_PathDiv->dtp_period >=2)
++	{
++		pDM_PathDiv->dtp_period=0;	
++	}
++	else
++	{	
++		//ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, ("Phydm_Dynamic_Tx_Path_8814A()  Stay = (( %d ))\n",pDM_PathDiv->dtp_period));
++		pDM_PathDiv->dtp_period++;		
++		return;
++	}
++	
++
++	//2 [Fix Path]
++	if (pDM_Odm->path_select != PHYDM_AUTO_PATH)
++	{
++		return;
++	}
++	
++	//2 [Check Bfer]	
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#if (BEAMFORMING_SUPPORT == 1)
++	{
++		BEAMFORMING_CAP		BeamformCap = (pDM_Odm->BeamformingInfo.BeamformCap);
++
++		if( BeamformCap & BEAMFORMER_CAP ) //  BFmer On  &&   Div On ->  Div Off
++		{	
++			if( pDM_PathDiv->fix_path_bfer == 0) 
++			{
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_PATH_DIV,ODM_DBG_LOUD,("[ PathDiv : OFF ]   BFmer ==1  \n"));
++				pDM_PathDiv->fix_path_bfer = 1 ;			
++			}
++			return;
++		}
++		else // BFmer Off   &&   Div Off ->  Div On
++		{
++			if( pDM_PathDiv->fix_path_bfer == 1 ) 
++			{
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_PATH_DIV,ODM_DBG_LOUD,("[ PathDiv : ON ]   BFmer ==0 \n"));
++				pDM_PathDiv->fix_path_bfer = 0;
++			}
++		}
++	}
++	#endif	
++	#endif
++
++	if(pDM_PathDiv->use_path_a_as_default_ant ==1)
++	{
++		phydm_find_default_path(pDM_Odm);
++		phydm_candidate_dtp_update(pDM_Odm);	
++	}
++	else
++	{
++		if( pDM_PathDiv->dtp_state == PHYDM_DTP_INIT)
++		{
++			phydm_find_default_path(pDM_Odm);
++			phydm_candidate_dtp_update(pDM_Odm);
++			pDM_PathDiv->dtp_state = PHYDM_DTP_RUNNING_1;
++		}
++		
++		else 	if( pDM_PathDiv->dtp_state == PHYDM_DTP_RUNNING_1)
++		{
++			pDM_PathDiv->dtp_check_patha_counter++;
++			
++			if(pDM_PathDiv->dtp_check_patha_counter>=NUM_RESET_DTP_PERIOD)
++			{
++				pDM_PathDiv->dtp_check_patha_counter=0;
++				pDM_PathDiv->dtp_state = PHYDM_DTP_INIT;
++			}
++			//2 Search space update		
++			else
++			{
++				// 1.  find the worst candidate
++				
++
++				// 2. repalce the worst candidate
++			}
++		}
++	}
++
++	//2 Dynamic Path Selection H2C
++
++	if(pDM_PathDiv->num_candidate == 1)
++	{
++		return;
++	}
++	else
++	{	
++		H2C_Parameter[0] =  pDM_PathDiv->num_candidate;
++		H2C_Parameter[1] =  pDM_PathDiv->num_tx_path;	
++		H2C_Parameter[2] =  pDM_PathDiv->ant_candidate_1; 
++		H2C_Parameter[3] =  pDM_PathDiv->ant_candidate_2; 
++		H2C_Parameter[4] =  pDM_PathDiv->ant_candidate_3; 
++
++		ODM_FillH2CCmd(pDM_Odm, PHYDM_H2C_DYNAMIC_TX_PATH, 6, H2C_Parameter);
++	}
++
++}
++
++
++
++VOID
++phydm_dynamic_tx_path_init(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pPATHDIV_T		pDM_PathDiv  = &(pDM_Odm->DM_PathDiv);
++	PADAPTER		pAdapter = pDM_Odm->Adapter;
++	#if ((DM_ODM_SUPPORT_TYPE == ODM_WIN) && USB_SWITCH_SUPPORT)
++	USB_MODE_MECH	*pUsbModeMech = &pAdapter->UsbModeMechanism;
++	#endif
++	u1Byte 			search_space_2[NUM_CHOOSE2_FROM4]= {PHYDM_AB, PHYDM_AC, PHYDM_AD, PHYDM_BC, PHYDM_BD, PHYDM_CD };
++	u1Byte 			search_space_3[NUM_CHOOSE3_FROM4]= {PHYDM_BCD, PHYDM_ACD,  PHYDM_ABD, PHYDM_ABC};
++
++	#if ((DM_ODM_SUPPORT_TYPE == ODM_WIN) && USB_SWITCH_SUPPORT)
++		pDM_PathDiv->is_u3_mode = (pUsbModeMech->CurUsbMode==USB_MODE_U3)? 1 : 0 ;
++	#else
++		pDM_PathDiv->is_u3_mode = 1;
++	#endif
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_PATH_DIV, ODM_DBG_LOUD, ("Dynamic TX Path Init 8814\n"));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_PATH_DIV, ODM_DBG_LOUD, ("is_u3_mode = (( %d ))\n", pDM_PathDiv->is_u3_mode));
++
++	memcpy(&(pDM_PathDiv->search_space_2[0]), &(search_space_2[0]), NUM_CHOOSE2_FROM4);
++	memcpy(&(pDM_PathDiv->search_space_3[0]), &(search_space_3[0]), NUM_CHOOSE3_FROM4);
++
++	pDM_PathDiv->use_path_a_as_default_ant= 1;
++	pDM_PathDiv->dtp_state = PHYDM_DTP_INIT;	
++	pDM_Odm->path_select = PHYDM_AUTO_PATH;
++	pDM_PathDiv->path_div_type = PHYDM_4R_PATH_DIV;
++
++	
++	if(pDM_PathDiv->is_u3_mode )
++	{
++		pDM_PathDiv->num_tx_path=3;
++		phydm_dtp_fix_tx_path(pDM_Odm, PHYDM_BCD);/* 3TX  Set Init TX Path*/
++		
++	}
++	else
++	{
++		pDM_PathDiv->num_tx_path=2;
++		phydm_dtp_fix_tx_path(pDM_Odm, PHYDM_BC);/* 2TX // Set Init TX Path*/
++	}
++	
++}
++
++
++VOID
++phydm_process_rssi_for_path_div(	
++	IN OUT		PVOID			pDM_VOID,	
++	IN			PVOID			p_phy_info_void,
++	IN			PVOID			p_pkt_info_void
++	)
++{
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_PHY_INFO_T 		pPhyInfo=(PODM_PHY_INFO_T)p_phy_info_void;
++	PODM_PACKET_INFO_T	 pPktinfo=(PODM_PACKET_INFO_T)p_pkt_info_void;
++	pPATHDIV_T			pDM_PathDiv  = &(pDM_Odm->DM_PathDiv);
++
++	if(pPktinfo->bPacketToSelf || pPktinfo->bPacketMatchBSSID)
++	{
++		if(pPktinfo->DataRate > ODM_RATE11M)
++		{
++			if(pDM_PathDiv->path_div_type == PHYDM_4R_PATH_DIV)
++			{
++				#if RTL8814A_SUPPORT
++				if(pDM_Odm->SupportICType & ODM_RTL8814A)
++				{
++					pDM_PathDiv->path_a_sum_all+=pPhyInfo->RxMIMOSignalStrength[0];
++					pDM_PathDiv->path_a_cnt_all++;
++					
++					pDM_PathDiv->path_b_sum_all+=pPhyInfo->RxMIMOSignalStrength[1];
++					pDM_PathDiv->path_b_cnt_all++;
++					
++					pDM_PathDiv->path_c_sum_all+=pPhyInfo->RxMIMOSignalStrength[2];
++					pDM_PathDiv->path_c_cnt_all++;
++					
++					pDM_PathDiv->path_d_sum_all+=pPhyInfo->RxMIMOSignalStrength[3];
++					pDM_PathDiv->path_d_cnt_all++;
++				}
++				#endif
++			}
++			else
++			{
++				pDM_PathDiv->PathA_Sum[pPktinfo->StationID]+=pPhyInfo->RxMIMOSignalStrength[0];
++				pDM_PathDiv->PathA_Cnt[pPktinfo->StationID]++;
++
++				pDM_PathDiv->PathB_Sum[pPktinfo->StationID]+=pPhyInfo->RxMIMOSignalStrength[1];
++				pDM_PathDiv->PathB_Cnt[pPktinfo->StationID]++;
++			}
++		}
++	}
++	
++	
++}
++
++#endif //#if RTL8814A_SUPPORT
++
++VOID
++odm_pathdiv_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char			*output,
++	IN		u4Byte		*_out_len
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pPATHDIV_T			pDM_PathDiv  = &(pDM_Odm->DM_PathDiv);
++	u4Byte used = *_used;
++	u4Byte out_len = *_out_len;
++	
++	pDM_Odm->path_select = (dm_value[0] & 0xf);
++	PHYDM_SNPRINTF((output+used, out_len-used,"Path_select = (( 0x%x ))\n",pDM_Odm->path_select ));
++	
++	//2 [Fix Path]
++	if (pDM_Odm->path_select != PHYDM_AUTO_PATH)
++	{
++		PHYDM_SNPRINTF((output+used, out_len-used,"Trun on path  [%s%s%s%s]\n",
++			((pDM_Odm->path_select) & 0x1)?"A":"",
++			((pDM_Odm->path_select) & 0x2)?"B":"",
++			((pDM_Odm->path_select) & 0x4)?"C":"",
++			((pDM_Odm->path_select) & 0x8)?"D":"" ));
++		
++		phydm_dtp_fix_tx_path( pDM_Odm, pDM_Odm->path_select );
++	}
++	else
++	{
++		PHYDM_SNPRINTF((output+used, out_len-used,"%s\n","Auto Path"));
++	}
++}
++
++#endif // #if(defined(CONFIG_PATH_DIVERSITY))
++
++VOID
++phydm_c2h_dtp_handler(
++ IN	PVOID	pDM_VOID,
++ IN 	pu1Byte   CmdBuf,
++ IN 	u1Byte	CmdLen
++)
++{
++#if(defined(CONFIG_PATH_DIVERSITY))
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pPATHDIV_T		pDM_PathDiv  = &(pDM_Odm->DM_PathDiv);
++
++	u1Byte  macid = CmdBuf[0]; 
++	u1Byte  target = CmdBuf[1];	
++	u1Byte  nsc_1 = CmdBuf[2];
++	u1Byte  nsc_2 = CmdBuf[3];
++	u1Byte  nsc_3 = CmdBuf[4];
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_PATH_DIV,ODM_DBG_LOUD,("Target_candidate = (( %d ))\n", target));
++	/*
++	if( (nsc_1 >= nsc_2) &&  (nsc_1 >= nsc_3))
++	{
++		phydm_dtp_fix_tx_path(pDM_Odm, pDM_PathDiv->ant_candidate_1);
++	}
++	else 	if( nsc_2 >= nsc_3)
++	{
++		phydm_dtp_fix_tx_path(pDM_Odm, pDM_PathDiv->ant_candidate_2);
++	}
++	else
++	{
++		phydm_dtp_fix_tx_path(pDM_Odm, pDM_PathDiv->ant_candidate_3);	
++	}
++	*/
++#endif	
++}
++
++VOID
++odm_PathDiversity(
++	IN	PVOID	pDM_VOID
++)
++{
++#if(defined(CONFIG_PATH_DIVERSITY))
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	if(!(pDM_Odm->SupportAbility & ODM_BB_PATH_DIV))
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_PATH_DIV,ODM_DBG_LOUD,("Return: Not Support PathDiv\n"));
++		return;
++	}
++
++	#if RTL8812A_SUPPORT
++
++	if(pDM_Odm->SupportICType & ODM_RTL8812)
++			ODM_PathDiversity_8812A(pDM_Odm);
++		else
++	#endif
++
++	#if RTL8814A_SUPPORT
++		if(pDM_Odm->SupportICType & ODM_RTL8814A)
++			phydm_dynamic_tx_path(pDM_Odm);
++		else
++	#endif
++    		{}
++#endif
++}
++
++VOID
++odm_PathDiversityInit(
++	IN	PVOID	pDM_VOID
++)
++{
++#if(defined(CONFIG_PATH_DIVERSITY))
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	/*pDM_Odm->SupportAbility |= ODM_BB_PATH_DIV;*/
++	
++	if(pDM_Odm->mp_mode == TRUE)
++		return;
++
++	if(!(pDM_Odm->SupportAbility & ODM_BB_PATH_DIV))
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_PATH_DIV,ODM_DBG_LOUD,("Return: Not Support PathDiv\n"));
++		return;
++	}
++
++#if RTL8812A_SUPPORT
++		if(pDM_Odm->SupportICType & ODM_RTL8812)
++			ODM_PathDiversityInit_8812A(pDM_Odm);
++		else
++	#endif
++
++	#if RTL8814A_SUPPORT
++		if(pDM_Odm->SupportICType & ODM_RTL8814A)
++			phydm_dynamic_tx_path_init(pDM_Odm);
++		else
++	#endif	
++		{}
++#endif
++}
++
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++//
++// 2011/12/02 MH Copy from MP oursrc for temporarily test.
++//
++
++VOID
++odm_PathDivChkAntSwitchCallback(
++	PRT_TIMER		pTimer
++)
++{
++}
++
++VOID
++odm_PathDivChkAntSwitchWorkitemCallback(
++    IN PVOID            pContext
++    )
++{
++}
++
++VOID
++odm_CCKTXPathDiversityCallback(
++	PRT_TIMER		pTimer
++)
++{
++}
++
++VOID
++odm_CCKTXPathDiversityWorkItemCallback(
++    IN PVOID            pContext
++    )
++{
++}
++u1Byte
++odm_SwAntDivSelectScanChnl(
++	IN	PADAPTER	Adapter
++	)
++{
++	return	0;
++}
++VOID
++odm_SwAntDivConstructScanChnl(
++	IN	PADAPTER	Adapter,
++	IN	u1Byte		ScanChnl
++	)
++{
++}
++
++#endif	// #if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_pathdiv.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_pathdiv.h
+new file mode 100644
+index 0000000..63a2641
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_pathdiv.h
+@@ -0,0 +1,324 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMPATHDIV_H__
++#define    __PHYDMPATHDIV_H__
++/*#define PATHDIV_VERSION "2.0" //2014.11.04*/
++#define PATHDIV_VERSION	"3.1" /*2015.07.29 by YuChen*/
++
++#if(defined(CONFIG_PATH_DIVERSITY))
++#define USE_PATH_A_AS_DEFAULT_ANT   //for 8814 dynamic TX path selection
++
++#define	NUM_RESET_DTP_PERIOD 5
++#define	ANT_DECT_RSSI_TH 3 
++
++#define PATH_A 1
++#define PATH_B 2
++#define PATH_C 3
++#define PATH_D 4
++
++#define PHYDM_AUTO_PATH	0
++#define PHYDM_FIX_PATH		1
++
++#define NUM_CHOOSE2_FROM4 6
++#define NUM_CHOOSE3_FROM4 4
++
++
++#define		PHYDM_A		 BIT0
++#define		PHYDM_B		 BIT1
++#define		PHYDM_C		 BIT2
++#define		PHYDM_D		 BIT3
++#define		PHYDM_AB	 (BIT0 | BIT1)  // 0
++#define		PHYDM_AC	 (BIT0 | BIT2)  // 1
++#define		PHYDM_AD	 (BIT0 | BIT3)  // 2
++#define		PHYDM_BC	 (BIT1 | BIT2)  // 3
++#define		PHYDM_BD	 (BIT1 | BIT3)  // 4
++#define		PHYDM_CD	 (BIT2 | BIT3)  // 5
++
++#define		PHYDM_ABC	 (BIT0 | BIT1 | BIT2) /* 0*/
++#define		PHYDM_ABD	 (BIT0 | BIT1 | BIT3) /* 1*/
++#define		PHYDM_ACD	 (BIT0 | BIT2 | BIT3) /* 2*/
++#define		PHYDM_BCD	 (BIT1 | BIT2 | BIT3) /* 3*/
++
++#define		PHYDM_ABCD	 (BIT0 | BIT1 | BIT2 | BIT3)
++
++
++typedef enum dtp_state
++{
++	PHYDM_DTP_INIT=1,
++	PHYDM_DTP_RUNNING_1
++
++}PHYDM_DTP_STATE;
++
++typedef enum path_div_type
++{
++	PHYDM_2R_PATH_DIV = 1,
++	PHYDM_4R_PATH_DIV = 2
++}PHYDM_PATH_DIV_TYPE;
++
++VOID
++phydm_process_rssi_for_path_div(	
++	IN OUT		PVOID			pDM_VOID,	
++	IN			PVOID			p_phy_info_void,
++	IN			PVOID			p_pkt_info_void
++	);
++
++typedef struct _ODM_PATH_DIVERSITY_
++{
++	u1Byte	RespTxPath;
++	u1Byte	PathSel[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	PathA_Sum[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	PathB_Sum[ODM_ASSOCIATE_ENTRY_NUM];
++	u2Byte	PathA_Cnt[ODM_ASSOCIATE_ENTRY_NUM];
++	u2Byte	PathB_Cnt[ODM_ASSOCIATE_ENTRY_NUM];
++	u1Byte	path_div_type;
++  #if RTL8814A_SUPPORT
++	
++	u4Byte	path_a_sum_all;
++	u4Byte	path_b_sum_all;
++	u4Byte	path_c_sum_all;
++	u4Byte	path_d_sum_all;
++
++	u4Byte	path_a_cnt_all;
++	u4Byte	path_b_cnt_all;
++	u4Byte	path_c_cnt_all;
++	u4Byte	path_d_cnt_all;
++	
++	u1Byte	dtp_period;
++	BOOLEAN	bBecomeLinked;
++	BOOLEAN	is_u3_mode;
++	u1Byte	num_tx_path;
++	u1Byte	default_path;
++	u1Byte	num_candidate;
++	u1Byte	ant_candidate_1;
++	u1Byte	ant_candidate_2;
++	u1Byte	ant_candidate_3;
++	u1Byte     dtp_state;
++	u1Byte	dtp_check_patha_counter;
++	BOOLEAN	fix_path_bfer;
++	u1Byte	search_space_2[NUM_CHOOSE2_FROM4];
++	u1Byte	search_space_3[NUM_CHOOSE3_FROM4];
++	
++	u1Byte	pre_tx_path;
++	u1Byte	use_path_a_as_default_ant;
++	BOOLEAN is_pathA_exist;
++
++  #endif
++}PATHDIV_T, *pPATHDIV_T;
++
++
++#endif //#if(defined(CONFIG_PATH_DIVERSITY))
++
++VOID
++phydm_c2h_dtp_handler(
++	 IN	PVOID	pDM_VOID,
++	 IN 	pu1Byte   CmdBuf,
++	 IN 	u1Byte	CmdLen
++	);
++
++VOID
++odm_PathDiversityInit(
++	IN	PVOID	pDM_VOID
++	);
++
++VOID
++odm_PathDiversity(
++	IN	PVOID	pDM_VOID
++	);
++
++VOID
++odm_pathdiv_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char		*output,
++	IN		u4Byte		*_out_len
++	);
++
++
++
++//1 [OLD IC]--------------------------------------------------------------------------------
++
++
++
++
++
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_WIN)) 
++
++//#define   PATHDIV_ENABLE 	 1
++#define dm_PathDiv_RSSI_Check	ODM_PathDivChkPerPktRssi
++#define PathDivCheckBeforeLink8192C	ODM_PathDiversityBeforeLink92C
++
++
++
++
++typedef struct _PathDiv_Parameter_define_
++{
++	u4Byte org_5g_RegE30;
++	u4Byte org_5g_RegC14;
++	u4Byte org_5g_RegCA0;
++	u4Byte swt_5g_RegE30;
++	u4Byte swt_5g_RegC14;
++	u4Byte swt_5g_RegCA0;
++	//for 2G IQK information
++	u4Byte org_2g_RegC80;
++	u4Byte org_2g_RegC4C;
++	u4Byte org_2g_RegC94;
++	u4Byte org_2g_RegC14;
++	u4Byte org_2g_RegCA0;
++
++	u4Byte swt_2g_RegC80;
++	u4Byte swt_2g_RegC4C;
++	u4Byte swt_2g_RegC94;
++	u4Byte swt_2g_RegC14;
++	u4Byte swt_2g_RegCA0;
++}PATHDIV_PARA,*pPATHDIV_PARA;
++
++VOID	
++odm_PathDiversityInit_92C(
++	IN	PADAPTER	Adapter
++	);
++
++VOID	
++odm_2TPathDiversityInit_92C(
++	IN	PADAPTER	Adapter
++	);
++
++VOID	
++odm_1TPathDiversityInit_92C(	
++	IN	PADAPTER	Adapter
++	);
++
++BOOLEAN
++odm_IsConnected_92C(
++	IN	PADAPTER	Adapter
++	);
++
++BOOLEAN 
++ODM_PathDiversityBeforeLink92C(
++	//IN	PADAPTER	Adapter
++	IN		PDM_ODM_T		pDM_Odm
++	);
++
++VOID	
++odm_PathDiversityAfterLink_92C(
++	IN	PADAPTER	Adapter
++	);
++
++VOID
++odm_SetRespPath_92C(	
++	IN	PADAPTER	Adapter, 	
++	IN	u1Byte	DefaultRespPath
++	);
++
++VOID	
++odm_OFDMTXPathDiversity_92C(
++	IN	PADAPTER	Adapter
++	);
++
++VOID	
++odm_CCKTXPathDiversity_92C(	
++	IN	PADAPTER	Adapter
++	);
++
++VOID	
++odm_ResetPathDiversity_92C(	
++	IN	PADAPTER	Adapter
++	);
++
++VOID
++odm_CCKTXPathDiversityCallback(
++	PRT_TIMER		pTimer
++	);
++
++VOID
++odm_CCKTXPathDiversityWorkItemCallback(
++	IN PVOID            pContext
++	);
++
++VOID
++odm_PathDivChkAntSwitchCallback(
++	PRT_TIMER		pTimer
++	);
++
++VOID
++odm_PathDivChkAntSwitchWorkitemCallback(
++	IN PVOID            pContext
++	);
++
++
++VOID 
++odm_PathDivChkAntSwitch(
++	PDM_ODM_T    pDM_Odm
++	);
++
++VOID
++ODM_CCKPathDiversityChkPerPktRssi(
++	PADAPTER		Adapter,
++	BOOLEAN			bIsDefPort,
++	BOOLEAN			bMatchBSSID,
++	PRT_WLAN_STA	pEntry,
++	PRT_RFD			pRfd,
++	pu1Byte			pDesc
++	);
++
++VOID 
++ODM_PathDivChkPerPktRssi(
++	PADAPTER		Adapter,
++	BOOLEAN			bIsDefPort,
++	BOOLEAN			bMatchBSSID,
++	PRT_WLAN_STA	pEntry,
++	PRT_RFD			pRfd	
++	);
++
++VOID
++ODM_PathDivRestAfterLink(
++	IN	PDM_ODM_T		pDM_Odm
++	);
++
++VOID
++ODM_FillTXPathInTXDESC(
++		IN	PADAPTER	Adapter,
++		IN	PRT_TCB		pTcb,
++		IN	pu1Byte		pDesc
++	);
++
++VOID
++odm_PathDivInit_92D(
++	IN	PDM_ODM_T 	pDM_Odm
++	);
++
++u1Byte
++odm_SwAntDivSelectScanChnl(
++	IN	PADAPTER	Adapter
++	);
++
++VOID
++odm_SwAntDivConstructScanChnl(
++	IN	PADAPTER	Adapter,
++	IN	u1Byte		ScanChnl
++	);
++	
++ #endif       //#if(DM_ODM_SUPPORT_TYPE & (ODM_WIN)) 
++ 
++ 
++ #endif		 //#ifndef  __ODMPATHDIV_H__
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_powertracking_ap.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_powertracking_ap.c
+new file mode 100644
+index 0000000..b5a4a30
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_powertracking_ap.c
+@@ -0,0 +1,1216 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#if !defined(_OUTSRC_COEXIST)
++//============================================================
++// Global var
++//============================================================
++
++
++u4Byte OFDMSwingTable_New[OFDM_TABLE_SIZE_92D] = {
++	0x0b40002d, // 0,  -15.0dB	
++	0x0c000030, // 1,  -14.5dB
++	0x0cc00033, // 2,  -14.0dB
++	0x0d800036, // 3,  -13.5dB
++	0x0e400039, // 4,  -13.0dB    
++	0x0f00003c, // 5,  -12.5dB
++	0x10000040, // 6,  -12.0dB
++	0x11000044, // 7,  -11.5dB
++	0x12000048, // 8,  -11.0dB
++	0x1300004c, // 9,  -10.5dB
++	0x14400051, // 10, -10.0dB
++	0x15800056, // 11, -9.5dB
++	0x16c0005b, // 12, -9.0dB
++	0x18000060, // 13, -8.5dB
++	0x19800066, // 14, -8.0dB
++	0x1b00006c, // 15, -7.5dB
++	0x1c800072, // 16, -7.0dB
++	0x1e400079, // 17, -6.5dB
++	0x20000080, // 18, -6.0dB
++	0x22000088, // 19, -5.5dB
++	0x24000090, // 20, -5.0dB
++	0x26000098, // 21, -4.5dB
++	0x288000a2, // 22, -4.0dB
++	0x2ac000ab, // 23, -3.5dB
++	0x2d4000b5, // 24, -3.0dB
++	0x300000c0, // 25, -2.5dB
++	0x32c000cb, // 26, -2.0dB
++	0x35c000d7, // 27, -1.5dB
++	0x390000e4, // 28, -1.0dB
++	0x3c8000f2, // 29, -0.5dB
++	0x40000100, // 30, +0dB
++	0x43c0010f, // 31, +0.5dB
++	0x47c0011f, // 32, +1.0dB
++	0x4c000130, // 33, +1.5dB
++	0x50800142, // 34, +2.0dB
++	0x55400155, // 35, +2.5dB
++	0x5a400169, // 36, +3.0dB
++	0x5fc0017f, // 37, +3.5dB
++	0x65400195, // 38, +4.0dB
++	0x6b8001ae, // 39, +4.5dB
++	0x71c001c7, // 40, +5.0dB
++	0x788001e2, // 41, +5.5dB
++	0x7f8001fe  // 42, +6.0dB
++};               
++
++u1Byte CCKSwingTable_Ch1_Ch13_New[CCK_TABLE_SIZE][8] = {
++	{0x09, 0x08, 0x07, 0x06, 0x04, 0x03, 0x01, 0x01},	//  0, -16.0dB
++	{0x09, 0x09, 0x08, 0x06, 0x05, 0x03, 0x01, 0x01},	//  1, -15.5dB
++	{0x0a, 0x09, 0x08, 0x07, 0x05, 0x03, 0x02, 0x01},	//  2, -15.0dB
++	{0x0a, 0x0a, 0x09, 0x07, 0x05, 0x03, 0x02, 0x01},	//  3, -14.5dB
++	{0x0b, 0x0a, 0x09, 0x08, 0x06, 0x04, 0x02, 0x01},	//  4, -14.0dB
++	{0x0b, 0x0b, 0x0a, 0x08, 0x06, 0x04, 0x02, 0x01},	//  5, -13.5dB
++	{0x0c, 0x0c, 0x0a, 0x09, 0x06, 0x04, 0x02, 0x01},	//  6, -13.0dB
++	{0x0d, 0x0c, 0x0b, 0x09, 0x07, 0x04, 0x02, 0x01},	//  7, -12.5dB
++	{0x0d, 0x0d, 0x0c, 0x0a, 0x07, 0x05, 0x02, 0x01},	//  8, -12.0dB
++	{0x0e, 0x0e, 0x0c, 0x0a, 0x08, 0x05, 0x02, 0x01},	//  9, -11.5dB
++	{0x0f, 0x0f, 0x0d, 0x0b, 0x08, 0x05, 0x03, 0x01},	// 10, -11.0dB
++	{0x10, 0x10, 0x0e, 0x0b, 0x08, 0x05, 0x03, 0x01},	// 11, -10.5dB
++	{0x11, 0x11, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	// 12, -10.0dB
++	{0x12, 0x12, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	// 13, -9.5dB
++	{0x13, 0x13, 0x10, 0x0d, 0x0a, 0x06, 0x03, 0x01},	// 14, -9.0dB 
++	{0x14, 0x14, 0x11, 0x0e, 0x0b, 0x07, 0x03, 0x02},	// 15, -8.5dB
++	{0x16, 0x15, 0x12, 0x0f, 0x0b, 0x07, 0x04, 0x01},	// 16, -8.0dB 
++	{0x17, 0x16, 0x13, 0x10, 0x0c, 0x08, 0x04, 0x02},	// 17, -7.5dB
++	{0x18, 0x17, 0x15, 0x11, 0x0c, 0x08, 0x04, 0x02},	// 18, -7.0dB 
++	{0x1a, 0x19, 0x16, 0x12, 0x0d, 0x09, 0x04, 0x02},	// 19, -6.5dB
++    	{0x1c, 0x1a, 0x18, 0x12, 0x0e, 0x08, 0x04, 0x02},	// 20, -6.0dB 
++	{0x1d, 0x1c, 0x18, 0x14, 0x0f, 0x0a, 0x05, 0x02},	// 21, -5.5dB
++	{0x1f, 0x1e, 0x1a, 0x15, 0x10, 0x0a, 0x05, 0x02},	// 22, -5.0dB 
++	{0x20, 0x20, 0x1b, 0x16, 0x11, 0x08, 0x05, 0x02},	// 23, -4.5dB
++	{0x22, 0x21, 0x1d, 0x18, 0x11, 0x0b, 0x06, 0x02},	// 24, -4.0dB 
++	{0x24, 0x23, 0x1f, 0x19, 0x13, 0x0c, 0x06, 0x03},	// 25, -3.5dB
++	{0x26, 0x25, 0x21, 0x1b, 0x14, 0x0d, 0x06, 0x03},	// 26, -3.0dB
++	{0x28, 0x28, 0x22, 0x1c, 0x15, 0x0d, 0x07, 0x03},	// 27, -2.5dB
++	{0x2b, 0x2a, 0x25, 0x1e, 0x16, 0x0e, 0x07, 0x03},	// 28, -2.0dB 
++	{0x2d, 0x2d, 0x27, 0x1f, 0x18, 0x0f, 0x08, 0x03},	// 29, -1.5dB
++	{0x30, 0x2f, 0x29, 0x21, 0x19, 0x10, 0x08, 0x03},	// 30, -1.0dB
++	{0x33, 0x32, 0x2b, 0x23, 0x1a, 0x11, 0x08, 0x04},	// 31, -0.5dB
++	{0x36, 0x35, 0x2e, 0x25, 0x1c, 0x12, 0x09, 0x04} 	// 32, +0dB
++};                                                                  
++
++
++u1Byte CCKSwingTable_Ch14_New[CCK_TABLE_SIZE][8]= {
++	{0x09, 0x08, 0x07, 0x04, 0x00, 0x00, 0x00, 0x00},	//  0, -16.0dB
++	{0x09, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	//  1, -15.5dB
++	{0x0a, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	//  2, -15.0dB
++	{0x0a, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	//  3, -14.5dB
++	{0x0b, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	//  4, -14.0dB
++	{0x0b, 0x0b, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	//  5, -13.5dB
++	{0x0c, 0x0c, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	//  6, -13.0dB
++	{0x0d, 0x0c, 0x0b, 0x06, 0x00, 0x00, 0x00, 0x00},	//  7, -12.5dB
++	{0x0d, 0x0d, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	//  8, -12.0dB
++	{0x0e, 0x0e, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	//  9, -11.5dB
++	{0x0f, 0x0f, 0x0d, 0x08, 0x00, 0x00, 0x00, 0x00},	// 10, -11.0dB
++	{0x10, 0x10, 0x0e, 0x08, 0x00, 0x00, 0x00, 0x00},	// 11, -10.5dB
++	{0x11, 0x11, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	// 12, -10.0dB
++	{0x12, 0x12, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	// 13, -9.5dB
++	{0x13, 0x13, 0x10, 0x0a, 0x00, 0x00, 0x00, 0x00},	// 14, -9.0dB  
++	{0x14, 0x14, 0x11, 0x0a, 0x00, 0x00, 0x00, 0x00},	// 15, -8.5dB
++	{0x16, 0x15, 0x12, 0x0b, 0x00, 0x00, 0x00, 0x00},	// 16, -8.0dB  
++	{0x17, 0x16, 0x13, 0x0b, 0x00, 0x00, 0x00, 0x00},	// 17, -7.5dB
++	{0x18, 0x17, 0x15, 0x0c, 0x00, 0x00, 0x00, 0x00},	// 18, -7.0dB  
++	{0x1a, 0x19, 0x16, 0x0d, 0x00, 0x00, 0x00, 0x00},	// 19, -6.5dB 
++	{0x1c, 0x1a, 0x18, 0x0e, 0x00, 0x00, 0x00, 0x00},	// 20, -6.0dB  
++	{0x1d, 0x1c, 0x18, 0x0e, 0x00, 0x00, 0x00, 0x00},	// 21, -5.5dB
++	{0x1f, 0x1e, 0x1a, 0x0f, 0x00, 0x00, 0x00, 0x00},	// 22, -5.0dB  
++	{0x20, 0x20, 0x1b, 0x10, 0x00, 0x00, 0x00, 0x00},	// 23, -4.5dB
++	{0x22, 0x21, 0x1d, 0x11, 0x00, 0x00, 0x00, 0x00},	// 24, -4.0dB  
++	{0x24, 0x23, 0x1f, 0x12, 0x00, 0x00, 0x00, 0x00},	// 25, -3.5dB  
++	{0x26, 0x25, 0x21, 0x13, 0x00, 0x00, 0x00, 0x00},	// 26, -3.0dB  
++	{0x28, 0x28, 0x24, 0x14, 0x00, 0x00, 0x00, 0x00},	// 27, -2.5dB
++	{0x2b, 0x2a, 0x25, 0x15, 0x00, 0x00, 0x00, 0x00},	// 28, -2.0dB  
++	{0x2d, 0x2d, 0x17, 0x17, 0x00, 0x00, 0x00, 0x00},	// 29, -1.5dB
++	{0x30, 0x2f, 0x29, 0x18, 0x00, 0x00, 0x00, 0x00},	// 30, -1.0dB  
++	{0x33, 0x32, 0x2b, 0x19, 0x00, 0x00, 0x00, 0x00},	// 31, -0.5dB 
++	{0x36, 0x35, 0x2e, 0x1b, 0x00, 0x00, 0x00, 0x00} 	// 32, +0dB	
++};
++
++u4Byte OFDMSwingTable[OFDM_TABLE_SIZE_92D] = {
++	0x0b40002d, // 0,  -15.0dB	
++	0x0c000030, // 1,  -14.5dB
++	0x0cc00033, // 2,  -14.0dB
++	0x0d800036, // 3,  -13.5dB
++	0x0e400039, // 4,  -13.0dB    
++	0x0f00003c, // 5,  -12.5dB
++	0x10000040, // 6,  -12.0dB
++	0x11000044, // 7,  -11.5dB
++	0x12000048, // 8,  -11.0dB
++	0x1300004c, // 9,  -10.5dB
++	0x14400051, // 10, -10.0dB
++	0x15800056, // 11, -9.5dB
++	0x16c0005b, // 12, -9.0dB
++	0x18000060, // 13, -8.5dB
++	0x19800066, // 14, -8.0dB
++	0x1b00006c, // 15, -7.5dB
++	0x1c800072, // 16, -7.0dB
++	0x1e400079, // 17, -6.5dB
++	0x20000080, // 18, -6.0dB
++	0x22000088, // 19, -5.5dB
++	0x24000090, // 20, -5.0dB
++	0x26000098, // 21, -4.5dB
++	0x288000a2, // 22, -4.0dB
++	0x2ac000ab, // 23, -3.5dB
++	0x2d4000b5, // 24, -3.0dB
++	0x300000c0, // 25, -2.5dB
++	0x32c000cb, // 26, -2.0dB
++	0x35c000d7, // 27, -1.5dB
++	0x390000e4, // 28, -1.0dB
++	0x3c8000f2, // 29, -0.5dB
++	0x40000100, // 30, +0dB
++	0x43c0010f, // 31, +0.5dB
++	0x47c0011f, // 32, +1.0dB
++	0x4c000130, // 33, +1.5dB
++	0x50800142, // 34, +2.0dB
++	0x55400155, // 35, +2.5dB
++	0x5a400169, // 36, +3.0dB
++	0x5fc0017f, // 37, +3.5dB
++	0x65400195, // 38, +4.0dB
++	0x6b8001ae, // 39, +4.5dB
++	0x71c001c7, // 40, +5.0dB
++	0x788001e2, // 41, +5.5dB
++	0x7f8001fe  // 42, +6.0dB
++};               
++
++
++u1Byte CCKSwingTable_Ch1_Ch13[CCK_TABLE_SIZE][8] = {
++	{0x09, 0x08, 0x07, 0x06, 0x04, 0x03, 0x01, 0x01},	//  0, -16.0dB
++	{0x09, 0x09, 0x08, 0x06, 0x05, 0x03, 0x01, 0x01},	//  1, -15.5dB
++	{0x0a, 0x09, 0x08, 0x07, 0x05, 0x03, 0x02, 0x01},	//  2, -15.0dB
++	{0x0a, 0x0a, 0x09, 0x07, 0x05, 0x03, 0x02, 0x01},	//  3, -14.5dB
++	{0x0b, 0x0a, 0x09, 0x08, 0x06, 0x04, 0x02, 0x01},	//  4, -14.0dB
++	{0x0b, 0x0b, 0x0a, 0x08, 0x06, 0x04, 0x02, 0x01},	//  5, -13.5dB
++	{0x0c, 0x0c, 0x0a, 0x09, 0x06, 0x04, 0x02, 0x01},	//  6, -13.0dB
++	{0x0d, 0x0c, 0x0b, 0x09, 0x07, 0x04, 0x02, 0x01},	//  7, -12.5dB
++	{0x0d, 0x0d, 0x0c, 0x0a, 0x07, 0x05, 0x02, 0x01},	//  8, -12.0dB
++	{0x0e, 0x0e, 0x0c, 0x0a, 0x08, 0x05, 0x02, 0x01},	//  9, -11.5dB
++	{0x0f, 0x0f, 0x0d, 0x0b, 0x08, 0x05, 0x03, 0x01},	// 10, -11.0dB
++	{0x10, 0x10, 0x0e, 0x0b, 0x08, 0x05, 0x03, 0x01},	// 11, -10.5dB
++	{0x11, 0x11, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	// 12, -10.0dB
++	{0x12, 0x12, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	// 13, -9.5dB
++	{0x13, 0x13, 0x10, 0x0d, 0x0a, 0x06, 0x03, 0x01},	// 14, -9.0dB 
++	{0x14, 0x14, 0x11, 0x0e, 0x0b, 0x07, 0x03, 0x02},	// 15, -8.5dB
++	{0x16, 0x15, 0x12, 0x0f, 0x0b, 0x07, 0x04, 0x01},	// 16, -8.0dB 
++	{0x17, 0x16, 0x13, 0x10, 0x0c, 0x08, 0x04, 0x02},	// 17, -7.5dB
++	{0x18, 0x17, 0x15, 0x11, 0x0c, 0x08, 0x04, 0x02},	// 18, -7.0dB 
++	{0x1a, 0x19, 0x16, 0x12, 0x0d, 0x09, 0x04, 0x02},	// 19, -6.5dB
++    	{0x1c, 0x1a, 0x18, 0x12, 0x0e, 0x08, 0x04, 0x02},	// 20, -6.0dB 
++	{0x1d, 0x1c, 0x18, 0x14, 0x0f, 0x0a, 0x05, 0x02},	// 21, -5.5dB
++	{0x1f, 0x1e, 0x1a, 0x15, 0x10, 0x0a, 0x05, 0x02},	// 22, -5.0dB 
++	{0x20, 0x20, 0x1b, 0x16, 0x11, 0x08, 0x05, 0x02},	// 23, -4.5dB
++	{0x22, 0x21, 0x1d, 0x18, 0x11, 0x0b, 0x06, 0x02},	// 24, -4.0dB 
++	{0x24, 0x23, 0x1f, 0x19, 0x13, 0x0c, 0x06, 0x03},	// 25, -3.5dB
++	{0x26, 0x25, 0x21, 0x1b, 0x14, 0x0d, 0x06, 0x03},	// 26, -3.0dB
++	{0x28, 0x28, 0x22, 0x1c, 0x15, 0x0d, 0x07, 0x03},	// 27, -2.5dB
++	{0x2b, 0x2a, 0x25, 0x1e, 0x16, 0x0e, 0x07, 0x03},	// 28, -2.0dB 
++	{0x2d, 0x2d, 0x27, 0x1f, 0x18, 0x0f, 0x08, 0x03},	// 29, -1.5dB
++	{0x30, 0x2f, 0x29, 0x21, 0x19, 0x10, 0x08, 0x03},	// 30, -1.0dB
++	{0x33, 0x32, 0x2b, 0x23, 0x1a, 0x11, 0x08, 0x04},	// 31, -0.5dB
++	{0x36, 0x35, 0x2e, 0x25, 0x1c, 0x12, 0x09, 0x04} 	// 32, +0dB
++};                                                                  
++
++
++u1Byte CCKSwingTable_Ch14 [CCK_TABLE_SIZE][8]= {
++	{0x09, 0x08, 0x07, 0x04, 0x00, 0x00, 0x00, 0x00},	//  0, -16.0dB
++	{0x09, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	//  1, -15.5dB
++	{0x0a, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	//  2, -15.0dB
++	{0x0a, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	//  3, -14.5dB
++	{0x0b, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	//  4, -14.0dB
++	{0x0b, 0x0b, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	//  5, -13.5dB
++	{0x0c, 0x0c, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	//  6, -13.0dB
++	{0x0d, 0x0c, 0x0b, 0x06, 0x00, 0x00, 0x00, 0x00},	//  7, -12.5dB
++	{0x0d, 0x0d, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	//  8, -12.0dB
++	{0x0e, 0x0e, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	//  9, -11.5dB
++	{0x0f, 0x0f, 0x0d, 0x08, 0x00, 0x00, 0x00, 0x00},	// 10, -11.0dB
++	{0x10, 0x10, 0x0e, 0x08, 0x00, 0x00, 0x00, 0x00},	// 11, -10.5dB
++	{0x11, 0x11, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	// 12, -10.0dB
++	{0x12, 0x12, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	// 13, -9.5dB
++	{0x13, 0x13, 0x10, 0x0a, 0x00, 0x00, 0x00, 0x00},	// 14, -9.0dB  
++	{0x14, 0x14, 0x11, 0x0a, 0x00, 0x00, 0x00, 0x00},	// 15, -8.5dB
++	{0x16, 0x15, 0x12, 0x0b, 0x00, 0x00, 0x00, 0x00},	// 16, -8.0dB  
++	{0x17, 0x16, 0x13, 0x0b, 0x00, 0x00, 0x00, 0x00},	// 17, -7.5dB
++	{0x18, 0x17, 0x15, 0x0c, 0x00, 0x00, 0x00, 0x00},	// 18, -7.0dB  
++	{0x1a, 0x19, 0x16, 0x0d, 0x00, 0x00, 0x00, 0x00},	// 19, -6.5dB 
++	{0x1c, 0x1a, 0x18, 0x0e, 0x00, 0x00, 0x00, 0x00},	// 20, -6.0dB  
++	{0x1d, 0x1c, 0x18, 0x0e, 0x00, 0x00, 0x00, 0x00},	// 21, -5.5dB
++	{0x1f, 0x1e, 0x1a, 0x0f, 0x00, 0x00, 0x00, 0x00},	// 22, -5.0dB  
++	{0x20, 0x20, 0x1b, 0x10, 0x00, 0x00, 0x00, 0x00},	// 23, -4.5dB
++	{0x22, 0x21, 0x1d, 0x11, 0x00, 0x00, 0x00, 0x00},	// 24, -4.0dB  
++	{0x24, 0x23, 0x1f, 0x12, 0x00, 0x00, 0x00, 0x00},	// 25, -3.5dB  
++	{0x26, 0x25, 0x21, 0x13, 0x00, 0x00, 0x00, 0x00},	// 26, -3.0dB  
++	{0x28, 0x28, 0x24, 0x14, 0x00, 0x00, 0x00, 0x00},	// 27, -2.5dB
++	{0x2b, 0x2a, 0x25, 0x15, 0x00, 0x00, 0x00, 0x00},	// 28, -2.0dB  
++	{0x2d, 0x2d, 0x17, 0x17, 0x00, 0x00, 0x00, 0x00},	// 29, -1.5dB
++	{0x30, 0x2f, 0x29, 0x18, 0x00, 0x00, 0x00, 0x00},	// 30, -1.0dB  
++	{0x33, 0x32, 0x2b, 0x19, 0x00, 0x00, 0x00, 0x00},	// 31, -0.5dB 
++	{0x36, 0x35, 0x2e, 0x1b, 0x00, 0x00, 0x00, 0x00} 	// 32, +0dB	
++};
++
++u1Byte CCKSwingTable_Ch1_Ch14_88F[CCK_TABLE_SIZE_88F][16] = {
++{0x16, 0x15, 0x13, 0x10, 0xD, 0x9, 0x6, 0x3, 0x2, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 0  -16dB */
++{0x18, 0x17, 0x15, 0x12, 0xE, 0xA, 0x7, 0x4, 0x2, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 1  -15.5dB */
++{0x1B, 0x1A, 0x18, 0x14, 0x10, 0xB, 0x7, 0x4, 0x2, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 2  -15dB */
++{0x1F, 0x1E, 0x1B, 0x17, 0x12, 0xD, 0x8, 0x5, 0x2, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 3  -14.5dB */
++{0x22, 0x21, 0x1E, 0x19, 0x14, 0xE, 0x9, 0x5, 0x3, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 4  -14dB */
++{0x26, 0x25, 0x22, 0x1C, 0x16, 0x10, 0xA, 0x6, 0x3, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 5  -13.5dB */
++{0x2B, 0x2A, 0x26, 0x20, 0x19, 0x12, 0xC, 0x7, 0x3, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 6  -13dB */
++{0x30, 0x2F, 0x2A, 0x24, 0x1C, 0x14, 0xD, 0x8, 0x4, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 7  -12.5dB */
++{0x36, 0x34, 0x2F, 0x28, 0x1F, 0x17, 0xF, 0x9, 0x4, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 8  -12dB */
++{0x3D, 0x3B, 0x35, 0x2D, 0x23, 0x19, 0x11, 0xA, 0x5, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 9  -11.5dB */
++{0x44, 0x42, 0x3C, 0x33, 0x28, 0x1C, 0x13, 0xB, 0x5, 0x2, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 10  -11dB */
++{0x4D, 0x4A, 0x43, 0x39, 0x2C, 0x20, 0x15, 0xC, 0x6, 0x2, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 11  -10.5dB */
++{0x56, 0x53, 0x4B, 0x40, 0x32, 0x24, 0x17, 0xE, 0x6, 0x2, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 12  -10dB */
++{0x60, 0x5D, 0x54, 0x47, 0x38, 0x28, 0x1A, 0xF, 0x7, 0x2, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 13  -9.5dB */
++{0x6C, 0x69, 0x5F, 0x50, 0x3F, 0x2D, 0x1E, 0x11, 0x8, 0x3, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 14  -9dB */
++{0x79, 0x76, 0x6A, 0x5A, 0x46, 0x33, 0x21, 0x13, 0x9, 0x3, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 15  -8.5dB */
++{0x88, 0x84, 0x77, 0x65, 0x4F, 0x39, 0x25, 0x15, 0xA, 0x3, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 16  -8dB */
++{0x99, 0x94, 0x86, 0x71, 0x58, 0x40, 0x2A, 0x18, 0xB, 0x4, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 17  -7.5dB */
++{0xAC, 0xA6, 0x96, 0x7F, 0x63, 0x47, 0x2F, 0x1B, 0xD, 0x4, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 18  -7dB */
++{0xC1, 0xBA, 0xA8, 0x8F, 0x6F, 0x50, 0x35, 0x1E, 0xE, 0x4, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 19  -6.5dB */
++{0xD8, 0xD1, 0xBD, 0xA0, 0x7D, 0x5A, 0x3B, 0x22, 0x10, 0x5, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0}      /* 20  -6dB */
++};
++
++
++u1Byte CCKSwingTable_Ch1_Ch13_88F[CCK_TABLE_SIZE_88F][16] = {
++{0x16, 0x15, 0x13, 0x10, 0xD, 0x9, 0x6, 0x3, 0x2, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 0  -16dB */
++{0x18, 0x17, 0x15, 0x12, 0xE, 0xA, 0x7, 0x4, 0x2, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 1  -15.5dB */
++{0x1B, 0x1A, 0x18, 0x14, 0x10, 0xB, 0x7, 0x4, 0x2, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 2  -15dB */
++{0x1F, 0x1E, 0x1B, 0x17, 0x12, 0xD, 0x8, 0x5, 0x2, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 3  -14.5dB */
++{0x22, 0x21, 0x1E, 0x19, 0x14, 0xE, 0x9, 0x5, 0x3, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 4  -14dB */
++{0x26, 0x25, 0x22, 0x1C, 0x16, 0x10, 0xA, 0x6, 0x3, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 5  -13.5dB */
++{0x2B, 0x2A, 0x26, 0x20, 0x19, 0x12, 0xC, 0x7, 0x3, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 6  -13dB */
++{0x30, 0x2F, 0x2A, 0x24, 0x1C, 0x14, 0xD, 0x8, 0x4, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 7  -12.5dB */
++{0x36, 0x34, 0x2F, 0x28, 0x1F, 0x17, 0xF, 0x9, 0x4, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 8  -12dB */
++{0x3D, 0x3B, 0x35, 0x2D, 0x23, 0x19, 0x11, 0xA, 0x5, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 9  -11.5dB */
++{0x44, 0x42, 0x3C, 0x33, 0x28, 0x1C, 0x13, 0xB, 0x5, 0x2, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 10  -11dB */
++{0x4D, 0x4A, 0x43, 0x39, 0x2C, 0x20, 0x15, 0xC, 0x6, 0x2, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 11  -10.5dB */
++{0x56, 0x53, 0x4B, 0x40, 0x32, 0x24, 0x17, 0xE, 0x6, 0x2, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 12  -10dB */
++{0x60, 0x5D, 0x54, 0x47, 0x38, 0x28, 0x1A, 0xF, 0x7, 0x2, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 13  -9.5dB */
++{0x6C, 0x69, 0x5F, 0x50, 0x3F, 0x2D, 0x1E, 0x11, 0x8, 0x3, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 14  -9dB */
++{0x79, 0x76, 0x6A, 0x5A, 0x46, 0x33, 0x21, 0x13, 0x9, 0x3, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 15  -8.5dB */
++{0x88, 0x84, 0x77, 0x65, 0x4F, 0x39, 0x25, 0x15, 0xA, 0x3, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 16  -8dB */
++{0x99, 0x94, 0x86, 0x71, 0x58, 0x40, 0x2A, 0x18, 0xB, 0x4, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 17  -7.5dB */
++{0xAC, 0xA6, 0x96, 0x7F, 0x63, 0x47, 0x2F, 0x1B, 0xD, 0x4, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 18  -7dB */
++{0xC1, 0xBA, 0xA8, 0x8F, 0x6F, 0x50, 0x35, 0x1E, 0xE, 0x4, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 19  -6.5dB */
++{0xD8, 0xD1, 0xBD, 0xA0, 0x7D, 0x5A, 0x3B, 0x22, 0x10, 0x5, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0}      /* 20  -6dB */
++};
++
++
++u1Byte CCKSwingTable_Ch14_88F[CCK_TABLE_SIZE_88F][16] = {
++{0x44,	 0x42, 0x3C, 0x28, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-16dB*/
++{0x48, 0x46, 0x3F, 0x2A, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15.5dB*/
++{0x4D, 0x4A, 0x43, 0x2C, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15dB*/
++{0x51, 0x4F, 0x47, 0x2F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},	    /*-14.5dB*/
++{0x56, 0x53, 0x4B, 0x32, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14dB*/
++{0x5B, 0x58, 0x50, 0x35, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13.5dB*/
++{0x60, 0x5D, 0x54, 0x38, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13dB*/
++{0x66, 0x63, 0x59, 0x3B, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12.5dB*/
++{0x6C, 0x69, 0x5F, 0x3F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12dB*/
++{0x73, 0x6F, 0x64, 0x42, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11.5dB*/
++{0x79, 0x76, 0x6A, 0x46, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11dB*/
++{0x81, 0x7C, 0x71, 0x4A, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10.5dB*/
++{0x88, 0x84, 0x77, 0x4F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10dB*/
++{0x90, 0x8C, 0x7E, 0x54, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9.5dB*/
++{0x99, 0x94, 0x86, 0x58, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9dB*/
++{0xA2, 0x9D, 0x8E, 0x5E, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8.5dB*/
++{0xAC, 0xA6, 0x96, 0x63, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8dB*/
++{0xB6, 0xB0, 0x9F, 0x69, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7.5dB*/
++{0xC1, 0xBA, 0xA8, 0x6F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7dB*/
++{0xCC, 0xC5, 0xB2, 0x76, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-6.5dB*/
++{0xD8, 0xD1, 0xBD, 0x7D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}     /*-6dB*/
++};
++
++
++
++#if 0
++u4Byte OFDMSwingTable_92E[OFDM_TABLE_SIZE_92E] = {
++	/* Index0   6  dB */ 0x7fc001ff,
++	/* Index1   5.7dB */ 0x7b4001ed,
++	/* Index2   5.4dB */ 0x774001dd,
++	/* Index3   5.1dB */ 0x734001cd,
++	/* Index4   4.8dB */ 0x6f4001bd,
++	/* Index5   4.5dB */ 0x6b8001ae,
++	/* Index6   4.2dB */ 0x67c0019f,
++	/* Index7   3.9dB */ 0x64400191,
++	/* Index8   3.6dB */ 0x60c00183,
++	/* Index9   3.3dB */ 0x5d800176,
++	/* Index10  3  dB */ 0x5a80016a,
++	/* Index11  2.7dB */ 0x5740015d,
++	/* Index12  2.4dB */ 0x54400151,
++	/* Index13  2.1dB */ 0x51800146,
++	/* Index14  1.8dB */ 0x4ec0013b,
++	/* Index15  1.5dB */ 0x4c000130,
++	/* Index16  1.2dB */ 0x49800126,
++	/* Index17  0.9dB */ 0x4700011c,
++	/* Index18  0.6dB */ 0x44800112,
++	/* Index19  0.3dB */ 0x42000108,
++	/* Index20  0  dB */ 0x40000100, // 20 This is OFDM base index
++	/* Index21 -0.3dB */ 0x3dc000f7,
++	/* Index22 -0.6dB */ 0x3bc000ef,
++	/* Index23 -0.9dB */ 0x39c000e7,
++	/* Index24 -1.2dB */ 0x37c000df,
++	/* Index25 -1.5dB */ 0x35c000d7,
++	/* Index26 -1.8dB */ 0x340000d0,
++	/* Index27 -2.1dB */ 0x324000c9,
++	/* Index28 -2.4dB */ 0x308000c2,
++	/* Index29 -2.7dB */ 0x2f0000bc,
++	/* Index30 -3  dB */ 0x2d4000b5,
++	/* Index31 -3.3dB */ 0x2bc000af,
++	/* Index32 -3.6dB */ 0x2a4000a9,
++	/* Index33 -3.9dB */ 0x28c000a3,
++	/* Index34 -4.2dB */ 0x2780009e,
++	/* Index35 -4.5dB */ 0x26000098,
++	/* Index36 -4.8dB */ 0x24c00093,
++	/* Index37 -5.1dB */ 0x2380008e,
++	/* Index38 -5.4dB */ 0x22400089,
++	/* Index39 -5.7dB */ 0x21400085,
++	/* Index40 -6  dB */ 0x20000080,
++	/* Index41 -6.3dB */ 0x1f00007c,
++	/* Index42 -6.6dB */ 0x1e000078,
++	/* Index43 -6.9dB */ 0x1d000074,
++	/* Index44 -7.2dB */ 0x1c000070,
++	/* Index45 -7.5dB */ 0x1b00006c,
++	/* Index46 -7.8dB */ 0x1a000068,
++	/* Index47 -8.1dB */ 0x19400065,
++	/* Index48 -8.4dB */ 0x18400061,
++	/* Index49 -8.7dB */ 0x1780005e,
++	/* Index50 -9  dB */ 0x16c0005b,
++	/* Index51 -9.3dB */ 0x16000058,
++	/* Index52 -9.6dB */ 0x15400055,
++	/* Index53 -9.9dB */ 0x14800052
++};
++u1Byte CCKSwingTable_Ch1_Ch13_92E[CCK_TABLE_SIZE_92E][8] = {
++	/* Index0    0  dB */    {0x36, 0x34 , 0x2E , 0x26 , 0x1C , 0x12 , 0x08 , 0x04},
++	/* Index1   -0.3dB */    {0x34, 0x32 , 0x2C , 0x25 , 0x1B , 0x11 , 0x08 , 0x04},
++	/* Index2   -0.6dB */    {0x32, 0x30 , 0x2B , 0x23 , 0x1A , 0x11 , 0x07 , 0x04},
++	/* Index3   -0.9dB */    {0x31, 0x2F , 0x29 , 0x22 , 0x19 , 0x10 , 0x07 , 0x04},
++	/* Index4   -1.2dB */    {0x2F, 0x2D , 0x28 , 0x21 , 0x18 , 0x10 , 0x07 , 0x03},
++	/* Index5   -1.5dB */    {0x2D, 0x2C , 0x27 , 0x20 , 0x18 , 0x0F , 0x07 , 0x03},
++	/* Index6   -1.8dB */    {0x2C, 0x2A , 0x25 , 0x1F , 0x17 , 0x0F , 0x06 , 0x03},
++	/* Index7   -2.1dB */    {0x2A, 0x29 , 0x24 , 0x1E , 0x16 , 0x0E , 0x06 , 0x03},
++	/* Index8   -2.4dB */    {0x29, 0x27 , 0x23 , 0x1D , 0x15 , 0x0E , 0x06 , 0x03},
++	/* Index9   -2.7dB */    {0x27, 0x26 , 0x22 , 0x1C , 0x14 , 0x0D , 0x06 , 0x03},
++	/* Index10  -3  dB */    {0x26, 0x25 , 0x20 , 0x1B , 0x14 , 0x0D , 0x06 , 0x03},
++	/* Index11  -3.3dB */    {0x25, 0x23 , 0x1F , 0x1A , 0x13 , 0x0C , 0x05 , 0x03},
++	/* Index12  -3.6dB */    {0x24, 0x22 , 0x1E , 0x19 , 0x12 , 0x0C , 0x05 , 0x03},
++	/* Index13  -3.9dB */    {0x22, 0x21 , 0x1D , 0x18 , 0x12 , 0x0B , 0x05 , 0x03},
++	/* Index14  -4.2dB */    {0x21, 0x20 , 0x1C , 0x17 , 0x11 , 0x0B , 0x05 , 0x02},
++	/* Index15  -4.5dB */    {0x20, 0x1F , 0x1B , 0x17 , 0x11 , 0x0B , 0x05 , 0x02},
++	/* Index16  -4.8dB */    {0x1F, 0x1E , 0x1A , 0x16 , 0x10 , 0x0A , 0x05 , 0x02},
++	/* Index17  -5.1dB */    {0x1E, 0x1D , 0x1A , 0x15 , 0x10 , 0x0A , 0x04 , 0x02},
++	/* Index18  -5.4dB */    {0x1D, 0x1C , 0x19 , 0x14 , 0x0F , 0x0A , 0x04 , 0x02},
++	/* Index19  -5.7dB */    {0x1C, 0x1B , 0x18 , 0x14 , 0x0E , 0x09 , 0x04 , 0x02},
++	/* Index20  -6.0dB */    {0x1B, 0x1A , 0x17 , 0x13 , 0x0E , 0x09 , 0x04 , 0x02}, // 20 This is CCK base index
++	/* Index21  -6.3dB */    {0x1A, 0x19 , 0x16 , 0x12 , 0x0E , 0x09 , 0x04 , 0x02},
++	/* Index22  -6.6dB */    {0x19, 0x18 , 0x15 , 0x12 , 0x0D , 0x08 , 0x04 , 0x02},
++	/* Index23  -6.9dB */    {0x18, 0x17 , 0x15 , 0x11 , 0x0D , 0x08 , 0x04 , 0x02},
++	/* Index24  -7.2dB */    {0x18, 0x17 , 0x14 , 0x11 , 0x0C , 0x08 , 0x03 , 0x02},
++	/* Index25  -7.5dB */    {0x17, 0x16 , 0x13 , 0x10 , 0x0C , 0x08 , 0x03 , 0x02},
++	/* Index26  -7.8dB */    {0x16, 0x15 , 0x13 , 0x0F , 0x0B , 0x07 , 0x03 , 0x02},
++	/* Index27  -8.1dB */    {0x15, 0x14 , 0x12 , 0x0F , 0x0B , 0x07 , 0x03 , 0x02},
++	/* Index28  -8.4dB */    {0x14, 0x14 , 0x11 , 0x0E , 0x0B , 0x07 , 0x03 , 0x02},
++	/* Index29  -8.7dB */    {0x14, 0x13 , 0x11 , 0x0E , 0x0A , 0x07 , 0x03 , 0x01},
++	/* Index30  -9.0dB */    {0x13, 0x12 , 0x10 , 0x0D , 0x0A , 0x06 , 0x03 , 0x01}, // 30 This is hp CCK base index
++	/* Index31  -9.3dB */    {0x12, 0x12 , 0x0F , 0x0D , 0x0A , 0x06 , 0x03 , 0x01},
++	/* Index32  -9.6dB */    {0x12, 0x11 , 0x0F , 0x0D , 0x09 , 0x06 , 0x03 , 0x01},
++	/* Index33  -9.9dB */    {0x11, 0x11 , 0x0F , 0x0C , 0x09 , 0x06 , 0x03 , 0x01},
++	/* Index34 -10.2dB */    {0x11, 0x11 , 0x0E , 0x0C , 0x09 , 0x06 , 0x02 , 0x01},
++	/* Index35 -10.5dB */    {0x10, 0x0F , 0x0E , 0x0B , 0x08 , 0x05 , 0x02 , 0x01},
++	/* Index36 -10.8dB */    {0x10, 0x0F , 0x0D , 0x0B , 0x08 , 0x05 , 0x02 , 0x01},
++	/* Index37 -11.1dB */    {0x0F, 0x0E , 0x0D , 0x0A , 0x08 , 0x05 , 0x02 , 0x01},
++	/* Index38 -11.4dB */    {0x0E, 0x0E , 0x0C , 0x0A , 0x07 , 0x05 , 0x02 , 0x01},
++	/* Index39 -11.7dB */    {0x0E, 0x0D , 0x0C , 0x0A , 0x07 , 0x05 , 0x02 , 0x01},
++	/* Index40 -12  dB */    {0x0E, 0x0D , 0x0C , 0x0A , 0x07 , 0x05 , 0x02 , 0x01},
++	/* Index41 -12.3dB */    {0x0D, 0x0D , 0x0B , 0x09 , 0x07 , 0x04 , 0x02 , 0x01},
++	/* Index42 -12.6dB */    {0x0D, 0x0C , 0x0B , 0x09 , 0x07 , 0x04 , 0x02 , 0x01},
++	/* Index43 -12.9dB */    {0x0C, 0x0C , 0x0A , 0x09 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index44 -13.2dB */    {0x0C, 0x0B , 0x0A , 0x08 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index45 -13.5dB */    {0x0B, 0x0B , 0x0A , 0x08 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index46 -13.8dB */    {0x0B, 0x0B , 0x09 , 0x08 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index47 -14.1dB */    {0x0B, 0x0A , 0x09 , 0x07 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index48 -14.4dB */    {0x0A, 0x0A , 0x09 , 0x07 , 0x05 , 0x03 , 0x02 , 0x01},
++	/* Index49 -14.7dB */    {0x0A, 0x0A , 0x08 , 0x07 , 0x05 , 0x03 , 0x01 , 0x01},
++	/* Index50 -15  dB */    {0x0A, 0x09 , 0x08 , 0x07 , 0x05 , 0x03 , 0x01 , 0x01},
++	/* Index51 -15.3dB */    {0x09, 0x09 , 0x08 , 0x06 , 0x05 , 0x03 , 0x01 , 0x01},
++	/* Index52 -15.6dB */    {0x09, 0x09 , 0x08 , 0x06 , 0x05 , 0x03 , 0x01 , 0x01},
++	/* Index53 -15.9dB */    {0x09, 0x08 , 0x07 , 0x06 , 0x04 , 0x03 , 0x01 , 0x01}
++};
++u1Byte CCKSwingTable_Ch14_92E[CCK_TABLE_SIZE_92E][8] = {
++	/* Index0    0  dB */    {0x36, 0x34 , 0x2E , 0x26 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index1   -0.3dB */    {0x34, 0x32 , 0x2C , 0x25 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index2   -0.6dB */    {0x32, 0x30 , 0x2B , 0x23 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index3   -0.9dB */    {0x31, 0x2F , 0x29 , 0x22 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index4   -1.2dB */    {0x2F, 0x2D , 0x28 , 0x21 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index5   -1.5dB */    {0x2D, 0x2C , 0x27 , 0x20 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index6   -1.8dB */    {0x2C, 0x2A , 0x25 , 0x1F , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index7   -2.1dB */    {0x2A, 0x29 , 0x24 , 0x1E , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index8   -2.4dB */    {0x29, 0x27 , 0x23 , 0x1D , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index9   -2.7dB */    {0x27, 0x26 , 0x22 , 0x1C , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index10  -3  dB */    {0x26, 0x25 , 0x20 , 0x1B , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index11  -3.3dB */    {0x25, 0x23 , 0x1F , 0x1A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index12  -3.6dB */    {0x24, 0x22 , 0x1E , 0x19 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index13  -3.9dB */    {0x22, 0x21 , 0x1D , 0x18 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index14  -4.2dB */    {0x21, 0x20 , 0x1C , 0x17 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index15  -4.5dB */    {0x20, 0x1F , 0x1B , 0x17 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index16  -4.8dB */    {0x1F, 0x1E , 0x1A , 0x16 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index17  -5.1dB */    {0x1E, 0x1D , 0x1A , 0x15 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index18  -5.4dB */    {0x1D, 0x1C , 0x19 , 0x14 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index19  -5.7dB */    {0x1C, 0x1B , 0x18 , 0x14 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index20  -6  dB */     {0x1B, 0x1A , 0x17 , 0x13 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index21  -6.3dB */    {0x1A, 0x19 , 0x16 , 0x12 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index22  -6.6dB */    {0x19, 0x18 , 0x15 , 0x12 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index23  -6.9dB */    {0x18, 0x17 , 0x15 , 0x11 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index24  -7.2dB */    {0x18, 0x17 , 0x14 , 0x11 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index25  -7.5dB */    {0x17, 0x16 , 0x13 , 0x10 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index26  -7.8dB */    {0x16, 0x15 , 0x13 , 0x0F , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index27  -8.1dB */    {0x15, 0x14 , 0x12 , 0x0F , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index28  -8.4dB */    {0x14, 0x14 , 0x11 , 0x0E , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index29  -8.7dB */    {0x14, 0x13 , 0x11 , 0x0E , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index30  -9  dB */    {0x13, 0x12 , 0x10 , 0x0D , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index31  -9.3dB */    {0x12, 0x12 , 0x0F , 0x0D , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index32  -9.6dB */    {0x12, 0x11 , 0x0F , 0x0D , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index33  -9.9dB */    {0x11, 0x11 , 0x0F , 0x0C , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index34 -10.2dB */    {0x11, 0x11 , 0x0E , 0x0C , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index35 -10.5dB */    {0x10, 0x0F , 0x0E , 0x0B , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index36 -10.8dB */    {0x10, 0x0F , 0x0D , 0x0B , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index37 -11.1dB */    {0x0F, 0x0E , 0x0D , 0x0A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index38 -11.4dB */    {0x0E, 0x0E , 0x0C , 0x0A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index39 -11.7dB */    {0x0E, 0x0D , 0x0C , 0x0A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index40 -12  dB */    {0x0E, 0x0D , 0x0C , 0x0A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index41 -12.3dB */    {0x0D, 0x0D , 0x0B , 0x09 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index42 -12.6dB */    {0x0D, 0x0C , 0x0B , 0x09 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index43 -12.9dB */    {0x0C, 0x0C , 0x0A , 0x09 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index44 -13.2dB */    {0x0C, 0x0B , 0x0A , 0x08 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index45 -13.5dB */    {0x0B, 0x0B , 0x0A , 0x08 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index46 -13.8dB */    {0x0B, 0x0B , 0x09 , 0x08 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index47 -14.1dB */    {0x0B, 0x0A , 0x09 , 0x07 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index48 -14.4dB */    {0x0A, 0x0A , 0x09 , 0x07 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index49 -14.7dB */    {0x0A, 0x0A , 0x08 , 0x07 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index50 -15  dB */    {0x0A, 0x09 , 0x08 , 0x07 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index51 -15.3dB */    {0x09, 0x09 , 0x08 , 0x06 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index52 -15.6dB */    {0x09, 0x09 , 0x08 , 0x06 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index53 -15.9dB */    {0x09, 0x08 , 0x07 , 0x06 , 0x00 , 0x00 , 0x00 , 0x00}
++};
++#endif
++
++#ifdef AP_BUILD_WORKAROUND
++
++unsigned int TxPwrTrk_OFDM_SwingTbl[TxPwrTrk_OFDM_SwingTbl_Len] = {
++	/*  +6.0dB */ 0x7f8001fe,
++	/*  +5.5dB */ 0x788001e2,
++	/*  +5.0dB */ 0x71c001c7,
++	/*  +4.5dB */ 0x6b8001ae,
++	/*  +4.0dB */ 0x65400195,
++	/*  +3.5dB */ 0x5fc0017f,
++	/*  +3.0dB */ 0x5a400169,
++	/*  +2.5dB */ 0x55400155,
++	/*  +2.0dB */ 0x50800142,
++	/*  +1.5dB */ 0x4c000130,
++	/*  +1.0dB */ 0x47c0011f,
++	/*  +0.5dB */ 0x43c0010f,
++	/*   0.0dB */ 0x40000100,
++	/*  -0.5dB */ 0x3c8000f2,
++	/*  -1.0dB */ 0x390000e4,
++	/*  -1.5dB */ 0x35c000d7,
++	/*  -2.0dB */ 0x32c000cb,
++	/*  -2.5dB */ 0x300000c0,
++	/*  -3.0dB */ 0x2d4000b5,
++	/*  -3.5dB */ 0x2ac000ab,
++	/*  -4.0dB */ 0x288000a2,
++	/*  -4.5dB */ 0x26000098,
++	/*  -5.0dB */ 0x24000090,
++	/*  -5.5dB */ 0x22000088,
++	/*  -6.0dB */ 0x20000080,
++	/*  -6.5dB */ 0x1a00006c,
++	/*  -7.0dB */ 0x1c800072,
++	/*  -7.5dB */ 0x18000060,
++	/*  -8.0dB */ 0x19800066,
++	/*  -8.5dB */ 0x15800056,
++	/*  -9.0dB */ 0x26c0005b,
++	/*  -9.5dB */ 0x14400051,
++	/* -10.0dB */ 0x24400051,
++	/* -10.5dB */ 0x1300004c,
++	/* -11.0dB */ 0x12000048,
++	/* -11.5dB */ 0x11000044,
++	/* -12.0dB */ 0x10000040
++};
++#endif
++
++#endif
++
++
++u1Byte DeltaSwingTableIdx_2GA_P_DEFAULT[DELTA_SWINGIDX_SIZE] = {0, 0, 0, 0, 1, 1, 2, 2, 3, 3
++, 4, 4, 4,  4,  4,  4,  4,  4,  5,  5,  7,  7,  8,  8,  8,  9,  9,  9,  9,  9};
++u1Byte DeltaSwingTableIdx_2GA_N_DEFAULT[DELTA_SWINGIDX_SIZE] = {0, 0, 0, 2, 2, 3, 3, 4, 4, 4
++, 4, 5, 5,  6,  6,  7,  7,  7,  7,  8,  8,  9,  9, 10, 10, 10, 11, 11, 11, 11}; 
++
++
++#ifdef CONFIG_WLAN_HAL_8192EE
++u4Byte OFDMSwingTable_92E[OFDM_TABLE_SIZE_92E] = {
++	/* Index0   6  dB */ 0x7fc001ff,
++	/* Index1   5.7dB */ 0x7b4001ed,
++	/* Index2   5.4dB */ 0x774001dd,
++	/* Index3   5.1dB */ 0x734001cd,
++	/* Index4   4.8dB */ 0x6f4001bd,
++	/* Index5   4.5dB */ 0x6b8001ae,
++	/* Index6   4.2dB */ 0x67c0019f,
++	/* Index7   3.9dB */ 0x64400191,
++	/* Index8   3.6dB */ 0x60c00183,
++	/* Index9   3.3dB */ 0x5d800176,
++	/* Index10  3  dB */ 0x5a80016a,
++	/* Index11  2.7dB */ 0x5740015d,
++	/* Index12  2.4dB */ 0x54400151,
++	/* Index13  2.1dB */ 0x51800146,
++	/* Index14  1.8dB */ 0x4ec0013b,
++	/* Index15  1.5dB */ 0x4c000130,
++	/* Index16  1.2dB */ 0x49800126,
++	/* Index17  0.9dB */ 0x4700011c,
++	/* Index18  0.6dB */ 0x44800112,
++	/* Index19  0.3dB */ 0x42000108,
++	/* Index20  0  dB */ 0x40000100, // 20 This is OFDM base index
++	/* Index21 -0.3dB */ 0x3dc000f7,
++	/* Index22 -0.6dB */ 0x3bc000ef,
++	/* Index23 -0.9dB */ 0x39c000e7,
++	/* Index24 -1.2dB */ 0x37c000df,
++	/* Index25 -1.5dB */ 0x35c000d7,
++	/* Index26 -1.8dB */ 0x340000d0,
++	/* Index27 -2.1dB */ 0x324000c9,
++	/* Index28 -2.4dB */ 0x308000c2,
++	/* Index29 -2.7dB */ 0x2f0000bc,
++	/* Index30 -3  dB */ 0x2d4000b5,
++	/* Index31 -3.3dB */ 0x2bc000af,
++	/* Index32 -3.6dB */ 0x2a4000a9,
++	/* Index33 -3.9dB */ 0x28c000a3,
++	/* Index34 -4.2dB */ 0x2780009e,
++	/* Index35 -4.5dB */ 0x26000098,
++	/* Index36 -4.8dB */ 0x24c00093,
++	/* Index37 -5.1dB */ 0x2380008e,
++	/* Index38 -5.4dB */ 0x22400089,
++	/* Index39 -5.7dB */ 0x21400085,
++	/* Index40 -6  dB */ 0x20000080,
++	/* Index41 -6.3dB */ 0x1f00007c,
++	/* Index42 -6.6dB */ 0x1e000078,
++	/* Index43 -6.9dB */ 0x1d000074,
++	/* Index44 -7.2dB */ 0x1c000070,
++	/* Index45 -7.5dB */ 0x1b00006c,
++	/* Index46 -7.8dB */ 0x1a000068,
++	/* Index47 -8.1dB */ 0x19400065,
++	/* Index48 -8.4dB */ 0x18400061,
++	/* Index49 -8.7dB */ 0x1780005e,
++	/* Index50 -9  dB */ 0x16c0005b,
++	/* Index51 -9.3dB */ 0x16000058,
++	/* Index52 -9.6dB */ 0x15400055,
++	/* Index53 -9.9dB */ 0x14800052
++};
++u1Byte CCKSwingTable_Ch1_Ch13_92E[CCK_TABLE_SIZE_92E][8] = {
++	/* Index0    0  dB */    {0x36, 0x34 , 0x2E , 0x26 , 0x1C , 0x12 , 0x08 , 0x04},
++	/* Index1   -0.3dB */    {0x34, 0x32 , 0x2C , 0x25 , 0x1B , 0x11 , 0x08 , 0x04},
++	/* Index2   -0.6dB */    {0x32, 0x30 , 0x2B , 0x23 , 0x1A , 0x11 , 0x07 , 0x04},
++	/* Index3   -0.9dB */    {0x31, 0x2F , 0x29 , 0x22 , 0x19 , 0x10 , 0x07 , 0x04},
++	/* Index4   -1.2dB */    {0x2F, 0x2D , 0x28 , 0x21 , 0x18 , 0x10 , 0x07 , 0x03},
++	/* Index5   -1.5dB */    {0x2D, 0x2C , 0x27 , 0x20 , 0x18 , 0x0F , 0x07 , 0x03},
++	/* Index6   -1.8dB */    {0x2C, 0x2A , 0x25 , 0x1F , 0x17 , 0x0F , 0x06 , 0x03},
++	/* Index7   -2.1dB */    {0x2A, 0x29 , 0x24 , 0x1E , 0x16 , 0x0E , 0x06 , 0x03},
++	/* Index8   -2.4dB */    {0x29, 0x27 , 0x23 , 0x1D , 0x15 , 0x0E , 0x06 , 0x03},
++	/* Index9   -2.7dB */    {0x27, 0x26 , 0x22 , 0x1C , 0x14 , 0x0D , 0x06 , 0x03},
++	/* Index10  -3  dB */    {0x26, 0x25 , 0x20 , 0x1B , 0x14 , 0x0D , 0x06 , 0x03},
++	/* Index11  -3.3dB */    {0x25, 0x23 , 0x1F , 0x1A , 0x13 , 0x0C , 0x05 , 0x03},
++	/* Index12  -3.6dB */    {0x24, 0x22 , 0x1E , 0x19 , 0x12 , 0x0C , 0x05 , 0x03},
++	/* Index13  -3.9dB */    {0x22, 0x21 , 0x1D , 0x18 , 0x12 , 0x0B , 0x05 , 0x03},
++	/* Index14  -4.2dB */    {0x21, 0x20 , 0x1C , 0x17 , 0x11 , 0x0B , 0x05 , 0x02},
++	/* Index15  -4.5dB */    {0x20, 0x1F , 0x1B , 0x17 , 0x11 , 0x0B , 0x05 , 0x02},
++	/* Index16  -4.8dB */    {0x1F, 0x1E , 0x1A , 0x16 , 0x10 , 0x0A , 0x05 , 0x02},
++	/* Index17  -5.1dB */    {0x1E, 0x1D , 0x1A , 0x15 , 0x10 , 0x0A , 0x04 , 0x02},
++	/* Index18  -5.4dB */    {0x1D, 0x1C , 0x19 , 0x14 , 0x0F , 0x0A , 0x04 , 0x02},
++	/* Index19  -5.7dB */    {0x1C, 0x1B , 0x18 , 0x14 , 0x0E , 0x09 , 0x04 , 0x02},
++	/* Index20  -6.0dB */    {0x1B, 0x1A , 0x17 , 0x13 , 0x0E , 0x09 , 0x04 , 0x02}, // 20 This is CCK base index
++	/* Index21  -6.3dB */    {0x1A, 0x19 , 0x16 , 0x12 , 0x0E , 0x09 , 0x04 , 0x02},
++	/* Index22  -6.6dB */    {0x19, 0x18 , 0x15 , 0x12 , 0x0D , 0x08 , 0x04 , 0x02},
++	/* Index23  -6.9dB */    {0x18, 0x17 , 0x15 , 0x11 , 0x0D , 0x08 , 0x04 , 0x02},
++	/* Index24  -7.2dB */    {0x18, 0x17 , 0x14 , 0x11 , 0x0C , 0x08 , 0x03 , 0x02},
++	/* Index25  -7.5dB */    {0x17, 0x16 , 0x13 , 0x10 , 0x0C , 0x08 , 0x03 , 0x02},
++	/* Index26  -7.8dB */    {0x16, 0x15 , 0x13 , 0x0F , 0x0B , 0x07 , 0x03 , 0x02},
++	/* Index27  -8.1dB */    {0x15, 0x14 , 0x12 , 0x0F , 0x0B , 0x07 , 0x03 , 0x02},
++	/* Index28  -8.4dB */    {0x14, 0x14 , 0x11 , 0x0E , 0x0B , 0x07 , 0x03 , 0x02},
++	/* Index29  -8.7dB */    {0x14, 0x13 , 0x11 , 0x0E , 0x0A , 0x07 , 0x03 , 0x01},
++	/* Index30  -9.0dB */    {0x13, 0x12 , 0x10 , 0x0D , 0x0A , 0x06 , 0x03 , 0x01}, // 30 This is hp CCK base index
++	/* Index31  -9.3dB */    {0x12, 0x12 , 0x0F , 0x0D , 0x0A , 0x06 , 0x03 , 0x01},
++	/* Index32  -9.6dB */    {0x12, 0x11 , 0x0F , 0x0D , 0x09 , 0x06 , 0x03 , 0x01},
++	/* Index33  -9.9dB */    {0x11, 0x11 , 0x0F , 0x0C , 0x09 , 0x06 , 0x03 , 0x01},
++	/* Index34 -10.2dB */    {0x11, 0x11 , 0x0E , 0x0C , 0x09 , 0x06 , 0x02 , 0x01},
++	/* Index35 -10.5dB */    {0x10, 0x0F , 0x0E , 0x0B , 0x08 , 0x05 , 0x02 , 0x01},
++	/* Index36 -10.8dB */    {0x10, 0x0F , 0x0D , 0x0B , 0x08 , 0x05 , 0x02 , 0x01},
++	/* Index37 -11.1dB */    {0x0F, 0x0E , 0x0D , 0x0A , 0x08 , 0x05 , 0x02 , 0x01},
++	/* Index38 -11.4dB */    {0x0E, 0x0E , 0x0C , 0x0A , 0x07 , 0x05 , 0x02 , 0x01},
++	/* Index39 -11.7dB */    {0x0E, 0x0D , 0x0C , 0x0A , 0x07 , 0x05 , 0x02 , 0x01},
++	/* Index40 -12  dB */    {0x0E, 0x0D , 0x0C , 0x0A , 0x07 , 0x05 , 0x02 , 0x01},
++	/* Index41 -12.3dB */    {0x0D, 0x0D , 0x0B , 0x09 , 0x07 , 0x04 , 0x02 , 0x01},
++	/* Index42 -12.6dB */    {0x0D, 0x0C , 0x0B , 0x09 , 0x07 , 0x04 , 0x02 , 0x01},
++	/* Index43 -12.9dB */    {0x0C, 0x0C , 0x0A , 0x09 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index44 -13.2dB */    {0x0C, 0x0B , 0x0A , 0x08 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index45 -13.5dB */    {0x0B, 0x0B , 0x0A , 0x08 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index46 -13.8dB */    {0x0B, 0x0B , 0x09 , 0x08 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index47 -14.1dB */    {0x0B, 0x0A , 0x09 , 0x07 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index48 -14.4dB */    {0x0A, 0x0A , 0x09 , 0x07 , 0x05 , 0x03 , 0x02 , 0x01},
++	/* Index49 -14.7dB */    {0x0A, 0x0A , 0x08 , 0x07 , 0x05 , 0x03 , 0x01 , 0x01},
++	/* Index50 -15  dB */    {0x0A, 0x09 , 0x08 , 0x07 , 0x05 , 0x03 , 0x01 , 0x01},
++	/* Index51 -15.3dB */    {0x09, 0x09 , 0x08 , 0x06 , 0x05 , 0x03 , 0x01 , 0x01},
++	/* Index52 -15.6dB */    {0x09, 0x09 , 0x08 , 0x06 , 0x05 , 0x03 , 0x01 , 0x01},
++	/* Index53 -15.9dB */    {0x09, 0x08 , 0x07 , 0x06 , 0x04 , 0x03 , 0x01 , 0x01}
++};
++u1Byte CCKSwingTable_Ch14_92E[CCK_TABLE_SIZE_92E][8] = {
++	/* Index0    0  dB */    {0x36, 0x34 , 0x2E , 0x26 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index1   -0.3dB */    {0x34, 0x32 , 0x2C , 0x25 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index2   -0.6dB */    {0x32, 0x30 , 0x2B , 0x23 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index3   -0.9dB */    {0x31, 0x2F , 0x29 , 0x22 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index4   -1.2dB */    {0x2F, 0x2D , 0x28 , 0x21 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index5   -1.5dB */    {0x2D, 0x2C , 0x27 , 0x20 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index6   -1.8dB */    {0x2C, 0x2A , 0x25 , 0x1F , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index7   -2.1dB */    {0x2A, 0x29 , 0x24 , 0x1E , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index8   -2.4dB */    {0x29, 0x27 , 0x23 , 0x1D , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index9   -2.7dB */    {0x27, 0x26 , 0x22 , 0x1C , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index10  -3  dB */    {0x26, 0x25 , 0x20 , 0x1B , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index11  -3.3dB */    {0x25, 0x23 , 0x1F , 0x1A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index12  -3.6dB */    {0x24, 0x22 , 0x1E , 0x19 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index13  -3.9dB */    {0x22, 0x21 , 0x1D , 0x18 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index14  -4.2dB */    {0x21, 0x20 , 0x1C , 0x17 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index15  -4.5dB */    {0x20, 0x1F , 0x1B , 0x17 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index16  -4.8dB */    {0x1F, 0x1E , 0x1A , 0x16 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index17  -5.1dB */    {0x1E, 0x1D , 0x1A , 0x15 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index18  -5.4dB */    {0x1D, 0x1C , 0x19 , 0x14 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index19  -5.7dB */    {0x1C, 0x1B , 0x18 , 0x14 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index20  -6  dB */     {0x1B, 0x1A , 0x17 , 0x13 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index21  -6.3dB */    {0x1A, 0x19 , 0x16 , 0x12 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index22  -6.6dB */    {0x19, 0x18 , 0x15 , 0x12 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index23  -6.9dB */    {0x18, 0x17 , 0x15 , 0x11 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index24  -7.2dB */    {0x18, 0x17 , 0x14 , 0x11 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index25  -7.5dB */    {0x17, 0x16 , 0x13 , 0x10 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index26  -7.8dB */    {0x16, 0x15 , 0x13 , 0x0F , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index27  -8.1dB */    {0x15, 0x14 , 0x12 , 0x0F , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index28  -8.4dB */    {0x14, 0x14 , 0x11 , 0x0E , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index29  -8.7dB */    {0x14, 0x13 , 0x11 , 0x0E , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index30  -9  dB */    {0x13, 0x12 , 0x10 , 0x0D , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index31  -9.3dB */    {0x12, 0x12 , 0x0F , 0x0D , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index32  -9.6dB */    {0x12, 0x11 , 0x0F , 0x0D , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index33  -9.9dB */    {0x11, 0x11 , 0x0F , 0x0C , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index34 -10.2dB */    {0x11, 0x11 , 0x0E , 0x0C , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index35 -10.5dB */    {0x10, 0x0F , 0x0E , 0x0B , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index36 -10.8dB */    {0x10, 0x0F , 0x0D , 0x0B , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index37 -11.1dB */    {0x0F, 0x0E , 0x0D , 0x0A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index38 -11.4dB */    {0x0E, 0x0E , 0x0C , 0x0A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index39 -11.7dB */    {0x0E, 0x0D , 0x0C , 0x0A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index40 -12  dB */    {0x0E, 0x0D , 0x0C , 0x0A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index41 -12.3dB */    {0x0D, 0x0D , 0x0B , 0x09 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index42 -12.6dB */    {0x0D, 0x0C , 0x0B , 0x09 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index43 -12.9dB */    {0x0C, 0x0C , 0x0A , 0x09 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index44 -13.2dB */    {0x0C, 0x0B , 0x0A , 0x08 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index45 -13.5dB */    {0x0B, 0x0B , 0x0A , 0x08 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index46 -13.8dB */    {0x0B, 0x0B , 0x09 , 0x08 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index47 -14.1dB */    {0x0B, 0x0A , 0x09 , 0x07 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index48 -14.4dB */    {0x0A, 0x0A , 0x09 , 0x07 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index49 -14.7dB */    {0x0A, 0x0A , 0x08 , 0x07 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index50 -15  dB */    {0x0A, 0x09 , 0x08 , 0x07 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index51 -15.3dB */    {0x09, 0x09 , 0x08 , 0x06 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index52 -15.6dB */    {0x09, 0x09 , 0x08 , 0x06 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index53 -15.9dB */    {0x09, 0x08 , 0x07 , 0x06 , 0x00 , 0x00 , 0x00 , 0x00}
++};
++#endif
++
++#if (RTL8814A_SUPPORT == 1 || RTL8822B_SUPPORT == 1)
++u4Byte TxScalingTable_Jaguar[TXSCALE_TABLE_SIZE] =
++{
++	0x081, // 0,  -12.0dB
++	0x088, // 1,  -11.5dB
++	0x090, // 2,  -11.0dB
++	0x099, // 3,  -10.5dB
++	0x0A2, // 4,  -10.0dB
++	0x0AC, // 5,  -9.5dB
++	0x0B6, // 6,  -9.0dB
++	0x0C0, // 7,  -8.5dB
++	0x0CC, // 8,  -8.0dB
++	0x0D8, // 9,  -7.5dB
++	0x0E5, // 10, -7.0dB
++	0x0F2, // 11, -6.5dB
++	0x101, // 12, -6.0dB
++	0x110, // 13, -5.5dB
++	0x120, // 14, -5.0dB
++	0x131, // 15, -4.5dB
++	0x143, // 16, -4.0dB
++	0x156, // 17, -3.5dB
++	0x16A, // 18, -3.0dB
++	0x180, // 19, -2.5dB
++	0x197, // 20, -2.0dB
++	0x1AF, // 21, -1.5dB
++	0x1C8, // 22, -1.0dB
++	0x1E3, // 23, -0.5dB
++	0x200, // 24, +0  dB
++	0x21E, // 25, +0.5dB
++	0x23E, // 26, +1.0dB
++	0x261, // 27, +1.5dB
++	0x285, // 28, +2.0dB
++	0x2AB, // 29, +2.5dB
++	0x2D3, // 30, +3.0dB
++	0x2FE, // 31, +3.5dB
++	0x32B, // 32, +4.0dB
++	0x35C, // 33, +4.5dB
++	0x38E, // 34, +5.0dB
++	0x3C4, // 35, +5.5dB
++	0x3FE  // 36, +6.0dB	
++};
++#elif(ODM_IC_11AC_SERIES_SUPPORT)
++u4Byte OFDMSwingTable_8812[OFDM_TABLE_SIZE_8812] = {	
++	0x3FE, // 0,  (6dB) 
++	0x3C4, // 1,  (5.5dB) 
++	0x38E, // 2,  (5dB)
++	0x35C, // 3,  (4.5dB)
++	0x32B, // 4,  (4dB)
++	0x2FE, // 5,  (3.5dB)
++	0x2D3, // 6,  (3dB)
++	0x2AB, // 7,  (2.5dB)
++	0x285, // 8,  (2dB)
++	0x261, // 9,  (1.5dB
++	0x23E, // 10, (1dB)
++	0x21E, // 11, (0.5dB)
++	0x200, // 12, (0dB)		8814 int PA 2G default
++	0x1E3, // 13, (-0.5dB)
++	0x1C8, // 14, (-1dB)
++	0x1AF, // 15, (-1.5dB)
++	0x197, // 16, (-2dB)
++	0x180, // 17, (-2.5dB)
++	0x16A, // 18, (-3dB)		8812 / 8814 int PA 5G / 8814 ext PA 2G5G default
++	0x156, // 19, (-3.5dB)
++	0x143, // 20, (-4dB)		8812 HP default
++	0x131, // 21, (-4.5dB)
++	0x120, // 22, (-5dB)
++	0x110, // 23, (-5.5dB)
++	0x101, // 24, (-6dB)
++	0x0F2, // 25, (-6.5dB)
++	0x0E5, // 26, (-7dB)
++	0x0D8, // 27, (-7.5dB)
++	0x0CC, // 28, (-8dB)
++	0x0C0, // 29, (-8.5dB)
++	0x0B6, // 30, (-9dB)
++	0x0AC, // 31, (-9.5dB)
++	0x0A2, // 32, (-10dB)
++	0x099, // 33, (-10.5dB)
++	0x090, // 34, (-11dB)
++	0x088, // 35, (-11.5dB)
++	0x081, // 36, (-12dB)	
++	0x079, // 37, (-12.5dB)
++	0x072, // 38, (-13dB)
++	0x06c, // 39, (-13.5dB)
++	0x066, // 40, (-14dB)
++	0x060, // 41, (-14.5dB)
++	0x05B  // 42, (-15dB)
++};
++#endif
++
++u4Byte CCKSwingTable_Ch1_Ch14_8723D[CCK_TABLE_SIZE_8723D] = {
++	0x0CD,         
++	0x0D9,        
++	0x0E6,         
++	0x0F3,      
++	0x102,         
++	0x111,         
++	0x121,         
++	0x132,        
++	0x144,         
++	0x158,      
++	0x16C,        
++	0x182,        
++	0x198,        
++	0x1B1,        
++	0x1CA,      
++	0x1E5,         
++	0x202,        
++	0x221,        
++	0x241,        
++	0x263,        
++	0x287,       
++	0x2AE,        
++	0x2D6,         
++	0x301,        
++	0x32F,       
++	0x35F,       
++	0x392,        
++	0x3C9,        
++	0x402,        
++	0x43F,      
++	0x47F,      
++	0x4C3,        
++	0x50C,         
++	0x558,      
++	0x5A9,         
++	0x5FF,         
++	0x65A,        
++	0x6BA,       
++	0x720,        
++	0x78C,        
++	0x7FF,        
++};
++
++
++//#endif
++//3============================================================
++//3 Tx Power Tracking
++//3============================================================
++
++VOID
++odm_TXPowerTrackingInit(
++	IN	PVOID		pDM_VOID 
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	if (!(pDM_Odm->SupportICType & (ODM_RTL8814A | ODM_RTL8822B | ODM_IC_11N_SERIES)))
++		return;
++#endif
++
++	odm_TXPowerTrackingThermalMeterInit(pDM_Odm);
++}	
++
++
++u1Byte 
++getSwingIndex(
++	IN	PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			i = 0, BBswingMask = 0;
++	u4Byte			bbSwing = 0;
++	u4Byte			swingTableSize = 0;
++	pu4Byte			pSwingTable = 0;
++	prtl8192cd_priv	priv = pDM_Odm->priv;
++
++#if (RTL8197F_SUPPORT == 1)
++	if (GET_CHIP_VER(priv) == VERSION_8197F) {
++		bbSwing = PHY_QueryBBReg(priv, rOFDM0_XATxIQImbalance, bMaskOFDM_D);
++		pSwingTable = OFDMSwingTable_New;
++		swingTableSize = OFDM_TABLE_SIZE_92D;
++		BBswingMask = 22;
++	}
++#endif
++
++#if (RTL8822B_SUPPORT == 1)
++	if (GET_CHIP_VER(priv) == VERSION_8822B) {
++		bbSwing = PHY_QueryBBReg(priv, rA_TxScale_Jaguar, 0xFFE00000);
++		pSwingTable = TxScalingTable_Jaguar;
++		swingTableSize = TXSCALE_TABLE_SIZE;
++		BBswingMask = 0;
++	}
++#endif
++
++	for (i = 0; i < swingTableSize-1; i++) {
++		u4Byte tableValue = pSwingTable[i] >> BBswingMask;
++		
++		if (bbSwing == tableValue)
++			break;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("bbSwing=0x%x bbswing_index=%d\n", bbSwing, i));
++
++	
++	return i;
++}
++
++
++VOID
++odm_TXPowerTrackingThermalMeterInit(
++	IN	PVOID		pDM_VOID 
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	prtl8192cd_priv		priv = pDM_Odm->priv;
++	u1Byte p;
++	u1Byte defaultSwingIndex;
++#if (RTL8197F_SUPPORT == 1 || RTL8822B_SUPPORT == 1)
++	if ((GET_CHIP_VER(priv) == VERSION_8197F) || (GET_CHIP_VER(priv) == VERSION_8822B))
++		defaultSwingIndex = getSwingIndex(pDM_Odm);
++#endif
++	
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PMGNT_INFO      	pMgntInfo = &Adapter->MgntInfo;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	
++	pMgntInfo->bTXPowerTracking = TRUE;
++	pHalData->TXPowercount       = 0;
++	pHalData->bTXPowerTrackingInit = FALSE;
++
++	if(pDM_Odm->mp_mode == FALSE)
++		pHalData->TxPowerTrackControl = TRUE;
++	ODM_RT_TRACE(pDM_Odm,COMP_POWER_TRACKING, DBG_LOUD, ("pMgntInfo->bTXPowerTracking = %d\n", pMgntInfo->bTXPowerTracking));
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#ifdef CONFIG_RTL8188E
++	{
++		pDM_Odm->RFCalibrateInfo.bTXPowerTracking = _TRUE;
++		pDM_Odm->RFCalibrateInfo.TXPowercount = 0;
++		pDM_Odm->RFCalibrateInfo.bTXPowerTrackingInit = _FALSE;
++
++		if(pDM_Odm->mp_mode == FALSE)
++			pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = _TRUE;
++		
++		MSG_8192C("pDM_Odm TxPowerTrackControl = %d\n", pDM_Odm->RFCalibrateInfo.TxPowerTrackControl);
++	}
++	#else
++	{
++		PADAPTER		Adapter = pDM_Odm->Adapter;
++		HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++		struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++
++		//if(IS_HARDWARE_TYPE_8192C(pHalData))
++		{
++			pdmpriv->bTXPowerTracking = _TRUE;
++			pdmpriv->TXPowercount = 0;
++			pdmpriv->bTXPowerTrackingInit = _FALSE;
++
++			if(pDM_Odm->mp_mode == FALSE)		//for mp driver, turn off txpwrtracking as default
++				pdmpriv->TxPowerTrackControl = _TRUE;
++
++		}
++		MSG_8192C("pdmpriv->TxPowerTrackControl = %d\n", pdmpriv->TxPowerTrackControl);
++	
++	}	
++	#endif//endif (CONFIG_RTL8188E==1)	
++#elif (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++
++	#ifdef RTL8188E_SUPPORT
++	{
++		pDM_Odm->RFCalibrateInfo.bTXPowerTracking = _TRUE;
++		pDM_Odm->RFCalibrateInfo.TXPowercount = 0;
++		pDM_Odm->RFCalibrateInfo.bTXPowerTrackingInit = _FALSE;
++		pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = _TRUE;
++		pDM_Odm->RFCalibrateInfo.TM_Trigger = 0;
++	}
++	#endif
++#endif
++
++       pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = TRUE;
++	pDM_Odm->RFCalibrateInfo.DeltaPowerIndex = 0;
++	pDM_Odm->RFCalibrateInfo.DeltaPowerIndexLast = 0;
++	pDM_Odm->RFCalibrateInfo.PowerIndexOffset = 0;
++	pDM_Odm->RFCalibrateInfo.ThermalValue = 0;
++	pRFCalibrateInfo->DefaultOfdmIndex = 28;
++
++#if (RTL8197F_SUPPORT == 1)
++	if (GET_CHIP_VER(priv) == VERSION_8197F) {
++		pRFCalibrateInfo->DefaultOfdmIndex = (defaultSwingIndex >= (OFDM_TABLE_SIZE_92D - 1)) ? 30 : defaultSwingIndex;
++		pRFCalibrateInfo->DefaultCckIndex = 28;	
++	}
++#endif
++
++#if (RTL8822B_SUPPORT == 1)
++	if (GET_CHIP_VER(priv) == VERSION_8822B) {
++		pRFCalibrateInfo->DefaultOfdmIndex = (defaultSwingIndex >= (TXSCALE_TABLE_SIZE - 1)) ? 24 : defaultSwingIndex;
++		pRFCalibrateInfo->DefaultCckIndex = 20;
++	}
++#endif
++
++	
++#if RTL8188E_SUPPORT	
++	pRFCalibrateInfo->DefaultCckIndex = 20;	// -6 dB	
++#elif RTL8192E_SUPPORT
++	pRFCalibrateInfo->DefaultCckIndex = 8;	// -12 dB
++#endif
++	pRFCalibrateInfo->BbSwingIdxOfdmBase = pRFCalibrateInfo->DefaultOfdmIndex;
++	pRFCalibrateInfo->BbSwingIdxCckBase = pRFCalibrateInfo->DefaultCckIndex;
++	pDM_Odm->RFCalibrateInfo.CCK_index = pRFCalibrateInfo->DefaultCckIndex;
++	
++	for (p = 0; p < MAX_RF_PATH; p++) {
++ 	pDM_Odm->RFCalibrateInfo.OFDM_index[p] = pRFCalibrateInfo->DefaultOfdmIndex;		
++	pRFCalibrateInfo->BbSwingIdxOfdm[p] = pRFCalibrateInfo->DefaultOfdmIndex;
++		pRFCalibrateInfo->KfreeOffset[p] = 0;	/* for 8814 kfree*/
++	}
++	pRFCalibrateInfo->BbSwingIdxCck = pRFCalibrateInfo->DefaultCckIndex;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("pRFCalibrateInfo->DefaultOfdmIndex=%d pRFCalibrateInfo->DefaultCckIndex=%d\n", pRFCalibrateInfo->DefaultOfdmIndex , pRFCalibrateInfo->DefaultCckIndex));
++
++
++}
++
++
++VOID
++ODM_TXPowerTrackingCheck(
++	IN	PVOID		pDM_VOID
++	)
++{
++	// 
++	// For AP/ADSL use prtl8192cd_priv
++	// For CE/NIC use PADAPTER
++	//
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++
++
++	if (!(pDM_Odm->SupportAbility & ODM_RF_TX_PWR_TRACK))
++		return;
++
++	//
++	// 2011/09/29 MH In HW integration first stage, we provide 4 different handle to operate
++	// at the same time. In the stage2/3, we need to prive universal interface and merge all
++	// HW dynamic mechanism.
++	//
++	switch	(pDM_Odm->SupportPlatform)
++	{
++		case	ODM_WIN:
++			odm_TXPowerTrackingCheckMP(pDM_Odm);
++			break;
++
++		case	ODM_CE:
++			odm_TXPowerTrackingCheckCE(pDM_Odm);
++			break;
++
++		case	ODM_AP:
++			odm_TXPowerTrackingCheckAP(pDM_Odm);		
++			break;		
++
++		case	ODM_ADSL:
++			/*odm_DIGAP(pDM_Odm);*/
++			break;
++	}
++
++}
++
++VOID
++odm_TXPowerTrackingCheckCE(
++	IN	PVOID		pDM_VOID
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++	#if(RTL8188E_SUPPORT==1)
++
++	//if(!pMgntInfo->bTXPowerTracking /*|| (!pdmpriv->TxPowerTrackControl && pdmpriv->bAPKdone)*/)
++	if(!(pDM_Odm->SupportAbility & ODM_RF_TX_PWR_TRACK))
++	{
++		return;
++	}
++
++	if(!pDM_Odm->RFCalibrateInfo.TM_Trigger)		//at least delay 1 sec
++	{
++		//pHalData->TxPowerCheckCnt++;	//cosa add for debug
++		ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_T_METER, bRFRegOffsetMask, 0x60);
++		//DBG_8192C("Trigger 92C Thermal Meter!!\n");
++		
++		pDM_Odm->RFCalibrateInfo.TM_Trigger = 1;
++		return;
++		
++	}
++	else
++	{
++		//DBG_8192C("Schedule TxPowerTracking direct call!!\n");
++		odm_TXPowerTrackingCallback_ThermalMeter_8188E(Adapter);
++		pDM_Odm->RFCalibrateInfo.TM_Trigger = 0;
++	}
++	#endif
++	
++#endif	
++}
++
++VOID
++odm_TXPowerTrackingCheckMP(
++	IN	PVOID		pDM_VOID 
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++	if (ODM_CheckPowerStatus(Adapter) == FALSE)
++		return;
++
++	if(!Adapter->bSlaveOfDMSP || Adapter->DualMacSmartConcurrent == FALSE)
++		odm_TXPowerTrackingThermalMeterCheck(Adapter);
++#endif
++	
++}
++
++
++VOID
++odm_TXPowerTrackingCheckAP(
++	IN	PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	prtl8192cd_priv	priv		= pDM_Odm->priv;
++
++#if ((RTL8188E_SUPPORT == 1) || (RTL8192E_SUPPORT == 1) || (RTL8812A_SUPPORT == 1) || (RTL8881A_SUPPORT == 1) || (RTL8814A_SUPPORT == 1) || (RTL8197F_SUPPORT == 1))	
++	if (pDM_Odm->SupportICType & (ODM_RTL8188E | ODM_RTL8192E | ODM_RTL8812 | ODM_RTL8881A | ODM_RTL8814A | ODM_RTL8197F | ODM_RTL8822B))
++		ODM_TXPowerTrackingCallback_ThermalMeter(pDM_Odm);
++	else
++#endif
++	{
++	}
++#endif	
++
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++VOID
++odm_TXPowerTrackingThermalMeterCheck(
++	IN	PADAPTER		Adapter
++	)
++{
++#ifndef AP_BUILD_WORKAROUND
++#if (HAL_CODE_BASE==RTL8192_C)
++	PMGNT_INFO      		pMgntInfo = &Adapter->MgntInfo;
++	//HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(Adapter);
++	static u1Byte			TM_Trigger = 0;
++	//u1Byte					TxPowerCheckCnt = 5;	//10 sec
++
++	if(!pMgntInfo->bTXPowerTracking /*|| (!pHalData->TxPowerTrackControl && pHalData->bAPKdone)*/)
++	{
++		return;
++	}
++
++	if(!TM_Trigger)		//at least delay 1 sec
++	{
++		if (IS_HARDWARE_TYPE_8188E(Adapter) || IS_HARDWARE_TYPE_8812(Adapter))
++			PHY_SetRFReg(Adapter, RF_PATH_A, RF_T_METER_88E, BIT17 | BIT16, 0x03);
++		else
++			PHY_SetRFReg(Adapter, RF_PATH_A, RF_T_METER, bRFRegOffsetMask, 0x60);
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD,("Trigger 92C Thermal Meter!!\n"));
++		
++		TM_Trigger = 1;
++		return;
++	}
++	else
++	{
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD,("Schedule TxPowerTracking direct call!!\n"));		
++		odm_TXPowerTrackingDirectCall(Adapter); //Using direct call is instead, added by Roger, 2009.06.18.
++		TM_Trigger = 0;
++	}
++#endif
++#endif
++}
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_powertracking_ap.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_powertracking_ap.h
+new file mode 100644
+index 0000000..57bcad1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_powertracking_ap.h
+@@ -0,0 +1,351 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMPOWERTRACKING_H__
++#define    __PHYDMPOWERTRACKING_H__
++
++#define POWRTRACKING_VERSION	"1.1"
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++#ifdef RTK_AC_SUPPORT
++#define ODM_IC_11AC_SERIES_SUPPORT		1
++#else
++#define ODM_IC_11AC_SERIES_SUPPORT		0
++#endif
++#else
++#define ODM_IC_11AC_SERIES_SUPPORT		1
++#endif
++
++#define		DPK_DELTA_MAPPING_NUM	13
++#define		index_mapping_HP_NUM	15
++#define		DELTA_SWINGIDX_SIZE     30
++#define		DELTA_SWINTSSI_SIZE     61
++#define		BAND_NUM 				3
++#define		MAX_RF_PATH	4
++#define 		TXSCALE_TABLE_SIZE 		37
++#define		CCK_TABLE_SIZE_8723D		41
++
++#define IQK_MAC_REG_NUM		4
++#define IQK_ADDA_REG_NUM		16
++#define IQK_BB_REG_NUM_MAX	10
++
++#define IQK_BB_REG_NUM		9
++
++#define HP_THERMAL_NUM		8
++
++#define AVG_THERMAL_NUM		8
++#define IQK_Matrix_REG_NUM	8
++//#define IQK_Matrix_Settings_NUM	1+24+21
++#define IQK_Matrix_Settings_NUM	(14+24+21) // Channels_2_4G_NUM + Channels_5G_20M_NUM + Channels_5G
++
++#if !defined(_OUTSRC_COEXIST)
++#define	OFDM_TABLE_SIZE_92D 	43
++#define	OFDM_TABLE_SIZE 	37
++#define	CCK_TABLE_SIZE		33
++#define	CCK_TABLE_SIZE_88F	21
++
++
++
++//#define	OFDM_TABLE_SIZE_92E 	54
++//#define 	CCK_TABLE_SIZE_92E     	54
++extern	u4Byte OFDMSwingTable[OFDM_TABLE_SIZE_92D];
++extern	u1Byte CCKSwingTable_Ch1_Ch13[CCK_TABLE_SIZE][8];
++extern	u1Byte CCKSwingTable_Ch14 [CCK_TABLE_SIZE][8];
++
++
++extern	u4Byte OFDMSwingTable_New[OFDM_TABLE_SIZE_92D];
++extern	u1Byte CCKSwingTable_Ch1_Ch13_New[CCK_TABLE_SIZE][8];
++extern	u1Byte CCKSwingTable_Ch14_New [CCK_TABLE_SIZE][8];
++extern	u1Byte CCKSwingTable_Ch1_Ch14_88F[CCK_TABLE_SIZE_88F][16];
++extern	u1Byte CCKSwingTable_Ch1_Ch13_88F[CCK_TABLE_SIZE_88F][16];
++extern	u1Byte CCKSwingTable_Ch14_88F[CCK_TABLE_SIZE_88F][16];
++
++#endif
++
++#define	ODM_OFDM_TABLE_SIZE 	37
++#define	ODM_CCK_TABLE_SIZE		33
++// <20140613, YuChen> In case fail to read TxPowerTrack.txt, we use the table of 88E as the default table.
++extern u1Byte DeltaSwingTableIdx_2GA_P_DEFAULT[DELTA_SWINGIDX_SIZE];
++extern u1Byte DeltaSwingTableIdx_2GA_N_DEFAULT[DELTA_SWINGIDX_SIZE]; 
++
++static u1Byte DeltaSwingTableIdx_2GA_P_8188E[] = {0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 4,  4,  4,  4,  4,  4,  5,  5,  7,  7,  8,  8,  8,  9,  9,  9,  9,  9};
++static u1Byte DeltaSwingTableIdx_2GA_N_8188E[] = {0, 0, 0, 2, 2, 3, 3, 4, 4, 4, 4, 5, 5,  6,  6,  7,  7,  7,  7,  8,  8,  9,  9, 10, 10, 10, 11, 11, 11, 11}; 
++
++//extern	u4Byte OFDMSwingTable_92E[OFDM_TABLE_SIZE_92E];
++//extern	u1Byte CCKSwingTable_Ch1_Ch13_92E[CCK_TABLE_SIZE_92E][8];
++//extern	u1Byte CCKSwingTable_Ch14_92E[CCK_TABLE_SIZE_92E][8];
++
++#ifdef CONFIG_WLAN_HAL_8192EE
++#define	OFDM_TABLE_SIZE_92E 	54
++#define	CCK_TABLE_SIZE_92E     	54
++extern	u4Byte OFDMSwingTable_92E[OFDM_TABLE_SIZE_92E];
++extern	u1Byte CCKSwingTable_Ch1_Ch13_92E[CCK_TABLE_SIZE_92E][8];
++extern	u1Byte CCKSwingTable_Ch14_92E[CCK_TABLE_SIZE_92E][8];
++#endif
++
++#define	OFDM_TABLE_SIZE_8812 	43
++#define	AVG_THERMAL_NUM_8812	4
++
++#if (RTL8814A_SUPPORT == 1 || RTL8822B_SUPPORT == 1)
++extern u4Byte TxScalingTable_Jaguar[TXSCALE_TABLE_SIZE];
++#elif(ODM_IC_11AC_SERIES_SUPPORT)
++extern unsigned int OFDMSwingTable_8812[OFDM_TABLE_SIZE_8812];
++#endif
++
++extern u4Byte CCKSwingTable_Ch1_Ch14_8723D[CCK_TABLE_SIZE_8723D];
++
++#define dm_CheckTXPowerTracking 	ODM_TXPowerTrackingCheck
++
++typedef struct _IQK_MATRIX_REGS_SETTING{
++	BOOLEAN 	bIQKDone;
++	s4Byte		Value[1][IQK_Matrix_REG_NUM];
++}IQK_MATRIX_REGS_SETTING,*PIQK_MATRIX_REGS_SETTING;
++
++typedef struct ODM_RF_Calibration_Structure
++{
++	//for tx power tracking
++	
++	u4Byte	RegA24; // for TempCCK
++	s4Byte	RegE94;
++	s4Byte 	RegE9C;
++	s4Byte	RegEB4;
++	s4Byte	RegEBC;	
++
++	//u1Byte bTXPowerTracking;
++	u1Byte  	TXPowercount;
++	BOOLEAN bTXPowerTrackingInit; 
++	BOOLEAN bTXPowerTracking;
++	u1Byte  	TxPowerTrackControl; //for mp mode, turn off txpwrtracking as default
++	u1Byte  	TM_Trigger;
++    	u1Byte  	InternalPA5G[2];	//pathA / pathB
++	
++	u1Byte  	ThermalMeter[2];    // ThermalMeter, index 0 for RFIC0, and 1 for RFIC1
++	u1Byte  	ThermalValue;
++	u1Byte  	ThermalValue_LCK;
++	u1Byte  	ThermalValue_IQK;
++	u1Byte	ThermalValue_DPK;		
++	u1Byte	ThermalValue_AVG[AVG_THERMAL_NUM];
++	u1Byte	ThermalValue_AVG_index;		
++	u1Byte	ThermalValue_RxGain;
++	u1Byte	ThermalValue_Crystal;
++	u1Byte	ThermalValue_DPKstore;
++	u1Byte	ThermalValue_DPKtrack;
++	BOOLEAN	TxPowerTrackingInProgress;
++	BOOLEAN	bDPKenable;
++	
++	BOOLEAN	bReloadtxpowerindex;	
++	u1Byte 	bRfPiEnable;
++	u4Byte 	TXPowerTrackingCallbackCnt; //cosa add for debug
++
++	u1Byte 	bCCKinCH14;
++	u1Byte 	CCK_index;
++	u1Byte 	OFDM_index[MAX_RF_PATH];
++	s1Byte	PowerIndexOffset;
++	s1Byte	DeltaPowerIndex;
++	s1Byte	DeltaPowerIndexLast;	
++	BOOLEAN bTxPowerChanged;
++		
++	u1Byte 	ThermalValue_HP[HP_THERMAL_NUM];
++	u1Byte 	ThermalValue_HP_index;
++	IQK_MATRIX_REGS_SETTING IQKMatrixRegSetting[IQK_Matrix_Settings_NUM];
++	u1Byte	Delta_LCK;
++	u1Byte  DeltaSwingTableIdx_2GCCKA_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKA_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKB_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKB_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKC_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKC_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKD_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKD_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GB_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GB_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GC_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GC_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GD_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GD_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GA_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GA_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GB_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GB_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GC_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GC_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GD_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GD_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTSSITable_2GCCKA[DELTA_SWINTSSI_SIZE];         
++	u1Byte  DeltaSwingTSSITable_2GCCKB[DELTA_SWINTSSI_SIZE];           
++	u1Byte  DeltaSwingTSSITable_2GCCKC[DELTA_SWINTSSI_SIZE];            
++	u1Byte  DeltaSwingTSSITable_2GCCKD[DELTA_SWINTSSI_SIZE];            
++	u1Byte  DeltaSwingTSSITable_2GA[DELTA_SWINTSSI_SIZE];                
++	u1Byte  DeltaSwingTSSITable_2GB[DELTA_SWINTSSI_SIZE];              
++	u1Byte  DeltaSwingTSSITable_2GC[DELTA_SWINTSSI_SIZE];                   
++	u1Byte  DeltaSwingTSSITable_2GD[DELTA_SWINTSSI_SIZE];                
++	u1Byte  DeltaSwingTSSITable_5GA[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTSSITable_5GB[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTSSITable_5GC[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTSSITable_5GD[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_P_8188E[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_N_8188E[DELTA_SWINGIDX_SIZE];
++	
++	u1Byte			BbSwingIdxOfdm[MAX_RF_PATH];
++	u1Byte			BbSwingIdxOfdmCurrent;
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))	
++	u1Byte			BbSwingIdxOfdmBase[MAX_RF_PATH];
++#else
++	u1Byte			BbSwingIdxOfdmBase;
++#endif
++	BOOLEAN			BbSwingFlagOfdm;
++	u1Byte			BbSwingIdxCck;
++	u1Byte			BbSwingIdxCckCurrent;
++	u1Byte			BbSwingIdxCckBase;
++	u1Byte			DefaultOfdmIndex;
++	u1Byte			DefaultCckIndex;	
++	BOOLEAN			BbSwingFlagCck;
++	
++	s1Byte			Absolute_OFDMSwingIdx[MAX_RF_PATH];   
++	s1Byte			Remnant_OFDMSwingIdx[MAX_RF_PATH];   
++	s1Byte			Absolute_CCKSwingIdx[MAX_RF_PATH]; 
++	s1Byte			Remnant_CCKSwingIdx;
++	s1Byte			Modify_TxAGC_Value;       /*Remnat compensate value at TxAGC */
++	BOOLEAN			Modify_TxAGC_Flag_PathA;
++	BOOLEAN			Modify_TxAGC_Flag_PathB;
++	BOOLEAN			Modify_TxAGC_Flag_PathC;
++	BOOLEAN			Modify_TxAGC_Flag_PathD;
++	BOOLEAN			Modify_TxAGC_Flag_PathA_CCK;
++	
++	s1Byte			KfreeOffset[MAX_RF_PATH];
++    
++	//--------------------------------------------------------------------//	
++	
++	//for IQK	
++	u4Byte 	RegC04;
++	u4Byte 	Reg874;
++	u4Byte 	RegC08;
++	u4Byte 	RegB68;
++	u4Byte 	RegB6C;
++	u4Byte 	Reg870;
++	u4Byte 	Reg860;
++	u4Byte 	Reg864;
++	
++	BOOLEAN	bIQKInitialized;
++	BOOLEAN bLCKInProgress;
++	BOOLEAN	bAntennaDetected;
++	BOOLEAN	bNeedIQK;
++	BOOLEAN	bIQKInProgress;
++	BOOLEAN	bIQKPAoff;
++	u1Byte	Delta_IQK;
++	u4Byte	ADDA_backup[IQK_ADDA_REG_NUM];
++	u4Byte	IQK_MAC_backup[IQK_MAC_REG_NUM];
++	u4Byte	IQK_BB_backup_recover[9];
++	u4Byte	IQK_BB_backup[IQK_BB_REG_NUM];	
++	u4Byte	TxIQC_8723B[2][3][2]; /* { {S1: 0xc94, 0xc80, 0xc4c} , {S0: 0xc9c, 0xc88, 0xc4c}} */
++	u4Byte	RxIQC_8723B[2][2][2]; /* { {S1: 0xc14, 0xca0} ,           {S0: 0xc14, 0xca0}} */
++	u4Byte	TxIQC_8703B[3][2];	/* { {S1: 0xc94, 0xc80, 0xc4c} , {S0: 0xc9c, 0xc88, 0xc4c}}*/
++	u4Byte	RxIQC_8703B[2][2];	/* { {S1: 0xc14, 0xca0} ,           {S0: 0xc14, 0xca0}}*/
++
++	u8Byte	IQK_StartTime;
++	u8Byte	IQK_TotalProgressingTime;
++	u8Byte	IQK_ProgressingTime;
++	u4Byte  LOK_Result;
++	u1Byte	IQKstep;
++	u1Byte	Kcount;
++	u1Byte	retry_count[4][2]; /* [4]: path ABCD, [2] TXK, RXK */
++	BOOLEAN	isMPmode;
++
++	//for APK
++	u4Byte 	APKoutput[2][2]; //path A/B; output1_1a/output1_2a
++	u1Byte 	bAPKdone;
++	u1Byte 	bAPKThermalMeterIgnore;
++	u1Byte 	bDPdone;
++	u1Byte 	bDPPathAOK;
++	u1Byte 	bDPPathBOK;
++
++	/*Add by Yuchen for Kfree Phydm*/
++	u1Byte			RegRfKFreeEnable;	/*for registry*/
++	u1Byte			RfKFreeEnable;		/*for efuse enable check*/
++	u4Byte	TxLOK[2];
++}ODM_RF_CAL_T,*PODM_RF_CAL_T;
++
++VOID
++odm_TXPowerTrackingCheckAP(
++	IN	PVOID		pDM_VOID
++	);
++
++VOID
++ODM_TXPowerTrackingCheck(
++	IN	PVOID		pDM_VOID
++	);
++
++
++VOID
++odm_TXPowerTrackingThermalMeterInit(
++	IN	PVOID		pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingInit(
++	IN	PVOID		pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingCheckMP(
++	IN	PVOID		pDM_VOID
++	);
++
++
++VOID
++odm_TXPowerTrackingCheckCE(
++	IN	PVOID		pDM_VOID
++	);
++
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_WIN)) 
++
++VOID 
++odm_TXPowerTrackingCallbackThermalMeter92C(
++            IN PADAPTER	Adapter
++            );
++
++VOID
++odm_TXPowerTrackingCallbackRXGainThermalMeter92D(
++	IN PADAPTER 	Adapter
++	);
++
++VOID
++odm_TXPowerTrackingCallbackThermalMeter92D(
++            IN PADAPTER	Adapter
++            );
++
++VOID
++odm_TXPowerTrackingDirectCall92C(
++            IN	PADAPTER		Adapter
++            );
++
++VOID
++odm_TXPowerTrackingThermalMeterCheck(
++	IN	PADAPTER		Adapter
++	);
++
++#endif
++
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_powertracking_ce.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_powertracking_ce.c
+new file mode 100644
+index 0000000..bd47489
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_powertracking_ce.c
+@@ -0,0 +1,756 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++/*============================================================	*/
++/* include files												*/
++/*============================================================	*/
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++//============================================================
++// Global var
++//============================================================
++
++u4Byte	OFDMSwingTable[OFDM_TABLE_SIZE] = {
++	0x7f8001fe,	/* 0, +6.0dB  */
++	0x788001e2,	/* 1, +5.5dB */
++	0x71c001c7,	/* 2, +5.0dB*/
++	0x6b8001ae,	/* 3, +4.5dB*/
++	0x65400195,	/* 4, +4.0dB*/
++	0x5fc0017f,	/* 5, +3.5dB*/
++	0x5a400169,	/* 6, +3.0dB*/
++	0x55400155,	/* 7, +2.5dB*/
++	0x50800142,	/* 8, +2.0dB*/
++	0x4c000130,	/* 9, +1.5dB*/
++	0x47c0011f,	/* 10, +1.0dB*/
++	0x43c0010f,	/* 11, +0.5dB*/
++	0x40000100,	/* 12, +0dB*/
++	0x3c8000f2,	/* 13, -0.5dB*/
++	0x390000e4,	/* 14, -1.0dB*/
++	0x35c000d7,	/* 15, -1.5dB*/
++	0x32c000cb,	/* 16, -2.0dB*/
++	0x300000c0,	/* 17, -2.5dB*/
++	0x2d4000b5,	/* 18, -3.0dB*/
++	0x2ac000ab,	/* 19, -3.5dB*/
++	0x288000a2,	/* 20, -4.0dB*/
++	0x26000098,	/* 21, -4.5dB*/
++	0x24000090,	/* 22, -5.0dB*/
++	0x22000088,	/* 23, -5.5dB*/
++	0x20000080,	/* 24, -6.0dB*/
++	0x1e400079,	/* 25, -6.5dB*/
++	0x1c800072,	/* 26, -7.0dB*/
++	0x1b00006c,	/* 27. -7.5dB*/
++	0x19800066,	/* 28, -8.0dB*/
++	0x18000060,	/* 29, -8.5dB*/
++	0x16c0005b,	/* 30, -9.0dB*/
++	0x15800056,	/* 31, -9.5dB*/
++	0x14400051,	/* 32, -10.0dB*/
++	0x1300004c,	/* 33, -10.5dB*/
++	0x12000048,	/* 34, -11.0dB*/
++	0x11000044,	/* 35, -11.5dB*/
++	0x10000040,	/* 36, -12.0dB*/
++};
++
++u1Byte	CCKSwingTable_Ch1_Ch13[CCK_TABLE_SIZE][8] = {
++	{0x36, 0x35, 0x2e, 0x25, 0x1c, 0x12, 0x09, 0x04},	/* 0, +0dB  */
++	{0x33, 0x32, 0x2b, 0x23, 0x1a, 0x11, 0x08, 0x04},	/* 1, -0.5dB */
++	{0x30, 0x2f, 0x29, 0x21, 0x19, 0x10, 0x08, 0x03},	/* 2, -1.0dB*/
++	{0x2d, 0x2d, 0x27, 0x1f, 0x18, 0x0f, 0x08, 0x03},	/* 3, -1.5dB*/
++	{0x2b, 0x2a, 0x25, 0x1e, 0x16, 0x0e, 0x07, 0x03},	/* 4, -2.0dB */
++	{0x28, 0x28, 0x22, 0x1c, 0x15, 0x0d, 0x07, 0x03},	/* 5, -2.5dB*/
++	{0x26, 0x25, 0x21, 0x1b, 0x14, 0x0d, 0x06, 0x03},	/* 6, -3.0dB*/
++	{0x24, 0x23, 0x1f, 0x19, 0x13, 0x0c, 0x06, 0x03},	/* 7, -3.5dB*/
++	{0x22, 0x21, 0x1d, 0x18, 0x11, 0x0b, 0x06, 0x02},	/* 8, -4.0dB */
++	{0x20, 0x20, 0x1b, 0x16, 0x11, 0x08, 0x05, 0x02},	/* 9, -4.5dB*/
++	{0x1f, 0x1e, 0x1a, 0x15, 0x10, 0x0a, 0x05, 0x02},	/* 10, -5.0dB */
++	{0x1d, 0x1c, 0x18, 0x14, 0x0f, 0x0a, 0x05, 0x02},	/* 11, -5.5dB*/
++	{0x1b, 0x1a, 0x17, 0x13, 0x0e, 0x09, 0x04, 0x02},	/* 12, -6.0dB <== default */
++	{0x1a, 0x19, 0x16, 0x12, 0x0d, 0x09, 0x04, 0x02},	/* 13, -6.5dB*/
++	{0x18, 0x17, 0x15, 0x11, 0x0c, 0x08, 0x04, 0x02},	/* 14, -7.0dB */
++	{0x17, 0x16, 0x13, 0x10, 0x0c, 0x08, 0x04, 0x02},	/* 15, -7.5dB*/
++	{0x16, 0x15, 0x12, 0x0f, 0x0b, 0x07, 0x04, 0x01},	/* 16, -8.0dB */
++	{0x14, 0x14, 0x11, 0x0e, 0x0b, 0x07, 0x03, 0x02},	/* 17, -8.5dB*/
++	{0x13, 0x13, 0x10, 0x0d, 0x0a, 0x06, 0x03, 0x01},	/* 18, -9.0dB */
++	{0x12, 0x12, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	/* 19, -9.5dB*/
++	{0x11, 0x11, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	/* 20, -10.0dB*/
++	{0x10, 0x10, 0x0e, 0x0b, 0x08, 0x05, 0x03, 0x01},	/* 21, -10.5dB*/
++	{0x0f, 0x0f, 0x0d, 0x0b, 0x08, 0x05, 0x03, 0x01},	/* 22, -11.0dB*/
++	{0x0e, 0x0e, 0x0c, 0x0a, 0x08, 0x05, 0x02, 0x01},	/* 23, -11.5dB*/
++	{0x0d, 0x0d, 0x0c, 0x0a, 0x07, 0x05, 0x02, 0x01},	/* 24, -12.0dB*/
++	{0x0d, 0x0c, 0x0b, 0x09, 0x07, 0x04, 0x02, 0x01},	/* 25, -12.5dB*/
++	{0x0c, 0x0c, 0x0a, 0x09, 0x06, 0x04, 0x02, 0x01},	/* 26, -13.0dB*/
++	{0x0b, 0x0b, 0x0a, 0x08, 0x06, 0x04, 0x02, 0x01},	/* 27, -13.5dB*/
++	{0x0b, 0x0a, 0x09, 0x08, 0x06, 0x04, 0x02, 0x01},	/* 28, -14.0dB*/
++	{0x0a, 0x0a, 0x09, 0x07, 0x05, 0x03, 0x02, 0x01},	/* 29, -14.5dB*/
++	{0x0a, 0x09, 0x08, 0x07, 0x05, 0x03, 0x02, 0x01},	/* 30, -15.0dB*/
++	{0x09, 0x09, 0x08, 0x06, 0x05, 0x03, 0x01, 0x01},	/* 31, -15.5dB*/
++	{0x09, 0x08, 0x07, 0x06, 0x04, 0x03, 0x01, 0x01}	/* 32, -16.0dB*/
++};
++
++
++u1Byte	CCKSwingTable_Ch14[CCK_TABLE_SIZE][8] = {
++	{0x36, 0x35, 0x2e, 0x1b, 0x00, 0x00, 0x00, 0x00},	/* 0, +0dB  */
++	{0x33, 0x32, 0x2b, 0x19, 0x00, 0x00, 0x00, 0x00},	/* 1, -0.5dB */
++	{0x30, 0x2f, 0x29, 0x18, 0x00, 0x00, 0x00, 0x00},	/* 2, -1.0dB  */
++	{0x2d, 0x2d, 0x17, 0x17, 0x00, 0x00, 0x00, 0x00},	/* 3, -1.5dB*/
++	{0x2b, 0x2a, 0x25, 0x15, 0x00, 0x00, 0x00, 0x00},	/* 4, -2.0dB  */
++	{0x28, 0x28, 0x24, 0x14, 0x00, 0x00, 0x00, 0x00},	/* 5, -2.5dB*/
++	{0x26, 0x25, 0x21, 0x13, 0x00, 0x00, 0x00, 0x00},	/* 6, -3.0dB  */
++	{0x24, 0x23, 0x1f, 0x12, 0x00, 0x00, 0x00, 0x00},	/* 7, -3.5dB  */
++	{0x22, 0x21, 0x1d, 0x11, 0x00, 0x00, 0x00, 0x00},	/* 8, -4.0dB  */
++	{0x20, 0x20, 0x1b, 0x10, 0x00, 0x00, 0x00, 0x00},	/* 9, -4.5dB*/
++	{0x1f, 0x1e, 0x1a, 0x0f, 0x00, 0x00, 0x00, 0x00},	/* 10, -5.0dB */ 
++	{0x1d, 0x1c, 0x18, 0x0e, 0x00, 0x00, 0x00, 0x00},	/* 11, -5.5dB*/
++	{0x1b, 0x1a, 0x17, 0x0e, 0x00, 0x00, 0x00, 0x00},	/* 12, -6.0dB  <== default*/
++	{0x1a, 0x19, 0x16, 0x0d, 0x00, 0x00, 0x00, 0x00},	/* 13, -6.5dB */
++	{0x18, 0x17, 0x15, 0x0c, 0x00, 0x00, 0x00, 0x00},	/* 14, -7.0dB  */
++	{0x17, 0x16, 0x13, 0x0b, 0x00, 0x00, 0x00, 0x00},	/* 15, -7.5dB*/
++	{0x16, 0x15, 0x12, 0x0b, 0x00, 0x00, 0x00, 0x00},	/* 16, -8.0dB  */
++	{0x14, 0x14, 0x11, 0x0a, 0x00, 0x00, 0x00, 0x00},	/* 17, -8.5dB*/
++	{0x13, 0x13, 0x10, 0x0a, 0x00, 0x00, 0x00, 0x00},	/* 18, -9.0dB  */
++	{0x12, 0x12, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	/* 19, -9.5dB*/
++	{0x11, 0x11, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	/* 20, -10.0dB*/
++	{0x10, 0x10, 0x0e, 0x08, 0x00, 0x00, 0x00, 0x00},	/* 21, -10.5dB*/
++	{0x0f, 0x0f, 0x0d, 0x08, 0x00, 0x00, 0x00, 0x00},	/* 22, -11.0dB*/
++	{0x0e, 0x0e, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	/* 23, -11.5dB*/
++	{0x0d, 0x0d, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	/* 24, -12.0dB*/
++	{0x0d, 0x0c, 0x0b, 0x06, 0x00, 0x00, 0x00, 0x00},	/* 25, -12.5dB*/
++	{0x0c, 0x0c, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	/* 26, -13.0dB*/
++	{0x0b, 0x0b, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	/* 27, -13.5dB*/
++	{0x0b, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	/* 28, -14.0dB*/
++	{0x0a, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	/* 29, -14.5dB*/
++	{0x0a, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	/* 30, -15.0dB*/
++	{0x09, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	/* 31, -15.5dB*/
++	{0x09, 0x08, 0x07, 0x04, 0x00, 0x00, 0x00, 0x00}	/* 32, -16.0dB*/
++};
++
++
++u4Byte OFDMSwingTable_New[OFDM_TABLE_SIZE] = {
++	0x0b40002d, /* 0,  -15.0dB	*/
++	0x0c000030, /* 1,  -14.5dB*/
++	0x0cc00033, /* 2,  -14.0dB*/
++	0x0d800036, /* 3,  -13.5dB*/
++	0x0e400039, /* 4,  -13.0dB  */  
++	0x0f00003c, /* 5,  -12.5dB*/
++	0x10000040, /* 6,  -12.0dB*/
++	0x11000044, /* 7,  -11.5dB*/
++	0x12000048, /* 8,  -11.0dB*/
++	0x1300004c, /* 9,  -10.5dB*/
++	0x14400051, /* 10, -10.0dB*/
++	0x15800056, /* 11, -9.5dB*/
++	0x16c0005b, /* 12, -9.0dB*/
++	0x18000060, /* 13, -8.5dB*/
++	0x19800066, /* 14, -8.0dB*/
++	0x1b00006c, /* 15, -7.5dB*/
++	0x1c800072, /* 16, -7.0dB*/
++	0x1e400079, /* 17, -6.5dB*/
++	0x20000080, /* 18, -6.0dB*/
++	0x22000088, /* 19, -5.5dB*/
++	0x24000090, /* 20, -5.0dB*/
++	0x26000098, /* 21, -4.5dB*/
++	0x288000a2, /* 22, -4.0dB*/
++	0x2ac000ab, /* 23, -3.5dB*/
++	0x2d4000b5, /* 24, -3.0dB*/
++	0x300000c0, /* 25, -2.5dB*/
++	0x32c000cb, /* 26, -2.0dB*/
++	0x35c000d7, /* 27, -1.5dB*/
++	0x390000e4, /* 28, -1.0dB*/
++	0x3c8000f2, /* 29, -0.5dB*/
++	0x40000100, /* 30, +0dB*/
++	0x43c0010f, /* 31, +0.5dB*/
++	0x47c0011f, /* 32, +1.0dB*/
++	0x4c000130, /* 33, +1.5dB*/
++	0x50800142, /* 34, +2.0dB*/
++	0x55400155, /* 35, +2.5dB*/
++	0x5a400169, /* 36, +3.0dB*/
++	0x5fc0017f, /* 37, +3.5dB*/
++	0x65400195, /* 38, +4.0dB*/
++	0x6b8001ae, /* 39, +4.5dB*/
++	0x71c001c7, /* 40, +5.0dB*/
++	0x788001e2, /* 41, +5.5dB*/
++	0x7f8001fe  /* 42, +6.0dB*/
++};               
++
++
++u1Byte CCKSwingTable_Ch1_Ch14_88F[CCK_TABLE_SIZE_88F][16] = {
++{0x44, 0x42, 0x3C, 0x33, 0x28, 0x1C, 0x13, 0x0B, 0x05, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-16dB*/
++{0x48, 0x46, 0x3F, 0x36, 0x2A, 0x1E, 0x14, 0x0B, 0x05, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15.5dB*/
++{0x4D, 0x4A, 0x43, 0x39, 0x2C, 0x20, 0x15, 0x0C, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15dB*/
++{0x51, 0x4F, 0x47, 0x3C, 0x2F, 0x22, 0x16, 0x0D, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14.5dB*/
++{0x56, 0x53, 0x4B, 0x40, 0x32, 0x24, 0x17, 0x0E, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14dB*/
++{0x5B, 0x58, 0x50, 0x43, 0x35, 0x26, 0x19, 0x0E, 0x07, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13.5dB*/
++{0x60, 0x5D, 0x54, 0x47, 0x38, 0x28, 0x1A, 0x0F, 0x07, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13dB*/
++{0x66, 0x63, 0x59, 0x4C, 0x3B, 0x2B, 0x1C, 0x10, 0x08, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12.5dB*/
++{0x6C, 0x69, 0x5F, 0x50, 0x3F, 0x2D, 0x1E, 0x11, 0x08, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12dB*/
++{0x73, 0x6F, 0x64, 0x55, 0x42, 0x30, 0x1F, 0x12, 0x08, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11.5dB*/
++{0x79, 0x76, 0x6A, 0x5A, 0x46, 0x33, 0x21, 0x13, 0x09, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11dB*/
++{0x81, 0x7C, 0x71, 0x5F, 0x4A, 0x36, 0x23, 0x14, 0x0A, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10.5dB*/
++{0x88, 0x84, 0x77, 0x65, 0x4F, 0x39, 0x25, 0x15, 0x0A, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10dB*/
++{0x90, 0x8C, 0x7E, 0x6B, 0x54, 0x3C, 0x27, 0x17, 0x0B, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9.5dB*/
++{0x99, 0x94, 0x86, 0x71, 0x58, 0x40, 0x2A, 0x18, 0x0B, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9dB*/
++{0xA2, 0x9D, 0x8E, 0x78, 0x5E, 0x43, 0x2C, 0x19, 0x0C, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8.5dB*/
++{0xAC, 0xA6, 0x96, 0x7F, 0x63, 0x47, 0x2F, 0x1B, 0x0D, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8dB*/
++{0xB6, 0xB0, 0x9F, 0x87, 0x69, 0x4C, 0x32, 0x1D, 0x0D, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7.5dB*/
++{0xC1, 0xBA, 0xA8, 0x8F, 0x6F, 0x50, 0x35, 0x1E, 0x0E, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7dB*/
++{0xCC, 0xC5, 0xB2, 0x97, 0x76, 0x55, 0x38, 0x20, 0x0F, 0x05, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-6.5dB*/
++{0xD8, 0xD1, 0xBD, 0xA0, 0x7D, 0x5A, 0x3B, 0x22, 0x10, 0x05, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}     /*-6dB*/
++};
++
++
++u1Byte CCKSwingTable_Ch1_Ch13_88F[CCK_TABLE_SIZE_88F][16] = {
++{0x44, 0x42, 0x3C, 0x33, 0x28, 0x1C, 0x13, 0x0B, 0x05, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-16dB*/
++{0x48, 0x46, 0x3F, 0x36, 0x2A, 0x1E, 0x14, 0x0B, 0x05, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15.5dB*/
++{0x4D, 0x4A, 0x43, 0x39, 0x2C, 0x20, 0x15, 0x0C, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15dB*/
++{0x51, 0x4F, 0x47, 0x3C, 0x2F, 0x22, 0x16, 0x0D, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14.5dB*/
++{0x56, 0x53, 0x4B, 0x40, 0x32, 0x24, 0x17, 0x0E, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14dB*/
++{0x5B, 0x58, 0x50, 0x43, 0x35, 0x26, 0x19, 0x0E, 0x07, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13.5dB*/
++{0x60, 0x5D, 0x54, 0x47, 0x38, 0x28, 0x1A, 0x0F, 0x07, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13dB*/
++{0x66, 0x63, 0x59, 0x4C, 0x3B, 0x2B, 0x1C, 0x10, 0x08, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12.5dB*/
++{0x6C, 0x69, 0x5F, 0x50, 0x3F, 0x2D, 0x1E, 0x11, 0x08, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12dB*/
++{0x73, 0x6F, 0x64, 0x55, 0x42, 0x30, 0x1F, 0x12, 0x08, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11.5dB*/
++{0x79, 0x76, 0x6A, 0x5A, 0x46, 0x33, 0x21, 0x13, 0x09, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11dB*/
++{0x81, 0x7C, 0x71, 0x5F, 0x4A, 0x36, 0x23, 0x14, 0x0A, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10.5dB*/
++{0x88, 0x84, 0x77, 0x65, 0x4F, 0x39, 0x25, 0x15, 0x0A, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10dB*/
++{0x90, 0x8C, 0x7E, 0x6B, 0x54, 0x3C, 0x27, 0x17, 0x0B, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9.5dB*/
++{0x99, 0x94, 0x86, 0x71, 0x58, 0x40, 0x2A, 0x18, 0x0B, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9dB*/
++{0xA2, 0x9D, 0x8E, 0x78, 0x5E, 0x43, 0x2C, 0x19, 0x0C, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8.5dB*/
++{0xAC, 0xA6, 0x96, 0x7F, 0x63, 0x47, 0x2F, 0x1B, 0x0D, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8dB*/
++{0xB6, 0xB0, 0x9F, 0x87, 0x69, 0x4C, 0x32, 0x1D, 0x0D, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7.5dB*/
++{0xC1, 0xBA, 0xA8, 0x8F, 0x6F, 0x50, 0x35, 0x1E, 0x0E, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7dB*/
++{0xCC, 0xC5, 0xB2, 0x97, 0x76, 0x55, 0x38, 0x20, 0x0F, 0x05, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-6.5dB*/
++{0xD8, 0xD1, 0xBD, 0xA0, 0x7D, 0x5A, 0x3B, 0x22, 0x10, 0x05, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}     /*-6dB*/
++};
++
++
++u1Byte CCKSwingTable_Ch14_88F[CCK_TABLE_SIZE_88F][16] = {
++{0x44,	 0x42, 0x3C, 0x28, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-16dB*/
++{0x48, 0x46, 0x3F, 0x2A, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15.5dB*/
++{0x4D, 0x4A, 0x43, 0x2C, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15dB*/
++{0x51, 0x4F, 0x47, 0x2F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},	    /*-14.5dB*/
++{0x56, 0x53, 0x4B, 0x32, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14dB*/
++{0x5B, 0x58, 0x50, 0x35, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13.5dB*/
++{0x60, 0x5D, 0x54, 0x38, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13dB*/
++{0x66, 0x63, 0x59, 0x3B, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12.5dB*/
++{0x6C, 0x69, 0x5F, 0x3F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12dB*/
++{0x73, 0x6F, 0x64, 0x42, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11.5dB*/
++{0x79, 0x76, 0x6A, 0x46, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11dB*/
++{0x81, 0x7C, 0x71, 0x4A, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10.5dB*/
++{0x88, 0x84, 0x77, 0x4F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10dB*/
++{0x90, 0x8C, 0x7E, 0x54, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9.5dB*/
++{0x99, 0x94, 0x86, 0x58, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9dB*/
++{0xA2, 0x9D, 0x8E, 0x5E, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8.5dB*/
++{0xAC, 0xA6, 0x96, 0x63, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8dB*/
++{0xB6, 0xB0, 0x9F, 0x69, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7.5dB*/
++{0xC1, 0xBA, 0xA8, 0x6F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7dB*/
++{0xCC, 0xC5, 0xB2, 0x76, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-6.5dB*/
++{0xD8, 0xD1, 0xBD, 0x7D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}     /*-6dB*/
++};
++
++
++u1Byte CCKSwingTable_Ch1_Ch13_New[CCK_TABLE_SIZE][8] = {
++	{0x09, 0x08, 0x07, 0x06, 0x04, 0x03, 0x01, 0x01},	/*  0, -16.0dB*/
++	{0x09, 0x09, 0x08, 0x06, 0x05, 0x03, 0x01, 0x01},	/*   1, -15.5dB*/
++	{0x0a, 0x09, 0x08, 0x07, 0x05, 0x03, 0x02, 0x01},	/*  2, -15.0dB*/
++	{0x0a, 0x0a, 0x09, 0x07, 0x05, 0x03, 0x02, 0x01},	/*   3, -14.5dB*/
++	{0x0b, 0x0a, 0x09, 0x08, 0x06, 0x04, 0x02, 0x01},	/*   4, -14.0dB*/
++	{0x0b, 0x0b, 0x0a, 0x08, 0x06, 0x04, 0x02, 0x01},	/*   5, -13.5dB*/
++	{0x0c, 0x0c, 0x0a, 0x09, 0x06, 0x04, 0x02, 0x01},	/*   6, -13.0dB*/
++	{0x0d, 0x0c, 0x0b, 0x09, 0x07, 0x04, 0x02, 0x01},	/*   7, -12.5dB*/
++	{0x0d, 0x0d, 0x0c, 0x0a, 0x07, 0x05, 0x02, 0x01},	/*  8, -12.0dB*/
++	{0x0e, 0x0e, 0x0c, 0x0a, 0x08, 0x05, 0x02, 0x01},	/*   9, -11.5dB*/
++	{0x0f, 0x0f, 0x0d, 0x0b, 0x08, 0x05, 0x03, 0x01},	/*  10, -11.0dB*/
++	{0x10, 0x10, 0x0e, 0x0b, 0x08, 0x05, 0x03, 0x01},	/*  11, -10.5dB*/
++	{0x11, 0x11, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	/*  12, -10.0dB*/
++	{0x12, 0x12, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	/*  13, -9.5dB*/
++	{0x13, 0x13, 0x10, 0x0d, 0x0a, 0x06, 0x03, 0x01},	/*  14, -9.0dB */
++	{0x14, 0x14, 0x11, 0x0e, 0x0b, 0x07, 0x03, 0x02},	/*  15, -8.5dB*/
++	{0x16, 0x15, 0x12, 0x0f, 0x0b, 0x07, 0x04, 0x01},	/*  16, -8.0dB */
++	{0x17, 0x16, 0x13, 0x10, 0x0c, 0x08, 0x04, 0x02},	/*  17, -7.5dB*/
++	{0x18, 0x17, 0x15, 0x11, 0x0c, 0x08, 0x04, 0x02},	/*  18, -7.0dB */
++	{0x1a, 0x19, 0x16, 0x12, 0x0d, 0x09, 0x04, 0x02},	/*  19, -6.5dB*/
++    {0x1b, 0x1a, 0x17, 0x13, 0x0e, 0x09, 0x04, 0x02},	/*20, -6.0dB */
++	{0x1d, 0x1c, 0x18, 0x14, 0x0f, 0x0a, 0x05, 0x02},	/*  21, -5.5dB*/
++	{0x1f, 0x1e, 0x1a, 0x15, 0x10, 0x0a, 0x05, 0x02},	/* 22, -5.0dB */
++	{0x20, 0x20, 0x1b, 0x16, 0x11, 0x08, 0x05, 0x02},	/*  23, -4.5dB*/
++	{0x22, 0x21, 0x1d, 0x18, 0x11, 0x0b, 0x06, 0x02},	/*  24, -4.0dB */
++	{0x24, 0x23, 0x1f, 0x19, 0x13, 0x0c, 0x06, 0x03},	/*  25, -3.5dB*/
++	{0x26, 0x25, 0x21, 0x1b, 0x14, 0x0d, 0x06, 0x03},	/*  26, -3.0dB*/
++	{0x28, 0x28, 0x22, 0x1c, 0x15, 0x0d, 0x07, 0x03},	/*  27, -2.5dB*/
++	{0x2b, 0x2a, 0x25, 0x1e, 0x16, 0x0e, 0x07, 0x03},	/*  28, -2.0dB */
++	{0x2d, 0x2d, 0x27, 0x1f, 0x18, 0x0f, 0x08, 0x03},	/*  29, -1.5dB*/
++	{0x30, 0x2f, 0x29, 0x21, 0x19, 0x10, 0x08, 0x03},	/*  30, -1.0dB*/
++	{0x33, 0x32, 0x2b, 0x23, 0x1a, 0x11, 0x08, 0x04},	/*  31, -0.5dB*/
++	{0x36, 0x35, 0x2e, 0x25, 0x1c, 0x12, 0x09, 0x04} 	/*  32, +0dB*/
++};                                                                  
++
++
++u1Byte CCKSwingTable_Ch14_New[CCK_TABLE_SIZE][8]= {
++	{0x09, 0x08, 0x07, 0x04, 0x00, 0x00, 0x00, 0x00},	/*  0, -16.0dB*/
++	{0x09, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	/* 1, -15.5dB*/
++	{0x0a, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	/*  2, -15.0dB*/
++	{0x0a, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	/* 3, -14.5dB*/
++	{0x0b, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	/*  4, -14.0dB*/
++	{0x0b, 0x0b, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	/*5, -13.5dB*/
++	{0x0c, 0x0c, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	/* 6, -13.0dB*/
++	{0x0d, 0x0c, 0x0b, 0x06, 0x00, 0x00, 0x00, 0x00},	/*  7, -12.5dB*/
++	{0x0d, 0x0d, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	/* 8, -12.0dB*/
++	{0x0e, 0x0e, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	/* 9, -11.5dB*/
++	{0x0f, 0x0f, 0x0d, 0x08, 0x00, 0x00, 0x00, 0x00},	/* 10, -11.0dB*/
++	{0x10, 0x10, 0x0e, 0x08, 0x00, 0x00, 0x00, 0x00},	/*11, -10.5dB*/
++	{0x11, 0x11, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	/* 12, -10.0dB*/
++	{0x12, 0x12, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	/* 13, -9.5dB*/
++	{0x13, 0x13, 0x10, 0x0a, 0x00, 0x00, 0x00, 0x00},	/*14, -9.0dB  */
++	{0x14, 0x14, 0x11, 0x0a, 0x00, 0x00, 0x00, 0x00},	/* 15, -8.5dB*/
++	{0x16, 0x15, 0x12, 0x0b, 0x00, 0x00, 0x00, 0x00},	/* 16, -8.0dB  */
++	{0x17, 0x16, 0x13, 0x0b, 0x00, 0x00, 0x00, 0x00},	/* 17, -7.5dB*/
++	{0x18, 0x17, 0x15, 0x0c, 0x00, 0x00, 0x00, 0x00},	/* 18, -7.0dB  */
++	{0x1a, 0x19, 0x16, 0x0d, 0x00, 0x00, 0x00, 0x00},	/* 19, -6.5dB */
++	{0x1b, 0x1a, 0x17, 0x0e, 0x00, 0x00, 0x00, 0x00},	/* 20, -6.0dB  */
++	{0x1d, 0x1c, 0x18, 0x0e, 0x00, 0x00, 0x00, 0x00},	/* 21, -5.5dB*/
++	{0x1f, 0x1e, 0x1a, 0x0f, 0x00, 0x00, 0x00, 0x00},	/* 22, -5.0dB  */
++	{0x20, 0x20, 0x1b, 0x10, 0x00, 0x00, 0x00, 0x00},	/*23, -4.5dB*/
++	{0x22, 0x21, 0x1d, 0x11, 0x00, 0x00, 0x00, 0x00},	/* 24, -4.0dB  */
++	{0x24, 0x23, 0x1f, 0x12, 0x00, 0x00, 0x00, 0x00},	/* 25, -3.5dB  */
++	{0x26, 0x25, 0x21, 0x13, 0x00, 0x00, 0x00, 0x00},	/* 26, -3.0dB  */
++	{0x28, 0x28, 0x24, 0x14, 0x00, 0x00, 0x00, 0x00},	/*27, -2.5dB*/
++	{0x2b, 0x2a, 0x25, 0x15, 0x00, 0x00, 0x00, 0x00},	/* 28, -2.0dB  */
++	{0x2d, 0x2d, 0x17, 0x17, 0x00, 0x00, 0x00, 0x00},	/*29, -1.5dB*/
++	{0x30, 0x2f, 0x29, 0x18, 0x00, 0x00, 0x00, 0x00},	/* 30, -1.0dB  */
++	{0x33, 0x32, 0x2b, 0x19, 0x00, 0x00, 0x00, 0x00},	/* 31, -0.5dB */
++	{0x36, 0x35, 0x2e, 0x1b, 0x00, 0x00, 0x00, 0x00} 	/* 32, +0dB	*/
++};
++u4Byte CCKSwingTable_Ch1_Ch14_8723D[CCK_TABLE_SIZE_8723D] = {
++	0x0CD,          /*0 ,    -20dB*/
++	0x0D9,         
++	0x0E6,         
++	0x0F3,        
++	0x102,        
++	0x111,        
++	0x121,         
++	0x132,        
++	0x144,         
++	0x158,        
++	0x16C,        
++	0x182,         
++	0x198,        
++	0x1B1,        
++	0x1CA,        
++	0x1E5,        
++	0x202,        
++	0x221,         
++	0x241,        
++	0x263,        
++	0x287,         
++	0x2AE,        
++	0x2D6,         
++	0x301,        
++	0x32F,         
++	0x35F,    
++	0x392,         
++	0x3C9,      
++	0x402,       
++	0x43F,        
++	0x47F,         
++	0x4C3,         
++	0x50C,         
++	0x558,      
++	0x5A9,         
++	0x5FF,        
++	0x65A,         
++	0x6BA,         
++	0x720,        
++	0x78C,        
++	0x7FF,         
++};
++
++
++u4Byte TxScalingTable_Jaguar[TXSCALE_TABLE_SIZE] =
++{
++	0x081, /* 0,  -12.0dB*/
++	0x088, /* 1,  -11.5dB*/
++	0x090, /* 2,  -11.0dB*/
++	0x099, /* 3,  -10.5dB*/
++	0x0A2, /* 4,  -10.0dB*/
++	0x0AC, /* 5,  -9.5dB*/
++	0x0B6, /* 6,  -9.0dB*/
++	0x0C0, /*7,  -8.5dB*/
++	0x0CC, /* 8,  -8.0dB*/
++	0x0D8, /* 9,  -7.5dB*/
++	0x0E5, /* 10, -7.0dB*/
++	0x0F2, /* 11, -6.5dB*/
++	0x101, /* 12, -6.0dB*/
++	0x110, /* 13, -5.5dB*/
++	0x120, /* 14, -5.0dB*/
++	0x131, /* 15, -4.5dB*/
++	0x143, /* 16, -4.0dB*/
++	0x156, /* 17, -3.5dB*/
++	0x16A, /* 18, -3.0dB*/
++	0x180, /* 19, -2.5dB*/
++	0x197, /* 20, -2.0dB*/
++	0x1AF, /* 21, -1.5dB*/
++	0x1C8, /* 22, -1.0dB*/
++	0x1E3, /* 23, -0.5dB*/
++	0x200, /* 24, +0  dB*/
++	0x21E, /* 25, +0.5dB*/
++	0x23E, /* 26, +1.0dB*/
++	0x261, /* 27, +1.5dB*/
++	0x285,/* 28, +2.0dB*/
++	0x2AB, /* 29, +2.5dB*/
++	0x2D3, /*30, +3.0dB*/
++	0x2FE, /* 31, +3.5dB*/
++	0x32B, /* 32, +4.0dB*/
++	0x35C, /* 33, +4.5dB*/
++	0x38E, /* 34, +5.0dB*/
++	0x3C4, /* 35, +5.5dB*/
++	0x3FE  /* 36, +6.0dB	*/
++};
++
++#ifdef AP_BUILD_WORKAROUND
++
++unsigned int TxPwrTrk_OFDM_SwingTbl[TxPwrTrk_OFDM_SwingTbl_Len] = {
++	/*  +6.0dB */ 0x7f8001fe,
++	/*  +5.5dB */ 0x788001e2,
++	/*  +5.0dB */ 0x71c001c7,
++	/*  +4.5dB */ 0x6b8001ae,
++	/*  +4.0dB */ 0x65400195,
++	/*  +3.5dB */ 0x5fc0017f,
++	/*  +3.0dB */ 0x5a400169,
++	/*  +2.5dB */ 0x55400155,
++	/*  +2.0dB */ 0x50800142,
++	/*  +1.5dB */ 0x4c000130,
++	/*  +1.0dB */ 0x47c0011f,
++	/*  +0.5dB */ 0x43c0010f,
++	/*   0.0dB */ 0x40000100,
++	/*  -0.5dB */ 0x3c8000f2,
++	/*  -1.0dB */ 0x390000e4,
++	/*  -1.5dB */ 0x35c000d7,
++	/*  -2.0dB */ 0x32c000cb,
++	/*  -2.5dB */ 0x300000c0,
++	/*  -3.0dB */ 0x2d4000b5,
++	/*  -3.5dB */ 0x2ac000ab,
++	/*  -4.0dB */ 0x288000a2,
++	/*  -4.5dB */ 0x26000098,
++	/*  -5.0dB */ 0x24000090,
++	/*  -5.5dB */ 0x22000088,
++	/*  -6.0dB */ 0x20000080,
++	/*  -6.5dB */ 0x1a00006c,
++	/*  -7.0dB */ 0x1c800072,
++	/*  -7.5dB */ 0x18000060,
++	/*  -8.0dB */ 0x19800066,
++	/*  -8.5dB */ 0x15800056,
++	/*  -9.0dB */ 0x26c0005b,
++	/*  -9.5dB */ 0x14400051,
++	/* -10.0dB */ 0x24400051,
++	/* -10.5dB */ 0x1300004c,
++	/* -11.0dB */ 0x12000048,
++	/* -11.5dB */ 0x11000044,
++	/* -12.0dB */ 0x10000040
++};
++#endif
++
++
++
++VOID
++odm_TXPowerTrackingInit(
++	IN	PVOID	pDM_VOID 
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	if (!(pDM_Odm->SupportICType & (ODM_RTL8814A | ODM_IC_11N_SERIES)))
++		return;
++#endif
++
++	odm_TXPowerTrackingThermalMeterInit(pDM_Odm);
++}	
++
++u1Byte 
++getSwingIndex(
++	IN	PVOID	pDM_VOID 
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u1Byte 			i = 0;
++	u4Byte 			bbSwing;
++	u4Byte 			swingTableSize;
++	pu4Byte 			pSwingTable;
++
++	if (pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8723B
++		|| pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType == ODM_RTL8188F || pDM_Odm->SupportICType == ODM_RTL8703B
++	) {
++		bbSwing = PHY_QueryBBReg(Adapter, rOFDM0_XATxIQImbalance, 0xFFC00000);
++
++		pSwingTable = OFDMSwingTable_New;
++		swingTableSize = OFDM_TABLE_SIZE;
++	} else {
++#if ((RTL8812A_SUPPORT==1)||(RTL8821A_SUPPORT==1))
++		if (pDM_Odm->SupportICType == ODM_RTL8812 || pDM_Odm->SupportICType == ODM_RTL8821)
++		{
++			bbSwing = PHY_GetTxBBSwing_8812A(Adapter, pHalData->CurrentBandType, ODM_RF_PATH_A);
++			pSwingTable = TxScalingTable_Jaguar;
++			swingTableSize = TXSCALE_TABLE_SIZE;
++		}
++		else
++#endif
++		{
++			bbSwing = 0;
++			pSwingTable = OFDMSwingTable;
++			swingTableSize = OFDM_TABLE_SIZE;
++		}
++	}
++
++	for (i = 0; i < swingTableSize; ++i) {
++		u4Byte tableValue = pSwingTable[i];
++		
++		if (tableValue >= 0x100000 )
++			tableValue >>= 22;
++		if (bbSwing == tableValue)
++			break;
++	}
++	return i;
++}
++
++VOID
++odm_TXPowerTrackingThermalMeterInit(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte defaultSwingIndex = getSwingIndex(pDM_Odm);
++	u1Byte 			p = 0;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	if(pDM_Odm->mp_mode == FALSE)
++		pHalData->TxPowerTrackControl = TRUE;
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	pRFCalibrateInfo->bTXPowerTracking = _TRUE;
++	pRFCalibrateInfo->TXPowercount = 0;
++	pRFCalibrateInfo->bTXPowerTrackingInit = _FALSE;
++
++	if(pDM_Odm->mp_mode == FALSE)
++		pRFCalibrateInfo->TxPowerTrackControl = _TRUE;
++	else
++		pRFCalibrateInfo->TxPowerTrackControl = _FALSE;	
++
++	if(pDM_Odm->mp_mode == FALSE)
++		pRFCalibrateInfo->TxPowerTrackControl = _TRUE;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("pDM_Odm TxPowerTrackControl = %d\n", pRFCalibrateInfo->TxPowerTrackControl));
++	
++#elif (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	#ifdef RTL8188E_SUPPORT
++	{
++		pRFCalibrateInfo->bTXPowerTracking = _TRUE;
++		pRFCalibrateInfo->TXPowercount = 0;
++		pRFCalibrateInfo->bTXPowerTrackingInit = _FALSE;
++		pRFCalibrateInfo->TxPowerTrackControl = _TRUE;
++	}
++	#endif
++#endif
++
++	//pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = TRUE;
++	pRFCalibrateInfo->ThermalValue = pHalData->EEPROMThermalMeter;
++	pRFCalibrateInfo->ThermalValue_IQK = pHalData->EEPROMThermalMeter;
++	pRFCalibrateInfo->ThermalValue_LCK = pHalData->EEPROMThermalMeter;	
++
++	if (pRFCalibrateInfo->DefaultBbSwingIndexFlag != TRUE) {
++		/*The index of "0 dB" in SwingTable.*/
++		if (pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8723B ||
++			pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType == ODM_RTL8703B) {
++			pRFCalibrateInfo->DefaultOfdmIndex = (defaultSwingIndex >= OFDM_TABLE_SIZE) ? 30 : defaultSwingIndex;
++			pRFCalibrateInfo->DefaultCckIndex = 20;	
++		} else if (pDM_Odm->SupportICType == ODM_RTL8188F) {          /*add by Mingzhi.Guo  2015-03-23*/
++			pRFCalibrateInfo->DefaultOfdmIndex = 28;							/*OFDM: -1dB*/
++			pRFCalibrateInfo->DefaultCckIndex = 20;							/*CCK:-6dB*/
++		} else if (pDM_Odm->SupportICType == ODM_RTL8723D) {			 /*add by zhaohe  2015-10-27*/
++			pRFCalibrateInfo->DefaultOfdmIndex = 28;						 	   /*OFDM: -1dB*/
++			pRFCalibrateInfo->DefaultCckIndex = 28;							/*CCK:   -6dB*/
++		} else {
++			pRFCalibrateInfo->DefaultOfdmIndex = (defaultSwingIndex >= TXSCALE_TABLE_SIZE) ? 24 : defaultSwingIndex;
++			pRFCalibrateInfo->DefaultCckIndex = 24;	
++		}
++		pRFCalibrateInfo->DefaultBbSwingIndexFlag = TRUE;
++	}
++
++	pRFCalibrateInfo->BbSwingIdxCckBase = pRFCalibrateInfo->DefaultCckIndex;
++	pRFCalibrateInfo->CCK_index = pRFCalibrateInfo->DefaultCckIndex;
++	
++	for (p = ODM_RF_PATH_A; p < MAX_RF_PATH; ++p)
++	{
++		pRFCalibrateInfo->BbSwingIdxOfdmBase[p] = pRFCalibrateInfo->DefaultOfdmIndex;		
++		pRFCalibrateInfo->OFDM_index[p] = pRFCalibrateInfo->DefaultOfdmIndex;		
++		pRFCalibrateInfo->DeltaPowerIndex[p] = 0;
++		pRFCalibrateInfo->DeltaPowerIndexLast[p] = 0;
++		pRFCalibrateInfo->PowerIndexOffset[p] = 0;
++	}
++	pRFCalibrateInfo->Modify_TxAGC_Value_OFDM = 0;			
++	pRFCalibrateInfo->Modify_TxAGC_Value_CCK = 0;			
++
++}
++
++
++VOID
++ODM_TXPowerTrackingCheck(
++	IN	PVOID	pDM_VOID
++	)
++{
++	/* 2011/09/29 MH In HW integration first stage, we provide 4 different handle to operate
++	at the same time. In the stage2/3, we need to prive universal interface and merge all
++	HW dynamic mechanism. */
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	switch	(pDM_Odm->SupportPlatform)
++	{
++		case	ODM_WIN:
++			odm_TXPowerTrackingCheckMP(pDM_Odm);
++			break;
++
++		case	ODM_CE:
++			odm_TXPowerTrackingCheckCE(pDM_Odm);
++			break;
++
++		case	ODM_AP:
++			odm_TXPowerTrackingCheckAP(pDM_Odm);		
++			break;		
++
++		default:
++			break;	
++	}
++
++}
++
++VOID
++odm_TXPowerTrackingCheckCE(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++	if (!(pDM_Odm->SupportAbility & ODM_RF_TX_PWR_TRACK))
++		return;
++
++	if (!pDM_Odm->RFCalibrateInfo.TM_Trigger) {
++		
++		if (IS_HARDWARE_TYPE_8188E(Adapter) || IS_HARDWARE_TYPE_8188F(Adapter) || IS_HARDWARE_TYPE_8192E(Adapter)
++			|| IS_HARDWARE_TYPE_8723B(Adapter)
++			|| IS_HARDWARE_TYPE_JAGUAR(Adapter) || IS_HARDWARE_TYPE_8814A(Adapter)
++			|| IS_HARDWARE_TYPE_8703B(Adapter)  || IS_HARDWARE_TYPE_8723D(Adapter)
++		) {
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_T_METER_NEW, (BIT17 | BIT16), 0x03);
++		} else {
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_T_METER_OLD, bRFRegOffsetMask, 0x60);
++		}
++		
++	
++		
++		pDM_Odm->RFCalibrateInfo.TM_Trigger = 1;
++		return;
++	}
++	else
++	{
++		
++		ODM_TXPowerTrackingCallback_ThermalMeter(Adapter);
++		pDM_Odm->RFCalibrateInfo.TM_Trigger = 0;
++	}
++
++#endif	
++}
++
++VOID
++odm_TXPowerTrackingCheckMP(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++	if (ODM_CheckPowerStatus(Adapter) == FALSE) 
++	{
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD, ("===>ODM_CheckPowerStatus() return FALSE\n"));
++		return;
++	}
++
++	odm_TXPowerTrackingThermalMeterCheck(Adapter);
++#endif
++	
++}
++
++
++VOID
++odm_TXPowerTrackingCheckAP(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	prtl8192cd_priv	priv		= pDM_Odm->priv;
++
++	return;
++	
++#endif
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++odm_TXPowerTrackingThermalMeterCheck(
++	IN	PADAPTER		Adapter
++	)
++{
++#ifndef AP_BUILD_WORKAROUND
++	static u1Byte			TM_Trigger = 0;
++
++	if (!(GET_HAL_DATA(Adapter)->DM_OutSrc.SupportAbility & ODM_RF_TX_PWR_TRACK)) {
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD,
++			("===>odm_TXPowerTrackingThermalMeterCheck(),pMgntInfo->bTXPowerTracking is FALSE, return!!\n"));
++		return;
++	}
++
++	if (!TM_Trigger) {
++		if (IS_HARDWARE_TYPE_8188E(Adapter) || IS_HARDWARE_TYPE_JAGUAR(Adapter) || IS_HARDWARE_TYPE_8192E(Adapter) ||
++				IS_HARDWARE_TYPE_8723B(Adapter) || IS_HARDWARE_TYPE_8814A(Adapter) || IS_HARDWARE_TYPE_8188F(Adapter) 
++				|| IS_HARDWARE_TYPE_8703B(Adapter) || IS_HARDWARE_TYPE_8723D(Adapter))
++			PHY_SetRFReg(Adapter, ODM_RF_PATH_A, RF_T_METER_88E, BIT17 | BIT16, 0x03);
++		else
++			PHY_SetRFReg(Adapter, ODM_RF_PATH_A, RF_T_METER, bRFRegOffsetMask, 0x60);
++		
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD,("Trigger Thermal Meter!!\n"));
++		
++		TM_Trigger = 1;
++		return;
++	} else {
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD,("Schedule TxPowerTracking direct call!!\n"));		
++		odm_TXPowerTrackingDirectCall(Adapter); 
++		TM_Trigger = 0;
++	}
++#endif
++}
++#endif
++
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_powertracking_ce.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_powertracking_ce.h
+new file mode 100644
+index 0000000..47ecf4f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_powertracking_ce.h
+@@ -0,0 +1,334 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMPOWERTRACKING_H__
++#define    __PHYDMPOWERTRACKING_H__
++
++#define POWRTRACKING_VERSION	"1.1"
++
++#define		DPK_DELTA_MAPPING_NUM	13
++#define		index_mapping_HP_NUM	15	
++#define	OFDM_TABLE_SIZE 	43
++#define	CCK_TABLE_SIZE			33
++#define	CCK_TABLE_SIZE_88F	21
++#define TXSCALE_TABLE_SIZE 		37
++#define CCK_TABLE_SIZE_8723D	41
++
++#define TXPWR_TRACK_TABLE_SIZE 	30
++#define DELTA_SWINGIDX_SIZE     30
++#define DELTA_SWINTSSI_SIZE     61
++#define BAND_NUM 				4
++
++#define AVG_THERMAL_NUM		8
++#define HP_THERMAL_NUM		8
++#define IQK_MAC_REG_NUM		4
++#define IQK_ADDA_REG_NUM		16
++#define IQK_BB_REG_NUM_MAX	10
++
++#define IQK_BB_REG_NUM		9
++
++
++
++#define IQK_Matrix_REG_NUM	8
++#define IQK_Matrix_Settings_NUM	14+24+21 // Channels_2_4G_NUM + Channels_5G_20M_NUM + Channels_5G
++
++extern	u4Byte OFDMSwingTable[OFDM_TABLE_SIZE];
++extern	u1Byte CCKSwingTable_Ch1_Ch13[CCK_TABLE_SIZE][8];
++extern	u1Byte CCKSwingTable_Ch14 [CCK_TABLE_SIZE][8];
++
++extern	u4Byte OFDMSwingTable_New[OFDM_TABLE_SIZE];
++extern	u1Byte CCKSwingTable_Ch1_Ch13_New[CCK_TABLE_SIZE][8];
++extern	u1Byte CCKSwingTable_Ch14_New [CCK_TABLE_SIZE][8];
++extern	u1Byte CCKSwingTable_Ch1_Ch14_88F[CCK_TABLE_SIZE_88F][16];
++extern	u1Byte CCKSwingTable_Ch1_Ch13_88F[CCK_TABLE_SIZE_88F][16];
++extern	u1Byte CCKSwingTable_Ch14_88F[CCK_TABLE_SIZE_88F][16];
++extern	u4Byte CCKSwingTable_Ch1_Ch14_8723D[CCK_TABLE_SIZE_8723D];
++
++extern  u4Byte TxScalingTable_Jaguar[TXSCALE_TABLE_SIZE];
++
++// <20121018, Kordan> In case fail to read TxPowerTrack.txt, we use the table of 88E as the default table.
++static u1Byte DeltaSwingTableIdx_2GA_P_8188E[] = {0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 4,  4,  4,  4,  4,  4,  5,  5,  7,  7,  8,  8,  8,  9,  9,  9,  9,  9};
++static u1Byte DeltaSwingTableIdx_2GA_N_8188E[] = {0, 0, 0, 2, 2, 3, 3, 4, 4, 4, 4, 5, 5,  6,  6,  7,  7,  7,  7,  8,  8,  9,  9, 10, 10, 10, 11, 11, 11, 11}; 
++
++#define dm_CheckTXPowerTracking 	ODM_TXPowerTrackingCheck
++
++typedef struct _IQK_MATRIX_REGS_SETTING{
++	BOOLEAN 	bIQKDone;
++	s4Byte		Value[3][IQK_Matrix_REG_NUM];
++	BOOLEAN 	bBWIqkResultSaved[3];	
++}IQK_MATRIX_REGS_SETTING,*PIQK_MATRIX_REGS_SETTING;
++
++typedef struct ODM_RF_Calibration_Structure
++{
++	//for tx power tracking
++	
++	u4Byte	RegA24; // for TempCCK
++	s4Byte	RegE94;
++	s4Byte 	RegE9C;
++	s4Byte	RegEB4;
++	s4Byte	RegEBC;	
++
++	u1Byte  	TXPowercount;
++	BOOLEAN bTXPowerTrackingInit; 
++	BOOLEAN bTXPowerTracking;
++	u1Byte  	TxPowerTrackControl; //for mp mode, turn off txpwrtracking as default
++	u1Byte  	TM_Trigger;
++    	u1Byte  	InternalPA5G[2];	//pathA / pathB
++	
++	u1Byte  	ThermalMeter[2];    // ThermalMeter, index 0 for RFIC0, and 1 for RFIC1
++	u1Byte  	ThermalValue;
++	u1Byte  	ThermalValue_LCK;
++	u1Byte  	ThermalValue_IQK;
++	u1Byte	ThermalValue_DPK;		
++	u1Byte	ThermalValue_AVG[AVG_THERMAL_NUM];
++	u1Byte	ThermalValue_AVG_index;		
++	u1Byte	ThermalValue_RxGain;
++	u1Byte	ThermalValue_Crystal;
++	u1Byte	ThermalValue_DPKstore;
++	u1Byte	ThermalValue_DPKtrack;
++	BOOLEAN	TxPowerTrackingInProgress;
++	
++	BOOLEAN	bReloadtxpowerindex;	
++	u1Byte 	bRfPiEnable;
++	u4Byte 	TXPowerTrackingCallbackCnt; //cosa add for debug
++
++
++	//------------------------- Tx power Tracking -------------------------//
++	u1Byte 	bCCKinCH14;
++	u1Byte 	CCK_index;
++	u1Byte 	OFDM_index[MAX_RF_PATH];
++	s1Byte	PowerIndexOffset[MAX_RF_PATH];
++	s1Byte	DeltaPowerIndex[MAX_RF_PATH];
++	s1Byte	DeltaPowerIndexLast[MAX_RF_PATH];	
++	BOOLEAN bTxPowerChanged;
++	s1Byte	XtalOffset;
++	s1Byte	XtalOffsetLast;
++		
++	u1Byte 	ThermalValue_HP[HP_THERMAL_NUM];
++	u1Byte 	ThermalValue_HP_index;
++	IQK_MATRIX_REGS_SETTING IQKMatrixRegSetting[IQK_Matrix_Settings_NUM];
++	u1Byte	Delta_LCK;
++	s1Byte  BBSwingDiff2G, BBSwingDiff5G; // Unit: dB
++	u1Byte  DeltaSwingTableIdx_2GCCKA_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKA_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKB_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKB_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKC_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKC_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKD_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKD_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GB_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GB_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GC_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GC_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GD_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GD_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GA_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GA_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GB_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GB_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GC_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GC_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GD_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GD_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTSSITable_2GCCKA[DELTA_SWINTSSI_SIZE];         
++	u1Byte  DeltaSwingTSSITable_2GCCKB[DELTA_SWINTSSI_SIZE];           
++	u1Byte  DeltaSwingTSSITable_2GCCKC[DELTA_SWINTSSI_SIZE];            
++	u1Byte  DeltaSwingTSSITable_2GCCKD[DELTA_SWINTSSI_SIZE];            
++	u1Byte  DeltaSwingTSSITable_2GA[DELTA_SWINTSSI_SIZE];                
++	u1Byte  DeltaSwingTSSITable_2GB[DELTA_SWINTSSI_SIZE];              
++	u1Byte  DeltaSwingTSSITable_2GC[DELTA_SWINTSSI_SIZE];                   
++	u1Byte  DeltaSwingTSSITable_2GD[DELTA_SWINTSSI_SIZE];                
++	u1Byte  DeltaSwingTSSITable_5GA[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTSSITable_5GB[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTSSITable_5GC[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTSSITable_5GD[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	s1Byte  DeltaSwingTableXtal_P[DELTA_SWINGIDX_SIZE];
++	s1Byte  DeltaSwingTableXtal_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_P_8188E[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_N_8188E[DELTA_SWINGIDX_SIZE];
++    
++	u1Byte			BbSwingIdxOfdm[MAX_RF_PATH];
++	u1Byte			BbSwingIdxOfdmCurrent;
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))	
++	u1Byte			BbSwingIdxOfdmBase[MAX_RF_PATH];
++#else
++	u1Byte			BbSwingIdxOfdmBase;
++#endif
++	BOOLEAN		DefaultBbSwingIndexFlag;
++	BOOLEAN			BbSwingFlagOfdm;
++	u1Byte			BbSwingIdxCck;
++	u1Byte			BbSwingIdxCckCurrent;
++	u1Byte			BbSwingIdxCckBase;
++	u1Byte			DefaultOfdmIndex;
++	u1Byte			DefaultCckIndex;	
++	BOOLEAN			BbSwingFlagCck;
++	
++	s1Byte			Absolute_OFDMSwingIdx[MAX_RF_PATH];   
++	s1Byte			Remnant_OFDMSwingIdx[MAX_RF_PATH];   
++	s1Byte			Absolute_CCKSwingIdx[MAX_RF_PATH]; 
++	s1Byte			Remnant_CCKSwingIdx;
++	s1Byte			Modify_TxAGC_Value;       /*Remnat compensate value at TxAGC */
++	BOOLEAN			Modify_TxAGC_Flag_PathA;
++	BOOLEAN			Modify_TxAGC_Flag_PathB;
++	BOOLEAN			Modify_TxAGC_Flag_PathC;
++	BOOLEAN			Modify_TxAGC_Flag_PathD;
++	BOOLEAN			Modify_TxAGC_Flag_PathA_CCK;
++	
++	s1Byte			KfreeOffset[MAX_RF_PATH];
++    
++	//--------------------------------------------------------------------//	
++	
++	//for IQK	
++	u4Byte 	RegC04;
++	u4Byte 	Reg874;
++	u4Byte 	RegC08;
++	u4Byte 	RegB68;
++	u4Byte 	RegB6C;
++	u4Byte 	Reg870;
++	u4Byte 	Reg860;
++	u4Byte 	Reg864;
++	
++	BOOLEAN	bIQKInitialized;
++	BOOLEAN bLCKInProgress;
++	BOOLEAN	bAntennaDetected;
++	BOOLEAN	bNeedIQK;
++	BOOLEAN	bIQKInProgress;	
++	BOOLEAN bIQKPAoff;
++	u1Byte	Delta_IQK;
++	u4Byte	ADDA_backup[IQK_ADDA_REG_NUM];
++	u4Byte	IQK_MAC_backup[IQK_MAC_REG_NUM];
++	u4Byte	IQK_BB_backup_recover[9];
++	u4Byte	IQK_BB_backup[IQK_BB_REG_NUM];	
++	u4Byte 	TxIQC_8723B[2][3][2]; // { {S1: 0xc94, 0xc80, 0xc4c} , {S0: 0xc9c, 0xc88, 0xc4c}}
++	u4Byte 	RxIQC_8723B[2][2][2]; // { {S1: 0xc14, 0xca0} ,           {S0: 0xc14, 0xca0}}
++	u4Byte	TxIQC_8703B[3][2];	/* { {S1: 0xc94, 0xc80, 0xc4c} , {S0: 0xc9c, 0xc88, 0xc4c}}*/
++	u4Byte	RxIQC_8703B[2][2];	/* { {S1: 0xc14, 0xca0} ,           {S0: 0xc14, 0xca0}}*/
++	u4Byte	TxIQC_8723D[2][3][2];	/* { {S1: 0xc94, 0xc80, 0xc4c} , {S0: 0xc9c, 0xc88, 0xc4c}}*/
++	u4Byte	RxIQC_8723D[2][2][2];	/* { {S1: 0xc14, 0xca0} ,           {S0: 0xc14, 0xca0}}*/
++
++	u1Byte	IQKstep;
++	u1Byte	Kcount;
++	u1Byte	retry_count[4][2]; /* [4]: path ABCD, [2] TXK, RXK */
++	BOOLEAN	isMPmode;
++
++	
++
++	// <James> IQK time measurement 
++	u8Byte	IQK_StartTime;
++	u8Byte	IQK_ProgressingTime;
++	u8Byte	IQK_TotalProgressingTime;
++
++	u4Byte  LOK_Result;
++
++	//for APK
++	u4Byte 	APKoutput[2][2]; //path A/B; output1_1a/output1_2a
++	u1Byte 	bAPKdone;
++	u1Byte 	bAPKThermalMeterIgnore;
++	
++	// DPK
++	BOOLEAN bDPKFail;	
++	u1Byte 	bDPdone;
++	u1Byte 	bDPPathAOK;
++	u1Byte 	bDPPathBOK;
++
++	u4Byte	TxLOK[2];
++	u4Byte  DpkTxAGC;
++	s4Byte  DpkGain;
++	u4Byte  DpkThermal[4];
++	s1Byte Modify_TxAGC_Value_OFDM;
++	s1Byte Modify_TxAGC_Value_CCK;
++
++	/*Add by Yuchen for Kfree Phydm*/
++	u1Byte			RegRfKFreeEnable;	/*for registry*/
++	u1Byte			RfKFreeEnable;		/*for efuse enable check*/
++	
++}ODM_RF_CAL_T,*PODM_RF_CAL_T;
++
++
++VOID	
++ODM_TXPowerTrackingCheck(
++	IN 	PVOID	 	pDM_VOID
++	);
++
++
++VOID
++odm_TXPowerTrackingInit(
++	IN 	PVOID	 	pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingCheckAP(
++	IN 	PVOID	 	pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingThermalMeterInit(
++	IN 	PVOID	 	pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingInit(
++	IN 	PVOID	 	pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingCheckMP(
++	IN 	PVOID	 	pDM_VOID
++	);
++
++
++VOID
++odm_TXPowerTrackingCheckCE(
++	IN 	PVOID	 	pDM_VOID
++	);
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_WIN)) 
++
++VOID 
++odm_TXPowerTrackingCallbackThermalMeter92C(
++            IN PADAPTER	Adapter
++            );
++
++VOID
++odm_TXPowerTrackingCallbackRXGainThermalMeter92D(
++	IN PADAPTER 	Adapter
++	);
++
++VOID
++odm_TXPowerTrackingCallbackThermalMeter92D(
++            IN PADAPTER	Adapter
++            );
++
++VOID
++odm_TXPowerTrackingDirectCall92C(
++            IN	PADAPTER		Adapter
++            );
++
++VOID
++odm_TXPowerTrackingThermalMeterCheck(
++	IN	PADAPTER		Adapter
++	);
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_powertracking_win.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_powertracking_win.c
+new file mode 100644
+index 0000000..9935007
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_powertracking_win.c
+@@ -0,0 +1,788 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++//============================================================
++// Global var
++//============================================================
++
++u4Byte	OFDMSwingTable[OFDM_TABLE_SIZE] = {
++	0x7f8001fe,	// 0, +6.0dB
++	0x788001e2,	// 1, +5.5dB
++	0x71c001c7,	// 2, +5.0dB
++	0x6b8001ae,	// 3, +4.5dB
++	0x65400195,	// 4, +4.0dB
++	0x5fc0017f,	// 5, +3.5dB
++	0x5a400169,	// 6, +3.0dB
++	0x55400155,	// 7, +2.5dB
++	0x50800142,	// 8, +2.0dB
++	0x4c000130,	// 9, +1.5dB
++	0x47c0011f,	// 10, +1.0dB
++	0x43c0010f,	// 11, +0.5dB
++	0x40000100,	// 12, +0dB
++	0x3c8000f2,	// 13, -0.5dB
++	0x390000e4,	// 14, -1.0dB
++	0x35c000d7,	// 15, -1.5dB
++	0x32c000cb,	// 16, -2.0dB
++	0x300000c0,	// 17, -2.5dB
++	0x2d4000b5,	// 18, -3.0dB
++	0x2ac000ab,	// 19, -3.5dB
++	0x288000a2,	// 20, -4.0dB
++	0x26000098,	// 21, -4.5dB
++	0x24000090,	// 22, -5.0dB
++	0x22000088,	// 23, -5.5dB
++	0x20000080,	// 24, -6.0dB
++	0x1e400079,	// 25, -6.5dB
++	0x1c800072,	// 26, -7.0dB
++	0x1b00006c,	// 27. -7.5dB
++	0x19800066,	// 28, -8.0dB
++	0x18000060,	// 29, -8.5dB
++	0x16c0005b,	// 30, -9.0dB
++	0x15800056,	// 31, -9.5dB
++	0x14400051,	// 32, -10.0dB
++	0x1300004c,	// 33, -10.5dB
++	0x12000048,	// 34, -11.0dB
++	0x11000044,	// 35, -11.5dB
++	0x10000040,	// 36, -12.0dB
++};
++
++u1Byte	CCKSwingTable_Ch1_Ch13[CCK_TABLE_SIZE][8] = {
++	{0x36, 0x35, 0x2e, 0x25, 0x1c, 0x12, 0x09, 0x04},	// 0, +0dB
++	{0x33, 0x32, 0x2b, 0x23, 0x1a, 0x11, 0x08, 0x04},	// 1, -0.5dB
++	{0x30, 0x2f, 0x29, 0x21, 0x19, 0x10, 0x08, 0x03},	// 2, -1.0dB
++	{0x2d, 0x2d, 0x27, 0x1f, 0x18, 0x0f, 0x08, 0x03},	// 3, -1.5dB
++	{0x2b, 0x2a, 0x25, 0x1e, 0x16, 0x0e, 0x07, 0x03},	// 4, -2.0dB 
++	{0x28, 0x28, 0x22, 0x1c, 0x15, 0x0d, 0x07, 0x03},	// 5, -2.5dB
++	{0x26, 0x25, 0x21, 0x1b, 0x14, 0x0d, 0x06, 0x03},	// 6, -3.0dB
++	{0x24, 0x23, 0x1f, 0x19, 0x13, 0x0c, 0x06, 0x03},	// 7, -3.5dB
++	{0x22, 0x21, 0x1d, 0x18, 0x11, 0x0b, 0x06, 0x02},	// 8, -4.0dB 
++	{0x20, 0x20, 0x1b, 0x16, 0x11, 0x08, 0x05, 0x02},	// 9, -4.5dB
++	{0x1f, 0x1e, 0x1a, 0x15, 0x10, 0x0a, 0x05, 0x02},	// 10, -5.0dB 
++	{0x1d, 0x1c, 0x18, 0x14, 0x0f, 0x0a, 0x05, 0x02},	// 11, -5.5dB
++	{0x1b, 0x1a, 0x17, 0x13, 0x0e, 0x09, 0x04, 0x02},	// 12, -6.0dB <== default
++	{0x1a, 0x19, 0x16, 0x12, 0x0d, 0x09, 0x04, 0x02},	// 13, -6.5dB
++	{0x18, 0x17, 0x15, 0x11, 0x0c, 0x08, 0x04, 0x02},	// 14, -7.0dB 
++	{0x17, 0x16, 0x13, 0x10, 0x0c, 0x08, 0x04, 0x02},	// 15, -7.5dB
++	{0x16, 0x15, 0x12, 0x0f, 0x0b, 0x07, 0x04, 0x01},	// 16, -8.0dB 
++	{0x14, 0x14, 0x11, 0x0e, 0x0b, 0x07, 0x03, 0x02},	// 17, -8.5dB
++	{0x13, 0x13, 0x10, 0x0d, 0x0a, 0x06, 0x03, 0x01},	// 18, -9.0dB 
++	{0x12, 0x12, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	// 19, -9.5dB
++	{0x11, 0x11, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	// 20, -10.0dB
++	{0x10, 0x10, 0x0e, 0x0b, 0x08, 0x05, 0x03, 0x01},	// 21, -10.5dB
++	{0x0f, 0x0f, 0x0d, 0x0b, 0x08, 0x05, 0x03, 0x01},	// 22, -11.0dB
++	{0x0e, 0x0e, 0x0c, 0x0a, 0x08, 0x05, 0x02, 0x01},	// 23, -11.5dB
++	{0x0d, 0x0d, 0x0c, 0x0a, 0x07, 0x05, 0x02, 0x01},	// 24, -12.0dB
++	{0x0d, 0x0c, 0x0b, 0x09, 0x07, 0x04, 0x02, 0x01},	// 25, -12.5dB
++	{0x0c, 0x0c, 0x0a, 0x09, 0x06, 0x04, 0x02, 0x01},	// 26, -13.0dB
++	{0x0b, 0x0b, 0x0a, 0x08, 0x06, 0x04, 0x02, 0x01},	// 27, -13.5dB
++	{0x0b, 0x0a, 0x09, 0x08, 0x06, 0x04, 0x02, 0x01},	// 28, -14.0dB
++	{0x0a, 0x0a, 0x09, 0x07, 0x05, 0x03, 0x02, 0x01},	// 29, -14.5dB
++	{0x0a, 0x09, 0x08, 0x07, 0x05, 0x03, 0x02, 0x01},	// 30, -15.0dB
++	{0x09, 0x09, 0x08, 0x06, 0x05, 0x03, 0x01, 0x01},	// 31, -15.5dB
++	{0x09, 0x08, 0x07, 0x06, 0x04, 0x03, 0x01, 0x01}	// 32, -16.0dB
++};
++
++
++u1Byte	CCKSwingTable_Ch14[CCK_TABLE_SIZE][8] = {
++	{0x36, 0x35, 0x2e, 0x1b, 0x00, 0x00, 0x00, 0x00},	// 0, +0dB  
++	{0x33, 0x32, 0x2b, 0x19, 0x00, 0x00, 0x00, 0x00},	// 1, -0.5dB 
++	{0x30, 0x2f, 0x29, 0x18, 0x00, 0x00, 0x00, 0x00},	// 2, -1.0dB  
++	{0x2d, 0x2d, 0x17, 0x17, 0x00, 0x00, 0x00, 0x00},	// 3, -1.5dB
++	{0x2b, 0x2a, 0x25, 0x15, 0x00, 0x00, 0x00, 0x00},	// 4, -2.0dB  
++	{0x28, 0x28, 0x24, 0x14, 0x00, 0x00, 0x00, 0x00},	// 5, -2.5dB
++	{0x26, 0x25, 0x21, 0x13, 0x00, 0x00, 0x00, 0x00},	// 6, -3.0dB  
++	{0x24, 0x23, 0x1f, 0x12, 0x00, 0x00, 0x00, 0x00},	// 7, -3.5dB  
++	{0x22, 0x21, 0x1d, 0x11, 0x00, 0x00, 0x00, 0x00},	// 8, -4.0dB  
++	{0x20, 0x20, 0x1b, 0x10, 0x00, 0x00, 0x00, 0x00},	// 9, -4.5dB
++	{0x1f, 0x1e, 0x1a, 0x0f, 0x00, 0x00, 0x00, 0x00},	// 10, -5.0dB  
++	{0x1d, 0x1c, 0x18, 0x0e, 0x00, 0x00, 0x00, 0x00},	// 11, -5.5dB
++	{0x1b, 0x1a, 0x17, 0x0e, 0x00, 0x00, 0x00, 0x00},	// 12, -6.0dB  <== default
++	{0x1a, 0x19, 0x16, 0x0d, 0x00, 0x00, 0x00, 0x00},	// 13, -6.5dB 
++	{0x18, 0x17, 0x15, 0x0c, 0x00, 0x00, 0x00, 0x00},	// 14, -7.0dB  
++	{0x17, 0x16, 0x13, 0x0b, 0x00, 0x00, 0x00, 0x00},	// 15, -7.5dB
++	{0x16, 0x15, 0x12, 0x0b, 0x00, 0x00, 0x00, 0x00},	// 16, -8.0dB  
++	{0x14, 0x14, 0x11, 0x0a, 0x00, 0x00, 0x00, 0x00},	// 17, -8.5dB
++	{0x13, 0x13, 0x10, 0x0a, 0x00, 0x00, 0x00, 0x00},	// 18, -9.0dB  
++	{0x12, 0x12, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	// 19, -9.5dB
++	{0x11, 0x11, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	// 20, -10.0dB
++	{0x10, 0x10, 0x0e, 0x08, 0x00, 0x00, 0x00, 0x00},	// 21, -10.5dB
++	{0x0f, 0x0f, 0x0d, 0x08, 0x00, 0x00, 0x00, 0x00},	// 22, -11.0dB
++	{0x0e, 0x0e, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	// 23, -11.5dB
++	{0x0d, 0x0d, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	// 24, -12.0dB
++	{0x0d, 0x0c, 0x0b, 0x06, 0x00, 0x00, 0x00, 0x00},	// 25, -12.5dB
++	{0x0c, 0x0c, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	// 26, -13.0dB
++	{0x0b, 0x0b, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	// 27, -13.5dB
++	{0x0b, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	// 28, -14.0dB
++	{0x0a, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	// 29, -14.5dB
++	{0x0a, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	// 30, -15.0dB
++	{0x09, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	// 31, -15.5dB
++	{0x09, 0x08, 0x07, 0x04, 0x00, 0x00, 0x00, 0x00}	// 32, -16.0dB
++};
++
++
++u4Byte OFDMSwingTable_New[OFDM_TABLE_SIZE] = {
++	0x0b40002d, // 0,  -15.0dB	
++	0x0c000030, // 1,  -14.5dB
++	0x0cc00033, // 2,  -14.0dB
++	0x0d800036, // 3,  -13.5dB
++	0x0e400039, // 4,  -13.0dB    
++	0x0f00003c, // 5,  -12.5dB
++	0x10000040, // 6,  -12.0dB
++	0x11000044, // 7,  -11.5dB
++	0x12000048, // 8,  -11.0dB
++	0x1300004c, // 9,  -10.5dB
++	0x14400051, // 10, -10.0dB
++	0x15800056, // 11, -9.5dB
++	0x16c0005b, // 12, -9.0dB
++	0x18000060, // 13, -8.5dB
++	0x19800066, // 14, -8.0dB
++	0x1b00006c, // 15, -7.5dB
++	0x1c800072, // 16, -7.0dB
++	0x1e400079, // 17, -6.5dB
++	0x20000080, // 18, -6.0dB
++	0x22000088, // 19, -5.5dB
++	0x24000090, // 20, -5.0dB
++	0x26000098, // 21, -4.5dB
++	0x288000a2, // 22, -4.0dB
++	0x2ac000ab, // 23, -3.5dB
++	0x2d4000b5, // 24, -3.0dB
++	0x300000c0, // 25, -2.5dB
++	0x32c000cb, // 26, -2.0dB
++	0x35c000d7, // 27, -1.5dB
++	0x390000e4, // 28, -1.0dB
++	0x3c8000f2, // 29, -0.5dB
++	0x40000100, // 30, +0dB
++	0x43c0010f, // 31, +0.5dB
++	0x47c0011f, // 32, +1.0dB
++	0x4c000130, // 33, +1.5dB
++	0x50800142, // 34, +2.0dB
++	0x55400155, // 35, +2.5dB
++	0x5a400169, // 36, +3.0dB
++	0x5fc0017f, // 37, +3.5dB
++	0x65400195, // 38, +4.0dB
++	0x6b8001ae, // 39, +4.5dB
++	0x71c001c7, // 40, +5.0dB
++	0x788001e2, // 41, +5.5dB
++	0x7f8001fe  // 42, +6.0dB
++};               
++
++
++u1Byte CCKSwingTable_Ch1_Ch14_88F[CCK_TABLE_SIZE_88F][16] = {
++{0x44, 0x42, 0x3C, 0x33, 0x28, 0x1C, 0x13, 0x0B, 0x05, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-16dB*/
++{0x48, 0x46, 0x3F, 0x36, 0x2A, 0x1E, 0x14, 0x0B, 0x05, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15.5dB*/
++{0x4D, 0x4A, 0x43, 0x39, 0x2C, 0x20, 0x15, 0x0C, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15dB*/
++{0x51, 0x4F, 0x47, 0x3C, 0x2F, 0x22, 0x16, 0x0D, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14.5dB*/
++{0x56, 0x53, 0x4B, 0x40, 0x32, 0x24, 0x17, 0x0E, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14dB*/
++{0x5B, 0x58, 0x50, 0x43, 0x35, 0x26, 0x19, 0x0E, 0x07, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13.5dB*/
++{0x60, 0x5D, 0x54, 0x47, 0x38, 0x28, 0x1A, 0x0F, 0x07, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13dB*/
++{0x66, 0x63, 0x59, 0x4C, 0x3B, 0x2B, 0x1C, 0x10, 0x08, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12.5dB*/
++{0x6C, 0x69, 0x5F, 0x50, 0x3F, 0x2D, 0x1E, 0x11, 0x08, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12dB*/
++{0x73, 0x6F, 0x64, 0x55, 0x42, 0x30, 0x1F, 0x12, 0x08, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11.5dB*/
++{0x79, 0x76, 0x6A, 0x5A, 0x46, 0x33, 0x21, 0x13, 0x09, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11dB*/
++{0x81, 0x7C, 0x71, 0x5F, 0x4A, 0x36, 0x23, 0x14, 0x0A, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10.5dB*/
++{0x88, 0x84, 0x77, 0x65, 0x4F, 0x39, 0x25, 0x15, 0x0A, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10dB*/
++{0x90, 0x8C, 0x7E, 0x6B, 0x54, 0x3C, 0x27, 0x17, 0x0B, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9.5dB*/
++{0x99, 0x94, 0x86, 0x71, 0x58, 0x40, 0x2A, 0x18, 0x0B, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9dB*/
++{0xA2, 0x9D, 0x8E, 0x78, 0x5E, 0x43, 0x2C, 0x19, 0x0C, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8.5dB*/
++{0xAC, 0xA6, 0x96, 0x7F, 0x63, 0x47, 0x2F, 0x1B, 0x0D, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8dB*/
++{0xB6, 0xB0, 0x9F, 0x87, 0x69, 0x4C, 0x32, 0x1D, 0x0D, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7.5dB*/
++{0xC1, 0xBA, 0xA8, 0x8F, 0x6F, 0x50, 0x35, 0x1E, 0x0E, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7dB*/
++{0xCC, 0xC5, 0xB2, 0x97, 0x76, 0x55, 0x38, 0x20, 0x0F, 0x05, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-6.5dB*/
++{0xD8, 0xD1, 0xBD, 0xA0, 0x7D, 0x5A, 0x3B, 0x22, 0x10, 0x05, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}     /*-6dB*/
++};
++
++
++u1Byte CCKSwingTable_Ch1_Ch13_88F[CCK_TABLE_SIZE_88F][16] = {
++{0x44, 0x42, 0x3C, 0x33, 0x28, 0x1C, 0x13, 0x0B, 0x05, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-16dB*/
++{0x48, 0x46, 0x3F, 0x36, 0x2A, 0x1E, 0x14, 0x0B, 0x05, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15.5dB*/
++{0x4D, 0x4A, 0x43, 0x39, 0x2C, 0x20, 0x15, 0x0C, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15dB*/
++{0x51, 0x4F, 0x47, 0x3C, 0x2F, 0x22, 0x16, 0x0D, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14.5dB*/
++{0x56, 0x53, 0x4B, 0x40, 0x32, 0x24, 0x17, 0x0E, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14dB*/
++{0x5B, 0x58, 0x50, 0x43, 0x35, 0x26, 0x19, 0x0E, 0x07, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13.5dB*/
++{0x60, 0x5D, 0x54, 0x47, 0x38, 0x28, 0x1A, 0x0F, 0x07, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13dB*/
++{0x66, 0x63, 0x59, 0x4C, 0x3B, 0x2B, 0x1C, 0x10, 0x08, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12.5dB*/
++{0x6C, 0x69, 0x5F, 0x50, 0x3F, 0x2D, 0x1E, 0x11, 0x08, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12dB*/
++{0x73, 0x6F, 0x64, 0x55, 0x42, 0x30, 0x1F, 0x12, 0x08, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11.5dB*/
++{0x79, 0x76, 0x6A, 0x5A, 0x46, 0x33, 0x21, 0x13, 0x09, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11dB*/
++{0x81, 0x7C, 0x71, 0x5F, 0x4A, 0x36, 0x23, 0x14, 0x0A, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10.5dB*/
++{0x88, 0x84, 0x77, 0x65, 0x4F, 0x39, 0x25, 0x15, 0x0A, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10dB*/
++{0x90, 0x8C, 0x7E, 0x6B, 0x54, 0x3C, 0x27, 0x17, 0x0B, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9.5dB*/
++{0x99, 0x94, 0x86, 0x71, 0x58, 0x40, 0x2A, 0x18, 0x0B, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9dB*/
++{0xA2, 0x9D, 0x8E, 0x78, 0x5E, 0x43, 0x2C, 0x19, 0x0C, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8.5dB*/
++{0xAC, 0xA6, 0x96, 0x7F, 0x63, 0x47, 0x2F, 0x1B, 0x0D, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8dB*/
++{0xB6, 0xB0, 0x9F, 0x87, 0x69, 0x4C, 0x32, 0x1D, 0x0D, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7.5dB*/
++{0xC1, 0xBA, 0xA8, 0x8F, 0x6F, 0x50, 0x35, 0x1E, 0x0E, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7dB*/
++{0xCC, 0xC5, 0xB2, 0x97, 0x76, 0x55, 0x38, 0x20, 0x0F, 0x05, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-6.5dB*/
++{0xD8, 0xD1, 0xBD, 0xA0, 0x7D, 0x5A, 0x3B, 0x22, 0x10, 0x05, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}     /*-6dB*/
++};
++
++
++u1Byte CCKSwingTable_Ch14_88F[CCK_TABLE_SIZE_88F][16] = {
++{0x44,	 0x42, 0x3C, 0x28, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-16dB*/
++{0x48, 0x46, 0x3F, 0x2A, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15.5dB*/
++{0x4D, 0x4A, 0x43, 0x2C, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15dB*/
++{0x51, 0x4F, 0x47, 0x2F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},	    /*-14.5dB*/
++{0x56, 0x53, 0x4B, 0x32, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14dB*/
++{0x5B, 0x58, 0x50, 0x35, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13.5dB*/
++{0x60, 0x5D, 0x54, 0x38, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13dB*/
++{0x66, 0x63, 0x59, 0x3B, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12.5dB*/
++{0x6C, 0x69, 0x5F, 0x3F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12dB*/
++{0x73, 0x6F, 0x64, 0x42, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11.5dB*/
++{0x79, 0x76, 0x6A, 0x46, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11dB*/
++{0x81, 0x7C, 0x71, 0x4A, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10.5dB*/
++{0x88, 0x84, 0x77, 0x4F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10dB*/
++{0x90, 0x8C, 0x7E, 0x54, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9.5dB*/
++{0x99, 0x94, 0x86, 0x58, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9dB*/
++{0xA2, 0x9D, 0x8E, 0x5E, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8.5dB*/
++{0xAC, 0xA6, 0x96, 0x63, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8dB*/
++{0xB6, 0xB0, 0x9F, 0x69, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7.5dB*/
++{0xC1, 0xBA, 0xA8, 0x6F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7dB*/
++{0xCC, 0xC5, 0xB2, 0x76, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-6.5dB*/
++{0xD8, 0xD1, 0xBD, 0x7D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}     /*-6dB*/
++};
++
++
++
++
++u1Byte CCKSwingTable_Ch1_Ch13_New[CCK_TABLE_SIZE][8] = {
++	{0x09, 0x08, 0x07, 0x06, 0x04, 0x03, 0x01, 0x01},	//  0, -16.0dB
++	{0x09, 0x09, 0x08, 0x06, 0x05, 0x03, 0x01, 0x01},	//  1, -15.5dB
++	{0x0a, 0x09, 0x08, 0x07, 0x05, 0x03, 0x02, 0x01},	//  2, -15.0dB
++	{0x0a, 0x0a, 0x09, 0x07, 0x05, 0x03, 0x02, 0x01},	//  3, -14.5dB
++	{0x0b, 0x0a, 0x09, 0x08, 0x06, 0x04, 0x02, 0x01},	//  4, -14.0dB
++	{0x0b, 0x0b, 0x0a, 0x08, 0x06, 0x04, 0x02, 0x01},	//  5, -13.5dB
++	{0x0c, 0x0c, 0x0a, 0x09, 0x06, 0x04, 0x02, 0x01},	//  6, -13.0dB
++	{0x0d, 0x0c, 0x0b, 0x09, 0x07, 0x04, 0x02, 0x01},	//  7, -12.5dB
++	{0x0d, 0x0d, 0x0c, 0x0a, 0x07, 0x05, 0x02, 0x01},	//  8, -12.0dB
++	{0x0e, 0x0e, 0x0c, 0x0a, 0x08, 0x05, 0x02, 0x01},	//  9, -11.5dB
++	{0x0f, 0x0f, 0x0d, 0x0b, 0x08, 0x05, 0x03, 0x01},	// 10, -11.0dB
++	{0x10, 0x10, 0x0e, 0x0b, 0x08, 0x05, 0x03, 0x01},	// 11, -10.5dB
++	{0x11, 0x11, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	// 12, -10.0dB
++	{0x12, 0x12, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	// 13, -9.5dB
++	{0x13, 0x13, 0x10, 0x0d, 0x0a, 0x06, 0x03, 0x01},	// 14, -9.0dB 
++	{0x14, 0x14, 0x11, 0x0e, 0x0b, 0x07, 0x03, 0x02},	// 15, -8.5dB
++	{0x16, 0x15, 0x12, 0x0f, 0x0b, 0x07, 0x04, 0x01},	// 16, -8.0dB 
++	{0x17, 0x16, 0x13, 0x10, 0x0c, 0x08, 0x04, 0x02},	// 17, -7.5dB
++	{0x18, 0x17, 0x15, 0x11, 0x0c, 0x08, 0x04, 0x02},	// 18, -7.0dB 
++	{0x1a, 0x19, 0x16, 0x12, 0x0d, 0x09, 0x04, 0x02},	// 19, -6.5dB
++    {0x1b, 0x1a, 0x17, 0x13, 0x0e, 0x09, 0x04, 0x02},	// 20, -6.0dB 
++	{0x1d, 0x1c, 0x18, 0x14, 0x0f, 0x0a, 0x05, 0x02},	// 21, -5.5dB
++	{0x1f, 0x1e, 0x1a, 0x15, 0x10, 0x0a, 0x05, 0x02},	// 22, -5.0dB 
++	{0x20, 0x20, 0x1b, 0x16, 0x11, 0x08, 0x05, 0x02},	// 23, -4.5dB
++	{0x22, 0x21, 0x1d, 0x18, 0x11, 0x0b, 0x06, 0x02},	// 24, -4.0dB 
++	{0x24, 0x23, 0x1f, 0x19, 0x13, 0x0c, 0x06, 0x03},	// 25, -3.5dB
++	{0x26, 0x25, 0x21, 0x1b, 0x14, 0x0d, 0x06, 0x03},	// 26, -3.0dB
++	{0x28, 0x28, 0x22, 0x1c, 0x15, 0x0d, 0x07, 0x03},	// 27, -2.5dB
++	{0x2b, 0x2a, 0x25, 0x1e, 0x16, 0x0e, 0x07, 0x03},	// 28, -2.0dB 
++	{0x2d, 0x2d, 0x27, 0x1f, 0x18, 0x0f, 0x08, 0x03},	// 29, -1.5dB
++	{0x30, 0x2f, 0x29, 0x21, 0x19, 0x10, 0x08, 0x03},	// 30, -1.0dB
++	{0x33, 0x32, 0x2b, 0x23, 0x1a, 0x11, 0x08, 0x04},	// 31, -0.5dB
++	{0x36, 0x35, 0x2e, 0x25, 0x1c, 0x12, 0x09, 0x04} 	// 32, +0dB
++};                                                                  
++
++
++u1Byte CCKSwingTable_Ch14_New[CCK_TABLE_SIZE][8]= {
++	{0x09, 0x08, 0x07, 0x04, 0x00, 0x00, 0x00, 0x00},	//  0, -16.0dB
++	{0x09, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	//  1, -15.5dB
++	{0x0a, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	//  2, -15.0dB
++	{0x0a, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	//  3, -14.5dB
++	{0x0b, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	//  4, -14.0dB
++	{0x0b, 0x0b, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	//  5, -13.5dB
++	{0x0c, 0x0c, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	//  6, -13.0dB
++	{0x0d, 0x0c, 0x0b, 0x06, 0x00, 0x00, 0x00, 0x00},	//  7, -12.5dB
++	{0x0d, 0x0d, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	//  8, -12.0dB
++	{0x0e, 0x0e, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	//  9, -11.5dB
++	{0x0f, 0x0f, 0x0d, 0x08, 0x00, 0x00, 0x00, 0x00},	// 10, -11.0dB
++	{0x10, 0x10, 0x0e, 0x08, 0x00, 0x00, 0x00, 0x00},	// 11, -10.5dB
++	{0x11, 0x11, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	// 12, -10.0dB
++	{0x12, 0x12, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	// 13, -9.5dB
++	{0x13, 0x13, 0x10, 0x0a, 0x00, 0x00, 0x00, 0x00},	// 14, -9.0dB  
++	{0x14, 0x14, 0x11, 0x0a, 0x00, 0x00, 0x00, 0x00},	// 15, -8.5dB
++	{0x16, 0x15, 0x12, 0x0b, 0x00, 0x00, 0x00, 0x00},	// 16, -8.0dB  
++	{0x17, 0x16, 0x13, 0x0b, 0x00, 0x00, 0x00, 0x00},	// 17, -7.5dB
++	{0x18, 0x17, 0x15, 0x0c, 0x00, 0x00, 0x00, 0x00},	// 18, -7.0dB  
++	{0x1a, 0x19, 0x16, 0x0d, 0x00, 0x00, 0x00, 0x00},	// 19, -6.5dB 
++	{0x1b, 0x1a, 0x17, 0x0e, 0x00, 0x00, 0x00, 0x00},	// 20, -6.0dB  
++	{0x1d, 0x1c, 0x18, 0x0e, 0x00, 0x00, 0x00, 0x00},	// 21, -5.5dB
++	{0x1f, 0x1e, 0x1a, 0x0f, 0x00, 0x00, 0x00, 0x00},	// 22, -5.0dB  
++	{0x20, 0x20, 0x1b, 0x10, 0x00, 0x00, 0x00, 0x00},	// 23, -4.5dB
++	{0x22, 0x21, 0x1d, 0x11, 0x00, 0x00, 0x00, 0x00},	// 24, -4.0dB  
++	{0x24, 0x23, 0x1f, 0x12, 0x00, 0x00, 0x00, 0x00},	// 25, -3.5dB  
++	{0x26, 0x25, 0x21, 0x13, 0x00, 0x00, 0x00, 0x00},	// 26, -3.0dB  
++	{0x28, 0x28, 0x24, 0x14, 0x00, 0x00, 0x00, 0x00},	// 27, -2.5dB
++	{0x2b, 0x2a, 0x25, 0x15, 0x00, 0x00, 0x00, 0x00},	// 28, -2.0dB  
++	{0x2d, 0x2d, 0x17, 0x17, 0x00, 0x00, 0x00, 0x00},	// 29, -1.5dB
++	{0x30, 0x2f, 0x29, 0x18, 0x00, 0x00, 0x00, 0x00},	// 30, -1.0dB  
++	{0x33, 0x32, 0x2b, 0x19, 0x00, 0x00, 0x00, 0x00},	// 31, -0.5dB 
++	{0x36, 0x35, 0x2e, 0x1b, 0x00, 0x00, 0x00, 0x00} 	// 32, +0dB	
++};
++u4Byte CCKSwingTable_Ch1_Ch14_8723D[CCK_TABLE_SIZE_8723D] = {
++	0x0CD,         
++	0x0D9,        
++	0x0E6,         
++	0x0F3,      
++	0x102,         
++	0x111,         
++	0x121,         
++	0x132,        
++	0x144,         
++	0x158,      
++	0x16C,        
++	0x182,        
++	0x198,        
++	0x1B1,        
++	0x1CA,      
++	0x1E5,         
++	0x202,        
++	0x221,        
++	0x241,        
++	0x263,        
++	0x287,       
++	0x2AE,        
++	0x2D6,         
++	0x301,        
++	0x32F,       
++	0x35F,       
++	0x392,        
++	0x3C9,        
++	0x402,        
++	0x43F,      
++	0x47F,      
++	0x4C3,        
++	0x50C,         
++	0x558,      
++	0x5A9,         
++	0x5FF,         
++	0x65A,        
++	0x6BA,       
++	0x720,        
++	0x78C,        
++	0x7FF,        
++};
++
++
++u4Byte TxScalingTable_Jaguar[TXSCALE_TABLE_SIZE] =
++{
++	0x081, // 0,  -12.0dB
++	0x088, // 1,  -11.5dB
++	0x090, // 2,  -11.0dB
++	0x099, // 3,  -10.5dB
++	0x0A2, // 4,  -10.0dB
++	0x0AC, // 5,  -9.5dB
++	0x0B6, // 6,  -9.0dB
++	0x0C0, // 7,  -8.5dB
++	0x0CC, // 8,  -8.0dB
++	0x0D8, // 9,  -7.5dB
++	0x0E5, // 10, -7.0dB
++	0x0F2, // 11, -6.5dB
++	0x101, // 12, -6.0dB
++	0x110, // 13, -5.5dB
++	0x120, // 14, -5.0dB
++	0x131, // 15, -4.5dB
++	0x143, // 16, -4.0dB
++	0x156, // 17, -3.5dB
++	0x16A, // 18, -3.0dB
++	0x180, // 19, -2.5dB
++	0x197, // 20, -2.0dB
++	0x1AF, // 21, -1.5dB
++	0x1C8, // 22, -1.0dB
++	0x1E3, // 23, -0.5dB
++	0x200, // 24, +0  dB
++	0x21E, // 25, +0.5dB
++	0x23E, // 26, +1.0dB
++	0x261, // 27, +1.5dB
++	0x285, // 28, +2.0dB
++	0x2AB, // 29, +2.5dB
++	0x2D3, // 30, +3.0dB
++	0x2FE, // 31, +3.5dB
++	0x32B, // 32, +4.0dB
++	0x35C, // 33, +4.5dB
++	0x38E, // 34, +5.0dB
++	0x3C4, // 35, +5.5dB
++	0x3FE  // 36, +6.0dB	
++};
++u1Byte DeltaSwingTableIdx_2GA_P_DEFAULT[DELTA_SWINGIDX_SIZE] = {0, 0, 0, 0, 1, 1, 2, 2, 3, 3
++, 4, 4, 4,  4,  4,  4,  4,  4,  5,  5,  7,  7,  8,  8,  8,  9,  9,  9,  9,  9};
++u1Byte DeltaSwingTableIdx_2GA_N_DEFAULT[DELTA_SWINGIDX_SIZE] = {0, 0, 0, 2, 2, 3, 3, 4, 4, 4
++, 4, 5, 5,  6,  6,  7,  7,  7,  7,  8,  8,  9,  9, 10, 10, 10, 11, 11, 11, 11}; 
++
++
++#ifdef AP_BUILD_WORKAROUND
++
++unsigned int TxPwrTrk_OFDM_SwingTbl[TxPwrTrk_OFDM_SwingTbl_Len] = {
++	/*  +6.0dB */ 0x7f8001fe,
++	/*  +5.5dB */ 0x788001e2,
++	/*  +5.0dB */ 0x71c001c7,
++	/*  +4.5dB */ 0x6b8001ae,
++	/*  +4.0dB */ 0x65400195,
++	/*  +3.5dB */ 0x5fc0017f,
++	/*  +3.0dB */ 0x5a400169,
++	/*  +2.5dB */ 0x55400155,
++	/*  +2.0dB */ 0x50800142,
++	/*  +1.5dB */ 0x4c000130,
++	/*  +1.0dB */ 0x47c0011f,
++	/*  +0.5dB */ 0x43c0010f,
++	/*   0.0dB */ 0x40000100,
++	/*  -0.5dB */ 0x3c8000f2,
++	/*  -1.0dB */ 0x390000e4,
++	/*  -1.5dB */ 0x35c000d7,
++	/*  -2.0dB */ 0x32c000cb,
++	/*  -2.5dB */ 0x300000c0,
++	/*  -3.0dB */ 0x2d4000b5,
++	/*  -3.5dB */ 0x2ac000ab,
++	/*  -4.0dB */ 0x288000a2,
++	/*  -4.5dB */ 0x26000098,
++	/*  -5.0dB */ 0x24000090,
++	/*  -5.5dB */ 0x22000088,
++	/*  -6.0dB */ 0x20000080,
++	/*  -6.5dB */ 0x1a00006c,
++	/*  -7.0dB */ 0x1c800072,
++	/*  -7.5dB */ 0x18000060,
++	/*  -8.0dB */ 0x19800066,
++	/*  -8.5dB */ 0x15800056,
++	/*  -9.0dB */ 0x26c0005b,
++	/*  -9.5dB */ 0x14400051,
++	/* -10.0dB */ 0x24400051,
++	/* -10.5dB */ 0x1300004c,
++	/* -11.0dB */ 0x12000048,
++	/* -11.5dB */ 0x11000044,
++	/* -12.0dB */ 0x10000040
++};
++
++#endif
++
++VOID
++odm_TXPowerTrackingInit(
++	IN	PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	if(!(pDM_Odm->SupportICType & (ODM_RTL8814A|ODM_IC_11N_SERIES|ODM_RTL8822B)))
++		return;
++#endif
++
++	odm_TXPowerTrackingThermalMeterInit(pDM_Odm);
++}	
++
++u1Byte 
++getSwingIndex(
++	IN	PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u1Byte 			i = 0;
++	u4Byte 			bbSwing;
++	u4Byte 			swingTableSize;
++	pu4Byte 			pSwingTable;
++
++	if (pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8723B ||
++		pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType == ODM_RTL8188F || pDM_Odm->SupportICType == ODM_RTL8703B) 
++	{
++		bbSwing = PHY_QueryBBReg(Adapter, rOFDM0_XATxIQImbalance, 0xFFC00000);
++
++		pSwingTable = OFDMSwingTable_New;
++		swingTableSize = OFDM_TABLE_SIZE;
++	} else {
++		bbSwing = PHY_GetTxBBSwing_8812A(Adapter, pHalData->CurrentBandType, ODM_RF_PATH_A);
++		pSwingTable = TxScalingTable_Jaguar;
++		swingTableSize = TXSCALE_TABLE_SIZE;		
++	}
++
++	for (i = 0; i < swingTableSize; ++i) {
++		u4Byte tableValue = pSwingTable[i];
++		
++		if (tableValue >= 0x100000 )
++			tableValue >>= 22;
++		if (bbSwing == tableValue)
++			break;
++	}
++	return i;
++}
++
++VOID
++odm_TXPowerTrackingThermalMeterInit(
++	IN	PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte defaultSwingIndex = getSwingIndex(pDM_Odm);
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u1Byte 			p = 0;
++
++	if(pDM_Odm->mp_mode == FALSE)
++		pRFCalibrateInfo->TxPowerTrackControl = TRUE;
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#ifdef CONFIG_RTL8188E
++	{
++		pRFCalibrateInfo->bTXPowerTracking = _TRUE;
++		pRFCalibrateInfo->TXPowercount = 0;
++		pRFCalibrateInfo->bTXPowerTrackingInit = _FALSE;
++
++		if(pDM_Odm->mp_mode == FALSE)
++			pRFCalibrateInfo->TxPowerTrackControl = _TRUE;
++		
++		MSG_8192C("pDM_Odm TxPowerTrackControl = %d\n", pRFCalibrateInfo->TxPowerTrackControl);
++	}
++	#else
++	{
++		PADAPTER		Adapter = pDM_Odm->Adapter;
++		HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++		struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++
++		pdmpriv->bTXPowerTracking = _TRUE;
++		pdmpriv->TXPowercount = 0;
++		pdmpriv->bTXPowerTrackingInit = _FALSE;
++
++		if(pDM_Odm->mp_mode == FALSE)
++			pdmpriv->TxPowerTrackControl = _TRUE;
++
++		MSG_8192C("pdmpriv->TxPowerTrackControl = %d\n", pdmpriv->TxPowerTrackControl);
++	
++	}	
++	#endif
++#elif (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	#ifdef RTL8188E_SUPPORT
++	{
++		pRFCalibrateInfo->bTXPowerTracking = _TRUE;
++		pRFCalibrateInfo->TXPowercount = 0;
++		pRFCalibrateInfo->bTXPowerTrackingInit = _FALSE;
++		pRFCalibrateInfo->TxPowerTrackControl = _TRUE;
++	}
++	#endif
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#if (MP_DRIVER == 1)
++		pRFCalibrateInfo->TxPowerTrackControl = FALSE;
++	#else
++		pRFCalibrateInfo->TxPowerTrackControl = TRUE;
++	#endif
++#else
++	pRFCalibrateInfo->TxPowerTrackControl = TRUE;
++#endif
++
++	pRFCalibrateInfo->ThermalValue 		= pHalData->EEPROMThermalMeter;
++	pRFCalibrateInfo->ThermalValue_IQK 	= pHalData->EEPROMThermalMeter;
++	pRFCalibrateInfo->ThermalValue_LCK	= pHalData->EEPROMThermalMeter;
++
++	if (pRFCalibrateInfo->DefaultBbSwingIndexFlag != TRUE) {
++		/*The index of "0 dB" in SwingTable.*/
++		if (pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8723B ||
++			pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType == ODM_RTL8703B) {
++			pRFCalibrateInfo->DefaultOfdmIndex = (defaultSwingIndex >= OFDM_TABLE_SIZE) ? 30 : defaultSwingIndex;
++			pRFCalibrateInfo->DefaultCckIndex = 20;	
++		} else if (pDM_Odm->SupportICType == ODM_RTL8188F) {          /*add by Mingzhi.Guo  2015-03-23*/
++			pRFCalibrateInfo->DefaultOfdmIndex = 28;							/*OFDM: -1dB*/
++			pRFCalibrateInfo->DefaultCckIndex = 20;							/*CCK:-6dB*/
++		} else if (pDM_Odm->SupportICType == ODM_RTL8723D) {			 /*add by zhaohe  2015-10-27*/
++			pRFCalibrateInfo->DefaultOfdmIndex = 28;						 	   /*OFDM: -1dB*/
++			pRFCalibrateInfo->DefaultCckIndex = 28;							/*CCK:   -6dB*/
++		} else {
++			pRFCalibrateInfo->DefaultOfdmIndex = (defaultSwingIndex >= TXSCALE_TABLE_SIZE) ? 24 : defaultSwingIndex;
++			pRFCalibrateInfo->DefaultCckIndex = 24;	
++		}
++		pRFCalibrateInfo->DefaultBbSwingIndexFlag = TRUE;
++	}
++
++	pRFCalibrateInfo->BbSwingIdxCckBase = pRFCalibrateInfo->DefaultCckIndex;
++	pRFCalibrateInfo->CCK_index = pRFCalibrateInfo->DefaultCckIndex;
++	
++	for (p = ODM_RF_PATH_A; p < MAX_RF_PATH; ++p)
++	{
++		pRFCalibrateInfo->BbSwingIdxOfdmBase[p] = pRFCalibrateInfo->DefaultOfdmIndex;		
++	   	pRFCalibrateInfo->OFDM_index[p] = pRFCalibrateInfo->DefaultOfdmIndex;		
++		pRFCalibrateInfo->DeltaPowerIndex[p] = 0;
++		pRFCalibrateInfo->DeltaPowerIndexLast[p] = 0;
++		pRFCalibrateInfo->PowerIndexOffset[p] = 0;
++		pRFCalibrateInfo->KfreeOffset[p] = 0;
++	}
++	pRFCalibrateInfo->Modify_TxAGC_Value_OFDM = 0;			
++	pRFCalibrateInfo->Modify_TxAGC_Value_CCK = 0;			
++
++}
++
++
++VOID
++ODM_TXPowerTrackingCheck(
++	IN	PVOID		pDM_VOID
++	)
++{
++	
++	/* 2011/09/29 MH In HW integration first stage, we provide 4 different handle to operate
++	// at the same time. In the stage2/3, we need to prive universal interface and merge all
++	// HW dynamic mechanism.*/
++	
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	switch	(pDM_Odm->SupportPlatform)
++	{
++		case	ODM_WIN:
++			odm_TXPowerTrackingCheckMP(pDM_Odm);
++			break;
++
++		case	ODM_CE:
++			odm_TXPowerTrackingCheckCE(pDM_Odm);
++			break;
++
++		case	ODM_AP:
++			odm_TXPowerTrackingCheckAP(pDM_Odm);		
++			break;		
++
++		default:
++			break;	
++	}
++
++}
++
++VOID
++odm_TXPowerTrackingCheckCE(
++	IN	PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++	#if ((RTL8188F_SUPPORT == 1))
++	rtl8192c_odm_CheckTXPowerTracking(Adapter);
++	#endif
++
++	#if(RTL8188E_SUPPORT==1)
++
++	if (!(pDM_Odm->SupportAbility & ODM_RF_TX_PWR_TRACK)) {
++		return;
++	}
++
++	if (!pRFCalibrateInfo->TM_Trigger) {
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_T_METER, bRFRegOffsetMask, 0x60);
++		/*DBG_8192C("Trigger 92C Thermal Meter!!\n");*/
++		
++		pRFCalibrateInfo->TM_Trigger = 1;
++		return;
++		
++	} else {
++		/*DBG_8192C("Schedule TxPowerTracking direct call!!\n");*/
++		odm_TXPowerTrackingCallback_ThermalMeter_8188E(Adapter);
++		pRFCalibrateInfo->TM_Trigger = 0;
++	}
++	#endif
++#endif	
++}
++
++VOID
++odm_TXPowerTrackingCheckMP(
++	IN	PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++	if (*pDM_Odm->pIsFcsModeEnable)
++		return;
++
++	if (ODM_CheckPowerStatus(Adapter) == FALSE) 
++	{
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD, ("===>ODM_CheckPowerStatus() return FALSE\n"));
++		return;
++	}
++
++	if (IS_HARDWARE_TYPE_8821B(Adapter)) /* TODO: Don't Do PowerTracking*/
++		return;
++	
++	odm_TXPowerTrackingThermalMeterCheck(Adapter);
++	
++
++#endif
++	
++}
++
++
++VOID
++odm_TXPowerTrackingCheckAP(
++	IN	PVOID		pDM_VOID
++	)
++{
++return;
++
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++VOID
++odm_TXPowerTrackingDirectCall(
++	IN	PADAPTER		Adapter
++	)
++{
++	HAL_DATA_TYPE		*pHalData	= GET_HAL_DATA(Adapter);
++	PDM_ODM_T			pDM_Odm = &pHalData->DM_OutSrc;
++	
++	ODM_TXPowerTrackingCallback_ThermalMeter(Adapter);
++}
++
++VOID
++odm_TXPowerTrackingThermalMeterCheck(
++	IN	PADAPTER		Adapter
++	)
++{
++#ifndef AP_BUILD_WORKAROUND
++	static u1Byte			TM_Trigger = 0;
++
++	if (!(GET_HAL_DATA(Adapter)->DM_OutSrc.SupportAbility & ODM_RF_TX_PWR_TRACK))
++	{
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD,
++			("===>odm_TXPowerTrackingThermalMeterCheck(),pMgntInfo->bTXPowerTracking is FALSE, return!!\n"));
++		return;
++	}
++
++	if (!TM_Trigger)		
++	{
++		if (IS_HARDWARE_TYPE_8188E(Adapter) || IS_HARDWARE_TYPE_JAGUAR(Adapter) || IS_HARDWARE_TYPE_8192E(Adapter) ||
++			    IS_HARDWARE_TYPE_8723B(Adapter) || IS_HARDWARE_TYPE_8814A(Adapter) || IS_HARDWARE_TYPE_8188F(Adapter) || IS_HARDWARE_TYPE_8703B(Adapter)
++			    || IS_HARDWARE_TYPE_8822B(Adapter) || IS_HARDWARE_TYPE_8723D(Adapter))
++			PHY_SetRFReg(Adapter, ODM_RF_PATH_A, RF_T_METER_88E, BIT17 | BIT16, 0x03);
++		else
++			PHY_SetRFReg(Adapter, ODM_RF_PATH_A, RF_T_METER, bRFRegOffsetMask, 0x60);
++		
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD,("Trigger Thermal Meter!!\n"));
++		
++		TM_Trigger = 1;
++		return;
++	} else {
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD,("Schedule TxPowerTracking direct call!!\n"));		
++		odm_TXPowerTrackingDirectCall(Adapter); 
++		TM_Trigger = 0;
++	}
++#endif
++}
++
++#endif 
++
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_powertracking_win.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_powertracking_win.h
+new file mode 100644
+index 0000000..27e0253
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_powertracking_win.h
+@@ -0,0 +1,299 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMPOWERTRACKING_H__
++#define    __PHYDMPOWERTRACKING_H__
++
++#define POWRTRACKING_VERSION	"1.1"
++
++#define	DPK_DELTA_MAPPING_NUM	13
++#define	index_mapping_HP_NUM	15	
++#define	TXSCALE_TABLE_SIZE 		37
++#define	CCK_TABLE_SIZE_8723D    41
++#define	TXPWR_TRACK_TABLE_SIZE 	30
++#define	DELTA_SWINGIDX_SIZE     30
++#define DELTA_SWINTSSI_SIZE     61
++#define	BAND_NUM 				3
++#define	MAX_RF_PATH	4
++#define	CCK_TABLE_SIZE_88F	21
++
++
++#define	dm_CheckTXPowerTracking 	ODM_TXPowerTrackingCheck
++
++#define IQK_Matrix_Settings_NUM	14+24+21 // Channels_2_4G_NUM + Channels_5G_20M_NUM + Channels_5G
++#define	AVG_THERMAL_NUM		8
++#define	HP_THERMAL_NUM		8
++#define	IQK_Matrix_REG_NUM	8
++#define	IQK_MAC_REG_NUM		4
++#define	IQK_ADDA_REG_NUM		16
++
++#define	IQK_BB_REG_NUM		9
++
++
++extern	u4Byte OFDMSwingTable[OFDM_TABLE_SIZE];
++extern	u1Byte CCKSwingTable_Ch1_Ch13[CCK_TABLE_SIZE][8];
++extern	u1Byte CCKSwingTable_Ch14 [CCK_TABLE_SIZE][8];
++
++extern	u4Byte OFDMSwingTable_New[OFDM_TABLE_SIZE];
++extern	u1Byte CCKSwingTable_Ch1_Ch13_New[CCK_TABLE_SIZE][8];
++extern	u1Byte CCKSwingTable_Ch14_New [CCK_TABLE_SIZE][8];
++extern	u1Byte CCKSwingTable_Ch1_Ch14_88F[CCK_TABLE_SIZE_88F][16];
++extern	u1Byte CCKSwingTable_Ch1_Ch13_88F[CCK_TABLE_SIZE_88F][16];
++extern	u1Byte CCKSwingTable_Ch14_88F[CCK_TABLE_SIZE_88F][16];
++extern	u4Byte CCKSwingTable_Ch1_Ch14_8723D[CCK_TABLE_SIZE_8723D];
++
++extern  u4Byte TxScalingTable_Jaguar[TXSCALE_TABLE_SIZE];
++
++// <20121018, Kordan> In case fail to read TxPowerTrack.txt, we use the table of 88E as the default table.
++static u1Byte DeltaSwingTableIdx_2GA_P_8188E[] = {0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 4,  4,  4,  4,  4,  4,  5,  5,  7,  7,  8,  8,  8,  9,  9,  9,  9,  9};
++static u1Byte DeltaSwingTableIdx_2GA_N_8188E[] = {0, 0, 0, 2, 2, 3, 3, 4, 4, 4, 4, 5, 5,  6,  6,  7,  7,  7,  7,  8,  8,  9,  9, 10, 10, 10, 11, 11, 11, 11}; 
++
++VOID
++ODM_TXPowerTrackingCheck(
++	IN	PVOID		pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingCheckAP(
++	IN	PVOID		pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingThermalMeterInit(
++	IN	PVOID		pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingInit(
++	IN	PVOID		pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingCheckMP(
++	IN	PVOID		pDM_VOID
++	);
++
++
++VOID
++odm_TXPowerTrackingCheckCE(
++	IN	PVOID		pDM_VOID
++	);
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_WIN)) 
++
++
++VOID
++odm_TXPowerTrackingThermalMeterCheck(
++	IN	PADAPTER		Adapter
++	);
++
++#endif
++
++typedef struct _IQK_MATRIX_REGS_SETTING{
++	BOOLEAN 	bIQKDone;
++	s4Byte		Value[3][IQK_Matrix_REG_NUM];
++	BOOLEAN 	bBWIqkResultSaved[3];	
++}IQK_MATRIX_REGS_SETTING,*PIQK_MATRIX_REGS_SETTING;
++
++typedef struct ODM_RF_Calibration_Structure
++{
++	//for tx power tracking
++	
++	u4Byte	RegA24; // for TempCCK
++	s4Byte	RegE94;
++	s4Byte 	RegE9C;
++	s4Byte	RegEB4;
++	s4Byte	RegEBC;	
++	//u1Byte bTXPowerTracking;
++	u1Byte  	TXPowercount;
++	BOOLEAN bTXPowerTrackingInit; 
++	BOOLEAN bTXPowerTracking;
++	u1Byte  	TxPowerTrackControl; //for mp mode, turn off txpwrtracking as default
++	u1Byte  	TM_Trigger;
++    	u1Byte  	InternalPA5G[2];	//pathA / pathB
++	
++	u1Byte  	ThermalMeter[2];    // ThermalMeter, index 0 for RFIC0, and 1 for RFIC1
++	u1Byte  	ThermalValue;
++	u1Byte  	ThermalValue_LCK;
++	u1Byte  	ThermalValue_IQK;
++	u1Byte	ThermalValue_AVG[AVG_THERMAL_NUM];
++	u1Byte	ThermalValue_AVG_index;		
++	u1Byte	ThermalValue_RxGain;
++	
++	BOOLEAN	bReloadtxpowerindex;	
++	u1Byte 	bRfPiEnable;
++	u4Byte 	TXPowerTrackingCallbackCnt; //cosa add for debug
++
++
++	//------------------------- Tx power Tracking -------------------------//
++	u1Byte 	bCCKinCH14;
++	u1Byte 	CCK_index;
++	u1Byte 	OFDM_index[MAX_RF_PATH];
++	s1Byte	PowerIndexOffset[MAX_RF_PATH];
++	s1Byte	DeltaPowerIndex[MAX_RF_PATH];
++	s1Byte	DeltaPowerIndexLast[MAX_RF_PATH];	
++	BOOLEAN bTxPowerChanged;
++	s1Byte	XtalOffset;
++	s1Byte	XtalOffsetLast;
++		
++	u1Byte 	ThermalValue_HP[HP_THERMAL_NUM];
++	u1Byte 	ThermalValue_HP_index;
++	IQK_MATRIX_REGS_SETTING IQKMatrixRegSetting[IQK_Matrix_Settings_NUM];
++	u1Byte	Delta_LCK;
++	s1Byte  BBSwingDiff2G, BBSwingDiff5G; // Unit: dB
++	u1Byte  DeltaSwingTableIdx_2GCCKA_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKA_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKB_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKB_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKC_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKC_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKD_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKD_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GB_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GB_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GC_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GC_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GD_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GD_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GA_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GA_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GB_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GB_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GC_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GC_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GD_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GD_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTSSITable_2GCCKA[DELTA_SWINTSSI_SIZE];         
++	u1Byte  DeltaSwingTSSITable_2GCCKB[DELTA_SWINTSSI_SIZE];           
++	u1Byte  DeltaSwingTSSITable_2GCCKC[DELTA_SWINTSSI_SIZE];            
++	u1Byte  DeltaSwingTSSITable_2GCCKD[DELTA_SWINTSSI_SIZE];            
++	u1Byte  DeltaSwingTSSITable_2GA[DELTA_SWINTSSI_SIZE];                
++	u1Byte  DeltaSwingTSSITable_2GB[DELTA_SWINTSSI_SIZE];              
++	u1Byte  DeltaSwingTSSITable_2GC[DELTA_SWINTSSI_SIZE];                   
++	u1Byte  DeltaSwingTSSITable_2GD[DELTA_SWINTSSI_SIZE];                
++	u1Byte  DeltaSwingTSSITable_5GA[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTSSITable_5GB[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTSSITable_5GC[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTSSITable_5GD[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	s1Byte  DeltaSwingTableXtal_P[DELTA_SWINGIDX_SIZE];
++	s1Byte  DeltaSwingTableXtal_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_P_8188E[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_N_8188E[DELTA_SWINGIDX_SIZE];
++	
++	u1Byte			BbSwingIdxOfdm[MAX_RF_PATH];
++	u1Byte			BbSwingIdxOfdmCurrent;
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))	
++	u1Byte			BbSwingIdxOfdmBase[MAX_RF_PATH];
++#else
++	u1Byte			BbSwingIdxOfdmBase;
++#endif
++	BOOLEAN		DefaultBbSwingIndexFlag;
++	BOOLEAN			BbSwingFlagOfdm;
++	u1Byte			BbSwingIdxCck;
++	u1Byte			BbSwingIdxCckCurrent;
++	u1Byte			BbSwingIdxCckBase;
++	u1Byte			DefaultOfdmIndex;
++	u1Byte			DefaultCckIndex;	
++	BOOLEAN			BbSwingFlagCck;
++	
++	s1Byte			Absolute_OFDMSwingIdx[MAX_RF_PATH];   
++	s1Byte			Remnant_OFDMSwingIdx[MAX_RF_PATH];
++	s1Byte			Absolute_CCKSwingIdx[MAX_RF_PATH]; 
++	s1Byte			Remnant_CCKSwingIdx;
++	s1Byte			Modify_TxAGC_Value;       /*Remnat compensate value at TxAGC */
++	BOOLEAN			Modify_TxAGC_Flag_PathA;
++	BOOLEAN			Modify_TxAGC_Flag_PathB;
++	BOOLEAN			Modify_TxAGC_Flag_PathC;
++	BOOLEAN			Modify_TxAGC_Flag_PathD;
++	BOOLEAN			Modify_TxAGC_Flag_PathA_CCK;
++	
++	s1Byte			KfreeOffset[MAX_RF_PATH];
++    
++	//--------------------------------------------------------------------//	
++	
++	//for IQK	
++	u4Byte 	RegC04;
++	u4Byte 	Reg874;
++	u4Byte 	RegC08;
++	u4Byte 	RegB68;
++	u4Byte 	RegB6C;
++	u4Byte 	Reg870;
++	u4Byte 	Reg860;
++	u4Byte 	Reg864;
++	
++	BOOLEAN	bIQKInitialized;
++	BOOLEAN bLCKInProgress;
++	BOOLEAN	bAntennaDetected;
++	BOOLEAN	bNeedIQK;
++	BOOLEAN	bIQKInProgress;
++	BOOLEAN	bIQKPAoff;
++	u1Byte	Delta_IQK;
++	u4Byte	ADDA_backup[IQK_ADDA_REG_NUM];
++	u4Byte	IQK_MAC_backup[IQK_MAC_REG_NUM];
++	u4Byte	IQK_BB_backup_recover[9];
++	u4Byte	IQK_BB_backup[IQK_BB_REG_NUM];	
++	u4Byte	TxIQC_8723B[2][3][2]; /* { {S1: 0xc94, 0xc80, 0xc4c} , {S0: 0xc9c, 0xc88, 0xc4c}} */
++	u4Byte	RxIQC_8723B[2][2][2]; /* { {S1: 0xc14, 0xca0} ,           {S0: 0xc14, 0xca0}} */
++	u4Byte	TxIQC_8703B[3][2];	/* { {S1: 0xc94, 0xc80, 0xc4c} , {S0: 0xc9c, 0xc88, 0xc4c}}*/
++	u4Byte	RxIQC_8703B[2][2];	/* { {S1: 0xc14, 0xca0} ,           {S0: 0xc14, 0xca0}}*/
++	u4Byte	TxIQC_8723D[2][3][2];	/* { {S1: 0xc94, 0xc80, 0xc4c} , {S0: 0xc9c, 0xc88, 0xc4c}}*/
++	u4Byte	RxIQC_8723D[2][2][2];	/* { {S1: 0xc14, 0xca0} ,           {S0: 0xc14, 0xca0}}*/
++	
++	u8Byte	IQK_StartTime;
++	u8Byte	IQK_TotalProgressingTime;
++	u8Byte	IQK_ProgressingTime;
++	u4Byte  LOK_Result;
++	u1Byte	IQKstep;
++	u1Byte	Kcount;
++	u1Byte	retry_count[4][2]; /* [4]: path ABCD, [2] TXK, RXK */
++	BOOLEAN	isMPmode;
++
++	//for APK
++	u4Byte 	APKoutput[2][2]; //path A/B; output1_1a/output1_2a
++	u1Byte 	bAPKdone;
++	u1Byte 	bAPKThermalMeterIgnore;
++	
++	// DPK
++	BOOLEAN bDPKFail;	
++	u1Byte 	bDPdone;
++	u1Byte 	bDPPathAOK;
++	u1Byte 	bDPPathBOK;
++
++	u4Byte	TxLOK[2];
++	u4Byte  DpkTxAGC;
++	s4Byte  DpkGain;
++	u4Byte  DpkThermal[4];	
++
++	s1Byte Modify_TxAGC_Value_OFDM;
++	s1Byte Modify_TxAGC_Value_CCK;
++
++	/*Add by Yuchen for Kfree Phydm*/
++	u1Byte			RegRfKFreeEnable;	/*for registry*/
++	u1Byte			RfKFreeEnable;		/*for efuse enable check*/
++
++	HALMAC_PWR_TRACKING_OPTION	HALMAC_PWR_TRACKING_INFO;
++}ODM_RF_CAL_T,*PODM_RF_CAL_T;
++
++
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_pre_define.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_pre_define.h
+new file mode 100644
+index 0000000..d8750c5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_pre_define.h
+@@ -0,0 +1,653 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#ifndef	__PHYDMPREDEFINE_H__
++#define    __PHYDMPREDEFINE_H__
++
++//1 ============================================================
++//1  Definition 
++//1 ============================================================
++
++#define PHYDM_CODE_BASE		"PHYDM_BRANCH_007"
++#define PHYDM_RELEASE_DATE		"20160418"
++
++//Max path of IC
++#define MAX_PATH_NUM_8188E		1
++#define MAX_PATH_NUM_8192E		2
++#define MAX_PATH_NUM_8723B		1
++#define MAX_PATH_NUM_8812A		2
++#define MAX_PATH_NUM_8821A		1
++#define MAX_PATH_NUM_8814A		4
++#define MAX_PATH_NUM_8822B		2
++#define MAX_PATH_NUM_8821B		2
++#define MAX_PATH_NUM_8703B		1
++#define MAX_PATH_NUM_8188F		1
++#define MAX_PATH_NUM_8723D		1
++#define MAX_PATH_NUM_8197F		2
++
++//Max RF path
++#define ODM_RF_PATH_MAX 2
++#define ODM_RF_PATH_MAX_JAGUAR 4
++
++/*Bit define path*/
++#define	PHYDM_A		 BIT0
++#define	PHYDM_B		 BIT1
++#define	PHYDM_C		 BIT2
++#define	PHYDM_D		 BIT3
++#define	PHYDM_AB	 (BIT0 | BIT1)
++#define	PHYDM_AC	 (BIT0 | BIT2)
++#define	PHYDM_AD	 (BIT0 | BIT3)
++#define	PHYDM_BC	 (BIT1 | BIT2)
++#define	PHYDM_BD	 (BIT1 | BIT3)
++#define	PHYDM_CD	 (BIT2 | BIT3)
++#define	PHYDM_ABC	 (BIT0 | BIT1 | BIT2)
++#define	PHYDM_ABD	 (BIT0 | BIT1 | BIT3)
++#define	PHYDM_ACD	 (BIT0 | BIT2 | BIT3)
++#define	PHYDM_BCD	 (BIT1 | BIT2 | BIT3)
++#define	PHYDM_ABCD	 (BIT0 | BIT1 | BIT2 | BIT3)
++
++//number of entry
++#if(DM_ODM_SUPPORT_TYPE & (ODM_CE))
++	#define	ASSOCIATE_ENTRY_NUM					MACID_NUM_SW_LIMIT  /* Max size of AsocEntry[].*/
++	#define	ODM_ASSOCIATE_ENTRY_NUM				ASSOCIATE_ENTRY_NUM
++#elif(DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	#define ASSOCIATE_ENTRY_NUM					NUM_STAT
++	#define	ODM_ASSOCIATE_ENTRY_NUM				(ASSOCIATE_ENTRY_NUM+1)
++#else
++	#define ODM_ASSOCIATE_ENTRY_NUM				((ASSOCIATE_ENTRY_NUM*3)+1)
++#endif
++
++/* -----MGN rate--------------------------------- */
++
++#define	ODM_MGN_1M			0x02
++#define	ODM_MGN_2M			0x04
++#define	ODM_MGN_5_5M			0x0b
++#define	ODM_MGN_11M			0x16
++
++#define	ODM_MGN_6M			0x0c
++#define	ODM_MGN_9M			0x12
++#define	ODM_MGN_12M			0x18
++#define	ODM_MGN_18M			0x24
++#define	ODM_MGN_24M			0x30
++#define	ODM_MGN_36M			0x48
++#define	ODM_MGN_48M			0x60
++#define	ODM_MGN_54M			0x6c
++
++/*TxHT = 1*/
++#define	ODM_MGN_MCS0			0x80
++#define	ODM_MGN_MCS1			0x81
++#define	ODM_MGN_MCS2			0x82
++#define	ODM_MGN_MCS3			0x83
++#define	ODM_MGN_MCS4			0x84
++#define	ODM_MGN_MCS5			0x85
++#define	ODM_MGN_MCS6			0x86
++#define	ODM_MGN_MCS7			0x87
++#define	ODM_MGN_MCS8			0x88
++#define	ODM_MGN_MCS9			0x89
++#define	ODM_MGN_MCS10		0x8a
++#define	ODM_MGN_MCS11		0x8b
++#define	ODM_MGN_MCS12		0x8c
++#define	ODM_MGN_MCS13		0x8d
++#define	ODM_MGN_MCS14		0x8e
++#define	ODM_MGN_MCS15		0x8f
++#define	ODM_MGN_VHT1SS_MCS0	0x90
++#define	ODM_MGN_VHT1SS_MCS1	0x91
++#define	ODM_MGN_VHT1SS_MCS2	0x92
++#define	ODM_MGN_VHT1SS_MCS3	0x93
++#define	ODM_MGN_VHT1SS_MCS4	0x94
++#define	ODM_MGN_VHT1SS_MCS5	0x95
++#define	ODM_MGN_VHT1SS_MCS6	0x96
++#define	ODM_MGN_VHT1SS_MCS7	0x97
++#define	ODM_MGN_VHT1SS_MCS8	0x98
++#define	ODM_MGN_VHT1SS_MCS9	0x99
++#define	ODM_MGN_VHT2SS_MCS0	0x9a
++#define	ODM_MGN_VHT2SS_MCS1	0x9b
++#define	ODM_MGN_VHT2SS_MCS2	0x9c
++#define	ODM_MGN_VHT2SS_MCS3	0x9d
++#define	ODM_MGN_VHT2SS_MCS4	0x9e
++#define	ODM_MGN_VHT2SS_MCS5	0x9f
++#define	ODM_MGN_VHT2SS_MCS6	0xa0
++#define	ODM_MGN_VHT2SS_MCS7	0xa1
++#define	ODM_MGN_VHT2SS_MCS8	0xa2
++#define	ODM_MGN_VHT2SS_MCS9	0xa3
++
++#define	ODM_MGN_MCS0_SG		0xc0
++#define	ODM_MGN_MCS1_SG		0xc1
++#define	ODM_MGN_MCS2_SG		0xc2
++#define	ODM_MGN_MCS3_SG		0xc3
++#define	ODM_MGN_MCS4_SG		0xc4
++#define	ODM_MGN_MCS5_SG		0xc5
++#define	ODM_MGN_MCS6_SG		0xc6
++#define	ODM_MGN_MCS7_SG		0xc7
++#define	ODM_MGN_MCS8_SG		0xc8
++#define	ODM_MGN_MCS9_SG		0xc9
++#define	ODM_MGN_MCS10_SG		0xca
++#define	ODM_MGN_MCS11_SG		0xcb
++#define	ODM_MGN_MCS12_SG		0xcc
++#define	ODM_MGN_MCS13_SG		0xcd
++#define	ODM_MGN_MCS14_SG		0xce
++#define	ODM_MGN_MCS15_SG		0xcf
++
++/* -----DESC rate--------------------------------- */
++
++#define ODM_RATEMCS15_SG		0x1c
++#define ODM_RATEMCS32			0x20
++
++
++// CCK Rates, TxHT = 0
++#define ODM_RATE1M				0x00
++#define ODM_RATE2M				0x01
++#define ODM_RATE5_5M			0x02
++#define ODM_RATE11M				0x03
++// OFDM Rates, TxHT = 0
++#define ODM_RATE6M				0x04
++#define ODM_RATE9M				0x05
++#define ODM_RATE12M				0x06
++#define ODM_RATE18M				0x07
++#define ODM_RATE24M				0x08
++#define ODM_RATE36M				0x09
++#define ODM_RATE48M				0x0A
++#define ODM_RATE54M				0x0B
++// MCS Rates, TxHT = 1
++#define ODM_RATEMCS0			0x0C
++#define ODM_RATEMCS1			0x0D
++#define ODM_RATEMCS2			0x0E
++#define ODM_RATEMCS3			0x0F
++#define ODM_RATEMCS4			0x10
++#define ODM_RATEMCS5			0x11
++#define ODM_RATEMCS6			0x12
++#define ODM_RATEMCS7			0x13
++#define ODM_RATEMCS8			0x14
++#define ODM_RATEMCS9			0x15
++#define ODM_RATEMCS10			0x16
++#define ODM_RATEMCS11			0x17
++#define ODM_RATEMCS12			0x18
++#define ODM_RATEMCS13			0x19
++#define ODM_RATEMCS14			0x1A
++#define ODM_RATEMCS15			0x1B
++#define ODM_RATEMCS16			0x1C
++#define ODM_RATEMCS17			0x1D
++#define ODM_RATEMCS18			0x1E
++#define ODM_RATEMCS19			0x1F
++#define ODM_RATEMCS20			0x20
++#define ODM_RATEMCS21			0x21
++#define ODM_RATEMCS22			0x22
++#define ODM_RATEMCS23			0x23
++#define ODM_RATEMCS24			0x24
++#define ODM_RATEMCS25			0x25
++#define ODM_RATEMCS26			0x26
++#define ODM_RATEMCS27			0x27
++#define ODM_RATEMCS28			0x28
++#define ODM_RATEMCS29			0x29
++#define ODM_RATEMCS30			0x2A
++#define ODM_RATEMCS31			0x2B
++#define ODM_RATEVHTSS1MCS0		0x2C
++#define ODM_RATEVHTSS1MCS1		0x2D
++#define ODM_RATEVHTSS1MCS2		0x2E
++#define ODM_RATEVHTSS1MCS3		0x2F
++#define ODM_RATEVHTSS1MCS4		0x30
++#define ODM_RATEVHTSS1MCS5		0x31
++#define ODM_RATEVHTSS1MCS6		0x32
++#define ODM_RATEVHTSS1MCS7		0x33
++#define ODM_RATEVHTSS1MCS8		0x34
++#define ODM_RATEVHTSS1MCS9		0x35
++#define ODM_RATEVHTSS2MCS0		0x36
++#define ODM_RATEVHTSS2MCS1		0x37
++#define ODM_RATEVHTSS2MCS2		0x38
++#define ODM_RATEVHTSS2MCS3		0x39
++#define ODM_RATEVHTSS2MCS4		0x3A
++#define ODM_RATEVHTSS2MCS5		0x3B
++#define ODM_RATEVHTSS2MCS6		0x3C
++#define ODM_RATEVHTSS2MCS7		0x3D
++#define ODM_RATEVHTSS2MCS8		0x3E
++#define ODM_RATEVHTSS2MCS9		0x3F
++#define ODM_RATEVHTSS3MCS0		0x40
++#define ODM_RATEVHTSS3MCS1		0x41
++#define ODM_RATEVHTSS3MCS2		0x42
++#define ODM_RATEVHTSS3MCS3		0x43
++#define ODM_RATEVHTSS3MCS4		0x44
++#define ODM_RATEVHTSS3MCS5		0x45
++#define ODM_RATEVHTSS3MCS6		0x46
++#define ODM_RATEVHTSS3MCS7		0x47
++#define ODM_RATEVHTSS3MCS8		0x48
++#define ODM_RATEVHTSS3MCS9		0x49
++#define ODM_RATEVHTSS4MCS0		0x4A
++#define ODM_RATEVHTSS4MCS1		0x4B
++#define ODM_RATEVHTSS4MCS2		0x4C
++#define ODM_RATEVHTSS4MCS3		0x4D
++#define ODM_RATEVHTSS4MCS4		0x4E
++#define ODM_RATEVHTSS4MCS5		0x4F
++#define ODM_RATEVHTSS4MCS6		0x50
++#define ODM_RATEVHTSS4MCS7		0x51
++#define ODM_RATEVHTSS4MCS8		0x52
++#define ODM_RATEVHTSS4MCS9		0x53
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#define ODM_NUM_RATE_IDX (ODM_RATEVHTSS4MCS9+1)
++#else
++	#if (RTL8192E_SUPPORT == 1) || (RTL8197F_SUPPORT == 1)
++		#define ODM_NUM_RATE_IDX (ODM_RATEMCS15+1)
++	#elif (RTL8723B_SUPPORT == 1) || (RTL8188E_SUPPORT == 1) || (RTL8188F_SUPPORT == 1) 
++		#define ODM_NUM_RATE_IDX (ODM_RATEMCS7+1)
++	#elif (RTL8821A_SUPPORT == 1) || (RTL8881A_SUPPORT == 1) 
++		#define ODM_NUM_RATE_IDX (ODM_RATEVHTSS1MCS9+1)
++	#elif (RTL8812A_SUPPORT == 1)
++		#define ODM_NUM_RATE_IDX (ODM_RATEVHTSS2MCS9+1)
++	#elif(RTL8814A_SUPPORT == 1)
++		#define ODM_NUM_RATE_IDX (ODM_RATEVHTSS3MCS9+1)
++	#else
++		#define ODM_NUM_RATE_IDX (ODM_RATEVHTSS4MCS9+1)
++	#endif
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#define CONFIG_SFW_SUPPORTED
++#endif
++
++//1 ============================================================
++//1  enumeration
++//1 ============================================================
++
++
++//	ODM_CMNINFO_INTERFACE
++typedef enum tag_ODM_Support_Interface_Definition
++{
++	ODM_ITRF_PCIE 	=	0x1,
++	ODM_ITRF_USB 	=	0x2,
++	ODM_ITRF_SDIO 	=	0x4,
++	ODM_ITRF_ALL 	=	0x7,
++}ODM_INTERFACE_E;
++
++// ODM_CMNINFO_IC_TYPE
++typedef enum tag_ODM_Support_IC_Type_Definition
++{
++	ODM_RTL8188E	=	BIT0,
++	ODM_RTL8812	=	BIT1,
++	ODM_RTL8821	=	BIT2,
++	ODM_RTL8192E	=	BIT3,	
++	ODM_RTL8723B	=	BIT4,
++	ODM_RTL8814A	=	BIT5,	
++	ODM_RTL8881A	=	BIT6,
++	ODM_RTL8822B	=	BIT7,
++	ODM_RTL8703B	=	BIT8,
++	ODM_RTL8195A	=	BIT9,
++	ODM_RTL8188F	=	BIT10,
++	ODM_RTL8723D	=	BIT11,
++	ODM_RTL8197F	=	BIT12,
++	ODM_RTL8821C	=	BIT13,
++}ODM_IC_TYPE_E;
++
++
++
++
++#define ODM_IC_11N_SERIES		(ODM_RTL8188E|ODM_RTL8192E|ODM_RTL8723B|ODM_RTL8703B|ODM_RTL8188F|ODM_RTL8723D|ODM_RTL8197F)
++#define ODM_IC_11AC_SERIES		(ODM_RTL8812|ODM_RTL8821|ODM_RTL8814A|ODM_RTL8881A|ODM_RTL8822B|ODM_RTL8821C)
++#define ODM_IC_11AC_1_SERIES		(ODM_RTL8812|ODM_RTL8821|ODM_RTL8881A)
++#define ODM_IC_11AC_2_SERIES		(ODM_RTL8814A|ODM_RTL8822B|ODM_RTL8821C)
++#define ODM_IC_TXBF_SUPPORT		(ODM_RTL8192E|ODM_RTL8812|ODM_RTL8821|ODM_RTL8814A|ODM_RTL8881A|ODM_RTL8822B|ODM_RTL8197F|ODM_RTL8821C)
++#define ODM_IC_11N_GAIN_IDX_EDCCA		(ODM_RTL8195A|ODM_RTL8703B|ODM_RTL8188F|ODM_RTL8723D|ODM_RTL8197F)
++#define ODM_IC_11AC_GAIN_IDX_EDCCA		(ODM_RTL8814A|ODM_RTL8822B|ODM_RTL8821C)
++#define ODM_IC_PHY_STATUE_NEW_TYPE		(ODM_RTL8197F|ODM_RTL8822B|ODM_RTL8723D|ODM_RTL8821C)
++
++#define PHYDM_IC_8051_SERIES		(ODM_RTL8881A|ODM_RTL8812|ODM_RTL8821|ODM_RTL8188E|ODM_RTL8192E|ODM_RTL8723B|ODM_RTL8703B|ODM_RTL8188F)
++#define PHYDM_IC_3081_SERIES		(ODM_RTL8814A|ODM_RTL8822B|ODM_RTL8197F|ODM_RTL8821C)
++
++#define PHYDM_IC_SUPPORT_LA_MODE	(ODM_RTL8814A|ODM_RTL8822B|ODM_RTL8197F|ODM_RTL8821C)
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++#ifdef RTK_AC_SUPPORT
++#define ODM_IC_11AC_SERIES_SUPPORT		1
++#else
++#define ODM_IC_11AC_SERIES_SUPPORT		0
++#endif
++
++#define ODM_IC_11N_SERIES_SUPPORT			1
++#define ODM_CONFIG_BT_COEXIST				0
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++#define ODM_IC_11AC_SERIES_SUPPORT		1
++#define ODM_IC_11N_SERIES_SUPPORT			1
++#define ODM_CONFIG_BT_COEXIST				1
++
++#else 
++
++#if ((RTL8188E_SUPPORT == 1) || \
++(RTL8723B_SUPPORT == 1) || (RTL8192E_SUPPORT == 1) || (RTL8195A_SUPPORT == 1) || (RTL8703B_SUPPORT == 1) || \
++(RTL8188F_SUPPORT == 1) || (RTL8723D_SUPPORT == 1) || (RTL8197F_SUPPORT == 1))
++#define ODM_IC_11N_SERIES_SUPPORT			1
++#define ODM_IC_11AC_SERIES_SUPPORT		0
++#else
++#define ODM_IC_11N_SERIES_SUPPORT			0
++#define ODM_IC_11AC_SERIES_SUPPORT		1
++#endif
++
++#ifdef CONFIG_BT_COEXIST
++#define ODM_CONFIG_BT_COEXIST				1
++#else
++#define ODM_CONFIG_BT_COEXIST				0
++#endif
++
++#endif
++
++#if ((RTL8814A_SUPPORT == 1) || (RTL8821C_SUPPORT == 1) || (RTL8822B_SUPPORT == 1) || (RTL8197F_SUPPORT == 1))
++#define PHYDM_LA_MODE_SUPPORT			1
++#else
++#define PHYDM_LA_MODE_SUPPORT			0
++#endif
++
++#if ((RTL8197F_SUPPORT == 1) || (RTL8723D_SUPPORT == 1) || (RTL8822B_SUPPORT == 1) || (RTL8821C_SUPPORT == 1))
++#define ODM_PHY_STATUS_NEW_TYPE_SUPPORT			1
++#else
++#define ODM_PHY_STATUS_NEW_TYPE_SUPPORT			0
++#endif
++
++//ODM_CMNINFO_CUT_VER
++typedef enum tag_ODM_Cut_Version_Definition
++{
++	ODM_CUT_A 		=	0,
++	ODM_CUT_B 		=	1,
++	ODM_CUT_C 		=	2,
++	ODM_CUT_D 		=	3,
++	ODM_CUT_E 		=	4,
++	ODM_CUT_F 		=	5,
++
++	ODM_CUT_I 		=	8,
++	ODM_CUT_J 		=	9,
++	ODM_CUT_K 		=	10,	
++	ODM_CUT_TEST 	=	15,
++}ODM_CUT_VERSION_E;
++
++// ODM_CMNINFO_FAB_VER
++typedef enum tag_ODM_Fab_Version_Definition
++{
++	ODM_TSMC 	=	0,
++	ODM_UMC 	=	1,
++}ODM_FAB_E;
++
++// ODM_CMNINFO_RF_TYPE
++//
++// For example 1T2R (A+AB = BIT0|BIT4|BIT5)
++//
++typedef enum tag_ODM_RF_Path_Bit_Definition
++{
++	ODM_RF_A = BIT0,
++	ODM_RF_B = BIT1,
++	ODM_RF_C = BIT2,
++	ODM_RF_D = BIT3,
++}ODM_RF_PATH_E;
++
++typedef enum tag_PHYDM_RF_TX_NUM {
++	ODM_1T	=	1,
++	ODM_2T	=	2,
++	ODM_3T	=	3,
++	ODM_4T	=	4,
++} ODM_RF_TX_NUM_E;
++
++typedef enum tag_ODM_RF_Type_Definition {
++	ODM_1T1R,
++	ODM_1T2R,
++	ODM_2T2R,
++	ODM_2T2R_GREEN,
++	ODM_2T3R,
++	ODM_2T4R,
++	ODM_3T3R,
++	ODM_3T4R,
++	ODM_4T4R,
++	ODM_XTXR
++}ODM_RF_TYPE_E;
++
++
++typedef enum tag_ODM_MAC_PHY_Mode_Definition
++{
++	ODM_SMSP	= 0,
++	ODM_DMSP	= 1,
++	ODM_DMDP	= 2,
++}ODM_MAC_PHY_MODE_E;
++
++
++typedef enum tag_BT_Coexist_Definition
++{	
++	ODM_BT_BUSY 		= 1,
++	ODM_BT_ON 			= 2,
++	ODM_BT_OFF 		= 3,
++	ODM_BT_NONE 		= 4,
++}ODM_BT_COEXIST_E;
++
++// ODM_CMNINFO_OP_MODE
++typedef enum tag_Operation_Mode_Definition
++{
++	ODM_NO_LINK 		= BIT0,
++	ODM_LINK 			= BIT1,
++	ODM_SCAN 			= BIT2,
++	ODM_POWERSAVE 	= BIT3,
++	ODM_AP_MODE 		= BIT4,
++	ODM_CLIENT_MODE	= BIT5,
++	ODM_AD_HOC 		= BIT6,
++	ODM_WIFI_DIRECT	= BIT7,
++	ODM_WIFI_DISPLAY	= BIT8,
++}ODM_OPERATION_MODE_E;
++
++// ODM_CMNINFO_WM_MODE
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++typedef enum tag_Wireless_Mode_Definition
++{
++	ODM_WM_UNKNOW	= 0x0,
++	ODM_WM_B			= BIT0,
++	ODM_WM_G			= BIT1,
++	ODM_WM_A			= BIT2,
++	ODM_WM_N24G		= BIT3,
++	ODM_WM_N5G		= BIT4,
++	ODM_WM_AUTO		= BIT5,
++	ODM_WM_AC		= BIT6,
++}ODM_WIRELESS_MODE_E;
++#else
++typedef enum tag_Wireless_Mode_Definition
++{
++	ODM_WM_UNKNOWN	= 0x00,/*0x0*/
++	ODM_WM_A			= BIT0, /* 0x1*/
++	ODM_WM_B			= BIT1, /* 0x2*/
++	ODM_WM_G			= BIT2,/* 0x4*/
++	ODM_WM_AUTO		= BIT3,/* 0x8*/
++	ODM_WM_N24G		= BIT4,/* 0x10*/
++	ODM_WM_N5G		= BIT5,/* 0x20*/
++	ODM_WM_AC_5G		= BIT6,/* 0x40*/
++	ODM_WM_AC_24G	= BIT7,/* 0x80*/
++	ODM_WM_AC_ONLY	= BIT8,/* 0x100*/
++	ODM_WM_MAX		= BIT11/* 0x800*/
++
++}ODM_WIRELESS_MODE_E;
++#endif
++
++// ODM_CMNINFO_BAND
++typedef enum tag_Band_Type_Definition
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	ODM_BAND_2_4G 	= BIT0,
++	ODM_BAND_5G 		= BIT1,
++#else
++	ODM_BAND_2_4G = 0,
++	ODM_BAND_5G,
++	ODM_BAND_ON_BOTH,
++	ODM_BANDMAX
++#endif
++}ODM_BAND_TYPE_E;
++
++
++// ODM_CMNINFO_SEC_CHNL_OFFSET
++typedef enum tag_Secondary_Channel_Offset_Definition {
++
++	PHYDM_DONT_CARE	= 0,
++	PHYDM_BELOW		= 1,
++	PHYDM_ABOVE		= 2
++} PHYDM_SEC_CHNL_OFFSET_E;
++
++// ODM_CMNINFO_SEC_MODE
++typedef enum tag_Security_Definition
++{
++	ODM_SEC_OPEN 			= 0,
++	ODM_SEC_WEP40 		= 1,
++	ODM_SEC_TKIP 			= 2,
++	ODM_SEC_RESERVE 		= 3,
++	ODM_SEC_AESCCMP 		= 4,
++	ODM_SEC_WEP104 		= 5,
++	ODM_WEP_WPA_MIXED    = 6, // WEP + WPA
++	ODM_SEC_SMS4 			= 7,
++}ODM_SECURITY_E;
++
++// ODM_CMNINFO_BW
++typedef enum tag_Bandwidth_Definition
++{	
++	ODM_BW20M 		= 0,
++	ODM_BW40M 		= 1,
++	ODM_BW80M 		= 2,
++	ODM_BW160M 		= 3,
++	ODM_BW5M			= 4,
++	ODM_BW10M			= 5,
++	ODM_BW_MAX		= 6
++}ODM_BW_E;
++
++// ODM_CMNINFO_CHNL
++
++// ODM_CMNINFO_BOARD_TYPE
++typedef enum tag_Board_Definition
++{
++    ODM_BOARD_DEFAULT  	= 0, 	  // The DEFAULT case.
++    ODM_BOARD_MINICARD  = BIT(0), // 0 = non-mini card, 1= mini card.
++    ODM_BOARD_SLIM      = BIT(1), // 0 = non-slim card, 1 = slim card
++    ODM_BOARD_BT        = BIT(2), // 0 = without BT card, 1 = with BT
++    ODM_BOARD_EXT_PA    = BIT(3), // 0 = no 2G ext-PA, 1 = existing 2G ext-PA
++    ODM_BOARD_EXT_LNA   = BIT(4), // 0 = no 2G ext-LNA, 1 = existing 2G ext-LNA
++    ODM_BOARD_EXT_TRSW  = BIT(5), // 0 = no ext-TRSW, 1 = existing ext-TRSW
++    ODM_BOARD_EXT_PA_5G	= BIT(6), // 0 = no 5G ext-PA, 1 = existing 5G ext-PA
++    ODM_BOARD_EXT_LNA_5G= BIT(7), // 0 = no 5G ext-LNA, 1 = existing 5G ext-LNA
++}ODM_BOARD_TYPE_E;
++
++typedef enum tag_ODM_Package_Definition
++{
++    ODM_PACKAGE_DEFAULT  	 = 0, 	  
++    ODM_PACKAGE_QFN68        = BIT(0), 
++    ODM_PACKAGE_TFBGA90      = BIT(1), 
++    ODM_PACKAGE_TFBGA79      = BIT(2),	
++}ODM_Package_TYPE_E;
++
++typedef enum tag_ODM_TYPE_GPA_Definition {
++	TYPE_GPA0 = 0x0000,
++	TYPE_GPA1 = 0x0055,
++	TYPE_GPA2 = 0x00AA,
++	TYPE_GPA3 = 0x00FF,
++	TYPE_GPA4 = 0x5500,
++	TYPE_GPA5 = 0x5555,
++	TYPE_GPA6 = 0x55AA,
++	TYPE_GPA7 = 0x55FF,
++	TYPE_GPA8 = 0xAA00,
++	TYPE_GPA9 = 0xAA55,
++	TYPE_GPA10 = 0xAAAA,
++	TYPE_GPA11 = 0xAAFF,
++	TYPE_GPA12 = 0xFF00,
++	TYPE_GPA13 = 0xFF55,
++	TYPE_GPA14 = 0xFFAA,
++	TYPE_GPA15 = 0xFFFF,
++}ODM_TYPE_GPA_E;
++
++typedef enum tag_ODM_TYPE_APA_Definition {
++	TYPE_APA0 = 0x0000,
++	TYPE_APA1 = 0x0055,
++	TYPE_APA2 = 0x00AA,
++	TYPE_APA3 = 0x00FF,
++	TYPE_APA4 = 0x5500,
++	TYPE_APA5 = 0x5555,
++	TYPE_APA6 = 0x55AA,
++	TYPE_APA7 = 0x55FF,
++	TYPE_APA8 = 0xAA00,
++	TYPE_APA9 = 0xAA55,
++	TYPE_APA10 = 0xAAAA,
++	TYPE_APA11 = 0xAAFF,
++	TYPE_APA12 = 0xFF00,
++	TYPE_APA13 = 0xFF55,
++	TYPE_APA14 = 0xFFAA,
++	TYPE_APA15 = 0xFFFF,
++}ODM_TYPE_APA_E;
++
++typedef enum tag_ODM_TYPE_GLNA_Definition {
++	TYPE_GLNA0 = 0x0000,
++	TYPE_GLNA1 = 0x0055,
++	TYPE_GLNA2 = 0x00AA,
++	TYPE_GLNA3 = 0x00FF,
++	TYPE_GLNA4 = 0x5500,
++	TYPE_GLNA5 = 0x5555,
++	TYPE_GLNA6 = 0x55AA,
++	TYPE_GLNA7 = 0x55FF,
++	TYPE_GLNA8 = 0xAA00,
++	TYPE_GLNA9 = 0xAA55,
++	TYPE_GLNA10 = 0xAAAA,
++	TYPE_GLNA11 = 0xAAFF,
++	TYPE_GLNA12 = 0xFF00,
++	TYPE_GLNA13 = 0xFF55,
++	TYPE_GLNA14 = 0xFFAA,
++	TYPE_GLNA15 = 0xFFFF,
++}ODM_TYPE_GLNA_E;
++
++typedef enum tag_ODM_TYPE_ALNA_Definition {
++	TYPE_ALNA0 = 0x0000,
++	TYPE_ALNA1 = 0x0055,
++	TYPE_ALNA2 = 0x00AA,
++	TYPE_ALNA3 = 0x00FF,
++	TYPE_ALNA4 = 0x5500,
++	TYPE_ALNA5 = 0x5555,
++	TYPE_ALNA6 = 0x55AA,
++	TYPE_ALNA7 = 0x55FF,
++	TYPE_ALNA8 = 0xAA00,
++	TYPE_ALNA9 = 0xAA55,
++	TYPE_ALNA10 = 0xAAAA,
++	TYPE_ALNA11 = 0xAAFF,
++	TYPE_ALNA12 = 0xFF00,
++	TYPE_ALNA13 = 0xFF55,
++	TYPE_ALNA14 = 0xFFAA,
++	TYPE_ALNA15 = 0xFFFF,
++}ODM_TYPE_ALNA_E;
++
++
++typedef enum _ODM_RF_RADIO_PATH {
++    ODM_RF_PATH_A = 0,   //Radio Path A
++    ODM_RF_PATH_B = 1,   //Radio Path B
++    ODM_RF_PATH_C = 2,   //Radio Path C
++    ODM_RF_PATH_D = 3,   //Radio Path D
++    ODM_RF_PATH_AB,
++    ODM_RF_PATH_AC,
++    ODM_RF_PATH_AD,
++    ODM_RF_PATH_BC,
++    ODM_RF_PATH_BD,
++    ODM_RF_PATH_CD,
++    ODM_RF_PATH_ABC,
++    ODM_RF_PATH_ACD,
++    ODM_RF_PATH_BCD,
++    ODM_RF_PATH_ABCD,
++  //  ODM_RF_PATH_MAX,    //Max RF number 90 support
++} ODM_RF_RADIO_PATH_E, *PODM_RF_RADIO_PATH_E;
++
++typedef enum _ODM_PARAMETER_INIT {
++	ODM_PRE_SETTING = 0,
++	ODM_POST_SETTING = 1,
++} ODM_PARAMETER_INIT_E;
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_precomp.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_precomp.h
+new file mode 100644
+index 0000000..6dab342
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_precomp.h
+@@ -0,0 +1,348 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef	__ODM_PRECOMP_H__
++#define __ODM_PRECOMP_H__
++
++#include "phydm_types.h"
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#include "Precomp.h"		// We need to include mp_precomp.h due to batch file setting.
++#else
++#define		TEST_FALG___		1
++#endif
++
++//2 Config Flags and Structs - defined by each ODM Type
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	#include "../8192cd_cfg.h"
++	#include "../odm_inc.h"
++
++	#include "../8192cd.h"
++	#include "../8192cd_util.h"
++	#ifdef _BIG_ENDIAN_
++	#define	ODM_ENDIAN_TYPE				ODM_ENDIAN_BIG
++	#else
++	#define	ODM_ENDIAN_TYPE				ODM_ENDIAN_LITTLE
++	#endif
++
++	#ifdef AP_BUILD_WORKAROUND
++	#include "../8192cd_headers.h"
++	#include "../8192cd_debug.h"		
++	#endif
++
++#elif (DM_ODM_SUPPORT_TYPE ==ODM_CE)
++	#define __PACK
++	#define __WLAN_ATTRIB_PACK__
++#elif (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#include "mp_precomp.h"
++	#define	ODM_ENDIAN_TYPE				ODM_ENDIAN_LITTLE
++	#define __PACK
++	#define __WLAN_ATTRIB_PACK__
++#endif
++
++//2 OutSrc Header Files
++ 
++#include "phydm.h" 
++#include "phydm_hwconfig.h"
++#include "phydm_debug.h"
++#include "phydm_regdefine11ac.h"
++#include "phydm_regdefine11n.h"
++#include "phydm_interface.h"
++#include "phydm_reg.h"
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++#include "phydm_adc_sampling.h"
++#endif
++
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_CE)
++VOID
++PHY_SetTxPowerLimit(
++	IN	PDM_ODM_T	pDM_Odm,
++	IN	u8	*Regulation,
++	IN	u8	*Band,
++	IN	u8	*Bandwidth,
++	IN	u8	*RateSection,
++	IN	u8	*RfPath,
++	IN	u8	*Channel,
++	IN	u8	*PowerLimit
++);
++
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++#define RTL8703B_SUPPORT		0
++#define RTL8188F_SUPPORT		0
++#define RTL8723D_SUPPORT		0
++#endif
++
++#if RTL8188E_SUPPORT == 1
++#define RTL8188E_T_SUPPORT 1
++#ifdef CONFIG_SFW_SUPPORTED
++#define RTL8188E_S_SUPPORT 1
++#else
++#define RTL8188E_S_SUPPORT 0
++#endif
++#endif
++
++#if (RTL8188E_SUPPORT==1) 
++#include "rtl8188e/hal8188erateadaptive.h"//for  RA,Power training
++#include "rtl8188e/halhwimg8188e_mac.h"
++#include "rtl8188e/halhwimg8188e_rf.h"
++#include "rtl8188e/halhwimg8188e_bb.h"
++#include "rtl8188e/halhwimg8188e_t_fw.h"
++#include "rtl8188e/halhwimg8188e_s_fw.h"
++#include "rtl8188e/phydm_regconfig8188e.h"
++#include "rtl8188e/phydm_rtl8188e.h"
++#include "rtl8188e/hal8188ereg.h"
++#include "rtl8188e/version_rtl8188e.h"
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#include "rtl8188e_hal.h" 
++	#include "rtl8188e/halphyrf_8188e_ce.h"
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#include "rtl8188e/halphyrf_8188e_win.h"
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	#include "rtl8188e/halphyrf_8188e_ap.h"
++#endif
++#endif  //88E END
++
++#if (RTL8192E_SUPPORT==1) 
++
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		#include "rtl8192e/halphyrf_8192e_win.h" /*FOR_8192E_IQK*/
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++		#include "rtl8192e/halphyrf_8192e_ap.h" /*FOR_8192E_IQK*/
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++		#include "rtl8192e/halphyrf_8192e_ce.h" /*FOR_8192E_IQK*/
++	#endif
++	
++#include "rtl8192e/phydm_rtl8192e.h" //FOR_8192E_IQK
++#include "rtl8192e/version_rtl8192e.h"
++#if (DM_ODM_SUPPORT_TYPE != ODM_AP)
++	#include "rtl8192e/halhwimg8192e_bb.h"
++	#include "rtl8192e/halhwimg8192e_mac.h"
++	#include "rtl8192e/halhwimg8192e_rf.h"
++	#include "rtl8192e/phydm_regconfig8192e.h"
++	#include "rtl8192e/halhwimg8192e_fw.h"
++	#include "rtl8192e/hal8192ereg.h"
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#include "rtl8192e_hal.h"
++#endif
++#endif  //92E END
++
++#if (RTL8812A_SUPPORT==1)
++
++    #if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++        #include "rtl8812a/halphyrf_8812a_win.h"
++    #elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++        #include "rtl8812a/halphyrf_8812a_ap.h"
++    #elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++        #include "rtl8812a/halphyrf_8812a_ce.h"
++    #endif
++
++    //#include "rtl8812a/HalPhyRf_8812A.h" //FOR_8812_IQK
++    #if (DM_ODM_SUPPORT_TYPE != ODM_AP)
++        #include "rtl8812a/halhwimg8812a_bb.h"
++        #include "rtl8812a/halhwimg8812a_mac.h"
++        #include "rtl8812a/halhwimg8812a_rf.h"
++        #include "rtl8812a/phydm_regconfig8812a.h"
++        #include "rtl8812a/halhwimg8812a_fw.h"
++        #include "rtl8812a/phydm_rtl8812a.h"
++    #endif
++
++    #if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	    #include "rtl8812a_hal.h"
++    #endif
++	#include "rtl8812a/version_rtl8812a.h"
++
++#endif //8812 END
++
++#if (RTL8814A_SUPPORT==1)
++
++#include "rtl8814a/halhwimg8814a_mac.h"
++#include "rtl8814a/halhwimg8814a_rf.h"
++#include "rtl8814a/halhwimg8814a_bb.h"
++#include "rtl8814a/version_rtl8814a.h"
++#include "rtl8814a/phydm_rtl8814a.h"
++#if (DM_ODM_SUPPORT_TYPE != ODM_AP)
++	#include "rtl8814a/halhwimg8814a_fw.h"
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#include "rtl8814a/halphyrf_8814a_win.h"
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#include "rtl8814a/halphyrf_8814a_ce.h"
++#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	#include "rtl8814a/halphyrf_8814a_ap.h"
++#endif
++	#include "rtl8814a/phydm_regconfig8814a.h"
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#include "rtl8814a_hal.h"
++	#include "rtl8814a/phydm_iqk_8814a.h"
++#endif
++#endif //8814 END
++
++#if (RTL8881A_SUPPORT==1)//FOR_8881_IQK
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#include "rtl8821a/phydm_iqk_8821a_win.h"
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++#include "rtl8821a/phydm_iqk_8821a_ce.h"
++#else
++#include "rtl8821a/phydm_iqk_8821a_ap.h"
++#endif
++//#include "rtl8881a/HalHWImg8881A_BB.h"
++//#include "rtl8881a/HalHWImg8881A_MAC.h"
++//#include "rtl8881a/HalHWImg8881A_RF.h"
++//#include "rtl8881a/odm_RegConfig8881A.h"
++#endif
++
++#if (RTL8723B_SUPPORT==1) 
++#include "rtl8723b/halhwimg8723b_mac.h"
++#include "rtl8723b/halhwimg8723b_rf.h"
++#include "rtl8723b/halhwimg8723b_bb.h"
++#include "rtl8723b/halhwimg8723b_fw.h"
++#include "rtl8723b/phydm_regconfig8723b.h"
++#include "rtl8723b/phydm_rtl8723b.h"
++#include "rtl8723b/hal8723breg.h"
++#include "rtl8723b/version_rtl8723b.h"
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++    #include "rtl8723b/halphyrf_8723b_win.h"
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++    #include "rtl8723b/halphyrf_8723b_ce.h"
++    #include "rtl8723b/halhwimg8723b_mp.h"
++    #include "rtl8723b_hal.h"
++#else
++     #include "rtl8723b/halphyrf_8723b_ap.h"
++#endif
++#endif
++
++#if (RTL8821A_SUPPORT==1) 
++#include "rtl8821a/halhwimg8821a_mac.h"
++#include "rtl8821a/halhwimg8821a_rf.h"
++#include "rtl8821a/halhwimg8821a_bb.h"
++#include "rtl8821a/halhwimg8821a_fw.h"
++#include "rtl8821a/phydm_regconfig8821a.h"
++#include "rtl8821a/phydm_rtl8821a.h"
++#include "rtl8821a/version_rtl8821a.h"
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#include "rtl8821a/halphyrf_8821a_win.h"
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#include "rtl8821a/halphyrf_8821a_ce.h"
++	#include "rtl8821a/phydm_iqk_8821a_ce.h"/*for IQK*/
++	#include "rtl8812a/halphyrf_8812a_ce.h"/*for IQK,LCK,Power-tracking*/
++	#include "rtl8812a_hal.h"
++#else
++#endif
++#endif
++
++#if (RTL8822B_SUPPORT==1) 
++#include "rtl8822b/halhwimg8822b_mac.h"
++#include "rtl8822b/halhwimg8822b_rf.h"
++#include "rtl8822b/halhwimg8822b_bb.h"
++#include "rtl8822b/halhwimg8822b_fw.h"
++#include "rtl8822b/phydm_regconfig8822b.h"
++#include "rtl8822b/halphyrf_8822b.h"
++#include "rtl8822b/phydm_rtl8822b.h"
++#include "rtl8822b/phydm_hal_api8822b.h"
++#include "rtl8822b/version_rtl8822b.h"
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++#include <hal_data.h>		/* struct HAL_DATA_TYPE */
++#include <rtl8822b_hal.h>	/* Rx_Smooth_Factor, reg definition and etc.*/
++#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++#endif
++
++#endif
++
++#if (RTL8703B_SUPPORT==1) 
++#include "rtl8703b/phydm_regconfig8703b.h"
++#include "rtl8703b/halhwimg8703b_mac.h"
++#include "rtl8703b/halhwimg8703b_rf.h"
++#include "rtl8703b/halhwimg8703b_bb.h"
++#include "rtl8703b/halhwimg8703b_fw.h"
++#include "rtl8703b/halphyrf_8703b.h"
++#include "rtl8703b/version_rtl8703b.h"
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++#include "rtl8703b_hal.h"
++#endif
++#endif
++
++#if (RTL8188F_SUPPORT == 1) 
++#include "rtl8188f/halhwimg8188f_mac.h"
++#include "rtl8188f/halhwimg8188f_rf.h"
++#include "rtl8188f/halhwimg8188f_bb.h"
++#include "rtl8188f/halhwimg8188f_fw.h"
++#include "rtl8188f/hal8188freg.h"
++#include "rtl8188f/phydm_rtl8188f.h"
++#include "rtl8188f/phydm_regconfig8188f.h"
++#include "rtl8188f/halphyrf_8188f.h" /* for IQK,LCK,Power-tracking */
++#include "rtl8188f/version_rtl8188f.h"
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++#include "rtl8188f_hal.h"
++#endif
++#endif
++
++#if (RTL8723D_SUPPORT==1)
++  #if (DM_ODM_SUPPORT_TYPE != ODM_AP)
++	
++	#include "rtl8723d/halhwimg8723d_bb.h"
++	#include "rtl8723d/halhwimg8723d_mac.h"
++	#include "rtl8723d/halhwimg8723d_rf.h"
++	#include "rtl8723d/phydm_regconfig8723d.h"
++	#include "rtl8723d/halhwimg8723d_fw.h"
++	#include "rtl8723d/hal8723dreg.h"
++	#include "rtl8723d/phydm_rtl8723d.h"
++	#include "rtl8723d/halphyrf_8723d.h"
++	#include "rtl8723d/version_rtl8723d.h"
++  #endif
++  #if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#include "rtl8723d_hal.h"
++  #endif
++#endif	//8723D End
++
++#if (RTL8197F_SUPPORT == 1) 
++#include "rtl8197f/halhwimg8197f_mac.h"
++#include "rtl8197f/halhwimg8197f_rf.h"
++#include "rtl8197f/halhwimg8197f_bb.h"
++#include "rtl8197f/phydm_hal_api8197f.h"
++#include "rtl8197f/version_rtl8197f.h"
++#include "rtl8197f/phydm_rtl8197f.h"
++#include "rtl8197f/phydm_regconfig8197f.h"
++#include "rtl8197f/halphyrf_8197f.h"
++#include "rtl8197f/phydm_iqk_8197f.h"
++#endif
++
++#if (RTL8821C_SUPPORT==1)
++#include "rtl8821c/phydm_hal_api8821c.h"
++#include "rtl8821c/halhwimg8821c_testchip_mac.h"
++#include "rtl8821c/halhwimg8821c_testchip_rf.h"
++#include "rtl8821c/halhwimg8821c_testchip_bb.h"
++#include "rtl8821c/phydm_regconfig8821c.h"
++#include "rtl8821c/version_rtl8821c.h"
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#include "rtl8821c_hal.h"
++#endif
++#endif
++
++#endif	// __ODM_PRECOMP_H__
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_rainfo.c b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_rainfo.c
+new file mode 100644
+index 0000000..add88ff
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_rainfo.c
+@@ -0,0 +1,3346 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#if (defined(CONFIG_RA_DBG_CMD))
++VOID
++odm_RA_ParaAdjust_Send_H2C(
++	IN	PVOID	pDM_VOID
++)
++{
++
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++	u1Byte			H2C_Parameter[6] = {0};
++
++	H2C_Parameter[0] = RA_FIRST_MACID;
++
++	if (pRA_Table->RA_Para_feedback_req) { /*H2C_Parameter[5]=1 ; ask FW for all RA parameters*/
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("[H2C] Ask FW for RA parameter\n"));
++		H2C_Parameter[5] |= BIT1; /*ask FW to report RA parameters*/
++		H2C_Parameter[1] = pRA_Table->para_idx; /*pRA_Table->para_idx;*/
++		pRA_Table->RA_Para_feedback_req = 0;
++	} else {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("[H2C] Send H2C to FW for modifying RA parameter\n"));
++
++		H2C_Parameter[1] =  pRA_Table->para_idx;
++		H2C_Parameter[2] =  pRA_Table->rate_idx;
++		/* [8 bit]*/
++		if (pRA_Table->para_idx == RADBG_RTY_PENALTY || pRA_Table->para_idx == RADBG_RATE_UP_RTY_RATIO || pRA_Table->para_idx == RADBG_RATE_DOWN_RTY_RATIO) {
++			H2C_Parameter[3] = pRA_Table->value;
++			H2C_Parameter[4] = 0;
++		}
++		/* [16 bit]*/
++		else {
++			H2C_Parameter[3] = (u1Byte)(((pRA_Table->value_16) & 0xf0) >> 4); /*byte1*/
++			H2C_Parameter[4] = (u1Byte)((pRA_Table->value_16) & 0x0f);	/*byte0*/
++		}
++	}
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" H2C_Parameter[1] = 0x%x\n", H2C_Parameter[1]));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" H2C_Parameter[2] = 0x%x\n", H2C_Parameter[2]));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" H2C_Parameter[3] = 0x%x\n", H2C_Parameter[3]));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" H2C_Parameter[4] = 0x%x\n", H2C_Parameter[4]));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" H2C_Parameter[5] = 0x%x\n", H2C_Parameter[5]));
++
++	ODM_FillH2CCmd(pDM_Odm, ODM_H2C_RA_PARA_ADJUST, 6, H2C_Parameter);
++
++}
++
++
++VOID
++odm_RA_ParaAdjust(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++	u1Byte			rate_idx = pRA_Table->rate_idx;
++	u1Byte			value = pRA_Table->value;
++	u1Byte			Pre_value = 0xff;
++
++	if (pRA_Table->para_idx == RADBG_RTY_PENALTY) {
++		Pre_value = pRA_Table->RTY_P[rate_idx];
++		pRA_Table->RTY_P[rate_idx] = value;
++		pRA_Table->RTY_P_modify_note[rate_idx] = 1;
++	} else if (pRA_Table->para_idx == RADBG_N_HIGH) {
++
++	} else if (pRA_Table->para_idx == RADBG_N_LOW) {
++
++	} else if (pRA_Table->para_idx == RADBG_RATE_UP_RTY_RATIO) {
++		Pre_value = pRA_Table->RATE_UP_RTY_RATIO[rate_idx];
++		pRA_Table->RATE_UP_RTY_RATIO[rate_idx] = value;
++		pRA_Table->RATE_UP_RTY_RATIO_modify_note[rate_idx] = 1;
++	} else if (pRA_Table->para_idx == RADBG_RATE_DOWN_RTY_RATIO) {
++		Pre_value = pRA_Table->RATE_DOWN_RTY_RATIO[rate_idx];
++		pRA_Table->RATE_DOWN_RTY_RATIO[rate_idx] = value;
++		pRA_Table->RATE_DOWN_RTY_RATIO_modify_note[rate_idx] = 1;
++	}
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("Change RA Papa[%d], Rate[ %d ],   ((%d))  ->  ((%d))\n", pRA_Table->para_idx, rate_idx, Pre_value, value));
++	odm_RA_ParaAdjust_Send_H2C(pDM_Odm);
++}
++
++VOID
++phydm_ra_print_msg(
++	IN		PVOID		pDM_VOID,
++	IN		u1Byte		*value,
++	IN		u1Byte		*value_default,
++	IN		u1Byte		*modify_note
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++	u4Byte i;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" |Rate index| |Current-value| |Default-value| |Modify?|\n"));
++	for (i = 0 ; i <= (pRA_Table->rate_length); i++) {
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("     [ %d ]  %20d  %25d  %20s\n", i, value[i], value_default[i], ((modify_note[i] == 1) ? "V" : " .  ")));
++#else
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("     [ %d ]  %10d  %14d  %14s\n", i, value[i], value_default[i], ((modify_note[i] == 1) ? "V" : " .  ")));
++#endif
++	}
++
++}
++
++VOID
++odm_RA_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++
++	pRA_Table->is_ra_dbg_init = FALSE;
++
++	if (dm_value[0] == 100) { /*1 Print RA Parameters*/
++		u1Byte	default_pointer_value;
++		u1Byte	*pvalue;
++		u1Byte	*pvalue_default;
++		u1Byte	*pmodify_note;
++
++		pvalue = pvalue_default = pmodify_note = &default_pointer_value;
++
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("\n------------------------------------------------------------------------------------\n"));
++
++		if (dm_value[1] == RADBG_RTY_PENALTY) { /* [1]*/
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" [1] RTY_PENALTY\n"));
++			pvalue		=	&(pRA_Table->RTY_P[0]);
++			pvalue_default	=	&(pRA_Table->RTY_P_default[0]);
++			pmodify_note	=	(u1Byte *)&(pRA_Table->RTY_P_modify_note[0]);
++		} else if (dm_value[1] == RADBG_N_HIGH) { /* [2]*/
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" [2] N_HIGH\n"));
++
++		} else if (dm_value[1] == RADBG_N_LOW) { /*[3]*/
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" [3] N_LOW\n"));
++
++		} else if (dm_value[1] == RADBG_RATE_UP_RTY_RATIO) { /* [8]*/
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" [8] RATE_UP_RTY_RATIO\n"));
++			pvalue		=	&(pRA_Table->RATE_UP_RTY_RATIO[0]);
++			pvalue_default	=	&(pRA_Table->RATE_UP_RTY_RATIO_default[0]);
++			pmodify_note	=	(u1Byte *)&(pRA_Table->RATE_UP_RTY_RATIO_modify_note[0]);
++		} else if (dm_value[1] == RADBG_RATE_DOWN_RTY_RATIO) { /* [9]*/
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" [9] RATE_DOWN_RTY_RATIO\n"));
++			pvalue		=	&(pRA_Table->RATE_DOWN_RTY_RATIO[0]);
++			pvalue_default	=	&(pRA_Table->RATE_DOWN_RTY_RATIO_default[0]);
++			pmodify_note	=	(u1Byte *)&(pRA_Table->RATE_DOWN_RTY_RATIO_modify_note[0]);
++		}
++
++		phydm_ra_print_msg(pDM_Odm, pvalue, pvalue_default, pmodify_note);
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("\n------------------------------------------------------------------------------------\n\n"));
++
++	} else if (dm_value[0] == 101) {
++		pRA_Table->para_idx = (u1Byte)dm_value[1];
++
++		pRA_Table->RA_Para_feedback_req = 1;
++		odm_RA_ParaAdjust_Send_H2C(pDM_Odm);
++	} else {
++		pRA_Table->para_idx = (u1Byte)dm_value[0];
++		pRA_Table->rate_idx  = (u1Byte)dm_value[1];
++		pRA_Table->value = (u1Byte)dm_value[2];
++
++		odm_RA_ParaAdjust(pDM_Odm);
++	}
++}
++
++VOID
++odm_RA_ParaAdjust_init(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++	u1Byte			i;
++	u1Byte			ra_para_pool_u8[3] = { RADBG_RTY_PENALTY,  RADBG_RATE_UP_RTY_RATIO, RADBG_RATE_DOWN_RTY_RATIO};
++	u1Byte			RateSize_HT_1ss = 20, RateSize_HT_2ss = 28, RateSize_HT_3ss = 36;	 /*4+8+8+8+8 =36*/
++	u1Byte			RateSize_VHT_1ss = 10, RateSize_VHT_2ss = 20, RateSize_VHT_3ss = 30;	 /*10 + 10 +10 =30*/
++	/*
++		RTY_PENALTY		=	1,  //u8
++		N_HIGH 				=	2,
++		N_LOW				=	3,
++		RATE_UP_TABLE		=	4,
++		RATE_DOWN_TABLE	=	5,
++		TRYING_NECESSARY	=	6,
++		DROPING_NECESSARY =	7,
++		RATE_UP_RTY_RATIO	=	8, //u8
++		RATE_DOWN_RTY_RATIO=	9, //u8
++		ALL_PARA		=	0xff
++
++	*/
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("odm_RA_ParaAdjust_init \n"));
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8188F | ODM_RTL8195A | ODM_RTL8703B | ODM_RTL8723B | ODM_RTL8188E | ODM_RTL8723D))
++		pRA_Table->rate_length = RateSize_HT_1ss;
++	else if (pDM_Odm->SupportICType & (ODM_RTL8192E | ODM_RTL8197F))
++		pRA_Table->rate_length = RateSize_HT_2ss;
++	else if (pDM_Odm->SupportICType & (ODM_RTL8821 | ODM_RTL8881A | ODM_RTL8821C))
++		pRA_Table->rate_length = RateSize_HT_1ss + RateSize_VHT_1ss;
++	else if (pDM_Odm->SupportICType & (ODM_RTL8812 | ODM_RTL8822B))
++		pRA_Table->rate_length = RateSize_HT_2ss + RateSize_VHT_2ss;
++	else if (pDM_Odm->SupportICType == ODM_RTL8814A)
++		pRA_Table->rate_length = RateSize_HT_3ss + RateSize_VHT_3ss;
++	else
++		pRA_Table->rate_length = RateSize_HT_1ss;
++
++	pRA_Table->is_ra_dbg_init = TRUE;
++	for (i = 0; i < 3; i++) {
++		pRA_Table->RA_Para_feedback_req = 1;
++		pRA_Table->para_idx	=	ra_para_pool_u8[i];
++		odm_RA_ParaAdjust_Send_H2C(pDM_Odm);
++	}
++}
++
++#else
++
++VOID
++phydm_RA_debug_PCR(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char			*output,
++	IN		u4Byte		*_out_len
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++	u4Byte used = *_used;
++	u4Byte out_len = *_out_len;
++
++	if (dm_value[0] == 100) {
++		PHYDM_SNPRINTF((output+used, out_len-used, "[Get] PCR RA_threshold_offset = (( %s%d ))\n", ((pRA_Table->RA_threshold_offset == 0) ? " " : ((pRA_Table->RA_offset_direction) ? "+" : "-")), pRA_Table->RA_threshold_offset));
++		/**/
++	} else if (dm_value[0] == 0) {
++		pRA_Table->RA_offset_direction = 0;
++		pRA_Table->RA_threshold_offset = (u1Byte)dm_value[1];
++		PHYDM_SNPRINTF((output+used, out_len-used, "[Set] PCR RA_threshold_offset = (( -%d ))\n", pRA_Table->RA_threshold_offset));
++	} else if (dm_value[0] == 1) {
++		pRA_Table->RA_offset_direction = 1;
++		pRA_Table->RA_threshold_offset = (u1Byte)dm_value[1];
++		PHYDM_SNPRINTF((output+used, out_len-used, "[Set] PCR RA_threshold_offset = (( +%d ))\n", pRA_Table->RA_threshold_offset));
++	} else {
++		PHYDM_SNPRINTF((output+used, out_len-used, "[Set] Error\n"));
++		/**/
++	}
++	
++}
++
++#endif /*#if (defined(CONFIG_RA_DBG_CMD))*/
++
++VOID
++ODM_C2HRaParaReportHandler(
++	IN	PVOID	pDM_VOID,
++	IN	pu1Byte	CmdBuf,
++	IN	u1Byte	CmdLen
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++
++	u1Byte	para_idx = CmdBuf[0]; /*Retry Penalty, NH, NL*/
++	u1Byte	RateTypeStart = CmdBuf[1];
++	u1Byte	RateTypeLength = CmdLen - 2;
++	u1Byte	i;
++
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("[ From FW C2H RA Para ]  CmdBuf[0]= (( %d ))\n", CmdBuf[0]));
++	
++#if (defined(CONFIG_RA_DBG_CMD))
++	if (para_idx == RADBG_RTY_PENALTY) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" |Rate Index|   |RTY Penality Index|\n"));
++
++		for (i = 0 ; i < (RateTypeLength) ; i++) {
++			if (pRA_Table->is_ra_dbg_init)
++				pRA_Table->RTY_P_default[RateTypeStart + i] = CmdBuf[2 + i];
++
++			pRA_Table->RTY_P[RateTypeStart + i] = CmdBuf[2 + i];
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("%8d  %15d \n", (RateTypeStart + i), pRA_Table->RTY_P[RateTypeStart + i]));
++		}
++
++	} else	if (para_idx == RADBG_N_HIGH) {
++		/**/
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" |Rate Index|    |N-High|\n"));
++
++
++	} else if (para_idx == RADBG_N_LOW) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" |Rate Index|   |N-Low|\n"));
++		/**/
++	}
++	else if (para_idx == RADBG_RATE_UP_RTY_RATIO) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" |Rate Index|   |Rate Up RTY Ratio|\n"));
++
++		for (i = 0; i < (RateTypeLength); i++) {
++			if (pRA_Table->is_ra_dbg_init)
++				pRA_Table->RATE_UP_RTY_RATIO_default[RateTypeStart + i] = CmdBuf[2 + i];
++
++			pRA_Table->RATE_UP_RTY_RATIO[RateTypeStart + i] = CmdBuf[2 + i];
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("%8d  %15d\n", (RateTypeStart + i), pRA_Table->RATE_UP_RTY_RATIO[RateTypeStart + i]));
++		}
++	} else	 if (para_idx == RADBG_RATE_DOWN_RTY_RATIO) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" |Rate Index|   |Rate Down RTY Ratio|\n"));
++
++		for (i = 0; i < (RateTypeLength); i++) {
++			if (pRA_Table->is_ra_dbg_init)
++				pRA_Table->RATE_DOWN_RTY_RATIO_default[RateTypeStart + i] = CmdBuf[2 + i];
++
++			pRA_Table->RATE_DOWN_RTY_RATIO[RateTypeStart + i] = CmdBuf[2 + i];
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("%8d  %15d\n", (RateTypeStart + i), pRA_Table->RATE_DOWN_RTY_RATIO[RateTypeStart + i]));
++		}
++	} else	 
++#endif
++	if (para_idx == RADBG_DEBUG_MONITOR1) {
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("-------------------------------\n"));
++		if (pDM_Odm->SupportICType & PHYDM_IC_3081_SERIES) {
++
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "RSSI =", CmdBuf[1]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "Rate =", CmdBuf[2] & 0x7f));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "SGI =", (CmdBuf[2] & 0x80) >> 7));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "BW =", CmdBuf[3]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "BW_max =", CmdBuf[4]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "multi_rate0 =", CmdBuf[5]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "multi_rate1 =", CmdBuf[6]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "DISRA =",	CmdBuf[7]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "VHT_EN =", CmdBuf[8]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "SGI_support =",	CmdBuf[9]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "try_ness =", CmdBuf[10]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "pre_rate =", CmdBuf[11]));
++		} else {
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "RSSI =", CmdBuf[1]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %x\n", "BW =", CmdBuf[2]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "DISRA =", CmdBuf[3]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "VHT_EN =", CmdBuf[4]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "Hightest Rate =", CmdBuf[5]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "Lowest Rate =", CmdBuf[6]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "SGI_support =", CmdBuf[7]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "Rate_ID =",	CmdBuf[8]));;
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("-------------------------------\n"));
++	} else	 if (para_idx == RADBG_DEBUG_MONITOR2) {
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("-------------------------------\n"));
++		if (pDM_Odm->SupportICType & PHYDM_IC_3081_SERIES) {
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "RateID =", CmdBuf[1]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "highest_rate =", CmdBuf[2]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "lowest_rate =", CmdBuf[3]));
++
++			for (i = 4; i <= 11; i++)
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("RAMASK =  0x%x\n", CmdBuf[i]));
++		} else {
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %x%x  %x%x  %x%x  %x%x\n", "RA Mask:",
++						CmdBuf[8], CmdBuf[7], CmdBuf[6], CmdBuf[5], CmdBuf[4], CmdBuf[3], CmdBuf[2], CmdBuf[1]));
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("-------------------------------\n"));
++	} else	 if (para_idx == RADBG_DEBUG_MONITOR3) {
++
++		for (i = 0; i < (CmdLen - 1); i++)
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("content[%d] = %d\n", i, CmdBuf[1 + i]));
++	} else	 if (para_idx == RADBG_DEBUG_MONITOR4)
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  {%d.%d}\n", "RA Version =", CmdBuf[1], CmdBuf[2]));
++		else if (para_idx == RADBG_DEBUG_MONITOR5) {
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "Current rate =", CmdBuf[1]));
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "Retry ratio =", CmdBuf[2]));
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "Rate down ratio =", CmdBuf[3]));
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "highest rate =", CmdBuf[4]));
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  {0x%x 0x%x}\n", "Muti-try =", CmdBuf[5], CmdBuf[6]));
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x%x%x%x%x\n", "RA mask =", CmdBuf[11], CmdBuf[10], CmdBuf[9], CmdBuf[8], CmdBuf[7]));
++	}
++}
++
++VOID
++phydm_ra_dynamic_retry_count(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T		        pRA_Table = &pDM_Odm->DM_RA_Table;
++	PSTA_INFO_T		pEntry;
++	u1Byte	i, retry_offset;
++	u4Byte	ma_rx_tp;
++
++	if (!(pDM_Odm->SupportAbility & ODM_BB_DYNAMIC_ARFR)) {
++		return;
++	}
++
++	/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("pDM_Odm->pre_b_noisy = %d\n", pDM_Odm->pre_b_noisy ));*/
++	if (pDM_Odm->pre_b_noisy != pDM_Odm->NoisyDecision) {
++
++		if (pDM_Odm->NoisyDecision) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("->Noisy Env. RA fallback value\n"));
++			ODM_SetMACReg(pDM_Odm, 0x430, bMaskDWord, 0x0);
++			ODM_SetMACReg(pDM_Odm, 0x434, bMaskDWord, 0x04030201);		
++		} else {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("->Clean Env. RA fallback value\n"));
++			ODM_SetMACReg(pDM_Odm, 0x430, bMaskDWord, 0x01000000);
++			ODM_SetMACReg(pDM_Odm, 0x434, bMaskDWord, 0x06050402);		
++		}
++		pDM_Odm->pre_b_noisy = pDM_Odm->NoisyDecision;
++	}
++}
++
++#if (defined(CONFIG_RA_DYNAMIC_RTY_LIMIT))
++
++VOID
++phydm_retry_limit_table_bound(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	*retry_limit,
++	IN	u1Byte	offset
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T		        pRA_Table = &pDM_Odm->DM_RA_Table;
++
++	if (*retry_limit >  offset) {
++		
++		*retry_limit -= offset;
++		
++		if (*retry_limit < pRA_Table->retrylimit_low)
++			*retry_limit = pRA_Table->retrylimit_low;
++		else if (*retry_limit > pRA_Table->retrylimit_high)
++			*retry_limit = pRA_Table->retrylimit_high;
++	} else
++		*retry_limit = pRA_Table->retrylimit_low;
++}
++
++VOID
++phydm_reset_retry_limit_table(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T		        pRA_Table = &pDM_Odm->DM_RA_Table;
++	u1Byte			i;
++
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN) /*support all IC platform*/
++
++	#else
++		#if ((RTL8192E_SUPPORT == 1) || (RTL8723B_SUPPORT == 1) || (RTL8188E_SUPPORT == 1)) 
++			u1Byte per_rate_retrylimit_table_20M[ODM_RATEMCS15+1] = {
++				1, 1, 2, 4,					/*CCK*/
++				2, 2, 4, 6, 8, 12, 16, 18,		/*OFDM*/
++				2, 4, 6, 8, 12, 18, 20, 22,		/*20M HT-1SS*/
++				2, 4, 6, 8, 12, 18, 20, 22		/*20M HT-2SS*/
++			};
++			u1Byte per_rate_retrylimit_table_40M[ODM_RATEMCS15+1] = {
++				1, 1, 2, 4,					/*CCK*/
++				2, 2, 4, 6, 8, 12, 16, 18,		/*OFDM*/
++				4, 8, 12, 16, 24, 32, 32, 32,		/*40M HT-1SS*/
++				4, 8, 12, 16, 24, 32, 32, 32		/*40M HT-2SS*/
++			};
++
++		#elif (RTL8821A_SUPPORT == 1) || (RTL8881A_SUPPORT == 1) 
++
++		#elif (RTL8812A_SUPPORT == 1)
++
++		#elif(RTL8814A_SUPPORT == 1)
++
++		#else
++
++		#endif
++	#endif
++
++	memcpy(&(pRA_Table->per_rate_retrylimit_20M[0]), &(per_rate_retrylimit_table_20M[0]), ODM_NUM_RATE_IDX);
++	memcpy(&(pRA_Table->per_rate_retrylimit_40M[0]), &(per_rate_retrylimit_table_40M[0]), ODM_NUM_RATE_IDX);
++
++	for (i = 0; i < ODM_NUM_RATE_IDX; i++) {
++		phydm_retry_limit_table_bound(pDM_Odm, &(pRA_Table->per_rate_retrylimit_20M[i]), 0);
++		phydm_retry_limit_table_bound(pDM_Odm, &(pRA_Table->per_rate_retrylimit_40M[i]), 0);
++	}	
++}
++
++VOID
++phydm_ra_dynamic_retry_limit(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T		        pRA_Table = &pDM_Odm->DM_RA_Table;
++	PSTA_INFO_T		pEntry;
++	u1Byte	i, retry_offset;
++	u4Byte	ma_rx_tp;
++
++
++	if (pDM_Odm->pre_number_active_client == pDM_Odm->number_active_client) {
++		
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" pre_number_active_client ==  number_active_client\n"));
++		return;
++		
++	} else {
++		if (pDM_Odm->number_active_client == 1) {
++			phydm_reset_retry_limit_table(pDM_Odm);
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("one client only->reset to default value\n"));
++		} else {
++
++			retry_offset = pDM_Odm->number_active_client * pRA_Table->retry_descend_num;
++			
++			for (i = 0; i < ODM_NUM_RATE_IDX; i++) {
++
++				phydm_retry_limit_table_bound(pDM_Odm, &(pRA_Table->per_rate_retrylimit_20M[i]), retry_offset);
++				phydm_retry_limit_table_bound(pDM_Odm, &(pRA_Table->per_rate_retrylimit_40M[i]), retry_offset);	
++			}				
++		}
++	}
++}
++
++VOID
++phydm_ra_dynamic_retry_limit_init(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T		        pRA_Table = &pDM_Odm->DM_RA_Table;
++
++	pRA_Table->retry_descend_num = RA_RETRY_DESCEND_NUM;
++	pRA_Table->retrylimit_low = RA_RETRY_LIMIT_LOW;
++	pRA_Table->retrylimit_high = RA_RETRY_LIMIT_HIGH;
++	
++	phydm_reset_retry_limit_table(pDM_Odm);
++	
++}
++#else
++VOID
++phydm_ra_dynamic_retry_limit(
++	IN	PVOID	pDM_VOID
++)
++{
++}
++#endif
++
++#if (defined(CONFIG_RA_DYNAMIC_RATE_ID))
++VOID
++phydm_ra_dynamic_rate_id_on_assoc(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	wireless_mode,
++	IN	u1Byte	init_rate_id
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("[ON ASSOC] rf_mode = ((0x%x)), wireless_mode = ((0x%x)), init_rate_id = ((0x%x))\n", pDM_Odm->RFType, wireless_mode, init_rate_id));
++	
++	if ((pDM_Odm->RFType == ODM_2T2R) | (pDM_Odm->RFType == ODM_2T2R_GREEN) | (pDM_Odm->RFType == ODM_2T3R) | (pDM_Odm->RFType == ODM_2T4R)) {
++		
++		if ((pDM_Odm->SupportICType & (ODM_RTL8812|ODM_RTL8192E)) &&
++			(wireless_mode & (ODM_WM_N24G | ODM_WM_N5G))
++			){
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("[ON ASSOC] set N-2SS ARFR5 table\n"));
++			ODM_SetMACReg(pDM_Odm, 0x4a4, bMaskDWord, 0xfc1ffff);	/*N-2SS, ARFR5, rate_id = 0xe*/
++			ODM_SetMACReg(pDM_Odm, 0x4a8, bMaskDWord, 0x0);		/*N-2SS, ARFR5, rate_id = 0xe*/
++		} else if ((pDM_Odm->SupportICType & (ODM_RTL8812)) &&
++			(wireless_mode & (ODM_WM_AC_5G | ODM_WM_AC_24G | ODM_WM_AC_ONLY))
++			){
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("[ON ASSOC] set AC-2SS ARFR0 table\n"));
++			ODM_SetMACReg(pDM_Odm, 0x444, bMaskDWord, 0x0fff);	/*AC-2SS, ARFR0, rate_id = 0x9*/
++			ODM_SetMACReg(pDM_Odm, 0x448, bMaskDWord, 0xff01f000);		/*AC-2SS, ARFR0, rate_id = 0x9*/
++		}
++	}
++
++}
++
++VOID
++phydm_ra_dynamic_rate_id_init(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	if (pDM_Odm->SupportICType & (ODM_RTL8812|ODM_RTL8192E)) {
++		
++		ODM_SetMACReg(pDM_Odm, 0x4a4, bMaskDWord, 0xfc1ffff);	/*N-2SS, ARFR5, rate_id = 0xe*/
++		ODM_SetMACReg(pDM_Odm, 0x4a8, bMaskDWord, 0x0);		/*N-2SS, ARFR5, rate_id = 0xe*/
++		
++		ODM_SetMACReg(pDM_Odm, 0x444, bMaskDWord, 0x0fff);		/*AC-2SS, ARFR0, rate_id = 0x9*/
++		ODM_SetMACReg(pDM_Odm, 0x448, bMaskDWord, 0xff01f000);	/*AC-2SS, ARFR0, rate_id = 0x9*/
++	}
++}
++
++VOID
++phydm_update_rate_id(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	rate,
++	IN	u1Byte	platform_macid
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T		pRA_Table = &pDM_Odm->DM_RA_Table;
++	u1Byte		current_tx_ss;
++	u1Byte		rate_idx = rate & 0x7f; /*remove bit7 SGI*/
++	u1Byte		wireless_mode;
++	u1Byte		phydm_macid;
++	PSTA_INFO_T	pEntry;
++	
++	
++#if	0
++	if (rate_idx >= ODM_RATEVHTSS2MCS0) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("Rate[%d]: (( VHT2SS-MCS%d ))\n", platform_macid, (rate_idx-ODM_RATEVHTSS2MCS0)));
++		/*dummy for SD4 check patch*/
++	} else if (rate_idx >= ODM_RATEVHTSS1MCS0) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("Rate[%d]: (( VHT1SS-MCS%d ))\n", platform_macid, (rate_idx-ODM_RATEVHTSS1MCS0)));
++		/*dummy for SD4 check patch*/
++	} else if (rate_idx >= ODM_RATEMCS0) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("Rate[%d]: (( HT-MCS%d ))\n", platform_macid, (rate_idx-ODM_RATEMCS0)));
++		/*dummy for SD4 check patch*/
++	} else {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("Rate[%d]: (( HT-MCS%d ))\n", platform_macid, rate_idx));
++		/*dummy for SD4 check patch*/
++	}
++#endif
++		
++	phydm_macid = pDM_Odm->platform2phydm_macid_table[platform_macid];
++	pEntry = pDM_Odm->pODM_StaInfo[phydm_macid];
++	
++	if (IS_STA_VALID(pEntry)) {
++		wireless_mode = pEntry->WirelessMode;
++
++		if ((pDM_Odm->RFType  == ODM_2T2R) | (pDM_Odm->RFType  == ODM_2T2R_GREEN) | (pDM_Odm->RFType  == ODM_2T3R) | (pDM_Odm->RFType  == ODM_2T4R)) {
++			
++			pEntry->ratr_idx = pEntry->ratr_idx_init;
++			if (wireless_mode & (ODM_WM_N24G | ODM_WM_N5G)) { /*N mode*/
++				if (rate_idx >= ODM_RATEMCS8 && rate_idx <= ODM_RATEMCS15) { /*2SS mode*/
++					
++					pEntry->ratr_idx = ARFR_5_RATE_ID;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("ARFR_5\n"));
++				}
++			} else if (wireless_mode & (ODM_WM_AC_5G | ODM_WM_AC_24G | ODM_WM_AC_ONLY)) {/*AC mode*/
++				if (rate_idx >= ODM_RATEVHTSS2MCS0 && rate_idx <= ODM_RATEVHTSS2MCS9) {/*2SS mode*/
++					
++					pEntry->ratr_idx = ARFR_0_RATE_ID;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("ARFR_0\n"));
++				}
++			}
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("UPdate_RateID[%d]: (( 0x%x ))\n", platform_macid, pEntry->ratr_idx));
++		}
++	}
++
++}
++#endif
++
++VOID
++phydm_print_rate(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	rate,
++	IN	u4Byte	dbg_component
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte		legacy_table[12] = {1, 2, 5, 11, 6, 9, 12, 18, 24, 36, 48, 54};
++	u1Byte		rate_idx = rate & 0x7f; /*remove bit7 SGI*/
++	u1Byte		vht_en = (rate_idx >= ODM_RATEVHTSS1MCS0) ? 1 : 0;	
++	u1Byte		b_sgi = (rate & 0x80)>>7;
++	
++	ODM_RT_TRACE_F(pDM_Odm, dbg_component, ODM_DBG_LOUD, ("( %s%s%s%s%d%s%s)\n",
++		((rate_idx >= ODM_RATEVHTSS1MCS0) && (rate_idx <= ODM_RATEVHTSS1MCS9)) ? "VHT 1ss  " : "",
++		((rate_idx >= ODM_RATEVHTSS2MCS0) && (rate_idx <= ODM_RATEVHTSS2MCS9)) ? "VHT 2ss " : "",
++		((rate_idx >= ODM_RATEVHTSS3MCS0) && (rate_idx <= ODM_RATEVHTSS3MCS9)) ? "VHT 3ss " : "",
++		(rate_idx >= ODM_RATEMCS0) ? "MCS " : "",
++		(vht_en) ? ((rate_idx - ODM_RATEVHTSS1MCS0)%10) : ((rate_idx >= ODM_RATEMCS0) ? (rate_idx - ODM_RATEMCS0) : ((rate_idx <= ODM_RATE54M)?legacy_table[rate_idx]:0)),
++		(b_sgi) ? "-S" : "  ",
++		(rate_idx >= ODM_RATEMCS0) ? "" : "M"));
++}
++
++VOID
++phydm_c2h_ra_report_handler(
++	IN PVOID	pDM_VOID,
++	IN pu1Byte   CmdBuf,
++	IN u1Byte   CmdLen
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T		pRA_Table = &pDM_Odm->DM_RA_Table;
++	u1Byte	legacy_table[12] = {1,2,5,11,6,9,12,18,24,36,48,54};
++	u1Byte	macid = CmdBuf[1];
++	u1Byte	rate = CmdBuf[0];
++	u1Byte	rate_idx = rate & 0x7f; /*remove bit7 SGI*/
++	u1Byte	pre_rate = pRA_Table->link_tx_rate[macid];
++	u1Byte	rate_order;
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++	GET_HAL_DATA(Adapter)->CurrentRARate = HwRateToMRate(rate_idx);
++	#endif
++	
++	
++	if (CmdLen >= 4) {
++		if (CmdBuf[3] == 0) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("TX Init-Rate Update[%d]:", macid));
++			/**/
++		} else if (CmdBuf[3] == 0xff) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("FW Level: Fix rate[%d]:", macid));
++			/**/
++		} else if (CmdBuf[3] == 1) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("Try Success[%d]:", macid));
++			/**/
++		} else if (CmdBuf[3] == 2) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("Try Fail & Try Again[%d]:", macid));
++			/**/
++		} else if (CmdBuf[3] == 3) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("Rate Back[%d]:", macid));
++			/**/
++		} else if (CmdBuf[3] == 4) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("start rate by RSSI[%d]:", macid));
++			/**/
++		} else if (CmdBuf[3] == 5) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("Try rate[%d]:", macid));
++			/**/
++		}
++	} else {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("Tx Rate Update[%d]:", macid));
++		/**/
++	}
++	
++	/*phydm_print_rate(pDM_Odm, pre_rate_idx, ODM_COMP_RATE_ADAPTIVE);*/
++	/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, (">\n",macid );*/
++	phydm_print_rate(pDM_Odm, rate, ODM_COMP_RATE_ADAPTIVE);
++
++	pRA_Table->link_tx_rate[macid] = rate;
++
++	/*trigger power training*/
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++
++	rate_order = phydm_rate_order_compute(pDM_Odm, rate_idx);
++	
++	if ((pDM_Odm->bOneEntryOnly) ||
++		((rate_order > pRA_Table->highest_client_tx_order) && (pRA_Table->power_tracking_flag == 1))
++		) {
++		phydm_update_pwr_track(pDM_Odm, rate_idx);
++		pRA_Table->power_tracking_flag = 0;
++	}
++	
++	#endif
++	
++	/*trigger dynamic rate ID*/
++	#if (defined(CONFIG_RA_DYNAMIC_RATE_ID))
++	if (pDM_Odm->SupportICType & (ODM_RTL8812|ODM_RTL8192E))
++		phydm_update_rate_id(pDM_Odm, rate, macid);
++	#endif
++
++}
++
++VOID
++odm_RSSIMonitorInit(
++	IN		PVOID		pDM_VOID
++)
++{
++#if(DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T		pRA_Table = &pDM_Odm->DM_RA_Table;
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	pRA_Table->PT_collision_pre = TRUE;	/*used in ODM_DynamicARFBSelect(WIN only)*/
++	
++	pHalData->UndecoratedSmoothedPWDB = -1;
++	pHalData->ra_rpt_linked = FALSE;
++	#endif
++
++	pRA_Table->firstconnect = FALSE;
++
++	
++#endif
++}
++
++VOID
++ODM_RAPostActionOnAssoc(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++/*
++	pDM_Odm->H2C_RARpt_connect = 1;
++	odm_RSSIMonitorCheck(pDM_Odm);
++	pDM_Odm->H2C_RARpt_connect = 0;
++*/
++}
++
++VOID
++phydm_initRaInfo(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++#if (RTL8822B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8822B) {
++		u4Byte	ret_value;
++
++		ret_value = ODM_GetBBReg(pDM_Odm, 0x4c8, bMaskByte2);
++		ODM_SetBBReg(pDM_Odm, 0x4cc, bMaskByte3, (ret_value - 1));
++	}
++#endif
++}
++
++VOID
++phydm_modify_RA_PCR_threshold(
++	IN		PVOID		pDM_VOID,
++	IN		u1Byte		RA_offset_direction,
++	IN		u1Byte		RA_threshold_offset
++
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++
++	pRA_Table->RA_offset_direction = RA_offset_direction;
++	pRA_Table->RA_threshold_offset = RA_threshold_offset;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Set RA_threshold_offset = (( %s%d ))\n", ((RA_threshold_offset == 0) ? " " : ((RA_offset_direction) ? "+" : "-")), RA_threshold_offset));
++}
++
++VOID
++odm_RSSIMonitorCheckMP(
++	IN	PVOID	pDM_VOID
++)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++	u1Byte			H2C_Parameter[H2C_0X42_LENGTH] = {0};
++	u4Byte			i;
++	BOOLEAN			bExtRAInfo = TRUE;
++	u1Byte			cmdlen = H2C_0X42_LENGTH;
++	u1Byte			TxBF_EN = 0, stbc_en = 0;
++
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PSTA_INFO_T		pEntry = NULL;
++	s4Byte			tmpEntryMaxPWDB = 0, tmpEntryMinPWDB = 0xff;
++	PMGNT_INFO		pMgntInfo = &Adapter->MgntInfo;
++	PMGNT_INFO		pDefaultMgntInfo = &Adapter->MgntInfo;
++	u8Byte			curTxOkCnt = 0, curRxOkCnt = 0;
++#if (BEAMFORMING_SUPPORT == 1)
++#ifndef BEAMFORMING_VERSION_1
++	BEAMFORMING_CAP Beamform_cap = BEAMFORMING_CAP_NONE;
++#endif
++#endif
++	PADAPTER	pLoopAdapter = GetDefaultAdapter(Adapter);
++
++	if (pDM_Odm->SupportICType == ODM_RTL8188E) {
++		bExtRAInfo = FALSE;
++		cmdlen = 3;
++	}
++
++	while (pLoopAdapter) {
++
++		if (pLoopAdapter != NULL) {
++			pMgntInfo = &pLoopAdapter->MgntInfo;
++			curTxOkCnt = pLoopAdapter->TxStats.NumTxBytesUnicast - pMgntInfo->lastTxOkCnt;
++			curRxOkCnt = pLoopAdapter->RxStats.NumRxBytesUnicast - pMgntInfo->lastRxOkCnt;
++			pMgntInfo->lastTxOkCnt = curTxOkCnt;
++			pMgntInfo->lastRxOkCnt = curRxOkCnt;
++		}
++
++		for (i = 0; i < ASSOCIATE_ENTRY_NUM; i++) {
++
++			if (IsAPModeExist(pLoopAdapter)) {
++				if (GetFirstExtAdapter(pLoopAdapter) != NULL &&
++					GetFirstExtAdapter(pLoopAdapter) == pLoopAdapter)
++					pEntry = AsocEntry_EnumStation(pLoopAdapter, i);
++				else if (GetFirstGOPort(pLoopAdapter) != NULL &&
++						 IsFirstGoAdapter(pLoopAdapter))
++					pEntry = AsocEntry_EnumStation(pLoopAdapter, i);
++			} else {
++				if (GetDefaultAdapter(pLoopAdapter) == pLoopAdapter)
++					pEntry = AsocEntry_EnumStation(pLoopAdapter, i);
++			}
++
++			if (pEntry != NULL) {
++				if (pEntry->bAssociated) {
++
++					RT_DISP_ADDR(FDM, DM_PWDB, ("pEntry->MacAddr ="), pEntry->MacAddr);
++					RT_DISP(FDM, DM_PWDB, ("pEntry->rssi = 0x%x(%d)\n",
++										   pEntry->rssi_stat.UndecoratedSmoothedPWDB, pEntry->rssi_stat.UndecoratedSmoothedPWDB));
++
++					//2 BF_en
++#if (BEAMFORMING_SUPPORT == 1)
++#ifndef BEAMFORMING_VERSION_1
++					Beamform_cap = phydm_Beamforming_GetEntryBeamCapByMacId(pDM_Odm, pEntry->AssociatedMacId);
++					if (Beamform_cap & (BEAMFORMER_CAP_HT_EXPLICIT | BEAMFORMER_CAP_VHT_SU))
++						TxBF_EN = 1;
++#else
++					if(Beamform_GetSupportBeamformerCap(GetDefaultAdapter(Adapter), pEntry))
++						TxBF_EN = 1;
++#endif
++#endif
++					//2 STBC_en
++					if ((IS_WIRELESS_MODE_AC(Adapter) && TEST_FLAG(pEntry->VHTInfo.STBC, STBC_VHT_ENABLE_TX)) ||
++						TEST_FLAG(pEntry->HTInfo.STBC, STBC_HT_ENABLE_TX))
++						stbc_en = 1;
++
++					if (pEntry->rssi_stat.UndecoratedSmoothedPWDB < tmpEntryMinPWDB)
++						tmpEntryMinPWDB = pEntry->rssi_stat.UndecoratedSmoothedPWDB;
++					if (pEntry->rssi_stat.UndecoratedSmoothedPWDB > tmpEntryMaxPWDB)
++						tmpEntryMaxPWDB = pEntry->rssi_stat.UndecoratedSmoothedPWDB;
++
++					H2C_Parameter[4] = (pRA_Table->RA_threshold_offset & 0x7f) | (pRA_Table->RA_offset_direction<<8); 
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("RA_threshold_offset = (( %s%d ))\n", ((pRA_Table->RA_threshold_offset == 0) ? " " : ((pRA_Table->RA_offset_direction) ? "+" : "-")),pRA_Table->RA_threshold_offset));
++
++					if (bExtRAInfo) {
++						if (curRxOkCnt > (curTxOkCnt * 6))
++							H2C_Parameter[3] |= RAINFO_BE_RX_STATE;
++
++						if (TxBF_EN)
++							H2C_Parameter[3] |= RAINFO_BF_STATE;
++						else {
++							if (stbc_en)
++								H2C_Parameter[3] |= RAINFO_STBC_STATE;
++						}
++
++						if (pDM_Odm->NoisyDecision)
++							H2C_Parameter[3] |= RAINFO_NOISY_STATE; 
++						else
++							H2C_Parameter[3] &= (~RAINFO_NOISY_STATE);
++						#if 1
++						if (pDM_Odm->H2C_RARpt_connect) {
++							H2C_Parameter[3] |= RAINFO_INIT_RSSI_RATE_STATE;
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("H2C_RARpt_connect = (( %d ))\n", pDM_Odm->H2C_RARpt_connect));
++						}
++						#else
++						
++						if (pEntry->rssi_stat.ra_rpt_linked == FALSE) {
++							H2C_Parameter[3] |= RAINFO_INIT_RSSI_RATE_STATE;
++							pEntry->rssi_stat.ra_rpt_linked = TRUE;
++
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("RA First Link, RSSI[%d] = ((%d))\n", 
++								pEntry->AssociatedMacId, pEntry->rssi_stat.UndecoratedSmoothedPWDB));
++						}
++						#endif
++					}
++
++					H2C_Parameter[2] = (u1Byte)(pEntry->rssi_stat.UndecoratedSmoothedPWDB & 0xFF);
++					//H2C_Parameter[1] = 0x20;   // fw v12 cmdid 5:use max macid ,for nic ,default macid is 0 ,max macid is 1
++					H2C_Parameter[0] = (pEntry->AssociatedMacId);
++
++					ODM_FillH2CCmd(pDM_Odm, ODM_H2C_RSSI_REPORT, cmdlen, H2C_Parameter);
++				}
++			} else
++				break;
++		}
++
++		pLoopAdapter = GetNextExtAdapter(pLoopAdapter);
++	}
++
++
++	/*Default port*/
++	if (tmpEntryMaxPWDB != 0) {	// If associated entry is found
++		pHalData->EntryMaxUndecoratedSmoothedPWDB = tmpEntryMaxPWDB;
++		RT_DISP(FDM, DM_PWDB, ("EntryMaxPWDB = 0x%x(%d)\n",	tmpEntryMaxPWDB, tmpEntryMaxPWDB));
++	} else
++		pHalData->EntryMaxUndecoratedSmoothedPWDB = 0;
++
++	if (tmpEntryMinPWDB != 0xff) { // If associated entry is found
++		pHalData->EntryMinUndecoratedSmoothedPWDB = tmpEntryMinPWDB;
++		RT_DISP(FDM, DM_PWDB, ("EntryMinPWDB = 0x%x(%d)\n", tmpEntryMinPWDB, tmpEntryMinPWDB));
++
++	} else
++		pHalData->EntryMinUndecoratedSmoothedPWDB = 0;
++
++	/* Default porti sent RSSI to FW */
++	if (pHalData->bUseRAMask) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("1 RA First Link, RSSI[%d] = ((%d)) , ra_rpt_linked = ((%d))\n", 
++			WIN_DEFAULT_PORT_MACID, pHalData->UndecoratedSmoothedPWDB, pHalData->ra_rpt_linked));		
++		if (pHalData->UndecoratedSmoothedPWDB > 0) {
++			
++			PRT_HIGH_THROUGHPUT			pHTInfo = GET_HT_INFO(pDefaultMgntInfo);
++			PRT_VERY_HIGH_THROUGHPUT	pVHTInfo = GET_VHT_INFO(pDefaultMgntInfo);
++
++			/* BF_en*/
++			#if (BEAMFORMING_SUPPORT == 1)
++			#ifndef BEAMFORMING_VERSION_1
++			Beamform_cap = phydm_Beamforming_GetEntryBeamCapByMacId(pDM_Odm, pDefaultMgntInfo->mMacId);
++
++			if (Beamform_cap & (BEAMFORMER_CAP_HT_EXPLICIT | BEAMFORMER_CAP_VHT_SU))
++				TxBF_EN = 1;
++			#else
++			if(Beamform_GetSupportBeamformerCap(GetDefaultAdapter(Adapter), NULL))
++				TxBF_EN = 1;
++			#endif
++			#endif
++
++			/* STBC_en*/
++			if ((IS_WIRELESS_MODE_AC(Adapter) && TEST_FLAG(pVHTInfo->VhtCurStbc, STBC_VHT_ENABLE_TX)) ||
++				TEST_FLAG(pHTInfo->HtCurStbc, STBC_HT_ENABLE_TX))
++				stbc_en = 1;
++
++			H2C_Parameter[4] = (pRA_Table->RA_threshold_offset & 0x7f) | (pRA_Table->RA_offset_direction<<8); 
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("RA_threshold_offset = (( %s%d ))\n", ((pRA_Table->RA_threshold_offset == 0) ? " " : ((pRA_Table->RA_offset_direction) ? "+" : "-")), pRA_Table->RA_threshold_offset));
++
++			if (bExtRAInfo) {
++				if (TxBF_EN)
++					H2C_Parameter[3] |= RAINFO_BF_STATE;
++				else {
++					if (stbc_en)
++						H2C_Parameter[3] |= RAINFO_STBC_STATE;
++				}
++
++				#if 1
++				if (pDM_Odm->H2C_RARpt_connect) {
++					H2C_Parameter[3] |= RAINFO_INIT_RSSI_RATE_STATE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("H2C_RARpt_connect = (( %d ))\n", pDM_Odm->H2C_RARpt_connect));
++				}
++				#else
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("2 RA First Link, RSSI[%d] = ((%d)) , ra_rpt_linked = ((%d))\n", 
++						WIN_DEFAULT_PORT_MACID, pHalData->UndecoratedSmoothedPWDB, pHalData->ra_rpt_linked));
++				
++				if (pHalData->ra_rpt_linked == FALSE) {
++				
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("3 RA First Link, RSSI[%d] = ((%d)) , ra_rpt_linked = ((%d))\n", 
++						WIN_DEFAULT_PORT_MACID, pHalData->UndecoratedSmoothedPWDB, pHalData->ra_rpt_linked));
++					
++					H2C_Parameter[3] |= RAINFO_INIT_RSSI_RATE_STATE;
++					pHalData->ra_rpt_linked = TRUE;
++
++
++				}
++				#endif
++				
++				if (pDM_Odm->NoisyDecision == 1) {
++					H2C_Parameter[3] |= RAINFO_NOISY_STATE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_NOISY_DETECT, ODM_DBG_LOUD, ("[RSSIMonitorCheckMP] Send H2C to FW\n"));
++				} else
++					H2C_Parameter[3] &= (~RAINFO_NOISY_STATE);
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_NOISY_DETECT, ODM_DBG_LOUD, ("[RSSIMonitorCheckMP] H2C_Parameter=%x\n", H2C_Parameter[3]));
++			}
++
++			H2C_Parameter[2] = (u1Byte)(pHalData->UndecoratedSmoothedPWDB & 0xFF);
++			/*H2C_Parameter[1] = 0x20;*/	/* fw v12 cmdid 5:use max macid ,for nic ,default macid is 0 ,max macid is 1*/
++			H2C_Parameter[0] = WIN_DEFAULT_PORT_MACID;		/* fw v12 cmdid 5:use max macid ,for nic ,default macid is 0 ,max macid is 1*/
++
++			ODM_FillH2CCmd(pDM_Odm, ODM_H2C_RSSI_REPORT, cmdlen, H2C_Parameter);
++		}
++		
++		// BT 3.0 HS mode Rssi
++		if (pDM_Odm->bBtHsOperation) {
++			H2C_Parameter[2] = pDM_Odm->btHsRssi;
++			//H2C_Parameter[1] = 0x0;
++			H2C_Parameter[0] = WIN_BT_PORT_MACID;
++
++			ODM_FillH2CCmd(pDM_Odm, ODM_H2C_RSSI_REPORT, cmdlen, H2C_Parameter);
++		}
++	} else
++		PlatformEFIOWrite1Byte(Adapter, 0x4fe, (u1Byte)pHalData->UndecoratedSmoothedPWDB);
++
++	if ((pDM_Odm->SupportICType == ODM_RTL8812) || (pDM_Odm->SupportICType == ODM_RTL8192E))
++		odm_RSSIDumpToRegister(pDM_Odm);
++
++
++	{
++		PADAPTER pLoopAdapter = GetDefaultAdapter(Adapter);
++		BOOLEAN		default_pointer_value, *pbLink_temp = &default_pointer_value;
++		s4Byte	GlobalRSSI_min = 0xFF, LocalRSSI_Min;
++		BOOLEAN		bLink = FALSE;
++
++		while (pLoopAdapter) {
++			LocalRSSI_Min = phydm_FindMinimumRSSI(pDM_Odm, pLoopAdapter, pbLink_temp);
++			//DbgPrint("pHalData->bLinked=%d, LocalRSSI_Min=%d\n", pHalData->bLinked, LocalRSSI_Min);
++
++			if (*pbLink_temp)
++				bLink = TRUE;
++			
++			if ((LocalRSSI_Min < GlobalRSSI_min) && (*pbLink_temp))
++				GlobalRSSI_min = LocalRSSI_Min;
++
++			pLoopAdapter = GetNextExtAdapter(pLoopAdapter);
++		}
++
++		pHalData->bLinked = bLink;
++		ODM_CmnInfoUpdate(&pHalData->DM_OutSrc , ODM_CMNINFO_LINK, (u8Byte)bLink);
++
++		if (bLink)
++			ODM_CmnInfoUpdate(&pHalData->DM_OutSrc, ODM_CMNINFO_RSSI_MIN, (u8Byte)GlobalRSSI_min);
++		else
++			ODM_CmnInfoUpdate(&pHalData->DM_OutSrc, ODM_CMNINFO_RSSI_MIN, 0);
++
++	}
++
++#endif	// #if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++/*H2C_RSSI_REPORT*/
++s8 phydm_rssi_report(PDM_ODM_T pDM_Odm, u8 mac_id)
++{
++	PADAPTER Adapter = pDM_Odm->Adapter;
++	struct dvobj_priv *pdvobjpriv = adapter_to_dvobj(Adapter);
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	u8 H2C_Parameter[4] = {0};
++	u8 UL_DL_STATE = 0, STBC_TX = 0, TxBF_EN = 0;
++	u8 cmdlen = 4, first_connect = _FALSE;
++	u64	curTxOkCnt = 0, curRxOkCnt = 0;
++	PSTA_INFO_T pEntry = pDM_Odm->pODM_StaInfo[mac_id];
++	
++	if (!IS_STA_VALID(pEntry))
++		return _FAIL;
++
++	if (mac_id != pEntry->mac_id) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("%s mac_id:%u:%u invalid\n", __func__, mac_id, pEntry->mac_id));
++		rtw_warn_on(1);
++		return _FAIL;
++	}	
++	
++	if (IS_MCAST(pEntry->hwaddr))  /*if(psta->mac_id ==1)*/
++		return _FAIL;
++
++	if (pEntry->rssi_stat.UndecoratedSmoothedPWDB == (-1)) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("%s mac_id:%u, mac:"MAC_FMT", rssi == -1\n", __func__, pEntry->mac_id, MAC_ARG(pEntry->hwaddr)));
++		return _FAIL;
++	}
++
++	curTxOkCnt = pdvobjpriv->traffic_stat.cur_tx_bytes;
++	curRxOkCnt = pdvobjpriv->traffic_stat.cur_rx_bytes;
++	if (curRxOkCnt > (curTxOkCnt * 6))
++		UL_DL_STATE = 1;
++	else
++		UL_DL_STATE = 0;
++	
++	#ifdef CONFIG_BEAMFORMING
++	{
++		#if (BEAMFORMING_SUPPORT == 1)
++		BEAMFORMING_CAP Beamform_cap = phydm_Beamforming_GetEntryBeamCapByMacId(pDM_Odm, pEntry->mac_id);
++		#else/*for drv beamforming*/
++		BEAMFORMING_CAP Beamform_cap = beamforming_get_entry_beam_cap_by_mac_id(&Adapter->mlmepriv, pEntry->mac_id);
++		#endif
++
++		if (Beamform_cap & (BEAMFORMER_CAP_HT_EXPLICIT | BEAMFORMER_CAP_VHT_SU))
++			TxBF_EN = 1;
++		else
++			TxBF_EN = 0;
++	}
++	#endif /*#ifdef CONFIG_BEAMFORMING*/
++		
++	if (TxBF_EN)
++		STBC_TX = 0;
++	else {
++		#ifdef CONFIG_80211AC_VHT
++		if (IsSupportedVHT(pEntry->wireless_mode))
++			STBC_TX = TEST_FLAG(pEntry->vhtpriv.stbc_cap, STBC_VHT_ENABLE_TX);
++		else
++		#endif
++			STBC_TX = TEST_FLAG(pEntry->htpriv.stbc_cap, STBC_HT_ENABLE_TX);
++	}
++		
++	H2C_Parameter[0] = (u8)(pEntry->mac_id & 0xFF);
++	H2C_Parameter[2] = pEntry->rssi_stat.UndecoratedSmoothedPWDB & 0x7F;
++		
++	if (UL_DL_STATE)
++		H2C_Parameter[3] |= RAINFO_BE_RX_STATE;
++		
++	if (TxBF_EN)
++		H2C_Parameter[3] |= RAINFO_BF_STATE;
++	if (STBC_TX)
++		H2C_Parameter[3] |= RAINFO_STBC_STATE;
++	if (pDM_Odm->NoisyDecision)
++		H2C_Parameter[3] |= RAINFO_NOISY_STATE;
++		
++	if ((pEntry->ra_rpt_linked == _FALSE) && (pEntry->rssi_stat.bsend_rssi == RA_RSSI_STATE_SEND)) {
++		H2C_Parameter[3] |= RAINFO_INIT_RSSI_RATE_STATE;
++		pEntry->ra_rpt_linked = _TRUE;
++		pEntry->rssi_stat.bsend_rssi = RA_RSSI_STATE_HOLD;
++		first_connect = _TRUE;
++	}
++		
++	#if 1
++	if (first_connect) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("%s mac_id:%u, mac:"MAC_FMT", rssi:%d\n", __func__,
++			pEntry->mac_id, MAC_ARG(pEntry->hwaddr), pEntry->rssi_stat.UndecoratedSmoothedPWDB));
++			
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("%s RAINFO - TP:%s, TxBF:%s, STBC:%s, Noisy:%s, Firstcont:%s\n", __func__,
++			(UL_DL_STATE) ? "DL" : "UL", (TxBF_EN) ? "EN" : "DIS", (STBC_TX) ? "EN" : "DIS",
++			(pDM_Odm->NoisyDecision) ? "True" : "False", (first_connect) ? "True" : "False"));
++	}
++	#endif
++		
++	if (pHalData->fw_ractrl == _TRUE) {
++		#if (RTL8188E_SUPPORT == 1)
++		if (pDM_Odm->SupportICType == ODM_RTL8188E)
++			cmdlen = 3;
++		#endif
++		ODM_FillH2CCmd(pDM_Odm, ODM_H2C_RSSI_REPORT, cmdlen, H2C_Parameter);
++	} else {
++		#if ((RTL8188E_SUPPORT == 1) && (RATE_ADAPTIVE_SUPPORT == 1))
++		if (pDM_Odm->SupportICType == ODM_RTL8188E)
++			ODM_RA_SetRSSI_8188E(pDM_Odm, (u8)(pEntry->mac_id & 0xFF), pEntry->rssi_stat.UndecoratedSmoothedPWDB & 0x7F);
++		#endif
++	}
++	return _SUCCESS;
++}
++
++void phydm_ra_rssi_rpt_wk_hdl(PVOID pContext)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pContext;
++	int i;
++	u8 mac_id = 0xFF;
++	PSTA_INFO_T	pEntry = NULL;	
++	
++	for (i = 0; i < ODM_ASSOCIATE_ENTRY_NUM; i++) {
++		pEntry = pDM_Odm->pODM_StaInfo[i];
++		if (IS_STA_VALID(pEntry)) {
++			if (IS_MCAST(pEntry->hwaddr))  /*if(psta->mac_id ==1)*/
++				continue;
++			if (pEntry->ra_rpt_linked == _FALSE) {
++				mac_id = i;
++				break;
++			}
++		}
++	}
++	if (mac_id != 0xFF)
++		phydm_rssi_report(pDM_Odm, mac_id);
++}
++void phydm_ra_rssi_rpt_wk(PVOID pContext)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pContext;
++	
++	rtw_run_in_thread_cmd(pDM_Odm->Adapter, phydm_ra_rssi_rpt_wk_hdl, pDM_Odm);
++}
++#endif
++
++VOID
++odm_RSSIMonitorCheckCE(
++	IN		PVOID		pDM_VOID
++)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);	
++	PSTA_INFO_T           pEntry;
++	int	i;
++	int	tmpEntryMaxPWDB = 0, tmpEntryMinPWDB = 0xff;
++	u8	sta_cnt = 0;
++	
++	if (pDM_Odm->bLinked != _TRUE)
++		return;	
++
++	for (i = 0; i < ODM_ASSOCIATE_ENTRY_NUM; i++) {
++		pEntry = pDM_Odm->pODM_StaInfo[i];
++		if (IS_STA_VALID(pEntry)) {
++			if (IS_MCAST(pEntry->hwaddr))  /*if(psta->mac_id ==1)*/
++				continue;
++
++			if (pEntry->rssi_stat.UndecoratedSmoothedPWDB == (-1))
++				continue;
++
++			if (pEntry->rssi_stat.UndecoratedSmoothedPWDB < tmpEntryMinPWDB)
++				tmpEntryMinPWDB = pEntry->rssi_stat.UndecoratedSmoothedPWDB;
++
++			if (pEntry->rssi_stat.UndecoratedSmoothedPWDB > tmpEntryMaxPWDB)
++				tmpEntryMaxPWDB = pEntry->rssi_stat.UndecoratedSmoothedPWDB;
++
++			if (phydm_rssi_report(pDM_Odm, i))
++				sta_cnt++;
++		}
++	}
++
++	if (tmpEntryMaxPWDB != 0)	// If associated entry is found
++		pHalData->EntryMaxUndecoratedSmoothedPWDB = tmpEntryMaxPWDB;
++	else
++		pHalData->EntryMaxUndecoratedSmoothedPWDB = 0;
++
++	if (tmpEntryMinPWDB != 0xff) // If associated entry is found
++		pHalData->EntryMinUndecoratedSmoothedPWDB = tmpEntryMinPWDB;
++	else
++		pHalData->EntryMinUndecoratedSmoothedPWDB = 0;
++
++	FindMinimumRSSI(Adapter);//get pdmpriv->MinUndecoratedPWDBForDM
++
++	pDM_Odm->RSSI_Min = pHalData->MinUndecoratedPWDBForDM;
++	//ODM_CmnInfoUpdate(&pHalData->odmpriv ,ODM_CMNINFO_RSSI_MIN, pdmpriv->MinUndecoratedPWDBForDM);
++#endif//if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++}
++
++
++VOID
++odm_RSSIMonitorCheckAP(
++	IN		PVOID		pDM_VOID
++)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++#if (RTL8812A_SUPPORT || RTL8881A_SUPPORT || RTL8192E_SUPPORT || RTL8814A_SUPPORT || RTL8197F_SUPPORT)
++
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte 			H2C_Parameter[H2C_0X42_LENGTH] = {0};
++	u4Byte			 i;
++	BOOLEAN			bExtRAInfo = TRUE;
++	u1Byte			cmdlen = H2C_0X42_LENGTH;
++	u1Byte			TxBF_EN = 0, stbc_en = 0;
++
++	prtl8192cd_priv	priv		= pDM_Odm->priv;
++	PSTA_INFO_T 	pstat;
++	BOOLEAN			act_bfer = FALSE;
++
++#if (BEAMFORMING_SUPPORT == 1)
++	u1Byte	Idx=0xff;
++#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++	pBDC_T	pDM_BdcTable = &pDM_Odm->DM_BdcTable;
++	pDM_BdcTable->num_Txbfee_Client = 0;
++	pDM_BdcTable->num_Txbfer_Client = 0;
++#endif
++#endif
++	if (!pDM_Odm->H2C_RARpt_connect && (priv->up_time % 2))
++		return;
++
++	if (pDM_Odm->SupportICType == ODM_RTL8188E) {
++		bExtRAInfo = FALSE;
++		cmdlen = 3;
++	}
++
++	for (i = 0; i < ODM_ASSOCIATE_ENTRY_NUM; i++) {
++		pstat = pDM_Odm->pODM_StaInfo[i];
++
++		if (IS_STA_VALID(pstat)) {
++			if (pstat->sta_in_firmware != 1)
++				continue;
++
++			//2 BF_en
++		#if (BEAMFORMING_SUPPORT == 1)
++			BEAMFORMING_CAP Beamform_cap = Beamforming_GetEntryBeamCapByMacId(priv, pstat->aid);
++			PRT_BEAMFORMING_ENTRY	pEntry = Beamforming_GetEntryByMacId(priv, pstat->aid, &Idx);
++
++			if (Beamform_cap & (BEAMFORMER_CAP_HT_EXPLICIT | BEAMFORMER_CAP_VHT_SU))	{
++				
++				if (pEntry->Sounding_En)
++					TxBF_EN = 1;
++				else
++					TxBF_EN = 0;
++				
++				act_bfer = TRUE;
++			}
++
++			#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY)) /*BDC*/
++			if (act_bfer == TRUE) {
++				pDM_BdcTable->w_BFee_Client[i] = 1; //AP act as BFer
++				pDM_BdcTable->num_Txbfee_Client++;
++			} else {
++				pDM_BdcTable->w_BFee_Client[i] = 0; //AP act as BFer
++			}
++
++			if ((Beamform_cap & BEAMFORMEE_CAP_HT_EXPLICIT) || (Beamform_cap & BEAMFORMEE_CAP_VHT_SU)) {
++				pDM_BdcTable->w_BFer_Client[i] = 1; //AP act as BFee
++				pDM_BdcTable->num_Txbfer_Client++;
++			} else {
++				pDM_BdcTable->w_BFer_Client[i] = 0; //AP act as BFer
++			}
++			#endif
++		#endif
++
++			//2 STBC_en
++			if ((priv->pmib->dot11nConfigEntry.dot11nSTBC) &&
++				((pstat->ht_cap_buf.ht_cap_info & cpu_to_le16(_HTCAP_RX_STBC_CAP_))
++				#ifdef RTK_AC_SUPPORT
++				|| (pstat->vht_cap_buf.vht_cap_info & cpu_to_le32(_VHTCAP_RX_STBC_CAP_))
++				#endif
++				))
++				stbc_en = 1;
++
++			//2 RAINFO
++
++			if (bExtRAInfo) {
++				if ((pstat->rx_avarage)  > ((pstat->tx_avarage) * 6))
++					H2C_Parameter[3] |= RAINFO_BE_RX_STATE;
++
++				if (TxBF_EN)
++					H2C_Parameter[3] |= RAINFO_BF_STATE;
++				else {
++					if (stbc_en)
++						H2C_Parameter[3] |= RAINFO_STBC_STATE;
++				}
++
++				if (pDM_Odm->NoisyDecision)
++					H2C_Parameter[3] |= RAINFO_NOISY_STATE;
++				else
++					H2C_Parameter[3] &= (~RAINFO_NOISY_STATE);
++				
++				if (pstat->H2C_rssi_rpt) {
++					H2C_Parameter[3] |= RAINFO_INIT_RSSI_RATE_STATE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("[RA Init] set Init rate by RSSI, STA %d\n", pstat->aid));
++				}
++
++				/*ODM_RT_TRACE(pDM_Odm,PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("[RAINFO] H2C_Para[3] = %x\n",H2C_Parameter[3]));*/
++			}
++
++			H2C_Parameter[2] = (u1Byte)(pstat->rssi & 0xFF);
++			H2C_Parameter[0] = REMAP_AID(pstat);
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("H2C_Parameter[3]=%d\n", H2C_Parameter[3]));
++
++			//ODM_RT_TRACE(pDM_Odm,PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("[RSSI] H2C_Para[2] = %x,  \n",H2C_Parameter[2]));
++			//ODM_RT_TRACE(pDM_Odm,PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("[MACID] H2C_Para[0] = %x,  \n",H2C_Parameter[0]));
++
++			ODM_FillH2CCmd(pDM_Odm, ODM_H2C_RSSI_REPORT, cmdlen, H2C_Parameter);
++
++		}
++	}
++
++#endif
++#endif
++
++}
++
++VOID
++odm_RSSIMonitorCheck(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	if (!(pDM_Odm->SupportAbility & ODM_BB_RSSI_MONITOR))
++		return;
++
++	switch	(pDM_Odm->SupportPlatform) {
++	case	ODM_WIN:
++		odm_RSSIMonitorCheckMP(pDM_Odm);
++		break;
++
++	case	ODM_CE:
++		odm_RSSIMonitorCheckCE(pDM_Odm);
++		break;
++
++	case	ODM_AP:
++		odm_RSSIMonitorCheckAP(pDM_Odm);
++		break;
++
++	default:
++		break;
++	}
++
++}
++
++VOID
++odm_RateAdaptiveMaskInit(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_RATE_ADAPTIVE	pOdmRA = &pDM_Odm->RateAdaptive;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PMGNT_INFO		pMgntInfo = &pDM_Odm->Adapter->MgntInfo;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pDM_Odm->Adapter);
++
++	pMgntInfo->Ratr_State = DM_RATR_STA_INIT;
++
++	if (pMgntInfo->DM_Type == DM_Type_ByDriver)
++		pHalData->bUseRAMask = TRUE;
++	else
++		pHalData->bUseRAMask = FALSE;
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	pOdmRA->Type = DM_Type_ByDriver;
++	if (pOdmRA->Type == DM_Type_ByDriver)
++		pDM_Odm->bUseRAMask = _TRUE;
++	else
++		pDM_Odm->bUseRAMask = _FALSE;
++#endif
++
++	pOdmRA->RATRState = DM_RATR_STA_INIT;
++
++#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	if (pDM_Odm->SupportICType == ODM_RTL8812)
++		pOdmRA->LdpcThres = 50;
++	else
++		pOdmRA->LdpcThres = 35;
++
++	pOdmRA->RtsThres = 35;
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	pOdmRA->LdpcThres = 35;
++	pOdmRA->bUseLdpc = FALSE;
++
++#else
++	pOdmRA->UltraLowRSSIThresh = 9;
++
++#endif
++
++	pOdmRA->HighRSSIThresh = 50;
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP) && \
++	((DEV_BUS_TYPE == RT_USB_INTERFACE) || (DEV_BUS_TYPE == RT_SDIO_INTERFACE))
++	pOdmRA->LowRSSIThresh = 23;
++#else
++	pOdmRA->LowRSSIThresh = 20;
++#endif
++}
++/*-----------------------------------------------------------------------------
++ * Function:	odm_RefreshRateAdaptiveMask()
++ *
++ * Overview:	Update rate table mask according to rssi
++ *
++ * Input:		NONE
++ *
++ * Output:		NONE
++ *
++ * Return:		NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	05/27/2009	hpfan	Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++odm_RefreshRateAdaptiveMask(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (!pDM_Odm->bLinked)
++		return;
++		
++	if (!(pDM_Odm->SupportAbility & ODM_BB_RA_MASK)) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_TRACE, ("odm_RefreshRateAdaptiveMask(): Return cos not supported\n"));
++		return;
++	}
++	//
++	// 2011/09/29 MH In HW integration first stage, we provide 4 different handle to operate
++	// at the same time. In the stage2/3, we need to prive universal interface and merge all
++	// HW dynamic mechanism.
++	//
++	switch	(pDM_Odm->SupportPlatform) {
++	case	ODM_WIN:
++		odm_RefreshRateAdaptiveMaskMP(pDM_Odm);
++		break;
++
++	case	ODM_CE:
++		odm_RefreshRateAdaptiveMaskCE(pDM_Odm);
++		break;
++
++	case	ODM_AP:
++		odm_RefreshRateAdaptiveMaskAPADSL(pDM_Odm);
++		break;
++	}
++
++}
++
++u1Byte
++phydm_trans_platform_bw(
++	IN	PVOID		pDM_VOID,
++	IN	u1Byte		BW
++)
++{
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		if (BW == CHANNEL_WIDTH_20)
++			BW = PHYDM_BW_20;
++			
++		else if (BW == CHANNEL_WIDTH_40)
++			BW = PHYDM_BW_40;
++			
++		else if (BW == CHANNEL_WIDTH_80)
++			BW = PHYDM_BW_80;
++			
++		else if (BW == CHANNEL_WIDTH_160)
++			BW = PHYDM_BW_160;
++			
++		else if (BW == CHANNEL_WIDTH_80_80)
++			BW = PHYDM_BW_80_80;
++
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	
++		if (BW == HT_CHANNEL_WIDTH_20)
++			BW = PHYDM_BW_20;
++			
++		else if (BW == HT_CHANNEL_WIDTH_20_40)
++			BW = PHYDM_BW_40;
++			
++		else if (BW == HT_CHANNEL_WIDTH_80)
++			BW = PHYDM_BW_80;
++			
++		else if (BW == HT_CHANNEL_WIDTH_160)
++			BW = PHYDM_BW_160;
++			
++		else if (BW == HT_CHANNEL_WIDTH_10)
++			BW = PHYDM_BW_10;
++		
++		else if (BW == HT_CHANNEL_WIDTH_5)
++			BW = PHYDM_BW_5;
++
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++		if (BW == CHANNEL_WIDTH_20)
++			BW = PHYDM_BW_20;
++			
++		else if (BW == CHANNEL_WIDTH_40)
++			BW = PHYDM_BW_40;
++			
++		else if (BW == CHANNEL_WIDTH_80)
++			BW = PHYDM_BW_80;
++			
++		else if (BW == CHANNEL_WIDTH_160)
++			BW = PHYDM_BW_160;
++			
++		else if (BW == CHANNEL_WIDTH_80_80)
++			BW = PHYDM_BW_80_80;
++	#endif
++
++	return BW;
++
++}
++
++u1Byte
++phydm_trans_platform_rf_type(
++	IN	PVOID		pDM_VOID,
++	IN	u1Byte		RfType
++)
++{
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		if (RfType == RF_1T2R)
++			RfType = PHYDM_RF_1T2R;
++			
++		else if (RfType == RF_2T4R)
++			RfType = PHYDM_RF_2T4R;
++			
++		else if (RfType == RF_2T2R)
++			RfType = PHYDM_RF_2T2R;
++			
++		else if (RfType == RF_1T1R)
++			RfType = PHYDM_RF_1T1R;
++			
++		else if (RfType == RF_2T2R_GREEN)
++			RfType = PHYDM_RF_2T2R_GREEN;
++			
++		else if (RfType == RF_3T3R)
++			RfType = PHYDM_RF_3T3R;
++			
++		else if (RfType == RF_4T4R)
++			RfType = PHYDM_RF_4T4R;
++			
++		else if (RfType == RF_2T3R)
++			RfType = PHYDM_RF_1T2R;
++
++		else if (RfType == RF_3T4R)
++			RfType = PHYDM_RF_3T4R;
++
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++		if (RfType == MIMO_1T2R)
++			RfType = PHYDM_RF_1T2R;
++			
++		else if (RfType == MIMO_2T4R)
++			RfType = PHYDM_RF_2T4R;
++			
++		else if (RfType == MIMO_2T2R)
++			RfType = PHYDM_RF_2T2R;
++			
++		else if (RfType == MIMO_1T1R)
++			RfType = PHYDM_RF_1T1R;
++			
++		else if (RfType == MIMO_3T3R)
++			RfType = PHYDM_RF_3T3R;
++			
++		else if (RfType == MIMO_4T4R)
++			RfType = PHYDM_RF_4T4R;
++			
++		else if (RfType == MIMO_2T3R)
++			RfType = PHYDM_RF_1T2R;
++
++		else if (RfType == MIMO_3T4R)
++			RfType = PHYDM_RF_3T4R;
++
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	
++		if (RfType == RF_1T2R)
++			RfType = PHYDM_RF_1T2R;
++			
++		else if (RfType == RF_2T4R)
++			RfType = PHYDM_RF_2T4R;
++			
++		else if (RfType == RF_2T2R)
++			RfType = PHYDM_RF_2T2R;
++			
++		else if (RfType == RF_1T1R)
++			RfType = PHYDM_RF_1T1R;
++		
++		else if (RfType == RF_2T2R_GREEN)
++			RfType = PHYDM_RF_2T2R_GREEN;
++		
++		else if (RfType == RF_3T3R)
++			RfType = PHYDM_RF_3T3R;
++			
++		else if (RfType == RF_4T4R)
++			RfType = PHYDM_RF_4T4R;
++			
++		else if (RfType == RF_2T3R)
++			RfType = PHYDM_RF_1T2R;
++
++		else if (RfType == RF_3T4R)
++			RfType = PHYDM_RF_3T4R;
++
++	#endif
++
++	return RfType;
++
++}
++
++u4Byte
++phydm_trans_platform_wireless_mode(
++	IN	PVOID		pDM_VOID,
++	IN	u4Byte		wireless_mode
++)
++{
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	
++	if (wireless_mode == WIRELESS_11A)
++			wireless_mode = PHYDM_WIRELESS_MODE_A;
++			
++		else if (wireless_mode == WIRELESS_11B)
++			wireless_mode = PHYDM_WIRELESS_MODE_B;
++			
++		else if ((wireless_mode == WIRELESS_11G) || (wireless_mode == WIRELESS_11BG))
++			wireless_mode = PHYDM_WIRELESS_MODE_G;
++			
++		else if (wireless_mode == WIRELESS_AUTO)
++			wireless_mode = PHYDM_WIRELESS_MODE_AUTO;
++			
++		else if ((wireless_mode == WIRELESS_11_24N) || (wireless_mode == WIRELESS_11G_24N) || (wireless_mode == WIRELESS_11B_24N) ||
++			(wireless_mode == WIRELESS_11BG_24N) || (wireless_mode == WIRELESS_MODE_24G) || (wireless_mode == WIRELESS_11ABGN) || (wireless_mode == WIRELESS_11AGN))
++			wireless_mode = PHYDM_WIRELESS_MODE_N_24G;
++			
++		else if ((wireless_mode == WIRELESS_11_5N) || (wireless_mode == WIRELESS_11A_5N))
++			wireless_mode = PHYDM_WIRELESS_MODE_N_5G;
++			
++		else if ((wireless_mode == WIRELESS_11AC) || (wireless_mode == WIRELESS_11_5AC) || (wireless_mode == WIRELESS_MODE_5G))
++			wireless_mode = PHYDM_WIRELESS_MODE_AC_5G;
++			
++		else if (wireless_mode == WIRELESS_11_24AC)
++			wireless_mode = PHYDM_WIRELESS_MODE_AC_24G;
++
++		else if (wireless_mode == WIRELESS_11AC)
++			wireless_mode = PHYDM_WIRELESS_MODE_AC_ONLY;
++		
++		else if (wireless_mode == WIRELESS_MODE_MAX)
++			wireless_mode = PHYDM_WIRELESS_MODE_MAX;
++		else
++			wireless_mode = PHYDM_WIRELESS_MODE_UNKNOWN;	
++	#endif
++
++	return wireless_mode;
++
++}
++
++u1Byte
++phydm_vht_en_mapping(
++	IN	PVOID			pDM_VOID,
++	IN	u4Byte			WirelessMode
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			vht_en_out = 0;
++
++	if ((WirelessMode == PHYDM_WIRELESS_MODE_AC_5G) ||
++		(WirelessMode == PHYDM_WIRELESS_MODE_AC_24G) ||
++		(WirelessMode == PHYDM_WIRELESS_MODE_AC_ONLY)
++		) {
++		vht_en_out = 1;
++		/**/
++	}
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("WirelessMode= (( 0x%x )), VHT_EN= (( %d ))\n", WirelessMode, vht_en_out));
++	return vht_en_out;
++}
++
++u1Byte
++phydm_rate_id_mapping(
++	IN	PVOID			pDM_VOID,
++	IN	u4Byte			WirelessMode,
++	IN	u1Byte			RfType,
++	IN	u1Byte			bw
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			rate_id_idx = 0;
++	u1Byte			phydm_BW;
++	u1Byte			phydm_RfType;
++	
++	phydm_BW = phydm_trans_platform_bw(pDM_Odm, bw);
++	phydm_RfType = phydm_trans_platform_rf_type(pDM_Odm, RfType);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	WirelessMode = phydm_trans_platform_wireless_mode(pDM_Odm, WirelessMode);
++	#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("wirelessMode= (( 0x%x )), RfType = (( 0x%x )), BW = (( 0x%x ))\n", 
++		WirelessMode, phydm_RfType, phydm_BW));
++
++	
++	switch (WirelessMode) {
++	
++	case PHYDM_WIRELESS_MODE_N_24G:
++		{
++	
++			if (phydm_BW == PHYDM_BW_40) {
++			
++				if (phydm_RfType == PHYDM_RF_1T1R)
++					rate_id_idx = PHYDM_BGN_40M_1SS;
++				else
++					rate_id_idx = PHYDM_BGN_40M_2SS;
++				
++			} else {
++			
++				if (phydm_RfType == PHYDM_RF_1T1R)
++					rate_id_idx = PHYDM_BGN_20M_1SS;
++				else 
++					rate_id_idx = PHYDM_BGN_20M_2SS;
++			}
++		}
++		break;
++		
++	case PHYDM_WIRELESS_MODE_N_5G:
++		{
++			if (phydm_RfType == PHYDM_RF_1T1R)
++				rate_id_idx = PHYDM_GN_N1SS;
++			else
++				rate_id_idx = PHYDM_GN_N2SS;
++		}
++		
++		break;
++	
++	case PHYDM_WIRELESS_MODE_G:
++		rate_id_idx = PHYDM_BG;
++		break;
++				
++	case PHYDM_WIRELESS_MODE_A:
++		rate_id_idx = PHYDM_G;
++		break;	
++	
++	case PHYDM_WIRELESS_MODE_B:
++		rate_id_idx = PHYDM_B_20M;
++		break;
++	
++	
++	case PHYDM_WIRELESS_MODE_AC_5G:
++	case PHYDM_WIRELESS_MODE_AC_ONLY:
++		{
++			if (phydm_RfType == PHYDM_RF_1T1R)
++				rate_id_idx = PHYDM_ARFR1_AC_1SS;
++			else if (phydm_RfType == PHYDM_RF_2T2R)
++				rate_id_idx = PHYDM_ARFR0_AC_2SS;
++			else
++				rate_id_idx = PHYDM_ARFR4_AC_3SS;
++		}
++		break;
++	
++	case PHYDM_WIRELESS_MODE_AC_24G:
++		{
++			if (phydm_BW >= PHYDM_BW_80) {
++				if (phydm_RfType == PHYDM_RF_1T1R)
++					rate_id_idx = PHYDM_ARFR1_AC_1SS;
++				else if (phydm_RfType == PHYDM_RF_2T2R)
++					rate_id_idx = PHYDM_ARFR0_AC_2SS;
++				else
++					rate_id_idx = PHYDM_ARFR5_N_3SS;
++			} else {
++				
++				if (phydm_RfType == PHYDM_RF_1T1R)
++					rate_id_idx = PHYDM_ARFR2_AC_2G_1SS;
++				else
++					rate_id_idx = PHYDM_ARFR3_AC_2G_2SS;
++			}
++		}
++		break;
++	
++	default:
++		rate_id_idx = 0;
++		break;
++	}
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("RA Rate ID = (( 0x%d ))\n", rate_id_idx));
++	
++	return rate_id_idx;
++}
++
++#if 0
++u4Byte
++phydm_disable_cck_ra_mask(
++	IN	PVOID			pDM_VOID,
++	IN	u4Byte			ra_mask_in
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			ra_mask_out;
++
++	ra_mask_out = ra_mask_in & 0xfffffff0;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("[Disable all CCK rate] Update RA Mask = (( 0x%x ))\n", ra_mask_out));
++	return ra_mask_out;
++}
++#endif
++
++VOID
++phydm_UpdateHalRAMask(
++	IN	PVOID			pDM_VOID,
++	IN	u4Byte			wirelessMode,
++	IN	u1Byte			RfType,
++	IN	u1Byte			BW,
++	IN	u1Byte			MimoPs_enable,
++	IN	u1Byte			disable_cck_rate,
++	IN	u4Byte			*ratr_bitmap_msb_in,
++	IN	u4Byte			*ratr_bitmap_lsb_in,
++	IN	u1Byte			tx_rate_level
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			mask_rate_threshold;
++	u1Byte			phydm_RfType;
++	u1Byte			phydm_BW;
++	u4Byte			ratr_bitmap = *ratr_bitmap_lsb_in, ratr_bitmap_msb = *ratr_bitmap_msb_in;
++	/*PODM_RATE_ADAPTIVE		pRA = &(pDM_Odm->RateAdaptive);*/
++
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	wirelessMode = phydm_trans_platform_wireless_mode(pDM_Odm, wirelessMode);
++	#endif
++	
++	phydm_RfType = phydm_trans_platform_rf_type(pDM_Odm, RfType);
++	phydm_BW = phydm_trans_platform_bw(pDM_Odm, BW);
++	
++	/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("phydm_RfType = (( %x )), RfType = (( %x ))\n", phydm_RfType, RfType));*/
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Platfoem original RA Mask = (( 0x %x | %x ))\n", ratr_bitmap_msb, ratr_bitmap));
++	
++	switch (wirelessMode) {
++		
++	case PHYDM_WIRELESS_MODE_B:
++		{
++			ratr_bitmap &= 0x0000000f;
++		}
++		break;
++
++	case PHYDM_WIRELESS_MODE_G:
++		{			
++			ratr_bitmap &= 0x00000ff5;
++		}
++		break;
++		
++	case PHYDM_WIRELESS_MODE_A:
++		{
++			ratr_bitmap &= 0x00000ff0;
++		}
++		break;
++		
++	case PHYDM_WIRELESS_MODE_N_24G:
++	case PHYDM_WIRELESS_MODE_N_5G:
++		{
++			if (MimoPs_enable)
++				phydm_RfType = PHYDM_RF_1T1R;
++			
++			if (phydm_RfType == PHYDM_RF_1T1R) {
++				
++				if (phydm_BW == PHYDM_BW_40)
++					ratr_bitmap &= 0x000ff015;
++				else
++					ratr_bitmap &= 0x000ff005;
++			} else if (phydm_RfType == PHYDM_RF_2T2R || phydm_RfType == PHYDM_RF_2T4R || phydm_RfType == PHYDM_RF_2T3R) {
++			
++				if (phydm_BW == PHYDM_BW_40)
++					ratr_bitmap &= 0x0ffff015;
++				else
++					ratr_bitmap &= 0x0ffff005;
++			} else { /*3T*/
++			
++				ratr_bitmap &= 0xfffff015;
++				ratr_bitmap_msb &= 0xf;
++			}
++		}
++		break;
++
++	case PHYDM_WIRELESS_MODE_AC_24G:
++		{
++			if (phydm_RfType == PHYDM_RF_1T1R)
++				ratr_bitmap &= 0x003ff015;	
++			else if (phydm_RfType == PHYDM_RF_2T2R || phydm_RfType == PHYDM_RF_2T4R || phydm_RfType == PHYDM_RF_2T3R) 
++				ratr_bitmap &= 0xfffff015;
++			else {/*3T*/
++				
++				ratr_bitmap &= 0xfffff010;
++				ratr_bitmap_msb &= 0x3ff;
++			}
++
++			if (phydm_BW == PHYDM_BW_20) {/* AC 20MHz doesn't support MCS9 */
++				ratr_bitmap &= 0x7fdfffff;
++				ratr_bitmap_msb &= 0x1ff;
++			}
++		}
++		break;
++
++	case PHYDM_WIRELESS_MODE_AC_5G:
++		{
++			if (phydm_RfType == PHYDM_RF_1T1R)
++				ratr_bitmap &= 0x003ff010;
++			else if (phydm_RfType == PHYDM_RF_2T2R || phydm_RfType == PHYDM_RF_2T4R || phydm_RfType == PHYDM_RF_2T3R) 
++				ratr_bitmap &= 0xfffff010;
++			else {/*3T*/
++				
++				ratr_bitmap &= 0xfffff010;
++				ratr_bitmap_msb &= 0x3ff;
++			}
++
++			if (phydm_BW == PHYDM_BW_20) {/* AC 20MHz doesn't support MCS9 */
++				ratr_bitmap &= 0x7fdfffff;
++				ratr_bitmap_msb &= 0x1ff;
++			}
++		}
++		break;
++
++	default:
++		break;
++	}
++
++	if (wirelessMode != PHYDM_WIRELESS_MODE_B) {
++		
++		if (tx_rate_level == 0) 
++			ratr_bitmap &=  0xffffffff;
++		else if (tx_rate_level == 1) 
++			ratr_bitmap &=  0xfffffff0;
++		 else if (tx_rate_level == 2) 
++			ratr_bitmap &=  0xffffefe0;
++		else if (tx_rate_level == 3) 
++			ratr_bitmap &=  0xffffcfc0;
++		else if (tx_rate_level == 4) 
++			ratr_bitmap &=  0xffff8f80;
++		else if (tx_rate_level >= 5) 
++			ratr_bitmap &=  0xffff0f00;
++		
++	}
++	
++	if (disable_cck_rate)
++		ratr_bitmap &= 0xfffffff0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("wirelessMode= (( 0x%x )), RfType = (( 0x%x )), BW = (( 0x%x )), MimoPs_en = (( %d )), tx_rate_level= (( 0x%d ))\n", 
++		wirelessMode, phydm_RfType, phydm_BW, MimoPs_enable, tx_rate_level));
++
++	/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("111 Phydm modified RA Mask = (( 0x %x | %x ))\n", ratr_bitmap_msb, ratr_bitmap));*/
++
++	*ratr_bitmap_lsb_in = ratr_bitmap;
++	*ratr_bitmap_msb_in = ratr_bitmap_msb;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Phydm modified RA Mask = (( 0x %x | %x ))\n", *ratr_bitmap_msb_in, *ratr_bitmap_lsb_in));
++
++}
++
++u1Byte 
++phydm_RA_level_decision(
++	IN		PVOID			pDM_VOID,
++	IN		u4Byte			rssi,
++	IN		u1Byte			Ratr_State
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	ra_lowest_rate;
++	u1Byte	ra_rate_floor_table[RA_FLOOR_TABLE_SIZE] = {20, 34, 38, 42, 46, 50, 100}; /*MCS0 ~ MCS4 , VHT1SS MCS0 ~ MCS4 , G 6M~24M*/
++	u1Byte	new_Ratr_State = 0;
++	u1Byte	i;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("curr RA level = ((%d)), Rate_floor_table ori [ %d , %d, %d , %d, %d, %d]\n", Ratr_State, 
++		ra_rate_floor_table[0], ra_rate_floor_table[1], ra_rate_floor_table[2], ra_rate_floor_table[3], ra_rate_floor_table[4], ra_rate_floor_table[5]));
++
++	for (i = 0; i < RA_FLOOR_TABLE_SIZE; i++) {
++
++		if (i >= (Ratr_State))
++			ra_rate_floor_table[i] += RA_FLOOR_UP_GAP;
++	}
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("RSSI = ((%d)), Rate_floor_table_mod [ %d , %d, %d , %d, %d, %d]\n", 
++		rssi, ra_rate_floor_table[0], ra_rate_floor_table[1], ra_rate_floor_table[2], ra_rate_floor_table[3], ra_rate_floor_table[4], ra_rate_floor_table[5]));
++	
++	for (i = 0; i < RA_FLOOR_TABLE_SIZE; i++) {
++
++		if (rssi < ra_rate_floor_table[i]) {
++			new_Ratr_State = i;
++			break;
++		}
++	}
++
++
++
++	return	new_Ratr_State;		
++
++}
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++VOID
++phydm_gen_ramask_h2c_AP(
++	IN		PVOID			pDM_VOID,
++	IN		struct rtl8192cd_priv *priv,
++	IN		PSTA_INFO_T		*pEntry,
++	IN		u1Byte			rssi_level
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8192E | ODM_RTL8881A)) {
++		
++		#ifdef CONFIG_WLAN_HAL
++		GET_HAL_INTERFACE(priv)->UpdateHalRAMaskHandler(priv, pEntry, rssi_level);
++		#endif
++		
++	} else if (pDM_Odm->SupportICType == ODM_RTL8812) {
++	
++		#if (RTL8812A_SUPPORT == 1)
++		UpdateHalRAMask8812(priv, pEntry, rssi_level);
++		/**/
++		#endif
++	} else if (pDM_Odm->SupportICType == ODM_RTL8188E) {
++	
++		#if (RTL8188E_SUPPORT == 1)
++		#ifdef TXREPORT
++		add_RATid(priv, pEntry);
++		/**/
++		#endif
++		#endif
++	}
++}
++#endif
++
++
++VOID
++odm_RefreshRateAdaptiveMaskMP(
++	IN		PVOID		pDM_VOID
++)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER				pAdapter	 =  pDM_Odm->Adapter;
++	PADAPTER 				pTargetAdapter = NULL;
++	HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(pAdapter);
++	PMGNT_INFO				pMgntInfo = GetDefaultMgntInfo(pAdapter);
++	u4Byte		i;
++	PSTA_INFO_T pEntry;
++	u1Byte		Ratr_State_new;
++
++	if (pAdapter->bDriverStopped) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_TRACE, ("<---- odm_RefreshRateAdaptiveMask(): driver is going to unload\n"));
++		return;
++	}
++
++	if (!pHalData->bUseRAMask) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("<---- odm_RefreshRateAdaptiveMask(): driver does not control rate adaptive mask\n"));
++		return;
++	}
++
++	// if default port is connected, update RA table for default port (infrastructure mode only)
++	if (pMgntInfo->mAssoc && (!ACTING_AS_AP(pAdapter))) {
++		odm_RefreshLdpcRtsMP(pAdapter, pDM_Odm, pMgntInfo->mMacId,  pMgntInfo->IOTPeer, pHalData->UndecoratedSmoothedPWDB);
++		/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Infrasture Mode\n"));*/
++
++		#ifdef RA_MASK_PHYDMLIZE_WIN
++			Ratr_State_new = phydm_RA_level_decision(pDM_Odm, pHalData->UndecoratedSmoothedPWDB, pMgntInfo->Ratr_State);
++
++			if (pMgntInfo->Ratr_State != Ratr_State_new) {
++				
++				ODM_PRINT_ADDR(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Target AP addr :"), pMgntInfo->Bssid);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Update RA Level: ((%x)) -> ((%x)),  RSSI = ((%d))\n\n", 
++					pMgntInfo->Ratr_State, Ratr_State_new, pHalData->UndecoratedSmoothedPWDB));
++				
++				pMgntInfo->Ratr_State = Ratr_State_new;
++				pAdapter->HalFunc.UpdateHalRAMaskHandler(pAdapter, pMgntInfo->mMacId, NULL, Ratr_State_new);
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Stay in RA level  = (( %d ))\n\n", Ratr_State_new));
++				/**/
++			}
++			
++		#else
++			if (ODM_RAStateCheck(pDM_Odm, pHalData->UndecoratedSmoothedPWDB, pMgntInfo->bSetTXPowerTrainingByOid, &pMgntInfo->Ratr_State)) {
++				ODM_PRINT_ADDR(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Target AP addr : "), pMgntInfo->Bssid);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("RSSI:%d, RSSI_LEVEL:%d\n", pHalData->UndecoratedSmoothedPWDB, pMgntInfo->Ratr_State));
++				pAdapter->HalFunc.UpdateHalRAMaskHandler(pAdapter, pMgntInfo->mMacId, NULL, pMgntInfo->Ratr_State);
++			} else if (pDM_Odm->bChangeState) {
++				ODM_PRINT_ADDR(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Target AP addr : "), pMgntInfo->Bssid);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Change Power Training State, bDisablePowerTraining = %d\n", pDM_Odm->bDisablePowerTraining));
++				pAdapter->HalFunc.UpdateHalRAMaskHandler(pAdapter, pMgntInfo->mMacId, NULL, pMgntInfo->Ratr_State);
++			}
++		#endif
++	}
++
++	//
++	// The following part configure AP/VWifi/IBSS rate adaptive mask.
++	//
++
++	if (pMgntInfo->mIbss) 	// Target: AP/IBSS peer.
++		pTargetAdapter = GetDefaultAdapter(pAdapter);
++	else
++		pTargetAdapter = GetFirstAPAdapter(pAdapter);
++
++	// if extension port (softap) is started, updaet RA table for more than one clients associate
++	if (pTargetAdapter != NULL) {
++		for (i = 0; i < ODM_ASSOCIATE_ENTRY_NUM; i++) {
++			
++			pEntry = AsocEntry_EnumStation(pTargetAdapter, i);
++			
++			if (IS_STA_VALID(pEntry)) {
++
++				odm_RefreshLdpcRtsMP(pAdapter, pDM_Odm, pEntry->AssociatedMacId, pEntry->IOTPeer, pEntry->rssi_stat.UndecoratedSmoothedPWDB);
++
++				#ifdef RA_MASK_PHYDMLIZE_WIN
++				Ratr_State_new = phydm_RA_level_decision(pDM_Odm, pEntry->rssi_stat.UndecoratedSmoothedPWDB, pEntry->Ratr_State);
++
++				if (pEntry->Ratr_State != Ratr_State_new) {
++					
++					ODM_PRINT_ADDR(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Target AP addr :"), pEntry->MacAddr);
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Update Tx RA Level: ((%x)) -> ((%x)),  RSSI = ((%d))\n", 
++						pEntry->Ratr_State, Ratr_State_new,  pEntry->rssi_stat.UndecoratedSmoothedPWDB));
++					
++					pEntry->Ratr_State = Ratr_State_new;
++					pAdapter->HalFunc.UpdateHalRAMaskHandler(pAdapter, pEntry->AssociatedMacId, NULL, Ratr_State_new);
++				} else {
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Stay in RA level  = (( %d ))\n\n", Ratr_State_new));
++					/**/
++				}
++			
++				
++				#else
++				
++				if (ODM_RAStateCheck(pDM_Odm, pEntry->rssi_stat.UndecoratedSmoothedPWDB, pMgntInfo->bSetTXPowerTrainingByOid, &pEntry->Ratr_State)) {
++					ODM_PRINT_ADDR(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Target STA addr : "), pEntry->MacAddr);
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("RSSI:%d, RSSI_LEVEL:%d\n", pEntry->rssi_stat.UndecoratedSmoothedPWDB, pEntry->Ratr_State));
++					pAdapter->HalFunc.UpdateHalRAMaskHandler(pTargetAdapter, pEntry->AssociatedMacId, pEntry, pEntry->Ratr_State);
++				} else if (pDM_Odm->bChangeState) {
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Change Power Training State, bDisablePowerTraining = %d\n", pDM_Odm->bDisablePowerTraining));
++					pAdapter->HalFunc.UpdateHalRAMaskHandler(pAdapter, pMgntInfo->mMacId, NULL, pMgntInfo->Ratr_State);
++				}
++				#endif
++				
++			}
++		}
++	}
++	
++	#ifdef RA_MASK_PHYDMLIZE_WIN
++
++	#else
++		if (pMgntInfo->bSetTXPowerTrainingByOid)
++			pMgntInfo->bSetTXPowerTrainingByOid = FALSE;
++	#endif
++#endif	// #if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++}
++
++
++VOID
++odm_RefreshRateAdaptiveMaskCE(
++	IN	PVOID	pDM_VOID
++)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER	pAdapter	 =  pDM_Odm->Adapter;
++	PODM_RATE_ADAPTIVE		pRA = &pDM_Odm->RateAdaptive;
++	u4Byte		i;
++	PSTA_INFO_T pEntry;
++	u1Byte		Ratr_State_new;
++
++	if (RTW_CANNOT_RUN(pAdapter)) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_TRACE, ("<---- odm_RefreshRateAdaptiveMask(): driver is going to unload\n"));
++		return;
++	}
++
++	if (!pDM_Odm->bUseRAMask) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("<---- odm_RefreshRateAdaptiveMask(): driver does not control rate adaptive mask\n"));
++		return;
++	}
++
++	for (i = 0; i < ODM_ASSOCIATE_ENTRY_NUM; i++) {
++		
++		pEntry = pDM_Odm->pODM_StaInfo[i];
++		
++		if (IS_STA_VALID(pEntry)) {
++
++			if (IS_MCAST(pEntry->hwaddr))
++				continue;
++
++			#if ((RTL8812A_SUPPORT == 1) || (RTL8821A_SUPPORT == 1))
++			if ((pDM_Odm->SupportICType == ODM_RTL8812) || (pDM_Odm->SupportICType == ODM_RTL8821)) {
++				if (pEntry->rssi_stat.UndecoratedSmoothedPWDB < pRA->LdpcThres) {
++					pRA->bUseLdpc = TRUE;
++					pRA->bLowerRtsRate = TRUE;
++					if ((pDM_Odm->SupportICType == ODM_RTL8821) && (pDM_Odm->CutVersion == ODM_CUT_A))
++						Set_RA_LDPC_8812(pEntry, TRUE);
++					//DbgPrint("RSSI=%d, bUseLdpc = TRUE\n", pHalData->UndecoratedSmoothedPWDB);
++				} else if (pEntry->rssi_stat.UndecoratedSmoothedPWDB > (pRA->LdpcThres - 5)) {
++					pRA->bUseLdpc = FALSE;
++					pRA->bLowerRtsRate = FALSE;
++					if ((pDM_Odm->SupportICType == ODM_RTL8821) && (pDM_Odm->CutVersion == ODM_CUT_A))
++						Set_RA_LDPC_8812(pEntry, FALSE);
++					//DbgPrint("RSSI=%d, bUseLdpc = FALSE\n", pHalData->UndecoratedSmoothedPWDB);
++				}
++			}
++			#endif
++			
++		#ifdef RA_MASK_PHYDMLIZE_CE
++			Ratr_State_new = phydm_RA_level_decision(pDM_Odm, pEntry->rssi_stat.UndecoratedSmoothedPWDB, pEntry->rssi_level);
++
++			if (pEntry->rssi_level != Ratr_State_new) {
++				
++				/*ODM_PRINT_ADDR(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Target AP addr :"), pstat->hwaddr);*/
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Update Tx RA Level: ((%x)) -> ((%x)),  RSSI = ((%d))\n", 
++					 pEntry->rssi_level, Ratr_State_new, pEntry->rssi_stat.UndecoratedSmoothedPWDB));
++				
++				pEntry->rssi_level = Ratr_State_new;
++				rtw_hal_update_ra_mask(pEntry, pEntry->rssi_level);
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Stay in RA level  = (( %d ))\n\n", Ratr_State_new));
++				/**/
++			}
++		#else
++			if (TRUE == ODM_RAStateCheck(pDM_Odm, pEntry->rssi_stat.UndecoratedSmoothedPWDB, FALSE , &pEntry->rssi_level)) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("RSSI:%d, RSSI_LEVEL:%d\n", pEntry->rssi_stat.UndecoratedSmoothedPWDB, pEntry->rssi_level));
++				//printk("RSSI:%d, RSSI_LEVEL:%d\n", pstat->rssi_stat.UndecoratedSmoothedPWDB, pstat->rssi_level);
++				rtw_hal_update_ra_mask(pEntry, pEntry->rssi_level);
++			} else if (pDM_Odm->bChangeState) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Change Power Training State, bDisablePowerTraining = %d\n", pDM_Odm->bDisablePowerTraining));
++				rtw_hal_update_ra_mask(pEntry, pEntry->rssi_level);
++			}
++		#endif
++
++		}
++	}
++
++#endif
++}
++
++VOID
++odm_RefreshRateAdaptiveMaskAPADSL(
++	IN	PVOID	pDM_VOID
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	struct rtl8192cd_priv *priv = pDM_Odm->priv;
++	struct aid_obj *aidarray;
++	u4Byte		i;
++	PSTA_INFO_T pEntry;
++	u1Byte		Ratr_State_new;
++	
++	if (priv->up_time % 2)
++		return;
++
++	for (i = 0; i < ODM_ASSOCIATE_ENTRY_NUM; i++) {
++		pEntry = pDM_Odm->pODM_StaInfo[i];
++
++		if (IS_STA_VALID(pEntry)) {
++			
++			#if defined(UNIVERSAL_REPEATER) || defined(MBSSID)
++			aidarray = container_of(pEntry, struct aid_obj, station);
++			priv = aidarray->priv;
++			#endif
++
++			if (!priv->pmib->dot11StationConfigEntry.autoRate)
++				continue;
++
++#ifdef RA_MASK_PHYDMLIZE_AP
++			Ratr_State_new = phydm_RA_level_decision(pDM_Odm, (u4Byte)pEntry->rssi, pEntry->rssi_level);
++
++			if (pEntry->rssi_level != Ratr_State_new) {
++				
++				ODM_PRINT_ADDR(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Target AP addr :"), pEntry->hwaddr);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Update Tx RA Level: ((%x)) -> ((%x)),  RSSI = ((%d))\n", pEntry->rssi_level, Ratr_State_new, pEntry->rssi));
++				
++				pEntry->rssi_level = Ratr_State_new;
++				phydm_gen_ramask_h2c_AP(pDM_Odm, priv, pEntry, pEntry->rssi_level);
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Stay in RA level  = (( %d ))\n\n", Ratr_State_new));
++				/**/
++			}
++
++#else
++			if (ODM_RAStateCheck(pDM_Odm, (s4Byte)pEntry->rssi, FALSE, &pEntry->rssi_level)) {
++				ODM_PRINT_ADDR(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Target STA addr : "), pEntry->hwaddr);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("RSSI:%d, RSSI_LEVEL:%d\n", pEntry->rssi, pEntry->rssi_level));
++
++	#ifdef CONFIG_WLAN_HAL
++				if (IS_HAL_CHIP(priv)) {
++	#ifdef WDS
++			/*if(!(pstat->state & WIFI_WDS))*/	/*if WDS donot setting*/
++	#endif
++					GET_HAL_INTERFACE(priv)->UpdateHalRAMaskHandler(priv, pEntry, pEntry->rssi_level);
++				} else
++	#endif
++
++	#ifdef CONFIG_RTL_8812_SUPPORT
++					if (GET_CHIP_VER(priv) == VERSION_8812E)
++						UpdateHalRAMask8812(priv, pEntry, 3);
++					else
++	#endif
++					{
++	#ifdef CONFIG_RTL_88E_SUPPORT
++						if (GET_CHIP_VER(priv) == VERSION_8188E) {
++	#ifdef TXREPORT
++							add_RATid(priv, pEntry);
++	#endif
++						}
++	#endif
++
++
++					}
++				}
++#endif /*#ifdef RA_MASK_PHYDMLIZE*/
++			
++		}
++	}
++#endif /*#if (DM_ODM_SUPPORT_TYPE & ODM_AP)*/
++}
++
++
++// Return Value: BOOLEAN
++// - TRUE: RATRState is changed.
++BOOLEAN
++ODM_RAStateCheck(
++	IN		PVOID			pDM_VOID,
++	IN		s4Byte			RSSI,
++	IN		BOOLEAN			bForceUpdate,
++	OUT		pu1Byte			pRATRState
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_RATE_ADAPTIVE pRA = &pDM_Odm->RateAdaptive;
++	const u1Byte GoUpGap = 5;
++	u1Byte HighRSSIThreshForRA = pRA->HighRSSIThresh;
++	u1Byte LowRSSIThreshForRA = pRA->LowRSSIThresh;
++	u1Byte RATRState;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("RSSI= (( %d )), Current_RSSI_level = (( %d ))\n", RSSI, *pRATRState));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("[Ori RA RSSI Thresh]  High= (( %d )), Low = (( %d ))\n", HighRSSIThreshForRA, LowRSSIThreshForRA));
++	// Threshold Adjustment:
++	// when RSSI state trends to go up one or two levels, make sure RSSI is high enough.
++	// Here GoUpGap is added to solve the boundary's level alternation issue.
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	u1Byte UltraLowRSSIThreshForRA = pRA->UltraLowRSSIThresh;
++	if (pDM_Odm->SupportICType == ODM_RTL8881A)
++		LowRSSIThreshForRA = 30;		// for LDPC / BCC switch
++#endif
++
++	switch (*pRATRState) {
++	case DM_RATR_STA_INIT:
++	case DM_RATR_STA_HIGH:
++		break;
++
++	case DM_RATR_STA_MIDDLE:
++		HighRSSIThreshForRA += GoUpGap;
++		break;
++
++	case DM_RATR_STA_LOW:
++		HighRSSIThreshForRA += GoUpGap;
++		LowRSSIThreshForRA += GoUpGap;
++		break;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	case DM_RATR_STA_ULTRA_LOW:
++		HighRSSIThreshForRA += GoUpGap;
++		LowRSSIThreshForRA += GoUpGap;
++		UltraLowRSSIThreshForRA += GoUpGap;
++		break;
++#endif
++
++	default:
++		ODM_RT_ASSERT(pDM_Odm, FALSE, ("wrong rssi level setting %d !", *pRATRState));
++		break;
++	}
++
++	// Decide RATRState by RSSI.
++	if (RSSI > HighRSSIThreshForRA)
++		RATRState = DM_RATR_STA_HIGH;
++	else if (RSSI > LowRSSIThreshForRA)
++		RATRState = DM_RATR_STA_MIDDLE;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	else if (RSSI > UltraLowRSSIThreshForRA)
++		RATRState = DM_RATR_STA_LOW;
++	else
++		RATRState = DM_RATR_STA_ULTRA_LOW;
++#else
++	else
++		RATRState = DM_RATR_STA_LOW;
++#endif
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("[Mod RA RSSI Thresh]  High= (( %d )), Low = (( %d ))\n", HighRSSIThreshForRA, LowRSSIThreshForRA));
++	/*printk("==>%s,RATRState:0x%02x ,RSSI:%d\n",__FUNCTION__,RATRState,RSSI);*/
++
++	if (*pRATRState != RATRState || bForceUpdate) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("[RSSI Level Update] %d -> %d\n", *pRATRState, RATRState));
++		*pRATRState = RATRState;
++		return TRUE;
++	}
++
++	return FALSE;
++}
++
++VOID
++odm_RefreshBasicRateMask(
++	IN	PVOID	pDM_VOID
++)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		Adapter	 =  pDM_Odm->Adapter;
++	static u1Byte		Stage = 0;
++	u1Byte			CurStage = 0;
++	OCTET_STRING 	osRateSet;
++	PMGNT_INFO		pMgntInfo = GetDefaultMgntInfo(Adapter);
++	u1Byte 			RateSet[5] = {MGN_1M, MGN_2M, MGN_5_5M, MGN_11M, MGN_6M};
++
++	if (pDM_Odm->SupportICType != ODM_RTL8812 && pDM_Odm->SupportICType != ODM_RTL8821)
++		return;
++
++	if (pDM_Odm->bLinked == FALSE)	// unlink Default port information
++		CurStage = 0;
++	else if (pDM_Odm->RSSI_Min < 40)	// link RSSI  < 40%
++		CurStage = 1;
++	else if (pDM_Odm->RSSI_Min > 45)	// link RSSI > 45%
++		CurStage = 3;
++	else
++		CurStage = 2;					// link  25% <= RSSI <= 30%
++
++	if (CurStage != Stage) {
++		if (CurStage == 1) {
++			FillOctetString(osRateSet, RateSet, 5);
++			FilterSupportRate(pMgntInfo->mBrates, &osRateSet, FALSE);
++			Adapter->HalFunc.SetHwRegHandler(Adapter, HW_VAR_BASIC_RATE, (pu1Byte)&osRateSet);
++		} else if (CurStage == 3 && (Stage == 1 || Stage == 2))
++			Adapter->HalFunc.SetHwRegHandler(Adapter, HW_VAR_BASIC_RATE, (pu1Byte)(&pMgntInfo->mBrates));
++	}
++
++	Stage = CurStage;
++#endif
++}
++
++u1Byte
++phydm_rate_order_compute(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	rate_idx
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte		rate_order = 0;
++
++	if (rate_idx >= ODM_RATEVHTSS4MCS0) {
++		
++		rate_idx -= ODM_RATEVHTSS4MCS0;
++		/**/
++	} else if (rate_idx >= ODM_RATEVHTSS3MCS0) {
++	
++		rate_idx -= ODM_RATEVHTSS3MCS0;
++		/**/	
++	} else if (rate_idx >= ODM_RATEVHTSS2MCS0) {
++	
++		rate_idx -= ODM_RATEVHTSS2MCS0;
++		/**/	
++	} else if (rate_idx >= ODM_RATEVHTSS1MCS0) {
++	
++		rate_idx -= ODM_RATEVHTSS1MCS0;
++		/**/
++	} else if (rate_idx >= ODM_RATEMCS24) {
++	
++		rate_idx -= ODM_RATEMCS24;
++		/**/
++	} else if (rate_idx >= ODM_RATEMCS16) {
++	
++		rate_idx -= ODM_RATEMCS16;
++		/**/
++	} else if (rate_idx >= ODM_RATEMCS8) {
++	
++		rate_idx -= ODM_RATEMCS8;	
++		/**/
++	}
++	rate_order = rate_idx;
++
++	return rate_order;
++
++}
++
++VOID
++phydm_ra_common_info_update(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T		pRA_Table = &pDM_Odm->DM_RA_Table;
++	u2Byte		macid;
++	u1Byte		rate_order_tmp;
++	u1Byte		cnt = 0;
++
++	pRA_Table->highest_client_tx_order = 0;
++	pRA_Table->power_tracking_flag = 1;
++
++	if (pDM_Odm->number_linked_client != 0) {
++		for (macid = 0; macid < ODM_ASSOCIATE_ENTRY_NUM; macid++) {
++			
++			rate_order_tmp = phydm_rate_order_compute(pDM_Odm, ((pRA_Table->link_tx_rate[macid]) & 0x7f));
++
++			if (rate_order_tmp >= (pRA_Table->highest_client_tx_order)) {
++				pRA_Table->highest_client_tx_order = rate_order_tmp;
++				pRA_Table->highest_client_tx_rate_order = macid;
++			}
++			
++			cnt++;
++		
++			if (cnt == pDM_Odm->number_linked_client)
++				break;
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("MACID[%d], Highest Tx order Update for power traking: %d\n", (pRA_Table->highest_client_tx_rate_order), (pRA_Table->highest_client_tx_order)));
++	}
++}
++
++VOID
++phydm_ra_info_watchdog(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	phydm_ra_common_info_update(pDM_Odm);
++	phydm_ra_dynamic_retry_limit(pDM_Odm);
++	phydm_ra_dynamic_retry_count(pDM_Odm);
++	odm_RefreshRateAdaptiveMask(pDM_Odm);
++	odm_RefreshBasicRateMask(pDM_Odm);
++}
++
++VOID
++phydm_ra_info_init(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T		pRA_Table = &pDM_Odm->DM_RA_Table;
++
++	pRA_Table->highest_client_tx_rate_order = 0;
++	pRA_Table->highest_client_tx_order = 0;
++	pRA_Table->RA_threshold_offset = 0;
++	pRA_Table->RA_offset_direction = 0;
++
++	#if (defined(CONFIG_RA_DYNAMIC_RTY_LIMIT))
++	phydm_ra_dynamic_retry_limit_init(pDM_Odm);
++	#endif
++	
++	#if (defined(CONFIG_RA_DYNAMIC_RATE_ID))
++	phydm_ra_dynamic_rate_id_init(pDM_Odm);
++	#endif
++	#if (defined(CONFIG_RA_DBG_CMD))
++	odm_RA_ParaAdjust_init(pDM_Odm);
++	#endif
++
++}
++
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++u1Byte
++odm_Find_RTS_Rate(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Tx_Rate,
++	IN		BOOLEAN			bErpProtect
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	RTS_Ini_Rate = ODM_RATE6M;
++	
++	if (bErpProtect) /* use CCK rate as RTS*/
++		RTS_Ini_Rate = ODM_RATE1M;
++	else {
++		switch (Tx_Rate) {
++		case ODM_RATEVHTSS3MCS9:
++		case ODM_RATEVHTSS3MCS8:
++		case ODM_RATEVHTSS3MCS7:
++		case ODM_RATEVHTSS3MCS6:
++		case ODM_RATEVHTSS3MCS5:
++		case ODM_RATEVHTSS3MCS4:
++		case ODM_RATEVHTSS3MCS3:
++		case ODM_RATEVHTSS2MCS9:
++		case ODM_RATEVHTSS2MCS8:
++		case ODM_RATEVHTSS2MCS7:
++		case ODM_RATEVHTSS2MCS6:
++		case ODM_RATEVHTSS2MCS5:
++		case ODM_RATEVHTSS2MCS4:
++		case ODM_RATEVHTSS2MCS3:
++		case ODM_RATEVHTSS1MCS9:
++		case ODM_RATEVHTSS1MCS8:
++		case ODM_RATEVHTSS1MCS7:
++		case ODM_RATEVHTSS1MCS6:
++		case ODM_RATEVHTSS1MCS5:
++		case ODM_RATEVHTSS1MCS4:
++		case ODM_RATEVHTSS1MCS3:
++		case ODM_RATEMCS15:
++		case ODM_RATEMCS14:
++		case ODM_RATEMCS13:
++		case ODM_RATEMCS12:
++		case ODM_RATEMCS11:
++		case ODM_RATEMCS7:
++		case ODM_RATEMCS6:
++		case ODM_RATEMCS5:
++		case ODM_RATEMCS4:
++		case ODM_RATEMCS3:
++		case ODM_RATE54M:
++		case ODM_RATE48M:
++		case ODM_RATE36M:
++		case ODM_RATE24M:		
++			RTS_Ini_Rate = ODM_RATE24M;
++			break;
++		case ODM_RATEVHTSS3MCS2:
++		case ODM_RATEVHTSS3MCS1:
++		case ODM_RATEVHTSS2MCS2:
++		case ODM_RATEVHTSS2MCS1:
++		case ODM_RATEVHTSS1MCS2:
++		case ODM_RATEVHTSS1MCS1:
++		case ODM_RATEMCS10:
++		case ODM_RATEMCS9:
++		case ODM_RATEMCS2:
++		case ODM_RATEMCS1:
++		case ODM_RATE18M:
++		case ODM_RATE12M:
++			RTS_Ini_Rate = ODM_RATE12M;
++			break;
++		case ODM_RATEVHTSS3MCS0:
++		case ODM_RATEVHTSS2MCS0:
++		case ODM_RATEVHTSS1MCS0:
++		case ODM_RATEMCS8:
++		case ODM_RATEMCS0:
++		case ODM_RATE9M:
++		case ODM_RATE6M:
++			RTS_Ini_Rate = ODM_RATE6M;
++			break;
++		case ODM_RATE11M:
++		case ODM_RATE5_5M:
++		case ODM_RATE2M:
++		case ODM_RATE1M:
++			RTS_Ini_Rate = ODM_RATE1M;
++			break;
++		default:
++			RTS_Ini_Rate = ODM_RATE6M;
++			break;
++		}
++	}
++
++	if (*pDM_Odm->pBandType == 1) {
++		if (RTS_Ini_Rate < ODM_RATE6M)
++			RTS_Ini_Rate = ODM_RATE6M;
++	}
++	return RTS_Ini_Rate;
++
++}
++
++VOID
++odm_Set_RA_DM_ARFB_by_Noisy(
++	IN	PDM_ODM_T	pDM_Odm
++)
++{
++#if 0
++
++	/*DbgPrint("DM_ARFB ====>\n");*/
++	if (pDM_Odm->bNoisyState) {
++		ODM_Write4Byte(pDM_Odm, 0x430, 0x00000000);
++		ODM_Write4Byte(pDM_Odm, 0x434, 0x05040200);
++		/*DbgPrint("DM_ARFB ====> Noisy State\n");*/
++	} else {
++		ODM_Write4Byte(pDM_Odm, 0x430, 0x02010000);
++		ODM_Write4Byte(pDM_Odm, 0x434, 0x07050403);
++		/*DbgPrint("DM_ARFB ====> Clean State\n");*/
++	}
++#endif
++}
++
++VOID
++ODM_UpdateNoisyState(
++	IN	PVOID		pDM_VOID,
++	IN	BOOLEAN		bNoisyStateFromC2H
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	/*DbgPrint("Get C2H Command! NoisyState=0x%x\n ", bNoisyStateFromC2H);*/
++	if (pDM_Odm->SupportICType == ODM_RTL8821  || pDM_Odm->SupportICType == ODM_RTL8812  ||
++		pDM_Odm->SupportICType == ODM_RTL8723B || pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8723D)
++		pDM_Odm->bNoisyState = bNoisyStateFromC2H;
++	odm_Set_RA_DM_ARFB_by_Noisy(pDM_Odm);
++};
++
++VOID
++phydm_update_pwr_track(
++	IN	PVOID		pDM_VOID,
++	IN	u1Byte		Rate
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			pathIdx = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("Pwr Track Get Rate=0x%x\n", Rate));
++
++	pDM_Odm->TxRate = Rate;
++		
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		#if DEV_BUS_TYPE == RT_PCI_INTERFACE
++			#if USE_WORKITEM
++			PlatformScheduleWorkItem(&pDM_Odm->RaRptWorkitem);
++			#else
++			if (pDM_Odm->SupportICType == ODM_RTL8821) {
++				#if (RTL8821A_SUPPORT == 1)
++				ODM_TxPwrTrackSetPwr8821A(pDM_Odm, MIX_MODE, ODM_RF_PATH_A, 0);
++				#endif
++			} else if (pDM_Odm->SupportICType == ODM_RTL8812) {
++				for (pathIdx = ODM_RF_PATH_A; pathIdx < MAX_PATH_NUM_8812A; pathIdx++) {
++					#if (RTL8812A_SUPPORT == 1)
++					ODM_TxPwrTrackSetPwr8812A(pDM_Odm, MIX_MODE, pathIdx, 0);
++					#endif
++				}
++			} else if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++				#if (RTL8723B_SUPPORT == 1)
++				ODM_TxPwrTrackSetPwr_8723B(pDM_Odm, MIX_MODE, ODM_RF_PATH_A, 0);
++				#endif
++			} else if (pDM_Odm->SupportICType == ODM_RTL8192E) {
++				for (pathIdx = ODM_RF_PATH_A; pathIdx < MAX_PATH_NUM_8192E; pathIdx++) {
++					#if (RTL8192E_SUPPORT == 1)
++					ODM_TxPwrTrackSetPwr92E(pDM_Odm, MIX_MODE, pathIdx, 0);
++					#endif
++				}
++			} else if (pDM_Odm->SupportICType == ODM_RTL8188E) {
++				#if (RTL8188E_SUPPORT == 1)
++				ODM_TxPwrTrackSetPwr88E(pDM_Odm, MIX_MODE, ODM_RF_PATH_A, 0);
++				#endif
++			}
++			#endif
++		#else
++			PlatformScheduleWorkItem(&pDM_Odm->RaRptWorkitem);
++		#endif
++	#endif
++
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++VOID
++ODM_UpdateInitRateWorkItemCallback(
++	IN	PVOID	pContext
++)
++{
++	PADAPTER	Adapter = (PADAPTER)pContext;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	u1Byte		p = 0;	
++
++	if (pDM_Odm->SupportICType == ODM_RTL8821) {
++		ODM_TxPwrTrackSetPwr8821A(pDM_Odm, MIX_MODE, ODM_RF_PATH_A, 0);
++		/**/
++	} else if (pDM_Odm->SupportICType == ODM_RTL8812) {
++		for (p = ODM_RF_PATH_A; p < MAX_PATH_NUM_8812A; p++) {    /*DOn't know how to include &c*/
++		
++			ODM_TxPwrTrackSetPwr8812A(pDM_Odm, MIX_MODE, p, 0);
++			/**/
++		}
++	} else if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++			ODM_TxPwrTrackSetPwr_8723B(pDM_Odm, MIX_MODE, ODM_RF_PATH_A, 0);
++			/**/
++	} else if (pDM_Odm->SupportICType == ODM_RTL8192E) {
++		for (p = ODM_RF_PATH_A; p < MAX_PATH_NUM_8192E; p++) {   /*DOn't know how to include &c*/
++			ODM_TxPwrTrackSetPwr92E(pDM_Odm, MIX_MODE, p, 0);
++			/**/
++		}
++	} else if (pDM_Odm->SupportICType == ODM_RTL8188E) {
++		ODM_TxPwrTrackSetPwr88E(pDM_Odm, MIX_MODE, ODM_RF_PATH_A, 0);
++		/**/
++	}
++}
++
++VOID
++odm_RSSIDumpToRegister(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++
++	if (pDM_Odm->SupportICType == ODM_RTL8812) {
++		PlatformEFIOWrite1Byte(Adapter, rA_RSSIDump_Jaguar, Adapter->RxStats.RxRSSIPercentage[0]);
++		PlatformEFIOWrite1Byte(Adapter, rB_RSSIDump_Jaguar, Adapter->RxStats.RxRSSIPercentage[1]);
++
++		/* Rx EVM*/
++		PlatformEFIOWrite1Byte(Adapter, rS1_RXevmDump_Jaguar, Adapter->RxStats.RxEVMdbm[0]);
++		PlatformEFIOWrite1Byte(Adapter, rS2_RXevmDump_Jaguar, Adapter->RxStats.RxEVMdbm[1]);
++
++		/* Rx SNR*/
++		PlatformEFIOWrite1Byte(Adapter, rA_RXsnrDump_Jaguar, (u1Byte)(Adapter->RxStats.RxSNRdB[0]));
++		PlatformEFIOWrite1Byte(Adapter, rB_RXsnrDump_Jaguar, (u1Byte)(Adapter->RxStats.RxSNRdB[1]));
++
++		/* Rx Cfo_Short*/
++		PlatformEFIOWrite2Byte(Adapter, rA_CfoShortDump_Jaguar, Adapter->RxStats.RxCfoShort[0]);
++		PlatformEFIOWrite2Byte(Adapter, rB_CfoShortDump_Jaguar, Adapter->RxStats.RxCfoShort[1]);
++
++		/* Rx Cfo_Tail*/
++		PlatformEFIOWrite2Byte(Adapter, rA_CfoLongDump_Jaguar, Adapter->RxStats.RxCfoTail[0]);
++		PlatformEFIOWrite2Byte(Adapter, rB_CfoLongDump_Jaguar, Adapter->RxStats.RxCfoTail[1]);
++	} else if (pDM_Odm->SupportICType == ODM_RTL8192E) {
++		PlatformEFIOWrite1Byte(Adapter, rA_RSSIDump_92E, Adapter->RxStats.RxRSSIPercentage[0]);
++		PlatformEFIOWrite1Byte(Adapter, rB_RSSIDump_92E, Adapter->RxStats.RxRSSIPercentage[1]);
++		/* Rx EVM*/
++		PlatformEFIOWrite1Byte(Adapter, rS1_RXevmDump_92E, Adapter->RxStats.RxEVMdbm[0]);
++		PlatformEFIOWrite1Byte(Adapter, rS2_RXevmDump_92E, Adapter->RxStats.RxEVMdbm[1]);
++		/* Rx SNR*/
++		PlatformEFIOWrite1Byte(Adapter, rA_RXsnrDump_92E, (u1Byte)(Adapter->RxStats.RxSNRdB[0]));
++		PlatformEFIOWrite1Byte(Adapter, rB_RXsnrDump_92E, (u1Byte)(Adapter->RxStats.RxSNRdB[1]));
++		/* Rx Cfo_Short*/
++		PlatformEFIOWrite2Byte(Adapter, rA_CfoShortDump_92E, Adapter->RxStats.RxCfoShort[0]);
++		PlatformEFIOWrite2Byte(Adapter, rB_CfoShortDump_92E, Adapter->RxStats.RxCfoShort[1]);
++		/* Rx Cfo_Tail*/
++		PlatformEFIOWrite2Byte(Adapter, rA_CfoLongDump_92E, Adapter->RxStats.RxCfoTail[0]);
++		PlatformEFIOWrite2Byte(Adapter, rB_CfoLongDump_92E, Adapter->RxStats.RxCfoTail[1]);
++	}
++}
++
++VOID
++odm_RefreshLdpcRtsMP(
++	IN	PADAPTER			pAdapter,
++	IN	PDM_ODM_T			pDM_Odm,
++	IN	u1Byte				mMacId,
++	IN	u1Byte				IOTPeer,
++	IN	s4Byte				UndecoratedSmoothedPWDB
++)
++{
++	BOOLEAN					bCtlLdpc = FALSE;
++	PODM_RATE_ADAPTIVE		pRA = &pDM_Odm->RateAdaptive;
++
++	if (pDM_Odm->SupportICType != ODM_RTL8821 && pDM_Odm->SupportICType != ODM_RTL8812)
++		return;
++
++	if ((pDM_Odm->SupportICType == ODM_RTL8821) && (pDM_Odm->CutVersion == ODM_CUT_A))
++		bCtlLdpc = TRUE;
++	else if (pDM_Odm->SupportICType == ODM_RTL8812 &&
++			 IOTPeer == HT_IOT_PEER_REALTEK_JAGUAR_CCUTAP)
++		bCtlLdpc = TRUE;
++
++	if (bCtlLdpc) {
++		if (UndecoratedSmoothedPWDB < (pRA->LdpcThres - 5))
++			MgntSet_TX_LDPC(pAdapter, mMacId, TRUE);
++		else if (UndecoratedSmoothedPWDB > pRA->LdpcThres)
++			MgntSet_TX_LDPC(pAdapter, mMacId, FALSE);
++	}
++
++	if (UndecoratedSmoothedPWDB < (pRA->RtsThres - 5))
++		pRA->bLowerRtsRate = TRUE;
++	else if (UndecoratedSmoothedPWDB > pRA->RtsThres)
++		pRA->bLowerRtsRate = FALSE;
++}
++
++VOID
++ODM_DynamicARFBSelect(
++	IN		PVOID		pDM_VOID,
++	IN 		u1Byte			rate,
++	IN  		BOOLEAN			Collision_State
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++
++	if (pDM_Odm->SupportICType != ODM_RTL8192E)
++		return;
++
++	if (Collision_State == pRA_Table->PT_collision_pre)
++		return;
++
++	if (rate >= DESC_RATEMCS8  && rate <= DESC_RATEMCS12) {
++		if (Collision_State == 1) {
++			if (rate == DESC_RATEMCS12) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x0);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x07060501);
++			} else if (rate == DESC_RATEMCS11) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x0);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x07070605);
++			} else if (rate == DESC_RATEMCS10) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x0);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x08080706);
++			} else if (rate == DESC_RATEMCS9) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x0);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x08080707);
++			} else {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x0);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x09090808);
++			}
++		} else { /* Collision_State == 0*/
++			if (rate == DESC_RATEMCS12) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x05010000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x09080706);
++			} else if (rate == DESC_RATEMCS11) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x06050000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x09080807);
++			} else if (rate == DESC_RATEMCS10) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x07060000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x0a090908);
++			} else if (rate == DESC_RATEMCS9) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x07070000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x0a090808);
++			} else {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x08080000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x0b0a0909);
++			}
++		}
++	} else { /* MCS13~MCS15,  1SS, G-mode*/
++		if (Collision_State == 1) {
++			if (rate == DESC_RATEMCS15) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x00000000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x05040302);
++			} else if (rate == DESC_RATEMCS14) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x00000000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x06050302);
++			} else if (rate == DESC_RATEMCS13) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x00000000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x07060502);
++			} else {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x00000000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x06050402);
++			}
++		} else { // Collision_State == 0
++			if (rate == DESC_RATEMCS15) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x03020000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x07060504);
++			} else if (rate == DESC_RATEMCS14) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x03020000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x08070605);
++			} else if (rate == DESC_RATEMCS13) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x05020000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x09080706);
++			} else {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x04020000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x08070605);
++			}
++		}
++	}
++	pRA_Table->PT_collision_pre = Collision_State;
++}
++
++VOID
++ODM_RateAdaptiveStateApInit(
++	IN	PVOID		PADAPTER_VOID,
++	IN	PRT_WLAN_STA  	pEntry
++)
++{
++	PADAPTER		Adapter = (PADAPTER)PADAPTER_VOID;
++	pEntry->Ratr_State = DM_RATR_STA_INIT;
++}
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE) /*#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)*/
++
++static void
++FindMinimumRSSI(
++	IN	PADAPTER	pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++
++	/*Determine the minimum RSSI*/
++
++	if ((pDM_Odm->bLinked != _TRUE) &&
++		(pHalData->EntryMinUndecoratedSmoothedPWDB == 0)) {
++		pHalData->MinUndecoratedPWDBForDM = 0;
++		/*ODM_RT_TRACE(pDM_Odm,COMP_BB_POWERSAVING, DBG_LOUD, ("Not connected to any\n"));*/
++	} else
++		pHalData->MinUndecoratedPWDBForDM = pHalData->EntryMinUndecoratedSmoothedPWDB;
++
++	/*DBG_8192C("%s=>MinUndecoratedPWDBForDM(%d)\n",__FUNCTION__,pdmpriv->MinUndecoratedPWDBForDM);*/
++	/*ODM_RT_TRACE(pDM_Odm,COMP_DIG, DBG_LOUD, ("MinUndecoratedPWDBForDM =%d\n",pHalData->MinUndecoratedPWDBForDM));*/
++}
++
++u8Byte
++PhyDM_Get_Rate_Bitmap_Ex(
++	IN	PVOID		pDM_VOID,
++	IN	u4Byte		macid,
++	IN	u8Byte		ra_mask,
++	IN	u1Byte		rssi_level,
++	OUT		u8Byte	*dm_RA_Mask,
++	OUT		u1Byte	*dm_RteID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PSTA_INFO_T	pEntry;
++	u8Byte	rate_bitmap = 0;
++	u1Byte	WirelessMode;
++
++	pEntry = pDM_Odm->pODM_StaInfo[macid];
++	if (!IS_STA_VALID(pEntry))
++		return ra_mask;
++	WirelessMode = pEntry->wireless_mode;
++	switch (WirelessMode) {
++	case ODM_WM_B:
++		if (ra_mask & 0x000000000000000c) /* 11M or 5.5M enable */
++			rate_bitmap = 0x000000000000000d;
++		else
++			rate_bitmap = 0x000000000000000f;
++		break;
++
++	case (ODM_WM_G):
++	case (ODM_WM_A):
++		if (rssi_level == DM_RATR_STA_HIGH)
++			rate_bitmap = 0x0000000000000f00;
++		else
++			rate_bitmap = 0x0000000000000ff0;
++		break;
++
++	case (ODM_WM_B|ODM_WM_G):
++		if (rssi_level == DM_RATR_STA_HIGH)
++			rate_bitmap = 0x0000000000000f00;
++		else if (rssi_level == DM_RATR_STA_MIDDLE)
++			rate_bitmap = 0x0000000000000ff0;
++		else
++			rate_bitmap = 0x0000000000000ff5;
++		break;
++
++	case (ODM_WM_B|ODM_WM_G|ODM_WM_N24G):
++	case (ODM_WM_B|ODM_WM_N24G):
++	case (ODM_WM_G|ODM_WM_N24G):
++	case (ODM_WM_A|ODM_WM_N5G): {
++		if (pDM_Odm->RFType == ODM_1T2R || pDM_Odm->RFType == ODM_1T1R) {
++			if (rssi_level == DM_RATR_STA_HIGH)
++				rate_bitmap = 0x00000000000f0000;
++			else if (rssi_level == DM_RATR_STA_MIDDLE)
++				rate_bitmap = 0x00000000000ff000;
++			else {
++				if (*(pDM_Odm->pBandWidth) == ODM_BW40M)
++					rate_bitmap = 0x00000000000ff015;
++				else
++					rate_bitmap = 0x00000000000ff005;
++			}
++		} else if (pDM_Odm->RFType == ODM_2T2R  || pDM_Odm->RFType == ODM_2T3R  || pDM_Odm->RFType == ODM_2T4R) {
++			if (rssi_level == DM_RATR_STA_HIGH)
++				rate_bitmap = 0x000000000f8f0000;
++			else if (rssi_level == DM_RATR_STA_MIDDLE)
++				rate_bitmap = 0x000000000f8ff000;
++			else {
++				if (*(pDM_Odm->pBandWidth) == ODM_BW40M)
++					rate_bitmap = 0x000000000f8ff015;
++				else
++					rate_bitmap = 0x000000000f8ff005;
++			}
++		} else {
++			if (rssi_level == DM_RATR_STA_HIGH)
++				rate_bitmap = 0x0000000f0f0f0000;
++			else if (rssi_level == DM_RATR_STA_MIDDLE)
++				rate_bitmap = 0x0000000fcfcfe000;
++			else {
++				if (*(pDM_Odm->pBandWidth) == ODM_BW40M)
++					rate_bitmap = 0x0000000ffffff015;
++				else
++					rate_bitmap = 0x0000000ffffff005;
++			}
++		}
++	}
++	break;
++
++	case (ODM_WM_AC|ODM_WM_G):
++		if (rssi_level == 1)
++			rate_bitmap = 0x00000000fc3f0000;
++		else if (rssi_level == 2)
++			rate_bitmap = 0x00000000fffff000;
++		else
++			rate_bitmap = 0x00000000ffffffff;
++		break;
++
++	case (ODM_WM_AC|ODM_WM_A):
++
++		if (pDM_Odm->RFType == ODM_1T2R || pDM_Odm->RFType == ODM_1T1R) {
++			if (rssi_level == 1)				/* add by Gary for ac-series */
++				rate_bitmap = 0x00000000003f8000;
++			else if (rssi_level == 2)
++				rate_bitmap = 0x00000000003fe000;
++			else
++				rate_bitmap = 0x00000000003ff010;
++		} else if (pDM_Odm->RFType == ODM_2T2R  || pDM_Odm->RFType == ODM_2T3R  || pDM_Odm->RFType == ODM_2T4R) {
++			if (rssi_level == 1)				/* add by Gary for ac-series */
++				rate_bitmap = 0x00000000fe3f8000;       /* VHT 2SS MCS3~9 */
++			else if (rssi_level == 2)
++				rate_bitmap = 0x00000000fffff000;       /* VHT 2SS MCS0~9 */
++			else
++				rate_bitmap = 0x00000000fffff010;       /* All */
++		} else {
++			if (rssi_level == 1)				/* add by Gary for ac-series */
++				rate_bitmap = 0x000003f8fe3f8000ULL;       /* VHT 3SS MCS3~9 */
++			else if (rssi_level == 2)
++				rate_bitmap = 0x000003fffffff000ULL;       /* VHT3SS MCS0~9 */
++			else
++				rate_bitmap = 0x000003fffffff010ULL;       /* All */
++		}
++		break;
++
++	default:
++		if (pDM_Odm->RFType == ODM_1T2R || pDM_Odm->RFType == ODM_1T1R)
++			rate_bitmap = 0x00000000000fffff;
++		else if (pDM_Odm->RFType == ODM_2T2R  || pDM_Odm->RFType == ODM_2T3R  || pDM_Odm->RFType == ODM_2T4R)
++			rate_bitmap = 0x000000000fffffff;
++		else
++			rate_bitmap = 0x0000003fffffffffULL;
++		break;
++
++	}
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, (" ==> rssi_level:0x%02x, WirelessMode:0x%02x, rate_bitmap:0x%016llx\n", rssi_level, WirelessMode, rate_bitmap));
++
++	return (ra_mask & rate_bitmap);
++}
++
++
++u4Byte
++ODM_Get_Rate_Bitmap(
++	IN	PVOID		pDM_VOID,
++	IN	u4Byte		macid,
++	IN	u4Byte 		ra_mask,
++	IN	u1Byte 		rssi_level
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PSTA_INFO_T   	pEntry;
++	u4Byte 	rate_bitmap = 0;
++	u1Byte 	WirelessMode;
++	//u1Byte 	WirelessMode =*(pDM_Odm->pWirelessMode);
++
++
++	pEntry = pDM_Odm->pODM_StaInfo[macid];
++	if (!IS_STA_VALID(pEntry))
++		return ra_mask;
++
++	WirelessMode = pEntry->wireless_mode;
++
++	switch (WirelessMode) {
++	case ODM_WM_B:
++		if (ra_mask & 0x0000000c)		//11M or 5.5M enable
++			rate_bitmap = 0x0000000d;
++		else
++			rate_bitmap = 0x0000000f;
++		break;
++
++	case (ODM_WM_G):
++	case (ODM_WM_A):
++		if (rssi_level == DM_RATR_STA_HIGH)
++			rate_bitmap = 0x00000f00;
++		else
++			rate_bitmap = 0x00000ff0;
++		break;
++
++	case (ODM_WM_B|ODM_WM_G):
++		if (rssi_level == DM_RATR_STA_HIGH)
++			rate_bitmap = 0x00000f00;
++		else if (rssi_level == DM_RATR_STA_MIDDLE)
++			rate_bitmap = 0x00000ff0;
++		else
++			rate_bitmap = 0x00000ff5;
++		break;
++
++	case (ODM_WM_B|ODM_WM_G|ODM_WM_N24G)	:
++	case (ODM_WM_B|ODM_WM_N24G)	:
++	case (ODM_WM_G|ODM_WM_N24G)	:
++	case (ODM_WM_A|ODM_WM_N5G)	: {
++		if (pDM_Odm->RFType == ODM_1T2R || pDM_Odm->RFType == ODM_1T1R) {
++			if (rssi_level == DM_RATR_STA_HIGH)
++				rate_bitmap = 0x000f0000;
++			else if (rssi_level == DM_RATR_STA_MIDDLE)
++				rate_bitmap = 0x000ff000;
++			else {
++				if (*(pDM_Odm->pBandWidth) == ODM_BW40M)
++					rate_bitmap = 0x000ff015;
++				else
++					rate_bitmap = 0x000ff005;
++			}
++		} else {
++			if (rssi_level == DM_RATR_STA_HIGH)
++				rate_bitmap = 0x0f8f0000;
++			else if (rssi_level == DM_RATR_STA_MIDDLE)
++				rate_bitmap = 0x0f8ff000;
++			else {
++				if (*(pDM_Odm->pBandWidth) == ODM_BW40M)
++					rate_bitmap = 0x0f8ff015;
++				else
++					rate_bitmap = 0x0f8ff005;
++			}
++		}
++	}
++	break;
++
++	case (ODM_WM_AC|ODM_WM_G):
++		if (rssi_level == 1)
++			rate_bitmap = 0xfc3f0000;
++		else if (rssi_level == 2)
++			rate_bitmap = 0xfffff000;
++		else
++			rate_bitmap = 0xffffffff;
++		break;
++
++	case (ODM_WM_AC|ODM_WM_A):
++
++		if (pDM_Odm->RFType == RF_1T1R) {
++			if (rssi_level == 1)				// add by Gary for ac-series
++				rate_bitmap = 0x003f8000;
++			else if (rssi_level == 2)
++				rate_bitmap = 0x003ff000;
++			else
++				rate_bitmap = 0x003ff010;
++		} else {
++			if (rssi_level == 1)				// add by Gary for ac-series
++				rate_bitmap = 0xfe3f8000;       // VHT 2SS MCS3~9
++			else if (rssi_level == 2)
++				rate_bitmap = 0xfffff000;       // VHT 2SS MCS0~9
++			else
++				rate_bitmap = 0xfffff010;       // All
++		}
++		break;
++
++	default:
++		if (pDM_Odm->RFType == RF_1T2R)
++			rate_bitmap = 0x000fffff;
++		else
++			rate_bitmap = 0x0fffffff;
++		break;
++
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("%s ==> rssi_level:0x%02x, WirelessMode:0x%02x, rate_bitmap:0x%08x\n", __func__, rssi_level, WirelessMode, rate_bitmap));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, (" ==> rssi_level:0x%02x, WirelessMode:0x%02x, rate_bitmap:0x%08x\n", rssi_level, WirelessMode, rate_bitmap));
++
++	return (ra_mask & rate_bitmap);
++
++}
++
++#endif //#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++#endif /*#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN| ODM_CE))*/
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_rainfo.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_rainfo.h
+new file mode 100644
+index 0000000..94184af
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_rainfo.h
+@@ -0,0 +1,572 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef	__PHYDMRAINFO_H__
++#define    __PHYDMRAINFO_H__
++
++/*#define RAINFO_VERSION	"2.0"  //2014.11.04*/
++/*#define RAINFO_VERSION	"3.0"  //2015.01.13 Dino*/
++/*#define RAINFO_VERSION	"3.1"  //2015.01.14 Dino*/
++/*#define RAINFO_VERSION	"3.3"  2015.07.29 YuChen*/
++/*#define RAINFO_VERSION	"3.4"*/  /*2015.12.15 Stanley*/
++/*#define RAINFO_VERSION	"4.0"*/  /*2016.03.24 Dino, Add more RA mask state and Phydm-lize partial ra mask function  */
++#define RAINFO_VERSION	"4.1"  /*2016.04.20 Dino, Add new function to adjust PCR RA threshold  */
++
++#define	H2C_0X42_LENGTH	5
++
++#define	RA_FLOOR_UP_GAP				3
++#define	RA_FLOOR_TABLE_SIZE	7
++
++#define	ACTIVE_TP_THRESHOLD	150
++#define	RA_RETRY_DESCEND_NUM	2
++#define	RA_RETRY_LIMIT_LOW	4
++#define	RA_RETRY_LIMIT_HIGH	32
++
++#define RAINFO_BE_RX_STATE			BIT0  // 1:RX    //ULDL
++#define RAINFO_STBC_STATE			BIT1
++//#define RAINFO_LDPC_STATE 			BIT2
++#define RAINFO_NOISY_STATE 			BIT2    // set by Noisy_Detection
++#define RAINFO_SHURTCUT_STATE 		BIT3
++#define RAINFO_SHURTCUT_FLAG 		BIT4
++#define RAINFO_INIT_RSSI_RATE_STATE  BIT5
++#define RAINFO_BF_STATE 				BIT6
++#define RAINFO_BE_TX_STATE 			BIT7 // 1:TX
++
++#define	RA_MASK_CCK		0xf
++#define	RA_MASK_OFDM		0xff0
++#define	RA_MASK_HT1SS		0xff000
++#define	RA_MASK_HT2SS		0xff00000
++/*#define	RA_MASK_MCS3SS	*/
++#define	RA_MASK_HT4SS		0xff0
++#define	RA_MASK_VHT1SS	0x3ff000
++#define	RA_MASK_VHT2SS	0xffc00000
++
++#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++#define		RA_FIRST_MACID 	1
++#elif (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#define	RA_FIRST_MACID	0
++#define	WIN_DEFAULT_PORT_MACID	0
++#define	WIN_BT_PORT_MACID	2
++#else /*if (DM_ODM_SUPPORT_TYPE == ODM_CE)*/
++#define		RA_FIRST_MACID 	0
++#endif
++
++#define AP_InitRateAdaptiveState	ODM_RateAdaptiveStateApInit
++
++#if (RA_MASK_PHYDMLIZE_CE || RA_MASK_PHYDMLIZE_AP || RA_MASK_PHYDMLIZE_WIN)
++#define		DM_RATR_STA_INIT			0
++#define		DM_RATR_STA_HIGH			1
++#define 		DM_RATR_STA_MIDDLE		2
++#define 		DM_RATR_STA_LOW			3
++#define		DM_RATR_STA_ULTRA_LOW	4
++#endif
++
++typedef enum _phydm_arfr_num {
++	ARFR_0_RATE_ID	=	0x9,
++	ARFR_1_RATE_ID	=	0xa,
++	ARFR_2_RATE_ID	=	0xb,
++	ARFR_3_RATE_ID	=	0xc,
++	ARFR_4_RATE_ID	=	0xd,
++	ARFR_5_RATE_ID	=	0xe
++} PHYDM_RA_ARFR_NUM_E;
++
++typedef enum _Phydm_ra_dbg_para {
++	RADBG_PCR_TH_OFFSET		=	0,
++	RADBG_RTY_PENALTY		=	1,
++	RADBG_N_HIGH 				=	2,
++	RADBG_N_LOW				=	3,
++	RADBG_TRATE_UP_TABLE		=	4,
++	RADBG_TRATE_DOWN_TABLE	=	5,
++	RADBG_TRYING_NECESSARY	=	6,
++	RADBG_TDROPING_NECESSARY =	7,
++	RADBG_RATE_UP_RTY_RATIO	=	8,
++	RADBG_RATE_DOWN_RTY_RATIO =	9, //u8
++
++	RADBG_DEBUG_MONITOR1 = 0xc,
++	RADBG_DEBUG_MONITOR2 = 0xd,
++	RADBG_DEBUG_MONITOR3 = 0xe,
++	RADBG_DEBUG_MONITOR4 = 0xf,
++	RADBG_DEBUG_MONITOR5 = 0x10,
++	NUM_RA_PARA
++} PHYDM_RA_DBG_PARA_E;
++
++typedef enum PHYDM_WIRELESS_MODE {
++	
++	PHYDM_WIRELESS_MODE_UNKNOWN = 0x00,
++	PHYDM_WIRELESS_MODE_A		= 0x01,
++	PHYDM_WIRELESS_MODE_B		= 0x02,
++	PHYDM_WIRELESS_MODE_G		= 0x04,
++	PHYDM_WIRELESS_MODE_AUTO	= 0x08,
++	PHYDM_WIRELESS_MODE_N_24G	= 0x10,
++	PHYDM_WIRELESS_MODE_N_5G	= 0x20,
++	PHYDM_WIRELESS_MODE_AC_5G	= 0x40,
++	PHYDM_WIRELESS_MODE_AC_24G	= 0x80,
++	PHYDM_WIRELESS_MODE_AC_ONLY	= 0x100,
++	PHYDM_WIRELESS_MODE_MAX		= 0x800,
++	PHYDM_WIRELESS_MODE_ALL		= 0xFFFF
++} PHYDM_WIRELESS_MODE_E;
++
++typedef enum PHYDM_RATEID_IDX_ {
++	
++	PHYDM_BGN_40M_2SS	= 0,
++	PHYDM_BGN_40M_1SS	= 1,
++	PHYDM_BGN_20M_2SS	= 2,
++	PHYDM_BGN_20M_1SS	= 3,
++	PHYDM_GN_N2SS			= 4,
++	PHYDM_GN_N1SS			= 5,
++	PHYDM_BG				= 6,
++	PHYDM_G				= 7,
++	PHYDM_B_20M			= 8,
++	PHYDM_ARFR0_AC_2SS	= 9,
++	PHYDM_ARFR1_AC_1SS	= 10,
++	PHYDM_ARFR2_AC_2G_1SS	= 11,
++	PHYDM_ARFR3_AC_2G_2SS	= 12,
++	PHYDM_ARFR4_AC_3SS	= 13,
++	PHYDM_ARFR5_N_3SS		= 14
++} PHYDM_RATEID_IDX_E;
++
++typedef	enum _PHYDM_RF_TYPE_DEFINITION {
++	PHYDM_RF_1T1R = 0,
++	PHYDM_RF_1T2R,			
++	PHYDM_RF_2T2R,
++	PHYDM_RF_2T2R_GREEN,
++	PHYDM_RF_2T3R,
++	PHYDM_RF_2T4R,
++	PHYDM_RF_3T3R,
++	PHYDM_RF_3T4R,
++	PHYDM_RF_4T4R,
++	PHYDM_RF_MAX_TYPE
++} PHYDM_RF_TYPE_DEF_E;
++
++typedef	enum _PHYDM_BW {
++	PHYDM_BW_20	= 0,
++	PHYDM_BW_40,
++	PHYDM_BW_80,
++	PHYDM_BW_80_80,	
++	PHYDM_BW_160,
++	PHYDM_BW_10,
++	PHYDM_BW_5
++} PHYDM_BW_E;
++
++
++#if (RATE_ADAPTIVE_SUPPORT == 1)//88E RA
++typedef struct _ODM_RA_Info_ {
++	u1Byte RateID;
++	u4Byte RateMask;
++	u4Byte RAUseRate;
++	u1Byte RateSGI;
++	u1Byte RssiStaRA;
++	u1Byte PreRssiStaRA;
++	u1Byte SGIEnable;
++	u1Byte DecisionRate;
++	u1Byte PreRate;
++	u1Byte HighestRate;
++	u1Byte LowestRate;
++	u4Byte NscUp;
++	u4Byte NscDown;
++	u2Byte RTY[5];
++	u4Byte TOTAL;
++	u2Byte DROP;
++	u1Byte Active;
++	u2Byte RptTime;
++	u1Byte RAWaitingCounter;
++	u1Byte RAPendingCounter;
++	u1Byte RADropAfterDown;
++#if 1 //POWER_TRAINING_ACTIVE == 1 // For compile  pass only~!
++	u1Byte PTActive;  // on or off
++	u1Byte PTTryState;  // 0 trying state, 1 for decision state
++	u1Byte PTStage;  // 0~6
++	u1Byte PTStopCount; //Stop PT counter
++	u1Byte PTPreRate;  // if rate change do PT
++	u1Byte PTPreRssi; // if RSSI change 5% do PT
++	u1Byte PTModeSS;  // decide whitch rate should do PT
++	u1Byte RAstage;  // StageRA, decide how many times RA will be done between PT
++	u1Byte PTSmoothFactor;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP) && 	((DEV_BUS_TYPE == RT_USB_INTERFACE) || (DEV_BUS_TYPE == RT_SDIO_INTERFACE))
++	u1Byte RateDownCounter;
++	u1Byte RateUpCounter;
++	u1Byte RateDirection;
++	u1Byte BoundingType;
++	u1Byte BoundingCounter;
++	u1Byte BoundingLearningTime;
++	u1Byte RateDownStartTime;
++#endif
++} ODM_RA_INFO_T, *PODM_RA_INFO_T;
++#endif
++
++
++typedef struct _Rate_Adaptive_Table_ {
++	u1Byte		firstconnect;
++#if(DM_ODM_SUPPORT_TYPE==ODM_WIN)
++	BOOLEAN		PT_collision_pre;
++#endif
++
++#if (defined(CONFIG_RA_DBG_CMD))
++	BOOLEAN		is_ra_dbg_init;
++
++	u1Byte	RTY_P[ODM_NUM_RATE_IDX];
++	u1Byte	RTY_P_default[ODM_NUM_RATE_IDX];
++	BOOLEAN	RTY_P_modify_note[ODM_NUM_RATE_IDX];
++
++	u1Byte	RATE_UP_RTY_RATIO[ODM_NUM_RATE_IDX];
++	u1Byte	RATE_UP_RTY_RATIO_default[ODM_NUM_RATE_IDX];
++	BOOLEAN	RATE_UP_RTY_RATIO_modify_note[ODM_NUM_RATE_IDX];
++
++	u1Byte	RATE_DOWN_RTY_RATIO[ODM_NUM_RATE_IDX];
++	u1Byte	RATE_DOWN_RTY_RATIO_default[ODM_NUM_RATE_IDX];
++	BOOLEAN	RATE_DOWN_RTY_RATIO_modify_note[ODM_NUM_RATE_IDX];
++
++	BOOLEAN RA_Para_feedback_req;
++
++	u1Byte   para_idx;
++	u1Byte	rate_idx;
++	u1Byte	value;
++	u2Byte	value_16;
++	u1Byte	rate_length;
++#endif
++	u1Byte	link_tx_rate[ODM_ASSOCIATE_ENTRY_NUM];
++	u1Byte	highest_client_tx_order;
++	u2Byte	highest_client_tx_rate_order;
++	u1Byte	power_tracking_flag;
++	u1Byte	RA_threshold_offset;
++	u1Byte	RA_offset_direction;
++
++	#if (defined(CONFIG_RA_DYNAMIC_RTY_LIMIT))
++	u1Byte per_rate_retrylimit_20M[ODM_NUM_RATE_IDX];
++	u1Byte per_rate_retrylimit_40M[ODM_NUM_RATE_IDX];	
++	u1Byte			retry_descend_num;
++	u1Byte			retrylimit_low;
++	u1Byte			retrylimit_high;
++	#endif
++
++
++} RA_T, *pRA_T;
++
++typedef struct _ODM_RATE_ADAPTIVE {
++	u1Byte				Type;				// DM_Type_ByFW/DM_Type_ByDriver
++	u1Byte				HighRSSIThresh;		// if RSSI > HighRSSIThresh	=> RATRState is DM_RATR_STA_HIGH
++	u1Byte				LowRSSIThresh;		// if RSSI <= LowRSSIThresh	=> RATRState is DM_RATR_STA_LOW
++	u1Byte				RATRState;			// Current RSSI level, DM_RATR_STA_HIGH/DM_RATR_STA_MIDDLE/DM_RATR_STA_LOW
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	u1Byte				LdpcThres;			// if RSSI > LdpcThres => switch from LPDC to BCC
++	BOOLEAN				bLowerRtsRate;
++#endif
++
++#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	u1Byte				RtsThres;
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	BOOLEAN				bUseLdpc;
++#else
++	u1Byte				UltraLowRSSIThresh;
++	u4Byte				LastRATR;			// RATR Register Content
++#endif
++
++} ODM_RATE_ADAPTIVE, *PODM_RATE_ADAPTIVE;
++
++#if (defined(CONFIG_RA_DBG_CMD))
++
++VOID
++odm_RA_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value
++);
++
++VOID
++odm_RA_ParaAdjust_init(
++	IN		PVOID		pDM_VOID
++);
++
++#else
++
++VOID
++phydm_RA_debug_PCR(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char			*output,
++	IN		u4Byte		*_out_len
++);
++
++#endif
++
++VOID
++ODM_C2HRaParaReportHandler(
++	IN	PVOID	pDM_VOID,
++	IN	pu1Byte	CmdBuf,
++	IN	u1Byte	CmdLen
++);
++
++VOID
++odm_RA_ParaAdjust(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++phydm_ra_dynamic_retry_count(
++	IN	PVOID	pDM_VOID
++);
++
++VOID
++phydm_ra_dynamic_retry_limit(
++	IN	PVOID	pDM_VOID
++);
++
++VOID
++phydm_ra_dynamic_rate_id_on_assoc(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	wireless_mode,
++	IN	u1Byte	init_rate_id
++);
++
++VOID
++phydm_print_rate(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	rate,
++	IN	u4Byte	dbg_component
++);
++
++VOID
++phydm_c2h_ra_report_handler(
++	IN PVOID	pDM_VOID,
++	IN pu1Byte   CmdBuf,
++	IN u1Byte   CmdLen
++);
++
++u1Byte
++phydm_rate_order_compute(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	rate_idx
++	);
++
++VOID
++phydm_ra_info_watchdog(
++	IN	PVOID	pDM_VOID
++);
++
++VOID
++phydm_ra_info_init(
++	IN	PVOID	pDM_VOID
++);
++
++VOID
++odm_RSSIMonitorInit(
++	IN	PVOID	pDM_VOID
++);
++
++VOID
++phydm_modify_RA_PCR_threshold(
++	IN		PVOID		pDM_VOID,
++	IN		u1Byte		RA_offset_direction,
++	IN		u1Byte		RA_threshold_offset
++);
++
++VOID
++odm_RSSIMonitorCheck(
++	IN	PVOID	pDM_VOID
++);
++
++VOID
++phydm_initRaInfo(
++	IN		PVOID		pDM_VOID
++);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++s4Byte
++phydm_FindMinimumRSSI(
++IN		PDM_ODM_T		pDM_Odm,
++IN		PADAPTER		pAdapter,
++IN OUT	BOOLEAN	*pbLink_temp
++
++	);
++#endif
++
++u1Byte
++phydm_vht_en_mapping(
++	IN	PVOID			pDM_VOID,
++	IN	u4Byte			WirelessMode
++);
++
++u1Byte
++phydm_rate_id_mapping(
++	IN	PVOID			pDM_VOID,
++	IN	u4Byte			WirelessMode,
++	IN	u1Byte			RfType,
++	IN	u1Byte			bw
++);
++
++#if 0
++u4Byte
++phydm_disable_cck_ra_mask(
++	IN	PVOID			pDM_VOID,
++	IN	u4Byte			ra_mask_in
++);
++#endif
++
++
++VOID
++phydm_UpdateHalRAMask(
++	IN	PVOID			pDM_VOID,
++	IN	u4Byte			wirelessMode,
++	IN	u1Byte			RfType,
++	IN	u1Byte			BW,
++	IN	u1Byte			MimoPs_enable,
++	IN	u1Byte			disable_cck_rate,
++	IN	u4Byte			*ratr_bitmap_msb_in,
++	IN	u4Byte			*ratr_bitmap_in,
++	IN	u1Byte			tx_rate_level
++);
++
++VOID
++odm_RateAdaptiveMaskInit(
++	IN 	PVOID	pDM_VOID
++);
++
++VOID
++odm_RefreshRateAdaptiveMask(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++odm_RefreshRateAdaptiveMaskMP(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++odm_RefreshRateAdaptiveMaskCE(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++odm_RefreshRateAdaptiveMaskAPADSL(
++	IN		PVOID		pDM_VOID
++);
++
++u1Byte 
++phydm_RA_level_decision(
++	IN		PVOID			pDM_VOID,
++	IN		u4Byte			rssi,
++	IN		u1Byte			Ratr_State
++);
++
++BOOLEAN
++ODM_RAStateCheck(
++	IN		PVOID		    pDM_VOID,
++	IN		s4Byte			RSSI,
++	IN		BOOLEAN			bForceUpdate,
++	OUT		pu1Byte			pRATRState
++);
++
++VOID
++odm_RefreshBasicRateMask(
++	IN		PVOID		pDM_VOID
++);
++VOID
++ODM_RAPostActionOnAssoc(
++	IN		PVOID	pDM_Odm
++);
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++
++u1Byte
++odm_Find_RTS_Rate(
++	IN	PVOID		pDM_VOID,
++	IN		u1Byte			Tx_Rate,
++	IN		BOOLEAN			bErpProtect
++);
++
++VOID
++ODM_UpdateNoisyState(
++	IN	PVOID		pDM_VOID,
++	IN	BOOLEAN		bNoisyStateFromC2H
++);
++
++VOID
++phydm_update_pwr_track(
++	IN	PVOID		pDM_VOID,
++	IN	u1Byte		Rate
++);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++VOID
++ODM_UpdateInitRateWorkItemCallback(
++	IN	PVOID	pContext
++);
++
++VOID
++odm_RSSIDumpToRegister(
++	IN	PVOID	pDM_VOID
++);
++
++VOID
++odm_RefreshLdpcRtsMP(
++	IN	PADAPTER			pAdapter,
++	IN	PDM_ODM_T			pDM_Odm,
++	IN	u1Byte				mMacId,
++	IN	u1Byte				IOTPeer,
++	IN	s4Byte				UndecoratedSmoothedPWDB
++);
++
++VOID
++ODM_DynamicARFBSelect(
++	IN		PVOID		pDM_VOID,
++	IN 		u1Byte		rate,
++	IN  	BOOLEAN		Collision_State
++);
++
++VOID
++ODM_RateAdaptiveStateApInit(
++	IN	PVOID			PADAPTER_VOID,
++	IN	PRT_WLAN_STA  	pEntry
++);
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++static void
++FindMinimumRSSI(
++	IN	PADAPTER	pAdapter
++);
++
++u8Byte
++PhyDM_Get_Rate_Bitmap_Ex(
++	IN	PVOID		pDM_VOID,
++	IN	u4Byte		macid,
++	IN	u8Byte		ra_mask,
++	IN	u1Byte		rssi_level,
++	OUT		u8Byte	*dm_RA_Mask,
++	OUT		u1Byte	*dm_RteID
++);
++u4Byte
++ODM_Get_Rate_Bitmap(
++	IN	PVOID	    pDM_VOID,
++	IN	u4Byte		macid,
++	IN	u4Byte 		ra_mask,
++	IN	u1Byte 		rssi_level
++);
++
++void phydm_ra_rssi_rpt_wk(PVOID pContext);
++#endif/*#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)*/
++
++#endif/*#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN| ODM_CE))*/
++
++#endif /*#ifndef	__ODMRAINFO_H__*/
++
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_reg.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_reg.h
+new file mode 100644
+index 0000000..019b28e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_reg.h
+@@ -0,0 +1,215 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++//============================================================
++// File Name: odm_reg.h
++//
++// Description:
++//
++// This file is for general register definition.
++//
++//
++//============================================================
++#ifndef	__HAL_ODM_REG_H__
++#define __HAL_ODM_REG_H__
++
++//
++// Register Definition
++//
++
++//MAC REG
++#define	ODM_BB_RESET					0x002
++#define	ODM_DUMMY						0x4fe
++#define	RF_T_METER_OLD				0x24
++#define	RF_T_METER_NEW				0x42
++
++#define	ODM_EDCA_VO_PARAM			0x500
++#define	ODM_EDCA_VI_PARAM			0x504
++#define	ODM_EDCA_BE_PARAM			0x508
++#define	ODM_EDCA_BK_PARAM			0x50C
++#define	ODM_TXPAUSE					0x522
++
++/* LTE_COEX */
++#define REG_LTECOEX_CTRL			0x07C0
++#define REG_LTECOEX_WRITE_DATA		0x07C4
++#define REG_LTECOEX_READ_DATA		0x07C8
++#define REG_LTECOEX_PATH_CONTROL	0x70
++
++//BB REG
++#define	ODM_FPGA_PHY0_PAGE8			0x800
++#define	ODM_PSD_SETTING				0x808
++#define	ODM_AFE_SETTING				0x818
++#define	ODM_TXAGC_B_6_18				0x830
++#define	ODM_TXAGC_B_24_54			0x834
++#define	ODM_TXAGC_B_MCS32_5			0x838
++#define	ODM_TXAGC_B_MCS0_MCS3		0x83c
++#define	ODM_TXAGC_B_MCS4_MCS7		0x848
++#define	ODM_TXAGC_B_MCS8_MCS11		0x84c
++#define	ODM_ANALOG_REGISTER			0x85c
++#define	ODM_RF_INTERFACE_OUTPUT		0x860
++#define	ODM_TXAGC_B_MCS12_MCS15	0x868
++#define	ODM_TXAGC_B_11_A_2_11		0x86c
++#define	ODM_AD_DA_LSB_MASK			0x874
++#define	ODM_ENABLE_3_WIRE			0x88c
++#define	ODM_PSD_REPORT				0x8b4
++#define	ODM_R_ANT_SELECT				0x90c
++#define	ODM_CCK_ANT_SELECT			0xa07
++#define	ODM_CCK_PD_THRESH			0xa0a
++#define	ODM_CCK_RF_REG1				0xa11
++#define	ODM_CCK_MATCH_FILTER			0xa20
++#define	ODM_CCK_RAKE_MAC				0xa2e
++#define	ODM_CCK_CNT_RESET			0xa2d
++#define	ODM_CCK_TX_DIVERSITY			0xa2f
++#define	ODM_CCK_FA_CNT_MSB			0xa5b
++#define	ODM_CCK_FA_CNT_LSB			0xa5c
++#define	ODM_CCK_NEW_FUNCTION		0xa75
++#define	ODM_OFDM_PHY0_PAGE_C		0xc00
++#define	ODM_OFDM_RX_ANT				0xc04
++#define	ODM_R_A_RXIQI					0xc14
++#define	ODM_R_A_AGC_CORE1			0xc50
++#define	ODM_R_A_AGC_CORE2			0xc54
++#define	ODM_R_B_AGC_CORE1			0xc58
++#define	ODM_R_AGC_PAR					0xc70
++#define	ODM_R_HTSTF_AGC_PAR			0xc7c
++#define	ODM_TX_PWR_TRAINING_A		0xc90
++#define	ODM_TX_PWR_TRAINING_B		0xc98
++#define	ODM_OFDM_FA_CNT1				0xcf0
++#define	ODM_OFDM_PHY0_PAGE_D		0xd00
++#define	ODM_OFDM_FA_CNT2				0xda0
++#define	ODM_OFDM_FA_CNT3				0xda4
++#define	ODM_OFDM_FA_CNT4				0xda8
++#define	ODM_TXAGC_A_6_18				0xe00
++#define	ODM_TXAGC_A_24_54			0xe04
++#define	ODM_TXAGC_A_1_MCS32			0xe08
++#define	ODM_TXAGC_A_MCS0_MCS3		0xe10
++#define	ODM_TXAGC_A_MCS4_MCS7		0xe14
++#define	ODM_TXAGC_A_MCS8_MCS11		0xe18
++#define	ODM_TXAGC_A_MCS12_MCS15		0xe1c
++
++//RF REG
++#define	ODM_GAIN_SETTING				0x00
++#define	ODM_CHANNEL					0x18
++#define	ODM_RF_T_METER				0x24
++#define	ODM_RF_T_METER_92D			0x42
++#define	ODM_RF_T_METER_88E			0x42
++#define	ODM_RF_T_METER_92E			0x42
++#define	ODM_RF_T_METER_8812			0x42
++#define	rRF_TxGainOffset				0x55
++
++//Ant Detect Reg
++#define	ODM_DPDT						0x300
++
++//PSD Init
++#define	ODM_PSDREG					0x808
++
++//92D Path Div
++#define	PATHDIV_REG					0xB30
++#define	PATHDIV_TRI					0xBA0
++
++
++//
++// Bitmap Definition
++//
++#if(DM_ODM_SUPPORT_TYPE & (ODM_AP))
++// TX AGC 
++#define		rTxAGC_A_CCK11_CCK1_JAguar	0xc20
++#define		rTxAGC_A_Ofdm18_Ofdm6_JAguar	0xc24
++#define		rTxAGC_A_Ofdm54_Ofdm24_JAguar	0xc28
++#define		rTxAGC_A_MCS3_MCS0_JAguar	0xc2c
++#define		rTxAGC_A_MCS7_MCS4_JAguar	0xc30
++#define		rTxAGC_A_MCS11_MCS8_JAguar	0xc34
++#define		rTxAGC_A_MCS15_MCS12_JAguar	0xc38
++#define		rTxAGC_A_Nss1Index3_Nss1Index0_JAguar	0xc3c
++#define		rTxAGC_A_Nss1Index7_Nss1Index4_JAguar	0xc40
++#define		rTxAGC_A_Nss2Index1_Nss1Index8_JAguar	0xc44
++#define		rTxAGC_A_Nss2Index5_Nss2Index2_JAguar	0xc48
++#define		rTxAGC_A_Nss2Index9_Nss2Index6_JAguar	0xc4c
++#if defined(CONFIG_WLAN_HAL_8814AE)
++#define		rTxAGC_A_MCS19_MCS16_JAguar	0xcd8
++#define		rTxAGC_A_MCS23_MCS20_JAguar	0xcdc
++#define		rTxAGC_A_Nss3Index3_Nss3Index0_JAguar	0xce0
++#define		rTxAGC_A_Nss3Index7_Nss3Index4_JAguar	0xce4
++#define		rTxAGC_A_Nss3Index9_Nss3Index8_JAguar	0xce8
++#endif
++#define		rTxAGC_B_CCK11_CCK1_JAguar	0xe20
++#define		rTxAGC_B_Ofdm18_Ofdm6_JAguar	0xe24
++#define		rTxAGC_B_Ofdm54_Ofdm24_JAguar	0xe28
++#define		rTxAGC_B_MCS3_MCS0_JAguar	0xe2c
++#define		rTxAGC_B_MCS7_MCS4_JAguar	0xe30
++#define		rTxAGC_B_MCS11_MCS8_JAguar	0xe34
++#define		rTxAGC_B_MCS15_MCS12_JAguar	0xe38
++#define		rTxAGC_B_Nss1Index3_Nss1Index0_JAguar	0xe3c
++#define		rTxAGC_B_Nss1Index7_Nss1Index4_JAguar	0xe40
++#define		rTxAGC_B_Nss2Index1_Nss1Index8_JAguar	0xe44
++#define		rTxAGC_B_Nss2Index5_Nss2Index2_JAguar	0xe48
++#define		rTxAGC_B_Nss2Index9_Nss2Index6_JAguar	0xe4c
++#if defined(CONFIG_WLAN_HAL_8814AE)
++#define		rTxAGC_B_MCS19_MCS16_JAguar	0xed8
++#define		rTxAGC_B_MCS23_MCS20_JAguar	0xedc
++#define		rTxAGC_B_Nss3Index3_Nss3Index0_JAguar	0xee0
++#define		rTxAGC_B_Nss3Index7_Nss3Index4_JAguar	0xee4
++#define		rTxAGC_B_Nss3Index9_Nss3Index8_JAguar	0xee8
++#define		rTxAGC_C_CCK11_CCK1_JAguar	0x1820
++#define		rTxAGC_C_Ofdm18_Ofdm6_JAguar	0x1824
++#define		rTxAGC_C_Ofdm54_Ofdm24_JAguar	0x1828
++#define		rTxAGC_C_MCS3_MCS0_JAguar	0x182c
++#define		rTxAGC_C_MCS7_MCS4_JAguar	0x1830
++#define		rTxAGC_C_MCS11_MCS8_JAguar	0x1834
++#define		rTxAGC_C_MCS15_MCS12_JAguar	0x1838
++#define		rTxAGC_C_Nss1Index3_Nss1Index0_JAguar	0x183c
++#define		rTxAGC_C_Nss1Index7_Nss1Index4_JAguar	0x1840
++#define		rTxAGC_C_Nss2Index1_Nss1Index8_JAguar	0x1844
++#define		rTxAGC_C_Nss2Index5_Nss2Index2_JAguar	0x1848
++#define		rTxAGC_C_Nss2Index9_Nss2Index6_JAguar	0x184c
++#define		rTxAGC_C_MCS19_MCS16_JAguar	0x18d8
++#define		rTxAGC_C_MCS23_MCS20_JAguar	0x18dc
++#define		rTxAGC_C_Nss3Index3_Nss3Index0_JAguar	0x18e0
++#define		rTxAGC_C_Nss3Index7_Nss3Index4_JAguar	0x18e4
++#define		rTxAGC_C_Nss3Index9_Nss3Index8_JAguar	0x18e8
++#define		rTxAGC_D_CCK11_CCK1_JAguar	0x1a20
++#define		rTxAGC_D_Ofdm18_Ofdm6_JAguar	0x1a24
++#define		rTxAGC_D_Ofdm54_Ofdm24_JAguar	0x1a28
++#define		rTxAGC_D_MCS3_MCS0_JAguar	0x1a2c
++#define		rTxAGC_D_MCS7_MCS4_JAguar	0x1a30
++#define		rTxAGC_D_MCS11_MCS8_JAguar	0x1a34
++#define		rTxAGC_D_MCS15_MCS12_JAguar	0x1a38
++#define		rTxAGC_D_Nss1Index3_Nss1Index0_JAguar	0x1a3c
++#define		rTxAGC_D_Nss1Index7_Nss1Index4_JAguar	0x1a40
++#define		rTxAGC_D_Nss2Index1_Nss1Index8_JAguar	0x1a44
++#define		rTxAGC_D_Nss2Index5_Nss2Index2_JAguar	0x1a48
++#define		rTxAGC_D_Nss2Index9_Nss2Index6_JAguar	0x1a4c
++#define		rTxAGC_D_MCS19_MCS16_JAguar	0x1ad8
++#define		rTxAGC_D_MCS23_MCS20_JAguar	0x1adc
++#define		rTxAGC_D_Nss3Index3_Nss3Index0_JAguar	0x1ae0
++#define		rTxAGC_D_Nss3Index7_Nss3Index4_JAguar	0x1ae4
++#define		rTxAGC_D_Nss3Index9_Nss3Index8_JAguar	0x1ae8
++#endif
++
++#define		bTxAGC_byte0_Jaguar	0xff
++#define		bTxAGC_byte1_Jaguar	0xff00
++#define		bTxAGC_byte2_Jaguar	0xff0000
++#define		bTxAGC_byte3_Jaguar	0xff000000
++#endif
++
++#define	BIT_FA_RESET					BIT0
++
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_regdefine11ac.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_regdefine11ac.h
+new file mode 100644
+index 0000000..4f2a99c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_regdefine11ac.h
+@@ -0,0 +1,90 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__ODM_REGDEFINE11AC_H__
++#define __ODM_REGDEFINE11AC_H__
++
++//2 RF REG LIST
++
++
++
++//2 BB REG LIST
++//PAGE 8
++#define	ODM_REG_CCK_RPT_FORMAT_11AC	0x804
++#define	ODM_REG_BB_RX_PATH_11AC			0x808
++#define	ODM_REG_BB_TX_PATH_11AC			0x80c
++#define	ODM_REG_BB_ATC_11AC				0x860
++#define	ODM_REG_EDCCA_POWER_CAL		0x8dc
++#define	ODM_REG_DBG_RPT_11AC			0x8fc
++//PAGE 9
++#define	ODM_REG_EDCCA_DOWN_OPT			0x900
++#define	ODM_REG_ACBB_EDCCA_ENHANCE		0x944
++#define	ODM_ADC_TRIGGER_Jaguar2			0x95C	/*ADC sample mode*/
++#define	ODM_REG_OFDM_FA_RST_11AC		0x9A4
++#define	ODM_REG_CCX_PERIOD_11AC			0x990
++#define	ODM_REG_NHM_TH9_TH10_11AC		0x994
++#define	ODM_REG_CLM_11AC					0x994
++#define	ODM_REG_NHM_TH3_TO_TH0_11AC	0x998
++#define	ODM_REG_NHM_TH7_TO_TH4_11AC	0x99c
++#define	ODM_REG_NHM_TH8_11AC			0x9a0
++#define	ODM_REG_NHM_9E8_11AC			0x9e8
++#define	ODM_REG_CSI_CONTENT_VALUE		0x9b4
++//PAGE A
++#define	ODM_REG_CCK_CCA_11AC			0xA0A
++#define	ODM_REG_CCK_FA_RST_11AC			0xA2C
++#define	ODM_REG_CCK_FA_11AC				0xA5C
++//PAGE B
++#define	ODM_REG_RST_RPT_11AC				0xB58
++//PAGE C
++#define	ODM_REG_TRMUX_11AC				0xC08
++#define	ODM_REG_IGI_A_11AC				0xC50
++//PAGE E
++#define	ODM_REG_IGI_B_11AC				0xE50
++#define	ODM_REG_TRMUX_11AC_B			0xE08
++//PAGE F
++#define	ODM_REG_CCK_CCA_CNT_11AC		0xF08
++#define	ODM_REG_OFDM_FA_11AC			0xF48
++#define	ODM_REG_RPT_11AC					0xfa0
++#define	ODM_REG_CLM_RESULT_11AC			0xfa4
++#define	ODM_REG_NHM_CNT_11AC			0xfa8
++#define ODM_REG_NHM_DUR_READY_11AC      0xfb4
++
++#define	ODM_REG_NHM_CNT7_TO_CNT4_11AC   0xfac
++#define	ODM_REG_NHM_CNT11_TO_CNT8_11AC  0xfb0
++#define	ODM_REG_OFDM_FA_TYPE2_11AC		0xFD0
++//PAGE 18
++#define	ODM_REG_IGI_C_11AC				0x1850
++//PAGE 1A
++#define	ODM_REG_IGI_D_11AC				0x1A50
++
++//2 MAC REG LIST
++#define	ODM_REG_RESP_TX_11AC				0x6D8
++
++
++
++//DIG Related
++#define	ODM_BIT_IGI_11AC					0xFFFFFFFF
++#define	ODM_BIT_CCK_RPT_FORMAT_11AC		BIT16
++#define	ODM_BIT_BB_RX_PATH_11AC			0xF
++#define	ODM_BIT_BB_TX_PATH_11AC			0xF
++#define	ODM_BIT_BB_ATC_11AC				BIT14
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_regdefine11n.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_regdefine11n.h
+new file mode 100644
+index 0000000..b57c5c4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_regdefine11n.h
+@@ -0,0 +1,207 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__ODM_REGDEFINE11N_H__
++#define __ODM_REGDEFINE11N_H__
++
++
++//2 RF REG LIST
++#define	ODM_REG_RF_MODE_11N				0x00
++#define	ODM_REG_RF_0B_11N				0x0B
++#define	ODM_REG_CHNBW_11N				0x18
++#define	ODM_REG_T_METER_11N				0x24
++#define	ODM_REG_RF_25_11N				0x25
++#define	ODM_REG_RF_26_11N				0x26
++#define	ODM_REG_RF_27_11N				0x27
++#define	ODM_REG_RF_2B_11N				0x2B
++#define	ODM_REG_RF_2C_11N				0x2C
++#define	ODM_REG_RXRF_A3_11N				0x3C
++#define	ODM_REG_T_METER_92D_11N			0x42
++#define	ODM_REG_T_METER_88E_11N			0x42
++
++
++
++//2 BB REG LIST
++//PAGE 8
++#define	ODM_REG_BB_CTRL_11N				0x800
++#define	ODM_REG_RF_PIN_11N				0x804
++#define	ODM_REG_PSD_CTRL_11N				0x808
++#define	ODM_REG_TX_ANT_CTRL_11N			0x80C
++#define	ODM_REG_BB_PWR_SAV5_11N			0x818
++#define	ODM_REG_CCK_RPT_FORMAT_11N		0x824
++#define	ODM_REG_CCK_RPT_FORMAT_11N_B	0x82C
++#define	ODM_REG_RX_DEFUALT_A_11N		0x858
++#define	ODM_REG_RX_DEFUALT_B_11N		0x85A
++#define	ODM_REG_BB_PWR_SAV3_11N			0x85C
++#define	ODM_REG_ANTSEL_CTRL_11N			0x860
++#define	ODM_REG_RX_ANT_CTRL_11N			0x864
++#define	ODM_REG_PIN_CTRL_11N				0x870
++#define	ODM_REG_BB_PWR_SAV1_11N			0x874
++#define	ODM_REG_ANTSEL_PATH_11N			0x878
++#define	ODM_REG_BB_3WIRE_11N			0x88C
++#define	ODM_REG_SC_CNT_11N				0x8C4
++#define	ODM_REG_PSD_DATA_11N				0x8B4
++#define	ODM_REG_CCX_PERIOD_11N			0x894
++#define	ODM_REG_NHM_TH9_TH10_11N		0x890
++#define	ODM_REG_CLM_11N					0x890
++#define	ODM_REG_NHM_TH3_TO_TH0_11N		0x898
++#define	ODM_REG_NHM_TH7_TO_TH4_11N		0x89c
++#define ODM_REG_NHM_TH8_11N				0xe28
++#define	ODM_REG_CLM_READY_11N			0x8b4
++#define	ODM_REG_CLM_RESULT_11N			0x8d0
++#define	ODM_REG_NHM_CNT_11N				0x8d8
++
++// For ACS, Jeffery, 2014-12-26
++#define	ODM_REG_NHM_CNT7_TO_CNT4_11N    		0x8dc
++#define	ODM_REG_NHM_CNT9_TO_CNT8_11N    		0x8d0
++#define	ODM_REG_NHM_CNT10_TO_CNT11_11N           	0x8d4
++
++//PAGE 9
++#define	ODM_REG_BB_CTRL_PAGE9_11N		0x900
++#define	ODM_REG_DBG_RPT_11N				0x908
++#define	ODM_REG_BB_TX_PATH_11N			0x90c
++#define	ODM_REG_ANT_MAPPING1_11N		0x914
++#define	ODM_REG_ANT_MAPPING2_11N		0x918
++#define	ODM_REG_EDCCA_DOWN_OPT_11N	0x948
++#define	ODM_REG_RX_DFIR_MOD_97F			0x948
++
++//PAGE A
++#define	ODM_REG_CCK_ANTDIV_PARA1_11N	0xA00
++#define	ODM_REG_CCK_ANT_SEL_11N			0xA04
++#define	ODM_REG_CCK_CCA_11N				0xA0A
++#define	ODM_REG_CCK_ANTDIV_PARA2_11N	0xA0C
++#define	ODM_REG_CCK_ANTDIV_PARA3_11N	0xA10
++#define	ODM_REG_CCK_ANTDIV_PARA4_11N	0xA14
++#define	ODM_REG_CCK_FILTER_PARA1_11N	0xA22
++#define	ODM_REG_CCK_FILTER_PARA2_11N	0xA23
++#define	ODM_REG_CCK_FILTER_PARA3_11N	0xA24
++#define	ODM_REG_CCK_FILTER_PARA4_11N	0xA25
++#define	ODM_REG_CCK_FILTER_PARA5_11N	0xA26
++#define	ODM_REG_CCK_FILTER_PARA6_11N	0xA27
++#define	ODM_REG_CCK_FILTER_PARA7_11N	0xA28
++#define	ODM_REG_CCK_FILTER_PARA8_11N	0xA29
++#define	ODM_REG_CCK_FA_RST_11N			0xA2C
++#define	ODM_REG_CCK_FA_MSB_11N			0xA58
++#define	ODM_REG_CCK_FA_LSB_11N			0xA5C
++#define	ODM_REG_CCK_CCA_CNT_11N			0xA60
++#define	ODM_REG_BB_PWR_SAV4_11N			0xA74
++//PAGE B
++#define	ODM_REG_LNA_SWITCH_11N			0xB2C
++#define	ODM_REG_PATH_SWITCH_11N			0xB30
++#define	ODM_REG_RSSI_CTRL_11N			0xB38
++#define	ODM_REG_CONFIG_ANTA_11N			0xB68
++#define	ODM_REG_RSSI_BT_11N				0xB9C
++#define	ODM_REG_RXCK_RFMOD				0xBB0
++#define	ODM_REG_EDCCA_DCNF_97F			0xBC0
++
++//PAGE C
++#define	ODM_REG_OFDM_FA_HOLDC_11N		0xC00
++#define	ODM_REG_BB_RX_PATH_11N			0xC04
++#define	ODM_REG_TRMUX_11N				0xC08
++#define	ODM_REG_OFDM_FA_RSTC_11N		0xC0C
++#define	ODM_REG_DOWNSAM_FACTOR_11N	0xC10
++#define	ODM_REG_RXIQI_MATRIX_11N		0xC14
++#define	ODM_REG_TXIQK_MATRIX_LSB1_11N	0xC4C
++#define	ODM_REG_IGI_A_11N				0xC50
++#define	ODM_REG_ANTDIV_PARA2_11N		0xC54
++#define	ODM_REG_IGI_B_11N					0xC58
++#define	ODM_REG_ANTDIV_PARA3_11N		0xC5C
++#define   ODM_REG_L1SBD_PD_CH_11N			0XC6C
++#define	ODM_REG_BB_PWR_SAV2_11N		0xC70
++#define	ODM_REG_BB_AGC_SET_2_11N		0xc74
++#define	ODM_REG_RX_OFF_11N				0xC7C
++#define	ODM_REG_TXIQK_MATRIXA_11N		0xC80
++#define	ODM_REG_TXIQK_MATRIXB_11N		0xC88
++#define	ODM_REG_TXIQK_MATRIXA_LSB2_11N	0xC94
++#define	ODM_REG_TXIQK_MATRIXB_LSB2_11N	0xC9C
++#define	ODM_REG_RXIQK_MATRIX_LSB_11N	0xCA0
++#define	ODM_REG_ANTDIV_PARA1_11N		0xCA4
++#define	ODM_REG_SMALL_BANDWIDTH_11N	0xCE4
++#define	ODM_REG_OFDM_FA_TYPE1_11N		0xCF0
++//PAGE D
++#define	ODM_REG_OFDM_FA_RSTD_11N		0xD00
++#define	ODM_REG_BB_RX_ANT_11N			0xD04
++#define	ODM_REG_BB_ATC_11N				0xD2C
++#define	ODM_REG_OFDM_FA_TYPE2_11N		0xDA0
++#define	ODM_REG_OFDM_FA_TYPE3_11N		0xDA4
++#define	ODM_REG_OFDM_FA_TYPE4_11N		0xDA8
++#define	ODM_REG_RPT_11N					0xDF4
++//PAGE E
++#define	ODM_REG_TXAGC_A_6_18_11N		0xE00
++#define	ODM_REG_TXAGC_A_24_54_11N		0xE04
++#define	ODM_REG_TXAGC_A_1_MCS32_11N	0xE08
++#define	ODM_REG_TXAGC_A_MCS0_3_11N		0xE10
++#define	ODM_REG_TXAGC_A_MCS4_7_11N		0xE14
++#define	ODM_REG_TXAGC_A_MCS8_11_11N	0xE18
++#define	ODM_REG_TXAGC_A_MCS12_15_11N	0xE1C
++#define	ODM_REG_EDCCA_DCNF_11N			0xE24
++#define	ODM_REG_TAP_UPD_97F				0xE24
++#define	ODM_REG_FPGA0_IQK_11N			0xE28
++#define	ODM_REG_PAGE_B1_97F				0xE28
++#define	ODM_REG_TXIQK_TONE_A_11N		0xE30
++#define	ODM_REG_RXIQK_TONE_A_11N		0xE34
++#define	ODM_REG_TXIQK_PI_A_11N			0xE38
++#define	ODM_REG_RXIQK_PI_A_11N			0xE3C
++#define	ODM_REG_TXIQK_11N				0xE40
++#define	ODM_REG_RXIQK_11N				0xE44
++#define	ODM_REG_IQK_AGC_PTS_11N			0xE48
++#define	ODM_REG_IQK_AGC_RSP_11N			0xE4C
++#define	ODM_REG_BLUETOOTH_11N			0xE6C
++#define	ODM_REG_RX_WAIT_CCA_11N			0xE70
++#define	ODM_REG_TX_CCK_RFON_11N			0xE74
++#define	ODM_REG_TX_CCK_BBON_11N			0xE78
++#define	ODM_REG_OFDM_RFON_11N			0xE7C
++#define	ODM_REG_OFDM_BBON_11N			0xE80
++#define 	ODM_REG_TX2RX_11N				0xE84
++#define	ODM_REG_TX2TX_11N				0xE88
++#define	ODM_REG_RX_CCK_11N				0xE8C
++#define	ODM_REG_RX_OFDM_11N				0xED0
++#define	ODM_REG_RX_WAIT_RIFS_11N		0xED4
++#define	ODM_REG_RX2RX_11N				0xED8
++#define	ODM_REG_STANDBY_11N				0xEDC
++#define	ODM_REG_SLEEP_11N				0xEE0
++#define	ODM_REG_PMPD_ANAEN_11N			0xEEC
++#define	ODM_REG_IGI_C_11N					0xF84
++#define	ODM_REG_IGI_D_11N					0xF88
++
++//2 MAC REG LIST
++#define	ODM_REG_BB_RST_11N				0x02
++#define	ODM_REG_ANTSEL_PIN_11N			0x4C
++#define	ODM_REG_EARLY_MODE_11N			0x4D0
++#define	ODM_REG_RSSI_MONITOR_11N		0x4FE
++#define	ODM_REG_EDCA_VO_11N				0x500
++#define	ODM_REG_EDCA_VI_11N				0x504
++#define	ODM_REG_EDCA_BE_11N				0x508
++#define	ODM_REG_EDCA_BK_11N				0x50C
++#define	ODM_REG_TXPAUSE_11N				0x522
++#define	ODM_REG_RESP_TX_11N				0x6D8
++#define	ODM_REG_ANT_TRAIN_PARA1_11N	0x7b0
++#define	ODM_REG_ANT_TRAIN_PARA2_11N	0x7b4
++
++
++//DIG Related
++#define	ODM_BIT_IGI_11N					0x0000007F
++#define	ODM_BIT_CCK_RPT_FORMAT_11N		BIT9
++#define	ODM_BIT_BB_RX_PATH_11N			0xF
++#define	ODM_BIT_BB_TX_PATH_11N			0xF
++#define	ODM_BIT_BB_ATC_11N				BIT11
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/phydm_types.h b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_types.h
+new file mode 100644
+index 0000000..a5382fb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/phydm_types.h
+@@ -0,0 +1,261 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __ODM_TYPES_H__
++#define __ODM_TYPES_H__
++
++
++/*Define Different SW team support*/
++#define	ODM_AP			0x01	/*BIT0*/
++#define	ODM_CE			0x04	/*BIT2*/
++#define	ODM_WIN		0x08	/*BIT3*/
++#define	ODM_ADSL		0x10	/*BIT4*/
++#define	ODM_IOT		0x20	/*BIT5*/
++
++/*Deifne HW endian support*/
++#define	ODM_ENDIAN_BIG	0
++#define	ODM_ENDIAN_LITTLE	1
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#define GET_PDM_ODM(__pAdapter)	((PDM_ODM_T)(&((GET_HAL_DATA(__pAdapter))->DM_OutSrc)))
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++#define GET_PDM_ODM(__pAdapter)	((PDM_ODM_T)(&((GET_HAL_DATA(__pAdapter))->odmpriv)))
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE != ODM_WIN)
++#define 	RT_PCI_INTERFACE				1
++#define 	RT_USB_INTERFACE				2
++#define 	RT_SDIO_INTERFACE				3
++#endif
++
++typedef enum _HAL_STATUS{
++	HAL_STATUS_SUCCESS,
++	HAL_STATUS_FAILURE,
++	/*RT_STATUS_PENDING,
++	RT_STATUS_RESOURCE,
++	RT_STATUS_INVALID_CONTEXT,
++	RT_STATUS_INVALID_PARAMETER,
++	RT_STATUS_NOT_SUPPORT,
++	RT_STATUS_OS_API_FAILED,*/
++}HAL_STATUS,*PHAL_STATUS;
++
++#if( DM_ODM_SUPPORT_TYPE == ODM_AP)
++#define		MP_DRIVER		0
++#endif
++#if(DM_ODM_SUPPORT_TYPE != ODM_WIN)
++
++#define		VISTA_USB_RX_REVISE			0
++
++//
++// Declare for ODM spin lock defintion temporarily fro compile pass.
++//
++typedef enum _RT_SPINLOCK_TYPE{
++	RT_TX_SPINLOCK = 1,
++	RT_RX_SPINLOCK = 2,
++	RT_RM_SPINLOCK = 3,
++	RT_CAM_SPINLOCK = 4,
++	RT_SCAN_SPINLOCK = 5,
++	RT_LOG_SPINLOCK = 7, 
++	RT_BW_SPINLOCK = 8,
++	RT_CHNLOP_SPINLOCK = 9,
++	RT_RF_OPERATE_SPINLOCK = 10,
++	RT_INITIAL_SPINLOCK = 11,
++	RT_RF_STATE_SPINLOCK = 12, // For RF state. Added by Bruce, 2007-10-30.
++#if VISTA_USB_RX_REVISE
++	RT_USBRX_CONTEXT_SPINLOCK = 13,
++	RT_USBRX_POSTPROC_SPINLOCK = 14, // protect data of Adapter->IndicateW/ IndicateR
++#endif
++	//Shall we define Ndis 6.2 SpinLock Here ?
++	RT_PORT_SPINLOCK=16,
++	RT_VNIC_SPINLOCK=17,
++	RT_HVL_SPINLOCK=18,	
++	RT_H2C_SPINLOCK = 20, // For H2C cmd. Added by tynli. 2009.11.09.
++
++	RT_BTData_SPINLOCK=25,
++
++	RT_WAPI_OPTION_SPINLOCK=26,
++	RT_WAPI_RX_SPINLOCK=27,
++
++      // add for 92D CCK control issue  
++	RT_CCK_PAGEA_SPINLOCK = 28,
++	RT_BUFFER_SPINLOCK = 29,
++	RT_CHANNEL_AND_BANDWIDTH_SPINLOCK = 30,
++	RT_GEN_TEMP_BUF_SPINLOCK = 31,
++	RT_AWB_SPINLOCK = 32,
++	RT_FW_PS_SPINLOCK = 33,
++	RT_HW_TIMER_SPIN_LOCK = 34,
++	RT_MPT_WI_SPINLOCK = 35,
++	RT_P2P_SPIN_LOCK = 36,	// Protect P2P context
++	RT_DBG_SPIN_LOCK = 37,
++	RT_IQK_SPINLOCK = 38,
++	RT_PENDED_OID_SPINLOCK = 39,
++	RT_CHNLLIST_SPINLOCK = 40,	
++	RT_INDIC_SPINLOCK = 41,	//protect indication	
++	RT_RFD_SPINLOCK = 42,
++	RT_SYNC_IO_CNT_SPINLOCK = 43,
++	RT_LAST_SPINLOCK,
++}RT_SPINLOCK_TYPE;
++
++#endif
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#define	STA_INFO_T			RT_WLAN_STA
++	#define	PSTA_INFO_T			PRT_WLAN_STA
++	#define	__func__		__FUNCTION__
++	#define	PHYDM_TESTCHIP_SUPPORT	TESTCHIP_SUPPORT
++	#define bMaskH3Bytes			0xffffff00
++	#define SUCCESS	0
++	#define FAIL	(-1)
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++	// To let ADSL/AP project compile ok; it should be removed after all conflict are solved. Added by Annie, 2011-10-07.
++	#define ADSL_AP_BUILD_WORKAROUND
++	#define AP_BUILD_WORKAROUND
++	
++	#ifdef AP_BUILD_WORKAROUND
++	#include "../typedef.h"
++	#else
++	typedef void					VOID,*PVOID;
++	typedef unsigned char			BOOLEAN,*PBOOLEAN;
++	typedef unsigned char			u1Byte,*pu1Byte;
++	typedef unsigned short			u2Byte,*pu2Byte;
++	typedef unsigned int			u4Byte,*pu4Byte;
++	typedef unsigned long long		u8Byte,*pu8Byte;
++#if 1
++/* In ARM platform, system would use the type -- "char" as "unsigned char"
++ * And we only use s1Byte/ps1Byte as INT8 now, so changes the type of s1Byte.*/
++    typedef signed char				s1Byte,*ps1Byte;
++#else
++	typedef char					s1Byte,*ps1Byte;
++#endif
++	typedef short					s2Byte,*ps2Byte;
++	typedef long					s4Byte,*ps4Byte;
++	typedef long long				s8Byte,*ps8Byte;
++	#endif
++
++	typedef struct rtl8192cd_priv	*prtl8192cd_priv;
++	typedef struct stat_info		STA_INFO_T,*PSTA_INFO_T;
++	typedef struct timer_list		RT_TIMER, *PRT_TIMER;
++	typedef  void *				RT_TIMER_CALL_BACK;
++
++#ifdef CONFIG_PCI_HCI
++	#define DEV_BUS_TYPE		RT_PCI_INTERFACE
++#endif
++
++	#define _TRUE				1
++	#define _FALSE				0
++
++	#if (defined(TESTCHIP_SUPPORT))
++		#define	PHYDM_TESTCHIP_SUPPORT 1
++	#else
++		#define	PHYDM_TESTCHIP_SUPPORT 0
++	#endif
++	
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#include <drv_types.h>
++#if 0
++	typedef u8					u1Byte, *pu1Byte;
++	typedef u16					u2Byte,*pu2Byte;
++	typedef u32					u4Byte,*pu4Byte;
++	typedef u64					u8Byte,*pu8Byte;
++	typedef s8					s1Byte,*ps1Byte;
++	typedef s16					s2Byte,*ps2Byte;
++	typedef s32					s4Byte,*ps4Byte;
++	typedef s64					s8Byte,*ps8Byte;
++#else
++	#define u1Byte 		u8
++	#define	pu1Byte 	u8*	
++
++	#define u2Byte 		u16
++	#define	pu2Byte 	u16*		
++
++	#define u4Byte 		u32
++	#define	pu4Byte 	u32*	
++
++	#define u8Byte 		u64
++	#define	pu8Byte 	u64*
++
++	#define s1Byte 		s8
++	#define	ps1Byte 	s8*	
++
++	#define s2Byte 		s16
++	#define	ps2Byte 	s16*	
++
++	#define s4Byte 		s32
++	#define	ps4Byte 	s32*	
++
++	#define s8Byte 		s64
++	#define	ps8Byte 	s64*	
++	
++#endif
++	#ifdef CONFIG_USB_HCI
++		#define DEV_BUS_TYPE  	RT_USB_INTERFACE
++	#elif defined(CONFIG_PCI_HCI)
++		#define DEV_BUS_TYPE  	RT_PCI_INTERFACE
++	#elif defined(CONFIG_SDIO_HCI)
++		#define DEV_BUS_TYPE  	RT_SDIO_INTERFACE
++	#elif defined(CONFIG_GSPI_HCI)
++		#define DEV_BUS_TYPE  	RT_SDIO_INTERFACE
++	#endif
++	
++
++	#if defined(CONFIG_LITTLE_ENDIAN)	
++		#define	ODM_ENDIAN_TYPE			ODM_ENDIAN_LITTLE
++	#elif defined (CONFIG_BIG_ENDIAN)
++		#define	ODM_ENDIAN_TYPE			ODM_ENDIAN_BIG
++	#endif
++	
++	typedef struct timer_list		RT_TIMER, *PRT_TIMER;
++	typedef  void *				RT_TIMER_CALL_BACK;
++	#define	STA_INFO_T			struct sta_info
++	#define	PSTA_INFO_T		struct sta_info *
++		
++
++
++	#define TRUE 	_TRUE	
++	#define FALSE	_FALSE
++
++
++	#define SET_TX_DESC_ANTSEL_A_88E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 24, 1, __Value)
++	#define SET_TX_DESC_ANTSEL_B_88E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 25, 1, __Value)
++	#define SET_TX_DESC_ANTSEL_C_88E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 29, 1, __Value)
++
++	//define useless flag to avoid compile warning
++	#define	USE_WORKITEM 0
++	#define	FOR_BRAZIL_PRETEST 0
++	#define	FPGA_TWO_MAC_VERIFICATION	0
++	#define	RTL8881A_SUPPORT	0
++
++	#if (defined(TESTCHIP_SUPPORT))
++		#define	PHYDM_TESTCHIP_SUPPORT 1
++	#else
++		#define	PHYDM_TESTCHIP_SUPPORT 0
++	#endif
++#endif
++
++#define READ_NEXT_PAIR(v1, v2, i) do { if (i+2 >= ArrayLen) break; i += 2; v1 = Array[i]; v2 = Array[i+1]; } while(0)
++#define COND_ELSE  2
++#define COND_ENDIF 3
++
++#include "phydm_features.h"
++
++#endif // __ODM_TYPES_H__
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/rtchnlplan.c b/drivers/net/wireless/rtl8723du/hal/phydm/rtchnlplan.c
+new file mode 100644
+index 0000000..4b41ff1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/rtchnlplan.c
+@@ -0,0 +1,481 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++/******************************************************************************
++     
++ History:
++	Data		Who		Remark (Internal History)
++	
++	05/14/2012	MH		Collect RTK inernal infromation and generate channel plan draft.
++	
++******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++#include "rtchnlplan.h"
++
++
++
++//
++//	Channel Plan Domain Code
++//
++
++/*
++	Channel Plan Contents					
++	Domain Code		EEPROM	Countries in Specific Domain		
++			2G RD		5G RD		Bit[6:0]	2G	5G	
++	Case	Old Define				00h~1Fh	Old Define	Old Define	
++	1		2G_WORLD	5G_NULL		20h		Worldwird 13	NA	
++	2		2G_ETSI1	5G_NULL		21h		Europe 2G		NA	
++	3		2G_FCC1		5G_NULL		22h		US 2G			NA	
++	4		2G_MKK1		5G_NULL		23h		Japan 2G		NA	
++	5		2G_ETSI2	5G_NULL		24h		France 2G		NA	
++	6		2G_FCC1		5G_FCC1		25h		US 2G			US 5G					¤K¤j°ê»{ÃÒ
++	7		2G_WORLD	5G_ETSI1	26h		Worldwird 13	Europe					¤K¤j°ê»{ÃÒ
++	8		2G_MKK1		5G_MKK1		27h		Japan 2G		Japan 5G				¤K¤j°ê»{ÃÒ
++	9		2G_WORLD	5G_KCC1		28h		Worldwird 13	Korea					¤K¤j°ê»{ÃÒ
++	10		2G_WORLD	5G_FCC2		29h		Worldwird 13	US o/w DFS Channels		
++	11		2G_WORLD	5G_FCC3		30h		Worldwird 13	India, Mexico	    	
++	12		2G_WORLD	5G_FCC4		31h		Worldwird 13	Venezuela	        	
++	13		2G_WORLD	5G_FCC5		32h		Worldwird 13	China	            	
++	14		2G_WORLD	5G_FCC6		33h		Worldwird 13	Israel	            	
++	15		2G_FCC1		5G_FCC7		34h		US 2G			US/Canada				¤K¤j°ê»{ÃÒ
++	16		2G_WORLD	5G_ETSI2	35h		Worldwird 13	Australia, New Zealand	¤K¤j°ê»{ÃÒ
++	17		2G_WORLD	5G_ETSI3	36h		Worldwird 13	Russia	
++	18		2G_MKK1		5G_MKK2		37h		Japan 2G		Japan (W52, W53)	
++	19		2G_MKK1		5G_MKK3		38h		Japan 2G		Japan (W56)	
++	20		2G_FCC1		5G_NCC1		39h		US 2G			Taiwan					¤K¤j°ê»{ÃÒ
++						
++	NA		2G_WORLD	5G_FCC1		7F		FCC	FCC DFS Channels	Realtek Define
++						
++						
++						
++						
++						
++	2.4G 	Regulatory 	Domains					
++	Case	2G RD		Regulation	Channels	Frequencyes		Note					Countries in Specific Domain
++	1		2G_WORLD	ETSI		1~13		2412~2472		Passive scan CH 12, 13	Worldwird 13
++	2		2G_ETSI1	ETSI		1~13		2412~2472								Europe
++	3		2G_FCC1		FCC			1~11		2412~2462								US
++	4		2G_MKK1		MKK			1~13, 14	2412~2472, 2484							Japan
++	5		2G_ETSI2	ETSI		10~13		2457~2472								France
++						
++						
++						
++						
++	5G Regulatory Domains					
++	Case	5G RD		Regulation	Channels			Frequencyes					Note											Countries in Specific Domain
++	1		5G_NULL		NA			NA					NA							Do not support 5GHz	
++	2		5G_ETSI1	ETSI		"36~48, 52~64,  	
++									100~140"			"5180~5240, 5260~5230
++														5500~5700"					Band1, Ban2, Band3								Europe
++	3		5G_ETSI2	ETSI		"36~48, 52~64, 
++									100~140, 149~165"	"5180~5240, 5260~5230
++														5500~5700, 5745~5825"		Band1, Ban2, Band3, Band4						Australia, New Zealand
++	4		5G_ETSI3	ETSI		"36~48, 52~64, 
++														100~132, 149~165"	
++														"5180~5240, 5260~5230
++														5500~5660, 5745~5825"		Band1, Ban2, Band3(except CH 136, 140), Band4"	Russia
++	5		5G_FCC1		FCC			"36~48, 52~64, 
++									100~140, 149~165"	
++														"5180~5240, 5260~5230
++														5500~5700, 5745~5825"		Band1(5150~5250MHz), 
++																					Band2(5250~5350MHz),
++																					Band3(5470~5725MHz),
++																					Band4(5725~5850MHz)"							US
++	6		5G_FCC2		FCC			36~48, 149~165		5180~5240, 5745~5825		Band1, Band4	FCC o/w DFS Channels
++	7		5G_FCC3		FCC			"36~48, 52~64, 
++									149~165"			"5180~5240, 5260~5230
++														5745~5825"					Band1, Ban2, Band4								India, Mexico
++	8		5G_FCC4		FCC			"36~48, 52~64, 
++									149~161"			"5180~5240, 5260~5230
++														5745~5805"					Band1, Ban2,
++																					Band4(except CH 165)"							Venezuela
++	9		5G_FCC5		FCC			149~165				5745~5825					Band4											China
++	10		5G_FCC6		FCC			36~48, 52~64		5180~5240, 5260~5230		Band1, Band2									Israel
++	11		5G_FCC7
++			5G_IC1		FCC
++						IC"			"36~48, 52~64, 
++									100~116, 136, 140, 
++									149~165"			"5180~5240, 5260~5230
++														5500~5580, 5680, 5700, 
++														5745~5825"					"Band1, Band2, 
++																					Band3(except 5600~5650MHz),
++																					Band4"											"US
++																																	Canada"
++	12		5G_KCC1		KCC			"36~48, 52~64, 
++									100~124, 149~165"	"5180~5240, 5260~5230
++														5500~5620, 5745~5825"		"Band1, Ban2, 
++																					Band3(5470~5650MHz),
++																					Band4"											Korea
++	13		5G_MKK1		MKK			"36~48, 52~64, 
++									100~140"			"5180~5240, 5260~5230
++														5500~5700"					W52, W53, W56									Japan
++	14		5G_MKK2		MKK			36~48, 52~64		5180~5240, 5260~5230		W52, W53										Japan (W52, W53)
++	15		5G_MKK3		MKK			100~140				5500~5700					W56	Japan (W56)
++	16		5G_NCC1		NCC			"56~64,
++									100~116, 136, 140,
++									149~165"			"5260~5320
++														5500~5580, 5680, 5700, 
++														5745~5825"					"Band2(except CH 52), 
++																					Band3(except 5600~5650MHz),
++																					Band4"											Taiwan
++						
++						
++*/						
++						
++//
++// 2.4G CHannel 
++//						
++/*
++
++	2.4G Band		Regulatory Domains																RTL8192D	
++	Channel Number	Channel Frequency	US		Canada	Europe	Spain	France	Japan	Japan		20M		40M
++					(MHz)				(FCC)	(IC)	(ETSI)							(MPHPT)				
++	1				2412				v		v		v								v			v		
++	2				2417				v		v		v								v			v		
++	3				2422				v		v		v								v			v		v
++	4				2427				v		v		v								v			v		v
++	5				2432				v		v		v								v			v		v
++	6				2437				v		v		v								v			v		v
++	7				2442				v		v		v								v			v		v
++	8				2447				v		v		v								v			v		v
++	9				2452				v		v		v								v			v		v
++	10				2457				v		v		v		v		v				v			v		v
++	11				2462				v		v		v		v		v				v			v		v
++	12				2467								v				v				v			v		v
++	13				2472								v				v				v			v	
++	14				2484														v					v	
++
++
++*/
++
++
++//
++// 5G Operating Channel
++//
++/*
++
++	5G Band		RTL8192D	RTL8195 (Jaguar)				Jaguar 2	Regulatory Domains											
++	Channel Number	Channel Frequency	Global	Global				Global	"US
++(FCC 15.407)"	"Canada
++(FCC, except 5.6~5.65GHz)"	Argentina, Australia, New Zealand, Brazil, S. Africa (FCC/ETSI)	"Europe
++(CE 301 893)"	China	India, Mexico, Singapore	Israel, Turkey	"Japan
++(MIC Item 19-3, 19-3-2)"	Korea	Russia, Ukraine	"Taiwan
++(NCC)"	Venezuela
++		(MHz)	(20MHz)	(20MHz)	(40MHz)	(80MHz)	(160MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)
++"Band 1
++5.15GHz
++~
++5.25GHz"	36	5180	v	v	v	v		v	Indoor	Indoor	v	Indoor		v	Indoor	Indoor	v	v		v
++	40	5200	v	v				v	Indoor	Indoor	v	Indoor		v	Indoor	Indoor	v	v		v
++	44	5220	v	v	v			v	Indoor	Indoor	v	Indoor		v	Indoor	Indoor	v	v		v
++	48	5240	v	v				v	Indoor	Indoor	v	Indoor		v	Indoor	Indoor	v	v		v
++"Band 2
++5.25GHz
++~
++5.35GHz
++(DFS)"	52	5260	v	v	v	v		v	v	v	v	Indoor		v	Indoor	Indoor	v	v		v
++	56	5280	v	v				v	v	v	v	Indoor		v	Indoor	Indoor	v	v	Indoor	v
++	60	5300	v	v	v			v	v	v	v	Indoor		v	Indoor	Indoor	v	v	Indoor	v
++	64	5320	v	v				v	v	v	v	Indoor		v	Indoor	Indoor	v	v	Indoor	v
++																				
++"Band 3
++5.47GHz
++~
++5.725GHz
++(DFS)"	100	5500	v	v	v	v		v	v	v	v	v				v	v	v	v	
++	104	5520	v	v				v	v	v	v	v				v	v	v	v	
++	108	5540	v	v	v			v	v	v	v	v				v	v	v	v	
++	112	5560	v	v				v	v	v	v	v				v	v	v	v	
++	116	5580	v	v	v	v		v	v	v	v	v				v	v	v	v	
++	120	5600	v	v				v	Indoor		v	Indoor				v	v	v		
++	124	5620	v	v	v			v	Indoor		v	Indoor				v	v	v		
++	128	5640	v	v				v	Indoor		v	Indoor				v		v		
++	132	5660	v	v	v	E		v	Indoor		v	Indoor				v		v		
++	136	5680	v	v				v	v	v	v	v				v			v	
++	140	5700	v	v	E			v	v	v	v	v				v			v	
++	144	5720	E	E				E												
++"Band 4
++5.725GHz
++~
++5.85GHz
++(~5.9GHz)"	149	5745	v	v	v	v		v	v	v	v		v	v			v	v	v	v
++	153	5765	v	v				v	v	v	v		v	v			v	v	v	v
++	157	5785	v	v	v			v	v	v	v		v	v			v	v	v	v
++	161	5805	v	v				v	v	v	v		v	v			v	v	v	v
++	165	5825	v	v	P	P		v	v	v	v		v	v			v	v	v	
++	169	5845	P	P				P												
++	173	5865	P	P	P			P												
++	177	5885	P	P				P												
++Channel Count			28	28	14	7	0	28	24	20	24	19	5	13	8	19	20	22	15	12
++			E: FCC accepted the ask for CH144 from Accord.					PS: 160MHz ¥Î 80MHz+80MHz¹ê²{¡H			Argentina	Belgium (¤ñ§Q®É)		India	Israel			Russia		
++			P: Customer's requirement from James.								Australia	The Netherlands (²üÄõ)		Mexico	Turkey			Ukraine		
++											New Zealand	UK (­^°ê)		Singapore						
++											Brazil	Switzerland (·ç¤h)								
++
++
++*/
++
++/*---------------------------Define Local Constant---------------------------*/
++
++
++// define Maximum Power v.s each band for each region 
++// ISRAEL
++// Format:
++// RT_CHANNEL_DOMAIN_Region ={{{Chnl_Start, Chnl_end, Pwr_dB_Max}, {Chn2_Start, Chn2_end, Pwr_dB_Max}, {Chn3_Start, Chn3_end, Pwr_dB_Max}, {Chn4_Start, Chn4_end, Pwr_dB_Max}, {Chn5_Start, Chn5_end, Pwr_dB_Max}}, Limit_Num} */
++// RT_CHANNEL_DOMAIN_FCC ={{{01,11,30}, {36,48,17}, {52,64,24}, {100,140,24}, {149,165,30}}, 5} 
++// "NR" is non-release channle.
++// Issue--- Israel--Russia--New Zealand
++// DOMAIN_01= (2G_WORLD, 5G_NULL)
++// DOMAIN_02= (2G_ETSI1, 5G_NULL)
++// DOMAIN_03= (2G_FCC1, 5G_NULL)
++// DOMAIN_04= (2G_MKK1, 5G_NULL)
++// DOMAIN_05= (2G_ETSI2, 5G_NULL)
++// DOMAIN_06= (2G_FCC1, 5G_FCC1)
++// DOMAIN_07= (2G_WORLD, 5G_ETSI1)
++// DOMAIN_08= (2G_MKK1, 5G_MKK1)
++// DOMAIN_09= (2G_WORLD, 5G_KCC1)
++// DOMAIN_10= (2G_WORLD, 5G_FCC2)
++// DOMAIN_11= (2G_WORLD, 5G_FCC3)----india
++// DOMAIN_12= (2G_WORLD, 5G_FCC4)----Venezuela
++// DOMAIN_13= (2G_WORLD, 5G_FCC5)----China
++// DOMAIN_14= (2G_WORLD, 5G_FCC6)----Israel
++// DOMAIN_15= (2G_FCC1, 5G_FCC7)-----Canada
++// DOMAIN_16= (2G_WORLD, 5G_ETSI2)---Australia
++// DOMAIN_17= (2G_WORLD, 5G_ETSI3)---Russia
++// DOMAIN_18= (2G_MKK1, 5G_MKK2)-----Japan
++// DOMAIN_19= (2G_MKK1, 5G_MKK3)-----Japan
++// DOMAIN_20= (2G_FCC1, 5G_NCC1)-----Taiwan
++// DOMAIN_21= (2G_FCC1, 5G_NCC1)-----Taiwan
++
++
++static	RT_CHANNEL_PLAN_MAXPWR	ChnlPlanPwrMax_2G[] = {
++
++	// 2G_WORLD, 
++	{{1, 13, 20}, 1},	
++
++	// 2G_ETSI1
++	{{1, 13, 20}, 1},
++
++	/* RT_CHANNEL_DOMAIN_ETSI */
++	{{{1, 11, 17}, {40, 56, 17}, {60, 128, 17}, {0, 0, 0}, {149, 165, 17}}, 4},
++
++	// RT_CHANNEL_DOMAIN_MKK
++	{{{1, 11, 17}, {0, 0, 0}, {0, 0, 0}, {0, 0, 0}, {0, 0, 0}}, 1},
++
++	// Add new channel plan mex power table.
++	// ......
++	};
++
++
++/*
++//===========================================1:(2G_WORLD, 5G_NULL)
++
++RT_CHANNEL_PLAN_MAXPWR	RT_DOMAIN_01 ={{{01,13,20}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}}, 1} 
++
++//===========================================2:(2G_ETSI1, 5G_NULL)
++
++RT_DOMAIN_02 ={{{01,13,20}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}}, 1}
++
++//===========================================3:(2G_FCC1, 5G_NULL)
++
++RT_DOMAIN_03 ={{{01,11,30}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}}, 1}
++
++//===========================================4:(2G_MKK1, 5G_NULL)
++
++RT_DOMAIN_04 ={{{01,14,23}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}}, 1}
++
++//===========================================5:(2G_ETSI2, 5G_NULL)
++
++RT_DOMAIN_05 ={{{10,13,20}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}}, 1}
++
++//===========================================6:(2G_FCC1, 5G_FCC1)
++
++RT_DOMAIN_06 ={{{01,13,30}, {36,48,17}, {52,64,24}, {100,140,24}, {149,165,30}}, 5}
++
++//===========================================7:(2G_WORLD, 5G_ETSI1)
++
++RT_DOMAIN_07 ={{{01,13,20}, {36,48,23}, {52,64,23}, {100,140,30}, {NR,NR,0}}, 4}
++
++//===========================================8:(2G_MKK1, 5G_MKK1)
++
++RT_DOMAIN_08 ={{{01,14,23}, {36,48,23}, {52,64,23}, {100,140,23}, {NR,NR,0}}, 4}
++
++//===========================================9:(2G_WORLD, 5G_KCC1)
++
++RT_DOMAIN_09 ={{{01,13,20}, {36,48,17}, {52,64,23}, {100,124,23}, {149,165,23}}, 5}
++
++//===========================================10:(2G_WORLD, 5G_FCC2)
++
++RT_DOMAIN_10 ={{{01,13,20}, {36,48,17}, {NR,NR,0}, {NR,NR,0}, {149,165,30}}, 3}
++
++//===========================================11:(2G_WORLD, 5G_FCC3)
++RT_DOMAIN_11 ={{{01,13,20}, {36,48,23}, {52,64,23}, {NR,NR,0}, {149,165,23}}, 4}
++
++//===========================================12:(2G_WORLD, 5G_FCC4)
++RT_DOMAIN_12 ={{{01,13,20}, {36,48,24}, {52,64,24}, {NR,NR,0}, {149,161,27}}, 4}
++
++//===========================================13:(2G_WORLD, 5G_FCC5)
++RT_DOMAIN_13 ={{{01,13,20}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}, {149,165,27}}, 2}
++
++//===========================================14:(2G_WORLD, 5G_FCC6)
++RT_DOMAIN_14 ={{{01,13,20}, {36,48,17}, {52,64,17}, {NR,NR,0}, {NR,NR,0}}, 3}
++
++//===========================================15:(2G_FCC1, 5G_FCC7)
++RT_DOMAIN_15 ={{{01,11,30}, {36,48,23}, {52,64,24}, {100,140,24}, {149,165,30}}, 5}
++
++//===========================================16:(2G_WORLD, 5G_ETSI2)
++RT_DOMAIN_16 ={{{01,13,20}, {36,48,23}, {52,64,23}, {100,140,30}, {149,165,30}}, 5}
++
++//===========================================17:(2G_WORLD, 5G_ETSI3)
++RT_DOMAIN_17 ={{{01,13,20}, {36,48,23}, {52,64,23}, {100,132,30}, {149,165,20}}, 5}
++
++//===========================================18:(2G_MKK1, 5G_MKK2)
++RT_DOMAIN_18 ={{{01,14,23}, {36,48,23}, {52,64,23}, {NR,NR,0}, {NR,NR,0}}, 3}
++
++//===========================================19:(2G_MKK1, 5G_MKK3)
++RT_DOMAIN_19 ={{{01,14,23}, {NR,NR,0}, {NR,NR,0}, {100,140,23}, {NR,NR,0}}, 2}
++
++//===========================================20:(2G_FCC1, 5G_NCC1)
++RT_DOMAIN_20 ={{{01,11,30}, {NR,NR,0}, {56,64,23}, {100,140,24}, {149,165,30}}, 4}
++
++//===========================================21:(2G_FCC1, 5G_NCC2)
++RT_DOMAIN_21 ={{{01,11,30}, {NR,NR,0}, {56,64,23}, {NR,NR,0}, {149,165,30}}, 3}
++
++//===========================================22:(2G_WORLD, 5G_FCC3)
++RT_DOMAIN_22 ={{{01,13,24}, {36,48,20}, {52,64,24}, {NR,NR,0}, {149,165,30}}, 4}
++
++//===========================================23:(2G_WORLD, 5G_ETSI2)
++RT_DOMAIN_23 ={{{01,13,20}, {36,48,23}, {52,64,23}, {100,140,30}, {149,165,30}}, 5}
++
++*/
++
++//
++// Counter & Realtek Channel plan transfer table.
++//
++RT_CHNL_CTRY_TBL	RtCtryChnlTbl[] = 
++{
++
++	{
++		RT_CTRY_AL,							//	"Albaniaªüº¸¤Ú¥§¨È"					
++		"AL",
++		RT_2G_WORLD,
++		RT_5G_WORLD,		
++		RT_CHANNEL_DOMAIN_UNDEFINED			// 2G/5G world.
++	},
++#if 0	
++	{
++		RT_CTRY_BB,							//  "Barbados¤Ú¤Ú¦h´µ"				
++		"BB",
++		RT_2G_WORLD,
++		RT_5G_NULL,		
++		RT_CHANNEL_DOMAIN_EFUSE_0x20		// 2G world. 5G_NULL
++	},
++	
++	{
++		RT_CTRY_DE,							//  "Germany¼w°ê"					
++		"DE",
++		RT_2G_WORLD,
++		RT_5G_ETSI1,		
++		RT_CHANNEL_DOMAIN_EFUSE_0x26
++	},
++	
++	{
++		RT_CTRY_US,							//  "Germany¼w°ê"					
++		"US",
++		RT_2G_FCC1,
++		RT_5G_FCC7,		
++		RT_CHANNEL_DOMAIN_EFUSE_0x34
++	},
++
++	{
++		RT_CTRY_JP,							//  "Germany¼w°ê"					
++		"JP",
++		RT_2G_MKK1,
++		RT_5G_MKK1,		
++		RT_CHANNEL_DOMAIN_EFUSE_0x34
++	},
++		
++	{
++		RT_CTRY_TW,							//  "Germany¼w°ê"					
++		"TW",
++		RT_2G_FCC1,
++		RT_5G_NCC1,		
++		RT_CHANNEL_DOMAIN_EFUSE_0x39
++	},	
++#endif
++
++};	// RtCtryChnlTbl
++
++//
++// Realtek Defined Channel plan.
++//
++#if 0
++
++static	RT_CHANNEL_PLAN_NEW		RtChnlPlan[] =
++{
++	// Channel Plan   0x20.
++	{
++		&RtCtryChnlTbl[1],					// RT_CHNL_CTRY_TBL Country & channel plan transfer table.		
++		RT_CHANNEL_DOMAIN_EFUSE_0x20,		// RT_CHANNEL_DOMAIN RT Channel Plan Define 
++		RT_2G_WORLD,						// RT_REGULATION_2G
++		RT_5G_NULL,							// RT_REGULATION_5G
++		RT_WORLD,							// RT_REGULATION_CMN RT Regulatory domain definition.
++		RT_SREQ_NA,							// RT Channel plan special & customerize requirement.
++		
++		CHNL_RT_2G_WORLD,
++		CHNL_RT_2G_WORLD_SCAN_TYPE,
++		&ChnlPlanPwrMax_2G[0],
++
++		CHNL_RT_5G_NULL,
++		CHNL_RT_5G_NULL_SCAN_TYPE,
++
++		
++	},
++	
++	// Channel Plan   0x26.
++	{
++		&RtCtryChnlTbl[1],					// RT_CHNL_CTRY_TBL Country & channel plan transfer table.		
++		RT_CHANNEL_DOMAIN_EFUSE_0x26,		// RT_CHANNEL_DOMAIN RT Channel Plan Define 
++		RT_2G_WORLD,						// RT_REGULATION_2G
++		RT_5G_ETSI1,						// RT_REGULATION_5G
++		RT_WORLD,							// RT_REGULATION_CMN RT Regulatory domain definition.
++		RT_SREQ_NA,							// RT Channel plan special & customerize requirement.
++		
++		CHNL_RT_2G_WORLD,					// 2G workd cannel
++		CHNL_RT_2G_WORLD_SCAN_TYPE,
++		&ChnlPlanPwrMax_2G[1],
++		
++		CHNL_RT_5G_ETSI1,
++		CHNL_RT_5G_ETSI1_SCAN_TYPE,
++		
++	}
++	
++	
++};
++#endif
++
++
++
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/rtchnlplan.h b/drivers/net/wireless/rtl8723du/hal/phydm/rtchnlplan.h
+new file mode 100644
+index 0000000..37786cf
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/rtchnlplan.h
+@@ -0,0 +1,699 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#ifndef	__RT_CHANNELPLAN_H__
++#define __RT_CHANNELPLAN_H__
++
++typedef enum _RT_CHANNEL_DOMAIN_NEW
++{
++
++	//===== Add new channel plan above this line ===============//
++
++	// For new architecture we define different 2G/5G CH area for all country.
++	// 2.4 G only
++	RT_CHANNEL_DOMAIN_2G_WORLD_5G_NULL				= 0x20,
++	RT_CHANNEL_DOMAIN_2G_ETSI1_5G_NULL				= 0x21,
++	RT_CHANNEL_DOMAIN_2G_FCC1_5G_NULL				= 0x22,
++	RT_CHANNEL_DOMAIN_2G_MKK1_5G_NULL				= 0x23,
++	RT_CHANNEL_DOMAIN_2G_ETSI2_5G_NULL				= 0x24,
++	// 2.4 G + 5G type 1
++	RT_CHANNEL_DOMAIN_2G_FCC1_5G_FCC1				= 0x25,
++	RT_CHANNEL_DOMAIN_2G_WORLD_5G_ETSI1				= 0x26,
++	//RT_CHANNEL_DOMAIN_2G_WORLD_5G_ETSI1				= 0x27,
++	// .....
++
++	RT_CHANNEL_DOMAIN_MAX_NEW,
++	
++}RT_CHANNEL_DOMAIN_NEW, *PRT_CHANNEL_DOMAIN_NEW;
++
++
++#if 0
++#define DOMAIN_CODE_2G_WORLD \
++        {1,2,3,4,5,6,7,8,9,10,11,12,13}, 13
++#define DOMAIN_CODE_2G_ETSI1 \
++        {1,2,3,4,5,6,7,8,9,10,11,12,13}, 13
++#define DOMAIN_CODE_2G_ETSI2 \
++        {1,2,3,4,5,6,7,8,9,10,11}, 11
++#define DOMAIN_CODE_2G_FCC1 \
++        {1,2,3,4,5,6,7,8,9,10,11,12,13,14}, 14
++#define DOMAIN_CODE_2G_MKK1 \
++        {10,11,12,13}, 4
++
++#define DOMAIN_CODE_5G_ETSI1 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140}, 19
++#define DOMAIN_CODE_5G_ETSI2 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140,149,153,157,161,165}, 24
++#define DOMAIN_CODE_5G_ETSI3 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,149,153,157,161,165}, 22
++#define DOMAIN_CODE_5G_FCC1 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140,149,153,157,161,165}, 24
++#define DOMAIN_CODE_5G_FCC2 \
++        {36,40,44,48,149,153,157,161,165}, 9
++#define DOMAIN_CODE_5G_FCC3 \
++        {36,40,44,48,52,56,60,64,149,153,157,161,165}, 13
++#define DOMAIN_CODE_5G_FCC4 \
++        {36,40,44,48,52,56,60,64,149,153,157,161}, 12
++#define DOMAIN_CODE_5G_FCC5 \
++        {149,153,157,161,165}, 5
++#define DOMAIN_CODE_5G_FCC6 \
++        {36,40,44,48,52,56,60,64}, 8
++#define DOMAIN_CODE_5G_FCC7 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,136,140,149,153,157,161,165}, 20
++#define DOMAIN_CODE_5G_IC1 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,136,140,149,153,157,161,165}, 20
++#define DOMAIN_CODE_5G_KCC1 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,149,153,157,161,165}, 20
++#define DOMAIN_CODE_5G_MKK1 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140}, 19
++#define DOMAIN_CODE_5G_MKK2 \
++        {36,40,44,48,52,56,60,64}, 8
++#define DOMAIN_CODE_5G_MKK3 \
++        {100,104,108,112,116,120,124,128,132,136,140}, 11
++#define DOMAIN_CODE_5G_NCC1 \
++        {56,60,64,100,104,108,112,116,136,140,149,153,157,161,165}, 24
++#define DOMAIN_CODE_5G_NCC2 \
++        {56,60,64,149,153,157,161,165}, 8  			
++#define UNDEFINED \
++        {0}, 0
++#endif
++
++//
++//
++//
++/*
++
++Countries							"Country Abbreviation"	Domain Code					SKU's	Ch# of 20MHz
++															2G			5G						Ch# of 40MHz
++"Albaniaªüº¸¤Ú¥§¨È"					AL													Local Test	
++									    					        	            	
++"Algeriaªüº¸¤Î§Q¨È"					DZ									CE TCF	    	
++					                    					        	            	
++"Antigua & Barbuda¦w´£¥Ê®q&¤Ú¥¬¹F"	AG						2G_WORLD					FCC TCF	
++					                    					        	        		
++"Argentinaªü®Ú§Ê"					AR						2G_WORLD					Local Test	
++									    					        	        		
++"Armenia¨È¬ü¥§¨È"					AM						2G_WORLD					ETSI	
++									    					        	        		
++"Arubaªü¾|¤Ú®q"						AW						2G_WORLD					FCC TCF	
++															        	
++"Australia¿D¬w"						AU						2G_WORLD		5G_ETSI2		
++															        	
++"Austria¶ø¦a§Q"						AT						2G_WORLD		5G_ETSI1	CE	
++					    			    					        	
++"Azerbaijanªü¶ë«ô¾Ê"				AZ						2G_WORLD					CE TCF	
++					                    					        	
++"Bahamas¤Ú«¢°¨"						BS						2G_WORLD				
++									    					        	
++"Barbados¤Ú¤Ú¦h´µ"					BB						2G_WORLD					FCC TCF	
++									    					        	
++"Belgium¤ñ§Q®É"						BE						2G_WORLD		5G_ETSI1	CE	
++															        	
++"Bermuda¦Ê¼}¹F"						BM						2G_WORLD					FCC TCF	
++															        	        		
++"Brazil¤Ú¦è"						BR						2G_WORLD					Local Test	
++									    					        	
++"Bulgaria«O¥[§Q¨È"					BG						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"Canada¥[®³¤j"						CA						2G_FCC1			5G_FCC7		IC / FCC	IC / FCC
++					                    					        	
++"Cayman Islands¶}°Ò¸s®q"			KY						2G_WORLD		5G_ETSI1	CE	
++					                    					        	
++"Chile´¼§Q"							CL						2G_WORLD					FCC TCF	
++																    	
++"China¤¤°ê"							CN						2G_WORLD		5G_FCC5		«H³¡?¡i2002¡j353? 	
++					                    					        	
++"Columbia­ô­Û¤ñ¨È"					CO						2G_WORLD					Voluntary 	
++					    			    					        	
++"Costa Rica­ô´µ¹F¾¤¥["				CR						2G_WORLD					FCC TCF	
++					    			    					        	
++"Cyprus¶ë®ú¸ô´µ"					CY						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"Czech ±¶§J"						CZ						2G_WORLD		5G_ETSI1	CE	
++															        	
++"Denmark¤¦³Á"						DK						2G_WORLD		5G_ETSI1	CE	
++					                    					        	
++"Dominican Republic¦h©ú¥§¥[¦@©M°ê"	DO						2G_WORLD					FCC TCF	
++					                    					        	
++"Egypt®J¤Î"	EG	2G_WORLD			CE T												CF	    	
++					                    					        	
++"El SalvadorÂĺ¸¥Ë¦h"				SV						2G_WORLD					Voluntary	
++					        		    					        	
++"Estonia·R¨F¥§¨È"					EE						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"FinlandªâÄõ"						FI						2G_WORLD		5G_ETSI1	CE	
++															        	
++"Franceªk°ê"						FR										5G_E		TSI1	CE	
++															        	
++"Germany¼w°ê"						DE						2G_WORLD		5G_ETSI1	CE	
++															        	
++"Greece §Æþ"						GR						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"GuamÃö®q"							GU						2G_WORLD				
++									    					        	
++"Guatemala¥Ê¦a°¨©Ô"					GT						2G_WORLD				
++									    					        	
++"Haiti®ü¦a"							HT						2G_WORLD					FCC TCF	
++									    					        	
++"Honduras§»³£©Ô´µ"					HN						2G_WORLD					FCC TCF	
++									    					        	
++"Hungary¦I¤ú§Q"						HU						2G_WORLD		5G_ETSI1	CE	
++															        	
++"Iceland¦B®q"						IS						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"India¦L«×"							IN						2G_WORLD		5G_FCC3		FCC/CE TCF	
++															        	
++"Ireland·Rº¸Äõ"						IE						2G_WORLD		5G_ETSI1	CE	
++															        	
++"Israel¥H¦â¦C"						IL										5G_F		CC6	CE TCF	
++															        	
++"Italy¸q¤j§Q"						IT						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"Japan¤é¥»"							JP						2G_MKK1			5G_MKK1		MKK	MKK
++																    	
++"KoreaÁú°ê"							KR						2G_WORLD		5G_KCC1		KCC	KCC
++									    					        	
++"Latvia©Ô²æºû¨È"					LV						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"Lithuania¥ß³³©{"					LT						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"Luxembourg¿c´Ë³ù"					LU						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"Malaysia°¨¨Ó¦è¨È"					MY						2G_WORLD					Local Test	
++									    					        	
++"Malta°¨º¸¥L"						MT						2G_WORLD		5G_ETSI1	CE	
++															        	
++"Mexico¾¥¦è­ô"						MX						2G_WORLD		5G_FCC3		Local Test	
++															        	
++"Morocco¼¯¬¥­ô"						MA													CE TCF	
++									    					        	
++"Netherlands²üÄõ"					NL						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"New Zealand¯Ã¦èÄõ"					NZ						2G_WORLD		5G_ETSI2		
++									    					        	
++"Norway®¿«Â"						NO						2G_WORLD		5G_ETSI1	CE	
++															        	
++"Panama¤Ú®³°¨ "						PA						2G_FCC1						Voluntary	
++									    					        	
++"Philippines栮ᯮ"					PH						2G_WORLD					FCC TCF	
++									    					        	
++"PolandªiÄõ"						PL						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"Portugal¸²µå¤ú"					PT						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"Romaniaù°¨¥§¨È"					RO						2G_WORLD		5G_ETSI1	CE	
++					        		    					        	
++"Russia«Xù´µ"						RU						2G_WORLD		5G_ETSI3	CE TCF	
++					        		    					        	
++"Saudi Arabia¨F¦aªü©Ô§B"			SA						2G_WORLD					CE TCF	
++					        		    					        	
++"Singapore·s¥[©Y"					SG						2G_WORLD				
++									    					        	
++"Slovakia´µ¬¥¥ï§J"					SK						2G_WORLD		5G_ETSI1	CE	
++					    			    					        	
++"Slovenia´µ¬¥ºû¥§¨È"				SI						2G_WORLD		5G_ETSI1	CE	
++					    			    					        	
++"South Africa«n«D"					ZA						2G_WORLD					CE TCF	
++					        		    					        	
++"Spain¦è¯Z¤ú"						ES										5G_ETSI1	CE	
++															        	
++"Sweden·ç¨å"						SE						2G_WORLD		5G_ETSI1	CE	
++					        		    					        	
++"Switzerland·ç¤h"					CH						2G_WORLD		5G_ETSI1	CE	
++					        		    					        	
++"Taiwan»OÆW"						TW						2G_FCC1			5G_NCC1	NCC	
++															        	
++"Thailand®õ°ê"						TH						2G_WORLD					FCC/CE TCF	
++															        	
++"Turkey¤g¦Õ¨ä"						TR						2G_WORLD				
++															        	
++"Ukraine¯Q§JÄõ"						UA						2G_WORLD					Local Test	
++					        		    					        	
++"United Kingdom­^°ê"				GB						2G_WORLD		5G_ETSI1	CE	ETSI
++					    			    					        	
++"United States¬ü°ê"					US						2G_FCC1			5G_FCC7		FCC	FCC
++					    			    					        	
++"Venezuela©e¤º·ç©Ô"					VE						2G_WORLD		5G_FCC4		FCC TCF	
++					    			    					        	
++"Vietnam¶V«n"						VN						2G_WORLD					FCC/CE TCF	
++					
++
++
++*/
++
++// Counter abbervation.
++typedef enum _RT_COUNTRY_DEFINE_NUM
++{
++	RT_CTRY_AL,				//	"Albaniaªüº¸¤Ú¥§¨È"					
++	RT_CTRY_DZ,             //  "Algeriaªüº¸¤Î§Q¨È"					
++	RT_CTRY_AG,             //  "Antigua & Barbuda¦w´£¥Ê®q&¤Ú¥¬¹F"	
++	RT_CTRY_AR,             //  "Argentinaªü®Ú§Ê"					
++	RT_CTRY_AM,             //  "Armenia¨È¬ü¥§¨È"					
++	RT_CTRY_AW,             //  "Arubaªü¾|¤Ú®q"						
++	RT_CTRY_AU,             //  "Australia¿D¬w"						
++	RT_CTRY_AT,             //  "Austria¶ø¦a§Q"						
++	RT_CTRY_AZ,             //  "Azerbaijanªü¶ë«ô¾Ê"				
++	RT_CTRY_BS,             //  "Bahamas¤Ú«¢°¨"					
++	RT_CTRY_BB,             //  "Barbados¤Ú¤Ú¦h´µ"				
++	RT_CTRY_BE,             //  "Belgium¤ñ§Q®É"					
++	RT_CTRY_BM,             //  "Bermuda¦Ê¼}¹F"					
++	RT_CTRY_BR,             //  "Brazil¤Ú¦è"						
++	RT_CTRY_BG,             //  "Bulgaria«O¥[§Q¨È"				
++	RT_CTRY_CA,             //  "Canada¥[®³¤j"					
++	RT_CTRY_KY,             //  "Cayman Islands¶}°Ò¸s®q"			
++	RT_CTRY_CL,             //  "Chile´¼§Q"						
++	RT_CTRY_CN,             //  "China¤¤°ê"						
++	RT_CTRY_CO,             //  "Columbia­ô­Û¤ñ¨È"				
++	RT_CTRY_CR,             //  "Costa Rica­ô´µ¹F¾¤¥["			
++	RT_CTRY_CY,             //  "Cyprus¶ë®ú¸ô´µ"					
++	RT_CTRY_CZ,             //  "Czech ±¶§J"						
++	RT_CTRY_DK,             //  "Denmark¤¦³Á"					
++	RT_CTRY_DO,             //  "Dominican Republic¦h©ú¥§¥[¦@©M°ê"	
++	RT_CTRY_CE,             //  "Egypt®J¤Î"	EG	2G_WORLD			
++	RT_CTRY_SV,             //  "El SalvadorÂĺ¸¥Ë¦h"				
++	RT_CTRY_EE,             //  "Estonia·R¨F¥§¨È"					
++	RT_CTRY_FI,             //  "FinlandªâÄõ"						
++	RT_CTRY_FR,             //  "Franceªk°ê"						
++	RT_CTRY_DE,             //  "Germany¼w°ê"					
++	RT_CTRY_GR,             //  "Greece §Æþ"					
++	RT_CTRY_GU,             //  "GuamÃö®q"						
++	RT_CTRY_GT,             //  "Guatemala¥Ê¦a°¨©Ô"				
++	RT_CTRY_HT,             //  "Haiti®ü¦a"						
++	RT_CTRY_HN,             //  "Honduras§»³£©Ô´µ"				
++	RT_CTRY_HU,             //  "Hungary¦I¤ú§Q"					
++	RT_CTRY_IS,             //  "Iceland¦B®q"					
++	RT_CTRY_IN,             //  "India¦L«×"						
++	RT_CTRY_IE,             //  "Ireland·Rº¸Äõ"					
++	RT_CTRY_IL,             //  "Israel¥H¦â¦C"					
++	RT_CTRY_IT,             //  "Italy¸q¤j§Q"					
++	RT_CTRY_JP,             //  "Japan¤é¥»"						
++	RT_CTRY_KR,             //  "KoreaÁú°ê"						
++	RT_CTRY_LV,             //  "Latvia©Ô²æºû¨È"					
++	RT_CTRY_LT,             //  "Lithuania¥ß³³©{"				
++	RT_CTRY_LU,             //  "Luxembourg¿c´Ë³ù"				
++	RT_CTRY_MY,             //  "Malaysia°¨¨Ó¦è¨È"				
++	RT_CTRY_MT,             //  "Malta°¨º¸¥L"					
++	RT_CTRY_MX,             //  "Mexico¾¥¦è­ô"					
++	RT_CTRY_MA,             //  "Morocco¼¯¬¥­ô"					
++	RT_CTRY_NL,             //  "Netherlands²üÄõ"				
++	RT_CTRY_NZ,             //  "New Zealand¯Ã¦èÄõ"				
++	RT_CTRY_NO,             //  "Norway®¿«Â"						
++	RT_CTRY_PA,             //  "Panama¤Ú®³°¨ "					
++	RT_CTRY_PH,             //  "Philippines栮ᯮ"				
++	RT_CTRY_PL,             //  "PolandªiÄõ"						
++	RT_CTRY_PT,             //  "Portugal¸²µå¤ú"					
++	RT_CTRY_RO,             //  "Romaniaù°¨¥§¨È"				
++	RT_CTRY_RU,             //  "Russia«Xù´µ"					
++	RT_CTRY_SA,             //  "Saudi Arabia¨F¦aªü©Ô§B"			
++	RT_CTRY_SG,             //  "Singapore·s¥[©Y"				
++	RT_CTRY_SK,             //  "Slovakia´µ¬¥¥ï§J"				
++	RT_CTRY_SI,             //  "Slovenia´µ¬¥ºû¥§¨È"				
++	RT_CTRY_ZA,             //  "South Africa«n«D"				
++	RT_CTRY_ES,             //  "Spain¦è¯Z¤ú"					
++	RT_CTRY_SE,             //  "Sweden·ç¨å"						
++	RT_CTRY_CH,             //  "Switzerland·ç¤h"				
++	RT_CTRY_TW,             //  "Taiwan»OÆW"						
++	RT_CTRY_TH,             //  "Thailand®õ°ê"					
++	RT_CTRY_TR,             //  "Turkey¤g¦Õ¨ä"					
++	RT_CTRY_UA,             //  "Ukraine¯Q§JÄõ"					
++	RT_CTRY_GB,             //  "United Kingdom­^°ê"				
++	RT_CTRY_US,             //  "United States¬ü°ê"				
++	RT_CTRY_VE,             //  "Venezuela©e¤º·ç©Ô"				
++	RT_CTRY_VN,             //  "Vietnam¶V«n"					
++	RT_CTRY_MAX,            //  
++	
++}RT_COUNTRY_NAME, *PRT_COUNTRY_NAME;
++    
++// Scan type including active and passive scan.
++typedef enum _RT_SCAN_TYPE_NEW
++{
++	SCAN_NULL,
++	SCAN_ACT,
++	SCAN_PAS,
++	SCAN_BOTH,
++}RT_SCAN_TYPE_NEW, *PRT_SCAN_TYPE_NEW;
++    
++
++// Power table sample.
++
++typedef struct _RT_CHNL_PLAN_LIMIT
++{
++	u2Byte	Chnl_Start;
++	u2Byte	Chnl_end;	
++	
++	u2Byte	Freq_Start;
++	u2Byte	Freq_end;	
++}RT_CHNL_PLAN_LIMIT, *PRT_CHNL_PLAN_LIMIT;
++
++    
++//    
++// 2.4G Regulatory Domains
++//
++typedef enum _RT_REGULATION_DOMAIN_2G
++{
++	RT_2G_NULL,   
++	RT_2G_WORLD,
++	RT_2G_ETSI1,
++	RT_2G_FCC1,
++	RT_2G_MKK1,
++	RT_2G_ETSI2	
++	
++}RT_REGULATION_2G, *PRT_REGULATION_2G;
++
++
++//typedef struct _RT_CHANNEL_BEHAVIOR
++//{
++//	u1Byte	Chnl;
++//	RT_SCAN_TYPE_NEW
++//	
++//}RT_CHANNEL_BEHAVIOR, *PRT_CHANNEL_BEHAVIOR;
++
++//typedef struct _RT_CHANNEL_PLAN_TYPE
++//{
++//	RT_CHANNEL_BEHAVIOR		
++//	u1Byte					Chnl_num;
++//}RT_CHNL_PLAN_TYPE, *PRT_CHNL_PLAN_TYPE;
++
++//
++// 2.4G Channel Number
++// Channel definition & number
++//
++#define CHNL_RT_2G_NULL \
++        {0}, 0
++#define CHNL_RT_2G_WORLD \
++        {1,2,3,4,5,6,7,8,9,10,11,12,13}, 13
++#define CHNL_RT_2G_WORLD_TEST \
++        {1,2,3,4,5,6,7,8,9,10,11,12,13}, 13
++
++#define CHNL_RT_2G_EFSI1 \
++        {1,2,3,4,5,6,7,8,9,10,11,12,13}, 13
++#define CHNL_RT_2G_FCC1 \
++        {1,2,3,4,5,6,7,8,9,10,11}, 11
++#define CHNL_RT_2G_MKK1 \
++        {1,2,3,4,5,6,7,8,9,10,11,12,13,14}, 14
++#define CHNL_RT_2G_ETSI2 \
++        {10,11,12,13}, 4
++
++//
++// 2.4G Channel Active or passive scan.
++//
++#define CHNL_RT_2G_NULL_SCAN_TYPE \
++        {SCAN_NULL}
++#define CHNL_RT_2G_WORLD_SCAN_TYPE \
++        {1,1,1,1,1,1,1,1,1,1,1,0,0}
++#define CHNL_RT_2G_EFSI1_SCAN_TYPE \
++        {1,1,1,1,1,1,1,1,1,1,1,1,1}
++#define CHNL_RT_2G_FCC1_SCAN_TYPE \
++        {1,1,1,1,1,1,1,1,1,1,1}
++#define CHNL_RT_2G_MKK1_SCAN_TYPE \
++        {1,1,1,1,1,1,1,1,1,1,1,1,1,1}
++#define CHNL_RT_2G_ETSI2_SCAN_TYPE \
++        {1,1,1,1}
++
++
++//
++// 2.4G Band & Frequency Section
++// Freqency start & end / band number
++//
++#define FREQ_RT_2G_NULL \
++        {0}, 0
++        // Passive scan CH 12, 13
++#define FREQ_RT_2G_WORLD \
++        {2412, 2472}, 1
++#define FREQ_RT_2G_EFSI1 \
++        {2412, 2472}, 1
++#define FREQ_RT_2G_FCC1 \
++        {2412, 2462}, 1
++#define FREQ_RT_2G_MKK1 \
++        {2412, 2484}, 1
++#define FREQ_RT_2G_ETSI2 \
++        {2457, 2472}, 1
++
++
++//    
++// 5G Regulatory Domains
++//
++typedef enum _RT_REGULATION_DOMAIN_5G
++{   
++	RT_5G_NULL,
++	RT_5G_WORLD,
++	RT_5G_ETSI1,
++	RT_5G_ETSI2,
++	RT_5G_ETSI3,
++	RT_5G_FCC1,	
++	RT_5G_FCC2,
++	RT_5G_FCC3,
++	RT_5G_FCC4,
++	RT_5G_FCC5,
++	RT_5G_FCC6,
++	RT_5G_FCC7,
++	RT_5G_IC1,
++	RT_5G_KCC1,
++	RT_5G_MKK1,
++	RT_5G_MKK2,
++	RT_5G_MKK3,
++	RT_5G_NCC1,
++	
++}RT_REGULATION_5G, *PRT_REGULATION_5G;
++
++//
++// 5G Channel Number
++//
++#define CHNL_RT_5G_NULL \
++        {0}, 0
++#define CHNL_RT_5G_WORLD \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140}, 19
++#define CHNL_RT_5G_ETSI1 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140,149,153,157,161,165}, 24
++#define CHNL_RT_5G_ETSI2 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,149,153,157,161,165}, 22
++#define CHNL_RT_5G_ETSI3 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140,149,153,157,161,165}, 24
++#define CHNL_RT_5G_FCC1 \
++        {36,40,44,48,149,153,157,161,165}, 9
++#define CHNL_RT_5G_FCC2 \
++        {36,40,44,48,52,56,60,64,149,153,157,161,165}, 13
++#define CHNL_RT_5G_FCC3 \
++        {36,40,44,48,52,56,60,64,149,153,157,161}, 12
++#define CHNL_RT_5G_FCC4 \
++        {149,153,157,161,165}, 5
++#define CHNL_RT_5G_FCC5 \
++        {36,40,44,48,52,56,60,64}, 8
++#define CHNL_RT_5G_FCC6 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,136,140,149,153,157,161,165}, 20
++#define CHNL_RT_5G_FCC7 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,136,140,149,153,157,161,165}, 20
++#define CHNL_RT_5G_IC1 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,149,153,157,161,165}, 20
++#define CHNL_RT_5G_KCC1 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140}, 19
++#define CHNL_RT_5G_MKK1 \
++        {36,40,44,48,52,56,60,64}, 8
++#define CHNL_RT_5G_MKK2 \
++        {100,104,108,112,116,120,124,128,132,136,140}, 11
++#define CHNL_RT_5G_MKK3 \
++        {56,60,64,100,104,108,112,116,136,140,149,153,157,161,165}, 24
++#define CHNL_RT_5G_NCC1 \
++        {56,60,64,149,153,157,161,165}, 8  	
++
++//
++// 5G Channel Active or passive scan.
++//
++#define CHNL_RT_5G_NULL_SCAN_TYPE \
++        {SCAN_NULL}
++#define CHNL_RT_5G_WORLD_SCAN_TYPE \
++        {1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1}
++#define CHNL_RT_5G_ETSI1_SCAN_TYPE \
++        {1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1}
++#define CHNL_RT_5G_ETSI2_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,149,153,157,161,165}, 22
++#define CHNL_RT_5G_ETSI3_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140,149,153,157,161,165}, 24
++#define CHNL_RT_5G_FCC1_SCAN_TYPE \
++        {36,40,44,48,149,153,157,161,165}, 9
++#define CHNL_RT_5G_FCC2_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64,149,153,157,161,165}, 13
++#define CHNL_RT_5G_FCC3_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64,149,153,157,161}, 12
++#define CHNL_RT_5G_FCC4_SCAN_TYPE \
++        {149,153,157,161,165}, 5
++#define CHNL_RT_5G_FCC5_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64}, 8
++#define CHNL_RT_5G_FCC6_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,136,140,149,153,157,161,165}, 20
++#define CHNL_RT_5G_FCC7_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,136,140,149,153,157,161,165}, 20
++#define CHNL_RT_5G_IC1_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,149,153,157,161,165}, 20
++#define CHNL_RT_5G_KCC1_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140}, 19
++#define CHNL_RT_5G_MKK1_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64}, 8
++#define CHNL_RT_5G_MKK2_SCAN_TYPE \
++        {100,104,108,112,116,120,124,128,132,136,140}, 11
++#define CHNL_RT_5G_MKK3_SCAN_TYPE \
++        {56,60,64,100,104,108,112,116,136,140,149,153,157,161,165}, 24
++#define CHNL_RT_5G_NCC1_SCAN_TYPE \
++        {56,60,64,149,153,157,161,165}, 8  	
++
++//    
++// Global Regulation
++//
++typedef enum _RT_REGULATION_COMMON
++{
++	RT_WORLD,   
++	RT_FCC,   
++	RT_MKK,
++	RT_ETSI,
++	RT_IC,
++	RT_CE,
++	RT_NCC,
++	
++}RT_REGULATION_CMN, *PRT_REGULATION_CMN;
++
++
++
++//    
++// Special requirement for different regulation domain.
++// For internal test or customerize special request.
++//
++typedef enum _RT_CHNLPLAN_SREQ
++{
++	RT_SREQ_NA						= 0x0,
++	RT_SREQ_2G_ADHOC_11N			= 0x00000001,
++	RT_SREQ_2G_ADHOC_11B			= 0x00000002,
++	RT_SREQ_2G_ALL_PASS				= 0x00000004,
++	RT_SREQ_2G_ALL_ACT				= 0x00000008,	
++	RT_SREQ_5G_ADHOC_11N			= 0x00000010,
++	RT_SREQ_5G_ADHOC_11AC			= 0x00000020,
++	RT_SREQ_5G_ALL_PASS				= 0x00000040,
++	RT_SREQ_5G_ALL_ACT				= 0x00000080,
++	RT_SREQ_C1_PLAN					= 0x00000100,	
++	RT_SREQ_C2_PLAN					= 0x00000200,	
++	RT_SREQ_C3_PLAN					= 0x00000400,	
++	RT_SREQ_C4_PLAN					= 0x00000800,	
++	RT_SREQ_NFC_ON					= 0x00001000,	
++	RT_SREQ_MASK					= 0x0000FFFF,   /* Requirements bit mask */
++	
++}RT_CHNLPLAN_SREQ, *PRT_CHNLPLAN_SREQ;
++
++
++//
++// RT_COUNTRY_NAME & RT_REGULATION_2G & RT_REGULATION_5G transfer table
++// 
++//
++typedef struct _RT_CHANNEL_PLAN_COUNTRY_TRANSFER_TABLE
++{   
++	//
++	// Define countery domain and corresponding 
++	//	
++	RT_COUNTRY_NAME		Country_Enum;
++	char				Country_Name[3];
++	
++	//char		Domain_Name[12];
++	RT_REGULATION_2G	Domain_2G;	
++
++	RT_REGULATION_5G	Domain_5G;	
++
++	RT_CHANNEL_DOMAIN	RtChDomain;
++	//u1Byte		Country_Area;
++    
++}RT_CHNL_CTRY_TBL, *PRT_CHNL_CTRY_TBL;
++    
++
++#define		RT_MAX_CHNL_NUM_2G		13
++#define		RT_MAX_CHNL_NUM_5G		44	
++
++// Power table sample.
++
++typedef struct _RT_CHNL_PLAN_PWR_LIMIT
++{
++	u2Byte	Chnl_Start;
++	u2Byte	Chnl_end;
++	u1Byte	dB_Max;
++	u2Byte	mW_Max;
++}RT_CHNL_PWR_LIMIT, *PRT_CHNL_PWR_LIMIT;
++
++
++#define		RT_MAX_BAND_NUM			5
++
++typedef struct _RT_CHANNEL_PLAN_MAXPWR
++{
++//	STRING_T
++	RT_CHNL_PWR_LIMIT	Chnl[RT_MAX_BAND_NUM];
++	u1Byte				Band_Useful_Num;
++
++	
++}RT_CHANNEL_PLAN_MAXPWR, *PRT_CHANNEL_PLAN_MAXPWR;
++
++
++//
++// Power By Rate Table.
++//
++
++
++
++typedef struct _RT_CHANNEL_PLAN_NEW
++{   
++	//
++	// Define countery domain and corresponding 
++	//
++	//char		Country_Name[36];
++	//u1Byte		Country_Enum;
++	
++	//char		Domain_Name[12];
++
++	
++	PRT_CHNL_CTRY_TBL		pCtryTransfer;
++	
++	RT_CHANNEL_DOMAIN		RtChDomain;	
++
++	RT_REGULATION_2G		Domain_2G;
++
++	RT_REGULATION_5G		Domain_5G;	
++
++	RT_REGULATION_CMN		Regulator;
++
++	RT_CHNLPLAN_SREQ		ChnlSreq;
++	
++	//RT_CHNL_PLAN_LIMIT		RtChnl;
++		
++	u1Byte	Chnl2G[MAX_CHANNEL_NUM];				// CHNL_RT_2G_WORLD
++	u1Byte	Len2G;
++	u1Byte	Chnl2GScanTp[MAX_CHANNEL_NUM];			// CHNL_RT_2G_WORLD_SCAN_TYPE
++	//u1Byte	Freq2G[2];								// FREQ_RT_2G_WORLD
++
++	u1Byte	Chnl5G[MAX_CHANNEL_NUM];				
++	u1Byte	Len5G;
++	u1Byte	Chnl5GScanTp[MAX_CHANNEL_NUM];
++	//u1Byte	Freq2G[2];								// FREQ_RT_2G_WORLD
++
++	RT_CHANNEL_PLAN_MAXPWR	ChnlMaxPwr;
++	
++    
++}RT_CHANNEL_PLAN_NEW, *PRT_CHANNEL_PLAN_NEW;
++    
++    
++#endif	// __RT_CHANNELPLAN_H__
++    
++    
++    
++    
++ 
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/hal8723dreg.h b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/hal8723dreg.h
+new file mode 100644
+index 0000000..97dacb3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/hal8723dreg.h
+@@ -0,0 +1,927 @@
++/*****************************************************************************
++ *	Copyright(c) 2009,  RealTEK Technology Inc. All Right Reserved.
++ *
++ * Module:	__INC_HAL8723DREG_H
++ *
++ *
++ * Note:	1. Define Mac register address and corresponding bit mask map
++ *			
++ *
++ * Export:	Constants, macro, functions(API), global variables(None).
++ *
++ * Abbrev:	
++ *
++ * History:
++ *		Data		Who		Remark 
++ * 
++ *****************************************************************************/
++#ifndef __INC_HAL8723DREG_H
++#define __INC_HAL8723DREG_H
++
++
++
++//============================================================
++//
++//============================================================
++
++//-----------------------------------------------------
++//
++//	0x0000h ~ 0x00FFh	System Configuration
++//
++//-----------------------------------------------------
++#define REG_SYS_ISO_CTRL_8723D			0x0000	// 2 Byte
++#define REG_SYS_FUNC_EN_8723D			0x0002	// 2 Byte
++#define REG_SYS_PW_CTRL_8723D			0x0004	// 4 Byte        
++#define REG_SYS_CLKR_8723D				0x0008	// 2 Byte
++#define REG_SYS_EEPROM_CTRL_8723D		0x000A	// 2 Byte        
++#define REG_EE_VPD_8723D				0x000C	// 2 Byte
++#define REG_SYS_SWR_CTRL1_8723D			0x0010	// 1 Byte        
++#define REG_SYS_SWR_CTRL2_8723D			0x0014	// 1 Byte      
++#define REG_SYS_SWR_CTRL3_8723D			0x0018	// 4 Byte        
++#define REG_RSV_CTRL_8723D				0x001C	// 3 Byte
++#define REG_RF_CTRL_8723D				0x001F	// 1 Byte
++#define REG_AFE_CTRL1_8723D				0x0024	// 4 Byte        
++#define REG_AFE_CTRL2_8723D				0x0028	// 4 Byte        
++#define REG_AFE_CTRL3_8723D				0x002c 	// 4 Byte 
++#define REG_EFUSE_CTRL_8723D			0x0030
++#define REG_LDO_EFUSE_CTRL_8723D		0x0034 
++#define REG_PWR_DATA_8723D				0x0038
++#define REG_CAL_TIMER_8723D				0x003C
++#define REG_ACLK_MON_8723D				0x003E
++#define REG_GPIO_MUXCFG_8723D			0x0040
++#define REG_GPIO_IO_SEL_8723D			0x0042
++#define REG_MAC_PINMUX_CFG_8723D		0x0043 // ??????
++#define REG_GPIO_PIN_CTRL_8723D			0x0044
++#define REG_GPIO_INTM_8723D				0x0048
++#define BIT_REG_LED_CFG_8723D			0x004C 
++#define REG_LEDCFG2_8723D				0x004E // ??????
++#define REG_FSIMR_8723D					0x0050
++#define REG_FSISR_8723D					0x0054
++#define REG_HSIMR_8723D					0x0058
++#define REG_HSISR_8723D					0x005c
++#define REG_GPIO_EXT_CTRL_8723D			0x0060
++#define REG_MULTI_FUNC_CTRL_8723D		0x0068
++#define REG_GPIO_STATUS_8723D			0x006C
++#define REG_SDIO_CTRL_8723D				0x0070
++#define REG_HCI_OPT_CTRL_8723D			0x0074
++#define REG_AFE_CTRL4_8723D				0x0078
++#define REG_LDO_SWR_CTRL_8723D			0x007C
++#define REG_8051FW_CTRL_8723D			0x0080 
++#define REG_FW_DBG_STATUS_8723D			0x0088
++#define REG_FW_DBG_CTRL_8723D			0x008F
++#define REG_WLLPS_CTRL_8723D			0x0090
++#define REG_HIMR0_8723D					0x00B0
++#define REG_HISR0_8723D					0x00B4
++#define REG_HIMR1_8723D					0x00B8
++#define REG_HISR1_8723D					0x00BC
++#define REG_PMC_DBG_CTRL2_8723D         0x00CC
++#define	REG_EFUSE_BURN_GNT_8723D		0x00CF
++#define REG_XTAL_AAC_8723D				0x00EC
++#define REG_SYS_CFG1_8723D				0x00F0
++#define REG_SYS_CFG2_8723D				0x00FC 
++#define REG_ROM_VERSION					0x00FD
++
++//-----------------------------------------------------
++//
++//	0x0100h ~ 0x01FFh	MACTOP General Configuration
++//
++//-----------------------------------------------------
++#define REG_CR_8723D					0x0100
++#define REG_PBP_8723D					0x0104 // ??????
++#define REG_PKT_BUFF_ACCESS_CTRL_8723D	0x0106 // ??????
++#define REG_TRXDMA_CTRL_8723D			0x010C
++#define REG_TRXFF_BNDY_8723D			0x0114
++#define REG_RXFF_PTR_8723D				0x011C
++#define REG_CPWM_8723D					0x012C
++#define REG_FWIMR_8723D					0x0130
++#define REG_FWISR_8723D					0x0134
++#define REG_FTIMR_8723D					0x0138
++#define REG_PKTBUF_DBG_CTRL_8723D		0x0140 
++#define REG_RXPKTBUF_CTRL_8723D			0x0142 // ??????
++#define REG_PKTBUF_DBG_DATA_L_8723D		0x0144
++#define REG_PKTBUF_DBG_DATA_H_8723D		0x0148
++
++#define REG_TC0_CTRL_8723D				0x0150
++#define REG_TC1_CTRL_8723D				0x0154
++#define REG_TC2_CTRL_8723D				0x0158
++#define REG_TC3_CTRL_8723D				0x015C
++#define REG_TC4_CTRL_8723D				0x0160
++#define REG_TCUNIT_BASE_8723D			0x0164
++#define REG_RSVD3_8723D				0x0168 // ?????
++
++#define REG_C2HEVT_MSG_NORMAL_8723D		0x01A0 // ??????
++#define REG_C2HEVT_CMD_SEQ_88XX			0x01A1 // ??????
++#define REG_C2hEVT_CMD_CONTENT_88XX		0x01A2 // ??????
++#define REG_C2HEVT_CMD_LEN_88XX			0x01AE // ??????
++#define REG_C2HEVT_CLEAR_8723D			0x01AF // ??????
++#define REG_MCUTST_1_8723D				0x01C0
++#define REG_MCUTST_2_8723D				0x01C4
++#define REG_MCUTST_WOWLAN_8723D			0x01C7 // ??????
++#define REG_FMETHR_8723D				0x01C8
++#define REG_HMETFR_8723D				0x01CC
++#define REG_HMEBOX_0_8723D				0x01D0
++#define REG_HMEBOX_1_8723D				0x01D4
++#define REG_HMEBOX_2_8723D				0x01D8
++#define REG_HMEBOX_3_8723D				0x01DC
++#define REG_LLT_INIT_8723D				0x01E0
++#define REG_HMEBOX_EXT0_8723D			0x01F0 // ??????
++#define REG_HMEBOX_EXT1_8723D			0x01F4 // ??????
++#define REG_HMEBOX_EXT2_8723D			0x01F8 // ??????
++#define REG_HMEBOX_EXT3_8723D			0x01FC // ??????
++
++//-----------------------------------------------------
++//
++//	0x0200h ~ 0x027Fh	TXDMA Configuration
++//
++//-----------------------------------------------------
++#define REG_RQPN_8723D					0x0200
++#define REG_FIFOPAGE_8723D				0x0204
++#define REG_TDECTRL_8723D			0x0208
++#define REG_TXDMA_OFFSET_CHK_8723D		0x020C
++#define REG_TXDMA_STATUS_8723D			0x0210
++#define REG_RQPN_NPQ_8723D				0x0214
++#define REG_AUTO_LLT_8723D				0x0224
++#define REG_DWBCN1_CTRL_8723D			0x0228
++
++
++//-----------------------------------------------------
++//
++//	0x0280h ~ 0x02FFh	RXDMA Configuration
++//
++//-----------------------------------------------------
++#define REG_RXDMA_AGG_PG_TH_8723D		0x0280
++#define REG_RXPKT_NUM_8723D				0x0284 // The number of packets in RXPKTBUF.
++#define REG_RXDMA_CONTROL_8723D			0x0286 // ?????? Control the RX DMA.
++#define REG_RXDMA_STATUS_8723D			0x0288
++#define REG_RXDMA_PRO_8723D				0x0290 // ??????
++#define REG_EARLY_MODE_CONTROL_8723D	0x02BC // ??????
++#define REG_RSVD5_8723D					0x02F0 // ??????
++
++
++//-----------------------------------------------------
++//
++//	0x0300h ~ 0x03FFh	PCIe
++//
++//-----------------------------------------------------
++#define	REG_PCIE_CTRL_REG_8723D			0x0300
++#define	REG_INT_MIG_8723D				0x0304	// Interrupt Migration 
++#define	REG_BCNQ_TXBD_DESA_8723D		0x0308	// TX Beacon Descriptor Address
++#define	REG_MGQ_TXBD_DESA_8723D			0x0310	// TX Manage Queue Descriptor Address
++#define	REG_VOQ_TXBD_DESA_8723D			0x0318	// TX VO Queue Descriptor Address
++#define	REG_VIQ_TXBD_DESA_8723D			0x0320	// TX VI Queue Descriptor Address
++#define	REG_BEQ_TXBD_DESA_8723D			0x0328	// TX BE Queue Descriptor Address
++#define	REG_BKQ_TXBD_DESA_8723D			0x0330	// TX BK Queue Descriptor Address
++#define	REG_RXQ_RXBD_DESA_8723D			0x0338	// RX Queue	Descriptor Address
++#define REG_HI0Q_TXBD_DESA_8723D		0x0340
++#define REG_HI1Q_TXBD_DESA_8723D		0x0348
++#define REG_HI2Q_TXBD_DESA_8723D		0x0350
++#define REG_HI3Q_TXBD_DESA_8723D		0x0358
++#define REG_HI4Q_TXBD_DESA_8723D		0x0360
++#define REG_HI5Q_TXBD_DESA_8723D		0x0368
++#define REG_HI6Q_TXBD_DESA_8723D		0x0370
++#define REG_HI7Q_TXBD_DESA_8723D		0x0378
++#define	REG_MGQ_TXBD_NUM_8723D			0x0380
++#define	REG_RX_RXBD_NUM_8723D			0x0382
++#define	REG_VOQ_TXBD_NUM_8723D			0x0384
++#define	REG_VIQ_TXBD_NUM_8723D			0x0386
++#define	REG_BEQ_TXBD_NUM_8723D			0x0388
++#define	REG_BKQ_TXBD_NUM_8723D			0x038A
++#define	REG_HI0Q_TXBD_NUM_8723D			0x038C
++#define	REG_HI1Q_TXBD_NUM_8723D			0x038E
++#define	REG_HI2Q_TXBD_NUM_8723D			0x0390
++#define	REG_HI3Q_TXBD_NUM_8723D			0x0392
++#define	REG_HI4Q_TXBD_NUM_8723D			0x0394
++#define	REG_HI5Q_TXBD_NUM_8723D			0x0396
++#define	REG_HI6Q_TXBD_NUM_8723D			0x0398
++#define	REG_HI7Q_TXBD_NUM_8723D			0x039A
++#define	REG_TSFTIMER_HCI_8723D			0x039C
++
++//Read Write Point
++#define	REG_VOQ_TXBD_IDX_8723D			0x03A0
++#define	REG_VIQ_TXBD_IDX_8723D			0x03A4
++#define	REG_BEQ_TXBD_IDX_8723D			0x03A8
++#define	REG_BKQ_TXBD_IDX_8723D			0x03AC
++#define	REG_MGQ_TXBD_IDX_8723D			0x03B0
++#define	REG_RXQ_TXBD_IDX_8723D			0x03B4
++#define	REG_HI0Q_TXBD_IDX_8723D			0x03B8
++#define	REG_HI1Q_TXBD_IDX_8723D			0x03BC
++#define	REG_HI2Q_TXBD_IDX_8723D			0x03C0
++#define	REG_HI3Q_TXBD_IDX_8723D			0x03C4
++#define	REG_HI4Q_TXBD_IDX_8723D			0x03C8
++#define	REG_HI5Q_TXBD_IDX_8723D			0x03CC
++#define	REG_HI6Q_TXBD_IDX_8723D			0x03D0
++#define	REG_HI7Q_TXBD_IDX_8723D			0x03D4
++
++#define	REG_PCIE_HCPWM_8723DE			0x03D8 // ??????
++#define	REG_PCIE_HRPWM_8723DE			0x03DC	//PCIe RPWM // ??????
++#define	REG_DBI_WDATA_V1_8723D			0x03E8
++#define	REG_DBI_RDATA_V1_8723D			0x03EC
++#define	REG_DBI_FLAG_V1_8723D			0x03F0
++#define REG_MDIO_V1_8723D				0x03F4
++#define REG_PCIE_MIX_CFG_8723D			0x03F8
++#define REG_HCI_MIX_CFG_8723D			0x03FC
++
++//-----------------------------------------------------
++//
++//	0x0400h ~ 0x047Fh	Protocol Configuration
++//
++//-----------------------------------------------------
++#define REG_TXPKT_EMPTY_8723D				0x041A
++#define REG_PTCL_POLL_MGN_8723D				0x041F
++#define REG_FWHW_TXQ_CTRL_8723D				0x0420
++#define REG_HWSEQ_CTRL_8723D				0x0423
++#define REG_BCNQ_BDNY_8723D					0x0424
++#define REG_MGQ_BDNY_8723D					0x0425
++#define REG_LIFETIME_EN_8723D				0x0426
++#define REG_FW_FREE_TAIL_8723D				0x0427
++#define REG_SPEC_SIFS_8723D					0x0428
++#define REG_RETRY_LIMIT_8723D				0x042A
++#define REG_TXBF_CTRL_8723D					0x042C
++#define REG_DARFRC_8723D					0x0430
++#define REG_RARFRC_8723D					0x0438
++#define REG_RRSR_8723D						0x0440
++#define REG_ARFR0_8723D						0x0444
++#define REG_ARFR1_8723D						0x044C
++#define REG_CCK_CHECK_8723D					0x0454
++#define REG_BCNQ2_BDNY_8723D				0x0455
++#define REG_AMPDU_MAX_TIME_8723D			0x0456
++#define REG_BCNQ1_BDNY_8723D				0x0457
++#define REG_AMPDU_MAX_LENGTH_8723D			0x0458
++#define REG_WMAC_LBK_BUF_HD_8723D			0x045D
++#define REG_NDPA_OPT_CTRL_8723D				0x045F
++#define REG_FAST_EDCA_CTRL_8723D			0x0460
++#define REG_RD_RESP_PKT_TH_8723D			0x0463
++#define REG_DATA_SC_8723D					0x0483
++#define REG_TXRPT_START_OFFSET				0x04AC
++#define REG_POWER_STAGE1_8723D				0x04B4
++#define REG_PTCL_SDF_STATUS_8723D			0x04BB
++#define REG_SW_AMPDU_BURST_MODE_CTRL_8723D	0x04BC
++#define REG_EVTQ_BNDY_8723D					0x04BF
++#define REG_PKT_LIFE_TIME_8723D				0x04C0
++#define REG_PKT_BE_BK_LIFE_TIME_8723D		0x04C2 // ??????
++
++#define REG_STBC_SETTING_8723D				0x04C4
++#define REG_HT_SINGLE_AMPDU_8723D			0x04C7
++#define REG_PROT_MODE_CTRL_8723D			0x04C8
++#define REG_MAX_AGGR_NUM_8723D				0x04CA 
++#define REG_RTS_MAX_AGGR_NUM_8723D			0x04CB
++#define REG_BAR_MODE_CTRL_8723D				0x04CC
++#define REG_RA_TRY_RATE_AGG_LMT_8723D		0x04CF
++#define REG_MACID_SLEEP2_8723D				0x04D0
++#define REG_PTCL_HWSSN0_8723D				0x04D8
++#define REG_TXPKTBUF_WMAC_LBK_BF_HD_8723D	0x045D // ??????
++
++
++/************* 0x1480~0x14A7 is for NAN ***************/
++//Own Master Rank, 8Bytes
++#define	REG_NAN_INTERFACE_ADDR_8723D		0x2480	// 6 bytes
++#define	REG_NAN_RANDOM_FACTOR_8723D			0x2486	// 1 byte
++#define	REG_NAN_MASTER_PREF_8723D			0x2487	// 1 byte
++
++//0x5dc[25:24] NAN role
++
++//Current Anchor Master Record
++#define	REG_NAN_CAMR_L_8723D				0x2488	// 4 bytes
++#define	REG_NAN_CAMR_H_8723D				0x248C	// 4 byte
++//#define REG_HOP_CNT_8723D					0x05DC
++#define	REG_NAN_CAMR_AMBTT_8723D			0x2490	// 4 bytes
++
++//Last Anchor Master Record
++#define	REG_NAN_LAMR_L_8723D				0x2494	// 4 bytes
++#define	REG_NAN_LAMR_H_8723D				0x2498	// 4 byte
++#define	REG_NAN_LAMR_AMBTT_8723D			0x249C	// 4 bytes
++
++//TSF Synced:bit 0
++//Anchor Master: bit 7
++#define REG_NAN_STATUS_8723D				0x24A0	//BIT0
++/***************************************************/
++
++
++//-----------------------------------------------------
++//
++//	0x0500h ~ 0x05FFh	EDCA Configuration
++//
++//-----------------------------------------------------
++// gogogo
++#define REG_EDCA_VO_PARAM_8723D			0x0500
++#define REG_EDCA_VI_PARAM_8723D			0x0504
++#define REG_EDCA_BE_PARAM_8723D			0x0508
++#define REG_EDCA_BK_PARAM_8723D			0x050C
++#define REG_BCNTCFG_8723D				0x0510
++#define REG_PIFS_8723D					0x0512
++#define REG_RDG_PIFS_8723D				0x0513
++#define REG_SIFS_CTX_8723D				0x0514
++#define REG_SIFS_TRX_8723D				0x0516
++#define REG_AGGR_BREAK_TIME_8723D		0x051A
++#define REG_SLOT_8723D					0x051B
++#define REG_TX_PTCL_CTRL_8723D			0x0520
++#define REG_TXPAUSE_8723D				0x0522
++#define REG_DIS_TXREQ_CLR_8723D			0x0523
++#define REG_RD_CTRL_8723D				0x0524
++//
++// Format for offset 540h-542h:
++//	[3:0]:   TBTT prohibit setup in unit of 32us. The time for HW getting beacon content before TBTT.
++//	[7:4]:   Reserved.
++//	[19:8]:  TBTT prohibit hold in unit of 32us. The time for HW holding to send the beacon packet.
++//	[23:20]: Reserved
++// Description:
++//	              |
++//     |<--Setup--|--Hold------------>|
++//	--------------|----------------------
++//                |
++//               TBTT
++// Note: We cannot update beacon content to HW or send any AC packets during the time between Setup and Hold.
++// Described by Designer Tim and Bruce, 2011-01-14.
++//
++#define REG_TBTT_PROHIBIT_8723D			0x0540
++#define REG_RD_NAV_NXT_8723D			0x0544
++#define REG_NAV_PROT_LEN_8723D			0x0546
++#define REG_BCN_CTRL_8723D				0x0550
++#define REG_EDCA_BCNCTRL1_IOREG_8723D	0x0551
++#define REG_MBID_NUM_8723D				0x0552
++#define REG_DUAL_TSF_RST_8723D			0x0553
++#define REG_BCN_INTERVAL_8723D			0x0554
++#define REG_DRVERLYINT_8723D			0x0558
++#define REG_BCNDMATIM_8723D				0x0559
++#define REG_ATIMWND_8723D				0x055A
++#define REG_USTIME_TSF_8723D			0x055C
++#define REG_BCN_MAX_ERR_8723D			0x055D
++#define REG_RXTSF_OFFSET_CCK_8723D		0x055E
++#define REG_RXTSF_OFFSET_OFDM_8723D		0x055F	
++#define REG_TSFTR_8723D					0x0560
++#define REG_CTWND_8723D					0x0572
++#define REG_SECONDARY_CCA_CTRL_8723D	0x0577 // ??????
++#define	REG_TSFTR2_8723D				0x0578
++#define REG_PSTIMER_8723D				0x0580
++#define REG_TIMER0_8723D				0x0584
++#define REG_TIMER1_8723D				0x0588
++#define	REG_SCH_MULTI_BCN_8723D			0x05B2
++#define REG_SCH_CURRENT_BCN_8723D		0x05B3
++#define REG_ACMHWCTRL_8723D				0x05C0
++#define REG_SCH_SDFX_EARLY_8723D		0x05CF
++#define REG_SCH_PORT2_EARLY_8723D		0x05D0
++#define REG_SCH_TSFT_DIFF_8723D			0x05D2
++#define REG_EDCA_BCNCTRL2_IOREG_8723D	0x05D4
++#define REG_EDCA_DRVERLYINT1_IOREG_8723D	0x05D4
++#define REG_EDCA_BCNSPACE3_IOREG_8723D	0x05D8
++#define REG_EDCA_BCNSPACE4_IOREG_8723D	0x05DA
++#define REG_HOP_CNT_8723D				0x05DC
++#define REG_SCH_M_DW_8723D				0x05DD
++#define REG_SCH_M_SLOT_8723D			0x05DE
++#define REG_SCH_EARLY_DWEND_8723D		0x05DF
++#define REG_SCH_TXCMD_8723D				0x05F8
++
++//-----------------------------------------------------
++//
++//	0x0600h ~ 0x07FFh	WMAC Configuration
++//
++//-----------------------------------------------------
++// gogogo
++#define REG_MAC_CR_8723D				0x0600
++#define REG_TCR_8723D					0x0604
++#define REG_RCR_8723D					0x0608
++#define REG_RX_PKT_LIMIT_8723D			0x060C
++#define REG_RX_DLK_TIME_8723D			0x060D
++#define REG_RX_DRVINFO_SZ_8723D			0x060F
++
++#define REG_MACID_8723D					0x0610
++#define REG_BSSID_8723D					0x0618
++#define REG_MAR_8723D					0x0620
++#define REG_MBIDCAMCFG_8723D			0x0628
++
++#define REG_USTIME_EDCA_8723D			0x0638
++#define REG_MAC_SPEC_SIFS_8723D			0x063A
++#define REG_RESP_SIFP_CCK_8723D			0x063C
++#define REG_RESP_SIFS_OFDM_8723D		0x063E
++#define REG_ACKTO_8723D					0x0640
++#define REG_CTS2TO_8723D				0x0641
++#define REG_EIFS_8723D					0x0642
++
++#define REG_NAV_UPPER_8723D				0x0652	// ??????
++#define REG_TRXPTCL_CTL_8723D			0x0668
++
++// Security
++#define REG_CAMCMD_8723D				0x0670
++#define REG_CAMWRITE_8723D				0x0674
++#define REG_CAMREAD_8723D				0x0678
++#define REG_CAMDBG_8723D				0x067C
++#define REG_SECCFG_8723D				0x0680
++
++// Power
++#define REG_WOW_CTRL_8723D				0x0690
++#define REG_PS_RX_INFO_8723D			0x0692
++#define REG_UAPSD_TID_8723D				0x0693
++#define REG_WKFMCAM_NUM_8723D			0x0698
++#define REG_RXFLTMAP0_8723D				0x06A0
++#define REG_RXFLTMAP1_8723D				0x06A2
++#define REG_RXFLTMAP2_8723D				0x06A4
++#define REG_BCN_PSR_RPT_8723D			0x06A8
++#define REG_BT_COEX_TABLE_8723D			0x06C0
++#define REG_ASSOCIATED_BFMER0_INFO_8723D	0x06E4
++#define REG_ASSOCIATED_BFMER1_INFO_8723D	0x06EC
++#define REG_CSI_RPT_PARAM_BW20_8723D	0x06F4
++#define REG_CSI_RPT_PARAM_BW40_8723D	0x06F8
++#define REG_CSI_RPT_PARAM_BW80_8723D	0x06FC
++
++// Hardware Port 2
++#define REG_MACID1_8723D				0x0700
++#define REG_BSSID1_8723D				0x0708
++#define REG_ASSOCIATED_BFMEE_SEL_8723D	0x0714
++#define REG_SND_PTCL_CTRL_8723D			0x0718
++
++//-----------------------------------------------------
++//
++//	Redifine 8192C register definition for compatibility
++//
++//-----------------------------------------------------
++
++// TODO: use these definition when using REG_xxx naming rule.
++// NOTE: DO NOT Remove these definition. Use later.
++#define	EFUSE_CTRL_8723D					REG_EFUSE_CTRL_8723D		// E-Fuse Control.
++#define	EFUSE_TEST_8723D					REG_LDO_EFUSE_CTRL_8723D		// E-Fuse Test.
++#define	MSR_8723D							(REG_CR_8723D + 2)		// Media Status register
++#define	ISR_8723D							REG_HISR0_8723D
++#define	TSFR_8723D							REG_TSFTR_8723D			// Timing Sync Function Timer Register.
++
++// Redifine MACID register, to compatible prior ICs.
++#define	IDR0_8723D							REG_MACID_8723D			// MAC ID Register, Offset 0x0050-0x0053
++#define	IDR4_8723D							(REG_MACID_8723D + 4)	// MAC ID Register, Offset 0x0054-0x0055
++
++
++//
++// 9. Security Control Registers	(Offset: )
++//
++#define	RWCAM_8723D						REG_CAMCMD_8723D		//IN 8190 Data Sheet is called CAMcmd
++#define	WCAMI_8723D						REG_CAMWRITE_8723D		// Software write CAM input content
++#define	RCAMO_8723D						REG_CAMREAD_8723D		// Software read/write CAM config
++#define	CAMDBG_8723D						REG_CAMDBG_8723D
++#define	SECR_8723D							REG_SECCFG_8723D		//Security Configuration Register
++
++
++//----------------------------------------------------------------------------
++//       8195 IMR/ISR bits						(offset 0xB0,  8bits)
++//----------------------------------------------------------------------------
++#define	IMR_DISABLED_8723D					0
++// IMR DW0(0x00B0-00B3) Bit 0-31
++#define	IMR_TIMER2_8723D					BIT31		// Timeout interrupt 2
++#define	IMR_TIMER1_8723D					BIT30		// Timeout interrupt 1	
++#define	IMR_PSTIMEOUT_8723D				BIT29		// Power Save Time Out Interrupt
++#define	IMR_GTINT4_8723D					BIT28		// When GTIMER4 expires, this bit is set to 1	
++#define	IMR_GTINT3_8723D					BIT27		// When GTIMER3 expires, this bit is set to 1	
++#define	IMR_TXBCN0ERR_8723D				BIT26		// Transmit Beacon0 Error			
++#define	IMR_TXBCN0OK_8723D				BIT25		// Transmit Beacon0 OK			
++#define	IMR_TSF_BIT32_TOGGLE_8723D		BIT24		// TSF Timer BIT32 toggle indication interrupt			
++#define	IMR_BCNDMAINT0_8723D				BIT20		// Beacon DMA Interrupt 0			
++#define	IMR_BCNDERR0_8723D				BIT16		// Beacon Queue DMA OK0			
++#define	IMR_HSISR_IND_ON_INT_8723D		BIT15		// HSISR Indicator (HSIMR & HSISR is true, this bit is set to 1)
++#define	IMR_BCNDMAINT_E_8723D			BIT14		// Beacon DMA Interrupt Extension for Win7			
++#define	IMR_ATIMEND_8723D				BIT12		// CTWidnow End or ATIM Window End
++#define	IMR_C2HCMD_8723D					BIT10		// CPU to Host Command INT Status, Write 1 clear	
++#define	IMR_CPWM2_8723D					BIT9			// CPU power Mode exchange INT Status, Write 1 clear	
++#define	IMR_CPWM_8723D					BIT8			// CPU power Mode exchange INT Status, Write 1 clear	
++#define	IMR_HIGHDOK_8723D				BIT7			// High Queue DMA OK	
++#define	IMR_MGNTDOK_8723D				BIT6			// Management Queue DMA OK	
++#define	IMR_BKDOK_8723D					BIT5			// AC_BK DMA OK		
++#define	IMR_BEDOK_8723D					BIT4			// AC_BE DMA OK	
++#define	IMR_VIDOK_8723D					BIT3			// AC_VI DMA OK		
++#define	IMR_VODOK_8723D					BIT2			// AC_VO DMA OK	
++#define	IMR_RDU_8723D					BIT1			// Rx Descriptor Unavailable	
++#define	IMR_ROK_8723D					BIT0			// Receive DMA OK
++
++// IMR DW1(0x00B4-00B7) Bit 0-31
++#define	IMR_BCNDMAINT7_8723D				BIT27		// Beacon DMA Interrupt 7
++#define	IMR_BCNDMAINT6_8723D				BIT26		// Beacon DMA Interrupt 6
++#define	IMR_BCNDMAINT5_8723D				BIT25		// Beacon DMA Interrupt 5
++#define	IMR_BCNDMAINT4_8723D				BIT24		// Beacon DMA Interrupt 4
++#define	IMR_BCNDMAINT3_8723D				BIT23		// Beacon DMA Interrupt 3
++#define	IMR_BCNDMAINT2_8723D				BIT22		// Beacon DMA Interrupt 2
++#define	IMR_BCNDMAINT1_8723D				BIT21		// Beacon DMA Interrupt 1
++#define	IMR_BCNDOK7_8723D					BIT20		// Beacon Queue DMA OK Interrup 7
++#define	IMR_BCNDOK6_8723D					BIT19		// Beacon Queue DMA OK Interrup 6
++#define	IMR_BCNDOK5_8723D					BIT18		// Beacon Queue DMA OK Interrup 5
++#define	IMR_BCNDOK4_8723D					BIT17		// Beacon Queue DMA OK Interrup 4
++#define	IMR_BCNDOK3_8723D					BIT16		// Beacon Queue DMA OK Interrup 3
++#define	IMR_BCNDOK2_8723D					BIT15		// Beacon Queue DMA OK Interrup 2
++#define	IMR_BCNDOK1_8723D					BIT14		// Beacon Queue DMA OK Interrup 1
++#define	IMR_ATIMEND_E_8723D				BIT13		// ATIM Window End Extension for Win7
++#define	IMR_TXERR_8723D					BIT11		// Tx Error Flag Interrupt Status, write 1 clear.
++#define	IMR_RXERR_8723D					BIT10		// Rx Error Flag INT Status, Write 1 clear
++#define	IMR_TXFOVW_8723D					BIT9			// Transmit FIFO Overflow
++#define	IMR_RXFOVW_8723D					BIT8			// Receive FIFO Overflow
++
++
++
++#define	IMR_MCUERR_8723D						BIT28		// Beacon DMA Interrupt 7
++
++
++/*===================================================================
++=====================================================================
++Here the register defines are for 92C. When the define is as same with 92C, 
++we will use the 92C's define for the consistency
++So the following defines for 92C is not entire!!!!!!
++=====================================================================
++=====================================================================*/
++/*
++Based on Datasheet V33---090401
++Register Summary
++Current IOREG MAP
++0x0000h ~ 0x00FFh   System Configuration (256 Bytes)
++0x0100h ~ 0x01FFh   MACTOP General Configuration (256 Bytes)
++0x0200h ~ 0x027Fh   TXDMA Configuration (128 Bytes)
++0x0280h ~ 0x02FFh   RXDMA Configuration (128 Bytes)
++0x0300h ~ 0x03FFh   PCIE EMAC Reserved Region (256 Bytes)
++0x0400h ~ 0x04FFh   Protocol Configuration (256 Bytes)
++0x0500h ~ 0x05FFh   EDCA Configuration (256 Bytes)
++0x0600h ~ 0x07FFh   WMAC Configuration (512 Bytes)
++0x2000h ~ 0x3FFFh   8051 FW Download Region (8196 Bytes)
++*/
++//----------------------------------------------------------------------------
++//		 8195 (TXPAUSE) transmission pause 	(Offset 0x522, 8 bits)
++//----------------------------------------------------------------------------
++/*
++#define		StopBecon			BIT6
++#define		StopHigh				BIT5
++#define		StopMgt				BIT4
++#define		StopVO				BIT3
++#define		StopVI				BIT2
++#define		StopBE				BIT1
++#define		StopBK				BIT0
++*/
++
++
++
++//============================================================================
++//       8192C Regsiter Bit and Content definition 
++//============================================================================
++//-----------------------------------------------------
++//
++//	0x0000h ~ 0x00FFh	System Configuration
++//
++//-----------------------------------------------------
++/*
++//2 SYS_ISO_CTRL
++#define ISO_MD2PP						BIT(0)
++#define ISO_UA2USB					BIT(1)
++#define ISO_UD2CORE					BIT(2)
++#define ISO_PA2PCIE					BIT(3)
++#define ISO_PD2CORE					BIT(4)
++#define ISO_IP2MAC					BIT(5)
++#define ISO_DIOP						BIT(6)
++#define ISO_DIOE						BIT(7)
++#define ISO_EB2CORE					BIT(8)
++#define ISO_DIOR						BIT(9)
++#define PWC_EV12V						BIT(15)
++
++
++//2 SYS_FUNC_EN
++#define FEN_BBRSTB					BIT(0)
++#define FEN_BB_GLB_RSTn				BIT(1)
++#define FEN_USBA						BIT(2)
++#define FEN_UPLL						BIT(3)
++#define FEN_USBD						BIT(4)
++#define FEN_DIO_PCIE					BIT(5)
++#define FEN_PCIEA						BIT(6)
++#define FEN_PPLL						BIT(7)
++#define FEN_PCIED						BIT(8)
++#define FEN_DIOE						BIT(9)
++#define FEN_CPUEN						BIT(10)
++#define FEN_DCORE						BIT(11)
++#define FEN_ELDR						BIT(12)
++#define FEN_DIO_RF					BIT(13)
++#define FEN_HWPDN					BIT(14)
++#define FEN_MREGEN					BIT(15)
++
++//2 APS_FSMCO
++#define PFM_LDALL						BIT(0)
++#define PFM_ALDN						BIT(1)
++#define PFM_LDKP						BIT(2)
++#define PFM_WOWL					BIT(3)
++#define EnPDN							BIT(4)
++#define PDN_PL						BIT(5)
++#define APFM_ONMAC					BIT(8)
++#define APFM_OFF						BIT(9)
++#define APFM_RSM						BIT(10)
++#define AFSM_HSUS						BIT(11)
++#define AFSM_PCIE						BIT(12)
++#define APDM_MAC					BIT(13)
++#define APDM_HOST					BIT(14)
++#define APDM_HPDN					BIT(15)
++#define RDY_MACON					BIT(16)
++#define SUS_HOST						BIT(17)
++#define ROP_ALD						BIT(20)
++#define ROP_PWR						BIT(21)
++#define ROP_SPS						BIT(22)
++#define SOP_MRST						BIT(25)
++#define SOP_FUSE						BIT(26)
++#define SOP_ABG						BIT(27)
++#define SOP_AMB						BIT(28)
++#define SOP_RCK						BIT(29)
++#define SOP_A8M						BIT(30)
++#define XOP_BTCK						BIT(31)
++
++//2 SYS_CLKR
++#define ANAD16V_EN					BIT(0)
++#define ANA8M						BIT(1)
++#define MACSLP						BIT(4)
++#define LOADER_CLK_EN					BIT(5)
++
++
++//2 9346CR
++
++#define		BOOT_FROM_EEPROM		BIT(4)
++#define		EEPROM_EN				BIT(5)
++
++
++//2 RF_CTRL
++#define RF_EN						BIT(0)
++#define RF_RSTB					BIT(1)
++#define RF_SDMRSTB				BIT(2)
++
++//2 LDOV12D_CTRL
++#define LDV12_EN					BIT(0)
++#define LDV12_SDBY				BIT(1)
++#define LPLDO_HSM					BIT(2)
++#define LPLDO_LSM_DIS				BIT(3)
++#define _LDV12_VADJ(x)				(((x) & 0xF) << 4)
++
++
++//2 EFUSE_TEST (For RTL8723 partially)
++#define EF_TRPT						BIT(7)
++#define EF_CELL_SEL						(BIT(8)|BIT(9)) // 00: Wifi Efuse, 01: BT Efuse0, 10: BT Efuse1, 11: BT Efuse2
++#define LDOE25_EN						BIT(31)
++#define EFUSE_SEL(x)					(((x) & 0x3) << 8)
++#define EFUSE_SEL_MASK				0x300
++#define EFUSE_WIFI_SEL_0				0x0
++#define EFUSE_BT_SEL_0					0x1
++#define EFUSE_BT_SEL_1					0x2
++#define EFUSE_BT_SEL_2					0x3
++
++
++//2 8051FWDL
++//2 MCUFWDL
++#define MCUFWDL_EN					BIT(0)
++#define MCUFWDL_RDY					BIT(1)
++#define FWDL_ChkSum_rpt				BIT(2)
++#define MACINI_RDY					BIT(3)
++#define BBINI_RDY						BIT(4)
++#define RFINI_RDY						BIT(5)
++#define WINTINI_RDY					BIT(6)
++#define RAM_DL_SEL					BIT(7)
++#define ROM_DLEN						BIT(19)
++#define CPRST							BIT(23)
++
++
++
++//2 REG_SYS_CFG
++#define XCLK_VLD						BIT(0)
++#define ACLK_VLD						BIT(1)
++#define UCLK_VLD						BIT(2)
++#define PCLK_VLD						BIT(3)
++#define PCIRSTB						BIT(4)
++#define V15_VLD						BIT(5)
++#define TRP_B15V_EN					BIT(7)
++#define SIC_IDLE						BIT(8)
++#define BD_MAC2						BIT(9)
++#define BD_MAC1						BIT(10)
++#define IC_MACPHY_MODE				BIT(11)
++#define CHIP_VER						(BIT(12)|BIT(13)|BIT(14)|BIT(15))
++#define BT_FUNC						BIT(16)
++#define VENDOR_ID						BIT(19)
++#define PAD_HWPD_IDN					BIT(22)
++#define TRP_VAUX_EN					BIT(23)	// RTL ID
++#define TRP_BT_EN						BIT(24)
++#define BD_PKG_SEL					BIT(25)
++#define BD_HCI_SEL						BIT(26)
++#define TYPE_ID						BIT(27)
++
++#define CHIP_VER_RTL_MASK				0xF000	//Bit 12 ~ 15
++#define CHIP_VER_RTL_SHIFT				12
++
++*/
++//-----------------------------------------------------
++//
++//	0x0100h ~ 0x01FFh	MACTOP General Configuration
++//
++//-----------------------------------------------------
++/*
++
++//2 Function Enable Registers
++//2 CR 0x0100-0x0103
++
++
++#define HCI_TXDMA_EN					BIT(0)
++#define HCI_RXDMA_EN					BIT(1)
++#define TXDMA_EN						BIT(2)
++#define RXDMA_EN						BIT(3)
++#define PROTOCOL_EN					BIT(4)
++#define SCHEDULE_EN					BIT(5)
++#define MACTXEN						BIT(6)
++#define MACRXEN						BIT(7)
++#define ENSWBCN						BIT(8)
++#define ENSEC							BIT(9)
++#define CALTMR_EN					BIT(10)	// 32k CAL TMR enable
++
++// Network type
++#define _NETTYPE(x)					(((x) & 0x3) << 16)
++#define MASK_NETTYPE					0x30000
++#define NT_NO_LINK					0x0
++#define NT_LINK_AD_HOC				0x1
++#define NT_LINK_AP						0x2
++#define NT_AS_AP						0x3
++
++
++//2 PBP - Page Size Register 0x0104
++#define GET_RX_PAGE_SIZE(value)			((value) & 0xF)
++#define GET_TX_PAGE_SIZE(value)			(((value) & 0xF0) >> 4)
++#define _PSRX_MASK					0xF
++#define _PSTX_MASK					0xF0
++#define _PSRX(x)						(x)
++#define _PSTX(x)						((x) << 4)
++
++#define PBP_64						0x0
++#define PBP_128						0x1
++#define PBP_256						0x2
++#define PBP_512						0x3
++#define PBP_1024						0x4
++
++
++//2 TX/RXDMA 0x010C
++#define RXDMA_ARBBW_EN				BIT(0)
++#define RXSHFT_EN						BIT(1)
++#define RXDMA_AGG_EN					BIT(2)
++#define QS_VO_QUEUE					BIT(8)
++#define QS_VI_QUEUE					BIT(9)
++#define QS_BE_QUEUE					BIT(10)
++#define QS_BK_QUEUE					BIT(11)
++#define QS_MANAGER_QUEUE			BIT(12)
++#define QS_HIGH_QUEUE					BIT(13)
++
++#define HQSEL_VOQ						BIT(0)
++#define HQSEL_VIQ						BIT(1)
++#define HQSEL_BEQ						BIT(2)
++#define HQSEL_BKQ						BIT(3)
++#define HQSEL_MGTQ					BIT(4)
++#define HQSEL_HIQ						BIT(5)
++
++// For normal driver, 0x10C
++#define _TXDMA_HIQ_MAP(x) 	 		(((x)&0x3) << 14)
++#define _TXDMA_MGQ_MAP(x) 	 		(((x)&0x3) << 12)
++#define _TXDMA_BKQ_MAP(x) 	 		(((x)&0x3) << 10)		
++#define _TXDMA_BEQ_MAP(x) 	 		(((x)&0x3) << 8 )
++#define _TXDMA_VIQ_MAP(x) 	 		(((x)&0x3) << 6 )
++#define _TXDMA_VOQ_MAP(x) 	 		(((x)&0x3) << 4 )
++
++#define QUEUE_LOW					1
++#define QUEUE_NORMAL				2
++#define QUEUE_HIGH					3
++
++
++//2 REG_C2HEVT_CLEAR 0x01AF 
++#define	C2H_EVT_HOST_CLOSE			0x00	// Set by driver and notify FW that the driver has read the C2H command message
++#define	C2H_EVT_FW_CLOSE			0xFF		// Set by FW indicating that FW had set the C2H command message and it's not yet read by driver.
++
++
++
++//2 LLT_INIT 0x01E0
++#define _LLT_NO_ACTIVE					0x0
++#define _LLT_WRITE_ACCESS				0x1
++#define _LLT_READ_ACCESS				0x2
++
++#define _LLT_INIT_DATA(x)				((x) & 0xFF)
++#define _LLT_INIT_ADDR(x)				(((x) & 0xFF) << 8)
++#define _LLT_OP(x)						(((x) & 0x3) << 30)
++#define _LLT_OP_VALUE(x)				(((x) >> 30) & 0x3)
++
++*/
++//-----------------------------------------------------
++//
++//	0x0200h ~ 0x027Fh	TXDMA Configuration
++//
++//-----------------------------------------------------
++/*
++//2 TDECTL 0x0208
++#define BLK_DESC_NUM_SHIFT			4
++#define BLK_DESC_NUM_MASK			0xF
++
++
++//2 TXDMA_OFFSET_CHK 0x020C
++#define DROP_DATA_EN				BIT(9)
++*/
++//-----------------------------------------------------
++//
++//	0x0280h ~ 0x028Bh	RX DMA Configuration
++//
++//-----------------------------------------------------
++/*
++//2 REG_RXDMA_CONTROL, 0x0286h
++
++// Write only. When this bit is set, RXDMA will decrease RX PKT counter by one. Before
++// this bit is polled, FW shall update RXFF_RD_PTR first. This register is write pulse and auto clear.
++#define	RXPKT_RELEASE_POLL			BIT(0)
++// Read only. When RXMA finishes on-going DMA operation, RXMDA will report idle state in 
++// this bit. FW can start releasing packets after RXDMA entering idle mode.
++#define	RXDMA_IDLE					BIT(1)	
++// When this bit is set, RXDMA will enter this mode after on-going RXDMA packet to host 
++// completed, and stop DMA packet to host. RXDMA will then report Default: 0;
++#define	RW_RELEASE_EN				BIT(2)
++*/
++//-----------------------------------------------------
++//
++//	0x0400h ~ 0x047Fh	Protocol Configuration
++//
++//-----------------------------------------------------
++/*
++//2 FWHW_TXQ_CTRL 0x0420
++#define EN_AMPDU_RTY_NEW			BIT(7)
++
++
++//2 REG_LIFECTRL_CTRL 0x0426
++#define	HAL92C_EN_PKT_LIFE_TIME_BK		BIT3
++#define	HAL92C_EN_PKT_LIFE_TIME_BE		BIT2
++#define	HAL92C_EN_PKT_LIFE_TIME_VI		BIT1
++#define	HAL92C_EN_PKT_LIFE_TIME_VO		BIT0
++
++#define	HAL92C_MSDU_LIFE_TIME_UNIT		128		// in us, said by Tim.
++
++
++//2 SPEC SIFS 0x0428 
++#define _SPEC_SIFS_CCK(x)				((x) & 0xFF)
++#define _SPEC_SIFS_OFDM(x)				(((x) & 0xFF) << 8)
++
++//2 RL 0x042A
++#define	RETRY_LIMIT_SHORT_SHIFT		8
++#define	RETRY_LIMIT_LONG_SHIFT		0
++
++#define _LRL(x)							((x) & 0x3F)
++#define _SRL(x)							(((x) & 0x3F) << 8)
++*/
++
++//-----------------------------------------------------
++//
++//	0x0500h ~ 0x05FFh	EDCA Configuration
++//
++//-----------------------------------------------------
++/*
++//2 EDCA setting 0x050C
++#define AC_PARAM_TXOP_LIMIT_OFFSET		16
++#define AC_PARAM_ECW_MAX_OFFSET		12
++#define AC_PARAM_ECW_MIN_OFFSET		8
++#define AC_PARAM_AIFS_OFFSET			0
++
++
++//2 BCN_CTRL 0x0550
++#define EN_TXBCN_RPT						BIT(2)
++#define EN_BCN_FUNCTION					BIT(3)
++
++//2 TxPause 0x0522
++#define STOP_BCNQ						BIT(6)
++*/
++
++
++//2 ACMHWCTRL 0x05C0
++#define	AcmHw_HwEn_8723D				BIT(0)
++#define	AcmHw_VoqEn_8723D				BIT(1)
++#define	AcmHw_ViqEn_8723D				BIT(2)
++#define	AcmHw_BeqEn_8723D				BIT(3)
++#define	AcmHw_VoqStatus_8723D			BIT(5)
++#define	AcmHw_ViqStatus_8723D			BIT(6)
++#define	AcmHw_BeqStatus_8723D			BIT(7)
++
++
++
++//-----------------------------------------------------
++//
++//	0x0600h ~ 0x07FFh	WMAC Configuration
++//
++//-----------------------------------------------------
++/*
++
++//2 TCR 0x0604
++#define DIS_GCLK							BIT(1)
++#define PAD_SEL							BIT(2)
++#define PWR_ST							BIT(6)
++#define PWRBIT_OW_EN					BIT(7)
++#define ACRC								BIT(8)
++#define CFENDFORM						BIT(9)
++#define ICV								BIT(10)
++*/
++
++//----------------------------------------------------------------------------
++//       8195 (RCR) Receive Configuration Register	(Offset 0x608, 32 bits)
++//----------------------------------------------------------------------------
++/*
++#define	RCR_APPFCS					BIT31		// WMAC append FCS after pauload
++#define	RCR_APP_MIC					BIT30		// MACRX will retain the MIC at the bottom of the packet. 
++#define	RCR_APP_ICV					BIT29       // MACRX will retain the ICV at the bottom of the packet.
++#define	RCR_APP_PHYST_RXFF			BIT28       // HY Status is appended before RX packet in RXFF
++#define	RCR_APP_BA_SSN				BIT27		// SSN of previous TXBA is appended as after original RXDESC as the 4-th DW of RXDESC.
++#define	RCR_RSVD_BIT26				BIT26		// Reserved
++*/
++#define	RCR_TCPOFLD_EN				BIT25		// Enable TCP checksum offload
++/*#define	RCR_ENMBID					BIT24		// Enable Multiple BssId. Only response ACK to the packets whose DID(A1) matching to the addresses in the MBSSID CAM Entries.
++#define	RCR_LSIGEN					BIT23		// Enable LSIG TXOP Protection function. Search KEYCAM for each rx packet to check if LSIGEN bit is set.
++#define	RCR_MFBEN					BIT22		// Enable immediate MCS Feedback function. When Rx packet with MRQ = 1'b1, then search KEYCAM to find sender's MCS Feedback function and send response.
++*/
++
++
++#endif // #ifndef __INC_HAL8723DREG_H
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_bb.c b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_bb.c
+new file mode 100644
+index 0000000..9e6a3f9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_bb.c
+@@ -0,0 +1,918 @@
++/****************************************************************************** 
++* 
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved. 
++* 
++* This program is free software; you can redistribute it and/or modify it 
++* under the terms of version 2 of the GNU General Public License as 
++* published by the Free Software Foundation. 
++* 
++* This program is distributed in the hope that it will be useful, but WITHOUT 
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for 
++* more details. 
++* 
++* You should have received a copy of the GNU General Public License along with 
++* this program; if not, write to the Free Software Foundation, Inc., 
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA 
++* 
++* 
++******************************************************************************/
++
++/*Image2HeaderVersion: 2.23*/
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#if (RTL8723D_SUPPORT == 1)
++static BOOLEAN
++CheckPositive(
++	IN  PDM_ODM_T     pDM_Odm,
++	IN  const u4Byte  Condition1,
++	IN  const u4Byte  Condition2,
++	IN	const u4Byte  Condition3,
++	IN	const u4Byte  Condition4
++)
++{
++	u1Byte    _BoardType = ((pDM_Odm->BoardType & BIT4) >> 4) << 0 | /* _GLNA*/
++				((pDM_Odm->BoardType & BIT3) >> 3) << 1 | /* _GPA*/ 
++				((pDM_Odm->BoardType & BIT7) >> 7) << 2 | /* _ALNA*/
++				((pDM_Odm->BoardType & BIT6) >> 6) << 3 | /* _APA */
++				((pDM_Odm->BoardType & BIT2) >> 2) << 4;  /* _BT*/  
++
++	u4Byte	cond1   = Condition1, cond2 = Condition2, cond3 = Condition3, cond4 = Condition4;
++	u4Byte    driver1 = pDM_Odm->CutVersion       << 24 | 
++				(pDM_Odm->SupportInterface & 0xF0) << 16 | 
++				pDM_Odm->SupportPlatform  << 16 | 
++				pDM_Odm->PackageType      << 12 | 
++				(pDM_Odm->SupportInterface & 0x0F) << 8  |
++				_BoardType;
++
++	u4Byte    driver2 = (pDM_Odm->TypeGLNA & 0xFF) <<  0 |  
++				(pDM_Odm->TypeGPA & 0xFF)  <<  8 | 
++				(pDM_Odm->TypeALNA & 0xFF) << 16 | 
++				(pDM_Odm->TypeAPA & 0xFF)  << 24; 
++
++u4Byte    driver3 = 0;
++
++	u4Byte    driver4 = (pDM_Odm->TypeGLNA & 0xFF00) >>  8 |
++				(pDM_Odm->TypeGPA & 0xFF00) |
++				(pDM_Odm->TypeALNA & 0xFF00) << 8 |
++				(pDM_Odm->TypeAPA & 0xFF00)  << 16;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("===> CheckPositive (cond1, cond2, cond3, cond4) = (0x%X 0x%X 0x%X 0x%X)\n", cond1, cond2, cond3, cond4));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("===> CheckPositive (driver1, driver2, driver3, driver4) = (0x%X 0x%X 0x%X 0x%X)\n", driver1, driver2, driver3, driver4));
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("	(Platform, Interface) = (0x%X, 0x%X)\n", pDM_Odm->SupportPlatform, pDM_Odm->SupportInterface));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("	(Board, Package) = (0x%X, 0x%X)\n", pDM_Odm->BoardType, pDM_Odm->PackageType));
++
++
++	/*============== Value Defined Check ===============*/
++	/*QFN Type [15:12] and Cut Version [27:24] need to do value check*/
++	
++	if (((cond1 & 0x0000F000) != 0) && ((cond1 & 0x0000F000) != (driver1 & 0x0000F000)))
++		return FALSE;
++	if (((cond1 & 0x0F000000) != 0) && ((cond1 & 0x0F000000) != (driver1 & 0x0F000000)))
++		return FALSE;
++
++	/*=============== Bit Defined Check ================*/
++	/* We don't care [31:28] */
++
++	cond1   &= 0x00FF0FFF; 
++	driver1 &= 0x00FF0FFF; 
++
++	if ((cond1 & driver1) == cond1) {
++		u4Byte bitMask = 0;
++
++		if ((cond1 & 0x0F) == 0) /* BoardType is DONTCARE*/
++			return TRUE;
++
++		if ((cond1 & BIT0) != 0) /*GLNA*/
++			bitMask |= 0x000000FF;
++		if ((cond1 & BIT1) != 0) /*GPA*/
++			bitMask |= 0x0000FF00;
++		if ((cond1 & BIT2) != 0) /*ALNA*/
++			bitMask |= 0x00FF0000;
++		if ((cond1 & BIT3) != 0) /*APA*/
++			bitMask |= 0xFF000000;
++
++		if (((cond2 & bitMask) == (driver2 & bitMask)) && ((cond4 & bitMask) == (driver4 & bitMask)))  /* BoardType of each RF path is matched*/
++			return TRUE;
++		else
++			return FALSE;
++	} else
++		return FALSE;
++}
++static BOOLEAN
++CheckNegative(
++	IN  PDM_ODM_T     pDM_Odm,
++	IN  const u4Byte  Condition1,
++	IN  const u4Byte  Condition2
++)
++{
++	return TRUE;
++}
++
++/******************************************************************************
++*                           AGC_TAB.TXT
++******************************************************************************/
++
++u4Byte Array_MP_8723D_AGC_TAB[] = { 
++		0xC78, 0xFE000101,
++		0xC78, 0xFD010101,
++		0xC78, 0xFC020101,
++		0xC78, 0xFB030101,
++		0xC78, 0xFA040101,
++		0xC78, 0xF9050101,
++		0xC78, 0xF8060101,
++		0xC78, 0xF7070101,
++		0xC78, 0xF6080101,
++		0xC78, 0xF5090101,
++		0xC78, 0xF40A0101,
++		0xC78, 0xF30B0101,
++		0xC78, 0xF20C0101,
++		0xC78, 0xF10D0101,
++		0xC78, 0xF00E0101,
++		0xC78, 0xEF0F0101,
++		0xC78, 0xEE100101,
++		0xC78, 0xED110101,
++		0xC78, 0xEC120101,
++		0xC78, 0xEB130101,
++		0xC78, 0xEA140101,
++		0xC78, 0xE9150101,
++		0xC78, 0xE8160101,
++		0xC78, 0xE7170101,
++		0xC78, 0xE6180101,
++		0xC78, 0xE5190101,
++		0xC78, 0xE41A0101,
++		0xC78, 0xE31B0101,
++		0xC78, 0xE21C0101,
++		0xC78, 0xE11D0101,
++		0xC78, 0xE01E0101,
++		0xC78, 0x861F0101,
++		0xC78, 0x85200101,
++		0xC78, 0x84210101,
++		0xC78, 0x83220101,
++		0xC78, 0x82230101,
++		0xC78, 0x81240101,
++		0xC78, 0x80250101,
++		0xC78, 0x44260101,
++		0xC78, 0x43270101,
++		0xC78, 0x42280101,
++		0xC78, 0x41290101,
++		0xC78, 0x402A0101,
++		0xC78, 0x022B0101,
++		0xC78, 0x012C0101,
++		0xC78, 0x002D0101,
++		0xC78, 0xC52E0001,
++		0xC78, 0xC42F0001,
++		0xC78, 0xC3300001,
++		0xC78, 0xC2310001,
++		0xC78, 0xC1320001,
++		0xC78, 0xC0330001,
++		0xC78, 0x04340001,
++		0xC78, 0x03350001,
++		0xC78, 0x02360001,
++		0xC78, 0x01370001,
++		0xC78, 0x00380001,
++		0xC78, 0x00390001,
++		0xC78, 0x003A0001,
++		0xC78, 0x003B0001,
++		0xC78, 0x003C0001,
++		0xC78, 0x003D0001,
++		0xC78, 0x003E0001,
++		0xC78, 0x003F0001,
++		0xC78, 0x6F002001,
++		0xC78, 0x6F012001,
++		0xC78, 0x6F022001,
++		0xC78, 0x6F032001,
++		0xC78, 0x6F042001,
++		0xC78, 0x6F052001,
++		0xC78, 0x6F062001,
++		0xC78, 0x6F072001,
++		0xC78, 0x6F082001,
++		0xC78, 0x6F092001,
++		0xC78, 0x6F0A2001,
++		0xC78, 0x6F0B2001,
++		0xC78, 0x6F0C2001,
++		0xC78, 0x6F0D2001,
++		0xC78, 0x6F0E2001,
++		0xC78, 0x6F0F2001,
++		0xC78, 0x6F102001,
++		0xC78, 0x6F112001,
++		0xC78, 0x6F122001,
++		0xC78, 0x6F132001,
++		0xC78, 0x6F142001,
++		0xC78, 0x6F152001,
++		0xC78, 0x6F162001,
++		0xC78, 0x6F172001,
++		0xC78, 0x6F182001,
++		0xC78, 0x6F192001,
++		0xC78, 0x6F1A2001,
++		0xC78, 0x6F1B2001,
++		0xC78, 0x6F1C2001,
++		0xC78, 0x6F1D2001,
++		0xC78, 0x6F1E2001,
++		0xC78, 0x6F1F2001,
++		0xC78, 0x6F202001,
++		0xC78, 0x6F212001,
++		0xC78, 0x6F222001,
++		0xC78, 0x6F232001,
++		0xC78, 0x6E242001,
++		0xC78, 0x6D252001,
++		0xC78, 0x6C262001,
++		0xC78, 0x6B272001,
++		0xC78, 0x6A282001,
++		0xC78, 0x69292001,
++		0xC78, 0x4B2A2001,
++		0xC78, 0x4A2B2001,
++		0xC78, 0x492C2001,
++		0xC78, 0x482D2001,
++		0xC78, 0x472E2001,
++		0xC78, 0x462F2001,
++		0xC78, 0x45302001,
++		0xC78, 0x44312001,
++		0xC78, 0x43322001,
++		0xC78, 0x42332001,
++		0xC78, 0x41342001,
++		0xC78, 0x40352001,
++		0xC78, 0x02362001,
++		0xC78, 0x01372001,
++		0xC78, 0x00382001,
++		0xC78, 0x00392001,
++		0xC78, 0x003A2001,
++		0xC78, 0x003B2001,
++		0xC78, 0x003C2001,
++		0xC78, 0x003D2001,
++		0xC78, 0x003E2001,
++		0xC78, 0x003F2001,
++		0xC78, 0x7F003101,
++		0xC78, 0x7F013101,
++		0xC78, 0x7F023101,
++		0xC78, 0x7F033101,
++		0xC78, 0x7F043101,
++		0xC78, 0x7F053101,
++		0xC78, 0x7F063101,
++		0xC78, 0x7F073101,
++		0xC78, 0x7E083101,
++		0xC78, 0x7D093101,
++		0xC78, 0x7C0A3101,
++		0xC78, 0x7B0B3101,
++		0xC78, 0x7A0C3101,
++		0xC78, 0x790D3101,
++		0xC78, 0x780E3101,
++		0xC78, 0x770F3101,
++		0xC78, 0x76103101,
++		0xC78, 0x75113101,
++		0xC78, 0x74123101,
++		0xC78, 0x73133101,
++		0xC78, 0x72143101,
++		0xC78, 0x71153101,
++		0xC78, 0x70163101,
++		0xC78, 0x6F173101,
++		0xC78, 0x6E183101,
++		0xC78, 0x6D193101,
++		0xC78, 0x6C1A3101,
++		0xC78, 0x6B1B3101,
++		0xC78, 0x6A1C3101,
++		0xC78, 0x691D3101,
++		0xC78, 0x681E3101,
++		0xC78, 0x4B1F3101,
++		0xC78, 0x4A203101,
++		0xC78, 0x49213101,
++		0xC78, 0x48223101,
++		0xC78, 0x47233101,
++		0xC78, 0x46243101,
++		0xC78, 0x45253101,
++		0xC78, 0x44263101,
++		0xC78, 0x43273101,
++		0xC78, 0x42283101,
++		0xC78, 0x41293101,
++		0xC78, 0x402A3101,
++		0xC78, 0x022B3101,
++		0xC78, 0x012C3101,
++		0xC78, 0x002D3101,
++		0xC78, 0x002E3101,
++		0xC78, 0x002F3101,
++		0xC78, 0x00303101,
++		0xC78, 0x00313101,
++		0xC78, 0x00323101,
++		0xC78, 0x00333101,
++		0xC78, 0x00343101,
++		0xC78, 0x00353101,
++		0xC78, 0x00363101,
++		0xC78, 0x00373101,
++		0xC78, 0x00383101,
++		0xC78, 0x00393101,
++		0xC78, 0x003A3101,
++		0xC78, 0x003B3101,
++		0xC78, 0x003C3101,
++		0xC78, 0x003D3101,
++		0xC78, 0x003E3101,
++		0xC78, 0x003F3101,
++		0xC78, 0xFE403101,
++		0xC78, 0xFD413101,
++		0xC78, 0xFC423101,
++		0xC78, 0xFB433101,
++		0xC78, 0xFA443101,
++		0xC78, 0xF9453101,
++		0xC78, 0xF8463101,
++		0xC78, 0xF7473101,
++		0xC78, 0xF6483101,
++		0xC78, 0xF5493101,
++		0xC78, 0xF44A3101,
++		0xC78, 0xF34B3101,
++		0xC78, 0xF24C3101,
++		0xC78, 0xF14D3101,
++		0xC78, 0xF04E3101,
++		0xC78, 0xEF4F3101,
++		0xC78, 0xEE503101,
++		0xC78, 0xED513101,
++		0xC78, 0xEC523101,
++		0xC78, 0xEB533101,
++		0xC78, 0xEA543101,
++		0xC78, 0xE9553101,
++		0xC78, 0xE8563101,
++		0xC78, 0xE7573101,
++		0xC78, 0xE6583101,
++		0xC78, 0xE5593101,
++		0xC78, 0xE45A3101,
++		0xC78, 0xE35B3101,
++		0xC78, 0xE25C3101,
++		0xC78, 0xE15D3101,
++		0xC78, 0xE05E3101,
++		0xC78, 0x865F3101,
++		0xC78, 0x85603101,
++		0xC78, 0x84613101,
++		0xC78, 0x83623101,
++		0xC78, 0x82633101,
++		0xC78, 0x81643101,
++		0xC78, 0x80653101,
++		0xC78, 0x80663101,
++		0xC78, 0x80673101,
++		0xC78, 0x80683101,
++		0xC78, 0x80693101,
++		0xC78, 0x806A3101,
++		0xC78, 0x806B3101,
++		0xC78, 0x806C3101,
++		0xC78, 0x806D3101,
++		0xC78, 0x806E3101,
++		0xC78, 0x806F3101,
++		0xC78, 0x80703101,
++		0xC78, 0x80713101,
++		0xC78, 0x80723101,
++		0xC78, 0x80733101,
++		0xC78, 0x80743101,
++		0xC78, 0x80753101,
++		0xC78, 0x80763101,
++		0xC78, 0x80773101,
++		0xC78, 0x80783101,
++		0xC78, 0x80793101,
++		0xC78, 0x807A3101,
++		0xC78, 0x807B3101,
++		0xC78, 0x807C3101,
++		0xC78, 0x807D3101,
++		0xC78, 0x807E3101,
++		0xC78, 0x807F3101,
++		0xC78, 0xEF402001,
++		0xC78, 0xEF412001,
++		0xC78, 0xEF422001,
++		0xC78, 0xEF432001,
++		0xC78, 0xEF442001,
++		0xC78, 0xEF452001,
++		0xC78, 0xEF462001,
++		0xC78, 0xEF472001,
++		0xC78, 0xEF482001,
++		0xC78, 0xEF492001,
++		0xC78, 0xEF4A2001,
++		0xC78, 0xEF4B2001,
++		0xC78, 0xEF4C2001,
++		0xC78, 0xEF4D2001,
++		0xC78, 0xEF4E2001,
++		0xC78, 0xEF4F2001,
++		0xC78, 0xEF502001,
++		0xC78, 0xEF512001,
++		0xC78, 0xEF522001,
++		0xC78, 0xEF532001,
++		0xC78, 0xEF542001,
++		0xC78, 0xEF552001,
++		0xC78, 0xEF562001,
++		0xC78, 0xEF572001,
++		0xC78, 0xEF582001,
++		0xC78, 0xEF592001,
++		0xC78, 0xEF5A2001,
++		0xC78, 0xEF5B2001,
++		0xC78, 0xEF5C2001,
++		0xC78, 0xEF5D2001,
++		0xC78, 0xEF5E2001,
++		0xC78, 0xEF5F2001,
++		0xC78, 0xEF602001,
++		0xC78, 0xEE612001,
++		0xC78, 0xED622001,
++		0xC78, 0xEC632001,
++		0xC78, 0xEB642001,
++		0xC78, 0xEA652001,
++		0xC78, 0xE9662001,
++		0xC78, 0xE8672001,
++		0xC78, 0xCB682001,
++		0xC78, 0xCA692001,
++		0xC78, 0xC96A2001,
++		0xC78, 0xC86B2001,
++		0xC78, 0xC76C2001,
++		0xC78, 0xC66D2001,
++		0xC78, 0xC56E2001,
++		0xC78, 0xC46F2001,
++		0xC78, 0xC3702001,
++		0xC78, 0xC2712001,
++		0xC78, 0xC1722001,
++		0xC78, 0xC0732001,
++		0xC78, 0x82742001,
++		0xC78, 0x81752001,
++		0xC78, 0x80762001,
++		0xC78, 0x80772001,
++		0xC78, 0x80782001,
++		0xC78, 0x80792001,
++		0xC78, 0x807A2001,
++		0xC78, 0x807B2001,
++		0xC78, 0x807C2001,
++		0xC78, 0x807D2001,
++		0xC78, 0x807E2001,
++		0xC78, 0x807F2001,
++		0xC78, 0xFA001101,
++		0xC78, 0xF9011101,
++		0xC78, 0xF8021101,
++		0xC78, 0xF7031101,
++		0xC78, 0xF6041101,
++		0xC78, 0xF5051101,
++		0xC78, 0xF4061101,
++		0xC78, 0xD7071101,
++		0xC78, 0xD6081101,
++		0xC78, 0xD5091101,
++		0xC78, 0xD40A1101,
++		0xC78, 0x970B1101,
++		0xC78, 0x960C1101,
++		0xC78, 0x950D1101,
++		0xC78, 0x940E1101,
++		0xC78, 0x930F1101,
++		0xC78, 0x92101101,
++		0xC78, 0x91111101,
++		0xC78, 0x90121101,
++		0xC78, 0x8F131101,
++		0xC78, 0x8E141101,
++		0xC78, 0x8D151101,
++		0xC78, 0x8C161101,
++		0xC78, 0x8B171101,
++		0xC78, 0x8A181101,
++		0xC78, 0x89191101,
++		0xC78, 0x881A1101,
++		0xC78, 0x871B1101,
++		0xC78, 0x861C1101,
++		0xC78, 0x851D1101,
++		0xC78, 0x841E1101,
++		0xC78, 0x831F1101,
++		0xC78, 0x82201101,
++		0xC78, 0x81211101,
++		0xC78, 0x80221101,
++		0xC78, 0x43231101,
++		0xC78, 0x42241101,
++		0xC78, 0x41251101,
++		0xC78, 0x04261101,
++		0xC78, 0x03271101,
++		0xC78, 0x02281101,
++		0xC78, 0x01291101,
++		0xC78, 0x002A1101,
++		0xC78, 0xC42B1001,
++		0xC78, 0xC32C1001,
++		0xC78, 0xC22D1001,
++		0xC78, 0xC12E1001,
++		0xC78, 0xC02F1001,
++		0xC78, 0x85301001,
++		0xC78, 0x84311001,
++		0xC78, 0x83321001,
++		0xC78, 0x82331001,
++		0xC78, 0x81341001,
++		0xC78, 0x80351001,
++		0xC78, 0x05361001,
++		0xC78, 0x04371001,
++		0xC78, 0x03381001,
++		0xC78, 0x02391001,
++		0xC78, 0x013A1001,
++		0xC78, 0x003B1001,
++		0xC78, 0x003C1001,
++		0xC78, 0x003D1001,
++		0xC78, 0x003E1001,
++		0xC78, 0x003F1001,
++		0xC50, 0x69553422,
++		0xC50, 0x69553420,
++
++};
++
++void
++ODM_ReadAndConfig_MP_8723D_AGC_TAB(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i         = 0;
++	u1Byte     cCond;
++	BOOLEAN bMatched = TRUE, bSkipped = FALSE;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8723D_AGC_TAB)/sizeof(u4Byte);
++	pu4Byte    Array       = Array_MP_8723D_AGC_TAB;
++	
++	u4Byte	v1 = 0, v2 = 0, pre_v1 = 0, pre_v2 = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8723D_AGC_TAB\n"));
++
++	while ((i + 1) < ArrayLen) {
++		v1 = Array[i];
++		v2 = Array[i + 1];
++
++		if (v1 & (BIT31 | BIT30)) {/*positive & negative condition*/
++			if (v1 & BIT31) {/* positive condition*/
++				cCond  = (u1Byte)((v1 & (BIT29|BIT28)) >> 28);
++				if (cCond == COND_ENDIF) {/*end*/
++					bMatched = TRUE;
++					bSkipped = FALSE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ENDIF\n"));
++				} else if (cCond == COND_ELSE) { /*else*/
++					bMatched = bSkipped?FALSE:TRUE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ELSE\n"));
++				} else {/*if , else if*/
++					pre_v1 = v1;
++					pre_v2 = v2;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("IF or ELSE IF\n"));
++				}
++			} else if (v1 & BIT30) { /*negative condition*/
++				if (bSkipped == FALSE) {
++					if (CheckPositive(pDM_Odm, pre_v1, pre_v2, v1, v2)) {
++						bMatched = TRUE;
++						bSkipped = TRUE;
++					} else {
++						bMatched = FALSE;
++						bSkipped = FALSE;
++					}
++				} else
++					bMatched = FALSE;
++			}
++		} else {
++			if (bMatched)
++				odm_ConfigBB_AGC_8723D(pDM_Odm, v1, bMaskDWord, v2);
++		}
++		i = i + 2;
++	}
++}
++
++u4Byte
++ODM_GetVersion_MP_8723D_AGC_TAB(void)
++{
++	   return 29;
++}
++
++/******************************************************************************
++*                           PHY_REG.TXT
++******************************************************************************/
++
++u4Byte Array_MP_8723D_PHY_REG[] = { 
++		0x800, 0x80046C00,
++		0x804, 0x00000003,
++		0x808, 0x0000FC00,
++		0x80C, 0x0000000A,
++		0x810, 0x10001331,
++		0x814, 0x020C3D10,
++		0x818, 0x00200385,
++		0x81C, 0x00000000,
++		0x820, 0x01000100,
++		0x824, 0x00390204,
++		0x828, 0x00000000,
++		0x82C, 0x00000000,
++		0x830, 0x00000000,
++		0x834, 0x00000000,
++		0x838, 0x00000000,
++		0x83C, 0x00000000,
++		0x840, 0x00010000,
++		0x844, 0x00000000,
++		0x848, 0x00000000,
++		0x84C, 0x00000000,
++		0x850, 0x00000000,
++		0x854, 0x00000000,
++		0x858, 0x569A11A9,
++		0x85C, 0x01000014,
++		0x860, 0x66F60110,
++		0x864, 0x461F0641,
++		0x868, 0x00000000,
++		0x86C, 0x27272700,
++		0x870, 0x07000460,
++		0x874, 0x25004000,
++		0x878, 0x00000808,
++		0x87C, 0x004F0201,
++		0x880, 0xB2002E12,
++		0x884, 0x00000007,
++		0x888, 0x00000000,
++		0x88C, 0xCCC000C0,
++		0x890, 0x00000800,
++		0x894, 0xFFFFFFFE,
++		0x898, 0x40302010,
++		0x89C, 0x00706050,
++		0x900, 0x00000000,
++		0x904, 0x00000023,
++		0x908, 0x00000000,
++		0x90C, 0x81121111,
++		0x910, 0x00000402,
++		0x914, 0x00000300,
++		0x920, 0x18C6318C,
++		0x924, 0x0000018C,
++		0x948, 0x99000000,
++		0x94C, 0x00000010,
++		0x950, 0x00003800,
++		0x954, 0x5A380000,
++		0x958, 0x4BC6D87A,
++		0x95C, 0x04EB9B79,
++		0x96C, 0x00000003,
++		0x970, 0x00000000,
++		0x974, 0x00000000,
++		0x978, 0x00000000,
++		0x97C, 0x13000000,
++		0x980, 0x00000000,
++		0xA00, 0x00D047C8,
++		0xA04, 0x80FF800C,
++		0xA08, 0x8C838300,
++		0xA0C, 0x2E20100F,
++		0xA10, 0x9500BB78,
++		0xA14, 0x1114D028,
++		0xA18, 0x00881117,
++		0xA1C, 0x89140F00,
++		0xA20, 0xE82C0001,
++		0xA24, 0x64B80C1C,
++		0xA28, 0x00008810,
++		0xA2C, 0x00D30000,
++		0xA70, 0x101FBF00,
++		0xA74, 0x00000007,
++		0xA78, 0x00008900,
++		0xA7C, 0x225B0606,
++		0xA80, 0x2180FA74,
++		0xA84, 0x00200000,
++		0xA88, 0x040C0000,
++		0xA8C, 0x12345678,
++		0xA90, 0xABCDEF00,
++		0xA94, 0x001B1B89,
++		0xA98, 0x00000000,
++		0xA9C, 0x00020000,
++		0xAA0, 0x00000000,
++		0xAA4, 0x0000000C,
++		0xAA8, 0xCA100008,
++		0xAAC, 0x01235667,
++		0xAB0, 0x00000000,
++		0xAB4, 0x20201402,
++		0xB2C, 0x00000000,
++		0xC00, 0x48071D40,
++		0xC04, 0x03A05611,
++		0xC08, 0x000000E4,
++		0xC0C, 0x6C6C6C6C,
++		0xC10, 0x28800000,
++		0xC14, 0x40000100,
++		0xC18, 0x08800000,
++		0xC1C, 0x40000100,
++		0xC20, 0x00000000,
++		0xC24, 0x00000000,
++		0xC28, 0x00000000,
++		0xC2C, 0x00000000,
++		0xC30, 0x69E9AC48,
++		0xC34, 0x31000040,
++		0xC38, 0x21688080,
++		0xC3C, 0x000016D4,
++		0xC40, 0x1F78403F,
++		0xC44, 0x00010036,
++		0xC48, 0xEC020107,
++		0xC4C, 0x007F037F,
++		0xC50, 0x69553420,
++		0xC54, 0x43BC0094,
++		0xC58, 0x00015969,
++		0xC5C, 0x00310492,
++		0xC60, 0x00280A00,
++		0xC64, 0x7112848B,
++		0xC68, 0x47C074FF,
++		0xC6C, 0x00000036,
++		0xC70, 0x2C7F000D,
++		0xC74, 0x020600DB,
++		0xC78, 0x0000001F,
++		0xC7C, 0x00B91612,
++		0xC80, 0x390000E4,
++		0xC84, 0x11F60000,
++		0xC88, 0x40000100,
++		0xC8C, 0x20200000,
++		0xC90, 0x00091521,
++		0xC94, 0x00000000,
++		0xC98, 0x00121820,
++		0xC9C, 0x00007F7F,
++		0xCA0, 0x00012000,
++		0xCA4, 0xA00000A0,
++		0xCA8, 0x85E7C606,
++		0xCAC, 0x00000060,
++		0xCB0, 0x00000000,
++		0xCB4, 0x00000000,
++		0xCB8, 0x00000000,
++		0xCBC, 0x28000000,
++		0xCC0, 0x0010A3D0,
++		0xCC4, 0x00000F7D,
++		0xCC8, 0x000442D6,
++		0xCCC, 0x00000000,
++		0xCD0, 0x000001C8,
++		0xCD4, 0x001C8000,
++		0xCD8, 0x00000100,
++		0xCDC, 0x40100000,
++		0xCE0, 0x00222222,
++		0xCE4, 0x20000000,
++		0xCE8, 0x37644302,
++		0xCEC, 0x2F97D40C,
++		0xD00, 0x00030740,
++		0xD04, 0x40020401,
++		0xD08, 0x0000907F,
++		0xD0C, 0x20010201,
++		0xD10, 0xA0633333,
++		0xD14, 0x3333BC53,
++		0xD18, 0x7A8F5B6F,
++		0xD2C, 0xCB979975,
++		0xD30, 0x00000000,
++		0xD34, 0x80608000,
++		0xD38, 0x88000000,
++		0xD3C, 0xC0127343,
++		0xD40, 0x00000000,
++		0xD44, 0x00000000,
++		0xD48, 0x00000000,
++		0xD4C, 0x00000000,
++		0xD50, 0x00000038,
++		0xD54, 0x00000000,
++		0xD58, 0x00000282,
++		0xD5C, 0x30032064,
++		0xD60, 0x4653DE68,
++		0xD64, 0x04518A3C,
++		0xD68, 0x00002101,
++		0xE00, 0x2D2D2D2D,
++		0xE04, 0x2D2D2D2D,
++		0xE08, 0x0390272D,
++		0xE10, 0x2D2D2D2D,
++		0xE14, 0x2D2D2D2D,
++		0xE18, 0x2D2D2D2D,
++		0xE1C, 0x2D2D2D2D,
++		0xE28, 0x00000000,
++		0xE30, 0x1000DC1F,
++		0xE34, 0x10008C1F,
++		0xE38, 0x02140102,
++		0xE3C, 0x681604C2,
++		0xE40, 0x01007C00,
++		0xE44, 0x01004800,
++		0xE48, 0xFB000000,
++		0xE4C, 0x000028D1,
++		0xE50, 0x1000DC1F,
++		0xE54, 0x10008C1F,
++		0xE58, 0x02140102,
++		0xE5C, 0x28160D05,
++		0xE60, 0x00000008,
++		0xE68, 0x001B25A4,
++		0xE6C, 0x01C00014,
++		0xE70, 0x01C00016,
++		0xE74, 0x02000014,
++		0xE78, 0x02000014,
++		0xE7C, 0x02000014,
++		0xE80, 0x02000014,
++		0xE84, 0x01C00014,
++		0xE88, 0x02000014,
++		0xE8C, 0x01C00014,
++		0xED0, 0x01C00014,
++		0xED4, 0x01C00014,
++		0xED8, 0x01C00014,
++		0xEDC, 0x00000014,
++		0xEE0, 0x00000014,
++		0xEE8, 0x21555448,
++		0xEEC, 0x03C00014,
++		0xF14, 0x00000003,
++		0xF00, 0x00100300,
++		0xF08, 0x0000800B,
++		0xF0C, 0x0000F007,
++		0xF10, 0x0000A487,
++		0xF1C, 0x80000064,
++		0xF38, 0x00030155,
++		0xF3C, 0x0000003A,
++		0xF4C, 0x13000000,
++		0xF50, 0x00000000,
++		0xF18, 0x00000000,
++
++};
++
++void
++ODM_ReadAndConfig_MP_8723D_PHY_REG(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i         = 0;
++	u1Byte     cCond;
++	BOOLEAN bMatched = TRUE, bSkipped = FALSE;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8723D_PHY_REG)/sizeof(u4Byte);
++	pu4Byte    Array       = Array_MP_8723D_PHY_REG;
++	
++	u4Byte	v1 = 0, v2 = 0, pre_v1 = 0, pre_v2 = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8723D_PHY_REG\n"));
++
++	while ((i + 1) < ArrayLen) {
++		v1 = Array[i];
++		v2 = Array[i + 1];
++
++		if (v1 & (BIT31 | BIT30)) {/*positive & negative condition*/
++			if (v1 & BIT31) {/* positive condition*/
++				cCond  = (u1Byte)((v1 & (BIT29|BIT28)) >> 28);
++				if (cCond == COND_ENDIF) {/*end*/
++					bMatched = TRUE;
++					bSkipped = FALSE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ENDIF\n"));
++				} else if (cCond == COND_ELSE) { /*else*/
++					bMatched = bSkipped?FALSE:TRUE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ELSE\n"));
++				} else {/*if , else if*/
++					pre_v1 = v1;
++					pre_v2 = v2;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("IF or ELSE IF\n"));
++				}
++			} else if (v1 & BIT30) { /*negative condition*/
++				if (bSkipped == FALSE) {
++					if (CheckPositive(pDM_Odm, pre_v1, pre_v2, v1, v2)) {
++						bMatched = TRUE;
++						bSkipped = TRUE;
++					} else {
++						bMatched = FALSE;
++						bSkipped = FALSE;
++					}
++				} else
++					bMatched = FALSE;
++			}
++		} else {
++			if (bMatched)
++				odm_ConfigBB_PHY_8723D(pDM_Odm, v1, bMaskDWord, v2);
++		}
++		i = i + 2;
++	}
++}
++
++u4Byte
++ODM_GetVersion_MP_8723D_PHY_REG(void)
++{
++	   return 29;
++}
++
++/******************************************************************************
++*                           PHY_REG_PG.TXT
++******************************************************************************/
++
++u4Byte Array_MP_8723D_PHY_REG_PG[] = { 
++	0, 0, 0, 0x00000e08, 0x0000ff00, 0x00003200,
++	0, 0, 0, 0x0000086c, 0xffffff00, 0x32323200,
++	0, 0, 0, 0x00000e00, 0xffffffff, 0x32343434,
++	0, 0, 0, 0x00000e04, 0xffffffff, 0x28303032,
++	0, 0, 0, 0x00000e10, 0xffffffff, 0x30323234,
++	0, 0, 0, 0x00000e14, 0xffffffff, 0x26282830
++};
++
++void
++ODM_ReadAndConfig_MP_8723D_PHY_REG_PG(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i         = 0;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8723D_PHY_REG_PG)/sizeof(u4Byte);
++	pu4Byte    Array       = Array_MP_8723D_PHY_REG_PG;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	PlatformZeroMemory(pHalData->BufOfLinesPwrByRate, MAX_LINES_HWCONFIG_TXT*MAX_BYTES_LINE_HWCONFIG_TXT);
++	pHalData->nLinesReadPwrByRate = ArrayLen/6;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8723D_PHY_REG_PG\n"));
++
++	pDM_Odm->PhyRegPgVersion = 1;
++	pDM_Odm->PhyRegPgValueType = PHY_REG_PG_EXACT_VALUE;
++
++	for (i = 0; i < ArrayLen; i += 6) {
++		u4Byte v1 = Array[i];
++		u4Byte v2 = Array[i+1];
++		u4Byte v3 = Array[i+2];
++		u4Byte v4 = Array[i+3];
++		u4Byte v5 = Array[i+4];
++		u4Byte v6 = Array[i+5];
++
++	    odm_ConfigBB_PHY_REG_PG_8723D(pDM_Odm, v1, v2, v3, v4, v5, v6);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	rsprintf((char *)pHalData->BufOfLinesPwrByRate[i/6], 100, "%s, %s, %s, 0x%X, 0x%08X, 0x%08X,",
++		(v1 == 0?"2.4G":"  5G"), (v2 == 0?"A":"B"), (v3 == 0?"1Tx":"2Tx"), v4, v5, v6);
++#endif
++	}
++}
++
++
++
++#endif /* end of HWIMG_SUPPORT*/
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_bb.h b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_bb.h
+new file mode 100644
+index 0000000..6d890ba
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_bb.h
+@@ -0,0 +1,59 @@
++/****************************************************************************** 
++* 
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved. 
++* 
++* This program is free software; you can redistribute it and/or modify it 
++* under the terms of version 2 of the GNU General Public License as 
++* published by the Free Software Foundation. 
++* 
++* This program is distributed in the hope that it will be useful, but WITHOUT 
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for 
++* more details. 
++* 
++* You should have received a copy of the GNU General Public License along with 
++* this program; if not, write to the Free Software Foundation, Inc., 
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA 
++* 
++* 
++******************************************************************************/
++
++/*Image2HeaderVersion: 2.23*/
++#if (RTL8723D_SUPPORT == 1)
++#ifndef __INC_MP_BB_HW_IMG_8723D_H
++#define __INC_MP_BB_HW_IMG_8723D_H
++
++
++/******************************************************************************
++*                           AGC_TAB.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8723D_AGC_TAB(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8723D_AGC_TAB(void);
++
++/******************************************************************************
++*                           PHY_REG.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8723D_PHY_REG(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8723D_PHY_REG(void);
++
++/******************************************************************************
++*                           PHY_REG_PG.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8723D_PHY_REG_PG(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8723D_PHY_REG_PG(void);
++
++#endif
++#endif /* end of HWIMG_SUPPORT*/
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_fw.c b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_fw.c
+new file mode 100644
+index 0000000..0ae4c69
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_fw.c
+@@ -0,0 +1,4841 @@
++/****************************************************************************** 
++* 
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved. 
++* 
++* This program is free software; you can redistribute it and/or modify it 
++* under the terms of version 2 of the GNU General Public License as 
++* published by the Free Software Foundation. 
++* 
++* This program is distributed in the hope that it will be useful, but WITHOUT 
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for 
++* more details. 
++* 
++* You should have received a copy of the GNU General Public License along with 
++* this program; if not, write to the Free Software Foundation, Inc., 
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA 
++* 
++* 
++******************************************************************************/
++
++/*Image2HeaderVersion: 2.16*/
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#ifdef LOAD_FW_HEADER_FROM_DRIVER
++#include "../../rtl8723d/hal8723d_fw.h"
++#endif
++
++
++#if (RTL8723D_SUPPORT == 1)
++#if (defined(CONFIG_AP_WOWLAN) || (DM_ODM_SUPPORT_TYPE & (ODM_AP)))
++
++
++#ifndef LOAD_FW_HEADER_FROM_DRIVER
++u1Byte Array_MP_8723D_FW_AP[] = {
++0xD1, 0x23, 0x20, 0x00, 0x10, 0x00, 0x00, 0x00, 0x05, 0x16, 0x18, 0x17, 0xA0, 0x52, 0x02, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x02, 0x85, 0xAD, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xA5, 0x97, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xBE, 0x67, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xBA, 0x86, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0xBA, 0xD6, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xBE, 0x11, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x15, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x15, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x05, 0xF0, 
++0xFF, 0x0F, 0x00, 0x00, 0x00, 0x05, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x10, 0xF0, 0xFF, 0x0F, 
++0x00, 0x00, 0x00, 0x10, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0xF5, 0x0F, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0A, 
++0x08, 0x03, 0x03, 0x00, 0x04, 0x09, 0x07, 0x03, 0x03, 0x00, 0x04, 0x08, 0x06, 0x03, 0x02, 0x00, 
++0x04, 0x08, 0x05, 0x03, 0x01, 0x00, 0x04, 0x0D, 0x0A, 0x07, 0x05, 0x00, 0x08, 0x0C, 0x0A, 0x07, 
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++0x88, 0x4B, 0x31, 0x65, 0x90, 0x88, 0x4E, 0x12, 0xC7, 0xAD, 0x40, 0x04, 0xEF, 0x24, 0x50, 0xF0, 
++0x90, 0x88, 0x4E, 0x31, 0x65, 0x90, 0x88, 0x3E, 0x12, 0xC7, 0xAD, 0x40, 0x04, 0xEF, 0x24, 0x50, 
++0xF0, 0x90, 0x88, 0x4E, 0x12, 0xA1, 0xE4, 0xFF, 0x7E, 0x00, 0x90, 0x88, 0x42, 0xEE, 0xF0, 0xA3, 
++0xEF, 0xF0, 0x90, 0x05, 0x58, 0xF0, 0x90, 0x88, 0x4E, 0xE0, 0x54, 0x07, 0xFF, 0x90, 0x05, 0xB1, 
++0xE0, 0x54, 0xF8, 0x4F, 0xF0, 0x31, 0x6E, 0x80, 0x07, 0x90, 0x88, 0x33, 0xE0, 0x44, 0x01, 0xF0, 
++0xD0, 0xD0, 0x92, 0xAF, 0x22, 0xE0, 0xFF, 0x24, 0x50, 0xFD, 0xE4, 0x33, 0xFC, 0x22, 0x90, 0x88, 
++0x33, 0xE0, 0x54, 0xFE, 0xF0, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0x90, 0x88, 0x33, 
++0xE0, 0xC3, 0x13, 0x30, 0xE0, 0x2B, 0x90, 0x95, 0xF3, 0x74, 0x1E, 0xF0, 0x90, 0x96, 0x15, 0x74, 
++0x01, 0xF0, 0x90, 0x95, 0xF5, 0xEF, 0xF0, 0x7B, 0x01, 0x7A, 0x95, 0x79, 0xF3, 0x90, 0x8A, 0x77, 
++0x12, 0x9F, 0xE9, 0x12, 0x04, 0x7E, 0x90, 0x8A, 0xE5, 0x12, 0x8D, 0xC8, 0x7F, 0x04, 0x12, 0x04, 
++0x7E, 0xD0, 0xD0, 0x92, 0xAF, 0x22, 0x90, 0x93, 0x29, 0xE0, 0x30, 0xE0, 0x34, 0xC4, 0x13, 0x54, 
++0x07, 0x30, 0xE0, 0x2D, 0x90, 0x96, 0x86, 0xE0, 0x04, 0xF0, 0xE0, 0xD3, 0x94, 0xC8, 0x40, 0x21, 
++0x90, 0x93, 0x29, 0xE0, 0x54, 0xDF, 0xF0, 0xE4, 0x90, 0x96, 0x86, 0xF0, 0x90, 0x93, 0x29, 0xE0, 
++0x13, 0x30, 0xE0, 0x0D, 0x90, 0x88, 0x31, 0xE0, 0x44, 0x01, 0xF0, 0x90, 0x88, 0x41, 0x74, 0xD0, 
++0xF0, 0x22, 0x90, 0x05, 0x63, 0xE0, 0x90, 0x88, 0x89, 0xF0, 0x90, 0x05, 0x62, 0xE0, 0x90, 0x88, 
++0x8A, 0xF0, 0x90, 0x05, 0x61, 0xE0, 0x90, 0x88, 0x8B, 0xF0, 0x90, 0x05, 0x60, 0xE0, 0x90, 0x88, 
++0x8C, 0xF0, 0x90, 0x88, 0x32, 0xE0, 0x44, 0x80, 0xF0, 0x22, 0x78, 0x08, 0x12, 0x03, 0xFE, 0xA8, 
++0x04, 0xA9, 0x05, 0xAA, 0x06, 0xAB, 0x07, 0x22, 0x75, 0xF0, 0x03, 0xA4, 0x24, 0x77, 0xF5, 0x82, 
++0xE4, 0x34, 0x95, 0xF5, 0x83, 0x22, 0x75, 0xF0, 0x03, 0xA4, 0x24, 0x35, 0xF5, 0x82, 0xE4, 0x34, 
++0x95, 0xF5, 0x83, 0x22, 0x54, 0xFB, 0xF0, 0x90, 0x88, 0x3A, 0xE0, 0x54, 0xFD, 0x22, 0xE0, 0x90, 
++0x01, 0xBA, 0xF0, 0x90, 0x88, 0x38, 0xE0, 0x22, 0xE4, 0x90, 0x92, 0x20, 0xF0, 0x90, 0x93, 0x2B, 
++0x22, 0xF0, 0x90, 0x01, 0x3F, 0x74, 0x10, 0xF0, 0xFD, 0x22, 0x90, 0x88, 0x34, 0xE0, 0xFF, 0xC4, 
++0x54, 0x0F, 0x22, 0xED, 0xF0, 0xEC, 0xA3, 0xF0, 0x90, 0x07, 0xC2, 0x22, 0x12, 0x02, 0x06, 0x13, 
++0x13, 0x13, 0x54, 0x1F, 0x22, 0x90, 0x88, 0x34, 0xE0, 0xC4, 0x54, 0x0F, 0x22, 0x90, 0x88, 0x3C, 
++0xE0, 0x90, 0x05, 0x73, 0x22, 0x90, 0x05, 0x00, 0x74, 0x1C, 0xF0, 0xA3, 0x22, 0x00, 0x82, 0xDC, 
++
++};
++u4Byte ArrayLength_MP_8723D_FW_AP = 21184;
++
++#endif
++
++void
++ODM_ReadFirmware_MP_8723D_FW_AP(
++	IN   PDM_ODM_T    pDM_Odm,
++	OUT  u1Byte       *pFirmware,
++	OUT  u4Byte       *pFirmwareSize
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++	*((SIZE_PTR *)pFirmware) = (SIZE_PTR)Array_MP_8723D_FW_AP;
++#else
++	ODM_MoveMemory(pDM_Odm, pFirmware, Array_MP_8723D_FW_AP, ArrayLength_MP_8723D_FW_AP);
++#endif
++	*pFirmwareSize = ArrayLength_MP_8723D_FW_AP;
++}
++
++
++#endif /* #if (defined(CONFIG_AP_WOWLAN)||(DM_ODM_SUPPORT_TYPE & (ODM_AP)) */
++
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN)) || (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++
++#ifndef LOAD_FW_HEADER_FROM_DRIVER
++u1Byte Array_MP_8723D_FW_NIC[] = {
++0xD1, 0x23, 0x10, 0x00, 0x10, 0x00, 0x00, 0x00, 0x05, 0x16, 0x18, 0x16, 0x12, 0x64, 0x02, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x02, 0x86, 0x75, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xBC, 0x29, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xC8, 0x27, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xC6, 0x90, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0xC6, 0xE0, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xC7, 0xD1, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x15, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x15, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x05, 0xF0, 
++0xFF, 0x0F, 0x00, 0x00, 0x00, 0x05, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x10, 0xF0, 0xFF, 0x0F, 
++0x00, 0x00, 0x00, 0x10, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0xF5, 0x0F, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0A, 
++0x08, 0x03, 0x03, 0x00, 0x04, 0x09, 0x07, 0x03, 0x03, 0x00, 0x04, 0x08, 0x06, 0x03, 0x02, 0x00, 
++0x04, 0x08, 0x05, 0x03, 0x01, 0x00, 0x04, 0x0D, 0x0A, 0x07, 0x05, 0x00, 0x08, 0x0C, 0x0A, 0x07, 
++0x04, 0x00, 0x08, 0x0B, 0x0A, 0x06, 0x05, 0x00, 0x08, 0x0B, 0x0A, 0x05, 0x03, 0x00, 0x08, 0x0B, 
++0x0A, 0x03, 0x02, 0x00, 0x08, 0x14, 0x12, 0x0C, 0x04, 0x00, 0x10, 0x14, 0x12, 0x09, 0x04, 0x00, 
++0x10, 0x24, 0x22, 0x1C, 0x12, 0x00, 0x20, 0x24, 0x22, 0x18, 0x0C, 0x00, 0x20, 0x24, 0x22, 0x14, 
++0x06, 0x00, 0x20, 0x24, 0x22, 0x0F, 0x04, 0x00, 0x20, 0x24, 0x21, 0x0A, 0x04, 0x00, 0x20, 0x23, 
++0x21, 0x0C, 0x04, 0x00, 0x20, 0x23, 0x1F, 0x0A, 0x04, 0x00, 0x20, 0x22, 0x1F, 0x0F, 0x04, 0x00, 
++0x20, 0x21, 0x1F, 0x16, 0x0C, 0x00, 0x20, 0x31, 0x2F, 0x20, 0x14, 0x00, 0x30, 0x31, 0x2F, 0x18, 
++0x10, 0x00, 0x30, 0x31, 0x2C, 0x18, 0x0C, 0x00, 0x30, 0x31, 0x2A, 0x14, 0x0C, 0x00, 0x30, 0x31, 
++0x28, 0x14, 0x00, 0x00, 0x30, 0x31, 0x24, 0x14, 0x00, 0x00, 0x30, 0x31, 0x1E, 0x14, 0x00, 0x00, 
++0x30, 0x04, 0x04, 0x04, 0x05, 0x08, 0x08, 0x09, 0x09, 0x0C, 0x0E, 0x10, 0x12, 0x06, 0x0B, 0x0D, 
++0x0E, 0x0F, 0x11, 0x12, 0x14, 0x00, 0x04, 0x00, 0x04, 0x00, 0x08, 0x00, 0x10, 0x00, 0x23, 0x00, 
++0x2D, 0x00, 0x50, 0x00, 0x91, 0x00, 0xC3, 0x01, 0x27, 0x01, 0x31, 0x01, 0x5E, 0x00, 0xC8, 0x00, 
++0xF0, 0x00, 0xDC, 0x01, 0x5E, 0x01, 0x68, 0x01, 0x9A, 0x01, 0xCC, 0x01, 0xEA, 0x02, 0x02, 0x04, 
++0x08, 0x0C, 0x12, 0x18, 0x24, 0x30, 0x48, 0x60, 0x6C, 0x14, 0x28, 0x32, 0x50, 0x78, 0xA0, 0xC8, 
++0xE6, 0x01, 0x01, 0x01, 0x02, 0x01, 0x01, 0x02, 0x02, 0x03, 0x03, 0x04, 0x04, 0x02, 0x04, 0x06, 
++0x07, 0x07, 0x08, 0x08, 0x08, 0x01, 0x01, 0x01, 0x02, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x02, 
++0x02, 0x01, 0x01, 0x01, 0x01, 0x01, 0x02, 0x02, 0x02, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x02, 
++0x02, 0x03, 0x03, 0x04, 0x05, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x03, 0x03, 0x03, 
++0x02, 0x03, 0x03, 0x03, 0x03, 0x03, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 
++0x02, 0x19, 0x06, 0x04, 0x02, 0x00, 0x18, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0xC2, 0xAF, 0x80, 0xFE, 0x32, 0x12, 0x83, 0x04, 0x85, 0xD0, 0x0B, 0x75, 0xD0, 0x08, 0xAA, 0xE0, 
++0xC2, 0x8C, 0xE5, 0x8A, 0x24, 0x67, 0xF5, 0x8A, 0xE5, 0x8C, 0x34, 0x79, 0xF5, 0x8C, 0xD2, 0x8C, 
++0xEC, 0x24, 0x8B, 0xF8, 0xE6, 0xBC, 0x02, 0x02, 0x74, 0xFF, 0xC3, 0x95, 0x81, 0xB4, 0x40, 0x00, 
++0x40, 0xCE, 0x79, 0x03, 0x78, 0x80, 0x16, 0xE6, 0x08, 0x70, 0x0B, 0xC2, 0xAF, 0xE6, 0x30, 0xE1, 
++0x03, 0x44, 0x18, 0xF6, 0xD2, 0xAF, 0x08, 0xD9, 0xED, 0xEA, 0x8B, 0xD0, 0x22, 0xE5, 0x0C, 0xFF, 
++0x23, 0x24, 0x81, 0xF8, 0x0F, 0x08, 0x08, 0xBF, 0x03, 0x04, 0x7F, 0x00, 0x78, 0x81, 0xE6, 0x30, 
++0xE4, 0xF2, 0x00, 0xE5, 0x0C, 0xC3, 0x9F, 0x50, 0x20, 0x05, 0x0C, 0x74, 0x8A, 0x25, 0x0C, 0xF8, 
++0xE6, 0xFD, 0xA6, 0x81, 0x08, 0xE6, 0xAE, 0x0C, 0xBE, 0x02, 0x02, 0x74, 0xFF, 0xCD, 0xF8, 0xE8, 
++0x6D, 0x60, 0xE0, 0x08, 0xE6, 0xC0, 0xE0, 0x80, 0xF6, 0xE5, 0x0C, 0xD3, 0x9F, 0x40, 0x27, 0xE5, 
++0x0C, 0x24, 0x8B, 0xF8, 0xE6, 0xAE, 0x0C, 0xBE, 0x02, 0x02, 0x74, 0xFF, 0xFD, 0x18, 0xE6, 0xCD, 
++0xF8, 0xE5, 0x81, 0x6D, 0x60, 0x06, 0xD0, 0xE0, 0xF6, 0x18, 0x80, 0xF5, 0xE5, 0x0C, 0x24, 0x8A, 
++0xC8, 0xF6, 0x15, 0x0C, 0x80, 0xD3, 0xE5, 0x0C, 0x23, 0x24, 0x81, 0xF8, 0x7F, 0x04, 0xC2, 0xAF, 
++0xE6, 0x30, 0xE0, 0x03, 0x10, 0xE2, 0x0C, 0x7F, 0x00, 0x30, 0xE1, 0x07, 0x30, 0xE3, 0x04, 0x7F, 
++0x08, 0x54, 0xF4, 0x54, 0x7C, 0xC6, 0xD2, 0xAF, 0x54, 0x80, 0x42, 0x07, 0x22, 0x78, 0x8A, 0xA6, 
++0x81, 0x74, 0x02, 0x60, 0x06, 0xFF, 0x08, 0x76, 0xFF, 0xDF, 0xFB, 0x7F, 0x03, 0xE4, 0x78, 0x80, 
++0xF6, 0x08, 0xF6, 0x08, 0xDF, 0xFA, 0x78, 0x81, 0x76, 0x30, 0x90, 0x86, 0xF8, 0x74, 0x01, 0x93, 
++0xC0, 0xE0, 0xE4, 0x93, 0xC0, 0xE0, 0x43, 0x89, 0x01, 0x75, 0x8A, 0x60, 0x75, 0x8C, 0x79, 0xD2, 
++0x8C, 0xD2, 0xAF, 0x22, 0x02, 0xEF, 0xD3, 0x94, 0x02, 0x40, 0x03, 0x7F, 0xFF, 0x22, 0x74, 0x81, 
++0x2F, 0x2F, 0xF8, 0xE6, 0x20, 0xE5, 0xF4, 0xC2, 0xAF, 0xE6, 0x44, 0x30, 0xF6, 0xD2, 0xAF, 0xAE, 
++0x0C, 0xEE, 0xC3, 0x9F, 0x50, 0x21, 0x0E, 0x74, 0x8A, 0x2E, 0xF8, 0xE6, 0xF9, 0x08, 0xE6, 0x18, 
++0xBE, 0x02, 0x02, 0x74, 0xFF, 0xFD, 0xED, 0x69, 0x60, 0x09, 0x09, 0xE7, 0x19, 0x19, 0xF7, 0x09, 
++0x09, 0x80, 0xF3, 0x16, 0x16, 0x80, 0xDA, 0xEE, 0xD3, 0x9F, 0x40, 0x04, 0x05, 0x81, 0x05, 0x81, 
++0xEE, 0xD3, 0x9F, 0x40, 0x22, 0x74, 0x8A, 0x2E, 0xF8, 0x08, 0xE6, 0xF9, 0xEE, 0xB5, 0x0C, 0x02, 
++0xA9, 0x81, 0x18, 0x06, 0x06, 0xE6, 0xFD, 0xED, 0x69, 0x60, 0x09, 0x19, 0x19, 0xE7, 0x09, 0x09, 
++0xF7, 0x19, 0x80, 0xF3, 0x1E, 0x80, 0xD9, 0xEF, 0x24, 0x8A, 0xF8, 0xE6, 0x04, 0xF8, 0xEF, 0x2F, 
++0x04, 0x90, 0x86, 0xF8, 0x93, 0xF6, 0x08, 0xEF, 0x2F, 0x93, 0xF6, 0x7F, 0x00, 0x22, 0xEF, 0xD3, 
++0x94, 0x02, 0x40, 0x03, 0x7F, 0xFF, 0x22, 0xEF, 0x23, 0x24, 0x81, 0xF8, 0xE6, 0x30, 0xE5, 0xF4, 
++0xC2, 0xAF, 0xE6, 0x54, 0x8C, 0xF6, 0xD2, 0xAF, 0xE5, 0x0C, 0xB5, 0x07, 0x0A, 0x74, 0x8A, 0x2F, 
++0xF8, 0xE6, 0xF5, 0x81, 0x02, 0x83, 0x4D, 0x50, 0x2E, 0x74, 0x8B, 0x2F, 0xF8, 0xE6, 0xBF, 0x02, 
++0x02, 0x74, 0xFF, 0xFD, 0x18, 0xE6, 0xF9, 0x74, 0x8A, 0x2F, 0xF8, 0xFB, 0xE6, 0xFC, 0xE9, 0x6C, 
++0x60, 0x08, 0xA8, 0x05, 0xE7, 0xF6, 0x1D, 0x19, 0x80, 0xF4, 0xA8, 0x03, 0xA6, 0x05, 0x1F, 0xE5, 
++0x0C, 0xB5, 0x07, 0xE3, 0x7F, 0x00, 0x22, 0x74, 0x8B, 0x2F, 0xF8, 0xE6, 0xFD, 0x18, 0x86, 0x01, 
++0x0F, 0x74, 0x8A, 0x2F, 0xF8, 0xA6, 0x01, 0x08, 0x86, 0x04, 0xE5, 0x0C, 0xB5, 0x07, 0x02, 0xAC, 
++0x81, 0xED, 0x6C, 0x60, 0x08, 0x0D, 0x09, 0xA8, 0x05, 0xE6, 0xF7, 0x80, 0xF4, 0xE5, 0x0C, 0xB5, 
++0x07, 0xDE, 0x89, 0x81, 0x7F, 0x00, 0x22, 0xEF, 0xD3, 0x94, 0x02, 0x40, 0x03, 0x7F, 0xFF, 0x22, 
++0xEF, 0x23, 0x24, 0x81, 0xF8, 0xC2, 0xAF, 0xE6, 0x30, 0xE5, 0x05, 0x30, 0xE0, 0x02, 0xD2, 0xE4, 
++0xD2, 0xE2, 0xC6, 0xD2, 0xAF, 0x7F, 0x00, 0x30, 0xE2, 0x01, 0x0F, 0x02, 0x83, 0x4C, 0x8F, 0xF0, 
++0xE4, 0xFF, 0xFE, 0xE5, 0x0C, 0x23, 0x24, 0x80, 0xF8, 0xC2, 0xA9, 0x30, 0xF7, 0x0D, 0x7F, 0x08, 
++0xE6, 0x60, 0x0B, 0x2D, 0xF6, 0x60, 0x32, 0x50, 0x30, 0x80, 0x07, 0x30, 0xF1, 0x06, 0xED, 0xF6, 
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++0x90, 0x00, 0x04, 0x02, 0x03, 0x3E, 0x90, 0x00, 0x06, 0x02, 0x03, 0x3E, 0x90, 0x00, 0x08, 0x02, 
++0x03, 0x3E, 0x90, 0x95, 0xC6, 0xE4, 0xF0, 0xA3, 0x22, 0x90, 0x95, 0xC4, 0xE4, 0xF0, 0xA3, 0x22, 
++0xE5, 0x6D, 0xF0, 0xA3, 0xE5, 0x6E, 0xF0, 0x22, 0x90, 0x95, 0xB4, 0x12, 0x86, 0x3D, 0x02, 0x03, 
++0x13, 0x90, 0x95, 0xC4, 0xCF, 0xF0, 0xA3, 0xEF, 0xF0, 0x22, 0xEF, 0x64, 0x13, 0x60, 0x04, 0xEF, 
++0xB4, 0x0B, 0x05, 0x90, 0x88, 0xE3, 0x80, 0x1F, 0xEF, 0x64, 0x12, 0x60, 0x04, 0xEF, 0xB4, 0x0A, 
++0x05, 0x90, 0x88, 0xE4, 0x80, 0x11, 0xEF, 0x64, 0x11, 0x60, 0x04, 0xEF, 0xB4, 0x09, 0x05, 0x90, 
++0x88, 0xE5, 0x80, 0x03, 0x90, 0x88, 0xE2, 0xE0, 0xF5, 0x61, 0xAF, 0x61, 0x22, 0x90, 0x8A, 0x75, 
++0x12, 0x88, 0xD0, 0x90, 0x8A, 0xE5, 0x12, 0x90, 0x40, 0x7F, 0x02, 0x02, 0x04, 0x7E, 0x90, 0x01, 
++0xCF, 0x12, 0xA7, 0xE6, 0xFF, 0x30, 0xE0, 0x07, 0x90, 0x01, 0xCF, 0xE0, 0x54, 0xFE, 0xF0, 0xEF, 
++0x30, 0xE5, 0x23, 0x90, 0x01, 0xCF, 0xE0, 0x54, 0xDF, 0xF0, 0x90, 0x01, 0x34, 0x74, 0x20, 0xF0, 
++0xE4, 0xF5, 0xA8, 0xF5, 0xE8, 0x12, 0x76, 0x6D, 0x90, 0x00, 0x03, 0xE0, 0x54, 0xFB, 0xFD, 0x7F, 
++0x03, 0x12, 0x7B, 0x2E, 0x80, 0xFE, 0x22, 0x90, 0x93, 0x58, 0xE0, 0x30, 0xE0, 0x0B, 0x90, 0x93, 
++0xD8, 0xE0, 0x60, 0x05, 0x7F, 0x07, 0x12, 0x9F, 0xF5, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 
++0xD0, 0x90, 0x96, 0x8D, 0xEC, 0xF0, 0xA3, 0xED, 0xF0, 0x90, 0x96, 0x8C, 0xEF, 0xF0, 0xA3, 0xA3, 
++0xE0, 0xFD, 0x12, 0x7B, 0xBD, 0x90, 0x96, 0x97, 0x12, 0x04, 0x31, 0x90, 0x96, 0x8F, 0x12, 0x04, 
++0xB8, 0x12, 0x03, 0xCD, 0x90, 0x96, 0x97, 0x12, 0x8F, 0xBA, 0xC0, 0x04, 0xC0, 0x05, 0xC0, 0x06, 
++0xC0, 0x07, 0x90, 0x96, 0x8F, 0x12, 0x04, 0xB8, 0x90, 0x96, 0x93, 0x12, 0x8F, 0xBA, 0xD0, 0x03, 
++0xD0, 0x02, 0xD0, 0x01, 0xD0, 0x00, 0x12, 0x86, 0x24, 0x90, 0x96, 0x9B, 0x12, 0x04, 0x31, 0x90, 
++0x96, 0x8D, 0xA3, 0xE0, 0xFD, 0xC0, 0x05, 0x90, 0x96, 0x9B, 0x12, 0x04, 0xB8, 0x90, 0x8B, 0x9F, 
++0x12, 0x04, 0x31, 0x90, 0x96, 0x8C, 0xE0, 0xFF, 0xD0, 0x05, 0x12, 0x79, 0x53, 0xD0, 0xD0, 0x92, 
++0xAF, 0x22, 0x90, 0x96, 0x93, 0x12, 0x04, 0x31, 0x7D, 0x18, 0x7C, 0x00, 0xE4, 0xFF, 0xB1, 0xCA, 
++0x90, 0x96, 0x8F, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0xE4, 0xFE, 0xFD, 0xEF, 0xB4, 
++0x01, 0x0D, 0xEB, 0xB4, 0x02, 0x03, 0x0D, 0x80, 0x06, 0xEB, 0xB4, 0x01, 0x02, 0x7D, 0x02, 0xAF, 
++0x06, 0xEF, 0xC4, 0x54, 0xF0, 0x4D, 0xFF, 0xD0, 0xD0, 0x92, 0xAF, 0x22, 0xD3, 0x10, 0xAF, 0x01, 
++0xC3, 0xC0, 0xD0, 0xD0, 0xD0, 0x92, 0xAF, 0x22, 0x90, 0x88, 0xB8, 0xE0, 0x54, 0xFE, 0xF0, 0x54, 
++0xE1, 0xF0, 0x90, 0x88, 0xBD, 0xE0, 0xFF, 0x12, 0x71, 0x9A, 0x90, 0x88, 0xBE, 0x12, 0xB0, 0xB7, 
++0x12, 0x9B, 0xF9, 0x90, 0x88, 0x36, 0xE0, 0x70, 0x16, 0x90, 0x93, 0x3B, 0xE0, 0x20, 0xE0, 0x0F, 
++0x90, 0x86, 0x0C, 0x12, 0x88, 0xD0, 0x90, 0x8A, 0xF9, 0x12, 0x90, 0x40, 0x12, 0x97, 0x91, 0x22, 
++0x90, 0x95, 0x2F, 0xEF, 0xF0, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0xAD, 0x07, 0xEF, 
++0x54, 0xFC, 0xFF, 0xED, 0x54, 0x03, 0x60, 0x08, 0x74, 0xFF, 0xFF, 0xFE, 0xFD, 0xFC, 0x80, 0x6F, 
++0xF1, 0x5B, 0xF1, 0x54, 0x90, 0x07, 0xC3, 0xE0, 0x30, 0xE5, 0xF9, 0xE4, 0xFF, 0x74, 0xC8, 0x2F, 
++0x12, 0xBF, 0x84, 0xE0, 0xFE, 0x74, 0xE5, 0x2F, 0xF5, 0x82, 0xE4, 0x34, 0x96, 0x12, 0xB6, 0xCF, 
++0xB4, 0x04, 0xEA, 0x90, 0x96, 0xE6, 0x12, 0x8D, 0x68, 0x12, 0xCF, 0xCA, 0x90, 0x96, 0xE5, 0x12, 
++0x8D, 0x68, 0x12, 0x86, 0x24, 0xC0, 0x04, 0xC0, 0x05, 0xC0, 0x06, 0xC0, 0x07, 0x90, 0x96, 0xE7, 
++0x12, 0x8D, 0x68, 0x78, 0x10, 0x12, 0x03, 0xFE, 0xD0, 0x03, 0xD0, 0x02, 0xD0, 0x01, 0xD0, 0x00, 
++0x12, 0x86, 0x24, 0xC0, 0x04, 0xC0, 0x05, 0xC0, 0x06, 0xC0, 0x07, 0xA3, 0x12, 0x8D, 0x68, 0x78, 
++0x18, 0x12, 0x03, 0xFE, 0xD0, 0x03, 0xD0, 0x02, 0xD0, 0x01, 0xD0, 0x00, 0x12, 0x86, 0x24, 0xD0, 
++0xD0, 0x92, 0xAF, 0x22, 0x90, 0x07, 0xC0, 0x74, 0x80, 0xF0, 0x22, 0x90, 0x07, 0xC0, 0xEF, 0xF0, 
++0xEE, 0xA3, 0xF0, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0xAD, 0x07, 0xAC, 0x06, 0xEF, 
++0x54, 0xFC, 0xFF, 0xED, 0x30, 0xE0, 0x06, 0x7E, 0xFF, 0x7F, 0xFF, 0x80, 0x25, 0xF1, 0x5B, 0xF1, 
++0x54, 0x90, 0x07, 0xC3, 0xE0, 0x30, 0xE5, 0xF9, 0xED, 0x54, 0x03, 0xFD, 0x24, 0xC9, 0x12, 0xBF, 
++0x84, 0xE0, 0xFE, 0x74, 0xC8, 0x2D, 0x12, 0xBF, 0x84, 0xE0, 0x7C, 0x00, 0x24, 0x00, 0xFF, 0xEC, 
++0x3E, 0xFE, 0xD0, 0xD0, 0x92, 0xAF, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0xAD, 0x07, 
++0xAC, 0x06, 0xEF, 0xF1, 0xCD, 0xF1, 0x54, 0x90, 0x07, 0xC3, 0xE0, 0x30, 0xE5, 0xF9, 0xED, 0x54, 
++0x03, 0x24, 0xC8, 0x12, 0xBF, 0x84, 0xE0, 0xFF, 0xD0, 0xD0, 0x92, 0xAF, 0x22, 0x54, 0xFC, 0x90, 
++0x07, 0xC0, 0xF0, 0xEE, 0xA3, 0xF0, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0xEF, 0x54, 
++0xFC, 0xFF, 0xF1, 0xCF, 0xE4, 0xFB, 0x90, 0x96, 0xD3, 0x12, 0x04, 0xB8, 0xEB, 0x75, 0xF0, 0x08, 
++0xA4, 0xF9, 0xF8, 0x12, 0x03, 0xEB, 0x74, 0xC4, 0x2B, 0x12, 0xBF, 0x84, 0xEF, 0xF0, 0x0B, 0xEB, 
++0xB4, 0x04, 0xE3, 0x90, 0x07, 0xC2, 0x12, 0xB7, 0x4F, 0x90, 0x07, 0xC3, 0xE0, 0x30, 0xE5, 0xF9, 
++0xD0, 0xD0, 0x92, 0xAF, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0x90, 0x96, 0xF7, 0xEE, 
++0xF0, 0xA3, 0xEF, 0xF0, 0x12, 0xDF, 0xCD, 0x7A, 0x00, 0x90, 0x96, 0xF8, 0xE0, 0x54, 0x03, 0xFB, 
++0x70, 0x0A, 0x90, 0x07, 0xC4, 0x11, 0x5C, 0x74, 0x03, 0xF0, 0x80, 0x0E, 0xEB, 0x64, 0x02, 0x4A, 
++0x70, 0x15, 0x90, 0x07, 0xC6, 0x11, 0x5C, 0x74, 0x0C, 0xF0, 0x90, 0x07, 0xC3, 0x74, 0xC0, 0xF0, 
++0x90, 0x07, 0xC3, 0xE0, 0x30, 0xE5, 0xF9, 0xD0, 0xD0, 0x92, 0xAF, 0x22, 0xED, 0xF0, 0xEC, 0xA3, 
++0xF0, 0x90, 0x07, 0xC2, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0x90, 0x96, 0xF9, 0xEE, 
++0xF0, 0xA3, 0xEF, 0xF0, 0x12, 0xDF, 0xCD, 0x11, 0xD1, 0x70, 0x0D, 0x90, 0x07, 0xC4, 0xED, 0xF0, 
++0x90, 0x07, 0xC2, 0x74, 0x01, 0xF0, 0x80, 0x37, 0xEF, 0x64, 0x01, 0x4E, 0x70, 0x0D, 0x90, 0x07, 
++0xC5, 0xED, 0xF0, 0x90, 0x07, 0xC2, 0x74, 0x02, 0xF0, 0x80, 0x24, 0x11, 0xD1, 0x64, 0x02, 0x70, 
++0x0D, 0x90, 0x07, 0xC6, 0xED, 0xF0, 0x90, 0x07, 0xC2, 0x74, 0x04, 0xF0, 0x80, 0x11, 0xEF, 0x64, 
++0x03, 0x4E, 0x70, 0x0B, 0x90, 0x07, 0xC7, 0xED, 0xF0, 0x90, 0x07, 0xC2, 0x74, 0x08, 0xF0, 0x90, 
++0x07, 0xC3, 0x74, 0xC0, 0xF0, 0x90, 0x07, 0xC3, 0xE0, 0x30, 0xE5, 0xF9, 0xD0, 0xD0, 0x92, 0xAF, 
++0x22, 0x7E, 0x00, 0x90, 0x96, 0xFA, 0xE0, 0x54, 0x03, 0xFF, 0x22, 0x12, 0x7A, 0x65, 0xEF, 0x70, 
++0x03, 0x12, 0x97, 0x42, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0x90, 0x88, 0x9D, 0xE0, 
++0x30, 0xE0, 0x10, 0x90, 0x88, 0xA3, 0xE0, 0xC4, 0x13, 0x54, 0x07, 0x30, 0xE0, 0x12, 0x75, 0x0F, 
++0x10, 0x80, 0x2E, 0x12, 0x7A, 0x65, 0xEF, 0x64, 0x01, 0x60, 0x05, 0x75, 0x0F, 0x01, 0x80, 0x21, 
++0x90, 0x88, 0x31, 0x12, 0xA5, 0xF2, 0x30, 0xE0, 0x05, 0x75, 0x0F, 0x02, 0x80, 0x13, 0x90, 0x88, 
++0x38, 0xE0, 0xD3, 0x94, 0x04, 0x40, 0x05, 0x75, 0x0F, 0x08, 0x80, 0x05, 0x12, 0xB7, 0x37, 0x80, 
++0x0E, 0x90, 0x01, 0xB9, 0x74, 0x02, 0xF0, 0x90, 0x01, 0xB8, 0xE5, 0x0F, 0xF0, 0x7F, 0x00, 0xD0, 
++0xD0, 0x92, 0xAF, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0x90, 0x88, 0x9D, 0xE0, 0x30, 
++0xE0, 0x1E, 0x90, 0x88, 0xAF, 0xE0, 0x60, 0x05, 0x75, 0x10, 0x40, 0x21, 0xEE, 0x90, 0x88, 0x38, 
++0xE0, 0xD3, 0x94, 0x00, 0x40, 0x02, 0x80, 0x2D, 0x90, 0x88, 0x9C, 0xE0, 0x60, 0x7B, 0x80, 0x55, 
++0x12, 0x7A, 0x65, 0xEF, 0x64, 0x01, 0x60, 0x05, 0x75, 0x10, 0x01, 0x80, 0x71, 0x90, 0x88, 0x3A, 
++0xE0, 0xFF, 0x54, 0x03, 0x60, 0x05, 0x75, 0x10, 0x02, 0x80, 0x63, 0x90, 0x88, 0x38, 0xE0, 0xFE, 
++0xE4, 0xC3, 0x9E, 0x50, 0x05, 0x75, 0x10, 0x04, 0x80, 0x54, 0xEF, 0x30, 0xE2, 0x05, 0x75, 0x10, 
++0x08, 0x80, 0x4B, 0x90, 0x88, 0x3A, 0xE0, 0x30, 0xE4, 0x05, 0x75, 0x10, 0x10, 0x80, 0x3F, 0x90, 
++0x88, 0x32, 0xE0, 0x13, 0x13, 0x54, 0x3F, 0x20, 0xE0, 0x05, 0x75, 0x10, 0x20, 0x80, 0x2F, 0x90, 
++0x88, 0x9C, 0xE0, 0x60, 0x05, 0x75, 0x10, 0x80, 0x80, 0x24, 0x90, 0x06, 0x62, 0xE0, 0x30, 0xE1, 
++0x05, 0x75, 0x10, 0x11, 0x80, 0x18, 0x90, 0x06, 0x62, 0xE0, 0x30, 0xE0, 0x0C, 0xE0, 0x54, 0xFC, 
++0xFF, 0xBF, 0x80, 0x05, 0x75, 0x10, 0x12, 0x80, 0x05, 0x12, 0xB7, 0x37, 0x80, 0x0E, 0x90, 0x01, 
++0xB9, 0x74, 0x04, 0xF0, 0x90, 0x01, 0xB8, 0xE5, 0x10, 0xF0, 0x7F, 0x00, 0xD0, 0xD0, 0x92, 0xAF, 
++0x22, 0x90, 0x88, 0x8D, 0x74, 0x18, 0xF0, 0xA3, 0xF0, 0xA3, 0xE4, 0xF0, 0xA3, 0x74, 0x64, 0xF0, 
++0xA3, 0x74, 0x05, 0xF0, 0xA3, 0xF0, 0x22, 0x51, 0x69, 0x40, 0x40, 0x90, 0x88, 0x50, 0xE0, 0x04, 
++0xF0, 0x90, 0x88, 0x92, 0xE0, 0xFF, 0x90, 0x88, 0x50, 0xE0, 0xD3, 0x9F, 0x50, 0x2D, 0x90, 0x88, 
++0x48, 0xE0, 0x04, 0xF0, 0x90, 0x88, 0x3F, 0x12, 0xA5, 0xFB, 0x33, 0x33, 0x33, 0x54, 0xF8, 0xFF, 
++0x90, 0x88, 0x3E, 0xE0, 0x2F, 0x90, 0x88, 0x4F, 0xF0, 0xFB, 0x90, 0x88, 0x48, 0xE0, 0xFF, 0xA3, 
++0xE0, 0xFD, 0x90, 0x92, 0x98, 0x74, 0x03, 0xF0, 0x12, 0x6E, 0x2F, 0x22, 0x90, 0x88, 0x3F, 0xE0, 
++0x04, 0xF0, 0x90, 0x88, 0x3A, 0xE0, 0x54, 0xEF, 0xF0, 0x90, 0x88, 0x93, 0xE0, 0xFF, 0x90, 0x88, 
++0x3F, 0xE0, 0xD3, 0x9F, 0x22, 0xE4, 0xFE, 0x74, 0xED, 0x2E, 0xF5, 0x82, 0xE4, 0x34, 0x93, 0xF5, 
++0x83, 0xE4, 0xF0, 0x74, 0x8D, 0x2E, 0x12, 0xCC, 0x52, 0x74, 0xFF, 0xF0, 0x0E, 0xEE, 0xB4, 0xA0, 
++0xE6, 0xE4, 0x90, 0x88, 0x4D, 0xF0, 0x90, 0x88, 0x4C, 0xF0, 0x90, 0x88, 0x50, 0xF0, 0xEF, 0xB4, 
++0x01, 0x07, 0xA3, 0x74, 0xA0, 0xF0, 0xE4, 0xA3, 0xF0, 0x22, 0xFD, 0xEE, 0x13, 0x13, 0x54, 0x07, 
++0xFB, 0x90, 0x93, 0x58, 0xE0, 0xFE, 0xC4, 0x54, 0x0F, 0x90, 0x96, 0xE4, 0xF0, 0x22, 0xFF, 0x90, 
++0x95, 0xC2, 0xE5, 0xF0, 0xF0, 0xA3, 0xEF, 0xF0, 0x22, 0x90, 0x88, 0x32, 0xE0, 0xFF, 0x13, 0x13, 
++0x13, 0x54, 0x1F, 0x22, 0x12, 0x04, 0xB8, 0x90, 0x05, 0x84, 0xEF, 0xF0, 0x7D, 0x20, 0xE4, 0xFF, 
++0x02, 0x7C, 0x05, 0x90, 0x01, 0x34, 0x74, 0x40, 0xF0, 0xFD, 0xE4, 0xFF, 0x12, 0x7C, 0x74, 0x43, 
++0x64, 0x08, 0x22, 0xE0, 0x54, 0x03, 0x90, 0x92, 0x80, 0xF0, 0x7B, 0x01, 0xAF, 0x61, 0x02, 0x75, 
++0x80, 0x90, 0x96, 0x16, 0x12, 0x86, 0x46, 0x7A, 0x93, 0x79, 0x29, 0x12, 0xBF, 0xA7, 0xEF, 0x22, 
++0x33, 0x33, 0x33, 0x54, 0xF8, 0x90, 0x88, 0x4E, 0xF0, 0xA3, 0x74, 0x50, 0xF0, 0x22, 0xE0, 0x54, 
++0xFE, 0x4E, 0xFE, 0xF0, 0xEF, 0x54, 0x02, 0xFF, 0xEE, 0x54, 0xFD, 0x22, 0xE0, 0x90, 0x01, 0xBA, 
++0xF0, 0x90, 0x88, 0x38, 0xE0, 0x90, 0x01, 0xBB, 0x22, 0x12, 0x04, 0x31, 0x90, 0x96, 0xB1, 0x12, 
++0x04, 0xB8, 0x90, 0x96, 0xB9, 0x22, 0x90, 0x00, 0x03, 0x12, 0x02, 0x1F, 0xC4, 0x13, 0x13, 0x54, 
++0x03, 0x22, 0xF0, 0x74, 0xC6, 0x2D, 0xF5, 0x82, 0xE4, 0x34, 0x8D, 0xF5, 0x83, 0x22, 0x74, 0xB6, 
++0x25, 0x67, 0xF5, 0x82, 0xE4, 0x34, 0x8D, 0xF5, 0x83, 0x22, 0x90, 0x88, 0x2C, 0xE0, 0xC4, 0x13, 
++0x22, 0x90, 0x93, 0x58, 0xE0, 0xFE, 0xC3, 0x13, 0x54, 0x07, 0x22, 0x90, 0x95, 0x36, 0xE0, 0x04, 
++0xF0, 0x22, 0xFB, 0x7A, 0x04, 0xF9, 0xF8, 0x02, 0x85, 0xC8, 0x12, 0x04, 0xB8, 0x90, 0x05, 0x88, 
++0xEF, 0xF0, 0x22, 0xEF, 0xF0, 0xA3, 0xED, 0xF0, 0xA3, 0xEB, 0xF0, 0x22, 0xF0, 0xA3, 0xE4, 0xF0, 
++0xA3, 0xE5, 0x76, 0xF0, 0x22, 0x12, 0x02, 0x06, 0x13, 0x13, 0x13, 0x54, 0x1F, 0x22, 0x90, 0x88, 
++0x2C, 0xE0, 0x13, 0x13, 0x54, 0x3F, 0x22, 0x7D, 0x02, 0x7F, 0x02, 0x02, 0x7C, 0x7E, 0x25, 0xE0, 
++0x25, 0xE0, 0xFE, 0xEF, 0x4E, 0x22, 0x90, 0x00, 0x02, 0x12, 0x03, 0x3E, 0xFF, 0x22, 0xF5, 0x82, 
++0xE4, 0x34, 0x8E, 0xF5, 0x83, 0x22, 0x90, 0x88, 0x31, 0xE0, 0x54, 0xF7, 0xF0, 0x22, 0x7F, 0xF3, 
++0x7E, 0x01, 0x02, 0x5F, 0xA6, 0x7F, 0xF2, 0x7E, 0x01, 0x02, 0x5F, 0xA6, 0x7F, 0xF6, 0x7E, 0x01, 
++0x02, 0x5F, 0xA6, 0x7F, 0xF5, 0x7E, 0x01, 0x02, 0x5F, 0xA6, 0x7F, 0xF4, 0x7E, 0x01, 0x02, 0x5F, 
++0xA6, 0x90, 0x05, 0x00, 0x74, 0x1C, 0xF0, 0xA3, 0x22, 0x7D, 0x03, 0x7F, 0x02, 0x02, 0x7C, 0x05, 
++0xFC, 0x2A, 
++};
++u4Byte ArrayLength_MP_8723D_FW_NIC = 25650;
++
++
++#endif
++
++void
++ODM_ReadFirmware_MP_8723D_FW_NIC(
++	IN   PDM_ODM_T    pDM_Odm,
++	OUT  u1Byte       *pFirmware,
++	OUT  u4Byte       *pFirmwareSize
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++	*((SIZE_PTR *)pFirmware) = (SIZE_PTR)Array_MP_8723D_FW_NIC;
++#else
++	ODM_MoveMemory(pDM_Odm, pFirmware, Array_MP_8723D_FW_NIC, ArrayLength_MP_8723D_FW_NIC);
++#endif
++	*pFirmwareSize = ArrayLength_MP_8723D_FW_NIC;
++}
++
++#ifndef LOAD_FW_HEADER_FROM_DRIVER 
++u1Byte Array_MP_8723D_FW_WoWLAN[] = {
++0xD1, 0x23, 0x30, 0x00, 0x10, 0x00, 0x00, 0x00, 0x05, 0x16, 0x18, 0x17, 0x4A, 0x70, 0x02, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
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++0x00, 0x12, 0x8E, 0x2C, 0xEF, 0x64, 0x01, 0x60, 0x02, 0xC1, 0x4F, 0x12, 0x68, 0xC2, 0xC1, 0x4F, 
++0x90, 0x88, 0x39, 0xE0, 0xB4, 0x0E, 0x0C, 0x90, 0x86, 0x00, 0x12, 0x8E, 0x2C, 0xBF, 0x01, 0x03, 
++0x12, 0x71, 0x5F, 0x90, 0x88, 0x39, 0xE0, 0xB4, 0x06, 0x03, 0x12, 0x71, 0x24, 0x90, 0x88, 0x39, 
++0xE0, 0xB4, 0x0C, 0x0C, 0x90, 0x86, 0x00, 0x12, 0x8E, 0x2C, 0xBF, 0x01, 0x03, 0x12, 0x68, 0xC2, 
++0x90, 0x88, 0x39, 0xE0, 0x64, 0x04, 0x70, 0x67, 0x90, 0x86, 0x02, 0x12, 0x8E, 0x2C, 0xEF, 0x64, 
++0x01, 0x70, 0x5C, 0x12, 0x73, 0x5A, 0x80, 0x57, 0x90, 0x88, 0x39, 0xE0, 0xB4, 0x0E, 0x0C, 0x90, 
++0x86, 0x00, 0x12, 0x8E, 0x2C, 0xBF, 0x01, 0x03, 0x12, 0x71, 0x5F, 0x90, 0x88, 0x39, 0xE0, 0xB4, 
++0x06, 0x03, 0x12, 0x71, 0x24, 0x90, 0x88, 0x39, 0xE0, 0xB4, 0x0C, 0x0C, 0x90, 0x86, 0x00, 0x12, 
++0x8E, 0x2C, 0xBF, 0x01, 0x03, 0x12, 0x68, 0xC2, 0x90, 0x88, 0x39, 0xE0, 0x70, 0x05, 0x7F, 0x01, 
++0x12, 0x78, 0xC0, 0x90, 0x88, 0x39, 0xE0, 0xB4, 0x04, 0x15, 0x12, 0x7A, 0x49, 0x80, 0x10, 0x90, 
++0x88, 0x39, 0xE0, 0xB4, 0x0C, 0x09, 0x12, 0x97, 0xD5, 0x30, 0xE0, 0x03, 0x12, 0x79, 0xD4, 0x90, 
++0x88, 0x39, 0xD1, 0x59, 0xD0, 0xD0, 0x92, 0xAF, 0x22, 0xE0, 0x90, 0x01, 0xBA, 0xF0, 0x90, 0x88, 
++0x38, 0xE0, 0x90, 0x01, 0xBB, 0xF0, 0x22, 0x90, 0x88, 0x8D, 0x74, 0x18, 0xF0, 0xA3, 0xF0, 0xA3, 
++0xE4, 0xF0, 0xA3, 0x74, 0x64, 0xF0, 0xA3, 0x74, 0x05, 0xF0, 0xA3, 0xF0, 0x22, 0xD1, 0xC2, 0x40, 
++0x40, 0x90, 0x88, 0x50, 0xE0, 0x04, 0xF0, 0x90, 0x88, 0x92, 0xE0, 0xFF, 0x90, 0x88, 0x50, 0xE0, 
++0xD3, 0x9F, 0x50, 0x2D, 0x90, 0x88, 0x48, 0xE0, 0x04, 0xF0, 0x90, 0x88, 0x3F, 0x12, 0x9F, 0x5F, 
++0x33, 0x33, 0x33, 0x54, 0xF8, 0xFF, 0x90, 0x88, 0x3E, 0xE0, 0x2F, 0x90, 0x88, 0x4F, 0xF0, 0xFB, 
++0x90, 0x88, 0x48, 0xE0, 0xFF, 0xA3, 0xE0, 0xFD, 0x90, 0x92, 0x98, 0x74, 0x03, 0xF0, 0x12, 0x6E, 
++0x2F, 0x22, 0x90, 0x88, 0x93, 0xE0, 0xFF, 0x90, 0x88, 0x3F, 0xE0, 0xD3, 0x9F, 0x22, 0xE4, 0xFE, 
++0x12, 0xA3, 0x99, 0xE4, 0xF0, 0x74, 0x8B, 0x2E, 0x12, 0xA3, 0x91, 0x74, 0xFF, 0xF0, 0x0E, 0xEE, 
++0xB4, 0xA0, 0xED, 0xE4, 0x90, 0x88, 0x4D, 0xF0, 0x90, 0x88, 0x4C, 0xF0, 0x90, 0x88, 0x50, 0xF0, 
++0xEF, 0xB4, 0x01, 0x07, 0xA3, 0x74, 0xA0, 0xF0, 0xE4, 0xA3, 0xF0, 0x22, 0x90, 0x93, 0x08, 0xE0, 
++0x30, 0xE0, 0x0A, 0x90, 0x01, 0x3B, 0xE0, 0x30, 0xE4, 0x03, 0x12, 0xA7, 0xED, 0x22, 0xF9, 0xE4, 
++0x3A, 0x8B, 0x45, 0xF5, 0x46, 0x89, 0x47, 0x75, 0x48, 0x04, 0x7B, 0x01, 0x7A, 0x98, 0x79, 0x76, 
++0x12, 0x69, 0xF5, 0x90, 0x98, 0x70, 0xE0, 0x75, 0xF0, 0x08, 0xA4, 0x22, 0x90, 0x05, 0x63, 0xE0, 
++0x90, 0x88, 0x89, 0xF0, 0x90, 0x05, 0x62, 0xE0, 0x90, 0x88, 0x8A, 0xF0, 0x90, 0x05, 0x61, 0xE0, 
++0x90, 0x88, 0x8B, 0xF0, 0x90, 0x05, 0x60, 0xE0, 0x90, 0x88, 0x8C, 0xF0, 0x90, 0x88, 0x32, 0xE0, 
++0x44, 0x80, 0xF0, 0x22, 0xFF, 0x90, 0x98, 0x75, 0xF0, 0x7B, 0x01, 0x7A, 0x98, 0x79, 0x76, 0x12, 
++0x8F, 0x21, 0x90, 0x98, 0x72, 0x12, 0x85, 0xEE, 0xE9, 0x22, 0xE0, 0xFF, 0x24, 0x10, 0xF5, 0x82, 
++0xE4, 0x34, 0x93, 0xF5, 0x83, 0xE0, 0x90, 0x01, 0xB2, 0xF0, 0x74, 0x15, 0x2F, 0xF5, 0x82, 0xE4, 
++0x34, 0x93, 0xF5, 0x83, 0xE0, 0x90, 0x01, 0xB3, 0xF0, 0xE0, 0x22, 0xF0, 0xA3, 0xEF, 0xF0, 0x74, 
++0x02, 0x2D, 0xF5, 0x82, 0xE4, 0x34, 0xFB, 0xF5, 0x83, 0xE0, 0x54, 0x0F, 0x33, 0x33, 0x33, 0x54, 
++0xF8, 0xFF, 0x90, 0x95, 0xEA, 0xE0, 0x22, 0x90, 0x8A, 0x77, 0xE0, 0xFE, 0xA3, 0xE0, 0xFF, 0xF5, 
++0x82, 0x8E, 0x83, 0x02, 0x04, 0x7E, 0x90, 0x88, 0x28, 0xE0, 0x24, 0x01, 0xFF, 0x90, 0x88, 0x27, 
++0xE0, 0x34, 0x00, 0xFE, 0xC3, 0x22, 0x54, 0x04, 0xFD, 0xEF, 0x54, 0xFB, 0x4D, 0xFF, 0x22, 0x54, 
++0x10, 0xFD, 0xEF, 0x54, 0xEF, 0x4D, 0xFF, 0x22, 0x90, 0x88, 0x38, 0xE0, 0x90, 0x98, 0xA0, 0xF0, 
++0x90, 0x8A, 0x89, 0x22, 0x7D, 0x01, 0x7E, 0x00, 0x7F, 0x10, 0x12, 0x87, 0xAC, 0xEF, 0x22, 0x7F, 
++0x84, 0x7E, 0x08, 0x12, 0xB7, 0x14, 0x90, 0x99, 0x92, 0x22, 0x90, 0x97, 0x32, 0x12, 0x85, 0xF7, 
++0x02, 0x02, 0x06, 0x54, 0x40, 0xFD, 0xEF, 0x54, 0xBF, 0x4D, 0xFF, 0x22, 0xF0, 0xEE, 0x54, 0x80, 
++0xFE, 0xEF, 0x54, 0x7F, 0x22, 0x90, 0x97, 0xCA, 0xE0, 0xFF, 0xC3, 0x94, 0x04, 0x22, 0x90, 0x97, 
++0xCA, 0xE0, 0xFF, 0xC3, 0x94, 0x06, 0x22, 0x7E, 0x00, 0x7F, 0x06, 0x12, 0x87, 0xAC, 0xEF, 0x22, 
++0x54, 0x20, 0xFE, 0xEF, 0x54, 0xDF, 0x4E, 0x22, 0x90, 0x88, 0x34, 0xE0, 0xC4, 0x54, 0x0F, 0x22, 
++0x90, 0x05, 0x00, 0x74, 0x1C, 0xF0, 0xA3, 0x22, 0x2C, 0xC0, 
++};
++u4Byte ArrayLength_MP_8723D_FW_WoWLAN = 28778;
++
++#endif
++
++void
++ODM_ReadFirmware_MP_8723D_FW_WoWLAN(
++	IN   PDM_ODM_T    pDM_Odm,
++	OUT  u1Byte       *pFirmware,
++	OUT  u4Byte       *pFirmwareSize
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++	*((SIZE_PTR *)pFirmware) = (SIZE_PTR)Array_MP_8723D_FW_WoWLAN;
++#else
++	ODM_MoveMemory(pDM_Odm, pFirmware, Array_MP_8723D_FW_WoWLAN, ArrayLength_MP_8723D_FW_WoWLAN);
++#endif
++	*pFirmwareSize = ArrayLength_MP_8723D_FW_WoWLAN;
++}
++
++
++
++#endif /* end of (defined(CONFIG_AP_WOWLAN) || (DM_ODM_SUPPORT_TYPE & (ODM_AP)))*/
++
++
++#endif /* end of HWIMG_SUPPORT*/
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_fw.h b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_fw.h
+new file mode 100644
+index 0000000..5fef7fb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_fw.h
+@@ -0,0 +1,62 @@
++/****************************************************************************** 
++* 
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved. 
++* 
++* This program is free software; you can redistribute it and/or modify it 
++* under the terms of version 2 of the GNU General Public License as 
++* published by the Free Software Foundation. 
++* 
++* This program is distributed in the hope that it will be useful, but WITHOUT 
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for 
++* more details. 
++* 
++* You should have received a copy of the GNU General Public License along with 
++* this program; if not, write to the Free Software Foundation, Inc., 
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA 
++* 
++* 
++******************************************************************************/
++
++/*Image2HeaderVersion: 2.16*/
++#if (RTL8723D_SUPPORT == 1)
++#ifndef __INC_MP_FW_HW_IMG_8723D_H
++#define __INC_MP_FW_HW_IMG_8723D_H
++
++
++/******************************************************************************
++*                           FW_AP.TXT
++******************************************************************************/
++
++void
++ODM_ReadFirmware_MP_8723D_FW_AP(
++	IN   PDM_ODM_T    pDM_Odm,
++	OUT  u1Byte       *pFirmware,
++	OUT  u4Byte       *pFirmwareSize
++);
++
++/******************************************************************************
++*                           FW_NIC.TXT
++******************************************************************************/
++
++void
++ODM_ReadFirmware_MP_8723D_FW_NIC(
++	IN   PDM_ODM_T    pDM_Odm,
++	OUT  u1Byte       *pFirmware,
++	OUT  u4Byte       *pFirmwareSize
++);
++
++/******************************************************************************
++*                           FW_WoWLAN.TXT
++******************************************************************************/
++
++void
++ODM_ReadFirmware_MP_8723D_FW_WoWLAN(
++	IN   PDM_ODM_T    pDM_Odm,
++	OUT  u1Byte       *pFirmware,
++	OUT  u4Byte       *pFirmwareSize
++);
++
++#endif
++#endif /* end of HWIMG_SUPPORT*/
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_mac.c b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_mac.c
+new file mode 100644
+index 0000000..8509906
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_mac.c
+@@ -0,0 +1,296 @@
++/****************************************************************************** 
++* 
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved. 
++* 
++* This program is free software; you can redistribute it and/or modify it 
++* under the terms of version 2 of the GNU General Public License as 
++* published by the Free Software Foundation. 
++* 
++* This program is distributed in the hope that it will be useful, but WITHOUT 
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for 
++* more details. 
++* 
++* You should have received a copy of the GNU General Public License along with 
++* this program; if not, write to the Free Software Foundation, Inc., 
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA 
++* 
++* 
++******************************************************************************/
++
++/*Image2HeaderVersion: 2.23*/
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#if (RTL8723D_SUPPORT == 1)
++static BOOLEAN
++CheckPositive(
++	IN  PDM_ODM_T     pDM_Odm,
++	IN  const u4Byte  Condition1,
++	IN  const u4Byte  Condition2,
++	IN	const u4Byte  Condition3,
++	IN	const u4Byte  Condition4
++)
++{
++	u1Byte    _BoardType = ((pDM_Odm->BoardType & BIT4) >> 4) << 0 | /* _GLNA*/
++				((pDM_Odm->BoardType & BIT3) >> 3) << 1 | /* _GPA*/ 
++				((pDM_Odm->BoardType & BIT7) >> 7) << 2 | /* _ALNA*/
++				((pDM_Odm->BoardType & BIT6) >> 6) << 3 | /* _APA */
++				((pDM_Odm->BoardType & BIT2) >> 2) << 4;  /* _BT*/  
++
++	u4Byte	cond1   = Condition1, cond2 = Condition2, cond3 = Condition3, cond4 = Condition4;
++	u4Byte    driver1 = pDM_Odm->CutVersion       << 24 | 
++				(pDM_Odm->SupportInterface & 0xF0) << 16 | 
++				pDM_Odm->SupportPlatform  << 16 | 
++				pDM_Odm->PackageType      << 12 | 
++				(pDM_Odm->SupportInterface & 0x0F) << 8  |
++				_BoardType;
++
++	u4Byte    driver2 = (pDM_Odm->TypeGLNA & 0xFF) <<  0 |  
++				(pDM_Odm->TypeGPA & 0xFF)  <<  8 | 
++				(pDM_Odm->TypeALNA & 0xFF) << 16 | 
++				(pDM_Odm->TypeAPA & 0xFF)  << 24; 
++
++u4Byte    driver3 = 0;
++
++	u4Byte    driver4 = (pDM_Odm->TypeGLNA & 0xFF00) >>  8 |
++				(pDM_Odm->TypeGPA & 0xFF00) |
++				(pDM_Odm->TypeALNA & 0xFF00) << 8 |
++				(pDM_Odm->TypeAPA & 0xFF00)  << 16;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("===> CheckPositive (cond1, cond2, cond3, cond4) = (0x%X 0x%X 0x%X 0x%X)\n", cond1, cond2, cond3, cond4));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("===> CheckPositive (driver1, driver2, driver3, driver4) = (0x%X 0x%X 0x%X 0x%X)\n", driver1, driver2, driver3, driver4));
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("	(Platform, Interface) = (0x%X, 0x%X)\n", pDM_Odm->SupportPlatform, pDM_Odm->SupportInterface));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("	(Board, Package) = (0x%X, 0x%X)\n", pDM_Odm->BoardType, pDM_Odm->PackageType));
++
++
++	/*============== Value Defined Check ===============*/
++	/*QFN Type [15:12] and Cut Version [27:24] need to do value check*/
++	
++	if (((cond1 & 0x0000F000) != 0) && ((cond1 & 0x0000F000) != (driver1 & 0x0000F000)))
++		return FALSE;
++	if (((cond1 & 0x0F000000) != 0) && ((cond1 & 0x0F000000) != (driver1 & 0x0F000000)))
++		return FALSE;
++
++	/*=============== Bit Defined Check ================*/
++	/* We don't care [31:28] */
++
++	cond1   &= 0x00FF0FFF; 
++	driver1 &= 0x00FF0FFF; 
++
++	if ((cond1 & driver1) == cond1) {
++		u4Byte bitMask = 0;
++
++		if ((cond1 & 0x0F) == 0) /* BoardType is DONTCARE*/
++			return TRUE;
++
++		if ((cond1 & BIT0) != 0) /*GLNA*/
++			bitMask |= 0x000000FF;
++		if ((cond1 & BIT1) != 0) /*GPA*/
++			bitMask |= 0x0000FF00;
++		if ((cond1 & BIT2) != 0) /*ALNA*/
++			bitMask |= 0x00FF0000;
++		if ((cond1 & BIT3) != 0) /*APA*/
++			bitMask |= 0xFF000000;
++
++		if (((cond2 & bitMask) == (driver2 & bitMask)) && ((cond4 & bitMask) == (driver4 & bitMask)))  /* BoardType of each RF path is matched*/
++			return TRUE;
++		else
++			return FALSE;
++	} else
++		return FALSE;
++}
++static BOOLEAN
++CheckNegative(
++	IN  PDM_ODM_T     pDM_Odm,
++	IN  const u4Byte  Condition1,
++	IN  const u4Byte  Condition2
++)
++{
++	return TRUE;
++}
++
++/******************************************************************************
++*                           MAC_REG.TXT
++******************************************************************************/
++
++u4Byte Array_MP_8723D_MAC_REG[] = { 
++		0x020, 0x00000013,
++		0x02F, 0x00000010,
++		0x077, 0x00000007,
++		0x421, 0x0000000F,
++		0x428, 0x0000000A,
++		0x429, 0x00000010,
++		0x430, 0x00000000,
++		0x431, 0x00000000,
++		0x432, 0x00000000,
++		0x433, 0x00000001,
++		0x434, 0x00000004,
++		0x435, 0x00000005,
++		0x436, 0x00000007,
++		0x437, 0x00000008,
++		0x43C, 0x00000004,
++		0x43D, 0x00000005,
++		0x43E, 0x00000007,
++		0x43F, 0x00000008,
++		0x440, 0x0000005D,
++		0x441, 0x00000001,
++		0x442, 0x00000000,
++		0x444, 0x00000010,
++		0x445, 0x00000000,
++		0x446, 0x00000000,
++		0x447, 0x00000000,
++		0x448, 0x00000000,
++		0x449, 0x000000F0,
++		0x44A, 0x0000000F,
++		0x44B, 0x0000003E,
++		0x44C, 0x00000010,
++		0x44D, 0x00000000,
++		0x44E, 0x00000000,
++		0x44F, 0x00000000,
++		0x450, 0x00000000,
++		0x451, 0x000000F0,
++		0x452, 0x0000000F,
++		0x453, 0x00000000,
++		0x456, 0x0000005E,
++		0x460, 0x00000066,
++		0x461, 0x00000066,
++		0x4C8, 0x000000FF,
++		0x4C9, 0x00000008,
++		0x4CC, 0x000000FF,
++		0x4CD, 0x000000FF,
++		0x4CE, 0x00000001,
++		0x500, 0x00000026,
++		0x501, 0x000000A2,
++		0x502, 0x0000002F,
++		0x503, 0x00000000,
++		0x504, 0x00000028,
++		0x505, 0x000000A3,
++		0x506, 0x0000005E,
++		0x507, 0x00000000,
++		0x508, 0x0000002B,
++		0x509, 0x000000A4,
++		0x50A, 0x0000005E,
++		0x50B, 0x00000000,
++		0x50C, 0x0000004F,
++		0x50D, 0x000000A4,
++		0x50E, 0x00000000,
++		0x50F, 0x00000000,
++		0x512, 0x0000001C,
++		0x514, 0x0000000A,
++		0x516, 0x0000000A,
++		0x525, 0x0000004F,
++		0x550, 0x00000010,
++		0x551, 0x00000010,
++		0x559, 0x00000002,
++		0x55C, 0x00000028,
++		0x55D, 0x000000FF,
++		0x605, 0x00000030,
++		0x608, 0x0000000E,
++		0x609, 0x0000002A,
++		0x620, 0x000000FF,
++		0x621, 0x000000FF,
++		0x622, 0x000000FF,
++		0x623, 0x000000FF,
++		0x624, 0x000000FF,
++		0x625, 0x000000FF,
++		0x626, 0x000000FF,
++		0x627, 0x000000FF,
++		0x638, 0x00000028,
++		0x63C, 0x0000000A,
++		0x63D, 0x0000000A,
++		0x63E, 0x0000000C,
++		0x63F, 0x0000000C,
++		0x640, 0x00000040,
++		0x642, 0x00000040,
++		0x643, 0x00000000,
++		0x652, 0x000000C8,
++		0x66A, 0x000000B0,
++		0x66E, 0x00000005,
++		0x700, 0x00000021,
++		0x701, 0x00000043,
++		0x702, 0x00000065,
++		0x703, 0x00000087,
++		0x708, 0x00000021,
++		0x709, 0x00000043,
++		0x70A, 0x00000065,
++		0x70B, 0x00000087,
++		0x765, 0x00000018,
++		0x76E, 0x00000004,
++		0x7C0, 0x00000038,
++		0x7C2, 0x0000000F,
++		0x7C3, 0x000000C0,
++		0x073, 0x00000004,
++		0x7C4, 0x00000077,
++		0x07C, 0x00000003,
++		0x016, 0x000000B3,
++
++};
++
++void
++ODM_ReadAndConfig_MP_8723D_MAC_REG(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i         = 0;
++	u1Byte     cCond;
++	BOOLEAN bMatched = TRUE, bSkipped = FALSE;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8723D_MAC_REG)/sizeof(u4Byte);
++	pu4Byte    Array       = Array_MP_8723D_MAC_REG;
++	
++	u4Byte	v1 = 0, v2 = 0, pre_v1 = 0, pre_v2 = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8723D_MAC_REG\n"));
++
++	while ((i + 1) < ArrayLen) {
++		v1 = Array[i];
++		v2 = Array[i + 1];
++
++		if (v1 & (BIT31 | BIT30)) {/*positive & negative condition*/
++			if (v1 & BIT31) {/* positive condition*/
++				cCond  = (u1Byte)((v1 & (BIT29|BIT28)) >> 28);
++				if (cCond == COND_ENDIF) {/*end*/
++					bMatched = TRUE;
++					bSkipped = FALSE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ENDIF\n"));
++				} else if (cCond == COND_ELSE) { /*else*/
++					bMatched = bSkipped?FALSE:TRUE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ELSE\n"));
++				} else {/*if , else if*/
++					pre_v1 = v1;
++					pre_v2 = v2;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("IF or ELSE IF\n"));
++				}
++			} else if (v1 & BIT30) { /*negative condition*/
++				if (bSkipped == FALSE) {
++					if (CheckPositive(pDM_Odm, pre_v1, pre_v2, v1, v2)) {
++						bMatched = TRUE;
++						bSkipped = TRUE;
++					} else {
++						bMatched = FALSE;
++						bSkipped = FALSE;
++					}
++				} else
++					bMatched = FALSE;
++			}
++		} else {
++			if (bMatched)
++				odm_ConfigMAC_8723D(pDM_Odm, v1, (u1Byte)v2);
++		}
++		i = i + 2;
++	}
++}
++
++u4Byte
++ODM_GetVersion_MP_8723D_MAC_REG(void)
++{
++	   return 29;
++}
++
++#endif /* end of HWIMG_SUPPORT*/
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_mac.h b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_mac.h
+new file mode 100644
+index 0000000..07a1dd0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_mac.h
+@@ -0,0 +1,39 @@
++/****************************************************************************** 
++* 
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved. 
++* 
++* This program is free software; you can redistribute it and/or modify it 
++* under the terms of version 2 of the GNU General Public License as 
++* published by the Free Software Foundation. 
++* 
++* This program is distributed in the hope that it will be useful, but WITHOUT 
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for 
++* more details. 
++* 
++* You should have received a copy of the GNU General Public License along with 
++* this program; if not, write to the Free Software Foundation, Inc., 
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA 
++* 
++* 
++******************************************************************************/
++
++/*Image2HeaderVersion: 2.23*/
++#if (RTL8723D_SUPPORT == 1)
++#ifndef __INC_MP_MAC_HW_IMG_8723D_H
++#define __INC_MP_MAC_HW_IMG_8723D_H
++
++
++/******************************************************************************
++*                           MAC_REG.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8723D_MAC_REG(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8723D_MAC_REG(void);
++
++#endif
++#endif /* end of HWIMG_SUPPORT*/
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_rf.c b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_rf.c
+new file mode 100644
+index 0000000..bce1c9e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_rf.c
+@@ -0,0 +1,1194 @@
++/****************************************************************************** 
++* 
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved. 
++* 
++* This program is free software; you can redistribute it and/or modify it 
++* under the terms of version 2 of the GNU General Public License as 
++* published by the Free Software Foundation. 
++* 
++* This program is distributed in the hope that it will be useful, but WITHOUT 
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for 
++* more details. 
++* 
++* You should have received a copy of the GNU General Public License along with 
++* this program; if not, write to the Free Software Foundation, Inc., 
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA 
++* 
++* 
++******************************************************************************/
++
++/*Image2HeaderVersion: 2.23*/
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#if (RTL8723D_SUPPORT == 1)
++static BOOLEAN
++CheckPositive(
++	IN  PDM_ODM_T     pDM_Odm,
++	IN  const u4Byte  Condition1,
++	IN  const u4Byte  Condition2,
++	IN	const u4Byte  Condition3,
++	IN	const u4Byte  Condition4
++)
++{
++	u1Byte    _BoardType = ((pDM_Odm->BoardType & BIT4) >> 4) << 0 | /* _GLNA*/
++				((pDM_Odm->BoardType & BIT3) >> 3) << 1 | /* _GPA*/ 
++				((pDM_Odm->BoardType & BIT7) >> 7) << 2 | /* _ALNA*/
++				((pDM_Odm->BoardType & BIT6) >> 6) << 3 | /* _APA */
++				((pDM_Odm->BoardType & BIT2) >> 2) << 4;  /* _BT*/  
++
++	u4Byte	cond1   = Condition1, cond2 = Condition2, cond3 = Condition3, cond4 = Condition4;
++	u4Byte    driver1 = pDM_Odm->CutVersion       << 24 | 
++				(pDM_Odm->SupportInterface & 0xF0) << 16 | 
++				pDM_Odm->SupportPlatform  << 16 | 
++				pDM_Odm->PackageType      << 12 | 
++				(pDM_Odm->SupportInterface & 0x0F) << 8  |
++				_BoardType;
++
++	u4Byte    driver2 = (pDM_Odm->TypeGLNA & 0xFF) <<  0 |  
++				(pDM_Odm->TypeGPA & 0xFF)  <<  8 | 
++				(pDM_Odm->TypeALNA & 0xFF) << 16 | 
++				(pDM_Odm->TypeAPA & 0xFF)  << 24; 
++
++u4Byte    driver3 = 0;
++
++	u4Byte    driver4 = (pDM_Odm->TypeGLNA & 0xFF00) >>  8 |
++				(pDM_Odm->TypeGPA & 0xFF00) |
++				(pDM_Odm->TypeALNA & 0xFF00) << 8 |
++				(pDM_Odm->TypeAPA & 0xFF00)  << 16;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("===> CheckPositive (cond1, cond2, cond3, cond4) = (0x%X 0x%X 0x%X 0x%X)\n", cond1, cond2, cond3, cond4));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("===> CheckPositive (driver1, driver2, driver3, driver4) = (0x%X 0x%X 0x%X 0x%X)\n", driver1, driver2, driver3, driver4));
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("	(Platform, Interface) = (0x%X, 0x%X)\n", pDM_Odm->SupportPlatform, pDM_Odm->SupportInterface));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("	(Board, Package) = (0x%X, 0x%X)\n", pDM_Odm->BoardType, pDM_Odm->PackageType));
++
++
++	/*============== Value Defined Check ===============*/
++	/*QFN Type [15:12] and Cut Version [27:24] need to do value check*/
++	
++	if (((cond1 & 0x0000F000) != 0) && ((cond1 & 0x0000F000) != (driver1 & 0x0000F000)))
++		return FALSE;
++	if (((cond1 & 0x0F000000) != 0) && ((cond1 & 0x0F000000) != (driver1 & 0x0F000000)))
++		return FALSE;
++
++	/*=============== Bit Defined Check ================*/
++	/* We don't care [31:28] */
++
++	cond1   &= 0x00FF0FFF; 
++	driver1 &= 0x00FF0FFF; 
++
++	if ((cond1 & driver1) == cond1) {
++		u4Byte bitMask = 0;
++
++		if ((cond1 & 0x0F) == 0) /* BoardType is DONTCARE*/
++			return TRUE;
++
++		if ((cond1 & BIT0) != 0) /*GLNA*/
++			bitMask |= 0x000000FF;
++		if ((cond1 & BIT1) != 0) /*GPA*/
++			bitMask |= 0x0000FF00;
++		if ((cond1 & BIT2) != 0) /*ALNA*/
++			bitMask |= 0x00FF0000;
++		if ((cond1 & BIT3) != 0) /*APA*/
++			bitMask |= 0xFF000000;
++
++		if (((cond2 & bitMask) == (driver2 & bitMask)) && ((cond4 & bitMask) == (driver4 & bitMask)))  /* BoardType of each RF path is matched*/
++			return TRUE;
++		else
++			return FALSE;
++	} else
++		return FALSE;
++}
++static BOOLEAN
++CheckNegative(
++	IN  PDM_ODM_T     pDM_Odm,
++	IN  const u4Byte  Condition1,
++	IN  const u4Byte  Condition2
++)
++{
++	return TRUE;
++}
++
++/******************************************************************************
++*                           RadioA.TXT
++******************************************************************************/
++
++u4Byte Array_MP_8723D_RadioA[] = { 
++		0x050, 0x00019000,
++		0x000, 0x00010000,
++		0x0B1, 0x00054573,
++		0x0B4, 0x000508AB,
++		0x0B7, 0x00014787,
++		0x0B8, 0x000064CB,
++		0x01B, 0x00073A40,
++		0x051, 0x00038CAF,
++		0x052, 0x000FCCA3,
++		0x053, 0x00090F38,
++		0x054, 0x00011083,
++		0x057, 0x000D0000,
++		0x08D, 0x00000A1A,
++		0x082, 0x00082AAC,
++		0x08E, 0x00076940,
++		0x08F, 0x00088400,
++		0x061, 0x00038CAF,
++		0x062, 0x000FCCA3,
++		0x063, 0x00090F38,
++		0x064, 0x00011083,
++		0x067, 0x000D0000,
++		0x092, 0x00082AAC,
++		0x0EF, 0x00000400,
++		0x030, 0x000008CA,
++		0x030, 0x000018CF,
++		0x030, 0x000028CA,
++		0x030, 0x000038CA,
++		0x0EF, 0x00000000,
++		0x0EE, 0x00000400,
++		0x030, 0x000008CA,
++		0x030, 0x000018CF,
++		0x030, 0x000028CA,
++		0x030, 0x000038CA,
++		0x0EE, 0x00000000,
++		0x0EF, 0x00000100,
++		0x033, 0x00000000,
++		0x03F, 0x0000CCA3,
++		0x033, 0x00000001,
++		0x03F, 0x0000CCA3,
++		0x033, 0x00000002,
++		0x03F, 0x0000CCA3,
++		0x033, 0x00000003,
++		0x03F, 0x0000CCA3,
++		0x033, 0x00000004,
++		0x03F, 0x0000CCA3,
++		0x033, 0x00000005,
++		0x03F, 0x0000CCA3,
++		0x033, 0x00000006,
++		0x03F, 0x0000CCA3,
++		0x033, 0x00000007,
++		0x03F, 0x0000CCA3,
++		0x0EF, 0x00000000,
++		0x0EE, 0x00000100,
++		0x033, 0x00000000,
++		0x03F, 0x0000CCA3,
++		0x033, 0x00000001,
++		0x03F, 0x0000CCA3,
++		0x033, 0x00000002,
++		0x03F, 0x0000CCA3,
++		0x033, 0x00000003,
++		0x03F, 0x0000CCA3,
++		0x033, 0x00000004,
++		0x03F, 0x0000CCA3,
++		0x033, 0x00000005,
++		0x03F, 0x0000CCA3,
++		0x033, 0x00000006,
++		0x03F, 0x0000CCA3,
++		0x033, 0x00000007,
++		0x03F, 0x0000CCA3,
++		0x0EE, 0x00000000,
++		0x0EF, 0x00000800,
++		0x030, 0x0000002D,
++		0x030, 0x0000122C,
++		0x030, 0x0000222F,
++		0x030, 0x0000326C,
++		0x030, 0x0000466B,
++		0x030, 0x0000566E,
++		0x030, 0x000066EB,
++		0x030, 0x000077EC,
++		0x030, 0x000087EF,
++		0x030, 0x000097F2,
++		0x030, 0x0000A7F5,
++		0x0EF, 0x00000000,
++		0x0EE, 0x00000800,
++		0x030, 0x00000001,
++		0x030, 0x00001011,
++		0x030, 0x00002011,
++		0x030, 0x00003013,
++		0x030, 0x00004033,
++		0x030, 0x00005033,
++		0x030, 0x00006037,
++		0x030, 0x0000703F,
++		0x030, 0x0000803F,
++		0x030, 0x0000903F,
++		0x030, 0x0000A03F,
++		0x0EE, 0x00000000,
++		0x082, 0x00083B8C,
++		0x0ED, 0x00000008,
++		0x030, 0x000030F6,
++		0x030, 0x00002004,
++		0x030, 0x000010F6,
++		0x030, 0x000000F6,
++		0x0ED, 0x00000000,
++		0x092, 0x00083B8C,
++		0x0EC, 0x00000008,
++		0x030, 0x000030F6,
++		0x030, 0x00002004,
++		0x030, 0x000010F6,
++		0x030, 0x000000F6,
++		0x0EC, 0x00000000,
++		0x0EF, 0x00010000,
++		0x030, 0x0001C11C,
++		0x030, 0x000181F4,
++		0x030, 0x00014108,
++		0x030, 0x000101E4,
++		0x030, 0x0000C11C,
++		0x030, 0x000081F4,
++		0x030, 0x00004108,
++		0x030, 0x000001E4,
++		0x0EF, 0x00000000,
++		0x0EE, 0x00010000,
++		0x030, 0x0001C11C,
++		0x030, 0x000181F4,
++		0x030, 0x00014108,
++		0x030, 0x000101E4,
++		0x030, 0x0000C11C,
++		0x030, 0x000081F4,
++		0x030, 0x00004108,
++		0x030, 0x000001E4,
++		0x0EE, 0x00000000,
++		0x0EF, 0x00080000,
++		0x033, 0x00000007,
++		0x03E, 0x0000005F,
++		0x03F, 0x000B3FDB,
++		0x033, 0x00000004,
++		0x03E, 0x0000005D,
++		0x03F, 0x000BFFE0,
++		0x033, 0x00000005,
++		0x03E, 0x0000005D,
++		0x03F, 0x000FBFCE,
++		0x033, 0x00000006,
++		0x03E, 0x0000005F,
++		0x03F, 0x000A7FFB,
++		0x0EF, 0x00000000,
++		0x0EE, 0x00000002,
++		0x030, 0x00000001,
++		0x030, 0x00002001,
++		0x030, 0x00004001,
++		0x030, 0x00007001,
++		0x030, 0x00006001,
++		0x030, 0x00020001,
++		0x030, 0x00022001,
++		0x030, 0x00024001,
++		0x030, 0x00027001,
++		0x030, 0x00026001,
++		0x030, 0x00034001,
++		0x030, 0x00037001,
++		0x030, 0x00036001,
++		0x030, 0x00008000,
++		0x030, 0x0000A000,
++		0x030, 0x0000C000,
++		0x030, 0x0000E000,
++		0x030, 0x0001C000,
++		0x030, 0x0001E000,
++		0x0EE, 0x00000000,
++		0x0EE, 0x00020000,
++		0x0EF, 0x00020000,
++		0x030, 0x00000F75,
++		0x030, 0x00002F55,
++		0x030, 0x00003F75,
++		0x0EE, 0x00000000,
++		0x0EF, 0x00000000,
++		0x018, 0x00008401,
++		0xFFE, 0x00000000,
++
++};
++
++void
++ODM_ReadAndConfig_MP_8723D_RadioA(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i         = 0;
++	u1Byte     cCond;
++	BOOLEAN bMatched = TRUE, bSkipped = FALSE;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8723D_RadioA)/sizeof(u4Byte);
++	pu4Byte    Array       = Array_MP_8723D_RadioA;
++	
++	u4Byte	v1 = 0, v2 = 0, pre_v1 = 0, pre_v2 = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8723D_RadioA\n"));
++
++	while ((i + 1) < ArrayLen) {
++		v1 = Array[i];
++		v2 = Array[i + 1];
++
++		if (v1 & (BIT31 | BIT30)) {/*positive & negative condition*/
++			if (v1 & BIT31) {/* positive condition*/
++				cCond  = (u1Byte)((v1 & (BIT29|BIT28)) >> 28);
++				if (cCond == COND_ENDIF) {/*end*/
++					bMatched = TRUE;
++					bSkipped = FALSE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ENDIF\n"));
++				} else if (cCond == COND_ELSE) { /*else*/
++					bMatched = bSkipped?FALSE:TRUE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ELSE\n"));
++				} else {/*if , else if*/
++					pre_v1 = v1;
++					pre_v2 = v2;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("IF or ELSE IF\n"));
++				}
++			} else if (v1 & BIT30) { /*negative condition*/
++				if (bSkipped == FALSE) {
++					if (CheckPositive(pDM_Odm, pre_v1, pre_v2, v1, v2)) {
++						bMatched = TRUE;
++						bSkipped = TRUE;
++					} else {
++						bMatched = FALSE;
++						bSkipped = FALSE;
++					}
++				} else
++					bMatched = FALSE;
++			}
++		} else {
++			if (bMatched)
++				odm_ConfigRF_RadioA_8723D(pDM_Odm, v1, v2);
++		}
++		i = i + 2;
++	}
++}
++
++u4Byte
++ODM_GetVersion_MP_8723D_RadioA(void)
++{
++	   return 29;
++}
++
++/******************************************************************************
++*                           TxPowerTrack_PCIE.TXT
++******************************************************************************/
++
++#if DEV_BUS_TYPE == RT_PCI_INTERFACE
++u1Byte gDeltaSwingTableIdx_MP_5GB_N_TxPowerTrack_PCIE_8723D[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 2, 3, 3, 5, 5, 6, 6, 7, 8, 9, 10, 11, 11, 12, 12, 13, 13, 14, 14, 15, 16, 17, 17, 17, 17, 18, 18, 18},
++	{0, 1, 2, 3, 3, 5, 5, 6, 6, 7, 8, 9, 10, 11, 11, 12, 13, 14, 14, 15, 15, 16, 16, 17, 17, 18, 18, 18, 18, 18},
++	{0, 1, 2, 3, 3, 5, 5, 6, 6, 7, 8, 9, 10, 11, 11, 12, 13, 14, 14, 15, 15, 16, 16, 17, 17, 18, 18, 18, 18, 18},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GB_P_TxPowerTrack_PCIE_8723D[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15},
++	{0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15},
++	{0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GA_N_TxPowerTrack_PCIE_8723D[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 2, 3, 3, 5, 5, 6, 6, 7, 8, 9, 10, 11, 11, 12, 12, 13, 13, 14, 14, 15, 16, 17, 17, 17, 17, 18, 18, 18},
++	{0, 1, 2, 3, 3, 5, 5, 6, 6, 7, 8, 9, 10, 11, 11, 12, 13, 14, 14, 15, 15, 16, 16, 17, 17, 18, 18, 18, 18, 18},
++	{0, 1, 2, 3, 3, 5, 5, 6, 6, 7, 8, 9, 10, 11, 11, 12, 13, 14, 14, 15, 15, 16, 16, 17, 17, 18, 18, 18, 18, 18},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GA_P_TxPowerTrack_PCIE_8723D[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15},
++	{0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15},
++	{0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15},
++};
++u1Byte gDeltaSwingTableIdx_MP_2GB_N_TxPowerTrack_PCIE_8723D[]    = {0, 0, 1, 1, 1, 2, 2, 3, 4, 4, 4, 4, 5, 5, 5, 6, 6, 7, 7, 8, 8, 8, 9, 9, 9, 10, 10, 10, 10, 10};
++u1Byte gDeltaSwingTableIdx_MP_2GB_P_TxPowerTrack_PCIE_8723D[]    = {0, 0, 1, 1, 2, 2, 2, 3, 3, 4, 4, 5, 5, 6, 7, 7, 8, 8, 8, 9, 9, 10, 10, 10, 10, 10, 10, 10, 10, 10};
++u1Byte gDeltaSwingTableIdx_MP_2GA_N_TxPowerTrack_PCIE_8723D[]    = {0, 0, 1, 1, 1, 2, 2, 3, 4, 4, 4, 4, 5, 5, 5, 6, 6, 7, 7, 8, 8, 8, 9, 9, 9, 10, 10, 10, 10, 10};
++u1Byte gDeltaSwingTableIdx_MP_2GA_P_TxPowerTrack_PCIE_8723D[]    = {0, 0, 1, 1, 2, 2, 2, 3, 3, 4, 4, 5, 5, 6, 7, 7, 8, 8, 8, 9, 9, 10, 10, 10, 10, 10, 10, 10, 10, 10};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKB_N_TxPowerTrack_PCIE_8723D[] = {0, 1, 1, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKB_P_TxPowerTrack_PCIE_8723D[] = {0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKA_N_TxPowerTrack_PCIE_8723D[] = {0, 1, 1, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKA_P_TxPowerTrack_PCIE_8723D[] = {0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11};
++#endif
++
++void
++ODM_ReadAndConfig_MP_8723D_TxPowerTrack_PCIE(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++#if DEV_BUS_TYPE == RT_PCI_INTERFACE
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_MP_8723D\n"));
++
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_P, gDeltaSwingTableIdx_MP_2GA_P_TxPowerTrack_PCIE_8723D, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_N, gDeltaSwingTableIdx_MP_2GA_N_TxPowerTrack_PCIE_8723D, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_P, gDeltaSwingTableIdx_MP_2GB_P_TxPowerTrack_PCIE_8723D, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_N, gDeltaSwingTableIdx_MP_2GB_N_TxPowerTrack_PCIE_8723D, DELTA_SWINGIDX_SIZE);
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_P, gDeltaSwingTableIdx_MP_2GCCKA_P_TxPowerTrack_PCIE_8723D, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_N, gDeltaSwingTableIdx_MP_2GCCKA_N_TxPowerTrack_PCIE_8723D, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_P, gDeltaSwingTableIdx_MP_2GCCKB_P_TxPowerTrack_PCIE_8723D, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_N, gDeltaSwingTableIdx_MP_2GCCKB_N_TxPowerTrack_PCIE_8723D, DELTA_SWINGIDX_SIZE);
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P, gDeltaSwingTableIdx_MP_5GA_P_TxPowerTrack_PCIE_8723D, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N, gDeltaSwingTableIdx_MP_5GA_N_TxPowerTrack_PCIE_8723D, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P, gDeltaSwingTableIdx_MP_5GB_P_TxPowerTrack_PCIE_8723D, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N, gDeltaSwingTableIdx_MP_5GB_N_TxPowerTrack_PCIE_8723D, DELTA_SWINGIDX_SIZE*3);
++#endif
++}
++
++/******************************************************************************
++*                           TxPowerTrack_SDIO.TXT
++******************************************************************************/
++
++#if DEV_BUS_TYPE == RT_SDIO_INTERFACE
++u1Byte gDeltaSwingTableIdx_MP_5GB_N_TxPowerTrack_SDIO_8723D[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 2, 3, 3, 5, 5, 6, 6, 7, 8, 9, 10, 11, 11, 12, 12, 13, 13, 14, 14, 15, 16, 17, 17, 17, 17, 18, 18, 18},
++	{0, 1, 2, 3, 3, 5, 5, 6, 6, 7, 8, 9, 10, 11, 11, 12, 13, 14, 14, 15, 15, 16, 16, 17, 17, 18, 18, 18, 18, 18},
++	{0, 1, 2, 3, 3, 5, 5, 6, 6, 7, 8, 9, 10, 11, 11, 12, 13, 14, 14, 15, 15, 16, 16, 17, 17, 18, 18, 18, 18, 18},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GB_P_TxPowerTrack_SDIO_8723D[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15},
++	{0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15},
++	{0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GA_N_TxPowerTrack_SDIO_8723D[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 2, 3, 3, 5, 5, 6, 6, 7, 8, 9, 10, 11, 11, 12, 12, 13, 13, 14, 14, 15, 16, 17, 17, 17, 17, 18, 18, 18},
++	{0, 1, 2, 3, 3, 5, 5, 6, 6, 7, 8, 9, 10, 11, 11, 12, 13, 14, 14, 15, 15, 16, 16, 17, 17, 18, 18, 18, 18, 18},
++	{0, 1, 2, 3, 3, 5, 5, 6, 6, 7, 8, 9, 10, 11, 11, 12, 13, 14, 14, 15, 15, 16, 16, 17, 17, 18, 18, 18, 18, 18},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GA_P_TxPowerTrack_SDIO_8723D[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15},
++	{0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15},
++	{0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15},
++};
++u1Byte gDeltaSwingTableIdx_MP_2GB_N_TxPowerTrack_SDIO_8723D[]    = {0, 0, 1, 1, 1, 2, 2, 3, 4, 4, 4, 4, 5, 5, 5, 6, 6, 7, 7, 8, 8, 8, 9, 9, 9, 10, 10, 10, 10, 10};
++u1Byte gDeltaSwingTableIdx_MP_2GB_P_TxPowerTrack_SDIO_8723D[]    = {0, 0, 1, 1, 2, 2, 2, 3, 3, 4, 4, 5, 5, 6, 7, 7, 8, 8, 8, 9, 9, 10, 10, 10, 10, 10, 10, 10, 10, 10};
++u1Byte gDeltaSwingTableIdx_MP_2GA_N_TxPowerTrack_SDIO_8723D[]    = {0, 0, 1, 1, 1, 2, 2, 3, 4, 4, 4, 4, 5, 5, 5, 6, 6, 7, 7, 8, 8, 8, 9, 9, 9, 10, 10, 10, 10, 10};
++u1Byte gDeltaSwingTableIdx_MP_2GA_P_TxPowerTrack_SDIO_8723D[]    = {0, 0, 1, 1, 2, 2, 2, 3, 3, 4, 4, 5, 5, 6, 7, 7, 8, 8, 8, 9, 9, 10, 10, 10, 10, 10, 10, 10, 10, 10};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKB_N_TxPowerTrack_SDIO_8723D[] = {0, 1, 1, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKB_P_TxPowerTrack_SDIO_8723D[] = {0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKA_N_TxPowerTrack_SDIO_8723D[] = {0, 1, 1, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKA_P_TxPowerTrack_SDIO_8723D[] = {0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11};
++#endif
++
++void
++ODM_ReadAndConfig_MP_8723D_TxPowerTrack_SDIO(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++#if DEV_BUS_TYPE == RT_SDIO_INTERFACE
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_MP_8723D\n"));
++
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_P, gDeltaSwingTableIdx_MP_2GA_P_TxPowerTrack_SDIO_8723D, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_N, gDeltaSwingTableIdx_MP_2GA_N_TxPowerTrack_SDIO_8723D, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_P, gDeltaSwingTableIdx_MP_2GB_P_TxPowerTrack_SDIO_8723D, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_N, gDeltaSwingTableIdx_MP_2GB_N_TxPowerTrack_SDIO_8723D, DELTA_SWINGIDX_SIZE);
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_P, gDeltaSwingTableIdx_MP_2GCCKA_P_TxPowerTrack_SDIO_8723D, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_N, gDeltaSwingTableIdx_MP_2GCCKA_N_TxPowerTrack_SDIO_8723D, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_P, gDeltaSwingTableIdx_MP_2GCCKB_P_TxPowerTrack_SDIO_8723D, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_N, gDeltaSwingTableIdx_MP_2GCCKB_N_TxPowerTrack_SDIO_8723D, DELTA_SWINGIDX_SIZE);
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P, gDeltaSwingTableIdx_MP_5GA_P_TxPowerTrack_SDIO_8723D, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N, gDeltaSwingTableIdx_MP_5GA_N_TxPowerTrack_SDIO_8723D, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P, gDeltaSwingTableIdx_MP_5GB_P_TxPowerTrack_SDIO_8723D, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N, gDeltaSwingTableIdx_MP_5GB_N_TxPowerTrack_SDIO_8723D, DELTA_SWINGIDX_SIZE*3);
++#endif
++}
++
++/******************************************************************************
++*                           TxPowerTrack_USB.TXT
++******************************************************************************/
++
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++u1Byte gDeltaSwingTableIdx_MP_5GB_N_TxPowerTrack_USB_8723D[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 2, 3, 3, 5, 5, 6, 6, 7, 8, 9, 10, 11, 11, 12, 12, 13, 13, 14, 14, 15, 16, 17, 17, 17, 17, 18, 18, 18},
++	{0, 1, 2, 3, 3, 5, 5, 6, 6, 7, 8, 9, 10, 11, 11, 12, 13, 14, 14, 15, 15, 16, 16, 17, 17, 18, 18, 18, 18, 18},
++	{0, 1, 2, 3, 3, 5, 5, 6, 6, 7, 8, 9, 10, 11, 11, 12, 13, 14, 14, 15, 15, 16, 16, 17, 17, 18, 18, 18, 18, 18},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GB_P_TxPowerTrack_USB_8723D[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15},
++	{0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15},
++	{0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GA_N_TxPowerTrack_USB_8723D[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 2, 3, 3, 5, 5, 6, 6, 7, 8, 9, 10, 11, 11, 12, 12, 13, 13, 14, 14, 15, 16, 17, 17, 17, 17, 18, 18, 18},
++	{0, 1, 2, 3, 3, 5, 5, 6, 6, 7, 8, 9, 10, 11, 11, 12, 13, 14, 14, 15, 15, 16, 16, 17, 17, 18, 18, 18, 18, 18},
++	{0, 1, 2, 3, 3, 5, 5, 6, 6, 7, 8, 9, 10, 11, 11, 12, 13, 14, 14, 15, 15, 16, 16, 17, 17, 18, 18, 18, 18, 18},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GA_P_TxPowerTrack_USB_8723D[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15},
++	{0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15},
++	{0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15},
++};
++u1Byte gDeltaSwingTableIdx_MP_2GB_N_TxPowerTrack_USB_8723D[]    = {0, 0, 1, 1, 1, 2, 2, 3, 4, 4, 4, 4, 5, 5, 5, 6, 6, 7, 7, 8, 8, 8, 9, 9, 9, 10, 10, 10, 10, 10};
++u1Byte gDeltaSwingTableIdx_MP_2GB_P_TxPowerTrack_USB_8723D[]    = {0, 0, 1, 1, 2, 2, 2, 3, 3, 4, 4, 5, 5, 6, 7, 7, 8, 8, 8, 9, 9, 10, 10, 10, 10, 10, 10, 10, 10, 10};
++u1Byte gDeltaSwingTableIdx_MP_2GA_N_TxPowerTrack_USB_8723D[]    = {0, 0, 1, 1, 1, 2, 2, 3, 4, 4, 4, 4, 5, 5, 5, 6, 6, 7, 7, 8, 8, 8, 9, 9, 9, 10, 10, 10, 10, 10};
++u1Byte gDeltaSwingTableIdx_MP_2GA_P_TxPowerTrack_USB_8723D[]    = {0, 0, 1, 1, 2, 2, 2, 3, 3, 4, 4, 5, 5, 6, 7, 7, 8, 8, 8, 9, 9, 10, 10, 10, 10, 10, 10, 10, 10, 10};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKB_N_TxPowerTrack_USB_8723D[] = {0, 1, 1, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKB_P_TxPowerTrack_USB_8723D[] = {0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKA_N_TxPowerTrack_USB_8723D[] = {0, 1, 1, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKA_P_TxPowerTrack_USB_8723D[] = {0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11};
++#endif
++
++void
++ODM_ReadAndConfig_MP_8723D_TxPowerTrack_USB(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_MP_8723D\n"));
++
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_P, gDeltaSwingTableIdx_MP_2GA_P_TxPowerTrack_USB_8723D, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_N, gDeltaSwingTableIdx_MP_2GA_N_TxPowerTrack_USB_8723D, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_P, gDeltaSwingTableIdx_MP_2GB_P_TxPowerTrack_USB_8723D, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_N, gDeltaSwingTableIdx_MP_2GB_N_TxPowerTrack_USB_8723D, DELTA_SWINGIDX_SIZE);
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_P, gDeltaSwingTableIdx_MP_2GCCKA_P_TxPowerTrack_USB_8723D, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_N, gDeltaSwingTableIdx_MP_2GCCKA_N_TxPowerTrack_USB_8723D, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_P, gDeltaSwingTableIdx_MP_2GCCKB_P_TxPowerTrack_USB_8723D, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_N, gDeltaSwingTableIdx_MP_2GCCKB_N_TxPowerTrack_USB_8723D, DELTA_SWINGIDX_SIZE);
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P, gDeltaSwingTableIdx_MP_5GA_P_TxPowerTrack_USB_8723D, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N, gDeltaSwingTableIdx_MP_5GA_N_TxPowerTrack_USB_8723D, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P, gDeltaSwingTableIdx_MP_5GB_P_TxPowerTrack_USB_8723D, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N, gDeltaSwingTableIdx_MP_5GB_N_TxPowerTrack_USB_8723D, DELTA_SWINGIDX_SIZE*3);
++#endif
++}
++
++/******************************************************************************
++*                           TXPWR_LMT.TXT
++******************************************************************************/
++
++const char *Array_MP_8723D_TXPWR_LMT[] = { 
++	"FCC", "2.4G", "20M", "CCK", "1T", "01", "30", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "01", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "01", "30",
++	"FCC", "2.4G", "20M", "CCK", "1T", "02", "30", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "02", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "02", "30",
++	"FCC", "2.4G", "20M", "CCK", "1T", "03", "30", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "03", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "03", "30",
++	"FCC", "2.4G", "20M", "CCK", "1T", "04", "30", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "04", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "04", "30",
++	"FCC", "2.4G", "20M", "CCK", "1T", "05", "30", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "05", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "05", "30",
++	"FCC", "2.4G", "20M", "CCK", "1T", "06", "30", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "06", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "06", "30",
++	"FCC", "2.4G", "20M", "CCK", "1T", "07", "30", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "07", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "07", "30",
++	"FCC", "2.4G", "20M", "CCK", "1T", "08", "30", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "08", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "08", "30",
++	"FCC", "2.4G", "20M", "CCK", "1T", "09", "30", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "09", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "09", "30",
++	"FCC", "2.4G", "20M", "CCK", "1T", "10", "30", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "10", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "10", "30",
++	"FCC", "2.4G", "20M", "CCK", "1T", "11", "30", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "11", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "11", "30",
++	"FCC", "2.4G", "20M", "CCK", "1T", "12", "30", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "12", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "12", "30",
++	"FCC", "2.4G", "20M", "CCK", "1T", "13", "17", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "13", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "13", "30",
++	"FCC", "2.4G", "20M", "CCK", "1T", "14", "63", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "14", "63", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "14", "30",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "01", "26", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "01", "31", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "01", "31",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "02", "28", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "02", "31", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "02", "31",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "03", "32", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "03", "31", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "03", "31",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "04", "32", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "04", "31", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "04", "31",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "05", "32", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "05", "31", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "05", "31",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "06", "32", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "06", "31", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "06", "31",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "07", "32", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "07", "31", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "07", "31",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "08", "32", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "08", "31", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "08", "31",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "09", "32", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "09", "31", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "09", "31",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "10", "28", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "10", "31", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "10", "31",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "11", "26", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "11", "31", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "11", "31",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "12", "24", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "12", "31", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "12", "31",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "13", "14", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "13", "31", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "13", "31",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "14", "63", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "14", "63", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "14", "63",
++	"FCC", "2.4G", "20M", "HT", "1T", "01", "24", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "01", "31", 
++	"MKK", "2.4G", "20M", "HT", "1T", "01", "31",
++	"FCC", "2.4G", "20M", "HT", "1T", "02", "26", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "02", "31", 
++	"MKK", "2.4G", "20M", "HT", "1T", "02", "31",
++	"FCC", "2.4G", "20M", "HT", "1T", "03", "32", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "03", "31", 
++	"MKK", "2.4G", "20M", "HT", "1T", "03", "31",
++	"FCC", "2.4G", "20M", "HT", "1T", "04", "32", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "04", "31", 
++	"MKK", "2.4G", "20M", "HT", "1T", "04", "31",
++	"FCC", "2.4G", "20M", "HT", "1T", "05", "32", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "05", "31", 
++	"MKK", "2.4G", "20M", "HT", "1T", "05", "31",
++	"FCC", "2.4G", "20M", "HT", "1T", "06", "32", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "06", "31", 
++	"MKK", "2.4G", "20M", "HT", "1T", "06", "31",
++	"FCC", "2.4G", "20M", "HT", "1T", "07", "32", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "07", "31", 
++	"MKK", "2.4G", "20M", "HT", "1T", "07", "31",
++	"FCC", "2.4G", "20M", "HT", "1T", "08", "32", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "08", "31", 
++	"MKK", "2.4G", "20M", "HT", "1T", "08", "31",
++	"FCC", "2.4G", "20M", "HT", "1T", "09", "32", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "09", "31", 
++	"MKK", "2.4G", "20M", "HT", "1T", "09", "31",
++	"FCC", "2.4G", "20M", "HT", "1T", "10", "26", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "10", "31", 
++	"MKK", "2.4G", "20M", "HT", "1T", "10", "31",
++	"FCC", "2.4G", "20M", "HT", "1T", "11", "24", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "11", "31", 
++	"MKK", "2.4G", "20M", "HT", "1T", "11", "31",
++	"FCC", "2.4G", "20M", "HT", "1T", "12", "23", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "12", "31", 
++	"MKK", "2.4G", "20M", "HT", "1T", "12", "31",
++	"FCC", "2.4G", "20M", "HT", "1T", "13", "13", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "13", "31", 
++	"MKK", "2.4G", "20M", "HT", "1T", "13", "31",
++	"FCC", "2.4G", "20M", "HT", "1T", "14", "63", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "14", "63", 
++	"MKK", "2.4G", "20M", "HT", "1T", "14", "63",
++	"FCC", "2.4G", "20M", "HT", "2T", "01", "28", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "01", "30", 
++	"MKK", "2.4G", "20M", "HT", "2T", "01", "30",
++	"FCC", "2.4G", "20M", "HT", "2T", "02", "28", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "02", "30", 
++	"MKK", "2.4G", "20M", "HT", "2T", "02", "30",
++	"FCC", "2.4G", "20M", "HT", "2T", "03", "30", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "03", "30", 
++	"MKK", "2.4G", "20M", "HT", "2T", "03", "30",
++	"FCC", "2.4G", "20M", "HT", "2T", "04", "30", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "04", "30", 
++	"MKK", "2.4G", "20M", "HT", "2T", "04", "30",
++	"FCC", "2.4G", "20M", "HT", "2T", "05", "30", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "05", "30", 
++	"MKK", "2.4G", "20M", "HT", "2T", "05", "30",
++	"FCC", "2.4G", "20M", "HT", "2T", "06", "30", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "06", "30", 
++	"MKK", "2.4G", "20M", "HT", "2T", "06", "30",
++	"FCC", "2.4G", "20M", "HT", "2T", "07", "30", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "07", "30", 
++	"MKK", "2.4G", "20M", "HT", "2T", "07", "30",
++	"FCC", "2.4G", "20M", "HT", "2T", "08", "30", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "08", "30", 
++	"MKK", "2.4G", "20M", "HT", "2T", "08", "30",
++	"FCC", "2.4G", "20M", "HT", "2T", "09", "28", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "09", "30", 
++	"MKK", "2.4G", "20M", "HT", "2T", "09", "30",
++	"FCC", "2.4G", "20M", "HT", "2T", "10", "28", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "10", "30", 
++	"MKK", "2.4G", "20M", "HT", "2T", "10", "30",
++	"FCC", "2.4G", "20M", "HT", "2T", "11", "28", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "11", "30", 
++	"MKK", "2.4G", "20M", "HT", "2T", "11", "30",
++	"FCC", "2.4G", "20M", "HT", "2T", "12", "63", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "12", "30", 
++	"MKK", "2.4G", "20M", "HT", "2T", "12", "30",
++	"FCC", "2.4G", "20M", "HT", "2T", "13", "63", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "13", "30", 
++	"MKK", "2.4G", "20M", "HT", "2T", "13", "30",
++	"FCC", "2.4G", "20M", "HT", "2T", "14", "63", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "14", "63", 
++	"MKK", "2.4G", "20M", "HT", "2T", "14", "63",
++	"FCC", "2.4G", "40M", "HT", "1T", "01", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "01", "63", 
++	"MKK", "2.4G", "40M", "HT", "1T", "01", "63",
++	"FCC", "2.4G", "40M", "HT", "1T", "02", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "02", "63", 
++	"MKK", "2.4G", "40M", "HT", "1T", "02", "63",
++	"FCC", "2.4G", "40M", "HT", "1T", "03", "24", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "03", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "03", "30",
++	"FCC", "2.4G", "40M", "HT", "1T", "04", "26", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "04", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "04", "30",
++	"FCC", "2.4G", "40M", "HT", "1T", "05", "30", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "05", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "05", "30",
++	"FCC", "2.4G", "40M", "HT", "1T", "06", "30", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "06", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "06", "30",
++	"FCC", "2.4G", "40M", "HT", "1T", "07", "30", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "07", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "07", "30",
++	"FCC", "2.4G", "40M", "HT", "1T", "08", "30", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "08", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "08", "30",
++	"FCC", "2.4G", "40M", "HT", "1T", "09", "24", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "09", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "09", "30",
++	"FCC", "2.4G", "40M", "HT", "1T", "10", "22", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "10", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "10", "30",
++	"FCC", "2.4G", "40M", "HT", "1T", "11", "20", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "11", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "11", "30",
++	"FCC", "2.4G", "40M", "HT", "1T", "12", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "12", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "12", "30",
++	"FCC", "2.4G", "40M", "HT", "1T", "13", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "13", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "13", "30",
++	"FCC", "2.4G", "40M", "HT", "1T", "14", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "14", "63", 
++	"MKK", "2.4G", "40M", "HT", "1T", "14", "63",
++	"FCC", "2.4G", "40M", "HT", "2T", "01", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "01", "63", 
++	"MKK", "2.4G", "40M", "HT", "2T", "01", "63",
++	"FCC", "2.4G", "40M", "HT", "2T", "02", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "02", "63", 
++	"MKK", "2.4G", "40M", "HT", "2T", "02", "63",
++	"FCC", "2.4G", "40M", "HT", "2T", "03", "26", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "03", "26", 
++	"MKK", "2.4G", "40M", "HT", "2T", "03", "26",
++	"FCC", "2.4G", "40M", "HT", "2T", "04", "26", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "04", "26", 
++	"MKK", "2.4G", "40M", "HT", "2T", "04", "26",
++	"FCC", "2.4G", "40M", "HT", "2T", "05", "26", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "05", "26", 
++	"MKK", "2.4G", "40M", "HT", "2T", "05", "26",
++	"FCC", "2.4G", "40M", "HT", "2T", "06", "26", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "06", "26", 
++	"MKK", "2.4G", "40M", "HT", "2T", "06", "26",
++	"FCC", "2.4G", "40M", "HT", "2T", "07", "26", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "07", "26", 
++	"MKK", "2.4G", "40M", "HT", "2T", "07", "26",
++	"FCC", "2.4G", "40M", "HT", "2T", "08", "26", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "08", "26", 
++	"MKK", "2.4G", "40M", "HT", "2T", "08", "26",
++	"FCC", "2.4G", "40M", "HT", "2T", "09", "26", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "09", "26", 
++	"MKK", "2.4G", "40M", "HT", "2T", "09", "26",
++	"FCC", "2.4G", "40M", "HT", "2T", "10", "26", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "10", "26", 
++	"MKK", "2.4G", "40M", "HT", "2T", "10", "26",
++	"FCC", "2.4G", "40M", "HT", "2T", "11", "26", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "11", "26", 
++	"MKK", "2.4G", "40M", "HT", "2T", "11", "26",
++	"FCC", "2.4G", "40M", "HT", "2T", "12", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "12", "26", 
++	"MKK", "2.4G", "40M", "HT", "2T", "12", "26",
++	"FCC", "2.4G", "40M", "HT", "2T", "13", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "13", "26", 
++	"MKK", "2.4G", "40M", "HT", "2T", "13", "26",
++	"FCC", "2.4G", "40M", "HT", "2T", "14", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "14", "63", 
++	"MKK", "2.4G", "40M", "HT", "2T", "14", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "36", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "36", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "36", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "40", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "40", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "40", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "44", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "44", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "44", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "48", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "48", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "48", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "52", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "52", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "52", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "56", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "56", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "56", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "60", "32", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "60", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "60", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "64", "28", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "64", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "64", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "100", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "100", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "100", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "114", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "114", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "114", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "108", "32", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "108", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "108", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "112", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "112", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "112", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "116", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "116", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "116", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "120", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "120", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "120", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "124", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "124", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "124", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "128", "32", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "128", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "128", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "132", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "132", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "132", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "136", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "136", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "136", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "140", "28", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "140", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "140", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "149", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "149", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "149", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "153", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "153", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "153", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "157", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "157", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "157", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "161", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "161", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "161", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "165", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "165", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "165", "63",
++	"FCC", "5G", "20M", "HT", "1T", "36", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "36", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "36", "32",
++	"FCC", "5G", "20M", "HT", "1T", "40", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "40", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "40", "32",
++	"FCC", "5G", "20M", "HT", "1T", "44", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "44", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "44", "32",
++	"FCC", "5G", "20M", "HT", "1T", "48", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "48", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "48", "32",
++	"FCC", "5G", "20M", "HT", "1T", "52", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "52", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "52", "32",
++	"FCC", "5G", "20M", "HT", "1T", "56", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "56", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "56", "32",
++	"FCC", "5G", "20M", "HT", "1T", "60", "32", 
++	"ETSI", "5G", "20M", "HT", "1T", "60", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "60", "32",
++	"FCC", "5G", "20M", "HT", "1T", "64", "28", 
++	"ETSI", "5G", "20M", "HT", "1T", "64", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "64", "32",
++	"FCC", "5G", "20M", "HT", "1T", "100", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "100", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "100", "32",
++	"FCC", "5G", "20M", "HT", "1T", "114", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "114", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "114", "32",
++	"FCC", "5G", "20M", "HT", "1T", "108", "32", 
++	"ETSI", "5G", "20M", "HT", "1T", "108", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "108", "32",
++	"FCC", "5G", "20M", "HT", "1T", "112", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "112", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "112", "32",
++	"FCC", "5G", "20M", "HT", "1T", "116", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "116", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "116", "32",
++	"FCC", "5G", "20M", "HT", "1T", "120", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "120", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "120", "32",
++	"FCC", "5G", "20M", "HT", "1T", "124", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "124", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "124", "32",
++	"FCC", "5G", "20M", "HT", "1T", "128", "32", 
++	"ETSI", "5G", "20M", "HT", "1T", "128", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "128", "32",
++	"FCC", "5G", "20M", "HT", "1T", "132", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "132", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "132", "32",
++	"FCC", "5G", "20M", "HT", "1T", "136", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "136", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "136", "32",
++	"FCC", "5G", "20M", "HT", "1T", "140", "28", 
++	"ETSI", "5G", "20M", "HT", "1T", "140", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "140", "32",
++	"FCC", "5G", "20M", "HT", "1T", "149", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "149", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "149", "63",
++	"FCC", "5G", "20M", "HT", "1T", "153", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "153", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "153", "63",
++	"FCC", "5G", "20M", "HT", "1T", "157", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "157", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "157", "63",
++	"FCC", "5G", "20M", "HT", "1T", "161", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "161", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "161", "63",
++	"FCC", "5G", "20M", "HT", "1T", "165", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "165", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "165", "63",
++	"FCC", "5G", "20M", "HT", "2T", "36", "28", 
++	"ETSI", "5G", "20M", "HT", "2T", "36", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "36", "30",
++	"FCC", "5G", "20M", "HT", "2T", "40", "28", 
++	"ETSI", "5G", "20M", "HT", "2T", "40", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "40", "30",
++	"FCC", "5G", "20M", "HT", "2T", "44", "28", 
++	"ETSI", "5G", "20M", "HT", "2T", "44", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "44", "30",
++	"FCC", "5G", "20M", "HT", "2T", "48", "28", 
++	"ETSI", "5G", "20M", "HT", "2T", "48", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "48", "30",
++	"FCC", "5G", "20M", "HT", "2T", "52", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "52", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "52", "30",
++	"FCC", "5G", "20M", "HT", "2T", "56", "32", 
++	"ETSI", "5G", "20M", "HT", "2T", "56", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "56", "30",
++	"FCC", "5G", "20M", "HT", "2T", "60", "30", 
++	"ETSI", "5G", "20M", "HT", "2T", "60", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "60", "30",
++	"FCC", "5G", "20M", "HT", "2T", "64", "26", 
++	"ETSI", "5G", "20M", "HT", "2T", "64", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "64", "30",
++	"FCC", "5G", "20M", "HT", "2T", "100", "28", 
++	"ETSI", "5G", "20M", "HT", "2T", "100", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "100", "30",
++	"FCC", "5G", "20M", "HT", "2T", "114", "28", 
++	"ETSI", "5G", "20M", "HT", "2T", "114", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "114", "30",
++	"FCC", "5G", "20M", "HT", "2T", "108", "30", 
++	"ETSI", "5G", "20M", "HT", "2T", "108", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "108", "30",
++	"FCC", "5G", "20M", "HT", "2T", "112", "32", 
++	"ETSI", "5G", "20M", "HT", "2T", "112", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "112", "30",
++	"FCC", "5G", "20M", "HT", "2T", "116", "32", 
++	"ETSI", "5G", "20M", "HT", "2T", "116", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "116", "30",
++	"FCC", "5G", "20M", "HT", "2T", "120", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "120", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "120", "30",
++	"FCC", "5G", "20M", "HT", "2T", "124", "32", 
++	"ETSI", "5G", "20M", "HT", "2T", "124", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "124", "30",
++	"FCC", "5G", "20M", "HT", "2T", "128", "30", 
++	"ETSI", "5G", "20M", "HT", "2T", "128", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "128", "30",
++	"FCC", "5G", "20M", "HT", "2T", "132", "28", 
++	"ETSI", "5G", "20M", "HT", "2T", "132", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "132", "30",
++	"FCC", "5G", "20M", "HT", "2T", "136", "28", 
++	"ETSI", "5G", "20M", "HT", "2T", "136", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "136", "30",
++	"FCC", "5G", "20M", "HT", "2T", "140", "26", 
++	"ETSI", "5G", "20M", "HT", "2T", "140", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "140", "30",
++	"FCC", "5G", "20M", "HT", "2T", "149", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "149", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "149", "63",
++	"FCC", "5G", "20M", "HT", "2T", "153", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "153", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "153", "63",
++	"FCC", "5G", "20M", "HT", "2T", "157", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "157", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "157", "63",
++	"FCC", "5G", "20M", "HT", "2T", "161", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "161", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "161", "63",
++	"FCC", "5G", "20M", "HT", "2T", "165", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "165", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "165", "63",
++	"FCC", "5G", "40M", "HT", "1T", "38", "30", 
++	"ETSI", "5G", "40M", "HT", "1T", "38", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "38", "32",
++	"FCC", "5G", "40M", "HT", "1T", "46", "30", 
++	"ETSI", "5G", "40M", "HT", "1T", "46", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "46", "32",
++	"FCC", "5G", "40M", "HT", "1T", "54", "32", 
++	"ETSI", "5G", "40M", "HT", "1T", "54", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "54", "32",
++	"FCC", "5G", "40M", "HT", "1T", "62", "32", 
++	"ETSI", "5G", "40M", "HT", "1T", "62", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "62", "32",
++	"FCC", "5G", "40M", "HT", "1T", "102", "28", 
++	"ETSI", "5G", "40M", "HT", "1T", "102", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "102", "32",
++	"FCC", "5G", "40M", "HT", "1T", "110", "32", 
++	"ETSI", "5G", "40M", "HT", "1T", "110", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "110", "32",
++	"FCC", "5G", "40M", "HT", "1T", "118", "34", 
++	"ETSI", "5G", "40M", "HT", "1T", "118", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "118", "32",
++	"FCC", "5G", "40M", "HT", "1T", "126", "34", 
++	"ETSI", "5G", "40M", "HT", "1T", "126", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "126", "32",
++	"FCC", "5G", "40M", "HT", "1T", "134", "32", 
++	"ETSI", "5G", "40M", "HT", "1T", "134", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "134", "32",
++	"FCC", "5G", "40M", "HT", "1T", "151", "34", 
++	"ETSI", "5G", "40M", "HT", "1T", "151", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "151", "63",
++	"FCC", "5G", "40M", "HT", "1T", "159", "34", 
++	"ETSI", "5G", "40M", "HT", "1T", "159", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "159", "63",
++	"FCC", "5G", "40M", "HT", "2T", "38", "28", 
++	"ETSI", "5G", "40M", "HT", "2T", "38", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "38", "30",
++	"FCC", "5G", "40M", "HT", "2T", "46", "28", 
++	"ETSI", "5G", "40M", "HT", "2T", "46", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "46", "30",
++	"FCC", "5G", "40M", "HT", "2T", "54", "30", 
++	"ETSI", "5G", "40M", "HT", "2T", "54", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "54", "30",
++	"FCC", "5G", "40M", "HT", "2T", "62", "30", 
++	"ETSI", "5G", "40M", "HT", "2T", "62", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "62", "30",
++	"FCC", "5G", "40M", "HT", "2T", "102", "26", 
++	"ETSI", "5G", "40M", "HT", "2T", "102", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "102", "30",
++	"FCC", "5G", "40M", "HT", "2T", "110", "30", 
++	"ETSI", "5G", "40M", "HT", "2T", "110", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "110", "30",
++	"FCC", "5G", "40M", "HT", "2T", "118", "34", 
++	"ETSI", "5G", "40M", "HT", "2T", "118", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "118", "30",
++	"FCC", "5G", "40M", "HT", "2T", "126", "32", 
++	"ETSI", "5G", "40M", "HT", "2T", "126", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "126", "30",
++	"FCC", "5G", "40M", "HT", "2T", "134", "30", 
++	"ETSI", "5G", "40M", "HT", "2T", "134", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "134", "30",
++	"FCC", "5G", "40M", "HT", "2T", "151", "34", 
++	"ETSI", "5G", "40M", "HT", "2T", "151", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "151", "63",
++	"FCC", "5G", "40M", "HT", "2T", "159", "34", 
++	"ETSI", "5G", "40M", "HT", "2T", "159", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "159", "63",
++	"FCC", "5G", "80M", "VHT", "1T", "42", "30", 
++	"ETSI", "5G", "80M", "VHT", "1T", "42", "32", 
++	"MKK", "5G", "80M", "VHT", "1T", "42", "32",
++	"FCC", "5G", "80M", "VHT", "1T", "58", "28", 
++	"ETSI", "5G", "80M", "VHT", "1T", "58", "32", 
++	"MKK", "5G", "80M", "VHT", "1T", "58", "32",
++	"FCC", "5G", "80M", "VHT", "1T", "106", "30", 
++	"ETSI", "5G", "80M", "VHT", "1T", "106", "32", 
++	"MKK", "5G", "80M", "VHT", "1T", "106", "32",
++	"FCC", "5G", "80M", "VHT", "1T", "122", "34", 
++	"ETSI", "5G", "80M", "VHT", "1T", "122", "32", 
++	"MKK", "5G", "80M", "VHT", "1T", "122", "32",
++	"FCC", "5G", "80M", "VHT", "1T", "155", "34", 
++	"ETSI", "5G", "80M", "VHT", "1T", "155", "32", 
++	"MKK", "5G", "80M", "VHT", "1T", "155", "63",
++	"FCC", "5G", "80M", "VHT", "2T", "42", "28", 
++	"ETSI", "5G", "80M", "VHT", "2T", "42", "30", 
++	"MKK", "5G", "80M", "VHT", "2T", "42", "30",
++	"FCC", "5G", "80M", "VHT", "2T", "58", "26", 
++	"ETSI", "5G", "80M", "VHT", "2T", "58", "30", 
++	"MKK", "5G", "80M", "VHT", "2T", "58", "30",
++	"FCC", "5G", "80M", "VHT", "2T", "106", "28", 
++	"ETSI", "5G", "80M", "VHT", "2T", "106", "30", 
++	"MKK", "5G", "80M", "VHT", "2T", "106", "30",
++	"FCC", "5G", "80M", "VHT", "2T", "122", "32", 
++	"ETSI", "5G", "80M", "VHT", "2T", "122", "30", 
++	"MKK", "5G", "80M", "VHT", "2T", "122", "30",
++	"FCC", "5G", "80M", "VHT", "2T", "155", "34", 
++	"ETSI", "5G", "80M", "VHT", "2T", "155", "30", 
++	"MKK", "5G", "80M", "VHT", "2T", "155", "63"
++};
++
++void
++ODM_ReadAndConfig_MP_8723D_TXPWR_LMT(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i           = 0;
++#if (DM_ODM_SUPPORT_TYPE == ODM_IOT)
++	u4Byte     ArrayLen    = sizeof(Array_MP_8723D_TXPWR_LMT)/sizeof(u1Byte);
++	pu1Byte    Array      = (pu1Byte)Array_MP_8723D_TXPWR_LMT;
++#else
++	u4Byte     ArrayLen    = sizeof(Array_MP_8723D_TXPWR_LMT)/sizeof(pu1Byte);
++	pu1Byte    *Array      = (pu1Byte *)Array_MP_8723D_TXPWR_LMT;
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	PlatformZeroMemory(pHalData->BufOfLinesPwrLmt, MAX_LINES_HWCONFIG_TXT*MAX_BYTES_LINE_HWCONFIG_TXT);
++	pHalData->nLinesReadPwrLmt = ArrayLen/7;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8723D_TXPWR_LMT\n"));
++
++	for (i = 0; i < ArrayLen; i += 7) {
++#if (DM_ODM_SUPPORT_TYPE == ODM_IOT)
++		u1Byte regulation = Array[i];
++		u1Byte band = Array[i+1];
++		u1Byte bandwidth = Array[i+2];
++		u1Byte rate = Array[i+3];
++		u1Byte rfPath = Array[i+4];
++		u1Byte chnl = Array[i+5];
++		u1Byte val = Array[i+6];
++#else
++		pu1Byte regulation = Array[i];
++		pu1Byte band = Array[i+1];
++		pu1Byte bandwidth = Array[i+2];
++		pu1Byte rate = Array[i+3];
++		pu1Byte rfPath = Array[i+4];
++		pu1Byte chnl = Array[i+5];
++		pu1Byte val = Array[i+6];
++#endif
++	
++		odm_ConfigBB_TXPWR_LMT_8723D(pDM_Odm, regulation, band, bandwidth, rate, rfPath, chnl, val);
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		rsprintf((char *)pHalData->BufOfLinesPwrLmt[i/7], 100, "\"%s\", \"%s\", \"%s\", \"%s\", \"%s\", \"%s\", \"%s\",",
++			regulation, band, bandwidth, rate, rfPath, chnl, val);
++#endif
++	}
++
++}
++
++/******************************************************************************
++*                           TxXtalTrack.TXT
++******************************************************************************/
++
++s1Byte gDeltaSwingTableXtal_MP_N_TxXtalTrack_8723D[]    = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
++s1Byte gDeltaSwingTableXtal_MP_P_TxXtalTrack_8723D[]    = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, -10, -12, -14, -16, -16, -16, -16, -16, -16, -16, -16, -16, -16, -16};
++
++void
++ODM_ReadAndConfig_MP_8723D_TxXtalTrack(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_MP_8723D\n"));
++
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableXtal_P, gDeltaSwingTableXtal_MP_P_TxXtalTrack_8723D, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableXtal_N, gDeltaSwingTableXtal_MP_N_TxXtalTrack_8723D, DELTA_SWINGIDX_SIZE);
++}
++
++#endif /* end of HWIMG_SUPPORT*/
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_rf.h b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_rf.h
+new file mode 100644
+index 0000000..0f9362d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halhwimg8723d_rf.h
+@@ -0,0 +1,89 @@
++/****************************************************************************** 
++* 
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved. 
++* 
++* This program is free software; you can redistribute it and/or modify it 
++* under the terms of version 2 of the GNU General Public License as 
++* published by the Free Software Foundation. 
++* 
++* This program is distributed in the hope that it will be useful, but WITHOUT 
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for 
++* more details. 
++* 
++* You should have received a copy of the GNU General Public License along with 
++* this program; if not, write to the Free Software Foundation, Inc., 
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA 
++* 
++* 
++******************************************************************************/
++
++/*Image2HeaderVersion: 2.23*/
++#if (RTL8723D_SUPPORT == 1)
++#ifndef __INC_MP_RF_HW_IMG_8723D_H
++#define __INC_MP_RF_HW_IMG_8723D_H
++
++
++/******************************************************************************
++*                           RadioA.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8723D_RadioA(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8723D_RadioA(void);
++
++/******************************************************************************
++*                           TxPowerTrack_PCIE.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8723D_TxPowerTrack_PCIE(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8723D_TxPowerTrack_PCIE(void);
++
++/******************************************************************************
++*                           TxPowerTrack_SDIO.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8723D_TxPowerTrack_SDIO(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8723D_TxPowerTrack_SDIO(void);
++
++/******************************************************************************
++*                           TxPowerTrack_USB.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8723D_TxPowerTrack_USB(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8723D_TxPowerTrack_USB(void);
++
++/******************************************************************************
++*                           TXPWR_LMT.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8723D_TXPWR_LMT(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8723D_TXPWR_LMT(void);
++
++/******************************************************************************
++*                           TxXtalTrack.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8723D_TxXtalTrack(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8723D_TxXtalTrack(void);
++
++#endif
++#endif /* end of HWIMG_SUPPORT*/
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halphyrf_8723d.c b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halphyrf_8723d.c
+new file mode 100644
+index 0000000..edbef91
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halphyrf_8723d.c
+@@ -0,0 +1,4101 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include "Mp_Precomp.h"
++#include "../phydm_precomp.h"
++
++
++#if (RTL8723D_SUPPORT == 1)
++
++/*---------------------------Define Local Constant---------------------------*/
++/*IQK*/
++#define IQK_DELAY_TIME_8723D	10
++
++/* 2010/04/25 MH Define the max tx power tracking tx agc power.*/
++#define		ODM_TXPWRTRACK_MAX_IDX_8723D		6
++
++#define     PATH_S1                         0 
++#define     IDX_0xC94                       0
++#define     IDX_0xC80                       1
++#define     IDX_0xC4C                       2
++
++#define     IDX_0xC14                       0
++#define     IDX_0xCA0                       1
++
++
++#define     PATH_S0                         1 
++#define     IDX_0xCD0                       0
++#define     IDX_0xCD4                       1
++
++#define     IDX_0xCD8                       0
++#define     IDX_0xCDC                       1
++
++#define     KEY                             0
++#define     VAL                             1
++
++
++
++/*---------------------------Define Local Constant---------------------------*/
++
++
++/* Tx Power Tracking*/
++
++
++void setIqkMatrix_8723D(
++		PDM_ODM_T	pDM_Odm,
++		u1Byte		OFDM_index,
++		u1Byte		RFPath,
++		s4Byte		IqkResult_X,
++		s4Byte		IqkResult_Y
++	)
++	{
++		s4Byte			ele_A = 0, ele_D = 0, ele_C = 0, value32, tmp;
++		s4Byte			ele_A_ext = 0, ele_C_ext = 0, ele_D_ext = 0;
++
++		if (OFDM_index >= OFDM_TABLE_SIZE)
++			OFDM_index = OFDM_TABLE_SIZE-1;
++		else if (OFDM_index < 0)
++			OFDM_index = 0;
++	
++		if ((IqkResult_X != 0) && (*(pDM_Odm->pBandType) == ODM_BAND_2_4G)) {
++	
++			/* new element D */
++			ele_D = (OFDMSwingTable_New[OFDM_index] & 0xFFC00000)>>22;
++			ele_D_ext = (((IqkResult_X * ele_D)>>7)&0x01);
++			/* new element A */
++			if ((IqkResult_X & 0x00000200) != 0)		/* consider minus */
++				IqkResult_X = IqkResult_X | 0xFFFFFC00;
++			ele_A = ((IqkResult_X * ele_D)>>8)&0x000003FF;
++			ele_A_ext = ((IqkResult_X * ele_D)>>7) & 0x1;
++			/* new element C */
++			if ((IqkResult_Y & 0x00000200) != 0)
++				IqkResult_Y = IqkResult_Y | 0xFFFFFC00;
++			ele_C = ((IqkResult_Y * ele_D)>>8)&0x000003FF;
++			ele_C_ext = ((IqkResult_Y * ele_D)>>7) & 0x1;
++	
++			switch (RFPath) {
++			case ODM_RF_PATH_A:
++				/* write new elements A, C, D to regC80, regC94, reg0xc4c, and element B is always 0 */
++				/* write 0xc80 */
++				value32 = (ele_D << 22) | ((ele_C & 0x3F) << 16) | ele_A;
++				ODM_SetBBReg(pDM_Odm, rOFDM0_XATxIQImbalance, bMaskDWord, value32);
++				/* write 0xc94 */
++				value32 = (ele_C & 0x000003C0) >> 6;
++				ODM_SetBBReg(pDM_Odm, rOFDM0_XCTxAFE, bMaskH4Bits, value32);
++				/* write 0xc4c */
++				value32 = (ele_D_ext << 28) | (ele_A_ext << 31) | (ele_C_ext << 29);
++				value32 = (ODM_GetBBReg(pDM_Odm, rOFDM0_ECCAThreshold, bMaskDWord)&(~(BIT31|BIT29|BIT28))) | value32;
++				ODM_SetBBReg(pDM_Odm, rOFDM0_ECCAThreshold, bMaskDWord, value32);
++				break;
++	
++			case ODM_RF_PATH_B:
++			/*wirte new elements A, C, D to regCd0 and regCd4, element B is always 0*/
++				value32 = ele_D;
++				ODM_SetBBReg(pDM_Odm, 0xCd4, 0x007FE000, value32);
++
++				value32 = ele_C;
++				ODM_SetBBReg(pDM_Odm, 0xCd4, 0x000007FE, value32);
++
++				value32 = ele_A;
++				ODM_SetBBReg(pDM_Odm, 0xCd0, 0x000007FE, value32);	
++
++				ODM_SetBBReg(pDM_Odm, 0xCd4, BIT12, ele_D_ext);
++				ODM_SetBBReg(pDM_Odm, 0xCd0, BIT0, ele_A_ext);				
++				ODM_SetBBReg(pDM_Odm, 0xCd4, BIT0, ele_C_ext);
++				break;
++			default:
++				break;
++			}
++		} else {
++			switch (RFPath) {
++			case ODM_RF_PATH_A:
++				ODM_SetBBReg(pDM_Odm, rOFDM0_XATxIQImbalance, bMaskDWord, OFDMSwingTable_New[OFDM_index]);
++				ODM_SetBBReg(pDM_Odm, rOFDM0_XCTxAFE, bMaskH4Bits, 0x00);
++				value32 = ODM_GetBBReg(pDM_Odm, rOFDM0_ECCAThreshold, bMaskDWord)&(~(BIT31|BIT29|BIT28));
++				ODM_SetBBReg(pDM_Odm, rOFDM0_ECCAThreshold, bMaskDWord, value32);
++				break;
++	
++			case ODM_RF_PATH_B:
++				/*image S1:c80 to S0:Cd0 and Cd4*/
++				ODM_SetBBReg(pDM_Odm, 0xcd0, 0x000007FE, OFDMSwingTable_New[OFDM_index]&0x000003FF);
++				ODM_SetBBReg(pDM_Odm, 0xcd0, 0x0007E000, (OFDMSwingTable_New[OFDM_index]&0x0000FC00)>>10);
++				ODM_SetBBReg(pDM_Odm, 0xcd4, 0x0000007E, (OFDMSwingTable_New[OFDM_index]&0x003F0000)>>16);
++				ODM_SetBBReg(pDM_Odm, 0xcd4, 0x007FE000, (OFDMSwingTable_New[OFDM_index]&0xFFC00000)>>22);
++				
++				ODM_SetBBReg(pDM_Odm, 0xcd4, 0x00000780, 0x00);
++
++				ODM_SetBBReg(pDM_Odm, 0xcd4, BIT12, 0x0);
++				ODM_SetBBReg(pDM_Odm, 0xcd4, BIT0, 0x0);
++				ODM_SetBBReg(pDM_Odm, 0xcd0, BIT0, 0x0);				
++				break;
++			default:
++				break;
++			}
++		}
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("TxPwrTracking path %c: X = 0x%x, Y = 0x%x ele_A = 0x%x ele_C = 0x%x ele_D = 0x%x ele_A_ext = 0x%x ele_C_ext = 0x%x ele_D_ext = 0x%x\n",
++					 (RFPath == ODM_RF_PATH_A ? 'A' : 'B'), (u4Byte)IqkResult_X, (u4Byte)IqkResult_Y, (u4Byte)ele_A, (u4Byte)ele_C, (u4Byte)ele_D, (u4Byte)ele_A_ext, (u4Byte)ele_C_ext, (u4Byte)ele_D_ext));
++	}
++
++VOID
++setCCKFilterCoefficient_8723D(
++	PDM_ODM_T	pDM_Odm,
++	u1Byte 		CCKSwingIndex
++)
++{
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	ODM_SetBBReg(pDM_Odm, 0xab4, 0x000007FF, CCKSwingTable_Ch1_Ch14_8723D[CCKSwingIndex]);
++}
++
++void DoIQK_8723D(
++	PVOID		pDM_VOID,
++	u1Byte 		DeltaThermalIndex,
++	u1Byte		ThermalValue,	
++	u1Byte 		Threshold
++	)
++{ 
++	u4Byte  bIsBtEnable = 0;
++
++	
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	PADAPTER 		Adapter = pDM_Odm->Adapter;
++#endif
++
++
++	if (pDM_Odm->mp_mode == FALSE)
++		bIsBtEnable = ODM_GetMACReg(pDM_Odm, 0xa8, bMaskDWord) & BIT17; 
++
++	if (bIsBtEnable) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]Skip IQK because BT is enable\n"));
++		return;
++	} else {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]Do IQK because BT is disable\n"));
++	}
++
++	ODM_ResetIQKResult(pDM_Odm);		
++
++	pDM_Odm->RFCalibrateInfo.ThermalValue_IQK= ThermalValue;
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	PHY_IQCalibrate_8723D(pDM_Odm, FALSE);
++#else 
++	PHY_IQCalibrate_8723D(Adapter, FALSE);
++#endif
++ 
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	ODM_TxPwrTrackSetPwr_8723D()
++ *
++ * Overview:	8723D change all channel tx power accordign to flag.
++ *				OFDM & CCK are all different.
++ *
++ * Input:		NONE
++ *
++ * Output:		NONE
++ *
++ * Return:		NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	04/23/2012	MHC		Create Version 0.  
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++ODM_TxPwrTrackSetPwr_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PVOID		pDM_VOID,
++#else
++	IN PDM_ODM_T		pDM_VOID,
++#endif
++	PWRTRACK_METHOD 	Method,
++	u1Byte 				RFPath,
++	u1Byte 				ChannelMappedIndex
++	)
++{
++
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++	PHAL_DATA_TYPE			pHalData = GET_HAL_DATA(Adapter);
++	PODM_RF_CAL_T  			pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	u1Byte					PwrTrackingLimit_OFDM = 30; 
++	u1Byte					PwrTrackingLimit_CCK = 40;   
++	u1Byte					TxRate = 0xFF;
++	u1Byte					Final_OFDM_Swing_Index = 0; 
++	u1Byte					Final_CCK_Swing_Index = 0; 
++	u1Byte					i = 0;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))
++#if (MP_DRIVER == 1)
++	PMPT_CONTEXT			pMptCtx = &(Adapter->MptCtx);
++
++	TxRate = MptToMgntRate(pMptCtx->MptRateIndex);
++#else
++	PMGNT_INFO      		pMgntInfo = &(Adapter->MgntInfo);
++	if (!pMgntInfo->ForcedDataRate) {
++		if (pDM_Odm->TxRate != 0xFF)
++			TxRate = Adapter->HalFunc.GetHwRateFromMRateHandler(pDM_Odm->TxRate); 
++	} else {
++		TxRate = (u1Byte) pMgntInfo->ForcedDataRate;
++	}
++#endif
++#elif (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++	if (pDM_Odm->mp_mode == TRUE) {	/*CE MP*/
++		PMPT_CONTEXT		pMptCtx = &(Adapter->mppriv.MptCtx);
++
++		TxRate = MptToMgntRate(pMptCtx->MptRateIndex);
++	} else {	/*CE normal*/
++		u2Byte	rate	 = *(pDM_Odm->pForcedDataRate);
++
++		if (!rate) {	/*auto rate*/
++			if (pDM_Odm->TxRate != 0xFF)
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))
++				TxRate = Adapter->HalFunc.GetHwRateFromMRateHandler(pDM_Odm->TxRate);
++#elif (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++				if (pDM_Odm->number_linked_client != 0)
++				TxRate = HwRateToMRate(pDM_Odm->TxRate);
++#endif
++		} else {	/*force rate*/
++			TxRate = (u1Byte)rate;
++		}
++	}
++#endif
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("===>ODM_TxPwrTrackSetPwr8723DA\n"));
++
++	if (TxRate != 0xFF) {
++		/*CCK*/
++		if (((TxRate >= MGN_1M) && (TxRate <= MGN_5_5M)) || TxRate == MGN_11M)
++			PwrTrackingLimit_CCK = 40;  
++		/*OFDM*/
++		else if ((TxRate >= MGN_6M) && (TxRate <= MGN_48M))
++			PwrTrackingLimit_OFDM = 36; 
++		else if (TxRate == MGN_54M)
++			PwrTrackingLimit_OFDM = 34; 
++			
++		/* HT*/
++		else if ((TxRate >= MGN_MCS0) && (TxRate <= MGN_MCS2))
++			PwrTrackingLimit_OFDM = 38; 
++		else if ((TxRate >= MGN_MCS3) && (TxRate <= MGN_MCS4)) 
++			PwrTrackingLimit_OFDM = 36; 
++		else if ((TxRate >= MGN_MCS5) && (TxRate <= MGN_MCS7)) 
++			PwrTrackingLimit_OFDM = 34; 
++
++		else if ((TxRate >= MGN_MCS8) && (TxRate <= MGN_MCS10))
++			PwrTrackingLimit_OFDM = 38; 
++		else if ((TxRate >= MGN_MCS11) && (TxRate <= MGN_MCS12)) 
++			PwrTrackingLimit_OFDM = 36; 
++		else if ((TxRate >= MGN_MCS13) && (TxRate <= MGN_MCS15)) 
++			PwrTrackingLimit_OFDM = 34; 
++
++		else	
++				PwrTrackingLimit_OFDM =  pRFCalibrateInfo->DefaultOfdmIndex;   /*Default OFDM index = 30 */
++	}
++			
++	if (Method == TXAGC) {
++		u1Byte	rf = 0;
++		u4Byte 	pwr = 0, TxAGC = 0;
++		PADAPTER Adapter = pDM_Odm->Adapter;
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("odm_TxPwrTrackSetPwr_8723D CH=%d\n", *(pDM_Odm->pChannel)));
++
++		pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath] = pRFCalibrateInfo->Absolute_OFDMSwingIdx[RFPath];   //Remnant index equal to aboslute compensate value.
++			
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE ))
++
++#if (MP_DRIVER != 1)
++		/*PHY_SetTxPowerLevelByPath8723D(Adapter, pHalData->CurrentChannel, RFPath);   //Using new set power function
++		//PHY_SetTxPowerLevel8723D(pDM_Odm->Adapter, *pDM_Odm->pChannel);*/
++		pRFCalibrateInfo->Modify_TxAGC_Flag_PathA = TRUE;
++		pRFCalibrateInfo->Modify_TxAGC_Flag_PathB = TRUE;
++		pRFCalibrateInfo->Modify_TxAGC_Flag_PathA_CCK = TRUE;
++		if (RFPath == ODM_RF_PATH_A) {
++			PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, CCK );
++			PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, OFDM );
++			PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, HT_MCS0_MCS7 );	
++			PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, HT_MCS8_MCS15 );
++		} else {
++			PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_B, pHalData->CurrentChannel, CCK );
++			PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_B, pHalData->CurrentChannel, OFDM );
++			PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_B, pHalData->CurrentChannel, HT_MCS0_MCS7 );	
++			PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_B, pHalData->CurrentChannel, HT_MCS8_MCS15 );
++		}
++#else
++
++		if (RFPath == ODM_RF_PATH_A) {
++			/*CCK Path S1*/
++			pwr = PHY_QueryBBReg(Adapter, rTxAGC_A_Rate18_06, 0xFF);
++		    pwr += pRFCalibrateInfo->PowerIndexOffset[ODM_RF_PATH_A];
++		    PHY_SetBBReg(Adapter, rTxAGC_A_CCK1_Mcs32, bMaskByte1, pwr); 
++			TxAGC = (pwr<<16)|(pwr<<8)|(pwr);
++		    PHY_SetBBReg(Adapter, rTxAGC_B_CCK11_A_CCK2_11, 0x00ffffff, TxAGC);
++			RT_DISP(FPHY, PHY_TXPWR, ("ODM_TxPwrTrackSetPwr_8723D: CCK Tx-rf(A) Power = 0x%x\n", TxAGC));
++
++			/*OFDM Path S1*/
++			pwr = PHY_QueryBBReg(Adapter, rTxAGC_A_Rate18_06, 0xFF);
++			pwr += (pRFCalibrateInfo->BbSwingIdxOfdm[ODM_RF_PATH_A] - pRFCalibrateInfo->BbSwingIdxOfdmBase[ODM_RF_PATH_A]);
++		    TxAGC = ((pwr<<24)|(pwr<<16)|(pwr<<8)|pwr);
++		    PHY_SetBBReg(Adapter, rTxAGC_A_Rate18_06, bMaskDWord, TxAGC);
++		    PHY_SetBBReg(Adapter, rTxAGC_A_Rate54_24, bMaskDWord, TxAGC);
++		    PHY_SetBBReg(Adapter, rTxAGC_A_Mcs03_Mcs00, bMaskDWord, TxAGC);
++		    PHY_SetBBReg(Adapter, rTxAGC_A_Mcs07_Mcs04, bMaskDWord, TxAGC);
++		    PHY_SetBBReg(Adapter, rTxAGC_A_Mcs11_Mcs08, bMaskDWord, TxAGC);
++		    PHY_SetBBReg(Adapter, rTxAGC_A_Mcs15_Mcs12, bMaskDWord, TxAGC);
++			RT_DISP(FPHY, PHY_TXPWR, ("ODM_TxPwrTrackSetPwr_8723D: OFDM Tx-rf(A) Power = 0x%x\n", TxAGC));
++		} else if (RFPath == ODM_RF_PATH_B) {
++			
++			pwr = PHY_QueryBBReg(Adapter, rTxAGC_B_Rate18_06, 0xFF);
++		    pwr += pRFCalibrateInfo->PowerIndexOffset[ODM_RF_PATH_B];
++			PHY_SetBBReg(Adapter, rTxAGC_B_CCK1_55_Mcs32, bMaskByte3, pwr);
++			PHY_SetBBReg(Adapter, rTxAGC_B_CCK11_A_CCK2_11, 0xff000000, pwr);
++			RT_DISP(FPHY, PHY_TXPWR, ("ODM_TxPwrTrackSetPwr_8723D: CCK Tx-rf(B) Power = 0x%x\n", pwr));		
++
++			
++			pwr = PHY_QueryBBReg(Adapter, rTxAGC_B_Rate18_06, 0xFF);
++			pwr += (pRFCalibrateInfo->BbSwingIdxOfdm[ODM_RF_PATH_B] - pRFCalibrateInfo->BbSwingIdxOfdmBase[ODM_RF_PATH_B]);
++		    TxAGC = ((pwr<<24)|(pwr<<16)|(pwr<<8)|pwr);
++		    PHY_SetBBReg(Adapter, rTxAGC_B_Rate18_06, bMaskDWord, TxAGC);
++		    PHY_SetBBReg(Adapter, rTxAGC_B_Rate54_24, bMaskDWord, TxAGC);
++		    PHY_SetBBReg(Adapter, rTxAGC_B_Mcs03_Mcs00, bMaskDWord, TxAGC);
++		    PHY_SetBBReg(Adapter, rTxAGC_B_Mcs07_Mcs04, bMaskDWord, TxAGC);
++		    PHY_SetBBReg(Adapter, rTxAGC_B_Mcs11_Mcs08, bMaskDWord, TxAGC);
++		    PHY_SetBBReg(Adapter, rTxAGC_B_Mcs15_Mcs12, bMaskDWord, TxAGC);
++			RT_DISP(FPHY, PHY_TXPWR, ("ODM_TxPwrTrackSetPwr_8723D: OFDM Tx-rf(B) Power = 0x%x\n", TxAGC));
++		}
++#endif
++		
++#endif
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++		/*PHY_RF6052SetCCKTxPower(pDM_Odm->priv, *(pDM_Odm->pChannel));
++		//PHY_RF6052SetOFDMTxPower(pDM_Odm->priv, *(pDM_Odm->pChannel));*/
++#endif
++		
++	} else if (Method == BBSWING) {
++		Final_OFDM_Swing_Index = pRFCalibrateInfo->DefaultOfdmIndex + pRFCalibrateInfo->Absolute_OFDMSwingIdx[RFPath];
++		Final_CCK_Swing_Index = pRFCalibrateInfo->DefaultCckIndex + pRFCalibrateInfo->Absolute_OFDMSwingIdx[RFPath];
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++					 (" pRFCalibrateInfo->DefaultOfdmIndex=%d,  pRFCalibrateInfo->DefaultCCKIndex=%d, pRFCalibrateInfo->Absolute_OFDMSwingIdx[RFPath]=%d, pRFCalibrateInfo->Remnant_CCKSwingIdx=%d   RF_Path = %d\n",
++					  pRFCalibrateInfo->DefaultOfdmIndex, pRFCalibrateInfo->DefaultCckIndex, pRFCalibrateInfo->Absolute_OFDMSwingIdx[RFPath], pRFCalibrateInfo->Remnant_CCKSwingIdx, RFPath));
++
++		/* Adjust BB swing by OFDM IQ matrix */
++		if (Final_OFDM_Swing_Index >= PwrTrackingLimit_OFDM)
++			Final_OFDM_Swing_Index = PwrTrackingLimit_OFDM;
++		else if (Final_OFDM_Swing_Index < 0)
++			Final_OFDM_Swing_Index = 0;
++
++		if (Final_CCK_Swing_Index >= CCK_TABLE_SIZE_8723D)
++			Final_CCK_Swing_Index = CCK_TABLE_SIZE_8723D-1;
++		else if (pRFCalibrateInfo->BbSwingIdxCck < 0)
++			Final_CCK_Swing_Index = 0;
++
++		setIqkMatrix_8723D(pDM_Odm, Final_OFDM_Swing_Index, ODM_RF_PATH_A,
++					   pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][0],
++					   pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][1]);
++
++		setIqkMatrix_8723D(pDM_Odm, Final_OFDM_Swing_Index, ODM_RF_PATH_B,
++					   pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][4],
++					   pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][5]);
++		
++		setCCKFilterCoefficient_8723D(pDM_Odm, Final_CCK_Swing_Index);
++
++		pRFCalibrateInfo->Modify_TxAGC_Flag_PathA = TRUE;
++		
++		PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, CCK);
++		PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, OFDM);
++		PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, HT_MCS0_MCS7);
++		
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("Final_CCK_Swing_Index=%d\n", Final_CCK_Swing_Index));
++			
++	} else if (Method == MIX_MODE) {
++		#if (MP_DRIVER == 1)
++			u4Byte	TxAGC = 0;			  /*add by Mingzhi.Guo 2015-04-10*/
++			s4Byte	pwr = 0;
++		#endif
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("pDM_Odm->DefaultOfdmIndex=%d,  pDM_Odm->DefaultCCKIndex=%d, pDM_Odm->Absolute_OFDMSwingIdx[RFPath]=%d, RF_Path = %d\n",
++			pRFCalibrateInfo->DefaultOfdmIndex, pRFCalibrateInfo->DefaultCckIndex, pRFCalibrateInfo->Absolute_OFDMSwingIdx[RFPath], RFPath));
++			
++		Final_OFDM_Swing_Index = pRFCalibrateInfo->DefaultOfdmIndex + pRFCalibrateInfo->Absolute_OFDMSwingIdx[RFPath];
++			
++		if (RFPath == ODM_RF_PATH_A) {
++			Final_CCK_Swing_Index = pRFCalibrateInfo->DefaultCckIndex + pRFCalibrateInfo->Absolute_OFDMSwingIdx[RFPath];    /*CCK Follow Path-A and lower CCK index means higher power.*/
++			
++			if (Final_OFDM_Swing_Index > PwrTrackingLimit_OFDM) {
++				pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath] = Final_OFDM_Swing_Index - PwrTrackingLimit_OFDM;            
++
++				setIqkMatrix_8723D(pDM_Odm, PwrTrackingLimit_OFDM, ODM_RF_PATH_A, 
++					pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][0],
++					pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][1]);
++				setIqkMatrix_8723D(pDM_Odm, PwrTrackingLimit_OFDM, ODM_RF_PATH_B,
++					pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][4],
++					pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][5]);
++
++				pRFCalibrateInfo->Modify_TxAGC_Flag_PathA = TRUE;
++
++				/*Set TxAGC Page C{};*/
++				/*PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, OFDM);*/
++			/*	PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, HT_MCS0_MCS7);*/
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_A Over BBSwing Limit , PwrTrackingLimit = %d , Remnant TxAGC Value = %d \n", PwrTrackingLimit_OFDM, pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath]));
++			} else if (Final_OFDM_Swing_Index < 0) {
++				pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath] = Final_OFDM_Swing_Index ;     
++
++				setIqkMatrix_8723D(pDM_Odm, 0, ODM_RF_PATH_A, 
++					pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][0],
++					pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][1]);		
++				setIqkMatrix_8723D(pDM_Odm, 0, ODM_RF_PATH_B,
++					 pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][4],
++					 pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][5]);
++
++				pRFCalibrateInfo->Modify_TxAGC_Flag_PathA = TRUE;
++
++				/*Set TxAGC Page C{};*/
++				/*PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, OFDM);*/
++			/*	PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, HT_MCS0_MCS7);*/
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_A Lower then BBSwing lower bound  0 , Remnant TxAGC Value = %d \n", pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath]));
++			} else {
++			    setIqkMatrix_8723D(pDM_Odm, Final_OFDM_Swing_Index, ODM_RF_PATH_A, 
++					pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][0],
++					pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][1]);		
++				setIqkMatrix_8723D(pDM_Odm, Final_OFDM_Swing_Index, ODM_RF_PATH_B,
++					pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][4],
++					pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][5]);
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_A Compensate with BBSwing , Final_OFDM_Swing_Index = %d \n", Final_OFDM_Swing_Index));
++
++				if (pRFCalibrateInfo->Modify_TxAGC_Flag_PathA) {
++					pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath] = 0;     
++
++					/*Set TxAGC Page C{};*/
++				/*	PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, OFDM );
++					PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, HT_MCS0_MCS7 );
++					PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, HT_MCS8_MCS15 );*/
++
++					pRFCalibrateInfo->Modify_TxAGC_Flag_PathA = FALSE;
++
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_A pDM_Odm->Modify_TxAGC_Flag = FALSE \n"));
++				}
++			}
++#if (MP_DRIVER == 1)
++			if ((pDM_Odm->mp_mode) == 1) {
++				pwr = PHY_QueryBBReg(Adapter, rTxAGC_A_Rate18_06, 0xFF);
++				pwr += (pRFCalibrateInfo->Remnant_OFDMSwingIdx[ODM_RF_PATH_A] - pRFCalibrateInfo->Modify_TxAGC_Value_OFDM);
++	
++				if (pwr > 0x3F)					
++				pwr = 0x3F;				
++				else if (pwr < 0)				
++				pwr = 0;
++	
++				TxAGC |= ((pwr<<24)|(pwr<<16)|(pwr<<8)|pwr);
++				PHY_SetBBReg(Adapter, rTxAGC_A_Rate18_06, bMaskDWord, TxAGC);
++				PHY_SetBBReg(Adapter, rTxAGC_A_Rate54_24, bMaskDWord, TxAGC);
++				PHY_SetBBReg(Adapter, rTxAGC_A_Mcs03_Mcs00, bMaskDWord, TxAGC);
++				PHY_SetBBReg(Adapter, rTxAGC_A_Mcs07_Mcs04, bMaskDWord, TxAGC);
++			
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("ODM_TxPwrTrackSetPwr8188F: OFDM Tx-rf(A) Power = 0x%x\n", TxAGC));
++	
++			} else
++#endif
++			{
++			
++				PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, OFDM);
++				PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, HT_MCS0_MCS7);
++			}
++			pRFCalibrateInfo->Modify_TxAGC_Value_OFDM = pRFCalibrateInfo->Remnant_OFDMSwingIdx[ODM_RF_PATH_A] ;		 
++				
++			if (Final_CCK_Swing_Index > PwrTrackingLimit_CCK) {
++				pRFCalibrateInfo->Remnant_CCKSwingIdx = Final_CCK_Swing_Index - PwrTrackingLimit_CCK;
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_A CCK Over Limit , PwrTrackingLimit_CCK = %d , pDM_Odm->Remnant_CCKSwingIdx  = %d \n", PwrTrackingLimit_CCK, pRFCalibrateInfo->Remnant_CCKSwingIdx));
++
++				/* Adjust BB swing by CCK filter coefficient*/
++				ODM_SetBBReg(pDM_Odm, 0xab4, 0x000007FF, CCKSwingTable_Ch1_Ch14_8723D[PwrTrackingLimit_CCK]);
++				
++				pRFCalibrateInfo->Modify_TxAGC_Flag_PathA_CCK = TRUE;
++
++				/*Set TxAGC Page C{};*/
++			/*	PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, CCK);
++				PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_B, pHalData->CurrentChannel, CCK);*/
++					
++			} else if (Final_CCK_Swing_Index < 0) {
++				pRFCalibrateInfo->Remnant_CCKSwingIdx = Final_CCK_Swing_Index;
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_A CCK Under Limit , PwrTrackingLimit_CCK = %d , pDM_Odm->Remnant_CCKSwingIdx  = %d \n", 0, pRFCalibrateInfo->Remnant_CCKSwingIdx));
++				
++				ODM_SetBBReg(pDM_Odm, 0xab4, 0x000007FF, CCKSwingTable_Ch1_Ch14_8723D[0]);
++	
++				pRFCalibrateInfo->Modify_TxAGC_Flag_PathA_CCK = TRUE;
++
++				
++				/*PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, CCK);
++				PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_B, pHalData->CurrentChannel, CCK);*/
++
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_A CCK Compensate with BBSwing , Final_CCK_Swing_Index = %d \n", Final_CCK_Swing_Index));	
++
++				ODM_SetBBReg(pDM_Odm, 0xab4, 0x000007FF, CCKSwingTable_Ch1_Ch14_8723D[Final_CCK_Swing_Index]);
++				
++			/*	if (pRFCalibrateInfo->Modify_TxAGC_Flag_PathA_CCK) {*/
++					pRFCalibrateInfo->Remnant_CCKSwingIdx = 0;     
++
++					
++					/*PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, CCK );
++					PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_B, pHalData->CurrentChannel, CCK );*/
++
++					pRFCalibrateInfo->Modify_TxAGC_Flag_PathA_CCK = FALSE;
++
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_A pDM_Odm->Modify_TxAGC_Flag_CCK = FALSE \n"));
++				}
++#if (MP_DRIVER == 1)
++			if ((pDM_Odm->mp_mode) == 1) {
++				pwr = PHY_QueryBBReg(Adapter, rTxAGC_B_CCK11_A_CCK2_11, bMaskByte1);  
++				pwr += pRFCalibrateInfo->Remnant_CCKSwingIdx-pRFCalibrateInfo->Modify_TxAGC_Value_CCK;
++
++				if (pwr > 0x3F)					
++				pwr = 0x3F;				
++				else if (pwr < 0)				
++				pwr = 0;
++
++				PHY_SetBBReg(Adapter, rTxAGC_A_CCK1_Mcs32, bMaskByte1, pwr);			  
++				TxAGC = (pwr<<16)|(pwr<<8)|(pwr);
++				PHY_SetBBReg(Adapter, rTxAGC_B_CCK11_A_CCK2_11, 0xffffff00, TxAGC); 			
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("ODM_TxPwrTrackSetPwr8723D: CCK Tx-rf(A) Power = 0x%x\n", TxAGC));
++			} else
++#endif
++			
++				PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_A, pHalData->CurrentChannel, CCK);
++
++			pRFCalibrateInfo->Modify_TxAGC_Value_CCK = pRFCalibrateInfo->Remnant_CCKSwingIdx;
++	}
++#if 0
++		if (RFPath == ODM_RF_PATH_B) {		
++			if (Final_OFDM_Swing_Index > PwrTrackingLimit_OFDM) {			
++				pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath] = Final_OFDM_Swing_Index - PwrTrackingLimit_OFDM;            
++
++				setIqkMatrix_8723D(pDM_Odm, PwrTrackingLimit_OFDM, ODM_RF_PATH_B,
++					 pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][4],
++					 pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][5]);	
++
++				pRFCalibrateInfo->Modify_TxAGC_Flag_PathA = TRUE;
++
++				
++				/*PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_B, pHalData->CurrentChannel, OFDM);
++				PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_B, pHalData->CurrentChannel, HT_MCS0_MCS7);*/
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_B Over BBSwing Limit , PwrTrackingLimit = %d , Remnant TxAGC Value = %d \n", PwrTrackingLimit_OFDM, pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath]));
++			} else if (Final_OFDM_Swing_Index < 0) {
++				pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath] = Final_OFDM_Swing_Index ;     
++
++				setIqkMatrix_8723D(pDM_Odm, 0, ODM_RF_PATH_B,
++					 pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][4],
++					 pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][5]);	
++
++				pRFCalibrateInfo->Modify_TxAGC_Flag_PathA = TRUE;
++
++				
++				/*PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_B, pHalData->CurrentChannel, OFDM);
++				PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_B, pHalData->CurrentChannel, HT_MCS0_MCS7);*/
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_B Lower then BBSwing lower bound  0 , Remnant TxAGC Value = %d \n", pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath]));
++			} else {
++				setIqkMatrix_8723D(pDM_Odm, Final_OFDM_Swing_Index, ODM_RF_PATH_B,
++					 pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][4],
++					 pRFCalibrateInfo->IQKMatrixRegSetting[ChannelMappedIndex].Value[0][5]);	
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_B Compensate with BBSwing , Final_OFDM_Swing_Index = %d \n", Final_OFDM_Swing_Index));
++
++				if (pRFCalibrateInfo->Modify_TxAGC_Flag_PathB) {
++					pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath] = 0;     
++
++					/*PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_B, pHalData->CurrentChannel, OFDM);
++					PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_B, pHalData->CurrentChannel, HT_MCS0_MCS7);*/
++
++					pRFCalibrateInfo->Modify_TxAGC_Flag_PathA = FALSE;
++
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_B pDM_Odm->Modify_TxAGC_Flag = FALSE \n"));
++				}
++			}	
++#if (MP_DRIVER == 1)
++			if ((pDM_Odm->mp_mode) == 1) {
++				pwr = PHY_QueryBBReg(Adapter, rTxAGC_A_Rate18_06, 0xFF);
++				pwr += (pRFCalibrateInfo->Remnant_OFDMSwingIdx[ODM_RF_PATH_B] - pRFCalibrateInfo->Modify_TxAGC_Value_OFDM);
++			
++				if (pwr > 0x3F)					
++				pwr = 0x3F;			
++				else if (pwr < 0)				
++				pwr = 0;
++			
++				TxAGC |= ((pwr<<24)|(pwr<<16)|(pwr<<8)|pwr);
++				PHY_SetBBReg(Adapter, rTxAGC_A_Rate18_06, bMaskDWord, TxAGC);
++				PHY_SetBBReg(Adapter, rTxAGC_A_Rate54_24, bMaskDWord, TxAGC);
++				PHY_SetBBReg(Adapter, rTxAGC_A_Mcs03_Mcs00, bMaskDWord, TxAGC);
++				PHY_SetBBReg(Adapter, rTxAGC_A_Mcs07_Mcs04, bMaskDWord, TxAGC);
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("ODM_TxPwrTrackSetPwr8723D: OFDM Tx-rf(A) Power = 0x%x\n", TxAGC));
++			
++			} else
++#endif	
++			{
++			
++				PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_B, pHalData->CurrentChannel, OFDM);
++				PHY_SetTxPowerIndexByRateSection(Adapter, ODM_RF_PATH_B, pHalData->CurrentChannel, HT_MCS0_MCS7);
++			}
++			pRFCalibrateInfo->Modify_TxAGC_Value_OFDM = pRFCalibrateInfo->Remnant_OFDMSwingIdx[ODM_RF_PATH_B] ;		
++		}
++#endif
++} else {
++		return;
++	}	
++}	
++
++VOID
++GetDeltaSwingTable_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PVOID		pDM_VOID,
++#else
++	IN PDM_ODM_T		pDM_Odm,
++#endif
++	OUT pu1Byte 			*TemperatureUP_A,
++	OUT pu1Byte 			*TemperatureDOWN_A,
++	OUT pu1Byte 			*TemperatureUP_B,
++	OUT pu1Byte 			*TemperatureDOWN_B	
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++	PADAPTER		Adapter 		 = pDM_Odm->Adapter;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	HAL_DATA_TYPE	*pHalData		 = GET_HAL_DATA(Adapter);
++	u1Byte			TxRate			= 0xFF;
++	u1Byte			channel 		 = pHalData->CurrentChannel;
++
++	if (pDM_Odm->mp_mode == TRUE) {
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++		#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++			#if (MP_DRIVER == 1)
++					PMPT_CONTEXT pMptCtx = &(Adapter->MptCtx);
++					
++					TxRate = MptToMgntRate(pMptCtx->MptRateIndex);
++			#endif
++		#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++				PMPT_CONTEXT pMptCtx = &(Adapter->mppriv.MptCtx);
++				
++				TxRate = MptToMgntRate(pMptCtx->MptRateIndex);
++		#endif	
++	#endif
++	} else {
++		u2Byte	rate	 = *(pDM_Odm->pForcedDataRate);
++		
++		if (!rate) { /*auto rate*/
++			if (rate != 0xFF) {
++			#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++						TxRate = Adapter->HalFunc.GetHwRateFromMRateHandler(pDM_Odm->TxRate);
++			#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++				if (pDM_Odm->number_linked_client != 0)
++						TxRate = HwRateToMRate(pDM_Odm->TxRate);
++			#endif
++			}
++		} else { /*force rate*/
++			TxRate = (u1Byte)rate;
++		}
++	}
++		
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("Power Tracking TxRate=0x%X\n", TxRate));
++
++	if ( 1 <= channel && channel <= 14) {
++		if (IS_CCK_RATE(TxRate)) {
++			*TemperatureUP_A   = pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_P;
++			*TemperatureDOWN_A = pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_N;
++			*TemperatureUP_B   = pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_P;
++			*TemperatureDOWN_B = pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_N; 	
++		} else {
++			*TemperatureUP_A   = pRFCalibrateInfo->DeltaSwingTableIdx_2GA_P;
++			*TemperatureDOWN_A = pRFCalibrateInfo->DeltaSwingTableIdx_2GA_N;
++			*TemperatureUP_B   = pRFCalibrateInfo->DeltaSwingTableIdx_2GB_P;
++			*TemperatureDOWN_B = pRFCalibrateInfo->DeltaSwingTableIdx_2GB_N;			
++		}
++	} else {
++		*TemperatureUP_A   = (pu1Byte)DeltaSwingTableIdx_2GA_P_8188E;
++		*TemperatureDOWN_A = (pu1Byte)DeltaSwingTableIdx_2GA_N_8188E;	
++		*TemperatureUP_B   = (pu1Byte)DeltaSwingTableIdx_2GA_P_8188E;
++		*TemperatureDOWN_B = (pu1Byte)DeltaSwingTableIdx_2GA_N_8188E;		
++	}
++	
++	return;
++}
++
++VOID
++GetDeltaSwingXtalTable_8723D(
++	PVOID		pDM_VOID,
++	ps1Byte		*TemperatureUP_Xtal,
++	ps1Byte		*TemperatureDOWN_Xtal
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	*TemperatureUP_Xtal   = pRFCalibrateInfo->DeltaSwingTableXtal_P;
++	*TemperatureDOWN_Xtal = pRFCalibrateInfo->DeltaSwingTableXtal_N;
++}
++
++
++
++VOID
++ODM_TxXtalTrackSetXtal_8723D(
++	PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm		= (PDM_ODM_T)pDM_VOID;
++	PODM_RF_CAL_T	pRFCalibrateInfo	= &(pDM_Odm->RFCalibrateInfo);
++	PADAPTER		Adapter			= pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData		 = GET_HAL_DATA(Adapter);
++	
++	s1Byte	CrystalCap;
++
++	
++	CrystalCap = pHalData->CrystalCap & 0x3F;
++	CrystalCap = CrystalCap + pRFCalibrateInfo->XtalOffset;
++
++	if (CrystalCap < 0)
++		CrystalCap = 0;
++	else if (CrystalCap > 63)
++		CrystalCap = 63;
++
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++		("CrystalCap(%d)= pHalData->CrystalCap(%d) + pRFCalibrateInfo->XtalOffset(%d)\n", CrystalCap, pHalData->CrystalCap, pRFCalibrateInfo->XtalOffset));
++
++	ODM_SetBBReg(pDM_Odm, REG_MAC_PHY_CTRL, 0xFFF000, (CrystalCap | (CrystalCap << 6)));
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++			("CrystalCap(0x2c)  0x%X\n", ODM_GetBBReg(pDM_Odm, REG_MAC_PHY_CTRL, 0xFFF000)));
++
++}
++
++void ConfigureTxpowerTrack_8723D(
++	PTXPWRTRACK_CFG	pConfig
++	)
++{
++	pConfig->SwingTableSize_CCK = CCK_TABLE_SIZE_8723D;
++	pConfig->SwingTableSize_OFDM = OFDM_TABLE_SIZE;
++	pConfig->Threshold_IQK = IQK_THRESHOLD;
++	pConfig->AverageThermalNum = AVG_THERMAL_NUM_8723D;
++	pConfig->RfPathCount = MAX_PATH_NUM_8723D;  
++	pConfig->ThermalRegAddr = RF_T_METER_88E;
++		
++	pConfig->ODM_TxPwrTrackSetPwr = ODM_TxPwrTrackSetPwr_8723D;
++	pConfig->DoIQK = DoIQK_8723D;
++	pConfig->PHY_LCCalibrate = PHY_LCCalibrate_8723D;
++	pConfig->GetDeltaSwingTable = GetDeltaSwingTable_8723D;
++	pConfig->GetDeltaSwingXtalTable = GetDeltaSwingXtalTable_8723D;
++	pConfig->ODM_TxXtalTrackSetXtal = ODM_TxXtalTrackSetXtal_8723D;
++}
++
++
++#define MAX_TOLERANCE		5
++#define IQK_DELAY_TIME		1		
++
++u1Byte			
++phy_PathS1_IQK_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++		IN PDM_ODM_T		pDM_Odm
++#else
++		IN	PADAPTER	pAdapter,
++#endif
++		IN	BOOLEAN 	configPathS0
++	)
++{
++		u4Byte regEAC, regE94, regE9C, tmp, Path_SEL_BB/*, regEA4*/;
++		u1Byte result = 0x00, Ktime;
++		u4Byte originalPath, originalGNT;
++	
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++		PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("[IQK]Path S1 TXIQK!!\n"));	
++		
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0x67 @S1 TXIQK = 0x%x\n", ODM_GetMACReg(pDM_Odm, 0x64, bMaskByte3)));
++		/*save RF path*/
++		Path_SEL_BB = ODM_GetBBReg(pDM_Odm, 0x948, bMaskDWord);
++		/*ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0x1e6@S1 TXIQK = 0x%x\n", PlatformEFIORead1Byte(pAdapter, 0x1e6)));*/
++		ODM_SetBBReg(pDM_Odm, 0x948, bMaskDWord, 0x99000000); 
++			
++		/*IQK setting*/		
++		/*leave IQK mode*/
++		ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);
++		/* --- \A7\EF\BCgTXIQK mode table ---//*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, bRFRegOffsetMask, 0x80000);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x33, bRFRegOffsetMask, 0x00004);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x3e, bRFRegOffsetMask, 0x0005d);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x3f, bRFRegOffsetMask, 0xBFFE0);
++
++		/*path-A IQK setting*/
++		ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_A, bMaskDWord, 0x08008c0c);	
++		ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_A, bMaskDWord, 0x38008c1c);	
++		ODM_SetBBReg(pDM_Odm, rTx_IQK_PI_A, bMaskDWord, 0x8214019f);	
++		ODM_SetBBReg(pDM_Odm, rRx_IQK_PI_A, bMaskDWord, 0x28160200);	
++		ODM_SetBBReg(pDM_Odm, rTx_IQK, bMaskDWord, 0x01007c00); 	
++		ODM_SetBBReg(pDM_Odm, rRx_IQK, bMaskDWord, 0x01004800); 	 
++
++		/*LO calibration setting*/
++		ODM_SetBBReg(pDM_Odm, rIQK_AGC_Rsp, bMaskDWord, 0x00462911);  
++	
++		/*PA, PAD setting*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xdf, 0x800, 0x1);   
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x56, 0x600, 0x0);   
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x56, 0x1E0, 0x3);   
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x8d, 0x1F, 0xf);	   
++		
++		/*LOK setting  added for 8723D*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x10, 0x1);	
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x54, 0x1, 0x1);  
++#if 1
++
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x1, bRFRegOffsetMask, 0xe0d);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x2, bRFRegOffsetMask, 0x60d);
++#endif
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RF0x1 @S1 TXIQK = 0x%x\n", ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x1, bRFRegOffsetMask)));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RF0x2 @S1 TXIQK = 0x%x\n", ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x2, bRFRegOffsetMask)));
++		
++		/*enter IQK mode*/
++		ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x808000);
++
++#if 1
++		/*backup Path & GNT value */
++		originalPath = ODM_GetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, bMaskDWord);  /*save 0x70*/
++		ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0x800f0038);
++		ODM_delay_ms(1);
++		originalGNT = ODM_GetBBReg(pDM_Odm, REG_LTECOEX_READ_DATA, bMaskDWord);  /*save 0x38*/
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]OriginalGNT = 0x%x\n", originalGNT));
++			
++		/*set GNT_WL=1/GNT_BT=1  and Path owner to WiFi for pause BT traffic*/
++		ODM_SetBBReg(pDM_Odm, REG_LTECOEX_WRITE_DATA, bMaskDWord, 0x0000ff00);
++		ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0xc0020038);	/*0x38[15:8] = 0x77*/
++		ODM_SetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, BIT26, 0x1);
++#endif	
++	
++		ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0x800f0054);
++		ODM_delay_ms(1);
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]GNT_BT @S1 TXIQK = 0x%x\n", ODM_GetBBReg(pDM_Odm, REG_LTECOEX_READ_DATA, bMaskDWord)));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0x948 @S1 TXIQK = 0x%x\n", ODM_GetBBReg(pDM_Odm, 0x948, bMaskDWord)));
++
++		/*One shot, Path S1 LOK & IQK*/
++		ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xfa000000);
++		ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf8000000);
++	
++		/* delay x ms */
++		/*ODM_delay_ms(IQK_DELAY_TIME_8723D);*/
++
++		Ktime = 0;
++		while ((!ODM_GetBBReg(pDM_Odm, 0xeac, BIT26)) && Ktime < 10) {
++			ODM_delay_ms(1);
++			Ktime++;
++		}
++
++#if 1
++		/*Restore GNT_WL/GNT_BT  and Path owner*/
++		ODM_SetBBReg(pDM_Odm, REG_LTECOEX_WRITE_DATA, bMaskDWord, originalGNT);
++		ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0xc00f0038);
++		ODM_SetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, 0xffffffff, originalPath);
++#endif
++
++
++		/*reload RF path*/
++		ODM_SetBBReg(pDM_Odm, 0x948, bMaskDWord, Path_SEL_BB);
++
++		/*leave IQK mode*/
++		ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);
++		/*PA/PAD controlled by 0x0*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xdf, 0x800, 0x0);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x1, BIT0, 0x0);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x2, BIT0, 0x0);		
++	
++		/* Check failed*/
++		regEAC = ODM_GetBBReg(pDM_Odm, rRx_Power_After_IQK_A_2, bMaskDWord);
++		regE94 = ODM_GetBBReg(pDM_Odm, rTx_Power_Before_IQK_A, bMaskDWord);
++		regE9C = ODM_GetBBReg(pDM_Odm, rTx_Power_After_IQK_A, bMaskDWord);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xeac = 0x%x\n", regEAC));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xe94 = 0x%x, 0xe9c = 0x%x\n", regE94, regE9C));
++		/*monitor image power before & after IQK*/
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xe90(before IQK)= 0x%x, 0xe98(afer IQK) = 0x%x\n",
++					 ODM_GetBBReg(pDM_Odm, 0xe90, bMaskDWord), ODM_GetBBReg(pDM_Odm, 0xe98, bMaskDWord)));
++	
++		if (!(regEAC & BIT28) &&
++		   (((regE94 & 0x03FF0000)>>16) != 0x142) &&
++		   (((regE9C & 0x03FF0000)>>16) != 0x42))
++	
++			result |= 0x01;
++		else							
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("S1 TXIQK FAIL\n"));
++
++	
++		return result;
++	
++	}
++
++u1Byte			
++phy_PathS1_RxIQK_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm
++#else
++			IN	PADAPTER	pAdapter,
++#endif
++			IN	BOOLEAN 	configPathS0
++		)
++{
++		u4Byte regEAC, regE94, regE9C, regEA4, u4tmp, tmp, Path_SEL_BB;
++		u1Byte result = 0x00, Ktime;
++		u4Byte originalPath, originalGNT;
++		
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++		PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif
++		
++		Path_SEL_BB = ODM_GetBBReg(pDM_Odm, 0x948, bMaskDWord);
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]Path S1 RXIQK Step1!!\n"));
++	
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0x67 @S1 RXIQK1 = 0x%x\n", ODM_GetMACReg(pDM_Odm, 0x64, bMaskByte3)));
++		ODM_SetBBReg(pDM_Odm, 0x948, bMaskDWord, 0x99000000);		
++		/*ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, ("[IQK]0x1e6@S1 RXIQK1 = 0x%x\n", PlatformEFIORead1Byte(pAdapter, 0x1e6)));	*/	
++		ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);	
++		
++		/*IQK setting*/
++		ODM_SetBBReg(pDM_Odm, rTx_IQK, bMaskDWord, 0x01007c00);
++		ODM_SetBBReg(pDM_Odm, rRx_IQK, bMaskDWord, 0x01004800);
++		
++		/*path-A IQK setting*/
++		ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_A, bMaskDWord, 0x18008c1c);
++		ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_A, bMaskDWord, 0x38008c1c);
++		ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_B, bMaskDWord, 0x38008c1c);
++		ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_B, bMaskDWord, 0x38008c1c);
++		
++		ODM_SetBBReg(pDM_Odm, rTx_IQK_PI_A, bMaskDWord, 0x82160000);
++		ODM_SetBBReg(pDM_Odm, rRx_IQK_PI_A, bMaskDWord, 0x28160000);
++	
++		/*LO calibration setting*/
++		ODM_SetBBReg(pDM_Odm, rIQK_AGC_Rsp, bMaskDWord, 0x0046a911);
++										
++		/*modify RXIQK mode table*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, bRFRegOffsetMask, 0x80000);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x33, bRFRegOffsetMask, 0x00006);	
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x3e, bRFRegOffsetMask, 0x0005f);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x3f, bRFRegOffsetMask, 0xa7ffb);
++		
++		/*---------PA/PAD=0----------*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xdf, 0x800, 0x1);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x56, 0x600, 0x0);
++#if 1		
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x1, bRFRegOffsetMask, 0xe0d);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x2, bRFRegOffsetMask, 0x60d);
++#endif
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RF0x1@ Path S1 RXIQK1 = 0x%x\n", ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x1, bRFRegOffsetMask)));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RF0x2@ Path S1 RXIQK1 = 0x%x\n", ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x2, bRFRegOffsetMask)));
++		
++		/*enter IQK mode*/
++		ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x808000);
++
++#if 1
++		/*backup Path & GNT value */
++		originalPath = ODM_GetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, bMaskDWord);  /*save 0x70*/
++		ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0x800f0038);
++		ODM_delay_ms(1);
++		originalGNT = ODM_GetBBReg(pDM_Odm, REG_LTECOEX_READ_DATA, bMaskDWord);  /*save 0x38*/
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]OriginalGNT = 0x%x\n", originalGNT));
++			
++		/*set GNT_WL=1/GNT_BT=1  and Path owner to WiFi for pause BT traffic*/
++		ODM_SetBBReg(pDM_Odm, REG_LTECOEX_WRITE_DATA, bMaskDWord, 0x0000ff00);
++		ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0xc0020038);	/*0x38[15:8] = 0x77*/
++		ODM_SetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, BIT26, 0x1);
++#endif
++
++		ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0x800f0054);
++		ODM_delay_ms(1);
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]GNT_BT @S1 RXIQK1 = 0x%x\n", ODM_GetBBReg(pDM_Odm, REG_LTECOEX_READ_DATA, bMaskDWord)));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0x948 @S1 RXIQK1 = 0x%x\n", ODM_GetBBReg(pDM_Odm, 0x948, bMaskDWord)));
++
++		/*One shot, Path S1 LOK & IQK*/
++		ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf9000000);
++		ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf8000000);
++		
++		/*delay x ms*/
++		/*ODM_delay_ms(IQK_DELAY_TIME_8723D);*/
++		
++		Ktime = 0;
++		while ((!ODM_GetBBReg(pDM_Odm, 0xeac, BIT26)) && Ktime < 10) {
++			ODM_delay_ms(1);
++			Ktime++;
++		}
++					
++		
++		regEAC = ODM_GetBBReg(pDM_Odm, rRx_Power_After_IQK_A_2, bMaskDWord);
++		regE94 = ODM_GetBBReg(pDM_Odm, rTx_Power_Before_IQK_A, bMaskDWord);
++		regE9C = ODM_GetBBReg(pDM_Odm, rTx_Power_After_IQK_A, bMaskDWord);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xeac = 0x%x\n", regEAC));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xe94 = 0x%x, 0xe9c = 0x%x\n", regE94, regE9C));
++		/*monitor image power before & after IQK*/
++		ODM_RT_TRACE(pDM_Odm , ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xe90(before IQK)= 0x%x, 0xe98(afer IQK) = 0x%x\n",
++						 ODM_GetBBReg(pDM_Odm, 0xe90, bMaskDWord), ODM_GetBBReg(pDM_Odm, 0xe98, bMaskDWord)));
++		
++		
++		tmp = (regE9C & 0x03FF0000)>>16;
++		if ((tmp & 0x200) > 0)
++			tmp = 0x400 - tmp;
++		
++		if (!(regEAC & BIT28) &&
++			 (((regE94 & 0x03FF0000)>>16) != 0x142) &&
++			 (((regE9C & 0x03FF0000)>>16) != 0x42))
++		
++			result |= 0x01;
++		else {							
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("S1 RXIQK STEP1 FAIL\n"));
++#if 1
++			/*Restore GNT_WL/GNT_BT  and Path owner*/
++			ODM_SetBBReg(pDM_Odm, REG_LTECOEX_WRITE_DATA, bMaskDWord, originalGNT);
++			ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0xc00f0038);
++			ODM_SetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, 0xffffffff, originalPath);
++#endif
++			/*reload RF path*/
++			ODM_SetBBReg(pDM_Odm, 0x948, bMaskDWord, Path_SEL_BB);
++			ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xdf, 0x800, 0x0);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x1, BIT0, 0x0);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x2, BIT0, 0x0);			
++			return result;
++		}	
++			
++		u4tmp = 0x80007C00 | (regE94&0x3FF0000)  | ((regE9C&0x3FF0000) >> 16);
++		ODM_SetBBReg(pDM_Odm, rTx_IQK, bMaskDWord, u4tmp);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xe40 = 0x%x u4tmp = 0x%x\n", ODM_GetBBReg(pDM_Odm, rTx_IQK, bMaskDWord), u4tmp));
++	
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]Path S1 RXIQK STEP2!!\n"));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0x67 @S1 RXIQK2 = 0x%x\n", ODM_GetMACReg(pDM_Odm, 0x64, bMaskByte3)));
++		/*ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, ("[IQK]0x1e6@S1 RXIQK2 = 0x%x\n", PlatformEFIORead1Byte(pAdapter, 0x1e6)));	*/
++		ODM_SetBBReg(pDM_Odm, rRx_IQK, bMaskDWord, 0x01004800);
++				
++		ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_A, bMaskDWord, 0x38008c1c);
++		ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_A, bMaskDWord, 0x18008c1c);
++		ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_B, bMaskDWord, 0x38008c1c);
++		ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_B, bMaskDWord, 0x38008c1c);
++		
++		ODM_SetBBReg(pDM_Odm, rTx_IQK_PI_A, bMaskDWord, 0x82170000);
++		ODM_SetBBReg(pDM_Odm, rRx_IQK_PI_A, bMaskDWord, 0x28171400);
++		
++		/*LO calibration setting*/
++		ODM_SetBBReg(pDM_Odm, rIQK_AGC_Rsp, bMaskDWord, 0x0046a8d1);
++		
++		
++		/*modify RXIQK mode table*/
++		ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000); 
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_WE_LUT, 0x80000, 0x1);				 
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x33, bRFRegOffsetMask, 0x00007);		 
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x3e, bRFRegOffsetMask, 0x0005f);		
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x3f, bRFRegOffsetMask, 0xb3fdb);		 
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("RF0x1 @S1 RXIQK2 = 0x%x\n", ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x1, bRFRegOffsetMask)));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("RF0x2 @S1 RXIQK2 = 0x%x\n", ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x2, bRFRegOffsetMask)));
++		
++		/*enter IQK mode*/
++		ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x808000);
++
++#if 1
++		/*backup Path & GNT value */
++		originalPath = ODM_GetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, bMaskDWord);  /*save 0x70*/
++		ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0x800f0038);
++		ODM_delay_ms(1);
++		originalGNT = ODM_GetBBReg(pDM_Odm, REG_LTECOEX_READ_DATA, bMaskDWord);  /*save 0x38*/
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]OriginalGNT = 0x%x\n", originalGNT));
++					
++		/*set GNT_WL=1/GNT_BT=1  and Path owner to WiFi for pause BT traffic*/
++		ODM_SetBBReg(pDM_Odm, REG_LTECOEX_WRITE_DATA, bMaskDWord, 0x0000ff00);
++		ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0xc0020038);	/*0x38[15:8] = 0x77*/
++		ODM_SetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, BIT26, 0x1);
++#endif
++
++		
++		ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0x800f0054);
++		ODM_delay_ms(1);
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]GNT_BT @S1 RXIQK2 = 0x%x\n", ODM_GetBBReg(pDM_Odm, REG_LTECOEX_READ_DATA, bMaskDWord)));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0x948 @S1 RXIQK2 = 0x%x\n", ODM_GetBBReg(pDM_Odm, 0x948, bMaskDWord)));
++
++		ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf9000000);
++		ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf8000000);
++		
++	
++		/*ODM_delay_ms(IQK_DELAY_TIME_8723D);*/
++
++		Ktime = 0;
++		while ((!ODM_GetBBReg(pDM_Odm, 0xeac, BIT26)) && Ktime < 10) {
++			ODM_delay_ms(1);
++			Ktime++;
++		}						
++
++#if 1
++		/*Restore GNT_WL/GNT_BT  and Path owner*/
++		ODM_SetBBReg(pDM_Odm, REG_LTECOEX_WRITE_DATA, bMaskDWord, originalGNT);
++		ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0xc00f0038);
++		ODM_SetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, 0xffffffff, originalPath);
++#endif
++
++		
++		/*reload RF path*/
++		ODM_SetBBReg(pDM_Odm, 0x948, bMaskDWord, Path_SEL_BB);
++
++		/*leave IQK mode*/
++		ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);
++		/*	PA/PAD controlled by 0x0*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xdf, 0x800, 0x0);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x1, BIT0, 0x0);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x2, BIT0, 0x0);		
++	
++		regEAC = ODM_GetBBReg(pDM_Odm, rRx_Power_After_IQK_A_2, bMaskDWord);
++		regEA4 = ODM_GetBBReg(pDM_Odm, rRx_Power_Before_IQK_A_2, bMaskDWord);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("[IQK]0xeac = 0x%x\n", regEAC));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xea4 = 0x%x, 0xeac = 0x%x\n", regEA4, regEAC));
++		
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xea0(before IQK)= 0x%x, 0xea8(afer IQK) = 0x%x\n",
++		ODM_GetBBReg(pDM_Odm, 0xea0, bMaskDWord), ODM_GetBBReg(pDM_Odm, 0xea8, bMaskDWord)));
++		
++		
++		tmp = (regEAC & 0x03FF0000)>>16;
++		if ((tmp & 0x200) > 0)
++			tmp = 0x400 - tmp;
++		
++		if (!(regEAC & BIT27) &&		/*if Tx is OK, check whether Rx is OK*/
++			(((regEA4 & 0x03FF0000)>>16) != 0x132) &&
++			(((regEAC & 0x03FF0000)>>16) != 0x36) &&
++			(((regEA4 & 0x03FF0000)>>16) < 0x11a) &&
++			(((regEA4 & 0x03FF0000)>>16) > 0xe6) &&
++			(tmp < 0x1a))
++			result |= 0x02;
++		else							
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("S1 RXIQK STEP2 FAIL\n"));
++
++		
++		return result;
++}
++		
++
++u1Byte				
++phy_PathS0_IQK_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm
++#else
++	IN	PADAPTER	pAdapter
++#endif
++	)
++{
++	u4Byte regEA4, regEAC, regE94, regE9C, regE94_S0, regE9C_S0, regEA4_S0, regEAC_S0, tmp, Path_SEL_BB;
++	u1Byte	result = 0x00, Ktime;
++	u4Byte originalPath, originalGNT;
++	
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++#endif	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("Path S0 TXIQK!\n"));
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0x67 @S0 TXIQK = 0x%x\n", ODM_GetMACReg(pDM_Odm, 0x64, bMaskByte3)));
++	Path_SEL_BB = ODM_GetBBReg(pDM_Odm, 0x948, bMaskDWord);
++
++	ODM_SetBBReg(pDM_Odm, 0x948, bMaskDWord, 0x99000280); /*10 od 0x948 0x1 [7] ; WL:S1 to S0;BT:S0 to S1;*/
++	/*ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, ("[IQK]0x1e6@S0 TXIQK = 0x%x\n", PlatformEFIORead1Byte(pAdapter, 0x1e6)));*/		
++  
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);
++	/*modify TXIQK mode table*/
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xee, bRFRegOffsetMask, 0x80000);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x33, bRFRegOffsetMask, 0x00004);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x3e, bRFRegOffsetMask, 0x0005d);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x3f, bRFRegOffsetMask, 0xBFFE0);
++
++	/*path-A IQK setting*/
++	ODM_SetBBReg(pDM_Odm, 0xe30, bMaskDWord, 0x08008c0c);
++	ODM_SetBBReg(pDM_Odm, 0xe34, bMaskDWord, 0x38008c1c);
++	ODM_SetBBReg(pDM_Odm, 0xe38, bMaskDWord, 0x8214018a);
++	ODM_SetBBReg(pDM_Odm, 0xe3c, bMaskDWord, 0x28160200);
++	ODM_SetBBReg(pDM_Odm, rTx_IQK, bMaskDWord, 0x01007c00); 	  
++	ODM_SetBBReg(pDM_Odm, rRx_IQK, bMaskDWord, 0x01004800); 	  
++
++	/*LO calibration setting*/
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Rsp, bMaskDWord, 0x00462911);
++
++	/*PA, PAD setting*/
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xde, 0x800, 0x1);    
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x66, 0x600, 0x0);   
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x66, 0x1E0, 0x3);    
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x8d, 0x1F, 0xf);	  
++
++	/*LOK setting	added for 8723D*/
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xee, 0x10, 0x1);	
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x64, 0x1, 0x1);
++	
++#if 1
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x1, bRFRegOffsetMask, 0xe6d);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x2, bRFRegOffsetMask, 0x66d);	
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("RF0x1 @S0 TXIQK = 0x%x\n", ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x1, bRFRegOffsetMask)));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("RF0x2 @S0 TXIQK = 0x%x\n", ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x2, bRFRegOffsetMask)));
++
++	
++	/*enter IQK mode*/
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x808000);
++
++#if 1
++	/*backup Path & GNT value */
++	originalPath = ODM_GetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, bMaskDWord);  /*save 0x70*/
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0x800f0038);
++	ODM_delay_ms(1);
++	originalGNT = ODM_GetBBReg(pDM_Odm, REG_LTECOEX_READ_DATA, bMaskDWord);  /*save 0x38*/
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]OriginalGNT = 0x%x\n", originalGNT));
++				
++	/*set GNT_WL=1/GNT_BT=1  and Path owner to WiFi for pause BT traffic*/
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_WRITE_DATA, bMaskDWord, 0x0000ff00);
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0xc0020038);	/*0x38[15:8] = 0x77*/
++	ODM_SetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, BIT26, 0x1);
++#endif
++
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0x800f0054);
++	ODM_delay_ms(1);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]GNT_BT @S0 TXIQK = 0x%x\n", ODM_GetBBReg(pDM_Odm, REG_LTECOEX_READ_DATA, bMaskDWord)));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0x948 @S0 TXIQK = 0x%x\n", ODM_GetBBReg(pDM_Odm, 0x948, bMaskDWord)));
++
++	/*One shot, Path S1 LOK & IQK*/
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf9000000);
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf8000000);
++	
++	/*delay x ms*/
++	/*ODM_delay_ms(IQK_DELAY_TIME_8723D);*/
++	
++	Ktime = 0;
++	while ((!ODM_GetBBReg(pDM_Odm, 0xeac, BIT26)) && Ktime < 10) {
++		ODM_delay_ms(1);
++		Ktime++;
++	}
++
++#if 1
++	/*Restore GNT_WL/GNT_BT  and Path owner*/
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_WRITE_DATA, bMaskDWord, originalGNT);
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0xc00f0038);
++	ODM_SetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, 0xffffffff, originalPath);
++#endif
++
++
++	/*reload RF path*/
++	ODM_SetBBReg(pDM_Odm, 0x948, bMaskDWord, Path_SEL_BB);
++
++	/*leave IQK mode*/
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);
++	/*PA/PAD controlled by 0x0*/
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xde, 0x800, 0x0);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x2, BIT0, 0x0);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x1, BIT0, 0x0);	
++	
++	/* Check failed*/
++		regEAC_S0 = ODM_GetBBReg(pDM_Odm, rRx_Power_After_IQK_A_2, bMaskDWord);
++		regE94_S0 = ODM_GetBBReg(pDM_Odm, rTx_Power_Before_IQK_A, bMaskDWord);
++		regE9C_S0 = ODM_GetBBReg(pDM_Odm, rTx_Power_After_IQK_A, bMaskDWord);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xeac_s0 = 0x%x\n", regEAC_S0));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xe94_s0 = 0x%x, 0xe9c_s0 = 0x%x\n", regE94_S0, regE9C_S0));
++		/*monitor image power before & after IQK*/
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xe90_s0(before IQK)= 0x%x, 0xe98_s0(afer IQK) = 0x%x\n",
++		ODM_GetBBReg(pDM_Odm, 0xe90, bMaskDWord), ODM_GetBBReg(pDM_Odm, 0xe98, bMaskDWord)));
++	
++		if (!(regEAC_S0 & BIT28) &&
++		   (((regE94_S0 & 0x03FF0000)>>16) != 0x142) &&
++		   (((regE9C_S0 & 0x03FF0000)>>16) != 0x42))
++	
++			result |= 0x01;
++		else							
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("S0 TXIQK FAIL\n"));
++	
++		return result;
++}
++
++
++
++u1Byte			
++phy_PathS0_RxIQK_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	BOOLEAN 	configPathS0
++	)
++{
++	u4Byte regE94, regE9C, regEA4, regEAC, regE94_S0, regE9C_S0, regEA4_S0, regEAC_S0, tmp, u4tmp, Path_SEL_BB;
++	u1Byte result = 0x00, Ktime;
++	u4Byte originalPath, originalGNT;
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++#endif	
++	
++	Path_SEL_BB = ODM_GetBBReg(pDM_Odm, 0x948, bMaskDWord);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Path S0 RxIQK Step1!!\n"));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0x67 @S0 RXIQK1 = 0x%x\n", ODM_GetMACReg(pDM_Odm, 0x64, bMaskByte3)));
++	ODM_SetBBReg(pDM_Odm, 0x948, bMaskDWord, 0x99000280); 
++	/*ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, ("[IQK]0x1e6@S0 RXIQK1 = 0x%x\n", PlatformEFIORead1Byte(pAdapter, 0x1e6)));*/
++	
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);	
++	
++	ODM_SetBBReg(pDM_Odm, rTx_IQK, bMaskDWord, 0x01007c00);
++	ODM_SetBBReg(pDM_Odm, rRx_IQK, bMaskDWord, 0x01004800);
++	
++	ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_A, bMaskDWord, 0x18008c1c);
++	ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_A, bMaskDWord, 0x38008c1c);
++	ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_B, bMaskDWord, 0x38008c1c);
++	ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_B, bMaskDWord, 0x38008c1c);
++
++	ODM_SetBBReg(pDM_Odm, rTx_IQK_PI_A, bMaskDWord, 0x82160000);
++	ODM_SetBBReg(pDM_Odm, rRx_IQK_PI_A, bMaskDWord, 0x28160000);
++
++	
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Rsp, bMaskDWord, 0x0046a911);
++	
++	
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xee, bRFRegOffsetMask, 0x80000);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x33, bRFRegOffsetMask, 0x00006);	
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x3e, bRFRegOffsetMask, 0x0005f);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x3f, bRFRegOffsetMask, 0xa7ffb);
++	
++	
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xde, 0x800, 0x1);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x66, 0x600, 0x0); 
++
++#if 1	
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x1, bRFRegOffsetMask, 0xe6d);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x2, bRFRegOffsetMask, 0x66d);	
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("RF0x1 @S0 RXIQK1 = 0x%x\n", ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x1, bRFRegOffsetMask)));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("RF0x2 @S0 RXIQK1 = 0x%x\n", ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x2, bRFRegOffsetMask)));
++	
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x808000);
++
++#if 1
++	/*backup Path & GNT value */
++	originalPath = ODM_GetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, bMaskDWord);  /*save 0x70*/
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0x800f0038);
++	ODM_delay_ms(1);
++	originalGNT = ODM_GetBBReg(pDM_Odm, REG_LTECOEX_READ_DATA, bMaskDWord);  /*save 0x38*/
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]OriginalGNT = 0x%x\n", originalGNT));
++				
++	/*set GNT_WL=1/GNT_BT=1  and Path owner to WiFi for pause BT traffic*/
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_WRITE_DATA, bMaskDWord, 0x0000ff00);
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0xc0020038);	/*0x38[15:8] = 0x77*/
++	ODM_SetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, BIT26, 0x1);
++#endif
++
++
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0x800f0054);
++	ODM_delay_ms(1);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]GNT_BT @S0 RXIQK1 = 0x%x\n", ODM_GetBBReg(pDM_Odm, REG_LTECOEX_READ_DATA, bMaskDWord)));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0x948 @S0 RXIQK1 = 0x%x\n", ODM_GetBBReg(pDM_Odm, 0x948, bMaskDWord)));
++
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf9000000);
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf8000000);
++	
++	
++	/*ODM_delay_ms(IQK_DELAY_TIME_8723D);*/
++	
++	Ktime = 0;
++	while ((!ODM_GetBBReg(pDM_Odm, 0xeac, BIT26)) && Ktime < 10) {
++		ODM_delay_ms(1);
++		Ktime++;
++	}	
++	
++	regEAC_S0 = ODM_GetBBReg(pDM_Odm, rRx_Power_After_IQK_A_2, bMaskDWord);
++	regE94_S0 = ODM_GetBBReg(pDM_Odm, rTx_Power_Before_IQK_A, bMaskDWord);
++	regE9C_S0 = ODM_GetBBReg(pDM_Odm, rTx_Power_After_IQK_A, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xeac_s0 = 0x%x\n", regEAC_S0));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xe94_s0 = 0x%x, 0xe9c_s0 = 0x%x\n", regE94_S0, regE9C_S0));
++	/*monitor image power before & after IQK*/
++	ODM_RT_TRACE(pDM_Odm , ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xe90_s0(before IQK)= 0x%x, 0xe98_s0(afer IQK) = 0x%x\n",
++	ODM_GetBBReg(pDM_Odm, 0xe90, bMaskDWord), ODM_GetBBReg(pDM_Odm, 0xe98, bMaskDWord)));
++			
++	
++	tmp = (regE9C_S0 & 0x03FF0000)>>16;
++		if ((tmp & 0x200) > 0)
++			tmp = 0x400 - tmp;
++	
++		if (!(regEAC_S0 & BIT28) &&
++			   (((regE94_S0 & 0x03FF0000)>>16) != 0x142) &&
++			   (((regE9C_S0 & 0x03FF0000)>>16) != 0x42))
++		
++				result |= 0x01;
++		else {							
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("S0 RXIQK STEP1 FAIL\n"));
++#if 1
++			/*Restore GNT_WL/GNT_BT  and Path owner*/
++			ODM_SetBBReg(pDM_Odm, REG_LTECOEX_WRITE_DATA, bMaskDWord, originalGNT);
++			ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0xc00f0038);
++			ODM_SetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, 0xffffffff, originalPath);
++#endif
++
++			/*reload RF path*/
++			ODM_SetBBReg(pDM_Odm, 0x948, bMaskDWord, Path_SEL_BB);			
++			ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xde, 0x800, 0x0);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x2, BIT0, 0x0);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x1, BIT0, 0x0);		
++			return result;
++		}
++			
++	u4tmp = 0x80007C00 | (regE94_S0&0x3FF0000)  | ((regE9C_S0&0x3FF0000) >> 16);
++	ODM_SetBBReg(pDM_Odm, rTx_IQK, bMaskDWord, u4tmp);
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xe40_s0 = 0x%x u4tmp = 0x%x\n", ODM_GetBBReg(pDM_Odm, rTx_IQK, bMaskDWord), u4tmp));
++
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]Path S0 RXIQK STEP2!!\n\n"));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0x67 @S0 RXIQK2 = 0x%x\n", ODM_GetMACReg(pDM_Odm, 0x64, bMaskByte3)));
++	/*ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, ("[IQK]0x1e6@S0 RXIQK2 = 0x%x\n", PlatformEFIORead1Byte(pAdapter, 0x1e6)));*/
++	ODM_SetBBReg(pDM_Odm, rRx_IQK, bMaskDWord, 0x01004800);
++		
++	ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_A, bMaskDWord, 0x38008c1c);
++	ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_A, bMaskDWord, 0x18008c1c);
++	ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_B, bMaskDWord, 0x38008c1c);
++	ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_B, bMaskDWord, 0x38008c1c);
++	
++	ODM_SetBBReg(pDM_Odm, rTx_IQK_PI_A, bMaskDWord, 0x82170000);
++	ODM_SetBBReg(pDM_Odm, rRx_IQK_PI_A, bMaskDWord, 0x28171400);
++	
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Rsp, bMaskDWord, 0x0046a8d1);
++	
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000); 
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xee, 0x80000, 0x1);				 
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x33, bRFRegOffsetMask, 0x00007);		  
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x3e, bRFRegOffsetMask, 0x0005f);		
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x3f, bRFRegOffsetMask, 0xb3fdb);		 
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("RF0x1 @S0 RXIQK2 = 0x%x\n", ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x1, bRFRegOffsetMask)));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("RF0x2 @S0 RXIQK2 = 0x%x\n", ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x2, bRFRegOffsetMask)));
++	/*enter IQK mode*/
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x808000);
++
++#if 1
++	/*backup Path & GNT value */
++	originalPath = ODM_GetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, bMaskDWord);  /*save 0x70*/
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0x800f0038);
++	ODM_delay_ms(1);
++	originalGNT = ODM_GetBBReg(pDM_Odm, REG_LTECOEX_READ_DATA, bMaskDWord);  /*save 0x38*/
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]OriginalGNT = 0x%x\n", originalGNT));
++				
++	/*set GNT_WL=1/GNT_BT=1  and Path owner to WiFi for pause BT traffic*/
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_WRITE_DATA, bMaskDWord, 0x0000ff00);
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0xc0020038);	/*0x38[15:8] = 0x77*/
++	ODM_SetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, BIT26, 0x1);
++#endif
++
++
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0x800f0054);
++	ODM_delay_ms(1);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]GNT_BT @S0 RXIQK2 = 0x%x\n", ODM_GetBBReg(pDM_Odm, REG_LTECOEX_READ_DATA, bMaskDWord)));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0x948 @S0 RXIQK2 = 0x%x\n", ODM_GetBBReg(pDM_Odm, 0x948, bMaskDWord)));
++	
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf9000000);
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf8000000);
++	
++	
++	/*ODM_delay_ms(IQK_DELAY_TIME_8723D);*/
++	Ktime = 0;
++	while ((!ODM_GetBBReg(pDM_Odm, 0xeac, BIT26)) && Ktime < 10) {
++		ODM_delay_ms(1);
++		Ktime++;
++	}
++
++#if 1
++	/*Restore GNT_WL/GNT_BT  and Path owner*/
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_WRITE_DATA, bMaskDWord, originalGNT);
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0xc00f0038);
++	ODM_SetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, 0xffffffff, originalPath);
++#endif
++
++	/*reload RF path*/
++	ODM_SetBBReg(pDM_Odm, 0x948, bMaskDWord, Path_SEL_BB);
++
++	/*leave IQK mode*/
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);
++	
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xde, 0x800, 0x0);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x2, BIT0, 0x0);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x1, BIT0, 0x0);	
++	
++	regEAC_S0 = ODM_GetBBReg(pDM_Odm, rRx_Power_After_IQK_A_2, bMaskDWord);
++	regEA4_S0 = ODM_GetBBReg(pDM_Odm, rRx_Power_Before_IQK_A_2, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("[IQK]0xeac_s0 = 0x%x\n", regEAC_S0));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xea4_s0 = 0x%x, 0xeac_s0 = 0x%x\n", regEA4_S0, regEAC_S0));
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xea0_s0(before IQK)= 0x%x, 0xea8_s0(afer IQK) = 0x%x\n",
++	ODM_GetBBReg(pDM_Odm, 0xea0, bMaskDWord), ODM_GetBBReg(pDM_Odm, 0xea8, bMaskDWord)));
++	
++	
++	tmp = (regEAC_S0 & 0x03FF0000)>>16;
++	if ((tmp & 0x200) > 0)
++		tmp = 0x400 - tmp;
++	
++	if (!(regEAC_S0 & BIT27) &&		/*if Tx is OK, check whether Rx is OK*/
++	   (((regEA4_S0 & 0x03FF0000)>>16) != 0x132) &&
++	   (((regEAC_S0 & 0x03FF0000)>>16) != 0x36) &&
++	   (((regEA4_S0 & 0x03FF0000)>>16) < 0x11a) &&
++	   (((regEA4_S0 & 0x03FF0000)>>16) > 0xe6) &&
++	   (tmp < 0x1a))
++		result |= 0x02;
++	else							
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("S0 RXIQK STEP2 FAIL\n"));
++
++	
++	return result;
++}
++
++
++VOID
++_PHY_PathS1FillIQKMatrix_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++		IN PDM_ODM_T		pDM_Odm,
++#else
++		IN	PADAPTER	pAdapter,
++#endif
++		IN	BOOLEAN 	bIQKOK,
++		IN	s4Byte		result[][8],
++		IN	u1Byte		final_candidate,
++		IN	BOOLEAN 	bTxOnly
++	)
++	{
++		u4Byte	Oldval_1, X, TX1_A, reg;
++		s4Byte	Y, TX1_C;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++		PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("Path S1 IQ Calibration %s !\n", (bIQKOK) ? "Success" : "Failed"));
++	
++		if (final_candidate == 0xFF)
++			return;
++	
++		else if (bIQKOK) {
++			Oldval_1 = (ODM_GetBBReg(pDM_Odm, rOFDM0_XATxIQImbalance, bMaskDWord) >> 22) & 0x3FF;
++	
++			X = result[final_candidate][0];
++
++			if ((X & 0x00000200) != 0)
++				X = X | 0xFFFFFC00;
++			TX1_A = (X * Oldval_1) >> 8;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("X = 0x%x, TX1_A = 0x%x, Oldval_1 0x%x\n", X, TX1_A, Oldval_1));
++			ODM_SetBBReg(pDM_Odm, rOFDM0_XATxIQImbalance, 0x3FF, TX1_A);
++	
++			ODM_SetBBReg(pDM_Odm, rOFDM0_ECCAThreshold, BIT(31), ((X * Oldval_1 >> 7) & 0x1));
++	
++			Y = result[final_candidate][1];
++			if ((Y & 0x00000200) != 0)
++				Y = Y | 0xFFFFFC00;
++
++			TX1_C = (Y * Oldval_1) >> 8;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("Y = 0x%x, TX1_C = 0x%x\n", Y, TX1_C));
++			ODM_SetBBReg(pDM_Odm, rOFDM0_XCTxAFE, 0xF0000000, ((TX1_C & 0x3C0) >> 6));
++			ODM_SetBBReg(pDM_Odm, rOFDM0_XATxIQImbalance, 0x003F0000, (TX1_C & 0x3F));
++	
++			ODM_SetBBReg(pDM_Odm, rOFDM0_ECCAThreshold, BIT(29), ((Y * Oldval_1 >> 7) & 0x1));
++
++			if (bTxOnly) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("_PHY_PathS1FillIQKMatrix_8723D only Tx OK\n"));
++				return;
++			}
++			reg = result[final_candidate][2];
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++			if (RTL_ABS(reg , 0x100) >= 16)
++				reg = 0x100;
++#endif
++			ODM_SetBBReg(pDM_Odm, rOFDM0_XARxIQImbalance, 0x3FF, reg);
++	
++			reg = result[final_candidate][3] & 0x3F;
++			ODM_SetBBReg(pDM_Odm, rOFDM0_XARxIQImbalance, 0xFC00, reg);
++
++			reg = (result[final_candidate][3] >> 6) & 0xF;
++			ODM_SetBBReg(pDM_Odm, rOFDM0_RxIQExtAnta, 0xF0000000, reg);
++/*			
++10 os 7201 10
++10 id ea4 [25:16] p
++10 os 7202 10
++10 od c14 VarFromTmp [9:0] p
++
++10 os 7201 11
++10 id eac [25:22] p
++10 os 7202 11
++10 od ca0 VarFromTmp [31:28] p
++
++10 os 7201 12
++10 id eac [21:16] p
++10 os 7202 12
++10 od c14 VarFromTmp [15:10] p
++*/
++		}
++	}
++
++VOID
++_PHY_PathS0FillIQKMatrix_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN  BOOLEAN   	bIQKOK,
++	IN	s4Byte		result[][8],
++	IN	u1Byte		final_candidate,
++	IN	BOOLEAN		bTxOnly			
++	)
++{
++	u4Byte	Oldval_0, X, TX0_A, reg;
++	s4Byte	Y, TX0_C;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);		
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++#endif	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Path S0 IQ Calibration %s !\n", (bIQKOK)?"Success":"Failed"));
++
++	if (final_candidate == 0xFF)
++		return;
++
++	else if (bIQKOK) {
++		Oldval_0 = (ODM_GetBBReg(pDM_Odm, 0xcd4, bMaskDWord) >> 13) & 0x3FF;
++
++		X = result[final_candidate][4];
++		if ((X & 0x00000200) != 0)
++			X = X | 0xFFFFFC00;		
++		TX0_A = (X * Oldval_0) >> 8;
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("X = 0x%x, TX0_A = 0x%x, Oldval_0 0x%x\n", X, TX0_A, Oldval_0));
++		ODM_SetBBReg(pDM_Odm, 0xcd0, 0x7FE, TX0_A);
++
++		ODM_SetBBReg(pDM_Odm, 0xcd0, BIT(0), ((X * Oldval_0>>7) & 0x1));
++
++		Y = result[final_candidate][5];
++		if ((Y & 0x00000200) != 0)
++			Y = Y | 0xFFFFFC00;		
++
++		TX0_C = (Y * Oldval_0) >> 8;
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("Y = 0x%x, TX0_C = 0x%x\n", Y, TX0_C));
++		ODM_SetBBReg(pDM_Odm, 0xcd4, 0x7FE, (TX0_C & 0x3FF));
++		
++		ODM_SetBBReg(pDM_Odm, 0xcd4, BIT(0), ((Y * Oldval_0>>7) & 0x1));
++
++		if (bTxOnly)
++			return;
++
++		reg = result[final_candidate][6];
++		ODM_SetBBReg(pDM_Odm, 0xcd8, 0x3FF, reg);
++	
++		reg = result[final_candidate][7];
++		ODM_SetBBReg(pDM_Odm, 0xcd8, 0x003FF000, reg);
++/*		
++10 os 7201 10
++10 id ea4 [25:16] p
++10 os 7202 10
++10 od cd8 VarFromTmp [9:0] p
++	
++10 os 7201 11
++10 id eac [25:16] p
++10 os 7202 11
++10 od cd8 VarFromTmp [21:12] p	
++		RegE94_S1 = result[i][0];
++		RegE9C_S1 = result[i][1];
++		RegEA4_S1 = result[i][2];
++		RegEAC_S1 = result[i][3];
++		RegE94_S0 = result[i][4];
++		RegE9C_S0 = result[i][5];
++		RegEA4_S0 = result[i][6];
++		RegEAC_S0 = result[i][7];
++*/
++	}
++}
++// 2011/07/26 MH Add an API for testing IQK fail case.
++//
++// MP Already declare in odm.c 
++#if !(DM_ODM_SUPPORT_TYPE & ODM_WIN) 
++BOOLEAN
++ODM_CheckPowerStatus(
++	IN	PADAPTER		Adapter)
++{
++/*
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T			pDM_Odm = &pHalData->DM_OutSrc;
++	RT_RF_POWER_STATE 	rtState;
++	PMGNT_INFO			pMgntInfo	= &(Adapter->MgntInfo);
++
++	// 2011/07/27 MH We are not testing ready~~!! We may fail to get correct value when init sequence.
++	if (pMgntInfo->init_adpt_in_progress == TRUE)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, ("ODM_CheckPowerStatus Return TRUE, due to initadapter"));
++		return	TRUE;
++	}
++	
++	//
++	//	2011/07/19 MH We can not execute tx pwoer tracking/ LLC calibrate or IQK.
++	//
++	Adapter->HalFunc.GetHwRegHandler(Adapter, HW_VAR_RF_STATE, (pu1Byte)(&rtState));	
++	if(Adapter->bDriverStopped || Adapter->bDriverIsGoingToPnpSetPowerSleep || rtState == eRfOff)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, ("ODM_CheckPowerStatus Return FALSE, due to %d/%d/%d\n", 
++		Adapter->bDriverStopped, Adapter->bDriverIsGoingToPnpSetPowerSleep, rtState));
++		return	FALSE;
++	}
++*/
++	return	TRUE;
++}
++#endif
++
++VOID
++_PHY_SaveADDARegisters_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	pu4Byte		ADDAReg,
++	IN	pu4Byte		ADDABackup,
++	IN	u4Byte		RegisterNum
++	)
++{
++	u4Byte	i;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++	
++	if (ODM_CheckPowerStatus(pAdapter) == FALSE)
++		return;
++#endif
++	
++
++	for (i = 0 ; i < RegisterNum ; i++) {
++		ADDABackup[i] = ODM_GetBBReg(pDM_Odm, ADDAReg[i], bMaskDWord);
++	}
++}
++
++
++VOID
++_PHY_SaveMACRegisters_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	pu4Byte		MACReg,
++	IN	pu4Byte		MACBackup
++	)
++{
++	u4Byte	i;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++#endif	
++
++	for (i = 0 ; i < (IQK_MAC_REG_NUM - 1); i++) {
++		MACBackup[i] = ODM_Read1Byte(pDM_Odm, MACReg[i]);		
++	}
++	MACBackup[i] = ODM_Read4Byte(pDM_Odm, MACReg[i]);		
++
++}
++
++
++VOID
++_PHY_ReloadADDARegisters_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	pu4Byte		ADDAReg,
++	IN	pu4Byte		ADDABackup,
++	IN	u4Byte		RegiesterNum
++	)
++{
++	u4Byte	i;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++#endif
++	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Reload ADDA power saving parameters !\n"));
++	for (i = 0 ; i < RegiesterNum; i++) {
++		ODM_SetBBReg(pDM_Odm, ADDAReg[i], bMaskDWord, ADDABackup[i]);
++	}
++}
++
++VOID
++_PHY_ReloadMACRegisters_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	pu4Byte		MACReg,
++	IN	pu4Byte		MACBackup
++	)
++{
++	u4Byte	i;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++#endif
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("Reload MAC parameters !\n"));
++	for (i = 0 ; i < (IQK_MAC_REG_NUM - 1); i++) {
++		ODM_Write1Byte(pDM_Odm, MACReg[i], (u1Byte)MACBackup[i]);
++	}
++	ODM_Write4Byte(pDM_Odm, MACReg[i], MACBackup[i]);	
++}
++
++
++VOID
++_PHY_PathADDAOn_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	pu4Byte		ADDAReg,
++	IN	BOOLEAN		isPathAOn,
++	IN	BOOLEAN		is2T
++	)
++{
++	u4Byte	pathOn;
++	u4Byte	i;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++#endif
++
++
++	pathOn = isPathAOn ? 0x03c00016 : 0x03c00016;
++
++	if (FALSE == is2T) {
++		pathOn = 0x03c00016;
++		ODM_SetBBReg(pDM_Odm, ADDAReg[0], bMaskDWord, 0x03c00016);
++	} else {
++		ODM_SetBBReg(pDM_Odm, ADDAReg[0], bMaskDWord, pathOn);
++	}
++	
++	for (i = 1 ; i < IQK_ADDA_REG_NUM ; i++) {
++		ODM_SetBBReg(pDM_Odm,ADDAReg[i], bMaskDWord, pathOn);
++	}
++	
++}
++
++VOID
++_PHY_MACSettingCalibration_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	pu4Byte		MACReg,
++	IN	pu4Byte		MACBackup	
++	)
++{
++	
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++#endif	
++
++/*
++	ODM_Write1Byte(pDM_Odm, MACReg[i], 0x3F);
++
++	for(i = 1 ; i < (IQK_MAC_REG_NUM - 1); i++){
++		ODM_Write1Byte(pDM_Odm, MACReg[i], (u1Byte)(MACBackup[i]&(~BIT3)));
++	}
++	ODM_Write1Byte(pDM_Odm, MACReg[i], (u1Byte)(MACBackup[i]&(~BIT5)));	
++*/
++
++	/*ODM_SetBBReg(pDM_Odm, 0x522, bMaskByte0, 0x7f);*/
++	/*ODM_SetBBReg(pDM_Odm, 0x550, bMaskByte0, 0x15);*/
++	/*ODM_SetBBReg(pDM_Odm, 0x551, bMaskByte0, 0x00);*/
++
++	ODM_SetBBReg(pDM_Odm, 0x520, 0x00ff0000, 0xff);
++
++
++
++}
++
++VOID
++_PHY_PathAStandBy_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm
++#else
++	IN PADAPTER	pAdapter
++#endif
++	)
++{
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++#endif	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("Path-S1 standby mode!\n"));
++
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);
++/*	ODM_SetBBReg(pDM_Odm, 0x840, bMaskDWord, 0x00010000);*/
++	ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)0x0, 0x0, bRFRegOffsetMask, 0x10000);
++
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x808000);
++}
++
++VOID
++_PHY_PathBStandBy_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm
++#else
++	IN PADAPTER	pAdapter
++#endif
++	)
++{
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++#endif	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("Path-S0 standby mode!\n"));
++
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);
++	ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)0x1, 0x0, bRFRegOffsetMask, 0x10000);
++
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x808000);
++}
++
++
++VOID
++_PHY_PIModeSwitch_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	BOOLEAN		PIMode
++	)
++{
++	u4Byte	mode;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++#endif	
++
++
++	mode = PIMode ? 0x01000100 : 0x01000000;
++	ODM_SetBBReg(pDM_Odm, rFPGA0_XA_HSSIParameter1, bMaskDWord, mode);
++	ODM_SetBBReg(pDM_Odm, rFPGA0_XB_HSSIParameter1, bMaskDWord, mode);
++}
++
++BOOLEAN							
++phy_SimularityCompare_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	s4Byte 		result[][8],
++	IN	u1Byte		 c1,
++	IN	u1Byte		 c2
++	)
++{
++	u4Byte		i, j, diff, SimularityBitMap, bound = 0;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);	
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++#endif	
++	u1Byte		final_candidate[2] = {0xFF, 0xFF};	
++	BOOLEAN		bResult = TRUE;
++/*#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++//	BOOLEAN		is2T = IS_92C_SERIAL( pHalData->VersionID);
++//#else*/
++	BOOLEAN		is2T = TRUE;
++/*#endif*/
++
++	s4Byte tmp1 = 0,tmp2 = 0;
++
++	if (is2T)
++		bound = 8;
++	else
++		bound = 4;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> IQK:phy_SimularityCompare_8723D c1 %d c2 %d!!!\n", c1, c2));
++
++
++	SimularityBitMap = 0;
++	
++	for (i = 0; i < bound; i++) {
++		
++		if ((i == 1) || (i == 3) || (i == 5) || (i == 7)) {
++			if ((result[c1][i] & 0x00000200) != 0)
++				tmp1 = result[c1][i] | 0xFFFFFC00; 
++			else
++				tmp1 = result[c1][i];
++
++			if ((result[c2][i] & 0x00000200) != 0)
++				tmp2 = result[c2][i] | 0xFFFFFC00; 
++			else
++				tmp2 = result[c2][i];
++		} else {
++			tmp1 = result[c1][i];	
++			tmp2 = result[c2][i];
++		}
++		
++		diff = (tmp1 > tmp2) ? (tmp1 - tmp2) : (tmp2 - tmp1);
++		
++		if (diff > MAX_TOLERANCE) {
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("IQK:differnece overflow %d index %d compare1 0x%x compare2 0x%x!!!\n",  diff, i, result[c1][i], result[c2][i]));
++		
++			if ((i == 2 || i == 6) && !SimularityBitMap) {
++				if (result[c1][i]+result[c1][i+1] == 0)
++					final_candidate[(i/4)] = c2;
++				else if (result[c2][i]+result[c2][i+1] == 0)
++					final_candidate[(i/4)] = c1;
++				else
++					SimularityBitMap = SimularityBitMap|(1<<i);					
++			} else
++				SimularityBitMap = SimularityBitMap|(1<<i);
++		}
++	}
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("IQK:phy_SimularityCompare_8723D SimularityBitMap   %x !!!\n", SimularityBitMap));
++	
++	if (SimularityBitMap == 0) {
++		for (i = 0; i < (bound/4); i++) {
++			if (final_candidate[i] != 0xFF) {
++				for (j = i*4; j < (i+1)*4-2; j++)
++					result[3][j] = result[final_candidate[i]][j];
++				bResult = FALSE;
++			}
++		}
++		return bResult;
++	} else {
++
++	if (!(SimularityBitMap & 0x03)) {
++		for(i = 0; i < 2; i++)
++			result[3][i] = result[c1][i];
++	}
++
++	if (!(SimularityBitMap & 0x0c)) {
++		for(i = 2; i < 4; i++)
++			result[3][i] = result[c1][i];
++	}
++
++	if (!(SimularityBitMap & 0x30)) {
++		for(i = 4; i < 6; i++)
++			result[3][i] = result[c1][i];
++
++	}
++
++	if (!(SimularityBitMap & 0xc0)) {
++		for(i = 6; i < 8; i++)
++			result[3][i] = result[c1][i];
++	}
++		
++		return FALSE;
++	}
++
++	
++	
++}
++
++
++
++VOID	
++phy_IQCalibrate_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	s4Byte 		result[][8],
++	IN	u1Byte		t,
++	IN	BOOLEAN		is2T
++	)
++{
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);	
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++#endif	
++	u4Byte			i;
++	u1Byte			PathS1_OK, PathS0_OK;
++	u1Byte 			tmp0xc50 = (u1Byte)ODM_GetBBReg(pDM_Odm, 0xC50, bMaskByte0);
++	u1Byte 			tmp0xc58 = (u1Byte)ODM_GetBBReg(pDM_Odm, 0xC58, bMaskByte0);	
++	u4Byte			ADDA_REG[IQK_ADDA_REG_NUM] = {	
++						rFPGA0_XCD_SwitchControl, 	rBlue_Tooth, 	
++						rRx_Wait_CCA, 		rTx_CCK_RFON,
++						rTx_CCK_BBON, 	rTx_OFDM_RFON, 	
++						rTx_OFDM_BBON, 	rTx_To_Rx,
++						rTx_To_Tx, 		rRx_CCK, 	
++						rRx_OFDM, 		rRx_Wait_RIFS,
++						rRx_TO_Rx, 		rStandby, 	
++						rSleep, 			rPMPD_ANAEN };
++	u4Byte			IQK_MAC_REG[IQK_MAC_REG_NUM] = {
++						REG_TXPAUSE, 		REG_BCN_CTRL,	
++						REG_BCN_CTRL_1,	REG_GPIO_MUXCFG};
++					
++	
++	u4Byte	IQK_BB_REG_92C[IQK_BB_REG_NUM] = {
++							rOFDM0_TRxPathEnable, 		rOFDM0_TRMuxPar,	
++							rFPGA0_XCD_RFInterfaceSW,	rConfig_AntA,	rConfig_AntB,
++							rFPGA0_XAB_RFInterfaceSW,	rFPGA0_XA_RFInterfaceOE,	
++							rFPGA0_XB_RFInterfaceOE, rCCK0_AFESetting	
++							};	
++	u4Byte	cnt_IQKFail = 0;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
++	u4Byte	retryCount = 2;
++#else
++#if MP_DRIVER
++	const u4Byte	retryCount = 9;
++#else
++	const u4Byte	retryCount = 2;
++#endif
++#endif
++
++	
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_ADSL))
++#ifdef MP_TEST
++		if (pDM_Odm->priv->pshare->rf_ft_var.mp_specific)
++			retryCount = 9; 
++#endif
++#endif
++
++
++	if (t == 0) {
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	 	_PHY_SaveADDARegisters_8723D(pAdapter, ADDA_REG, pDM_Odm->RFCalibrateInfo.ADDA_backup, IQK_ADDA_REG_NUM);
++		_PHY_SaveMACRegisters_8723D(pAdapter, IQK_MAC_REG, pDM_Odm->RFCalibrateInfo.IQK_MAC_backup);
++	 	_PHY_SaveADDARegisters_8723D(pAdapter, IQK_BB_REG_92C, pDM_Odm->RFCalibrateInfo.IQK_BB_backup, IQK_BB_REG_NUM);				
++#else
++	 	_PHY_SaveADDARegisters_8723D(pDM_Odm, ADDA_REG, pDM_Odm->RFCalibrateInfo.ADDA_backup, IQK_ADDA_REG_NUM);
++		_PHY_SaveMACRegisters_8723D(pDM_Odm, IQK_MAC_REG, pDM_Odm->RFCalibrateInfo.IQK_MAC_backup);
++	 	_PHY_SaveADDARegisters_8723D(pDM_Odm, IQK_BB_REG_92C, pDM_Odm->RFCalibrateInfo.IQK_BB_backup, IQK_BB_REG_NUM);		
++#endif
++	}
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("IQ Calibration for 1T1R_S0/S1 for %d times\n", t));
++	
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	
++ 	_PHY_PathADDAOn_8723D(pAdapter, ADDA_REG, TRUE, is2T);
++#else
++ 	_PHY_PathADDAOn_8723D(pDM_Odm, ADDA_REG, TRUE, is2T);
++#endif
++		
++  
++/*
++	if(t==0)
++	{
++		pDM_Odm->RFCalibrateInfo.bRfPiEnable = (u1Byte)ODM_GetBBReg(pDM_Odm, rFPGA0_XA_HSSIParameter1, BIT(8));
++	}
++	
++	if(!pDM_Odm->RFCalibrateInfo.bRfPiEnable){
++		// Switch BB to PI mode to do IQ Calibration.
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		_PHY_PIModeSwitch_8723D(pAdapter, TRUE);
++#else
++		_PHY_PIModeSwitch_8723D(pDM_Odm, TRUE);
++#endif
++	}
++*/	
++
++		
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	_PHY_MACSettingCalibration_8723D(pAdapter, IQK_MAC_REG, pDM_Odm->RFCalibrateInfo.IQK_MAC_backup);
++#else
++	_PHY_MACSettingCalibration_8723D(pDM_Odm, IQK_MAC_REG, pDM_Odm->RFCalibrateInfo.IQK_MAC_backup);
++#endif
++
++	/*BB setting*/
++	/*ODM_SetBBReg(pDM_Odm, rFPGA0_RFMOD, BIT24, 0x00);*/
++	ODM_SetBBReg(pDM_Odm, rCCK0_AFESetting, 0x0f000000, 0xf);
++	ODM_SetBBReg(pDM_Odm, rOFDM0_TRxPathEnable, bMaskDWord, 0x03a05611);
++	ODM_SetBBReg(pDM_Odm, rOFDM0_TRMuxPar, bMaskDWord, 0x000800e4); 
++	ODM_SetBBReg(pDM_Odm, rFPGA0_XCD_RFInterfaceSW, bMaskDWord, 0x25204200);  
++	
++	/*IQ calibration setting*/
++	/*ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("IQK setting!\n"));	*/	
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x808000);
++	ODM_SetBBReg(pDM_Odm, rTx_IQK, bMaskDWord, 0x01007c00);
++	ODM_SetBBReg(pDM_Odm, rRx_IQK, bMaskDWord, 0x01004800);
++
++if (is2T) {
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		_PHY_PathBStandBy_8723D(pAdapter);
++
++		
++		_PHY_PathADDAOn_8723D(pAdapter, ADDA_REG, FALSE, is2T);
++#else
++		_PHY_PathBStandBy_8723D(pDM_Odm);
++
++		
++		_PHY_PathADDAOn_8723D(pDM_Odm, ADDA_REG, FALSE, is2T);
++#endif
++	}
++
++
++#if 1
++	for (i = 0 ; i < retryCount ; i++) {
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		PathS1_OK = phy_PathS1_IQK_8723D(pAdapter, is2T);
++#else
++		PathS1_OK = phy_PathS1_IQK_8723D(pDM_Odm, is2T);
++#endif
++
++		if (PathS1_OK == 0x01) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Path S1 Tx IQK Success!!\n"));
++				result[t][0] = (ODM_GetBBReg(pDM_Odm, rTx_Power_Before_IQK_A, bMaskDWord)&0x3FF0000)>>16;
++				result[t][1] = (ODM_GetBBReg(pDM_Odm, rTx_Power_After_IQK_A, bMaskDWord)&0x3FF0000)>>16;
++			break;
++		} else {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Path S1 Tx IQK Fail!!\n"));
++			result[t][0] = 0x100;
++			result[t][1] = 0x0;
++			cnt_IQKFail++;
++		}	
++#if 0		
++		else if (i == (retryCount-1) && PathS1_OK == 0x01)	
++		{
++			RT_DISP(FINIT, INIT_IQK, ("Path S1 IQK Only  Tx Success!!\n"));
++			
++			result[t][0] = (ODM_GetBBReg(pDM_Odm, rTx_Power_Before_IQK_A, bMaskDWord)&0x3FF0000)>>16;
++			result[t][1] = (ODM_GetBBReg(pDM_Odm, rTx_Power_After_IQK_A, bMaskDWord)&0x3FF0000)>>16;			
++		}
++#endif		
++	}
++#endif
++
++
++#if 1
++	for (i = 0 ; i < retryCount ; i++) {
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		PathS1_OK = phy_PathS1_RxIQK_8723D(pAdapter, is2T);
++#else
++		PathS1_OK = phy_PathS1_RxIQK_8723D(pDM_Odm, is2T);
++#endif
++		if (PathS1_OK == 0x03) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("Path S1 Rx IQK Success!!\n")); 
++				result[t][2] = (ODM_GetBBReg(pDM_Odm, rRx_Power_Before_IQK_A_2, bMaskDWord)&0x3FF0000)>>16;
++				result[t][3] = (ODM_GetBBReg(pDM_Odm, rRx_Power_After_IQK_A_2, bMaskDWord)&0x3FF0000)>>16;
++			break;
++		} else {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Path S1 Rx IQK Fail!!\n"));	
++			result[t][2] = 0x100;
++			result[t][3] = 0x0;
++			cnt_IQKFail++;
++		}
++	}
++
++	if (0x00 == PathS1_OK) {
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Path S1 IQK failed!!\n"));		
++	}
++
++#endif
++
++	if (is2T) {
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		_PHY_PathAStandBy_8723D(pAdapter);
++
++		
++		_PHY_PathADDAOn_8723D(pAdapter, ADDA_REG, FALSE, is2T);
++#else
++		_PHY_PathAStandBy_8723D(pDM_Odm);
++
++		
++		_PHY_PathADDAOn_8723D(pDM_Odm, ADDA_REG, FALSE, is2T);
++#endif
++
++			
++		ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x808000);
++		ODM_SetBBReg(pDM_Odm, rTx_IQK, bMaskDWord, 0x01007c00);
++		ODM_SetBBReg(pDM_Odm, rRx_IQK, bMaskDWord, 0x01004800);
++
++
++#if 1
++		for (i = 0 ; i < retryCount ; i++) {
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			PathS0_OK = phy_PathS0_IQK_8723D(pAdapter);
++#else
++			PathS0_OK = phy_PathS0_IQK_8723D(pDM_Odm);
++#endif
++
++		if (PathS0_OK == 0x01) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Path S0 Tx IQK Success!!\n"));
++				result[t][4] = (ODM_GetBBReg(pDM_Odm, 0xe94, bMaskDWord)&0x3FF0000)>>16;
++				result[t][5] = (ODM_GetBBReg(pDM_Odm, 0xe9c, bMaskDWord)&0x3FF0000)>>16;
++			break;
++		} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Path S0 Tx IQK Fail!!\n"));
++				result[t][4] = 0x100;
++				result[t][5] = 0x0;
++				cnt_IQKFail++;
++			}
++#if 0		
++		else if (i == (retryCount-1) && PathS1_OK == 0x01)	
++		{
++			RT_DISP(FINIT, INIT_IQK, ("Path S0 IQK Only  Tx Success!!\n"));
++			
++			result[t][0] = (ODM_GetBBReg(pDM_Odm, rTx_Power_Before_IQK_B, bMaskDWord)&0x3FF0000)>>16;
++			result[t][1] = (ODM_GetBBReg(pDM_Odm, rTx_Power_After_IQK_B, bMaskDWord)&0x3FF0000)>>16;			
++		}
++#endif		
++	}
++#endif
++
++
++#if 1
++
++for (i = 0 ; i < retryCount ; i++) {
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		PathS0_OK = phy_PathS0_RxIQK_8723D(pAdapter, is2T);
++#else
++		PathS0_OK = phy_PathS0_RxIQK_8723D(pDM_Odm, is2T);
++#endif
++		if (PathS0_OK == 0x03) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("Path S0 Rx IQK Success!!\n"));
++/*				result[t][0] = (ODM_GetBBReg(pDM_Odm, rTx_Power_Before_IQK_A, bMaskDWord)&0x3FF0000)>>16;*/
++/*				result[t][1] = (ODM_GetBBReg(pDM_Odm, rTx_Power_After_IQK_A, bMaskDWord)&0x3FF0000)>>16;*/
++				result[t][6] = (ODM_GetBBReg(pDM_Odm, 0xea4, bMaskDWord)&0x3FF0000)>>16;
++				result[t][7] = (ODM_GetBBReg(pDM_Odm, 0xeac, bMaskDWord)&0x3FF0000)>>16;
++			break;
++		} else {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Path S0 Rx IQK Fail!!\n"));	
++			result[t][6] = 0x100;
++			result[t][7] = 0x0;
++			cnt_IQKFail++;
++		}
++	}
++
++
++
++		if (0x00 == PathS0_OK)	
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Path S0 IQK failed!!\n"));		
++		
++#endif
++	}
++
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("IQK:Back to BB mode, load original value!\n"));
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);
++
++	if (t != 0) {
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++
++	 	
++	 	_PHY_ReloadADDARegisters_8723D(pAdapter, ADDA_REG, pDM_Odm->RFCalibrateInfo.ADDA_backup, IQK_ADDA_REG_NUM);
++
++		/* Reload MAC parameters*/
++		_PHY_ReloadMACRegisters_8723D(pAdapter, IQK_MAC_REG, pDM_Odm->RFCalibrateInfo.IQK_MAC_backup);
++		
++	 	_PHY_ReloadADDARegisters_8723D(pAdapter, IQK_BB_REG_92C, pDM_Odm->RFCalibrateInfo.IQK_BB_backup, IQK_BB_REG_NUM);
++#else
++	 	
++	 	_PHY_ReloadADDARegisters_8723D(pDM_Odm, ADDA_REG, pDM_Odm->RFCalibrateInfo.ADDA_backup, IQK_ADDA_REG_NUM);
++
++		/* Reload MAC parameters*/
++		_PHY_ReloadMACRegisters_8723D(pDM_Odm, IQK_MAC_REG, pDM_Odm->RFCalibrateInfo.IQK_MAC_backup);
++		
++	 	_PHY_ReloadADDARegisters_8723D(pDM_Odm, IQK_BB_REG_92C, pDM_Odm->RFCalibrateInfo.IQK_BB_backup, IQK_BB_REG_NUM);
++#endif
++		
++
++			ODM_SetBBReg(pDM_Odm, 0xc50, bMaskByte0, 0x50);
++			ODM_SetBBReg(pDM_Odm, 0xc50, bMaskByte0, tmp0xc50);
++			if (is2T) {
++				ODM_SetBBReg(pDM_Odm, 0xc58, bMaskByte0, 0x50);
++				ODM_SetBBReg(pDM_Odm, 0xc58, bMaskByte0, tmp0xc58);
++			}
++		
++		
++		ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_A, bMaskDWord, 0x01008c00);		
++		ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_A, bMaskDWord, 0x01008c00);				
++
++		
++	}
++
++	pDM_Odm->nIQK_Cnt++;
++	
++	if (cnt_IQKFail == 0)
++		pDM_Odm->nIQK_OK_Cnt++;
++	else
++		pDM_Odm->nIQK_Fail_Cnt = pDM_Odm->nIQK_Fail_Cnt + cnt_IQKFail;
++
++	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_IQCalibrate_8723D() <==\n"));
++	
++}
++
++
++VOID	
++phy_LCCalibrate_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PVOID		pDM_VOID,
++#else
++	IN PDM_ODM_T		pDM_Odm,
++#endif	
++	IN	BOOLEAN 	is2T
++	)
++{
++	u1Byte	tmpReg;
++	u4Byte	RF_Amode=0, RF_Bmode=0, LC_Cal, cnt;
++#if (DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif	
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	PADAPTER pAdapter = pDM_Odm->Adapter;
++#endif	
++
++
++	tmpReg = ODM_Read1Byte(pDM_Odm, 0xd03);
++
++	if ((tmpReg & 0x70) != 0)			
++		ODM_Write1Byte(pDM_Odm, 0xd03, tmpReg & 0x8F);	
++	else							
++		ODM_Write1Byte(pDM_Odm, REG_TXPAUSE, 0xFF);			
++
++	/*backup RF0x18*/
++
++	LC_Cal = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_CHNLBW, bRFRegOffsetMask);
++
++		
++	/*Start LCK*/
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_CHNLBW, bRFRegOffsetMask, LC_Cal | 0x08000);
++
++	for (cnt = 0; cnt < 100; cnt++) {
++	  if (ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_CHNLBW, 0x8000) != 0x1)
++	  	break;	
++	  ODM_delay_ms(10);
++	}
++
++	/* Recover channel number*/
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_CHNLBW, bRFRegOffsetMask, LC_Cal);	
++
++	/*Restore original situation*/	
++	if ((tmpReg & 0x70) != 0)  
++		ODM_Write1Byte(pDM_Odm, 0xd03, tmpReg);
++	else 
++		ODM_Write1Byte(pDM_Odm, REG_TXPAUSE, 0x00);		
++}
++
++
++#define		APK_BB_REG_NUM	8
++#define		APK_CURVE_REG_NUM 4
++#define		PATH_NUM		2
++
++VOID	
++phy_APCalibrate_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	s1Byte 		delta,
++	IN	BOOLEAN		is2T
++	)
++{
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++#endif
++	u4Byte 			regD[PATH_NUM];
++	u4Byte			tmpReg, index, offset,  apkbound;
++	u1Byte			path, i, pathbound = PATH_NUM;		
++	u4Byte			BB_backup[APK_BB_REG_NUM];
++	u4Byte			BB_REG[APK_BB_REG_NUM] = {	
++						rFPGA1_TxBlock, 	rOFDM0_TRxPathEnable, 
++						rFPGA0_RFMOD, 	rOFDM0_TRMuxPar, 
++						rFPGA0_XCD_RFInterfaceSW,	rFPGA0_XAB_RFInterfaceSW, 
++						rFPGA0_XA_RFInterfaceOE, 	rFPGA0_XB_RFInterfaceOE	};
++	u4Byte			BB_AP_MODE[APK_BB_REG_NUM] = {	
++						0x00000020, 0x00a05430, 0x02040000, 
++						0x000800e4, 0x00204000 };
++	u4Byte			BB_normal_AP_MODE[APK_BB_REG_NUM] = {	
++						0x00000020, 0x00a05430, 0x02040000, 
++						0x000800e4, 0x22204000 };						
++
++	u4Byte			AFE_backup[IQK_ADDA_REG_NUM];
++	u4Byte			AFE_REG[IQK_ADDA_REG_NUM] = {	
++						rFPGA0_XCD_SwitchControl, 	rBlue_Tooth, 	
++						rRx_Wait_CCA, 		rTx_CCK_RFON,
++						rTx_CCK_BBON, 	rTx_OFDM_RFON, 	
++						rTx_OFDM_BBON, 	rTx_To_Rx,
++						rTx_To_Tx, 		rRx_CCK, 	
++						rRx_OFDM, 		rRx_Wait_RIFS,
++						rRx_TO_Rx, 		rStandby, 	
++						rSleep, 			rPMPD_ANAEN };
++
++	u4Byte			MAC_backup[IQK_MAC_REG_NUM];
++	u4Byte			MAC_REG[IQK_MAC_REG_NUM] = {
++						REG_TXPAUSE, 		REG_BCN_CTRL,	
++						REG_BCN_CTRL_1,	REG_GPIO_MUXCFG};
++
++	u4Byte			APK_RF_init_value[PATH_NUM][APK_BB_REG_NUM] = {
++					{0x0852c, 0x1852c, 0x5852c, 0x1852c, 0x5852c},
++					{0x2852e, 0x0852e, 0x3852e, 0x0852e, 0x0852e}
++					};	
++
++	u4Byte			APK_normal_RF_init_value[PATH_NUM][APK_BB_REG_NUM] = {
++					{0x0852c, 0x0a52c, 0x3a52c, 0x5a52c, 0x5a52c},	
++					{0x0852c, 0x0a52c, 0x5a52c, 0x5a52c, 0x5a52c}
++					};
++	
++	u4Byte			APK_RF_value_0[PATH_NUM][APK_BB_REG_NUM] = {
++					{0x52019, 0x52014, 0x52013, 0x5200f, 0x5208d},
++					{0x5201a, 0x52019, 0x52016, 0x52033, 0x52050}
++					};
++
++	u4Byte			APK_normal_RF_value_0[PATH_NUM][APK_BB_REG_NUM] = {
++					{0x52019, 0x52017, 0x52010, 0x5200d, 0x5206a},	
++					{0x52019, 0x52017, 0x52010, 0x5200d, 0x5206a}
++					};
++
++	u4Byte			AFE_on_off[PATH_NUM] = {
++					0x04db25a4, 0x0b1b25a4};	
++
++	u4Byte			APK_offset[PATH_NUM] = {
++					rConfig_AntA, rConfig_AntB};
++
++	u4Byte			APK_normal_offset[PATH_NUM] = {
++					rConfig_Pmpd_AntA, rConfig_Pmpd_AntB};
++					
++	u4Byte			APK_value[PATH_NUM] = {
++					0x92fc0000, 0x12fc0000};					
++
++	u4Byte			APK_normal_value[PATH_NUM] = {
++					0x92680000, 0x12680000};					
++
++	s1Byte			APK_delta_mapping[APK_BB_REG_NUM][13] = {
++					{-4, -3, -2, -2, -1, -1, 0, 1, 2, 3, 4, 5, 6},
++					{-4, -3, -2, -2, -1, -1, 0, 1, 2, 3, 4, 5, 6},											
++					{-6, -4, -2, -2, -1, -1, 0, 1, 2, 3, 4, 5, 6},
++					{-1, -1, -1, -1, -1, -1, 0, 1, 2, 3, 4, 5, 6},
++					{-11, -9, -7, -5, -3, -1, 0, 0, 0, 0, 0, 0, 0}
++					};
++	
++	u4Byte			APK_normal_setting_value_1[13] = {
++					0x01017018, 0xf7ed8f84, 0x1b1a1816, 0x2522201e, 0x322e2b28,
++					0x433f3a36, 0x5b544e49, 0x7b726a62, 0xa69a8f84, 0xdfcfc0b3,
++					0x12680000, 0x00880000, 0x00880000
++					};
++
++	u4Byte			APK_normal_setting_value_2[16] = {
++					0x01c7021d, 0x01670183, 0x01000123, 0x00bf00e2, 0x008d00a3,
++					0x0068007b, 0x004d0059, 0x003a0042, 0x002b0031, 0x001f0025,
++					0x0017001b, 0x00110014, 0x000c000f, 0x0009000b, 0x00070008,
++					0x00050006
++					};
++	
++	u4Byte			APK_result[PATH_NUM][APK_BB_REG_NUM];	
++/*	u4Byte			AP_curve[PATH_NUM][APK_CURVE_REG_NUM];*/
++
++	s4Byte			BB_offset, delta_V, delta_offset;
++
++#if MP_DRIVER == 1
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);	
++#else
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->MptCtx);	
++#endif
++	pMptCtx->APK_bound[0] = 45;
++	pMptCtx->APK_bound[1] = 52;		
++
++#endif
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("==>phy_APCalibrate_8723D() delta %d\n", delta));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("AP Calibration for %s\n", (is2T ? "2T2R" : "1T1R")));
++	if (!is2T)
++		pathbound = 1;
++
++	
++
++/* Temporarily do not allow normal driver to do the following settings because these offset
++// and value will cause RF internal PA to be unpredictably disabled by HW, such that RF Tx signal
++// will disappear after disable/enable card many times on 88CU. RF SD and DD have not find the
++// root cause, so we remove these actions temporarily. Added by tynli and SD3 Allen. 2010.05.31.*/
++#if MP_DRIVER != 1
++	return;
++#endif
++	
++	for (index = 0; index < PATH_NUM; index++) {
++		APK_offset[index] = APK_normal_offset[index];
++		APK_value[index] = APK_normal_value[index];
++		AFE_on_off[index] = 0x6fdb25a4;
++	}
++
++	for (index = 0; index < APK_BB_REG_NUM; index++) {
++		for (path = 0; path < pathbound; path++) {
++			APK_RF_init_value[path][index] = APK_normal_RF_init_value[path][index];
++			APK_RF_value_0[path][index] = APK_normal_RF_value_0[path][index];
++		}
++		BB_AP_MODE[index] = BB_normal_AP_MODE[index];
++	}			
++
++	apkbound = 6;
++	
++	
++	for (index = 0; index < APK_BB_REG_NUM ; index++) {
++		if (index == 0)		
++			continue;				
++		BB_backup[index] = ODM_GetBBReg(pDM_Odm, BB_REG[index], bMaskDWord);
++	}
++	
++													
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	_PHY_SaveMACRegisters_8723D(pAdapter, MAC_REG, MAC_backup);
++	
++	
++	_PHY_SaveADDARegisters_8723D(pAdapter, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);
++#else
++	_PHY_SaveMACRegisters_8723D(pDM_Odm, MAC_REG, MAC_backup);
++	
++	
++	_PHY_SaveADDARegisters_8723D(pDM_Odm, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);
++#endif
++
++	for (path = 0; path < pathbound; path++) {
++
++
++		if (path == ODM_RF_PATH_A) {
++					
++			offset = rPdp_AntA;
++			for (index = 0; index < 11; index++) {
++				ODM_SetBBReg(pDM_Odm, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8723D() offset 0x%x value 0x%x\n", offset, ODM_GetBBReg(pDM_Odm, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}
++			
++			ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x12680000);
++			
++			offset = rConfig_AntA;
++			for (; index < 13; index++) {
++				ODM_SetBBReg(pDM_Odm, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8723D() offset 0x%x value 0x%x\n", offset, ODM_GetBBReg(pDM_Odm, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}	
++			
++			
++			ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x400000);
++		
++			
++			offset = rPdp_AntA;
++			for (index = 0; index < 16; index++) {
++				ODM_SetBBReg(pDM_Odm, offset, bMaskDWord, APK_normal_setting_value_2[index]);		
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8723D() offset 0x%x value 0x%x\n", offset, ODM_GetBBReg(pDM_Odm, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}				
++			ODM_SetBBReg(pDM_Odm,  rFPGA0_IQK, 0xffffff00, 0x000000);							
++		} else if (path == ODM_RF_PATH_B) {
++				
++			offset = rPdp_AntB;
++			for (index = 0; index < 10; index++) {
++				ODM_SetBBReg(pDM_Odm, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8723D() offset 0x%x value 0x%x\n", offset, ODM_GetBBReg(pDM_Odm, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}
++			ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntA, bMaskDWord, 0x12680000);			
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			PHY_SetBBReg(pAdapter, rConfig_Pmpd_AntB, bMaskDWord, 0x12680000);
++#else
++			PHY_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x12680000);
++#endif
++			
++			offset = rConfig_AntA;
++			index = 11;
++			for (; index < 13; index++) {
++				ODM_SetBBReg(pDM_Odm, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("phy_APCalibrate_8723D() offset 0x%x value 0x%x\n", offset, ODM_GetBBReg(pDM_Odm, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}	
++			
++			
++			ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x400000);
++			
++			
++			offset = 0xb60;
++			for (index = 0; index < 16; index++) {
++				ODM_SetBBReg(pDM_Odm, offset, bMaskDWord, APK_normal_setting_value_2[index]);		
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("phy_APCalibrate_8723D() offset 0x%x value 0x%x\n", offset, ODM_GetBBReg(pDM_Odm, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}				
++			ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);							
++		}
++	
++		
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		regD[path] = PHY_QueryRFReg(pAdapter, path, RF_TXBIAS_A, bMaskDWord);
++#else
++		regD[path] = ODM_GetRFReg(pDM_Odm, path, RF_TXBIAS_A, bMaskDWord);
++#endif
++		
++		
++		for (index = 0; index < IQK_ADDA_REG_NUM ; index++)
++			ODM_SetBBReg(pDM_Odm, AFE_REG[index], bMaskDWord, AFE_on_off[path]);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8723D() offset 0xe70 %x\n", ODM_GetBBReg(pDM_Odm, rRx_Wait_CCA, bMaskDWord)));		
++
++		
++		if (path == 0) {				
++			for (index = 0; index < APK_BB_REG_NUM ; index++) {
++
++				if (index == 0)		
++					continue;			
++				else if (index < 5)
++				ODM_SetBBReg(pDM_Odm, BB_REG[index], bMaskDWord, BB_AP_MODE[index]);
++				else if (BB_REG[index] == 0x870)
++					ODM_SetBBReg(pDM_Odm, BB_REG[index], bMaskDWord, BB_backup[index]|BIT10|BIT26);
++				else
++					ODM_SetBBReg(pDM_Odm, BB_REG[index], BIT10, 0x0);					
++			}
++
++			ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_A, bMaskDWord, 0x01008c00);			
++			ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_A, bMaskDWord, 0x01008c00);					
++		} else {
++			ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_B, bMaskDWord, 0x01008c00);			
++			ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_B, bMaskDWord, 0x01008c00);					
++		
++		}
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8723D() offset 0x800 %x\n", ODM_GetBBReg(pDM_Odm, 0x800, bMaskDWord)));				
++
++		
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		_PHY_MACSettingCalibration_8723D(pAdapter, MAC_REG, MAC_backup);
++#else
++		_PHY_MACSettingCalibration_8723D(pDM_Odm, MAC_REG, MAC_backup);
++#endif
++		
++		if (path == ODM_RF_PATH_A) {
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_AC, bMaskDWord, 0x10000);			
++		} else {
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_AC, bMaskDWord, 0x10000);			
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_MODE1, bMaskDWord, 0x1000f);			
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_MODE2, bMaskDWord, 0x20103);						
++		}
++
++		delta_offset = ((delta+14)/2);
++		if (delta_offset < 0)
++			delta_offset = 0;
++		else if (delta_offset > 12)
++			delta_offset = 12;
++			
++		
++		for (index = 0; index < APK_BB_REG_NUM; index++) {
++			if (index != 1)	
++				continue;
++					
++			tmpReg = APK_RF_init_value[path][index];
++#if 1			
++			if (!pDM_Odm->RFCalibrateInfo.bAPKThermalMeterIgnore) {
++				BB_offset = (tmpReg & 0xF0000) >> 16;
++
++				if (!(tmpReg & BIT15)) {
++					BB_offset = -BB_offset;
++				}
++
++				delta_V = APK_delta_mapping[index][delta_offset];
++				
++				BB_offset += delta_V;
++
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8723D() APK index %d tmpReg 0x%x delta_V %d delta_offset %d\n", index, tmpReg, delta_V, delta_offset));		
++				
++				if (BB_offset < 0) {
++					tmpReg = tmpReg & (~BIT15);
++					BB_offset = -BB_offset;
++				} else {
++					tmpReg = tmpReg | BIT15;
++				}
++				tmpReg = (tmpReg & 0xFFF0FFFF) | (BB_offset << 16);
++			}
++#endif
++
++			ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)path, RF_IPA_A, bMaskDWord, 0x8992e);
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8723D() offset 0xc %x\n", PHY_QueryRFReg(pAdapter, path, RF_IPA_A, bMaskDWord)));		
++			ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)path, RF_AC, bMaskDWord, APK_RF_value_0[path][index]);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("phy_APCalibrate_8723D() offset 0x0 %x\n", PHY_QueryRFReg(pAdapter, path, RF_AC, bMaskDWord)));		
++			ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)path, RF_TXBIAS_A, bMaskDWord, tmpReg);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8723D() offset 0xd %x\n", PHY_QueryRFReg(pAdapter, path, RF_TXBIAS_A, bMaskDWord)));					
++#else
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8723D() offset 0xc %x\n", ODM_GetRFReg(pDM_Odm, path, RF_IPA_A, bMaskDWord)));		
++			ODM_SetRFReg(pDM_Odm, path, RF_AC, bMaskDWord, APK_RF_value_0[path][index]);
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("phy_APCalibrate_8723D() offset 0x0 %x\n", ODM_GetRFReg(pDM_Odm, path, RF_AC, bMaskDWord)));		
++			ODM_SetRFReg(pDM_Odm, path, RF_TXBIAS_A, bMaskDWord, tmpReg);
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8723D() offset 0xd %x\n", ODM_GetRFReg(pDM_Odm, path, RF_TXBIAS_A, bMaskDWord)));					
++#endif
++			
++				
++			i = 0;
++			do
++			{
++				ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x800000);
++				{
++					ODM_SetBBReg(pDM_Odm, APK_offset[path], bMaskDWord, APK_value[0]);		
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8723D() offset 0x%x value 0x%x\n", APK_offset[path], ODM_GetBBReg(pDM_Odm, APK_offset[path], bMaskDWord)));
++					ODM_delay_ms(3);				
++					ODM_SetBBReg(pDM_Odm, APK_offset[path], bMaskDWord, APK_value[1]);
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8723D() offset 0x%x value 0x%x\n", APK_offset[path], ODM_GetBBReg(pDM_Odm, APK_offset[path], bMaskDWord)));
++
++					ODM_delay_ms(20);
++				}
++				ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);
++
++				if (path == ODM_RF_PATH_A)
++					tmpReg = ODM_GetBBReg(pDM_Odm, rAPK, 0x03E00000);
++				else
++					tmpReg = ODM_GetBBReg(pDM_Odm, rAPK, 0xF8000000);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8723D() offset 0xbd8[25:21] %x\n", tmpReg));		
++				
++
++				i++;
++			}
++			while(tmpReg > apkbound && i < 4);
++
++			APK_result[path][index] = tmpReg;
++		}
++	}
++
++		
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	_PHY_ReloadMACRegisters_8723D(pAdapter, MAC_REG, MAC_backup);
++#else
++	_PHY_ReloadMACRegisters_8723D(pDM_Odm, MAC_REG, MAC_backup);
++#endif
++	
++	
++	for (index = 0; index < APK_BB_REG_NUM ; index++) {
++
++		if (index == 0)		
++			continue;					
++		ODM_SetBBReg(pDM_Odm, BB_REG[index], bMaskDWord, BB_backup[index]);
++	}
++
++	
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	_PHY_ReloadADDARegisters_8723D(pAdapter, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);
++#else
++	_PHY_ReloadADDARegisters_8723D(pDM_Odm, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);
++#endif
++
++	
++	for (path = 0; path < pathbound; path++)
++	{
++		ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)path, 0xd, bMaskDWord, regD[path]);
++		if (path == ODM_RF_PATH_B) {
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_MODE1, bMaskDWord, 0x1000f);			
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_MODE2, bMaskDWord, 0x20101);						
++		}
++
++		
++		if (APK_result[path][1] > 6)
++			APK_result[path][1] = 6;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("apk path %d result %d 0x%x \t", path, 1, APK_result[path][1]));					
++	}
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("\n"));
++	
++
++	for (path = 0; path < pathbound; path++) {
++		ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)path, 0x3, bMaskDWord, 
++		((APK_result[path][1] << 15) | (APK_result[path][1] << 10) | (APK_result[path][1] << 5) | APK_result[path][1]));
++		if (path == ODM_RF_PATH_A)
++			ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)path, 0x4, bMaskDWord, 
++			((APK_result[path][1] << 15) | (APK_result[path][1] << 10) | (0x00 << 5) | 0x05));		
++		else
++		ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)path, 0x4, bMaskDWord, 
++			((APK_result[path][1] << 15) | (APK_result[path][1] << 10) | (0x02 << 5) | 0x05));						
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		if (!IS_HARDWARE_TYPE_8723A(pAdapter))		
++			ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)path, RF_BS_PA_APSET_G9_G11, bMaskDWord, 
++			((0x08 << 15) | (0x08 << 10) | (0x08 << 5) | 0x08));			
++#endif		
++	}
++
++	pDM_Odm->RFCalibrateInfo.bAPKdone = TRUE;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<==phy_APCalibrate_8723D()\n"));
++}
++
++
++
++#define		DP_BB_REG_NUM		7
++#define		DP_RF_REG_NUM		1
++#define		DP_RETRY_LIMIT		10
++#define		DP_PATH_NUM		2
++#define		DP_DPK_NUM			3
++#define		DP_DPK_VALUE_NUM	2
++
++
++
++
++
++VOID
++PHY_IQCalibrate_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	BOOLEAN 	bReCovery
++	)
++{
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);	
++
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;	
++	#else  
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;	
++	#endif
++
++	#if (MP_DRIVER == 1)
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->MptCtx);	
++	#else
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);		
++	#endif	
++	#endif
++#endif	
++
++
++	u1Byte			u1bTmp;
++	u2Byte			count = 0;
++	s4Byte			result[4][8];	
++	u1Byte			i, final_candidate, Indexforchannel;
++	BOOLEAN			bPathS1_OK, bPathS0_OK;
++	s4Byte			RegE94_S1, RegE9C_S1, RegEA4_S1, RegEAC_S1, RegE94_S0, RegE9C_S0, RegEA4_S0, RegEAC_S0, RegTmp = 0;
++	s4Byte			RegC80, RegC94, RegC14, RegCA0, RegCd0, RegCd4, RegCd8;
++	BOOLEAN			is12simular, is13simular, is23simular;	
++	BOOLEAN 		bSingleTone = FALSE, bCarrierSuppression = FALSE, bContinousTx = FALSE;
++	u4Byte			IQK_BB_REG_92C[IQK_BB_REG_NUM] = {
++					rOFDM0_XARxIQImbalance, 	rOFDM0_XBRxIQImbalance, 
++					rOFDM0_ECCAThreshold, 	rOFDM0_AGCRSSITable,
++					rOFDM0_XATxIQImbalance, 	rOFDM0_XBTxIQImbalance, 
++					rOFDM0_XCTxAFE, 			rOFDM0_XDTxAFE, 
++					rOFDM0_RxIQExtAnta};
++	u4Byte			Path_SEL_BB_phyIQK;
++	u4Byte 			originalPath, originalGNT, oriPathCtrl;
++#if 1
++ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("================ IQK Start ===================\n"));
++
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE) )
++	if (ODM_CheckPowerStatus(pAdapter) == FALSE)
++		return;
++#else
++	prtl8192cd_priv	priv = pDM_Odm->priv;
++
++#ifdef MP_TEST
++	if (priv->pshare->rf_ft_var.mp_specific) {
++		if ((OPMODE & WIFI_MP_CTX_PACKET) || (OPMODE & WIFI_MP_CTX_ST))
++			return;
++	}
++#endif
++
++	if (priv->pshare->IQK_88E_done)
++		bReCovery= 1;
++	priv->pshare->IQK_88E_done = 1;
++
++#endif	
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	if (!(pDM_Odm->SupportAbility & ODM_RF_CALIBRATION)) {
++		return;
++	}
++#endif		
++
++
++#if MP_DRIVER == 1
++
++/*#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)*/
++		/* <VincentL, 131231> Add to determine IQK ON/OFF in certain case, Suggested by Cheng.*/
++	/*	if (!pHalData->IQK_MP_Switch)
++			return;*/
++/*#endif*/
++		
++		bSingleTone = pMptCtx->bSingleTone;
++		bCarrierSuppression = pMptCtx->bCarrierSuppression;
++		bContinousTx = pMptCtx->bStartContTx;
++#endif
++
++		/* 20120213<Kordan> Turn on when continuous Tx to pass lab testing. (required by Edlu)*/
++		if (bSingleTone || bCarrierSuppression || bContinousTx)
++			return;
++
++	
++
++#if DISABLE_BB_RF
++	return;
++#endif
++
++	if (pDM_Odm->RFCalibrateInfo.bIQKInProgress)
++		return;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("=====>PHY_IQCalibrate_8723D\n"));
++
++	
++	Path_SEL_BB_phyIQK = ODM_GetBBReg(pDM_Odm, 0x948, bMaskDWord);
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_AP))
++	if (bReCovery)
++#else
++	if (bReCovery && (!pAdapter->bInHctTest))  
++#endif
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("PHY_IQCalibrate_8723D: Return due to bReCovery!\n"));
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		_PHY_ReloadADDARegisters_8723D(pAdapter, IQK_BB_REG_92C, pDM_Odm->RFCalibrateInfo.IQK_BB_backup_recover, 9);
++#else
++		_PHY_ReloadADDARegisters_8723D(pDM_Odm, IQK_BB_REG_92C, pDM_Odm->RFCalibrateInfo.IQK_BB_backup_recover, 9);
++#endif
++		return;
++	}
++
++	/*Check & wait if BT is doing IQK*/
++
++	if (pDM_Odm->mp_mode == FALSE) {
++#if MP_DRIVER != 1
++		SetFwWiFiCalibrationCmd_8723D(pAdapter, 1);
++
++		
++		count = 0;
++		u1bTmp = PlatformEFIORead1Byte(pAdapter, 0x1e6);
++		while (u1bTmp != 0x1 && count < 1000) {
++			PlatformStallExecution(10);
++			u1bTmp = PlatformEFIORead1Byte(pAdapter, 0x1e6);
++			count++;
++		}
++		if (count >= 1000) {
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, ("[IQK]Polling 0x1e6 to 1 for WiFi calibration H2C cmd FAIL! count(%d)", count));
++		}
++
++		
++		u1bTmp = PlatformEFIORead1Byte(pAdapter, 0x1e7);
++		while ((!(u1bTmp&BIT0)) && count < 6000) {
++			PlatformStallExecution(50);
++			u1bTmp = PlatformEFIORead1Byte(pAdapter, 0x1e7);
++			count++;
++		}
++#endif
++	}
++
++	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("IQK:Start!!!\n"));
++	ODM_AcquireSpinLock(pDM_Odm, RT_IQK_SPINLOCK);
++	pDM_Odm->RFCalibrateInfo.bIQKInProgress = TRUE;
++	ODM_ReleaseSpinLock(pDM_Odm, RT_IQK_SPINLOCK);
++
++	for (i = 0; i < 8; i++) {  
++		result[0][i] = 0;
++		result[1][i] = 0;
++		result[2][i] = 0;
++		result[3][i] = 0;
++	}
++	
++	final_candidate = 0xff;
++	bPathS1_OK = FALSE;
++	bPathS0_OK = FALSE;
++	is12simular = FALSE;
++	is23simular = FALSE;
++	is13simular = FALSE;
++
++for (i = 0; i < 3; i++) {
++
++#if 1
++	/*set path control to WL*/
++	oriPathCtrl = ODM_GetMACReg(pDM_Odm, 0x64, bMaskByte3);  /*save 0x67*/
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]original 0x67 = 0x%x\n", oriPathCtrl));
++	ODM_SetMACReg(pDM_Odm, 0x64, BIT31, 0x1);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]set 0x67 = 0x%x\n", ODM_GetMACReg(pDM_Odm, 0x64, bMaskByte3)));
++	
++	/*backup Path & GNT value */
++	originalPath = ODM_GetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, bMaskDWord);  /*save 0x70*/
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0x800f0038);
++	ODM_delay_ms(1);
++	originalGNT = ODM_GetBBReg(pDM_Odm, REG_LTECOEX_READ_DATA, bMaskDWord);  /*save 0x38*/
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]OriginalGNT = 0x%x\n", originalGNT));
++	
++	/*set GNT_WL=1/GNT_BT=1  and Path owner to WiFi for pause BT traffic*/
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_WRITE_DATA, bMaskDWord, 0x0000ff00);
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0xc0020038);	/*0x38[15:8] = 0x77*/
++	ODM_SetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, BIT26, 0x1);
++#endif
++
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	
++			phy_IQCalibrate_8723D(pAdapter, result, i, TRUE);
++#else
++			phy_IQCalibrate_8723D(pDM_Odm, result, i, TRUE);
++#endif			
++
++#if 1
++	/*Restore GNT_WL/GNT_BT  and Path owner*/
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_WRITE_DATA, bMaskDWord, originalGNT);
++	ODM_SetBBReg(pDM_Odm, REG_LTECOEX_CTRL, bMaskDWord, 0xc00f0038);
++	ODM_SetMACReg(pDM_Odm, REG_LTECOEX_PATH_CONTROL, 0xffffffff, originalPath);
++
++	/*Restore path control owner*/
++	ODM_SetMACReg(pDM_Odm, 0x64, bMaskByte3, oriPathCtrl);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]restore 0x67 = 0x%x\n", ODM_GetMACReg(pDM_Odm, 0x64, bMaskByte3)));
++#endif
++		
++		if (i == 1) {
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			is12simular = phy_SimularityCompare_8723D(pAdapter, result, 0, 1);
++#else
++			is12simular = phy_SimularityCompare_8723D(pDM_Odm, result, 0, 1);
++#endif		
++			
++			if (is12simular) {
++				final_candidate = 0;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("IQK: is12simular final_candidate is %x\n",final_candidate));				
++				break;
++			}
++		}
++			
++		if (i == 2) {
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			is13simular = phy_SimularityCompare_8723D(pAdapter, result, 0, 2);
++#else
++			is13simular = phy_SimularityCompare_8723D(pDM_Odm, result, 0, 2);
++#endif			
++
++			if (is13simular) {
++				final_candidate = 0;			
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("IQK: is13simular final_candidate is %x\n",final_candidate));
++				
++				break;
++			}
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			is23simular = phy_SimularityCompare_8723D(pAdapter, result, 1, 2);
++#else
++			is23simular = phy_SimularityCompare_8723D(pDM_Odm, result, 1, 2);
++#endif			
++
++			if (is23simular) {
++				final_candidate = 1;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("IQK: is23simular final_candidate is %x\n",final_candidate));				
++			} else {
++				for (i = 0; i < 8; i++)
++					RegTmp += result[3][i];
++				
++					if (RegTmp != 0)
++						final_candidate = 3;
++					else
++						final_candidate = 0xFF;
++
++			}
++		}
++	}
++	
++
++
++	for (i = 0; i < 4; i++) {
++		RegE94_S1 = result[i][0];
++		RegE9C_S1 = result[i][1];
++		RegEA4_S1 = result[i][2];
++		RegEAC_S1 = result[i][3];
++		RegE94_S0 = result[i][4];
++		RegE9C_S0 = result[i][5];
++		RegEA4_S0 = result[i][6];
++		RegEAC_S0 = result[i][7];
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK] RegE94_S1=%x RegE9C_S1=%x RegEA4_S1=%x RegEAC_S1=%x RegE94_S0=%x RegE9C_S0=%x RegEA4_S0=%x RegEAC_S0=%x\n ", RegE94_S1, RegE9C_S1, RegEA4_S1, RegEAC_S1, RegE94_S0, RegE9C_S0, RegEA4_S0, RegEAC_S0));
++	}
++	
++	if (final_candidate != 0xff) {
++		pDM_Odm->RFCalibrateInfo.RegE94 = RegE94_S1 = result[final_candidate][0];
++		pDM_Odm->RFCalibrateInfo.RegE9C = RegE9C_S1 = result[final_candidate][1];
++		RegEA4_S1 = result[final_candidate][2];
++		RegEAC_S1 = result[final_candidate][3];
++		pDM_Odm->RFCalibrateInfo.RegEB4 = RegE94_S0 = result[final_candidate][4];
++		pDM_Odm->RFCalibrateInfo.RegEBC = RegE9C_S0 = result[final_candidate][5];
++		RegEA4_S0 = result[final_candidate][6];
++		RegEAC_S0 = result[final_candidate][7];
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("[IQK] final_candidate is %x\n", final_candidate));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("[IQK] TX1_X=%x TX1_Y=%x RX1_X=%x RX1_Y=%x TX0_X=%x TX0_Y=%x RX0_X=%x RX0_Y=%x\n ", RegE94_S1, RegE9C_S1, RegEA4_S1, RegEAC_S1, RegE94_S0, RegE9C_S0, RegEA4_S0, RegEAC_S0));
++		bPathS1_OK = bPathS0_OK = TRUE;
++	} else {
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("[IQK] FAIL use default value\n"));
++	
++		pDM_Odm->RFCalibrateInfo.RegE94 = pDM_Odm->RFCalibrateInfo.RegEB4 = 0x100;	
++		pDM_Odm->RFCalibrateInfo.RegE9C = pDM_Odm->RFCalibrateInfo.RegEBC = 0x0;	
++	}
++
++	
++	if (RegE94_S1 != 0)
++		_PHY_PathS1FillIQKMatrix_8723D(pAdapter, bPathS1_OK, result, final_candidate, (RegEA4_S1 == 0));
++	if (RegE94_S0 != 0)
++		_PHY_PathS0FillIQKMatrix_8723D(pAdapter, bPathS0_OK, result, final_candidate, (RegEA4_S0 == 0));
++
++	
++	RegC80 = ODM_GetBBReg(pDM_Odm, 0xc80, bMaskDWord);
++	RegC94 = ODM_GetBBReg(pDM_Odm, 0xc94, bMaskDWord);
++	RegC14 = ODM_GetBBReg(pDM_Odm, 0xc14, bMaskDWord);
++	RegCA0 = ODM_GetBBReg(pDM_Odm, 0xca0, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xc80 = 0x%x 0xc94 = 0x%x 0xc14 = 0x%x 0xca0 = 0x%x\n", RegC80, RegC94, RegC14, RegCA0));
++
++	
++	RegCd0 = ODM_GetBBReg(pDM_Odm, 0xcd0, bMaskDWord);
++	RegCd4 = ODM_GetBBReg(pDM_Odm, 0xcd4, bMaskDWord);
++	RegCd8 = ODM_GetBBReg(pDM_Odm, 0xcd8, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("[IQK]0xcd0 = 0x%x 0xcd4 = 0x%x 0xcd8 = 0x%x\n", RegCd0, RegCd4, RegCd8));
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++    Indexforchannel = ODM_GetRightChnlPlaceforIQK(pHalData->CurrentChannel);
++#else
++	Indexforchannel = 0;
++#endif
++
++
++	if (final_candidate < 4) {
++		for (i = 0; i < IQK_Matrix_REG_NUM; i++)
++			pDM_Odm->RFCalibrateInfo.IQKMatrixRegSetting[Indexforchannel].Value[0][i] = result[final_candidate][i];
++			pDM_Odm->RFCalibrateInfo.IQKMatrixRegSetting[Indexforchannel].bIQKDone = TRUE;		
++	}
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("\nIQK OK Indexforchannel %d.\n", Indexforchannel));
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++
++	_PHY_SaveADDARegisters_8723D(pAdapter, IQK_BB_REG_92C, pDM_Odm->RFCalibrateInfo.IQK_BB_backup_recover, 9);
++#else
++	_PHY_SaveADDARegisters_8723D(pDM_Odm, IQK_BB_REG_92C, pDM_Odm->RFCalibrateInfo.IQK_BB_backup_recover, IQK_BB_REG_NUM);
++#endif	
++
++	if (pDM_Odm->mp_mode == FALSE) {
++#if MP_DRIVER != 1
++		SetFwWiFiCalibrationCmd_8723D(pAdapter, 0);
++		
++		
++		count = 0;
++		u1bTmp = PlatformEFIORead1Byte(pAdapter, 0x1e6);
++		while (u1bTmp != 0 && count < 1000) {
++			PlatformStallExecution(10);
++			u1bTmp = PlatformEFIORead1Byte(pAdapter, 0x1e6);
++			count++;
++		}
++		
++		if (count >= 1000) {
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, ("[IQK]Polling 0x1e6 to 0 for WiFi calibration H2C cmd FAIL! count(%d)", count));
++		}
++#endif
++	}
++
++	ODM_AcquireSpinLock(pDM_Odm, RT_IQK_SPINLOCK);
++	pDM_Odm->RFCalibrateInfo.bIQKInProgress = FALSE;
++	ODM_ReleaseSpinLock(pDM_Odm, RT_IQK_SPINLOCK);
++
++	
++	ODM_SetBBReg(pDM_Odm, 0x948, bMaskDWord, Path_SEL_BB_phyIQK);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("IQK finished\n"));
++#endif
++
++}
++
++
++VOID
++PHY_LCCalibrate_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PVOID		pDM_VOID
++#else
++	IN PDM_ODM_T		pDM_Odm
++#endif
++	)
++{
++	BOOLEAN 		bSingleTone = FALSE, bCarrierSuppression = FALSE;
++	u4Byte			timeout = 2000, timecount = 0;
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	PADAPTER  		pAdapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);	
++
++	#if (MP_DRIVER == 1)
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->MptCtx);	
++	#else
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);		
++	#endif	
++	#endif
++#endif	
++
++#if MP_DRIVER == 1	
++	bSingleTone = pMptCtx->bSingleTone;
++	bCarrierSuppression = pMptCtx->bCarrierSuppression;	
++#endif
++
++
++#if DISABLE_BB_RF
++	return;
++#endif
++
++
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	if (!(pDM_Odm->SupportAbility & ODM_RF_CALIBRATION)) {
++		return;
++	}
++#endif	
++	
++	if (bSingleTone || bCarrierSuppression)
++		return;
++
++	while(*(pDM_Odm->pbScanInProcess) && timecount < timeout)
++	{
++		ODM_delay_ms(50);
++		timecount += 50;
++	}	
++	
++	pDM_Odm->RFCalibrateInfo.bLCKInProgress = TRUE;
++
++	phy_LCCalibrate_8723D(pDM_Odm, FALSE);
++
++	pDM_Odm->RFCalibrateInfo.bLCKInProgress = FALSE;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("LCK:Finish!!!interface %d\n", pDM_Odm->InterfaceIndex));
++
++}
++
++VOID
++PHY_APCalibrate_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	s1Byte 		delta	
++	)
++{
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++#endif	
++#if DISABLE_BB_RF
++	return;
++#endif
++
++	return;
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	if (!(pDM_Odm->SupportAbility & ODM_RF_CALIBRATION)) {
++		return;
++	}
++#endif	
++
++#if FOR_BRAZIL_PRETEST != 1
++	if (pDM_Odm->RFCalibrateInfo.bAPKdone)
++#endif		
++		return;
++
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		phy_APCalibrate_8723D(pAdapter, delta, FALSE);
++#else
++		phy_APCalibrate_8723D(pDM_Odm, delta, FALSE);
++#endif
++	}
++VOID phy_SetRFPathSwitch_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	BOOLEAN		bMain,
++	IN	BOOLEAN		is2T
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++
++	if (bMain) {	
++		ODM_SetMACReg(pDM_Odm, 0x7C4, bMaskLWord, 0x7700);	
++	} else {		
++		ODM_SetMACReg(pDM_Odm, 0x7C4, bMaskLWord, 0xDD00);	
++	}
++	
++	ODM_SetMACReg(pDM_Odm, 0x7C0, bMaskDWord, 0xC00F0038);
++	ODM_SetMACReg(pDM_Odm, 0x70, BIT26, 1);
++	ODM_SetMACReg(pDM_Odm, 0x64, BIT31, 1);
++}
++
++VOID PHY_SetRFPathSwitch_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	BOOLEAN		bMain
++	)
++{
++HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++		PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++	
++#if DISABLE_BB_RF
++	return;
++#endif
++	
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		phy_SetRFPathSwitch_8723D(pAdapter, bMain, TRUE);
++#endif	
++
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++VOID	
++phy_DigitalPredistortion_8723D(
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PADAPTER	pAdapter,
++#else
++	IN PDM_ODM_T	pDM_Odm,
++#endif
++	IN	BOOLEAN		is2T
++	)
++{
++#if (RT_PLATFORM == PLATFORM_WINDOWS)
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++#endif	
++
++	u4Byte			tmpReg, tmpReg2, index,  i;		
++	u1Byte			path, pathbound = PATH_NUM;
++	u4Byte			AFE_backup[IQK_ADDA_REG_NUM];
++	u4Byte			AFE_REG[IQK_ADDA_REG_NUM] = {	
++						rFPGA0_XCD_SwitchControl, 	rBlue_Tooth, 	
++						rRx_Wait_CCA, 		rTx_CCK_RFON,
++						rTx_CCK_BBON, 	rTx_OFDM_RFON, 	
++						rTx_OFDM_BBON, 	rTx_To_Rx,
++						rTx_To_Tx, 		rRx_CCK, 	
++						rRx_OFDM, 		rRx_Wait_RIFS,
++						rRx_TO_Rx, 		rStandby, 	
++						rSleep, 			rPMPD_ANAEN };
++
++	u4Byte			BB_backup[DP_BB_REG_NUM];	
++	u4Byte			BB_REG[DP_BB_REG_NUM] = {
++						rOFDM0_TRxPathEnable, rFPGA0_RFMOD, 
++						rOFDM0_TRMuxPar, 	rFPGA0_XCD_RFInterfaceSW,
++						rFPGA0_XAB_RFInterfaceSW, rFPGA0_XA_RFInterfaceOE, 
++						rFPGA0_XB_RFInterfaceOE};						
++	u4Byte			BB_settings[DP_BB_REG_NUM] = {
++						0x00a05430, 0x02040000, 0x000800e4, 0x22208000, 
++						0x0, 0x0, 0x0};	
++
++	u4Byte			RF_backup[DP_PATH_NUM][DP_RF_REG_NUM];
++	u4Byte			RF_REG[DP_RF_REG_NUM] = {
++						RF_TXBIAS_A};
++
++	u4Byte			MAC_backup[IQK_MAC_REG_NUM];
++	u4Byte			MAC_REG[IQK_MAC_REG_NUM] = {
++						REG_TXPAUSE, 		REG_BCN_CTRL,	
++						REG_BCN_CTRL_1,	REG_GPIO_MUXCFG};
++
++	u4Byte			Tx_AGC[DP_DPK_NUM][DP_DPK_VALUE_NUM] = {
++						{0x1e1e1e1e, 0x03901e1e},
++						{0x18181818, 0x03901818},
++						{0x0e0e0e0e, 0x03900e0e}
++					};
++
++	u4Byte			AFE_on_off[PATH_NUM] = {
++					0x04db25a4, 0x0b1b25a4};	
++
++	u1Byte			RetryCount = 0;
++
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("==>phy_DigitalPredistortion_8723D()\n"));
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_DigitalPredistortion_8723D for %s\n", (is2T ? "2T2R" : "1T1R")));
++
++	
++	for (index = 0; index < DP_BB_REG_NUM; index++)
++		BB_backup[index] = ODM_GetBBReg(pDM_Odm, BB_REG[index], bMaskDWord);
++
++	
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	_PHY_SaveMACRegisters_8723D(pAdapter, BB_REG, MAC_backup);
++#else
++	_PHY_SaveMACRegisters_8723D(pDM_Odm, BB_REG, MAC_backup);
++#endif	
++
++	
++	for (path = 0; path < DP_PATH_NUM; path++) {
++		for (index = 0; index < DP_RF_REG_NUM; index++)
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			RF_backup[path][index] = PHY_QueryRFReg(pAdapter, path, RF_REG[index], bMaskDWord);	
++#else
++			RF_backup[path][index] = ODM_GetRFReg(pAdapter, path, RF_REG[index], bMaskDWord);	
++#endif	
++	}	
++	
++	
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	_PHY_SaveADDARegisters_8723D(pAdapter, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);
++#else
++		_PHY_SaveADDARegisters_8723D(pDM_Odm, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);
++#endif	
++	
++	
++	for (index = 0; index < IQK_ADDA_REG_NUM ; index++)
++		ODM_SetBBReg(pDM_Odm, AFE_REG[index], bMaskDWord, 0x6fdb25a4);
++
++	
++	for (index = 0; index < DP_BB_REG_NUM; index++) {
++		if (index < 4)
++			ODM_SetBBReg(pDM_Odm, BB_REG[index], bMaskDWord, BB_settings[index]);
++		else if (index == 4)
++			ODM_SetBBReg(pDM_Odm,BB_REG[index], bMaskDWord, BB_backup[index]|BIT10|BIT26);			
++		else
++			ODM_SetBBReg(pDM_Odm, BB_REG[index], BIT10, 0x00);			
++	}
++
++	
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	_PHY_MACSettingCalibration_8723D(pAdapter, MAC_REG, MAC_backup);
++#else
++	_PHY_MACSettingCalibration_8723D(pDM_Odm, MAC_REG, MAC_backup);
++#endif	
++
++	
++	ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_A, bMaskDWord, 0x01008c00); 		
++	ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_A, bMaskDWord, 0x01008c00);	
++	ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_B, bMaskDWord, 0x01008c00);	
++	ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_B, bMaskDWord, 0x01008c00);	
++	
++	
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_AC, bMaskDWord, 0x10000);
++
++	
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x400000);	
++	ODM_SetBBReg(pDM_Odm, 0xbc0, bMaskDWord, 0x0005361f);		
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);	
++
++	
++	for (i = 0; i < 3; i++) {
++		
++		for (index = 0; index < 3; index++)
++			ODM_SetBBReg(pDM_Odm, 0xe00+index*4, bMaskDWord, Tx_AGC[i][0]);			
++		ODM_SetBBReg(pDM_Odm,0xe00+index*4, bMaskDWord, Tx_AGC[i][1]);			
++		for (index = 0; index < 4; index++)
++			ODM_SetBBReg(pDM_Odm, 0xe10+index*4, bMaskDWord, Tx_AGC[i][0]);			
++	
++		
++		ODM_SetBBReg(pDM_Odm, rPdp_AntA, bMaskDWord, 0x02097098);
++		ODM_SetBBReg(pDM_Odm, rPdp_AntA_4, bMaskDWord, 0xf76d9f84);
++		ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntA, bMaskDWord, 0x0004ab87);
++		ODM_SetBBReg(pDM_Odm, rConfig_AntA, bMaskDWord, 0x00880000);		
++		
++		
++		ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntA, bMaskDWord, 0x80047788);
++		ODM_delay_ms(1);
++		ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntA, bMaskDWord, 0x00047788);
++		ODM_delay_ms(50);
++	}
++
++	
++	for (index = 0; index < 3; index++)		
++	ODM_SetBBReg(pDM_Odm, 0xe00+index*4, bMaskDWord, 0x34343434);	
++	ODM_SetBBReg(pDM_Odm, 0xe08+index*4, bMaskDWord, 0x03903434);	
++	for (index = 0; index < 4; index++)		
++	ODM_SetBBReg(pDM_Odm, 0xe10+index*4, bMaskDWord, 0x34343434);	
++
++	
++	ODM_SetBBReg(pDM_Odm, rPdp_AntA, bMaskDWord, 0x02017098);
++	ODM_SetBBReg(pDM_Odm, rPdp_AntA_4, bMaskDWord, 0xf76d9f84);
++	ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntA, bMaskDWord, 0x0004ab87);
++	ODM_SetBBReg(pDM_Odm, rConfig_AntA, bMaskDWord, 0x00880000);		
++
++	
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x0c, bMaskDWord, 0x8992b);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x0d, bMaskDWord, 0x0e52c); 	
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x00, bMaskDWord, 0x5205a );		
++
++	
++	ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntA, bMaskDWord, 0x800477c0);
++	ODM_delay_ms(1);
++	ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntA, bMaskDWord, 0x000477c0);
++	ODM_delay_ms(50);
++
++	while(RetryCount < DP_RETRY_LIMIT && !pDM_Odm->RFCalibrateInfo.bDPPathAOK)
++	{
++		
++		ODM_SetBBReg(pDM_Odm, rPdp_AntA, bMaskDWord, 0x0c297018);
++		tmpReg = ODM_GetBBReg(pDM_Odm, 0xbe0, bMaskDWord);
++		ODM_delay_ms(10);
++		ODM_SetBBReg(pDM_Odm, rPdp_AntA, bMaskDWord, 0x0c29701f);
++		tmpReg2 = ODM_GetBBReg(pDM_Odm, 0xbe8, bMaskDWord);
++		ODM_delay_ms(10);
++
++		tmpReg = (tmpReg & bMaskHWord) >> 16;
++		tmpReg2 = (tmpReg2 & bMaskHWord) >> 16;		
++		if (tmpReg < 0xf0 || tmpReg > 0x105 || tmpReg2 > 0xff) {
++			ODM_SetBBReg(pDM_Odm, rPdp_AntA, bMaskDWord, 0x02017098);
++		
++			ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x800000);
++			ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);
++			ODM_delay_ms(1);
++			ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntA, bMaskDWord, 0x800477c0);
++			ODM_delay_ms(1);			
++			ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntA, bMaskDWord, 0x000477c0);			
++			ODM_delay_ms(50);			
++			RetryCount++;			
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Path S1 DPK RetryCount %d 0xbe0[31:16] %x 0xbe8[31:16] %x\n", RetryCount, tmpReg, tmpReg2));										
++		} else {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Path S1 DPK Success\n"));		
++			pDM_Odm->RFCalibrateInfo.bDPPathAOK = TRUE;
++			break;
++		}		
++	}
++	RetryCount = 0;
++	
++	
++	if (pDM_Odm->RFCalibrateInfo.bDPPathAOK) {	
++		
++		ODM_SetBBReg(pDM_Odm, rPdp_AntA, bMaskDWord, 0x01017098);
++		ODM_SetBBReg(pDM_Odm, rPdp_AntA_4, bMaskDWord, 0x776d9f84);
++		ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntA, bMaskDWord, 0x0004ab87);
++		ODM_SetBBReg(pDM_Odm, rConfig_AntA, bMaskDWord, 0x00880000);
++		ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x400000);
++
++		for (i = rPdp_AntA; i <= 0xb3c; i += 4) {
++			ODM_SetBBReg(pDM_Odm, i, bMaskDWord, 0x40004000);	
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Path S1 ofsset = 0x%x\n", i));		
++		}
++		
++		
++		ODM_SetBBReg(pDM_Odm, 0xb40, bMaskDWord, 0x40404040);	
++		ODM_SetBBReg(pDM_Odm, 0xb44, bMaskDWord, 0x28324040);			
++		ODM_SetBBReg(pDM_Odm, 0xb48, bMaskDWord, 0x10141920);					
++
++		for  (i = 0xb4c; i <= 0xb5c; i += 4) {
++			ODM_SetBBReg(pDM_Odm, i, bMaskDWord, 0x0c0c0c0c);	
++		}		
++
++		
++		ODM_SetBBReg(pDM_Odm, 0xbc0, bMaskDWord, 0x0005361f);	
++		ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);					
++	} else {
++		ODM_SetBBReg(pDM_Odm, rPdp_AntA, bMaskDWord, 0x00000000);	
++		ODM_SetBBReg(pDM_Odm, rPdp_AntA_4, bMaskDWord, 0x00000000);			
++	}
++
++	
++	if (is2T) {
++		
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_AC, bMaskDWord, 0x10000);
++		
++		
++		ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x400000);	
++		ODM_SetBBReg(pDM_Odm, 0xbc4, bMaskDWord, 0x0005361f);		
++		ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);	
++
++		
++		for (i = 0; i < 3; i++) {
++			
++			for(index = 0; index < 4; index++)
++				ODM_SetBBReg(pDM_Odm, 0x830+index*4, bMaskDWord, Tx_AGC[i][0]);			
++			for(index = 0; index < 2; index++)
++				ODM_SetBBReg(pDM_Odm, 0x848+index*4, bMaskDWord, Tx_AGC[i][0]);			
++			for(index = 0; index < 2; index++)
++				ODM_SetBBReg(pDM_Odm, 0x868+index*4, bMaskDWord, Tx_AGC[i][0]);			
++		
++			
++			ODM_SetBBReg(pDM_Odm, rPdp_AntB, bMaskDWord, 0x02097098);
++			ODM_SetBBReg(pDM_Odm, rPdp_AntB_4, bMaskDWord, 0xf76d9f84);
++			ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x0004ab87);
++			ODM_SetBBReg(pDM_Odm, rConfig_AntB, bMaskDWord, 0x00880000);		
++			
++			
++			ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x80047788);
++			ODM_delay_ms(1);
++			ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x00047788);
++			ODM_delay_ms(50);
++		}
++
++		
++		for (index = 0; index < 4; index++)
++			ODM_SetBBReg(pDM_Odm, 0x830+index*4, bMaskDWord, 0x34343434);	
++		for (index = 0; index < 2; index++)
++			ODM_SetBBReg(pDM_Odm, 0x848+index*4, bMaskDWord, 0x34343434);	
++		for (index = 0; index < 2; index++)
++			ODM_SetBBReg(pDM_Odm, 0x868+index*4, bMaskDWord, 0x34343434);	
++
++		
++		ODM_SetBBReg(pDM_Odm, rPdp_AntB, bMaskDWord, 0x02017098);		
++		ODM_SetBBReg(pDM_Odm, rPdp_AntB_4, bMaskDWord, 0xf76d9f84);		
++		ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x0004ab87);		
++		ODM_SetBBReg(pDM_Odm, rConfig_AntB, bMaskDWord, 0x00880000);		
++
++		
++		ODM_SetBBReg(pDM_Odm, 0x840, bMaskDWord, 0x0101000f);		
++		ODM_SetBBReg(pDM_Odm, 0x840, bMaskDWord, 0x01120103);		
++
++		
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x0c, bMaskDWord, 0x8992b);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x0d, bMaskDWord, 0x0e52c);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_AC, bMaskDWord, 0x5205a); 
++
++		
++		ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x800477c0);		
++		ODM_delay_ms(1);	
++		ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x000477c0);		
++		ODM_delay_ms(50);
++		
++		while(RetryCount < DP_RETRY_LIMIT && !pDM_Odm->RFCalibrateInfo.bDPPathBOK)
++		{
++			
++			ODM_SetBBReg(pDM_Odm, rPdp_AntB, bMaskDWord, 0x0c297018);		
++			tmpReg = ODM_GetBBReg(pDM_Odm, 0xbf0, bMaskDWord);
++			ODM_SetBBReg(pDM_Odm, rPdp_AntB, bMaskDWord, 0x0c29701f);		
++			tmpReg2 = ODM_GetBBReg(pDM_Odm, 0xbf8, bMaskDWord);
++			
++			tmpReg = (tmpReg & bMaskHWord) >> 16;
++			tmpReg2 = (tmpReg2 & bMaskHWord) >> 16;
++			
++			if (tmpReg < 0xf0 || tmpReg > 0x105 || tmpReg2 > 0xff) {
++				ODM_SetBBReg(pDM_Odm, rPdp_AntB, bMaskDWord, 0x02017098);		
++			
++				ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x800000);
++				ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);
++				ODM_delay_ms(1);
++				ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x800477c0);		
++				ODM_delay_ms(1);	
++				ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x000477c0);		
++				ODM_delay_ms(50);			
++				RetryCount++;			
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("path B DPK RetryCount %d 0xbf0[31:16] %x, 0xbf8[31:16] %x\n", RetryCount , tmpReg, tmpReg2));														
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("path B DPK Success\n"));						
++				pDM_Odm->RFCalibrateInfo.bDPPathBOK = TRUE;
++				break;
++			}						
++		}
++	
++		
++		if (pDM_Odm->RFCalibrateInfo.bDPPathBOK) {
++			
++			ODM_SetBBReg(pDM_Odm, rPdp_AntB, bMaskDWord, 0x01017098);
++			ODM_SetBBReg(pDM_Odm, rPdp_AntB_4, bMaskDWord, 0x776d9f84);
++			ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x0004ab87);
++			ODM_SetBBReg(pDM_Odm, rConfig_AntB, bMaskDWord, 0x00880000);
++			
++			ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x400000);
++			for (i = 0xb60; i <= 0xb9c; i += 4) {
++				ODM_SetBBReg(pDM_Odm, i, bMaskDWord, 0x40004000);	
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("path B ofsset = 0x%x\n", i));
++			}
++
++			
++			ODM_SetBBReg(pDM_Odm, 0xba0, bMaskDWord, 0x40404040);	
++			ODM_SetBBReg(pDM_Odm, 0xba4, bMaskDWord, 0x28324050);			
++			ODM_SetBBReg(pDM_Odm, 0xba8, bMaskDWord, 0x0c141920);					
++
++			for (i = 0xbac; i <= 0xbbc; i += 4) {
++				ODM_SetBBReg(pDM_Odm, i, bMaskDWord, 0x0c0c0c0c);	
++			}		
++			
++			
++			ODM_SetBBReg(pDM_Odm, 0xbc4, bMaskDWord, 0x0005361f);	
++			ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);			
++			
++		} else {
++			ODM_SetBBReg(pDM_Odm, rPdp_AntB, bMaskDWord, 0x00000000);	
++			ODM_SetBBReg(pDM_Odm, rPdp_AntB_4, bMaskDWord, 0x00000000);					
++		}
++	}
++	
++	
++	for (index = 0; index < DP_BB_REG_NUM; index++)
++		ODM_SetBBReg(pDM_Odm, BB_REG[index], bMaskDWord, BB_backup[index]);
++	
++	
++	for (path = 0; path < DP_PATH_NUM; path++) {
++		for (i = 0 ; i < DP_RF_REG_NUM ; i++) {
++			ODM_SetRFReg(pDM_Odm, path, RF_REG[i], bMaskDWord, RF_backup[path][i]);
++		}
++	}
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_MODE1, bMaskDWord, 0x1000f);	
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_MODE2, bMaskDWord, 0x20101);		
++
++	
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	_PHY_ReloadADDARegisters_8723D(pAdapter, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);	
++
++	
++	_PHY_ReloadMACRegisters_8723D(pAdapter, MAC_REG, MAC_backup);
++#else
++	_PHY_ReloadADDARegisters_8723D(pDM_Odm, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);	
++
++	
++	_PHY_ReloadMACRegisters_8723D(pDM_Odm, MAC_REG, MAC_backup);
++#endif		
++
++	pDM_Odm->RFCalibrateInfo.bDPdone = TRUE;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<==phy_DigitalPredistortion_8723D()\n"));
++#endif		
++}
++
++VOID
++PHY_DigitalPredistortion_8723D(
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PADAPTER	pAdapter
++#else
++	IN PDM_ODM_T	pDM_Odm
++#endif		
++	)
++{
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++#endif	
++#if DISABLE_BB_RF
++	return;
++#endif
++
++	return;
++
++	if (pDM_Odm->RFCalibrateInfo.bDPdone)
++		return;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++
++	if (IS_92C_SERIAL(pHalData->VersionID)) {
++		phy_DigitalPredistortion_8723D(pAdapter, TRUE);
++	}
++	else
++#endif		
++	{
++		
++		phy_DigitalPredistortion_8723D(pAdapter, FALSE);
++	}
++}
++	
++
++
++
++
++BOOLEAN phy_QueryRFPathSwitch_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	BOOLEAN		is2T
++	)
++{
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++#endif	
++	
++
++	if (ODM_GetBBReg(pDM_Odm, 0x7C4, bMaskLWord) == 0x7700)
++		return TRUE;
++	else 
++		return FALSE;
++
++}
++
++
++
++
++BOOLEAN PHY_QueryRFPathSwitch_8723D(	
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm
++#else
++	IN	PADAPTER	pAdapter
++#endif
++	)
++{
++
++#if DISABLE_BB_RF
++	return TRUE;
++#endif
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		return phy_QueryRFPathSwitch_8723D(pAdapter, FALSE);
++#else
++		return phy_QueryRFPathSwitch_8723D(pDM_Odm, FALSE);
++#endif
++
++}
++#endif
++
++
++
++#else	
++
++VOID
++PHY_IQCalibrate_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	BOOLEAN 	bReCovery
++	){}
++VOID
++PHY_LCCalibrate_8723D(
++	IN PDM_ODM_T		pDM_Odm
++	){}
++
++VOID
++ODM_TxPwrTrackSetPwr_8723D(
++	PDM_ODM_T			pDM_Odm,
++	PWRTRACK_METHOD 	Method,
++	u1Byte 				RFPath,
++	u1Byte 				ChannelMappedIndex
++	){}
++#endif	
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halphyrf_8723d.h b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halphyrf_8723d.h
+new file mode 100644
+index 0000000..7138254
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/halphyrf_8723d.h
+@@ -0,0 +1,153 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __HAL_PHY_RF_8723D_H__
++#define __HAL_PHY_RF_8723D_H__
++
++/*--------------------------Define Parameters-------------------------------*/
++#define	IQK_DELAY_TIME_8723D		10		//ms
++#define	index_mapping_NUM_8723D	15
++#define AVG_THERMAL_NUM_8723D	4
++#define RF_T_METER_8723D 0x42
++
++void ConfigureTxpowerTrack_8723D(
++	PTXPWRTRACK_CFG	pConfig
++	);
++
++VOID
++GetDeltaSwingTable_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PVOID		pDM_VOID,
++#else
++	IN PDM_ODM_T		pDM_Odm,
++#endif
++	OUT pu1Byte 			*TemperatureUP_A,
++	OUT pu1Byte 			*TemperatureDOWN_A,
++	OUT pu1Byte 			*TemperatureUP_B,
++	OUT pu1Byte 			*TemperatureDOWN_B	
++	);
++
++VOID
++setCCKFilterCoefficient_8723D(
++	PDM_ODM_T	pDM_Odm,
++	u1Byte 		CCKSwingIndex
++);
++
++void DoIQK_8723D(
++	PVOID		pDM_VOID,
++	u1Byte 		DeltaThermalIndex,
++	u1Byte		ThermalValue,	
++	u1Byte 		Threshold
++	);
++
++VOID
++ODM_TxPwrTrackSetPwr_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PVOID		pDM_VOID,
++#else
++	IN PDM_ODM_T		pDM_Odm,
++#endif
++	PWRTRACK_METHOD 	Method,
++	u1Byte 				RFPath,
++	u1Byte 				ChannelMappedIndex
++	);
++
++VOID
++ODM_TxXtalTrackSetXtal_8723D(
++	PVOID		pDM_VOID
++);
++
++//1 7.	IQK
++
++void	
++PHY_IQCalibrate_8723D(	
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN PADAPTER	Adapter,
++#endif
++	IN	BOOLEAN 	bReCovery);
++
++
++//
++// LC calibrate
++//
++void	
++PHY_LCCalibrate_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PVOID		pDM_VOID
++#else
++	IN PDM_ODM_T		pDM_Odm
++#endif
++);
++
++//
++// AP calibrate
++//
++void	
++PHY_APCalibrate_8723D(		
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++							IN 	s1Byte		delta);
++void	
++PHY_DigitalPredistortion_8723D(		IN	PADAPTER	pAdapter);
++
++
++VOID
++_PHY_SaveADDARegisters_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	pu4Byte		ADDAReg,
++	IN	pu4Byte		ADDABackup,
++	IN	u4Byte		RegisterNum
++	);
++
++VOID
++_PHY_PathADDAOn_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	pu4Byte		ADDAReg,
++	IN	BOOLEAN		isPathAOn,
++	IN	BOOLEAN		is2T
++	);
++
++VOID
++_PHY_MACSettingCalibration_8723D(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	pu4Byte		MACReg,
++	IN	pu4Byte		MACBackup	
++	);
++
++								
++#endif	// #ifndef __HAL_PHY_RF_8723D_H__								
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/phydm_regconfig8723d.c b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/phydm_regconfig8723d.c
+new file mode 100644
+index 0000000..1fab6ef
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/phydm_regconfig8723d.c
+@@ -0,0 +1,189 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include "Mp_Precomp.h"
++#include "../phydm_precomp.h"
++
++#if (RTL8723D_SUPPORT == 1)  
++
++void
++odm_ConfigRFReg_8723D(
++	IN 	PDM_ODM_T 				pDM_Odm,
++	IN 	u4Byte 					Addr,
++	IN 	u4Byte 					Data,
++	IN  ODM_RF_RADIO_PATH_E     RF_PATH,
++	IN	u4Byte				    RegAddr
++	)
++{
++    if(Addr == 0xfe || Addr == 0xffe)
++	{ 					  
++		#ifdef CONFIG_LONG_DELAY_ISSUE
++		ODM_sleep_ms(50);
++		#else		
++		ODM_delay_ms(50);
++		#endif
++	}
++	else
++	{
++		ODM_SetRFReg(pDM_Odm, RF_PATH, RegAddr, bRFRegOffsetMask, Data);
++		// Add 1us delay between BB/RF register setting.
++		ODM_delay_us(1);
++	}	
++}
++
++
++void 
++odm_ConfigRF_RadioA_8723D(
++	IN 	PDM_ODM_T 				pDM_Odm,
++	IN 	u4Byte 					Addr,
++	IN 	u4Byte 					Data
++	)
++{
++	u4Byte  content = 0x1000; // RF_Content: radioa_txt
++	u4Byte	maskforPhySet= (u4Byte)(content&0xE000);
++
++    odm_ConfigRFReg_8723D(pDM_Odm, Addr, Data, ODM_RF_PATH_A, Addr|maskforPhySet);
++
++    ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_TRACE, ("===> ODM_ConfigRFWithHeaderFile: [RadioA] %08X %08X\n", Addr, Data));
++}
++
++void 
++odm_ConfigRF_RadioB_8723D(
++	IN 	PDM_ODM_T 				pDM_Odm,
++	IN 	u4Byte 					Addr,
++	IN 	u4Byte 					Data
++	)
++{
++	u4Byte  content = 0x1001; // RF_Content: radiob_txt
++	u4Byte	maskforPhySet= (u4Byte)(content&0xE000);
++
++    odm_ConfigRFReg_8723D(pDM_Odm, Addr, Data, ODM_RF_PATH_B, Addr|maskforPhySet);
++	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_TRACE, ("===> ODM_ConfigRFWithHeaderFile: [RadioB] %08X %08X\n", Addr, Data));
++    
++}
++
++void 
++odm_ConfigMAC_8723D(
++ 	IN 	PDM_ODM_T 	pDM_Odm,
++ 	IN 	u4Byte 		Addr,
++ 	IN 	u1Byte 		Data
++ 	)
++{
++	ODM_Write1Byte(pDM_Odm, Addr, Data);
++    ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_TRACE, ("===> ODM_ConfigMACWithHeaderFile: [MAC_REG] %08X %08X\n", Addr, Data));
++}
++
++void 
++odm_ConfigBB_AGC_8723D(
++    IN 	PDM_ODM_T 	pDM_Odm,
++    IN 	u4Byte 		Addr,
++    IN 	u4Byte 		Bitmask,
++    IN 	u4Byte 		Data
++    )
++{
++	ODM_SetBBReg(pDM_Odm, Addr, Bitmask, Data);		
++	// Add 1us delay between BB/RF register setting.
++	ODM_delay_us(1);
++
++    ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_TRACE, ("===> ODM_ConfigBBWithHeaderFile: [AGC_TAB] %08X %08X\n", Addr, Data));
++}
++
++void
++odm_ConfigBB_PHY_REG_PG_8723D(
++	IN 	PDM_ODM_T 	pDM_Odm,
++	IN	u4Byte		Band,
++	IN	u4Byte		RfPath,
++	IN	u4Byte		TxNum,
++    IN 	u4Byte 		Addr,
++    IN 	u4Byte 		Bitmask,
++    IN 	u4Byte 		Data
++    )
++{    
++	if (Addr == 0xfe || Addr == 0xffe)
++		#ifdef CONFIG_LONG_DELAY_ISSUE
++		ODM_sleep_ms(50);
++		#else		
++		ODM_delay_ms(50);
++		#endif
++    else 
++    {
++#if	!(DM_ODM_SUPPORT_TYPE&ODM_AP)
++	    PHY_StoreTxPowerByRate(pDM_Odm->Adapter, Band, RfPath, TxNum, Addr, Bitmask, Data);
++#endif
++    }
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ConfigBBWithHeaderFile: [PHY_REG] %08X %08X %08X\n", Addr, Bitmask, Data));
++}
++
++void 
++odm_ConfigBB_PHY_8723D(
++	IN 	PDM_ODM_T 	pDM_Odm,
++    IN 	u4Byte 		Addr,
++    IN 	u4Byte 		Bitmask,
++    IN 	u4Byte 		Data
++    )
++{    
++/*DbgPrint("odm_ConfigBB_PHY_8723D(), Addr = 0x%x, data = 0x%x\n", Addr, Data);*/
++	if (Addr == 0xfe)
++		#ifdef CONFIG_LONG_DELAY_ISSUE
++		ODM_sleep_ms(50);
++		#else		
++		ODM_delay_ms(50);
++		#endif
++	else if (Addr == 0xfd)
++		ODM_delay_ms(5);
++	else if (Addr == 0xfc)
++		ODM_delay_ms(1);
++	else if (Addr == 0xfb)
++		ODM_delay_us(50);
++	else if (Addr == 0xfa)
++		ODM_delay_us(5);
++	else if (Addr == 0xf9)
++		ODM_delay_us(1);
++	else 
++	{
++		ODM_SetBBReg(pDM_Odm, Addr, Bitmask, Data);		
++	}
++	
++	// Add 1us delay between BB/RF register setting.
++	ODM_delay_us(1);
++    ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_TRACE, ("===> ODM_ConfigBBWithHeaderFile: [PHY_REG] %08X %08X\n", Addr, Data));
++}
++
++void
++odm_ConfigBB_TXPWR_LMT_8723D(
++	IN 	PDM_ODM_T 	pDM_Odm,
++	IN	pu1Byte		Regulation,
++	IN	pu1Byte		Band,
++	IN	pu1Byte		Bandwidth,
++	IN	pu1Byte		RateSection,
++	IN	pu1Byte		RfPath,
++	IN	pu1Byte 	Channel,
++	IN	pu1Byte		PowerLimit
++    )
++{   
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PHY_SetTxPowerLimit(pDM_Odm, Regulation, Band,
++		Bandwidth, RateSection, RfPath, Channel, PowerLimit);
++#endif
++}
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/phydm_regconfig8723d.h b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/phydm_regconfig8723d.h
+new file mode 100644
+index 0000000..7ffeb0b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/phydm_regconfig8723d.h
+@@ -0,0 +1,98 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_ODM_REGCONFIG_H_8723D
++#define __INC_ODM_REGCONFIG_H_8723D
++ 
++#if (RTL8723D_SUPPORT == 1)
++
++void
++odm_ConfigRFReg_8723D(
++	IN 	PDM_ODM_T 				pDM_Odm,
++	IN 	u4Byte 					Addr,
++	IN 	u4Byte 					Data,
++	IN  ODM_RF_RADIO_PATH_E     RF_PATH,
++	IN	u4Byte				    RegAddr
++	);
++
++void 
++odm_ConfigRF_RadioA_8723D(
++	IN 	PDM_ODM_T 				pDM_Odm,
++	IN 	u4Byte 					Addr,
++	IN 	u4Byte 					Data
++	);
++
++void 
++odm_ConfigRF_RadioB_8723D(
++	IN 	PDM_ODM_T 				pDM_Odm,
++	IN 	u4Byte 					Addr,
++	IN 	u4Byte 					Data
++	);
++
++void 
++odm_ConfigMAC_8723D(
++ 	IN 	PDM_ODM_T 	pDM_Odm,
++ 	IN 	u4Byte 		Addr,
++ 	IN 	u1Byte 		Data
++ 	);
++
++void 
++odm_ConfigBB_AGC_8723D(
++    IN 	PDM_ODM_T 	pDM_Odm,
++    IN 	u4Byte 		Addr,
++    IN 	u4Byte 		Bitmask,
++    IN 	u4Byte 		Data
++    );
++
++void
++odm_ConfigBB_PHY_REG_PG_8723D(
++	IN 	PDM_ODM_T 	pDM_Odm,
++	IN	u4Byte		Band,
++	IN	u4Byte		RfPath,
++	IN	u4Byte		TxNum,
++    IN 	u4Byte 		Addr,
++    IN 	u4Byte 		Bitmask,
++    IN 	u4Byte 		Data
++    );
++
++void 
++odm_ConfigBB_PHY_8723D(
++	IN 	PDM_ODM_T 	pDM_Odm,
++    IN 	u4Byte 		Addr,
++    IN 	u4Byte 		Bitmask,
++    IN 	u4Byte 		Data
++    );
++	
++void
++odm_ConfigBB_TXPWR_LMT_8723D(
++	IN	PDM_ODM_T	pDM_Odm,
++	IN	pu1Byte 	Regulation,
++	IN	pu1Byte 	Band,
++	IN	pu1Byte 	Bandwidth,
++	IN	pu1Byte 	RateSection,
++	IN	pu1Byte 	RfPath,
++	IN	pu1Byte 	Channel,
++	IN	pu1Byte 	PowerLimit
++	);
++	
++	
++#endif
++#endif // end of SUPPORT
++
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/phydm_rtl8723d.c b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/phydm_rtl8723d.c
+new file mode 100644
+index 0000000..02d55de
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/phydm_rtl8723d.c
+@@ -0,0 +1,68 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++/*============================================================
++ include files
++============================================================*/
++
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#if (RTL8723D_SUPPORT == 1)
++
++s1Byte 
++odm_CCKRSSI_8723D(
++	IN		u1Byte	LNA_idx, 
++	IN		u1Byte	VGA_idx
++	)
++{
++	s1Byte	rx_pwr_all = 0x00;	
++	
++	switch (LNA_idx) {
++
++	case 0xf:
++		rx_pwr_all = -46 - (2 * VGA_idx);
++		break;			
++	case 0xa:
++		rx_pwr_all = -20 - (2 * VGA_idx);
++		break;
++	case 7:	
++		rx_pwr_all = -10 - (2 * VGA_idx);
++		break;		
++	case 4:	
++		rx_pwr_all = 4 - (2 * VGA_idx);
++		break;
++	default:
++		break;
++	}
++
++	return rx_pwr_all;
++
++}
++
++#endif
++
++
++
++
++
++
++
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/phydm_rtl8723d.h b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/phydm_rtl8723d.h
+new file mode 100644
+index 0000000..9096021
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/phydm_rtl8723d.h
+@@ -0,0 +1,33 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef	__ODM_RTL8723D_H__
++#define __ODM_RTL8723D_H__
++
++#if (RTL8723D_SUPPORT == 1)
++
++s1Byte 
++odm_CCKRSSI_8723D(
++	IN		u1Byte	LNA_idx, 
++	IN		u1Byte	VGA_idx
++	);
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/version_rtl8723d.h b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/version_rtl8723d.h
+new file mode 100644
+index 0000000..89d3630
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/rtl8723d/version_rtl8723d.h
+@@ -0,0 +1,5 @@
++/*RTL8723D PHY Parameters*/
++#define	SVN_COMMIT_VERSION_8723D	17398
++#define	RELEASE_DATE_8723D		20160617
++#define	COMMIT_BY_8723D			"BB_Jessica"
++#define	RELEASE_VERSION_8723D	29
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/txbf/halcomtxbf.c b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/halcomtxbf.c
+new file mode 100644
+index 0000000..59ec2e7
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/halcomtxbf.c
+@@ -0,0 +1,538 @@
++//============================================================
++// Description:
++//
++// This file is for TXBF mechanism
++//
++//============================================================
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#if (BEAMFORMING_SUPPORT == 1)
++/*Beamforming halcomtxbf API create by YuChen 2015/05*/
++
++VOID
++halComTxbf_beamformInit(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		HalTxbf8822B_Init(pDM_Odm);
++}
++
++/*Only used for MU BFer Entry when get GID management frame (self is as MU STA)*/
++VOID
++halComTxbf_ConfigGtab(
++	IN PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		HalTxbf8822B_ConfigGtab(pDM_Odm);
++}
++
++VOID
++phydm_beamformSetSoundingEnter(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	if (PlatformIsWorkItemScheduled(&(pTxbfInfo->Txbf_EnterWorkItem)) == FALSE)
++		PlatformScheduleWorkItem(&(pTxbfInfo->Txbf_EnterWorkItem));
++#else
++	halComTxbf_EnterWorkItemCallback(pDM_Odm);
++#endif
++}
++
++VOID
++phydm_beamformSetSoundingLeave(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	if (PlatformIsWorkItemScheduled(&(pTxbfInfo->Txbf_LeaveWorkItem)) == FALSE)
++		PlatformScheduleWorkItem(&(pTxbfInfo->Txbf_LeaveWorkItem));
++#else
++	halComTxbf_LeaveWorkItemCallback(pDM_Odm);
++#endif
++}
++
++VOID
++phydm_beamformSetSoundingRate(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	if (PlatformIsWorkItemScheduled(&(pTxbfInfo->Txbf_RateWorkItem)) == FALSE)
++		PlatformScheduleWorkItem(&(pTxbfInfo->Txbf_RateWorkItem));
++#else
++	halComTxbf_RateWorkItemCallback(pDM_Odm);
++#endif
++}
++
++VOID
++phydm_beamformSetSoundingStatus(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	if (PlatformIsWorkItemScheduled(&(pTxbfInfo->Txbf_StatusWorkItem)) == FALSE)
++		PlatformScheduleWorkItem(&(pTxbfInfo->Txbf_StatusWorkItem));
++#else
++	halComTxbf_StatusWorkItemCallback(pDM_Odm);
++#endif
++}
++
++VOID
++phydm_beamformSetSoundingFwNdpa(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	if (*pDM_Odm->pbFwDwRsvdPageInProgress)
++		ODM_SetTimer(pDM_Odm, &(pTxbfInfo->Txbf_FwNdpaTimer), 5);
++	else
++		PlatformScheduleWorkItem(&(pTxbfInfo->Txbf_FwNdpaWorkItem));
++#else
++	halComTxbf_FwNdpaWorkItemCallback(pDM_Odm);
++#endif
++}
++
++VOID
++phydm_beamformSetSoundingClk(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	if (PlatformIsWorkItemScheduled(&(pTxbfInfo->Txbf_ClkWorkItem)) == FALSE)
++			PlatformScheduleWorkItem(&(pTxbfInfo->Txbf_ClkWorkItem));
++#elif(DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PADAPTER	padapter = pDM_Odm->Adapter;
++
++	rtw_run_in_thread_cmd(padapter, halComTxbf_ClkWorkItemCallback, padapter);
++#else
++	halComTxbf_ClkWorkItemCallback(pDM_Odm);
++#endif
++}
++
++VOID
++phydm_beamformSetResetTxPath(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	if (PlatformIsWorkItemScheduled(&(pTxbfInfo->Txbf_ResetTxPathWorkItem)) == FALSE)
++		PlatformScheduleWorkItem(&(pTxbfInfo->Txbf_ResetTxPathWorkItem));
++#else
++	halComTxbf_ResetTxPathWorkItemCallback(pDM_Odm);
++#endif
++}
++
++VOID
++phydm_beamformSetGetTxRate(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	if (PlatformIsWorkItemScheduled(&(pTxbfInfo->Txbf_GetTxRateWorkItem)) == FALSE)
++		PlatformScheduleWorkItem(&(pTxbfInfo->Txbf_GetTxRateWorkItem));
++#else
++	halComTxbf_GetTxRateWorkItemCallback(pDM_Odm);
++#endif
++}
++
++VOID 
++halComTxbf_EnterWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++	u1Byte			Idx = pTxbfInfo->TXBFIdx;
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++	
++	if (pDM_Odm->SupportICType & (ODM_RTL8812|ODM_RTL8821))
++		HalTxbfJaguar_Enter(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8192E)
++		HalTxbf8192E_Enter(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		HalTxbf8814A_Enter(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		HalTxbf8822B_Enter(pDM_Odm, Idx);
++}
++
++VOID 
++halComTxbf_LeaveWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	u1Byte			Idx = pTxbfInfo->TXBFIdx;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8812|ODM_RTL8821))
++		HalTxbfJaguar_Leave(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8192E)
++		HalTxbf8192E_Leave(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		HalTxbf8814A_Leave(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		HalTxbf8822B_Leave(pDM_Odm, Idx);
++}
++
++
++VOID 
++halComTxbf_FwNdpaWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++	u1Byte	Idx = pTxbfInfo->NdpaIdx;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8812|ODM_RTL8821))
++		HalTxbfJaguar_FwTxBF(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8192E)
++		HalTxbf8192E_FwTxBF(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		HalTxbf8814A_FwTxBF(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		HalTxbf8822B_FwTxBF(pDM_Odm, Idx);
++}
++
++VOID
++halComTxbf_ClkWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pDM_Odm->SupportICType & ODM_RTL8812)
++		HalTxbfJaguar_Clk_8812A(pDM_Odm);
++}
++
++
++
++VOID
++halComTxbf_RateWorkItemCallback(	
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++	u1Byte			BW = pTxbfInfo->BW;
++	u1Byte			Rate = pTxbfInfo->Rate;	
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pDM_Odm->SupportICType & ODM_RTL8812)
++		HalTxbf8812A_setNDPArate(pDM_Odm, BW, Rate);
++	else if (pDM_Odm->SupportICType & ODM_RTL8192E)
++		HalTxbf8192E_setNDPArate(pDM_Odm, BW, Rate);
++	else if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		HalTxbf8814A_setNDPArate(pDM_Odm, BW, Rate);
++	
++}
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID 
++halComTxbf_FwNdpaTimerCallback(
++	IN	PRT_TIMER		pTimer
++	)
++{
++
++	PADAPTER		Adapter = (PADAPTER)pTimer->Adapter;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (*pDM_Odm->pbFwDwRsvdPageInProgress)
++		ODM_SetTimer(pDM_Odm, &(pTxbfInfo->Txbf_FwNdpaTimer), 5);
++	else
++		PlatformScheduleWorkItem(&(pTxbfInfo->Txbf_FwNdpaWorkItem));
++}
++#endif
++
++
++VOID
++halComTxbf_StatusWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	u1Byte			Idx = pTxbfInfo->TXBFIdx;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8812|ODM_RTL8821))
++		HalTxbfJaguar_Status(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8192E)
++		HalTxbf8192E_Status(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		HalTxbf8814A_Status(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		HalTxbf8822B_Status(pDM_Odm, Idx);
++}
++
++VOID
++halComTxbf_ResetTxPathWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	u1Byte			Idx = pTxbfInfo->TXBFIdx;
++
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		HalTxbf8814A_ResetTxPath(pDM_Odm, Idx);
++	
++}
++
++VOID
++halComTxbf_GetTxRateWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++	
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		HalTxbf8814A_GetTxRate(pDM_Odm);
++}
++
++
++BOOLEAN
++HalComTxbf_Set(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte			setType,
++	IN	PVOID			pInBuf
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pu1Byte			pU1Tmp=(pu1Byte)pInBuf;
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] setType = 0x%X\n", __func__, setType));
++	
++	switch(setType){
++	case TXBF_SET_SOUNDING_ENTER:
++	pTxbfInfo->TXBFIdx = *pU1Tmp;
++	phydm_beamformSetSoundingEnter(pDM_Odm);
++	break;
++
++	case TXBF_SET_SOUNDING_LEAVE:
++	pTxbfInfo->TXBFIdx = *pU1Tmp;
++	phydm_beamformSetSoundingLeave(pDM_Odm);
++	break;
++
++	case TXBF_SET_SOUNDING_RATE:
++	pTxbfInfo->BW = pU1Tmp[0];
++	pTxbfInfo->Rate = pU1Tmp[1];
++	phydm_beamformSetSoundingRate(pDM_Odm);
++	break;
++
++	case TXBF_SET_SOUNDING_STATUS:
++	pTxbfInfo->TXBFIdx = *pU1Tmp;
++	phydm_beamformSetSoundingStatus(pDM_Odm);
++	break;
++
++	case TXBF_SET_SOUNDING_FW_NDPA:
++	pTxbfInfo->NdpaIdx = *pU1Tmp;
++	phydm_beamformSetSoundingFwNdpa(pDM_Odm);
++	break;
++
++	case TXBF_SET_SOUNDING_CLK:
++	phydm_beamformSetSoundingClk(pDM_Odm);
++	break;
++		
++	case TXBF_SET_TX_PATH_RESET:
++	pTxbfInfo->TXBFIdx = *pU1Tmp;
++	phydm_beamformSetResetTxPath(pDM_Odm);
++	break;
++
++	case TXBF_SET_GET_TX_RATE:
++	phydm_beamformSetGetTxRate(pDM_Odm);
++	break;
++	
++	}
++
++	return TRUE;
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++BOOLEAN
++HalComTxbf_Get(
++	IN 	PADAPTER		Adapter,
++	IN	u1Byte			getType,
++	OUT	PVOID			pOutBuf
++	)
++{
++	PHAL_DATA_TYPE		pHalData=GET_HAL_DATA(Adapter);
++	PDM_ODM_T			pDM_Odm = &pHalData->DM_OutSrc;
++	PBOOLEAN			pBoolean=(PBOOLEAN)pOutBuf;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (getType == TXBF_GET_EXPLICIT_BEAMFORMEE) {
++		if (IS_HARDWARE_TYPE_OLDER_THAN_8812A(Adapter))
++			*pBoolean = FALSE;
++		else if (/*IS_HARDWARE_TYPE_8822B(Adapter)	||*/
++				IS_HARDWARE_TYPE_8821B(Adapter) 	||
++				IS_HARDWARE_TYPE_8192E(Adapter) 	||
++				IS_HARDWARE_TYPE_JAGUAR(Adapter) || IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(Adapter))
++			*pBoolean = TRUE;
++		else
++			*pBoolean = FALSE;
++	} else if (getType == TXBF_GET_EXPLICIT_BEAMFORMER) {
++		if (IS_HARDWARE_TYPE_OLDER_THAN_8812A(Adapter))
++			*pBoolean = FALSE;		
++		else	if (/*IS_HARDWARE_TYPE_8822B(Adapter)	||*/
++				IS_HARDWARE_TYPE_8821B(Adapter) 	||
++				IS_HARDWARE_TYPE_8192E(Adapter) 	||
++				IS_HARDWARE_TYPE_JAGUAR(Adapter) || IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(Adapter)) {
++			if(pHalData->RF_Type == RF_2T2R || pHalData->RF_Type == RF_3T3R)
++				*pBoolean = TRUE;
++			else
++				*pBoolean = FALSE;
++		} else
++			*pBoolean = FALSE;
++	} else if (getType == TXBF_GET_MU_MIMO_STA) {
++#if (RTL8822B_SUPPORT == 1)
++		if (/*pDM_Odm->SupportICType & (ODM_RTL8822B)*/
++			IS_HARDWARE_TYPE_8822B(Adapter))
++			*pBoolean = TRUE;
++		else
++#endif
++			*pBoolean = FALSE;
++
++
++	} else if (getType == TXBF_GET_MU_MIMO_AP) {
++#if (RTL8822B_SUPPORT == 1)	
++		if (/*pDM_Odm->SupportICType & (ODM_RTL8822B)*/
++			IS_HARDWARE_TYPE_8822B(Adapter))
++			*pBoolean = TRUE;
++		else
++#endif
++			*pBoolean = FALSE;
++	}
++	
++	return TRUE;
++}	
++#endif
++
++
++#endif 
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/txbf/halcomtxbf.h b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/halcomtxbf.h
+new file mode 100644
+index 0000000..abb9d59
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/halcomtxbf.h
+@@ -0,0 +1,181 @@
++#ifndef __HAL_COM_TXBF_H__
++#define __HAL_COM_TXBF_H__
++
++/*
++typedef	BOOLEAN
++(*TXBF_GET)(
++	IN	PVOID			pAdapter,
++	IN	u1Byte			getType,
++	OUT	PVOID			pOutBuf
++	);
++
++typedef	BOOLEAN
++(*TXBF_SET)(
++	IN	PVOID			pAdapter,
++	IN	u1Byte			setType,
++	OUT	PVOID			pInBuf
++	);
++*/
++#define TxBF_Nr(a, b) ((a > b) ? (b) : (a))
++
++typedef enum _TXBF_SET_TYPE{
++	TXBF_SET_SOUNDING_ENTER,
++	TXBF_SET_SOUNDING_LEAVE,
++	TXBF_SET_SOUNDING_RATE,
++	TXBF_SET_SOUNDING_STATUS,
++	TXBF_SET_SOUNDING_FW_NDPA,
++	TXBF_SET_SOUNDING_CLK,
++	TXBF_SET_TX_PATH_RESET,
++	TXBF_SET_GET_TX_RATE
++}TXBF_SET_TYPE,*PTXBF_SET_TYPE;
++
++
++typedef enum _TXBF_GET_TYPE{
++	TXBF_GET_EXPLICIT_BEAMFORMEE,
++	TXBF_GET_EXPLICIT_BEAMFORMER,
++	TXBF_GET_MU_MIMO_STA,
++	TXBF_GET_MU_MIMO_AP
++}TXBF_GET_TYPE,*PTXBF_GET_TYPE;
++
++
++
++//2 HAL TXBF related
++typedef struct _HAL_TXBF_INFO {
++	u1Byte				TXBFIdx;
++	u1Byte				NdpaIdx;
++	u1Byte				BW;
++	u1Byte				Rate;
++
++	RT_TIMER			Txbf_FwNdpaTimer;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	RT_WORK_ITEM		Txbf_EnterWorkItem;  
++	RT_WORK_ITEM		Txbf_LeaveWorkItem;
++	RT_WORK_ITEM		Txbf_FwNdpaWorkItem;
++	RT_WORK_ITEM		Txbf_ClkWorkItem;
++	RT_WORK_ITEM		Txbf_StatusWorkItem;
++	RT_WORK_ITEM		Txbf_RateWorkItem;
++	RT_WORK_ITEM		Txbf_ResetTxPathWorkItem;
++	RT_WORK_ITEM		Txbf_GetTxRateWorkItem;
++#endif
++
++} HAL_TXBF_INFO, *PHAL_TXBF_INFO;
++
++#if (BEAMFORMING_SUPPORT == 1)
++
++VOID
++halComTxbf_beamformInit(
++	IN PVOID			pDM_VOID
++	);
++
++VOID
++halComTxbf_ConfigGtab(
++	IN PVOID			pDM_VOID
++	);
++
++VOID 
++halComTxbf_EnterWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++VOID 
++halComTxbf_LeaveWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++VOID 
++halComTxbf_FwNdpaWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++VOID
++halComTxbf_ClkWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++VOID
++halComTxbf_ResetTxPathWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++VOID
++halComTxbf_GetTxRateWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++VOID
++halComTxbf_RateWorkItemCallback(	
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++VOID 
++halComTxbf_FwNdpaTimerCallback(
++	IN	PRT_TIMER		pTimer
++	);
++
++VOID
++halComTxbf_StatusWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++BOOLEAN
++HalComTxbf_Set(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte			setType,
++	IN	PVOID			pInBuf
++	);
++
++BOOLEAN
++HalComTxbf_Get(
++	IN	PADAPTER		Adapter,
++	IN	u1Byte			getType,
++	OUT	PVOID			pOutBuf
++	);
++
++#else
++#define halComTxbf_beamformInit(pDM_VOID)					NULL
++#define halComTxbf_ConfigGtab(pDM_VOID)				NULL
++#define halComTxbf_EnterWorkItemCallback(_Adapter)		NULL
++#define halComTxbf_LeaveWorkItemCallback(_Adapter)		NULL
++#define halComTxbf_FwNdpaWorkItemCallback(_Adapter)		NULL
++#define halComTxbf_ClkWorkItemCallback(_Adapter)			NULL
++#define halComTxbf_RateWorkItemCallback(_Adapter)		NULL
++#define halComTxbf_FwNdpaTimerCallback(_Adapter)		NULL
++#define halComTxbf_StatusWorkItemCallback(_Adapter)		NULL
++#define HalComTxbf_Get(_Adapter, _getType, _pOutBuf)
++
++#endif
++							
++#endif	// #ifndef __HAL_COM_TXBF_H__								
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbf8192e.c b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbf8192e.c
+new file mode 100644
+index 0000000..754686b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbf8192e.c
+@@ -0,0 +1,392 @@
++//============================================================
++// Description:
++//
++// This file is for 8192E TXBF mechanism
++//
++//============================================================
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#if (BEAMFORMING_SUPPORT == 1)
++#if (RTL8192E_SUPPORT == 1)
++
++VOID
++HalTxbf8192E_setNDPArate(
++	IN PVOID			pDM_VOID,
++	IN u1Byte	BW,
++	IN u1Byte	Rate
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	ODM_Write1Byte(pDM_Odm, REG_NDPA_OPT_CTRL_8192E,  (Rate << 2 | BW));	
++
++}
++
++VOID
++halTxbf8192E_RfMode(
++	IN PVOID			pDM_VOID,
++	IN PRT_BEAMFORMING_INFO	pBeamInfo
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	BOOLEAN				bSelfBeamformer = FALSE;
++	BOOLEAN				bSelfBeamformee = FALSE;
++	BEAMFORMING_CAP	BeamformCap = BEAMFORMING_CAP_NONE;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pDM_Odm->RFType == ODM_1T1R)
++		return;
++
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_WE_LUT, 0x80000, 0x1); /*RF Mode table write enable*/
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_WE_LUT, 0x80000, 0x1); /*RF Mode table write enable*/
++	
++	if (pBeamInfo->beamformee_su_cnt > 0) {
++		/*Path_A*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableAddr, 0xfffff, 0x18000);	/*Select RX mode  0x30=0x18000*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData0, 0xfffff, 0x0000f);	/*Set Table data*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData1, 0xfffff, 0x77fc2);	/*Enable TXIQGEN in RX mode*/
++		/*Path_B*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableAddr, 0xfffff, 0x18000);	/*Select RX mode*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableData0, 0xfffff, 0x0000f);	/*Set Table data*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableData1, 0xfffff, 0x77fc2);	/*Enable TXIQGEN in RX mode*/
++	} else {
++		/*Path_A*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableAddr, 0xfffff, 0x18000);	/*Select RX mode*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData0, 0xfffff, 0x0000f);	/*Set Table data*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData1, 0xfffff, 0x77f82);	/*Disable TXIQGEN in RX mode*/
++		/*Path_B*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableAddr, 0xfffff, 0x18000);	/*Select RX mode*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableData0, 0xfffff, 0x0000f);	/*Set Table data*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableData1, 0xfffff, 0x77f82);	/*Disable TXIQGEN in RX mode*/
++	}
++
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_WE_LUT, 0x80000, 0x0);	/*RF Mode table write disable*/
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_WE_LUT, 0x80000, 0x0);	/*RF Mode table write disable*/
++
++	if (pBeamInfo->beamformee_su_cnt > 0) {
++		ODM_SetBBReg(pDM_Odm, rFPGA1_TxInfo, bMaskDWord, 0x83321333);
++		ODM_SetBBReg(pDM_Odm, rCCK0_AFESetting, bMaskByte3, 0xc1);
++	} else
++		ODM_SetBBReg(pDM_Odm, rFPGA1_TxInfo, bMaskDWord, 0x81121313);
++}
++
++
++
++VOID
++halTxbf8192E_FwTxBFCmd(
++	IN PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	Idx, Period0 = 0, Period1 = 0;
++	u1Byte	PageNum0 = 0xFF, PageNum1 = 0xFF;
++	u1Byte	u1TxBFParm[3] = {0};
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	for (Idx = 0; Idx < BEAMFORMEE_ENTRY_NUM; Idx++) {
++		if (pBeamInfo->BeamformeeEntry[Idx].BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++			if (Idx == 0) {
++				if (pBeamInfo->BeamformeeEntry[Idx].bSound)
++					PageNum0 = 0xFE;
++				else
++					PageNum0 = 0xFF; //stop sounding
++				Period0 = (u1Byte)(pBeamInfo->BeamformeeEntry[Idx].SoundPeriod);
++			} else if (Idx == 1) {
++				if (pBeamInfo->BeamformeeEntry[Idx].bSound)
++					PageNum1 = 0xFE;
++				else
++					PageNum1 = 0xFF; //stop sounding
++				Period1 = (u1Byte)(pBeamInfo->BeamformeeEntry[Idx].SoundPeriod);
++			}
++		}
++	}
++
++	u1TxBFParm[0] = PageNum0;
++	u1TxBFParm[1] = PageNum1;
++	u1TxBFParm[2] = (Period1 << 4) | Period0;
++	ODM_FillH2CCmd(pDM_Odm, PHYDM_H2C_TXBF, 3, u1TxBFParm);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, 
++		("[%s] PageNum0 = %d Period0 = %d, PageNum1 = %d Period1 %d\n", __func__, PageNum0, Period0, PageNum1, Period1));
++}
++
++
++VOID
++halTxbf8192E_DownloadNDPA(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			u1bTmp = 0, tmpReg422 = 0, Head_Page;
++	u1Byte			BcnValidReg = 0, count = 0, DLBcnCount = 0;
++	BOOLEAN			bSendBeacon = FALSE;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	u1Byte			TxPageBndy = LAST_ENTRY_OF_TX_PKT_BUFFER_8812;	
++	/*default reseved 1 page for the IC type which is undefined.*/
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pBeamEntry = pBeamInfo->BeamformeeEntry + Idx;
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	*pDM_Odm->pbFwDwRsvdPageInProgress = TRUE;
++#endif
++	if (Idx == 0)
++		Head_Page = 0xFE;
++	else
++		Head_Page = 0xFE;
++
++	Adapter->HalFunc.GetHalDefVarHandler(Adapter, HAL_DEF_TX_PAGE_BOUNDARY, (pu1Byte)&TxPageBndy);
++
++	/*Set REG_CR bit 8. DMA beacon by SW.*/
++	u1bTmp = ODM_Read1Byte(pDM_Odm, REG_CR_8192E+1);
++	ODM_Write1Byte(pDM_Odm,  REG_CR_8192E+1, (u1bTmp | BIT0));
++
++	/*Set FWHW_TXQ_CTRL 0x422[6]=0 to tell Hw the packet is not a real beacon frame.*/
++	tmpReg422 = ODM_Read1Byte(pDM_Odm, REG_FWHW_TXQ_CTRL_8192E+2);
++	ODM_Write1Byte(pDM_Odm, REG_FWHW_TXQ_CTRL_8192E+2,  tmpReg422 & (~BIT6));
++
++	if (tmpReg422 & BIT6) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_WARNING, ("%s There is an Adapter is sending beacon.\n", __func__));
++		bSendBeacon = TRUE;
++	}
++
++	/*TDECTRL[15:8] 0x209[7:0] = 0xFE/0xFD	NDPA Head for TXDMA*/
++	ODM_Write1Byte(pDM_Odm, REG_DWBCN0_CTRL_8192E+1, Head_Page);
++
++	do {
++		/*Clear beacon valid check bit.*/
++		BcnValidReg = ODM_Read1Byte(pDM_Odm, REG_DWBCN0_CTRL_8192E+2);
++		ODM_Write1Byte(pDM_Odm, REG_DWBCN0_CTRL_8192E+2, (BcnValidReg | BIT0));
++
++		// download NDPA rsvd page.
++		Beamforming_SendHTNDPAPacket(pDM_Odm, pBeamEntry->MacAddr, pBeamEntry->SoundBW, BEACON_QUEUE);
++
++#if(DEV_BUS_TYPE == RT_PCI_INTERFACE)
++		u1bTmp = ODM_Read1Byte(pDM_Odm, REG_MGQ_TXBD_NUM_8192E+3);
++		count = 0;
++		while ((count < 20) && (u1bTmp & BIT4)) {
++			count++;
++			ODM_delay_us(10);
++			u1bTmp = ODM_Read1Byte(pDM_Odm, REG_MGQ_TXBD_NUM_8192E+3);
++		}
++		ODM_Write1Byte(pDM_Odm, REG_MGQ_TXBD_NUM_8192E+3, u1bTmp | BIT4);
++#endif
++
++		/*check rsvd page download OK.*/
++		BcnValidReg = ODM_Read1Byte(pDM_Odm, REG_DWBCN0_CTRL_8192E+2);
++		count = 0;
++		while (!(BcnValidReg & BIT0) && count < 20) {
++			count++;
++			ODM_delay_us(10);
++			BcnValidReg = ODM_Read1Byte(pDM_Odm, REG_DWBCN0_CTRL_8192E+2);
++		}
++		DLBcnCount++;
++	} while (!(BcnValidReg & BIT0) && DLBcnCount < 5);
++
++	if (!(BcnValidReg & BIT0))
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_WARNING, ("%s Download RSVD page failed!\n", __func__));
++
++	/*TDECTRL[15:8] 0x209[7:0] = 0xF9	Beacon Head for TXDMA*/
++	ODM_Write1Byte(pDM_Odm, REG_DWBCN0_CTRL_8192E+1, TxPageBndy);
++
++	/*To make sure that if there exists an adapter which would like to send beacon.*/
++	/*If exists, the origianl value of 0x422[6] will be 1, we should check this to*/
++	/*prevent from setting 0x422[6] to 0 after download reserved page, or it will cause*/
++	/*the beacon cannot be sent by HW.*/
++	/*2010.06.23. Added by tynli.*/
++	if (bSendBeacon)
++		ODM_Write1Byte(pDM_Odm, REG_FWHW_TXQ_CTRL_8192E+2, tmpReg422);
++
++	/*Do not enable HW DMA BCN or it will cause Pcie interface hang by timing issue. 2011.11.24. by tynli.*/
++	/*Clear CR[8] or beacon packet will not be send to TxBuf anymore.*/
++	u1bTmp = ODM_Read1Byte(pDM_Odm, REG_CR_8192E+1);
++	ODM_Write1Byte(pDM_Odm, REG_CR_8192E+1, (u1bTmp & (~BIT0)));
++
++	pBeamEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_PROGRESSED;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	*pDM_Odm->pbFwDwRsvdPageInProgress = FALSE;
++#endif
++}
++
++
++VOID
++HalTxbf8192E_Enter(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				BFerBFeeIdx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte					i = 0;
++	u1Byte					BFerIdx = (BFerBFeeIdx & 0xF0) >> 4;
++	u1Byte					BFeeIdx = (BFerBFeeIdx & 0xF);
++	u4Byte					CSI_Param;
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	RT_BEAMFORMEE_ENTRY	BeamformeeEntry;
++	RT_BEAMFORMER_ENTRY	BeamformerEntry;
++	u2Byte					STAid = 0;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	halTxbf8192E_RfMode(pDM_Odm, pBeamformingInfo);
++
++	if (pDM_Odm->RFType == ODM_2T2R)
++		ODM_Write4Byte(pDM_Odm, 0xd80, 0x00000000);		/*Nc =2*/
++
++	if ((pBeamformingInfo->beamformer_su_cnt > 0) && (BFerIdx < BEAMFORMER_ENTRY_NUM)) {
++		BeamformerEntry = pBeamformingInfo->BeamformerEntry[BFerIdx];
++
++		/*Sounding protocol control*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8192E, 0xCB);
++
++		/*MAC address/Partial AID of Beamformer*/
++		if (BFerIdx == 0) {
++			for (i = 0; i < 6 ; i++)
++				ODM_Write1Byte(pDM_Odm, (REG_ASSOCIATED_BFMER0_INFO_8192E+i), BeamformerEntry.MacAddr[i]);
++		} else {
++			for (i = 0; i < 6 ; i++)
++				ODM_Write1Byte(pDM_Odm, (REG_ASSOCIATED_BFMER1_INFO_8192E+i), BeamformerEntry.MacAddr[i]);
++		}
++
++		/*CSI report parameters of Beamformer Default use Nc = 2*/
++		CSI_Param = 0x03090309;
++
++		ODM_Write4Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW20_8192E, CSI_Param);
++		ODM_Write4Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW40_8192E, CSI_Param);
++		ODM_Write4Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW80_8192E, CSI_Param);
++
++		/*Timeout value for MAC to leave NDP_RX_standby_state (60 us, Test chip) (80 us,  MP chip)*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8192E+3, 0x50);
++
++	}
++
++	if ((pBeamformingInfo->beamformee_su_cnt > 0) && (BFeeIdx < BEAMFORMEE_ENTRY_NUM)) {
++		BeamformeeEntry = pBeamformingInfo->BeamformeeEntry[BFeeIdx];
++
++		if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS))
++			STAid = BeamformeeEntry.MacId;
++		else
++			STAid = BeamformeeEntry.P_AID;
++
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s], STAid=0x%X\n", __func__, STAid));
++
++		/*P_AID of Beamformee & enable NDPA transmission & enable NDPA interrupt*/
++		if (BFeeIdx == 0) {
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8192E, STAid);
++			ODM_Write1Byte(pDM_Odm, REG_TXBF_CTRL_8192E+3, ODM_Read1Byte(pDM_Odm, REG_TXBF_CTRL_8192E+3) | BIT4 | BIT6 | BIT7);
++		} else
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8192E+2, STAid | BIT12 | BIT14 | BIT15);
++
++		/*CSI report parameters of Beamformee*/
++		if (BFeeIdx == 0) {
++			/*Get BIT24 & BIT25*/
++			u1Byte tmp = ODM_Read1Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8192E+3) & 0x3;
++			
++			ODM_Write1Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8192E+3, tmp | 0x60);
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8192E, STAid | BIT9);
++		} else {
++			/*Set BIT25*/
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8192E+2, STAid | 0xE200);
++		}
++			phydm_Beamforming_Notify(pDM_Odm);
++
++	}
++}
++
++
++VOID
++HalTxbf8192E_Leave(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	halTxbf8192E_RfMode(pDM_Odm, pBeamInfo);
++
++	/*	Clear P_AID of Beamformee
++	* 	Clear MAC addresss of Beamformer
++	*	Clear Associated Bfmee Sel
++	*/
++	if (pBeamInfo->BeamformCap == BEAMFORMING_CAP_NONE)
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8192E, 0xC8);
++
++	if (Idx == 0) {
++		ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8192E, 0);
++		ODM_Write4Byte(pDM_Odm, REG_ASSOCIATED_BFMER0_INFO_8192E, 0);
++		ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMER0_INFO_8192E+4, 0);
++		ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8192E, 0);
++	} else {
++		ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8192E+2, ODM_Read1Byte(pDM_Odm, REG_TXBF_CTRL_8192E+2) & 0xF000);
++		ODM_Write4Byte(pDM_Odm, REG_ASSOCIATED_BFMER1_INFO_8192E, 0);
++		ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMER1_INFO_8192E+4, 0);
++		ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8192E+2, ODM_Read2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8192E+2) & 0x60);
++	}
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Idx %d\n", __func__, Idx));
++}
++
++
++VOID
++HalTxbf8192E_Status(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u2Byte					BeamCtrlVal;
++	u4Byte					BeamCtrlReg;
++	PRT_BEAMFORMING_INFO	pBeamInfo =  &pDM_Odm->BeamformingInfo;
++	RT_BEAMFORMEE_ENTRY	BeamformEntry = pBeamInfo->BeamformeeEntry[Idx];
++
++	if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS))
++		BeamCtrlVal = BeamformEntry.MacId;
++	else
++		BeamCtrlVal = BeamformEntry.P_AID;
++
++	if (Idx == 0)
++		BeamCtrlReg = REG_TXBF_CTRL_8192E;
++	else {
++		BeamCtrlReg = REG_TXBF_CTRL_8192E+2;
++		BeamCtrlVal |= BIT12 | BIT14 | BIT15;
++	}
++
++	if (BeamformEntry.BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++		if (BeamformEntry.SoundBW == CHANNEL_WIDTH_20)
++			BeamCtrlVal |= BIT9;
++		else if (BeamformEntry.SoundBW == CHANNEL_WIDTH_40)
++			BeamCtrlVal |= BIT10;
++	} else
++		BeamCtrlVal &= ~(BIT9 | BIT10 | BIT11);
++
++	ODM_Write2Byte(pDM_Odm, BeamCtrlReg, BeamCtrlVal);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Idx %d BeamCtrlReg %x BeamCtrlVal %x\n", __func__, Idx, BeamCtrlReg, BeamCtrlVal));
++}
++
++
++VOID
++HalTxbf8192E_FwTxBF(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pBeamEntry = pBeamInfo->BeamformeeEntry + Idx;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pBeamEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSING)
++		halTxbf8192E_DownloadNDPA(pDM_Odm, Idx);
++
++	halTxbf8192E_FwTxBFCmd(pDM_Odm);
++}
++
++#endif	/* #if (RTL8192E_SUPPORT == 1)*/
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbf8192e.h b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbf8192e.h
+new file mode 100644
+index 0000000..406c2d6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbf8192e.h
+@@ -0,0 +1,52 @@
++#ifndef __HAL_TXBF_8192E_H__
++#define __HAL_TXBF_8192E_H__
++
++#if (BEAMFORMING_SUPPORT == 1)
++#if (RTL8192E_SUPPORT == 1)
++VOID
++HalTxbf8192E_setNDPArate(
++	IN PVOID			pDM_VOID,
++	IN u1Byte	BW,
++	IN u1Byte	Rate
++);
++
++VOID
++HalTxbf8192E_Enter(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbf8192E_Leave(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbf8192E_Status(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbf8192E_FwTxBF(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++	);
++#else
++
++#define HalTxbf8192E_setNDPArate(pDM_VOID, BW, Rate)
++#define HalTxbf8192E_Enter(pDM_VOID, Idx)
++#define HalTxbf8192E_Leave(pDM_VOID, Idx)
++#define HalTxbf8192E_Status(pDM_VOID, Idx)
++#define HalTxbf8192E_FwTxBF(pDM_VOID, Idx)
++
++#endif
++
++#endif
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbf8814a.c b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbf8814a.c
+new file mode 100644
+index 0000000..1683f4a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbf8814a.c
+@@ -0,0 +1,663 @@
++//============================================================
++// Description:
++//
++// This file is for 8814A TXBF mechanism
++//
++//============================================================
++
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#if (BEAMFORMING_SUPPORT == 1)
++#if (RTL8814A_SUPPORT == 1)
++
++VOID
++HalTxbf8814A_setNDPArate(
++	IN PVOID			pDM_VOID,
++	IN u1Byte	BW,
++	IN u1Byte	Rate
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	ODM_Write1Byte(pDM_Odm, REG_NDPA_OPT_CTRL_8814A, BW);
++	ODM_Write1Byte(pDM_Odm, REG_NDPA_RATE_8814A, (u1Byte) Rate);
++
++}
++
++#define PHYDM_MEMORY_MAP_BUF_READ	0x8000
++#define PHYDM_CTRL_INFO_PAGE			0x660
++
++VOID
++phydm_DataRate_8814A(
++	IN	PDM_ODM_T			pDM_Odm,
++	IN	u1Byte				macId,	
++	OUT	pu4Byte				data,
++	IN	u1Byte				dataLen
++	)
++{
++	u1Byte	i = 0;
++	u2Byte	XReadDataAddr = 0;
++
++	ODM_Write2Byte(pDM_Odm, REG_PKTBUF_DBG_CTRL_8814A, PHYDM_CTRL_INFO_PAGE);
++	XReadDataAddr = PHYDM_MEMORY_MAP_BUF_READ + macId*32; /*Ctrl Info: 32Bytes for each macid(n)*/
++	
++	if ((XReadDataAddr < PHYDM_MEMORY_MAP_BUF_READ) || (XReadDataAddr > 0x8FFF)) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("XReadDataAddr(0x%x) is not correct!\n", XReadDataAddr));
++		return;	
++	}
++	
++	/* Read data */
++	for (i = 0; i < dataLen; i++)
++		*(data+i) = ODM_Read2Byte(pDM_Odm, XReadDataAddr+i);	
++	
++}
++
++VOID
++HalTxbf8814A_GetTxRate(
++	IN PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pEntry;
++	u4Byte	TxRptData = 0;
++	u1Byte	DataRate = 0xFF;
++
++	pEntry = &(pBeamInfo->BeamformeeEntry[pBeamInfo->BeamformeeCurIdx]);
++	
++	phydm_DataRate_8814A(pDM_Odm, (u1Byte)pEntry->MacId, &TxRptData, 1);
++	DataRate = (u1Byte)TxRptData;
++	DataRate &= bMask7bits;   /*Bit7 indicates SGI*/
++
++	pDM_Odm->TxBfDataRate = DataRate;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] pDM_Odm->TxBfDataRate = 0x%x\n", __func__, pDM_Odm->TxBfDataRate));
++}
++
++VOID
++HalTxbf8814A_ResetTxPath(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	RT_BEAMFORMEE_ENTRY	BeamformeeEntry;
++	u1Byte	Nr_index = 0;
++
++	if (idx < BEAMFORMEE_ENTRY_NUM)
++		BeamformeeEntry = pBeamformingInfo->BeamformeeEntry[idx];
++	else
++		return;
++
++	if ((pDM_Odm->LastUSBHub) != (*pDM_Odm->HubUsbMode)) {
++		Nr_index = TxBF_Nr(halTxbf8814A_GetNtx(pDM_Odm), BeamformeeEntry.CompSteeringNumofBFer);
++
++		if (idx == 0) {
++			switch (Nr_index) {
++			case 0:
++			break;
++
++			case 1:			/*Nsts = 2	BC*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF0_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x9366);		/*tx2path, BC*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x936);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8814A, bMaskLWord, 0x9360);
++			break;
++
++			case 2:			/*Nsts = 3	BCD*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF0_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x93e93ee);	/*tx3path, BCD*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x93e);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8814A, bMaskDWord, 0x93e93e0);
++			break;
++
++			default:			/*Nr>3, same as Case 3*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF0_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x93f93ff);	/*tx4path, ABCD*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x93f);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskDWord, 0x93f93f0);
++			break;
++			}
++		} else	{
++			switch (Nr_index) {
++			case 0:
++				break;
++
++			case 1:			/*Nsts = 2	BC*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x9366);		/*tx2path, BC*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x936);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8814A, bMaskLWord, 0x9360);
++			break;
++
++			case 2:			/*Nsts = 3	BCD*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x93e93ee);	/*tx3path, BCD*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x93e);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8814A, bMaskDWord, 0x93e93e0);
++			break;
++
++			default:			/*Nr>3, same as Case 3*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x93f93ff);	/*tx4path, ABCD*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x93f);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8814A, bMaskDWord, 0x93f93f0);
++			break;
++			}
++		}
++
++		pDM_Odm->LastUSBHub = *pDM_Odm->HubUsbMode;
++	} else
++		return;
++#endif
++}
++
++
++u1Byte
++halTxbf8814A_GetNtx(
++	IN PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			Ntx = 0;
++
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++	if (pDM_Odm->SupportInterface == ODM_ITRF_USB) {
++		if (*pDM_Odm->HubUsbMode == 2) {/*USB3.0*/
++			if (pDM_Odm->RFType == ODM_4T4R)
++				Ntx = 3;
++			else if (pDM_Odm->RFType == ODM_3T3R)
++				Ntx = 2;
++			else
++				Ntx = 1;
++		} else if (*pDM_Odm->HubUsbMode == 1)	/*USB 2.0 always 2Tx*/
++			Ntx = 1;
++		else
++			Ntx = 1;
++	} else
++#endif
++	{
++		if (pDM_Odm->RFType == ODM_4T4R)
++			Ntx = 3;
++		else if (pDM_Odm->RFType == ODM_3T3R)
++			Ntx = 2;
++		else
++			Ntx = 1;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Ntx = %d\n", __func__, Ntx));
++	return Ntx;
++}
++
++u1Byte
++halTxbf8814A_GetNrx(
++	IN PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			Nrx = 0;
++
++	if (pDM_Odm->RFType == ODM_4T4R)
++		Nrx = 3;
++	else if (pDM_Odm->RFType == ODM_3T3R)
++		Nrx = 2;
++	else if (pDM_Odm->RFType == ODM_2T2R)
++		Nrx = 1;
++	else if (pDM_Odm->RFType == ODM_2T3R)
++		Nrx = 2;
++	else if (pDM_Odm->RFType == ODM_2T4R)
++		Nrx = 3;
++	else if (pDM_Odm->RFType == ODM_1T1R)
++		Nrx = 0;
++	else if (pDM_Odm->RFType == ODM_1T2R)
++		Nrx = 1;
++	else
++		Nrx = 0;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Nrx = %d\n", __func__, Nrx));
++	return Nrx;
++}
++
++VOID
++halTxbf8814A_RfMode(
++	IN PVOID			pDM_VOID,
++	IN	PRT_BEAMFORMING_INFO	pBeamformingInfo,
++	IN	u1Byte					idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte				i, Nr_index = 0;
++	RT_BEAMFORMEE_ENTRY	BeamformeeEntry;
++
++	if (idx < BEAMFORMEE_ENTRY_NUM)
++		BeamformeeEntry = pBeamformingInfo->BeamformeeEntry[idx];
++	else
++		return;
++
++	Nr_index = TxBF_Nr(halTxbf8814A_GetNtx(pDM_Odm), BeamformeeEntry.CompSteeringNumofBFer);
++
++	if (pDM_Odm->RFType == ODM_1T1R)
++		return;
++
++	for (i = ODM_RF_PATH_A; i < MAX_RF_PATH; i++) {
++		ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_WeLut_Jaguar, 0x80000, 0x1);
++		/*RF Mode table write enable*/
++	}
++
++	if (pBeamformingInfo->beamformee_su_cnt > 0) {
++		for (i = ODM_RF_PATH_A; i < MAX_RF_PATH; i++) {
++			ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_ModeTableAddr, 0xfffff, 0x18000);
++			/*Select RX mode*/
++			ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_ModeTableData0, 0xfffff, 0xBE77F);
++			/*Set Table data*/
++			ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_ModeTableData1, 0xfffff, 0x226BF);
++			/*Enable TXIQGEN in RX mode*/
++		}
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData1, 0xfffff, 0xE26BF);
++		/*Enable TXIQGEN in RX mode*/
++	}
++
++	for (i = ODM_RF_PATH_A; i < MAX_RF_PATH; i++) {
++		ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_WeLut_Jaguar, 0x80000, 0x0);
++		/*RF Mode table write disable*/
++	}
++
++	if (pBeamformingInfo->beamformee_su_cnt > 0) {
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++		pDM_Odm->LastUSBHub = *pDM_Odm->HubUsbMode;
++#endif
++
++		/*for 8814 19ac(idx 1), 19b4(idx 0), different Tx ant setting*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8814A, BIT28 | BIT29, 0x2);			/*enable BB TxBF ant mapping register*/
++
++		if (idx == 0) {
++			switch (Nr_index) {
++			case 0:
++				break;
++
++			case 1:			/*Nsts = 2	BC*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF0_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x9366);		/*tx2path, BC*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x936);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8814A, bMaskLWord, 0x9360);
++			break;
++
++			case 2:			/*Nsts = 3	BCD*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF0_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x93e93ee);	/*tx3path, BCD*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x93e);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8814A, bMaskDWord, 0x93e93e0);
++			break;
++
++			default:			/*Nr>3, same as Case 3*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF0_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x93f93ff);	/*tx4path, ABCD*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x93f);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskDWord, 0x93f93f0);
++			break;
++			}
++		} else {
++			switch (Nr_index) {
++			case 0:
++			break;
++
++			case 1:			/*Nsts = 2	BC*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x9366);		/*tx2path, BC*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x936);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8814A, bMaskLWord, 0x9360);
++			break;
++
++			case 2:			/*Nsts = 3	BCD*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x93e93ee);	/*tx3path, BCD*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x93e);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8814A, bMaskDWord, 0x93e93e0);
++			break;
++
++			default:			/*Nr>3, same as Case 3*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x93f93ff);	/*tx4path, ABCD*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x93f);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8814A, bMaskDWord, 0x93f93f0);
++			break;
++			}
++		}
++	}
++
++	if ((pBeamformingInfo->beamformee_su_cnt == 0) && (pBeamformingInfo->beamformer_su_cnt == 0)) {
++		ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x932);	/*set TxPath selection for 8814a BFer bug refine*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8814A, bMaskDWord, 0x93e9360);
++	}
++}
++#if 0
++VOID
++halTxbf8814A_DownloadNDPA(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			u1bTmp = 0, tmpReg422 = 0;
++	u1Byte			BcnValidReg = 0, count = 0, DLBcnCount = 0;
++	u2Byte			Head_Page = 0x7FE;
++	BOOLEAN			bSendBeacon = FALSE;
++	u2Byte			TxPageBndy = LAST_ENTRY_OF_TX_PKT_BUFFER_8814A; /*default reseved 1 page for the IC type which is undefined.*/
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pBeamEntry = pBeamInfo->BeamformeeEntry + Idx;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	*pDM_Odm->pbFwDwRsvdPageInProgress = TRUE;
++#endif
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	Adapter->HalFunc.GetHalDefVarHandler(Adapter, HAL_DEF_TX_PAGE_BOUNDARY, (pu2Byte)&TxPageBndy);
++
++	/*Set REG_CR bit 8. DMA beacon by SW.*/
++	u1bTmp = ODM_Read1Byte(pDM_Odm, REG_CR_8814A + 1);
++	ODM_Write1Byte(pDM_Odm,  REG_CR_8814A + 1, (u1bTmp | BIT0));
++
++
++	/*Set FWHW_TXQ_CTRL 0x422[6]=0 to tell Hw the packet is not a real beacon frame.*/
++	tmpReg422 = ODM_Read1Byte(pDM_Odm, REG_FWHW_TXQ_CTRL_8814A + 2);
++	ODM_Write1Byte(pDM_Odm, REG_FWHW_TXQ_CTRL_8814A + 2,  tmpReg422 & (~BIT6));
++
++	if (tmpReg422 & BIT6) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: There is an Adapter is sending beacon.\n", __func__));
++		bSendBeacon = TRUE;
++	}
++
++	/*0x204[11:0]	Beacon Head for TXDMA*/
++	ODM_Write2Byte(pDM_Odm, REG_FIFOPAGE_CTRL_2_8814A, Head_Page);
++
++	do {
++		/*Clear beacon valid check bit.*/
++		BcnValidReg = ODM_Read1Byte(pDM_Odm, REG_FIFOPAGE_CTRL_2_8814A + 1);
++		ODM_Write1Byte(pDM_Odm, REG_FIFOPAGE_CTRL_2_8814A + 1, (BcnValidReg | BIT7));
++
++		/*download NDPA rsvd page.*/
++		if (pBeamEntry->BeamformEntryCap & BEAMFORMER_CAP_VHT_SU)
++			Beamforming_SendVHTNDPAPacket(pDM_Odm, pBeamEntry->MacAddr, pBeamEntry->AID, pBeamEntry->SoundBW, BEACON_QUEUE);
++		else
++			Beamforming_SendHTNDPAPacket(pDM_Odm, pBeamEntry->MacAddr, pBeamEntry->SoundBW, BEACON_QUEUE);
++
++		/*check rsvd page download OK.*/
++		BcnValidReg = ODM_Read1Byte(pDM_Odm, REG_FIFOPAGE_CTRL_2_8814A + 1);
++		count = 0;
++		while (!(BcnValidReg & BIT7) && count < 20) {
++			count++;
++			ODM_delay_ms(10);
++			BcnValidReg = ODM_Read1Byte(pDM_Odm, REG_FIFOPAGE_CTRL_2_8814A + 2);
++		}
++		DLBcnCount++;
++	} while (!(BcnValidReg & BIT7) && DLBcnCount < 5);
++
++	if (!(BcnValidReg & BIT7))
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Download RSVD page failed!\n", __func__));
++
++	/*0x204[11:0]	Beacon Head for TXDMA*/
++	ODM_Write2Byte(pDM_Odm, REG_FIFOPAGE_CTRL_2_8814A, TxPageBndy);
++
++	/*To make sure that if there exists an adapter which would like to send beacon.*/
++	/*If exists, the origianl value of 0x422[6] will be 1, we should check this to*/
++	/*prevent from setting 0x422[6] to 0 after download reserved page, or it will cause */
++	/*the beacon cannot be sent by HW.*/
++	/*2010.06.23. Added by tynli.*/
++	if (bSendBeacon)
++		ODM_Write1Byte(pDM_Odm, REG_FWHW_TXQ_CTRL_8814A + 2, tmpReg422);
++
++	/*Do not enable HW DMA BCN or it will cause Pcie interface hang by timing issue. 2011.11.24. by tynli.*/
++	/*Clear CR[8] or beacon packet will not be send to TxBuf anymore.*/
++	u1bTmp = ODM_Read1Byte(pDM_Odm, REG_CR_8814A + 1);
++	ODM_Write1Byte(pDM_Odm, REG_CR_8814A + 1, (u1bTmp & (~BIT0)));
++
++	pBeamEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_PROGRESSED;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	*pDM_Odm->pbFwDwRsvdPageInProgress = FALSE;
++#endif
++}
++
++VOID
++halTxbf8814A_FwTxBFCmd(
++	IN PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	Idx, Period = 0;
++	u1Byte	PageNum0 = 0xFF, PageNum1 = 0xFF;
++	u1Byte	u1TxBFParm[3] = {0};
++	PRT_BEAMFORMING_INFO pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	for (Idx = 0; Idx < BEAMFORMEE_ENTRY_NUM; Idx++) {
++		if (pBeamInfo->BeamformeeEntry[Idx].bUsed && pBeamInfo->BeamformeeEntry[Idx].BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++			if (pBeamInfo->BeamformeeEntry[Idx].bSound) {
++				PageNum0 = 0xFE;
++				PageNum1 = 0x07;
++				Period = (u1Byte)(pBeamInfo->BeamformeeEntry[Idx].SoundPeriod);
++			} else if (PageNum0 == 0xFF) {
++				PageNum0 = 0xFF; /*stop sounding*/
++				PageNum1 = 0x0F;
++			}
++		}
++	}
++
++	u1TxBFParm[0] = PageNum0;
++	u1TxBFParm[1] = PageNum1;
++	u1TxBFParm[2] = Period;
++	ODM_FillH2CCmd(pDM_Odm, PHYDM_H2C_TXBF, 3, u1TxBFParm);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, 
++		("[%s] PageNum0 = %d, PageNum1 = %d Period = %d\n", __func__, PageNum0, PageNum1, Period));
++}
++#endif
++VOID
++HalTxbf8814A_Enter(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				BFerBFeeIdx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte					i = 0;
++	u1Byte					BFerIdx = (BFerBFeeIdx & 0xF0) >> 4;
++	u1Byte					BFeeIdx = (BFerBFeeIdx & 0xF);
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	RT_BEAMFORMEE_ENTRY	BeamformeeEntry;
++	RT_BEAMFORMER_ENTRY	BeamformerEntry;
++	u2Byte					STAid = 0, CSI_Param = 0;
++	u1Byte					Nc_index = 0, Nr_index = 0, grouping = 0, codebookinfo = 0, coefficientsize = 0;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] BFerIdx=%d, BFeeIdx=%d\n", __func__, BFerIdx, BFeeIdx));
++	ODM_SetMACReg(pDM_Odm, REG_SND_PTCL_CTRL_8814A, bMaskByte1 | bMaskByte2, 0x0202);
++
++	if ((pBeamformingInfo->beamformer_su_cnt > 0) && (BFerIdx < BEAMFORMER_ENTRY_NUM)) {
++		BeamformerEntry = pBeamformingInfo->BeamformerEntry[BFerIdx];
++		/*Sounding protocol control*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8814A, 0xDB);
++
++		/*MAC address/Partial AID of Beamformer*/
++		if (BFerIdx == 0) {
++			for (i = 0; i < 6 ; i++)
++				ODM_Write1Byte(pDM_Odm, (REG_ASSOCIATED_BFMER0_INFO_8814A + i), BeamformerEntry.MacAddr[i]);
++		} else {
++			for (i = 0; i < 6 ; i++)
++				ODM_Write1Byte(pDM_Odm, (REG_ASSOCIATED_BFMER1_INFO_8814A + i), BeamformerEntry.MacAddr[i]);
++		}
++
++		/*CSI report parameters of Beamformer*/
++		Nc_index = halTxbf8814A_GetNrx(pDM_Odm);	/*for 8814A Nrx = 3(4 Ant), min=0(1 Ant)*/
++		Nr_index = BeamformerEntry.NumofSoundingDim;	/*0x718[7] = 1 use Nsts, 0x718[7] = 0 use reg setting. as Bfee, we use Nsts, so Nr_index don't care*/
++
++		grouping = 0;
++
++		/*for ac = 1, for n = 3*/
++		if (BeamformerEntry.BeamformEntryCap & BEAMFORMEE_CAP_VHT_SU)
++			codebookinfo = 1;
++		else if (BeamformerEntry.BeamformEntryCap & BEAMFORMEE_CAP_HT_EXPLICIT)
++			codebookinfo = 3;
++
++		coefficientsize = 3;
++
++		CSI_Param = (u2Byte)((coefficientsize << 10) | (codebookinfo << 8) | (grouping << 6) | (Nr_index << 3) | (Nc_index));
++
++		if (BFerIdx == 0)
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW20_8814A, CSI_Param);
++		else
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW20_8814A + 2, CSI_Param);
++		/*ndp_rx_standby_timer, 8814 need > 0x56, suggest from Dvaid*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8814A + 3, 0x40);
++
++	}
++
++	if ((pBeamformingInfo->beamformee_su_cnt > 0) && (BFeeIdx < BEAMFORMEE_ENTRY_NUM)) {
++		BeamformeeEntry = pBeamformingInfo->BeamformeeEntry[BFeeIdx];
++
++		halTxbf8814A_RfMode(pDM_Odm, pBeamformingInfo, BFeeIdx);
++
++		if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS))
++			STAid = BeamformeeEntry.MacId;
++		else
++			STAid = BeamformeeEntry.P_AID;
++
++		/*P_AID of Beamformee & enable NDPA transmission & enable NDPA interrupt*/
++		if (BFeeIdx == 0) {
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8814A, STAid);
++			ODM_Write1Byte(pDM_Odm, REG_TXBF_CTRL_8814A + 3, ODM_Read1Byte(pDM_Odm, REG_TXBF_CTRL_8814A + 3) | BIT4 | BIT6 | BIT7);
++		} else
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8814A + 2, STAid | BIT14 | BIT15 | BIT12);
++
++		/*CSI report parameters of Beamformee*/
++		if (BFeeIdx == 0) {
++			/*Get BIT24 & BIT25*/
++			u1Byte	tmp = ODM_Read1Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8814A + 3) & 0x3;
++
++			ODM_Write1Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8814A + 3, tmp | 0x60);
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8814A, STAid | BIT9);
++		} else
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8814A + 2, STAid | 0xE200);	/*Set BIT25*/
++
++		phydm_Beamforming_Notify(pDM_Odm);
++	}
++
++}
++
++
++VOID
++HalTxbf8814A_Leave(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	RT_BEAMFORMER_ENTRY	BeamformerEntry;
++	RT_BEAMFORMEE_ENTRY	BeamformeeEntry;
++
++	if (Idx < BEAMFORMER_ENTRY_NUM) {
++		BeamformerEntry = pBeamformingInfo->BeamformerEntry[Idx];
++		BeamformeeEntry = pBeamformingInfo->BeamformeeEntry[Idx];
++	} else
++		return;
++
++	/*Clear P_AID of Beamformee*/
++	/*Clear MAC address of Beamformer*/
++	/*Clear Associated Bfmee Sel*/
++
++	if (BeamformerEntry.BeamformEntryCap == BEAMFORMING_CAP_NONE) {
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8814A, 0xD8);
++		if (Idx == 0) {
++			ODM_Write4Byte(pDM_Odm, REG_ASSOCIATED_BFMER0_INFO_8814A, 0);
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMER0_INFO_8814A + 4, 0);
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW20_8814A, 0);
++		} else {
++			ODM_Write4Byte(pDM_Odm, REG_ASSOCIATED_BFMER1_INFO_8814A, 0);
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMER1_INFO_8814A + 4, 0);
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW20_8814A + 2, 0);
++		}
++	}
++
++	if (BeamformeeEntry.BeamformEntryCap == BEAMFORMING_CAP_NONE) {
++		halTxbf8814A_RfMode(pDM_Odm, pBeamformingInfo, Idx);
++		if (Idx == 0) {
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8814A, 0x0);
++			ODM_Write1Byte(pDM_Odm, REG_TXBF_CTRL_8814A + 3, ODM_Read1Byte(pDM_Odm, REG_TXBF_CTRL_8814A + 3) | BIT4 | BIT6 | BIT7);
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8814A, 0);
++		} else {
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8814A + 2, 0x0 | BIT14 | BIT15 | BIT12);
++
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8814A + 2, ODM_Read2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8814A + 2) & 0x60);
++		}
++	}
++}
++
++VOID
++HalTxbf8814A_Status(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u2Byte					BeamCtrlVal, tmpVal;
++	u4Byte					BeamCtrlReg;
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	RT_BEAMFORMEE_ENTRY	BeamformEntry;
++
++	if (Idx < BEAMFORMEE_ENTRY_NUM)
++		BeamformEntry = pBeamformingInfo->BeamformeeEntry[Idx];
++	else
++		return;
++
++	if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS))
++		BeamCtrlVal = BeamformEntry.MacId;
++	else
++		BeamCtrlVal = BeamformEntry.P_AID;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s, BeamformEntry.BeamformEntryState = %d", __func__, BeamformEntry.BeamformEntryState));
++
++	if (Idx == 0)
++		BeamCtrlReg = REG_TXBF_CTRL_8814A;
++	else {
++		BeamCtrlReg = REG_TXBF_CTRL_8814A + 2;
++		BeamCtrlVal |= BIT12 | BIT14 | BIT15;
++	}
++
++	if (BeamformEntry.BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++		if (BeamformEntry.SoundBW == CHANNEL_WIDTH_20)
++			BeamCtrlVal |= BIT9;
++		else if (BeamformEntry.SoundBW == CHANNEL_WIDTH_40)
++			BeamCtrlVal |= (BIT9 | BIT10);
++		else if (BeamformEntry.SoundBW == CHANNEL_WIDTH_80)
++			BeamCtrlVal |= (BIT9 | BIT10 | BIT11);
++	} else {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s, Don't apply Vmatrix",  __func__));
++		BeamCtrlVal &= ~(BIT9 | BIT10 | BIT11);
++	}
++
++	ODM_Write2Byte(pDM_Odm, BeamCtrlReg, BeamCtrlVal);
++	/*disable NDP packet use beamforming */
++	tmpVal = ODM_Read2Byte(pDM_Odm, REG_TXBF_CTRL_8814A);
++	ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8814A, tmpVal | BIT15);
++
++}
++
++
++
++
++
++VOID
++HalTxbf8814A_FwTxBF(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++)
++{
++#if 0
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pBeamEntry = pBeamInfo->BeamformeeEntry + Idx;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pBeamEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSING)
++		halTxbf8814A_DownloadNDPA(pDM_Odm, Idx);
++
++	halTxbf8814A_FwTxBFCmd(pDM_Odm);
++#endif
++}
++
++#endif	/* (RTL8814A_SUPPORT == 1)*/
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbf8814a.h b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbf8814a.h
+new file mode 100644
+index 0000000..7efdc02
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbf8814a.h
+@@ -0,0 +1,70 @@
++#ifndef __HAL_TXBF_8814A_H__
++#define __HAL_TXBF_8814A_H__
++
++#if (BEAMFORMING_SUPPORT == 1)
++#if (RTL8814A_SUPPORT == 1)
++VOID
++HalTxbf8814A_setNDPArate(
++	IN PVOID			pDM_VOID,
++	IN u1Byte	BW,
++	IN u1Byte	Rate
++);
++
++u1Byte
++halTxbf8814A_GetNtx(
++	IN PVOID			pDM_VOID
++	);
++
++VOID
++HalTxbf8814A_Enter(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbf8814A_Leave(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbf8814A_Status(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++VOID
++HalTxbf8814A_ResetTxPath(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbf8814A_GetTxRate(
++	IN PVOID			pDM_VOID
++	);
++
++VOID
++HalTxbf8814A_FwTxBF(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++	);
++#else
++
++#define HalTxbf8814A_setNDPArate(pDM_VOID,	BW,	Rate)
++#define halTxbf8814A_GetNtx(pDM_VOID) 0
++#define HalTxbf8814A_Enter(pDM_VOID, Idx)
++#define HalTxbf8814A_Leave(pDM_VOID, Idx)
++#define HalTxbf8814A_Status(pDM_VOID, Idx)
++#define HalTxbf8814A_ResetTxPath(pDM_VOID,	Idx)
++#define HalTxbf8814A_GetTxRate(pDM_VOID)
++#define HalTxbf8814A_FwTxBF(pDM_VOID,	Idx)
++#endif
++
++#endif
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbf8822b.c b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbf8822b.c
+new file mode 100644
+index 0000000..59ac2c6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbf8822b.c
+@@ -0,0 +1,1101 @@
++/*============================================================*/
++/* Description:                                               */
++/*                                                            */
++/* This file is for 8814A TXBF mechanism                      */
++/*                                                            */
++/*============================================================*/
++
++#include "mp_precomp.h"
++
++#if (BEAMFORMING_SUPPORT == 1)
++#if (RTL8822B_SUPPORT == 1)
++
++u1Byte
++halTxbf8822B_GetNtx(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			Ntx = 0;
++
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++	if (pDM_Odm->SupportInterface == ODM_ITRF_USB) {
++		if (*pDM_Odm->HubUsbMode == 2) {/*USB3.0*/
++			if (pDM_Odm->RFType == ODM_4T4R)
++				Ntx = 3;
++			else if (pDM_Odm->RFType == ODM_3T3R)
++				Ntx = 2;
++			else
++				Ntx = 1;
++		} else if (*pDM_Odm->HubUsbMode == 1)	/*USB 2.0 always 2Tx*/
++			Ntx = 1;
++		else
++			Ntx = 1;
++	} else
++#endif
++	{
++		if (pDM_Odm->RFType == ODM_4T4R)
++			Ntx = 3;
++		else if (pDM_Odm->RFType == ODM_3T3R)
++			Ntx = 2;
++		else
++			Ntx = 1;
++	}
++
++	return Ntx;
++
++}
++
++u1Byte
++halTxbf8822B_GetNrx(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			Nrx = 0;
++
++	if (pDM_Odm->RFType == ODM_4T4R)
++		Nrx = 3;
++	else if (pDM_Odm->RFType == ODM_3T3R)
++		Nrx = 2;
++	else if (pDM_Odm->RFType == ODM_2T2R)
++		Nrx = 1;
++	else if (pDM_Odm->RFType == ODM_2T3R)
++		Nrx = 2;
++	else if (pDM_Odm->RFType == ODM_2T4R)
++		Nrx = 3;
++	else if (pDM_Odm->RFType == ODM_1T1R)
++		Nrx = 0;
++	else if (pDM_Odm->RFType == ODM_1T2R)
++		Nrx = 1;
++	else
++		Nrx = 0;
++
++	return Nrx;
++	
++}
++
++/***************SU & MU BFee Entry********************/
++VOID
++halTxbf8822B_RfMode(
++	IN PVOID			pDM_VOID,
++	IN	PRT_BEAMFORMING_INFO	pBeamformingInfo,
++	IN	u1Byte					idx
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte				i, Nr_index = 0;
++	BOOLEAN				bSelfBeamformer = FALSE;
++	BOOLEAN				bSelfBeamformee = FALSE;
++	RT_BEAMFORMEE_ENTRY	BeamformeeEntry;
++
++	if (idx < BEAMFORMEE_ENTRY_NUM)
++		BeamformeeEntry = pBeamformingInfo->BeamformeeEntry[idx];
++	else
++		return;
++
++	if (pDM_Odm->RFType == ODM_1T1R)
++		return;
++
++	for (i = ODM_RF_PATH_A; i < ODM_RF_PATH_B; i++) {
++		ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_WeLut_Jaguar, 0x80000, 0x1);
++		/*RF Mode table write enable*/
++	}
++
++	if ((pBeamformingInfo->beamformee_su_cnt > 0) || (pBeamformingInfo->beamformee_mu_cnt > 0)) {
++		for (i = ODM_RF_PATH_A; i < ODM_RF_PATH_B; i++) {
++			ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_ModeTableAddr, 0xfffff, 0x18000);
++			/*Select RX mode*/
++			ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_ModeTableData0, 0xfffff, 0xBE77F);
++			/*Set Table data*/
++			ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_ModeTableData1, 0xfffff, 0x226BF);
++			/*Enable TXIQGEN in RX mode*/
++		}
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData1, 0xfffff, 0xE26BF);
++		/*Enable TXIQGEN in RX mode*/
++	}
++
++	for (i = ODM_RF_PATH_A; i < ODM_RF_PATH_B; i++) {
++		ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_WeLut_Jaguar, 0x80000, 0x0);
++		/*RF Mode table write disable*/
++	}
++
++	if (pBeamformingInfo->beamformee_su_cnt > 0) {
++
++		/*for 8814 19ac(idx 1), 19b4(idx 0), different Tx ant setting*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8822B, BIT28|BIT29, 0x2);			/*enable BB TxBF ant mapping register*/
++		
++		if (idx == 0) {
++			/*Nsts = 2	AB*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF0_8822B, 0xffff, 0x0433);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8822B, 0xfff00000, 0x043);
++			/*ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2, bMaskLWord, 0x430);*/
++
++		} else {/*IDX =1*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8822B, 0xffff, 0x0433);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8822B, 0xfff00000, 0x043);
++			/*ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2, bMaskLWord, 0x430;*/
++		}
++	} else {
++		ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8822B, 0xfff00000, 0x1); /*1SS by path-A*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8822B, bMaskLWord, 0x430); /*2SS by path-A,B*/
++	}
++	
++	if (pBeamformingInfo->beamformee_mu_cnt > 0) {
++		/*MU STAs share the common setting*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8822B, BIT31, 1);
++		ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8822B, 0xffff, 0x0433);
++		ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8822B, 0xfff00000, 0x043);
++	}
++
++}
++#if 0
++VOID
++halTxbf8822B_DownloadNDPA(
++	IN	PADAPTER			Adapter,
++	IN	u1Byte				Idx
++	)
++{
++	u1Byte			u1bTmp = 0, tmpReg422 = 0;
++	u1Byte			BcnValidReg = 0, count = 0, DLBcnCount = 0;
++	u2Byte			Head_Page = 0x7FE;
++	BOOLEAN			bSendBeacon = FALSE;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u2Byte			TxPageBndy = LAST_ENTRY_OF_TX_PKT_BUFFER_8814A; /*default reseved 1 page for the IC type which is undefined.*/
++	PRT_BEAMFORMING_INFO	pBeamInfo = GET_BEAMFORM_INFO(Adapter);
++	PRT_BEAMFORMEE_ENTRY	pBeamEntry = pBeamInfo->BeamformeeEntry+Idx;
++
++	pHalData->bFwDwRsvdPageInProgress = TRUE;
++	Adapter->HalFunc.GetHalDefVarHandler(Adapter, HAL_DEF_TX_PAGE_BOUNDARY, (pu2Byte)&TxPageBndy);
++	
++	/*Set REG_CR bit 8. DMA beacon by SW.*/
++	u1bTmp = PlatformEFIORead1Byte(Adapter, REG_CR_8814A+1);
++	PlatformEFIOWrite1Byte(Adapter,  REG_CR_8814A+1, (u1bTmp|BIT0));
++
++
++	/*Set FWHW_TXQ_CTRL 0x422[6]=0 to tell Hw the packet is not a real beacon frame.*/
++	tmpReg422 = PlatformEFIORead1Byte(Adapter, REG_FWHW_TXQ_CTRL_8814A+2);
++	PlatformEFIOWrite1Byte(Adapter, REG_FWHW_TXQ_CTRL_8814A+2,  tmpReg422&(~BIT6));
++
++	if (tmpReg422 & BIT6) {
++		RT_TRACE(COMP_INIT, DBG_LOUD, ("SetBeamformDownloadNDPA_8814A(): There is an Adapter is sending beacon.\n"));
++		bSendBeacon = TRUE;
++	}
++
++	/*0x204[11:0]	Beacon Head for TXDMA*/
++	PlatformEFIOWrite2Byte(Adapter, REG_FIFOPAGE_CTRL_2_8814A, Head_Page);
++	
++	do {		
++		/*Clear beacon valid check bit.*/
++		BcnValidReg = PlatformEFIORead1Byte(Adapter, REG_FIFOPAGE_CTRL_2_8814A+1);
++		PlatformEFIOWrite1Byte(Adapter, REG_FIFOPAGE_CTRL_2_8814A+1, (BcnValidReg|BIT7));
++		
++		/*download NDPA rsvd page.*/
++		if (pBeamEntry->BeamformEntryCap & BEAMFORMER_CAP_VHT_SU)
++			Beamforming_SendVHTNDPAPacket(pDM_Odm, pBeamEntry->MacAddr, pBeamEntry->AID, pBeamEntry->SoundBW, BEACON_QUEUE);
++		else 
++			Beamforming_SendHTNDPAPacket(pDM_Odm, pBeamEntry->MacAddr, pBeamEntry->SoundBW, BEACON_QUEUE);
++	
++		/*check rsvd page download OK.*/
++		BcnValidReg = PlatformEFIORead1Byte(Adapter, REG_FIFOPAGE_CTRL_2_8814A + 1);
++		count = 0;
++		while (!(BcnValidReg & BIT7) && count < 20) {
++			count++;
++			delay_us(10);
++			BcnValidReg = PlatformEFIORead1Byte(Adapter, REG_FIFOPAGE_CTRL_2_8814A+2);
++		}
++		DLBcnCount++;
++	} while (!(BcnValidReg & BIT7) && DLBcnCount < 5);
++	
++	if (!(BcnValidReg & BIT0))
++		RT_DISP(FBEAM, FBEAM_ERROR, ("%s Download RSVD page failed!\n", __func__));
++
++	/*0x204[11:0]	Beacon Head for TXDMA*/
++	PlatformEFIOWrite2Byte(Adapter, REG_FIFOPAGE_CTRL_2_8814A, TxPageBndy);
++
++	/*To make sure that if there exists an adapter which would like to send beacon.*/
++	/*If exists, the origianl value of 0x422[6] will be 1, we should check this to*/
++	/*prevent from setting 0x422[6] to 0 after download reserved page, or it will cause */
++	/*the beacon cannot be sent by HW.*/
++	/*2010.06.23. Added by tynli.*/
++	if (bSendBeacon)
++		PlatformEFIOWrite1Byte(Adapter, REG_FWHW_TXQ_CTRL_8814A+2, tmpReg422);
++
++	/*Do not enable HW DMA BCN or it will cause Pcie interface hang by timing issue. 2011.11.24. by tynli.*/
++	/*Clear CR[8] or beacon packet will not be send to TxBuf anymore.*/
++	u1bTmp = PlatformEFIORead1Byte(Adapter, REG_CR_8814A+1);
++	PlatformEFIOWrite1Byte(Adapter, REG_CR_8814A+1, (u1bTmp&(~BIT0)));
++
++	pBeamEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_PROGRESSED;
++
++	pHalData->bFwDwRsvdPageInProgress = FALSE;
++}
++
++VOID
++halTxbf8822B_FwTxBFCmd(
++	IN	PADAPTER	Adapter
++	)
++{
++	u1Byte	Idx, Period = 0;
++	u1Byte	PageNum0 = 0xFF, PageNum1 = 0xFF;
++	u1Byte	u1TxBFParm[3] = {0};
++
++	PMGNT_INFO				pMgntInfo = &(Adapter->MgntInfo);
++	PRT_BEAMFORMING_INFO	pBeamInfo = GET_BEAMFORM_INFO(Adapter);
++
++	for (Idx = 0; Idx < BEAMFORMEE_ENTRY_NUM; Idx++) {
++		if (pBeamInfo->BeamformeeEntry[Idx].bUsed && pBeamInfo->BeamformeeEntry[Idx].BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++			if (pBeamInfo->BeamformeeEntry[Idx].bSound) {
++				PageNum0 = 0xFE;
++				PageNum1 = 0x07;
++				Period = (u1Byte)(pBeamInfo->BeamformeeEntry[Idx].SoundPeriod);
++			} else if (PageNum0 == 0xFF) {
++				PageNum0 = 0xFF; /*stop sounding*/
++				PageNum1 = 0x0F;
++			}
++		}
++	}
++
++	u1TxBFParm[0] = PageNum0;
++	u1TxBFParm[1] = PageNum1;
++	u1TxBFParm[2] = Period;
++	FillH2CCmd(Adapter, PHYDM_H2C_TXBF, 3, u1TxBFParm);
++	
++	RT_DISP(FBEAM, FBEAM_FUN, ("@%s End, PageNum0 = 0x%x, PageNum1 = 0x%x Period = %d", __func__, PageNum0, PageNum1, Period));
++}
++#endif
++
++VOID
++HalTxbf8822B_Init(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte		u1bTmp;
++	PRT_BEAMFORMING_INFO		pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++
++	ODM_SetBBReg(pDM_Odm, 0x14c0 , BIT16, 1); /*Enable P1 aggr new packet according to P0 transfer time*/
++	ODM_SetBBReg(pDM_Odm, 0x14c0 , BIT15|BIT14|BIT13|BIT12, 10); /*MU Retry Limit*/
++	ODM_SetBBReg(pDM_Odm, 0x14c0 , BIT7, 0); /*Disable Tx MU-MIMO until sounding done*/	
++	ODM_SetBBReg(pDM_Odm, 0x14c0 , 0x3F, 0); /* Clear validity of MU STAs */
++	ODM_Write1Byte(pDM_Odm, 0x167c , 0x70); /*MU-MIMO Option as default value*/
++	ODM_Write2Byte(pDM_Odm, 0x1680 , 0); /*MU-MIMO Control as default value*/
++
++	/* Set MU NDPA rate & BW source */
++	/* 0x42C[30] = 1 (0: from Tx desc, 1: from 0x45F) */
++	u1bTmp = ODM_Read1Byte(pDM_Odm, 0x42C);
++	ODM_Write1Byte(pDM_Odm, REG_TXBF_CTRL_8822B, (u1bTmp|BIT6));
++	/* 0x45F[7:0] = 0x10 (Rate=OFDM_6M, BW20) */
++	ODM_Write1Byte(pDM_Odm, REG_NDPA_OPT_CTRL_8822B, 0x10);
++
++	/*Temp Settings*/
++	ODM_SetBBReg(pDM_Odm, 0x6DC , 0x3F000000, 4); /*STA2's CSI rate is fixed at 6M*/
++	ODM_SetBBReg(pDM_Odm, 0x1C94 , bMaskDWord, 0xAFFFAFFF); /*Grouping bitmap parameters*/
++
++	/* Init HW variable */
++	pBeamformingInfo->RegMUTxCtrl = ODM_Read4Byte(pDM_Odm, 0x14c0);
++
++	if (pDM_Odm->RFType == ODM_2T2R) { /*2T2R*/
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: RFType is 2T2R\n", __func__));
++		config_phydm_trx_mode_8822b(pDM_Odm, (ODM_RF_PATH_E)3, (ODM_RF_PATH_E)3, TRUE);/*Tx2path*/
++	}
++
++#if (OMNIPEEK_SNIFFER_ENABLED == 1)
++	/* Config HW to receive packet on the user position from registry for sniffer mode. */
++	/* ODM_SetBBReg(pDM_Odm, 0xB00 , BIT9, 1);*/ /* For A-cut only. RegB00[9] = 1 (enable PMAC Rx) */
++	ODM_SetBBReg(pDM_Odm, 0xB54 , BIT30, 1); /* RegB54[30] = 1 (force user position) */
++	ODM_SetBBReg(pDM_Odm, 0xB54 , (BIT29|BIT28), Adapter->MgntInfo.SniffUserPosition); /* RegB54[29:28] = user position (0~3) */
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("Set Adapter->MgntInfo.SniffUserPosition=%#X\n", Adapter->MgntInfo.SniffUserPosition));
++#endif
++}
++
++VOID
++HalTxbf8822B_Enter(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				BFerBFeeIdx
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte					i = 0;
++	u1Byte					BFerIdx = (BFerBFeeIdx & 0xF0)>>4;
++	u1Byte					BFeeIdx = (BFerBFeeIdx & 0xF);
++	u2Byte					CSI_Param = 0;
++	PRT_BEAMFORMING_INFO		pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pBeamformeeEntry;
++	PRT_BEAMFORMER_ENTRY	pBeamformerEntry;
++	u2Byte					value16, STAid = 0;
++	u1Byte					Nc_index = 0, Nr_index = 0, grouping = 0, codebookinfo = 0, coefficientsize = 0;
++	u4Byte					gid_valid, user_position_l, user_position_h;
++	u4Byte					mu_reg[6] = {0x1684, 0x1686, 0x1688, 0x168a, 0x168c, 0x168e};
++	u1Byte					u1bTmp;
++	u4Byte					u4bTmp;
++	
++	RT_DISP(FBEAM, FBEAM_FUN, ("%s: BFerBFeeIdx=%d, BFerIdx=%d, BFeeIdx=%d\n", __func__, BFerBFeeIdx, BFerIdx, BFeeIdx));
++
++	/*************SU BFer Entry Init*************/
++	if ((pBeamformingInfo->beamformer_su_cnt > 0) && (BFerIdx < BEAMFORMER_ENTRY_NUM)) {
++		pBeamformerEntry = &pBeamformingInfo->BeamformerEntry[BFerIdx];
++		pBeamformerEntry->is_mu_ap = FALSE;
++		/*Sounding protocol control*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8822B, 0xDB);	
++	
++		
++		for (i = 0; i < MAX_BEAMFORMER_SU; i++) {
++			if ((pBeamformingInfo->beamformer_su_reg_maping & BIT(i)) == 0) {
++				pBeamformingInfo->beamformer_su_reg_maping |= BIT(i);
++				pBeamformerEntry->su_reg_index = i;
++				break;
++			}
++		}
++		
++		/*MAC address/Partial AID of Beamformer*/
++		if (pBeamformerEntry->su_reg_index == 0) {
++			for (i = 0; i < 6 ; i++)
++				ODM_Write1Byte(pDM_Odm, (REG_ASSOCIATED_BFMER0_INFO_8822B+i), pBeamformerEntry->MacAddr[i]);
++		} else {
++			for (i = 0; i < 6 ; i++)
++				ODM_Write1Byte(pDM_Odm, (REG_ASSOCIATED_BFMER1_INFO_8822B+i), pBeamformerEntry->MacAddr[i]);
++		}
++
++		/*CSI report parameters of Beamformer*/
++		Nc_index = halTxbf8822B_GetNrx(pDM_Odm);	/*for 8814A Nrx = 3(4 Ant), min=0(1 Ant)*/
++		Nr_index = pBeamformerEntry->NumofSoundingDim;	/*0x718[7] = 1 use Nsts, 0x718[7] = 0 use reg setting. as Bfee, we use Nsts, so Nr_index don't care*/
++		
++		grouping = 0;
++
++		/*for ac = 1, for n = 3*/
++		if (pBeamformerEntry->BeamformEntryCap & BEAMFORMEE_CAP_VHT_SU)
++			codebookinfo = 1;	
++		else if (pBeamformerEntry->BeamformEntryCap & BEAMFORMEE_CAP_HT_EXPLICIT)
++			codebookinfo = 3;	
++
++		coefficientsize = 3;
++
++		CSI_Param = (u2Byte)((coefficientsize<<10)|(codebookinfo<<8)|(grouping<<6)|(Nr_index<<3)|(Nc_index));
++
++		if (BFerIdx == 0)
++			ODM_Write2Byte(pDM_Odm, REG_TX_CSI_RPT_PARAM_BW20_8822B, CSI_Param);
++		else
++			ODM_Write2Byte(pDM_Odm, REG_TX_CSI_RPT_PARAM_BW20_8822B+2, CSI_Param);
++		/*ndp_rx_standby_timer, 8814 need > 0x56, suggest from Dvaid*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8822B+3, 0x70);
++	
++	}
++
++	/*************SU BFee Entry Init*************/
++	if ((pBeamformingInfo->beamformee_su_cnt > 0) && (BFeeIdx < BEAMFORMEE_ENTRY_NUM)) {
++		pBeamformeeEntry = &pBeamformingInfo->BeamformeeEntry[BFeeIdx];
++		pBeamformeeEntry->is_mu_sta = FALSE;
++		halTxbf8822B_RfMode(pDM_Odm, pBeamformingInfo, BFeeIdx);
++		
++		if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS))
++			STAid = pBeamformeeEntry->MacId;
++		else 
++			STAid = pBeamformeeEntry->P_AID;
++
++		for (i = 0; i < MAX_BEAMFORMEE_SU; i++) {
++			if ((pBeamformingInfo->beamformee_su_reg_maping & BIT(i)) == 0) {
++				pBeamformingInfo->beamformee_su_reg_maping |= BIT(i);
++				pBeamformeeEntry->su_reg_index = i;
++				break;
++			}
++		}
++		
++		/*P_AID of Beamformee & enable NDPA transmission & enable NDPA interrupt*/
++		if (pBeamformeeEntry->su_reg_index == 0) {	
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8822B, STAid);	
++			ODM_Write1Byte(pDM_Odm, REG_TXBF_CTRL_8822B+3, ODM_Read1Byte(pDM_Odm, REG_TXBF_CTRL_8822B+3)|BIT4|BIT6|BIT7);
++		} else {
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8822B+2, STAid | BIT14 | BIT15 | BIT12);
++		}	
++
++		/*CSI report parameters of Beamformee*/
++		if (pBeamformeeEntry->su_reg_index == 0) {
++			/*Get BIT24 & BIT25*/
++			u1Byte	tmp = ODM_Read1Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8822B+3) & 0x3;
++			
++			ODM_Write1Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8822B + 3, tmp | 0x60);
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8822B, STAid | BIT9);
++		} else		
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8822B+2, STAid | 0xE200);	/*Set BIT25*/
++			
++			phydm_Beamforming_Notify(pDM_Odm);
++	}
++
++	/*************MU BFer Entry Init*************/
++	if ((pBeamformingInfo->beamformer_mu_cnt > 0) && (BFerIdx < BEAMFORMER_ENTRY_NUM)) {
++		pBeamformerEntry = &pBeamformingInfo->BeamformerEntry[BFerIdx];
++		pBeamformingInfo->mu_ap_index = BFerIdx;
++		pBeamformerEntry->is_mu_ap = TRUE;
++		for (i = 0; i < 8; i++)
++			pBeamformerEntry->gid_valid[i] = 0;
++		for (i = 0; i < 16; i++)
++			pBeamformerEntry->user_position[i] = 0;
++		
++		/*Sounding protocol control*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8822B, 0xDB);	
++
++		/* MAC address */
++		for (i = 0; i < 6 ; i++)
++			ODM_Write1Byte(pDM_Odm, (REG_ASSOCIATED_BFMER0_INFO_8822B+i), pBeamformerEntry->MacAddr[i]);
++
++		/* Set partial AID */
++		ODM_Write2Byte(pDM_Odm, (REG_ASSOCIATED_BFMER0_INFO_8822B+6), pBeamformerEntry->P_AID);
++
++		/* Fill our AID to 0x1680[11:0] and [13:12] = 2b'00, BF report segment select to 3895 bytes*/
++		u1bTmp = ODM_Read1Byte(pDM_Odm, 0x1680);
++		u1bTmp = (pBeamformerEntry->AID)&0xFFF;
++		ODM_Write1Byte(pDM_Odm, 0x1680, u1bTmp);
++
++		/* Set 80us for leaving ndp_rx_standby_state */
++		ODM_Write1Byte(pDM_Odm, 0x71B, 0x50);
++		
++		/* Set 0x6A0[14] = 1 to accept action_no_ack */
++		u1bTmp = ODM_Read1Byte(pDM_Odm, REG_RXFLTMAP0_8822B+1);
++		u1bTmp |= 0x40;
++		ODM_Write1Byte(pDM_Odm, REG_RXFLTMAP0_8822B+1, u1bTmp);
++		/* Set 0x6A2[5:4] = 1 to NDPA and BF report poll */
++		u1bTmp = ODM_Read1Byte(pDM_Odm, REG_RXFLTMAP1_8822B);
++		u1bTmp |= 0x30;
++		ODM_Write1Byte(pDM_Odm, REG_RXFLTMAP1_8822B, u1bTmp);
++		
++		/*CSI report parameters of Beamformer*/
++		Nc_index = halTxbf8822B_GetNrx(pDM_Odm);	/* Depend on RF type */
++		Nr_index = 1;	/*0x718[7] = 1 use Nsts, 0x718[7] = 0 use reg setting. as Bfee, we use Nsts, so Nr_index don't care*/
++		grouping = 0; /*no grouping*/
++		codebookinfo = 1; /*7 bit for psi, 9 bit for phi*/
++		coefficientsize = 0; /*This is nothing really matter*/ 
++		CSI_Param = (u2Byte)((coefficientsize<<10)|(codebookinfo<<8)|(grouping<<6)|(Nr_index<<3)|(Nc_index));
++		ODM_Write2Byte(pDM_Odm, 0x6F4, CSI_Param);
++
++		/*for B-Cut*/
++		ODM_SetBBReg(pDM_Odm, 0x6A0 , BIT20, 0);
++		ODM_SetBBReg(pDM_Odm, 0x688 , BIT20, 0);
++
++	}
++	

++	/*************MU BFee Entry Init*************/
++	if ((pBeamformingInfo->beamformee_mu_cnt > 0) && (BFeeIdx < BEAMFORMEE_ENTRY_NUM)) {
++		pBeamformeeEntry = &pBeamformingInfo->BeamformeeEntry[BFeeIdx];
++		pBeamformeeEntry->is_mu_sta = TRUE;
++		for (i = 0; i < MAX_BEAMFORMEE_MU; i++) {
++			if ((pBeamformingInfo->beamformee_mu_reg_maping & BIT(i)) == 0) {
++				pBeamformingInfo->beamformee_mu_reg_maping |= BIT(i);
++				pBeamformeeEntry->mu_reg_index = i;
++				break;
++			}
++		}
++
++		if (pBeamformeeEntry->mu_reg_index == 0xFF) {
++			/* There is no valid bit in beamformee_mu_reg_maping */
++			RT_DISP(FBEAM, FBEAM_FUN, ("%s: ERROR! There is no valid bit in beamformee_mu_reg_maping!\n", __func__));
++			return;
++		}
++		
++		/*User position table*/
++		switch (pBeamformeeEntry->mu_reg_index) {
++		case 0:
++			gid_valid = 0x7fe;
++			user_position_l = 0x111110;
++			user_position_h = 0x0;
++			break;
++		case 1:
++			gid_valid = 0x7f806;
++			user_position_l = 0x11000004;
++			user_position_h = 0x11;
++			break;
++		case 2:
++			gid_valid = 0x1f81818;
++			user_position_l = 0x400040;
++			user_position_h = 0x11100;
++			break;
++		case 3:
++			gid_valid = 0x1e186060;
++			user_position_l = 0x4000400;
++			user_position_h = 0x1100040;
++			break;
++		case 4:
++			gid_valid = 0x66618180;
++			user_position_l = 0x40004000;
++			user_position_h = 0x10040400;
++			break;
++		case 5:
++			gid_valid = 0x79860600;
++			user_position_l = 0x40000;
++			user_position_h = 0x4404004;
++			break;
++		}
++
++		for (i = 0; i < 8; i++) {
++			if (i < 4) {
++				pBeamformeeEntry->gid_valid[i] = (u1Byte)(gid_valid & 0xFF);
++				gid_valid = (gid_valid >> 8);
++			} else
++				pBeamformeeEntry->gid_valid[i] = 0;
++		}
++		for (i = 0; i < 16; i++) {
++			if (i < 4)
++				pBeamformeeEntry->user_position[i] = (u1Byte)((user_position_l >>(i*8)) & 0xFF);
++			else if (i < 8)
++				pBeamformeeEntry->user_position[i] = (u1Byte)((user_position_h >>((i-4)*8)) & 0xFF);
++			else
++				pBeamformeeEntry->user_position[i] = 0;
++		}
++
++		/*Sounding protocol control*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8822B, 0xDB);	
++
++		/*select MU STA table*/
++		pBeamformingInfo->RegMUTxCtrl &= ~(BIT8|BIT9|BIT10);
++		pBeamformingInfo->RegMUTxCtrl |= (pBeamformeeEntry->mu_reg_index << 8)&(BIT8|BIT9|BIT10);
++		ODM_Write4Byte(pDM_Odm, 0x14c0, pBeamformingInfo->RegMUTxCtrl);	
++		
++		ODM_SetBBReg(pDM_Odm, 0x14c4 , bMaskDWord, 0); /*Reset gid_valid table*/
++		ODM_SetBBReg(pDM_Odm, 0x14c8 , bMaskDWord, user_position_l);
++		ODM_SetBBReg(pDM_Odm, 0x14cc , bMaskDWord, user_position_h);
++
++		/*set validity of MU STAs*/		
++		pBeamformingInfo->RegMUTxCtrl &= 0xFFFFFFC0;
++		pBeamformingInfo->RegMUTxCtrl |= pBeamformingInfo->beamformee_mu_reg_maping&0x3F;
++		ODM_Write4Byte(pDM_Odm, 0x14c0, pBeamformingInfo->RegMUTxCtrl);
++
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s, RegMUTxCtrl = 0x%x, user_position_l = 0x%x, user_position_h = 0x%x\n", 
++			__func__, pBeamformingInfo->RegMUTxCtrl, user_position_l, user_position_h));
++
++		value16 = ODM_Read2Byte(pDM_Odm, mu_reg[pBeamformeeEntry->mu_reg_index]);
++		value16 &= 0xFE00; /*Clear PAID*/
++		value16 |= BIT9; /*Enable MU BFee*/
++		value16 |= pBeamformeeEntry->P_AID;
++		ODM_Write2Byte(pDM_Odm, mu_reg[pBeamformeeEntry->mu_reg_index] , value16);
++		
++		/* 0x42C[30] = 1 (0: from Tx desc, 1: from 0x45F) */
++		u1bTmp = ODM_Read1Byte(pDM_Odm, REG_TXBF_CTRL_8822B+3);
++		u1bTmp |= 0xD0; /* Set bit 28, 30, 31 to 3b'111*/
++		ODM_Write1Byte(pDM_Odm, REG_TXBF_CTRL_8822B+3, u1bTmp);
++		/* Set NDPA to 6M*/
++		ODM_Write1Byte(pDM_Odm, REG_NDPA_RATE_8822B, 0x4); 
++
++		u1bTmp = ODM_Read1Byte(pDM_Odm, REG_NDPA_OPT_CTRL_8822B);
++		u1bTmp &= 0xFC; /* Clear bit 0, 1*/
++		ODM_Write1Byte(pDM_Odm, REG_NDPA_OPT_CTRL_8822B, u1bTmp);
++
++		u4bTmp = ODM_Read4Byte(pDM_Odm, REG_SND_PTCL_CTRL_8822B);
++		u4bTmp = ((u4bTmp & 0xFF0000FF) | 0x020200); /* Set [23:8] to 0x0202*/
++		ODM_Write4Byte(pDM_Odm, REG_SND_PTCL_CTRL_8822B, u4bTmp);	
++
++		/* Set 0x6A0[14] = 1 to accept action_no_ack */
++		u1bTmp = ODM_Read1Byte(pDM_Odm, REG_RXFLTMAP0_8822B+1);
++		u1bTmp |= 0x40;
++		ODM_Write1Byte(pDM_Odm, REG_RXFLTMAP0_8822B+1, u1bTmp);
++		/* End of MAC registers setting */
++		
++		halTxbf8822B_RfMode(pDM_Odm, pBeamformingInfo, BFeeIdx);
++#if (SUPPORT_MU_BF == 1)
++		/*Special for plugfest*/
++		delay_ms(50); /* wait for 4-way handshake ending*/
++		SendSWVHTGIDMgntFrame(pDM_Odm, pBeamformeeEntry->MacAddr, BFeeIdx);
++#endif		
++
++		phydm_Beamforming_Notify(pDM_Odm);
++#if 1
++		{
++			u4Byte ctrl_info_offset, index;
++			/*Set Ctrl Info*/
++			ODM_Write2Byte(pDM_Odm, 0x140, 0x660);
++			ctrl_info_offset = 0x8000 + 32 * pBeamformeeEntry->MacId;
++			/*Reset Ctrl Info*/
++			for (index = 0; index < 8; index++)
++				ODM_Write4Byte(pDM_Odm, ctrl_info_offset + index*4, 0);
++			
++			ODM_Write4Byte(pDM_Odm, ctrl_info_offset, (pBeamformeeEntry->mu_reg_index + 1) << 16);
++			ODM_Write1Byte(pDM_Odm, 0x81, 0x80); /*RPTBUF ready*/
++
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s, MacId = %d, ctrl_info_offset = 0x%x, mu_reg_index = %x\n", 
++			__func__, pBeamformeeEntry->MacId, ctrl_info_offset, pBeamformeeEntry->mu_reg_index));
++		}
++#endif
++	}
++
++}
++
++
++VOID
++HalTxbf8822B_Leave(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMER_ENTRY	pBeamformerEntry; 
++	PRT_BEAMFORMEE_ENTRY	pBeamformeeEntry;
++	u4Byte					mu_reg[6] = {0x1684, 0x1686, 0x1688, 0x168a, 0x168c, 0x168e};
++
++	if (Idx < BEAMFORMER_ENTRY_NUM) {
++		pBeamformerEntry = &pBeamformingInfo->BeamformerEntry[Idx];
++		pBeamformeeEntry = &pBeamformingInfo->BeamformeeEntry[Idx];
++	} else
++		return;
++
++	/*Clear P_AID of Beamformee*/
++	/*Clear MAC address of Beamformer*/
++	/*Clear Associated Bfmee Sel*/
++
++	if (pBeamformerEntry->BeamformEntryCap == BEAMFORMING_CAP_NONE) {
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8822B, 0xD8);	
++		if (pBeamformerEntry->is_mu_ap == 0) { /*SU BFer */
++			if (pBeamformerEntry->su_reg_index == 0) {	
++				ODM_Write4Byte(pDM_Odm, REG_ASSOCIATED_BFMER0_INFO_8822B, 0);
++				ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMER0_INFO_8822B+4, 0);
++				ODM_Write2Byte(pDM_Odm, REG_TX_CSI_RPT_PARAM_BW20_8822B, 0);
++			} else {
++				ODM_Write4Byte(pDM_Odm, REG_ASSOCIATED_BFMER1_INFO_8822B, 0);
++				ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMER1_INFO_8822B+4, 0);
++				ODM_Write2Byte(pDM_Odm, REG_TX_CSI_RPT_PARAM_BW20_8822B+2, 0);
++			}
++			pBeamformingInfo->beamformer_su_reg_maping &= ~(BIT(pBeamformerEntry->su_reg_index));
++			pBeamformerEntry->su_reg_index = 0xFF;
++		} else { /*MU BFer */
++			/*set validity of MU STA0 and MU STA1*/
++			pBeamformingInfo->RegMUTxCtrl &= 0xFFFFFFC0;
++			ODM_Write4Byte(pDM_Odm, 0x14c0, pBeamformingInfo->RegMUTxCtrl);
++
++			ODM_Memory_Set(pDM_Odm, pBeamformerEntry->gid_valid, 0, 8);
++			ODM_Memory_Set(pDM_Odm, pBeamformerEntry->user_position, 0, 16);
++			pBeamformerEntry->is_mu_ap = FALSE;
++		}
++	}
++
++	if (pBeamformeeEntry->BeamformEntryCap == BEAMFORMING_CAP_NONE) {
++		halTxbf8822B_RfMode(pDM_Odm, pBeamformingInfo, Idx);
++		if (pBeamformeeEntry->is_mu_sta == 0) { /*SU BFee*/
++			if (pBeamformeeEntry->su_reg_index == 0) {	
++				ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8822B, 0x0);	
++				ODM_Write1Byte(pDM_Odm, REG_TXBF_CTRL_8822B+3, ODM_Read1Byte(pDM_Odm, REG_TXBF_CTRL_8822B+3)|BIT4|BIT6|BIT7);
++				ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8822B, 0);
++			} else {
++				ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8822B+2, 0x0 | BIT14 | BIT15 | BIT12);
++
++				ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8822B+2, 
++				ODM_Read2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8822B+2) & 0x60);
++			}
++			pBeamformingInfo->beamformee_su_reg_maping &= ~(BIT(pBeamformeeEntry->su_reg_index));
++			pBeamformeeEntry->su_reg_index = 0xFF;
++		} else { /*MU BFee */
++			/*Disable sending NDPA & BF-rpt-poll to this BFee*/
++			ODM_Write2Byte(pDM_Odm, mu_reg[pBeamformeeEntry->mu_reg_index] , 0);
++			/*set validity of MU STA*/
++			pBeamformingInfo->RegMUTxCtrl &= ~(BIT(pBeamformeeEntry->mu_reg_index));
++			ODM_Write4Byte(pDM_Odm, 0x14c0, pBeamformingInfo->RegMUTxCtrl);
++
++			
++			pBeamformeeEntry->is_mu_sta = FALSE;
++			pBeamformingInfo->beamformee_mu_reg_maping &= ~(BIT(pBeamformeeEntry->mu_reg_index));
++			pBeamformeeEntry->mu_reg_index = 0xFF;
++		}
++	}
++}
++
++
++/***********SU & MU BFee Entry Only when souding done****************/
++VOID
++HalTxbf8822B_Status(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u2Byte					BeamCtrlVal, tmpVal;
++	u4Byte					BeamCtrlReg;
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry;
++	BOOLEAN	is_mu_sounding = pBeamformingInfo->is_mu_sounding, is_bitmap_ready = FALSE;
++	u16 bitmap;
++	u8 idx, gid, i;
++	u8 id1, id0;
++	u32 gid_valid[6] = {0};
++	u32 user_position_lsb[6] = {0};
++	u32 user_position_msb[6] = {0};
++	u32 value32;
++	BOOLEAN is_sounding_success[6] = {FALSE};
++
++	if (Idx < BEAMFORMEE_ENTRY_NUM)
++		pBeamformEntry = &pBeamformingInfo->BeamformeeEntry[Idx];
++	else
++		return;
++	
++	/*SU sounding done */
++	if (is_mu_sounding == FALSE) {
++
++		if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS))
++			BeamCtrlVal = pBeamformEntry->MacId;
++		else 
++			BeamCtrlVal = pBeamformEntry->P_AID;
++
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s, BeamformEntry.BeamformEntryState = %d", __func__, pBeamformEntry->BeamformEntryState));
++
++		if (pBeamformEntry->su_reg_index == 0) {
++			BeamCtrlReg = REG_TXBF_CTRL_8822B;
++		} else {
++			BeamCtrlReg = REG_TXBF_CTRL_8822B+2;
++			BeamCtrlVal |= BIT12|BIT14|BIT15;
++		}
++
++		if (pBeamformEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++			if (pBeamformEntry->SoundBW == CHANNEL_WIDTH_20)
++				BeamCtrlVal |= BIT9;
++			else if (pBeamformEntry->SoundBW == CHANNEL_WIDTH_40)
++				BeamCtrlVal |= (BIT9|BIT10);
++			else if (pBeamformEntry->SoundBW == CHANNEL_WIDTH_80)
++				BeamCtrlVal |= (BIT9|BIT10|BIT11);		
++		} else {
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s, Don't apply Vmatrix",  __func__));
++			BeamCtrlVal &= ~(BIT9|BIT10|BIT11);
++		}
++
++		ODM_Write2Byte(pDM_Odm, BeamCtrlReg, BeamCtrlVal);
++		/*disable NDP packet use beamforming */
++		tmpVal = ODM_Read2Byte(pDM_Odm, REG_TXBF_CTRL_8822B);
++		ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8822B, tmpVal|BIT15);
++	} else {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s, MU Sounding Done\n",  __func__));
++		/*MU sounding done */
++		if (1){//(pBeamformEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s, BEAMFORMING_ENTRY_STATE_PROGRESSED\n",  __func__));
++
++			value32 = ODM_GetBBReg(pDM_Odm, 0x1684, bMaskDWord);
++			is_sounding_success[0] = (value32 & BIT10)?1:0;
++			is_sounding_success[1] = (value32 & BIT26)?1:0;
++			value32 = ODM_GetBBReg(pDM_Odm, 0x1688, bMaskDWord);
++			is_sounding_success[2] = (value32 & BIT10)?1:0;
++			is_sounding_success[3] = (value32 & BIT26)?1:0;
++			value32 = ODM_GetBBReg(pDM_Odm, 0x168C, bMaskDWord);
++			is_sounding_success[4] = (value32 & BIT10)?1:0;
++			is_sounding_success[5] = (value32 & BIT26)?1:0;
++
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s, is_sounding_success STA1:%d,  STA2:%d, STA3:%d, STA4:%d, STA5:%d, STA6:%d\n", 
++				__func__, is_sounding_success[0], is_sounding_success[1] , is_sounding_success[2] , is_sounding_success[3] , is_sounding_success[4] , is_sounding_success[5] ));
++			
++			value32 = ODM_GetBBReg(pDM_Odm, 0xF4C, 0xFFFF0000);
++			//ODM_SetBBReg(pDM_Odm, 0x19E0, bMaskHWord, 0xFFFF);/*Let MAC ignore bitmap*/
++			
++			is_bitmap_ready = (BOOLEAN)((value32 & BIT15) >> 15);
++			bitmap = (u16)(value32 & 0x3FFF);
++		
++			for (idx = 0; idx < 15; idx++) {
++				if (idx < 5) {/*bit0~4*/
++					id0 = 0;
++					id1 = (u8)(idx + 1);
++				} else if (idx < 9) { /*bit5~8*/
++					id0 = 1;
++					id1 = (u8)(idx - 3);
++				} else if (idx < 12) { /*bit9~11*/
++					id0 = 2;
++					id1 = (u8)(idx - 6);
++				} else if (idx < 14) { /*bit12~13*/	
++					id0 = 3;
++					id1 = (u8)(idx - 8);
++				} else { /*bit14*/
++					id0 = 4;
++					id1 = (u8)(idx - 9);
++				}
++				if (bitmap & BIT(idx)) {
++					/*Pair 1*/
++					gid = (idx << 1) + 1;
++					gid_valid[id0] |= (BIT(gid));
++					gid_valid[id1] |= (BIT(gid));
++					/*Pair 2*/
++					gid += 1;
++					gid_valid[id0] |= (BIT(gid));
++					gid_valid[id1] |= (BIT(gid));
++				} else {
++					/*Pair 1*/
++					gid = (idx << 1) + 1;
++					gid_valid[id0] &= ~(BIT(gid));
++					gid_valid[id1] &= ~(BIT(gid));
++					/*Pair 2*/
++					gid += 1;
++					gid_valid[id0] &= ~(BIT(gid));
++					gid_valid[id1] &= ~(BIT(gid));
++				}
++			}
++
++			for (i = 0; i < BEAMFORMEE_ENTRY_NUM; i++) {
++				pBeamformEntry = &pBeamformingInfo->BeamformeeEntry[i];
++				if ((pBeamformEntry->is_mu_sta) && (pBeamformEntry->mu_reg_index < 6)) {
++					value32 = gid_valid[pBeamformEntry->mu_reg_index];
++					for (idx = 0; idx < 4; idx++) {
++						pBeamformEntry->gid_valid[idx] = (u8)(value32 & 0xFF);
++						value32 = (value32 >> 8);
++					}
++				}
++			}
++
++			for (idx = 0; idx < 6; idx++) {
++				pBeamformingInfo->RegMUTxCtrl &= ~(BIT8|BIT9|BIT10);
++				pBeamformingInfo->RegMUTxCtrl |= ((idx<<8)&(BIT8|BIT9|BIT10));
++				ODM_Write4Byte(pDM_Odm, 0x14c0, pBeamformingInfo->RegMUTxCtrl);
++				ODM_SetMACReg(pDM_Odm, 0x14C4, bMaskDWord, gid_valid[idx]); /*set MU STA gid valid table*/
++			}
++
++			/*Enable TxMU PPDU*/
++			if (pBeamformingInfo->dbg_disable_mu_tx == FALSE)
++				pBeamformingInfo->RegMUTxCtrl |= BIT7;
++			else
++				pBeamformingInfo->RegMUTxCtrl &= ~BIT7;
++			ODM_Write4Byte(pDM_Odm, 0x14c0, pBeamformingInfo->RegMUTxCtrl);
++		}
++	}
++}
++
++/*Only used for MU BFer Entry when get GID management frame (self is as MU STA)*/
++VOID
++HalTxbf8822B_ConfigGtab(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMER_ENTRY	pBeamformerEntry = NULL;
++	u4Byte		gid_valid = 0, user_position_l = 0, user_position_h = 0, i;
++
++	if (pBeamformingInfo->mu_ap_index < BEAMFORMER_ENTRY_NUM)
++		pBeamformerEntry = &pBeamformingInfo->BeamformerEntry[pBeamformingInfo->mu_ap_index];
++	else
++		return;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s==>\n", __func__));
++
++	/*For GID 0~31*/
++	for (i = 0; i < 4; i++)
++		gid_valid |= (pBeamformerEntry->gid_valid[i] << (i<<3));
++	for (i = 0; i < 8; i++) {
++		if (i < 4)
++			user_position_l |= (pBeamformerEntry->user_position[i] << (i << 3));
++		else
++			user_position_h |= (pBeamformerEntry->user_position[i] << ((i - 4)<<3));
++	}
++	/*select MU STA0 table*/
++	pBeamformingInfo->RegMUTxCtrl &= ~(BIT8|BIT9|BIT10);
++	ODM_Write4Byte(pDM_Odm, 0x14c0, pBeamformingInfo->RegMUTxCtrl);
++	ODM_SetBBReg(pDM_Odm, 0x14c4, bMaskDWord, gid_valid); 
++	ODM_SetBBReg(pDM_Odm, 0x14c8, bMaskDWord, user_position_l);
++	ODM_SetBBReg(pDM_Odm, 0x14cc, bMaskDWord, user_position_h);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: STA0: gid_valid = 0x%x, user_position_l = 0x%x, user_position_h = 0x%x\n",
++		__func__, gid_valid, user_position_l, user_position_h));
++
++	gid_valid = 0;
++	user_position_l = 0;
++	user_position_h = 0;
++
++	/*For GID 32~64*/
++	for (i = 4; i < 8; i++)
++		gid_valid |= (pBeamformerEntry->gid_valid[i] << ((i - 4)<<3));
++	for (i = 8; i < 16; i++) {
++		if (i < 4)
++			user_position_l |= (pBeamformerEntry->user_position[i] << ((i - 8) << 3));
++		else
++			user_position_h |= (pBeamformerEntry->user_position[i] << ((i - 12) << 3));
++	}
++	/*select MU STA1 table*/
++	pBeamformingInfo->RegMUTxCtrl &= ~(BIT8|BIT9|BIT10);
++	pBeamformingInfo->RegMUTxCtrl |= BIT8;
++	ODM_Write4Byte(pDM_Odm, 0x14c0, pBeamformingInfo->RegMUTxCtrl);
++	ODM_SetBBReg(pDM_Odm, 0x14c4, bMaskDWord, gid_valid); 
++	ODM_SetBBReg(pDM_Odm, 0x14c8, bMaskDWord, user_position_l);
++	ODM_SetBBReg(pDM_Odm, 0x14cc, bMaskDWord, user_position_h);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: STA1: gid_valid = 0x%x, user_position_l = 0x%x, user_position_h = 0x%x\n",
++		__func__, gid_valid, user_position_l, user_position_h));
++
++	/* Set validity of MU STA0 and MU STA1*/
++	pBeamformingInfo->RegMUTxCtrl &= 0xFFFFFFC0;
++	pBeamformingInfo->RegMUTxCtrl |= 0x3; /* STA0, STA1*/
++	ODM_Write4Byte(pDM_Odm, 0x14c0, pBeamformingInfo->RegMUTxCtrl);
++	
++}
++
++
++
++#if 0
++/*This function translate the bitmap to GTAB*/
++VOID
++haltxbf8822b_gtab_translation(
++	IN PDM_ODM_T			pDM_Odm
++) 
++{
++	u8 idx, gid;
++	u8 id1, id0;
++	u32 gid_valid[6] = {0};
++	u32 user_position_lsb[6] = {0};
++	u32 user_position_msb[6] = {0};
++	
++	for (idx = 0; idx < 15; idx++) {
++		if (idx < 5) {/*bit0~4*/
++			id0 = 0;
++			id1 = (u8)(idx + 1);
++		} else if (idx < 9) { /*bit5~8*/
++			id0 = 1;
++			id1 = (u8)(idx - 3);
++		} else if (idx < 12) { /*bit9~11*/
++			id0 = 2;
++			id1 = (u8)(idx - 6);
++		} else if (idx < 14) { /*bit12~13*/	
++			id0 = 3;
++			id1 = (u8)(idx - 8);
++		} else { /*bit14*/
++			id0 = 4;
++			id1 = (u8)(idx - 9);
++		}
++
++		/*Pair 1*/
++		gid = (idx << 1) + 1;
++		gid_valid[id0] |= (1 << gid);
++		gid_valid[id1] |= (1 << gid);
++		if (gid < 16) {
++			/*user_position_lsb[id0] |= (0 << (gid << 1));*/
++			user_position_lsb[id1] |= (1 << (gid << 1));
++		} else {
++			/*user_position_msb[id0] |= (0 << ((gid - 16) << 1));*/
++			user_position_msb[id1] |= (1 << ((gid - 16) << 1));
++		}
++		
++		/*Pair 2*/
++		gid += 1;
++		gid_valid[id0] |= (1 << gid);
++		gid_valid[id1] |= (1 << gid);
++		if (gid < 16) {
++			user_position_lsb[id0] |= (1 << (gid << 1));
++			/*user_position_lsb[id1] |= (0 << (gid << 1));*/
++		} else {
++			user_position_msb[id0] |= (1 << ((gid - 16) << 1));
++			/*user_position_msb[id1] |= (0 << ((gid - 16) << 1));*/
++		}
++
++	}
++
++
++	for (idx = 0; idx < 6; idx++) {
++		/*DbgPrint("gid_valid[%d] = 0x%x\n", idx, gid_valid[idx]);
++		DbgPrint("user_position[%d] = 0x%x   %x\n", idx, user_position_msb[idx], user_position_lsb[idx]);*/
++	}
++}
++#endif
++
++VOID
++HalTxbf8822B_FwTxBF(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++	)
++{
++#if 0
++	PRT_BEAMFORMING_INFO 	pBeamInfo = GET_BEAMFORM_INFO(Adapter);
++	PRT_BEAMFORMEE_ENTRY	pBeamEntry = pBeamInfo->BeamformeeEntry+Idx;
++
++	if (pBeamEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSING)
++		halTxbf8822B_DownloadNDPA(Adapter, Idx);
++
++	halTxbf8822B_FwTxBFCmd(Adapter);
++#endif
++}
++
++
++/*this function is only used for BFer*/
++VOID
++phydm_8822btxbf_rfmode(
++	IN PVOID		pDM_VOID,
++	IN u1Byte	SUBFeeCnt,
++	IN u1Byte	MUBFeeCnt
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte		i, Nr_index = 0;
++
++	if (pDM_Odm->RFType == ODM_1T1R)
++		return;
++
++	if ((SUBFeeCnt > 0) || (MUBFeeCnt > 0)) {
++		for (i = ODM_RF_PATH_A; i <= ODM_RF_PATH_B; i++) {
++			ODM_SetRFReg(pDM_Odm, i, 0xEF, BIT19, 0x1); /*RF Mode table write enable*/
++			ODM_SetRFReg(pDM_Odm, i, 0x33, 0xF, 3); /*Select RX mode*/
++			ODM_SetRFReg(pDM_Odm, i, 0x3E, 0xfffff, 0x00036); /*Set Table data*/	
++			ODM_SetRFReg(pDM_Odm, i, 0x3F, 0xfffff, 0x5AFCE); /*Set Table data*/
++			ODM_SetRFReg(pDM_Odm, i, 0xEF, BIT19, 0x0); /*RF Mode table write disable*/
++		}
++	}
++
++	if (SUBFeeCnt > 0 || MUBFeeCnt > 0) {
++		/*for 8814 19ac(idx 1), 19b4(idx 0), different Tx ant setting*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8822B, BIT28|BIT29, 0x2);	/*enable BB TxBF ant mapping register*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8822B, BIT31, 1);			/*ignore user since 8822B only 2Tx*/
++		
++		/*Nsts = 2	AB*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8822B, 0xffff, 0x0433);
++		ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8822B, 0xfff00000, 0x043);
++
++	} else {
++		ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8822B, BIT28|BIT29, 0x0);	/*enable BB TxBF ant mapping register*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8822B, BIT31, 0);			/*ignore user since 8822B only 2Tx*/
++		
++		ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8822B, 0xfff00000, 0x1); /*1SS by path-A*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8822B, bMaskLWord, 0x430); /*2SS by path-A,B*/
++	}
++
++}
++
++
++/*this function is for BFer bug workaround*/
++VOID
++phydm_8822b_sutxbfer_workaroud(
++	IN PVOID		pDM_VOID,
++	IN BOOLEAN	EnableSUBfer,
++	IN u1Byte	Nc,
++	IN u1Byte	Nr,
++	IN u1Byte	Ng,
++	IN u1Byte	CB,
++	IN u1Byte	BW,
++	IN BOOLEAN	isVHT
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (EnableSUBfer) {
++		ODM_SetBBReg(pDM_Odm, 0x19f8, BIT22|BIT21|BIT20, 0x1);
++		ODM_SetBBReg(pDM_Odm, 0x19f8, BIT25|BIT24|BIT23, 0x0);
++		ODM_SetBBReg(pDM_Odm, 0x19f8, BIT16, 0x1);
++
++		if (isVHT)
++			ODM_SetBBReg(pDM_Odm, 0x19f0, BIT5|BIT4|BIT3|BIT2|BIT1|BIT0, 0x1f);
++		else
++			ODM_SetBBReg(pDM_Odm, 0x19f0, BIT5|BIT4|BIT3|BIT2|BIT1|BIT0, 0x22);
++		
++		ODM_SetBBReg(pDM_Odm, 0x19f0, BIT7|BIT6, Nc);
++		ODM_SetBBReg(pDM_Odm, 0x19f0, BIT9|BIT8, Nr);
++		ODM_SetBBReg(pDM_Odm, 0x19f0, BIT11|BIT10, Ng);
++		ODM_SetBBReg(pDM_Odm, 0x19f0, BIT13|BIT12, CB);
++
++		ODM_SetBBReg(pDM_Odm, 0xb58, BIT3|BIT2, BW);
++		ODM_SetBBReg(pDM_Odm, 0xb58, BIT7|BIT6|BIT5|BIT4, 0x0);
++		ODM_SetBBReg(pDM_Odm, 0xb58, BIT9|BIT8, BW);
++		ODM_SetBBReg(pDM_Odm, 0xb58, BIT13|BIT12|BIT11|BIT10, 0x0);
++	} else
++		ODM_SetBBReg(pDM_Odm, 0x19f8, BIT16, 0x0);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_TRACE, ("[%s] EnableSUBfer = %d, isVHT = %d\n", __func__, EnableSUBfer, isVHT));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_TRACE, ("[%s] Nc = %d, Nr = %d, Ng = %d, CB = %d, BW = %d\n", __func__, Nc, Nr, Ng, CB, BW));
++	
++
++}
++
++
++
++
++#else	/* (RTL8822B_SUPPORT == 1)*/
++
++#endif	/* (RTL8822B_SUPPORT == 1)*/
++
++#endif 
++
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbf8822b.h b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbf8822b.h
+new file mode 100644
+index 0000000..d90b360
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbf8822b.h
+@@ -0,0 +1,73 @@
++#ifndef __HAL_TXBF_8822B_H__
++#define __HAL_TXBF_8822B_H__
++#if (BEAMFORMING_SUPPORT == 1)
++#if (RTL8822B_SUPPORT == 1)
++
++VOID
++HalTxbf8822B_Init(
++	IN PVOID			pDM_VOID
++	);
++
++VOID
++HalTxbf8822B_Enter(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbf8822B_Leave(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbf8822B_Status(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++VOID
++HalTxbf8822B_ConfigGtab(
++	IN PVOID			pDM_VOID
++	);
++
++VOID
++HalTxbf8822B_FwTxBF(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++	);
++
++VOID
++phydm_8822btxbf_rfmode(
++	IN PVOID		pDM_VOID,
++	IN u1Byte	SUBFeeCnt,
++	IN u1Byte	MUBFeeCnt
++	);
++
++VOID
++phydm_8822b_sutxbfer_workaroud(
++	IN PVOID		pDM_VOID,
++	IN BOOLEAN	EnableSUBfer,
++	IN u1Byte	Nc,
++	IN u1Byte	Nr,
++	IN u1Byte	Ng,
++	IN u1Byte	CB,
++	IN u1Byte	BW,
++	IN BOOLEAN	isVHT
++	);
++
++#else
++#define HalTxbf8822B_Init(pDM_VOID)		
++#define HalTxbf8822B_Enter(pDM_VOID, Idx)
++#define HalTxbf8822B_Leave(pDM_VOID, Idx)
++#define HalTxbf8822B_Status(pDM_VOID, Idx)
++#define HalTxbf8822B_FwTxBF(pDM_VOID, Idx)
++#define HalTxbf8822B_ConfigGtab(pDM_VOID)
++#endif
++
++
++#endif
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbfinterface.c b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbfinterface.c
+new file mode 100644
+index 0000000..4fbad2d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbfinterface.c
+@@ -0,0 +1,1502 @@
++//============================================================
++// Description:
++//
++// This file is for TXBF interface mechanism
++//
++//============================================================
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#if (BEAMFORMING_SUPPORT == 1)
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++Beamforming_GidPAid(
++	PADAPTER	Adapter,
++	PRT_TCB		pTcb
++)
++{
++	u1Byte		Idx = 0;
++	u1Byte		RA[6] ={0};
++	pu1Byte		pHeader = GET_FRAME_OF_FIRST_FRAG(Adapter, pTcb);
++	HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T				pDM_Odm = &pHalData->DM_OutSrc;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++
++	if (Adapter->HardwareType < HARDWARE_TYPE_RTL8192EE)
++		return;
++	else if (IS_WIRELESS_MODE_N(Adapter) == FALSE)
++		return;
++
++#if (SUPPORT_MU_BF == 1)
++	if (pTcb->TxBFPktType == RT_BF_PKT_TYPE_BROADCAST_NDPA) { /* MU NDPA */
++#else
++	if (0) {
++#endif
++		/* Fill G_ID and P_AID */
++		pTcb->G_ID = 63;
++		if (pBeamInfo->FirstMUBFeeIndex < BEAMFORMEE_ENTRY_NUM) {
++			pTcb->P_AID = pBeamInfo->BeamformeeEntry[pBeamInfo->FirstMUBFeeIndex].P_AID;			
++			RT_DISP(FBEAM, FBEAM_FUN, ("[David]@%s End, G_ID=0x%X, P_AID=0x%X\n", __func__, pTcb->G_ID, pTcb->P_AID));
++		}
++	} else {
++		GET_80211_HDR_ADDRESS1(pHeader, &RA);
++
++		// VHT SU PPDU carrying one or more group addressed MPDUs or
++		// Transmitting a VHT NDP intended for multiple recipients
++		if (MacAddr_isBcst(RA) || MacAddr_isMulticast(RA)	|| pTcb->macId == MAC_ID_STATIC_FOR_BROADCAST_MULTICAST) {
++			pTcb->G_ID = 63;
++			pTcb->P_AID = 0;
++		} else if (ACTING_AS_AP(Adapter)) {
++			u2Byte	AID = (u2Byte) (MacIdGetOwnerAssociatedClientAID(Adapter, pTcb->macId) & 0x1ff);		/*AID[0:8]*/
++	
++			/*RT_DISP(FBEAM, FBEAM_FUN, ("@%s  pTcb->macId=0x%X, AID=0x%X\n", __func__, pTcb->macId, AID));*/
++			pTcb->G_ID = 63;
++
++			if (AID == 0)		/*A PPDU sent by an AP to a non associated STA*/
++				pTcb->P_AID = 0;
++			else {				/*Sent by an AP and addressed to a STA associated with that AP*/
++				u2Byte	BSSID = 0;
++				GET_80211_HDR_ADDRESS2(pHeader, &RA);
++				BSSID = ((RA[5] & 0xf0) >> 4) ^ (RA[5] & 0xf);	/*BSSID[44:47] xor BSSID[40:43]*/
++				pTcb->P_AID = (AID + BSSID *32) & 0x1ff;		/*(dec(A) + dec(B)*32) mod 512*/
++			}
++		} else if (ACTING_AS_IBSS(Adapter)) {
++			pTcb->G_ID = 63;
++			/*P_AID for infrasturcture mode; MACID for ad-hoc mode. */
++			pTcb->P_AID = pTcb->macId;
++		} else if (MgntLinkStatusQuery(Adapter)) {				/*Addressed to AP*/
++			pTcb->G_ID = 0;
++			GET_80211_HDR_ADDRESS1(pHeader, &RA);
++			pTcb->P_AID =  RA[5];							/*RA[39:47]*/
++			pTcb->P_AID = (pTcb->P_AID << 1) | (RA[4] >> 7 );
++		} else {
++			pTcb->G_ID = 63;
++			pTcb->P_AID = 0;
++		}
++		/*RT_DISP(FBEAM, FBEAM_FUN, ("[David]@%s End, G_ID=0x%X, P_AID=0x%X\n", __func__, pTcb->G_ID, pTcb->P_AID));*/
++	}
++}
++
++
++RT_STATUS
++Beamforming_GetReportFrame(
++	IN	PADAPTER		Adapter,
++	IN	PRT_RFD			pRfd,
++	IN	POCTET_STRING	pPduOS
++	)
++{
++	HAL_DATA_TYPE				*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T					pDM_Odm = &pHalData->DM_OutSrc;
++	PRT_BEAMFORMEE_ENTRY		pBeamformEntry = NULL;
++	pu1Byte						pMIMOCtrlField, pCSIReport, pCSIMatrix;
++	u1Byte						Idx, Nc, Nr, CH_W;
++	u2Byte						CSIMatrixLen = 0;
++
++	ACT_PKT_TYPE				pktType = ACT_PKT_TYPE_UNKNOWN;
++
++	//Memory comparison to see if CSI report is the same with previous one
++	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, Frame_Addr2(*pPduOS), &Idx);
++
++	if (pBeamformEntry == NULL) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("Beamforming_GetReportFrame: Cannot find entry by addr\n"));
++		return RT_STATUS_FAILURE;
++	}
++
++	pktType = PacketGetActionFrameType(pPduOS);
++	
++	//-@ Modified by David
++	if (pktType == ACT_PKT_VHT_COMPRESSED_BEAMFORMING) {
++		pMIMOCtrlField = pPduOS->Octet + 26; 
++		Nc = ((*pMIMOCtrlField) & 0x7) + 1;
++		Nr = (((*pMIMOCtrlField) & 0x38) >> 3) + 1;
++		CH_W =  (((*pMIMOCtrlField) & 0xC0) >> 6);
++		pCSIMatrix = pMIMOCtrlField + 3 + Nc; //24+(1+1+3)+2  MAC header+(Category+ActionCode+MIMOControlField) +SNR(Nc=2)
++		CSIMatrixLen = pPduOS->Length  - 26 -3 -Nc;
++	} else if (pktType == ACT_PKT_HT_COMPRESSED_BEAMFORMING) {
++		pMIMOCtrlField = pPduOS->Octet + 26; 
++		Nc = ((*pMIMOCtrlField) & 0x3) + 1;
++		Nr =  (((*pMIMOCtrlField) & 0xC) >> 2) + 1;
++		CH_W =  (((*pMIMOCtrlField) & 0x10) >> 4);
++		pCSIMatrix = pMIMOCtrlField + 6 + Nr;	//24+(1+1+6)+2  MAC header+(Category+ActionCode+MIMOControlField) +SNR(Nc=2)
++		CSIMatrixLen = pPduOS->Length  - 26 -6 -Nr;
++	} else
++		return RT_STATUS_SUCCESS;	
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] idx=%d, pkt type=%d, Nc=%d, Nr=%d, CH_W=%d\n", __func__, Idx, pktType, Nc, Nr, CH_W));		
++
++	return RT_STATUS_SUCCESS;
++}
++
++
++VOID
++ConstructHTNDPAPacket(
++	PADAPTER		Adapter,
++	pu1Byte			RA,
++	pu1Byte			Buffer,
++	pu4Byte			pLength,
++	CHANNEL_WIDTH	BW
++	)
++{
++	u2Byte					Duration= 0;
++	PMGNT_INFO				pMgntInfo = &(Adapter->MgntInfo);
++	OCTET_STRING			pNDPAFrame,ActionContent;
++	u1Byte					ActionHdr[4] = {ACT_CAT_VENDOR, 0x00, 0xe0, 0x4c};
++
++	PlatformZeroMemory(Buffer, 32);
++
++	SET_80211_HDR_FRAME_CONTROL(Buffer,0);
++
++	SET_80211_HDR_ORDER(Buffer, 1);
++	SET_80211_HDR_TYPE_AND_SUBTYPE(Buffer,Type_Action_No_Ack);
++
++	SET_80211_HDR_ADDRESS1(Buffer, RA);
++	SET_80211_HDR_ADDRESS2(Buffer, Adapter->CurrentAddress);
++	SET_80211_HDR_ADDRESS3(Buffer, pMgntInfo->Bssid);
++
++	Duration = 2*aSifsTime + 40;
++	
++	if (BW == CHANNEL_WIDTH_40)
++		Duration+= 87;
++	else	
++		Duration+= 180;
++
++	SET_80211_HDR_DURATION(Buffer, Duration);
++
++	//HT control field
++	SET_HT_CTRL_CSI_STEERING(Buffer+sMacHdrLng, 3);
++	SET_HT_CTRL_NDP_ANNOUNCEMENT(Buffer+sMacHdrLng, 1);
++	
++	FillOctetString(pNDPAFrame, Buffer, sMacHdrLng+sHTCLng);
++
++	FillOctetString(ActionContent, ActionHdr, 4);
++	PacketAppendData(&pNDPAFrame, ActionContent);	
++
++	*pLength = 32;
++}
++
++
++
++
++BOOLEAN
++SendFWHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++	PRT_TCB 				pTcb;
++	PRT_TX_LOCAL_BUFFER 	pBuf;
++	BOOLEAN 				ret = TRUE;
++	u4Byte					BufLen;
++	pu1Byte					BufAddr;
++	u1Byte					DescLen = 0, Idx = 0, NDPTxRate;
++	PADAPTER				pDefAdapter = GetDefaultAdapter(Adapter);
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(Adapter);
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pBeamformEntry == NULL)
++		return FALSE;
++
++	NDPTxRate = Beamforming_GetHTNDPTxRate(pDM_Odm, pBeamformEntry->CompSteeringNumofBFer);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] NDPTxRate =%d\n", __func__, NDPTxRate));
++	PlatformAcquireSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (MgntGetFWBuffer(pDefAdapter, &pTcb, &pBuf)) {
++#if(DEV_BUS_TYPE != RT_PCI_INTERFACE)
++		DescLen = Adapter->HWDescHeadLength - pHalData->USBALLDummyLength;
++#endif
++		BufAddr = pBuf->Buffer.VirtualAddress + DescLen;
++
++		ConstructHTNDPAPacket(
++				Adapter, 
++				RA,
++				BufAddr, 
++				&BufLen,
++				BW
++				);
++
++		pTcb->PacketLength = BufLen + DescLen;
++
++		pTcb->bTxEnableSwCalcDur = TRUE;
++		
++		pTcb->BWOfPacket = BW;
++
++		if(ACTING_AS_IBSS(Adapter) || ACTING_AS_AP(Adapter))
++			pTcb->G_ID = 63;
++
++		pTcb->P_AID = pBeamformEntry->P_AID;
++		pTcb->DataRate = NDPTxRate;	/*rate of NDP decide by Nr*/
++
++		Adapter->HalFunc.CmdSendPacketHandler(Adapter, pTcb, pBuf, pTcb->PacketLength, DESC_PACKET_TYPE_NORMAL, FALSE);
++	} else
++		ret = FALSE;
++
++	PlatformReleaseSpinLock(Adapter, RT_TX_SPINLOCK);
++	
++	if (ret)
++		RT_DISP_DATA(FBEAM, FBEAM_DATA, "", pBuf->Buffer.VirtualAddress, pTcb->PacketLength);
++
++	return ret;
++}
++
++
++BOOLEAN
++SendSWHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++	PRT_TCB					pTcb;
++	PRT_TX_LOCAL_BUFFER		pBuf;
++	BOOLEAN					ret = TRUE;
++	u1Byte					Idx = 0, NDPTxRate = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	NDPTxRate = Beamforming_GetHTNDPTxRate(pDM_Odm, pBeamformEntry->CompSteeringNumofBFer);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] NDPTxRate =%d\n", __func__, NDPTxRate));
++	
++	PlatformAcquireSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (MgntGetBuffer(Adapter, &pTcb, &pBuf)) {
++		ConstructHTNDPAPacket(
++				Adapter, 
++				RA,
++				pBuf->Buffer.VirtualAddress, 
++				&pTcb->PacketLength,
++				BW
++				);
++
++		pTcb->bTxEnableSwCalcDur = TRUE;
++
++		pTcb->BWOfPacket = BW;
++
++		MgntSendPacket(Adapter, pTcb, pBuf, pTcb->PacketLength, NORMAL_QUEUE, NDPTxRate);
++	} else
++		ret = FALSE;
++	
++	PlatformReleaseSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (ret)
++		RT_DISP_DATA(FBEAM, FBEAM_DATA, "", pBuf->Buffer.VirtualAddress, pTcb->PacketLength);
++
++	return ret;
++}
++
++
++
++VOID
++ConstructVHTNDPAPacket(
++	IN PDM_ODM_T	pDM_Odm,
++	pu1Byte			RA,
++	u2Byte			AID,
++	pu1Byte			Buffer,
++	pu4Byte			pLength,
++	CHANNEL_WIDTH	BW
++	)
++{
++	u2Byte					Duration= 0;
++	u1Byte					Sequence = 0;
++	pu1Byte					pNDPAFrame = Buffer;
++	RT_NDPA_STA_INFO		STAInfo;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++	u1Byte	Idx = 0;
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++	// Frame control.
++	SET_80211_HDR_FRAME_CONTROL(pNDPAFrame, 0);
++	SET_80211_HDR_TYPE_AND_SUBTYPE(pNDPAFrame, Type_NDPA);
++
++	SET_80211_HDR_ADDRESS1(pNDPAFrame, RA);
++	SET_80211_HDR_ADDRESS2(pNDPAFrame, pBeamformEntry->MyMacAddr);
++
++	Duration = 2*aSifsTime + 44;
++	
++	if (BW == CHANNEL_WIDTH_80)
++		Duration += 40;
++	else if(BW == CHANNEL_WIDTH_40)
++		Duration+= 87;
++	else	
++		Duration+= 180;
++
++	SET_80211_HDR_DURATION(pNDPAFrame, Duration);
++
++	Sequence = *(pDM_Odm->pSoundingSeq) << 2;
++	ODM_MoveMemory(pDM_Odm, pNDPAFrame+16, &Sequence, 1);
++
++	if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS) || phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_AP) == FALSE)
++		AID = 0;
++
++	STAInfo.AID = AID;
++	STAInfo.FeedbackType = 0;
++	STAInfo.NcIndex = 0;
++	
++	ODM_MoveMemory(pDM_Odm, pNDPAFrame+17, (pu1Byte)&STAInfo, 2);
++
++	*pLength = 19;
++}
++
++
++BOOLEAN
++SendFWVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++	PRT_TCB					pTcb;
++	PRT_TX_LOCAL_BUFFER		pBuf;
++	BOOLEAN					ret = TRUE;
++	u4Byte					BufLen;
++	pu1Byte					BufAddr;
++	u1Byte					DescLen = 0, Idx = 0, NDPTxRate = 0;
++	PADAPTER				pDefAdapter = GetDefaultAdapter(Adapter);
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(Adapter);
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry =phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pBeamformEntry == NULL)
++		return FALSE;
++
++	NDPTxRate = Beamforming_GetVHTNDPTxRate(pDM_Odm, pBeamformEntry->CompSteeringNumofBFer);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] NDPTxRate =%d\n", __func__, NDPTxRate));
++	
++	PlatformAcquireSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (MgntGetFWBuffer(pDefAdapter, &pTcb, &pBuf)) {
++#if(DEV_BUS_TYPE != RT_PCI_INTERFACE)
++		DescLen = Adapter->HWDescHeadLength - pHalData->USBALLDummyLength;
++#endif
++		BufAddr = pBuf->Buffer.VirtualAddress + DescLen;
++
++		ConstructVHTNDPAPacket(
++				pDM_Odm, 
++				RA,
++				AID,
++				BufAddr, 
++				&BufLen,
++				BW
++				);
++		
++		pTcb->PacketLength = BufLen + DescLen;
++
++		pTcb->bTxEnableSwCalcDur = TRUE;
++		
++		pTcb->BWOfPacket = BW;
++
++		if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS) || phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_AP))
++			pTcb->G_ID = 63;
++
++		pTcb->P_AID = pBeamformEntry->P_AID;
++		pTcb->DataRate = NDPTxRate;	/*decide by Nr*/
++
++		Adapter->HalFunc.CmdSendPacketHandler(Adapter, pTcb, pBuf, pTcb->PacketLength, DESC_PACKET_TYPE_NORMAL, FALSE);
++	} else
++		ret = FALSE;
++	
++	PlatformReleaseSpinLock(Adapter, RT_TX_SPINLOCK);	
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] End, ret=%d\n", __func__, ret));
++
++	if (ret)
++		RT_DISP_DATA(FBEAM, FBEAM_DATA, "", pBuf->Buffer.VirtualAddress, pTcb->PacketLength);
++
++	return ret;
++}
++
++
++
++BOOLEAN
++SendSWVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++	PRT_TCB					pTcb;
++	PRT_TX_LOCAL_BUFFER		pBuf;
++	BOOLEAN					ret = TRUE;
++	u1Byte					Idx = 0, NDPTxRate = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++
++	NDPTxRate = Beamforming_GetVHTNDPTxRate(pDM_Odm, pBeamformEntry->CompSteeringNumofBFer);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] NDPTxRate =%d\n", __func__, NDPTxRate));
++
++	PlatformAcquireSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (MgntGetBuffer(Adapter, &pTcb, &pBuf)) {
++		ConstructVHTNDPAPacket(
++				pDM_Odm, 
++				RA,
++				AID,
++				pBuf->Buffer.VirtualAddress, 
++				&pTcb->PacketLength,
++				BW
++				);
++
++		pTcb->bTxEnableSwCalcDur = TRUE;
++		pTcb->BWOfPacket = BW;
++
++		/*rate of NDP decide by Nr*/
++		MgntSendPacket(Adapter, pTcb, pBuf, pTcb->PacketLength, NORMAL_QUEUE, NDPTxRate);
++	} else
++		ret = FALSE;
++	
++	PlatformReleaseSpinLock(Adapter, RT_TX_SPINLOCK);	
++
++	if (ret)
++		RT_DISP_DATA(FBEAM, FBEAM_DATA, "", pBuf->Buffer.VirtualAddress, pTcb->PacketLength);
++
++	return ret;
++}
++
++#ifdef SUPPORT_MU_BF
++#if (SUPPORT_MU_BF == 1)
++/*
++// Description: On VHT GID management frame by an MU beamformee.
++//
++// 2015.05.20. Created by tynli.
++*/
++RT_STATUS
++Beamforming_GetVHTGIDMgntFrame(
++	IN	PADAPTER		Adapter,
++	IN	PRT_RFD			pRfd,
++	IN	POCTET_STRING	pPduOS
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	RT_STATUS		rtStatus = RT_STATUS_SUCCESS;
++	pu1Byte			pBuffer = NULL;
++	pu1Byte			pRaddr = NULL;
++	u1Byte			MemStatus[8] = {0}, UserPos[16] = {0};
++	u1Byte			idx;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMER_ENTRY	pBeamformEntry = &pBeamInfo->BeamformerEntry[pBeamInfo->mu_ap_index];
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] On VHT GID mgnt frame!\n", __func__));		
++
++	/* Check length*/
++	if (pPduOS->Length < (FRAME_OFFSET_VHT_GID_MGNT_USER_POSITION_ARRAY+16)) {	
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("Beamforming_GetVHTGIDMgntFrame(): Invalid length (%d)\n", pPduOS->Length));
++		return RT_STATUS_INVALID_LENGTH;
++	}
++
++	/* Check RA*/
++	pRaddr = (pu1Byte)(pPduOS->Octet)+4;
++	if (!eqMacAddr(pRaddr, Adapter->CurrentAddress)) {		
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("Beamforming_GetVHTGIDMgntFrame(): Drop because of RA error.\n"));
++		return RT_STATUS_PKT_DROP;
++	}
++
++	RT_DISP_DATA(FBEAM, FBEAM_DATA, "On VHT GID Mgnt Frame ==>:\n", pPduOS->Octet, pPduOS->Length);
++
++	/*Parsing Membership Status Array*/
++	pBuffer = pPduOS->Octet + FRAME_OFFSET_VHT_GID_MGNT_MEMBERSHIP_STATUS_ARRAY;
++	for (idx = 0; idx < 8; idx++) {
++		MemStatus[idx] = GET_VHT_GID_MGNT_INFO_MEMBERSHIP_STATUS(pBuffer+idx);
++		pBeamformEntry->gid_valid[idx] = GET_VHT_GID_MGNT_INFO_MEMBERSHIP_STATUS(pBuffer+idx);
++	}
++
++	RT_DISP_DATA(FBEAM, FBEAM_DATA, "MemStatus: ", MemStatus, 8);
++
++	/* Parsing User Position Array*/
++	pBuffer = pPduOS->Octet + FRAME_OFFSET_VHT_GID_MGNT_USER_POSITION_ARRAY;
++	for (idx = 0; idx < 16; idx++) {
++		UserPos[idx] = GET_VHT_GID_MGNT_INFO_USER_POSITION(pBuffer+idx);
++		pBeamformEntry->user_position[idx] = GET_VHT_GID_MGNT_INFO_USER_POSITION(pBuffer+idx);
++	}
++
++	RT_DISP_DATA(FBEAM, FBEAM_DATA, "UserPos: ", UserPos, 16);
++
++	/* Group ID detail printed*/
++	{
++		u1Byte	i, j;
++		u1Byte	tmpVal;
++		u2Byte	tmpVal2;
++
++		for (i = 0; i < 8; i++) {
++			tmpVal = MemStatus[i];
++			tmpVal2 = ((UserPos[i*2 + 1] << 8) & 0xFF00) + (UserPos[i * 2] & 0xFF);
++			for (j = 0; j < 8; j++) {
++				if ((tmpVal >> j) & BIT0) {
++					ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("Use Group ID (%d), User Position (%d)\n",
++						(i*8+j), (tmpVal2 >> 2 * j)&0x3));
++				}
++			}
++		}
++	}
++
++	/* Indicate GID frame to IHV service. */
++	{
++		u1Byte	Indibuffer[24] = {0};
++		u1Byte	Indioffset = 0;
++			
++		PlatformMoveMemory(Indibuffer + Indioffset, pBeamformEntry->gid_valid, 8);
++		Indioffset += 8;
++		PlatformMoveMemory(Indibuffer + Indioffset, pBeamformEntry->user_position, 16);
++		Indioffset += 16;
++
++		PlatformIndicateCustomStatus(
++			Adapter,
++			RT_CUSTOM_EVENT_VHT_RECV_GID_MGNT_FRAME,
++			RT_CUSTOM_INDI_TARGET_IHV,
++			Indibuffer,
++			Indioffset);
++	}
++
++	/* Config HW GID table */
++	halComTxbf_ConfigGtab(pDM_Odm);
++
++	return rtStatus;
++}
++
++/*
++// Description: Construct VHT Group ID (GID) management frame.
++//
++// 2015.05.20. Created by tynli.
++*/
++VOID
++ConstructVHTGIDMgntFrame(
++	IN	PDM_ODM_T		pDM_Odm,
++	IN	pu1Byte			RA,
++	IN	PRT_BEAMFORMEE_ENTRY	pBeamformEntry,
++	OUT	pu1Byte			Buffer,
++	OUT	pu4Byte			pLength
++	
++)
++{
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PADAPTER				Adapter = pBeamInfo->SourceAdapter;
++	OCTET_STRING		osFTMFrame, tmp;
++
++	FillOctetString(osFTMFrame, Buffer, 0);
++	*pLength = 0;
++
++	ConstructMaFrameHdr(
++					Adapter, 
++					RA, 
++					ACT_CAT_VHT, 
++					ACT_VHT_GROUPID_MANAGEMENT, 
++					&osFTMFrame);
++
++	/* Membership Status Array*/
++	FillOctetString(tmp, pBeamformEntry->gid_valid, 8);
++	PacketAppendData(&osFTMFrame, tmp);
++
++	/* User Position Array*/
++	FillOctetString(tmp, pBeamformEntry->user_position, 16);
++	PacketAppendData(&osFTMFrame, tmp);
++
++	*pLength = osFTMFrame.Length;
++
++	RT_DISP_DATA(FBEAM, FBEAM_DATA, "ConstructVHTGIDMgntFrame():\n", Buffer, *pLength);
++}
++
++BOOLEAN
++SendSWVHTGIDMgntFrame(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u1Byte			Idx
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_TCB					pTcb;
++	PRT_TX_LOCAL_BUFFER		pBuf;
++	BOOLEAN					ret = TRUE;
++	u1Byte					DataRate = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = &pBeamInfo->BeamformeeEntry[Idx];
++	PADAPTER				Adapter = pBeamInfo->SourceAdapter;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++	
++	PlatformAcquireSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (MgntGetBuffer(Adapter, &pTcb, &pBuf)) {
++		ConstructVHTGIDMgntFrame(
++				pDM_Odm, 
++				RA,
++				pBeamformEntry,
++				pBuf->Buffer.VirtualAddress, 
++				&pTcb->PacketLength
++				);
++
++		pTcb->BWOfPacket = CHANNEL_WIDTH_20;
++		DataRate = MGN_6M;
++		MgntSendPacket(Adapter, pTcb, pBuf, pTcb->PacketLength, NORMAL_QUEUE, DataRate);
++	} else
++		ret = FALSE;
++	
++	PlatformReleaseSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (ret)
++		RT_DISP_DATA(FBEAM, FBEAM_DATA, "", pBuf->Buffer.VirtualAddress, pTcb->PacketLength);
++
++	return ret;
++}
++
++
++/*
++// Description: Construct VHT beamforming report poll.
++//
++// 2015.05.20. Created by tynli.
++*/
++VOID
++ConstructVHTBFReportPoll(
++	IN	PDM_ODM_T		pDM_Odm,
++	IN	pu1Byte			RA,
++	OUT	pu1Byte			Buffer,
++	OUT	pu4Byte			pLength
++)
++{
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PADAPTER				Adapter = pBeamInfo->SourceAdapter;
++	pu1Byte			pBFRptPoll = Buffer;
++	
++	/* Frame control*/
++	SET_80211_HDR_FRAME_CONTROL(pBFRptPoll, 0);
++	SET_80211_HDR_TYPE_AND_SUBTYPE(pBFRptPoll, Type_Beamforming_Report_Poll);
++
++	/* Duration*/	
++	SET_80211_HDR_DURATION(pBFRptPoll, 100);
++
++	/* RA*/
++	SET_VHT_BF_REPORT_POLL_RA(pBFRptPoll, RA);
++
++	/* TA*/
++	SET_VHT_BF_REPORT_POLL_TA(pBFRptPoll, Adapter->CurrentAddress);
++
++	/* Feedback Segment Retransmission Bitmap*/
++	SET_VHT_BF_REPORT_POLL_FEEDBACK_SEG_RETRAN_BITMAP(pBFRptPoll, 0xFF);
++
++	*pLength = 17;
++
++	RT_DISP_DATA(FBEAM, FBEAM_DATA, "ConstructVHTBFReportPoll():\n", Buffer, *pLength);
++
++}
++
++BOOLEAN
++SendSWVHTBFReportPoll(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	BOOLEAN			bFinalPoll
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_TCB					pTcb;
++	PRT_TX_LOCAL_BUFFER		pBuf;
++	BOOLEAN					ret = TRUE;
++	u1Byte					Idx = 0, DataRate = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++	PADAPTER				Adapter = pBeamInfo->SourceAdapter;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	PlatformAcquireSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (MgntGetBuffer(Adapter, &pTcb, &pBuf)) {
++		ConstructVHTBFReportPoll(
++				pDM_Odm, 
++				RA,
++				pBuf->Buffer.VirtualAddress, 
++				&pTcb->PacketLength
++				);
++
++		pTcb->bTxEnableSwCalcDur = TRUE; /* <tynli_note> need?*/
++		pTcb->BWOfPacket = CHANNEL_WIDTH_20;
++
++		if (bFinalPoll)
++			pTcb->TxBFPktType = RT_BF_PKT_TYPE_FINAL_BF_REPORT_POLL;
++		else
++			pTcb->TxBFPktType = RT_BF_PKT_TYPE_BF_REPORT_POLL;
++		
++		DataRate = MGN_6M;	/* Legacy OFDM rate*/
++		MgntSendPacket(Adapter, pTcb, pBuf, pTcb->PacketLength, NORMAL_QUEUE, DataRate);
++	} else
++		ret = FALSE;
++	
++	PlatformReleaseSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (ret)
++		RT_DISP_DATA(FBEAM, FBEAM_DATA, "SendSWVHTBFReportPoll():\n", pBuf->Buffer.VirtualAddress, pTcb->PacketLength);
++
++	return ret;
++
++}
++
++
++/*
++// Description: Construct VHT MU NDPA packet.
++//	<Note> We should combine this function with ConstructVHTNDPAPacket() in the future.
++//
++// 2015.05.21. Created by tynli.
++*/
++VOID
++ConstructVHTMUNDPAPacket(
++	IN PDM_ODM_T		pDM_Odm,
++	IN CHANNEL_WIDTH	BW,
++	OUT pu1Byte			Buffer,
++	OUT pu4Byte			pLength
++	)
++{	
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PADAPTER				Adapter = pBeamInfo->SourceAdapter;
++	u2Byte					Duration = 0;
++	u1Byte					Sequence = 0;
++	pu1Byte					pNDPAFrame = Buffer;
++	RT_NDPA_STA_INFO		STAInfo;
++	u1Byte					idx;
++	u1Byte					DestAddr[6] = {0};
++	PRT_BEAMFORMEE_ENTRY	pEntry = NULL;
++
++	/* Fill the first MU BFee entry (STA1) MAC addr to destination address then
++	     HW will change A1 to broadcast addr. 2015.05.28. Suggested by SD1 Chunchu. */
++	for (idx = 0; idx < BEAMFORMEE_ENTRY_NUM; idx++) {		
++		pEntry = &(pBeamInfo->BeamformeeEntry[idx]);
++		if (pEntry->is_mu_sta) {
++			cpMacAddr(DestAddr, pEntry->MacAddr);
++			break;
++		}
++	}
++	if (pEntry == NULL)
++		return;
++	
++	/* Frame control.*/
++	SET_80211_HDR_FRAME_CONTROL(pNDPAFrame, 0);
++	SET_80211_HDR_TYPE_AND_SUBTYPE(pNDPAFrame, Type_NDPA);
++
++	SET_80211_HDR_ADDRESS1(pNDPAFrame, DestAddr);
++	SET_80211_HDR_ADDRESS2(pNDPAFrame, pEntry->MyMacAddr);
++
++	/*--------------------------------------------*/
++	/* <Note> Need to modify "Duration" to MU consideration. */
++	Duration = 2*aSifsTime + 44;
++	
++	if (BW == CHANNEL_WIDTH_80)
++		Duration += 40;
++	else if(BW == CHANNEL_WIDTH_40)
++		Duration+= 87;
++	else	
++		Duration+= 180;
++	/*--------------------------------------------*/
++
++	SET_80211_HDR_DURATION(pNDPAFrame, Duration);
++
++	Sequence = *(pDM_Odm->pSoundingSeq) << 2;
++	ODM_MoveMemory(pDM_Odm, pNDPAFrame + 16, &Sequence, 1);
++
++	*pLength = 17;
++
++	/* Construct STA info. for multiple STAs*/
++	for (idx = 0; idx < BEAMFORMEE_ENTRY_NUM; idx++) {		
++		pEntry = &(pBeamInfo->BeamformeeEntry[idx]);
++		if (pEntry->is_mu_sta) {
++			STAInfo.AID = pEntry->AID;
++			STAInfo.FeedbackType = 1; /* 1'b1: MU*/
++			STAInfo.NcIndex = 0;
++
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Get BeamformeeEntry idx(%d), AID =%d\n", __func__, idx, pEntry->AID));
++			
++			ODM_MoveMemory(pDM_Odm, pNDPAFrame+(*pLength), (pu1Byte)&STAInfo, 2);
++			*pLength += 2;
++		}
++	}
++
++}
++
++BOOLEAN
++SendSWVHTMUNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_TCB					pTcb;
++	PRT_TX_LOCAL_BUFFER		pBuf;
++	BOOLEAN					ret = TRUE;
++	u1Byte					NDPTxRate = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PADAPTER				Adapter = pBeamInfo->SourceAdapter;
++
++	NDPTxRate = MGN_VHT2SS_MCS0;
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] NDPTxRate =%d\n", __func__, NDPTxRate));
++
++	PlatformAcquireSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (MgntGetBuffer(Adapter, &pTcb, &pBuf)) {
++		ConstructVHTMUNDPAPacket(
++				pDM_Odm,
++				BW,
++				pBuf->Buffer.VirtualAddress, 
++				&pTcb->PacketLength
++				);
++
++		pTcb->bTxEnableSwCalcDur = TRUE;
++		pTcb->BWOfPacket = BW;
++		pTcb->TxBFPktType = RT_BF_PKT_TYPE_BROADCAST_NDPA;
++
++		/*rate of NDP decide by Nr*/
++		MgntSendPacket(Adapter, pTcb, pBuf, pTcb->PacketLength, NORMAL_QUEUE, NDPTxRate);
++	} else
++		ret = FALSE;
++	
++	PlatformReleaseSpinLock(Adapter, RT_TX_SPINLOCK);	
++
++	if (ret)
++		RT_DISP_DATA(FBEAM, FBEAM_DATA, "", pBuf->Buffer.VirtualAddress, pTcb->PacketLength);
++
++	return ret;
++}
++
++
++VOID
++DBG_ConstructVHTMUNDPAPacket(
++	IN PDM_ODM_T		pDM_Odm,
++	IN CHANNEL_WIDTH	BW,
++	OUT pu1Byte			Buffer,
++	OUT pu4Byte			pLength
++	)
++{	
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PADAPTER				Adapter = pBeamInfo->SourceAdapter;
++	u2Byte					Duration = 0;
++	u1Byte					Sequence = 0;
++	pu1Byte					pNDPAFrame = Buffer;
++	RT_NDPA_STA_INFO		STAInfo;
++	u1Byte					idx;
++	u1Byte					DestAddr[6] = {0};
++	PRT_BEAMFORMEE_ENTRY	pEntry = NULL;
++
++	BOOLEAN	is_STA1 = FALSE;
++
++
++	/* Fill the first MU BFee entry (STA1) MAC addr to destination address then
++	     HW will change A1 to broadcast addr. 2015.05.28. Suggested by SD1 Chunchu. */
++	for (idx = 0; idx < BEAMFORMEE_ENTRY_NUM; idx++) {		
++		pEntry = &(pBeamInfo->BeamformeeEntry[idx]);
++		if (pEntry->is_mu_sta) {
++			if (is_STA1 == FALSE) {
++				is_STA1 = TRUE;
++				continue;
++			} else {
++				cpMacAddr(DestAddr, pEntry->MacAddr);
++				break;
++			}
++		}
++	}
++
++	/* Frame control.*/
++	SET_80211_HDR_FRAME_CONTROL(pNDPAFrame, 0);
++	SET_80211_HDR_TYPE_AND_SUBTYPE(pNDPAFrame, Type_NDPA);
++
++	SET_80211_HDR_ADDRESS1(pNDPAFrame, DestAddr);
++	SET_80211_HDR_ADDRESS2(pNDPAFrame, pDM_Odm->CurrentAddress);
++
++	/*--------------------------------------------*/
++	/* <Note> Need to modify "Duration" to MU consideration. */
++	Duration = 2*aSifsTime + 44;
++	
++	if (BW == CHANNEL_WIDTH_80)
++		Duration += 40;
++	else if (BW == CHANNEL_WIDTH_40)
++		Duration += 87;
++	else	
++		Duration += 180;
++	/*--------------------------------------------*/
++
++	SET_80211_HDR_DURATION(pNDPAFrame, Duration);
++
++	Sequence = *(pDM_Odm->pSoundingSeq) << 2;
++	ODM_MoveMemory(pDM_Odm, pNDPAFrame + 16, &Sequence, 1);
++
++	*pLength = 17;
++
++	/*STA2's STA Info*/
++	STAInfo.AID = pEntry->AID;
++	STAInfo.FeedbackType = 1; /* 1'b1: MU */
++	STAInfo.NcIndex = 0;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Get BeamformeeEntry idx(%d), AID =%d\n", __func__, idx, pEntry->AID));
++	
++	ODM_MoveMemory(pDM_Odm, pNDPAFrame+(*pLength), (pu1Byte)&STAInfo, 2);
++	*pLength += 2;
++
++}
++
++BOOLEAN
++DBG_SendSWVHTMUNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_TCB					pTcb;
++	PRT_TX_LOCAL_BUFFER		pBuf;
++	BOOLEAN					ret = TRUE;
++	u1Byte					NDPTxRate = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PADAPTER				Adapter = pBeamInfo->SourceAdapter;
++
++	NDPTxRate = MGN_VHT2SS_MCS0;
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] NDPTxRate =%d\n", __func__, NDPTxRate));
++
++	PlatformAcquireSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (MgntGetBuffer(Adapter, &pTcb, &pBuf)) {
++		DBG_ConstructVHTMUNDPAPacket(
++				pDM_Odm,
++				BW,
++				pBuf->Buffer.VirtualAddress, 
++				&pTcb->PacketLength
++				);
++
++		pTcb->bTxEnableSwCalcDur = TRUE;
++		pTcb->BWOfPacket = BW;
++		pTcb->TxBFPktType = RT_BF_PKT_TYPE_UNICAST_NDPA;
++
++		/*rate of NDP decide by Nr*/
++		MgntSendPacket(Adapter, pTcb, pBuf, pTcb->PacketLength, NORMAL_QUEUE, NDPTxRate);
++	} else
++		ret = FALSE;
++	
++	PlatformReleaseSpinLock(Adapter, RT_TX_SPINLOCK);	
++
++	if (ret)
++		RT_DISP_DATA(FBEAM, FBEAM_DATA, "", pBuf->Buffer.VirtualAddress, pTcb->PacketLength);
++
++	return ret;
++}
++
++
++#endif	/*#if (SUPPORT_MU_BF == 1)*/
++#endif	/*#ifdef SUPPORT_MU_BF*/
++
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++u4Byte
++Beamforming_GetReportFrame(
++	IN	PVOID			pDM_VOID,
++	union recv_frame *precv_frame
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte					ret = _SUCCESS;
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = NULL;
++	pu1Byte					pframe = precv_frame->u.hdr.rx_data;
++	u4Byte					frame_len = precv_frame->u.hdr.len;
++	pu1Byte					TA;
++	u1Byte					Idx, offset;
++	
++
++	/*Memory comparison to see if CSI report is the same with previous one*/
++	TA = GetAddr2Ptr(pframe);
++	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, TA, &Idx);
++	if(pBeamformEntry->BeamformEntryCap & BEAMFORMER_CAP_VHT_SU)
++		offset = 31;		/*24+(1+1+3)+2  MAC header+(Category+ActionCode+MIMOControlField)+SNR(Nc=2)*/
++	else if(pBeamformEntry->BeamformEntryCap & BEAMFORMER_CAP_HT_EXPLICIT)
++		offset = 34;		/*24+(1+1+6)+2  MAC header+(Category+ActionCode+MIMOControlField)+SNR(Nc=2)*/
++	else
++		return ret;
++
++	
++	return ret;
++}
++
++
++BOOLEAN
++SendFWHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct xmit_priv		*pxmitpriv = &(Adapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u1Byte	ActionHdr[4] = {ACT_CAT_VENDOR, 0x00, 0xe0, 0x4c};
++	u1Byte	*pframe;
++	u2Byte	*fctrl;
++	u2Byte	duration = 0;
++	u1Byte	aSifsTime = 0, NDPTxRate = 0, Idx = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	
++	if (pmgntframe == NULL) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s, alloc mgnt frame fail\n", __func__));
++		return _FALSE;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(Adapter, pattrib);
++
++	pattrib->qsel = QSLT_BEACON;
++	NDPTxRate = Beamforming_GetHTNDPTxRate(pDM_Odm, pBeamformEntry->CompSteeringNumofBFer);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] NDPTxRate =%d\n", __func__, NDPTxRate));
++	pattrib->rate = NDPTxRate;
++	pattrib->bwmode = BW;
++	pattrib->order = 1;
++	pattrib->subtype = WIFI_ACTION_NOACK;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr*)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	SetOrderBit(pframe);
++	SetFrameSubType(pframe, WIFI_ACTION_NOACK);
++
++	_rtw_memcpy(pwlanhdr->addr1, RA, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pBeamformEntry->MyMacAddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	if( pmlmeext->cur_wireless_mode == WIRELESS_11B)
++		aSifsTime = 10;
++	else
++		aSifsTime = 16;
++
++	duration = 2*aSifsTime + 40;
++	
++	if(BW == CHANNEL_WIDTH_40)
++		duration+= 87;
++	else	
++		duration+= 180;
++
++	SetDuration(pframe, duration);
++
++	//HT control field
++	SET_HT_CTRL_CSI_STEERING(pframe+24, 3);
++	SET_HT_CTRL_NDP_ANNOUNCEMENT(pframe+24, 1);
++
++	_rtw_memcpy(pframe+28, ActionHdr, 4);
++
++	pattrib->pktlen = 32;
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(Adapter, pmgntframe);
++
++	return _TRUE;
++}
++
++
++BOOLEAN
++SendSWHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct xmit_priv		*pxmitpriv = &(Adapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u1Byte	ActionHdr[4] = {ACT_CAT_VENDOR, 0x00, 0xe0, 0x4c};
++	pu1Byte	pframe;
++	pu2Byte	fctrl;
++	u2Byte	duration = 0;
++	u1Byte	aSifsTime = 0, NDPTxRate = 0, Idx = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++
++	NDPTxRate = Beamforming_GetHTNDPTxRate(pDM_Odm, pBeamformEntry->CompSteeringNumofBFer);
++	
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	
++	if (pmgntframe == NULL) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s, alloc mgnt frame fail\n", __func__));
++		return _FALSE;
++	}
++
++	/*update attribute*/
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(Adapter, pattrib);
++	pattrib->qsel = QSLT_MGNT;
++	pattrib->rate = NDPTxRate;
++	pattrib->bwmode = BW;
++	pattrib->order = 1;
++	pattrib->subtype = WIFI_ACTION_NOACK;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	SetOrderBit(pframe);
++	SetFrameSubType(pframe, WIFI_ACTION_NOACK);
++
++	_rtw_memcpy(pwlanhdr->addr1, RA, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pBeamformEntry->MyMacAddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	if (pmlmeext->cur_wireless_mode == WIRELESS_11B)
++		aSifsTime = 10;
++	else
++		aSifsTime = 16;
++
++	duration = 2*aSifsTime + 40;
++	
++	if (BW == CHANNEL_WIDTH_40)
++		duration += 87;
++	else	
++		duration += 180;
++
++	SetDuration(pframe, duration);
++
++	/*HT control field*/
++	SET_HT_CTRL_CSI_STEERING(pframe+24, 3);
++	SET_HT_CTRL_NDP_ANNOUNCEMENT(pframe+24, 1);
++
++	_rtw_memcpy(pframe+28, ActionHdr, 4);
++
++	pattrib->pktlen = 32;
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(Adapter, pmgntframe);
++
++	return _TRUE;
++}
++
++
++BOOLEAN
++SendFWVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct xmit_priv		*pxmitpriv = &(Adapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv		*pmlmepriv = &(Adapter->mlmepriv);
++	pu1Byte	pframe;
++	pu2Byte	fctrl;
++	u2Byte	duration = 0;
++	u1Byte	sequence = 0, aSifsTime = 0, NDPTxRate= 0, Idx = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++	RT_NDPA_STA_INFO	sta_info;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	
++	if (pmgntframe == NULL) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s, alloc mgnt frame fail\n", __func__));
++		return _FALSE;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	_rtw_memcpy(pattrib->ra, RA, ETH_ALEN);
++	update_mgntframe_attrib(Adapter, pattrib);
++
++	pattrib->qsel = QSLT_BEACON;
++	NDPTxRate = Beamforming_GetVHTNDPTxRate(pDM_Odm, pBeamformEntry->CompSteeringNumofBFer);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] NDPTxRate =%d\n", __func__, NDPTxRate));
++	pattrib->rate = NDPTxRate;
++	pattrib->bwmode = BW;
++	pattrib->subtype = WIFI_NDPA;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr*)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	SetFrameSubType(pframe, WIFI_NDPA);
++
++	_rtw_memcpy(pwlanhdr->addr1, RA, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pBeamformEntry->MyMacAddr, ETH_ALEN);
++
++	if (IsSupported5G(pmlmeext->cur_wireless_mode) || IsSupportedHT(pmlmeext->cur_wireless_mode))
++		aSifsTime = 16;
++	else
++		aSifsTime = 10;
++
++	duration = 2*aSifsTime + 44;
++	
++	if(BW == CHANNEL_WIDTH_80)
++		duration += 40;
++	else if(BW == CHANNEL_WIDTH_40)
++		duration+= 87;
++	else	
++		duration+= 180;
++
++	SetDuration(pframe, duration);
++
++	sequence = pBeamInfo->SoundingSequence<< 2;
++	if (pBeamInfo->SoundingSequence >= 0x3f)
++		pBeamInfo->SoundingSequence = 0;
++	else
++		pBeamInfo->SoundingSequence++;
++
++	_rtw_memcpy(pframe+16, &sequence,1);
++
++	if (((pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE) || ((pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE))
++		AID = 0;		
++
++	sta_info.AID = AID;
++	sta_info.FeedbackType = 0;
++	sta_info.NcIndex= 0;
++	
++	_rtw_memcpy(pframe+17, (u8 *)&sta_info, 2);
++
++	pattrib->pktlen = 19;
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(Adapter, pmgntframe);
++
++	return _TRUE;
++}
++
++
++
++BOOLEAN
++SendSWVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct xmit_priv		*pxmitpriv = &(Adapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv		*pmlmepriv = &(Adapter->mlmepriv);
++	RT_NDPA_STA_INFO	ndpa_sta_info;
++	u1Byte	NDPTxRate = 0, sequence = 0, aSifsTime = 0, Idx = 0;
++	pu1Byte	pframe;
++	pu2Byte	fctrl;
++	u2Byte	duration = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++
++	NDPTxRate = Beamforming_GetVHTNDPTxRate(pDM_Odm, pBeamformEntry->CompSteeringNumofBFer);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] NDPTxRate =%d\n", __func__, NDPTxRate));
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	
++	if (pmgntframe == NULL) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s, alloc mgnt frame fail\n", __func__));
++		return _FALSE;
++	}
++	
++	/*update attribute*/
++	pattrib = &pmgntframe->attrib;
++	_rtw_memcpy(pattrib->ra, RA, ETH_ALEN);
++	update_mgntframe_attrib(Adapter, pattrib);
++	pattrib->qsel = QSLT_MGNT;
++	pattrib->rate = NDPTxRate;
++	pattrib->bwmode = BW;
++	pattrib->subtype = WIFI_NDPA;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	SetFrameSubType(pframe, WIFI_NDPA);
++
++	_rtw_memcpy(pwlanhdr->addr1, RA, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pBeamformEntry->MyMacAddr, ETH_ALEN);
++
++	if (IsSupported5G(pmlmeext->cur_wireless_mode) || IsSupportedHT(pmlmeext->cur_wireless_mode))
++		aSifsTime = 16;
++	else
++		aSifsTime = 10;
++
++	duration = 2*aSifsTime + 44;
++	
++	if (BW == CHANNEL_WIDTH_80)
++		duration += 40;
++	else if (BW == CHANNEL_WIDTH_40)
++		duration += 87;
++	else	
++		duration += 180;
++
++	SetDuration(pframe, duration);
++	
++	sequence = pBeamInfo->SoundingSequence << 2;
++	if (pBeamInfo->SoundingSequence >= 0x3f)
++		pBeamInfo->SoundingSequence = 0;
++	else
++		pBeamInfo->SoundingSequence++;
++
++	_rtw_memcpy(pframe+16, &sequence, 1);
++	if (((pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE) || ((pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE))
++		AID = 0;		
++
++	ndpa_sta_info.AID = AID;
++	ndpa_sta_info.FeedbackType = 0;
++	ndpa_sta_info.NcIndex = 0;
++	
++	_rtw_memcpy(pframe+17, (u8 *)&ndpa_sta_info, 2);
++
++	pattrib->pktlen = 19;
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(Adapter, pmgntframe);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] [%d]\n", __func__, __LINE__));
++	
++	return _TRUE;
++}
++
++
++#endif
++
++
++VOID
++Beamforming_GetNDPAFrame(
++	IN	PVOID			pDM_VOID,
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	OCTET_STRING	pduOS
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	union recv_frame *precv_frame
++#endif
++)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER					Adapter = pDM_Odm->Adapter;
++	pu1Byte						TA ;
++	u1Byte						Idx, Sequence;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	pu1Byte						pNDPAFrame = pduOS.Octet;
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	pu1Byte						pNDPAFrame = precv_frame->u.hdr.rx_data;
++#endif
++	PRT_BEAMFORMER_ENTRY		pBeamformerEntry = NULL;		/*Modified By Jeffery @2014-10-29*/
++	
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		RT_DISP_DATA(FBEAM, FBEAM_DATA, "Beamforming_GetNDPAFrame\n", pduOS.Octet, pduOS.Length);
++	if (IsCtrlNDPA(pNDPAFrame) == FALSE)
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	if (GetFrameSubType(pNDPAFrame) != WIFI_NDPA)
++#endif
++		return;
++	else if (!(pDM_Odm->SupportICType & (ODM_RTL8812 | ODM_RTL8821))) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] not 8812 or 8821A, return\n", __func__));
++		return;
++	}
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	TA = Frame_Addr2(pduOS);
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	TA = GetAddr2Ptr(pNDPAFrame);
++#endif
++	/*Remove signaling TA. */
++	TA[0] = TA[0] & 0xFE;
++    
++	pBeamformerEntry = phydm_Beamforming_GetBFerEntryByAddr(pDM_Odm, TA, &Idx);		// Modified By Jeffery @2014-10-29
++
++	/*Break options for Clock Reset*/    
++	if (pBeamformerEntry == NULL)
++		return;
++	else if (!(pBeamformerEntry->BeamformEntryCap & BEAMFORMEE_CAP_VHT_SU))
++		return;
++	/*LogSuccess: As long as 8812A receive NDPA and feedback CSI succeed once, clock reset is NO LONGER needed !2015-04-10, Jeffery*/
++	/*ClockResetTimes: While BFer entry always doesn't receive our CSI, clock will reset again and again.So ClockResetTimes is limited to 5 times.2015-04-13, Jeffery*/
++	else if ((pBeamformerEntry->LogSuccess == 1) || (pBeamformerEntry->ClockResetTimes == 5)) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] LogSeq=%d, PreLogSeq=%d, LogRetryCnt=%d, LogSuccess=%d, ClockResetTimes=%d, clock reset is no longer needed.\n", 
++			__func__, pBeamformerEntry->LogSeq, pBeamformerEntry->PreLogSeq, pBeamformerEntry->LogRetryCnt, pBeamformerEntry->LogSuccess, pBeamformerEntry->ClockResetTimes));
++
++        return;
++	}
++
++	Sequence = (pNDPAFrame[16]) >> 2;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start, Sequence=%d, LogSeq=%d, PreLogSeq=%d, LogRetryCnt=%d, ClockResetTimes=%d, LogSuccess=%d\n", 
++		__func__, Sequence, pBeamformerEntry->LogSeq, pBeamformerEntry->PreLogSeq, pBeamformerEntry->LogRetryCnt, pBeamformerEntry->ClockResetTimes, pBeamformerEntry->LogSuccess));
++
++	if ((pBeamformerEntry->LogSeq != 0) && (pBeamformerEntry->PreLogSeq != 0)) {
++		/*Success condition*/
++		if ((pBeamformerEntry->LogSeq != Sequence) && (pBeamformerEntry->PreLogSeq != pBeamformerEntry->LogSeq)) {
++			/* break option for clcok reset, 2015-03-30, Jeffery */
++			pBeamformerEntry->LogRetryCnt = 0;
++			/*As long as 8812A receive NDPA and feedback CSI succeed once, clock reset is no longer needed.*/
++			/*That is, LogSuccess is NOT needed to be reset to zero, 2015-04-13, Jeffery*/
++			pBeamformerEntry->LogSuccess = 1;
++
++		} else {/*Fail condition*/
++
++			if (pBeamformerEntry->LogRetryCnt == 5) {
++				pBeamformerEntry->ClockResetTimes++;
++				pBeamformerEntry->LogRetryCnt = 0;
++
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Clock Reset!!! ClockResetTimes=%d\n", 
++				__func__, pBeamformerEntry->ClockResetTimes));
++			HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_CLK, NULL);
++
++			} else
++				pBeamformerEntry->LogRetryCnt++;
++		}
++	}
++
++	/*Update LogSeq & PreLogSeq*/
++	pBeamformerEntry->PreLogSeq = pBeamformerEntry->LogSeq;
++	pBeamformerEntry->LogSeq = Sequence;
++	
++}
++
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbfinterface.h b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbfinterface.h
+new file mode 100644
+index 0000000..0e51347
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbfinterface.h
+@@ -0,0 +1,162 @@
++#ifndef __HAL_TXBF_INTERFACE_H__
++#define __HAL_TXBF_INTERFACE_H__
++
++#if (BEAMFORMING_SUPPORT == 1)
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++Beamforming_GidPAid(
++	PADAPTER	Adapter,
++	PRT_TCB		pTcb
++	);
++
++RT_STATUS
++Beamforming_GetReportFrame(
++	IN	PADAPTER		Adapter,
++	IN	PRT_RFD			pRfd,
++	IN	POCTET_STRING	pPduOS
++	);
++
++VOID
++Beamforming_GetNDPAFrame(
++	IN	PVOID			pDM_VOID,
++	IN	OCTET_STRING	pduOS
++	);
++
++BOOLEAN
++SendFWHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW
++	);
++
++BOOLEAN
++SendFWVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW
++	);
++
++BOOLEAN
++SendSWVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW
++	);
++
++BOOLEAN
++SendSWHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW
++	);
++
++#if (SUPPORT_MU_BF == 1)
++RT_STATUS
++Beamforming_GetVHTGIDMgntFrame(
++	IN	PADAPTER		Adapter,
++	IN	PRT_RFD			pRfd,
++	IN	POCTET_STRING	pPduOS
++	);
++
++BOOLEAN
++SendSWVHTGIDMgntFrame(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u1Byte			Idx
++	);
++
++BOOLEAN
++SendSWVHTBFReportPoll(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	BOOLEAN			bFinalPoll
++	);
++
++BOOLEAN
++SendSWVHTMUNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	CHANNEL_WIDTH	BW
++	);
++#else
++#define Beamforming_GetVHTGIDMgntFrame(Adapter, pRfd, pPduOS) RT_STATUS_FAILURE
++#define SendSWVHTGIDMgntFrame(pDM_VOID, RA)
++#define SendSWVHTBFReportPoll(pDM_VOID, RA, bFinalPoll)
++#define SendSWVHTMUNDPAPacket(pDM_VOID, BW)
++#endif
++
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++u4Byte
++Beamforming_GetReportFrame(
++	IN	PVOID			pDM_VOID,
++	union recv_frame *precv_frame
++	);
++
++BOOLEAN
++SendFWHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW
++	);
++
++BOOLEAN
++SendSWHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW
++	);
++
++BOOLEAN
++SendFWVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW
++	);
++
++BOOLEAN
++SendSWVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW
++	);
++#endif
++
++VOID
++Beamforming_GetNDPAFrame(
++	IN	PVOID			pDM_VOID,
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	OCTET_STRING	pduOS
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	union recv_frame *precv_frame
++#endif
++);
++
++BOOLEAN
++DBG_SendSWVHTMUNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	CHANNEL_WIDTH	BW
++	);
++
++#else
++#define Beamforming_GetNDPAFrame(pDM_Odm, _PduOS)
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++#define Beamforming_GetReportFrame(Adapter, precv_frame)		RT_STATUS_FAILURE
++#elif (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#define Beamforming_GetReportFrame(Adapter, pRfd, pPduOS)		RT_STATUS_FAILURE
++#define Beamforming_GetVHTGIDMgntFrame(Adapter, pRfd, pPduOS) RT_STATUS_FAILURE
++#endif
++#define SendFWHTNDPAPacket(pDM_VOID, RA, BW)
++#define SendSWHTNDPAPacket(pDM_VOID, RA, BW)
++#define SendFWVHTNDPAPacket(pDM_VOID, RA, AID, BW)
++#define SendSWVHTNDPAPacket(pDM_VOID, RA,	AID, BW)
++#define SendSWVHTGIDMgntFrame(pDM_VOID, RA, idx)
++#define SendSWVHTBFReportPoll(pDM_VOID, RA, bFinalPoll)
++#define SendSWVHTMUNDPAPacket(pDM_VOID, BW)
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbfjaguar.c b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbfjaguar.c
+new file mode 100644
+index 0000000..2f18aa9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbfjaguar.c
+@@ -0,0 +1,527 @@
++//============================================================
++// Description:
++//
++// This file is for 8812/8821/8811 TXBF mechanism
++//
++//============================================================
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#if (BEAMFORMING_SUPPORT == 1)
++#if ((RTL8812A_SUPPORT == 1) || (RTL8821A_SUPPORT == 1))
++VOID
++HalTxbf8812A_setNDPArate(
++	IN PVOID			pDM_VOID,
++	IN u1Byte	BW,
++	IN u1Byte	Rate
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	ODM_Write1Byte(pDM_Odm, REG_NDPA_OPT_CTRL_8812A,  (Rate << 2 | BW));	
++
++}
++
++VOID
++halTxbfJaguar_RfMode(
++	IN PVOID			pDM_VOID,
++	IN PRT_BEAMFORMING_INFO	pBeamInfo
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	if (pDM_Odm->RFType == ODM_1T1R)
++		return;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] set TxIQGen\n", __func__));
++
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_WeLut_Jaguar, 0x80000, 0x1);	/*RF Mode table write enable*/
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_WeLut_Jaguar, 0x80000, 0x1);	/*RF Mode table write enable*/
++
++	if (pBeamInfo->beamformee_su_cnt > 0) {
++		// Paath_A
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableAddr, 0x78000, 0x3);		/*Select RX mode*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData0, 0xfffff, 0x3F7FF);	/*Set Table data*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData1, 0xfffff, 0xE26BF);	/*Enable TXIQGEN in RX mode*/
++		// Path_B
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableAddr, 0x78000, 0x3);		/*Select RX mode*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableData0, 0xfffff, 0x3F7FF);	/*Set Table data*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableData1, 0xfffff, 0xE26BF);	/*Enable TXIQGEN in RX mode*/
++	} else {
++		// Paath_A
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableAddr, 0x78000, 0x3);		/*Select RX mode*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData0, 0xfffff, 0x3F7FF);	/*Set Table data*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData1, 0xfffff, 0xC26BF);	/*Disable TXIQGEN in RX mode*/
++		// Path_B
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableAddr, 0x78000, 0x3);		/*Select RX mode*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableData0, 0xfffff, 0x3F7FF);	/*Set Table data*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableData1, 0xfffff, 0xC26BF);	/*Disable TXIQGEN in RX mode*/
++	}
++
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_WeLut_Jaguar, 0x80000, 0x0);	/*RF Mode table write disable*/
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_WeLut_Jaguar, 0x80000, 0x0);	/*RF Mode table write disable*/
++
++	if (pBeamInfo->beamformee_su_cnt > 0)
++		ODM_SetBBReg(pDM_Odm, rTxPath_Jaguar, bMaskByte1, 0x33);
++	else
++		ODM_SetBBReg(pDM_Odm, rTxPath_Jaguar, bMaskByte1, 0x11);
++}
++
++
++VOID
++halTxbfJaguar_DownloadNDPA(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			u1bTmp = 0, tmpReg422 = 0, Head_Page;
++	u1Byte			BcnValidReg = 0, count = 0, DLBcnCount = 0;
++	BOOLEAN			bSendBeacon = FALSE;
++	u1Byte			TxPageBndy = LAST_ENTRY_OF_TX_PKT_BUFFER_8812;	/*default reseved 1 page for the IC type which is undefined.*/
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pBeamEntry = pBeamInfo->BeamformeeEntry + Idx;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	*pDM_Odm->pbFwDwRsvdPageInProgress = TRUE;
++#endif
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (Idx == 0)
++		Head_Page = 0xFE;
++	else
++		Head_Page = 0xFE;
++
++	Adapter->HalFunc.GetHalDefVarHandler(Adapter, HAL_DEF_TX_PAGE_BOUNDARY, (pu1Byte)&TxPageBndy);
++
++	/*Set REG_CR bit 8. DMA beacon by SW.*/
++	u1bTmp = ODM_Read1Byte(pDM_Odm, REG_CR_8812A + 1);
++	ODM_Write1Byte(pDM_Odm,  REG_CR_8812A + 1, (u1bTmp | BIT0));
++
++
++	/*Set FWHW_TXQ_CTRL 0x422[6]=0 to tell Hw the packet is not a real beacon frame.*/
++	tmpReg422 = ODM_Read1Byte(pDM_Odm, REG_FWHW_TXQ_CTRL_8812A + 2);
++	ODM_Write1Byte(pDM_Odm, REG_FWHW_TXQ_CTRL_8812A + 2,  tmpReg422 & (~BIT6));
++
++	if (tmpReg422 & BIT6) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("SetBeamformDownloadNDPA_8812(): There is an Adapter is sending beacon.\n"));
++		bSendBeacon = TRUE;
++	}
++
++	/*TDECTRL[15:8] 0x209[7:0] = 0xF6	Beacon Head for TXDMA*/
++	ODM_Write1Byte(pDM_Odm, REG_TDECTRL_8812A + 1, Head_Page);
++
++	do {
++		/*Clear beacon valid check bit.*/
++		BcnValidReg = ODM_Read1Byte(pDM_Odm, REG_TDECTRL_8812A + 2);
++		ODM_Write1Byte(pDM_Odm, REG_TDECTRL_8812A + 2, (BcnValidReg | BIT0));
++
++		/*download NDPA rsvd page.*/
++		if (pBeamEntry->BeamformEntryCap & BEAMFORMER_CAP_VHT_SU)
++			Beamforming_SendVHTNDPAPacket(pDM_Odm, pBeamEntry->MacAddr, pBeamEntry->AID, pBeamEntry->SoundBW, BEACON_QUEUE);
++		else
++			Beamforming_SendHTNDPAPacket(pDM_Odm, pBeamEntry->MacAddr, pBeamEntry->SoundBW, BEACON_QUEUE);
++
++		/*check rsvd page download OK.*/
++		BcnValidReg = ODM_Read1Byte(pDM_Odm, REG_TDECTRL_8812A + 2);
++		count = 0;
++		while (!(BcnValidReg & BIT0) && count < 20) {
++			count++;
++			ODM_delay_ms(10);
++			BcnValidReg = ODM_Read1Byte(pDM_Odm, REG_TDECTRL_8812A + 2);
++		}
++		DLBcnCount++;
++	} while (!(BcnValidReg & BIT0) && DLBcnCount < 5);
++
++	if (!(BcnValidReg & BIT0))
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Download RSVD page failed!\n", __func__));
++
++	/*TDECTRL[15:8] 0x209[7:0] = 0xF6	Beacon Head for TXDMA*/
++	ODM_Write1Byte(pDM_Odm, REG_TDECTRL_8812A + 1, TxPageBndy);
++
++	/*To make sure that if there exists an adapter which would like to send beacon.*/
++	/*If exists, the origianl value of 0x422[6] will be 1, we should check this to*/
++	/*prevent from setting 0x422[6] to 0 after download reserved page, or it will cause*/
++	/*the beacon cannot be sent by HW.*/
++	/*2010.06.23. Added by tynli.*/
++	if (bSendBeacon)
++		ODM_Write1Byte(pDM_Odm, REG_FWHW_TXQ_CTRL_8812A + 2, tmpReg422);
++
++	/*Do not enable HW DMA BCN or it will cause Pcie interface hang by timing issue. 2011.11.24. by tynli.*/
++	/*Clear CR[8] or beacon packet will not be send to TxBuf anymore.*/
++	u1bTmp = ODM_Read1Byte(pDM_Odm, REG_CR_8812A + 1);
++	ODM_Write1Byte(pDM_Odm, REG_CR_8812A + 1, (u1bTmp & (~BIT0)));
++
++	pBeamEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_PROGRESSED;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	*pDM_Odm->pbFwDwRsvdPageInProgress = FALSE;
++#endif
++}
++
++
++VOID
++halTxbfJaguar_FwTxBFCmd(
++	IN PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	Idx, Period0 = 0, Period1 = 0;
++	u1Byte	PageNum0 = 0xFF, PageNum1 = 0xFF;
++	u1Byte	u1TxBFParm[3] = {0};
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	for (Idx = 0; Idx < BEAMFORMEE_ENTRY_NUM; Idx++) {
++		/*Modified by David*/
++		if (pBeamInfo->BeamformeeEntry[Idx].bUsed && pBeamInfo->BeamformeeEntry[Idx].BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++			if (Idx == 0) {
++				if (pBeamInfo->BeamformeeEntry[Idx].bSound)
++					PageNum0 = 0xFE;
++				else
++					PageNum0 = 0xFF; /*stop sounding*/
++				Period0 = (u1Byte)(pBeamInfo->BeamformeeEntry[Idx].SoundPeriod);
++			} else if (Idx == 1) {
++				if (pBeamInfo->BeamformeeEntry[Idx].bSound)
++					PageNum1 = 0xFE;
++				else
++					PageNum1 = 0xFF; /*stop sounding*/
++				Period1 = (u1Byte)(pBeamInfo->BeamformeeEntry[Idx].SoundPeriod);
++			}
++		}
++	}
++
++	u1TxBFParm[0] = PageNum0;
++	u1TxBFParm[1] = PageNum1;
++	u1TxBFParm[2] = (Period1 << 4) | Period0;
++	ODM_FillH2CCmd(pDM_Odm, PHYDM_H2C_TXBF, 3, u1TxBFParm);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, 
++		("[%s] PageNum0 = %d Period0 = %d, PageNum1 = %d Period1 %d\n", __func__, PageNum0, Period0, PageNum1, Period1));
++}
++
++
++VOID
++HalTxbfJaguar_Enter(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				BFerBFeeIdx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte					i = 0;
++	u1Byte					BFerIdx = (BFerBFeeIdx & 0xF0) >> 4;
++	u1Byte					BFeeIdx = (BFerBFeeIdx & 0xF);
++	u4Byte					CSI_Param;
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	RT_BEAMFORMEE_ENTRY	BeamformeeEntry;
++	RT_BEAMFORMER_ENTRY	BeamformerEntry;
++	u2Byte					STAid = 0;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]Start!\n", __func__));
++
++	halTxbfJaguar_RfMode(pDM_Odm, pBeamformingInfo);
++
++	if (pDM_Odm->RFType == ODM_2T2R)
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CSI_CONTENT_VALUE, bMaskDWord, 0x00000000);	/*Nc =2*/
++	else
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CSI_CONTENT_VALUE, bMaskDWord, 0x01081008);	/*Nc =1*/
++
++	if ((pBeamformingInfo->beamformer_su_cnt > 0) && (BFerIdx < BEAMFORMER_ENTRY_NUM)) {
++		BeamformerEntry = pBeamformingInfo->BeamformerEntry[BFerIdx];
++
++		/*Sounding protocol control*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8812A, 0xCB);
++
++		/*MAC address/Partial AID of Beamformer*/
++		if (BFerIdx == 0) {
++			for (i = 0; i < 6 ; i++)
++				ODM_Write1Byte(pDM_Odm, (REG_BFMER0_INFO_8812A + i), BeamformerEntry.MacAddr[i]);
++			/*CSI report use legacy ofdm so don't need to fill P_AID. */
++			/*PlatformEFIOWrite2Byte(Adapter, REG_BFMER0_INFO_8812A+6, BeamformEntry.P_AID); */
++		} else {
++			for (i = 0; i < 6 ; i++)
++				ODM_Write1Byte(pDM_Odm, (REG_BFMER1_INFO_8812A + i), BeamformerEntry.MacAddr[i]);
++			/*CSI report use legacy ofdm so don't need to fill P_AID.*/
++			/*PlatformEFIOWrite2Byte(Adapter, REG_BFMER1_INFO_8812A+6, BeamformEntry.P_AID);*/
++		}
++
++		/*CSI report parameters of Beamformee*/
++		if (BeamformerEntry.BeamformEntryCap & BEAMFORMEE_CAP_VHT_SU) {
++			if (pDM_Odm->RFType == ODM_2T2R)
++				CSI_Param = 0x01090109;
++			else
++				CSI_Param = 0x01080108;
++		} else {
++			if (pDM_Odm->RFType == ODM_2T2R)
++				CSI_Param = 0x03090309;
++			else
++				CSI_Param = 0x03080308;
++		}
++
++		ODM_Write4Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW20_8812A, CSI_Param);
++		ODM_Write4Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW40_8812A, CSI_Param);
++		ODM_Write4Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW80_8812A, CSI_Param);
++
++		/*Timeout value for MAC to leave NDP_RX_standby_state (60 us, Test chip) (80 us,  MP chip)*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8812A + 3, 0x50);
++	}
++
++
++	if ((pBeamformingInfo->beamformee_su_cnt > 0) && (BFeeIdx < BEAMFORMEE_ENTRY_NUM)) {
++		BeamformeeEntry = pBeamformingInfo->BeamformeeEntry[BFeeIdx];
++
++		if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS))
++			STAid = BeamformeeEntry.MacId;
++		else
++			STAid = BeamformeeEntry.P_AID;
++
++		/*P_AID of Beamformee & enable NDPA transmission & enable NDPA interrupt*/
++		if (BFeeIdx == 0) {
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8812A, STAid);
++			ODM_Write1Byte(pDM_Odm, REG_TXBF_CTRL_8812A + 3, ODM_Read1Byte(pDM_Odm, REG_TXBF_CTRL_8812A + 3) | BIT4 | BIT6 | BIT7);
++		} else
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8812A + 2, STAid | BIT12 | BIT14 | BIT15);
++
++		/*CSI report parameters of Beamformee*/
++		if (BFeeIdx == 0) {
++			/*Get BIT24 & BIT25*/
++			u1Byte	tmp = ODM_Read1Byte(pDM_Odm, REG_BFMEE_SEL_8812A + 3) & 0x3;
++
++			ODM_Write1Byte(pDM_Odm, REG_BFMEE_SEL_8812A + 3, tmp | 0x60);
++			ODM_Write2Byte(pDM_Odm, REG_BFMEE_SEL_8812A, STAid | BIT9);
++		} else {
++			/*Set BIT25*/
++			ODM_Write2Byte(pDM_Odm, REG_BFMEE_SEL_8812A + 2, STAid | 0xE200);
++		}
++			phydm_Beamforming_Notify(pDM_Odm);
++	}
++}
++
++
++VOID
++HalTxbfJaguar_Leave(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	RT_BEAMFORMER_ENTRY	BeamformerEntry;
++	RT_BEAMFORMEE_ENTRY	BeamformeeEntry;
++	
++	if (Idx < BEAMFORMER_ENTRY_NUM) {
++		BeamformerEntry = pBeamformingInfo->BeamformerEntry[Idx];
++		BeamformeeEntry = pBeamformingInfo->BeamformeeEntry[Idx];
++	} else
++		return;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]Start!, IDx = %d\n", __func__, Idx));
++
++	/*Clear P_AID of Beamformee*/
++	/*Clear MAC address of Beamformer*/
++	/*Clear Associated Bfmee Sel*/
++	
++	if (BeamformerEntry.BeamformEntryCap == BEAMFORMING_CAP_NONE) {
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8812A, 0xC8);
++		if (Idx == 0) {
++			ODM_Write4Byte(pDM_Odm, REG_BFMER0_INFO_8812A, 0);
++			ODM_Write2Byte(pDM_Odm, REG_BFMER0_INFO_8812A + 4, 0);
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW20_8812A, 0);
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW40_8812A, 0);
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW80_8812A, 0);
++		} else {
++			ODM_Write4Byte(pDM_Odm, REG_BFMER1_INFO_8812A, 0);
++			ODM_Write2Byte(pDM_Odm, REG_BFMER1_INFO_8812A + 4, 0);
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW20_8812A, 0);
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW40_8812A, 0);
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW80_8812A, 0);
++		}
++	}
++
++	if (BeamformeeEntry.BeamformEntryCap == BEAMFORMING_CAP_NONE) {
++		halTxbfJaguar_RfMode(pDM_Odm, pBeamformingInfo);
++		if (Idx == 0) {
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8812A, 0x0);
++			ODM_Write2Byte(pDM_Odm, REG_BFMEE_SEL_8812A, 0);
++		} else {
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8812A + 2, ODM_Read2Byte(pDM_Odm, REG_TXBF_CTRL_8812A + 2) & 0xF000);
++			ODM_Write2Byte(pDM_Odm, REG_BFMEE_SEL_8812A + 2, ODM_Read2Byte(pDM_Odm, REG_BFMEE_SEL_8812A + 2) & 0x60);
++		}
++	}
++	
++}
++
++
++VOID
++HalTxbfJaguar_Status(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u2Byte					BeamCtrlVal;
++	u4Byte					BeamCtrlReg;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	RT_BEAMFORMEE_ENTRY	BeamformEntry = pBeamInfo->BeamformeeEntry[Idx];
++
++	if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS))
++		BeamCtrlVal = BeamformEntry.MacId;
++	else
++		BeamCtrlVal = BeamformEntry.P_AID;
++
++	if (Idx == 0)
++		BeamCtrlReg = REG_TXBF_CTRL_8812A;
++	else {
++		BeamCtrlReg = REG_TXBF_CTRL_8812A + 2;
++		BeamCtrlVal |= BIT12 | BIT14 | BIT15;
++	}
++
++	if (BeamformEntry.BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++		if (BeamformEntry.SoundBW == CHANNEL_WIDTH_20)
++			BeamCtrlVal |= BIT9;
++		else if (BeamformEntry.SoundBW == CHANNEL_WIDTH_40)
++			BeamCtrlVal |= (BIT9 | BIT10);
++		else if (BeamformEntry.SoundBW == CHANNEL_WIDTH_80)
++			BeamCtrlVal |= (BIT9 | BIT10 | BIT11);
++	} else
++		BeamCtrlVal &= ~(BIT9 | BIT10 | BIT11);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] BeamCtrlVal = 0x%x!\n", __func__, BeamCtrlVal));
++
++	ODM_Write2Byte(pDM_Odm, BeamCtrlReg, BeamCtrlVal);
++}
++
++
++
++VOID
++HalTxbfJaguar_FwTxBF(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pBeamEntry = pBeamInfo->BeamformeeEntry + Idx;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pBeamEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSING)
++		halTxbfJaguar_DownloadNDPA(pDM_Odm, Idx);
++
++	halTxbfJaguar_FwTxBFCmd(pDM_Odm);
++}
++
++
++VOID
++HalTxbfJaguar_Patch(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Operation
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pBeamInfo->BeamformCap == BEAMFORMING_CAP_NONE)
++		return;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	if (Operation == SCAN_OPT_BACKUP_BAND0)
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8812A, 0xC8);
++	else if (Operation == SCAN_OPT_RESTORE)
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8812A, 0xCB);
++#endif
++}
++
++VOID
++HalTxbfJaguar_Clk_8812A(
++	IN PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u2Byte	u2btmp;
++	u1Byte	Count = 0, u1btmp;
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (*(pDM_Odm->pbScanInProcess)) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] return by Scan\n", __func__));
++		return;
++	}
++#if DEV_BUS_TYPE == RT_PCI_INTERFACE	
++	/*Stop PCIe TxDMA*/
++	ODM_Write1Byte(pDM_Odm, REG_PCIE_CTRL_REG_8812A + 1, 0xFE);
++#endif
++
++	/*Stop Usb TxDMA*/
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	RT_DISABLE_FUNC(Adapter, DF_TX_BIT);
++	PlatformReturnAllPendingTxPackets(Adapter);
++#else
++	rtw_write_port_cancel(Adapter);
++#endif
++
++	/*Wait TXFF empty*/
++	for (Count = 0; Count < 100; Count++) {
++		u2btmp = ODM_Read2Byte(pDM_Odm, REG_TXPKT_EMPTY_8812A);
++		u2btmp = u2btmp & 0xfff;
++		if (u2btmp != 0xfff) {
++			ODM_delay_ms(10);
++			continue;
++		} else
++			break;
++	}
++
++	/*TX pause*/
++	ODM_Write1Byte(pDM_Odm, REG_TXPAUSE_8812A, 0xFF);
++
++	/*Wait TX State Machine OK*/
++	for (Count = 0; Count < 100; Count++) {
++		if (ODM_Read4Byte(pDM_Odm, REG_SCH_TXCMD_8812A) != 0)
++			continue;
++		else
++			break;
++	}
++
++
++	/*Stop RX DMA path*/
++	u1btmp = ODM_Read1Byte(pDM_Odm, REG_RXDMA_CONTROL_8812A);
++	ODM_Write1Byte(pDM_Odm, REG_RXDMA_CONTROL_8812A, u1btmp | BIT2);
++
++	for (Count = 0; Count < 100; Count++) {
++		u1btmp = ODM_Read1Byte(pDM_Odm, REG_RXDMA_CONTROL_8812A);
++		if (u1btmp & BIT1)
++			break;
++		else
++			ODM_delay_ms(10);
++	}
++
++	/*Disable clock*/
++	ODM_Write1Byte(pDM_Odm, REG_SYS_CLKR_8812A + 1, 0xf0);
++	/*Disable 320M*/
++	ODM_Write1Byte(pDM_Odm, REG_AFE_PLL_CTRL_8812A + 3, 0x8);
++	/*Enable 320M*/
++	ODM_Write1Byte(pDM_Odm, REG_AFE_PLL_CTRL_8812A + 3, 0xa);
++	/*Enable clock*/
++	ODM_Write1Byte(pDM_Odm, REG_SYS_CLKR_8812A + 1, 0xfc);
++
++
++	/*Release Tx pause*/
++	ODM_Write1Byte(pDM_Odm, REG_TXPAUSE_8812A, 0);
++
++	/*Enable RX DMA path*/
++	u1btmp = ODM_Read1Byte(pDM_Odm, REG_RXDMA_CONTROL_8812A);
++	ODM_Write1Byte(pDM_Odm, REG_RXDMA_CONTROL_8812A, u1btmp & (~BIT2));
++#if DEV_BUS_TYPE == RT_PCI_INTERFACE
++	/*Enable PCIe TxDMA*/
++	ODM_Write1Byte(pDM_Odm, REG_PCIE_CTRL_REG_8812A + 1, 0);
++#endif
++	/*Start Usb TxDMA*/
++	RT_ENABLE_FUNC(Adapter, DF_TX_BIT);
++}
++
++#endif
++
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbfjaguar.h b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbfjaguar.h
+new file mode 100644
+index 0000000..49a5fdf
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/haltxbfjaguar.h
+@@ -0,0 +1,67 @@
++#ifndef __HAL_TXBF_JAGUAR_H__
++#define __HAL_TXBF_JAGUAR_H__
++
++#if (BEAMFORMING_SUPPORT == 1)
++#if ((RTL8812A_SUPPORT == 1) || (RTL8821A_SUPPORT == 1))
++VOID
++HalTxbf8812A_setNDPArate(
++	IN PVOID			pDM_VOID,
++	IN u1Byte	BW,
++	IN u1Byte	Rate
++);
++
++
++VOID
++HalTxbfJaguar_Enter(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbfJaguar_Leave(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbfJaguar_Status(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbfJaguar_FwTxBF(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++	);
++
++
++VOID
++HalTxbfJaguar_Patch(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Operation
++	);
++
++
++VOID
++HalTxbfJaguar_Clk_8812A(
++	IN PVOID			pDM_VOID
++	);
++
++#else
++
++#define HalTxbf8812A_setNDPArate(pDM_VOID,	BW,	Rate)
++#define HalTxbfJaguar_Enter(pDM_VOID, Idx)
++#define HalTxbfJaguar_Leave(pDM_VOID, Idx)
++#define HalTxbfJaguar_Status(pDM_VOID, Idx)
++#define HalTxbfJaguar_FwTxBF(pDM_VOID,	Idx)
++#define HalTxbfJaguar_Patch(pDM_VOID, Operation)
++#define HalTxbfJaguar_Clk_8812A(pDM_VOID)
++#endif
++
++#endif				
++#endif	// #ifndef __HAL_TXBF_JAGUAR_H__								
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/txbf/phydm_hal_txbf_api.c b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/phydm_hal_txbf_api.c
+new file mode 100644
+index 0000000..2cfe670
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/phydm_hal_txbf_api.c
+@@ -0,0 +1,60 @@
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#if (BEAMFORMING_SUPPORT == 1)
++
++/*Add by YuChen for 8822B MU-MIMO API*/
++
++/*this function is only used for BFer*/
++u1Byte
++phydm_get_ndpa_rate(
++	IN PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte		NDPARate = ODM_RATE6M;
++
++	if (pDM_Odm->RSSI_Min >= 30)	/*link RSSI > 30%*/
++		NDPARate = ODM_RATE24M;
++	else if (pDM_Odm->RSSI_Min <= 25)
++		NDPARate = ODM_RATE6M;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_TRACE, ("[%s] NDPARate = 0x%x\n", __func__, NDPARate));
++
++	return NDPARate;
++
++}
++
++/*this function is only used for BFer*/
++u1Byte
++phydm_get_beamforming_sounding_info(
++	IN PVOID		pDM_VOID,
++	IN pu2Byte	Troughput,
++	IN u1Byte	Total_BFee_Num,
++	IN pu1Byte	TxRate
++	)
++{
++	u1Byte	idx = 0;
++	u1Byte	soundingdecision = 0xff;
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	for (idx = 0; idx < Total_BFee_Num; idx++) {
++		if (((TxRate[idx] >= ODM_RATEVHTSS3MCS7) && (TxRate[idx] <= ODM_RATEVHTSS3MCS9)))
++			soundingdecision = soundingdecision & ~(1<<idx);
++	}
++
++	for (idx = 0; idx < Total_BFee_Num; idx++) {
++		if (Troughput[idx] <= 10)
++			soundingdecision = soundingdecision & ~(1<<idx);
++	}
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_TRACE, ("[%s] soundingdecision = 0x%x\n", __func__, soundingdecision));
++
++	return soundingdecision;
++
++}
++
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/phydm/txbf/phydm_hal_txbf_api.h b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/phydm_hal_txbf_api.h
+new file mode 100644
+index 0000000..72adb52
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/phydm/txbf/phydm_hal_txbf_api.h
+@@ -0,0 +1,36 @@
++/********************************************************************************/
++/**/
++/*Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.*/
++/**/                                      
++/*This program is free software; you can redistribute it and/or modify it*/
++/*under the terms of version 2 of the GNU General Public License as*/
++/*published by the Free Software Foundation.*/
++/**/
++/*This program is distributed in the hope that it will be useful, but WITHOUT*/
++/*ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or*/
++/*FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for*/
++/*more details.*/
++/*You should have received a copy of the GNU General Public License along with*/
++/*this program; if not, write to the Free Software Foundation, Inc.,*/
++/*51 Franklin Street, Fifth Floor, Boston, MA 02110, USA*/
++/**/
++/**/
++/********************************************************************************/
++#ifndef	__PHYDM_HAL_TXBF_API_H__
++#define __PHYDM_HAL_TXBF_API_H__
++
++u1Byte
++phydm_get_beamforming_sounding_info(
++	IN PVOID		pDM_VOID,
++	IN pu2Byte	Troughput,
++	IN u1Byte	Total_BFee_Num,
++	IN pu1Byte	TxRate
++	);
++
++
++u1Byte
++phydm_get_ndpa_rate(
++	IN PVOID		pDM_VOID
++	);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/rtl8723d/Hal8723DPwrSeq.c b/drivers/net/wireless/rtl8723du/hal/rtl8723d/Hal8723DPwrSeq.c
+new file mode 100644
+index 0000000..f2721cf
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/rtl8723d/Hal8723DPwrSeq.c
+@@ -0,0 +1,91 @@
++
++/*++
++Copyright (c) Realtek Semiconductor Corp. All rights reserved.
++
++Module Name:
++	Hal8821PwrSeq.c
++
++Abstract:
++	This file includes all kinds of Power Action event for RTL8821A and corresponding hardware configurtions which are released from HW SD.
++
++Major Change History:
++	When       Who               What
++	---------- ---------------   -------------------------------
++	2011-08-08 Roger            Create.
++
++--*/
++
++#include "Mp_Precomp.h"
++
++#if WPP_SOFTWARE_TRACE
++	#include "Hal8723DPwrSeq.tmh"
++#endif
++
++#include "Hal8723DPwrSeq.h"
++
++
++/*
++    drivers should parse below arrays and do the corresponding actions
++*/
++/* 3 Power on  Array */
++WLAN_PWR_CFG rtl8723D_power_on_flow[RTL8723D_TRANS_CARDEMU_TO_ACT_STEPS + RTL8723D_TRANS_END_STEPS] = {
++	RTL8723D_TRANS_CARDEMU_TO_ACT
++	RTL8723D_TRANS_END
++};
++
++/* 3Radio off GPIO Array */
++WLAN_PWR_CFG rtl8723D_radio_off_flow[RTL8723D_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723D_TRANS_END_STEPS] = {
++	RTL8723D_TRANS_ACT_TO_CARDEMU
++	RTL8723D_TRANS_END
++};
++
++/* 3Card Disable Array */
++WLAN_PWR_CFG rtl8723D_card_disable_flow[RTL8723D_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723D_TRANS_CARDEMU_TO_CARDDIS_STEPS + RTL8723D_TRANS_END_STEPS] = {
++	RTL8723D_TRANS_ACT_TO_CARDEMU
++	RTL8723D_TRANS_CARDEMU_TO_CARDDIS
++	RTL8723D_TRANS_END
++};
++
++/* 3 Card Enable Array */
++WLAN_PWR_CFG rtl8723D_card_enable_flow[RTL8723D_TRANS_CARDDIS_TO_CARDEMU_STEPS + RTL8723D_TRANS_CARDEMU_TO_ACT_STEPS + RTL8723D_TRANS_END_STEPS] = {
++	RTL8723D_TRANS_CARDDIS_TO_CARDEMU
++	RTL8723D_TRANS_CARDEMU_TO_ACT
++	RTL8723D_TRANS_END
++};
++
++/* 3Suspend Array */
++WLAN_PWR_CFG rtl8723D_suspend_flow[RTL8723D_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723D_TRANS_CARDEMU_TO_SUS_STEPS + RTL8723D_TRANS_END_STEPS] = {
++	RTL8723D_TRANS_ACT_TO_CARDEMU
++	RTL8723D_TRANS_CARDEMU_TO_SUS
++	RTL8723D_TRANS_END
++};
++
++/* 3 Resume Array */
++WLAN_PWR_CFG rtl8723D_resume_flow[RTL8723D_TRANS_SUS_TO_CARDEMU_STEPS + RTL8723D_TRANS_CARDEMU_TO_ACT_STEPS + RTL8723D_TRANS_END_STEPS] = {
++	RTL8723D_TRANS_SUS_TO_CARDEMU
++	RTL8723D_TRANS_CARDEMU_TO_ACT
++	RTL8723D_TRANS_END
++};
++
++
++
++/* 3HWPDN Array */
++WLAN_PWR_CFG rtl8723D_hwpdn_flow[RTL8723D_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723D_TRANS_CARDEMU_TO_PDN_STEPS + RTL8723D_TRANS_END_STEPS] = {
++	RTL8723D_TRANS_ACT_TO_CARDEMU
++	RTL8723D_TRANS_CARDEMU_TO_PDN
++	RTL8723D_TRANS_END
++};
++
++/* 3 Enter LPS */
++WLAN_PWR_CFG rtl8723D_enter_lps_flow[RTL8723D_TRANS_ACT_TO_LPS_STEPS + RTL8723D_TRANS_END_STEPS] = {
++	/* FW behavior */
++	RTL8723D_TRANS_ACT_TO_LPS
++	RTL8723D_TRANS_END
++};
++
++/* 3 Leave LPS */
++WLAN_PWR_CFG rtl8723D_leave_lps_flow[RTL8723D_TRANS_LPS_TO_ACT_STEPS + RTL8723D_TRANS_END_STEPS] = {
++	/* FW behavior */
++	RTL8723D_TRANS_LPS_TO_ACT
++	RTL8723D_TRANS_END
++};
+diff --git a/drivers/net/wireless/rtl8723du/hal/rtl8723d/hal8723d_fw.c b/drivers/net/wireless/rtl8723du/hal/rtl8723d/hal8723d_fw.c
+new file mode 100644
+index 0000000..f90b43c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/rtl8723d/hal8723d_fw.c
+@@ -0,0 +1,4816 @@
++#ifdef CONFIG_RTL8723D
++
++#include "drv_types.h"
++#ifdef LOAD_FW_HEADER_FROM_DRIVER
++
++#if (defined(CONFIG_AP_WOWLAN) || (DM_ODM_SUPPORT_TYPE & (ODM_AP)))
++u1Byte Array_MP_8723D_FW_AP[] = {
++0xD1, 0x23, 0x20, 0x00, 0x16, 0x00, 0x00, 0x00, 0x07, 0x13, 0x14, 0x55, 0xA8, 0x50, 0x02, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x02, 0x85, 0xAD, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x9C, 0xFD, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xC0, 0x19, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xBA, 0xFE, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0xBB, 0x4E, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xBF, 0xC3, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x15, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x15, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x05, 0xF0, 
++0xFF, 0x0F, 0x00, 0x00, 0x00, 0x05, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x10, 0xF0, 0xFF, 0x0F, 
++0x00, 0x00, 0x00, 0x10, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0xF5, 0x0F, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0A, 
++0x08, 0x03, 0x03, 0x00, 0x04, 0x09, 0x07, 0x03, 0x03, 0x00, 0x04, 0x08, 0x06, 0x03, 0x02, 0x00, 
++0x04, 0x08, 0x05, 0x03, 0x01, 0x00, 0x04, 0x0D, 0x0A, 0x07, 0x05, 0x00, 0x08, 0x0C, 0x0A, 0x07, 
++0x04, 0x00, 0x08, 0x0B, 0x0A, 0x06, 0x05, 0x00, 0x08, 0x0B, 0x0A, 0x05, 0x03, 0x00, 0x08, 0x0B, 
++0x0A, 0x03, 0x02, 0x00, 0x08, 0x14, 0x12, 0x0C, 0x04, 0x00, 0x10, 0x14, 0x12, 0x09, 0x04, 0x00, 
++0x10, 0x24, 0x22, 0x1C, 0x12, 0x00, 0x20, 0x24, 0x22, 0x18, 0x0C, 0x00, 0x20, 0x24, 0x22, 0x14, 
++0x06, 0x00, 0x20, 0x24, 0x22, 0x0F, 0x04, 0x00, 0x20, 0x24, 0x21, 0x0A, 0x04, 0x00, 0x20, 0x23, 
++0x21, 0x0C, 0x04, 0x00, 0x20, 0x23, 0x1F, 0x0A, 0x04, 0x00, 0x20, 0x22, 0x1F, 0x0F, 0x04, 0x00, 
++0x20, 0x21, 0x1F, 0x16, 0x0C, 0x00, 0x20, 0x31, 0x2F, 0x20, 0x14, 0x00, 0x30, 0x31, 0x2F, 0x18, 
++0x10, 0x00, 0x30, 0x31, 0x2C, 0x18, 0x0C, 0x00, 0x30, 0x31, 0x2A, 0x14, 0x0C, 0x00, 0x30, 0x31, 
++0x28, 0x14, 0x00, 0x00, 0x30, 0x31, 0x24, 0x14, 0x00, 0x00, 0x30, 0x31, 0x1E, 0x14, 0x00, 0x00, 
++0x30, 0x04, 0x04, 0x04, 0x05, 0x08, 0x08, 0x09, 0x09, 0x0C, 0x0E, 0x10, 0x12, 0x06, 0x0B, 0x0D, 
++0x0E, 0x0F, 0x11, 0x12, 0x14, 0x00, 0x04, 0x00, 0x04, 0x00, 0x08, 0x00, 0x10, 0x00, 0x23, 0x00, 
++0x2D, 0x00, 0x50, 0x00, 0x91, 0x00, 0xC3, 0x01, 0x27, 0x01, 0x31, 0x01, 0x5E, 0x00, 0xC8, 0x00, 
++0xF0, 0x00, 0xDC, 0x01, 0x5E, 0x01, 0x68, 0x01, 0x9A, 0x01, 0xCC, 0x01, 0xEA, 0x02, 0x02, 0x04, 
++0x08, 0x0C, 0x12, 0x18, 0x24, 0x30, 0x48, 0x60, 0x6C, 0x14, 0x28, 0x32, 0x50, 0x78, 0xA0, 0xC8, 
++0xE6, 0x01, 0x01, 0x01, 0x02, 0x01, 0x01, 0x02, 0x02, 0x03, 0x03, 0x04, 0x04, 0x02, 0x04, 0x06, 
++0x07, 0x07, 0x08, 0x08, 0x08, 0x01, 0x01, 0x01, 0x02, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x02, 
++0x02, 0x01, 0x01, 0x01, 0x01, 0x01, 0x02, 0x02, 0x02, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x02, 
++0x02, 0x03, 0x03, 0x04, 0x05, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x03, 0x03, 0x03, 
++0x02, 0x03, 0x03, 0x03, 0x03, 0x03, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 
++0x02, 0x19, 0x06, 0x04, 0x02, 0x00, 0x18, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0xC2, 0xAF, 0x80, 0xFE, 0x32, 0x12, 0x83, 0x04, 0x85, 0xD0, 0x0B, 0x75, 0xD0, 0x08, 0xAA, 0xE0, 
++0xC2, 0x8C, 0xE5, 0x8A, 0x24, 0x67, 0xF5, 0x8A, 0xE5, 0x8C, 0x34, 0x79, 0xF5, 0x8C, 0xD2, 0x8C, 
++0xEC, 0x24, 0x87, 0xF8, 0xE6, 0xBC, 0x02, 0x02, 0x74, 0xFF, 0xC3, 0x95, 0x81, 0xB4, 0x40, 0x00, 
++0x40, 0xCE, 0x79, 0x03, 0x78, 0x80, 0x16, 0xE6, 0x08, 0x70, 0x0B, 0xC2, 0xAF, 0xE6, 0x30, 0xE1, 
++0x03, 0x44, 0x18, 0xF6, 0xD2, 0xAF, 0x08, 0xD9, 0xED, 0xEA, 0x8B, 0xD0, 0x22, 0xE5, 0x0C, 0xFF, 
++0x23, 0x24, 0x81, 0xF8, 0x0F, 0x08, 0x08, 0xBF, 0x03, 0x04, 0x7F, 0x00, 0x78, 0x81, 0xE6, 0x30, 
++0xE4, 0xF2, 0x00, 0xE5, 0x0C, 0xC3, 0x9F, 0x50, 0x20, 0x05, 0x0C, 0x74, 0x86, 0x25, 0x0C, 0xF8, 
++0xE6, 0xFD, 0xA6, 0x81, 0x08, 0xE6, 0xAE, 0x0C, 0xBE, 0x02, 0x02, 0x74, 0xFF, 0xCD, 0xF8, 0xE8, 
++0x6D, 0x60, 0xE0, 0x08, 0xE6, 0xC0, 0xE0, 0x80, 0xF6, 0xE5, 0x0C, 0xD3, 0x9F, 0x40, 0x27, 0xE5, 
++0x0C, 0x24, 0x87, 0xF8, 0xE6, 0xAE, 0x0C, 0xBE, 0x02, 0x02, 0x74, 0xFF, 0xFD, 0x18, 0xE6, 0xCD, 
++0xF8, 0xE5, 0x81, 0x6D, 0x60, 0x06, 0xD0, 0xE0, 0xF6, 0x18, 0x80, 0xF5, 0xE5, 0x0C, 0x24, 0x86, 
++0xC8, 0xF6, 0x15, 0x0C, 0x80, 0xD3, 0xE5, 0x0C, 0x23, 0x24, 0x81, 0xF8, 0x7F, 0x04, 0xC2, 0xAF, 
++0xE6, 0x30, 0xE0, 0x03, 0x10, 0xE2, 0x0C, 0x7F, 0x00, 0x30, 0xE1, 0x07, 0x30, 0xE3, 0x04, 0x7F, 
++0x08, 0x54, 0xF4, 0x54, 0x7C, 0xC6, 0xD2, 0xAF, 0x54, 0x80, 0x42, 0x07, 0x22, 0x78, 0x86, 0xA6, 
++0x81, 0x74, 0x02, 0x60, 0x06, 0xFF, 0x08, 0x76, 0xFF, 0xDF, 0xFB, 0x7F, 0x03, 0xE4, 0x78, 0x80, 
++0xF6, 0x08, 0xF6, 0x08, 0xDF, 0xFA, 0x78, 0x81, 0x76, 0x30, 0x90, 0x86, 0xC0, 0x74, 0x01, 0x93, 
++0xC0, 0xE0, 0xE4, 0x93, 0xC0, 0xE0, 0x43, 0x89, 0x01, 0x75, 0x8A, 0x60, 0x75, 0x8C, 0x79, 0xD2, 
++0x8C, 0xD2, 0xAF, 0x22, 0x02, 0xEF, 0xD3, 0x94, 0x02, 0x40, 0x03, 0x7F, 0xFF, 0x22, 0x74, 0x81, 
++0x2F, 0x2F, 0xF8, 0xE6, 0x20, 0xE5, 0xF4, 0xC2, 0xAF, 0xE6, 0x44, 0x30, 0xF6, 0xD2, 0xAF, 0xAE, 
++0x0C, 0xEE, 0xC3, 0x9F, 0x50, 0x21, 0x0E, 0x74, 0x86, 0x2E, 0xF8, 0xE6, 0xF9, 0x08, 0xE6, 0x18, 
++0xBE, 0x02, 0x02, 0x74, 0xFF, 0xFD, 0xED, 0x69, 0x60, 0x09, 0x09, 0xE7, 0x19, 0x19, 0xF7, 0x09, 
++0x09, 0x80, 0xF3, 0x16, 0x16, 0x80, 0xDA, 0xEE, 0xD3, 0x9F, 0x40, 0x04, 0x05, 0x81, 0x05, 0x81, 
++0xEE, 0xD3, 0x9F, 0x40, 0x22, 0x74, 0x86, 0x2E, 0xF8, 0x08, 0xE6, 0xF9, 0xEE, 0xB5, 0x0C, 0x02, 
++0xA9, 0x81, 0x18, 0x06, 0x06, 0xE6, 0xFD, 0xED, 0x69, 0x60, 0x09, 0x19, 0x19, 0xE7, 0x09, 0x09, 
++0xF7, 0x19, 0x80, 0xF3, 0x1E, 0x80, 0xD9, 0xEF, 0x24, 0x86, 0xF8, 0xE6, 0x04, 0xF8, 0xEF, 0x2F, 
++0x04, 0x90, 0x86, 0xC0, 0x93, 0xF6, 0x08, 0xEF, 0x2F, 0x93, 0xF6, 0x7F, 0x00, 0x22, 0xEF, 0xD3, 
++0x94, 0x02, 0x40, 0x03, 0x7F, 0xFF, 0x22, 0xEF, 0x23, 0x24, 0x81, 0xF8, 0xE6, 0x30, 0xE5, 0xF4, 
++0xC2, 0xAF, 0xE6, 0x54, 0x8C, 0xF6, 0xD2, 0xAF, 0xE5, 0x0C, 0xB5, 0x07, 0x0A, 0x74, 0x86, 0x2F, 
++0xF8, 0xE6, 0xF5, 0x81, 0x02, 0x83, 0x4D, 0x50, 0x2E, 0x74, 0x87, 0x2F, 0xF8, 0xE6, 0xBF, 0x02, 
++0x02, 0x74, 0xFF, 0xFD, 0x18, 0xE6, 0xF9, 0x74, 0x86, 0x2F, 0xF8, 0xFB, 0xE6, 0xFC, 0xE9, 0x6C, 
++0x60, 0x08, 0xA8, 0x05, 0xE7, 0xF6, 0x1D, 0x19, 0x80, 0xF4, 0xA8, 0x03, 0xA6, 0x05, 0x1F, 0xE5, 
++0x0C, 0xB5, 0x07, 0xE3, 0x7F, 0x00, 0x22, 0x74, 0x87, 0x2F, 0xF8, 0xE6, 0xFD, 0x18, 0x86, 0x01, 
++0x0F, 0x74, 0x86, 0x2F, 0xF8, 0xA6, 0x01, 0x08, 0x86, 0x04, 0xE5, 0x0C, 0xB5, 0x07, 0x02, 0xAC, 
++0x81, 0xED, 0x6C, 0x60, 0x08, 0x0D, 0x09, 0xA8, 0x05, 0xE6, 0xF7, 0x80, 0xF4, 0xE5, 0x0C, 0xB5, 
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++0x30, 0xE0, 0x0B, 0xC4, 0x54, 0x0F, 0x30, 0xE0, 0x05, 0x75, 0x0E, 0x11, 0x80, 0x05, 0x12, 0xB7, 
++0xB4, 0x80, 0x0E, 0x90, 0x01, 0xB9, 0x74, 0x02, 0xF0, 0x90, 0x01, 0xB8, 0xE5, 0x0E, 0xF0, 0x7F, 
++0x00, 0xD0, 0xD0, 0x92, 0xAF, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0x90, 0x88, 0x9D, 
++0xE0, 0x30, 0xE0, 0x1E, 0x90, 0x88, 0xAF, 0xE0, 0x60, 0x05, 0x75, 0x0F, 0x40, 0xE1, 0x10, 0x90, 
++0x88, 0x38, 0xE0, 0xD3, 0x94, 0x00, 0x40, 0x02, 0x80, 0x2D, 0x90, 0x88, 0x9C, 0xE0, 0x60, 0x7B, 
++0x80, 0x55, 0x12, 0x7A, 0x65, 0xEF, 0x64, 0x01, 0x60, 0x05, 0x75, 0x0F, 0x01, 0x80, 0x71, 0x90, 
++0x88, 0x3A, 0xE0, 0xFF, 0x54, 0x03, 0x60, 0x05, 0x75, 0x0F, 0x02, 0x80, 0x63, 0x90, 0x88, 0x38, 
++0xE0, 0xFE, 0xE4, 0xC3, 0x9E, 0x50, 0x05, 0x75, 0x0F, 0x04, 0x80, 0x54, 0xEF, 0x30, 0xE2, 0x05, 
++0x75, 0x0F, 0x08, 0x80, 0x4B, 0x90, 0x88, 0x3A, 0xE0, 0x30, 0xE4, 0x05, 0x75, 0x0F, 0x10, 0x80, 
++0x3F, 0x90, 0x88, 0x32, 0xE0, 0x13, 0x13, 0x54, 0x3F, 0x20, 0xE0, 0x05, 0x75, 0x0F, 0x20, 0x80, 
++0x2F, 0x90, 0x88, 0x9C, 0xE0, 0x60, 0x05, 0x75, 0x0F, 0x80, 0x80, 0x24, 0x90, 0x06, 0x62, 0xE0, 
++0x30, 0xE1, 0x05, 0x75, 0x0F, 0x11, 0x80, 0x18, 0x90, 0x06, 0x62, 0xE0, 0x30, 0xE0, 0x0C, 0xE0, 
++0x54, 0xFC, 0xFF, 0xBF, 0x80, 0x05, 0x75, 0x0F, 0x12, 0x80, 0x05, 0x12, 0xB7, 0xB4, 0x80, 0x0E, 
++0x90, 0x01, 0xB9, 0x74, 0x04, 0xF0, 0x90, 0x01, 0xB8, 0xE5, 0x0F, 0xF0, 0x7F, 0x00, 0xD0, 0xD0, 
++0x92, 0xAF, 0x22, 0x90, 0x88, 0x8D, 0x74, 0x18, 0xF0, 0xA3, 0xF0, 0xA3, 0xE4, 0xF0, 0xA3, 0x74, 
++0x64, 0xF0, 0xA3, 0x74, 0x05, 0xF0, 0xA3, 0xF0, 0x22, 0xF1, 0x7E, 0x40, 0x40, 0x90, 0x88, 0x50, 
++0xE0, 0x04, 0xF0, 0x90, 0x88, 0x92, 0xE0, 0xFF, 0x90, 0x88, 0x50, 0xE0, 0xD3, 0x9F, 0x50, 0x2D, 
++0x90, 0x88, 0x48, 0xE0, 0x04, 0xF0, 0x90, 0x88, 0x3F, 0x12, 0x9A, 0xA3, 0x33, 0x33, 0x33, 0x54, 
++0xF8, 0xFF, 0x90, 0x88, 0x3E, 0xE0, 0x2F, 0x90, 0x88, 0x4F, 0xF0, 0xFB, 0x90, 0x88, 0x48, 0xE0, 
++0xFF, 0xA3, 0xE0, 0xFD, 0x90, 0x92, 0x98, 0x74, 0x03, 0xF0, 0x12, 0x6E, 0x2F, 0x22, 0x90, 0x88, 
++0x93, 0xE0, 0xFF, 0x90, 0x88, 0x3F, 0xE0, 0xD3, 0x9F, 0x22, 0x90, 0x93, 0x29, 0xE0, 0x30, 0xE0, 
++0x34, 0xC4, 0x13, 0x54, 0x07, 0x30, 0xE0, 0x2D, 0x90, 0x96, 0x9A, 0xE0, 0x04, 0xF0, 0xE0, 0xD3, 
++0x94, 0xC8, 0x40, 0x21, 0x90, 0x93, 0x29, 0xE0, 0x54, 0xDF, 0xF0, 0xE4, 0x90, 0x96, 0x9A, 0xF0, 
++0x90, 0x93, 0x29, 0xE0, 0x13, 0x30, 0xE0, 0x0D, 0x90, 0x88, 0x31, 0xE0, 0x44, 0x01, 0xF0, 0x90, 
++0x88, 0x41, 0x74, 0xD0, 0xF0, 0x22, 0x90, 0x05, 0x63, 0xE0, 0x90, 0x88, 0x89, 0xF0, 0x90, 0x05, 
++0x62, 0xE0, 0x90, 0x88, 0x8A, 0xF0, 0x90, 0x05, 0x61, 0xE0, 0x90, 0x88, 0x8B, 0xF0, 0x90, 0x05, 
++0x60, 0xE0, 0x90, 0x88, 0x8C, 0xF0, 0x90, 0x88, 0x32, 0xE0, 0x44, 0x80, 0xF0, 0x22, 0xE0, 0xFE, 
++0xA3, 0xE0, 0xFF, 0xC3, 0x74, 0xFF, 0x9F, 0xFF, 0x74, 0xFF, 0x9E, 0xFE, 0xE5, 0x64, 0x25, 0xE0, 
++0x22, 0xE0, 0x54, 0x03, 0x90, 0x92, 0x80, 0xF0, 0x7B, 0x01, 0xAF, 0x61, 0x02, 0x75, 0x80, 0xE0, 
++0x54, 0xFE, 0x4E, 0xFE, 0xF0, 0xEF, 0x54, 0x02, 0xFF, 0xEE, 0x54, 0xFD, 0x4F, 0x22, 0xEF, 0xC4, 
++0x54, 0xF0, 0x24, 0x03, 0xF5, 0x82, 0xE4, 0x34, 0x81, 0xF5, 0x83, 0x22, 0xE0, 0x90, 0x01, 0xBA, 
++0xF0, 0x90, 0x88, 0x38, 0xE0, 0x90, 0x01, 0xBB, 0x22, 0xE5, 0x64, 0x25, 0xE0, 0x24, 0x86, 0xF5, 
++0x82, 0xE4, 0x34, 0x8E, 0x22, 0x74, 0xB6, 0x25, 0x64, 0xF5, 0x82, 0xE4, 0x34, 0x8D, 0xF5, 0x83, 
++0x22, 0x7A, 0x81, 0x79, 0xB1, 0x90, 0x89, 0x46, 0x02, 0x86, 0x7A, 0xFE, 0x54, 0x04, 0xFD, 0xEF, 
++0x54, 0xFB, 0x4D, 0xFF, 0x22, 0x24, 0x26, 0xF5, 0x82, 0xE4, 0x34, 0x8E, 0x22, 0x24, 0x56, 0xF5, 
++0x82, 0xE4, 0x34, 0x8E, 0x22, 0x25, 0xE0, 0x25, 0xE0, 0xFE, 0xEF, 0x4E, 0x22, 0x90, 0x95, 0x2C, 
++0xE0, 0xFE, 0xA3, 0xE0, 0x22, 0x90, 0x00, 0x02, 0x12, 0x03, 0x3E, 0xFF, 0x22, 0xE5, 0x66, 0x90, 
++0x81, 0x9D, 0x93, 0xFF, 0x22, 0x90, 0x88, 0x31, 0xE0, 0x54, 0xF7, 0xF0, 0x22, 0x90, 0x05, 0x00, 
++0x74, 0x1C, 0xF0, 0xA3, 0x22, 0x00, 0x10, 0x42, 
++};
++u4Byte ArrayLength_MP_8723D_FW_AP = 20680;
++#endif /*defined(CONFIG_AP_WOWLAN) || (DM_ODM_SUPPORT_TYPE & (ODM_AP))*/
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN)) || (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++
++u1Byte Array_MP_8723D_FW_NIC[] = {
++0xD1, 0x23, 0x10, 0x00, 0x16, 0x00, 0x00, 0x00, 0x07, 0x13, 0x14, 0x55, 0x94, 0x61, 0x02, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x02, 0x86, 0x75, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xB4, 0x22, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xD0, 0x1A, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xC9, 0xF0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0xCA, 0x40, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xCF, 0xC4, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x15, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x15, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x05, 0xF0, 
++0xFF, 0x0F, 0x00, 0x00, 0x00, 0x05, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x10, 0xF0, 0xFF, 0x0F, 
++0x00, 0x00, 0x00, 0x10, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0xF5, 0x0F, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0A, 
++0x08, 0x03, 0x03, 0x00, 0x04, 0x09, 0x07, 0x03, 0x03, 0x00, 0x04, 0x08, 0x06, 0x03, 0x02, 0x00, 
++0x04, 0x08, 0x05, 0x03, 0x01, 0x00, 0x04, 0x0D, 0x0A, 0x07, 0x05, 0x00, 0x08, 0x0C, 0x0A, 0x07, 
++0x04, 0x00, 0x08, 0x0B, 0x0A, 0x06, 0x05, 0x00, 0x08, 0x0B, 0x0A, 0x05, 0x03, 0x00, 0x08, 0x0B, 
++0x0A, 0x03, 0x02, 0x00, 0x08, 0x14, 0x12, 0x0C, 0x04, 0x00, 0x10, 0x14, 0x12, 0x09, 0x04, 0x00, 
++0x10, 0x24, 0x22, 0x1C, 0x12, 0x00, 0x20, 0x24, 0x22, 0x18, 0x0C, 0x00, 0x20, 0x24, 0x22, 0x14, 
++0x06, 0x00, 0x20, 0x24, 0x22, 0x0F, 0x04, 0x00, 0x20, 0x24, 0x21, 0x0A, 0x04, 0x00, 0x20, 0x23, 
++0x21, 0x0C, 0x04, 0x00, 0x20, 0x23, 0x1F, 0x0A, 0x04, 0x00, 0x20, 0x22, 0x1F, 0x0F, 0x04, 0x00, 
++0x20, 0x21, 0x1F, 0x16, 0x0C, 0x00, 0x20, 0x31, 0x2F, 0x20, 0x14, 0x00, 0x30, 0x31, 0x2F, 0x18, 
++0x10, 0x00, 0x30, 0x31, 0x2C, 0x18, 0x0C, 0x00, 0x30, 0x31, 0x2A, 0x14, 0x0C, 0x00, 0x30, 0x31, 
++0x28, 0x14, 0x00, 0x00, 0x30, 0x31, 0x24, 0x14, 0x00, 0x00, 0x30, 0x31, 0x1E, 0x14, 0x00, 0x00, 
++0x30, 0x04, 0x04, 0x04, 0x05, 0x08, 0x08, 0x09, 0x09, 0x0C, 0x0E, 0x10, 0x12, 0x06, 0x0B, 0x0D, 
++0x0E, 0x0F, 0x11, 0x12, 0x14, 0x00, 0x04, 0x00, 0x04, 0x00, 0x08, 0x00, 0x10, 0x00, 0x23, 0x00, 
++0x2D, 0x00, 0x50, 0x00, 0x91, 0x00, 0xC3, 0x01, 0x27, 0x01, 0x31, 0x01, 0x5E, 0x00, 0xC8, 0x00, 
++0xF0, 0x00, 0xDC, 0x01, 0x5E, 0x01, 0x68, 0x01, 0x9A, 0x01, 0xCC, 0x01, 0xEA, 0x02, 0x02, 0x04, 
++0x08, 0x0C, 0x12, 0x18, 0x24, 0x30, 0x48, 0x60, 0x6C, 0x14, 0x28, 0x32, 0x50, 0x78, 0xA0, 0xC8, 
++0xE6, 0x01, 0x01, 0x01, 0x02, 0x01, 0x01, 0x02, 0x02, 0x03, 0x03, 0x04, 0x04, 0x02, 0x04, 0x06, 
++0x07, 0x07, 0x08, 0x08, 0x08, 0x01, 0x01, 0x01, 0x02, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x02, 
++0x02, 0x01, 0x01, 0x01, 0x01, 0x01, 0x02, 0x02, 0x02, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x02, 
++0x02, 0x03, 0x03, 0x04, 0x05, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x03, 0x03, 0x03, 
++0x02, 0x03, 0x03, 0x03, 0x03, 0x03, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 
++0x02, 0x19, 0x06, 0x04, 0x02, 0x00, 0x18, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0xC2, 0xAF, 0x80, 0xFE, 0x32, 0x12, 0x83, 0x04, 0x85, 0xD0, 0x0B, 0x75, 0xD0, 0x08, 0xAA, 0xE0, 
++0xC2, 0x8C, 0xE5, 0x8A, 0x24, 0x67, 0xF5, 0x8A, 0xE5, 0x8C, 0x34, 0x79, 0xF5, 0x8C, 0xD2, 0x8C, 
++0xEC, 0x24, 0x8B, 0xF8, 0xE6, 0xBC, 0x02, 0x02, 0x74, 0xFF, 0xC3, 0x95, 0x81, 0xB4, 0x40, 0x00, 
++0x40, 0xCE, 0x79, 0x03, 0x78, 0x80, 0x16, 0xE6, 0x08, 0x70, 0x0B, 0xC2, 0xAF, 0xE6, 0x30, 0xE1, 
++0x03, 0x44, 0x18, 0xF6, 0xD2, 0xAF, 0x08, 0xD9, 0xED, 0xEA, 0x8B, 0xD0, 0x22, 0xE5, 0x0C, 0xFF, 
++0x23, 0x24, 0x81, 0xF8, 0x0F, 0x08, 0x08, 0xBF, 0x03, 0x04, 0x7F, 0x00, 0x78, 0x81, 0xE6, 0x30, 
++0xE4, 0xF2, 0x00, 0xE5, 0x0C, 0xC3, 0x9F, 0x50, 0x20, 0x05, 0x0C, 0x74, 0x8A, 0x25, 0x0C, 0xF8, 
++0xE6, 0xFD, 0xA6, 0x81, 0x08, 0xE6, 0xAE, 0x0C, 0xBE, 0x02, 0x02, 0x74, 0xFF, 0xCD, 0xF8, 0xE8, 
++0x6D, 0x60, 0xE0, 0x08, 0xE6, 0xC0, 0xE0, 0x80, 0xF6, 0xE5, 0x0C, 0xD3, 0x9F, 0x40, 0x27, 0xE5, 
++0x0C, 0x24, 0x8B, 0xF8, 0xE6, 0xAE, 0x0C, 0xBE, 0x02, 0x02, 0x74, 0xFF, 0xFD, 0x18, 0xE6, 0xCD, 
++0xF8, 0xE5, 0x81, 0x6D, 0x60, 0x06, 0xD0, 0xE0, 0xF6, 0x18, 0x80, 0xF5, 0xE5, 0x0C, 0x24, 0x8A, 
++0xC8, 0xF6, 0x15, 0x0C, 0x80, 0xD3, 0xE5, 0x0C, 0x23, 0x24, 0x81, 0xF8, 0x7F, 0x04, 0xC2, 0xAF, 
++0xE6, 0x30, 0xE0, 0x03, 0x10, 0xE2, 0x0C, 0x7F, 0x00, 0x30, 0xE1, 0x07, 0x30, 0xE3, 0x04, 0x7F, 
++0x08, 0x54, 0xF4, 0x54, 0x7C, 0xC6, 0xD2, 0xAF, 0x54, 0x80, 0x42, 0x07, 0x22, 0x78, 0x8A, 0xA6, 
++0x81, 0x74, 0x02, 0x60, 0x06, 0xFF, 0x08, 0x76, 0xFF, 0xDF, 0xFB, 0x7F, 0x03, 0xE4, 0x78, 0x80, 
++0xF6, 0x08, 0xF6, 0x08, 0xDF, 0xFA, 0x78, 0x81, 0x76, 0x30, 0x90, 0x86, 0xF8, 0x74, 0x01, 0x93, 
++0xC0, 0xE0, 0xE4, 0x93, 0xC0, 0xE0, 0x43, 0x89, 0x01, 0x75, 0x8A, 0x60, 0x75, 0x8C, 0x79, 0xD2, 
++0x8C, 0xD2, 0xAF, 0x22, 0x02, 0xEF, 0xD3, 0x94, 0x02, 0x40, 0x03, 0x7F, 0xFF, 0x22, 0x74, 0x81, 
++0x2F, 0x2F, 0xF8, 0xE6, 0x20, 0xE5, 0xF4, 0xC2, 0xAF, 0xE6, 0x44, 0x30, 0xF6, 0xD2, 0xAF, 0xAE, 
++0x0C, 0xEE, 0xC3, 0x9F, 0x50, 0x21, 0x0E, 0x74, 0x8A, 0x2E, 0xF8, 0xE6, 0xF9, 0x08, 0xE6, 0x18, 
++0xBE, 0x02, 0x02, 0x74, 0xFF, 0xFD, 0xED, 0x69, 0x60, 0x09, 0x09, 0xE7, 0x19, 0x19, 0xF7, 0x09, 
++0x09, 0x80, 0xF3, 0x16, 0x16, 0x80, 0xDA, 0xEE, 0xD3, 0x9F, 0x40, 0x04, 0x05, 0x81, 0x05, 0x81, 
++0xEE, 0xD3, 0x9F, 0x40, 0x22, 0x74, 0x8A, 0x2E, 0xF8, 0x08, 0xE6, 0xF9, 0xEE, 0xB5, 0x0C, 0x02, 
++0xA9, 0x81, 0x18, 0x06, 0x06, 0xE6, 0xFD, 0xED, 0x69, 0x60, 0x09, 0x19, 0x19, 0xE7, 0x09, 0x09, 
++0xF7, 0x19, 0x80, 0xF3, 0x1E, 0x80, 0xD9, 0xEF, 0x24, 0x8A, 0xF8, 0xE6, 0x04, 0xF8, 0xEF, 0x2F, 
++0x04, 0x90, 0x86, 0xF8, 0x93, 0xF6, 0x08, 0xEF, 0x2F, 0x93, 0xF6, 0x7F, 0x00, 0x22, 0xEF, 0xD3, 
++0x94, 0x02, 0x40, 0x03, 0x7F, 0xFF, 0x22, 0xEF, 0x23, 0x24, 0x81, 0xF8, 0xE6, 0x30, 0xE5, 0xF4, 
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++0xF8, 0xE6, 0xF5, 0x81, 0x02, 0x83, 0x4D, 0x50, 0x2E, 0x74, 0x8B, 0x2F, 0xF8, 0xE6, 0xBF, 0x02, 
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++0x90, 0x88, 0x31, 0xE0, 0x30, 0xE0, 0x1D, 0x12, 0xA5, 0xFA, 0x33, 0x33, 0x33, 0x54, 0xF8, 0x90, 
++0x88, 0x4B, 0xF0, 0x90, 0x88, 0x53, 0xE0, 0x24, 0x03, 0x33, 0x33, 0x33, 0x54, 0xF8, 0x90, 0x88, 
++0x4A, 0xF0, 0x80, 0x10, 0x90, 0x88, 0x4B, 0x74, 0x10, 0xF0, 0x90, 0x88, 0x4A, 0x74, 0x08, 0xF0, 
++0x74, 0x10, 0x2B, 0xFB, 0x90, 0x88, 0x4A, 0xE0, 0xFE, 0x90, 0x88, 0x49, 0xE0, 0xD3, 0x9E, 0x50, 
++0x0E, 0x90, 0x88, 0x3E, 0xEB, 0xF0, 0x90, 0x88, 0x4B, 0xE0, 0xC3, 0x9D, 0x2F, 0x80, 0x11, 0xC3, 
++0xED, 0x9E, 0x2B, 0x90, 0x88, 0x3E, 0xF0, 0x90, 0x88, 0x4A, 0xE0, 0xFF, 0xA3, 0xE0, 0xC3, 0x9F, 
++0x90, 0x88, 0x4E, 0xF0, 0x90, 0x88, 0x4B, 0xB1, 0x4A, 0x90, 0x88, 0x4E, 0x12, 0xBF, 0x00, 0x40, 
++0x04, 0xEF, 0x24, 0x50, 0xF0, 0x90, 0x88, 0x4E, 0xB1, 0x4A, 0x90, 0x88, 0x3E, 0x12, 0xBF, 0x00, 
++0x40, 0x04, 0xEF, 0x24, 0x50, 0xF0, 0x90, 0x88, 0x4E, 0x12, 0xB0, 0xC2, 0xFF, 0x7E, 0x00, 0x90, 
++0x88, 0x42, 0xEE, 0xF0, 0xA3, 0xEF, 0xF0, 0x90, 0x05, 0x58, 0xF0, 0x90, 0x88, 0x4E, 0xE0, 0x54, 
++0x07, 0xFF, 0x90, 0x05, 0xB1, 0xE0, 0x54, 0xF8, 0x4F, 0xF0, 0xB1, 0x53, 0x80, 0x07, 0x90, 0x88, 
++0x33, 0xE0, 0x44, 0x01, 0xF0, 0xD0, 0xD0, 0x92, 0xAF, 0x22, 0xE0, 0xFF, 0x24, 0x50, 0xFD, 0xE4, 
++0x33, 0xFC, 0x22, 0x90, 0x88, 0x33, 0xE0, 0x54, 0xFE, 0xF0, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 
++0xC0, 0xD0, 0xD0, 0xD0, 0x92, 0xAF, 0x22, 0x90, 0x95, 0x31, 0xEF, 0xF0, 0x22, 0x7E, 0x00, 0x7F, 
++0x01, 0x7D, 0x00, 0x7B, 0x01, 0x7A, 0x88, 0x79, 0x2C, 0x12, 0x04, 0x80, 0x90, 0x88, 0x2C, 0xE0, 
++0x54, 0xFD, 0xF0, 0x12, 0xAD, 0xA6, 0xA3, 0x74, 0x0C, 0xF0, 0x22, 0x90, 0x05, 0x27, 0xE0, 0x54, 
++0xBF, 0xF0, 0xE4, 0x90, 0x88, 0x2F, 0xF0, 0x22, 0xB1, 0xB1, 0x80, 0xEF, 0xB1, 0xA5, 0x80, 0xEB, 
++0x12, 0x9F, 0xD1, 0x80, 0xE6, 0x90, 0x8A, 0xF9, 0x12, 0x8E, 0x0B, 0x12, 0x8F, 0xF2, 0x02, 0x9F, 
++0xCA, 0x90, 0x86, 0x0C, 0x12, 0x8C, 0x79, 0x90, 0x8A, 0xF9, 0x12, 0x8E, 0x0B, 0x12, 0x8F, 0xF2, 
++0x02, 0x9F, 0xCA, 0x90, 0x8A, 0xF9, 0x12, 0x8E, 0x0B, 0x7D, 0x21, 0x7F, 0xFF, 0x12, 0x04, 0x7E, 
++0x90, 0x88, 0x2F, 0x74, 0x03, 0xF0, 0x22, 0x12, 0x9F, 0xCA, 0x80, 0xE7, 0x90, 0x86, 0x0C, 0x12, 
++0x8C, 0x79, 0x80, 0xEC, 0x90, 0x8A, 0xF9, 0x12, 0x8E, 0x0B, 0x7D, 0x22, 0x7F, 0xFF, 0x12, 0x04, 
++0x7E, 0x12, 0x9F, 0xF2, 0x80, 0xDA, 0x12, 0x9F, 0xF2, 0x90, 0x8A, 0xF9, 0x12, 0x8E, 0x0B, 0x7D, 
++0x23, 0xD1, 0x09, 0x12, 0x8C, 0x79, 0x02, 0x8F, 0xE7, 0x7F, 0xFF, 0x12, 0x04, 0x7E, 0x90, 0x8A, 
++0xEF, 0x22, 0x90, 0x86, 0x0C, 0x12, 0x8C, 0x79, 0x90, 0x8A, 0xF9, 0x12, 0x8E, 0x0B, 0x7D, 0x24, 
++0xD1, 0x24, 0xF0, 0x22, 0x7F, 0x6F, 0x12, 0x04, 0x7E, 0x90, 0x05, 0x27, 0xE0, 0x54, 0xBF, 0xF0, 
++0x90, 0x88, 0x2F, 0x74, 0x04, 0x22, 0x90, 0x8A, 0xF9, 0x12, 0x8E, 0x0B, 0x7D, 0x25, 0xD1, 0x24, 
++0xF0, 0x22, 0x90, 0x8A, 0xEF, 0x12, 0x8C, 0x79, 0x02, 0x8F, 0xE7, 0x12, 0x7A, 0x65, 0xEF, 0x70, 
++0x03, 0x12, 0x8F, 0x13, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0x90, 0x88, 0x9D, 0xE0, 
++0x30, 0xE0, 0x10, 0x90, 0x88, 0xA3, 0xE0, 0xC4, 0x13, 0x54, 0x07, 0x30, 0xE0, 0x12, 0x75, 0x0F, 
++0x10, 0x80, 0x2D, 0x12, 0x7A, 0x65, 0xEF, 0x64, 0x01, 0x60, 0x05, 0x75, 0x0F, 0x01, 0x80, 0x20, 
++0x90, 0x88, 0x31, 0x12, 0xB0, 0xC2, 0x30, 0xE0, 0x05, 0x75, 0x0F, 0x02, 0x80, 0x12, 0x90, 0x88, 
++0x38, 0xE0, 0xD3, 0x94, 0x04, 0x40, 0x05, 0x75, 0x0F, 0x08, 0x80, 0x04, 0xD1, 0xB3, 0x80, 0x0E, 
++0x90, 0x01, 0xB9, 0x74, 0x02, 0xF0, 0x90, 0x01, 0xB8, 0xE5, 0x0F, 0xF0, 0x7F, 0x00, 0xD0, 0xD0, 
++0x92, 0xAF, 0x22, 0x90, 0x01, 0xB8, 0xE4, 0xF0, 0x7F, 0x01, 0x22, 0x90, 0x93, 0x3B, 0xE0, 0xC3, 
++0x13, 0x20, 0xE0, 0x35, 0x90, 0x02, 0x87, 0xE0, 0x60, 0x02, 0x80, 0x08, 0x90, 0x01, 0x00, 0xE0, 
++0x64, 0x3F, 0x60, 0x05, 0x75, 0x66, 0x01, 0x80, 0x2E, 0x90, 0x02, 0x96, 0xE0, 0x60, 0x05, 0x75, 
++0x66, 0x10, 0x80, 0x23, 0x90, 0x02, 0x86, 0xE0, 0x20, 0xE1, 0x02, 0x80, 0x07, 0x90, 0x02, 0x86, 
++0xE0, 0x30, 0xE3, 0x05, 0x75, 0x66, 0x04, 0x80, 0x0E, 0x90, 0x88, 0xE6, 0xE0, 0x30, 0xE0, 0x05, 
++0x75, 0x66, 0x20, 0x80, 0x02, 0x80, 0xAC, 0x90, 0x01, 0xB9, 0x74, 0x08, 0xF0, 0x90, 0x01, 0xB8, 
++0xE5, 0x66, 0xF0, 0x7F, 0x00, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0x90, 0x88, 0x9D, 
++0xE0, 0x30, 0xE0, 0x1E, 0x90, 0x88, 0xAF, 0xE0, 0x60, 0x05, 0x75, 0x10, 0x40, 0xE1, 0xBF, 0x90, 
++0x88, 0x38, 0xE0, 0xD3, 0x94, 0x00, 0x40, 0x02, 0x80, 0x2D, 0x90, 0x88, 0x9C, 0xE0, 0x60, 0x7B, 
++0x80, 0x55, 0x12, 0x7A, 0x65, 0xEF, 0x64, 0x01, 0x60, 0x05, 0x75, 0x10, 0x01, 0x80, 0x70, 0x90, 
++0x88, 0x3A, 0xE0, 0xFF, 0x54, 0x03, 0x60, 0x05, 0x75, 0x10, 0x02, 0x80, 0x62, 0x90, 0x88, 0x38, 
++0xE0, 0xFE, 0xE4, 0xC3, 0x9E, 0x50, 0x05, 0x75, 0x10, 0x04, 0x80, 0x53, 0xEF, 0x30, 0xE2, 0x05, 
++0x75, 0x10, 0x08, 0x80, 0x4A, 0x90, 0x88, 0x3A, 0xE0, 0x30, 0xE4, 0x05, 0x75, 0x10, 0x10, 0x80, 
++0x3E, 0x90, 0x88, 0x32, 0xE0, 0x13, 0x13, 0x54, 0x3F, 0x20, 0xE0, 0x05, 0x75, 0x10, 0x20, 0x80, 
++0x2E, 0x90, 0x88, 0x9C, 0xE0, 0x60, 0x05, 0x75, 0x10, 0x80, 0x80, 0x23, 0x90, 0x06, 0x62, 0xE0, 
++0x30, 0xE1, 0x05, 0x75, 0x10, 0x11, 0x80, 0x17, 0x90, 0x06, 0x62, 0xE0, 0x30, 0xE0, 0x0C, 0xE0, 
++0x54, 0xFC, 0xFF, 0xBF, 0x80, 0x05, 0x75, 0x10, 0x12, 0x80, 0x04, 0xD1, 0xB3, 0x80, 0x0E, 0x90, 
++0x01, 0xB9, 0x74, 0x04, 0xF0, 0x90, 0x01, 0xB8, 0xE5, 0x10, 0xF0, 0x7F, 0x00, 0xD0, 0xD0, 0x92, 
++0xAF, 0x22, 0x90, 0x88, 0x8D, 0x74, 0x18, 0xF0, 0xA3, 0xF0, 0xA3, 0xE4, 0xF0, 0xA3, 0x74, 0x64, 
++0xF0, 0xA3, 0x74, 0x05, 0xF0, 0xA3, 0xF0, 0x22, 0x12, 0xCF, 0x78, 0x40, 0x40, 0x90, 0x88, 0x50, 
++0xE0, 0x04, 0xF0, 0x90, 0x88, 0x92, 0xE0, 0xFF, 0x90, 0x88, 0x50, 0xE0, 0xD3, 0x9F, 0x50, 0x2D, 
++0x90, 0x88, 0x48, 0xE0, 0x04, 0xF0, 0x90, 0x88, 0x3F, 0x12, 0xB1, 0x46, 0x33, 0x33, 0x33, 0x54, 
++0xF8, 0xFF, 0x90, 0x88, 0x3E, 0xE0, 0x2F, 0x90, 0x88, 0x4F, 0xF0, 0xFB, 0x90, 0x88, 0x48, 0xE0, 
++0xFF, 0xA3, 0xE0, 0xFD, 0x90, 0x92, 0x98, 0x74, 0x03, 0xF0, 0x12, 0x6E, 0x2F, 0x22, 0xD3, 0x10, 
++0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0x90, 0x88, 0x33, 0xE0, 0xC3, 0x13, 0x30, 0xE0, 0x27, 0x90, 0x96, 
++0x55, 0x74, 0x1E, 0xF0, 0x90, 0x96, 0x77, 0x74, 0x01, 0xF0, 0x90, 0x96, 0x57, 0xEF, 0xF0, 0x7B, 
++0x01, 0x7A, 0x96, 0x79, 0x55, 0x11, 0x6A, 0x12, 0x04, 0x7E, 0x90, 0x8A, 0xE5, 0x12, 0x8E, 0x0B, 
++0x7F, 0x04, 0x12, 0x04, 0x7E, 0xD0, 0xD0, 0x92, 0xAF, 0x22, 0x90, 0x8A, 0x77, 0xE0, 0xFE, 0xA3, 
++0xE0, 0xFF, 0xF5, 0x82, 0x8E, 0x83, 0x22, 0xE0, 0x54, 0xFE, 0x4E, 0xFE, 0xF0, 0xEF, 0x54, 0x02, 
++0xFF, 0xEE, 0x54, 0xFD, 0x4F, 0x22, 0x75, 0xF0, 0x1B, 0xA4, 0x24, 0x62, 0xF5, 0x82, 0xE4, 0x34, 
++0x93, 0xF5, 0x83, 0x22, 0xEF, 0xC4, 0x54, 0xF0, 0x24, 0x03, 0xF5, 0x82, 0xE4, 0x34, 0x81, 0xF5, 
++0x83, 0x22, 0x90, 0x05, 0x84, 0xEF, 0xF0, 0x7D, 0x20, 0xE4, 0xFF, 0x02, 0x7C, 0x05, 0xE0, 0x90, 
++0x01, 0xBA, 0xF0, 0x90, 0x88, 0x38, 0xE0, 0x90, 0x01, 0xBB, 0x22, 0x74, 0xA6, 0x25, 0x67, 0xF5, 
++0x82, 0xE4, 0x34, 0x8E, 0xF5, 0x83, 0x22, 0x74, 0x5F, 0x25, 0x67, 0xF5, 0x82, 0xE4, 0x34, 0x8D, 
++0xF5, 0x83, 0x22, 0x74, 0xE6, 0x25, 0x67, 0xF5, 0x82, 0xE4, 0x34, 0x8D, 0xF5, 0x83, 0x22, 0x74, 
++0xB6, 0x25, 0x67, 0xF5, 0x82, 0xE4, 0x34, 0x8D, 0xF5, 0x83, 0x22, 0x74, 0x21, 0x2F, 0xF5, 0x82, 
++0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 0x22, 0x7F, 0x84, 0x7E, 0x08, 0x12, 0x93, 0xD3, 0x90, 0x96, 
++0x7B, 0x22, 0x90, 0x05, 0x58, 0x74, 0x02, 0xF0, 0x22, 0x78, 0x18, 0x12, 0x03, 0xEB, 0x90, 0x05, 
++0x8B, 0x22, 0x78, 0x10, 0x12, 0x03, 0xEB, 0x90, 0x05, 0x8A, 0x22, 0x78, 0x08, 0x12, 0x03, 0xEB, 
++0x90, 0x05, 0x89, 0x22, 0x78, 0x18, 0x12, 0x03, 0xEB, 0x90, 0x05, 0x87, 0x22, 0x78, 0x10, 0x12, 
++0x03, 0xEB, 0x90, 0x05, 0x86, 0x22, 0x78, 0x08, 0x12, 0x03, 0xEB, 0x90, 0x05, 0x85, 0x22, 0xFB, 
++0x7A, 0x04, 0xF9, 0xF8, 0x02, 0x85, 0xC8, 0x90, 0x04, 0x1F, 0x74, 0x20, 0xF0, 0x7F, 0x01, 0x22, 
++0x90, 0x05, 0x22, 0xE0, 0x90, 0x96, 0x04, 0xF0, 0x22, 0x12, 0x02, 0x06, 0x13, 0x13, 0x13, 0x54, 
++0x1F, 0x22, 0x7D, 0x6F, 0x7F, 0xFF, 0x02, 0x8F, 0x6E, 0x90, 0x88, 0x3C, 0xE0, 0x90, 0x05, 0x73, 
++0x22, 0xF0, 0x90, 0x95, 0xF6, 0x74, 0x01, 0xF0, 0x22, 0xF5, 0x82, 0xE4, 0x34, 0x96, 0xF5, 0x83, 
++0x22, 0x90, 0x05, 0x00, 0x74, 0x1C, 0xF0, 0xA3, 0x22, 0x4D, 0xFF, 0x90, 0x88, 0x9B, 0xF0, 0xEE, 
++0x22, 0x00, 0x11, 0xC7, 
++};
++u4Byte ArrayLength_MP_8723D_FW_NIC = 25012;
++
++u1Byte Array_MP_8723D_FW_WoWLAN[] = {
++0xD1, 0x23, 0x30, 0x00, 0x16, 0x00, 0x00, 0x00, 0x07, 0x13, 0x14, 0x55, 0x98, 0x78, 0x02, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x02, 0x88, 0xED, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xCF, 0xE3, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xE0, 0x39, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xC9, 0xC7, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0xD7, 0xE5, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xDF, 0xE3, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xFF, 0xFF, 
++0xFF, 0xFF, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
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++0xA3, 0x74, 0x05, 0xF0, 0xA3, 0xF0, 0x22, 0x12, 0xDB, 0xA7, 0x9F, 0x40, 0x40, 0x90, 0x88, 0x50, 
++0xE0, 0x04, 0xF0, 0x90, 0x88, 0x92, 0xE0, 0xFF, 0x90, 0x88, 0x50, 0xE0, 0xD3, 0x9F, 0x50, 0x2D, 
++0x90, 0x88, 0x48, 0xE0, 0x04, 0xF0, 0x90, 0x88, 0x3F, 0x12, 0xD7, 0x88, 0x33, 0x33, 0x33, 0x54, 
++0xF8, 0xFF, 0x90, 0x88, 0x3E, 0xE0, 0x2F, 0x90, 0x88, 0x4F, 0xF0, 0xFB, 0x90, 0x88, 0x48, 0xE0, 
++0xFF, 0xA3, 0xE0, 0xFD, 0x90, 0x92, 0x98, 0x74, 0x03, 0xF0, 0x12, 0x6E, 0x2F, 0x22, 0x90, 0x9C, 
++0x22, 0xE0, 0xFD, 0x90, 0x9C, 0x20, 0xE0, 0x2D, 0xFD, 0x90, 0x9C, 0x1F, 0xE0, 0x34, 0x00, 0xCD, 
++0x24, 0x20, 0xCD, 0x34, 0x00, 0xFC, 0x7E, 0x00, 0xED, 0x2F, 0xFF, 0xEE, 0x3C, 0xFE, 0x90, 0x9C, 
++0x14, 0xE0, 0xFD, 0x12, 0x7B, 0x8B, 0x90, 0x9C, 0x21, 0xEF, 0x22, 0x90, 0x05, 0x63, 0xE0, 0x90, 
++0x88, 0x89, 0xF0, 0x90, 0x05, 0x62, 0xE0, 0x90, 0x88, 0x8A, 0xF0, 0x90, 0x05, 0x61, 0xE0, 0x90, 
++0x88, 0x8B, 0xF0, 0x90, 0x05, 0x60, 0xE0, 0x90, 0x88, 0x8C, 0xF0, 0x90, 0x88, 0x32, 0xE0, 0x44, 
++0x80, 0xF0, 0x22, 0xE0, 0xFF, 0x24, 0x10, 0xF5, 0x82, 0xE4, 0x34, 0x93, 0xF5, 0x83, 0xE0, 0x90, 
++0x01, 0xB2, 0xF0, 0x74, 0x15, 0x2F, 0xF5, 0x82, 0xE4, 0x34, 0x93, 0xF5, 0x83, 0xE0, 0x90, 0x01, 
++0xB3, 0xF0, 0xE0, 0x22, 0xE0, 0xFF, 0x24, 0x1A, 0xF5, 0x82, 0xE4, 0x34, 0x93, 0xF5, 0x83, 0xE0, 
++0x90, 0x01, 0xB0, 0xF0, 0x74, 0x1F, 0x2F, 0xF5, 0x82, 0xE4, 0x34, 0x93, 0xF5, 0x83, 0xE0, 0x90, 
++0x01, 0xB1, 0xF0, 0x22, 0x90, 0x88, 0x48, 0xE0, 0xFF, 0xA3, 0xE0, 0xFD, 0x90, 0x88, 0x4F, 0xE0, 
++0xFB, 0x90, 0x92, 0x98, 0x22, 0x74, 0x00, 0x2F, 0xF9, 0xE4, 0x34, 0xFC, 0xFA, 0x7B, 0x01, 0x22, 
++0x90, 0x9A, 0x2C, 0xE0, 0x2F, 0xFF, 0x90, 0x9A, 0x2B, 0xE0, 0x34, 0x00, 0xFE, 0x90, 0x9A, 0xAF, 
++0xF0, 0x22, 0x90, 0x9A, 0x28, 0xE0, 0xFF, 0x24, 0x3E, 0xF5, 0x82, 0xE4, 0x34, 0x94, 0xF5, 0x83, 
++0xE0, 0x22, 0x12, 0x02, 0x06, 0x13, 0x13, 0x13, 0x54, 0x1F, 0x22, 0x7E, 0x00, 0x7F, 0x04, 0x7D, 
++0x00, 0x7B, 0x01, 0x7A, 0x93, 0x22, 0xFF, 0xE4, 0x3E, 0xFE, 0xE4, 0x3D, 0xFD, 0xE4, 0x3C, 0xFC, 
++0x22, 0x90, 0x9A, 0x2B, 0xE4, 0x75, 0xF0, 0x02, 0x02, 0x02, 0xE7, 0x7B, 0x01, 0x7A, 0x95, 0x79, 
++0x2F, 0x90, 0x9C, 0x60, 0xE0, 0x22, 0xFD, 0x12, 0x7B, 0x8B, 0x90, 0x9A, 0x26, 0xEF, 0xF0, 0x22, 
++0x75, 0x46, 0x94, 0x75, 0x47, 0x3C, 0x75, 0x48, 0x02, 0x22, 0x12, 0x69, 0xF5, 0x75, 0x45, 0x01, 
++0x22, 0xF0, 0x90, 0x01, 0x17, 0xE0, 0xFE, 0x90, 0x01, 0x16, 0x22, 0x90, 0x99, 0x80, 0x12, 0x84, 
++0x67, 0x02, 0x02, 0x06, 0x74, 0xC9, 0x2E, 0xF5, 0x82, 0xE4, 0x34, 0x95, 0x22, 0x90, 0x93, 0x0A, 
++0xE0, 0x90, 0x05, 0x73, 0xF0, 0x22, 0x90, 0x9A, 0xE1, 0xE0, 0x90, 0x9C, 0x75, 0xF0, 0x22, 0x90, 
++0x88, 0x38, 0xE0, 0x90, 0x9A, 0xEE, 0xF0, 0x22, 0x90, 0x9A, 0x28, 0xE0, 0xFF, 0xC3, 0x94, 0x10, 
++0x22, 0x7E, 0x00, 0x7F, 0x08, 0x7D, 0x00, 0x7B, 0x01, 0x22, 0xF0, 0xEE, 0x54, 0x80, 0xFE, 0xEF, 
++0x54, 0x7F, 0x22, 0x90, 0x9B, 0xC9, 0xE0, 0xFC, 0xA3, 0xE0, 0xFD, 0x22, 0x90, 0x9B, 0xCB, 0xE0, 
++0xFE, 0xA3, 0xE0, 0xFF, 0x22, 0xFF, 0x90, 0x9A, 0x08, 0xE0, 0x34, 0x00, 0xFE, 0x22, 0x90, 0x9C, 
++0x1E, 0xE0, 0xFF, 0xC3, 0x94, 0x08, 0x22, 0x7E, 0x00, 0x7F, 0x06, 0x12, 0x86, 0x1C, 0xEF, 0x22, 
++0x7D, 0x02, 0x7F, 0x02, 0x02, 0x04, 0x7E, 0xE4, 0x75, 0xF0, 0x20, 0x02, 0x02, 0xE7, 0x90, 0x9A, 
++0xB2, 0xE0, 0xC3, 0x94, 0x0A, 0x22, 0x74, 0x10, 0xF0, 0x7A, 0x93, 0x79, 0xF5, 0x22, 0x12, 0x84, 
++0x67, 0x7A, 0x9A, 0x79, 0x12, 0x22, 0x7F, 0x64, 0x7E, 0x00, 0x02, 0x7C, 0x6A, 0xE0, 0xFE, 0xA3, 
++0xE0, 0xFD, 0xED, 0xFF, 0x22, 0xF0, 0xA3, 0xED, 0xF0, 0xA3, 0xEB, 0xF0, 0x22, 0xF0, 0x90, 0x9C, 
++0x1E, 0xE0, 0x04, 0xF0, 0x22, 0xFB, 0x90, 0x92, 0x06, 0x74, 0x08, 0xF0, 0x22, 0x90, 0x9C, 0x1F, 
++0xA3, 0xE0, 0x24, 0xF8, 0x22, 0x12, 0x02, 0x06, 0x13, 0x13, 0x54, 0x3F, 0x22, 0x90, 0x05, 0x00, 
++0x74, 0x1C, 0xF0, 0xA3, 0x22, 0x00, 0x8A, 0x7A, 
++};
++u4Byte ArrayLength_MP_8723D_FW_WoWLAN = 30904;
++
++#endif /* end of (DM_ODM_SUPPORT_TYPE & (ODM_WIN)) || (DM_ODM_SUPPORT_TYPE & (ODM_CE)) */
++
++#endif /* end of LOAD_FW_HEADER_FROM_DRIVER*/
++
++#endif /* end of HWIMG_SUPPORT*/
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/rtl8723d/hal8723d_fw.h b/drivers/net/wireless/rtl8723du/hal/rtl8723d/hal8723d_fw.h
+new file mode 100644
+index 0000000..dd0ebcc
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/rtl8723d/hal8723d_fw.h
+@@ -0,0 +1,24 @@
++
++#ifdef CONFIG_RTL8723D
++#ifndef _FW_HEADER_8723D_H
++#define _FW_HEADER_8723D_H
++
++#ifdef LOAD_FW_HEADER_FROM_DRIVER
++#if (defined(CONFIG_AP_WOWLAN) || (DM_ODM_SUPPORT_TYPE & (ODM_AP)))
++extern u1Byte Array_MP_8723D_FW_AP[20680];
++extern u4Byte ArrayLength_MP_8723D_FW_AP;
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN)) || (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++extern u1Byte Array_MP_8723D_FW_NIC[25012];
++extern u4Byte ArrayLength_MP_8723D_FW_NIC;
++
++extern u1Byte Array_MP_8723D_FW_WoWLAN[30904];
++extern u4Byte ArrayLength_MP_8723D_FW_WoWLAN;
++#endif
++#endif /* end of LOAD_FW_HEADER_FROM_DRIVER*/
++
++#endif
++#endif /* end of HWIMG_SUPPORT*/
++
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_cmd.c b/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_cmd.c
+new file mode 100644
+index 0000000..e80c3b8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_cmd.c
+@@ -0,0 +1,1280 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8723D_CMD_C_
++
++#include <rtl8723d_hal.h>
++#include "hal_com_h2c.h"
++
++#define MAX_H2C_BOX_NUMS	4
++#define MESSAGE_BOX_SIZE		4
++
++#define RTL8723D_MAX_CMD_LEN	7
++#define RTL8723D_EX_MESSAGE_BOX_SIZE	4
++
++static u8 _is_fw_read_cmd_down(_adapter *padapter, u8 msgbox_num)
++{
++	u8	read_down = _FALSE;
++	int	retry_cnts = 100;
++
++	u8 valid;
++
++	/* RTW_INFO(" _is_fw_read_cmd_down ,reg_1cc(%x),msg_box(%d)...\n",rtw_read8(padapter,REG_HMETFR),msgbox_num); */
++
++	do {
++		valid = rtw_read8(padapter, REG_HMETFR) & BIT(msgbox_num);
++		if (0 == valid)
++			read_down = _TRUE;
++		else
++			rtw_msleep_os(1);
++	} while ((!read_down) && (retry_cnts--));
++
++	return read_down;
++
++}
++
++
++/*****************************************
++* H2C Msg format :
++*| 31 - 8		|7-5	| 4 - 0	|
++*| h2c_msg	|Class	|CMD_ID	|
++*| 31-0						|
++*| Ext msg					|
++*
++******************************************/
++s32 FillH2CCmd8723D(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer)
++{
++	u8 h2c_box_num;
++	u32	msgbox_addr;
++	u32 msgbox_ex_addr = 0;
++	PHAL_DATA_TYPE pHalData;
++	u32	h2c_cmd = 0;
++	u32	h2c_cmd_ex = 0;
++	s32 ret = _FAIL;
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++
++
++	padapter = GET_PRIMARY_ADAPTER(padapter);
++	pHalData = GET_HAL_DATA(padapter);
++#ifdef DBG_CHECK_FW_PS_STATE
++#ifdef DBG_CHECK_FW_PS_STATE_H2C
++	if (rtw_fw_ps_state(padapter) == _FAIL) {
++		RTW_INFO("%s: h2c doesn't leave 32k ElementID=%02x\n", __FUNCTION__, ElementID);
++		pdbgpriv->dbg_h2c_leave32k_fail_cnt++;
++	}
++
++	/* RTW_INFO("H2C ElementID=%02x , pHalData->LastHMEBoxNum=%02x\n", ElementID, pHalData->LastHMEBoxNum); */
++#endif /* DBG_CHECK_FW_PS_STATE_H2C */
++#endif /* DBG_CHECK_FW_PS_STATE */
++	_enter_critical_mutex(&(adapter_to_dvobj(padapter)->h2c_fwcmd_mutex), NULL);
++
++	if (!pCmdBuffer)
++		goto exit;
++	if (CmdLen > RTL8723D_MAX_CMD_LEN)
++		goto exit;
++	if (rtw_is_surprise_removed(padapter))
++		goto exit;
++
++	/* pay attention to if  race condition happened in  H2C cmd setting. */
++	do {
++		h2c_box_num = pHalData->LastHMEBoxNum;
++
++		if (!_is_fw_read_cmd_down(padapter, h2c_box_num)) {
++			RTW_INFO(" fw read cmd failed...\n");
++#ifdef DBG_CHECK_FW_PS_STATE
++			RTW_INFO("MAC_1C0=%08x, MAC_1C4=%08x, MAC_1C8=%08x, MAC_1CC=%08x\n", rtw_read32(padapter, 0x1c0), rtw_read32(padapter, 0x1c4)
++				, rtw_read32(padapter, 0x1c8), rtw_read32(padapter, 0x1cc));
++#endif /* DBG_CHECK_FW_PS_STATE */
++			/* RTW_INFO(" 0x1c0: 0x%8x\n", rtw_read32(padapter, 0x1c0)); */
++			/* RTW_INFO(" 0x1c4: 0x%8x\n", rtw_read32(padapter, 0x1c4)); */
++			goto exit;
++		}
++
++		if (CmdLen <= 3)
++			_rtw_memcpy((u8 *)(&h2c_cmd) + 1, pCmdBuffer, CmdLen);
++		else {
++			_rtw_memcpy((u8 *)(&h2c_cmd) + 1, pCmdBuffer, 3);
++			_rtw_memcpy((u8 *)(&h2c_cmd_ex), pCmdBuffer + 3, CmdLen - 3);
++			/*			*(u8*)(&h2c_cmd) |= BIT(7); */
++		}
++
++		*(u8 *)(&h2c_cmd) |= ElementID;
++
++		if (CmdLen > 3) {
++			msgbox_ex_addr = REG_HMEBOX_EXT0_8723D + (h2c_box_num * RTL8723D_EX_MESSAGE_BOX_SIZE);
++			h2c_cmd_ex = le32_to_cpu(h2c_cmd_ex);
++			rtw_write32(padapter, msgbox_ex_addr, h2c_cmd_ex);
++		}
++		msgbox_addr = REG_HMEBOX_0 + (h2c_box_num * MESSAGE_BOX_SIZE);
++		h2c_cmd = le32_to_cpu(h2c_cmd);
++		rtw_write32(padapter, msgbox_addr, h2c_cmd);
++
++		/* RTW_INFO("MSG_BOX:%d, CmdLen(%d), CmdID(0x%x), reg:0x%x =>h2c_cmd:0x%.8x, reg:0x%x =>h2c_cmd_ex:0x%.8x\n" */
++		/*	,pHalData->LastHMEBoxNum , CmdLen, ElementID, msgbox_addr, h2c_cmd, msgbox_ex_addr, h2c_cmd_ex); */
++
++		pHalData->LastHMEBoxNum = (h2c_box_num + 1) % MAX_H2C_BOX_NUMS;
++
++	} while (0);
++
++	ret = _SUCCESS;
++
++exit:
++
++	_exit_critical_mutex(&(adapter_to_dvobj(padapter)->h2c_fwcmd_mutex), NULL);
++
++
++	return ret;
++}
++
++static void ConstructBeacon(_adapter *padapter, u8 *pframe, u32 *pLength)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;
++	u32					rate_len, pktlen;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(cur_network), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0/*pmlmeext->mgnt_seq*/);
++	/* pmlmeext->mgnt_seq++; */
++	SetFrameSubType(pframe, WIFI_BEACON);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	/* timestamp will be inserted by hardware */
++	pframe += 8;
++	pktlen += 8;
++
++	/* beacon interval: 2 bytes */
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_beacon_interval_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	pktlen += 2;
++
++	/* capability info: 2 bytes */
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_capability_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	pktlen += 2;
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) {
++		/* RTW_INFO("ie len=%d\n", cur_network->IELength); */
++		pktlen += cur_network->IELength - sizeof(NDIS_802_11_FIXED_IEs);
++		_rtw_memcpy(pframe, cur_network->IEs + sizeof(NDIS_802_11_FIXED_IEs), pktlen);
++
++		goto _ConstructBeacon;
++	}
++
++	/* below for ad-hoc mode */
++
++	/* SSID */
++	pframe = rtw_set_ie(pframe, _SSID_IE_, cur_network->Ssid.SsidLength, cur_network->Ssid.Ssid, &pktlen);
++
++	/* supported rates... */
++	rate_len = rtw_get_rateset_len(cur_network->SupportedRates);
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, ((rate_len > 8) ? 8 : rate_len), cur_network->SupportedRates, &pktlen);
++
++	/* DS parameter set */
++	pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&(cur_network->Configuration.DSConfig), &pktlen);
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) {
++		u32 ATIMWindow;
++		/* IBSS Parameter Set... */
++		/* ATIMWindow = cur->Configuration.ATIMWindow; */
++		ATIMWindow = 0;
++		pframe = rtw_set_ie(pframe, _IBSS_PARA_IE_, 2, (unsigned char *)(&ATIMWindow), &pktlen);
++	}
++
++
++	/* todo: ERP IE */
++
++
++	/* EXTERNDED SUPPORTED RATE */
++	if (rate_len > 8)
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_, (rate_len - 8), (cur_network->SupportedRates + 8), &pktlen);
++
++
++	/* todo:HT for adhoc */
++
++_ConstructBeacon:
++
++	if ((pktlen + TXDESC_SIZE) > 512) {
++		RTW_INFO("beacon frame too large\n");
++		return;
++	}
++
++	*pLength = pktlen;
++
++	/* RTW_INFO("%s bcn_sz=%d\n", __FUNCTION__, pktlen); */
++
++}
++
++static void ConstructPSPoll(_adapter *padapter, u8 *pframe, u32 *pLength)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;
++	u32					pktlen;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	/* Frame control. */
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	SetPwrMgt(fctrl);
++	SetFrameSubType(pframe, WIFI_PSPOLL);
++
++	/* AID. */
++	SetDuration(pframe, (pmlmeinfo->aid | 0xc000));
++
++	/* BSSID. */
++	_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	/* TA. */
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++
++	*pLength = 16;
++}
++
++static void ConstructNullFunctionData(
++	PADAPTER padapter,
++	u8		*pframe,
++	u32		*pLength,
++	u8		*StaAddr,
++	u8		bQoS,
++	u8		AC,
++	u8		bEosp,
++	u8		bForcePowerSave)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16						*fctrl;
++	u32						pktlen;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network		*cur_network = &pmlmepriv->cur_network;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++
++	/* RTW_INFO("%s:%d\n", __FUNCTION__, bForcePowerSave); */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++	if (bForcePowerSave)
++		SetPwrMgt(fctrl);
++
++	switch (cur_network->network.InfrastructureMode) {
++	case Ndis802_11Infrastructure:
++		SetToDs(fctrl);
++		_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, StaAddr, ETH_ALEN);
++		break;
++	case Ndis802_11APMode:
++		SetFrDs(fctrl);
++		_rtw_memcpy(pwlanhdr->addr1, StaAddr, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++		break;
++	case Ndis802_11IBSS:
++	default:
++		_rtw_memcpy(pwlanhdr->addr1, StaAddr, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++		break;
++	}
++
++	SetSeqNum(pwlanhdr, 0);
++
++	if (bQoS == _TRUE) {
++		struct rtw_ieee80211_hdr_3addr_qos *pwlanqoshdr;
++
++		SetFrameSubType(pframe, WIFI_QOS_DATA_NULL);
++
++		pwlanqoshdr = (struct rtw_ieee80211_hdr_3addr_qos *)pframe;
++		SetPriority(&pwlanqoshdr->qc, AC);
++		SetEOSP(&pwlanqoshdr->qc, bEosp);
++
++		pktlen = sizeof(struct rtw_ieee80211_hdr_3addr_qos);
++	} else {
++		SetFrameSubType(pframe, WIFI_DATA_NULL);
++
++		pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	}
++
++	*pLength = pktlen;
++}
++
++/* To check if reserved page content is destroyed by beacon because beacon is too large.
++ * 2010.06.23. Added by tynli. */
++VOID
++CheckFwRsvdPageContent(
++	IN	PADAPTER		Adapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u32	MaxBcnPageNum;
++
++	if (pHalData->FwRsvdPageStartOffset != 0) {
++		/*MaxBcnPageNum = PageNum_128(pMgntInfo->MaxBeaconSize);
++		RT_ASSERT((MaxBcnPageNum <= pHalData->FwRsvdPageStartOffset),
++			("CheckFwRsvdPageContent(): The reserved page content has been"\
++			"destroyed by beacon!!! MaxBcnPageNum(%d) FwRsvdPageStartOffset(%d)\n!",
++			MaxBcnPageNum, pHalData->FwRsvdPageStartOffset));*/
++	}
++}
++
++/*
++ * Description: Get the reserved page number in Tx packet buffer.
++ * Retrun value: the page number.
++ * 2012.08.09, by tynli.
++ *   */
++u8 GetTxBufferRsvdPageNum8723D(_adapter *padapter, bool wowlan)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	u8	RsvdPageNum = 0;
++	/* default reseved 1 page for the IC type which is undefined. */
++	u8	TxPageBndy = LAST_ENTRY_OF_TX_PKT_BUFFER_8723D;
++
++	rtw_hal_get_def_var(padapter, HAL_DEF_TX_PAGE_BOUNDARY, (u8 *)&TxPageBndy);
++
++	RsvdPageNum = LAST_ENTRY_OF_TX_PKT_BUFFER_8723D - TxPageBndy + 1;
++
++	return RsvdPageNum;
++}
++
++static void rtl8723d_set_FwRsvdPage_cmd(PADAPTER padapter, PRSVDPAGE_LOC rsvdpageloc)
++{
++	u8 u1H2CRsvdPageParm[H2C_RSVDPAGE_LOC_LEN] = {0};
++
++	RTW_INFO("8723DRsvdPageLoc: ProbeRsp=%d PsPoll=%d Null=%d QoSNull=%d BTNull=%d\n",
++		 rsvdpageloc->LocProbeRsp, rsvdpageloc->LocPsPoll,
++		 rsvdpageloc->LocNullData, rsvdpageloc->LocQosNull,
++		 rsvdpageloc->LocBTQosNull);
++
++	SET_8723D_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(u1H2CRsvdPageParm, rsvdpageloc->LocProbeRsp);
++	SET_8723D_H2CCMD_RSVDPAGE_LOC_PSPOLL(u1H2CRsvdPageParm, rsvdpageloc->LocPsPoll);
++	SET_8723D_H2CCMD_RSVDPAGE_LOC_NULL_DATA(u1H2CRsvdPageParm, rsvdpageloc->LocNullData);
++	SET_8723D_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(u1H2CRsvdPageParm, rsvdpageloc->LocQosNull);
++	SET_8723D_H2CCMD_RSVDPAGE_LOC_BT_QOS_NULL_DATA(u1H2CRsvdPageParm, rsvdpageloc->LocBTQosNull);
++
++	RTW_DBG_DUMP("u1H2CRsvdPageParm:",
++		     u1H2CRsvdPageParm, H2C_RSVDPAGE_LOC_LEN);
++
++	FillH2CCmd8723D(padapter, H2C_8723D_RSVD_PAGE, H2C_RSVDPAGE_LOC_LEN, u1H2CRsvdPageParm);
++}
++
++static void rtl8723d_set_FwAoacRsvdPage_cmd(PADAPTER padapter, PRSVDPAGE_LOC rsvdpageloc)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	u8	res = 0, count = 0;
++#ifdef CONFIG_WOWLAN
++	u8 u1H2CAoacRsvdPageParm[H2C_AOAC_RSVDPAGE_LOC_LEN] = {0};
++
++	RTW_INFO("8723DAOACRsvdPageLoc: RWC=%d ArpRsp=%d NbrAdv=%d GtkRsp=%d GtkInfo=%d ProbeReq=%d NetworkList=%d\n",
++		 rsvdpageloc->LocRemoteCtrlInfo, rsvdpageloc->LocArpRsp,
++		 rsvdpageloc->LocNbrAdv, rsvdpageloc->LocGTKRsp,
++		 rsvdpageloc->LocGTKInfo, rsvdpageloc->LocProbeReq,
++		 rsvdpageloc->LocNetList);
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED)) {
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_REMOTE_WAKE_CTRL_INFO(u1H2CAoacRsvdPageParm, rsvdpageloc->LocRemoteCtrlInfo);
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_ARP_RSP(u1H2CAoacRsvdPageParm, rsvdpageloc->LocArpRsp);
++		/* SET_H2CCMD_AOAC_RSVDPAGE_LOC_NEIGHBOR_ADV(u1H2CAoacRsvdPageParm, rsvdpageloc->LocNbrAdv); */
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_GTK_RSP(u1H2CAoacRsvdPageParm, rsvdpageloc->LocGTKRsp);
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_GTK_INFO(u1H2CAoacRsvdPageParm, rsvdpageloc->LocGTKInfo);
++#ifdef CONFIG_GTK_OL
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_GTK_EXT_MEM(u1H2CAoacRsvdPageParm, rsvdpageloc->LocGTKEXTMEM);
++#endif /* CONFIG_GTK_OL */
++		RTW_DBG_DUMP("u1H2CAoacRsvdPageParm:",
++			     u1H2CAoacRsvdPageParm, H2C_AOAC_RSVDPAGE_LOC_LEN);
++
++		FillH2CCmd8723D(padapter, H2C_8723D_AOAC_RSVD_PAGE, H2C_AOAC_RSVDPAGE_LOC_LEN, u1H2CAoacRsvdPageParm);
++	} else {
++#ifdef CONFIG_PNO_SUPPORT
++		if (!pwrpriv->pno_in_resume) {
++			RTW_INFO("NLO_INFO=%d\n", rsvdpageloc->LocPNOInfo);
++			_rtw_memset(&u1H2CAoacRsvdPageParm, 0, sizeof(u1H2CAoacRsvdPageParm));
++			SET_H2CCMD_AOAC_RSVDPAGE_LOC_NLO_INFO(u1H2CAoacRsvdPageParm, rsvdpageloc->LocPNOInfo);
++			FillH2CCmd8723D(padapter, H2C_AOAC_RSVDPAGE3, H2C_AOAC_RSVDPAGE_LOC_LEN, u1H2CAoacRsvdPageParm);
++			rtw_msleep_os(10);
++		}
++#endif
++	}
++
++#endif /* CONFIG_WOWLAN */
++}
++
++static void rtl8723d_set_FwKeepAlive_cmd(PADAPTER padapter, u8 benable, u8 pkt_type)
++{
++	u8 u1H2CKeepAliveParm[H2C_KEEP_ALIVE_CTRL_LEN] = {0};
++	u8 adopt = 1;
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++	u8 check_period = 10;
++#else
++	u8 check_period = 5;
++#endif
++
++	RTW_INFO("%s(): benable = %d\n", __func__, benable);
++	SET_8723D_H2CCMD_KEEPALIVE_PARM_ENABLE(u1H2CKeepAliveParm, benable);
++	SET_8723D_H2CCMD_KEEPALIVE_PARM_ADOPT(u1H2CKeepAliveParm, adopt);
++	SET_8723D_H2CCMD_KEEPALIVE_PARM_PKT_TYPE(u1H2CKeepAliveParm, pkt_type);
++	SET_8723D_H2CCMD_KEEPALIVE_PARM_CHECK_PERIOD(u1H2CKeepAliveParm, check_period);
++
++	RTW_DBG_DUMP("u1H2CKeepAliveParm:",
++		     u1H2CKeepAliveParm, H2C_KEEP_ALIVE_CTRL_LEN);
++
++	FillH2CCmd8723D(padapter, H2C_8723D_KEEP_ALIVE, H2C_KEEP_ALIVE_CTRL_LEN, u1H2CKeepAliveParm);
++}
++
++static void rtl8723d_set_FwDisconDecision_cmd(PADAPTER padapter, u8 benable)
++{
++	u8 u1H2CDisconDecisionParm[H2C_DISCON_DECISION_LEN] = {0};
++	u8 adopt = 1, check_period = 10, trypkt_num = 0;
++
++	RTW_INFO("%s(): benable = %d\n", __func__, benable);
++	SET_8723D_H2CCMD_DISCONDECISION_PARM_ENABLE(u1H2CDisconDecisionParm, benable);
++	SET_8723D_H2CCMD_DISCONDECISION_PARM_ADOPT(u1H2CDisconDecisionParm, adopt);
++	SET_8723D_H2CCMD_DISCONDECISION_PARM_CHECK_PERIOD(u1H2CDisconDecisionParm, check_period);
++	SET_8723D_H2CCMD_DISCONDECISION_PARM_TRY_PKT_NUM(u1H2CDisconDecisionParm, trypkt_num);
++
++	RTW_DBG_DUMP("u1H2CDisconDecisionParm:",
++		     u1H2CDisconDecisionParm, H2C_DISCON_DECISION_LEN);
++
++	FillH2CCmd8723D(padapter, H2C_8723D_DISCON_DECISION, H2C_DISCON_DECISION_LEN, u1H2CDisconDecisionParm);
++}
++
++void rtl8723d_set_FwMacIdConfig_cmd(_adapter *padapter, u8 mac_id, u8 raid, u8 bw, u8 sgi, u32 mask)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	u8 u1H2CMacIdConfigParm[H2C_MACID_CFG_LEN] = {0};
++
++	RTW_INFO("%s(): mac_id=%d raid=0x%x bw=%d mask=0x%x\n", __func__, mac_id, raid, bw, mask);
++
++
++	SET_8723D_H2CCMD_MACID_CFG_MACID(u1H2CMacIdConfigParm, mac_id);
++	SET_8723D_H2CCMD_MACID_CFG_RAID(u1H2CMacIdConfigParm, raid);
++	SET_8723D_H2CCMD_MACID_CFG_SGI_EN(u1H2CMacIdConfigParm, (sgi) ? 1 : 0);
++	SET_8723D_H2CCMD_MACID_CFG_BW(u1H2CMacIdConfigParm, bw);
++
++	/* DisableTXPowerTraining */
++	if (pHalData->bDisableTXPowerTraining) {
++		SET_8723D_H2CCMD_MACID_CFG_DISPT(u1H2CMacIdConfigParm, 1);
++		RTW_INFO("%s,Disable PWT by driver\n", __FUNCTION__);
++	} else {
++		PDM_ODM_T	pDM_OutSrc = &pHalData->odmpriv;
++
++		if (pDM_OutSrc->bDisablePowerTraining) {
++			SET_8723D_H2CCMD_MACID_CFG_DISPT(u1H2CMacIdConfigParm, 1);
++			RTW_INFO("%s,Disable PWT by DM\n", __FUNCTION__);
++		}
++	}
++
++	SET_8723D_H2CCMD_MACID_CFG_RATE_MASK0(u1H2CMacIdConfigParm, (u8)(mask & 0x000000ff));
++	SET_8723D_H2CCMD_MACID_CFG_RATE_MASK1(u1H2CMacIdConfigParm, (u8)((mask & 0x0000ff00) >> 8));
++	SET_8723D_H2CCMD_MACID_CFG_RATE_MASK2(u1H2CMacIdConfigParm, (u8)((mask & 0x00ff0000) >> 16));
++	SET_8723D_H2CCMD_MACID_CFG_RATE_MASK3(u1H2CMacIdConfigParm, (u8)((mask & 0xff000000) >> 24));
++
++	RTW_DBG_DUMP("u1H2CMacIdConfigParm:",
++		     u1H2CMacIdConfigParm, H2C_MACID_CFG_LEN);
++
++	FillH2CCmd8723D(padapter, H2C_8723D_MACID_CFG, H2C_MACID_CFG_LEN, u1H2CMacIdConfigParm);
++
++}
++
++void rtl8723d_set_FwRssiSetting_cmd(_adapter *padapter, u8 *param)
++{
++	u8 u1H2CRssiSettingParm[H2C_RSSI_SETTING_LEN] = {0};
++	u8 mac_id = *param;
++	u8 rssi = *(param + 2);
++	u8 uldl_state = 0;
++
++	/* RTW_INFO("%s(): param=%.2x-%.2x-%.2x\n", __func__, *param, *(param+1), *(param+2)); */
++	/* RTW_INFO("%s(): mac_id=%d rssi=%d\n", __func__, mac_id, rssi); */
++
++	SET_8723D_H2CCMD_RSSI_SETTING_MACID(u1H2CRssiSettingParm, mac_id);
++	SET_8723D_H2CCMD_RSSI_SETTING_RSSI(u1H2CRssiSettingParm, rssi);
++	SET_8723D_H2CCMD_RSSI_SETTING_ULDL_STATE(u1H2CRssiSettingParm, uldl_state);
++
++	RTW_DBG_DUMP("u1H2CRssiSettingParm:",
++		     u1H2CRssiSettingParm, H2C_RSSI_SETTING_LEN);
++	FillH2CCmd8723D(padapter, H2C_8723D_RSSI_SETTING, H2C_RSSI_SETTING_LEN, u1H2CRssiSettingParm);
++
++}
++
++void rtl8723d_set_FwAPReqRPT_cmd(PADAPTER padapter, u32 need_ack)
++{
++	u8 u1H2CApReqRptParm[H2C_AP_REQ_TXRPT_LEN] = {0};
++	u8 macid1 = 1, macid2 = 0;
++
++	RTW_INFO("%s(): need_ack = %d\n", __func__, need_ack);
++
++	SET_8723D_H2CCMD_APREQRPT_PARM_MACID1(u1H2CApReqRptParm, macid1);
++	SET_8723D_H2CCMD_APREQRPT_PARM_MACID2(u1H2CApReqRptParm, macid2);
++
++	RTW_DBG_DUMP("u1H2CApReqRptParm:",
++		     u1H2CApReqRptParm, H2C_AP_REQ_TXRPT_LEN);
++
++	FillH2CCmd8723D(padapter, H2C_8723D_AP_REQ_TXRPT, H2C_AP_REQ_TXRPT_LEN, u1H2CApReqRptParm);
++}
++
++void rtl8723d_set_FwPwrMode_cmd(PADAPTER padapter, u8 psmode)
++{
++	int i;
++	u8 smart_ps = 0;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	u8 u1H2CPwrModeParm[H2C_PWRMODE_LEN] = {0};
++	u8 PowerState = 0, awake_intvl = 1, byte5 = 0, rlbm = 0;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *wdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++
++
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++	if (psmode == PS_MODE_DTIM)
++		psmode = PS_MODE_MAX;
++#endif /* CONFIG_PLATFORM_INTEL_BYT */
++
++
++	if (pwrpriv->dtim > 0)
++		RTW_INFO("%s(): FW LPS mode = %d, SmartPS=%d, dtim=%d\n", __func__, psmode, pwrpriv->smart_ps, pwrpriv->dtim);
++	else
++		RTW_INFO("%s(): FW LPS mode = %d, SmartPS=%d\n", __func__, psmode, pwrpriv->smart_ps);
++
++	if (psmode == PS_MODE_MIN) {
++		rlbm = 0;
++		awake_intvl = 2;
++		smart_ps = pwrpriv->smart_ps;
++	} else if (psmode == PS_MODE_MAX) {
++		rlbm = 1;
++		awake_intvl = 2;
++		smart_ps = pwrpriv->smart_ps;
++	} else if (psmode == PS_MODE_DTIM) { /* For WOWLAN LPS, DTIM = (awake_intvl - 1) */
++		if (pwrpriv->dtim > 0 && pwrpriv->dtim < 16)
++			awake_intvl = pwrpriv->dtim + 1; /* DTIM = (awake_intvl - 1) */
++		else
++			awake_intvl = 4;/* DTIM=3 */
++
++
++		rlbm = 2;
++		smart_ps = pwrpriv->smart_ps;
++	} else {
++		rlbm = 2;
++		awake_intvl = 4;
++		smart_ps = pwrpriv->smart_ps;
++	}
++
++#ifdef CONFIG_P2P
++	if (!rtw_p2p_chk_state(wdinfo, P2P_STATE_NONE)) {
++		awake_intvl = 2;
++		rlbm = 1;
++	}
++#endif /* CONFIG_P2P */
++
++	if (padapter->registrypriv.wifi_spec == 1) {
++		awake_intvl = 2;
++		rlbm = 1;
++	}
++
++	if (psmode > 0) {
++#ifdef CONFIG_BT_COEXIST
++		if (rtw_btcoex_IsBtControlLps(padapter) == _TRUE) {
++			PowerState = rtw_btcoex_RpwmVal(padapter);
++			byte5 = rtw_btcoex_LpsVal(padapter);
++
++			if ((rlbm == 2) && (byte5 & BIT(4))) {
++				/* Keep awake interval to 1 to prevent from */
++				/* decreasing coex performance */
++				awake_intvl = 2;
++				rlbm = 2;
++			}
++		} else
++#endif /* CONFIG_BT_COEXIST */
++		{
++			PowerState = 0x00;/* AllON(0x0C), RFON(0x04), RFOFF(0x00) */
++			byte5 = 0x40;
++		}
++	} else {
++		PowerState = 0x0C;/* AllON(0x0C), RFON(0x04), RFOFF(0x00) */
++		byte5 = 0x40;
++	}
++
++	SET_8723D_H2CCMD_PWRMODE_PARM_MODE(u1H2CPwrModeParm, (psmode > 0) ? 1 : 0);
++	SET_8723D_H2CCMD_PWRMODE_PARM_SMART_PS(u1H2CPwrModeParm, smart_ps);
++	SET_8723D_H2CCMD_PWRMODE_PARM_RLBM(u1H2CPwrModeParm, rlbm);
++	SET_8723D_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(u1H2CPwrModeParm, awake_intvl);
++	SET_8723D_H2CCMD_PWRMODE_PARM_ALL_QUEUE_UAPSD(u1H2CPwrModeParm, padapter->registrypriv.uapsd_enable);
++	SET_8723D_H2CCMD_PWRMODE_PARM_PWR_STATE(u1H2CPwrModeParm, PowerState);
++	SET_8723D_H2CCMD_PWRMODE_PARM_BYTE5(u1H2CPwrModeParm, byte5);
++#ifdef CONFIG_LPS_LCLK
++	if (psmode != PS_MODE_ACTIVE) {
++		if (pmlmeext->adaptive_tsf_done == _FALSE && pmlmeext->bcn_cnt > 0) {
++			u8 ratio_20_delay, ratio_80_delay;
++
++			/* byte 6 for adaptive_early_32k */
++			/* [0:3] = DrvBcnEarly  (ms) , [4:7] = DrvBcnTimeOut  (ms) */
++			/* 20% for DrvBcnEarly, 80% for DrvBcnTimeOut */
++			ratio_20_delay = 0;
++			ratio_80_delay = 0;
++			pmlmeext->DrvBcnEarly = 0xff;
++			pmlmeext->DrvBcnTimeOut = 0xff;
++
++			/* RTW_INFO("%s(): bcn_cnt = %d\n", __func__, pmlmeext->bcn_cnt); */
++
++			for (i = 0; i < 9; i++) {
++				pmlmeext->bcn_delay_ratio[i] = (pmlmeext->bcn_delay_cnt[i] * 100) / pmlmeext->bcn_cnt;
++
++				/* RTW_INFO("%s(): bcn_delay_cnt[%d]=%d, bcn_delay_ratio[%d] = %d\n", __func__, i, pmlmeext->bcn_delay_cnt[i] */
++				/*	,i ,pmlmeext->bcn_delay_ratio[i]); */
++
++				ratio_20_delay += pmlmeext->bcn_delay_ratio[i];
++				ratio_80_delay += pmlmeext->bcn_delay_ratio[i];
++
++				if (ratio_20_delay > 20 && pmlmeext->DrvBcnEarly == 0xff) {
++					pmlmeext->DrvBcnEarly = i;
++					/* RTW_INFO("%s(): DrvBcnEarly = %d\n", __func__, pmlmeext->DrvBcnEarly); */
++				}
++
++				if (ratio_80_delay > 80 && pmlmeext->DrvBcnTimeOut == 0xff) {
++					pmlmeext->DrvBcnTimeOut = i;
++					/* RTW_INFO("%s(): DrvBcnTimeOut = %d\n", __func__, pmlmeext->DrvBcnTimeOut); */
++				}
++
++				/* reset adaptive_early_32k cnt */
++				pmlmeext->bcn_delay_cnt[i] = 0;
++				pmlmeext->bcn_delay_ratio[i] = 0;
++
++			}
++
++			pmlmeext->bcn_cnt = 0;
++			pmlmeext->adaptive_tsf_done = _TRUE;
++
++		} else {
++			/* RTW_INFO("%s(): DrvBcnEarly = %d\n", __func__, pmlmeext->DrvBcnEarly); */
++			/* RTW_INFO("%s(): DrvBcnTimeOut = %d\n", __func__, pmlmeext->DrvBcnTimeOut); */
++		}
++
++		/* offload to FW if fw version > v15.10
++				pmlmeext->DrvBcnEarly=0;
++				pmlmeext->DrvBcnTimeOut=7;
++
++				if((pmlmeext->DrvBcnEarly!=0Xff) && (pmlmeext->DrvBcnTimeOut!=0xff))
++					u1H2CPwrModeParm[H2C_PWRMODE_LEN-1] = BIT(0) | ((pmlmeext->DrvBcnEarly<<1)&0x0E) |((pmlmeext->DrvBcnTimeOut<<4)&0xf0) ;
++		*/
++
++	}
++#endif
++
++#ifdef CONFIG_BT_COEXIST
++	rtw_btcoex_RecordPwrMode(padapter, u1H2CPwrModeParm, H2C_PWRMODE_LEN);
++#endif /* CONFIG_BT_COEXIST */
++
++	RTW_DBG_DUMP("u1H2CPwrModeParm:",
++		     u1H2CPwrModeParm, H2C_PWRMODE_LEN);
++
++	FillH2CCmd8723D(padapter, H2C_8723D_SET_PWR_MODE, H2C_PWRMODE_LEN, u1H2CPwrModeParm);
++}
++
++void rtl8723d_set_FwPsTuneParam_cmd(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	u8 u1H2CPsTuneParm[H2C_PSTUNEPARAM_LEN] = {0};
++	u8 bcn_to_limit = 10; /* 10 * 100 * awakeinterval (ms) */
++	u8 dtim_timeout = 5; /* ms //wait broadcast data timer */
++	u8 ps_timeout = 20;  /* ms //Keep awake when tx */
++	u8 dtim_period = 3;
++
++	/* RTW_INFO("%s(): FW LPS mode = %d\n", __func__, psmode); */
++
++	SET_8723D_H2CCMD_PSTUNE_PARM_BCN_TO_LIMIT(u1H2CPsTuneParm, bcn_to_limit);
++	SET_8723D_H2CCMD_PSTUNE_PARM_DTIM_TIMEOUT(u1H2CPsTuneParm, dtim_timeout);
++	SET_8723D_H2CCMD_PSTUNE_PARM_PS_TIMEOUT(u1H2CPsTuneParm, ps_timeout);
++	SET_8723D_H2CCMD_PSTUNE_PARM_ADOPT(u1H2CPsTuneParm, 1);
++	SET_8723D_H2CCMD_PSTUNE_PARM_DTIM_PERIOD(u1H2CPsTuneParm, dtim_period);
++
++	RTW_DBG_DUMP("u1H2CPsTuneParm:",
++		     u1H2CPsTuneParm, H2C_PSTUNEPARAM_LEN);
++
++	FillH2CCmd8723D(padapter, H2C_8723D_PS_TUNING_PARA, H2C_PSTUNEPARAM_LEN, u1H2CPsTuneParm);
++}
++
++void rtl8723d_set_FwBtMpOper_cmd(PADAPTER padapter, u8 idx, u8 ver, u8 reqnum, u8 *param)
++{
++	u8 u1H2CBtMpOperParm[H2C_BTMP_OPER_LEN] = {0};
++
++
++	RTW_INFO("%s: idx=%d ver=%d reqnum=%d param1=0x%02x param2=0x%02x\n", __FUNCTION__, idx, ver, reqnum, param[0], param[1]);
++
++	SET_8723D_H2CCMD_BT_MPOPER_VER(u1H2CBtMpOperParm, ver);
++	SET_8723D_H2CCMD_BT_MPOPER_REQNUM(u1H2CBtMpOperParm, reqnum);
++	SET_8723D_H2CCMD_BT_MPOPER_IDX(u1H2CBtMpOperParm, idx);
++	SET_8723D_H2CCMD_BT_MPOPER_PARAM1(u1H2CBtMpOperParm, param[0]);
++	SET_8723D_H2CCMD_BT_MPOPER_PARAM2(u1H2CBtMpOperParm, param[1]);
++	SET_8723D_H2CCMD_BT_MPOPER_PARAM3(u1H2CBtMpOperParm, param[2]);
++
++	RTW_DBG_DUMP("u1H2CBtMpOperParm:",
++		     u1H2CBtMpOperParm, H2C_BTMP_OPER_LEN);
++
++	FillH2CCmd8723D(padapter, H2C_8723D_BT_MP_OPER, H2C_BTMP_OPER_LEN, u1H2CBtMpOperParm);
++}
++
++void rtl8723d_set_FwPwrModeInIPS_cmd(PADAPTER padapter, u8 en)
++{
++	/* u8 cmd_param; //BIT0:enable, BIT1:Ignore PS Condition.*/
++
++	u8 parm[H2C_INACTIVE_PS_LEN] = {0};
++
++	SET_H2CCMD_INACTIVE_PS_EN(parm, en);
++	SET_H2CCMD_INACTIVE_PS_IGNORE_PS(parm, en);
++
++	FillH2CCmd8723D(padapter, H2C_INACTIVE_PS_, H2C_INACTIVE_PS_LEN, parm);
++}
++
++static s32 rtl8723d_set_FwLowPwrLps_cmd(PADAPTER padapter, u8 enable)
++{
++	/* TODO */
++	return _FALSE;
++}
++
++
++void rtl8723d_download_rsvd_page(PADAPTER padapter, u8 mstatus)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	BOOLEAN		bcn_valid = _FALSE;
++	u8	DLBcnCount = 0;
++	u32 poll = 0;
++	u8 val8;
++
++
++	RTW_INFO("+" FUNC_ADPT_FMT ": hw_port=%d mstatus(%x)\n",
++		 FUNC_ADPT_ARG(padapter), get_hw_port(padapter), mstatus);
++
++	if (mstatus == RT_MEDIA_CONNECT) {
++		BOOLEAN bRecover = _FALSE;
++		u8 v8;
++
++		/* We should set AID, correct TSF, HW seq enable before set JoinBssReport to Fw in 88/92C. */
++		/* Suggested by filen. Added by tynli. */
++		rtw_write16(padapter, REG_BCN_PSR_RPT, (0xC000 | pmlmeinfo->aid));
++
++		/* set REG_CR bit 8 */
++		v8 = rtw_read8(padapter, REG_CR + 1);
++		v8 |= BIT(0); /* ENSWBCN */
++		rtw_write8(padapter,  REG_CR + 1, v8);
++
++		/* Disable Hw protection for a time which revserd for Hw sending beacon. */
++		/* Fix download reserved page packet fail that access collision with the protection time. */
++		/* 2010.05.11. Added by tynli. */
++		val8 = rtw_read8(padapter, REG_BCN_CTRL);
++		val8 &= ~EN_BCN_FUNCTION;
++		val8 |= DIS_TSF_UDT;
++		rtw_write8(padapter, REG_BCN_CTRL, val8);
++
++		/* Set FWHW_TXQ_CTRL 0x422[6]=0 to tell Hw the packet is not a real beacon frame. */
++		if (pHalData->RegFwHwTxQCtrl & BIT(6))
++			bRecover = _TRUE;
++
++		/* To tell Hw the packet is not a real beacon frame. */
++		rtw_write8(padapter, REG_FWHW_TXQ_CTRL + 2, pHalData->RegFwHwTxQCtrl & ~BIT(6));
++		pHalData->RegFwHwTxQCtrl &= ~BIT(6);
++
++		/* Clear beacon valid check bit. */
++		rtw_hal_set_hwreg(padapter, HW_VAR_BCN_VALID, NULL);
++		rtw_hal_set_hwreg(padapter, HW_VAR_DL_BCN_SEL, NULL);
++
++		DLBcnCount = 0;
++		poll = 0;
++		do {
++			/* download rsvd page. */
++			rtw_hal_set_fw_rsvd_page(padapter, 0);
++			DLBcnCount++;
++			do {
++				rtw_yield_os();
++				/* rtw_mdelay_os(10); */
++				/* check rsvd page download OK. */
++				rtw_hal_get_hwreg(padapter, HW_VAR_BCN_VALID, (u8 *)(&bcn_valid));
++				poll++;
++			} while (!bcn_valid && (poll % 10) != 0 && !RTW_CANNOT_RUN(padapter));
++
++		} while (!bcn_valid && DLBcnCount <= 100 && !RTW_CANNOT_RUN(padapter));
++
++		if (RTW_CANNOT_RUN(padapter))
++			;
++		else if (!bcn_valid)
++			RTW_INFO(ADPT_FMT": 1 DL RSVD page failed! DLBcnCount:%u, poll:%u\n",
++				 ADPT_ARG(padapter) , DLBcnCount, poll);
++		else {
++			struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++
++			pwrctl->fw_psmode_iface_id = padapter->iface_id;
++			RTW_INFO(ADPT_FMT": 1 DL RSVD page success! DLBcnCount:%u, poll:%u\n",
++				 ADPT_ARG(padapter), DLBcnCount, poll);
++		}
++
++		/* 2010.05.11. Added by tynli. */
++		val8 = rtw_read8(padapter, REG_BCN_CTRL);
++		val8 |= EN_BCN_FUNCTION;
++		val8 &= ~DIS_TSF_UDT;
++		rtw_write8(padapter, REG_BCN_CTRL, val8);
++
++		/* To make sure that if there exists an adapter which would like to send beacon. */
++		/* If exists, the origianl value of 0x422[6] will be 1, we should check this to */
++		/* prevent from setting 0x422[6] to 0 after download reserved page, or it will cause */
++		/* the beacon cannot be sent by HW. */
++		/* 2010.06.23. Added by tynli. */
++		if (bRecover) {
++			rtw_write8(padapter, REG_FWHW_TXQ_CTRL + 2, pHalData->RegFwHwTxQCtrl | BIT(6));
++			pHalData->RegFwHwTxQCtrl |= BIT(6);
++		}
++
++		/* Clear CR[8] or beacon packet will not be send to TxBuf anymore. */
++#ifndef CONFIG_PCI_HCI
++		v8 = rtw_read8(padapter, REG_CR + 1);
++		v8 &= ~BIT(0); /* ~ENSWBCN */
++		rtw_write8(padapter, REG_CR + 1, v8);
++#endif
++	}
++
++}
++
++void rtl8723d_set_rssi_cmd(_adapter *padapter, u8 *param)
++{
++	rtl8723d_set_FwRssiSetting_cmd(padapter, param);
++}
++
++void rtl8723d_set_FwJoinBssRpt_cmd(PADAPTER padapter, u8 mstatus)
++{
++	struct sta_info *psta = NULL;
++	struct pwrctrl_priv *ppwrpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++
++	if (mstatus == 1)
++		rtl8723d_download_rsvd_page(padapter, RT_MEDIA_CONNECT);
++}
++#if 0
++void rtl8723d_fw_try_ap_cmd(PADAPTER padapter, u32 need_ack)
++{
++	rtl8723d_set_FwAPReqRPT_cmd(padapter, need_ack);
++}
++#endif
++
++#ifdef CONFIG_BT_COEXIST
++static void ConstructBtNullFunctionData(
++	PADAPTER padapter,
++	u8 *pframe,
++	u32 *pLength,
++	u8 *StaAddr,
++	u8 bQoS,
++	u8 AC,
++	u8 bEosp,
++	u8 bForcePowerSave)
++{
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	u16 *fctrl;
++	u32 pktlen;
++	struct mlme_ext_priv *pmlmeext;
++	struct mlme_ext_info *pmlmeinfo;
++	u8 bssid[ETH_ALEN];
++
++
++	RTW_INFO("+" FUNC_ADPT_FMT ": qos=%d eosp=%d ps=%d\n",
++		 FUNC_ADPT_ARG(padapter), bQoS, bEosp, bForcePowerSave);
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++	pmlmeext = &padapter->mlmeextpriv;
++	pmlmeinfo = &pmlmeext->mlmext_info;
++
++	if (NULL == StaAddr) {
++		_rtw_memcpy(bssid, adapter_mac_addr(padapter), ETH_ALEN);
++		StaAddr = bssid;
++	}
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*fctrl = 0;
++	if (bForcePowerSave)
++		SetPwrMgt(fctrl);
++
++	SetFrDs(fctrl);
++	_rtw_memcpy(pwlanhdr->addr1, StaAddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++
++	SetDuration(pwlanhdr, 0);
++	SetSeqNum(pwlanhdr, 0);
++
++	if (bQoS == _TRUE) {
++		struct rtw_ieee80211_hdr_3addr_qos *pwlanqoshdr;
++
++		SetFrameSubType(pframe, WIFI_QOS_DATA_NULL);
++
++		pwlanqoshdr = (struct rtw_ieee80211_hdr_3addr_qos *)pframe;
++		SetPriority(&pwlanqoshdr->qc, AC);
++		SetEOSP(&pwlanqoshdr->qc, bEosp);
++
++		pktlen = sizeof(struct rtw_ieee80211_hdr_3addr_qos);
++	} else {
++		SetFrameSubType(pframe, WIFI_DATA_NULL);
++
++		pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	}
++
++	*pLength = pktlen;
++}
++
++static void SetFwRsvdPagePkt_BTCoex(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData;
++	struct xmit_frame *pcmdframe;
++	struct pkt_attrib *pattrib;
++	struct xmit_priv *pxmitpriv;
++	struct mlme_ext_priv *pmlmeext;
++	struct mlme_ext_info *pmlmeinfo;
++	u32	BeaconLength = 0;
++	u32	BTQosNullLength = 0;
++	u8 *ReservedPagePacket;
++	u8 TxDescLen, TxDescOffset;
++	u8 TotalPageNum = 0, CurtPktPageNum = 0, RsvdPageNum = 0;
++	u16	BufIndex, PageSize;
++	u32	TotalPacketLen, MaxRsvdPageBufSize = 0;
++	RSVDPAGE_LOC RsvdPageLoc;
++
++
++	/*	RTW_INFO("+" FUNC_ADPT_FMT "\n", FUNC_ADPT_ARG(padapter)); */
++
++	pHalData = GET_HAL_DATA(padapter);
++	pxmitpriv = &padapter->xmitpriv;
++	pmlmeext = &padapter->mlmeextpriv;
++	pmlmeinfo = &pmlmeext->mlmext_info;
++	TxDescLen = TXDESC_SIZE;
++	TxDescOffset = TXDESC_OFFSET;
++	PageSize = PAGE_SIZE_TX_8723D;
++
++	RsvdPageNum = BCNQ_PAGE_NUM_8723D;
++	MaxRsvdPageBufSize = RsvdPageNum * PageSize;
++
++	pcmdframe = rtw_alloc_cmdxmitframe(pxmitpriv);
++	if (pcmdframe == NULL) {
++		RTW_INFO("%s: alloc ReservedPagePacket fail!\n", __FUNCTION__);
++		return;
++	}
++
++	ReservedPagePacket = pcmdframe->buf_addr;
++	_rtw_memset(&RsvdPageLoc, 0, sizeof(RSVDPAGE_LOC));
++
++	/* 3 (1) beacon */
++	BufIndex = TxDescOffset;
++	ConstructBeacon(padapter, &ReservedPagePacket[BufIndex], &BeaconLength);
++
++	/* When we count the first page size, we need to reserve description size for the RSVD */
++	/* packet, it will be filled in front of the packet in TXPKTBUF. */
++	CurtPktPageNum = (u8)PageNum_128(TxDescLen + BeaconLength);
++	/* If we don't add 1 more page, the WOWLAN function has a problem. Baron thinks it's a bug of firmware */
++	if (CurtPktPageNum == 1)
++		CurtPktPageNum += 1;
++	TotalPageNum += CurtPktPageNum;
++
++	BufIndex += (CurtPktPageNum * PageSize);
++
++	/* Jump to lastest page */
++	if (BufIndex < (MaxRsvdPageBufSize - PageSize)) {
++		BufIndex = TxDescOffset + (MaxRsvdPageBufSize - PageSize);
++		TotalPageNum = BCNQ_PAGE_NUM_8723D - 1;
++	}
++
++	/* 3 (6) BT Qos null data */
++	RsvdPageLoc.LocBTQosNull = TotalPageNum;
++	ConstructBtNullFunctionData(
++		padapter,
++		&ReservedPagePacket[BufIndex],
++		&BTQosNullLength,
++		NULL,
++		_TRUE, 0, 0, _FALSE);
++	rtl8723d_fill_fake_txdesc(padapter, &ReservedPagePacket[BufIndex - TxDescLen], BTQosNullLength, _FALSE, _TRUE, _FALSE);
++
++	CurtPktPageNum = (u8)PageNum_128(TxDescLen + BTQosNullLength);
++
++	TotalPageNum += CurtPktPageNum;
++
++	TotalPacketLen = BufIndex + BTQosNullLength;
++	if (TotalPacketLen > MaxRsvdPageBufSize) {
++		RTW_INFO(FUNC_ADPT_FMT ": ERROR: The rsvd page size is not enough!!TotalPacketLen %d, MaxRsvdPageBufSize %d\n",
++			FUNC_ADPT_ARG(padapter), TotalPacketLen, MaxRsvdPageBufSize);
++		goto error;
++	}
++
++	/* update attribute */
++	pattrib = &pcmdframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++	pattrib->qsel = QSLT_BEACON;
++	pattrib->pktlen = pattrib->last_txcmdsz = TotalPacketLen - TxDescOffset;
++#ifdef CONFIG_PCI_HCI
++	dump_mgntframe(padapter, pcmdframe);
++#else
++	dump_mgntframe_and_wait(padapter, pcmdframe, 100);
++#endif
++
++	/*	RTW_INFO(FUNC_ADPT_FMT ": Set RSVD page location to Fw, TotalPacketLen(%d), TotalPageNum(%d)\n",
++	 *		FUNC_ADPT_ARG(padapter), TotalPacketLen, TotalPageNum); */
++	rtl8723d_set_FwRsvdPage_cmd(padapter, &RsvdPageLoc);
++	rtl8723d_set_FwAoacRsvdPage_cmd(padapter, &RsvdPageLoc);
++
++	return;
++
++error:
++	rtw_free_xmitframe(pxmitpriv, pcmdframe);
++}
++
++void rtl8723d_download_BTCoex_AP_mode_rsvd_page(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData;
++	struct mlme_ext_priv *pmlmeext;
++	struct mlme_ext_info *pmlmeinfo;
++	u8 bRecover = _FALSE;
++	u8 bcn_valid = _FALSE;
++	u8 DLBcnCount = 0;
++	u32 poll = 0;
++	u8 val8;
++
++
++	RTW_INFO("+" FUNC_ADPT_FMT ": hw_port=%d fw_state=0x%08X\n",
++		FUNC_ADPT_ARG(padapter), get_hw_port(padapter), get_fwstate(&padapter->mlmepriv));
++
++#ifdef CONFIG_RTW_DEBUG
++	if (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _FALSE) {
++		RTW_INFO(FUNC_ADPT_FMT ": [WARNING] not in AP mode!!\n",
++			 FUNC_ADPT_ARG(padapter));
++	}
++#endif /* CONFIG_RTW_DEBUG */
++
++	pHalData = GET_HAL_DATA(padapter);
++	pmlmeext = &padapter->mlmeextpriv;
++	pmlmeinfo = &pmlmeext->mlmext_info;
++
++	/* We should set AID, correct TSF, HW seq enable before set JoinBssReport to Fw in 88/92C. */
++	/* Suggested by filen. Added by tynli. */
++	rtw_write16(padapter, REG_BCN_PSR_RPT, (0xC000 | pmlmeinfo->aid));
++
++	/* set REG_CR bit 8 */
++	val8 = rtw_read8(padapter, REG_CR + 1);
++	val8 |= BIT(0); /* ENSWBCN */
++	rtw_write8(padapter,  REG_CR + 1, val8);
++
++	/* Disable Hw protection for a time which revserd for Hw sending beacon. */
++	/* Fix download reserved page packet fail that access collision with the protection time. */
++	/* 2010.05.11. Added by tynli. */
++	val8 = rtw_read8(padapter, REG_BCN_CTRL);
++	val8 &= ~EN_BCN_FUNCTION;
++	val8 |= DIS_TSF_UDT;
++	rtw_write8(padapter, REG_BCN_CTRL, val8);
++
++	/* Set FWHW_TXQ_CTRL 0x422[6]=0 to tell Hw the packet is not a real beacon frame. */
++	if (pHalData->RegFwHwTxQCtrl & BIT(6))
++		bRecover = _TRUE;
++
++	/* To tell Hw the packet is not a real beacon frame. */
++	pHalData->RegFwHwTxQCtrl &= ~BIT(6);
++	rtw_write8(padapter, REG_FWHW_TXQ_CTRL + 2, pHalData->RegFwHwTxQCtrl);
++
++	/* Clear beacon valid check bit. */
++	rtw_hal_set_hwreg(padapter, HW_VAR_BCN_VALID, NULL);
++	rtw_hal_set_hwreg(padapter, HW_VAR_DL_BCN_SEL, NULL);
++
++	DLBcnCount = 0;
++	poll = 0;
++	do {
++		SetFwRsvdPagePkt_BTCoex(padapter);
++		DLBcnCount++;
++		do {
++			rtw_yield_os();
++			/*			rtw_mdelay_os(10); */
++			/* check rsvd page download OK. */
++			rtw_hal_get_hwreg(padapter, HW_VAR_BCN_VALID, &bcn_valid);
++			poll++;
++		} while (!bcn_valid && (poll % 10) != 0 && !RTW_CANNOT_RUN(padapter));
++	} while (!bcn_valid && (DLBcnCount <= 100) && !RTW_CANNOT_RUN(padapter));
++
++	if (_TRUE == bcn_valid) {
++		struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++
++		pwrctl->fw_psmode_iface_id = padapter->iface_id;
++		RTW_INFO(ADPT_FMT": DL RSVD page success! DLBcnCount:%d, poll:%d\n",
++			 ADPT_ARG(padapter), DLBcnCount, poll);
++	} else {
++		RTW_INFO(ADPT_FMT": DL RSVD page fail! DLBcnCount:%d, poll:%d\n",
++			 ADPT_ARG(padapter), DLBcnCount, poll);
++		RTW_INFO(ADPT_FMT": DL RSVD page fail! bSurpriseRemoved=%s\n",
++			ADPT_ARG(padapter), rtw_is_surprise_removed(padapter) ? "True" : "False");
++		RTW_INFO(ADPT_FMT": DL RSVD page fail! bDriverStopped=%s\n",
++			ADPT_ARG(padapter), rtw_is_drv_stopped(padapter) ? "True" : "False");
++	}
++
++	/* 2010.05.11. Added by tynli. */
++	val8 = rtw_read8(padapter, REG_BCN_CTRL);
++	val8 |= EN_BCN_FUNCTION;
++	val8 &= ~DIS_TSF_UDT;
++	rtw_write8(padapter, REG_BCN_CTRL, val8);
++
++	/* To make sure that if there exists an adapter which would like to send beacon. */
++	/* If exists, the origianl value of 0x422[6] will be 1, we should check this to */
++	/* prevent from setting 0x422[6] to 0 after download reserved page, or it will cause */
++	/* the beacon cannot be sent by HW. */
++	/* 2010.06.23. Added by tynli. */
++	if (bRecover) {
++		pHalData->RegFwHwTxQCtrl |= BIT(6);
++		rtw_write8(padapter, REG_FWHW_TXQ_CTRL + 2, pHalData->RegFwHwTxQCtrl);
++	}
++
++	/* Clear CR[8] or beacon packet will not be send to TxBuf anymore. */
++#ifndef CONFIG_PCI_HCI
++	val8 = rtw_read8(padapter, REG_CR + 1);
++	val8 &= ~BIT(0); /* ~ENSWBCN */
++	rtw_write8(padapter, REG_CR + 1, val8);
++#endif
++}
++#endif /* CONFIG_BT_COEXIST */
++
++#ifdef CONFIG_P2P
++void rtl8723d_set_p2p_ps_offload_cmd(_adapter *padapter, u8 p2p_ps_state)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct pwrctrl_priv		*pwrpriv = adapter_to_pwrctl(padapter);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	struct P2P_PS_Offload_t	*p2p_ps_offload = (struct P2P_PS_Offload_t *)(&pHalData->p2p_ps_offload);
++	u8	i;
++
++
++#if 1
++	switch (p2p_ps_state) {
++	case P2P_PS_DISABLE:
++		RTW_INFO("P2P_PS_DISABLE\n");
++		_rtw_memset(p2p_ps_offload, 0 , 1);
++		break;
++	case P2P_PS_ENABLE:
++		RTW_INFO("P2P_PS_ENABLE\n");
++		/* update CTWindow value. */
++		if (pwdinfo->ctwindow > 0) {
++			p2p_ps_offload->CTWindow_En = 1;
++			rtw_write8(padapter, REG_P2P_CTWIN, pwdinfo->ctwindow);
++		}
++
++		/* hw only support 2 set of NoA */
++		for (i = 0 ; i < pwdinfo->noa_num ; i++) {
++			/* To control the register setting for which NOA */
++			rtw_write8(padapter, REG_NOA_DESC_SEL, (i << 4));
++			if (i == 0)
++				p2p_ps_offload->NoA0_En = 1;
++			else
++				p2p_ps_offload->NoA1_En = 1;
++
++			/* config P2P NoA Descriptor Register */
++			/* RTW_INFO("%s(): noa_duration = %x\n",__FUNCTION__,pwdinfo->noa_duration[i]); */
++			rtw_write32(padapter, REG_NOA_DESC_DURATION, pwdinfo->noa_duration[i]);
++
++			/* RTW_INFO("%s(): noa_interval = %x\n",__FUNCTION__,pwdinfo->noa_interval[i]); */
++			rtw_write32(padapter, REG_NOA_DESC_INTERVAL, pwdinfo->noa_interval[i]);
++
++			/* RTW_INFO("%s(): start_time = %x\n",__FUNCTION__,pwdinfo->noa_start_time[i]); */
++			rtw_write32(padapter, REG_NOA_DESC_START, pwdinfo->noa_start_time[i]);
++
++			/* RTW_INFO("%s(): noa_count = %x\n",__FUNCTION__,pwdinfo->noa_count[i]); */
++			rtw_write8(padapter, REG_NOA_DESC_COUNT, pwdinfo->noa_count[i]);
++		}
++
++		if ((pwdinfo->opp_ps == 1) || (pwdinfo->noa_num > 0)) {
++			/* rst p2p circuit */
++			rtw_write8(padapter, REG_DUAL_TSF_RST, BIT(4));
++
++			p2p_ps_offload->Offload_En = 1;
++
++			if (pwdinfo->role == P2P_ROLE_GO) {
++				p2p_ps_offload->role = 1;
++				p2p_ps_offload->AllStaSleep = 0;
++			} else
++				p2p_ps_offload->role = 0;
++
++			p2p_ps_offload->discovery = 0;
++		}
++		break;
++	case P2P_PS_SCAN:
++		RTW_INFO("P2P_PS_SCAN\n");
++		p2p_ps_offload->discovery = 1;
++		break;
++	case P2P_PS_SCAN_DONE:
++		RTW_INFO("P2P_PS_SCAN_DONE\n");
++		p2p_ps_offload->discovery = 0;
++		pwdinfo->p2p_ps_state = P2P_PS_ENABLE;
++		break;
++	default:
++		break;
++	}
++
++	FillH2CCmd8723D(padapter, H2C_8723D_P2P_PS_OFFLOAD, 1, (u8 *)p2p_ps_offload);
++#endif
++
++
++}
++#endif /* CONFIG_P2P */
++
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++/*
++	ask FW to Reset sync register at Beacon early interrupt
++*/
++u8 rtl8723d_reset_tsf(_adapter *padapter, u8 reset_port)
++{
++	u8	buf[2];
++	u8	res = _SUCCESS;
++
++	if (HW_PORT0 == reset_port) {
++		buf[0] = 0x1;
++		buf[1] = 0;
++
++	} else {
++		buf[0] = 0x0;
++		buf[1] = 0x1;
++	}
++	FillH2CCmd8723D(padapter, H2C_8723D_RESET_TSF, 2, buf);
++
++	return res;
++}
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
+diff --git a/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_dm.c b/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_dm.c
+new file mode 100644
+index 0000000..b26ecb5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_dm.c
+@@ -0,0 +1,535 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/* ************************************************************
++ * Description:
++ *
++ * This file is for 92CE/92CU dynamic mechanism only
++ *
++ *
++ * ************************************************************ */
++#define _RTL8723D_DM_C_
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include <rtl8723d_hal.h>
++
++/* ************************************************************
++ * Global var
++ * ************************************************************ */
++
++
++static VOID
++dm_CheckProtection(
++	IN	PADAPTER	Adapter
++)
++{
++#if 0
++	PMGNT_INFO		pMgntInfo = &(Adapter->MgntInfo);
++	u1Byte			CurRate, RateThreshold;
++
++	if (pMgntInfo->pHTInfo->bCurBW40MHz)
++		RateThreshold = MGN_MCS1;
++	else
++		RateThreshold = MGN_MCS3;
++
++	if (Adapter->TxStats.CurrentInitTxRate <= RateThreshold) {
++		pMgntInfo->bDmDisableProtect = TRUE;
++		DbgPrint("Forced disable protect: %x\n", Adapter->TxStats.CurrentInitTxRate);
++	} else {
++		pMgntInfo->bDmDisableProtect = FALSE;
++		DbgPrint("Enable protect: %x\n", Adapter->TxStats.CurrentInitTxRate);
++	}
++#endif
++}
++
++static VOID
++dm_CheckStatistics(
++	IN	PADAPTER	Adapter
++)
++{
++#if 0
++	if (!Adapter->MgntInfo.bMediaConnect)
++		return;
++
++	/* 2008.12.10 tynli Add for getting Current_Tx_Rate_Reg flexibly. */
++	rtw_hal_get_hwreg(Adapter, HW_VAR_INIT_TX_RATE, (pu1Byte)(&Adapter->TxStats.CurrentInitTxRate));
++
++	/* Calculate current Tx Rate(Successful transmited!!) */
++
++	/* Calculate current Rx Rate(Successful received!!) */
++
++	/* for tx tx retry count */
++	rtw_hal_get_hwreg(Adapter, HW_VAR_RETRY_COUNT, (pu1Byte)(&Adapter->TxStats.NumTxRetryCount));
++#endif
++}
++#ifdef CONFIG_SUPPORT_HW_WPS_PBC
++static void dm_CheckPbcGPIO(_adapter *padapter)
++{
++	u8	tmp1byte;
++	u8	bPbcPressed = _FALSE;
++
++	if (!padapter->registrypriv.hw_wps_pbc)
++		return;
++
++#ifdef CONFIG_USB_HCI
++	tmp1byte = rtw_read8(padapter, GPIO_IO_SEL);
++	tmp1byte |= (HAL_8192C_HW_GPIO_WPS_BIT);
++	rtw_write8(padapter, GPIO_IO_SEL, tmp1byte);	/* enable GPIO[2] as output mode */
++
++	tmp1byte &= ~(HAL_8192C_HW_GPIO_WPS_BIT);
++	rtw_write8(padapter,  GPIO_IN, tmp1byte);		/* reset the floating voltage level */
++
++	tmp1byte = rtw_read8(padapter, GPIO_IO_SEL);
++	tmp1byte &= ~(HAL_8192C_HW_GPIO_WPS_BIT);
++	rtw_write8(padapter, GPIO_IO_SEL, tmp1byte);	/* enable GPIO[2] as input mode */
++
++	tmp1byte = rtw_read8(padapter, GPIO_IN);
++
++	if (tmp1byte == 0xff)
++		return;
++
++	if (tmp1byte & HAL_8192C_HW_GPIO_WPS_BIT)
++		bPbcPressed = _TRUE;
++#else
++	tmp1byte = rtw_read8(padapter, GPIO_IN);
++
++	if (tmp1byte == 0xff || padapter->init_adpt_in_progress)
++		return;
++
++	if ((tmp1byte & HAL_8192C_HW_GPIO_WPS_BIT) == 0)
++		bPbcPressed = _TRUE;
++#endif
++
++	if (_TRUE == bPbcPressed) {
++		/* Here we only set bPbcPressed to true */
++		/* After trigger PBC, the variable will be set to false */
++		RTW_INFO("CheckPbcGPIO - PBC is pressed\n");
++		rtw_request_wps_pbc_event(padapter);
++	}
++}
++#endif /* #ifdef CONFIG_SUPPORT_HW_WPS_PBC */
++
++
++#ifdef CONFIG_PCI_HCI
++/*
++ *	Description:
++ *		Perform interrupt migration dynamically to reduce CPU utilization.
++ *
++ *	Assumption:
++ *		1. Do not enable migration under WIFI test.
++ *
++ *	Created by Roger, 2010.03.05.
++ *   */
++VOID
++dm_InterruptMigration(
++	IN	PADAPTER	Adapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	BOOLEAN			bCurrentIntMt, bCurrentACIntDisable;
++	BOOLEAN			IntMtToSet = _FALSE;
++	BOOLEAN			ACIntToSet = _FALSE;
++
++
++	/* Retrieve current interrupt migration and Tx four ACs IMR settings first. */
++	bCurrentIntMt = pHalData->bInterruptMigration;
++	bCurrentACIntDisable = pHalData->bDisableTxInt;
++
++	/* */
++	/* <Roger_Notes> Currently we use busy traffic for reference instead of RxIntOK counts to prevent non-linear Rx statistics */
++	/* when interrupt migration is set before. 2010.03.05. */
++	/* */
++	if (!Adapter->registrypriv.wifi_spec &&
++	    (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) &&
++	    pmlmepriv->LinkDetectInfo.bHigherBusyTraffic) {
++		IntMtToSet = _TRUE;
++
++		/* To check whether we should disable Tx interrupt or not. */
++		if (pmlmepriv->LinkDetectInfo.bHigherBusyRxTraffic)
++			ACIntToSet = _TRUE;
++	}
++
++	/* Update current settings. */
++	if (bCurrentIntMt != IntMtToSet) {
++		RTW_INFO("%s(): Update interrupt migration(%d)\n", __FUNCTION__, IntMtToSet);
++		if (IntMtToSet) {
++			/* */
++			/* <Roger_Notes> Set interrupt migration timer and corresponging Tx/Rx counter. */
++			/* timer 25ns*0xfa0=100us for 0xf packets. */
++			/* 2010.03.05. */
++			/* */
++			rtw_write32(Adapter, REG_INT_MIG_8723D, 0xff000fa0);/* 0x306:Rx, 0x307:Tx */
++			pHalData->bInterruptMigration = IntMtToSet;
++		} else {
++			/* Reset all interrupt migration settings. */
++			rtw_write32(Adapter, REG_INT_MIG_8723D, 0);
++			pHalData->bInterruptMigration = IntMtToSet;
++		}
++	}
++
++	/*if( bCurrentACIntDisable != ACIntToSet ){
++		RTW_INFO("%s(): Update AC interrupt(%d)\n",__FUNCTION__,ACIntToSet);
++		if(ACIntToSet)
++		{
++
++
++
++
++
++			UpdateInterruptMask8192CE( Adapter, 0, RT_AC_INT_MASKS );
++			pHalData->bDisableTxInt = ACIntToSet;
++		}
++		else
++		{
++			UpdateInterruptMask8192CE( Adapter, RT_AC_INT_MASKS, 0 );
++			pHalData->bDisableTxInt = ACIntToSet;
++		}
++	}*/
++
++}
++
++#endif
++
++/*
++ * Initialize GPIO setting registers
++ *   */
++static void
++dm_InitGPIOSetting(
++	IN	PADAPTER	Adapter
++)
++{
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(Adapter);
++
++	u8	tmp1byte;
++
++	tmp1byte = rtw_read8(Adapter, REG_GPIO_MUXCFG);
++	tmp1byte &= (GPIOSEL_GPIO | ~GPIOSEL_ENBT);
++
++	rtw_write8(Adapter, REG_GPIO_MUXCFG, tmp1byte);
++}
++/* ************************************************************
++ * functions
++ * ************************************************************ */
++static void Init_ODM_ComInfo_8723d(PADAPTER	Adapter)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++	u32 SupportAbility = 0;
++	u8	cut_ver, fab_ver;
++
++	Init_ODM_ComInfo(Adapter);
++
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_PACKAGE_TYPE, pHalData->PackageType);
++
++	fab_ver = ODM_TSMC;
++	cut_ver = GET_CVID_CUT_VERSION(pHalData->VersionID);
++
++	RTW_INFO("%s(): fab_ver=%d cut_ver=%d\n", __func__, fab_ver, cut_ver);
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_FAB_VER, fab_ver);
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_CUT_VER, cut_ver);
++
++#ifdef CONFIG_DISABLE_ODM
++	SupportAbility = 0;
++#else
++	SupportAbility =
++#if 1
++		ODM_RF_CALIBRATION |
++		ODM_RF_TX_PWR_TRACK
++#else
++		0
++#endif
++		;
++	if (pHalData->AntDivCfg)
++		SupportAbility |= ODM_BB_ANT_DIV;
++#endif
++
++	ODM_CmnInfoUpdate(pDM_Odm, ODM_CMNINFO_ABILITY, SupportAbility);
++}
++
++static void Update_ODM_ComInfo_8723d(PADAPTER	Adapter)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++	u32 SupportAbility = 0;
++
++	SupportAbility = 0
++			 | ODM_BB_DIG		/* For BB */
++			 | ODM_BB_RA_MASK
++			 | ODM_BB_FA_CNT
++			 | ODM_BB_RSSI_MONITOR
++			 | ODM_BB_CCK_PD
++			 | ODM_BB_CFO_TRACKING
++			 /* | ODM_BB_PWR_TRAIN */
++			 | ODM_BB_NHM_CNT
++			 | ODM_RF_TX_PWR_TRACK /* For RF */
++			 | ODM_RF_CALIBRATION
++			 | ODM_MAC_EDCA_TURBO		/* For MAC */
++			 ;
++
++	if (rtw_odm_adaptivity_needed(Adapter) == _TRUE) {
++		rtw_odm_adaptivity_config_msg(RTW_DBGDUMP, Adapter);
++		SupportAbility |= ODM_BB_ADAPTIVITY;
++	}
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	if (pHalData->AntDivCfg)
++		SupportAbility |= ODM_BB_ANT_DIV;
++#endif
++
++#if (MP_DRIVER == 1)
++	if (Adapter->registrypriv.mp_mode == 1) {
++		SupportAbility = 0
++				 | ODM_RF_CALIBRATION
++				 | ODM_RF_TX_PWR_TRACK
++				 ;
++	}
++#endif/* (MP_DRIVER==1) */
++
++#ifdef CONFIG_DISABLE_ODM
++	SupportAbility = 0;
++#endif/* CONFIG_DISABLE_ODM */
++
++	ODM_CmnInfoUpdate(pDM_Odm, ODM_CMNINFO_ABILITY, SupportAbility);
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_ANTENNA_TYPE,
++			pHalData->TRxAntDivType);
++}
++
++void
++rtl8723d_InitHalDm(
++	IN	PADAPTER	Adapter
++)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++
++	u8	i;
++
++#ifdef CONFIG_USB_HCI
++	dm_InitGPIOSetting(Adapter);
++#endif
++
++	pHalData->DM_Type = DM_Type_ByDriver;
++
++	Update_ODM_ComInfo_8723d(Adapter);
++
++	ODM_DMInit(pDM_Odm);
++
++}
++
++VOID
++rtl8723d_HalDmWatchDog(
++	IN	PADAPTER	Adapter
++)
++{
++	BOOLEAN		bFwCurrentInPSMode = _FALSE;
++	BOOLEAN		bFwPSAwake = _TRUE;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++
++#ifdef CONFIG_MP_INCLUDED
++	/* #if MP_DRIVER */
++	if (Adapter->registrypriv.mp_mode == 1 && Adapter->mppriv.mp_dm == 0) /* for MP power tracking */
++		return;
++	/* #endif */
++#endif
++
++	if (!rtw_is_hw_init_completed(Adapter))
++		goto skip_dm;
++
++#ifdef CONFIG_LPS
++	bFwCurrentInPSMode = adapter_to_pwrctl(Adapter)->bFwCurrentInPSMode;
++	rtw_hal_get_hwreg(Adapter, HW_VAR_FWLPS_RF_ON, (u8 *)(&bFwPSAwake));
++#endif
++
++#ifdef CONFIG_P2P
++	/* Fw is under p2p powersaving mode, driver should stop dynamic mechanism. */
++	/* modifed by thomas. 2011.06.11. */
++	if (Adapter->wdinfo.p2p_ps_mode)
++		bFwPSAwake = _FALSE;
++#endif /* CONFIG_P2P */
++
++
++	if ((rtw_is_hw_init_completed(Adapter))
++	    && ((!bFwCurrentInPSMode) && bFwPSAwake)) {
++		/* */
++		/* Calculate Tx/Rx statistics. */
++		/* */
++		dm_CheckStatistics(Adapter);
++		rtw_hal_check_rxfifo_full(Adapter);
++		/* */
++		/* Dynamically switch RTS/CTS protection. */
++		/* */
++		/* dm_CheckProtection(Adapter); */
++
++#ifdef CONFIG_PCI_HCI
++		/* 20100630 Joseph: Disable Interrupt Migration mechanism temporarily because it degrades Rx throughput. */
++		/* Tx Migration settings. */
++		/* dm_InterruptMigration(Adapter); */
++
++		/* if(Adapter->HalFunc.TxCheckStuckHandler(Adapter)) */
++		/*	PlatformScheduleWorkItem(&(GET_HAL_DATA(Adapter)->HalResetWorkItem)); */
++#endif
++	}
++
++	/* ODM */
++	if (rtw_is_hw_init_completed(Adapter)) {
++		u8	bLinked = _FALSE;
++		u8	bsta_state = _FALSE;
++		u8	bBtDisabled = _TRUE;
++
++		if (rtw_mi_check_status(Adapter, MI_ASSOC)) {
++			bLinked = _TRUE;
++			if (rtw_mi_check_status(Adapter, MI_STA_LINKED))
++				bsta_state = _TRUE;
++		}
++
++		ODM_CmnInfoUpdate(&pHalData->odmpriv , ODM_CMNINFO_LINK, bLinked);
++		ODM_CmnInfoUpdate(&pHalData->odmpriv , ODM_CMNINFO_STATION_STATE, bsta_state);
++
++		/* ODM_CmnInfoUpdate(&pHalData->odmpriv ,ODM_CMNINFO_RSSI_MIN, pdmpriv->MinUndecoratedPWDBForDM); */
++
++#ifdef CONFIG_BT_COEXIST
++		bBtDisabled = rtw_btcoex_IsBtDisabled(Adapter);
++#endif /* CONFIG_BT_COEXIST */
++		ODM_CmnInfoUpdate(&pHalData->odmpriv, ODM_CMNINFO_BT_ENABLED, ((bBtDisabled == _TRUE) ? _FALSE : _TRUE));
++
++		ODM_DMWatchdog(&pHalData->odmpriv);
++	}
++
++skip_dm:
++
++	/* Check GPIO to determine current RF on/off and Pbc status. */
++	/* Check Hardware Radio ON/OFF or not */
++	/* if(Adapter->MgntInfo.PowerSaveControl.bGpioRfSw) */
++	/* { */
++	/* RTPRINT(FPWR, PWRHW, ("dm_CheckRfCtrlGPIO\n")); */
++	/*	dm_CheckRfCtrlGPIO(Adapter); */
++	/* } */
++#ifdef CONFIG_SUPPORT_HW_WPS_PBC
++	dm_CheckPbcGPIO(Adapter);
++#endif
++	return;
++}
++
++void rtl8723d_hal_dm_in_lps(PADAPTER padapter)
++{
++	u32	PWDB_rssi = 0;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	pDIG_T	pDM_DigTable = &pDM_Odm->DM_DigTable;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta = NULL;
++
++	RTW_INFO("%s, RSSI_Min=%d\n", __func__, pDM_Odm->RSSI_Min);
++
++	/* update IGI */
++	ODM_Write_DIG(pDM_Odm, pDM_Odm->RSSI_Min);
++
++
++	/* set rssi to fw */
++	psta = rtw_get_stainfo(pstapriv, get_bssid(pmlmepriv));
++	if (psta && (psta->rssi_stat.UndecoratedSmoothedPWDB > 0)) {
++		PWDB_rssi = (psta->mac_id | (psta->rssi_stat.UndecoratedSmoothedPWDB << 16));
++
++		rtl8723d_set_rssi_cmd(padapter, (u8 *)&PWDB_rssi);
++	}
++
++}
++
++void rtl8723d_HalDmWatchDog_in_LPS(IN	PADAPTER	Adapter)
++{
++	u8	bLinked = _FALSE;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	pDIG_T	pDM_DigTable = &pDM_Odm->DM_DigTable;
++	struct sta_priv *pstapriv = &Adapter->stapriv;
++	struct sta_info *psta = NULL;
++
++	if (!rtw_is_hw_init_completed(Adapter))
++		goto skip_lps_dm;
++
++	if (rtw_mi_check_status(Adapter, MI_ASSOC))
++		bLinked = _TRUE;
++
++	ODM_CmnInfoUpdate(&pHalData->odmpriv , ODM_CMNINFO_LINK, bLinked);
++
++	if (bLinked == _FALSE)
++		goto skip_lps_dm;
++
++	if (!(pDM_Odm->SupportAbility & ODM_BB_RSSI_MONITOR))
++		goto skip_lps_dm;
++
++
++	/* ODM_DMWatchdog(&pHalData->odmpriv);	 */
++	/* Do DIG by RSSI In LPS-32K */
++
++	/* .1 Find MIN-RSSI */
++	psta = rtw_get_stainfo(pstapriv, get_bssid(pmlmepriv));
++	if (psta == NULL)
++		goto skip_lps_dm;
++
++	pHalData->EntryMinUndecoratedSmoothedPWDB = psta->rssi_stat.UndecoratedSmoothedPWDB;
++
++	RTW_INFO("CurIGValue=%d, EntryMinUndecoratedSmoothedPWDB = %d\n", pDM_DigTable->CurIGValue, pHalData->EntryMinUndecoratedSmoothedPWDB);
++
++	if (pHalData->EntryMinUndecoratedSmoothedPWDB <= 0)
++		goto skip_lps_dm;
++
++	pHalData->MinUndecoratedPWDBForDM = pHalData->EntryMinUndecoratedSmoothedPWDB;
++
++	pDM_Odm->RSSI_Min = pHalData->MinUndecoratedPWDBForDM;
++
++	/* if(pDM_DigTable->CurIGValue != pDM_Odm->RSSI_Min) */
++	if ((pDM_DigTable->CurIGValue > pDM_Odm->RSSI_Min + 5) ||
++	    (pDM_DigTable->CurIGValue < pDM_Odm->RSSI_Min - 5))
++
++	{
++#ifdef CONFIG_LPS
++		rtw_dm_in_lps_wk_cmd(Adapter);
++#endif /* CONFIG_LPS */
++	}
++
++
++skip_lps_dm:
++
++	return;
++
++}
++
++void rtl8723d_init_dm_priv(IN PADAPTER Adapter)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		podmpriv = &pHalData->odmpriv;
++
++	Init_ODM_ComInfo_8723d(Adapter);
++	ODM_InitAllTimers(podmpriv);
++}
++
++void rtl8723d_deinit_dm_priv(IN PADAPTER Adapter)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		podmpriv = &pHalData->odmpriv;
++
++	ODM_CancelAllTimers(podmpriv);
++
++}
+diff --git a/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_hal_init.c b/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_hal_init.c
+new file mode 100644
+index 0000000..adfd821
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_hal_init.c
+@@ -0,0 +1,6184 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HAL_INIT_C_
++
++#include <rtl8723d_hal.h>
++#include "hal_com_h2c.h"
++#include <hal_com.h>
++
++#define FW_DOWNLOAD_SIZE_8723D 8192
++
++static VOID
++_FWDownloadEnable(
++	IN	PADAPTER		padapter,
++	IN	BOOLEAN			enable
++)
++{
++	u8	tmp, count = 0;
++
++	if (enable) {
++		/* 8051 enable */
++		tmp = rtw_read8(padapter, REG_SYS_FUNC_EN + 1);
++		rtw_write8(padapter, REG_SYS_FUNC_EN + 1, tmp | 0x04);
++
++		tmp = rtw_read8(padapter, REG_MCUFWDL);
++		rtw_write8(padapter, REG_MCUFWDL, tmp | 0x01);
++
++		do {
++			tmp = rtw_read8(padapter, REG_MCUFWDL);
++			if (tmp & 0x01)
++				break;
++			rtw_write8(padapter, REG_MCUFWDL, tmp | 0x01);
++			rtw_msleep_os(1);
++		} while (count++ < 100);
++		if (count > 0)
++			RTW_INFO("%s: !!!!!!!!Write 0x80 Fail!: count = %d\n", __func__, count);
++
++		/* 8051 reset */
++		tmp = rtw_read8(padapter, REG_MCUFWDL + 2);
++		rtw_write8(padapter, REG_MCUFWDL + 2, tmp & 0xf7);
++	} else {
++		/* MCU firmware download disable. */
++		tmp = rtw_read8(padapter, REG_MCUFWDL);
++		rtw_write8(padapter, REG_MCUFWDL, tmp & 0xfe);
++	}
++}
++
++static int
++_BlockWrite(
++	IN		PADAPTER		padapter,
++	IN		PVOID		buffer,
++	IN		u32			buffSize
++)
++{
++	int ret = _SUCCESS;
++
++	u32			blockSize_p1 = 4;	/* (Default) Phase #1 : PCI muse use 4-byte write to download FW */
++	u32			blockSize_p2 = 8;	/* Phase #2 : Use 8-byte, if Phase#1 use big size to write FW. */
++	u32			blockSize_p3 = 1;	/* Phase #3 : Use 1-byte, the remnant of FW image. */
++	u32			blockCount_p1 = 0, blockCount_p2 = 0, blockCount_p3 = 0;
++	u32			remainSize_p1 = 0, remainSize_p2 = 0;
++	u8			*bufferPtr	= (u8 *)buffer;
++	u32			i = 0, offset = 0;
++#ifdef CONFIG_PCI_HCI
++	u8			remainFW[4] = {0, 0, 0, 0};
++	u8			*p = NULL;
++#endif
++
++#ifdef CONFIG_USB_HCI
++	blockSize_p1 = 254;
++#endif
++
++	/*	printk("====>%s %d\n", __func__, __LINE__); */
++
++	/* 3 Phase #1 */
++	blockCount_p1 = buffSize / blockSize_p1;
++	remainSize_p1 = buffSize % blockSize_p1;
++
++
++
++	for (i = 0; i < blockCount_p1; i++) {
++#ifdef CONFIG_USB_HCI
++		ret = rtw_writeN(padapter, (FW_8723D_START_ADDRESS + i * blockSize_p1), blockSize_p1, (bufferPtr + i * blockSize_p1));
++#else
++		ret = rtw_write32(padapter, (FW_8723D_START_ADDRESS + i * blockSize_p1), le32_to_cpu(*((u32 *)(bufferPtr + i * blockSize_p1))));
++#endif
++		if (ret == _FAIL) {
++			printk(KERN_ERR "====>%s %d i:%d\n", __func__, __LINE__, i);
++			goto exit;
++		}
++	}
++
++#ifdef CONFIG_PCI_HCI
++	p = (u8 *)((u32 *)(bufferPtr + blockCount_p1 * blockSize_p1));
++	if (remainSize_p1) {
++		switch (remainSize_p1) {
++		case 0:
++			break;
++		case 3:
++			remainFW[2] = *(p + 2);
++		case 2:
++			remainFW[1] = *(p + 1);
++		case 1:
++			remainFW[0] = *(p);
++			ret = rtw_write32(padapter, (FW_8723D_START_ADDRESS + blockCount_p1 * blockSize_p1),
++					  le32_to_cpu(*(u32 *)remainFW));
++		}
++		return ret;
++	}
++#endif
++
++	/* 3 Phase #2 */
++	if (remainSize_p1) {
++		offset = blockCount_p1 * blockSize_p1;
++
++		blockCount_p2 = remainSize_p1 / blockSize_p2;
++		remainSize_p2 = remainSize_p1 % blockSize_p2;
++
++
++
++#ifdef CONFIG_USB_HCI
++		for (i = 0; i < blockCount_p2; i++) {
++			ret = rtw_writeN(padapter, (FW_8723D_START_ADDRESS + offset + i * blockSize_p2), blockSize_p2, (bufferPtr + offset + i * blockSize_p2));
++
++			if (ret == _FAIL)
++				goto exit;
++		}
++#endif
++	}
++
++	/* 3 Phase #3 */
++	if (remainSize_p2) {
++		offset = (blockCount_p1 * blockSize_p1) + (blockCount_p2 * blockSize_p2);
++
++		blockCount_p3 = remainSize_p2 / blockSize_p3;
++
++
++		for (i = 0 ; i < blockCount_p3 ; i++) {
++			ret = rtw_write8(padapter, (FW_8723D_START_ADDRESS + offset + i), *(bufferPtr + offset + i));
++
++			if (ret == _FAIL) {
++				printk(KERN_ERR "====>%s %d i:%d\n", __func__, __LINE__, i);
++				goto exit;
++			}
++		}
++	}
++exit:
++	return ret;
++}
++
++static int
++_PageWrite(
++	IN		PADAPTER	padapter,
++	IN		u32			page,
++	IN		PVOID		buffer,
++	IN		u32			size
++)
++{
++	u8 value8;
++	u8 u8Page = (u8)(page & 0x07);
++
++	value8 = (rtw_read8(padapter, REG_MCUFWDL + 2) & 0xF8) | u8Page;
++	rtw_write8(padapter, REG_MCUFWDL + 2, value8);
++
++	return _BlockWrite(padapter, buffer, size);
++}
++
++static VOID
++_FillDummy(
++	u8		*pFwBuf,
++	u32	*pFwLen
++)
++{
++	u32	FwLen = *pFwLen;
++	u8	remain = (u8)(FwLen % 4);
++
++	remain = (remain == 0) ? 0 : (4 - remain);
++
++	while (remain > 0) {
++		pFwBuf[FwLen] = 0;
++		FwLen++;
++		remain--;
++	}
++
++	*pFwLen = FwLen;
++}
++
++static int
++_WriteFW(
++	IN PADAPTER padapter,
++	IN PVOID buffer,
++	IN u32 size
++)
++{
++	/* Since we need dynamic decide method of dwonload fw, so we call this function to get chip version. */
++	int ret = _SUCCESS;
++	u32 pageNums, remainSize;
++	u32 page, offset;
++	u8 *bufferPtr = (u8 *)buffer;
++
++#ifdef CONFIG_PCI_HCI
++	/* 20100120 Joseph: Add for 88CE normal chip. */
++	/* Fill in zero to make firmware image to dword alignment. */
++	_FillDummy(bufferPtr, &size);
++#endif
++
++	pageNums = size / MAX_DLFW_PAGE_SIZE;
++	/* RT_ASSERT((pageNums <= 4), ("Page numbers should not greater then 4\n")); */
++	remainSize = size % MAX_DLFW_PAGE_SIZE;
++
++	for (page = 0; page < pageNums; page++) {
++		offset = page * MAX_DLFW_PAGE_SIZE;
++		ret = _PageWrite(padapter, page, bufferPtr + offset, MAX_DLFW_PAGE_SIZE);
++
++		if (ret == _FAIL) {
++			printk(KERN_ERR "====>%s %d\n", __func__, __LINE__);
++			goto exit;
++		}
++	}
++	if (remainSize) {
++		offset = pageNums * MAX_DLFW_PAGE_SIZE;
++		page = pageNums;
++		ret = _PageWrite(padapter, page, bufferPtr + offset, remainSize);
++
++		if (ret == _FAIL) {
++			printk(KERN_ERR "====>%s %d\n", __func__, __LINE__);
++			goto exit;
++		}
++	}
++
++exit:
++	return ret;
++}
++
++void _8051Reset8723(PADAPTER padapter)
++{
++	u8 cpu_rst;
++	u8 io_rst;
++
++#if 0
++	io_rst = rtw_read8(padapter, REG_RSV_CTRL);
++	rtw_write8(padapter, REG_RSV_CTRL, io_rst & (~BIT(1)));
++#endif
++
++	/* Reset 8051(WLMCU) IO wrapper */
++	/* 0x1c[8] = 0 */
++	/* Suggested by Isaac@SD1 and Gimmy@SD1, coding by Lucas@20130624 */
++	io_rst = rtw_read8(padapter, REG_RSV_CTRL + 1);
++	io_rst &= ~BIT(0);
++	rtw_write8(padapter, REG_RSV_CTRL + 1, io_rst);
++
++	cpu_rst = rtw_read8(padapter, REG_SYS_FUNC_EN + 1);
++	cpu_rst &= ~BIT(2);
++	rtw_write8(padapter, REG_SYS_FUNC_EN + 1, cpu_rst);
++
++#if 0
++	io_rst = rtw_read8(padapter, REG_RSV_CTRL);
++	rtw_write8(padapter, REG_RSV_CTRL, io_rst & (~BIT(1)));
++#endif
++
++	/* Enable 8051 IO wrapper	 */
++	/* 0x1c[8] = 1 */
++	io_rst = rtw_read8(padapter, REG_RSV_CTRL + 1);
++	io_rst |= BIT(0);
++	rtw_write8(padapter, REG_RSV_CTRL + 1, io_rst);
++
++	cpu_rst = rtw_read8(padapter, REG_SYS_FUNC_EN + 1);
++	cpu_rst |= BIT(2);
++	rtw_write8(padapter, REG_SYS_FUNC_EN + 1, cpu_rst);
++
++	RTW_INFO("%s: Finish\n", __FUNCTION__);
++}
++
++static s32 polling_fwdl_chksum(_adapter *adapter, u32 min_cnt, u32 timeout_ms)
++{
++	s32 ret = _FAIL;
++	u32 value32;
++	u32 start = rtw_get_current_time();
++	u32 cnt = 0;
++
++	/* polling CheckSum report */
++	do {
++		cnt++;
++		value32 = rtw_read32(adapter, REG_MCUFWDL);
++		if (value32 & FWDL_ChkSum_rpt || RTW_CANNOT_IO(adapter))
++			break;
++		rtw_yield_os();
++	} while (rtw_get_passing_time_ms(start) < timeout_ms || cnt < min_cnt);
++
++	if (!(value32 & FWDL_ChkSum_rpt))
++		goto exit;
++
++	if (rtw_fwdl_test_trigger_chksum_fail())
++		goto exit;
++
++	ret = _SUCCESS;
++
++exit:
++	RTW_INFO("%s: Checksum report %s! (%u, %dms), REG_MCUFWDL:0x%08x\n", __FUNCTION__
++		, (ret == _SUCCESS) ? "OK" : "Fail", cnt, rtw_get_passing_time_ms(start), value32);
++
++	return ret;
++}
++
++static s32 _FWFreeToGo(_adapter *adapter, u32 min_cnt, u32 timeout_ms)
++{
++	s32 ret = _FAIL;
++	u32	value32;
++	u32 start = rtw_get_current_time();
++	u32 cnt = 0;
++	u32 value_to_check = 0;
++	u32 value_expected = (MCUFWDL_RDY | FWDL_ChkSum_rpt | WINTINI_RDY | RAM_DL_SEL);
++
++	value32 = rtw_read32(adapter, REG_MCUFWDL);
++	value32 |= MCUFWDL_RDY;
++	value32 &= ~WINTINI_RDY;
++	rtw_write32(adapter, REG_MCUFWDL, value32);
++
++	_8051Reset8723(adapter);
++
++	/*  polling for FW ready */
++	do {
++		cnt++;
++		value32 = rtw_read32(adapter, REG_MCUFWDL);
++		value_to_check = value32 & value_expected;
++		if ((value_to_check == value_expected) || RTW_CANNOT_IO(adapter))
++			break;
++		rtw_yield_os();
++	} while (rtw_get_passing_time_ms(start) < timeout_ms || cnt < min_cnt);
++
++	if (value_to_check != value_expected)
++		goto exit;
++
++	if (rtw_fwdl_test_trigger_wintint_rdy_fail())
++		goto exit;
++
++	ret = _SUCCESS;
++
++exit:
++	RTW_INFO("%s: Polling FW ready %s! (%u, %dms), REG_MCUFWDL:0x%08x\n", __FUNCTION__
++		, (ret == _SUCCESS) ? "OK" : "Fail", cnt, rtw_get_passing_time_ms(start), value32);
++
++	return ret;
++}
++
++#define IS_FW_81xxC(padapter)	(((GET_HAL_DATA(padapter))->FirmwareSignature & 0xFFF0) == 0x88C0)
++
++void rtl8723d_FirmwareSelfReset(PADAPTER padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	u8	u1bTmp;
++	u8	Delay = 100;
++
++	if (!(IS_FW_81xxC(padapter) &&
++	      ((pHalData->FirmwareVersion < 0x21) ||
++	       (pHalData->FirmwareVersion == 0x21 &&
++		pHalData->FirmwareSubVersion < 0x01)))) { /* after 88C Fw v33.1 */
++		/* 0x1cf=0x20. Inform 8051 to reset. 2009.12.25. tynli_test */
++		rtw_write8(padapter, REG_HMETFR + 3, 0x20);
++
++		u1bTmp = rtw_read8(padapter, REG_SYS_FUNC_EN + 1);
++		while (u1bTmp & BIT(2)) {
++			Delay--;
++			if (Delay == 0)
++				break;
++			rtw_udelay_os(50);
++			u1bTmp = rtw_read8(padapter, REG_SYS_FUNC_EN + 1);
++		}
++
++		if (Delay == 0) {
++			/* force firmware reset */
++			u1bTmp = rtw_read8(padapter, REG_SYS_FUNC_EN + 1);
++			rtw_write8(padapter, REG_SYS_FUNC_EN + 1, u1bTmp & (~BIT(2)));
++		}
++	}
++}
++
++#ifdef CONFIG_FILE_FWIMG
++	u8 FwBuffer[FW_8723D_SIZE];
++#endif /* CONFIG_FILE_FWIMG */
++
++#ifdef CONFIG_MP_INCLUDED
++int _WriteBTFWtoTxPktBuf8723D(
++	IN		PADAPTER		Adapter,
++	IN		PVOID			buffer,
++	IN		u4Byte			FwBufLen,
++	IN		u1Byte			times
++)
++{
++	int			rtStatus = _SUCCESS;
++	/* u4Byte				value32; */
++	/* u1Byte				numHQ, numLQ, numPubQ;//, txpktbuf_bndy; */
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	/* PMGNT_INFO		pMgntInfo = &(Adapter->MgntInfo); */
++	u1Byte				BcnValidReg;
++	u1Byte				count = 0, DLBcnCount = 0;
++	pu1Byte			FwbufferPtr = (pu1Byte)buffer;
++	/* PRT_TCB			pTcb, ptempTcb; */
++	/* PRT_TX_LOCAL_BUFFER pBuf; */
++	BOOLEAN			bRecover = _FALSE;
++	pu1Byte			ReservedPagePacket = NULL;
++	pu1Byte			pGenBufReservedPagePacket = NULL;
++	u4Byte				TotalPktLen, txpktbuf_bndy;
++	/* u1Byte				tmpReg422; */
++	/* u1Byte				u1bTmp; */
++	u8			*pframe;
++	struct xmit_priv	*pxmitpriv = &(Adapter->xmitpriv);
++	struct xmit_frame	*pmgntframe;
++	struct pkt_attrib	*pattrib;
++	u8			txdesc_offset = TXDESC_OFFSET;
++	u8			val8;
++#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++	u8			u1bTmp;
++#endif
++
++#if 1/* (DEV_BUS_TYPE == RT_PCI_INTERFACE) */
++	TotalPktLen = FwBufLen;
++#else
++	TotalPktLen = FwBufLen + pHalData->HWDescHeadLength;
++#endif
++
++	if ((TotalPktLen + TXDESC_OFFSET) > MAX_CMDBUF_SZ) {
++		RTW_INFO(" WARNING %s => Total packet len = %d > MAX_CMDBUF_SZ:%d\n"
++			, __FUNCTION__, (TotalPktLen + TXDESC_OFFSET), MAX_CMDBUF_SZ);
++		return _FAIL;
++	}
++
++	pGenBufReservedPagePacket = rtw_zmalloc(TotalPktLen);/* GetGenTempBuffer (Adapter, TotalPktLen); */
++	if (!pGenBufReservedPagePacket)
++		return _FAIL;
++
++	ReservedPagePacket = (u1Byte *)pGenBufReservedPagePacket;
++
++	_rtw_memset(ReservedPagePacket, 0, TotalPktLen);
++
++#if 1/* (DEV_BUS_TYPE == RT_PCI_INTERFACE) */
++	_rtw_memcpy(ReservedPagePacket, FwbufferPtr, FwBufLen);
++
++#else
++	PlatformMoveMemory(ReservedPagePacket + Adapter->HWDescHeadLength , FwbufferPtr, FwBufLen);
++#endif
++
++	/* --------------------------------------------------------- */
++	/* 1. Pause BCN */
++	/* --------------------------------------------------------- */
++	/* Set REG_CR bit 8. DMA beacon by SW. */
++#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++	u1bTmp = PlatformEFIORead1Byte(Adapter, REG_CR + 1);
++	PlatformEFIOWrite1Byte(Adapter,  REG_CR + 1, (u1bTmp | BIT(0)));
++#else
++	/* Remove for temparaily because of the code on v2002 is not sync to MERGE_TMEP for USB/SDIO. */
++	/* De not remove this part on MERGE_TEMP. by tynli. */
++	/* pHalData->RegCR_1 |= (BIT0); */
++	/* PlatformEFIOWrite1Byte(Adapter,  REG_CR+1, pHalData->RegCR_1); */
++#endif
++
++	/* Disable Hw protection for a time which revserd for Hw sending beacon. */
++	/* Fix download reserved page packet fail that access collision with the protection time. */
++	/* 2010.05.11. Added by tynli. */
++	val8 = rtw_read8(Adapter, REG_BCN_CTRL);
++	val8 &= ~EN_BCN_FUNCTION;
++	val8 |= DIS_TSF_UDT;
++	rtw_write8(Adapter, REG_BCN_CTRL, val8);
++
++#if 0/* (DEV_BUS_TYPE == RT_PCI_INTERFACE) */
++	tmpReg422 = PlatformEFIORead1Byte(Adapter, REG_FWHW_TXQ_CTRL + 2);
++	if (tmpReg422 & BIT(6))
++		bRecover = TRUE;
++	PlatformEFIOWrite1Byte(Adapter, REG_FWHW_TXQ_CTRL + 2,  tmpReg422 & (~BIT(6)));
++#else
++	/* Set FWHW_TXQ_CTRL 0x422[6]=0 to tell Hw the packet is not a real beacon frame. */
++	if (pHalData->RegFwHwTxQCtrl & BIT(6))
++		bRecover = _TRUE;
++	PlatformEFIOWrite1Byte(Adapter, REG_FWHW_TXQ_CTRL + 2, (pHalData->RegFwHwTxQCtrl & (~BIT(6))));
++	pHalData->RegFwHwTxQCtrl &= (~BIT(6));
++#endif
++
++	/* --------------------------------------------------------- */
++	/* 2. Adjust LLT table to an even boundary. */
++	/* --------------------------------------------------------- */
++#if 0/* (DEV_BUS_TYPE == RT_SDIO_INTERFACE) */
++	txpktbuf_bndy = 10; /* rsvd page start address should be an even value.														 */
++	rtStatus =	InitLLTTable8723DS(Adapter, txpktbuf_bndy);
++	if (RT_STATUS_SUCCESS != rtStatus) {
++		RTW_INFO("_CheckWLANFwPatchBTFwReady_8723D(): Failed to init LLT!\n");
++		return RT_STATUS_FAILURE;
++	}
++
++	/* Init Tx boundary. */
++	PlatformEFIOWrite1Byte(Adapter, REG_DWBCN0_CTRL_8723D + 1, (u1Byte)txpktbuf_bndy);
++#endif
++
++
++	/* --------------------------------------------------------- */
++	/* 3. Write Fw to Tx packet buffer by reseverd page. */
++	/* --------------------------------------------------------- */
++	do {
++		/* download rsvd page. */
++		/* Clear beacon valid check bit. */
++		BcnValidReg = PlatformEFIORead1Byte(Adapter, REG_TDECTRL + 2);
++		PlatformEFIOWrite1Byte(Adapter, REG_TDECTRL + 2, BcnValidReg & (~BIT(0)));
++
++		/* BT patch is big, we should set 0x209 < 0x40 suggested from Gimmy */
++
++		PlatformEFIOWrite1Byte(Adapter, REG_TDECTRL + 1, (0x90 - 0x20 * (times - 1)));
++		RTW_INFO("0x209:0x%x\n", PlatformEFIORead1Byte(Adapter, REG_TDECTRL + 1));
++
++#if 0
++		/* Acquice TX spin lock before GetFwBuf and send the packet to prevent system deadlock. */
++		/* Advertised by Roger. Added by tynli. 2010.02.22. */
++		PlatformAcquireSpinLock(Adapter, RT_TX_SPINLOCK);
++		if (MgntGetFWBuffer(Adapter, &pTcb, &pBuf)) {
++			PlatformMoveMemory(pBuf->Buffer.VirtualAddress, ReservedPagePacket, TotalPktLen);
++			CmdSendPacket(Adapter, pTcb, pBuf, TotalPktLen, DESC_PACKET_TYPE_NORMAL, FALSE);
++		} else
++			dbgdump("SetFwRsvdPagePkt(): MgntGetFWBuffer FAIL!!!!!!!!.\n");
++		PlatformReleaseSpinLock(Adapter, RT_TX_SPINLOCK);
++#else
++		/*---------------------------------------------------------
++		tx reserved_page_packet
++		----------------------------------------------------------*/
++		pmgntframe = rtw_alloc_cmdxmitframe(pxmitpriv);
++		if (pmgntframe == NULL) {
++			rtStatus = _FAIL;
++			goto exit;
++		}
++		/* update attribute */
++		pattrib = &pmgntframe->attrib;
++		update_mgntframe_attrib(Adapter, pattrib);
++
++		pattrib->qsel = QSLT_BEACON;
++		pattrib->pktlen = pattrib->last_txcmdsz = FwBufLen;
++
++		/* _rtw_memset(pmgntframe->buf_addr, 0, TotalPktLen+txdesc_size); */
++		/* pmgntframe->buf_addr = ReservedPagePacket ; */
++
++		_rtw_memcpy((u8 *)(pmgntframe->buf_addr + txdesc_offset), ReservedPagePacket, FwBufLen);
++		RTW_INFO("[%d]===>TotalPktLen + TXDESC_OFFSET TotalPacketLen:%d\n", DLBcnCount, (FwBufLen + txdesc_offset));
++
++#ifdef CONFIG_PCI_HCI
++		dump_mgntframe(Adapter, pmgntframe);
++#else
++		dump_mgntframe_and_wait(Adapter, pmgntframe, 100);
++#endif
++
++#endif
++#if 1
++		/* check rsvd page download OK. */
++		BcnValidReg = PlatformEFIORead1Byte(Adapter, REG_TDECTRL + 2);
++		while (!(BcnValidReg & BIT(0)) && count < 200) {
++			count++;
++			/* PlatformSleepUs(10); */
++			rtw_msleep_os(1);
++			BcnValidReg = PlatformEFIORead1Byte(Adapter, REG_TDECTRL + 2);
++		}
++		DLBcnCount++;
++		/* RTW_INFO("##0x208:%08x,0x210=%08x\n",PlatformEFIORead4Byte(Adapter, REG_TDECTRL),PlatformEFIORead4Byte(Adapter, 0x210)); */
++
++		PlatformEFIOWrite1Byte(Adapter, REG_TDECTRL + 2, BcnValidReg);
++
++	} while ((!(BcnValidReg & BIT(0))) && DLBcnCount < 5);
++
++
++#endif
++	if (DLBcnCount >= 5) {
++		RTW_INFO(" check rsvd page download OK DLBcnCount =%d\n", DLBcnCount);
++		rtStatus = _FAIL;
++		goto exit;
++	}
++
++	if (!(BcnValidReg & BIT(0))) {
++		RTW_INFO("_WriteFWtoTxPktBuf(): 1 Download RSVD page failed!\n");
++		rtStatus = _FAIL;
++		goto exit;
++	}
++
++	/* --------------------------------------------------------- */
++	/* 4. Set Tx boundary to the initial value */
++	/* --------------------------------------------------------- */
++
++
++	/* --------------------------------------------------------- */
++	/* 5. Reset beacon setting to the initial value. */
++	/*	 After _CheckWLANFwPatchBTFwReady(). */
++	/* --------------------------------------------------------- */
++
++exit:
++
++	if (pGenBufReservedPagePacket) {
++		RTW_INFO("_WriteBTFWtoTxPktBuf8723D => rtw_mfree pGenBufReservedPagePacket!\n");
++		rtw_mfree((u8 *)pGenBufReservedPagePacket, TotalPktLen);
++	}
++	return rtStatus;
++}
++
++
++
++/*
++ * Description: Determine the contents of H2C BT_FW_PATCH Command sent to FW.
++ * 2011.10.20 by tynli
++ *   */
++void
++SetFwBTFwPatchCmd(
++	IN PADAPTER	Adapter,
++	IN u16		FwSize
++)
++{
++	u8 u1BTFwPatchParm[H2C_BT_FW_PATCH_LEN] = {0};
++	u8 addr0 = 0;
++	u8 addr1 = 0xa0;
++	u8 addr2 = 0x10;
++	u8 addr3 = 0x80;
++
++
++	SET_8723D_H2CCMD_BT_FW_PATCH_SIZE(u1BTFwPatchParm, FwSize);
++	SET_8723D_H2CCMD_BT_FW_PATCH_ADDR0(u1BTFwPatchParm, addr0);
++	SET_8723D_H2CCMD_BT_FW_PATCH_ADDR1(u1BTFwPatchParm, addr1);
++	SET_8723D_H2CCMD_BT_FW_PATCH_ADDR2(u1BTFwPatchParm, addr2);
++	SET_8723D_H2CCMD_BT_FW_PATCH_ADDR3(u1BTFwPatchParm, addr3);
++
++	FillH2CCmd8723D(Adapter, H2C_8723D_BT_FW_PATCH, H2C_BT_FW_PATCH_LEN, u1BTFwPatchParm);
++
++}
++
++void
++SetFwBTPwrCmd(
++	IN PADAPTER	Adapter,
++	IN u1Byte	PwrIdx
++)
++{
++	u1Byte		u1BTPwrIdxParm[H2C_FORCE_BT_TXPWR_LEN] = {0};
++
++	SET_8723D_H2CCMD_BT_PWR_IDX(u1BTPwrIdxParm, PwrIdx);
++
++
++	FillH2CCmd8723D(Adapter, H2C_8723D_FORCE_BT_TXPWR, H2C_FORCE_BT_TXPWR_LEN, u1BTPwrIdxParm);
++}
++
++/*
++ * Description: WLAN Fw will write BT Fw to BT XRAM and signal driver.
++ *
++ * 2011.10.20. by tynli.
++ *   */
++int
++_CheckWLANFwPatchBTFwReady(
++	IN	PADAPTER			Adapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u4Byte	count = 0;
++	u1Byte	u1bTmp;
++	int ret = _FAIL;
++
++	/* --------------------------------------------------------- */
++	/* Check if BT FW patch procedure is ready. */
++	/* --------------------------------------------------------- */
++	do {
++		u1bTmp = PlatformEFIORead1Byte(Adapter, REG_HMEBOX_DBG_0_8723D);
++		if ((u1bTmp & BIT(6)) || (u1bTmp & BIT(7))) {
++			ret = _SUCCESS;
++			break;
++		}
++
++		count++;
++		rtw_msleep_os(50); /* 50ms */
++	} while (!((u1bTmp & BIT(6)) || (u1bTmp & BIT(7))) && count < 50);
++
++
++
++
++	/* --------------------------------------------------------- */
++	/* Reset beacon setting to the initial value. */
++	/* --------------------------------------------------------- */
++#if 0/* (DEV_BUS_TYPE == RT_PCI_INTERFACE) */
++	if (LLT_table_init(Adapter, FALSE, 0) == RT_STATUS_FAILURE) {
++		dbgdump("Init self define for BT Fw patch LLT table fail.\n");
++		/* return RT_STATUS_FAILURE; */
++	}
++#endif
++	u1bTmp = rtw_read8(Adapter, REG_BCN_CTRL);
++	u1bTmp |= EN_BCN_FUNCTION;
++	u1bTmp &= ~DIS_TSF_UDT;
++	rtw_write8(Adapter, REG_BCN_CTRL, u1bTmp);
++
++	/* To make sure that if there exists an adapter which would like to send beacon. */
++	/* If exists, the origianl value of 0x422[6] will be 1, we should check this to */
++	/* prevent from setting 0x422[6] to 0 after download reserved page, or it will cause */
++	/* the beacon cannot be sent by HW. */
++	/* 2010.06.23. Added by tynli. */
++#if 0/* (DEV_BUS_TYPE == RT_PCI_INTERFACE) */
++	u1bTmp = PlatformEFIORead1Byte(Adapter, REG_FWHW_TXQ_CTRL + 2);
++	PlatformEFIOWrite1Byte(Adapter, REG_FWHW_TXQ_CTRL + 2, (u1bTmp | BIT(6)));
++#else
++	PlatformEFIOWrite1Byte(Adapter, REG_FWHW_TXQ_CTRL + 2, (pHalData->RegFwHwTxQCtrl | BIT(6)));
++	pHalData->RegFwHwTxQCtrl |= BIT(6);
++#endif
++
++	/* Clear CR[8] or beacon packet will not be send to TxBuf anymore. */
++	u1bTmp = PlatformEFIORead1Byte(Adapter, REG_CR + 1);
++	PlatformEFIOWrite1Byte(Adapter, REG_CR + 1, (u1bTmp & (~BIT(0))));
++
++	return ret;
++}
++
++int ReservedPage_Compare(PADAPTER Adapter, PRT_MP_FIRMWARE pFirmware, u32 BTPatchSize)
++{
++	u8 temp, ret, lastBTsz;
++	u32 u1bTmp = 0, address_start = 0, count = 0, i = 0;
++	u8	*myBTFwBuffer = NULL;
++
++	myBTFwBuffer = rtw_zmalloc(BTPatchSize);
++	if (myBTFwBuffer == NULL) {
++		RTW_INFO("%s can't be executed due to the failed malloc.\n", __FUNCTION__);
++		Adapter->mppriv.bTxBufCkFail = _TRUE;
++		return _FALSE;
++	}
++
++	temp = rtw_read8(Adapter, 0x209);
++
++	address_start = (temp * 128) / 8;
++
++	rtw_write32(Adapter, 0x140, 0x00000000);
++	rtw_write32(Adapter, 0x144, 0x00000000);
++	rtw_write32(Adapter, 0x148, 0x00000000);
++
++	rtw_write8(Adapter, 0x106, 0x69);
++
++	for (i = 0; i < (BTPatchSize / 8); i++) {
++		rtw_write32(Adapter, 0x140, address_start + 5 + i);
++
++		/* polling until reg 0x140[23]=1; */
++		do {
++			u1bTmp = rtw_read32(Adapter, 0x140);
++			if (u1bTmp & BIT(23)) {
++				ret = _SUCCESS;
++				break;
++			}
++			count++;
++			RTW_INFO("0x140=%x, wait for 10 ms (%d) times.\n", u1bTmp, count);
++			rtw_msleep_os(10); /* 10ms */
++		} while (!(u1bTmp & BIT(23)) && count < 50);
++
++		myBTFwBuffer[i * 8 + 0] = rtw_read8(Adapter, 0x144);
++		myBTFwBuffer[i * 8 + 1] = rtw_read8(Adapter, 0x145);
++		myBTFwBuffer[i * 8 + 2] = rtw_read8(Adapter, 0x146);
++		myBTFwBuffer[i * 8 + 3] = rtw_read8(Adapter, 0x147);
++		myBTFwBuffer[i * 8 + 4] = rtw_read8(Adapter, 0x148);
++		myBTFwBuffer[i * 8 + 5] = rtw_read8(Adapter, 0x149);
++		myBTFwBuffer[i * 8 + 6] = rtw_read8(Adapter, 0x14a);
++		myBTFwBuffer[i * 8 + 7] = rtw_read8(Adapter, 0x14b);
++	}
++
++	rtw_write32(Adapter, 0x140, address_start + 5 + BTPatchSize / 8);
++
++	lastBTsz = BTPatchSize % 8;
++
++	/* polling until reg 0x140[23]=1; */
++	u1bTmp = 0;
++	count = 0;
++	do {
++		u1bTmp = rtw_read32(Adapter, 0x140);
++		if (u1bTmp & BIT(23)) {
++			ret = _SUCCESS;
++			break;
++		}
++		count++;
++		RTW_INFO("0x140=%x, wait for 10 ms (%d) times.\n", u1bTmp, count);
++		rtw_msleep_os(10); /* 10ms */
++	} while (!(u1bTmp & BIT(23)) && count < 50);
++
++	for (i = 0; i < lastBTsz; i++)
++		myBTFwBuffer[(BTPatchSize / 8) * 8 + i] = rtw_read8(Adapter, (0x144 + i));
++
++
++	for (i = 0; i < BTPatchSize; i++) {
++		if (myBTFwBuffer[i] != pFirmware->szFwBuffer[i]) {
++			RTW_INFO(" In direct myBTFwBuffer[%d]=%x , pFirmware->szFwBuffer=%x\n", i, myBTFwBuffer[i], pFirmware->szFwBuffer[i]);
++			Adapter->mppriv.bTxBufCkFail = _TRUE;
++			break;
++		}
++	}
++
++	if (myBTFwBuffer != NULL)
++		rtw_mfree(myBTFwBuffer, BTPatchSize);
++
++	return _TRUE;
++}
++
++/* As the size of bt firmware is more than 16k which is too big for some platforms, we divide it
++ * into four parts to transfer. The last parameter of _WriteBTFWtoTxPktBuf8723D is used to indicate
++ * the location of every part. We call the first 4096 byte of bt firmware as part 1, the second 4096
++ * part as part 2, the third 4096 part as part 3, the remain as part 4. First we transform the part
++ * 4 and set the register 0x209 to 0x90, then the 32 bytes description are added to the head of part
++ * 4, and those bytes are putted at the location 0x90. Second we transform the part 3 and set the
++ * register 0x209 to 0x70. The 32 bytes description and part 3(4196 bytes) are putted at the location
++ * 0x70. It can contain 4196 bytes between 0x70 and 0x90. So the last 32 bytes os part 3 will cover the
++ * 32 bytes description of part4. Using this method, we can put the whole bt firmware to 0x30 and only
++ * has 32 bytes descrption at the head of part 1.
++*/
++s32 FirmwareDownloadBT(PADAPTER padapter, PRT_MP_FIRMWARE pFirmware)
++{
++	s32 rtStatus;
++	u8 *pBTFirmwareBuf;
++	u32 BTFirmwareLen;
++	u8 download_time;
++	s8 i;
++
++
++	rtStatus = _SUCCESS;
++	pBTFirmwareBuf = NULL;
++	BTFirmwareLen = 0;
++
++#if 0
++	/* */
++	/* Patch BT Fw. Download BT RAM code to Tx packet buffer. */
++	/* */
++	if (padapter->bBTFWReady) {
++		RTW_INFO("%s: BT Firmware is ready!!\n", __FUNCTION__);
++		return _FAIL;
++	}
++
++#ifdef CONFIG_FILE_FWIMG
++	if (rtw_is_file_readable(rtw_fw_mp_bt_file_path) == _TRUE) {
++		RTW_INFO("%s: acquire MP BT FW from file:%s\n", __FUNCTION__, rtw_fw_mp_bt_file_path);
++
++		rtStatus = rtw_retrieve_from_file(rtw_fw_mp_bt_file_path, FwBuffer, FW_8723D_SIZE);
++		BTFirmwareLen = rtStatus >= 0 ? rtStatus : 0;
++		pBTFirmwareBuf = FwBuffer;
++	} else
++#endif /* CONFIG_FILE_FWIMG */
++	{
++#ifdef CONFIG_EMBEDDED_FWIMG
++		RTW_INFO("%s: Download MP BT FW from header\n", __FUNCTION__);
++
++		pBTFirmwareBuf = (u8 *)Rtl8723DFwBTImgArray;
++		BTFirmwareLen = Rtl8723DFwBTImgArrayLength;
++		pFirmware->szFwBuffer = pBTFirmwareBuf;
++		pFirmware->ulFwLength = BTFirmwareLen;
++#endif /* CONFIG_EMBEDDED_FWIMG */
++	}
++
++	RTW_INFO("%s: MP BT Firmware size=%d\n", __FUNCTION__, BTFirmwareLen);
++
++	/* for h2c cam here should be set to  true */
++	padapter->bFWReady = _TRUE;
++
++	download_time = (BTFirmwareLen + 4095) / 4096;
++	RTW_INFO("%s: download_time is %d\n", __FUNCTION__, download_time);
++
++	/* Download BT patch Fw. */
++	for (i = (download_time - 1); i >= 0; i--) {
++		if (i == (download_time - 1)) {
++			rtStatus = _WriteBTFWtoTxPktBuf8723D(padapter, pBTFirmwareBuf + (4096 * i), (BTFirmwareLen - (4096 * i)), 1);
++			RTW_INFO("%s: start %d, len %d, time 1\n", __FUNCTION__, 4096 * i, BTFirmwareLen - (4096 * i));
++		} else {
++			rtStatus = _WriteBTFWtoTxPktBuf8723D(padapter, pBTFirmwareBuf + (4096 * i), 4096, (download_time - i));
++			RTW_INFO("%s: start %d, len 4096, time %d\n", __FUNCTION__, 4096 * i, download_time - i);
++		}
++
++		if (rtStatus != _SUCCESS) {
++			RTW_INFO("%s: BT Firmware download to Tx packet buffer fail!\n", __FUNCTION__);
++			padapter->bBTFWReady = _FALSE;
++			return rtStatus;
++		}
++	}
++
++	ReservedPage_Compare(padapter, pFirmware, BTFirmwareLen);
++
++	padapter->bBTFWReady = _TRUE;
++	SetFwBTFwPatchCmd(padapter, (u16)BTFirmwareLen);
++	rtStatus = _CheckWLANFwPatchBTFwReady(padapter);
++
++	RTW_INFO("<===%s: return %s!\n", __FUNCTION__, rtStatus == _SUCCESS ? "SUCCESS" : "FAIL");
++#endif
++
++	return rtStatus;
++}
++#endif /* CONFIG_MP_INCLUDED */
++
++#ifdef CONFIG_SDIO_HCI
++u8 send_fw_packet(PADAPTER padapter, u8 *pRam_code, u32 length)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct xmit_buf xmit_buf_tmp;
++	struct submit_ctx sctx_tmp;
++	u8 *pTx_data_buffer = NULL;
++	u8 *pTmp_buffer = NULL;
++	u8 bRet = 0, value8 = 0, res = _FAIL;
++	u32 modify_ram_size = 0;
++	u32 tmp_size = 0, tmp_value = 0;
++	u32 i = 0, counter = 0;
++	u32 dwDataLength = 0, writeLength = 0;
++
++	/* Due to SDIO can not send 32K packet */
++	if (FW_DOWNLOAD_SIZE_8723D == length)
++		length--;
++
++	modify_ram_size = length << 2;
++
++	pTx_data_buffer = rtw_zmalloc(modify_ram_size);
++
++	if (NULL == pTx_data_buffer) {
++		RTW_INFO("Allocate buffer fail!!\n");
++		return _FALSE;
++	}
++
++	_rtw_memset(pTx_data_buffer, 0, modify_ram_size);
++
++	/* Transfer to new format */
++	tmp_size = length >> 1;
++	for (i = 0; i <= tmp_size; i++) {
++		*(pTx_data_buffer + i * 8) = *(pRam_code + i * 2);
++		*(pTx_data_buffer + i * 8 + 1) = *(pRam_code + i * 2 + 1);
++	}
++
++	/* Gen TX_DESC */
++	_rtw_memset(pTx_data_buffer, 0, TXDESC_SIZE);
++	pTmp_buffer = pTx_data_buffer;
++	SET_TX_DESC_QUEUE_SEL_8723D(pTmp_buffer, QSLT_BEACON);
++	SET_TX_DESC_PKT_SIZE_8723D(pTmp_buffer, modify_ram_size - TXDESC_SIZE);
++	SET_TX_DESC_OFFSET_8723D(pTmp_buffer, TXDESC_SIZE);
++
++	/* Send packet */
++	xmit_buf_tmp.pdata = pTx_data_buffer;
++	xmit_buf_tmp.len = modify_ram_size;
++	rtw_sctx_init(&sctx_tmp, 10);
++	xmit_buf_tmp.sctx = &sctx_tmp;
++
++	res = rtw_write_port(padapter,
++			     pdvobjpriv->Queue2Pipe[BCN_QUEUE_INX],
++			     xmit_buf_tmp.len,
++			     (u8 *)&xmit_buf_tmp);
++	if (res == _FAIL) {
++		RTW_INFO("rtw_write_port fail\n");
++		return _FAIL;
++	}
++
++	/* check if DMA is OK */
++	counter = 100;
++	do {
++		if (0 == counter) {
++			RTW_INFO("DMA time out!!\n");
++			return _FALSE;
++		}
++		value8 = rtw_read8(padapter, REG_DWBCN0_CTRL_8723D + 2);
++		counter--;
++	} while (0 == (value8 & BIT(0)));
++
++	rtw_write8(padapter, REG_DWBCN0_CTRL_8723D + 2, value8);
++
++	/* Modify ram code by IO method */
++	tmp_value = rtw_read8(padapter, REG_MCUFWDL + 1);
++	/* Disable DMA */
++	rtw_write8(padapter, REG_MCUFWDL + 1, (u8)tmp_value & ~(BIT(5)));
++	tmp_value = (tmp_value >> 6) << 1;
++	/* Set page start address */
++	rtw_write8(padapter, REG_MCUFWDL + 2,
++		   (rtw_read8(padapter, REG_MCUFWDL + 2) & 0xF8) | tmp_value);
++	tmp_size = TXDESC_SIZE >> 2; /* 10bytes */
++
++	_BlockWrite(padapter, pRam_code, tmp_size);
++
++	if (pTmp_buffer != NULL)
++		rtw_mfree((u8 *)pTmp_buffer, modify_ram_size);
++
++	return _TRUE;
++}
++#endif /* CONFIG_SDIO_HCI */
++
++/*
++ *	Description:
++ *		Download 8192C firmware code.
++ *
++ *   */
++s32 rtl8723d_FirmwareDownload(PADAPTER padapter, BOOLEAN  bUsedWoWLANFw)
++{
++	s32	rtStatus = _SUCCESS;
++	u8 write_fw = 0;
++	u32 fwdl_start_time;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	u8			*FwImage;
++	u32			FwImageLen;
++	u8			*pFwImageFileName;
++#ifdef CONFIG_WOWLAN
++	u8			*FwImageWoWLAN;
++	u32			FwImageWoWLANLen;
++#endif
++	u8			*pucMappedFile = NULL;
++	PRT_FIRMWARE_8723D	pFirmware = NULL;
++	PRT_8723D_FIRMWARE_HDR		pFwHdr = NULL;
++	u8			*pFirmwareBuf;
++	u32			FirmwareLen;
++#ifdef CONFIG_FILE_FWIMG
++	u8 *fwfilepath;
++#endif /* CONFIG_FILE_FWIMG */
++	u8			value8;
++	u16			value16;
++	u32			value32;
++	u8			dma_iram_sel;
++	u16		new_chk_sum = 0;
++	u32		send_pkt_size, pkt_size_tmp;
++	u32		mem_offset;
++	u32			counter;
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++
++
++	pFirmware = (PRT_FIRMWARE_8723D)rtw_zmalloc(sizeof(RT_FIRMWARE_8723D));
++
++	if (!pFirmware) {
++		rtStatus = _FAIL;
++		goto exit;
++	}
++
++	{
++		u8 tmp_ps = 0, tmp_rf = 0;
++
++		tmp_ps = rtw_read8(padapter, 0xa3);
++		tmp_ps &= 0xf8;
++		tmp_ps |= 0x02;
++		/* 1. write 0xA3[:2:0] = 3b'010 */
++		rtw_write8(padapter, 0xa3, tmp_ps);
++		/* 2. read power_state = 0xA0[1:0] */
++		tmp_ps = rtw_read8(padapter, 0xa0);
++		tmp_ps &= 0x03;
++		if (tmp_ps != 0x01) {
++			RTW_INFO(FUNC_ADPT_FMT" tmp_ps=%x\n",
++				 FUNC_ADPT_ARG(padapter), tmp_ps);
++			pdbgpriv->dbg_downloadfw_pwr_state_cnt++;
++		}
++	}
++
++#ifdef CONFIG_BT_COEXIST
++	rtw_btcoex_PreLoadFirmware(padapter);
++#endif /* CONFIG_BT_COEXIST */
++
++#ifdef CONFIG_FILE_FWIMG
++#ifdef CONFIG_WOWLAN
++	if (bUsedWoWLANFw)
++		fwfilepath = rtw_fw_wow_file_path;
++	else
++#endif /* CONFIG_WOWLAN */
++	{
++		fwfilepath = rtw_fw_file_path;
++	}
++#endif /* CONFIG_FILE_FWIMG */
++
++#ifdef CONFIG_FILE_FWIMG
++	if (rtw_is_file_readable(fwfilepath) == _TRUE) {
++		RTW_INFO("%s acquire FW from file:%s\n", __FUNCTION__, fwfilepath);
++		pFirmware->eFWSource = FW_SOURCE_IMG_FILE;
++	} else
++#endif /* CONFIG_FILE_FWIMG */
++	{
++#ifdef CONFIG_EMBEDDED_FWIMG
++		pFirmware->eFWSource = FW_SOURCE_HEADER_FILE;
++#else /* !CONFIG_EMBEDDED_FWIMG */
++		pFirmware->eFWSource = FW_SOURCE_IMG_FILE; /* We should decided by Reg. */
++#endif /* !CONFIG_EMBEDDED_FWIMG */
++	}
++
++	switch (pFirmware->eFWSource) {
++	case FW_SOURCE_IMG_FILE:
++#ifdef CONFIG_FILE_FWIMG
++		rtStatus = rtw_retrieve_from_file(fwfilepath, FwBuffer, FW_8723D_SIZE);
++		pFirmware->ulFwLength = rtStatus >= 0 ? rtStatus : 0;
++		pFirmware->szFwBuffer = FwBuffer;
++#endif /* CONFIG_FILE_FWIMG */
++		break;
++
++	case FW_SOURCE_HEADER_FILE:
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++		if (bUsedWoWLANFw) {
++			if (!pwrpriv->wowlan_ap_mode) {
++				ODM_ConfigFWWithHeaderFile(&pHalData->odmpriv,
++							   CONFIG_FW_WoWLAN,
++						   (u8 *)&pFirmware->szFwBuffer,
++						   &pFirmware->ulFwLength);
++
++				RTW_INFO(" ===> %s fw: %s, size: %d\n",
++					 __FUNCTION__, "WoWLAN",
++					 pFirmware->ulFwLength);
++			} else {
++				ODM_ConfigFWWithHeaderFile(&pHalData->odmpriv,
++							   CONFIG_FW_AP_WoWLAN,
++						   (u8 *)&pFirmware->szFwBuffer,
++						   &pFirmware->ulFwLength);
++
++				RTW_INFO(" ===> %s fw: %s, size: %d\n",
++					 __FUNCTION__, "AP_WoWLAN",
++					 pFirmware->ulFwLength);
++			}
++		} else
++#endif /* CONFIG_WOWLAN */
++		{
++			ODM_ConfigFWWithHeaderFile(&pHalData->odmpriv, CONFIG_FW_NIC,
++				(u8 *)&pFirmware->szFwBuffer, &pFirmware->ulFwLength);
++			RTW_INFO("%s fw: %s, size: %d\n", __FUNCTION__, "FW_NIC", pFirmware->ulFwLength);
++		}
++		break;
++	}
++
++	if (pFirmware->ulFwLength > FW_8723D_SIZE) {
++		rtStatus = _FAIL;
++		RTW_ERR("Firmware size:%u exceed %u\n",
++			pFirmware->ulFwLength, FW_8723D_SIZE);
++		goto exit;
++	}
++
++	pFirmwareBuf = pFirmware->szFwBuffer;
++	FirmwareLen = pFirmware->ulFwLength;
++
++	/* To Check Fw header. Added by tynli. 2009.12.04. */
++	pFwHdr = (PRT_8723D_FIRMWARE_HDR)pFirmwareBuf;
++
++	pHalData->FirmwareVersion =  le16_to_cpu(pFwHdr->Version);
++	pHalData->FirmwareSubVersion = le16_to_cpu(pFwHdr->Subversion);
++	pHalData->FirmwareSignature = le16_to_cpu(pFwHdr->Signature);
++
++	RTW_INFO("%s: fw_ver=%x fw_subver=%04x sig=0x%x, Month=%02x, Date=%02x, Hour=%02x, Minute=%02x\n",
++		 __func__, pHalData->FirmwareVersion,
++		 pHalData->FirmwareSubVersion, pHalData->FirmwareSignature
++		 , pFwHdr->Month, pFwHdr->Date, pFwHdr->Hour, pFwHdr->Minute);
++
++	if (IS_FW_HEADER_EXIST_8723D(pFwHdr)) {
++		RTW_INFO("%s(): Shift for fw header!\n", __FUNCTION__);
++		/* Shift 32 bytes for FW header */
++		pFirmwareBuf = pFirmwareBuf + 32;
++		FirmwareLen = FirmwareLen - 32;
++	}
++
++	fwdl_start_time = rtw_get_current_time();
++
++	/* To check if FW already exists before download FW */
++	if (rtw_read8(padapter, REG_MCUFWDL) & RAM_DL_SEL) {
++		RTW_INFO("%s: FW exists before download FW\n", __func__);
++		rtw_write8(padapter, REG_MCUFWDL, 0x00);
++		_8051Reset8723(padapter);
++	}
++
++#ifndef CONFIG_DLFW_TXPKT
++	RTW_INFO("%s by IO write!\n", __func__);
++
++	_FWDownloadEnable(padapter, _TRUE);
++
++	while (!RTW_CANNOT_IO(padapter) &&
++	       (write_fw++ < 3 || rtw_get_passing_time_ms(fwdl_start_time) < 500)) {
++		/* reset FWDL chksum */
++		rtw_write8(padapter, REG_MCUFWDL,
++			   rtw_read8(padapter, REG_MCUFWDL) | FWDL_ChkSum_rpt);
++
++		rtStatus = _WriteFW(padapter, pFirmwareBuf, FirmwareLen);
++		if (rtStatus != _SUCCESS)
++			continue;
++
++		rtStatus = polling_fwdl_chksum(padapter, 5, 50);
++		if (rtStatus == _SUCCESS)
++			break;
++	}
++#else
++	RTW_INFO("%s by Tx pkt write!\n", __func__);
++
++	if ((rtw_read8(padapter, REG_MCUFWDL) & MCUFWDL_RDY) == 0) {
++		/*
++		 * SDIO DMA condition:
++		 * all queue must be 256 (0x100 = 0x20 + 0xE0)
++		*/
++
++		value32 = 0x802000E0;
++		rtw_write32(padapter, REG_RQPN, value32);
++
++		/* Set beacon boundary to TXFIFO header */
++		rtw_write8(padapter, REG_BCNQ_BDNY, 0);
++		rtw_write16(padapter, REG_DWBCN0_CTRL_8723D + 1, BIT(8));
++
++		/* SDIO need read this register before send packet */
++		rtw_read32(padapter, 0x10250020);
++
++		_FWDownloadEnable(padapter, _TRUE);
++
++		/* Get original check sum */
++		new_chk_sum = *(pFirmwareBuf + FirmwareLen - 2) |
++			      ((u16)*(pFirmwareBuf + FirmwareLen - 1) << 8);
++
++		/* Send ram code flow */
++		dma_iram_sel = 0;
++		mem_offset = 0;
++		pkt_size_tmp = FirmwareLen;
++		while (0 != pkt_size_tmp) {
++			if (pkt_size_tmp >= FW_DOWNLOAD_SIZE_8723D) {
++				send_pkt_size = FW_DOWNLOAD_SIZE_8723D;
++				/* Modify check sum value */
++				new_chk_sum = (u16)(new_chk_sum ^ (((send_pkt_size - 1) << 2) - TXDESC_SIZE));
++			} else {
++				send_pkt_size = pkt_size_tmp;
++				new_chk_sum = (u16)(new_chk_sum ^ ((send_pkt_size << 2) - TXDESC_SIZE));
++
++			}
++
++			if (send_pkt_size == pkt_size_tmp) {
++				/* last partition packet, write new check sum to ram code file */
++				*(pFirmwareBuf + FirmwareLen - 2) = new_chk_sum & 0xFF;
++				*(pFirmwareBuf + FirmwareLen - 1) = (new_chk_sum & 0xFF00) >> 8;
++			}
++
++			/* IRAM select */
++			rtw_write8(padapter, REG_MCUFWDL + 1,
++				(rtw_read8(padapter, REG_MCUFWDL + 1) & 0x3F) | (dma_iram_sel << 6));
++			/* Enable DMA */
++			rtw_write8(padapter, REG_MCUFWDL + 1,
++				rtw_read8(padapter, REG_MCUFWDL + 1) | BIT(5));
++
++			if (_FALSE == send_fw_packet(padapter, pFirmwareBuf + mem_offset, send_pkt_size)) {
++				RTW_INFO("%s: Send FW fail !\n", __FUNCTION__);
++				rtStatus = _FAIL;
++				goto DLFW_FAIL;
++			}
++
++			dma_iram_sel++;
++			mem_offset += send_pkt_size;
++			pkt_size_tmp -= send_pkt_size;
++		}
++	} else {
++		RTW_INFO("%s: Download FW fail since MCUFWDL_RDY is not set!\n", __FUNCTION__);
++		rtStatus = _FAIL;
++		goto DLFW_FAIL;
++	}
++#endif
++
++	_FWDownloadEnable(padapter, _FALSE);
++
++	rtStatus = _FWFreeToGo(padapter, 10, 200);
++	if (_SUCCESS != rtStatus)
++		goto DLFW_FAIL;
++
++DLFW_FAIL:
++	if (rtStatus == _FAIL) {
++		/* Disable FWDL_EN */
++		value8 = rtw_read8(padapter, REG_MCUFWDL);
++		value8 = (value8 & ~(BIT(0)) & ~(BIT(1)));
++		rtw_write8(padapter, REG_MCUFWDL, value8);
++	}
++
++	RTW_INFO("%s %s. write_fw:%u, %dms\n"
++		 , __FUNCTION__, (rtStatus == _SUCCESS) ? "success" : "fail"
++		 , write_fw
++		 , rtw_get_passing_time_ms(fwdl_start_time)
++		);
++
++exit:
++	if (pFirmware)
++		rtw_mfree((u8 *)pFirmware, sizeof(RT_FIRMWARE_8723D));
++
++	rtl8723d_InitializeFirmwareVars(padapter);
++
++	RTW_INFO(" <=== %s()\n", __FUNCTION__);
++
++	return rtStatus;
++}
++
++void rtl8723d_InitializeFirmwareVars(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++
++	/* Init Fw LPS related. */
++	adapter_to_pwrctl(padapter)->bFwCurrentInPSMode = _FALSE;
++
++	/* Init H2C cmd. */
++	rtw_write8(padapter, REG_HMETFR, 0x0f);
++
++	/* Init H2C counter. by tynli. 2009.12.09. */
++	pHalData->LastHMEBoxNum = 0;
++	/*	pHalData->H2CQueueHead = 0;
++	 *	pHalData->H2CQueueTail = 0;
++	 *	pHalData->H2CStopInsertQueue = _FALSE; */
++}
++
++/* ***********************************************************
++ *				Efuse related code
++ * *********************************************************** */
++static u8
++hal_EfuseSwitchToBank(
++	PADAPTER	padapter,
++	u8			bank,
++	u8			bPseudoTest)
++{
++	u8 bRet = _FALSE;
++	u32 value32 = 0;
++#ifdef HAL_EFUSE_MEMORY
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++	PEFUSE_HAL pEfuseHal = &pHalData->EfuseHal;
++#endif
++
++
++	RTW_INFO("%s: Efuse switch bank to %d\n", __FUNCTION__, bank);
++	if (bPseudoTest) {
++#ifdef HAL_EFUSE_MEMORY
++		pEfuseHal->fakeEfuseBank = bank;
++#else
++		fakeEfuseBank = bank;
++#endif
++		bRet = _TRUE;
++	} else {
++		value32 = rtw_read32(padapter, EFUSE_TEST);
++		bRet = _TRUE;
++		switch (bank) {
++		case 0:
++			value32 = (value32 & ~EFUSE_SEL_MASK) | EFUSE_SEL(EFUSE_WIFI_SEL_0);
++			break;
++		case 1:
++			value32 = (value32 & ~EFUSE_SEL_MASK) | EFUSE_SEL(EFUSE_BT_SEL_0);
++			break;
++		case 2:
++			value32 = (value32 & ~EFUSE_SEL_MASK) | EFUSE_SEL(EFUSE_BT_SEL_1);
++			break;
++		case 3:
++			value32 = (value32 & ~EFUSE_SEL_MASK) | EFUSE_SEL(EFUSE_BT_SEL_2);
++			break;
++		default:
++			value32 = (value32 & ~EFUSE_SEL_MASK) | EFUSE_SEL(EFUSE_WIFI_SEL_0);
++			bRet = _FALSE;
++			break;
++		}
++		rtw_write32(padapter, EFUSE_TEST, value32);
++	}
++
++	return bRet;
++}
++
++static void
++Hal_GetEfuseDefinition(
++	PADAPTER	padapter,
++	u8			efuseType,
++	u8			type,
++	void		*pOut,
++	u8			bPseudoTest)
++{
++	switch (type) {
++	case TYPE_EFUSE_MAX_SECTION: {
++		u8 *pMax_section;
++
++		pMax_section = (u8 *)pOut;
++
++		if (efuseType == EFUSE_WIFI)
++			*pMax_section = EFUSE_MAX_SECTION_8723D;
++		else
++			*pMax_section = EFUSE_BT_MAX_SECTION;
++	}
++	break;
++
++	case TYPE_EFUSE_REAL_CONTENT_LEN: {
++		u16 *pu2Tmp;
++
++		pu2Tmp = (u16 *)pOut;
++
++		if (efuseType == EFUSE_WIFI)
++			*pu2Tmp = EFUSE_REAL_CONTENT_LEN_8723D;
++		else
++			*pu2Tmp = EFUSE_BT_REAL_CONTENT_LEN;
++	}
++	break;
++
++	case TYPE_AVAILABLE_EFUSE_BYTES_BANK: {
++		u16	*pu2Tmp;
++
++		pu2Tmp = (u16 *)pOut;
++
++		if (efuseType == EFUSE_WIFI)
++			*pu2Tmp = (EFUSE_REAL_CONTENT_LEN_8723D - EFUSE_OOB_PROTECT_BYTES);
++		else
++			*pu2Tmp = (EFUSE_BT_REAL_BANK_CONTENT_LEN - EFUSE_PROTECT_BYTES_BANK);
++	}
++	break;
++
++	case TYPE_AVAILABLE_EFUSE_BYTES_TOTAL: {
++		u16 *pu2Tmp;
++
++		pu2Tmp = (u16 *)pOut;
++
++		if (efuseType == EFUSE_WIFI)
++			*pu2Tmp = (EFUSE_REAL_CONTENT_LEN_8723D - EFUSE_OOB_PROTECT_BYTES);
++		else
++			*pu2Tmp = (EFUSE_BT_REAL_CONTENT_LEN - (EFUSE_PROTECT_BYTES_BANK * 3));
++	}
++	break;
++
++	case TYPE_EFUSE_MAP_LEN: {
++		u16 *pu2Tmp;
++
++		pu2Tmp = (u16 *)pOut;
++
++		if (efuseType == EFUSE_WIFI)
++			*pu2Tmp = EFUSE_MAP_LEN_8723D;
++		else
++			*pu2Tmp = EFUSE_BT_MAP_LEN;
++	}
++	break;
++
++	case TYPE_EFUSE_PROTECT_BYTES_BANK: {
++		u8 *pu1Tmp;
++
++		pu1Tmp = (u8 *)pOut;
++
++		if (efuseType == EFUSE_WIFI)
++			*pu1Tmp = EFUSE_OOB_PROTECT_BYTES;
++		else
++			*pu1Tmp = EFUSE_PROTECT_BYTES_BANK;
++	}
++	break;
++
++	case TYPE_EFUSE_CONTENT_LEN_BANK: {
++		u16 *pu2Tmp;
++
++		pu2Tmp = (u16 *)pOut;
++
++		if (efuseType == EFUSE_WIFI)
++			*pu2Tmp = EFUSE_REAL_CONTENT_LEN_8723D;
++		else
++			*pu2Tmp = EFUSE_BT_REAL_BANK_CONTENT_LEN;
++	}
++	break;
++
++	default: {
++		u8 *pu1Tmp;
++
++		pu1Tmp = (u8 *)pOut;
++		*pu1Tmp = 0;
++	}
++	break;
++	}
++}
++
++#define VOLTAGE_V25		0x03
++#define LDOE25_SHIFT	28
++
++/* *****************************************************************
++ *	The following is for compile ok
++ *	That should be merged with the original in the future
++ * ***************************************************************** */
++#define EFUSE_ACCESS_ON_8723			0x69	/* For RTL8723 only. */
++#define EFUSE_ACCESS_OFF_8723			0x00	/* For RTL8723 only. */
++#define REG_EFUSE_ACCESS_8723			0x00CF	/* Efuse access protection for RTL8723 */
++
++/* ***************************************************************** */
++static void Hal_BT_EfusePowerSwitch(
++	PADAPTER	padapter,
++	u8			bWrite,
++	u8			PwrState)
++{
++	u8 tempval;
++
++	if (PwrState == _TRUE) {
++		/* enable BT power cut */
++		/* 0x6A[14] = 1 */
++		tempval = rtw_read8(padapter, 0x6B);
++		tempval |= BIT(6);
++		rtw_write8(padapter, 0x6B, tempval);
++
++		/* Attention!! Between 0x6A[14] and 0x6A[15] setting need 100us delay */
++		/* So don't write 0x6A[14]=1 and 0x6A[15]=0 together! */
++		rtw_usleep_os(100);
++		/* disable BT output isolation */
++		/* 0x6A[15] = 0 */
++		tempval = rtw_read8(padapter, 0x6B);
++		tempval &= ~BIT(7);
++		rtw_write8(padapter, 0x6B, tempval);
++	} else {
++		/* enable BT output isolation */
++		/* 0x6A[15] = 1 */
++		tempval = rtw_read8(padapter, 0x6B);
++		tempval |= BIT(7);
++		rtw_write8(padapter, 0x6B, tempval);
++
++		/* Attention!! Between 0x6A[14] and 0x6A[15] setting need 100us delay */
++		/* So don't write 0x6A[14]=1 and 0x6A[15]=0 together! */
++
++		/* disable BT power cut */
++		/* 0x6A[14] = 1 */
++		tempval = rtw_read8(padapter, 0x6B);
++		tempval &= ~BIT(6);
++		rtw_write8(padapter, 0x6B, tempval);
++	}
++
++}
++static void
++Hal_EfusePowerSwitch(
++	PADAPTER	padapter,
++	u8			bWrite,
++	u8			PwrState)
++{
++	u8	tempval;
++	u16	tmpV16;
++
++
++	if (PwrState == _TRUE) {
++#ifdef CONFIG_SDIO_HCI
++		/* To avoid cannot access efuse regsiters after disable/enable several times during DTM test. */
++		/* Suggested by SD1 IsaacHsu. 2013.07.08, added by tynli. */
++		tempval = rtw_read8(padapter, SDIO_LOCAL_BASE | SDIO_REG_HSUS_CTRL);
++		if (tempval & BIT(0)) { /* SDIO local register is suspend */
++			u8 count = 0;
++
++
++			tempval &= ~BIT(0);
++			rtw_write8(padapter, SDIO_LOCAL_BASE | SDIO_REG_HSUS_CTRL, tempval);
++
++			/* check 0x86[1:0]=10'2h, wait power state to leave suspend */
++			do {
++				tempval = rtw_read8(padapter, SDIO_LOCAL_BASE | SDIO_REG_HSUS_CTRL);
++				tempval &= 0x3;
++				if (tempval == 0x02)
++					break;
++
++				count++;
++				if (count >= 100)
++					break;
++
++				rtw_mdelay_os(10);
++			} while (1);
++
++			if (count >= 100) {
++				RTW_INFO(FUNC_ADPT_FMT ": Leave SDIO local register suspend fail! Local 0x86=%#X\n",
++					 FUNC_ADPT_ARG(padapter), tempval);
++			} else {
++				RTW_INFO(FUNC_ADPT_FMT ": Leave SDIO local register suspend OK! Local 0x86=%#X\n",
++					 FUNC_ADPT_ARG(padapter), tempval);
++			}
++		}
++#endif /* CONFIG_SDIO_HCI */
++
++		rtw_write8(padapter, REG_EFUSE_ACCESS_8723, EFUSE_ACCESS_ON_8723);
++
++		/* Reset: 0x0000h[28], default valid */
++		tmpV16 =  rtw_read16(padapter, REG_SYS_FUNC_EN);
++		if (!(tmpV16 & FEN_ELDR)) {
++			tmpV16 |= FEN_ELDR;
++			rtw_write16(padapter, REG_SYS_FUNC_EN, tmpV16);
++		}
++
++		/* Clock: Gated(0x0008h[5]) 8M(0x0008h[1]) clock from ANA, default valid */
++		tmpV16 = rtw_read16(padapter, REG_SYS_CLKR);
++		if ((!(tmpV16 & LOADER_CLK_EN))  || (!(tmpV16 & ANA8M))) {
++			tmpV16 |= (LOADER_CLK_EN | ANA8M);
++			rtw_write16(padapter, REG_SYS_CLKR, tmpV16);
++		}
++
++		if (bWrite == _TRUE) {
++			/* Enable LDO 2.5V before read/write action */
++			tempval = rtw_read8(padapter, EFUSE_TEST + 3);
++			tempval &= 0x0F;
++			tempval |= (VOLTAGE_V25 << 4);
++			rtw_write8(padapter, EFUSE_TEST + 3, (tempval | 0x80));
++
++			/* rtw_write8(padapter, REG_EFUSE_ACCESS, EFUSE_ACCESS_ON); */
++		}
++	} else {
++		rtw_write8(padapter, REG_EFUSE_ACCESS, EFUSE_ACCESS_OFF);
++
++		if (bWrite == _TRUE) {
++			/* Disable LDO 2.5V after read/write action */
++			tempval = rtw_read8(padapter, EFUSE_TEST + 3);
++			rtw_write8(padapter, EFUSE_TEST + 3, (tempval & 0x7F));
++		}
++
++	}
++}
++
++static void
++hal_ReadEFuse_WiFi(
++	PADAPTER	padapter,
++	u16			_offset,
++	u16			_size_byte,
++	u8			*pbuf,
++	u8			bPseudoTest)
++{
++#ifdef HAL_EFUSE_MEMORY
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	PEFUSE_HAL		pEfuseHal = &pHalData->EfuseHal;
++#endif
++	u8	*efuseTbl = NULL;
++	u16	eFuse_Addr = 0;
++	u8	offset, wden;
++	u8	efuseHeader, efuseExtHdr, efuseData;
++	u16	i, total, used;
++	u8	efuse_usage = 0;
++
++	/* RTW_INFO("YJ: ====>%s():_offset=%d _size_byte=%d bPseudoTest=%d\n", __func__, _offset, _size_byte, bPseudoTest); */
++	/* */
++	/* Do NOT excess total size of EFuse table. Added by Roger, 2008.11.10. */
++	/* */
++	if ((_offset + _size_byte) > EFUSE_MAX_MAP_LEN) {
++		RTW_INFO("%s: Invalid offset(%#x) with read bytes(%#x)!!\n", __FUNCTION__, _offset, _size_byte);
++		return;
++	}
++
++	efuseTbl = (u8 *)rtw_malloc(EFUSE_MAX_MAP_LEN);
++	if (efuseTbl == NULL) {
++		RTW_INFO("%s: alloc efuseTbl fail!\n", __FUNCTION__);
++		return;
++	}
++	/* 0xff will be efuse default value instead of 0x00. */
++	_rtw_memset(efuseTbl, 0xFF, EFUSE_MAX_MAP_LEN);
++
++
++#ifdef CONFIG_DEBUG
++	if (0) {
++		for (i = 0; i < 256; i++)
++			/* ReadEFuseByte(padapter, i, &efuseTbl[i], _FALSE); */
++			efuse_OneByteRead(padapter, i, &efuseTbl[i], _FALSE);
++		RTW_INFO("Efuse Content:\n");
++		for (i = 0; i < 256; i++) {
++			if (i % 16 == 0)
++				printk(KERN_ERR"\n");
++			printk(KERN_ERR"%02X ", efuseTbl[i]);
++		}
++		printk(KERN_ERR"\n");
++	}
++#endif
++
++
++	/* switch bank back to bank 0 for later BT and wifi use. */
++	hal_EfuseSwitchToBank(padapter, 0, bPseudoTest);
++
++	while (AVAILABLE_EFUSE_ADDR(eFuse_Addr)) {
++		/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseHeader, bPseudoTest); */
++		efuse_OneByteRead(padapter, eFuse_Addr++, &efuseHeader, bPseudoTest);
++		if (efuseHeader == 0xFF) {
++			RTW_INFO("%s: data end at address=%#x\n", __FUNCTION__, eFuse_Addr - 1);
++			break;
++		}
++		/* RTW_INFO("%s: efuse[0x%X]=0x%02X\n", __FUNCTION__, eFuse_Addr-1, efuseHeader); */
++
++		/* Check PG header for section num. */
++		if (EXT_HEADER(efuseHeader)) {	/* extended header */
++			offset = GET_HDR_OFFSET_2_0(efuseHeader);
++			/* RTW_INFO("%s: extended header offset=0x%X\n", __FUNCTION__, offset); */
++
++			/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseExtHdr, bPseudoTest); */
++			efuse_OneByteRead(padapter, eFuse_Addr++, &efuseExtHdr, bPseudoTest);
++			/* RTW_INFO("%s: efuse[0x%X]=0x%02X\n", __FUNCTION__, eFuse_Addr-1, efuseExtHdr); */
++			if (ALL_WORDS_DISABLED(efuseExtHdr))
++				continue;
++
++			offset |= ((efuseExtHdr & 0xF0) >> 1);
++			wden = (efuseExtHdr & 0x0F);
++		} else {
++			offset = ((efuseHeader >> 4) & 0x0f);
++			wden = (efuseHeader & 0x0f);
++		}
++		/* RTW_INFO("%s: Offset=%d Worden=0x%X\n", __FUNCTION__, offset, wden); */
++
++		if (offset < EFUSE_MAX_SECTION_8723D) {
++			u16 addr;
++			/* Get word enable value from PG header
++			*			RTW_INFO("%s: Offset=%d Worden=0x%X\n", __FUNCTION__, offset, wden); */
++
++			addr = offset * PGPKT_DATA_SIZE;
++			for (i = 0; i < EFUSE_MAX_WORD_UNIT; i++) {
++				/* Check word enable condition in the section */
++				if (!(wden & (0x01 << i))) {
++					efuseData = 0;
++					/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseData, bPseudoTest); */
++					efuse_OneByteRead(padapter, eFuse_Addr++, &efuseData, bPseudoTest);
++					/*					RTW_INFO("%s: efuse[%#X]=0x%02X\n", __FUNCTION__, eFuse_Addr-1, efuseData); */
++					efuseTbl[addr] = efuseData;
++
++					efuseData = 0;
++					/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseData, bPseudoTest); */
++					efuse_OneByteRead(padapter, eFuse_Addr++, &efuseData, bPseudoTest);
++					/*					RTW_INFO("%s: efuse[%#X]=0x%02X\n", __FUNCTION__, eFuse_Addr-1, efuseData); */
++					efuseTbl[addr + 1] = efuseData;
++				}
++				addr += 2;
++			}
++		} else {
++			RTW_INFO(KERN_ERR "%s: offset(%d) is illegal!!\n", __FUNCTION__, offset);
++			eFuse_Addr += Efuse_CalculateWordCnts(wden) * 2;
++		}
++	}
++
++	/* Copy from Efuse map to output pointer memory!!! */
++	for (i = 0; i < _size_byte; i++)
++		pbuf[i] = efuseTbl[_offset + i];
++
++	/* Calculate Efuse utilization */
++	total = 0;
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, &total, bPseudoTest);
++	used = eFuse_Addr - 1;
++	if (total)
++		efuse_usage = (u8)((used * 100) / total);
++	else
++		efuse_usage = 100;
++	if (bPseudoTest) {
++#ifdef HAL_EFUSE_MEMORY
++		pEfuseHal->fakeEfuseUsedBytes = used;
++#else
++		fakeEfuseUsedBytes = used;
++#endif
++	} else {
++		rtw_hal_set_hwreg(padapter, HW_VAR_EFUSE_BYTES, (u8 *)&used);
++		rtw_hal_set_hwreg(padapter, HW_VAR_EFUSE_USAGE, (u8 *)&efuse_usage);
++	}
++
++	if (efuseTbl)
++		rtw_mfree(efuseTbl, EFUSE_MAX_MAP_LEN);
++}
++
++static VOID
++hal_ReadEFuse_BT(
++	PADAPTER	padapter,
++	u16			_offset,
++	u16			_size_byte,
++	u8			*pbuf,
++	u8			bPseudoTest
++)
++{
++#ifdef HAL_EFUSE_MEMORY
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	PEFUSE_HAL		pEfuseHal = &pHalData->EfuseHal;
++#endif
++	u8	*efuseTbl;
++	u8	bank;
++	u16	eFuse_Addr;
++	u8	efuseHeader, efuseExtHdr, efuseData;
++	u8	offset, wden;
++	u16	i, total, used;
++	u8	efuse_usage;
++
++
++	/* */
++	/* Do NOT excess total size of EFuse table. Added by Roger, 2008.11.10. */
++	/* */
++	if ((_offset + _size_byte) > EFUSE_BT_MAP_LEN) {
++		RTW_INFO("%s: Invalid offset(%#x) with read bytes(%#x)!!\n", __FUNCTION__, _offset, _size_byte);
++		return;
++	}
++
++	efuseTbl = rtw_malloc(EFUSE_BT_MAP_LEN);
++	if (efuseTbl == NULL) {
++		RTW_INFO("%s: efuseTbl malloc fail!\n", __FUNCTION__);
++		return;
++	}
++	/* 0xff will be efuse default value instead of 0x00. */
++	_rtw_memset(efuseTbl, 0xFF, EFUSE_BT_MAP_LEN);
++
++	total = 0;
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_BT, TYPE_AVAILABLE_EFUSE_BYTES_BANK, &total, bPseudoTest);
++
++	for (bank = 1; bank < 3; bank++) { /* 8723d Max bake 0~2 */
++		if (hal_EfuseSwitchToBank(padapter, bank, bPseudoTest) == _FALSE) {
++			RTW_INFO("%s: hal_EfuseSwitchToBank Fail!!\n", __FUNCTION__);
++			goto exit;
++		}
++
++		eFuse_Addr = 0;
++
++		while (AVAILABLE_EFUSE_ADDR(eFuse_Addr)) {
++			/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseHeader, bPseudoTest); */
++			efuse_OneByteRead(padapter, eFuse_Addr++, &efuseHeader, bPseudoTest);
++			if (efuseHeader == 0xFF)
++				break;
++			RTW_INFO("%s: efuse[%#X]=0x%02x (header)\n", __FUNCTION__, (((bank - 1) * EFUSE_REAL_CONTENT_LEN_8723D) + eFuse_Addr - 1), efuseHeader);
++
++			/* Check PG header for section num. */
++			if (EXT_HEADER(efuseHeader)) {	/* extended header */
++				offset = GET_HDR_OFFSET_2_0(efuseHeader);
++				RTW_INFO("%s: extended header offset_2_0=0x%X\n", __FUNCTION__, offset);
++
++				/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseExtHdr, bPseudoTest); */
++				efuse_OneByteRead(padapter, eFuse_Addr++, &efuseExtHdr, bPseudoTest);
++				RTW_INFO("%s: efuse[%#X]=0x%02x (ext header)\n", __FUNCTION__, (((bank - 1) * EFUSE_REAL_CONTENT_LEN_8723D) + eFuse_Addr - 1), efuseExtHdr);
++				if (ALL_WORDS_DISABLED(efuseExtHdr))
++					continue;
++
++				offset |= ((efuseExtHdr & 0xF0) >> 1);
++				wden = (efuseExtHdr & 0x0F);
++			} else {
++				offset = ((efuseHeader >> 4) & 0x0f);
++				wden = (efuseHeader & 0x0f);
++			}
++
++			if (offset < EFUSE_BT_MAX_SECTION) {
++				u16 addr;
++
++				/* Get word enable value from PG header */
++				RTW_INFO("%s: Offset=%d Worden=%#X\n", __FUNCTION__, offset, wden);
++
++				addr = offset * PGPKT_DATA_SIZE;
++				for (i = 0; i < EFUSE_MAX_WORD_UNIT; i++) {
++					/* Check word enable condition in the section */
++					if (!(wden & (0x01 << i))) {
++						efuseData = 0;
++						/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseData, bPseudoTest); */
++						efuse_OneByteRead(padapter, eFuse_Addr++, &efuseData, bPseudoTest);
++						RTW_INFO("%s: efuse[%#X]=0x%02X\n", __FUNCTION__, eFuse_Addr - 1, efuseData);
++						efuseTbl[addr] = efuseData;
++
++						efuseData = 0;
++						/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseData, bPseudoTest); */
++						efuse_OneByteRead(padapter, eFuse_Addr++, &efuseData, bPseudoTest);
++						RTW_INFO("%s: efuse[%#X]=0x%02X\n", __FUNCTION__, eFuse_Addr - 1, efuseData);
++						efuseTbl[addr + 1] = efuseData;
++					}
++					addr += 2;
++				}
++			} else {
++				RTW_INFO("%s: offset(%d) is illegal!!\n", __FUNCTION__, offset);
++				eFuse_Addr += Efuse_CalculateWordCnts(wden) * 2;
++			}
++		}
++
++		if ((eFuse_Addr - 1) < total) {
++			RTW_INFO("%s: bank(%d) data end at %#x\n", __FUNCTION__, bank, eFuse_Addr - 1);
++			break;
++		}
++	}
++
++	/* switch bank back to bank 0 for later BT and wifi use. */
++	hal_EfuseSwitchToBank(padapter, 0, bPseudoTest);
++
++	/* Copy from Efuse map to output pointer memory!!! */
++	for (i = 0; i < _size_byte; i++)
++		pbuf[i] = efuseTbl[_offset + i];
++
++	/* */
++	/* Calculate Efuse utilization. */
++	/* */
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_BT, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, &total, bPseudoTest);
++	used = (EFUSE_BT_REAL_BANK_CONTENT_LEN * (bank - 1)) + eFuse_Addr - 1;
++	RTW_INFO("%s: bank(%d) data end at %#x ,used =%d\n", __FUNCTION__, bank, eFuse_Addr - 1, used);
++	efuse_usage = (u8)((used * 100) / total);
++	if (bPseudoTest) {
++#ifdef HAL_EFUSE_MEMORY
++		pEfuseHal->fakeBTEfuseUsedBytes = used;
++#else
++		fakeBTEfuseUsedBytes = used;
++#endif
++	} else {
++		rtw_hal_set_hwreg(padapter, HW_VAR_EFUSE_BT_BYTES, (u8 *)&used);
++		rtw_hal_set_hwreg(padapter, HW_VAR_EFUSE_BT_USAGE, (u8 *)&efuse_usage);
++	}
++
++exit:
++	if (efuseTbl)
++		rtw_mfree(efuseTbl, EFUSE_BT_MAP_LEN);
++}
++
++static void
++Hal_ReadEFuse(
++	PADAPTER	padapter,
++	u8			efuseType,
++	u16			_offset,
++	u16			_size_byte,
++	u8			*pbuf,
++	u8			bPseudoTest)
++{
++	if (efuseType == EFUSE_WIFI)
++		hal_ReadEFuse_WiFi(padapter, _offset, _size_byte, pbuf, bPseudoTest);
++	else
++		hal_ReadEFuse_BT(padapter, _offset, _size_byte, pbuf, bPseudoTest);
++}
++
++static u16
++hal_EfuseGetCurrentSize_WiFi(
++	PADAPTER	padapter,
++	u8			bPseudoTest)
++{
++#ifdef HAL_EFUSE_MEMORY
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	PEFUSE_HAL		pEfuseHal = &pHalData->EfuseHal;
++#endif
++	u16	efuse_addr = 0;
++	u16 start_addr = 0; /* for debug */
++	u8	hoffset = 0, hworden = 0;
++	u8	efuse_data, word_cnts = 0;
++	u32 count = 0; /* for debug */
++
++
++	if (bPseudoTest) {
++#ifdef HAL_EFUSE_MEMORY
++		efuse_addr = (u16)pEfuseHal->fakeEfuseUsedBytes;
++#else
++		efuse_addr = (u16)fakeEfuseUsedBytes;
++#endif
++	} else
++		rtw_hal_get_hwreg(padapter, HW_VAR_EFUSE_BYTES, (u8 *)&efuse_addr);
++	start_addr = efuse_addr;
++	RTW_INFO("%s: start_efuse_addr=0x%X\n", __FUNCTION__, efuse_addr);
++
++	/* switch bank back to bank 0 for later BT and wifi use. */
++	hal_EfuseSwitchToBank(padapter, 0, bPseudoTest);
++
++#if 0 /* for debug test */
++	efuse_OneByteRead(padapter, 0x1FF, &efuse_data, bPseudoTest);
++	RTW_INFO(FUNC_ADPT_FMT ": efuse raw 0x1FF=0x%02X\n",
++		 FUNC_ADPT_ARG(padapter), efuse_data);
++	efuse_data = 0xFF;
++#endif /* for debug test */
++
++	count = 0;
++	while (AVAILABLE_EFUSE_ADDR(efuse_addr)) {
++#if 1
++		if (efuse_OneByteRead(padapter, efuse_addr, &efuse_data, bPseudoTest) == _FALSE) {
++			RTW_INFO(KERN_ERR "%s: efuse_OneByteRead Fail! addr=0x%X !!\n", __FUNCTION__, efuse_addr);
++			goto error;
++		}
++#else
++		ReadEFuseByte(padapter, efuse_addr, &efuse_data, bPseudoTest);
++#endif
++
++		if (efuse_data == 0xFF)
++			break;
++
++		if ((start_addr != 0) && (efuse_addr == start_addr)) {
++			count++;
++			RTW_INFO(FUNC_ADPT_FMT ": [WARNING] efuse raw 0x%X=0x%02X not 0xFF!!(%d times)\n",
++				FUNC_ADPT_ARG(padapter), efuse_addr, efuse_data, count);
++
++			efuse_data = 0xFF;
++			if (count < 4) {
++				/* try again! */
++
++				if (count > 2) {
++					/* try again form address 0 */
++					efuse_addr = 0;
++					start_addr = 0;
++				}
++
++				continue;
++			}
++
++			goto error;
++		}
++
++		if (EXT_HEADER(efuse_data)) {
++			hoffset = GET_HDR_OFFSET_2_0(efuse_data);
++			efuse_addr++;
++			efuse_OneByteRead(padapter, efuse_addr, &efuse_data, bPseudoTest);
++			if (ALL_WORDS_DISABLED(efuse_data))
++				continue;
++
++			hoffset |= ((efuse_data & 0xF0) >> 1);
++			hworden = efuse_data & 0x0F;
++		} else {
++			hoffset = (efuse_data >> 4) & 0x0F;
++			hworden = efuse_data & 0x0F;
++		}
++
++		word_cnts = Efuse_CalculateWordCnts(hworden);
++		efuse_addr += (word_cnts * 2) + 1;
++	}
++
++	if (bPseudoTest) {
++#ifdef HAL_EFUSE_MEMORY
++		pEfuseHal->fakeEfuseUsedBytes = efuse_addr;
++#else
++		fakeEfuseUsedBytes = efuse_addr;
++#endif
++	} else
++		rtw_hal_set_hwreg(padapter, HW_VAR_EFUSE_BYTES, (u8 *)&efuse_addr);
++
++	goto exit;
++
++error:
++	/* report max size to prevent write efuse */
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, &efuse_addr, bPseudoTest);
++
++exit:
++	RTW_INFO("%s: CurrentSize=%d\n", __FUNCTION__, efuse_addr);
++
++	return efuse_addr;
++}
++
++static u16
++hal_EfuseGetCurrentSize_BT(
++	PADAPTER	padapter,
++	u8			bPseudoTest)
++{
++#ifdef HAL_EFUSE_MEMORY
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	PEFUSE_HAL		pEfuseHal = &pHalData->EfuseHal;
++#endif
++	u16 btusedbytes;
++	u16	efuse_addr;
++	u8	bank, startBank;
++	u8	hoffset = 0, hworden = 0;
++	u8	efuse_data, word_cnts = 0;
++	u16	retU2 = 0;
++	u8 bContinual = _TRUE;
++
++
++	if (bPseudoTest) {
++#ifdef HAL_EFUSE_MEMORY
++		btusedbytes = pEfuseHal->fakeBTEfuseUsedBytes;
++#else
++		btusedbytes = fakeBTEfuseUsedBytes;
++#endif
++	} else {
++		btusedbytes = 0;
++		rtw_hal_get_hwreg(padapter, HW_VAR_EFUSE_BT_BYTES, (u8 *)&btusedbytes);
++	}
++	efuse_addr = (u16)((btusedbytes % EFUSE_BT_REAL_BANK_CONTENT_LEN));
++	startBank = (u8)(1 + (btusedbytes / EFUSE_BT_REAL_BANK_CONTENT_LEN));
++
++	RTW_INFO("%s: start from bank=%d addr=0x%X\n", __FUNCTION__, startBank, efuse_addr);
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_BT, TYPE_AVAILABLE_EFUSE_BYTES_BANK, &retU2, bPseudoTest);
++
++	for (bank = startBank; bank < 3; bank++) {
++		if (hal_EfuseSwitchToBank(padapter, bank, bPseudoTest) == _FALSE) {
++			RTW_INFO(KERN_ERR "%s: switch bank(%d) Fail!!\n", __FUNCTION__, bank);
++			/* bank = EFUSE_MAX_BANK; */
++			break;
++		}
++
++		/* only when bank is switched we have to reset the efuse_addr. */
++		if (bank != startBank)
++			efuse_addr = 0;
++#if 1
++
++		while (AVAILABLE_EFUSE_ADDR(efuse_addr)) {
++			if (efuse_OneByteRead(padapter, efuse_addr, &efuse_data, bPseudoTest) == _FALSE) {
++				RTW_INFO(KERN_ERR "%s: efuse_OneByteRead Fail! addr=0x%X !!\n", __FUNCTION__, efuse_addr);
++				/* bank = EFUSE_MAX_BANK; */
++				break;
++			}
++			RTW_INFO("%s: efuse_OneByteRead ! addr=0x%X !efuse_data=0x%X! bank =%d\n", __FUNCTION__, efuse_addr, efuse_data, bank);
++
++			if (efuse_data == 0xFF)
++				break;
++
++			if (EXT_HEADER(efuse_data)) {
++				hoffset = GET_HDR_OFFSET_2_0(efuse_data);
++				efuse_addr++;
++				efuse_OneByteRead(padapter, efuse_addr, &efuse_data, bPseudoTest);
++				RTW_INFO("%s: efuse_OneByteRead EXT_HEADER ! addr=0x%X !efuse_data=0x%X! bank =%d\n", __FUNCTION__, efuse_addr, efuse_data, bank);
++
++				if (ALL_WORDS_DISABLED(efuse_data)) {
++					efuse_addr++;
++					continue;
++				}
++
++				/*				hoffset = ((hoffset & 0xE0) >> 5) | ((efuse_data & 0xF0) >> 1); */
++				hoffset |= ((efuse_data & 0xF0) >> 1);
++				hworden = efuse_data & 0x0F;
++			} else {
++				hoffset = (efuse_data >> 4) & 0x0F;
++				hworden =  efuse_data & 0x0F;
++			}
++
++			RTW_INFO(FUNC_ADPT_FMT": Offset=%d Worden=%#X\n",
++				 FUNC_ADPT_ARG(padapter), hoffset, hworden);
++
++			word_cnts = Efuse_CalculateWordCnts(hworden);
++			/* read next header */
++			efuse_addr += (word_cnts * 2) + 1;
++		}
++#else
++		while (bContinual &&
++		       efuse_OneByteRead(padapter, efuse_addr , &efuse_data, bPseudoTest) &&
++		       AVAILABLE_EFUSE_ADDR(efuse_addr)) {
++			if (efuse_data != 0xFF) {
++				if ((efuse_data & 0x1F) == 0x0F) {	/* extended header */
++					hoffset = efuse_data;
++					efuse_addr++;
++					efuse_OneByteRead(padapter, efuse_addr , &efuse_data, bPseudoTest);
++					if ((efuse_data & 0x0F) == 0x0F) {
++						efuse_addr++;
++						continue;
++					} else {
++						hoffset = ((hoffset & 0xE0) >> 5) | ((efuse_data & 0xF0) >> 1);
++						hworden = efuse_data & 0x0F;
++					}
++				} else {
++					hoffset = (efuse_data >> 4) & 0x0F;
++					hworden =  efuse_data & 0x0F;
++				}
++				word_cnts = Efuse_CalculateWordCnts(hworden);
++				/* read next header							 */
++				efuse_addr = efuse_addr + (word_cnts * 2) + 1;
++			} else
++				bContinual = _FALSE;
++		}
++#endif
++
++
++		/* Check if we need to check next bank efuse */
++		if (efuse_addr < retU2)
++			break;/* don't need to check next bank. */
++	}
++#if 0
++	retU2 = ((bank - 1) * EFUSE_BT_REAL_BANK_CONTENT_LEN) + efuse_addr;
++	if (bPseudoTest) {
++#ifdef HAL_EFUSE_MEMORY
++		pEfuseHal->fakeBTEfuseUsedBytes = retU2;
++#else
++		fakeBTEfuseUsedBytes = retU2;
++#endif
++	} else
++		rtw_hal_set_hwreg(padapter, HW_VAR_EFUSE_BT_BYTES, (u8 *)&retU2);
++#else
++	retU2 = ((bank - 1) * EFUSE_BT_REAL_BANK_CONTENT_LEN) + efuse_addr;
++	if (bPseudoTest) {
++		pEfuseHal->fakeBTEfuseUsedBytes = retU2;
++		/* RT_DISP(FEEPROM, EFUSE_PG, ("Hal_EfuseGetCurrentSize_BT92C(), already use %u bytes\n", pEfuseHal->fakeBTEfuseUsedBytes)); */
++	} else {
++		pEfuseHal->BTEfuseUsedBytes = retU2;
++		/* RT_DISP(FEEPROM, EFUSE_PG, ("Hal_EfuseGetCurrentSize_BT92C(), already use %u bytes\n", pEfuseHal->BTEfuseUsedBytes)); */
++	}
++#endif
++
++	RTW_INFO("%s: CurrentSize=%d\n", __FUNCTION__, retU2);
++	return retU2;
++}
++
++static u16
++Hal_EfuseGetCurrentSize(
++	PADAPTER	pAdapter,
++	u8			efuseType,
++	u8			bPseudoTest)
++{
++	u16	ret = 0;
++
++	if (efuseType == EFUSE_WIFI)
++		ret = hal_EfuseGetCurrentSize_WiFi(pAdapter, bPseudoTest);
++	else
++		ret = hal_EfuseGetCurrentSize_BT(pAdapter, bPseudoTest);
++
++	return ret;
++}
++
++static u8
++Hal_EfuseWordEnableDataWrite(
++	PADAPTER	padapter,
++	u16			efuse_addr,
++	u8			word_en,
++	u8			*data,
++	u8			bPseudoTest)
++{
++	u16	tmpaddr = 0;
++	u16	start_addr = efuse_addr;
++	u8	badworden = 0x0F;
++	u8	tmpdata[PGPKT_DATA_SIZE];
++
++
++	/*	RTW_INFO("%s: efuse_addr=%#x word_en=%#x\n", __FUNCTION__, efuse_addr, word_en); */
++	_rtw_memset(tmpdata, 0xFF, PGPKT_DATA_SIZE);
++
++	if (!(word_en & BIT(0))) {
++		tmpaddr = start_addr;
++		efuse_OneByteWrite(padapter, start_addr++, data[0], bPseudoTest);
++		efuse_OneByteWrite(padapter, start_addr++, data[1], bPseudoTest);
++
++		efuse_OneByteRead(padapter, tmpaddr, &tmpdata[0], bPseudoTest);
++		efuse_OneByteRead(padapter, tmpaddr + 1, &tmpdata[1], bPseudoTest);
++		if ((data[0] != tmpdata[0]) || (data[1] != tmpdata[1]))
++			badworden &= (~BIT(0));
++	}
++	if (!(word_en & BIT(1))) {
++		tmpaddr = start_addr;
++		efuse_OneByteWrite(padapter, start_addr++, data[2], bPseudoTest);
++		efuse_OneByteWrite(padapter, start_addr++, data[3], bPseudoTest);
++
++		efuse_OneByteRead(padapter, tmpaddr, &tmpdata[2], bPseudoTest);
++		efuse_OneByteRead(padapter, tmpaddr + 1, &tmpdata[3], bPseudoTest);
++		if ((data[2] != tmpdata[2]) || (data[3] != tmpdata[3]))
++			badworden &= (~BIT(1));
++	}
++	if (!(word_en & BIT(2))) {
++		tmpaddr = start_addr;
++		efuse_OneByteWrite(padapter, start_addr++, data[4], bPseudoTest);
++		efuse_OneByteWrite(padapter, start_addr++, data[5], bPseudoTest);
++
++		efuse_OneByteRead(padapter, tmpaddr, &tmpdata[4], bPseudoTest);
++		efuse_OneByteRead(padapter, tmpaddr + 1, &tmpdata[5], bPseudoTest);
++		if ((data[4] != tmpdata[4]) || (data[5] != tmpdata[5]))
++			badworden &= (~BIT(2));
++	}
++	if (!(word_en & BIT(3))) {
++		tmpaddr = start_addr;
++		efuse_OneByteWrite(padapter, start_addr++, data[6], bPseudoTest);
++		efuse_OneByteWrite(padapter, start_addr++, data[7], bPseudoTest);
++
++		efuse_OneByteRead(padapter, tmpaddr, &tmpdata[6], bPseudoTest);
++		efuse_OneByteRead(padapter, tmpaddr + 1, &tmpdata[7], bPseudoTest);
++		if ((data[6] != tmpdata[6]) || (data[7] != tmpdata[7]))
++			badworden &= (~BIT(3));
++	}
++
++	return badworden;
++}
++
++static s32
++Hal_EfusePgPacketRead(
++	PADAPTER	padapter,
++	u8			offset,
++	u8			*data,
++	u8			bPseudoTest)
++{
++	u8	bDataEmpty = _TRUE;
++	u8	efuse_data, word_cnts = 0;
++	u16	efuse_addr = 0;
++	u8	hoffset = 0, hworden = 0;
++	u8	i;
++	u8	max_section = 0;
++	s32	ret;
++
++
++	if (data == NULL)
++		return _FALSE;
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAX_SECTION, &max_section, bPseudoTest);
++	if (offset > max_section) {
++		RTW_INFO("%s: Packet offset(%d) is illegal(>%d)!\n", __FUNCTION__, offset, max_section);
++		return _FALSE;
++	}
++
++	_rtw_memset(data, 0xFF, PGPKT_DATA_SIZE);
++	ret = _TRUE;
++
++	/* */
++	/* <Roger_TODO> Efuse has been pre-programmed dummy 5Bytes at the end of Efuse by CP. */
++	/* Skip dummy parts to prevent unexpected data read from Efuse. */
++	/* By pass right now. 2009.02.19. */
++	/* */
++	while (AVAILABLE_EFUSE_ADDR(efuse_addr)) {
++		if (efuse_OneByteRead(padapter, efuse_addr++, &efuse_data, bPseudoTest) == _FALSE) {
++			ret = _FALSE;
++			break;
++		}
++
++		if (efuse_data == 0xFF)
++			break;
++
++		if (EXT_HEADER(efuse_data)) {
++			hoffset = GET_HDR_OFFSET_2_0(efuse_data);
++			efuse_OneByteRead(padapter, efuse_addr++, &efuse_data, bPseudoTest);
++			if (ALL_WORDS_DISABLED(efuse_data)) {
++				RTW_INFO("%s: Error!! All words disabled!\n", __FUNCTION__);
++				continue;
++			}
++
++			hoffset |= ((efuse_data & 0xF0) >> 1);
++			hworden = efuse_data & 0x0F;
++		} else {
++			hoffset = (efuse_data >> 4) & 0x0F;
++			hworden =  efuse_data & 0x0F;
++		}
++
++		if (hoffset == offset) {
++			for (i = 0; i < EFUSE_MAX_WORD_UNIT; i++) {
++				/* Check word enable condition in the section */
++				if (!(hworden & (0x01 << i))) {
++					/* ReadEFuseByte(padapter, efuse_addr++, &efuse_data, bPseudoTest); */
++					efuse_OneByteRead(padapter, efuse_addr++, &efuse_data, bPseudoTest);
++					/*					RTW_INFO("%s: efuse[%#X]=0x%02X\n", __FUNCTION__, efuse_addr+tmpidx, efuse_data); */
++					data[i * 2] = efuse_data;
++
++					/* ReadEFuseByte(padapter, efuse_addr++, &efuse_data, bPseudoTest); */
++					efuse_OneByteRead(padapter, efuse_addr++, &efuse_data, bPseudoTest);
++					/*					RTW_INFO("%s: efuse[%#X]=0x%02X\n", __FUNCTION__, efuse_addr+tmpidx, efuse_data); */
++					data[(i * 2) + 1] = efuse_data;
++				}
++			}
++		} else {
++			word_cnts = Efuse_CalculateWordCnts(hworden);
++			efuse_addr += word_cnts * 2;
++		}
++	}
++
++	return ret;
++}
++
++static u8
++hal_EfusePgCheckAvailableAddr(
++	PADAPTER	pAdapter,
++	u8			efuseType,
++	u8		bPseudoTest)
++{
++	u16	max_available = 0;
++	u16 current_size;
++
++
++	EFUSE_GetEfuseDefinition(pAdapter, efuseType, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, &max_available, bPseudoTest);
++	/*	RTW_INFO("%s: max_available=%d\n", __FUNCTION__, max_available); */
++
++	current_size = Efuse_GetCurrentSize(pAdapter, efuseType, bPseudoTest);
++	if (current_size >= max_available) {
++		RTW_INFO("%s: Error!! current_size(%d)>max_available(%d)\n", __FUNCTION__, current_size, max_available);
++		return _FALSE;
++	}
++	return _TRUE;
++}
++
++static void
++hal_EfuseConstructPGPkt(
++	u8				offset,
++	u8				word_en,
++	u8				*pData,
++	PPGPKT_STRUCT	pTargetPkt)
++{
++	_rtw_memset(pTargetPkt->data, 0xFF, PGPKT_DATA_SIZE);
++	pTargetPkt->offset = offset;
++	pTargetPkt->word_en = word_en;
++	efuse_WordEnableDataRead(word_en, pData, pTargetPkt->data);
++	pTargetPkt->word_cnts = Efuse_CalculateWordCnts(pTargetPkt->word_en);
++}
++
++#if 0
++static u8
++wordEnMatched(
++	PPGPKT_STRUCT	pTargetPkt,
++	PPGPKT_STRUCT	pCurPkt,
++	u8				*pWden)
++{
++	u8	match_word_en = 0x0F;	/* default all words are disabled */
++	u8	i;
++
++	/* check if the same words are enabled both target and current PG packet */
++	if (((pTargetPkt->word_en & BIT(0)) == 0) &&
++	    ((pCurPkt->word_en & BIT(0)) == 0)) {
++		match_word_en &= ~BIT(0);				/* enable word 0 */
++	}
++	if (((pTargetPkt->word_en & BIT(1)) == 0) &&
++	    ((pCurPkt->word_en & BIT(1)) == 0)) {
++		match_word_en &= ~BIT(1);				/* enable word 1 */
++	}
++	if (((pTargetPkt->word_en & BIT(2)) == 0) &&
++	    ((pCurPkt->word_en & BIT(2)) == 0)) {
++		match_word_en &= ~BIT(2);				/* enable word 2 */
++	}
++	if (((pTargetPkt->word_en & BIT(3)) == 0) &&
++	    ((pCurPkt->word_en & BIT(3)) == 0)) {
++		match_word_en &= ~BIT(3);				/* enable word 3 */
++	}
++
++	*pWden = match_word_en;
++
++	if (match_word_en != 0xf)
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++static u8
++hal_EfuseCheckIfDatafollowed(
++	PADAPTER		pAdapter,
++	u8				word_cnts,
++	u16				startAddr,
++	u8				bPseudoTest)
++{
++	u8 bRet = _FALSE;
++	u8 i, efuse_data;
++
++	for (i = 0; i < (word_cnts * 2); i++) {
++		if (efuse_OneByteRead(pAdapter, (startAddr + i) , &efuse_data, bPseudoTest) == _FALSE) {
++			RTW_INFO("%s: efuse_OneByteRead FAIL!!\n", __FUNCTION__);
++			bRet = _TRUE;
++			break;
++		}
++
++		if (efuse_data != 0xFF) {
++			bRet = _TRUE;
++			break;
++		}
++	}
++
++	return bRet;
++}
++#endif
++
++static u8
++hal_EfusePartialWriteCheck(
++	PADAPTER		padapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	PEFUSE_HAL		pEfuseHal = &pHalData->EfuseHal;
++	u8	bRet = _FALSE;
++	u16	startAddr = 0, efuse_max_available_len = 0, efuse_max = 0;
++	u8	efuse_data = 0;
++#if 0
++	u8	i, cur_header = 0;
++	u8	new_wden = 0, matched_wden = 0, badworden = 0;
++	PGPKT_STRUCT	curPkt;
++#endif
++
++
++	EFUSE_GetEfuseDefinition(padapter, efuseType, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, &efuse_max_available_len, bPseudoTest);
++	EFUSE_GetEfuseDefinition(padapter, efuseType, TYPE_EFUSE_CONTENT_LEN_BANK, &efuse_max, bPseudoTest);
++
++	if (efuseType == EFUSE_WIFI) {
++		if (bPseudoTest) {
++#ifdef HAL_EFUSE_MEMORY
++			startAddr = (u16)pEfuseHal->fakeEfuseUsedBytes;
++#else
++			startAddr = (u16)fakeEfuseUsedBytes;
++#endif
++		} else
++			rtw_hal_get_hwreg(padapter, HW_VAR_EFUSE_BYTES, (u8 *)&startAddr);
++	} else {
++		if (bPseudoTest) {
++#ifdef HAL_EFUSE_MEMORY
++			startAddr = (u16)pEfuseHal->fakeBTEfuseUsedBytes;
++#else
++			startAddr = (u16)fakeBTEfuseUsedBytes;
++#endif
++		} else
++			rtw_hal_get_hwreg(padapter, HW_VAR_EFUSE_BT_BYTES, (u8 *)&startAddr);
++	}
++	startAddr %= efuse_max;
++	RTW_INFO("%s: startAddr=%#X\n", __FUNCTION__, startAddr);
++
++	while (1) {
++		if (startAddr >= efuse_max_available_len) {
++			bRet = _FALSE;
++			RTW_INFO("%s: startAddr(%d) >= efuse_max_available_len(%d)\n",
++				__FUNCTION__, startAddr, efuse_max_available_len);
++			break;
++		}
++
++		if (efuse_OneByteRead(padapter, startAddr, &efuse_data, bPseudoTest) && (efuse_data != 0xFF)) {
++#if 1
++			bRet = _FALSE;
++			RTW_INFO("%s: Something Wrong! last bytes(%#X=0x%02X) is not 0xFF\n",
++				 __FUNCTION__, startAddr, efuse_data);
++			break;
++#else
++			if (EXT_HEADER(efuse_data)) {
++				cur_header = efuse_data;
++				startAddr++;
++				efuse_OneByteRead(padapter, startAddr, &efuse_data, bPseudoTest);
++				if (ALL_WORDS_DISABLED(efuse_data)) {
++					RTW_INFO("%s: Error condition, all words disabled!", __FUNCTION__);
++					bRet = _FALSE;
++					break;
++				} /*else*/
++				{
++					curPkt.offset = ((cur_header & 0xE0) >> 5) | ((efuse_data & 0xF0) >> 1);
++					curPkt.word_en = efuse_data & 0x0F;
++				}
++			} else {
++				cur_header  =  efuse_data;
++				curPkt.offset = (cur_header >> 4) & 0x0F;
++				curPkt.word_en = cur_header & 0x0F;
++			}
++
++			curPkt.word_cnts = Efuse_CalculateWordCnts(curPkt.word_en);
++			/* if same header is found but no data followed */
++			/* write some part of data followed by the header. */
++			if ((curPkt.offset == pTargetPkt->offset) &&
++			    (hal_EfuseCheckIfDatafollowed(padapter, curPkt.word_cnts, startAddr + 1, bPseudoTest) == _FALSE) &&
++			    wordEnMatched(pTargetPkt, &curPkt, &matched_wden) == _TRUE) {
++				RTW_INFO("%s: Need to partial write data by the previous wrote header\n", __FUNCTION__);
++				/* Here to write partial data */
++				badworden = Efuse_WordEnableDataWrite(padapter, startAddr + 1, matched_wden, pTargetPkt->data, bPseudoTest);
++				if (badworden != 0x0F) {
++					u32	PgWriteSuccess = 0;
++					/* if write fail on some words, write these bad words again */
++					if (efuseType == EFUSE_WIFI)
++						PgWriteSuccess = Efuse_PgPacketWrite(padapter, pTargetPkt->offset, badworden, pTargetPkt->data, bPseudoTest);
++					else
++						PgWriteSuccess = Efuse_PgPacketWrite_BT(padapter, pTargetPkt->offset, badworden, pTargetPkt->data, bPseudoTest);
++
++					if (!PgWriteSuccess) {
++						bRet = _FALSE;	/* write fail, return */
++						break;
++					}
++				}
++				/* partial write ok, update the target packet for later use */
++				for (i = 0; i < 4; i++) {
++					if ((matched_wden & (0x1 << i)) == 0) {	/* this word has been written */
++						pTargetPkt->word_en |= (0x1 << i);	/* disable the word */
++					}
++				}
++				pTargetPkt->word_cnts = Efuse_CalculateWordCnts(pTargetPkt->word_en);
++			}
++			/* read from next header */
++			startAddr = startAddr + (curPkt.word_cnts * 2) + 1;
++#endif
++		} else {
++			/* not used header, 0xff */
++			*pAddr = startAddr;
++			/*			RTW_INFO("%s: Started from unused header offset=%d\n", __FUNCTION__, startAddr)); */
++			bRet = _TRUE;
++			break;
++		}
++	}
++
++	return bRet;
++}
++
++static u8
++hal_EfusePgPacketWrite1ByteHeader(
++	PADAPTER		pAdapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	u8	bRet = _FALSE;
++	u8	pg_header = 0, tmp_header = 0;
++	u16	efuse_addr = *pAddr;
++	u8	repeatcnt = 0;
++
++
++	/*	RTW_INFO("%s\n", __FUNCTION__); */
++	pg_header = ((pTargetPkt->offset << 4) & 0xf0) | pTargetPkt->word_en;
++
++	do {
++		efuse_OneByteWrite(pAdapter, efuse_addr, pg_header, bPseudoTest);
++		efuse_OneByteRead(pAdapter, efuse_addr, &tmp_header, bPseudoTest);
++		if (tmp_header != 0xFF)
++			break;
++		if (repeatcnt++ > EFUSE_REPEAT_THRESHOLD_) {
++			RTW_INFO("%s: Repeat over limit for pg_header!!\n", __FUNCTION__);
++			return _FALSE;
++		}
++	} while (1);
++
++	if (tmp_header != pg_header) {
++		RTW_INFO(KERN_ERR "%s: PG Header Fail!!(pg=0x%02X read=0x%02X)\n", __FUNCTION__, pg_header, tmp_header);
++		return _FALSE;
++	}
++
++	*pAddr = efuse_addr;
++
++	return _TRUE;
++}
++
++static u8
++hal_EfusePgPacketWrite2ByteHeader(
++	PADAPTER		padapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	u16	efuse_addr, efuse_max_available_len = 0;
++	u8	pg_header = 0, tmp_header = 0;
++	u8	repeatcnt = 0;
++
++
++	/*	RTW_INFO("%s\n", __FUNCTION__); */
++	EFUSE_GetEfuseDefinition(padapter, efuseType, TYPE_AVAILABLE_EFUSE_BYTES_BANK, &efuse_max_available_len, bPseudoTest);
++
++	efuse_addr = *pAddr;
++	if (efuse_addr >= efuse_max_available_len) {
++		RTW_INFO("%s: addr(%d) over available(%d)!!\n", __FUNCTION__, efuse_addr, efuse_max_available_len);
++		return _FALSE;
++	}
++
++	pg_header = ((pTargetPkt->offset & 0x07) << 5) | 0x0F;
++	/*	RTW_INFO("%s: pg_header=0x%x\n", __FUNCTION__, pg_header); */
++
++	do {
++		efuse_OneByteWrite(padapter, efuse_addr, pg_header, bPseudoTest);
++		efuse_OneByteRead(padapter, efuse_addr, &tmp_header, bPseudoTest);
++		if (tmp_header != 0xFF)
++			break;
++		if (repeatcnt++ > EFUSE_REPEAT_THRESHOLD_) {
++			RTW_INFO("%s: Repeat over limit for pg_header!!\n", __FUNCTION__);
++			return _FALSE;
++		}
++	} while (1);
++
++	if (tmp_header != pg_header) {
++		RTW_INFO(KERN_ERR "%s: PG Header Fail!!(pg=0x%02X read=0x%02X)\n", __FUNCTION__, pg_header, tmp_header);
++		return _FALSE;
++	}
++
++	/* to write ext_header */
++	efuse_addr++;
++	pg_header = ((pTargetPkt->offset & 0x78) << 1) | pTargetPkt->word_en;
++
++	do {
++		efuse_OneByteWrite(padapter, efuse_addr, pg_header, bPseudoTest);
++		efuse_OneByteRead(padapter, efuse_addr, &tmp_header, bPseudoTest);
++		if (tmp_header != 0xFF)
++			break;
++		if (repeatcnt++ > EFUSE_REPEAT_THRESHOLD_) {
++			RTW_INFO("%s: Repeat over limit for ext_header!!\n", __FUNCTION__);
++			return _FALSE;
++		}
++	} while (1);
++
++	if (tmp_header != pg_header) {	/* offset PG fail */
++		RTW_INFO(KERN_ERR "%s: PG EXT Header Fail!!(pg=0x%02X read=0x%02X)\n", __FUNCTION__, pg_header, tmp_header);
++		return _FALSE;
++	}
++
++	*pAddr = efuse_addr;
++
++	return _TRUE;
++}
++
++static u8
++hal_EfusePgPacketWriteHeader(
++	PADAPTER		padapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	u8 bRet = _FALSE;
++
++	if (pTargetPkt->offset >= EFUSE_MAX_SECTION_BASE)
++		bRet = hal_EfusePgPacketWrite2ByteHeader(padapter, efuseType, pAddr, pTargetPkt, bPseudoTest);
++	else
++		bRet = hal_EfusePgPacketWrite1ByteHeader(padapter, efuseType, pAddr, pTargetPkt, bPseudoTest);
++
++	return bRet;
++}
++
++static u8
++hal_EfusePgPacketWriteData(
++	PADAPTER		pAdapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	u16	efuse_addr;
++	u8	badworden;
++
++
++	efuse_addr = *pAddr;
++	badworden = Efuse_WordEnableDataWrite(pAdapter, efuse_addr + 1, pTargetPkt->word_en, pTargetPkt->data, bPseudoTest);
++	if (badworden != 0x0F) {
++		RTW_INFO("%s: Fail!!\n", __FUNCTION__);
++		return _FALSE;
++	}
++
++	/*	RTW_INFO("%s: ok\n", __FUNCTION__); */
++	return _TRUE;
++}
++
++static s32
++Hal_EfusePgPacketWrite(
++	PADAPTER	padapter,
++	u8			offset,
++	u8			word_en,
++	u8			*pData,
++	u8			bPseudoTest)
++{
++	PGPKT_STRUCT targetPkt;
++	u16 startAddr = 0;
++	u8 efuseType = EFUSE_WIFI;
++
++	if (!hal_EfusePgCheckAvailableAddr(padapter, efuseType, bPseudoTest))
++		return _FALSE;
++
++	hal_EfuseConstructPGPkt(offset, word_en, pData, &targetPkt);
++
++	if (!hal_EfusePartialWriteCheck(padapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	if (!hal_EfusePgPacketWriteHeader(padapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	if (!hal_EfusePgPacketWriteData(padapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	return _TRUE;
++}
++
++static u8
++Hal_EfusePgPacketWrite_BT(
++	PADAPTER	pAdapter,
++	u8			offset,
++	u8			word_en,
++	u8			*pData,
++	u8			bPseudoTest)
++{
++	PGPKT_STRUCT targetPkt;
++	u16 startAddr = 0;
++	u8 efuseType = EFUSE_BT;
++
++	if (!hal_EfusePgCheckAvailableAddr(pAdapter, efuseType, bPseudoTest))
++		return _FALSE;
++
++	hal_EfuseConstructPGPkt(offset, word_en, pData, &targetPkt);
++
++	if (!hal_EfusePartialWriteCheck(pAdapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	if (!hal_EfusePgPacketWriteHeader(pAdapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	if (!hal_EfusePgPacketWriteData(pAdapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	return _TRUE;
++}
++
++
++static void read_chip_version_8723d(PADAPTER padapter)
++{
++	u32				value32;
++	HAL_DATA_TYPE	*pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++
++	value32 = rtw_read32(padapter, REG_SYS_CFG);
++	pHalData->VersionID.ICType = CHIP_8723D;
++	pHalData->VersionID.ChipType = ((value32 & RTL_ID) ? TEST_CHIP : NORMAL_CHIP);
++	pHalData->VersionID.RFType = RF_TYPE_1T1R;
++	pHalData->VersionID.VendorType = ((value32 & VENDOR_ID) ? CHIP_VENDOR_UMC : CHIP_VENDOR_TSMC);
++	pHalData->VersionID.CUTVersion = (value32 & CHIP_VER_RTL_MASK) >> CHIP_VER_RTL_SHIFT; /* IC version (CUT) */
++
++	/* For regulator mode. by tynli. 2011.01.14 */
++	pHalData->RegulatorMode = ((value32 & SPS_SEL) ? RT_LDO_REGULATOR : RT_SWITCHING_REGULATOR);
++
++	value32 = rtw_read32(padapter, REG_GPIO_OUTSTS);
++	pHalData->VersionID.ROMVer = ((value32 & RF_RL_ID) >> 20);	/* ROM code version. */
++
++	/* For multi-function consideration. Added by Roger, 2010.10.06. */
++	pHalData->MultiFunc = RT_MULTI_FUNC_NONE;
++	value32 = rtw_read32(padapter, REG_MULTI_FUNC_CTRL);
++	pHalData->MultiFunc |= ((value32 & WL_FUNC_EN) ? RT_MULTI_FUNC_WIFI : 0);
++	pHalData->MultiFunc |= ((value32 & BT_FUNC_EN) ? RT_MULTI_FUNC_BT : 0);
++	pHalData->MultiFunc |= ((value32 & GPS_FUNC_EN) ? RT_MULTI_FUNC_GPS : 0);
++	pHalData->PolarityCtl = ((value32 & WL_HWPDN_SL) ? RT_POLARITY_HIGH_ACT : RT_POLARITY_LOW_ACT);
++
++	rtw_hal_config_rftype(padapter);
++
++	/*
++		if( IS_B_CUT(pHalData->VersionID) || IS_C_CUT(pHalData->VersionID))
++		{
++			RTW_INFO(" IS_B/C_CUT SWR up 1 level !!!!!!!!!!!!!!!!!\n");
++			PHY_SetMacReg(padapter, 0x14, BIT(23)|BIT(22)|BIT(21)|BIT(20), 0x5);
++		}else if ( IS_D_CUT(pHalData->VersionID))
++		{
++			RTW_INFO(" IS_D_CUT SKIP SWR !!!!!!!!!!!!!!!!!\n");
++		}
++	*/
++
++#if 1
++	dump_chip_info(pHalData->VersionID);
++#endif
++
++}
++
++
++void rtl8723d_InitBeaconParameters(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++	u16 val16;
++	u8 val8;
++
++
++	val8 = DIS_TSF_UDT;
++	val16 = val8 | (val8 << 8); /* port0 and port1 */
++#ifdef CONFIG_BT_COEXIST
++	/* Enable prot0 beacon function for PSTDMA */
++	val16 |= EN_BCN_FUNCTION;
++#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++	val16 |= (EN_BCN_FUNCTION << 8);
++#endif
++	rtw_write16(padapter, REG_BCN_CTRL, val16);
++
++	/* TODO: Remove these magic number */
++	rtw_write16(padapter, REG_TBTT_PROHIBIT, 0x6404);/* ms */
++	/* Firmware will control REG_DRVERLYINT when power saving is enable, */
++	/* so don't set this register on STA mode. */
++	if (check_fwstate(&padapter->mlmepriv, WIFI_STATION_STATE) == _FALSE)
++		rtw_write8(padapter, REG_DRVERLYINT, DRIVER_EARLY_INT_TIME_8723D); /* 5ms */
++	rtw_write8(padapter, REG_BCNDMATIM, BCN_DMA_ATIME_INT_TIME_8723D); /* 2ms */
++
++	/* Suggested by designer timchen. Change beacon AIFS to the largest number */
++	/* beacause test chip does not contension before sending beacon. by tynli. 2009.11.03 */
++	rtw_write16(padapter, REG_BCNTCFG, 0x660F);
++
++	pHalData->RegBcnCtrlVal = rtw_read8(padapter, REG_BCN_CTRL);
++	pHalData->RegTxPause = rtw_read8(padapter, REG_TXPAUSE);
++	pHalData->RegFwHwTxQCtrl = rtw_read8(padapter, REG_FWHW_TXQ_CTRL + 2);
++	pHalData->RegReg542 = rtw_read8(padapter, REG_TBTT_PROHIBIT + 2);
++	pHalData->RegCR_1 = rtw_read8(padapter, REG_CR + 1);
++}
++
++void rtl8723d_InitBeaconMaxError(PADAPTER padapter, u8 InfraMode)
++{
++#ifdef CONFIG_ADHOC_WORKAROUND_SETTING
++	rtw_write8(padapter, REG_BCN_MAX_ERR, 0xFF);
++#else
++	/* rtw_write8(Adapter, REG_BCN_MAX_ERR, (InfraMode ? 0xFF : 0x10)); */
++#endif
++}
++
++void	_InitBurstPktLen_8723DS(PADAPTER Adapter)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++
++	//rtw_write8(Adapter, 0x4c7, rtw_read8(Adapter, 0x4c7) | BIT(7)); /* enable single pkt ampdu */
++	rtw_write8(Adapter, REG_RX_PKT_LIMIT_8723D, 0x18);		/* for VHT packet length 11K */
++	rtw_write16(Adapter, REG_MAX_AGGR_NUM_8723D, 0x0A0A);
++	rtw_write8(Adapter, REG_PIFS_8723D, 0x00);
++	rtw_write8(Adapter, REG_FWHW_TXQ_CTRL_8723D, rtw_read8(Adapter, REG_FWHW_TXQ_CTRL) & (~BIT(7)));
++	if (pHalData->AMPDUBurstMode)
++		rtw_write8(Adapter, REG_AMPDU_BURST_MODE_8723D,  0x5F);
++	rtw_write8(Adapter, REG_AMPDU_MAX_TIME_8723D, 0x1C);
++
++	/* ARFB table 9 for 11ac 5G 2SS */
++	rtw_write32(Adapter, REG_ARFR0_8723D, 0x00000010);
++	if (IS_NORMAL_CHIP(pHalData->VersionID))
++		rtw_write32(Adapter, REG_ARFR0_8723D + 4, 0xfffff000);
++	else
++		rtw_write32(Adapter, REG_ARFR0_8723D + 4, 0x3e0ff000);
++
++	/* ARFB table 10 for 11ac 5G 1SS */
++	rtw_write32(Adapter, REG_ARFR1_8723D, 0x00000010);
++	rtw_write32(Adapter, REG_ARFR1_8723D + 4, 0x003ff000);
++}
++
++void _InitLTECoex_8723DS(PADAPTER Adapter)
++{
++	/* LTE COEX setting */
++	rtw_write16(Adapter, REG_LTECOEX_WRITE_DATA, 0x7700);
++	rtw_write32(Adapter, REG_LTECOEX_CTRL, 0xc0020038);
++	rtw_write8(Adapter, 0x73, 0x04);
++}
++
++void _InitMacAPLLSetting_8723D(PADAPTER Adapter)
++{
++	u16 RegValue;
++
++	RegValue = rtw_read16(Adapter, REG_AFE_CTRL_4_8723D);
++	RegValue |= BIT(4);
++	RegValue |= BIT(15);
++	rtw_write16(Adapter, REG_AFE_CTRL_4_8723D, RegValue);
++}
++
++static void _BeaconFunctionEnable(PADAPTER padapter, u8 Enable, u8 Linked)
++{
++	rtw_write8(padapter, REG_BCN_CTRL, DIS_TSF_UDT | EN_BCN_FUNCTION | DIS_BCNQ_SUB);
++	rtw_write8(padapter, REG_RD_CTRL + 1, 0x6F);
++}
++
++static void rtl8723d_SetBeaconRelatedRegisters(PADAPTER padapter)
++{
++	u8 val8;
++	u32 value32;
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &pmlmeext->mlmext_info;
++	u32 bcn_ctrl_reg;
++
++	/* reset TSF, enable update TSF, correcting TSF On Beacon */
++
++	/* REG_BCN_INTERVAL */
++	/* REG_BCNDMATIM */
++	/* REG_ATIMWND */
++	/* REG_TBTT_PROHIBIT */
++	/* REG_DRVERLYINT */
++	/* REG_BCN_MAX_ERR */
++	/* REG_BCNTCFG //(0x510) */
++	/* REG_DUAL_TSF_RST */
++	/* REG_BCN_CTRL //(0x550) */
++
++
++	bcn_ctrl_reg = REG_BCN_CTRL;
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->hw_port == HW_PORT1)
++		bcn_ctrl_reg = REG_BCN_CTRL_1;
++#endif
++
++	/* */
++	/* ATIM window */
++	/* */
++	rtw_write16(padapter, REG_ATIMWND, 2);
++
++	/* */
++	/* Beacon interval (in unit of TU). */
++	/* */
++	rtw_write16(padapter, REG_BCN_INTERVAL, pmlmeinfo->bcn_interval);
++
++	rtl8723d_InitBeaconParameters(padapter);
++
++	rtw_write8(padapter, REG_SLOT, 0x09);
++
++	/* */
++	/* Reset TSF Timer to zero, added by Roger. 2008.06.24 */
++	/* */
++	value32 = rtw_read32(padapter, REG_TCR);
++	value32 &= ~TSFRST;
++	rtw_write32(padapter, REG_TCR, value32);
++
++	value32 |= TSFRST;
++	rtw_write32(padapter, REG_TCR, value32);
++
++	/* NOTE: Fix test chip's bug (about contention windows's randomness) */
++	if (check_fwstate(&padapter->mlmepriv, WIFI_ADHOC_STATE | WIFI_ADHOC_MASTER_STATE | WIFI_AP_STATE) == _TRUE) {
++		rtw_write8(padapter, REG_RXTSF_OFFSET_CCK, 0x50);
++		rtw_write8(padapter, REG_RXTSF_OFFSET_OFDM, 0x50);
++	}
++
++	_BeaconFunctionEnable(padapter, _TRUE, _TRUE);
++
++	ResumeTxBeacon(padapter);
++	val8 = rtw_read8(padapter, bcn_ctrl_reg);
++	val8 |= DIS_BCNQ_SUB;
++	rtw_write8(padapter, bcn_ctrl_reg, val8);
++}
++
++void hal_notch_filter_8723d(_adapter *adapter, bool enable)
++{
++	if (enable) {
++		RTW_INFO("Enable notch filter\n");
++		rtw_write8(adapter, rOFDM0_RxDSP + 1, rtw_read8(adapter, rOFDM0_RxDSP + 1) | BIT(1));
++	} else {
++		RTW_INFO("Disable notch filter\n");
++		rtw_write8(adapter, rOFDM0_RxDSP + 1, rtw_read8(adapter, rOFDM0_RxDSP + 1) & ~BIT(1));
++	}
++}
++
++u8 rtl8723d_MRateIdxToARFRId(PADAPTER padapter, u8 rate_idx)
++{
++	u8 ret = 0;
++	RT_RF_TYPE_DEF_E rftype = (RT_RF_TYPE_DEF_E)GET_RF_TYPE(padapter);
++
++	switch (rate_idx) {
++
++	case RATR_INX_WIRELESS_NGB:
++		if (rftype == RF_1T1R)
++			ret = 1;
++		else
++			ret = 0;
++		break;
++
++	case RATR_INX_WIRELESS_N:
++	case RATR_INX_WIRELESS_NG:
++		if (rftype == RF_1T1R)
++			ret = 5;
++		else
++			ret = 4;
++		break;
++
++	case RATR_INX_WIRELESS_NB:
++		if (rftype == RF_1T1R)
++			ret = 3;
++		else
++			ret = 2;
++		break;
++
++	case RATR_INX_WIRELESS_GB:
++		ret = 6;
++		break;
++
++	case RATR_INX_WIRELESS_G:
++		ret = 7;
++		break;
++
++	case RATR_INX_WIRELESS_B:
++		ret = 8;
++		break;
++
++	case RATR_INX_WIRELESS_MC:
++		if (padapter->mlmeextpriv.cur_wireless_mode & WIRELESS_11BG_24N)
++			ret = 6;
++		else
++			ret = 7;
++		break;
++	case RATR_INX_WIRELESS_AC_N:
++		if (rftype == RF_1T1R) /* || padapter->MgntInfo.VHTHighestOperaRate <= MGN_VHT1SS_MCS9) */
++			ret = 10;
++		else
++			ret = 9;
++		break;
++
++	default:
++		ret = 0;
++		break;
++	}
++
++	return ret;
++}
++
++void UpdateHalRAMask8723D(PADAPTER padapter, struct sta_info *psta, u32 mac_id, u8 rssi_level)
++{
++	u32	mask, rate_bitmap = 0, ratr_bitmap_msb = 0;
++	u8	disable_cck_rate = FALSE, MimoPs_enable = FALSE;
++	u8	shortGIrate = _FALSE;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	u8 bw;
++
++	if (psta == NULL) {
++		RTW_PRINT(FUNC_ADPT_FMT" macid:%u, sta is NULL\n",
++			  FUNC_ADPT_ARG(padapter), mac_id);
++		return;
++	}
++
++	bw = rtw_get_tx_bw_mode(padapter, psta);
++	shortGIrate = query_ra_short_GI(psta, bw);
++
++	mask = psta->ra_mask;
++
++#if 1
++	phydm_UpdateHalRAMask(&pHalData->odmpriv, psta->wireless_mode, pHalData->rf_type, bw, MimoPs_enable, disable_cck_rate, &ratr_bitmap_msb, &mask, rssi_level);
++#else
++	rate_bitmap = 0xffffffff;
++	rate_bitmap = ODM_Get_Rate_Bitmap(&pHalData->odmpriv, mac_id, mask, rssi_level);
++	mask &= rate_bitmap;
++#endif
++
++#ifdef CONFIG_BT_COEXIST
++	rate_bitmap = rtw_btcoex_GetRaMask(padapter);
++	mask &= ~rate_bitmap;
++#endif /* CONFIG_BT_COEXIST */
++
++#ifdef CONFIG_CMCC_TEST
++#ifdef CONFIG_BT_COEXIST
++	if (pmlmeext->cur_wireless_mode & WIRELESS_11G) {
++		if (mac_id == 0) {
++			RTW_INFO("CMCC_BT update raid entry, mask=0x%x\n", mask);
++			/* mask &=0xffffffc0; //disable CCK & <12M OFDM rate for 11G mode for CMCC */
++			mask &= 0xffffff00; /* disable CCK & <24M OFDM rate for 11G mode for CMCC */
++			RTW_INFO("CMCC_BT update raid entry, mask=0x%x\n", mask);
++		}
++	}
++#endif
++#endif
++	RTW_INFO("%s => mac_id:%d, networkType:0x%02x, mask:0x%08x\n\t ==> rssi_level:%d, rate_bitmap:0x%08x\n",
++		__FUNCTION__, mac_id, psta->wireless_mode, mask, rssi_level, rate_bitmap);
++
++	if (pHalData->fw_ractrl == _TRUE)
++		rtl8723d_set_FwMacIdConfig_cmd(padapter, mac_id, psta->raid, bw, shortGIrate, mask);
++
++	/* set correct initial date rate for each mac_id */
++	pHalData->INIDATA_RATE[mac_id] = psta->init_rate;
++	RTW_INFO("%s(): mac_id=%d raid=0x%x bw=%d mask=0x%x init_rate=0x%x\n", __func__, mac_id, psta->raid, bw, mask, psta->init_rate);
++
++	rtw_macid_ctl_set_bw(macid_ctl, mac_id, bw);
++	rtw_macid_ctl_set_rate_bmp0(macid_ctl, mac_id, mask);
++	rtw_update_tx_rate_bmp(adapter_to_dvobj(padapter));
++}
++/*
++ * Description: In normal chip, we should send some packet to Hw which will be used by Fw
++ *			in FW LPS mode. The function is to fill the Tx descriptor of this packets, then
++ *			Fw can tell Hw to send these packet derectly.
++ * Added by tynli. 2009.10.15.
++ *
++ * type1:pspoll, type2:null */
++void rtl8723d_fill_fake_txdesc(
++	PADAPTER	padapter,
++	u8			*pDesc,
++	u32			BufferLen,
++	u8			IsPsPoll,
++	u8			IsBTQosNull,
++	u8			bDataFrame)
++{
++	/* Clear all status */
++	_rtw_memset(pDesc, 0, TXDESC_SIZE);
++
++	SET_TX_DESC_OFFSET_8723D(pDesc, 0x28); /* Offset = 32 */
++
++	SET_TX_DESC_PKT_SIZE_8723D(pDesc, BufferLen); /* Buffer size + command header */
++	SET_TX_DESC_QUEUE_SEL_8723D(pDesc, QSLT_MGNT); /* Fixed queue of Mgnt queue */
++
++	/* Set NAVUSEHDR to prevent Ps-poll AId filed to be changed to error vlaue by Hw. */
++	if (_TRUE == IsPsPoll)
++		SET_TX_DESC_NAV_USE_HDR_8723D(pDesc, 1);
++	else {
++		SET_TX_DESC_HWSEQ_EN_8723D(pDesc, 1); /* Hw set sequence number */
++		SET_TX_DESC_HWSEQ_SEL_8723D(pDesc, 0);
++	}
++
++	if (_TRUE == IsBTQosNull)
++		SET_TX_DESC_BT_INT_8723D(pDesc, 1);
++
++	SET_TX_DESC_USE_RATE_8723D(pDesc, 1); /* use data rate which is set by Sw */
++
++	SET_TX_DESC_TX_RATE_8723D(pDesc, DESC8723D_RATE1M);
++
++	/* */
++	/* Encrypt the data frame if under security mode excepct null data. Suggested by CCW. */
++	/* */
++	if (_TRUE == bDataFrame) {
++		u32 EncAlg;
++
++		EncAlg = padapter->securitypriv.dot11PrivacyAlgrthm;
++		switch (EncAlg) {
++		case _NO_PRIVACY_:
++			SET_TX_DESC_SEC_TYPE_8723D(pDesc, 0x0);
++			break;
++		case _WEP40_:
++		case _WEP104_:
++		case _TKIP_:
++			SET_TX_DESC_SEC_TYPE_8723D(pDesc, 0x1);
++			break;
++		case _SMS4_:
++			SET_TX_DESC_SEC_TYPE_8723D(pDesc, 0x2);
++			break;
++		case _AES_:
++			SET_TX_DESC_SEC_TYPE_8723D(pDesc, 0x3);
++			break;
++		default:
++			SET_TX_DESC_SEC_TYPE_8723D(pDesc, 0x0);
++			break;
++		}
++	}
++
++#if defined(CONFIG_USB_HCI)
++	/*
++	 * USB interface drop packet if the checksum of descriptor isn't correct.
++	 * Using this checksum can let hardware recovery from packet bulk out error (e.g. Cancel URC, Bulk out error.).
++	 */
++	rtl8723d_cal_txdesc_chksum((struct tx_desc *)pDesc);
++#endif
++}
++
++void rtl8723d_InitAntenna_Selection(PADAPTER padapter)
++{
++	rtw_write8(padapter, REG_LEDCFG2, 0x82);
++}
++
++void rtl8723d_CheckAntenna_Selection(PADAPTER padapter)
++{
++#if 0
++	PHAL_DATA_TYPE pHalData;
++	u8 val;
++
++
++	pHalData = GET_HAL_DATA(padapter);
++
++	val = rtw_read8(padapter, REG_LEDCFG2);
++	/* Let 8051 take control antenna setting */
++	if (!(val & BIT(7))) {
++		val |= BIT(7); /* DPDT_SEL_EN, 0x4C[23] */
++		rtw_write8(padapter, REG_LEDCFG2, val);
++	}
++#endif
++}
++void rtl8723d_DeinitAntenna_Selection(PADAPTER padapter)
++{
++#if 0
++	PHAL_DATA_TYPE pHalData;
++	u8 val;
++
++
++	pHalData = GET_HAL_DATA(padapter);
++	val = rtw_read8(padapter, REG_LEDCFG2);
++	/* Let 8051 take control antenna setting */
++	val &= ~BIT(7); /* DPDT_SEL_EN, clear 0x4C[23] */
++	rtw_write8(padapter, REG_LEDCFG2, val);
++#endif
++}
++
++void init_hal_spec_8723d(_adapter *adapter)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++
++	hal_spec->ic_name = "rtl8723d";
++	hal_spec->macid_num = MACID_NUM_8723D;
++	hal_spec->sec_cam_ent_num = SEC_CAM_ENT_NUM_8723D;
++	hal_spec->sec_cap = SEC_CAP_CHK_BMC;
++	hal_spec->rfpath_num = 2;
++	hal_spec->max_tx_cnt = 1;
++	hal_spec->nss_num = NSS_NUM_8723D;
++	hal_spec->band_cap = BAND_CAP_8723D;
++	hal_spec->bw_cap = BW_CAP_8723D;
++	hal_spec->port_num = HW_PORT_NUM_8723D;
++	hal_spec->proto_cap = PROTO_CAP_8723D;
++
++	hal_spec->wl_func = 0
++			    | WL_FUNC_P2P
++			    | WL_FUNC_MIRACAST
++			    | WL_FUNC_TDLS
++			    ;
++}
++
++void rtl8723d_init_default_value(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData;
++	u8 i;
++
++	pHalData = GET_HAL_DATA(padapter);
++
++	padapter->registrypriv.wireless_mode = WIRELESS_11BG_24N;
++
++	/* init default value */
++	pHalData->fw_ractrl = _FALSE;
++	if (!adapter_to_pwrctl(padapter)->bkeepfwalive)
++		pHalData->LastHMEBoxNum = 0;
++
++	/* init phydm default value */
++	pHalData->bIQKInitialized = _FALSE;
++	pHalData->odmpriv.RFCalibrateInfo.TM_Trigger = 0;/* for IQK */
++	pHalData->odmpriv.RFCalibrateInfo.ThermalValue_HP_index = 0;
++	for (i = 0; i < HP_THERMAL_NUM; i++)
++		pHalData->odmpriv.RFCalibrateInfo.ThermalValue_HP[i] = 0;
++
++	/* init Efuse variables */
++	pHalData->EfuseUsedBytes = 0;
++	pHalData->EfuseUsedPercentage = 0;
++#ifdef HAL_EFUSE_MEMORY
++	pHalData->EfuseHal.fakeEfuseBank = 0;
++	pHalData->EfuseHal.fakeEfuseUsedBytes = 0;
++	_rtw_memset(pHalData->EfuseHal.fakeEfuseContent, 0xFF, EFUSE_MAX_HW_SIZE);
++	_rtw_memset(pHalData->EfuseHal.fakeEfuseInitMap, 0xFF, EFUSE_MAX_MAP_LEN);
++	_rtw_memset(pHalData->EfuseHal.fakeEfuseModifiedMap, 0xFF, EFUSE_MAX_MAP_LEN);
++	pHalData->EfuseHal.BTEfuseUsedBytes = 0;
++	pHalData->EfuseHal.BTEfuseUsedPercentage = 0;
++	_rtw_memset(pHalData->EfuseHal.BTEfuseContent, 0xFF, EFUSE_MAX_BT_BANK * EFUSE_MAX_HW_SIZE);
++	_rtw_memset(pHalData->EfuseHal.BTEfuseInitMap, 0xFF, EFUSE_BT_MAX_MAP_LEN);
++	_rtw_memset(pHalData->EfuseHal.BTEfuseModifiedMap, 0xFF, EFUSE_BT_MAX_MAP_LEN);
++	pHalData->EfuseHal.fakeBTEfuseUsedBytes = 0;
++	_rtw_memset(pHalData->EfuseHal.fakeBTEfuseContent, 0xFF, EFUSE_MAX_BT_BANK * EFUSE_MAX_HW_SIZE);
++	_rtw_memset(pHalData->EfuseHal.fakeBTEfuseInitMap, 0xFF, EFUSE_BT_MAX_MAP_LEN);
++	_rtw_memset(pHalData->EfuseHal.fakeBTEfuseModifiedMap, 0xFF, EFUSE_BT_MAX_MAP_LEN);
++#endif
++	pHalData->need_restore = _FALSE;
++}
++
++u8 GetEEPROMSize8723D(PADAPTER padapter)
++{
++	u8 size = 0;
++	u32	cr;
++
++	cr = rtw_read16(padapter, REG_9346CR);
++	/* 6: EEPROM used is 93C46, 4: boot from E-Fuse. */
++	size = (cr & BOOT_FROM_EEPROM) ? 6 : 4;
++
++	RTW_INFO("EEPROM type is %s\n", size == 4 ? "E-FUSE" : "93C46");
++
++	return size;
++}
++
++/* -------------------------------------------------------------------------
++ *
++ * LLT R/W/Init function
++ *
++ * ------------------------------------------------------------------------- */
++s32 rtl8723d_InitLLTTable(PADAPTER padapter)
++{
++	u32 start, passing_time;
++	u32 val32;
++	s32 ret;
++
++
++	ret = _FAIL;
++
++	val32 = rtw_read32(padapter, REG_AUTO_LLT);
++	val32 |= BIT_AUTO_INIT_LLT;
++	rtw_write32(padapter, REG_AUTO_LLT, val32);
++
++	start = rtw_get_current_time();
++
++	do {
++		val32 = rtw_read32(padapter, REG_AUTO_LLT);
++		if (!(val32 & BIT_AUTO_INIT_LLT)) {
++			ret = _SUCCESS;
++			break;
++		}
++
++		passing_time = rtw_get_passing_time_ms(start);
++		if (passing_time > 1000) {
++			RTW_INFO("%s: FAIL!! REG_AUTO_LLT(0x%X)=%08x\n",
++				 __FUNCTION__, REG_AUTO_LLT, val32);
++			break;
++		}
++
++		rtw_usleep_os(2);
++	} while (1);
++
++	return ret;
++}
++
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++void _DisableGPIO(PADAPTER	padapter)
++{
++	/***************************************
++	j. GPIO_PIN_CTRL 0x44[31:0]=0x000
++	k.Value = GPIO_PIN_CTRL[7:0]
++	l. GPIO_PIN_CTRL 0x44[31:0] = 0x00FF0000 | (value <<8);
++	m. GPIO_MUXCFG 0x42 [15:0] = 0x0780
++	n. LEDCFG 0x4C[15:0] = 0x8080
++	***************************************/
++	u8	value8;
++	u16	value16;
++	u32	value32;
++	u32	u4bTmp;
++
++
++	/* 1. Disable GPIO[7:0] */
++	rtw_write16(padapter, REG_GPIO_PIN_CTRL + 2, 0x0000);
++	value32 = rtw_read32(padapter, REG_GPIO_PIN_CTRL) & 0xFFFF00FF;
++	u4bTmp = value32 & 0x000000FF;
++	value32 |= ((u4bTmp << 8) | 0x00FF0000);
++	rtw_write32(padapter, REG_GPIO_PIN_CTRL, value32);
++
++
++	/* 2. Disable GPIO[10:8] */
++	rtw_write8(padapter, REG_MAC_PINMUX_CFG, 0x00);
++	value16 = rtw_read16(padapter, REG_GPIO_IO_SEL) & 0xFF0F;
++	value8 = (u8)(value16 & 0x000F);
++	value16 |= ((value8 << 4) | 0x0780);
++	rtw_write16(padapter, REG_GPIO_IO_SEL, value16);
++
++
++	/* 3. Disable LED0 & 1 */
++	rtw_write16(padapter, REG_LEDCFG0, 0x8080);
++
++} /* end of _DisableGPIO() */
++
++void _DisableRFAFEAndResetBB8723D(PADAPTER padapter)
++{
++	/**************************************
++	a.	TXPAUSE 0x522[7:0] = 0xFF
++	b.	RF path 0 offset 0x00 = 0x00
++	c.	APSD_CTRL 0x600[7:0] = 0x40
++	d.	SYS_FUNC_EN 0x02[7:0] = 0x16
++	e.	SYS_FUNC_EN 0x02[7:0] = 0x14
++	***************************************/
++	u8 eRFPath = 0, value8 = 0;
++
++	rtw_write8(padapter, REG_TXPAUSE, 0xFF);
++
++	PHY_SetRFReg(padapter, (RF_PATH)eRFPath, 0x0, bMaskByte0, 0x0);
++
++	value8 |= APSDOFF;
++	rtw_write8(padapter, REG_APSD_CTRL, value8);/* 0x40 */
++
++	/* Set BB reset at first */
++	value8 = 0;
++	value8 |= (FEN_USBD | FEN_USBA | FEN_BB_GLB_RSTn);
++	rtw_write8(padapter, REG_SYS_FUNC_EN, value8); /* 0x16 */
++
++	/* Set global reset. */
++	value8 &= ~FEN_BB_GLB_RSTn;
++	rtw_write8(padapter, REG_SYS_FUNC_EN, value8); /* 0x14 */
++
++	/* 2010/08/12 MH We need to set BB/GLBAL reset to save power for SS mode. */
++
++}
++
++void _DisableRFAFEAndResetBB(PADAPTER padapter)
++{
++	_DisableRFAFEAndResetBB8723D(padapter);
++}
++
++void _ResetDigitalProcedure1_8723D(PADAPTER padapter, BOOLEAN bWithoutHWSM)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	if (IS_FW_81xxC(padapter) && (pHalData->FirmwareVersion <= 0x20)) {
++#if 0
++		/*****************************
++				f.	SYS_FUNC_EN 0x03[7:0]=0x54
++				g.	MCUFWDL 0x80[7:0]=0
++		******************************/
++		u32	value32 = 0;
++
++		rtw_write8(padapter, REG_SYS_FUNC_EN + 1, 0x54);
++		rtw_write8(padapter, REG_MCUFWDL, 0);
++#else
++		/*****************************
++		f.	MCUFWDL 0x80[7:0]=0
++		g.	SYS_FUNC_EN 0x02[10]= 0
++		h.	SYS_FUNC_EN 0x02[15-12]= 5
++		i.     SYS_FUNC_EN 0x02[10]= 1
++		******************************/
++		u16 valu16 = 0;
++
++		rtw_write8(padapter, REG_MCUFWDL, 0);
++
++		valu16 = rtw_read16(padapter, REG_SYS_FUNC_EN);
++		rtw_write16(padapter, REG_SYS_FUNC_EN, (valu16 & (~FEN_CPUEN)));/* reset MCU ,8051 */
++
++		valu16 = rtw_read16(padapter, REG_SYS_FUNC_EN) & 0x0FFF;
++		rtw_write16(padapter, REG_SYS_FUNC_EN, (valu16 | (FEN_HWPDN | FEN_ELDR))); /* reset MAC */
++
++		valu16 = rtw_read16(padapter, REG_SYS_FUNC_EN);
++		rtw_write16(padapter, REG_SYS_FUNC_EN, (valu16 | FEN_CPUEN));/* enable MCU ,8051 */
++#endif
++	} else {
++		u8 retry_cnts = 0;
++
++		/* 2010/08/12 MH For USB SS, we can not stop 8051 when we are trying to */
++		/* enter IPS/HW&SW radio off. For S3/S4/S5/Disable, we can stop 8051 because */
++		/* we will init FW when power on again. */
++		/* if(!pDevice->RegUsbSS) */
++		{	/* If we want to SS mode, we can not reset 8051. */
++			if (rtw_read8(padapter, REG_MCUFWDL) & BIT(1)) {
++				/* IF fw in RAM code, do reset */
++
++
++				if (padapter->bFWReady) {
++					/* 2010/08/25 MH According to RD alfred's suggestion, we need to disable other */
++					/* HRCV INT to influence 8051 reset. */
++					rtw_write8(padapter, REG_FWIMR, 0x20);
++					/* 2011/02/15 MH According to Alex's suggestion, close mask to prevent incorrect FW write operation. */
++					rtw_write8(padapter, REG_FTIMR, 0x00);
++					rtw_write8(padapter, REG_FSIMR, 0x00);
++
++					rtw_write8(padapter, REG_HMETFR + 3, 0x20); /* 8051 reset by self */
++
++					while ((retry_cnts++ < 100) && (FEN_CPUEN & rtw_read16(padapter, REG_SYS_FUNC_EN))) {
++						rtw_udelay_os(50);/* us */
++						/* 2010/08/25 For test only We keep on reset 5051 to prevent fail. */
++						/* rtw_write8(padapter, REG_HMETFR+3, 0x20);//8051 reset by self */
++					}
++					/*					RT_ASSERT((retry_cnts < 100), ("8051 reset failed!\n")); */
++
++					if (retry_cnts >= 100) {
++						/* if 8051 reset fail we trigger GPIO 0 for LA */
++						/* rtw_write32(	padapter, */
++						/*						REG_GPIO_PIN_CTRL, */
++						/*						0x00010100); */
++						/* 2010/08/31 MH According to Filen's info, if 8051 reset fail, reset MAC directly. */
++						rtw_write8(padapter, REG_SYS_FUNC_EN + 1, 0x50);	/* Reset MAC and Enable 8051 */
++						rtw_mdelay_os(10);
++					}
++
++				}
++			}
++
++			rtw_write8(padapter, REG_SYS_FUNC_EN + 1, 0x54);	/* Reset MAC and Enable 8051 */
++			rtw_write8(padapter, REG_MCUFWDL, 0);
++		}
++	}
++
++	/* if(pDevice->RegUsbSS) */
++	/* bWithoutHWSM = TRUE;	// Sugest by Filen and Issau. */
++
++	if (bWithoutHWSM) {
++		/* HAL_DATA_TYPE		*pHalData	= GET_HAL_DATA(padapter); */
++		/*****************************
++			Without HW auto state machine
++		g.	SYS_CLKR 0x08[15:0] = 0x30A3
++		h.	AFE_PLL_CTRL 0x28[7:0] = 0x80
++		i.	AFE_XTAL_CTRL 0x24[15:0] = 0x880F
++		j.	SYS_ISO_CTRL 0x00[7:0] = 0xF9
++		******************************/
++		/* rtw_write16(padapter, REG_SYS_CLKR, 0x30A3); */
++		/* if(!pDevice->RegUsbSS) */
++		/* 2011/01/26 MH SD4 Scott suggest to fix UNC-B cut bug. */
++		rtw_write16(padapter, REG_SYS_CLKR, 0x70A3);  /* modify to 0x70A3 by Scott. */
++		rtw_write8(padapter, REG_AFE_PLL_CTRL, 0x80);
++		rtw_write16(padapter, REG_AFE_XTAL_CTRL, 0x880F);
++		/* if(!pDevice->RegUsbSS) */
++		rtw_write8(padapter, REG_SYS_ISO_CTRL, 0xF9);
++	} else {
++		/* Disable all RF/BB power */
++		rtw_write8(padapter, REG_RF_CTRL, 0x00);
++	}
++
++}
++
++void _ResetDigitalProcedure1(PADAPTER padapter, BOOLEAN bWithoutHWSM)
++{
++	_ResetDigitalProcedure1_8723D(padapter, bWithoutHWSM);
++}
++
++void _ResetDigitalProcedure2(PADAPTER padapter)
++{
++	/* HAL_DATA_TYPE		*pHalData	= GET_HAL_DATA(padapter);
++	*****************************
++	k.	SYS_FUNC_EN 0x03[7:0] = 0x44
++	l.	SYS_CLKR 0x08[15:0] = 0x3083
++	m.	SYS_ISO_CTRL 0x01[7:0] = 0x83
++	******************************/
++	/* rtw_write8(padapter, REG_SYS_FUNC_EN+1, 0x44); //marked by Scott. */
++	/* 2011/01/26 MH SD4 Scott suggest to fix UNC-B cut bug. */
++	rtw_write16(padapter, REG_SYS_CLKR, 0x70a3); /* modify to 0x70a3 by Scott. */
++	rtw_write8(padapter, REG_SYS_ISO_CTRL + 1, 0x82); /* modify to 0x82 by Scott. */
++}
++
++void _DisableAnalog(PADAPTER padapter, BOOLEAN bWithoutHWSM)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(padapter);
++	u16 value16 = 0;
++	u8 value8 = 0;
++
++
++	if (bWithoutHWSM) {
++		/*****************************
++		n.	LDOA15_CTRL 0x20[7:0] = 0x04
++		o.	LDOV12D_CTRL 0x21[7:0] = 0x54
++		r.	When driver call disable, the ASIC will turn off remaining clock automatically
++		******************************/
++
++		rtw_write8(padapter, REG_LDOA15_CTRL, 0x04);
++		/* rtw_write8(padapter, REG_LDOV12D_CTRL, 0x54); */
++
++		value8 = rtw_read8(padapter, REG_LDOV12D_CTRL);
++		value8 &= (~LDV12_EN);
++		rtw_write8(padapter, REG_LDOV12D_CTRL, value8);
++	}
++
++	/*****************************
++	h.	SPS0_CTRL 0x11[7:0] = 0x23
++	i.	APS_FSMCO 0x04[15:0] = 0x4802
++	******************************/
++	value8 = 0x23;
++
++	rtw_write8(padapter, REG_SPS0_CTRL, value8);
++
++	if (bWithoutHWSM) {
++		/* value16 |= (APDM_HOST | AFSM_HSUS |PFM_ALDN); */
++		/* 2010/08/31 According to Filen description, we need to use HW to shut down 8051 automatically. */
++		/* Because suspend operation need the asistance of 8051 to wait for 3ms. */
++		value16 |= (APDM_HOST | AFSM_HSUS | PFM_ALDN);
++	} else
++		value16 |= (APDM_HOST | AFSM_HSUS | PFM_ALDN);
++
++	rtw_write16(padapter, REG_APS_FSMCO, value16);/* 0x4802 */
++
++	rtw_write8(padapter, REG_RSV_CTRL, 0x0e);
++
++#if 0
++	/* tynli_test for suspend mode. */
++	if (!bWithoutHWSM)
++		rtw_write8(padapter, 0xfe10, 0x19);
++#endif
++
++}
++
++/* HW Auto state machine */
++s32 CardDisableHWSM(PADAPTER padapter, u8 resetMCU)
++{
++	int rtStatus = _SUCCESS;
++
++
++	if (RTW_CANNOT_RUN(padapter))
++		return rtStatus;
++
++	/* ==== RF Off Sequence ==== */
++	_DisableRFAFEAndResetBB(padapter);
++
++	/* ==== Reset digital sequence   ====== */
++	_ResetDigitalProcedure1(padapter, _FALSE);
++
++	/* ==== Pull GPIO PIN to balance level and LED control ====== */
++	_DisableGPIO(padapter);
++
++	/* ==== Disable analog sequence === */
++	_DisableAnalog(padapter, _FALSE);
++
++
++	return rtStatus;
++}
++
++/* without HW Auto state machine */
++s32 CardDisableWithoutHWSM(PADAPTER padapter)
++{
++	s32 rtStatus = _SUCCESS;
++
++
++	if (RTW_CANNOT_RUN(padapter))
++		return rtStatus;
++
++
++	/* ==== RF Off Sequence ==== */
++	_DisableRFAFEAndResetBB(padapter);
++
++	/* ==== Reset digital sequence   ====== */
++	_ResetDigitalProcedure1(padapter, _TRUE);
++
++	/* ==== Pull GPIO PIN to balance level and LED control ====== */
++	_DisableGPIO(padapter);
++
++	/* ==== Reset digital sequence   ====== */
++	_ResetDigitalProcedure2(padapter);
++
++	/* ==== Disable analog sequence === */
++	_DisableAnalog(padapter, _TRUE);
++
++	return rtStatus;
++}
++#endif /* CONFIG_USB_HCI || CONFIG_SDIO_HCI || CONFIG_GSPI_HCI */
++
++void
++Hal_InitPGData(
++	PADAPTER	padapter,
++	u8			*PROMContent)
++{
++
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	u32			i;
++	u16			value16;
++
++	if (_FALSE == pHalData->bautoload_fail_flag) {
++		/* autoload OK.
++		*		if (IS_BOOT_FROM_EEPROM(padapter)) */
++		if (_TRUE == pHalData->EepromOrEfuse) {
++			/* Read all Content from EEPROM or EFUSE. */
++			for (i = 0; i < HWSET_MAX_SIZE_8723D; i += 2) {
++				/*				value16 = EF2Byte(ReadEEprom(pAdapter, (u2Byte) (i>>1)));
++				 *				*((u16*)(&PROMContent[i])) = value16; */
++			}
++		} else {
++			/* Read EFUSE real map to shadow. */
++			EFUSE_ShadowMapUpdate(padapter, EFUSE_WIFI, _FALSE);
++			_rtw_memcpy((void *)PROMContent, (void *)pHalData->efuse_eeprom_data, HWSET_MAX_SIZE_8723D);
++		}
++	} else {
++		/* autoload fail */
++		/*		pHalData->AutoloadFailFlag = _TRUE; */
++		/* update to default value 0xFF */
++		if (_FALSE == pHalData->EepromOrEfuse)
++			EFUSE_ShadowMapUpdate(padapter, EFUSE_WIFI, _FALSE);
++		_rtw_memcpy((void *)PROMContent, (void *)pHalData->efuse_eeprom_data, HWSET_MAX_SIZE_8723D);
++	}
++
++#ifdef CONFIG_EFUSE_CONFIG_FILE
++	if (check_phy_efuse_tx_power_info_valid(padapter) == _FALSE) {
++		if (Hal_readPGDataFromConfigFile(padapter) != _SUCCESS)
++			RTW_ERR("invalid phy efuse and read from file fail, will use driver default!!\n");
++	}
++#endif
++}
++
++void
++Hal_EfuseParseIDCode(
++	IN	PADAPTER	padapter,
++	IN	u8			*hwinfo
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	u16			EEPROMId;
++
++
++	/* Checl 0x8129 again for making sure autoload status!! */
++	EEPROMId = le16_to_cpu(*((u16 *)hwinfo));
++	if (EEPROMId != RTL_EEPROM_ID) {
++		RTW_INFO("EEPROM ID(%#x) is invalid!!\n", EEPROMId);
++		pHalData->bautoload_fail_flag = _TRUE;
++	} else
++		pHalData->bautoload_fail_flag = _FALSE;
++
++}
++
++static void
++Hal_EEValueCheck(
++	IN		u8		EEType,
++	IN		PVOID		pInValue,
++	OUT		PVOID		pOutValue
++)
++{
++	switch (EEType) {
++	case EETYPE_TX_PWR: {
++		u8	*pIn, *pOut;
++
++		pIn = (u8 *)pInValue;
++		pOut = (u8 *)pOutValue;
++		if (*pIn <= 63)
++			*pOut = *pIn;
++		else {
++			*pOut = EEPROM_Default_TxPowerLevel;
++		}
++	}
++	break;
++	default:
++		break;
++	}
++}
++
++void
++Hal_EfuseParseTxPowerInfo_8723D(
++	IN	PADAPTER		padapter,
++	IN	u8			*PROMContent,
++	IN	BOOLEAN			AutoLoadFail
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	TxPowerInfo24G	pwrInfo24G;
++
++	hal_load_txpwr_info(padapter, &pwrInfo24G, NULL, PROMContent);
++
++	/* 2010/10/19 MH Add Regulator recognize for CU. */
++	if (!AutoLoadFail) {
++		pHalData->EEPROMRegulatory = (PROMContent[EEPROM_RF_BOARD_OPTION_8723D] & 0x7);	/* bit0~2 */
++		if (PROMContent[EEPROM_RF_BOARD_OPTION_8723D] == 0xFF)
++			pHalData->EEPROMRegulatory = (EEPROM_DEFAULT_BOARD_OPTION & 0x7);	/* bit0~2 */
++	} else
++		pHalData->EEPROMRegulatory = 0;
++}
++
++VOID
++Hal_EfuseParseBoardType_8723D(
++	IN	PADAPTER	Adapter,
++	IN	u8			*PROMContent,
++	IN	BOOLEAN		AutoloadFail
++)
++{
++
++
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	if (!AutoloadFail) {
++		pHalData->InterfaceSel = (PROMContent[EEPROM_RF_BOARD_OPTION_8723D] & 0xE0) >> 5;
++		if (PROMContent[EEPROM_RF_BOARD_OPTION_8723D] == 0xFF)
++			pHalData->InterfaceSel = (EEPROM_DEFAULT_BOARD_OPTION & 0xE0) >> 5;
++	} else
++		pHalData->InterfaceSel = 0;
++
++}
++
++VOID
++Hal_EfuseParseBTCoexistInfo_8723D(
++	IN PADAPTER padapter,
++	IN u8 *hwinfo,
++	IN BOOLEAN AutoLoadFail
++)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++	u8 tempval;
++	u32 tmpu4;
++
++	if (!AutoLoadFail) {
++		tmpu4 = rtw_read32(padapter, REG_MULTI_FUNC_CTRL);
++		if (tmpu4 & BT_FUNC_EN)
++			pHalData->EEPROMBluetoothCoexist = _TRUE;
++		else
++			pHalData->EEPROMBluetoothCoexist = _FALSE;
++
++		pHalData->EEPROMBluetoothType = BT_RTL8723D;
++
++		tempval = hwinfo[EEPROM_RF_BT_SETTING_8723D];
++		if (tempval != 0xFF) {
++			/* 0:Ant_x2, 1:Ant_x1 */
++			pHalData->EEPROMBluetoothAntNum = tempval & BIT(0);
++			/*
++			 * EFUSE_0xC3[6] == 0, Wi-Fi at BTGS1(Main, Ant2) - ODM_RF_PATH_A (default)
++			 * EFUSE_0xC3[6] == 1, Wi-Fi at BTGS0( Aux, Ant1) - ODM_RF_PATH_B
++			 */
++			pHalData->ant_path = (tempval & BIT(6)) ? ODM_RF_PATH_B : ODM_RF_PATH_A;
++		} else {
++			pHalData->EEPROMBluetoothAntNum = Ant_x1;
++			pHalData->ant_path = ODM_RF_PATH_A;
++		}
++	} else {
++		if (padapter->registrypriv.mp_mode == 1)
++			pHalData->EEPROMBluetoothCoexist = _TRUE;
++		else
++			pHalData->EEPROMBluetoothCoexist = _FALSE;
++
++		pHalData->EEPROMBluetoothType = BT_RTL8723D;
++		pHalData->EEPROMBluetoothAntNum = Ant_x1;
++		pHalData->ant_path = ODM_RF_PATH_A;
++	}
++
++#ifdef CONFIG_BT_COEXIST
++	if (padapter->registrypriv.ant_num > 0) {
++		RTW_INFO("%s: Apply driver defined antenna number(%d) to replace origin(%d)\n"
++			 , __func__
++			 , padapter->registrypriv.ant_num
++			 , pHalData->EEPROMBluetoothAntNum == Ant_x2 ? 2 : 1);
++
++		switch (padapter->registrypriv.ant_num) {
++		case 1:
++			pHalData->EEPROMBluetoothAntNum = Ant_x1;
++			break;
++		case 2:
++			pHalData->EEPROMBluetoothAntNum = Ant_x2;
++			break;
++		default:
++			RTW_INFO("%s: Discard invalid driver defined antenna number(%d)!\n"
++				 , __func__, padapter->registrypriv.ant_num);
++			break;
++		}
++	}
++#endif /* CONFIG_BT_COEXIST */
++
++	RTW_INFO("%s: %s BT-coex, ant_num=%d\n"
++		 , __func__
++		, pHalData->EEPROMBluetoothCoexist == _TRUE ? "Enable" : "Disable"
++		 , pHalData->EEPROMBluetoothAntNum == Ant_x2 ? 2 : 1);
++}
++
++VOID
++Hal_EfuseParseEEPROMVer_8723D(
++	IN	PADAPTER		padapter,
++	IN	u8			*hwinfo,
++	IN	BOOLEAN			AutoLoadFail
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	if (!AutoLoadFail)
++		pHalData->EEPROMVersion = hwinfo[EEPROM_VERSION_8723D];
++	else
++		pHalData->EEPROMVersion = 1;
++}
++
++
++VOID
++Hal_EfuseParsePackageType_8723D(
++	IN	PADAPTER		pAdapter,
++	IN	u8				*hwinfo,
++	IN	BOOLEAN		AutoLoadFail
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u1Byte			package;
++	u8 efuseContent;
++
++	Efuse_PowerSwitch(pAdapter, _FALSE, _TRUE);
++	efuse_OneByteRead(pAdapter, 0x1FB, &efuseContent, FALSE);
++	RTW_INFO("%s phy efuse read 0x1FB =%x\n", __func__, efuseContent);
++	Efuse_PowerSwitch(pAdapter, _FALSE, _FALSE);
++
++	package = efuseContent & 0x7;
++	switch (package) {
++	case 0x4:
++		pHalData->PackageType = PACKAGE_TFBGA79;
++		break;
++	case 0x5:
++		pHalData->PackageType = PACKAGE_TFBGA90;
++		break;
++	case 0x6:
++		pHalData->PackageType = PACKAGE_QFN68;
++		break;
++	case 0x7:
++		pHalData->PackageType = PACKAGE_TFBGA80;
++		break;
++
++	default:
++		pHalData->PackageType = PACKAGE_DEFAULT;
++		break;
++	}
++
++	RTW_INFO("PackageType = 0x%X\n", pHalData->PackageType);
++
++#ifdef CONFIG_SDIO_HCI
++	/* RTL8703AS: 0x1FB[5:4] 2b'10 */
++	/* RTL8723DS: 0x1FB[5:4] 2b'11 */
++	if ((efuseContent & 0x30) == 0x20) {
++		pAdapter->registrypriv.bw_mode &= 0xF0;
++		RTW_INFO("This is the case of 8703AS\n");
++	}
++#endif
++}
++
++VOID
++Hal_EfuseParseVoltage_8723D(
++	IN	PADAPTER		pAdapter,
++	IN	u8			*hwinfo,
++	IN	BOOLEAN	AutoLoadFail
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	/* _rtw_memcpy(pHalData->adjuseVoltageVal, &hwinfo[EEPROM_Voltage_ADDR_8723D], 1); */
++	RTW_INFO("%s hwinfo[EEPROM_Voltage_ADDR_8723D] =%02x\n", __func__, hwinfo[EEPROM_Voltage_ADDR_8723D]);
++	pHalData->adjuseVoltageVal = (hwinfo[EEPROM_Voltage_ADDR_8723D] & 0xf0) >> 4;
++	RTW_INFO("%s pHalData->adjuseVoltageVal =%x\n", __func__, pHalData->adjuseVoltageVal);
++}
++
++VOID
++Hal_EfuseParseChnlPlan_8723D(
++	IN	PADAPTER		padapter,
++	IN	u8			*hwinfo,
++	IN	BOOLEAN			AutoLoadFail
++)
++{
++	padapter->mlmepriv.ChannelPlan = hal_com_config_channel_plan(
++			padapter
++			, hwinfo ? &hwinfo[EEPROM_COUNTRY_CODE_8723D] : NULL
++			, hwinfo ? hwinfo[EEPROM_ChannelPlan_8723D] : 0xFF
++			, padapter->registrypriv.alpha2
++			, padapter->registrypriv.channel_plan
++			, RTW_CHPLAN_WORLD_NULL
++			, AutoLoadFail
++					 );
++}
++
++VOID
++Hal_EfuseParseCustomerID_8723D(
++	IN	PADAPTER		padapter,
++	IN	u8			*hwinfo,
++	IN	BOOLEAN			AutoLoadFail
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	if (!AutoLoadFail)
++		pHalData->EEPROMCustomerID = hwinfo[EEPROM_CustomID_8723D];
++	else
++		pHalData->EEPROMCustomerID = 0;
++}
++
++VOID
++Hal_EfuseParseAntennaDiversity_8723D(
++	IN	PADAPTER		pAdapter,
++	IN	u8				*hwinfo,
++	IN	BOOLEAN			AutoLoadFail
++)
++{
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(pAdapter);
++	struct registry_priv	*registry_par = &pAdapter->registrypriv;
++	u8	get_efuse_div_type = 0;
++
++	if (pHalData->EEPROMBluetoothAntNum == Ant_x1)
++		pHalData->AntDivCfg = 0;
++	else {
++		if (registry_par->antdiv_cfg == 2) /* 0:OFF , 1:ON, 2:By EFUSE */
++			pHalData->AntDivCfg =
++				((hwinfo[EEPROM_RF_BOARD_OPTION_8723D] & BIT3) >> 3);
++		else
++			pHalData->AntDivCfg = registry_par->antdiv_cfg;
++	}
++
++	pHalData->TRxAntDivType = S0S1_TRX_HW_ANTDIV; /* it's the only diversity-type for 8723D*/
++	pHalData->with_extenal_ant_switch = ((hwinfo[EEPROM_RF_BT_SETTING_8723D] & BIT7) >> 7);
++
++	if (pHalData->AntDivCfg != 0) {
++		get_efuse_div_type = hwinfo[EEPROM_RFE_OPTION_8723D];
++		if (get_efuse_div_type == 0x11)
++			pHalData->b_fix_tx_ant = NO_FIX_TX_ANT;
++		else if (get_efuse_div_type == 0x13)
++			pHalData->b_fix_tx_ant = FIX_TX_AT_MAIN;/* RX diversity only*/
++		else
++			pHalData->AntDivCfg = FALSE;
++	}
++	RTW_INFO("%s: AntDivCfg=%d, AntDivType=%d\n",
++		 __func__, pHalData->AntDivCfg, pHalData->TRxAntDivType);
++#endif
++}
++
++VOID
++Hal_EfuseParseXtal_8723D(
++	IN	PADAPTER		pAdapter,
++	IN	u8			*hwinfo,
++	IN	BOOLEAN		AutoLoadFail
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	if (!AutoLoadFail) {
++		pHalData->CrystalCap = hwinfo[EEPROM_XTAL_8723D];
++		if (pHalData->CrystalCap == 0xFF)
++			pHalData->CrystalCap = EEPROM_Default_CrystalCap_8723D;	   /* what value should 8812 set? */
++	} else
++		pHalData->CrystalCap = EEPROM_Default_CrystalCap_8723D;
++}
++
++
++void
++Hal_EfuseParseThermalMeter_8723D(
++	PADAPTER	padapter,
++	u8			*PROMContent,
++	u8			AutoLoadFail
++)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++
++	/* */
++	/* ThermalMeter from EEPROM */
++	/* */
++	if (_FALSE == AutoLoadFail)
++		pHalData->EEPROMThermalMeter = PROMContent[EEPROM_THERMAL_METER_8723D];
++	else
++		pHalData->EEPROMThermalMeter = EEPROM_Default_ThermalMeter_8723D;
++
++	if ((pHalData->EEPROMThermalMeter == 0xff) || (_TRUE == AutoLoadFail)) {
++		pHalData->odmpriv.RFCalibrateInfo.bAPKThermalMeterIgnore = _TRUE;
++		pHalData->EEPROMThermalMeter = EEPROM_Default_ThermalMeter_8723D;
++	}
++
++}
++
++
++void Hal_ReadRFGainOffset(
++	IN		PADAPTER		Adapter,
++	IN		u8			*PROMContent,
++	IN		BOOLEAN		AutoloadFail)
++{
++#ifdef CONFIG_RF_POWER_TRIM
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct kfree_data_t *kfree_data = &pHalData->kfree_data;
++	u8 pg_pwrtrim = 0xFF, pg_therm = 0xFF;
++
++	efuse_OneByteRead(Adapter,
++		PPG_BB_GAIN_2G_TX_OFFSET_8723D, &pg_pwrtrim, _FALSE);
++	efuse_OneByteRead(Adapter,
++		PPG_THERMAL_OFFSET_8723D, &pg_therm, _FALSE);
++
++	if (pg_pwrtrim != 0xFF) {
++		kfree_data->bb_gain[BB_GAIN_2G][PPG_8723D_S1]
++			= KFREE_BB_GAIN_2G_TX_OFFSET(pg_pwrtrim & PPG_BB_GAIN_2G_TX_OFFSET_MASK);
++		kfree_data->bb_gain[BB_GAIN_2G][PPG_8723D_S0]
++			= KFREE_BB_GAIN_2G_TXB_OFFSET(pg_pwrtrim & PPG_BB_GAIN_2G_TXB_OFFSET_MASK);
++		kfree_data->flag |= KFREE_FLAG_ON;
++	}
++
++	if (pg_therm != 0xFF) {
++		kfree_data->thermal
++			= KFREE_THERMAL_OFFSET(pg_therm  & PPG_THERMAL_OFFSET_MASK);
++		/* kfree_data->flag |= KFREE_FLAG_THERMAL_K_ON; */ /* Default disable thermel kfree by realsil Alan 20160428 */
++	}
++
++	if (kfree_data->flag & KFREE_FLAG_THERMAL_K_ON)
++		pHalData->EEPROMThermalMeter += kfree_data->thermal;
++
++	RTW_INFO("kfree Pwr Trim flag:%u\n", kfree_data->flag);
++	if (kfree_data->flag & KFREE_FLAG_ON) {
++		RTW_INFO("bb_gain(S1):%d\n", kfree_data->bb_gain[BB_GAIN_2G][PPG_8723D_S1]);
++		RTW_INFO("bb_gain(S0):%d\n", kfree_data->bb_gain[BB_GAIN_2G][PPG_8723D_S0]);
++	}
++	if (kfree_data->flag & KFREE_FLAG_THERMAL_K_ON)
++		RTW_INFO("thermal:%d\n", kfree_data->thermal);
++#endif /*CONFIG_RF_POWER_TRIM */
++}
++
++u8
++BWMapping_8723D(
++	IN	PADAPTER		Adapter,
++	IN	struct pkt_attrib	*pattrib
++)
++{
++	u8	BWSettingOfDesc = 0;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++
++	/* RTW_INFO("BWMapping pHalData->CurrentChannelBW %d, pattrib->bwmode %d\n",pHalData->CurrentChannelBW,pattrib->bwmode); */
++
++	if (pHalData->CurrentChannelBW == CHANNEL_WIDTH_80) {
++		if (pattrib->bwmode == CHANNEL_WIDTH_80)
++			BWSettingOfDesc = 2;
++		else if (pattrib->bwmode == CHANNEL_WIDTH_40)
++			BWSettingOfDesc = 1;
++		else
++			BWSettingOfDesc = 0;
++	} else if (pHalData->CurrentChannelBW == CHANNEL_WIDTH_40) {
++		if ((pattrib->bwmode == CHANNEL_WIDTH_40) || (pattrib->bwmode == CHANNEL_WIDTH_80))
++			BWSettingOfDesc = 1;
++		else
++			BWSettingOfDesc = 0;
++	} else
++		BWSettingOfDesc = 0;
++
++	/* if(pTcb->bBTTxPacket) */
++	/*	BWSettingOfDesc = 0; */
++
++	return BWSettingOfDesc;
++}
++
++u8	SCMapping_8723D(PADAPTER Adapter, struct pkt_attrib *pattrib)
++{
++	u8	SCSettingOfDesc = 0;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++
++	/* RTW_INFO("SCMapping: pHalData->CurrentChannelBW %d, pHalData->nCur80MhzPrimeSC %d, pHalData->nCur40MhzPrimeSC %d\n",pHalData->CurrentChannelBW,pHalData->nCur80MhzPrimeSC,pHalData->nCur40MhzPrimeSC); */
++
++	if (pHalData->CurrentChannelBW == CHANNEL_WIDTH_80) {
++		if (pattrib->bwmode == CHANNEL_WIDTH_80)
++			SCSettingOfDesc = VHT_DATA_SC_DONOT_CARE;
++		else if (pattrib->bwmode == CHANNEL_WIDTH_40) {
++			if (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER)
++				SCSettingOfDesc = VHT_DATA_SC_40_LOWER_OF_80MHZ;
++			else if (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER)
++				SCSettingOfDesc = VHT_DATA_SC_40_UPPER_OF_80MHZ;
++			else
++				RTW_INFO("SCMapping: DONOT CARE Mode Setting\n");
++		} else {
++			if ((pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER) && (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER))
++				SCSettingOfDesc = VHT_DATA_SC_20_LOWEST_OF_80MHZ;
++			else if ((pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER) && (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER))
++				SCSettingOfDesc = VHT_DATA_SC_20_LOWER_OF_80MHZ;
++			else if ((pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER) && (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER))
++				SCSettingOfDesc = VHT_DATA_SC_20_UPPER_OF_80MHZ;
++			else if ((pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER) && (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER))
++				SCSettingOfDesc = VHT_DATA_SC_20_UPPERST_OF_80MHZ;
++			else
++				RTW_INFO("SCMapping: DONOT CARE Mode Setting\n");
++		}
++	} else if (pHalData->CurrentChannelBW == CHANNEL_WIDTH_40) {
++		/* RTW_INFO("SCMapping: HT Case: pHalData->CurrentChannelBW %d, pHalData->nCur40MhzPrimeSC %d\n",pHalData->CurrentChannelBW,pHalData->nCur40MhzPrimeSC); */
++
++		if (pattrib->bwmode == CHANNEL_WIDTH_40)
++			SCSettingOfDesc = VHT_DATA_SC_DONOT_CARE;
++		else if (pattrib->bwmode == CHANNEL_WIDTH_20) {
++			if (pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER)
++				SCSettingOfDesc = VHT_DATA_SC_20_UPPER_OF_80MHZ;
++			else if (pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER)
++				SCSettingOfDesc = VHT_DATA_SC_20_LOWER_OF_80MHZ;
++			else
++				SCSettingOfDesc = VHT_DATA_SC_DONOT_CARE;
++		}
++	} else
++		SCSettingOfDesc = VHT_DATA_SC_DONOT_CARE;
++
++	return SCSettingOfDesc;
++}
++
++#if defined(CONFIG_CONCURRENT_MODE)
++void fill_txdesc_force_bmc_camid(struct pkt_attrib *pattrib, u8 *ptxdesc)
++{
++	if ((pattrib->encrypt > 0) && (!pattrib->bswenc)
++	    && (pattrib->bmc_camid != INVALID_SEC_MAC_CAM_ID)) {
++
++		SET_TX_DESC_EN_DESC_ID_8723D(ptxdesc, 1);
++		SET_TX_DESC_MACID_8723D(ptxdesc, pattrib->bmc_camid);
++	}
++}
++#endif
++
++static u8 fill_txdesc_sectype(struct pkt_attrib *pattrib)
++{
++	u8 sectype = 0;
++
++	if ((pattrib->encrypt > 0) && !pattrib->bswenc) {
++		switch (pattrib->encrypt) {
++		/* SEC_TYPE */
++		case _WEP40_:
++		case _WEP104_:
++		case _TKIP_:
++		case _TKIP_WTMIC_:
++			sectype = 1;
++			break;
++
++#ifdef CONFIG_WAPI_SUPPORT
++		case _SMS4_:
++			sectype = 2;
++			break;
++#endif
++		case _AES_:
++			sectype = 3;
++			break;
++
++		case _NO_PRIVACY_:
++		default:
++			break;
++		}
++	}
++	return sectype;
++}
++
++static void fill_txdesc_vcs_8723d(PADAPTER padapter, struct pkt_attrib *pattrib, u8 *ptxdesc)
++{
++	/* RTW_INFO("cvs_mode=%d\n", pattrib->vcs_mode); */
++
++	if (pattrib->vcs_mode) {
++		switch (pattrib->vcs_mode) {
++		case RTS_CTS:
++			SET_TX_DESC_RTS_ENABLE_8723D(ptxdesc, 1);
++			SET_TX_DESC_HW_RTS_ENABLE_8723D(ptxdesc, 1);
++			break;
++
++		case CTS_TO_SELF:
++			SET_TX_DESC_CTS2SELF_8723D(ptxdesc, 1);
++			break;
++
++		case NONE_VCS:
++		default:
++			break;
++		}
++
++		SET_TX_DESC_RTS_RATE_8723D(ptxdesc, 8); /* RTS Rate=24M */
++		SET_TX_DESC_RTS_RATE_FB_LIMIT_8723D(ptxdesc, 0xF);
++
++		if (padapter->mlmeextpriv.mlmext_info.preamble_mode == PREAMBLE_SHORT)
++			SET_TX_DESC_RTS_SHORT_8723D(ptxdesc, 1);
++
++		/* Set RTS BW */
++		if (pattrib->ht_en)
++			SET_TX_DESC_RTS_SC_8723D(ptxdesc, SCMapping_8723D(padapter, pattrib));
++	}
++}
++
++static void fill_txdesc_phy_8723d(PADAPTER padapter, struct pkt_attrib *pattrib, u8 *ptxdesc)
++{
++	/* RTW_INFO("bwmode=%d, ch_off=%d\n", pattrib->bwmode, pattrib->ch_offset); */
++
++	if (pattrib->ht_en) {
++		SET_TX_DESC_DATA_BW_8723D(ptxdesc, BWMapping_8723D(padapter, pattrib));
++		SET_TX_DESC_DATA_SC_8723D(ptxdesc, SCMapping_8723D(padapter, pattrib));
++	}
++}
++
++static void rtl8723d_fill_default_txdesc(
++	struct xmit_frame *pxmitframe,
++	u8 *pbuf)
++{
++	PADAPTER padapter;
++	HAL_DATA_TYPE *pHalData;
++	struct mlme_ext_priv *pmlmeext;
++	struct mlme_ext_info *pmlmeinfo;
++	struct pkt_attrib *pattrib;
++	s32 bmcst;
++
++	_rtw_memset(pbuf, 0, TXDESC_SIZE);
++
++	padapter = pxmitframe->padapter;
++	pHalData = GET_HAL_DATA(padapter);
++	pmlmeext = &padapter->mlmeextpriv;
++	pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	pattrib = &pxmitframe->attrib;
++	bmcst = IS_MCAST(pattrib->ra);
++
++	if (pHalData->rf_type == RF_1T1R)
++		SET_TX_DESC_PATH_A_EN_8723D(pbuf, 1);
++
++	if (pxmitframe->frame_tag == DATA_FRAMETAG) {
++		u8 drv_userate = 0;
++
++		SET_TX_DESC_MACID_8723D(pbuf, pattrib->mac_id);
++		SET_TX_DESC_RATE_ID_8723D(pbuf, pattrib->raid);
++		SET_TX_DESC_QUEUE_SEL_8723D(pbuf, pattrib->qsel);
++		SET_TX_DESC_SEQ_8723D(pbuf, pattrib->seqnum);
++
++		SET_TX_DESC_SEC_TYPE_8723D(pbuf, fill_txdesc_sectype(pattrib));
++#if defined(CONFIG_CONCURRENT_MODE)
++		if (bmcst)
++			fill_txdesc_force_bmc_camid(pattrib, pbuf);
++#endif
++		fill_txdesc_vcs_8723d(padapter, pattrib, pbuf);
++
++		if (pattrib->icmp_pkt == 1 && padapter->registrypriv.wifi_spec == 1)
++			drv_userate = 1;
++
++		if ((pattrib->ether_type != 0x888e) &&
++		    (pattrib->ether_type != 0x0806) &&
++		    (pattrib->ether_type != 0x88B4) &&
++		    (pattrib->dhcp_pkt != 1) &&
++		    (drv_userate != 1)
++#ifdef CONFIG_AUTO_AP_MODE
++		    && (pattrib->pctrl != _TRUE)
++#endif
++		   ) {
++			/* Non EAP & ARP & DHCP type data packet */
++
++			if (pattrib->ampdu_en == _TRUE) {
++				SET_TX_DESC_AGG_ENABLE_8723D(pbuf, 1);
++				SET_TX_DESC_MAX_AGG_NUM_8723D(pbuf, 0x1F);
++				SET_TX_DESC_AMPDU_DENSITY_8723D(pbuf, pattrib->ampdu_spacing);
++			} else
++				SET_TX_DESC_BK_8723D(pbuf, 1);
++
++			fill_txdesc_phy_8723d(padapter, pattrib, pbuf);
++
++			SET_TX_DESC_DATA_RATE_FB_LIMIT_8723D(pbuf, 0x1F);
++
++			if (pHalData->fw_ractrl == _FALSE) {
++				SET_TX_DESC_USE_RATE_8723D(pbuf, 1);
++
++				if (pHalData->INIDATA_RATE[pattrib->mac_id] & BIT(7))
++					SET_TX_DESC_DATA_SHORT_8723D(pbuf, 1);
++
++				SET_TX_DESC_TX_RATE_8723D(pbuf, pHalData->INIDATA_RATE[pattrib->mac_id] & 0x7F);
++			}
++
++			/* modify data rate by iwpriv */
++			if (padapter->fix_rate != 0xFF) {
++				SET_TX_DESC_USE_RATE_8723D(pbuf, 1);
++				if (padapter->fix_rate & BIT(7))
++					SET_TX_DESC_DATA_SHORT_8723D(pbuf, 1);
++				SET_TX_DESC_TX_RATE_8723D(pbuf, padapter->fix_rate & 0x7F);
++				if (!padapter->data_fb)
++					SET_TX_DESC_DISABLE_FB_8723D(pbuf, 1);
++			}
++
++			if (pattrib->stbc)
++				SET_TX_DESC_DATA_STBC_8723D(pbuf, 1);
++
++#ifdef CONFIG_CMCC_TEST
++			SET_TX_DESC_DATA_SHORT_8723D(pbuf, 1); /* use cck short premble */
++#endif
++		} else {
++			/* EAP data packet and ARP packet. */
++			/* Use the 1M data rate to send the EAP/ARP packet. */
++			/* This will maybe make the handshake smooth. */
++
++			SET_TX_DESC_BK_8723D(pbuf, 1);
++			SET_TX_DESC_USE_RATE_8723D(pbuf, 1);
++			if (pmlmeinfo->preamble_mode == PREAMBLE_SHORT)
++				SET_TX_DESC_DATA_SHORT_8723D(pbuf, 1);
++			SET_TX_DESC_TX_RATE_8723D(pbuf, MRateToHwRate(pmlmeext->tx_rate));
++
++			RTW_INFO(FUNC_ADPT_FMT ": SP Packet(0x%04X) rate=0x%x\n",
++				FUNC_ADPT_ARG(padapter), pattrib->ether_type, MRateToHwRate(pmlmeext->tx_rate));
++		}
++
++#if defined(CONFIG_USB_TX_AGGREGATION) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		SET_TX_DESC_USB_TXAGG_NUM_8723D(pbuf, pxmitframe->agg_num);
++#endif
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_XMIT_ACK
++		/* CCX-TXRPT ack for xmit mgmt frames. */
++		if (pxmitframe->ack_report) {
++#ifdef DBG_CCX
++			RTW_INFO("%s set spe_rpt\n", __func__);
++#endif
++			SET_TX_DESC_CCX_8723D(pbuf, 1);
++			SET_TX_DESC_SW_DEFINE_8723D(pbuf, (u8)(GET_PRIMARY_ADAPTER(padapter)->xmitpriv.seq_no));
++		}
++#endif /* CONFIG_XMIT_ACK */
++#endif
++	} else if (pxmitframe->frame_tag == MGNT_FRAMETAG) {
++
++		SET_TX_DESC_MACID_8723D(pbuf, pattrib->mac_id);
++		SET_TX_DESC_QUEUE_SEL_8723D(pbuf, pattrib->qsel);
++		SET_TX_DESC_RATE_ID_8723D(pbuf, pattrib->raid);
++		SET_TX_DESC_SEQ_8723D(pbuf, pattrib->seqnum);
++		SET_TX_DESC_USE_RATE_8723D(pbuf, 1);
++
++		SET_TX_DESC_MBSSID_8723D(pbuf, pattrib->mbssid & 0xF);
++
++		SET_TX_DESC_RETRY_LIMIT_ENABLE_8723D(pbuf, 1);
++		if (pattrib->retry_ctrl == _TRUE)
++			SET_TX_DESC_DATA_RETRY_LIMIT_8723D(pbuf, 6);
++		else
++			SET_TX_DESC_DATA_RETRY_LIMIT_8723D(pbuf, 12);
++
++#ifdef CONFIG_INTEL_PROXIM
++		if ((padapter->proximity.proxim_on == _TRUE) && (pattrib->intel_proxim == _TRUE)) {
++			RTW_INFO("\n %s pattrib->rate=%d\n", __FUNCTION__, pattrib->rate);
++			SET_TX_DESC_TX_RATE_8723D(pbuf, pattrib->rate);
++		} else
++#endif
++		{
++			SET_TX_DESC_TX_RATE_8723D(pbuf, MRateToHwRate(pmlmeext->tx_rate));
++		}
++
++#ifdef CONFIG_XMIT_ACK
++		/* CCX-TXRPT ack for xmit mgmt frames. */
++		if (pxmitframe->ack_report) {
++#ifdef DBG_CCX
++			RTW_INFO("%s set spe_rpt\n", __FUNCTION__);
++#endif
++			SET_TX_DESC_CCX_8723D(pbuf, 1);
++			SET_TX_DESC_SW_DEFINE_8723D(pbuf, (u8)(GET_PRIMARY_ADAPTER(padapter)->xmitpriv.seq_no));
++		}
++#endif /* CONFIG_XMIT_ACK */
++	} else if (pxmitframe->frame_tag == TXAGG_FRAMETAG) {
++	}
++#ifdef CONFIG_MP_INCLUDED
++	else if (pxmitframe->frame_tag == MP_FRAMETAG) {
++		fill_txdesc_for_mp(padapter, pbuf);
++	}
++#endif
++	else {
++
++		SET_TX_DESC_MACID_8723D(pbuf, pattrib->mac_id);
++		SET_TX_DESC_RATE_ID_8723D(pbuf, pattrib->raid);
++		SET_TX_DESC_QUEUE_SEL_8723D(pbuf, pattrib->qsel);
++		SET_TX_DESC_SEQ_8723D(pbuf, pattrib->seqnum);
++		SET_TX_DESC_USE_RATE_8723D(pbuf, 1);
++		SET_TX_DESC_TX_RATE_8723D(pbuf, MRateToHwRate(pmlmeext->tx_rate));
++	}
++
++	SET_TX_DESC_PKT_SIZE_8723D(pbuf, pattrib->last_txcmdsz);
++
++	{
++		u8 pkt_offset, offset;
++
++		pkt_offset = 0;
++		offset = TXDESC_SIZE;
++#ifdef CONFIG_USB_HCI
++		pkt_offset = pxmitframe->pkt_offset;
++		offset += (pxmitframe->pkt_offset >> 3);
++#endif /* CONFIG_USB_HCI */
++
++#ifdef CONFIG_TX_EARLY_MODE
++		if (pxmitframe->frame_tag == DATA_FRAMETAG) {
++			pkt_offset = 1;
++			offset += EARLY_MODE_INFO_SIZE;
++		}
++#endif /* CONFIG_TX_EARLY_MODE */
++
++		SET_TX_DESC_PKT_OFFSET_8723D(pbuf, pkt_offset);
++		SET_TX_DESC_OFFSET_8723D(pbuf, offset);
++	}
++
++	if (bmcst)
++		SET_TX_DESC_BMC_8723D(pbuf, 1);
++
++	/* 2009.11.05. tynli_test. Suggested by SD4 Filen for FW LPS. */
++	/* (1) The sequence number of each non-Qos frame / broadcast / multicast / */
++	/* mgnt frame should be controlled by Hw because Fw will also send null data */
++	/* which we cannot control when Fw LPS enable. */
++	/* --> default enable non-Qos data sequense number. 2010.06.23. by tynli. */
++	/* (2) Enable HW SEQ control for beacon packet, because we use Hw beacon. */
++	/* (3) Use HW Qos SEQ to control the seq num of Ext port non-Qos packets. */
++	/* 2010.06.23. Added by tynli. */
++	if (!pattrib->qos_en)
++		SET_TX_DESC_HWSEQ_EN_8723D(pbuf, 1);
++}
++
++/*
++ *	Description:
++ *
++ *	Parameters:
++ *		pxmitframe	xmitframe
++ *		pbuf		where to fill tx desc
++ */
++void rtl8723d_update_txdesc(struct xmit_frame *pxmitframe, u8 *pbuf)
++{
++	PADAPTER padapter = pxmitframe->padapter;
++
++	rtl8723d_fill_default_txdesc(pxmitframe, pbuf);
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	ODM_SetTxAntByTxInfo(&GET_HAL_DATA(padapter)->odmpriv, pbuf, pxmitframe->attrib.mac_id);
++#endif /* CONFIG_ANTENNA_DIVERSITY */
++
++#if defined(CONFIG_USB_HCI)
++	rtl8723d_cal_txdesc_chksum((struct tx_desc *)pbuf);
++#endif
++}
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++int reset_tsf(PADAPTER Adapter, u8 reset_port)
++{
++	u8 reset_cnt_before = 0, reset_cnt_after = 0, loop_cnt = 0;
++	u32 reg_reset_tsf_cnt = (HW_PORT0 == reset_port) ?
++				REG_FW_RESET_TSF_CNT_0 : REG_FW_RESET_TSF_CNT_1;
++
++	rtw_mi_buddy_scan_abort(Adapter, _FALSE);	/*	site survey will cause reset_tsf fail	*/
++	reset_cnt_after = reset_cnt_before = rtw_read8(Adapter, reg_reset_tsf_cnt);
++	rtl8723d_reset_tsf(Adapter, reset_port);
++
++	while ((reset_cnt_after == reset_cnt_before) && (loop_cnt < 10)) {
++		rtw_msleep_os(100);
++		loop_cnt++;
++		reset_cnt_after = rtw_read8(Adapter, reg_reset_tsf_cnt);
++	}
++
++	return (loop_cnt >= 10) ? _FAIL : _TRUE;
++}
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++
++static void hw_var_set_monitor(PADAPTER Adapter, u8 variable, u8 *val)
++{
++	u32	value_rcr, rcr_bits;
++	u16	value_rxfltmap2;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	struct mlme_priv *pmlmepriv = &(Adapter->mlmepriv);
++
++	if (*((u8 *)val) == _HW_STATE_MONITOR_) {
++
++		/* Leave IPS */
++		rtw_pm_set_ips(Adapter, IPS_NONE);
++		LeaveAllPowerSaveMode(Adapter);
++
++		/* Receive all type */
++		rcr_bits = RCR_AAP | RCR_APM | RCR_AM | RCR_AB | RCR_APWRMGT | RCR_ADF | RCR_ACF | RCR_AMF | RCR_APP_PHYST_RXFF;
++
++		/* Append FCS */
++		rcr_bits |= RCR_APPFCS;
++
++#if 0
++		/*
++		   CRC and ICV packet will drop in recvbuf2recvframe()
++		   We no turn on it.
++		 */
++		rcr_bits |= (RCR_ACRC32 | RCR_AICV);
++#endif
++
++		/* Receive all data frames */
++		value_rxfltmap2 = 0xFFFF;
++
++		value_rcr = rcr_bits;
++		rtw_write32(Adapter, REG_RCR, value_rcr);
++
++		rtw_write16(Adapter, REG_RXFLTMAP2, value_rxfltmap2);
++
++#if 0
++		/* tx pause */
++		rtw_write8(padapter, REG_TXPAUSE, 0xFF);
++#endif
++	} else {
++		/* do nothing */
++	}
++
++}
++
++static void hw_var_set_opmode(PADAPTER padapter, u8 variable, u8 *val)
++{
++	u8 val8;
++	u8 mode = *((u8 *)val);
++	static u8 isMonitor = _FALSE;
++
++	HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(padapter);
++
++	if (isMonitor == _TRUE) {
++		/* reset RCR */
++		rtw_write32(padapter, REG_RCR, pHalData->ReceiveConfig);
++		isMonitor = _FALSE;
++	}
++
++	if (mode == _HW_STATE_MONITOR_) {
++		isMonitor = _TRUE;
++		/* set net_type */
++		Set_MSR(padapter, _HW_STATE_NOLINK_);
++
++		hw_var_set_monitor(padapter, variable, val);
++		return;
++	}
++	/* set mac addr to mac register */
++	rtw_hal_set_hwreg(padapter, HW_VAR_MAC_ADDR,
++			  adapter_mac_addr(padapter));
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->hw_port == HW_PORT1) {
++		/* disable Port1 TSF update */
++		val8 = rtw_read8(padapter, REG_BCN_CTRL_1);
++		val8 |= DIS_TSF_UDT;
++		rtw_write8(padapter, REG_BCN_CTRL_1, val8);
++
++		Set_MSR(padapter, mode);
++
++		RTW_INFO("#### %s()-%d hw_port(%d) mode=%d ####\n",
++			 __func__, __LINE__, padapter->hw_port, mode);
++
++		if ((mode == _HW_STATE_STATION_) || (mode == _HW_STATE_NOLINK_)) {
++			if (!rtw_mi_check_status(padapter, MI_AP_MODE)) {
++				StopTxBeacon(padapter);
++#ifdef CONFIG_PCI_HCI
++				UpdateInterruptMask8723DE(padapter, 0, 0, RT_BCN_INT_MASKS, 0);
++#else /* !CONFIG_PCI_HCI */
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN
++
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT
++				rtw_write8(padapter, REG_DRVERLYINT, 0x05);/* restore early int time to 5ms */
++				UpdateInterruptMask8723DU(padapter, _TRUE, 0, IMR_BCNDMAINT0_8723D);
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT */
++
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR
++				UpdateInterruptMask8723DU(padapter, _TRUE , 0, (IMR_TXBCN0ERR_8723D | IMR_TXBCN0OK_8723D));
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR */
++
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN */
++#endif /* !CONFIG_PCI_HCI */
++			}
++
++			/* disable atim wnd */
++			rtw_write8(padapter, REG_BCN_CTRL_1, DIS_TSF_UDT | DIS_ATIM | EN_BCN_FUNCTION);
++		} else if ((mode == _HW_STATE_ADHOC_) /*|| (mode == _HW_STATE_AP_)*/) {
++			ResumeTxBeacon(padapter);
++			rtw_write8(padapter, REG_BCN_CTRL_1, DIS_TSF_UDT | EN_BCN_FUNCTION | DIS_BCNQ_SUB);
++		} else if (mode == _HW_STATE_AP_) {
++#ifdef CONFIG_PCI_HCI
++			UpdateInterruptMask8723DE(padapter, RT_BCN_INT_MASKS, 0, 0, 0);
++#else /* !CONFIG_PCI_HCI */
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN
++
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT
++			UpdateInterruptMask8723DU(padapter, _TRUE, IMR_BCNDMAINT0_8723D, 0);
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT */
++
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR
++			UpdateInterruptMask8723DU(padapter, _TRUE, (IMR_TXBCN0ERR_8723D | IMR_TXBCN0OK_8723D), 0);
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR */
++
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN */
++#endif /* !CONFIG_PCI_HCI */
++
++			ResumeTxBeacon(padapter);
++
++			rtw_write8(padapter, REG_BCN_CTRL_1, DIS_TSF_UDT | DIS_BCNQ_SUB);
++
++			/* Set RCR */
++			/* rtw_write32(padapter, REG_RCR, 0x70002a8e);//CBSSID_DATA must set to 0 */
++			/* rtw_write32(padapter, REG_RCR, 0x7000228e);//CBSSID_DATA must set to 0 */
++			if (padapter->registrypriv.wifi_spec)
++				/* for 11n Logo 4.2.31/4.2.32, disable BSSID BCN check for AP mode */
++				rtw_write32(padapter, REG_RCR, (0x7000208e & ~(RCR_CBSSID_BCN)));
++			else
++				rtw_write32(padapter, REG_RCR, 0x7000208e);/* CBSSID_DATA must set to 0,reject ICV_ERR packet */
++			/* enable to rx data frame*/
++			rtw_write16(padapter, REG_RXFLTMAP2, 0xFFFF);
++			/* enable to rx ps-poll */
++			rtw_write16(padapter, REG_RXFLTMAP1, 0x0400);
++
++			/* Beacon Control related register for first time */
++			rtw_write8(padapter, REG_BCNDMATIM, 0x02); /* 2ms */
++
++			/* rtw_write8(padapter, REG_BCN_MAX_ERR, 0xFF); */
++			rtw_write8(padapter, REG_ATIMWND_1, 0x0a); /* 10ms for port1 */
++			rtw_write16(padapter, REG_BCNTCFG, 0x00);
++			rtw_write16(padapter, REG_TBTT_PROHIBIT, 0xff04);
++			rtw_write16(padapter, REG_TSFTR_SYN_OFFSET, 0x7fff);/* +32767 (~32ms) */
++
++			/* reset TSF2 */
++			rtw_write8(padapter, REG_DUAL_TSF_RST, BIT(1));
++
++			/* enable BCN1 Function for if2 */
++			/* don't enable update TSF1 for if2 (due to TSF update when beacon/probe rsp are received) */
++			rtw_write8(padapter, REG_BCN_CTRL_1, (DIS_TSF_UDT | EN_BCN_FUNCTION | EN_TXBCN_RPT | DIS_BCNQ_SUB));
++
++			/* SW_BCN_SEL - Port1 */
++			/* rtw_write8(Adapter, REG_DWBCN1_CTRL_8192E+2, rtw_read8(Adapter, REG_DWBCN1_CTRL_8192E+2)|BIT4); */
++			rtw_hal_set_hwreg(padapter, HW_VAR_DL_BCN_SEL, NULL);
++
++			/* select BCN on port 1 */
++			rtw_write8(padapter, REG_CCK_CHECK_8723D,
++				(rtw_read8(padapter, REG_CCK_CHECK_8723D) | BIT_BCN_PORT_SEL));
++
++			/* BCN1 TSF will sync to BCN0 TSF with offset(0x518) if if1_sta linked */
++			/* rtw_write8(padapter, REG_BCN_CTRL_1, rtw_read8(padapter, REG_BCN_CTRL_1)|BIT(5)); */
++			/* rtw_write8(padapter, REG_DUAL_TSF_RST, BIT(3)); */
++
++			/* dis BCN0 ATIM  WND if if1 is station */
++			rtw_write8(padapter, REG_BCN_CTRL, rtw_read8(padapter, REG_BCN_CTRL) | DIS_ATIM);
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++			/* Reset TSF for STA+AP concurrent mode */
++			if (rtw_mi_buddy_check_fwstate(padapter,
++				(WIFI_STATION_STATE | WIFI_ASOC_STATE))) {
++				if (reset_tsf(padapter, HW_PORT1) == _FALSE)
++					RTW_INFO("ERROR! %s()-%d: Reset port1 TSF fail\n",
++						 __FUNCTION__, __LINE__);
++			}
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++		}
++	} else /* else for port0 */
++#endif /* CONFIG_CONCURRENT_MODE */
++	{
++#ifdef CONFIG_MI_WITH_MBSSID_CAM /*For Port0 - MBSS CAM*/
++		hw_var_set_opmode_mbid(padapter, mode);
++#else
++		/* disable Port0 TSF update */
++		val8 = rtw_read8(padapter, REG_BCN_CTRL);
++		val8 |= DIS_TSF_UDT;
++		rtw_write8(padapter, REG_BCN_CTRL, val8);
++
++		/* set net_type */
++		Set_MSR(padapter, mode);
++		RTW_INFO("#### %s() -%d hw_port(0) mode = %d ####\n",
++			 __func__, __LINE__, mode);
++
++		if ((mode == _HW_STATE_STATION_) || (mode == _HW_STATE_NOLINK_)) {
++#ifdef CONFIG_CONCURRENT_MODE
++			if (!rtw_mi_check_status(padapter, MI_AP_MODE)) {
++#else
++			{
++#endif /* CONFIG_CONCURRENT_MODE */
++				StopTxBeacon(padapter);
++#ifdef CONFIG_PCI_HCI
++				UpdateInterruptMask8723DE(padapter, 0, 0, RT_BCN_INT_MASKS, 0);
++#else /* !CONFIG_PCI_HCI */
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT
++				rtw_write8(padapter, REG_DRVERLYINT, 0x05); /* restore early int time to 5ms */
++				UpdateInterruptMask8812AU(padapter, _TRUE, 0, IMR_BCNDMAINT0_8723D);
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT */
++
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR
++				UpdateInterruptMask8812AU(padapter, _TRUE , 0, (IMR_TXBCN0ERR_8723D | IMR_TXBCN0OK_8723D));
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR */
++
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN */
++#endif /* !CONFIG_PCI_HCI */
++			}
++
++			/* disable atim wnd */
++			rtw_write8(padapter, REG_BCN_CTRL, DIS_TSF_UDT | EN_BCN_FUNCTION | DIS_ATIM);
++			/* rtw_write8(padapter,REG_BCN_CTRL, 0x18); */
++		} else if ((mode == _HW_STATE_ADHOC_) /*|| (mode == _HW_STATE_AP_)*/) {
++			ResumeTxBeacon(padapter);
++			rtw_write8(padapter, REG_BCN_CTRL, DIS_TSF_UDT | EN_BCN_FUNCTION | DIS_BCNQ_SUB);
++		} else if (mode == _HW_STATE_AP_) {
++#ifdef CONFIG_PCI_HCI
++			UpdateInterruptMask8723DE(padapter, RT_BCN_INT_MASKS, 0, 0, 0);
++#else /* !CONFIG_PCI_HCI */
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT
++			UpdateInterruptMask8723DU(padapter, _TRUE , IMR_BCNDMAINT0_8723D, 0);
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT */
++
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR
++			UpdateInterruptMask8723DU(padapter, _TRUE , (IMR_TXBCN0ERR_8723D | IMR_TXBCN0OK_8723D), 0);
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR */
++
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN */
++#endif
++
++			ResumeTxBeacon(padapter);
++
++			rtw_write8(padapter, REG_BCN_CTRL, DIS_TSF_UDT | DIS_BCNQ_SUB);
++
++			/* Set RCR */
++			/* rtw_write32(padapter, REG_RCR, 0x70002a8e);//CBSSID_DATA must set to 0 */
++			/* rtw_write32(padapter, REG_RCR, 0x7000228e);//CBSSID_DATA must set to 0 */
++			if (padapter->registrypriv.wifi_spec)
++				/* for 11n Logo 4.2.31/4.2.32, disable BSSID BCN check for AP mode */
++				rtw_write32(padapter, REG_RCR, (0x7000208e & ~(RCR_CBSSID_BCN)));
++			else
++				rtw_write32(padapter, REG_RCR, 0x7000208e);/* CBSSID_DATA must set to 0,reject ICV_ERR packet */
++			/* enable to rx data frame */
++			rtw_write16(padapter, REG_RXFLTMAP2, 0xFFFF);
++			/* enable to rx ps-poll */
++			rtw_write16(padapter, REG_RXFLTMAP1, 0x0400);
++
++			/* Beacon Control related register for first time */
++			rtw_write8(padapter, REG_BCNDMATIM, 0x02); /* 2ms */
++
++			/* rtw_write8(padapter, REG_BCN_MAX_ERR, 0xFF); */
++			rtw_write8(padapter, REG_ATIMWND, 0x0a); /* 10ms */
++			rtw_write16(padapter, REG_BCNTCFG, 0x00);
++			rtw_write16(padapter, REG_TBTT_PROHIBIT, 0xff04);
++			rtw_write16(padapter, REG_TSFTR_SYN_OFFSET, 0x7fff);/* +32767 (~32ms) */
++
++			/* reset TSF */
++			rtw_write8(padapter, REG_DUAL_TSF_RST, BIT(0));
++
++			/* enable BCN0 Function for if1 */
++			/* don't enable update TSF0 for if1 (due to TSF update when beacon/probe rsp are received) */
++			rtw_write8(padapter, REG_BCN_CTRL, (DIS_TSF_UDT | EN_BCN_FUNCTION | EN_TXBCN_RPT | DIS_BCNQ_SUB));
++
++			/* SW_BCN_SEL - Port0 */
++			/* rtw_write8(Adapter, REG_DWBCN1_CTRL_8192E+2, rtw_read8(Adapter, REG_DWBCN1_CTRL_8192E+2) & ~BIT4); */
++			rtw_hal_set_hwreg(padapter, HW_VAR_DL_BCN_SEL, NULL);
++
++			/* select BCN on port 0 */
++			rtw_write8(padapter, REG_CCK_CHECK_8723D,
++				(rtw_read8(padapter, REG_CCK_CHECK_8723D) & ~BIT_BCN_PORT_SEL));
++
++			/* dis BCN1 ATIM  WND if if2 is station */
++			val8 = rtw_read8(padapter, REG_BCN_CTRL_1);
++			val8 |= DIS_ATIM;
++			rtw_write8(padapter, REG_BCN_CTRL_1, val8);
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++			/* Reset TSF for STA+AP concurrent mode */
++			if (rtw_mi_buddy_check_fwstate(padapter,
++				(WIFI_STATION_STATE | WIFI_ASOC_STATE))) {
++				if (reset_tsf(padapter, HW_PORT0) == _FALSE)
++					RTW_INFO("ERROR! %s()-%d: Reset port0 TSF fail\n",
++						 __FUNCTION__, __LINE__);
++			}
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++		}
++	}
++}
++#endif
++
++static void hw_var_set_bcn_func(PADAPTER padapter, u8 variable, u8 *val)
++{
++	u32 bcn_ctrl_reg;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->hw_port == HW_PORT1)
++		bcn_ctrl_reg = REG_BCN_CTRL_1;
++	else
++#endif
++	{
++		bcn_ctrl_reg = REG_BCN_CTRL;
++	}
++
++	if (*(u8 *)val)
++		rtw_write8(padapter, bcn_ctrl_reg, (EN_BCN_FUNCTION | EN_TXBCN_RPT));
++	else {
++		u8 val8;
++
++		val8 = rtw_read8(padapter, bcn_ctrl_reg);
++		val8 &= ~(EN_BCN_FUNCTION | EN_TXBCN_RPT);
++#ifdef CONFIG_BT_COEXIST
++		/* Always enable port0 beacon function for PSTDMA */
++		if (REG_BCN_CTRL == bcn_ctrl_reg)
++			val8 |= EN_BCN_FUNCTION;
++#endif
++		rtw_write8(padapter, bcn_ctrl_reg, val8);
++	}
++}
++
++static void hw_var_set_correct_tsf(PADAPTER padapter, u8 variable, u8 *val)
++{
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++	/*do nothing*/
++#else
++	u8 val8;
++	u64	tsf;
++	struct mlme_ext_priv *pmlmeext;
++	struct mlme_ext_info *pmlmeinfo;
++
++
++	pmlmeext = &padapter->mlmeextpriv;
++	pmlmeinfo = &pmlmeext->mlmext_info;
++
++	tsf = pmlmeext->TSFValue - rtw_modular64(pmlmeext->TSFValue, (pmlmeinfo->bcn_interval * 1024)) - 1024; /* us */
++
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) ||
++	    ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE))
++		StopTxBeacon(padapter);
++
++	rtw_hal_correct_tsf(padapter, padapter->hw_port, tsf);
++#ifdef CONFIG_CONCURRENT_MODE
++	/* Update buddy port's TSF if it is SoftAP for beacon TX issue!*/
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE
++	    && rtw_mi_check_status(padapter, MI_AP_MODE)) {
++
++		struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++		int i;
++		_adapter *iface;
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if (!iface)
++				continue;
++			if (iface == padapter)
++				continue;
++
++			if (check_fwstate(&iface->mlmepriv, WIFI_AP_STATE) == _TRUE
++			    && check_fwstate(&iface->mlmepriv, WIFI_ASOC_STATE) == _TRUE) {
++				rtw_hal_correct_tsf(iface, iface->hw_port, tsf);
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++				if (reset_tsf(iface, iface->hw_port) == _FALSE)
++					RTW_INFO("%s-[ERROR] "ADPT_FMT" Reset port%d TSF fail\n", __func__, ADPT_ARG(iface), iface->hw_port);
++#endif	/* CONFIG_TSF_RESET_OFFLOAD*/
++			}
++		}
++	}
++#endif /* CONFIG_CONCURRENT_MODE */
++
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE)
++	    || ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE))
++		ResumeTxBeacon(padapter);
++#endif /*CONFIG_MI_WITH_MBSSID_CAM*/
++}
++
++static void hw_var_set_mlme_disconnect(PADAPTER padapter, u8 variable, u8 *val)
++{
++	u8 val8;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED) == _FALSE) {
++#else
++	{
++#endif
++	/* Set RCR to not to receive data frame when NO LINK state */
++	/* rtw_write32(padapter, REG_RCR, rtw_read32(padapter, REG_RCR) & ~RCR_ADF); */
++	/* reject all data frames */
++		rtw_write16(padapter, REG_RXFLTMAP2, 0);
++	}
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->hw_port == HW_PORT1) {
++	/* reset TSF1 */
++		rtw_write8(padapter, REG_DUAL_TSF_RST, BIT(1));
++
++	/* disable update TSF1 */
++		val8 = rtw_read8(padapter, REG_BCN_CTRL_1);
++		val8 |= DIS_TSF_UDT;
++		rtw_write8(padapter, REG_BCN_CTRL_1, val8);
++	} else
++#endif
++	{
++	/* reset TSF */
++		rtw_write8(padapter, REG_DUAL_TSF_RST, BIT(0));
++
++	/* disable update TSF */
++		val8 = rtw_read8(padapter, REG_BCN_CTRL);
++		val8 |= DIS_TSF_UDT;
++		rtw_write8(padapter, REG_BCN_CTRL, val8);
++	}
++}
++
++static void hw_var_set_mlme_sitesurvey(PADAPTER padapter, u8 variable, u8 *val)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	u32	value_rcr, rcr_clear_bit;
++	u16	value_rxfltmap2;
++	u8 val8;
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++	int i = 0;
++	_adapter *iface;
++#ifdef DBG_IFACE_STATUS
++	DBG_IFACE_STATUS_DUMP(padapter);
++#endif
++
++#ifdef CONFIG_FIND_BEST_CHANNEL
++	rcr_clear_bit = (RCR_CBSSID_BCN | RCR_CBSSID_DATA);
++
++	/* Receive all data frames */
++	value_rxfltmap2 = 0xFFFF;
++#else /* CONFIG_FIND_BEST_CHANNEL */
++
++	rcr_clear_bit = RCR_CBSSID_BCN;
++
++	/* config RCR to receive different BSSID & not to receive data frame */
++	value_rxfltmap2 = 0;
++
++#endif /* CONFIG_FIND_BEST_CHANNEL */
++
++	if (rtw_mi_check_fwstate(padapter, WIFI_AP_STATE))
++		rcr_clear_bit = RCR_CBSSID_BCN;
++
++#ifdef CONFIG_TDLS
++	/* TDLS will clear RCR_CBSSID_DATA bit for connection. */
++	else if (padapter->tdlsinfo.link_established == _TRUE)
++		rcr_clear_bit = RCR_CBSSID_BCN;
++#endif /* CONFIG_TDLS */
++
++	value_rcr = rtw_read32(padapter, REG_RCR);
++
++	if (*((u8 *)val)) {/* under sitesurvey */
++	/*
++	* 1. configure REG_RXFLTMAP2
++	* 2. disable TSF update &  buddy TSF update to avoid updating wrong TSF due to clear RCR_CBSSID_BCN
++	* 3. config RCR to receive different BSSID BCN or probe rsp
++	*/
++
++		rtw_write16(padapter, REG_RXFLTMAP2, value_rxfltmap2);
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++	/*do nothing~~*/
++#else
++
++	/* disable update TSF */
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if (!iface)
++				continue;
++
++			if (rtw_linked_check(iface) &&
++			    check_fwstate(&(iface->mlmepriv), WIFI_AP_STATE) != _TRUE) {
++				if (iface->hw_port == HW_PORT1)
++					rtw_write8(iface, REG_BCN_CTRL_1, rtw_read8(iface, REG_BCN_CTRL_1) | DIS_TSF_UDT);
++				else
++					rtw_write8(iface, REG_BCN_CTRL, rtw_read8(iface, REG_BCN_CTRL) | DIS_TSF_UDT);
++
++				iface->mlmeextpriv.en_hw_update_tsf = _FALSE;
++			}
++
++		}
++#endif
++
++		value_rcr &= ~(rcr_clear_bit);
++		rtw_write32(padapter, REG_RCR, value_rcr);
++
++		/* Save orignal RRSR setting. */
++		pHalData->RegRRSR = rtw_read16(padapter, REG_RRSR);
++
++		if (rtw_mi_check_status(padapter, MI_AP_MODE))
++			StopTxBeacon(padapter);
++		} else {/* sitesurvey done */
++		/*
++		* 1. enable rx data frame
++		* 2. config RCR not to receive different BSSID BCN or probe rsp
++		* 3. doesn't enable TSF update &  buddy TSF right now to avoid HW conflict
++		*so, we enable TSF update when rx first BCN after sitesurvey done
++		*/
++		if (rtw_mi_check_fwstate(padapter, _FW_LINKED | WIFI_AP_STATE)) {
++		/*enable to rx data frame*/
++			rtw_write16(padapter, REG_RXFLTMAP2, 0xFFFF);
++		}
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		value_rcr &= ~(RCR_CBSSID_BCN | RCR_CBSSID_DATA);
++#else
++		value_rcr |= rcr_clear_bit;
++#endif
++		/* for 11n Logo 4.2.31/4.2.32, disable BSSID BCN check for AP mode */
++		if (padapter->registrypriv.wifi_spec && MLME_IS_AP(padapter))
++			value_rcr &= ~(RCR_CBSSID_BCN);
++
++		rtw_write32(padapter, REG_RCR, value_rcr);
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		/*if ((rtw_mi_get_assoced_sta_num(Adapter) == 1) && (!rtw_mi_check_status(Adapter, MI_AP_MODE)))
++			rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL)&(~DIS_TSF_UDT));*/
++#else
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if (!iface)
++				continue;
++			if (rtw_linked_check(iface) &&
++				check_fwstate(&(iface->mlmepriv), WIFI_AP_STATE) != _TRUE) {
++				/* enable HW TSF update when recive beacon*/
++				/*if (iface->hw_port == HW_PORT1)
++					rtw_write8(iface, REG_BCN_CTRL_1, rtw_read8(iface, REG_BCN_CTRL_1)&(~(DIS_TSF_UDT)));
++				else
++					rtw_write8(iface, REG_BCN_CTRL, rtw_read8(iface, REG_BCN_CTRL)&(~(DIS_TSF_UDT)));
++				*/
++				iface->mlmeextpriv.en_hw_update_tsf = _TRUE;
++			}
++		}
++#endif
++
++		/*Restore orignal RRSR setting.*/
++		rtw_write16(padapter, REG_RRSR, pHalData->RegRRSR);
++
++		if (rtw_mi_check_status(padapter, MI_AP_MODE)) {
++			ResumeTxBeacon(padapter);
++			rtw_mi_tx_beacon_hdl(padapter);
++		}
++	}
++}
++
++static void hw_var_set_mlme_join(PADAPTER padapter, u8 variable, u8 *val)
++{
++	u8 val8;
++	u16 val16;
++	u32 val32;
++	u8 RetryLimit;
++	u8 type;
++	PHAL_DATA_TYPE pHalData;
++	struct mlme_priv *pmlmepriv;
++
++	RetryLimit = 0x30;
++	type = *(u8 *)val;
++	pHalData = GET_HAL_DATA(padapter);
++	pmlmepriv = &padapter->mlmepriv;
++#ifdef CONFIG_CONCURRENT_MODE
++	if (type == 0) {
++		/* prepare to join */
++		if (rtw_mi_check_status(padapter, MI_AP_MODE))
++			StopTxBeacon(padapter);
++
++		/* enable to rx data frame.Accept all data frame */
++		rtw_write16(padapter, REG_RXFLTMAP2, 0xFFFF);
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		/*
++		if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) && (rtw_mi_get_assoced_sta_num(padapter) == 1))
++			rtw_write32(padapter, REG_RCR, rtw_read32(padapter, REG_RCR)|RCR_CBSSID_DATA|RCR_CBSSID_BCN);
++		else if ((rtw_mi_get_ap_num(Adapter) == 1) && (rtw_mi_get_assoced_sta_num(Adapter) == 1))
++			rtw_write32(padapter, REG_RCR, rtw_read32(padapter, REG_RCR)|RCR_CBSSID_BCN);
++		else*/
++			rtw_write32(padapter, REG_RCR, rtw_read32(padapter, REG_RCR) & (~(RCR_CBSSID_DATA | RCR_CBSSID_BCN)));
++#else
++		if (rtw_mi_check_status(padapter, MI_AP_MODE)) {
++			val32 = rtw_read32(padapter, REG_RCR);
++			val32 |= RCR_CBSSID_BCN;
++			rtw_write32(padapter, REG_RCR, val32);
++		} else {
++			val32 = rtw_read32(padapter, REG_RCR);
++			val32 |= RCR_CBSSID_DATA | RCR_CBSSID_BCN;
++			rtw_write32(padapter, REG_RCR, val32);
++		}
++#endif
++		if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++			RetryLimit = (pHalData->CustomerID == RT_CID_CCX) ? 7 : 48;
++		else /* Ad-hoc Mode */
++			RetryLimit = 0x7;
++		} else if (type == 1) {
++			/* joinbss_event call back when join res < 0 */
++			if (rtw_mi_check_status(padapter, MI_LINKED) == _FALSE)
++				rtw_write16(padapter, REG_RXFLTMAP2, 0x00);
++
++			if (rtw_mi_check_status(padapter, MI_AP_MODE)) {
++				ResumeTxBeacon(padapter);
++				/* reset TSF 1/2 after ResumeTxBeacon */
++				rtw_write8(padapter, REG_DUAL_TSF_RST, BIT(1) | BIT(0));
++			}
++		} else if (type == 2) {
++			/* sta add event call back */
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++			/*if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) && (rtw_mi_get_assoced_sta_num(padapter) == 1))
++				rtw_write8(padapter, REG_BCN_CTRL, rtw_read8(padapter, REG_BCN_CTRL)&(~DIS_TSF_UDT));*/
++#else
++			/* enable update TSF */
++			if (padapter->hw_port == HW_PORT1) {
++				val8 = rtw_read8(padapter, REG_BCN_CTRL_1);
++				val8 &= ~DIS_TSF_UDT;
++				rtw_write8(padapter, REG_BCN_CTRL_1, val8);
++			} else {
++				val8 = rtw_read8(padapter, REG_BCN_CTRL);
++				val8 &= ~DIS_TSF_UDT;
++				rtw_write8(padapter, REG_BCN_CTRL, val8);
++			}
++#endif
++			if (check_fwstate(pmlmepriv,
++				WIFI_ADHOC_STATE | WIFI_ADHOC_MASTER_STATE)) {
++				rtw_write8(padapter, 0x542 , 0x02);
++				RetryLimit = 0x7;
++			}
++
++			if (rtw_mi_check_status(padapter, MI_AP_MODE)) {
++				ResumeTxBeacon(padapter);
++
++			/* reset TSF 1/2 after ResumeTxBeacon */
++				rtw_write8(padapter, REG_DUAL_TSF_RST, BIT(1) | BIT(0));
++			}
++		}
++
++		val16 = (RetryLimit << RETRY_LIMIT_SHORT_SHIFT) | (RetryLimit << RETRY_LIMIT_LONG_SHIFT);
++		rtw_write16(padapter, REG_RL, val16);
++#else /* !CONFIG_CONCURRENT_MODE */
++		if (type == 0) { /* prepare to join */
++			/* enable to rx data frame.Accept all data frame */
++			/* rtw_write32(padapter, REG_RCR, rtw_read32(padapter, REG_RCR)|RCR_ADF); */
++			rtw_write16(padapter, REG_RXFLTMAP2, 0xFFFF);
++
++			val32 = rtw_read32(padapter, REG_RCR);
++			if (padapter->in_cta_test)
++				val32 &= ~(RCR_CBSSID_DATA | RCR_CBSSID_BCN);/* | RCR_ADF */
++			else
++				val32 |= RCR_CBSSID_DATA | RCR_CBSSID_BCN;
++			rtw_write32(padapter, REG_RCR, val32);
++
++			if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++				RetryLimit = (pHalData->CustomerID == RT_CID_CCX) ? 7 : 48;
++			else /* Ad-hoc Mode */
++				RetryLimit = 0x7;
++		} else if (type == 1) /* joinbss_event call back when join res < 0 */
++			rtw_write16(padapter, REG_RXFLTMAP2, 0x00);
++		else if (type == 2) { /* sta add event call back */
++			/* enable update TSF */
++			val8 = rtw_read8(padapter, REG_BCN_CTRL);
++			val8 &= ~DIS_TSF_UDT;
++			rtw_write8(padapter, REG_BCN_CTRL, val8);
++
++			if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE | WIFI_ADHOC_MASTER_STATE))
++				RetryLimit = 0x7;
++		}
++
++	val16 = (RetryLimit << RETRY_LIMIT_SHORT_SHIFT) | (RetryLimit << RETRY_LIMIT_LONG_SHIFT);
++	rtw_write16(padapter, REG_RL, val16);
++#endif /* !CONFIG_CONCURRENT_MODE */
++}
++
++void CCX_FwC2HTxRpt_8723d(PADAPTER padapter, u8 *pdata, u8 len)
++{
++	u8 seq_no;
++
++#define	GET_8723D_C2H_TX_RPT_LIFE_TIME_OVER(_Header)	LE_BITS_TO_1BYTE((_Header + 0), 6, 1)
++#define	GET_8723D_C2H_TX_RPT_RETRY_OVER(_Header)	LE_BITS_TO_1BYTE((_Header + 0), 7, 1)
++
++	/* RTW_INFO("%s, 0x%x, 0x%x, 0x%x, 0x%x, 0x%x, 0x%x, 0x%x, 0x%x\n", __func__,  */
++	/**pdata, *(pdata+1), *(pdata+2), *(pdata+3), *(pdata+4), *(pdata+5), *(pdata+6), *(pdata+7)); */
++
++	seq_no = *(pdata + 6);
++
++#ifdef CONFIG_XMIT_ACK
++	if (GET_8723D_C2H_TX_RPT_RETRY_OVER(pdata) | GET_8723D_C2H_TX_RPT_LIFE_TIME_OVER(pdata))
++		rtw_ack_tx_done(&padapter->xmitpriv, RTW_SCTX_DONE_CCX_PKT_FAIL);
++	/*
++	else if(seq_no != padapter->xmitpriv.seq_no) {
++		RTW_INFO("tx_seq_no=%d, rpt_seq_no=%d\n", padapter->xmitpriv.seq_no, seq_no);
++		rtw_ack_tx_done(&padapter->xmitpriv, RTW_SCTX_DONE_CCX_PKT_FAIL);
++	}
++	*/
++	else
++		rtw_ack_tx_done(&padapter->xmitpriv, RTW_SCTX_DONE_SUCCESS);
++#endif
++}
++
++s32 c2h_handler_8723d(_adapter *adapter, u8 id, u8 seq, u8 plen, u8 *payload)
++{
++	s32 ret = _SUCCESS;
++
++	switch (id) {
++	case C2H_CCX_TX_RPT:
++		CCX_FwC2HTxRpt_8723d(adapter, payload, plen);
++		break;
++	default:
++		ret = _FAIL;
++		break;
++	}
++
++exit:
++	return ret;
++}
++
++void SetHwReg8723D(PADAPTER padapter, u8 variable, u8 *val)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	u8 val8;
++	u16 val16;
++	u32 val32;
++
++
++	switch (variable) {
++	case HW_VAR_SET_OPMODE:
++		hw_var_set_opmode(padapter, variable, val);
++		break;
++
++	case HW_VAR_BASIC_RATE:
++	{
++		struct mlme_ext_info *mlmext_info = &padapter->mlmeextpriv.mlmext_info;
++		u16 input_b = 0, masked = 0, ioted = 0, BrateCfg = 0;
++		u16 rrsr_2g_force_mask = RRSR_CCK_RATES;
++		u16 rrsr_2g_allow_mask = (RRSR_24M | RRSR_12M | RRSR_6M | RRSR_CCK_RATES);
++
++		HalSetBrateCfg(padapter, val, &BrateCfg);
++		input_b = BrateCfg;
++
++		/* apply force and allow mask */
++		BrateCfg |= rrsr_2g_force_mask;
++		BrateCfg &= rrsr_2g_allow_mask;
++		masked = BrateCfg;
++
++#ifdef CONFIG_CMCC_TEST
++		BrateCfg |= (RRSR_11M | RRSR_5_5M | RRSR_1M); /* use 11M to send ACK */
++		BrateCfg |= (RRSR_24M | RRSR_18M | RRSR_12M); /* CMCC_OFDM_ACK 12/18/24M */
++#endif
++
++		/* IOT consideration */
++		if (mlmext_info->assoc_AP_vendor == HT_IOT_PEER_CISCO) {
++			/* if peer is cisco and didn't use ofdm rate, we enable 6M ack */
++			if ((BrateCfg & (RRSR_24M | RRSR_12M | RRSR_6M)) == 0)
++				BrateCfg |= RRSR_6M;
++		}
++		ioted = BrateCfg;
++
++		pHalData->BasicRateSet = BrateCfg;
++
++		RTW_INFO("HW_VAR_BASIC_RATE: %#x->%#x->%#x\n", input_b, masked, ioted);
++
++		/* Set RRSR rate table. */
++		rtw_write16(padapter, REG_RRSR, BrateCfg);
++		rtw_write8(padapter, REG_RRSR + 2, rtw_read8(padapter, REG_RRSR + 2) & 0xf0);
++	}
++		break;
++
++	case HW_VAR_TXPAUSE:
++		rtw_write8(padapter, REG_TXPAUSE, *val);
++		break;
++
++	case HW_VAR_BCN_FUNC:
++		hw_var_set_bcn_func(padapter, variable, val);
++		break;
++
++	case HW_VAR_CORRECT_TSF:
++		hw_var_set_correct_tsf(padapter, variable, val);
++		break;
++
++	case HW_VAR_CHECK_BSSID:
++	{
++		u32 val32;
++		val32 = rtw_read32(padapter, REG_RCR);
++		if (*val)
++			val32 |= RCR_CBSSID_DATA | RCR_CBSSID_BCN;
++		else
++			val32 &= ~(RCR_CBSSID_DATA | RCR_CBSSID_BCN);
++			rtw_write32(padapter, REG_RCR, val32);
++	}
++		break;
++
++	case HW_VAR_MLME_DISCONNECT:
++		hw_var_set_mlme_disconnect(padapter, variable, val);
++		break;
++
++	case HW_VAR_MLME_SITESURVEY:
++		hw_var_set_mlme_sitesurvey(padapter, variable,  val);
++
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_ScanNotify(padapter, *val ? _TRUE : _FALSE);
++#endif /* CONFIG_BT_COEXIST */
++		break;
++
++	case HW_VAR_MLME_JOIN:
++		hw_var_set_mlme_join(padapter, variable, val);
++
++#ifdef CONFIG_BT_COEXIST
++		switch (*val) {
++		case 0:
++			/* prepare to join */
++			rtw_btcoex_ConnectNotify(padapter, _TRUE);
++			break;
++		case 1:
++		case 2:
++			rtw_btcoex_ConnectNotify(padapter, _FALSE);
++			break;
++		}
++#endif /* CONFIG_BT_COEXIST */
++		break;
++
++	case HW_VAR_ON_RCR_AM:
++		val32 = rtw_read32(padapter, REG_RCR);
++		val32 |= RCR_AM;
++		rtw_write32(padapter, REG_RCR, val32);
++		RTW_INFO("%s, %d, RCR= %x\n", __FUNCTION__, __LINE__, rtw_read32(padapter, REG_RCR));
++		break;
++
++	case HW_VAR_OFF_RCR_AM:
++		val32 = rtw_read32(padapter, REG_RCR);
++		val32 &= ~RCR_AM;
++		rtw_write32(padapter, REG_RCR, val32);
++		RTW_INFO("%s, %d, RCR= %x\n", __FUNCTION__, __LINE__, rtw_read32(padapter, REG_RCR));
++		break;
++
++	case HW_VAR_BEACON_INTERVAL:
++		rtw_write16(padapter, REG_BCN_INTERVAL, *((u16 *)val));
++		break;
++
++	case HW_VAR_SLOT_TIME:
++		rtw_write8(padapter, REG_SLOT, *val);
++		break;
++
++	case HW_VAR_RESP_SIFS:
++#if 0
++		/* SIFS for OFDM Data ACK */
++		rtw_write8(padapter, REG_SIFS_CTX + 1, val[0]);
++		/* SIFS for OFDM consecutive tx like CTS data! */
++		rtw_write8(padapter, REG_SIFS_TRX + 1, val[1]);
++
++		rtw_write8(padapter, REG_SPEC_SIFS + 1, val[0]);
++		rtw_write8(padapter, REG_MAC_SPEC_SIFS + 1, val[0]);
++
++		/* 20100719 Joseph: Revise SIFS setting due to Hardware register definition change. */
++		rtw_write8(padapter, REG_R2T_SIFS + 1, val[0]);
++		rtw_write8(padapter, REG_T2T_SIFS + 1, val[0]);
++
++#else
++		/* SIFS_Timer = 0x0a0a0808; */
++		/* RESP_SIFS for CCK */
++		rtw_write8(padapter, REG_RESP_SIFS_CCK, val[0]); /* SIFS_T2T_CCK (0x08) */
++		rtw_write8(padapter, REG_RESP_SIFS_CCK + 1, val[1]); /* SIFS_R2T_CCK(0x08) */
++		/* RESP_SIFS for OFDM */
++		rtw_write8(padapter, REG_RESP_SIFS_OFDM, val[2]); /* SIFS_T2T_OFDM (0x0a) */
++		rtw_write8(padapter, REG_RESP_SIFS_OFDM + 1, val[3]); /* SIFS_R2T_OFDM(0x0a) */
++#endif
++		break;
++
++	case HW_VAR_ACK_PREAMBLE: {
++		u8 regTmp;
++		u8 bShortPreamble = *val;
++
++		/* Joseph marked out for Netgear 3500 TKIP channel 7 issue.(Temporarily) */
++		/* regTmp = (pHalData->nCur40MhzPrimeSC)<<5; */
++		regTmp = 0;
++		if (bShortPreamble)
++			regTmp |= 0x80;
++			rtw_write8(padapter, REG_RRSR + 2, regTmp);
++	}
++		break;
++
++	case HW_VAR_CAM_EMPTY_ENTRY: {
++		u8	ucIndex = *val;
++		u8	i;
++		u32	ulCommand = 0;
++		u32	ulContent = 0;
++		u32	ulEncAlgo = CAM_AES;
++
++		for (i = 0; i < CAM_CONTENT_COUNT; i++) {
++		/* filled id in CAM config 2 byte */
++			if (i == 0) {
++				ulContent |= (ucIndex & 0x03) | ((u16)(ulEncAlgo) << 2);
++				/* ulContent |= CAM_VALID; */
++			} else
++				ulContent = 0;
++				/* polling bit, and No Write enable, and address */
++				ulCommand = CAM_CONTENT_COUNT * ucIndex + i;
++				ulCommand = ulCommand | CAM_POLLINIG | CAM_WRITE;
++				/* write content 0 is equall to mark invalid */
++				rtw_write32(padapter, WCAMI, ulContent);  /* delay_ms(40); */
++				rtw_write32(padapter, RWCAM, ulCommand);  /* delay_ms(40); */
++		}
++	}
++		break;
++
++	case HW_VAR_CAM_INVALID_ALL:
++		rtw_write32(padapter, RWCAM, BIT(31) | BIT(30));
++		break;
++
++	case HW_VAR_AC_PARAM_VO:
++		rtw_write32(padapter, REG_EDCA_VO_PARAM, *((u32 *)val));
++		break;
++
++	case HW_VAR_AC_PARAM_VI:
++		rtw_write32(padapter, REG_EDCA_VI_PARAM, *((u32 *)val));
++		break;
++
++	case HW_VAR_AC_PARAM_BE:
++		pHalData->AcParam_BE = ((u32 *)(val))[0];
++		rtw_write32(padapter, REG_EDCA_BE_PARAM, *((u32 *)val));
++		break;
++
++	case HW_VAR_AC_PARAM_BK:
++		rtw_write32(padapter, REG_EDCA_BK_PARAM, *((u32 *)val));
++		break;
++
++	case HW_VAR_ACM_CTRL: {
++		u8 ctrl = *((u8 *)val);
++		u8 hwctrl = 0;
++
++		if (ctrl != 0) {
++			hwctrl |= AcmHw_HwEn;
++
++		if (ctrl & BIT(1)) /* BE */
++			hwctrl |= AcmHw_BeqEn;
++
++		if (ctrl & BIT(2)) /* VI */
++			hwctrl |= AcmHw_ViqEn;
++
++		if (ctrl & BIT(3)) /* VO */
++			hwctrl |= AcmHw_VoqEn;
++		}
++
++		RTW_INFO("[HW_VAR_ACM_CTRL] Write 0x%02X\n", hwctrl);
++		rtw_write8(padapter, REG_ACMHWCTRL, hwctrl);
++	}
++		break;
++
++	case HW_VAR_AMPDU_FACTOR: {
++		u32	AMPDULen = (*((u8 *)val));
++
++		if (AMPDULen < HT_AGG_SIZE_32K)
++			AMPDULen = (0x2000 << (*((u8 *)val))) - 1;
++		else
++			AMPDULen = 0x7fff;
++
++		rtw_write32(padapter, REG_AMPDU_MAX_LENGTH_8723D, AMPDULen);
++	}
++		break;
++
++#if 0
++	case HW_VAR_RXDMA_AGG_PG_TH:
++		rtw_write8(padapter, REG_RXDMA_AGG_PG_TH, *val);
++		break;
++#endif
++
++	case HW_VAR_H2C_FW_PWRMODE: {
++		u8 psmode = *val;
++
++		/* Forece leave RF low power mode for 1T1R to prevent conficting setting in Fw power */
++		/* saving sequence. 2010.06.07. Added by tynli. Suggested by SD3 yschang. */
++		if (psmode != PS_MODE_ACTIVE)
++			ODM_RF_Saving(&pHalData->odmpriv, _TRUE);
++
++		/* if (psmode != PS_MODE_ACTIVE)	{ */
++			/*rtl8723d_set_lowpwr_lps_cmd(padapter, _TRUE); */
++		/* } else { */
++			/*	rtl8723d_set_lowpwr_lps_cmd(padapter, _FALSE); */
++		/* } */
++		rtl8723d_set_FwPwrMode_cmd(padapter, psmode);
++	}
++		break;
++	case HW_VAR_H2C_PS_TUNE_PARAM:
++		rtl8723d_set_FwPsTuneParam_cmd(padapter);
++		break;
++
++	case HW_VAR_H2C_FW_JOINBSSRPT:
++		rtl8723d_set_FwJoinBssRpt_cmd(padapter, *val);
++#ifdef CONFIG_LPS_POFF
++		rtl8723d_lps_poff_h2c_ctrl(padapter, *val);
++#endif
++		break;
++
++#ifdef CONFIG_P2P
++	case HW_VAR_H2C_FW_P2P_PS_OFFLOAD:
++		rtl8723d_set_p2p_ps_offload_cmd(padapter, *val);
++		break;
++#endif /* CONFIG_P2P */
++#ifdef CONFIG_LPS_POFF
++	case HW_VAR_LPS_POFF_INIT:
++		rtl8723d_lps_poff_init(padapter);
++		break;
++	case HW_VAR_LPS_POFF_DEINIT:
++		rtl8723d_lps_poff_deinit(padapter);
++		break;
++	case HW_VAR_LPS_POFF_SET_MODE:
++		rtl8723d_lps_poff_set_ps_mode(padapter, *val);
++		break;
++	case HW_VAR_LPS_POFF_WOW_EN:
++		rtl8723d_lps_poff_h2c_ctrl(padapter, *val);
++		break;
++#endif /*CONFIG_LPS_POFF*/
++#ifdef CONFIG_TDLS
++	case HW_VAR_TDLS_WRCR:
++		rtw_write32(padapter, REG_RCR, rtw_read32(padapter, REG_RCR) & (~RCR_CBSSID_DATA));
++		break;
++	case HW_VAR_TDLS_RS_RCR:
++		rtw_write32(padapter, REG_RCR, rtw_read32(padapter, REG_RCR) | (RCR_CBSSID_DATA));
++		break;
++#endif /* CONFIG_TDLS */
++
++	case HW_VAR_EFUSE_USAGE:
++		pHalData->EfuseUsedPercentage = *val;
++		break;
++
++	case HW_VAR_EFUSE_BYTES:
++		pHalData->EfuseUsedBytes = *((u16 *)val);
++		break;
++
++	case HW_VAR_EFUSE_BT_USAGE:
++#ifdef HAL_EFUSE_MEMORY
++		pHalData->EfuseHal.BTEfuseUsedPercentage = *val;
++#endif
++		break;
++
++	case HW_VAR_EFUSE_BT_BYTES:
++#ifdef HAL_EFUSE_MEMORY
++		pHalData->EfuseHal.BTEfuseUsedBytes = *((u16 *)val);
++#else
++		BTEfuseUsedBytes = *((u16 *)val);
++#endif
++		break;
++
++	case HW_VAR_FIFO_CLEARN_UP: {
++#define RW_RELEASE_EN		BIT(18)
++#define RXDMA_IDLE			BIT(17)
++
++		struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++		u8 trycnt = 100;
++
++		/* pause tx */
++		rtw_write8(padapter, REG_TXPAUSE, 0xff);
++
++		/* keep sn */
++		padapter->xmitpriv.nqos_ssn = rtw_read16(padapter, REG_NQOS_SEQ);
++
++		if (pwrpriv->bkeepfwalive != _TRUE) {
++			/* RX DMA stop */
++			val32 = rtw_read32(padapter, REG_RXPKT_NUM);
++			val32 |= RW_RELEASE_EN;
++			rtw_write32(padapter, REG_RXPKT_NUM, val32);
++			do {
++				val32 = rtw_read32(padapter, REG_RXPKT_NUM);
++				val32 &= RXDMA_IDLE;
++				if (val32)
++					break;
++
++				RTW_INFO("%s: [HW_VAR_FIFO_CLEARN_UP] val=%x times:%d\n", __FUNCTION__, val32, trycnt);
++			} while (--trycnt);
++			if (trycnt == 0)
++				RTW_INFO("[HW_VAR_FIFO_CLEARN_UP] Stop RX DMA failed......\n");
++
++			/* RQPN Load 0 */
++			rtw_write16(padapter, REG_RQPN_NPQ, 0);
++			rtw_write32(padapter, REG_RQPN, 0x80000000);
++			rtw_mdelay_os(2);
++		}
++	}
++	break;
++
++	case HW_VAR_RESTORE_HW_SEQ:
++		/* restore Sequence No. */
++		rtw_write8(padapter, 0x4dc, padapter->xmitpriv.nqos_ssn);
++		break;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	case HW_VAR_CHECK_TXBUF: {
++		u32 i;
++		u8 RetryLimit = 0x01;
++		u32 reg_200, reg_204;
++
++		val16 = RetryLimit << RETRY_LIMIT_SHORT_SHIFT | RetryLimit << RETRY_LIMIT_LONG_SHIFT;
++		rtw_write16(padapter, REG_RL, val16);
++
++		for (i = 0; i < 200; i++) { /* polling 200x10=2000 msec */
++			reg_200 = rtw_read32(padapter, 0x200);
++			reg_204 = rtw_read32(padapter, 0x204);
++			if (reg_200 != reg_204) {
++			/* RTW_INFO("packet in tx packet buffer - 0x204=%x, 0x200=%x (%d)\n", rtw_read32(padapter, 0x204), rtw_read32(padapter, 0x200), i); */
++				rtw_msleep_os(10);
++			} else {
++				RTW_INFO("[HW_VAR_CHECK_TXBUF] no packet in tx packet buffer (%d)\n", i);
++				break;
++			}
++		}
++
++		if (reg_200 != reg_204)
++			RTW_INFO("packets in tx buffer - 0x204=%x, 0x200=%x\n", reg_204, reg_200);
++
++		RetryLimit = 0x30;
++		val16 = RetryLimit << RETRY_LIMIT_SHORT_SHIFT | RetryLimit << RETRY_LIMIT_LONG_SHIFT;
++		rtw_write16(padapter, REG_RL, val16);
++	}
++		break;
++#endif /* CONFIG_CONCURRENT_MODE */
++
++	case HW_VAR_NAV_UPPER: {
++		u32 usNavUpper = *((u32 *)val);
++
++		if (usNavUpper > HAL_NAV_UPPER_UNIT_8723D * 0xFF) {
++		break;
++	}
++
++		/* The value of ((usNavUpper + HAL_NAV_UPPER_UNIT_8723D - 1) / HAL_NAV_UPPER_UNIT_8723D) */
++		/* is getting the upper integer. */
++		usNavUpper = (usNavUpper + HAL_NAV_UPPER_UNIT_8723D - 1) / HAL_NAV_UPPER_UNIT_8723D;
++		rtw_write8(padapter, REG_NAV_UPPER, (u8)usNavUpper);
++	}
++		break;
++
++	case HW_VAR_BCN_VALID:
++#ifdef CONFIG_CONCURRENT_MODE
++		if (padapter->hw_port == HW_PORT1) {
++			val8 = rtw_read8(padapter,  REG_DWBCN1_CTRL_8723D + 2);
++			val8 |= BIT(0);
++			rtw_write8(padapter, REG_DWBCN1_CTRL_8723D + 2, val8);
++		} else
++#endif /* CONFIG_CONCURRENT_MODE */
++		{
++		/* BCN_VALID, BIT16 of REG_TDECTRL = BIT0 of REG_TDECTRL+2, write 1 to clear, Clear by sw */
++			val8 = rtw_read8(padapter, REG_TDECTRL + 2);
++			val8 |= BIT(0);
++			rtw_write8(padapter, REG_TDECTRL + 2, val8);
++		}
++		break;
++	case HW_VAR_DL_BCN_SEL:
++#ifdef CONFIG_CONCURRENT_MODE
++		if (padapter->hw_port == HW_PORT1) {
++			/* SW_BCN_SEL - Port1 */
++			val8 = rtw_read8(padapter, REG_DWBCN1_CTRL_8723D + 2);
++			val8 |= BIT(4);
++			rtw_write8(padapter, REG_DWBCN1_CTRL_8723D + 2, val8);
++		} else
++#endif /* CONFIG_CONCURRENT_MODE */
++		{
++			/* SW_BCN_SEL - Port0 */
++			val8 = rtw_read8(padapter, REG_DWBCN1_CTRL_8723D + 2);
++			val8 &= ~BIT(4);
++			rtw_write8(padapter, REG_DWBCN1_CTRL_8723D + 2, val8);
++		}
++		break;
++	case HW_VAR_DO_IQK:
++		if (*val)
++			pHalData->bNeedIQK = _TRUE;
++		else
++			pHalData->bNeedIQK = _FALSE;
++		break;
++
++	case HW_VAR_DL_RSVD_PAGE:
++#ifdef CONFIG_BT_COEXIST
++		if (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE)
++			rtl8723d_download_BTCoex_AP_mode_rsvd_page(padapter);
++		else
++#endif /* CONFIG_BT_COEXIST */
++		{
++			rtl8723d_download_rsvd_page(padapter, RT_MEDIA_CONNECT);
++		}
++		break;
++
++	case HW_VAR_MACID_SLEEP: {
++		u32 reg_macid_sleep;
++		u8 bit_shift;
++		u8 id = *(u8 *)val;
++
++		if (id < 32) {
++			reg_macid_sleep = REG_MACID_SLEEP;
++			bit_shift = id;
++		} else if (id < 64) {
++			reg_macid_sleep = REG_MACID_SLEEP_1;
++			bit_shift = id - 32;
++		} else if (id < 96) {
++			reg_macid_sleep = REG_MACID_SLEEP_2;
++			bit_shift = id - 64;
++		} else if (id < 128) {
++			reg_macid_sleep = REG_MACID_SLEEP_3;
++			bit_shift = id - 96;
++		} else {
++			rtw_warn_on(1);
++			break;
++		}
++
++		val32 = rtw_read32(padapter, reg_macid_sleep);
++		RTW_INFO(FUNC_ADPT_FMT ": [HW_VAR_MACID_SLEEP] macid=%d, org reg_0x%03x=0x%08X\n",
++			FUNC_ADPT_ARG(padapter), id, reg_macid_sleep, val32);
++
++		if (val32 & BIT(bit_shift))
++			break;
++
++		val32 |= BIT(bit_shift);
++		rtw_write32(padapter, reg_macid_sleep, val32);
++	}
++		break;
++	case HW_VAR_MACID_WAKEUP: {
++		u32 reg_macid_sleep;
++		u8 bit_shift;
++		u8 id = *(u8 *)val;
++
++		if (id < 32) {
++			reg_macid_sleep = REG_MACID_SLEEP;
++			bit_shift = id;
++		} else if (id < 64) {
++			reg_macid_sleep = REG_MACID_SLEEP_1;
++			bit_shift = id - 32;
++		} else if (id < 96) {
++			reg_macid_sleep = REG_MACID_SLEEP_2;
++			bit_shift = id - 64;
++		} else if (id < 128) {
++			reg_macid_sleep = REG_MACID_SLEEP_3;
++			bit_shift = id - 96;
++		} else {
++			rtw_warn_on(1);
++			break;
++		}
++
++		val32 = rtw_read32(padapter, reg_macid_sleep);
++		RTW_INFO(FUNC_ADPT_FMT ": [HW_VAR_MACID_WAKEUP] macid=%d, org reg_0x%03x=0x%08X\n",
++			 FUNC_ADPT_ARG(padapter), id, reg_macid_sleep, val32);
++
++		if (!(val32 & BIT(bit_shift)))
++			break;
++
++		val32 &= ~BIT(bit_shift);
++		rtw_write32(padapter, reg_macid_sleep, val32);
++	}
++		break;
++	default:
++		SetHwReg(padapter, variable, val);
++		break;
++	}
++
++}
++
++struct qinfo_8723d {
++	u32 head:8;
++	u32 pkt_num:7;
++	u32 tail:8;
++	u32 ac:2;
++	u32 macid:7;
++};
++
++struct bcn_qinfo_8723d {
++	u16 head:8;
++	u16 pkt_num:8;
++};
++
++void dump_qinfo_8723d(void *sel, struct qinfo_8723d *info, const char *tag)
++{
++	/* if (info->pkt_num) */
++	RTW_PRINT_SEL(sel, "%shead:0x%02x, tail:0x%02x, pkt_num:%u, macid:%u, ac:%u\n"
++		, tag ? tag : "", info->head, info->tail,
++		info->pkt_num, info->macid, info->ac);
++}
++
++void dump_bcn_qinfo_8723d(void *sel, struct bcn_qinfo_8723d *info, const char *tag)
++{
++	/* if (info->pkt_num) */
++	RTW_PRINT_SEL(sel, "%shead:0x%02x, pkt_num:%u\n"
++		      , tag ? tag : "", info->head, info->pkt_num);
++}
++
++void dump_mac_qinfo_8723d(void *sel, _adapter *adapter)
++{
++	u32 q0_info;
++	u32 q1_info;
++	u32 q2_info;
++	u32 q3_info;
++	u32 q4_info;
++	u32 q5_info;
++	u32 q6_info;
++	u32 q7_info;
++	u32 mg_q_info;
++	u32 hi_q_info;
++	u16 bcn_q_info;
++
++	q0_info = rtw_read32(adapter, REG_Q0_INFO);
++	q1_info = rtw_read32(adapter, REG_Q1_INFO);
++	q2_info = rtw_read32(adapter, REG_Q2_INFO);
++	q3_info = rtw_read32(adapter, REG_Q3_INFO);
++	q4_info = rtw_read32(adapter, REG_Q4_INFO);
++	q5_info = rtw_read32(adapter, REG_Q5_INFO);
++	q6_info = rtw_read32(adapter, REG_Q6_INFO);
++	q7_info = rtw_read32(adapter, REG_Q7_INFO);
++	mg_q_info = rtw_read32(adapter, REG_MGQ_INFO);
++	hi_q_info = rtw_read32(adapter, REG_HGQ_INFO);
++	bcn_q_info = rtw_read16(adapter, REG_BCNQ_INFO);
++
++	dump_qinfo_8723d(sel, (struct qinfo_8723d *)&q0_info, "Q0 ");
++	dump_qinfo_8723d(sel, (struct qinfo_8723d *)&q1_info, "Q1 ");
++	dump_qinfo_8723d(sel, (struct qinfo_8723d *)&q2_info, "Q2 ");
++	dump_qinfo_8723d(sel, (struct qinfo_8723d *)&q3_info, "Q3 ");
++	dump_qinfo_8723d(sel, (struct qinfo_8723d *)&q4_info, "Q4 ");
++	dump_qinfo_8723d(sel, (struct qinfo_8723d *)&q5_info, "Q5 ");
++	dump_qinfo_8723d(sel, (struct qinfo_8723d *)&q6_info, "Q6 ");
++	dump_qinfo_8723d(sel, (struct qinfo_8723d *)&q7_info, "Q7 ");
++	dump_qinfo_8723d(sel, (struct qinfo_8723d *)&mg_q_info, "MG ");
++	dump_qinfo_8723d(sel, (struct qinfo_8723d *)&hi_q_info, "HI ");
++	dump_bcn_qinfo_8723d(sel, (struct bcn_qinfo_8723d *)&bcn_q_info, "BCN ");
++}
++
++void GetHwReg8723D(PADAPTER padapter, u8 variable, u8 *val)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++	u8 val8;
++	u16 val16;
++	u32 val32;
++
++	switch (variable) {
++	case HW_VAR_TXPAUSE:
++		*val = rtw_read8(padapter, REG_TXPAUSE);
++		break;
++
++	case HW_VAR_BCN_VALID:
++#ifdef CONFIG_CONCURRENT_MODE
++		if (padapter->hw_port == HW_PORT1) {
++			val8 = rtw_read8(padapter, REG_DWBCN1_CTRL_8723D + 2);
++			*val = (BIT(0) & val8) ? _TRUE : _FALSE;
++		} else
++#endif
++		{
++			/* BCN_VALID, BIT16 of REG_TDECTRL = BIT0 of REG_TDECTRL+2 */
++			val8 = rtw_read8(padapter, REG_TDECTRL + 2);
++			*val = (BIT(0) & val8) ? _TRUE : _FALSE;
++		}
++		break;
++
++	case HW_VAR_FWLPS_RF_ON: {
++		/* When we halt NIC, we should check if FW LPS is leave. */
++		u32 valRCR;
++
++		if (rtw_is_surprise_removed(padapter) ||
++		    (adapter_to_pwrctl(padapter)->rf_pwrstate == rf_off)) {
++			/* If it is in HW/SW Radio OFF or IPS state, we do not check Fw LPS Leave, */
++			/* because Fw is unload. */
++			*val = _TRUE;
++		} else {
++			valRCR = rtw_read32(padapter, REG_RCR);
++			valRCR &= 0x00070000;
++			if (valRCR)
++				*val = _FALSE;
++			else
++				*val = _TRUE;
++		}
++	}
++		break;
++
++	case HW_VAR_EFUSE_USAGE:
++		*val = pHalData->EfuseUsedPercentage;
++		break;
++
++	case HW_VAR_EFUSE_BYTES:
++		*((u16 *)val) = pHalData->EfuseUsedBytes;
++		break;
++
++	case HW_VAR_EFUSE_BT_USAGE:
++#ifdef HAL_EFUSE_MEMORY
++		*val = pHalData->EfuseHal.BTEfuseUsedPercentage;
++#endif
++		break;
++
++	case HW_VAR_EFUSE_BT_BYTES:
++#ifdef HAL_EFUSE_MEMORY
++		*((u16 *)val) = pHalData->EfuseHal.BTEfuseUsedBytes;
++#else
++		*((u16 *)val) = BTEfuseUsedBytes;
++#endif
++		break;
++
++	case HW_VAR_CHK_HI_QUEUE_EMPTY:
++		val16 = rtw_read16(padapter, REG_TXPKT_EMPTY);
++		*val = (val16 & BIT(10)) ? _TRUE : _FALSE;
++		break;
++#ifdef CONFIG_WOWLAN
++	case HW_VAR_RPWM_TOG:
++		*val = rtw_read8(padapter, SDIO_LOCAL_BASE | SDIO_REG_HRPWM1) & BIT(7);
++		break;
++	case HW_VAR_WAKEUP_REASON:
++		*val = rtw_read8(padapter, REG_WOWLAN_WAKE_REASON);
++		if (*val == 0xEA)
++			*val = 0;
++		break;
++	case HW_VAR_SYS_CLKR:
++		*val = rtw_read8(padapter, REG_SYS_CLKR);
++		break;
++#endif
++	case HW_VAR_DUMP_MAC_QUEUE_INFO:
++		dump_mac_qinfo_8723d(val, padapter);
++		break;
++	default:
++		GetHwReg(padapter, variable, val);
++		break;
++	}
++}
++
++/*
++ *	Description:
++ *		Change default setting of specified variable.
++ */
++u8 SetHalDefVar8723D(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval)
++{
++	PHAL_DATA_TYPE pHalData;
++	u8 bResult;
++
++	bResult = _SUCCESS;
++
++	switch (variable) {
++	default:
++		bResult = SetHalDefVar(padapter, variable, pval);
++		break;
++	}
++
++	return bResult;
++}
++
++void hal_ra_info_dump(_adapter *padapter , void *sel)
++{
++	int i;
++	u8 mac_id;
++	u32 cmd;
++	u32 ra_info1, ra_info2, bw_set;
++	u32 rate_mask1, rate_mask2;
++	u8 curr_tx_rate, curr_tx_sgi, hight_rate, lowest_rate;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	HAL_DATA_TYPE *HalData = GET_HAL_DATA(padapter);
++
++	for (i = 0; i < macid_ctl->num; i++) {
++
++		if (rtw_macid_is_used(macid_ctl, i) && !rtw_macid_is_bmc(macid_ctl, i)) {
++
++			mac_id = (u8) i;
++			_RTW_PRINT_SEL(sel , "============ RA status check  Mac_id:%d ===================\n", mac_id);
++
++			cmd = 0x40000100 | mac_id;
++			rtw_write32(padapter, REG_HMEBOX_DBG_2_8723D, cmd);
++			rtw_msleep_os(10);
++			ra_info1 = rtw_read32(padapter, 0x2F0);
++			curr_tx_rate = ra_info1 & 0x7F;
++			curr_tx_sgi = (ra_info1 >> 7) & 0x01;
++
++			_RTW_PRINT_SEL(sel , "[ ra_info1:0x%08x ] =>cur_tx_rate= %s,cur_sgi:%d\n", ra_info1, HDATA_RATE(curr_tx_rate), curr_tx_sgi);
++			_RTW_PRINT_SEL(sel , "[ ra_info1:0x%08x ] => PWRSTS = 0x%02x\n", ra_info1, (ra_info1 >> 8)  & 0x07);
++
++			cmd = 0x40000400 | mac_id;
++			rtw_write32(padapter, REG_HMEBOX_DBG_2_8723D, cmd);
++			rtw_msleep_os(10);
++			ra_info1 = rtw_read32(padapter, 0x2F0);
++			ra_info2 = rtw_read32(padapter, 0x2F4);
++			rate_mask1 = rtw_read32(padapter, 0x2F8);
++			rate_mask2 = rtw_read32(padapter, 0x2FC);
++			hight_rate = ra_info2 & 0xFF;
++			lowest_rate = (ra_info2 >> 8)  & 0xFF;
++			bw_set = (ra_info1 >> 8)  & 0xFF;
++
++			_RTW_PRINT_SEL(sel , "[ ra_info1:0x%08x ] => VHT_EN=0x%02x, ", ra_info1, (ra_info1 >> 24) & 0xFF);
++
++
++			switch (bw_set) {
++
++			case CHANNEL_WIDTH_20:
++				_RTW_PRINT_SEL(sel , "BW_setting=20M\n");
++				break;
++
++			case CHANNEL_WIDTH_40:
++				_RTW_PRINT_SEL(sel , "BW_setting=40M\n");
++				break;
++
++			case CHANNEL_WIDTH_80:
++				_RTW_PRINT_SEL(sel , "BW_setting=80M\n");
++				break;
++
++			case CHANNEL_WIDTH_160:
++				_RTW_PRINT_SEL(sel , "BW_setting=160M\n");
++				break;
++
++			default:
++				_RTW_PRINT_SEL(sel , "BW_setting=0x%02x\n", bw_set);
++				break;
++
++			}
++
++			_RTW_PRINT_SEL(sel , "[ ra_info1:0x%08x ] =>RSSI=%d, DISRA=0x%02x\n",
++				       ra_info1,
++				       ra_info1 & 0xFF,
++				       (ra_info1 >> 16) & 0xFF);
++
++			_RTW_PRINT_SEL(sel , "[ ra_info2:0x%08x ] =>hight_rate=%s, lowest_rate=%s, SGI=0x%02x, RateID=%d\n",
++				       ra_info2,
++				       HDATA_RATE(hight_rate),
++				       HDATA_RATE(lowest_rate),
++				       (ra_info2 >> 16) & 0xFF,
++				       (ra_info2 >> 24) & 0xFF);
++
++			_RTW_PRINT_SEL(sel , "rate_mask2=0x%08x, rate_mask1=0x%08x\n", rate_mask2, rate_mask1);
++
++		}
++	}
++}
++
++/*
++ *	Description:
++ *		Query setting of specified variable.
++ */
++u8 GetHalDefVar8723D(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval)
++{
++	PHAL_DATA_TYPE pHalData;
++	u8 bResult;
++
++	pHalData = GET_HAL_DATA(padapter);
++	bResult = _SUCCESS;
++
++	switch (variable) {
++	case HAL_DEF_MAX_RECVBUF_SZ:
++		*((u32 *)pval) = MAX_RECVBUF_SZ;
++		break;
++	case HAL_DEF_RX_PACKET_OFFSET:
++#ifdef CONFIG_TRX_BD_ARCH
++		*((u32 *)pval) = RX_WIFI_INFO_SIZE + DRVINFO_SZ * 8;
++#else
++		*((u32 *)pval) = RXDESC_SIZE + DRVINFO_SZ * 8;
++#endif
++		break;
++
++	case HW_VAR_MAX_RX_AMPDU_FACTOR:
++		/* Stanley@BB.SD3 suggests 16K can get stable performance */
++		/* The experiment was done on SDIO interface */
++		/* coding by Lucas@20130730 */
++		*(HT_CAP_AMPDU_FACTOR *)pval = MAX_AMPDU_FACTOR_16K;
++		break;
++	case HW_VAR_BEST_AMPDU_DENSITY:
++		*((u32 *)pval) = AMPDU_DENSITY_VALUE_7;
++		break;
++	case HAL_DEF_TX_LDPC:
++	case HAL_DEF_RX_LDPC:
++		*((u8 *)pval) = _FALSE;
++		break;
++	case HAL_DEF_TX_STBC:
++		*((u8 *)pval) = 0;
++		break;
++	case HAL_DEF_RX_STBC:
++		*((u8 *)pval) = 1;
++		break;
++	case HAL_DEF_EXPLICIT_BEAMFORMER:
++	case HAL_DEF_EXPLICIT_BEAMFORMEE:
++		*((u8 *)pval) = _FALSE;
++		break;
++
++	case HW_DEF_RA_INFO_DUMP:
++		hal_ra_info_dump(padapter, pval);
++		break;
++
++	case HAL_DEF_TX_PAGE_BOUNDARY:
++		if (!padapter->registrypriv.wifi_spec)
++			*(u8 *)pval = TX_PAGE_BOUNDARY_8723D;
++		else
++			*(u8 *)pval = WMM_NORMAL_TX_PAGE_BOUNDARY_8723D;
++		break;
++	case HAL_DEF_MACID_SLEEP:
++		*(u8 *)pval = _TRUE; /* support macid sleep */
++		break;
++	case HAL_DEF_TX_PAGE_SIZE:
++		*((u32 *)pval) = PAGE_SIZE_128;
++		break;
++	case HAL_DEF_RX_DMA_SZ_WOW:
++		*(u32 *)pval = RX_DMA_SIZE_8723D - RESV_FMWF;
++		break;
++	case HAL_DEF_RX_DMA_SZ:
++		*(u32 *)pval = RX_DMA_BOUNDARY_8723D + 1;
++		break;
++	case HAL_DEF_RX_PAGE_SIZE:
++		*((u32 *)pval) = 8;
++		break;
++	default:
++		bResult = GetHalDefVar(padapter, variable, pval);
++		break;
++	}
++
++	return bResult;
++}
++
++#ifdef CONFIG_WOWLAN
++void Hal_DetectWoWMode(PADAPTER pAdapter)
++{
++	adapter_to_pwrctl(pAdapter)->bSupportRemoteWakeup = _TRUE;
++	RTW_INFO("%s\n", __func__);
++}
++#endif /* CONFIG_WOWLAN */
++
++void rtl8723d_start_thread(_adapter *padapter)
++{
++#if (defined CONFIG_SDIO_HCI) || (defined CONFIG_GSPI_HCI)
++#ifndef CONFIG_SDIO_TX_TASKLET
++	struct xmit_priv *xmitpriv = &padapter->xmitpriv;
++
++	xmitpriv->SdioXmitThread = kthread_run(rtl8723ds_xmit_thread, padapter, "RTWHALXT");
++	if (IS_ERR(xmitpriv->SdioXmitThread))
++		RTW_ERR("%s: start rtl8723ds_xmit_thread FAIL!!\n", __func__);
++#endif
++#endif
++}
++
++void rtl8723d_stop_thread(_adapter *padapter)
++{
++#if (defined CONFIG_SDIO_HCI) || (defined CONFIG_GSPI_HCI)
++#ifndef CONFIG_SDIO_TX_TASKLET
++	struct xmit_priv *xmitpriv = &padapter->xmitpriv;
++
++	/* stop xmit_buf_thread */
++	if (xmitpriv->SdioXmitThread) {
++		_rtw_up_sema(&xmitpriv->SdioXmitSema);
++		_rtw_down_sema(&xmitpriv->SdioXmitTerminateSema);
++		xmitpriv->SdioXmitThread = 0;
++	}
++#endif
++#endif
++}
++
++#if defined(CONFIG_CHECK_BT_HANG) && defined(CONFIG_BT_COEXIST)
++void rtl8723ds_init_checkbthang_workqueue(_adapter *adapter)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37))
++	adapter->priv_checkbt_wq = alloc_workqueue("sdio_wq", 0, 0);
++#else
++	adapter->priv_checkbt_wq = create_workqueue("sdio_wq");
++#endif
++	INIT_DELAYED_WORK(&adapter->checkbt_work, (void *)check_bt_status_work);
++}
++
++void rtl8723ds_free_checkbthang_workqueue(_adapter *adapter)
++{
++	if (adapter->priv_checkbt_wq) {
++		cancel_delayed_work_sync(&adapter->checkbt_work);
++		flush_workqueue(adapter->priv_checkbt_wq);
++		destroy_workqueue(adapter->priv_checkbt_wq);
++		adapter->priv_checkbt_wq = NULL;
++	}
++}
++
++void rtl8723ds_cancle_checkbthang_workqueue(_adapter *adapter)
++{
++	if (adapter->priv_checkbt_wq)
++		cancel_delayed_work_sync(&adapter->checkbt_work);
++}
++
++void rtl8723ds_hal_check_bt_hang(_adapter *adapter)
++{
++	if (adapter->priv_checkbt_wq)
++		queue_delayed_work(adapter->priv_checkbt_wq, &(adapter->checkbt_work), 0);
++}
++#endif
++
++void rtl8723d_set_hal_ops(struct hal_ops *pHalFunc)
++{
++	pHalFunc->dm_init = &rtl8723d_init_dm_priv;
++	pHalFunc->dm_deinit = &rtl8723d_deinit_dm_priv;
++	pHalFunc->read_chip_version = read_chip_version_8723d;
++	pHalFunc->UpdateRAMaskHandler = &UpdateHalRAMask8723D;
++	pHalFunc->set_chnl_bw_handler = &PHY_SetSwChnlBWMode8723D;
++	pHalFunc->set_tx_power_level_handler = &PHY_SetTxPowerLevel8723D;
++	pHalFunc->get_tx_power_level_handler = &PHY_GetTxPowerLevel8723D;
++	pHalFunc->get_tx_power_index_handler = &PHY_GetTxPowerIndex_8723D;
++	pHalFunc->hal_dm_watchdog = &rtl8723d_HalDmWatchDog;
++#ifdef CONFIG_LPS_LCLK_WD_TIMER
++	pHalFunc->hal_dm_watchdog_in_lps = &rtl8723d_HalDmWatchDog_in_LPS;
++#endif
++
++	pHalFunc->SetBeaconRelatedRegistersHandler = &rtl8723d_SetBeaconRelatedRegisters;
++	pHalFunc->run_thread = &rtl8723d_start_thread;
++	pHalFunc->cancel_thread = &rtl8723d_stop_thread;
++	pHalFunc->read_bbreg = &PHY_QueryBBReg_8723D;
++	pHalFunc->write_bbreg = &PHY_SetBBReg_8723D;
++	pHalFunc->read_rfreg = &PHY_QueryRFReg_8723D;
++	pHalFunc->write_rfreg = &PHY_SetRFReg_8723D;
++
++	/* Efuse related function */
++	pHalFunc->BTEfusePowerSwitch = &Hal_BT_EfusePowerSwitch;
++	pHalFunc->EfusePowerSwitch = &Hal_EfusePowerSwitch;
++	pHalFunc->ReadEFuse = &Hal_ReadEFuse;
++	pHalFunc->EFUSEGetEfuseDefinition = &Hal_GetEfuseDefinition;
++	pHalFunc->EfuseGetCurrentSize = &Hal_EfuseGetCurrentSize;
++	pHalFunc->Efuse_PgPacketRead = &Hal_EfusePgPacketRead;
++	pHalFunc->Efuse_PgPacketWrite = &Hal_EfusePgPacketWrite;
++	pHalFunc->Efuse_WordEnableDataWrite = &Hal_EfuseWordEnableDataWrite;
++	pHalFunc->Efuse_PgPacketWrite_BT = &Hal_EfusePgPacketWrite_BT;
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	pHalFunc->sreset_init_value = &sreset_init_value;
++	pHalFunc->sreset_reset_value = &sreset_reset_value;
++	pHalFunc->silentreset = &sreset_reset;
++	pHalFunc->sreset_xmit_status_check = &rtl8723d_sreset_xmit_status_check;
++	pHalFunc->sreset_linked_status_check  = &rtl8723d_sreset_linked_status_check;
++	pHalFunc->sreset_get_wifi_status  = &sreset_get_wifi_status;
++	pHalFunc->sreset_inprogress = &sreset_inprogress;
++#endif
++	pHalFunc->GetHalODMVarHandler = GetHalODMVar;
++	pHalFunc->SetHalODMVarHandler = SetHalODMVar;
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++	pHalFunc->xmit_thread_handler = &hal_xmit_handler;
++#endif
++	pHalFunc->hal_notch_filter = &hal_notch_filter_8723d;
++	pHalFunc->c2h_handler = c2h_handler_8723d;
++	pHalFunc->fill_h2c_cmd = &FillH2CCmd8723D;
++	pHalFunc->fill_fake_txdesc = &rtl8723d_fill_fake_txdesc;
++	pHalFunc->fw_dl = &rtl8723d_FirmwareDownload;
++	pHalFunc->hal_get_tx_buff_rsvd_page_num = &GetTxBufferRsvdPageNum8723D;
++}
++
+diff --git a/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_lps_poff.c b/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_lps_poff.c
+new file mode 100644
+index 0000000..d171f4c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_lps_poff.c
+@@ -0,0 +1,877 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#include <rtl8723d_hal.h>
++
++#ifdef CONFIG_LPS_POFF
++/****************************************************************************
++ * Function: constuct Register Setting for HW to Backup Before LPS
++ *		    page 2/4/6/7/8~F and page 0x24(for NAN)
++*****************************************************************************/
++static bool hal_construct_poff_static_file(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	lps_poff_info_t *lps_poff_info = NULL;
++	u8	*staticFile = NULL;
++	u8	*start_at = NULL;
++	u8	page_count = 0, page_offset = 0, round = 0;
++	/*There are 256 bytes in each register bank, and  64 dwords*/
++	u8	total = 256 / 4;
++	u16	offset = 0, addr_value = 0;
++
++	if (pwrpriv->plps_poff_info == NULL) {
++		RTW_INFO("%s: please alloc plps_poff_info first!!\n", __func__);
++		return _FALSE;
++	}
++
++	lps_poff_info = pwrpriv->plps_poff_info;
++
++	if (lps_poff_info->pStaticFile == NULL) {
++		RTW_INFO("%s: please alloc static configure file first!!\n",
++			 __func__);
++		return _FALSE;
++	}
++	staticFile = lps_poff_info->pStaticFile + TXDESC_SIZE;
++
++	for (page_count = 2 ; page_count < 16 ; page_count++) {
++		page_offset = 0;
++		if (page_count == 3 || page_count == 5)
++			continue;
++
++		offset = (round << 9);
++
++		for (page_offset = 0 ; page_offset < total ; page_offset++) {
++			start_at = staticFile + offset + (page_offset << 3);
++			addr_value =
++				((page_count << 8) + (page_offset << 2)) >> 2;
++
++			SET_HOIE_ENTRY_LOW_DATA(start_at, 0);
++			SET_HOIE_ENTRY_HIGH_DATA(start_at, 0);
++			SET_HOIE_ENTRY_MODE_SELECT(start_at, 0);
++			SET_HOIE_ENTRY_ADDRESS(start_at, addr_value);
++			SET_HOIE_ENTRY_BYTE_MASK(start_at, 0xF);
++			SET_HOIE_ENTRY_IO_LOCK(start_at, 0);
++			SET_HOIE_ENTRY_WR_EN(start_at, 1);
++			SET_HOIE_ENTRY_RD_EN(start_at, 1);
++			SET_HOIE_ENTRY_RAW_RW(start_at, 0);
++			SET_HOIE_ENTRY_RAW(start_at, 0);
++			SET_HOIE_ENTRY_IO_DELAY(start_at, 0);
++		}
++
++		round++;
++	}
++
++	/*construct page 24*/
++	offset = (round << 9);
++	for (page_offset = 0 ; page_offset < total ; page_offset++) {
++		start_at = staticFile + offset + (page_offset << 3);
++		addr_value = ((0x24 << 8) + (page_offset << 2)) >> 2;
++
++		SET_HOIE_ENTRY_LOW_DATA(start_at, 0);
++		SET_HOIE_ENTRY_HIGH_DATA(start_at, 0);
++		SET_HOIE_ENTRY_MODE_SELECT(start_at, 0);
++		SET_HOIE_ENTRY_ADDRESS(start_at, addr_value);
++		SET_HOIE_ENTRY_BYTE_MASK(start_at, 0xF);
++		SET_HOIE_ENTRY_IO_LOCK(start_at, 0);
++		SET_HOIE_ENTRY_WR_EN(start_at, 1);
++		SET_HOIE_ENTRY_RD_EN(start_at, 1);
++		SET_HOIE_ENTRY_RAW_RW(start_at, 0);
++		SET_HOIE_ENTRY_RAW(start_at, 0);
++		SET_HOIE_ENTRY_IO_DELAY(start_at, 0);
++	}
++	RTW_INFO("%s: (round << 9) + (PageOffset << 3) = %#08x\n",
++		 __func__, offset + (page_offset << 3));
++
++	start_at = staticFile + offset + (page_offset << 3);
++	/* add last command: 00 00 00 00 00 40 30 00,suggested by DD */
++	*(start_at) = 0;
++	*(start_at + 1) = 0;
++	*(start_at + 2) = 0;
++	*(start_at + 3) = 0;
++	*(start_at + 4) = 0;
++	*(start_at + 5) = 0x40;
++	*(start_at + 6) = 0x30;
++	*(start_at + 7) = 0;
++
++	return _TRUE;
++}
++
++/****************************************************************************
++Function: send Location of configuration file and other info for FW
++*****************************************************************************/
++static void rtl8723d_lps_poff_h2c_param(PADAPTER padapter, u8 tx_bndy, u16 len,
++					bool isDynamic)
++{
++	u8 lps_poff_param[H2C_LPS_POFF_PARAM_LEN] = {0};
++	u8 start_addr_l = 0, start_addr_h = 0;
++	u8 end_addr_l = 0, end_addr_h = 0;
++	u16 start_addr = 0, end_addr = 0;
++
++	if (len < 8)
++		return;
++	/*
++	set start address, The parameter is entrys. every page has 16 entrys
++	The Tx Descriptor is 40Byte which locate 5 entries
++	*/
++
++	start_addr = (tx_bndy << 4) + 5;
++	end_addr = start_addr + (len >> 3) - 1;
++
++	RTW_INFO("%s: start_addr = %#02X, end_addr= %#02X\n",
++		 __func__, start_addr, end_addr);
++
++	start_addr_l = (u8)start_addr;
++	start_addr_h = (u8)(start_addr >> 8);
++
++	end_addr_l = (u8)end_addr;
++	end_addr_h = (u8)(end_addr >> 8);
++
++	/*construct H2C Cmd*/
++	if (isDynamic)
++		SET_H2CCMD_LPS_POFF_PARAM_RDVLD(lps_poff_param, 0);
++	else
++		SET_H2CCMD_LPS_POFF_PARAM_RDVLD(lps_poff_param, 1);
++
++	SET_H2CCMD_LPS_POFF_PARAM_WRVLD(lps_poff_param, 1);
++	SET_H2CCMD_LPS_POFF_PARAM_STARTADDL(lps_poff_param, start_addr_l);
++	SET_H2CCMD_LPS_POFF_PARAM_STARTADDH(lps_poff_param, start_addr_h);
++	SET_H2CCMD_LPS_POFF_PARAM_ENDADDL(lps_poff_param, end_addr_l);
++	SET_H2CCMD_LPS_POFF_PARAM_ENDADDH(lps_poff_param, end_addr_h);
++
++	rtw_hal_fill_h2c_cmd(padapter, H2C_LPS_POFF_PARAM,
++			     H2C_LPS_POFF_PARAM_LEN, lps_poff_param);
++}
++
++/*************************************************************************
++Function: SET Location of Configuration File to FW
++**************************************************************************/
++static void rtl8723d_lps_poff_set_param(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	lps_poff_info_t *plps_poff_info = pwrpriv->plps_poff_info;
++
++	u8 static_tx_bndy = 0;
++	u8 dynamic_tx_bndy = 0;
++	u16 static_len = 0, dynamic_len = 0;
++
++	static_tx_bndy = plps_poff_info->tx_bndy_static;
++	dynamic_tx_bndy = plps_poff_info->tx_bndy_dynamic;
++
++	dynamic_len = plps_poff_info->ConfLenForPTK +
++		      plps_poff_info->ConfLenForGTK;
++
++	if (ATOMIC_READ(&plps_poff_info->bSetPOFFParm) == _TRUE)
++		return;
++
++	/* download static configuration */
++	static_len = LPS_POFF_STATIC_FILE_LEN - TXDESC_SIZE;
++	rtl8723d_lps_poff_h2c_param(padapter, static_tx_bndy,
++				    static_len, _FALSE);
++
++	/* download dynamic configuration */
++	/* the length must be add more 8 Byte due to hard bug */
++	if (dynamic_len != 0) {
++		dynamic_len += 8;
++		rtl8723d_lps_poff_h2c_param(padapter, dynamic_tx_bndy,
++					    dynamic_len, _TRUE);
++	}
++
++	ATOMIC_SET(&plps_poff_info->bSetPOFFParm, _TRUE);
++}
++
++
++/****************************************************************************
++Function: change tx boundary
++*****************************************************************************/
++static void rtl8723d_lps_poff_set_tx_bndy(PADAPTER padapter, u8 tx_bndy)
++{
++	u32	numHQ = 0x10;
++	u32	numLQ = 0x10;
++	u32	numPubQ = 0;
++	u8	numNQ = 0;
++
++	u32	val32 = 0;
++	u8	val8  = 0;
++
++#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++	numHQ = 0x8;
++	numLQ = 0x8;
++#endif
++	numPubQ = tx_bndy - numHQ - numLQ - numNQ - 1;
++	val8 = _NPQ(numNQ);
++	val32 = _HPQ(numHQ) | _LPQ(numLQ) | _PUBQ(numPubQ) | LD_RQPN;
++
++	rtw_write8(padapter, REG_RQPN_NPQ, val8);
++	rtw_write32(padapter, REG_RQPN, val32);
++}
++
++/****************************************************************************
++Function: change tx boundary flow
++*****************************************************************************/
++static bool rtl8723d_lps_poff_tx_bndy_flow(PADAPTER padapter, bool enable)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct xmit_priv *pxmitpriv;
++	lps_poff_info_t *plps_poff_info = pwrpriv->plps_poff_info;
++	u8	tx_bndy = 0, tx_bndy_new = 0, count = 0, queue_pending = _FALSE;
++	u8	val8 = 0;
++	u16	val16 = 0;
++	u32	val32 = 0;
++
++	pxmitpriv = &padapter->xmitpriv;
++	rtw_hal_get_def_var(padapter, HAL_DEF_TX_PAGE_BOUNDARY, (u8 *)&tx_bndy);
++
++	RTW_INFO("%s: tx_bndy: %#X, tx_bndy_static: %#X\n",
++		 __func__, tx_bndy, plps_poff_info->tx_bndy_static);
++
++	if (enable)
++		tx_bndy_new = plps_poff_info->tx_bndy_static + 1;
++	else
++		tx_bndy_new = tx_bndy;
++
++	ATOMIC_SET(&plps_poff_info->bTxBoundInProgress, _TRUE);
++
++	/* stop os layer TX*/
++	rtw_mi_netif_stop_queue(padapter, _FALSE);
++
++	val16 = rtw_read16(padapter, REG_TXPKT_EMPTY);
++
++	/* stop tx process and wait tx empty */
++	while ((val16 & 0x05FF) != 0x05FF) {
++		rtw_mdelay_os(10);
++		val16 = rtw_read16(padapter, REG_TXPKT_EMPTY);
++
++		count++;
++		if (count >= 100) {
++			val16 = rtw_read16(padapter, REG_TXPKT_EMPTY);
++			RTW_INFO("%s, txpkt_empty: %#04x\n", __func__, val16);
++			val8 = rtw_read8(padapter, REG_CPU_MGQ_INFORMATION);
++			RTW_INFO("%s, REG_CPU_MGQ_INFORMATION: %#02x\n",
++				 __func__, val8);
++			RTW_INFO("%s, wait for tx empty timeout!!\n", __func__);
++			ATOMIC_SET(&plps_poff_info->bTxBoundInProgress, _FALSE);
++			rtw_mi_netif_wake_queue(padapter);
++			return _FALSE;
++		}
++	}
++
++	/* change tx boundary*/
++	rtl8723d_lps_poff_set_tx_bndy(padapter, tx_bndy_new);
++
++	/* set free tail */
++	val32 = rtw_read32(padapter, REG_FWHW_TXQ_CTRL);
++	val32 |= BIT20;
++	rtw_write32(padapter, REG_FWHW_TXQ_CTRL, val32);
++	rtw_write8(padapter, REG_BCNQ_BDNY, tx_bndy_new);
++
++	RTW_INFO("%s: free tail = %#x after\n", __func__,
++		 rtw_read8(padapter, REG_FW_FREE_TAIL_8723D));
++
++	/* set bcn head */
++	val32 = rtw_read32(padapter, REG_FWHW_TXQ_CTRL);
++	val32 &= ~BIT20;
++	rtw_write32(padapter, REG_FWHW_TXQ_CTRL, val32);
++	rtw_write8(padapter, REG_BCNQ_BDNY, tx_bndy);
++
++	/* reinit LLT */
++	rtl8723d_InitLLTTable(padapter);
++
++	/* clear 0x210 ??*/
++	val32 = rtw_read32(padapter, REG_TXDMA_STATUS);
++
++	if (val32 != 0) {
++		RTW_INFO("%s: REG_TXDMA_STATUS: %#08x\n", __func__, val32);
++		rtw_write32(padapter, REG_TXDMA_STATUS, val32);
++	}
++
++	ATOMIC_SET(&plps_poff_info->bTxBoundInProgress, _FALSE);
++
++
++	/* restart tx */
++
++	rtw_mi_netif_wake_queue(padapter);
++
++	return _TRUE;
++}
++
++/****************************************************************************
++Function: Append extra bytes for dynamic confiure file
++	  Add one entry to fix hw bug,
++	  list command: 00 00 00 00 00 40 30 00, suggested by DD
++*****************************************************************************/
++static u8 rtl8723d_lps_poff_append_extra_info(PADAPTER padapter, u32 len)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	lps_poff_info_t *plps_poff_info = pwrpriv->plps_poff_info;
++	u32 data_offset = len + plps_poff_info->ConfFileOffset;
++
++	*(plps_poff_info->pDynamicFile + (data_offset)) = 0x00;
++	*(plps_poff_info->pDynamicFile + (data_offset + 1)) = 0x00;
++	*(plps_poff_info->pDynamicFile + (data_offset + 2)) = 0x00;
++	*(plps_poff_info->pDynamicFile + (data_offset + 3)) = 0x00;
++	*(plps_poff_info->pDynamicFile + (data_offset + 4)) = 0x00;
++	*(plps_poff_info->pDynamicFile + (data_offset + 5)) = 0x40;
++	*(plps_poff_info->pDynamicFile + (data_offset + 6)) = 0x30;
++	*(plps_poff_info->pDynamicFile + (data_offset + 7)) = 0x00;
++	return 8;
++}
++
++/****************************************************************************
++Function: xmit config file to write port.
++*****************************************************************************/
++static void rtl8723d_lps_poff_send_config_frame(PADAPTER padapter,
++		u8 *pFile, u32 len)
++{
++	struct xmit_frame	*pcmdframe = NULL;
++	struct pkt_attrib	*pattrib;
++	struct xmit_priv	*pxmitpriv;
++	int i = 0;
++
++	pxmitpriv = &padapter->xmitpriv;
++	pcmdframe = rtw_alloc_cmdxmitframe(pxmitpriv);
++
++	if (pcmdframe == NULL)
++		RTW_INFO("%s: alloc cmdframe fail\n", __func__);
++
++	_rtw_memcpy(pcmdframe->buf_addr, pFile, len);
++
++	pattrib = &pcmdframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++	pattrib->qsel = QSLT_BEACON;
++	pattrib->pktlen = len - TXDESC_OFFSET;
++	pattrib->last_txcmdsz = len - TXDESC_OFFSET;
++
++	RTW_INFO("%s, len: %d, MAX_CMDBUF_SZ: %d\n", __func__, len,
++		 MAX_CMDBUF_SZ);
++#ifdef CONFIG_PCI_HCI
++	dump_mgntframe(padapter, pcmdframe);
++#else
++	dump_mgntframe_and_wait(padapter, pcmdframe, 100);
++#endif
++
++}
++
++/****************************************************************************
++Function: download config file flow
++*****************************************************************************/
++static void rtl8723d_lps_poff_send_config_file(PADAPTER padapter,
++		u8 *pFile, u8 loc, u32 len)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	bool bRecover = _FALSE, bcn_valid = _FALSE;
++	u8 DLBcnCount = 0, val8 = 0, tx_bndy = 0;
++	u32 poll = 0;
++
++	rtw_hal_get_def_var(padapter,
++			    HAL_DEF_TX_PAGE_BOUNDARY, (u8 *)&tx_bndy);
++
++	/* set 0x100[8]=1 for SW beacon */
++	val8 = rtw_read8(padapter, REG_CR + 1);
++	val8 |= BIT(0);
++	rtw_write8(padapter,  REG_CR + 1, val8);
++
++	/*set 0x422[6]=0 to disable beacon DMA pass to MACTx*/
++
++	if (pHalData->RegFwHwTxQCtrl & BIT(6))
++		bRecover = _TRUE;
++
++	rtw_write8(padapter, REG_FWHW_TXQ_CTRL + 2,
++		   pHalData->RegFwHwTxQCtrl & ~BIT(6));
++	pHalData->RegFwHwTxQCtrl &= ~BIT(6);
++
++	/* Clear beacon valid check bit. */
++	rtw_hal_set_hwreg(padapter, HW_VAR_BCN_VALID, NULL);
++	rtw_hal_set_hwreg(padapter, HW_VAR_DL_BCN_SEL, NULL);
++
++	/* set 0x209[7:0] beacon queue head page to start download location */
++	rtw_write8(padapter, REG_TDECTRL_8723D + 1, loc);
++
++	DLBcnCount = 0;
++	poll = 0;
++
++	do {
++		rtl8723d_lps_poff_send_config_frame(padapter, pFile, len);
++		DLBcnCount++;
++		do {
++			rtw_mdelay_os(10);
++			/*check rsvd page download OK.*/
++			rtw_hal_get_hwreg(padapter, HW_VAR_BCN_VALID,
++					  (u8 *)(&bcn_valid));
++			poll++;
++		} while (!bcn_valid && (poll % 10) != 0
++			 && !RTW_CANNOT_RUN(padapter));
++	} while (!bcn_valid && DLBcnCount <= 100 && !RTW_CANNOT_RUN(padapter));
++
++	if (!bcn_valid)
++		RTW_INFO(ADPT_FMT": 1 DL RSVD page failed! DLBcnCount:%u, poll:%u\n",
++			 ADPT_ARG(padapter), DLBcnCount, poll);
++	else
++		RTW_INFO(ADPT_FMT": 1 DL RSVD page success! DLBcnCount:%u, poll:%u\n",
++			 ADPT_ARG(padapter), DLBcnCount, poll);
++
++	/*restore bcn operation*/
++	rtw_write8(padapter, REG_TDECTRL_8723D + 1, tx_bndy);
++
++	/*restore 0x422[6]=1 for normal bcn*/
++	if (bRecover) {
++		rtw_write8(padapter, REG_FWHW_TXQ_CTRL + 2,
++			   pHalData->RegFwHwTxQCtrl | BIT(6));
++		pHalData->RegFwHwTxQCtrl |= BIT(6);
++	}
++
++	/*restore 0x100[8]=0 for SW beacon*/
++	/* Clear CR[8] or beacon packet will not be send to TxBuf anymore.*/
++#ifndef CONFIG_PCI_HCI
++	val8 = rtw_read8(padapter, REG_CR + 1);
++	val8 &= ~BIT(0);
++	rtw_write8(padapter, REG_CR + 1, val8);
++#endif
++}
++
++/****************************************************************************
++Function: Prepare Confiure File
++*****************************************************************************/
++static void rtl8723d_lps_poff_dl_config_file(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	lps_poff_info_t *plps_poff_info = pwrpriv->plps_poff_info;
++	u8 count = 0, append_len = 0;
++	u32 offset = 0, static_file_len = 0, dynamic_file_len = 0;
++	int i = 0, j = 0;
++
++	offset = plps_poff_info->ConfFileOffset;
++
++	static_file_len = LPS_POFF_STATIC_FILE_LEN - offset;
++
++	dynamic_file_len =
++		plps_poff_info->ConfLenForPTK + plps_poff_info->ConfLenForGTK;
++
++	RTW_INFO("%s: static_file_len: %d dynamic_file_len: %d, offset: %d\n",
++		 __func__, static_file_len, dynamic_file_len, offset);
++
++	/*static file*/
++	rtl8723d_lps_poff_send_config_file(padapter,
++					   plps_poff_info->pStaticFile + offset,
++					   plps_poff_info->tx_bndy_static,
++					   static_file_len);
++
++	/*dynamic file*/
++	if (dynamic_file_len != 0) {
++		dynamic_file_len += TXDESC_SIZE - offset;
++
++		append_len =
++			rtl8723d_lps_poff_append_extra_info(padapter,
++					dynamic_file_len);
++		dynamic_file_len += append_len;
++		rtl8723d_lps_poff_send_config_file(padapter,
++				   plps_poff_info->pDynamicFile + offset,
++					   plps_poff_info->tx_bndy_dynamic,
++						   dynamic_file_len);
++	}
++}
++
++static u8 rtl8723d_lps_poff_set_dynamic_file(u8 *pFile, u32 type, u32 wdata)
++{
++	SET_HOIE_ENTRY_LOW_DATA(pFile, (u16)wdata);
++	SET_HOIE_ENTRY_HIGH_DATA(pFile, (u16)(wdata >> 16));
++	SET_HOIE_ENTRY_MODE_SELECT(pFile, 0);
++	SET_HOIE_ENTRY_ADDRESS(pFile, (type >> 2));
++	SET_HOIE_ENTRY_BYTE_MASK(pFile, 0xF);
++	SET_HOIE_ENTRY_IO_LOCK(pFile, 0);
++	SET_HOIE_ENTRY_WR_EN(pFile, 1);
++	SET_HOIE_ENTRY_RD_EN(pFile, 0);
++	SET_HOIE_ENTRY_RAW_RW(pFile, 0);
++	SET_HOIE_ENTRY_RAW(pFile, 0);
++	SET_HOIE_ENTRY_IO_DELAY(pFile, 0);
++
++	return 8;
++}
++
++static void rtl8723d_lps_poff_dynamic_file(PADAPTER padapter, u8 index, u8 isGK)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	lps_poff_info_t *plps_poff_info = pwrpriv->plps_poff_info;
++	u8 *ptkfile = NULL;
++	u8 ret = 0;
++	u32 tgt_cmd = 0, tgt_wdata = 0;
++	int i = 0, j = 0;
++
++	for (i = 0 ; i < CAM_CONTENT_COUNT; i++) {
++		if (!isGK)
++			ptkfile = plps_poff_info->pDynamicFile +
++				  plps_poff_info->ConfLenForPTK + TXDESC_SIZE;
++		else
++			ptkfile = plps_poff_info->pDynamicFile +
++				  plps_poff_info->ConfLenForPTK +
++				  plps_poff_info->ConfLenForGTK + TXDESC_SIZE;
++
++		tgt_cmd = i + (CAM_CONTENT_COUNT * index);
++		tgt_cmd = tgt_cmd | CAM_POLLINIG | CAM_WRITE;
++
++		switch (i) {
++		case 0:
++			tgt_wdata = dvobj->cam_cache[index].ctrl |
++				    dvobj->cam_cache[index].mac[0] << 16 |
++				    dvobj->cam_cache[index].mac[1] << 24;
++			break;
++		case 1:
++			tgt_wdata = dvobj->cam_cache[index].mac[2] |
++				    dvobj->cam_cache[index].mac[3] << 8 |
++				    dvobj->cam_cache[index].mac[4] << 16 |
++				    dvobj->cam_cache[index].mac[5] << 24;
++			break;
++		default:
++			j = (i - 2) << 2;
++			tgt_wdata =
++				dvobj->cam_cache[index].key[j + 3] << 24 |
++				dvobj->cam_cache[index].key[j + 2] << 16 |
++				dvobj->cam_cache[index].key[j + 1] << 8 |
++				dvobj->cam_cache[index].key[j];
++			break;
++		}
++
++		ret = rtl8723d_lps_poff_set_dynamic_file(ptkfile,
++				WCAMI, tgt_wdata);
++
++		if (!isGK) {
++			plps_poff_info->ConfLenForPTK += ret;
++
++			ptkfile = plps_poff_info->pDynamicFile +
++				  plps_poff_info->ConfLenForPTK + TXDESC_SIZE;
++		} else {
++			plps_poff_info->ConfLenForGTK += ret;
++			ptkfile = plps_poff_info->pDynamicFile +
++				  plps_poff_info->ConfLenForPTK +
++				  plps_poff_info->ConfLenForGTK + TXDESC_SIZE;
++		}
++
++		ret = rtl8723d_lps_poff_set_dynamic_file(ptkfile,
++				RWCAM, tgt_cmd);
++
++		if (!isGK)
++			plps_poff_info->ConfLenForPTK += ret;
++		else
++			plps_poff_info->ConfLenForGTK += ret;
++
++#if 0
++		RTW_INFO("%s: tgt_wdata: %#08x\n", __func__, tgt_wdata);
++#endif
++	}
++}
++
++static void rtl8723d_lps_poff_sec_cam_opt(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	lps_poff_info_t *plps_poff_info = pwrpriv->plps_poff_info;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	int i = 0;
++	u8 isValid = 0, isGK = 0, index = 0, key_id = 0xff, gk_start = 0xff;
++	u16 val16 = 0, len = 0;
++
++	/*Using cam cache to create config file for FW use.*/
++	/*1- deail with pairwise key*/
++
++	for (i = 0 ; i < cam_ctl->num ; i++) {
++
++		val16 = dvobj->cam_cache[i].ctrl;
++		isValid = (val16 >> 15) & 0x01;
++		isGK = (val16 >> 6) & 0x01;
++
++		if (isValid && !isGK) {
++			rtl8723d_lps_poff_dynamic_file(padapter, i, _FALSE);
++			RTW_INFO("%s: id: %2u, kid: %3u, ctrl: %#04x, "MAC_FMT""KEY_FMT"\n",
++				 __func__, i, (dvobj->cam_cache[i].ctrl) & 0x03,
++				 dvobj->cam_cache[i].ctrl,
++				 MAC_ARG(dvobj->cam_cache[i].mac),
++				 KEY_ARG(dvobj->cam_cache[i].key));
++		} else if (isGK) {
++			key_id = dvobj->cam_cache[i].ctrl & 0x03;
++			if (key_id == pmlmeinfo->key_index)
++				gk_start = i;
++			RTW_INFO("%s: GK_start at %d\n", __func__, gk_start);
++			RTW_INFO("%s: id: %2u, kid: %3u, ctrl: %#04x, "MAC_FMT""KEY_FMT"\n",
++				 __func__, i, key_id, dvobj->cam_cache[i].ctrl,
++				 MAC_ARG(dvobj->cam_cache[i].mac),
++				 KEY_ARG(dvobj->cam_cache[i].key));
++		}
++	}
++
++	/*2- deail with group key*/
++	rtl8723d_lps_poff_dynamic_file(padapter, gk_start, _TRUE);
++
++	RTW_INFO("%s: ConfLenForPTK: %d, ConfLenForGTK: %d\n", __func__,
++		 plps_poff_info->ConfLenForPTK, plps_poff_info->ConfLenForGTK);
++}
++
++/****************************************************************************
++Function: Prepare enter LPS partial off status.
++change tx boundary, download configuration file if necessary and send info to FW
++*****************************************************************************/
++static bool rtl8723d_prepare_for_enter_poff(PADAPTER padapter, bool bEnterLPS)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	lps_poff_info_t *plps_poff_info = pwrpriv->plps_poff_info;
++	bool ret = _FALSE;
++	u8 i = 0, cam_cache_num = 0;
++
++	for (i = 0 ; i < cam_ctl->num; i++) {
++		if (dvobj->cam_cache[i].ctrl != 0)
++			cam_cache_num++;
++	}
++
++	ret = rtl8723d_lps_poff_tx_bndy_flow(padapter, bEnterLPS);
++
++	if (ret == _TRUE) {
++		if (cam_cache_num > 0) {
++			rtl8723d_lps_poff_sec_cam_opt(padapter);
++		} else {
++			plps_poff_info->ConfLenForPTK = 0;
++			plps_poff_info->ConfLenForGTK = 0;
++		}
++		rtl8723d_lps_poff_dl_config_file(padapter);
++		rtl8723d_lps_poff_set_param(padapter);
++	}
++	return ret;
++}
++
++/*************************************************************************
++Function: SET H2C To Enable Partial Off
++**************************************************************************/
++void rtl8723d_lps_poff_h2c_ctrl(PADAPTER padapter, u8 en)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	lps_poff_info_t *plps_poff_info = pwrpriv->plps_poff_info;
++	u8 param = 0;
++
++	if (pregistrypriv->wifi_spec == 1)
++		return;
++
++	if (plps_poff_info->bEn == _FALSE)
++		return;
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++		if (en) {
++			RTW_INFO("%s: enable case\n", __func__);
++			SET_H2CCMD_LPS_POFF_CTRL_EN(&param, 1);
++		} else {
++			RTW_INFO("%s: disable case\n", __func__);
++			ATOMIC_SET(&plps_poff_info->bSetPOFFParm, _FALSE);
++			SET_H2CCMD_LPS_POFF_CTRL_EN(&param, 0);
++		}
++		rtw_hal_fill_h2c_cmd(padapter, H2C_LPS_POFF_CTRL,
++				     H2C_LPS_POFF_CTRL_LEN, &param);
++	}
++}
++
++/*************************************************************************
++Function: The operation to Enter or Leave FWLPS 32K when partial off enable
++**************************************************************************/
++void rtl8723d_lps_poff_set_ps_mode(PADAPTER padapter, bool bEnterLPS)
++{
++
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	lps_poff_info_t *plps_poff_info = pwrpriv->plps_poff_info;
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	bool res = _FALSE;
++
++	if (pregistrypriv->wifi_spec == 1)
++		return;
++
++	if (plps_poff_info->bEn) {
++
++		plps_poff_info->ConfLenForPTK = 0;
++		plps_poff_info->ConfLenForGTK = 0;
++
++		if (bEnterLPS) {
++			res = rtl8723d_prepare_for_enter_poff(padapter,
++							      bEnterLPS);
++			ATOMIC_SET(&plps_poff_info->bEnterPOFF, res);
++		} else
++			rtl8723d_lps_poff_tx_bndy_flow(padapter, bEnterLPS);
++	}
++}
++
++/*************************************************************************
++Function: Get LPS-POFF Enter Status
++**************************************************************************/
++bool rtl8723d_lps_poff_get_status(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	lps_poff_info_t *plps_poff_info = pwrpriv->plps_poff_info;
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++
++	if (pregistrypriv->wifi_spec == 1) {
++		RTW_INFO("%s: wifi_spec is enable\n", __func__);
++		return _FALSE;
++	}
++
++	if (plps_poff_info->bEn == _FALSE) {
++		RTW_INFO("%s: POFF is disable\n", __func__);
++		return _FALSE;
++	}
++
++	return ATOMIC_READ(&plps_poff_info->bEnterPOFF);
++}
++
++/*************************************************************************
++Function: Get LPS-POFF change tx bndy status
++**************************************************************************/
++bool rtl8723d_lps_poff_get_txbndy_status(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	lps_poff_info_t *plps_poff_info = pwrpriv->plps_poff_info;
++
++	return ATOMIC_READ(&plps_poff_info->bTxBoundInProgress);
++}
++
++/*************************************************************************
++Function: Get LPS-POFF initial
++**************************************************************************/
++void rtl8723d_lps_poff_init(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	lps_poff_info_t *lps_poff_info;
++	u8 tx_bndy = 0, page_size = 0, total_page = 0, page_num = 0;
++	u8 val = 0;
++
++	if (pregistrypriv->wifi_spec == 1)
++		return;
++
++	if (is_primary_adapter(padapter)) {
++
++		rtw_hal_get_def_var(padapter,
++				    HAL_DEF_TX_PAGE_BOUNDARY, (u8 *)&val);
++		tx_bndy = val;
++
++		rtw_hal_get_def_var(padapter,
++				    HAL_DEF_TX_PAGE_SIZE, (u8 *)&val);
++		page_size = val;
++
++		total_page = PageNum(LPS_POFF_STATIC_FILE_LEN, page_size) +
++			     PageNum(LPS_POFF_DYNAMIC_FILE_LEN, page_size);
++
++		lps_poff_info =
++			(lps_poff_info_t *)rtw_zmalloc(sizeof(lps_poff_info_t));
++
++		if (lps_poff_info != NULL) {
++			pwrpriv->plps_poff_info = lps_poff_info;
++
++			lps_poff_info->pStaticFile =
++				(u8 *)rtw_zmalloc(LPS_POFF_STATIC_FILE_LEN);
++			if (lps_poff_info->pStaticFile == NULL) {
++				RTW_INFO("%s: alloc pStaticFile fail\n",
++					 __func__);
++				goto alloc_static_conf_file_fail;
++			} else {
++				pwrpriv->plps_poff_info->pStaticFile =
++					lps_poff_info->pStaticFile;
++			}
++
++			lps_poff_info->pDynamicFile =
++				(u8 *)rtw_zmalloc(LPS_POFF_DYNAMIC_FILE_LEN);
++			if (lps_poff_info->pDynamicFile == NULL) {
++				RTW_INFO("%s: alloc pDynamicFile fail\n",
++					 __func__);
++				goto alloc_dynamic_conf_file_fail;
++			} else {
++				pwrpriv->plps_poff_info->pDynamicFile =
++					lps_poff_info->pDynamicFile;
++			}
++
++			pwrpriv->plps_poff_info->bEn = _TRUE;
++			ATOMIC_SET(&pwrpriv->plps_poff_info->bEnterPOFF,
++				   _FALSE);
++			ATOMIC_SET(&pwrpriv->plps_poff_info->bSetPOFFParm,
++				   _FALSE);
++			ATOMIC_SET(&pwrpriv->plps_poff_info->bTxBoundInProgress,
++				   _FALSE);
++#ifdef CONFIG_PCI_HCI
++			pwrpriv->plps_poff_info->ConfFileOffset = 40;
++#else
++			pwrpriv->plps_poff_info->ConfFileOffset = 0;
++#endif
++			pwrpriv->plps_poff_info->tx_bndy_static =
++				tx_bndy - total_page;
++			page_num = PageNum(LPS_POFF_DYNAMIC_FILE_LEN,
++					   page_size);
++			pwrpriv->plps_poff_info->tx_bndy_dynamic =
++				tx_bndy - page_num;
++			/*
++			   construct static DLConfiguration File
++			*/
++			hal_construct_poff_static_file(padapter);
++			goto exit;
++		} else {
++			RTW_INFO("%s: alloc lps_poff_info fail\n",  __func__);
++			goto exit;
++		}
++	}
++
++alloc_dynamic_conf_file_fail:
++	rtw_mfree((u8 *)pwrpriv->plps_poff_info->pStaticFile,
++		  LPS_POFF_STATIC_FILE_LEN);
++	pwrpriv->plps_poff_info->pStaticFile = NULL;
++alloc_static_conf_file_fail:
++	rtw_mfree((u8 *)pwrpriv->plps_poff_info, sizeof(lps_poff_info_t));
++	pwrpriv->plps_poff_info = NULL;
++exit:
++	return;
++}
++
++/*************************************************************************
++Function: Get LPS-POFF de-initial
++**************************************************************************/
++void rtl8723d_lps_poff_deinit(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	lps_poff_info_t *plps_poff_info = pwrpriv->plps_poff_info;
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++
++	if (pregistrypriv->wifi_spec == 1)
++		return;
++
++	if (is_primary_adapter(padapter)) {
++		if (plps_poff_info->pDynamicFile != NULL) {
++			rtw_mfree((u8 *)plps_poff_info->pDynamicFile,
++				  LPS_POFF_DYNAMIC_FILE_LEN);
++			plps_poff_info->pDynamicFile = NULL;
++		}
++		if (plps_poff_info->pStaticFile != NULL) {
++			rtw_mfree((u8 *)plps_poff_info->pStaticFile,
++				  LPS_POFF_STATIC_FILE_LEN);
++			plps_poff_info->pStaticFile = NULL;
++		}
++		if (plps_poff_info != NULL) {
++			rtw_mfree((u8 *)plps_poff_info,
++				  sizeof(lps_poff_info_t));
++			plps_poff_info = NULL;
++		}
++	}
++
++}
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_phycfg.c b/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_phycfg.c
+new file mode 100644
+index 0000000..1cda425
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_phycfg.c
+@@ -0,0 +1,1352 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8723D_PHYCFG_C_
++
++#include <rtl8723d_hal.h>
++
++
++/*---------------------------Define Local Constant---------------------------*/
++/* Channel switch:The size of command tables for switch channel*/
++#define MAX_PRECMD_CNT 16
++#define MAX_RFDEPENDCMD_CNT 16
++#define MAX_POSTCMD_CNT 16
++
++#define MAX_DOZE_WAITING_TIMES_9x 64
++
++/*---------------------------Define Local Constant---------------------------*/
++
++
++/*------------------------Define global variable-----------------------------*/
++
++/*------------------------Define local variable------------------------------*/
++
++
++/*--------------------Define export function prototype-----------------------*/
++/* Please refer to header file
++ *--------------------Define export function prototype-----------------------*/
++
++/*----------------------------Function Body----------------------------------*/
++/*
++ * 1. BB register R/W API
++ *   */
++
++/**
++* Function:	phy_CalculateBitShift
++*
++* OverView:	Get shifted position of the BitMask
++*
++* Input:
++*			u4Byte		BitMask,
++*
++* Output:	none
++* Return:		u4Byte		Return the shift bit bit position of the mask
++*/
++static	u32
++phy_CalculateBitShift(
++	u32 BitMask
++)
++{
++	u32 i;
++
++	for (i = 0; i <= 31; i++) {
++		if (((BitMask >> i) &  0x1) == 1)
++			break;
++	}
++
++	return i;
++}
++
++
++/**
++* Function:	PHY_QueryBBReg
++*
++* OverView:	Read "sepcific bits" from BB register
++*
++* Input:
++*			PADAPTER		Adapter,
++*			u4Byte			RegAddr,
++*			u4Byte			BitMask
++*
++* Output:	None
++* Return:		u4Byte			Data
++* Note:		This function is equal to "GetRegSetting" in PHY programming guide
++*/
++u32
++PHY_QueryBBReg_8723D(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask
++)
++{
++	u32	ReturnValue = 0, OriginalValue, BitShift;
++	u16	BBWaitCounter = 0;
++
++#if (DISABLE_BB_RF == 1)
++	return 0;
++#endif
++
++
++	OriginalValue = rtw_read32(Adapter, RegAddr);
++	BitShift = phy_CalculateBitShift(BitMask);
++	ReturnValue = (OriginalValue & BitMask) >> BitShift;
++
++	return ReturnValue;
++
++}
++
++
++/**
++* Function:	PHY_SetBBReg
++*
++* OverView:	Write "Specific bits" to BB register (page 8~)
++*
++* Input:
++*			PADAPTER		Adapter,
++*			u4Byte			RegAddr,
++*			u4Byte			BitMask
++*
++*			u4Byte			Data
++*
++*
++* Output:	None
++* Return:		None
++* Note:		This function is equal to "PutRegSetting" in PHY programming guide
++*/
++
++VOID
++PHY_SetBBReg_8723D(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask,
++	IN	u32		Data
++)
++{
++	HAL_DATA_TYPE	*pHalData		= GET_HAL_DATA(Adapter);
++	/* u16			BBWaitCounter	= 0; */
++	u32			OriginalValue, BitShift;
++
++#if (DISABLE_BB_RF == 1)
++	return;
++#endif
++
++
++	if (BitMask != bMaskDWord) { /* if not "double word" write */
++		OriginalValue = rtw_read32(Adapter, RegAddr);
++		BitShift = phy_CalculateBitShift(BitMask);
++		Data = ((OriginalValue & (~BitMask)) | ((Data << BitShift) & BitMask));
++	}
++
++	rtw_write32(Adapter, RegAddr, Data);
++
++}
++
++
++/*
++ * 2. RF register R/W API
++ *   */
++
++/*-----------------------------------------------------------------------------
++ * Function:	phy_FwRFSerialRead()
++ *
++ * Overview:	We support firmware to execute RF-R/W.
++ *
++ * Input:		NONE
++ *
++ * Output:		NONE
++ *
++ * Return:		NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	01/21/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++static	u32
++phy_FwRFSerialRead(
++	IN	PADAPTER			Adapter,
++	IN	RF_PATH			eRFPath,
++	IN	u32				Offset)
++{
++	u32		retValue = 0;
++	/* RT_ASSERT(FALSE,("deprecate!\n")); */
++	return	retValue;
++
++}	/* phy_FwRFSerialRead */
++
++
++/*-----------------------------------------------------------------------------
++ * Function:	phy_FwRFSerialWrite()
++ *
++ * Overview:	We support firmware to execute RF-R/W.
++ *
++ * Input:		NONE
++ *
++ * Output:		NONE
++ *
++ * Return:		NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	01/21/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++static	VOID
++phy_FwRFSerialWrite(
++	IN	PADAPTER			Adapter,
++	IN	RF_PATH			eRFPath,
++	IN	u32				Offset,
++	IN	u32				Data)
++{
++	/* RT_ASSERT(FALSE,("deprecate!\n")); */
++}
++
++static	u32
++phy_RFSerialRead_8723D(
++	IN	PADAPTER			Adapter,
++	IN	RF_PATH			eRFPath,
++	IN	u32				Offset
++)
++{
++	u32						retValue = 0;
++	HAL_DATA_TYPE				*pHalData = GET_HAL_DATA(Adapter);
++	BB_REGISTER_DEFINITION_T	*pPhyReg = &pHalData->PHYRegDef[eRFPath];
++	u32						NewOffset;
++	u32						tmplong, tmplong2;
++	u8					RfPiEnable = 0;
++	u4Byte						MaskforPhySet = 0;
++	int i = 0;
++
++	_enter_critical_mutex(&(adapter_to_dvobj(Adapter)->rf_read_reg_mutex) , NULL);
++	/* */
++	/* Make sure RF register offset is correct */
++	/* */
++	Offset &= 0xff;
++
++	NewOffset = Offset;
++
++	if (eRFPath == RF_PATH_A) {
++		tmplong2 = PHY_QueryBBReg(Adapter, rFPGA0_XA_HSSIParameter2 | MaskforPhySet, bMaskDWord);
++		tmplong2 = (tmplong2 & (~bLSSIReadAddress)) | (NewOffset << 23) | bLSSIReadEdge;	/* T65 RF */
++		PHY_SetBBReg(Adapter, rFPGA0_XA_HSSIParameter2 | MaskforPhySet, bMaskDWord, tmplong2 & (~bLSSIReadEdge));
++	} else {
++		tmplong2 = PHY_QueryBBReg(Adapter, rFPGA0_XB_HSSIParameter2 | MaskforPhySet, bMaskDWord);
++		tmplong2 = (tmplong2 & (~bLSSIReadAddress)) | (NewOffset << 23) | bLSSIReadEdge;	/* T65 RF */
++		PHY_SetBBReg(Adapter, rFPGA0_XB_HSSIParameter2 | MaskforPhySet, bMaskDWord, tmplong2 & (~bLSSIReadEdge));
++	}
++
++	tmplong2 = PHY_QueryBBReg(Adapter, rFPGA0_XA_HSSIParameter2 | MaskforPhySet, bMaskDWord);
++	PHY_SetBBReg(Adapter, rFPGA0_XA_HSSIParameter2 | MaskforPhySet, bMaskDWord, tmplong2 & (~bLSSIReadEdge));
++	PHY_SetBBReg(Adapter, rFPGA0_XA_HSSIParameter2 | MaskforPhySet, bMaskDWord, tmplong2 | bLSSIReadEdge);
++
++	rtw_udelay_os(10);
++
++	for (i = 0; i < 2; i++)
++		rtw_udelay_os(MAX_STALL_TIME);
++	rtw_udelay_os(10);
++
++	if (eRFPath == RF_PATH_A)
++		RfPiEnable = (u1Byte)PHY_QueryBBReg(Adapter, rFPGA0_XA_HSSIParameter1 | MaskforPhySet, BIT(8));
++	else if (eRFPath == RF_PATH_B)
++		RfPiEnable = (u1Byte)PHY_QueryBBReg(Adapter, rFPGA0_XB_HSSIParameter1 | MaskforPhySet, BIT(8));
++
++	if (RfPiEnable) {
++		/* Read from BBreg8b8, 12 bits for 8190, 20bits for T65 RF */
++		retValue = PHY_QueryBBReg(Adapter, pPhyReg->rfLSSIReadBackPi | MaskforPhySet, bLSSIReadBackData);
++
++		/* RT_DISP(FINIT, INIT_RF, ("Readback from RF-PI : 0x%x\n", retValue)); */
++	} else {
++		/* Read from BBreg8a0, 12 bits for 8190, 20 bits for T65 RF */
++		retValue = PHY_QueryBBReg(Adapter, pPhyReg->rfLSSIReadBack | MaskforPhySet, bLSSIReadBackData);
++
++		/* RT_DISP(FINIT, INIT_RF,("Readback from RF-SI : 0x%x\n", retValue)); */
++	}
++	_exit_critical_mutex(&(adapter_to_dvobj(Adapter)->rf_read_reg_mutex) , NULL);
++	return retValue;
++
++}
++
++/**
++* Function:	phy_RFSerialWrite_8723D
++*
++* OverView:	Write data to RF register (page 8~)
++*
++* Input:
++*			PADAPTER		Adapter,
++*			RF_PATH			eRFPath,
++*			u4Byte			Offset,
++*			u4Byte			Data
++*
++*
++* Output:	None
++* Return:		None
++* Note:		Threre are three types of serial operations:
++*			1. Software serial write
++*			2. Hardware LSSI-Low Speed Serial Interface
++*			3. Hardware HSSI-High speed
++*			serial write. Driver need to implement (1) and (2).
++*			This function is equal to the combination of RF_ReadReg() and  RFLSSIRead()
++ *
++ * Note:		  For RF8256 only
++ *			 The total count of RTL8256(Zebra4) register is around 36 bit it only employs
++ *			 4-bit RF address. RTL8256 uses "register mode control bit" (Reg00[12], Reg00[10])
++ *			 to access register address bigger than 0xf. See "Appendix-4 in PHY Configuration
++ *			 programming guide" for more details.
++ *			 Thus, we define a sub-finction for RTL8526 register address conversion
++ *		       ===========================================================
++ *			 Register Mode		RegCTL[1]		RegCTL[0]		Note
++ *								(Reg00[12])		(Reg00[10])
++ *		       ===========================================================
++ *			 Reg_Mode0				0				x			Reg 0 ~15(0x0 ~ 0xf)
++ *		       ------------------------------------------------------------------
++ *			 Reg_Mode1				1				0			Reg 16 ~30(0x1 ~ 0xf)
++ *		       ------------------------------------------------------------------
++ *			 Reg_Mode2				1				1			Reg 31 ~ 45(0x1 ~ 0xf)
++ *		       ------------------------------------------------------------------
++ *
++ *	2008/09/02	MH	Add 92S RF definition
++ *
++ *
++ *
++*/
++static	VOID
++phy_RFSerialWrite_8723D(
++	IN	PADAPTER			Adapter,
++	IN	RF_PATH			eRFPath,
++	IN	u32				Offset,
++	IN	u32				Data
++)
++{
++	u32						DataAndAddr = 0;
++	HAL_DATA_TYPE				*pHalData = GET_HAL_DATA(Adapter);
++	BB_REGISTER_DEFINITION_T	*pPhyReg = &pHalData->PHYRegDef[eRFPath];
++	u32						NewOffset;
++
++	Offset &= 0xff;
++
++	/* */
++	/* Shadow Update */
++	/* */
++	/* PHY_RFShadowWrite(Adapter, eRFPath, Offset, Data); */
++
++	/* */
++	/* Switch page for 8256 RF IC */
++	/* */
++	NewOffset = Offset;
++
++	/* */
++	/* Put write addr in [5:0]  and write data in [31:16] */
++	/* */
++	/* DataAndAddr = (Data<<16) | (NewOffset&0x3f); */
++	DataAndAddr = ((NewOffset << 20) | (Data & 0x000fffff)) & 0x0fffffff;	/* T65 RF */
++
++	/* */
++	/* Write Operation */
++	/* */
++	PHY_SetBBReg(Adapter, pPhyReg->rf3wireOffset, bMaskDWord, DataAndAddr);
++	/* RTPRINT(FPHY, PHY_RFW, ("RFW-%d Addr[0x%lx]=0x%lx\n", eRFPath, pPhyReg->rf3wireOffset, DataAndAddr)); */
++
++}
++
++
++/**
++* Function:	PHY_QueryRFReg
++*
++* OverView:	Query "Specific bits" to RF register (page 8~)
++*
++* Input:
++*			PADAPTER		Adapter,
++*			RF_PATH			eRFPath,
++*			u4Byte			RegAddr,
++*			u4Byte			BitMask
++*
++*
++* Output:	None
++* Return:		u4Byte			Readback value
++* Note:		This function is equal to "GetRFRegSetting" in PHY programming guide
++*/
++u32
++PHY_QueryRFReg_8723D(
++	IN	PADAPTER			Adapter,
++	IN	u8			eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask
++)
++{
++	u32 Original_Value, Readback_Value, BitShift;
++
++#if (DISABLE_BB_RF == 1)
++	return 0;
++#endif
++
++	Original_Value = phy_RFSerialRead_8723D(Adapter, eRFPath, RegAddr);
++
++	BitShift =  phy_CalculateBitShift(BitMask);
++	Readback_Value = (Original_Value & BitMask) >> BitShift;
++
++	return Readback_Value;
++}
++
++/**
++* Function:	PHY_SetRFReg
++*
++* OverView:	Write "Specific bits" to RF register (page 8~)
++*
++* Input:
++*			PADAPTER		Adapter,
++*			RF_PATH			eRFPath,
++*			u4Byte			RegAddr,
++*			u4Byte			BitMask
++*
++*			u4Byte			Data
++*
++*
++* Output:	None
++* Return:		None
++* Note:		This function is equal to "PutRFRegSetting" in PHY programming guide
++*/
++VOID
++PHY_SetRFReg_8723D(
++	IN	PADAPTER			Adapter,
++	IN	u8				eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask,
++	IN	u32				Data
++)
++{
++	u32		Original_Value, BitShift;
++
++#if (DISABLE_BB_RF == 1)
++	return;
++#endif
++
++	/* RF data is 12 bits only */
++	if (BitMask != bRFRegOffsetMask) {
++		Original_Value = phy_RFSerialRead_8723D(Adapter, eRFPath, RegAddr);
++		BitShift =  phy_CalculateBitShift(BitMask);
++		Data = ((Original_Value & (~BitMask)) | (Data << BitShift));
++	}
++
++	phy_RFSerialWrite_8723D(Adapter, eRFPath, RegAddr, Data);
++}
++
++
++/*
++ * 3. Initial MAC/BB/RF config by reading MAC/BB/RF txt.
++ *   */
++
++
++/*-----------------------------------------------------------------------------
++ * Function:    PHY_MACConfig8192C
++ *
++ * Overview:	Condig MAC by header file or parameter file.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ *  When		Who		Remark
++ *  08/12/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++s32 PHY_MACConfig8723D(PADAPTER Adapter)
++{
++	int		rtStatus = _SUCCESS;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	/* */
++	/* Config MAC */
++	/* */
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	rtStatus = phy_ConfigMACWithParaFile(Adapter, PHY_FILE_MAC_REG);
++	if (rtStatus == _FAIL)
++#endif
++	{
++#ifdef CONFIG_EMBEDDED_FWIMG
++		ODM_ConfigMACWithHeaderFile(&pHalData->odmpriv);
++		rtStatus = _SUCCESS;
++#endif/* CONFIG_EMBEDDED_FWIMG */
++	}
++
++	return rtStatus;
++}
++
++/**
++* Function:	phy_InitBBRFRegisterDefinition
++*
++* OverView:	Initialize Register definition offset for Radio Path A/B/C/D
++*
++* Input:
++*			PADAPTER		Adapter,
++*
++* Output:	None
++* Return:		None
++* Note:		The initialization value is constant and it should never be changes
++*/
++static	VOID
++phy_InitBBRFRegisterDefinition(
++	IN	PADAPTER		Adapter
++)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++
++	/* RF Interface Sowrtware Control */
++	pHalData->PHYRegDef[ODM_RF_PATH_A].rfintfs = rFPGA0_XAB_RFInterfaceSW; /* 16 LSBs if read 32-bit from 0x870 */
++	pHalData->PHYRegDef[ODM_RF_PATH_B].rfintfs = rFPGA0_XAB_RFInterfaceSW; /* 16 MSBs if read 32-bit from 0x870 (16-bit for 0x872) */
++
++	/* RF Interface Output (and Enable) */
++	pHalData->PHYRegDef[ODM_RF_PATH_A].rfintfo = rFPGA0_XA_RFInterfaceOE; /* 16 LSBs if read 32-bit from 0x860 */
++	pHalData->PHYRegDef[ODM_RF_PATH_B].rfintfo = rFPGA0_XB_RFInterfaceOE; /* 16 LSBs if read 32-bit from 0x864 */
++
++	/* RF Interface (Output and)  Enable */
++	pHalData->PHYRegDef[ODM_RF_PATH_A].rfintfe = rFPGA0_XA_RFInterfaceOE; /* 16 MSBs if read 32-bit from 0x860 (16-bit for 0x862) */
++	pHalData->PHYRegDef[ODM_RF_PATH_B].rfintfe = rFPGA0_XB_RFInterfaceOE; /* 16 MSBs if read 32-bit from 0x864 (16-bit for 0x866) */
++
++	pHalData->PHYRegDef[ODM_RF_PATH_A].rf3wireOffset = rFPGA0_XA_LSSIParameter; /* LSSI Parameter */
++	pHalData->PHYRegDef[ODM_RF_PATH_B].rf3wireOffset = rFPGA0_XB_LSSIParameter;
++
++	pHalData->PHYRegDef[ODM_RF_PATH_A].rfHSSIPara2 = rFPGA0_XA_HSSIParameter2;  /* wire control parameter2 */
++	pHalData->PHYRegDef[ODM_RF_PATH_B].rfHSSIPara2 = rFPGA0_XB_HSSIParameter2;  /* wire control parameter2 */
++
++	/* Tranceiver Readback LSSI/HSPI mode */
++	pHalData->PHYRegDef[ODM_RF_PATH_A].rfLSSIReadBack = rFPGA0_XA_LSSIReadBack;
++	pHalData->PHYRegDef[ODM_RF_PATH_B].rfLSSIReadBack = rFPGA0_XB_LSSIReadBack;
++	pHalData->PHYRegDef[ODM_RF_PATH_A].rfLSSIReadBackPi = TransceiverA_HSPI_Readback;
++	pHalData->PHYRegDef[ODM_RF_PATH_B].rfLSSIReadBackPi = TransceiverB_HSPI_Readback;
++
++}
++
++static	int
++phy_BB8723d_Config_ParaFile(
++	IN	PADAPTER	Adapter
++)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	int			rtStatus = _SUCCESS;
++
++	/* */
++	/* 1. Read PHY_REG.TXT BB INIT!! */
++	/* */
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	if (phy_ConfigBBWithParaFile(Adapter, PHY_FILE_PHY_REG, CONFIG_BB_PHY_REG) == _FAIL)
++#endif
++	{
++#ifdef CONFIG_EMBEDDED_FWIMG
++		if (HAL_STATUS_SUCCESS != ODM_ConfigBBWithHeaderFile(&pHalData->odmpriv, CONFIG_BB_PHY_REG))
++			rtStatus = _FAIL;
++#endif
++	}
++
++	if (rtStatus != _SUCCESS) {
++		RTW_INFO("%s():Write BB Reg Fail!!", __func__);
++		goto phy_BB8190_Config_ParaFile_Fail;
++	}
++
++#if MP_DRIVER == 1
++	if (Adapter->registrypriv.mp_mode == 1) {
++		/*20160504, Suggested by jessica_wang. To Fix CCK ACPR issue*/
++		PHY_SetBBReg(Adapter, 0xCE0, BIT1|BIT0, 0);/*RXHP=low corner*/
++		PHY_SetBBReg(Adapter, 0xC3C, 0xFF, 0xCC);/*make sure low rate sensitivity*/
++	}
++#endif	/*  #if (MP_DRIVER == 1) */
++
++	/* */
++	/* 2. Read BB AGC table Initialization */
++	/* */
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	if (phy_ConfigBBWithParaFile(Adapter, PHY_FILE_AGC_TAB, CONFIG_BB_AGC_TAB) == _FAIL)
++#endif
++	{
++#ifdef CONFIG_EMBEDDED_FWIMG
++		if (HAL_STATUS_SUCCESS != ODM_ConfigBBWithHeaderFile(&pHalData->odmpriv, CONFIG_BB_AGC_TAB))
++			rtStatus = _FAIL;
++#endif
++	}
++
++	if (rtStatus != _SUCCESS) {
++		RTW_INFO("%s():AGC Table Fail\n", __func__);
++		goto phy_BB8190_Config_ParaFile_Fail;
++	}
++
++phy_BB8190_Config_ParaFile_Fail:
++
++	return rtStatus;
++}
++
++
++int
++PHY_BBConfig8723D(
++	IN PADAPTER Adapter
++)
++{
++	int	rtStatus = _SUCCESS;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u32	RegVal;
++	u8	TmpU1B = 0;
++	u8	value8;
++
++	phy_InitBBRFRegisterDefinition(Adapter);
++
++	/* Enable BB and RF */
++	RegVal = rtw_read16(Adapter, REG_SYS_FUNC_EN);
++	rtw_write16(Adapter, REG_SYS_FUNC_EN, (u16)(RegVal | BIT(13) | BIT(0) | BIT(1)));
++
++	rtw_write8(Adapter, REG_RF_CTRL, RF_EN | RF_RSTB | RF_SDMRSTB);
++
++#if (DEV_BUS_TYPE == RT_USB_INTERFACE)
++	rtw_write8(Adapter, REG_SYS_FUNC_EN, FEN_USBA | FEN_USBD | FEN_BB_GLB_RSTn | FEN_BBRSTB);
++#else
++	rtw_write8(Adapter, REG_SYS_FUNC_EN, FEN_PPLL | FEN_PCIEA | FEN_DIO_PCIE | FEN_BB_GLB_RSTn | FEN_BBRSTB);
++#endif
++
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++	/* To Fix MAC loopback mode fail. Suggested by SD4 Johnny. 2010.03.23. */
++	PlatformEFIOWrite1Byte(Adapter, REG_LDOHCI12_CTRL, 0x0f);
++	PlatformEFIOWrite1Byte(Adapter, 0x15, 0xe9);
++#endif
++
++	rtw_write8(Adapter, REG_AFE_XTAL_CTRL + 1, 0x80);
++
++	/*
++	 * Config BB and AGC
++	 */
++	rtStatus = phy_BB8723d_Config_ParaFile(Adapter);
++
++	hal_set_crystal_cap(Adapter, pHalData->CrystalCap);
++
++	return rtStatus;
++}
++#if 0
++/* Block & Path enable */
++#define		rOFDMCCKEN_Jaguar		0x808 /* OFDM/CCK block enable */
++#define		bOFDMEN_Jaguar			0x20000000
++#define		bCCKEN_Jaguar			0x10000000
++#define		rRxPath_Jaguar			0x808	/* Rx antenna */
++#define		bRxPath_Jaguar			0xff
++#define		rTxPath_Jaguar			0x80c	/* Tx antenna */
++#define		bTxPath_Jaguar			0x0fffffff
++#define		rCCK_RX_Jaguar			0xa04	/* for cck rx path selection */
++#define		bCCK_RX_Jaguar			0x0c000000
++#define		rVhtlen_Use_Lsig_Jaguar	0x8c3	/* Use LSIG for VHT length */
++VOID
++PHY_BB8723D_Config_1T(
++	IN PADAPTER Adapter
++)
++{
++	/* BB OFDM RX Path_A */
++	PHY_SetBBReg(Adapter, rRxPath_Jaguar, bRxPath_Jaguar, 0x11);
++	/* BB OFDM TX Path_A */
++	PHY_SetBBReg(Adapter, rTxPath_Jaguar, bMaskLWord, 0x1111);
++	/* BB CCK R/Rx Path_A */
++	PHY_SetBBReg(Adapter, rCCK_RX_Jaguar, bCCK_RX_Jaguar, 0x0);
++	/* MCS support */
++	PHY_SetBBReg(Adapter, 0x8bc, 0xc0000060, 0x4);
++	/* RF Path_B HSSI OFF */
++	PHY_SetBBReg(Adapter, 0xe00, 0xf, 0x4);
++	/* RF Path_B Power Down */
++	PHY_SetBBReg(Adapter, 0xe90, bMaskDWord, 0);
++	/* ADDA Path_B OFF */
++	PHY_SetBBReg(Adapter, 0xe60, bMaskDWord, 0);
++	PHY_SetBBReg(Adapter, 0xe64, bMaskDWord, 0);
++}
++#endif
++
++int
++PHY_RFConfig8723D(
++	IN	PADAPTER	Adapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	int		rtStatus = _SUCCESS;
++
++	/* */
++	/* RF config */
++	/* */
++	rtStatus = PHY_RF6052_Config8723D(Adapter);
++	/* 20151207 LCK done at RadioA table */
++	/* PHY_BB8723D_Config_1T(Adapter); */
++
++	return rtStatus;
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:    PHY_ConfigRFWithParaFile()
++ *
++ * Overview:    This function read RF parameters from general file format, and do RF 3-wire
++ *
++ * Input:	PADAPTER			Adapter
++ *			ps1Byte				pFileName
++ *			RF_PATH				eRFPath
++ *
++ * Output:      NONE
++ *
++ * Return:      RT_STATUS_SUCCESS: configuration file exist
++ *
++ * Note:		Delay may be required for RF configuration
++ *---------------------------------------------------------------------------*/
++int
++PHY_ConfigRFWithParaFile_8723D(
++	IN	PADAPTER			Adapter,
++	IN	u8				*pFileName,
++	RF_PATH				eRFPath
++)
++{
++	return _SUCCESS;
++}
++
++/* ****************************************
++ *-----------------------------------------------------------------------------
++ * Function:    PHY_ConfigRFWithHeaderFile()
++ *
++ * Overview:    This function read RF parameters from general file format, and do RF 3-wire
++ *
++ * Input:	PADAPTER			Adapter
++ *			ps1Byte				pFileName
++ *			RF_PATH				eRFPath
++ *
++ * Output:      NONE
++ *
++ * Return:      RT_STATUS_SUCCESS: configuration file exist
++ *
++ * Note:		Delay may be required for RF configuration
++ *---------------------------------------------------------------------------*/
++void phy_PowerIndexCheck8723D(
++	IN	PADAPTER		Adapter,
++	IN	u8			channel,
++	IN OUT u8		*cckPowerLevel,
++	IN OUT u8		*ofdmPowerLevel,
++	IN OUT u8		*BW20PowerLevel,
++	IN OUT u8		*BW40PowerLevel
++)
++{
++
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++
++	pHalData->CurrentCckTxPwrIdx = cckPowerLevel[0];
++	pHalData->CurrentOfdm24GTxPwrIdx = ofdmPowerLevel[0];
++	pHalData->CurrentBW2024GTxPwrIdx = BW20PowerLevel[0];
++	pHalData->CurrentBW4024GTxPwrIdx = BW40PowerLevel[0];
++
++}
++
++/**************************************************************************************************************
++ *   Description:
++ *       The low-level interface to set TxAGC , called by both MP and Normal Driver.
++ *
++ *                                                                                    <20120830, Kordan>
++ **************************************************************************************************************/
++
++VOID
++PHY_SetTxPowerIndex_8723D(
++	IN	PADAPTER			Adapter,
++	IN	u32					PowerIndex,
++	IN	u8					RFPath,
++	IN	u8					Rate
++)
++{
++	if (RFPath == ODM_RF_PATH_A || RFPath == ODM_RF_PATH_B) {
++		switch (Rate) {
++		case MGN_1M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_CCK1_Mcs32,      bMaskByte1, PowerIndex);
++			break;
++		case MGN_2M:
++			PHY_SetBBReg(Adapter, rTxAGC_B_CCK11_A_CCK2_11, bMaskByte1, PowerIndex);
++			break;
++		case MGN_5_5M:
++			PHY_SetBBReg(Adapter, rTxAGC_B_CCK11_A_CCK2_11, bMaskByte2, PowerIndex);
++			break;
++		case MGN_11M:
++			PHY_SetBBReg(Adapter, rTxAGC_B_CCK11_A_CCK2_11, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_6M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Rate18_06, bMaskByte0, PowerIndex);
++			break;
++		case MGN_9M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Rate18_06, bMaskByte1, PowerIndex);
++			break;
++		case MGN_12M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Rate18_06, bMaskByte2, PowerIndex);
++			break;
++		case MGN_18M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Rate18_06, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_24M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Rate54_24, bMaskByte0, PowerIndex);
++			break;
++		case MGN_36M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Rate54_24, bMaskByte1, PowerIndex);
++			break;
++		case MGN_48M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Rate54_24, bMaskByte2, PowerIndex);
++			break;
++		case MGN_54M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Rate54_24, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_MCS0:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Mcs03_Mcs00, bMaskByte0, PowerIndex);
++			break;
++		case MGN_MCS1:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Mcs03_Mcs00, bMaskByte1, PowerIndex);
++			break;
++		case MGN_MCS2:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Mcs03_Mcs00, bMaskByte2, PowerIndex);
++			break;
++		case MGN_MCS3:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Mcs03_Mcs00, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_MCS4:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Mcs07_Mcs04, bMaskByte0, PowerIndex);
++			break;
++		case MGN_MCS5:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Mcs07_Mcs04, bMaskByte1, PowerIndex);
++			break;
++		case MGN_MCS6:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Mcs07_Mcs04, bMaskByte2, PowerIndex);
++			break;
++		case MGN_MCS7:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Mcs07_Mcs04, bMaskByte3, PowerIndex);
++			break;
++
++		default:
++			RTW_INFO("Invalid Rate!!\n");
++			break;
++		}
++	}
++}
++
++u8
++phy_GetCurrentTxNum_8723D(
++	IN	PADAPTER		pAdapter
++)
++{
++	return RF_TX_NUM_NONIMPLEMENT;
++}
++
++u8
++PHY_GetTxPowerIndex_8723D(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	u8					Rate,
++	IN	u8					BandWidth,
++	IN	u8					Channel,
++	struct txpwr_idx_comp *tic
++)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++	u8 base_idx = 0, power_idx = 0;
++	s8 by_rate_diff = 0, limit = 0, tpt_offset = 0, extra_bias = 0;
++	BOOLEAN bIn24G = _FALSE;
++
++	base_idx = PHY_GetTxPowerIndexBase(pAdapter, RFPath, Rate, BandWidth, Channel, &bIn24G);
++
++	by_rate_diff = PHY_GetTxPowerByRate(pAdapter, BAND_ON_2_4G, ODM_RF_PATH_A, RF_1TX, Rate);
++	limit = PHY_GetTxPowerLimit(pAdapter, pAdapter->registrypriv.RegPwrTblSel, (u8)(!bIn24G), pHalData->CurrentChannelBW, RFPath, Rate, pHalData->CurrentChannel);
++
++	tpt_offset = PHY_GetTxPowerTrackingOffset(pAdapter, RFPath, Rate);
++
++	if (tic) {
++		tic->base = base_idx;
++		tic->by_rate = by_rate_diff;
++		tic->limit = limit;
++		tic->tpt = tpt_offset;
++		tic->ebias = extra_bias;
++	}
++
++	by_rate_diff = by_rate_diff > limit ? limit : by_rate_diff;
++	power_idx = base_idx + by_rate_diff + tpt_offset + extra_bias;
++
++	if (power_idx > MAX_POWER_INDEX)
++		power_idx = MAX_POWER_INDEX;
++
++	return power_idx;
++}
++
++VOID
++PHY_SetTxPowerLevel8723D(
++	IN	PADAPTER		Adapter,
++	IN	u8				Channel
++)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	u8				cur_antenna;
++	u8				RFPath = ODM_RF_PATH_A;
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	rtw_hal_get_odm_var(Adapter, HAL_ODM_ANTDIV_SELECT, &cur_antenna, NULL);
++
++	if (pHalData->AntDivCfg)  /* antenna diversity Enable */
++		RFPath = ((cur_antenna == MAIN_ANT) ? ODM_RF_PATH_A : ODM_RF_PATH_B);
++	else   /* antenna diversity disable */
++#endif
++		RFPath = pHalData->ant_path;
++
++
++
++	PHY_SetTxPowerLevelByPath(Adapter, Channel, RFPath);
++
++}
++
++VOID
++PHY_GetTxPowerLevel8723D(
++	IN	PADAPTER		Adapter,
++	OUT s32				*powerlevel
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	s32				TxPwrDbm = 13;
++#if 0
++
++	if (pMgntInfo->ClientConfigPwrInDbm != UNSPECIFIED_PWR_DBM)
++		*powerlevel = pMgntInfo->ClientConfigPwrInDbm;
++	else
++		*powerlevel = TxPwrDbm;
++#endif
++}
++
++
++/* <20160217, Jessica> A workaround to eliminate the 2472MHz & 2484MHz spur of 8723D. */
++VOID
++phy_SpurCalibration_8723D(
++	IN	PADAPTER					pAdapter,
++	IN	u1Byte						ToChannel,
++	IN	u1Byte						threshold
++)
++{
++	u4Byte		freq[2] = {0xFCCD, 0xFF9A}; /* {chnl 13, 14} */
++	u1Byte		idx = 0xFF;
++	u1Byte		b_doNotch = FALSE;
++	u1Byte		initial_gain;
++
++	/* add for notch */
++	u4Byte				wlan_channel, CurrentChannel;
++	HAL_DATA_TYPE		*pHalData	= GET_HAL_DATA(pAdapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++
++	/* check threshold */
++	if (threshold <= 0x0)
++		threshold = 0x16;
++
++	RTW_INFO("===>phy_SpurCalibration_8723D: Channel = %d\n", ToChannel);
++
++	if (ToChannel == 13)
++		idx = 0;
++	else if (ToChannel == 14)
++		idx = 1;
++
++	/* If current channel=13,14 */
++	if (idx < 0xFF) {
++		initial_gain = (u1Byte)(ODM_GetBBReg(pDM_Odm, rOFDM0_XAAGCCore1, bMaskByte0) & 0x7f);
++		odm_PauseDIG(pDM_Odm, PHYDM_PAUSE, PHYDM_PAUSE_LEVEL_1, 0x30);
++		PHY_SetBBReg(pAdapter, rFPGA0_AnalogParameter4, bMaskDWord, 0xccf000c0);		/* disable 3-wire */
++
++		PHY_SetBBReg(pAdapter, rFPGA0_PSDFunction, bMaskDWord, freq[idx]);				/* Setup PSD */
++		PHY_SetBBReg(pAdapter, rFPGA0_PSDFunction, bMaskDWord, 0x400000 | freq[idx]); /* Start PSD	 */
++
++		rtw_msleep_os(30);
++
++		if (PHY_QueryBBReg(pAdapter, rFPGA0_PSDReport, bMaskDWord) >= threshold)
++			b_doNotch = TRUE;
++
++		PHY_SetBBReg(pAdapter, rFPGA0_PSDFunction, bMaskDWord, freq[idx]); /* turn off PSD */
++		PHY_SetBBReg(pAdapter, rFPGA0_AnalogParameter4, bMaskDWord, 0xccc000c0);	/* enable 3-wire */
++		odm_PauseDIG(pDM_Odm, PHYDM_RESUME, PHYDM_PAUSE_LEVEL_1, NONE);
++	}
++
++	/* --- Notch Filter --- Asked by Rock	 */
++	if (b_doNotch) {
++		CurrentChannel = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_CHNLBW, bRFRegOffsetMask);
++		wlan_channel   = CurrentChannel & 0x0f;						    /* Get center frequency */
++
++		switch (wlan_channel) {											/* Set notch filter				 */
++		case 13:
++			ODM_SetBBReg(pDM_Odm, 0xC40, BIT(28) | BIT(27) | BIT(26) | BIT(25) | BIT(24), 0xB);
++			ODM_SetBBReg(pDM_Odm, 0xC40, BIT(9), 0x1);                    /* enable notch filter */
++			ODM_SetBBReg(pDM_Odm, 0xD40, bMaskDWord, 0x04000000);
++			ODM_SetBBReg(pDM_Odm, 0xD44, bMaskDWord, 0x00000000);
++			ODM_SetBBReg(pDM_Odm, 0xD48, bMaskDWord, 0x00000000);
++			ODM_SetBBReg(pDM_Odm, 0xD4C, bMaskDWord, 0x00000000);
++			ODM_SetBBReg(pDM_Odm, 0xD2C, BIT(28), 0x1);                   /* enable CSI mask */
++			break;
++		case 14:
++			ODM_SetBBReg(pDM_Odm, 0xC40, BIT(28) | BIT(27) | BIT(26) | BIT(25) | BIT(24), 0x5);
++			ODM_SetBBReg(pDM_Odm, 0xC40, BIT(9), 0x1);                   /* enable notch filter */
++			ODM_SetBBReg(pDM_Odm, 0xD40, bMaskDWord, 0x00000000);
++			ODM_SetBBReg(pDM_Odm, 0xD44, bMaskDWord, 0x00000000);
++			ODM_SetBBReg(pDM_Odm, 0xD48, bMaskDWord, 0x00000000);
++			ODM_SetBBReg(pDM_Odm, 0xD4C, bMaskDWord, 0x00080000);
++			ODM_SetBBReg(pDM_Odm, 0xD2C, BIT(28), 0x1);                   /* enable CSI mask */
++			break;
++		default:
++			ODM_SetBBReg(pDM_Odm, 0xC40, BIT(9), 0x0);						/* disable notch filter */
++			ODM_SetBBReg(pDM_Odm, 0xD2C, BIT(28), 0x0);                   /* disable CSI mask	function */
++			break;
++		} /* switch(wlan_channel)	 */
++		return;
++	}
++
++	ODM_SetBBReg(pDM_Odm, 0xC40, BIT(28) | BIT(27) | BIT(26) | BIT(25) | BIT(24), 0x1f);
++	ODM_SetBBReg(pDM_Odm, 0xC40, BIT(9), 0x0);                     /* disable notch filter */
++	ODM_SetBBReg(pDM_Odm, 0xD40, bMaskDWord, 0x00000000);
++	ODM_SetBBReg(pDM_Odm, 0xD44, bMaskDWord, 0x00000000);
++	ODM_SetBBReg(pDM_Odm, 0xD48, bMaskDWord, 0x00000000);
++	ODM_SetBBReg(pDM_Odm, 0xD4C, bMaskDWord, 0x00000000);
++	ODM_SetBBReg(pDM_Odm, 0xD2C, BIT(28), 0x0);                    /* disable CSI mask */
++}
++
++VOID
++phy_SetRegBW_8723D(
++	IN	PADAPTER		Adapter,
++	CHANNEL_WIDTH	CurrentBW
++)
++{
++	u16	RegRfMod_BW, u2tmp = 0;
++
++	RegRfMod_BW = rtw_read16(Adapter, REG_TRXPTCL_CTL_8723D);
++
++	switch (CurrentBW) {
++	case CHANNEL_WIDTH_20:
++		rtw_write16(Adapter, REG_TRXPTCL_CTL_8723D, (RegRfMod_BW & 0xFE7F)); /* BIT 7 = 0, BIT 8 = 0 */
++		break;
++
++	case CHANNEL_WIDTH_40:
++		u2tmp = RegRfMod_BW | BIT(7);
++		rtw_write16(Adapter, REG_TRXPTCL_CTL_8723D, (u2tmp & 0xFEFF)); /* BIT 7 = 1, BIT 8 = 0 */
++		break;
++
++	case CHANNEL_WIDTH_80:
++		u2tmp = RegRfMod_BW | BIT(8);
++		rtw_write16(Adapter, REG_TRXPTCL_CTL_8723D, (u2tmp & 0xFF7F)); /* BIT 7 = 0, BIT 8 = 1 */
++		break;
++
++	default:
++		RTW_INFO("phy_PostSetBWMode8723D():	unknown Bandwidth: %#X\n", CurrentBW);
++		break;
++	}
++}
++
++u8
++phy_GetSecondaryChnl_8723D(
++	IN	PADAPTER	Adapter
++)
++{
++	u8	SCSettingOf40 = 0, SCSettingOf20 = 0;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++
++	if (pHalData->CurrentChannelBW == CHANNEL_WIDTH_80) {
++		if (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER)
++			SCSettingOf40 = VHT_DATA_SC_40_LOWER_OF_80MHZ;
++		else if (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER)
++			SCSettingOf40 = VHT_DATA_SC_40_UPPER_OF_80MHZ;
++
++
++		if ((pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER) && (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER))
++			SCSettingOf20 = VHT_DATA_SC_20_LOWEST_OF_80MHZ;
++		else if ((pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER) && (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER))
++			SCSettingOf20 = VHT_DATA_SC_20_LOWER_OF_80MHZ;
++		else if ((pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER) && (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER))
++			SCSettingOf20 = VHT_DATA_SC_20_UPPER_OF_80MHZ;
++		else if ((pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER) && (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER))
++			SCSettingOf20 = VHT_DATA_SC_20_UPPERST_OF_80MHZ;
++
++	} else if (pHalData->CurrentChannelBW == CHANNEL_WIDTH_40) {
++
++		if (pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER)
++			SCSettingOf20 = VHT_DATA_SC_20_UPPER_OF_80MHZ;
++		else if (pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER)
++			SCSettingOf20 = VHT_DATA_SC_20_LOWER_OF_80MHZ;
++
++	}
++
++	return (SCSettingOf40 << 4) | SCSettingOf20;
++}
++
++void
++phy_PostSetBwMode8723D(
++	IN PADAPTER padapter
++)
++{
++	u1Byte SubChnlNum = 0;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	/* 2 Set Reg668 Reg440 BW */
++	phy_SetRegBW_8723D(padapter, pHalData->CurrentChannelBW);
++
++	/* 3 Set Reg483 */
++	SubChnlNum = phy_GetSecondaryChnl_8723D(padapter);
++	rtw_write8(padapter, REG_DATA_SC_8723D, SubChnlNum);
++
++	switch (pHalData->CurrentChannelBW) {
++	/* 20 MHz channel*/
++	case CHANNEL_WIDTH_20:
++		/*
++		0x800[0]=1'b0
++		0x900[0]=1'b0
++		0x954[19]=1'b1
++		0x954[27:24]= 10
++		*/
++		PHY_SetBBReg(padapter, rFPGA0_RFMOD, bRFMOD, 0x0);
++		PHY_SetBBReg(padapter, rFPGA1_RFMOD, bRFMOD, 0x0);
++		PHY_SetBBReg(padapter, rBBrx_DFIR, BIT(19), 1);
++		PHY_SetBBReg(padapter, rBBrx_DFIR,
++			     (BIT(27) | BIT(26) | BIT(25) | BIT(24)), 0xa);
++		break;
++	/* 40 MHz channel*/
++	case CHANNEL_WIDTH_40:
++		/*
++		0x800[0]=1'b1
++		0x900[0]=1'b1
++		0x954[19]=1'b0
++		0x954[23:20]=2'b11(For ACPR)
++		0xa00[4]=1/0
++		*/
++		PHY_SetBBReg(padapter, rFPGA0_RFMOD, bRFMOD, 0x1);
++		PHY_SetBBReg(padapter, rFPGA1_RFMOD, bRFMOD, 0x1);
++		PHY_SetBBReg(padapter, rBBrx_DFIR, BIT(19), 0);
++		PHY_SetBBReg(padapter, rCCK0_System, bCCKSideBand,
++			     (pHalData->nCur40MhzPrimeSC >> 1));
++
++		break;
++	default:
++		break;
++	}
++
++	/*3<3>Set RF related register */
++	PHY_RF6052SetBandwidth8723D(padapter, pHalData->CurrentChannelBW);
++}
++
++VOID
++phy_SwChnl8723D(
++	IN	PADAPTER					pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u8		channelToSW = pHalData->CurrentChannel;
++	u8		i = 0;
++
++	if (pHalData->rf_chip == RF_PSEUDO_11N) {
++		RTW_INFO("phy_SwChnl8723D: return for PSEUDO\n");
++		return;
++	}
++
++	pHalData->RfRegChnlVal[0] =
++		((pHalData->RfRegChnlVal[0] & 0xfffff00) | channelToSW);
++	PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_CHNLBW,
++		     0x3FF, pHalData->RfRegChnlVal[0]);
++	PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_CHNLBW,
++		     0x3FF, pHalData->RfRegChnlVal[0]);
++
++	phy_SpurCalibration_8723D(pAdapter, channelToSW, 0x16);
++
++	/* 2.4G CCK TX DFIR */
++	/* 2016.01.20 Suggest from RS BB mingzhi*/
++	if (channelToSW >= 1 && channelToSW <= 13) {
++		if (pHalData->need_restore == _TRUE) {
++			for (i = 0 ; i < 3 ; i++) {
++				PHY_SetBBReg(pAdapter,
++					     pHalData->RegForRecover[i].offset,
++					     bMaskDWord,
++					     pHalData->RegForRecover[i].value);
++			}
++			pHalData->need_restore = _FALSE;
++		}
++	} else if (channelToSW == 14) {
++		pHalData->need_restore = _TRUE;
++		PHY_SetBBReg(pAdapter, rCCK0_TxFilter2, bMaskDWord, 0x0000B81C);
++		PHY_SetBBReg(pAdapter, rCCK0_DebugPort, bMaskDWord, 0x00000000);
++		PHY_SetBBReg(pAdapter, 0xAAC, bMaskDWord, 0x00003667);
++	}
++
++	RTW_INFO("===>phy_SwChnl8723D: Channel = %d\n", channelToSW);
++}
++
++VOID
++phy_SwChnlAndSetBwMode8723D(
++	IN  PADAPTER		Adapter
++)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++
++	if (Adapter->bNotifyChannelChange) {
++		RTW_INFO("[%s] bSwChnl=%d, ch=%d, bSetChnlBW=%d, bw=%d\n",
++			 __func__,
++			 pHalData->bSwChnl,
++			 pHalData->CurrentChannel,
++			 pHalData->bSetChnlBW,
++			 pHalData->CurrentChannelBW);
++	}
++
++	if (RTW_CANNOT_RUN(Adapter))
++		return;
++
++	if (pHalData->bSwChnl) {
++		phy_SwChnl8723D(Adapter);
++		pHalData->bSwChnl = _FALSE;
++	}
++
++	if (pHalData->bSetChnlBW) {
++		phy_PostSetBwMode8723D(Adapter);
++		pHalData->bSetChnlBW = _FALSE;
++	}
++
++	PHY_SetTxPowerLevel8723D(Adapter, pHalData->CurrentChannel);
++}
++
++VOID
++PHY_HandleSwChnlAndSetBW8723D(
++	IN	PADAPTER			Adapter,
++	IN	BOOLEAN				bSwitchChannel,
++	IN	BOOLEAN				bSetBandWidth,
++	IN	u8					ChannelNum,
++	IN	CHANNEL_WIDTH	ChnlWidth,
++	IN	EXTCHNL_OFFSET	ExtChnlOffsetOf40MHz,
++	IN	EXTCHNL_OFFSET	ExtChnlOffsetOf80MHz,
++	IN	u8					CenterFrequencyIndex1
++)
++{
++	/* static BOOLEAN		bInitialzed = _FALSE; */
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(Adapter);
++	u8					tmpChannel = pHalData->CurrentChannel;
++	CHANNEL_WIDTH	tmpBW = pHalData->CurrentChannelBW;
++	u8					tmpnCur40MhzPrimeSC = pHalData->nCur40MhzPrimeSC;
++	u8					tmpnCur80MhzPrimeSC = pHalData->nCur80MhzPrimeSC;
++	u8					tmpCenterFrequencyIndex1 = pHalData->CurrentCenterFrequencyIndex1;
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++
++	/* RTW_INFO("=> PHY_HandleSwChnlAndSetBW8812: bSwitchChannel %d, bSetBandWidth %d\n",bSwitchChannel,bSetBandWidth); */
++
++	/* check is swchnl or setbw */
++	if (!bSwitchChannel && !bSetBandWidth) {
++		RTW_INFO("PHY_HandleSwChnlAndSetBW8812:  not switch channel and not set bandwidth\n");
++		return;
++	}
++
++	/* skip change for channel or bandwidth is the same */
++	if (bSwitchChannel) {
++		/* if(pHalData->CurrentChannel != ChannelNum) */
++		{
++			if (HAL_IsLegalChannel(Adapter, ChannelNum))
++				pHalData->bSwChnl = _TRUE;
++		}
++	}
++
++	if (bSetBandWidth) {
++#if 0
++		if (bInitialzed == _FALSE) {
++			bInitialzed = _TRUE;
++			pHalData->bSetChnlBW = _TRUE;
++		} else if ((pHalData->CurrentChannelBW != ChnlWidth) || (pHalData->nCur40MhzPrimeSC != ExtChnlOffsetOf40MHz) || (pHalData->CurrentCenterFrequencyIndex1 != CenterFrequencyIndex1))
++			pHalData->bSetChnlBW = _TRUE;
++#else
++		pHalData->bSetChnlBW = _TRUE;
++#endif
++	}
++
++	if (!pHalData->bSetChnlBW && !pHalData->bSwChnl) {
++		/* RTW_INFO("<= PHY_HandleSwChnlAndSetBW8812: bSwChnl %d, bSetChnlBW %d\n",pHalData->bSwChnl,pHalData->bSetChnlBW); */
++		return;
++	}
++
++
++	if (pHalData->bSwChnl) {
++		pHalData->CurrentChannel = ChannelNum;
++		pHalData->CurrentCenterFrequencyIndex1 = ChannelNum;
++	}
++
++
++	if (pHalData->bSetChnlBW) {
++		pHalData->CurrentChannelBW = ChnlWidth;
++#if 0
++		if (ExtChnlOffsetOf40MHz == EXTCHNL_OFFSET_LOWER)
++			pHalData->nCur40MhzPrimeSC = HAL_PRIME_CHNL_OFFSET_UPPER;
++		else if (ExtChnlOffsetOf40MHz == EXTCHNL_OFFSET_UPPER)
++			pHalData->nCur40MhzPrimeSC = HAL_PRIME_CHNL_OFFSET_LOWER;
++		else
++			pHalData->nCur40MhzPrimeSC = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++		if (ExtChnlOffsetOf80MHz == EXTCHNL_OFFSET_LOWER)
++			pHalData->nCur80MhzPrimeSC = HAL_PRIME_CHNL_OFFSET_UPPER;
++		else if (ExtChnlOffsetOf80MHz == EXTCHNL_OFFSET_UPPER)
++			pHalData->nCur80MhzPrimeSC = HAL_PRIME_CHNL_OFFSET_LOWER;
++		else
++			pHalData->nCur80MhzPrimeSC = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++#else
++		pHalData->nCur40MhzPrimeSC = ExtChnlOffsetOf40MHz;
++		pHalData->nCur80MhzPrimeSC = ExtChnlOffsetOf80MHz;
++#endif
++
++		pHalData->CurrentCenterFrequencyIndex1 = CenterFrequencyIndex1;
++	}
++
++	/* Switch workitem or set timer to do switch channel or setbandwidth operation */
++	if (!RTW_CANNOT_RUN(Adapter))
++		phy_SwChnlAndSetBwMode8723D(Adapter);
++	else {
++		if (pHalData->bSwChnl) {
++			pHalData->CurrentChannel = tmpChannel;
++			pHalData->CurrentCenterFrequencyIndex1 = tmpChannel;
++		}
++		if (pHalData->bSetChnlBW) {
++			pHalData->CurrentChannelBW = tmpBW;
++			pHalData->nCur40MhzPrimeSC = tmpnCur40MhzPrimeSC;
++			pHalData->nCur80MhzPrimeSC = tmpnCur80MhzPrimeSC;
++			pHalData->CurrentCenterFrequencyIndex1 = tmpCenterFrequencyIndex1;
++		}
++	}
++
++	/* RTW_INFO("Channel %d ChannelBW %d ",pHalData->CurrentChannel, pHalData->CurrentChannelBW); */
++	/* RTW_INFO("40MhzPrimeSC %d 80MhzPrimeSC %d ",pHalData->nCur40MhzPrimeSC, pHalData->nCur80MhzPrimeSC); */
++	/* RTW_INFO("CenterFrequencyIndex1 %d\n",pHalData->CurrentCenterFrequencyIndex1); */
++
++	/* RTW_INFO("<= PHY_HandleSwChnlAndSetBW8812: bSwChnl %d, bSetChnlBW %d\n",pHalData->bSwChnl,pHalData->bSetChnlBW); */
++
++}
++
++VOID
++PHY_SetSwChnlBWMode8723D(
++	IN	PADAPTER			Adapter,
++	IN	u8					channel,
++	IN	CHANNEL_WIDTH	Bandwidth,
++	IN	u8					Offset40,
++	IN	u8					Offset80
++)
++{
++	/* RTW_INFO("%s()===>\n",__FUNCTION__); */
++
++	PHY_HandleSwChnlAndSetBW8723D(Adapter, _TRUE, _TRUE, channel, Bandwidth, Offset40, Offset80, channel);
++
++	/* RTW_INFO("<==%s()\n",__FUNCTION__); */
++}
++
++static VOID
++_PHY_DumpRFReg_8723D(IN	PADAPTER	pAdapter)
++{
++	u32 rfRegValue, rfRegOffset;
++
++
++	for (rfRegOffset = 0x00; rfRegOffset <= 0x30; rfRegOffset++) {
++		rfRegValue = PHY_QueryRFReg_8723D(pAdapter, RF_PATH_A, rfRegOffset, bMaskDWord);
++	}
++}
+diff --git a/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_rf6052.c b/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_rf6052.c
+new file mode 100644
+index 0000000..999a356
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_rf6052.c
+@@ -0,0 +1,253 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/******************************************************************************
++ *
++ *
++ * Module:	rtl8192c_rf6052.c	( Source C File)
++ *
++ * Note:	Provide RF 6052 series relative API.
++ *
++ * Function:
++ *
++ * Export:
++ *
++ * Abbrev:
++ *
++ * History:
++ * Data			Who		Remark
++ *
++ * 09/25/2008	MHC		Create initial version.
++ * 11/05/2008	MHC		Add API for tw power setting.
++ *
++ *
++******************************************************************************/
++
++#include <rtl8723d_hal.h>
++
++/*---------------------------Define Local Constant---------------------------*/
++/*---------------------------Define Local Constant---------------------------*/
++
++
++/*------------------------Define global variable-----------------------------*/
++/*------------------------Define global variable-----------------------------*/
++
++
++/*------------------------Define local variable------------------------------*/
++/* 2008/11/20 MH For Debug only, RF
++ * static	RF_SHADOW_T	RF_Shadow[RF6052_MAX_PATH][RF6052_MAX_REG] = {0}; */
++static	RF_SHADOW_T	RF_Shadow[RF6052_MAX_PATH][RF6052_MAX_REG];
++/*------------------------Define local variable------------------------------*/
++
++/*-----------------------------------------------------------------------------
++ * Function:    PHY_RF6052SetBandwidth()
++ *
++ * Overview:    This function is called by SetBWModeCallback8190Pci() only
++ *
++ * Input:       PADAPTER				Adapter
++ *			WIRELESS_BANDWIDTH_E	Bandwidth
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Note:		For RF type 0222D
++ *---------------------------------------------------------------------------*/
++VOID
++PHY_RF6052SetBandwidth8723D(
++	IN PADAPTER padapter,
++	IN CHANNEL_WIDTH Bandwidth)	/* 20M or 40M */
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	switch (Bandwidth) {
++	case CHANNEL_WIDTH_20:
++		/*
++		RF_A_reg 0x18[11:10]=2'b11
++		RF_A_reg 0x18[9:0]
++		*/
++		pHalData->RfRegChnlVal[0] = ((pHalData->RfRegChnlVal[0] & 0xfffff3ff) | BIT(10) | BIT(11));
++		PHY_SetRFReg(padapter, ODM_RF_PATH_A, 0x18, bRFRegOffsetMask, pHalData->RfRegChnlVal[0]); /* RF TRX_BW */
++		break;
++	case CHANNEL_WIDTH_40:
++		/*
++		RF_A_reg 0x18[11:10]=2'b01
++		RF_A_reg 0x18[9:0]
++		*/
++		pHalData->RfRegChnlVal[0] = ((pHalData->RfRegChnlVal[0] & 0xfffff3ff) | BIT(10));
++		PHY_SetRFReg(padapter, ODM_RF_PATH_A, 0x18, bRFRegOffsetMask, pHalData->RfRegChnlVal[0]); /* RF TRX_BW */
++		break;
++	default:
++		break;
++	}
++}
++
++static VOID
++phy_RF6052_Config_HardCode(
++	IN	PADAPTER		Adapter
++)
++{
++
++	/* Set Default Bandwidth to 20M */
++	/* Adapter->HalFunc	.SetBWModeHandler(Adapter, CHANNEL_WIDTH_20); */
++
++	/* TODO: Set Default Channel to channel one for RTL8225 */
++
++}
++
++static int
++phy_RF6052_Config_ParaFile(
++	IN	PADAPTER		Adapter
++)
++{
++	u32					u4RegValue = 0;
++	u8					eRFPath;
++	BB_REGISTER_DEFINITION_T	*pPhyReg;
++
++	int					rtStatus = _SUCCESS;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++
++	/* 3//----------------------------------------------------------------- */
++	/* 3// <2> Initialize RF */
++	/* 3//----------------------------------------------------------------- */
++	/* for(eRFPath = RF_PATH_A; eRFPath <pHalData->NumTotalRFPath; eRFPath++) */
++	for (eRFPath = 0; eRFPath < pHalData->NumTotalRFPath; eRFPath++) {
++
++		pPhyReg = &pHalData->PHYRegDef[eRFPath];
++
++		/*----Store original RFENV control type----*/
++		switch (eRFPath) {
++		case RF_PATH_A:
++		case RF_PATH_C:
++			u4RegValue = PHY_QueryBBReg(Adapter, pPhyReg->rfintfs, bRFSI_RFENV);
++			break;
++		case RF_PATH_B:
++		case RF_PATH_D:
++			u4RegValue = PHY_QueryBBReg(Adapter, pPhyReg->rfintfs, bRFSI_RFENV << 16);
++			break;
++		}
++
++		/*----Set RF_ENV enable----*/
++		PHY_SetBBReg(Adapter, pPhyReg->rfintfe, bRFSI_RFENV << 16, 0x1);
++		rtw_udelay_os(1);/* PlatformStallExecution(1); */
++
++		/*----Set RF_ENV output high----*/
++		PHY_SetBBReg(Adapter, pPhyReg->rfintfo, bRFSI_RFENV, 0x1);
++		rtw_udelay_os(1);/* PlatformStallExecution(1); */
++
++		/* Set bit number of Address and Data for RF register */
++		PHY_SetBBReg(Adapter, pPhyReg->rfHSSIPara2, b3WireAddressLength, 0x0);	/* Set 1 to 4 bits for 8255 */
++		rtw_udelay_os(1);/* PlatformStallExecution(1); */
++
++		PHY_SetBBReg(Adapter, pPhyReg->rfHSSIPara2, b3WireDataLength, 0x0);	/* Set 0 to 12  bits for 8255 */
++		rtw_udelay_os(1);/* PlatformStallExecution(1); */
++
++		/*----Initialize RF fom connfiguration file----*/
++		switch (eRFPath) {
++		case RF_PATH_A:
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++			if (PHY_ConfigRFWithParaFile(Adapter, PHY_FILE_RADIO_A, eRFPath) == _FAIL)
++#endif
++			{
++#ifdef CONFIG_EMBEDDED_FWIMG
++				if (HAL_STATUS_FAILURE == ODM_ConfigRFWithHeaderFile(&pHalData->odmpriv, CONFIG_RF_RADIO, (ODM_RF_RADIO_PATH_E)eRFPath))
++					rtStatus = _FAIL;
++#endif
++			}
++			break;
++		case RF_PATH_B:
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++			if (PHY_ConfigRFWithParaFile(Adapter, PHY_FILE_RADIO_B, eRFPath) == _FAIL)
++#endif
++			{
++#ifdef CONFIG_EMBEDDED_FWIMG
++				if (HAL_STATUS_FAILURE == ODM_ConfigRFWithHeaderFile(&pHalData->odmpriv, CONFIG_RF_RADIO, (ODM_RF_RADIO_PATH_E)eRFPath))
++					rtStatus = _FAIL;
++#endif
++			}
++			break;
++		case RF_PATH_C:
++			break;
++		case RF_PATH_D:
++			break;
++		}
++
++		/*----Restore RFENV control type----*/;
++		switch (eRFPath) {
++		case RF_PATH_A:
++		case RF_PATH_C:
++			PHY_SetBBReg(Adapter, pPhyReg->rfintfs, bRFSI_RFENV, u4RegValue);
++			break;
++		case RF_PATH_B:
++		case RF_PATH_D:
++			PHY_SetBBReg(Adapter, pPhyReg->rfintfs, bRFSI_RFENV << 16, u4RegValue);
++			break;
++		}
++
++		if (rtStatus != _SUCCESS) {
++			goto phy_RF6052_Config_ParaFile_Fail;
++		}
++
++	}
++
++	/* 3 ----------------------------------------------------------------- */
++	/* 3 Configuration of Tx Power Tracking */
++	/* 3 ----------------------------------------------------------------- */
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	if (PHY_ConfigRFWithTxPwrTrackParaFile(Adapter, PHY_FILE_TXPWR_TRACK) == _FAIL)
++#endif
++	{
++#ifdef CONFIG_EMBEDDED_FWIMG
++		ODM_ConfigRFWithTxPwrTrackHeaderFile(&pHalData->odmpriv);
++#endif
++	}
++
++	return rtStatus;
++
++phy_RF6052_Config_ParaFile_Fail:
++	return rtStatus;
++}
++
++
++int
++PHY_RF6052_Config8723D(
++	IN	PADAPTER		Adapter)
++{
++	HAL_DATA_TYPE				*pHalData = GET_HAL_DATA(Adapter);
++	int					rtStatus = _SUCCESS;
++
++	/* */
++	/* Initialize general global value */
++	/* */
++	/* TODO: Extend RF_PATH_C and RF_PATH_D in the future */
++	if (pHalData->rf_type == RF_1T1R)
++		pHalData->NumTotalRFPath = 1;
++	else
++		pHalData->NumTotalRFPath = 2;
++
++	/* */
++	/* Config BB and RF */
++	/* */
++	rtStatus = phy_RF6052_Config_ParaFile(Adapter);
++	return rtStatus;
++
++}
++
++/* End of HalRf6052.c */
+diff --git a/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_rxdesc.c b/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_rxdesc.c
+new file mode 100644
+index 0000000..d5d826d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_rxdesc.c
+@@ -0,0 +1,62 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8723D_REDESC_C_
++
++#include <rtl8723d_hal.h>
++
++void rtl8723d_query_rx_desc_status(union recv_frame *precvframe, u8 *pdesc)
++{
++	struct rx_pkt_attrib *pattrib;
++
++
++	pattrib = &precvframe->u.hdr.attrib;
++	_rtw_memset(pattrib, 0, sizeof(struct rx_pkt_attrib));
++
++	pattrib->pkt_len = (u16)GET_RX_STATUS_DESC_PKT_LEN_8723D(pdesc);
++	pattrib->pkt_rpt_type = GET_RX_STATUS_DESC_RPT_SEL_8723D(pdesc) ? C2H_PACKET : NORMAL_RX;
++
++	if (pattrib->pkt_rpt_type == NORMAL_RX) {
++		/* Offset 0 */
++		pattrib->crc_err = (u8)GET_RX_STATUS_DESC_CRC32_8723D(pdesc);
++		pattrib->icv_err = (u8)GET_RX_STATUS_DESC_ICV_8723D(pdesc);
++		pattrib->drvinfo_sz = (u8)GET_RX_STATUS_DESC_DRVINFO_SIZE_8723D(pdesc) << 3;
++		pattrib->encrypt = (u8)GET_RX_STATUS_DESC_SECURITY_8723D(pdesc);
++		pattrib->qos = (u8)GET_RX_STATUS_DESC_QOS_8723D(pdesc);
++		pattrib->shift_sz = (u8)GET_RX_STATUS_DESC_SHIFT_8723D(pdesc);
++		pattrib->physt = (u8)GET_RX_STATUS_DESC_PHY_STATUS_8723D(pdesc);
++		pattrib->bdecrypted = (u8)GET_RX_STATUS_DESC_SWDEC_8723D(pdesc) ? 0 : 1;
++
++		/* Offset 4 */
++		pattrib->priority = (u8)GET_RX_STATUS_DESC_TID_8723D(pdesc);
++		pattrib->amsdu = (u8)GET_RX_STATUS_DESC_AMSDU_8723D(pdesc);
++		pattrib->mdata = (u8)GET_RX_STATUS_DESC_MORE_DATA_8723D(pdesc);
++		pattrib->mfrag = (u8)GET_RX_STATUS_DESC_MORE_FRAG_8723D(pdesc);
++
++		/* Offset 8 */
++		pattrib->seq_num = (u16)GET_RX_STATUS_DESC_SEQ_8723D(pdesc);
++		pattrib->frag_num = (u8)GET_RX_STATUS_DESC_FRAG_8723D(pdesc);
++
++		/* Offset 12 */
++		pattrib->data_rate = (u8)GET_RX_STATUS_DESC_RX_RATE_8723D(pdesc);
++
++		/* Offset 20 */
++		/* pattrib->tsfl=(u8)GET_RX_STATUS_DESC_TSFL_8723D(pdesc); */
++	}
++}
+diff --git a/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_sreset.c b/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_sreset.c
+new file mode 100644
+index 0000000..6465e22
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/rtl8723d/rtl8723d_sreset.c
+@@ -0,0 +1,109 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8723D_SRESET_C_
++
++#include <rtl8723d_hal.h>
++
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++void rtl8723d_sreset_xmit_status_check(_adapter *padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++
++	unsigned long current_time;
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	unsigned int diff_time;
++	u32 txdma_status;
++
++	txdma_status = rtw_read32(padapter, REG_TXDMA_STATUS);
++	if (txdma_status != 0x00 && txdma_status != 0xeaeaeaea) {
++		RTW_INFO("%s REG_TXDMA_STATUS:0x%08x\n", __FUNCTION__, txdma_status);
++		rtw_hal_sreset_reset(padapter);
++	}
++
++#ifdef CONFIG_USB_HCI
++	/* total xmit irp = 4 */
++	/* DBG_8192C("==>%s free_xmitbuf_cnt(%d),txirp_cnt(%d)\n",__FUNCTION__,pxmitpriv->free_xmitbuf_cnt,pxmitpriv->txirp_cnt); */
++	/* if(pxmitpriv->txirp_cnt == NR_XMITBUFF+1) */
++	current_time = rtw_get_current_time();
++
++	if (0 == pxmitpriv->free_xmitbuf_cnt || 0 == pxmitpriv->free_xmit_extbuf_cnt) {
++
++		diff_time = rtw_get_passing_time_ms(psrtpriv->last_tx_time);
++
++		if (diff_time > 2000) {
++			if (psrtpriv->last_tx_complete_time == 0)
++				psrtpriv->last_tx_complete_time = current_time;
++			else {
++				diff_time = rtw_get_passing_time_ms(psrtpriv->last_tx_complete_time);
++				if (diff_time > 4000) {
++					u32 ability = 0;
++
++					/* padapter->Wifi_Error_Status = WIFI_TX_HANG; */
++					ability = rtw_phydm_ability_get(padapter);
++
++					RTW_INFO("%s tx hang %s\n", __FUNCTION__,
++						(ability & ODM_BB_ADAPTIVITY) ? "ODM_BB_ADAPTIVITY" : "");
++
++					if (!(ability & ODM_BB_ADAPTIVITY))
++						rtw_hal_sreset_reset(padapter);
++				}
++			}
++		}
++	}
++#endif /*  #ifdef CONFIG_USB_HCI */
++
++	if (psrtpriv->dbg_trigger_point == SRESET_TGP_XMIT_STATUS) {
++		psrtpriv->dbg_trigger_point = SRESET_TGP_NULL;
++		rtw_hal_sreset_reset(padapter);
++		return;
++	}
++}
++
++void rtl8723d_sreset_linked_status_check(_adapter *padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++#if 0
++	u32 regc50, regc58, reg824, reg800;
++
++	regc50 = rtw_read32(padapter, 0xc50);
++	regc58 = rtw_read32(padapter, 0xc58);
++	reg824 = rtw_read32(padapter, 0x824);
++	reg800 = rtw_read32(padapter, 0x800);
++	if (((regc50 & 0xFFFFFF00) != 0x69543400) ||
++	    ((regc58 & 0xFFFFFF00) != 0x69543400) ||
++	    (((reg824 & 0xFFFFFF00) != 0x00390000) && (((reg824 & 0xFFFFFF00) != 0x80390000))) ||
++	    (((reg800 & 0xFFFFFF00) != 0x03040000) && ((reg800 & 0xFFFFFF00) != 0x83040000))) {
++		DBG_8192C("%s regc50:0x%08x, regc58:0x%08x, reg824:0x%08x, reg800:0x%08x,\n", __FUNCTION__,
++			  regc50, regc58, reg824, reg800);
++		rtw_hal_sreset_reset(padapter);
++	}
++#endif
++
++	if (psrtpriv->dbg_trigger_point == SRESET_TGP_LINK_STATUS) {
++		psrtpriv->dbg_trigger_point = SRESET_TGP_NULL;
++		rtw_hal_sreset_reset(padapter);
++		return;
++	}
++}
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/rtl8723d/usb/rtl8723du_led.c b/drivers/net/wireless/rtl8723du/hal/rtl8723d/usb/rtl8723du_led.c
+new file mode 100644
+index 0000000..a9c741f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/rtl8723d/usb/rtl8723du_led.c
+@@ -0,0 +1,128 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#include "rtl8723d_hal.h"
++
++/*
++ * ================================================================================
++ * LED object.
++ * ================================================================================
++ */
++
++
++/*
++ * ================================================================================
++ * Prototype of protected function.
++ * ================================================================================
++ */
++
++/*
++ * ================================================================================
++ * LED_819xUsb routines.
++ * ================================================================================
++ */
++
++/*
++ * Description:
++ * Turn on LED according to LedPin specified.
++ */
++void
++SwLedOn_8723DU(
++	PADAPTER padapter,
++	PLED_USB pLed
++)
++{
++	u8 LedCfg;
++
++	if (RTW_CANNOT_RUN(padapter))
++		return;
++
++	pLed->bLedOn = _TRUE;
++
++}
++
++
++/*
++ * Description:
++ * Turn off LED according to LedPin specified.
++ */
++void
++SwLedOff_8723DU(
++	PADAPTER padapter,
++	PLED_USB pLed
++)
++{
++	u8 LedCfg;
++
++	if (RTW_CANNOT_RUN(padapter))
++		goto exit;
++
++exit:
++	pLed->bLedOn = _FALSE;
++
++}
++
++/*
++ * ================================================================================
++ * Interface to manipulate LED objects.
++ * ================================================================================
++ */
++
++/*
++ * ================================================================================
++ * Default LED behavior.
++ * ================================================================================
++ */
++
++/*
++ * Description:
++ * Initialize all LED_871x objects.
++ */
++void
++rtl8723du_InitSwLeds(
++	PADAPTER padapter
++)
++{
++	struct led_priv *pledpriv = &(padapter->ledpriv);
++
++	pledpriv->LedControlHandler = LedControlUSB;
++
++	pledpriv->SwLedOn = SwLedOn_8723DU;
++	pledpriv->SwLedOff = SwLedOff_8723DU;
++
++	InitLed(padapter, &(pledpriv->SwLed0), LED_PIN_LED0);
++
++	InitLed(padapter, &(pledpriv->SwLed1), LED_PIN_LED1);
++}
++
++
++/*
++ * Description:
++ * DeInitialize all LED_819xUsb objects.
++ */
++void
++rtl8723du_DeInitSwLeds(
++	PADAPTER padapter
++)
++{
++	struct led_priv *ledpriv = &(padapter->ledpriv);
++
++	DeInitLed(&(ledpriv->SwLed0));
++	DeInitLed(&(ledpriv->SwLed1));
++}
+diff --git a/drivers/net/wireless/rtl8723du/hal/rtl8723d/usb/rtl8723du_recv.c b/drivers/net/wireless/rtl8723du/hal/rtl8723d/usb/rtl8723du_recv.c
+new file mode 100644
+index 0000000..26d96a4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/rtl8723d/usb/rtl8723du_recv.c
+@@ -0,0 +1,32 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8723DU_RECV_C_
++
++#include <rtl8723d_hal.h>
++
++int rtl8723du_init_recv_priv(PADAPTER padapter)
++{
++	return usb_init_recv_priv(padapter, USB_INTR_CONTENT_LENGTH);
++}
++
++void rtl8723du_free_recv_priv(PADAPTER padapter)
++{
++	usb_free_recv_priv(padapter, USB_INTR_CONTENT_LENGTH);
++}
+diff --git a/drivers/net/wireless/rtl8723du/hal/rtl8723d/usb/rtl8723du_xmit.c b/drivers/net/wireless/rtl8723du/hal/rtl8723d/usb/rtl8723du_xmit.c
+new file mode 100644
+index 0000000..e493733
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/rtl8723d/usb/rtl8723du_xmit.c
+@@ -0,0 +1,845 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#define _RTL8723DU_XMIT_C_
++
++#include <rtl8723d_hal.h>
++
++void _dbg_dump_tx_info(PADAPTER padapter, int frame_tag, struct tx_desc *ptxdesc)
++{
++	u8 bDumpTxPkt;
++	u8 bDumpTxDesc = _FALSE;
++
++	rtw_hal_get_def_var(padapter, HAL_DEF_DBG_DUMP_TXPKT, &(bDumpTxPkt));
++
++	if (bDumpTxPkt == 1) { /* dump txdesc for data frame */
++		RTW_INFO("dump tx_desc for data frame\n");
++		if ((frame_tag & 0x0f) == DATA_FRAMETAG)
++			bDumpTxDesc = _TRUE;
++	} else if (bDumpTxPkt == 2) { /* dump txdesc for mgnt frame */
++		RTW_INFO("dump tx_desc for mgnt frame\n");
++		if ((frame_tag & 0x0f) == MGNT_FRAMETAG)
++			bDumpTxDesc = _TRUE;
++	} else if (bDumpTxPkt == 3) { /* dump early info */
++	}
++
++	if (bDumpTxDesc) {
++		RTW_INFO("=====================================\n");
++		RTW_INFO("Offset00(0x%08x)\n", ptxdesc->txdw0);
++		RTW_INFO("Offset04(0x%08x)\n", ptxdesc->txdw1);
++		RTW_INFO("Offset08(0x%08x)\n", ptxdesc->txdw2);
++		RTW_INFO("Offset12(0x%08x)\n", ptxdesc->txdw3);
++		RTW_INFO("Offset16(0x%08x)\n", ptxdesc->txdw4);
++		RTW_INFO("Offset20(0x%08x)\n", ptxdesc->txdw5);
++		RTW_INFO("Offset24(0x%08x)\n", ptxdesc->txdw6);
++		RTW_INFO("Offset28(0x%08x)\n", ptxdesc->txdw7);
++#if defined(TXDESC_40_BYTES) || defined(TXDESC_64_BYTES)
++		RTW_INFO("Offset32(0x%08x)\n", ptxdesc->txdw8);
++		RTW_INFO("Offset36(0x%08x)\n", ptxdesc->txdw9);
++#endif
++#if defined(TXDESC_64_BYTES)
++		RTW_INFO("Offset40(0x%08x)\n", ptxdesc->txdw10);
++		RTW_INFO("Offset44(0x%08x)\n", ptxdesc->txdw11);
++		RTW_INFO("Offset48(0x%08x)\n", ptxdesc->txdw12);
++		RTW_INFO("Offset52(0x%08x)\n", ptxdesc->txdw13);
++		RTW_INFO("Offset56(0x%08x)\n", ptxdesc->txdw14);
++		RTW_INFO("Offset58(0x%08x)\n", ptxdesc->txdw15);
++#endif
++		RTW_INFO("=====================================\n");
++	}
++}
++
++s32 rtl8723du_init_xmit_priv(PADAPTER padapter)
++{
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++#ifdef PLATFORM_LINUX
++	tasklet_init(&pxmitpriv->xmit_tasklet,
++		     (void (*)(unsigned long))rtl8723du_xmit_tasklet,
++		     (unsigned long)padapter);
++#endif
++	return _SUCCESS;
++}
++
++void rtl8723du_free_xmit_priv(PADAPTER padapter)
++{
++}
++
++int urb_zero_packet_chk(PADAPTER padapter, int sz)
++{
++	u8 blnSetTxDescOffset;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	blnSetTxDescOffset = (((sz + TXDESC_SIZE) % pHalData->UsbBulkOutSize) == 0) ? 1 : 0;
++
++	return blnSetTxDescOffset;
++}
++
++static s32 update_txdesc(struct xmit_frame *pxmitframe, u8 *pmem, s32 sz, u8 bagg_pkt)
++{
++	int pull = 0;
++
++	PADAPTER padapter = pxmitframe->padapter;
++	struct tx_desc *ptxdesc = (struct tx_desc *)pmem;
++
++#ifndef CONFIG_USE_USB_BUFFER_ALLOC_TX
++	if ((PACKET_OFFSET_SZ != 0)
++	    && (_FALSE == bagg_pkt)
++	    && (urb_zero_packet_chk(padapter, sz) == 0)) {
++		ptxdesc = (struct tx_desc *)(pmem + PACKET_OFFSET_SZ);
++		pull = 1;
++		pxmitframe->pkt_offset--;
++	}
++#endif	/* CONFIG_USE_USB_BUFFER_ALLOC_TX */
++
++	_rtw_memset(ptxdesc, 0, sizeof(struct tx_desc));
++
++	rtl8723d_update_txdesc(pxmitframe, (u8 *)ptxdesc);
++	_dbg_dump_tx_info(padapter, pxmitframe->frame_tag, ptxdesc);
++	return pull;
++}
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++/*
++ * Description
++ *	Transmit xmitbuf to hardware tx fifo
++ *
++ * Return
++ *	_SUCCESS	ok
++ *	_FAIL		something error
++ */
++s32 rtl8723du_xmit_buf_handler(PADAPTER padapter)
++{
++	/* PHAL_DATA_TYPE phal; */
++	struct xmit_priv *pxmitpriv;
++	struct xmit_buf *pxmitbuf;
++	s32 ret;
++
++
++	/* phal = GET_HAL_DATA(padapter); */
++	pxmitpriv = &padapter->xmitpriv;
++
++	ret = _rtw_down_sema(&pxmitpriv->xmit_sema);
++	if (_FAIL == ret) {
++		return _FAIL;
++	}
++
++	if (RTW_CANNOT_RUN(padapter)) {
++		return _FAIL;
++	}
++
++	if (rtw_mi_pending_xmitbuf(padapter) == 0)
++		return _SUCCESS;
++
++#ifdef CONFIG_LPS_LCLK
++	ret = rtw_register_tx_alive(padapter);
++	if (ret != _SUCCESS) {
++		return _SUCCESS;
++	}
++#endif
++
++	do {
++		pxmitbuf = dequeue_pending_xmitbuf(pxmitpriv);
++		if (pxmitbuf == NULL)
++			break;
++
++		rtw_write_port(padapter, pxmitbuf->ff_hwaddr, pxmitbuf->len, (unsigned char *)pxmitbuf);
++
++	} while (1);
++
++#ifdef CONFIG_LPS_LCLK
++	rtw_unregister_tx_alive(padapter);
++#endif
++
++	return _SUCCESS;
++}
++#endif
++
++
++static s32 rtw_dump_xframe(PADAPTER padapter, struct xmit_frame *pxmitframe)
++{
++	s32 ret = _SUCCESS;
++	s32 inner_ret = _SUCCESS;
++	int t, sz, w_sz, pull = 0;
++	u8 *mem_addr;
++	u32 ff_hwaddr;
++	struct xmit_buf *pxmitbuf = pxmitframe->pxmitbuf;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++
++	if ((pxmitframe->frame_tag == DATA_FRAMETAG) &&
++	    (pxmitframe->attrib.ether_type != 0x0806) &&
++	    (pxmitframe->attrib.ether_type != 0x888e) &&
++	    (pxmitframe->attrib.dhcp_pkt != 1))
++		rtw_issue_addbareq_cmd(padapter, pxmitframe);
++
++	mem_addr = pxmitframe->buf_addr;
++
++
++	for (t = 0; t < pattrib->nr_frags; t++) {
++		if (inner_ret != _SUCCESS && ret == _SUCCESS)
++			ret = _FAIL;
++
++		if (t != (pattrib->nr_frags - 1)) {
++
++			sz = pxmitpriv->frag_len;
++			sz = sz - 4 - (psecuritypriv->sw_encrypt ? 0 : pattrib->icv_len);
++		} else /* no frag */
++			sz = pattrib->last_txcmdsz;
++
++		pull = update_txdesc(pxmitframe, mem_addr, sz, _FALSE);
++		/* rtl8723d_update_txdesc(pxmitframe, mem_addr+PACKET_OFFSET_SZ); */
++
++		if (pull) {
++			mem_addr += PACKET_OFFSET_SZ; /* pull txdesc head */
++
++			/* pxmitbuf->pbuf = mem_addr; */
++			pxmitframe->buf_addr = mem_addr;
++
++			w_sz = sz + TXDESC_SIZE;
++		} else
++			w_sz = sz + TXDESC_SIZE + PACKET_OFFSET_SZ;
++
++		ff_hwaddr = rtw_get_ff_hwaddr(pxmitframe);
++#ifdef CONFIG_XMIT_THREAD_MODE
++		pxmitbuf->len = w_sz;
++		pxmitbuf->ff_hwaddr = ff_hwaddr;
++		enqueue_pending_xmitbuf(pxmitpriv, pxmitbuf);
++#else
++		inner_ret = rtw_write_port(padapter, ff_hwaddr, w_sz, (unsigned char *)pxmitbuf);
++#endif
++		rtw_count_tx_stats(padapter, pxmitframe, sz);
++
++
++		/* RTW_INFO("rtw_write_port, w_sz=%d, sz=%d, txdesc_sz=%d, tid=%d\n", w_sz, sz, w_sz-sz, pattrib->priority); */
++
++		mem_addr += w_sz;
++
++		mem_addr = (u8 *)RND4(((SIZE_PTR)(mem_addr)));
++
++	}
++
++	rtw_free_xmitframe(pxmitpriv, pxmitframe);
++
++	if (ret != _SUCCESS)
++		rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_UNKNOWN);
++
++	return ret;
++}
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++static u32 xmitframe_need_length(struct xmit_frame *pxmitframe)
++{
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++
++	u32 len = 0;
++
++	/* no consider fragement */
++	len = pattrib->hdrlen + pattrib->iv_len +
++	      SNAP_SIZE + sizeof(u16) +
++	      pattrib->pktlen +
++	      ((pattrib->bswenc) ? pattrib->icv_len : 0);
++
++	if (pattrib->encrypt == _TKIP_)
++		len += 8;
++
++	return len;
++}
++
++#define IDEA_CONDITION 1	/* check all packets before enqueue */
++s32 rtl8723du_xmitframe_complete(PADAPTER padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	struct xmit_frame *pxmitframe = NULL;
++	struct xmit_frame *pfirstframe = NULL;
++
++	/* aggregate variable */
++	struct hw_xmit *phwxmit;
++	struct sta_info *psta = NULL;
++	struct tx_servq *ptxservq = NULL;
++
++	_irqL irqL;
++	_list *xmitframe_plist = NULL, *xmitframe_phead = NULL;
++
++	u32 pbuf;       /* next pkt address */
++	u32 pbuf_tail;  /* last pkt tail */
++	u32 len;        /* packet length, except TXDESC_SIZE and PKT_OFFSET */
++
++	u32 bulkSize = pHalData->UsbBulkOutSize;
++	u8 descCount;
++	u32 bulkPtr;
++
++	/* dump frame variable */
++	u32 ff_hwaddr;
++
++	_list *sta_plist, *sta_phead;
++	u8 single_sta_in_queue = _FALSE;
++
++#ifndef IDEA_CONDITION
++	int res = _SUCCESS;
++#endif
++
++
++
++	/* check xmitbuffer is ok */
++	if (pxmitbuf == NULL) {
++		pxmitbuf = rtw_alloc_xmitbuf(pxmitpriv);
++		if (pxmitbuf == NULL)
++			return _FALSE;
++	}
++
++
++	/* 3 1. pick up first frame */
++	do {
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++
++		pxmitframe = rtw_dequeue_xframe(pxmitpriv, pxmitpriv->hwxmits, pxmitpriv->hwxmit_entry);
++		if (pxmitframe == NULL) {
++			/* no more xmit frame, release xmit buffer */
++			rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++			return _FALSE;
++		}
++
++
++#ifndef IDEA_CONDITION
++		if (pxmitframe->frame_tag != DATA_FRAMETAG) {
++			/* rtw_free_xmitframe(pxmitpriv, pxmitframe); */
++			continue;
++		}
++
++		/* TID 0~15 */
++		if ((pxmitframe->attrib.priority < 0) ||
++		    (pxmitframe->attrib.priority > 15)) {
++			/* rtw_free_xmitframe(pxmitpriv, pxmitframe); */
++			continue;
++		}
++#endif
++
++		pxmitframe->pxmitbuf = pxmitbuf;
++		pxmitframe->buf_addr = pxmitbuf->pbuf;
++		pxmitbuf->priv_data = pxmitframe;
++
++		/* pxmitframe->agg_num = 1; */ /* alloc xmitframe should assign to 1. */
++		/* pxmitframe->pkt_offset = 1; */ /* first frame of aggregation, reserve offset */
++		pxmitframe->pkt_offset = (PACKET_OFFSET_SZ / 8);
++
++		if (rtw_xmitframe_coalesce(padapter, pxmitframe->pkt, pxmitframe) == _FALSE) {
++			RTW_INFO("%s coalesce 1st xmitframe failed\n", __func__);
++			continue;
++		}
++
++
++		/* always return ndis_packet after rtw_xmitframe_coalesce */
++		rtw_os_xmit_complete(padapter, pxmitframe);
++
++		break;
++	} while (1);
++
++	/* 3 2. aggregate same priority and same DA(AP or STA) frames */
++	pfirstframe = pxmitframe;
++	len = xmitframe_need_length(pfirstframe) + TXDESC_OFFSET;
++	pbuf_tail = len;
++	pbuf = _RND8(pbuf_tail);
++
++	/* check pkt amount in one bluk */
++	descCount = 0;
++	bulkPtr = bulkSize;
++	if (pbuf < bulkPtr)
++		descCount++;
++	else {
++		descCount = 0;
++		bulkPtr = ((pbuf / bulkSize) + 1) * bulkSize; /* round to next bulkSize */
++	}
++
++	/* dequeue same priority packet from station tx queue */
++	psta = pfirstframe->attrib.psta;
++	switch (pfirstframe->attrib.priority) {
++	case 1:
++	case 2:
++		ptxservq = &(psta->sta_xmitpriv.bk_q);
++		phwxmit = pxmitpriv->hwxmits + 3;
++		break;
++
++	case 4:
++	case 5:
++		ptxservq = &(psta->sta_xmitpriv.vi_q);
++		phwxmit = pxmitpriv->hwxmits + 1;
++		break;
++
++	case 6:
++	case 7:
++		ptxservq = &(psta->sta_xmitpriv.vo_q);
++		phwxmit = pxmitpriv->hwxmits;
++		break;
++
++	case 0:
++	case 3:
++	default:
++		ptxservq = &(psta->sta_xmitpriv.be_q);
++		phwxmit = pxmitpriv->hwxmits + 2;
++		break;
++	}
++
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++	sta_phead = get_list_head(phwxmit->sta_queue);
++	sta_plist = get_next(sta_phead);
++	single_sta_in_queue = rtw_end_of_queue_search(sta_phead, get_next(sta_plist));
++
++	xmitframe_phead = get_list_head(&ptxservq->sta_pending);
++	xmitframe_plist = get_next(xmitframe_phead);
++	while (rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist) == _FALSE) {
++		pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++		xmitframe_plist = get_next(xmitframe_plist);
++
++		if (_FAIL == rtw_hal_busagg_qsel_check(padapter, pfirstframe->attrib.qsel, pxmitframe->attrib.qsel))
++			break;
++
++		len = xmitframe_need_length(pxmitframe) + TXDESC_SIZE; /* no offset */
++		if (pbuf + len > MAX_XMITBUF_SZ)
++			break;
++
++		rtw_list_delete(&pxmitframe->list);
++		ptxservq->qcnt--;
++		phwxmit->accnt--;
++
++#ifndef IDEA_CONDITION
++		/* suppose only data frames would be in queue */
++		if (pxmitframe->frame_tag != DATA_FRAMETAG) {
++			rtw_free_xmitframe(pxmitpriv, pxmitframe);
++			continue;
++		}
++
++		/* TID 0~15 */
++		if ((pxmitframe->attrib.priority < 0) ||
++		    (pxmitframe->attrib.priority > 15)) {
++			rtw_free_xmitframe(pxmitpriv, pxmitframe);
++			continue;
++		}
++#endif
++
++		/* pxmitframe->pxmitbuf = pxmitbuf; */
++		pxmitframe->buf_addr = pxmitbuf->pbuf + pbuf;
++
++		pxmitframe->agg_num = 0; /* not first frame of aggregation */
++		pxmitframe->pkt_offset = 0; /* not first frame of aggregation, no need to reserve offset */
++
++		if (rtw_xmitframe_coalesce(padapter, pxmitframe->pkt, pxmitframe) == _FALSE) {
++			RTW_INFO("%s coalesce failed\n", __func__);
++			rtw_free_xmitframe(pxmitpriv, pxmitframe);
++			continue;
++		}
++
++
++		/* always return ndis_packet after rtw_xmitframe_coalesce */
++		rtw_os_xmit_complete(padapter, pxmitframe);
++
++		/* (len - TXDESC_SIZE) == pxmitframe->attrib.last_txcmdsz */
++		update_txdesc(pxmitframe, pxmitframe->buf_addr, pxmitframe->attrib.last_txcmdsz, _TRUE);
++
++		/* don't need xmitframe any more */
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++
++		/* handle pointer and stop condition */
++		pbuf_tail = pbuf + len;
++		pbuf = _RND8(pbuf_tail);
++
++		pfirstframe->agg_num++;
++		if (MAX_TX_AGG_PACKET_NUMBER == pfirstframe->agg_num)
++			break;
++
++		if (pbuf < bulkPtr) {
++			descCount++;
++			if (descCount == pHalData->UsbTxAggDescNum)
++				break;
++		} else {
++			descCount = 0;
++			bulkPtr = ((pbuf / bulkSize) + 1) * bulkSize;
++		}
++	}
++	if (_rtw_queue_empty(&ptxservq->sta_pending) == _TRUE)
++		rtw_list_delete(&ptxservq->tx_pending);
++	else if (single_sta_in_queue == _FALSE) {
++		/* Re-arrange the order of stations in this ac queue to balance the service for these stations */
++		rtw_list_delete(&ptxservq->tx_pending);
++		rtw_list_insert_tail(&ptxservq->tx_pending, get_list_head(phwxmit->sta_queue));
++	}
++
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++	if ((pfirstframe->attrib.ether_type != 0x0806) &&
++	    (pfirstframe->attrib.ether_type != 0x888e) &&
++	    (pfirstframe->attrib.dhcp_pkt != 1))
++		rtw_issue_addbareq_cmd(padapter, pfirstframe);
++
++#ifndef CONFIG_USE_USB_BUFFER_ALLOC_TX
++	/* 3 3. update first frame txdesc */
++	if ((PACKET_OFFSET_SZ != 0)
++	    && (pbuf_tail % bulkSize) == 0) {
++		/* remove pkt_offset */
++		pbuf_tail -= PACKET_OFFSET_SZ;
++		pfirstframe->buf_addr += PACKET_OFFSET_SZ;
++		pfirstframe->pkt_offset = 0;
++	}
++#endif	/* CONFIG_USE_USB_BUFFER_ALLOC_TX */
++	update_txdesc(pfirstframe, pfirstframe->buf_addr, pfirstframe->attrib.last_txcmdsz, _TRUE);
++
++	/* 3 4. write xmit buffer to USB FIFO */
++	ff_hwaddr = rtw_get_ff_hwaddr(pfirstframe);
++
++	/* xmit address == ((xmit_frame*)pxmitbuf->priv_data)->buf_addr */
++	rtw_write_port(padapter, ff_hwaddr, pbuf_tail, (u8 *)pxmitbuf);
++
++
++	/* 3 5. update statisitc */
++	pbuf_tail -= (pfirstframe->agg_num * TXDESC_SIZE);
++	if (pfirstframe->pkt_offset == 1)
++		pbuf_tail -= PACKET_OFFSET_SZ;
++
++	rtw_count_tx_stats(padapter, pfirstframe, pbuf_tail);
++
++	rtw_free_xmitframe(pxmitpriv, pfirstframe);
++
++	return _TRUE;
++}
++
++#else
++
++s32 rtl8723du_xmitframe_complete(PADAPTER padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf)
++{
++
++	struct hw_xmit *phwxmits;
++	sint hwentry;
++	struct xmit_frame *pxmitframe = NULL;
++	int res = _SUCCESS, xcnt = 0;
++
++	phwxmits = pxmitpriv->hwxmits;
++	hwentry = pxmitpriv->hwxmit_entry;
++
++
++	if (pxmitbuf == NULL) {
++		pxmitbuf = rtw_alloc_xmitbuf(pxmitpriv);
++		if (!pxmitbuf)
++			return _FALSE;
++	}
++
++
++	do {
++		pxmitframe = rtw_dequeue_xframe(pxmitpriv, phwxmits, hwentry);
++
++		if (pxmitframe) {
++			pxmitframe->pxmitbuf = pxmitbuf;
++
++			pxmitframe->buf_addr = pxmitbuf->pbuf;
++
++			pxmitbuf->priv_data = pxmitframe;
++
++			if ((pxmitframe->frame_tag & 0x0f) == DATA_FRAMETAG) {
++				if (pxmitframe->attrib.priority <= 15) /* TID0~15 */
++					res = rtw_xmitframe_coalesce(padapter, pxmitframe->pkt, pxmitframe);
++
++				rtw_os_xmit_complete(padapter, pxmitframe); /* always return ndis_packet after rtw_xmitframe_coalesce */
++			}
++
++
++
++
++			if (res == _SUCCESS)
++				rtw_dump_xframe(padapter, pxmitframe);
++			else {
++				rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++				rtw_free_xmitframe(pxmitpriv, pxmitframe);
++			}
++
++			xcnt++;
++
++		} else {
++			rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++			return _FALSE;
++		}
++
++		break;
++
++	} while (0/*xcnt < (NR_XMITFRAME >> 3)*/);
++
++	return _TRUE;
++
++}
++#endif
++
++
++
++static s32 xmitframe_direct(PADAPTER padapter, struct xmit_frame *pxmitframe)
++{
++	s32 res = _SUCCESS;
++
++
++	res = rtw_xmitframe_coalesce(padapter, pxmitframe->pkt, pxmitframe);
++	if (res == _SUCCESS)
++		rtw_dump_xframe(padapter, pxmitframe);
++
++	return res;
++}
++
++/*
++ * Return
++ *	_TRUE	dump packet directly
++ *	_FALSE	enqueue packet
++ */
++static s32 pre_xmitframe(PADAPTER padapter, struct xmit_frame *pxmitframe)
++{
++	_irqL irqL;
++	s32 res;
++	struct xmit_buf *pxmitbuf = NULL;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++	if (rtw_txframes_sta_ac_pending(padapter, pattrib) > 0)
++		goto enqueue;
++
++	if (rtw_xmit_ac_blocked(padapter) == _TRUE)
++		goto enqueue;
++
++	if (padapter->dvobj->iface_state.lg_sta_num)
++		goto enqueue;
++
++	pxmitbuf = rtw_alloc_xmitbuf(pxmitpriv);
++	if (pxmitbuf == NULL)
++		goto enqueue;
++
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++	pxmitframe->pxmitbuf = pxmitbuf;
++	pxmitframe->buf_addr = pxmitbuf->pbuf;
++	pxmitbuf->priv_data = pxmitframe;
++
++	if (xmitframe_direct(padapter, pxmitframe) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++	}
++
++	return _TRUE;
++
++enqueue:
++	res = rtw_xmitframe_enqueue(padapter, pxmitframe);
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++	if (res != _SUCCESS) {
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++
++		pxmitpriv->tx_drop++;
++		return _TRUE;
++	}
++
++	return _FALSE;
++}
++
++s32 rtl8723du_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe)
++{
++	return rtw_dump_xframe(padapter, pmgntframe);
++}
++
++/*
++ * Return
++ *	_TRUE	dump packet directly ok
++ *	_FALSE	temporary can't transmit packets to hardware
++ */
++s32 rtl8723du_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe)
++{
++	return pre_xmitframe(padapter, pxmitframe);
++}
++
++s32 rtl8723du_hal_xmitframe_enqueue(PADAPTER padapter, struct xmit_frame *pxmitframe)
++{
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	s32 err;
++
++	err = rtw_xmitframe_enqueue(padapter, pxmitframe);
++	if (err != _SUCCESS) {
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++
++		pxmitpriv->tx_drop++;
++	} else {
++#ifdef PLATFORM_LINUX
++		tasklet_hi_schedule(&pxmitpriv->xmit_tasklet);
++#endif
++	}
++
++	return err;
++
++}
++
++void rtl8723d_cal_txdesc_chksum(struct tx_desc *ptxdesc)
++{
++	u16 *usPtr = (u16 *)ptxdesc;
++	u32 count;
++	u32 index;
++	u16 checksum = 0;
++
++
++	/* Clear first */
++	ptxdesc->txdw7 &= cpu_to_le32(0xffff0000);
++
++	/*
++	 * checksume is always calculated by first 32 bytes,
++	 * and it doesn't depend on TX DESC length.
++	 * Thomas,Lucas@SD4,20130515
++	 */
++	count = 16;
++	for (index = 0; index < count; index++)
++		checksum ^= le16_to_cpu(*(usPtr + index));
++
++	/* avoid zero checksum make tx hang */
++	checksum = ~checksum;
++
++	ptxdesc->txdw7 |= cpu_to_le32(checksum & 0x0000ffff);
++}
++
++#ifdef CONFIG_HOSTAPD_MLME
++
++static void rtl8723du_hostap_mgnt_xmit_cb(struct urb *urb)
++{
++#ifdef PLATFORM_LINUX
++	struct sk_buff *skb = (struct sk_buff *)urb->context;
++
++	/* RTW_INFO("%s\n", __func__); */
++
++	rtw_skb_free(skb);
++#endif
++}
++
++s32 rtl8723du_hostap_mgnt_xmit_entry(PADAPTER padapter, _pkt *pkt)
++{
++#ifdef PLATFORM_LINUX
++	u16 fc;
++	int rc, len, pipe;
++	unsigned int bmcst, tid, qsel;
++	struct sk_buff *skb, *pxmit_skb;
++	struct urb *urb;
++	unsigned char *pxmitbuf;
++	struct tx_desc *ptxdesc;
++	struct ieee80211_hdr *tx_hdr;
++	struct hostapd_priv *phostapdpriv = padapter->phostapdpriv;
++	struct net_device *pnetdev = padapter->pnetdev;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	struct dvobj_priv *pdvobj = adapter_to_dvobj(padapter);
++
++
++	/* RTW_INFO("%s\n", __func__); */
++
++	skb = pkt;
++
++	len = skb->len;
++	tx_hdr = (struct ieee80211_hdr *)(skb->data);
++	fc = le16_to_cpu(tx_hdr->frame_ctl);
++	bmcst = IS_MCAST(tx_hdr->addr1);
++
++	if ((fc & IEEE80211_FCTL_FTYPE) != IEEE80211_FTYPE_MGMT)
++		goto _exit;
++
++	pxmit_skb = rtw_skb_alloc(len + TXDESC_SIZE);
++
++	if (!pxmit_skb)
++		goto _exit;
++
++	pxmitbuf = pxmit_skb->data;
++
++	urb = usb_alloc_urb(0, GFP_ATOMIC);
++	if (!urb)
++		goto _exit;
++
++	/* ----- fill tx desc ----- */
++	ptxdesc = (struct tx_desc *)pxmitbuf;
++	_rtw_memset(ptxdesc, 0, sizeof(*ptxdesc));
++
++	/* offset 0 */
++	ptxdesc->txdw0 |= cpu_to_le32(len & 0x0000ffff);
++	ptxdesc->txdw0 |= cpu_to_le32(((TXDESC_SIZE + OFFSET_SZ) << OFFSET_SHT) & 0x00ff0000); /*default = 32 bytes for TX Desc */
++	ptxdesc->txdw0 |= cpu_to_le32(OWN | FSG | LSG);
++
++	if (bmcst)
++		ptxdesc->txdw0 |= cpu_to_le32(BIT(24));
++
++	/* offset 4 */
++	ptxdesc->txdw1 |= cpu_to_le32(0x00); /* MAC_ID */
++
++	ptxdesc->txdw1 |= cpu_to_le32((0x12 << QSEL_SHT) & 0x00001f00);
++
++	ptxdesc->txdw1 |= cpu_to_le32((0x06 << 16) & 0x000f0000); /* b mode */
++
++	/* offset 8 */
++
++	/* offset 12 */
++	ptxdesc->txdw3 |= cpu_to_le32((le16_to_cpu(tx_hdr->seq_ctl) << 16) & 0xffff0000);
++
++	/* offset 16 */
++	ptxdesc->txdw4 |= cpu_to_le32(BIT(8)); /* driver uses rate */
++
++	/* offset 20 */
++
++
++	/* HW append seq */
++	ptxdesc->txdw4 |= cpu_to_le32(BIT(7)); /* Hw set sequence number */
++	ptxdesc->txdw3 |= cpu_to_le32((8 << 28)); /* set bit3 to 1. Suugested by TimChen. 2009.12.29. */
++
++
++	rtl8723d_cal_txdesc_chksum(ptxdesc);
++	/* ----- end of fill tx desc ----- */
++
++	skb_put(pxmit_skb, len + TXDESC_SIZE);
++	pxmitbuf = pxmitbuf + TXDESC_SIZE;
++	_rtw_memcpy(pxmitbuf, skb->data, len);
++
++	/* RTW_INFO("mgnt_xmit, len=%x\n", pxmit_skb->len); */
++
++
++	/* ----- prepare urb for submit ----- */
++
++	/* translate DMA FIFO addr to pipehandle */
++	/* pipe = ffaddr2pipehdl(pdvobj, MGT_QUEUE_INX); */
++	pipe = usb_sndbulkpipe(pdvobj->pusbdev, pHalData->Queue2EPNum[(u8)MGT_QUEUE_INX] & 0x0f);
++
++	usb_fill_bulk_urb(urb, pdvobj->pusbdev, pipe,
++		pxmit_skb->data, pxmit_skb->len, rtl8723du_hostap_mgnt_xmit_cb, pxmit_skb);
++
++	urb->transfer_flags |= URB_ZERO_PACKET;
++	usb_anchor_urb(urb, &phostapdpriv->anchored);
++	rc = usb_submit_urb(urb, GFP_ATOMIC);
++	if (rc < 0) {
++		usb_unanchor_urb(urb);
++		kfree_skb(skb);
++	}
++	usb_free_urb(urb);
++
++
++_exit:
++
++	rtw_skb_free(skb);
++
++#endif
++
++	return 0;
++
++}
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/hal/rtl8723d/usb/usb_halinit.c b/drivers/net/wireless/rtl8723du/hal/rtl8723d/usb/usb_halinit.c
+new file mode 100644
+index 0000000..7dca485
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/rtl8723d/usb/usb_halinit.c
+@@ -0,0 +1,2490 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#define _USB_HALINIT_C_
++
++#include <rtl8723d_hal.h>
++#ifdef CONFIG_WOWLAN
++	#include "hal_com_h2c.h"
++#endif
++
++
++
++static void _dbg_dump_macreg(PADAPTER padapter)
++{
++	u32 offset = 0;
++	u32 val32 = 0;
++	u32 index = 0;
++
++	for (index = 0; index < 64; index++) {
++		offset = index * 4;
++		val32 = rtw_read32(padapter, offset);
++		RTW_INFO("offset : 0x%02x ,val:0x%08x\n", offset, val32);
++	}
++}
++
++static void
++_ConfigChipOutEP_8723(
++	IN PADAPTER padapter,
++	IN u8 NumOutPipe
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	pHalData->OutEpQueueSel = 0;
++	pHalData->OutEpNumber = 0;
++
++	switch (NumOutPipe) {
++	case 4:
++		pHalData->OutEpQueueSel = TX_SELE_HQ | TX_SELE_LQ | TX_SELE_NQ;
++		pHalData->OutEpNumber = 4;
++		break;
++	case 3:
++		pHalData->OutEpQueueSel = TX_SELE_HQ | TX_SELE_LQ | TX_SELE_NQ;
++		pHalData->OutEpNumber = 3;
++		break;
++	case 2:
++		pHalData->OutEpQueueSel = TX_SELE_HQ | TX_SELE_NQ;
++		pHalData->OutEpNumber = 2;
++		break;
++	case 1:
++		pHalData->OutEpQueueSel = TX_SELE_HQ;
++		pHalData->OutEpNumber = 1;
++		break;
++	default:
++		break;
++	}
++}
++
++static BOOLEAN HalUsbSetQueuePipeMapping8723DUsb(
++	IN PADAPTER padapter,
++	IN u8 NumInPipe,
++	IN u8 NumOutPipe
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	BOOLEAN result = _FALSE;
++
++	_ConfigChipOutEP_8723(padapter, NumOutPipe);
++
++	result = Hal_MappingOutPipe(padapter, NumOutPipe);
++
++	RTW_INFO("USB NumInPipe(%u), NumOutPipe(%u/%u)\n"
++		 , NumInPipe
++		 , pHalData->OutEpNumber
++		 , NumOutPipe);
++
++	return result;
++}
++
++void rtl8723du_interface_configure(
++	PADAPTER padapter
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	struct dvobj_priv *pdvobjpriv = adapter_to_dvobj(padapter);
++
++	if (IS_HIGH_SPEED_USB(padapter)) {
++		/* HIGH SPEED */
++		pHalData->UsbBulkOutSize = USB_HIGH_SPEED_BULK_SIZE; /* 512 bytes */
++	} else {
++		/* FULL SPEED */
++		pHalData->UsbBulkOutSize = USB_FULL_SPEED_BULK_SIZE; /* 64 bytes */
++	}
++
++	pHalData->interfaceIndex = pdvobjpriv->InterfaceNumber;
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	pHalData->UsbTxAggMode = 1;
++	pHalData->UsbTxAggDescNum = 0x6; /* only 4 bits */
++#endif
++
++#ifdef CONFIG_USB_RX_AGGREGATION
++	pHalData->UsbRxAggMode = USB_RX_AGG_USB;
++	pHalData->UsbRxAggBlockCount = 0x5; /* unit: 4KB, for USB mode */
++	pHalData->UsbRxAggBlockTimeout = 0x20; /* unit: 32us, for USB mode */
++	pHalData->UsbRxAggPageCount = 0xF; /* uint: 1KB, for DMA mode */
++	pHalData->UsbRxAggPageTimeout = 0x20; /* unit: 32us, for DMA mode */
++#endif
++
++	HalUsbSetQueuePipeMapping8723DUsb(padapter,
++			  pdvobjpriv->RtNumInPipes, pdvobjpriv->RtNumOutPipes);
++}
++
++#ifdef CONFIG_GPIO_WAKEUP
++/*
++ * we set it high under init and fw will
++ * give us Low Pulse when host wake up
++ */
++void HostWakeUpGpioClear(PADAPTER padapter)
++{
++	u32 value32;
++
++	value32 = rtw_read32(padapter, REG_GPIO_PIN_CTRL_2);
++
++	/* set GPIO 12 1 */
++	value32 |= BIT(12); /*4+8 */
++	/* GPIO 12 out put */
++	value32 |= BIT(20); /*4+16 */
++
++	rtw_write32(padapter, REG_GPIO_PIN_CTRL_2, value32);
++} /* HostWakeUpGpioClear */
++
++void HalSetOutPutGPIO(PADAPTER padapter, u8 index, u8 OutPutValue)
++{
++	if (index <= 7) {
++		/* config GPIO mode */
++		rtw_write8(padapter, REG_GPIO_PIN_CTRL + 3, rtw_read8(padapter, REG_GPIO_PIN_CTRL + 3) & ~BIT(index));
++
++		/* config GPIO Sel */
++		/* 0: input */
++		/* 1: output */
++		rtw_write8(padapter, REG_GPIO_PIN_CTRL + 2, rtw_read8(padapter, REG_GPIO_PIN_CTRL + 2) | BIT(index));
++
++		/* set output value */
++		if (OutPutValue)
++			rtw_write8(padapter, REG_GPIO_PIN_CTRL + 1, rtw_read8(padapter, REG_GPIO_PIN_CTRL + 1) | BIT(index));
++		else
++			rtw_write8(padapter, REG_GPIO_PIN_CTRL + 1, rtw_read8(padapter, REG_GPIO_PIN_CTRL + 1) & ~BIT(index));
++	} else {
++		/* 88C Series: */
++		/* index: 11~8 transform to 3~0 */
++		/* 8723 Series: */
++		/* index: 12~8 transform to 4~0 */
++		index -= 8;
++
++		/* config GPIO mode */
++		rtw_write8(padapter, REG_GPIO_PIN_CTRL_2 + 3, rtw_read8(padapter, REG_GPIO_PIN_CTRL_2 + 3) & ~BIT(index));
++
++		/* config GPIO Sel */
++		/* 0: input */
++		/* 1: output */
++		rtw_write8(padapter, REG_GPIO_PIN_CTRL_2 + 2, rtw_read8(padapter, REG_GPIO_PIN_CTRL_2 + 2) | BIT(index));
++
++		/* set output value */
++		if (OutPutValue)
++			rtw_write8(padapter, REG_GPIO_PIN_CTRL_2 + 1, rtw_read8(padapter, REG_GPIO_PIN_CTRL_2 + 1) | BIT(index));
++		else
++			rtw_write8(padapter, REG_GPIO_PIN_CTRL_2 + 1, rtw_read8(padapter, REG_GPIO_PIN_CTRL_2 + 1) & ~BIT(index));
++	}
++}
++#endif
++
++static u32 _InitPowerOn_8723du(PADAPTER padapter)
++{
++	u32 status = _SUCCESS;
++	u32 value32 = 0;
++	u16 value16 = 0;
++	u8 value8 = 0;
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_APFM_ON_MAC, &value8);
++	if (value8 == _TRUE)
++		return _SUCCESS;
++	/* HW Power on sequence */
++	if (!HalPwrSeqCmdParsing(padapter, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, rtl8723D_card_enable_flow))
++		return _FAIL;
++
++	/* Enable MAC DMA/WMAC/SCHEDULE/SEC block */
++	/* Set CR bit10 to enable 32k calibration. Suggested by SD1 Gimmy. Added by tynli. 2011.08.31. */
++	rtw_write16(padapter, REG_CR, 0x00);  /* suggseted by zhouzhou, by page, 20111230 */
++
++	value16 = rtw_read16(padapter, REG_CR);
++	value16 |= (HCI_TXDMA_EN | HCI_RXDMA_EN | TXDMA_EN | RXDMA_EN
++		    | PROTOCOL_EN | SCHEDULE_EN | ENSEC | CALTMR_EN);
++	rtw_write16(padapter, REG_CR, value16);
++
++	value8 = _TRUE;
++	rtw_hal_set_hwreg(padapter, HW_VAR_APFM_ON_MAC, &value8);
++
++#ifdef CONFIG_BT_COEXIST
++	rtw_btcoex_PowerOnSetting(padapter);
++
++	/* external switch to S1 */
++	/* 0x38[11] = 0x1 */
++	/* 0x4c[23] = 0x1 */
++	/* 0x64[0] = 0 */
++	value16 = rtw_read16(padapter, REG_PWR_DATA);
++
++	/* Switch the control of EESK, EECS to RFC for DPDT or Antenna switch */
++	value16 |= BIT(11); /* BIT_EEPRPAD_RFE_CTRL_EN */
++	rtw_write16(padapter, REG_PWR_DATA, value16);
++	/*RTW_INFO("%s: REG_PWR_DATA(0x%x)=0x%04X\n", __func__, REG_PWR_DATA, rtw_read16(padapter, REG_PWR_DATA)); */
++
++	value32 = rtw_read32(padapter, REG_LEDCFG0);
++	value32 |= BIT(23); /* DPDT_SEL_EN, 1 for SW control */
++	rtw_write32(padapter, REG_LEDCFG0, value32);
++	/*RTW_INFO("%s: REG_LEDCFG0(0x%x)=0x%08X\n", __func__, REG_LEDCFG0, rtw_read32(padapter, REG_LEDCFG0)); */
++
++	value8 = rtw_read8(padapter, REG_PAD_CTRL1_8723D);
++	value8 &= ~BIT(0); /* BIT_SW_DPDT_SEL_DATA, DPDT_SEL default configuration */
++	rtw_write8(padapter, REG_PAD_CTRL1_8723D, value8);
++	/*RTW_INFO("%s: REG_PAD_CTRL1(0x%x)=0x%02X\n", __func__, REG_PAD_CTRL1_8188F, rtw_read8(padapter, REG_PAD_CTRL1_8188F)); */
++#endif /* CONFIG_BT_COEXIST */
++
++	return status;
++}
++
++/*
++ * -------------------------------------------------------------------------
++ * LLT R/W/Init function
++ * -------------------------------------------------------------------------
++ */
++static u8 _LLTWrite(
++	IN PADAPTER padapter,
++	IN u32 address,
++	IN u32 data
++)
++{
++	u8 status = _SUCCESS;
++	s8 count = POLLING_LLT_THRESHOLD;
++	u32 value = _LLT_INIT_ADDR(address) | _LLT_INIT_DATA(data) | _LLT_OP(_LLT_WRITE_ACCESS);
++
++	rtw_write32(padapter, REG_LLT_INIT, value);
++
++	/* polling */
++	do {
++		value = rtw_read32(padapter, REG_LLT_INIT);
++		if (_LLT_NO_ACTIVE == _LLT_OP_VALUE(value))
++			break;
++	} while (--count);
++
++	if (count <= 0) {
++		RTW_INFO("Failed to polling write LLT done at address %d!\n", address);
++		status = _FAIL;
++	}
++	return status;
++}
++
++static u8 _LLTRead(
++	IN PADAPTER padapter,
++	IN u32 address
++)
++{
++	int count = 0;
++	u32 value = _LLT_INIT_ADDR(address) | _LLT_OP(_LLT_READ_ACCESS);
++
++	rtw_write32(padapter, REG_LLT_INIT, value);
++
++	/* polling and get value */
++	do {
++		value = rtw_read32(padapter, REG_LLT_INIT);
++		if (_LLT_NO_ACTIVE == _LLT_OP_VALUE(value))
++			return (u8)value;
++
++		if (count > POLLING_LLT_THRESHOLD) {
++			break;
++		}
++	} while (count++);
++
++	return 0xFF;
++}
++
++
++/*
++ * ---------------------------------------------------------------
++ * MAC init functions
++ * ---------------------------------------------------------------
++ */
++
++/*
++ * USB has no hardware interrupt,
++ * so no need to initialize HIMR.
++ */
++static void _InitInterrupt(PADAPTER padapter)
++{
++#ifdef CONFIG_SUPPORT_USB_INT
++	/* clear interrupt, write 1 clear */
++	rtw_write32(padapter, REG_HISR0_8723D, 0xFFFFFFFF);
++	rtw_write32(padapter, REG_HISR1_8723D, 0xFFFFFFFF);
++#endif /* CONFIG_SUPPORT_USB_INT */
++}
++
++static void _InitQueueReservedPage(PADAPTER padapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	u32 outEPNum = (u32)pHalData->OutEpNumber;
++	u32 numHQ = 0;
++	u32 numLQ = 0;
++	u32 numNQ = 0;
++	u32 numPubQ;
++	u32 value32;
++	u8 value8;
++	BOOLEAN bWiFiConfig = pregistrypriv->wifi_spec;
++
++	if (pHalData->OutEpQueueSel & TX_SELE_HQ)
++		numHQ = bWiFiConfig ? WMM_NORMAL_PAGE_NUM_HPQ_8723D : NORMAL_PAGE_NUM_HPQ_8723D;
++
++	if (pHalData->OutEpQueueSel & TX_SELE_LQ)
++		numLQ = bWiFiConfig ? WMM_NORMAL_PAGE_NUM_LPQ_8723D : NORMAL_PAGE_NUM_LPQ_8723D;
++
++	/* NOTE: This step shall be proceed before writing REG_RQPN. */
++	if (pHalData->OutEpQueueSel & TX_SELE_NQ)
++		numNQ = bWiFiConfig ? WMM_NORMAL_PAGE_NUM_NPQ_8723D : NORMAL_PAGE_NUM_NPQ_8723D;
++	value8 = (u8)_NPQ(numNQ);
++	rtw_write8(padapter, REG_RQPN_NPQ, value8);
++
++	numPubQ = TX_TOTAL_PAGE_NUMBER_8723D - numHQ - numLQ - numNQ;
++
++	/* TX DMA */
++	value32 = _HPQ(numHQ) | _LPQ(numLQ) | _PUBQ(numPubQ) | LD_RQPN;
++	rtw_write32(padapter, REG_RQPN, value32);
++
++}
++
++static void _InitTRxBufferBoundary(PADAPTER padapter)
++{
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++#ifdef CONFIG_CONCURRENT_MODE
++	u8 val8;
++#endif /* CONFIG_CONCURRENT_MODE */
++
++	/* u16	txdmactrl; */
++	u8 txpktbuf_bndy;
++
++	if (!pregistrypriv->wifi_spec)
++		txpktbuf_bndy = TX_PAGE_BOUNDARY_8723D;
++	else {
++		/* for WMM */
++		txpktbuf_bndy = WMM_NORMAL_TX_PAGE_BOUNDARY_8723D;
++	}
++
++	rtw_write8(padapter, REG_TXPKTBUF_BCNQ_BDNY_8723D, txpktbuf_bndy);
++	rtw_write8(padapter, REG_TXPKTBUF_MGQ_BDNY_8723D, txpktbuf_bndy);
++	rtw_write8(padapter, REG_TXPKTBUF_WMAC_LBK_BF_HD_8723D, txpktbuf_bndy);
++	rtw_write8(padapter, REG_TRXFF_BNDY, txpktbuf_bndy);
++	rtw_write8(padapter, REG_TDECTRL + 1, txpktbuf_bndy);
++
++	/* RX Page Boundary */
++	rtw_write16(padapter, REG_TRXFF_BNDY + 2, RX_DMA_BOUNDARY_8723D);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	val8 = txpktbuf_bndy + 8;
++	rtw_write8(padapter, REG_BCNQ1_BDNY, val8);
++	rtw_write8(padapter, REG_DWBCN1_CTRL_8723D + 1, val8); /* BCN1_HEAD */
++
++	val8 = rtw_read8(padapter, REG_DWBCN1_CTRL_8723D + 2);
++	val8 |= BIT(1); /* BIT1- BIT_SW_BCN_SEL_EN */
++	rtw_write8(padapter, REG_DWBCN1_CTRL_8723D + 2, val8);
++#endif /* CONFIG_CONCURRENT_MODE */
++}
++
++
++void
++_InitTransferPageSize_8723du(
++	PADAPTER padapter
++)
++{
++
++	u1Byte value8;
++
++	value8 = _PSRX(PBP_256) | _PSTX(PBP_256);
++
++	rtw_write8(padapter, REG_PBP, value8);
++}
++
++
++static void
++_InitNormalChipRegPriority(
++	IN PADAPTER padapter,
++	IN u16 beQ,
++	IN u16 bkQ,
++	IN u16 viQ,
++	IN u16 voQ,
++	IN u16 mgtQ,
++	IN u16 hiQ
++)
++{
++	u16 value16 = (rtw_read16(padapter, REG_TRXDMA_CTRL) & 0x7);
++
++	value16 |= _TXDMA_BEQ_MAP(beQ) | _TXDMA_BKQ_MAP(bkQ) |
++		   _TXDMA_VIQ_MAP(viQ) | _TXDMA_VOQ_MAP(voQ) |
++		   _TXDMA_MGQ_MAP(mgtQ) | _TXDMA_HIQ_MAP(hiQ);
++
++	rtw_write16(padapter, REG_TRXDMA_CTRL, value16);
++}
++
++
++static void
++_InitNormalChipTwoOutEpPriority(
++	IN PADAPTER padapter
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	u16 beQ, bkQ, viQ, voQ, mgtQ, hiQ;
++
++	u16 valueHi = 0;
++	u16 valueLow = 0;
++
++	switch (pHalData->OutEpQueueSel) {
++	case (TX_SELE_HQ | TX_SELE_LQ):
++		valueHi = QUEUE_HIGH;
++		valueLow = QUEUE_LOW;
++		break;
++	case (TX_SELE_NQ | TX_SELE_LQ):
++		valueHi = QUEUE_NORMAL;
++		valueLow = QUEUE_LOW;
++		break;
++	case (TX_SELE_HQ | TX_SELE_NQ):
++		valueHi = QUEUE_HIGH;
++		valueLow = QUEUE_NORMAL;
++		break;
++	default:
++		/* RT_ASSERT(FALSE,("Shall not reach here!\n")); */
++		break;
++	}
++
++	if (!pregistrypriv->wifi_spec) {
++		beQ = valueLow;
++		bkQ = valueLow;
++		viQ = valueHi;
++		voQ = valueHi;
++		mgtQ = valueHi;
++		hiQ = valueHi;
++	} else { /* for WMM ,CONFIG_OUT_EP_WIFI_MODE */
++		beQ = valueLow;
++		bkQ = valueHi;
++		viQ = valueHi;
++		voQ = valueLow;
++		mgtQ = valueHi;
++		hiQ = valueHi;
++	}
++
++	_InitNormalChipRegPriority(padapter, beQ, bkQ, viQ, voQ, mgtQ, hiQ);
++
++}
++
++static void
++_InitNormalChipThreeOutEpPriority(
++	IN PADAPTER padapter
++)
++{
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	u16 beQ, bkQ, viQ, voQ, mgtQ, hiQ;
++
++	if (!pregistrypriv->wifi_spec) { /* typical setting */
++		beQ = QUEUE_LOW;
++		bkQ = QUEUE_LOW;
++		viQ = QUEUE_NORMAL;
++		voQ = QUEUE_HIGH;
++		mgtQ = QUEUE_HIGH;
++		hiQ = QUEUE_HIGH;
++	} else { /* for WMM */
++		beQ = QUEUE_LOW;
++		bkQ = QUEUE_NORMAL;
++		viQ = QUEUE_NORMAL;
++		voQ = QUEUE_HIGH;
++		mgtQ = QUEUE_HIGH;
++		hiQ = QUEUE_HIGH;
++	}
++	_InitNormalChipRegPriority(padapter, beQ, bkQ, viQ, voQ, mgtQ, hiQ);
++}
++
++static void _InitQueuePriority(PADAPTER padapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	switch (pHalData->OutEpNumber) {
++	case 2:
++		_InitNormalChipTwoOutEpPriority(padapter);
++		break;
++	case 3:
++	case 4:
++		_InitNormalChipThreeOutEpPriority(padapter);
++		break;
++	default:
++		/* RT_ASSERT(FALSE,("Shall not reach here!\n")); */
++		break;
++	}
++
++}
++
++static void
++_InitHardwareDropIncorrectBulkOut(
++	IN PADAPTER padapter
++)
++{
++	u32 value32 = rtw_read32(padapter, REG_TXDMA_OFFSET_CHK);
++
++	value32 |= DROP_DATA_EN;
++
++	rtw_write32(padapter, REG_TXDMA_OFFSET_CHK, value32);
++}
++
++static void
++_InitNetworkType(
++	IN PADAPTER padapter
++)
++{
++	u32 value32;
++
++	value32 = rtw_read32(padapter, REG_CR);
++
++	/* TODO: use the other function to set network type */
++#if 0 /* RTL8191C_FPGA_NETWORKTYPE_ADHOC */
++	value32 = (value32 & ~MASK_NETTYPE) | _NETTYPE(NT_LINK_AD_HOC);
++#else
++	value32 = (value32 & ~MASK_NETTYPE) | _NETTYPE(NT_LINK_AP);
++#endif
++	rtw_write32(padapter, REG_CR, value32);
++	/* RASSERT(pIoBase->rtw_read8(REG_CR + 2) == 0x2); */
++}
++
++
++static void
++_InitDriverInfoSize(
++	IN PADAPTER padapter,
++	IN u8 drvInfoSize
++)
++{
++	u8 value8;
++
++	/* BIT_DRVINFO_SZ [3:0] */
++	value8 = rtw_read8(padapter, REG_RX_DRVINFO_SZ) & 0xF8;
++	value8 |= drvInfoSize;
++	rtw_write8(padapter, REG_RX_DRVINFO_SZ, value8);
++}
++
++static void
++_InitWMACSetting(
++	IN PADAPTER padapter
++)
++{
++	u16 value16;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	pHalData->ReceiveConfig = RCR_APM | RCR_AM | RCR_AB | RCR_CBSSID_DATA | RCR_CBSSID_BCN | RCR_APP_ICV | RCR_AMF | RCR_HTC_LOC_CTRL | RCR_APP_MIC | RCR_APP_PHYST_RXFF;
++
++	rtw_write32(padapter, REG_RCR, pHalData->ReceiveConfig);
++
++	/* Accept all data frames */
++	value16 = 0xFFFF;
++	rtw_write16(padapter, REG_RXFLTMAP2_8723D, value16);
++
++	/* 2010.09.08 hpfan */
++	/* Since ADF is removed from RCR, ps-poll will not be indicate to driver, */
++	/* RxFilterMap should mask ps-poll to gurantee AP mode can rx ps-poll. */
++
++	value16 = 0x400;
++	rtw_write16(padapter, REG_RXFLTMAP1_8723D, value16);
++
++	/* Accept all management frames */
++	value16 = 0xFFFF;
++	rtw_write16(padapter, REG_RXFLTMAP0_8723D, value16);
++
++}
++
++static void
++_InitAdaptiveCtrl(
++	IN PADAPTER padapter
++)
++{
++	u16 value16;
++	u32 value32;
++
++	/* Response Rate Set */
++	value32 = rtw_read32(padapter, REG_RRSR);
++	value32 &= ~RATE_BITMAP_ALL;
++	value32 |= RATE_RRSR_CCK_ONLY_1M;
++	rtw_write32(padapter, REG_RRSR, value32);
++
++	/* CF-END Threshold */
++	/* m_spIoBase->rtw_write8(REG_CFEND_TH, 0x1); */
++
++	/* SIFS (used in NAV) */
++	value16 = _SPEC_SIFS_CCK(0x10) | _SPEC_SIFS_OFDM(0x10);
++	rtw_write16(padapter, REG_SPEC_SIFS, value16);
++
++	/* Retry Limit */
++	value16 = _LRL(0x30) | _SRL(0x30);
++	rtw_write16(padapter, REG_RL, value16);
++
++}
++
++static void
++_InitRateFallback(
++	IN PADAPTER padapter
++)
++{
++	/* Set Data Auto Rate Fallback Retry Count register. */
++	rtw_write32(padapter, REG_DARFRC, 0x00000000);
++	rtw_write32(padapter, REG_DARFRC + 4, 0x10080404);
++	rtw_write32(padapter, REG_RARFRC, 0x04030201);
++	rtw_write32(padapter, REG_RARFRC + 4, 0x08070605);
++
++}
++
++
++static void
++_InitEDCA(
++	IN PADAPTER padapter
++)
++{
++	/* Set Spec SIFS (used in NAV) */
++	rtw_write16(padapter, REG_SPEC_SIFS, 0x100a);
++	rtw_write16(padapter, REG_MAC_SPEC_SIFS, 0x100a);
++
++	/* Set SIFS for CCK */
++	rtw_write16(padapter, REG_SIFS_CTX, 0x100a);
++
++	/* Set SIFS for OFDM */
++	rtw_write16(padapter, REG_SIFS_TRX, 0x100a);
++
++	/* TXOP */
++	rtw_write32(padapter, REG_EDCA_BE_PARAM, 0x005EA42B);
++	rtw_write32(padapter, REG_EDCA_BK_PARAM, 0x0000A44F);
++	rtw_write32(padapter, REG_EDCA_VI_PARAM, 0x005EA324);
++	rtw_write32(padapter, REG_EDCA_VO_PARAM, 0x002FA226);
++
++}
++
++#ifdef CONFIG_LED
++static void _InitHWLed(PADAPTER padapter)
++{
++	struct led_priv *pledpriv = &(padapter->ledpriv);
++
++	if (pledpriv->LedStrategy != HW_LED)
++		return;
++
++	/* HW led control */
++	/* to do .... */
++	/* must consider cases of antenna diversity/ commbo card/solo card/mini card */
++
++}
++#endif /* CONFIG_LED */
++
++static void
++_InitRDGSetting_8723du(
++	IN PADAPTER padapter
++)
++{
++	rtw_write8(padapter, REG_RD_CTRL_8723D, 0xFF);
++	rtw_write16(padapter, REG_RD_NAV_NXT_8723D, 0x200);
++	rtw_write8(padapter, REG_RD_RESP_PKT_TH_8723D, 0x05);
++}
++
++static void
++_InitRetryFunction(
++	IN PADAPTER padapter
++)
++{
++	u8 value8;
++
++	value8 = rtw_read8(padapter, REG_FWHW_TXQ_CTRL);
++	value8 |= EN_AMPDU_RTY_NEW;
++	rtw_write8(padapter, REG_FWHW_TXQ_CTRL, value8);
++
++	/* Set ACK timeout */
++	rtw_write8(padapter, REG_ACKTO, 0x40);
++}
++
++static void _InitBurstPktLen(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++	u8 tmp8;
++
++
++	tmp8 = rtw_read8(padapter, REG_RXDMA_MODE_CTRL_8723D);
++	tmp8 &= ~(BIT(4) | BIT(5));
++	switch (pHalData->UsbBulkOutSize) {
++	case USB_HIGH_SPEED_BULK_SIZE:
++		tmp8 |= BIT(4); /* set burst pkt len=512B */
++		break;
++	case USB_FULL_SPEED_BULK_SIZE:
++	default:
++		tmp8 |= BIT(5); /* set burst pkt len=64B */
++		break;
++	}
++	tmp8 |= BIT(1) | BIT(2) | BIT(3);
++	rtw_write8(padapter, REG_RXDMA_MODE_CTRL_8723D, tmp8);
++
++	pHalData->bSupportUSB3 = _FALSE;
++
++	tmp8 = rtw_read8(padapter, REG_HT_SINGLE_AMPDU_8723D);
++	tmp8 |= BIT(7); /* enable single pkt ampdu */
++	rtw_write8(padapter, REG_HT_SINGLE_AMPDU_8723D, tmp8);
++	rtw_write16(padapter, REG_MAX_AGGR_NUM, 0x0C14);
++	rtw_write8(padapter, REG_AMPDU_MAX_TIME_8723D, 0x5E);
++	rtw_write32(padapter, REG_AMPDU_MAX_LENGTH_8723D, 0xffffffff);
++	if (pHalData->AMPDUBurstMode)
++		rtw_write8(padapter, REG_AMPDU_BURST_MODE_8723D, 0x5F);
++
++	/* for VHT packet length 11K */
++	rtw_write8(padapter, REG_RX_PKT_LIMIT, 0x18);
++
++	rtw_write8(padapter, REG_PIFS, 0x00);
++	rtw_write8(padapter, REG_FWHW_TXQ_CTRL, 0x80);
++	rtw_write32(padapter, REG_FAST_EDCA_CTRL, 0x03086666);
++
++	/* to prevent mac is reseted by bus. 20111208, by Page */
++	tmp8 = rtw_read8(padapter, REG_RSV_CTRL);
++	tmp8 |= BIT(5) | BIT(6);
++	rtw_write8(padapter, REG_RSV_CTRL, tmp8);
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	usb_AggSettingTxUpdate()
++ *
++ * Overview:	Separate TX/RX parameters update independent for TP detection and
++ *			dynamic TX/RX aggreagtion parameters update.
++ *
++ * Input:			PADAPTER
++ *
++ * Output/Return:	NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	12/10/2010	MHC		Separate to smaller function.
++ *
++ *---------------------------------------------------------------------------*/
++static void
++usb_AggSettingTxUpdate(
++	IN PADAPTER padapter
++)
++{
++#ifdef CONFIG_USB_TX_AGGREGATION
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	u32 value32;
++
++	if (padapter->registrypriv.wifi_spec)
++		pHalData->UsbTxAggMode = _FALSE;
++
++	if (pHalData->UsbTxAggMode) {
++		value32 = rtw_read32(padapter, REG_DWBCN0_CTRL_8723D);
++		value32 = value32 & ~(BLK_DESC_NUM_MASK << BLK_DESC_NUM_SHIFT);
++		value32 |= ((pHalData->UsbTxAggDescNum & BLK_DESC_NUM_MASK) << BLK_DESC_NUM_SHIFT);
++
++		rtw_write32(padapter, REG_DWBCN0_CTRL_8723D, value32);
++		rtw_write8(padapter, REG_DWBCN1_CTRL_8723D, pHalData->UsbTxAggDescNum << 1);
++	}
++#endif
++}   /* usb_AggSettingTxUpdate */
++
++
++/*-----------------------------------------------------------------------------
++ * Function:	usb_AggSettingRxUpdate()
++ *
++ * Overview:	Separate TX/RX parameters update independent for TP detection and
++ *			dynamic TX/RX aggreagtion parameters update.
++ *
++ * Input:			PADAPTER
++ *
++ * Output/Return:	NONE
++ *
++ *---------------------------------------------------------------------------*/
++static void
++usb_AggSettingRxUpdate(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData;
++	u8 aggctrl;
++	u32 aggrx;
++	u32 agg_size;
++
++	pHalData = GET_HAL_DATA(padapter);
++
++	aggctrl = rtw_read8(padapter, REG_TRXDMA_CTRL);
++	aggctrl &= ~RXDMA_AGG_EN;
++
++	aggrx = rtw_read32(padapter, REG_RXDMA_AGG_PG_TH);
++	aggrx &= ~BIT_USB_RXDMA_AGG_EN;
++	aggrx &= ~0xFF0F; /* reset agg size and timeout */
++
++#ifdef CONFIG_USB_RX_AGGREGATION
++	switch (pHalData->UsbRxAggMode) {
++	case USB_RX_AGG_DMA:
++		agg_size = pHalData->UsbRxAggPageCount << 10;
++		if (agg_size > RX_DMA_BOUNDARY_8723D)
++			agg_size = RX_DMA_BOUNDARY_8723D >> 1;
++		if ((agg_size + 2048) > MAX_RECVBUF_SZ)
++			agg_size = MAX_RECVBUF_SZ - 2048;
++		agg_size >>= 10; /* unit: 1K */
++		if (agg_size > 0xF)
++			agg_size = 0xF;
++
++		aggctrl |= RXDMA_AGG_EN;
++		aggrx |= BIT_USB_RXDMA_AGG_EN;
++		aggrx |= agg_size;
++		aggrx |= (pHalData->UsbRxAggPageTimeout << 8);
++		RTW_INFO("%s: RX Agg-DMA mode, size=%dKB, timeout=%dus\n",
++			__func__, agg_size, pHalData->UsbRxAggPageTimeout * 32);
++		break;
++
++	case USB_RX_AGG_USB:
++	case USB_RX_AGG_MIX:
++		agg_size = pHalData->UsbRxAggBlockCount << 12;
++		if ((agg_size + 2048) > MAX_RECVBUF_SZ)
++			agg_size = MAX_RECVBUF_SZ - 2048;
++		agg_size >>= 12; /* unit: 4K */
++		if (agg_size > 0xF)
++			agg_size = 0xF;
++
++		aggctrl |= RXDMA_AGG_EN;
++		aggrx &= ~BIT_USB_RXDMA_AGG_EN;
++		aggrx |= agg_size;
++		aggrx |= (pHalData->UsbRxAggBlockTimeout << 8);
++		RTW_INFO("%s: RX Agg-USB mode, size=%dKB, timeout=%dus\n",
++			__func__, agg_size * 4, pHalData->UsbRxAggBlockTimeout * 32);
++		break;
++
++	case USB_RX_AGG_DISABLE:
++	default:
++		RTW_INFO("%s: RX Aggregation Disable!\n", __func__);
++		break;
++	}
++#endif /* CONFIG_USB_RX_AGGREGATION */
++
++	rtw_write8(padapter, REG_TRXDMA_CTRL, aggctrl);
++	rtw_write32(padapter, REG_RXDMA_AGG_PG_TH, aggrx);
++}
++
++static void
++_initUsbAggregationSetting(
++	IN PADAPTER padapter
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	/* Tx aggregation setting */
++	usb_AggSettingTxUpdate(padapter);
++
++	/* Rx aggregation setting */
++	usb_AggSettingRxUpdate(padapter);
++
++	/* 201/12/10 MH Add for USB agg mode dynamic switch. */
++	pHalData->UsbRxHighSpeedMode = _FALSE;
++}
++
++static void
++PHY_InitAntennaSelection8723D(
++	PADAPTER padapter
++)
++{
++}
++
++static void _InitAdhocWorkaroundParams(IN PADAPTER padapter)
++{
++#ifdef CONFIG_ADHOC_WORKAROUND_SETTING
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	pHalData->RegBcnCtrlVal = rtw_read8(padapter, REG_BCN_CTRL);
++	pHalData->RegTxPause = rtw_read8(padapter, REG_TXPAUSE);
++	pHalData->RegFwHwTxQCtrl = rtw_read8(padapter, REG_FWHW_TXQ_CTRL + 2);
++	pHalData->RegReg542 = rtw_read8(padapter, REG_TBTT_PROHIBIT + 2);
++#endif
++}
++
++static void
++_InitRFType(
++	IN PADAPTER Adapter
++)
++{
++	struct registry_priv *pregpriv = &Adapter->registrypriv;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++
++#if	DISABLE_BB_RF
++	pHalData->rf_chip = RF_PSEUDO_11N;
++	pHalData->rf_type = RF_1T1R;
++	return;
++#endif
++
++	pHalData->rf_chip = RF_6052;
++	pHalData->rf_type = RF_1T1R;
++
++	RTW_INFO("Set RF Chip ID to RF_6052 and RF type to %d.\n", pHalData->rf_type);
++}
++
++/* Set CCK and OFDM Block "ON" */
++static void _BBTurnOnBlock(
++	IN PADAPTER padapter
++)
++{
++#if (DISABLE_BB_RF)
++	return;
++#endif
++
++	PHY_SetBBReg(padapter, rFPGA0_RFMOD, bCCKEn, 0x1);
++	PHY_SetBBReg(padapter, rFPGA0_RFMOD, bOFDMEn, 0x1);
++}
++
++#define MgntActSet_RF_State(...)
++
++enum {
++	Antenna_Lfet = 1,
++	Antenna_Right = 2,
++};
++
++/* 2010/08/09 MH Add for power down check. */
++static BOOLEAN
++HalDetectPwrDownMode(
++	IN PADAPTER padapter
++)
++{
++	u8 tmpvalue;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++
++	EFUSE_ShadowRead(padapter, 1, EEPROM_FEATURE_OPTION_8723D, (u32 *)&tmpvalue);
++
++	if (tmpvalue & BIT(4) && pwrctrlpriv->reg_pdnmode)
++		pHalData->pwrdown = _TRUE;
++	else
++		pHalData->pwrdown = _FALSE;
++
++	RTW_INFO("%s(): PDN=%d\n", __func__, pHalData->pwrdown);
++	return pHalData->pwrdown;
++}   /* HalDetectPwrDownMode */
++
++
++/*
++ * 2010/08/26 MH Add for selective suspend mode check.
++ * If Efuse 0x0e bit1 is not enabled, we can not support selective suspend for Minicard and
++ * slim card.
++ */
++static void
++HalDetectSelectiveSuspendMode(
++	IN PADAPTER padapter
++)
++{
++#if 0   /* amyma */
++	u8 tmpvalue;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	struct dvobj_priv *pdvobjpriv = adapter_to_dvobj(padapter);
++
++	/* If support HW radio detect, we need to enable WOL ability, otherwise, we */
++	/* can not use FW to notify host the power state switch. */
++
++	EFUSE_ShadowRead(padapter, 1, EEPROM_USB_OPTIONAL1, (u32 *)&tmpvalue);
++
++	RTW_INFO("HalDetectSelectiveSuspendMode(): SS ");
++	if (tmpvalue & BIT(1))
++		RTW_INFO("Enable\n");
++	else {
++		RTW_INFO("Disable\n");
++		pdvobjpriv->RegUsbSS = _FALSE;
++	}
++
++	/* 2010/09/01 MH According to Dongle Selective Suspend INF. We can switch SS mode. */
++	if (pdvobjpriv->RegUsbSS && !SUPPORT_HW_RADIO_DETECT(pHalData)) {
++		/*PMGNT_INFO				pMgntInfo = &(padapter->MgntInfo); */
++
++		/*if (!pMgntInfo->bRegDongleSS) */
++		/*{ */
++		pdvobjpriv->RegUsbSS = _FALSE;
++		/*} */
++	}
++#endif
++}   /* HalDetectSelectiveSuspendMode */
++
++/*-----------------------------------------------------------------------------
++ * Function:	HwSuspendModeEnable()
++ *
++ * Overview:	HW suspend mode switch.
++ *
++ * Input:		NONE
++ *
++ * Output:	NONE
++ *
++ * Return:	NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	08/23/2010	MHC		HW suspend mode switch test..
++ *---------------------------------------------------------------------------*/
++static void
++HwSuspendModeEnable(
++	IN PADAPTER padapter,
++	IN u8 Type
++)
++{
++	/* PRT_USB_DEVICE pDevice = GET_RT_USB_DEVICE(padapter); */
++	u16 reg = rtw_read16(padapter, REG_GPIO_MUXCFG);
++
++	/* if (!pDevice->RegUsbSS) */
++	{
++		return;
++	}
++
++	/*
++	 * 2010/08/23 MH According to Alfred's suggestion, we need to to prevent HW
++	 * to enter suspend mode automatically. Otherwise, it will shut down major power
++	 * domain and 8051 will stop. When we try to enter selective suspend mode, we
++	 * need to prevent HW to enter D2 mode aumotmatically. Another way, Host will
++	 * issue a S10 signal to power domain. Then it will cleat SIC setting(from Yngli).
++	 * We need to enable HW suspend mode when enter S3/S4 or disable. We need
++	 * to disable HW suspend mode for IPS/radio_off.
++	 */
++	if (Type == _FALSE) {
++		reg |= BIT(14);
++		rtw_write16(padapter, REG_GPIO_MUXCFG, reg);
++		reg |= BIT(12);
++		rtw_write16(padapter, REG_GPIO_MUXCFG, reg);
++	} else {
++		reg &= (~BIT(12));
++		rtw_write16(padapter, REG_GPIO_MUXCFG, reg);
++		reg &= (~BIT(14));
++		rtw_write16(padapter, REG_GPIO_MUXCFG, reg);
++	}
++
++}   /* HwSuspendModeEnable */
++
++rt_rf_power_state RfOnOffDetect(IN PADAPTER padapter)
++{
++	/* HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter); */
++	u8 val8;
++	rt_rf_power_state rfpowerstate = rf_off;
++
++	if (adapter_to_pwrctl(padapter)->bHWPowerdown) {
++		val8 = rtw_read8(padapter, REG_HSISR);
++		RTW_INFO("pwrdown, 0x5c(BIT(7))=%02x\n", val8);
++		rfpowerstate = (val8 & BIT(7)) ? rf_off : rf_on;
++	} else { /* rf on/off */
++		rtw_write8(padapter, REG_MAC_PINMUX_CFG, rtw_read8(padapter, REG_MAC_PINMUX_CFG) & ~(BIT(3)));
++		val8 = rtw_read8(padapter, REG_GPIO_IO_SEL);
++		RTW_INFO("GPIO_IN=%02x\n", val8);
++		rfpowerstate = (val8 & BIT(3)) ? rf_on : rf_off;
++	}
++	return rfpowerstate;
++}   /* HalDetectPwrDownMode */
++
++void _InitBBRegBackup_8723du(PADAPTER padapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	/* For Channel 1~11 (Default Value)*/
++	pHalData->RegForRecover[0].offset = rCCK0_TxFilter2;
++	pHalData->RegForRecover[0].value =
++		PHY_QueryBBReg(padapter,
++			       pHalData->RegForRecover[0].offset, bMaskDWord);
++
++	pHalData->RegForRecover[1].offset = rCCK0_DebugPort;
++	pHalData->RegForRecover[1].value =
++		PHY_QueryBBReg(padapter,
++			       pHalData->RegForRecover[1].offset, bMaskDWord);
++
++	pHalData->RegForRecover[2].offset = 0xAAC;
++	pHalData->RegForRecover[2].value =
++		PHY_QueryBBReg(padapter,
++			       pHalData->RegForRecover[2].offset, bMaskDWord);
++#if 0
++	/* For 20 MHz	(Default Value)*/
++	pHalData->RegForRecover[2].offset = rBBrx_DFIR;
++	pHalData->RegForRecover[2].value = PHY_QueryBBReg(padapter, pHalData->RegForRecover[2].offset, bMaskDWord);
++
++	pHalData->RegForRecover[3].offset = rOFDM0_XATxAFE;
++	pHalData->RegForRecover[3].value = PHY_QueryBBReg(padapter, pHalData->RegForRecover[3].offset, bMaskDWord);
++
++	pHalData->RegForRecover[4].offset = 0x1E;
++	pHalData->RegForRecover[4].value = PHY_QueryRFReg(padapter, ODM_RF_PATH_A, pHalData->RegForRecover[4].offset, bRFRegOffsetMask);
++#endif
++}
++
++u32 rtl8723du_hal_init(PADAPTER padapter)
++{
++	u8 value8 = 0, u1bRegCR;
++	u32 status = _SUCCESS;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	rt_rf_power_state eRfPowerStateToSet;
++	u32 NavUpper = WiFiNavUpperUs;
++	u32 value32;
++	u32 init_start_time = rtw_get_current_time();
++
++
++	/* if (rtw_is_surprise_removed(padapter)) */
++	/*	return RT_STATUS_FAILURE; */
++
++	/* Check if MAC has already power on. */
++	/* set usb timeout to fix read mac register fail before power on */
++	rtw_write8(padapter, 0xFE4C /*REG_USB_ACCESS_TIMEOUT*/, 0x80);
++	value8 = rtw_read8(padapter, REG_SYS_CLKR_8723D + 1);
++	u1bRegCR = rtw_read8(padapter, REG_CR);
++	RTW_INFO(" power-on :REG_SYS_CLKR 0x09=0x%02x. REG_CR 0x100=0x%02x.\n", value8, u1bRegCR);
++	if ((value8 & BIT(3)) && (u1bRegCR != 0 && u1bRegCR != 0xEA))
++		RTW_INFO(" MAC has already power on.\n");
++	else {
++		/* Set FwPSState to ALL_ON mode to prevent from the I/O be return because of 32k */
++		/* state which is set before sleep under wowlan mode. 2012.01.04. by tynli. */
++		RTW_INFO(" MAC has not been powered on yet.\n");
++	}
++
++#ifdef CONFIG_WOWLAN
++	if (rtw_read8(padapter, REG_MCUFWDL) & BIT(7) &&
++	    (pwrctrlpriv->wowlan_wake_reason & FW_DECISION_DISCONNECT)) {
++		u8 reg_val = 0;
++
++		RTW_INFO("+Reset Entry+\n");
++		rtw_write8(padapter, REG_MCUFWDL, 0x00);
++		_8051Reset8723(padapter);
++		/* reset BB */
++		reg_val = rtw_read8(padapter, REG_SYS_FUNC_EN);
++		reg_val &= ~(BIT(0) | BIT(1));
++		rtw_write8(padapter, REG_SYS_FUNC_EN, reg_val);
++		/* reset RF */
++		rtw_write8(padapter, REG_RF_CTRL, 0);
++		/* reset TRX path */
++		rtw_write16(padapter, REG_CR, 0);
++		/* reset MAC, Digital Core */
++		reg_val = rtw_read8(padapter, REG_SYS_FUNC_EN + 1);
++		reg_val &= ~(BIT(4) | BIT(7));
++		rtw_write8(padapter, REG_SYS_FUNC_EN + 1, reg_val);
++		reg_val = rtw_read8(padapter, REG_SYS_FUNC_EN + 1);
++		reg_val |= BIT(4) | BIT(7);
++		rtw_write8(padapter, REG_SYS_FUNC_EN + 1, reg_val);
++		RTW_INFO("-Reset Entry-\n");
++	}
++#endif /* CONFIG_WOWLAN */
++
++	status = rtw_hal_power_on(padapter);
++	if (status == _FAIL) {
++		goto exit;
++	}
++
++	status = rtl8723d_InitLLTTable(padapter);
++	if (status == _FAIL) {
++		goto exit;
++	}
++
++	/* rx shift by DaQin 20150421 */
++	rtw_write8(padapter, REG_TRXDMA_CTRL, (rtw_read8(padapter, REG_TRXDMA_CTRL) | BIT(1)));
++	rtw_write8(padapter, REG_RX_DRVINFO_SZ, (rtw_read8(padapter, REG_RX_DRVINFO_SZ) | BIT(6)));
++
++	if (pHalData->bRDGEnable)
++		_InitRDGSetting_8723du(padapter);
++
++
++	/* Enable TX Report */
++	/* Enable Tx Report Timer */
++	value8 = rtw_read8(padapter, REG_TX_RPT_CTRL);
++	rtw_write8(padapter, REG_TX_RPT_CTRL, value8 | BIT(1));
++	/* Set MAX RPT MACID */
++	rtw_write8(padapter, REG_TX_RPT_CTRL + 1, 2);
++	/* Tx RPT Timer. Unit: 32us */
++	rtw_write16(padapter, REG_TX_RPT_TIME, 0xCdf0);
++#ifdef CONFIG_TX_EARLY_MODE
++	if (pHalData->AMPDUBurstMode) {
++
++		value8 = rtw_read8(padapter, REG_EARLY_MODE_CONTROL_8723D);
++#if RTL8723D_EARLY_MODE_PKT_NUM_10 == 1
++		value8 = value8 | 0x1f;
++#else
++		value8 = value8 | 0xf;
++#endif
++		rtw_write8(padapter, REG_EARLY_MODE_CONTROL_8723D, value8);
++
++		rtw_write8(padapter, REG_EARLY_MODE_CONTROL_8723D + 3, 0x80);
++
++		value8 = rtw_read8(padapter, REG_TCR_8723D + 1);
++		value8 = value8 | 0x40;
++		rtw_write8(padapter, REG_TCR_8723D + 1, value8);
++	} else
++#endif
++		rtw_write8(padapter, REG_EARLY_MODE_CONTROL_8723D, 0);
++
++	/* <Kordan> InitHalDm should be put ahead of FirmwareDownload. (HWConfig flow: FW->MAC->-BB->RF) */
++	/* rtl8723d_InitHalDm(padapter); */
++
++	if (padapter->registrypriv.mp_mode == 0) {
++		status = rtl8723d_FirmwareDownload(padapter, _FALSE);
++		if (status != _SUCCESS) {
++			padapter->bFWReady = _FALSE;
++			pHalData->fw_ractrl = _FALSE;
++			goto exit;
++		} else {
++			padapter->bFWReady = _TRUE;
++			pHalData->fw_ractrl = _TRUE;
++		}
++	}
++
++	if (pwrctrlpriv->reg_rfoff == _TRUE)
++		pwrctrlpriv->rf_pwrstate = rf_off;
++
++	/* Set RF type for BB/RF configuration */
++	_InitRFType(padapter);
++
++	HalDetectPwrDownMode(padapter);
++
++	/* We should call the function before MAC/BB configuration. */
++	PHY_InitAntennaSelection8723D(padapter);
++
++
++#if (DISABLE_BB_RF == 1)
++	/* fpga verification to open phy */
++	rtw_write8(padapter, REG_SYS_FUNC_EN_8723D, FEN_USBA | FEN_USBD | FEN_BB_GLB_RSTn | FEN_BBRSTB);
++#endif
++
++#if (HAL_MAC_ENABLE == 1)
++	status = PHY_MACConfig8723D(padapter);
++	if (status == _FAIL) {
++		RTW_INFO("PHY_MACConfig8723D fault !!\n");
++		goto exit;
++	}
++#endif
++
++	/* d. Initialize BB related configurations. */
++#if (HAL_BB_ENABLE == 1)
++	status = PHY_BBConfig8723D(padapter);
++	if (status == _FAIL) {
++		RTW_INFO("PHY_BBConfig8723D fault !!\n");
++		goto exit;
++	}
++#endif
++
++#if (HAL_RF_ENABLE == 1)
++	status = PHY_RFConfig8723D(padapter);
++
++	if (status == _FAIL) {
++		RTW_INFO("PHY_RFConfig8723D fault !!\n");
++		goto exit;
++	}
++	/*---- Set CCK and OFDM Block "ON"----*/
++	PHY_SetBBReg(padapter, rFPGA0_RFMOD, bCCKEn, 0x1);
++	PHY_SetBBReg(padapter, rFPGA0_RFMOD, bOFDMEn, 0x1);
++#endif
++
++	_InitBBRegBackup_8723du(padapter);
++
++	_InitMacAPLLSetting_8723D(padapter);
++
++	_InitQueueReservedPage(padapter);
++	_InitTRxBufferBoundary(padapter);
++	_InitQueuePriority(padapter);
++	_InitTransferPageSize_8723du(padapter);
++
++
++	/* Get Rx PHY status in order to report RSSI and others. */
++	_InitDriverInfoSize(padapter, DRVINFO_SZ);
++
++	_InitInterrupt(padapter);
++	_InitNetworkType(padapter); /* set msr */
++	_InitWMACSetting(padapter);
++	_InitAdaptiveCtrl(padapter);
++	_InitEDCA(padapter);
++	_InitRateFallback(padapter);
++	_InitRetryFunction(padapter);
++	/* _InitOperationMode(padapter);*/ /*todo */
++	rtl8723d_InitBeaconParameters(padapter);
++	rtl8723d_InitBeaconMaxError(padapter, _TRUE);
++
++	_InitBurstPktLen(padapter);
++	_initUsbAggregationSetting(padapter);
++
++#ifdef ENABLE_USB_DROP_INCORRECT_OUT
++	_InitHardwareDropIncorrectBulkOut(padapter);
++#endif
++
++#if defined(CONFIG_CONCURRENT_MODE) || defined(CONFIG_TX_MCAST2UNI)
++
++#ifdef CONFIG_CHECK_AC_LIFETIME
++	/* Enable lifetime check for the four ACs */
++	rtw_write8(padapter, REG_LIFETIME_CTRL, 0x0F);
++#endif	/* CONFIG_CHECK_AC_LIFETIME */
++
++#ifdef CONFIG_TX_MCAST2UNI
++	rtw_write16(padapter, REG_PKT_VO_VI_LIFE_TIME, 0x0400); /* unit: 256us. 256ms */
++	rtw_write16(padapter, REG_PKT_BE_BK_LIFE_TIME, 0x0400); /* unit: 256us. 256ms */
++#else	/* CONFIG_TX_MCAST2UNI */
++	rtw_write16(padapter, REG_PKT_VO_VI_LIFE_TIME, 0x3000); /* unit: 256us. 3s */
++	rtw_write16(padapter, REG_PKT_BE_BK_LIFE_TIME, 0x3000); /* unit: 256us. 3s */
++#endif	/* CONFIG_TX_MCAST2UNI */
++#endif	/* CONFIG_CONCURRENT_MODE || CONFIG_TX_MCAST2UNI */
++
++
++#ifdef CONFIG_LED
++	_InitHWLed(padapter);
++#endif /* CONFIG_LED */
++
++	_BBTurnOnBlock(padapter);
++	/* NicIFSetMacAddress(padapter, padapter->PermanentAddress); */
++
++
++	rtw_hal_set_chnl_bw(padapter, padapter->registrypriv.channel,
++		CHANNEL_WIDTH_20, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HAL_PRIME_CHNL_OFFSET_DONT_CARE);
++
++	invalidate_cam_all(padapter);
++
++	/* 2010/12/17 MH We need to set TX power according to EFUSE content at first. */
++	/* PHY_SetTxPowerLevel8723D(padapter, pHalData->CurrentChannel); */
++	rtl8723d_InitAntenna_Selection(padapter);
++
++	/* HW SEQ CTRL */
++	/* set 0x0 to 0xFF by tynli. Default enable HW SEQ NUM. */
++	rtw_write8(padapter, REG_HWSEQ_CTRL, 0xFF);
++
++	/*
++	 * Disable BAR, suggested by Scott
++	 * 2010.04.09 add by hpfan
++	 */
++	rtw_write32(padapter, REG_BAR_MODE_CTRL, 0x0201ffff);
++
++	if (pregistrypriv->wifi_spec)
++		rtw_write16(padapter, REG_FAST_EDCA_CTRL, 0);
++
++	/* Move by Neo for USB SS from above setp */
++
++	/* _RfPowerSave(padapter); */
++
++	rtl8723d_InitHalDm(padapter);
++
++#if (MP_DRIVER == 1)
++	if (padapter->registrypriv.mp_mode == 1) {
++		padapter->mppriv.channel = pHalData->CurrentChannel;
++		MPT_InitializeAdapter(padapter, padapter->mppriv.channel);
++	} else
++#endif
++	{
++		pwrctrlpriv->rf_pwrstate = rf_on;
++
++		if (pwrctrlpriv->rf_pwrstate == rf_on) {
++			struct pwrctrl_priv *pwrpriv;
++			u32 start_time;
++			u8 restore_iqk_rst;
++			u8 b2Ant;
++			u8 h2cCmdBuf;
++
++			pwrpriv = adapter_to_pwrctl(padapter);
++
++			PHY_LCCalibrate_8723D(&pHalData->odmpriv);
++
++			/* Inform WiFi FW that it is the beginning of IQK */
++			h2cCmdBuf = 1;
++			FillH2CCmd8723D(padapter, H2C_8723D_BT_WLAN_CALIBRATION, 1, &h2cCmdBuf);
++
++			start_time = rtw_get_current_time();
++			do {
++				if (rtw_read8(padapter, 0x1e7) & 0x01)
++					break;
++
++				rtw_msleep_os(50);
++			} while (rtw_get_passing_time_ms(start_time) <= 400);
++
++#ifdef CONFIG_BT_COEXIST
++			rtw_btcoex_IQKNotify(padapter, _TRUE);
++#endif
++			restore_iqk_rst = (pwrpriv->bips_processing == _TRUE) ? _TRUE : _FALSE;
++			b2Ant = pHalData->EEPROMBluetoothAntNum == Ant_x2 ? _TRUE : _FALSE;
++			pHalData->odmpriv.nIQK_Cnt = 0;
++			pHalData->odmpriv.nIQK_OK_Cnt = 0;
++			pHalData->odmpriv.nIQK_Fail_Cnt = 0;
++#if 1
++			PHY_IQCalibrate_8723D(padapter, _FALSE);
++#else
++			PHY_IQCalibrate_8723D(padapter, _FALSE, restore_iqk_rst, b2Ant, pHalData->ant_path);
++#endif
++			pHalData->bIQKInitialized = _TRUE;
++#ifdef CONFIG_BT_COEXIST
++			rtw_btcoex_IQKNotify(padapter, _FALSE);
++#endif
++
++			/* Inform WiFi FW that it is the finish of IQK */
++			h2cCmdBuf = 0;
++			FillH2CCmd8723D(padapter, H2C_8723D_BT_WLAN_CALIBRATION, 1, &h2cCmdBuf);
++
++			ODM_TXPowerTrackingCheck(&pHalData->odmpriv);
++		}
++	}
++
++
++
++	/*	_InitPABias(padapter); */
++
++#ifdef CONFIG_BT_COEXIST
++	/* Init BT hw config. */
++	if (padapter->registrypriv.mp_mode == 1)
++		rtw_btcoex_HAL_Initialize(padapter, _TRUE);
++	else
++		rtw_btcoex_HAL_Initialize(padapter, _FALSE);
++#endif
++
++#if 0
++	/* 2010/05/20 MH We need to init timer after update setting. Otherwise, we can not get correct inf setting. */
++	/* 2010/05/18 MH For SE series only now. Init GPIO detect time */
++	if (pDevice->RegUsbSS) {
++		GpioDetectTimerStart8192CU(padapter);    /* Disable temporarily */
++	}
++
++	/* 2010/08/23 MH According to Alfred's suggestion, we need to to prevent HW enter */
++	/* suspend mode automatically. */
++	HwSuspendModeEnable92Cu(padapter, _FALSE);
++#endif
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_NAV_UPPER, (u8 *)&NavUpper);
++
++#ifdef CONFIG_XMIT_ACK
++	/* ack for xmit mgmt frames. */
++	rtw_write32(padapter, REG_FWHW_TXQ_CTRL, rtw_read32(padapter, REG_FWHW_TXQ_CTRL) | BIT(12));
++#endif /*CONFIG_XMIT_ACK */
++
++	PHY_SetBBReg(padapter, rOFDM0_XAAGCCore1, bMaskByte0, 0x50);
++	PHY_SetBBReg(padapter, rOFDM0_XAAGCCore1, bMaskByte0, 0x20);
++	/* Enable MACTXEN/MACRXEN block */
++	u1bRegCR = rtw_read8(padapter, REG_CR);
++	u1bRegCR |= (MACTXEN | MACRXEN);
++	rtw_write8(padapter, REG_CR, u1bRegCR);
++
++	/*_dbg_dump_macreg(padapter); */
++
++exit:
++
++	RTW_INFO("%s in %dms\n", __func__, rtw_get_passing_time_ms(init_start_time));
++
++
++	return status;
++}
++
++
++static void
++_DisableGPIO(
++	IN PADAPTER padapter
++)
++{
++	/*
++	 * j. GPIO_PIN_CTRL 0x44[31:0]=0x000
++	 * k. Value = GPIO_PIN_CTRL[7:0]
++	 * l. GPIO_PIN_CTRL 0x44[31:0] = 0x00FF0000 | (value <<8); write external PIN level
++	 * m. GPIO_MUXCFG 0x42 [15:0] = 0x0780
++	 * n. LEDCFG 0x4C[15:0] = 0x8080
++	 */
++	u8 value8;
++	u16 value16;
++	u32 value32;
++
++	/* 1. Disable GPIO[7:0] */
++	rtw_write16(padapter, REG_GPIO_PIN_CTRL + 2, 0x0000);
++	value32 = rtw_read32(padapter, REG_GPIO_PIN_CTRL) & 0xFFFF00FF;
++	value8 = (u8)(value32 & 0x000000FF);
++	value32 |= ((value8 << 8) | 0x00FF0000);
++	rtw_write32(padapter, REG_GPIO_PIN_CTRL, value32);
++
++	/* 2. Disable GPIO[10:8] */
++	rtw_write8(padapter, REG_GPIO_MUXCFG + 3, 0x00);
++	value16 = rtw_read16(padapter, REG_GPIO_MUXCFG + 2) & 0xFF0F;
++	value8 = (u8)(value16 & 0x000F);
++	value16 |= ((value8 << 4) | 0x0780);
++	rtw_write16(padapter, REG_GPIO_MUXCFG + 2, value16);
++
++	/* 3. Disable LED0 & 1 */
++	rtw_write16(padapter, REG_LEDCFG0, 0x8080);
++
++
++} /* end of _DisableGPIO() */
++
++static void
++_ResetFWDownloadRegister(
++	IN PADAPTER padapter
++)
++{
++	u32 value32;
++
++	value32 = rtw_read32(padapter, REG_MCUFWDL);
++	value32 &= ~(MCUFWDL_EN | MCUFWDL_RDY);
++	rtw_write32(padapter, REG_MCUFWDL, value32);
++}
++
++static void
++_ResetBB(
++	IN PADAPTER padapter
++)
++{
++	u16 value16;
++
++	/* reset BB */
++	value16 = rtw_read16(padapter, REG_SYS_FUNC_EN);
++	value16 &= ~(FEN_BBRSTB | FEN_BB_GLB_RSTn);
++	rtw_write16(padapter, REG_SYS_FUNC_EN, value16);
++}
++
++static void
++_ResetMCU(
++	IN PADAPTER padapter
++)
++{
++	u16 value16;
++
++	/* reset MCU */
++	value16 = rtw_read16(padapter, REG_SYS_FUNC_EN);
++	value16 &= ~FEN_CPUEN;
++	rtw_write16(padapter, REG_SYS_FUNC_EN, value16);
++}
++
++static void
++_DisableMAC_AFE_PLL(
++	IN PADAPTER padapter
++)
++{
++	u32 value32;
++
++	/* disable MAC/ AFE PLL */
++	value32 = rtw_read32(padapter, REG_APS_FSMCO);
++	value32 |= APDM_MAC;
++	rtw_write32(padapter, REG_APS_FSMCO, value32);
++
++	value32 |= APFM_OFF;
++	rtw_write32(padapter, REG_APS_FSMCO, value32);
++}
++
++static void
++_AutoPowerDownToHostOff(
++	IN PADAPTER padapter
++)
++{
++	u32 value32;
++
++	rtw_write8(padapter, REG_SPS0_CTRL, 0x22);
++
++	value32 = rtw_read32(padapter, REG_APS_FSMCO);
++
++	value32 |= APDM_HOST; /* card disable */
++	rtw_write32(padapter, REG_APS_FSMCO, value32);
++
++	/* set USB suspend */
++	value32 = rtw_read32(padapter, REG_APS_FSMCO);
++	value32 &= ~AFSM_PCIE;
++	rtw_write32(padapter, REG_APS_FSMCO, value32);
++
++}
++
++static void
++_SetUsbSuspend(
++	IN PADAPTER padapter
++)
++{
++	u32 value32;
++
++	value32 = rtw_read32(padapter, REG_APS_FSMCO);
++
++	/* set USB suspend */
++	value32 |= AFSM_HSUS;
++	rtw_write32(padapter, REG_APS_FSMCO, value32);
++
++	/* RT_ASSERT(0 == (rtw_read32(padapter, REG_APS_FSMCO) & BIT(12)),("")); */
++
++}
++
++static void
++_DisableRFAFEAndResetBB(
++	IN PADAPTER padapter
++)
++{
++	/*
++	 * a.	TXPAUSE 0x522[7:0] = 0xFF			Pause MAC TX queue
++	 * b.	RF path 0 offset 0x00 = 0x00		disable RF
++	 * c.	APSD_CTRL 0x600[7:0] = 0x40
++	 * d.	SYS_FUNC_EN 0x02[7:0] = 0x16		reset BB state machine
++	 * e.	SYS_FUNC_EN 0x02[7:0] = 0x14		reset BB state machine
++	 */
++	u8 eRFPath = 0, value8 = 0;
++
++	rtw_write8(padapter, REG_TXPAUSE, 0xFF);
++	PHY_SetRFReg(padapter, eRFPath, 0x0, bMaskByte0, 0x0);
++
++	value8 |= APSDOFF;
++	rtw_write8(padapter, REG_APSD_CTRL, value8); /*0x40 */
++
++	value8 = 0;
++	value8 |= (FEN_USBD | FEN_USBA | FEN_BB_GLB_RSTn);
++	rtw_write8(padapter, REG_SYS_FUNC_EN, value8); /*0x16 */
++
++	value8 &= (~FEN_BB_GLB_RSTn);
++	rtw_write8(padapter, REG_SYS_FUNC_EN, value8); /*0x14 */
++
++}
++
++static void
++_ResetDigitalProcedure1(
++	IN PADAPTER padapter,
++	IN BOOLEAN bWithoutHWSM
++)
++{
++
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	if (pHalData->FirmwareVersion <= 0x20) {
++#if 0
++		/*
++		 * f.	SYS_FUNC_EN 0x03[7:0]=0x54		reset MAC register, DCORE
++		 * g.	MCUFWDL 0x80[7:0]=0				reset MCU ready status
++		 */
++		u4Byte value32 = 0;
++
++		PlatformIOWrite1Byte(padapter, REG_SYS_FUNC_EN + 1, 0x54);
++		PlatformIOWrite1Byte(padapter, REG_MCUFWDL, 0);
++#else
++		/*
++		 * f.	MCUFWDL 0x80[7:0]=0				reset MCU ready status
++		 * g.	SYS_FUNC_EN 0x02[10]= 0			reset MCU register, (8051 reset)
++		 * h.	SYS_FUNC_EN 0x02[15-12]= 5		reset MAC register, DCORE
++		 * i.     SYS_FUNC_EN 0x02[10]= 1		enable MCU register, (8051 enable)
++		 */
++		u16 valu16 = 0;
++
++		rtw_write8(padapter, REG_MCUFWDL, 0);
++
++		valu16 = rtw_read16(padapter, REG_SYS_FUNC_EN);
++		rtw_write16(padapter, REG_SYS_FUNC_EN, (valu16 & (~FEN_CPUEN))); /*reset MCU ,8051 */
++
++		valu16 = rtw_read16(padapter, REG_SYS_FUNC_EN) & 0x0FFF;
++		rtw_write16(padapter, REG_SYS_FUNC_EN, (valu16 | (FEN_HWPDN | FEN_ELDR))); /*reset MAC */
++
++#ifdef DBG_SHOW_MCUFWDL_BEFORE_51_ENABLE
++		{
++			u8 val;
++
++			val = rtw_read8(padapter, REG_MCUFWDL)
++
++			if (val) {
++				RTW_INFO("DBG_SHOW_MCUFWDL_BEFORE_51_ENABLE %s:%d REG_MCUFWDL:0x%02x\n",
++					 __func__, __LINE__, val);
++			}
++		}
++#endif
++
++
++		valu16 = rtw_read16(padapter, REG_SYS_FUNC_EN);
++		rtw_write16(padapter, REG_SYS_FUNC_EN, (valu16 | FEN_CPUEN)); /*enable MCU ,8051 */
++
++
++#endif
++	} else {
++		u8 retry_cnts = 0;
++
++		if (rtw_read8(padapter, REG_MCUFWDL) & BIT(1)) {
++			/* IF fw in RAM code, do reset */
++
++			rtw_write8(padapter, REG_MCUFWDL, 0);
++			if (padapter->bFWReady) {
++				/* 2010/08/25 MH According to RD alfred's suggestion, we need to disable other */
++				/* HRCV INT to influence 8051 reset. */
++				rtw_write8(padapter, REG_FWIMR, 0x20);
++
++				rtw_write8(padapter, REG_HMETFR + 3, 0x20); /*8051 reset by self */
++
++				while ((retry_cnts++ < 100) && (FEN_CPUEN & rtw_read16(padapter, REG_SYS_FUNC_EN)))
++					rtw_udelay_os(50); /* us */
++
++				if (retry_cnts >= 100) {
++					RTW_INFO("%s #####=> 8051 reset failed!.........................\n", __func__);
++					/* if 8051 reset fail we trigger GPIO 0 for LA */
++					/*PlatformEFIOWrite4Byte(	padapter, */
++					/*						REG_GPIO_PIN_CTRL, */
++					/*						0x00010100); */
++					/* 2010/08/31 MH According to Filen's info, if 8051 reset fail, reset MAC directly. */
++					rtw_write8(padapter, REG_SYS_FUNC_EN + 1, 0x50); /*Reset MAC and Enable 8051 */
++					rtw_mdelay_os(10);
++				} else {
++					/*RTW_INFO("%s =====> 8051 reset success (%d) .\n", __func__, retry_cnts); */
++				}
++			} else
++				RTW_INFO("%s =====> 8051 in RAM but !padapter->bFWReady\n", __func__);
++		} else {
++			/*RTW_INFO("%s =====> 8051 in ROM.\n", __func__); */
++		}
++
++#ifdef DBG_SHOW_MCUFWDL_BEFORE_51_ENABLE
++		{
++			u8 val;
++
++			val = rtw_read8(padapter, REG_MCUFWDL);
++
++			if (val) {
++				RTW_INFO("DBG_SHOW_MCUFWDL_BEFORE_51_ENABLE %s:%d REG_MCUFWDL:0x%02x\n",
++					 __func__, __LINE__, val);
++			}
++		}
++#endif
++
++		rtw_write8(padapter, REG_SYS_FUNC_EN + 1, 0x54); /*Reset MAC and Enable 8051 */
++	}
++
++	/* Clear rpwm value for initial toggle bit trigger. */
++	rtw_write8(padapter, REG_USB_HRPWM, 0x00);
++
++	if (bWithoutHWSM) {
++		/*
++		 * Without HW auto state machine
++		 * g.	SYS_CLKR 0x08[15:0] = 0x30A3			disable MAC clock
++		 * h.	AFE_PLL_CTRL 0x28[7:0] = 0x80			disable AFE PLL
++		 * i.	AFE_XTAL_CTRL 0x24[15:0] = 0x880F		gated AFE DIG_CLOCK
++		 * j.	SYS_ISO_CTRL 0x00[7:0] = 0xF9			isolated digital to PON
++		 */
++		/*rtw_write16(padapter, REG_SYS_CLKR, 0x30A3); */
++		rtw_write16(padapter, REG_SYS_CLKR, 0x70A3); /*modify to 0x70A3 by Scott. */
++		rtw_write8(padapter, REG_AFE_PLL_CTRL, 0x80);
++		rtw_write16(padapter, REG_AFE_XTAL_CTRL, 0x880F);
++		rtw_write8(padapter, REG_SYS_ISO_CTRL, 0xF9);
++	} else {
++		/* Disable all RF/BB power */
++		rtw_write8(padapter, REG_RF_CTRL, 0x00);
++	}
++
++}
++
++static void
++_ResetDigitalProcedure2(
++	IN PADAPTER padapter
++)
++{
++	/*
++	 * k.	SYS_FUNC_EN 0x03[7:0] = 0x44			disable ELDR runction
++	 * l.	SYS_CLKR 0x08[15:0] = 0x3083			disable ELDR clock
++	 * m.	SYS_ISO_CTRL 0x01[7:0] = 0x83			isolated ELDR to PON
++	 ******************************/
++	/*rtw_write8(padapter, REG_SYS_FUNC_EN+1, 0x44); */ /* marked by Scott. */
++	/*rtw_write16(padapter, REG_SYS_CLKR, 0x3083); */
++	/*rtw_write8(padapter, REG_SYS_ISO_CTRL+1, 0x83); */
++
++	rtw_write16(padapter, REG_SYS_CLKR, 0x70a3); /* modify to 0x70a3 by Scott. */
++	rtw_write8(padapter, REG_SYS_ISO_CTRL + 1, 0x82); /* modify to 0x82 by Scott. */
++}
++
++static void
++_DisableAnalog(
++	IN PADAPTER padapter,
++	IN BOOLEAN bWithoutHWSM
++)
++{
++	u16 value16 = 0;
++	u8 value8 = 0;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	if (bWithoutHWSM) {
++		/*
++		 * n.	LDOA15_CTRL 0x20[7:0] = 0x04		disable A15 power
++		 * o.	LDOV12D_CTRL 0x21[7:0] = 0x54		disable digital core power
++		 * r.	When driver call disable, the ASIC will turn off remaining clock automatically
++		 */
++
++		rtw_write8(padapter, REG_LDOA15_CTRL, 0x04);
++		/* PlatformIOWrite1Byte(padapter, REG_LDOV12D_CTRL, 0x54); */
++
++		value8 = rtw_read8(padapter, REG_LDOV12D_CTRL);
++		value8 &= (~LDV12_EN);
++		rtw_write8(padapter, REG_LDOV12D_CTRL, value8);
++	}
++
++	/*
++	 * h.	SPS0_CTRL 0x11[7:0] = 0x23			enter PFM mode
++	 * i.	APS_FSMCO 0x04[15:0] = 0x4802		set USB suspend
++	 */
++
++
++	value8 = 0x23;
++
++	rtw_write8(padapter, REG_SPS0_CTRL, value8);
++
++
++	if (bWithoutHWSM) {
++		/* 2010/08/31 According to Filen description, we need to use HW to shut down 8051 automatically. */
++		/* Because suspend operation need the asistance of 8051 to wait for 3ms. */
++		value16 |= (APDM_HOST | AFSM_HSUS | PFM_ALDN);
++	} else
++		value16 |= (APDM_HOST | AFSM_HSUS | PFM_ALDN);
++
++	rtw_write16(padapter, REG_APS_FSMCO, value16); /* 0x4802 */
++
++	rtw_write8(padapter, REG_RSV_CTRL, 0x0e);
++
++#if 0
++	/* tynli_test for suspend mode. */
++	if (!bWithoutHWSM)
++		rtw_write8(padapter, 0xfe10, 0x19);
++#endif
++
++}
++
++static void rtl8723du_hw_power_down(PADAPTER padapter)
++{
++	u8 u1bTmp;
++
++	RTW_INFO("PowerDownRTL8723U\n");
++
++
++	/* 1. Run Card Disable Flow */
++	/* Done before this function call. */
++
++	/* 2. 0x04[16] = 0 */   /* reset WLON */
++	u1bTmp = rtw_read8(padapter, REG_APS_FSMCO + 2);
++	rtw_write8(padapter, REG_APS_FSMCO + 2, (u1bTmp & (~BIT(0))));
++
++	/* 3. 0x04[12:11] = 2b'11 */ /* enable suspend */
++	/* Done before this function call. */
++
++	/* 4. 0x04[15] = 1 */ /* enable PDN */
++	u1bTmp = rtw_read8(padapter, REG_APS_FSMCO + 1);
++	rtw_write8(padapter, REG_APS_FSMCO + 1, (u1bTmp | BIT(7)));
++}
++
++/*
++ * Description: RTL8723e card disable power sequence v003 which suggested by Scott.
++ * First created by tynli. 2011.01.28.
++ */
++void
++CardDisableRTL8723du(
++	PADAPTER padapter
++)
++{
++	u8 u1bTmp;
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_APFM_ON_MAC, &u1bTmp);
++	RTW_INFO(FUNC_ADPT_FMT ": bMacPwrCtrlOn=%d\n", FUNC_ADPT_ARG(padapter), u1bTmp);
++	if (u1bTmp == _FALSE)
++		return;
++	u1bTmp = _FALSE;
++	rtw_hal_set_hwreg(padapter, HW_VAR_APFM_ON_MAC, &u1bTmp);
++
++	/* Stop Tx Report Timer. 0x4EC[Bit1]=b'0 */
++	u1bTmp = rtw_read8(padapter, REG_TX_RPT_CTRL);
++	rtw_write8(padapter, REG_TX_RPT_CTRL, u1bTmp & (~BIT(1)));
++
++	/* stop rx */
++	rtw_write8(padapter, REG_CR, 0x0);
++
++	/* 1. Run LPS WL RFOFF flow */
++	HalPwrSeqCmdParsing(padapter, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, rtl8723D_enter_lps_flow);
++
++	if ((rtw_read8(padapter, REG_MCUFWDL_8723D) & BIT(7)) &&
++	    padapter->bFWReady) /*8051 RAM code */
++		rtl8723d_FirmwareSelfReset(padapter);
++
++	/* Reset MCU. Suggested by Filen. 2011.01.26. by tynli. */
++	u1bTmp = rtw_read8(padapter, REG_SYS_FUNC_EN_8723D + 1);
++	rtw_write8(padapter, REG_SYS_FUNC_EN_8723D + 1, (u1bTmp & (~BIT(2))));
++
++	/* MCUFWDL 0x80[1:0]=0 */   /* reset MCU ready status */
++	rtw_write8(padapter, REG_MCUFWDL_8723D, 0x00);
++
++	/* Card disable power action flow */
++	HalPwrSeqCmdParsing(padapter, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, rtl8723D_card_disable_flow);
++
++	padapter->bFWReady = _FALSE;
++}
++
++
++u32 rtl8723du_hal_deinit(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++
++	RTW_INFO("==> %s\n", __func__);
++
++	rtw_write16(padapter, REG_GPIO_MUXCFG, rtw_read16(padapter, REG_GPIO_MUXCFG) & (~BIT(12)));
++
++	rtw_write32(padapter, REG_HISR0_8723D, 0xFFFFFFFF);
++	rtw_write32(padapter, REG_HISR1_8723D, 0xFFFFFFFF);
++#ifdef CONFIG_MP_INCLUDED
++	if (padapter->registrypriv.mp_mode == 1)
++		MPT_DeInitAdapter(padapter);
++#endif
++
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++	RTW_INFO("%s: bkeepfwalive(%x)\n", __func__, pwrctl->bkeepfwalive);
++
++	if (pwrctl->bkeepfwalive) {
++		_ps_close_RF(Adapter);
++		if ((pwrctl->bHWPwrPindetect) && (pwrctl->bHWPowerdown))
++			rtl8723du_hw_power_down(padapter);
++	} else
++#endif
++	{
++		if (rtw_is_hw_init_completed(padapter)) {
++			rtw_hal_power_off(padapter);
++
++			if ((pwrctl->bHWPwrPindetect) && (pwrctl->bHWPowerdown))
++				rtl8723du_hw_power_down(padapter);
++		}
++		pHalData->bMacPwrCtrlOn = _FALSE;
++	}
++	return _SUCCESS;
++}
++
++
++unsigned int rtl8723du_inirp_init(PADAPTER padapter)
++{
++	u8 i;
++	struct recv_buf *precvbuf;
++	uint status;
++	struct dvobj_priv *pdev = adapter_to_dvobj(padapter);
++	struct intf_hdl *pintfhdl = &padapter->iopriv.intf;
++	struct recv_priv *precvpriv = &(padapter->recvpriv);
++
++	u32(*_read_port)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++	u32(*_read_interrupt)(struct intf_hdl *pintfhdl, u32 addr);
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++#endif /*CONFIG_USB_INTERRUPT_IN_PIPE */
++
++
++	_read_port = pintfhdl->io_ops._read_port;
++
++	status = _SUCCESS;
++
++
++	precvpriv->ff_hwaddr = RECV_BULK_IN_ADDR;
++
++	/* issue Rx irp to receive data */
++	precvbuf = (struct recv_buf *)precvpriv->precv_buf;
++	for (i = 0; i < NR_RECVBUFF; i++) {
++		if (_read_port(pintfhdl, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf) == _FALSE) {
++			status = _FAIL;
++			goto exit;
++		}
++
++		precvbuf++;
++		precvpriv->free_recv_buf_queue_cnt--;
++	}
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++	_read_interrupt = pintfhdl->io_ops._read_interrupt;
++	if (_read_interrupt(pintfhdl, RECV_INT_IN_ADDR) == _FALSE) {
++		status = _FAIL;
++	}
++	pHalData->IntrMask[0] = rtw_read32(padapter, REG_USB_HIMR);
++	RTW_INFO("pHalData->IntrMask = 0x%04x\n", pHalData->IntrMask[0]);
++	pHalData->IntrMask[0] |= UHIMR_C2HCMD | UHIMR_CPWM;
++	rtw_write32(padapter, REG_USB_HIMR, pHalData->IntrMask[0]);
++#endif /*CONFIG_USB_INTERRUPT_IN_PIPE */
++
++exit:
++
++
++
++	return status;
++
++}
++
++unsigned int rtl8723du_inirp_deinit(PADAPTER padapter)
++{
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++	u32(*_read_interrupt)(struct intf_hdl *pintfhdl, u32 addr);
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++#endif /*CONFIG_USB_INTERRUPT_IN_PIPE */
++
++	rtw_read_port_cancel(padapter);
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++	pHalData->IntrMask[0] = rtw_read32(padapter, REG_USB_HIMR);
++	RTW_INFO("%s pHalData->IntrMask = 0x%04x\n", __func__, pHalData->IntrMask[0]);
++	pHalData->IntrMask[0] = 0x0;
++	rtw_write32(padapter, REG_USB_HIMR, pHalData->IntrMask[0]);
++#endif /*CONFIG_USB_INTERRUPT_IN_PIPE */
++	return _SUCCESS;
++}
++
++
++static u32
++_GetChannelGroup(
++	IN u32 channel
++)
++{
++	/*RT_ASSERT((channel < 14), ("Channel %d no is supported!\n")); */
++
++	if (channel < 3)    /* Channel 1~3 */
++		return 0;
++	else if (channel < 9)   /* Channel 4~9 */
++		return 1;
++
++	return 2;               /* Channel 10~14 */
++}
++
++/*
++ *-------------------------------------------------------------------
++ *	EEPROM/EFUSE Content Parsing
++ *-------------------------------------------------------------------
++ */
++static void
++hal_EfuseParseLEDSetting(
++	IN PADAPTER padapter,
++	IN u8 *PROMContent,
++	IN BOOLEAN AutoloadFail
++)
++{
++#if 0
++	struct led_priv *pledpriv = &(padapter->ledpriv);
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++#ifdef CONFIG_SW_LED
++	pledpriv->bRegUseLed = _TRUE;
++
++	/* Led mode */
++	switch (pHalData->CustomerID) {
++	case RT_CID_DEFAULT:
++		pledpriv->LedStrategy = SW_LED_MODE1;
++		pledpriv->bRegUseLed = _TRUE;
++		break;
++
++	case RT_CID_819x_HP:
++		pledpriv->LedStrategy = SW_LED_MODE6;
++		break;
++
++	default:
++		pledpriv->LedStrategy = SW_LED_MODE1;
++		break;
++	}
++
++	pHalData->bLedOpenDrain = _TRUE; /* Support Open-drain arrangement for controlling the LED. Added by Roger, 2009.10.16. */
++#else /* HW LED */
++	pledpriv->LedStrategy = HW_LED;
++#endif /*CONFIG_SW_LED */
++#endif
++}
++
++static void
++hal_EfuseParseRFSetting(
++	IN PADAPTER padapter,
++	IN u8 *PROMContent,
++	IN BOOLEAN AutoloadFail
++)
++{
++}
++
++/* Read HW power down mode selection */
++static void
++hal_EfuseParsePowerSavingSetting(
++	IN PADAPTER padapter,
++	IN u8 *PROMContent,
++	IN u8 AutoloadFail
++)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++
++	if (AutoloadFail) {
++		pwrctl->bHWPowerdown = _FALSE;
++		pwrctl->bSupportRemoteWakeup = _FALSE;
++	} else {
++		/*if(SUPPORT_HW_RADIO_DETECT(padapter)) */
++		pwrctl->bHWPwrPindetect = padapter->registrypriv.hwpwrp_detect;
++		/*else */
++		/*pwrctl->bHWPwrPindetect = _FALSE; */ /*dongle not support new */
++
++
++		/*hw power down mode selection , 0:rf-off / 1:power down */
++
++		if (padapter->registrypriv.hwpdn_mode == 2)
++			pwrctl->bHWPowerdown = (PROMContent[EEPROM_FEATURE_OPTION_8723D] & BIT(4));
++		else
++			pwrctl->bHWPowerdown = padapter->registrypriv.hwpdn_mode;
++
++		/* decide hw if support remote wakeup function */
++		/* if hw supported, 8051 (SIE) will generate WeakUP signal( D+/D- toggle) when autoresume */
++		pwrctl->bSupportRemoteWakeup = (PROMContent[EEPROM_USB_OPTIONAL_FUNCTION0] & BIT(1)) ? _TRUE : _FALSE;
++
++		/*if(SUPPORT_HW_RADIO_DETECT(padapter)) */
++		/*padapter->registrypriv.usbss_enable = pwrctl->bSupportRemoteWakeup ; */
++
++		RTW_INFO("%s...bHWPwrPindetect(%x)-bHWPowerdown(%x) ,bSupportRemoteWakeup(%x)\n", __func__,
++			pwrctl->bHWPwrPindetect, pwrctl->bHWPowerdown, pwrctl->bSupportRemoteWakeup);
++
++		RTW_INFO("### PS params=>  power_mgnt(%x),usbss_enable(%x) ###\n", padapter->registrypriv.power_mgnt, padapter->registrypriv.usbss_enable);
++
++	}
++}
++
++static void
++hal_EfuseParseIDs(
++	IN PADAPTER padapter,
++	IN u8 *hwinfo,
++	IN BOOLEAN AutoLoadFail
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	if (!AutoLoadFail) {
++		/* VID, PID */
++		pHalData->EEPROMVID = ReadLE2Byte(&hwinfo[EEPROM_VID_8723DU]);
++		pHalData->EEPROMPID = ReadLE2Byte(&hwinfo[EEPROM_PID_8723DU]);
++
++		/* Customer ID, 0x00 and 0xff are reserved for Realtek. */
++		pHalData->EEPROMCustomerID = *(u8 *)&hwinfo[EEPROM_CustomID_8723D];
++		pHalData->EEPROMSubCustomerID = EEPROM_Default_SubCustomerID;
++	} else {
++		pHalData->EEPROMVID = EEPROM_Default_VID;
++		pHalData->EEPROMPID = EEPROM_Default_PID;
++
++		/* Customer ID, 0x00 and 0xff are reserved for Realtek. */
++		pHalData->EEPROMCustomerID = EEPROM_Default_CustomerID;
++		pHalData->EEPROMSubCustomerID = EEPROM_Default_SubCustomerID;
++	}
++
++	if ((pHalData->EEPROMVID == EEPROM_Default_VID)
++	    && (pHalData->EEPROMPID == EEPROM_Default_PID)) {
++		pHalData->CustomerID = EEPROM_Default_CustomerID;
++		pHalData->EEPROMSubCustomerID = EEPROM_Default_SubCustomerID;
++	}
++
++	RTW_INFO("VID = 0x%04X, PID = 0x%04X\n", pHalData->EEPROMVID, pHalData->EEPROMPID);
++	RTW_INFO("Customer ID: 0x%02X, SubCustomer ID: 0x%02X\n", pHalData->EEPROMCustomerID, pHalData->EEPROMSubCustomerID);
++}
++
++static void
++InitpadapterVariablesByPROM_8723du(
++	IN PADAPTER padapter
++)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++	u8 *hwinfo = NULL;
++
++	if (sizeof(pHalData->efuse_eeprom_data) < HWSET_MAX_SIZE_8723D)
++		RTW_INFO("[WARNING] size of efuse_eeprom_data is less than HWSET_MAX_SIZE_8723D!\n");
++
++	hwinfo = pHalData->efuse_eeprom_data;
++
++	Hal_InitPGData(padapter, hwinfo);
++	Hal_EfuseParseIDCode(padapter, hwinfo);
++	Hal_EfuseParseEEPROMVer_8723D(padapter, hwinfo, pHalData->bautoload_fail_flag);
++
++	hal_EfuseParseIDs(padapter, hwinfo, pHalData->bautoload_fail_flag);
++	hal_config_macaddr(padapter, pHalData->bautoload_fail_flag);
++	hal_EfuseParsePowerSavingSetting(padapter, hwinfo, pHalData->bautoload_fail_flag);
++
++	Hal_EfuseParseTxPowerInfo_8723D(padapter, hwinfo, pHalData->bautoload_fail_flag);
++	Hal_EfuseParseBoardType_8723D(padapter, hwinfo, pHalData->bautoload_fail_flag);
++
++	Hal_EfuseParseBTCoexistInfo_8723D(padapter, hwinfo, pHalData->bautoload_fail_flag);
++
++	Hal_EfuseParseChnlPlan_8723D(padapter, hwinfo, pHalData->bautoload_fail_flag);
++	Hal_EfuseParseXtal_8723D(padapter, hwinfo, pHalData->bautoload_fail_flag);
++	Hal_EfuseParseThermalMeter_8723D(padapter, hwinfo, pHalData->bautoload_fail_flag);
++	Hal_EfuseParseAntennaDiversity_8723D(padapter, hwinfo, pHalData->bautoload_fail_flag);
++	Hal_EfuseParseCustomerID_8723D(padapter, hwinfo, pHalData->bautoload_fail_flag);
++
++	hal_EfuseParseLEDSetting(padapter, hwinfo, pHalData->bautoload_fail_flag);
++
++	/* Hal_EfuseParseKFreeData_8723D(padapter, hwinfo, pHalData->bautoload_fail_flag); */
++	hal_read_mac_hidden_rpt(padapter);
++}
++
++static void
++hal_EfuseParsePROMContent(
++	IN PADAPTER padapter
++)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++
++	u8 eeValue;
++	u32 i;
++	u16 value16;
++
++	eeValue = rtw_read8(padapter, REG_9346CR);
++	/* To check system boot selection. */
++	pHalData->EepromOrEfuse = (eeValue & BOOT_FROM_EEPROM) ? _TRUE : _FALSE;
++	pHalData->bautoload_fail_flag = (eeValue & EEPROM_EN) ? _FALSE : _TRUE;
++
++	RTW_INFO("Boot from %s, Autoload %s !\n", (pHalData->EepromOrEfuse ? "EEPROM" : "EFUSE"),
++		 (pHalData->bautoload_fail_flag ? "Fail" : "OK"));
++
++	InitpadapterVariablesByPROM_8723du(padapter);
++}
++
++static void
++_ReadRFType(IN PADAPTER padapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++#if DISABLE_BB_RF
++	pHalData->rf_chip = RF_PSEUDO_11N;
++#else
++	pHalData->rf_chip = RF_6052;
++#endif
++}
++
++/*
++ * Description:
++ *    We should set Efuse cell selection to WiFi cell in default.
++ * Assumption:
++ *    PASSIVE_LEVEL
++ */
++void
++hal_EfuseCellSel(IN PADAPTER padapter)
++{
++	u32 value32;
++
++	value32 = rtw_read32(padapter, EFUSE_TEST);
++	value32 = (value32 & ~EFUSE_SEL_MASK) | EFUSE_SEL(EFUSE_WIFI_SEL_0);
++	rtw_write32(padapter, EFUSE_TEST, value32);
++}
++
++static void rtl8723du_read_adapter_info(PADAPTER padapter)
++{
++	/* Read EEPROM size before call any EEPROM function */
++	padapter->EepromAddressSize = GetEEPROMSize8723D(padapter);
++
++	/* Efuse_InitSomeVar(padapter); */
++
++	hal_EfuseCellSel(padapter);
++
++	_ReadRFType(padapter);
++	hal_EfuseParsePROMContent(padapter);
++}
++
++#define GPIO_DEBUG_PORT_NUM 0
++static void rtl8723du_trigger_gpio_0(PADAPTER padapter)
++{
++
++	u32 gpioctrl;
++
++	RTW_INFO("==> trigger_gpio_0...\n");
++	rtw_write16_async(padapter, REG_GPIO_PIN_CTRL, 0);
++	rtw_write8_async(padapter, REG_GPIO_PIN_CTRL + 2, 0xFF);
++	gpioctrl = (BIT(GPIO_DEBUG_PORT_NUM) << 24) | (BIT(GPIO_DEBUG_PORT_NUM) << 16);
++	rtw_write32_async(padapter, REG_GPIO_PIN_CTRL, gpioctrl);
++	gpioctrl |= (BIT(GPIO_DEBUG_PORT_NUM) << 8);
++	rtw_write32_async(padapter, REG_GPIO_PIN_CTRL, gpioctrl);
++	RTW_INFO("<=== trigger_gpio_0...\n");
++
++}
++
++/*
++ * If variable not handled here,
++ * some variables will be processed in SetHwReg8723A()
++ */
++void SetHwReg8723du(PADAPTER padapter, u8 variable, u8 *val)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++
++
++	switch (variable) {
++	case HW_VAR_RXDMA_AGG_PG_TH:
++#ifdef CONFIG_USB_RX_AGGREGATION
++		{
++			u8 threshold = *val;
++
++			if (threshold == 0)
++				threshold = pHalData->UsbRxAggPageCount;
++			SetHwReg8723D(padapter, HW_VAR_RXDMA_AGG_PG_TH, &threshold);
++		}
++#endif
++		break;
++
++	case HW_VAR_SET_RPWM:
++		rtw_write8(padapter, REG_USB_HRPWM, *val);
++		break;
++
++	case HW_VAR_TRIGGER_GPIO_0:
++		rtl8723du_trigger_gpio_0(padapter);
++		break;
++#ifdef CONFIG_GPIO_WAKEUP
++	case HW_SET_GPIO_WL_CTRL: {
++		u8 enable = *val;
++		u8 value = 0;
++
++		if (WAKEUP_GPIO_IDX != 8)
++			break;
++
++		value = rtw_read8(padapter, REG_PAD_CTRL_1 + 3);
++		if (enable && (value & BIT(2))) {
++			value &= ~BIT(2);
++			rtw_write8(padapter, REG_PAD_CTRL_1 + 3, value);
++		} else if (enable == _FALSE) {
++			value |= BIT(2);
++			rtw_write8(padapter, REG_PAD_CTRL_1 + 3, value);
++		}
++
++		RTW_INFO("%s: HW_SET_GPIO_WL_CTRL\n", __func__);
++	}
++		break;
++#endif
++	default:
++		SetHwReg8723D(padapter, variable, val);
++		break;
++	}
++
++}
++
++/*
++ * If variable not handled here,
++ * some variables will be processed in GetHwReg8723A()
++ */
++void GetHwReg8723du(PADAPTER padapter, u8 variable, u8 *val)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++
++
++	switch (variable) {
++	default:
++		GetHwReg8723D(padapter, variable, val);
++		break;
++	}
++
++}
++
++/*
++ * Description:
++ * Query setting of specified variable.
++ */
++u8
++GetHalDefVar8723du(
++	IN PADAPTER padapter,
++	IN HAL_DEF_VARIABLE eVariable,
++	IN PVOID pValue
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	u8 bResult = _SUCCESS;
++
++	switch (eVariable) {
++	case HAL_DEF_IS_SUPPORT_ANT_DIV:
++#ifdef CONFIG_ANTENNA_DIVERSITY
++		*((u8 *)pValue) = _FALSE;
++#endif
++		break;
++
++	case HAL_DEF_DRVINFO_SZ:
++		*((u32 *)pValue) = DRVINFO_SZ;
++		break;
++	case HAL_DEF_MAX_RECVBUF_SZ:
++		*((u32 *)pValue) = MAX_RECVBUF_SZ;
++		break;
++	case HAL_DEF_RX_PACKET_OFFSET:
++		*((u32 *)pValue) = RXDESC_SIZE + DRVINFO_SZ * 8;
++		break;
++	case HW_VAR_MAX_RX_AMPDU_FACTOR:
++		*((HT_CAP_AMPDU_FACTOR *)pValue) = MAX_AMPDU_FACTOR_64K;
++		break;
++	default:
++		bResult = GetHalDefVar8723D(padapter, eVariable, pValue);
++		break;
++	}
++
++	return bResult;
++}
++
++
++
++
++/*
++ * Description:
++ * Change default setting of specified variable.
++ */
++u8
++SetHalDefVar8723du(
++	IN PADAPTER padapter,
++	IN HAL_DEF_VARIABLE eVariable,
++	IN PVOID pValue
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	u8 bResult = _SUCCESS;
++
++	switch (eVariable) {
++	default:
++		bResult = SetHalDefVar8723D(padapter, eVariable, pValue);
++		break;
++	}
++
++	return bResult;
++}
++
++void _update_response_rate(PADAPTER padapter, unsigned int mask)
++{
++	u8 RateIndex = 0;
++	/* Set RRSR rate table. */
++	rtw_write8(padapter, REG_RRSR, mask & 0xff);
++	rtw_write8(padapter, REG_RRSR + 1, (mask >> 8) & 0xff);
++
++	/* Set RTS initial rate */
++	while (mask > 0x1) {
++		mask = (mask >> 1);
++		RateIndex++;
++	}
++	rtw_write8(padapter, REG_INIRTS_RATE_SEL, RateIndex);
++}
++
++static void rtl8723du_init_default_value(PADAPTER padapter)
++{
++	rtl8723d_init_default_value(padapter);
++}
++
++static u8 rtl8723du_ps_func(PADAPTER padapter, HAL_INTF_PS_FUNC efunc_id, u8 *val)
++{
++	u8 bResult = _TRUE;
++
++	switch (efunc_id) {
++
++#if defined(CONFIG_AUTOSUSPEND) && defined(SUPPORT_HW_RFOFF_DETECTED)
++	case HAL_USB_SELECT_SUSPEND: {
++		u8 bfwpoll = *((u8 *)val);
++
++		rtl8723d_set_FwSelectSuspend_cmd(padapter, bfwpoll, 500); /*note fw to support hw power down ping detect */
++	}
++	break;
++#endif /*CONFIG_AUTOSUSPEND && SUPPORT_HW_RFOFF_DETECTED */
++
++	default:
++		break;
++	}
++	return bResult;
++}
++
++void rtl8723du_set_hal_ops(PADAPTER padapter)
++{
++	struct hal_ops *pHalFunc = &padapter->HalFunc;
++
++
++	rtl8723d_set_hal_ops(pHalFunc);
++
++	pHalFunc->hal_power_on = &_InitPowerOn_8723du;
++	pHalFunc->hal_power_off = &CardDisableRTL8723du;
++
++	pHalFunc->hal_init = &rtl8723du_hal_init;
++	pHalFunc->hal_deinit = &rtl8723du_hal_deinit;
++
++	pHalFunc->inirp_init = &rtl8723du_inirp_init;
++	pHalFunc->inirp_deinit = &rtl8723du_inirp_deinit;
++
++	pHalFunc->init_xmit_priv = &rtl8723du_init_xmit_priv;
++	pHalFunc->free_xmit_priv = &rtl8723du_free_xmit_priv;
++
++	pHalFunc->init_recv_priv = &rtl8723du_init_recv_priv;
++	pHalFunc->free_recv_priv = &rtl8723du_free_recv_priv;
++
++#ifdef CONFIG_SW_LED
++	pHalFunc->InitSwLeds = &rtl8723du_InitSwLeds;
++	pHalFunc->DeInitSwLeds = &rtl8723du_DeInitSwLeds;
++#else /*case of hw led or no led */
++	pHalFunc->InitSwLeds = NULL;
++	pHalFunc->DeInitSwLeds = NULL;
++#endif/*CONFIG_SW_LED */
++
++	pHalFunc->init_default_value = &rtl8723d_init_default_value;
++	pHalFunc->intf_chip_configure = &rtl8723du_interface_configure;
++	pHalFunc->read_adapter_info = &rtl8723du_read_adapter_info;
++
++	pHalFunc->SetHwRegHandler = &SetHwReg8723du;
++	pHalFunc->GetHwRegHandler = &GetHwReg8723du;
++	pHalFunc->GetHalDefVarHandler = &GetHalDefVar8723du;
++	pHalFunc->SetHalDefVarHandler = &SetHalDefVar8723du;
++
++	pHalFunc->hal_xmit = &rtl8723du_hal_xmit;
++	pHalFunc->mgnt_xmit = &rtl8723du_mgnt_xmit;
++	pHalFunc->hal_xmitframe_enqueue = &rtl8723du_hal_xmitframe_enqueue;
++
++#ifdef CONFIG_HOSTAPD_MLME
++	pHalFunc->hostap_mgnt_xmit_entry = &rtl8723du_hostap_mgnt_xmit_entry;
++#endif
++	pHalFunc->interface_ps_func = &rtl8723du_ps_func;
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++	pHalFunc->xmit_thread_handler = &rtl8723du_xmit_buf_handler;
++#endif
++#ifdef CONFIG_SUPPORT_USB_INT
++	pHalFunc->interrupt_handler = &rtl8723du_interrupt_handler;
++#endif
++
++}
+diff --git a/drivers/net/wireless/rtl8723du/hal/rtl8723d/usb/usb_ops.c b/drivers/net/wireless/rtl8723du/hal/rtl8723d/usb/usb_ops.c
+new file mode 100644
+index 0000000..e8defbd
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/hal/rtl8723d/usb/usb_ops.c
+@@ -0,0 +1,257 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++  *******************************************************************************/
++#define _USB_OPS_C_
++
++#include <rtl8723d_hal.h>
++
++#ifdef CONFIG_SUPPORT_USB_INT
++void rtl8723du_interrupt_handler(_adapter *padapter, u16 pkt_len, u8 *pbuf)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	struct reportpwrstate_parm pwr_rpt;
++
++	if (pkt_len != INTERRUPT_MSG_FORMAT_LEN) {
++		RTW_INFO("%s Invalid interrupt content length (%d)!\n", __func__, pkt_len);
++		return;
++	}
++
++	/* HISR */
++	_rtw_memcpy(&(pHalData->IntArray[0]), &(pbuf[USB_INTR_CONTENT_HISR_OFFSET]), 4);
++	_rtw_memcpy(&(pHalData->IntArray[1]), &(pbuf[USB_INTR_CONTENT_HISRE_OFFSET]), 4);
++
++#if 0 /* DBG */
++	{
++		u32 hisr = 0 , hisr_ex = 0;
++
++		_rtw_memcpy(&hisr, &(pHalData->IntArray[0]), 4);
++		hisr = le32_to_cpu(hisr);
++
++		_rtw_memcpy(&hisr_ex, &(pHalData->IntArray[1]), 4);
++		hisr_ex = le32_to_cpu(hisr_ex);
++
++		if ((hisr != 0) || (hisr_ex != 0))
++			RTW_INFO("===> %s hisr:0x%08x ,hisr_ex:0x%08x\n", __func__, hisr, hisr_ex);
++	}
++#endif
++
++#ifdef CONFIG_LPS_LCLK
++	if (pHalData->IntArray[0] & IMR_CPWM_88E) {
++		_rtw_memcpy(&pwr_rpt.state, &(pbuf[USB_INTR_CONTENT_CPWM1_OFFSET]), 1);
++		/* _rtw_memcpy(&pwr_rpt.state2, &(pbuf[USB_INTR_CONTENT_CPWM2_OFFSET]), 1); */
++
++		/* 88e's cpwm value only change BIT0, so driver need to add PS_STATE_S2 for LPS flow. */
++		pwr_rpt.state |= PS_STATE_S2;
++		_set_workitem(&(adapter_to_pwrctl(padapter)->cpwm_event));
++	}
++#endif /* CONFIG_LPS_LCLK */
++
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT
++	/*only for BCN_0*/
++	if (pHalData->IntArray[0] & IMR_BCNDMAINT0_8723D)
++#endif
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR
++		if (pHalData->IntArray[0] & (IMR_TBDER_88E | IMR_TBDOK_88E))
++#endif
++		{
++#if 0
++			if (pHalData->IntArray[0] & IMR_BCNDMAINT0_88E)
++				RTW_INFO("%s: HISR_BCNERLY_INT\n", __func__);
++			if (pHalData->IntArray[0] & IMR_TBDOK_88E)
++				RTW_INFO("%s: HISR_TXBCNOK\n", __func__);
++			if (pHalData->IntArray[0] & IMR_TBDER_88E)
++				RTW_INFO("%s: HISR_TXBCNERR\n", __func__);
++#endif
++			rtw_mi_set_tx_beacon_cmd(padapter);
++		}
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN */
++
++#ifdef DBG_CONFIG_ERROR_DETECT_INT
++	if (pHalData->IntArray[1] & IMR_TXERR_8723D)
++		RTW_INFO("===> %s Tx Error Flag Interrupt Status\n", __func__);
++	if (pHalData->IntArray[1] & IMR_RXERR_8723D)
++		RTW_INFO("===> %s Rx Error Flag INT Status\n", __func__);
++	if (pHalData->IntArray[1] & IMR_TXFOVW_8723D)
++		RTW_INFO("===> %s Transmit FIFO Overflow\n", __func__);
++	if (pHalData->IntArray[1] & IMR_RXFOVW_8723D)
++		RTW_INFO("===> %s Receive FIFO Overflow\n", __func__);
++#endif /* DBG_CONFIG_ERROR_DETECT_INT */
++
++#ifdef CONFIG_FW_C2H_REG
++	/* C2H Event */
++	if (pbuf[0] != 0)
++		usb_c2h_hisr_hdl(padapter, pbuf);
++#endif
++}
++#endif /* CONFIG_SUPPORT_USB_INT */
++
++int recvbuf2recvframe(PADAPTER padapter, void *ptr)
++{
++	u8 *pbuf;
++	u8 pkt_cnt = 0;
++	u32 pkt_offset;
++	s32 transfer_len;
++	u8 *pdata, *pphy_status;
++	union recv_frame *precvframe = NULL;
++	struct rx_pkt_attrib *pattrib = NULL;
++	PHAL_DATA_TYPE pHalData;
++	struct recv_priv *precvpriv;
++	_queue *pfree_recv_queue;
++	_pkt *pskb;
++
++
++	pHalData = GET_HAL_DATA(padapter);
++	precvpriv = &padapter->recvpriv;
++	pfree_recv_queue = &precvpriv->free_recv_queue;
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++	pskb = NULL;
++	transfer_len = (s32)((struct recv_buf *)ptr)->transfer_len;
++	pbuf = ((struct recv_buf *)ptr)->pbuf;
++#else /* !CONFIG_USE_USB_BUFFER_ALLOC_RX */
++	pskb = (_pkt *)ptr;
++	transfer_len = (s32)pskb->len;
++	pbuf = pskb->data;
++#endif /* !CONFIG_USE_USB_BUFFER_ALLOC_RX */
++
++#ifdef CONFIG_USB_RX_AGGREGATION
++	pkt_cnt = GET_RX_STATUS_DESC_USB_AGG_PKTNUM_8723D(pbuf);
++#endif
++
++	do {
++		precvframe = rtw_alloc_recvframe(pfree_recv_queue);
++		if (precvframe == NULL) {
++			RTW_INFO("%s: rtw_alloc_recvframe() failed! RX Drop!\n", __func__);
++			goto _exit_recvbuf2recvframe;
++		}
++
++		if (transfer_len > 1500)
++			_rtw_init_listhead(&precvframe->u.hdr.list);
++		precvframe->u.hdr.precvbuf = NULL;  /* can't access the precvbuf for new arch. */
++		precvframe->u.hdr.len = 0;
++
++		rtl8723d_query_rx_desc_status(precvframe, pbuf);
++
++		pattrib = &precvframe->u.hdr.attrib;
++
++		if ((padapter->registrypriv.mp_mode == 0)
++		    && ((pattrib->crc_err) || (pattrib->icv_err))) {
++			RTW_INFO("%s: RX Warning! crc_err=%d icv_err=%d, skip!\n",
++				 __func__, pattrib->crc_err, pattrib->icv_err);
++
++			rtw_free_recvframe(precvframe, pfree_recv_queue);
++			goto _exit_recvbuf2recvframe;
++		}
++
++		pkt_offset = RXDESC_SIZE + pattrib->drvinfo_sz + pattrib->shift_sz + pattrib->pkt_len;
++		if ((pattrib->pkt_len <= 0) || (pkt_offset > transfer_len)) {
++			RTW_INFO("%s: RX Error! pkt_len=%d pkt_offset=%d transfer_len=%d\n",
++				__func__, pattrib->pkt_len, pkt_offset, transfer_len);
++
++			rtw_free_recvframe(precvframe, pfree_recv_queue);
++			goto _exit_recvbuf2recvframe;
++		}
++
++#ifdef CONFIG_RX_PACKET_APPEND_FCS
++		if (check_fwstate(&padapter->mlmepriv, WIFI_MONITOR_STATE) == _FALSE)
++			if ((pattrib->pkt_rpt_type == NORMAL_RX) && (pHalData->ReceiveConfig & RCR_APPFCS))
++				pattrib->pkt_len -= IEEE80211_FCS_LEN;
++#endif
++
++		pdata = pbuf + RXDESC_SIZE + pattrib->drvinfo_sz + pattrib->shift_sz;
++		if (rtw_os_alloc_recvframe(padapter, precvframe, pdata, pskb) == _FAIL) {
++			RTW_INFO("%s: RX Error! rtw_os_alloc_recvframe FAIL!\n", __func__);
++
++			rtw_free_recvframe(precvframe, pfree_recv_queue);
++			goto _exit_recvbuf2recvframe;
++		}
++
++		recvframe_put(precvframe, pattrib->pkt_len);
++
++		if (pattrib->pkt_rpt_type == NORMAL_RX) {
++			if (pattrib->physt)
++				pphy_status = pbuf + RXDESC_OFFSET;
++			else
++				pphy_status = NULL;
++
++#ifdef CONFIG_CONCURRENT_MODE
++			pre_recv_entry(precvframe, pphy_status);
++#endif /* CONFIG_CONCURRENT_MODE */
++
++			if (pphy_status)
++				rx_query_phy_status(precvframe, pphy_status);
++
++			if (rtw_recv_entry(precvframe) != _SUCCESS) {
++				/* Return fail except data frame */
++				/*RTW_INFO("%s: RX Error! rtw_recv_entry FAIL!\n", __func__); */
++			}
++		} else {
++#ifdef CONFIG_FW_C2H_PKT
++			if (pattrib->pkt_rpt_type == C2H_PACKET)
++				rtw_hal_c2h_pkt_pre_hdl(padapter, precvframe->u.hdr.rx_data, pattrib->pkt_len);
++			else {
++				RTW_INFO("%s: [WARNNING] RX type(%d) not be handled!\n",
++					 __func__, pattrib->pkt_rpt_type);
++			}
++#endif /* CONFIG_FW_C2H_PKT */
++			rtw_free_recvframe(precvframe, pfree_recv_queue);
++		}
++
++#ifdef CONFIG_USB_RX_AGGREGATION
++		/* jaguar 8-byte alignment */
++		pkt_offset = (u16)_RND8(pkt_offset);
++		pkt_cnt--;
++		pbuf += pkt_offset;
++#endif
++		transfer_len -= pkt_offset;
++		precvframe = NULL;
++	} while (transfer_len > 0);
++
++_exit_recvbuf2recvframe:
++
++	return _SUCCESS;
++}
++
++void rtl8723du_xmit_tasklet(void *priv)
++{
++	int ret = _FALSE;
++	_adapter *padapter = (_adapter *)priv;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	while (1) {
++		if (RTW_CANNOT_TX(padapter)) {
++			RTW_INFO("xmit_tasklet => bDriverStopped or bSurpriseRemoved or bWritePortCancel\n");
++			break;
++		}
++
++		if (rtw_xmit_ac_blocked(padapter) == _TRUE)
++			break;
++
++		ret = rtl8723du_xmitframe_complete(padapter, pxmitpriv, NULL);
++
++		if (ret == _FALSE)
++			break;
++	}
++}
++
++void rtl8723du_set_hw_type(struct dvobj_priv *pdvobj)
++{
++	pdvobj->HardwareType = HARDWARE_TYPE_RTL8723DU;
++	RTW_INFO("CHIP TYPE: RTL8723DU\n");
++}
+diff --git a/drivers/net/wireless/rtl8723du/ifcfg-wlan0 b/drivers/net/wireless/rtl8723du/ifcfg-wlan0
+new file mode 100644
+index 0000000..20dcbec
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/ifcfg-wlan0
+@@ -0,0 +1,4 @@
++#DHCP client
++DEVICE=wlan0
++BOOTPROTO=dhcp
++ONBOOT=yes
+\ No newline at end of file
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8188EPhyCfg.h b/drivers/net/wireless/rtl8723du/include/Hal8188EPhyCfg.h
+new file mode 100644
+index 0000000..8f78e9d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8188EPhyCfg.h
+@@ -0,0 +1,272 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8188EPHYCFG_H__
++#define __INC_HAL8188EPHYCFG_H__
++
++
++/*--------------------------Define Parameters-------------------------------*/
++#define LOOP_LIMIT				5
++#define MAX_STALL_TIME			50		/* us */
++#define AntennaDiversityValue		0x80	/* (Adapter->bSoftwareAntennaDiversity ? 0x00 : 0x80) */
++#define MAX_TXPWR_IDX_NMODE_92S	63
++#define Reset_Cnt_Limit			3
++
++#ifdef CONFIG_PCI_HCI
++	#define MAX_AGGR_NUM	0x0B
++#else
++	#define MAX_AGGR_NUM	0x07
++#endif /* CONFIG_PCI_HCI */
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++
++/*------------------------------Define structure----------------------------*/
++
++#define	MAX_TX_COUNT_8188E			1
++
++/* BB/RF related */
++
++
++/*------------------------------Define structure----------------------------*/
++
++
++/*------------------------Export global variable----------------------------*/
++/*------------------------Export global variable----------------------------*/
++
++
++/*------------------------Export Marco Definition---------------------------*/
++/*------------------------Export Marco Definition---------------------------*/
++
++
++/*--------------------------Exported Function prototype---------------------*/
++/*
++ * BB and RF register read/write
++ *   */
++u32	PHY_QueryBBReg8188E(IN	PADAPTER	Adapter,
++			    IN	u32		RegAddr,
++			    IN	u32		BitMask);
++void	PHY_SetBBReg8188E(IN	PADAPTER	Adapter,
++			  IN	u32		RegAddr,
++			  IN	u32		BitMask,
++			  IN	u32		Data);
++u32	PHY_QueryRFReg8188E(IN	PADAPTER	Adapter,
++			    IN	u8				eRFPath,
++			    IN	u32				RegAddr,
++			    IN	u32				BitMask);
++void	PHY_SetRFReg8188E(IN	PADAPTER		Adapter,
++			  IN	u8				eRFPath,
++			  IN	u32				RegAddr,
++			  IN	u32				BitMask,
++			  IN	u32				Data);
++
++/*
++ * Initialization related function
++ */
++/* MAC/BB/RF HAL config */
++int	PHY_MACConfig8188E(IN	PADAPTER	Adapter);
++int	PHY_BBConfig8188E(IN	PADAPTER	Adapter);
++int	PHY_RFConfig8188E(IN	PADAPTER	Adapter);
++
++/* RF config */
++int	rtl8188e_PHY_ConfigRFWithParaFile(IN PADAPTER Adapter, IN u8 *pFileName, u8 eRFPath);
++
++/*
++ * RF Power setting
++ */
++/* extern	BOOLEAN	PHY_SetRFPowerState(IN	PADAPTER			Adapter,
++ *									IN	RT_RF_POWER_STATE	eRFPowerState); */
++
++/*
++ * BB TX Power R/W
++ *   */
++void	PHY_GetTxPowerLevel8188E(IN	PADAPTER		Adapter,
++				 OUT s32		*powerlevel);
++void	PHY_SetTxPowerLevel8188E(IN	PADAPTER		Adapter,
++				 IN	u8			channel);
++BOOLEAN	PHY_UpdateTxPowerDbm8188E(IN	PADAPTER	Adapter,
++				  IN	int		powerInDbm);
++
++VOID
++PHY_SetTxPowerIndex_8188E(
++	IN	PADAPTER			Adapter,
++	IN	u32					PowerIndex,
++	IN	u8					RFPath,
++	IN	u8					Rate
++);
++
++u8
++PHY_GetTxPowerIndex_8188E(
++	IN	PADAPTER		pAdapter,
++	IN	u8				RFPath,
++	IN	u8				Rate,
++	IN	u8				BandWidth,
++	IN	u8				Channel,
++	struct txpwr_idx_comp *tic
++);
++
++/*
++ * Switch bandwidth for 8192S
++ */
++/* extern	void	PHY_SetBWModeCallback8192C(	IN	PRT_TIMER		pTimer	); */
++void	PHY_SetBWMode8188E(IN	PADAPTER			pAdapter,
++			   IN	CHANNEL_WIDTH	ChnlWidth,
++			   IN	unsigned char	Offset);
++
++/*
++ * Set FW CMD IO for 8192S.
++ */
++/* extern	BOOLEAN HalSetIO8192C(	IN	PADAPTER			Adapter,
++ *									IN	IO_TYPE				IOType); */
++
++/*
++ * Set A2 entry to fw for 8192S
++ *   */
++extern	void FillA2Entry8192C(IN	PADAPTER			Adapter,
++			      IN	u8				index,
++			      IN	u8				*val);
++
++
++/*
++ * channel switch related funciton
++ */
++/* extern	void	PHY_SwChnlCallback8192C(	IN	PRT_TIMER		pTimer	); */
++void	PHY_SwChnl8188E(IN	PADAPTER		pAdapter,
++			IN	u8			channel);
++
++VOID
++PHY_SetSwChnlBWMode8188E(
++	IN	PADAPTER			Adapter,
++	IN	u8					channel,
++	IN	CHANNEL_WIDTH	Bandwidth,
++	IN	u8					Offset40,
++	IN	u8					Offset80
++);
++
++VOID
++PHY_SetRFEReg_8188E(
++	IN PADAPTER		Adapter
++);
++/*
++ * BB/MAC/RF other monitor API
++ *   */
++VOID PHY_SetRFPathSwitch_8188E(IN	PADAPTER	pAdapter, IN	BOOLEAN		bMain);
++
++extern	VOID
++PHY_SwitchEphyParameter(
++	IN	PADAPTER			Adapter
++);
++
++extern	VOID
++PHY_EnableHostClkReq(
++	IN	PADAPTER			Adapter
++);
++
++BOOLEAN
++SetAntennaConfig92C(
++	IN	PADAPTER	Adapter,
++	IN	u8		DefaultAnt
++);
++
++VOID
++storePwrIndexDiffRateOffset(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask,
++	IN	u32		Data
++);
++/*--------------------------Exported Function prototype---------------------*/
++
++/*
++ * Initialization related function
++ *
++ * MAC/BB/RF HAL config */
++/* extern s32 PHY_MACConfig8723(PADAPTER padapter);
++ * s32 PHY_BBConfig8723(PADAPTER padapter);
++ * s32 PHY_RFConfig8723(PADAPTER padapter); */
++
++
++
++/* ******************************************************************
++ * Note: If SIC_ENABLE under PCIE, because of the slow operation
++ *	you should
++ * 	2) "#define RTL8723_FPGA_VERIFICATION	1"				in Precomp.h.WlanE.Windows
++ * 	3) "#define RTL8190_Download_Firmware_From_Header	0"	in Precomp.h.WlanE.Windows if needed.
++ *   */
++#if (RTL8188E_SUPPORT == 1) && (RTL8188E_FPGA_TRUE_PHY_VERIFICATION == 1)
++	#define	SIC_ENABLE				1
++	#define	SIC_HW_SUPPORT		1
++#else
++	#define	SIC_ENABLE				0
++	#define	SIC_HW_SUPPORT		0
++#endif
++/* ****************************************************************** */
++
++
++#define	SIC_MAX_POLL_CNT		5
++
++#if (SIC_HW_SUPPORT == 1)
++	#define	SIC_CMD_READY			0
++	#define	SIC_CMD_PREWRITE		0x1
++	#if (RTL8188E_SUPPORT == 1)
++		#define	SIC_CMD_WRITE			0x40
++		#define	SIC_CMD_PREREAD		0x2
++		#define	SIC_CMD_READ			0x80
++		#define	SIC_CMD_INIT			0xf0
++		#define	SIC_INIT_VAL			0xff
++
++		#define	SIC_INIT_REG			0x1b7
++		#define	SIC_CMD_REG			0x1EB		/* 1byte */
++		#define	SIC_ADDR_REG			0x1E8		/* 1b4~1b5, 2 bytes */
++		#define	SIC_DATA_REG			0x1EC		/* 1b0~1b3 */
++	#else
++		#define	SIC_CMD_WRITE			0x11
++		#define	SIC_CMD_PREREAD		0x2
++		#define	SIC_CMD_READ			0x12
++		#define	SIC_CMD_INIT			0x1f
++		#define	SIC_INIT_VAL			0xff
++
++		#define	SIC_INIT_REG			0x1b7
++		#define	SIC_CMD_REG			0x1b6		/* 1byte */
++		#define	SIC_ADDR_REG			0x1b4		/* 1b4~1b5, 2 bytes */
++		#define	SIC_DATA_REG			0x1b0		/* 1b0~1b3 */
++	#endif
++#else
++	#define	SIC_CMD_READY			0
++	#define	SIC_CMD_WRITE			1
++	#define	SIC_CMD_READ			2
++
++	#if (RTL8188E_SUPPORT == 1)
++		#define	SIC_CMD_REG			0x1EB		/* 1byte */
++		#define	SIC_ADDR_REG			0x1E8		/* 1b9~1ba, 2 bytes */
++		#define	SIC_DATA_REG			0x1EC		/* 1bc~1bf */
++	#else
++		#define	SIC_CMD_REG			0x1b8		/* 1byte */
++		#define	SIC_ADDR_REG			0x1b9		/* 1b9~1ba, 2 bytes */
++		#define	SIC_DATA_REG			0x1bc		/* 1bc~1bf */
++	#endif
++#endif
++
++#if (SIC_ENABLE == 1)
++	VOID SIC_Init(IN PADAPTER Adapter);
++#endif
++
++
++#endif /* __INC_HAL8192CPHYCFG_H */
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8188EPhyReg.h b/drivers/net/wireless/rtl8723du/include/Hal8188EPhyReg.h
+new file mode 100644
+index 0000000..783ea641
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8188EPhyReg.h
+@@ -0,0 +1,1105 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8188EPHYREG_H__
++#define __INC_HAL8188EPHYREG_H__
++/*--------------------------Define Parameters-------------------------------*/
++/*
++ * BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++ * 3. RF register 0x00-2E
++ * 4. Bit Mask for BB/RF register
++ * 5. Other defintion for BB/RF R/W
++ *   */
++
++
++/*
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 1. Page1(0x100)
++ *   */
++#define		rPMAC_Reset					0x100
++#define		rPMAC_TxStart				0x104
++#define		rPMAC_TxLegacySIG			0x108
++#define		rPMAC_TxHTSIG1				0x10c
++#define		rPMAC_TxHTSIG2				0x110
++#define		rPMAC_PHYDebug				0x114
++#define		rPMAC_TxPacketNum			0x118
++#define		rPMAC_TxIdle					0x11c
++#define		rPMAC_TxMACHeader0			0x120
++#define		rPMAC_TxMACHeader1			0x124
++#define		rPMAC_TxMACHeader2			0x128
++#define		rPMAC_TxMACHeader3			0x12c
++#define		rPMAC_TxMACHeader4			0x130
++#define		rPMAC_TxMACHeader5			0x134
++#define		rPMAC_TxDataType				0x138
++#define		rPMAC_TxRandomSeed			0x13c
++#define		rPMAC_CCKPLCPPreamble		0x140
++#define		rPMAC_CCKPLCPHeader			0x144
++#define		rPMAC_CCKCRC16				0x148
++#define		rPMAC_OFDMRxCRC32OK		0x170
++#define		rPMAC_OFDMRxCRC32Er		0x174
++#define		rPMAC_OFDMRxParityEr			0x178
++#define		rPMAC_OFDMRxCRC8Er			0x17c
++#define		rPMAC_CCKCRxRC16Er			0x180
++#define		rPMAC_CCKCRxRC32Er			0x184
++#define		rPMAC_CCKCRxRC32OK			0x188
++#define		rPMAC_TxStatus				0x18c
++
++/*
++ * 2. Page2(0x200)
++ *
++ * The following two definition are only used for USB interface. */
++#define		RF_BB_CMD_ADDR				0x02c0	/* RF/BB read/write command address. */
++#define		RF_BB_CMD_DATA				0x02c4	/* RF/BB read/write command data. */
++
++/*
++ * 3. Page8(0x800)
++ *   */
++#define		rFPGA0_RFMOD				0x800	/* RF mode & CCK TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA0_TxInfo					0x804	/* Status report?? */
++#define		rFPGA0_PSDFunction			0x808
++
++#define		rFPGA0_TxGainStage			0x80c	/* Set TX PWR init gain? */
++
++#define		rFPGA0_RFTiming1				0x810	/* Useless now */
++#define		rFPGA0_RFTiming2				0x814
++
++#define		rFPGA0_XA_HSSIParameter1		0x820	/* RF 3 wire register */
++#define		rFPGA0_XA_HSSIParameter2		0x824
++#define		rFPGA0_XB_HSSIParameter1		0x828
++#define		rFPGA0_XB_HSSIParameter2		0x82c
++
++#define		rFPGA0_XA_LSSIParameter		0x840
++#define		rFPGA0_XB_LSSIParameter		0x844
++
++#define		rFPGA0_RFWakeUpParameter	0x850	/* Useless now */
++#define		rFPGA0_RFSleepUpParameter		0x854
++
++#define		rFPGA0_XAB_SwitchControl		0x858	/* RF Channel switch */
++#define		rFPGA0_XCD_SwitchControl		0x85c
++
++#define		rFPGA0_XA_RFInterfaceOE		0x860	/* RF Channel switch */
++#define		rFPGA0_XB_RFInterfaceOE		0x864
++#define		rFPGA0_XAB_RFInterfaceSW		0x870	/* RF Interface Software Control */
++#define		rFPGA0_XCD_RFInterfaceSW		0x874
++
++#define		rFPGA0_XAB_RFParameter		0x878	/* RF Parameter */
++#define		rFPGA0_XCD_RFParameter		0x87c
++
++#define		rFPGA0_AnalogParameter1		0x880	/* Crystal cap setting RF-R/W protection for parameter4?? */
++#define		rFPGA0_AnalogParameter2		0x884
++#define		rFPGA0_AnalogParameter3		0x888
++#define		rFPGA0_AdDaClockEn			0x888	/* enable ad/da clock1 for dual-phy */
++#define		rFPGA0_AnalogParameter4		0x88c
++
++#define		rFPGA0_XA_LSSIReadBack		0x8a0	/* Tranceiver LSSI Readback */
++#define		rFPGA0_XB_LSSIReadBack		0x8a4
++#define		rFPGA0_XC_LSSIReadBack		0x8a8
++#define		rFPGA0_XD_LSSIReadBack		0x8ac
++
++#define		rFPGA0_PSDReport				0x8b4	/* Useless now */
++#define		TransceiverA_HSPI_Readback		0x8b8	/* Transceiver A HSPI Readback */
++#define		TransceiverB_HSPI_Readback		0x8bc	/* Transceiver B HSPI Readback */
++#define		rFPGA0_XAB_RFInterfaceRB		0x8e0	/* Useless now */ /* RF Interface Readback Value */
++#define		rFPGA0_XCD_RFInterfaceRB		0x8e4	/* Useless now */
++
++/*
++ * 4. Page9(0x900)
++ *   */
++#define		rFPGA1_RFMOD				0x900	/* RF mode & OFDM TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA1_TxBlock				0x904	/* Useless now */
++#define		rFPGA1_DebugSelect			0x908	/* Useless now */
++#define		rFPGA1_TxInfo					0x90c	/* Useless now */ /* Status report?? */
++
++/*
++ * 5. PageA(0xA00)
++ *
++ * Set Control channel to upper or lower. These settings are required only for 40MHz */
++#define		rCCK0_System					0xa00
++
++#define		rCCK0_AFESetting				0xa04	/* Disable init gain now */ /* Select RX path by RSSI */
++#define		rCCK0_CCA					0xa08	/* Disable init gain now */ /* Init gain */
++
++#define		rCCK0_RxAGC1				0xa0c	/* AGC default value, saturation level  */ /* Antenna Diversity, RX AGC, LNA Threshold, RX LNA Threshold useless now. Not the same as 90 series */
++#define		rCCK0_RxAGC2				0xa10	/* AGC & DAGC */
++
++#define		rCCK0_RxHP					0xa14
++
++#define		rCCK0_DSPParameter1			0xa18	/* Timing recovery & Channel estimation threshold */
++#define		rCCK0_DSPParameter2			0xa1c	/* SQ threshold */
++
++#define		rCCK0_TxFilter1				0xa20
++#define		rCCK0_TxFilter2				0xa24
++#define		rCCK0_DebugPort				0xa28	/* debug port and Tx filter3 */
++#define		rCCK0_FalseAlarmReport		0xa2c	/* 0xa2d	useless now 0xa30-a4f channel report */
++#define		rCCK0_TRSSIReport			0xa50
++#define		rCCK0_RxReport            			0xa54  /* 0xa57 */
++#define		rCCK0_FACounterLower      		0xa5c  /* 0xa5b */
++#define		rCCK0_FACounterUpper      		0xa58  /* 0xa5c */
++
++/*
++ * PageB(0xB00)
++ *   */
++#define		rPdp_AntA					0xb00
++#define		rPdp_AntA_4				0xb04
++#define		rConfig_Pmpd_AntA			0xb28
++#define		rConfig_ram64x16				0xb2c
++#define		rConfig_AntA					0xb68
++#define		rConfig_AntB					0xb6c
++#define		rPdp_AntB					0xb70
++#define		rPdp_AntB_4					0xb74
++#define		rConfig_Pmpd_AntB			0xb98
++#define		rAPK							0xbd8
++
++
++
++/*
++ * 6. PageC(0xC00)
++ *   */
++#define		rOFDM0_LSTF					0xc00
++
++#define		rOFDM0_TRxPathEnable			0xc04
++#define		rOFDM0_TRMuxPar				0xc08
++#define		rOFDM0_TRSWIsolation			0xc0c
++
++#define		rOFDM0_XARxAFE				0xc10  /* RxIQ DC offset, Rx digital filter, DC notch filter */
++#define		rOFDM0_XARxIQImbalance    		0xc14  /* RxIQ imblance matrix */
++#define		rOFDM0_XBRxAFE			0xc18
++#define		rOFDM0_XBRxIQImbalance		0xc1c
++#define		rOFDM0_XCRxAFE			0xc20
++#define		rOFDM0_XCRxIQImbalance		0xc24
++#define		rOFDM0_XDRxAFE			0xc28
++#define		rOFDM0_XDRxIQImbalance		0xc2c
++
++#define		rOFDM0_RxDetector1			0xc30  /* PD, BW & SBD	 */ /* DM tune init gain */
++#define		rOFDM0_RxDetector2			0xc34  /* SBD & Fame Sync. */
++#define		rOFDM0_RxDetector3			0xc38  /* Frame Sync. */
++#define		rOFDM0_RxDetector4			0xc3c  /* PD, SBD, Frame Sync & Short-GI */
++
++#define		rOFDM0_RxDSP				0xc40  /* Rx Sync Path */
++#define		rOFDM0_CFOandDAGC			0xc44  /* CFO & DAGC */
++#define		rOFDM0_CCADropThreshold		0xc48 /* CCA Drop threshold */
++#define		rOFDM0_ECCAThreshold			0xc4c /* energy CCA */
++
++#define		rOFDM0_XAAGCCore1			0xc50	/* DIG */
++#define		rOFDM0_XAAGCCore2			0xc54
++#define		rOFDM0_XBAGCCore1			0xc58
++#define		rOFDM0_XBAGCCore2			0xc5c
++#define		rOFDM0_XCAGCCore1			0xc60
++#define		rOFDM0_XCAGCCore2			0xc64
++#define		rOFDM0_XDAGCCore1			0xc68
++#define		rOFDM0_XDAGCCore2			0xc6c
++
++#define		rOFDM0_AGCParameter1		0xc70
++#define		rOFDM0_AGCParameter2		0xc74
++#define		rOFDM0_AGCRSSITable			0xc78
++#define		rOFDM0_HTSTFAGC				0xc7c
++
++#define		rOFDM0_XATxIQImbalance		0xc80	/* TX PWR TRACK and DIG */
++#define		rOFDM0_XATxAFE				0xc84
++#define		rOFDM0_XBTxIQImbalance		0xc88
++#define		rOFDM0_XBTxAFE				0xc8c
++#define		rOFDM0_XCTxIQImbalance		0xc90
++#define		rOFDM0_XCTxAFE			0xc94
++#define		rOFDM0_XDTxIQImbalance		0xc98
++#define		rOFDM0_XDTxAFE				0xc9c
++
++#define		rOFDM0_RxIQExtAnta			0xca0
++#define		rOFDM0_TxCoeff1				0xca4
++#define		rOFDM0_TxCoeff2				0xca8
++#define		rOFDM0_TxCoeff3				0xcac
++#define		rOFDM0_TxCoeff4				0xcb0
++#define		rOFDM0_TxCoeff5				0xcb4
++#define		rOFDM0_TxCoeff6				0xcb8
++#define		rOFDM0_RxHPParameter		0xce0
++#define		rOFDM0_TxPseudoNoiseWgt		0xce4
++#define		rOFDM0_FrameSync			0xcf0
++#define		rOFDM0_DFSReport			0xcf4
++
++
++/*
++ * 7. PageD(0xD00)
++ *   */
++#define		rOFDM1_LSTF					0xd00
++#define		rOFDM1_TRxPathEnable			0xd04
++
++#define		rOFDM1_CFO					0xd08	/* No setting now */
++#define		rOFDM1_CSI1					0xd10
++#define		rOFDM1_SBD					0xd14
++#define		rOFDM1_CSI2					0xd18
++#define		rOFDM1_CFOTracking			0xd2c
++#define		rOFDM1_TRxMesaure1			0xd34
++#define		rOFDM1_IntfDet				0xd3c
++#define		rOFDM1_csi_fix_mask1				0xd40
++#define		rOFDM1_csi_fix_mask2				0xd44
++#define		rOFDM1_PseudoNoiseStateAB	0xd50
++#define		rOFDM1_PseudoNoiseStateCD	0xd54
++#define		rOFDM1_RxPseudoNoiseWgt		0xd58
++
++#define		rOFDM_PHYCounter1			0xda0  /* cca, parity fail */
++#define		rOFDM_PHYCounter2			0xda4  /* rate illegal, crc8 fail */
++#define		rOFDM_PHYCounter3			0xda8  /* MCS not support */
++
++#define		rOFDM_ShortCFOAB			0xdac	/* No setting now */
++#define		rOFDM_ShortCFOCD			0xdb0
++#define		rOFDM_LongCFOAB				0xdb4
++#define		rOFDM_LongCFOCD				0xdb8
++#define		rOFDM_TailCFOAB				0xdbc
++#define		rOFDM_TailCFOCD				0xdc0
++#define		rOFDM_PWMeasure1		0xdc4
++#define		rOFDM_PWMeasure2		0xdc8
++#define		rOFDM_BWReport				0xdcc
++#define		rOFDM_AGCReport				0xdd0
++#define		rOFDM_RxSNR				0xdd4
++#define		rOFDM_RxEVMCSI				0xdd8
++#define		rOFDM_SIGReport				0xddc
++
++
++/*
++ * 8. PageE(0xE00)
++ *   */
++#define		rTxAGC_A_Rate18_06			0xe00
++#define		rTxAGC_A_Rate54_24			0xe04
++#define		rTxAGC_A_CCK1_Mcs32			0xe08
++#define		rTxAGC_A_Mcs03_Mcs00		0xe10
++#define		rTxAGC_A_Mcs07_Mcs04		0xe14
++#define		rTxAGC_A_Mcs11_Mcs08		0xe18
++#define		rTxAGC_A_Mcs15_Mcs12		0xe1c
++
++#define		rTxAGC_B_Rate18_06			0x830
++#define		rTxAGC_B_Rate54_24			0x834
++#define		rTxAGC_B_CCK1_55_Mcs32		0x838
++#define		rTxAGC_B_Mcs03_Mcs00		0x83c
++#define		rTxAGC_B_Mcs07_Mcs04		0x848
++#define		rTxAGC_B_Mcs11_Mcs08		0x84c
++#define		rTxAGC_B_Mcs15_Mcs12		0x868
++#define		rTxAGC_B_CCK11_A_CCK2_11		0x86c
++
++#define		rFPGA0_IQK					0xe28
++#define		rTx_IQK_Tone_A				0xe30
++#define		rRx_IQK_Tone_A				0xe34
++#define		rTx_IQK_PI_A					0xe38
++#define		rRx_IQK_PI_A					0xe3c
++
++#define		rTx_IQK						0xe40
++#define		rRx_IQK						0xe44
++#define		rIQK_AGC_Pts					0xe48
++#define		rIQK_AGC_Rsp					0xe4c
++#define		rTx_IQK_Tone_B				0xe50
++#define		rRx_IQK_Tone_B				0xe54
++#define		rTx_IQK_PI_B					0xe58
++#define		rRx_IQK_PI_B					0xe5c
++#define		rIQK_AGC_Cont				0xe60
++
++#define		rBlue_Tooth					0xe6c
++#define		rRx_Wait_CCA					0xe70
++#define		rTx_CCK_RFON					0xe74
++#define		rTx_CCK_BBON				0xe78
++#define		rTx_OFDM_RFON				0xe7c
++#define		rTx_OFDM_BBON				0xe80
++#define		rTx_To_Rx					0xe84
++#define		rTx_To_Tx					0xe88
++#define		rRx_CCK						0xe8c
++
++#define		rTx_Power_Before_IQK_A		0xe94
++#define		rTx_Power_After_IQK_A			0xe9c
++
++#define		rRx_Power_Before_IQK_A		0xea0
++#define		rRx_Power_Before_IQK_A_2		0xea4
++#define		rRx_Power_After_IQK_A			0xea8
++#define		rRx_Power_After_IQK_A_2		0xeac
++
++#define		rTx_Power_Before_IQK_B		0xeb4
++#define		rTx_Power_After_IQK_B			0xebc
++
++#define		rRx_Power_Before_IQK_B		0xec0
++#define		rRx_Power_Before_IQK_B_2		0xec4
++#define		rRx_Power_After_IQK_B			0xec8
++#define		rRx_Power_After_IQK_B_2		0xecc
++
++#define		rRx_OFDM					0xed0
++#define		rRx_Wait_RIFS				0xed4
++#define		rRx_TO_Rx					0xed8
++#define		rStandby						0xedc
++#define		rSleep						0xee0
++#define		rPMPD_ANAEN				0xeec
++
++/*
++ * 7. RF Register 0x00-0x2E (RF 8256)
++ * RF-0222D 0x00-3F
++ *
++ * Zebra1 */
++#define		rZebra1_HSSIEnable				0x0	/* Useless now */
++#define		rZebra1_TRxEnable1			0x1
++#define		rZebra1_TRxEnable2			0x2
++#define		rZebra1_AGC					0x4
++#define		rZebra1_ChargePump			0x5
++#define		rZebra1_Channel				0x7	/* RF channel switch */
++
++/* #endif */
++#define		rZebra1_TxGain				0x8	/* Useless now */
++#define		rZebra1_TxLPF					0x9
++#define		rZebra1_RxLPF					0xb
++#define		rZebra1_RxHPFCorner			0xc
++
++/* Zebra4 */
++#define		rGlobalCtrl					0	/* Useless now */
++#define		rRTL8256_TxLPF				19
++#define		rRTL8256_RxLPF				11
++
++/* RTL8258 */
++#define		rRTL8258_TxLPF				0x11	/* Useless now */
++#define		rRTL8258_RxLPF				0x13
++#define		rRTL8258_RSSILPF				0xa
++
++/*
++ * RL6052 Register definition
++ *   */
++#define		RF_AC						0x00	/*  */
++
++#define		RF_IQADJ_G1					0x01	/*  */
++#define		RF_IQADJ_G2					0x02	/*  */
++
++#define		RF_POW_TRSW				0x05	/*  */
++
++#define		RF_GAIN_RX					0x06	/*  */
++#define		RF_GAIN_TX					0x07	/*  */
++
++#define		RF_TXM_IDAC					0x08	/*  */
++#define		RF_IPA_G						0x09	/*  */
++#define		RF_TXBIAS_G					0x0A
++#define		RF_TXPA_AG					0x0B
++#define		RF_IPA_A						0x0C	/*  */
++#define		RF_TXBIAS_A					0x0D
++#define		RF_BS_PA_APSET_G9_G11		0x0E
++#define		RF_BS_IQGEN					0x0F	/*  */
++
++#define		RF_MODE1					0x10	/*  */
++#define		RF_MODE2					0x11	/*  */
++
++#define		RF_RX_AGC_HP				0x12	/*  */
++#define		RF_TX_AGC					0x13	/*  */
++#define		RF_BIAS						0x14	/*  */
++#define		RF_IPA						0x15	/*  */
++#define		RF_TXBIAS					0x16
++#define		RF_POW_ABILITY				0x17	/*  */
++#define		RF_CHNLBW					0x18	/* RF channel and BW switch */
++#define		RF_TOP						0x19	/*  */
++
++#define		RF_RX_G1					0x1A	/*  */
++#define		RF_RX_G2					0x1B	/*  */
++
++#define		RF_RX_BB2					0x1C	/*  */
++#define		RF_RX_BB1					0x1D	/*  */
++
++#define		RF_RCK1						0x1E	/*  */
++#define		RF_RCK2						0x1F	/*  */
++
++#define		RF_TX_G1						0x20	/*  */
++#define		RF_TX_G2						0x21	/*  */
++#define		RF_TX_G3						0x22	/*  */
++
++#define		RF_TX_BB1					0x23	/*  */
++
++#define		RF_T_METER_88E					0x42	/*  */
++#define		RF_T_METER					0x24	/*  */
++
++#define		RF_SYN_G1					0x25	/* RF TX Power control */
++#define		RF_SYN_G2					0x26	/* RF TX Power control */
++#define		RF_SYN_G3					0x27	/* RF TX Power control */
++#define		RF_SYN_G4					0x28	/* RF TX Power control */
++#define		RF_SYN_G5					0x29	/* RF TX Power control */
++#define		RF_SYN_G6					0x2A	/* RF TX Power control */
++#define		RF_SYN_G7					0x2B	/* RF TX Power control */
++#define		RF_SYN_G8					0x2C	/* RF TX Power control */
++
++#define		RF_RCK_OS					0x30	/* RF TX PA control */
++#define		RF_TXPA_G1					0x31	/* RF TX PA control */
++#define		RF_TXPA_G2					0x32	/* RF TX PA control */
++#define		RF_TXPA_G3					0x33	/* RF TX PA control */
++#define		RF_TX_BIAS_A					0x35
++#define		RF_TX_BIAS_D					0x36
++#define		RF_LOBF_9					0x38
++#define		RF_RXRF_A3					0x3C	/*	 */
++#define		RF_TRSW						0x3F
++
++#define		RF_TXRF_A2					0x41
++#define		RF_TXPA_G4					0x46
++#define		RF_TXPA_A4					0x4B
++#define	RF_0x52					0x52
++#define		RF_WE_LUT					0xEF
++
++
++/*
++ * Bit Mask
++ *
++ * 1. Page1(0x100) */
++#define		bBBResetB					0x100	/* Useless now? */
++#define		bGlobalResetB					0x200
++#define		bOFDMTxStart					0x4
++#define		bCCKTxStart					0x8
++#define		bCRC32Debug					0x100
++#define		bPMACLoopback				0x10
++#define		bTxLSIG						0xffffff
++#define		bOFDMTxRate					0xf
++#define		bOFDMTxReserved				0x10
++#define		bOFDMTxLength				0x1ffe0
++#define		bOFDMTxParity				0x20000
++#define		bTxHTSIG1					0xffffff
++#define		bTxHTMCSRate				0x7f
++#define		bTxHTBW						0x80
++#define		bTxHTLength					0xffff00
++#define		bTxHTSIG2					0xffffff
++#define		bTxHTSmoothing				0x1
++#define		bTxHTSounding				0x2
++#define		bTxHTReserved				0x4
++#define		bTxHTAggreation				0x8
++#define		bTxHTSTBC					0x30
++#define		bTxHTAdvanceCoding			0x40
++#define		bTxHTShortGI					0x80
++#define		bTxHTNumberHT_LTF			0x300
++#define		bTxHTCRC8					0x3fc00
++#define		bCounterReset				0x10000
++#define		bNumOfOFDMTx				0xffff
++#define		bNumOfCCKTx					0xffff0000
++#define		bTxIdleInterval				0xffff
++#define		bOFDMService					0xffff0000
++#define		bTxMACHeader				0xffffffff
++#define		bTxDataInit					0xff
++#define		bTxHTMode					0x100
++#define		bTxDataType					0x30000
++#define		bTxRandomSeed				0xffffffff
++#define		bCCKTxPreamble				0x1
++#define		bCCKTxSFD					0xffff0000
++#define		bCCKTxSIG					0xff
++#define		bCCKTxService					0xff00
++#define		bCCKLengthExt					0x8000
++#define		bCCKTxLength					0xffff0000
++#define		bCCKTxCRC16					0xffff
++#define		bCCKTxStatus					0x1
++#define		bOFDMTxStatus				0x2
++
++#define		IS_BB_REG_OFFSET_92S(_Offset)		((_Offset >= 0x800) && (_Offset <= 0xfff))
++
++/* 2. Page8(0x800) */
++#define		bRFMOD						0x1	/* Reg 0x800 rFPGA0_RFMOD */
++#define		bJapanMode					0x2
++#define		bCCKTxSC						0x30
++#define		bCCKEn						0x1000000
++#define		bOFDMEn					0x2000000
++
++#define		bOFDMRxADCPhase           		0x10000	/* Useless now */
++#define		bOFDMTxDACPhase		0x40000
++#define		bXATxAGC				0x3f
++
++#define		bAntennaSelect			0x0300
++
++#define		bXBTxAGC                  				0xf00	/* Reg 80c rFPGA0_TxGainStage */
++#define		bXCTxAGC				0xf000
++#define		bXDTxAGC				0xf0000
++
++#define		bPAStart                  				0xf0000000	/* Useless now */
++#define		bTRStart				0x00f00000
++#define		bRFStart				0x0000f000
++#define		bBBStart				0x000000f0
++#define		bBBCCKStart			0x0000000f
++#define		bPAEnd                    				0xf          /* Reg0x814 */
++#define		bTREnd				0x0f000000
++#define		bRFEnd				0x000f0000
++#define		bCCAMask                  				0x000000f0   /* T2R */
++#define		bR2RCCAMask			0x00000f00
++#define		bHSSI_R2TDelay			0xf8000000
++#define		bHSSI_T2RDelay			0xf80000
++#define		bContTxHSSI               			0x400     /* chane gain at continue Tx */
++#define		bIGFromCCK			0x200
++#define		bAGCAddress			0x3f
++#define		bRxHPTx				0x7000
++#define		bRxHPT2R				0x38000
++#define		bRxHPCCKIni			0xc0000
++#define		bAGCTxCode			0xc00000
++#define		bAGCRxCode			0x300000
++
++#define		b3WireDataLength          			0x800	/* Reg 0x820~84f rFPGA0_XA_HSSIParameter1 */
++#define		b3WireAddressLength		0x400
++
++#define		b3WireRFPowerDown         		0x1	/* Useless now
++ * #define bHWSISelect		0x8 */
++#define		b5GPAPEPolarity			0x40000000
++#define		b2GPAPEPolarity			0x80000000
++#define		bRFSW_TxDefaultAnt		0x3
++#define		bRFSW_TxOptionAnt		0x30
++#define		bRFSW_RxDefaultAnt		0x300
++#define		bRFSW_RxOptionAnt		0x3000
++#define		bRFSI_3WireData			0x1
++#define		bRFSI_3WireClock			0x2
++#define		bRFSI_3WireLoad			0x4
++#define		bRFSI_3WireRW			0x8
++#define		bRFSI_3Wire			0xf
++
++#define		bRFSI_RFENV               		0x10	/* Reg 0x870 rFPGA0_XAB_RFInterfaceSW */
++
++#define		bRFSI_TRSW                		0x20	/* Useless now */
++#define		bRFSI_TRSWB		0x40
++#define		bRFSI_ANTSW		0x100
++#define		bRFSI_ANTSWB		0x200
++#define		bRFSI_PAPE			0x400
++#define		bRFSI_PAPE5G		0x800
++#define		bBandSelect			0x1
++#define		bHTSIG2_GI			0x80
++#define		bHTSIG2_Smoothing		0x01
++#define		bHTSIG2_Sounding		0x02
++#define		bHTSIG2_Aggreaton		0x08
++#define		bHTSIG2_STBC		0x30
++#define		bHTSIG2_AdvCoding		0x40
++#define		bHTSIG2_NumOfHTLTF	0x300
++#define		bHTSIG2_CRC8		0x3fc
++#define		bHTSIG1_MCS		0x7f
++#define		bHTSIG1_BandWidth		0x80
++#define		bHTSIG1_HTLength		0xffff
++#define		bLSIG_Rate			0xf
++#define		bLSIG_Reserved		0x10
++#define		bLSIG_Length		0x1fffe
++#define		bLSIG_Parity			0x20
++#define		bCCKRxPhase		0x4
++
++#define		bLSSIReadAddress          		0x7f800000   /* T65 RF */
++
++#define		bLSSIReadEdge             		0x80000000   /* LSSI "Read" edge signal */
++
++#define		bLSSIReadBackData         		0xfffff		/* T65 RF */
++
++#define		bLSSIReadOKFlag           		0x1000	/* Useless now */
++#define		bCCKSampleRate            		0x8       /* 0: 44MHz, 1:88MHz      		 */
++#define		bRegulator0Standby		0x1
++#define		bRegulatorPLLStandby	0x2
++#define		bRegulator1Standby		0x4
++#define		bPLLPowerUp		0x8
++#define		bDPLLPowerUp		0x10
++#define		bDA10PowerUp		0x20
++#define		bAD7PowerUp		0x200
++#define		bDA6PowerUp		0x2000
++#define		bXtalPowerUp		0x4000
++#define		b40MDClkPowerUP	0x8000
++#define		bDA6DebugMode		0x20000
++#define		bDA6Swing			0x380000
++
++#define		bADClkPhase               		0x4000000	/* Reg 0x880 rFPGA0_AnalogParameter1 20/40 CCK support switch 40/80 BB MHZ */
++
++#define		b80MClkDelay              		0x18000000	/* Useless */
++#define		bAFEWatchDogEnable	0x20000000
++
++#define		bXtalCap01                			0xc0000000	/* Reg 0x884 rFPGA0_AnalogParameter2 Crystal cap */
++#define		bXtalCap23			0x3
++#define		bXtalCap92x				0x0f000000
++#define		bXtalCap			0x0f000000
++
++#define		bIntDifClkEnable          		0x400	/* Useless */
++#define		bExtSigClkEnable		0x800
++#define		bBandgapMbiasPowerUp	0x10000
++#define		bAD11SHGain		0xc0000
++#define		bAD11InputRange		0x700000
++#define		bAD11OPCurrent		0x3800000
++#define		bIPathLoopback		0x4000000
++#define		bQPathLoopback		0x8000000
++#define		bAFELoopback		0x10000000
++#define		bDA10Swing		0x7e0
++#define		bDA10Reverse		0x800
++#define		bDAClkSource		0x1000
++#define		bAD7InputRange		0x6000
++#define		bAD7Gain			0x38000
++#define		bAD7OutputCMMode	0x40000
++#define		bAD7InputCMMode	0x380000
++#define		bAD7Current		0xc00000
++#define		bRegulatorAdjust		0x7000000
++#define		bAD11PowerUpAtTx	0x1
++#define		bDA10PSAtTx		0x10
++#define		bAD11PowerUpAtRx	0x100
++#define		bDA10PSAtRx		0x1000
++#define		bCCKRxAGCFormat		0x200
++#define		bPSDFFTSamplepPoint	0xc000
++#define		bPSDAverageNum		0x3000
++#define		bIQPathControl		0xc00
++#define		bPSDFreq			0x3ff
++#define		bPSDAntennaPath		0x30
++#define		bPSDIQSwitch		0x40
++#define		bPSDRxTrigger		0x400000
++#define		bPSDTxTrigger		0x80000000
++#define		bPSDSineToneScale		0x7f000000
++#define		bPSDReport		0xffff
++
++/* 3. Page9(0x900) */
++#define		bOFDMTxSC                 		0x30000000	/* Useless */
++#define		bCCKTxOn			0x1
++#define		bOFDMTxOn		0x2
++#define		bDebugPage                		0xfff  /* reset debug page and also HWord, LWord */
++#define		bDebugItem                		0xff   /* reset debug page and LWord */
++#define		bAntL				0x10
++#define		bAntNonHT			0x100
++#define		bAntHT1			0x1000
++#define		bAntHT2			0x10000
++#define		bAntHT1S1			0x100000
++#define		bAntNonHTS1		0x1000000
++
++/* 4. PageA(0xA00) */
++#define		bCCKBBMode                		0x3	/* Useless */
++#define		bCCKTxPowerSaving		0x80
++#define		bCCKRxPowerSaving		0x40
++
++#define		bCCKSideBand              		0x10	/* Reg 0xa00 rCCK0_System 20/40 switch */
++
++#define		bCCKScramble              		0x8	/* Useless */
++#define		bCCKAntDiversity			0x8000
++#define		bCCKCarrierRecovery		0x4000
++#define		bCCKTxRate			0x3000
++#define		bCCKDCCancel		0x0800
++#define		bCCKISICancel		0x0400
++#define		bCCKMatchFilter		0x0200
++#define		bCCKEqualizer		0x0100
++#define		bCCKPreambleDetect		0x800000
++#define		bCCKFastFalseCCA		0x400000
++#define		bCCKChEstStart		0x300000
++#define		bCCKCCACount		0x080000
++#define		bCCKcs_lim			0x070000
++#define		bCCKBistMode		0x80000000
++#define		bCCKCCAMask		0x40000000
++#define		bCCKTxDACPhase		0x4
++#define		bCCKRxADCPhase         	   	0x20000000   /* r_rx_clk */
++#define		bCCKr_cp_mode0		0x0100
++#define		bCCKTxDCOffset		0xf0
++#define		bCCKRxDCOffset		0xf
++#define		bCCKCCAMode		0xc000
++#define		bCCKFalseCS_lim		0x3f00
++#define		bCCKCS_ratio		0xc00000
++#define		bCCKCorgBit_sel		0x300000
++#define		bCCKPD_lim		0x0f0000
++#define		bCCKNewCCA		0x80000000
++#define		bCCKRxHPofIG		0x8000
++#define		bCCKRxIG			0x7f00
++#define		bCCKLNAPolarity		0x800000
++#define		bCCKRx1stGain		0x7f0000
++#define		bCCKRFExtend              		0x20000000 /* CCK Rx Iinital gain polarity */
++#define		bCCKRxAGCSatLevel		0x1f000000
++#define		bCCKRxAGCSatCount		0xe0
++#define		bCCKRxRFSettle            		0x1f       /* AGCsamp_dly */
++#define		bCCKFixedRxAGC		0x8000
++/* #define bCCKRxAGCFormat		0x4000 */   /* remove to HSSI register 0x824 */
++#define		bCCKAntennaPolarity		0x2000
++#define		bCCKTxFilterType		0x0c00
++#define		bCCKRxAGCReportType		0x0300
++#define		bCCKRxDAGCEn		0x80000000
++#define		bCCKRxDAGCPeriod		0x20000000
++#define		bCCKRxDAGCSatLevel		0x1f000000
++#define		bCCKTimingRecovery		0x800000
++#define		bCCKTxC0			0x3f0000
++#define		bCCKTxC1			0x3f000000
++#define		bCCKTxC2			0x3f
++#define		bCCKTxC3			0x3f00
++#define		bCCKTxC4			0x3f0000
++#define		bCCKTxC5			0x3f000000
++#define		bCCKTxC6			0x3f
++#define		bCCKTxC7			0x3f00
++#define		bCCKDebugPort		0xff0000
++#define		bCCKDACDebug		0x0f000000
++#define		bCCKFalseAlarmEnable	0x8000
++#define		bCCKFalseAlarmRead	0x4000
++#define		bCCKTRSSI			0x7f
++#define		bCCKRxAGCReport		0xfe
++#define		bCCKRxReport_AntSel	0x80000000
++#define		bCCKRxReport_MFOff	0x40000000
++#define		bCCKRxRxReport_SQLoss	0x20000000
++#define		bCCKRxReport_Pktloss	0x10000000
++#define		bCCKRxReport_Lockedbit	0x08000000
++#define		bCCKRxReport_RateError	0x04000000
++#define		bCCKRxReport_RxRate	0x03000000
++#define		bCCKRxFACounterLower	0xff
++#define		bCCKRxFACounterUpper	0xff000000
++#define		bCCKRxHPAGCStart		0xe000
++#define		bCCKRxHPAGCFinal		0x1c00
++#define		bCCKRxFalseAlarmEnable	0x8000
++#define		bCCKFACounterFreeze	0x4000
++#define		bCCKTxPathSel		0x10000000
++#define		bCCKDefaultRxPath		0xc000000
++#define		bCCKOptionRxPath		0x3000000
++
++/* 5. PageC(0xC00) */
++#define		bNumOfSTF                			0x3	/* Useless */
++#define		bShift_L			0xc0
++#define		bGI_TH			0xc
++#define		bRxPathA			0x1
++#define		bRxPathB			0x2
++#define		bRxPathC			0x4
++#define		bRxPathD			0x8
++#define		bTxPathA			0x1
++#define		bTxPathB			0x2
++#define		bTxPathC			0x4
++#define		bTxPathD			0x8
++#define		bTRSSIFreq			0x200
++#define		bADCBackoff			0x3000
++#define		bDFIRBackoff			0xc000
++#define		bTRSSILatchPhase		0x10000
++#define		bRxIDCOffset			0xff
++#define		bRxQDCOffset		0xff00
++#define		bRxDFIRMode		0x1800000
++#define		bRxDCNFType		0xe000000
++#define		bRXIQImb_A		0x3ff
++#define		bRXIQImb_B			0xfc00
++#define		bRXIQImb_C			0x3f0000
++#define		bRXIQImb_D		0xffc00000
++#define		bDC_dc_Notch		0x60000
++#define		bRxNBINotch		0x1f000000
++#define		bPD_TH			0xf
++#define		bPD_TH_Opt2		0xc000
++#define		bPWED_TH			0x700
++#define		bIfMF_Win_L		0x800
++#define		bPD_Option			0x1000
++#define		bMF_Win_L			0xe000
++#define		bBW_Search_L		0x30000
++#define		bwin_enh_L			0xc0000
++#define		bBW_TH			0x700000
++#define		bED_TH2			0x3800000
++#define		bBW_option			0x4000000
++#define		bRatio_TH			0x18000000
++#define		bWindow_L			0xe0000000
++#define		bSBD_Option		0x1
++#define		bFrame_TH			0x1c
++#define		bFS_Option			0x60
++#define		bDC_Slope_check		0x80
++#define		bFGuard_Counter_DC_L	0xe00
++#define		bFrame_Weight_Short	0x7000
++#define		bSub_Tune			0xe00000
++#define		bFrame_DC_Length		0xe000000
++#define		bSBD_start_offset		0x30000000
++#define		bFrame_TH_2		0x7
++#define		bFrame_GI2_TH		0x38
++#define		bGI2_Sync_en		0x40
++#define		bSarch_Short_Early		0x300
++#define		bSarch_Short_Late		0xc00
++#define		bSarch_GI2_Late		0x70000
++#define		bCFOAntSum		0x1
++#define		bCFOAcc			0x2
++#define		bCFOStartOffset		0xc
++#define		bCFOLookBack		0x70
++#define		bCFOSumWeight		0x80
++#define		bDAGCEnable		0x10000
++#define		bTXIQImb_A			0x3ff
++#define		bTXIQImb_B			0xfc00
++#define		bTXIQImb_C			0x3f0000
++#define		bTXIQImb_D			0xffc00000
++#define		bTxIDCOffset			0xff
++#define		bTxQDCOffset		0xff00
++#define		bTxDFIRMode		0x10000
++#define		bTxPesudoNoiseOn		0x4000000
++#define		bTxPesudoNoise_A		0xff
++#define		bTxPesudoNoise_B		0xff00
++#define		bTxPesudoNoise_C		0xff0000
++#define		bTxPesudoNoise_D		0xff000000
++#define		bCCADropOption		0x20000
++#define		bCCADropThres		0xfff00000
++#define		bEDCCA_H			0xf
++#define		bEDCCA_L			0xf0
++#define		bLambda_ED		0x300
++#define		bRxInitialGain			0x7f
++#define		bRxAntDivEn		0x80
++#define		bRxAGCAddressForLNA	0x7f00
++#define		bRxHighPowerFlow		0x8000
++#define		bRxAGCFreezeThres		0xc0000
++#define		bRxFreezeStep_AGC1	0x300000
++#define		bRxFreezeStep_AGC2	0xc00000
++#define		bRxFreezeStep_AGC3	0x3000000
++#define		bRxFreezeStep_AGC0	0xc000000
++#define		bRxRssi_Cmp_En		0x10000000
++#define		bRxQuickAGCEn		0x20000000
++#define		bRxAGCFreezeThresMode	0x40000000
++#define		bRxOverFlowCheckType	0x80000000
++#define		bRxAGCShift			0x7f
++#define		bTRSW_Tri_Only		0x80
++#define		bPowerThres		0x300
++#define		bRxAGCEn			0x1
++#define		bRxAGCTogetherEn		0x2
++#define		bRxAGCMin		0x4
++#define		bRxHP_Ini			0x7
++#define		bRxHP_TRLNA		0x70
++#define		bRxHP_RSSI			0x700
++#define		bRxHP_BBP1		0x7000
++#define		bRxHP_BBP2		0x70000
++#define		bRxHP_BBP3		0x700000
++#define		bRSSI_H                  			0x7f0000     /* the threshold for high power */
++#define		bRSSI_Gen                			0x7f000000   /* the threshold for ant diversity */
++#define		bRxSettle_TRSW		0x7
++#define		bRxSettle_LNA		0x38
++#define		bRxSettle_RSSI		0x1c0
++#define		bRxSettle_BBP		0xe00
++#define		bRxSettle_RxHP		0x7000
++#define		bRxSettle_AntSW_RSSI	0x38000
++#define		bRxSettle_AntSW		0xc0000
++#define		bRxProcessTime_DAGC	0x300000
++#define		bRxSettle_HSSI		0x400000
++#define		bRxProcessTime_BBPPW	0x800000
++#define		bRxAntennaPowerShift	0x3000000
++#define		bRSSITableSelect		0xc000000
++#define		bRxHP_Final			0x7000000
++#define		bRxHTSettle_BBP		0x7
++#define		bRxHTSettle_HSSI		0x8
++#define		bRxHTSettle_RxHP		0x70
++#define		bRxHTSettle_BBPPW		0x80
++#define		bRxHTSettle_Idle		0x300
++#define		bRxHTSettle_Reserved	0x1c00
++#define		bRxHTRxHPEn		0x8000
++#define		bRxHTAGCFreezeThres	0x30000
++#define		bRxHTAGCTogetherEn	0x40000
++#define		bRxHTAGCMin		0x80000
++#define		bRxHTAGCEn		0x100000
++#define		bRxHTDAGCEn		0x200000
++#define		bRxHTRxHP_BBP		0x1c00000
++#define		bRxHTRxHP_Final		0xe0000000
++#define		bRxPWRatioTH		0x3
++#define		bRxPWRatioEn		0x4
++#define		bRxMFHold			0x3800
++#define		bRxPD_Delay_TH1		0x38
++#define		bRxPD_Delay_TH2		0x1c0
++#define		bRxPD_DC_COUNT_MAX	0x600
++/* #define bRxMF_Hold               0x3800 */
++#define		bRxPD_Delay_TH		0x8000
++#define		bRxProcess_Delay		0xf0000
++#define		bRxSearchrange_GI2_Early	0x700000
++#define		bRxFrame_Guard_Counter_L	0x3800000
++#define		bRxSGI_Guard_L		0xc000000
++#define		bRxSGI_Search_L		0x30000000
++#define		bRxSGI_TH			0xc0000000
++#define		bDFSCnt0			0xff
++#define		bDFSCnt1			0xff00
++#define		bDFSFlag			0xf0000
++#define		bMFWeightSum		0x300000
++#define		bMinIdxTH			0x7f000000
++#define		bDAFormat			0x40000
++#define		bTxChEmuEnable		0x01000000
++#define		bTRSWIsolation_A		0x7f
++#define		bTRSWIsolation_B		0x7f00
++#define		bTRSWIsolation_C		0x7f0000
++#define		bTRSWIsolation_D		0x7f000000
++#define		bExtLNAGain		0x7c00
++
++/* 6. PageE(0xE00) */
++#define		bSTBCEn                  			0x4	/* Useless */
++#define		bAntennaMapping		0x10
++#define		bNss			0x20
++#define		bCFOAntSumD		0x200
++#define		bPHYCounterReset		0x8000000
++#define		bCFOReportGet		0x4000000
++#define		bOFDMContinueTx		0x10000000
++#define		bOFDMSingleCarrier		0x20000000
++#define		bOFDMSingleTone		0x40000000
++/* #define bRxPath1                 0x01 */
++/* #define bRxPath2                 0x02 */
++/* #define bRxPath3                 0x04 */
++/* #define bRxPath4                 0x08 */
++/* #define bTxPath1                 0x10 */
++/* #define bTxPath2                 0x20 */
++#define		bHTDetect			0x100
++#define		bCFOEn			0x10000
++#define		bCFOValue			0xfff00000
++#define		bSigTone_Re			0x3f
++#define		bSigTone_Im			0x7f00
++#define		bCounter_CCA		0xffff
++#define		bCounter_ParityFail		0xffff0000
++#define		bCounter_RateIllegal		0xffff
++#define		bCounter_CRC8Fail		0xffff0000
++#define		bCounter_MCSNoSupport	0xffff
++#define		bCounter_FastSync		0xffff
++#define		bShortCFO			0xfff
++#define		bShortCFOTLength         		12   /* total */
++#define		bShortCFOFLength         		11   /* fraction */
++#define		bLongCFO			0x7ff
++#define		bLongCFOTLength		11
++#define		bLongCFOFLength		11
++#define		bTailCFO			0x1fff
++#define		bTailCFOTLength		13
++#define		bTailCFOFLength		12
++#define		bmax_en_pwdB		0xffff
++#define		bCC_power_dB		0xffff0000
++#define		bnoise_pwdB		0xffff
++#define		bPowerMeasTLength	10
++#define		bPowerMeasFLength	3
++#define		bRx_HT_BW		0x1
++#define		bRxSC			0x6
++#define		bRx_HT			0x8
++#define		bNB_intf_det_on		0x1
++#define		bIntf_win_len_cfg		0x30
++#define		bNB_Intf_TH_cfg		0x1c0
++#define		bRFGain			0x3f
++#define		bTableSel			0x40
++#define		bTRSW			0x80
++#define		bRxSNR_A			0xff
++#define		bRxSNR_B			0xff00
++#define		bRxSNR_C			0xff0000
++#define		bRxSNR_D			0xff000000
++#define		bSNREVMTLength		8
++#define		bSNREVMFLength		1
++#define		bCSI1st			0xff
++#define		bCSI2nd			0xff00
++#define		bRxEVM1st			0xff0000
++#define		bRxEVM2nd		0xff000000
++#define		bSIGEVM			0xff
++#define		bPWDB			0xff00
++#define		bSGIEN			0x10000
++
++#define		bSFactorQAM1             		0xf	/* Useless */
++#define		bSFactorQAM2		0xf0
++#define		bSFactorQAM3		0xf00
++#define		bSFactorQAM4		0xf000
++#define		bSFactorQAM5		0xf0000
++#define		bSFactorQAM6		0xf0000
++#define		bSFactorQAM7		0xf00000
++#define		bSFactorQAM8		0xf000000
++#define		bSFactorQAM9		0xf0000000
++#define		bCSIScheme			0x100000
++
++#define		bNoiseLvlTopSet          		0x3	/* Useless */
++#define		bChSmooth			0x4
++#define		bChSmoothCfg1		0x38
++#define		bChSmoothCfg2		0x1c0
++#define		bChSmoothCfg3		0xe00
++#define		bChSmoothCfg4		0x7000
++#define		bMRCMode		0x800000
++#define		bTHEVMCfg			0x7000000
++
++#define		bLoopFitType             			0x1	/* Useless */
++#define		bUpdCFO			0x40
++#define		bUpdCFOOffData		0x80
++#define		bAdvUpdCFO		0x100
++#define		bAdvTimeCtrl		0x800
++#define		bUpdClko			0x1000
++#define		bFC				0x6000
++#define		bTrackingMode		0x8000
++#define		bPhCmpEnable		0x10000
++#define		bUpdClkoLTF			0x20000
++#define		bComChCFO		0x40000
++#define		bCSIEstiMode		0x80000
++#define		bAdvUpdEqz		0x100000
++#define		bUChCfg			0x7000000
++#define		bUpdEqz			0x8000000
++
++/* Rx Pseduo noise */
++#define		bRxPesudoNoiseOn         		0x20000000	/* Useless */
++#define		bRxPesudoNoise_A		0xff
++#define		bRxPesudoNoise_B		0xff00
++#define		bRxPesudoNoise_C		0xff0000
++#define		bRxPesudoNoise_D		0xff000000
++#define		bPesudoNoiseState_A	0xffff
++#define		bPesudoNoiseState_B	0xffff0000
++#define		bPesudoNoiseState_C		0xffff
++#define		bPesudoNoiseState_D	0xffff0000
++
++/* 7. RF Register
++ * Zebra1 */
++#define		bZebra1_HSSIEnable        		0x8		/* Useless */
++#define		bZebra1_TRxControl		0xc00
++#define		bZebra1_TRxGainSetting	0x07f
++#define		bZebra1_RxCorner		0xc00
++#define		bZebra1_TxChargePump	0x38
++#define		bZebra1_RxChargePump	0x7
++#define		bZebra1_ChannelNum	0xf80
++#define		bZebra1_TxLPFBW		0x400
++#define		bZebra1_RxLPFBW		0x600
++
++/* Zebra4 */
++#define		bRTL8256RegModeCtrl1      	0x100	/* Useless */
++#define		bRTL8256RegModeCtrl0	0x40
++#define		bRTL8256_TxLPFBW	0x18
++#define		bRTL8256_RxLPFBW	0x600
++
++/* RTL8258 */
++#define		bRTL8258_TxLPFBW          	0xc	/* Useless */
++#define		bRTL8258_RxLPFBW	0xc00
++#define		bRTL8258_RSSILPFBW	0xc0
++
++
++/*
++ * Other Definition
++ *   */
++
++/* byte endable for sb_write */
++#define		bByte0                    			0x1	/* Useless */
++#define		bByte1			0x2
++#define		bByte2			0x4
++#define		bByte3			0x8
++#define		bWord0			0x3
++#define		bWord1			0xc
++#define		bDWord			0xf
++
++/* for PutRegsetting & GetRegSetting BitMask */
++#define		bMaskByte0                		0xff	/* Reg 0xc50 rOFDM0_XAAGCCore~0xC6f */
++#define		bMaskByte1		0xff00
++#define		bMaskByte2		0xff0000
++#define		bMaskByte3		0xff000000
++#define		bMaskHWord		0xffff0000
++#define		bMaskLWord		0x0000ffff
++#define		bMaskDWord		0xffffffff
++#define		bMaskH3Bytes				0xffffff00
++#define		bMask12Bits				0xfff
++#define		bMaskH4Bits				0xf0000000
++#define		bMaskOFDM_D			0xffc00000
++#define		bMaskCCK				0x3f3f3f3f
++
++
++
++#define		bEnable                   0x1	/* Useless */
++#define		bDisable                  0x0
++
++#define		LeftAntenna               			0x0	/* Useless */
++#define		RightAntenna		0x1
++
++#define		tCheckTxStatus            		500   /* 500ms */ /* Useless */
++#define		tUpdateRxCounter          		100   /* 100ms */
++
++#define		rateCCK     				0	/* Useless */
++#define		rateOFDM				1
++#define		rateHT					2
++
++/* define Register-End */
++#define		bPMAC_End                 		0x1ff	/* Useless */
++#define		bFPGAPHY0_End		0x8ff
++#define		bFPGAPHY1_End		0x9ff
++#define		bCCKPHY0_End		0xaff
++#define		bOFDMPHY0_End		0xcff
++#define		bOFDMPHY1_End		0xdff
++
++/* define max debug item in each debug page
++ * #define bMaxItem_FPGA_PHY0        0x9
++ * #define bMaxItem_FPGA_PHY1        0x3
++ * #define bMaxItem_PHY_11B          0x16
++ * #define bMaxItem_OFDM_PHY0        0x29
++ * #define bMaxItem_OFDM_PHY1        0x0 */
++
++#define		bPMACControl              		0x0		/* Useless */
++#define		bWMACControl		0x1
++#define		bWNICControl		0x2
++
++#define		PathA                     			0x0	/* Useless */
++#define		PathB			0x1
++#define		PathC			0x2
++#define		PathD			0x3
++
++/*--------------------------Define Parameters-------------------------------*/
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8188EPwrSeq.h b/drivers/net/wireless/rtl8723du/include/Hal8188EPwrSeq.h
+new file mode 100644
+index 0000000..385722a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8188EPwrSeq.h
+@@ -0,0 +1,175 @@
++
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __HAL8188EPWRSEQ_H__
++#define __HAL8188EPWRSEQ_H__
++
++#include "HalPwrSeqCmd.h"
++
++/*
++	Check document WM-20110607-Paul-RTL8188E_Power_Architecture-R02.vsd
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transision from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++
++    PWR SEQ Version: rtl8188E_PwrSeq_V09.h
++*/
++#define	RTL8188E_TRANS_CARDEMU_TO_ACT_STEPS	10
++#define	RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS	10
++#define	RTL8188E_TRANS_CARDEMU_TO_SUS_STEPS	10
++#define	RTL8188E_TRANS_SUS_TO_CARDEMU_STEPS	10
++#define	RTL8188E_TRANS_CARDEMU_TO_PDN_STEPS	10
++#define	RTL8188E_TRANS_PDN_TO_CARDEMU_STEPS	10
++#define	RTL8188E_TRANS_ACT_TO_LPS_STEPS	15
++#define	RTL8188E_TRANS_LPS_TO_ACT_STEPS	15
++#define	RTL8188E_TRANS_END_STEPS	1
++
++
++#define RTL8188E_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1    power ready*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0 | BIT1, 0}, /* 0x02[1:0] = 0	reset BB*/			\
++	{0x0026, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7}, /*0x24[23] = 2b'01 schmit trigger */	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0}, /* 0x04[15] = 0 disable HWPDN (control by DRV)*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4 | BIT3, 0}, /*0x04[12:11] = 2b'00 disable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /*0x04[8] = 1 polling until return 0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0}, /*wait till 0x04[8] = 0*/	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*LDO normal mode*/	\
++
++#define RTL8188E_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*0x1F[7:0] = 0 turn off RF*/	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*LDO Sleep mode*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/	\
++
++#define RTL8188E_TRANS_CARDEMU_TO_SUS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01enable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3 | BIT4}, /*0x04[12:11] = 2b'11enable WL suspend for PCIe*/	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, BIT7}, /*  0x04[31:30] = 2b'10 enable enable bandgap mbias in suspend */	\
++	{0x0041, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*Clear SIC_EN register 0x40[12] = 1'b0 */	\
++	{0xfe10, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*Set USB suspend enable local register  0xfe10[4]=1 */	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8188E_TRANS_SUS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
++
++#define RTL8188E_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0026, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7}, /*0x24[23] = 2b'01 schmit trigger */	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*  0x04[31:30] = 2b'10 enable enable bandgap mbias in suspend */	\
++	{0x0041, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*Clear SIC_EN register 0x40[12] = 1'b0 */	\
++	{0xfe10, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*Set USB suspend enable local register  0xfe10[4]=1 */	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8188E_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
++
++#define RTL8188E_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/* 0x04[16] = 0*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
++
++#define RTL8188E_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
++
++	/* This is used by driver for LPSRadioOff Procedure, not for FW LPS Step */
++#define RTL8188E_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x7F},/*Tx Pause*/	\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x3F},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/	\
++
++
++#define RTL8188E_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM*/\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/\
++	{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*.	0x08[4] = 0		 switch TSF to 40M*/\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, 0}, /*Polling 0x109[7]=0  TSF in 40M*/\
++	{0x0029, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6 | BIT7, 0}, /*.	0x29[7:6] = 2b'00	 enable BB clock*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++#define RTL8188E_TRANS_END															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++	extern WLAN_PWR_CFG rtl8188E_power_on_flow[RTL8188E_TRANS_CARDEMU_TO_ACT_STEPS + RTL8188E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188E_radio_off_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188E_card_disable_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188E_TRANS_CARDEMU_TO_PDN_STEPS + RTL8188E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188E_card_enable_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188E_TRANS_CARDEMU_TO_PDN_STEPS + RTL8188E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188E_suspend_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188E_TRANS_CARDEMU_TO_SUS_STEPS + RTL8188E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188E_resume_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188E_TRANS_CARDEMU_TO_SUS_STEPS + RTL8188E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188E_hwpdn_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188E_TRANS_CARDEMU_TO_PDN_STEPS + RTL8188E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188E_enter_lps_flow[RTL8188E_TRANS_ACT_TO_LPS_STEPS + RTL8188E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188E_leave_lps_flow[RTL8188E_TRANS_LPS_TO_ACT_STEPS + RTL8188E_TRANS_END_STEPS];
++
++#endif /* __HAL8188EPWRSEQ_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8188FPhyCfg.h b/drivers/net/wireless/rtl8723du/include/Hal8188FPhyCfg.h
+new file mode 100644
+index 0000000..d0a5ed8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8188FPhyCfg.h
+@@ -0,0 +1,136 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8188FPHYCFG_H__
++#define __INC_HAL8188FPHYCFG_H__
++
++/*--------------------------Define Parameters-------------------------------*/
++#define LOOP_LIMIT				5
++#define MAX_STALL_TIME			50		/* us */
++#define AntennaDiversityValue	0x80	/* (Adapter->bSoftwareAntennaDiversity ? 0x00 : 0x80) */
++#define MAX_TXPWR_IDX_NMODE_92S	63
++#define Reset_Cnt_Limit			3
++
++#ifdef CONFIG_PCI_HCI
++	#define MAX_AGGR_NUM	0x0B
++#else
++	#define MAX_AGGR_NUM	0x07
++#endif /* CONFIG_PCI_HCI */
++
++
++/*--------------------------Define Parameters End-------------------------------*/
++
++
++/*------------------------------Define structure----------------------------*/
++
++/*------------------------------Define structure End----------------------------*/
++
++/*--------------------------Exported Function prototype---------------------*/
++u32
++PHY_QueryBBReg_8188F(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask
++);
++
++VOID
++PHY_SetBBReg_8188F(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask,
++	IN	u32		Data
++);
++
++u32
++PHY_QueryRFReg_8188F(
++	IN	PADAPTER			Adapter,
++	IN	u8				eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask
++);
++
++VOID
++PHY_SetRFReg_8188F(
++	IN	PADAPTER			Adapter,
++	IN	u8				eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask,
++	IN	u32				Data
++);
++
++/* MAC/BB/RF HAL config */
++int PHY_BBConfig8188F(PADAPTER	Adapter);
++
++int PHY_RFConfig8188F(PADAPTER	Adapter);
++
++s32 PHY_MACConfig8188F(PADAPTER padapter);
++
++int
++PHY_ConfigRFWithParaFile_8188F(
++	IN	PADAPTER			Adapter,
++	IN	u8				*pFileName,
++	RF_PATH				eRFPath
++);
++
++VOID
++PHY_SetTxPowerIndex_8188F(
++	IN	PADAPTER			Adapter,
++	IN	u32					PowerIndex,
++	IN	u8					RFPath,
++	IN	u8					Rate
++);
++
++u8
++PHY_GetTxPowerIndex_8188F(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	u8					Rate,
++	IN	u8		BandWidth,
++	IN	u8					Channel,
++	struct txpwr_idx_comp *tic
++);
++
++VOID
++PHY_GetTxPowerLevel8188F(
++	IN	PADAPTER		Adapter,
++	OUT s32				*powerlevel
++);
++
++VOID
++PHY_SetTxPowerLevel8188F(
++	IN	PADAPTER		Adapter,
++	IN	u8			channel
++);
++
++VOID
++PHY_SetSwChnlBWMode8188F(
++	IN	PADAPTER			Adapter,
++	IN	u8					channel,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					Offset40,
++	IN	u8					Offset80
++);
++
++VOID PHY_SetRFPathSwitch_8188F(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bMain
++);
++/*--------------------------Exported Function prototype End---------------------*/
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8188FPhyReg.h b/drivers/net/wireless/rtl8723du/include/Hal8188FPhyReg.h
+new file mode 100644
+index 0000000..8d38c0f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8188FPhyReg.h
+@@ -0,0 +1,1170 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8188FPHYREG_H__
++#define __INC_HAL8188FPHYREG_H__
++
++/*--------------------------Define Parameters-------------------------------*/
++
++/* ************************************************************
++ * Regsiter offset definition
++ * ************************************************************ */
++
++/*
++ * BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++ * 3. RF register 0x00-2E
++ * 4. Bit Mask for BB/RF register
++ * 5. Other defintion for BB/RF R/W
++ *   */
++
++
++/*
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 1. Page1(0x100)
++ *   */
++#define		rPMAC_Reset					0x100
++#define		rPMAC_TxStart					0x104
++#define		rPMAC_TxLegacySIG				0x108
++#define		rPMAC_TxHTSIG1				0x10c
++#define		rPMAC_TxHTSIG2				0x110
++#define		rPMAC_PHYDebug				0x114
++#define		rPMAC_TxPacketNum				0x118
++#define		rPMAC_TxIdle					0x11c
++#define		rPMAC_TxMACHeader0			0x120
++#define		rPMAC_TxMACHeader1			0x124
++#define		rPMAC_TxMACHeader2			0x128
++#define		rPMAC_TxMACHeader3			0x12c
++#define		rPMAC_TxMACHeader4			0x130
++#define		rPMAC_TxMACHeader5			0x134
++#define		rPMAC_TxDataType				0x138
++#define		rPMAC_TxRandomSeed			0x13c
++#define		rPMAC_CCKPLCPPreamble			0x140
++#define		rPMAC_CCKPLCPHeader			0x144
++#define		rPMAC_CCKCRC16				0x148
++#define		rPMAC_OFDMRxCRC32OK			0x170
++#define		rPMAC_OFDMRxCRC32Er			0x174
++#define		rPMAC_OFDMRxParityEr			0x178
++#define		rPMAC_OFDMRxCRC8Er			0x17c
++#define		rPMAC_CCKCRxRC16Er			0x180
++#define		rPMAC_CCKCRxRC32Er			0x184
++#define		rPMAC_CCKCRxRC32OK			0x188
++#define		rPMAC_TxStatus					0x18c
++
++/*
++ * 2. Page2(0x200)
++ *
++ * The following two definition are only used for USB interface. */
++#define		RF_BB_CMD_ADDR				0x02c0	/* RF/BB read/write command address. */
++#define		RF_BB_CMD_DATA				0x02c4	/* RF/BB read/write command data. */
++
++/*
++ * 3. Page8(0x800)
++ *   */
++#define		rFPGA0_RFMOD				0x800	/* RF mode & CCK TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA0_TxInfo				0x804	/* Status report?? */
++#define		rFPGA0_PSDFunction			0x808
++
++#define		rFPGA0_TxGainStage			0x80c	/* Set TX PWR init gain? */
++
++#define		rFPGA0_RFTiming1			0x810	/* Useless now */
++#define		rFPGA0_RFTiming2			0x814
++
++#define		rFPGA0_XA_HSSIParameter1		0x820	/* RF 3 wire register */
++#define		rFPGA0_XA_HSSIParameter2		0x824
++#define		rFPGA0_XB_HSSIParameter1		0x828
++#define		rFPGA0_XB_HSSIParameter2		0x82c
++#define		rTxAGC_B_Rate18_06				0x830
++#define		rTxAGC_B_Rate54_24				0x834
++#define		rTxAGC_B_CCK1_55_Mcs32		0x838
++#define		rTxAGC_B_Mcs03_Mcs00			0x83c
++
++#define		rTxAGC_B_Mcs07_Mcs04			0x848
++#define		rTxAGC_B_Mcs11_Mcs08			0x84c
++
++#define		rFPGA0_XA_LSSIParameter		0x840
++#define		rFPGA0_XB_LSSIParameter		0x844
++
++#define		rFPGA0_RFWakeUpParameter		0x850	/* Useless now */
++#define		rFPGA0_RFSleepUpParameter		0x854
++
++#define		rFPGA0_XAB_SwitchControl		0x858	/* RF Channel switch */
++#define		rFPGA0_XCD_SwitchControl		0x85c
++
++#define		rFPGA0_XA_RFInterfaceOE		0x860	/* RF Channel switch */
++#define		rFPGA0_XB_RFInterfaceOE		0x864
++
++#define		rTxAGC_B_Mcs15_Mcs12			0x868
++#define		rTxAGC_B_CCK11_A_CCK2_11		0x86c
++
++#define		rFPGA0_XAB_RFInterfaceSW		0x870	/* RF Interface Software Control */
++#define		rFPGA0_XCD_RFInterfaceSW		0x874
++
++#define		rFPGA0_XAB_RFParameter		0x878	/* RF Parameter */
++#define		rFPGA0_XCD_RFParameter		0x87c
++
++#define		rFPGA0_AnalogParameter1		0x880	/* Crystal cap setting RF-R/W protection for parameter4?? */
++#define		rFPGA0_AnalogParameter2		0x884
++#define		rFPGA0_AnalogParameter3		0x888	/* Useless now */
++#define		rFPGA0_AnalogParameter4		0x88c
++
++#define		rFPGA0_XA_LSSIReadBack		0x8a0	/* Tranceiver LSSI Readback */
++#define		rFPGA0_XB_LSSIReadBack		0x8a4
++#define		rFPGA0_XC_LSSIReadBack		0x8a8
++#define		rFPGA0_XD_LSSIReadBack		0x8ac
++
++#define		rFPGA0_PSDReport				0x8b4	/* Useless now */
++#define		TransceiverA_HSPI_Readback	0x8b8	/* Transceiver A HSPI Readback */
++#define		TransceiverB_HSPI_Readback	0x8bc	/* Transceiver B HSPI Readback */
++#define		rFPGA0_XAB_RFInterfaceRB		0x8e0	/* Useless now */ /* RF Interface Readback Value */
++#define		rFPGA0_XCD_RFInterfaceRB		0x8e4	/* Useless now */
++
++/*
++ * 4. Page9(0x900)
++ *   */
++#define		rFPGA1_RFMOD				0x900	/* RF mode & OFDM TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA1_TxBlock				0x904	/* Useless now */
++#define		rFPGA1_DebugSelect			0x908	/* Useless now */
++#define		rFPGA1_TxInfo				0x90c	/* Useless now */ /* Status report?? */
++#define	rS0S1_PathSwitch			0x948
++
++/*
++ * 5. PageA(0xA00)
++ *
++ * Set Control channel to upper or lower. These settings are required only for 40MHz */
++#define		rCCK0_System				0xa00
++
++#define		rCCK0_AFESetting			0xa04	/* Disable init gain now */ /* Select RX path by RSSI */
++#define		rCCK0_CCA					0xa08	/* Disable init gain now */ /* Init gain */
++
++#define		rCCK0_RxAGC1				0xa0c	/* AGC default value, saturation level  */ /* Antenna Diversity, RX AGC, LNA Threshold, RX LNA Threshold useless now. Not the same as 90 series */
++#define		rCCK0_RxAGC2				0xa10	/* AGC & DAGC */
++
++#define		rCCK0_RxHP					0xa14
++
++#define		rCCK0_DSPParameter1		0xa18	/* Timing recovery & Channel estimation threshold */
++#define		rCCK0_DSPParameter2		0xa1c	/* SQ threshold */
++
++#define		rCCK0_TxFilter1				0xa20
++#define		rCCK0_TxFilter2				0xa24
++#define		rCCK0_DebugPort			0xa28	/* debug port and Tx filter3 */
++#define		rCCK0_FalseAlarmReport		0xa2c	/* 0xa2d	useless now 0xa30-a4f channel report */
++#define		rCCK0_TRSSIReport		0xa50
++#define		rCCK0_RxReport            		0xa54  /* 0xa57 */
++#define		rCCK0_FACounterLower      	0xa5c  /* 0xa5b */
++#define		rCCK0_FACounterUpper      	0xa58  /* 0xa5c
++ *
++ * PageB(0xB00)
++ *   */
++#define		rPdp_AntA				0xb00
++#define		rPdp_AntA_4				0xb04
++#define		rConfig_Pmpd_AntA			0xb28
++#define		rConfig_AntA				0xb68
++#define		rConfig_AntB				0xb6c
++#define		rPdp_AntB					0xb70
++#define		rPdp_AntB_4				0xb74
++#define		rConfig_Pmpd_AntB			0xb98
++#define		rAPK						0xbd8
++
++/*
++ * 6. PageC(0xC00)
++ *   */
++#define		rOFDM0_LSTF				0xc00
++
++#define		rOFDM0_TRxPathEnable		0xc04
++#define		rOFDM0_TRMuxPar			0xc08
++#define		rOFDM0_TRSWIsolation		0xc0c
++
++#define		rOFDM0_XARxAFE			0xc10  /* RxIQ DC offset, Rx digital filter, DC notch filter */
++#define		rOFDM0_XARxIQImbalance    	0xc14  /* RxIQ imblance matrix */
++#define		rOFDM0_XBRxAFE		0xc18
++#define		rOFDM0_XBRxIQImbalance	0xc1c
++#define		rOFDM0_XCRxAFE		0xc20
++#define		rOFDM0_XCRxIQImbalance	0xc24
++#define		rOFDM0_XDRxAFE		0xc28
++#define		rOFDM0_XDRxIQImbalance	0xc2c
++
++#define		rOFDM0_RxDetector1			0xc30  /* PD, BW & SBD	 */ /* DM tune init gain */
++#define		rOFDM0_RxDetector2			0xc34  /* SBD & Fame Sync. */
++#define		rOFDM0_RxDetector3			0xc38  /* Frame Sync. */
++#define		rOFDM0_RxDetector4			0xc3c  /* PD, SBD, Frame Sync & Short-GI */
++
++#define		rOFDM0_RxDSP				0xc40  /* Rx Sync Path */
++#define		rOFDM0_CFOandDAGC		0xc44  /* CFO & DAGC */
++#define		rOFDM0_CCADropThreshold	0xc48 /* CCA Drop threshold */
++#define		rOFDM0_ECCAThreshold		0xc4c /* energy CCA */
++
++#define		rOFDM0_XAAGCCore1			0xc50	/* DIG */
++#define		rOFDM0_XAAGCCore2			0xc54
++#define		rOFDM0_XBAGCCore1			0xc58
++#define		rOFDM0_XBAGCCore2			0xc5c
++#define		rOFDM0_XCAGCCore1			0xc60
++#define		rOFDM0_XCAGCCore2			0xc64
++#define		rOFDM0_XDAGCCore1			0xc68
++#define		rOFDM0_XDAGCCore2			0xc6c
++
++#define		rOFDM0_AGCParameter1			0xc70
++#define		rOFDM0_AGCParameter2			0xc74
++#define		rOFDM0_AGCRSSITable			0xc78
++#define		rOFDM0_HTSTFAGC				0xc7c
++
++#define		rOFDM0_XATxIQImbalance		0xc80	/* TX PWR TRACK and DIG */
++#define		rOFDM0_XATxAFE				0xc84
++#define		rOFDM0_XBTxIQImbalance		0xc88
++#define		rOFDM0_XBTxAFE				0xc8c
++#define		rOFDM0_XCTxIQImbalance		0xc90
++#define		rOFDM0_XCTxAFE			0xc94
++#define		rOFDM0_XDTxIQImbalance		0xc98
++#define		rOFDM0_XDTxAFE				0xc9c
++
++#define		rOFDM0_RxIQExtAnta			0xca0
++#define		rOFDM0_TxCoeff1				0xca4
++#define		rOFDM0_TxCoeff2				0xca8
++#define		rOFDM0_TxCoeff3				0xcac
++#define		rOFDM0_TxCoeff4				0xcb0
++#define		rOFDM0_TxCoeff5				0xcb4
++#define		rOFDM0_TxCoeff6				0xcb8
++#define		rOFDM0_RxHPParameter			0xce0
++#define		rOFDM0_TxPseudoNoiseWgt		0xce4
++#define		rOFDM0_FrameSync				0xcf0
++#define		rOFDM0_DFSReport				0xcf4
++
++/*
++ * 7. PageD(0xD00)
++ *   */
++#define		rOFDM1_LSTF					0xd00
++#define		rOFDM1_TRxPathEnable			0xd04
++
++#define		rOFDM1_CFO						0xd08	/* No setting now */
++#define		rOFDM1_CSI1					0xd10
++#define		rOFDM1_SBD						0xd14
++#define		rOFDM1_CSI2					0xd18
++#define		rOFDM1_CFOTracking			0xd2c
++#define		rOFDM1_TRxMesaure1			0xd34
++#define		rOFDM1_IntfDet					0xd3c
++#define		rOFDM1_PseudoNoiseStateAB		0xd50
++#define		rOFDM1_PseudoNoiseStateCD		0xd54
++#define		rOFDM1_RxPseudoNoiseWgt		0xd58
++
++#define		rOFDM_PHYCounter1				0xda0  /* cca, parity fail */
++#define		rOFDM_PHYCounter2				0xda4  /* rate illegal, crc8 fail */
++#define		rOFDM_PHYCounter3				0xda8  /* MCS not support */
++
++#define		rOFDM_ShortCFOAB				0xdac	/* No setting now */
++#define		rOFDM_ShortCFOCD				0xdb0
++#define		rOFDM_LongCFOAB				0xdb4
++#define		rOFDM_LongCFOCD				0xdb8
++#define		rOFDM_TailCFOAB				0xdbc
++#define		rOFDM_TailCFOCD				0xdc0
++#define		rOFDM_PWMeasure1		0xdc4
++#define		rOFDM_PWMeasure2		0xdc8
++#define		rOFDM_BWReport				0xdcc
++#define		rOFDM_AGCReport				0xdd0
++#define		rOFDM_RxSNR					0xdd4
++#define		rOFDM_RxEVMCSI				0xdd8
++#define		rOFDM_SIGReport				0xddc
++
++
++/*
++ * 8. PageE(0xE00)
++ *   */
++#define		rTxAGC_A_Rate18_06			0xe00
++#define		rTxAGC_A_Rate54_24			0xe04
++#define		rTxAGC_A_CCK1_Mcs32			0xe08
++#define		rTxAGC_A_Mcs03_Mcs00			0xe10
++#define		rTxAGC_A_Mcs07_Mcs04			0xe14
++#define		rTxAGC_A_Mcs11_Mcs08			0xe18
++#define		rTxAGC_A_Mcs15_Mcs12			0xe1c
++
++#define		rFPGA0_IQK					0xe28
++#define		rTx_IQK_Tone_A				0xe30
++#define		rRx_IQK_Tone_A				0xe34
++#define		rTx_IQK_PI_A					0xe38
++#define		rRx_IQK_PI_A					0xe3c
++
++#define		rTx_IQK						0xe40
++#define		rRx_IQK						0xe44
++#define		rIQK_AGC_Pts					0xe48
++#define		rIQK_AGC_Rsp					0xe4c
++#define		rTx_IQK_Tone_B				0xe50
++#define		rRx_IQK_Tone_B				0xe54
++#define		rTx_IQK_PI_B					0xe58
++#define		rRx_IQK_PI_B					0xe5c
++#define		rIQK_AGC_Cont				0xe60
++
++#define		rBlue_Tooth					0xe6c
++#define		rRx_Wait_CCA					0xe70
++#define		rTx_CCK_RFON					0xe74
++#define		rTx_CCK_BBON				0xe78
++#define		rTx_OFDM_RFON				0xe7c
++#define		rTx_OFDM_BBON				0xe80
++#define		rTx_To_Rx					0xe84
++#define		rTx_To_Tx					0xe88
++#define		rRx_CCK						0xe8c
++
++#define		rTx_Power_Before_IQK_A		0xe94
++#define		rTx_Power_After_IQK_A			0xe9c
++
++#define		rRx_Power_Before_IQK_A		0xea0
++#define		rRx_Power_Before_IQK_A_2		0xea4
++#define		rRx_Power_After_IQK_A			0xea8
++#define		rRx_Power_After_IQK_A_2		0xeac
++
++#define		rTx_Power_Before_IQK_B		0xeb4
++#define		rTx_Power_After_IQK_B			0xebc
++
++#define		rRx_Power_Before_IQK_B		0xec0
++#define		rRx_Power_Before_IQK_B_2		0xec4
++#define		rRx_Power_After_IQK_B			0xec8
++#define		rRx_Power_After_IQK_B_2		0xecc
++
++#define		rRx_OFDM					0xed0
++#define		rRx_Wait_RIFS				0xed4
++#define		rRx_TO_Rx					0xed8
++#define		rStandby						0xedc
++#define		rSleep						0xee0
++#define		rPMPD_ANAEN				0xeec
++
++/*
++ * 7. RF Register 0x00-0x2E (RF 8256)
++ * RF-0222D 0x00-3F
++ *
++ * Zebra1 */
++#define		rZebra1_HSSIEnable				0x0	/* Useless now */
++#define		rZebra1_TRxEnable1				0x1
++#define		rZebra1_TRxEnable2				0x2
++#define		rZebra1_AGC					0x4
++#define		rZebra1_ChargePump			0x5
++#define		rZebra1_Channel				0x7	/* RF channel switch */
++
++/* #endif */
++#define		rZebra1_TxGain					0x8	/* Useless now */
++#define		rZebra1_TxLPF					0x9
++#define		rZebra1_RxLPF					0xb
++#define		rZebra1_RxHPFCorner			0xc
++
++/* Zebra4 */
++#define		rGlobalCtrl						0	/* Useless now */
++#define		rRTL8256_TxLPF					19
++#define		rRTL8256_RxLPF					11
++
++/* RTL8258 */
++#define		rRTL8258_TxLPF					0x11	/* Useless now */
++#define		rRTL8258_RxLPF					0x13
++#define		rRTL8258_RSSILPF				0xa
++
++/*
++ * RL6052 Register definition
++ *   */
++#define		RF_AC						0x00	/*  */
++
++#define		RF_IQADJ_G1				0x01	/*  */
++#define		RF_IQADJ_G2				0x02	/*  */
++#define		RF_BS_PA_APSET_G1_G4		0x03
++#define		RF_BS_PA_APSET_G5_G8		0x04
++#define		RF_POW_TRSW				0x05	/*  */
++
++#define		RF_GAIN_RX					0x06	/*  */
++#define		RF_GAIN_TX					0x07	/*  */
++
++#define		RF_TXM_IDAC				0x08	/*  */
++#define		RF_IPA_G					0x09	/*  */
++#define		RF_TXBIAS_G				0x0A
++#define		RF_TXPA_AG					0x0B
++#define		RF_IPA_A					0x0C	/*  */
++#define		RF_TXBIAS_A				0x0D
++#define		RF_BS_PA_APSET_G9_G11	0x0E
++#define		RF_BS_IQGEN				0x0F	/*  */
++
++#define		RF_MODE1					0x10	/*  */
++#define		RF_MODE2					0x11	/*  */
++
++#define		RF_RX_AGC_HP				0x12	/*  */
++#define		RF_TX_AGC					0x13	/*  */
++#define		RF_BIAS						0x14	/*  */
++#define		RF_IPA						0x15	/*  */
++#define		RF_TXBIAS					0x16
++#define		RF_POW_ABILITY			0x17	/*  */
++#define		RF_MODE_AG				0x18	/*  */
++#define		rRfChannel					0x18	/* RF channel and BW switch */
++#define		RF_CHNLBW					0x18	/* RF channel and BW switch */
++#define		RF_TOP						0x19	/*  */
++
++#define		RF_RX_G1					0x1A	/*  */
++#define		RF_RX_G2					0x1B	/*  */
++
++#define		RF_RX_BB2					0x1C	/*  */
++#define		RF_RX_BB1					0x1D	/*  */
++
++#define		RF_RCK1					0x1E	/*  */
++#define		RF_RCK2					0x1F	/*  */
++
++#define		RF_TX_G1					0x20	/*  */
++#define		RF_TX_G2					0x21	/*  */
++#define		RF_TX_G3					0x22	/*  */
++
++#define		RF_TX_BB1					0x23	/*  */
++
++#define		RF_T_METER					0x24	/*  */
++
++#define		RF_SYN_G1					0x25	/* RF TX Power control */
++#define		RF_SYN_G2					0x26	/* RF TX Power control */
++#define		RF_SYN_G3					0x27	/* RF TX Power control */
++#define		RF_SYN_G4					0x28	/* RF TX Power control */
++#define		RF_SYN_G5					0x29	/* RF TX Power control */
++#define		RF_SYN_G6					0x2A	/* RF TX Power control */
++#define		RF_SYN_G7					0x2B	/* RF TX Power control */
++#define		RF_SYN_G8					0x2C	/* RF TX Power control */
++
++#define		RF_RCK_OS					0x30	/* RF TX PA control */
++
++#define		RF_TXPA_G1					0x31	/* RF TX PA control */
++#define		RF_TXPA_G2					0x32	/* RF TX PA control */
++#define		RF_TXPA_G3					0x33	/* RF TX PA control */
++#define	RF_TX_BIAS_A				0x35
++#define	RF_TX_BIAS_D				0x36
++#define	RF_LOBF_9					0x38
++#define 	RF_RXRF_A3					0x3C	/*	 */
++#define	RF_TRSW					0x3F
++
++#define	RF_TXRF_A2					0x41
++#define	RF_TXPA_G4					0x46
++#define	RF_TXPA_A4					0x4B
++#define	RF_0x52					0x52
++#define		RF_RXG_MIX_SWBW				0x87
++#define		RF_DBG_LP_RX2				0xDF
++#define	RF_WE_LUT					0xEF
++#define	RF_S0S1					0xB0
++
++#define RF_TX_GAIN_OFFSET_8188F(_val) (abs((_val)) | (((_val) > 0) ? BIT5 : 0))
++
++/*
++ * Bit Mask
++ *
++ * 1. Page1(0x100) */
++#define		bBBResetB						0x100	/* Useless now? */
++#define		bGlobalResetB					0x200
++#define		bOFDMTxStart					0x4
++#define		bCCKTxStart						0x8
++#define		bCRC32Debug					0x100
++#define		bPMACLoopback					0x10
++#define		bTxLSIG							0xffffff
++#define		bOFDMTxRate					0xf
++#define		bOFDMTxReserved				0x10
++#define		bOFDMTxLength					0x1ffe0
++#define		bOFDMTxParity					0x20000
++#define		bTxHTSIG1						0xffffff
++#define		bTxHTMCSRate					0x7f
++#define		bTxHTBW						0x80
++#define		bTxHTLength					0xffff00
++#define		bTxHTSIG2						0xffffff
++#define		bTxHTSmoothing					0x1
++#define		bTxHTSounding					0x2
++#define		bTxHTReserved					0x4
++#define		bTxHTAggreation				0x8
++#define		bTxHTSTBC						0x30
++#define		bTxHTAdvanceCoding			0x40
++#define		bTxHTShortGI					0x80
++#define		bTxHTNumberHT_LTF			0x300
++#define		bTxHTCRC8						0x3fc00
++#define		bCounterReset					0x10000
++#define		bNumOfOFDMTx					0xffff
++#define		bNumOfCCKTx					0xffff0000
++#define		bTxIdleInterval					0xffff
++#define		bOFDMService					0xffff0000
++#define		bTxMACHeader					0xffffffff
++#define		bTxDataInit						0xff
++#define		bTxHTMode						0x100
++#define		bTxDataType					0x30000
++#define		bTxRandomSeed					0xffffffff
++#define		bCCKTxPreamble					0x1
++#define		bCCKTxSFD						0xffff0000
++#define		bCCKTxSIG						0xff
++#define		bCCKTxService					0xff00
++#define		bCCKLengthExt					0x8000
++#define		bCCKTxLength					0xffff0000
++#define		bCCKTxCRC16					0xffff
++#define		bCCKTxStatus					0x1
++#define		bOFDMTxStatus					0x2
++
++#define		IS_BB_REG_OFFSET_92S(_Offset)		((_Offset >= 0x800) && (_Offset <= 0xfff))
++
++/* 2. Page8(0x800) */
++#define		bRFMOD							0x1	/* Reg 0x800 rFPGA0_RFMOD */
++#define		bJapanMode						0x2
++#define		bCCKTxSC						0x30
++#define		bCCKEn							0x1000000
++#define		bOFDMEn						0x2000000
++
++#define		bOFDMRxADCPhase           		0x10000	/* Useless now */
++#define		bOFDMTxDACPhase		0x40000
++#define		bXATxAGC			0x3f
++
++#define		bAntennaSelect		0x0300
++
++#define		bXBTxAGC                  			0xf00	/* Reg 80c rFPGA0_TxGainStage */
++#define		bXCTxAGC			0xf000
++#define		bXDTxAGC			0xf0000
++
++#define		bPAStart                  			0xf0000000	/* Useless now */
++#define		bTRStart			0x00f00000
++#define		bRFStart			0x0000f000
++#define		bBBStart			0x000000f0
++#define		bBBCCKStart		0x0000000f
++#define		bPAEnd                    			0xf          /* Reg0x814 */
++#define		bTREnd			0x0f000000
++#define		bRFEnd			0x000f0000
++#define		bCCAMask                  			0x000000f0   /* T2R */
++#define		bR2RCCAMask		0x00000f00
++#define		bHSSI_R2TDelay		0xf8000000
++#define		bHSSI_T2RDelay		0xf80000
++#define		bContTxHSSI               		0x400     /* chane gain at continue Tx */
++#define		bIGFromCCK		0x200
++#define		bAGCAddress		0x3f
++#define		bRxHPTx			0x7000
++#define		bRxHPT2R			0x38000
++#define		bRxHPCCKIni		0xc0000
++#define		bAGCTxCode		0xc00000
++#define		bAGCRxCode		0x300000
++
++#define		b3WireDataLength          		0x800	/* Reg 0x820~84f rFPGA0_XA_HSSIParameter1 */
++#define		b3WireAddressLength		0x400
++
++#define		b3WireRFPowerDown         		0x1	/* Useless now
++ * #define bHWSISelect		0x8 */
++#define		b5GPAPEPolarity		0x40000000
++#define		b2GPAPEPolarity		0x80000000
++#define		bRFSW_TxDefaultAnt		0x3
++#define		bRFSW_TxOptionAnt		0x30
++#define		bRFSW_RxDefaultAnt		0x300
++#define		bRFSW_RxOptionAnt		0x3000
++#define		bRFSI_3WireData		0x1
++#define		bRFSI_3WireClock		0x2
++#define		bRFSI_3WireLoad		0x4
++#define		bRFSI_3WireRW		0x8
++#define		bRFSI_3Wire			0xf
++
++#define		bRFSI_RFENV               		0x10	/* Reg 0x870 rFPGA0_XAB_RFInterfaceSW */
++
++#define		bRFSI_TRSW                		0x20	/* Useless now */
++#define		bRFSI_TRSWB		0x40
++#define		bRFSI_ANTSW		0x100
++#define		bRFSI_ANTSWB		0x200
++#define		bRFSI_PAPE			0x400
++#define		bRFSI_PAPE5G		0x800
++#define		bBandSelect			0x1
++#define		bHTSIG2_GI			0x80
++#define		bHTSIG2_Smoothing		0x01
++#define		bHTSIG2_Sounding		0x02
++#define		bHTSIG2_Aggreaton		0x08
++#define		bHTSIG2_STBC		0x30
++#define		bHTSIG2_AdvCoding		0x40
++#define		bHTSIG2_NumOfHTLTF	0x300
++#define		bHTSIG2_CRC8		0x3fc
++#define		bHTSIG1_MCS		0x7f
++#define		bHTSIG1_BandWidth		0x80
++#define		bHTSIG1_HTLength		0xffff
++#define		bLSIG_Rate			0xf
++#define		bLSIG_Reserved		0x10
++#define		bLSIG_Length		0x1fffe
++#define		bLSIG_Parity			0x20
++#define		bCCKRxPhase		0x4
++
++#define		bLSSIReadAddress          		0x7f800000   /* T65 RF */
++
++#define		bLSSIReadEdge             		0x80000000   /* LSSI "Read" edge signal */
++
++#define		bLSSIReadBackData         		0xfffff		/* T65 RF */
++
++#define		bLSSIReadOKFlag           		0x1000	/* Useless now */
++#define		bCCKSampleRate            		0x8       /* 0: 44MHz, 1:88MHz      		 */
++#define		bRegulator0Standby		0x1
++#define		bRegulatorPLLStandby		0x2
++#define		bRegulator1Standby		0x4
++#define		bPLLPowerUp		0x8
++#define		bDPLLPowerUp		0x10
++#define		bDA10PowerUp		0x20
++#define		bAD7PowerUp		0x200
++#define		bDA6PowerUp		0x2000
++#define		bXtalPowerUp		0x4000
++#define		b40MDClkPowerUP		0x8000
++#define		bDA6DebugMode		0x20000
++#define		bDA6Swing			0x380000
++
++#define		bADClkPhase               		0x4000000	/* Reg 0x880 rFPGA0_AnalogParameter1 20/40 CCK support switch 40/80 BB MHZ */
++
++#define		b80MClkDelay              		0x18000000	/* Useless */
++#define		bAFEWatchDogEnable		0x20000000
++
++#define		bXtalCap01                			0xc0000000	/* Reg 0x884 rFPGA0_AnalogParameter2 Crystal cap */
++#define		bXtalCap23			0x3
++#define		bXtalCap92x					0x0f000000
++#define		bXtalCap			0x0f000000
++
++#define		bIntDifClkEnable          		0x400	/* Useless */
++#define		bExtSigClkEnable		0x800
++#define		bBandgapMbiasPowerUp	0x10000
++#define		bAD11SHGain		0xc0000
++#define		bAD11InputRange		0x700000
++#define		bAD11OPCurrent		0x3800000
++#define		bIPathLoopback		0x4000000
++#define		bQPathLoopback		0x8000000
++#define		bAFELoopback		0x10000000
++#define		bDA10Swing		0x7e0
++#define		bDA10Reverse		0x800
++#define		bDAClkSource		0x1000
++#define		bAD7InputRange		0x6000
++#define		bAD7Gain			0x38000
++#define		bAD7OutputCMMode		0x40000
++#define		bAD7InputCMMode		0x380000
++#define		bAD7Current			0xc00000
++#define		bRegulatorAdjust		0x7000000
++#define		bAD11PowerUpAtTx		0x1
++#define		bDA10PSAtTx		0x10
++#define		bAD11PowerUpAtRx		0x100
++#define		bDA10PSAtRx		0x1000
++#define		bCCKRxAGCFormat		0x200
++#define		bPSDFFTSamplepPoint		0xc000
++#define		bPSDAverageNum		0x3000
++#define		bIQPathControl		0xc00
++#define		bPSDFreq			0x3ff
++#define		bPSDAntennaPath		0x30
++#define		bPSDIQSwitch		0x40
++#define		bPSDRxTrigger		0x400000
++#define		bPSDTxTrigger		0x80000000
++#define		bPSDSineToneScale		0x7f000000
++#define		bPSDReport			0xffff
++
++/* 3. Page9(0x900) */
++#define		bOFDMTxSC                 		0x30000000	/* Useless */
++#define		bCCKTxOn			0x1
++#define		bOFDMTxOn		0x2
++#define		bDebugPage                		0xfff  /* reset debug page and also HWord, LWord */
++#define		bDebugItem                		0xff   /* reset debug page and LWord */
++#define		bAntL			0x10
++#define		bAntNonHT				0x100
++#define		bAntHT1			0x1000
++#define		bAntHT2			0x10000
++#define		bAntHT1S1			0x100000
++#define		bAntNonHTS1		0x1000000
++
++/* 4. PageA(0xA00) */
++#define		bCCKBBMode				0x3	/* Useless */
++#define		bCCKTxPowerSaving		0x80
++#define		bCCKRxPowerSaving		0x40
++
++#define		bCCKSideBand			0x10	/* Reg 0xa00 rCCK0_System 20/40 switch */
++
++#define		bCCKScramble			0x8	/* Useless */
++#define		bCCKAntDiversity		0x8000
++#define		bCCKCarrierRecovery		0x4000
++#define		bCCKTxRate				0x3000
++#define		bCCKDCCancel			0x0800
++#define		bCCKISICancel			0x0400
++#define		bCCKMatchFilter			0x0200
++#define		bCCKEqualizer			0x0100
++#define		bCCKPreambleDetect		0x800000
++#define		bCCKFastFalseCCA		0x400000
++#define		bCCKChEstStart			0x300000
++#define		bCCKCCACount			0x080000
++#define		bCCKcs_lim				0x070000
++#define		bCCKBistMode			0x80000000
++#define		bCCKCCAMask			0x40000000
++#define		bCCKTxDACPhase		0x4
++#define		bCCKRxADCPhase		0x20000000   /* r_rx_clk */
++#define		bCCKr_cp_mode0		0x0100
++#define		bCCKTxDCOffset			0xf0
++#define		bCCKRxDCOffset			0xf
++#define		bCCKCCAMode			0xc000
++#define		bCCKFalseCS_lim			0x3f00
++#define		bCCKCS_ratio			0xc00000
++#define		bCCKCorgBit_sel			0x300000
++#define		bCCKPD_lim				0x0f0000
++#define		bCCKNewCCA			0x80000000
++#define		bCCKRxHPofIG			0x8000
++#define		bCCKRxIG				0x7f00
++#define		bCCKLNAPolarity			0x800000
++#define		bCCKRx1stGain			0x7f0000
++#define		bCCKRFExtend			0x20000000 /* CCK Rx Iinital gain polarity */
++#define		bCCKRxAGCSatLevel		0x1f000000
++#define		bCCKRxAGCSatCount		0xe0
++#define		bCCKRxRFSettle			0x1f       /* AGCsamp_dly */
++#define		bCCKFixedRxAGC			0x8000
++/* #define bCCKRxAGCFormat		0x4000 */   /* remove to HSSI register 0x824 */
++#define		bCCKAntennaPolarity		0x2000
++#define		bCCKTxFilterType		0x0c00
++#define		bCCKRxAGCReportType	0x0300
++#define		bCCKRxDAGCEn			0x80000000
++#define		bCCKRxDAGCPeriod		0x20000000
++#define		bCCKRxDAGCSatLevel		0x1f000000
++#define		bCCKTimingRecovery		0x800000
++#define		bCCKTxC0				0x3f0000
++#define		bCCKTxC1				0x3f000000
++#define		bCCKTxC2				0x3f
++#define		bCCKTxC3				0x3f00
++#define		bCCKTxC4				0x3f0000
++#define		bCCKTxC5				0x3f000000
++#define		bCCKTxC6				0x3f
++#define		bCCKTxC7				0x3f00
++#define		bCCKDebugPort			0xff0000
++#define		bCCKDACDebug			0x0f000000
++#define		bCCKFalseAlarmEnable	0x8000
++#define		bCCKFalseAlarmRead		0x4000
++#define		bCCKTRSSI				0x7f
++#define		bCCKRxAGCReport		0xfe
++#define		bCCKRxReport_AntSel	0x80000000
++#define		bCCKRxReport_MFOff		0x40000000
++#define		bCCKRxRxReport_SQLoss	0x20000000
++#define		bCCKRxReport_Pktloss	0x10000000
++#define		bCCKRxReport_Lockedbit	0x08000000
++#define		bCCKRxReport_RateError	0x04000000
++#define		bCCKRxReport_RxRate	0x03000000
++#define		bCCKRxFACounterLower	0xff
++#define		bCCKRxFACounterUpper	0xff000000
++#define		bCCKRxHPAGCStart		0xe000
++#define		bCCKRxHPAGCFinal		0x1c00
++#define		bCCKRxFalseAlarmEnable	0x8000
++#define		bCCKFACounterFreeze	0x4000
++#define		bCCKTxPathSel			0x10000000
++#define		bCCKDefaultRxPath		0xc000000
++#define		bCCKOptionRxPath		0x3000000
++
++/* 5. PageC(0xC00) */
++#define		bNumOfSTF				0x3	/* Useless */
++#define		bShift_L					0xc0
++#define		bGI_TH					0xc
++#define		bRxPathA				0x1
++#define		bRxPathB				0x2
++#define		bRxPathC				0x4
++#define		bRxPathD				0x8
++#define		bTxPathA				0x1
++#define		bTxPathB				0x2
++#define		bTxPathC				0x4
++#define		bTxPathD				0x8
++#define		bTRSSIFreq				0x200
++#define		bADCBackoff				0x3000
++#define		bDFIRBackoff			0xc000
++#define		bTRSSILatchPhase		0x10000
++#define		bRxIDCOffset			0xff
++#define		bRxQDCOffset			0xff00
++#define		bRxDFIRMode			0x1800000
++#define		bRxDCNFType			0xe000000
++#define		bRXIQImb_A				0x3ff
++#define		bRXIQImb_B				0xfc00
++#define		bRXIQImb_C				0x3f0000
++#define		bRXIQImb_D				0xffc00000
++#define		bDC_dc_Notch			0x60000
++#define		bRxNBINotch			0x1f000000
++#define		bPD_TH					0xf
++#define		bPD_TH_Opt2			0xc000
++#define		bPWED_TH				0x700
++#define		bIfMF_Win_L			0x800
++#define		bPD_Option				0x1000
++#define		bMF_Win_L				0xe000
++#define		bBW_Search_L			0x30000
++#define		bwin_enh_L				0xc0000
++#define		bBW_TH					0x700000
++#define		bED_TH2				0x3800000
++#define		bBW_option				0x4000000
++#define		bRatio_TH				0x18000000
++#define		bWindow_L				0xe0000000
++#define		bSBD_Option				0x1
++#define		bFrame_TH				0x1c
++#define		bFS_Option				0x60
++#define		bDC_Slope_check		0x80
++#define		bFGuard_Counter_DC_L	0xe00
++#define		bFrame_Weight_Short	0x7000
++#define		bSub_Tune				0xe00000
++#define		bFrame_DC_Length		0xe000000
++#define		bSBD_start_offset		0x30000000
++#define		bFrame_TH_2			0x7
++#define		bFrame_GI2_TH			0x38
++#define		bGI2_Sync_en			0x40
++#define		bSarch_Short_Early		0x300
++#define		bSarch_Short_Late		0xc00
++#define		bSarch_GI2_Late		0x70000
++#define		bCFOAntSum				0x1
++#define		bCFOAcc				0x2
++#define		bCFOStartOffset			0xc
++#define		bCFOLookBack			0x70
++#define		bCFOSumWeight			0x80
++#define		bDAGCEnable			0x10000
++#define		bTXIQImb_A				0x3ff
++#define		bTXIQImb_B				0xfc00
++#define		bTXIQImb_C				0x3f0000
++#define		bTXIQImb_D				0xffc00000
++#define		bTxIDCOffset			0xff
++#define		bTxQDCOffset			0xff00
++#define		bTxDFIRMode			0x10000
++#define		bTxPesudoNoiseOn		0x4000000
++#define		bTxPesudoNoise_A		0xff
++#define		bTxPesudoNoise_B		0xff00
++#define		bTxPesudoNoise_C		0xff0000
++#define		bTxPesudoNoise_D		0xff000000
++#define		bCCADropOption			0x20000
++#define		bCCADropThres			0xfff00000
++#define		bEDCCA_H				0xf
++#define		bEDCCA_L				0xf0
++#define		bLambda_ED			0x300
++#define		bRxInitialGain			0x7f
++#define		bRxAntDivEn				0x80
++#define		bRxAGCAddressForLNA	0x7f00
++#define		bRxHighPowerFlow		0x8000
++#define		bRxAGCFreezeThres		0xc0000
++#define		bRxFreezeStep_AGC1	0x300000
++#define		bRxFreezeStep_AGC2	0xc00000
++#define		bRxFreezeStep_AGC3	0x3000000
++#define		bRxFreezeStep_AGC0	0xc000000
++#define		bRxRssi_Cmp_En			0x10000000
++#define		bRxQuickAGCEn			0x20000000
++#define		bRxAGCFreezeThresMode	0x40000000
++#define		bRxOverFlowCheckType	0x80000000
++#define		bRxAGCShift				0x7f
++#define		bTRSW_Tri_Only			0x80
++#define		bPowerThres			0x300
++#define		bRxAGCEn				0x1
++#define		bRxAGCTogetherEn		0x2
++#define		bRxAGCMin				0x4
++#define		bRxHP_Ini				0x7
++#define		bRxHP_TRLNA			0x70
++#define		bRxHP_RSSI				0x700
++#define		bRxHP_BBP1				0x7000
++#define		bRxHP_BBP2				0x70000
++#define		bRxHP_BBP3				0x700000
++#define		bRSSI_H					0x7f0000     /* the threshold for high power */
++#define		bRSSI_Gen				0x7f000000   /* the threshold for ant diversity */
++#define		bRxSettle_TRSW			0x7
++#define		bRxSettle_LNA			0x38
++#define		bRxSettle_RSSI			0x1c0
++#define		bRxSettle_BBP			0xe00
++#define		bRxSettle_RxHP			0x7000
++#define		bRxSettle_AntSW_RSSI	0x38000
++#define		bRxSettle_AntSW		0xc0000
++#define		bRxProcessTime_DAGC	0x300000
++#define		bRxSettle_HSSI			0x400000
++#define		bRxProcessTime_BBPPW	0x800000
++#define		bRxAntennaPowerShift	0x3000000
++#define		bRSSITableSelect		0xc000000
++#define		bRxHP_Final				0x7000000
++#define		bRxHTSettle_BBP			0x7
++#define		bRxHTSettle_HSSI		0x8
++#define		bRxHTSettle_RxHP		0x70
++#define		bRxHTSettle_BBPPW		0x80
++#define		bRxHTSettle_Idle		0x300
++#define		bRxHTSettle_Reserved	0x1c00
++#define		bRxHTRxHPEn			0x8000
++#define		bRxHTAGCFreezeThres	0x30000
++#define		bRxHTAGCTogetherEn	0x40000
++#define		bRxHTAGCMin			0x80000
++#define		bRxHTAGCEn				0x100000
++#define		bRxHTDAGCEn			0x200000
++#define		bRxHTRxHP_BBP			0x1c00000
++#define		bRxHTRxHP_Final		0xe0000000
++#define		bRxPWRatioTH			0x3
++#define		bRxPWRatioEn			0x4
++#define		bRxMFHold				0x3800
++#define		bRxPD_Delay_TH1		0x38
++#define		bRxPD_Delay_TH2		0x1c0
++#define		bRxPD_DC_COUNT_MAX	0x600
++/* #define bRxMF_Hold               0x3800 */
++#define		bRxPD_Delay_TH			0x8000
++#define		bRxProcess_Delay		0xf0000
++#define		bRxSearchrange_GI2_Early	0x700000
++#define		bRxFrame_Guard_Counter_L	0x3800000
++#define		bRxSGI_Guard_L			0xc000000
++#define		bRxSGI_Search_L		0x30000000
++#define		bRxSGI_TH				0xc0000000
++#define		bDFSCnt0				0xff
++#define		bDFSCnt1				0xff00
++#define		bDFSFlag				0xf0000
++#define		bMFWeightSum			0x300000
++#define		bMinIdxTH				0x7f000000
++#define		bDAFormat				0x40000
++#define		bTxChEmuEnable		0x01000000
++#define		bTRSWIsolation_A		0x7f
++#define		bTRSWIsolation_B		0x7f00
++#define		bTRSWIsolation_C		0x7f0000
++#define		bTRSWIsolation_D		0x7f000000
++#define		bExtLNAGain				0x7c00
++
++/* 6. PageE(0xE00) */
++#define		bSTBCEn				0x4	/* Useless */
++#define		bAntennaMapping		0x10
++#define		bNss					0x20
++#define		bCFOAntSumD			0x200
++#define		bPHYCounterReset		0x8000000
++#define		bCFOReportGet			0x4000000
++#define		bOFDMContinueTx		0x10000000
++#define		bOFDMSingleCarrier		0x20000000
++#define		bOFDMSingleTone		0x40000000
++/* #define bRxPath1                 0x01 */
++/* #define bRxPath2                 0x02 */
++/* #define bRxPath3                 0x04 */
++/* #define bRxPath4                 0x08 */
++/* #define bTxPath1                 0x10 */
++/* #define bTxPath2                 0x20 */
++#define		bHTDetect			0x100
++#define		bCFOEn				0x10000
++#define		bCFOValue			0xfff00000
++#define		bSigTone_Re		0x3f
++#define		bSigTone_Im		0x7f00
++#define		bCounter_CCA		0xffff
++#define		bCounter_ParityFail	0xffff0000
++#define		bCounter_RateIllegal		0xffff
++#define		bCounter_CRC8Fail	0xffff0000
++#define		bCounter_MCSNoSupport	0xffff
++#define		bCounter_FastSync	0xffff
++#define		bShortCFO			0xfff
++#define		bShortCFOTLength	12   /* total */
++#define		bShortCFOFLength	11   /* fraction */
++#define		bLongCFO			0x7ff
++#define		bLongCFOTLength	11
++#define		bLongCFOFLength	11
++#define		bTailCFO			0x1fff
++#define		bTailCFOTLength		13
++#define		bTailCFOFLength		12
++#define		bmax_en_pwdB		0xffff
++#define		bCC_power_dB		0xffff0000
++#define		bnoise_pwdB		0xffff
++#define		bPowerMeasTLength	10
++#define		bPowerMeasFLength	3
++#define		bRx_HT_BW			0x1
++#define		bRxSC				0x6
++#define		bRx_HT				0x8
++#define		bNB_intf_det_on		0x1
++#define		bIntf_win_len_cfg	0x30
++#define		bNB_Intf_TH_cfg		0x1c0
++#define		bRFGain				0x3f
++#define		bTableSel			0x40
++#define		bTRSW				0x80
++#define		bRxSNR_A			0xff
++#define		bRxSNR_B			0xff00
++#define		bRxSNR_C			0xff0000
++#define		bRxSNR_D			0xff000000
++#define		bSNREVMTLength		8
++#define		bSNREVMFLength		1
++#define		bCSI1st				0xff
++#define		bCSI2nd				0xff00
++#define		bRxEVM1st			0xff0000
++#define		bRxEVM2nd			0xff000000
++#define		bSIGEVM			0xff
++#define		bPWDB				0xff00
++#define		bSGIEN				0x10000
++
++#define		bSFactorQAM1		0xf	/* Useless */
++#define		bSFactorQAM2		0xf0
++#define		bSFactorQAM3		0xf00
++#define		bSFactorQAM4		0xf000
++#define		bSFactorQAM5		0xf0000
++#define		bSFactorQAM6		0xf0000
++#define		bSFactorQAM7		0xf00000
++#define		bSFactorQAM8		0xf000000
++#define		bSFactorQAM9		0xf0000000
++#define		bCSIScheme			0x100000
++
++#define		bNoiseLvlTopSet		0x3	/* Useless */
++#define		bChSmooth			0x4
++#define		bChSmoothCfg1		0x38
++#define		bChSmoothCfg2		0x1c0
++#define		bChSmoothCfg3		0xe00
++#define		bChSmoothCfg4		0x7000
++#define		bMRCMode			0x800000
++#define		bTHEVMCfg			0x7000000
++
++#define		bLoopFitType		0x1	/* Useless */
++#define		bUpdCFO			0x40
++#define		bUpdCFOOffData		0x80
++#define		bAdvUpdCFO			0x100
++#define		bAdvTimeCtrl		0x800
++#define		bUpdClko			0x1000
++#define		bFC					0x6000
++#define		bTrackingMode		0x8000
++#define		bPhCmpEnable		0x10000
++#define		bUpdClkoLTF		0x20000
++#define		bComChCFO			0x40000
++#define		bCSIEstiMode		0x80000
++#define		bAdvUpdEqz			0x100000
++#define		bUChCfg				0x7000000
++#define		bUpdEqz			0x8000000
++
++/* Rx Pseduo noise */
++#define		bRxPesudoNoiseOn		0x20000000	/* Useless */
++#define		bRxPesudoNoise_A		0xff
++#define		bRxPesudoNoise_B		0xff00
++#define		bRxPesudoNoise_C		0xff0000
++#define		bRxPesudoNoise_D		0xff000000
++#define		bPesudoNoiseState_A	0xffff
++#define		bPesudoNoiseState_B	0xffff0000
++#define		bPesudoNoiseState_C	0xffff
++#define		bPesudoNoiseState_D	0xffff0000
++
++/* 7. RF Register
++ * Zebra1 */
++#define		bZebra1_HSSIEnable		0x8		/* Useless */
++#define		bZebra1_TRxControl		0xc00
++#define		bZebra1_TRxGainSetting	0x07f
++#define		bZebra1_RxCorner		0xc00
++#define		bZebra1_TxChargePump	0x38
++#define		bZebra1_RxChargePump	0x7
++#define		bZebra1_ChannelNum	0xf80
++#define		bZebra1_TxLPFBW		0x400
++#define		bZebra1_RxLPFBW		0x600
++
++/* Zebra4 */
++#define		bRTL8256RegModeCtrl1	0x100	/* Useless */
++#define		bRTL8256RegModeCtrl0	0x40
++#define		bRTL8256_TxLPFBW		0x18
++#define		bRTL8256_RxLPFBW		0x600
++
++/* RTL8258 */
++#define		bRTL8258_TxLPFBW		0xc	/* Useless */
++#define		bRTL8258_RxLPFBW		0xc00
++#define		bRTL8258_RSSILPFBW	0xc0
++
++
++/*
++ * Other Definition
++ *   */
++
++/* byte endable for sb_write */
++#define		bByte0				0x1	/* Useless */
++#define		bByte1				0x2
++#define		bByte2				0x4
++#define		bByte3				0x8
++#define		bWord0				0x3
++#define		bWord1				0xc
++#define		bDWord				0xf
++
++/* for PutRegsetting & GetRegSetting BitMask */
++#define		bMaskByte0			0xff	/* Reg 0xc50 rOFDM0_XAAGCCore~0xC6f */
++#define		bMaskByte1			0xff00
++#define		bMaskByte2			0xff0000
++#define		bMaskByte3			0xff000000
++#define		bMaskHWord		0xffff0000
++#define		bMaskLWord			0x0000ffff
++#define		bMaskDWord		0xffffffff
++#define		bMaskH3Bytes		0xffffff00
++#define		bMask12Bits			0xfff
++#define		bMaskH4Bits			0xf0000000
++#define		bMaskOFDM_D		0xffc00000
++#define		bMaskCCK			0x3f3f3f3f
++
++
++#define		bEnable			0x1	/* Useless */
++#define		bDisable		0x0
++
++#define		LeftAntenna		0x0	/* Useless */
++#define		RightAntenna	0x1
++
++#define		tCheckTxStatus		500   /* 500ms */ /* Useless */
++#define		tUpdateRxCounter	100   /* 100ms */
++
++#define		rateCCK		0	/* Useless */
++#define		rateOFDM	1
++#define		rateHT		2
++
++/* define Register-End */
++#define		bPMAC_End			0x1ff	/* Useless */
++#define		bFPGAPHY0_End		0x8ff
++#define		bFPGAPHY1_End		0x9ff
++#define		bCCKPHY0_End		0xaff
++#define		bOFDMPHY0_End		0xcff
++#define		bOFDMPHY1_End		0xdff
++
++/* define max debug item in each debug page
++ * #define bMaxItem_FPGA_PHY0        0x9
++ * #define bMaxItem_FPGA_PHY1        0x3
++ * #define bMaxItem_PHY_11B          0x16
++ * #define bMaxItem_OFDM_PHY0        0x29
++ * #define bMaxItem_OFDM_PHY1        0x0 */
++
++#define		bPMACControl		0x0		/* Useless */
++#define		bWMACControl		0x1
++#define		bWNICControl		0x2
++
++#define		PathA			0x0	/* Useless */
++#define		PathB			0x1
++#define		PathC			0x2
++#define		PathD			0x3
++
++/*--------------------------Define Parameters-------------------------------*/
++
++
++/* BB Register Definition
++ *
++ * 4. Page9(0x900)
++ *   */
++#define rDPDT_control				0x92c
++#define rfe_ctrl_anta_src				0x930
++#define rS0S1_PathSwitch			0x948
++#define	BBrx_DFIR						0x954
++#define AGC_table_select				0xb2c
++
++/*
++ * PageB(0xB00)
++ *   */
++#define rPdp_AntA						0xb00
++#define rPdp_AntA_4						0xb04
++#define rPdp_AntA_8						0xb08
++#define rPdp_AntA_C						0xb0c
++#define rPdp_AntA_10					0xb10
++#define rPdp_AntA_14					0xb14
++#define rPdp_AntA_18					0xb18
++#define rPdp_AntA_1C					0xb1c
++#define rPdp_AntA_20					0xb20
++#define rPdp_AntA_24					0xb24
++
++#define rConfig_Pmpd_AntA				0xb28
++#define rConfig_ram64x16				0xb2c
++
++#define rBndA							0xb30
++#define rHssiPar						0xb34
++
++#define rConfig_AntA					0xb68
++#define rConfig_AntB					0xb6c
++
++#define rPdp_AntB						0xb70
++#define rPdp_AntB_4						0xb74
++#define rPdp_AntB_8						0xb78
++#define rPdp_AntB_C						0xb7c
++#define rPdp_AntB_10					0xb80
++#define rPdp_AntB_14					0xb84
++#define rPdp_AntB_18					0xb88
++#define rPdp_AntB_1C					0xb8c
++#define rPdp_AntB_20					0xb90
++#define rPdp_AntB_24					0xb94
++
++#define rConfig_Pmpd_AntB				0xb98
++
++#define rBndB							0xba0
++
++#define rAPK							0xbd8
++#define rPm_Rx0_AntA					0xbdc
++#define rPm_Rx1_AntA					0xbe0
++#define rPm_Rx2_AntA					0xbe4
++#define rPm_Rx3_AntA					0xbe8
++#define rPm_Rx0_AntB					0xbec
++#define rPm_Rx1_AntB					0xbf0
++#define rPm_Rx2_AntB					0xbf4
++#define rPm_Rx3_AntB					0xbf8
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8188FPwrSeq.h b/drivers/net/wireless/rtl8723du/include/Hal8188FPwrSeq.h
+new file mode 100644
+index 0000000..81e6132
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8188FPwrSeq.h
+@@ -0,0 +1,198 @@
++#ifndef REALTEK_POWER_SEQUENCE_8188F
++#define REALTEK_POWER_SEQUENCE_8188F
++
++#include "HalPwrSeqCmd.h"
++
++/*
++	Check document WM-20130815-JackieLau-RTL8188F_Power_Architecture v08.vsd
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transision from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++*/
++#define	RTL8188F_TRANS_CARDEMU_TO_ACT_STEPS	13
++#define	RTL8188F_TRANS_ACT_TO_CARDEMU_STEPS	15
++#define	RTL8188F_TRANS_CARDEMU_TO_SUS_STEPS	14
++#define	RTL8188F_TRANS_SUS_TO_CARDEMU_STEPS	15
++#define	RTL8188F_TRANS_CARDEMU_TO_PDN_STEPS	15
++#define	RTL8188F_TRANS_PDN_TO_CARDEMU_STEPS	15
++#define	RTL8188F_TRANS_ACT_TO_LPS_STEPS		11
++#define	RTL8188F_TRANS_LPS_TO_ACT_STEPS		13
++#define	RTL8188F_TRANS_ACT_TO_SWLPS_STEPS		21
++#define	RTL8188F_TRANS_SWLPS_TO_ACT_STEPS		14
++#define	RTL8188F_TRANS_END_STEPS		1
++
++
++#define RTL8188F_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0},/* disable SW LPS 0x04[10]=0*/	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1    power ready*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* disable HWPDN 0x04[15]=0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT3), 0},/*  0x4[11]=1'b0 disable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* 0x4[8]=1 polling until return 0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0},/**/	 \
++	{0x0027, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xff, 0x35}, /*0x27<=35 to reduce RF noise*/
++
++#define RTL8188F_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*0x1F[7:0] = 0 turn off RF*/	\
++	{0x004E, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/*0x4C[23] = 0x4E[7] = 0, switch DPDT_SEL_P output from register 0x65[2] */\
++	{0x0027, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xff, 0x34}, /*0x27 <= 34, xtal_qsel = 0 to xtal bring up*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/	\
++
++#define RTL8188F_TRANS_CARDEMU_TO_SUS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00}, /*0x07 = 0x00 , SOP option to disable BG/MB*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/ \
++	{0x00C4, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4},/* 0xC4[4] <= 1, turn off USB APHY LDO under suspend mode*/
++
++#define RTL8188F_TRANS_SUS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/	\
++	{0x00C4, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0},/* 0xC4[4] <= 1, turn off USB APHY LDO under suspend mode*/
++
++#define RTL8188F_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00}, /*0x07 = 0x00 , SOP option to disable BG/MB*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/ \
++	{0x00C4, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4},/* 0xC4[4] <= 1, turn off USB APHY LDO under suspend mode*/
++
++#define RTL8188F_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/	\
++	{0x00C4, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0},/* 0xC4[4] <= 1, turn off USB APHY LDO under suspend mode*/
++
++
++#define RTL8188F_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/* 0x04[16] = 0*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
++
++#define RTL8188F_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
++
++#define RTL8188F_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0139, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*set RPWM IMR*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*Tx Pause*/	\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Whole BB is reset*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x3F},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/
++
++
++#define RTL8188F_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84},  /*SDIO RPWM*/\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
++	{0x0027, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xff, 0x35},/*xtal_qsel = 1 for low noise*/	\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, 0}, /*Polling 0x109[7]=0  TSF in 40M*/\
++	{0x002B, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x1c, 0x1c},   /*.	0x2b[4:2] = 3b'111	to enable BB, AFE clock*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0},  /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++
++#define RTL8188F_TRANS_ACT_TO_SWLPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0139, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*set RPWM IMR*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*Tx Pause*/	\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Whole BB is reset*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x3F},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/	\
++	{0x002b, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x1C, 0x00},/*0x2b[4:2]<=0 to gated BB, AFE clock*/	\
++	{0x0027, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xff, 0x34},/*xtal_qsel = 0 for bring up*/	\
++	{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xff, 0x00},/* sdio LPS option*/	\
++	{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xff, 0x83},/* usb LPS option, open bandgap, xtal*/	\
++	{0x00C4, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, 0}, /* 0xC4[5]<=0, digital LDO no standby mode*/	\
++	{0x00C4, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7}, /* 0xC4[7]<=1, on domain voltage adjust*/	\
++	{0x00a7, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xff, 0xe0}, /* low power LPS enable for sdio*/	\
++	{0x00a7, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xff, 0xe4}, /* low power LPS enable for usb*/	\
++	{0x0090, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /* enable WL_LPS_EN*/
++
++
++#define RTL8188F_TRANS_SWLPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/*polling TSF stable*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1, enable security engine*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x06B7, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x09}, /*.	reset MAC rx state machine*/\
++	{0x06B4, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x86}, /*.	reset MAC rx state machine*/\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/* set CPU RAM code ready*/	\
++	{0x001D, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*Reset CPU IO Wrapper*/	\
++	{0x0003, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0},/* Enable CPU*/	\
++	{0x001D, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*enable CPU IO Wrapper*/	\
++	{0x0003, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2},/* Enable CPU*/	\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, BIT7},/*polling FW init ready */	\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT6, BIT6},/*polling FW init ready */	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++#define RTL8188F_TRANS_END															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++	extern WLAN_PWR_CFG rtl8188F_power_on_flow[RTL8188F_TRANS_CARDEMU_TO_ACT_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_radio_off_flow[RTL8188F_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_card_disable_flow[RTL8188F_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188F_TRANS_CARDEMU_TO_PDN_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_card_enable_flow[RTL8188F_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188F_TRANS_CARDEMU_TO_PDN_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_suspend_flow[RTL8188F_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188F_TRANS_CARDEMU_TO_SUS_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_resume_flow[RTL8188F_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188F_TRANS_CARDEMU_TO_SUS_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_hwpdn_flow[RTL8188F_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188F_TRANS_CARDEMU_TO_PDN_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_enter_lps_flow[RTL8188F_TRANS_ACT_TO_LPS_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_leave_lps_flow[RTL8188F_TRANS_LPS_TO_ACT_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_enter_swlps_flow[RTL8188F_TRANS_ACT_TO_SWLPS_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_leave_swlps_flow[RTL8188F_TRANS_SWLPS_TO_ACT_STEPS + RTL8188F_TRANS_END_STEPS];
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8192EPhyCfg.h b/drivers/net/wireless/rtl8723du/include/Hal8192EPhyCfg.h
+new file mode 100644
+index 0000000..59fb9aa
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8192EPhyCfg.h
+@@ -0,0 +1,161 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8192EPHYCFG_H__
++#define __INC_HAL8192EPHYCFG_H__
++
++
++/*--------------------------Define Parameters-------------------------------*/
++#define LOOP_LIMIT				5
++#define MAX_STALL_TIME			50		/* us */
++#define AntennaDiversityValue	0x80	/* (Adapter->bSoftwareAntennaDiversity ? 0x00 : 0x80) */
++#define MAX_TXPWR_IDX_NMODE_92S	63
++#define Reset_Cnt_Limit			3
++
++#ifdef CONFIG_PCI_HCI
++	#define MAX_AGGR_NUM	0x0B
++#else
++	#define MAX_AGGR_NUM	0x07
++#endif /* CONFIG_PCI_HCI */
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++/*------------------------------Define structure----------------------------*/
++
++/* BB/RF related */
++
++/*------------------------------Define structure----------------------------*/
++
++
++/*------------------------Export global variable----------------------------*/
++/*------------------------Export global variable----------------------------*/
++
++
++/*------------------------Export Marco Definition---------------------------*/
++/*------------------------Export Marco Definition---------------------------*/
++
++
++/*--------------------------Exported Function prototype---------------------*/
++/*
++ * BB and RF register read/write
++ *   */
++u32	PHY_QueryBBReg8192E(IN	PADAPTER	Adapter,
++			    IN	u32			RegAddr,
++			    IN	u32			BitMask);
++void	PHY_SetBBReg8192E(IN	PADAPTER		Adapter,
++			  IN	u32			RegAddr,
++			  IN	u32			BitMask,
++			  IN	u32			Data);
++u32	PHY_QueryRFReg8192E(IN	PADAPTER	Adapter,
++			    IN	u8			eRFPath,
++			    IN	u32			RegAddr,
++			    IN	u32			BitMask);
++void	PHY_SetRFReg8192E(IN	PADAPTER		Adapter,
++			  IN	u8			eRFPath,
++			  IN	u32			RegAddr,
++			  IN	u32			BitMask,
++			  IN	u32			Data);
++
++/*
++ * Initialization related function
++ *
++ * MAC/BB/RF HAL config */
++int	PHY_MACConfig8192E(IN PADAPTER	Adapter);
++int	PHY_BBConfig8192E(IN PADAPTER	Adapter);
++int	PHY_RFConfig8192E(IN PADAPTER	Adapter);
++
++/* RF config */
++
++
++/*
++ * BB TX Power R/W
++ *   */
++void	PHY_GetTxPowerLevel8192E(IN PADAPTER	Adapter, OUT s32	*powerlevel);
++void	PHY_SetTxPowerLevel8192E(IN PADAPTER	Adapter, IN u8	channel);
++BOOLEAN	PHY_UpdateTxPowerDbm8192E(IN PADAPTER	Adapter, IN int	powerInDbm);
++
++VOID
++PHY_SetTxPowerIndex_8192E(
++	IN	PADAPTER			Adapter,
++	IN	u32					PowerIndex,
++	IN	u8					RFPath,
++	IN	u8					Rate
++);
++
++u8
++PHY_GetTxPowerIndex_8192E(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	u8					Rate,
++	IN	u8					BandWidth,
++	IN	u8					Channel,
++	struct txpwr_idx_comp *tic
++);
++
++/*
++ * channel switch related funciton
++ *   */
++VOID
++PHY_SetSwChnlBWMode8192E(
++	IN	PADAPTER			Adapter,
++	IN	u8					channel,
++	IN	CHANNEL_WIDTH	Bandwidth,
++	IN	u8					Offset40,
++	IN	u8					Offset80
++);
++
++VOID
++PHY_SetRFEReg_8192E(
++	IN PADAPTER		Adapter
++);
++
++void
++phy_SpurCalibration_8192E(
++	IN	PADAPTER			Adapter,
++	IN	SPUR_CAL_METHOD	Method
++);
++void PHY_SpurCalibration_8192E(IN PADAPTER Adapter);
++
++#ifdef CONFIG_SPUR_CAL_NBI
++void
++phy_SpurCalibration_8192E_NBI(
++	IN	PADAPTER			Adapter
++);
++#endif
++/*
++ * BB/MAC/RF other monitor API
++ *   */
++
++VOID
++PHY_SetRFPathSwitch_8192E(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bMain
++);
++
++VOID
++storePwrIndexDiffRateOffset(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask,
++	IN	u32		Data
++);
++
++/*--------------------------Exported Function prototype---------------------*/
++#endif /* __INC_HAL8192CPHYCFG_H */
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8192EPhyReg.h b/drivers/net/wireless/rtl8723du/include/Hal8192EPhyReg.h
+new file mode 100644
+index 0000000..cd13c22
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8192EPhyReg.h
+@@ -0,0 +1,1132 @@
++/*****************************************************************************
++ *	Copyright(c) 2008,  RealTEK Technology Inc. All Right Reserved.
++ *
++ * Module:	__INC_HAL8192SPHYREG_H
++ *
++ *
++ * Note:	1. Define PMAC/BB register map
++ *			2. Define RF register map
++ *			3. PMAC/BB register bit mask.
++ *			4. RF reg bit mask.
++ *			5. Other BB/RF relative definition.
++ *
++ *
++ * Export:	Constants, macro, functions(API), global variables(None).
++ *
++ * Abbrev:
++ *
++ * History:
++ *		Data		Who		Remark
++ *      08/07/2007  MHC	1. Porting from 9x series PHYCFG.h.
++ *							2. Reorganize code architecture.
++ *	09/25/2008	MH		1. Add RL6052 register definition
++ *
++ *****************************************************************************/
++#ifndef __INC_HAL8192EPHYREG_H
++#define __INC_HAL8192EPHYREG_H
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++/* ************************************************************
++ * 8192S Regsiter offset definition
++ * ************************************************************ */
++
++/*
++ * BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++ * 3. RF register 0x00-2E
++ * 4. Bit Mask for BB/RF register
++ * 5. Other defintion for BB/RF R/W
++ *   */
++
++
++/*
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 1. Page1(0x100)
++ *   */
++#define		rPMAC_Reset					0x100
++#define		rPMAC_TxStart				0x104
++#define		rPMAC_TxLegacySIG			0x108
++#define		rPMAC_TxHTSIG1				0x10c
++#define		rPMAC_TxHTSIG2				0x110
++#define		rPMAC_PHYDebug				0x114
++#define		rPMAC_TxPacketNum			0x118
++#define		rPMAC_TxIdle					0x11c
++#define		rPMAC_TxMACHeader0			0x120
++#define		rPMAC_TxMACHeader1			0x124
++#define		rPMAC_TxMACHeader2			0x128
++#define		rPMAC_TxMACHeader3			0x12c
++#define		rPMAC_TxMACHeader4			0x130
++#define		rPMAC_TxMACHeader5			0x134
++#define		rPMAC_TxDataType				0x138
++#define		rPMAC_TxRandomSeed			0x13c
++#define		rPMAC_CCKPLCPPreamble		0x140
++#define		rPMAC_CCKPLCPHeader			0x144
++#define		rPMAC_CCKCRC16				0x148
++#define		rPMAC_OFDMRxCRC32OK		0x170
++#define		rPMAC_OFDMRxCRC32Er		0x174
++#define		rPMAC_OFDMRxParityEr			0x178
++#define		rPMAC_OFDMRxCRC8Er			0x17c
++#define		rPMAC_CCKCRxRC16Er			0x180
++#define		rPMAC_CCKCRxRC32Er			0x184
++#define		rPMAC_CCKCRxRC32OK			0x188
++#define		rPMAC_TxStatus				0x18c
++
++
++/*
++ * 3. Page8(0x800)
++ *   */
++#define		rFPGA0_RFMOD				0x800	/* RF mode & CCK TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA0_TxInfo					0x804	/* Status report?? */
++#define		rFPGA0_PSDFunction			0x808
++
++#define		rFPGA0_TxGainStage			0x80c	/* Set TX PWR init gain? */
++
++#define		rFPGA0_RFTiming1				0x810	/* Useless now */
++#define		rFPGA0_RFTiming2				0x814
++
++#define		rFPGA0_XA_HSSIParameter1		0x820	/* RF 3 wire register */
++#define		rFPGA0_XA_HSSIParameter2		0x824
++#define		rFPGA0_XB_HSSIParameter1		0x828
++#define		rFPGA0_XB_HSSIParameter2		0x82c
++
++#define		rFPGA0_XA_LSSIParameter		0x840
++#define		rFPGA0_XB_LSSIParameter		0x844
++
++#define		rFPGA0_RFWakeUpParameter	0x850	/* Useless now */
++#define		rFPGA0_RFSleepUpParameter		0x854
++
++#define		rFPGA0_XAB_SwitchControl		0x858	/* RF Channel switch */
++#define		rFPGA0_XCD_SwitchControl		0x85c
++
++#define		rFPGA0_XA_RFInterfaceOE		0x860	/* RF Channel switch */
++#define		rFPGA0_XB_RFInterfaceOE		0x864
++
++#define		rFPGA0_XAB_RFInterfaceSW		0x870	/* RF Interface Software Control */
++#define		rFPGA0_XCD_RFInterfaceSW		0x874
++
++#define		rFPGA0_XAB_RFParameter		0x878	/* RF Parameter */
++#define		rFPGA0_XCD_RFParameter		0x87c
++
++#define		rFPGA0_AnalogParameter1		0x880	/* Crystal cap setting RF-R/W protection for parameter4?? */
++#define		rFPGA0_AnalogParameter2		0x884
++#define		rFPGA0_AnalogParameter3		0x888
++#define		rFPGA0_AdDaClockEn			0x888	/* enable ad/da clock1 for dual-phy */
++#define		rFPGA0_AnalogParameter4		0x88c
++
++#define		rFPGA0_XA_LSSIReadBack		0x8a0	/* Tranceiver LSSI Readback */
++#define		rFPGA0_XB_LSSIReadBack		0x8a4
++#define		rFPGA0_XC_LSSIReadBack		0x8a8
++#define		rFPGA0_XD_LSSIReadBack		0x8ac
++
++#define		rFPGA0_PSDReport				0x8b4	/* Useless now */
++#define		TransceiverA_HSPI_Readback		0x8b8	/* Transceiver A HSPI Readback */
++#define		TransceiverB_HSPI_Readback		0x8bc	/* Transceiver B HSPI Readback */
++#define		rFPGA0_XAB_RFInterfaceRB		0x8e0	/* Useless now */ /* RF Interface Readback Value */
++#define		rFPGA0_XCD_RFInterfaceRB		0x8e4	/* Useless now */
++
++/*
++ * 4. Page9(0x900)
++ *   */
++#define		rFPGA1_RFMOD				0x900	/* RF mode & OFDM TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA1_TxBlock				0x904	/* Useless now */
++#define		rFPGA1_DebugSelect			0x908	/* Useless now */
++#define		rFPGA1_TxInfo					0x90c	/* Useless now */ /* Status report?? */
++
++/*
++ * 5. PageA(0xA00)
++ *
++ * Set Control channel to upper or lower. These settings are required only for 40MHz */
++#define		rCCK0_System					0xa00
++
++#define		rCCK0_AFESetting				0xa04	/* Disable init gain now */ /* Select RX path by RSSI */
++#define		rCCK0_CCA					0xa08	/* Disable init gain now */ /* Init gain */
++
++#define		rCCK0_RxAGC1				0xa0c	/* AGC default value, saturation level  */ /* Antenna Diversity, RX AGC, LNA Threshold, RX LNA Threshold useless now. Not the same as 90 series */
++#define		rCCK0_RxAGC2				0xa10	/* AGC & DAGC */
++
++#define		rCCK0_RxHP					0xa14
++
++#define		rCCK0_DSPParameter1			0xa18	/* Timing recovery & Channel estimation threshold */
++#define		rCCK0_DSPParameter2			0xa1c	/* SQ threshold */
++
++#define		rCCK0_TxFilter1				0xa20
++#define		rCCK0_TxFilter2				0xa24
++#define		rCCK0_DebugPort				0xa28	/* debug port and Tx filter3 */
++#define		rCCK0_FalseAlarmReport		0xa2c	/* 0xa2d	useless now 0xa30-a4f channel report */
++#define		rCCK0_TRSSIReport			0xa50
++#define		rCCK0_RxReport            			0xa54  /* 0xa57 */
++#define		rCCK0_FACounterLower      		0xa5c  /* 0xa5b */
++#define		rCCK0_FACounterUpper      		0xa58  /* 0xa5c */
++
++/*
++ * PageB(0xB00)
++ *   */
++#define		rPdp_AntA					0xb00
++#define		rPdp_AntA_4				0xb04
++#define		rConfig_Pmpd_AntA			0xb28
++#define		rConfig_ram64x16				0xb2c
++
++#define		rConfig_AntA					0xb68
++#define		rConfig_AntB					0xb6c
++#define		rPdp_AntB					0xb70
++#define		rPdp_AntB_4					0xb74
++#define		rConfig_Pmpd_AntB			0xb98
++#define		rAPK							0xbd8
++
++
++
++/*
++ * 6. PageC(0xC00)
++ *   */
++#define		rOFDM0_LSTF					0xc00
++
++#define		rOFDM0_TRxPathEnable			0xc04
++#define		rOFDM0_TRMuxPar				0xc08
++#define		rOFDM0_TRSWIsolation			0xc0c
++
++#define		rOFDM0_XARxAFE				0xc10  /* RxIQ DC offset, Rx digital filter, DC notch filter */
++#define		rOFDM0_XARxIQImbalance    		0xc14  /* RxIQ imblance matrix */
++#define		rOFDM0_XBRxAFE			0xc18
++#define		rOFDM0_XBRxIQImbalance		0xc1c
++#define		rOFDM0_XCRxAFE			0xc20
++#define		rOFDM0_XCRxIQImbalance		0xc24
++#define		rOFDM0_XDRxAFE			0xc28
++#define		rOFDM0_XDRxIQImbalance		0xc2c
++
++#define		rOFDM0_RxDetector1			0xc30  /* PD, BW & SBD	 */ /* DM tune init gain */
++#define		rOFDM0_RxDetector2			0xc34  /* SBD & Fame Sync. */
++#define		rOFDM0_RxDetector3			0xc38  /* Frame Sync. */
++#define		rOFDM0_RxDetector4			0xc3c  /* PD, SBD, Frame Sync & Short-GI */
++
++#define		rOFDM0_RxDSP				0xc40  /* Rx Sync Path */
++#define		rOFDM0_CFOandDAGC			0xc44  /* CFO & DAGC */
++#define		rOFDM0_CCADropThreshold		0xc48 /* CCA Drop threshold */
++#define		rOFDM0_ECCAThreshold			0xc4c /* energy CCA */
++
++#define		rOFDM0_XAAGCCore1			0xc50	/* DIG */
++#define		rOFDM0_XAAGCCore2			0xc54
++#define		rOFDM0_XBAGCCore1			0xc58
++#define		rOFDM0_XBAGCCore2			0xc5c
++#define		rOFDM0_XCAGCCore1			0xc60
++#define		rOFDM0_XCAGCCore2			0xc64
++#define		rOFDM0_XDAGCCore1			0xc68
++#define		rOFDM0_XDAGCCore2			0xc6c
++
++#define		rOFDM0_AGCParameter1		0xc70
++#define		rOFDM0_AGCParameter2		0xc74
++#define		rOFDM0_AGCRSSITable			0xc78
++#define		rOFDM0_HTSTFAGC				0xc7c
++
++#define		rOFDM0_XATxIQImbalance		0xc80	/* TX PWR TRACK and DIG */
++#define		rOFDM0_XATxAFE				0xc84
++#define		rOFDM0_XBTxIQImbalance		0xc88
++#define		rOFDM0_XBTxAFE				0xc8c
++#define		rOFDM0_XCTxIQImbalance		0xc90
++#define		rOFDM0_XCTxAFE			0xc94
++#define		rOFDM0_XDTxIQImbalance		0xc98
++#define		rOFDM0_XDTxAFE				0xc9c
++
++#define		rOFDM0_RxIQExtAnta			0xca0
++#define		rOFDM0_TxCoeff1				0xca4
++#define		rOFDM0_TxCoeff2				0xca8
++#define		rOFDM0_TxCoeff3				0xcac
++#define		rOFDM0_TxCoeff4				0xcb0
++#define		rOFDM0_TxCoeff5				0xcb4
++#define		rOFDM0_RxHPParameter		0xce0
++#define		rOFDM0_TxPseudoNoiseWgt		0xce4
++#define		rOFDM0_FrameSync			0xcf0
++#define		rOFDM0_DFSReport			0xcf4
++
++
++/*
++ * 7. PageD(0xD00)
++ *   */
++#define		rOFDM1_LSTF					0xd00
++#define		rOFDM1_TRxPathEnable			0xd04
++
++#define		rOFDM1_CFO					0xd08	/* No setting now */
++#define		rOFDM1_CSI1					0xd10
++#define		rOFDM1_SBD					0xd14
++#define		rOFDM1_CSI2					0xd18
++#define		rOFDM1_CFOTracking			0xd2c
++#define		rOFDM1_TRxMesaure1			0xd34
++#define		rOFDM1_IntfDet				0xd3c
++#define		rOFDM1_PseudoNoiseStateAB	0xd50
++#define		rOFDM1_PseudoNoiseStateCD	0xd54
++#define		rOFDM1_RxPseudoNoiseWgt		0xd58
++
++#define		rOFDM_PHYCounter1			0xda0  /* cca, parity fail */
++#define		rOFDM_PHYCounter2			0xda4  /* rate illegal, crc8 fail */
++#define		rOFDM_PHYCounter3			0xda8  /* MCS not support */
++
++#define		rOFDM_ShortCFOAB			0xdac	/* No setting now */
++#define		rOFDM_ShortCFOCD			0xdb0
++#define		rOFDM_LongCFOAB				0xdb4
++#define		rOFDM_LongCFOCD				0xdb8
++#define		rOFDM_TailCFOAB				0xdbc
++#define		rOFDM_TailCFOCD				0xdc0
++#define		rOFDM_PWMeasure1		0xdc4
++#define		rOFDM_PWMeasure2		0xdc8
++#define		rOFDM_BWReport				0xdcc
++#define		rOFDM_AGCReport				0xdd0
++#define		rOFDM_RxSNR				0xdd4
++#define		rOFDM_RxEVMCSI				0xdd8
++#define		rOFDM_SIGReport				0xddc
++
++
++/*
++ * 8. PageE(0xE00)
++ *   */
++#define		rTxAGC_A_Rate18_06			0xe00
++#define		rTxAGC_A_Rate54_24			0xe04
++#define		rTxAGC_A_CCK1_Mcs32			0xe08
++#define		rTxAGC_A_Mcs03_Mcs00		0xe10
++#define		rTxAGC_A_Mcs07_Mcs04		0xe14
++#define		rTxAGC_A_Mcs11_Mcs08		0xe18
++#define		rTxAGC_A_Mcs15_Mcs12		0xe1c
++
++#define		rTxAGC_B_Rate18_06			0x830
++#define		rTxAGC_B_Rate54_24			0x834
++#define		rTxAGC_B_CCK1_55_Mcs32		0x838
++#define		rTxAGC_B_Mcs03_Mcs00		0x83c
++#define		rTxAGC_B_Mcs07_Mcs04		0x848
++#define		rTxAGC_B_Mcs11_Mcs08		0x84c
++#define		rTxAGC_B_Mcs15_Mcs12		0x868
++#define		rTxAGC_B_CCK11_A_CCK2_11		0x86c
++
++#define		rFPGA0_IQK					0xe28
++#define		rTx_IQK_Tone_A				0xe30
++#define		rRx_IQK_Tone_A				0xe34
++#define		rTx_IQK_PI_A					0xe38
++#define		rRx_IQK_PI_A					0xe3c
++
++#define		rTx_IQK						0xe40
++#define		rRx_IQK						0xe44
++#define		rIQK_AGC_Pts					0xe48
++#define		rIQK_AGC_Rsp					0xe4c
++#define		rTx_IQK_Tone_B				0xe50
++#define		rRx_IQK_Tone_B				0xe54
++#define		rTx_IQK_PI_B					0xe58
++#define		rRx_IQK_PI_B					0xe5c
++#define		rIQK_AGC_Cont				0xe60
++
++#define		rBlue_Tooth					0xe6c
++#define		rRx_Wait_CCA					0xe70
++#define		rTx_CCK_RFON					0xe74
++#define		rTx_CCK_BBON				0xe78
++#define		rTx_OFDM_RFON				0xe7c
++#define		rTx_OFDM_BBON				0xe80
++#define		rTx_To_Rx					0xe84
++#define		rTx_To_Tx					0xe88
++#define		rRx_CCK						0xe8c
++
++#define		rTx_Power_Before_IQK_A		0xe94
++#define		rTx_Power_After_IQK_A			0xe9c
++
++#define		rRx_Power_Before_IQK_A		0xea0
++#define		rRx_Power_Before_IQK_A_2		0xea4
++#define		rRx_Power_After_IQK_A			0xea8
++#define		rRx_Power_After_IQK_A_2		0xeac
++
++#define		rTx_Power_Before_IQK_B		0xeb4
++#define		rTx_Power_After_IQK_B			0xebc
++
++#define		rRx_Power_Before_IQK_B		0xec0
++#define		rRx_Power_Before_IQK_B_2		0xec4
++#define		rRx_Power_After_IQK_B			0xec8
++#define		rRx_Power_After_IQK_B_2		0xecc
++
++#define		rRx_OFDM					0xed0
++#define		rRx_Wait_RIFS				0xed4
++#define		rRx_TO_Rx					0xed8
++#define		rStandby						0xedc
++#define		rSleep						0xee0
++#define		rPMPD_ANAEN				0xeec
++
++/*
++ * 7. RF Register 0x00-0x2E (RF 8256)
++ * RF-0222D 0x00-3F
++ *
++ * Zebra1 */
++#define		rZebra1_HSSIEnable				0x0	/* Useless now */
++#define		rZebra1_TRxEnable1			0x1
++#define		rZebra1_TRxEnable2			0x2
++#define		rZebra1_AGC					0x4
++#define		rZebra1_ChargePump			0x5
++#define		rZebra1_Channel				0x7	/* RF channel switch */
++
++/* #endif */
++#define		rZebra1_TxGain				0x8	/* Useless now */
++#define		rZebra1_TxLPF					0x9
++#define		rZebra1_RxLPF					0xb
++#define		rZebra1_RxHPFCorner			0xc
++
++/* Zebra4 */
++#define		rGlobalCtrl					0	/* Useless now */
++#define		rRTL8256_TxLPF				19
++#define		rRTL8256_RxLPF				11
++
++/* RTL8258 */
++#define		rRTL8258_TxLPF				0x11	/* Useless now */
++#define		rRTL8258_RxLPF				0x13
++#define		rRTL8258_RSSILPF				0xa
++
++/*
++ * RL6052 Register definition
++ *   */
++#define		RF_AC						0x00	/*  */
++
++#define		RF_IQADJ_G1					0x01	/*  */
++#define		RF_IQADJ_G2					0x02	/*  */
++
++#define		RF_POW_TRSW				0x05	/*  */
++
++#define		RF_GAIN_RX					0x06	/*  */
++#define		RF_GAIN_TX					0x07	/*  */
++
++#define		RF_TXM_IDAC					0x08	/*  */
++#define		RF_IPA_G						0x09	/*  */
++#define		RF_TXBIAS_G					0x0A
++#define		RF_TXPA_AG					0x0B
++#define		RF_IPA_A						0x0C	/*  */
++#define		RF_TXBIAS_A					0x0D
++#define		RF_BS_PA_APSET_G9_G11		0x0E
++#define		RF_BS_IQGEN					0x0F	/*  */
++
++#define		RF_MODE1					0x10	/*  */
++#define		RF_MODE2					0x11	/*  */
++
++#define		RF_RX_AGC_HP				0x12	/*  */
++#define		RF_TX_AGC					0x13	/*  */
++#define		RF_BIAS						0x14	/*  */
++#define		RF_IPA						0x15	/*  */
++#define		RF_TXBIAS					0x16
++#define		RF_POW_ABILITY				0x17	/*  */
++#define		RF_CHNLBW					0x18	/* RF channel and BW switch */
++#define		RF_TOP						0x19	/*  */
++
++#define		RF_RX_G1					0x1A	/*  */
++#define		RF_RX_G2					0x1B	/*  */
++
++#define		RF_RX_BB2					0x1C	/*  */
++#define		RF_RX_BB1					0x1D	/*  */
++
++#define		RF_RCK1						0x1E	/*  */
++#define		RF_RCK2						0x1F	/*  */
++
++#define		RF_TX_G1						0x20	/*  */
++#define		RF_TX_G2						0x21	/*  */
++#define		RF_TX_G3						0x22	/*  */
++
++#define		RF_TX_BB1					0x23	/*  */
++
++#define		RF_T_METER_8192E			0x42	/*  */
++#define		RF_T_METER_88E				0x42
++#define		RF_T_METER					0x24	/*  */
++
++/* #endif */
++
++#define		RF_SYN_G1					0x25	/* RF TX Power control */
++#define		RF_SYN_G2					0x26	/* RF TX Power control */
++#define		RF_SYN_G3					0x27	/* RF TX Power control */
++#define		RF_SYN_G4					0x28	/* RF TX Power control */
++#define		RF_SYN_G5					0x29	/* RF TX Power control */
++#define		RF_SYN_G6					0x2A	/* RF TX Power control */
++#define		RF_SYN_G7					0x2B	/* RF TX Power control */
++#define		RF_SYN_G8					0x2C	/* RF TX Power control */
++
++#define		RF_RCK_OS					0x30	/* RF TX PA control */
++#define		RF_TXPA_G1					0x31	/* RF TX PA control */
++#define		RF_TXPA_G2					0x32	/* RF TX PA control */
++#define		RF_TXPA_G3					0x33	/* RF TX PA control */
++#define		RF_TX_BIAS_A					0x35
++#define		RF_TX_BIAS_D					0x36
++#define		RF_LOBF_9					0x38
++#define		RF_RXRF_A3					0x3C	/*	 */
++#define		RF_TRSW						0x3F
++
++#define		RF_TXRF_A2					0x41
++#define		RF_TXPA_G4					0x46
++#define		RF_TXPA_A4					0x4B
++#define		RF_0x52						0x52
++#define		RF_LDO						0xB1
++#define		RF_WE_LUT					0xEF
++
++
++/*
++ * Bit Mask
++ *
++ * 1. Page1(0x100) */
++#define		bBBResetB					0x100	/* Useless now? */
++#define		bGlobalResetB					0x200
++#define		bOFDMTxStart					0x4
++#define		bCCKTxStart					0x8
++#define		bCRC32Debug					0x100
++#define		bPMACLoopback				0x10
++#define		bTxLSIG						0xffffff
++#define		bOFDMTxRate					0xf
++#define		bOFDMTxReserved				0x10
++#define		bOFDMTxLength				0x1ffe0
++#define		bOFDMTxParity				0x20000
++#define		bTxHTSIG1					0xffffff
++#define		bTxHTMCSRate				0x7f
++#define		bTxHTBW						0x80
++#define		bTxHTLength					0xffff00
++#define		bTxHTSIG2					0xffffff
++#define		bTxHTSmoothing				0x1
++#define		bTxHTSounding				0x2
++#define		bTxHTReserved				0x4
++#define		bTxHTAggreation				0x8
++#define		bTxHTSTBC					0x30
++#define		bTxHTAdvanceCoding			0x40
++#define		bTxHTShortGI					0x80
++#define		bTxHTNumberHT_LTF			0x300
++#define		bTxHTCRC8					0x3fc00
++#define		bCounterReset				0x10000
++#define		bNumOfOFDMTx				0xffff
++#define		bNumOfCCKTx					0xffff0000
++#define		bTxIdleInterval				0xffff
++#define		bOFDMService					0xffff0000
++#define		bTxMACHeader				0xffffffff
++#define		bTxDataInit					0xff
++#define		bTxHTMode					0x100
++#define		bTxDataType					0x30000
++#define		bTxRandomSeed				0xffffffff
++#define		bCCKTxPreamble				0x1
++#define		bCCKTxSFD					0xffff0000
++#define		bCCKTxSIG					0xff
++#define		bCCKTxService					0xff00
++#define		bCCKLengthExt					0x8000
++#define		bCCKTxLength					0xffff0000
++#define		bCCKTxCRC16					0xffff
++#define		bCCKTxStatus					0x1
++#define		bOFDMTxStatus				0x2
++
++#define		IS_BB_REG_OFFSET_92S(_Offset)		((_Offset >= 0x800) && (_Offset <= 0xfff))
++#define		RF_TX_GAIN_OFFSET_8192E(_val)		((abs((_val)) << 1) | (((_val) > 0) ? BIT0 : 0))
++
++
++/* 2. Page8(0x800) */
++#define		bRFMOD						0x1	/* Reg 0x800 rFPGA0_RFMOD */
++#define		bJapanMode					0x2
++#define		bCCKTxSC						0x30
++#define		bCCKEn						0x1000000
++#define		bOFDMEn					0x2000000
++
++#define		bOFDMRxADCPhase           		0x10000	/* Useless now */
++#define		bOFDMTxDACPhase		0x40000
++#define		bXATxAGC				0x3f
++
++#define		bAntennaSelect			0x0300
++
++#define		bXBTxAGC                  				0xf00	/* Reg 80c rFPGA0_TxGainStage */
++#define		bXCTxAGC				0xf000
++#define		bXDTxAGC				0xf0000
++
++#define		bPAStart                  				0xf0000000	/* Useless now */
++#define		bTRStart				0x00f00000
++#define		bRFStart				0x0000f000
++#define		bBBStart				0x000000f0
++#define		bBBCCKStart			0x0000000f
++#define		bPAEnd                    				0xf          /* Reg0x814 */
++#define		bTREnd				0x0f000000
++#define		bRFEnd				0x000f0000
++#define		bCCAMask                  				0x000000f0   /* T2R */
++#define		bR2RCCAMask			0x00000f00
++#define		bHSSI_R2TDelay			0xf8000000
++#define		bHSSI_T2RDelay			0xf80000
++#define		bContTxHSSI               			0x400     /* chane gain at continue Tx */
++#define		bIGFromCCK			0x200
++#define		bAGCAddress			0x3f
++#define		bRxHPTx				0x7000
++#define		bRxHPT2R				0x38000
++#define		bRxHPCCKIni			0xc0000
++#define		bAGCTxCode			0xc00000
++#define		bAGCRxCode			0x300000
++
++#define		b3WireDataLength          			0x800	/* Reg 0x820~84f rFPGA0_XA_HSSIParameter1 */
++#define		b3WireAddressLength		0x400
++
++#define		b3WireRFPowerDown         		0x1	/* Useless now
++ * #define bHWSISelect		0x8 */
++#define		b5GPAPEPolarity			0x40000000
++#define		b2GPAPEPolarity			0x80000000
++#define		bRFSW_TxDefaultAnt		0x3
++#define		bRFSW_TxOptionAnt		0x30
++#define		bRFSW_RxDefaultAnt		0x300
++#define		bRFSW_RxOptionAnt		0x3000
++#define		bRFSI_3WireData			0x1
++#define		bRFSI_3WireClock			0x2
++#define		bRFSI_3WireLoad			0x4
++#define		bRFSI_3WireRW			0x8
++#define		bRFSI_3Wire			0xf
++
++#define		bRFSI_RFENV               		0x10	/* Reg 0x870 rFPGA0_XAB_RFInterfaceSW */
++
++#define		bRFSI_TRSW                		0x20	/* Useless now */
++#define		bRFSI_TRSWB		0x40
++#define		bRFSI_ANTSW		0x100
++#define		bRFSI_ANTSWB		0x200
++#define		bRFSI_PAPE			0x400
++#define		bRFSI_PAPE5G		0x800
++#define		bBandSelect			0x1
++#define		bHTSIG2_GI			0x80
++#define		bHTSIG2_Smoothing		0x01
++#define		bHTSIG2_Sounding		0x02
++#define		bHTSIG2_Aggreaton		0x08
++#define		bHTSIG2_STBC		0x30
++#define		bHTSIG2_AdvCoding		0x40
++#define		bHTSIG2_NumOfHTLTF	0x300
++#define		bHTSIG2_CRC8		0x3fc
++#define		bHTSIG1_MCS		0x7f
++#define		bHTSIG1_BandWidth		0x80
++#define		bHTSIG1_HTLength		0xffff
++#define		bLSIG_Rate			0xf
++#define		bLSIG_Reserved		0x10
++#define		bLSIG_Length		0x1fffe
++#define		bLSIG_Parity			0x20
++#define		bCCKRxPhase		0x4
++
++#define		bLSSIReadAddress          		0x7f800000   /* T65 RF */
++
++#define		bLSSIReadEdge             		0x80000000   /* LSSI "Read" edge signal */
++
++#define		bLSSIReadBackData         		0xfffff		/* T65 RF */
++
++#define		bLSSIReadOKFlag           		0x1000	/* Useless now */
++#define		bCCKSampleRate            		0x8       /* 0: 44MHz, 1:88MHz      		 */
++#define		bRegulator0Standby		0x1
++#define		bRegulatorPLLStandby	0x2
++#define		bRegulator1Standby		0x4
++#define		bPLLPowerUp		0x8
++#define		bDPLLPowerUp		0x10
++#define		bDA10PowerUp		0x20
++#define		bAD7PowerUp		0x200
++#define		bDA6PowerUp		0x2000
++#define		bXtalPowerUp		0x4000
++#define		b40MDClkPowerUP	0x8000
++#define		bDA6DebugMode		0x20000
++#define		bDA6Swing			0x380000
++
++#define		bADClkPhase               		0x4000000	/* Reg 0x880 rFPGA0_AnalogParameter1 20/40 CCK support switch 40/80 BB MHZ */
++
++#define		b80MClkDelay              		0x18000000	/* Useless */
++#define		bAFEWatchDogEnable	0x20000000
++
++#define		bXtalCap01                			0xc0000000	/* Reg 0x884 rFPGA0_AnalogParameter2 Crystal cap */
++#define		bXtalCap23			0x3
++#define		bXtalCap92x				0x0f000000
++#define		bXtalCap			0x0f000000
++
++#define		bIntDifClkEnable          		0x400	/* Useless */
++#define		bExtSigClkEnable		0x800
++#define		bBandgapMbiasPowerUp	0x10000
++#define		bAD11SHGain		0xc0000
++#define		bAD11InputRange		0x700000
++#define		bAD11OPCurrent		0x3800000
++#define		bIPathLoopback		0x4000000
++#define		bQPathLoopback		0x8000000
++#define		bAFELoopback		0x10000000
++#define		bDA10Swing		0x7e0
++#define		bDA10Reverse		0x800
++#define		bDAClkSource		0x1000
++#define		bAD7InputRange		0x6000
++#define		bAD7Gain			0x38000
++#define		bAD7OutputCMMode	0x40000
++#define		bAD7InputCMMode	0x380000
++#define		bAD7Current		0xc00000
++#define		bRegulatorAdjust		0x7000000
++#define		bAD11PowerUpAtTx	0x1
++#define		bDA10PSAtTx		0x10
++#define		bAD11PowerUpAtRx	0x100
++#define		bDA10PSAtRx		0x1000
++#define		bCCKRxAGCFormat		0x200
++#define		bPSDFFTSamplepPoint	0xc000
++#define		bPSDAverageNum		0x3000
++#define		bIQPathControl		0xc00
++#define		bPSDFreq			0x3ff
++#define		bPSDAntennaPath		0x30
++#define		bPSDIQSwitch		0x40
++#define		bPSDRxTrigger		0x400000
++#define		bPSDTxTrigger		0x80000000
++#define		bPSDSineToneScale		0x7f000000
++#define		bPSDReport		0xffff
++
++/* 3. Page9(0x900) */
++#define		bOFDMTxSC                 		0x30000000	/* Useless */
++#define		bCCKTxOn			0x1
++#define		bOFDMTxOn		0x2
++#define		bDebugPage                		0xfff  /* reset debug page and also HWord, LWord */
++#define		bDebugItem                		0xff   /* reset debug page and LWord */
++#define		bAntL				0x10
++#define		bAntNonHT			0x100
++#define		bAntHT1			0x1000
++#define		bAntHT2			0x10000
++#define		bAntHT1S1			0x100000
++#define		bAntNonHTS1		0x1000000
++
++/* 4. PageA(0xA00) */
++#define		bCCKBBMode                		0x3	/* Useless */
++#define		bCCKTxPowerSaving		0x80
++#define		bCCKRxPowerSaving		0x40
++
++#define		bCCKSideBand              		0x10	/* Reg 0xa00 rCCK0_System 20/40 switch */
++
++#define		bCCKScramble              		0x8	/* Useless */
++#define		bCCKAntDiversity			0x8000
++#define		bCCKCarrierRecovery		0x4000
++#define		bCCKTxRate			0x3000
++#define		bCCKDCCancel		0x0800
++#define		bCCKISICancel		0x0400
++#define		bCCKMatchFilter		0x0200
++#define		bCCKEqualizer		0x0100
++#define		bCCKPreambleDetect		0x800000
++#define		bCCKFastFalseCCA		0x400000
++#define		bCCKChEstStart		0x300000
++#define		bCCKCCACount		0x080000
++#define		bCCKcs_lim			0x070000
++#define		bCCKBistMode		0x80000000
++#define		bCCKCCAMask		0x40000000
++#define		bCCKTxDACPhase		0x4
++#define		bCCKRxADCPhase         	   	0x20000000   /* r_rx_clk */
++#define		bCCKr_cp_mode0		0x0100
++#define		bCCKTxDCOffset		0xf0
++#define		bCCKRxDCOffset		0xf
++#define		bCCKCCAMode		0xc000
++#define		bCCKFalseCS_lim		0x3f00
++#define		bCCKCS_ratio		0xc00000
++#define		bCCKCorgBit_sel		0x300000
++#define		bCCKPD_lim		0x0f0000
++#define		bCCKNewCCA		0x80000000
++#define		bCCKRxHPofIG		0x8000
++#define		bCCKRxIG			0x7f00
++#define		bCCKLNAPolarity		0x800000
++#define		bCCKRx1stGain		0x7f0000
++#define		bCCKRFExtend              		0x20000000 /* CCK Rx Iinital gain polarity */
++#define		bCCKRxAGCSatLevel		0x1f000000
++#define		bCCKRxAGCSatCount		0xe0
++#define		bCCKRxRFSettle            		0x1f       /* AGCsamp_dly */
++#define		bCCKFixedRxAGC		0x8000
++/* #define bCCKRxAGCFormat		0x4000 */   /* remove to HSSI register 0x824 */
++#define		bCCKAntennaPolarity		0x2000
++#define		bCCKTxFilterType		0x0c00
++#define		bCCKRxAGCReportType		0x0300
++#define		bCCKRxDAGCEn		0x80000000
++#define		bCCKRxDAGCPeriod		0x20000000
++#define		bCCKRxDAGCSatLevel		0x1f000000
++#define		bCCKTimingRecovery		0x800000
++#define		bCCKTxC0			0x3f0000
++#define		bCCKTxC1			0x3f000000
++#define		bCCKTxC2			0x3f
++#define		bCCKTxC3			0x3f00
++#define		bCCKTxC4			0x3f0000
++#define		bCCKTxC5			0x3f000000
++#define		bCCKTxC6			0x3f
++#define		bCCKTxC7			0x3f00
++#define		bCCKDebugPort		0xff0000
++#define		bCCKDACDebug		0x0f000000
++#define		bCCKFalseAlarmEnable	0x8000
++#define		bCCKFalseAlarmRead	0x4000
++#define		bCCKTRSSI			0x7f
++#define		bCCKRxAGCReport		0xfe
++#define		bCCKRxReport_AntSel	0x80000000
++#define		bCCKRxReport_MFOff	0x40000000
++#define		bCCKRxRxReport_SQLoss	0x20000000
++#define		bCCKRxReport_Pktloss	0x10000000
++#define		bCCKRxReport_Lockedbit	0x08000000
++#define		bCCKRxReport_RateError	0x04000000
++#define		bCCKRxReport_RxRate	0x03000000
++#define		bCCKRxFACounterLower	0xff
++#define		bCCKRxFACounterUpper	0xff000000
++#define		bCCKRxHPAGCStart		0xe000
++#define		bCCKRxHPAGCFinal		0x1c00
++#define		bCCKRxFalseAlarmEnable	0x8000
++#define		bCCKFACounterFreeze	0x4000
++#define		bCCKTxPathSel		0x10000000
++#define		bCCKDefaultRxPath		0xc000000
++#define		bCCKOptionRxPath		0x3000000
++
++/* 5. PageC(0xC00) */
++#define		bNumOfSTF                			0x3	/* Useless */
++#define		bShift_L			0xc0
++#define		bGI_TH			0xc
++#define		bRxPathA			0x1
++#define		bRxPathB			0x2
++#define		bRxPathC			0x4
++#define		bRxPathD			0x8
++#define		bTxPathA			0x1
++#define		bTxPathB			0x2
++#define		bTxPathC			0x4
++#define		bTxPathD			0x8
++#define		bTRSSIFreq			0x200
++#define		bADCBackoff			0x3000
++#define		bDFIRBackoff			0xc000
++#define		bTRSSILatchPhase		0x10000
++#define		bRxIDCOffset			0xff
++#define		bRxQDCOffset		0xff00
++#define		bRxDFIRMode		0x1800000
++#define		bRxDCNFType		0xe000000
++#define		bRXIQImb_A		0x3ff
++#define		bRXIQImb_B			0xfc00
++#define		bRXIQImb_C			0x3f0000
++#define		bRXIQImb_D		0xffc00000
++#define		bDC_dc_Notch		0x60000
++#define		bRxNBINotch		0x1f000000
++#define		bPD_TH			0xf
++#define		bPD_TH_Opt2		0xc000
++#define		bPWED_TH			0x700
++#define		bIfMF_Win_L		0x800
++#define		bPD_Option			0x1000
++#define		bMF_Win_L			0xe000
++#define		bBW_Search_L		0x30000
++#define		bwin_enh_L			0xc0000
++#define		bBW_TH			0x700000
++#define		bED_TH2			0x3800000
++#define		bBW_option			0x4000000
++#define		bRatio_TH			0x18000000
++#define		bWindow_L			0xe0000000
++#define		bSBD_Option		0x1
++#define		bFrame_TH			0x1c
++#define		bFS_Option			0x60
++#define		bDC_Slope_check		0x80
++#define		bFGuard_Counter_DC_L	0xe00
++#define		bFrame_Weight_Short	0x7000
++#define		bSub_Tune			0xe00000
++#define		bFrame_DC_Length		0xe000000
++#define		bSBD_start_offset		0x30000000
++#define		bFrame_TH_2		0x7
++#define		bFrame_GI2_TH		0x38
++#define		bGI2_Sync_en		0x40
++#define		bSarch_Short_Early		0x300
++#define		bSarch_Short_Late		0xc00
++#define		bSarch_GI2_Late		0x70000
++#define		bCFOAntSum		0x1
++#define		bCFOAcc			0x2
++#define		bCFOStartOffset		0xc
++#define		bCFOLookBack		0x70
++#define		bCFOSumWeight		0x80
++#define		bDAGCEnable		0x10000
++#define		bTXIQImb_A			0x3ff
++#define		bTXIQImb_B			0xfc00
++#define		bTXIQImb_C			0x3f0000
++#define		bTXIQImb_D			0xffc00000
++#define		bTxIDCOffset			0xff
++#define		bTxQDCOffset		0xff00
++#define		bTxDFIRMode		0x10000
++#define		bTxPesudoNoiseOn		0x4000000
++#define		bTxPesudoNoise_A		0xff
++#define		bTxPesudoNoise_B		0xff00
++#define		bTxPesudoNoise_C		0xff0000
++#define		bTxPesudoNoise_D		0xff000000
++#define		bCCADropOption		0x20000
++#define		bCCADropThres		0xfff00000
++#define		bEDCCA_H			0xf
++#define		bEDCCA_L			0xf0
++#define		bLambda_ED		0x300
++#define		bRxInitialGain			0x7f
++#define		bRxAntDivEn		0x80
++#define		bRxAGCAddressForLNA	0x7f00
++#define		bRxHighPowerFlow		0x8000
++#define		bRxAGCFreezeThres		0xc0000
++#define		bRxFreezeStep_AGC1	0x300000
++#define		bRxFreezeStep_AGC2	0xc00000
++#define		bRxFreezeStep_AGC3	0x3000000
++#define		bRxFreezeStep_AGC0	0xc000000
++#define		bRxRssi_Cmp_En		0x10000000
++#define		bRxQuickAGCEn		0x20000000
++#define		bRxAGCFreezeThresMode	0x40000000
++#define		bRxOverFlowCheckType	0x80000000
++#define		bRxAGCShift			0x7f
++#define		bTRSW_Tri_Only		0x80
++#define		bPowerThres		0x300
++#define		bRxAGCEn			0x1
++#define		bRxAGCTogetherEn		0x2
++#define		bRxAGCMin		0x4
++#define		bRxHP_Ini			0x7
++#define		bRxHP_TRLNA		0x70
++#define		bRxHP_RSSI			0x700
++#define		bRxHP_BBP1		0x7000
++#define		bRxHP_BBP2		0x70000
++#define		bRxHP_BBP3		0x700000
++#define		bRSSI_H                  			0x7f0000     /* the threshold for high power */
++#define		bRSSI_Gen                			0x7f000000   /* the threshold for ant diversity */
++#define		bRxSettle_TRSW		0x7
++#define		bRxSettle_LNA		0x38
++#define		bRxSettle_RSSI		0x1c0
++#define		bRxSettle_BBP		0xe00
++#define		bRxSettle_RxHP		0x7000
++#define		bRxSettle_AntSW_RSSI	0x38000
++#define		bRxSettle_AntSW		0xc0000
++#define		bRxProcessTime_DAGC	0x300000
++#define		bRxSettle_HSSI		0x400000
++#define		bRxProcessTime_BBPPW	0x800000
++#define		bRxAntennaPowerShift	0x3000000
++#define		bRSSITableSelect		0xc000000
++#define		bRxHP_Final			0x7000000
++#define		bRxHTSettle_BBP		0x7
++#define		bRxHTSettle_HSSI		0x8
++#define		bRxHTSettle_RxHP		0x70
++#define		bRxHTSettle_BBPPW		0x80
++#define		bRxHTSettle_Idle		0x300
++#define		bRxHTSettle_Reserved	0x1c00
++#define		bRxHTRxHPEn		0x8000
++#define		bRxHTAGCFreezeThres	0x30000
++#define		bRxHTAGCTogetherEn	0x40000
++#define		bRxHTAGCMin		0x80000
++#define		bRxHTAGCEn		0x100000
++#define		bRxHTDAGCEn		0x200000
++#define		bRxHTRxHP_BBP		0x1c00000
++#define		bRxHTRxHP_Final		0xe0000000
++#define		bRxPWRatioTH		0x3
++#define		bRxPWRatioEn		0x4
++#define		bRxMFHold			0x3800
++#define		bRxPD_Delay_TH1		0x38
++#define		bRxPD_Delay_TH2		0x1c0
++#define		bRxPD_DC_COUNT_MAX	0x600
++/* #define bRxMF_Hold               0x3800 */
++#define		bRxPD_Delay_TH		0x8000
++#define		bRxProcess_Delay		0xf0000
++#define		bRxSearchrange_GI2_Early	0x700000
++#define		bRxFrame_Guard_Counter_L	0x3800000
++#define		bRxSGI_Guard_L		0xc000000
++#define		bRxSGI_Search_L		0x30000000
++#define		bRxSGI_TH			0xc0000000
++#define		bDFSCnt0			0xff
++#define		bDFSCnt1			0xff00
++#define		bDFSFlag			0xf0000
++#define		bMFWeightSum		0x300000
++#define		bMinIdxTH			0x7f000000
++#define		bDAFormat			0x40000
++#define		bTxChEmuEnable		0x01000000
++#define		bTRSWIsolation_A		0x7f
++#define		bTRSWIsolation_B		0x7f00
++#define		bTRSWIsolation_C		0x7f0000
++#define		bTRSWIsolation_D		0x7f000000
++#define		bExtLNAGain		0x7c00
++
++/* 6. PageE(0xE00) */
++#define		bSTBCEn                  			0x4	/* Useless */
++#define		bAntennaMapping		0x10
++#define		bNss			0x20
++#define		bCFOAntSumD		0x200
++#define		bPHYCounterReset		0x8000000
++#define		bCFOReportGet		0x4000000
++#define		bOFDMContinueTx		0x10000000
++#define		bOFDMSingleCarrier		0x20000000
++#define		bOFDMSingleTone		0x40000000
++/* #define bRxPath1                 0x01 */
++/* #define bRxPath2                 0x02 */
++/* #define bRxPath3                 0x04 */
++/* #define bRxPath4                 0x08 */
++/* #define bTxPath1                 0x10 */
++/* #define bTxPath2                 0x20 */
++#define		bHTDetect			0x100
++#define		bCFOEn			0x10000
++#define		bCFOValue			0xfff00000
++#define		bSigTone_Re			0x3f
++#define		bSigTone_Im			0x7f00
++#define		bCounter_CCA		0xffff
++#define		bCounter_ParityFail		0xffff0000
++#define		bCounter_RateIllegal		0xffff
++#define		bCounter_CRC8Fail		0xffff0000
++#define		bCounter_MCSNoSupport	0xffff
++#define		bCounter_FastSync		0xffff
++#define		bShortCFO			0xfff
++#define		bShortCFOTLength         		12   /* total */
++#define		bShortCFOFLength         		11   /* fraction */
++#define		bLongCFO			0x7ff
++#define		bLongCFOTLength		11
++#define		bLongCFOFLength		11
++#define		bTailCFO			0x1fff
++#define		bTailCFOTLength		13
++#define		bTailCFOFLength		12
++#define		bmax_en_pwdB		0xffff
++#define		bCC_power_dB		0xffff0000
++#define		bnoise_pwdB		0xffff
++#define		bPowerMeasTLength	10
++#define		bPowerMeasFLength	3
++#define		bRx_HT_BW		0x1
++#define		bRxSC			0x6
++#define		bRx_HT			0x8
++#define		bNB_intf_det_on		0x1
++#define		bIntf_win_len_cfg		0x30
++#define		bNB_Intf_TH_cfg		0x1c0
++#define		bRFGain			0x3f
++#define		bTableSel			0x40
++#define		bTRSW			0x80
++#define		bRxSNR_A			0xff
++#define		bRxSNR_B			0xff00
++#define		bRxSNR_C			0xff0000
++#define		bRxSNR_D			0xff000000
++#define		bSNREVMTLength		8
++#define		bSNREVMFLength		1
++#define		bCSI1st			0xff
++#define		bCSI2nd			0xff00
++#define		bRxEVM1st			0xff0000
++#define		bRxEVM2nd		0xff000000
++#define		bSIGEVM			0xff
++#define		bPWDB			0xff00
++#define		bSGIEN			0x10000
++
++#define		bSFactorQAM1             		0xf	/* Useless */
++#define		bSFactorQAM2		0xf0
++#define		bSFactorQAM3		0xf00
++#define		bSFactorQAM4		0xf000
++#define		bSFactorQAM5		0xf0000
++#define		bSFactorQAM6		0xf0000
++#define		bSFactorQAM7		0xf00000
++#define		bSFactorQAM8		0xf000000
++#define		bSFactorQAM9		0xf0000000
++#define		bCSIScheme			0x100000
++
++#define		bNoiseLvlTopSet          		0x3	/* Useless */
++#define		bChSmooth			0x4
++#define		bChSmoothCfg1		0x38
++#define		bChSmoothCfg2		0x1c0
++#define		bChSmoothCfg3		0xe00
++#define		bChSmoothCfg4		0x7000
++#define		bMRCMode		0x800000
++#define		bTHEVMCfg			0x7000000
++
++#define		bLoopFitType             			0x1	/* Useless */
++#define		bUpdCFO			0x40
++#define		bUpdCFOOffData		0x80
++#define		bAdvUpdCFO		0x100
++#define		bAdvTimeCtrl		0x800
++#define		bUpdClko			0x1000
++#define		bFC				0x6000
++#define		bTrackingMode		0x8000
++#define		bPhCmpEnable		0x10000
++#define		bUpdClkoLTF			0x20000
++#define		bComChCFO		0x40000
++#define		bCSIEstiMode		0x80000
++#define		bAdvUpdEqz		0x100000
++#define		bUChCfg			0x7000000
++#define		bUpdEqz			0x8000000
++
++/* Rx Pseduo noise */
++#define		bRxPesudoNoiseOn         		0x20000000	/* Useless */
++#define		bRxPesudoNoise_A		0xff
++#define		bRxPesudoNoise_B		0xff00
++#define		bRxPesudoNoise_C		0xff0000
++#define		bRxPesudoNoise_D		0xff000000
++#define		bPesudoNoiseState_A	0xffff
++#define		bPesudoNoiseState_B	0xffff0000
++#define		bPesudoNoiseState_C		0xffff
++#define		bPesudoNoiseState_D	0xffff0000
++
++/* 7. RF Register
++ * Zebra1 */
++#define		bZebra1_HSSIEnable        		0x8		/* Useless */
++#define		bZebra1_TRxControl		0xc00
++#define		bZebra1_TRxGainSetting	0x07f
++#define		bZebra1_RxCorner		0xc00
++#define		bZebra1_TxChargePump	0x38
++#define		bZebra1_RxChargePump	0x7
++#define		bZebra1_ChannelNum	0xf80
++#define		bZebra1_TxLPFBW		0x400
++#define		bZebra1_RxLPFBW		0x600
++
++/* Zebra4 */
++#define		bRTL8256RegModeCtrl1      	0x100	/* Useless */
++#define		bRTL8256RegModeCtrl0	0x40
++#define		bRTL8256_TxLPFBW	0x18
++#define		bRTL8256_RxLPFBW	0x600
++
++/* RTL8258 */
++#define		bRTL8258_TxLPFBW          	0xc	/* Useless */
++#define		bRTL8258_RxLPFBW	0xc00
++#define		bRTL8258_RSSILPFBW	0xc0
++
++
++/*
++ * Other Definition
++ *   */
++
++/* byte endable for sb_write */
++#define		bByte0                    			0x1	/* Useless */
++#define		bByte1			0x2
++#define		bByte2			0x4
++#define		bByte3			0x8
++#define		bWord0			0x3
++#define		bWord1			0xc
++#define		bDWord			0xf
++
++/* for PutRegsetting & GetRegSetting BitMask */
++#define		bMaskByte0                		0xff	/* Reg 0xc50 rOFDM0_XAAGCCore~0xC6f */
++#define		bMaskByte1		0xff00
++#define		bMaskByte2		0xff0000
++#define		bMaskByte3		0xff000000
++#define		bMaskHWord		0xffff0000
++#define		bMaskLWord		0x0000ffff
++#define		bMaskDWord		0xffffffff
++#define		bMaskH3Bytes				0xffffff00
++#define		bMask12Bits				0xfff
++#define		bMaskH4Bits				0xf0000000
++#define		bMaskOFDM_D			0xffc00000
++#define		bMaskCCK				0x3f3f3f3f
++
++/* for PutRFRegsetting & GetRFRegSetting BitMask
++ * #define		bMask12Bits               0xfffff */	/* RF Reg mask bits
++ * #define		bMask20Bits               0xfffff */	/* RF Reg mask bits T65 RF */
++#define		bRFRegOffsetMask			0xfffff
++
++#define		bEnable                   0x1	/* Useless */
++#define		bDisable                  0x0
++
++#define		LeftAntenna               			0x0	/* Useless */
++#define		RightAntenna		0x1
++
++#define		tCheckTxStatus            		500   /* 500ms */ /* Useless */
++#define		tUpdateRxCounter          		100   /* 100ms */
++
++#define		rateCCK     				0	/* Useless */
++#define		rateOFDM				1
++#define		rateHT					2
++
++/* define Register-End */
++#define		bPMAC_End                 		0x1ff	/* Useless */
++#define		bFPGAPHY0_End		0x8ff
++#define		bFPGAPHY1_End		0x9ff
++#define		bCCKPHY0_End		0xaff
++#define		bOFDMPHY0_End		0xcff
++#define		bOFDMPHY1_End		0xdff
++
++/* define max debug item in each debug page
++ * #define bMaxItem_FPGA_PHY0        0x9
++ * #define bMaxItem_FPGA_PHY1        0x3
++ * #define bMaxItem_PHY_11B          0x16
++ * #define bMaxItem_OFDM_PHY0        0x29
++ * #define bMaxItem_OFDM_PHY1        0x0 */
++
++#define		bPMACControl              		0x0		/* Useless */
++#define		bWMACControl		0x1
++#define		bWNICControl		0x2
++
++#define		PathA                     			0x0	/* Useless */
++#define		PathB			0x1
++#define		PathC			0x2
++#define		PathD			0x3
++
++
++/* RSSI Dump Message */
++#define		rA_RSSIDump_92E			0xcb0
++#define		rB_RSSIDump_92E			0xcb1
++#define		rS1_RXevmDump_92E			0xcb2
++#define		rS2_RXevmDump_92E			0xcb3
++#define		rA_RXsnrDump_92E			0xcb4
++#define		rB_RXsnrDump_92E			0xcb5
++#define		rA_CfoShortDump_92E		0xcb6
++#define		rB_CfoShortDump_92E		0xcb8
++#define	rA_CfoLongDump_92E			0xcba
++#define		rB_CfoLongDump_92E			0xcbc
++
++/*--------------------------Define Parameters-------------------------------*/
++
++
++#endif /* __INC_HAL8188EPHYREG_H */
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8192EPwrSeq.h b/drivers/net/wireless/rtl8723du/include/Hal8192EPwrSeq.h
+new file mode 100644
+index 0000000..12bb2fb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8192EPwrSeq.h
+@@ -0,0 +1,155 @@
++#ifndef REALTEK_POWER_SEQUENCE_8192E
++#define REALTEK_POWER_SEQUENCE_8192E
++
++#include "HalPwrSeqCmd.h"
++/*
++	Check document WM-20110607-Paul-RTL8192E_Power_Architecture-R02.vsd
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transision from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++*/
++#define	RTL8192E_TRANS_CARDEMU_TO_ACT_STEPS	18
++#define	RTL8192E_TRANS_ACT_TO_CARDEMU_STEPS	18
++#define	RTL8192E_TRANS_CARDEMU_TO_SUS_STEPS	18
++#define	RTL8192E_TRANS_SUS_TO_CARDEMU_STEPS	18
++#define	RTL8192E_TRANS_CARDEMU_TO_PDN_STEPS	18
++#define	RTL8192E_TRANS_PDN_TO_CARDEMU_STEPS	18
++#define	RTL8192E_TRANS_ACT_TO_LPS_STEPS	23
++#define	RTL8192E_TRANS_LPS_TO_ACT_STEPS	23
++#define	RTL8192E_TRANS_END_STEPS	1
++
++
++#define RTL8192E_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* disable HWPDN 0x04[15]=0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0},/* disable SW LPS 0x04[10]=0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT4 | BIT3), 0},/* disable WL suspend*/	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1    power ready*/	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* release WLON reset  0x04[16]=1*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* polling until return 0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0},/**/	\
++
++
++#define RTL8192E_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*0x1F[7:0] = 0 turn off RF*/	\
++	{0x004E, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/*0x4C[23] = 0x4E[7] = 0, switch DPDT_SEL_P output from register 0x65[2] */\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/	\
++
++
++#define RTL8192E_TRANS_CARDEMU_TO_SUS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4 | BIT3, (BIT4 | BIT3)}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3 | BIT4}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8192E_TRANS_SUS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
++
++#define RTL8192E_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07 = 0x20 , SOP option to disable BG/MB*/	\
++	{0x00CC, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2}, /*Unlock small LDO Register*/	\
++	{0x0011, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /*Disable small LDO*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2}, /*0x04[10] = 1, enable SW LPS*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8192E_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0011, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /*Enable small LDO*/	\
++	{0x00CC, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0}, /*Lock small LDO Register*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/\
++
++
++#define RTL8192E_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/* 0x04[16] = 0*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
++
++#define RTL8192E_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
++
++#define RTL8192E_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*PCIe DMA stop*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*Tx Pause*/	\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Whole BB is reset*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x03},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/	\
++	{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/*When driver enter Sus/ Disable, enable LOP for BT*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/	\
++
++
++#define RTL8192E_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM, For Repeatly In and out, Taggle bit should be changed*/\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/\
++	{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*.	0x08[4] = 0		 switch TSF to 40M*/\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, 0}, /*Polling 0x109[7]=0  TSF in 40M*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/\
++	{0x013D, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*Clear ISR*/
++
++#define RTL8192E_TRANS_END															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++	extern WLAN_PWR_CFG rtl8192E_power_on_flow[RTL8192E_TRANS_CARDEMU_TO_ACT_STEPS + RTL8192E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8192E_radio_off_flow[RTL8192E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8192E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8192E_card_disable_flow[RTL8192E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8192E_TRANS_CARDEMU_TO_PDN_STEPS + RTL8192E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8192E_card_enable_flow[RTL8192E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8192E_TRANS_CARDEMU_TO_PDN_STEPS + RTL8192E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8192E_suspend_flow[RTL8192E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8192E_TRANS_CARDEMU_TO_SUS_STEPS + RTL8192E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8192E_resume_flow[RTL8192E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8192E_TRANS_CARDEMU_TO_SUS_STEPS + RTL8192E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8192E_hwpdn_flow[RTL8192E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8192E_TRANS_CARDEMU_TO_PDN_STEPS + RTL8192E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8192E_enter_lps_flow[RTL8192E_TRANS_ACT_TO_LPS_STEPS + RTL8192E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8192E_leave_lps_flow[RTL8192E_TRANS_LPS_TO_ACT_STEPS + RTL8192E_TRANS_END_STEPS];
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8703BPhyCfg.h b/drivers/net/wireless/rtl8723du/include/Hal8703BPhyCfg.h
+new file mode 100644
+index 0000000..e9d422f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8703BPhyCfg.h
+@@ -0,0 +1,137 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8703BPHYCFG_H__
++#define __INC_HAL8703BPHYCFG_H__
++
++/*--------------------------Define Parameters-------------------------------*/
++#define LOOP_LIMIT				5
++#define MAX_STALL_TIME			50		/* us */
++#define AntennaDiversityValue	0x80	/* (Adapter->bSoftwareAntennaDiversity ? 0x00 : 0x80) */
++#define MAX_TXPWR_IDX_NMODE_92S	63
++#define Reset_Cnt_Limit			3
++
++#ifdef CONFIG_PCI_HCI
++	#define MAX_AGGR_NUM	0x0B
++#else
++	#define MAX_AGGR_NUM	0x07
++#endif /* CONFIG_PCI_HCI */
++
++
++/*--------------------------Define Parameters End-------------------------------*/
++
++
++/*------------------------------Define structure----------------------------*/
++
++/*------------------------------Define structure End----------------------------*/
++
++/*--------------------------Exported Function prototype---------------------*/
++u32
++PHY_QueryBBReg_8703B(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask
++);
++
++VOID
++PHY_SetBBReg_8703B(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask,
++	IN	u32		Data
++);
++
++u32
++PHY_QueryRFReg_8703B(
++	IN	PADAPTER			Adapter,
++	IN	u8				eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask
++);
++
++VOID
++PHY_SetRFReg_8703B(
++	IN	PADAPTER			Adapter,
++	IN	u8				eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask,
++	IN	u32				Data
++);
++
++/* MAC/BB/RF HAL config */
++int PHY_BBConfig8703B(PADAPTER	Adapter);
++
++int PHY_RFConfig8703B(PADAPTER	Adapter);
++
++s32 PHY_MACConfig8703B(PADAPTER padapter);
++
++int
++PHY_ConfigRFWithParaFile_8703B(
++	IN	PADAPTER			Adapter,
++	IN	u8				*pFileName,
++	RF_PATH				eRFPath
++);
++
++VOID
++PHY_SetTxPowerIndex_8703B(
++	IN	PADAPTER			Adapter,
++	IN	u32					PowerIndex,
++	IN	u8					RFPath,
++	IN	u8					Rate
++);
++
++u8
++PHY_GetTxPowerIndex_8703B(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	u8					Rate,
++	IN	u8					BandWidth,
++	IN	u8					Channel,
++	struct txpwr_idx_comp *tic
++);
++
++VOID
++PHY_GetTxPowerLevel8703B(
++	IN	PADAPTER		Adapter,
++	OUT s32				*powerlevel
++);
++
++VOID
++PHY_SetTxPowerLevel8703B(
++	IN	PADAPTER		Adapter,
++	IN	u8			channel
++);
++
++VOID
++PHY_SetSwChnlBWMode8703B(
++	IN	PADAPTER			Adapter,
++	IN	u8					channel,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					Offset40,
++	IN	u8					Offset80
++);
++
++VOID PHY_SetRFPathSwitch_8703B(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bMain
++);
++
++/*--------------------------Exported Function prototype End---------------------*/
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8703BPhyReg.h b/drivers/net/wireless/rtl8723du/include/Hal8703BPhyReg.h
+new file mode 100644
+index 0000000..e8eb664
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8703BPhyReg.h
+@@ -0,0 +1,1138 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8703BPHYREG_H__
++#define __INC_HAL8703BPHYREG_H__
++
++#define		rSYM_WLBT_PAPE_SEL		0x64
++/*
++ * BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++ * 3. RF register 0x00-2E
++ * 4. Bit Mask for BB/RF register
++ * 5. Other defintion for BB/RF R/W
++ *   */
++
++
++/*
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 1. Page1(0x100)
++ *   */
++#define		rPMAC_Reset					0x100
++#define		rPMAC_TxStart					0x104
++#define		rPMAC_TxLegacySIG				0x108
++#define		rPMAC_TxHTSIG1				0x10c
++#define		rPMAC_TxHTSIG2				0x110
++#define		rPMAC_PHYDebug				0x114
++#define		rPMAC_TxPacketNum				0x118
++#define		rPMAC_TxIdle					0x11c
++#define		rPMAC_TxMACHeader0			0x120
++#define		rPMAC_TxMACHeader1			0x124
++#define		rPMAC_TxMACHeader2			0x128
++#define		rPMAC_TxMACHeader3			0x12c
++#define		rPMAC_TxMACHeader4			0x130
++#define		rPMAC_TxMACHeader5			0x134
++#define		rPMAC_TxDataType				0x138
++#define		rPMAC_TxRandomSeed			0x13c
++#define		rPMAC_CCKPLCPPreamble			0x140
++#define		rPMAC_CCKPLCPHeader			0x144
++#define		rPMAC_CCKCRC16				0x148
++#define		rPMAC_OFDMRxCRC32OK			0x170
++#define		rPMAC_OFDMRxCRC32Er			0x174
++#define		rPMAC_OFDMRxParityEr			0x178
++#define		rPMAC_OFDMRxCRC8Er			0x17c
++#define		rPMAC_CCKCRxRC16Er			0x180
++#define		rPMAC_CCKCRxRC32Er			0x184
++#define		rPMAC_CCKCRxRC32OK			0x188
++#define		rPMAC_TxStatus					0x18c
++
++/*
++ * 2. Page2(0x200)
++ *
++ * The following two definition are only used for USB interface. */
++#define		RF_BB_CMD_ADDR				0x02c0	/* RF/BB read/write command address. */
++#define		RF_BB_CMD_DATA				0x02c4	/* RF/BB read/write command data. */
++
++/*
++ * 3. Page8(0x800)
++ *   */
++#define		rFPGA0_RFMOD				0x800	/* RF mode & CCK TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA0_TxInfo				0x804	/* Status report?? */
++#define		rFPGA0_PSDFunction			0x808
++
++#define		rFPGA0_TxGainStage			0x80c	/* Set TX PWR init gain? */
++
++#define		rFPGA0_RFTiming1			0x810	/* Useless now */
++#define		rFPGA0_RFTiming2			0x814
++
++#define		rFPGA0_XA_HSSIParameter1		0x820	/* RF 3 wire register */
++#define		rFPGA0_XA_HSSIParameter2		0x824
++#define		rFPGA0_XB_HSSIParameter1		0x828
++#define		rFPGA0_XB_HSSIParameter2		0x82c
++#define		rTxAGC_B_Rate18_06				0x830
++#define		rTxAGC_B_Rate54_24				0x834
++#define		rTxAGC_B_CCK1_55_Mcs32		0x838
++#define		rTxAGC_B_Mcs03_Mcs00			0x83c
++
++#define		rTxAGC_B_Mcs07_Mcs04			0x848
++#define		rTxAGC_B_Mcs11_Mcs08			0x84c
++
++#define		rFPGA0_XA_LSSIParameter		0x840
++#define		rFPGA0_XB_LSSIParameter		0x844
++
++#define		rFPGA0_RFWakeUpParameter		0x850	/* Useless now */
++#define		rFPGA0_RFSleepUpParameter		0x854
++
++#define		rFPGA0_XAB_SwitchControl		0x858	/* RF Channel switch */
++#define		rFPGA0_XCD_SwitchControl		0x85c
++
++#define		rFPGA0_XA_RFInterfaceOE		0x860	/* RF Channel switch */
++#define		rFPGA0_XB_RFInterfaceOE		0x864
++
++#define		rTxAGC_B_Mcs15_Mcs12			0x868
++#define		rTxAGC_B_CCK11_A_CCK2_11		0x86c
++
++#define		rFPGA0_XAB_RFInterfaceSW		0x870	/* RF Interface Software Control */
++#define		rFPGA0_XCD_RFInterfaceSW		0x874
++
++#define		rFPGA0_XAB_RFParameter		0x878	/* RF Parameter */
++#define		rFPGA0_XCD_RFParameter		0x87c
++
++#define		rFPGA0_AnalogParameter1		0x880	/* Crystal cap setting RF-R/W protection for parameter4?? */
++#define		rFPGA0_AnalogParameter2		0x884
++#define		rFPGA0_AnalogParameter3		0x888	/* Useless now */
++#define		rFPGA0_AnalogParameter4		0x88c
++
++#define		rFPGA0_XA_LSSIReadBack		0x8a0	/* Tranceiver LSSI Readback */
++#define		rFPGA0_XB_LSSIReadBack		0x8a4
++#define		rFPGA0_XC_LSSIReadBack		0x8a8
++#define		rFPGA0_XD_LSSIReadBack		0x8ac
++
++#define		rFPGA0_PSDReport				0x8b4	/* Useless now */
++#define		TransceiverA_HSPI_Readback	0x8b8	/* Transceiver A HSPI Readback */
++#define		TransceiverB_HSPI_Readback	0x8bc	/* Transceiver B HSPI Readback */
++#define		rFPGA0_XAB_RFInterfaceRB		0x8e0	/* Useless now */ /* RF Interface Readback Value */
++#define		rFPGA0_XCD_RFInterfaceRB		0x8e4	/* Useless now */
++
++/*
++ * 4. Page9(0x900)
++ *   */
++#define	rFPGA1_RFMOD				0x900	/* RF mode & OFDM TxSC */ /* RF BW Setting?? */
++#define	rFPGA1_TxBlock				0x904	/* Useless now */
++#define	rFPGA1_DebugSelect			0x908	/* Useless now */
++#define	rFPGA1_TxInfo				0x90c	/* Useless now */ /* Status report?? */
++#define	rDPDT_control				0x92c
++#define	rfe_ctrl_anta_src				0x930
++#define	rS0S1_PathSwitch			0x948
++#define	rBBrx_DFIR					0x954
++
++/*
++ * 5. PageA(0xA00)
++ *
++ * Set Control channel to upper or lower. These settings are required only for 40MHz */
++#define		rCCK0_System				0xa00
++
++#define		rCCK0_AFESetting			0xa04	/* Disable init gain now */ /* Select RX path by RSSI */
++#define		rCCK0_CCA					0xa08	/* Disable init gain now */ /* Init gain */
++
++#define		rCCK0_RxAGC1				0xa0c	/* AGC default value, saturation level  */ /* Antenna Diversity, RX AGC, LNA Threshold, RX LNA Threshold useless now. Not the same as 90 series */
++#define		rCCK0_RxAGC2				0xa10	/* AGC & DAGC */
++
++#define		rCCK0_RxHP					0xa14
++
++#define		rCCK0_DSPParameter1		0xa18	/* Timing recovery & Channel estimation threshold */
++#define		rCCK0_DSPParameter2		0xa1c	/* SQ threshold */
++
++#define		rCCK0_TxFilter1				0xa20
++#define		rCCK0_TxFilter2				0xa24
++#define		rCCK0_DebugPort			0xa28	/* debug port and Tx filter3 */
++#define		rCCK0_FalseAlarmReport		0xa2c	/* 0xa2d	useless now 0xa30-a4f channel report */
++#define		rCCK0_TRSSIReport		0xa50
++#define		rCCK0_RxReport            		0xa54  /* 0xa57 */
++#define		rCCK0_FACounterLower      	0xa5c  /* 0xa5b */
++#define		rCCK0_FACounterUpper      	0xa58  /* 0xa5c */
++
++/*
++ * PageB(0xB00)
++ *   */
++#define rPdp_AntA						0xb00
++#define rPdp_AntA_4						0xb04
++#define rPdp_AntA_8						0xb08
++#define rPdp_AntA_C						0xb0c
++#define rPdp_AntA_10					0xb10
++#define rPdp_AntA_14					0xb14
++#define rPdp_AntA_18					0xb18
++#define rPdp_AntA_1C					0xb1c
++#define rPdp_AntA_20					0xb20
++#define rPdp_AntA_24					0xb24
++
++#define rConfig_Pmpd_AntA				0xb28
++#define rConfig_ram64x16				0xb2c
++
++#define rBndA							0xb30
++#define rHssiPar						0xb34
++
++#define rConfig_AntA					0xb68
++#define rConfig_AntB					0xb6c
++
++#define rPdp_AntB						0xb70
++#define rPdp_AntB_4						0xb74
++#define rPdp_AntB_8						0xb78
++#define rPdp_AntB_C						0xb7c
++#define rPdp_AntB_10					0xb80
++#define rPdp_AntB_14					0xb84
++#define rPdp_AntB_18					0xb88
++#define rPdp_AntB_1C					0xb8c
++#define rPdp_AntB_20					0xb90
++#define rPdp_AntB_24					0xb94
++
++#define rConfig_Pmpd_AntB				0xb98
++
++#define rBndB							0xba0
++
++#define rAPK							0xbd8
++#define rPm_Rx0_AntA					0xbdc
++#define rPm_Rx1_AntA					0xbe0
++#define rPm_Rx2_AntA					0xbe4
++#define rPm_Rx3_AntA					0xbe8
++#define rPm_Rx0_AntB					0xbec
++#define rPm_Rx1_AntB					0xbf0
++#define rPm_Rx2_AntB					0xbf4
++#define rPm_Rx3_AntB					0xbf8
++/*
++ * 6. PageC(0xC00)
++ *   */
++#define		rOFDM0_LSTF				0xc00
++
++#define		rOFDM0_TRxPathEnable		0xc04
++#define		rOFDM0_TRMuxPar			0xc08
++#define		rOFDM0_TRSWIsolation		0xc0c
++
++#define		rOFDM0_XARxAFE			0xc10  /* RxIQ DC offset, Rx digital filter, DC notch filter */
++#define		rOFDM0_XARxIQImbalance    	0xc14  /* RxIQ imblance matrix */
++#define		rOFDM0_XBRxAFE		0xc18
++#define		rOFDM0_XBRxIQImbalance	0xc1c
++#define		rOFDM0_XCRxAFE		0xc20
++#define		rOFDM0_XCRxIQImbalance	0xc24
++#define		rOFDM0_XDRxAFE		0xc28
++#define		rOFDM0_XDRxIQImbalance	0xc2c
++
++#define		rOFDM0_RxDetector1			0xc30  /* PD, BW & SBD	 */ /* DM tune init gain */
++#define		rOFDM0_RxDetector2			0xc34  /* SBD & Fame Sync. */
++#define		rOFDM0_RxDetector3			0xc38  /* Frame Sync. */
++#define		rOFDM0_RxDetector4			0xc3c  /* PD, SBD, Frame Sync & Short-GI */
++
++#define		rOFDM0_RxDSP				0xc40  /* Rx Sync Path */
++#define		rOFDM0_CFOandDAGC		0xc44  /* CFO & DAGC */
++#define		rOFDM0_CCADropThreshold	0xc48 /* CCA Drop threshold */
++#define		rOFDM0_ECCAThreshold		0xc4c /* energy CCA */
++
++#define		rOFDM0_XAAGCCore1			0xc50	/* DIG */
++#define		rOFDM0_XAAGCCore2			0xc54
++#define		rOFDM0_XBAGCCore1			0xc58
++#define		rOFDM0_XBAGCCore2			0xc5c
++#define		rOFDM0_XCAGCCore1			0xc60
++#define		rOFDM0_XCAGCCore2			0xc64
++#define		rOFDM0_XDAGCCore1			0xc68
++#define		rOFDM0_XDAGCCore2			0xc6c
++
++#define		rOFDM0_AGCParameter1			0xc70
++#define		rOFDM0_AGCParameter2			0xc74
++#define		rOFDM0_AGCRSSITable			0xc78
++#define		rOFDM0_HTSTFAGC				0xc7c
++
++#define		rOFDM0_XATxIQImbalance		0xc80	/* TX PWR TRACK and DIG */
++#define		rOFDM0_XATxAFE				0xc84
++#define		rOFDM0_XBTxIQImbalance		0xc88
++#define		rOFDM0_XBTxAFE				0xc8c
++#define		rOFDM0_XCTxIQImbalance		0xc90
++#define		rOFDM0_XCTxAFE			0xc94
++#define		rOFDM0_XDTxIQImbalance		0xc98
++#define		rOFDM0_XDTxAFE				0xc9c
++
++#define		rOFDM0_RxIQExtAnta			0xca0
++#define		rOFDM0_TxCoeff1				0xca4
++#define		rOFDM0_TxCoeff2				0xca8
++#define		rOFDM0_TxCoeff3				0xcac
++#define		rOFDM0_TxCoeff4				0xcb0
++#define		rOFDM0_TxCoeff5				0xcb4
++#define		rOFDM0_TxCoeff6				0xcb8
++#define		rOFDM0_RxHPParameter			0xce0
++#define		rOFDM0_TxPseudoNoiseWgt		0xce4
++#define		rOFDM0_FrameSync				0xcf0
++#define		rOFDM0_DFSReport				0xcf4
++
++/*
++ * 7. PageD(0xD00)
++ *   */
++#define		rOFDM1_LSTF					0xd00
++#define		rOFDM1_TRxPathEnable			0xd04
++
++#define		rOFDM1_CFO						0xd08	/* No setting now */
++#define		rOFDM1_CSI1					0xd10
++#define		rOFDM1_SBD						0xd14
++#define		rOFDM1_CSI2					0xd18
++#define		rOFDM1_CFOTracking			0xd2c
++#define		rOFDM1_TRxMesaure1			0xd34
++#define		rOFDM1_IntfDet					0xd3c
++#define		rOFDM1_PseudoNoiseStateAB		0xd50
++#define		rOFDM1_PseudoNoiseStateCD		0xd54
++#define		rOFDM1_RxPseudoNoiseWgt		0xd58
++
++#define		rOFDM_PHYCounter1				0xda0  /* cca, parity fail */
++#define		rOFDM_PHYCounter2				0xda4  /* rate illegal, crc8 fail */
++#define		rOFDM_PHYCounter3				0xda8  /* MCS not support */
++
++#define		rOFDM_ShortCFOAB				0xdac	/* No setting now */
++#define		rOFDM_ShortCFOCD				0xdb0
++#define		rOFDM_LongCFOAB				0xdb4
++#define		rOFDM_LongCFOCD				0xdb8
++#define		rOFDM_TailCFOAB				0xdbc
++#define		rOFDM_TailCFOCD				0xdc0
++#define		rOFDM_PWMeasure1		0xdc4
++#define		rOFDM_PWMeasure2		0xdc8
++#define		rOFDM_BWReport				0xdcc
++#define		rOFDM_AGCReport				0xdd0
++#define		rOFDM_RxSNR					0xdd4
++#define		rOFDM_RxEVMCSI				0xdd8
++#define		rOFDM_SIGReport				0xddc
++
++
++/*
++ * 8. PageE(0xE00)
++ *   */
++#define		rTxAGC_A_Rate18_06			0xe00
++#define		rTxAGC_A_Rate54_24			0xe04
++#define		rTxAGC_A_CCK1_Mcs32			0xe08
++#define		rTxAGC_A_Mcs03_Mcs00			0xe10
++#define		rTxAGC_A_Mcs07_Mcs04			0xe14
++#define		rTxAGC_A_Mcs11_Mcs08			0xe18
++#define		rTxAGC_A_Mcs15_Mcs12			0xe1c
++
++#define		rFPGA0_IQK					0xe28
++#define		rTx_IQK_Tone_A				0xe30
++#define		rRx_IQK_Tone_A				0xe34
++#define		rTx_IQK_PI_A					0xe38
++#define		rRx_IQK_PI_A					0xe3c
++
++#define		rTx_IQK						0xe40
++#define		rRx_IQK						0xe44
++#define		rIQK_AGC_Pts					0xe48
++#define		rIQK_AGC_Rsp					0xe4c
++#define		rTx_IQK_Tone_B				0xe50
++#define		rRx_IQK_Tone_B				0xe54
++#define		rTx_IQK_PI_B					0xe58
++#define		rRx_IQK_PI_B					0xe5c
++#define		rIQK_AGC_Cont				0xe60
++
++#define		rBlue_Tooth					0xe6c
++#define		rRx_Wait_CCA					0xe70
++#define		rTx_CCK_RFON					0xe74
++#define		rTx_CCK_BBON				0xe78
++#define		rTx_OFDM_RFON				0xe7c
++#define		rTx_OFDM_BBON				0xe80
++#define		rTx_To_Rx					0xe84
++#define		rTx_To_Tx					0xe88
++#define		rRx_CCK						0xe8c
++
++#define		rTx_Power_Before_IQK_A		0xe94
++#define		rTx_Power_After_IQK_A			0xe9c
++
++#define		rRx_Power_Before_IQK_A		0xea0
++#define		rRx_Power_Before_IQK_A_2		0xea4
++#define		rRx_Power_After_IQK_A			0xea8
++#define		rRx_Power_After_IQK_A_2		0xeac
++
++#define		rTx_Power_Before_IQK_B		0xeb4
++#define		rTx_Power_After_IQK_B			0xebc
++
++#define		rRx_Power_Before_IQK_B		0xec0
++#define		rRx_Power_Before_IQK_B_2		0xec4
++#define		rRx_Power_After_IQK_B			0xec8
++#define		rRx_Power_After_IQK_B_2		0xecc
++
++#define		rRx_OFDM					0xed0
++#define		rRx_Wait_RIFS				0xed4
++#define		rRx_TO_Rx					0xed8
++#define		rStandby						0xedc
++#define		rSleep						0xee0
++#define		rPMPD_ANAEN				0xeec
++
++/*
++ * 7. RF Register 0x00-0x2E (RF 8256)
++ * RF-0222D 0x00-3F
++ *
++ * Zebra1 */
++#define		rZebra1_HSSIEnable				0x0	/* Useless now */
++#define		rZebra1_TRxEnable1				0x1
++#define		rZebra1_TRxEnable2				0x2
++#define		rZebra1_AGC					0x4
++#define		rZebra1_ChargePump			0x5
++#define		rZebra1_Channel				0x7	/* RF channel switch */
++
++/* #endif */
++#define		rZebra1_TxGain					0x8	/* Useless now */
++#define		rZebra1_TxLPF					0x9
++#define		rZebra1_RxLPF					0xb
++#define		rZebra1_RxHPFCorner			0xc
++
++/* Zebra4 */
++#define		rGlobalCtrl						0	/* Useless now */
++#define		rRTL8256_TxLPF					19
++#define		rRTL8256_RxLPF					11
++
++/* RTL8258 */
++#define		rRTL8258_TxLPF					0x11	/* Useless now */
++#define		rRTL8258_RxLPF					0x13
++#define		rRTL8258_RSSILPF				0xa
++
++/*
++ * RL6052 Register definition
++ *   */
++#define		RF_AC						0x00	/*  */
++
++#define		RF_IQADJ_G1				0x01	/*  */
++#define		RF_IQADJ_G2				0x02	/*  */
++#define		RF_BS_PA_APSET_G1_G4		0x03
++#define		RF_BS_PA_APSET_G5_G8		0x04
++#define		RF_POW_TRSW				0x05	/*  */
++
++#define		RF_GAIN_RX					0x06	/*  */
++#define		RF_GAIN_TX					0x07	/*  */
++
++#define		RF_TXM_IDAC				0x08	/*  */
++#define		RF_IPA_G					0x09	/*  */
++#define		RF_TXBIAS_G				0x0A
++#define		RF_TXPA_AG					0x0B
++#define		RF_IPA_A					0x0C	/*  */
++#define		RF_TXBIAS_A				0x0D
++#define		RF_BS_PA_APSET_G9_G11	0x0E
++#define		RF_BS_IQGEN				0x0F	/*  */
++
++#define		RF_MODE1					0x10	/*  */
++#define		RF_MODE2					0x11	/*  */
++
++#define		RF_RX_AGC_HP				0x12	/*  */
++#define		RF_TX_AGC					0x13	/*  */
++#define		RF_BIAS						0x14	/*  */
++#define		RF_IPA						0x15	/*  */
++#define		RF_TXBIAS					0x16
++#define		RF_POW_ABILITY			0x17	/*  */
++#define		RF_MODE_AG				0x18	/*  */
++#define		rRfChannel					0x18	/* RF channel and BW switch */
++#define		RF_CHNLBW					0x18	/* RF channel and BW switch */
++#define		RF_TOP						0x19	/*  */
++
++#define		RF_RX_G1					0x1A	/*  */
++#define		RF_RX_G2					0x1B	/*  */
++
++#define		RF_RX_BB2					0x1C	/*  */
++#define		RF_RX_BB1					0x1D	/*  */
++
++#define		RF_RCK1					0x1E	/*  */
++#define		RF_RCK2					0x1F	/*  */
++
++#define		RF_TX_G1					0x20	/*  */
++#define		RF_TX_G2					0x21	/*  */
++#define		RF_TX_G3					0x22	/*  */
++
++#define		RF_TX_BB1					0x23	/*  */
++
++#define		RF_T_METER					0x24	/*  */
++
++#define		RF_SYN_G1					0x25	/* RF TX Power control */
++#define		RF_SYN_G2					0x26	/* RF TX Power control */
++#define		RF_SYN_G3					0x27	/* RF TX Power control */
++#define		RF_SYN_G4					0x28	/* RF TX Power control */
++#define		RF_SYN_G5					0x29	/* RF TX Power control */
++#define		RF_SYN_G6					0x2A	/* RF TX Power control */
++#define		RF_SYN_G7					0x2B	/* RF TX Power control */
++#define		RF_SYN_G8					0x2C	/* RF TX Power control */
++
++#define		RF_RCK_OS					0x30	/* RF TX PA control */
++
++#define		RF_TXPA_G1					0x31	/* RF TX PA control */
++#define		RF_TXPA_G2					0x32	/* RF TX PA control */
++#define		RF_TXPA_G3					0x33	/* RF TX PA control */
++#define	RF_TX_BIAS_A				0x35
++#define	RF_TX_BIAS_D				0x36
++#define	RF_LOBF_9					0x38
++#define 	RF_RXRF_A3					0x3C	/*	 */
++#define	RF_TRSW					0x3F
++
++#define	RF_TXRF_A2					0x41
++#define	RF_TXPA_G4					0x46
++#define	RF_TXPA_A4					0x4B
++#define	RF_0x52					0x52
++#define	RF_WE_LUT					0xEF
++#define	RF_S0S1					0xB0
++
++/*
++ * Bit Mask
++ *
++ * 1. Page1(0x100) */
++#define		bBBResetB						0x100	/* Useless now? */
++#define		bGlobalResetB					0x200
++#define		bOFDMTxStart					0x4
++#define		bCCKTxStart						0x8
++#define		bCRC32Debug					0x100
++#define		bPMACLoopback					0x10
++#define		bTxLSIG							0xffffff
++#define		bOFDMTxRate					0xf
++#define		bOFDMTxReserved				0x10
++#define		bOFDMTxLength					0x1ffe0
++#define		bOFDMTxParity					0x20000
++#define		bTxHTSIG1						0xffffff
++#define		bTxHTMCSRate					0x7f
++#define		bTxHTBW						0x80
++#define		bTxHTLength					0xffff00
++#define		bTxHTSIG2						0xffffff
++#define		bTxHTSmoothing					0x1
++#define		bTxHTSounding					0x2
++#define		bTxHTReserved					0x4
++#define		bTxHTAggreation				0x8
++#define		bTxHTSTBC						0x30
++#define		bTxHTAdvanceCoding			0x40
++#define		bTxHTShortGI					0x80
++#define		bTxHTNumberHT_LTF			0x300
++#define		bTxHTCRC8						0x3fc00
++#define		bCounterReset					0x10000
++#define		bNumOfOFDMTx					0xffff
++#define		bNumOfCCKTx					0xffff0000
++#define		bTxIdleInterval					0xffff
++#define		bOFDMService					0xffff0000
++#define		bTxMACHeader					0xffffffff
++#define		bTxDataInit						0xff
++#define		bTxHTMode						0x100
++#define		bTxDataType					0x30000
++#define		bTxRandomSeed					0xffffffff
++#define		bCCKTxPreamble					0x1
++#define		bCCKTxSFD						0xffff0000
++#define		bCCKTxSIG						0xff
++#define		bCCKTxService					0xff00
++#define		bCCKLengthExt					0x8000
++#define		bCCKTxLength					0xffff0000
++#define		bCCKTxCRC16					0xffff
++#define		bCCKTxStatus					0x1
++#define		bOFDMTxStatus					0x2
++
++#define		IS_BB_REG_OFFSET_92S(_Offset)		((_Offset >= 0x800) && (_Offset <= 0xfff))
++#define	RF_TX_GAIN_OFFSET_8703B(_val) (abs((_val)) | (((_val) > 0) ? BIT5 : 0))
++
++/* 2. Page8(0x800) */
++#define		bRFMOD							0x1	/* Reg 0x800 rFPGA0_RFMOD */
++#define		bJapanMode						0x2
++#define		bCCKTxSC						0x30
++#define		bCCKEn							0x1000000
++#define		bOFDMEn						0x2000000
++
++#define		bOFDMRxADCPhase           		0x10000	/* Useless now */
++#define		bOFDMTxDACPhase		0x40000
++#define		bXATxAGC			0x3f
++
++#define		bAntennaSelect		0x0300
++
++#define		bXBTxAGC                  			0xf00	/* Reg 80c rFPGA0_TxGainStage */
++#define		bXCTxAGC			0xf000
++#define		bXDTxAGC			0xf0000
++
++#define		bPAStart                  			0xf0000000	/* Useless now */
++#define		bTRStart			0x00f00000
++#define		bRFStart			0x0000f000
++#define		bBBStart			0x000000f0
++#define		bBBCCKStart		0x0000000f
++#define		bPAEnd                    			0xf          /* Reg0x814 */
++#define		bTREnd			0x0f000000
++#define		bRFEnd			0x000f0000
++#define		bCCAMask                  			0x000000f0   /* T2R */
++#define		bR2RCCAMask		0x00000f00
++#define		bHSSI_R2TDelay		0xf8000000
++#define		bHSSI_T2RDelay		0xf80000
++#define		bContTxHSSI               		0x400     /* chane gain at continue Tx */
++#define		bIGFromCCK		0x200
++#define		bAGCAddress		0x3f
++#define		bRxHPTx			0x7000
++#define		bRxHPT2R			0x38000
++#define		bRxHPCCKIni		0xc0000
++#define		bAGCTxCode		0xc00000
++#define		bAGCRxCode		0x300000
++
++#define		b3WireDataLength          		0x800	/* Reg 0x820~84f rFPGA0_XA_HSSIParameter1 */
++#define		b3WireAddressLength		0x400
++
++#define		b3WireRFPowerDown         		0x1	/* Useless now
++ * #define bHWSISelect		0x8 */
++#define		b5GPAPEPolarity		0x40000000
++#define		b2GPAPEPolarity		0x80000000
++#define		bRFSW_TxDefaultAnt		0x3
++#define		bRFSW_TxOptionAnt		0x30
++#define		bRFSW_RxDefaultAnt		0x300
++#define		bRFSW_RxOptionAnt		0x3000
++#define		bRFSI_3WireData		0x1
++#define		bRFSI_3WireClock		0x2
++#define		bRFSI_3WireLoad		0x4
++#define		bRFSI_3WireRW		0x8
++#define		bRFSI_3Wire			0xf
++
++#define		bRFSI_RFENV               		0x10	/* Reg 0x870 rFPGA0_XAB_RFInterfaceSW */
++
++#define		bRFSI_TRSW                		0x20	/* Useless now */
++#define		bRFSI_TRSWB		0x40
++#define		bRFSI_ANTSW		0x100
++#define		bRFSI_ANTSWB		0x200
++#define		bRFSI_PAPE			0x400
++#define		bRFSI_PAPE5G		0x800
++#define		bBandSelect			0x1
++#define		bHTSIG2_GI			0x80
++#define		bHTSIG2_Smoothing		0x01
++#define		bHTSIG2_Sounding		0x02
++#define		bHTSIG2_Aggreaton		0x08
++#define		bHTSIG2_STBC		0x30
++#define		bHTSIG2_AdvCoding		0x40
++#define		bHTSIG2_NumOfHTLTF	0x300
++#define		bHTSIG2_CRC8		0x3fc
++#define		bHTSIG1_MCS		0x7f
++#define		bHTSIG1_BandWidth		0x80
++#define		bHTSIG1_HTLength		0xffff
++#define		bLSIG_Rate			0xf
++#define		bLSIG_Reserved		0x10
++#define		bLSIG_Length		0x1fffe
++#define		bLSIG_Parity			0x20
++#define		bCCKRxPhase		0x4
++
++#define		bLSSIReadAddress          		0x7f800000   /* T65 RF */
++
++#define		bLSSIReadEdge             		0x80000000   /* LSSI "Read" edge signal */
++
++#define		bLSSIReadBackData         		0xfffff		/* T65 RF */
++
++#define		bLSSIReadOKFlag           		0x1000	/* Useless now */
++#define		bCCKSampleRate            		0x8       /* 0: 44MHz, 1:88MHz      		 */
++#define		bRegulator0Standby		0x1
++#define		bRegulatorPLLStandby		0x2
++#define		bRegulator1Standby		0x4
++#define		bPLLPowerUp		0x8
++#define		bDPLLPowerUp		0x10
++#define		bDA10PowerUp		0x20
++#define		bAD7PowerUp		0x200
++#define		bDA6PowerUp		0x2000
++#define		bXtalPowerUp		0x4000
++#define		b40MDClkPowerUP		0x8000
++#define		bDA6DebugMode		0x20000
++#define		bDA6Swing			0x380000
++
++#define		bADClkPhase               		0x4000000	/* Reg 0x880 rFPGA0_AnalogParameter1 20/40 CCK support switch 40/80 BB MHZ */
++
++#define		b80MClkDelay              		0x18000000	/* Useless */
++#define		bAFEWatchDogEnable		0x20000000
++
++#define		bXtalCap01                			0xc0000000	/* Reg 0x884 rFPGA0_AnalogParameter2 Crystal cap */
++#define		bXtalCap23			0x3
++#define		bXtalCap92x					0x0f000000
++#define		bXtalCap			0x0f000000
++
++#define		bIntDifClkEnable          		0x400	/* Useless */
++#define		bExtSigClkEnable		0x800
++#define		bBandgapMbiasPowerUp	0x10000
++#define		bAD11SHGain		0xc0000
++#define		bAD11InputRange		0x700000
++#define		bAD11OPCurrent		0x3800000
++#define		bIPathLoopback		0x4000000
++#define		bQPathLoopback		0x8000000
++#define		bAFELoopback		0x10000000
++#define		bDA10Swing		0x7e0
++#define		bDA10Reverse		0x800
++#define		bDAClkSource		0x1000
++#define		bAD7InputRange		0x6000
++#define		bAD7Gain			0x38000
++#define		bAD7OutputCMMode		0x40000
++#define		bAD7InputCMMode		0x380000
++#define		bAD7Current			0xc00000
++#define		bRegulatorAdjust		0x7000000
++#define		bAD11PowerUpAtTx		0x1
++#define		bDA10PSAtTx		0x10
++#define		bAD11PowerUpAtRx		0x100
++#define		bDA10PSAtRx		0x1000
++#define		bCCKRxAGCFormat		0x200
++#define		bPSDFFTSamplepPoint		0xc000
++#define		bPSDAverageNum		0x3000
++#define		bIQPathControl		0xc00
++#define		bPSDFreq			0x3ff
++#define		bPSDAntennaPath		0x30
++#define		bPSDIQSwitch		0x40
++#define		bPSDRxTrigger		0x400000
++#define		bPSDTxTrigger		0x80000000
++#define		bPSDSineToneScale		0x7f000000
++#define		bPSDReport			0xffff
++
++/* 3. Page9(0x900) */
++#define		bOFDMTxSC                 		0x30000000	/* Useless */
++#define		bCCKTxOn			0x1
++#define		bOFDMTxOn		0x2
++#define		bDebugPage                		0xfff  /* reset debug page and also HWord, LWord */
++#define		bDebugItem                		0xff   /* reset debug page and LWord */
++#define		bAntL			0x10
++#define		bAntNonHT				0x100
++#define		bAntHT1			0x1000
++#define		bAntHT2			0x10000
++#define		bAntHT1S1			0x100000
++#define		bAntNonHTS1		0x1000000
++
++/* 4. PageA(0xA00) */
++#define		bCCKBBMode				0x3	/* Useless */
++#define		bCCKTxPowerSaving		0x80
++#define		bCCKRxPowerSaving		0x40
++
++#define		bCCKSideBand			0x10	/* Reg 0xa00 rCCK0_System 20/40 switch */
++
++#define		bCCKScramble			0x8	/* Useless */
++#define		bCCKAntDiversity		0x8000
++#define		bCCKCarrierRecovery		0x4000
++#define		bCCKTxRate				0x3000
++#define		bCCKDCCancel			0x0800
++#define		bCCKISICancel			0x0400
++#define		bCCKMatchFilter			0x0200
++#define		bCCKEqualizer			0x0100
++#define		bCCKPreambleDetect		0x800000
++#define		bCCKFastFalseCCA		0x400000
++#define		bCCKChEstStart			0x300000
++#define		bCCKCCACount			0x080000
++#define		bCCKcs_lim				0x070000
++#define		bCCKBistMode			0x80000000
++#define		bCCKCCAMask			0x40000000
++#define		bCCKTxDACPhase		0x4
++#define		bCCKRxADCPhase		0x20000000   /* r_rx_clk */
++#define		bCCKr_cp_mode0		0x0100
++#define		bCCKTxDCOffset			0xf0
++#define		bCCKRxDCOffset			0xf
++#define		bCCKCCAMode			0xc000
++#define		bCCKFalseCS_lim			0x3f00
++#define		bCCKCS_ratio			0xc00000
++#define		bCCKCorgBit_sel			0x300000
++#define		bCCKPD_lim				0x0f0000
++#define		bCCKNewCCA			0x80000000
++#define		bCCKRxHPofIG			0x8000
++#define		bCCKRxIG				0x7f00
++#define		bCCKLNAPolarity			0x800000
++#define		bCCKRx1stGain			0x7f0000
++#define		bCCKRFExtend			0x20000000 /* CCK Rx Iinital gain polarity */
++#define		bCCKRxAGCSatLevel		0x1f000000
++#define		bCCKRxAGCSatCount		0xe0
++#define		bCCKRxRFSettle			0x1f       /* AGCsamp_dly */
++#define		bCCKFixedRxAGC			0x8000
++/* #define bCCKRxAGCFormat		0x4000 */   /* remove to HSSI register 0x824 */
++#define		bCCKAntennaPolarity		0x2000
++#define		bCCKTxFilterType		0x0c00
++#define		bCCKRxAGCReportType	0x0300
++#define		bCCKRxDAGCEn			0x80000000
++#define		bCCKRxDAGCPeriod		0x20000000
++#define		bCCKRxDAGCSatLevel		0x1f000000
++#define		bCCKTimingRecovery		0x800000
++#define		bCCKTxC0				0x3f0000
++#define		bCCKTxC1				0x3f000000
++#define		bCCKTxC2				0x3f
++#define		bCCKTxC3				0x3f00
++#define		bCCKTxC4				0x3f0000
++#define		bCCKTxC5				0x3f000000
++#define		bCCKTxC6				0x3f
++#define		bCCKTxC7				0x3f00
++#define		bCCKDebugPort			0xff0000
++#define		bCCKDACDebug			0x0f000000
++#define		bCCKFalseAlarmEnable	0x8000
++#define		bCCKFalseAlarmRead		0x4000
++#define		bCCKTRSSI				0x7f
++#define		bCCKRxAGCReport		0xfe
++#define		bCCKRxReport_AntSel	0x80000000
++#define		bCCKRxReport_MFOff		0x40000000
++#define		bCCKRxRxReport_SQLoss	0x20000000
++#define		bCCKRxReport_Pktloss	0x10000000
++#define		bCCKRxReport_Lockedbit	0x08000000
++#define		bCCKRxReport_RateError	0x04000000
++#define		bCCKRxReport_RxRate	0x03000000
++#define		bCCKRxFACounterLower	0xff
++#define		bCCKRxFACounterUpper	0xff000000
++#define		bCCKRxHPAGCStart		0xe000
++#define		bCCKRxHPAGCFinal		0x1c00
++#define		bCCKRxFalseAlarmEnable	0x8000
++#define		bCCKFACounterFreeze	0x4000
++#define		bCCKTxPathSel			0x10000000
++#define		bCCKDefaultRxPath		0xc000000
++#define		bCCKOptionRxPath		0x3000000
++
++/* 5. PageC(0xC00) */
++#define		bNumOfSTF				0x3	/* Useless */
++#define		bShift_L					0xc0
++#define		bGI_TH					0xc
++#define		bRxPathA				0x1
++#define		bRxPathB				0x2
++#define		bRxPathC				0x4
++#define		bRxPathD				0x8
++#define		bTxPathA				0x1
++#define		bTxPathB				0x2
++#define		bTxPathC				0x4
++#define		bTxPathD				0x8
++#define		bTRSSIFreq				0x200
++#define		bADCBackoff				0x3000
++#define		bDFIRBackoff			0xc000
++#define		bTRSSILatchPhase		0x10000
++#define		bRxIDCOffset			0xff
++#define		bRxQDCOffset			0xff00
++#define		bRxDFIRMode			0x1800000
++#define		bRxDCNFType			0xe000000
++#define		bRXIQImb_A				0x3ff
++#define		bRXIQImb_B				0xfc00
++#define		bRXIQImb_C				0x3f0000
++#define		bRXIQImb_D				0xffc00000
++#define		bDC_dc_Notch			0x60000
++#define		bRxNBINotch			0x1f000000
++#define		bPD_TH					0xf
++#define		bPD_TH_Opt2			0xc000
++#define		bPWED_TH				0x700
++#define		bIfMF_Win_L			0x800
++#define		bPD_Option				0x1000
++#define		bMF_Win_L				0xe000
++#define		bBW_Search_L			0x30000
++#define		bwin_enh_L				0xc0000
++#define		bBW_TH					0x700000
++#define		bED_TH2				0x3800000
++#define		bBW_option				0x4000000
++#define		bRatio_TH				0x18000000
++#define		bWindow_L				0xe0000000
++#define		bSBD_Option				0x1
++#define		bFrame_TH				0x1c
++#define		bFS_Option				0x60
++#define		bDC_Slope_check		0x80
++#define		bFGuard_Counter_DC_L	0xe00
++#define		bFrame_Weight_Short	0x7000
++#define		bSub_Tune				0xe00000
++#define		bFrame_DC_Length		0xe000000
++#define		bSBD_start_offset		0x30000000
++#define		bFrame_TH_2			0x7
++#define		bFrame_GI2_TH			0x38
++#define		bGI2_Sync_en			0x40
++#define		bSarch_Short_Early		0x300
++#define		bSarch_Short_Late		0xc00
++#define		bSarch_GI2_Late		0x70000
++#define		bCFOAntSum				0x1
++#define		bCFOAcc				0x2
++#define		bCFOStartOffset			0xc
++#define		bCFOLookBack			0x70
++#define		bCFOSumWeight			0x80
++#define		bDAGCEnable			0x10000
++#define		bTXIQImb_A				0x3ff
++#define		bTXIQImb_B				0xfc00
++#define		bTXIQImb_C				0x3f0000
++#define		bTXIQImb_D				0xffc00000
++#define		bTxIDCOffset			0xff
++#define		bTxQDCOffset			0xff00
++#define		bTxDFIRMode			0x10000
++#define		bTxPesudoNoiseOn		0x4000000
++#define		bTxPesudoNoise_A		0xff
++#define		bTxPesudoNoise_B		0xff00
++#define		bTxPesudoNoise_C		0xff0000
++#define		bTxPesudoNoise_D		0xff000000
++#define		bCCADropOption			0x20000
++#define		bCCADropThres			0xfff00000
++#define		bEDCCA_H				0xf
++#define		bEDCCA_L				0xf0
++#define		bLambda_ED			0x300
++#define		bRxInitialGain			0x7f
++#define		bRxAntDivEn				0x80
++#define		bRxAGCAddressForLNA	0x7f00
++#define		bRxHighPowerFlow		0x8000
++#define		bRxAGCFreezeThres		0xc0000
++#define		bRxFreezeStep_AGC1	0x300000
++#define		bRxFreezeStep_AGC2	0xc00000
++#define		bRxFreezeStep_AGC3	0x3000000
++#define		bRxFreezeStep_AGC0	0xc000000
++#define		bRxRssi_Cmp_En			0x10000000
++#define		bRxQuickAGCEn			0x20000000
++#define		bRxAGCFreezeThresMode	0x40000000
++#define		bRxOverFlowCheckType	0x80000000
++#define		bRxAGCShift				0x7f
++#define		bTRSW_Tri_Only			0x80
++#define		bPowerThres			0x300
++#define		bRxAGCEn				0x1
++#define		bRxAGCTogetherEn		0x2
++#define		bRxAGCMin				0x4
++#define		bRxHP_Ini				0x7
++#define		bRxHP_TRLNA			0x70
++#define		bRxHP_RSSI				0x700
++#define		bRxHP_BBP1				0x7000
++#define		bRxHP_BBP2				0x70000
++#define		bRxHP_BBP3				0x700000
++#define		bRSSI_H					0x7f0000     /* the threshold for high power */
++#define		bRSSI_Gen				0x7f000000   /* the threshold for ant diversity */
++#define		bRxSettle_TRSW			0x7
++#define		bRxSettle_LNA			0x38
++#define		bRxSettle_RSSI			0x1c0
++#define		bRxSettle_BBP			0xe00
++#define		bRxSettle_RxHP			0x7000
++#define		bRxSettle_AntSW_RSSI	0x38000
++#define		bRxSettle_AntSW		0xc0000
++#define		bRxProcessTime_DAGC	0x300000
++#define		bRxSettle_HSSI			0x400000
++#define		bRxProcessTime_BBPPW	0x800000
++#define		bRxAntennaPowerShift	0x3000000
++#define		bRSSITableSelect		0xc000000
++#define		bRxHP_Final				0x7000000
++#define		bRxHTSettle_BBP			0x7
++#define		bRxHTSettle_HSSI		0x8
++#define		bRxHTSettle_RxHP		0x70
++#define		bRxHTSettle_BBPPW		0x80
++#define		bRxHTSettle_Idle		0x300
++#define		bRxHTSettle_Reserved	0x1c00
++#define		bRxHTRxHPEn			0x8000
++#define		bRxHTAGCFreezeThres	0x30000
++#define		bRxHTAGCTogetherEn	0x40000
++#define		bRxHTAGCMin			0x80000
++#define		bRxHTAGCEn				0x100000
++#define		bRxHTDAGCEn			0x200000
++#define		bRxHTRxHP_BBP			0x1c00000
++#define		bRxHTRxHP_Final		0xe0000000
++#define		bRxPWRatioTH			0x3
++#define		bRxPWRatioEn			0x4
++#define		bRxMFHold				0x3800
++#define		bRxPD_Delay_TH1		0x38
++#define		bRxPD_Delay_TH2		0x1c0
++#define		bRxPD_DC_COUNT_MAX	0x600
++/* #define bRxMF_Hold               0x3800 */
++#define		bRxPD_Delay_TH			0x8000
++#define		bRxProcess_Delay		0xf0000
++#define		bRxSearchrange_GI2_Early	0x700000
++#define		bRxFrame_Guard_Counter_L	0x3800000
++#define		bRxSGI_Guard_L			0xc000000
++#define		bRxSGI_Search_L		0x30000000
++#define		bRxSGI_TH				0xc0000000
++#define		bDFSCnt0				0xff
++#define		bDFSCnt1				0xff00
++#define		bDFSFlag				0xf0000
++#define		bMFWeightSum			0x300000
++#define		bMinIdxTH				0x7f000000
++#define		bDAFormat				0x40000
++#define		bTxChEmuEnable		0x01000000
++#define		bTRSWIsolation_A		0x7f
++#define		bTRSWIsolation_B		0x7f00
++#define		bTRSWIsolation_C		0x7f0000
++#define		bTRSWIsolation_D		0x7f000000
++#define		bExtLNAGain				0x7c00
++
++/* 6. PageE(0xE00) */
++#define		bSTBCEn				0x4	/* Useless */
++#define		bAntennaMapping		0x10
++#define		bNss					0x20
++#define		bCFOAntSumD			0x200
++#define		bPHYCounterReset		0x8000000
++#define		bCFOReportGet			0x4000000
++#define		bOFDMContinueTx		0x10000000
++#define		bOFDMSingleCarrier		0x20000000
++#define		bOFDMSingleTone		0x40000000
++/* #define bRxPath1                 0x01 */
++/* #define bRxPath2                 0x02 */
++/* #define bRxPath3                 0x04 */
++/* #define bRxPath4                 0x08 */
++/* #define bTxPath1                 0x10 */
++/* #define bTxPath2                 0x20 */
++#define		bHTDetect			0x100
++#define		bCFOEn				0x10000
++#define		bCFOValue			0xfff00000
++#define		bSigTone_Re		0x3f
++#define		bSigTone_Im		0x7f00
++#define		bCounter_CCA		0xffff
++#define		bCounter_ParityFail	0xffff0000
++#define		bCounter_RateIllegal		0xffff
++#define		bCounter_CRC8Fail	0xffff0000
++#define		bCounter_MCSNoSupport	0xffff
++#define		bCounter_FastSync	0xffff
++#define		bShortCFO			0xfff
++#define		bShortCFOTLength	12   /* total */
++#define		bShortCFOFLength	11   /* fraction */
++#define		bLongCFO			0x7ff
++#define		bLongCFOTLength	11
++#define		bLongCFOFLength	11
++#define		bTailCFO			0x1fff
++#define		bTailCFOTLength		13
++#define		bTailCFOFLength		12
++#define		bmax_en_pwdB		0xffff
++#define		bCC_power_dB		0xffff0000
++#define		bnoise_pwdB		0xffff
++#define		bPowerMeasTLength	10
++#define		bPowerMeasFLength	3
++#define		bRx_HT_BW			0x1
++#define		bRxSC				0x6
++#define		bRx_HT				0x8
++#define		bNB_intf_det_on		0x1
++#define		bIntf_win_len_cfg	0x30
++#define		bNB_Intf_TH_cfg		0x1c0
++#define		bRFGain				0x3f
++#define		bTableSel			0x40
++#define		bTRSW				0x80
++#define		bRxSNR_A			0xff
++#define		bRxSNR_B			0xff00
++#define		bRxSNR_C			0xff0000
++#define		bRxSNR_D			0xff000000
++#define		bSNREVMTLength		8
++#define		bSNREVMFLength		1
++#define		bCSI1st				0xff
++#define		bCSI2nd				0xff00
++#define		bRxEVM1st			0xff0000
++#define		bRxEVM2nd			0xff000000
++#define		bSIGEVM			0xff
++#define		bPWDB				0xff00
++#define		bSGIEN				0x10000
++
++#define		bSFactorQAM1		0xf	/* Useless */
++#define		bSFactorQAM2		0xf0
++#define		bSFactorQAM3		0xf00
++#define		bSFactorQAM4		0xf000
++#define		bSFactorQAM5		0xf0000
++#define		bSFactorQAM6		0xf0000
++#define		bSFactorQAM7		0xf00000
++#define		bSFactorQAM8		0xf000000
++#define		bSFactorQAM9		0xf0000000
++#define		bCSIScheme			0x100000
++
++#define		bNoiseLvlTopSet		0x3	/* Useless */
++#define		bChSmooth			0x4
++#define		bChSmoothCfg1		0x38
++#define		bChSmoothCfg2		0x1c0
++#define		bChSmoothCfg3		0xe00
++#define		bChSmoothCfg4		0x7000
++#define		bMRCMode			0x800000
++#define		bTHEVMCfg			0x7000000
++
++#define		bLoopFitType		0x1	/* Useless */
++#define		bUpdCFO			0x40
++#define		bUpdCFOOffData		0x80
++#define		bAdvUpdCFO			0x100
++#define		bAdvTimeCtrl		0x800
++#define		bUpdClko			0x1000
++#define		bFC					0x6000
++#define		bTrackingMode		0x8000
++#define		bPhCmpEnable		0x10000
++#define		bUpdClkoLTF		0x20000
++#define		bComChCFO			0x40000
++#define		bCSIEstiMode		0x80000
++#define		bAdvUpdEqz			0x100000
++#define		bUChCfg				0x7000000
++#define		bUpdEqz			0x8000000
++
++/* Rx Pseduo noise */
++#define		bRxPesudoNoiseOn		0x20000000	/* Useless */
++#define		bRxPesudoNoise_A		0xff
++#define		bRxPesudoNoise_B		0xff00
++#define		bRxPesudoNoise_C		0xff0000
++#define		bRxPesudoNoise_D		0xff000000
++#define		bPesudoNoiseState_A	0xffff
++#define		bPesudoNoiseState_B	0xffff0000
++#define		bPesudoNoiseState_C	0xffff
++#define		bPesudoNoiseState_D	0xffff0000
++
++/* 7. RF Register
++ * Zebra1 */
++#define		bZebra1_HSSIEnable		0x8		/* Useless */
++#define		bZebra1_TRxControl		0xc00
++#define		bZebra1_TRxGainSetting	0x07f
++#define		bZebra1_RxCorner		0xc00
++#define		bZebra1_TxChargePump	0x38
++#define		bZebra1_RxChargePump	0x7
++#define		bZebra1_ChannelNum	0xf80
++#define		bZebra1_TxLPFBW		0x400
++#define		bZebra1_RxLPFBW		0x600
++
++/* Zebra4 */
++#define		bRTL8256RegModeCtrl1	0x100	/* Useless */
++#define		bRTL8256RegModeCtrl0	0x40
++#define		bRTL8256_TxLPFBW		0x18
++#define		bRTL8256_RxLPFBW		0x600
++
++/* RTL8258 */
++#define		bRTL8258_TxLPFBW		0xc	/* Useless */
++#define		bRTL8258_RxLPFBW		0xc00
++#define		bRTL8258_RSSILPFBW	0xc0
++
++
++/*
++ * Other Definition
++ *   */
++
++/* byte endable for sb_write */
++#define		bByte0				0x1	/* Useless */
++#define		bByte1				0x2
++#define		bByte2				0x4
++#define		bByte3				0x8
++#define		bWord0				0x3
++#define		bWord1				0xc
++#define		bDWord				0xf
++
++/* for PutRegsetting & GetRegSetting BitMask */
++#define		bMaskByte0			0xff	/* Reg 0xc50 rOFDM0_XAAGCCore~0xC6f */
++#define		bMaskByte1			0xff00
++#define		bMaskByte2			0xff0000
++#define		bMaskByte3			0xff000000
++#define		bMaskHWord		0xffff0000
++#define		bMaskLWord			0x0000ffff
++#define		bMaskDWord		0xffffffff
++#define		bMaskH3Bytes		0xffffff00
++#define		bMask12Bits			0xfff
++#define		bMaskH4Bits			0xf0000000
++#define		bMaskOFDM_D		0xffc00000
++#define		bMaskCCK			0x3f3f3f3f
++
++
++#define		bEnable			0x1	/* Useless */
++#define		bDisable		0x0
++
++#define		LeftAntenna		0x0	/* Useless */
++#define		RightAntenna	0x1
++
++#define		tCheckTxStatus		500   /* 500ms */ /* Useless */
++#define		tUpdateRxCounter	100   /* 100ms */
++
++#define		rateCCK		0	/* Useless */
++#define		rateOFDM	1
++#define		rateHT		2
++
++/* define Register-End */
++#define		bPMAC_End			0x1ff	/* Useless */
++#define		bFPGAPHY0_End		0x8ff
++#define		bFPGAPHY1_End		0x9ff
++#define		bCCKPHY0_End		0xaff
++#define		bOFDMPHY0_End		0xcff
++#define		bOFDMPHY1_End		0xdff
++
++/* define max debug item in each debug page
++ * #define bMaxItem_FPGA_PHY0        0x9
++ * #define bMaxItem_FPGA_PHY1        0x3
++ * #define bMaxItem_PHY_11B          0x16
++ * #define bMaxItem_OFDM_PHY0        0x29
++ * #define bMaxItem_OFDM_PHY1        0x0 */
++
++#define		bPMACControl		0x0		/* Useless */
++#define		bWMACControl		0x1
++#define		bWNICControl		0x2
++
++#define		PathA			0x0	/* Useless */
++#define		PathB			0x1
++#define		PathC			0x2
++#define		PathD			0x3
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8703BPwrSeq.h b/drivers/net/wireless/rtl8723du/include/Hal8703BPwrSeq.h
+new file mode 100644
+index 0000000..a53ca9a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8703BPwrSeq.h
+@@ -0,0 +1,184 @@
++#ifndef REALTEK_POWER_SEQUENCE_8703B
++#define REALTEK_POWER_SEQUENCE_8703B
++
++#include "HalPwrSeqCmd.h"
++
++/*
++	Check document WM-20140402-JackieLau-RTL8703B_Power_Architecture v09.vsd
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transision from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++*/
++#define	RTL8703B_TRANS_CARDEMU_TO_ACT_STEPS	23
++#define	RTL8703B_TRANS_ACT_TO_CARDEMU_STEPS	15
++#define	RTL8703B_TRANS_CARDEMU_TO_SUS_STEPS	15
++#define	RTL8703B_TRANS_SUS_TO_CARDEMU_STEPS	15
++#define	RTL8703B_TRANS_CARDEMU_TO_PDN_STEPS	15
++#define	RTL8703B_TRANS_PDN_TO_CARDEMU_STEPS	15
++#define	RTL8703B_TRANS_ACT_TO_LPS_STEPS		15
++#define	RTL8703B_TRANS_LPS_TO_ACT_STEPS		15
++#define	RTL8703B_TRANS_END_STEPS		1
++
++
++#define RTL8703B_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /*0x20[0] = 1b'1 enable LDOA12 MACRO block for all interface*/   \
++	{0x0067, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x67[0] = 0 to disable BT_GPS_SEL pins*/	\
++	{0x0001, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 1, PWRSEQ_DELAY_MS},/*Delay 1ms*/   \
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, 0}, /*0x00[5] = 1b'0 release analog Ips to digital ,1:isolation*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT4 | BIT3 | BIT2), 0},/* disable SW LPS 0x04[10]=0 and WLSUS_EN 0x04[11]=0*/	\
++	{0x0075, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0 , BIT0},/* Disable USB suspend */	\
++	{0x0004, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 , BIT3},/* enabled usb resume */	\
++	{0x0004, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 , 0},/* disable usb resume */	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1    power ready*/	\
++	{0x0075, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0 , 0},/* Enable USB suspend */	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* release WLON reset  0x04[16]=1*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* disable HWPDN 0x04[15]=0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT4 | BIT3), 0},/* disable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* polling until return 0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0},/**/	\
++	{0x0010, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, BIT6},/* Enable WL control XTAL setting*/	\
++	{0x0049, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/*Enable falling edge triggering interrupt*/\
++	{0x0063, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/*Enable GPIO9 interrupt mode*/\
++	{0x0062, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Enable GPIO9 input mode*/\
++	{0x0058, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*Enable HSISR GPIO[C:0] interrupt*/\
++	{0x005A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/*Enable HSISR GPIO9 interrupt*/\
++	{0x0068, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, BIT3},/*For GPIO9 internal pull high setting by test chip*/\
++	{0x0069, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, BIT6},/*For GPIO9 internal pull high setting*/\
++
++
++#define RTL8703B_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*0x1F[7:0] = 0 turn off RF*/	\
++	{0x0049, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Enable rising edge triggering interrupt*/ \
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* release WLON reset  0x04[16]=1*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/	\
++	{0x0010, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, 0},/* Enable BT control XTAL setting*/\
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5}, /*0x00[5] = 1b'1 analog Ips to digital ,1:isolation*/   \
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /*0x20[0] = 1b'0 disable LDOA12 MACRO block*/\
++
++
++#define RTL8703B_TRANS_CARDEMU_TO_SUS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4 | BIT3, (BIT4 | BIT3)}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SDIO SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3 | BIT4}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8703B_TRANS_SUS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT7, 0}, /*clear suspend enable and power down enable*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
++
++#define RTL8703B_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07 = 0x20 , SOP option to disable BG/MB*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2}, /*0x04[10] = 1, enable SW LPS*/	\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 1}, /*0x48[16] = 1 to enable GPIO9 as EXT WAKEUP*/   \
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8703B_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT7, 0}, /*clear suspend enable and power down enable*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /*0x48[16] = 0 to disable GPIO9 as EXT WAKEUP*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*PCIe DMA start*/
++
++
++#define RTL8703B_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK | PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/* 0x04[16] = 0*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
++
++#define RTL8703B_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
++
++#define RTL8703B_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*PCIe DMA stop*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*Tx Pause*/	\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Whole BB is reset*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x03},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/	\
++	{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/*When driver enter Sus/ Disable, enable LOP for BT*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/	\
++
++
++#define RTL8703B_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM*/\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/\
++	{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*.	0x08[4] = 0		 switch TSF to 40M*/\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, 0}, /*Polling 0x109[7]=0  TSF in 40M*/\
++	{0x0029, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6 | BIT7, 0}, /*.	0x29[7:6] = 2b'00	 enable BB clock*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++#define RTL8703B_TRANS_END															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++	extern WLAN_PWR_CFG rtl8703B_power_on_flow[RTL8703B_TRANS_CARDEMU_TO_ACT_STEPS + RTL8703B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8703B_radio_off_flow[RTL8703B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8703B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8703B_card_disable_flow[RTL8703B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8703B_TRANS_CARDEMU_TO_PDN_STEPS + RTL8703B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8703B_card_enable_flow[RTL8703B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8703B_TRANS_CARDEMU_TO_PDN_STEPS + RTL8703B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8703B_suspend_flow[RTL8703B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8703B_TRANS_CARDEMU_TO_SUS_STEPS + RTL8703B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8703B_resume_flow[RTL8703B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8703B_TRANS_CARDEMU_TO_SUS_STEPS + RTL8703B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8703B_hwpdn_flow[RTL8703B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8703B_TRANS_CARDEMU_TO_PDN_STEPS + RTL8703B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8703B_enter_lps_flow[RTL8703B_TRANS_ACT_TO_LPS_STEPS + RTL8703B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8703B_leave_lps_flow[RTL8703B_TRANS_LPS_TO_ACT_STEPS + RTL8703B_TRANS_END_STEPS];
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8723BPhyCfg.h b/drivers/net/wireless/rtl8723du/include/Hal8723BPhyCfg.h
+new file mode 100644
+index 0000000..bbcc38b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8723BPhyCfg.h
+@@ -0,0 +1,136 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8723BPHYCFG_H__
++#define __INC_HAL8723BPHYCFG_H__
++
++/*--------------------------Define Parameters-------------------------------*/
++#define LOOP_LIMIT				5
++#define MAX_STALL_TIME			50		/* us */
++#define AntennaDiversityValue	0x80	/* (Adapter->bSoftwareAntennaDiversity ? 0x00 : 0x80) */
++#define MAX_TXPWR_IDX_NMODE_92S	63
++#define Reset_Cnt_Limit			3
++
++#ifdef CONFIG_PCI_HCI
++	#define MAX_AGGR_NUM	0x0B
++#else
++	#define MAX_AGGR_NUM	0x07
++#endif /* CONFIG_PCI_HCI */
++
++
++/*--------------------------Define Parameters End-------------------------------*/
++
++
++/*------------------------------Define structure----------------------------*/
++
++/*------------------------------Define structure End----------------------------*/
++
++/*--------------------------Exported Function prototype---------------------*/
++u32
++PHY_QueryBBReg_8723B(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask
++);
++
++VOID
++PHY_SetBBReg_8723B(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask,
++	IN	u32		Data
++);
++
++u32
++PHY_QueryRFReg_8723B(
++	IN	PADAPTER			Adapter,
++	IN	u8				eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask
++);
++
++VOID
++PHY_SetRFReg_8723B(
++	IN	PADAPTER			Adapter,
++	IN	u8				eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask,
++	IN	u32				Data
++);
++
++/* MAC/BB/RF HAL config */
++int PHY_BBConfig8723B(PADAPTER	Adapter);
++
++int PHY_RFConfig8723B(PADAPTER	Adapter);
++
++s32 PHY_MACConfig8723B(PADAPTER padapter);
++
++int
++PHY_ConfigRFWithParaFile_8723B(
++	IN	PADAPTER			Adapter,
++	IN	u8				*pFileName,
++	RF_PATH				eRFPath
++);
++
++VOID
++PHY_SetTxPowerIndex_8723B(
++	IN	PADAPTER			Adapter,
++	IN	u32					PowerIndex,
++	IN	u8					RFPath,
++	IN	u8					Rate
++);
++
++u8
++PHY_GetTxPowerIndex_8723B(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	u8					Rate,
++	IN	u8					BandWidth,
++	IN	u8					Channel,
++	struct txpwr_idx_comp *tic
++);
++
++VOID
++PHY_GetTxPowerLevel8723B(
++	IN	PADAPTER		Adapter,
++	OUT s32				*powerlevel
++);
++
++VOID
++PHY_SetTxPowerLevel8723B(
++	IN	PADAPTER		Adapter,
++	IN	u8			channel
++);
++
++VOID
++PHY_SetSwChnlBWMode8723B(
++	IN	PADAPTER			Adapter,
++	IN	u8					channel,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					Offset40,
++	IN	u8					Offset80
++);
++
++VOID PHY_SetRFPathSwitch_8723B(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bMain
++);
++/*--------------------------Exported Function prototype End---------------------*/
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8723BPhyReg.h b/drivers/net/wireless/rtl8723du/include/Hal8723BPhyReg.h
+new file mode 100644
+index 0000000..551c0a5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8723BPhyReg.h
+@@ -0,0 +1,1136 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8723BPHYREG_H__
++#define __INC_HAL8723BPHYREG_H__
++
++#define		rSYM_WLBT_PAPE_SEL		0x64
++/*
++ * BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++ * 3. RF register 0x00-2E
++ * 4. Bit Mask for BB/RF register
++ * 5. Other defintion for BB/RF R/W
++ *   */
++
++
++/*
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 1. Page1(0x100)
++ *   */
++#define		rPMAC_Reset					0x100
++#define		rPMAC_TxStart					0x104
++#define		rPMAC_TxLegacySIG				0x108
++#define		rPMAC_TxHTSIG1				0x10c
++#define		rPMAC_TxHTSIG2				0x110
++#define		rPMAC_PHYDebug				0x114
++#define		rPMAC_TxPacketNum				0x118
++#define		rPMAC_TxIdle					0x11c
++#define		rPMAC_TxMACHeader0			0x120
++#define		rPMAC_TxMACHeader1			0x124
++#define		rPMAC_TxMACHeader2			0x128
++#define		rPMAC_TxMACHeader3			0x12c
++#define		rPMAC_TxMACHeader4			0x130
++#define		rPMAC_TxMACHeader5			0x134
++#define		rPMAC_TxDataType				0x138
++#define		rPMAC_TxRandomSeed			0x13c
++#define		rPMAC_CCKPLCPPreamble			0x140
++#define		rPMAC_CCKPLCPHeader			0x144
++#define		rPMAC_CCKCRC16				0x148
++#define		rPMAC_OFDMRxCRC32OK			0x170
++#define		rPMAC_OFDMRxCRC32Er			0x174
++#define		rPMAC_OFDMRxParityEr			0x178
++#define		rPMAC_OFDMRxCRC8Er			0x17c
++#define		rPMAC_CCKCRxRC16Er			0x180
++#define		rPMAC_CCKCRxRC32Er			0x184
++#define		rPMAC_CCKCRxRC32OK			0x188
++#define		rPMAC_TxStatus					0x18c
++
++/*
++ * 2. Page2(0x200)
++ *
++ * The following two definition are only used for USB interface. */
++#define		RF_BB_CMD_ADDR				0x02c0	/* RF/BB read/write command address. */
++#define		RF_BB_CMD_DATA				0x02c4	/* RF/BB read/write command data. */
++
++/*
++ * 3. Page8(0x800)
++ *   */
++#define		rFPGA0_RFMOD				0x800	/* RF mode & CCK TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA0_TxInfo				0x804	/* Status report?? */
++#define		rFPGA0_PSDFunction			0x808
++
++#define		rFPGA0_TxGainStage			0x80c	/* Set TX PWR init gain? */
++
++#define		rFPGA0_RFTiming1			0x810	/* Useless now */
++#define		rFPGA0_RFTiming2			0x814
++
++#define		rFPGA0_XA_HSSIParameter1		0x820	/* RF 3 wire register */
++#define		rFPGA0_XA_HSSIParameter2		0x824
++#define		rFPGA0_XB_HSSIParameter1		0x828
++#define		rFPGA0_XB_HSSIParameter2		0x82c
++#define		rTxAGC_B_Rate18_06				0x830
++#define		rTxAGC_B_Rate54_24				0x834
++#define		rTxAGC_B_CCK1_55_Mcs32		0x838
++#define		rTxAGC_B_Mcs03_Mcs00			0x83c
++
++#define		rTxAGC_B_Mcs07_Mcs04			0x848
++#define		rTxAGC_B_Mcs11_Mcs08			0x84c
++
++#define		rFPGA0_XA_LSSIParameter		0x840
++#define		rFPGA0_XB_LSSIParameter		0x844
++
++#define		rFPGA0_RFWakeUpParameter		0x850	/* Useless now */
++#define		rFPGA0_RFSleepUpParameter		0x854
++
++#define		rFPGA0_XAB_SwitchControl		0x858	/* RF Channel switch */
++#define		rFPGA0_XCD_SwitchControl		0x85c
++
++#define		rFPGA0_XA_RFInterfaceOE		0x860	/* RF Channel switch */
++#define		rFPGA0_XB_RFInterfaceOE		0x864
++
++#define		rTxAGC_B_Mcs15_Mcs12			0x868
++#define		rTxAGC_B_CCK11_A_CCK2_11		0x86c
++
++#define		rFPGA0_XAB_RFInterfaceSW		0x870	/* RF Interface Software Control */
++#define		rFPGA0_XCD_RFInterfaceSW		0x874
++
++#define		rFPGA0_XAB_RFParameter		0x878	/* RF Parameter */
++#define		rFPGA0_XCD_RFParameter		0x87c
++
++#define		rFPGA0_AnalogParameter1		0x880	/* Crystal cap setting RF-R/W protection for parameter4?? */
++#define		rFPGA0_AnalogParameter2		0x884
++#define		rFPGA0_AnalogParameter3		0x888	/* Useless now */
++#define		rFPGA0_AnalogParameter4		0x88c
++
++#define		rFPGA0_XA_LSSIReadBack		0x8a0	/* Tranceiver LSSI Readback */
++#define		rFPGA0_XB_LSSIReadBack		0x8a4
++#define		rFPGA0_XC_LSSIReadBack		0x8a8
++#define		rFPGA0_XD_LSSIReadBack		0x8ac
++
++#define		rFPGA0_PSDReport				0x8b4	/* Useless now */
++#define		TransceiverA_HSPI_Readback	0x8b8	/* Transceiver A HSPI Readback */
++#define		TransceiverB_HSPI_Readback	0x8bc	/* Transceiver B HSPI Readback */
++#define		rFPGA0_XAB_RFInterfaceRB		0x8e0	/* Useless now */ /* RF Interface Readback Value */
++#define		rFPGA0_XCD_RFInterfaceRB		0x8e4	/* Useless now */
++
++/*
++ * 4. Page9(0x900)
++ *   */
++#define	rFPGA1_RFMOD				0x900	/* RF mode & OFDM TxSC */ /* RF BW Setting?? */
++#define	rFPGA1_TxBlock				0x904	/* Useless now */
++#define	rFPGA1_DebugSelect			0x908	/* Useless now */
++#define	rFPGA1_TxInfo				0x90c	/* Useless now */ /* Status report?? */
++#define	rDPDT_control				0x92c
++#define	rfe_ctrl_anta_src				0x930
++#define	rS0S1_PathSwitch			0x948
++
++/*
++ * 5. PageA(0xA00)
++ *
++ * Set Control channel to upper or lower. These settings are required only for 40MHz */
++#define		rCCK0_System				0xa00
++
++#define		rCCK0_AFESetting			0xa04	/* Disable init gain now */ /* Select RX path by RSSI */
++#define		rCCK0_CCA					0xa08	/* Disable init gain now */ /* Init gain */
++
++#define		rCCK0_RxAGC1				0xa0c	/* AGC default value, saturation level  */ /* Antenna Diversity, RX AGC, LNA Threshold, RX LNA Threshold useless now. Not the same as 90 series */
++#define		rCCK0_RxAGC2				0xa10	/* AGC & DAGC */
++
++#define		rCCK0_RxHP					0xa14
++
++#define		rCCK0_DSPParameter1		0xa18	/* Timing recovery & Channel estimation threshold */
++#define		rCCK0_DSPParameter2		0xa1c	/* SQ threshold */
++
++#define		rCCK0_TxFilter1				0xa20
++#define		rCCK0_TxFilter2				0xa24
++#define		rCCK0_DebugPort			0xa28	/* debug port and Tx filter3 */
++#define		rCCK0_FalseAlarmReport		0xa2c	/* 0xa2d	useless now 0xa30-a4f channel report */
++#define		rCCK0_TRSSIReport		0xa50
++#define		rCCK0_RxReport            		0xa54  /* 0xa57 */
++#define		rCCK0_FACounterLower      	0xa5c  /* 0xa5b */
++#define		rCCK0_FACounterUpper      	0xa58  /* 0xa5c */
++
++/*
++ * PageB(0xB00)
++ *   */
++#define rPdp_AntA						0xb00
++#define rPdp_AntA_4						0xb04
++#define rPdp_AntA_8						0xb08
++#define rPdp_AntA_C						0xb0c
++#define rPdp_AntA_10					0xb10
++#define rPdp_AntA_14					0xb14
++#define rPdp_AntA_18					0xb18
++#define rPdp_AntA_1C					0xb1c
++#define rPdp_AntA_20					0xb20
++#define rPdp_AntA_24					0xb24
++
++#define rConfig_Pmpd_AntA				0xb28
++#define rConfig_ram64x16				0xb2c
++
++#define rBndA							0xb30
++#define rHssiPar						0xb34
++
++#define rConfig_AntA					0xb68
++#define rConfig_AntB					0xb6c
++
++#define rPdp_AntB						0xb70
++#define rPdp_AntB_4						0xb74
++#define rPdp_AntB_8						0xb78
++#define rPdp_AntB_C						0xb7c
++#define rPdp_AntB_10					0xb80
++#define rPdp_AntB_14					0xb84
++#define rPdp_AntB_18					0xb88
++#define rPdp_AntB_1C					0xb8c
++#define rPdp_AntB_20					0xb90
++#define rPdp_AntB_24					0xb94
++
++#define rConfig_Pmpd_AntB				0xb98
++
++#define rBndB							0xba0
++
++#define rAPK							0xbd8
++#define rPm_Rx0_AntA					0xbdc
++#define rPm_Rx1_AntA					0xbe0
++#define rPm_Rx2_AntA					0xbe4
++#define rPm_Rx3_AntA					0xbe8
++#define rPm_Rx0_AntB					0xbec
++#define rPm_Rx1_AntB					0xbf0
++#define rPm_Rx2_AntB					0xbf4
++#define rPm_Rx3_AntB					0xbf8
++/*
++ * 6. PageC(0xC00)
++ *   */
++#define		rOFDM0_LSTF				0xc00
++
++#define		rOFDM0_TRxPathEnable		0xc04
++#define		rOFDM0_TRMuxPar			0xc08
++#define		rOFDM0_TRSWIsolation		0xc0c
++
++#define		rOFDM0_XARxAFE			0xc10  /* RxIQ DC offset, Rx digital filter, DC notch filter */
++#define		rOFDM0_XARxIQImbalance    	0xc14  /* RxIQ imblance matrix */
++#define		rOFDM0_XBRxAFE		0xc18
++#define		rOFDM0_XBRxIQImbalance	0xc1c
++#define		rOFDM0_XCRxAFE		0xc20
++#define		rOFDM0_XCRxIQImbalance	0xc24
++#define		rOFDM0_XDRxAFE		0xc28
++#define		rOFDM0_XDRxIQImbalance	0xc2c
++
++#define		rOFDM0_RxDetector1			0xc30  /* PD, BW & SBD	 */ /* DM tune init gain */
++#define		rOFDM0_RxDetector2			0xc34  /* SBD & Fame Sync. */
++#define		rOFDM0_RxDetector3			0xc38  /* Frame Sync. */
++#define		rOFDM0_RxDetector4			0xc3c  /* PD, SBD, Frame Sync & Short-GI */
++
++#define		rOFDM0_RxDSP				0xc40  /* Rx Sync Path */
++#define		rOFDM0_CFOandDAGC		0xc44  /* CFO & DAGC */
++#define		rOFDM0_CCADropThreshold	0xc48 /* CCA Drop threshold */
++#define		rOFDM0_ECCAThreshold		0xc4c /* energy CCA */
++
++#define		rOFDM0_XAAGCCore1			0xc50	/* DIG */
++#define		rOFDM0_XAAGCCore2			0xc54
++#define		rOFDM0_XBAGCCore1			0xc58
++#define		rOFDM0_XBAGCCore2			0xc5c
++#define		rOFDM0_XCAGCCore1			0xc60
++#define		rOFDM0_XCAGCCore2			0xc64
++#define		rOFDM0_XDAGCCore1			0xc68
++#define		rOFDM0_XDAGCCore2			0xc6c
++
++#define		rOFDM0_AGCParameter1			0xc70
++#define		rOFDM0_AGCParameter2			0xc74
++#define		rOFDM0_AGCRSSITable			0xc78
++#define		rOFDM0_HTSTFAGC				0xc7c
++
++#define		rOFDM0_XATxIQImbalance		0xc80	/* TX PWR TRACK and DIG */
++#define		rOFDM0_XATxAFE				0xc84
++#define		rOFDM0_XBTxIQImbalance		0xc88
++#define		rOFDM0_XBTxAFE				0xc8c
++#define		rOFDM0_XCTxIQImbalance		0xc90
++#define		rOFDM0_XCTxAFE			0xc94
++#define		rOFDM0_XDTxIQImbalance		0xc98
++#define		rOFDM0_XDTxAFE				0xc9c
++
++#define		rOFDM0_RxIQExtAnta			0xca0
++#define		rOFDM0_TxCoeff1				0xca4
++#define		rOFDM0_TxCoeff2				0xca8
++#define		rOFDM0_TxCoeff3				0xcac
++#define		rOFDM0_TxCoeff4				0xcb0
++#define		rOFDM0_TxCoeff5				0xcb4
++#define		rOFDM0_TxCoeff6				0xcb8
++#define		rOFDM0_RxHPParameter			0xce0
++#define		rOFDM0_TxPseudoNoiseWgt		0xce4
++#define		rOFDM0_FrameSync				0xcf0
++#define		rOFDM0_DFSReport				0xcf4
++
++/*
++ * 7. PageD(0xD00)
++ *   */
++#define		rOFDM1_LSTF					0xd00
++#define		rOFDM1_TRxPathEnable			0xd04
++
++#define		rOFDM1_CFO						0xd08	/* No setting now */
++#define		rOFDM1_CSI1					0xd10
++#define		rOFDM1_SBD						0xd14
++#define		rOFDM1_CSI2					0xd18
++#define		rOFDM1_CFOTracking			0xd2c
++#define		rOFDM1_TRxMesaure1			0xd34
++#define		rOFDM1_IntfDet					0xd3c
++#define		rOFDM1_PseudoNoiseStateAB		0xd50
++#define		rOFDM1_PseudoNoiseStateCD		0xd54
++#define		rOFDM1_RxPseudoNoiseWgt		0xd58
++
++#define		rOFDM_PHYCounter1				0xda0  /* cca, parity fail */
++#define		rOFDM_PHYCounter2				0xda4  /* rate illegal, crc8 fail */
++#define		rOFDM_PHYCounter3				0xda8  /* MCS not support */
++
++#define		rOFDM_ShortCFOAB				0xdac	/* No setting now */
++#define		rOFDM_ShortCFOCD				0xdb0
++#define		rOFDM_LongCFOAB				0xdb4
++#define		rOFDM_LongCFOCD				0xdb8
++#define		rOFDM_TailCFOAB				0xdbc
++#define		rOFDM_TailCFOCD				0xdc0
++#define		rOFDM_PWMeasure1		0xdc4
++#define		rOFDM_PWMeasure2		0xdc8
++#define		rOFDM_BWReport				0xdcc
++#define		rOFDM_AGCReport				0xdd0
++#define		rOFDM_RxSNR					0xdd4
++#define		rOFDM_RxEVMCSI				0xdd8
++#define		rOFDM_SIGReport				0xddc
++
++
++/*
++ * 8. PageE(0xE00)
++ *   */
++#define		rTxAGC_A_Rate18_06			0xe00
++#define		rTxAGC_A_Rate54_24			0xe04
++#define		rTxAGC_A_CCK1_Mcs32			0xe08
++#define		rTxAGC_A_Mcs03_Mcs00			0xe10
++#define		rTxAGC_A_Mcs07_Mcs04			0xe14
++#define		rTxAGC_A_Mcs11_Mcs08			0xe18
++#define		rTxAGC_A_Mcs15_Mcs12			0xe1c
++
++#define		rFPGA0_IQK					0xe28
++#define		rTx_IQK_Tone_A				0xe30
++#define		rRx_IQK_Tone_A				0xe34
++#define		rTx_IQK_PI_A					0xe38
++#define		rRx_IQK_PI_A					0xe3c
++
++#define		rTx_IQK						0xe40
++#define		rRx_IQK						0xe44
++#define		rIQK_AGC_Pts					0xe48
++#define		rIQK_AGC_Rsp					0xe4c
++#define		rTx_IQK_Tone_B				0xe50
++#define		rRx_IQK_Tone_B				0xe54
++#define		rTx_IQK_PI_B					0xe58
++#define		rRx_IQK_PI_B					0xe5c
++#define		rIQK_AGC_Cont				0xe60
++
++#define		rBlue_Tooth					0xe6c
++#define		rRx_Wait_CCA					0xe70
++#define		rTx_CCK_RFON					0xe74
++#define		rTx_CCK_BBON				0xe78
++#define		rTx_OFDM_RFON				0xe7c
++#define		rTx_OFDM_BBON				0xe80
++#define		rTx_To_Rx					0xe84
++#define		rTx_To_Tx					0xe88
++#define		rRx_CCK						0xe8c
++
++#define		rTx_Power_Before_IQK_A		0xe94
++#define		rTx_Power_After_IQK_A			0xe9c
++
++#define		rRx_Power_Before_IQK_A		0xea0
++#define		rRx_Power_Before_IQK_A_2		0xea4
++#define		rRx_Power_After_IQK_A			0xea8
++#define		rRx_Power_After_IQK_A_2		0xeac
++
++#define		rTx_Power_Before_IQK_B		0xeb4
++#define		rTx_Power_After_IQK_B			0xebc
++
++#define		rRx_Power_Before_IQK_B		0xec0
++#define		rRx_Power_Before_IQK_B_2		0xec4
++#define		rRx_Power_After_IQK_B			0xec8
++#define		rRx_Power_After_IQK_B_2		0xecc
++
++#define		rRx_OFDM					0xed0
++#define		rRx_Wait_RIFS				0xed4
++#define		rRx_TO_Rx					0xed8
++#define		rStandby						0xedc
++#define		rSleep						0xee0
++#define		rPMPD_ANAEN				0xeec
++
++/*
++ * 7. RF Register 0x00-0x2E (RF 8256)
++ * RF-0222D 0x00-3F
++ *
++ * Zebra1 */
++#define		rZebra1_HSSIEnable				0x0	/* Useless now */
++#define		rZebra1_TRxEnable1				0x1
++#define		rZebra1_TRxEnable2				0x2
++#define		rZebra1_AGC					0x4
++#define		rZebra1_ChargePump			0x5
++#define		rZebra1_Channel				0x7	/* RF channel switch */
++
++/* #endif */
++#define		rZebra1_TxGain					0x8	/* Useless now */
++#define		rZebra1_TxLPF					0x9
++#define		rZebra1_RxLPF					0xb
++#define		rZebra1_RxHPFCorner			0xc
++
++/* Zebra4 */
++#define		rGlobalCtrl						0	/* Useless now */
++#define		rRTL8256_TxLPF					19
++#define		rRTL8256_RxLPF					11
++
++/* RTL8258 */
++#define		rRTL8258_TxLPF					0x11	/* Useless now */
++#define		rRTL8258_RxLPF					0x13
++#define		rRTL8258_RSSILPF				0xa
++
++/*
++ * RL6052 Register definition
++ *   */
++#define		RF_AC						0x00	/*  */
++
++#define		RF_IQADJ_G1				0x01	/*  */
++#define		RF_IQADJ_G2				0x02	/*  */
++#define		RF_BS_PA_APSET_G1_G4		0x03
++#define		RF_BS_PA_APSET_G5_G8		0x04
++#define		RF_POW_TRSW				0x05	/*  */
++
++#define		RF_GAIN_RX					0x06	/*  */
++#define		RF_GAIN_TX					0x07	/*  */
++
++#define		RF_TXM_IDAC				0x08	/*  */
++#define		RF_IPA_G					0x09	/*  */
++#define		RF_TXBIAS_G				0x0A
++#define		RF_TXPA_AG					0x0B
++#define		RF_IPA_A					0x0C	/*  */
++#define		RF_TXBIAS_A				0x0D
++#define		RF_BS_PA_APSET_G9_G11	0x0E
++#define		RF_BS_IQGEN				0x0F	/*  */
++
++#define		RF_MODE1					0x10	/*  */
++#define		RF_MODE2					0x11	/*  */
++
++#define		RF_RX_AGC_HP				0x12	/*  */
++#define		RF_TX_AGC					0x13	/*  */
++#define		RF_BIAS						0x14	/*  */
++#define		RF_IPA						0x15	/*  */
++#define		RF_TXBIAS					0x16
++#define		RF_POW_ABILITY			0x17	/*  */
++#define		RF_MODE_AG				0x18	/*  */
++#define		rRfChannel					0x18	/* RF channel and BW switch */
++#define		RF_CHNLBW					0x18	/* RF channel and BW switch */
++#define		RF_TOP						0x19	/*  */
++
++#define		RF_RX_G1					0x1A	/*  */
++#define		RF_RX_G2					0x1B	/*  */
++
++#define		RF_RX_BB2					0x1C	/*  */
++#define		RF_RX_BB1					0x1D	/*  */
++
++#define		RF_RCK1					0x1E	/*  */
++#define		RF_RCK2					0x1F	/*  */
++
++#define		RF_TX_G1					0x20	/*  */
++#define		RF_TX_G2					0x21	/*  */
++#define		RF_TX_G3					0x22	/*  */
++
++#define		RF_TX_BB1					0x23	/*  */
++
++#define		RF_T_METER					0x24	/*  */
++
++#define		RF_SYN_G1					0x25	/* RF TX Power control */
++#define		RF_SYN_G2					0x26	/* RF TX Power control */
++#define		RF_SYN_G3					0x27	/* RF TX Power control */
++#define		RF_SYN_G4					0x28	/* RF TX Power control */
++#define		RF_SYN_G5					0x29	/* RF TX Power control */
++#define		RF_SYN_G6					0x2A	/* RF TX Power control */
++#define		RF_SYN_G7					0x2B	/* RF TX Power control */
++#define		RF_SYN_G8					0x2C	/* RF TX Power control */
++
++#define		RF_RCK_OS					0x30	/* RF TX PA control */
++
++#define		RF_TXPA_G1					0x31	/* RF TX PA control */
++#define		RF_TXPA_G2					0x32	/* RF TX PA control */
++#define		RF_TXPA_G3					0x33	/* RF TX PA control */
++#define	RF_TX_BIAS_A				0x35
++#define	RF_TX_BIAS_D				0x36
++#define	RF_LOBF_9					0x38
++#define 	RF_RXRF_A3					0x3C	/*	 */
++#define	RF_TRSW					0x3F
++
++#define	RF_TXRF_A2					0x41
++#define	RF_TXPA_G4					0x46
++#define	RF_TXPA_A4					0x4B
++#define	RF_0x52					0x52
++#define	RF_WE_LUT					0xEF
++#define	RF_S0S1					0xB0
++
++/*
++ * Bit Mask
++ *
++ * 1. Page1(0x100) */
++#define		bBBResetB						0x100	/* Useless now? */
++#define		bGlobalResetB					0x200
++#define		bOFDMTxStart					0x4
++#define		bCCKTxStart						0x8
++#define		bCRC32Debug					0x100
++#define		bPMACLoopback					0x10
++#define		bTxLSIG							0xffffff
++#define		bOFDMTxRate					0xf
++#define		bOFDMTxReserved				0x10
++#define		bOFDMTxLength					0x1ffe0
++#define		bOFDMTxParity					0x20000
++#define		bTxHTSIG1						0xffffff
++#define		bTxHTMCSRate					0x7f
++#define		bTxHTBW						0x80
++#define		bTxHTLength					0xffff00
++#define		bTxHTSIG2						0xffffff
++#define		bTxHTSmoothing					0x1
++#define		bTxHTSounding					0x2
++#define		bTxHTReserved					0x4
++#define		bTxHTAggreation				0x8
++#define		bTxHTSTBC						0x30
++#define		bTxHTAdvanceCoding			0x40
++#define		bTxHTShortGI					0x80
++#define		bTxHTNumberHT_LTF			0x300
++#define		bTxHTCRC8						0x3fc00
++#define		bCounterReset					0x10000
++#define		bNumOfOFDMTx					0xffff
++#define		bNumOfCCKTx					0xffff0000
++#define		bTxIdleInterval					0xffff
++#define		bOFDMService					0xffff0000
++#define		bTxMACHeader					0xffffffff
++#define		bTxDataInit						0xff
++#define		bTxHTMode						0x100
++#define		bTxDataType					0x30000
++#define		bTxRandomSeed					0xffffffff
++#define		bCCKTxPreamble					0x1
++#define		bCCKTxSFD						0xffff0000
++#define		bCCKTxSIG						0xff
++#define		bCCKTxService					0xff00
++#define		bCCKLengthExt					0x8000
++#define		bCCKTxLength					0xffff0000
++#define		bCCKTxCRC16					0xffff
++#define		bCCKTxStatus					0x1
++#define		bOFDMTxStatus					0x2
++
++#define		IS_BB_REG_OFFSET_92S(_Offset)		((_Offset >= 0x800) && (_Offset <= 0xfff))
++
++/* 2. Page8(0x800) */
++#define		bRFMOD							0x1	/* Reg 0x800 rFPGA0_RFMOD */
++#define		bJapanMode						0x2
++#define		bCCKTxSC						0x30
++#define		bCCKEn							0x1000000
++#define		bOFDMEn						0x2000000
++
++#define		bOFDMRxADCPhase           		0x10000	/* Useless now */
++#define		bOFDMTxDACPhase		0x40000
++#define		bXATxAGC			0x3f
++
++#define		bAntennaSelect		0x0300
++
++#define		bXBTxAGC                  			0xf00	/* Reg 80c rFPGA0_TxGainStage */
++#define		bXCTxAGC			0xf000
++#define		bXDTxAGC			0xf0000
++
++#define		bPAStart                  			0xf0000000	/* Useless now */
++#define		bTRStart			0x00f00000
++#define		bRFStart			0x0000f000
++#define		bBBStart			0x000000f0
++#define		bBBCCKStart		0x0000000f
++#define		bPAEnd                    			0xf          /* Reg0x814 */
++#define		bTREnd			0x0f000000
++#define		bRFEnd			0x000f0000
++#define		bCCAMask                  			0x000000f0   /* T2R */
++#define		bR2RCCAMask		0x00000f00
++#define		bHSSI_R2TDelay		0xf8000000
++#define		bHSSI_T2RDelay		0xf80000
++#define		bContTxHSSI               		0x400     /* chane gain at continue Tx */
++#define		bIGFromCCK		0x200
++#define		bAGCAddress		0x3f
++#define		bRxHPTx			0x7000
++#define		bRxHPT2R			0x38000
++#define		bRxHPCCKIni		0xc0000
++#define		bAGCTxCode		0xc00000
++#define		bAGCRxCode		0x300000
++
++#define		b3WireDataLength          		0x800	/* Reg 0x820~84f rFPGA0_XA_HSSIParameter1 */
++#define		b3WireAddressLength		0x400
++
++#define		b3WireRFPowerDown         		0x1	/* Useless now
++ * #define bHWSISelect		0x8 */
++#define		b5GPAPEPolarity		0x40000000
++#define		b2GPAPEPolarity		0x80000000
++#define		bRFSW_TxDefaultAnt		0x3
++#define		bRFSW_TxOptionAnt		0x30
++#define		bRFSW_RxDefaultAnt		0x300
++#define		bRFSW_RxOptionAnt		0x3000
++#define		bRFSI_3WireData		0x1
++#define		bRFSI_3WireClock		0x2
++#define		bRFSI_3WireLoad		0x4
++#define		bRFSI_3WireRW		0x8
++#define		bRFSI_3Wire			0xf
++
++#define		bRFSI_RFENV               		0x10	/* Reg 0x870 rFPGA0_XAB_RFInterfaceSW */
++
++#define		bRFSI_TRSW                		0x20	/* Useless now */
++#define		bRFSI_TRSWB		0x40
++#define		bRFSI_ANTSW		0x100
++#define		bRFSI_ANTSWB		0x200
++#define		bRFSI_PAPE			0x400
++#define		bRFSI_PAPE5G		0x800
++#define		bBandSelect			0x1
++#define		bHTSIG2_GI			0x80
++#define		bHTSIG2_Smoothing		0x01
++#define		bHTSIG2_Sounding		0x02
++#define		bHTSIG2_Aggreaton		0x08
++#define		bHTSIG2_STBC		0x30
++#define		bHTSIG2_AdvCoding		0x40
++#define		bHTSIG2_NumOfHTLTF	0x300
++#define		bHTSIG2_CRC8		0x3fc
++#define		bHTSIG1_MCS		0x7f
++#define		bHTSIG1_BandWidth		0x80
++#define		bHTSIG1_HTLength		0xffff
++#define		bLSIG_Rate			0xf
++#define		bLSIG_Reserved		0x10
++#define		bLSIG_Length		0x1fffe
++#define		bLSIG_Parity			0x20
++#define		bCCKRxPhase		0x4
++
++#define		bLSSIReadAddress          		0x7f800000   /* T65 RF */
++
++#define		bLSSIReadEdge             		0x80000000   /* LSSI "Read" edge signal */
++
++#define		bLSSIReadBackData         		0xfffff		/* T65 RF */
++
++#define		bLSSIReadOKFlag           		0x1000	/* Useless now */
++#define		bCCKSampleRate            		0x8       /* 0: 44MHz, 1:88MHz      		 */
++#define		bRegulator0Standby		0x1
++#define		bRegulatorPLLStandby		0x2
++#define		bRegulator1Standby		0x4
++#define		bPLLPowerUp		0x8
++#define		bDPLLPowerUp		0x10
++#define		bDA10PowerUp		0x20
++#define		bAD7PowerUp		0x200
++#define		bDA6PowerUp		0x2000
++#define		bXtalPowerUp		0x4000
++#define		b40MDClkPowerUP		0x8000
++#define		bDA6DebugMode		0x20000
++#define		bDA6Swing			0x380000
++
++#define		bADClkPhase               		0x4000000	/* Reg 0x880 rFPGA0_AnalogParameter1 20/40 CCK support switch 40/80 BB MHZ */
++
++#define		b80MClkDelay              		0x18000000	/* Useless */
++#define		bAFEWatchDogEnable		0x20000000
++
++#define		bXtalCap01                			0xc0000000	/* Reg 0x884 rFPGA0_AnalogParameter2 Crystal cap */
++#define		bXtalCap23			0x3
++#define		bXtalCap92x					0x0f000000
++#define		bXtalCap			0x0f000000
++
++#define		bIntDifClkEnable          		0x400	/* Useless */
++#define		bExtSigClkEnable		0x800
++#define		bBandgapMbiasPowerUp	0x10000
++#define		bAD11SHGain		0xc0000
++#define		bAD11InputRange		0x700000
++#define		bAD11OPCurrent		0x3800000
++#define		bIPathLoopback		0x4000000
++#define		bQPathLoopback		0x8000000
++#define		bAFELoopback		0x10000000
++#define		bDA10Swing		0x7e0
++#define		bDA10Reverse		0x800
++#define		bDAClkSource		0x1000
++#define		bAD7InputRange		0x6000
++#define		bAD7Gain			0x38000
++#define		bAD7OutputCMMode		0x40000
++#define		bAD7InputCMMode		0x380000
++#define		bAD7Current			0xc00000
++#define		bRegulatorAdjust		0x7000000
++#define		bAD11PowerUpAtTx		0x1
++#define		bDA10PSAtTx		0x10
++#define		bAD11PowerUpAtRx		0x100
++#define		bDA10PSAtRx		0x1000
++#define		bCCKRxAGCFormat		0x200
++#define		bPSDFFTSamplepPoint		0xc000
++#define		bPSDAverageNum		0x3000
++#define		bIQPathControl		0xc00
++#define		bPSDFreq			0x3ff
++#define		bPSDAntennaPath		0x30
++#define		bPSDIQSwitch		0x40
++#define		bPSDRxTrigger		0x400000
++#define		bPSDTxTrigger		0x80000000
++#define		bPSDSineToneScale		0x7f000000
++#define		bPSDReport			0xffff
++
++/* 3. Page9(0x900) */
++#define		bOFDMTxSC                 		0x30000000	/* Useless */
++#define		bCCKTxOn			0x1
++#define		bOFDMTxOn		0x2
++#define		bDebugPage                		0xfff  /* reset debug page and also HWord, LWord */
++#define		bDebugItem                		0xff   /* reset debug page and LWord */
++#define		bAntL			0x10
++#define		bAntNonHT				0x100
++#define		bAntHT1			0x1000
++#define		bAntHT2			0x10000
++#define		bAntHT1S1			0x100000
++#define		bAntNonHTS1		0x1000000
++
++/* 4. PageA(0xA00) */
++#define		bCCKBBMode				0x3	/* Useless */
++#define		bCCKTxPowerSaving		0x80
++#define		bCCKRxPowerSaving		0x40
++
++#define		bCCKSideBand			0x10	/* Reg 0xa00 rCCK0_System 20/40 switch */
++
++#define		bCCKScramble			0x8	/* Useless */
++#define		bCCKAntDiversity		0x8000
++#define		bCCKCarrierRecovery		0x4000
++#define		bCCKTxRate				0x3000
++#define		bCCKDCCancel			0x0800
++#define		bCCKISICancel			0x0400
++#define		bCCKMatchFilter			0x0200
++#define		bCCKEqualizer			0x0100
++#define		bCCKPreambleDetect		0x800000
++#define		bCCKFastFalseCCA		0x400000
++#define		bCCKChEstStart			0x300000
++#define		bCCKCCACount			0x080000
++#define		bCCKcs_lim				0x070000
++#define		bCCKBistMode			0x80000000
++#define		bCCKCCAMask			0x40000000
++#define		bCCKTxDACPhase		0x4
++#define		bCCKRxADCPhase		0x20000000   /* r_rx_clk */
++#define		bCCKr_cp_mode0		0x0100
++#define		bCCKTxDCOffset			0xf0
++#define		bCCKRxDCOffset			0xf
++#define		bCCKCCAMode			0xc000
++#define		bCCKFalseCS_lim			0x3f00
++#define		bCCKCS_ratio			0xc00000
++#define		bCCKCorgBit_sel			0x300000
++#define		bCCKPD_lim				0x0f0000
++#define		bCCKNewCCA			0x80000000
++#define		bCCKRxHPofIG			0x8000
++#define		bCCKRxIG				0x7f00
++#define		bCCKLNAPolarity			0x800000
++#define		bCCKRx1stGain			0x7f0000
++#define		bCCKRFExtend			0x20000000 /* CCK Rx Iinital gain polarity */
++#define		bCCKRxAGCSatLevel		0x1f000000
++#define		bCCKRxAGCSatCount		0xe0
++#define		bCCKRxRFSettle			0x1f       /* AGCsamp_dly */
++#define		bCCKFixedRxAGC			0x8000
++/* #define bCCKRxAGCFormat		0x4000 */   /* remove to HSSI register 0x824 */
++#define		bCCKAntennaPolarity		0x2000
++#define		bCCKTxFilterType		0x0c00
++#define		bCCKRxAGCReportType	0x0300
++#define		bCCKRxDAGCEn			0x80000000
++#define		bCCKRxDAGCPeriod		0x20000000
++#define		bCCKRxDAGCSatLevel		0x1f000000
++#define		bCCKTimingRecovery		0x800000
++#define		bCCKTxC0				0x3f0000
++#define		bCCKTxC1				0x3f000000
++#define		bCCKTxC2				0x3f
++#define		bCCKTxC3				0x3f00
++#define		bCCKTxC4				0x3f0000
++#define		bCCKTxC5				0x3f000000
++#define		bCCKTxC6				0x3f
++#define		bCCKTxC7				0x3f00
++#define		bCCKDebugPort			0xff0000
++#define		bCCKDACDebug			0x0f000000
++#define		bCCKFalseAlarmEnable	0x8000
++#define		bCCKFalseAlarmRead		0x4000
++#define		bCCKTRSSI				0x7f
++#define		bCCKRxAGCReport		0xfe
++#define		bCCKRxReport_AntSel	0x80000000
++#define		bCCKRxReport_MFOff		0x40000000
++#define		bCCKRxRxReport_SQLoss	0x20000000
++#define		bCCKRxReport_Pktloss	0x10000000
++#define		bCCKRxReport_Lockedbit	0x08000000
++#define		bCCKRxReport_RateError	0x04000000
++#define		bCCKRxReport_RxRate	0x03000000
++#define		bCCKRxFACounterLower	0xff
++#define		bCCKRxFACounterUpper	0xff000000
++#define		bCCKRxHPAGCStart		0xe000
++#define		bCCKRxHPAGCFinal		0x1c00
++#define		bCCKRxFalseAlarmEnable	0x8000
++#define		bCCKFACounterFreeze	0x4000
++#define		bCCKTxPathSel			0x10000000
++#define		bCCKDefaultRxPath		0xc000000
++#define		bCCKOptionRxPath		0x3000000
++
++/* 5. PageC(0xC00) */
++#define		bNumOfSTF				0x3	/* Useless */
++#define		bShift_L					0xc0
++#define		bGI_TH					0xc
++#define		bRxPathA				0x1
++#define		bRxPathB				0x2
++#define		bRxPathC				0x4
++#define		bRxPathD				0x8
++#define		bTxPathA				0x1
++#define		bTxPathB				0x2
++#define		bTxPathC				0x4
++#define		bTxPathD				0x8
++#define		bTRSSIFreq				0x200
++#define		bADCBackoff				0x3000
++#define		bDFIRBackoff			0xc000
++#define		bTRSSILatchPhase		0x10000
++#define		bRxIDCOffset			0xff
++#define		bRxQDCOffset			0xff00
++#define		bRxDFIRMode			0x1800000
++#define		bRxDCNFType			0xe000000
++#define		bRXIQImb_A				0x3ff
++#define		bRXIQImb_B				0xfc00
++#define		bRXIQImb_C				0x3f0000
++#define		bRXIQImb_D				0xffc00000
++#define		bDC_dc_Notch			0x60000
++#define		bRxNBINotch			0x1f000000
++#define		bPD_TH					0xf
++#define		bPD_TH_Opt2			0xc000
++#define		bPWED_TH				0x700
++#define		bIfMF_Win_L			0x800
++#define		bPD_Option				0x1000
++#define		bMF_Win_L				0xe000
++#define		bBW_Search_L			0x30000
++#define		bwin_enh_L				0xc0000
++#define		bBW_TH					0x700000
++#define		bED_TH2				0x3800000
++#define		bBW_option				0x4000000
++#define		bRatio_TH				0x18000000
++#define		bWindow_L				0xe0000000
++#define		bSBD_Option				0x1
++#define		bFrame_TH				0x1c
++#define		bFS_Option				0x60
++#define		bDC_Slope_check		0x80
++#define		bFGuard_Counter_DC_L	0xe00
++#define		bFrame_Weight_Short	0x7000
++#define		bSub_Tune				0xe00000
++#define		bFrame_DC_Length		0xe000000
++#define		bSBD_start_offset		0x30000000
++#define		bFrame_TH_2			0x7
++#define		bFrame_GI2_TH			0x38
++#define		bGI2_Sync_en			0x40
++#define		bSarch_Short_Early		0x300
++#define		bSarch_Short_Late		0xc00
++#define		bSarch_GI2_Late		0x70000
++#define		bCFOAntSum				0x1
++#define		bCFOAcc				0x2
++#define		bCFOStartOffset			0xc
++#define		bCFOLookBack			0x70
++#define		bCFOSumWeight			0x80
++#define		bDAGCEnable			0x10000
++#define		bTXIQImb_A				0x3ff
++#define		bTXIQImb_B				0xfc00
++#define		bTXIQImb_C				0x3f0000
++#define		bTXIQImb_D				0xffc00000
++#define		bTxIDCOffset			0xff
++#define		bTxQDCOffset			0xff00
++#define		bTxDFIRMode			0x10000
++#define		bTxPesudoNoiseOn		0x4000000
++#define		bTxPesudoNoise_A		0xff
++#define		bTxPesudoNoise_B		0xff00
++#define		bTxPesudoNoise_C		0xff0000
++#define		bTxPesudoNoise_D		0xff000000
++#define		bCCADropOption			0x20000
++#define		bCCADropThres			0xfff00000
++#define		bEDCCA_H				0xf
++#define		bEDCCA_L				0xf0
++#define		bLambda_ED			0x300
++#define		bRxInitialGain			0x7f
++#define		bRxAntDivEn				0x80
++#define		bRxAGCAddressForLNA	0x7f00
++#define		bRxHighPowerFlow		0x8000
++#define		bRxAGCFreezeThres		0xc0000
++#define		bRxFreezeStep_AGC1	0x300000
++#define		bRxFreezeStep_AGC2	0xc00000
++#define		bRxFreezeStep_AGC3	0x3000000
++#define		bRxFreezeStep_AGC0	0xc000000
++#define		bRxRssi_Cmp_En			0x10000000
++#define		bRxQuickAGCEn			0x20000000
++#define		bRxAGCFreezeThresMode	0x40000000
++#define		bRxOverFlowCheckType	0x80000000
++#define		bRxAGCShift				0x7f
++#define		bTRSW_Tri_Only			0x80
++#define		bPowerThres			0x300
++#define		bRxAGCEn				0x1
++#define		bRxAGCTogetherEn		0x2
++#define		bRxAGCMin				0x4
++#define		bRxHP_Ini				0x7
++#define		bRxHP_TRLNA			0x70
++#define		bRxHP_RSSI				0x700
++#define		bRxHP_BBP1				0x7000
++#define		bRxHP_BBP2				0x70000
++#define		bRxHP_BBP3				0x700000
++#define		bRSSI_H					0x7f0000     /* the threshold for high power */
++#define		bRSSI_Gen				0x7f000000   /* the threshold for ant diversity */
++#define		bRxSettle_TRSW			0x7
++#define		bRxSettle_LNA			0x38
++#define		bRxSettle_RSSI			0x1c0
++#define		bRxSettle_BBP			0xe00
++#define		bRxSettle_RxHP			0x7000
++#define		bRxSettle_AntSW_RSSI	0x38000
++#define		bRxSettle_AntSW		0xc0000
++#define		bRxProcessTime_DAGC	0x300000
++#define		bRxSettle_HSSI			0x400000
++#define		bRxProcessTime_BBPPW	0x800000
++#define		bRxAntennaPowerShift	0x3000000
++#define		bRSSITableSelect		0xc000000
++#define		bRxHP_Final				0x7000000
++#define		bRxHTSettle_BBP			0x7
++#define		bRxHTSettle_HSSI		0x8
++#define		bRxHTSettle_RxHP		0x70
++#define		bRxHTSettle_BBPPW		0x80
++#define		bRxHTSettle_Idle		0x300
++#define		bRxHTSettle_Reserved	0x1c00
++#define		bRxHTRxHPEn			0x8000
++#define		bRxHTAGCFreezeThres	0x30000
++#define		bRxHTAGCTogetherEn	0x40000
++#define		bRxHTAGCMin			0x80000
++#define		bRxHTAGCEn				0x100000
++#define		bRxHTDAGCEn			0x200000
++#define		bRxHTRxHP_BBP			0x1c00000
++#define		bRxHTRxHP_Final		0xe0000000
++#define		bRxPWRatioTH			0x3
++#define		bRxPWRatioEn			0x4
++#define		bRxMFHold				0x3800
++#define		bRxPD_Delay_TH1		0x38
++#define		bRxPD_Delay_TH2		0x1c0
++#define		bRxPD_DC_COUNT_MAX	0x600
++/* #define bRxMF_Hold               0x3800 */
++#define		bRxPD_Delay_TH			0x8000
++#define		bRxProcess_Delay		0xf0000
++#define		bRxSearchrange_GI2_Early	0x700000
++#define		bRxFrame_Guard_Counter_L	0x3800000
++#define		bRxSGI_Guard_L			0xc000000
++#define		bRxSGI_Search_L		0x30000000
++#define		bRxSGI_TH				0xc0000000
++#define		bDFSCnt0				0xff
++#define		bDFSCnt1				0xff00
++#define		bDFSFlag				0xf0000
++#define		bMFWeightSum			0x300000
++#define		bMinIdxTH				0x7f000000
++#define		bDAFormat				0x40000
++#define		bTxChEmuEnable		0x01000000
++#define		bTRSWIsolation_A		0x7f
++#define		bTRSWIsolation_B		0x7f00
++#define		bTRSWIsolation_C		0x7f0000
++#define		bTRSWIsolation_D		0x7f000000
++#define		bExtLNAGain				0x7c00
++
++/* 6. PageE(0xE00) */
++#define		bSTBCEn				0x4	/* Useless */
++#define		bAntennaMapping		0x10
++#define		bNss					0x20
++#define		bCFOAntSumD			0x200
++#define		bPHYCounterReset		0x8000000
++#define		bCFOReportGet			0x4000000
++#define		bOFDMContinueTx		0x10000000
++#define		bOFDMSingleCarrier		0x20000000
++#define		bOFDMSingleTone		0x40000000
++/* #define bRxPath1                 0x01 */
++/* #define bRxPath2                 0x02 */
++/* #define bRxPath3                 0x04 */
++/* #define bRxPath4                 0x08 */
++/* #define bTxPath1                 0x10 */
++/* #define bTxPath2                 0x20 */
++#define		bHTDetect			0x100
++#define		bCFOEn				0x10000
++#define		bCFOValue			0xfff00000
++#define		bSigTone_Re		0x3f
++#define		bSigTone_Im		0x7f00
++#define		bCounter_CCA		0xffff
++#define		bCounter_ParityFail	0xffff0000
++#define		bCounter_RateIllegal		0xffff
++#define		bCounter_CRC8Fail	0xffff0000
++#define		bCounter_MCSNoSupport	0xffff
++#define		bCounter_FastSync	0xffff
++#define		bShortCFO			0xfff
++#define		bShortCFOTLength	12   /* total */
++#define		bShortCFOFLength	11   /* fraction */
++#define		bLongCFO			0x7ff
++#define		bLongCFOTLength	11
++#define		bLongCFOFLength	11
++#define		bTailCFO			0x1fff
++#define		bTailCFOTLength		13
++#define		bTailCFOFLength		12
++#define		bmax_en_pwdB		0xffff
++#define		bCC_power_dB		0xffff0000
++#define		bnoise_pwdB		0xffff
++#define		bPowerMeasTLength	10
++#define		bPowerMeasFLength	3
++#define		bRx_HT_BW			0x1
++#define		bRxSC				0x6
++#define		bRx_HT				0x8
++#define		bNB_intf_det_on		0x1
++#define		bIntf_win_len_cfg	0x30
++#define		bNB_Intf_TH_cfg		0x1c0
++#define		bRFGain				0x3f
++#define		bTableSel			0x40
++#define		bTRSW				0x80
++#define		bRxSNR_A			0xff
++#define		bRxSNR_B			0xff00
++#define		bRxSNR_C			0xff0000
++#define		bRxSNR_D			0xff000000
++#define		bSNREVMTLength		8
++#define		bSNREVMFLength		1
++#define		bCSI1st				0xff
++#define		bCSI2nd				0xff00
++#define		bRxEVM1st			0xff0000
++#define		bRxEVM2nd			0xff000000
++#define		bSIGEVM			0xff
++#define		bPWDB				0xff00
++#define		bSGIEN				0x10000
++
++#define		bSFactorQAM1		0xf	/* Useless */
++#define		bSFactorQAM2		0xf0
++#define		bSFactorQAM3		0xf00
++#define		bSFactorQAM4		0xf000
++#define		bSFactorQAM5		0xf0000
++#define		bSFactorQAM6		0xf0000
++#define		bSFactorQAM7		0xf00000
++#define		bSFactorQAM8		0xf000000
++#define		bSFactorQAM9		0xf0000000
++#define		bCSIScheme			0x100000
++
++#define		bNoiseLvlTopSet		0x3	/* Useless */
++#define		bChSmooth			0x4
++#define		bChSmoothCfg1		0x38
++#define		bChSmoothCfg2		0x1c0
++#define		bChSmoothCfg3		0xe00
++#define		bChSmoothCfg4		0x7000
++#define		bMRCMode			0x800000
++#define		bTHEVMCfg			0x7000000
++
++#define		bLoopFitType		0x1	/* Useless */
++#define		bUpdCFO			0x40
++#define		bUpdCFOOffData		0x80
++#define		bAdvUpdCFO			0x100
++#define		bAdvTimeCtrl		0x800
++#define		bUpdClko			0x1000
++#define		bFC					0x6000
++#define		bTrackingMode		0x8000
++#define		bPhCmpEnable		0x10000
++#define		bUpdClkoLTF		0x20000
++#define		bComChCFO			0x40000
++#define		bCSIEstiMode		0x80000
++#define		bAdvUpdEqz			0x100000
++#define		bUChCfg				0x7000000
++#define		bUpdEqz			0x8000000
++
++/* Rx Pseduo noise */
++#define		bRxPesudoNoiseOn		0x20000000	/* Useless */
++#define		bRxPesudoNoise_A		0xff
++#define		bRxPesudoNoise_B		0xff00
++#define		bRxPesudoNoise_C		0xff0000
++#define		bRxPesudoNoise_D		0xff000000
++#define		bPesudoNoiseState_A	0xffff
++#define		bPesudoNoiseState_B	0xffff0000
++#define		bPesudoNoiseState_C	0xffff
++#define		bPesudoNoiseState_D	0xffff0000
++
++/* 7. RF Register
++ * Zebra1 */
++#define		bZebra1_HSSIEnable		0x8		/* Useless */
++#define		bZebra1_TRxControl		0xc00
++#define		bZebra1_TRxGainSetting	0x07f
++#define		bZebra1_RxCorner		0xc00
++#define		bZebra1_TxChargePump	0x38
++#define		bZebra1_RxChargePump	0x7
++#define		bZebra1_ChannelNum	0xf80
++#define		bZebra1_TxLPFBW		0x400
++#define		bZebra1_RxLPFBW		0x600
++
++/* Zebra4 */
++#define		bRTL8256RegModeCtrl1	0x100	/* Useless */
++#define		bRTL8256RegModeCtrl0	0x40
++#define		bRTL8256_TxLPFBW		0x18
++#define		bRTL8256_RxLPFBW		0x600
++
++/* RTL8258 */
++#define		bRTL8258_TxLPFBW		0xc	/* Useless */
++#define		bRTL8258_RxLPFBW		0xc00
++#define		bRTL8258_RSSILPFBW	0xc0
++
++
++/*
++ * Other Definition
++ *   */
++
++/* byte endable for sb_write */
++#define		bByte0				0x1	/* Useless */
++#define		bByte1				0x2
++#define		bByte2				0x4
++#define		bByte3				0x8
++#define		bWord0				0x3
++#define		bWord1				0xc
++#define		bDWord				0xf
++
++/* for PutRegsetting & GetRegSetting BitMask */
++#define		bMaskByte0			0xff	/* Reg 0xc50 rOFDM0_XAAGCCore~0xC6f */
++#define		bMaskByte1			0xff00
++#define		bMaskByte2			0xff0000
++#define		bMaskByte3			0xff000000
++#define		bMaskHWord		0xffff0000
++#define		bMaskLWord			0x0000ffff
++#define		bMaskDWord		0xffffffff
++#define		bMaskH3Bytes		0xffffff00
++#define		bMask12Bits			0xfff
++#define		bMaskH4Bits			0xf0000000
++#define		bMaskOFDM_D		0xffc00000
++#define		bMaskCCK			0x3f3f3f3f
++
++
++#define		bEnable			0x1	/* Useless */
++#define		bDisable		0x0
++
++#define		LeftAntenna		0x0	/* Useless */
++#define		RightAntenna	0x1
++
++#define		tCheckTxStatus		500   /* 500ms */ /* Useless */
++#define		tUpdateRxCounter	100   /* 100ms */
++
++#define		rateCCK		0	/* Useless */
++#define		rateOFDM	1
++#define		rateHT		2
++
++/* define Register-End */
++#define		bPMAC_End			0x1ff	/* Useless */
++#define		bFPGAPHY0_End		0x8ff
++#define		bFPGAPHY1_End		0x9ff
++#define		bCCKPHY0_End		0xaff
++#define		bOFDMPHY0_End		0xcff
++#define		bOFDMPHY1_End		0xdff
++
++/* define max debug item in each debug page
++ * #define bMaxItem_FPGA_PHY0        0x9
++ * #define bMaxItem_FPGA_PHY1        0x3
++ * #define bMaxItem_PHY_11B          0x16
++ * #define bMaxItem_OFDM_PHY0        0x29
++ * #define bMaxItem_OFDM_PHY1        0x0 */
++
++#define		bPMACControl		0x0		/* Useless */
++#define		bWMACControl		0x1
++#define		bWNICControl		0x2
++
++#define		PathA			0x0	/* Useless */
++#define		PathB			0x1
++#define		PathC			0x2
++#define		PathD			0x3
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8723BPwrSeq.h b/drivers/net/wireless/rtl8723du/include/Hal8723BPwrSeq.h
+new file mode 100644
+index 0000000..6b89562
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8723BPwrSeq.h
+@@ -0,0 +1,232 @@
++#ifndef REALTEK_POWER_SEQUENCE_8723B
++#define REALTEK_POWER_SEQUENCE_8723B
++
++#include "HalPwrSeqCmd.h"
++
++/*
++	Check document WM-20130815-JackieLau-RTL8723B_Power_Architecture v08.vsd
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transision from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++*/
++#define	RTL8723B_TRANS_CARDEMU_TO_ACT_STEPS	26
++#define	RTL8723B_TRANS_ACT_TO_CARDEMU_STEPS	15
++#define	RTL8723B_TRANS_CARDEMU_TO_SUS_STEPS	15
++#define	RTL8723B_TRANS_SUS_TO_CARDEMU_STEPS	15
++#define	RTL8723B_TRANS_CARDEMU_TO_PDN_STEPS	15
++#define	RTL8723B_TRANS_PDN_TO_CARDEMU_STEPS	15
++#define	RTL8723B_TRANS_ACT_TO_LPS_STEPS		15
++#define	RTL8723B_TRANS_LPS_TO_ACT_STEPS		15
++#define	RTL8723B_TRANS_ACT_TO_SWLPS_STEPS		22
++#define	RTL8723B_TRANS_SWLPS_TO_ACT_STEPS		15
++#define	RTL8723B_TRANS_END_STEPS		1
++
++
++#define RTL8723B_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /*0x20[0] = 1b'1 enable LDOA12 MACRO block for all interface*/   \
++	{0x0067, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x67[0] = 0 to disable BT_GPS_SEL pins*/	\
++	{0x0001, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 1, PWRSEQ_DELAY_MS},/*Delay 1ms*/   \
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, 0}, /*0x00[5] = 1b'0 release analog Ips to digital ,1:isolation*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT4 | BIT3 | BIT2), 0},/* disable SW LPS 0x04[10]=0 and WLSUS_EN 0x04[11]=0*/	\
++	{0x0075, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0 , BIT0},/* Disable USB suspend */	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1    power ready*/	\
++	{0x0075, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0 , 0},/* Enable USB suspend */	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* release WLON reset  0x04[16]=1*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* disable HWPDN 0x04[15]=0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT4 | BIT3), 0},/* disable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* polling until return 0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0},/**/	\
++	{0x0010, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, BIT6},/* Enable WL control XTAL setting*/	\
++	{0x0049, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/*Enable falling edge triggering interrupt*/\
++	{0x0063, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/*Enable GPIO9 interrupt mode*/\
++	{0x0062, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Enable GPIO9 input mode*/\
++	{0x0058, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*Enable HSISR GPIO[C:0] interrupt*/\
++	{0x005A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/*Enable HSISR GPIO9 interrupt*/\
++	{0x0068, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, BIT3},/*For GPIO9 internal pull high setting by test chip*/\
++	{0x0069, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, BIT6},/*For GPIO9 internal pull high setting*/\
++
++
++#define RTL8723B_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*0x1F[7:0] = 0 turn off RF*/	\
++	{0x0049, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Enable rising edge triggering interrupt*/ \
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* release WLON reset  0x04[16]=1*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/	\
++	{0x0010, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, 0},/* Enable BT control XTAL setting*/\
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5}, /*0x00[5] = 1b'1 analog Ips to digital ,1:isolation*/   \
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /*0x20[0] = 1b'0 disable LDOA12 MACRO block*/\
++
++
++#define RTL8723B_TRANS_CARDEMU_TO_SUS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4 | BIT3, (BIT4 | BIT3)}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SDIO SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3 | BIT4}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8723B_TRANS_SUS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT7, 0}, /*clear suspend enable and power down enable*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
++
++#define RTL8723B_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07 = 0x20 , SOP option to disable BG/MB*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2}, /*0x04[10] = 1, enable SW LPS*/	\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 1}, /*0x48[16] = 1 to enable GPIO9 as EXT WAKEUP*/   \
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8723B_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT7, 0}, /*clear suspend enable and power down enable*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /*0x48[16] = 0 to disable GPIO9 as EXT WAKEUP*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*PCIe DMA start*/
++
++
++#define RTL8723B_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK | PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/* 0x04[16] = 0*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
++
++#define RTL8723B_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
++
++#define RTL8723B_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*PCIe DMA stop*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*Tx Pause*/	\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Whole BB is reset*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x03},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/	\
++	{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/*When driver enter Sus/ Disable, enable LOP for BT*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/	\
++
++
++#define RTL8723B_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM*/\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/\
++	{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*.	0x08[4] = 0		 switch TSF to 40M*/\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, 0}, /*Polling 0x109[7]=0  TSF in 40M*/\
++	{0x0029, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6 | BIT7, 0}, /*.	0x29[7:6] = 2b'00	 enable BB clock*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++
++#define RTL8723B_TRANS_ACT_TO_SWLPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0194, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*enable 32 K source*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 1},/*CCK and OFDM are enable*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 1},/*CCK and OFDM are enable*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x3F},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*disable security engine*/	\
++	{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x40},/*When driver enter Sus/ Disable, enable LOP for BT*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*reset dual TSF*/	\
++	{0x0003, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0},/*Reset CPU*/	\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*Reset MCUFWDL register*/	\
++	{0x001D, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*Reset CPU IO Wrapper*/	\
++	{0x001D, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 1},/*Reset CPU IO Wrapper*/	\
++	{0x0287, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*polling RXFF packet number = 0 */	\
++	{0x0286, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/*polling RXDMA idle */	\
++	{0x013D, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*Clear FW RPWM interrupt */\
++	{0x0139, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*Set FW RPWM interrupt source*/\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4},/*switch TSF to 32K*/\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/*polling TSF stable*/\
++	{0x0090, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*Set FW LPS*/	\
++	{0x0090, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0},/*polling FW LPS ready */
++
++
++#define RTL8723B_TRANS_SWLPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0},/*switch TSF to 32K*/\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/*polling TSF stable*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1, enable security engine*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x06B7, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x09}, /*.	reset MAC rx state machine*/\
++	{0x06B4, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x86}, /*.	reset MAC rx state machine*/\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/* set CPU RAM code ready*/	\
++	{0x001D, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*Reset CPU IO Wrapper*/	\
++	{0x0003, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0},/* Enable CPU*/	\
++	{0x001D, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*enable CPU IO Wrapper*/	\
++	{0x0003, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2},/* Enable CPU*/	\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, BIT7},/*polling FW init ready */	\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT6, BIT6},/*polling FW init ready */	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++#define RTL8723B_TRANS_END															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++	extern WLAN_PWR_CFG rtl8723B_power_on_flow[RTL8723B_TRANS_CARDEMU_TO_ACT_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_radio_off_flow[RTL8723B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_card_disable_flow[RTL8723B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723B_TRANS_CARDEMU_TO_PDN_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_card_enable_flow[RTL8723B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723B_TRANS_CARDEMU_TO_PDN_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_suspend_flow[RTL8723B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723B_TRANS_CARDEMU_TO_SUS_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_resume_flow[RTL8723B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723B_TRANS_CARDEMU_TO_SUS_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_hwpdn_flow[RTL8723B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723B_TRANS_CARDEMU_TO_PDN_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_enter_lps_flow[RTL8723B_TRANS_ACT_TO_LPS_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_leave_lps_flow[RTL8723B_TRANS_LPS_TO_ACT_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_enter_swlps_flow[RTL8723B_TRANS_ACT_TO_SWLPS_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_leave_swlps_flow[RTL8723B_TRANS_SWLPS_TO_ACT_STEPS + RTL8723B_TRANS_END_STEPS];
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8723DPhyCfg.h b/drivers/net/wireless/rtl8723du/include/Hal8723DPhyCfg.h
+new file mode 100644
+index 0000000..09afeb1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8723DPhyCfg.h
+@@ -0,0 +1,136 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8723DPHYCFG_H__
++#define __INC_HAL8723DPHYCFG_H__
++
++/*--------------------------Define Parameters-------------------------------*/
++#define LOOP_LIMIT				5
++#define MAX_STALL_TIME			50		/* us */
++#define AntennaDiversityValue	0x80	/* (Adapter->bSoftwareAntennaDiversity ? 0x00 : 0x80) */
++#define MAX_TXPWR_IDX_NMODE_92S	63
++#define Reset_Cnt_Limit			3
++
++#ifdef CONFIG_PCI_HCI
++	#define MAX_AGGR_NUM	0x0B
++#else
++	#define MAX_AGGR_NUM	0x07
++#endif /* CONFIG_PCI_HCI */
++
++
++/*--------------------------Define Parameters End-------------------------------*/
++
++
++/*------------------------------Define structure----------------------------*/
++
++/*------------------------------Define structure End----------------------------*/
++
++/*--------------------------Exported Function prototype---------------------*/
++u32
++PHY_QueryBBReg_8723D(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask
++);
++
++VOID
++PHY_SetBBReg_8723D(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask,
++	IN	u32		Data
++);
++
++u32
++PHY_QueryRFReg_8723D(
++	IN	PADAPTER			Adapter,
++	IN	u8				eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask
++);
++
++VOID
++PHY_SetRFReg_8723D(
++	IN	PADAPTER			Adapter,
++	IN	u8				eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask,
++	IN	u32				Data
++);
++
++/* MAC/BB/RF HAL config */
++int PHY_BBConfig8723D(PADAPTER	Adapter);
++
++int PHY_RFConfig8723D(PADAPTER	Adapter);
++
++s32 PHY_MACConfig8723D(PADAPTER padapter);
++
++int
++PHY_ConfigRFWithParaFile_8723D(
++	IN	PADAPTER			Adapter,
++	IN	u8				*pFileName,
++	RF_PATH				eRFPath
++);
++
++VOID
++PHY_SetTxPowerIndex_8723D(
++	IN	PADAPTER			Adapter,
++	IN	u32					PowerIndex,
++	IN	u8					RFPath,
++	IN	u8					Rate
++);
++
++u8
++PHY_GetTxPowerIndex_8723D(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	u8					Rate,
++	IN	u8					BandWidth,
++	IN	u8					Channel,
++	struct txpwr_idx_comp *tic
++);
++
++VOID
++PHY_GetTxPowerLevel8723D(
++	IN	PADAPTER		Adapter,
++	OUT s32				*powerlevel
++);
++
++VOID
++PHY_SetTxPowerLevel8723D(
++	IN	PADAPTER		Adapter,
++	IN	u8			channel
++);
++
++VOID
++PHY_SetSwChnlBWMode8723D(
++	IN	PADAPTER			Adapter,
++	IN	u8					channel,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					Offset40,
++	IN	u8					Offset80
++);
++
++VOID PHY_SetRFPathSwitch_8723D(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bMain
++);
++/*--------------------------Exported Function prototype End---------------------*/
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8723DPhyReg.h b/drivers/net/wireless/rtl8723du/include/Hal8723DPhyReg.h
+new file mode 100644
+index 0000000..9fb0cc1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8723DPhyReg.h
+@@ -0,0 +1,1139 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8723DPHYREG_H__
++#define __INC_HAL8723DPHYREG_H__
++
++#define		rSYM_WLBT_PAPE_SEL		0x64
++/*
++ * BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++ * 3. RF register 0x00-2E
++ * 4. Bit Mask for BB/RF register
++ * 5. Other definition for BB/RF R/W
++ *   */
++
++
++/*
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 1. Page1(0x100)
++ *   */
++#define		rPMAC_Reset					0x100
++#define		rPMAC_TxStart					0x104
++#define		rPMAC_TxLegacySIG				0x108
++#define		rPMAC_TxHTSIG1				0x10c
++#define		rPMAC_TxHTSIG2				0x110
++#define		rPMAC_PHYDebug				0x114
++#define		rPMAC_TxPacketNum				0x118
++#define		rPMAC_TxIdle					0x11c
++#define		rPMAC_TxMACHeader0			0x120
++#define		rPMAC_TxMACHeader1			0x124
++#define		rPMAC_TxMACHeader2			0x128
++#define		rPMAC_TxMACHeader3			0x12c
++#define		rPMAC_TxMACHeader4			0x130
++#define		rPMAC_TxMACHeader5			0x134
++#define		rPMAC_TxDataType				0x138
++#define		rPMAC_TxRandomSeed			0x13c
++#define		rPMAC_CCKPLCPPreamble			0x140
++#define		rPMAC_CCKPLCPHeader			0x144
++#define		rPMAC_CCKCRC16				0x148
++#define		rPMAC_OFDMRxCRC32OK			0x170
++#define		rPMAC_OFDMRxCRC32Er			0x174
++#define		rPMAC_OFDMRxParityEr			0x178
++#define		rPMAC_OFDMRxCRC8Er			0x17c
++#define		rPMAC_CCKCRxRC16Er			0x180
++#define		rPMAC_CCKCRxRC32Er			0x184
++#define		rPMAC_CCKCRxRC32OK			0x188
++#define		rPMAC_TxStatus					0x18c
++
++/*
++ * 2. Page2(0x200)
++ *
++ * The following two definition are only used for USB interface. */
++#define		RF_BB_CMD_ADDR				0x02c0	/* RF/BB read/write command address. */
++#define		RF_BB_CMD_DATA				0x02c4	/* RF/BB read/write command data. */
++
++/*
++ * 3. Page8(0x800)
++ *   */
++#define		rFPGA0_RFMOD				0x800	/* RF mode & CCK TxSC // RF BW Setting?? */
++
++#define		rFPGA0_TxInfo				0x804	/* Status report?? */
++#define		rFPGA0_PSDFunction			0x808
++
++#define		rFPGA0_TxGainStage			0x80c	/* Set TX PWR init gain? */
++
++#define		rFPGA0_RFTiming1			0x810	/* Useless now */
++#define		rFPGA0_RFTiming2			0x814
++
++#define		rFPGA0_XA_HSSIParameter1		0x820	/* RF 3 wire register */
++#define		rFPGA0_XA_HSSIParameter2		0x824
++#define		rFPGA0_XB_HSSIParameter1		0x828
++#define		rFPGA0_XB_HSSIParameter2		0x82c
++#define		rTxAGC_B_Rate18_06				0x830
++#define		rTxAGC_B_Rate54_24				0x834
++#define		rTxAGC_B_CCK1_55_Mcs32		0x838
++#define		rTxAGC_B_Mcs03_Mcs00			0x83c
++
++#define		rTxAGC_B_Mcs07_Mcs04			0x848
++#define		rTxAGC_B_Mcs11_Mcs08			0x84c
++
++#define		rFPGA0_XA_LSSIParameter		0x840
++#define		rFPGA0_XB_LSSIParameter		0x844
++
++#define		rFPGA0_RFWakeUpParameter		0x850	/* Useless now */
++#define		rFPGA0_RFSleepUpParameter		0x854
++
++#define		rFPGA0_XAB_SwitchControl		0x858	/* RF Channel switch */
++#define		rFPGA0_XCD_SwitchControl		0x85c
++
++#define		rFPGA0_XA_RFInterfaceOE		0x860	/* RF Channel switch */
++#define		rFPGA0_XB_RFInterfaceOE		0x864
++
++#define		rTxAGC_B_Mcs15_Mcs12			0x868
++#define		rTxAGC_B_CCK11_A_CCK2_11		0x86c
++
++#define		rFPGA0_XAB_RFInterfaceSW		0x870	/* RF Interface Software Control */
++#define		rFPGA0_XCD_RFInterfaceSW		0x874
++
++#define		rFPGA0_XAB_RFParameter		0x878	/* RF Parameter */
++#define		rFPGA0_XCD_RFParameter		0x87c
++
++#define		rFPGA0_AnalogParameter1		0x880	/* Crystal cap setting RF-R/W protection for parameter4?? */
++#define		rFPGA0_AnalogParameter2		0x884
++#define		rFPGA0_AnalogParameter3		0x888	/* Useless now */
++#define		rFPGA0_AnalogParameter4		0x88c
++
++#define		rFPGA0_XA_LSSIReadBack		0x8a0	/* Tranceiver LSSI Readback */
++#define		rFPGA0_XB_LSSIReadBack		0x8a4
++#define		rFPGA0_XC_LSSIReadBack		0x8a8
++#define		rFPGA0_XD_LSSIReadBack		0x8ac
++
++#define		rFPGA0_PSDReport				0x8b4	/* Useless now */
++#define		TransceiverA_HSPI_Readback	0x8b8	/* Transceiver A HSPI Readback */
++#define		TransceiverB_HSPI_Readback	0x8bc	/* Transceiver B HSPI Readback */
++#define		rFPGA0_XAB_RFInterfaceRB		0x8e0	/* Useless now // RF Interface Readback Value */
++#define		rFPGA0_XCD_RFInterfaceRB		0x8e4	/* Useless now */
++
++/*
++ * 4. Page9(0x900)
++ *   */
++#define	rFPGA1_RFMOD				0x900	/* RF mode & OFDM TxSC // RF BW Setting?? */
++#define	rFPGA1_TxBlock				0x904	/* Useless now */
++#define	rFPGA1_DebugSelect			0x908	/* Useless now */
++#define	rFPGA1_TxInfo				0x90c	/* Useless now // Status report?? */
++#define	rDPDT_control				0x92c
++#define	rfe_ctrl_anta_src				0x930
++#define	rS0S1_PathSwitch			0x948
++#define	rBBrx_DFIR					0x954
++
++/*
++ * 5. PageA(0xA00)
++ *
++ * Set Control channel to upper or lower. These settings are required only for 40MHz */
++#define		rCCK0_System				0xa00
++
++#define		rCCK0_AFESetting			0xa04	/* Disable init gain now // Select RX path by RSSI */
++#define		rCCK0_CCA					0xa08	/* Disable init gain now // Init gain */
++
++#define		rCCK0_RxAGC1				0xa0c	/* AGC default value, saturation level // Antenna Diversity, RX AGC, LNA Threshold, RX LNA Threshold useless now. Not the same as 90 series */
++#define		rCCK0_RxAGC2				0xa10	/* AGC & DAGC */
++
++#define		rCCK0_RxHP					0xa14
++
++#define		rCCK0_DSPParameter1		0xa18	/* Timing recovery & Channel estimation threshold */
++#define		rCCK0_DSPParameter2		0xa1c	/* SQ threshold */
++
++#define		rCCK0_TxFilter1				0xa20
++#define		rCCK0_TxFilter2				0xa24
++#define		rCCK0_DebugPort			0xa28	/* debug port and Tx filter3 */
++#define		rCCK0_FalseAlarmReport		0xa2c	/* 0xa2d	useless now 0xa30-a4f channel report */
++#define		rCCK0_TRSSIReport		0xa50
++#define		rCCK0_RxReport			0xa54  /* 0xa57 */
++#define		rCCK0_FACounterLower		0xa5c  /* 0xa5b */
++#define		rCCK0_FACounterUpper		0xa58  /* 0xa5c */
++
++/*
++ * PageB(0xB00)
++ *   */
++#define rPdp_AntA						0xb00
++#define rPdp_AntA_4						0xb04
++#define rPdp_AntA_8						0xb08
++#define rPdp_AntA_C						0xb0c
++#define rPdp_AntA_10					0xb10
++#define rPdp_AntA_14					0xb14
++#define rPdp_AntA_18					0xb18
++#define rPdp_AntA_1C					0xb1c
++#define rPdp_AntA_20					0xb20
++#define rPdp_AntA_24					0xb24
++
++#define rConfig_Pmpd_AntA				0xb28
++#define rConfig_ram64x16				0xb2c
++
++#define rBndA							0xb30
++#define rHssiPar						0xb34
++
++#define rConfig_AntA					0xb68
++#define rConfig_AntB					0xb6c
++
++#define rPdp_AntB						0xb70
++#define rPdp_AntB_4						0xb74
++#define rPdp_AntB_8						0xb78
++#define rPdp_AntB_C						0xb7c
++#define rPdp_AntB_10					0xb80
++#define rPdp_AntB_14					0xb84
++#define rPdp_AntB_18					0xb88
++#define rPdp_AntB_1C					0xb8c
++#define rPdp_AntB_20					0xb90
++#define rPdp_AntB_24					0xb94
++
++#define rConfig_Pmpd_AntB				0xb98
++
++#define rBndB							0xba0
++
++#define rAPK							0xbd8
++#define rPm_Rx0_AntA					0xbdc
++#define rPm_Rx1_AntA					0xbe0
++#define rPm_Rx2_AntA					0xbe4
++#define rPm_Rx3_AntA					0xbe8
++#define rPm_Rx0_AntB					0xbec
++#define rPm_Rx1_AntB					0xbf0
++#define rPm_Rx2_AntB					0xbf4
++#define rPm_Rx3_AntB					0xbf8
++/*
++ * 6. PageC(0xC00)
++ *   */
++#define		rOFDM0_LSTF				0xc00
++
++#define		rOFDM0_TRxPathEnable		0xc04
++#define		rOFDM0_TRMuxPar			0xc08
++#define		rOFDM0_TRSWIsolation		0xc0c
++
++#define		rOFDM0_XARxAFE			0xc10  /* RxIQ DC offset, Rx digital filter, DC notch filter */
++#define		rOFDM0_XARxIQImbalance		0xc14  /* RxIQ imbalance matrix */
++#define		rOFDM0_XBRxAFE		0xc18
++#define		rOFDM0_XBRxIQImbalance	0xc1c
++#define		rOFDM0_XCRxAFE		0xc20
++#define		rOFDM0_XCRxIQImbalance	0xc24
++#define		rOFDM0_XDRxAFE		0xc28
++#define		rOFDM0_XDRxIQImbalance	0xc2c
++
++#define		rOFDM0_RxDetector1			0xc30  /* PD, BW & SBD	// DM tune init gain */
++#define		rOFDM0_RxDetector2			0xc34  /* SBD & Fame Sync. */
++#define		rOFDM0_RxDetector3			0xc38  /* Frame Sync. */
++#define		rOFDM0_RxDetector4			0xc3c  /* PD, SBD, Frame Sync & Short-GI */
++
++#define		rOFDM0_RxDSP				0xc40  /* Rx Sync Path */
++#define		rOFDM0_CFOandDAGC		0xc44  /* CFO & DAGC */
++#define		rOFDM0_CCADropThreshold	0xc48 /* CCA Drop threshold */
++#define		rOFDM0_ECCAThreshold		0xc4c /* energy CCA */
++
++#define		rOFDM0_XAAGCCore1			0xc50	/* DIG */
++#define		rOFDM0_XAAGCCore2			0xc54
++#define		rOFDM0_XBAGCCore1			0xc58
++#define		rOFDM0_XBAGCCore2			0xc5c
++#define		rOFDM0_XCAGCCore1			0xc60
++#define		rOFDM0_XCAGCCore2			0xc64
++#define		rOFDM0_XDAGCCore1			0xc68
++#define		rOFDM0_XDAGCCore2			0xc6c
++
++#define		rOFDM0_AGCParameter1			0xc70
++#define		rOFDM0_AGCParameter2			0xc74
++#define		rOFDM0_AGCRSSITable			0xc78
++#define		rOFDM0_HTSTFAGC				0xc7c
++
++#define		rOFDM0_XATxIQImbalance		0xc80	/* TX PWR TRACK and DIG */
++#define		rOFDM0_XATxAFE				0xc84
++#define		rOFDM0_XBTxIQImbalance		0xc88
++#define		rOFDM0_XBTxAFE				0xc8c
++#define		rOFDM0_XCTxIQImbalance		0xc90
++#define		rOFDM0_XCTxAFE			0xc94
++#define		rOFDM0_XDTxIQImbalance		0xc98
++#define		rOFDM0_XDTxAFE				0xc9c
++
++#define		rOFDM0_RxIQExtAnta			0xca0
++#define		rOFDM0_TxCoeff1				0xca4
++#define		rOFDM0_TxCoeff2				0xca8
++#define		rOFDM0_TxCoeff3				0xcac
++#define		rOFDM0_TxCoeff4				0xcb0
++#define		rOFDM0_TxCoeff5				0xcb4
++#define		rOFDM0_TxCoeff6				0xcb8
++#define		rOFDM0_RxHPParameter			0xce0
++#define		rOFDM0_TxPseudoNoiseWgt		0xce4
++#define		rOFDM0_FrameSync				0xcf0
++#define		rOFDM0_DFSReport				0xcf4
++
++/*
++ * 7. PageD(0xD00)
++ *   */
++#define		rOFDM1_LSTF					0xd00
++#define		rOFDM1_TRxPathEnable			0xd04
++
++#define		rOFDM1_CFO						0xd08	/* No setting now */
++#define		rOFDM1_CSI1					0xd10
++#define		rOFDM1_SBD						0xd14
++#define		rOFDM1_CSI2					0xd18
++#define		rOFDM1_CFOTracking			0xd2c
++#define		rOFDM1_TRxMesaure1			0xd34
++#define		rOFDM1_IntfDet					0xd3c
++#define		rOFDM1_PseudoNoiseStateAB		0xd50
++#define		rOFDM1_PseudoNoiseStateCD		0xd54
++#define		rOFDM1_RxPseudoNoiseWgt		0xd58
++
++#define		rOFDM_PHYCounter1				0xda0  /* cca, parity fail */
++#define		rOFDM_PHYCounter2				0xda4  /* rate illegal, crc8 fail */
++#define		rOFDM_PHYCounter3				0xda8  /* MCS not support */
++
++#define		rOFDM_ShortCFOAB				0xdac	/* No setting now */
++#define		rOFDM_ShortCFOCD				0xdb0
++#define		rOFDM_LongCFOAB				0xdb4
++#define		rOFDM_LongCFOCD				0xdb8
++#define		rOFDM_TailCFOAB				0xdbc
++#define		rOFDM_TailCFOCD				0xdc0
++#define		rOFDM_PWMeasure1		0xdc4
++#define		rOFDM_PWMeasure2		0xdc8
++#define		rOFDM_BWReport				0xdcc
++#define		rOFDM_AGCReport				0xdd0
++#define		rOFDM_RxSNR					0xdd4
++#define		rOFDM_RxEVMCSI				0xdd8
++#define		rOFDM_SIGReport				0xddc
++
++
++/*
++ * 8. PageE(0xE00)
++ *   */
++#define		rTxAGC_A_Rate18_06			0xe00
++#define		rTxAGC_A_Rate54_24			0xe04
++#define		rTxAGC_A_CCK1_Mcs32			0xe08
++#define		rTxAGC_A_Mcs03_Mcs00			0xe10
++#define		rTxAGC_A_Mcs07_Mcs04			0xe14
++#define		rTxAGC_A_Mcs11_Mcs08			0xe18
++#define		rTxAGC_A_Mcs15_Mcs12			0xe1c
++
++#define		rFPGA0_IQK					0xe28
++#define		rTx_IQK_Tone_A				0xe30
++#define		rRx_IQK_Tone_A				0xe34
++#define		rTx_IQK_PI_A					0xe38
++#define		rRx_IQK_PI_A					0xe3c
++
++#define		rTx_IQK						0xe40
++#define		rRx_IQK						0xe44
++#define		rIQK_AGC_Pts					0xe48
++#define		rIQK_AGC_Rsp					0xe4c
++#define		rTx_IQK_Tone_B				0xe50
++#define		rRx_IQK_Tone_B				0xe54
++#define		rTx_IQK_PI_B					0xe58
++#define		rRx_IQK_PI_B					0xe5c
++#define		rIQK_AGC_Cont				0xe60
++
++#define		rBlue_Tooth					0xe6c
++#define		rRx_Wait_CCA					0xe70
++#define		rTx_CCK_RFON					0xe74
++#define		rTx_CCK_BBON				0xe78
++#define		rTx_OFDM_RFON				0xe7c
++#define		rTx_OFDM_BBON				0xe80
++#define		rTx_To_Rx					0xe84
++#define		rTx_To_Tx					0xe88
++#define		rRx_CCK						0xe8c
++
++#define		rTx_Power_Before_IQK_A		0xe94
++#define		rTx_Power_After_IQK_A			0xe9c
++
++#define		rRx_Power_Before_IQK_A		0xea0
++#define		rRx_Power_Before_IQK_A_2		0xea4
++#define		rRx_Power_After_IQK_A			0xea8
++#define		rRx_Power_After_IQK_A_2		0xeac
++
++#define		rTx_Power_Before_IQK_B		0xeb4
++#define		rTx_Power_After_IQK_B			0xebc
++
++#define		rRx_Power_Before_IQK_B		0xec0
++#define		rRx_Power_Before_IQK_B_2		0xec4
++#define		rRx_Power_After_IQK_B			0xec8
++#define		rRx_Power_After_IQK_B_2		0xecc
++
++#define		rRx_OFDM					0xed0
++#define		rRx_Wait_RIFS				0xed4
++#define		rRx_TO_Rx					0xed8
++#define		rStandby						0xedc
++#define		rSleep						0xee0
++#define		rPMPD_ANAEN				0xeec
++
++/*
++ * 7. RF Register 0x00-0x2E (RF 8256)
++ * RF-0222D 0x00-3F
++ *
++ * Zebra1 */
++#define		rZebra1_HSSIEnable				0x0	/* Useless now */
++#define		rZebra1_TRxEnable1				0x1
++#define		rZebra1_TRxEnable2				0x2
++#define		rZebra1_AGC					0x4
++#define		rZebra1_ChargePump			0x5
++#define		rZebra1_Channel				0x7	/* RF channel switch */
++
++/* #endif */
++#define		rZebra1_TxGain					0x8	/* Useless now */
++#define		rZebra1_TxLPF					0x9
++#define		rZebra1_RxLPF					0xb
++#define		rZebra1_RxHPFCorner			0xc
++
++/* Zebra4 */
++#define		rGlobalCtrl						0	/* Useless now */
++#define		rRTL8256_TxLPF					19
++#define		rRTL8256_RxLPF					11
++
++/* RTL8258 */
++#define		rRTL8258_TxLPF					0x11	/* Useless now */
++#define		rRTL8258_RxLPF					0x13
++#define		rRTL8258_RSSILPF				0xa
++
++/*
++ * RL6052 Register definition
++ *   */
++#define		RF_AC						0x00	/* */
++
++#define		RF_IQADJ_G1				0x01	/* */
++#define		RF_IQADJ_G2				0x02	/* */
++#define		RF_BS_PA_APSET_G1_G4		0x03
++#define		RF_BS_PA_APSET_G5_G8		0x04
++#define		RF_POW_TRSW				0x05	/* */
++
++#define		RF_GAIN_RX					0x06	/* */
++#define		RF_GAIN_TX					0x07	/* */
++
++#define		RF_TXM_IDAC				0x08	/* */
++#define		RF_IPA_G					0x09	/* */
++#define		RF_TXBIAS_G				0x0A
++#define		RF_TXPA_AG					0x0B
++#define		RF_IPA_A					0x0C	/* */
++#define		RF_TXBIAS_A				0x0D
++#define		RF_BS_PA_APSET_G9_G11	0x0E
++#define		RF_BS_IQGEN				0x0F	/* */
++
++#define		RF_MODE1					0x10	/* */
++#define		RF_MODE2					0x11	/* */
++
++#define		RF_RX_AGC_HP				0x12	/* */
++#define		RF_TX_AGC					0x13	/* */
++#define		RF_BIAS						0x14	/* */
++#define		RF_IPA						0x15	/* */
++#define		RF_TXBIAS					0x16
++#define		RF_POW_ABILITY			0x17	/* */
++#define		RF_MODE_AG				0x18	/* */
++#define		rRfChannel					0x18	/* RF channel and BW switch */
++#define		RF_CHNLBW					0x18	/* RF channel and BW switch */
++#define		RF_TOP						0x19	/* */
++
++#define		RF_RX_G1					0x1A	/* */
++#define		RF_RX_G2					0x1B	/* */
++
++#define		RF_RX_BB2					0x1C	/* */
++#define		RF_RX_BB1					0x1D	/* */
++
++#define		RF_RCK1					0x1E	/* */
++#define		RF_RCK2					0x1F	/* */
++
++#define		RF_TX_G1					0x20	/* */
++#define		RF_TX_G2					0x21	/* */
++#define		RF_TX_G3					0x22	/* */
++
++#define		RF_TX_BB1					0x23	/* */
++
++#define		RF_T_METER					0x24	/* */
++
++#define		RF_SYN_G1					0x25	/* RF TX Power control */
++#define		RF_SYN_G2					0x26	/* RF TX Power control */
++#define		RF_SYN_G3					0x27	/* RF TX Power control */
++#define		RF_SYN_G4					0x28	/* RF TX Power control */
++#define		RF_SYN_G5					0x29	/* RF TX Power control */
++#define		RF_SYN_G6					0x2A	/* RF TX Power control */
++#define		RF_SYN_G7					0x2B	/* RF TX Power control */
++#define		RF_SYN_G8					0x2C	/* RF TX Power control */
++
++#define		RF_RCK_OS					0x30	/* RF TX PA control */
++
++#define		RF_TXPA_G1					0x31	/* RF TX PA control */
++#define		RF_TXPA_G2					0x32	/* RF TX PA control */
++#define		RF_TXPA_G3					0x33	/* RF TX PA control */
++#define	RF_TX_BIAS_A				0x35
++#define	RF_TX_BIAS_D				0x36
++#define	RF_LOBF_9					0x38
++#define	RF_RXRF_A3					0x3C	/*	 */
++#define	RF_TRSW					0x3F
++
++#define	RF_TXRF_A2					0x41
++#define	RF_T_METER_88E				0x42
++#define	RF_TXPA_G4					0x46
++#define	RF_TXPA_A4					0x4B
++#define	RF_0x52					0x52
++#define	RF_WE_LUT					0xEF
++#define	RF_S0S1					0xB0
++
++/*
++ * Bit Mask
++ *
++ * 1. Page1(0x100) */
++#define		bBBResetB						0x100	/* Useless now? */
++#define		bGlobalResetB					0x200
++#define		bOFDMTxStart					0x4
++#define		bCCKTxStart						0x8
++#define		bCRC32Debug					0x100
++#define		bPMACLoopback					0x10
++#define		bTxLSIG							0xffffff
++#define		bOFDMTxRate					0xf
++#define		bOFDMTxReserved				0x10
++#define		bOFDMTxLength					0x1ffe0
++#define		bOFDMTxParity					0x20000
++#define		bTxHTSIG1						0xffffff
++#define		bTxHTMCSRate					0x7f
++#define		bTxHTBW						0x80
++#define		bTxHTLength					0xffff00
++#define		bTxHTSIG2						0xffffff
++#define		bTxHTSmoothing					0x1
++#define		bTxHTSounding					0x2
++#define		bTxHTReserved					0x4
++#define		bTxHTAggreation				0x8
++#define		bTxHTSTBC						0x30
++#define		bTxHTAdvanceCoding			0x40
++#define		bTxHTShortGI					0x80
++#define		bTxHTNumberHT_LTF			0x300
++#define		bTxHTCRC8						0x3fc00
++#define		bCounterReset					0x10000
++#define		bNumOfOFDMTx					0xffff
++#define		bNumOfCCKTx					0xffff0000
++#define		bTxIdleInterval					0xffff
++#define		bOFDMService					0xffff0000
++#define		bTxMACHeader					0xffffffff
++#define		bTxDataInit						0xff
++#define		bTxHTMode						0x100
++#define		bTxDataType					0x30000
++#define		bTxRandomSeed					0xffffffff
++#define		bCCKTxPreamble					0x1
++#define		bCCKTxSFD						0xffff0000
++#define		bCCKTxSIG						0xff
++#define		bCCKTxService					0xff00
++#define		bCCKLengthExt					0x8000
++#define		bCCKTxLength					0xffff0000
++#define		bCCKTxCRC16					0xffff
++#define		bCCKTxStatus					0x1
++#define		bOFDMTxStatus					0x2
++
++#define		IS_BB_REG_OFFSET_92S(_Offset)		((_Offset >= 0x800) && (_Offset <= 0xfff))
++#define		RF_TX_GAIN_OFFSET_8723D(_val) (abs((_val)) | (((_val) > 0) ? BIT(4) : 0))
++
++/* 2. Page8(0x800) */
++#define		bRFMOD							0x1	/* Reg 0x800 rFPGA0_RFMOD */
++#define		bJapanMode						0x2
++#define		bCCKTxSC						0x30
++#define		bCCKEn							0x1000000
++#define		bOFDMEn						0x2000000
++
++#define		bOFDMRxADCPhase           0x10000	/* Useless now */
++#define		bOFDMTxDACPhase		0x40000
++#define		bXATxAGC			0x3f
++
++#define		bAntennaSelect		0x0300
++
++#define		bXBTxAGC                 0xf00	/* Reg 80c rFPGA0_TxGainStage */
++#define		bXCTxAGC			0xf000
++#define		bXDTxAGC			0xf0000
++
++#define		bPAStart                 0xf0000000	/* Useless now */
++#define		bTRStart			0x00f00000
++#define		bRFStart			0x0000f000
++#define		bBBStart			0x000000f0
++#define		bBBCCKStart		0x0000000f
++#define		bPAEnd                    0xf          /* Reg0x814 */
++#define		bTREnd			0x0f000000
++#define		bRFEnd			0x000f0000
++#define		bCCAMask                  0x000000f0   /* T2R */
++#define		bR2RCCAMask		0x00000f00
++#define		bHSSI_R2TDelay		0xf8000000
++#define		bHSSI_T2RDelay		0xf80000
++#define		bContTxHSSI              0x400     /* chane gain at continue Tx */
++#define		bIGFromCCK		0x200
++#define		bAGCAddress		0x3f
++#define		bRxHPTx			0x7000
++#define		bRxHPT2R			0x38000
++#define		bRxHPCCKIni		0xc0000
++#define		bAGCTxCode		0xc00000
++#define		bAGCRxCode		0x300000
++
++#define		b3WireDataLength         0x800	/* Reg 0x820~84f rFPGA0_XA_HSSIParameter1 */
++#define		b3WireAddressLength		0x400
++
++#define		b3WireRFPowerDown         0x1	/* Useless now
++ * #define bHWSISelect		0x8 */
++#define		b5GPAPEPolarity		0x40000000
++#define		b2GPAPEPolarity		0x80000000
++#define		bRFSW_TxDefaultAnt		0x3
++#define		bRFSW_TxOptionAnt		0x30
++#define		bRFSW_RxDefaultAnt		0x300
++#define		bRFSW_RxOptionAnt		0x3000
++#define		bRFSI_3WireData		0x1
++#define		bRFSI_3WireClock		0x2
++#define		bRFSI_3WireLoad		0x4
++#define		bRFSI_3WireRW		0x8
++#define		bRFSI_3Wire			0xf
++
++#define		bRFSI_RFENV              0x10	/* Reg 0x870 rFPGA0_XAB_RFInterfaceSW */
++
++#define		bRFSI_TRSW               0x20	/* Useless now */
++#define		bRFSI_TRSWB		0x40
++#define		bRFSI_ANTSW		0x100
++#define		bRFSI_ANTSWB		0x200
++#define		bRFSI_PAPE			0x400
++#define		bRFSI_PAPE5G		0x800
++#define		bBandSelect			0x1
++#define		bHTSIG2_GI			0x80
++#define		bHTSIG2_Smoothing		0x01
++#define		bHTSIG2_Sounding		0x02
++#define		bHTSIG2_Aggreaton		0x08
++#define		bHTSIG2_STBC		0x30
++#define		bHTSIG2_AdvCoding		0x40
++#define		bHTSIG2_NumOfHTLTF	0x300
++#define		bHTSIG2_CRC8		0x3fc
++#define		bHTSIG1_MCS		0x7f
++#define		bHTSIG1_BandWidth		0x80
++#define		bHTSIG1_HTLength		0xffff
++#define		bLSIG_Rate			0xf
++#define		bLSIG_Reserved		0x10
++#define		bLSIG_Length		0x1fffe
++#define		bLSIG_Parity			0x20
++#define		bCCKRxPhase		0x4
++
++#define		bLSSIReadAddress          0x7f800000   /* T65 RF */
++
++#define		bLSSIReadEdge             0x80000000   /* LSSI "Read" edge signal */
++
++#define		bLSSIReadBackData         0xfffff		/* T65 RF */
++
++#define		bLSSIReadOKFlag           0x1000	/* Useless now */
++#define		bCCKSampleRate            0x8       /* 0: 44MHz, 1:88MHz     */
++#define		bRegulator0Standby		0x1
++#define		bRegulatorPLLStandby		0x2
++#define		bRegulator1Standby		0x4
++#define		bPLLPowerUp		0x8
++#define		bDPLLPowerUp		0x10
++#define		bDA10PowerUp		0x20
++#define		bAD7PowerUp		0x200
++#define		bDA6PowerUp		0x2000
++#define		bXtalPowerUp		0x4000
++#define		b40MDClkPowerUP		0x8000
++#define		bDA6DebugMode		0x20000
++#define		bDA6Swing			0x380000
++
++#define		bADClkPhase               0x4000000	/* Reg 0x880 rFPGA0_AnalogParameter1 20/40 CCK support switch 40/80 BB MHZ */
++
++#define		b80MClkDelay              0x18000000	/* Useless */
++#define		bAFEWatchDogEnable		0x20000000
++
++#define		bXtalCap01                0xc0000000	/* Reg 0x884 rFPGA0_AnalogParameter2 Crystal cap */
++#define		bXtalCap23			0x3
++#define		bXtalCap92x					0x0f000000
++#define		bXtalCap			0x0f000000
++
++#define		bIntDifClkEnable          0x400	/* Useless */
++#define		bExtSigClkEnable		0x800
++#define		bBandgapMbiasPowerUp	0x10000
++#define		bAD11SHGain		0xc0000
++#define		bAD11InputRange		0x700000
++#define		bAD11OPCurrent		0x3800000
++#define		bIPathLoopback		0x4000000
++#define		bQPathLoopback		0x8000000
++#define		bAFELoopback		0x10000000
++#define		bDA10Swing		0x7e0
++#define		bDA10Reverse		0x800
++#define		bDAClkSource		0x1000
++#define		bAD7InputRange		0x6000
++#define		bAD7Gain			0x38000
++#define		bAD7OutputCMMode		0x40000
++#define		bAD7InputCMMode		0x380000
++#define		bAD7Current			0xc00000
++#define		bRegulatorAdjust		0x7000000
++#define		bAD11PowerUpAtTx		0x1
++#define		bDA10PSAtTx		0x10
++#define		bAD11PowerUpAtRx		0x100
++#define		bDA10PSAtRx		0x1000
++#define		bCCKRxAGCFormat		0x200
++#define		bPSDFFTSamplepPoint		0xc000
++#define		bPSDAverageNum		0x3000
++#define		bIQPathControl		0xc00
++#define		bPSDFreq			0x3ff
++#define		bPSDAntennaPath		0x30
++#define		bPSDIQSwitch		0x40
++#define		bPSDRxTrigger		0x400000
++#define		bPSDTxTrigger		0x80000000
++#define		bPSDSineToneScale		0x7f000000
++#define		bPSDReport			0xffff
++
++/* 3. Page9(0x900) */
++#define		bOFDMTxSC                 0x30000000	/* Useless */
++#define		bCCKTxOn			0x1
++#define		bOFDMTxOn		0x2
++#define		bDebugPage                0xfff  /* reset debug page and also HWord, LWord */
++#define		bDebugItem                0xff   /* reset debug page and LWord */
++#define		bAntL			0x10
++#define		bAntNonHT				0x100
++#define		bAntHT1			0x1000
++#define		bAntHT2			0x10000
++#define		bAntHT1S1			0x100000
++#define		bAntNonHTS1		0x1000000
++
++/* 4. PageA(0xA00) */
++#define		bCCKBBMode				0x3	/* Useless */
++#define		bCCKTxPowerSaving		0x80
++#define		bCCKRxPowerSaving		0x40
++
++#define		bCCKSideBand			0x10	/* Reg 0xa00 rCCK0_System 20/40 switch */
++
++#define		bCCKScramble			0x8	/* Useless */
++#define		bCCKAntDiversity		0x8000
++#define		bCCKCarrierRecovery		0x4000
++#define		bCCKTxRate				0x3000
++#define		bCCKDCCancel			0x0800
++#define		bCCKISICancel			0x0400
++#define		bCCKMatchFilter			0x0200
++#define		bCCKEqualizer			0x0100
++#define		bCCKPreambleDetect		0x800000
++#define		bCCKFastFalseCCA		0x400000
++#define		bCCKChEstStart			0x300000
++#define		bCCKCCACount			0x080000
++#define		bCCKcs_lim				0x070000
++#define		bCCKBistMode			0x80000000
++#define		bCCKCCAMask			0x40000000
++#define		bCCKTxDACPhase		0x4
++#define		bCCKRxADCPhase		0x20000000   /* r_rx_clk */
++#define		bCCKr_cp_mode0		0x0100
++#define		bCCKTxDCOffset			0xf0
++#define		bCCKRxDCOffset			0xf
++#define		bCCKCCAMode			0xc000
++#define		bCCKFalseCS_lim			0x3f00
++#define		bCCKCS_ratio			0xc00000
++#define		bCCKCorgBit_sel			0x300000
++#define		bCCKPD_lim				0x0f0000
++#define		bCCKNewCCA			0x80000000
++#define		bCCKRxHPofIG			0x8000
++#define		bCCKRxIG				0x7f00
++#define		bCCKLNAPolarity			0x800000
++#define		bCCKRx1stGain			0x7f0000
++#define		bCCKRFExtend			0x20000000 /* CCK Rx Iinital gain polarity */
++#define		bCCKRxAGCSatLevel		0x1f000000
++#define		bCCKRxAGCSatCount		0xe0
++#define		bCCKRxRFSettle			0x1f       /* AGCsamp_dly */
++#define		bCCKFixedRxAGC			0x8000
++/* #define bCCKRxAGCFormat		0x4000 */   /* remove to HSSI register 0x824 */
++#define		bCCKAntennaPolarity		0x2000
++#define		bCCKTxFilterType		0x0c00
++#define		bCCKRxAGCReportType	0x0300
++#define		bCCKRxDAGCEn			0x80000000
++#define		bCCKRxDAGCPeriod		0x20000000
++#define		bCCKRxDAGCSatLevel		0x1f000000
++#define		bCCKTimingRecovery		0x800000
++#define		bCCKTxC0				0x3f0000
++#define		bCCKTxC1				0x3f000000
++#define		bCCKTxC2				0x3f
++#define		bCCKTxC3				0x3f00
++#define		bCCKTxC4				0x3f0000
++#define		bCCKTxC5				0x3f000000
++#define		bCCKTxC6				0x3f
++#define		bCCKTxC7				0x3f00
++#define		bCCKDebugPort			0xff0000
++#define		bCCKDACDebug			0x0f000000
++#define		bCCKFalseAlarmEnable	0x8000
++#define		bCCKFalseAlarmRead		0x4000
++#define		bCCKTRSSI				0x7f
++#define		bCCKRxAGCReport		0xfe
++#define		bCCKRxReport_AntSel	0x80000000
++#define		bCCKRxReport_MFOff		0x40000000
++#define		bCCKRxRxReport_SQLoss	0x20000000
++#define		bCCKRxReport_Pktloss	0x10000000
++#define		bCCKRxReport_Lockedbit	0x08000000
++#define		bCCKRxReport_RateError	0x04000000
++#define		bCCKRxReport_RxRate	0x03000000
++#define		bCCKRxFACounterLower	0xff
++#define		bCCKRxFACounterUpper	0xff000000
++#define		bCCKRxHPAGCStart		0xe000
++#define		bCCKRxHPAGCFinal		0x1c00
++#define		bCCKRxFalseAlarmEnable	0x8000
++#define		bCCKFACounterFreeze	0x4000
++#define		bCCKTxPathSel			0x10000000
++#define		bCCKDefaultRxPath		0xc000000
++#define		bCCKOptionRxPath		0x3000000
++
++/* 5. PageC(0xC00) */
++#define		bNumOfSTF				0x3	/* Useless */
++#define		bShift_L					0xc0
++#define		bGI_TH					0xc
++#define		bRxPathA				0x1
++#define		bRxPathB				0x2
++#define		bRxPathC				0x4
++#define		bRxPathD				0x8
++#define		bTxPathA				0x1
++#define		bTxPathB				0x2
++#define		bTxPathC				0x4
++#define		bTxPathD				0x8
++#define		bTRSSIFreq				0x200
++#define		bADCBackoff				0x3000
++#define		bDFIRBackoff			0xc000
++#define		bTRSSILatchPhase		0x10000
++#define		bRxIDCOffset			0xff
++#define		bRxQDCOffset			0xff00
++#define		bRxDFIRMode			0x1800000
++#define		bRxDCNFType			0xe000000
++#define		bRXIQImb_A				0x3ff
++#define		bRXIQImb_B				0xfc00
++#define		bRXIQImb_C				0x3f0000
++#define		bRXIQImb_D				0xffc00000
++#define		bDC_dc_Notch			0x60000
++#define		bRxNBINotch			0x1f000000
++#define		bPD_TH					0xf
++#define		bPD_TH_Opt2			0xc000
++#define		bPWED_TH				0x700
++#define		bIfMF_Win_L			0x800
++#define		bPD_Option				0x1000
++#define		bMF_Win_L				0xe000
++#define		bBW_Search_L			0x30000
++#define		bwin_enh_L				0xc0000
++#define		bBW_TH					0x700000
++#define		bED_TH2				0x3800000
++#define		bBW_option				0x4000000
++#define		bRatio_TH				0x18000000
++#define		bWindow_L				0xe0000000
++#define		bSBD_Option				0x1
++#define		bFrame_TH				0x1c
++#define		bFS_Option				0x60
++#define		bDC_Slope_check		0x80
++#define		bFGuard_Counter_DC_L	0xe00
++#define		bFrame_Weight_Short	0x7000
++#define		bSub_Tune				0xe00000
++#define		bFrame_DC_Length		0xe000000
++#define		bSBD_start_offset		0x30000000
++#define		bFrame_TH_2			0x7
++#define		bFrame_GI2_TH			0x38
++#define		bGI2_Sync_en			0x40
++#define		bSarch_Short_Early		0x300
++#define		bSarch_Short_Late		0xc00
++#define		bSarch_GI2_Late		0x70000
++#define		bCFOAntSum				0x1
++#define		bCFOAcc				0x2
++#define		bCFOStartOffset			0xc
++#define		bCFOLookBack			0x70
++#define		bCFOSumWeight			0x80
++#define		bDAGCEnable			0x10000
++#define		bTXIQImb_A				0x3ff
++#define		bTXIQImb_B				0xfc00
++#define		bTXIQImb_C				0x3f0000
++#define		bTXIQImb_D				0xffc00000
++#define		bTxIDCOffset			0xff
++#define		bTxQDCOffset			0xff00
++#define		bTxDFIRMode			0x10000
++#define		bTxPesudoNoiseOn		0x4000000
++#define		bTxPesudoNoise_A		0xff
++#define		bTxPesudoNoise_B		0xff00
++#define		bTxPesudoNoise_C		0xff0000
++#define		bTxPesudoNoise_D		0xff000000
++#define		bCCADropOption			0x20000
++#define		bCCADropThres			0xfff00000
++#define		bEDCCA_H				0xf
++#define		bEDCCA_L				0xf0
++#define		bLambda_ED			0x300
++#define		bRxInitialGain			0x7f
++#define		bRxAntDivEn				0x80
++#define		bRxAGCAddressForLNA	0x7f00
++#define		bRxHighPowerFlow		0x8000
++#define		bRxAGCFreezeThres		0xc0000
++#define		bRxFreezeStep_AGC1	0x300000
++#define		bRxFreezeStep_AGC2	0xc00000
++#define		bRxFreezeStep_AGC3	0x3000000
++#define		bRxFreezeStep_AGC0	0xc000000
++#define		bRxRssi_Cmp_En			0x10000000
++#define		bRxQuickAGCEn			0x20000000
++#define		bRxAGCFreezeThresMode	0x40000000
++#define		bRxOverFlowCheckType	0x80000000
++#define		bRxAGCShift				0x7f
++#define		bTRSW_Tri_Only			0x80
++#define		bPowerThres			0x300
++#define		bRxAGCEn				0x1
++#define		bRxAGCTogetherEn		0x2
++#define		bRxAGCMin				0x4
++#define		bRxHP_Ini				0x7
++#define		bRxHP_TRLNA			0x70
++#define		bRxHP_RSSI				0x700
++#define		bRxHP_BBP1				0x7000
++#define		bRxHP_BBP2				0x70000
++#define		bRxHP_BBP3				0x700000
++#define		bRSSI_H					0x7f0000     /* the threshold for high power */
++#define		bRSSI_Gen				0x7f000000   /* the threshold for ant diversity */
++#define		bRxSettle_TRSW			0x7
++#define		bRxSettle_LNA			0x38
++#define		bRxSettle_RSSI			0x1c0
++#define		bRxSettle_BBP			0xe00
++#define		bRxSettle_RxHP			0x7000
++#define		bRxSettle_AntSW_RSSI	0x38000
++#define		bRxSettle_AntSW		0xc0000
++#define		bRxProcessTime_DAGC	0x300000
++#define		bRxSettle_HSSI			0x400000
++#define		bRxProcessTime_BBPPW	0x800000
++#define		bRxAntennaPowerShift	0x3000000
++#define		bRSSITableSelect		0xc000000
++#define		bRxHP_Final				0x7000000
++#define		bRxHTSettle_BBP			0x7
++#define		bRxHTSettle_HSSI		0x8
++#define		bRxHTSettle_RxHP		0x70
++#define		bRxHTSettle_BBPPW		0x80
++#define		bRxHTSettle_Idle		0x300
++#define		bRxHTSettle_Reserved	0x1c00
++#define		bRxHTRxHPEn			0x8000
++#define		bRxHTAGCFreezeThres	0x30000
++#define		bRxHTAGCTogetherEn	0x40000
++#define		bRxHTAGCMin			0x80000
++#define		bRxHTAGCEn				0x100000
++#define		bRxHTDAGCEn			0x200000
++#define		bRxHTRxHP_BBP			0x1c00000
++#define		bRxHTRxHP_Final		0xe0000000
++#define		bRxPWRatioTH			0x3
++#define		bRxPWRatioEn			0x4
++#define		bRxMFHold				0x3800
++#define		bRxPD_Delay_TH1		0x38
++#define		bRxPD_Delay_TH2		0x1c0
++#define		bRxPD_DC_COUNT_MAX	0x600
++/* #define bRxMF_Hold               0x3800 */
++#define		bRxPD_Delay_TH			0x8000
++#define		bRxProcess_Delay		0xf0000
++#define		bRxSearchrange_GI2_Early	0x700000
++#define		bRxFrame_Guard_Counter_L	0x3800000
++#define		bRxSGI_Guard_L			0xc000000
++#define		bRxSGI_Search_L		0x30000000
++#define		bRxSGI_TH				0xc0000000
++#define		bDFSCnt0				0xff
++#define		bDFSCnt1				0xff00
++#define		bDFSFlag				0xf0000
++#define		bMFWeightSum			0x300000
++#define		bMinIdxTH				0x7f000000
++#define		bDAFormat				0x40000
++#define		bTxChEmuEnable		0x01000000
++#define		bTRSWIsolation_A		0x7f
++#define		bTRSWIsolation_B		0x7f00
++#define		bTRSWIsolation_C		0x7f0000
++#define		bTRSWIsolation_D		0x7f000000
++#define		bExtLNAGain				0x7c00
++
++/* 6. PageE(0xE00) */
++#define		bSTBCEn				0x4	/* Useless */
++#define		bAntennaMapping		0x10
++#define		bNss					0x20
++#define		bCFOAntSumD			0x200
++#define		bPHYCounterReset		0x8000000
++#define		bCFOReportGet			0x4000000
++#define		bOFDMContinueTx		0x10000000
++#define		bOFDMSingleCarrier		0x20000000
++#define		bOFDMSingleTone		0x40000000
++/* #define bRxPath1                 0x01 */
++/* #define bRxPath2                 0x02 */
++/* #define bRxPath3                 0x04 */
++/* #define bRxPath4                 0x08 */
++/* #define bTxPath1                 0x10 */
++/* #define bTxPath2                 0x20 */
++#define		bHTDetect			0x100
++#define		bCFOEn				0x10000
++#define		bCFOValue			0xfff00000
++#define		bSigTone_Re		0x3f
++#define		bSigTone_Im		0x7f00
++#define		bCounter_CCA		0xffff
++#define		bCounter_ParityFail	0xffff0000
++#define		bCounter_RateIllegal		0xffff
++#define		bCounter_CRC8Fail	0xffff0000
++#define		bCounter_MCSNoSupport	0xffff
++#define		bCounter_FastSync	0xffff
++#define		bShortCFO			0xfff
++#define		bShortCFOTLength	12   /* total */
++#define		bShortCFOFLength	11   /* fraction */
++#define		bLongCFO			0x7ff
++#define		bLongCFOTLength	11
++#define		bLongCFOFLength	11
++#define		bTailCFO			0x1fff
++#define		bTailCFOTLength		13
++#define		bTailCFOFLength		12
++#define		bmax_en_pwdB		0xffff
++#define		bCC_power_dB		0xffff0000
++#define		bnoise_pwdB		0xffff
++#define		bPowerMeasTLength	10
++#define		bPowerMeasFLength	3
++#define		bRx_HT_BW			0x1
++#define		bRxSC				0x6
++#define		bRx_HT				0x8
++#define		bNB_intf_det_on		0x1
++#define		bIntf_win_len_cfg	0x30
++#define		bNB_Intf_TH_cfg		0x1c0
++#define		bRFGain				0x3f
++#define		bTableSel			0x40
++#define		bTRSW				0x80
++#define		bRxSNR_A			0xff
++#define		bRxSNR_B			0xff00
++#define		bRxSNR_C			0xff0000
++#define		bRxSNR_D			0xff000000
++#define		bSNREVMTLength		8
++#define		bSNREVMFLength		1
++#define		bCSI1st				0xff
++#define		bCSI2nd				0xff00
++#define		bRxEVM1st			0xff0000
++#define		bRxEVM2nd			0xff000000
++#define		bSIGEVM			0xff
++#define		bPWDB				0xff00
++#define		bSGIEN				0x10000
++
++#define		bSFactorQAM1		0xf	/* Useless */
++#define		bSFactorQAM2		0xf0
++#define		bSFactorQAM3		0xf00
++#define		bSFactorQAM4		0xf000
++#define		bSFactorQAM5		0xf0000
++#define		bSFactorQAM6		0xf0000
++#define		bSFactorQAM7		0xf00000
++#define		bSFactorQAM8		0xf000000
++#define		bSFactorQAM9		0xf0000000
++#define		bCSIScheme			0x100000
++
++#define		bNoiseLvlTopSet		0x3	/* Useless */
++#define		bChSmooth			0x4
++#define		bChSmoothCfg1		0x38
++#define		bChSmoothCfg2		0x1c0
++#define		bChSmoothCfg3		0xe00
++#define		bChSmoothCfg4		0x7000
++#define		bMRCMode			0x800000
++#define		bTHEVMCfg			0x7000000
++
++#define		bLoopFitType		0x1	/* Useless */
++#define		bUpdCFO			0x40
++#define		bUpdCFOOffData		0x80
++#define		bAdvUpdCFO			0x100
++#define		bAdvTimeCtrl		0x800
++#define		bUpdClko			0x1000
++#define		bFC					0x6000
++#define		bTrackingMode		0x8000
++#define		bPhCmpEnable		0x10000
++#define		bUpdClkoLTF		0x20000
++#define		bComChCFO			0x40000
++#define		bCSIEstiMode		0x80000
++#define		bAdvUpdEqz			0x100000
++#define		bUChCfg				0x7000000
++#define		bUpdEqz			0x8000000
++
++/* Rx Pseduo noise */
++#define		bRxPesudoNoiseOn		0x20000000	/* Useless */
++#define		bRxPesudoNoise_A		0xff
++#define		bRxPesudoNoise_B		0xff00
++#define		bRxPesudoNoise_C		0xff0000
++#define		bRxPesudoNoise_D		0xff000000
++#define		bPesudoNoiseState_A	0xffff
++#define		bPesudoNoiseState_B	0xffff0000
++#define		bPesudoNoiseState_C	0xffff
++#define		bPesudoNoiseState_D	0xffff0000
++
++/* 7. RF Register
++ * Zebra1 */
++#define		bZebra1_HSSIEnable		0x8		/* Useless */
++#define		bZebra1_TRxControl		0xc00
++#define		bZebra1_TRxGainSetting	0x07f
++#define		bZebra1_RxCorner		0xc00
++#define		bZebra1_TxChargePump	0x38
++#define		bZebra1_RxChargePump	0x7
++#define		bZebra1_ChannelNum	0xf80
++#define		bZebra1_TxLPFBW		0x400
++#define		bZebra1_RxLPFBW		0x600
++
++/* Zebra4 */
++#define		bRTL8256RegModeCtrl1	0x100	/* Useless */
++#define		bRTL8256RegModeCtrl0	0x40
++#define		bRTL8256_TxLPFBW		0x18
++#define		bRTL8256_RxLPFBW		0x600
++
++/* RTL8258 */
++#define		bRTL8258_TxLPFBW		0xc	/* Useless */
++#define		bRTL8258_RxLPFBW		0xc00
++#define		bRTL8258_RSSILPFBW	0xc0
++
++
++/*
++ * Other Definition
++ *   */
++
++/* byte endable for sb_write */
++#define		bByte0				0x1	/* Useless */
++#define		bByte1				0x2
++#define		bByte2				0x4
++#define		bByte3				0x8
++#define		bWord0				0x3
++#define		bWord1				0xc
++#define		bDWord				0xf
++
++/* for PutRegsetting & GetRegSetting BitMask */
++#define		bMaskByte0			0xff	/* Reg 0xc50 rOFDM0_XAAGCCore~0xC6f */
++#define		bMaskByte1			0xff00
++#define		bMaskByte2			0xff0000
++#define		bMaskByte3			0xff000000
++#define		bMaskHWord		0xffff0000
++#define		bMaskLWord			0x0000ffff
++#define		bMaskDWord		0xffffffff
++#define		bMaskH3Bytes		0xffffff00
++#define		bMask12Bits			0xfff
++#define		bMaskH4Bits			0xf0000000
++#define		bMaskOFDM_D		0xffc00000
++#define		bMaskCCK			0x3f3f3f3f
++
++
++#define		bEnable			0x1	/* Useless */
++#define		bDisable		0x0
++
++#define		LeftAntenna		0x0	/* Useless */
++#define		RightAntenna	0x1
++
++#define		tCheckTxStatus		500   /* 500ms // Useless */
++#define		tUpdateRxCounter	100   /* 100ms */
++
++#define		rateCCK		0	/* Useless */
++#define		rateOFDM	1
++#define		rateHT		2
++
++/* define Register-End */
++#define		bPMAC_End			0x1ff	/* Useless */
++#define		bFPGAPHY0_End		0x8ff
++#define		bFPGAPHY1_End		0x9ff
++#define		bCCKPHY0_End		0xaff
++#define		bOFDMPHY0_End		0xcff
++#define		bOFDMPHY1_End		0xdff
++
++/* define max debug item in each debug page
++ * #define bMaxItem_FPGA_PHY0        0x9
++ * #define bMaxItem_FPGA_PHY1        0x3
++ * #define bMaxItem_PHY_11B          0x16
++ * #define bMaxItem_OFDM_PHY0        0x29
++ * #define bMaxItem_OFDM_PHY1        0x0 */
++
++#define		bPMACControl		0x0		/* Useless */
++#define		bWMACControl		0x1
++#define		bWNICControl		0x2
++
++#define		PathA			0x0	/* Useless */
++#define		PathB			0x1
++#define		PathC			0x2
++#define		PathD			0x3
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8723DPwrSeq.h b/drivers/net/wireless/rtl8723du/include/Hal8723DPwrSeq.h
+new file mode 100644
+index 0000000..5032e7c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8723DPwrSeq.h
+@@ -0,0 +1,193 @@
++#ifndef REALTEK_POWER_SEQUENCE_8723D
++#define REALTEK_POWER_SEQUENCE_8723D
++
++/* #include "PwrSeqCmd.h" */
++#include "HalPwrSeqCmd.h"
++
++/*
++	Check document WM-20110607-Paul-RTL8192e_Power_Architecture-R02.vsd
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transition from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++*/
++#define	RTL8723D_TRANS_CARDEMU_TO_ACT_STEPS	27
++#define	RTL8723D_TRANS_ACT_TO_CARDEMU_STEPS	8
++#define	RTL8723D_TRANS_CARDEMU_TO_SUS_STEPS	7
++#define	RTL8723D_TRANS_SUS_TO_CARDEMU_STEPS	5
++#define	RTL8723D_TRANS_CARDEMU_TO_CARDDIS_STEPS	8
++#define	RTL8723D_TRANS_CARDDIS_TO_CARDEMU_STEPS	7
++#define	RTL8723D_TRANS_CARDEMU_TO_PDN_STEPS	4
++#define	RTL8723D_TRANS_PDN_TO_CARDEMU_STEPS	1
++#define	RTL8723D_TRANS_ACT_TO_LPS_STEPS		13
++#define	RTL8723D_TRANS_LPS_TO_ACT_STEPS		11
++#define	RTL8723D_TRANS_END_STEPS	1
++
++
++#define RTL8723D_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), BIT(0)}, /*0x20[0] = 1b'1 enable LDOA12 MACRO block for all interface*/	\
++	{0x0067, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(4), 0}, /*0x67[0] = 0 to disable BT_GPS_SEL pins*/	\
++	{0x0001, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 1, PWRSEQ_DELAY_MS},/*Delay 1ms*/   \
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(5), 0}, /*0x00[5] = 1b'0 release analog Ips to digital ,1:isolation*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT(4) | BIT(3) | BIT2), 0},/* disable SW LPS 0x04[10]=0 and WLSUS_EN 0x04[11]=0*/ \
++	{0x0075, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0) , BIT(0)},/* Disable USB suspend */	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT(1), BIT(1)},/* wait till 0x04[17] = 1    power ready*/	\
++	{0x0075, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0) , 0},/* Enable USB suspend */	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), BIT(0)},/* release WLON reset  0x04[16]=1*/ \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, (BIT(1) | BIT(0)), 0}, \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(7), 0},/* disable HWPDN 0x04[15]=0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT(4) | BIT(3)), 0},/* disable WL suspend*/ \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), BIT(0)},/* polling until return 0*/ \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT(0), 0},/**/ \
++	{0x0010, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(6), BIT(6)},/* Enable WL control XTAL setting*/ \
++	{0x0049, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1), BIT(1)},/*Enable falling edge triggering interrupt*/\
++	{0x0063, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1), BIT(1)},/*Enable GPIO9 interrupt mode*/\
++	{0x0062, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1), 0},/*Enable GPIO9 input mode*/\
++	{0x0058, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), BIT(0)},/*Enable HSISR GPIO[C:0] interrupt*/\
++	{0x005A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1), BIT(1)},/*Enable HSISR GPIO9 interrupt*/\
++	{0x0068, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(3), BIT(3)},/*For GPIO9 internal pull high setting by test chip*/\
++	{0x0069, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(6), BIT(6)},/*For GPIO9 internal pull high setting*/\
++	{0x001f, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/*reset RF path S1*/\
++	{0x0077, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/*reset RF path S0*/\
++	{0x001f, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x07},/*enable RF path S1*/\
++	{0x0077, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x07},/*enalbe RF path S0*/\
++
++
++#define RTL8723D_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	/*{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, */ /*0x1F[7:0] = 0 turn off RF*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), 0}, /*0x2[0]=0 Reset BB, RF enter Power Down mode*/ \
++	{0x0049, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1), 0},/*Enable rising edge triggering interrupt*/ \
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), BIT(0)},/* release WLON reset  0x04[16]=1*/ \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1), BIT(1)}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT(1), 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/ \
++	{0x0010, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(6), 0},/* Enable BT control XTAL setting*/\
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(5), BIT(5)}, /*0x00[5] = 1b'1 analog Ips to digital ,1:isolation*/   \
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), 0}, /*0x20[0] = 1b'0 disable LDOA12 MACRO block*/\
++
++
++#define RTL8723D_TRANS_CARDEMU_TO_SUS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(4) | BIT(3), (BIT4 | BIT3)}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/ \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(3) | BIT(4), BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(4), BIT(4)}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SDIO SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(3) | BIT(4), BIT3 | BIT4}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT(0), BIT(0)}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT(1), 0}, /*wait power state to suspend*/
++
++#define RTL8723D_TRANS_SUS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(3) | BIT(7), 0}, /*clear suspend enable and power down enable*/ \
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT(0), 0}, /*Set SDIO suspend local register*/ \
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT(1), BIT(1)}, /*wait power state to suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(4), 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(3) | BIT(4), 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
++
++
++#define RTL8723D_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07 = 0x20 , SOP option to disable BG/MB*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(3) | BIT(4), BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(2), BIT(2)}, /*0x04[10] = 1, enable SW LPS*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(3) | BIT(4), BIT3 | BIT4}, /*0x04[12:11] = 2b'11 enable WL suspend*/	\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), 1}, /*0x48[16] = 1 to enable GPIO9 as EXT WAKEUP*/   \
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(4), BIT(4)}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT(0), BIT(0)}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT(1), 0}, /*wait power state to suspend*/
++
++#define RTL8723D_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(3) | BIT(7), 0}, /*clear suspend enable and power down enable*/ \
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT(0), 0}, /*Set SDIO suspend local register*/ \
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT(1), BIT(1)}, /*wait power state to suspend*/\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), 0}, /*0x48[16] = 0 to disable GPIO9 as EXT WAKEUP*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(3) | BIT(4), 0}, /*0x04[12:11] = 2b'01enable WL suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(4), 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*PCIe DMA start*/
++
++
++#define RTL8723D_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(4), BIT(4)}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK | PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), 0},/* 0x04[16] = 0*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(7), BIT(7)},/* 0x04[15] = 1*/
++
++#define RTL8723D_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(7), 0},/* 0x04[15] = 0*/
++
++#define RTL8723D_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*PCIe DMA stop*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*Tx Pause*/	\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1), 0},/*Whole BB is reset*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x03},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1), 0},/*check if removed later*/ \
++	{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/*When driver enter Sus/ Disable, enable LOP for BT*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(5), BIT(5)},/*Respond TxOK to scheduler*/	\
++
++
++#define RTL8723D_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM*/\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/\
++	{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(4), 0}, /*.	0x08[4] = 0  switch TSF to 40M*/\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT(7), 0}, /*Polling 0x109[7]=0  TSF in 40M*/\
++	{0x0029, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(6) | BIT(7), 0}, /*.	0x29[7:6] = 2b'00	 enable BB clock*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1), BIT(1)}, /*.	0x101[1] = 1*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1) | BIT(0), BIT1 | BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++#define RTL8723D_TRANS_END															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++	extern WLAN_PWR_CFG rtl8723D_power_on_flow[RTL8723D_TRANS_CARDEMU_TO_ACT_STEPS + RTL8723D_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723D_radio_off_flow[RTL8723D_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723D_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723D_card_disable_flow[RTL8723D_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723D_TRANS_CARDEMU_TO_CARDDIS_STEPS + RTL8723D_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723D_card_enable_flow[RTL8723D_TRANS_CARDDIS_TO_CARDEMU_STEPS + RTL8723D_TRANS_CARDEMU_TO_ACT_STEPS + RTL8723D_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723D_suspend_flow[RTL8723D_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723D_TRANS_CARDEMU_TO_SUS_STEPS + RTL8723D_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723D_resume_flow[RTL8723D_TRANS_SUS_TO_CARDEMU_STEPS + RTL8723D_TRANS_CARDEMU_TO_ACT_STEPS + RTL8723D_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723D_hwpdn_flow[RTL8723D_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723D_TRANS_CARDEMU_TO_PDN_STEPS + RTL8723D_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723D_enter_lps_flow[RTL8723D_TRANS_ACT_TO_LPS_STEPS + RTL8723D_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723D_leave_lps_flow[RTL8723D_TRANS_LPS_TO_ACT_STEPS + RTL8723D_TRANS_END_STEPS];
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8723PwrSeq.h b/drivers/net/wireless/rtl8723du/include/Hal8723PwrSeq.h
+new file mode 100644
+index 0000000..6669641
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8723PwrSeq.h
+@@ -0,0 +1,169 @@
++#ifndef __HAL8723PWRSEQ_H__
++#define __HAL8723PWRSEQ_H__
++/*
++	Check document WM-20110607-Paul-RTL8723A_Power_Architecture-R02.vsd
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transision from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++*/
++#include "HalPwrSeqCmd.h"
++
++#define	RTL8723A_TRANS_CARDEMU_TO_ACT_STEPS	15
++#define	RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS	15
++#define	RTL8723A_TRANS_CARDEMU_TO_SUS_STEPS	15
++#define	RTL8723A_TRANS_SUS_TO_CARDEMU_STEPS	15
++#define	RTL8723A_TRANS_CARDEMU_TO_PDN_STEPS	15
++#define	RTL8723A_TRANS_PDN_TO_CARDEMU_STEPS	15
++#define	RTL8723A_TRANS_ACT_TO_LPS_STEPS	15
++#define	RTL8723A_TRANS_LPS_TO_ACT_STEPS	15
++#define	RTL8723A_TRANS_END_STEPS	1
++
++
++#define RTL8723A_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /*0x20[0] = 1b'1 enable LDOA12 MACRO block for all interface*/   \
++	{0x0067, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x67[0] = 0 to disable BT_GPS_SEL pins*/	\
++	{0x0001, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 1, PWRSEQ_DELAY_MS},/*Delay 1ms*/   \
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, 0}, /*0x00[5] = 1b'0 release analog Ips to digital ,1:isolation*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0},/* disable SW LPS 0x04[10]=0*/	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1    power ready*/	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* release WLON reset  0x04[16]=1*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* disable HWPDN 0x04[15]=0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT4 | BIT3), 0},/* disable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* polling until return 0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0},/**/	\
++	{0x004E, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 1},/*0x4C[23] = 0x4E[7] = 1, switch DPDT_SEL_P output from WL BB */\
++
++#define RTL8723A_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*0x1F[7:0] = 0 turn off RF*/	\
++	{0x004E, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/*0x4C[23] = 0x4E[7] = 0, switch DPDT_SEL_P output from register 0x65[2] */\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/	\
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5}, /*0x00[5] = 1b'1 analog Ips to digital ,1:isolation*/   \
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /*0x20[0] = 1b'0 disable LDOA12 MACRO block*/   \
++
++
++#define RTL8723A_TRANS_CARDEMU_TO_SUS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4 | BIT3, (BIT4 | BIT3)}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SDIO SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3 | BIT4}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8723A_TRANS_SUS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT7, 0}, /*clear suspend enable and power down enable*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
++
++#define RTL8723A_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07 = 0x20 , SOP option to disable BG/MB*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2}, /*0x04[10] = 1, enable SW LPS*/	\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 1}, /*0x48[16] = 1 to enable GPIO9 as EXT WAKEUP*/   \
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8723A_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT7, 0}, /*clear suspend enable and power down enable*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /*0x48[16] = 0 to disable GPIO9 as EXT WAKEUP*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*PCIe DMA start*/
++
++
++#define RTL8723A_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK | PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/* 0x04[16] = 0*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
++
++#define RTL8723A_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
++
++#define RTL8723A_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*PCIe DMA stop*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*Tx Pause*/	\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Whole BB is reset*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x03},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/	\
++	{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/*When driver enter Sus/ Disable, enable LOP for BT*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/	\
++
++
++#define RTL8723A_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM*/\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/\
++	{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*.	0x08[4] = 0		 switch TSF to 40M*/\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, 0}, /*Polling 0x109[7]=0  TSF in 40M*/\
++	{0x0029, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6 | BIT7, 0}, /*.	0x29[7:6] = 2b'00	 enable BB clock*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++#define RTL8723A_TRANS_END															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++	extern WLAN_PWR_CFG rtl8723A_power_on_flow[RTL8723A_TRANS_CARDEMU_TO_ACT_STEPS + RTL8723A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723A_radio_off_flow[RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723A_card_disable_flow[RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723A_TRANS_CARDEMU_TO_PDN_STEPS + RTL8723A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723A_card_enable_flow[RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723A_TRANS_CARDEMU_TO_PDN_STEPS + RTL8723A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723A_suspend_flow[RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723A_TRANS_CARDEMU_TO_SUS_STEPS + RTL8723A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723A_resume_flow[RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723A_TRANS_CARDEMU_TO_SUS_STEPS + RTL8723A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723A_hwpdn_flow[RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723A_TRANS_CARDEMU_TO_PDN_STEPS + RTL8723A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723A_enter_lps_flow[RTL8723A_TRANS_ACT_TO_LPS_STEPS + RTL8723A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723A_leave_lps_flow[RTL8723A_TRANS_LPS_TO_ACT_STEPS + RTL8723A_TRANS_END_STEPS];
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8812PhyCfg.h b/drivers/net/wireless/rtl8723du/include/Hal8812PhyCfg.h
+new file mode 100644
+index 0000000..442c563
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8812PhyCfg.h
+@@ -0,0 +1,148 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8812PHYCFG_H__
++#define __INC_HAL8812PHYCFG_H__
++
++
++/*--------------------------Define Parameters-------------------------------*/
++#define LOOP_LIMIT				5
++#define MAX_STALL_TIME			50		/* us */
++#define AntennaDiversityValue	0x80	/* (Adapter->bSoftwareAntennaDiversity ? 0x00 : 0x80) */
++#define MAX_TXPWR_IDX_NMODE_92S	63
++#define Reset_Cnt_Limit			3
++
++
++#ifdef CONFIG_PCI_HCI
++	#define MAX_AGGR_NUM	0x0B
++#else
++	#define MAX_AGGR_NUM	0x07
++#endif /* CONFIG_PCI_HCI */
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++/*------------------------------Define structure----------------------------*/
++
++
++/* BB/RF related */
++
++/*------------------------------Define structure----------------------------*/
++
++
++/*------------------------Export global variable----------------------------*/
++/*------------------------Export global variable----------------------------*/
++
++
++/*------------------------Export Marco Definition---------------------------*/
++/*------------------------Export Marco Definition---------------------------*/
++
++
++/*--------------------------Exported Function prototype---------------------*/
++/*
++ * BB and RF register read/write
++ *   */
++u32	PHY_QueryBBReg8812(IN	PADAPTER	Adapter,
++			   IN	u32			RegAddr,
++			   IN	u32			BitMask);
++void	PHY_SetBBReg8812(IN	PADAPTER		Adapter,
++			 IN	u32			RegAddr,
++			 IN	u32			BitMask,
++			 IN	u32			Data);
++u32	PHY_QueryRFReg8812(IN	PADAPTER	Adapter,
++			   IN	u8			eRFPath,
++			   IN	u32			RegAddr,
++			   IN	u32			BitMask);
++void	PHY_SetRFReg8812(IN	PADAPTER		Adapter,
++			 IN	u8			eRFPath,
++			 IN	u32			RegAddr,
++			 IN	u32			BitMask,
++			 IN	u32			Data);
++
++/*
++ * Initialization related function
++ *
++ * MAC/BB/RF HAL config */
++int	PHY_MACConfig8812(IN PADAPTER	Adapter);
++int	PHY_BBConfig8812(IN PADAPTER	Adapter);
++void	PHY_BB8812_Config_1T(IN PADAPTER	Adapter);
++int	PHY_RFConfig8812(IN PADAPTER	Adapter);
++
++/* RF config */
++
++s32
++PHY_SwitchWirelessBand8812(
++	IN PADAPTER		Adapter,
++	IN u8			Band
++);
++
++/*
++ * BB TX Power R/W
++ *   */
++void	PHY_GetTxPowerLevel8812(IN PADAPTER	Adapter, OUT s32	*powerlevel);
++void	PHY_SetTxPowerLevel8812(IN PADAPTER	Adapter, IN u8	Channel);
++
++BOOLEAN	PHY_UpdateTxPowerDbm8812(IN PADAPTER	Adapter, IN int	powerInDbm);
++u8 PHY_GetTxPowerIndex_8812A(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	u8					Rate,
++	IN	u8					BandWidth,
++	IN	u8					Channel,
++	struct txpwr_idx_comp *tic
++);
++
++u32 PHY_GetTxBBSwing_8812A(
++	IN	PADAPTER	Adapter,
++	IN	BAND_TYPE	Band,
++	IN	u8			RFPath
++);
++
++VOID
++PHY_SetTxPowerIndex_8812A(
++	IN	PADAPTER			Adapter,
++	IN	u4Byte				PowerIndex,
++	IN	u1Byte				RFPath,
++	IN	u1Byte				Rate
++);
++
++/*
++ * channel switch related funciton
++ *   */
++VOID
++PHY_SetSwChnlBWMode8812(
++	IN	PADAPTER			Adapter,
++	IN	u8					channel,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					Offset40,
++	IN	u8					Offset80
++);
++
++/*
++ * BB/MAC/RF other monitor API
++ *   */
++
++VOID
++PHY_SetRFPathSwitch_8812A(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bMain
++);
++
++/*--------------------------Exported Function prototype---------------------*/
++#endif /* __INC_HAL8192CPHYCFG_H */
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8812PhyReg.h b/drivers/net/wireless/rtl8723du/include/Hal8812PhyReg.h
+new file mode 100644
+index 0000000..5009750
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8812PhyReg.h
+@@ -0,0 +1,738 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8812PHYREG_H__
++#define __INC_HAL8812PHYREG_H__
++/*--------------------------Define Parameters-------------------------------*/
++/*
++ * BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++ * 3. RF register 0x00-2E
++ * 4. Bit Mask for BB/RF register
++ * 5. Other defintion for BB/RF R/W
++ *   */
++
++
++/* BB Register Definition */
++
++#define rCCAonSec_Jaguar		0x838
++#define rPwed_TH_Jaguar			0x830
++
++/* BW and sideband setting */
++#define rBWIndication_Jaguar		0x834
++#define rL1PeakTH_Jaguar			0x848
++#define rFPGA0_XA_LSSIReadBack	0x8a0	/*Tranceiver LSSI Readback*/
++#define rRFMOD_Jaguar			0x8ac	/* RF mode */
++#define rADC_Buf_Clk_Jaguar		0x8c4
++#define rRFECTRL_Jaguar			0x900
++#define bRFMOD_Jaguar			0xc3
++#define rCCK_System_Jaguar		0xa00   /* for cck sideband */
++#define bCCK_System_Jaguar		0x10
++
++/* Block & Path enable */
++#define rOFDMCCKEN_Jaguar 		0x808 /* OFDM/CCK block enable */
++#define bOFDMEN_Jaguar			0x20000000
++#define bCCKEN_Jaguar			0x10000000
++#define rRxPath_Jaguar			0x808	/* Rx antenna */
++#define bRxPath_Jaguar			0xff
++#define rTxPath_Jaguar			0x80c	/* Tx antenna */
++#define bTxPath_Jaguar			0x0fffffff
++#define rCCK_RX_Jaguar			0xa04	/* for cck rx path selection */
++#define bCCK_RX_Jaguar			0x0c000000
++#define rVhtlen_Use_Lsig_Jaguar	0x8c3	/* Use LSIG for VHT length */
++
++/* RF read/write-related */
++#define rHSSIRead_Jaguar			0x8b0  /* RF read addr */
++#define bHSSIRead_addr_Jaguar		0xff
++#define bHSSIRead_trigger_Jaguar	0x100
++#define rA_PIRead_Jaguar			0xd04 /* RF readback with PI */
++#define rB_PIRead_Jaguar			0xd44 /* RF readback with PI */
++#define rA_SIRead_Jaguar			0xd08 /* RF readback with SI */
++#define rB_SIRead_Jaguar			0xd48 /* RF readback with SI */
++#define rRead_data_Jaguar			0xfffff
++#define rA_LSSIWrite_Jaguar			0xc90 /* RF write addr */
++#define rB_LSSIWrite_Jaguar			0xe90 /* RF write addr */
++#define bLSSIWrite_data_Jaguar		0x000fffff
++#define bLSSIWrite_addr_Jaguar		0x0ff00000
++
++
++
++/* YN: mask the following register definition temporarily */
++#define rFPGA0_XA_RFInterfaceOE			0x860	/* RF Channel switch */
++#define rFPGA0_XB_RFInterfaceOE			0x864
++
++#define rFPGA0_XAB_RFInterfaceSW		0x870	/* RF Interface Software Control */
++#define rFPGA0_XCD_RFInterfaceSW		0x874
++
++/* #define rFPGA0_XAB_RFParameter		0x878 */	/* RF Parameter
++ * #define rFPGA0_XCD_RFParameter		0x87c */
++
++/* #define rFPGA0_AnalogParameter1		0x880 */	/* Crystal cap setting RF-R/W protection for parameter4??
++ * #define rFPGA0_AnalogParameter2		0x884
++ * #define rFPGA0_AnalogParameter3		0x888
++ * #define rFPGA0_AdDaClockEn			0x888 */	/* enable ad/da clock1 for dual-phy
++ * #define rFPGA0_AnalogParameter4		0x88c */
++
++
++/* CCK TX scaling */
++#define rCCK_TxFilter1_Jaguar		0xa20
++#define bCCK_TxFilter1_C0_Jaguar	0x00ff0000
++#define bCCK_TxFilter1_C1_Jaguar		0xff000000
++#define rCCK_TxFilter2_Jaguar		0xa24
++#define bCCK_TxFilter2_C2_Jaguar		0x000000ff
++#define bCCK_TxFilter2_C3_Jaguar		0x0000ff00
++#define bCCK_TxFilter2_C4_Jaguar		0x00ff0000
++#define bCCK_TxFilter2_C5_Jaguar		0xff000000
++#define rCCK_TxFilter3_Jaguar		0xa28
++#define bCCK_TxFilter3_C6_Jaguar		0x000000ff
++#define bCCK_TxFilter3_C7_Jaguar		0x0000ff00
++
++
++/* YN: mask the following register definition temporarily
++ * #define rPdp_AntA					0xb00
++ * #define rPdp_AntA_4				0xb04
++ * #define rConfig_Pmpd_AntA			0xb28
++ * #define rConfig_AntA					0xb68
++ * #define rConfig_AntB					0xb6c
++ * #define rPdp_AntB					0xb70
++ * #define rPdp_AntB_4					0xb74
++ * #define rConfig_Pmpd_AntB			0xb98
++ * #define rAPK							0xbd8 */
++
++/* RXIQC */
++#define rA_RxIQC_AB_Jaguar    	0xc10  /* RxIQ imblance matrix coeff. A & B */
++#define rA_RxIQC_CD_Jaguar    	0xc14  /* RxIQ imblance matrix coeff. C & D */
++#define rA_TxScale_Jaguar 		0xc1c  /* Pah_A TX scaling factor */
++#define rB_TxScale_Jaguar 		0xe1c  /* Path_B TX scaling factor */
++#define rB_RxIQC_AB_Jaguar    	0xe10  /* RxIQ imblance matrix coeff. A & B */
++#define rB_RxIQC_CD_Jaguar    	0xe14  /* RxIQ imblance matrix coeff. C & D */
++#define b_RxIQC_AC_Jaguar		0x02ff  /* bit mask for IQC matrix element A & C */
++#define b_RxIQC_BD_Jaguar		0x02ff0000 /* bit mask for IQC matrix element A & C */
++
++
++/* DIG-related */
++#define rA_IGI_Jaguar				0xc50	/* Initial Gain for path-A */
++#define rB_IGI_Jaguar				0xe50	/* Initial Gain for path-B */
++#define rOFDM_FalseAlarm1_Jaguar	0xf48  /* counter for break */
++#define rOFDM_FalseAlarm2_Jaguar	0xf4c  /* counter for spoofing */
++#define rCCK_FalseAlarm_Jaguar        	0xa5c /* counter for cck false alarm */
++#define b_FalseAlarm_Jaguar			0xffff
++#define rCCK_CCA_Jaguar				0xa08	/* cca threshold */
++#define bCCK_CCA_Jaguar				0x00ff0000
++
++/* Tx Power Ttraining-related */
++#define rA_TxPwrTraing_Jaguar		0xc54
++#define rB_TxPwrTraing_Jaguar		0xe54
++
++/* Report-related */
++#define rOFDM_ShortCFOAB_Jaguar	0xf60
++#define rOFDM_LongCFOAB_Jaguar		0xf64
++#define rOFDM_EndCFOAB_Jaguar		0xf70
++#define rOFDM_AGCReport_Jaguar		0xf84
++#define rOFDM_RxSNR_Jaguar			0xf88
++#define rOFDM_RxEVMCSI_Jaguar		0xf8c
++#define rOFDM_SIGReport_Jaguar		0xf90
++
++/* Misc functions */
++#define rEDCCA_Jaguar				0x8a4 /* EDCCA */
++#define bEDCCA_Jaguar				0xffff
++#define rAGC_table_Jaguar			0x82c   /* AGC tabel select */
++#define bAGC_table_Jaguar			0x3
++#define b_sel5g_Jaguar    				0x1000 /* sel5g */
++#define b_LNA_sw_Jaguar				0x8000 /* HW/WS control for LNA */
++#define rFc_area_Jaguar				0x860   /* fc_area */
++#define bFc_area_Jaguar				0x1ffe000
++#define rSingleTone_ContTx_Jaguar	0x914
++
++/* RFE */
++#define rA_RFE_Pinmux_Jaguar	0xcb0  /* Path_A RFE cotrol pinmux */
++#define rB_RFE_Pinmux_Jaguar	0xeb0 /* Path_B RFE control pinmux */
++#define rA_RFE_Inv_Jaguar		0xcb4  /* Path_A RFE cotrol   */
++#define rB_RFE_Inv_Jaguar		0xeb4 /* Path_B RFE control */
++#define rA_RFE_Jaguar			0xcb8  /* Path_A RFE cotrol   */
++#define rB_RFE_Jaguar			0xeb8 /* Path_B RFE control */
++#define r_ANTSEL_SW_Jaguar		0x900 /* ANTSEL SW Control */
++#define bMask_RFEInv_Jaguar		0x3ff00000
++#define bMask_AntselPathFollow_Jaguar 0x00030000
++
++/* TX AGC */
++#define rTxAGC_A_CCK11_CCK1_JAguar				0xc20
++#define rTxAGC_A_Ofdm18_Ofdm6_JAguar				0xc24
++#define rTxAGC_A_Ofdm54_Ofdm24_JAguar			0xc28
++#define rTxAGC_A_MCS3_MCS0_JAguar					0xc2c
++#define rTxAGC_A_MCS7_MCS4_JAguar					0xc30
++#define rTxAGC_A_MCS11_MCS8_JAguar				0xc34
++#define rTxAGC_A_MCS15_MCS12_JAguar				0xc38
++#define rTxAGC_A_Nss1Index3_Nss1Index0_JAguar	0xc3c
++#define rTxAGC_A_Nss1Index7_Nss1Index4_JAguar	0xc40
++#define rTxAGC_A_Nss2Index1_Nss1Index8_JAguar	0xc44
++#define rTxAGC_A_Nss2Index5_Nss2Index2_JAguar	0xc48
++#define rTxAGC_A_Nss2Index9_Nss2Index6_JAguar	0xc4c
++#define rTxAGC_B_CCK11_CCK1_JAguar				0xe20
++#define rTxAGC_B_Ofdm18_Ofdm6_JAguar				0xe24
++#define rTxAGC_B_Ofdm54_Ofdm24_JAguar			0xe28
++#define rTxAGC_B_MCS3_MCS0_JAguar					0xe2c
++#define rTxAGC_B_MCS7_MCS4_JAguar					0xe30
++#define rTxAGC_B_MCS11_MCS8_JAguar				0xe34
++#define rTxAGC_B_MCS15_MCS12_JAguar				0xe38
++#define rTxAGC_B_Nss1Index3_Nss1Index0_JAguar		0xe3c
++#define rTxAGC_B_Nss1Index7_Nss1Index4_JAguar		0xe40
++#define rTxAGC_B_Nss2Index1_Nss1Index8_JAguar		0xe44
++#define rTxAGC_B_Nss2Index5_Nss2Index2_JAguar		0xe48
++#define rTxAGC_B_Nss2Index9_Nss2Index6_JAguar		0xe4c
++#define bTxAGC_byte0_Jaguar							0xff
++#define bTxAGC_byte1_Jaguar							0xff00
++#define bTxAGC_byte2_Jaguar							0xff0000
++#define bTxAGC_byte3_Jaguar							0xff000000
++
++/* IQK YN: temporaily mask this part
++ * #define rFPGA0_IQK					0xe28
++ * #define rTx_IQK_Tone_A				0xe30
++ * #define rRx_IQK_Tone_A				0xe34
++ * #define rTx_IQK_PI_A					0xe38
++ * #define rRx_IQK_PI_A					0xe3c */
++
++/* #define rTx_IQK						0xe40 */
++/* #define rRx_IQK						0xe44 */
++/* #define rIQK_AGC_Pts					0xe48 */
++/* #define rIQK_AGC_Rsp					0xe4c */
++/* #define rTx_IQK_Tone_B				0xe50 */
++/* #define rRx_IQK_Tone_B				0xe54 */
++/* #define rTx_IQK_PI_B					0xe58 */
++/* #define rRx_IQK_PI_B					0xe5c */
++/* #define rIQK_AGC_Cont				0xe60 */
++
++
++/* AFE-related */
++#define rA_AFEPwr1_Jaguar					0xc60 /* dynamic AFE power control */
++#define rA_AFEPwr2_Jaguar					0xc64 /* dynamic AFE power control */
++#define rA_Rx_WaitCCA_Tx_CCKRFON_Jaguar	0xc68
++#define rA_Tx_CCKBBON_OFDMRFON_Jaguar	0xc6c
++#define rA_Tx_OFDMBBON_Tx2Rx_Jaguar		0xc70
++#define rA_Tx2Tx_RXCCK_Jaguar				0xc74
++#define rA_Rx_OFDM_WaitRIFS_Jaguar			0xc78
++#define rA_Rx2Rx_BT_Jaguar					0xc7c
++#define rA_sleep_nav_Jaguar					0xc80
++#define rA_pmpd_Jaguar						0xc84
++#define rB_AFEPwr1_Jaguar					0xe60 /* dynamic AFE power control */
++#define rB_AFEPwr2_Jaguar					0xe64 /* dynamic AFE power control */
++#define rB_Rx_WaitCCA_Tx_CCKRFON_Jaguar	0xe68
++#define rB_Tx_CCKBBON_OFDMRFON_Jaguar	0xe6c
++#define rB_Tx_OFDMBBON_Tx2Rx_Jaguar		0xe70
++#define rB_Tx2Tx_RXCCK_Jaguar				0xe74
++#define rB_Rx_OFDM_WaitRIFS_Jaguar			0xe78
++#define rB_Rx2Rx_BT_Jaguar					0xe7c
++#define rB_sleep_nav_Jaguar					0xe80
++#define rB_pmpd_Jaguar						0xe84
++
++
++/* YN: mask these registers temporaily
++ * #define rTx_Power_Before_IQK_A		0xe94
++ * #define rTx_Power_After_IQK_A			0xe9c */
++
++/* #define rRx_Power_Before_IQK_A		0xea0 */
++/* #define rRx_Power_Before_IQK_A_2		0xea4 */
++/* #define rRx_Power_After_IQK_A			0xea8 */
++/* #define rRx_Power_After_IQK_A_2		0xeac */
++
++/* #define rTx_Power_Before_IQK_B		0xeb4 */
++/* #define rTx_Power_After_IQK_B			0xebc */
++
++/* #define rRx_Power_Before_IQK_B		0xec0 */
++/* #define rRx_Power_Before_IQK_B_2		0xec4 */
++/* #define rRx_Power_After_IQK_B			0xec8 */
++/* #define rRx_Power_After_IQK_B_2		0xecc */
++
++
++/* RSSI Dump */
++#define rA_RSSIDump_Jaguar			0xBF0
++#define rB_RSSIDump_Jaguar			0xBF1
++#define rS1_RXevmDump_Jaguar		0xBF4
++#define rS2_RXevmDump_Jaguar		0xBF5
++#define rA_RXsnrDump_Jaguar		0xBF6
++#define rB_RXsnrDump_Jaguar		0xBF7
++#define rA_CfoShortDump_Jaguar		0xBF8
++#define rB_CfoShortDump_Jaguar		0xBFA
++#define rA_CfoLongDump_Jaguar		0xBEC
++#define rB_CfoLongDump_Jaguar		0xBEE
++
++
++/* RF Register
++ *   */
++#define RF_AC_Jaguar				0x00	/*  */
++#define RF_RF_Top_Jaguar			0x07	/*  */
++#define RF_TXLOK_Jaguar				0x08	/*  */
++#define RF_TXAPK_Jaguar				0x0B
++#define RF_CHNLBW_Jaguar 			0x18	/* RF channel and BW switch */
++#define RF_RCK1_Jaguar				0x1c	/*  */
++#define RF_RCK2_Jaguar				0x1d
++#define RF_RCK3_Jaguar			0x1e
++#define RF_ModeTableAddr			0x30
++#define RF_ModeTableData0			0x31
++#define RF_ModeTableData1			0x32
++#define RF_TxLCTank_Jaguar	0x54
++#define RF_APK_Jaguar				0x63
++#define RF_LCK						0xB4
++#define RF_WeLut_Jaguar				0xEF
++
++#define bRF_CHNLBW_MOD_AG_Jaguar	0x70300
++#define bRF_CHNLBW_BW				0xc00
++
++
++/*
++ * RL6052 Register definition
++ *   */
++#define RF_AC						0x00	/*  */
++#define RF_IPA_A					0x0C	/*  */
++#define RF_TXBIAS_A					0x0D
++#define RF_BS_PA_APSET_G9_G11		0x0E
++#define RF_MODE1					0x10	/*  */
++#define RF_MODE2					0x11	/*  */
++#define RF_CHNLBW					0x18	/* RF channel and BW switch */
++#define RF_RCK_OS					0x30	/* RF TX PA control */
++#define RF_TXPA_G1					0x31	/* RF TX PA control */
++#define RF_TXPA_G2					0x32	/* RF TX PA control */
++#define RF_TXPA_G3					0x33	/* RF TX PA control */
++#define RF_0x52						0x52
++#define RF_WE_LUT					0xEF
++
++#define RF_TX_GAIN_OFFSET_8812A(_val) ((abs((_val)) << 1) | (((_val) > 0) ? BIT0 : 0))
++#define RF_TX_GAIN_OFFSET_8821A(_val) ((abs((_val)) << 1) | (((_val) > 0) ? BIT0 : 0))
++
++/*
++ * Bit Mask
++ *
++ * 1. Page1(0x100) */
++#define bBBResetB					0x100	/* Useless now? */
++#define bGlobalResetB				0x200
++#define bOFDMTxStart				0x4
++#define bCCKTxStart					0x8
++#define bCRC32Debug					0x100
++#define bPMACLoopback				0x10
++#define bTxLSIG						0xffffff
++#define bOFDMTxRate					0xf
++#define bOFDMTxReserved			0x10
++#define bOFDMTxLength				0x1ffe0
++#define bOFDMTxParity				0x20000
++#define bTxHTSIG1					0xffffff
++#define bTxHTMCSRate				0x7f
++#define bTxHTBW						0x80
++#define bTxHTLength					0xffff00
++#define bTxHTSIG2					0xffffff
++#define bTxHTSmoothing				0x1
++#define bTxHTSounding				0x2
++#define bTxHTReserved				0x4
++#define bTxHTAggreation				0x8
++#define bTxHTSTBC					0x30
++#define bTxHTAdvanceCoding			0x40
++#define bTxHTShortGI					0x80
++#define bTxHTNumberHT_LTF			0x300
++#define bTxHTCRC8					0x3fc00
++#define bCounterReset				0x10000
++#define bNumOfOFDMTx				0xffff
++#define bNumOfCCKTx					0xffff0000
++#define bTxIdleInterval				0xffff
++#define bOFDMService				0xffff0000
++#define bTxMACHeader				0xffffffff
++#define bTxDataInit					0xff
++#define bTxHTMode					0x100
++#define bTxDataType					0x30000
++#define bTxRandomSeed				0xffffffff
++#define bCCKTxPreamble				0x1
++#define bCCKTxSFD					0xffff0000
++#define bCCKTxSIG					0xff
++#define bCCKTxService				0xff00
++#define bCCKLengthExt				0x8000
++#define bCCKTxLength				0xffff0000
++#define bCCKTxCRC16					0xffff
++#define bCCKTxStatus					0x1
++#define bOFDMTxStatus				0x2
++
++
++/*
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 1. Page1(0x100)
++ *   */
++#define rPMAC_Reset					0x100
++#define rPMAC_TxStart				0x104
++#define rPMAC_TxLegacySIG			0x108
++#define rPMAC_TxHTSIG1				0x10c
++#define rPMAC_TxHTSIG2				0x110
++#define rPMAC_PHYDebug				0x114
++#define rPMAC_TxPacketNum			0x118
++#define rPMAC_TxIdle					0x11c
++#define rPMAC_TxMACHeader0			0x120
++#define rPMAC_TxMACHeader1			0x124
++#define rPMAC_TxMACHeader2			0x128
++#define rPMAC_TxMACHeader3			0x12c
++#define rPMAC_TxMACHeader4			0x130
++#define rPMAC_TxMACHeader5			0x134
++#define rPMAC_TxDataType			0x138
++#define rPMAC_TxRandomSeed		0x13c
++#define rPMAC_CCKPLCPPreamble		0x140
++#define rPMAC_CCKPLCPHeader		0x144
++#define rPMAC_CCKCRC16				0x148
++#define rPMAC_OFDMRxCRC32OK		0x170
++#define rPMAC_OFDMRxCRC32Er		0x174
++#define rPMAC_OFDMRxParityEr		0x178
++#define rPMAC_OFDMRxCRC8Er			0x17c
++#define rPMAC_CCKCRxRC16Er			0x180
++#define rPMAC_CCKCRxRC32Er			0x184
++#define rPMAC_CCKCRxRC32OK			0x188
++#define rPMAC_TxStatus				0x18c
++
++/*
++ * 3. Page8(0x800)
++ *   */
++#define rFPGA0_RFMOD				0x800	/* RF mode & CCK TxSC */ /* RF BW Setting?? */
++
++#define rFPGA0_TxInfo				0x804	/* Status report?? */
++#define rFPGA0_PSDFunction			0x808
++#define rFPGA0_TxGainStage			0x80c	/* Set TX PWR init gain? */
++
++#define rFPGA0_XA_HSSIParameter1	0x820	/* RF 3 wire register */
++#define rFPGA0_XA_HSSIParameter2	0x824
++#define rFPGA0_XB_HSSIParameter1	0x828
++#define rFPGA0_XB_HSSIParameter2	0x82c
++
++#define rFPGA0_XAB_SwitchControl	0x858	/* RF Channel switch */
++#define rFPGA0_XCD_SwitchControl	0x85c
++
++#define rFPGA0_XAB_RFParameter		0x878	/* RF Parameter */
++#define rFPGA0_XCD_RFParameter		0x87c
++
++#define rFPGA0_AnalogParameter1	0x880	/* Crystal cap setting RF-R/W protection for parameter4?? */
++#define rFPGA0_AnalogParameter2	0x884
++#define rFPGA0_AnalogParameter3	0x888
++#define rFPGA0_AdDaClockEn			0x888	/* enable ad/da clock1 for dual-phy */
++#define rFPGA0_AnalogParameter4	0x88c
++#define rFPGA0_XB_LSSIReadBack		0x8a4
++#define rFPGA0_XCD_RFPara	0x8b4
++
++/*
++ * 4. Page9(0x900)
++ *   */
++#define rFPGA1_RFMOD				0x900	/* RF mode & OFDM TxSC */ /* RF BW Setting?? */
++
++#define rFPGA1_TxBlock				0x904	/* Useless now */
++#define rFPGA1_DebugSelect			0x908	/* Useless now */
++#define rFPGA1_TxInfo				0x90c	/* Useless now */ /* Status report?? */
++
++/*
++ * PageA(0xA00)
++ *   */
++#define rCCK0_System				0xa00
++#define rCCK0_AFESetting				0xa04	/* Disable init gain now */ /* Select RX path by RSSI */
++#define	rCCK0_DSPParameter2			0xa1c	/* SQ threshold */
++#define rCCK0_TxFilter1				0xa20
++#define rCCK0_TxFilter2				0xa24
++#define rCCK0_DebugPort				0xa28	/* debug port and Tx filter3 */
++#define	rCCK0_FalseAlarmReport			0xa2c	/* 0xa2d	useless now 0xa30-a4f channel report */
++
++/*
++ * PageB(0xB00)
++ *   */
++#define rPdp_AntA				0xb00
++#define rPdp_AntA_4				0xb04
++#define rConfig_Pmpd_AntA			0xb28
++#define rConfig_AntA					0xb68
++#define rConfig_AntB					0xb6c
++#define rPdp_AntB					0xb70
++#define rPdp_AntB_4					0xb74
++#define rConfig_Pmpd_AntB			0xb98
++#define rAPK							0xbd8
++
++/*
++ * 6. PageC(0xC00)
++ *   */
++#define rOFDM0_LSTF					0xc00
++
++#define rOFDM0_TRxPathEnable		0xc04
++#define rOFDM0_TRMuxPar			0xc08
++#define rOFDM0_TRSWIsolation		0xc0c
++
++#define rOFDM0_XARxAFE				0xc10  /* RxIQ DC offset, Rx digital filter, DC notch filter */
++#define rOFDM0_XARxIQImbalance    	0xc14  /* RxIQ imblance matrix */
++#define rOFDM0_XBRxAFE		0xc18
++#define rOFDM0_XBRxIQImbalance	0xc1c
++#define rOFDM0_XCRxAFE		0xc20
++#define rOFDM0_XCRxIQImbalance	0xc24
++#define rOFDM0_XDRxAFE		0xc28
++#define rOFDM0_XDRxIQImbalance	0xc2c
++
++#define rOFDM0_RxDetector1			0xc30  /* PD, BW & SBD	 */ /* DM tune init gain */
++#define rOFDM0_RxDetector2			0xc34  /* SBD & Fame Sync. */
++#define rOFDM0_RxDetector3			0xc38  /* Frame Sync. */
++#define rOFDM0_RxDetector4			0xc3c  /* PD, SBD, Frame Sync & Short-GI */
++
++#define rOFDM0_RxDSP				0xc40  /* Rx Sync Path */
++#define rOFDM0_CFOandDAGC			0xc44  /* CFO & DAGC */
++#define rOFDM0_CCADropThreshold	0xc48 /* CCA Drop threshold */
++#define rOFDM0_ECCAThreshold		0xc4c /* energy CCA */
++
++#define rOFDM0_XAAGCCore1			0xc50	/* DIG */
++#define rOFDM0_XAAGCCore2			0xc54
++#define rOFDM0_XBAGCCore1			0xc58
++#define rOFDM0_XBAGCCore2			0xc5c
++#define rOFDM0_XCAGCCore1			0xc60
++#define rOFDM0_XCAGCCore2			0xc64
++#define rOFDM0_XDAGCCore1			0xc68
++#define rOFDM0_XDAGCCore2			0xc6c
++
++#define rOFDM0_AGCParameter1		0xc70
++#define rOFDM0_AGCParameter2		0xc74
++#define rOFDM0_AGCRSSITable		0xc78
++#define rOFDM0_HTSTFAGC			0xc7c
++
++#define rOFDM0_XATxIQImbalance		0xc80	/* TX PWR TRACK and DIG */
++#define rOFDM0_XATxAFE				0xc84
++#define rOFDM0_XBTxIQImbalance		0xc88
++#define rOFDM0_XBTxAFE				0xc8c
++#define rOFDM0_XCTxIQImbalance		0xc90
++#define rOFDM0_XCTxAFE		0xc94
++#define rOFDM0_XDTxIQImbalance		0xc98
++#define rOFDM0_XDTxAFE				0xc9c
++
++#define rOFDM0_RxIQExtAnta			0xca0
++#define rOFDM0_TxCoeff1				0xca4
++#define rOFDM0_TxCoeff2				0xca8
++#define rOFDM0_TxCoeff3				0xcac
++#define rOFDM0_TxCoeff4				0xcb0
++#define rOFDM0_TxCoeff5				0xcb4
++#define rOFDM0_TxCoeff6				0xcb8
++#define rOFDM0_RxHPParameter		0xce0
++#define rOFDM0_TxPseudoNoiseWgt	0xce4
++#define rOFDM0_FrameSync			0xcf0
++#define rOFDM0_DFSReport			0xcf4
++
++/*
++ * 7. PageD(0xD00)
++ *   */
++#define rOFDM1_LSTF					0xd00
++#define rOFDM1_TRxPathEnable		0xd04
++
++/*
++ * 8. PageE(0xE00)
++ *   */
++#define rTxAGC_A_Rate18_06			0xe00
++#define rTxAGC_A_Rate54_24			0xe04
++#define rTxAGC_A_CCK1_Mcs32		0xe08
++#define rTxAGC_A_Mcs03_Mcs00		0xe10
++#define rTxAGC_A_Mcs07_Mcs04		0xe14
++#define rTxAGC_A_Mcs11_Mcs08		0xe18
++#define rTxAGC_A_Mcs15_Mcs12		0xe1c
++
++#define rTxAGC_B_Rate18_06			0x830
++#define rTxAGC_B_Rate54_24			0x834
++#define rTxAGC_B_CCK1_55_Mcs32	0x838
++#define rTxAGC_B_Mcs03_Mcs00		0x83c
++#define rTxAGC_B_Mcs07_Mcs04		0x848
++#define rTxAGC_B_Mcs11_Mcs08		0x84c
++#define rTxAGC_B_Mcs15_Mcs12		0x868
++#define rTxAGC_B_CCK11_A_CCK2_11	0x86c
++
++#define rFPGA0_IQK					0xe28
++#define rTx_IQK_Tone_A				0xe30
++#define rRx_IQK_Tone_A				0xe34
++#define rTx_IQK_PI_A				0xe38
++#define rRx_IQK_PI_A				0xe3c
++
++#define rTx_IQK						0xe40
++#define rRx_IQK						0xe44
++#define rIQK_AGC_Pts					0xe48
++#define rIQK_AGC_Rsp				0xe4c
++#define rTx_IQK_Tone_B				0xe50
++#define rRx_IQK_Tone_B				0xe54
++#define rTx_IQK_PI_B					0xe58
++#define rRx_IQK_PI_B					0xe5c
++#define rIQK_AGC_Cont				0xe60
++
++#define rBlue_Tooth					0xe6c
++#define rRx_Wait_CCA				0xe70
++#define rTx_CCK_RFON				0xe74
++#define rTx_CCK_BBON				0xe78
++#define rTx_OFDM_RFON				0xe7c
++#define rTx_OFDM_BBON				0xe80
++#define rTx_To_Rx					0xe84
++#define rTx_To_Tx					0xe88
++#define rRx_CCK						0xe8c
++
++#define rTx_Power_Before_IQK_A		0xe94
++#define rTx_Power_After_IQK_A		0xe9c
++
++#define rRx_Power_Before_IQK_A		0xea0
++#define rRx_Power_Before_IQK_A_2	0xea4
++#define rRx_Power_After_IQK_A		0xea8
++#define rRx_Power_After_IQK_A_2		0xeac
++
++#define rTx_Power_Before_IQK_B		0xeb4
++#define rTx_Power_After_IQK_B		0xebc
++
++#define rRx_Power_Before_IQK_B		0xec0
++#define rRx_Power_Before_IQK_B_2	0xec4
++#define rRx_Power_After_IQK_B		0xec8
++#define rRx_Power_After_IQK_B_2		0xecc
++
++#define rRx_OFDM					0xed0
++#define rRx_Wait_RIFS				0xed4
++#define rRx_TO_Rx					0xed8
++#define rStandby						0xedc
++#define rSleep						0xee0
++#define rPMPD_ANAEN				0xeec
++
++
++/* 2. Page8(0x800) */
++#define bRFMOD						0x1	/* Reg 0x800 rFPGA0_RFMOD */
++#define bJapanMode					0x2
++#define bCCKTxSC					0x30
++#define bCCKEn						0x1000000
++#define bOFDMEn						0x2000000
++#define bXBTxAGC                  			0xf00	/* Reg 80c rFPGA0_TxGainStage */
++#define bXCTxAGC			0xf000
++#define bXDTxAGC			0xf0000
++
++/* 4. PageA(0xA00) */
++#define bCCKBBMode                			0x3	/* Useless */
++#define bCCKTxPowerSaving		0x80
++#define bCCKRxPowerSaving		0x40
++
++#define bCCKSideBand              		0x10	/* Reg 0xa00 rCCK0_System 20/40 switch */
++
++#define bCCKScramble              		0x8	/* Useless */
++#define bCCKAntDiversity			0x8000
++#define bCCKCarrierRecovery		0x4000
++#define bCCKTxRate			0x3000
++#define bCCKDCCancel			0x0800
++#define bCCKISICancel			0x0400
++#define bCCKMatchFilter		0x0200
++#define bCCKEqualizer			0x0100
++#define bCCKPreambleDetect		0x800000
++#define bCCKFastFalseCCA		0x400000
++#define bCCKChEstStart		0x300000
++#define bCCKCCACount		0x080000
++#define bCCKcs_lim			0x070000
++#define bCCKBistMode			0x80000000
++#define bCCKCCAMask			0x40000000
++#define bCCKTxDACPhase		0x4
++#define bCCKRxADCPhase         	   	0x20000000   /* r_rx_clk */
++#define bCCKr_cp_mode0		0x0100
++#define bCCKTxDCOffset		0xf0
++#define bCCKRxDCOffset		0xf
++#define bCCKCCAMode			0xc000
++#define bCCKFalseCS_lim		0x3f00
++#define bCCKCS_ratio			0xc00000
++#define bCCKCorgBit_sel		0x300000
++#define bCCKPD_lim			0x0f0000
++#define bCCKNewCCA		0x80000000
++#define bCCKRxHPofIG		0x8000
++#define bCCKRxIG			0x7f00
++#define bCCKLNAPolarity		0x800000
++#define bCCKRx1stGain		0x7f0000
++#define bCCKRFExtend              		0x20000000 /* CCK Rx Iinital gain polarity */
++#define bCCKRxAGCSatLevel		0x1f000000
++#define bCCKRxAGCSatCount		0xe0
++#define bCCKRxRFSettle            		0x1f       /* AGCsamp_dly */
++#define bCCKFixedRxAGC		0x8000
++/* #define bCCKRxAGCFormat		0x4000 */   /* remove to HSSI register 0x824 */
++#define bCCKAntennaPolarity		0x2000
++#define bCCKTxFilterType		0x0c00
++#define bCCKRxAGCReportType		0x0300
++#define bCCKRxDAGCEn		0x80000000
++#define bCCKRxDAGCPeriod		0x20000000
++#define bCCKRxDAGCSatLevel		0x1f000000
++#define bCCKTimingRecovery		0x800000
++#define bCCKTxC0			0x3f0000
++#define bCCKTxC1			0x3f000000
++#define bCCKTxC2			0x3f
++#define bCCKTxC3			0x3f00
++#define bCCKTxC4			0x3f0000
++#define bCCKTxC5			0x3f000000
++#define bCCKTxC6			0x3f
++#define bCCKTxC7			0x3f00
++#define bCCKDebugPort		0xff0000
++#define bCCKDACDebug		0x0f000000
++#define bCCKFalseAlarmEnable		0x8000
++#define bCCKFalseAlarmRead		0x4000
++#define bCCKTRSSI			0x7f
++#define bCCKRxAGCReport		0xfe
++#define bCCKRxReport_AntSel		0x80000000
++#define bCCKRxReport_MFOff		0x40000000
++#define bCCKRxRxReport_SQLoss	0x20000000
++#define bCCKRxReport_Pktloss		0x10000000
++#define bCCKRxReport_Lockedbit	0x08000000
++#define bCCKRxReport_RateError	0x04000000
++#define bCCKRxReport_RxRate		0x03000000
++#define bCCKRxFACounterLower	0xff
++#define bCCKRxFACounterUpper	0xff000000
++#define bCCKRxHPAGCStart		0xe000
++#define bCCKRxHPAGCFinal		0x1c00
++#define bCCKRxFalseAlarmEnable	0x8000
++#define bCCKFACounterFreeze		0x4000
++#define bCCKTxPathSel		0x10000000
++#define bCCKDefaultRxPath		0xc000000
++#define bCCKOptionRxPath		0x3000000
++
++/* 6. PageE(0xE00) */
++#define bSTBCEn                  			0x4	/* Useless */
++#define bAntennaMapping		0x10
++#define bNss				0x20
++#define bCFOAntSumD		0x200
++#define bPHYCounterReset		0x8000000
++#define bCFOReportGet			0x4000000
++#define bOFDMContinueTx		0x10000000
++#define bOFDMSingleCarrier		0x20000000
++#define bOFDMSingleTone		0x40000000
++
++
++/*
++ * Other Definition
++ *   */
++
++#define bEnable                   0x1	/* Useless */
++#define bDisable                  0x0
++
++/* byte endable for srwrite */
++#define bByte0                    		0x1	/* Useless */
++#define bByte1		0x2
++#define bByte2		0x4
++#define bByte3		0x8
++#define bWord0		0x3
++#define bWord1		0xc
++#define bDWord		0xf
++
++/* for PutRegsetting & GetRegSetting BitMask */
++#define bMaskByte0                		0xff	/* Reg 0xc50 rOFDM0_XAAGCCore~0xC6f */
++#define bMaskByte1		0xff00
++#define bMaskByte2		0xff0000
++#define bMaskByte3		0xff000000
++#define bMaskHWord	0xffff0000
++#define bMaskLWord		0x0000ffff
++#define bMaskDWord	0xffffffff
++#define bMaskH3Bytes				0xffffff00
++#define bMask12Bits				0xfff
++#define bMaskH4Bits				0xf0000000
++#define bMaskOFDM_D			0xffc00000
++#define bMaskCCK				0x3f3f3f3f
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8812PwrSeq.h b/drivers/net/wireless/rtl8723du/include/Hal8812PwrSeq.h
+new file mode 100644
+index 0000000..e089c1a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8812PwrSeq.h
+@@ -0,0 +1,209 @@
++
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __HAL8812PWRSEQ_H__
++#define __HAL8812PWRSEQ_H__
++
++#include "HalPwrSeqCmd.h"
++
++/*
++	Check document WB-110628-DZ-RTL8195 (Jaguar) Power Architecture-R04.pdf
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transision from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++*/
++#define	RTL8812_TRANS_CARDEMU_TO_ACT_STEPS	15
++#define	RTL8812_TRANS_ACT_TO_CARDEMU_STEPS	15
++#define	RTL8812_TRANS_CARDEMU_TO_SUS_STEPS	15
++#define	RTL8812_TRANS_SUS_TO_CARDEMU_STEPS	15
++#define	RTL8812_TRANS_CARDEMU_TO_PDN_STEPS	15
++#define	RTL8812_TRANS_PDN_TO_CARDEMU_STEPS	15
++#define	RTL8812_TRANS_ACT_TO_LPS_STEPS	15
++#define	RTL8812_TRANS_LPS_TO_ACT_STEPS	15
++#define	RTL8812_TRANS_END_STEPS	1
++
++
++#define RTL8812_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0},/* disable SW LPS 0x04[10]=0*/	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1    power ready*/	\
++	/*{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0}, disable HWPDN 0x04[15]=0*/ \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, 0},/* disable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* polling until return 0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0},/**/
++
++#define RTL8812_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0c00, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x04}, /* 0xc00[7:0] = 4	turn off 3-wire */	\
++	{0x0e00, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x04}, /* 0xe00[7:0] = 4	turn off 3-wire */	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /* 0x2[0] = 0	 RESET BB, CLOSE RF */	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},  /* Whole BB is reset*/			\
++	/*{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},//0x1F[7:0] = 0 turn off RF*/	\
++	/*{0x004E, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},//0x4C[23] = 0x4E[7] = 0, switch DPDT_SEL_P output from register 0x65[2] */	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x2A}, /* 0x07[7:0] = 0x28 sps pwm mode 0x2a for BT coex*/	\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x02, 0},/*0x8[1] = 0 ANA clk = 500k */	\
++	/*{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0 | BIT1, 0}, //  0x02[1:0] = 0	reset BB */	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/
++
++#define RTL8812_TRANS_CARDEMU_TO_SUS													\
++	/* format */								\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0042, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xF0, 0xcc},\
++	{0x0042, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xF0, 0xEC},\
++	{0x0043, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x07},/* gpio11 input mode, gpio10~8 output mode */	\
++	{0x0045, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio 0~7 output same value as input ?? */	\
++	{0x0046, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xff},/* gpio0~7 output mode */	\
++	{0x0047, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/* 0x47[7:0] = 00 gpio mode */	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/* suspend option all off */	\
++	{0x0014, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x80, BIT7},/*0x14[7] = 1 turn on ZCD */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x01, BIT0},/* 0x15[0] =1 trun on ZCD */	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x10, BIT4},/*0x23[4] = 1 hpon LDO sleep mode */	\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x02, 0},/*0x8[1] = 0 ANA clk = 500k */	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, BIT3}, /*0x04[11] = 2b'11 enable WL suspend for PCIe*/
++
++#define RTL8812_TRANS_SUS_TO_CARDEMU													\
++	/* format */								\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, 0}, /*0x04[11] = 2b'01enable WL suspend*/   \
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x10, 0},/*0x23[4] = 0 hpon LDO sleep mode leave */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x01, 0},/* 0x15[0] =0 trun off ZCD */	\
++	{0x0014, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x80, 0},/*0x14[7] = 0 turn off ZCD */	\
++	{0x0046, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio0~7 input mode */	\
++	{0x0043, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio11 input mode, gpio10~8 input mode */
++
++#define RTL8812_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	/**{0x0194, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, //0x194[0]=0 , disable 32K clock*/	\
++	/**{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x94}, //0x93 = 0x94 , 90[30] =0 enable 500k ANA clock .switch clock from 12M to 500K , 90 [26] =0 disable EEprom loader clock*/	\
++	{0x0003, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0}, /*0x03[2] = 0, reset 8051*/	\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x05}, /*0x80 = 05h if reload fw, fill the default value of host_CPU handshake field*/	\
++	{0x0042, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xF0, 0xcc},\
++	{0x0042, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xF0, 0xEC},\
++	{0x0043, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x07},/* gpio11 input mode, gpio10~8 output mode */	\
++	{0x0045, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio 0~7 output same value as input ?? */	\
++	{0x0046, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xff},/* gpio0~7 output mode */	\
++	{0x0047, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/* 0x47[7:0] = 00 gpio mode */	\
++	{0x0014, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x80, BIT7},/*0x14[7] = 1 turn on ZCD */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x01, BIT0},/* 0x15[0] =1 trun on ZCD */	\
++	{0x0012, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x01, 0},/*0x12[0] = 0 force PFM mode */	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x10, BIT4},/*0x23[4] = 1 hpon LDO sleep mode */	\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x02, 0},/*0x8[1] = 0 ANA clk = 500k */	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07 = 0x20 , SOP option to disable BG/MB*/	\
++	{0x001f, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0}, /*0x01f[1]=0 , disable RFC_0  control  REG_RF_CTRL_8812 */	\
++	{0x0076, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0}, /*0x076[1]=0 , disable RFC_1  control REG_OPT_CTRL_8812 +2 */	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, BIT3}, /*0x04[11] = 2b'01 enable WL suspend*/
++
++#define RTL8812_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/                       \
++	{0x0012, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*0x12[0] = 1 force PWM mode */	\
++	{0x0014, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x80, 0},/*0x14[7] = 0 turn off ZCD */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x01, 0},/* 0x15[0] =0 trun off ZCD */	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x10, 0},/*0x23[4] = 0 hpon LDO leave sleep mode */	\
++	{0x0046, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio0~7 input mode */	\
++	{0x0043, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio11 input mode, gpio10~8 input mode */ \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0}, /*0x04[10] = 0, enable SW LPS PCIE only*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, 0}, /*0x04[11] = 2b'01enable WL suspend*/	\
++	{0x0003, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2}, /*0x03[2] = 1, enable 8051*/	\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*PCIe DMA start*/
++
++
++#define RTL8812_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
++
++#define RTL8812_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
++
++#define RTL8812_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*PCIe DMA stop*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x7F},/*Tx Pause*/		\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0c00, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x04}, /* 0xc00[7:0] = 4	turn off 3-wire */	\
++	{0x0e00, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x04}, /* 0xe00[7:0] = 4	turn off 3-wire */	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated, and RF closed*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},  /* Whole BB is reset*/			\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x03},/*Reset MAC TRX*/			\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/		\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/
++
++
++#define RTL8812_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/	\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM*/	\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/	\
++	{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/	\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*.	0x08[4] = 0		 switch TSF to 40M*/	\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, 0}, /*Polling 0x109[7]=0  TSF in 40M*/			\
++	{0x0029, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6 | BIT7, 0}, /*.	0x29[7:6] = 2b'00	 enable BB clock*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1*/					\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++#define RTL8812_TRANS_END																\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/		\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++extern WLAN_PWR_CFG rtl8812_power_on_flow[RTL8812_TRANS_CARDEMU_TO_ACT_STEPS + RTL8812_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8812_radio_off_flow[RTL8812_TRANS_ACT_TO_CARDEMU_STEPS + RTL8812_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8812_card_disable_flow[RTL8812_TRANS_ACT_TO_CARDEMU_STEPS + RTL8812_TRANS_CARDEMU_TO_PDN_STEPS + RTL8812_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8812_card_enable_flow[RTL8812_TRANS_ACT_TO_CARDEMU_STEPS + RTL8812_TRANS_CARDEMU_TO_PDN_STEPS + RTL8812_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8812_suspend_flow[RTL8812_TRANS_ACT_TO_CARDEMU_STEPS + RTL8812_TRANS_CARDEMU_TO_SUS_STEPS + RTL8812_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8812_resume_flow[RTL8812_TRANS_ACT_TO_CARDEMU_STEPS + RTL8812_TRANS_CARDEMU_TO_SUS_STEPS + RTL8812_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8812_hwpdn_flow[RTL8812_TRANS_ACT_TO_CARDEMU_STEPS + RTL8812_TRANS_CARDEMU_TO_PDN_STEPS + RTL8812_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8812_enter_lps_flow[RTL8812_TRANS_ACT_TO_LPS_STEPS + RTL8812_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8812_leave_lps_flow[RTL8812_TRANS_LPS_TO_ACT_STEPS + RTL8812_TRANS_END_STEPS];
++
++#endif /* __HAL8812PWRSEQ_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8814PhyCfg.h b/drivers/net/wireless/rtl8723du/include/Hal8814PhyCfg.h
+new file mode 100644
+index 0000000..27a51d3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8814PhyCfg.h
+@@ -0,0 +1,269 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8814PHYCFG_H__
++#define __INC_HAL8814PHYCFG_H__
++
++
++/*--------------------------Define Parameters-------------------------------*/
++#define LOOP_LIMIT				5
++#define MAX_STALL_TIME			50		/* us */
++#define AntennaDiversityValue	0x80	/* (Adapter->bSoftwareAntennaDiversity ? 0x00 : 0x80) */
++#define MAX_TXPWR_IDX_NMODE_92S	63
++#define Reset_Cnt_Limit			3
++
++
++#ifdef CONFIG_PCI_HCI
++	#define MAX_AGGR_NUM	0x0B
++#else
++	#define MAX_AGGR_NUM	0x07
++#endif /* CONFIG_PCI_HCI */
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++/*------------------------------Define structure----------------------------*/
++
++
++/* BB/RF related */
++
++#define	SIC_ENABLE				0
++
++/*------------------------------Define structure----------------------------*/
++
++
++/*------------------------Export global variable----------------------------*/
++/*------------------------Export global variable----------------------------*/
++
++
++/*------------------------Export Marco Definition---------------------------*/
++/*------------------------Export Marco Definition---------------------------*/
++
++
++/*--------------------------Exported Function prototype---------------------*/
++/* 1. BB register R/W API */
++
++extern	u32
++PHY_QueryBBReg8814A(IN	PADAPTER	Adapter,
++		    IN	u32		RegAddr,
++		    IN	u32		BitMask);
++
++
++VOID
++PHY_SetBBReg8814A(IN	PADAPTER	Adapter,
++		  IN	u32		RegAddr,
++		  IN	u32		BitMask,
++		  IN	u32		Data);
++
++
++extern	u32
++PHY_QueryRFReg8814A(IN	PADAPTER			Adapter,
++		    IN	u8			eRFPath,
++		    IN	u32			RegAddr,
++		    IN	u32			BitMask);
++
++
++void
++PHY_SetRFReg8814A(IN	PADAPTER			Adapter,
++		  IN	u8			eRFPath,
++		  IN	u32				RegAddr,
++		  IN	u32				BitMask,
++		  IN	u32				Data);
++
++/* 1 3. Initial BB/RF config by reading MAC/BB/RF txt. */
++s32
++phy_BB8814A_Config_ParaFile(
++	IN	PADAPTER	Adapter
++);
++
++VOID
++PHY_ConfigBB_8814A(
++	IN	PADAPTER	Adapter
++);
++
++
++VOID
++phy_ADC_CLK_8814A(
++	IN	PADAPTER	Adapter
++);
++
++s32
++PHY_RFConfig8814A(
++	IN	PADAPTER	Adapter
++);
++
++/*
++ * RF Power setting
++ *
++ * BOOLEAN	PHY_SetRFPowerState8814A(PADAPTER Adapter, rt_rf_power_state	eRFPowerState); */
++
++/* 1 5. Tx  Power setting API */
++
++VOID
++PHY_GetTxPowerLevel8814(
++	IN	PADAPTER		Adapter,
++	OUT ps4Byte			powerlevel
++);
++
++VOID
++PHY_SetTxPowerLevel8814(
++	IN	PADAPTER		Adapter,
++	IN	u8			Channel
++);
++
++u8
++PHY_GetTxPowerIndex_8814A(
++	IN	PADAPTER			Adapter,
++	IN  u8				RFPath,
++	IN	u8				Rate,
++	IN	CHANNEL_WIDTH		BandWidth,
++	IN	u8				Channel
++);
++
++u8
++PHY_GetTxPowerIndex8814A(
++	IN	PADAPTER			Adapter,
++	IN  u8				RFPath,
++	IN	u8				Rate,
++	IN	u8				BandWidth,
++	IN	u8				Channel,
++	struct txpwr_idx_comp *tic
++);
++
++VOID
++PHY_SetTxPowerIndex_8814A(
++	IN	PADAPTER			Adapter,
++	IN	u32				PowerIndex,
++	IN	u8				RFPath,
++	IN	u8				Rate
++);
++
++
++BOOLEAN
++PHY_UpdateTxPowerDbm8814A(
++	IN	PADAPTER	Adapter,
++	IN	s4Byte		powerInDbm
++);
++
++
++u32
++PHY_GetTxBBSwing_8814A(
++	IN	PADAPTER	Adapter,
++	IN	BAND_TYPE	Band,
++	IN	u8		RFPath
++);
++
++
++
++/* 1 6. Channel setting API */
++
++VOID
++PHY_SwChnlTimerCallback8814A(
++	IN	PRT_TIMER		pTimer
++);
++
++VOID
++PHY_SwChnlWorkItemCallback8814A(
++	IN PVOID            pContext
++);
++
++
++VOID
++HAL_HandleSwChnl8814A(
++	IN	PADAPTER	pAdapter,
++	IN	u8		channel
++);
++
++VOID
++PHY_SwChnlSynchronously8814A(IN	PADAPTER		pAdapter,
++			     IN	u8			channel);
++
++VOID
++PHY_SwChnlAndSetBWModeCallback8814A(IN PVOID            pContext);
++
++
++VOID
++PHY_HandleSwChnlAndSetBW8814A(
++	IN	PADAPTER			Adapter,
++	IN	BOOLEAN				bSwitchChannel,
++	IN	BOOLEAN				bSetBandWidth,
++	IN	u8					ChannelNum,
++	IN	CHANNEL_WIDTH		ChnlWidth,
++	IN	u8					ChnlOffsetOf40MHz,
++	IN	u8					ChnlOffsetOf80MHz,
++	IN	u8					CenterFrequencyIndex1
++);
++
++
++BOOLEAN
++PHY_QueryRFPathSwitch_8814A(IN	PADAPTER	pAdapter);
++
++
++
++#if (USE_WORKITEM)
++VOID
++RtCheckForHangWorkItemCallback8814A(
++	IN PVOID   pContext
++);
++#endif
++
++BOOLEAN
++SetAntennaConfig8814A(
++	IN	PADAPTER	Adapter,
++	IN	u8		DefaultAnt
++);
++
++VOID
++PHY_SetRFEReg8814A(
++	IN PADAPTER		Adapter,
++	IN BOOLEAN		bInit,
++	IN u8		Band
++);
++
++
++s32
++PHY_SwitchWirelessBand8814A(
++	IN PADAPTER		 Adapter,
++	IN u8		Band
++);
++
++VOID
++PHY_SetIO_8814A(
++	PADAPTER		pAdapter
++);
++
++VOID
++PHY_SetSwChnlBWMode8814(
++	IN	PADAPTER			Adapter,
++	IN	u8					channel,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					Offset40,
++	IN	u8					Offset80
++);
++
++s32 PHY_MACConfig8814(PADAPTER Adapter);
++int PHY_BBConfig8814(PADAPTER	Adapter);
++VOID PHY_Set_SecCCATH_by_RXANT_8814A(PADAPTER	pAdapter, u4Byte ulAntennaRx);
++
++
++
++/*--------------------------Exported Function prototype---------------------*/
++
++/*--------------------------Exported Function prototype---------------------*/
++#endif /* __INC_HAL8192CPHYCFG_H */
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8814PhyReg.h b/drivers/net/wireless/rtl8723du/include/Hal8814PhyReg.h
+new file mode 100644
+index 0000000..0aec994
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8814PhyReg.h
+@@ -0,0 +1,866 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8814PHYREG_H__
++#define __INC_HAL8814PHYREG_H__
++/*--------------------------Define Parameters-------------------------------*/
++/*
++ * BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++ * 3. RF register 0x00-2E
++ * 4. Bit Mask for BB/RF register
++ * 5. Other defintion for BB/RF R/W
++ *   */
++
++
++/* BB Register Definition */
++
++#define rCCAonSec_Jaguar		0x838
++#define rPwed_TH_Jaguar			0x830
++#define rL1_Weight_Jaguar		0x840
++#define	r_L1_SBD_start_time		0x844
++
++/* BW and sideband setting */
++#define rBWIndication_Jaguar		0x834
++#define rL1PeakTH_Jaguar		0x848
++#define rRFMOD_Jaguar			0x8ac	/* RF mode */
++#define rADC_Buf_Clk_Jaguar		0x8c4
++#define	rADC_Buf_40_Clk_Jaguar2		0x8c8
++#define rRFECTRL_Jaguar			0x900
++#define bRFMOD_Jaguar			0xc3
++#define rCCK_System_Jaguar		0xa00   /* for cck sideband */
++#define bCCK_System_Jaguar		0x10
++
++/* Block & Path enable */
++#define rOFDMCCKEN_Jaguar 		0x808 /* OFDM/CCK block enable */
++#define bOFDMEN_Jaguar			0x20000000
++#define bCCKEN_Jaguar			0x10000000
++#define rRxPath_Jaguar			0x808	/* Rx antenna */
++#define bRxPath_Jaguar			0xff
++#define rTxPath_Jaguar			0x80c	/* Tx antenna */
++#define bTxPath_Jaguar			0x0fffffff
++#define rCCK_RX_Jaguar			0xa04	/* for cck rx path selection */
++#define bCCK_RX_Jaguar			0x0c000000
++#define rVhtlen_Use_Lsig_Jaguar	0x8c3	/* Use LSIG for VHT length */
++
++#define	rRxPath_Jaguar2				0xa04	/* Rx antenna */
++#define	rTxAnt_1Nsts_Jaguar2		0x93c	/* Tx antenna for 1Nsts */
++#define	rTxAnt_23Nsts_Jaguar2		0x940	/* Tx antenna for 2Nsts and 3Nsts */
++
++
++/* RF read/write-related */
++#define rHSSIRead_Jaguar			0x8b0  /* RF read addr */
++#define bHSSIRead_addr_Jaguar		0xff
++#define bHSSIRead_trigger_Jaguar	0x100
++#define rA_PIRead_Jaguar			0xd04 /* RF readback with PI */
++#define rB_PIRead_Jaguar			0xd44 /* RF readback with PI */
++#define rA_SIRead_Jaguar			0xd08 /* RF readback with SI */
++#define rB_SIRead_Jaguar			0xd48 /* RF readback with SI */
++#define rRead_data_Jaguar			0xfffff
++#define rA_LSSIWrite_Jaguar			0xc90 /* RF write addr */
++#define rB_LSSIWrite_Jaguar			0xe90 /* RF write addr */
++#define bLSSIWrite_data_Jaguar		0x000fffff
++#define bLSSIWrite_addr_Jaguar		0x0ff00000
++
++#define	rC_PIRead_Jaguar2			0xd84 /* RF readback with PI */
++#define	rD_PIRead_Jaguar2			0xdC4 /* RF readback with PI */
++#define	rC_SIRead_Jaguar2			0xd88 /* RF readback with SI */
++#define	rD_SIRead_Jaguar2			0xdC8 /* RF readback with SI */
++#define	rC_LSSIWrite_Jaguar2		0x1890 /* RF write addr */
++#define	rD_LSSIWrite_Jaguar2		0x1A90 /* RF write addr */
++
++
++/* YN: mask the following register definition temporarily */
++#define rFPGA0_XA_RFInterfaceOE			0x860	/* RF Channel switch */
++#define rFPGA0_XB_RFInterfaceOE			0x864
++
++#define rFPGA0_XAB_RFInterfaceSW		0x870	/* RF Interface Software Control */
++#define rFPGA0_XCD_RFInterfaceSW		0x874
++
++/* #define rFPGA0_XAB_RFParameter		0x878 */	/* RF Parameter
++ * #define rFPGA0_XCD_RFParameter		0x87c */
++
++/* #define rFPGA0_AnalogParameter1		0x880 */	/* Crystal cap setting RF-R/W protection for parameter4??
++ * #define rFPGA0_AnalogParameter2		0x884
++ * #define rFPGA0_AnalogParameter3		0x888
++ * #define rFPGA0_AdDaClockEn			0x888 */	/* enable ad/da clock1 for dual-phy
++ * #define rFPGA0_AnalogParameter4		0x88c */
++
++
++/* CCK TX scaling */
++#define rCCK_TxFilter1_Jaguar		0xa20
++#define bCCK_TxFilter1_C0_Jaguar	0x00ff0000
++#define bCCK_TxFilter1_C1_Jaguar		0xff000000
++#define rCCK_TxFilter2_Jaguar		0xa24
++#define bCCK_TxFilter2_C2_Jaguar		0x000000ff
++#define bCCK_TxFilter2_C3_Jaguar		0x0000ff00
++#define bCCK_TxFilter2_C4_Jaguar		0x00ff0000
++#define bCCK_TxFilter2_C5_Jaguar		0xff000000
++#define rCCK_TxFilter3_Jaguar		0xa28
++#define bCCK_TxFilter3_C6_Jaguar		0x000000ff
++#define bCCK_TxFilter3_C7_Jaguar		0x0000ff00
++/* NBI & CSI Mask setting */
++#define	rCSI_Mask_Setting1_Jaguar	0x874
++#define	rCSI_Fix_Mask0_Jaguar		0x880
++#define	rCSI_Fix_Mask1_Jaguar		0x884
++#define	rCSI_Fix_Mask2_Jaguar		0x888
++#define	rCSI_Fix_Mask3_Jaguar		0x88c
++#define	rCSI_Fix_Mask4_Jaguar		0x890
++#define	rCSI_Fix_Mask5_Jaguar		0x894
++#define	rCSI_Fix_Mask6_Jaguar		0x898
++#define	rCSI_Fix_Mask7_Jaguar		0x89c
++#define	rNBI_Setting_Jaguar			0x87c
++
++
++/* YN: mask the following register definition temporarily
++ * #define rPdp_AntA					0xb00
++ * #define rPdp_AntA_4				0xb04
++ * #define rConfig_Pmpd_AntA			0xb28
++ * #define rConfig_AntA					0xb68
++ * #define rConfig_AntB					0xb6c
++ * #define rPdp_AntB					0xb70
++ * #define rPdp_AntB_4					0xb74
++ * #define rConfig_Pmpd_AntB			0xb98
++ * #define rAPK							0xbd8 */
++
++/* RXIQC */
++#define rA_RxIQC_AB_Jaguar    	0xc10  /* RxIQ imblance matrix coeff. A & B */
++#define rA_RxIQC_CD_Jaguar    	0xc14  /* RxIQ imblance matrix coeff. C & D */
++#define rA_TxScale_Jaguar 		0xc1c  /* Pah_A TX scaling factor */
++#define rB_TxScale_Jaguar 		0xe1c  /* Path_B TX scaling factor */
++#define rB_RxIQC_AB_Jaguar    	0xe10  /* RxIQ imblance matrix coeff. A & B */
++#define rB_RxIQC_CD_Jaguar    	0xe14  /* RxIQ imblance matrix coeff. C & D */
++#define b_RxIQC_AC_Jaguar		0x02ff  /* bit mask for IQC matrix element A & C */
++#define b_RxIQC_BD_Jaguar		0x02ff0000 /* bit mask for IQC matrix element A & C */
++
++#define	rC_TxScale_Jaguar2 		0x181c  /* Pah_C TX scaling factor */
++#define	rD_TxScale_Jaguar2 		0x1A1c  /* Path_D TX scaling factor */
++#define	rRF_TxGainOffset		0x55
++
++/* DIG-related */
++#define rA_IGI_Jaguar				0xc50	/* Initial Gain for path-A */
++#define rB_IGI_Jaguar				0xe50	/* Initial Gain for path-B */
++#define	rC_IGI_Jaguar2				0x1850	/* Initial Gain for path-C */
++#define	rD_IGI_Jaguar2				0x1A50	/* Initial Gain for path-D */
++
++#define rOFDM_FalseAlarm1_Jaguar	0xf48  /* counter for break */
++#define rOFDM_FalseAlarm2_Jaguar	0xf4c  /* counter for spoofing */
++#define rCCK_FalseAlarm_Jaguar        	0xa5c /* counter for cck false alarm */
++#define b_FalseAlarm_Jaguar			0xffff
++#define rCCK_CCA_Jaguar				0xa08	/* cca threshold */
++#define bCCK_CCA_Jaguar				0x00ff0000
++
++/* Tx Power Ttraining-related */
++#define rA_TxPwrTraing_Jaguar		0xc54
++#define rB_TxPwrTraing_Jaguar		0xe54
++
++/* Report-related */
++#define rOFDM_ShortCFOAB_Jaguar	0xf60
++#define rOFDM_LongCFOAB_Jaguar		0xf64
++#define rOFDM_EndCFOAB_Jaguar		0xf70
++#define rOFDM_AGCReport_Jaguar		0xf84
++#define rOFDM_RxSNR_Jaguar			0xf88
++#define rOFDM_RxEVMCSI_Jaguar		0xf8c
++#define rOFDM_SIGReport_Jaguar		0xf90
++
++/* Misc functions */
++#define rEDCCA_Jaguar				0x8a4 /* EDCCA */
++#define bEDCCA_Jaguar				0xffff
++#define rAGC_table_Jaguar			0x82c   /* AGC tabel select */
++#define bAGC_table_Jaguar			0x3
++#define b_sel5g_Jaguar    				0x1000 /* sel5g */
++#define b_LNA_sw_Jaguar				0x8000 /* HW/WS control for LNA */
++#define rFc_area_Jaguar				0x860   /* fc_area */
++#define bFc_area_Jaguar				0x1ffe000
++#define rSingleTone_ContTx_Jaguar	0x914
++
++#define	rAGC_table_Jaguar2			0x958	/* AGC tabel select */
++#define	rDMA_trigger_Jaguar2		0x95C	/* ADC sample mode */
++
++
++/* RFE */
++#define rA_RFE_Pinmux_Jaguar	0xcb0  /* Path_A RFE cotrol pinmux */
++#define rB_RFE_Pinmux_Jaguar	0xeb0 /* Path_B RFE control pinmux */
++#define rA_RFE_Inv_Jaguar		0xcb4  /* Path_A RFE cotrol   */
++#define rB_RFE_Inv_Jaguar		0xeb4 /* Path_B RFE control */
++#define rA_RFE_Jaguar			0xcb8  /* Path_A RFE cotrol   */
++#define rB_RFE_Jaguar			0xeb8 /* Path_B RFE control */
++#define r_ANTSEL_SW_Jaguar		0x900 /* ANTSEL SW Control */
++#define bMask_RFEInv_Jaguar		0x3ff00000
++#define bMask_AntselPathFollow_Jaguar 0x00030000
++
++#define	rC_RFE_Pinmux_Jaguar	0x18B4	/* Path_C RFE cotrol pinmux */
++#define	rD_RFE_Pinmux_Jaguar	0x1AB4	/* Path_D RFE cotrol pinmux */
++#define	rA_RFE_Sel_Jaguar2		0x1990
++
++
++
++/* TX AGC */
++#define rTxAGC_A_CCK11_CCK1_JAguar				0xc20
++#define rTxAGC_A_Ofdm18_Ofdm6_JAguar				0xc24
++#define rTxAGC_A_Ofdm54_Ofdm24_JAguar			0xc28
++#define rTxAGC_A_MCS3_MCS0_JAguar					0xc2c
++#define rTxAGC_A_MCS7_MCS4_JAguar					0xc30
++#define rTxAGC_A_MCS11_MCS8_JAguar				0xc34
++#define rTxAGC_A_MCS15_MCS12_JAguar				0xc38
++#define rTxAGC_A_Nss1Index3_Nss1Index0_JAguar	0xc3c
++#define rTxAGC_A_Nss1Index7_Nss1Index4_JAguar	0xc40
++#define rTxAGC_A_Nss2Index1_Nss1Index8_JAguar	0xc44
++#define rTxAGC_A_Nss2Index5_Nss2Index2_JAguar	0xc48
++#define rTxAGC_A_Nss2Index9_Nss2Index6_JAguar	0xc4c
++#define rTxAGC_B_CCK11_CCK1_JAguar				0xe20
++#define rTxAGC_B_Ofdm18_Ofdm6_JAguar				0xe24
++#define rTxAGC_B_Ofdm54_Ofdm24_JAguar			0xe28
++#define rTxAGC_B_MCS3_MCS0_JAguar					0xe2c
++#define rTxAGC_B_MCS7_MCS4_JAguar					0xe30
++#define rTxAGC_B_MCS11_MCS8_JAguar				0xe34
++#define rTxAGC_B_MCS15_MCS12_JAguar				0xe38
++#define rTxAGC_B_Nss1Index3_Nss1Index0_JAguar		0xe3c
++#define rTxAGC_B_Nss1Index7_Nss1Index4_JAguar		0xe40
++#define rTxAGC_B_Nss2Index1_Nss1Index8_JAguar		0xe44
++#define rTxAGC_B_Nss2Index5_Nss2Index2_JAguar		0xe48
++#define rTxAGC_B_Nss2Index9_Nss2Index6_JAguar		0xe4c
++#define bTxAGC_byte0_Jaguar							0xff
++#define bTxAGC_byte1_Jaguar							0xff00
++#define bTxAGC_byte2_Jaguar							0xff0000
++#define bTxAGC_byte3_Jaguar							0xff000000
++
++
++/* TX AGC */
++#define		rTxAGC_A_CCK11_CCK1_Jaguar2	0xc20
++#define		rTxAGC_A_Ofdm18_Ofdm6_Jaguar2	0xc24
++#define		rTxAGC_A_Ofdm54_Ofdm24_Jaguar2	0xc28
++#define		rTxAGC_A_MCS3_MCS0_Jaguar2	0xc2c
++#define		rTxAGC_A_MCS7_MCS4_Jaguar2	0xc30
++#define		rTxAGC_A_MCS11_MCS8_Jaguar2	0xc34
++#define		rTxAGC_A_MCS15_MCS12_Jaguar2	0xc38
++#define		rTxAGC_A_MCS19_MCS16_Jaguar2	0xcd8
++#define		rTxAGC_A_MCS23_MCS20_Jaguar2	0xcdc
++#define		rTxAGC_A_Nss1Index3_Nss1Index0_Jaguar2	0xc3c
++#define		rTxAGC_A_Nss1Index7_Nss1Index4_Jaguar2	0xc40
++#define		rTxAGC_A_Nss2Index1_Nss1Index8_Jaguar2	0xc44
++#define		rTxAGC_A_Nss2Index5_Nss2Index2_Jaguar2	0xc48
++#define		rTxAGC_A_Nss2Index9_Nss2Index6_Jaguar2	0xc4c
++#define		rTxAGC_A_Nss3Index3_Nss3Index0_Jaguar2	0xce0
++#define		rTxAGC_A_Nss3Index7_Nss3Index4_Jaguar2	0xce4
++#define		rTxAGC_A_Nss3Index9_Nss3Index8_Jaguar2	0xce8
++#define		rTxAGC_B_CCK11_CCK1_Jaguar2	0xe20
++#define		rTxAGC_B_Ofdm18_Ofdm6_Jaguar2	0xe24
++#define		rTxAGC_B_Ofdm54_Ofdm24_Jaguar2	0xe28
++#define		rTxAGC_B_MCS3_MCS0_Jaguar2	0xe2c
++#define		rTxAGC_B_MCS7_MCS4_Jaguar2	0xe30
++#define		rTxAGC_B_MCS11_MCS8_Jaguar2	0xe34
++#define		rTxAGC_B_MCS15_MCS12_Jaguar2	0xe38
++#define		rTxAGC_B_MCS19_MCS16_Jaguar2	0xed8
++#define		rTxAGC_B_MCS23_MCS20_Jaguar2	0xedc
++#define		rTxAGC_B_Nss1Index3_Nss1Index0_Jaguar2	0xe3c
++#define		rTxAGC_B_Nss1Index7_Nss1Index4_Jaguar2	0xe40
++#define		rTxAGC_B_Nss2Index1_Nss1Index8_Jaguar2	0xe44
++#define		rTxAGC_B_Nss2Index5_Nss2Index2_Jaguar2	0xe48
++#define		rTxAGC_B_Nss2Index9_Nss2Index6_Jaguar2	0xe4c
++#define		rTxAGC_B_Nss3Index3_Nss3Index0_Jaguar2	0xee0
++#define		rTxAGC_B_Nss3Index7_Nss3Index4_Jaguar2	0xee4
++#define		rTxAGC_B_Nss3Index9_Nss3Index8_Jaguar2	0xee8
++#define		rTxAGC_C_CCK11_CCK1_Jaguar2	0x1820
++#define		rTxAGC_C_Ofdm18_Ofdm6_Jaguar2	0x1824
++#define		rTxAGC_C_Ofdm54_Ofdm24_Jaguar2	0x1828
++#define		rTxAGC_C_MCS3_MCS0_Jaguar2	0x182c
++#define		rTxAGC_C_MCS7_MCS4_Jaguar2	0x1830
++#define		rTxAGC_C_MCS11_MCS8_Jaguar2	0x1834
++#define		rTxAGC_C_MCS15_MCS12_Jaguar2	0x1838
++#define		rTxAGC_C_MCS19_MCS16_Jaguar2	0x18d8
++#define		rTxAGC_C_MCS23_MCS20_Jaguar2	0x18dc
++#define		rTxAGC_C_Nss1Index3_Nss1Index0_Jaguar2	0x183c
++#define		rTxAGC_C_Nss1Index7_Nss1Index4_Jaguar2	0x1840
++#define		rTxAGC_C_Nss2Index1_Nss1Index8_Jaguar2	0x1844
++#define		rTxAGC_C_Nss2Index5_Nss2Index2_Jaguar2	0x1848
++#define		rTxAGC_C_Nss2Index9_Nss2Index6_Jaguar2	0x184c
++#define		rTxAGC_C_Nss3Index3_Nss3Index0_Jaguar2	0x18e0
++#define		rTxAGC_C_Nss3Index7_Nss3Index4_Jaguar2	0x18e4
++#define		rTxAGC_C_Nss3Index9_Nss3Index8_Jaguar2	0x18e8
++#define		rTxAGC_D_CCK11_CCK1_Jaguar2	0x1a20
++#define		rTxAGC_D_Ofdm18_Ofdm6_Jaguar2	0x1a24
++#define		rTxAGC_D_Ofdm54_Ofdm24_Jaguar2	0x1a28
++#define		rTxAGC_D_MCS3_MCS0_Jaguar2	0x1a2c
++#define		rTxAGC_D_MCS7_MCS4_Jaguar2	0x1a30
++#define		rTxAGC_D_MCS11_MCS8_Jaguar2	0x1a34
++#define		rTxAGC_D_MCS15_MCS12_Jaguar2	0x1a38
++#define		rTxAGC_D_MCS19_MCS16_Jaguar2	0x1ad8
++#define		rTxAGC_D_MCS23_MCS20_Jaguar2	0x1adc
++#define		rTxAGC_D_Nss1Index3_Nss1Index0_Jaguar2	0x1a3c
++#define		rTxAGC_D_Nss1Index7_Nss1Index4_Jaguar2	0x1a40
++#define		rTxAGC_D_Nss2Index1_Nss1Index8_Jaguar2	0x1a44
++#define		rTxAGC_D_Nss2Index5_Nss2Index2_Jaguar2	0x1a48
++#define		rTxAGC_D_Nss2Index9_Nss2Index6_Jaguar2	0x1a4c
++#define		rTxAGC_D_Nss3Index3_Nss3Index0_Jaguar2	0x1ae0
++#define		rTxAGC_D_Nss3Index7_Nss3Index4_Jaguar2	0x1ae4
++#define		rTxAGC_D_Nss3Index9_Nss3Index8_Jaguar2	0x1ae8
++/* IQK YN: temporaily mask this part
++ * #define rFPGA0_IQK					0xe28
++ * #define rTx_IQK_Tone_A				0xe30
++ * #define rRx_IQK_Tone_A				0xe34
++ * #define rTx_IQK_PI_A					0xe38
++ * #define rRx_IQK_PI_A					0xe3c */
++
++/* #define rTx_IQK						0xe40 */
++/* #define rRx_IQK						0xe44 */
++/* #define rIQK_AGC_Pts					0xe48 */
++/* #define rIQK_AGC_Rsp					0xe4c */
++/* #define rTx_IQK_Tone_B				0xe50 */
++/* #define rRx_IQK_Tone_B				0xe54 */
++/* #define rTx_IQK_PI_B					0xe58 */
++/* #define rRx_IQK_PI_B					0xe5c */
++/* #define rIQK_AGC_Cont				0xe60 */
++
++
++/* AFE-related */
++#define rA_AFEPwr1_Jaguar					0xc60 /* dynamic AFE power control */
++#define rA_AFEPwr2_Jaguar					0xc64 /* dynamic AFE power control */
++#define rA_Rx_WaitCCA_Tx_CCKRFON_Jaguar	0xc68
++#define rA_Tx_CCKBBON_OFDMRFON_Jaguar	0xc6c
++#define rA_Tx_OFDMBBON_Tx2Rx_Jaguar		0xc70
++#define rA_Tx2Tx_RXCCK_Jaguar				0xc74
++#define rA_Rx_OFDM_WaitRIFS_Jaguar			0xc78
++#define rA_Rx2Rx_BT_Jaguar					0xc7c
++#define rA_sleep_nav_Jaguar					0xc80
++#define rA_pmpd_Jaguar						0xc84
++#define rB_AFEPwr1_Jaguar					0xe60 /* dynamic AFE power control */
++#define rB_AFEPwr2_Jaguar					0xe64 /* dynamic AFE power control */
++#define rB_Rx_WaitCCA_Tx_CCKRFON_Jaguar	0xe68
++#define rB_Tx_CCKBBON_OFDMRFON_Jaguar	0xe6c
++#define rB_Tx_OFDMBBON_Tx2Rx_Jaguar		0xe70
++#define rB_Tx2Tx_RXCCK_Jaguar				0xe74
++#define rB_Rx_OFDM_WaitRIFS_Jaguar			0xe78
++#define rB_Rx2Rx_BT_Jaguar					0xe7c
++#define rB_sleep_nav_Jaguar					0xe80
++#define rB_pmpd_Jaguar						0xe84
++
++
++/* YN: mask these registers temporaily
++ * #define rTx_Power_Before_IQK_A		0xe94
++ * #define rTx_Power_After_IQK_A			0xe9c */
++
++/* #define rRx_Power_Before_IQK_A		0xea0 */
++/* #define rRx_Power_Before_IQK_A_2		0xea4 */
++/* #define rRx_Power_After_IQK_A			0xea8 */
++/* #define rRx_Power_After_IQK_A_2		0xeac */
++
++/* #define rTx_Power_Before_IQK_B		0xeb4 */
++/* #define rTx_Power_After_IQK_B			0xebc */
++
++/* #define rRx_Power_Before_IQK_B		0xec0 */
++/* #define rRx_Power_Before_IQK_B_2		0xec4 */
++/* #define rRx_Power_After_IQK_B			0xec8 */
++/* #define rRx_Power_After_IQK_B_2		0xecc */
++
++
++/* RSSI Dump */
++#define rA_RSSIDump_Jaguar			0xBF0
++#define rB_RSSIDump_Jaguar			0xBF1
++#define rS1_RXevmDump_Jaguar		0xBF4
++#define rS2_RXevmDump_Jaguar		0xBF5
++#define rA_RXsnrDump_Jaguar		0xBF6
++#define rB_RXsnrDump_Jaguar		0xBF7
++#define rA_CfoShortDump_Jaguar		0xBF8
++#define rB_CfoShortDump_Jaguar		0xBFA
++#define rA_CfoLongDump_Jaguar		0xBEC
++#define rB_CfoLongDump_Jaguar		0xBEE
++
++
++/* RF Register
++ *   */
++#define RF_AC_Jaguar				0x00	/*  */
++#define RF_RF_Top_Jaguar			0x07	/*  */
++#define RF_TXLOK_Jaguar				0x08	/*  */
++#define RF_TXAPK_Jaguar				0x0B
++#define RF_CHNLBW_Jaguar 			0x18	/* RF channel and BW switch */
++#define RF_RCK1_Jaguar				0x1c	/*  */
++#define RF_RCK2_Jaguar				0x1d
++#define RF_RCK3_Jaguar			0x1e
++#define RF_ModeTableAddr			0x30
++#define RF_ModeTableData0			0x31
++#define RF_ModeTableData1			0x32
++#define RF_TxLCTank_Jaguar	0x54
++#define RF_APK_Jaguar				0x63
++#define RF_LCK						0xB4
++#define RF_WeLut_Jaguar				0xEF
++
++#define bRF_CHNLBW_MOD_AG_Jaguar	0x70300
++#define bRF_CHNLBW_BW				0xc00
++
++
++/*
++ * RL6052 Register definition
++ *   */
++#define RF_AC						0x00	/*  */
++#define RF_IPA_A					0x0C	/*  */
++#define RF_TXBIAS_A					0x0D
++#define RF_BS_PA_APSET_G9_G11		0x0E
++#define RF_MODE1					0x10	/*  */
++#define RF_MODE2					0x11	/*  */
++#define RF_CHNLBW					0x18	/* RF channel and BW switch */
++#define RF_RCK_OS					0x30	/* RF TX PA control */
++#define RF_TXPA_G1					0x31	/* RF TX PA control */
++#define RF_TXPA_G2					0x32	/* RF TX PA control */
++#define RF_TXPA_G3					0x33	/* RF TX PA control */
++#define RF_0x52						0x52
++#define RF_WE_LUT					0xEF
++
++/*
++ * Bit Mask
++ *
++ * 1. Page1(0x100) */
++#define bBBResetB					0x100	/* Useless now? */
++#define bGlobalResetB				0x200
++#define bOFDMTxStart				0x4
++#define bCCKTxStart					0x8
++#define bCRC32Debug					0x100
++#define bPMACLoopback				0x10
++#define bTxLSIG						0xffffff
++#define bOFDMTxRate					0xf
++#define bOFDMTxReserved			0x10
++#define bOFDMTxLength				0x1ffe0
++#define bOFDMTxParity				0x20000
++#define bTxHTSIG1					0xffffff
++#define bTxHTMCSRate				0x7f
++#define bTxHTBW						0x80
++#define bTxHTLength					0xffff00
++#define bTxHTSIG2					0xffffff
++#define bTxHTSmoothing				0x1
++#define bTxHTSounding				0x2
++#define bTxHTReserved				0x4
++#define bTxHTAggreation				0x8
++#define bTxHTSTBC					0x30
++#define bTxHTAdvanceCoding			0x40
++#define bTxHTShortGI					0x80
++#define bTxHTNumberHT_LTF			0x300
++#define bTxHTCRC8					0x3fc00
++#define bCounterReset				0x10000
++#define bNumOfOFDMTx				0xffff
++#define bNumOfCCKTx					0xffff0000
++#define bTxIdleInterval				0xffff
++#define bOFDMService				0xffff0000
++#define bTxMACHeader				0xffffffff
++#define bTxDataInit					0xff
++#define bTxHTMode					0x100
++#define bTxDataType					0x30000
++#define bTxRandomSeed				0xffffffff
++#define bCCKTxPreamble				0x1
++#define bCCKTxSFD					0xffff0000
++#define bCCKTxSIG					0xff
++#define bCCKTxService				0xff00
++#define bCCKLengthExt				0x8000
++#define bCCKTxLength				0xffff0000
++#define bCCKTxCRC16					0xffff
++#define bCCKTxStatus					0x1
++#define bOFDMTxStatus				0x2
++
++
++/*
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 1. Page1(0x100)
++ *   */
++#define rPMAC_Reset					0x100
++#define rPMAC_TxStart				0x104
++#define rPMAC_TxLegacySIG			0x108
++#define rPMAC_TxHTSIG1				0x10c
++#define rPMAC_TxHTSIG2				0x110
++#define rPMAC_PHYDebug				0x114
++#define rPMAC_TxPacketNum			0x118
++#define rPMAC_TxIdle					0x11c
++#define rPMAC_TxMACHeader0			0x120
++#define rPMAC_TxMACHeader1			0x124
++#define rPMAC_TxMACHeader2			0x128
++#define rPMAC_TxMACHeader3			0x12c
++#define rPMAC_TxMACHeader4			0x130
++#define rPMAC_TxMACHeader5			0x134
++#define rPMAC_TxDataType			0x138
++#define rPMAC_TxRandomSeed		0x13c
++#define rPMAC_CCKPLCPPreamble		0x140
++#define rPMAC_CCKPLCPHeader		0x144
++#define rPMAC_CCKCRC16				0x148
++#define rPMAC_OFDMRxCRC32OK		0x170
++#define rPMAC_OFDMRxCRC32Er		0x174
++#define rPMAC_OFDMRxParityEr		0x178
++#define rPMAC_OFDMRxCRC8Er			0x17c
++#define rPMAC_CCKCRxRC16Er			0x180
++#define rPMAC_CCKCRxRC32Er			0x184
++#define rPMAC_CCKCRxRC32OK			0x188
++#define rPMAC_TxStatus				0x18c
++
++/*
++ * 3. Page8(0x800)
++ *   */
++#define rFPGA0_RFMOD				0x800	/* RF mode & CCK TxSC */ /* RF BW Setting?? */
++
++#define rFPGA0_TxInfo				0x804	/* Status report?? */
++#define rFPGA0_PSDFunction			0x808
++#define rFPGA0_TxGainStage			0x80c	/* Set TX PWR init gain? */
++
++#define rFPGA0_XA_HSSIParameter1	0x820	/* RF 3 wire register */
++#define rFPGA0_XA_HSSIParameter2	0x824
++#define rFPGA0_XB_HSSIParameter1	0x828
++#define rFPGA0_XB_HSSIParameter2	0x82c
++
++#define	rFPGA0_XA_LSSIParameter		0x840
++#define	rFPGA0_XB_LSSIParameter		0x844
++
++#define rFPGA0_XAB_SwitchControl	0x858	/* RF Channel switch */
++#define rFPGA0_XCD_SwitchControl	0x85c
++
++#define rFPGA0_XAB_RFParameter		0x878	/* RF Parameter */
++#define rFPGA0_XCD_RFParameter		0x87c
++
++#define rFPGA0_AnalogParameter1	0x880	/* Crystal cap setting RF-R/W protection for parameter4?? */
++#define rFPGA0_AnalogParameter2	0x884
++#define rFPGA0_AnalogParameter3	0x888
++#define rFPGA0_AdDaClockEn			0x888	/* enable ad/da clock1 for dual-phy */
++#define rFPGA0_AnalogParameter4	0x88c
++
++#define	rFPGA0_XA_LSSIReadBack		0x8a0	/* Tranceiver LSSI Readback */
++#define	rFPGA0_XB_LSSIReadBack		0x8a4
++#define	rFPGA0_XC_LSSIReadBack		0x8a8
++#define	rFPGA0_XD_LSSIReadBack		0x8ac
++
++#define rFPGA0_XCD_RFPara	0x8b4
++#define	rFPGA0_PSDReport				0x8b4	/* Useless now */
++#define	TransceiverA_HSPI_Readback		0x8b8	/* Transceiver A HSPI Readback */
++#define	TransceiverB_HSPI_Readback		0x8bc	/* Transceiver B HSPI Readback */
++#define	rFPGA0_XAB_RFInterfaceRB		0x8e0	/* Useless now */ /* RF Interface Readback Value */
++#define	rFPGA0_XCD_RFInterfaceRB		0x8e4	/* Useless now */
++
++/*
++ * 4. Page9(0x900)
++ *   */
++#define rFPGA1_RFMOD				0x900	/* RF mode & OFDM TxSC */ /* RF BW Setting?? */
++#define	REG_BB_TX_PATH_SEL_1_8814A		0x93c
++#define	REG_BB_TX_PATH_SEL_2_8814A		0x940
++#define rFPGA1_TxBlock				0x904	/* Useless now */
++#define rFPGA1_DebugSelect			0x908	/* Useless now */
++#define rFPGA1_TxInfo				0x90c	/* Useless now */ /* Status report?? */
++/*Page 19 for TxBF*/
++#define	REG_BB_TXBF_ANT_SET_BF1_8814A	0x19ac
++#define	REG_BB_TXBF_ANT_SET_BF0_8814A	0x19b4
++/*
++ * PageA(0xA00)
++ *   */
++#define rCCK0_System				0xa00
++#define rCCK0_AFESetting				0xa04	/* Disable init gain now */ /* Select RX path by RSSI */
++#define	rCCK0_DSPParameter2			0xa1c	/* SQ threshold */
++#define rCCK0_TxFilter1				0xa20
++#define rCCK0_TxFilter2				0xa24
++#define rCCK0_DebugPort				0xa28	/* debug port and Tx filter3 */
++#define	rCCK0_FalseAlarmReport			0xa2c	/* 0xa2d	useless now 0xa30-a4f channel report */
++
++/*
++ * PageB(0xB00)
++ *   */
++#define rPdp_AntA				0xb00
++#define rPdp_AntA_4				0xb04
++#define rConfig_Pmpd_AntA			0xb28
++#define rConfig_AntA					0xb68
++#define rConfig_AntB					0xb6c
++#define rPdp_AntB					0xb70
++#define rPdp_AntB_4					0xb74
++#define rConfig_Pmpd_AntB			0xb98
++#define rAPK							0xbd8
++
++/*
++ * 6. PageC(0xC00)
++ *   */
++#define rOFDM0_LSTF					0xc00
++
++#define rOFDM0_TRxPathEnable		0xc04
++#define rOFDM0_TRMuxPar			0xc08
++#define rOFDM0_TRSWIsolation		0xc0c
++
++#define rOFDM0_XARxAFE				0xc10  /* RxIQ DC offset, Rx digital filter, DC notch filter */
++#define rOFDM0_XARxIQImbalance    	0xc14  /* RxIQ imblance matrix */
++#define rOFDM0_XBRxAFE		0xc18
++#define rOFDM0_XBRxIQImbalance	0xc1c
++#define rOFDM0_XCRxAFE		0xc20
++#define rOFDM0_XCRxIQImbalance	0xc24
++#define rOFDM0_XDRxAFE		0xc28
++#define rOFDM0_XDRxIQImbalance	0xc2c
++
++#define rOFDM0_RxDetector1			0xc30  /* PD, BW & SBD	 */ /* DM tune init gain */
++#define rOFDM0_RxDetector2			0xc34  /* SBD & Fame Sync. */
++#define rOFDM0_RxDetector3			0xc38  /* Frame Sync. */
++#define rOFDM0_RxDetector4			0xc3c  /* PD, SBD, Frame Sync & Short-GI */
++
++#define rOFDM0_RxDSP				0xc40  /* Rx Sync Path */
++#define rOFDM0_CFOandDAGC			0xc44  /* CFO & DAGC */
++#define rOFDM0_CCADropThreshold	0xc48 /* CCA Drop threshold */
++#define rOFDM0_ECCAThreshold		0xc4c /* energy CCA */
++
++#define rOFDM0_XAAGCCore1			0xc50	/* DIG */
++#define rOFDM0_XAAGCCore2			0xc54
++#define rOFDM0_XBAGCCore1			0xc58
++#define rOFDM0_XBAGCCore2			0xc5c
++#define rOFDM0_XCAGCCore1			0xc60
++#define rOFDM0_XCAGCCore2			0xc64
++#define rOFDM0_XDAGCCore1			0xc68
++#define rOFDM0_XDAGCCore2			0xc6c
++
++#define rOFDM0_AGCParameter1		0xc70
++#define rOFDM0_AGCParameter2		0xc74
++#define rOFDM0_AGCRSSITable		0xc78
++#define rOFDM0_HTSTFAGC			0xc7c
++
++#define rOFDM0_XATxIQImbalance		0xc80	/* TX PWR TRACK and DIG */
++#define rOFDM0_XATxAFE				0xc84
++#define rOFDM0_XBTxIQImbalance		0xc88
++#define rOFDM0_XBTxAFE				0xc8c
++#define rOFDM0_XCTxIQImbalance		0xc90
++#define rOFDM0_XCTxAFE		0xc94
++#define rOFDM0_XDTxIQImbalance		0xc98
++#define rOFDM0_XDTxAFE				0xc9c
++
++#define rOFDM0_RxIQExtAnta			0xca0
++#define rOFDM0_TxCoeff1				0xca4
++#define rOFDM0_TxCoeff2				0xca8
++#define rOFDM0_TxCoeff3				0xcac
++#define rOFDM0_TxCoeff4				0xcb0
++#define rOFDM0_TxCoeff5				0xcb4
++#define rOFDM0_TxCoeff6				0xcb8
++#define rOFDM0_RxHPParameter		0xce0
++#define rOFDM0_TxPseudoNoiseWgt	0xce4
++#define rOFDM0_FrameSync			0xcf0
++#define rOFDM0_DFSReport			0xcf4
++
++/*
++ * 7. PageD(0xD00)
++ *   */
++#define rOFDM1_LSTF					0xd00
++#define rOFDM1_TRxPathEnable		0xd04
++
++/*
++ * 8. PageE(0xE00)
++ *   */
++#define rTxAGC_A_Rate18_06			0xe00
++#define rTxAGC_A_Rate54_24			0xe04
++#define rTxAGC_A_CCK1_Mcs32		0xe08
++#define rTxAGC_A_Mcs03_Mcs00		0xe10
++#define rTxAGC_A_Mcs07_Mcs04		0xe14
++#define rTxAGC_A_Mcs11_Mcs08		0xe18
++#define rTxAGC_A_Mcs15_Mcs12		0xe1c
++
++#define rTxAGC_B_Rate18_06			0x830
++#define rTxAGC_B_Rate54_24			0x834
++#define rTxAGC_B_CCK1_55_Mcs32	0x838
++#define rTxAGC_B_Mcs03_Mcs00		0x83c
++#define rTxAGC_B_Mcs07_Mcs04		0x848
++#define rTxAGC_B_Mcs11_Mcs08		0x84c
++#define rTxAGC_B_Mcs15_Mcs12		0x868
++#define rTxAGC_B_CCK11_A_CCK2_11	0x86c
++
++#define rFPGA0_IQK					0xe28
++#define rTx_IQK_Tone_A				0xe30
++#define rRx_IQK_Tone_A				0xe34
++#define rTx_IQK_PI_A				0xe38
++#define rRx_IQK_PI_A				0xe3c
++
++#define rTx_IQK						0xe40
++#define rRx_IQK						0xe44
++#define rIQK_AGC_Pts					0xe48
++#define rIQK_AGC_Rsp				0xe4c
++#define rTx_IQK_Tone_B				0xe50
++#define rRx_IQK_Tone_B				0xe54
++#define rTx_IQK_PI_B					0xe58
++#define rRx_IQK_PI_B					0xe5c
++#define rIQK_AGC_Cont				0xe60
++
++#define rBlue_Tooth					0xe6c
++#define rRx_Wait_CCA				0xe70
++#define rTx_CCK_RFON				0xe74
++#define rTx_CCK_BBON				0xe78
++#define rTx_OFDM_RFON				0xe7c
++#define rTx_OFDM_BBON				0xe80
++#define rTx_To_Rx					0xe84
++#define rTx_To_Tx					0xe88
++#define rRx_CCK						0xe8c
++
++#define rTx_Power_Before_IQK_A		0xe94
++#define rTx_Power_After_IQK_A		0xe9c
++
++#define rRx_Power_Before_IQK_A		0xea0
++#define rRx_Power_Before_IQK_A_2	0xea4
++#define rRx_Power_After_IQK_A		0xea8
++#define rRx_Power_After_IQK_A_2		0xeac
++
++#define rTx_Power_Before_IQK_B		0xeb4
++#define rTx_Power_After_IQK_B		0xebc
++
++#define rRx_Power_Before_IQK_B		0xec0
++#define rRx_Power_Before_IQK_B_2	0xec4
++#define rRx_Power_After_IQK_B		0xec8
++#define rRx_Power_After_IQK_B_2		0xecc
++
++#define rRx_OFDM					0xed0
++#define rRx_Wait_RIFS				0xed4
++#define rRx_TO_Rx					0xed8
++#define rStandby						0xedc
++#define rSleep						0xee0
++#define rPMPD_ANAEN				0xeec
++
++
++/* 2. Page8(0x800) */
++#define bRFMOD						0x1	/* Reg 0x800 rFPGA0_RFMOD */
++#define bJapanMode					0x2
++#define bCCKTxSC					0x30
++#define bCCKEn						0x1000000
++#define bOFDMEn						0x2000000
++#define bXBTxAGC                  			0xf00	/* Reg 80c rFPGA0_TxGainStage */
++#define bXCTxAGC			0xf000
++#define bXDTxAGC			0xf0000
++
++/* 4. PageA(0xA00) */
++#define bCCKBBMode                			0x3	/* Useless */
++#define bCCKTxPowerSaving		0x80
++#define bCCKRxPowerSaving		0x40
++
++#define bCCKSideBand              		0x10	/* Reg 0xa00 rCCK0_System 20/40 switch */
++
++#define bCCKScramble              		0x8	/* Useless */
++#define bCCKAntDiversity			0x8000
++#define bCCKCarrierRecovery		0x4000
++#define bCCKTxRate			0x3000
++#define bCCKDCCancel			0x0800
++#define bCCKISICancel			0x0400
++#define bCCKMatchFilter		0x0200
++#define bCCKEqualizer			0x0100
++#define bCCKPreambleDetect		0x800000
++#define bCCKFastFalseCCA		0x400000
++#define bCCKChEstStart		0x300000
++#define bCCKCCACount		0x080000
++#define bCCKcs_lim			0x070000
++#define bCCKBistMode			0x80000000
++#define bCCKCCAMask			0x40000000
++#define bCCKTxDACPhase		0x4
++#define bCCKRxADCPhase         	   	0x20000000   /* r_rx_clk */
++#define bCCKr_cp_mode0		0x0100
++#define bCCKTxDCOffset		0xf0
++#define bCCKRxDCOffset		0xf
++#define bCCKCCAMode			0xc000
++#define bCCKFalseCS_lim		0x3f00
++#define bCCKCS_ratio			0xc00000
++#define bCCKCorgBit_sel		0x300000
++#define bCCKPD_lim			0x0f0000
++#define bCCKNewCCA		0x80000000
++#define bCCKRxHPofIG		0x8000
++#define bCCKRxIG			0x7f00
++#define bCCKLNAPolarity		0x800000
++#define bCCKRx1stGain		0x7f0000
++#define bCCKRFExtend              		0x20000000 /* CCK Rx Iinital gain polarity */
++#define bCCKRxAGCSatLevel		0x1f000000
++#define bCCKRxAGCSatCount		0xe0
++#define bCCKRxRFSettle            		0x1f       /* AGCsamp_dly */
++#define bCCKFixedRxAGC		0x8000
++/* #define bCCKRxAGCFormat		0x4000 */   /* remove to HSSI register 0x824 */
++#define bCCKAntennaPolarity		0x2000
++#define bCCKTxFilterType		0x0c00
++#define bCCKRxAGCReportType		0x0300
++#define bCCKRxDAGCEn		0x80000000
++#define bCCKRxDAGCPeriod		0x20000000
++#define bCCKRxDAGCSatLevel		0x1f000000
++#define bCCKTimingRecovery		0x800000
++#define bCCKTxC0			0x3f0000
++#define bCCKTxC1			0x3f000000
++#define bCCKTxC2			0x3f
++#define bCCKTxC3			0x3f00
++#define bCCKTxC4			0x3f0000
++#define bCCKTxC5			0x3f000000
++#define bCCKTxC6			0x3f
++#define bCCKTxC7			0x3f00
++#define bCCKDebugPort		0xff0000
++#define bCCKDACDebug		0x0f000000
++#define bCCKFalseAlarmEnable		0x8000
++#define bCCKFalseAlarmRead		0x4000
++#define bCCKTRSSI			0x7f
++#define bCCKRxAGCReport		0xfe
++#define bCCKRxReport_AntSel		0x80000000
++#define bCCKRxReport_MFOff		0x40000000
++#define bCCKRxRxReport_SQLoss	0x20000000
++#define bCCKRxReport_Pktloss		0x10000000
++#define bCCKRxReport_Lockedbit	0x08000000
++#define bCCKRxReport_RateError	0x04000000
++#define bCCKRxReport_RxRate		0x03000000
++#define bCCKRxFACounterLower	0xff
++#define bCCKRxFACounterUpper	0xff000000
++#define bCCKRxHPAGCStart		0xe000
++#define bCCKRxHPAGCFinal		0x1c00
++#define bCCKRxFalseAlarmEnable	0x8000
++#define bCCKFACounterFreeze		0x4000
++#define bCCKTxPathSel		0x10000000
++#define bCCKDefaultRxPath		0xc000000
++#define bCCKOptionRxPath		0x3000000
++
++#define		RF_T_METER_88E				0x42
++
++/* 6. PageE(0xE00) */
++#define bSTBCEn                  			0x4	/* Useless */
++#define bAntennaMapping		0x10
++#define bNss				0x20
++#define bCFOAntSumD		0x200
++#define bPHYCounterReset		0x8000000
++#define bCFOReportGet			0x4000000
++#define bOFDMContinueTx		0x10000000
++#define bOFDMSingleCarrier		0x20000000
++#define bOFDMSingleTone		0x40000000
++
++
++/*
++ * Other Definition
++ *   */
++
++#define bEnable                   0x1	/* Useless */
++#define bDisable                  0x0
++
++/* byte endable for srwrite */
++#define bByte0                    		0x1	/* Useless */
++#define bByte1		0x2
++#define bByte2		0x4
++#define bByte3		0x8
++#define bWord0		0x3
++#define bWord1		0xc
++#define bDWord		0xf
++
++/* for PutRegsetting & GetRegSetting BitMask */
++#define bMaskByte0                		0xff	/* Reg 0xc50 rOFDM0_XAAGCCore~0xC6f */
++#define bMaskByte1		0xff00
++#define bMaskByte2		0xff0000
++#define bMaskByte3		0xff000000
++#define bMaskHWord	0xffff0000
++#define bMaskLWord		0x0000ffff
++#define bMaskDWord	0xffffffff
++#define bMaskH3Bytes				0xffffff00
++#define bMask12Bits				0xfff
++#define bMaskH4Bits				0xf0000000
++#define bMaskOFDM_D			0xffc00000
++#define bMaskCCK				0x3f3f3f3f
++#define bMask7bits				0x7f
++#define bMaskByte2HighNibble			0x00f00000
++#define bMaskByte3LowNibble				0x0f000000
++#define bMaskL3Bytes			0x00ffffff
++
++/*--------------------------Define Parameters-------------------------------*/
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8814PwrSeq.h b/drivers/net/wireless/rtl8723du/include/Hal8814PwrSeq.h
+new file mode 100644
+index 0000000..696959b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8814PwrSeq.h
+@@ -0,0 +1,236 @@
++
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __HAL8814PWRSEQ_H__
++#define __HAL8814PWRSEQ_H__
++
++#include "HalPwrSeqCmd.h"
++
++/*
++	Check document WB-110628-DZ-RTL8195 (Jaguar) Power Architecture-R04.pdf
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transision from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++*/
++#define	RTL8814A_TRANS_CARDEMU_TO_ACT_STEPS	16
++#define	RTL8814A_TRANS_ACT_TO_CARDEMU_STEPS	20
++#define	RTL8814A_TRANS_CARDEMU_TO_SUS_STEPS	17
++#define	RTL8814A_TRANS_SUS_TO_CARDEMU_STEPS	15
++#define	RTL8814A_TRANS_CARDEMU_TO_PDN_STEPS	17
++#define	RTL8814A_TRANS_PDN_TO_CARDEMU_STEPS	16
++#define	RTL8814A_TRANS_ACT_TO_LPS_STEPS	20
++#define	RTL8814A_TRANS_LPS_TO_ACT_STEPS	15
++#define	RTL8814A_TRANS_END_STEPS	1
++
++
++#define RTL8814A_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0},/* disable SW LPS 0x04[10]=0*/	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1    power ready*/	\
++	{0x002B, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /* ??0x28[24]=1, enable pll phase select*/ \
++	{0x0015, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT3 | BIT2 | BIT1), (BIT3 | BIT2 | BIT1)},/* 0x14[11:9]=3'b111, OCP current threshold = 1.5A */ \
++	{0x002D, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x0E, 0x08},/* 0x2C[11:9]=3'b100, select lpf R3 */ \
++	{0x002D, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x70, 0x50},/* 0x2C[14:12]=3'b101, select lpf Rs*/ \
++	{0x007B, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, BIT6},/* 0x78[30]=1'b1, SDM order select*/ \
++	/*{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0}, */ /* disable HWPDN 0x04[15]=0*/ \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, 0},/* disable WL suspend*/	\
++	{0x00F0, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* */	\
++	{0x0081, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x30, 0x20},/* */	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* polling until return 0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0},/**/
++
++#define RTL8814A_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0c00, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x04}, /* 0xc00[7:0] = 4	turn off 3-wire */	\
++	{0x0e00, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x04}, /* 0xe00[7:0] = 4	turn off 3-wire */	\
++	{0x0002, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},  /* 0x2[0] = 0	 RESET BB, CLOSE RF */	\
++	{0x0002, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US}, /*Delay 1us*/	\
++	{0x0002, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},  /* Whole BB is reset*/			\
++	{0x1002, ~PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},  /* 0x2[0] = 0	 RESET BB, CLOSE RF */	\
++	{0x0002, ~PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US}, /*Delay 1us*/	\
++	{0x1002, ~PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},  /* Whole BB is reset*/			\
++	{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},  /*0x1F[7:0] = 0 turn off RF*/	\
++	/*{0x004E, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},*/  /*0x4C[23] = 0x4E[7] = 0, switch DPDT_SEL_P output from register 0x65[2] */	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x28},   /* 0x07[7:0] = 0x28 sps pwm mode 0x2a for BT coex*/	\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x02, 0},   /*0x8[1] = 0 ANA clk = 500k */	\
++	/*{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0 | BIT1, 0},*/   /*  0x02[1:0] = 0	reset BB */	\
++	{0x0066, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},   /*0x66[7]=0, disable ckreq for gpio7 output SUS */	\
++	{0x0041, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0},   /*0x41[4]=0, disable sic for gpio7 output SUS */	\
++	{0x0042, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},   /*0x42[1]=0, disable ckout for gpio7 output SUS */	\
++	{0x004e, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},   /*0x4E[5]=1, disable LED2 for gpio7 output SUS */	\
++	{0x0041, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},   /*0x41[0]=0, disable uart for gpio7 output SUS */	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/
++
++#define RTL8814A_TRANS_CARDEMU_TO_SUS													\
++	/* format */								\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0061, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x0F, 0x0c},\
++	{0x0061, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x0F, 0x0E},\
++	{0x0062, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x0F, 0x07},/* gpio11 input mode, gpio10~8 output mode */	\
++	{0x0045, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio 0~7 output same value as input ?? */	\
++	{0x0046, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xff},/* gpio0~7 output mode */	\
++	{0x0047, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/* 0x47[7:0] = 00 gpio mode */	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/* suspend option all off */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*0x14[13] = 1 turn on ZCD */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, BIT6},/* 0x14[14] =1 trun on ZCD */	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4},/*0x23[4] = 1 hpon LDO sleep mode */	\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*0x8[1] = 0 ANA clk = 500k */	\
++	{0x0091, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xA0, 0xA0}, /* 0x91[7]=1 0x91[5]=1 , disable sps, ldo sleep mode */	\
++	{0x0070, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, BIT3}, /* 0x70[3]=1 enable mainbias polling */	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, BIT3}, /*0x04[11] = 1 enable WL suspend */
++
++#define RTL8814A_TRANS_SUS_TO_CARDEMU													\
++	/* format */								\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, 0}, /*0x04[11] = 0 enable WL suspend*/   \
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x10, 0},/*0x23[4] = 0 hpon LDO sleep mode leave */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, 0},/* 0x14[14] =0 trun off ZCD */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, 0},/*0x14[13] = 0 turn off ZCD */	\
++	{0x0046, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio0~7 input mode */	\
++	{0x0062, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio11 input mode, gpio10~8 input mode */
++
++#define RTL8814A_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	/**{0x0194, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, //0x194[0]=0 , disable 32K clock*/	\
++	/**{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x94}, //0x93 = 0x94 , 90[30] =0 enable 500k ANA clock .switch clock from 12M to 500K , 90 [26] =0 disable EEprom loader clock*/	\
++	{0x0003, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0}, /*0x03[2] = 0, reset 3081*/	\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x01}, /*0x80 = 05h if reload fw, fill the default value of host_CPU handshake field*/	\
++	{0x0081, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x30}, /*0x80 = 05h if reload fw, fill the default value of host_CPU handshake field*/	\
++	/*{0x0042, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xF0, 0xcc},*/   \
++	/*{0x0042, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xF0, 0xEC},*/   \
++	/*{0x0043, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x07},*/  /* gpio11 input mode, gpio10~8 output mode */	\
++	{0x0045, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio 0~7 output same value as input ?? */	\
++	{0x0046, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xff},/* gpio0~7 output mode */	\
++	{0x0047, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/* 0x47[7:0] = 00 gpio mode */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, BIT6},/* 0x15[6] =1 trun on ZCD output */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*0x15[5] = 1 turn on ZCD */	\
++	{0x0012, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, 0},/*0x12[6] = 0 force PFM mode */	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4},/*0x23[4] = 1 hpon LDO sleep mode */	\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*0x8[1] = 0 ANA clk = 500k */	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07 = 0x20 , SOP option to disable BG/MB*/	\
++	{0x001f, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0}, /* 0x01f[1]=0 , disable RFC_0  control  REG_RF_CTRL_8814A */	\
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0}, /* 0x020[1]=0 , disable RFC_1  control  REG_RF_CTRL_8814A */	\
++	{0x0021, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0}, /* 0x021[1]=0 , disable RFC_2  control  REG_RF_CTRL_8814A */	\
++	{0x0076, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0}, /* 0x076[1]=0 , disable RFC_3  control REG_OPT_CTRL_8814A +2 */	\
++	{0x0091, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xA0, 0xA0}, /* 0x91[7]=1 0x91[5]=1 , disable sps, ldo sleep mode */	\
++	{0x0070, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, BIT3}, /* 0x70[3]=1 enable mainbias polling */	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, BIT3}, /*0x04[11] = 1 enable WL suspend*/
++
++#define RTL8814A_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/                       \
++	{0x0012, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, BIT6},/*0x12[6] = 1 force PWM mode */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, 0},/*0x15[5] = 0 turn off ZCD */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, 0},/* 0x15[6] =0 trun off ZCD output */	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0},/*0x23[4] = 0 hpon LDO leave sleep mode */	\
++	{0x0046, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio0~7 input mode */	\
++	{0x0062, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00}, /* gpio11 input mode, gpio10~8 input mode */ \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0}, /*0x04[10] = 0, enable SW LPS PCIE only*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, 0}, /*0x04[11] = 0, enable WL suspend*/	\
++	/*{0x0003, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2},*/ /*0x03[2] = 1, enable 3081*/	\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*PCIe DMA start*/		\
++	{0x0071, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0},/*0x70[10] = 0, CPHY_MBIAS_EN disable*/
++
++
++#define RTL8814A_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
++
++#define RTL8814A_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
++
++#define RTL8814A_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*PCIe DMA stop*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x7F},/*Tx Pause*/		\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0c00, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x04}, /* 0xc00[7:0] = 4	turn off 3-wire */	\
++	{0x0e00, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x04}, /* 0xe00[7:0] = 4	turn off 3-wire */	\
++	{0x0002, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated, and RF closed*/	\
++	{0x0002, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},  /* Whole BB is reset*/			\
++	{0x1002, ~PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated, and RF closed*/	\
++	{0x0002, ~PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x1002, ~PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},  /* Whole BB is reset*/			\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x03},/*Reset MAC TRX*/			\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/		\
++	{0x05F1, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*Respond TxOK to scheduler*/
++
++
++#define RTL8814A_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/	\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM*/	\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/	\
++	{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /* Delay*/	\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*.	0x08[4] = 0		 switch TSF to 40M*/	\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, 0}, /* Polling 0x109[7]=0  TSF in 40M*/			\
++	/*{0x0029, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6 | BIT7, 0}, */ /*.	??0x29[7:6] = 2b'00	 enable BB clock*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1*/					\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/	\
++	{0x0002, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/	\
++	{0x1002, ~PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0}, /*.	0x1002[1:0] = 2b'11	 enable BB macro*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++#define RTL8814A_TRANS_END																\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/		\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++extern WLAN_PWR_CFG rtl8814A_power_on_flow[RTL8814A_TRANS_CARDEMU_TO_ACT_STEPS + RTL8814A_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8814A_radio_off_flow[RTL8814A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8814A_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8814A_card_disable_flow[RTL8814A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8814A_TRANS_CARDEMU_TO_PDN_STEPS + RTL8814A_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8814A_card_enable_flow[RTL8814A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8814A_TRANS_CARDEMU_TO_PDN_STEPS + RTL8814A_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8814A_suspend_flow[RTL8814A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8814A_TRANS_CARDEMU_TO_SUS_STEPS + RTL8814A_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8814A_resume_flow[RTL8814A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8814A_TRANS_CARDEMU_TO_SUS_STEPS + RTL8814A_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8814A_hwpdn_flow[RTL8814A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8814A_TRANS_CARDEMU_TO_PDN_STEPS + RTL8814A_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8814A_enter_lps_flow[RTL8814A_TRANS_ACT_TO_LPS_STEPS + RTL8814A_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8814A_leave_lps_flow[RTL8814A_TRANS_LPS_TO_ACT_STEPS + RTL8814A_TRANS_END_STEPS];
++
++#endif /* __HAL8814PWRSEQ_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/Hal8821APwrSeq.h b/drivers/net/wireless/rtl8723du/include/Hal8821APwrSeq.h
+new file mode 100644
+index 0000000..393068b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/Hal8821APwrSeq.h
+@@ -0,0 +1,186 @@
++#ifndef REALTEK_POWER_SEQUENCE_8821
++#define REALTEK_POWER_SEQUENCE_8821
++
++#include "HalPwrSeqCmd.h"
++
++/*
++	Check document WM-20130516-JackieLau-RTL8821A_Power_Architecture-R10.vsd
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transision from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++*/
++#define	RTL8821A_TRANS_CARDEMU_TO_ACT_STEPS	25
++#define	RTL8821A_TRANS_ACT_TO_CARDEMU_STEPS	15
++#define	RTL8821A_TRANS_CARDEMU_TO_SUS_STEPS	15
++#define	RTL8821A_TRANS_SUS_TO_CARDEMU_STEPS	15
++#define RTL8821A_TRANS_CARDDIS_TO_CARDEMU_STEPS	15
++#define	RTL8821A_TRANS_CARDEMU_TO_PDN_STEPS	15
++#define	RTL8821A_TRANS_PDN_TO_CARDEMU_STEPS	15
++#define	RTL8821A_TRANS_ACT_TO_LPS_STEPS	15
++#define	RTL8821A_TRANS_LPS_TO_ACT_STEPS	15
++#define	RTL8821A_TRANS_END_STEPS	1
++
++
++#define RTL8821A_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /*0x20[0] = 1b'1 enable LDOA12 MACRO block for all interface*/   \
++	{0x0067, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x67[0] = 0 to disable BT_GPS_SEL pins*/	\
++	{0x0001, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 1, PWRSEQ_DELAY_MS},/*Delay 1ms*/   \
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, 0}, /*0x00[5] = 1b'0 release analog Ips to digital ,1:isolation*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT4 | BIT3 | BIT2), 0},/* disable SW LPS 0x04[10]=0 and WLSUS_EN 0x04[12:11]=0*/	\
++	{0x0075, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0 , BIT0},/* Disable USB suspend */	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1    power ready*/	\
++	{0x0075, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0 , 0},/* Enable USB suspend */	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* release WLON reset  0x04[16]=1*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* disable HWPDN 0x04[15]=0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT4 | BIT3), 0},/* disable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* polling until return 0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0},/**/	\
++	{0x004F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*0x4C[24] = 0x4F[0] = 1, switch DPDT_SEL_P output from WL BB */\
++	{0x0067, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT5 | BIT4), (BIT5 | BIT4)},/*0x66[13] = 0x67[5] = 1, switch for PAPE_G/PAPE_A from WL BB ; 0x66[12] = 0x67[4] = 1, switch LNAON from WL BB */\
++	{0x0025, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, 0},/*anapar_mac<118> , 0x25[6]=0 by wlan single function*/\
++	{0x0049, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/*Enable falling edge triggering interrupt*/\
++	{0x0063, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/*Enable GPIO9 interrupt mode*/\
++	{0x0062, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Enable GPIO9 input mode*/\
++	{0x0058, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*Enable HSISR GPIO[C:0] interrupt*/\
++	{0x005A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/*Enable HSISR GPIO9 interrupt*/\
++	{0x007A, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x3A},/*0x7A = 0x3A start BT*/\
++	{0x002E, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF , 0x82 },/* 0x2C[23:12]=0x820 ; XTAL trim */ \
++	{0x0010, PWR_CUT_A_MSK , PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6 , BIT6 },/* 0x10[6]=1 ; MP·s¼W¹ï©ó0x2Cªº±±¨îÅv¡A¶·§â0x10[6]³]¬°1¤~¯àÅýWLAN±±¨î */ \
++
++
++#define RTL8821A_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*0x1F[7:0] = 0 turn off RF*/	\
++	{0x004F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*0x4C[24] = 0x4F[0] = 0, switch DPDT_SEL_P output from register 0x65[2] */\
++	{0x0049, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Enable rising edge triggering interrupt*/ \
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* release WLON reset  0x04[16]=1*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/	\
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5}, /*0x00[5] = 1b'1 analog Ips to digital ,1:isolation*/   \
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /*0x20[0] = 1b'0 disable LDOA12 MACRO block*/   \
++
++
++#define RTL8821A_TRANS_CARDEMU_TO_SUS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4 | BIT3, (BIT4 | BIT3)}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SDIO SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3 | BIT4}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8821A_TRANS_SUS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT7, 0}, /*clear suspend enable and power down enable*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
++
++#define RTL8821A_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07 = 0x20 , SOP option to disable BG/MB*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2}, /*0x04[10] = 1, enable SW LPS*/	\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 1}, /*0x48[16] = 1 to enable GPIO9 as EXT WAKEUP*/   \
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8821A_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT7, 0}, /*clear suspend enable and power down enable*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /*0x48[16] = 0 to disable GPIO9 as EXT WAKEUP*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*PCIe DMA start*/
++
++
++#define RTL8821A_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK | PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/* 0x04[16] = 0*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
++
++#define RTL8821A_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
++
++#define RTL8821A_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*PCIe DMA stop*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*Tx Pause*/	\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Whole BB is reset*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x03},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/	\
++	{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/*When driver enter Sus/ Disable, enable LOP for BT*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/	\
++
++
++#define RTL8821A_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM*/\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/\
++	{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*.	0x08[4] = 0		 switch TSF to 40M*/\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, 0}, /*Polling 0x109[7]=0  TSF in 40M*/\
++	{0x0029, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6 | BIT7, 0}, /*.	0x29[7:6] = 2b'00	 enable BB clock*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++#define RTL8821A_TRANS_END															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++	extern WLAN_PWR_CFG rtl8821A_power_on_flow[RTL8821A_TRANS_CARDEMU_TO_ACT_STEPS + RTL8821A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8821A_radio_off_flow[RTL8821A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8821A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8821A_card_disable_flow[RTL8821A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8821A_TRANS_CARDEMU_TO_PDN_STEPS + RTL8821A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8821A_card_enable_flow[RTL8821A_TRANS_CARDDIS_TO_CARDEMU_STEPS + RTL8821A_TRANS_CARDEMU_TO_ACT_STEPS + RTL8821A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8821A_suspend_flow[RTL8821A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8821A_TRANS_CARDEMU_TO_SUS_STEPS + RTL8821A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8821A_resume_flow[RTL8821A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8821A_TRANS_CARDEMU_TO_SUS_STEPS + RTL8821A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8821A_hwpdn_flow[RTL8821A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8821A_TRANS_CARDEMU_TO_PDN_STEPS + RTL8821A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8821A_enter_lps_flow[RTL8821A_TRANS_ACT_TO_LPS_STEPS + RTL8821A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8821A_leave_lps_flow[RTL8821A_TRANS_LPS_TO_ACT_STEPS + RTL8821A_TRANS_END_STEPS];
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/HalPwrSeqCmd.h b/drivers/net/wireless/rtl8723du/include/HalPwrSeqCmd.h
+new file mode 100644
+index 0000000..b511436
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/HalPwrSeqCmd.h
+@@ -0,0 +1,135 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HALPWRSEQCMD_H__
++#define __HALPWRSEQCMD_H__
++
++#include <drv_types.h>
++
++/*---------------------------------------------*/
++/* 3 The value of cmd: 4 bits
++ *---------------------------------------------*/
++#define PWR_CMD_READ			0x00
++/* offset: the read register offset
++ * msk: the mask of the read value
++ * value: N/A, left by 0
++ * note: dirver shall implement this function by read & msk */
++
++#define PWR_CMD_WRITE			0x01
++/* offset: the read register offset
++ * msk: the mask of the write bits
++ * value: write value
++ * note: driver shall implement this cmd by read & msk after write */
++
++#define PWR_CMD_POLLING			0x02
++/* offset: the read register offset
++ * msk: the mask of the polled value
++ * value: the value to be polled, masked by the msd field.
++ * note: driver shall implement this cmd by
++ * do {
++ * if( (Read(offset) & msk) == (value & msk) )
++ * break;
++ * } while(not timeout); */
++
++#define PWR_CMD_DELAY			0x03
++/* offset: the value to delay
++ * msk: N/A
++ * value: the unit of delay, 0: us, 1: ms */
++
++#define PWR_CMD_END				0x04
++/* offset: N/A
++ * msk: N/A
++ * value: N/A */
++
++/*---------------------------------------------*/
++/* 3 The value of base: 4 bits
++ *---------------------------------------------
++    * define the base address of each block */
++#define PWR_BASEADDR_MAC		0x00
++#define PWR_BASEADDR_USB		0x01
++#define PWR_BASEADDR_PCIE		0x02
++#define PWR_BASEADDR_SDIO		0x03
++
++/*---------------------------------------------*/
++/* 3 The value of interface_msk: 4 bits
++ *---------------------------------------------*/
++#define	PWR_INTF_SDIO_MSK		BIT(0)
++#define	PWR_INTF_USB_MSK		BIT(1)
++#define	PWR_INTF_PCI_MSK		BIT(2)
++#define	PWR_INTF_ALL_MSK		(BIT(0) | BIT(1) | BIT(2) | BIT(3))
++
++/*---------------------------------------------*/
++/* 3 The value of fab_msk: 4 bits
++ *---------------------------------------------*/
++#define	PWR_FAB_TSMC_MSK		BIT(0)
++#define	PWR_FAB_UMC_MSK			BIT(1)
++#define	PWR_FAB_ALL_MSK			(BIT(0) | BIT(1) | BIT(2) | BIT(3))
++
++/*---------------------------------------------*/
++/* 3 The value of cut_msk: 8 bits
++ *---------------------------------------------*/
++#define	PWR_CUT_TESTCHIP_MSK	BIT(0)
++#define	PWR_CUT_A_MSK			BIT(1)
++#define	PWR_CUT_B_MSK			BIT(2)
++#define	PWR_CUT_C_MSK			BIT(3)
++#define	PWR_CUT_D_MSK			BIT(4)
++#define	PWR_CUT_E_MSK			BIT(5)
++#define	PWR_CUT_F_MSK			BIT(6)
++#define	PWR_CUT_G_MSK			BIT(7)
++#define	PWR_CUT_ALL_MSK			0xFF
++
++
++typedef enum _PWRSEQ_CMD_DELAY_UNIT_ {
++	PWRSEQ_DELAY_US,
++	PWRSEQ_DELAY_MS,
++} PWRSEQ_DELAY_UNIT;
++
++typedef struct _WL_PWR_CFG_ {
++	u16 offset;
++	u8 cut_msk;
++	u8 fab_msk:4;
++	u8 interface_msk:4;
++	u8 base:4;
++	u8 cmd:4;
++	u8 msk;
++	u8 value;
++} WLAN_PWR_CFG, *PWLAN_PWR_CFG;
++
++
++#define GET_PWR_CFG_OFFSET(__PWR_CMD)		((__PWR_CMD).offset)
++#define GET_PWR_CFG_CUT_MASK(__PWR_CMD)		((__PWR_CMD).cut_msk)
++#define GET_PWR_CFG_FAB_MASK(__PWR_CMD)		((__PWR_CMD).fab_msk)
++#define GET_PWR_CFG_INTF_MASK(__PWR_CMD)	((__PWR_CMD).interface_msk)
++#define GET_PWR_CFG_BASE(__PWR_CMD)			((__PWR_CMD).base)
++#define GET_PWR_CFG_CMD(__PWR_CMD)			((__PWR_CMD).cmd)
++#define GET_PWR_CFG_MASK(__PWR_CMD)			((__PWR_CMD).msk)
++#define GET_PWR_CFG_VALUE(__PWR_CMD)		((__PWR_CMD).value)
++
++
++/* ********************************************************************************
++ *	Prototype of protected function.
++ * ******************************************************************************** */
++u8 HalPwrSeqCmdParsing(
++	PADAPTER		padapter,
++	u8				CutVersion,
++	u8				FabVersion,
++	u8				InterfaceType,
++	WLAN_PWR_CFG	PwrCfgCmd[]);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/HalVerDef.h b/drivers/net/wireless/rtl8723du/include/HalVerDef.h
+new file mode 100644
+index 0000000..3d81880
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/HalVerDef.h
+@@ -0,0 +1,201 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_VERSION_DEF_H__
++#define __HAL_VERSION_DEF_H__
++
++#define TRUE	_TRUE
++#define FALSE	_FALSE
++
++/* HAL_IC_TYPE_E */
++typedef enum tag_HAL_IC_Type_Definition {
++	CHIP_8192S	=	0,
++	CHIP_8188C	=	1,
++	CHIP_8192C	=	2,
++	CHIP_8192D	=	3,
++	CHIP_8723A	=	4,
++	CHIP_8188E	=	5,
++	CHIP_8812	=	6,
++	CHIP_8821	=	7,
++	CHIP_8723B	=	8,
++	CHIP_8192E	=	9,
++	CHIP_8814A	=	10,
++	CHIP_8703B	=	11,
++	CHIP_8188F	=	12,
++	CHIP_8822B	=	13,
++	CHIP_8723D	=	14,
++	CHIP_8821C	=	15
++} HAL_IC_TYPE_E;
++
++/* HAL_CHIP_TYPE_E */
++typedef enum tag_HAL_CHIP_Type_Definition {
++	TEST_CHIP		=	0,
++	NORMAL_CHIP	=	1,
++	FPGA			=	2,
++} HAL_CHIP_TYPE_E;
++
++/* HAL_CUT_VERSION_E */
++typedef enum tag_HAL_Cut_Version_Definition {
++	A_CUT_VERSION		=	0,
++	B_CUT_VERSION		=	1,
++	C_CUT_VERSION		=	2,
++	D_CUT_VERSION		=	3,
++	E_CUT_VERSION		=	4,
++	F_CUT_VERSION		=	5,
++	G_CUT_VERSION		=	6,
++	H_CUT_VERSION		=	7,
++	I_CUT_VERSION		=	8,
++	J_CUT_VERSION		=	9,
++	K_CUT_VERSION		=	10,
++} HAL_CUT_VERSION_E;
++
++/* HAL_Manufacturer */
++typedef enum tag_HAL_Manufacturer_Version_Definition {
++	CHIP_VENDOR_TSMC	=	0,
++	CHIP_VENDOR_UMC	=	1,
++	CHIP_VENDOR_SMIC	=	2,
++} HAL_VENDOR_E;
++
++typedef enum tag_HAL_RF_Type_Definition {
++	RF_TYPE_1T1R	=	0,
++	RF_TYPE_1T2R	=	1,
++	RF_TYPE_2T2R	=	2,
++	RF_TYPE_2T3R	=	3,
++	RF_TYPE_2T4R	=	4,
++	RF_TYPE_3T3R	=	5,
++	RF_TYPE_3T4R	=	6,
++	RF_TYPE_4T4R	=	7,
++} HAL_RF_TYPE_E;
++
++typedef	struct tag_HAL_VERSION {
++	HAL_IC_TYPE_E		ICType;
++	HAL_CHIP_TYPE_E		ChipType;
++	HAL_CUT_VERSION_E	CUTVersion;
++	HAL_VENDOR_E		VendorType;
++	HAL_RF_TYPE_E		RFType;
++	u8					ROMVer;
++} HAL_VERSION, *PHAL_VERSION;
++
++/* VERSION_8192C			VersionID;
++ * HAL_VERSION			VersionID; */
++
++/* Get element */
++#define GET_CVID_IC_TYPE(version)			((HAL_IC_TYPE_E)(((HAL_VERSION)version).ICType))
++#define GET_CVID_CHIP_TYPE(version)			((HAL_CHIP_TYPE_E)(((HAL_VERSION)version).ChipType))
++#define GET_CVID_RF_TYPE(version)			((HAL_RF_TYPE_E)(((HAL_VERSION)version).RFType))
++#define GET_CVID_MANUFACTUER(version)		((HAL_VENDOR_E)(((HAL_VERSION)version).VendorType))
++#define GET_CVID_CUT_VERSION(version)		((HAL_CUT_VERSION_E)(((HAL_VERSION)version).CUTVersion))
++#define GET_CVID_ROM_VERSION(version)		((((HAL_VERSION)version).ROMVer) & ROM_VERSION_MASK)
++
++/* ----------------------------------------------------------------------------
++ * Common Macro. --
++ * ----------------------------------------------------------------------------
++ * HAL_VERSION VersionID */
++
++/* HAL_IC_TYPE_E */
++#if 0
++	#define IS_81XXC(version)				(((GET_CVID_IC_TYPE(version) == CHIP_8192C) || (GET_CVID_IC_TYPE(version) == CHIP_8188C)) ? TRUE : FALSE)
++	#define IS_8723_SERIES(version)			((GET_CVID_IC_TYPE(version) == CHIP_8723A) ? TRUE : FALSE)
++	#define IS_92D(version)					((GET_CVID_IC_TYPE(version) == CHIP_8192D) ? TRUE : FALSE)
++#endif
++
++#define IS_8188E(version)					((GET_CVID_IC_TYPE(version) == CHIP_8188E) ? TRUE : FALSE)
++#define IS_8188F(version)					((GET_CVID_IC_TYPE(version) == CHIP_8188F) ? TRUE : FALSE)
++#define IS_8192E(version)					((GET_CVID_IC_TYPE(version) == CHIP_8192E) ? TRUE : FALSE)
++#define IS_8812_SERIES(version)			((GET_CVID_IC_TYPE(version) == CHIP_8812) ? TRUE : FALSE)
++#define IS_8821_SERIES(version)			((GET_CVID_IC_TYPE(version) == CHIP_8821) ? TRUE : FALSE)
++#define IS_8814A_SERIES(version)			((GET_CVID_IC_TYPE(version) == CHIP_8814A) ? TRUE : FALSE)
++#define IS_8723B_SERIES(version)			((GET_CVID_IC_TYPE(version) == CHIP_8723B) ? TRUE : FALSE)
++#define IS_8703B_SERIES(version)			((GET_CVID_IC_TYPE(version) == CHIP_8703B) ? TRUE : FALSE)
++#define IS_8822B_SERIES(version)			((GET_CVID_IC_TYPE(version) == CHIP_8822B) ? TRUE : FALSE)
++#define IS_8821C_SERIES(version)			((GET_CVID_IC_TYPE(version) == CHIP_8821C) ? TRUE : FALSE)
++#define IS_8723D_SERIES(version)\
++	((GET_CVID_IC_TYPE(version) == CHIP_8723D) ? TRUE : FALSE)
++/* HAL_CHIP_TYPE_E */
++#define IS_TEST_CHIP(version)			((GET_CVID_CHIP_TYPE(version) == TEST_CHIP) ? TRUE : FALSE)
++#define IS_NORMAL_CHIP(version)			((GET_CVID_CHIP_TYPE(version) == NORMAL_CHIP) ? TRUE : FALSE)
++
++/* HAL_CUT_VERSION_E */
++#define IS_A_CUT(version)				((GET_CVID_CUT_VERSION(version) == A_CUT_VERSION) ? TRUE : FALSE)
++#define IS_B_CUT(version)				((GET_CVID_CUT_VERSION(version) == B_CUT_VERSION) ? TRUE : FALSE)
++#define IS_C_CUT(version)				((GET_CVID_CUT_VERSION(version) == C_CUT_VERSION) ? TRUE : FALSE)
++#define IS_D_CUT(version)				((GET_CVID_CUT_VERSION(version) == D_CUT_VERSION) ? TRUE : FALSE)
++#define IS_E_CUT(version)				((GET_CVID_CUT_VERSION(version) == E_CUT_VERSION) ? TRUE : FALSE)
++#define IS_F_CUT(version)				((GET_CVID_CUT_VERSION(version) == F_CUT_VERSION) ? TRUE : FALSE)
++#define IS_I_CUT(version)				((GET_CVID_CUT_VERSION(version) == I_CUT_VERSION) ? TRUE : FALSE)
++#define IS_J_CUT(version)				((GET_CVID_CUT_VERSION(version) == J_CUT_VERSION) ? TRUE : FALSE)
++#define IS_K_CUT(version)				((GET_CVID_CUT_VERSION(version) == K_CUT_VERSION) ? TRUE : FALSE)
++
++/* HAL_VENDOR_E */
++#define IS_CHIP_VENDOR_TSMC(version)	((GET_CVID_MANUFACTUER(version) == CHIP_VENDOR_TSMC) ? TRUE : FALSE)
++#define IS_CHIP_VENDOR_UMC(version)	((GET_CVID_MANUFACTUER(version) == CHIP_VENDOR_UMC) ? TRUE : FALSE)
++#define IS_CHIP_VENDOR_SMIC(version)	((GET_CVID_MANUFACTUER(version) == CHIP_VENDOR_SMIC) ? TRUE : FALSE)
++
++/* HAL_RF_TYPE_E */
++#define IS_1T1R(version)					((GET_CVID_RF_TYPE(version) == RF_TYPE_1T1R) ? TRUE : FALSE)
++#define IS_1T2R(version)					((GET_CVID_RF_TYPE(version) == RF_TYPE_1T2R) ? TRUE : FALSE)
++#define IS_2T2R(version)					((GET_CVID_RF_TYPE(version) == RF_TYPE_2T2R) ? TRUE : FALSE)
++#define IS_3T3R(version)					((GET_CVID_RF_TYPE(version) == RF_TYPE_3T3R) ? TRUE : FALSE)
++#define IS_3T4R(version)					((GET_CVID_RF_TYPE(version) == RF_TYPE_3T4R) ? TRUE : FALSE)
++#define IS_4T4R(version)					((GET_CVID_RF_TYPE(version) == RF_TYPE_4T4R) ? TRUE : FALSE)
++
++
++
++/* ----------------------------------------------------------------------------
++ * Chip version Macro. --
++ * ---------------------------------------------------------------------------- */
++#if 0
++	#define IS_81XXC_TEST_CHIP(version)		((IS_81XXC(version) && (!IS_NORMAL_CHIP(version))) ? TRUE : FALSE)
++
++	#define IS_92C_SERIAL(version)					((IS_81XXC(version) && IS_2T2R(version)) ? TRUE : FALSE)
++	#define IS_81xxC_VENDOR_UMC_A_CUT(version)	(IS_81XXC(version) ? (IS_CHIP_VENDOR_UMC(version) ? (IS_A_CUT(version) ? TRUE : FALSE) : FALSE) : FALSE)
++	#define IS_81xxC_VENDOR_UMC_B_CUT(version)	(IS_81XXC(version) ? (IS_CHIP_VENDOR_UMC(version) ? (IS_B_CUT(version) ? TRUE : FALSE) : FALSE) : FALSE)
++	#define IS_81xxC_VENDOR_UMC_C_CUT(version)	(IS_81XXC(version) ? (IS_CHIP_VENDOR_UMC(version) ? (IS_C_CUT(version) ? TRUE : FALSE) : FALSE) : FALSE)
++
++	#define IS_NORMAL_CHIP92D(version)		((IS_92D(version)) ? ((GET_CVID_CHIP_TYPE(version) == NORMAL_CHIP) ? TRUE : FALSE) : FALSE)
++
++	#define IS_92D_SINGLEPHY(version)		((IS_92D(version)) ? (IS_2T2R(version) ? TRUE : FALSE) : FALSE)
++	#define IS_92D_C_CUT(version)			((IS_92D(version)) ? (IS_C_CUT(version) ? TRUE : FALSE) : FALSE)
++	#define IS_92D_D_CUT(version)			((IS_92D(version)) ? (IS_D_CUT(version) ? TRUE : FALSE) : FALSE)
++	#define IS_92D_E_CUT(version)			((IS_92D(version)) ? (IS_E_CUT(version) ? TRUE : FALSE) : FALSE)
++
++	#define IS_8723A_A_CUT(version)				((IS_8723_SERIES(version)) ? (IS_A_CUT(version) ? TRUE : FALSE) : FALSE)
++	#define IS_8723A_B_CUT(version)				((IS_8723_SERIES(version)) ? (IS_B_CUT(version) ? TRUE : FALSE) : FALSE)
++#endif
++
++#define IS_VENDOR_8188E_I_CUT_SERIES(_Adapter)		((IS_8188E(GET_HAL_DATA(_Adapter)->VersionID)) ? ((GET_CVID_CUT_VERSION(GET_HAL_DATA(_Adapter)->VersionID) >= I_CUT_VERSION) ? TRUE : FALSE) : FALSE)
++
++#define IS_VENDOR_8812A_TEST_CHIP(_Adapter)		((IS_8812_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? FALSE : TRUE) : FALSE)
++#define IS_VENDOR_8812A_MP_CHIP(_Adapter)		((IS_8812_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? TRUE : FALSE) : FALSE)
++#define IS_VENDOR_8812A_C_CUT(_Adapter)			((IS_8812_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((GET_CVID_CUT_VERSION(GET_HAL_DATA(_Adapter)->VersionID) == C_CUT_VERSION) ? TRUE : FALSE) : FALSE)
++
++#define IS_VENDOR_8821A_TEST_CHIP(_Adapter)	((IS_8821_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? FALSE : TRUE) : FALSE)
++#define IS_VENDOR_8821A_MP_CHIP(_Adapter)		((IS_8821_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? TRUE : FALSE) : FALSE)
++
++#define IS_VENDOR_8192E_B_CUT(_Adapter)		((GET_CVID_CUT_VERSION(GET_HAL_DATA(_Adapter)->VersionID) == B_CUT_VERSION) ? TRUE : FALSE)
++
++#define IS_VENDOR_8723B_TEST_CHIP(_Adapter)	((IS_8723B_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? FALSE : TRUE) : FALSE)
++#define IS_VENDOR_8723B_MP_CHIP(_Adapter)		((IS_8723B_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? TRUE : FALSE) : FALSE)
++
++#define IS_VENDOR_8703B_TEST_CHIP(_Adapter)	((IS_8703B_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? FALSE : TRUE) : FALSE)
++#define IS_VENDOR_8703B_MP_CHIP(_Adapter)		((IS_8703B_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? TRUE : FALSE) : FALSE)
++#define IS_VENDOR_8814A_TEST_CHIP(_Adapter)	((IS_8814A_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? FALSE : TRUE) : FALSE)
++#define IS_VENDOR_8814A_MP_CHIP(_Adapter)		((IS_8814A_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? TRUE : FALSE) : FALSE)
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/autoconf.h b/drivers/net/wireless/rtl8723du/include/autoconf.h
+new file mode 100644
+index 0000000..495aa9d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/autoconf.h
+@@ -0,0 +1,351 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2014 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*
++ * Public General Configure
++ */
++#define AUTOCONF_INCLUDED
++
++#define RTL871X_MODULE_NAME "8723DU"
++#ifdef CONFIG_FOR_RTL8723DU_VQ0
++#define DRV_NAME "rtl8723du-vq0"
++#else
++#define DRV_NAME "rtl8723du"
++#endif
++
++#ifndef CONFIG_RTL8723D
++#define CONFIG_RTL8723D
++#endif
++#define CONFIG_USB_HCI
++
++#define PLATFORM_LINUX 1
++
++/*
++ * Wi-Fi Functions Configure
++ */
++#define CONFIG_80211N_HT
++#define CONFIG_RECV_REORDERING_CTRL
++
++/* #define CONFIG_IOCTL_CFG80211 */		/* Set from Makefile */
++#ifdef CONFIG_IOCTL_CFG80211
++	/*
++	 * Indicate new sta asoc through cfg80211_new_sta
++	 * If kernel version >= 3.2 or
++	 * version < 3.2 but already apply cfg80211 patch,
++	 * RTW_USE_CFG80211_STA_EVENT must be defined!
++	 */
++	/* #define RTW_USE_CFG80211_STA_EVENT */ /* Indicate new sta asoc through cfg80211_new_sta */
++	#define CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER
++
++	/* #define CONFIG_DEBUG_CFG80211 */
++	/* #define CONFIG_DRV_ISSUE_PROV_REQ */ /* IOT FOR S2 */
++
++	#define CONFIG_SET_SCAN_DENY_TIMER
++	/*#define SUPPLICANT_RTK_VERSION_LOWER_THAN_JB42*/ /* wpa_supplicant realtek version <= jb42 will be defined this */
++#endif
++
++#define CONFIG_AP_MODE
++#ifdef CONFIG_AP_MODE
++	#define CONFIG_NATIVEAP_MLME
++	#ifndef CONFIG_NATIVEAP_MLME
++		#define CONFIG_HOSTAPD_MLME
++	#endif
++	/* #define CONFIG_FIND_BEST_CHANNEL */
++	/* #define CONFIG_NO_WIRELESS_HANDLERS */
++	#define CONFIG_TX_MCAST2UNI /* Support IP multicast to unicast */
++
++	/* #define CONFIG_AUTO_AP_MODE */
++#endif
++
++#define CONFIG_P2P
++#ifdef CONFIG_P2P
++	/*
++	 * Added by Albert 20110812
++	 * The CONFIG_WFD is for supporting the Wi-Fi display
++	 */
++	#define CONFIG_WFD
++
++	#define CONFIG_P2P_REMOVE_GROUP_INFO
++
++	/* #define CONFIG_DBG_P2P */
++	#define CONFIG_P2P_PS
++	#define CONFIG_P2P_OP_CHK_SOCIAL_CH
++	#define CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT  /* replace CONFIG_P2P_CHK_INVITE_CH_LIST flag */
++	#define CONFIG_P2P_INVITE_IOT
++#endif
++
++/*
++ * Added by Kurt 20110511
++ */
++#ifdef CONFIG_TDLS
++	#define CONFIG_TDLS_DRIVER_SETUP
++/*
++	#ifndef CONFIG_WFD
++		#define CONFIG_WFD
++	#endif
++	#define CONFIG_TDLS_AUTOSETUP
++*/
++	#define CONFIG_TDLS_AUTOCHECKALIVE
++	#define CONFIG_TDLS_CH_SW		/* Enable "CONFIG_TDLS_CH_SW" by default, however limit it to only work in wifi logo test mode but not in normal mode currently */
++#endif
++
++/* #define CONFIG_CONCURRENT_MODE */	/* Set from Makefile */
++#ifdef CONFIG_CONCURRENT_MODE
++	#define CONFIG_TSF_RESET_OFFLOAD			/* For 2 PORT TSF SYNC. */
++	/* #define CONFIG_HWPORT_SWAP	*/			/* Port0->Sec , Port1->Pri */
++	#define CONFIG_RUNTIME_PORT_SWITCH
++	/* #define DBG_RUNTIME_PORT_SWITCH */
++	#define CONFIG_SCAN_BACKOP
++
++#endif /* CONFIG_CONCURRENT_MODE */
++
++#define CONFIG_LAYER2_ROAMING
++#define CONFIG_LAYER2_ROAMING_RESUME
++
++#define CONFIG_80211D
++
++
++/*
++ * Hareware/Firmware Related Configure
++ */
++/* #define CONFIG_ANTENNA_DIVERSITY	 */ /* Set from Makefile */
++/* #define SUPPORT_HW_RFOFF_DETECTED */
++
++#define CONFIG_LED
++#ifdef CONFIG_LED
++	#define CONFIG_SW_LED
++	#ifdef CONFIG_SW_LED
++		/* define CONFIG_LED_HANDLED_BY_CMD_THREAD */
++	#endif
++#endif /* CONFIG_LED */
++
++#define CONFIG_XMIT_ACK
++#ifdef CONFIG_XMIT_ACK
++	#define CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++#endif
++
++#define CONFIG_RF_POWER_TRIM
++
++#define DISABLE_BB_RF	0
++
++#define RTW_NOTCH_FILTER 0 /* 0:Disable, 1:Enable, */
++
++/*
++ * Interface Related Configure
++ */
++#define CONFIG_USB_TX_AGGREGATION
++#define CONFIG_USB_RX_AGGREGATION
++
++#define USB_INTERFERENCE_ISSUE /* this should be checked in all usb interface */
++
++#define CONFIG_GLOBAL_UI_PID
++
++#define CONFIG_OUT_EP_WIFI_MODE
++
++#define ENABLE_USB_DROP_INCORRECT_OUT
++
++/* #define CONFIG_SUPPORT_USB_INT */
++#ifdef CONFIG_SUPPORT_USB_INT
++/* #define CONFIG_USB_INTERRUPT_IN_PIPE */
++#endif
++
++/* #define CONFIG_REDUCE_USB_TX_INT	*/ /* Trade-off: Improve performance, but may cause TX URBs blocked by USB Host/Bus driver on few platforms. */
++
++/*
++ * CONFIG_USE_USB_BUFFER_ALLOC_XX uses Linux USB Buffer alloc API and is for Linux platform only now!
++ */
++/* #define CONFIG_USE_USB_BUFFER_ALLOC_TX	*/ /* Trade-off: For TX path, improve stability on some platforms, but may cause performance degrade on other platforms. */
++/* #define CONFIG_USE_USB_BUFFER_ALLOC_RX	*/ /* For RX path */
++
++/*
++ * USB VENDOR REQ BUFFER ALLOCATION METHOD
++ * if not set we'll use function local variable (stack memory)
++ */
++/* #define CONFIG_USB_VENDOR_REQ_BUFFER_DYNAMIC_ALLOCATE */
++#define CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC
++#define CONFIG_USB_VENDOR_REQ_MUTEX
++#define CONFIG_VENDOR_REQ_RETRY
++/* #define CONFIG_USB_SUPPORT_ASYNC_VDN_REQ */
++
++
++/*
++ * Others
++ */
++#define CONFIG_SKB_COPY	/* for amsdu */
++
++/* #define CONFIG_EASY_REPLACEMENT */
++
++/* #define CONFIG_ADAPTOR_INFO_CACHING_FILE */ /* now just applied on 8192cu only, should make it general... */
++
++/* #define CONFIG_RESUME_IN_WORKQUEUE */
++
++/* #define CONFIG_SET_SCAN_DENY_TIMER */
++
++#define CONFIG_NEW_SIGNAL_STAT_PROCESS
++
++/* #define CONFIG_SIGNAL_DISPLAY_DBM */ /* display RX signal with dbm */
++#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++/* #define CONFIG_BACKGROUND_NOISE_MONITOR */
++#endif
++
++/* #define CONFIG_CHECK_AC_LIFETIME	*/ /* Check packet lifetime of 4 ACs. */
++
++#define CONFIG_EMBEDDED_FWIMG
++/* #define CONFIG_FILE_FWIMG */
++#ifdef CONFIG_EMBEDDED_FWIMG
++	#define	LOAD_FW_HEADER_FROM_DRIVER
++#endif
++
++#define CONFIG_LONG_DELAY_ISSUE
++#define CONFIG_ATTEMPT_TO_FIX_AP_BEACON_ERROR
++
++
++/*
++ * Auto Configure Section
++ */
++#define CONFIG_MINIMAL_MEMORY_USAGE
++#ifdef CONFIG_MINIMAL_MEMORY_USAGE
++	#undef CONFIG_USB_TX_AGGREGATION
++	#undef CONFIG_USB_RX_AGGREGATION
++#endif
++
++#ifdef CONFIG_MP_INCLUDED
++	#define MP_DRIVER	1
++	#define CONFIG_MP_IWPRIV_SUPPORT
++	/* #undef CONFIG_USB_TX_AGGREGATION */
++	/* #undef CONFIG_USB_RX_AGGREGATION */
++#else /* !CONFIG_MP_INCLUDED */
++	#define MP_DRIVER	0
++#endif /* !CONFIG_MP_INCLUDED */
++
++#ifdef CONFIG_POWER_SAVING
++	#define CONFIG_IPS
++	#define CONFIG_LPS
++
++	#ifdef CONFIG_IPS
++	/* #define CONFIG_IPS_LEVEL_2	1  */ /*enable this to set default IPS mode to IPS_LEVEL_2 */
++	#endif
++
++	#if defined(CONFIG_LPS) && defined(CONFIG_SUPPORT_USB_INT)
++		/* #define CONFIG_LPS_LCLK */
++	#endif
++
++	#ifdef CONFIG_LPS_LCLK
++		#define CONFIG_XMIT_THREAD_MODE
++	#endif
++#endif /* CONFIG_POWER_SAVING */
++
++#ifdef CONFIG_BT_COEXIST
++	/* for ODM and outsrc BT-Coex */
++	#ifndef CONFIG_LPS
++		#define CONFIG_LPS	/* download reserved page to FW */
++	#endif
++#endif /* CONFIG_BT_COEXIST */
++
++#ifdef CONFIG_WOWLAN
++	#define CONFIG_GTK_OL
++	#define CONFIG_ARP_KEEP_ALIVE
++	#ifndef CONFIG_DEFAULT_PATTERNS_EN
++		#define CONFIG_DEFAULT_PATTERNS_EN 1
++	#endif
++#endif /* CONFIG_WOWLAN */
++
++#ifdef CONFIG_GPIO_WAKEUP
++	#ifndef WAKEUP_GPIO_IDX
++		#define WAKEUP_GPIO_IDX	8	/* WIFI Chip Side */
++	#endif /* !WAKEUP_GPIO_IDX */
++#endif /* CONFIG_GPIO_WAKEUP */
++
++#ifdef CONFIG_AP_MODE
++	/* #define CONFIG_INTERRUPT_BASED_TXBCN */ /* Tx Beacon when driver BCN_OK ,BCN_ERR interrupt occurs */
++	#if defined(CONFIG_CONCURRENT_MODE) && defined(CONFIG_INTERRUPT_BASED_TXBCN)
++		#undef CONFIG_INTERRUPT_BASED_TXBCN
++	#endif
++	#ifdef CONFIG_INTERRUPT_BASED_TXBCN
++		/* #define CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT */
++		#define CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR
++	#endif
++#endif /* CONFIG_AP_MODE */
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++
++#else
++	#define CONFIG_PREALLOC_RECV_SKB
++	#ifdef CONFIG_PREALLOC_RECV_SKB
++		/* #define CONFIG_FIX_NR_BULKIN_BUFFER */ /* only use PREALLOC_RECV_SKB buffer, don't alloc skb at runtime */
++	#endif
++#endif
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++/* #define CONFIG_TX_EARLY_MODE */
++#endif
++
++#ifdef CONFIG_TX_EARLY_MODE
++#define RTL8723C_EARLY_MODE_PKT_NUM_10	0
++#endif
++
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	#define CONFIG_HW_ANTENNA_DIVERSITY
++#endif
++
++
++/*
++ * Debug Related Configure
++ */
++#define CONFIG_DEBUG /* DBG_871X, etc... */
++#ifdef CONFIG_DEBUG
++	#define DBG	1	/* for ODM & BTCOEX debug */
++	#define DBG_PHYDM_MORE 0
++#else /* !CONFIG_DEBUG */
++	#define DBG	0	/* for ODM & BTCOEX debug */
++	#define DBG_PHYDM_MORE 0
++#endif /* CONFIG_DEBUG */
++
++
++
++#define CONFIG_PROC_DEBUG
++
++/*
++#define DBG_CONFIG_ERROR_DETECT
++#define DBG_CONFIG_ERROR_DETECT_INT
++#define DBG_CONFIG_ERROR_RESET
++
++#define DBG_IO
++#define DBG_DELAY_OS
++#define DBG_MEM_ALLOC
++#define DBG_IOCTL
++
++#define DBG_TX
++#define DBG_XMIT_BUF
++#define DBG_XMIT_BUF_EXT
++#define DBG_TX_DROP_FRAME
++
++#define DBG_RX_DROP_FRAME
++#define DBG_RX_SEQ
++#define DBG_RX_SIGNAL_DISPLAY_PROCESSING
++#define DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED "rtw-ap"
++
++#define DBG_SHOW_MCUFWDL_BEFORE_51_ENABLE
++#define DBG_ROAMING_TEST
++
++#define DBG_HAL_INIT_PROFILING
++
++#define DBG_MEMORY_LEAK	1
++*/
+diff --git a/drivers/net/wireless/rtl8723du/include/basic_types.h b/drivers/net/wireless/rtl8723du/include/basic_types.h
+new file mode 100644
+index 0000000..245286d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/basic_types.h
+@@ -0,0 +1,384 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __BASIC_TYPES_H__
++#define __BASIC_TYPES_H__
++
++
++#define SUCCESS	0
++#define FAIL	(-1)
++
++#ifndef TRUE
++	#define _TRUE	1
++#else
++	#define _TRUE	TRUE
++#endif
++
++#ifndef FALSE
++	#define _FALSE	0
++#else
++	#define _FALSE	FALSE
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++	typedef signed char s8;
++	typedef unsigned char u8;
++
++	typedef signed short s16;
++	typedef unsigned short u16;
++
++	typedef signed long s32;
++	typedef unsigned long u32;
++
++	typedef unsigned int	uint;
++	typedef	signed int		sint;
++
++
++	typedef signed long long s64;
++	typedef unsigned long long u64;
++
++	#ifdef NDIS50_MINIPORT
++
++		#define NDIS_MAJOR_VERSION       5
++		#define NDIS_MINOR_VERSION       0
++
++	#endif
++
++	#ifdef NDIS51_MINIPORT
++
++		#define NDIS_MAJOR_VERSION       5
++		#define NDIS_MINOR_VERSION       1
++
++	#endif
++
++	typedef NDIS_PROC proc_t;
++
++	typedef LONG atomic_t;
++
++#endif
++
++
++#ifdef PLATFORM_LINUX
++	#include <linux/version.h>
++	#include <linux/types.h>
++	#include <linux/module.h>
++	#include <linux/kernel.h>
++	#include <linux/init.h>
++	#include <linux/utsname.h>
++	#define IN
++	#define OUT
++	#define VOID void
++	#define NDIS_OID uint
++	#define NDIS_STATUS uint
++
++	typedef	signed int sint;
++
++	#ifndef	PVOID
++		typedef void *PVOID;
++		/* #define PVOID	(void *) */
++	#endif
++
++	#define UCHAR u8
++	#define USHORT u16
++	#define UINT u32
++	#define ULONG u32
++
++	#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 19))
++		typedef _Bool bool;
++	#endif
++
++	typedef void (*proc_t)(void *);
++
++	typedef	__kernel_size_t	SIZE_T;
++	typedef	__kernel_ssize_t	SSIZE_T;
++	#define FIELD_OFFSET(s, field)	((SSIZE_T)&((s *)(0))->field)
++
++#endif
++
++
++#ifdef PLATFORM_FREEBSD
++
++	typedef signed char s8;
++	typedef unsigned char u8;
++
++	typedef signed short s16;
++	typedef unsigned short u16;
++
++	typedef signed int s32;
++	typedef unsigned int u32;
++
++	typedef unsigned int	uint;
++	typedef	signed int		sint;
++	typedef long atomic_t;
++
++	typedef signed long long s64;
++	typedef unsigned long long u64;
++	#define IN
++	#define OUT
++	#define VOID void
++	#define NDIS_OID uint
++	#define NDIS_STATUS uint
++
++	#ifndef	PVOID
++		typedef void *PVOID;
++		/* #define PVOID	(void *) */
++	#endif
++	typedef u32 dma_addr_t;
++	#define UCHAR u8
++	#define USHORT u16
++	#define UINT u32
++	#define ULONG u32
++
++	typedef void (*proc_t)(void *);
++
++	typedef unsigned int __kernel_size_t;
++	typedef int __kernel_ssize_t;
++
++	typedef	__kernel_size_t	SIZE_T;
++	typedef	__kernel_ssize_t	SSIZE_T;
++	#define FIELD_OFFSET(s, field)	((SSIZE_T)&((s *)(0))->field)
++
++#endif
++
++#define MEM_ALIGNMENT_OFFSET	(sizeof (SIZE_T))
++#define MEM_ALIGNMENT_PADDING	(sizeof(SIZE_T) - 1)
++
++#define SIZE_PTR SIZE_T
++#define SSIZE_PTR SSIZE_T
++
++/*
++* Continuous bits starting from least significant bit
++* Example:
++* BIT_LEN_MASK_32(0) => 0x00000000
++* BIT_LEN_MASK_32(1) => 0x00000001
++* BIT_LEN_MASK_32(2) => 0x00000003
++* BIT_LEN_MASK_32(32) => 0xFFFFFFFF
++*/
++#define BIT_LEN_MASK_32(__BitLen) ((u32)(0xFFFFFFFF >> (32 - (__BitLen))))
++#define BIT_LEN_MASK_16(__BitLen) ((u16)(0xFFFF >> (16 - (__BitLen))))
++#define BIT_LEN_MASK_8(__BitLen) ((u8)(0xFF >> (8 - (__BitLen))))
++
++/*
++* Continuous bits starting from least significant bit
++* Example:
++* BIT_OFFSET_LEN_MASK_32(0, 2) => 0x00000003
++* BIT_OFFSET_LEN_MASK_32(16, 2) => 0x00030000
++*/
++#define BIT_OFFSET_LEN_MASK_32(__BitOffset, __BitLen) ((u32)(BIT_LEN_MASK_32(__BitLen) << (__BitOffset)))
++#define BIT_OFFSET_LEN_MASK_16(__BitOffset, __BitLen) ((u16)(BIT_LEN_MASK_16(__BitLen) << (__BitOffset)))
++#define BIT_OFFSET_LEN_MASK_8(__BitOffset, __BitLen) ((u8)(BIT_LEN_MASK_8(__BitLen) << (__BitOffset)))
++
++/*
++* Convert LE data to host byte order
++*/
++#define EF1Byte (u8)
++#define EF2Byte le16_to_cpu
++#define EF4Byte le32_to_cpu
++
++/*
++* Read LE data from memory to host byte order
++*/
++#define ReadLE4Byte(_ptr)	le32_to_cpu(*((u32 *)(_ptr)))
++#define ReadLE2Byte(_ptr)	le16_to_cpu(*((u16 *)(_ptr)))
++#define ReadLE1Byte(_ptr)	(*((u8 *)(_ptr)))
++
++/*
++* Read BE data from memory to host byte order
++*/
++#define ReadBEE4Byte(_ptr)	be32_to_cpu(*((u32 *)(_ptr)))
++#define ReadBE2Byte(_ptr)	be16_to_cpu(*((u16 *)(_ptr)))
++#define ReadBE1Byte(_ptr)	(*((u8 *)(_ptr)))
++
++/*
++* Write host byte order data to memory in LE order
++*/
++#define WriteLE4Byte(_ptr, _val)	((*((u32 *)(_ptr))) = cpu_to_le32(_val))
++#define WriteLE2Byte(_ptr, _val)	((*((u16 *)(_ptr))) = cpu_to_le16(_val))
++#define WriteLE1Byte(_ptr, _val)	((*((u8 *)(_ptr))) = ((u8)(_val)))
++
++/*
++* Write host byte order data to memory in BE order
++*/
++#define WriteBE4Byte(_ptr, _val)	((*((u32 *)(_ptr))) = cpu_to_be32(_val))
++#define WriteBE2Byte(_ptr, _val)	((*((u16 *)(_ptr))) = cpu_to_be16(_val))
++#define WriteBE1Byte(_ptr, _val)	((*((u8 *)(_ptr))) = ((u8)(_val)))
++
++/*
++* Return 4-byte value in host byte ordering from 4-byte pointer in litten-endian system.
++*/
++#define LE_P4BYTE_TO_HOST_4BYTE(__pStart) (le32_to_cpu(*((u32 *)(__pStart))))
++#define LE_P2BYTE_TO_HOST_2BYTE(__pStart) (le16_to_cpu(*((u16 *)(__pStart))))
++#define LE_P1BYTE_TO_HOST_1BYTE(__pStart) ((*((u8 *)(__pStart))))
++
++/*
++* Return 4-byte value in host byte ordering from 4-byte pointer in big-endian system.
++*/
++#define BE_P4BYTE_TO_HOST_4BYTE(__pStart) (be32_to_cpu(*((u32 *)(__pStart))))
++#define BE_P2BYTE_TO_HOST_2BYTE(__pStart) (be16_to_cpu(*((u16 *)(__pStart))))
++#define BE_P1BYTE_TO_HOST_1BYTE(__pStart) ((*((u8 *)(__pStart))))
++
++/*
++* Translate subfield (continuous bits in little-endian) of 4-byte value in LE byte to
++* 4-byte value in host byte ordering.
++*/
++#define LE_BITS_TO_4BYTE(__pStart, __BitOffset, __BitLen) \
++	((LE_P4BYTE_TO_HOST_4BYTE(__pStart) >> (__BitOffset)) & BIT_LEN_MASK_32(__BitLen))
++
++#define LE_BITS_TO_2BYTE(__pStart, __BitOffset, __BitLen) \
++	((LE_P2BYTE_TO_HOST_2BYTE(__pStart) >> (__BitOffset)) & BIT_LEN_MASK_16(__BitLen))
++
++#define LE_BITS_TO_1BYTE(__pStart, __BitOffset, __BitLen) \
++	((LE_P1BYTE_TO_HOST_1BYTE(__pStart) >> (__BitOffset)) & BIT_LEN_MASK_8(__BitLen))
++
++/*
++* Translate subfield (continuous bits in big-endian) of 4-byte value in BE byte to
++* 4-byte value in host byte ordering.
++*/
++#define BE_BITS_TO_4BYTE(__pStart, __BitOffset, __BitLen) \
++	((BE_P4BYTE_TO_HOST_4BYTE(__pStart) >> (__BitOffset)) & BIT_LEN_MASK_32(__BitLen))
++
++#define BE_BITS_TO_2BYTE(__pStart, __BitOffset, __BitLen) \
++	((BE_P2BYTE_TO_HOST_2BYTE(__pStart) >> (__BitOffset)) & BIT_LEN_MASK_16(__BitLen))
++
++#define BE_BITS_TO_1BYTE(__pStart, __BitOffset, __BitLen) \
++	((BE_P1BYTE_TO_HOST_1BYTE(__pStart) >> (__BitOffset)) & BIT_LEN_MASK_8(__BitLen))
++
++/*
++* Mask subfield (continuous bits in little-endian) of 4-byte value in LE byte oredering
++* and return the result in 4-byte value in host byte ordering.
++*/
++#define LE_BITS_CLEARED_TO_4BYTE(__pStart, __BitOffset, __BitLen) \
++	(LE_P4BYTE_TO_HOST_4BYTE(__pStart) & (~BIT_OFFSET_LEN_MASK_32(__BitOffset, __BitLen)))
++
++#define LE_BITS_CLEARED_TO_2BYTE(__pStart, __BitOffset, __BitLen) \
++	(LE_P2BYTE_TO_HOST_2BYTE(__pStart) & (~BIT_OFFSET_LEN_MASK_16(__BitOffset, __BitLen)))
++
++#define LE_BITS_CLEARED_TO_1BYTE(__pStart, __BitOffset, __BitLen) \
++	(LE_P1BYTE_TO_HOST_1BYTE(__pStart) & ((u8)(~BIT_OFFSET_LEN_MASK_8(__BitOffset, __BitLen))))
++
++/*
++* Mask subfield (continuous bits in big-endian) of 4-byte value in BE byte oredering
++* and return the result in 4-byte value in host byte ordering.
++*/
++#define BE_BITS_CLEARED_TO_4BYTE(__pStart, __BitOffset, __BitLen) \
++	(BE_P4BYTE_TO_HOST_4BYTE(__pStart) & (~BIT_OFFSET_LEN_MASK_32(__BitOffset, __BitLen)))
++
++#define BE_BITS_CLEARED_TO_2BYTE(__pStart, __BitOffset, __BitLen) \
++	(BE_P2BYTE_TO_HOST_2BYTE(__pStart) & (~BIT_OFFSET_LEN_MASK_16(__BitOffset, __BitLen)))
++
++#define BE_BITS_CLEARED_TO_1BYTE(__pStart, __BitOffset, __BitLen) \
++	(BE_P1BYTE_TO_HOST_1BYTE(__pStart) & (~BIT_OFFSET_LEN_MASK_8(__BitOffset, __BitLen)))
++
++/*
++* Set subfield of little-endian 4-byte value to specified value.
++*/
++#define SET_BITS_TO_LE_4BYTE(__pStart, __BitOffset, __BitLen, __Value) \
++	do { \
++		if (__BitOffset == 0 && __BitLen == 32) \
++			WriteLE4Byte(__pStart, __Value); \
++		else { \
++			WriteLE4Byte(__pStart, \
++				LE_BITS_CLEARED_TO_4BYTE(__pStart, __BitOffset, __BitLen) \
++				| \
++				((((u32)__Value) & BIT_LEN_MASK_32(__BitLen)) << (__BitOffset)) \
++			); \
++		} \
++	} while (0)
++
++#define SET_BITS_TO_LE_2BYTE(__pStart, __BitOffset, __BitLen, __Value) \
++	do { \
++		if (__BitOffset == 0 && __BitLen == 16) \
++			WriteLE2Byte(__pStart, __Value); \
++		else { \
++			WriteLE2Byte(__pStart, \
++				LE_BITS_CLEARED_TO_2BYTE(__pStart, __BitOffset, __BitLen) \
++				| \
++				((((u16)__Value) & BIT_LEN_MASK_16(__BitLen)) << (__BitOffset)) \
++			); \
++		} \
++	} while (0)
++
++#define SET_BITS_TO_LE_1BYTE(__pStart, __BitOffset, __BitLen, __Value) \
++	do { \
++		if (__BitOffset == 0 && __BitLen == 8) \
++			WriteLE1Byte(__pStart, __Value); \
++		else { \
++			WriteLE1Byte(__pStart, \
++				LE_BITS_CLEARED_TO_1BYTE(__pStart, __BitOffset, __BitLen) \
++				| \
++				((((u8)__Value) & BIT_LEN_MASK_8(__BitLen)) << (__BitOffset)) \
++			); \
++		} \
++	} while (0)
++
++/*
++* Set subfield of big-endian 4-byte value to specified value.
++*/
++#define SET_BITS_TO_BE_4BYTE(__pStart, __BitOffset, __BitLen, __Value) \
++	do { \
++		if (__BitOffset == 0 && __BitLen == 32) \
++			WriteBE4Byte(__pStart, __Value); \
++		else { \
++			WriteBE4Byte(__pStart, \
++				BE_BITS_CLEARED_TO_4BYTE(__pStart, __BitOffset, __BitLen) \
++				| \
++				((((u32)__Value) & BIT_LEN_MASK_32(__BitLen)) << (__BitOffset)) \
++			); \
++		} \
++	} while (0)
++
++#define SET_BITS_TO_BE_2BYTE(__pStart, __BitOffset, __BitLen, __Value) \
++	do { \
++		if (__BitOffset == 0 && __BitLen == 16) \
++			WriteBE2Byte(__pStart, __Value); \
++		else { \
++			WriteBE2Byte(__pStart, \
++				BE_BITS_CLEARED_TO_2BYTE(__pStart, __BitOffset, __BitLen) \
++				| \
++				((((u16)__Value) & BIT_LEN_MASK_16(__BitLen)) << (__BitOffset)) \
++			); \
++		} \
++	} while (0)
++
++#define SET_BITS_TO_BE_1BYTE(__pStart, __BitOffset, __BitLen, __Value) \
++	do { \
++		if (__BitOffset == 0 && __BitLen == 8) \
++			WriteBE1Byte(__pStart, __Value); \
++		else { \
++			WriteBE1Byte(__pStart, \
++				BE_BITS_CLEARED_TO_1BYTE(__pStart, __BitOffset, __BitLen) \
++				| \
++				((((u8)__Value) & BIT_LEN_MASK_8(__BitLen)) << (__BitOffset)) \
++			); \
++		} \
++	} while (0)
++
++/* Get the N-bytes aligment offset from the current length */
++#define N_BYTE_ALIGMENT(__Value, __Aligment) ((__Aligment == 1) ? (__Value) : (((__Value + __Aligment - 1) / __Aligment) * __Aligment))
++
++typedef unsigned char	BOOLEAN, *PBOOLEAN, boolean;
++
++#define TEST_FLAG(__Flag, __testFlag)		(((__Flag) & (__testFlag)) != 0)
++#define SET_FLAG(__Flag, __setFlag)			((__Flag) |= __setFlag)
++#define CLEAR_FLAG(__Flag, __clearFlag)		((__Flag) &= ~(__clearFlag))
++#define CLEAR_FLAGS(__Flag)					((__Flag) = 0)
++#define TEST_FLAGS(__Flag, __testFlags)		(((__Flag) & (__testFlags)) == (__testFlags))
++
++#endif /* __BASIC_TYPES_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/byteorder/big_endian.h b/drivers/net/wireless/rtl8723du/include/byteorder/big_endian.h
+new file mode 100644
+index 0000000..345e9d8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/byteorder/big_endian.h
+@@ -0,0 +1,87 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _LINUX_BYTEORDER_BIG_ENDIAN_H
++#define _LINUX_BYTEORDER_BIG_ENDIAN_H
++
++#ifndef __BIG_ENDIAN
++	#define __BIG_ENDIAN 4321
++#endif
++#ifndef __BIG_ENDIAN_BITFIELD
++	#define __BIG_ENDIAN_BITFIELD
++#endif
++
++#include <byteorder/swab.h>
++
++#define __constant_htonl(x) ((__u32)(x))
++#define __constant_ntohl(x) ((__u32)(x))
++#define __constant_htons(x) ((__u16)(x))
++#define __constant_ntohs(x) ((__u16)(x))
++#define __constant_cpu_to_le64(x) ___constant_swab64((x))
++#define __constant_le64_to_cpu(x) ___constant_swab64((x))
++#define __constant_cpu_to_le32(x) ___constant_swab32((x))
++#define __constant_le32_to_cpu(x) ___constant_swab32((x))
++#define __constant_cpu_to_le16(x) ___constant_swab16((x))
++#define __constant_le16_to_cpu(x) ___constant_swab16((x))
++#define __constant_cpu_to_be64(x) ((__u64)(x))
++#define __constant_be64_to_cpu(x) ((__u64)(x))
++#define __constant_cpu_to_be32(x) ((__u32)(x))
++#define __constant_be32_to_cpu(x) ((__u32)(x))
++#define __constant_cpu_to_be16(x) ((__u16)(x))
++#define __constant_be16_to_cpu(x) ((__u16)(x))
++#define __cpu_to_le64(x) __swab64((x))
++#define __le64_to_cpu(x) __swab64((x))
++#define __cpu_to_le32(x) __swab32((x))
++#define __le32_to_cpu(x) __swab32((x))
++#define __cpu_to_le16(x) __swab16((x))
++#define __le16_to_cpu(x) __swab16((x))
++#define __cpu_to_be64(x) ((__u64)(x))
++#define __be64_to_cpu(x) ((__u64)(x))
++#define __cpu_to_be32(x) ((__u32)(x))
++#define __be32_to_cpu(x) ((__u32)(x))
++#define __cpu_to_be16(x) ((__u16)(x))
++#define __be16_to_cpu(x) ((__u16)(x))
++#define __cpu_to_le64p(x) __swab64p((x))
++#define __le64_to_cpup(x) __swab64p((x))
++#define __cpu_to_le32p(x) __swab32p((x))
++#define __le32_to_cpup(x) __swab32p((x))
++#define __cpu_to_le16p(x) __swab16p((x))
++#define __le16_to_cpup(x) __swab16p((x))
++#define __cpu_to_be64p(x) (*(__u64 *)(x))
++#define __be64_to_cpup(x) (*(__u64 *)(x))
++#define __cpu_to_be32p(x) (*(__u32 *)(x))
++#define __be32_to_cpup(x) (*(__u32 *)(x))
++#define __cpu_to_be16p(x) (*(__u16 *)(x))
++#define __be16_to_cpup(x) (*(__u16 *)(x))
++#define __cpu_to_le64s(x) __swab64s((x))
++#define __le64_to_cpus(x) __swab64s((x))
++#define __cpu_to_le32s(x) __swab32s((x))
++#define __le32_to_cpus(x) __swab32s((x))
++#define __cpu_to_le16s(x) __swab16s((x))
++#define __le16_to_cpus(x) __swab16s((x))
++#define __cpu_to_be64s(x) do {} while (0)
++#define __be64_to_cpus(x) do {} while (0)
++#define __cpu_to_be32s(x) do {} while (0)
++#define __be32_to_cpus(x) do {} while (0)
++#define __cpu_to_be16s(x) do {} while (0)
++#define __be16_to_cpus(x) do {} while (0)
++
++#include <byteorder/generic.h>
++
++#endif /* _LINUX_BYTEORDER_BIG_ENDIAN_H */
+diff --git a/drivers/net/wireless/rtl8723du/include/byteorder/generic.h b/drivers/net/wireless/rtl8723du/include/byteorder/generic.h
+new file mode 100644
+index 0000000..02cf675
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/byteorder/generic.h
+@@ -0,0 +1,212 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _LINUX_BYTEORDER_GENERIC_H
++#define _LINUX_BYTEORDER_GENERIC_H
++
++/*
++ * linux/byteorder_generic.h
++ * Generic Byte-reordering support
++ *
++ * Francois-Rene Rideau <fare@tunes.org> 19970707
++ *    gathered all the good ideas from all asm-foo/byteorder.h into one file,
++ *    cleaned them up.
++ *    I hope it is compliant with non-GCC compilers.
++ *    I decided to put __BYTEORDER_HAS_U64__ in byteorder.h,
++ *    because I wasn't sure it would be ok to put it in types.h
++ *    Upgraded it to 2.1.43
++ * Francois-Rene Rideau <fare@tunes.org> 19971012
++ *    Upgraded it to 2.1.57
++ *    to please Linus T., replaced huge #ifdef's between little/big endian
++ *    by nestedly #include'd files.
++ * Francois-Rene Rideau <fare@tunes.org> 19971205
++ *    Made it to 2.1.71; now a facelift:
++ *    Put files under include/linux/byteorder/
++ *    Split swab from generic support.
++ *
++ * TODO:
++ *   = Regular kernel maintainers could also replace all these manual
++ *    byteswap macros that remain, disseminated among drivers,
++ *    after some grep or the sources...
++ *   = Linus might want to rename all these macros and files to fit his taste,
++ *    to fit his personal naming scheme.
++ *   = it seems that a few drivers would also appreciate
++ *    nybble swapping support...
++ *   = every architecture could add their byteswap macro in asm/byteorder.h
++ *    see how some architectures already do (i386, alpha, ppc, etc)
++ *   = cpu_to_beXX and beXX_to_cpu might some day need to be well
++ *    distinguished throughout the kernel. This is not the case currently,
++ *    since little endian, big endian, and pdp endian machines needn't it.
++ *    But this might be the case for, say, a port of Linux to 20/21 bit
++ *    architectures (and F21 Linux addict around?).
++ */
++
++/*
++ * The following macros are to be defined by <asm/byteorder.h>:
++ *
++ * Conversion of long and short int between network and host format
++ *	ntohl(__u32 x)
++ *	ntohs(__u16 x)
++ *	htonl(__u32 x)
++ *	htons(__u16 x)
++ * It seems that some programs (which? where? or perhaps a standard? POSIX?)
++ * might like the above to be functions, not macros (why?).
++ * if that's true, then detect them, and take measures.
++ * Anyway, the measure is: define only ___ntohl as a macro instead,
++ * and in a separate file, have
++ * unsigned long inline ntohl(x){return ___ntohl(x);}
++ *
++ * The same for constant arguments
++ *	__constant_ntohl(__u32 x)
++ *	__constant_ntohs(__u16 x)
++ *	__constant_htonl(__u32 x)
++ *	__constant_htons(__u16 x)
++ *
++ * Conversion of XX-bit integers (16- 32- or 64-)
++ * between native CPU format and little/big endian format
++ * 64-bit stuff only defined for proper architectures
++ *	cpu_to_[bl]eXX(__uXX x)
++ *	[bl]eXX_to_cpu(__uXX x)
++ *
++ * The same, but takes a pointer to the value to convert
++ *	cpu_to_[bl]eXXp(__uXX x)
++ *	[bl]eXX_to_cpup(__uXX x)
++ *
++ * The same, but change in situ
++ *	cpu_to_[bl]eXXs(__uXX x)
++ *	[bl]eXX_to_cpus(__uXX x)
++ *
++ * See asm-foo/byteorder.h for examples of how to provide
++ * architecture-optimized versions
++ *
++ */
++
++
++#if defined(PLATFORM_LINUX) || defined(PLATFORM_WINDOWS) || defined(PLATFORM_MPIXEL) || defined(PLATFORM_FREEBSD)
++	/*
++	* inside the kernel, we can use nicknames;
++	* outside of it, we must avoid POSIX namespace pollution...
++	*/
++	#define cpu_to_le64 __cpu_to_le64
++	#define le64_to_cpu __le64_to_cpu
++	#define cpu_to_le32 __cpu_to_le32
++	#define le32_to_cpu __le32_to_cpu
++	#define cpu_to_le16 __cpu_to_le16
++	#define le16_to_cpu __le16_to_cpu
++	#define cpu_to_be64 __cpu_to_be64
++	#define be64_to_cpu __be64_to_cpu
++	#define cpu_to_be32 __cpu_to_be32
++	#define be32_to_cpu __be32_to_cpu
++	#define cpu_to_be16 __cpu_to_be16
++	#define be16_to_cpu __be16_to_cpu
++	#define cpu_to_le64p __cpu_to_le64p
++	#define le64_to_cpup __le64_to_cpup
++	#define cpu_to_le32p __cpu_to_le32p
++	#define le32_to_cpup __le32_to_cpup
++	#define cpu_to_le16p __cpu_to_le16p
++	#define le16_to_cpup __le16_to_cpup
++	#define cpu_to_be64p __cpu_to_be64p
++	#define be64_to_cpup __be64_to_cpup
++	#define cpu_to_be32p __cpu_to_be32p
++	#define be32_to_cpup __be32_to_cpup
++	#define cpu_to_be16p __cpu_to_be16p
++	#define be16_to_cpup __be16_to_cpup
++	#define cpu_to_le64s __cpu_to_le64s
++	#define le64_to_cpus __le64_to_cpus
++	#define cpu_to_le32s __cpu_to_le32s
++	#define le32_to_cpus __le32_to_cpus
++	#define cpu_to_le16s __cpu_to_le16s
++	#define le16_to_cpus __le16_to_cpus
++	#define cpu_to_be64s __cpu_to_be64s
++	#define be64_to_cpus __be64_to_cpus
++	#define cpu_to_be32s __cpu_to_be32s
++	#define be32_to_cpus __be32_to_cpus
++	#define cpu_to_be16s __cpu_to_be16s
++	#define be16_to_cpus __be16_to_cpus
++#endif
++
++
++/*
++ * Handle ntohl and suches. These have various compatibility
++ * issues - like we want to give the prototype even though we
++ * also have a macro for them in case some strange program
++ * wants to take the address of the thing or something..
++ *
++ * Note that these used to return a "long" in libc5, even though
++ * long is often 64-bit these days.. Thus the casts.
++ *
++ * They have to be macros in order to do the constant folding
++ * correctly - if the argument passed into a inline function
++ * it is no longer constant according to gcc..
++ */
++
++#undef ntohl
++#undef ntohs
++#undef htonl
++#undef htons
++
++/*
++ * Do the prototypes. Somebody might want to take the
++ * address or some such sick thing..
++ */
++#if defined(PLATFORM_LINUX) || (defined(__GLIBC__) && __GLIBC__ >= 2)
++	extern __u32			ntohl(__u32);
++	extern __u32			htonl(__u32);
++#else /* defined(PLATFORM_LINUX) || (defined (__GLIBC__) && __GLIBC__ >= 2) */
++	#ifndef PLATFORM_FREEBSD
++		extern unsigned long int	ntohl(unsigned long int);
++		extern unsigned long int	htonl(unsigned long int);
++	#endif
++#endif
++#ifndef PLATFORM_FREEBSD
++	extern unsigned short int	ntohs(unsigned short int);
++	extern unsigned short int	htons(unsigned short int);
++#endif
++
++#if defined(__GNUC__) && (__GNUC__ >= 2) && defined(__OPTIMIZE__) || defined(PLATFORM_MPIXEL)
++
++	#define ___htonl(x) __cpu_to_be32(x)
++	#define ___htons(x) __cpu_to_be16(x)
++	#define ___ntohl(x) __be32_to_cpu(x)
++	#define ___ntohs(x) __be16_to_cpu(x)
++
++	#if defined(PLATFORM_LINUX) || (defined(__GLIBC__) && __GLIBC__ >= 2)
++		#define htonl(x) ___htonl(x)
++		#define ntohl(x) ___ntohl(x)
++	#else
++		#define htonl(x) ((unsigned long)___htonl(x))
++		#define ntohl(x) ((unsigned long)___ntohl(x))
++	#endif
++	#define htons(x) ___htons(x)
++	#define ntohs(x) ___ntohs(x)
++
++#endif /* OPTIMIZE */
++
++
++#if defined(PLATFORM_WINDOWS)
++
++	#define htonl(x) __cpu_to_be32(x)
++	#define ntohl(x) __be32_to_cpu(x)
++	#define htons(x) __cpu_to_be16(x)
++	#define ntohs(x) __be16_to_cpu(x)
++
++
++#endif
++
++#endif /* _LINUX_BYTEORDER_GENERIC_H */
+diff --git a/drivers/net/wireless/rtl8723du/include/byteorder/little_endian.h b/drivers/net/wireless/rtl8723du/include/byteorder/little_endian.h
+new file mode 100644
+index 0000000..0b77336
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/byteorder/little_endian.h
+@@ -0,0 +1,89 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _LINUX_BYTEORDER_LITTLE_ENDIAN_H
++#define _LINUX_BYTEORDER_LITTLE_ENDIAN_H
++
++#ifndef __LITTLE_ENDIAN
++	#define __LITTLE_ENDIAN 1234
++#endif
++#ifndef __LITTLE_ENDIAN_BITFIELD
++	#define __LITTLE_ENDIAN_BITFIELD
++#endif
++
++#include <byteorder/swab.h>
++
++#ifndef __constant_htonl
++	#define __constant_htonl(x) ___constant_swab32((x))
++	#define __constant_ntohl(x) ___constant_swab32((x))
++	#define __constant_htons(x) ___constant_swab16((x))
++	#define __constant_ntohs(x) ___constant_swab16((x))
++	#define __constant_cpu_to_le64(x) ((__u64)(x))
++	#define __constant_le64_to_cpu(x) ((__u64)(x))
++	#define __constant_cpu_to_le32(x) ((__u32)(x))
++	#define __constant_le32_to_cpu(x) ((__u32)(x))
++	#define __constant_cpu_to_le16(x) ((__u16)(x))
++	#define __constant_le16_to_cpu(x) ((__u16)(x))
++	#define __constant_cpu_to_be64(x) ___constant_swab64((x))
++	#define __constant_be64_to_cpu(x) ___constant_swab64((x))
++	#define __constant_cpu_to_be32(x) ___constant_swab32((x))
++	#define __constant_be32_to_cpu(x) ___constant_swab32((x))
++	#define __constant_cpu_to_be16(x) ___constant_swab16((x))
++	#define __constant_be16_to_cpu(x) ___constant_swab16((x))
++	#define __cpu_to_le64(x) ((__u64)(x))
++	#define __le64_to_cpu(x) ((__u64)(x))
++	#define __cpu_to_le32(x) ((__u32)(x))
++	#define __le32_to_cpu(x) ((__u32)(x))
++	#define __cpu_to_le16(x) ((__u16)(x))
++	#define __le16_to_cpu(x) ((__u16)(x))
++	#define __cpu_to_be64(x) __swab64((x))
++	#define __be64_to_cpu(x) __swab64((x))
++	#define __cpu_to_be32(x) __swab32((x))
++	#define __be32_to_cpu(x) __swab32((x))
++	#define __cpu_to_be16(x) __swab16((x))
++	#define __be16_to_cpu(x) __swab16((x))
++	#define __cpu_to_le64p(x) (*(__u64 *)(x))
++	#define __le64_to_cpup(x) (*(__u64 *)(x))
++	#define __cpu_to_le32p(x) (*(__u32 *)(x))
++	#define __le32_to_cpup(x) (*(__u32 *)(x))
++	#define __cpu_to_le16p(x) (*(__u16 *)(x))
++	#define __le16_to_cpup(x) (*(__u16 *)(x))
++	#define __cpu_to_be64p(x) __swab64p((x))
++	#define __be64_to_cpup(x) __swab64p((x))
++	#define __cpu_to_be32p(x) __swab32p((x))
++	#define __be32_to_cpup(x) __swab32p((x))
++	#define __cpu_to_be16p(x) __swab16p((x))
++	#define __be16_to_cpup(x) __swab16p((x))
++	#define __cpu_to_le64s(x) do {} while (0)
++	#define __le64_to_cpus(x) do {} while (0)
++	#define __cpu_to_le32s(x) do {} while (0)
++	#define __le32_to_cpus(x) do {} while (0)
++	#define __cpu_to_le16s(x) do {} while (0)
++	#define __le16_to_cpus(x) do {} while (0)
++	#define __cpu_to_be64s(x) __swab64s((x))
++	#define __be64_to_cpus(x) __swab64s((x))
++	#define __cpu_to_be32s(x) __swab32s((x))
++	#define __be32_to_cpus(x) __swab32s((x))
++	#define __cpu_to_be16s(x) __swab16s((x))
++	#define __be16_to_cpus(x) __swab16s((x))
++#endif /* __constant_htonl */
++
++#include <byteorder/generic.h>
++
++#endif /* _LINUX_BYTEORDER_LITTLE_ENDIAN_H */
+diff --git a/drivers/net/wireless/rtl8723du/include/byteorder/swab.h b/drivers/net/wireless/rtl8723du/include/byteorder/swab.h
+new file mode 100644
+index 0000000..d6d81b5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/byteorder/swab.h
+@@ -0,0 +1,141 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _LINUX_BYTEORDER_SWAB_H
++#define _LINUX_BYTEORDER_SWAB_H
++
++#if !defined(CONFIG_PLATFORM_MSTAR)
++#ifndef __u16
++	typedef unsigned short __u16;
++#endif
++
++#ifndef __u32
++	typedef unsigned int	__u32;
++#endif
++
++#ifndef __u8
++	typedef unsigned char __u8;
++#endif
++
++#ifndef __u64
++	typedef unsigned long long	__u64;
++#endif
++
++
++__inline static __u16  ___swab16(__u16 x)
++{
++	__u16 __x = x;
++	return
++		 (__u16)(
++			 (((__u16)(__x)&(__u16)0x00ffU) << 8) |
++			 (((__u16)(__x)&(__u16)0xff00U) >> 8));
++
++}
++
++__inline static __u32  ___swab32(__u32 x)
++{
++	__u32 __x = (x);
++	return  (__u32)(
++			(((__u32)(__x)&(__u32)0x000000ffUL) << 24) |
++			(((__u32)(__x)&(__u32)0x0000ff00UL) <<  8) |
++			(((__u32)(__x)&(__u32)0x00ff0000UL) >>  8) |
++			(((__u32)(__x)&(__u32)0xff000000UL) >> 24));
++}
++
++__inline static __u64  ___swab64(__u64 x)
++{
++	__u64 __x = (x);
++
++	return
++		 (__u64)(\
++		 (__u64)(((__u64)(__x)&(__u64)0x00000000000000ffULL) << 56) | \
++		 (__u64)(((__u64)(__x)&(__u64)0x000000000000ff00ULL) << 40) | \
++		 (__u64)(((__u64)(__x)&(__u64)0x0000000000ff0000ULL) << 24) | \
++		 (__u64)(((__u64)(__x)&(__u64)0x00000000ff000000ULL) <<  8) | \
++		 (__u64)(((__u64)(__x)&(__u64)0x000000ff00000000ULL) >>  8) | \
++		 (__u64)(((__u64)(__x)&(__u64)0x0000ff0000000000ULL) >> 24) | \
++		 (__u64)(((__u64)(__x)&(__u64)0x00ff000000000000ULL) >> 40) | \
++		 (__u64)(((__u64)(__x)&(__u64)0xff00000000000000ULL) >> 56));
++	\
++}
++#endif /* CONFIG_PLATFORM_MSTAR */
++
++#ifndef __arch__swab16
++__inline static __u16 __arch__swab16(__u16 x)
++{
++	return ___swab16(x);
++}
++
++#endif
++
++#ifndef __arch__swab32
++__inline static __u32 __arch__swab32(__u32 x)
++{
++	__u32 __tmp = (x) ;
++	return ___swab32(__tmp);
++}
++#endif
++
++#ifndef __arch__swab64
++
++__inline static __u64 __arch__swab64(__u64 x)
++{
++	__u64 __tmp = (x) ;
++	return ___swab64(__tmp);
++}
++
++
++#endif
++
++#ifndef __swab16
++	#define __swab16(x) __fswab16(x)
++	#define __swab32(x) __fswab32(x)
++	#define __swab64(x) __fswab64(x)
++#endif /* __swab16 */
++
++#ifdef PLATFORM_FREEBSD
++	__inline static __u16 __fswab16(__u16 x)
++#else
++	__inline static const __u16 __fswab16(__u16 x)
++#endif /* PLATFORM_FREEBSD */
++{
++	return __arch__swab16(x);
++}
++#ifdef PLATFORM_FREEBSD
++	__inline static __u32 __fswab32(__u32 x)
++#else
++	__inline static const __u32 __fswab32(__u32 x)
++#endif /* PLATFORM_FREEBSD */
++{
++	return __arch__swab32(x);
++}
++
++#if defined(PLATFORM_LINUX) || defined(PLATFORM_WINDOWS)
++	#define swab16 __swab16
++	#define swab32 __swab32
++	#define swab64 __swab64
++	#define swab16p __swab16p
++	#define swab32p __swab32p
++	#define swab64p __swab64p
++	#define swab16s __swab16s
++	#define swab32s __swab32s
++	#define swab64s __swab64s
++#endif
++
++#endif /* _LINUX_BYTEORDER_SWAB_H */
+diff --git a/drivers/net/wireless/rtl8723du/include/byteorder/swabb.h b/drivers/net/wireless/rtl8723du/include/byteorder/swabb.h
+new file mode 100644
+index 0000000..ce33424
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/byteorder/swabb.h
+@@ -0,0 +1,156 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _LINUX_BYTEORDER_SWABB_H
++#define _LINUX_BYTEORDER_SWABB_H
++
++/*
++ * linux/byteorder/swabb.h
++ * SWAp Bytes Bizarrely
++ *	swaHHXX[ps]?(foo)
++ *
++ * Support for obNUXIous pdp-endian and other bizarre architectures.
++ * Will Linux ever run on such ancient beasts? if not, this file
++ * will be but a programming pearl. Still, it's a reminder that we
++ * shouldn't be making too many assumptions when trying to be portable.
++ *
++ */
++
++/*
++ * Meaning of the names I chose (vaxlinux people feel free to correct them):
++ * swahw32	swap 16-bit half-words in a 32-bit word
++ * swahb32	swap 8-bit halves of each 16-bit half-word in a 32-bit word
++ *
++ * No 64-bit support yet. I don't know NUXI conventions for long longs.
++ * I guarantee it will be a mess when it's there, though :->
++ * It will be even worse if there are conflicting 64-bit conventions.
++ * Hopefully, no one ever used 64-bit objects on NUXI machines.
++ *
++ */
++
++#define ___swahw32(x) \
++	({ \
++		__u32 __x = (x); \
++		((__u32)(\
++			 (((__u32)(__x) & (__u32)0x0000ffffUL) << 16) | \
++			 (((__u32)(__x) & (__u32)0xffff0000UL) >> 16))); \
++	})
++#define ___swahb32(x) \
++	({ \
++		__u32 __x = (x); \
++		((__u32)(\
++			 (((__u32)(__x) & (__u32)0x00ff00ffUL) << 8) | \
++			 (((__u32)(__x) & (__u32)0xff00ff00UL) >> 8))); \
++	})
++
++#define ___constant_swahw32(x) \
++	((__u32)(\
++		 (((__u32)(x) & (__u32)0x0000ffffUL) << 16) | \
++		 (((__u32)(x) & (__u32)0xffff0000UL) >> 16)))
++#define ___constant_swahb32(x) \
++	((__u32)(\
++		 (((__u32)(x) & (__u32)0x00ff00ffUL) << 8) | \
++		 (((__u32)(x) & (__u32)0xff00ff00UL) >> 8)))
++
++/*
++ * provide defaults when no architecture-specific optimization is detected
++ */
++#ifndef __arch__swahw32
++	#define __arch__swahw32(x) ___swahw32(x)
++#endif
++#ifndef __arch__swahb32
++	#define __arch__swahb32(x) ___swahb32(x)
++#endif
++
++#ifndef __arch__swahw32p
++	#define __arch__swahw32p(x) __swahw32(*(x))
++#endif
++#ifndef __arch__swahb32p
++	#define __arch__swahb32p(x) __swahb32(*(x))
++#endif
++
++#ifndef __arch__swahw32s
++	#define __arch__swahw32s(x) do { *(x) = __swahw32p((x)); } while (0)
++#endif
++#ifndef __arch__swahb32s
++	#define __arch__swahb32s(x) do { *(x) = __swahb32p((x)); } while (0)
++#endif
++
++
++/*
++ * Allow constant folding
++ */
++#if defined(__GNUC__) && (__GNUC__ >= 2) && defined(__OPTIMIZE__)
++#  define __swahw32(x) \
++	(__builtin_constant_p((__u32)(x)) ? \
++	 ___swahw32((x)) : \
++	 __fswahw32((x)))
++#  define __swahb32(x) \
++	(__builtin_constant_p((__u32)(x)) ? \
++	 ___swahb32((x)) : \
++	 __fswahb32((x)))
++#else
++#  define __swahw32(x) __fswahw32(x)
++#  define __swahb32(x) __fswahb32(x)
++#endif /* OPTIMIZE */
++
++
++__inline static__ __const__ __u32 __fswahw32(__u32 x)
++{
++	return __arch__swahw32(x);
++}
++__inline static__ __u32 __swahw32p(__u32 *x)
++{
++	return __arch__swahw32p(x);
++}
++__inline static__ void __swahw32s(__u32 *addr)
++{
++	__arch__swahw32s(addr);
++}
++
++
++__inline static__ __const__ __u32 __fswahb32(__u32 x)
++{
++	return __arch__swahb32(x);
++}
++__inline static__ __u32 __swahb32p(__u32 *x)
++{
++	return __arch__swahb32p(x);
++}
++__inline static__ void __swahb32s(__u32 *addr)
++{
++	__arch__swahb32s(addr);
++}
++
++#ifdef __BYTEORDER_HAS_U64__
++	/*
++	* Not supported yet
++	*/
++#endif /* __BYTEORDER_HAS_U64__ */
++
++#if defined(PLATFORM_LINUX)
++	#define swahw32 __swahw32
++	#define swahb32 __swahb32
++	#define swahw32p __swahw32p
++	#define swahb32p __swahb32p
++	#define swahw32s __swahw32s
++	#define swahb32s __swahb32s
++#endif
++
++#endif /* _LINUX_BYTEORDER_SWABB_H */
+diff --git a/drivers/net/wireless/rtl8723du/include/circ_buf.h b/drivers/net/wireless/rtl8723du/include/circ_buf.h
+new file mode 100644
+index 0000000..2352316
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/circ_buf.h
+@@ -0,0 +1,28 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __CIRC_BUF_H_
++#define __CIRC_BUF_H_ 1
++
++#define CIRC_CNT(head,tail,size) (((head) - (tail)) & ((size)-1))
++
++#define CIRC_SPACE(head,tail,size) CIRC_CNT((tail),((head)+1),(size))
++
++#endif //_CIRC_BUF_H_
++
+diff --git a/drivers/net/wireless/rtl8723du/include/cmd_osdep.h b/drivers/net/wireless/rtl8723du/include/cmd_osdep.h
+new file mode 100644
+index 0000000..9c63a1c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/cmd_osdep.h
+@@ -0,0 +1,31 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __CMD_OSDEP_H_
++#define __CMD_OSDEP_H_
++
++
++extern sint _rtw_init_cmd_priv(struct	cmd_priv *pcmdpriv);
++extern sint _rtw_init_evt_priv(struct evt_priv *pevtpriv);
++extern void _rtw_free_evt_priv(struct	evt_priv *pevtpriv);
++extern void _rtw_free_cmd_priv(struct	cmd_priv *pcmdpriv);
++extern sint _rtw_enqueue_cmd(_queue *queue, struct cmd_obj *obj, bool to_head);
++extern struct cmd_obj *_rtw_dequeue_cmd(_queue *queue);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/custom_gpio.h b/drivers/net/wireless/rtl8723du/include/custom_gpio.h
+new file mode 100644
+index 0000000..5691d9a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/custom_gpio.h
+@@ -0,0 +1,32 @@
++#ifndef __CUSTOM_GPIO_H__
++#define __CUSTOM_GPIO_H___
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++
++#ifdef PLATFORM_OS_XP
++	#include <drv_types_xp.h>
++#endif
++
++#ifdef PLATFORM_OS_CE
++	#include <drv_types_ce.h>
++#endif
++
++#ifdef PLATFORM_LINUX
++	#include <drv_types_linux.h>
++#endif
++
++typedef enum cust_gpio_modes {
++	WLAN_PWDN_ON,
++	WLAN_PWDN_OFF,
++	WLAN_POWER_ON,
++	WLAN_POWER_OFF,
++	WLAN_BT_PWDN_ON,
++	WLAN_BT_PWDN_OFF
++} cust_gpio_modes_t;
++
++extern int rtw_wifi_gpio_init(void);
++extern int rtw_wifi_gpio_deinit(void);
++extern void rtw_wifi_gpio_wlan_ctrl(int onoff);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/drv_conf.h b/drivers/net/wireless/rtl8723du/include/drv_conf.h
+new file mode 100644
+index 0000000..750a4e9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/drv_conf.h
+@@ -0,0 +1,290 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __DRV_CONF_H__
++#define __DRV_CONF_H__
++#include "autoconf.h"
++#include "hal_ic_cfg.h"
++
++#if defined(PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++
++	#error "Shall be Linux or Windows, but not both!\n"
++
++#endif
++
++#if defined(CONFIG_MCC_MODE) && (!defined(CONFIG_CONCURRENT_MODE))
++
++	#error "Enable CONCURRENT_MODE before enable MCC MODE\n"
++
++#endif
++
++#if defined(CONFIG_MCC_MODE) && defined(CONFIG_BT_COEXIST)
++
++	#error "Disable BT COEXIST before enable MCC MODE\n"
++
++#endif
++
++#if defined(CONFIG_MCC_MODE) && defined(CONFIG_TDLS)
++
++	#error "Disable TDLS before enable MCC MODE\n"
++
++#endif
++
++#if defined(CONFIG_RTW_80211R) && !defined(CONFIG_LAYER2_ROAMING)
++
++	#error "Enable CONFIG_LAYER2_ROAMING before enable CONFIG_RTW_80211R\n"
++
++#endif
++
++/* Older Android kernel doesn't has CONFIG_ANDROID defined,
++ * add this to force CONFIG_ANDROID defined */
++#ifdef CONFIG_PLATFORM_ANDROID
++	#ifndef CONFIG_ANDROID
++		#define CONFIG_ANDROID
++	#endif
++#endif
++
++#ifdef CONFIG_ANDROID
++	/* Some Android build will restart the UI while non-printable ascii is passed
++	* between java and c/c++ layer (JNI). We force CONFIG_VALIDATE_SSID
++	* for Android here. If you are sure there is no risk on your system about this,
++	* mask this macro define to support non-printable ascii ssid.
++	* #define CONFIG_VALIDATE_SSID */
++
++	/* Android expect dbm as the rx signal strength unit */
++	#define CONFIG_SIGNAL_DISPLAY_DBM
++#endif
++
++/*
++#if defined(CONFIG_HAS_EARLYSUSPEND) && defined(CONFIG_RESUME_IN_WORKQUEUE)
++	#warning "You have CONFIG_HAS_EARLYSUSPEND enabled in your system, we disable CONFIG_RESUME_IN_WORKQUEUE automatically"
++	#undef CONFIG_RESUME_IN_WORKQUEUE
++#endif
++
++#if defined(CONFIG_ANDROID_POWER) && defined(CONFIG_RESUME_IN_WORKQUEUE)
++	#warning "You have CONFIG_ANDROID_POWER enabled in your system, we disable CONFIG_RESUME_IN_WORKQUEUE automatically"
++	#undef CONFIG_RESUME_IN_WORKQUEUE
++#endif
++*/
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE /* this can be removed, because there is no case for this... */
++	#if !defined(CONFIG_WAKELOCK) && !defined(CONFIG_ANDROID_POWER)
++		#error "enable CONFIG_RESUME_IN_WORKQUEUE without CONFIG_WAKELOCK or CONFIG_ANDROID_POWER will suffer from the danger of wifi's unfunctionality..."
++		#error "If you still want to enable CONFIG_RESUME_IN_WORKQUEUE in this case, mask this preprossor checking and GOOD LUCK..."
++	#endif
++#endif
++
++/* About USB VENDOR REQ */
++#if defined(CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC) && !defined(CONFIG_USB_VENDOR_REQ_MUTEX)
++	#warning "define CONFIG_USB_VENDOR_REQ_MUTEX for CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC automatically"
++	#define CONFIG_USB_VENDOR_REQ_MUTEX
++#endif
++#if defined(CONFIG_VENDOR_REQ_RETRY) &&  !defined(CONFIG_USB_VENDOR_REQ_MUTEX)
++	#warning "define CONFIG_USB_VENDOR_REQ_MUTEX for CONFIG_VENDOR_REQ_RETRY automatically"
++	#define CONFIG_USB_VENDOR_REQ_MUTEX
++#endif
++
++#if !defined(CONFIG_AP_MODE) && defined(CONFIG_DFS_MASTER)
++	#warning "undef CONFIG_DFS_MASTER because CONFIG_AP_MODE is not defined"
++	#undef CONFIG_DFS_MASTER
++#endif
++
++#define RTW_SCAN_SPARSE_MIRACAST 1
++#define RTW_SCAN_SPARSE_BG 0
++#define RTW_SCAN_SPARSE_ROAMING_ACTIVE 1
++
++#ifndef CONFIG_RTW_HIQ_FILTER
++	#define CONFIG_RTW_HIQ_FILTER 1
++#endif
++
++#ifndef CONFIG_RTW_FORCE_IGI_LB
++	#define CONFIG_RTW_FORCE_IGI_LB 0
++#endif
++
++#ifndef CONFIG_RTW_ADAPTIVITY_EN
++	#define CONFIG_RTW_ADAPTIVITY_EN 0
++#endif
++
++#ifndef CONFIG_RTW_ADAPTIVITY_MODE
++	#define CONFIG_RTW_ADAPTIVITY_MODE 0
++#endif
++
++#ifndef CONFIG_RTW_ADAPTIVITY_DML
++	#define CONFIG_RTW_ADAPTIVITY_DML 0
++#endif
++
++#ifndef CONFIG_RTW_ADAPTIVITY_DC_BACKOFF
++	#define CONFIG_RTW_ADAPTIVITY_DC_BACKOFF 2
++#endif
++
++#ifndef CONFIG_RTW_ADAPTIVITY_TH_L2H_INI
++	#define CONFIG_RTW_ADAPTIVITY_TH_L2H_INI 0
++#endif
++
++#ifndef CONFIG_RTW_ADAPTIVITY_TH_EDCCA_HL_DIFF
++	#define CONFIG_RTW_ADAPTIVITY_TH_EDCCA_HL_DIFF 0
++#endif
++
++#ifndef CONFIG_RTW_EXCL_CHS
++	#define CONFIG_RTW_EXCL_CHS {0}
++#endif
++
++#ifndef CONFIG_RTW_DFS_REGION_DOMAIN
++	#define CONFIG_RTW_DFS_REGION_DOMAIN 0
++#endif
++
++#ifndef CONFIG_RTW_TARGET_TX_PWR_2G_A
++	#define CONFIG_RTW_TARGET_TX_PWR_2G_A {-1, -1, -1, -1, -1, -1, -1, -1, -1, -1}
++#endif
++
++#ifndef CONFIG_RTW_TARGET_TX_PWR_2G_B
++	#define CONFIG_RTW_TARGET_TX_PWR_2G_B {-1, -1, -1, -1, -1, -1, -1, -1, -1, -1}
++#endif
++
++#ifndef CONFIG_RTW_TARGET_TX_PWR_2G_C
++	#define CONFIG_RTW_TARGET_TX_PWR_2G_C {-1, -1, -1, -1, -1, -1, -1, -1, -1, -1}
++#endif
++
++#ifndef CONFIG_RTW_TARGET_TX_PWR_2G_D
++	#define CONFIG_RTW_TARGET_TX_PWR_2G_D {-1, -1, -1, -1, -1, -1, -1, -1, -1, -1}
++#endif
++
++#ifndef CONFIG_RTW_TARGET_TX_PWR_5G_A
++	#define CONFIG_RTW_TARGET_TX_PWR_5G_A {-1, -1, -1, -1, -1, -1, -1, -1, -1}
++#endif
++
++#ifndef CONFIG_RTW_TARGET_TX_PWR_5G_B
++	#define CONFIG_RTW_TARGET_TX_PWR_5G_B {-1, -1, -1, -1, -1, -1, -1, -1, -1}
++#endif
++
++#ifndef CONFIG_RTW_TARGET_TX_PWR_5G_C
++	#define CONFIG_RTW_TARGET_TX_PWR_5G_C {-1, -1, -1, -1, -1, -1, -1, -1, -1}
++#endif
++
++#ifndef CONFIG_RTW_TARGET_TX_PWR_5G_D
++	#define CONFIG_RTW_TARGET_TX_PWR_5G_D {-1, -1, -1, -1, -1, -1, -1, -1, -1}
++#endif
++
++#ifndef CONFIG_RTW_AMPLIFIER_TYPE_2G
++	#define CONFIG_RTW_AMPLIFIER_TYPE_2G 0
++#endif
++
++#ifndef CONFIG_RTW_AMPLIFIER_TYPE_5G
++	#define CONFIG_RTW_AMPLIFIER_TYPE_5G 0
++#endif
++
++#ifndef CONFIG_RTW_RFE_TYPE
++	#define CONFIG_RTW_RFE_TYPE 64
++#endif
++
++#ifndef CONFIG_RTW_GLNA_TYPE
++	#define CONFIG_RTW_GLNA_TYPE 0
++#endif
++
++#ifndef CONFIG_RTW_PLL_REF_CLK_SEL
++	#define CONFIG_RTW_PLL_REF_CLK_SEL 0x0F
++#endif
++
++#ifndef CONFIG_IFACE_NUMBER
++	#ifdef CONFIG_CONCURRENT_MODE
++		#define CONFIG_IFACE_NUMBER	2
++	#else
++		#define CONFIG_IFACE_NUMBER	1
++	#endif
++#endif
++
++#ifndef CONFIG_CONCURRENT_MODE
++	#if (CONFIG_IFACE_NUMBER > 1)
++		#error "CONFIG_IFACE_NUMBER over 1,but CONFIG_CONCURRENT_MODE not defined"
++	#endif
++#endif
++
++#if (CONFIG_IFACE_NUMBER == 0)
++	#error "CONFIG_IFACE_NUMBER cound not equel to 0 !!"
++#endif
++
++#if (CONFIG_IFACE_NUMBER > 3)
++	#error "Not support over 3 interfaces yet !!"
++#endif
++
++#if (CONFIG_IFACE_NUMBER > 8)	/*IFACE_ID_MAX*/
++	#error "HW count not support over 8 interfaces !!"
++#endif
++
++#if (CONFIG_IFACE_NUMBER > 2)
++	#define CONFIG_MI_WITH_MBSSID_CAM
++
++	#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		#define CONFIG_MBSSID_CAM
++		#if defined(CONFIG_RUNTIME_PORT_SWITCH)
++			#undef CONFIG_RUNTIME_PORT_SWITCH
++		#endif
++	#endif
++
++	#ifdef CONFIG_AP_MODE
++		#define CONFIG_SWTIMER_BASED_TXBCN
++		/*#define CONFIG_FW_BASED_BCN*/
++	#endif
++#endif
++
++#define MACID_NUM_SW_LIMIT 32
++#define SEC_CAM_ENT_NUM_SW_LIMIT 32
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) || defined(CONFIG_RTL8814A)
++	#define CONFIG_IEEE80211_BAND_5GHZ
++#endif
++
++#ifndef RTW_DEF_MODULE_REGULATORY_CERT
++	#define RTW_DEF_MODULE_REGULATORY_CERT 0
++#endif
++
++#if RTW_DEF_MODULE_REGULATORY_CERT
++	/* force enable TX power by rate and TX power limit */
++	#ifndef CONFIG_CALIBRATE_TX_POWER_BY_REGULATORY
++		#define CONFIG_CALIBRATE_TX_POWER_BY_REGULATORY
++	#endif
++#endif
++
++/*
++	Mark CONFIG_DEAUTH_BEFORE_CONNECT by Arvin 2015/07/20
++	If the failure of Wi-Fi connection is due to some irregular disconnection behavior (like unplug dongle,
++	power down etc.) in last time, we can unmark this flag to avoid some unpredictable response from AP.
++*/
++/*#define CONFIG_DEAUTH_BEFORE_CONNECT */
++
++/*#define CONFIG_WEXT_DONT_JOIN_BYSSID	*/
++/* #include <rtl871x_byteorder.h> */
++
++
++/*#define CONFIG_DOSCAN_IN_BUSYTRAFFIC	*/
++
++/*Don't release SDIO irq in suspend/resume procedure*/
++#ifdef CONFIG_SDIO_HCI
++#define CONFIG_RTW_SDIO_KEEP_IRQ
++#endif
++
++/*
++ * Add by Lucas@2016/02/15
++ * For RX Aggregation
++ */
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_USB_RX_AGGREGATION)
++	#define RTW_RX_AGGREGATION
++#endif /* CONFIG_SDIO_HCI || CONFIG_USB_RX_AGGREGATION */
++
++#endif /* __DRV_CONF_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/drv_types.h b/drivers/net/wireless/rtl8723du/include/drv_types.h
+new file mode 100644
+index 0000000..66da9e4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/drv_types.h
+@@ -0,0 +1,1539 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*-------------------------------------------------------------------------------
++
++	For type defines and data structure defines
++
++--------------------------------------------------------------------------------*/
++
++
++#ifndef __DRV_TYPES_H__
++#define __DRV_TYPES_H__
++
++#include <drv_conf.h>
++#include <basic_types.h>
++#include <osdep_service.h>
++#include <rtw_byteorder.h>
++#include <wlan_bssdef.h>
++#include <wifi.h>
++#include <ieee80211.h>
++#ifdef CONFIG_ARP_KEEP_ALIVE
++	#include <net/neighbour.h>
++	#include <net/arp.h>
++#endif
++
++#ifdef PLATFORM_OS_XP
++	#include <drv_types_xp.h>
++#endif
++
++#ifdef PLATFORM_OS_CE
++	#include <drv_types_ce.h>
++#endif
++
++#ifdef PLATFORM_LINUX
++	#include <drv_types_linux.h>
++#endif
++
++enum _NIC_VERSION {
++
++	RTL8711_NIC,
++	RTL8712_NIC,
++	RTL8713_NIC,
++	RTL8716_NIC
++
++};
++
++typedef struct _ADAPTER _adapter, ADAPTER, *PADAPTER;
++
++#include <rtw_debug.h>
++#include <rtw_rf.h>
++
++#ifdef CONFIG_80211N_HT
++	#include <rtw_ht.h>
++#endif
++
++#ifdef CONFIG_80211AC_VHT
++	#include <rtw_vht.h>
++#endif
++
++#ifdef CONFIG_INTEL_WIDI
++	#include <rtw_intel_widi.h>
++#endif
++
++#include <rtw_cmd.h>
++#include <cmd_osdep.h>
++#include <rtw_security.h>
++#include <rtw_xmit.h>
++#include <xmit_osdep.h>
++#include <rtw_recv.h>
++
++#ifdef CONFIG_BEAMFORMING
++	#include <rtw_beamforming.h>
++#endif
++
++#include <recv_osdep.h>
++#include <rtw_efuse.h>
++#include <rtw_sreset.h>
++#include <hal_intf.h>
++#include <hal_com.h>
++#include<hal_com_h2c.h>
++#include <hal_com_led.h>
++#include "../hal/hal_dm.h"
++#include <rtw_qos.h>
++#include <rtw_pwrctrl.h>
++#include <rtw_mlme.h>
++#include <mlme_osdep.h>
++#include <rtw_io.h>
++#include <rtw_ioctl.h>
++#include <rtw_ioctl_set.h>
++#include <rtw_ioctl_query.h>
++#include <rtw_ioctl_rtl.h>
++#include <osdep_intf.h>
++#include <rtw_eeprom.h>
++#include <sta_info.h>
++#include <rtw_event.h>
++#include <rtw_mlme_ext.h>
++#include <rtw_mi.h>
++#include <rtw_ap.h>
++#include <rtw_efuse.h>
++#include <rtw_version.h>
++#include <rtw_odm.h>
++
++#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++	#include <rtw_mem.h>
++#endif
++
++#include <rtw_p2p.h>
++
++#ifdef CONFIG_TDLS
++	#include <rtw_tdls.h>
++#endif /* CONFIG_TDLS */
++
++#ifdef CONFIG_WAPI_SUPPORT
++	#include <rtw_wapi.h>
++#endif /* CONFIG_WAPI_SUPPORT */
++
++#ifdef CONFIG_DRVEXT_MODULE
++	#include <drvext_api.h>
++#endif /* CONFIG_DRVEXT_MODULE */
++
++#ifdef CONFIG_MP_INCLUDED
++	#include <rtw_mp.h>
++#endif /* CONFIG_MP_INCLUDED */
++
++#ifdef CONFIG_BR_EXT
++	#include <rtw_br_ext.h>
++#endif /* CONFIG_BR_EXT */
++
++#ifdef CONFIG_IOL
++	#include <rtw_iol.h>
++#endif /* CONFIG_IOL */
++
++#include <ip.h>
++#include <if_ether.h>
++#include <ethernet.h>
++#include <circ_buf.h>
++
++#include <rtw_android.h>
++
++#ifdef CONFIG_BT_COEXIST
++	#include <rtw_btcoex.h>
++#endif /* CONFIG_BT_COEXIST */
++
++#ifdef CONFIG_MCC_MODE
++	#include <rtw_mcc.h>
++#endif /*CONFIG_MCC_MODE */
++
++#define SPEC_DEV_ID_NONE BIT(0)
++#define SPEC_DEV_ID_DISABLE_HT BIT(1)
++#define SPEC_DEV_ID_ENABLE_PS BIT(2)
++#define SPEC_DEV_ID_RF_CONFIG_1T1R BIT(3)
++#define SPEC_DEV_ID_RF_CONFIG_2T2R BIT(4)
++#define SPEC_DEV_ID_ASSIGN_IFNAME BIT(5)
++
++struct specific_device_id {
++
++	u32		flags;
++
++	u16		idVendor;
++	u16		idProduct;
++
++};
++
++struct registry_priv {
++	u8	chip_version;
++	u8	rfintfs;
++	u8	lbkmode;
++	u8	hci;
++	NDIS_802_11_SSID	ssid;
++	u8	network_mode;	/* infra, ad-hoc, auto */
++	u8	channel;/* ad-hoc support requirement */
++	u8	wireless_mode;/* A, B, G, auto */
++	u8	scan_mode;/* active, passive */
++	u8	radio_enable;
++	u8	preamble;/* long, short, auto */
++	u8	vrtl_carrier_sense;/* Enable, Disable, Auto */
++	u8	vcs_type;/* RTS/CTS, CTS-to-self */
++	u16	rts_thresh;
++	u16  frag_thresh;
++	u8	adhoc_tx_pwr;
++	u8	soft_ap;
++	u8	power_mgnt;
++	u8	ips_mode;
++	u8	smart_ps;
++	u8   usb_rxagg_mode;
++	u8	long_retry_lmt;
++	u8	short_retry_lmt;
++	u16	busy_thresh;
++	u8	ack_policy;
++	u8	mp_mode;
++	u8  mp_dm;
++	u8	software_encrypt;
++	u8	software_decrypt;
++#ifdef CONFIG_TX_EARLY_MODE
++	u8   early_mode;
++#endif
++	u8	acm_method;
++	/* UAPSD */
++	u8	wmm_enable;
++	u8	uapsd_enable;
++	u8	uapsd_max_sp;
++	u8	uapsd_acbk_en;
++	u8	uapsd_acbe_en;
++	u8	uapsd_acvi_en;
++	u8	uapsd_acvo_en;
++
++	WLAN_BSSID_EX    dev_network;
++
++	u8 tx_bw_mode;
++
++#ifdef CONFIG_80211N_HT
++	u8	ht_enable;
++	/* 0: 20 MHz, 1: 40 MHz, 2: 80 MHz, 3: 160MHz */
++	/* 2.4G use bit 0 ~ 3, 5G use bit 4 ~ 7 */
++	/* 0x21 means enable 2.4G 40MHz & 5G 80MHz */
++	u8	bw_mode;
++	u8	ampdu_enable;/* for tx */
++	u8	rx_stbc;
++	u8	ampdu_amsdu;/* A-MPDU Supports A-MSDU is permitted */
++	/* Short GI support Bit Map */
++	/* BIT0 - 20MHz, 1: support, 0: non-support */
++	/* BIT1 - 40MHz, 1: support, 0: non-support */
++	/* BIT2 - 80MHz, 1: support, 0: non-support */
++	/* BIT3 - 160MHz, 1: support, 0: non-support */
++	u8	short_gi;
++	/* BIT0: Enable VHT LDPC Rx, BIT1: Enable VHT LDPC Tx, BIT4: Enable HT LDPC Rx, BIT5: Enable HT LDPC Tx */
++	u8	ldpc_cap;
++	/* BIT0: Enable VHT STBC Rx, BIT1: Enable VHT STBC Tx, BIT4: Enable HT STBC Rx, BIT5: Enable HT STBC Tx */
++	u8	stbc_cap;
++	/*
++	 * BIT0: Enable VHT SU Beamformer
++	 * BIT1: Enable VHT SU Beamformee
++	 * BIT2: Enable VHT MU Beamformer, depend on VHT SU Beamformer
++	 * BIT3: Enable VHT MU Beamformee, depend on VHT SU Beamformee
++	 * BIT4: Enable HT Beamformer
++	 * BIT5: Enable HT Beamformee
++	 */
++	u8	beamform_cap;
++	u8	beamformer_rf_num;
++	u8	beamformee_rf_num;
++#endif /* CONFIG_80211N_HT */
++
++#ifdef CONFIG_80211AC_VHT
++	u8	vht_enable; /* 0:disable, 1:enable, 2:auto */
++	u8	ampdu_factor;
++	u8	vht_rate_sel;
++#endif /* CONFIG_80211AC_VHT */
++
++	u8	lowrate_two_xmit;
++
++	u8	rf_config ;
++	u8	low_power ;
++
++	u8	wifi_spec;/* !turbo_mode */
++	u8	special_rf_path; /* 0: 2T2R ,1: only turn on path A 1T1R */
++	char alpha2[2];
++	u8	channel_plan;
++	u8	excl_chs[MAX_CHANNEL_NUM];
++	u8	full_ch_in_p2p_handshake; /* 0: reply only softap channel, 1: reply full channel list*/
++
++#ifdef CONFIG_BT_COEXIST
++	u8	btcoex;
++	u8	bt_iso;
++	u8	bt_sco;
++	u8	bt_ampdu;
++	u8	ant_num;
++#endif
++	BOOLEAN	bAcceptAddbaReq;
++
++	u8	antdiv_cfg;
++	u8	antdiv_type;
++	u8	drv_ant_band_switch;
++
++	u8	switch_usb_mode;
++
++	u8	usbss_enable;/* 0:disable,1:enable */
++	u8	hwpdn_mode;/* 0:disable,1:enable,2:decide by EFUSE config */
++	u8	hwpwrp_detect;/* 0:disable,1:enable */
++
++	u8	hw_wps_pbc;/* 0:disable,1:enable */
++
++#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++	char	adaptor_info_caching_file_path[PATH_LENGTH_MAX];
++#endif
++
++#ifdef CONFIG_LAYER2_ROAMING
++	u8	max_roaming_times; /* the max number driver will try to roaming */
++#endif
++
++#ifdef CONFIG_IOL
++	u8 fw_iol; /* enable iol without other concern */
++#endif
++
++#ifdef CONFIG_80211D
++	u8 enable80211d;
++#endif
++
++	u8 ifname[16];
++	u8 if2name[16];
++
++	u8 notch_filter;
++
++#ifdef CONFIG_SPECIAL_SETTING_FOR_FUNAI_TV
++	u8 force_ant;/* 0 normal,1 main,2 aux */
++	u8 force_igi;/* 0 normal */
++#endif
++
++	u8 force_igi_lb;
++
++	/* for pll reference clock selction */
++	u8 pll_ref_clk_sel;
++
++	/* define for tx power adjust */
++	u8	RegEnableTxPowerLimit;
++	u8	RegEnableTxPowerByRate;
++	u8	RegPowerBase;
++	u8	RegPwrTblSel;
++
++	u8 target_tx_pwr_valid;
++	s8 target_tx_pwr_2g[RF_PATH_MAX][RATE_SECTION_NUM];
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	s8 target_tx_pwr_5g[RF_PATH_MAX][RATE_SECTION_NUM - 1];
++#endif
++
++	s8	TxBBSwing_2G;
++	s8	TxBBSwing_5G;
++	u8	AmplifierType_2G;
++	u8	AmplifierType_5G;
++	u8	bEn_RFE;
++	u8	RFE_Type;
++	u8	PowerTracking_Type;
++	u8	GLNA_Type;
++	u8  check_fw_ps;
++	u8	RegPwrTrimEnable;
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	u8	load_phy_file;
++	u8	RegDecryptCustomFile;
++#endif
++#ifdef CONFIG_CONCURRENT_MODE
++	u8 virtual_iface_num;
++#endif
++	u8 qos_opt_enable;
++
++	u8 hiq_filter;
++	u8 adaptivity_en;
++	u8 adaptivity_mode;
++	u8 adaptivity_dml;
++	u8 adaptivity_dc_backoff;
++	s8 adaptivity_th_l2h_ini;
++	s8 adaptivity_th_edcca_hl_diff;
++
++	u8 boffefusemask;
++	BOOLEAN bFileMaskEfuse;
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	u8 acs_mode;
++	u8 acs_auto_scan;
++#endif
++	u32	reg_rxgain_offset_2g;
++	u32	reg_rxgain_offset_5gl;
++	u32	reg_rxgain_offset_5gm;
++	u32	reg_rxgain_offset_5gh;
++
++#ifdef CONFIG_DFS_MASTER
++	u8 dfs_region_domain;
++#endif
++
++#ifdef CONFIG_MCC_MODE
++	u8 en_mcc;
++	u32 rtw_mcc_single_tx_cri;
++	u32 rtw_mcc_ap_bw20_target_tx_tp;
++	u32 rtw_mcc_ap_bw40_target_tx_tp;
++	u32 rtw_mcc_ap_bw80_target_tx_tp;
++	u32 rtw_mcc_sta_bw20_target_tx_tp;
++	u32 rtw_mcc_sta_bw40_target_tx_tp;
++	u32 rtw_mcc_sta_bw80_target_tx_tp;
++#endif /* CONFIG_MCC_MODE */
++
++#ifdef CONFIG_RTW_NAPI
++	u8 en_napi;
++#endif
++	
++#ifdef CONFIG_RTW_GRO
++	u8 en_gro;
++#endif
++
++	bool	default_patterns_en;
++#ifdef CONFIG_SUPPORT_TRX_SHARED
++	u8 trx_share_mode;
++#endif
++	u8 check_hw_status;
++};
++
++/* For registry parameters */
++#define RGTRY_OFT(field) ((ULONG)FIELD_OFFSET(struct registry_priv, field))
++#define RGTRY_SZ(field)   sizeof(((struct registry_priv *) 0)->field)
++
++#define GetRegAmplifierType2G(_Adapter)	(_Adapter->registrypriv.AmplifierType_2G)
++#define GetRegAmplifierType5G(_Adapter)	(_Adapter->registrypriv.AmplifierType_5G)
++
++#define GetRegTxBBSwing_2G(_Adapter)	(_Adapter->registrypriv.TxBBSwing_2G)
++#define GetRegTxBBSwing_5G(_Adapter)	(_Adapter->registrypriv.TxBBSwing_5G)
++
++#define GetRegbENRFEType(_Adapter)	(_Adapter->registrypriv.bEn_RFE)
++#define GetRegRFEType(_Adapter)	(_Adapter->registrypriv.RFE_Type)
++#define GetRegGLNAType(_Adapter)	(_Adapter->registrypriv.GLNA_Type)
++#define GetRegPowerTrackingType(_Adapter)	(_Adapter->registrypriv.PowerTracking_Type)
++
++#define BSSID_OFT(field) ((ULONG)FIELD_OFFSET(WLAN_BSSID_EX, field))
++#define BSSID_SZ(field)   sizeof(((PWLAN_BSSID_EX) 0)->field)
++
++#define BW_MODE_2G(bw_mode) ((bw_mode) & 0x0F)
++#define BW_MODE_5G(bw_mode) ((bw_mode) >> 4)
++#define REGSTY_BW_2G(regsty) BW_MODE_2G((regsty)->bw_mode)
++#define REGSTY_BW_5G(regsty) BW_MODE_5G((regsty)->bw_mode)
++#define REGSTY_IS_BW_2G_SUPPORT(regsty, bw) (REGSTY_BW_2G((regsty)) >= (bw))
++#define REGSTY_IS_BW_5G_SUPPORT(regsty, bw) (REGSTY_BW_5G((regsty)) >= (bw))
++
++#define REGSTY_IS_11AC_ENABLE(regsty) ((regsty)->vht_enable != 0)
++#define REGSTY_IS_11AC_AUTO(regsty) ((regsty)->vht_enable == 2)
++
++typedef struct rtw_if_operations {
++	int __must_check(*read)(struct dvobj_priv *d, int addr, void *buf,
++				size_t len, bool fixed);
++	int __must_check(*write)(struct dvobj_priv *d, int addr, void *buf,
++				 size_t len, bool fixed);
++} RTW_IF_OPS, *PRTW_IF_OPS;
++
++#ifdef CONFIG_SDIO_HCI
++	#include <drv_types_sdio.h>
++	#define INTF_DATA	SDIO_DATA
++	#define INTF_OPS	PRTW_IF_OPS
++#elif defined(CONFIG_GSPI_HCI)
++	#include <drv_types_gspi.h>
++	#define INTF_DATA GSPI_DATA
++#elif defined(CONFIG_PCI_HCI)
++	#include <drv_types_pci.h>
++#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++	#define is_primary_adapter(adapter) (adapter->adapter_type == PRIMARY_ADAPTER)
++	#define is_vir_adapter(adapter) (adapter->adapter_type == MAX_ADAPTER)
++	#define get_hw_port(adapter) (adapter->hw_port)
++#else
++	#define is_primary_adapter(adapter) (1)
++	#define is_vir_adapter(adapter) (0)
++	#define get_hw_port(adapter) (HW_PORT0)
++#endif
++#define GET_PRIMARY_ADAPTER(padapter) (((_adapter *)padapter)->dvobj->padapters[IFACE_ID0])
++#define GET_IFACE_NUMS(padapter) (((_adapter *)padapter)->dvobj->iface_nums)
++#define GET_ADAPTER(padapter, iface_id) (((_adapter *)padapter)->dvobj->padapters[iface_id])
++
++#define GetDefaultAdapter(padapter)	padapter
++
++enum _IFACE_ID {
++	IFACE_ID0, /*PRIMARY_ADAPTER*/
++	IFACE_ID1,
++	IFACE_ID2,
++	IFACE_ID3,
++	IFACE_ID4,
++	IFACE_ID5,
++	IFACE_ID6,
++	IFACE_ID7,
++	IFACE_ID_MAX,
++};
++
++#define VIF_START_ID	1
++
++#ifdef CONFIG_DBG_COUNTER
++
++struct rx_logs {
++	u32 intf_rx;
++	u32 intf_rx_err_recvframe;
++	u32 intf_rx_err_skb;
++	u32 intf_rx_report;
++	u32 core_rx;
++	u32 core_rx_pre;
++	u32 core_rx_pre_ver_err;
++	u32 core_rx_pre_mgmt;
++	u32 core_rx_pre_mgmt_err_80211w;
++	u32 core_rx_pre_mgmt_err;
++	u32 core_rx_pre_ctrl;
++	u32 core_rx_pre_ctrl_err;
++	u32 core_rx_pre_data;
++	u32 core_rx_pre_data_wapi_seq_err;
++	u32 core_rx_pre_data_wapi_key_err;
++	u32 core_rx_pre_data_handled;
++	u32 core_rx_pre_data_err;
++	u32 core_rx_pre_data_unknown;
++	u32 core_rx_pre_unknown;
++	u32 core_rx_enqueue;
++	u32 core_rx_dequeue;
++	u32 core_rx_post;
++	u32 core_rx_post_decrypt;
++	u32 core_rx_post_decrypt_wep;
++	u32 core_rx_post_decrypt_tkip;
++	u32 core_rx_post_decrypt_aes;
++	u32 core_rx_post_decrypt_wapi;
++	u32 core_rx_post_decrypt_hw;
++	u32 core_rx_post_decrypt_unknown;
++	u32 core_rx_post_decrypt_err;
++	u32 core_rx_post_defrag_err;
++	u32 core_rx_post_portctrl_err;
++	u32 core_rx_post_indicate;
++	u32 core_rx_post_indicate_in_oder;
++	u32 core_rx_post_indicate_reoder;
++	u32 core_rx_post_indicate_err;
++	u32 os_indicate;
++	u32 os_indicate_ap_mcast;
++	u32 os_indicate_ap_forward;
++	u32 os_indicate_ap_self;
++	u32 os_indicate_err;
++	u32 os_netif_ok;
++	u32 os_netif_err;
++};
++
++struct tx_logs {
++	u32 os_tx;
++	u32 os_tx_err_up;
++	u32 os_tx_err_xmit;
++	u32 os_tx_m2u;
++	u32 os_tx_m2u_ignore_fw_linked;
++	u32 os_tx_m2u_ignore_self;
++	u32 os_tx_m2u_entry;
++	u32 os_tx_m2u_entry_err_xmit;
++	u32 os_tx_m2u_entry_err_skb;
++	u32 os_tx_m2u_stop;
++	u32 core_tx;
++	u32 core_tx_err_pxmitframe;
++	u32 core_tx_err_brtx;
++	u32 core_tx_upd_attrib;
++	u32 core_tx_upd_attrib_adhoc;
++	u32 core_tx_upd_attrib_sta;
++	u32 core_tx_upd_attrib_ap;
++	u32 core_tx_upd_attrib_unknown;
++	u32 core_tx_upd_attrib_dhcp;
++	u32 core_tx_upd_attrib_icmp;
++	u32 core_tx_upd_attrib_active;
++	u32 core_tx_upd_attrib_err_ucast_sta;
++	u32 core_tx_upd_attrib_err_ucast_ap_link;
++	u32 core_tx_upd_attrib_err_sta;
++	u32 core_tx_upd_attrib_err_link;
++	u32 core_tx_upd_attrib_err_sec;
++	u32 core_tx_ap_enqueue_warn_fwstate;
++	u32 core_tx_ap_enqueue_warn_sta;
++	u32 core_tx_ap_enqueue_warn_nosta;
++	u32 core_tx_ap_enqueue_warn_link;
++	u32 core_tx_ap_enqueue_warn_trigger;
++	u32 core_tx_ap_enqueue_mcast;
++	u32 core_tx_ap_enqueue_ucast;
++	u32 core_tx_ap_enqueue;
++	u32 intf_tx;
++	u32 intf_tx_pending_ac;
++	u32 intf_tx_pending_fw_under_survey;
++	u32 intf_tx_pending_fw_under_linking;
++	u32 intf_tx_pending_xmitbuf;
++	u32 intf_tx_enqueue;
++	u32 core_tx_enqueue;
++	u32 core_tx_enqueue_class;
++	u32 core_tx_enqueue_class_err_sta;
++	u32 core_tx_enqueue_class_err_nosta;
++	u32 core_tx_enqueue_class_err_fwlink;
++	u32 intf_tx_direct;
++	u32 intf_tx_direct_err_coalesce;
++	u32 intf_tx_dequeue;
++	u32 intf_tx_dequeue_err_coalesce;
++	u32 intf_tx_dump_xframe;
++	u32 intf_tx_dump_xframe_err_txdesc;
++	u32 intf_tx_dump_xframe_err_port;
++};
++
++struct int_logs {
++	u32 all;
++	u32 err;
++	u32 tbdok;
++	u32 tbder;
++	u32 bcnderr;
++	u32 bcndma;
++	u32 bcndma_e;
++	u32 rx;
++	u32 rx_rdu;
++	u32 rx_fovw;
++	u32 txfovw;
++	u32 mgntok;
++	u32 highdok;
++	u32 bkdok;
++	u32 bedok;
++	u32 vidok;
++	u32 vodok;
++};
++
++#endif /* CONFIG_DBG_COUNTER */
++
++struct debug_priv {
++	u32 dbg_sdio_free_irq_error_cnt;
++	u32 dbg_sdio_alloc_irq_error_cnt;
++	u32 dbg_sdio_free_irq_cnt;
++	u32 dbg_sdio_alloc_irq_cnt;
++	u32 dbg_sdio_deinit_error_cnt;
++	u32 dbg_sdio_init_error_cnt;
++	u32 dbg_suspend_error_cnt;
++	u32 dbg_suspend_cnt;
++	u32 dbg_resume_cnt;
++	u32 dbg_resume_error_cnt;
++	u32 dbg_deinit_fail_cnt;
++	u32 dbg_carddisable_cnt;
++	u32 dbg_carddisable_error_cnt;
++	u32 dbg_ps_insuspend_cnt;
++	u32	dbg_dev_unload_inIPS_cnt;
++	u32 dbg_wow_leave_ps_fail_cnt;
++	u32 dbg_scan_pwr_state_cnt;
++	u32 dbg_downloadfw_pwr_state_cnt;
++	u32 dbg_fw_read_ps_state_fail_cnt;
++	u32 dbg_leave_ips_fail_cnt;
++	u32 dbg_leave_lps_fail_cnt;
++	u32 dbg_h2c_leave32k_fail_cnt;
++	u32 dbg_diswow_dload_fw_fail_cnt;
++	u32 dbg_enwow_dload_fw_fail_cnt;
++	u32 dbg_ips_drvopen_fail_cnt;
++	u32 dbg_poll_fail_cnt;
++	u32 dbg_rpwm_toogle_cnt;
++	u32 dbg_rpwm_timeout_fail_cnt;
++	u32 dbg_sreset_cnt;
++	u64 dbg_rx_fifo_last_overflow;
++	u64 dbg_rx_fifo_curr_overflow;
++	u64 dbg_rx_fifo_diff_overflow;
++	u64 dbg_rx_ampdu_drop_count;
++	u64 dbg_rx_ampdu_forced_indicate_count;
++	u64 dbg_rx_ampdu_loss_count;
++	u64 dbg_rx_dup_mgt_frame_drop_count;
++	u64 dbg_rx_ampdu_window_shift_cnt;
++	u64 dbg_rx_conflic_mac_addr_cnt;
++};
++
++struct rtw_traffic_statistics {
++	/* tx statistics */
++	u64	tx_bytes;
++	u64	tx_pkts;
++	u64	tx_drop;
++	u64	cur_tx_bytes;
++	u64	last_tx_bytes;
++	u32	cur_tx_tp; /* Tx throughput in MBps. */
++
++	/* rx statistics */
++	u64	rx_bytes;
++	u64	rx_pkts;
++	u64	rx_drop;
++	u64	cur_rx_bytes;
++	u64	last_rx_bytes;
++	u32	cur_rx_tp; /* Rx throughput in MBps. */
++};
++
++#define SEC_CAP_CHK_BMC	BIT0
++
++#define SEC_STATUS_STA_PK_GK_CONFLICT_DIS_BMC_SEARCH	BIT0
++
++struct sec_cam_bmp {
++	u32 m0;
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
++	u32 m1;
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
++	u32 m2;
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
++	u32 m3;
++#endif
++};
++
++struct cam_ctl_t {
++	_lock lock;
++
++	u8 sec_cap;
++	u32 flags;
++
++	u8 num;
++	struct sec_cam_bmp used;
++
++	_mutex sec_cam_access_mutex;
++};
++
++struct sec_cam_ent {
++	u16 ctrl;
++	u8 mac[ETH_ALEN];
++	u8 key[16];
++};
++
++#define KEY_FMT "%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x"
++#define KEY_ARG(x) ((u8 *)(x))[0], ((u8 *)(x))[1], ((u8 *)(x))[2], ((u8 *)(x))[3], ((u8 *)(x))[4], ((u8 *)(x))[5], \
++	((u8 *)(x))[6], ((u8 *)(x))[7], ((u8 *)(x))[8], ((u8 *)(x))[9], ((u8 *)(x))[10], ((u8 *)(x))[11], \
++	((u8 *)(x))[12], ((u8 *)(x))[13], ((u8 *)(x))[14], ((u8 *)(x))[15]
++
++struct macid_bmp {
++	u32 m0;
++#if (MACID_NUM_SW_LIMIT > 32)
++	u32 m1;
++#endif
++#if (MACID_NUM_SW_LIMIT > 64)
++	u32 m2;
++#endif
++#if (MACID_NUM_SW_LIMIT > 96)
++	u32 m3;
++#endif
++};
++
++struct macid_ctl_t {
++	_lock lock;
++	u8 num;
++	struct macid_bmp used;
++	struct macid_bmp bmc;
++	struct macid_bmp if_g[CONFIG_IFACE_NUMBER];
++	u8 iface_bmc[CONFIG_IFACE_NUMBER];/*for bc-sta of AP or Adhoc mode*/
++	struct macid_bmp ch_g[2]; /* 2 ch concurrency */
++	u8 h2c_msr[MACID_NUM_SW_LIMIT];
++	u8 bw[MACID_NUM_SW_LIMIT];
++	u8 vht_en[MACID_NUM_SW_LIMIT];
++	u32 rate_bmp0[MACID_NUM_SW_LIMIT];
++	u32 rate_bmp1[MACID_NUM_SW_LIMIT];
++	struct sta_info *sta[MACID_NUM_SW_LIMIT];
++};
++
++/* used for rf_ctl_t.rate_bmp_cck_ofdm */
++#define RATE_BMP_CCK		0x000F
++#define RATE_BMP_OFDM		0xFFF0
++#define RATE_BMP_HAS_CCK(_bmp_cck_ofdm)		(_bmp_cck_ofdm & RATE_BMP_CCK)
++#define RATE_BMP_HAS_OFDM(_bmp_cck_ofdm)	(_bmp_cck_ofdm & RATE_BMP_OFDM)
++#define RATE_BMP_GET_CCK(_bmp_cck_ofdm)		(_bmp_cck_ofdm & RATE_BMP_CCK)
++#define RATE_BMP_GET_OFDM(_bmp_cck_ofdm)	((_bmp_cck_ofdm & RATE_BMP_OFDM) >> 4)
++
++/* used for rf_ctl_t.rate_bmp_ht_by_bw */
++#define RATE_BMP_HT_1SS		0x000000FF
++#define RATE_BMP_HT_2SS		0x0000FF00
++#define RATE_BMP_HT_3SS		0x00FF0000
++#define RATE_BMP_HT_4SS		0xFF000000
++#define RATE_BMP_HAS_HT_1SS(_bmp_ht)		(_bmp_ht & RATE_BMP_HT_1SS)
++#define RATE_BMP_HAS_HT_2SS(_bmp_ht)		(_bmp_ht & RATE_BMP_HT_2SS)
++#define RATE_BMP_HAS_HT_3SS(_bmp_ht)		(_bmp_ht & RATE_BMP_HT_3SS)
++#define RATE_BMP_HAS_HT_4SS(_bmp_ht)		(_bmp_ht & RATE_BMP_HT_4SS)
++#define RATE_BMP_GET_HT_1SS(_bmp_ht)		(_bmp_ht & RATE_BMP_HT_1SS)
++#define RATE_BMP_GET_HT_2SS(_bmp_ht)		((_bmp_ht & RATE_BMP_HT_2SS) >> 8)
++#define RATE_BMP_GET_HT_3SS(_bmp_ht)		((_bmp_ht & RATE_BMP_HT_3SS) >> 16)
++#define RATE_BMP_GET_HT_4SS(_bmp_ht)		((_bmp_ht & RATE_BMP_HT_4SS) >> 24)
++
++/* used for rf_ctl_t.rate_bmp_vht_by_bw */
++#define RATE_BMP_VHT_1SS	0x000003FF
++#define RATE_BMP_VHT_2SS	0x000FFC00
++#define RATE_BMP_VHT_3SS	0x3FF00000
++#define RATE_BMP_HAS_VHT_1SS(_bmp_vht)		(_bmp_vht & RATE_BMP_VHT_1SS)
++#define RATE_BMP_HAS_VHT_2SS(_bmp_vht)		(_bmp_vht & RATE_BMP_VHT_2SS)
++#define RATE_BMP_HAS_VHT_3SS(_bmp_vht)		(_bmp_vht & RATE_BMP_VHT_3SS)
++#define RATE_BMP_GET_VHT_1SS(_bmp_vht)		(_bmp_vht & RATE_BMP_VHT_1SS)
++#define RATE_BMP_GET_VHT_2SS(_bmp_vht)		((_bmp_vht & RATE_BMP_VHT_2SS) >> 10)
++#define RATE_BMP_GET_VHT_3SS(_bmp_vht)		((_bmp_vht & RATE_BMP_VHT_3SS) >> 20)
++
++struct rf_ctl_t {
++	/* used for debug or by tx power limit */
++	u16 rate_bmp_cck_ofdm;		/* 20MHz */
++	u32 rate_bmp_ht_by_bw[2];	/* 20MHz, 40MHz. 4SS supported */
++	u32 rate_bmp_vht_by_bw[4];	/* 20MHz, 40MHz, 80MHz, 160MHz. up to 3SS supported */
++
++	/* used by tx power limit */
++	u8 highest_ht_rate_bw_bmp;
++	u8 highest_vht_rate_bw_bmp;
++
++#ifdef CONFIG_DFS_MASTER
++	bool radar_detect_by_others;
++	u8 dfs_master_enabled;
++	bool radar_detected;
++
++	u8 radar_detect_ch;
++	u8 radar_detect_bw;
++	u8 radar_detect_offset;
++
++	u32 cac_start_time;
++	u32 cac_end_time;
++
++	u8 dfs_ch_sel_d_flags;
++
++	u8 dbg_dfs_master_fake_radar_detect_cnt;
++	u8 dbg_dfs_master_radar_detect_trigger_non;
++	u8 dbg_dfs_master_choose_dfs_ch_first;
++#endif
++};
++
++#define RTW_CAC_STOPPED 0
++#define IS_CAC_STOPPED(rfctl) ((rfctl)->cac_end_time == RTW_CAC_STOPPED)
++#define IS_CH_WAITING(rfctl) (!IS_CAC_STOPPED(rfctl) && time_after((unsigned long)(rfctl)->cac_end_time, (unsigned long)rtw_get_current_time()))
++#define IS_UNDER_CAC(rfctl) (IS_CH_WAITING(rfctl) && time_after((unsigned long)rtw_get_current_time(), (unsigned long)(rfctl)->cac_start_time))
++
++struct mi_state {
++	u8 sta_num;			/*WIFI_FW_STATION_STATE*/
++	u8 ld_sta_num;		/*WIFI_FW_STATION_STATE |_FW_LINKED*/
++	u8 lg_sta_num;		/*WIFI_FW_STATION_STATE |_FW_UNDER_LINKING*/
++	u8 ap_num;			/*WIFI_FW_AP_STATE|_FW_LINKED*/
++	u8 ld_ap_num;		/*WIFI_FW_AP_STATE|_FW_LINKED && asoc_sta_count > 2*/
++	u8 adhoc_num;		/* WIFI_FW_ADHOC_STATE */
++	u8 ld_adhoc_num;	/* WIFI_FW_ADHOC_STATE && asoc_sta_count > 2 */
++	u8 uwps_num;		/*WIFI_UNDER_WPS*/
++	u8 union_ch;
++	u8 union_bw;
++	u8 union_offset;
++};
++
++#ifdef CONFIG_MBSSID_CAM
++#define TOTAL_MBID_CAM_NUM	8
++#define INVALID_CAM_ID			0xFF
++struct mbid_cam_ctl_t {
++	_lock lock;
++	u8 bitmap;
++	ATOMIC_T mbid_entry_num;
++};
++struct mbid_cam_cache {
++	u8 iface_id;
++	/*u8 role;*/ /*WIFI_STATION_STATE or WIFI_AP_STATE*/
++	u8 mac_addr[ETH_ALEN];
++};
++#endif /*CONFIG_MBSSID_CAM*/
++
++#ifdef RTW_HALMAC
++struct halmac_indicator {
++	struct submit_ctx *sctx;
++	u8 *buffer;
++	u32 buf_size;
++	u32 ret_size;
++	u32 status;
++};
++
++struct halmacpriv {
++	/* flags */
++	/*
++	 * send_general_info
++	 *	0: no need to call halmac_send_general_info()
++	 *	1: need to call halmac_send_general_info()
++	 */
++	u8 send_general_info;
++
++	/* For asynchronous functions */
++	struct halmac_indicator *indicator;
++
++#ifdef CONFIG_SDIO_HCI
++	/* Store hardware tx queue page number setting */
++	u16 txpage[HW_QUEUE_ENTRY];
++#endif /* CONFIG_SDIO_HCI */
++};
++#endif /* RTW_HALMAC */
++
++struct dvobj_priv {
++	/*-------- below is common data --------*/
++	u8	chip_type;
++	u8	HardwareType;
++	u8	interface_type;/*USB,SDIO,SPI,PCI*/
++
++	ATOMIC_T	bSurpriseRemoved;
++	ATOMIC_T	bDriverStopped;
++
++	s32	processing_dev_remove;
++
++	struct debug_priv drv_dbg;
++
++	_mutex hw_init_mutex;
++	_mutex h2c_fwcmd_mutex;
++	_mutex setch_mutex;
++	_mutex setbw_mutex;
++	_mutex rf_read_reg_mutex;
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++	_mutex sd_indirect_access_mutex;
++#endif
++
++	unsigned char	oper_channel; /* saved channel info when call set_channel_bw */
++	unsigned char	oper_bwmode;
++	unsigned char	oper_ch_offset;/* PRIME_CHNL_OFFSET */
++	u32 on_oper_ch_time;
++
++	_adapter *padapters[CONFIG_IFACE_NUMBER];/*IFACE_ID_MAX*/
++	u8 iface_nums; /* total number of ifaces used runtime */
++	struct mi_state iface_state;
++
++#ifdef CONFIG_AP_MODE
++	u8 nr_ap_if; /* total interface s number of ap/go mode. */
++	u32 inter_bcn_space; /* unit:ms */
++	_queue	ap_if_q;
++#endif
++
++	struct macid_ctl_t macid_ctl;
++
++	struct cam_ctl_t cam_ctl;
++	struct sec_cam_ent cam_cache[SEC_CAM_ENT_NUM_SW_LIMIT];
++
++#ifdef CONFIG_MBSSID_CAM
++	struct mbid_cam_ctl_t mbid_cam_ctl;
++	struct mbid_cam_cache mbid_cam_cache[TOTAL_MBID_CAM_NUM];
++#endif
++
++	struct rf_ctl_t rf_ctl;
++
++	/* For 92D, DMDP have 2 interface. */
++	u8	InterfaceNumber;
++	u8	NumInterfaces;
++
++	/* In /Out Pipe information */
++	int	RtInPipe[2];
++	int	RtOutPipe[4];
++	u8	Queue2Pipe[HW_QUEUE_ENTRY];/* for out pipe mapping */
++
++	u8	irq_alloc;
++	ATOMIC_T continual_io_error;
++
++	ATOMIC_T disable_func;
++
++	struct pwrctrl_priv pwrctl_priv;
++
++	struct rtw_traffic_statistics	traffic_stat;
++
++#if defined(CONFIG_IOCTL_CFG80211) && defined(RTW_SINGLE_WIPHY)
++	struct wiphy *wiphy;
++#endif
++
++#ifdef CONFIG_SWTIMER_BASED_TXBCN
++	_timer txbcn_timer;
++#endif
++
++#ifdef RTW_HALMAC
++	void *halmac;
++	struct halmacpriv hmpriv;
++#endif /* RTW_HALMAC */
++
++	/*-------- below is for SDIO INTERFACE --------*/
++
++#ifdef INTF_DATA
++	INTF_DATA intf_data;
++#endif
++#ifdef INTF_OPS
++	INTF_OPS intf_ops;
++#endif
++
++	/*-------- below is for USB INTERFACE --------*/
++
++#ifdef CONFIG_USB_HCI
++
++	u8	usb_speed; /* 1.1, 2.0 or 3.0 */
++	u8	nr_endpoint;
++	u8	RtNumInPipes;
++	u8	RtNumOutPipes;
++	int	ep_num[6]; /* endpoint number */
++
++	int	RegUsbSS;
++
++	_sema	usb_suspend_sema;
++
++#ifdef CONFIG_USB_VENDOR_REQ_MUTEX
++	_mutex  usb_vendor_req_mutex;
++#endif
++
++#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC
++	u8 *usb_alloc_vendor_req_buf;
++	u8 *usb_vendor_req_buf;
++#endif
++
++#ifdef PLATFORM_WINDOWS
++	/* related device objects */
++	PDEVICE_OBJECT	pphysdevobj;/* pPhysDevObj; */
++	PDEVICE_OBJECT	pfuncdevobj;/* pFuncDevObj; */
++	PDEVICE_OBJECT	pnextdevobj;/* pNextDevObj; */
++
++	u8	nextdevstacksz;/* unsigned char NextDeviceStackSize;	 */ /* = (CHAR)CEdevice->pUsbDevObj->StackSize + 1; */
++
++	/* urb for control diescriptor request */
++
++#ifdef PLATFORM_OS_XP
++	struct _URB_CONTROL_DESCRIPTOR_REQUEST descriptor_urb;
++	PUSB_CONFIGURATION_DESCRIPTOR	pconfig_descriptor;/* UsbConfigurationDescriptor; */
++#endif
++
++#ifdef PLATFORM_OS_CE
++	WCHAR			active_path[MAX_ACTIVE_REG_PATH];	/* adapter regpath */
++	USB_EXTENSION	usb_extension;
++
++	_nic_hdl		pipehdls_r8192c[0x10];
++#endif
++
++	u32	config_descriptor_len;/* ULONG UsbConfigurationDescriptorLength; */
++#endif/* PLATFORM_WINDOWS */
++
++#ifdef PLATFORM_LINUX
++	struct usb_interface *pusbintf;
++	struct usb_device *pusbdev;
++#endif/* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	struct usb_interface *pusbintf;
++	struct usb_device *pusbdev;
++#endif/* PLATFORM_FREEBSD */
++
++#endif/* CONFIG_USB_HCI */
++
++	/*-------- below is for PCIE INTERFACE --------*/
++
++#ifdef CONFIG_PCI_HCI
++
++#ifdef PLATFORM_LINUX
++	struct pci_dev *ppcidev;
++
++	/* PCI MEM map */
++	unsigned long	pci_mem_end;	/* shared mem end	*/
++	unsigned long	pci_mem_start;	/* shared mem start	*/
++
++	/* PCI IO map */
++	unsigned long	pci_base_addr;	/* device I/O address	*/
++
++#ifdef RTK_129X_PLATFORM
++	/* PCI MASK addr */
++	unsigned long	mask_addr;
++
++	/* PCI TRANSLATE addr */
++	unsigned long	tran_addr;
++
++	_lock   io_reg_lock;
++#endif
++
++	/* PciBridge */
++	struct pci_priv	pcipriv;
++
++	unsigned int irq; /* get from pci_dev.irq, store to net_device.irq */
++	u16	irqline;
++	u8	irq_enabled;
++	RT_ISR_CONTENT	isr_content;
++	_lock	irq_th_lock;
++
++	/* ASPM */
++	u8	const_pci_aspm;
++	u8	const_amdpci_aspm;
++	u8	const_hwsw_rfoff_d3;
++	u8	const_support_pciaspm;
++	/* pci-e bridge */
++	u8	const_hostpci_aspm_setting;
++	/* pci-e device */
++	u8	const_devicepci_aspm_setting;
++	u8	b_support_aspm; /* If it supports ASPM, Offset[560h] = 0x40, otherwise Offset[560h] = 0x00. */
++	u8	b_support_backdoor;
++	u8	bdma64;
++#endif/* PLATFORM_LINUX */
++
++#endif/* CONFIG_PCI_HCI */
++
++#ifdef CONFIG_MCC_MODE
++	struct mcc_obj_priv mcc_objpriv;
++#endif /*CONFIG_MCC_MODE */
++};
++
++#define dvobj_to_pwrctl(dvobj) (&(dvobj->pwrctl_priv))
++#define pwrctl_to_dvobj(pwrctl) container_of(pwrctl, struct dvobj_priv, pwrctl_priv)
++#define dvobj_to_macidctl(dvobj) (&(dvobj->macid_ctl))
++#define dvobj_to_sec_camctl(dvobj) (&(dvobj->cam_ctl))
++#define dvobj_to_regsty(dvobj) (&(dvobj->padapters[IFACE_ID0]->registrypriv))
++#if defined(CONFIG_IOCTL_CFG80211) && defined(RTW_SINGLE_WIPHY)
++	#define dvobj_to_wiphy(dvobj) ((dvobj)->wiphy)
++#endif
++#define dvobj_to_rfctl(dvobj) (&(dvobj->rf_ctl))
++#define rfctl_to_dvobj(rfctl) container_of((rfctl), struct dvobj_priv, rf_ctl)
++
++#ifdef PLATFORM_LINUX
++static struct device *dvobj_to_dev(struct dvobj_priv *dvobj)
++{
++	/* todo: get interface type from dvobj and the return the dev accordingly */
++#ifdef RTW_DVOBJ_CHIP_HW_TYPE
++#endif
++
++#ifdef CONFIG_USB_HCI
++	return &dvobj->pusbintf->dev;
++#endif
++#ifdef CONFIG_SDIO_HCI
++	return &dvobj->intf_data.func->dev;
++#endif
++#ifdef CONFIG_GSPI_HCI
++	return &dvobj->intf_data.func->dev;
++#endif
++#ifdef CONFIG_PCI_HCI
++	return &dvobj->ppcidev->dev;
++#endif
++}
++#endif
++
++_adapter *dvobj_get_port0_adapter(struct dvobj_priv *dvobj);
++#define dvobj_get_primary_adapter(dvobj)	((dvobj)->padapters[IFACE_ID0])
++
++enum _hw_port {
++	HW_PORT0,
++	HW_PORT1,
++	HW_PORT2,
++	HW_PORT3,
++	HW_PORT4,
++	MAX_HW_PORT,
++};
++
++enum _ADAPTER_TYPE {
++	PRIMARY_ADAPTER,
++	VIRTUAL_ADAPTER,
++	MAX_ADAPTER = 0xFF,
++};
++
++typedef enum _DRIVER_STATE {
++	DRIVER_NORMAL = 0,
++	DRIVER_DISAPPEAR = 1,
++	DRIVER_REPLACE_DONGLE = 2,
++} DRIVER_STATE;
++
++#ifdef CONFIG_RTW_NAPI
++enum _NAPI_STATE {
++	NAPI_DISABLE = 0,
++	NAPI_ENABLE = 1,
++};
++#endif
++
++#ifdef CONFIG_INTEL_PROXIM
++struct proxim {
++	bool proxim_support;
++	bool proxim_on;
++
++	void *proximity_priv;
++	int (*proxim_rx)(_adapter *padapter,
++			 union recv_frame *precv_frame);
++	u8(*proxim_get_var)(_adapter *padapter, u8 type);
++};
++#endif /* CONFIG_INTEL_PROXIM */
++
++#ifdef CONFIG_MAC_LOOPBACK_DRIVER
++typedef struct loopbackdata {
++	_sema	sema;
++	_thread_hdl_ lbkthread;
++	u8 bstop;
++	u32 cnt;
++	u16 size;
++	u16 txsize;
++	u8 txbuf[0x8000];
++	u16 rxsize;
++	u8 rxbuf[0x8000];
++	u8 msg[100];
++
++} LOOPBACKDATA, *PLOOPBACKDATA;
++#endif
++
++#define ADAPTER_TX_BW_2G(adapter) BW_MODE_2G((adapter)->driver_tx_bw_mode)
++#define ADAPTER_TX_BW_5G(adapter) BW_MODE_5G((adapter)->driver_tx_bw_mode)
++
++struct _ADAPTER {
++	int	DriverState;/* for disable driver using module, use dongle to replace module. */
++	int	pid[3];/* process id from UI, 0:wps, 1:hostapd, 2:dhcpcd */
++	int	bDongle;/* build-in module or external dongle */
++
++	_list	list;
++
++	struct dvobj_priv *dvobj;
++	struct	mlme_priv mlmepriv;
++	struct	mlme_ext_priv mlmeextpriv;
++	struct	cmd_priv	cmdpriv;
++	struct	evt_priv	evtpriv;
++	/* struct	io_queue	*pio_queue; */
++	struct	io_priv	iopriv;
++	struct	xmit_priv	xmitpriv;
++	struct	recv_priv	recvpriv;
++	struct	sta_priv	stapriv;
++	struct	security_priv	securitypriv;
++	_lock   security_key_mutex; /* add for CONFIG_IEEE80211W, none 11w also can use */
++	struct	registry_priv	registrypriv;
++
++	struct	led_priv	ledpriv;
++
++#ifdef CONFIG_RTW_NAPI
++	struct	napi_struct napi;
++	u8	napi_state;
++#endif
++
++#ifdef CONFIG_MP_INCLUDED
++	struct	mp_priv	mppriv;
++#endif
++
++#ifdef CONFIG_DRVEXT_MODULE
++	struct	drvext_priv	drvextpriv;
++#endif
++
++#ifdef CONFIG_AP_MODE
++	struct	hostapd_priv	*phostapdpriv;
++#endif
++
++#ifdef CONFIG_IOCTL_CFG80211
++#ifdef CONFIG_P2P
++	struct cfg80211_wifidirect_info	cfg80211_wdinfo;
++#endif /* CONFIG_P2P */
++#endif /* CONFIG_IOCTL_CFG80211 */
++	u32	setband;
++	ATOMIC_T bandskip;
++
++#ifdef CONFIG_P2P
++	struct wifidirect_info	wdinfo;
++#endif /* CONFIG_P2P */
++
++#ifdef CONFIG_TDLS
++	struct tdls_info	tdlsinfo;
++#endif /* CONFIG_TDLS */
++
++#ifdef CONFIG_WAPI_SUPPORT
++	u8	WapiSupport;
++	RT_WAPI_T	wapiInfo;
++#endif
++
++
++#ifdef CONFIG_WFD
++	struct wifi_display_info wfd_info;
++#endif /* CONFIG_WFD */
++
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	struct bt_coex_info coex_info;
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++
++	ERROR_CODE		LastError; /* <20130613, Kordan> Only the functions associated with MP records the error code by now. */
++
++	PVOID			HalData;
++	u32 hal_data_sz;
++	struct hal_ops	HalFunc;
++
++	u32	IsrContent;
++	u32	ImrContent;
++
++	u8	EepromAddressSize;
++	u8	bDriverIsGoingToUnload;
++	u8	init_adpt_in_progress;
++	u8	bHaltInProgress;
++#ifdef CONFIG_GPIO_API
++	u8	pre_gpio_pin;
++	struct gpio_int_priv {
++		u8 interrupt_mode;
++		u8 interrupt_enable_mask;
++		void (*callback[8])(u8 level);
++	} gpiointpriv;
++#endif
++	_thread_hdl_ cmdThread;
++	_thread_hdl_ evtThread;
++	_thread_hdl_ xmitThread;
++	_thread_hdl_ recvThread;
++
++#ifndef PLATFORM_LINUX
++	NDIS_STATUS(*dvobj_init)(struct dvobj_priv *dvobj);
++	void (*dvobj_deinit)(struct dvobj_priv *dvobj);
++#endif
++
++	u32(*intf_init)(struct dvobj_priv *dvobj);
++	void (*intf_deinit)(struct dvobj_priv *dvobj);
++	int (*intf_alloc_irq)(struct dvobj_priv *dvobj);
++	void (*intf_free_irq)(struct dvobj_priv *dvobj);
++
++
++	void (*intf_start)(_adapter *adapter);
++	void (*intf_stop)(_adapter *adapter);
++
++#ifdef PLATFORM_WINDOWS
++	_nic_hdl		hndis_adapter;/* hNdisAdapter(NDISMiniportAdapterHandle); */
++	_nic_hdl		hndis_config;/* hNdisConfiguration; */
++	NDIS_STRING fw_img;
++
++	u32	NdisPacketFilter;
++	u8	MCList[MAX_MCAST_LIST_NUM][6];
++	u32	MCAddrCount;
++#endif /* end of PLATFORM_WINDOWS */
++
++
++#ifdef PLATFORM_LINUX
++	_nic_hdl pnetdev;
++	char old_ifname[IFNAMSIZ];
++
++	/* used by rtw_rereg_nd_name related function */
++	struct rereg_nd_name_data {
++		_nic_hdl old_pnetdev;
++		char old_ifname[IFNAMSIZ];
++		u8 old_ips_mode;
++		u8 old_bRegUseLed;
++	} rereg_nd_name_priv;
++
++	u8 ndev_unregistering;
++	int bup;
++	struct net_device_stats stats;
++	struct iw_statistics iwstats;
++	struct proc_dir_entry *dir_dev;/* for proc directory */
++	struct proc_dir_entry *dir_odm;
++
++#ifdef CONFIG_MCC_MODE
++	struct proc_dir_entry *dir_mcc;
++#endif /* CONFIG_MCC_MODE */
++
++#ifdef CONFIG_IOCTL_CFG80211
++	struct wireless_dev *rtw_wdev;
++	struct rtw_wdev_priv wdev_data;
++
++#if !defined(RTW_SINGLE_WIPHY)
++	struct wiphy *wiphy;
++#endif
++
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	_nic_hdl pifp;
++	int bup;
++	_lock glock;
++#endif /* PLATFORM_FREEBSD */
++	u8 mac_addr[ETH_ALEN];
++	int net_closed;
++
++	u8 netif_up;
++
++	u8 bFWReady;
++	u8 bBTFWReady;
++	u8 bLinkInfoDump;
++	u8 bRxRSSIDisplay;
++	/*	Added by Albert 2012/10/26 */
++	/*	The driver will show up the desired channel number when this flag is 1. */
++	u8 bNotifyChannelChange;
++#ifdef CONFIG_P2P
++	/*	Added by Albert 2012/12/06 */
++	/*	The driver will show the current P2P status when the upper application reads it. */
++	u8 bShowGetP2PState;
++#endif
++#ifdef CONFIG_AUTOSUSPEND
++	u8	bDisableAutosuspend;
++#endif
++
++	u8 isprimary; /* is primary adapter or not */
++	/* notes:
++	**	if isprimary is true, the adapter_type value is 0, iface_id is IFACE_ID0 for PRIMARY_ADAPTER
++	**	if isprimary is false, the adapter_type value is 1, iface_id is IFACE_ID1 for VIRTUAL_ADAPTER
++	**	refer to iface_id if iface_nums>2 and isprimary is false and the adapter_type value is 0xff.*/
++	u8 adapter_type;/*be used in  Multi-interface to recognize whether is PRIMARY_ADAPTER  or not(PRIMARY_ADAPTER/VIRTUAL_ADAPTER) .*/
++	u8 hw_port; /*interface port type, it depends on HW port */
++
++
++	/*extend to support multi interface*/
++	/*IFACE_ID0 is equals to PRIMARY_ADAPTER
++	IFACE_ID1 is equals to VIRTUAL_ADAPTER*/
++	u8 iface_id;
++
++#ifdef CONFIG_BR_EXT
++	_lock					br_ext_lock;
++	/* unsigned int			macclone_completed; */
++	struct nat25_network_db_entry	*nethash[NAT25_HASH_SIZE];
++	int				pppoe_connection_in_progress;
++	unsigned char			pppoe_addr[MACADDRLEN];
++	unsigned char			scdb_mac[MACADDRLEN];
++	unsigned char			scdb_ip[4];
++	struct nat25_network_db_entry	*scdb_entry;
++	unsigned char			br_mac[MACADDRLEN];
++	unsigned char			br_ip[4];
++
++	struct br_ext_info		ethBrExtInfo;
++#endif /* CONFIG_BR_EXT */
++
++#ifdef CONFIG_INTEL_PROXIM
++	/* intel Proximity, should be alloc mem
++	 * in intel Proximity module and can only
++	 * be used in intel Proximity mode */
++	struct proxim proximity;
++#endif /* CONFIG_INTEL_PROXIM */
++
++#ifdef CONFIG_MAC_LOOPBACK_DRIVER
++	PLOOPBACKDATA ploopback;
++#endif
++
++	/* for debug purpose */
++	u8 fix_rate;
++	u8 fix_bw;
++	u8 data_fb; /* data rate fallback, valid only when fix_rate is not 0xff */
++
++	u8 driver_tx_bw_mode;
++
++	u8 driver_vcs_en; /* Enable=1, Disable=0 driver control vrtl_carrier_sense for tx */
++	u8 driver_vcs_type;/* force 0:disable VCS, 1:RTS-CTS, 2:CTS-to-self when vcs_en=1. */
++	u8 driver_ampdu_spacing;/* driver control AMPDU Density for peer sta's rx */
++	u8 driver_rx_ampdu_factor;/* 0xff: disable drv ctrl, 0:8k, 1:16k, 2:32k, 3:64k; */
++	u8 driver_rx_ampdu_spacing;  /* driver control Rx AMPDU Density */
++	u8 fix_rx_ampdu_accept;
++	u8 fix_rx_ampdu_size; /* 0~127, TODO:consider each sta and each TID */
++	unsigned char     in_cta_test;
++#ifdef DBG_RX_COUNTER_DUMP
++	u8 dump_rx_cnt_mode;/*BIT0:drv,BIT1:mac,BIT2:phy*/
++	u32 drv_rx_cnt_ok;
++	u32 drv_rx_cnt_crcerror;
++	u32 drv_rx_cnt_drop;
++#endif
++
++#ifdef CONFIG_DBG_COUNTER
++	struct rx_logs rx_logs;
++	struct tx_logs tx_logs;
++	struct int_logs int_logs;
++#endif
++
++#ifdef CONFIG_MCC_MODE
++	struct mcc_adapter_priv mcc_adapterpriv;
++#endif /* CONFIG_MCC_MODE */
++};
++
++#define adapter_to_dvobj(adapter) ((adapter)->dvobj)
++#define adapter_to_regsty(adapter) dvobj_to_regsty(adapter_to_dvobj((adapter)))
++#define adapter_to_pwrctl(adapter) dvobj_to_pwrctl(adapter_to_dvobj((adapter)))
++#define adapter_wdev_data(adapter) (&((adapter)->wdev_data))
++#if defined(RTW_SINGLE_WIPHY)
++	#define adapter_to_wiphy(adapter) dvobj_to_wiphy(adapter_to_dvobj(adapter))
++#else
++	#define adapter_to_wiphy(adapter) ((adapter)->wiphy)
++#endif
++
++#define adapter_to_rfctl(adapter) dvobj_to_rfctl(adapter_to_dvobj((adapter)))
++
++#define adapter_mac_addr(adapter) (adapter->mac_addr)
++
++#define mlme_to_adapter(mlme) container_of((mlme), struct _ADAPTER, mlmepriv)
++#define tdls_info_to_adapter(tdls) container_of((tdls), struct _ADAPTER, tdlsinfo)
++
++#define rtw_get_chip_type(adapter) (((PADAPTER)adapter)->dvobj->chip_type)
++#define rtw_get_hw_type(adapter) (((PADAPTER)adapter)->dvobj->HardwareType)
++#define rtw_get_intf_type(adapter) (((PADAPTER)adapter)->dvobj->interface_type)
++
++#define rtw_get_mi_nums(adapter) (((PADAPTER)adapter)->dvobj->iface_nums)
++
++static inline void rtw_set_surprise_removed(_adapter *padapter)
++{
++	ATOMIC_SET(&adapter_to_dvobj(padapter)->bSurpriseRemoved, _TRUE);
++}
++static inline void rtw_clr_surprise_removed(_adapter *padapter)
++{
++	ATOMIC_SET(&adapter_to_dvobj(padapter)->bSurpriseRemoved, _FALSE);
++}
++static inline void rtw_set_drv_stopped(_adapter *padapter)
++{
++	ATOMIC_SET(&adapter_to_dvobj(padapter)->bDriverStopped, _TRUE);
++}
++static inline void rtw_clr_drv_stopped(_adapter *padapter)
++{
++	ATOMIC_SET(&adapter_to_dvobj(padapter)->bDriverStopped, _FALSE);
++}
++#define rtw_is_surprise_removed(padapter)	(ATOMIC_READ(&adapter_to_dvobj(padapter)->bSurpriseRemoved) == _TRUE)
++#define rtw_is_drv_stopped(padapter)		(ATOMIC_READ(&adapter_to_dvobj(padapter)->bDriverStopped) == _TRUE)
++
++/*
++ * Function disabled.
++ *   */
++#define DF_TX_BIT		BIT0			/*write_port_cancel*/
++#define DF_RX_BIT		BIT1			/*read_port_cancel*/
++#define DF_IO_BIT		BIT2
++
++/* #define RTW_DISABLE_FUNC(padapter, func) (ATOMIC_ADD(&adapter_to_dvobj(padapter)->disable_func, (func))) */
++/* #define RTW_ENABLE_FUNC(padapter, func) (ATOMIC_SUB(&adapter_to_dvobj(padapter)->disable_func, (func))) */
++__inline static void RTW_DISABLE_FUNC(_adapter *padapter, int func_bit)
++{
++	int	df = ATOMIC_READ(&adapter_to_dvobj(padapter)->disable_func);
++	df |= func_bit;
++	ATOMIC_SET(&adapter_to_dvobj(padapter)->disable_func, df);
++}
++
++__inline static void RTW_ENABLE_FUNC(_adapter *padapter, int func_bit)
++{
++	int	df = ATOMIC_READ(&adapter_to_dvobj(padapter)->disable_func);
++	df &= ~(func_bit);
++	ATOMIC_SET(&adapter_to_dvobj(padapter)->disable_func, df);
++}
++
++#define RTW_CANNOT_RUN(padapter) \
++	(rtw_is_surprise_removed(padapter) || \
++	 rtw_is_drv_stopped(padapter))
++
++#define RTW_IS_FUNC_DISABLED(padapter, func_bit) (ATOMIC_READ(&adapter_to_dvobj(padapter)->disable_func) & (func_bit))
++
++#define RTW_CANNOT_IO(padapter) \
++	(rtw_is_surprise_removed(padapter) || \
++	 RTW_IS_FUNC_DISABLED((padapter), DF_IO_BIT))
++
++#define RTW_CANNOT_RX(padapter) \
++	(RTW_CANNOT_RUN(padapter) || \
++	 RTW_IS_FUNC_DISABLED((padapter), DF_RX_BIT))
++
++#define RTW_CANNOT_TX(padapter) \
++	(RTW_CANNOT_RUN(padapter) || \
++	 RTW_IS_FUNC_DISABLED((padapter), DF_TX_BIT))
++
++#ifdef CONFIG_PNO_SUPPORT
++int rtw_parse_ssid_list_tlv(char **list_str, pno_ssid_t *ssid, int max, int *bytes_left);
++int rtw_dev_pno_set(struct net_device *net, pno_ssid_t *ssid, int num,
++		    int pno_time, int pno_repeat, int pno_freq_expo_max);
++#ifdef CONFIG_PNO_SET_DEBUG
++	void rtw_dev_pno_debug(struct net_device *net);
++#endif /* CONFIG_PNO_SET_DEBUG */
++#endif /* CONFIG_PNO_SUPPORT */
++
++int rtw_suspend_free_assoc_resource(_adapter *padapter);
++#ifdef CONFIG_WOWLAN
++	int rtw_suspend_wow(_adapter *padapter);
++	int rtw_resume_process_wow(_adapter *padapter);
++#endif
++
++/* HCI Related header file */
++#ifdef CONFIG_USB_HCI
++	#include <usb_osintf.h>
++	#include <usb_ops.h>
++	#include <usb_hal.h>
++#endif
++
++#ifdef CONFIG_SDIO_HCI
++	#include <sdio_osintf.h>
++	#include <sdio_ops.h>
++	#include <sdio_hal.h>
++#endif
++
++#ifdef CONFIG_GSPI_HCI
++	#include <gspi_osintf.h>
++	#include <gspi_ops.h>
++	#include <gspi_hal.h>
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	#include <pci_osintf.h>
++	#include <pci_ops.h>
++	#include <pci_hal.h>
++#endif
++
++#endif /* __DRV_TYPES_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/drv_types_ce.h b/drivers/net/wireless/rtl8723du/include/drv_types_ce.h
+new file mode 100644
+index 0000000..fc26389
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/drv_types_ce.h
+@@ -0,0 +1,91 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __DRV_TYPES_CE_H__
++#define __DRV_TYPES_CE_H__
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++
++#include <Sdcardddk.h>
++
++#define MAX_ACTIVE_REG_PATH 256
++
++#define MAX_MCAST_LIST_NUM					32
++
++
++
++/* for ioctl */
++#define MAKE_DRIVER_VERSION(_MainVer, _MinorVer)	((((u32)(_MainVer))<<16)+_MinorVer)
++
++#define NIC_HEADER_SIZE				14			/* !< can be moved to typedef.h */
++#define NIC_MAX_PACKET_SIZE			1514		/* !< can be moved to typedef.h */
++#define NIC_MAX_SEND_PACKETS			10		/* max number of send packets the MiniportSendPackets function can accept, can be moved to typedef.h */
++#define NIC_VENDOR_DRIVER_VERSION       MAKE_DRIVER_VERSION(0, 001)	/* !< can be moved to typedef.h */
++#define NIC_MAX_PACKET_SIZE			1514		/* !< can be moved to typedef.h */
++
++typedef struct _MP_REG_ENTRY {
++
++	NDIS_STRING		RegName;	/* variable name text */
++	BOOLEAN			bRequired;	/* 1->required, 0->optional */
++
++	u8			Type;		/* NdisParameterInteger/NdisParameterHexInteger/NdisParameterStringle/NdisParameterMultiString */
++	uint			FieldOffset;	/* offset to MP_ADAPTER field */
++	uint			FieldSize;	/* size (in bytes) of the field */
++
++#ifdef UNDER_AMD64
++	u64			Default;
++#else
++	u32			Default;		/* default value to use */
++#endif
++
++	u32			Min;			/* minimum value allowed */
++	u32			Max;		/* maximum value allowed */
++} MP_REG_ENTRY, *PMP_REG_ENTRY;
++
++#ifdef CONFIG_USB_HCI
++typedef struct _USB_EXTENSION {
++	LPCUSB_FUNCS    _lpUsbFuncs;
++	USB_HANDLE	    _hDevice;
++	PVOID		    pAdapter;
++
++#if 0
++	USB_ENDPOINT_DESCRIPTOR		_endpACLIn;
++	USB_ENDPOINT_DESCRIPTOR		_endpACLOutHigh;
++	USB_ENDPOINT_DESCRIPTOR		_endpACLOutNormal;
++
++	USB_PIPE        pPipeIn;
++	USB_PIPE        pPipeOutNormal;
++	USB_PIPE        pPipeOutHigh;
++#endif
++
++} USB_EXTENSION, *PUSB_EXTENSION;
++#endif
++
++
++typedef struct _OCTET_STRING {
++	u8      *Octet;
++	u16      Length;
++} OCTET_STRING, *POCTET_STRING;
++
++
++
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/drv_types_gspi.h b/drivers/net/wireless/rtl8723du/include/drv_types_gspi.h
+new file mode 100644
+index 0000000..f0efc8c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/drv_types_gspi.h
+@@ -0,0 +1,54 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __DRV_TYPES_GSPI_H__
++#define __DRV_TYPES_GSPI_H__
++
++/* SPI Header Files */
++#ifdef PLATFORM_LINUX
++	#include <linux/platform_device.h>
++	#include <linux/spi/spi.h>
++	#include <linux/gpio.h>
++	/* #include <mach/ldo.h> */
++	#include <asm/mach-types.h>
++	#include <asm/gpio.h>
++	#include <asm/io.h>
++	#include <mach/board.h>
++	#include <mach/hardware.h>
++	#include <mach/irqs.h>
++	#include <custom_gpio.h>
++#endif
++
++
++typedef struct gspi_data {
++	u8  func_number;
++
++	u8  tx_block_mode;
++	u8  rx_block_mode;
++	u32 block_transfer_len;
++
++#ifdef PLATFORM_LINUX
++	struct spi_device *func;
++
++	struct workqueue_struct *priv_wq;
++	struct delayed_work irq_work;
++#endif
++} GSPI_DATA, *PGSPI_DATA;
++
++#endif /*  #ifndef __DRV_TYPES_GSPI_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/drv_types_linux.h b/drivers/net/wireless/rtl8723du/include/drv_types_linux.h
+new file mode 100644
+index 0000000..812b744
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/drv_types_linux.h
+@@ -0,0 +1,24 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __DRV_TYPES_LINUX_H__
++#define __DRV_TYPES_LINUX_H__
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/drv_types_pci.h b/drivers/net/wireless/rtl8723du/include/drv_types_pci.h
+new file mode 100644
+index 0000000..c03657f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/drv_types_pci.h
+@@ -0,0 +1,271 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __DRV_TYPES_PCI_H__
++#define __DRV_TYPES_PCI_H__
++
++
++#ifdef PLATFORM_LINUX
++	#include <linux/pci.h>
++#endif
++
++
++#define	INTEL_VENDOR_ID				0x8086
++#define	SIS_VENDOR_ID					0x1039
++#define	ATI_VENDOR_ID					0x1002
++#define	ATI_DEVICE_ID					0x7914
++#define	AMD_VENDOR_ID					0x1022
++
++#define	PCI_MAX_BRIDGE_NUMBER			255
++#define	PCI_MAX_DEVICES				32
++#define	PCI_MAX_FUNCTION				8
++
++#define	PCI_CONF_ADDRESS   				0x0CF8   /* PCI Configuration Space Address */
++#define	PCI_CONF_DATA					0x0CFC   /* PCI Configuration Space Data */
++
++#define	PCI_CLASS_BRIDGE_DEV			0x06
++#define	PCI_SUBCLASS_BR_PCI_TO_PCI	0x04
++
++#define	PCI_CAPABILITY_ID_PCI_EXPRESS	0x10
++
++#define	U1DONTCARE					0xFF
++#define	U2DONTCARE					0xFFFF
++#define	U4DONTCARE					0xFFFFFFFF
++
++#define PCI_VENDER_ID_REALTEK		0x10ec
++
++#define HAL_HW_PCI_8180_DEVICE_ID	0x8180
++#define HAL_HW_PCI_8185_DEVICE_ID           	0x8185	/* 8185 or 8185b */
++#define HAL_HW_PCI_8188_DEVICE_ID           	0x8188	/* 8185b		 */
++#define HAL_HW_PCI_8198_DEVICE_ID           	0x8198	/* 8185b		 */
++#define HAL_HW_PCI_8190_DEVICE_ID           	0x8190	/* 8190 */
++#define HAL_HW_PCI_8723E_DEVICE_ID		0x8723	/* 8723E */
++#define HAL_HW_PCI_8192_DEVICE_ID           	0x8192	/* 8192 PCI-E */
++#define HAL_HW_PCI_8192SE_DEVICE_ID		0x8192	/* 8192 SE */
++#define HAL_HW_PCI_8174_DEVICE_ID           	0x8174	/* 8192 SE */
++#define HAL_HW_PCI_8173_DEVICE_ID           	0x8173	/* 8191 SE Crab */
++#define HAL_HW_PCI_8172_DEVICE_ID           	0x8172	/* 8191 SE RE */
++#define HAL_HW_PCI_8171_DEVICE_ID           	0x8171	/* 8191 SE Unicron */
++#define HAL_HW_PCI_0045_DEVICE_ID			0x0045	/* 8190 PCI for Ceraga */
++#define HAL_HW_PCI_0046_DEVICE_ID			0x0046	/* 8190 Cardbus for Ceraga */
++#define HAL_HW_PCI_0044_DEVICE_ID			0x0044	/* 8192e PCIE for Ceraga */
++#define HAL_HW_PCI_0047_DEVICE_ID			0x0047	/* 8192e Express Card for Ceraga */
++#define HAL_HW_PCI_700F_DEVICE_ID			0x700F
++#define HAL_HW_PCI_701F_DEVICE_ID			0x701F
++#define HAL_HW_PCI_DLINK_DEVICE_ID		0x3304
++#define HAL_HW_PCI_8188EE_DEVICE_ID		0x8179
++
++#define HAL_MEMORY_MAPPED_IO_RANGE_8190PCI 		0x1000     /* 8190 support 16 pages of IO registers */
++#define HAL_HW_PCI_REVISION_ID_8190PCI			0x00
++#define HAL_MEMORY_MAPPED_IO_RANGE_8192PCIE	0x4000	/* 8192 support 16 pages of IO registers */
++#define HAL_HW_PCI_REVISION_ID_8192PCIE			0x01
++#define HAL_MEMORY_MAPPED_IO_RANGE_8192SE		0x4000	/* 8192 support 16 pages of IO registers */
++#define HAL_HW_PCI_REVISION_ID_8192SE			0x10
++#define HAL_HW_PCI_REVISION_ID_8192CE			0x1
++#define HAL_MEMORY_MAPPED_IO_RANGE_8192CE		0x4000	/* 8192 support 16 pages of IO registers */
++#define HAL_HW_PCI_REVISION_ID_8192DE			0x0
++#define HAL_MEMORY_MAPPED_IO_RANGE_8192DE		0x4000	/* 8192 support 16 pages of IO registers */
++
++enum pci_bridge_vendor {
++	PCI_BRIDGE_VENDOR_INTEL = 0x0,/* 0b'0000,0001 */
++	PCI_BRIDGE_VENDOR_ATI, /* = 0x02, */ /* 0b'0000,0010 */
++	PCI_BRIDGE_VENDOR_AMD, /* = 0x04, */ /* 0b'0000,0100 */
++	PCI_BRIDGE_VENDOR_SIS ,/* = 0x08, */ /* 0b'0000,1000 */
++	PCI_BRIDGE_VENDOR_UNKNOWN, /* = 0x40, */ /* 0b'0100,0000 */
++	PCI_BRIDGE_VENDOR_MAX ,/* = 0x80 */
++} ;
++
++/* copy this data structor defination from MSDN SDK */
++typedef struct _PCI_COMMON_CONFIG {
++	u16	VendorID;
++	u16	DeviceID;
++	u16	Command;
++	u16	Status;
++	u8	RevisionID;
++	u8	ProgIf;
++	u8	SubClass;
++	u8	BaseClass;
++	u8	CacheLineSize;
++	u8	LatencyTimer;
++	u8	HeaderType;
++	u8	BIST;
++
++	union {
++		struct _PCI_HEADER_TYPE_0 {
++			u32	BaseAddresses[6];
++			u32	CIS;
++			u16	SubVendorID;
++			u16	SubSystemID;
++			u32	ROMBaseAddress;
++			u8	CapabilitiesPtr;
++			u8	Reserved1[3];
++			u32	Reserved2;
++
++			u8	InterruptLine;
++			u8	InterruptPin;
++			u8	MinimumGrant;
++			u8	MaximumLatency;
++		} type0;
++#if 0
++		struct _PCI_HEADER_TYPE_1 {
++			ULONG BaseAddresses[PCI_TYPE1_ADDRESSES];
++			UCHAR PrimaryBusNumber;
++			UCHAR SecondaryBusNumber;
++			UCHAR SubordinateBusNumber;
++			UCHAR SecondaryLatencyTimer;
++			UCHAR IOBase;
++			UCHAR IOLimit;
++			USHORT SecondaryStatus;
++			USHORT MemoryBase;
++			USHORT MemoryLimit;
++			USHORT PrefetchableMemoryBase;
++			USHORT PrefetchableMemoryLimit;
++			ULONG PrefetchableMemoryBaseUpper32;
++			ULONG PrefetchableMemoryLimitUpper32;
++			USHORT IOBaseUpper;
++			USHORT IOLimitUpper;
++			ULONG Reserved2;
++			ULONG ExpansionROMBase;
++			UCHAR InterruptLine;
++			UCHAR InterruptPin;
++			USHORT BridgeControl;
++		} type1;
++
++		struct _PCI_HEADER_TYPE_2 {
++			ULONG BaseAddress;
++			UCHAR CapabilitiesPtr;
++			UCHAR Reserved2;
++			USHORT SecondaryStatus;
++			UCHAR PrimaryBusNumber;
++			UCHAR CardbusBusNumber;
++			UCHAR SubordinateBusNumber;
++			UCHAR CardbusLatencyTimer;
++			ULONG MemoryBase0;
++			ULONG MemoryLimit0;
++			ULONG MemoryBase1;
++			ULONG MemoryLimit1;
++			USHORT IOBase0_LO;
++			USHORT IOBase0_HI;
++			USHORT IOLimit0_LO;
++			USHORT IOLimit0_HI;
++			USHORT IOBase1_LO;
++			USHORT IOBase1_HI;
++			USHORT IOLimit1_LO;
++			USHORT IOLimit1_HI;
++			UCHAR InterruptLine;
++			UCHAR InterruptPin;
++			USHORT BridgeControl;
++			USHORT SubVendorID;
++			USHORT SubSystemID;
++			ULONG LegacyBaseAddress;
++			UCHAR Reserved3[56];
++			ULONG SystemControl;
++			UCHAR MultiMediaControl;
++			UCHAR GeneralStatus;
++			UCHAR Reserved4[2];
++			UCHAR GPIO0Control;
++			UCHAR GPIO1Control;
++			UCHAR GPIO2Control;
++			UCHAR GPIO3Control;
++			ULONG IRQMuxRouting;
++			UCHAR RetryStatus;
++			UCHAR CardControl;
++			UCHAR DeviceControl;
++			UCHAR Diagnostic;
++		} type2;
++#endif
++	} u;
++
++	u8	DeviceSpecific[108];
++} PCI_COMMON_CONFIG , *PPCI_COMMON_CONFIG;
++
++typedef struct _RT_PCI_CAPABILITIES_HEADER {
++	u8   CapabilityID;
++	u8   Next;
++} RT_PCI_CAPABILITIES_HEADER, *PRT_PCI_CAPABILITIES_HEADER;
++
++struct pci_priv {
++	BOOLEAN		pci_clk_req;
++
++	u8	pciehdr_offset;
++	/* PCIeCap is only differece between B-cut and C-cut. */
++	/* Configuration Space offset 72[7:4] */
++	/* 0: A/B cut */
++	/* 1: C cut and later. */
++	u8	pcie_cap;
++	u8	linkctrl_reg;
++
++	u8	busnumber;
++	u8	devnumber;
++	u8	funcnumber;
++
++	u8	pcibridge_busnum;
++	u8	pcibridge_devnum;
++	u8	pcibridge_funcnum;
++	u8	pcibridge_vendor;
++	u16	pcibridge_vendorid;
++	u16	pcibridge_deviceid;
++	u8	pcibridge_pciehdr_offset;
++	u8	pcibridge_linkctrlreg;
++
++	u8	amd_l1_patch;
++};
++
++typedef struct _RT_ISR_CONTENT {
++	union {
++		u32			IntArray[2];
++		u32			IntReg4Byte;
++		u16			IntReg2Byte;
++	};
++} RT_ISR_CONTENT, *PRT_ISR_CONTENT;
++
++/* #define RegAddr(addr)           (addr + 0xB2000000UL) */
++/* some platform macros will def here */
++static inline void NdisRawWritePortUlong(u32 port,  u32 val)
++{
++	outl(val, port);
++	/* writel(val, (u8 *)RegAddr(port));	 */
++}
++
++static inline void NdisRawWritePortUchar(u32 port,  u8 val)
++{
++	outb(val, port);
++	/* writeb(val, (u8 *)RegAddr(port)); */
++}
++
++static inline void NdisRawReadPortUchar(u32 port, u8 *pval)
++{
++	*pval = inb(port);
++	/* *pval = readb((u8 *)RegAddr(port)); */
++}
++
++static inline void NdisRawReadPortUshort(u32 port, u16 *pval)
++{
++	*pval = inw(port);
++	/* *pval = readw((u8 *)RegAddr(port)); */
++}
++
++static inline void NdisRawReadPortUlong(u32 port, u32 *pval)
++{
++	*pval = inl(port);
++	/* *pval = readl((u8 *)RegAddr(port)); */
++}
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/drv_types_sdio.h b/drivers/net/wireless/rtl8723du/include/drv_types_sdio.h
+new file mode 100644
+index 0000000..b3e8b47
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/drv_types_sdio.h
+@@ -0,0 +1,91 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __DRV_TYPES_SDIO_H__
++#define __DRV_TYPES_SDIO_H__
++
++/* SDIO Header Files */
++#ifdef PLATFORM_LINUX
++	#include <linux/mmc/sdio_func.h>
++	#include <linux/mmc/sdio_ids.h>
++	#include <linux/mmc/host.h>
++	#include <linux/mmc/card.h>
++
++	#ifdef CONFIG_PLATFORM_SPRD
++		#include <linux/gpio.h>
++		#include <custom_gpio.h>
++	#endif /* CONFIG_PLATFORM_SPRD */
++#endif
++
++#ifdef PLATFORM_OS_XP
++	#include <wdm.h>
++	#include <ntddsd.h>
++#endif
++
++#ifdef PLATFORM_OS_CE
++	#include <sdcardddk.h>
++#endif
++
++
++typedef struct sdio_data {
++	u8  func_number;
++
++	u8  tx_block_mode;
++	u8  rx_block_mode;
++	u32 block_transfer_len;
++
++#ifdef PLATFORM_LINUX
++	struct sdio_func	*func;
++	_thread_hdl_ sys_sdio_irq_thd;
++	unsigned int clock;
++#endif
++
++#ifdef PLATFORM_OS_XP
++	PDEVICE_OBJECT				pphysdevobj;
++	PDEVICE_OBJECT				pfuncdevobj;
++	PDEVICE_OBJECT				pnextdevobj;
++	SDBUS_INTERFACE_STANDARD	sdbusinft;
++	u8							nextdevstacksz;
++#endif
++
++#ifdef PLATFORM_OS_CE
++	SD_DEVICE_HANDLE			hDevice;
++	SD_CARD_RCA					sd_rca;
++	SD_CARD_INTERFACE			card_intf;
++	BOOLEAN						enableIsarWithStatus;
++	WCHAR						active_path[MAX_ACTIVE_REG_PATH];
++	SD_HOST_BLOCK_CAPABILITY	sd_host_blk_cap;
++#endif
++} SDIO_DATA, *PSDIO_DATA;
++
++#define dvobj_to_sdio_func(d)	((d)->intf_data.func)
++
++#define RTW_SDIO_ADDR_CMD52_BIT		(1<<17)
++#define RTW_SDIO_ADDR_CMD52_GEN(a)	(a | RTW_SDIO_ADDR_CMD52_BIT)
++#define RTW_SDIO_ADDR_CMD52_CLR(a)	(a&~RTW_SDIO_ADDR_CMD52_BIT)
++#define RTW_SDIO_ADDR_CMD52_CHK(a)	(a&RTW_SDIO_ADDR_CMD52_BIT ? 1 : 0)
++
++#define RTW_SDIO_ADDR_F0_BIT		(1<<18)
++#define RTW_SDIO_ADDR_F0_GEN(a)		(a | RTW_SDIO_ADDR_F0_BIT)
++#define RTW_SDIO_ADDR_F0_CLR(a)		(a&~RTW_SDIO_ADDR_F0_BIT)
++#define RTW_SDIO_ADDR_F0_CHK(a)		(a&RTW_SDIO_ADDR_F0_BIT ? 1 : 0)
++
++#define RTW_SDIO_CLK_40M	40000000
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/drv_types_xp.h b/drivers/net/wireless/rtl8723du/include/drv_types_xp.h
+new file mode 100644
+index 0000000..93766be
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/drv_types_xp.h
+@@ -0,0 +1,93 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __DRV_TYPES_XP_H__
++#define __DRV_TYPES_XP_H__
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++
++
++
++#define MAX_MCAST_LIST_NUM					32
++
++
++
++/* for ioctl */
++#define MAKE_DRIVER_VERSION(_MainVer, _MinorVer)	((((u32)(_MainVer))<<16)+_MinorVer)
++
++#define NIC_HEADER_SIZE				14			/* !< can be moved to typedef.h */
++#define NIC_MAX_PACKET_SIZE			1514		/* !< can be moved to typedef.h */
++#define NIC_MAX_SEND_PACKETS			10		/* max number of send packets the MiniportSendPackets function can accept, can be moved to typedef.h */
++#define NIC_VENDOR_DRIVER_VERSION       MAKE_DRIVER_VERSION(0, 001)	/* !< can be moved to typedef.h */
++#define NIC_MAX_PACKET_SIZE			1514		/* !< can be moved to typedef.h */
++
++
++#undef ON_VISTA
++/* added by Jackson */
++#ifndef ON_VISTA
++	/*
++	* Bus driver versions
++	*   */
++
++	#define SDBUS_DRIVER_VERSION_1          0x100
++	#define SDBUS_DRIVER_VERSION_2          0x200
++
++	#define    SDP_FUNCTION_TYPE	4
++	#define    SDP_BUS_DRIVER_VERSION 5
++	#define    SDP_BUS_WIDTH 6
++	#define    SDP_BUS_CLOCK 7
++	#define    SDP_BUS_INTERFACE_CONTROL 8
++	#define    SDP_HOST_BLOCK_LENGTH 9
++	#define    SDP_FUNCTION_BLOCK_LENGTH 10
++	#define    SDP_FN0_BLOCK_LENGTH 11
++	#define    SDP_FUNCTION_INT_ENABLE 12
++#endif
++
++
++typedef struct _MP_REG_ENTRY {
++
++	NDIS_STRING		RegName;	/* variable name text */
++	BOOLEAN			bRequired;	/* 1->required, 0->optional */
++
++	u8			Type;		/* NdisParameterInteger/NdisParameterHexInteger/NdisParameterStringle/NdisParameterMultiString */
++	uint			FieldOffset;	/* offset to MP_ADAPTER field */
++	uint			FieldSize;	/* size (in bytes) of the field */
++
++#ifdef UNDER_AMD64
++	u64			Default;
++#else
++	u32			Default;		/* default value to use */
++#endif
++
++	u32			Min;			/* minimum value allowed */
++	u32			Max;		/* maximum value allowed */
++} MP_REG_ENTRY, *PMP_REG_ENTRY;
++
++
++typedef struct _OCTET_STRING {
++	u8      *Octet;
++	u16      Length;
++} OCTET_STRING, *POCTET_STRING;
++
++
++
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/ethernet.h b/drivers/net/wireless/rtl8723du/include/ethernet.h
+new file mode 100644
+index 0000000..e127605
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/ethernet.h
+@@ -0,0 +1,41 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*! \file */
++#ifndef __INC_ETHERNET_H
++#define __INC_ETHERNET_H
++
++#define ETHERNET_ADDRESS_LENGTH				6		/* !< Ethernet Address Length */
++#define ETHERNET_HEADER_SIZE				14		/* !< Ethernet Header Length */
++#define LLC_HEADER_SIZE						6		/* !< LLC Header Length */
++#define TYPE_LENGTH_FIELD_SIZE				2		/* !< Type/Length Size */
++#define MINIMUM_ETHERNET_PACKET_SIZE		60		/* !< Minimum Ethernet Packet Size */
++#define MAXIMUM_ETHERNET_PACKET_SIZE		1514	/* !< Maximum Ethernet Packet Size */
++
++#define RT_ETH_IS_MULTICAST(_pAddr)	((((UCHAR *)(_pAddr))[0]&0x01) != 0)		/* !< Is Multicast Address? */
++#define RT_ETH_IS_BROADCAST(_pAddr)	(\
++		((UCHAR *)(_pAddr))[0] == 0xff	&&		\
++		((UCHAR *)(_pAddr))[1] == 0xff	&&		\
++		((UCHAR *)(_pAddr))[2] == 0xff	&&		\
++		((UCHAR *)(_pAddr))[3] == 0xff	&&		\
++		((UCHAR *)(_pAddr))[4] == 0xff	&&		\
++		((UCHAR *)(_pAddr))[5] == 0xff)	/* !< Is Broadcast Address? */
++
++
++#endif /*  #ifndef __INC_ETHERNET_H */
+diff --git a/drivers/net/wireless/rtl8723du/include/gspi_hal.h b/drivers/net/wireless/rtl8723du/include/gspi_hal.h
+new file mode 100644
+index 0000000..98fec09
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/gspi_hal.h
+@@ -0,0 +1,35 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __GSPI_HAL_H__
++#define __GSPI_HAL_H__
++
++
++void spi_int_dpc(PADAPTER padapter, u32 sdio_hisr);
++u8 rtw_set_hal_ops(_adapter *padapter);
++
++#ifdef CONFIG_RTL8188E
++	void rtl8188es_set_hal_ops(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_RTL8723B
++	void rtl8723bs_set_hal_ops(PADAPTER padapter);
++#endif
++
++#endif /* __GSPI_HAL_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/gspi_ops.h b/drivers/net/wireless/rtl8723du/include/gspi_ops.h
+new file mode 100644
+index 0000000..6812915
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/gspi_ops.h
+@@ -0,0 +1,185 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __GSPI_OPS_H__
++#define __GSPI_OPS_H__
++
++/* follwing defination is based on
++ * GSPI spec of RTL8723, we temp
++ * suppose that it will be the same
++ * for diff chips of GSPI, if not
++ * we should move it to HAL folder */
++#define SPI_LOCAL_DOMAIN				0x0
++#define WLAN_IOREG_DOMAIN			0x8
++#define FW_FIFO_DOMAIN				0x4
++#define TX_HIQ_DOMAIN					0xc
++#define TX_MIQ_DOMAIN					0xd
++#define TX_LOQ_DOMAIN					0xe
++#define RX_RXFIFO_DOMAIN				0x1f
++
++/* IO Bus domain address mapping */
++#define DEFUALT_OFFSET					0x0
++#define SPI_LOCAL_OFFSET				0x10250000
++#define WLAN_IOREG_OFFSET			0x10260000
++#define FW_FIFO_OFFSET				0x10270000
++#define TX_HIQ_OFFSET					0x10310000
++#define TX_MIQ_OFFSET					0x1032000
++#define TX_LOQ_OFFSET					0x10330000
++#define RX_RXOFF_OFFSET				0x10340000
++
++/* SPI Local registers */
++#define SPI_REG_TX_CTRL					0x0000 /* SPI Tx Control */
++#define SPI_REG_STATUS_RECOVERY		0x0004
++#define SPI_REG_INT_TIMEOUT			0x0006
++#define SPI_REG_HIMR					0x0014 /* SPI Host Interrupt Mask */
++#define SPI_REG_HISR					0x0018 /* SPI Host Interrupt Service Routine */
++#define SPI_REG_RX0_REQ_LEN			0x001C /* RXDMA Request Length */
++#define SPI_REG_FREE_TXPG				0x0020 /* Free Tx Buffer Page */
++#define SPI_REG_HCPWM1					0x0024 /* HCI Current Power Mode 1 */
++#define SPI_REG_HCPWM2					0x0026 /* HCI Current Power Mode 2 */
++#define SPI_REG_HTSFR_INFO				0x0030 /* HTSF Informaion */
++#define SPI_REG_HRPWM1					0x0080 /* HCI Request Power Mode 1 */
++#define SPI_REG_HRPWM2					0x0082 /* HCI Request Power Mode 2 */
++#define SPI_REG_HPS_CLKR				0x0084 /* HCI Power Save Clock */
++#define SPI_REG_HSUS_CTRL				0x0086 /* SPI HCI Suspend Control */
++#define SPI_REG_HIMR_ON				0x0090 /* SPI Host Extension Interrupt Mask Always */
++#define SPI_REG_HISR_ON				0x0091 /* SPI Host Extension Interrupt Status Always */
++#define SPI_REG_CFG						0x00F0 /* SPI Configuration Register */
++
++#define SPI_TX_CTRL				(SPI_REG_TX_CTRL | SPI_LOCAL_OFFSET)
++#define SPI_STATUS_RECOVERY			(SPI_REG_STATUS_RECOVERY | SPI_LOCAL_OFFSET)
++#define SPI_INT_TIMEOUT					(SPI_REG_INT_TIMEOUT | SPI_LOCAL_OFFSET)
++#define SPI_HIMR				(SPI_REG_HIMR | SPI_LOCAL_OFFSET)
++#define SPI_HISR				(SPI_REG_HISR | SPI_LOCAL_OFFSET)
++#define SPI_RX0_REQ_LEN_1_BYTE		(SPI_REG_RX0_REQ_LEN | SPI_LOCAL_OFFSET)
++#define SPI_FREE_TXPG			(SPI_REG_FREE_TXPG | SPI_LOCAL_OFFSET)
++
++#define	SPI_HIMR_DISABLED				0
++
++/* SPI HIMR MASK diff with SDIO */
++#define SPI_HISR_RX_REQUEST			BIT(0)
++#define SPI_HISR_AVAL					BIT(1)
++#define SPI_HISR_TXERR					BIT(2)
++#define SPI_HISR_RXERR					BIT(3)
++#define SPI_HISR_TXFOVW				BIT(4)
++#define SPI_HISR_RXFOVW				BIT(5)
++#define SPI_HISR_TXBCNOK				BIT(6)
++#define SPI_HISR_TXBCNERR				BIT(7)
++#define SPI_HISR_BCNERLY_INT			BIT(16)
++#define SPI_HISR_ATIMEND				BIT(17)
++#define SPI_HISR_ATIMEND_E				BIT(18)
++#define SPI_HISR_CTWEND				BIT(19)
++#define SPI_HISR_C2HCMD				BIT(20)
++#define SPI_HISR_CPWM1					BIT(21)
++#define SPI_HISR_CPWM2					BIT(22)
++#define SPI_HISR_HSISR_IND				BIT(23)
++#define SPI_HISR_GTINT3_IND				BIT(24)
++#define SPI_HISR_GTINT4_IND				BIT(25)
++#define SPI_HISR_PSTIMEOUT				BIT(26)
++#define SPI_HISR_OCPINT					BIT(27)
++#define SPI_HISR_TSF_BIT32_TOGGLE		BIT(29)
++
++#define MASK_SPI_HISR_CLEAR		(SPI_HISR_TXERR |\
++		SPI_HISR_RXERR |\
++		SPI_HISR_TXFOVW |\
++		SPI_HISR_RXFOVW |\
++		SPI_HISR_TXBCNOK |\
++		SPI_HISR_TXBCNERR |\
++		SPI_HISR_C2HCMD |\
++		SPI_HISR_CPWM1 |\
++		SPI_HISR_CPWM2 |\
++		SPI_HISR_HSISR_IND |\
++		SPI_HISR_GTINT3_IND |\
++		SPI_HISR_GTINT4_IND |\
++		SPI_HISR_PSTIMEOUT |\
++		SPI_HISR_OCPINT)
++
++#define REG_LEN_FORMAT(pcmd, x) 			SET_BITS_TO_LE_4BYTE(pcmd, 0, 8, x)/* (x<<(unsigned int)24) */
++#define REG_ADDR_FORMAT(pcmd, x) 			SET_BITS_TO_LE_4BYTE(pcmd, 8, 16, x)/* (x<<(unsigned int)16) */
++#define REG_DOMAIN_ID_FORMAT(pcmd, x) 		SET_BITS_TO_LE_4BYTE(pcmd, 24, 5, x)/* (x<<(unsigned int)0) */
++#define REG_FUN_FORMAT(pcmd, x) 			SET_BITS_TO_LE_4BYTE(pcmd, 29, 2, x)/* (x<<(unsigned int)5) */
++#define REG_RW_FORMAT(pcmd, x) 				SET_BITS_TO_LE_4BYTE(pcmd, 31, 1, x)/* (x<<(unsigned int)7) */
++
++#define FIFO_LEN_FORMAT(pcmd, x) 			SET_BITS_TO_LE_4BYTE(pcmd, 0, 16, x)/* (x<<(unsigned int)24)
++ * #define FIFO_ADDR_FORMAT(pcmd,x) 			SET_BITS_TO_LE_4BYTE(pcmd, 8, 16, x) */ /* (x<<(unsigned int)16) */
++#define FIFO_DOMAIN_ID_FORMAT(pcmd, x) 	SET_BITS_TO_LE_4BYTE(pcmd, 24, 5, x)/* (x<<(unsigned int)0) */
++#define FIFO_FUN_FORMAT(pcmd, x) 			SET_BITS_TO_LE_4BYTE(pcmd, 29, 2, x)/* (x<<(unsigned int)5) */
++#define FIFO_RW_FORMAT(pcmd, x) 			SET_BITS_TO_LE_4BYTE(pcmd, 31, 1, x)/* (x<<(unsigned int)7) */
++
++
++/* get status dword0 */
++#define GET_STATUS_PUB_PAGE_NUM(status)		LE_BITS_TO_4BYTE(status, 24, 8)
++#define GET_STATUS_HI_PAGE_NUM(status)		LE_BITS_TO_4BYTE(status, 18, 6)
++#define GET_STATUS_MID_PAGE_NUM(status)		LE_BITS_TO_4BYTE(status, 12, 6)
++#define GET_STATUS_LOW_PAGE_NUM(status)		LE_BITS_TO_4BYTE(status, 6, 6)
++#define GET_STATUS_HISR_HI6BIT(status)			LE_BITS_TO_4BYTE(status, 0, 6)
++
++/* get status dword1 */
++#define GET_STATUS_HISR_MID8BIT(status)		LE_BITS_TO_4BYTE(status + 4, 24, 8)
++#define GET_STATUS_HISR_LOW8BIT(status)		LE_BITS_TO_4BYTE(status + 4, 16, 8)
++#define GET_STATUS_ERROR(status)				LE_BITS_TO_4BYTE(status + 4, 17, 1)
++#define GET_STATUS_INT(status)				LE_BITS_TO_4BYTE(status + 4, 16, 1)
++#define GET_STATUS_RX_LENGTH(status)			LE_BITS_TO_4BYTE(status + 4, 0, 16)
++
++
++#define RXDESC_SIZE	24
++
++
++struct spi_more_data {
++	unsigned long more_data;
++	unsigned long len;
++};
++
++#ifdef CONFIG_RTL8188E
++	void rtl8188es_set_hal_ops(PADAPTER padapter);
++	#define set_hal_ops rtl8188es_set_hal_ops
++#endif
++extern void spi_set_chip_endian(PADAPTER padapter);
++extern unsigned int spi_write8_endian(ADAPTER *Adapter, unsigned int addr, unsigned int buf, u32 big);
++extern void spi_set_intf_ops(_adapter *padapter, struct _io_ops *pops);
++extern void spi_set_chip_endian(PADAPTER padapter);
++extern void InitInterrupt8723ASdio(PADAPTER padapter);
++extern void InitSysInterrupt8723ASdio(PADAPTER padapter);
++extern void EnableInterrupt8723ASdio(PADAPTER padapter);
++extern void DisableInterrupt8723ASdio(PADAPTER padapter);
++extern void spi_int_hdl(PADAPTER padapter);
++extern u8 HalQueryTxBufferStatus8723ASdio(PADAPTER padapter);
++#ifdef CONFIG_RTL8723B
++	extern void InitInterrupt8723BSdio(PADAPTER padapter);
++	extern void InitSysInterrupt8723BSdio(PADAPTER padapter);
++	extern void EnableInterrupt8723BSdio(PADAPTER padapter);
++	extern void DisableInterrupt8723BSdio(PADAPTER padapter);
++	extern u8 HalQueryTxBufferStatus8723BSdio(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_RTL8188E
++	extern void InitInterrupt8188EGspi(PADAPTER padapter);
++	extern void EnableInterrupt8188EGspi(PADAPTER padapter);
++	extern void DisableInterrupt8188EGspi(PADAPTER padapter);
++	extern void UpdateInterruptMask8188EGspi(PADAPTER padapter, u32 AddMSR, u32 RemoveMSR);
++	extern u8 HalQueryTxBufferStatus8189EGspi(PADAPTER padapter);
++	extern u8 HalQueryTxOQTBufferStatus8189EGspi(PADAPTER padapter);
++	extern void ClearInterrupt8188EGspi(PADAPTER padapter);
++	extern u8 CheckIPSStatus(PADAPTER padapter);
++#endif /* CONFIG_RTL8188E */
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	extern u8 RecvOnePkt(PADAPTER padapter, u32 size);
++#endif /* CONFIG_WOWLAN */
++
++#endif /* __GSPI_OPS_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/gspi_ops_linux.h b/drivers/net/wireless/rtl8723du/include/gspi_ops_linux.h
+new file mode 100644
+index 0000000..9bd18da
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/gspi_ops_linux.h
+@@ -0,0 +1,23 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __SDIO_OPS_LINUX_H__
++#define __SDIO_OPS_LINUX_H__
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/gspi_osintf.h b/drivers/net/wireless/rtl8723du/include/gspi_osintf.h
+new file mode 100644
+index 0000000..e51d2e4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/gspi_osintf.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __SDIO_OSINTF_H__
++#define __SDIO_OSINTF_H__
++
++
++#ifdef PLATFORM_OS_CE
++	extern NDIS_STATUS ce_sd_get_dev_hdl(PADAPTER padapter);
++	SD_API_STATUS ce_sd_int_callback(SD_DEVICE_HANDLE hDevice, PADAPTER padapter);
++	extern void sd_setup_irs(PADAPTER padapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/h2clbk.h b/drivers/net/wireless/rtl8723du/include/h2clbk.h
+new file mode 100644
+index 0000000..e7f0df5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/h2clbk.h
+@@ -0,0 +1,31 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#define _H2CLBK_H_
++
++
++void _lbk_cmd(PADAPTER Adapter);
++
++void _lbk_rsp(PADAPTER Adapter);
++
++void _lbk_evt(IN PADAPTER Adapter);
++
++void h2c_event_callback(unsigned char *dev, unsigned char *pbuf);
+diff --git a/drivers/net/wireless/rtl8723du/include/hal_btcoex.h b/drivers/net/wireless/rtl8723du/include/hal_btcoex.h
+new file mode 100644
+index 0000000..5ba84ed
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/hal_btcoex.h
+@@ -0,0 +1,93 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_BTCOEX_H__
++#define __HAL_BTCOEX_H__
++
++#include <drv_types.h>
++
++/* Some variables can't get from outsrc BT-Coex,
++ * so we need to save here */
++typedef struct _BT_COEXIST {
++	u8 bBtExist;
++	u8 btTotalAntNum;
++	u8 btChipType;
++	u8 bInitlized;
++	u8 btAntisolation;
++} BT_COEXIST, *PBT_COEXIST;
++
++void DBG_BT_INFO(u8 *dbgmsg);
++
++void hal_btcoex_SetBTCoexist(PADAPTER padapter, u8 bBtExist);
++u8 hal_btcoex_IsBtExist(PADAPTER padapter);
++u8 hal_btcoex_IsBtDisabled(PADAPTER);
++void hal_btcoex_SetChipType(PADAPTER padapter, u8 chipType);
++void hal_btcoex_SetPgAntNum(PADAPTER padapter, u8 antNum);
++
++u8 hal_btcoex_Initialize(PADAPTER padapter);
++void hal_btcoex_PowerOnSetting(PADAPTER padapter);
++void hal_btcoex_PreLoadFirmware(PADAPTER padapter);
++void hal_btcoex_InitHwConfig(PADAPTER padapter, u8 bWifiOnly);
++
++void hal_btcoex_IpsNotify(PADAPTER padapter, u8 type);
++void hal_btcoex_LpsNotify(PADAPTER padapter, u8 type);
++void hal_btcoex_ScanNotify(PADAPTER padapter, u8 type);
++void hal_btcoex_ConnectNotify(PADAPTER padapter, u8 action);
++void hal_btcoex_MediaStatusNotify(PADAPTER padapter, u8 mediaStatus);
++void hal_btcoex_SpecialPacketNotify(PADAPTER padapter, u8 pktType);
++void hal_btcoex_IQKNotify(PADAPTER padapter, u8 state);
++void hal_btcoex_BtInfoNotify(PADAPTER padapter, u8 length, u8 *tmpBuf);
++void hal_btcoex_BtMpRptNotify(PADAPTER padapter, u8 length, u8 *tmpBuf);
++void hal_btcoex_SuspendNotify(PADAPTER padapter, u8 state);
++void hal_btcoex_HaltNotify(PADAPTER padapter, u8 do_halt);
++void hal_btcoex_SwitchBtTRxMask(PADAPTER padapter);
++
++void hal_btcoex_Hanlder(PADAPTER padapter);
++
++s32 hal_btcoex_IsBTCoexRejectAMPDU(PADAPTER padapter);
++s32 hal_btcoex_IsBTCoexCtrlAMPDUSize(PADAPTER padapter);
++u32 hal_btcoex_GetAMPDUSize(PADAPTER padapter);
++void hal_btcoex_SetManualControl(PADAPTER padapter, u8 bmanual);
++u8 hal_btcoex_1Ant(PADAPTER padapter);
++u8 hal_btcoex_IsBtControlLps(PADAPTER);
++u8 hal_btcoex_IsLpsOn(PADAPTER);
++u8 hal_btcoex_RpwmVal(PADAPTER);
++u8 hal_btcoex_LpsVal(PADAPTER);
++u32 hal_btcoex_GetRaMask(PADAPTER);
++void hal_btcoex_RecordPwrMode(PADAPTER padapter, u8 *pCmdBuf, u8 cmdLen);
++void hal_btcoex_DisplayBtCoexInfo(PADAPTER, u8 *pbuf, u32 bufsize);
++void hal_btcoex_SetDBG(PADAPTER, u32 *pDbgModule);
++u32 hal_btcoex_GetDBG(PADAPTER, u8 *pStrBuf, u32 bufSize);
++u8 hal_btcoex_IncreaseScanDeviceNum(PADAPTER);
++u8 hal_btcoex_IsBtLinkExist(PADAPTER);
++void hal_btcoex_SetBtPatchVersion(PADAPTER, u16 btHciVer, u16 btPatchVer);
++void hal_btcoex_SetHciVersion(PADAPTER, u16 hciVersion);
++void hal_btcoex_SendScanNotify(PADAPTER, u8 type);
++void hal_btcoex_StackUpdateProfileInfo(void);
++void hal_btcoex_BTOffOnNotify(PADAPTER padapter, u8 bBTON);
++void hal_btcoex_SetAntIsolationType(PADAPTER padapter, u8 anttype);
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	int hal_btcoex_AntIsolationConfig_ParaFile(IN PADAPTER	Adapter, IN char *pFileName);
++	int hal_btcoex_ParseAntIsolationConfigFile(PADAPTER Adapter, char	*buffer);
++#endif /* CONFIG_LOAD_PHY_PARA_FROM_FILE */
++u16 hal_btcoex_btreg_read(PADAPTER padapter, u8 type, u16 addr, u32 *data);
++u16 hal_btcoex_btreg_write(PADAPTER padapter, u8 type, u16 addr, u16 val);
++void hal_btcoex_set_rfe_type(u8 type);
++void hal_btcoex_switchband_notify(u8 under_scan, u8 band_type);
++#endif /* !__HAL_BTCOEX_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/hal_com.h b/drivers/net/wireless/rtl8723du/include/hal_com.h
+new file mode 100644
+index 0000000..4c78f66
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/hal_com.h
+@@ -0,0 +1,635 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_COMMON_H__
++#define __HAL_COMMON_H__
++
++#include "HalVerDef.h"
++#include "hal_pg.h"
++#include "hal_phy.h"
++#include "hal_phy_reg.h"
++#include "hal_com_reg.h"
++#include "hal_com_phycfg.h"
++#include "../hal/hal_com_c2h.h"
++
++/*------------------------------ Tx Desc definition Macro ------------------------*/
++/* #pragma mark -- Tx Desc related definition. -- */
++/* ----------------------------------------------------------------------------
++ * -----------------------------------------------------------
++ *	Rate
++ * -----------------------------------------------------------
++ * CCK Rates, TxHT = 0 */
++#define DESC_RATE1M					0x00
++#define DESC_RATE2M					0x01
++#define DESC_RATE5_5M				0x02
++#define DESC_RATE11M				0x03
++
++/* OFDM Rates, TxHT = 0 */
++#define DESC_RATE6M					0x04
++#define DESC_RATE9M					0x05
++#define DESC_RATE12M				0x06
++#define DESC_RATE18M				0x07
++#define DESC_RATE24M				0x08
++#define DESC_RATE36M				0x09
++#define DESC_RATE48M				0x0a
++#define DESC_RATE54M				0x0b
++
++/* MCS Rates, TxHT = 1 */
++#define DESC_RATEMCS0				0x0c
++#define DESC_RATEMCS1				0x0d
++#define DESC_RATEMCS2				0x0e
++#define DESC_RATEMCS3				0x0f
++#define DESC_RATEMCS4				0x10
++#define DESC_RATEMCS5				0x11
++#define DESC_RATEMCS6				0x12
++#define DESC_RATEMCS7				0x13
++#define DESC_RATEMCS8				0x14
++#define DESC_RATEMCS9				0x15
++#define DESC_RATEMCS10				0x16
++#define DESC_RATEMCS11				0x17
++#define DESC_RATEMCS12				0x18
++#define DESC_RATEMCS13				0x19
++#define DESC_RATEMCS14				0x1a
++#define DESC_RATEMCS15				0x1b
++#define DESC_RATEMCS16				0x1C
++#define DESC_RATEMCS17				0x1D
++#define DESC_RATEMCS18				0x1E
++#define DESC_RATEMCS19				0x1F
++#define DESC_RATEMCS20				0x20
++#define DESC_RATEMCS21				0x21
++#define DESC_RATEMCS22				0x22
++#define DESC_RATEMCS23				0x23
++#define DESC_RATEMCS24				0x24
++#define DESC_RATEMCS25				0x25
++#define DESC_RATEMCS26				0x26
++#define DESC_RATEMCS27				0x27
++#define DESC_RATEMCS28				0x28
++#define DESC_RATEMCS29				0x29
++#define DESC_RATEMCS30				0x2A
++#define DESC_RATEMCS31				0x2B
++#define DESC_RATEVHTSS1MCS0		0x2C
++#define DESC_RATEVHTSS1MCS1		0x2D
++#define DESC_RATEVHTSS1MCS2		0x2E
++#define DESC_RATEVHTSS1MCS3		0x2F
++#define DESC_RATEVHTSS1MCS4		0x30
++#define DESC_RATEVHTSS1MCS5		0x31
++#define DESC_RATEVHTSS1MCS6		0x32
++#define DESC_RATEVHTSS1MCS7		0x33
++#define DESC_RATEVHTSS1MCS8		0x34
++#define DESC_RATEVHTSS1MCS9		0x35
++#define DESC_RATEVHTSS2MCS0		0x36
++#define DESC_RATEVHTSS2MCS1		0x37
++#define DESC_RATEVHTSS2MCS2		0x38
++#define DESC_RATEVHTSS2MCS3		0x39
++#define DESC_RATEVHTSS2MCS4		0x3A
++#define DESC_RATEVHTSS2MCS5		0x3B
++#define DESC_RATEVHTSS2MCS6		0x3C
++#define DESC_RATEVHTSS2MCS7		0x3D
++#define DESC_RATEVHTSS2MCS8		0x3E
++#define DESC_RATEVHTSS2MCS9		0x3F
++#define DESC_RATEVHTSS3MCS0		0x40
++#define DESC_RATEVHTSS3MCS1		0x41
++#define DESC_RATEVHTSS3MCS2		0x42
++#define DESC_RATEVHTSS3MCS3		0x43
++#define DESC_RATEVHTSS3MCS4		0x44
++#define DESC_RATEVHTSS3MCS5		0x45
++#define DESC_RATEVHTSS3MCS6		0x46
++#define DESC_RATEVHTSS3MCS7		0x47
++#define DESC_RATEVHTSS3MCS8		0x48
++#define DESC_RATEVHTSS3MCS9		0x49
++#define DESC_RATEVHTSS4MCS0		0x4A
++#define DESC_RATEVHTSS4MCS1		0x4B
++#define DESC_RATEVHTSS4MCS2		0x4C
++#define DESC_RATEVHTSS4MCS3		0x4D
++#define DESC_RATEVHTSS4MCS4		0x4E
++#define DESC_RATEVHTSS4MCS5		0x4F
++#define DESC_RATEVHTSS4MCS6		0x50
++#define DESC_RATEVHTSS4MCS7		0x51
++#define DESC_RATEVHTSS4MCS8		0x52
++#define DESC_RATEVHTSS4MCS9		0x53
++
++#define HDATA_RATE(rate)\
++	(rate == DESC_RATE1M) ? "CCK_1M" :\
++	(rate == DESC_RATE2M) ? "CCK_2M" :\
++	(rate == DESC_RATE5_5M) ? "CCK5_5M" :\
++	(rate == DESC_RATE11M) ? "CCK_11M" :\
++	(rate == DESC_RATE6M) ? "OFDM_6M" :\
++	(rate == DESC_RATE9M) ? "OFDM_9M" :\
++	(rate == DESC_RATE12M) ? "OFDM_12M" :\
++	(rate == DESC_RATE18M) ? "OFDM_18M" :\
++	(rate == DESC_RATE24M) ? "OFDM_24M" :\
++	(rate == DESC_RATE36M) ? "OFDM_36M" :\
++	(rate == DESC_RATE48M) ? "OFDM_48M" :\
++	(rate == DESC_RATE54M) ? "OFDM_54M" :\
++	(rate == DESC_RATEMCS0) ? "MCS0" :\
++	(rate == DESC_RATEMCS1) ? "MCS1" :\
++	(rate == DESC_RATEMCS2) ? "MCS2" :\
++	(rate == DESC_RATEMCS3) ? "MCS3" :\
++	(rate == DESC_RATEMCS4) ? "MCS4" :\
++	(rate == DESC_RATEMCS5) ? "MCS5" :\
++	(rate == DESC_RATEMCS6) ? "MCS6" :\
++	(rate == DESC_RATEMCS7) ? "MCS7" :\
++	(rate == DESC_RATEMCS8) ? "MCS8" :\
++	(rate == DESC_RATEMCS9) ? "MCS9" :\
++	(rate == DESC_RATEMCS10) ? "MCS10" :\
++	(rate == DESC_RATEMCS11) ? "MCS11" :\
++	(rate == DESC_RATEMCS12) ? "MCS12" :\
++	(rate == DESC_RATEMCS13) ? "MCS13" :\
++	(rate == DESC_RATEMCS14) ? "MCS14" :\
++	(rate == DESC_RATEMCS15) ? "MCS15" :\
++	(rate == DESC_RATEMCS16) ? "MCS16" :\
++	(rate == DESC_RATEMCS17) ? "MCS17" :\
++	(rate == DESC_RATEMCS18) ? "MCS18" :\
++	(rate == DESC_RATEMCS19) ? "MCS19" :\
++	(rate == DESC_RATEMCS20) ? "MCS20" :\
++	(rate == DESC_RATEMCS21) ? "MCS21" :\
++	(rate == DESC_RATEMCS22) ? "MCS22" :\
++	(rate == DESC_RATEMCS23) ? "MCS23" :\
++	(rate == DESC_RATEVHTSS1MCS0) ? "VHTSS1MCS0" :\
++	(rate == DESC_RATEVHTSS1MCS1) ? "VHTSS1MCS1" :\
++	(rate == DESC_RATEVHTSS1MCS2) ? "VHTSS1MCS2" :\
++	(rate == DESC_RATEVHTSS1MCS3) ? "VHTSS1MCS3" :\
++	(rate == DESC_RATEVHTSS1MCS4) ? "VHTSS1MCS4" :\
++	(rate == DESC_RATEVHTSS1MCS5) ? "VHTSS1MCS5" :\
++	(rate == DESC_RATEVHTSS1MCS6) ? "VHTSS1MCS6" :\
++	(rate == DESC_RATEVHTSS1MCS7) ? "VHTSS1MCS7" :\
++	(rate == DESC_RATEVHTSS1MCS8) ? "VHTSS1MCS8" :\
++	(rate == DESC_RATEVHTSS1MCS9) ? "VHTSS1MCS9" :\
++	(rate == DESC_RATEVHTSS2MCS0) ? "VHTSS2MCS0" :\
++	(rate == DESC_RATEVHTSS2MCS1) ? "VHTSS2MCS1" :\
++	(rate == DESC_RATEVHTSS2MCS2) ? "VHTSS2MCS2" :\
++	(rate == DESC_RATEVHTSS2MCS3) ? "VHTSS2MCS3" :\
++	(rate == DESC_RATEVHTSS2MCS4) ? "VHTSS2MCS4" :\
++	(rate == DESC_RATEVHTSS2MCS5) ? "VHTSS2MCS5" :\
++	(rate == DESC_RATEVHTSS2MCS6) ? "VHTSS2MCS6" :\
++	(rate == DESC_RATEVHTSS2MCS7) ? "VHTSS2MCS7" :\
++	(rate == DESC_RATEVHTSS2MCS8) ? "VHTSS2MCS8" :\
++	(rate == DESC_RATEVHTSS2MCS9) ? "VHTSS2MCS9" :\
++	(rate == DESC_RATEVHTSS3MCS0) ? "VHTSS3MCS0" :\
++	(rate == DESC_RATEVHTSS3MCS1) ? "VHTSS3MCS1" :\
++	(rate == DESC_RATEVHTSS3MCS2) ? "VHTSS3MCS2" :\
++	(rate == DESC_RATEVHTSS3MCS3) ? "VHTSS3MCS3" :\
++	(rate == DESC_RATEVHTSS3MCS4) ? "VHTSS3MCS4" :\
++	(rate == DESC_RATEVHTSS3MCS5) ? "VHTSS3MCS5" :\
++	(rate == DESC_RATEVHTSS3MCS6) ? "VHTSS3MCS6" :\
++	(rate == DESC_RATEVHTSS3MCS7) ? "VHTSS3MCS7" :\
++	(rate == DESC_RATEVHTSS3MCS8) ? "VHTSS3MCS8" :\
++	(rate == DESC_RATEVHTSS3MCS9) ? "VHTSS3MCS9" : "UNKNOWN"
++
++enum {
++	UP_LINK,
++	DOWN_LINK,
++};
++typedef enum _RT_MEDIA_STATUS {
++	RT_MEDIA_DISCONNECT = 0,
++	RT_MEDIA_CONNECT       = 1
++} RT_MEDIA_STATUS;
++
++#define MAX_DLFW_PAGE_SIZE			4096	/* @ page : 4k bytes */
++typedef enum _FIRMWARE_SOURCE {
++	FW_SOURCE_IMG_FILE = 0,
++	FW_SOURCE_HEADER_FILE = 1,		/* from header file */
++} FIRMWARE_SOURCE, *PFIRMWARE_SOURCE;
++
++typedef enum _CH_SW_USE_CASE {
++	CH_SW_USE_CASE_TDLS		= 0,
++	CH_SW_USE_CASE_MCC		= 1
++} CH_SW_USE_CASE;
++
++typedef enum _WAKEUP_REASON{
++	RX_PAIRWISEKEY					= 0x01,
++	RX_GTK							= 0x02,
++	RX_FOURWAY_HANDSHAKE			= 0x03,
++	RX_DISASSOC						= 0x04,
++	RX_DEAUTH						= 0x08,
++	RX_ARP_REQUEST					= 0x09,
++	FW_DECISION_DISCONNECT			= 0x10,
++	RX_MAGIC_PKT					= 0x21,
++	RX_UNICAST_PKT					= 0x22,
++	RX_PATTERN_PKT					= 0x23,
++	RTD3_SSID_MATCH					= 0x24,
++	RX_REALWOW_V2_WAKEUP_PKT		= 0x30,
++	RX_REALWOW_V2_ACK_LOST			= 0x31,
++	ENABLE_FAIL_DMA_IDLE			= 0x40,
++	ENABLE_FAIL_DMA_PAUSE			= 0x41,
++	RTIME_FAIL_DMA_IDLE				= 0x42,
++	RTIME_FAIL_DMA_PAUSE			= 0x43,
++	RX_PNO							= 0x55,
++	AP_OFFLOAD_WAKEUP				= 0x66,
++	CLK_32K_UNLOCK					= 0xFD,
++	CLK_32K_LOCK					= 0xFE
++}WAKEUP_REASON;
++
++/*
++ * Queue Select Value in TxDesc
++ *   */
++#define QSLT_BK							0x2/* 0x01 */
++#define QSLT_BE							0x0
++#define QSLT_VI							0x5/* 0x4 */
++#define QSLT_VO							0x7/* 0x6 */
++#define QSLT_BEACON						0x10
++#define QSLT_HIGH						0x11
++#define QSLT_MGNT						0x12
++#define QSLT_CMD						0x13
++
++/* BK, BE, VI, VO, HCCA, MANAGEMENT, COMMAND, HIGH, BEACON.
++ * #define MAX_TX_QUEUE		9 */
++
++#define TX_SELE_HQ			BIT(0)		/* High Queue */
++#define TX_SELE_LQ			BIT(1)		/* Low Queue */
++#define TX_SELE_NQ			BIT(2)		/* Normal Queue */
++#define TX_SELE_EQ			BIT(3)		/* Extern Queue */
++
++#define PageNum_128(_Len)		(u32)(((_Len)>>7) + ((_Len) & 0x7F ? 1 : 0))
++#define PageNum_256(_Len)		(u32)(((_Len)>>8) + ((_Len) & 0xFF ? 1 : 0))
++#define PageNum_512(_Len)		(u32)(((_Len)>>9) + ((_Len) & 0x1FF ? 1 : 0))
++#define PageNum(_Len, _Size)		(u32)(((_Len)/(_Size)) + ((_Len)&((_Size) - 1) ? 1 : 0))
++
++struct dbg_rx_counter {
++	u32	rx_pkt_ok;
++	u32	rx_pkt_crc_error;
++	u32	rx_pkt_drop;
++	u32	rx_ofdm_fa;
++	u32	rx_cck_fa;
++	u32	rx_ht_fa;
++};
++
++#ifdef CONFIG_MBSSID_CAM
++	#define DBG_MBID_CAM_DUMP
++
++	void rtw_mbid_cam_init(struct dvobj_priv *dvobj);
++	void rtw_mbid_cam_deinit(struct dvobj_priv *dvobj);
++	void rtw_mbid_cam_reset(_adapter *adapter);
++	u8 rtw_get_max_mbid_cam_id(_adapter *adapter);
++	u8 rtw_get_mbid_cam_entry_num(_adapter *adapter);
++	int rtw_mbid_cam_cache_dump(void *sel, const char *fun_name , _adapter *adapter);
++	int rtw_mbid_cam_dump(void *sel, const char *fun_name, _adapter *adapter);
++	void rtw_mbid_cam_restore(_adapter *adapter);
++#endif
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++	void rtw_hal_set_macaddr_mbid(_adapter *adapter, u8 *mac_addr);
++	void rtw_hal_change_macaddr_mbid(_adapter *adapter, u8 *mac_addr);
++#endif
++
++void rtw_dump_mac_rx_counters(_adapter *padapter, struct dbg_rx_counter *rx_counter);
++void rtw_dump_phy_rx_counters(_adapter *padapter, struct dbg_rx_counter *rx_counter);
++void rtw_reset_mac_rx_counters(_adapter *padapter);
++void rtw_reset_phy_rx_counters(_adapter *padapter);
++void rtw_reset_phy_trx_ok_counters(_adapter *padapter);
++
++#ifdef DBG_RX_COUNTER_DUMP
++	#define DUMP_DRV_RX_COUNTER	BIT0
++	#define DUMP_MAC_RX_COUNTER	BIT1
++	#define DUMP_PHY_RX_COUNTER	BIT2
++	#define DUMP_DRV_TRX_COUNTER_DATA	BIT3
++
++	void rtw_dump_phy_rxcnts_preprocess(_adapter *padapter, u8 rx_cnt_mode);
++	void rtw_dump_rx_counters(_adapter *padapter);
++#endif
++
++void dump_chip_info(HAL_VERSION	ChipVersion);
++void rtw_hal_config_rftype(PADAPTER  padapter);
++
++#define BAND_CAP_2G			BIT0
++#define BAND_CAP_5G			BIT1
++#define BAND_CAP_BIT_NUM	2
++
++#define BW_CAP_5M		BIT0
++#define BW_CAP_10M		BIT1
++#define BW_CAP_20M		BIT2
++#define BW_CAP_40M		BIT3
++#define BW_CAP_80M		BIT4
++#define BW_CAP_160M		BIT5
++#define BW_CAP_80_80M	BIT6
++#define BW_CAP_BIT_NUM	7
++
++#define PROTO_CAP_11B		BIT0
++#define PROTO_CAP_11G		BIT1
++#define PROTO_CAP_11N		BIT2
++#define PROTO_CAP_11AC		BIT3
++#define PROTO_CAP_BIT_NUM	4
++
++#define WL_FUNC_P2P			BIT0
++#define WL_FUNC_MIRACAST	BIT1
++#define WL_FUNC_TDLS		BIT2
++#define WL_FUNC_FTM			BIT3
++#define WL_FUNC_BIT_NUM		4
++
++int hal_spec_init(_adapter *adapter);
++void dump_hal_spec(void *sel, _adapter *adapter);
++
++bool hal_chk_band_cap(_adapter *adapter, u8 cap);
++bool hal_chk_bw_cap(_adapter *adapter, u8 cap);
++bool hal_chk_proto_cap(_adapter *adapter, u8 cap);
++bool hal_is_band_support(_adapter *adapter, u8 band);
++bool hal_is_bw_support(_adapter *adapter, u8 bw);
++bool hal_is_wireless_mode_support(_adapter *adapter, u8 mode);
++u8 hal_largest_bw(_adapter *adapter, u8 in_bw);
++
++bool hal_chk_wl_func(_adapter *adapter, u8 func);
++
++u8 hal_com_config_channel_plan(
++	IN	PADAPTER padapter,
++	IN	char *hw_alpha2,
++	IN	u8 hw_chplan,
++	IN	char *sw_alpha2,
++	IN	u8 sw_chplan,
++	IN	u8 def_chplan,
++	IN	BOOLEAN AutoLoadFail
++);
++
++int hal_config_macaddr(_adapter *adapter, bool autoload_fail);
++
++BOOLEAN
++HAL_IsLegalChannel(
++	IN	PADAPTER	Adapter,
++	IN	u32			Channel
++);
++
++u8	MRateToHwRate(u8 rate);
++
++u8	HwRateToMRate(u8 rate);
++
++void	HalSetBrateCfg(
++	IN PADAPTER		Adapter,
++	IN u8			*mBratesOS,
++	OUT u16			*pBrateCfg);
++
++BOOLEAN
++Hal_MappingOutPipe(
++	IN	PADAPTER	pAdapter,
++	IN	u8		NumOutPipe
++);
++
++
++void rtw_restore_mac_addr(_adapter *adapter);/*set mac addr when hal_init for all iface*/
++void rtw_hal_dump_macaddr(void *sel, _adapter *adapter);
++
++void rtw_init_hal_com_default_value(PADAPTER Adapter);
++
++#ifdef CONFIG_FW_C2H_REG
++void c2h_evt_clear(_adapter *adapter);
++s32 c2h_evt_read_88xx(_adapter *adapter, u8 *buf);
++#endif
++
++#ifdef CONFIG_FW_C2H_PKT
++void rtw_hal_c2h_pkt_pre_hdl(_adapter *adapter, u8 *buf, u16 len);
++void rtw_hal_c2h_pkt_hdl(_adapter *adapter, u8 *buf, u16 len);
++#endif
++
++u8  rtw_hal_networktype_to_raid(_adapter *adapter, struct sta_info *psta);
++u8 rtw_get_mgntframe_raid(_adapter *adapter, unsigned char network_type);
++void rtw_hal_update_sta_rate_mask(PADAPTER padapter, struct sta_info *psta);
++
++/* access HW only */
++u32 rtw_sec_read_cam(_adapter *adapter, u8 addr);
++void rtw_sec_write_cam(_adapter *adapter, u8 addr, u32 wdata);
++void rtw_sec_read_cam_ent(_adapter *adapter, u8 id, u8 *ctrl, u8 *mac, u8 *key);
++void rtw_sec_write_cam_ent(_adapter *adapter, u8 id, u16 ctrl, u8 *mac, u8 *key);
++void rtw_sec_clr_cam_ent(_adapter *adapter, u8 id);
++bool rtw_sec_read_cam_is_gk(_adapter *adapter, u8 id);
++
++void rtw_hal_set_msr(_adapter *adapter, u8 net_type);
++void rtw_hal_set_macaddr_port(_adapter *adapter, u8 *val);
++void rtw_hal_get_macaddr_port(_adapter *adapter, u8 *mac_addr);
++
++void rtw_hal_set_bssid(_adapter *adapter, u8 *val);
++
++void hw_var_port_switch(_adapter *adapter);
++
++void SetHwReg(PADAPTER padapter, u8 variable, u8 *val);
++void GetHwReg(PADAPTER padapter, u8 variable, u8 *val);
++void rtw_hal_check_rxfifo_full(_adapter *adapter);
++
++u8 SetHalDefVar(_adapter *adapter, HAL_DEF_VARIABLE variable, void *value);
++u8 GetHalDefVar(_adapter *adapter, HAL_DEF_VARIABLE variable, void *value);
++
++BOOLEAN
++eqNByte(
++	u8	*str1,
++	u8	*str2,
++	u32	num
++);
++
++u32
++MapCharToHexDigit(
++	IN	char	chTmp
++);
++
++BOOLEAN
++GetHexValueFromString(
++	IN		char			*szStr,
++	IN OUT	u32			*pu4bVal,
++	IN OUT	u32			*pu4bMove
++);
++
++BOOLEAN
++GetFractionValueFromString(
++	IN		char		*szStr,
++	IN OUT	u8			*pInteger,
++	IN OUT	u8			*pFraction,
++	IN OUT	u32		*pu4bMove
++);
++
++BOOLEAN
++IsCommentString(
++	IN		char		*szStr
++);
++
++BOOLEAN
++ParseQualifiedString(
++	IN	char *In,
++	IN OUT  u32 *Start,
++	OUT	char *Out,
++	IN	char  LeftQualifier,
++	IN	char  RightQualifier
++);
++
++BOOLEAN
++GetU1ByteIntegerFromStringInDecimal(
++	IN		char *Str,
++	IN OUT	u8 *pInt
++);
++
++BOOLEAN
++isAllSpaceOrTab(
++	u8	*data,
++	u8	size
++);
++
++void linked_info_dump(_adapter *padapter, u8 benable);
++#ifdef DBG_RX_SIGNAL_DISPLAY_RAW_DATA
++	void rtw_get_raw_rssi_info(void *sel, _adapter *padapter);
++	void rtw_dump_raw_rssi_info(_adapter *padapter, void *sel);
++#endif
++
++#ifdef DBG_RX_DFRAME_RAW_DATA
++	void rtw_dump_rx_dframe_info(_adapter *padapter, void *sel);
++#endif
++void rtw_store_phy_info(_adapter *padapter, union recv_frame *prframe);
++#define		HWSET_MAX_SIZE			1024
++#ifdef CONFIG_EFUSE_CONFIG_FILE
++	#define		EFUSE_FILE_COLUMN_NUM		16
++	u32 Hal_readPGDataFromConfigFile(PADAPTER padapter);
++	u32 Hal_ReadMACAddrFromFile(PADAPTER padapter, u8 *mac_addr);
++#endif /* CONFIG_EFUSE_CONFIG_FILE */
++
++int check_phy_efuse_tx_power_info_valid(PADAPTER padapter);
++int hal_efuse_macaddr_offset(_adapter *adapter);
++int Hal_GetPhyEfuseMACAddr(PADAPTER padapter, u8 *mac_addr);
++void rtw_dump_cur_efuse(PADAPTER padapter);
++
++#ifdef CONFIG_RF_POWER_TRIM
++	void rtw_bb_rf_gain_offset(_adapter *padapter);
++#endif /*CONFIG_RF_POWER_TRIM*/
++
++void dm_DynamicUsbTxAgg(_adapter *padapter, u8 from_timer);
++u8 rtw_hal_busagg_qsel_check(_adapter *padapter, u8 pre_qsel, u8 next_qsel);
++void GetHalODMVar(
++	PADAPTER				Adapter,
++	HAL_ODM_VARIABLE		eVariable,
++	PVOID					pValue1,
++	PVOID					pValue2);
++void SetHalODMVar(
++	PADAPTER				Adapter,
++	HAL_ODM_VARIABLE		eVariable,
++	PVOID					pValue1,
++	BOOLEAN					bSet);
++
++#ifdef CONFIG_BACKGROUND_NOISE_MONITOR
++struct noise_info {
++	u8		bPauseDIG;
++	u8		IGIValue;
++	u32 	max_time;/* ms	 */
++	u8		chan;
++};
++#endif
++
++void rtw_get_noise(_adapter *padapter);
++u8 rtw_get_current_tx_rate(_adapter *padapter, u8 macid);
++u8 rtw_get_current_tx_sgi(_adapter *padapter, u8 macid);
++void rtw_hal_construct_NullFunctionData(PADAPTER, u8 *pframe, u32 *pLength, u8 *StaAddr, u8 bQoS, u8 AC, u8 bEosp, u8 bForcePowerSave);
++
++void rtw_hal_set_fw_rsvd_page(_adapter *adapter, bool finished);
++
++#ifdef CONFIG_TDLS
++	#ifdef CONFIG_TDLS_CH_SW
++		s32 rtw_hal_ch_sw_oper_offload(_adapter *padapter, u8 channel, u8 channel_offset, u16 bwmode);
++	#endif
++#endif
++
++#ifdef CONFIG_GPIO_API
++	u8 rtw_hal_get_gpio(_adapter *adapter, u8 gpio_num);
++	int rtw_hal_set_gpio_output_value(_adapter *adapter, u8 gpio_num, bool isHigh);
++	int rtw_hal_config_gpio(_adapter *adapter, u8 gpio_num, bool isOutput);
++	int rtw_hal_register_gpio_interrupt(_adapter *adapter, int gpio_num, void(*callback)(u8 level));
++	int rtw_hal_disable_gpio_interrupt(_adapter *adapter, int gpio_num);
++#endif
++
++s8 rtw_hal_ch_sw_iqk_info_search(_adapter *padapter, u8 central_chnl, u8 bw_mode);
++void rtw_hal_ch_sw_iqk_info_backup(_adapter *adapter);
++void rtw_hal_ch_sw_iqk_info_restore(_adapter *padapter, u8 ch_sw_use_case);
++
++#ifdef CONFIG_GPIO_WAKEUP
++	void rtw_hal_switch_gpio_wl_ctrl(_adapter *padapter, u8 index, u8 enable);
++	void rtw_hal_set_output_gpio(_adapter *padapter, u8 index, u8 outputval);
++#endif
++
++typedef enum _HAL_PHYDM_OPS {
++	HAL_PHYDM_DIS_ALL_FUNC,
++	HAL_PHYDM_FUNC_SET,
++	HAL_PHYDM_FUNC_CLR,
++	HAL_PHYDM_ABILITY_BK,
++	HAL_PHYDM_ABILITY_RESTORE,
++	HAL_PHYDM_ABILITY_SET,
++	HAL_PHYDM_ABILITY_GET,
++} HAL_PHYDM_OPS;
++
++
++#define DYNAMIC_FUNC_DISABLE		(0x0)
++u32 rtw_phydm_ability_ops(_adapter *adapter, HAL_PHYDM_OPS ops, u32 ability);
++
++#define rtw_phydm_func_disable_all(adapter)	\
++	rtw_phydm_ability_ops(adapter, HAL_PHYDM_DIS_ALL_FUNC, 0)
++
++#define rtw_phydm_func_for_offchannel(adapter) \
++	do { \
++		rtw_phydm_ability_ops(adapter, HAL_PHYDM_DIS_ALL_FUNC, 0); \
++		if (rtw_odm_adaptivity_needed(adapter)) \
++			rtw_phydm_ability_ops(adapter, HAL_PHYDM_FUNC_SET, ODM_BB_ADAPTIVITY); \
++	} while (0)
++
++#define rtw_phydm_func_set(adapter, ability)	\
++	rtw_phydm_ability_ops(adapter, HAL_PHYDM_FUNC_SET, ability)
++
++#define rtw_phydm_func_clr(adapter, ability)	\
++	rtw_phydm_ability_ops(adapter, HAL_PHYDM_FUNC_CLR, ability)
++
++#define rtw_phydm_ability_backup(adapter)	\
++	rtw_phydm_ability_ops(adapter, HAL_PHYDM_ABILITY_BK, 0)
++
++#define rtw_phydm_ability_restore(adapter)	\
++	rtw_phydm_ability_ops(adapter, HAL_PHYDM_ABILITY_RESTORE, 0)
++
++#define rtw_phydm_ability_set(adapter, ability)	\
++	rtw_phydm_ability_ops(adapter, HAL_PHYDM_ABILITY_SET, ability)
++
++static inline u32 rtw_phydm_ability_get(_adapter *adapter)
++{
++	return rtw_phydm_ability_ops(adapter, HAL_PHYDM_ABILITY_GET, 0);
++}
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	extern char *rtw_phy_file_path;
++	extern char rtw_phy_para_file_path[PATH_LENGTH_MAX];
++	#define GetLineFromBuffer(buffer)   strsep(&buffer, "\r\n")
++#endif
++
++void update_IOT_info(_adapter *padapter);
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	void rtw_acs_start(_adapter *padapter, bool bStart);
++#endif
++
++void hal_set_crystal_cap(_adapter *adapter, u8 crystal_cap);
++void rtw_hal_correct_tsf(_adapter *padapter, u8 hw_port, u64 tsf);
++
++void ResumeTxBeacon(_adapter *padapter);
++void StopTxBeacon(_adapter *padapter);
++#ifdef CONFIG_MI_WITH_MBSSID_CAM /*HW port0 - MBSS*/
++	void hw_var_set_opmode_mbid(_adapter *Adapter, u8 mode);
++	u8 rtw_mbid_camid_alloc(_adapter *adapter, u8 *mac_addr);
++#endif
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	u8	rtw_hal_antdiv_before_linked(_adapter *padapter);
++	void	rtw_hal_antdiv_rssi_compared(_adapter *padapter, WLAN_BSSID_EX *dst, WLAN_BSSID_EX *src);
++#endif
++
++#ifdef DBG_SEC_CAM_MOVE
++	void rtw_hal_move_sta_gk_to_dk(_adapter *adapter);
++	void rtw_hal_read_sta_dk_key(_adapter *adapter, u8 key_id);
++#endif
++
++#ifdef CONFIG_LPS_PG
++	u8 rtw_hal_set_lps_pg_info(_adapter *adapter);
++#endif
++
++#endif /* __HAL_COMMON_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/hal_com_h2c.h b/drivers/net/wireless/rtl8723du/include/hal_com_h2c.h
+new file mode 100644
+index 0000000..ba2ef74
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/hal_com_h2c.h
+@@ -0,0 +1,489 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __COMMON_H2C_H__
++#define __COMMON_H2C_H__
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD DEFINITION    ------------------------------------------------
++ * ---------------------------------------------------------------------------------------------------------
++ * 88e, 8723b, 8812, 8821, 92e use the same FW code base */
++enum h2c_cmd {
++	/* Common Class: 000 */
++	H2C_RSVD_PAGE = 0x00,
++	H2C_MEDIA_STATUS_RPT = 0x01,
++	H2C_SCAN_ENABLE = 0x02,
++	H2C_KEEP_ALIVE = 0x03,
++	H2C_DISCON_DECISION = 0x04,
++	H2C_PSD_OFFLOAD = 0x05,
++	H2C_AP_OFFLOAD = 0x08,
++	H2C_BCN_RSVDPAGE = 0x09,
++	H2C_PROBERSP_RSVDPAGE = 0x0A,
++	H2C_FCS_RSVDPAGE = 0x10,
++	H2C_FCS_INFO = 0x11,
++	H2C_AP_WOW_GPIO_CTRL = 0x13,
++#ifdef CONFIG_MCC_MODE
++	H2C_MCC_UPDATE_PARAM = 0x15,
++	H2C_MCC_MACID_BITMAP = 0x16,
++	H2C_MCC_LOCATION = 0x10,
++	H2C_MCC_INFO = 0x18,
++	H2C_MCC_NOA_PARAM = 0x19,
++	H2C_MCC_IQK_PARAM = 0x1A,
++#endif /* CONFIG_MCC_MODE */
++	H2C_CHNL_SWITCH_OPER_OFFLOAD = 0x1C,
++
++	/* PoweSave Class: 001 */
++	H2C_SET_PWR_MODE = 0x20,
++	H2C_PS_TUNING_PARA = 0x21,
++	H2C_PS_TUNING_PARA2 = 0x22,
++	H2C_P2P_LPS_PARAM = 0x23,
++	H2C_P2P_PS_OFFLOAD = 0x24,
++	H2C_PS_SCAN_ENABLE = 0x25,
++	H2C_SAP_PS_ = 0x26,
++	H2C_INACTIVE_PS_ = 0x27, /* Inactive_PS */
++	H2C_FWLPS_IN_IPS_ = 0x28,
++#ifdef CONFIG_LPS_POFF
++	H2C_LPS_POFF_CTRL = 0x29,
++	H2C_LPS_POFF_PARAM = 0x2A,
++#endif
++#ifdef CONFIG_LPS_PG
++	H2C_LPS_PG_INFO = 0x2B,
++#endif
++	/* Dynamic Mechanism Class: 010 */
++	H2C_MACID_CFG = 0x40,
++	H2C_TXBF = 0x41,
++	H2C_RSSI_SETTING = 0x42,
++	H2C_AP_REQ_TXRPT = 0x43,
++	H2C_INIT_RATE_COLLECT = 0x44,
++	H2C_IQ_CALIBRATION	= 0x45,
++
++	H2C_RA_MASK_3SS = 0x46,/* for 8814A */
++	H2C_RA_PARA_ADJUST = 0x47,/* CONFIG_RA_DBG_CMD */
++	H2C_DYNAMIC_TX_PATH = 0x48,/* for 8814A */
++
++	H2C_FW_TRACE_EN = 0x49,
++
++	/* BT Class: 011 */
++	H2C_B_TYPE_TDMA = 0x60,
++	H2C_BT_INFO = 0x61,
++	H2C_FORCE_BT_TXPWR = 0x62,
++	H2C_BT_IGNORE_WLANACT = 0x63,
++	H2C_DAC_SWING_VALUE = 0x64,
++	H2C_ANT_SEL_RSV = 0x65,
++	H2C_WL_OPMODE = 0x66,
++	H2C_BT_MP_OPER = 0x67,
++	H2C_BT_CONTROL = 0x68,
++	H2C_BT_WIFI_CTRL = 0x69,
++	H2C_BT_FW_PATCH = 0x6A,
++
++	/* WOWLAN Class: 100 */
++	H2C_WOWLAN = 0x80,
++	H2C_REMOTE_WAKE_CTRL = 0x81,
++	H2C_AOAC_GLOBAL_INFO = 0x82,
++	H2C_AOAC_RSVD_PAGE = 0x83,
++	H2C_AOAC_RSVD_PAGE2 = 0x84,
++	H2C_D0_SCAN_OFFLOAD_CTRL = 0x85,
++	H2C_D0_SCAN_OFFLOAD_INFO = 0x86,
++	H2C_CHNL_SWITCH_OFFLOAD = 0x87,
++	H2C_AOAC_RSVDPAGE3 = 0x88,
++	H2C_P2P_OFFLOAD_RSVD_PAGE = 0x8A,
++	H2C_P2P_OFFLOAD = 0x8B,
++
++	H2C_RESET_TSF = 0xC0,
++	H2C_BCNHWSEQ = 0xC5,
++	H2C_MAXID,
++};
++
++#define H2C_RSVDPAGE_LOC_LEN		5
++#define H2C_MEDIA_STATUS_RPT_LEN		3
++#define H2C_KEEP_ALIVE_CTRL_LEN	2
++#define H2C_DISCON_DECISION_LEN		3
++#define H2C_AP_OFFLOAD_LEN		3
++#define H2C_AP_WOW_GPIO_CTRL_LEN	4
++#define H2C_AP_PS_LEN			2
++#define H2C_PWRMODE_LEN			7
++#define H2C_PSTUNEPARAM_LEN			4
++#define H2C_MACID_CFG_LEN		7
++#define H2C_BTMP_OPER_LEN			5
++#define H2C_WOWLAN_LEN			5
++#define H2C_REMOTE_WAKE_CTRL_LEN	3
++#define H2C_AOAC_GLOBAL_INFO_LEN	2
++#define H2C_AOAC_RSVDPAGE_LOC_LEN	7
++#define H2C_SCAN_OFFLOAD_CTRL_LEN	4
++#define H2C_BT_FW_PATCH_LEN			6
++#define H2C_RSSI_SETTING_LEN		4
++#define H2C_AP_REQ_TXRPT_LEN		2
++#define H2C_FORCE_BT_TXPWR_LEN		3
++#define H2C_BCN_RSVDPAGE_LEN		5
++#define H2C_PROBERSP_RSVDPAGE_LEN	5
++#define H2C_P2PRSVDPAGE_LOC_LEN	5
++#define H2C_P2P_OFFLOAD_LEN	3
++#define H2C_INACTIVE_PS_LEN	4
++#ifdef CONFIG_MCC_MODE
++	#define H2C_MCC_INFO_LEN			7
++	#define H2C_MCC_LOCATION_LEN		3
++	#define H2C_MCC_MACID_BITMAP_LEN	6
++	#define H2C_MCC_UPDATE_INFO_LEN		4
++	#define H2C_MCC_NOA_PARAM_LEN		4
++	#define H2C_MCC_IQK_PARAM_LEN		7
++#endif /* CONFIG_MCC_MODE */
++#ifdef CONFIG_LPS_PG
++	#define H2C_LPS_PG_INFO_LEN		2
++	#define H2C_LPSPG_LEN			16
++#endif
++#ifdef CONFIG_LPS_POFF
++	#define H2C_LPS_POFF_CTRL_LEN		1
++	#define H2C_LPS_POFF_PARAM_LEN		5
++#endif
++#define eqMacAddr(a, b)						(((a)[0] == (b)[0] && (a)[1] == (b)[1] && (a)[2] == (b)[2] && (a)[3] == (b)[3] && (a)[4] == (b)[4] && (a)[5] == (b)[5]) ? 1 : 0)
++#define cpMacAddr(des, src)					((des)[0] = (src)[0], (des)[1] = (src)[1], (des)[2] = (src)[2], (des)[3] = (src)[3], (des)[4] = (src)[4], (des)[5] = (src)[5])
++#define cpIpAddr(des, src)					((des)[0] = (src)[0], (des)[1] = (src)[1], (des)[2] = (src)[2], (des)[3] = (src)[3])
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++/*
++* ARP packet
++*
++* LLC Header */
++#define GET_ARP_PKT_LLC_TYPE(__pHeader)					ReadLE2Byte(((u8 *)(__pHeader)) + 6)
++
++/* ARP element */
++#define GET_ARP_PKT_OPERATION(__pHeader)				ReadLE2Byte(((u8 *)(__pHeader)) + 6)
++#define GET_ARP_PKT_SENDER_MAC_ADDR(__pHeader, _val)	cpMacAddr((u8 *)(_val), ((u8 *)(__pHeader))+8)
++#define GET_ARP_PKT_SENDER_IP_ADDR(__pHeader, _val)		cpIpAddr((u8 *)(_val), ((u8 *)(__pHeader))+14)
++#define GET_ARP_PKT_TARGET_MAC_ADDR(__pHeader, _val)	cpMacAddr((u8 *)(_val), ((u8 *)(__pHeader))+18)
++#define GET_ARP_PKT_TARGET_IP_ADDR(__pHeader, _val)	cpIpAddr((u8 *)(_val), ((u8 *)(__pHeader))+24)
++
++#define SET_ARP_PKT_HW(__pHeader, __Value)					WriteLE2Byte(((u8 *)(__pHeader)) + 0, __Value)
++#define SET_ARP_PKT_PROTOCOL(__pHeader, __Value)			WriteLE2Byte(((u8 *)(__pHeader)) + 2, __Value)
++#define SET_ARP_PKT_HW_ADDR_LEN(__pHeader, __Value)			WriteLE1Byte(((u8 *)(__pHeader)) + 4, __Value)
++#define SET_ARP_PKT_PROTOCOL_ADDR_LEN(__pHeader, __Value)	WriteLE1Byte(((u8 *)(__pHeader)) + 5, __Value)
++#define SET_ARP_PKT_OPERATION(__pHeader, __Value)			WriteLE2Byte(((u8 *)(__pHeader)) + 6, __Value)
++#define SET_ARP_PKT_SENDER_MAC_ADDR(__pHeader, _val)	cpMacAddr(((u8 *)(__pHeader))+8, (u8 *)(_val))
++#define SET_ARP_PKT_SENDER_IP_ADDR(__pHeader, _val)		cpIpAddr(((u8 *)(__pHeader))+14, (u8 *)(_val))
++#define SET_ARP_PKT_TARGET_MAC_ADDR(__pHeader, _val)	cpMacAddr(((u8 *)(__pHeader))+18, (u8 *)(_val))
++#define SET_ARP_PKT_TARGET_IP_ADDR(__pHeader, _val)		cpIpAddr(((u8 *)(__pHeader))+24, (u8 *)(_val))
++
++#define FW_WOWLAN_FUN_EN				BIT(0)
++#define FW_WOWLAN_PATTERN_MATCH			BIT(1)
++#define FW_WOWLAN_MAGIC_PKT				BIT(2)
++#define FW_WOWLAN_UNICAST				BIT(3)
++#define FW_WOWLAN_ALL_PKT_DROP			BIT(4)
++#define FW_WOWLAN_GPIO_ACTIVE			BIT(5)
++#define FW_WOWLAN_REKEY_WAKEUP			BIT(6)
++#define FW_WOWLAN_DEAUTH_WAKEUP			BIT(7)
++
++#define FW_WOWLAN_GPIO_WAKEUP_EN		BIT(0)
++#define FW_FW_PARSE_MAGIC_PKT			BIT(1)
++
++#define FW_REMOTE_WAKE_CTRL_EN			BIT(0)
++#define FW_REALWOWLAN_EN				BIT(5)
++
++#define FW_WOWLAN_KEEP_ALIVE_EN			BIT(0)
++#define FW_ADOPT_USER					BIT(1)
++#define FW_WOWLAN_KEEP_ALIVE_PKT_TYPE	BIT(2)
++
++#define FW_REMOTE_WAKE_CTRL_EN			BIT(0)
++#define FW_ARP_EN						BIT(1)
++#define FW_REALWOWLAN_EN				BIT(5)
++#define FW_WOW_FW_UNICAST_EN			BIT(7)
++
++#endif /* CONFIG_WOWLAN */
++
++/* _RSVDPAGE_LOC_CMD_0x00 */
++#define SET_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_H2CCMD_RSVDPAGE_LOC_PSPOLL(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_H2CCMD_RSVDPAGE_LOC_NULL_DATA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_H2CCMD_RSVDPAGE_LOC_BT_QOS_NULL_DATA(__pH2CCmd, __Value)SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++
++/* _MEDIA_STATUS_RPT_PARM_CMD_0x01 */
++#define SET_H2CCMD_MSRRPT_PARM_OPMODE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(((u8 *)(__pH2CCmd)), 0, 1, (__Value))
++#define SET_H2CCMD_MSRRPT_PARM_MACID_IND(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(((u8 *)(__pH2CCmd)), 1, 1, (__Value))
++#define SET_H2CCMD_MSRRPT_PARM_MIRACAST(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(((u8 *)(__pH2CCmd)), 2, 1, (__Value))
++#define SET_H2CCMD_MSRRPT_PARM_MIRACAST_SINK(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(((u8 *)(__pH2CCmd)), 3, 1, (__Value))
++#define SET_H2CCMD_MSRRPT_PARM_ROLE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(((u8 *)(__pH2CCmd)), 4, 4, (__Value))
++#define SET_H2CCMD_MSRRPT_PARM_MACID(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(((u8 *)(__pH2CCmd)) + 1, 0, 8, (__Value))
++#define SET_H2CCMD_MSRRPT_PARM_MACID_END(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(((u8 *)(__pH2CCmd)) + 2, 0, 8, (__Value))
++
++#define GET_H2CCMD_MSRRPT_PARM_OPMODE(__pH2CCmd)		LE_BITS_TO_1BYTE(((u8 *)(__pH2CCmd)), 0, 1)
++#define GET_H2CCMD_MSRRPT_PARM_MIRACAST(__pH2CCmd)		LE_BITS_TO_1BYTE(((u8 *)(__pH2CCmd)), 2, 1)
++#define GET_H2CCMD_MSRRPT_PARM_MIRACAST_SINK(__pH2CCmd)	LE_BITS_TO_1BYTE(((u8 *)(__pH2CCmd)), 3, 1)
++#define GET_H2CCMD_MSRRPT_PARM_ROLE(__pH2CCmd)			LE_BITS_TO_1BYTE(((u8 *)(__pH2CCmd)), 4, 4)
++
++#define H2C_MSR_ROLE_RSVD	0
++#define H2C_MSR_ROLE_STA	1
++#define H2C_MSR_ROLE_AP		2
++#define H2C_MSR_ROLE_GC		3
++#define H2C_MSR_ROLE_GO		4
++#define H2C_MSR_ROLE_TDLS	5
++#define H2C_MSR_ROLE_ADHOC	6
++#define H2C_MSR_ROLE_MAX	7
++
++extern const char *const _h2c_msr_role_str[];
++#define h2c_msr_role_str(role) (((role) >= H2C_MSR_ROLE_MAX) ? _h2c_msr_role_str[H2C_MSR_ROLE_MAX] : _h2c_msr_role_str[(role)])
++
++#define H2C_MSR_FMT "%s %s%s"
++#define H2C_MSR_ARG(h2c_msr) \
++	GET_H2CCMD_MSRRPT_PARM_OPMODE((h2c_msr)) ? " C" : "", \
++	h2c_msr_role_str(GET_H2CCMD_MSRRPT_PARM_ROLE((h2c_msr))), \
++	GET_H2CCMD_MSRRPT_PARM_MIRACAST((h2c_msr)) ? (GET_H2CCMD_MSRRPT_PARM_MIRACAST_SINK((h2c_msr)) ? " MSINK" : " MSRC") : ""
++
++s32 rtw_hal_set_FwMediaStatusRpt_cmd(_adapter *adapter, bool opmode, bool miracast, bool miracast_sink, u8 role, u8 macid, bool macid_ind, u8 macid_end);
++s32 rtw_hal_set_FwMediaStatusRpt_single_cmd(_adapter *adapter, bool opmode, bool miracast, bool miracast_sink, u8 role, u8 macid);
++s32 rtw_hal_set_FwMediaStatusRpt_range_cmd(_adapter *adapter, bool opmode, bool miracast, bool miracast_sink, u8 role, u8 macid, u8 macid_end);
++
++/* _KEEP_ALIVE_CMD_0x03 */
++#define SET_H2CCMD_KEEPALIVE_PARM_ENABLE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_H2CCMD_KEEPALIVE_PARM_ADOPT(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_H2CCMD_KEEPALIVE_PARM_PKT_TYPE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_H2CCMD_KEEPALIVE_PARM_CHECK_PERIOD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++
++/* _DISCONNECT_DECISION_CMD_0x04 */
++#define SET_H2CCMD_DISCONDECISION_PARM_ENABLE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_H2CCMD_DISCONDECISION_PARM_ADOPT(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_H2CCMD_DISCONDECISION_PARM_CHECK_PERIOD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_H2CCMD_DISCONDECISION_PARM_TRY_PKT_NUM(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++
++/* _AP_Offload 0x08 */
++#define SET_H2CCMD_AP_WOWLAN_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++/* _BCN_RsvdPage	0x09 */
++#define SET_H2CCMD_AP_WOWLAN_RSVDPAGE_LOC_BCN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++/* _Probersp_RsvdPage 0x0a */
++#define SET_H2CCMD_AP_WOWLAN_RSVDPAGE_LOC_ProbeRsp(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++/* _Probersp_RsvdPage 0x13 */
++#define SET_H2CCMD_AP_WOW_GPIO_CTRL_INDEX(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 4, __Value)
++#define SET_H2CCMD_AP_WOW_GPIO_CTRL_C2H_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 1, __Value)
++#define SET_H2CCMD_AP_WOW_GPIO_CTRL_PLUS(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 5, 1, __Value)
++#define SET_H2CCMD_AP_WOW_GPIO_CTRL_HIGH_ACTIVE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 6, 1, __Value)
++#define SET_H2CCMD_AP_WOW_GPIO_CTRL_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 7, 1, __Value)
++#define SET_H2CCMD_AP_WOW_GPIO_CTRL_DURATION(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_H2CCMD_AP_WOW_GPIO_CTRL_C2H_DURATION(__pH2CCmd, __Value)SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++/* _AP_PS 0x26 */
++#define SET_H2CCMD_AP_WOW_PS_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_H2CCMD_AP_WOW_PS_32K_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_H2CCMD_AP_WOW_PS_RF(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_H2CCMD_AP_WOW_PS_DURATION(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++
++/* INACTIVE_PS 0x27, duration unit is TBTT */
++#define SET_H2CCMD_INACTIVE_PS_EN(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_H2CCMD_INACTIVE_PS_IGNORE_PS(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_H2CCMD_INACTIVE_PS_PERIOD_SCAN_EN(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_H2CCMD_INACTIVE_PS_FREQ(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd + 1, 0, 8, __Value)
++#define SET_H2CCMD_INACTIVE_PS_DURATION(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd + 2, 0, 8, __Value)
++#define SET_H2CCMD_INACTIVE_PS_PERIOD_SCAN_TIME(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd + 3, 0, 8, __Value)
++
++#ifdef CONFIG_LPS_POFF
++/*PARTIAL OFF Control 0x29*/
++#define SET_H2CCMD_LPS_POFF_CTRL_EN(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++/*PARTIAL OFF PARAM   0x2A*/
++#define SET_H2CCMD_LPS_POFF_PARAM_RDVLD(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_H2CCMD_LPS_POFF_PARAM_WRVLD(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_H2CCMD_LPS_POFF_PARAM_STARTADDL(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_H2CCMD_LPS_POFF_PARAM_STARTADDH(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++#define SET_H2CCMD_LPS_POFF_PARAM_ENDADDL(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++#define SET_H2CCMD_LPS_POFF_PARAM_ENDADDH(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd+4, 0, 8, __Value)
++#endif
++
++#ifdef CONFIG_MCC_MODE
++/* MCC LOC CMD 0x10 */
++#define SET_H2CCMD_MCC_RSVDPAGE_LOC(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++
++/* MCC MAC ID CMD 0x16 */
++#define SET_H2CCMD_MCC_MACID_BITMAP_L(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_H2CCMD_MCC_MACID_BITMAP_H(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++
++/* MCC INFO CMD 0x18 */
++#define SET_H2CCMD_MCC_INFO_ORDER(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 4, __Value)
++#define SET_H2CCMD_MCC_INFO_TOTALNUM(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 4, __Value)
++#define SET_H2CCMD_MCC_INFO_CHIDX(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_H2CCMD_MCC_INFO_BW(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 2, __Value)
++#define SET_H2CCMD_MCC_INFO_BW40SC(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 2, 3, __Value)
++#define SET_H2CCMD_MCC_INFO_BW80SC(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 5, 3, __Value)
++#define SET_H2CCMD_MCC_INFO_DURATION(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_H2CCMD_MCC_INFO_ROLE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 3, __Value)
++#define SET_H2CCMD_MCC_INFO_INCURCH(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 3, 1, __Value)
++#define SET_H2CCMD_MCC_INFO_RSVD0(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 4, 4, __Value)
++#define SET_H2CCMD_MCC_INFO_RSVD1(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++#define SET_H2CCMD_MCC_INFO_RFETYPE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+6, 0, 4, __Value)
++#define SET_H2CCMD_MCC_INFO_DISTXNULL(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+6, 4, 1, __Value)
++#define SET_H2CCMD_MCC_INFO_C2HRPT(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+6, 5, 2, __Value)
++#define SET_H2CCMD_MCC_INFO_CHSCAN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+6, 7, 1, __Value)
++
++/* MCC NoA CMD 0x19 */
++#define SET_H2CCMD_MCC_NOA_FW_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_H2CCMD_MCC_NOA_TSF_SYNC_OFFSET(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 7, __Value)
++#define SET_H2CCMD_MCC_NOA_START_TIME(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_H2CCMD_MCC_NOA_INTERVAL(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_H2CCMD_MCC_EARLY_TIME(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++
++/* MCC IQK CMD 0x1A */
++#define SET_H2CCMD_MCC_IQK_READY(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_H2CCMD_MCC_IQK_ORDER(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 2, __Value)
++#define SET_H2CCMD_MCC_IQK_RX_L(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_H2CCMD_MCC_IQK_RX_M1(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 2, __Value)
++#define SET_H2CCMD_MCC_IQK_RX_M2(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 2, 6, __Value)
++#define SET_H2CCMD_MCC_IQK_RX_H(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 4, __Value)
++#define SET_H2CCMD_MCC_IQK_TX_L(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_H2CCMD_MCC_IQK_TX_M1(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 3, __Value)
++#define SET_H2CCMD_MCC_IQK_TX_M2(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 3, 5, __Value)
++#define SET_H2CCMD_MCC_IQK_TX_H(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+6, 0, 6, __Value)
++#endif /* CONFIG_MCC_MODE */
++
++/* CHNL SWITCH OPER OFFLOAD 0x1C */
++#define SET_H2CCMD_CH_SW_OPER_OFFLOAD_CH_NUM(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_H2CCMD_CH_SW_OPER_OFFLOAD_BW_MODE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd) + 1, 0, 2, __Value)
++#define SET_H2CCMD_CH_SW_OPER_OFFLOAD_BW_40M_SC(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd) + 1, 2, 3, __Value)
++#define SET_H2CCMD_CH_SW_OPER_OFFLOAD_BW_80M_SC(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd) + 1, 5, 3, __Value)
++#define SET_H2CCMD_CH_SW_OPER_OFFLOAD_RFE_TYPE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd) + 2, 0, 4, __Value)
++
++/* _WoWLAN PARAM_CMD_0x80 */
++#define SET_H2CCMD_WOWLAN_FUNC_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_H2CCMD_WOWLAN_PATTERN_MATCH_ENABLE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_H2CCMD_WOWLAN_MAGIC_PKT_ENABLE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_H2CCMD_WOWLAN_UNICAST_PKT_ENABLE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 3, 1, __Value)
++#define SET_H2CCMD_WOWLAN_ALL_PKT_DROP(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 1, __Value)
++#define SET_H2CCMD_WOWLAN_GPIO_ACTIVE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 5, 1, __Value)
++#define SET_H2CCMD_WOWLAN_REKEY_WAKE_UP(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 6, 1, __Value)
++#define SET_H2CCMD_WOWLAN_DISCONNECT_WAKE_UP(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 7, 1, __Value)
++#define SET_H2CCMD_WOWLAN_GPIONUM(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 7, __Value)
++#define SET_H2CCMD_WOWLAN_DATAPIN_WAKE_UP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 7, 1, __Value)
++#define SET_H2CCMD_WOWLAN_GPIO_DURATION(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_H2CCMD_WOWLAN_GPIO_PULSE_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 1, __Value)
++#define SET_H2CCMD_WOWLAN_GPIO_PULSE_COUNT(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 1, 7, __Value)
++#define SET_H2CCMD_WOWLAN_LOWPR_RX(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 1, __Value)
++#define SET_H2CCMD_WOWLAN_CHANGE_UNIT(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 2, 1, __Value)
++/* _REMOTE_WAKEUP_CMD_0x81 */
++#define SET_H2CCMD_REMOTE_WAKECTRL_ENABLE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_H2CCMD_REMOTE_WAKE_CTRL_ARP_OFFLOAD_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_H2CCMD_REMOTE_WAKE_CTRL_NDP_OFFLOAD_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_H2CCMD_REMOTE_WAKE_CTRL_GTK_OFFLOAD_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 3, 1, __Value)
++#define SET_H2CCMD_REMOTE_WAKE_CTRL_NLO_OFFLOAD_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 1, __Value)
++#define SET_H2CCMD_REMOTE_WAKE_CTRL_FW_UNICAST_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 7, 1, __Value)
++#define SET_H2CCMD_REMOTE_WAKE_CTRL_P2P_OFFLAD_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 1, __Value)
++#define SET_H2CCMD_REMOTE_WAKE_CTRL_NBNS_FILTER_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 2, 1, __Value)
++#define SET_H2CCMD_REMOTE_WAKE_CTRL_ARP_ACTION(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 1, __Value)
++#define SET_H2CCMD_REMOTE_WAKE_CTRL_FW_PARSING_UNTIL_WAKEUP(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 4, 1, __Value)
++
++/* AOAC_GLOBAL_INFO_0x82 */
++#define SET_H2CCMD_AOAC_GLOBAL_INFO_PAIRWISE_ENC_ALG(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_H2CCMD_AOAC_GLOBAL_INFO_GROUP_ENC_ALG(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++
++/* AOAC_RSVDPAGE_LOC_0x83 */
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_REMOTE_WAKE_CTRL_INFO(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd), 0, 8, __Value)
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_ARP_RSP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_NEIGHBOR_ADV(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_GTK_RSP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_GTK_INFO(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#ifdef CONFIG_GTK_OL
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_GTK_EXT_MEM(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++#endif /* CONFIG_GTK_OL */
++#ifdef CONFIG_PNO_SUPPORT
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_NLO_INFO(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd), 0, 8, __Value)
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++/* D0_Scan_Offload_Info_0x86 */
++#define SET_H2CCMD_AOAC_NLO_FUN_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd), 3, 1, __Value)
++#define SET_H2CCMD_AOAC_NLO_IPS_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd), 4, 1, __Value)
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_PROBE_PACKET(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_SCAN_INFO(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_SSID_INFO(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#endif /* CONFIG_PNO_SUPPORT */
++
++#ifdef CONFIG_P2P_WOWLAN
++/* P2P_RsvdPage_0x8a */
++#define SET_H2CCMD_RSVDPAGE_LOC_P2P_BCN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_H2CCMD_RSVDPAGE_LOC_P2P_PROBE_RSP(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_H2CCMD_RSVDPAGE_LOC_P2P_NEGO_RSP(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_H2CCMD_RSVDPAGE_LOC_P2P_INVITE_RSP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_H2CCMD_RSVDPAGE_LOC_P2P_PD_RSP(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#endif /* CONFIG_P2P_WOWLAN */
++
++#ifdef CONFIG_LPS_PG
++#define SET_H2CCMD_LPSPG_SEC_CAM_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)/*SecurityCAM_En*/
++#define SET_H2CCMD_LPSPG_MBID_CAM_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)/*BSSIDCAM_En*/
++#define SET_H2CCMD_LPSPG_PMC_CAM_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)/*PatternMatchCAM_En*/
++#define SET_H2CCMD_LPSPG_MACID_SEARCH_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 3, 1, __Value)/*MACIDSearch_En*/
++#define SET_H2CCMD_LPSPG_TXSC_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 1, __Value)/*TXSC_En*/
++#define SET_H2CCMD_LPSPG_MU_RATE_TB_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 5, 1, __Value)/*MURateTable_En*/
++#define SET_H2CCMD_LPSPG_LOC(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)/*Loc_LPS_PG*/
++#endif
++
++/* ---------------------------------------------------------------------------------------------------------
++ * -------------------------------------------    Structure    --------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++typedef struct _RSVDPAGE_LOC {
++	u8 LocProbeRsp;
++	u8 LocPsPoll;
++	u8 LocNullData;
++	u8 LocQosNull;
++	u8 LocBTQosNull;
++#ifdef CONFIG_WOWLAN
++	u8 LocRemoteCtrlInfo;
++	u8 LocArpRsp;
++	u8 LocNbrAdv;
++	u8 LocGTKRsp;
++	u8 LocGTKInfo;
++	u8 LocProbeReq;
++	u8 LocNetList;
++#ifdef CONFIG_GTK_OL
++	u8 LocGTKEXTMEM;
++#endif /* CONFIG_GTK_OL */
++#ifdef CONFIG_PNO_SUPPORT
++	u8 LocPNOInfo;
++	u8 LocScanInfo;
++	u8 LocSSIDInfo;
++	u8 LocProbePacket;
++#endif /* CONFIG_PNO_SUPPORT */
++#endif /* CONFIG_WOWLAN	 */
++	u8 LocApOffloadBCN;
++#ifdef CONFIG_P2P_WOWLAN
++	u8 LocP2PBeacon;
++	u8 LocP2PProbeRsp;
++	u8 LocNegoRsp;
++	u8 LocInviteRsp;
++	u8 LocPDRsp;
++#endif /* CONFIG_P2P_WOWLAN */
++} RSVDPAGE_LOC, *PRSVDPAGE_LOC;
++
++#endif
++void dump_TX_FIFO(PADAPTER padapter, u8 page_num, u16 page_size);
++u8 rtw_hal_set_fw_media_status_cmd(_adapter *adapter, u8 mstatus, u8 macid);
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	/* WOW command function */
++	void rtw_hal_set_fw_wow_related_cmd(_adapter *padapter, u8 enable);
++	#ifdef CONFIG_P2P_WOWLAN
++		/* H2C 0x8A */
++		u8 rtw_hal_set_FwP2PRsvdPage_cmd(_adapter *adapter, PRSVDPAGE_LOC rsvdpageloc);
++		/* H2C 0x8B */
++		u8 rtw_hal_set_p2p_wowlan_offload_cmd(_adapter *adapter);
++	#endif /* CONFIG_P2P_WOWLAN */
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/hal_com_led.h b/drivers/net/wireless/rtl8723du/include/hal_com_led.h
+new file mode 100644
+index 0000000..01dbb9c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/hal_com_led.h
+@@ -0,0 +1,396 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_COMMON_LED_H_
++#define __HAL_COMMON_LED_H_
++
++
++#define MSECS(t)        (HZ * ((t) / 1000) + (HZ * ((t) % 1000)) / 1000)
++
++/* ********************************************************************************
++ *	LED Behavior Constant.
++ * ********************************************************************************
++ * Default LED behavior.
++ *   */
++#define LED_BLINK_NORMAL_INTERVAL	100
++#define LED_BLINK_SLOWLY_INTERVAL	200
++#define LED_BLINK_LONG_INTERVAL	400
++#define LED_INITIAL_INTERVAL		1800
++
++/* LED Customerization */
++
++/* NETTRONIX */
++#define LED_BLINK_NORMAL_INTERVAL_NETTRONIX	100
++#define LED_BLINK_SLOWLY_INTERVAL_NETTRONIX	2000
++
++/* PORNET */
++#define LED_BLINK_SLOWLY_INTERVAL_PORNET	1000
++#define LED_BLINK_NORMAL_INTERVAL_PORNET	100
++#define LED_BLINK_FAST_INTERVAL_BITLAND		30
++
++/* AzWave. */
++#define LED_CM2_BLINK_ON_INTERVAL		250
++#define LED_CM2_BLINK_OFF_INTERVAL		4750
++#define LED_CM8_BLINK_OFF_INTERVAL		3750	/* for QMI */
++
++/* RunTop */
++#define LED_RunTop_BLINK_INTERVAL		300
++
++/* ALPHA */
++#define LED_BLINK_NO_LINK_INTERVAL_ALPHA	1000
++#define LED_BLINK_NO_LINK_INTERVAL_ALPHA_500MS 500 /* add by ylb 20121012 for customer led for alpha */
++#define LED_BLINK_LINK_INTERVAL_ALPHA		500	/* 500 */
++#define LED_BLINK_SCAN_INTERVAL_ALPHA		180	/* 150 */
++#define LED_BLINK_FASTER_INTERVAL_ALPHA		50
++#define LED_BLINK_WPS_SUCESS_INTERVAL_ALPHA	5000
++
++/* 111122 by hpfan: Customized for Xavi */
++#define LED_CM11_BLINK_INTERVAL			300
++#define LED_CM11_LINK_ON_INTERVEL		3000
++
++/* Netgear */
++#define LED_BLINK_LINK_INTERVAL_NETGEAR		500
++#define LED_BLINK_LINK_SLOWLY_INTERVAL_NETGEAR		1000
++
++#define LED_WPS_BLINK_OFF_INTERVAL_NETGEAR		100
++#define LED_WPS_BLINK_ON_INTERVAL_NETGEAR		500
++
++/* Belkin AC950 */
++#define LED_BLINK_LINK_INTERVAL_ON_BELKIN		200
++#define LED_BLINK_LINK_INTERVAL_OFF_BELKIN		100
++#define LED_BLINK_ERROR_INTERVAL_BELKIN		100
++
++/* by chiyokolin for Azurewave */
++#define LED_CM12_BLINK_INTERVAL_5Mbps		160
++#define LED_CM12_BLINK_INTERVAL_10Mbps		80
++#define LED_CM12_BLINK_INTERVAL_20Mbps		50
++#define LED_CM12_BLINK_INTERVAL_40Mbps		40
++#define LED_CM12_BLINK_INTERVAL_80Mbps		30
++#define LED_CM12_BLINK_INTERVAL_MAXMbps		25
++
++/* Dlink */
++#define	LED_BLINK_NO_LINK_INTERVAL		1000
++#define	LED_BLINK_LINK_IDEL_INTERVAL		100
++
++#define	LED_BLINK_SCAN_ON_INTERVAL		30
++#define	LED_BLINK_SCAN_OFF_INTERVAL		300
++
++#define LED_WPS_BLINK_ON_INTERVAL_DLINK		30
++#define LED_WPS_BLINK_OFF_INTERVAL_DLINK			300
++#define LED_WPS_BLINK_LINKED_ON_INTERVAL_DLINK			5000
++
++/* ********************************************************************************
++ * LED object.
++ * ******************************************************************************** */
++
++typedef enum _LED_CTL_MODE {
++	LED_CTL_POWER_ON = 1,
++	LED_CTL_LINK = 2,
++	LED_CTL_NO_LINK = 3,
++	LED_CTL_TX = 4,
++	LED_CTL_RX = 5,
++	LED_CTL_SITE_SURVEY = 6,
++	LED_CTL_POWER_OFF = 7,
++	LED_CTL_START_TO_LINK = 8,
++	LED_CTL_START_WPS = 9,
++	LED_CTL_STOP_WPS = 10,
++	LED_CTL_START_WPS_BOTTON = 11, /* added for runtop */
++	LED_CTL_STOP_WPS_FAIL = 12, /* added for ALPHA	 */
++	LED_CTL_STOP_WPS_FAIL_OVERLAP = 13, /* added for BELKIN */
++	LED_CTL_CONNECTION_NO_TRANSFER = 14,
++} LED_CTL_MODE;
++
++typedef	enum _LED_STATE {
++	LED_UNKNOWN = 0,
++	RTW_LED_ON = 1,
++	RTW_LED_OFF = 2,
++	LED_BLINK_NORMAL = 3,
++	LED_BLINK_SLOWLY = 4,
++	LED_BLINK_POWER_ON = 5,
++	LED_BLINK_SCAN = 6,	/* LED is blinking during scanning period, the # of times to blink is depend on time for scanning. */
++	LED_BLINK_NO_LINK = 7, /* LED is blinking during no link state. */
++	LED_BLINK_StartToBlink = 8, /* Customzied for Sercomm Printer Server case */
++	LED_BLINK_TXRX = 9,
++	LED_BLINK_WPS = 10,	/* LED is blinkg during WPS communication */
++	LED_BLINK_WPS_STOP = 11,	/* for ALPHA */
++	LED_BLINK_WPS_STOP_OVERLAP = 12,	/* for BELKIN */
++	LED_BLINK_RUNTOP = 13,	/* Customized for RunTop */
++	LED_BLINK_CAMEO = 14,
++	LED_BLINK_XAVI = 15,
++	LED_BLINK_ALWAYS_ON = 16,
++	LED_BLINK_LINK_IN_PROCESS = 17,  /* Customized for Belkin AC950 */
++	LED_BLINK_AUTH_ERROR = 18,  /* Customized for Belkin AC950 */
++	LED_BLINK_Azurewave_5Mbps = 19,
++	LED_BLINK_Azurewave_10Mbps = 20,
++	LED_BLINK_Azurewave_20Mbps = 21,
++	LED_BLINK_Azurewave_40Mbps = 22,
++	LED_BLINK_Azurewave_80Mbps = 23,
++	LED_BLINK_Azurewave_MAXMbps = 24,
++	LED_BLINK_LINK_IDEL = 25,
++	LED_BLINK_WPS_LINKED = 26,
++} LED_STATE;
++
++typedef enum _LED_PIN {
++	LED_PIN_GPIO0,
++	LED_PIN_LED0,
++	LED_PIN_LED1,
++	LED_PIN_LED2
++} LED_PIN;
++
++
++/* ********************************************************************************
++ * PCIE LED Definition.
++ * ******************************************************************************** */
++#ifdef CONFIG_PCI_HCI
++typedef	enum _LED_STRATEGY_PCIE {
++	SW_LED_MODE0, /* SW control 1 LED via GPIO0. It is default option. */
++	SW_LED_MODE1, /* SW control for PCI Express */
++	SW_LED_MODE2, /* SW control for Cameo. */
++	SW_LED_MODE3, /* SW contorl for RunTop. */
++	SW_LED_MODE4, /* SW control for Netcore */
++	SW_LED_MODE5, /* added by vivi, for led new mode, DLINK */
++	SW_LED_MODE6, /* added by vivi, for led new mode, PRONET */
++	SW_LED_MODE7, /* added by chiyokolin, for Lenovo, PCI Express Minicard Spec Rev.1.2 spec */
++	SW_LED_MODE8, /* added by chiyokolin, for QMI */
++	SW_LED_MODE9, /* added by chiyokolin, for BITLAND-LENOVO, PCI Express Minicard Spec Rev.1.1	 */
++	SW_LED_MODE10, /* added by chiyokolin, for Edimax-ASUS */
++	SW_LED_MODE11,	/* added by hpfan, for Xavi */
++	SW_LED_MODE12,	/* added by chiyokolin, for Azurewave */
++	HW_LED, /* HW control 2 LEDs, LED0 and LED1 (there are 4 different control modes) */
++} LED_STRATEGY_PCIE, *PLED_STRATEGY_PCIE;
++
++typedef struct _LED_PCIE {
++	PADAPTER		padapter;
++
++	LED_PIN			LedPin;	/* Identify how to implement this SW led. */
++
++	LED_STATE		CurrLedState; /* Current LED state. */
++	BOOLEAN			bLedOn; /* TRUE if LED is ON, FALSE if LED is OFF. */
++
++	BOOLEAN			bLedBlinkInProgress; /* TRUE if it is blinking, FALSE o.w.. */
++	BOOLEAN			bLedWPSBlinkInProgress; /* TRUE if it is blinking, FALSE o.w.. */
++
++	BOOLEAN			bLedSlowBlinkInProgress;/* added by vivi, for led new mode */
++	u32				BlinkTimes; /* Number of times to toggle led state for blinking. */
++	LED_STATE		BlinkingLedState; /* Next state for blinking, either LED_ON or LED_OFF are. */
++
++	_timer			BlinkTimer; /* Timer object for led blinking. */
++} LED_PCIE, *PLED_PCIE;
++
++typedef struct _LED_PCIE	LED_DATA, *PLED_DATA;
++typedef enum _LED_STRATEGY_PCIE	LED_STRATEGY, *PLED_STRATEGY;
++
++VOID
++LedControlPCIE(
++	IN	PADAPTER		Adapter,
++	IN	LED_CTL_MODE		LedAction
++);
++
++VOID
++gen_RefreshLedState(
++	IN	PADAPTER		Adapter);
++
++/* ********************************************************************************
++ * USB  LED Definition.
++ * ******************************************************************************** */
++#elif defined(CONFIG_USB_HCI)
++
++#define IS_LED_WPS_BLINKING(_LED_USB)	(((PLED_USB)_LED_USB)->CurrLedState == LED_BLINK_WPS \
++		|| ((PLED_USB)_LED_USB)->CurrLedState == LED_BLINK_WPS_STOP \
++		|| ((PLED_USB)_LED_USB)->bLedWPSBlinkInProgress)
++
++#define IS_LED_BLINKING(_LED_USB)	(((PLED_USB)_LED_USB)->bLedWPSBlinkInProgress \
++		|| ((PLED_USB)_LED_USB)->bLedScanBlinkInProgress)
++
++
++typedef	enum _LED_STRATEGY_USB {
++	SW_LED_MODE0, /* SW control 1 LED via GPIO0. It is default option. */
++	SW_LED_MODE1, /* 2 LEDs, through LED0 and LED1. For ALPHA. */
++	SW_LED_MODE2, /* SW control 1 LED via GPIO0, customized for AzWave 8187 minicard. */
++	SW_LED_MODE3, /* SW control 1 LED via GPIO0, customized for Sercomm Printer Server case. */
++	SW_LED_MODE4, /* for Edimax / Belkin */
++	SW_LED_MODE5, /* for Sercomm / Belkin	 */
++	SW_LED_MODE6,	/* for 88CU minicard, porting from ce SW_LED_MODE7 */
++	SW_LED_MODE7,	/* for Netgear special requirement */
++	SW_LED_MODE8, /* for LC */
++	SW_LED_MODE9, /* for Belkin AC950 */
++	SW_LED_MODE10, /* for Netgear A6200V2 */
++	SW_LED_MODE11, /* for Edimax / ASUS */
++	SW_LED_MODE12, /* for WNC/NEC */
++	SW_LED_MODE13, /* for Netgear A6100, 8811Au */
++	SW_LED_MODE14, /* for Buffalo, DNI, 8811Au */
++	SW_LED_MODE15, /* for DLINK,  8811Au/8812AU	 */
++	HW_LED, /* HW control 2 LEDs, LED0 and LED1 (there are 4 different control modes, see MAC.CONFIG1 for details.) */
++} LED_STRATEGY_USB, *PLED_STRATEGY_USB;
++
++
++typedef struct _LED_USB {
++	PADAPTER			padapter;
++
++	LED_PIN				LedPin;	/* Identify how to implement this SW led. */
++
++	LED_STATE			CurrLedState; /* Current LED state. */
++	BOOLEAN				bLedOn; /* TRUE if LED is ON, FALSE if LED is OFF. */
++
++	BOOLEAN				bSWLedCtrl;
++
++	BOOLEAN				bLedBlinkInProgress; /* TRUE if it is blinking, FALSE o.w.. */
++	/* ALPHA, added by chiyoko, 20090106 */
++	BOOLEAN				bLedNoLinkBlinkInProgress;
++	BOOLEAN				bLedLinkBlinkInProgress;
++	BOOLEAN				bLedStartToLinkBlinkInProgress;
++	BOOLEAN				bLedScanBlinkInProgress;
++	BOOLEAN				bLedWPSBlinkInProgress;
++
++	u32					BlinkTimes; /* Number of times to toggle led state for blinking. */
++	u8					BlinkCounter; /* Added for turn off overlap led after blinking a while, by page, 20120821 */
++	LED_STATE			BlinkingLedState; /* Next state for blinking, either LED_ON or LED_OFF are. */
++
++	_timer				BlinkTimer; /* Timer object for led blinking. */
++
++	_workitem			BlinkWorkItem; /* Workitem used by BlinkTimer to manipulate H/W to blink LED.' */
++} LED_USB, *PLED_USB;
++
++typedef struct _LED_USB	LED_DATA, *PLED_DATA;
++typedef enum _LED_STRATEGY_USB	LED_STRATEGY, *PLED_STRATEGY;
++
++VOID
++LedControlUSB(
++	IN	PADAPTER		Adapter,
++	IN	LED_CTL_MODE		LedAction
++);
++
++
++/* ********************************************************************************
++ * SDIO LED Definition.
++ * ******************************************************************************** */
++#elif defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++
++#define IS_LED_WPS_BLINKING(_LED_SDIO)	(((PLED_SDIO)_LED_SDIO)->CurrLedState == LED_BLINK_WPS \
++		|| ((PLED_SDIO)_LED_SDIO)->CurrLedState == LED_BLINK_WPS_STOP \
++		|| ((PLED_SDIO)_LED_SDIO)->bLedWPSBlinkInProgress)
++
++#define IS_LED_BLINKING(_LED_SDIO)	(((PLED_SDIO)_LED_SDIO)->bLedWPSBlinkInProgress \
++		|| ((PLED_SDIO)_LED_SDIO)->bLedScanBlinkInProgress)
++
++
++typedef	enum _LED_STRATEGY_SDIO {
++	SW_LED_MODE0, /* SW control 1 LED via GPIO0. It is default option. */
++	SW_LED_MODE1, /* 2 LEDs, through LED0 and LED1. For ALPHA. */
++	SW_LED_MODE2, /* SW control 1 LED via GPIO0, customized for AzWave 8187 minicard. */
++	SW_LED_MODE3, /* SW control 1 LED via GPIO0, customized for Sercomm Printer Server case. */
++	SW_LED_MODE4, /* for Edimax / Belkin */
++	SW_LED_MODE5, /* for Sercomm / Belkin	 */
++	SW_LED_MODE6,	/* for 88CU minicard, porting from ce SW_LED_MODE7 */
++	HW_LED, /* HW control 2 LEDs, LED0 and LED1 (there are 4 different control modes, see MAC.CONFIG1 for details.) */
++} LED_STRATEGY_SDIO, *PLED_STRATEGY_SDIO;
++
++typedef struct _LED_SDIO {
++	PADAPTER			padapter;
++
++	LED_PIN				LedPin;	/* Identify how to implement this SW led. */
++
++	LED_STATE			CurrLedState; /* Current LED state. */
++	BOOLEAN				bLedOn; /* TRUE if LED is ON, FALSE if LED is OFF. */
++
++	BOOLEAN				bSWLedCtrl;
++
++	BOOLEAN				bLedBlinkInProgress; /* TRUE if it is blinking, FALSE o.w.. */
++	/* ALPHA, added by chiyoko, 20090106 */
++	BOOLEAN				bLedNoLinkBlinkInProgress;
++	BOOLEAN				bLedLinkBlinkInProgress;
++	BOOLEAN				bLedStartToLinkBlinkInProgress;
++	BOOLEAN				bLedScanBlinkInProgress;
++	BOOLEAN				bLedWPSBlinkInProgress;
++
++	u32					BlinkTimes; /* Number of times to toggle led state for blinking. */
++	LED_STATE			BlinkingLedState; /* Next state for blinking, either LED_ON or LED_OFF are. */
++
++	_timer				BlinkTimer; /* Timer object for led blinking. */
++
++	_workitem			BlinkWorkItem; /* Workitem used by BlinkTimer to manipulate H/W to blink LED. */
++} LED_SDIO, *PLED_SDIO;
++
++typedef struct _LED_SDIO	LED_DATA, *PLED_DATA;
++typedef enum _LED_STRATEGY_SDIO	LED_STRATEGY, *PLED_STRATEGY;
++
++VOID
++LedControlSDIO(
++	IN	PADAPTER		Adapter,
++	IN	LED_CTL_MODE		LedAction
++);
++
++#endif
++
++struct led_priv {
++	/* add for led controll */
++	LED_DATA			SwLed0;
++	LED_DATA			SwLed1;
++	LED_DATA			SwLed2;
++	LED_STRATEGY		LedStrategy;
++	u8					bRegUseLed;
++	void (*LedControlHandler)(_adapter *padapter, LED_CTL_MODE LedAction);
++	void (*SwLedOn)(_adapter *padapter, PLED_DATA pLed);
++	void (*SwLedOff)(_adapter *padapter, PLED_DATA pLed);
++	/* add for led controll */
++};
++
++#ifdef CONFIG_SW_LED
++#define rtw_led_control(adapter, LedAction) \
++	do { \
++		if ((adapter)->ledpriv.LedControlHandler) \
++			(adapter)->ledpriv.LedControlHandler((adapter), (LedAction)); \
++	} while (0)
++#else /* CONFIG_SW_LED */
++#define rtw_led_control(adapter, LedAction)
++#endif /* CONFIG_SW_LED */
++
++#define SwLedOn(adapter, pLed) \
++	do { \
++		if ((adapter)->ledpriv.SwLedOn) \
++			(adapter)->ledpriv.SwLedOn((adapter), (pLed)); \
++	} while (0)
++
++#define SwLedOff(adapter, pLed) \
++	do { \
++		if ((adapter)->ledpriv.SwLedOff) \
++			(adapter)->ledpriv.SwLedOff((adapter), (pLed)); \
++	} while (0)
++
++void BlinkTimerCallback(void *data);
++void BlinkWorkItemCallback(_workitem *work);
++
++void ResetLedStatus(PLED_DATA pLed);
++
++void
++InitLed(
++	_adapter			*padapter,
++	PLED_DATA		pLed,
++	LED_PIN			LedPin
++);
++
++void
++DeInitLed(
++	PLED_DATA		pLed
++);
++
++/* hal... */
++extern void BlinkHandler(PLED_DATA	pLed);
++
++#endif /* __RTW_LED_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/hal_com_phycfg.h b/drivers/net/wireless/rtl8723du/include/hal_com_phycfg.h
+new file mode 100644
+index 0000000..1443e99
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/hal_com_phycfg.h
+@@ -0,0 +1,357 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_COM_PHYCFG_H__
++#define __HAL_COM_PHYCFG_H__
++
++#define		PathA                     			0x0	/* Useless */
++#define		PathB			0x1
++#define		PathC			0x2
++#define		PathD			0x3
++
++typedef enum _RF_TX_NUM {
++	RF_1TX = 0,
++	RF_2TX,
++	RF_3TX,
++	RF_4TX,
++	RF_MAX_TX_NUM,
++	RF_TX_NUM_NONIMPLEMENT,
++} RF_TX_NUM;
++
++#define MAX_POWER_INDEX		0x3F
++
++typedef enum _REGULATION_TXPWR_LMT {
++	TXPWR_LMT_FCC = 0,
++	TXPWR_LMT_MKK = 1,
++	TXPWR_LMT_ETSI = 2,
++	TXPWR_LMT_WW = 3,
++
++	TXPWR_LMT_MAX_REGULATION_NUM = 4
++} REGULATION_TXPWR_LMT;
++
++#define TX_PWR_LMT_REF_VHT_FROM_HT	BIT0
++#define TX_PWR_LMT_REF_HT_FROM_VHT	BIT1
++
++/*------------------------------Define structure----------------------------*/
++typedef struct _BB_REGISTER_DEFINITION {
++	u32 rfintfs;			/* set software control: */
++	/*		0x870~0x877[8 bytes] */
++
++	u32 rfintfo; 			/* output data: */
++	/*		0x860~0x86f [16 bytes] */
++
++	u32 rfintfe; 			/* output enable: */
++	/*		0x860~0x86f [16 bytes] */
++
++	u32 rf3wireOffset;	/* LSSI data: */
++	/*		0x840~0x84f [16 bytes] */
++
++	u32 rfHSSIPara2;	/* wire parameter control2 :  */
++	/*		0x824~0x827,0x82c~0x82f, 0x834~0x837, 0x83c~0x83f [16 bytes] */
++
++	u32 rfLSSIReadBack;	/* LSSI RF readback data SI mode */
++	/*		0x8a0~0x8af [16 bytes] */
++
++	u32 rfLSSIReadBackPi;	/* LSSI RF readback data PI mode 0x8b8-8bc for Path A and B */
++
++} BB_REGISTER_DEFINITION_T, *PBB_REGISTER_DEFINITION_T;
++
++
++/* ---------------------------------------------------------------------- */
++u8
++PHY_GetTxPowerByRateBase(
++	IN	PADAPTER		Adapter,
++	IN	u8				Band,
++	IN	u8				RfPath,
++	IN	u8				TxNum,
++	IN	RATE_SECTION	RateSection
++);
++
++#ifdef TX_POWER_BY_RATE_OLD
++u8
++PHY_GetRateSectionIndexOfTxPowerByRate(
++	IN	PADAPTER	pAdapter,
++	IN	u32			RegAddr,
++	IN	u32			BitMask
++);
++#endif /* TX_POWER_BY_RATE_OLD */
++
++VOID
++PHY_GetRateValuesOfTxPowerByRate(
++	IN	PADAPTER pAdapter,
++	IN	u32 RegAddr,
++	IN	u32 BitMask,
++	IN	u32 Value,
++	OUT	u8 *Rate,
++	OUT	s8 *PwrByRateVal,
++	OUT	u8 *RateNum
++);
++
++u8
++PHY_GetRateIndexOfTxPowerByRate(
++	IN	u8	Rate
++);
++
++VOID
++PHY_SetTxPowerIndexByRateSection(
++	IN	PADAPTER		pAdapter,
++	IN	u8				RFPath,
++	IN	u8				Channel,
++	IN	u8				RateSection
++);
++
++s8
++_PHY_GetTxPowerByRate(
++	IN	PADAPTER	pAdapter,
++	IN	u8			Band,
++	IN	u8			RFPath,
++	IN	u8			TxNum,
++	IN	u8			RateIndex
++);
++
++s8
++PHY_GetTxPowerByRate(
++	IN	PADAPTER	pAdapter,
++	IN	u8			Band,
++	IN	u8			RFPath,
++	IN	u8			TxNum,
++	IN	u8			RateIndex
++);
++
++#ifdef CONFIG_PHYDM_POWERTRACK_BY_TSSI
++s8
++PHY_GetTxPowerByRateOriginal(
++	IN	PADAPTER	pAdapter,
++	IN	u8			Band,
++	IN	u8			RFPath,
++	IN	u8			TxNum,
++	IN	u8			Rate
++);
++#endif
++
++VOID
++PHY_SetTxPowerByRate(
++	IN	PADAPTER	pAdapter,
++	IN	u8			Band,
++	IN	u8			RFPath,
++	IN	u8			TxNum,
++	IN	u8			Rate,
++	IN	s8			Value
++);
++
++VOID
++PHY_SetTxPowerLevelByPath(
++	IN	PADAPTER	Adapter,
++	IN	u8			channel,
++	IN	u8			path
++);
++
++VOID
++PHY_SetTxPowerIndexByRateArray(
++	IN	PADAPTER		pAdapter,
++	IN	u8				RFPath,
++	IN	CHANNEL_WIDTH	BandWidth,
++	IN	u8				Channel,
++	IN	u8				*Rates,
++	IN	u8				RateArraySize
++);
++
++VOID
++PHY_InitTxPowerByRate(
++	IN	PADAPTER	pAdapter
++);
++
++VOID
++PHY_StoreTxPowerByRate(
++	IN	PADAPTER	pAdapter,
++	IN	u32			Band,
++	IN	u32			RfPath,
++	IN	u32			TxNum,
++	IN	u32			RegAddr,
++	IN	u32			BitMask,
++	IN	u32			Data
++);
++
++VOID
++PHY_TxPowerByRateConfiguration(
++	IN  PADAPTER			pAdapter
++);
++
++u8
++PHY_GetTxPowerIndexBase(
++	IN	PADAPTER		pAdapter,
++	IN	u8				RFPath,
++	IN	u8				Rate,
++	IN	CHANNEL_WIDTH	BandWidth,
++	IN	u8				Channel,
++	OUT PBOOLEAN		bIn24G
++);
++
++s8
++PHY_GetTxPowerLimit(
++	IN	PADAPTER		Adapter,
++	IN	u32				RegPwrTblSel,
++	IN	BAND_TYPE		Band,
++	IN	CHANNEL_WIDTH	Bandwidth,
++	IN	u8				RfPath,
++	IN	u8				DataRate,
++	IN	u8				Channel
++);
++
++s8
++PHY_GetTxPowerLimit_no_sc(
++	IN	PADAPTER			Adapter,
++	IN	u32					RegPwrTblSel,
++	IN	BAND_TYPE			Band,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					RfPath,
++	IN	u8					DataRate,
++	IN	u8					Channel
++);
++
++#ifdef CONFIG_PHYDM_POWERTRACK_BY_TSSI
++s8
++PHY_GetTxPowerLimitOriginal(
++	IN	PADAPTER		Adapter,
++	IN	u32				RegPwrTblSel,
++	IN	BAND_TYPE		Band,
++	IN	CHANNEL_WIDTH	Bandwidth,
++	IN	u8				RfPath,
++	IN	u8				DataRate,
++	IN	u8				Channel
++);
++#endif
++
++VOID
++PHY_ConvertTxPowerLimitToPowerIndex(
++	IN	PADAPTER			Adapter
++);
++
++VOID
++PHY_InitTxPowerLimit(
++	IN	PADAPTER			Adapter
++);
++
++s8
++PHY_GetTxPowerTrackingOffset(
++	PADAPTER	pAdapter,
++	u8			Rate,
++	u8			RFPath
++);
++
++struct txpwr_idx_comp {
++	u8 base;
++	s8 by_rate;
++	s8 limit;
++	s8 tpt;
++	s8 ebias;
++};
++
++u8
++PHY_GetTxPowerIndex(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	u8					Rate,
++	IN	CHANNEL_WIDTH		BandWidth,
++	IN	u8					Channel
++);
++
++VOID
++PHY_SetTxPowerIndex(
++	IN	PADAPTER		pAdapter,
++	IN	u32				PowerIndex,
++	IN	u8				RFPath,
++	IN	u8				Rate
++);
++
++void dump_tx_power_idx_title(void *sel, _adapter *adapter);
++void dump_tx_power_idx_by_path_rs(void *sel, _adapter *adapter, u8 rfpath, u8 rs);
++void dump_tx_power_idx(void *sel, _adapter *adapter);
++
++bool phy_is_tx_power_limit_needed(_adapter *adapter);
++bool phy_is_tx_power_by_rate_needed(_adapter *adapter);
++int phy_load_tx_power_by_rate(_adapter *adapter, u8 chk_file);
++int phy_load_tx_power_limit(_adapter *adapter, u8 chk_file);
++void phy_load_tx_power_ext_info(_adapter *adapter, u8 chk_file);
++void phy_reload_tx_power_ext_info(_adapter *adapter);
++void phy_reload_default_tx_power_ext_info(_adapter *adapter);
++
++const struct map_t *hal_pg_txpwr_def_info(_adapter *adapter);
++
++void dump_pg_txpwr_info_2g(void *sel, TxPowerInfo24G *txpwr_info, u8 rfpath_num, u8 max_tx_cnt);
++void dump_pg_txpwr_info_5g(void *sel, TxPowerInfo5G *txpwr_info, u8 rfpath_num, u8 max_tx_cnt);
++
++void dump_hal_txpwr_info_2g(void *sel, _adapter *adapter, u8 rfpath_num, u8 max_tx_cnt);
++void dump_hal_txpwr_info_5g(void *sel, _adapter *adapter, u8 rfpath_num, u8 max_tx_cnt);
++
++void hal_load_txpwr_info(
++	_adapter *adapter,
++	TxPowerInfo24G *pwr_info_2g,
++	TxPowerInfo5G *pwr_info_5g,
++	u8 *pg_data
++);
++
++void dump_tx_power_ext_info(void *sel, _adapter *adapter);
++void dump_target_tx_power(void *sel, _adapter *adapter);
++void dump_tx_power_by_rate(void *sel, _adapter *adapter);
++void dump_tx_power_limit(void *sel, _adapter *adapter);
++
++int rtw_get_phy_file_path(_adapter *adapter, const char *file_name);
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++#define MAC_FILE_FW_NIC			"FW_NIC.bin"
++#define MAC_FILE_FW_WW_IMG		"FW_WoWLAN.bin"
++#define PHY_FILE_MAC_REG		"MAC_REG.txt"
++
++#define PHY_FILE_AGC_TAB		"AGC_TAB.txt"
++#define PHY_FILE_PHY_REG		"PHY_REG.txt"
++#define PHY_FILE_PHY_REG_MP		"PHY_REG_MP.txt"
++#define PHY_FILE_PHY_REG_PG		"PHY_REG_PG.txt"
++
++#define PHY_FILE_RADIO_A		"RadioA.txt"
++#define PHY_FILE_RADIO_B		"RadioB.txt"
++#define PHY_FILE_RADIO_C		"RadioC.txt"
++#define PHY_FILE_RADIO_D		"RadioD.txt"
++#define PHY_FILE_TXPWR_TRACK	"TxPowerTrack.txt"
++#define PHY_FILE_TXPWR_LMT		"TXPWR_LMT.txt"
++
++#define PHY_FILE_WIFI_ANT_ISOLATION	"wifi_ant_isolation.txt"
++
++#define MAX_PARA_FILE_BUF_LEN	25600
++
++#define LOAD_MAC_PARA_FILE				BIT0
++#define LOAD_BB_PARA_FILE					BIT1
++#define LOAD_BB_PG_PARA_FILE				BIT2
++#define LOAD_BB_MP_PARA_FILE				BIT3
++#define LOAD_RF_PARA_FILE					BIT4
++#define LOAD_RF_TXPWR_TRACK_PARA_FILE	BIT5
++#define LOAD_RF_TXPWR_LMT_PARA_FILE		BIT6
++
++int phy_ConfigMACWithParaFile(IN PADAPTER	Adapter, IN char	*pFileName);
++int phy_ConfigBBWithParaFile(IN PADAPTER	Adapter, IN char	*pFileName, IN u32	ConfigType);
++int phy_ConfigBBWithPgParaFile(IN PADAPTER	Adapter, IN const char *pFileName);
++int phy_ConfigBBWithMpParaFile(IN PADAPTER	Adapter, IN char	*pFileName);
++int PHY_ConfigRFWithParaFile(IN	PADAPTER	Adapter, IN char	*pFileName, IN u8	eRFPath);
++int PHY_ConfigRFWithTxPwrTrackParaFile(IN PADAPTER	Adapter, IN char	*pFileName);
++int PHY_ConfigRFWithPowerLimitTableParaFile(IN PADAPTER	Adapter, IN const char *pFileName);
++void phy_free_filebuf_mask(_adapter *padapter, u8 mask);
++void phy_free_filebuf(_adapter *padapter);
++#endif /* CONFIG_LOAD_PHY_PARA_FROM_FILE */
++
++#endif /* __HAL_COMMON_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/hal_com_reg.h b/drivers/net/wireless/rtl8723du/include/hal_com_reg.h
+new file mode 100644
+index 0000000..50ef179
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/hal_com_reg.h
+@@ -0,0 +1,1819 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_COMMON_REG_H__
++#define __HAL_COMMON_REG_H__
++
++
++#define MAC_ADDR_LEN				6
++
++#define HAL_NAV_UPPER_UNIT		128		/* micro-second */
++
++/* 8188E PKT_BUFF_ACCESS_CTRL value */
++#define TXPKT_BUF_SELECT				0x69
++#define RXPKT_BUF_SELECT				0xA5
++#define DISABLE_TRXPKT_BUF_ACCESS		0x0
++
++#ifndef RTW_HALMAC
++/* ************************************************************
++*
++* ************************************************************ */
++
++/* -----------------------------------------------------
++*
++*	0x0000h ~ 0x00FFh	System Configuration
++*
++* ----------------------------------------------------- */
++#define REG_SYS_ISO_CTRL				0x0000
++#define REG_SYS_FUNC_EN				0x0002
++#define REG_APS_FSMCO					0x0004
++#define REG_SYS_CLKR					0x0008
++#define REG_SYS_CLK_CTRL				REG_SYS_CLKR
++#define REG_9346CR						0x000A
++#define REG_SYS_EEPROM_CTRL			0x000A
++#define REG_EE_VPD						0x000C
++#define REG_AFE_MISC					0x0010
++#define REG_SPS0_CTRL					0x0011
++#define REG_SPS0_CTRL_6					0x0016
++#define REG_POWER_OFF_IN_PROCESS		0x0017
++#define REG_SPS_OCP_CFG				0x0018
++#define REG_RSV_CTRL					0x001C
++#define REG_RF_CTRL						0x001F
++#define REG_LDOA15_CTRL				0x0020
++#define REG_LDOV12D_CTRL				0x0021
++#define REG_LDOHCI12_CTRL				0x0022
++#define REG_LPLDO_CTRL					0x0023
++#define REG_AFE_XTAL_CTRL				0x0024
++#define REG_AFE_LDO_CTRL				0x0027 /* 1.5v for 8188EE test chip, 1.4v for MP chip */
++#define REG_AFE_PLL_CTRL				0x0028
++#define REG_MAC_PHY_CTRL				0x002c /* for 92d, DMDP, SMSP, DMSP contrl */
++#define REG_APE_PLL_CTRL_EXT			0x002c
++#define REG_EFUSE_CTRL					0x0030
++#define REG_EFUSE_TEST					0x0034
++#define REG_PWR_DATA					0x0038
++#define REG_CAL_TIMER					0x003C
++#define REG_ACLK_MON					0x003E
++#define REG_GPIO_MUXCFG				0x0040
++#define REG_GPIO_IO_SEL					0x0042
++#define REG_MAC_PINMUX_CFG			0x0043
++#define REG_GPIO_PIN_CTRL				0x0044
++#define REG_GPIO_INTM					0x0048
++#define REG_LEDCFG0						0x004C
++#define REG_LEDCFG1						0x004D
++#define REG_LEDCFG2						0x004E
++#define REG_LEDCFG3						0x004F
++#define REG_FSIMR						0x0050
++#define REG_FSISR						0x0054
++#define REG_HSIMR						0x0058
++#define REG_HSISR						0x005c
++#define REG_GPIO_PIN_CTRL_2			0x0060 /* RTL8723 WIFI/BT/GPS Multi-Function GPIO Pin Control. */
++#define REG_GPIO_IO_SEL_2				0x0062 /* RTL8723 WIFI/BT/GPS Multi-Function GPIO Select. */
++#define REG_PAD_CTRL_1				0x0064
++#define REG_MULTI_FUNC_CTRL			0x0068 /* RTL8723 WIFI/BT/GPS Multi-Function control source. */
++#define REG_GSSR						0x006c
++#define REG_AFE_XTAL_CTRL_EXT			0x0078 /* RTL8188E */
++#define REG_XCK_OUT_CTRL				0x007c /* RTL8188E */
++#define REG_MCUFWDL					0x0080
++#define REG_WOL_EVENT					0x0081 /* RTL8188E */
++#define REG_MCUTSTCFG					0x0084
++#define REG_FDHM0						0x0088
++#define REG_HOST_SUSP_CNT				0x00BC	/* RTL8192C Host suspend counter on FPGA platform */
++#define REG_SYSTEM_ON_CTRL			0x00CC	/* For 8723AE Reset after S3 */
++#define REG_EFUSE_ACCESS				0x00CF	/* Efuse access protection for RTL8723 */
++#define REG_BIST_SCAN					0x00D0
++#define REG_BIST_RPT					0x00D4
++#define REG_BIST_ROM_RPT				0x00D8
++#define REG_USB_SIE_INTF				0x00E0
++#define REG_PCIE_MIO_INTF				0x00E4
++#define REG_PCIE_MIO_INTD				0x00E8
++#define REG_HPON_FSM					0x00EC
++#define REG_SYS_CFG						0x00F0
++#define REG_GPIO_OUTSTS				0x00F4	/* For RTL8723 only. */
++#define REG_TYPE_ID						0x00FC
++
++/*
++* 2010/12/29 MH Add for 92D
++*   */
++#define REG_MAC_PHY_CTRL_NORMAL		0x00f8
++
++
++/* -----------------------------------------------------
++*
++*	0x0100h ~ 0x01FFh	MACTOP General Configuration
++*
++* ----------------------------------------------------- */
++#define REG_CR							0x0100
++#define REG_PBP							0x0104
++#define REG_PKT_BUFF_ACCESS_CTRL		0x0106
++#define REG_TRXDMA_CTRL				0x010C
++#define REG_TRXFF_BNDY					0x0114
++#define REG_TRXFF_STATUS				0x0118
++#define REG_RXFF_PTR					0x011C
++#define REG_HIMR						0x0120
++#define REG_HISR						0x0124
++#define REG_HIMRE						0x0128
++#define REG_HISRE						0x012C
++#define REG_CPWM						0x012F
++#define REG_FWIMR						0x0130
++#define REG_FWISR						0x0134
++#define REG_FTIMR						0x0138
++#define REG_FTISR						0x013C /* RTL8192C */
++#define REG_PKTBUF_DBG_CTRL			0x0140
++#define REG_RXPKTBUF_CTRL				(REG_PKTBUF_DBG_CTRL+2)
++#define REG_PKTBUF_DBG_DATA_L			0x0144
++#define REG_PKTBUF_DBG_DATA_H		0x0148
++
++#define REG_TC0_CTRL					0x0150
++#define REG_TC1_CTRL					0x0154
++#define REG_TC2_CTRL					0x0158
++#define REG_TC3_CTRL					0x015C
++#define REG_TC4_CTRL					0x0160
++#define REG_TCUNIT_BASE				0x0164
++#define REG_MBIST_START				0x0174
++#define REG_MBIST_DONE					0x0178
++#define REG_MBIST_FAIL					0x017C
++#define REG_32K_CTRL					0x0194 /* RTL8188E */
++#define REG_C2HEVT_MSG_NORMAL		0x01A0
++#define REG_C2HEVT_CLEAR				0x01AF
++#define REG_MCUTST_1					0x01c0
++#define REG_MCUTST_WOWLAN			0x01C7	/* Defined after 8188E series. */
++#define REG_FMETHR						0x01C8
++#define REG_HMETFR						0x01CC
++#define REG_HMEBOX_0					0x01D0
++#define REG_HMEBOX_1					0x01D4
++#define REG_HMEBOX_2					0x01D8
++#define REG_HMEBOX_3					0x01DC
++#define REG_LLT_INIT					0x01E0
++#define REG_HMEBOX_EXT_0				0x01F0
++#define REG_HMEBOX_EXT_1				0x01F4
++#define REG_HMEBOX_EXT_2				0x01F8
++#define REG_HMEBOX_EXT_3				0x01FC
++
++
++/* -----------------------------------------------------
++*
++*	0x0200h ~ 0x027Fh	TXDMA Configuration
++*
++* ----------------------------------------------------- */
++#define REG_RQPN						0x0200
++#define REG_FIFOPAGE					0x0204
++#define REG_TDECTRL						0x0208
++#define REG_TXDMA_OFFSET_CHK			0x020C
++#define REG_TXDMA_STATUS				0x0210
++#define REG_RQPN_NPQ					0x0214
++#define REG_AUTO_LLT					0x0224
++
++
++/* -----------------------------------------------------
++*
++*	0x0280h ~ 0x02FFh	RXDMA Configuration
++*
++* ----------------------------------------------------- */
++#define REG_RXDMA_AGG_PG_TH			0x0280
++#define REG_RXPKT_NUM					0x0284
++#define REG_RXDMA_STATUS				0x0288
++
++/* -----------------------------------------------------
++*
++*	0x0300h ~ 0x03FFh	PCIe
++*
++* ----------------------------------------------------- */
++#ifndef CONFIG_TRX_BD_ARCH	/* prevent CONFIG_TRX_BD_ARCH to use old registers */
++
++#define REG_PCIE_CTRL_REG				0x0300
++#define REG_INT_MIG					0x0304	/* Interrupt Migration */
++#define REG_BCNQ_DESA					0x0308	/* TX Beacon Descriptor Address */
++#define REG_HQ_DESA					0x0310	/* TX High Queue Descriptor Address */
++#define REG_MGQ_DESA					0x0318	/* TX Manage Queue Descriptor Address */
++#define REG_VOQ_DESA					0x0320	/* TX VO Queue Descriptor Address */
++#define REG_VIQ_DESA					0x0328	/* TX VI Queue Descriptor Address */
++#define REG_BEQ_DESA					0x0330	/* TX BE Queue Descriptor Address */
++#define REG_BKQ_DESA					0x0338	/* TX BK Queue Descriptor Address */
++#define REG_RX_DESA					0x0340	/* RX Queue Descriptor Address */
++/* sherry added for DBI Read/Write  20091126 */
++#define REG_DBI_WDATA					0x0348	/*  Backdoor REG for Access Configuration */
++#define REG_DBI_RDATA					0x034C	/* Backdoor REG for Access Configuration */
++#define REG_DBI_CTRL					0x0350	/* Backdoor REG for Access Configuration */
++#define REG_DBI_FLAG					0x0352	/* Backdoor REG for Access Configuration */
++#define REG_MDIO					0x0354	/* MDIO for Access PCIE PHY */
++#define REG_DBG_SEL					0x0360	/* Debug Selection Register */
++#define REG_PCIE_HRPWM					0x0361	/* PCIe RPWM */
++#define REG_PCIE_HCPWM					0x0363	/* PCIe CPWM */
++#define REG_WATCH_DOG					0x0368
++#define REG_RX_RXBD_NUM					0x0382
++
++/* RTL8723 series ------------------------------- */
++#define REG_PCIE_HISR_EN				0x0394	/* PCIE Local Interrupt Enable Register */
++#define REG_PCIE_HISR					0x03A0
++#define REG_PCIE_HISRE					0x03A4
++#define REG_PCIE_HIMR					0x03A8
++#define REG_PCIE_HIMRE					0x03AC
++
++#endif /* !CONFIG_TRX_BD_ARCH */
++
++#define REG_USB_HIMR					0xFE38
++#define REG_USB_HIMRE					0xFE3C
++#define REG_USB_HISR					0xFE78
++#define REG_USB_HISRE					0xFE7C
++
++
++/* -----------------------------------------------------
++*
++*	0x0400h ~ 0x047Fh	Protocol Configuration
++*
++* ----------------------------------------------------- */
++
++/* 92C, 92D */
++#define REG_VOQ_INFO	0x0400
++#define REG_VIQ_INFO	0x0404
++#define REG_BEQ_INFO	0x0408
++#define REG_BKQ_INFO	0x040C
++
++/* 88E, 8723A, 8812A, 8821A, 92E, 8723B */
++#define REG_Q0_INFO	0x400
++#define REG_Q1_INFO	0x404
++#define REG_Q2_INFO	0x408
++#define REG_Q3_INFO	0x40C
++
++#define REG_MGQ_INFO	0x0410
++#define REG_HGQ_INFO	0x0414
++#define REG_BCNQ_INFO	0x0418
++#define REG_TXPKT_EMPTY				0x041A
++#define REG_CPU_MGQ_INFORMATION		0x041C
++#define REG_FWHW_TXQ_CTRL				0x0420
++#define REG_HWSEQ_CTRL					0x0423
++#define REG_BCNQ_BDNY					0x0424
++#define REG_MGQ_BDNY					0x0425
++#define REG_LIFETIME_CTRL				0x0426
++#define REG_MULTI_BCNQ_OFFSET			0x0427
++#define REG_SPEC_SIFS					0x0428
++#define REG_RL							0x042A
++#define REG_DARFRC						0x0430
++#define REG_RARFRC						0x0438
++#define REG_RRSR						0x0440
++#define REG_ARFR0						0x0444
++#define REG_ARFR1						0x0448
++#define REG_ARFR2						0x044C
++#define REG_ARFR3						0x0450
++#define REG_CCK_CHECK					0x0454
++#define REG_BCNQ1_BDNY					0x0457
++
++#define REG_AGGLEN_LMT					0x0458
++#define REG_AMPDU_MIN_SPACE			0x045C
++#define REG_WMAC_LBK_BF_HD			0x045D
++#define REG_FAST_EDCA_CTRL				0x0460
++#define REG_RD_RESP_PKT_TH				0x0463
++
++/* 8723A, 8812A, 8821A, 92E, 8723B */
++#define REG_Q4_INFO	0x468
++#define REG_Q5_INFO	0x46C
++#define REG_Q6_INFO	0x470
++#define REG_Q7_INFO	0x474
++
++#define REG_INIRTS_RATE_SEL				0x0480
++#define REG_INIDATA_RATE_SEL			0x0484
++
++/* 8723B, 92E, 8812A, 8821A*/
++#define REG_MACID_SLEEP_3				0x0484
++#define REG_MACID_SLEEP_1				0x0488
++
++#define REG_POWER_STAGE1				0x04B4
++#define REG_POWER_STAGE2				0x04B8
++#define REG_PKT_VO_VI_LIFE_TIME		0x04C0
++#define REG_PKT_BE_BK_LIFE_TIME		0x04C2
++#define REG_STBC_SETTING				0x04C4
++#define REG_QUEUE_CTRL					0x04C6
++#define REG_SINGLE_AMPDU_CTRL			0x04c7
++#define REG_PROT_MODE_CTRL			0x04C8
++#define REG_MAX_AGGR_NUM				0x04CA
++#define REG_RTS_MAX_AGGR_NUM			0x04CB
++#define REG_BAR_MODE_CTRL				0x04CC
++#define REG_RA_TRY_RATE_AGG_LMT		0x04CF
++
++/* 8723A */
++#define REG_MACID_DROP	0x04D0
++
++/* 88E */
++#define REG_EARLY_MODE_CONTROL	0x04D0
++
++/* 8723B, 92E, 8812A, 8821A */
++#define REG_MACID_SLEEP_2	0x04D0
++
++/* 8723A, 8723B, 92E, 8812A, 8821A */
++#define REG_MACID_SLEEP	0x04D4
++
++#define REG_NQOS_SEQ					0x04DC
++#define REG_QOS_SEQ					0x04DE
++#define REG_NEED_CPU_HANDLE			0x04E0
++#define REG_PKT_LOSE_RPT				0x04E1
++#define REG_PTCL_ERR_STATUS			0x04E2
++#define REG_TX_RPT_CTRL					0x04EC
++#define REG_TX_RPT_TIME					0x04F0	/* 2 byte */
++#define REG_DUMMY						0x04FC
++
++/* -----------------------------------------------------
++*
++*	0x0500h ~ 0x05FFh	EDCA Configuration
++*
++* ----------------------------------------------------- */
++#define REG_EDCA_VO_PARAM				0x0500
++#define REG_EDCA_VI_PARAM				0x0504
++#define REG_EDCA_BE_PARAM				0x0508
++#define REG_EDCA_BK_PARAM				0x050C
++#define REG_BCNTCFG						0x0510
++#define REG_PIFS							0x0512
++#define REG_RDG_PIFS					0x0513
++#define REG_SIFS_CTX					0x0514
++#define REG_SIFS_TRX					0x0516
++#define REG_TSFTR_SYN_OFFSET			0x0518
++#define REG_AGGR_BREAK_TIME			0x051A
++#define REG_SLOT						0x051B
++#define REG_TX_PTCL_CTRL				0x0520
++#define REG_TXPAUSE						0x0522
++#define REG_DIS_TXREQ_CLR				0x0523
++#define REG_RD_CTRL						0x0524
++/*
++* Format for offset 540h-542h:
++*	[3:0]:   TBTT prohibit setup in unit of 32us. The time for HW getting beacon content before TBTT.
++*	[7:4]:   Reserved.
++*	[19:8]:  TBTT prohibit hold in unit of 32us. The time for HW holding to send the beacon packet.
++*	[23:20]: Reserved
++* Description:
++*	              |
++*      |<--Setup--|--Hold------------>|
++*   --------------|----------------------
++*                 |
++*                TBTT
++* Note: We cannot update beacon content to HW or send any AC packets during the time between Setup and Hold.
++* Described by Designer Tim and Bruce, 2011-01-14.
++*   */
++#define REG_TBTT_PROHIBIT				0x0540
++#define REG_RD_NAV_NXT					0x0544
++#define REG_NAV_PROT_LEN				0x0546
++#define REG_BCN_CTRL					0x0550
++#define REG_BCN_CTRL_1					0x0551
++#define REG_MBID_NUM					0x0552
++#define REG_DUAL_TSF_RST				0x0553
++#define REG_BCN_INTERVAL				0x0554	/* The same as REG_MBSSID_BCN_SPACE */
++#define REG_DRVERLYINT					0x0558
++#define REG_BCNDMATIM					0x0559
++#define REG_ATIMWND					0x055A
++#define REG_USTIME_TSF					0x055C
++#define REG_BCN_MAX_ERR				0x055D
++#define REG_RXTSF_OFFSET_CCK			0x055E
++#define REG_RXTSF_OFFSET_OFDM			0x055F
++#define REG_TSFTR						0x0560
++#define REG_TSFTR1						0x0568	/* HW Port 1 TSF Register */
++#define REG_ATIMWND_1					0x0570
++#define REG_P2P_CTWIN					0x0572 /* 1 Byte long (in unit of TU) */
++#define REG_PSTIMER						0x0580
++#define REG_TIMER0						0x0584
++#define REG_TIMER1						0x0588
++#define REG_ACMHWCTRL					0x05C0
++#define REG_NOA_DESC_SEL				0x05CF
++#define REG_NOA_DESC_DURATION		0x05E0
++#define REG_NOA_DESC_INTERVAL			0x05E4
++#define REG_NOA_DESC_START			0x05E8
++#define REG_NOA_DESC_COUNT			0x05EC
++
++#define REG_DMC							0x05F0	/* Dual MAC Co-Existence Register */
++#define REG_SCH_TX_CMD					0x05F8
++
++#define REG_FW_RESET_TSF_CNT_1		0x05FC
++#define REG_FW_RESET_TSF_CNT_0		0x05FD
++#define REG_FW_BCN_DIS_CNT			0x05FE
++
++/* -----------------------------------------------------
++*
++*	0x0600h ~ 0x07FFh	WMAC Configuration
++*
++* ----------------------------------------------------- */
++#define REG_APSD_CTRL					0x0600
++#define REG_BWOPMODE					0x0603
++#define REG_TCR							0x0604
++#define REG_RCR							0x0608
++#define REG_RX_PKT_LIMIT				0x060C
++#define REG_RX_DLK_TIME				0x060D
++#define REG_RX_DRVINFO_SZ				0x060F
++
++#define REG_MACID						0x0610
++#define REG_BSSID						0x0618
++#define REG_MAR							0x0620
++#define REG_MBIDCAMCFG_1				0x0628
++#define REG_MBIDCAMCFG_2				0x062C
++
++#define REG_PNO_STATUS					0x0631
++#define REG_USTIME_EDCA				0x0638
++#define REG_MAC_SPEC_SIFS				0x063A
++/* 20100719 Joseph: Hardware register definition change. (HW datasheet v54) */
++#define REG_RESP_SIFS_CCK				0x063C	/* [15:8]SIFS_R2T_OFDM, [7:0]SIFS_R2T_CCK */
++#define REG_RESP_SIFS_OFDM                    0x063E	/* [15:8]SIFS_T2T_OFDM, [7:0]SIFS_T2T_CCK */
++
++#define REG_ACKTO						0x0640
++#define REG_CTS2TO						0x0641
++#define REG_EIFS							0x0642
++
++
++/* RXERR_RPT */
++#define RXERR_TYPE_OFDM_PPDU			0
++#define RXERR_TYPE_OFDM_FALSE_ALARM	1
++#define RXERR_TYPE_OFDM_MPDU_OK		2
++#define RXERR_TYPE_OFDM_MPDU_FAIL	3
++#define RXERR_TYPE_CCK_PPDU			4
++#define RXERR_TYPE_CCK_FALSE_ALARM	5
++#define RXERR_TYPE_CCK_MPDU_OK		6
++#define RXERR_TYPE_CCK_MPDU_FAIL		7
++#define RXERR_TYPE_HT_PPDU				8
++#define RXERR_TYPE_HT_FALSE_ALARM	9
++#define RXERR_TYPE_HT_MPDU_TOTAL		10
++#define RXERR_TYPE_HT_MPDU_OK			11
++#define RXERR_TYPE_HT_MPDU_FAIL		12
++#define RXERR_TYPE_RX_FULL_DROP		15
++
++#define RXERR_COUNTER_MASK			0xFFFFF
++#define RXERR_RPT_RST					BIT(27)
++#define _RXERR_RPT_SEL(type)			((type) << 28)
++
++/*
++* Note:
++*	The NAV upper value is very important to WiFi 11n 5.2.3 NAV test. The default value is
++*	always too small, but the WiFi TestPlan test by 25,000 microseconds of NAV through sending
++*	CTS in the air. We must update this value greater than 25,000 microseconds to pass the item.
++*	The offset of NAV_UPPER in 8192C Spec is incorrect, and the offset should be 0x0652. Commented
++*	by SD1 Scott.
++* By Bruce, 2011-07-18.
++*   */
++#define REG_NAV_UPPER					0x0652	/* unit of 128 */
++
++/* WMA, BA, CCX */
++#define REG_NAV_CTRL					0x0650
++#define REG_BACAMCMD					0x0654
++#define REG_BACAMCONTENT				0x0658
++#define REG_LBDLY						0x0660
++#define REG_FWDLY						0x0661
++#define REG_RXERR_RPT					0x0664
++#define REG_WMAC_TRXPTCL_CTL			0x0668
++
++/* Security */
++#define REG_CAMCMD						0x0670
++#define REG_CAMWRITE					0x0674
++#define REG_CAMREAD					0x0678
++#define REG_CAMDBG						0x067C
++#define REG_SECCFG						0x0680
++
++/* Power */
++#define REG_WOW_CTRL					0x0690
++#define REG_PS_RX_INFO					0x0692
++#define REG_UAPSD_TID					0x0693
++#define REG_WKFMCAM_CMD				0x0698
++#define REG_WKFMCAM_NUM				REG_WKFMCAM_CMD
++#define REG_WKFMCAM_RWD				0x069C
++#define REG_RXFLTMAP0					0x06A0
++#define REG_RXFLTMAP1					0x06A2
++#define REG_RXFLTMAP2					0x06A4
++#define REG_BCN_PSR_RPT				0x06A8
++#define REG_BT_COEX_TABLE				0x06C0
++
++/* Hardware Port 1 */
++#define REG_MACID1						0x0700
++#define REG_BSSID1						0x0708
++/* Hardware Port 2 */
++#define REG_MACID2						0x1620
++#define REG_BSSID2						0x1628
++/* Hardware Port 3*/
++#define REG_MACID3						0x1630
++#define REG_BSSID3						0x1638
++/* Hardware Port 4 */
++#define REG_MACID4						0x1640
++#define REG_BSSID4						0x1648
++
++
++#define REG_CR_EXT						0x1100
++
++/* -----------------------------------------------------
++*
++*	0xFE00h ~ 0xFE55h	USB Configuration
++*
++* ----------------------------------------------------- */
++#define REG_USB_INFO					0xFE17
++#define REG_USB_SPECIAL_OPTION		0xFE55
++#define REG_USB_DMA_AGG_TO			0xFE5B
++#define REG_USB_AGG_TO					0xFE5C
++#define REG_USB_AGG_TH					0xFE5D
++
++#define REG_USB_HRPWM					0xFE58
++#define REG_USB_HCPWM					0xFE57
++
++/* for 92DU high_Queue low_Queue Normal_Queue select */
++#define REG_USB_High_NORMAL_Queue_Select_MAC0	0xFE44
++/* #define REG_USB_LOW_Queue_Select_MAC0		0xFE45 */
++#define REG_USB_High_NORMAL_Queue_Select_MAC1	0xFE47
++/* #define REG_USB_LOW_Queue_Select_MAC1		0xFE48 */
++
++/* For test chip */
++#define REG_TEST_USB_TXQS				0xFE48
++#define REG_TEST_SIE_VID				0xFE60		/* 0xFE60~0xFE61 */
++#define REG_TEST_SIE_PID				0xFE62		/* 0xFE62~0xFE63 */
++#define REG_TEST_SIE_OPTIONAL			0xFE64
++#define REG_TEST_SIE_CHIRP_K			0xFE65
++#define REG_TEST_SIE_PHY				0xFE66		/* 0xFE66~0xFE6B */
++#define REG_TEST_SIE_MAC_ADDR			0xFE70		/* 0xFE70~0xFE75 */
++#define REG_TEST_SIE_STRING			0xFE80		/* 0xFE80~0xFEB9 */
++
++
++/* For normal chip */
++#define REG_NORMAL_SIE_VID				0xFE60		/* 0xFE60~0xFE61 */
++#define REG_NORMAL_SIE_PID				0xFE62		/* 0xFE62~0xFE63 */
++#define REG_NORMAL_SIE_OPTIONAL		0xFE64
++#define REG_NORMAL_SIE_EP				0xFE65		/* 0xFE65~0xFE67 */
++#define REG_NORMAL_SIE_PHY			0xFE68		/* 0xFE68~0xFE6B */
++#define REG_NORMAL_SIE_OPTIONAL2		0xFE6C
++#define REG_NORMAL_SIE_GPS_EP			0xFE6D		/* 0xFE6D, for RTL8723 only. */
++#define REG_NORMAL_SIE_MAC_ADDR		0xFE70		/* 0xFE70~0xFE75 */
++#define REG_NORMAL_SIE_STRING			0xFE80		/* 0xFE80~0xFEDF */
++
++
++/* -----------------------------------------------------
++*
++*	Redifine 8192C register definition for compatibility
++*
++* ----------------------------------------------------- */
++
++/* TODO: use these definition when using REG_xxx naming rule.
++* NOTE: DO NOT Remove these definition. Use later. */
++
++#define EFUSE_CTRL				REG_EFUSE_CTRL		/* E-Fuse Control. */
++#define EFUSE_TEST				REG_EFUSE_TEST		/* E-Fuse Test. */
++#define MSR						(REG_CR + 2)		/* Media Status register */
++/* #define ISR						REG_HISR */
++#define MSR1						REG_CR_EXT
++
++#define TSFR						REG_TSFTR			/* Timing Sync Function Timer Register. */
++#define TSFR1					REG_TSFTR1			/* HW Port 1 TSF Register */
++
++#define PBP						REG_PBP
++
++/* Redifine MACID register, to compatible prior ICs. */
++#define IDR0						REG_MACID			/* MAC ID Register, Offset 0x0050-0x0053 */
++#define IDR4						(REG_MACID + 4)		/* MAC ID Register, Offset 0x0054-0x0055 */
++
++
++/*
++* 9. Security Control Registers	(Offset: )
++*   */
++#define RWCAM					REG_CAMCMD		/* IN 8190 Data Sheet is called CAMcmd */
++#define WCAMI					REG_CAMWRITE	/* Software write CAM input content */
++#define RCAMO					REG_CAMREAD		/* Software read/write CAM config */
++#define CAMDBG					REG_CAMDBG
++#define SECR						REG_SECCFG		/* Security Configuration Register */
++
++/* Unused register */
++#define UnusedRegister			0x1BF
++#define DCAM					UnusedRegister
++#define PSR						UnusedRegister
++#define BBAddr					UnusedRegister
++#define PhyDataR					UnusedRegister
++
++/* Min Spacing related settings. */
++#define MAX_MSS_DENSITY_2T			0x13
++#define MAX_MSS_DENSITY_1T			0x0A
++
++/* ----------------------------------------------------------------------------
++* 8192C Cmd9346CR bits					(Offset 0xA, 16bit)
++* ---------------------------------------------------------------------------- */
++#define CmdEEPROM_En				BIT5	 /* EEPROM enable when set 1 */
++#define CmdEERPOMSEL				BIT4	/* System EEPROM select, 0: boot from E-FUSE, 1: The EEPROM used is 9346 */
++#define Cmd9346CR_9356SEL			BIT4
++
++/* ----------------------------------------------------------------------------
++* 8192C GPIO MUX Configuration Register (offset 0x40, 4 byte)
++* ---------------------------------------------------------------------------- */
++#define GPIOSEL_GPIO				0
++#define GPIOSEL_ENBT				BIT5
++
++/* ----------------------------------------------------------------------------
++* 8192C GPIO PIN Control Register (offset 0x44, 4 byte)
++* ---------------------------------------------------------------------------- */
++#define GPIO_IN					REG_GPIO_PIN_CTRL		/* GPIO pins input value */
++#define GPIO_OUT				(REG_GPIO_PIN_CTRL+1)	/* GPIO pins output value */
++#define GPIO_IO_SEL				(REG_GPIO_PIN_CTRL+2)	/* GPIO pins output enable when a bit is set to "1"; otherwise, input is configured. */
++#define GPIO_MOD				(REG_GPIO_PIN_CTRL+3)
++
++/* ----------------------------------------------------------------------------
++* 8811A GPIO PIN Control Register (offset 0x60, 4 byte)
++* ---------------------------------------------------------------------------- */
++#define GPIO_IN_8811A			REG_GPIO_PIN_CTRL_2		/* GPIO pins input value */
++#define GPIO_OUT_8811A			(REG_GPIO_PIN_CTRL_2+1)	/* GPIO pins output value */
++#define GPIO_IO_SEL_8811A		(REG_GPIO_PIN_CTRL_2+2)	/* GPIO pins output enable when a bit is set to "1"; otherwise, input is configured. */
++#define GPIO_MOD_8811A			(REG_GPIO_PIN_CTRL_2+3)
++
++/* ----------------------------------------------------------------------------
++* 8723/8188E Host System Interrupt Mask Register (offset 0x58, 32 byte)
++* ---------------------------------------------------------------------------- */
++#define HSIMR_GPIO12_0_INT_EN			BIT0
++#define HSIMR_SPS_OCP_INT_EN			BIT5
++#define HSIMR_RON_INT_EN				BIT6
++#define HSIMR_PDN_INT_EN				BIT7
++#define HSIMR_GPIO9_INT_EN				BIT25
++
++/* ----------------------------------------------------------------------------
++* 8723/8188E Host System Interrupt Status Register (offset 0x5C, 32 byte)
++* ---------------------------------------------------------------------------- */
++#define HSISR_GPIO12_0_INT				BIT0
++#define HSISR_SPS_OCP_INT				BIT5
++#define HSISR_RON_INT					BIT6
++#define HSISR_PDNINT					BIT7
++#define HSISR_GPIO9_INT					BIT25
++
++/* ----------------------------------------------------------------------------
++* 8192C (MSR) Media Status Register	(Offset 0x4C, 8 bits)
++* ---------------------------------------------------------------------------- */
++/*
++Network Type
++00: No link
++01: Link in ad hoc network
++10: Link in infrastructure network
++11: AP mode
++Default: 00b.
++*/
++#define MSR_NOLINK				0x00
++#define MSR_ADHOC				0x01
++#define MSR_INFRA				0x02
++#define MSR_AP					0x03
++
++/* ----------------------------------------------------------------------------
++* USB INTR CONTENT
++* ---------------------------------------------------------------------------- */
++#define USB_C2H_CMDID_OFFSET					0
++#define USB_C2H_SEQ_OFFSET					1
++#define USB_C2H_EVENT_OFFSET					2
++#define USB_INTR_CPWM_OFFSET					16
++#define USB_INTR_CONTENT_C2H_OFFSET			0
++#define USB_INTR_CONTENT_CPWM1_OFFSET		16
++#define USB_INTR_CONTENT_CPWM2_OFFSET		20
++#define USB_INTR_CONTENT_HISR_OFFSET			48
++#define USB_INTR_CONTENT_HISRE_OFFSET		52
++#define USB_INTR_CONTENT_LENGTH				56
++
++/* ----------------------------------------------------------------------------
++* Response Rate Set Register	(offset 0x440, 24bits)
++* ---------------------------------------------------------------------------- */
++#define RRSR_1M					BIT0
++#define RRSR_2M					BIT1
++#define RRSR_5_5M				BIT2
++#define RRSR_11M				BIT3
++#define RRSR_6M					BIT4
++#define RRSR_9M					BIT5
++#define RRSR_12M				BIT6
++#define RRSR_18M				BIT7
++#define RRSR_24M				BIT8
++#define RRSR_36M				BIT9
++#define RRSR_48M				BIT10
++#define RRSR_54M				BIT11
++#define RRSR_MCS0				BIT12
++#define RRSR_MCS1				BIT13
++#define RRSR_MCS2				BIT14
++#define RRSR_MCS3				BIT15
++#define RRSR_MCS4				BIT16
++#define RRSR_MCS5				BIT17
++#define RRSR_MCS6				BIT18
++#define RRSR_MCS7				BIT19
++
++#define RRSR_CCK_RATES (RRSR_11M | RRSR_5_5M | RRSR_2M | RRSR_1M)
++#define RRSR_OFDM_RATES (RRSR_54M | RRSR_48M | RRSR_36M | RRSR_24M | RRSR_18M | RRSR_12M | RRSR_9M | RRSR_6M)
++
++/* WOL bit information */
++#define HAL92C_WOL_PTK_UPDATE_EVENT		BIT0
++#define HAL92C_WOL_GTK_UPDATE_EVENT		BIT1
++#define HAL92C_WOL_DISASSOC_EVENT		BIT2
++#define HAL92C_WOL_DEAUTH_EVENT			BIT3
++#define HAL92C_WOL_FW_DISCONNECT_EVENT	BIT4
++
++
++/*----------------------------------------------------------------------------
++**      REG_CCK_CHECK						(offset 0x454)
++------------------------------------------------------------------------------*/
++#define BIT_BCN_PORT_SEL		BIT5
++
++#endif /* RTW_HALMAC */
++
++/* ----------------------------------------------------------------------------
++ * Rate Definition
++ * ---------------------------------------------------------------------------- */
++/* CCK */
++#define	RATR_1M					0x00000001
++#define	RATR_2M					0x00000002
++#define	RATR_55M					0x00000004
++#define	RATR_11M					0x00000008
++/* OFDM		 */
++#define	RATR_6M					0x00000010
++#define	RATR_9M					0x00000020
++#define	RATR_12M					0x00000040
++#define	RATR_18M					0x00000080
++#define	RATR_24M					0x00000100
++#define	RATR_36M					0x00000200
++#define	RATR_48M					0x00000400
++#define	RATR_54M					0x00000800
++/* MCS 1 Spatial Stream	 */
++#define	RATR_MCS0					0x00001000
++#define	RATR_MCS1					0x00002000
++#define	RATR_MCS2					0x00004000
++#define	RATR_MCS3					0x00008000
++#define	RATR_MCS4					0x00010000
++#define	RATR_MCS5					0x00020000
++#define	RATR_MCS6					0x00040000
++#define	RATR_MCS7					0x00080000
++/* MCS 2 Spatial Stream */
++#define	RATR_MCS8					0x00100000
++#define	RATR_MCS9					0x00200000
++#define	RATR_MCS10					0x00400000
++#define	RATR_MCS11					0x00800000
++#define	RATR_MCS12					0x01000000
++#define	RATR_MCS13					0x02000000
++#define	RATR_MCS14					0x04000000
++#define	RATR_MCS15					0x08000000
++
++/* CCK */
++#define RATE_1M					BIT(0)
++#define RATE_2M					BIT(1)
++#define RATE_5_5M				BIT(2)
++#define RATE_11M				BIT(3)
++/* OFDM */
++#define RATE_6M					BIT(4)
++#define RATE_9M					BIT(5)
++#define RATE_12M				BIT(6)
++#define RATE_18M				BIT(7)
++#define RATE_24M				BIT(8)
++#define RATE_36M				BIT(9)
++#define RATE_48M				BIT(10)
++#define RATE_54M				BIT(11)
++/* MCS 1 Spatial Stream */
++#define RATE_MCS0				BIT(12)
++#define RATE_MCS1				BIT(13)
++#define RATE_MCS2				BIT(14)
++#define RATE_MCS3				BIT(15)
++#define RATE_MCS4				BIT(16)
++#define RATE_MCS5				BIT(17)
++#define RATE_MCS6				BIT(18)
++#define RATE_MCS7				BIT(19)
++/* MCS 2 Spatial Stream */
++#define RATE_MCS8				BIT(20)
++#define RATE_MCS9				BIT(21)
++#define RATE_MCS10				BIT(22)
++#define RATE_MCS11				BIT(23)
++#define RATE_MCS12				BIT(24)
++#define RATE_MCS13				BIT(25)
++#define RATE_MCS14				BIT(26)
++#define RATE_MCS15				BIT(27)
++
++
++/* ALL CCK Rate */
++#define	RATE_ALL_CCK				(RATR_1M | RATR_2M | RATR_55M | RATR_11M)
++#define	RATE_ALL_OFDM_AG			(RATR_6M | RATR_9M | RATR_12M | RATR_18M | RATR_24M|\
++	RATR_36M | RATR_48M | RATR_54M)
++#define	RATE_ALL_OFDM_1SS			(RATR_MCS0 | RATR_MCS1 | RATR_MCS2 | RATR_MCS3 |\
++	RATR_MCS4 | RATR_MCS5 | RATR_MCS6 | RATR_MCS7)
++#define	RATE_ALL_OFDM_2SS			(RATR_MCS8 | RATR_MCS9 | RATR_MCS10 | RATR_MCS11|\
++	RATR_MCS12 | RATR_MCS13 | RATR_MCS14 | RATR_MCS15)
++
++#define RATE_BITMAP_ALL			0xFFFFF
++
++/* Only use CCK 1M rate for ACK */
++#define RATE_RRSR_CCK_ONLY_1M		0xFFFF1
++#define RATE_RRSR_WITHOUT_CCK		0xFFFF0
++
++/* ----------------------------------------------------------------------------
++ * BW_OPMODE bits				(Offset 0x603, 8bit)
++ * ---------------------------------------------------------------------------- */
++#define BW_OPMODE_20MHZ			BIT2
++#define BW_OPMODE_5G				BIT1
++
++/* ----------------------------------------------------------------------------
++ * CAM Config Setting (offset 0x680, 1 byte)
++ * ----------------------------------------------------------------------------			 */
++#define CAM_VALID				BIT15
++#define CAM_NOTVALID			0x0000
++#define CAM_USEDK				BIT5
++
++#define CAM_CONTENT_COUNT	8
++
++#define CAM_NONE				0x0
++#define CAM_WEP40				0x01
++#define CAM_TKIP				0x02
++#define CAM_AES					0x04
++#define CAM_WEP104				0x05
++#define CAM_SMS4				0x6
++
++#define TOTAL_CAM_ENTRY		32
++#define HALF_CAM_ENTRY			16
++
++#define CAM_CONFIG_USEDK		_TRUE
++#define CAM_CONFIG_NO_USEDK	_FALSE
++
++#define CAM_WRITE				BIT16
++#define CAM_READ				0x00000000
++#define CAM_POLLINIG			BIT31
++
++/*
++ * 10. Power Save Control Registers
++ *   */
++#define WOW_PMEN				BIT0 /* Power management Enable. */
++#define WOW_WOMEN				BIT1 /* WoW function on or off. */
++#define WOW_MAGIC				BIT2 /* Magic packet */
++#define WOW_UWF				BIT3 /* Unicast Wakeup frame. */
++
++/*
++ * 12. Host Interrupt Status Registers
++ *
++ * ----------------------------------------------------------------------------
++ * 8190 IMR/ISR bits
++ * ---------------------------------------------------------------------------- */
++#define IMR8190_DISABLED		0x0
++#define IMR_DISABLED			0x0
++/* IMR DW0 Bit 0-31 */
++#define IMR_BCNDMAINT6			BIT31		/* Beacon DMA Interrupt 6 */
++#define IMR_BCNDMAINT5			BIT30		/* Beacon DMA Interrupt 5 */
++#define IMR_BCNDMAINT4			BIT29		/* Beacon DMA Interrupt 4 */
++#define IMR_BCNDMAINT3			BIT28		/* Beacon DMA Interrupt 3 */
++#define IMR_BCNDMAINT2			BIT27		/* Beacon DMA Interrupt 2 */
++#define IMR_BCNDMAINT1			BIT26		/* Beacon DMA Interrupt 1 */
++#define IMR_BCNDOK8				BIT25		/* Beacon Queue DMA OK Interrup 8 */
++#define IMR_BCNDOK7				BIT24		/* Beacon Queue DMA OK Interrup 7 */
++#define IMR_BCNDOK6				BIT23		/* Beacon Queue DMA OK Interrup 6 */
++#define IMR_BCNDOK5				BIT22		/* Beacon Queue DMA OK Interrup 5 */
++#define IMR_BCNDOK4				BIT21		/* Beacon Queue DMA OK Interrup 4 */
++#define IMR_BCNDOK3				BIT20		/* Beacon Queue DMA OK Interrup 3 */
++#define IMR_BCNDOK2				BIT19		/* Beacon Queue DMA OK Interrup 2 */
++#define IMR_BCNDOK1				BIT18		/* Beacon Queue DMA OK Interrup 1 */
++#define IMR_TIMEOUT2			BIT17		/* Timeout interrupt 2 */
++#define IMR_TIMEOUT1			BIT16		/* Timeout interrupt 1 */
++#define IMR_TXFOVW				BIT15		/* Transmit FIFO Overflow */
++#define IMR_PSTIMEOUT			BIT14		/* Power save time out interrupt */
++#define IMR_BcnInt				BIT13		/* Beacon DMA Interrupt 0 */
++#define IMR_RXFOVW				BIT12		/* Receive FIFO Overflow */
++#define IMR_RDU					BIT11		/* Receive Descriptor Unavailable */
++#define IMR_ATIMEND				BIT10		/* For 92C, ATIM Window End Interrupt. For 8723 and later ICs, it also means P2P CTWin End interrupt. */
++#define IMR_BDOK				BIT9		/* Beacon Queue DMA OK Interrup */
++#define IMR_HIGHDOK				BIT8		/* High Queue DMA OK Interrupt */
++#define IMR_TBDOK				BIT7		/* Transmit Beacon OK interrup */
++#define IMR_MGNTDOK			BIT6		/* Management Queue DMA OK Interrupt */
++#define IMR_TBDER				BIT5		/* For 92C, Transmit Beacon Error Interrupt */
++#define IMR_BKDOK				BIT4		/* AC_BK DMA OK Interrupt */
++#define IMR_BEDOK				BIT3		/* AC_BE DMA OK Interrupt */
++#define IMR_VIDOK				BIT2		/* AC_VI DMA OK Interrupt */
++#define IMR_VODOK				BIT1		/* AC_VO DMA Interrupt */
++#define IMR_ROK					BIT0		/* Receive DMA OK Interrupt */
++
++/* 13. Host Interrupt Status Extension Register	 (Offset: 0x012C-012Eh) */
++#define IMR_TSF_BIT32_TOGGLE	BIT15
++#define IMR_BcnInt_E				BIT12
++#define IMR_TXERR				BIT11
++#define IMR_RXERR				BIT10
++#define IMR_C2HCMD				BIT9
++#define IMR_CPWM				BIT8
++/* RSVD [2-7] */
++#define IMR_OCPINT				BIT1
++#define IMR_WLANOFF			BIT0
++
++/* ----------------------------------------------------------------------------
++ * 8723E series PCIE Host IMR/ISR bit
++ * ---------------------------------------------------------------------------- */
++/* IMR DW0 Bit 0-31 */
++#define PHIMR_TIMEOUT2				BIT31
++#define PHIMR_TIMEOUT1				BIT30
++#define PHIMR_PSTIMEOUT			BIT29
++#define PHIMR_GTINT4				BIT28
++#define PHIMR_GTINT3				BIT27
++#define PHIMR_TXBCNERR				BIT26
++#define PHIMR_TXBCNOK				BIT25
++#define PHIMR_TSF_BIT32_TOGGLE	BIT24
++#define PHIMR_BCNDMAINT3			BIT23
++#define PHIMR_BCNDMAINT2			BIT22
++#define PHIMR_BCNDMAINT1			BIT21
++#define PHIMR_BCNDMAINT0			BIT20
++#define PHIMR_BCNDOK3				BIT19
++#define PHIMR_BCNDOK2				BIT18
++#define PHIMR_BCNDOK1				BIT17
++#define PHIMR_BCNDOK0				BIT16
++#define PHIMR_HSISR_IND_ON			BIT15
++#define PHIMR_BCNDMAINT_E			BIT14
++#define PHIMR_ATIMEND_E			BIT13
++#define PHIMR_ATIM_CTW_END		BIT12
++#define PHIMR_HISRE_IND			BIT11	/* RO. HISRE Indicator (HISRE & HIMRE is true, this bit is set to 1) */
++#define PHIMR_C2HCMD				BIT10
++#define PHIMR_CPWM2				BIT9
++#define PHIMR_CPWM					BIT8
++#define PHIMR_HIGHDOK				BIT7		/* High Queue DMA OK Interrupt */
++#define PHIMR_MGNTDOK				BIT6		/* Management Queue DMA OK Interrupt */
++#define PHIMR_BKDOK					BIT5		/* AC_BK DMA OK Interrupt */
++#define PHIMR_BEDOK					BIT4		/* AC_BE DMA OK Interrupt */
++#define PHIMR_VIDOK					BIT3		/* AC_VI DMA OK Interrupt */
++#define PHIMR_VODOK				BIT2		/* AC_VO DMA Interrupt */
++#define PHIMR_RDU					BIT1		/* Receive Descriptor Unavailable */
++#define PHIMR_ROK					BIT0		/* Receive DMA OK Interrupt */
++
++/* PCIE Host Interrupt Status Extension bit */
++#define PHIMR_BCNDMAINT7			BIT23
++#define PHIMR_BCNDMAINT6			BIT22
++#define PHIMR_BCNDMAINT5			BIT21
++#define PHIMR_BCNDMAINT4			BIT20
++#define PHIMR_BCNDOK7				BIT19
++#define PHIMR_BCNDOK6				BIT18
++#define PHIMR_BCNDOK5				BIT17
++#define PHIMR_BCNDOK4				BIT16
++/* bit12 15: RSVD */
++#define PHIMR_TXERR					BIT11
++#define PHIMR_RXERR					BIT10
++#define PHIMR_TXFOVW				BIT9
++#define PHIMR_RXFOVW				BIT8
++/* bit2-7: RSVD */
++#define PHIMR_OCPINT				BIT1
++/* bit0: RSVD */
++
++#define UHIMR_TIMEOUT2				BIT31
++#define UHIMR_TIMEOUT1				BIT30
++#define UHIMR_PSTIMEOUT			BIT29
++#define UHIMR_GTINT4				BIT28
++#define UHIMR_GTINT3				BIT27
++#define UHIMR_TXBCNERR				BIT26
++#define UHIMR_TXBCNOK				BIT25
++#define UHIMR_TSF_BIT32_TOGGLE	BIT24
++#define UHIMR_BCNDMAINT3			BIT23
++#define UHIMR_BCNDMAINT2			BIT22
++#define UHIMR_BCNDMAINT1			BIT21
++#define UHIMR_BCNDMAINT0			BIT20
++#define UHIMR_BCNDOK3				BIT19
++#define UHIMR_BCNDOK2				BIT18
++#define UHIMR_BCNDOK1				BIT17
++#define UHIMR_BCNDOK0				BIT16
++#define UHIMR_HSISR_IND			BIT15
++#define UHIMR_BCNDMAINT_E			BIT14
++/* RSVD	BIT13 */
++#define UHIMR_CTW_END				BIT12
++/* RSVD	BIT11 */
++#define UHIMR_C2HCMD				BIT10
++#define UHIMR_CPWM2				BIT9
++#define UHIMR_CPWM					BIT8
++#define UHIMR_HIGHDOK				BIT7		/* High Queue DMA OK Interrupt */
++#define UHIMR_MGNTDOK				BIT6		/* Management Queue DMA OK Interrupt */
++#define UHIMR_BKDOK				BIT5		/* AC_BK DMA OK Interrupt */
++#define UHIMR_BEDOK				BIT4		/* AC_BE DMA OK Interrupt */
++#define UHIMR_VIDOK					BIT3		/* AC_VI DMA OK Interrupt */
++#define UHIMR_VODOK				BIT2		/* AC_VO DMA Interrupt */
++#define UHIMR_RDU					BIT1		/* Receive Descriptor Unavailable */
++#define UHIMR_ROK					BIT0		/* Receive DMA OK Interrupt */
++
++/* USB Host Interrupt Status Extension bit */
++#define UHIMR_BCNDMAINT7			BIT23
++#define UHIMR_BCNDMAINT6			BIT22
++#define UHIMR_BCNDMAINT5			BIT21
++#define UHIMR_BCNDMAINT4			BIT20
++#define UHIMR_BCNDOK7				BIT19
++#define UHIMR_BCNDOK6				BIT18
++#define UHIMR_BCNDOK5				BIT17
++#define UHIMR_BCNDOK4				BIT16
++/* bit14-15: RSVD */
++#define UHIMR_ATIMEND_E			BIT13
++#define UHIMR_ATIMEND				BIT12
++#define UHIMR_TXERR					BIT11
++#define UHIMR_RXERR					BIT10
++#define UHIMR_TXFOVW				BIT9
++#define UHIMR_RXFOVW				BIT8
++/* bit2-7: RSVD */
++#define UHIMR_OCPINT				BIT1
++/* bit0: RSVD */
++
++
++#define HAL_NIC_UNPLUG_ISR			0xFFFFFFFF	/* The value when the NIC is unplugged for PCI. */
++#define HAL_NIC_UNPLUG_PCI_ISR		0xEAEAEAEA	/* The value when the NIC is unplugged for PCI in PCI interrupt (page 3). */
++
++/* ----------------------------------------------------------------------------
++ * 8188 IMR/ISR bits
++ * ---------------------------------------------------------------------------- */
++#define IMR_DISABLED_88E			0x0
++/* IMR DW0(0x0060-0063) Bit 0-31 */
++#define IMR_TXCCK_88E				BIT30		/* TXRPT interrupt when CCX bit of the packet is set	 */
++#define IMR_PSTIMEOUT_88E			BIT29		/* Power Save Time Out Interrupt */
++#define IMR_GTINT4_88E				BIT28		/* When GTIMER4 expires, this bit is set to 1	 */
++#define IMR_GTINT3_88E				BIT27		/* When GTIMER3 expires, this bit is set to 1	 */
++#define IMR_TBDER_88E				BIT26		/* Transmit Beacon0 Error			 */
++#define IMR_TBDOK_88E				BIT25		/* Transmit Beacon0 OK			 */
++#define IMR_TSF_BIT32_TOGGLE_88E	BIT24		/* TSF Timer BIT32 toggle indication interrupt			 */
++#define IMR_BCNDMAINT0_88E		BIT20		/* Beacon DMA Interrupt 0			 */
++#define IMR_BCNDERR0_88E			BIT16		/* Beacon Queue DMA Error 0 */
++#define IMR_HSISR_IND_ON_INT_88E	BIT15		/* HSISR Indicator (HSIMR & HSISR is true, this bit is set to 1)			 */
++#define IMR_BCNDMAINT_E_88E		BIT14		/* Beacon DMA Interrupt Extension for Win7			 */
++#define IMR_ATIMEND_88E			BIT12		/* CTWidnow End or ATIM Window End */
++#define IMR_HISR1_IND_INT_88E		BIT11		/* HISR1 Indicator (HISR1 & HIMR1 is true, this bit is set to 1) */
++#define IMR_C2HCMD_88E				BIT10		/* CPU to Host Command INT Status, Write 1 clear	 */
++#define IMR_CPWM2_88E				BIT9			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define IMR_CPWM_88E				BIT8			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define IMR_HIGHDOK_88E			BIT7			/* High Queue DMA OK	 */
++#define IMR_MGNTDOK_88E			BIT6			/* Management Queue DMA OK	 */
++#define IMR_BKDOK_88E				BIT5			/* AC_BK DMA OK		 */
++#define IMR_BEDOK_88E				BIT4			/* AC_BE DMA OK	 */
++#define IMR_VIDOK_88E				BIT3			/* AC_VI DMA OK		 */
++#define IMR_VODOK_88E				BIT2			/* AC_VO DMA OK	 */
++#define IMR_RDU_88E					BIT1			/* Rx Descriptor Unavailable	 */
++#define IMR_ROK_88E					BIT0			/* Receive DMA OK */
++
++/* IMR DW1(0x00B4-00B7) Bit 0-31 */
++#define IMR_BCNDMAINT7_88E		BIT27		/* Beacon DMA Interrupt 7 */
++#define IMR_BCNDMAINT6_88E		BIT26		/* Beacon DMA Interrupt 6 */
++#define IMR_BCNDMAINT5_88E		BIT25		/* Beacon DMA Interrupt 5 */
++#define IMR_BCNDMAINT4_88E		BIT24		/* Beacon DMA Interrupt 4 */
++#define IMR_BCNDMAINT3_88E		BIT23		/* Beacon DMA Interrupt 3 */
++#define IMR_BCNDMAINT2_88E		BIT22		/* Beacon DMA Interrupt 2 */
++#define IMR_BCNDMAINT1_88E		BIT21		/* Beacon DMA Interrupt 1 */
++#define IMR_BCNDOK7_88E			BIT20		/* Beacon Queue DMA OK Interrup 7 */
++#define IMR_BCNDOK6_88E			BIT19		/* Beacon Queue DMA OK Interrup 6 */
++#define IMR_BCNDOK5_88E			BIT18		/* Beacon Queue DMA OK Interrup 5 */
++#define IMR_BCNDOK4_88E			BIT17		/* Beacon Queue DMA OK Interrup 4 */
++#define IMR_BCNDOK3_88E			BIT16		/* Beacon Queue DMA OK Interrup 3 */
++#define IMR_BCNDOK2_88E			BIT15		/* Beacon Queue DMA OK Interrup 2 */
++#define IMR_BCNDOK1_88E			BIT14		/* Beacon Queue DMA OK Interrup 1 */
++#define IMR_ATIMEND_E_88E			BIT13		/* ATIM Window End Extension for Win7 */
++#define IMR_TXERR_88E				BIT11		/* Tx Error Flag Interrupt Status, write 1 clear. */
++#define IMR_RXERR_88E				BIT10		/* Rx Error Flag INT Status, Write 1 clear */
++#define IMR_TXFOVW_88E				BIT9			/* Transmit FIFO Overflow */
++#define IMR_RXFOVW_88E				BIT8			/* Receive FIFO Overflow */
++
++/*===================================================================
++=====================================================================
++Here the register defines are for 92C. When the define is as same with 92C,
++we will use the 92C's define for the consistency
++So the following defines for 92C is not entire!!!!!!
++=====================================================================
++=====================================================================*/
++/*
++Based on Datasheet V33---090401
++Register Summary
++Current IOREG MAP
++0x0000h ~ 0x00FFh   System Configuration (256 Bytes)
++0x0100h ~ 0x01FFh   MACTOP General Configuration (256 Bytes)
++0x0200h ~ 0x027Fh   TXDMA Configuration (128 Bytes)
++0x0280h ~ 0x02FFh   RXDMA Configuration (128 Bytes)
++0x0300h ~ 0x03FFh   PCIE EMAC Reserved Region (256 Bytes)
++0x0400h ~ 0x04FFh   Protocol Configuration (256 Bytes)
++0x0500h ~ 0x05FFh   EDCA Configuration (256 Bytes)
++0x0600h ~ 0x07FFh   WMAC Configuration (512 Bytes)
++0x2000h ~ 0x3FFFh   8051 FW Download Region (8196 Bytes)
++*/
++/* ---------------------------------------------------------------------------- */
++/*		 8192C (TXPAUSE) transmission pause 	(Offset 0x522, 8 bits) */
++/* ---------------------------------------------------------------------------- */
++/* Note:
++*	The the bits of stoping AC(VO/VI/BE/BK) queue in datasheet RTL8192S/RTL8192C are wrong,
++*	the correct arragement is VO - Bit0, VI - Bit1, BE - Bit2, and BK - Bit3.
++*	8723 and 88E may be not correct either in the eralier version. Confirmed with DD Tim.
++* By Bruce, 2011-09-22. */
++#define StopBecon		BIT6
++#define StopHigh			BIT5
++#define StopMgt			BIT4
++#define StopBK			BIT3
++#define StopBE			BIT2
++#define StopVI			BIT1
++#define StopVO			BIT0
++
++/* ----------------------------------------------------------------------------
++ * 8192C (RCR) Receive Configuration Register	(Offset 0x608, 32 bits)
++ * ---------------------------------------------------------------------------- */
++#define RCR_APPFCS				BIT31	/* WMAC append FCS after pauload */
++#define RCR_APP_MIC				BIT30	/* MACRX will retain the MIC at the bottom of the packet. */
++#define RCR_APP_ICV				BIT29	/* MACRX will retain the ICV at the bottom of the packet. */
++#define RCR_APP_PHYST_RXFF		BIT28	/* PHY Status is appended before RX packet in RXFF */
++#define RCR_APP_BA_SSN			BIT27	/* SSN of previous TXBA is appended as after original RXDESC as the 4-th DW of RXDESC. */
++#define RCR_VHT_DACK			BIT26	/* This bit to control response type for vht single mpdu data packet. 1. ACK as response 0. BA as response */
++#define RCR_TCPOFLD_EN			BIT25	/* Enable TCP checksum offload */
++#define RCR_ENMBID				BIT24	/* Enable Multiple BssId. Only response ACK to the packets whose DID(A1) matching to the addresses in the MBSSID CAM Entries. */
++#define RCR_LSIGEN				BIT23	/* Enable LSIG TXOP Protection function. Search KEYCAM for each rx packet to check if LSIGEN bit is set. */
++#define RCR_MFBEN				BIT22	/* Enable immediate MCS Feedback function. When Rx packet with MRQ = 1'b1, then search KEYCAM to find sender's MCS Feedback function and send response. */
++#define RCR_DISCHKPPDLLEN		BIT21	/* Do not check PPDU while the PPDU length is smaller than 14 byte. */
++#define RCR_PKTCTL_DLEN			BIT20	/* While rx path dead lock occurs, reset rx path */
++#define RCR_DISGCLK				BIT19	/* Disable macrx clock gating control (no used) */
++#define RCR_TIM_PARSER_EN		BIT18	/* RX Beacon TIM Parser. */
++#define RCR_BC_MD_EN			BIT17	/* Broadcast data packet more data bit check interrupt enable.*/
++#define RCR_UC_MD_EN			BIT16	/* Unicast data packet more data bit check interrupt enable. */
++#define RCR_RXSK_PERPKT			BIT15	/* Executing key search per MPDU */
++#define RCR_HTC_LOC_CTRL		BIT14	/* MFC<--HTC = 1 MFC-->HTC = 0 */
++#define RCR_AMF					BIT13	/* Accept management type frame */
++#define RCR_ACF					BIT12	/* Accept control type frame. Control frames BA, BAR, and PS-Poll (when in AP mode) are not controlled by this bit. They are controlled by ADF. */
++#define RCR_ADF					BIT11	/* Accept data type frame. This bit also regulates BA, BAR, and PS-Poll (AP mode only). */
++#define RCR_DISDECMYPKT			BIT10	/* This bit determines whether hw need to do decryption.1: If A1 match, do decryption.0: Do decryption. */
++#define RCR_AICV					BIT9		/* Accept ICV error packet */
++#define RCR_ACRC32				BIT8		/* Accept CRC32 error packet */
++#define RCR_CBSSID_BCN			BIT7		/* Accept BSSID match packet (Rx beacon, probe rsp) */
++#define RCR_CBSSID_DATA		BIT6		/* Accept BSSID match packet (Data) */
++#define RCR_APWRMGT			BIT5		/* Accept power management packet */
++#define RCR_ADD3				BIT4		/* Accept address 3 match packet */
++#define RCR_AB					BIT3		/* Accept broadcast packet */
++#define RCR_AM					BIT2		/* Accept multicast packet */
++#define RCR_APM					BIT1		/* Accept physical match packet */
++#define RCR_AAP					BIT0		/* Accept all unicast packet */
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0000h ~ 0x00FFh	System Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* 2 SYS_ISO_CTRL */
++#define ISO_MD2PP				BIT(0)
++#define ISO_UA2USB				BIT(1)
++#define ISO_UD2CORE				BIT(2)
++#define ISO_PA2PCIE				BIT(3)
++#define ISO_PD2CORE				BIT(4)
++#define ISO_IP2MAC				BIT(5)
++#define ISO_DIOP					BIT(6)
++#define ISO_DIOE					BIT(7)
++#define ISO_EB2CORE				BIT(8)
++#define ISO_DIOR					BIT(9)
++#define PWC_EV12V				BIT(15)
++
++
++/* 2 SYS_FUNC_EN */
++#define FEN_BBRSTB				BIT(0)
++#define FEN_BB_GLB_RSTn		BIT(1)
++#define FEN_USBA				BIT(2)
++#define FEN_UPLL				BIT(3)
++#define FEN_USBD				BIT(4)
++#define FEN_DIO_PCIE			BIT(5)
++#define FEN_PCIEA				BIT(6)
++#define FEN_PPLL					BIT(7)
++#define FEN_PCIED				BIT(8)
++#define FEN_DIOE				BIT(9)
++#define FEN_CPUEN				BIT(10)
++#define FEN_DCORE				BIT(11)
++#define FEN_ELDR				BIT(12)
++#define FEN_EN_25_1				BIT(13)
++#define FEN_HWPDN				BIT(14)
++#define FEN_MREGEN				BIT(15)
++
++/* 2 APS_FSMCO */
++#define PFM_LDALL				BIT(0)
++#define PFM_ALDN				BIT(1)
++#define PFM_LDKP				BIT(2)
++#define PFM_WOWL				BIT(3)
++#define EnPDN					BIT(4)
++#define PDN_PL					BIT(5)
++#define APFM_ONMAC				BIT(8)
++#define APFM_OFF				BIT(9)
++#define APFM_RSM				BIT(10)
++#define AFSM_HSUS				BIT(11)
++#define AFSM_PCIE				BIT(12)
++#define APDM_MAC				BIT(13)
++#define APDM_HOST				BIT(14)
++#define APDM_HPDN				BIT(15)
++#define RDY_MACON				BIT(16)
++#define SUS_HOST				BIT(17)
++#define ROP_ALD					BIT(20)
++#define ROP_PWR					BIT(21)
++#define ROP_SPS					BIT(22)
++#define SOP_MRST				BIT(25)
++#define SOP_FUSE				BIT(26)
++#define SOP_ABG					BIT(27)
++#define SOP_AMB					BIT(28)
++#define SOP_RCK					BIT(29)
++#define SOP_A8M					BIT(30)
++#define XOP_BTCK				BIT(31)
++
++/* 2 SYS_CLKR */
++#define ANAD16V_EN				BIT(0)
++#define ANA8M					BIT(1)
++#define MACSLP					BIT(4)
++#define LOADER_CLK_EN			BIT(5)
++
++
++/* 2 9346CR /REG_SYS_EEPROM_CTRL */
++#define BOOT_FROM_EEPROM		BIT(4)
++#define EEPROMSEL				BIT(4)
++#define EEPROM_EN				BIT(5)
++
++
++/* 2 RF_CTRL */
++#define RF_EN					BIT(0)
++#define RF_RSTB					BIT(1)
++#define RF_SDMRSTB				BIT(2)
++
++
++/* 2 LDOV12D_CTRL */
++#define LDV12_EN				BIT(0)
++#define LDV12_SDBY				BIT(1)
++#define LPLDO_HSM				BIT(2)
++#define LPLDO_LSM_DIS			BIT(3)
++#define _LDV12_VADJ(x)			(((x) & 0xF) << 4)
++
++
++
++/* 2 EFUSE_TEST (For RTL8723 partially) */
++#define EF_TRPT					BIT(7)
++#define EF_CELL_SEL				(BIT(8) | BIT(9)) /* 00: Wifi Efuse, 01: BT Efuse0, 10: BT Efuse1, 11: BT Efuse2 */
++#define LDOE25_EN				BIT(31)
++#define EFUSE_SEL(x)				(((x) & 0x3) << 8)
++#define EFUSE_SEL_MASK			0x300
++#define EFUSE_WIFI_SEL_0		0x0
++#define EFUSE_BT_SEL_0			0x1
++#define EFUSE_BT_SEL_1			0x2
++#define EFUSE_BT_SEL_2			0x3
++
++
++/* 2 8051FWDL
++ * 2 MCUFWDL */
++#define MCUFWDL_EN				BIT(0)
++#define MCUFWDL_RDY			BIT(1)
++#define FWDL_ChkSum_rpt		BIT(2)
++#define MACINI_RDY				BIT(3)
++#define BBINI_RDY				BIT(4)
++#define RFINI_RDY				BIT(5)
++#define WINTINI_RDY				BIT(6)
++#define RAM_DL_SEL				BIT(7)
++#define CPU_DL_READY			BIT(15) /* add flag  by gw for fw download ready 20130826 */
++#define ROM_DLEN				BIT(19)
++#define CPRST					BIT(23)
++
++
++/* 2 REG_SYS_CFG */
++#define XCLK_VLD				BIT(0)
++#define ACLK_VLD				BIT(1)
++#define UCLK_VLD				BIT(2)
++#define PCLK_VLD				BIT(3)
++#define PCIRSTB					BIT(4)
++#define V15_VLD					BIT(5)
++#define SW_OFFLOAD_EN			BIT(7)
++#define SIC_IDLE					BIT(8)
++#define BD_MAC2					BIT(9)
++#define BD_MAC1					BIT(10)
++#define IC_MACPHY_MODE		BIT(11)
++#define CHIP_VER				(BIT(12) | BIT(13) | BIT(14) | BIT(15))
++#define BT_FUNC					BIT(16)
++#define VENDOR_ID				BIT(19)
++#define EXT_VENDOR_ID			(BIT(18) | BIT(19)) /* Currently only for RTL8723B */
++#define PAD_HWPD_IDN			BIT(22)
++#define TRP_VAUX_EN				BIT(23)	/* RTL ID */
++#define TRP_BT_EN				BIT(24)
++#define BD_PKG_SEL				BIT(25)
++#define BD_HCI_SEL				BIT(26)
++#define TYPE_ID					BIT(27)
++#define RF_TYPE_ID				BIT(27)
++
++#define RTL_ID					BIT(23) /* TestChip ID, 1:Test(RLE); 0:MP(RL) */
++#define SPS_SEL					BIT(24) /* 1:LDO regulator mode; 0:Switching regulator mode */
++
++
++#define CHIP_VER_RTL_MASK		0xF000	/* Bit 12 ~ 15 */
++#define CHIP_VER_RTL_SHIFT		12
++#define EXT_VENDOR_ID_SHIFT	18
++
++/* 2 REG_GPIO_OUTSTS (For RTL8723 only) */
++#define EFS_HCI_SEL				(BIT(0) | BIT(1))
++#define PAD_HCI_SEL				(BIT(2) | BIT(3))
++#define HCI_SEL					(BIT(4) | BIT(5))
++#define PKG_SEL_HCI				BIT(6)
++#define FEN_GPS					BIT(7)
++#define FEN_BT					BIT(8)
++#define FEN_WL					BIT(9)
++#define FEN_PCI					BIT(10)
++#define FEN_USB					BIT(11)
++#define BTRF_HWPDN_N			BIT(12)
++#define WLRF_HWPDN_N			BIT(13)
++#define PDN_BT_N				BIT(14)
++#define PDN_GPS_N				BIT(15)
++#define BT_CTL_HWPDN			BIT(16)
++#define GPS_CTL_HWPDN			BIT(17)
++#define PPHY_SUSB				BIT(20)
++#define UPHY_SUSB				BIT(21)
++#define PCI_SUSEN				BIT(22)
++#define USB_SUSEN				BIT(23)
++#define RF_RL_ID					(BIT(31) | BIT(30) | BIT(29) | BIT(28))
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* 2 Function Enable Registers
++ * 2 CR */
++#define HCI_TXDMA_EN			BIT(0)
++#define HCI_RXDMA_EN			BIT(1)
++#define TXDMA_EN				BIT(2)
++#define RXDMA_EN				BIT(3)
++#define PROTOCOL_EN				BIT(4)
++#define SCHEDULE_EN				BIT(5)
++#define MACTXEN					BIT(6)
++#define MACRXEN					BIT(7)
++#define ENSWBCN					BIT(8)
++#define ENSEC					BIT(9)
++#define CALTMR_EN				BIT(10)	/* 32k CAL TMR enable */
++
++/* Network type */
++#define _NETTYPE(x)				(((x) & 0x3) << 16)
++#define MASK_NETTYPE			0x30000
++#define NT_NO_LINK				0x0
++#define NT_LINK_AD_HOC			0x1
++#define NT_LINK_AP				0x2
++#define NT_AS_AP				0x3
++
++/* 2 PBP - Page Size Register */
++#define GET_RX_PAGE_SIZE(value)			((value) & 0xF)
++#define GET_TX_PAGE_SIZE(value)			(((value) & 0xF0) >> 4)
++#define _PSRX_MASK				0xF
++#define _PSTX_MASK				0xF0
++#define _PSRX(x)				(x)
++#define _PSTX(x)				((x) << 4)
++
++#define PBP_64					0x0
++#define PBP_128					0x1
++#define PBP_256					0x2
++#define PBP_512					0x3
++#define PBP_1024				0x4
++
++
++/* 2 TX/RXDMA */
++#define RXDMA_ARBBW_EN		BIT(0)
++#define RXSHFT_EN				BIT(1)
++#define RXDMA_AGG_EN			BIT(2)
++#define QS_VO_QUEUE			BIT(8)
++#define QS_VI_QUEUE				BIT(9)
++#define QS_BE_QUEUE			BIT(10)
++#define QS_BK_QUEUE			BIT(11)
++#define QS_MANAGER_QUEUE		BIT(12)
++#define QS_HIGH_QUEUE			BIT(13)
++
++#define HQSEL_VOQ				BIT(0)
++#define HQSEL_VIQ				BIT(1)
++#define HQSEL_BEQ				BIT(2)
++#define HQSEL_BKQ				BIT(3)
++#define HQSEL_MGTQ				BIT(4)
++#define HQSEL_HIQ				BIT(5)
++
++/* For normal driver, 0x10C */
++#define _TXDMA_CMQ_MAP(x)			(((x) & 0x3) << 16)
++#define _TXDMA_HIQ_MAP(x)			(((x) & 0x3) << 14)
++#define _TXDMA_MGQ_MAP(x)			(((x) & 0x3) << 12)
++#define _TXDMA_BKQ_MAP(x)			(((x) & 0x3) << 10)
++#define _TXDMA_BEQ_MAP(x)			(((x) & 0x3) << 8)
++#define _TXDMA_VIQ_MAP(x)			(((x) & 0x3) << 6)
++#define _TXDMA_VOQ_MAP(x)			(((x) & 0x3) << 4)
++
++#define QUEUE_EXTRA				0
++#define QUEUE_LOW				1
++#define QUEUE_NORMAL			2
++#define QUEUE_HIGH				3
++
++
++/* 2 TRXFF_BNDY */
++
++
++/* 2 LLT_INIT */
++#define _LLT_NO_ACTIVE				0x0
++#define _LLT_WRITE_ACCESS			0x1
++#define _LLT_READ_ACCESS			0x2
++
++#define _LLT_INIT_DATA(x)			((x) & 0xFF)
++#define _LLT_INIT_ADDR(x)			(((x) & 0xFF) << 8)
++#define _LLT_OP(x)					(((x) & 0x3) << 30)
++#define _LLT_OP_VALUE(x)			(((x) >> 30) & 0x3)
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++/* 2 RQPN */
++#define _HPQ(x)					((x) & 0xFF)
++#define _LPQ(x)					(((x) & 0xFF) << 8)
++#define _PUBQ(x)					(((x) & 0xFF) << 16)
++#define _NPQ(x)					((x) & 0xFF)			/* NOTE: in RQPN_NPQ register */
++#define _EPQ(x)					(((x) & 0xFF) << 16)	/* NOTE: in RQPN_EPQ register */
++
++
++#define HPQ_PUBLIC_DIS			BIT(24)
++#define LPQ_PUBLIC_DIS			BIT(25)
++#define LD_RQPN					BIT(31)
++
++
++/* 2 TDECTL */
++#define BLK_DESC_NUM_SHIFT			4
++#define BLK_DESC_NUM_MASK			0xF
++
++
++/* 2 TXDMA_OFFSET_CHK */
++#define DROP_DATA_EN				BIT(9)
++
++/* 2 AUTO_LLT */
++#define BIT_SHIFT_TXPKTNUM 24
++#define BIT_MASK_TXPKTNUM 0xff
++#define BIT_TXPKTNUM(x) (((x) & BIT_MASK_TXPKTNUM) << BIT_SHIFT_TXPKTNUM)
++
++#define BIT_TDE_DBG_SEL BIT(23)
++#define BIT_AUTO_INIT_LLT BIT(16)
++
++#define BIT_SHIFT_Tx_OQT_free_space 8
++#define BIT_MASK_Tx_OQT_free_space 0xff
++#define BIT_Tx_OQT_free_space(x) (((x) & BIT_MASK_Tx_OQT_free_space) << BIT_SHIFT_Tx_OQT_free_space)
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x028Bh	RX DMA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* 2 REG_RXDMA_CONTROL, 0x0286h
++ * Write only. When this bit is set, RXDMA will decrease RX PKT counter by one. Before
++ * this bit is polled, FW shall update RXFF_RD_PTR first. This register is write pulse and auto clear.
++ * #define RXPKT_RELEASE_POLL			BIT(0)
++ * Read only. When RXMA finishes on-going DMA operation, RXMDA will report idle state in
++ * this bit. FW can start releasing packets after RXDMA entering idle mode.
++ * #define RXDMA_IDLE					BIT(1)
++ * When this bit is set, RXDMA will enter this mode after on-going RXDMA packet to host
++ * completed, and stop DMA packet to host. RXDMA will then report Default: 0;
++ * #define RW_RELEASE_EN				BIT(2) */
++
++/* 2 REG_RXPKT_NUM, 0x0284 */
++#define	RXPKT_RELEASE_POLL	BIT(16)
++#define	RXDMA_IDLE				BIT(17)
++#define	RW_RELEASE_EN			BIT(18)
++
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++/* 2 FWHW_TXQ_CTRL */
++#define EN_AMPDU_RTY_NEW			BIT(7)
++
++
++/* 2 SPEC SIFS */
++#define _SPEC_SIFS_CCK(x)			((x) & 0xFF)
++#define _SPEC_SIFS_OFDM(x)			(((x) & 0xFF) << 8)
++
++/* 2 RL */
++#define	RETRY_LIMIT_SHORT_SHIFT			8
++#define	RETRY_LIMIT_LONG_SHIFT			0
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* 2 EDCA setting */
++#define AC_PARAM_TXOP_LIMIT_OFFSET		16
++#define AC_PARAM_ECW_MAX_OFFSET			12
++#define AC_PARAM_ECW_MIN_OFFSET			8
++#define AC_PARAM_AIFS_OFFSET				0
++
++
++#define _LRL(x)					((x) & 0x3F)
++#define _SRL(x)					(((x) & 0x3F) << 8)
++
++
++/* 2 BCN_CTRL */
++#define EN_TXBCN_RPT			BIT(2)
++#define EN_BCN_FUNCTION		BIT(3)
++#define STOP_BCNQ				BIT(6)
++#define DIS_RX_BSSID_FIT		BIT(6)
++
++#define DIS_ATIM					BIT(0)
++#define DIS_BCNQ_SUB			BIT(1)
++#define DIS_TSF_UDT				BIT(4)
++
++/* The same function but different bit field. */
++#define DIS_TSF_UDT0_NORMAL_CHIP	BIT(4)
++#define DIS_TSF_UDT0_TEST_CHIP	BIT(5)
++
++
++/* 2 ACMHWCTRL */
++#define AcmHw_HwEn				BIT(0)
++#define AcmHw_BeqEn			BIT(1)
++#define AcmHw_ViqEn				BIT(2)
++#define AcmHw_VoqEn			BIT(3)
++#define AcmHw_BeqStatus		BIT(4)
++#define AcmHw_ViqStatus			BIT(5)
++#define AcmHw_VoqStatus		BIT(6)
++
++/* 2 */ /* REG_DUAL_TSF_RST (0x553) */
++#define DUAL_TSF_RST_P2P		BIT(4)
++
++/* 2 */ /* REG_NOA_DESC_SEL (0x5CF) */
++#define NOA_DESC_SEL_0			0
++#define NOA_DESC_SEL_1			BIT(4)
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* 2 APSD_CTRL */
++#define APSDOFF					BIT(6)
++
++/* 2 TCR */
++#define TSFRST					BIT(0)
++#define DIS_GCLK					BIT(1)
++#define PAD_SEL					BIT(2)
++#define PWR_ST					BIT(6)
++#define PWRBIT_OW_EN			BIT(7)
++#define ACRC						BIT(8)
++#define CFENDFORM				BIT(9)
++#define ICV						BIT(10)
++
++
++/* 2 RCR */
++#define AAP						BIT(0)
++#define APM						BIT(1)
++#define AM						BIT(2)
++#define AB						BIT(3)
++#define ADD3						BIT(4)
++#define APWRMGT				BIT(5)
++#define CBSSID					BIT(6)
++#define CBSSID_DATA				BIT(6)
++#define CBSSID_BCN				BIT(7)
++#define ACRC32					BIT(8)
++#define AICV						BIT(9)
++#define ADF						BIT(11)
++#define ACF						BIT(12)
++#define AMF						BIT(13)
++#define HTC_LOC_CTRL			BIT(14)
++#define UC_DATA_EN				BIT(16)
++#define BM_DATA_EN				BIT(17)
++#define MFBEN					BIT(22)
++#define LSIGEN					BIT(23)
++#define EnMBID					BIT(24)
++#define FORCEACK				BIT(26)
++#define APP_BASSN				BIT(27)
++#define APP_PHYSTS				BIT(28)
++#define APP_ICV					BIT(29)
++#define APP_MIC					BIT(30)
++#define APP_FCS					BIT(31)
++
++
++/* 2 SECCFG */
++#define SCR_TxUseDK				BIT(0)			/* Force Tx Use Default Key */
++#define SCR_RxUseDK				BIT(1)			/* Force Rx Use Default Key */
++#define SCR_TxEncEnable			BIT(2)			/* Enable Tx Encryption */
++#define SCR_RxDecEnable			BIT(3)			/* Enable Rx Decryption */
++#define SCR_SKByA2				BIT(4)			/* Search kEY BY A2 */
++#define SCR_NoSKMC				BIT(5)			/* No Key Search Multicast */
++#define SCR_TXBCUSEDK			BIT(6)			/* Force Tx Broadcast packets Use Default Key */
++#define SCR_RXBCUSEDK			BIT(7)			/* Force Rx Broadcast packets Use Default Key */
++#define SCR_CHK_KEYID			BIT(8)
++#define SCR_CHK_BMC				BIT(9)			/* add option to support a2+keyid+bcm */
++
++/*REG_MBIDCAMCFG           (Offset 0x0628/0x62C)*/
++#define BIT_MBIDCAM_POLL		BIT(31)
++#define BIT_MBIDCAM_WT_EN		BIT(30)
++
++#define MBIDCAM_ADDR_MASK		0x1F
++#define MBIDCAM_ADDR_SHIFT		24
++
++#define BIT_MBIDCAM_VALID		BIT(23)
++#define BIT_LSIC_TXOP_EN		BIT(17)
++#define BIT_CTS_EN				BIT(16)
++
++/* -----------------------------------------------------
++ *
++ *	SDIO Bus Specification
++ *
++ * ----------------------------------------------------- */
++
++/* I/O bus domain address mapping */
++#define SDIO_LOCAL_BASE		0x10250000
++#define WLAN_IOREG_BASE		0x10260000
++#define FIRMWARE_FIFO_BASE	0x10270000
++#define TX_HIQ_BASE				0x10310000
++#define TX_MIQ_BASE				0x10320000
++#define TX_LOQ_BASE				0x10330000
++#define TX_EPQ_BASE				0x10350000
++#define RX_RX0FF_BASE			0x10340000
++
++/* SDIO host local register space mapping. */
++#define SDIO_LOCAL_MSK				0x0FFF
++#define WLAN_IOREG_MSK		0x7FFF
++#define WLAN_FIFO_MSK			      	0x1FFF	/* Aggregation Length[12:0] */
++#define WLAN_RX0FF_MSK				0x0003
++
++#define SDIO_WITHOUT_REF_DEVICE_ID	0	/* Without reference to the SDIO Device ID */
++#define SDIO_LOCAL_DEVICE_ID           		0	/* 0b[16], 000b[15:13] */
++#define WLAN_TX_HIQ_DEVICE_ID			4	/* 0b[16], 100b[15:13] */
++#define WLAN_TX_MIQ_DEVICE_ID 		5	/* 0b[16], 101b[15:13] */
++#define WLAN_TX_LOQ_DEVICE_ID 		6	/* 0b[16], 110b[15:13] */
++#define WLAN_TX_EXQ_DEVICE_ID		3	/* 0b[16], 011b[15:13] */
++#define WLAN_RX0FF_DEVICE_ID 			7	/* 0b[16], 111b[15:13] */
++#define WLAN_IOREG_DEVICE_ID 			8	/* 1b[16] */
++
++/* SDIO Tx Free Page Index */
++#define HI_QUEUE_IDX			0
++#define MID_QUEUE_IDX			1
++#define LOW_QUEUE_IDX				2
++#define PUBLIC_QUEUE_IDX			3
++
++#define SDIO_MAX_TX_QUEUE			3		/* HIQ, MIQ and LOQ */
++#define SDIO_MAX_RX_QUEUE			1
++
++#define SDIO_REG_TX_CTRL			0x0000 /* SDIO Tx Control */
++#define SDIO_REG_HIMR				0x0014 /* SDIO Host Interrupt Mask */
++#define SDIO_REG_HISR				0x0018 /* SDIO Host Interrupt Service Routine */
++#define SDIO_REG_HCPWM			0x0019 /* HCI Current Power Mode */
++#define SDIO_REG_RX0_REQ_LEN		0x001C /* RXDMA Request Length */
++#define SDIO_REG_OQT_FREE_PG		0x001E /* OQT Free Page */
++#define SDIO_REG_FREE_TXPG			0x0020 /* Free Tx Buffer Page */
++#define SDIO_REG_HCPWM1			0x0024 /* HCI Current Power Mode 1 */
++#define SDIO_REG_HCPWM2			0x0026 /* HCI Current Power Mode 2 */
++#define SDIO_REG_FREE_TXPG_SEQ	0x0028 /* Free Tx Page Sequence */
++#define SDIO_REG_HTSFR_INFO		0x0030 /* HTSF Informaion */
++#define SDIO_REG_HRPWM1			0x0080 /* HCI Request Power Mode 1 */
++#define SDIO_REG_HRPWM2			0x0082 /* HCI Request Power Mode 2 */
++#define SDIO_REG_HPS_CLKR			0x0084 /* HCI Power Save Clock */
++#define SDIO_REG_HSUS_CTRL			0x0086 /* SDIO HCI Suspend Control */
++#define SDIO_REG_HIMR_ON			0x0090 /* SDIO Host Extension Interrupt Mask Always */
++#define SDIO_REG_HISR_ON			0x0091 /* SDIO Host Extension Interrupt Status Always */
++
++#define SDIO_HIMR_DISABLED			0
++
++/* RTL8723/RTL8188E SDIO Host Interrupt Mask Register */
++#define SDIO_HIMR_RX_REQUEST_MSK		BIT0
++#define SDIO_HIMR_AVAL_MSK			BIT1
++#define SDIO_HIMR_TXERR_MSK			BIT2
++#define SDIO_HIMR_RXERR_MSK			BIT3
++#define SDIO_HIMR_TXFOVW_MSK			BIT4
++#define SDIO_HIMR_RXFOVW_MSK			BIT5
++#define SDIO_HIMR_TXBCNOK_MSK			BIT6
++#define SDIO_HIMR_TXBCNERR_MSK		BIT7
++#define SDIO_HIMR_BCNERLY_INT_MSK		BIT16
++#define SDIO_HIMR_C2HCMD_MSK			BIT17
++#define SDIO_HIMR_CPWM1_MSK			BIT18
++#define SDIO_HIMR_CPWM2_MSK			BIT19
++#define SDIO_HIMR_HSISR_IND_MSK		BIT20
++#define SDIO_HIMR_GTINT3_IND_MSK		BIT21
++#define SDIO_HIMR_GTINT4_IND_MSK		BIT22
++#define SDIO_HIMR_PSTIMEOUT_MSK		BIT23
++#define SDIO_HIMR_OCPINT_MSK			BIT24
++#define SDIO_HIMR_ATIMEND_MSK			BIT25
++#define SDIO_HIMR_ATIMEND_E_MSK		BIT26
++#define SDIO_HIMR_CTWEND_MSK			BIT27
++
++/* RTL8188E SDIO Specific */
++#define SDIO_HIMR_MCU_ERR_MSK			BIT28
++#define SDIO_HIMR_TSF_BIT32_TOGGLE_MSK		BIT29
++
++/* SDIO Host Interrupt Service Routine */
++#define SDIO_HISR_RX_REQUEST			BIT0
++#define SDIO_HISR_AVAL					BIT1
++#define SDIO_HISR_TXERR					BIT2
++#define SDIO_HISR_RXERR					BIT3
++#define SDIO_HISR_TXFOVW				BIT4
++#define SDIO_HISR_RXFOVW				BIT5
++#define SDIO_HISR_TXBCNOK				BIT6
++#define SDIO_HISR_TXBCNERR				BIT7
++#define SDIO_HISR_BCNERLY_INT			BIT16
++#define SDIO_HISR_C2HCMD				BIT17
++#define SDIO_HISR_CPWM1				BIT18
++#define SDIO_HISR_CPWM2				BIT19
++#define SDIO_HISR_HSISR_IND			BIT20
++#define SDIO_HISR_GTINT3_IND			BIT21
++#define SDIO_HISR_GTINT4_IND			BIT22
++#define SDIO_HISR_PSTIMEOUT			BIT23
++#define SDIO_HISR_OCPINT				BIT24
++#define SDIO_HISR_ATIMEND				BIT25
++#define SDIO_HISR_ATIMEND_E			BIT26
++#define SDIO_HISR_CTWEND				BIT27
++
++/* RTL8188E SDIO Specific */
++#define SDIO_HISR_MCU_ERR				BIT28
++#define SDIO_HISR_TSF_BIT32_TOGGLE	BIT29
++
++#define MASK_SDIO_HISR_CLEAR		(SDIO_HISR_TXERR |\
++		SDIO_HISR_RXERR |\
++		SDIO_HISR_TXFOVW |\
++		SDIO_HISR_RXFOVW |\
++		SDIO_HISR_TXBCNOK |\
++		SDIO_HISR_TXBCNERR |\
++		SDIO_HISR_C2HCMD |\
++		SDIO_HISR_CPWM1 |\
++		SDIO_HISR_CPWM2 |\
++		SDIO_HISR_HSISR_IND |\
++		SDIO_HISR_GTINT3_IND |\
++		SDIO_HISR_GTINT4_IND |\
++		SDIO_HISR_PSTIMEOUT |\
++		SDIO_HISR_OCPINT)
++
++/* SDIO HCI Suspend Control Register */
++#define HCI_RESUME_PWR_RDY			BIT1
++#define HCI_SUS_CTRL					BIT0
++
++/* SDIO Tx FIFO related */
++#define SDIO_TX_FREE_PG_QUEUE			4	/* The number of Tx FIFO free page */
++#define SDIO_TX_FIFO_PAGE_SZ			128
++
++#ifdef CONFIG_SDIO_HCI
++	#define MAX_TX_AGG_PACKET_NUMBER	0x8
++#else
++	#define MAX_TX_AGG_PACKET_NUMBER	0xFF
++	#define MAX_TX_AGG_PACKET_NUMBER_8812	64
++#endif
++
++/* -----------------------------------------------------
++ *
++ *	0xFE00h ~ 0xFE55h	USB Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* 2 USB Information (0xFE17) */
++#define USB_IS_HIGH_SPEED			0
++#define USB_IS_FULL_SPEED			1
++#define USB_SPEED_MASK				BIT(5)
++
++#define USB_NORMAL_SIE_EP_MASK	0xF
++#define USB_NORMAL_SIE_EP_SHIFT	4
++
++/* 2 Special Option */
++#define USB_AGG_EN				BIT(3)
++
++/* 0; Use interrupt endpoint to upload interrupt pkt
++ * 1; Use bulk endpoint to upload interrupt pkt, */
++#define INT_BULK_SEL			BIT(4)
++
++/* 2REG_C2HEVT_CLEAR */
++#define C2H_EVT_HOST_CLOSE		0x00	/* Set by driver and notify FW that the driver has read the C2H command message */
++#define C2H_EVT_FW_CLOSE		0xFF	/* Set by FW indicating that FW had set the C2H command message and it's not yet read by driver. */
++
++
++/* 2REG_MULTI_FUNC_CTRL(For RTL8723 Only) */
++#define WL_HWPDN_EN			BIT0	/* Enable GPIO[9] as WiFi HW PDn source */
++#define WL_HWPDN_SL			BIT1	/* WiFi HW PDn polarity control */
++#define WL_FUNC_EN				BIT2	/* WiFi function enable */
++#define WL_HWROF_EN			BIT3	/* Enable GPIO[9] as WiFi RF HW PDn source */
++#define BT_HWPDN_EN			BIT16	/* Enable GPIO[11] as BT HW PDn source */
++#define BT_HWPDN_SL			BIT17	/* BT HW PDn polarity control */
++#define BT_FUNC_EN				BIT18	/* BT function enable */
++#define BT_HWROF_EN			BIT19	/* Enable GPIO[11] as BT/GPS RF HW PDn source */
++#define GPS_HWPDN_EN			BIT20	/* Enable GPIO[10] as GPS HW PDn source */
++#define GPS_HWPDN_SL			BIT21	/* GPS HW PDn polarity control */
++#define GPS_FUNC_EN			BIT22	/* GPS function enable */
++
++/* 3 REG_LIFECTRL_CTRL */
++#define HAL92C_EN_PKT_LIFE_TIME_BK		BIT3
++#define HAL92C_EN_PKT_LIFE_TIME_BE		BIT2
++#define HAL92C_EN_PKT_LIFE_TIME_VI		BIT1
++#define HAL92C_EN_PKT_LIFE_TIME_VO		BIT0
++
++#define HAL92C_MSDU_LIFE_TIME_UNIT		128	/* in us, said by Tim. */
++
++/* 2 8192D PartNo. */
++#define PARTNO_92D_NIC							(BIT7 | BIT6)
++#define PARTNO_92D_NIC_REMARK				(BIT5 | BIT4)
++#define PARTNO_SINGLE_BAND_VS				BIT3
++#define PARTNO_SINGLE_BAND_VS_REMARK		BIT1
++#define PARTNO_CONCURRENT_BAND_VC			(BIT3 | BIT2)
++#define PARTNO_CONCURRENT_BAND_VC_REMARK	(BIT1 | BIT0)
++
++/* ********************************************************
++ * General definitions
++ * ******************************************************** */
++
++#define LAST_ENTRY_OF_TX_PKT_BUFFER_8188E(__Adapter)	   (IS_VENDOR_8188E_I_CUT_SERIES(__Adapter) ? 255 : 175)
++#define LAST_ENTRY_OF_TX_PKT_BUFFER_8812			255
++#define LAST_ENTRY_OF_TX_PKT_BUFFER_8723B		255
++#define LAST_ENTRY_OF_TX_PKT_BUFFER_8192C		255
++#define LAST_ENTRY_OF_TX_PKT_BUFFER_8703B		255
++#define LAST_ENTRY_OF_TX_PKT_BUFFER_DUAL_MAC	127
++#define LAST_ENTRY_OF_TX_PKT_BUFFER_8188F		255
++#define LAST_ENTRY_OF_TX_PKT_BUFFER_8723D		255
++
++#define POLLING_LLT_THRESHOLD				20
++#if defined(CONFIG_RTL8723B) && defined(CONFIG_PCI_HCI)
++	#define POLLING_READY_TIMEOUT_COUNT		6000
++#else
++	#define POLLING_READY_TIMEOUT_COUNT		1000
++#endif
++
++
++/* GPIO BIT */
++#define	HAL_8812A_HW_GPIO_WPS_BIT	BIT2
++#define	HAL_8192C_HW_GPIO_WPS_BIT	BIT2
++#define	HAL_8192EU_HW_GPIO_WPS_BIT	BIT7
++#define	HAL_8188E_HW_GPIO_WPS_BIT	BIT7
++
++#endif /* __HAL_COMMON_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/hal_data.h b/drivers/net/wireless/rtl8723du/include/hal_data.h
+new file mode 100644
+index 0000000..6833aa2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/hal_data.h
+@@ -0,0 +1,794 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_DATA_H__
++#define __HAL_DATA_H__
++
++#if 1/* def  CONFIG_SINGLE_IMG */
++
++#include "../hal/phydm/phydm_precomp.h"
++#ifdef CONFIG_BT_COEXIST
++	#include <hal_btcoex.h>
++#endif
++
++#ifdef CONFIG_SDIO_HCI
++	#include <hal_sdio.h>
++#endif
++#ifdef CONFIG_GSPI_HCI
++	#include <hal_gspi.h>
++#endif
++/*
++ * <Roger_Notes> For RTL8723 WiFi/BT/GPS multi-function configuration. 2010.10.06.
++ *   */
++typedef enum _RT_MULTI_FUNC {
++	RT_MULTI_FUNC_NONE	= 0x00,
++	RT_MULTI_FUNC_WIFI	= 0x01,
++	RT_MULTI_FUNC_BT		= 0x02,
++	RT_MULTI_FUNC_GPS	= 0x04,
++} RT_MULTI_FUNC, *PRT_MULTI_FUNC;
++/*
++ * <Roger_Notes> For RTL8723 WiFi PDn/GPIO polarity control configuration. 2010.10.08.
++ *   */
++typedef enum _RT_POLARITY_CTL {
++	RT_POLARITY_LOW_ACT	= 0,
++	RT_POLARITY_HIGH_ACT	= 1,
++} RT_POLARITY_CTL, *PRT_POLARITY_CTL;
++
++/* For RTL8723 regulator mode. by tynli. 2011.01.14. */
++typedef enum _RT_REGULATOR_MODE {
++	RT_SWITCHING_REGULATOR	= 0,
++	RT_LDO_REGULATOR			= 1,
++} RT_REGULATOR_MODE, *PRT_REGULATOR_MODE;
++
++/*
++ * Interface type.
++ *   */
++typedef	enum _INTERFACE_SELECT_PCIE {
++	INTF_SEL0_SOLO_MINICARD			= 0,		/* WiFi solo-mCard */
++	INTF_SEL1_BT_COMBO_MINICARD		= 1,		/* WiFi+BT combo-mCard */
++	INTF_SEL2_PCIe						= 2,		/* PCIe Card */
++} INTERFACE_SELECT_PCIE, *PINTERFACE_SELECT_PCIE;
++
++
++typedef	enum _INTERFACE_SELECT_USB {
++	INTF_SEL0_USB 				= 0,		/* USB */
++	INTF_SEL1_USB_High_Power  	= 1,		/* USB with high power PA */
++	INTF_SEL2_MINICARD		  	= 2,		/* Minicard */
++	INTF_SEL3_USB_Solo 		= 3,		/* USB solo-Slim module */
++	INTF_SEL4_USB_Combo		= 4,		/* USB Combo-Slim module */
++	INTF_SEL5_USB_Combo_MF	= 5,		/* USB WiFi+BT Multi-Function Combo, i.e., Proprietary layout(AS-VAU) which is the same as SDIO card */
++} INTERFACE_SELECT_USB, *PINTERFACE_SELECT_USB;
++
++typedef enum _RT_AMPDU_BRUST_MODE {
++	RT_AMPDU_BRUST_NONE		= 0,
++	RT_AMPDU_BRUST_92D		= 1,
++	RT_AMPDU_BRUST_88E		= 2,
++	RT_AMPDU_BRUST_8812_4	= 3,
++	RT_AMPDU_BRUST_8812_8	= 4,
++	RT_AMPDU_BRUST_8812_12	= 5,
++	RT_AMPDU_BRUST_8812_15	= 6,
++	RT_AMPDU_BRUST_8723B		= 7,
++} RT_AMPDU_BRUST, *PRT_AMPDU_BRUST_MODE;
++
++#if 0
++	#define CHANNEL_MAX_NUMBER			14+24+21	/*  14 is the max channel number */
++#endif
++#define CHANNEL_GROUP_MAX		(3 + 9)	/* ch1~3, ch4~9, ch10~14 total three groups */
++#define MAX_PG_GROUP			13
++
++/* Tx Power Limit Table Size */
++#define MAX_REGULATION_NUM						4
++#define MAX_RF_PATH_NUM_IN_POWER_LIMIT_TABLE	4
++#define MAX_2_4G_BANDWIDTH_NUM					2
++#define MAX_RATE_SECTION_NUM						10
++#define MAX_5G_BANDWIDTH_NUM						4
++
++#define MAX_BASE_NUM_IN_PHY_REG_PG_2_4G			10 /* CCK:1, OFDM:1, HT:4, VHT:4 */
++#define MAX_BASE_NUM_IN_PHY_REG_PG_5G			9 /* OFDM:1, HT:4, VHT:4 */
++
++
++/* ###### duplicate code,will move to ODM ######### */
++/* #define IQK_MAC_REG_NUM		4 */
++/* #define IQK_ADDA_REG_NUM		16 */
++
++/* #define IQK_BB_REG_NUM			10 */
++#define IQK_BB_REG_NUM_92C	9
++#define IQK_BB_REG_NUM_92D	10
++#define IQK_BB_REG_NUM_test	6
++
++#define IQK_Matrix_Settings_NUM_92D	(1+24+21)
++
++/* #define HP_THERMAL_NUM		8 */
++/* ###### duplicate code,will move to ODM ######### */
++
++#ifdef RTW_RX_AGGREGATION
++typedef enum _RX_AGG_MODE {
++	RX_AGG_DISABLE,
++	RX_AGG_DMA,
++	RX_AGG_USB,
++	RX_AGG_MIX
++} RX_AGG_MODE;
++
++/* #define MAX_RX_DMA_BUFFER_SIZE	10240 */		/* 10K for 8192C RX DMA buffer */
++
++#endif /* RTW_RX_AGGREGATION */
++
++/* E-Fuse */
++#ifdef CONFIG_RTL8188E
++	#define EFUSE_MAP_SIZE	512
++#endif
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) || defined(CONFIG_RTL8814A)
++	#define EFUSE_MAP_SIZE	512
++#endif
++#ifdef CONFIG_RTL8192E
++	#define EFUSE_MAP_SIZE	512
++#endif
++#ifdef CONFIG_RTL8723B
++	#define EFUSE_MAP_SIZE	512
++#endif
++#ifdef CONFIG_RTL8814A
++	#define EFUSE_MAP_SIZE	512
++#endif
++#ifdef CONFIG_RTL8703B
++	#define EFUSE_MAP_SIZE	512
++#endif
++#ifdef CONFIG_RTL8723D
++	#define EFUSE_MAP_SIZE	512
++#endif
++#ifdef CONFIG_RTL8188F
++	#define EFUSE_MAP_SIZE	512
++#endif
++
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++	#define EFUSE_MAX_SIZE	1024
++#elif defined(CONFIG_RTL8188E) || defined(CONFIG_RTL8188F) || defined(CONFIG_RTL8703B)
++	#define EFUSE_MAX_SIZE	256
++#else
++	#define EFUSE_MAX_SIZE	512
++#endif
++/* end of E-Fuse */
++
++#define Mac_OFDM_OK			0x00000000
++#define Mac_OFDM_Fail		0x10000000
++#define Mac_OFDM_FasleAlarm	0x20000000
++#define Mac_CCK_OK			0x30000000
++#define Mac_CCK_Fail		0x40000000
++#define Mac_CCK_FasleAlarm	0x50000000
++#define Mac_HT_OK			0x60000000
++#define Mac_HT_Fail			0x70000000
++#define Mac_HT_FasleAlarm	0x90000000
++#define Mac_DropPacket		0xA0000000
++
++#ifdef CONFIG_RF_POWER_TRIM
++#if defined(CONFIG_RTL8723B)
++	#define REG_RF_BB_GAIN_OFFSET	0x7f
++	#define RF_GAIN_OFFSET_MASK		0xfffff
++#elif defined(CONFIG_RTL8188E)
++	#define REG_RF_BB_GAIN_OFFSET	0x55
++	#define RF_GAIN_OFFSET_MASK		0xfffff
++#else
++	#define REG_RF_BB_GAIN_OFFSET	0x55
++	#define RF_GAIN_OFFSET_MASK		0xfffff
++#endif /* CONFIG_RTL8723B */
++#endif /*CONFIG_RF_POWER_TRIM*/
++
++/* For store initial value of BB register */
++typedef struct _BB_INIT_REGISTER {
++	u16	offset;
++	u32	value;
++
++} BB_INIT_REGISTER, *PBB_INIT_REGISTER;
++
++#define PAGE_SIZE_128	128
++#define PAGE_SIZE_256	256
++#define PAGE_SIZE_512	512
++
++#define HCI_SUS_ENTER		0
++#define HCI_SUS_LEAVING		1
++#define HCI_SUS_LEAVE		2
++#define HCI_SUS_ENTERING	3
++#define HCI_SUS_ERR			4
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++typedef enum _ACS_OP {
++	ACS_INIT,		/*ACS - Variable init*/
++	ACS_RESET,		/*ACS - NHM Counter reset*/
++	ACS_SELECT,		/*ACS - NHM Counter Statistics */
++} ACS_OP;
++
++typedef enum _ACS_STATE {
++	ACS_DISABLE,
++	ACS_ENABLE,
++} ACS_STATE;
++
++struct auto_chan_sel {
++	ATOMIC_T state;
++	u8	ch; /* previous channel*/
++};
++#endif /*CONFIG_AUTO_CHNL_SEL_NHM*/
++
++#define EFUSE_FILE_UNUSED 0
++#define EFUSE_FILE_FAILED 1
++#define EFUSE_FILE_LOADED 2
++
++#define MACADDR_FILE_UNUSED 0
++#define MACADDR_FILE_FAILED 1
++#define MACADDR_FILE_LOADED 2
++
++#define KFREE_FLAG_ON				BIT0
++#define KFREE_FLAG_THERMAL_K_ON		BIT1
++
++#define MAX_IQK_INFO_BACKUP_CHNL_NUM	5
++#define MAX_IQK_INFO_BACKUP_REG_NUM		10
++
++struct kfree_data_t {
++	u8 flag;
++	s8 bb_gain[BB_GAIN_NUM][RF_PATH_MAX];
++
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	s8 pa_bias_5g[RF_PATH_MAX];
++	s8 pad_bias_5g[RF_PATH_MAX];
++#endif
++	s8 thermal;
++};
++
++bool kfree_data_is_bb_gain_empty(struct kfree_data_t *data);
++
++struct hal_spec_t {
++	char *ic_name;
++	u8 macid_num;
++
++	u8 sec_cam_ent_num;
++	u8 sec_cap;
++
++	u8 rfpath_num;	/* used for tx power index path */
++	u8 max_tx_cnt;
++	u8 nss_num;
++	u8 band_cap;	/* value of BAND_CAP_XXX */
++	u8 bw_cap;		/* value of BW_CAP_XXX */
++	u8 port_num;
++	u8 proto_cap;	/* value of PROTO_CAP_XXX */
++	u8 wl_func;		/* value of WL_FUNC_XXX */
++};
++
++#define HAL_SPEC_CHK_RF_PATH(_spec, _path) ((_spec)->rfpath_num > (_path))
++#define HAL_SPEC_CHK_TX_CNT(_spec, _cnt_idx) ((_spec)->max_tx_cnt > (_cnt_idx))
++
++struct hal_iqk_reg_backup {
++	u8 central_chnl;
++	u8 bw_mode;
++	u32 reg_backup[MAX_RF_PATH][MAX_IQK_INFO_BACKUP_REG_NUM];
++};
++
++typedef struct hal_com_data {
++	HAL_VERSION			VersionID;
++	RT_MULTI_FUNC		MultiFunc; /* For multi-function consideration. */
++	RT_POLARITY_CTL		PolarityCtl; /* For Wifi PDn Polarity control. */
++	RT_REGULATOR_MODE	RegulatorMode; /* switching regulator or LDO */
++	u8	hw_init_completed;
++	/****** FW related ******/
++	u16	FirmwareVersion;
++	u16	FirmwareVersionRev;
++	u16	FirmwareSubVersion;
++	u16	FirmwareSignature;
++	u8	RegFWOffload;
++	u8	fw_ractrl;
++	u8	FwRsvdPageStartOffset; /* 2010.06.23. Added by tynli. Reserve page start offset except beacon in TxQ.*/
++	u8	LastHMEBoxNum;	/* H2C - for host message to fw */
++
++	/****** current WIFI_PHY values ******/
++	WIRELESS_MODE	CurrentWirelessMode;
++	CHANNEL_WIDTH	CurrentChannelBW;
++	BAND_TYPE		CurrentBandType;	/* 0:2.4G, 1:5G */
++	BAND_TYPE		BandSet;
++	u8				CurrentChannel;
++	u8				cch_20;
++	u8				cch_40;
++	u8				cch_80;
++	u8				CurrentCenterFrequencyIndex1;
++	u8				nCur40MhzPrimeSC;	/* Control channel sub-carrier */
++	u8				nCur80MhzPrimeSC;   /* used for primary 40MHz of 80MHz mode */
++	BOOLEAN		bSwChnlAndSetBWInProgress;
++	u8				bDisableSWChannelPlan; /* flag of disable software change channel plan	 */
++	u16				BasicRateSet;
++	u32				ReceiveConfig;
++	u8				rx_tsf_addr_filter_config; /* for 8822B/8821C USE */
++	BOOLEAN			bSwChnl;
++	BOOLEAN			bSetChnlBW;
++	BOOLEAN			bSWToBW40M;
++	BOOLEAN			bSWToBW80M;
++	BOOLEAN			bChnlBWInitialized;
++	u32				BackUp_BB_REG_4_2nd_CCA[3];
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	struct auto_chan_sel acs;
++#endif
++	/****** rf_ctrl *****/
++	u8	rf_chip;
++	u8	rf_type;
++	u8	PackageType;
++	u8	NumTotalRFPath;
++
++	/****** Debug ******/
++	u16	ForcedDataRate;	/* Force Data Rate. 0: Auto, 0x02: 1M ~ 0x6C: 54M. */
++	u8	u1ForcedIgiLb;	/* forced IGI lower bound */
++	u8	bDumpRxPkt;
++	u8	bDumpTxPkt;
++	u8	bDisableTXPowerTraining;
++
++
++	/****** EEPROM setting.******/
++	u8	bautoload_fail_flag;
++	u8	efuse_file_status;
++	u8	macaddr_file_status;
++	u8	EepromOrEfuse;
++	u8	efuse_eeprom_data[EEPROM_MAX_SIZE]; /*92C:256bytes, 88E:512bytes, we use union set (512bytes)*/
++	u8	InterfaceSel; /* board type kept in eFuse */
++	u16	CustomerID;
++
++	u16	EEPROMVID;
++	u16	EEPROMSVID;
++#ifdef CONFIG_USB_HCI
++	u8	EEPROMUsbSwitch;
++	u16	EEPROMPID;
++	u16	EEPROMSDID;
++#endif
++#ifdef CONFIG_PCI_HCI
++	u16	EEPROMDID;
++	u16	EEPROMSMID;
++#endif
++
++	u8	EEPROMCustomerID;
++	u8	EEPROMSubCustomerID;
++	u8	EEPROMVersion;
++	u8	EEPROMRegulatory;
++	u8	EEPROMThermalMeter;
++	u8	EEPROMBluetoothCoexist;
++	u8	EEPROMBluetoothType;
++	u8	EEPROMBluetoothAntNum;
++	u8	EEPROMBluetoothAntIsolation;
++	u8	EEPROMBluetoothRadioShared;
++	u8	EEPROMMACAddr[ETH_ALEN];
++
++#ifdef CONFIG_RF_POWER_TRIM
++	u8	EEPROMRFGainOffset;
++	u8	EEPROMRFGainVal;
++	struct kfree_data_t kfree_data;
++#endif /*CONFIG_RF_POWER_TRIM*/
++
++#if defined(CONFIG_RTL8723B) || defined(CONFIG_RTL8703B) || \
++	defined(CONFIG_RTL8723D)
++	u8	adjuseVoltageVal;
++	u8	need_restore;
++#endif
++	u8	EfuseUsedPercentage;
++	u16	EfuseUsedBytes;
++	/*u8		EfuseMap[2][HWSET_MAX_SIZE_JAGUAR];*/
++	EFUSE_HAL	EfuseHal;
++
++	/*---------------------------------------------------------------------------------*/
++	/* 2.4G TX power info for target TX power*/
++	u8	Index24G_CCK_Base[MAX_RF_PATH][CENTER_CH_2G_NUM];
++	u8	Index24G_BW40_Base[MAX_RF_PATH][CENTER_CH_2G_NUM];
++	s8	CCK_24G_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8	OFDM_24G_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8	BW20_24G_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8	BW40_24G_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++
++	/* 5G TX power info for target TX power*/
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	u8	Index5G_BW40_Base[MAX_RF_PATH][CENTER_CH_5G_ALL_NUM];
++	u8	Index5G_BW80_Base[MAX_RF_PATH][CENTER_CH_5G_80M_NUM];
++	s8	OFDM_5G_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8	BW20_5G_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8	BW40_5G_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8	BW80_5G_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++#endif
++
++	u8	Regulation2_4G;
++	u8	Regulation5G;
++
++	/********************************
++	*	TX power by rate table at most 4RF path.
++	*	The register is
++	*
++	*	VHT TX power by rate off setArray =
++	*	Band:-2G&5G = 0 / 1
++	*	RF: at most 4*4 = ABCD=0/1/2/3
++	*	CCK=0 OFDM=1/2 HT-MCS 0-15=3/4/56 VHT=7/8/9/10/11
++	**********************************/
++	u8	TxPwrByRateTable;
++	u8	TxPwrByRateBand;
++	s8	TxPwrByRateOffset[TX_PWR_BY_RATE_NUM_BAND]
++		[TX_PWR_BY_RATE_NUM_RF]
++		[TX_PWR_BY_RATE_NUM_RF]
++		[TX_PWR_BY_RATE_NUM_RATE];
++
++#ifdef CONFIG_PHYDM_POWERTRACK_BY_TSSI
++	s8	TxPwrByRate[TX_PWR_BY_RATE_NUM_BAND]
++		[TX_PWR_BY_RATE_NUM_RF]
++		[TX_PWR_BY_RATE_NUM_RF]
++		[TX_PWR_BY_RATE_NUM_RATE];
++#endif
++	/* --------------------------------------------------------------------------------- */
++
++#if 0
++	/* 2 Power Limit Table */
++	u8	TxPwrLevelCck[RF_PATH_MAX_92C_88E][CHANNEL_MAX_NUMBER];
++	u8	TxPwrLevelHT40_1S[RF_PATH_MAX_92C_88E][CHANNEL_MAX_NUMBER];	/*  For HT 40MHZ pwr */
++	u8	TxPwrLevelHT40_2S[RF_PATH_MAX_92C_88E][CHANNEL_MAX_NUMBER];	/*  For HT 40MHZ pwr */
++	s8	TxPwrHt20Diff[RF_PATH_MAX_92C_88E][CHANNEL_MAX_NUMBER];/*  HT 20<->40 Pwr diff */
++	u8	TxPwrLegacyHtDiff[RF_PATH_MAX_92C_88E][CHANNEL_MAX_NUMBER];/*  For HT<->legacy pwr diff */
++#endif
++
++	u8 tx_pwr_lmt_5g_20_40_ref;
++
++	/* Power Limit Table for 2.4G */
++	s8	TxPwrLimit_2_4G[MAX_REGULATION_NUM]
++		[MAX_2_4G_BANDWIDTH_NUM]
++		[MAX_RATE_SECTION_NUM]
++		[CENTER_CH_2G_NUM]
++		[MAX_RF_PATH];
++
++	/* Power Limit Table for 5G */
++	s8	TxPwrLimit_5G[MAX_REGULATION_NUM]
++		[MAX_5G_BANDWIDTH_NUM]
++		[MAX_RATE_SECTION_NUM]
++		[CENTER_CH_5G_ALL_NUM]
++		[MAX_RF_PATH];
++
++
++#ifdef CONFIG_PHYDM_POWERTRACK_BY_TSSI
++	s8	TxPwrLimit_2_4G_Original[MAX_REGULATION_NUM]
++		[MAX_2_4G_BANDWIDTH_NUM]
++		[MAX_RATE_SECTION_NUM]
++		[CENTER_CH_2G_NUM]
++		[MAX_RF_PATH];
++
++
++	s8	TxPwrLimit_5G_Original[MAX_REGULATION_NUM]
++		[MAX_5G_BANDWIDTH_NUM]
++		[MAX_RATE_SECTION_NUM]
++		[CENTER_CH_5G_ALL_NUM]
++		[MAX_RF_PATH];
++
++#endif
++
++	/* Store the original power by rate value of the base of each rate section of rf path A & B */
++	u8	TxPwrByRateBase2_4G[TX_PWR_BY_RATE_NUM_RF]
++		[TX_PWR_BY_RATE_NUM_RF]
++		[MAX_BASE_NUM_IN_PHY_REG_PG_2_4G];
++	u8	TxPwrByRateBase5G[TX_PWR_BY_RATE_NUM_RF]
++		[TX_PWR_BY_RATE_NUM_RF]
++		[MAX_BASE_NUM_IN_PHY_REG_PG_5G];
++
++	u8	txpwr_by_rate_loaded:1;
++	u8	txpwr_by_rate_from_file:1;
++	u8	txpwr_limit_loaded:1;
++	u8	txpwr_limit_from_file:1;
++	u8	RfPowerTrackingType;
++
++	/* For power group */
++	/*
++	u8	PwrGroupHT20[RF_PATH_MAX_92C_88E][CHANNEL_MAX_NUMBER];
++	u8	PwrGroupHT40[RF_PATH_MAX_92C_88E][CHANNEL_MAX_NUMBER];
++	*/
++	u8	PGMaxGroup;
++
++	/* The current Tx Power Level */
++	u8	CurrentCckTxPwrIdx;
++	u8	CurrentOfdm24GTxPwrIdx;
++	u8	CurrentBW2024GTxPwrIdx;
++	u8	CurrentBW4024GTxPwrIdx;
++
++	/* Read/write are allow for following hardware information variables	 */
++	u8	pwrGroupCnt;
++	u32	MCSTxPowerLevelOriginalOffset[MAX_PG_GROUP][16];
++	u32	CCKTxPowerLevelOriginalOffset;
++
++	u8	CrystalCap;
++
++	u8	PAType_2G;
++	u8	PAType_5G;
++	u8	LNAType_2G;
++	u8	LNAType_5G;
++	u8	ExternalPA_2G;
++	u8	ExternalLNA_2G;
++	u8	ExternalPA_5G;
++	u8	ExternalLNA_5G;
++	u16	TypeGLNA;
++	u16	TypeGPA;
++	u16	TypeALNA;
++	u16	TypeAPA;
++	u16	RFEType;
++
++	u8	bLedOpenDrain; /* Support Open-drain arrangement for controlling the LED. Added by Roger, 2009.10.16. */
++	u32	AcParam_BE; /* Original parameter for BE, use for EDCA turbo.	*/
++
++	BB_REGISTER_DEFINITION_T	PHYRegDef[MAX_RF_PATH];	/* Radio A/B/C/D */
++
++	u32	RfRegChnlVal[MAX_RF_PATH];
++
++	/* RDG enable */
++	BOOLEAN	 bRDGEnable;
++
++	u8	RegTxPause;
++	/* Beacon function related global variable. */
++	u8	RegBcnCtrlVal;
++	u8	RegFwHwTxQCtrl;
++	u8	RegReg542;
++	u8	RegCR_1;
++	u8	Reg837;
++	u16	RegRRSR;
++
++	/****** antenna diversity ******/
++	u8	AntDivCfg;
++	u8	with_extenal_ant_switch;
++	u8	b_fix_tx_ant;
++	u8	AntDetection;
++	u8	TRxAntDivType;
++	u8	ant_path; /* for 8723B s0/s1 selection	 */
++	u32	AntennaTxPath;					/* Antenna path Tx */
++	u32	AntennaRxPath;					/* Antenna path Rx */
++	u8 sw_antdiv_bl_state;
++
++	/******** PHY DM & DM Section **********/
++	u8			DM_Type;
++	_lock		IQKSpinLock;
++	u8			INIDATA_RATE[MACID_NUM_SW_LIMIT];
++	/* Upper and Lower Signal threshold for Rate Adaptive*/
++	int			EntryMinUndecoratedSmoothedPWDB;
++	int			EntryMaxUndecoratedSmoothedPWDB;
++	int			MinUndecoratedPWDBForDM;
++	DM_ODM_T	odmpriv;
++	u8			bIQKInitialized;
++	u8			bNeedIQK;
++	u8		IQK_MP_Switch;
++	/******** PHY DM & DM Section **********/
++
++
++
++	/* 2010/08/09 MH Add CU power down mode. */
++	BOOLEAN		pwrdown;
++
++	/* Add for dual MAC  0--Mac0 1--Mac1 */
++	u32	interfaceIndex;
++
++#ifdef CONFIG_P2P
++	u8	p2p_ps_offload;
++#endif
++	/* Auto FSM to Turn On, include clock, isolation, power control for MAC only */
++	u8	bMacPwrCtrlOn;
++	u8 hci_sus_state;
++
++	u8	RegIQKFWOffload;
++	struct submit_ctx	iqk_sctx;
++
++	RT_AMPDU_BRUST		AMPDUBurstMode; /* 92C maybe not use, but for compile successfully */
++
++	u8	OutEpQueueSel;
++	u8	OutEpNumber;
++
++#ifdef RTW_RX_AGGREGATION
++	RX_AGG_MODE rxagg_mode;
++
++	/* For RX Aggregation DMA Mode */
++	u8 rxagg_dma_size;
++	u8 rxagg_dma_timeout;
++#endif /* RTW_RX_AGGREGATION */
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	/*  */
++	/* For SDIO Interface HAL related */
++	/*  */
++
++	/*  */
++	/* SDIO ISR Related */
++	/*
++	*	u32			IntrMask[1];
++	*	u32			IntrMaskToSet[1];
++	*	LOG_INTERRUPT		InterruptLog; */
++	u32			sdio_himr;
++	u32			sdio_hisr;
++#ifndef RTW_HALMAC
++	/*  */
++	/* SDIO Tx FIFO related. */
++	/*  */
++	/* HIQ, MID, LOW, PUB free pages; padapter->xmitpriv.free_txpg */
++	u8			SdioTxFIFOFreePage[SDIO_TX_FREE_PG_QUEUE];
++	_lock		SdioTxFIFOFreePageLock;
++	u8			SdioTxOQTMaxFreeSpace;
++	u8			SdioTxOQTFreeSpace;
++#else /* RTW_HALMAC */
++	u16			SdioTxOQTFreeSpace;
++#endif /* RTW_HALMAC */
++
++	/*  */
++	/* SDIO Rx FIFO related. */
++	/*  */
++	u8			SdioRxFIFOCnt;
++	u16			SdioRxFIFOSize;
++
++#ifndef RTW_HALMAC
++	u32			sdio_tx_max_len[SDIO_MAX_TX_QUEUE];/* H, N, L, used for sdio tx aggregation max length per queue */
++#else
++#ifdef CONFIG_RTL8821C
++	u16			tx_high_page;
++	u16			tx_low_page;
++	u16			tx_normal_page;
++	u16			tx_extra_page;
++	u16			tx_pub_page;
++	u16			max_oqt_page;
++	u32			max_xmit_size_vovi;
++	u32			max_xmit_size_bebk;
++#endif
++#endif /* !RTW_HALMAC */
++#endif /* CONFIG_SDIO_HCI */
++
++#ifdef CONFIG_USB_HCI
++
++	/* 2010/12/10 MH Add for USB aggreation mode dynamic shceme. */
++	BOOLEAN		UsbRxHighSpeedMode;
++	BOOLEAN		UsbTxVeryHighSpeedMode;
++	u32			UsbBulkOutSize;
++	BOOLEAN		bSupportUSB3;
++	u8			usb_intf_start;
++
++	/* Interrupt relatd register information. */
++	u32			IntArray[3];/* HISR0,HISR1,HSISR */
++	u32			IntrMask[3];
++#ifdef CONFIG_USB_TX_AGGREGATION
++	u8			UsbTxAggMode;
++	u8			UsbTxAggDescNum;
++#endif /* CONFIG_USB_TX_AGGREGATION */
++
++#ifdef CONFIG_USB_RX_AGGREGATION
++	u16			HwRxPageSize;				/* Hardware setting */
++
++	/* For RX Aggregation USB Mode */
++	u8			rxagg_usb_size;
++	u8			rxagg_usb_timeout;
++#endif/* CONFIG_USB_RX_AGGREGATION */
++#endif /* CONFIG_USB_HCI */
++
++
++#ifdef CONFIG_PCI_HCI
++	/*  */
++	/* EEPROM setting. */
++	/*  */
++	u32			TransmitConfig;
++	u32			IntrMaskToSet[2];
++	u32			IntArray[4];
++	u32			IntrMask[4];
++	u32			SysIntArray[1];
++	u32			SysIntrMask[1];
++	u32			IntrMaskReg[2];
++	u32			IntrMaskDefault[4];
++
++	BOOLEAN		bL1OffSupport;
++	BOOLEAN	bSupportBackDoor;
++
++	u8			bDefaultAntenna;
++
++	u8			bInterruptMigration;
++	u8			bDisableTxInt;
++
++	u16			RxTag;
++#endif /* CONFIG_PCI_HCI */
++
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	struct sreset_priv srestpriv;
++#endif /* #ifdef DBG_CONFIG_ERROR_DETECT */
++
++#ifdef CONFIG_BT_COEXIST
++	/* For bluetooth co-existance */
++	BT_COEXIST		bt_coexist;
++#endif /* CONFIG_BT_COEXIST */
++
++#if defined(CONFIG_RTL8723B) || defined(CONFIG_RTL8703B) \
++	|| defined(CONFIG_RTL8188F) || defined(CONFIG_RTL8723D)
++#ifndef CONFIG_PCI_HCI	/* mutual exclusive with PCI -- so they're SDIO and GSPI */
++	/* Interrupt relatd register information. */
++	u32			SysIntrStatus;
++	u32			SysIntrMask;
++#endif
++#endif /*endif CONFIG_RTL8723B	*/
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	char	para_file_buf[MAX_PARA_FILE_BUF_LEN];
++	char *mac_reg;
++	u32	mac_reg_len;
++	char *bb_phy_reg;
++	u32	bb_phy_reg_len;
++	char *bb_agc_tab;
++	u32	bb_agc_tab_len;
++	char *bb_phy_reg_pg;
++	u32	bb_phy_reg_pg_len;
++	char *bb_phy_reg_mp;
++	u32	bb_phy_reg_mp_len;
++	char *rf_radio_a;
++	u32	rf_radio_a_len;
++	char *rf_radio_b;
++	u32	rf_radio_b_len;
++	char *rf_tx_pwr_track;
++	u32	rf_tx_pwr_track_len;
++	char *rf_tx_pwr_lmt;
++	u32	rf_tx_pwr_lmt_len;
++#endif
++
++#ifdef CONFIG_BACKGROUND_NOISE_MONITOR
++	s16 noise[ODM_MAX_CHANNEL_NUM];
++#endif
++
++	struct hal_spec_t hal_spec;
++
++	u8	RfKFreeEnable;
++	u8	RfKFree_ch_group;
++	BOOLEAN				bCCKinCH14;
++	BB_INIT_REGISTER	RegForRecover[5];
++
++#if defined(CONFIG_PCI_HCI) && defined(RTL8814AE_SW_BCN)
++	BOOLEAN bCorrectBCN;
++#endif
++	u32 RxGainOffset[4]; /*{2G, 5G_Low, 5G_Middle, G_High}*/
++	u8 BackUp_IG_REG_4_Chnl_Section[4]; /*{A,B,C,D}*/
++
++	struct hal_iqk_reg_backup iqk_reg_backup[MAX_IQK_INFO_BACKUP_CHNL_NUM];
++
++#ifdef CONFIG_BEAMFORMING
++#ifdef RTW_BEAMFORMING_VERSION_2
++	struct beamforming_info beamforming_info;
++#endif /* RTW_BEAMFORMING_VERSION_2 */
++#endif /* CONFIG_BEAMFORMING */
++} HAL_DATA_COMMON, *PHAL_DATA_COMMON;
++
++
++
++typedef struct hal_com_data HAL_DATA_TYPE, *PHAL_DATA_TYPE;
++#define GET_HAL_DATA(__pAdapter)			((HAL_DATA_TYPE *)((__pAdapter)->HalData))
++#define GET_HAL_SPEC(__pAdapter)			(&(GET_HAL_DATA((__pAdapter))->hal_spec))
++#define GET_ODM(__pAdapter)			(&(GET_HAL_DATA((__pAdapter))->odmpriv))
++
++#define GET_HAL_RFPATH_NUM(__pAdapter)		(((HAL_DATA_TYPE *)((__pAdapter)->HalData))->NumTotalRFPath)
++#define RT_GetInterfaceSelection(_Adapter)		(GET_HAL_DATA(_Adapter)->InterfaceSel)
++#define GET_RF_TYPE(__pAdapter)				(GET_HAL_DATA(__pAdapter)->rf_type)
++#define GET_KFREE_DATA(_adapter) (&(GET_HAL_DATA((_adapter))->kfree_data))
++
++#define	SUPPORT_HW_RADIO_DETECT(Adapter)	(RT_GetInterfaceSelection(Adapter) == INTF_SEL2_MINICARD || \
++		RT_GetInterfaceSelection(Adapter) == INTF_SEL3_USB_Solo || \
++		RT_GetInterfaceSelection(Adapter) == INTF_SEL4_USB_Combo)
++
++#define get_hal_mac_addr(adapter)				(GET_HAL_DATA(adapter)->EEPROMMACAddr)
++#define is_boot_from_eeprom(adapter)			(GET_HAL_DATA(adapter)->EepromOrEfuse)
++#define rtw_get_hw_init_completed(adapter)		(GET_HAL_DATA(adapter)->hw_init_completed)
++#define rtw_is_hw_init_completed(adapter)		(GET_HAL_DATA(adapter)->hw_init_completed == _TRUE)
++#endif
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++#define GET_ACS_STATE(padapter)					(ATOMIC_READ(&GET_HAL_DATA(padapter)->acs.state))
++#define SET_ACS_STATE(padapter, set_state)			(ATOMIC_SET(&GET_HAL_DATA(padapter)->acs.state, set_state))
++#define rtw_get_acs_channel(padapter)				(GET_HAL_DATA(padapter)->acs.ch)
++#define rtw_set_acs_channel(padapter, survey_ch)	(GET_HAL_DATA(padapter)->acs.ch = survey_ch)
++#endif /*CONFIG_AUTO_CHNL_SEL_NHM*/
++
++#ifdef RTW_HALMAC
++int rtw_halmac_deinit_adapter(struct dvobj_priv *);
++#endif /* RTW_HALMAC */
++
++#endif /* __HAL_DATA_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/hal_gspi.h b/drivers/net/wireless/rtl8723du/include/hal_gspi.h
+new file mode 100644
+index 0000000..68119c5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/hal_gspi.h
+@@ -0,0 +1,31 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_GSPI_H_
++#define __HAL_GSPI_H_
++
++#define ffaddr2deviceId(pdvobj, addr)	(pdvobj->Queue2Pipe[addr])
++
++u8 rtw_hal_gspi_max_txoqt_free_space(_adapter *padapter);
++u8 rtw_hal_gspi_query_tx_freepage(_adapter *padapter, u8 PageIdx, u8 RequiredPageNum);
++void rtw_hal_gspi_update_tx_freepage(_adapter *padapter, u8 PageIdx, u8 RequiredPageNum);
++void rtw_hal_set_gspi_tx_max_length(PADAPTER padapter, u8 numHQ, u8 numNQ, u8 numLQ, u8 numPubQ);
++u32 rtw_hal_get_gspi_tx_max_length(PADAPTER padapter, u8 queue_idx);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/hal_ic_cfg.h b/drivers/net/wireless/rtl8723du/include/hal_ic_cfg.h
+new file mode 100644
+index 0000000..d9ef06e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/hal_ic_cfg.h
+@@ -0,0 +1,141 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_IC_CFG_H__
++#define __HAL_IC_CFG_H__
++
++#define RTL8188E_SUPPORT				0
++#define RTL8812A_SUPPORT				0
++#define RTL8821A_SUPPORT				0
++#define RTL8723B_SUPPORT				0
++#define RTL8723D_SUPPORT				0
++#define RTL8192E_SUPPORT				0
++#define RTL8814A_SUPPORT				0
++#define RTL8195A_SUPPORT				0
++#define RTL8197F_SUPPORT				0
++#define RTL8703B_SUPPORT				0
++#define RTL8188F_SUPPORT				0
++#define RTL8822B_SUPPORT				0
++#define RTL8821B_SUPPORT				0
++#define RTL8821C_SUPPORT				0
++
++/*#if (RTL8188E_SUPPORT==1)*/
++#define RATE_ADAPTIVE_SUPPORT			0
++#define POWER_TRAINING_ACTIVE			0
++
++#ifdef CONFIG_MULTIDRV
++#endif
++
++#ifdef CONFIG_RTL8188E
++	#undef RTL8188E_SUPPORT
++	#undef RATE_ADAPTIVE_SUPPORT
++	#undef POWER_TRAINING_ACTIVE
++
++	#define RTL8188E_SUPPORT				1
++	#define RATE_ADAPTIVE_SUPPORT			1
++	#define POWER_TRAINING_ACTIVE			1
++	#define CONFIG_GET_RAID_BY_DRV
++#endif
++
++#ifdef CONFIG_RTL8812A
++	#undef RTL8812A_SUPPORT
++	#define RTL8812A_SUPPORT				1
++	#ifndef CONFIG_FW_C2H_PKT
++		#define CONFIG_FW_C2H_PKT
++	#endif
++#endif
++
++#ifdef CONFIG_RTL8821A
++	#undef RTL8821A_SUPPORT
++	#define RTL8821A_SUPPORT				1
++	#ifndef CONFIG_FW_C2H_PKT
++		#define CONFIG_FW_C2H_PKT
++	#endif
++#endif
++
++#ifdef CONFIG_RTL8192E
++	#undef RTL8192E_SUPPORT
++	#define RTL8192E_SUPPORT				1
++	#ifndef CONFIG_FW_C2H_PKT
++		#define CONFIG_FW_C2H_PKT
++	#endif
++#endif
++
++#ifdef CONFIG_RTL8723B
++	#undef RTL8723B_SUPPORT
++	#define RTL8723B_SUPPORT				1
++	#ifndef CONFIG_FW_C2H_PKT
++		#define CONFIG_FW_C2H_PKT
++	#endif
++#endif
++
++#ifdef CONFIG_RTL8723D
++	#undef RTL8723D_SUPPORT
++	#define RTL8723D_SUPPORT				1
++	#ifndef CONFIG_FW_C2H_PKT
++		#define CONFIG_FW_C2H_PKT
++	#endif
++#endif
++
++#ifdef CONFIG_RTL8814A
++	#undef RTL8814A_SUPPORT
++	#define RTL8814A_SUPPORT				1
++	#ifndef CONFIG_FW_C2H_PKT
++		#define CONFIG_FW_C2H_PKT
++	#endif
++#endif
++
++#ifdef CONFIG_RTL8703B
++	#undef RTL8703B_SUPPORT
++	#define RTL8703B_SUPPORT				1
++	#ifndef CONFIG_FW_C2H_PKT
++		#define CONFIG_FW_C2H_PKT
++	#endif
++#endif
++
++#ifdef CONFIG_RTL8188F
++	#undef RTL8188F_SUPPORT
++	#define RTL8188F_SUPPORT				1
++	#ifndef CONFIG_FW_C2H_PKT
++		#define CONFIG_FW_C2H_PKT
++	#endif
++#endif
++
++#ifdef CONFIG_RTL8822B
++	#undef RTL8822B_SUPPORT
++	#define RTL8822B_SUPPORT				1
++	#ifndef CONFIG_FW_C2H_PKT
++		#define CONFIG_FW_C2H_PKT
++	#endif
++#endif
++
++#ifdef CONFIG_RTL8821C
++	#undef RTL8821C_SUPPORT
++	#define RTL8821C_SUPPORT				1
++	#ifndef CONFIG_FW_C2H_PKT
++		#define CONFIG_FW_C2H_PKT
++	#endif
++	#define LOAD_FW_HEADER_FROM_DRIVER
++	#define CONFIG_PHY_CAPABILITY_QUERY
++	#ifdef CONFIG_CONCURRENT_MODE
++	#define CONFIG_SUPPORT_FW_MULTI_PORT
++	#endif
++#endif
++
++#endif /*__HAL_IC_CFG_H__*/
+diff --git a/drivers/net/wireless/rtl8723du/include/hal_intf.h b/drivers/net/wireless/rtl8723du/include/hal_intf.h
+new file mode 100644
+index 0000000..a05b680
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/hal_intf.h
+@@ -0,0 +1,734 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_INTF_H__
++#define __HAL_INTF_H__
++
++
++enum RTL871X_HCI_TYPE {
++	RTW_PCIE	= BIT0,
++	RTW_USB	= BIT1,
++	RTW_SDIO	= BIT2,
++	RTW_GSPI	= BIT3,
++};
++
++enum _CHIP_TYPE {
++
++	NULL_CHIP_TYPE,
++	RTL8188E,
++	RTL8192E,
++	RTL8812,
++	RTL8821, /* RTL8811 */
++	RTL8723B,
++	RTL8814A,
++	RTL8703B,
++	RTL8188F,
++	RTL8822B,
++	RTL8723D,
++	RTL8821C,
++	MAX_CHIP_TYPE
++};
++
++extern const u32 _chip_type_to_odm_ic_type[];
++#define chip_type_to_odm_ic_type(chip_type) (((chip_type) >= MAX_CHIP_TYPE) ? _chip_type_to_odm_ic_type[MAX_CHIP_TYPE] : _chip_type_to_odm_ic_type[(chip_type)])
++
++typedef enum _HAL_HW_TIMER_TYPE {
++	HAL_TIMER_NONE = 0,
++	HAL_TIMER_TXBF = 1,
++	HAL_TIMER_EARLYMODE = 2,
++} HAL_HW_TIMER_TYPE, *PHAL_HW_TIMER_TYPE;
++
++
++typedef enum _HW_VARIABLES {
++	HW_VAR_MEDIA_STATUS,
++	HW_VAR_SET_OPMODE,
++	HW_VAR_MAC_ADDR,
++	HW_VAR_BSSID,
++	HW_VAR_INIT_RTS_RATE,
++	HW_VAR_BASIC_RATE,
++	HW_VAR_TXPAUSE,
++	HW_VAR_BCN_FUNC,
++	HW_VAR_CORRECT_TSF,
++	HW_VAR_CHECK_BSSID,
++	HW_VAR_MLME_DISCONNECT,
++	HW_VAR_MLME_SITESURVEY,
++	HW_VAR_MLME_JOIN,
++	HW_VAR_ON_RCR_AM,
++	HW_VAR_OFF_RCR_AM,
++	HW_VAR_BEACON_INTERVAL,
++	HW_VAR_SLOT_TIME,
++	HW_VAR_RESP_SIFS,
++	HW_VAR_ACK_PREAMBLE,
++	HW_VAR_SEC_CFG,
++	HW_VAR_SEC_DK_CFG,
++	HW_VAR_BCN_VALID,
++	HW_VAR_RF_TYPE,
++	/* PHYDM odm->SupportAbility */
++	HW_VAR_CAM_EMPTY_ENTRY,
++	HW_VAR_CAM_INVALID_ALL,
++	HW_VAR_AC_PARAM_VO,
++	HW_VAR_AC_PARAM_VI,
++	HW_VAR_AC_PARAM_BE,
++	HW_VAR_AC_PARAM_BK,
++	HW_VAR_ACM_CTRL,
++	HW_VAR_AMPDU_MIN_SPACE,
++	HW_VAR_AMPDU_FACTOR,
++	HW_VAR_RXDMA_AGG_PG_TH,
++	HW_VAR_SET_RPWM,
++	HW_VAR_CPWM,
++	HW_VAR_H2C_FW_PWRMODE,
++	HW_VAR_H2C_PS_TUNE_PARAM,
++	HW_VAR_H2C_FW_JOINBSSRPT,
++	HW_VAR_FWLPS_RF_ON,
++	HW_VAR_H2C_FW_P2P_PS_OFFLOAD,
++#ifdef CONFIG_LPS_POFF
++	HW_VAR_LPS_POFF_INIT,
++	HW_VAR_LPS_POFF_DEINIT,
++	HW_VAR_LPS_POFF_SET_MODE,
++	HW_VAR_LPS_POFF_WOW_EN,
++#endif
++	HW_VAR_TRIGGER_GPIO_0,
++	HW_VAR_BT_SET_COEXIST,
++	HW_VAR_BT_ISSUE_DELBA,
++	HW_VAR_SWITCH_EPHY_WoWLAN,
++	HW_VAR_EFUSE_USAGE,
++	HW_VAR_EFUSE_BYTES,
++	HW_VAR_EFUSE_BT_USAGE,
++	HW_VAR_EFUSE_BT_BYTES,
++	HW_VAR_FIFO_CLEARN_UP,
++	HW_VAR_RESTORE_HW_SEQ,
++	HW_VAR_CHECK_TXBUF,
++	HW_VAR_PCIE_STOP_TX_DMA,
++	HW_VAR_APFM_ON_MAC, /* Auto FSM to Turn On, include clock, isolation, power control for MAC only */
++	HW_VAR_HCI_SUS_STATE,
++	/* The valid upper nav range for the HW updating, if the true value is larger than the upper range, the HW won't update it. */
++	/* Unit in microsecond. 0 means disable this function. */
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	HW_VAR_WOWLAN,
++	HW_VAR_WAKEUP_REASON,
++	HW_VAR_RPWM_TOG,
++#endif
++#ifdef CONFIG_GPIO_WAKEUP
++	HW_SET_GPIO_WL_CTRL,
++#endif
++	HW_VAR_SYS_CLKR,
++	HW_VAR_NAV_UPPER,
++	HW_VAR_RPT_TIMER_SETTING,
++	HW_VAR_TX_RPT_MAX_MACID,
++	HW_VAR_CHK_HI_QUEUE_EMPTY,
++	HW_VAR_DL_BCN_SEL,
++	HW_VAR_AMPDU_MAX_TIME,
++	HW_VAR_WIRELESS_MODE,
++	HW_VAR_USB_MODE,
++	HW_VAR_PORT_SWITCH,
++	HW_VAR_DO_IQK,
++	HW_VAR_DM_IN_LPS,
++	HW_VAR_SET_REQ_FW_PS,
++	HW_VAR_FW_PS_STATE,
++	HW_VAR_SOUNDING_ENTER,
++	HW_VAR_SOUNDING_LEAVE,
++	HW_VAR_SOUNDING_RATE,
++	HW_VAR_SOUNDING_STATUS,
++	HW_VAR_SOUNDING_FW_NDPA,
++	HW_VAR_SOUNDING_CLK,
++	HW_VAR_SOUNDING_SET_GID_TABLE,
++	/*Add by YuChen for TXBF HW timer*/
++	HW_VAR_HW_REG_TIMER_INIT,
++	HW_VAR_HW_REG_TIMER_RESTART,
++	HW_VAR_HW_REG_TIMER_START,
++	HW_VAR_HW_REG_TIMER_STOP,
++	/*Add by YuChen for TXBF HW timer*/
++	HW_VAR_DL_RSVD_PAGE,
++	HW_VAR_MACID_LINK,
++	HW_VAR_MACID_NOLINK,
++	HW_VAR_MACID_SLEEP,
++	HW_VAR_MACID_WAKEUP,
++	HW_VAR_DUMP_MAC_QUEUE_INFO,
++	HW_VAR_ASIX_IOT,
++#ifdef CONFIG_MBSSID_CAM
++	HW_VAR_MBSSID_CAM_WRITE,
++	HW_VAR_MBSSID_CAM_CLEAR,
++	HW_VAR_RCR_MBSSID_EN,
++#endif
++	HW_VAR_EN_HW_UPDATE_TSF,
++	HW_VAR_CH_SW_NEED_TO_TAKE_CARE_IQK_INFO,
++	HW_VAR_CH_SW_IQK_INFO_BACKUP,
++	HW_VAR_CH_SW_IQK_INFO_RESTORE,
++#ifdef CONFIG_TDLS
++	HW_VAR_TDLS_WRCR,
++	HW_VAR_TDLS_RS_RCR,
++#ifdef CONFIG_TDLS_CH_SW
++	HW_VAR_TDLS_BCN_EARLY_C2H_RPT
++#endif
++#endif
++} HW_VARIABLES;
++
++typedef enum _HAL_DEF_VARIABLE {
++	HAL_DEF_UNDERCORATEDSMOOTHEDPWDB,
++	HAL_DEF_IS_SUPPORT_ANT_DIV,
++	HAL_DEF_DRVINFO_SZ,
++	HAL_DEF_MAX_RECVBUF_SZ,
++	HAL_DEF_RX_PACKET_OFFSET,
++	HAL_DEF_RX_DMA_SZ_WOW,
++	HAL_DEF_RX_DMA_SZ,
++	HAL_DEF_RX_PAGE_SIZE,
++	HAL_DEF_DBG_DUMP_RXPKT,/* for dbg */
++	HAL_DEF_RA_DECISION_RATE,
++	HAL_DEF_RA_SGI,
++	HAL_DEF_PT_PWR_STATUS,
++	HAL_DEF_TX_LDPC,				/* LDPC support */
++	HAL_DEF_RX_LDPC,				/* LDPC support */
++	HAL_DEF_TX_STBC,				/* TX STBC support */
++	HAL_DEF_RX_STBC,				/* RX STBC support */
++	HAL_DEF_EXPLICIT_BEAMFORMER,/* Explicit  Compressed Steering Capable */
++	HAL_DEF_EXPLICIT_BEAMFORMEE,/* Explicit Compressed Beamforming Feedback Capable */
++	HAL_DEF_VHT_MU_BEAMFORMER,	/* VHT MU Beamformer support */
++	HAL_DEF_VHT_MU_BEAMFORMEE,	/* VHT MU Beamformee support */
++	HAL_DEF_BEAMFORMER_CAP,
++	HAL_DEF_BEAMFORMEE_CAP,
++	HW_VAR_MAX_RX_AMPDU_FACTOR,
++	HW_DEF_RA_INFO_DUMP,
++	HAL_DEF_DBG_DUMP_TXPKT,
++
++	HAL_DEF_TX_PAGE_SIZE,
++	HAL_DEF_TX_PAGE_BOUNDARY,
++	HAL_DEF_TX_PAGE_BOUNDARY_WOWLAN,
++	HAL_DEF_ANT_DETECT,/* to do for 8723a */
++	HAL_DEF_PCI_SUUPORT_L1_BACKDOOR, /* Determine if the L1 Backdoor setting is turned on. */
++	HAL_DEF_PCI_AMD_L1_SUPPORT,
++	HAL_DEF_PCI_ASPM_OSC, /* Support for ASPM OSC, added by Roger, 2013.03.27. */
++	HAL_DEF_MACID_SLEEP, /* Support for MACID sleep */
++	HAL_DEF_DBG_DIS_PWT, /* disable Tx power training or not. */
++	HAL_DEF_EFUSE_USAGE,	/* Get current EFUSE utilization. 2008.12.19. Added by Roger. */
++	HAL_DEF_EFUSE_BYTES,
++	HW_VAR_BEST_AMPDU_DENSITY,
++} HAL_DEF_VARIABLE;
++
++typedef enum _HAL_ODM_VARIABLE {
++	HAL_ODM_STA_INFO,
++	HAL_ODM_P2P_STATE,
++	HAL_ODM_WIFI_DISPLAY_STATE,
++	HAL_ODM_NOISE_MONITOR,
++	HAL_ODM_REGULATION,
++	HAL_ODM_INITIAL_GAIN,
++	HAL_ODM_FA_CNT_DUMP,
++	HAL_ODM_DBG_FLAG,
++	HAL_ODM_DBG_LEVEL,
++	HAL_ODM_RX_INFO_DUMP,
++	HAL_ODM_RX_Dframe_INFO,
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	HAL_ODM_AUTO_CHNL_SEL,
++#endif
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	HAL_ODM_ANTDIV_SELECT
++#endif
++} HAL_ODM_VARIABLE;
++
++typedef enum _HAL_INTF_PS_FUNC {
++	HAL_USB_SELECT_SUSPEND,
++	HAL_MAX_ID,
++} HAL_INTF_PS_FUNC;
++
++typedef s32(*c2h_id_filter)(_adapter *adapter, u8 id, u8 seq, u8 plen, u8 *payload);
++
++struct txpwr_idx_comp;
++
++struct hal_ops {
++	/*** initialize section ***/
++	void	(*read_chip_version)(_adapter *padapter);
++	void	(*init_default_value)(_adapter *padapter);
++	void	(*intf_chip_configure)(_adapter *padapter);
++	void	(*read_adapter_info)(_adapter *padapter);
++	u32(*hal_power_on)(_adapter *padapter);
++	void	(*hal_power_off)(_adapter *padapter);
++	u32(*hal_init)(_adapter *padapter);
++	u32(*hal_deinit)(_adapter *padapter);
++	void	(*dm_init)(_adapter *padapter);
++	void	(*dm_deinit)(_adapter *padapter);
++
++	/*** xmit section ***/
++	s32(*init_xmit_priv)(_adapter *padapter);
++	void	(*free_xmit_priv)(_adapter *padapter);
++	s32(*hal_xmit)(_adapter *padapter, struct xmit_frame *pxmitframe);
++	/*
++	 * mgnt_xmit should be implemented to run in interrupt context
++	 */
++	s32(*mgnt_xmit)(_adapter *padapter, struct xmit_frame *pmgntframe);
++	s32(*hal_xmitframe_enqueue)(_adapter *padapter, struct xmit_frame *pxmitframe);
++#ifdef CONFIG_XMIT_THREAD_MODE
++	s32(*xmit_thread_handler)(_adapter *padapter);
++#endif
++	void	(*run_thread)(_adapter *padapter);
++	void	(*cancel_thread)(_adapter *padapter);
++
++	/*** recv section ***/
++	s32(*init_recv_priv)(_adapter *padapter);
++	void	(*free_recv_priv)(_adapter *padapter);
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_PCI_HCI)
++	u32(*inirp_init)(_adapter *padapter);
++	u32(*inirp_deinit)(_adapter *padapter);
++#endif
++	/*** interrupt hdl section ***/
++	void	(*enable_interrupt)(_adapter *padapter);
++	void	(*disable_interrupt)(_adapter *padapter);
++	u8(*check_ips_status)(_adapter *padapter);
++#if defined(CONFIG_PCI_HCI)
++	s32(*interrupt_handler)(_adapter *padapter);
++#endif
++
++#if defined(CONFIG_USB_HCI) && defined(CONFIG_SUPPORT_USB_INT)
++	void	(*interrupt_handler)(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif
++
++#if defined(CONFIG_PCI_HCI)
++	void	(*irp_reset)(_adapter *padapter);
++#endif
++
++	/*** DM section ***/
++
++	void	(*InitSwLeds)(_adapter *padapter);
++	void	(*DeInitSwLeds)(_adapter *padapter);
++
++	void	(*set_chnl_bw_handler)(_adapter *padapter, u8 channel, CHANNEL_WIDTH Bandwidth, u8 Offset40, u8 Offset80);
++
++	void	(*set_tx_power_level_handler)(_adapter *padapter, u8 channel);
++	void	(*get_tx_power_level_handler)(_adapter *padapter, s32 *powerlevel);
++
++	void (*set_tx_power_index_handler)(_adapter *padapter, u32 powerindex, u8 rfpath, u8 rate);
++	u8(*get_tx_power_index_handler)(_adapter *padapter, u8 rfpath, u8 rate, u8 bandwidth, u8 channel, struct txpwr_idx_comp *tic);
++
++	void	(*hal_dm_watchdog)(_adapter *padapter);
++#ifdef CONFIG_LPS_LCLK_WD_TIMER
++	void	(*hal_dm_watchdog_in_lps)(_adapter *padapter);
++#endif
++
++	void	(*SetHwRegHandler)(_adapter *padapter, u8	variable, u8 *val);
++	void	(*GetHwRegHandler)(_adapter *padapter, u8	variable, u8 *val);
++
++	u8(*GetHalDefVarHandler)(_adapter *padapter, HAL_DEF_VARIABLE eVariable, PVOID pValue);
++	u8(*SetHalDefVarHandler)(_adapter *padapter, HAL_DEF_VARIABLE eVariable, PVOID pValue);
++
++	void	(*GetHalODMVarHandler)(_adapter *padapter, HAL_ODM_VARIABLE eVariable, PVOID pValue1, PVOID pValue2);
++	void	(*SetHalODMVarHandler)(_adapter *padapter, HAL_ODM_VARIABLE eVariable, PVOID pValue1, BOOLEAN bSet);
++
++	void	(*UpdateRAMaskHandler)(_adapter *padapter, struct sta_info *psta, u32 mac_id, u8 rssi_level);
++	void	(*SetBeaconRelatedRegistersHandler)(_adapter *padapter);
++
++	u8(*interface_ps_func)(_adapter *padapter, HAL_INTF_PS_FUNC efunc_id, u8 *val);
++
++	u32(*read_bbreg)(_adapter *padapter, u32 RegAddr, u32 BitMask);
++	void	(*write_bbreg)(_adapter *padapter, u32 RegAddr, u32 BitMask, u32 Data);
++	u32(*read_rfreg)(_adapter *padapter, u8 eRFPath, u32 RegAddr, u32 BitMask);
++	void	(*write_rfreg)(_adapter *padapter, u8 eRFPath, u32 RegAddr, u32 BitMask, u32 Data);
++
++#ifdef CONFIG_HOSTAPD_MLME
++	s32(*hostap_mgnt_xmit_entry)(_adapter *padapter, _pkt *pkt);
++#endif
++
++	void (*EfusePowerSwitch)(_adapter *padapter, u8 bWrite, u8 PwrState);
++	void (*BTEfusePowerSwitch)(_adapter *padapter, u8 bWrite, u8 PwrState);
++	void (*ReadEFuse)(_adapter *padapter, u8 efuseType, u16 _offset, u16 _size_byte, u8 *pbuf, BOOLEAN bPseudoTest);
++	void (*EFUSEGetEfuseDefinition)(_adapter *padapter, u8 efuseType, u8 type, void *pOut, BOOLEAN bPseudoTest);
++	u16(*EfuseGetCurrentSize)(_adapter *padapter, u8 efuseType, BOOLEAN bPseudoTest);
++	int	(*Efuse_PgPacketRead)(_adapter *padapter, u8 offset, u8 *data, BOOLEAN bPseudoTest);
++	int	(*Efuse_PgPacketWrite)(_adapter *padapter, u8 offset, u8 word_en, u8 *data, BOOLEAN bPseudoTest);
++	u8(*Efuse_WordEnableDataWrite)(_adapter *padapter, u16 efuse_addr, u8 word_en, u8 *data, BOOLEAN bPseudoTest);
++	BOOLEAN(*Efuse_PgPacketWrite_BT)(_adapter *padapter, u8 offset, u8 word_en, u8 *data, BOOLEAN bPseudoTest);
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	void (*sreset_init_value)(_adapter *padapter);
++	void (*sreset_reset_value)(_adapter *padapter);
++	void (*silentreset)(_adapter *padapter);
++	void (*sreset_xmit_status_check)(_adapter *padapter);
++	void (*sreset_linked_status_check)(_adapter *padapter);
++	u8(*sreset_get_wifi_status)(_adapter *padapter);
++	bool (*sreset_inprogress)(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_IOL
++	int (*IOL_exec_cmds_sync)(_adapter *padapter, struct xmit_frame *xmit_frame, u32 max_wating_ms, u32 bndy_cnt);
++#endif
++
++	void (*hal_notch_filter)(_adapter *adapter, bool enable);
++#ifdef RTW_HALMAC
++	void (*hal_mac_c2h_handler)(_adapter *adapter, u8 *pbuf, u16 length);
++#else
++	s32(*c2h_handler)(_adapter *adapter, u8 id, u8 seq, u8 plen, u8 *payload);
++#endif
++	s32(*fill_h2c_cmd)(PADAPTER, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++	void (*fill_fake_txdesc)(PADAPTER, u8 *pDesc, u32 BufferLen,
++				 u8 IsPsPoll, u8 IsBTQosNull, u8 bDataFrame);
++	s32(*fw_dl)(_adapter *adapter, u8 wowlan);
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN) || defined(CONFIG_PCI_HCI)
++	void (*clear_interrupt)(_adapter *padapter);
++#endif
++	u8(*hal_get_tx_buff_rsvd_page_num)(_adapter *adapter, bool wowlan);
++#ifdef CONFIG_GPIO_API
++	void (*update_hisr_hsisr_ind)(PADAPTER padapter, u32 flag);
++	int (*hal_gpio_func_check)(_adapter *padapter, u8 gpio_num);
++	void (*hal_gpio_multi_func_reset)(_adapter *padapter, u8 gpio_num);
++#endif
++	void (*fw_correct_bcn)(PADAPTER padapter);
++
++#ifdef RTW_HALMAC
++	u8(*init_mac_register)(PADAPTER);
++	u8(*init_phy)(PADAPTER);
++#endif /* RTW_HALMAC */
++};
++
++typedef	enum _RT_EEPROM_TYPE {
++	EEPROM_93C46,
++	EEPROM_93C56,
++	EEPROM_BOOT_EFUSE,
++} RT_EEPROM_TYPE, *PRT_EEPROM_TYPE;
++
++
++
++#define RF_CHANGE_BY_INIT	0
++#define RF_CHANGE_BY_IPS	BIT28
++#define RF_CHANGE_BY_PS	BIT29
++#define RF_CHANGE_BY_HW	BIT30
++#define RF_CHANGE_BY_SW	BIT31
++
++typedef enum _HARDWARE_TYPE {
++	HARDWARE_TYPE_RTL8188EE,
++	HARDWARE_TYPE_RTL8188EU,
++	HARDWARE_TYPE_RTL8188ES,
++	/*	NEW_GENERATION_IC */
++	HARDWARE_TYPE_RTL8192EE,
++	HARDWARE_TYPE_RTL8192EU,
++	HARDWARE_TYPE_RTL8192ES,
++	HARDWARE_TYPE_RTL8812E,
++	HARDWARE_TYPE_RTL8812AU,
++	HARDWARE_TYPE_RTL8811AU,
++	HARDWARE_TYPE_RTL8821E,
++	HARDWARE_TYPE_RTL8821U,
++	HARDWARE_TYPE_RTL8821S,
++	HARDWARE_TYPE_RTL8723BE,
++	HARDWARE_TYPE_RTL8723BU,
++	HARDWARE_TYPE_RTL8723BS,
++	HARDWARE_TYPE_RTL8814AE,
++	HARDWARE_TYPE_RTL8814AU,
++	HARDWARE_TYPE_RTL8814AS,
++	HARDWARE_TYPE_RTL8821BE,
++	HARDWARE_TYPE_RTL8821BU,
++	HARDWARE_TYPE_RTL8821BS,
++	HARDWARE_TYPE_RTL8822BE,
++	HARDWARE_TYPE_RTL8822BU,
++	HARDWARE_TYPE_RTL8822BS,
++	HARDWARE_TYPE_RTL8703BE,
++	HARDWARE_TYPE_RTL8703BU,
++	HARDWARE_TYPE_RTL8703BS,
++	HARDWARE_TYPE_RTL8188FE,
++	HARDWARE_TYPE_RTL8188FU,
++	HARDWARE_TYPE_RTL8188FS,
++	HARDWARE_TYPE_RTL8723DE,
++	HARDWARE_TYPE_RTL8723DU,
++	HARDWARE_TYPE_RTL8723DS,
++	HARDWARE_TYPE_RTL8821CE,
++	HARDWARE_TYPE_RTL8821CU,
++	HARDWARE_TYPE_RTL8821CS,
++	HARDWARE_TYPE_MAX,
++} HARDWARE_TYPE;
++
++#define IS_NEW_GENERATION_IC(_Adapter)	(rtw_get_hw_type(_Adapter) >= HARDWARE_TYPE_RTL8192EE)
++/*
++ * RTL8188E Series
++ *   */
++#define IS_HARDWARE_TYPE_8188EE(_Adapter)	(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8188EE)
++#define IS_HARDWARE_TYPE_8188EU(_Adapter)	(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8188EU)
++#define IS_HARDWARE_TYPE_8188ES(_Adapter)	(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8188ES)
++#define	IS_HARDWARE_TYPE_8188E(_Adapter)	\
++	(IS_HARDWARE_TYPE_8188EE(_Adapter) || IS_HARDWARE_TYPE_8188EU(_Adapter) || IS_HARDWARE_TYPE_8188ES(_Adapter))
++
++/* RTL8812 Series */
++#define IS_HARDWARE_TYPE_8812E(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8812E)
++#define IS_HARDWARE_TYPE_8812AU(_Adapter)	(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8812AU)
++#define IS_HARDWARE_TYPE_8812(_Adapter)			\
++	(IS_HARDWARE_TYPE_8812E(_Adapter) || IS_HARDWARE_TYPE_8812AU(_Adapter))
++
++/* RTL8821 Series */
++#define IS_HARDWARE_TYPE_8821E(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8821E)
++#define IS_HARDWARE_TYPE_8811AU(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8811AU)
++#define IS_HARDWARE_TYPE_8821U(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8821U || \
++		rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8811AU)
++#define IS_HARDWARE_TYPE_8821S(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8821S)
++#define IS_HARDWARE_TYPE_8821(_Adapter)			\
++	(IS_HARDWARE_TYPE_8821E(_Adapter) || IS_HARDWARE_TYPE_8821U(_Adapter) || IS_HARDWARE_TYPE_8821S(_Adapter))
++
++#define IS_HARDWARE_TYPE_JAGUAR(_Adapter)		\
++	(IS_HARDWARE_TYPE_8812(_Adapter) || IS_HARDWARE_TYPE_8821(_Adapter))
++
++/* RTL8192E Series */
++#define IS_HARDWARE_TYPE_8192EE(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8192EE)
++#define IS_HARDWARE_TYPE_8192EU(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8192EU)
++#define IS_HARDWARE_TYPE_8192ES(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8192ES)
++
++#define IS_HARDWARE_TYPE_8192E(_Adapter)		\
++	(IS_HARDWARE_TYPE_8192EE(_Adapter) || IS_HARDWARE_TYPE_8192EU(_Adapter) || IS_HARDWARE_TYPE_8192ES(_Adapter))
++
++#define IS_HARDWARE_TYPE_8723BE(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8723BE)
++#define IS_HARDWARE_TYPE_8723BU(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8723BU)
++#define IS_HARDWARE_TYPE_8723BS(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8723BS)
++
++#define IS_HARDWARE_TYPE_8723B(_Adapter) \
++	(IS_HARDWARE_TYPE_8723BE(_Adapter) || IS_HARDWARE_TYPE_8723BU(_Adapter) || IS_HARDWARE_TYPE_8723BS(_Adapter))
++
++/* RTL8814A Series */
++#define IS_HARDWARE_TYPE_8814AE(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8814AE)
++#define IS_HARDWARE_TYPE_8814AU(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8814AU)
++#define IS_HARDWARE_TYPE_8814AS(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8814AS)
++
++#define IS_HARDWARE_TYPE_8814A(_Adapter)		\
++	(IS_HARDWARE_TYPE_8814AE(_Adapter) || IS_HARDWARE_TYPE_8814AU(_Adapter) || IS_HARDWARE_TYPE_8814AS(_Adapter))
++
++/* RTL8703B Series */
++#define IS_HARDWARE_TYPE_8703BE(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8703BE)
++#define IS_HARDWARE_TYPE_8703BS(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8703BS)
++#define IS_HARDWARE_TYPE_8703BU(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8703BU)
++#define	IS_HARDWARE_TYPE_8703B(_Adapter)			\
++	(IS_HARDWARE_TYPE_8703BE(_Adapter) || IS_HARDWARE_TYPE_8703BU(_Adapter) || IS_HARDWARE_TYPE_8703BS(_Adapter))
++
++/* RTL8723D Series */
++#define IS_HARDWARE_TYPE_8723DE(_Adapter)\
++	(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8723DE)
++#define IS_HARDWARE_TYPE_8723DS(_Adapter)\
++	(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8723DS)
++#define IS_HARDWARE_TYPE_8723DU(_Adapter)\
++	(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8723DU)
++#define	IS_HARDWARE_TYPE_8723D(_Adapter)\
++	(IS_HARDWARE_TYPE_8723DE(_Adapter) || \
++	 IS_HARDWARE_TYPE_8723DU(_Adapter) || \
++	 IS_HARDWARE_TYPE_8723DS(_Adapter))
++
++/* RTL8188F Series */
++#define IS_HARDWARE_TYPE_8188FE(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8188FE)
++#define IS_HARDWARE_TYPE_8188FS(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8188FS)
++#define IS_HARDWARE_TYPE_8188FU(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8188FU)
++#define	IS_HARDWARE_TYPE_8188F(_Adapter)			\
++	(IS_HARDWARE_TYPE_8188FE(_Adapter) || IS_HARDWARE_TYPE_8188FU(_Adapter) || IS_HARDWARE_TYPE_8188FS(_Adapter))
++
++#define IS_HARDWARE_TYPE_8821BE(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8821BE)
++#define IS_HARDWARE_TYPE_8821BU(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8821BU)
++#define IS_HARDWARE_TYPE_8821BS(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8821BS)
++
++#define IS_HARDWARE_TYPE_8821B(_Adapter)		\
++	(IS_HARDWARE_TYPE_8821BE(_Adapter) || IS_HARDWARE_TYPE_8821BU(_Adapter) || IS_HARDWARE_TYPE_8821BS(_Adapter))
++
++#define IS_HARDWARE_TYPE_8822BE(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8822BE)
++#define IS_HARDWARE_TYPE_8822BU(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8822BU)
++#define IS_HARDWARE_TYPE_8822BS(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8822BS)
++#define IS_HARDWARE_TYPE_8822B(_Adapter)		\
++	(IS_HARDWARE_TYPE_8822BE(_Adapter) || IS_HARDWARE_TYPE_8822BU(_Adapter) || IS_HARDWARE_TYPE_8822BS(_Adapter))
++
++#define IS_HARDWARE_TYPE_8821CE(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8821CE)
++#define IS_HARDWARE_TYPE_8821CU(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8821CU)
++#define IS_HARDWARE_TYPE_8821CS(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8821CS)
++#define IS_HARDWARE_TYPE_8821C(_Adapter)		\
++	(IS_HARDWARE_TYPE_8821CE(_Adapter) || IS_HARDWARE_TYPE_8821CU(_Adapter) || IS_HARDWARE_TYPE_8821CS(_Adapter))
++
++#define IS_HARDWARE_TYPE_JAGUAR2(_Adapter)		\
++	(IS_HARDWARE_TYPE_8814A(_Adapter) || IS_HARDWARE_TYPE_8821B(_Adapter) || IS_HARDWARE_TYPE_8822B(_Adapter) || IS_HARDWARE_TYPE_8821C(_Adapter))
++
++#define IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(_Adapter)		\
++	(IS_HARDWARE_TYPE_JAGUAR(_Adapter) || IS_HARDWARE_TYPE_JAGUAR2(_Adapter))
++
++
++
++typedef enum _wowlan_subcode {
++	WOWLAN_ENABLE			= 0,
++	WOWLAN_DISABLE			= 1,
++	WOWLAN_AP_ENABLE		= 2,
++	WOWLAN_AP_DISABLE		= 3,
++	WOWLAN_PATTERN_CLEAN		= 4
++} wowlan_subcode;
++
++struct wowlan_ioctl_param {
++	unsigned int subcode;
++	unsigned int subcode_value;
++	unsigned int wakeup_reason;
++};
++
++u8 rtw_hal_data_init(_adapter *padapter);
++void rtw_hal_data_deinit(_adapter *padapter);
++
++void rtw_hal_def_value_init(_adapter *padapter);
++
++void	rtw_hal_free_data(_adapter *padapter);
++
++void rtw_hal_dm_init(_adapter *padapter);
++void rtw_hal_dm_deinit(_adapter *padapter);
++void rtw_hal_sw_led_init(_adapter *padapter);
++void rtw_hal_sw_led_deinit(_adapter *padapter);
++
++u32 rtw_hal_power_on(_adapter *padapter);
++void rtw_hal_power_off(_adapter *padapter);
++
++uint rtw_hal_init(_adapter *padapter);
++uint rtw_hal_deinit(_adapter *padapter);
++void rtw_hal_stop(_adapter *padapter);
++void rtw_hal_set_hwreg(PADAPTER padapter, u8 variable, u8 *val);
++void rtw_hal_get_hwreg(PADAPTER padapter, u8 variable, u8 *val);
++
++void rtw_hal_chip_configure(_adapter *padapter);
++void rtw_hal_read_chip_info(_adapter *padapter);
++void rtw_hal_read_chip_version(_adapter *padapter);
++
++u8 rtw_hal_set_def_var(_adapter *padapter, HAL_DEF_VARIABLE eVariable, PVOID pValue);
++u8 rtw_hal_get_def_var(_adapter *padapter, HAL_DEF_VARIABLE eVariable, PVOID pValue);
++
++void rtw_hal_set_odm_var(_adapter *padapter, HAL_ODM_VARIABLE eVariable, PVOID pValue1, BOOLEAN bSet);
++void	rtw_hal_get_odm_var(_adapter *padapter, HAL_ODM_VARIABLE eVariable, PVOID pValue1, PVOID pValue2);
++
++void rtw_hal_enable_interrupt(_adapter *padapter);
++void rtw_hal_disable_interrupt(_adapter *padapter);
++
++u8 rtw_hal_check_ips_status(_adapter *padapter);
++
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_PCI_HCI)
++	u32	rtw_hal_inirp_init(_adapter *padapter);
++	u32	rtw_hal_inirp_deinit(_adapter *padapter);
++#endif
++
++#if defined(CONFIG_PCI_HCI)
++	void	rtw_hal_irp_reset(_adapter *padapter);
++#endif
++
++u8	rtw_hal_intf_ps_func(_adapter *padapter, HAL_INTF_PS_FUNC efunc_id, u8 *val);
++
++s32	rtw_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++s32	rtw_hal_xmit(_adapter *padapter, struct xmit_frame *pxmitframe);
++s32	rtw_hal_mgnt_xmit(_adapter *padapter, struct xmit_frame *pmgntframe);
++
++s32	rtw_hal_init_xmit_priv(_adapter *padapter);
++void	rtw_hal_free_xmit_priv(_adapter *padapter);
++
++s32	rtw_hal_init_recv_priv(_adapter *padapter);
++void	rtw_hal_free_recv_priv(_adapter *padapter);
++
++void rtw_hal_update_ra_mask(struct sta_info *psta, u8 rssi_level);
++void rtw_update_ramask(_adapter *padapter, struct sta_info *psta, u32 mac_id, u8 rssi_level);
++
++void	rtw_hal_start_thread(_adapter *padapter);
++void	rtw_hal_stop_thread(_adapter *padapter);
++
++void rtw_hal_bcn_related_reg_setting(_adapter *padapter);
++
++u32	rtw_hal_read_bbreg(_adapter *padapter, u32 RegAddr, u32 BitMask);
++void	rtw_hal_write_bbreg(_adapter *padapter, u32 RegAddr, u32 BitMask, u32 Data);
++u32	rtw_hal_read_rfreg(_adapter *padapter, u32 eRFPath, u32 RegAddr, u32 BitMask);
++void	rtw_hal_write_rfreg(_adapter *padapter, u32 eRFPath, u32 RegAddr, u32 BitMask, u32 Data);
++
++#define PHY_QueryBBReg(Adapter, RegAddr, BitMask) rtw_hal_read_bbreg((Adapter), (RegAddr), (BitMask))
++#define PHY_SetBBReg(Adapter, RegAddr, BitMask, Data) rtw_hal_write_bbreg((Adapter), (RegAddr), (BitMask), (Data))
++#define PHY_QueryRFReg(Adapter, eRFPath, RegAddr, BitMask) rtw_hal_read_rfreg((Adapter), (eRFPath), (RegAddr), (BitMask))
++#define PHY_SetRFReg(Adapter, eRFPath, RegAddr, BitMask, Data) rtw_hal_write_rfreg((Adapter), (eRFPath), (RegAddr), (BitMask), (Data))
++
++#define PHY_SetMacReg	PHY_SetBBReg
++#define PHY_QueryMacReg PHY_QueryBBReg
++
++#if defined(CONFIG_PCI_HCI)
++	s32	rtw_hal_interrupt_handler(_adapter *padapter);
++#endif
++#if  defined(CONFIG_USB_HCI) && defined(CONFIG_SUPPORT_USB_INT)
++	void	rtw_hal_interrupt_handler(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif
++
++void	rtw_hal_set_chnl_bw(_adapter *padapter, u8 channel, CHANNEL_WIDTH Bandwidth, u8 Offset40, u8 Offset80);
++void	rtw_hal_dm_watchdog(_adapter *padapter);
++void	rtw_hal_dm_watchdog_in_lps(_adapter *padapter);
++
++void	rtw_hal_set_tx_power_level(_adapter *padapter, u8 channel);
++void	rtw_hal_get_tx_power_level(_adapter *padapter, s32 *powerlevel);
++
++#ifdef CONFIG_HOSTAPD_MLME
++	s32	rtw_hal_hostap_mgnt_xmit_entry(_adapter *padapter, _pkt *pkt);
++#endif
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++void rtw_hal_sreset_init(_adapter *padapter);
++void rtw_hal_sreset_reset(_adapter *padapter);
++void rtw_hal_sreset_reset_value(_adapter *padapter);
++void rtw_hal_sreset_xmit_status_check(_adapter *padapter);
++void rtw_hal_sreset_linked_status_check(_adapter *padapter);
++u8   rtw_hal_sreset_get_wifi_status(_adapter *padapter);
++bool rtw_hal_sreset_inprogress(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_IOL
++int rtw_hal_iol_cmd(ADAPTER *adapter, struct xmit_frame *xmit_frame, u32 max_wating_ms, u32 bndy_cnt);
++#endif
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++s32 rtw_hal_xmit_thread_handler(_adapter *padapter);
++#endif
++
++void rtw_hal_notch_filter(_adapter *adapter, bool enable);
++
++#ifdef CONFIG_FW_C2H_REG
++bool rtw_hal_c2h_reg_hdr_parse(_adapter *adapter, u8 *buf, u8 *id, u8 *seq, u8 *plen, u8 **payload);
++bool rtw_hal_c2h_valid(_adapter *adapter, u8 *buf);
++s32 rtw_hal_c2h_evt_read(_adapter *adapter, u8 *buf);
++#endif
++
++#ifdef CONFIG_FW_C2H_PKT
++bool rtw_hal_c2h_pkt_hdr_parse(_adapter *adapter, u8 *buf, u16 len, u8 *id, u8 *seq, u8 *plen, u8 **payload);
++#endif
++
++s32 c2h_handler(_adapter *adapter, u8 id, u8 seq, u8 plen, u8 *payload);
++#ifndef RTW_HALMAC
++s32 rtw_hal_c2h_handler(_adapter *adapter, u8 id, u8 seq, u8 plen, u8 *payload);
++s32 rtw_hal_c2h_id_handle_directly(_adapter *adapter, u8 id, u8 seq, u8 plen, u8 *payload);
++#endif
++
++s32 rtw_hal_is_disable_sw_channel_plan(PADAPTER padapter);
++
++s32 rtw_hal_macid_sleep(PADAPTER padapter, u8 macid);
++s32 rtw_hal_macid_wakeup(PADAPTER padapter, u8 macid);
++
++s32 rtw_hal_fill_h2c_cmd(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++void rtw_hal_fill_fake_txdesc(_adapter *padapter, u8 *pDesc, u32 BufferLen,
++			      u8 IsPsPoll, u8 IsBTQosNull, u8 bDataFrame);
++u8 rtw_hal_get_txbuff_rsvd_page_num(_adapter *adapter, bool wowlan);
++
++#ifdef CONFIG_GPIO_API
++void rtw_hal_update_hisr_hsisr_ind(_adapter *padapter, u32 flag);
++int rtw_hal_gpio_func_check(_adapter *padapter, u8 gpio_num);
++void rtw_hal_gpio_multi_func_reset(_adapter *padapter, u8 gpio_num);
++#endif
++
++void rtw_hal_fw_correct_bcn(_adapter *padapter);
++s32 rtw_hal_fw_dl(_adapter *padapter, u8 wowlan);
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	void rtw_hal_clear_interrupt(_adapter *padapter);
++#endif
++
++void rtw_hal_set_tx_power_index(PADAPTER, u32 powerindex, u8 rfpath, u8 rate);
++u8 rtw_hal_get_tx_power_index(PADAPTER, u8 rfpath, u8 rate, u8 bandwidth, u8 channel,struct txpwr_idx_comp *tic);
++
++u8 rtw_hal_ops_check(_adapter *padapter);
++
++#ifdef RTW_HALMAC
++	u8 rtw_hal_init_mac_register(PADAPTER);
++	u8 rtw_hal_init_phy(PADAPTER);
++#endif /* RTW_HALMAC */
++
++#endif /* __HAL_INTF_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/hal_pg.h b/drivers/net/wireless/rtl8723du/include/hal_pg.h
+new file mode 100644
+index 0000000..f96d88b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/hal_pg.h
+@@ -0,0 +1,800 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __HAL_PG_H__
++#define __HAL_PG_H__
++
++#define PPG_BB_GAIN_2G_TX_OFFSET_MASK	0x0F
++#define PPG_BB_GAIN_2G_TXB_OFFSET_MASK	0xF0
++
++#define PPG_BB_GAIN_5G_TX_OFFSET_MASK	0x1F
++#define PPG_THERMAL_OFFSET_MASK			0x1F
++#define KFREE_BB_GAIN_2G_TX_OFFSET(_ppg_v) (((_ppg_v) == PPG_BB_GAIN_2G_TX_OFFSET_MASK) ? 0 : (((_ppg_v) & 0x01) ? ((_ppg_v) >> 1) : (-((_ppg_v) >> 1))))
++#define KFREE_BB_GAIN_2G_TXB_OFFSET(_ppg_v) (((_ppg_v) == PPG_BB_GAIN_2G_TXB_OFFSET_MASK) ? 0 : (((_ppg_v) & 0x10) ? ((_ppg_v) >> 5) : (-((_ppg_v) >> 5))))
++#define KFREE_BB_GAIN_5G_TX_OFFSET(_ppg_v) (((_ppg_v) == PPG_BB_GAIN_5G_TX_OFFSET_MASK) ? 0 : (((_ppg_v) & 0x01) ? ((_ppg_v) >> 1) : (-((_ppg_v) >> 1))))
++#define KFREE_THERMAL_OFFSET(_ppg_v) (((_ppg_v) == PPG_THERMAL_OFFSET_MASK) ? 0 : (((_ppg_v) & 0x01) ? ((_ppg_v) >> 1) : (-((_ppg_v) >> 1))))
++
++/* ****************************************************
++ *			EEPROM/Efuse PG Offset for 88EE/88EU/88ES
++ * **************************************************** */
++#define EEPROM_TX_PWR_INX_88E					0x10
++
++#define EEPROM_ChannelPlan_88E					0xB8
++#define EEPROM_XTAL_88E						0xB9
++#define EEPROM_THERMAL_METER_88E				0xBA
++#define EEPROM_IQK_LCK_88E						0xBB
++
++#define EEPROM_RF_BOARD_OPTION_88E			0xC1
++#define EEPROM_RF_FEATURE_OPTION_88E			0xC2
++#define EEPROM_RF_BT_SETTING_88E				0xC3
++#define EEPROM_VERSION_88E						0xC4
++#define EEPROM_CustomID_88E					0xC5
++#define EEPROM_RF_ANTENNA_OPT_88E			0xC9
++#define EEPROM_COUNTRY_CODE_88E				0xCB
++
++/* RTL88EE */
++#define EEPROM_MAC_ADDR_88EE					0xD0
++#define EEPROM_VID_88EE						0xD6
++#define EEPROM_DID_88EE						0xD8
++#define EEPROM_SVID_88EE						0xDA
++#define EEPROM_SMID_88EE						0xDC
++
++/* RTL88EU */
++#define EEPROM_MAC_ADDR_88EU					0xD7
++#define EEPROM_VID_88EU						0xD0
++#define EEPROM_PID_88EU						0xD2
++#define EEPROM_USB_OPTIONAL_FUNCTION0		0xD4 /* 8188EU, 8192EU, 8812AU is the same */
++#define EEPROM_USB_OPTIONAL_FUNCTION0_8811AU 0x104
++
++/* RTL88ES */
++#define EEPROM_MAC_ADDR_88ES					0x11A
++/* ****************************************************
++ *			EEPROM/Efuse PG Offset for 8192EE/8192EU/8192ES
++ * **************************************************** */
++#define GET_PG_KFREE_ON_8192E(_pg_m)			LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC1, 4, 1)
++#define GET_PG_KFREE_THERMAL_K_ON_8192E(_pg_m)	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 5, 1)
++
++#define PPG_BB_GAIN_2G_TXA_OFFSET_8192E	0x1F6
++#define PPG_THERMAL_OFFSET_8192E		0x1F5
++
++/* 0x10 ~ 0x63 = TX power area. */
++#define	EEPROM_TX_PWR_INX_8192E				0x10
++
++#define	EEPROM_ChannelPlan_8192E				0xB8
++#define	EEPROM_XTAL_8192E						0xB9
++#define	EEPROM_THERMAL_METER_8192E			0xBA
++#define	EEPROM_IQK_LCK_8192E					0xBB
++#define	EEPROM_2G_5G_PA_TYPE_8192E			0xBC
++#define	EEPROM_2G_LNA_TYPE_GAIN_SEL_8192E	0xBD
++#define	EEPROM_5G_LNA_TYPE_GAIN_SEL_8192E	0xBF
++
++#define	EEPROM_RF_BOARD_OPTION_8192E		0xC1
++#define	EEPROM_RF_FEATURE_OPTION_8192E		0xC2
++#define	EEPROM_RF_BT_SETTING_8192E			0xC3
++#define	EEPROM_VERSION_8192E					0xC4
++#define	EEPROM_CustomID_8192E				0xC5
++#define	EEPROM_TX_BBSWING_2G_8192E			0xC6
++#define	EEPROM_TX_BBSWING_5G_8192E			0xC7
++#define	EEPROM_TX_PWR_CALIBRATE_RATE_8192E	0xC8
++#define	EEPROM_RF_ANTENNA_OPT_8192E			0xC9
++#define	EEPROM_RFE_OPTION_8192E				0xCA
++#define	EEPROM_RFE_OPTION_8188E				0xCA
++#define EEPROM_COUNTRY_CODE_8192E			0xCB
++
++/* RTL8192EE */
++#define	EEPROM_MAC_ADDR_8192EE				0xD0
++#define	EEPROM_VID_8192EE						0xD6
++#define	EEPROM_DID_8192EE						0xD8
++#define	EEPROM_SVID_8192EE					0xDA
++#define	EEPROM_SMID_8192EE					0xDC
++
++/* RTL8192EU */
++#define	EEPROM_MAC_ADDR_8192EU				0xD7
++#define	EEPROM_VID_8192EU						0xD0
++#define	EEPROM_PID_8192EU						0xD2
++#define	EEPROM_PA_TYPE_8192EU		0xBC
++#define	EEPROM_LNA_TYPE_2G_8192EU	0xBD
++#define	EEPROM_LNA_TYPE_5G_8192EU	0xBF
++
++/* RTL8192ES */
++#define	EEPROM_MAC_ADDR_8192ES				0x11A
++/* ****************************************************
++ *			EEPROM/Efuse PG Offset for 8812AE/8812AU/8812AS
++ * ****************************************************
++ * 0x10 ~ 0x63 = TX power area. */
++#define EEPROM_USB_MODE_8812					0x08
++#define EEPROM_TX_PWR_INX_8812				0x10
++
++#define EEPROM_ChannelPlan_8812				0xB8
++#define EEPROM_XTAL_8812						0xB9
++#define EEPROM_THERMAL_METER_8812			0xBA
++#define EEPROM_IQK_LCK_8812					0xBB
++#define EEPROM_2G_5G_PA_TYPE_8812			0xBC
++#define EEPROM_2G_LNA_TYPE_GAIN_SEL_8812	0xBD
++#define EEPROM_5G_LNA_TYPE_GAIN_SEL_8812	0xBF
++
++#define EEPROM_RF_BOARD_OPTION_8812			0xC1
++#define EEPROM_RF_FEATURE_OPTION_8812		0xC2
++#define EEPROM_RF_BT_SETTING_8812				0xC3
++#define EEPROM_VERSION_8812					0xC4
++#define EEPROM_CustomID_8812					0xC5
++#define EEPROM_TX_BBSWING_2G_8812			0xC6
++#define EEPROM_TX_BBSWING_5G_8812			0xC7
++#define EEPROM_TX_PWR_CALIBRATE_RATE_8812	0xC8
++#define EEPROM_RF_ANTENNA_OPT_8812			0xC9
++#define EEPROM_RFE_OPTION_8812				0xCA
++#define EEPROM_COUNTRY_CODE_8812			0xCB
++
++/* RTL8812AE */
++#define EEPROM_MAC_ADDR_8812AE				0xD0
++#define EEPROM_VID_8812AE						0xD6
++#define EEPROM_DID_8812AE						0xD8
++#define EEPROM_SVID_8812AE						0xDA
++#define EEPROM_SMID_8812AE					0xDC
++
++/* RTL8812AU */
++#define EEPROM_MAC_ADDR_8812AU				0xD7
++#define EEPROM_VID_8812AU						0xD0
++#define EEPROM_PID_8812AU						0xD2
++#define EEPROM_PA_TYPE_8812AU					0xBC
++#define EEPROM_LNA_TYPE_2G_8812AU			0xBD
++#define EEPROM_LNA_TYPE_5G_8812AU			0xBF
++
++/* RTL8814AU */
++#define	EEPROM_MAC_ADDR_8814AU				0xD8
++#define	EEPROM_VID_8814AU						0xD0
++#define	EEPROM_PID_8814AU						0xD2
++#define	EEPROM_PA_TYPE_8814AU				0xBC
++#define	EEPROM_LNA_TYPE_2G_8814AU			0xBD
++#define	EEPROM_LNA_TYPE_5G_8814AU			0xBF
++
++/* RTL8814AE */
++#define EEPROM_MAC_ADDR_8814AE				0xD0
++#define EEPROM_VID_8814AE						0xD6
++#define EEPROM_DID_8814AE						0xD8
++#define EEPROM_SVID_8814AE						0xDA
++#define EEPROM_SMID_8814AE					0xDC
++
++/* ****************************************************
++ *			EEPROM/Efuse PG Offset for 8814AU
++ * **************************************************** */
++#define GET_PG_KFREE_ON_8814A(_pg_m)			LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 4, 1)
++#define GET_PG_KFREE_THERMAL_K_ON_8814A(_pg_m)	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 5, 1)
++#define GET_PG_TX_POWER_TRACKING_MODE_8814A(_pg_m)	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 6, 2)
++
++#define KFREE_GAIN_DATA_LENGTH_8814A	22
++
++#define PPG_BB_GAIN_2G_TXBA_OFFSET_8814A	0x3EE
++
++#define PPG_THERMAL_OFFSET_8814A		0x3EF
++
++#define EEPROM_TX_PWR_INX_8814				0x10
++#define EEPROM_USB_MODE_8814A				0x0E
++#define EEPROM_ChannelPlan_8814				0xB8
++#define EEPROM_XTAL_8814					0xB9
++#define EEPROM_THERMAL_METER_8814			0xBA
++#define	EEPROM_IQK_LCK_8814					0xBB
++
++
++#define EEPROM_PA_TYPE_8814					0xBC
++#define EEPROM_LNA_TYPE_AB_2G_8814			0xBD
++#define	EEPROM_LNA_TYPE_CD_2G_8814			0xBE
++#define EEPROM_LNA_TYPE_AB_5G_8814			0xBF
++#define EEPROM_LNA_TYPE_CD_5G_8814			0xC0
++#define	EEPROM_RF_BOARD_OPTION_8814			0xC1
++#define	EEPROM_RF_BT_SETTING_8814			0xC3
++#define	EEPROM_VERSION_8814					0xC4
++#define	EEPROM_CustomID_8814				0xC5
++#define	EEPROM_TX_BBSWING_2G_8814			0xC6
++#define	EEPROM_TX_BBSWING_5G_8814			0xC7
++#define EEPROM_TRX_ANTENNA_OPTION_8814		0xC9
++#define	EEPROM_RFE_OPTION_8814				0xCA
++#define EEPROM_COUNTRY_CODE_8814			0xCB
++
++/*Extra Info for 8814A Initial Gain Fine Tune  suggested by Willis, JIRA: MP123*/
++#define	EEPROM_IG_OFFSET_4_AB_2G_8814A				0x120
++#define	EEPROM_IG_OFFSET_4_CD_2G_8814A				0x121
++#define	EEPROM_IG_OFFSET_4_AB_5GL_8814A				0x122
++#define	EEPROM_IG_OFFSET_4_CD_5GL_8814A				0x123
++#define	EEPROM_IG_OFFSET_4_AB_5GM_8814A				0x124
++#define	EEPROM_IG_OFFSET_4_CD_5GM_8814A				0x125
++#define	EEPROM_IG_OFFSET_4_AB_5GH_8814A				0x126
++#define	EEPROM_IG_OFFSET_4_CD_5GH_8814A				0x127
++
++/* ****************************************************
++ *			EEPROM/Efuse PG Offset for 8821AE/8821AU/8821AS
++ * **************************************************** */
++
++#define GET_PG_KFREE_ON_8821A(_pg_m)			LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 4, 1)
++#define GET_PG_KFREE_THERMAL_K_ON_8821A(_pg_m)	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 5, 1)
++
++#define PPG_BB_GAIN_2G_TXA_OFFSET_8821A		0x1F6
++#define PPG_THERMAL_OFFSET_8821A			0x1F5
++#define PPG_BB_GAIN_5GLB1_TXA_OFFSET_8821A	0x1F4
++#define PPG_BB_GAIN_5GLB2_TXA_OFFSET_8821A	0x1F3
++#define PPG_BB_GAIN_5GMB1_TXA_OFFSET_8821A	0x1F2
++#define PPG_BB_GAIN_5GMB2_TXA_OFFSET_8821A	0x1F1
++#define PPG_BB_GAIN_5GHB_TXA_OFFSET_8821A	0x1F0
++
++#define EEPROM_TX_PWR_INX_8821				0x10
++
++#define EEPROM_ChannelPlan_8821				0xB8
++#define EEPROM_XTAL_8821						0xB9
++#define EEPROM_THERMAL_METER_8821			0xBA
++#define EEPROM_IQK_LCK_8821					0xBB
++
++
++#define EEPROM_RF_BOARD_OPTION_8821			0xC1
++#define EEPROM_RF_FEATURE_OPTION_8821		0xC2
++#define EEPROM_RF_BT_SETTING_8821				0xC3
++#define EEPROM_VERSION_8821					0xC4
++#define EEPROM_CustomID_8821					0xC5
++#define EEPROM_RF_ANTENNA_OPT_8821			0xC9
++
++/* RTL8821AE */
++#define EEPROM_MAC_ADDR_8821AE				0xD0
++#define EEPROM_VID_8821AE						0xD6
++#define EEPROM_DID_8821AE						0xD8
++#define EEPROM_SVID_8821AE						0xDA
++#define EEPROM_SMID_8821AE					0xDC
++
++/* RTL8821AU */
++#define EEPROM_PA_TYPE_8821AU					0xBC
++#define EEPROM_LNA_TYPE_8821AU				0xBF
++
++/* RTL8821AS */
++#define EEPROM_MAC_ADDR_8821AS				0x11A
++
++/* RTL8821AU */
++#define EEPROM_MAC_ADDR_8821AU				0x107
++#define EEPROM_VID_8821AU						0x100
++#define EEPROM_PID_8821AU						0x102
++
++
++/* ****************************************************
++ *			EEPROM/Efuse PG Offset for 8192 SE/SU
++ * **************************************************** */
++#define EEPROM_VID_92SE						0x0A
++#define EEPROM_DID_92SE						0x0C
++#define EEPROM_SVID_92SE						0x0E
++#define EEPROM_SMID_92SE						0x10
++
++#define EEPROM_MAC_ADDR_92S					0x12
++
++#define EEPROM_TSSI_A_92SE						0x74
++#define EEPROM_TSSI_B_92SE						0x75
++
++#define EEPROM_Version_92SE					0x7C
++
++
++#define EEPROM_VID_92SU						0x08
++#define EEPROM_PID_92SU						0x0A
++
++#define EEPROM_Version_92SU					0x50
++#define EEPROM_TSSI_A_92SU						0x6b
++#define EEPROM_TSSI_B_92SU						0x6c
++
++/* ====================================================
++	EEPROM/Efuse PG Offset for 8188FE/8188FU/8188FS
++   ====================================================
++ */
++
++#define GET_PG_KFREE_ON_8188F(_pg_m)			LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC1, 4, 1)
++#define GET_PG_KFREE_THERMAL_K_ON_8188F(_pg_m)	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 5, 1)
++
++#define PPG_BB_GAIN_2G_TXA_OFFSET_8188F	0xEE
++#define PPG_THERMAL_OFFSET_8188F		0xEF
++
++/* 0x10 ~ 0x63 = TX power area. */
++#define	EEPROM_TX_PWR_INX_8188F				0x10
++
++#define	EEPROM_ChannelPlan_8188F			0xB8
++#define	EEPROM_XTAL_8188F					0xB9
++#define	EEPROM_THERMAL_METER_8188F			0xBA
++#define	EEPROM_IQK_LCK_8188F				0xBB
++#define	EEPROM_2G_5G_PA_TYPE_8188F			0xBC
++#define	EEPROM_2G_LNA_TYPE_GAIN_SEL_8188F	0xBD
++#define	EEPROM_5G_LNA_TYPE_GAIN_SEL_8188F	0xBF
++
++#define	EEPROM_RF_BOARD_OPTION_8188F		0xC1
++#define	EEPROM_FEATURE_OPTION_8188F			0xC2
++#define	EEPROM_RF_BT_SETTING_8188F			0xC3
++#define	EEPROM_VERSION_8188F				0xC4
++#define	EEPROM_CustomID_8188F				0xC5
++#define	EEPROM_TX_BBSWING_2G_8188F			0xC6
++#define	EEPROM_TX_PWR_CALIBRATE_RATE_8188F	0xC8
++#define	EEPROM_RF_ANTENNA_OPT_8188F			0xC9
++#define	EEPROM_RFE_OPTION_8188F				0xCA
++#define EEPROM_COUNTRY_CODE_8188F			0xCB
++#define EEPROM_CUSTOMER_ID_8188F			0x7F
++#define EEPROM_SUBCUSTOMER_ID_8188F			0x59
++
++/* RTL8188FU */
++#define EEPROM_MAC_ADDR_8188FU				0xD7
++#define EEPROM_VID_8188FU					0xD0
++#define EEPROM_PID_8188FU					0xD2
++#define EEPROM_PA_TYPE_8188FU				0xBC
++#define EEPROM_LNA_TYPE_2G_8188FU			0xBD
++#define EEPROM_USB_OPTIONAL_FUNCTION0_8188FU 0xD4
++
++/* RTL8188FS */
++#define	EEPROM_MAC_ADDR_8188FS				0x11A
++#define EEPROM_Voltage_ADDR_8188F			0x8
++
++/* ****************************************************
++ *			EEPROM/Efuse PG Offset for 8723BE/8723BU/8723BS
++ * ****************************************************
++ * 0x10 ~ 0x63 = TX power area. */
++#define	EEPROM_TX_PWR_INX_8723B				0x10
++
++#define	EEPROM_ChannelPlan_8723B				0xB8
++#define	EEPROM_XTAL_8723B						0xB9
++#define	EEPROM_THERMAL_METER_8723B			0xBA
++#define	EEPROM_IQK_LCK_8723B					0xBB
++#define	EEPROM_2G_5G_PA_TYPE_8723B			0xBC
++#define	EEPROM_2G_LNA_TYPE_GAIN_SEL_8723B	0xBD
++#define	EEPROM_5G_LNA_TYPE_GAIN_SEL_8723B	0xBF
++
++#define	EEPROM_RF_BOARD_OPTION_8723B		0xC1
++#define	EEPROM_FEATURE_OPTION_8723B			0xC2
++#define	EEPROM_RF_BT_SETTING_8723B			0xC3
++#define	EEPROM_VERSION_8723B					0xC4
++#define	EEPROM_CustomID_8723B				0xC5
++#define	EEPROM_TX_BBSWING_2G_8723B			0xC6
++#define	EEPROM_TX_PWR_CALIBRATE_RATE_8723B	0xC8
++#define	EEPROM_RF_ANTENNA_OPT_8723B		0xC9
++#define	EEPROM_RFE_OPTION_8723B				0xCA
++#define EEPROM_COUNTRY_CODE_8723B			0xCB
++
++/* RTL8723BE */
++#define EEPROM_MAC_ADDR_8723BE				0xD0
++#define EEPROM_VID_8723BE						0xD6
++#define EEPROM_DID_8723BE						0xD8
++#define EEPROM_SVID_8723BE						0xDA
++#define EEPROM_SMID_8723BE						0xDC
++
++/* RTL8723BU */
++#define EEPROM_MAC_ADDR_8723BU				0x107
++#define EEPROM_VID_8723BU						0x100
++#define EEPROM_PID_8723BU						0x102
++#define EEPROM_PA_TYPE_8723BU					0xBC
++#define EEPROM_LNA_TYPE_2G_8723BU				0xBD
++
++
++/* RTL8723BS */
++#define	EEPROM_MAC_ADDR_8723BS				0x11A
++#define EEPROM_Voltage_ADDR_8723B			0x8
++
++/* ****************************************************
++ *			EEPROM/Efuse PG Offset for 8703B
++ * **************************************************** */
++#define GET_PG_KFREE_ON_8703B(_pg_m)			LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC1, 4, 1)
++#define GET_PG_KFREE_THERMAL_K_ON_8703B(_pg_m)	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 5, 1)
++
++#define PPG_BB_GAIN_2G_TXA_OFFSET_8703B	0xEE
++#define PPG_THERMAL_OFFSET_8703B		0xEF
++
++#define	EEPROM_TX_PWR_INX_8703B				0x10
++
++#define	EEPROM_ChannelPlan_8703B				0xB8
++#define	EEPROM_XTAL_8703B					0xB9
++#define	EEPROM_THERMAL_METER_8703B			0xBA
++#define	EEPROM_IQK_LCK_8703B					0xBB
++#define	EEPROM_2G_5G_PA_TYPE_8703B			0xBC
++#define	EEPROM_2G_LNA_TYPE_GAIN_SEL_8703B	0xBD
++#define	EEPROM_5G_LNA_TYPE_GAIN_SEL_8703B	0xBF
++
++#define	EEPROM_RF_BOARD_OPTION_8703B		0xC1
++#define	EEPROM_FEATURE_OPTION_8703B			0xC2
++#define	EEPROM_RF_BT_SETTING_8703B			0xC3
++#define	EEPROM_VERSION_8703B					0xC4
++#define	EEPROM_CustomID_8703B					0xC5
++#define	EEPROM_TX_BBSWING_2G_8703B			0xC6
++#define	EEPROM_TX_PWR_CALIBRATE_RATE_8703B	0xC8
++#define	EEPROM_RF_ANTENNA_OPT_8703B		0xC9
++#define	EEPROM_RFE_OPTION_8703B				0xCA
++#define EEPROM_COUNTRY_CODE_8703B			0xCB
++
++/* RTL8703BU */
++#define EEPROM_MAC_ADDR_8703BU                          0x107
++#define EEPROM_VID_8703BU                               0x100
++#define EEPROM_PID_8703BU                               0x102
++#define EEPROM_USB_OPTIONAL_FUNCTION0_8703BU            0x104
++#define EEPROM_PA_TYPE_8703BU                           0xBC
++#define EEPROM_LNA_TYPE_2G_8703BU                       0xBD
++
++/* RTL8703BS */
++#define	EEPROM_MAC_ADDR_8703BS				0x11A
++#define	EEPROM_Voltage_ADDR_8703B			0x8
++
++/*
++ * ====================================================
++ *	EEPROM/Efuse PG Offset for 8822B
++ * ====================================================
++ */
++#define GET_PG_KFREE_ON_8822B(_pg_m)		LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC1, 4, 1)
++#define GET_PG_KFREE_THERMAL_K_ON_8822B(_pg_m)	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 5, 1)
++
++#define PPG_BB_GAIN_2G_TXA_OFFSET_8822B		0xEE
++#define PPG_THERMAL_OFFSET_8822B		0xEF
++
++#define	EEPROM_TX_PWR_INX_8822B			0x10
++
++#define	EEPROM_ChannelPlan_8822B		0xB8
++#define	EEPROM_XTAL_8822B			0xB9
++#define	EEPROM_THERMAL_METER_8822B		0xBA
++#define	EEPROM_IQK_LCK_8822B			0xBB
++#define	EEPROM_2G_5G_PA_TYPE_8822B		0xBC
++/* PATH A & PATH B */
++#define	EEPROM_2G_LNA_TYPE_GAIN_SEL_AB_8822B	0xBD
++/* PATH C & PATH D */
++#define	EEPROM_2G_LNA_TYPE_GAIN_SEL_CD_8822B	0xBE
++/* PATH A & PATH B */
++#define	EEPROM_5G_LNA_TYPE_GAIN_SEL_AB_8822B	0xBF
++/* PATH C & PATH D */
++#define	EEPROM_5G_LNA_TYPE_GAIN_SEL_CD_8822B	0xC0
++
++#define	EEPROM_RF_BOARD_OPTION_8822B		0xC1
++#define	EEPROM_FEATURE_OPTION_8822B		0xC2
++#define	EEPROM_RF_BT_SETTING_8822B		0xC3
++#define	EEPROM_VERSION_8822B			0xC4
++#define	EEPROM_CustomID_8822B			0xC5
++#define	EEPROM_TX_BBSWING_2G_8822B		0xC6
++#define	EEPROM_TX_PWR_CALIBRATE_RATE_8822B	0xC8
++#define	EEPROM_RF_ANTENNA_OPT_8822B		0xC9
++#define	EEPROM_RFE_OPTION_8822B			0xCA
++#define EEPROM_COUNTRY_CODE_8822B		0xCB
++
++/* RTL8822BU */
++#define EEPROM_MAC_ADDR_8822BU			0x107
++#define EEPROM_VID_8822BU			0x100
++#define EEPROM_PID_8822BU			0x102
++#define EEPROM_USB_OPTIONAL_FUNCTION0_8822BU	0x104
++#define EEPROM_USB_MODE_8822BU			0x06
++
++/* RTL8822BS */
++#define	EEPROM_MAC_ADDR_8822BS			0x11A
++
++/* RTL8822BE */
++#define	EEPROM_MAC_ADDR_8822BE			0xD0
++/*
++ * ====================================================
++ *	EEPROM/Efuse PG Offset for 8821C
++ * ====================================================
++ */
++#define GET_PG_KFREE_ON_8821C(_pg_m)		LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC1, 4, 1)
++#define GET_PG_KFREE_THERMAL_K_ON_8821C(_pg_m)	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 5, 1)
++
++#define PPG_BB_GAIN_2G_TXA_OFFSET_8821C		0xEE
++#define PPG_THERMAL_OFFSET_8821C		0xEF
++
++#define	EEPROM_TX_PWR_INX_8821C			0x10
++
++#define	EEPROM_ChannelPlan_8821C		0xB8
++#define	EEPROM_XTAL_8821C			0xB9
++#define	EEPROM_THERMAL_METER_8821C		0xBA
++#define	EEPROM_IQK_LCK_8821C			0xBB
++#define	EEPROM_2G_5G_PA_TYPE_8821C		0xBC
++/* PATH A & PATH B */
++#define	EEPROM_2G_LNA_TYPE_GAIN_SEL_AB_8821C	0xBD
++/* PATH C & PATH D */
++#define	EEPROM_2G_LNA_TYPE_GAIN_SEL_CD_8821C	0xBE
++/* PATH A & PATH B */
++#define	EEPROM_5G_LNA_TYPE_GAIN_SEL_AB_8821C	0xBF
++/* PATH C & PATH D */
++#define	EEPROM_5G_LNA_TYPE_GAIN_SEL_CD_8821C	0xC0
++
++#define	EEPROM_RF_BOARD_OPTION_8821C		0xC1
++#define	EEPROM_FEATURE_OPTION_8821C		0xC2
++#define	EEPROM_RF_BT_SETTING_8821C		0xC3
++#define	EEPROM_VERSION_8821C			0xC4
++#define	EEPROM_CustomID_8821C			0xC5
++#define	EEPROM_TX_BBSWING_2G_8821C		0xC6
++#define	EEPROM_TX_PWR_CALIBRATE_RATE_8821C	0xC8
++#define	EEPROM_RF_ANTENNA_OPT_8821C		0xC9
++#define	EEPROM_RFE_OPTION_8821C			0xCA
++#define EEPROM_COUNTRY_CODE_8821C		0xCB
++
++/* RTL8821CU */
++#define EEPROM_MAC_ADDR_8821CU			0x107
++#define EEPROM_VID_8821CU					0x100
++#define EEPROM_PID_8821CU					0x102
++#define EEPROM_USB_OPTIONAL_FUNCTION0_8821CU	0x104
++#define EEPROM_USB_MODE_8821CU			0x06
++
++/* RTL8821CS */
++#define	EEPROM_MAC_ADDR_8821CS			0x11A
++
++/* RTL8821CE */
++#define	EEPROM_MAC_ADDR_8821CE			0xD0
++/* ****************************************************
++ *	EEPROM/Efuse PG Offset for 8723D
++ * **************************************************** */
++#define GET_PG_KFREE_ON_8723D(_pg_m)	\
++	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC1, 4, 1)
++#define GET_PG_KFREE_THERMAL_K_ON_8723D(_pg_m)	\
++	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 5, 1)
++
++#define PPG_8723D_S1	0
++#define PPG_8723D_S0	1
++
++#define PPG_BB_GAIN_2G_TXA_OFFSET_8723D		0xEE
++#define PPG_BB_GAIN_2G_TX_OFFSET_8723D		0x1EE
++#define PPG_THERMAL_OFFSET_8723D		0xEF
++
++#define	EEPROM_TX_PWR_INX_8723D			0x10
++
++#define	EEPROM_ChannelPlan_8723D		0xB8
++#define	EEPROM_XTAL_8723D			0xB9
++#define	EEPROM_THERMAL_METER_8723D		0xBA
++#define	EEPROM_IQK_LCK_8723D			0xBB
++#define	EEPROM_2G_5G_PA_TYPE_8723D		0xBC
++#define	EEPROM_2G_LNA_TYPE_GAIN_SEL_8723D	0xBD
++#define	EEPROM_5G_LNA_TYPE_GAIN_SEL_8723D	0xBF
++
++#define	EEPROM_RF_BOARD_OPTION_8723D		0xC1
++#define	EEPROM_FEATURE_OPTION_8723D		0xC2
++#define	EEPROM_RF_BT_SETTING_8723D		0xC3
++#define	EEPROM_VERSION_8723D			0xC4
++#define	EEPROM_CustomID_8723D			0xC5
++#define	EEPROM_TX_BBSWING_2G_8723D		0xC6
++#define	EEPROM_TX_PWR_CALIBRATE_RATE_8723D	0xC8
++#define	EEPROM_RF_ANTENNA_OPT_8723D		0xC9
++#define	EEPROM_RFE_OPTION_8723D			0xCA
++#define EEPROM_COUNTRY_CODE_8723D		0xCB
++
++/* RTL8723DE */
++#define EEPROM_MAC_ADDR_8723DE              0xD0
++#define EEPROM_VID_8723DE                   0xD6
++#define EEPROM_DID_8723DE                   0xD8
++#define EEPROM_SVID_8723DE                  0xDA
++#define EEPROM_SMID_8723DE                  0xDC
++
++/* RTL8723DU */
++#define EEPROM_MAC_ADDR_8723DU                  0x107
++#define EEPROM_VID_8723DU                       0x100
++#define EEPROM_PID_8723DU                       0x102
++#define EEPROM_USB_OPTIONAL_FUNCTION0_8723DU    0x104
++
++/* RTL8723BS */
++#define	EEPROM_MAC_ADDR_8723DS			0x11A
++#define	EEPROM_Voltage_ADDR_8723D		0x8
++
++/* ****************************************************
++ *			EEPROM/Efuse Value Type
++ * **************************************************** */
++#define EETYPE_TX_PWR							0x0
++/* ****************************************************
++ *			EEPROM/Efuse Default Value
++ * **************************************************** */
++#define EEPROM_CID_DEFAULT					0x0
++#define EEPROM_CID_DEFAULT_EXT				0xFF /* Reserved for Realtek */
++#define EEPROM_CID_TOSHIBA						0x4
++#define EEPROM_CID_CCX							0x10
++#define EEPROM_CID_QMI							0x0D
++#define EEPROM_CID_WHQL						0xFE
++
++#define EEPROM_CHANNEL_PLAN_FCC				0x0
++#define EEPROM_CHANNEL_PLAN_IC				0x1
++#define EEPROM_CHANNEL_PLAN_ETSI				0x2
++#define EEPROM_CHANNEL_PLAN_SPAIN			0x3
++#define EEPROM_CHANNEL_PLAN_FRANCE			0x4
++#define EEPROM_CHANNEL_PLAN_MKK				0x5
++#define EEPROM_CHANNEL_PLAN_MKK1				0x6
++#define EEPROM_CHANNEL_PLAN_ISRAEL			0x7
++#define EEPROM_CHANNEL_PLAN_TELEC			0x8
++#define EEPROM_CHANNEL_PLAN_GLOBAL_DOMAIN	0x9
++#define EEPROM_CHANNEL_PLAN_WORLD_WIDE_13	0xA
++#define EEPROM_CHANNEL_PLAN_NCC_TAIWAN		0xB
++#define EEPROM_CHANNEL_PLAN_CHIAN			0XC
++#define EEPROM_CHANNEL_PLAN_SINGAPORE_INDIA_MEXICO  0XD
++#define EEPROM_CHANNEL_PLAN_KOREA			0xE
++#define EEPROM_CHANNEL_PLAN_TURKEY	0xF
++#define EEPROM_CHANNEL_PLAN_JAPAN	0x10
++#define EEPROM_CHANNEL_PLAN_FCC_NO_DFS		0x11
++#define EEPROM_CHANNEL_PLAN_JAPAN_NO_DFS	0x12
++#define EEPROM_CHANNEL_PLAN_WORLD_WIDE_5G	0x13
++#define EEPROM_CHANNEL_PLAN_TAIWAN_NO_DFS	0x14
++
++#define EEPROM_USB_OPTIONAL1					0xE
++#define EEPROM_CHANNEL_PLAN_BY_HW_MASK		0x80
++
++#define RTL_EEPROM_ID							0x8129
++#define EEPROM_Default_TSSI						0x0
++#define EEPROM_Default_BoardType				0x02
++#define EEPROM_Default_ThermalMeter			0x12
++#define EEPROM_Default_ThermalMeter_92SU		0x7
++#define EEPROM_Default_ThermalMeter_88E		0x18
++#define EEPROM_Default_ThermalMeter_8812		0x18
++#define	EEPROM_Default_ThermalMeter_8192E			0x1A
++#define	EEPROM_Default_ThermalMeter_8723B		0x18
++#define	EEPROM_Default_ThermalMeter_8703B		0x18
++#define	EEPROM_Default_ThermalMeter_8723D		0x18
++#define	EEPROM_Default_ThermalMeter_8188F		0x18
++#define EEPROM_Default_ThermalMeter_8814A		0x18
++
++
++#define EEPROM_Default_CrystalCap				0x0
++#define EEPROM_Default_CrystalCap_8723A		0x20
++#define EEPROM_Default_CrystalCap_88E			0x20
++#define EEPROM_Default_CrystalCap_8812			0x20
++#define EEPROM_Default_CrystalCap_8814			0x20
++#define EEPROM_Default_CrystalCap_8192E			0x20
++#define EEPROM_Default_CrystalCap_8723B			0x20
++#define EEPROM_Default_CrystalCap_8703B			0x20
++#define EEPROM_Default_CrystalCap_8723D			0x20
++#define EEPROM_Default_CrystalCap_8188F			0x20
++#define EEPROM_Default_CrystalFreq				0x0
++#define EEPROM_Default_TxPowerLevel_92C		0x22
++#define EEPROM_Default_TxPowerLevel_2G			0x2C
++#define EEPROM_Default_TxPowerLevel_5G			0x22
++#define EEPROM_Default_TxPowerLevel			0x22
++#define EEPROM_Default_HT40_2SDiff				0x0
++#define EEPROM_Default_HT20_Diff				2
++#define EEPROM_Default_LegacyHTTxPowerDiff		0x3
++#define EEPROM_Default_LegacyHTTxPowerDiff_92C	0x3
++#define EEPROM_Default_LegacyHTTxPowerDiff_92D	0x4
++#define EEPROM_Default_HT40_PwrMaxOffset		0
++#define EEPROM_Default_HT20_PwrMaxOffset		0
++
++#define EEPROM_Default_PID						0x1234
++#define EEPROM_Default_VID						0x5678
++#define EEPROM_Default_CustomerID				0xAB
++#define EEPROM_Default_CustomerID_8188E		0x00
++#define EEPROM_Default_SubCustomerID			0xCD
++#define EEPROM_Default_Version					0
++
++#define EEPROM_Default_externalPA_C9		0x00
++#define EEPROM_Default_externalPA_CC		0xFF
++#define EEPROM_Default_internalPA_SP3T_C9	0xAA
++#define EEPROM_Default_internalPA_SP3T_CC	0xAF
++#define EEPROM_Default_internalPA_SPDT_C9	0xAA
++#ifdef CONFIG_PCI_HCI
++	#define EEPROM_Default_internalPA_SPDT_CC	0xA0
++#else
++	#define EEPROM_Default_internalPA_SPDT_CC	0xFA
++#endif
++#define EEPROM_Default_PAType						0
++#define EEPROM_Default_LNAType						0
++
++/* New EFUSE default value */
++#define EEPROM_DEFAULT_CHANNEL_PLAN		0x7F
++#define EEPROM_DEFAULT_BOARD_OPTION		0x00
++#define EEPROM_DEFAULT_RFE_OPTION_8192E 0xFF
++#define EEPROM_DEFAULT_RFE_OPTION_8188E 0xFF
++#define EEPROM_DEFAULT_RFE_OPTION		0x04
++#define EEPROM_DEFAULT_FEATURE_OPTION	0x00
++#define EEPROM_DEFAULT_BT_OPTION			0x10
++
++
++#define EEPROM_DEFAULT_TX_CALIBRATE_RATE	0x00
++
++/* PCIe related */
++#define	EEPROM_PCIE_DEV_CAP_01				0xE0 /* Express device capability in PCIe configuration space, i.e., map to offset 0x74 */
++#define	EEPROM_PCIE_DEV_CAP_02				0xE1 /* Express device capability in PCIe configuration space, i.e., map to offset 0x75 */
++
++
++/*
++ * For VHT series TX power by rate table.
++ * VHT TX power by rate off setArray =
++ * Band:-2G&5G = 0 / 1
++ * RF: at most 4*4 = ABCD=0/1/2/3
++ * CCK=0 OFDM=1/2 HT-MCS 0-15=3/4/56 VHT=7/8/9/10/11
++ *   */
++#define TX_PWR_BY_RATE_NUM_BAND			2
++#define TX_PWR_BY_RATE_NUM_RF			4
++#define TX_PWR_BY_RATE_NUM_RATE			84
++
++#define TXPWR_LMT_MAX_RF				4
++
++/* ----------------------------------------------------------------------------
++ * EEPROM/EFUSE data structure definition.
++ * ---------------------------------------------------------------------------- */
++
++/* For 88E new structure */
++
++/*
++2.4G:
++{
++{1,2},
++{3,4,5},
++{6,7,8},
++{9,10,11},
++{12,13},
++{14}
++}
++
++5G:
++{
++{36,38,40},
++{44,46,48},
++{52,54,56},
++{60,62,64},
++{100,102,104},
++{108,110,112},
++{116,118,120},
++{124,126,128},
++{132,134,136},
++{140,142,144},
++{149,151,153},
++{157,159,161},
++{173,175,177},
++}
++*/
++#define	MAX_RF_PATH				4
++#define RF_PATH_MAX				MAX_RF_PATH
++#define	MAX_CHNL_GROUP_24G		6
++#define	MAX_CHNL_GROUP_5G		14
++
++/* It must always set to 4, otherwise read efuse table sequence will be wrong. */
++#define	MAX_TX_COUNT				4
++
++typedef struct _TxPowerInfo24G {
++	u8 IndexCCK_Base[MAX_RF_PATH][MAX_CHNL_GROUP_24G];
++	u8 IndexBW40_Base[MAX_RF_PATH][MAX_CHNL_GROUP_24G];
++	/* If only one tx, only BW20 and OFDM are used. */
++	s8 CCK_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8 OFDM_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8 BW20_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8 BW40_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++} TxPowerInfo24G, *PTxPowerInfo24G;
++
++typedef struct _TxPowerInfo5G {
++	u8 IndexBW40_Base[MAX_RF_PATH][MAX_CHNL_GROUP_5G];
++	/* If only one tx, only BW20, OFDM, BW80 and BW160 are used. */
++	s8 OFDM_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8 BW20_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8 BW40_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8 BW80_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8 BW160_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++} TxPowerInfo5G, *PTxPowerInfo5G;
++
++
++typedef	enum _BT_Ant_NUM {
++	Ant_x2	= 0,
++	Ant_x1	= 1
++} BT_Ant_NUM, *PBT_Ant_NUM;
++
++typedef	enum _BT_CoType {
++	BT_2WIRE		= 0,
++	BT_ISSC_3WIRE	= 1,
++	BT_ACCEL		= 2,
++	BT_CSR_BC4		= 3,
++	BT_CSR_BC8		= 4,
++	BT_RTL8756		= 5,
++	BT_RTL8723A		= 6,
++	BT_RTL8821		= 7,
++	BT_RTL8723B		= 8,
++	BT_RTL8192E		= 9,
++	BT_RTL8814A		= 10,
++	BT_RTL8812A		= 11,
++	BT_RTL8703B		= 12,
++	BT_RTL8822B		= 13,
++	BT_RTL8723D		= 14,
++	BT_RTL8821C		= 15
++} BT_CoType, *PBT_CoType;
++
++typedef	enum _BT_RadioShared {
++	BT_Radio_Shared	= 0,
++	BT_Radio_Individual	= 1,
++} BT_RadioShared, *PBT_RadioShared;
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/hal_phy.h b/drivers/net/wireless/rtl8723du/include/hal_phy.h
+new file mode 100644
+index 0000000..9c16380
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/hal_phy.h
+@@ -0,0 +1,246 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_PHY_H__
++#define __HAL_PHY_H__
++
++
++#if DISABLE_BB_RF
++	#define	HAL_FW_ENABLE				0
++	#define	HAL_MAC_ENABLE			0
++	#define	HAL_BB_ENABLE				0
++	#define	HAL_RF_ENABLE				0
++#else /* FPGA_PHY and ASIC */
++	#define	HAL_FW_ENABLE				1
++	#define	HAL_MAC_ENABLE			1
++	#define	HAL_BB_ENABLE				1
++	#define	HAL_RF_ENABLE				1
++#endif
++
++#define	RF6052_MAX_TX_PWR			0x3F
++#define	RF6052_MAX_REG_88E			0xFF
++#define	RF6052_MAX_REG_92C			0x7F
++
++#define	RF6052_MAX_REG	\
++	((RF6052_MAX_REG_88E > RF6052_MAX_REG_92C) ? RF6052_MAX_REG_88E : RF6052_MAX_REG_92C)
++
++#define GET_RF6052_REAL_MAX_REG(_Adapter)	\
++	(IS_HARDWARE_TYPE_8188E(_Adapter) ? RF6052_MAX_REG_88E : RF6052_MAX_REG_92C)
++
++#define	RF6052_MAX_PATH				2
++
++/*
++ * Antenna detection method, i.e., using single tone detection or RSSI reported from each antenna detected.
++ * Added by Roger, 2013.05.22.
++ *   */
++#define ANT_DETECT_BY_SINGLE_TONE	BIT0
++#define ANT_DETECT_BY_RSSI				BIT1
++#define IS_ANT_DETECT_SUPPORT_SINGLE_TONE(__Adapter)		((GET_HAL_DATA(__Adapter)->AntDetection) & ANT_DETECT_BY_SINGLE_TONE)
++#define IS_ANT_DETECT_SUPPORT_RSSI(__Adapter)		((GET_HAL_DATA(__Adapter)->AntDetection) & ANT_DETECT_BY_RSSI)
++
++
++/*--------------------------Define Parameters-------------------------------*/
++typedef	enum _RF_TYPE {
++	RF_TYPE_MIN = 0,	/* 0 */
++	RF_8225 = 1,			/* 1 11b/g RF for verification only */
++	RF_8256 = 2,			/* 2 11b/g/n */
++	RF_8258 = 3,			/* 3 11a/b/g/n RF */
++	RF_6052 = 4,			/* 4 11b/g/n RF */
++	RF_PSEUDO_11N = 5,	/* 5, It is a temporality RF. */
++	RF_TYPE_MAX
++} RF_TYPE_E, *PRF_TYPE_E;
++
++#define	TX_1S			0
++#define	TX_2S			1
++#define	TX_3S			2
++#define	TX_4S			3
++
++#define	RF_PATH_MAX_92C_88E		2
++#define	RF_PATH_MAX_90_8812		4	/* Max RF number 90 support */
++
++typedef enum _ANTENNA_PATH {
++	ANTENNA_NONE	= 0,
++	ANTENNA_D		= 1,
++	ANTENNA_C		= 2,
++	ANTENNA_CD	= 3,
++	ANTENNA_B		= 4,
++	ANTENNA_BD	= 5,
++	ANTENNA_BC	= 6,
++	ANTENNA_BCD	= 7,
++	ANTENNA_A		= 8,
++	ANTENNA_AD	= 9,
++	ANTENNA_AC	= 10,
++	ANTENNA_ACD	= 11,
++	ANTENNA_AB	= 12,
++	ANTENNA_ABD	= 13,
++	ANTENNA_ABC	= 14,
++	ANTENNA_ABCD	= 15
++} ANTENNA_PATH;
++
++typedef enum _RF_CONTENT {
++	radioa_txt = 0x1000,
++	radiob_txt = 0x1001,
++	radioc_txt = 0x1002,
++	radiod_txt = 0x1003
++} RF_CONTENT;
++
++typedef enum _BaseBand_Config_Type {
++	BaseBand_Config_PHY_REG = 0,			/* Radio Path A */
++	BaseBand_Config_AGC_TAB = 1,			/* Radio Path B */
++	BaseBand_Config_AGC_TAB_2G = 2,
++	BaseBand_Config_AGC_TAB_5G = 3,
++	BaseBand_Config_PHY_REG_PG
++} BaseBand_Config_Type, *PBaseBand_Config_Type;
++
++typedef enum _HW_BLOCK {
++	HW_BLOCK_MAC = 0,
++	HW_BLOCK_PHY0 = 1,
++	HW_BLOCK_PHY1 = 2,
++	HW_BLOCK_RF = 3,
++	HW_BLOCK_MAXIMUM = 4, /* Never use this */
++} HW_BLOCK_E, *PHW_BLOCK_E;
++
++typedef enum _WIRELESS_MODE {
++	WIRELESS_MODE_UNKNOWN = 0x00,
++	WIRELESS_MODE_A = 0x01,
++	WIRELESS_MODE_B = 0x02,
++	WIRELESS_MODE_G = 0x04,
++	WIRELESS_MODE_AUTO = 0x08,
++	WIRELESS_MODE_N_24G = 0x10,
++	WIRELESS_MODE_N_5G = 0x20,
++	WIRELESS_MODE_AC_5G = 0x40,
++	WIRELESS_MODE_AC_24G  = 0x80,
++	WIRELESS_MODE_AC_ONLY  = 0x100,
++} WIRELESS_MODE;
++
++typedef enum _SwChnlCmdID {
++	CmdID_End,
++	CmdID_SetTxPowerLevel,
++	CmdID_BBRegWrite10,
++	CmdID_WritePortUlong,
++	CmdID_WritePortUshort,
++	CmdID_WritePortUchar,
++	CmdID_RF_WriteReg,
++} SwChnlCmdID;
++
++typedef struct _SwChnlCmd {
++	SwChnlCmdID	CmdID;
++	u32				Para1;
++	u32				Para2;
++	u32				msDelay;
++} SwChnlCmd;
++
++typedef struct _R_ANTENNA_SELECT_OFDM {
++	u32			r_tx_antenna:4;
++	u32			r_ant_l:4;
++	u32			r_ant_non_ht:4;
++	u32			r_ant_ht1:4;
++	u32			r_ant_ht2:4;
++	u32			r_ant_ht_s1:4;
++	u32			r_ant_non_ht_s1:4;
++	u32			OFDM_TXSC:2;
++	u32			Reserved:2;
++} R_ANTENNA_SELECT_OFDM;
++
++typedef struct _R_ANTENNA_SELECT_CCK {
++	u8			r_cckrx_enable_2:2;
++	u8			r_cckrx_enable:2;
++	u8			r_ccktx_enable:4;
++} R_ANTENNA_SELECT_CCK;
++
++typedef struct RF_Shadow_Compare_Map {
++	/* Shadow register value */
++	u32		Value;
++	/* Compare or not flag */
++	u8		Compare;
++	/* Record If it had ever modified unpredicted */
++	u8		ErrorOrNot;
++	/* Recorver Flag */
++	u8		Recorver;
++	/*  */
++	u8		Driver_Write;
++} RF_SHADOW_T;
++
++/*--------------------------Exported Function prototype---------------------*/
++
++u32
++PHY_CalculateBitShift(
++	u32 BitMask
++);
++
++u32
++PHY_RFShadowRead(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset);
++
++VOID
++PHY_RFShadowWrite(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset,
++	IN	u32				Data);
++
++BOOLEAN
++PHY_RFShadowCompare(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset);
++
++VOID
++PHY_RFShadowRecorver(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset);
++
++VOID
++PHY_RFShadowCompareAll(
++	IN	PADAPTER		Adapter);
++
++VOID
++PHY_RFShadowRecorverAll(
++	IN	PADAPTER		Adapter);
++
++VOID
++PHY_RFShadowCompareFlagSet(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset,
++	IN	u8				Type);
++
++VOID
++PHY_RFShadowRecorverFlagSet(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset,
++	IN	u8				Type);
++
++VOID
++PHY_RFShadowCompareFlagSetAll(
++	IN	PADAPTER		Adapter);
++
++VOID
++PHY_RFShadowRecorverFlagSetAll(
++	IN	PADAPTER		Adapter);
++
++VOID
++PHY_RFShadowRefresh(
++	IN	PADAPTER		Adapter);
++
++#endif /* __HAL_COMMON_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/hal_phy_reg.h b/drivers/net/wireless/rtl8723du/include/hal_phy_reg.h
+new file mode 100644
+index 0000000..9a92e40
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/hal_phy_reg.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_PHY_REG_H__
++#define __HAL_PHY_REG_H__
++
++/* for PutRFRegsetting & GetRFRegSetting BitMask
++ * #if (RTL92SE_FPGA_VERIFY == 1)
++ * #define		bRFRegOffsetMask	0xfff
++ * #else */
++#define		bRFRegOffsetMask	0xfffff
++/* #endif */
++
++#endif /* __HAL_PHY_REG_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/hal_sdio.h b/drivers/net/wireless/rtl8723du/include/hal_sdio.h
+new file mode 100644
+index 0000000..0a83372
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/hal_sdio.h
+@@ -0,0 +1,36 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_SDIO_H_
++#define __HAL_SDIO_H_
++
++#define ffaddr2deviceId(pdvobj, addr)	(pdvobj->Queue2Pipe[addr])
++
++u8 rtw_hal_sdio_max_txoqt_free_space(_adapter *padapter);
++u8 rtw_hal_sdio_query_tx_freepage(_adapter *padapter, u8 PageIdx, u8 RequiredPageNum);
++void rtw_hal_sdio_update_tx_freepage(_adapter *padapter, u8 PageIdx, u8 RequiredPageNum);
++void rtw_hal_set_sdio_tx_max_length(PADAPTER padapter, u8 numHQ, u8 numNQ, u8 numLQ, u8 numPubQ);
++u32 rtw_hal_get_sdio_tx_max_length(PADAPTER padapter, u8 queue_idx);
++bool sdio_power_on_check(PADAPTER padapter);
++
++#ifdef CONFIG_FW_C2H_REG
++void sd_c2h_hisr_hdl(_adapter *adapter);
++#endif
++
++#endif /* __HAL_SDIO_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/ieee80211.h b/drivers/net/wireless/rtl8723du/include/ieee80211.h
+new file mode 100644
+index 0000000..a3f08be
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/ieee80211.h
+@@ -0,0 +1,1931 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __IEEE80211_H
++#define __IEEE80211_H
++
++
++#ifndef CONFIG_RTL8711FW
++
++	#if defined PLATFORM_OS_XP
++		#include <ntstrsafe.h>
++	#endif
++#else
++
++#endif
++
++#define MGMT_QUEUE_NUM 5
++
++#define ETH_ALEN	6
++#define ETH_TYPE_LEN		2
++#define PAYLOAD_TYPE_LEN	1
++
++#define NET80211_TU_TO_US	1024		/* unit:us */
++#define DEFAULT_BCN_INTERVAL 100 /* 100 ms */
++
++#ifdef CONFIG_AP_MODE
++
++#define RTL_IOCTL_HOSTAPD (SIOCIWFIRSTPRIV + 28)
++
++/* RTL871X_IOCTL_HOSTAPD ioctl() cmd: */
++enum {
++	RTL871X_HOSTAPD_FLUSH = 1,
++	RTL871X_HOSTAPD_ADD_STA = 2,
++	RTL871X_HOSTAPD_REMOVE_STA = 3,
++	RTL871X_HOSTAPD_GET_INFO_STA = 4,
++	/* REMOVED: PRISM2_HOSTAPD_RESET_TXEXC_STA = 5, */
++	RTL871X_HOSTAPD_GET_WPAIE_STA = 5,
++	RTL871X_SET_ENCRYPTION = 6,
++	RTL871X_GET_ENCRYPTION = 7,
++	RTL871X_HOSTAPD_SET_FLAGS_STA = 8,
++	RTL871X_HOSTAPD_GET_RID = 9,
++	RTL871X_HOSTAPD_SET_RID = 10,
++	RTL871X_HOSTAPD_SET_ASSOC_AP_ADDR = 11,
++	RTL871X_HOSTAPD_SET_GENERIC_ELEMENT = 12,
++	RTL871X_HOSTAPD_MLME = 13,
++	RTL871X_HOSTAPD_SCAN_REQ = 14,
++	RTL871X_HOSTAPD_STA_CLEAR_STATS = 15,
++	RTL871X_HOSTAPD_SET_BEACON = 16,
++	RTL871X_HOSTAPD_SET_WPS_BEACON = 17,
++	RTL871X_HOSTAPD_SET_WPS_PROBE_RESP = 18,
++	RTL871X_HOSTAPD_SET_WPS_ASSOC_RESP = 19,
++	RTL871X_HOSTAPD_SET_HIDDEN_SSID = 20,
++	RTL871X_HOSTAPD_SET_MACADDR_ACL = 21,
++	RTL871X_HOSTAPD_ACL_ADD_STA = 22,
++	RTL871X_HOSTAPD_ACL_REMOVE_STA = 23,
++};
++
++/* STA flags */
++#define WLAN_STA_AUTH BIT(0)
++#define WLAN_STA_ASSOC BIT(1)
++#define WLAN_STA_PS BIT(2)
++#define WLAN_STA_TIM BIT(3)
++#define WLAN_STA_PERM BIT(4)
++#define WLAN_STA_AUTHORIZED BIT(5)
++#define WLAN_STA_PENDING_POLL BIT(6) /* pending activity poll not ACKed */
++#define WLAN_STA_SHORT_PREAMBLE BIT(7)
++#define WLAN_STA_PREAUTH BIT(8)
++#define WLAN_STA_WME BIT(9)
++#define WLAN_STA_MFP BIT(10)
++#define WLAN_STA_HT BIT(11)
++#define WLAN_STA_WPS BIT(12)
++#define WLAN_STA_MAYBE_WPS BIT(13)
++#define WLAN_STA_VHT BIT(14)
++#define WLAN_STA_NONERP BIT(31)
++
++#endif
++
++#define IEEE_CMD_SET_WPA_PARAM			1
++#define IEEE_CMD_SET_WPA_IE				2
++#define IEEE_CMD_SET_ENCRYPTION			3
++#define IEEE_CMD_MLME						4
++
++#define IEEE_PARAM_WPA_ENABLED				1
++#define IEEE_PARAM_TKIP_COUNTERMEASURES		2
++#define IEEE_PARAM_DROP_UNENCRYPTED			3
++#define IEEE_PARAM_PRIVACY_INVOKED			4
++#define IEEE_PARAM_AUTH_ALGS					5
++#define IEEE_PARAM_IEEE_802_1X				6
++#define IEEE_PARAM_WPAX_SELECT				7
++
++#define AUTH_ALG_OPEN_SYSTEM			0x1
++#define AUTH_ALG_SHARED_KEY			0x2
++#define AUTH_ALG_LEAP				0x00000004
++
++#define IEEE_MLME_STA_DEAUTH				1
++#define IEEE_MLME_STA_DISASSOC			2
++
++#define IEEE_CRYPT_ERR_UNKNOWN_ALG			2
++#define IEEE_CRYPT_ERR_UNKNOWN_ADDR			3
++#define IEEE_CRYPT_ERR_CRYPT_INIT_FAILED		4
++#define IEEE_CRYPT_ERR_KEY_SET_FAILED			5
++#define IEEE_CRYPT_ERR_TX_KEY_SET_FAILED		6
++#define IEEE_CRYPT_ERR_CARD_CONF_FAILED		7
++
++
++#define	IEEE_CRYPT_ALG_NAME_LEN			16
++
++#define WPA_CIPHER_NONE	BIT(0)
++#define WPA_CIPHER_WEP40	BIT(1)
++#define WPA_CIPHER_WEP104 BIT(2)
++#define WPA_CIPHER_TKIP	BIT(3)
++#define WPA_CIPHER_CCMP	BIT(4)
++
++
++
++#define WPA_SELECTOR_LEN 4
++extern u8 RTW_WPA_OUI_TYPE[] ;
++extern u16 RTW_WPA_VERSION ;
++extern u8 WPA_AUTH_KEY_MGMT_NONE[];
++extern u8 WPA_AUTH_KEY_MGMT_UNSPEC_802_1X[];
++extern u8 WPA_AUTH_KEY_MGMT_PSK_OVER_802_1X[];
++extern u8 WPA_CIPHER_SUITE_NONE[];
++extern u8 WPA_CIPHER_SUITE_WEP40[];
++extern u8 WPA_CIPHER_SUITE_TKIP[];
++extern u8 WPA_CIPHER_SUITE_WRAP[];
++extern u8 WPA_CIPHER_SUITE_CCMP[];
++extern u8 WPA_CIPHER_SUITE_WEP104[];
++
++
++#define RSN_HEADER_LEN 4
++#define RSN_SELECTOR_LEN 4
++
++extern u16 RSN_VERSION_BSD;
++extern u8 RSN_AUTH_KEY_MGMT_UNSPEC_802_1X[];
++extern u8 RSN_AUTH_KEY_MGMT_PSK_OVER_802_1X[];
++extern u8 RSN_CIPHER_SUITE_NONE[];
++extern u8 RSN_CIPHER_SUITE_WEP40[];
++extern u8 RSN_CIPHER_SUITE_TKIP[];
++extern u8 RSN_CIPHER_SUITE_WRAP[];
++extern u8 RSN_CIPHER_SUITE_CCMP[];
++extern u8 RSN_CIPHER_SUITE_WEP104[];
++
++
++typedef enum _RATEID_IDX_ {
++	RATEID_IDX_BGN_40M_2SS = 0,
++	RATEID_IDX_BGN_40M_1SS = 1,
++	RATEID_IDX_BGN_20M_2SS_BN = 2,
++	RATEID_IDX_BGN_20M_1SS_BN = 3,
++	RATEID_IDX_GN_N2SS = 4,
++	RATEID_IDX_GN_N1SS = 5,
++	RATEID_IDX_BG = 6,
++	RATEID_IDX_G = 7,
++	RATEID_IDX_B = 8,
++	RATEID_IDX_VHT_2SS = 9,
++	RATEID_IDX_VHT_1SS = 10,
++	RATEID_IDX_MIX1 = 11,
++	RATEID_IDX_MIX2 = 12,
++	RATEID_IDX_VHT_3SS = 13,
++	RATEID_IDX_BGN_3SS = 14,
++} RATEID_IDX, *PRATEID_IDX;
++
++typedef enum _RATR_TABLE_MODE {
++	RATR_INX_WIRELESS_NGB = 0,	/* BGN 40 Mhz 2SS 1SS */
++	RATR_INX_WIRELESS_NG = 1,		/* GN or N */
++	RATR_INX_WIRELESS_NB = 2,		/* BGN 20 Mhz 2SS 1SS  or BN */
++	RATR_INX_WIRELESS_N = 3,
++	RATR_INX_WIRELESS_GB = 4,
++	RATR_INX_WIRELESS_G = 5,
++	RATR_INX_WIRELESS_B = 6,
++	RATR_INX_WIRELESS_MC = 7,
++	RATR_INX_WIRELESS_AC_N = 8,
++} RATR_TABLE_MODE, *PRATR_TABLE_MODE;
++
++
++enum NETWORK_TYPE {
++	WIRELESS_INVALID = 0,
++	/* Sub-Element */
++	WIRELESS_11B = BIT(0), /* tx: cck only , rx: cck only, hw: cck */
++	WIRELESS_11G = BIT(1), /* tx: ofdm only, rx: ofdm & cck, hw: cck & ofdm */
++	WIRELESS_11A = BIT(2), /* tx: ofdm only, rx: ofdm only, hw: ofdm only */
++	WIRELESS_11_24N = BIT(3), /* tx: MCS only, rx: MCS & cck, hw: MCS & cck */
++	WIRELESS_11_5N = BIT(4), /* tx: MCS only, rx: MCS & ofdm, hw: ofdm only */
++	WIRELESS_AUTO = BIT(5),
++	WIRELESS_11AC = BIT(6),
++
++	/* Combination */
++	/* Type for current wireless mode */
++	WIRELESS_11BG = (WIRELESS_11B | WIRELESS_11G), /* tx: cck & ofdm, rx: cck & ofdm & MCS, hw: cck & ofdm */
++	WIRELESS_11G_24N = (WIRELESS_11G | WIRELESS_11_24N), /* tx: ofdm & MCS, rx: ofdm & cck & MCS, hw: cck & ofdm */
++	WIRELESS_11A_5N = (WIRELESS_11A | WIRELESS_11_5N), /* tx: ofdm & MCS, rx: ofdm & MCS, hw: ofdm only */
++	WIRELESS_11B_24N = (WIRELESS_11B | WIRELESS_11_24N), /* tx: ofdm & cck & MCS, rx: ofdm & cck & MCS, hw: ofdm & cck */
++	WIRELESS_11BG_24N = (WIRELESS_11B | WIRELESS_11G | WIRELESS_11_24N), /* tx: ofdm & cck & MCS, rx: ofdm & cck & MCS, hw: ofdm & cck */
++	WIRELESS_11_24AC = (WIRELESS_11G | WIRELESS_11AC),
++	WIRELESS_11_5AC = (WIRELESS_11A | WIRELESS_11AC),
++
++
++	/* Type for registry default wireless mode */
++	WIRELESS_11AGN = (WIRELESS_11A | WIRELESS_11G | WIRELESS_11_24N | WIRELESS_11_5N), /* tx: ofdm & MCS, rx: ofdm & MCS, hw: ofdm only */
++	WIRELESS_11ABGN = (WIRELESS_11A | WIRELESS_11B | WIRELESS_11G | WIRELESS_11_24N | WIRELESS_11_5N),
++	WIRELESS_MODE_24G = (WIRELESS_11B | WIRELESS_11G | WIRELESS_11_24N),
++	WIRELESS_MODE_5G = (WIRELESS_11A | WIRELESS_11_5N | WIRELESS_11AC),
++	WIRELESS_MODE_MAX = (WIRELESS_11A | WIRELESS_11B | WIRELESS_11G | WIRELESS_11_24N | WIRELESS_11_5N | WIRELESS_11AC),
++};
++
++#define SUPPORTED_24G_NETTYPE_MSK WIRELESS_MODE_24G
++#define SUPPORTED_5G_NETTYPE_MSK WIRELESS_MODE_5G
++
++#define IsLegacyOnly(NetType)  ((NetType) == ((NetType) & (WIRELESS_11BG | WIRELESS_11A)))
++
++#define IsSupported24G(NetType) ((NetType) & SUPPORTED_24G_NETTYPE_MSK ? _TRUE : _FALSE)
++#define IsSupported5G(NetType) ((NetType) & SUPPORTED_5G_NETTYPE_MSK ? _TRUE : _FALSE)
++
++#define IsEnableHWCCK(NetType) IsSupported24G(NetType)
++#define IsEnableHWOFDM(NetType) ((NetType) & (WIRELESS_11G | WIRELESS_11_24N | SUPPORTED_5G_NETTYPE_MSK) ? _TRUE : _FALSE)
++
++#define IsSupportedRxCCK(NetType) IsEnableHWCCK(NetType)
++#define IsSupportedRxOFDM(NetType) IsEnableHWOFDM(NetType)
++#define IsSupportedRxHT(NetType) IsEnableHWOFDM(NetType)
++
++#define IsSupportedTxCCK(NetType) ((NetType) & (WIRELESS_11B) ? _TRUE : _FALSE)
++#define IsSupportedTxOFDM(NetType) ((NetType) & (WIRELESS_11G | WIRELESS_11A) ? _TRUE : _FALSE)
++#define IsSupportedHT(NetType) ((NetType) & (WIRELESS_11_24N | WIRELESS_11_5N) ? _TRUE : _FALSE)
++
++#define IsSupportedVHT(NetType) ((NetType) & (WIRELESS_11AC) ? _TRUE : _FALSE)
++
++
++typedef struct ieee_param {
++	u32 cmd;
++	u8 sta_addr[ETH_ALEN];
++	union {
++		struct {
++			u8 name;
++			u32 value;
++		} wpa_param;
++		struct {
++			u32 len;
++			u8 reserved[32];
++			u8 data[0];
++		} wpa_ie;
++		struct {
++			int command;
++			int reason_code;
++		} mlme;
++		struct {
++			u8 alg[IEEE_CRYPT_ALG_NAME_LEN];
++			u8 set_tx;
++			u32 err;
++			u8 idx;
++			u8 seq[8]; /* sequence counter (set: RX, get: TX) */
++			u16 key_len;
++			u8 key[0];
++		} crypt;
++#ifdef CONFIG_AP_MODE
++		struct {
++			u16 aid;
++			u16 capability;
++			int flags;
++			u8 tx_supp_rates[16];
++			struct rtw_ieee80211_ht_cap ht_cap;
++		} add_sta;
++		struct {
++			u8	reserved[2];/* for set max_num_sta */
++			u8	buf[0];
++		} bcn_ie;
++#endif
++
++	} u;
++} ieee_param;
++
++#ifdef CONFIG_AP_MODE
++typedef struct ieee_param_ex {
++	u32 cmd;
++	u8 sta_addr[ETH_ALEN];
++	u8 data[0];
++} ieee_param_ex;
++
++struct sta_data {
++	u16 aid;
++	u16 capability;
++	int flags;
++	u32 sta_set;
++	u8 tx_supp_rates[16];
++	u32 tx_supp_rates_len;
++	struct rtw_ieee80211_ht_cap ht_cap;
++	u64	rx_pkts;
++	u64	rx_bytes;
++	u64	rx_drops;
++	u64	tx_pkts;
++	u64	tx_bytes;
++	u64	tx_drops;
++};
++#endif
++
++
++#if WIRELESS_EXT < 17
++	#define IW_QUAL_QUAL_INVALID   0x10
++	#define IW_QUAL_LEVEL_INVALID  0x20
++	#define IW_QUAL_NOISE_INVALID  0x40
++	#define IW_QUAL_QUAL_UPDATED   0x1
++	#define IW_QUAL_LEVEL_UPDATED  0x2
++	#define IW_QUAL_NOISE_UPDATED  0x4
++#endif
++
++#define IEEE80211_DATA_LEN		2304
++/* Maximum size for the MA-UNITDATA primitive, 802.11 standard section
++   6.2.1.1.2.
++
++   The figure in section 7.1.2 suggests a body size of up to 2312
++   bytes is allowed, which is a bit confusing, I suspect this
++   represents the 2304 bytes of real data, plus a possible 8 bytes of
++   WEP IV and ICV. (this interpretation suggested by Ramiro Barreiro) */
++
++
++#define IEEE80211_HLEN			30
++#define IEEE80211_FRAME_LEN		(IEEE80211_DATA_LEN + IEEE80211_HLEN)
++
++
++/* this is stolen from ipw2200 driver */
++#define IEEE_IBSS_MAC_HASH_SIZE 31
++
++struct ieee_ibss_seq {
++	u8 mac[ETH_ALEN];
++	u16 seq_num;
++	u16 frag_num;
++	unsigned long packet_time;
++	_list	list;
++};
++
++#if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8711FW) || defined(PLATFORM_FREEBSD)
++
++struct rtw_ieee80211_hdr {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[ETH_ALEN];
++	u8 addr2[ETH_ALEN];
++	u8 addr3[ETH_ALEN];
++	u16 seq_ctl;
++	u8 addr4[ETH_ALEN];
++} __attribute__((packed));
++
++struct rtw_ieee80211_hdr_3addr {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[ETH_ALEN];
++	u8 addr2[ETH_ALEN];
++	u8 addr3[ETH_ALEN];
++	u16 seq_ctl;
++} __attribute__((packed));
++
++
++struct rtw_ieee80211_hdr_qos {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[ETH_ALEN];
++	u8 addr2[ETH_ALEN];
++	u8 addr3[ETH_ALEN];
++	u16 seq_ctl;
++	u8 addr4[ETH_ALEN];
++	u16	qc;
++}  __attribute__((packed));
++
++struct rtw_ieee80211_hdr_3addr_qos {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[ETH_ALEN];
++	u8 addr2[ETH_ALEN];
++	u8 addr3[ETH_ALEN];
++	u16 seq_ctl;
++	u16     qc;
++}  __attribute__((packed));
++
++struct eapol {
++	u8 snap[6];
++	u16 ethertype;
++	u8 version;
++	u8 type;
++	u16 length;
++} __attribute__((packed));
++
++#endif
++
++
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++struct rtw_ieee80211_hdr {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[ETH_ALEN];
++	u8 addr2[ETH_ALEN];
++	u8 addr3[ETH_ALEN];
++	u16 seq_ctl;
++	u8 addr4[ETH_ALEN];
++};
++
++struct rtw_ieee80211_hdr_3addr {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[ETH_ALEN];
++	u8 addr2[ETH_ALEN];
++	u8 addr3[ETH_ALEN];
++	u16 seq_ctl;
++};
++
++
++struct rtw_ieee80211_hdr_qos {
++	struct rtw_ieee80211_hdr wlan_hdr;
++	u16	qc;
++};
++
++struct rtw_ieee80211_hdr_3addr_qos {
++	struct  rtw_ieee80211_hdr_3addr wlan_hdr;
++	u16     qc;
++};
++
++struct eapol {
++	u8 snap[6];
++	u16 ethertype;
++	u8 version;
++	u8 type;
++	u16 length;
++};
++#pragma pack()
++
++#endif
++
++
++
++enum eap_type {
++	EAP_PACKET = 0,
++	EAPOL_START,
++	EAPOL_LOGOFF,
++	EAPOL_KEY,
++	EAPOL_ENCAP_ASF_ALERT
++};
++
++#define IEEE80211_3ADDR_LEN 24
++#define IEEE80211_4ADDR_LEN 30
++#define IEEE80211_FCS_LEN    4
++
++#define MIN_FRAG_THRESHOLD     256U
++#define	MAX_FRAG_THRESHOLD     2346U
++
++/* Frame control field constants */
++#define RTW_IEEE80211_FCTL_VERS		0x0003
++#define RTW_IEEE80211_FCTL_FTYPE		0x000c
++#define RTW_IEEE80211_FCTL_STYPE		0x00f0
++#define RTW_IEEE80211_FCTL_TODS		0x0100
++#define RTW_IEEE80211_FCTL_FROMDS	0x0200
++#define RTW_IEEE80211_FCTL_MOREFRAGS	0x0400
++#define RTW_IEEE80211_FCTL_RETRY		0x0800
++#define RTW_IEEE80211_FCTL_PM		0x1000
++#define RTW_IEEE80211_FCTL_MOREDATA	0x2000
++#define RTW_IEEE80211_FCTL_PROTECTED	0x4000
++#define RTW_IEEE80211_FCTL_ORDER		0x8000
++#define RTW_IEEE80211_FCTL_CTL_EXT	0x0f00
++
++#define RTW_IEEE80211_FTYPE_MGMT		0x0000
++#define RTW_IEEE80211_FTYPE_CTL		0x0004
++#define RTW_IEEE80211_FTYPE_DATA		0x0008
++#define RTW_IEEE80211_FTYPE_EXT		0x000c
++
++/* management */
++#define RTW_IEEE80211_STYPE_ASSOC_REQ	0x0000
++#define RTW_IEEE80211_STYPE_ASSOC_RESP	0x0010
++#define RTW_IEEE80211_STYPE_REASSOC_REQ	0x0020
++#define RTW_IEEE80211_STYPE_REASSOC_RESP	0x0030
++#define RTW_IEEE80211_STYPE_PROBE_REQ	0x0040
++#define RTW_IEEE80211_STYPE_PROBE_RESP	0x0050
++#define RTW_IEEE80211_STYPE_BEACON		0x0080
++#define RTW_IEEE80211_STYPE_ATIM		0x0090
++#define RTW_IEEE80211_STYPE_DISASSOC	0x00A0
++#define RTW_IEEE80211_STYPE_AUTH		0x00B0
++#define RTW_IEEE80211_STYPE_DEAUTH		0x00C0
++#define RTW_IEEE80211_STYPE_ACTION		0x00D0
++
++/* control */
++#define RTW_IEEE80211_STYPE_CTL_EXT		0x0060
++#define RTW_IEEE80211_STYPE_BACK_REQ		0x0080
++#define RTW_IEEE80211_STYPE_BACK		0x0090
++#define RTW_IEEE80211_STYPE_PSPOLL		0x00A0
++#define RTW_IEEE80211_STYPE_RTS		0x00B0
++#define RTW_IEEE80211_STYPE_CTS		0x00C0
++#define RTW_IEEE80211_STYPE_ACK		0x00D0
++#define RTW_IEEE80211_STYPE_CFEND		0x00E0
++#define RTW_IEEE80211_STYPE_CFENDACK		0x00F0
++
++/* data */
++#define RTW_IEEE80211_STYPE_DATA		0x0000
++#define RTW_IEEE80211_STYPE_DATA_CFACK	0x0010
++#define RTW_IEEE80211_STYPE_DATA_CFPOLL	0x0020
++#define RTW_IEEE80211_STYPE_DATA_CFACKPOLL	0x0030
++#define RTW_IEEE80211_STYPE_NULLFUNC	0x0040
++#define RTW_IEEE80211_STYPE_CFACK		0x0050
++#define RTW_IEEE80211_STYPE_CFPOLL		0x0060
++#define RTW_IEEE80211_STYPE_CFACKPOLL	0x0070
++#define RTW_IEEE80211_STYPE_QOS_DATA		0x0080
++#define RTW_IEEE80211_STYPE_QOS_DATA_CFACK		0x0090
++#define RTW_IEEE80211_STYPE_QOS_DATA_CFPOLL		0x00A0
++#define RTW_IEEE80211_STYPE_QOS_DATA_CFACKPOLL	0x00B0
++#define RTW_IEEE80211_STYPE_QOS_NULLFUNC	0x00C0
++#define RTW_IEEE80211_STYPE_QOS_CFACK		0x00D0
++#define RTW_IEEE80211_STYPE_QOS_CFPOLL		0x00E0
++#define RTW_IEEE80211_STYPE_QOS_CFACKPOLL	0x00F0
++
++/* sequence control field */
++#define RTW_IEEE80211_SCTL_FRAG	0x000F
++#define RTW_IEEE80211_SCTL_SEQ	0xFFF0
++
++
++#define RTW_ERP_INFO_NON_ERP_PRESENT BIT(0)
++#define RTW_ERP_INFO_USE_PROTECTION BIT(1)
++#define RTW_ERP_INFO_BARKER_PREAMBLE_MODE BIT(2)
++
++/* QoS,QOS */
++#define NORMAL_ACK			0
++#define NO_ACK				1
++#define NON_EXPLICIT_ACK	2
++#define BLOCK_ACK			3
++
++#ifndef ETH_P_PAE
++	#define ETH_P_PAE 0x888E /* Port Access Entity (IEEE 802.1X) */
++#endif /* ETH_P_PAE */
++
++#define ETH_P_PREAUTH 0x88C7 /* IEEE 802.11i pre-authentication */
++
++#define ETH_P_ECONET	0x0018
++
++#ifndef ETH_P_80211_RAW
++	#define ETH_P_80211_RAW (ETH_P_ECONET + 1)
++#endif
++
++/* IEEE 802.11 defines */
++
++#define P80211_OUI_LEN 3
++
++#if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8711FW) || defined(PLATFORM_FREEBSD)
++
++struct ieee80211_snap_hdr {
++
++	u8    dsap;   /* always 0xAA */
++	u8    ssap;   /* always 0xAA */
++	u8    ctrl;   /* always 0x03 */
++	u8    oui[P80211_OUI_LEN];    /* organizational universal id */
++
++} __attribute__((packed));
++
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++struct ieee80211_snap_hdr {
++
++	u8    dsap;   /* always 0xAA */
++	u8    ssap;   /* always 0xAA */
++	u8    ctrl;   /* always 0x03 */
++	u8    oui[P80211_OUI_LEN];    /* organizational universal id */
++
++};
++#pragma pack()
++
++#endif
++
++
++#define SNAP_SIZE sizeof(struct ieee80211_snap_hdr)
++
++#define WLAN_FC_GET_TYPE(fc) ((fc) & RTW_IEEE80211_FCTL_FTYPE)
++#define WLAN_FC_GET_STYPE(fc) ((fc) & RTW_IEEE80211_FCTL_STYPE)
++
++#define WLAN_QC_GET_TID(qc) ((qc) & 0x0f)
++
++#define WLAN_GET_SEQ_FRAG(seq) ((seq) & RTW_IEEE80211_SCTL_FRAG)
++#define WLAN_GET_SEQ_SEQ(seq)  ((seq) & RTW_IEEE80211_SCTL_SEQ)
++
++/* Authentication algorithms */
++#define WLAN_AUTH_OPEN 0
++#define WLAN_AUTH_SHARED_KEY 1
++
++#define WLAN_AUTH_CHALLENGE_LEN 128
++
++#define WLAN_CAPABILITY_BSS (1<<0)
++#define WLAN_CAPABILITY_IBSS (1<<1)
++#define WLAN_CAPABILITY_CF_POLLABLE (1<<2)
++#define WLAN_CAPABILITY_CF_POLL_REQUEST (1<<3)
++#define WLAN_CAPABILITY_PRIVACY (1<<4)
++#define WLAN_CAPABILITY_SHORT_PREAMBLE (1<<5)
++#define WLAN_CAPABILITY_PBCC (1<<6)
++#define WLAN_CAPABILITY_CHANNEL_AGILITY (1<<7)
++#define WLAN_CAPABILITY_SHORT_SLOT (1<<10)
++
++/* Status codes */
++#define WLAN_STATUS_SUCCESS 0
++#define WLAN_STATUS_UNSPECIFIED_FAILURE 1
++#define WLAN_STATUS_CAPS_UNSUPPORTED 10
++#define WLAN_STATUS_REASSOC_NO_ASSOC 11
++#define WLAN_STATUS_ASSOC_DENIED_UNSPEC 12
++#define WLAN_STATUS_NOT_SUPPORTED_AUTH_ALG 13
++#define WLAN_STATUS_UNKNOWN_AUTH_TRANSACTION 14
++#define WLAN_STATUS_CHALLENGE_FAIL 15
++#define WLAN_STATUS_AUTH_TIMEOUT 16
++#define WLAN_STATUS_AP_UNABLE_TO_HANDLE_NEW_STA 17
++#define WLAN_STATUS_ASSOC_DENIED_RATES 18
++/* 802.11b */
++#define WLAN_STATUS_ASSOC_DENIED_NOSHORT 19
++#define WLAN_STATUS_ASSOC_DENIED_NOPBCC 20
++#define WLAN_STATUS_ASSOC_DENIED_NOAGILITY 21
++
++/* Reason codes */
++#define WLAN_REASON_UNSPECIFIED 1
++#define WLAN_REASON_PREV_AUTH_NOT_VALID 2
++#define WLAN_REASON_DEAUTH_LEAVING 3
++#define WLAN_REASON_DISASSOC_DUE_TO_INACTIVITY 4
++#define WLAN_REASON_DISASSOC_AP_BUSY 5
++#define WLAN_REASON_CLASS2_FRAME_FROM_NONAUTH_STA 6
++#define WLAN_REASON_CLASS3_FRAME_FROM_NONASSOC_STA 7
++#define WLAN_REASON_DISASSOC_STA_HAS_LEFT 8
++#define WLAN_REASON_STA_REQ_ASSOC_WITHOUT_AUTH 9
++#define WLAN_REASON_ACTIVE_ROAM 65533
++#define WLAN_REASON_JOIN_WRONG_CHANNEL       65534
++#define WLAN_REASON_EXPIRATION_CHK 65535
++
++/* Information Element IDs */
++#define WLAN_EID_SSID 0
++#define WLAN_EID_SUPP_RATES 1
++#define WLAN_EID_FH_PARAMS 2
++#define WLAN_EID_DS_PARAMS 3
++#define WLAN_EID_CF_PARAMS 4
++#define WLAN_EID_TIM 5
++#define WLAN_EID_IBSS_PARAMS 6
++#define WLAN_EID_CHALLENGE 16
++/* EIDs defined by IEEE 802.11h - START */
++#define WLAN_EID_PWR_CONSTRAINT 32
++#define WLAN_EID_PWR_CAPABILITY 33
++#define WLAN_EID_TPC_REQUEST 34
++#define WLAN_EID_TPC_REPORT 35
++#define WLAN_EID_SUPPORTED_CHANNELS 36
++#define WLAN_EID_CHANNEL_SWITCH 37
++#define WLAN_EID_MEASURE_REQUEST 38
++#define WLAN_EID_MEASURE_REPORT 39
++#define WLAN_EID_QUITE 40
++#define WLAN_EID_IBSS_DFS 41
++/* EIDs defined by IEEE 802.11h - END */
++#define WLAN_EID_ERP_INFO 42
++#define WLAN_EID_HT_CAP 45
++#define WLAN_EID_RSN 48
++#define WLAN_EID_EXT_SUPP_RATES 50
++#define WLAN_EID_MOBILITY_DOMAIN 54
++#define WLAN_EID_FAST_BSS_TRANSITION 55
++#define WLAN_EID_TIMEOUT_INTERVAL 56
++#define WLAN_EID_RIC_DATA 57
++#define WLAN_EID_HT_OPERATION 61
++#define WLAN_EID_SECONDARY_CHANNEL_OFFSET 62
++#define WLAN_EID_20_40_BSS_COEXISTENCE 72
++#define WLAN_EID_20_40_BSS_INTOLERANT 73
++#define WLAN_EID_OVERLAPPING_BSS_SCAN_PARAMS 74
++#define WLAN_EID_MMIE 76
++#define WLAN_EID_VENDOR_SPECIFIC 221
++#define WLAN_EID_GENERIC (WLAN_EID_VENDOR_SPECIFIC)
++#define WLAN_EID_VHT_CAPABILITY 191
++#define WLAN_EID_VHT_OPERATION 192
++#define WLAN_EID_VHT_OP_MODE_NOTIFY 199
++
++#define IEEE80211_MGMT_HDR_LEN 24
++#define IEEE80211_DATA_HDR3_LEN 24
++#define IEEE80211_DATA_HDR4_LEN 30
++
++
++#define IEEE80211_STATMASK_SIGNAL (1<<0)
++#define IEEE80211_STATMASK_RSSI (1<<1)
++#define IEEE80211_STATMASK_NOISE (1<<2)
++#define IEEE80211_STATMASK_RATE (1<<3)
++#define IEEE80211_STATMASK_WEMASK 0x7
++
++
++#define IEEE80211_CCK_MODULATION    (1<<0)
++#define IEEE80211_OFDM_MODULATION   (1<<1)
++
++#define IEEE80211_24GHZ_BAND     (1<<0)
++#define IEEE80211_52GHZ_BAND     (1<<1)
++
++#define IEEE80211_CCK_RATE_LEN		4
++#define IEEE80211_NUM_OFDM_RATESLEN	8
++
++
++#define IEEE80211_CCK_RATE_1MB		        0x02
++#define IEEE80211_CCK_RATE_2MB		        0x04
++#define IEEE80211_CCK_RATE_5MB		        0x0B
++#define IEEE80211_CCK_RATE_11MB		        0x16
++#define IEEE80211_OFDM_RATE_LEN		8
++#define IEEE80211_OFDM_RATE_6MB		        0x0C
++#define IEEE80211_OFDM_RATE_9MB		        0x12
++#define IEEE80211_OFDM_RATE_12MB		0x18
++#define IEEE80211_OFDM_RATE_18MB		0x24
++#define IEEE80211_OFDM_RATE_24MB		0x30
++#define IEEE80211_OFDM_RATE_36MB		0x48
++#define IEEE80211_OFDM_RATE_48MB		0x60
++#define IEEE80211_OFDM_RATE_54MB		0x6C
++#define IEEE80211_BASIC_RATE_MASK		0x80
++
++#define IEEE80211_CCK_RATE_1MB_MASK		(1<<0)
++#define IEEE80211_CCK_RATE_2MB_MASK		(1<<1)
++#define IEEE80211_CCK_RATE_5MB_MASK		(1<<2)
++#define IEEE80211_CCK_RATE_11MB_MASK		(1<<3)
++#define IEEE80211_OFDM_RATE_6MB_MASK		(1<<4)
++#define IEEE80211_OFDM_RATE_9MB_MASK		(1<<5)
++#define IEEE80211_OFDM_RATE_12MB_MASK		(1<<6)
++#define IEEE80211_OFDM_RATE_18MB_MASK		(1<<7)
++#define IEEE80211_OFDM_RATE_24MB_MASK		(1<<8)
++#define IEEE80211_OFDM_RATE_36MB_MASK		(1<<9)
++#define IEEE80211_OFDM_RATE_48MB_MASK		(1<<10)
++#define IEEE80211_OFDM_RATE_54MB_MASK		(1<<11)
++
++#define IEEE80211_CCK_RATES_MASK	        0x0000000F
++#define IEEE80211_CCK_BASIC_RATES_MASK	(IEEE80211_CCK_RATE_1MB_MASK | \
++		IEEE80211_CCK_RATE_2MB_MASK)
++#define IEEE80211_CCK_DEFAULT_RATES_MASK	(IEEE80211_CCK_BASIC_RATES_MASK | \
++		IEEE80211_CCK_RATE_5MB_MASK | \
++		IEEE80211_CCK_RATE_11MB_MASK)
++
++#define IEEE80211_OFDM_RATES_MASK		0x00000FF0
++#define IEEE80211_OFDM_BASIC_RATES_MASK	(IEEE80211_OFDM_RATE_6MB_MASK | \
++		IEEE80211_OFDM_RATE_12MB_MASK | \
++		IEEE80211_OFDM_RATE_24MB_MASK)
++#define IEEE80211_OFDM_DEFAULT_RATES_MASK	(IEEE80211_OFDM_BASIC_RATES_MASK | \
++		IEEE80211_OFDM_RATE_9MB_MASK  | \
++		IEEE80211_OFDM_RATE_18MB_MASK | \
++		IEEE80211_OFDM_RATE_36MB_MASK | \
++		IEEE80211_OFDM_RATE_48MB_MASK | \
++		IEEE80211_OFDM_RATE_54MB_MASK)
++#define IEEE80211_DEFAULT_RATES_MASK (IEEE80211_OFDM_DEFAULT_RATES_MASK | \
++				      IEEE80211_CCK_DEFAULT_RATES_MASK)
++
++#define IEEE80211_NUM_OFDM_RATES	    8
++#define IEEE80211_NUM_CCK_RATES	            4
++#define IEEE80211_OFDM_SHIFT_MASK_A         4
++
++
++enum MGN_RATE {
++	MGN_1M		= 0x02,
++	MGN_2M		= 0x04,
++	MGN_5_5M	= 0x0B,
++	MGN_6M		= 0x0C,
++	MGN_9M		= 0x12,
++	MGN_11M	= 0x16,
++	MGN_12M	= 0x18,
++	MGN_18M	= 0x24,
++	MGN_24M	= 0x30,
++	MGN_36M	= 0x48,
++	MGN_48M	= 0x60,
++	MGN_54M	= 0x6C,
++	MGN_MCS32	= 0x7F,
++	MGN_MCS0,
++	MGN_MCS1,
++	MGN_MCS2,
++	MGN_MCS3,
++	MGN_MCS4,
++	MGN_MCS5,
++	MGN_MCS6,
++	MGN_MCS7,
++	MGN_MCS8,
++	MGN_MCS9,
++	MGN_MCS10,
++	MGN_MCS11,
++	MGN_MCS12,
++	MGN_MCS13,
++	MGN_MCS14,
++	MGN_MCS15,
++	MGN_MCS16,
++	MGN_MCS17,
++	MGN_MCS18,
++	MGN_MCS19,
++	MGN_MCS20,
++	MGN_MCS21,
++	MGN_MCS22,
++	MGN_MCS23,
++	MGN_MCS24,
++	MGN_MCS25,
++	MGN_MCS26,
++	MGN_MCS27,
++	MGN_MCS28,
++	MGN_MCS29,
++	MGN_MCS30,
++	MGN_MCS31,
++	MGN_VHT1SS_MCS0,
++	MGN_VHT1SS_MCS1,
++	MGN_VHT1SS_MCS2,
++	MGN_VHT1SS_MCS3,
++	MGN_VHT1SS_MCS4,
++	MGN_VHT1SS_MCS5,
++	MGN_VHT1SS_MCS6,
++	MGN_VHT1SS_MCS7,
++	MGN_VHT1SS_MCS8,
++	MGN_VHT1SS_MCS9,
++	MGN_VHT2SS_MCS0,
++	MGN_VHT2SS_MCS1,
++	MGN_VHT2SS_MCS2,
++	MGN_VHT2SS_MCS3,
++	MGN_VHT2SS_MCS4,
++	MGN_VHT2SS_MCS5,
++	MGN_VHT2SS_MCS6,
++	MGN_VHT2SS_MCS7,
++	MGN_VHT2SS_MCS8,
++	MGN_VHT2SS_MCS9,
++	MGN_VHT3SS_MCS0,
++	MGN_VHT3SS_MCS1,
++	MGN_VHT3SS_MCS2,
++	MGN_VHT3SS_MCS3,
++	MGN_VHT3SS_MCS4,
++	MGN_VHT3SS_MCS5,
++	MGN_VHT3SS_MCS6,
++	MGN_VHT3SS_MCS7,
++	MGN_VHT3SS_MCS8,
++	MGN_VHT3SS_MCS9,
++	MGN_VHT4SS_MCS0,
++	MGN_VHT4SS_MCS1,
++	MGN_VHT4SS_MCS2,
++	MGN_VHT4SS_MCS3,
++	MGN_VHT4SS_MCS4,
++	MGN_VHT4SS_MCS5,
++	MGN_VHT4SS_MCS6,
++	MGN_VHT4SS_MCS7,
++	MGN_VHT4SS_MCS8,
++	MGN_VHT4SS_MCS9,
++	MGN_UNKNOWN
++};
++
++#define IS_HT_RATE(_rate)	((_rate) >= MGN_MCS0 && (_rate) <= MGN_MCS31)
++#define IS_VHT_RATE(_rate)	((_rate) >= MGN_VHT1SS_MCS0 && (_rate) <= MGN_VHT4SS_MCS9)
++#define IS_CCK_RATE(_rate)	((_rate) == MGN_1M || (_rate) == MGN_2M || (_rate) == MGN_5_5M || (_rate) == MGN_11M)
++#define IS_OFDM_RATE(_rate)	((_rate) >= MGN_6M && (_rate) <= MGN_54M  && (_rate) != MGN_11M)
++
++#define IS_HT1SS_RATE(_rate) ((_rate) >= MGN_MCS0 && (_rate) <= MGN_MCS7)
++#define IS_HT2SS_RATE(_rate) ((_rate) >= MGN_MCS8 && (_rate) <= MGN_MCS15)
++#define IS_HT3SS_RATE(_rate) ((_rate) >= MGN_MCS16 && (_rate) <= MGN_MCS23)
++#define IS_HT4SS_RATE(_rate) ((_rate) >= MGN_MCS24 && (_rate) <= MGN_MCS31)
++
++#define IS_VHT1SS_RATE(_rate) ((_rate) >= MGN_VHT1SS_MCS0 && (_rate) <= MGN_VHT1SS_MCS9)
++#define IS_VHT2SS_RATE(_rate) ((_rate) >= MGN_VHT2SS_MCS0 && (_rate) <= MGN_VHT2SS_MCS9)
++#define IS_VHT3SS_RATE(_rate) ((_rate) >= MGN_VHT3SS_MCS0 && (_rate) <= MGN_VHT3SS_MCS9)
++#define IS_VHT4SS_RATE(_rate) ((_rate) >= MGN_VHT4SS_MCS0 && (_rate) <= MGN_VHT4SS_MCS9)
++
++#define IS_1T_RATE(_rate)	(IS_CCK_RATE((_rate)) || IS_OFDM_RATE((_rate)) || IS_HT1SS_RATE((_rate)) || IS_VHT1SS_RATE((_rate)))
++#define IS_2T_RATE(_rate)	(IS_HT2SS_RATE((_rate)) || IS_VHT2SS_RATE((_rate)))
++#define IS_3T_RATE(_rate)	(IS_HT3SS_RATE((_rate)) || IS_VHT3SS_RATE((_rate)))
++#define IS_4T_RATE(_rate)	(IS_HT4SS_RATE((_rate)) || IS_VHT4SS_RATE((_rate)))
++
++#define MGN_RATE_STR(_rate) \
++	(_rate == MGN_1M) ? "CCK_1M" : \
++	(_rate == MGN_2M) ? "CCK_2M" : \
++	(_rate == MGN_5_5M) ? "CCK_5.5M" : \
++	(_rate == MGN_11M) ? "CCK_11M" : \
++	(_rate == MGN_6M) ? "OFDM_6M" : \
++	(_rate == MGN_9M) ? "OFDM_9M" : \
++	(_rate == MGN_12M) ? "OFDM_12M" : \
++	(_rate == MGN_18M) ? "OFDM_18M" : \
++	(_rate == MGN_24M) ? "OFDM_24M" : \
++	(_rate == MGN_36M) ? "OFDM_36M" : \
++	(_rate == MGN_48M) ? "OFDM_48M" : \
++	(_rate == MGN_54M) ? "OFDM_54M" : \
++	(_rate == MGN_MCS32) ? "MCS32" : \
++	(_rate == MGN_MCS0) ? "MCS0" : \
++	(_rate == MGN_MCS1) ? "MCS1" : \
++	(_rate == MGN_MCS2) ? "MCS2" : \
++	(_rate == MGN_MCS3) ? "MCS3" : \
++	(_rate == MGN_MCS4) ? "MCS4" : \
++	(_rate == MGN_MCS5) ? "MCS5" : \
++	(_rate == MGN_MCS6) ? "MCS6" : \
++	(_rate == MGN_MCS7) ? "MCS7" : \
++	(_rate == MGN_MCS8) ? "MCS8" : \
++	(_rate == MGN_MCS9) ? "MCS9" : \
++	(_rate == MGN_MCS10) ? "MCS10" : \
++	(_rate == MGN_MCS11) ? "MCS11" : \
++	(_rate == MGN_MCS12) ? "MCS12" : \
++	(_rate == MGN_MCS13) ? "MCS13" : \
++	(_rate == MGN_MCS14) ? "MCS14" : \
++	(_rate == MGN_MCS15) ? "MCS15" : \
++	(_rate == MGN_MCS16) ? "MCS16" : \
++	(_rate == MGN_MCS17) ? "MCS17" : \
++	(_rate == MGN_MCS18) ? "MCS18" : \
++	(_rate == MGN_MCS19) ? "MCS19" : \
++	(_rate == MGN_MCS20) ? "MCS20" : \
++	(_rate == MGN_MCS21) ? "MCS21" : \
++	(_rate == MGN_MCS22) ? "MCS22" : \
++	(_rate == MGN_MCS23) ? "MCS23" : \
++	(_rate == MGN_MCS24) ? "MCS24" : \
++	(_rate == MGN_MCS25) ? "MCS25" : \
++	(_rate == MGN_MCS26) ? "MCS26" : \
++	(_rate == MGN_MCS27) ? "MCS27" : \
++	(_rate == MGN_MCS28) ? "MCS28" : \
++	(_rate == MGN_MCS29) ? "MCS29" : \
++	(_rate == MGN_MCS30) ? "MCS30" : \
++	(_rate == MGN_MCS31) ? "MCS31" : \
++	(_rate == MGN_VHT1SS_MCS0) ? "VHT1SMCS0" : \
++	(_rate == MGN_VHT1SS_MCS1) ? "VHT1SMCS1" : \
++	(_rate == MGN_VHT1SS_MCS2) ? "VHT1SMCS2" : \
++	(_rate == MGN_VHT1SS_MCS3) ? "VHT1SMCS3" : \
++	(_rate == MGN_VHT1SS_MCS4) ? "VHT1SMCS4" : \
++	(_rate == MGN_VHT1SS_MCS5) ? "VHT1SMCS5" : \
++	(_rate == MGN_VHT1SS_MCS6) ? "VHT1SMCS6" : \
++	(_rate == MGN_VHT1SS_MCS7) ? "VHT1SMCS7" : \
++	(_rate == MGN_VHT1SS_MCS8) ? "VHT1SMCS8" : \
++	(_rate == MGN_VHT1SS_MCS9) ? "VHT1SMCS9" : \
++	(_rate == MGN_VHT2SS_MCS0) ? "VHT2SMCS0" : \
++	(_rate == MGN_VHT2SS_MCS1) ? "VHT2SMCS1" : \
++	(_rate == MGN_VHT2SS_MCS2) ? "VHT2SMCS2" : \
++	(_rate == MGN_VHT2SS_MCS3) ? "VHT2SMCS3" : \
++	(_rate == MGN_VHT2SS_MCS4) ? "VHT2SMCS4" : \
++	(_rate == MGN_VHT2SS_MCS5) ? "VHT2SMCS5" : \
++	(_rate == MGN_VHT2SS_MCS6) ? "VHT2SMCS6" : \
++	(_rate == MGN_VHT2SS_MCS7) ? "VHT2SMCS7" : \
++	(_rate == MGN_VHT2SS_MCS8) ? "VHT2SMCS8" : \
++	(_rate == MGN_VHT2SS_MCS9) ? "VHT2SMCS9" : \
++	(_rate == MGN_VHT3SS_MCS0) ? "VHT3SMCS0" : \
++	(_rate == MGN_VHT3SS_MCS1) ? "VHT3SMCS1" : \
++	(_rate == MGN_VHT3SS_MCS2) ? "VHT3SMCS2" : \
++	(_rate == MGN_VHT3SS_MCS3) ? "VHT3SMCS3" : \
++	(_rate == MGN_VHT3SS_MCS4) ? "VHT3SMCS4" : \
++	(_rate == MGN_VHT3SS_MCS5) ? "VHT3SMCS5" : \
++	(_rate == MGN_VHT3SS_MCS6) ? "VHT3SMCS6" : \
++	(_rate == MGN_VHT3SS_MCS7) ? "VHT3SMCS7" : \
++	(_rate == MGN_VHT3SS_MCS8) ? "VHT3SMCS8" : \
++	(_rate == MGN_VHT3SS_MCS9) ? "VHT3SMCS9" : \
++	(_rate == MGN_VHT4SS_MCS0) ? "VHT4SMCS0" : \
++	(_rate == MGN_VHT4SS_MCS1) ? "VHT4SMCS1" : \
++	(_rate == MGN_VHT4SS_MCS2) ? "VHT4SMCS2" : \
++	(_rate == MGN_VHT4SS_MCS3) ? "VHT4SMCS3" : \
++	(_rate == MGN_VHT4SS_MCS4) ? "VHT4SMCS4" : \
++	(_rate == MGN_VHT4SS_MCS5) ? "VHT4SMCS5" : \
++	(_rate == MGN_VHT4SS_MCS6) ? "VHT4SMCS6" : \
++	(_rate == MGN_VHT4SS_MCS7) ? "VHT4SMCS7" : \
++	(_rate == MGN_VHT4SS_MCS8) ? "VHT4SMCS8" : \
++	(_rate == MGN_VHT4SS_MCS9) ? "VHT4SMCS9" : "UNKNOWN"
++
++typedef enum _RATE_SECTION {
++	CCK = 0,
++	OFDM = 1,
++	HT_MCS0_MCS7 = 2,
++	HT_MCS8_MCS15 = 3,
++	HT_MCS16_MCS23 = 4,
++	HT_MCS24_MCS31 = 5,
++	HT_1SS = HT_MCS0_MCS7,
++	HT_2SS = HT_MCS8_MCS15,
++	HT_3SS = HT_MCS16_MCS23,
++	HT_4SS = HT_MCS24_MCS31,
++	VHT_1SSMCS0_1SSMCS9 = 6,
++	VHT_2SSMCS0_2SSMCS9 = 7,
++	VHT_3SSMCS0_3SSMCS9 = 8,
++	VHT_4SSMCS0_4SSMCS9 = 9,
++	VHT_1SS = VHT_1SSMCS0_1SSMCS9,
++	VHT_2SS = VHT_2SSMCS0_2SSMCS9,
++	VHT_3SS = VHT_3SSMCS0_3SSMCS9,
++	VHT_4SS = VHT_4SSMCS0_4SSMCS9,
++	RATE_SECTION_NUM,
++} RATE_SECTION;
++
++const char *rate_section_str(u8 section);
++
++#define IS_CCK_RATE_SECTION(section) ((section) == CCK)
++#define IS_OFDM_RATE_SECTION(section) ((section) == OFDM)
++#define IS_HT_RATE_SECTION(section) ((section) >= HT_1SS && (section) <= HT_4SS)
++#define IS_VHT_RATE_SECTION(section) ((section) >= VHT_1SS && (section) <= VHT_4SS)
++
++#define IS_1T_RATE_SECTION(section) ((section) == CCK || (section) == OFDM || (section) == HT_1SS || (section) == VHT_1SS)
++#define IS_2T_RATE_SECTION(section) ((section) == HT_2SS || (section) == VHT_2SS)
++#define IS_3T_RATE_SECTION(section) ((section) == HT_3SS || (section) == VHT_3SS)
++#define IS_4T_RATE_SECTION(section) ((section) == HT_4SS || (section) == VHT_4SS)
++
++extern u8 mgn_rates_cck[];
++extern u8 mgn_rates_ofdm[];
++extern u8 mgn_rates_mcs0_7[];
++extern u8 mgn_rates_mcs8_15[];
++extern u8 mgn_rates_mcs16_23[];
++extern u8 mgn_rates_mcs24_31[];
++extern u8 mgn_rates_vht1ss[];
++extern u8 mgn_rates_vht2ss[];
++extern u8 mgn_rates_vht3ss[];
++extern u8 mgn_rates_vht4ss[];
++
++struct rate_section_ent {
++	u8 tx_num; /* value of RF_TX_NUM */
++	u8 rate_num;
++	u8 *rates;
++};
++
++extern struct rate_section_ent rates_by_sections[];
++
++#define rate_section_to_tx_num(section) (rates_by_sections[(section)].tx_num)
++#define rate_section_rate_num(section) (rates_by_sections[(section)].rate_num)
++
++/* NOTE: This data is for statistical purposes; not all hardware provides this
++ *       information for frames received.  Not setting these will not cause
++ *       any adverse affects. */
++struct ieee80211_rx_stats {
++	/* u32 mac_time[2]; */
++	s8 rssi;
++	u8 signal;
++	u8 noise;
++	u8 received_channel;
++	u16 rate; /* in 100 kbps */
++	/* u8 control; */
++	u8 mask;
++	u8 freq;
++	u16 len;
++};
++
++/* IEEE 802.11 requires that STA supports concurrent reception of at least
++ * three fragmented frames. This define can be increased to support more
++ * concurrent frames, but it should be noted that each entry can consume about
++ * 2 kB of RAM and increasing cache size will slow down frame reassembly. */
++#define IEEE80211_FRAG_CACHE_LEN 4
++
++struct ieee80211_frag_entry {
++	u32 first_frag_time;
++	uint seq;
++	uint last_frag;
++	uint qos;   /* jackson */
++	uint tid;	/* jackson */
++	struct sk_buff *skb;
++	u8 src_addr[ETH_ALEN];
++	u8 dst_addr[ETH_ALEN];
++};
++
++#ifndef PLATFORM_FREEBSD /* Baron BSD has already defined */
++struct ieee80211_stats {
++	uint tx_unicast_frames;
++	uint tx_multicast_frames;
++	uint tx_fragments;
++	uint tx_unicast_octets;
++	uint tx_multicast_octets;
++	uint tx_deferred_transmissions;
++	uint tx_single_retry_frames;
++	uint tx_multiple_retry_frames;
++	uint tx_retry_limit_exceeded;
++	uint tx_discards;
++	uint rx_unicast_frames;
++	uint rx_multicast_frames;
++	uint rx_fragments;
++	uint rx_unicast_octets;
++	uint rx_multicast_octets;
++	uint rx_fcs_errors;
++	uint rx_discards_no_buffer;
++	uint tx_discards_wrong_sa;
++	uint rx_discards_undecryptable;
++	uint rx_message_in_msg_fragments;
++	uint rx_message_in_bad_msg_fragments;
++};
++#endif /* PLATFORM_FREEBSD */
++struct ieee80211_softmac_stats {
++	uint rx_ass_ok;
++	uint rx_ass_err;
++	uint rx_probe_rq;
++	uint tx_probe_rs;
++	uint tx_beacons;
++	uint rx_auth_rq;
++	uint rx_auth_rs_ok;
++	uint rx_auth_rs_err;
++	uint tx_auth_rq;
++	uint no_auth_rs;
++	uint no_ass_rs;
++	uint tx_ass_rq;
++	uint rx_ass_rq;
++	uint tx_probe_rq;
++	uint reassoc;
++	uint swtxstop;
++	uint swtxawake;
++};
++
++#define SEC_KEY_1         (1<<0)
++#define SEC_KEY_2         (1<<1)
++#define SEC_KEY_3         (1<<2)
++#define SEC_KEY_4         (1<<3)
++#define SEC_ACTIVE_KEY    (1<<4)
++#define SEC_AUTH_MODE     (1<<5)
++#define SEC_UNICAST_GROUP (1<<6)
++#define SEC_LEVEL         (1<<7)
++#define SEC_ENABLED       (1<<8)
++
++#define SEC_LEVEL_0      0 /* None */
++#define SEC_LEVEL_1      1 /* WEP 40 and 104 bit */
++#define SEC_LEVEL_2      2 /* Level 1 + TKIP */
++#define SEC_LEVEL_2_CKIP 3 /* Level 1 + CKIP */
++#define SEC_LEVEL_3      4 /* Level 2 + CCMP */
++
++#define WEP_KEYS 4
++#define WEP_KEY_LEN 13
++
++#ifdef CONFIG_IEEE80211W
++	#define BIP_MAX_KEYID 5
++	#define BIP_AAD_SIZE  20
++#endif /* CONFIG_IEEE80211W */
++
++#if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8711FW)
++
++struct ieee80211_security {
++	u16 active_key:2,
++	    enabled:1,
++	    auth_mode:2,
++	    auth_algo:4,
++	    unicast_uses_group:1;
++	u8 key_sizes[WEP_KEYS];
++	u8 keys[WEP_KEYS][WEP_KEY_LEN];
++	u8 level;
++	u16 flags;
++} __attribute__((packed));
++
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++struct ieee80211_security {
++	u16 active_key:2,
++	    enabled:1,
++	    auth_mode:2,
++	    auth_algo:4,
++	    unicast_uses_group:1;
++	u8 key_sizes[WEP_KEYS];
++	u8 keys[WEP_KEYS][WEP_KEY_LEN];
++	u8 level;
++	u16 flags;
++} ;
++#pragma pack()
++
++#endif
++
++/*
++
++ 802.11 data frame from AP
++
++      ,-------------------------------------------------------------------.
++Bytes |  2   |  2   |    6    |    6    |    6    |  2   | 0..2312 |   4  |
++      |------|------|---------|---------|---------|------|---------|------|
++Desc. | ctrl | dura |  DA/RA  |   TA    |    SA   | Sequ |  frame  |  fcs |
++      |      | tion | (BSSID) |         |         | ence |  data   |      |
++      `-------------------------------------------------------------------'
++
++Total: 28-2340 bytes
++
++*/
++
++struct ieee80211_header_data {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[6];
++	u8 addr2[6];
++	u8 addr3[6];
++	u16 seq_ctrl;
++};
++
++#define BEACON_PROBE_SSID_ID_POSITION 12
++
++/* Management Frame Information Element Types */
++#define MFIE_TYPE_SSID       0
++#define MFIE_TYPE_RATES      1
++#define MFIE_TYPE_FH_SET     2
++#define MFIE_TYPE_DS_SET     3
++#define MFIE_TYPE_CF_SET     4
++#define MFIE_TYPE_TIM        5
++#define MFIE_TYPE_IBSS_SET   6
++#define MFIE_TYPE_CHALLENGE  16
++#define MFIE_TYPE_ERP        42
++#define MFIE_TYPE_RSN	     48
++#define MFIE_TYPE_RATES_EX   50
++#define MFIE_TYPE_GENERIC    221
++
++#if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8711FW)
++
++struct ieee80211_info_element_hdr {
++	u8 id;
++	u8 len;
++} __attribute__((packed));
++
++struct ieee80211_info_element {
++	u8 id;
++	u8 len;
++	u8 data[0];
++} __attribute__((packed));
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++struct ieee80211_info_element_hdr {
++	u8 id;
++	u8 len;
++} ;
++
++struct ieee80211_info_element {
++	u8 id;
++	u8 len;
++	u8 data[0];
++} ;
++#pragma pack()
++
++#endif
++
++
++/*
++ * These are the data types that can make up management packets
++ *
++	u16 auth_algorithm;
++	u16 auth_sequence;
++	u16 beacon_interval;
++	u16 capability;
++	u8 current_ap[ETH_ALEN];
++	u16 listen_interval;
++	struct {
++		u16 association_id:14, reserved:2;
++	} __attribute__ ((packed));
++	u32 time_stamp[2];
++	u16 reason;
++	u16 status;
++*/
++
++#define IEEE80211_DEFAULT_TX_ESSID "Penguin"
++#define IEEE80211_DEFAULT_BASIC_RATE 10
++
++
++#if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8711FW)
++
++
++struct ieee80211_authentication {
++	struct ieee80211_header_data header;
++	u16 algorithm;
++	u16 transaction;
++	u16 status;
++	/* struct ieee80211_info_element_hdr info_element; */
++} __attribute__((packed));
++
++
++struct ieee80211_probe_response {
++	struct ieee80211_header_data header;
++	u32 time_stamp[2];
++	u16 beacon_interval;
++	u16 capability;
++	struct ieee80211_info_element info_element;
++} __attribute__((packed));
++
++struct ieee80211_probe_request {
++	struct ieee80211_header_data header;
++	/*struct ieee80211_info_element info_element;*/
++} __attribute__((packed));
++
++struct ieee80211_assoc_request_frame {
++	struct rtw_ieee80211_hdr_3addr header;
++	u16 capability;
++	u16 listen_interval;
++	/* u8 current_ap[ETH_ALEN]; */
++	struct ieee80211_info_element_hdr info_element;
++} __attribute__((packed));
++
++struct ieee80211_assoc_response_frame {
++	struct rtw_ieee80211_hdr_3addr header;
++	u16 capability;
++	u16 status;
++	u16 aid;
++	/*	struct ieee80211_info_element info_element;  supported rates  */
++} __attribute__((packed));
++#endif
++
++
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++
++struct ieee80211_authentication {
++	struct ieee80211_header_data header;
++	u16 algorithm;
++	u16 transaction;
++	u16 status;
++	/* struct ieee80211_info_element_hdr info_element; */
++} ;
++
++
++struct ieee80211_probe_response {
++	struct ieee80211_header_data header;
++	u32 time_stamp[2];
++	u16 beacon_interval;
++	u16 capability;
++	struct ieee80211_info_element info_element;
++} ;
++
++struct ieee80211_probe_request {
++	struct ieee80211_header_data header;
++	/*struct ieee80211_info_element info_element;*/
++} ;
++
++struct ieee80211_assoc_request_frame {
++	struct rtw_ieee80211_hdr_3addr header;
++	u16 capability;
++	u16 listen_interval;
++	/* u8 current_ap[ETH_ALEN]; */
++	struct ieee80211_info_element_hdr info_element;
++} ;
++
++struct ieee80211_assoc_response_frame {
++	struct rtw_ieee80211_hdr_3addr header;
++	u16 capability;
++	u16 status;
++	u16 aid;
++	/*	struct ieee80211_info_element info_element;  supported rates  */
++};
++
++#pragma pack()
++
++#endif
++
++
++
++
++struct ieee80211_txb {
++	u8 nr_frags;
++	u8 encrypted;
++	u16 reserved;
++	u16 frag_size;
++	u16 payload_size;
++	struct sk_buff *fragments[0];
++};
++
++
++/* SWEEP TABLE ENTRIES NUMBER*/
++#define MAX_SWEEP_TAB_ENTRIES		  42
++#define MAX_SWEEP_TAB_ENTRIES_PER_PACKET  7
++/* MAX_RATES_LENGTH needs to be 12.  The spec says 8, and many APs
++ * only use 8, and then use extended rates for the remaining supported
++ * rates.  Other APs, however, stick all of their supported rates on the
++ * main rates information element... */
++#define MAX_RATES_LENGTH                  ((u8)12)
++#define MAX_RATES_EX_LENGTH               ((u8)16)
++#define MAX_NETWORK_COUNT                  128
++#define MAX_CHANNEL_NUMBER                 161
++#define IEEE80211_SOFTMAC_SCAN_TIME	  400
++/* (HZ / 2) */
++#define IEEE80211_SOFTMAC_ASSOC_RETRY_TIME (HZ * 2)
++
++#define CRC_LENGTH                 4U
++
++#define MAX_WPA_IE_LEN (256)
++#define MAX_WPS_IE_LEN (512)
++#define MAX_P2P_IE_LEN (256)
++#define MAX_WFD_IE_LEN (128)
++
++#define NETWORK_EMPTY_ESSID (1<<0)
++#define NETWORK_HAS_OFDM    (1<<1)
++#define NETWORK_HAS_CCK     (1<<2)
++
++#define IEEE80211_DTIM_MBCAST 4
++#define IEEE80211_DTIM_UCAST 2
++#define IEEE80211_DTIM_VALID 1
++#define IEEE80211_DTIM_INVALID 0
++
++#define IEEE80211_PS_DISABLED 0
++#define IEEE80211_PS_UNICAST IEEE80211_DTIM_UCAST
++#define IEEE80211_PS_MBCAST IEEE80211_DTIM_MBCAST
++#define IW_ESSID_MAX_SIZE 32
++#if 0
++struct ieee80211_network {
++	/* These entries are used to identify a unique network */
++	u8 bssid[ETH_ALEN];
++	u8 channel;
++	/* Ensure null-terminated for any debug msgs */
++	u8 ssid[IW_ESSID_MAX_SIZE + 1];
++	u8 ssid_len;
++	u8	rssi;	/* relative signal strength */
++	u8	sq;		/* signal quality */
++
++	/* These are network statistics */
++	/* struct ieee80211_rx_stats stats; */
++	u16 capability;
++	u16	aid;
++	u8 rates[MAX_RATES_LENGTH];
++	u8 rates_len;
++	u8 rates_ex[MAX_RATES_EX_LENGTH];
++	u8 rates_ex_len;
++
++	u8 edca_parmsets[18];
++
++	u8 mode;
++	u8 flags;
++	u8 time_stamp[8];
++	u16 beacon_interval;
++	u16 listen_interval;
++	u16 atim_window;
++	u8 wpa_ie[MAX_WPA_IE_LEN];
++	size_t wpa_ie_len;
++	u8 rsn_ie[MAX_WPA_IE_LEN];
++	size_t rsn_ie_len;
++	u8 country[6];
++	u8 dtim_period;
++	u8 dtim_data;
++	u8 power_constraint;
++	u8 qosinfo;
++	u8 qbssload[5];
++	u8 network_type;
++	int join_res;
++	unsigned long	last_scanned;
++};
++#endif
++/*
++join_res:
++-1: authentication fail
++-2: association fail
++> 0: TID
++*/
++
++#ifndef PLATFORM_FREEBSD /* Baron BSD has already defined */
++
++enum ieee80211_state {
++
++	/* the card is not linked at all */
++	IEEE80211_NOLINK = 0,
++
++	/* IEEE80211_ASSOCIATING* are for BSS client mode
++	 * the driver shall not perform RX filtering unless
++	 * the state is LINKED.
++	 * The driver shall just check for the state LINKED and
++	 * defaults to NOLINK for ALL the other states (including
++	 * LINKED_SCANNING)
++	 */
++
++	/* the association procedure will start (wq scheduling)*/
++	IEEE80211_ASSOCIATING,
++	IEEE80211_ASSOCIATING_RETRY,
++
++	/* the association procedure is sending AUTH request*/
++	IEEE80211_ASSOCIATING_AUTHENTICATING,
++
++	/* the association procedure has successfully authentcated
++	 * and is sending association request
++	 */
++	IEEE80211_ASSOCIATING_AUTHENTICATED,
++
++	/* the link is ok. the card associated to a BSS or linked
++	 * to a ibss cell or acting as an AP and creating the bss
++	 */
++	IEEE80211_LINKED,
++
++	/* same as LINKED, but the driver shall apply RX filter
++	 * rules as we are in NO_LINK mode. As the card is still
++	 * logically linked, but it is doing a syncro site survey
++	 * then it will be back to LINKED state.
++	 */
++	IEEE80211_LINKED_SCANNING,
++
++};
++#endif /* PLATFORM_FREEBSD */
++
++#define DEFAULT_MAX_SCAN_AGE (15 * HZ)
++#define DEFAULT_FTS 2346
++#define MAC_FMT "%02x:%02x:%02x:%02x:%02x:%02x"
++#define MAC_ARG(x) ((u8 *)(x))[0], ((u8 *)(x))[1], ((u8 *)(x))[2], ((u8 *)(x))[3], ((u8 *)(x))[4], ((u8 *)(x))[5]
++#define MAC_SFMT "%02hhx:%02hhx:%02hhx:%02hhx:%02hhx:%02hhx"
++#define MAC_SARG(x) ((u8*)(x)),((u8*)(x)) + 1,((u8*)(x)) + 2,((u8*)(x)) + 3,((u8*)(x)) + 4,((u8*)(x)) + 5
++#define IP_FMT "%d.%d.%d.%d"
++#define IP_ARG(x) ((u8 *)(x))[0], ((u8 *)(x))[1], ((u8 *)(x))[2], ((u8 *)(x))[3]
++#define PORT_FMT "%u"
++#define PORT_ARG(x) ntohs(*((u16 *)(x)))
++
++#ifdef PLATFORM_FREEBSD /* Baron change func to macro */
++#define is_multicast_mac_addr(Addr) ((((Addr[0]) & 0x01) == 0x01) && ((Addr[0]) != 0xff))
++#define is_broadcast_mac_addr(Addr) ((((Addr[0]) & 0xff) == 0xff) && (((Addr[1]) & 0xff) == 0xff) && \
++	(((Addr[2]) & 0xff) == 0xff) && (((Addr[3]) & 0xff) == 0xff) && (((Addr[4]) & 0xff) == 0xff) && \
++				     (((Addr[5]) & 0xff) == 0xff))
++#else
++extern __inline int is_multicast_mac_addr(const u8 *addr)
++{
++	return (addr[0] != 0xff) && (0x01 & addr[0]);
++}
++
++extern __inline int is_broadcast_mac_addr(const u8 *addr)
++{
++	return ((addr[0] == 0xff) && (addr[1] == 0xff) && (addr[2] == 0xff) &&   \
++		(addr[3] == 0xff) && (addr[4] == 0xff) && (addr[5] == 0xff));
++}
++
++extern __inline int is_zero_mac_addr(const u8 *addr)
++{
++	return ((addr[0] == 0x00) && (addr[1] == 0x00) && (addr[2] == 0x00) &&   \
++		(addr[3] == 0x00) && (addr[4] == 0x00) && (addr[5] == 0x00));
++}
++#endif /* PLATFORM_FREEBSD */
++
++#define CFG_IEEE80211_RESERVE_FCS (1<<0)
++#define CFG_IEEE80211_COMPUTE_FCS (1<<1)
++
++typedef struct tx_pending_t {
++	int frag;
++	struct ieee80211_txb *txb;
++} tx_pending_t;
++
++
++
++#define TID_NUM	16
++
++#define IEEE_A            (1<<0)
++#define IEEE_B            (1<<1)
++#define IEEE_G            (1<<2)
++#define IEEE_MODE_MASK    (IEEE_A | IEEE_B | IEEE_G)
++
++/* Baron move to ieee80211.c */
++int ieee80211_is_empty_essid(const char *essid, int essid_len);
++int ieee80211_get_hdrlen(u16 fc);
++
++#if 0
++	/* Action frame categories (IEEE 802.11-2007, 7.3.1.11, Table 7-24) */
++	#define WLAN_ACTION_SPECTRUM_MGMT 0
++	#define WLAN_ACTION_QOS 1
++	#define WLAN_ACTION_DLS 2
++	#define WLAN_ACTION_BLOCK_ACK 3
++	#define WLAN_ACTION_RADIO_MEASUREMENT 5
++	#define WLAN_ACTION_FT 6
++	#define WLAN_ACTION_SA_QUERY 8
++	#define WLAN_ACTION_WMM 17
++#endif
++
++
++/* Action category code */
++enum rtw_ieee80211_category {
++	RTW_WLAN_CATEGORY_SPECTRUM_MGMT = 0,
++	RTW_WLAN_CATEGORY_QOS = 1,
++	RTW_WLAN_CATEGORY_DLS = 2,
++	RTW_WLAN_CATEGORY_BACK = 3,
++	RTW_WLAN_CATEGORY_PUBLIC = 4, /* IEEE 802.11 public action frames */
++	RTW_WLAN_CATEGORY_RADIO_MEASUREMENT  = 5,
++	RTW_WLAN_CATEGORY_FT = 6,
++	RTW_WLAN_CATEGORY_HT = 7,
++	RTW_WLAN_CATEGORY_SA_QUERY = 8,
++	RTW_WLAN_CATEGORY_WNM = 10,
++	RTW_WLAN_CATEGORY_UNPROTECTED_WNM = 11, /* add for CONFIG_IEEE80211W, none 11w also can use */
++	RTW_WLAN_CATEGORY_TDLS = 12,
++	RTW_WLAN_CATEGORY_SELF_PROTECTED = 15, /* add for CONFIG_IEEE80211W, none 11w also can use */
++	RTW_WLAN_CATEGORY_WMM = 17,
++	RTW_WLAN_CATEGORY_VHT = 21,
++	RTW_WLAN_CATEGORY_P2P = 0x7f,/* P2P action frames */
++};
++
++/* SPECTRUM_MGMT action code */
++enum rtw_ieee80211_spectrum_mgmt_actioncode {
++	RTW_WLAN_ACTION_SPCT_MSR_REQ = 0,
++	RTW_WLAN_ACTION_SPCT_MSR_RPRT = 1,
++	RTW_WLAN_ACTION_SPCT_TPC_REQ = 2,
++	RTW_WLAN_ACTION_SPCT_TPC_RPRT = 3,
++	RTW_WLAN_ACTION_SPCT_CHL_SWITCH = 4,
++	RTW_WLAN_ACTION_SPCT_EXT_CHL_SWITCH = 5,
++};
++
++enum _PUBLIC_ACTION {
++	ACT_PUBLIC_BSSCOEXIST = 0, /* 20/40 BSS Coexistence */
++	ACT_PUBLIC_DSE_ENABLE = 1,
++	ACT_PUBLIC_DSE_DEENABLE = 2,
++	ACT_PUBLIC_DSE_REG_LOCATION = 3,
++	ACT_PUBLIC_EXT_CHL_SWITCH = 4,
++	ACT_PUBLIC_DSE_MSR_REQ = 5,
++	ACT_PUBLIC_DSE_MSR_RPRT = 6,
++	ACT_PUBLIC_MP = 7, /* Measurement Pilot */
++	ACT_PUBLIC_DSE_PWR_CONSTRAINT = 8,
++	ACT_PUBLIC_VENDOR = 9, /* for WIFI_DIRECT */
++	ACT_PUBLIC_GAS_INITIAL_REQ = 10,
++	ACT_PUBLIC_GAS_INITIAL_RSP = 11,
++	ACT_PUBLIC_GAS_COMEBACK_REQ = 12,
++	ACT_PUBLIC_GAS_COMEBACK_RSP = 13,
++	ACT_PUBLIC_TDLS_DISCOVERY_RSP = 14,
++	ACT_PUBLIC_LOCATION_TRACK = 15,
++	ACT_PUBLIC_MAX
++};
++
++#ifdef CONFIG_TDLS
++enum TDLS_ACTION_FIELD {
++	TDLS_SETUP_REQUEST = 0,
++	TDLS_SETUP_RESPONSE = 1,
++	TDLS_SETUP_CONFIRM = 2,
++	TDLS_TEARDOWN = 3,
++	TDLS_PEER_TRAFFIC_INDICATION = 4,
++	TDLS_CHANNEL_SWITCH_REQUEST = 5,
++	TDLS_CHANNEL_SWITCH_RESPONSE = 6,
++	TDLS_PEER_PSM_REQUEST = 7,
++	TDLS_PEER_PSM_RESPONSE = 8,
++	TDLS_PEER_TRAFFIC_RESPONSE = 9,
++	TDLS_DISCOVERY_REQUEST = 10,
++	TDLS_DISCOVERY_RESPONSE = 14,	/* it's used in public action frame */
++};
++
++#define	TUNNELED_PROBE_REQ	15
++#define	TUNNELED_PROBE_RSP	16
++#endif /* CONFIG_TDLS */
++
++/* BACK action code */
++enum rtw_ieee80211_back_actioncode {
++	RTW_WLAN_ACTION_ADDBA_REQ = 0,
++	RTW_WLAN_ACTION_ADDBA_RESP = 1,
++	RTW_WLAN_ACTION_DELBA = 2,
++};
++
++/* HT features action code */
++enum rtw_ieee80211_ht_actioncode {
++	RTW_WLAN_ACTION_HT_NOTI_CHNL_WIDTH = 0,
++	RTW_WLAN_ACTION_HT_SM_PS = 1,
++	RTW_WLAN_ACTION_HT_PSMP = 2,
++	RTW_WLAN_ACTION_HT_SET_PCO_PHASE = 3,
++	RTW_WLAN_ACTION_HT_CSI = 4,
++	RTW_WLAN_ACTION_HT_NON_COMPRESS_BEAMFORMING = 5,
++	RTW_WLAN_ACTION_HT_COMPRESS_BEAMFORMING = 6,
++	RTW_WLAN_ACTION_HT_ASEL_FEEDBACK = 7,
++};
++
++/* BACK (block-ack) parties */
++enum rtw_ieee80211_back_parties {
++	RTW_WLAN_BACK_RECIPIENT = 0,
++	RTW_WLAN_BACK_INITIATOR = 1,
++	RTW_WLAN_BACK_TIMER = 2,
++};
++
++/*20/40 BSS Coexistence element */
++#define RTW_WLAN_20_40_BSS_COEX_INFO_REQ            BIT(0)
++#define RTW_WLAN_20_40_BSS_COEX_40MHZ_INTOL         BIT(1)
++#define RTW_WLAN_20_40_BSS_COEX_20MHZ_WIDTH_REQ     BIT(2)
++#define RTW_WLAN_20_40_BSS_COEX_OBSS_EXEMPT_REQ     BIT(3)
++#define RTW_WLAN_20_40_BSS_COEX_OBSS_EXEMPT_GRNT    BIT(4)
++
++/* VHT features action code */
++enum rtw_ieee80211_vht_actioncode {
++	RTW_WLAN_ACTION_VHT_COMPRESSED_BEAMFORMING = 0,
++	RTW_WLAN_ACTION_VHT_GROUPID_MANAGEMENT = 1,
++	RTW_WLAN_ACTION_VHT_OPMODE_NOTIFICATION = 2,
++};
++
++/*IEEE 802.11r action code*/
++#ifdef CONFIG_RTW_80211R
++enum rtw_ieee80211_ft_actioncode {
++	RTW_WLAN_ACTION_FT_RESV,
++	RTW_WLAN_ACTION_FT_REQUEST,
++	RTW_WLAN_ACTION_FT_RESPONSE,
++	RTW_WLAN_ACTION_FT_CONFIRM,
++	RTW_WLAN_ACTION_FT_ACK,
++	RTW_WLAN_ACTION_FT_MAX,
++};
++#endif
++
++#define OUI_MICROSOFT 0x0050f2 /* Microsoft (also used in Wi-Fi specs)
++				* 00:50:F2 */
++#ifndef PLATFORM_FREEBSD /* Baron BSD has defined */
++	#define WME_OUI_TYPE 2
++#endif /* PLATFORM_FREEBSD */
++#define WME_OUI_SUBTYPE_INFORMATION_ELEMENT 0
++#define WME_OUI_SUBTYPE_PARAMETER_ELEMENT 1
++#define WME_OUI_SUBTYPE_TSPEC_ELEMENT 2
++#define WME_VERSION 1
++
++#define WME_ACTION_CODE_SETUP_REQUEST 0
++#define WME_ACTION_CODE_SETUP_RESPONSE 1
++#define WME_ACTION_CODE_TEARDOWN 2
++
++#define WME_SETUP_RESPONSE_STATUS_ADMISSION_ACCEPTED 0
++#define WME_SETUP_RESPONSE_STATUS_INVALID_PARAMETERS 1
++#define WME_SETUP_RESPONSE_STATUS_REFUSED 3
++
++#define WME_TSPEC_DIRECTION_UPLINK 0
++#define WME_TSPEC_DIRECTION_DOWNLINK 1
++#define WME_TSPEC_DIRECTION_BI_DIRECTIONAL 3
++
++
++#define OUI_BROADCOM 0x00904c /* Broadcom (Epigram) */
++
++#define VENDOR_HT_CAPAB_OUI_TYPE 0x33 /* 00-90-4c:0x33 */
++
++/**
++ * enum rtw_ieee80211_channel_flags - channel flags
++ *
++ * Channel flags set by the regulatory control code.
++ *
++ * @RTW_IEEE80211_CHAN_DISABLED: This channel is disabled.
++ * @RTW_IEEE80211_CHAN_PASSIVE_SCAN: Only passive scanning is permitted
++ *      on this channel.
++ * @RTW_IEEE80211_CHAN_NO_IBSS: IBSS is not allowed on this channel.
++ * @RTW_IEEE80211_CHAN_RADAR: Radar detection is required on this channel.
++ * @RTW_IEEE80211_CHAN_NO_HT40PLUS: extension channel above this channel
++ *      is not permitted.
++ * @RTW_IEEE80211_CHAN_NO_HT40MINUS: extension channel below this channel
++ *      is not permitted.
++ */
++enum rtw_ieee80211_channel_flags {
++	RTW_IEEE80211_CHAN_DISABLED         = 1 << 0,
++	RTW_IEEE80211_CHAN_PASSIVE_SCAN     = 1 << 1,
++	RTW_IEEE80211_CHAN_NO_IBSS          = 1 << 2,
++	RTW_IEEE80211_CHAN_RADAR            = 1 << 3,
++	RTW_IEEE80211_CHAN_NO_HT40PLUS      = 1 << 4,
++	RTW_IEEE80211_CHAN_NO_HT40MINUS     = 1 << 5,
++};
++
++#define RTW_IEEE80211_CHAN_NO_HT40 \
++	(RTW_IEEE80211_CHAN_NO_HT40PLUS | RTW_IEEE80211_CHAN_NO_HT40MINUS)
++
++/* Represent channel details, subset of ieee80211_channel */
++struct rtw_ieee80211_channel {
++	/* enum ieee80211_band band; */
++	/* u16 center_freq; */
++	u16 hw_value;
++	u32 flags;
++	/* int max_antenna_gain; */
++	/* int max_power; */
++	/* int max_reg_power; */
++	/* bool beacon_found; */
++	/* u32 orig_flags; */
++	/* int orig_mag; */
++	/* int orig_mpwr; */
++};
++
++#define CHAN_FMT \
++	/*"band:%d, "*/ \
++	/*"center_freq:%u, "*/ \
++	"hw_value:%u, " \
++	"flags:0x%08x" \
++	/*"max_antenna_gain:%d\n"*/ \
++	/*"max_power:%d\n"*/ \
++	/*"max_reg_power:%d\n"*/ \
++	/*"beacon_found:%u\n"*/ \
++	/*"orig_flags:0x%08x\n"*/ \
++	/*"orig_mag:%d\n"*/ \
++	/*"orig_mpwr:%d\n"*/
++
++#define CHAN_ARG(channel) \
++	/*(channel)->band*/ \
++	/*, (channel)->center_freq*/ \
++	(channel)->hw_value \
++	, (channel)->flags \
++	/*, (channel)->max_antenna_gain*/ \
++	/*, (channel)->max_power*/ \
++	/*, (channel)->max_reg_power*/ \
++	/*, (channel)->beacon_found*/ \
++	/*, (channel)->orig_flags*/ \
++	/*, (channel)->orig_mag*/ \
++	/*, (channel)->orig_mpwr*/ \
++
++/* Parsed Information Elements */
++struct rtw_ieee802_11_elems {
++	u8 *ssid;
++	u8 ssid_len;
++	u8 *supp_rates;
++	u8 supp_rates_len;
++	u8 *fh_params;
++	u8 fh_params_len;
++	u8 *ds_params;
++	u8 ds_params_len;
++	u8 *cf_params;
++	u8 cf_params_len;
++	u8 *tim;
++	u8 tim_len;
++	u8 *ibss_params;
++	u8 ibss_params_len;
++	u8 *challenge;
++	u8 challenge_len;
++	u8 *erp_info;
++	u8 erp_info_len;
++	u8 *ext_supp_rates;
++	u8 ext_supp_rates_len;
++	u8 *wpa_ie;
++	u8 wpa_ie_len;
++	u8 *rsn_ie;
++	u8 rsn_ie_len;
++	u8 *wme;
++	u8 wme_len;
++	u8 *wme_tspec;
++	u8 wme_tspec_len;
++	u8 *wps_ie;
++	u8 wps_ie_len;
++	u8 *power_cap;
++	u8 power_cap_len;
++	u8 *supp_channels;
++	u8 supp_channels_len;
++	u8 *mdie;
++	u8 mdie_len;
++	u8 *ftie;
++	u8 ftie_len;
++	u8 *timeout_int;
++	u8 timeout_int_len;
++	u8 *ht_capabilities;
++	u8 ht_capabilities_len;
++	u8 *ht_operation;
++	u8 ht_operation_len;
++	u8 *vendor_ht_cap;
++	u8 vendor_ht_cap_len;
++	u8 *vht_capabilities;
++	u8 vht_capabilities_len;
++	u8 *vht_operation;
++	u8 vht_operation_len;
++	u8 *vht_op_mode_notify;
++	u8 vht_op_mode_notify_len;
++};
++
++typedef enum { ParseOK = 0, ParseUnknown = 1, ParseFailed = -1 } ParseRes;
++
++ParseRes rtw_ieee802_11_parse_elems(u8 *start, uint len,
++				struct rtw_ieee802_11_elems *elems,
++				int show_errors);
++
++u8 *rtw_set_fixed_ie(unsigned char *pbuf, unsigned int len, unsigned char *source, unsigned int *frlen);
++u8 *rtw_set_ie(u8 *pbuf, sint index, uint len, u8 *source, uint *frlen);
++
++enum secondary_ch_offset {
++	SCN = 0, /* no secondary channel */
++	SCA = 1, /* secondary channel above */
++	SCB = 3,  /* secondary channel below */
++};
++u8 secondary_ch_offset_to_hal_ch_offset(u8 ch_offset);
++u8 hal_ch_offset_to_secondary_ch_offset(u8 ch_offset);
++u8 *rtw_set_ie_ch_switch(u8 *buf, u32 *buf_len, u8 ch_switch_mode, u8 new_ch, u8 ch_switch_cnt);
++u8 *rtw_set_ie_secondary_ch_offset(u8 *buf, u32 *buf_len, u8 secondary_ch_offset);
++u8 *rtw_set_ie_mesh_ch_switch_parm(u8 *buf, u32 *buf_len, u8 ttl, u8 flags, u16 reason, u16 precedence);
++
++u8 *rtw_get_ie(u8 *pbuf, sint index, sint *len, sint limit);
++u8 *rtw_get_ie_ex(u8 *in_ie, uint in_len, u8 eid, u8 *oui, u8 oui_len, u8 *ie, uint *ielen);
++int rtw_ies_remove_ie(u8 *ies, uint *ies_len, uint offset, u8 eid, u8 *oui, u8 oui_len);
++
++void rtw_set_supported_rate(u8 *SupportedRates, uint mode) ;
++
++unsigned char *rtw_get_wpa_ie(unsigned char *pie, int *wpa_ie_len, int limit);
++unsigned char *rtw_get_wpa2_ie(unsigned char *pie, int *rsn_ie_len, int limit);
++int rtw_get_wpa_cipher_suite(u8 *s);
++int rtw_get_wpa2_cipher_suite(u8 *s);
++int rtw_get_wapi_ie(u8 *in_ie, uint in_len, u8 *wapi_ie, u16 *wapi_len);
++int rtw_parse_wpa_ie(u8 *wpa_ie, int wpa_ie_len, int *group_cipher, int *pairwise_cipher, int *is_8021x);
++int rtw_parse_wpa2_ie(u8 *wpa_ie, int wpa_ie_len, int *group_cipher, int *pairwise_cipher, int *is_8021x);
++
++int rtw_get_sec_ie(u8 *in_ie, uint in_len, u8 *rsn_ie, u16 *rsn_len, u8 *wpa_ie, u16 *wpa_len);
++
++u8 rtw_is_wps_ie(u8 *ie_ptr, uint *wps_ielen);
++u8 *rtw_get_wps_ie_from_scan_queue(u8 *in_ie, uint in_len, u8 *wps_ie, uint *wps_ielen, u8 frame_type);
++u8 *rtw_get_wps_ie(u8 *in_ie, uint in_len, u8 *wps_ie, uint *wps_ielen);
++u8 *rtw_get_wps_attr(u8 *wps_ie, uint wps_ielen, u16 target_attr_id , u8 *buf_attr, u32 *len_attr);
++u8 *rtw_get_wps_attr_content(u8 *wps_ie, uint wps_ielen, u16 target_attr_id , u8 *buf_content, uint *len_content);
++
++/**
++ * for_each_ie - iterate over continuous IEs
++ * @ie:
++ * @buf:
++ * @buf_len:
++ */
++#define for_each_ie(ie, buf, buf_len) \
++	for (ie = (void *)buf; (((u8 *)ie) - ((u8 *)buf) + 1) < buf_len; ie = (void *)(((u8 *)ie) + *(((u8 *)ie)+1) + 2))
++
++void dump_ies(void *sel, u8 *buf, u32 buf_len);
++
++#ifdef CONFIG_80211N_HT
++void dump_ht_cap_ie_content(void *sel, u8 *buf, u32 buf_len);
++#endif
++
++void dump_wps_ie(void *sel, u8 *ie, u32 ie_len);
++
++void rtw_ies_get_chbw(u8 *ies, int ies_len, u8 *ch, u8 *bw, u8 *offset);
++
++void rtw_bss_get_chbw(WLAN_BSSID_EX *bss, u8 *ch, u8 *bw, u8 *offset);
++
++bool rtw_is_chbw_grouped(u8 ch_a, u8 bw_a, u8 offset_a
++	, u8 ch_b, u8 bw_b, u8 offset_b);
++void rtw_sync_chbw(u8 *req_ch, u8 *req_bw, u8 *req_offset
++	, u8 *g_ch, u8 *g_bw, u8 *g_offset);
++
++u32 rtw_get_p2p_merged_ies_len(u8 *in_ie, u32 in_len);
++int rtw_p2p_merge_ies(u8 *in_ie, u32 in_len, u8 *merge_ie);
++void dump_p2p_ie(void *sel, u8 *ie, u32 ie_len);
++u8 *rtw_get_p2p_ie(u8 *in_ie, int in_len, u8 *p2p_ie, uint *p2p_ielen);
++u8 *rtw_get_p2p_attr(u8 *p2p_ie, uint p2p_ielen, u8 target_attr_id, u8 *buf_attr, u32 *len_attr);
++u8 *rtw_get_p2p_attr_content(u8 *p2p_ie, uint p2p_ielen, u8 target_attr_id, u8 *buf_content, uint *len_content);
++u32 rtw_set_p2p_attr_content(u8 *pbuf, u8 attr_id, u16 attr_len, u8 *pdata_attr);
++uint rtw_del_p2p_ie(u8 *ies, uint ies_len_ori, const char *msg);
++uint rtw_del_p2p_attr(u8 *ie, uint ielen_ori, u8 attr_id);
++u8 *rtw_bss_ex_get_p2p_ie(WLAN_BSSID_EX *bss_ex, u8 *p2p_ie, uint *p2p_ielen);
++void rtw_bss_ex_del_p2p_ie(WLAN_BSSID_EX *bss_ex);
++void rtw_bss_ex_del_p2p_attr(WLAN_BSSID_EX *bss_ex, u8 attr_id);
++
++void dump_wfd_ie(void *sel, u8 *ie, u32 ie_len);
++u8 *rtw_get_wfd_ie(u8 *in_ie, int in_len, u8 *wfd_ie, uint *wfd_ielen);
++u8 *rtw_get_wfd_attr(u8 *wfd_ie, uint wfd_ielen, u8 target_attr_id, u8 *buf_attr, u32 *len_attr);
++u8 *rtw_get_wfd_attr_content(u8 *wfd_ie, uint wfd_ielen, u8 target_attr_id, u8 *buf_content, uint *len_content);
++uint rtw_del_wfd_ie(u8 *ies, uint ies_len_ori, const char *msg);
++uint rtw_del_wfd_attr(u8 *ie, uint ielen_ori, u8 attr_id);
++u8 *rtw_bss_ex_get_wfd_ie(WLAN_BSSID_EX *bss_ex, u8 *wfd_ie, uint *wfd_ielen);
++void rtw_bss_ex_del_wfd_ie(WLAN_BSSID_EX *bss_ex);
++void rtw_bss_ex_del_wfd_attr(WLAN_BSSID_EX *bss_ex, u8 attr_id);
++
++uint	rtw_get_rateset_len(u8	*rateset);
++
++struct registry_priv;
++int rtw_generate_ie(struct registry_priv *pregistrypriv);
++
++int rtw_get_bit_value_from_ieee_value(u8 val);
++
++uint	rtw_is_cckrates_included(u8 *rate);
++
++uint	rtw_is_cckratesonly_included(u8 *rate);
++
++int rtw_check_network_type(unsigned char *rate, int ratelen, int channel);
++
++void rtw_get_bcn_info(struct wlan_network *pnetwork);
++
++u8 rtw_check_invalid_mac_address(u8 *mac_addr, u8 check_local_bit);
++void rtw_macaddr_cfg(u8 *out, const u8 *hw_mac_addr);
++
++u16 rtw_mcs_rate(u8 rf_type, u8 bw_40MHz, u8 short_GI, unsigned char *MCS_rate);
++u8	rtw_ht_mcsset_to_nss(u8 *supp_mcs_set);
++
++int rtw_action_frame_parse(const u8 *frame, u32 frame_len, u8 *category, u8 *action);
++const char *action_public_str(u8 action);
++
++u8 key_2char2num(u8 hch, u8 lch);
++u8 str_2char2num(u8 hch, u8 lch);
++void macstr2num(u8 *dst, u8 *src);
++u8 convert_ip_addr(u8 hch, u8 mch, u8 lch);
++int wifirate2_ratetbl_inx(unsigned char rate);
++
++
++#endif /* IEEE80211_H */
+diff --git a/drivers/net/wireless/rtl8723du/include/ieee80211_ext.h b/drivers/net/wireless/rtl8723du/include/ieee80211_ext.h
+new file mode 100644
+index 0000000..03cc330
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/ieee80211_ext.h
+@@ -0,0 +1,476 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __IEEE80211_EXT_H
++#define __IEEE80211_EXT_H
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++#define WMM_OUI_TYPE 2
++#define WMM_OUI_SUBTYPE_INFORMATION_ELEMENT 0
++#define WMM_OUI_SUBTYPE_PARAMETER_ELEMENT 1
++#define WMM_OUI_SUBTYPE_TSPEC_ELEMENT 2
++#define WMM_VERSION 1
++
++#define WPA_PROTO_WPA BIT(0)
++#define WPA_PROTO_RSN BIT(1)
++
++#define WPA_KEY_MGMT_IEEE8021X BIT(0)
++#define WPA_KEY_MGMT_PSK BIT(1)
++#define WPA_KEY_MGMT_NONE BIT(2)
++#define WPA_KEY_MGMT_IEEE8021X_NO_WPA BIT(3)
++#define WPA_KEY_MGMT_WPA_NONE BIT(4)
++
++
++#define WPA_CAPABILITY_PREAUTH BIT(0)
++#define WPA_CAPABILITY_MGMT_FRAME_PROTECTION BIT(6)
++#define WPA_CAPABILITY_PEERKEY_ENABLED BIT(9)
++
++
++#define PMKID_LEN 16
++
++
++#ifdef PLATFORM_LINUX
++struct wpa_ie_hdr {
++	u8 elem_id;
++	u8 len;
++	u8 oui[4]; /* 24-bit OUI followed by 8-bit OUI type */
++	u8 version[2]; /* little endian */
++} __attribute__((packed));
++
++struct rsn_ie_hdr {
++	u8 elem_id; /* WLAN_EID_RSN */
++	u8 len;
++	u8 version[2]; /* little endian */
++} __attribute__((packed));
++
++struct wme_ac_parameter {
++#if defined(CONFIG_LITTLE_ENDIAN)
++	/* byte 1 */
++	u8	aifsn:4,
++	     acm:1,
++	     aci:2,
++	     reserved:1;
++
++	/* byte 2 */
++	u8	eCWmin:4,
++	     eCWmax:4;
++#elif defined(CONFIG_BIG_ENDIAN)
++	/* byte 1 */
++	u8	reserved:1,
++	     aci:2,
++	     acm:1,
++	     aifsn:4;
++
++	/* byte 2 */
++	u8	eCWmax:4,
++	     eCWmin:4;
++#else
++#error	"Please fix <endian.h>"
++#endif
++
++	/* bytes 3 & 4 */
++	u16 txopLimit;
++} __attribute__((packed));
++
++struct wme_parameter_element {
++	/* required fields for WME version 1 */
++	u8 oui[3];
++	u8 oui_type;
++	u8 oui_subtype;
++	u8 version;
++	u8 acInfo;
++	u8 reserved;
++	struct wme_ac_parameter ac[4];
++
++} __attribute__((packed));
++
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++
++struct wpa_ie_hdr {
++	u8 elem_id;
++	u8 len;
++	u8 oui[4]; /* 24-bit OUI followed by 8-bit OUI type */
++	u8 version[2]; /* little endian */
++};
++
++struct rsn_ie_hdr {
++	u8 elem_id; /* WLAN_EID_RSN */
++	u8 len;
++	u8 version[2]; /* little endian */
++};
++
++#pragma pack()
++
++#endif
++
++#define WPA_PUT_LE16(a, val)			\
++	do {					\
++		(a)[1] = ((u16) (val)) >> 8;	\
++		(a)[0] = ((u16) (val)) & 0xff;	\
++	} while (0)
++
++#define WPA_PUT_BE32(a, val)					\
++	do {							\
++		(a)[0] = (u8) ((((u32) (val)) >> 24) & 0xff);	\
++		(a)[1] = (u8) ((((u32) (val)) >> 16) & 0xff);	\
++		(a)[2] = (u8) ((((u32) (val)) >> 8) & 0xff);	\
++		(a)[3] = (u8) (((u32) (val)) & 0xff);		\
++	} while (0)
++
++#define WPA_PUT_LE32(a, val)					\
++	do {							\
++		(a)[3] = (u8) ((((u32) (val)) >> 24) & 0xff);	\
++		(a)[2] = (u8) ((((u32) (val)) >> 16) & 0xff);	\
++		(a)[1] = (u8) ((((u32) (val)) >> 8) & 0xff);	\
++		(a)[0] = (u8) (((u32) (val)) & 0xff);		\
++	} while (0)
++
++#define RSN_SELECTOR_PUT(a, val) WPA_PUT_BE32((u8 *) (a), (val))
++/* #define RSN_SELECTOR_PUT(a, val) WPA_PUT_LE32((u8 *) (a), (val)) */
++
++
++
++/* Action category code */
++enum ieee80211_category {
++	WLAN_CATEGORY_SPECTRUM_MGMT = 0,
++	WLAN_CATEGORY_QOS = 1,
++	WLAN_CATEGORY_DLS = 2,
++	WLAN_CATEGORY_BACK = 3,
++	WLAN_CATEGORY_HT = 7,
++	WLAN_CATEGORY_WMM = 17,
++};
++
++/* SPECTRUM_MGMT action code */
++enum ieee80211_spectrum_mgmt_actioncode {
++	WLAN_ACTION_SPCT_MSR_REQ = 0,
++	WLAN_ACTION_SPCT_MSR_RPRT = 1,
++	WLAN_ACTION_SPCT_TPC_REQ = 2,
++	WLAN_ACTION_SPCT_TPC_RPRT = 3,
++	WLAN_ACTION_SPCT_CHL_SWITCH = 4,
++	WLAN_ACTION_SPCT_EXT_CHL_SWITCH = 5,
++};
++
++/* BACK action code */
++enum ieee80211_back_actioncode {
++	WLAN_ACTION_ADDBA_REQ = 0,
++	WLAN_ACTION_ADDBA_RESP = 1,
++	WLAN_ACTION_DELBA = 2,
++};
++
++/* HT features action code */
++enum ieee80211_ht_actioncode {
++	WLAN_ACTION_NOTIFY_CH_WIDTH = 0,
++	WLAN_ACTION_SM_PS = 1,
++	WLAN_ACTION_PSPM = 2,
++	WLAN_ACTION_PCO_PHASE = 3,
++	WLAN_ACTION_MIMO_CSI_MX = 4,
++	WLAN_ACTION_MIMO_NONCP_BF = 5,
++	WLAN_ACTION_MIMP_CP_BF = 6,
++	WLAN_ACTION_ASEL_INDICATES_FB = 7,
++	WLAN_ACTION_HI_INFO_EXCHG = 8,
++};
++
++/* BACK (block-ack) parties */
++enum ieee80211_back_parties {
++	WLAN_BACK_RECIPIENT = 0,
++	WLAN_BACK_INITIATOR = 1,
++	WLAN_BACK_TIMER = 2,
++};
++
++#ifdef PLATFORM_LINUX
++
++struct ieee80211_mgmt {
++	u16 frame_control;
++	u16 duration;
++	u8 da[6];
++	u8 sa[6];
++	u8 bssid[6];
++	u16 seq_ctrl;
++	union {
++		struct {
++			u16 auth_alg;
++			u16 auth_transaction;
++			u16 status_code;
++			/* possibly followed by Challenge text */
++			u8 variable[0];
++		}  __attribute__((packed)) auth;
++		struct {
++			u16 reason_code;
++		}  __attribute__((packed)) deauth;
++		struct {
++			u16 capab_info;
++			u16 listen_interval;
++			/* followed by SSID and Supported rates */
++			u8 variable[0];
++		}  __attribute__((packed)) assoc_req;
++		struct {
++			u16 capab_info;
++			u16 status_code;
++			u16 aid;
++			/* followed by Supported rates */
++			u8 variable[0];
++		}  __attribute__((packed)) assoc_resp, reassoc_resp;
++		struct {
++			u16 capab_info;
++			u16 listen_interval;
++			u8 current_ap[6];
++			/* followed by SSID and Supported rates */
++			u8 variable[0];
++		}  __attribute__((packed)) reassoc_req;
++		struct {
++			u16 reason_code;
++		}  __attribute__((packed)) disassoc;
++		struct {
++			__le64 timestamp;
++			u16 beacon_int;
++			u16 capab_info;
++			/* followed by some of SSID, Supported rates,
++			 * FH Params, DS Params, CF Params, IBSS Params, TIM */
++			u8 variable[0];
++		}  __attribute__((packed)) beacon;
++		struct {
++			/* only variable items: SSID, Supported rates */
++			u8 variable[0];
++		}  __attribute__((packed)) probe_req;
++		struct {
++			__le64 timestamp;
++			u16 beacon_int;
++			u16 capab_info;
++			/* followed by some of SSID, Supported rates,
++			 * FH Params, DS Params, CF Params, IBSS Params */
++			u8 variable[0];
++		}  __attribute__((packed)) probe_resp;
++		struct {
++			u8 category;
++			union {
++				struct {
++					u8 action_code;
++					u8 dialog_token;
++					u8 status_code;
++					u8 variable[0];
++				}  __attribute__((packed)) wme_action;
++#if 0
++				struct {
++					u8 action_code;
++					u8 element_id;
++					u8 length;
++					struct ieee80211_channel_sw_ie sw_elem;
++				}  __attribute__((packed)) chan_switch;
++				struct {
++					u8 action_code;
++					u8 dialog_token;
++					u8 element_id;
++					u8 length;
++					struct ieee80211_msrment_ie msr_elem;
++				}  __attribute__((packed)) measurement;
++#endif
++				struct {
++					u8 action_code;
++					u8 dialog_token;
++					u16 capab;
++					u16 timeout;
++					u16 start_seq_num;
++				}  __attribute__((packed)) addba_req;
++				struct {
++					u8 action_code;
++					u8 dialog_token;
++					u16 status;
++					u16 capab;
++					u16 timeout;
++				}  __attribute__((packed)) addba_resp;
++				struct {
++					u8 action_code;
++					u16 params;
++					u16 reason_code;
++				}  __attribute__((packed)) delba;
++				struct {
++					u8 action_code;
++					/* capab_info for open and confirm,
++					 * reason for close
++					 */
++					u16 aux;
++					/* Followed in plink_confirm by status
++					 * code, AID and supported rates,
++					 * and directly by supported rates in
++					 * plink_open and plink_close
++					 */
++					u8 variable[0];
++				}  __attribute__((packed)) plink_action;
++				struct {
++					u8 action_code;
++					u8 variable[0];
++				}  __attribute__((packed)) mesh_action;
++			} __attribute__((packed)) u;
++		}  __attribute__((packed)) action;
++	} __attribute__((packed)) u;
++} __attribute__((packed));
++
++#endif
++
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++
++struct ieee80211_mgmt {
++	u16 frame_control;
++	u16 duration;
++	u8 da[6];
++	u8 sa[6];
++	u8 bssid[6];
++	u16 seq_ctrl;
++	union {
++		struct {
++			u16 auth_alg;
++			u16 auth_transaction;
++			u16 status_code;
++			/* possibly followed by Challenge text */
++			u8 variable[0];
++		}  auth;
++		struct {
++			u16 reason_code;
++		}  deauth;
++		struct {
++			u16 capab_info;
++			u16 listen_interval;
++			/* followed by SSID and Supported rates */
++			u8 variable[0];
++		}  assoc_req;
++		struct {
++			u16 capab_info;
++			u16 status_code;
++			u16 aid;
++			/* followed by Supported rates */
++			u8 variable[0];
++		}  assoc_resp, reassoc_resp;
++		struct {
++			u16 capab_info;
++			u16 listen_interval;
++			u8 current_ap[6];
++			/* followed by SSID and Supported rates */
++			u8 variable[0];
++		}  reassoc_req;
++		struct {
++			u16 reason_code;
++		}  disassoc;
++#if 0
++		struct {
++			__le64 timestamp;
++			u16 beacon_int;
++			u16 capab_info;
++			/* followed by some of SSID, Supported rates,
++			 * FH Params, DS Params, CF Params, IBSS Params, TIM */
++			u8 variable[0];
++		}  beacon;
++		struct {
++			/* only variable items: SSID, Supported rates */
++			u8 variable[0];
++		}  probe_req;
++
++		struct {
++			__le64 timestamp;
++			u16 beacon_int;
++			u16 capab_info;
++			/* followed by some of SSID, Supported rates,
++			 * FH Params, DS Params, CF Params, IBSS Params */
++			u8 variable[0];
++		}  probe_resp;
++#endif
++		struct {
++			u8 category;
++			union {
++				struct {
++					u8 action_code;
++					u8 dialog_token;
++					u8 status_code;
++					u8 variable[0];
++				}  wme_action;
++				#if 0
++				struct{
++					u8 action_code;
++					u8 element_id;
++					u8 length;
++					struct ieee80211_channel_sw_ie sw_elem;
++				}  chan_switch;
++				struct{
++					u8 action_code;
++					u8 dialog_token;
++					u8 element_id;
++					u8 length;
++					struct ieee80211_msrment_ie msr_elem;
++				}  measurement;
++				#endif
++				struct {
++					u8 action_code;
++					u8 dialog_token;
++					u16 capab;
++					u16 timeout;
++					u16 start_seq_num;
++				}  addba_req;
++				struct {
++					u8 action_code;
++					u8 dialog_token;
++					u16 status;
++					u16 capab;
++					u16 timeout;
++				}  addba_resp;
++				struct {
++					u8 action_code;
++					u16 params;
++					u16 reason_code;
++				}  delba;
++				struct {
++					u8 action_code;
++					/* capab_info for open and confirm,
++					 * reason for close
++					 */
++					u16 aux;
++					/* Followed in plink_confirm by status
++					 * code, AID and supported rates,
++					 * and directly by supported rates in
++					 * plink_open and plink_close
++					 */
++					u8 variable[0];
++				}  plink_action;
++				struct {
++					u8 action_code;
++					u8 variable[0];
++				}  mesh_action;
++			} u;
++		}  action;
++	} u;
++} ;
++
++#pragma pack()
++
++#endif
++
++/* mgmt header + 1 byte category code */
++#define IEEE80211_MIN_ACTION_SIZE FIELD_OFFSET(struct ieee80211_mgmt, u.action.u)
++
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/if_ether.h b/drivers/net/wireless/rtl8723du/include/if_ether.h
+new file mode 100644
+index 0000000..9d08f56
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/if_ether.h
+@@ -0,0 +1,111 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef _LINUX_IF_ETHER_H
++#define _LINUX_IF_ETHER_H
++
++/*
++ *	IEEE 802.3 Ethernet magic constants.  The frame sizes omit the preamble
++ *	and FCS/CRC (frame check sequence).
++ */
++
++#define ETH_ALEN	6		/* Octets in one ethernet addr	 */
++#define ETH_HLEN	14		/* Total octets in header.	 */
++#define ETH_ZLEN	60		/* Min. octets in frame sans FCS */
++#define ETH_DATA_LEN	1500		/* Max. octets in payload	 */
++#define ETH_FRAME_LEN	1514		/* Max. octets in frame sans FCS */
++
++/*
++ *	These are the defined Ethernet Protocol ID's.
++ */
++
++#define ETH_P_LOOP	0x0060		/* Ethernet Loopback packet	*/
++#define ETH_P_PUP	0x0200		/* Xerox PUP packet		*/
++#define ETH_P_PUPAT	0x0201		/* Xerox PUP Addr Trans packet	*/
++#define ETH_P_IP	0x0800		/* Internet Protocol packet	*/
++#define ETH_P_X25	0x0805		/* CCITT X.25			*/
++#define ETH_P_ARP	0x0806		/* Address Resolution packet	*/
++#define	ETH_P_BPQ	0x08FF		/* G8BPQ AX.25 Ethernet Packet	[ NOT AN OFFICIALLY REGISTERED ID ] */
++#define ETH_P_IEEEPUP	0x0a00		/* Xerox IEEE802.3 PUP packet */
++#define ETH_P_IEEEPUPAT	0x0a01		/* Xerox IEEE802.3 PUP Addr Trans packet */
++#define ETH_P_DEC       0x6000          /* DEC Assigned proto          */
++#define ETH_P_DNA_DL    0x6001          /* DEC DNA Dump/Load           */
++#define ETH_P_DNA_RC    0x6002          /* DEC DNA Remote Console      */
++#define ETH_P_DNA_RT    0x6003          /* DEC DNA Routing             */
++#define ETH_P_LAT       0x6004          /* DEC LAT                     */
++#define ETH_P_DIAG      0x6005          /* DEC Diagnostics             */
++#define ETH_P_CUST      0x6006          /* DEC Customer use            */
++#define ETH_P_SCA       0x6007          /* DEC Systems Comms Arch      */
++#define ETH_P_RARP      0x8035		/* Reverse Addr Res packet	*/
++#define ETH_P_ATALK	0x809B		/* Appletalk DDP		*/
++#define ETH_P_AARP	0x80F3		/* Appletalk AARP		*/
++#define ETH_P_8021Q	0x8100          /* 802.1Q VLAN Extended Header */
++#define ETH_P_IPX	0x8137		/* IPX over DIX			*/
++#define ETH_P_IPV6	0x86DD		/* IPv6 over bluebook		*/
++#define ETH_P_PPP_DISC	0x8863		/* PPPoE discovery messages    */
++#define ETH_P_PPP_SES	0x8864		/* PPPoE session messages	*/
++#define ETH_P_ATMMPOA	0x884c		/* MultiProtocol Over ATM	*/
++#define ETH_P_ATMFATE	0x8884		/* Frame-based ATM Transport
++					 * over Ethernet
++					 */
++
++/*
++ *	Non DIX types. Won't clash for 1500 types.
++ */
++
++#define ETH_P_802_3	0x0001		/* Dummy type for 802.3 frames */
++#define ETH_P_AX25	0x0002		/* Dummy protocol id for AX.25 */
++#define ETH_P_ALL	0x0003		/* Every packet (be careful!!!) */
++#define ETH_P_802_2	0x0004		/* 802.2 frames 		*/
++#define ETH_P_SNAP	0x0005		/* Internal only		*/
++#define ETH_P_DDCMP     0x0006          /* DEC DDCMP: Internal only    */
++#define ETH_P_WAN_PPP   0x0007          /* Dummy type for WAN PPP frames*/
++#define ETH_P_PPP_MP    0x0008          /* Dummy type for PPP MP frames */
++#define ETH_P_LOCALTALK 0x0009		/* Localtalk pseudo type 	*/
++#define ETH_P_PPPTALK	0x0010		/* Dummy type for Atalk over PPP*/
++#define ETH_P_TR_802_2	0x0011		/* 802.2 frames 		*/
++#define ETH_P_MOBITEX	0x0015		/* Mobitex (kaz@cafe.net)	*/
++#define ETH_P_CONTROL	0x0016		/* Card specific control frames */
++#define ETH_P_IRDA	0x0017		/* Linux-IrDA			*/
++#define ETH_P_ECONET	0x0018		/* Acorn Econet			*/
++
++/*
++ *	This is an Ethernet frame header.
++ */
++
++struct ethhdr {
++	unsigned char	h_dest[ETH_ALEN];	/* destination eth addr	*/
++	unsigned char	h_source[ETH_ALEN];	/* source ether addr	*/
++	unsigned short	h_proto;		/* packet type ID field	*/
++};
++
++struct _vlan {
++	unsigned short       h_vlan_TCI;                /* Encapsulates priority and VLAN ID */
++	unsigned short       h_vlan_encapsulated_proto;
++};
++
++
++
++#define get_vlan_id(pvlan) ((ntohs((unsigned short)pvlan->h_vlan_TCI)) & 0xfff)
++#define get_vlan_priority(pvlan) ((ntohs((unsigned short)pvlan->h_vlan_TCI))>>13)
++#define get_vlan_encap_proto(pvlan) (ntohs((unsigned short)pvlan->h_vlan_encapsulated_proto))
++
++
++#endif	/* _LINUX_IF_ETHER_H */
+diff --git a/drivers/net/wireless/rtl8723du/include/ip.h b/drivers/net/wireless/rtl8723du/include/ip.h
+new file mode 100644
+index 0000000..c78034d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/ip.h
+@@ -0,0 +1,140 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _LINUX_IP_H
++#define _LINUX_IP_H
++
++/* SOL_IP socket options */
++
++#define IPTOS_TOS_MASK		0x1E
++#define IPTOS_TOS(tos)		((tos)&IPTOS_TOS_MASK)
++#define	IPTOS_LOWDELAY		0x10
++#define	IPTOS_THROUGHPUT	0x08
++#define	IPTOS_RELIABILITY	0x04
++#define	IPTOS_MINCOST		0x02
++
++#define IPTOS_PREC_MASK		0xE0
++#define IPTOS_PREC(tos)		((tos)&IPTOS_PREC_MASK)
++#define IPTOS_PREC_NETCONTROL           0xe0
++#define IPTOS_PREC_INTERNETCONTROL      0xc0
++#define IPTOS_PREC_CRITIC_ECP           0xa0
++#define IPTOS_PREC_FLASHOVERRIDE        0x80
++#define IPTOS_PREC_FLASH                0x60
++#define IPTOS_PREC_IMMEDIATE            0x40
++#define IPTOS_PREC_PRIORITY             0x20
++#define IPTOS_PREC_ROUTINE              0x00
++
++
++/* IP options */
++#define IPOPT_COPY		0x80
++#define IPOPT_CLASS_MASK	0x60
++#define IPOPT_NUMBER_MASK	0x1f
++
++#define	IPOPT_COPIED(o)		((o)&IPOPT_COPY)
++#define	IPOPT_CLASS(o)		((o)&IPOPT_CLASS_MASK)
++#define	IPOPT_NUMBER(o)		((o)&IPOPT_NUMBER_MASK)
++
++#define	IPOPT_CONTROL		0x00
++#define	IPOPT_RESERVED1		0x20
++#define	IPOPT_MEASUREMENT	0x40
++#define	IPOPT_RESERVED2		0x60
++
++#define IPOPT_END	(0 | IPOPT_CONTROL)
++#define IPOPT_NOOP	(1 | IPOPT_CONTROL)
++#define IPOPT_SEC	(2 | IPOPT_CONTROL | IPOPT_COPY)
++#define IPOPT_LSRR	(3 | IPOPT_CONTROL | IPOPT_COPY)
++#define IPOPT_TIMESTAMP	(4 | IPOPT_MEASUREMENT)
++#define IPOPT_RR	(7 | IPOPT_CONTROL)
++#define IPOPT_SID	(8 | IPOPT_CONTROL | IPOPT_COPY)
++#define IPOPT_SSRR	(9 | IPOPT_CONTROL | IPOPT_COPY)
++#define IPOPT_RA	(20 | IPOPT_CONTROL | IPOPT_COPY)
++
++#define IPVERSION	4
++#define MAXTTL		255
++#define IPDEFTTL	64
++
++/* struct timestamp, struct route and MAX_ROUTES are removed.
++
++   REASONS: it is clear that nobody used them because:
++   - MAX_ROUTES value was wrong.
++   - "struct route" was wrong.
++   - "struct timestamp" had fatally misaligned bitfields and was completely unusable.
++ */
++
++#define IPOPT_OPTVAL 0
++#define IPOPT_OLEN   1
++#define IPOPT_OFFSET 2
++#define IPOPT_MINOFF 4
++#define MAX_IPOPTLEN 40
++#define IPOPT_NOP IPOPT_NOOP
++#define IPOPT_EOL IPOPT_END
++#define IPOPT_TS  IPOPT_TIMESTAMP
++
++#define	IPOPT_TS_TSONLY		0		/* timestamps only */
++#define	IPOPT_TS_TSANDADDR	1		/* timestamps and addresses */
++#define	IPOPT_TS_PRESPEC	3		/* specified modules only */
++
++#ifdef PLATFORM_LINUX
++
++struct ip_options {
++	__u32		faddr;				/* Saved first hop address */
++	unsigned char	optlen;
++	unsigned char srr;
++	unsigned char rr;
++	unsigned char ts;
++	unsigned char is_setbyuser:1,			/* Set by setsockopt?			*/
++		 is_data:1,			/* Options in __data, rather than skb	*/
++		 is_strictroute:1,		/* Strict source route			*/
++		 srr_is_hit:1,			/* Packet destination addr was our one	*/
++		 is_changed:1,			/* IP checksum more not valid		*/
++		 rr_needaddr:1,			/* Need to record addr of outgoing dev	*/
++		 ts_needtime:1,			/* Need to record timestamp		*/
++		 ts_needaddr:1;			/* Need to record addr of outgoing dev */
++	unsigned char router_alert;
++	unsigned char __pad1;
++	unsigned char __pad2;
++	unsigned char __data[0];
++};
++
++#define optlength(opt) (sizeof(struct ip_options) + opt->optlen)
++#endif
++
++struct iphdr {
++#if defined(__LITTLE_ENDIAN_BITFIELD)
++	__u8	ihl:4,
++		version:4;
++#elif defined (__BIG_ENDIAN_BITFIELD)
++	__u8	version:4,
++		ihl:4;
++#else
++#error	"Please fix <asm/byteorder.h>"
++#endif
++	__u8	tos;
++	__u16	tot_len;
++	__u16	id;
++	__u16	frag_off;
++	__u8	ttl;
++	__u8	protocol;
++	__u16	check;
++	__u32	saddr;
++	__u32	daddr;
++	/*The options start here. */
++};
++
++#endif	/* _LINUX_IP_H */
+diff --git a/drivers/net/wireless/rtl8723du/include/linux/wireless.h b/drivers/net/wireless/rtl8723du/include/linux/wireless.h
+new file mode 100644
+index 0000000..b4bb716
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/linux/wireless.h
+@@ -0,0 +1,92 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef _LINUX_WIRELESS_H
++#define _LINUX_WIRELESS_H
++
++/***************************** INCLUDES *****************************/
++
++#if 0
++	#include <linux/types.h>		/* for __u* and __s* typedefs */
++	#include <linux/socket.h>		/* for "struct sockaddr" et al	*/
++	#include <linux/if.h>			/* for IFNAMSIZ and co... */
++#else
++	#define __user
++	/* typedef uint16_t	__u16; */
++	#include <sys/socket.h>			/* for "struct sockaddr" et al	*/
++	#include <net/if.h>			/* for IFNAMSIZ and co... */
++#endif
++
++/****************************** TYPES ******************************/
++#ifdef CONFIG_COMPAT
++struct compat_iw_point {
++	compat_caddr_t pointer;
++	__u16 length;
++	__u16 flags;
++};
++#endif
++/* --------------------------- SUBTYPES --------------------------- */
++/*
++ *	For all data larger than 16 octets, we need to use a
++ *	pointer to memory allocated in user space.
++ */
++struct	iw_point {
++	void __user	*pointer;	/* Pointer to the data  (in user space) */
++	__u16		length;		/* number of fields or size in bytes */
++	__u16		flags;		/* Optional params */
++};
++
++
++/* ------------------------ IOCTL REQUEST ------------------------ */
++/*
++ * This structure defines the payload of an ioctl, and is used
++ * below.
++ *
++ * Note that this structure should fit on the memory footprint
++ * of iwreq (which is the same as ifreq), which mean a max size of
++ * 16 octets = 128 bits. Warning, pointers might be 64 bits wide...
++ * You should check this when increasing the structures defined
++ * above in this file...
++ */
++union	iwreq_data {
++	/* Config - generic */
++	char		name[IFNAMSIZ];
++	/* Name : used to verify the presence of  wireless extensions.
++	 * Name of the protocol/provider... */
++
++	struct iw_point	data;		/* Other large parameters */
++};
++
++/*
++ * The structure to exchange data for ioctl.
++ * This structure is the same as 'struct ifreq', but (re)defined for
++ * convenience...
++ * Do I need to remind you about structure size (32 octets) ?
++ */
++struct	iwreq {
++	union {
++		char	ifrn_name[IFNAMSIZ];	/* if name, e.g. "eth0" */
++	} ifr_ifrn;
++
++	/* Data part (defined just above) */
++	union	iwreq_data	u;
++};
++
++#endif	/* _LINUX_WIRELESS_H */
+diff --git a/drivers/net/wireless/rtl8723du/include/mlme_osdep.h b/drivers/net/wireless/rtl8723du/include/mlme_osdep.h
+new file mode 100644
+index 0000000..8dcc589
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/mlme_osdep.h
+@@ -0,0 +1,36 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef	__MLME_OSDEP_H_
++#define __MLME_OSDEP_H_
++
++
++#if defined(PLATFORM_WINDOWS) || defined(PLATFORM_MPIXEL)
++	extern int time_after(u32 now, u32 old);
++#endif
++
++extern void rtw_init_mlme_timer(_adapter *padapter);
++extern void rtw_os_indicate_disconnect(_adapter *adapter, u16 reason, u8 locally_generated);
++extern void rtw_os_indicate_connect(_adapter *adapter);
++void rtw_os_indicate_scan_done(_adapter *padapter, bool aborted);
++extern void rtw_report_sec_ie(_adapter *adapter, u8 authmode, u8 *sec_ie);
++
++void rtw_reset_securitypriv(_adapter *adapter);
++
++#endif /* _MLME_OSDEP_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/mp_custom_oid.h b/drivers/net/wireless/rtl8723du/include/mp_custom_oid.h
+new file mode 100644
+index 0000000..7ca76ad
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/mp_custom_oid.h
+@@ -0,0 +1,353 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef	__CUSTOM_OID_H
++#define __CUSTOM_OID_H
++
++/* by Owen
++ * 0xFF818000 - 0xFF81802F		RTL8180 Mass Production Kit
++ * 0xFF818500 - 0xFF81850F		RTL8185 Setup Utility
++ * 0xFF818580 - 0xFF81858F		RTL8185 Phy Status Utility */
++
++/*  */
++
++/* by Owen for Production Kit
++ * For Production Kit with Agilent Equipments
++ * in order to make our custom oids hopefully somewhat unique
++ * we will use 0xFF (indicating implementation specific OID)
++ * 81(first byte of non zero Realtek unique identifier)
++ * 80 (second byte of non zero Realtek unique identifier)
++ * XX (the custom OID number - providing 255 possible custom oids) */
++
++#define OID_RT_PRO_RESET_DUT				0xFF818000
++#define OID_RT_PRO_SET_DATA_RATE			0xFF818001
++#define OID_RT_PRO_START_TEST				0xFF818002
++#define OID_RT_PRO_STOP_TEST			0xFF818003
++#define OID_RT_PRO_SET_PREAMBLE				0xFF818004
++#define OID_RT_PRO_SET_SCRAMBLER			0xFF818005
++#define OID_RT_PRO_SET_FILTER_BB			0xFF818006
++#define OID_RT_PRO_SET_MANUAL_DIVERSITY_BB		0xFF818007
++#define OID_RT_PRO_SET_CHANNEL_DIRECT_CALL		0xFF818008
++#define OID_RT_PRO_SET_SLEEP_MODE_DIRECT_CALL		0xFF818009
++#define OID_RT_PRO_SET_WAKE_MODE_DIRECT_CALL		0xFF81800A
++
++#define OID_RT_PRO_SET_TX_ANTENNA_BB			0xFF81800D
++#define OID_RT_PRO_SET_ANTENNA_BB			0xFF81800E
++#define OID_RT_PRO_SET_CR_SCRAMBLER			0xFF81800F
++#define OID_RT_PRO_SET_CR_NEW_FILTER			0xFF818010
++#define OID_RT_PRO_SET_TX_POWER_CONTROL			0xFF818011
++#define OID_RT_PRO_SET_CR_TX_CONFIG			0xFF818012
++#define OID_RT_PRO_GET_TX_POWER_CONTROL			0xFF818013
++#define OID_RT_PRO_GET_CR_SIGNAL_QUALITY		0xFF818014
++#define OID_RT_PRO_SET_CR_SETPOINT			0xFF818015
++#define OID_RT_PRO_SET_INTEGRATOR			0xFF818016
++#define OID_RT_PRO_SET_SIGNAL_QUALITY			0xFF818017
++#define OID_RT_PRO_GET_INTEGRATOR			0xFF818018
++#define OID_RT_PRO_GET_SIGNAL_QUALITY			0xFF818019
++#define OID_RT_PRO_QUERY_EEPROM_TYPE			0xFF81801A
++#define OID_RT_PRO_WRITE_MAC_ADDRESS			0xFF81801B
++#define OID_RT_PRO_READ_MAC_ADDRESS			0xFF81801C
++#define OID_RT_PRO_WRITE_CIS_DATA			0xFF81801D
++#define OID_RT_PRO_READ_CIS_DATA			0xFF81801E
++#define OID_RT_PRO_WRITE_POWER_CONTROL			0xFF81801F
++#define OID_RT_PRO_READ_POWER_CONTROL			0xFF818020
++#define OID_RT_PRO_WRITE_EEPROM				0xFF818021
++#define OID_RT_PRO_READ_EEPROM				0xFF818022
++#define OID_RT_PRO_RESET_TX_PACKET_SENT			0xFF818023
++#define OID_RT_PRO_QUERY_TX_PACKET_SENT			0xFF818024
++#define OID_RT_PRO_RESET_RX_PACKET_RECEIVED		0xFF818025
++#define OID_RT_PRO_QUERY_RX_PACKET_RECEIVED		0xFF818026
++#define OID_RT_PRO_QUERY_RX_PACKET_CRC32_ERROR		0xFF818027
++#define OID_RT_PRO_QUERY_CURRENT_ADDRESS		0xFF818028
++#define OID_RT_PRO_QUERY_PERMANENT_ADDRESS		0xFF818029
++#define OID_RT_PRO_SET_PHILIPS_RF_PARAMETERS		0xFF81802A
++#define OID_RT_PRO_RECEIVE_PACKET			0xFF81802C
++/* added by Owen on 04/08/03 for Cameo's request */
++#define OID_RT_PRO_WRITE_EEPROM_BYTE			0xFF81802D
++#define OID_RT_PRO_READ_EEPROM_BYTE			0xFF81802E
++#define OID_RT_PRO_SET_MODULATION			0xFF81802F
++/*  */
++
++/* Sean		 */
++#define OID_RT_DRIVER_OPTION				0xFF818080
++#define OID_RT_RF_OFF					0xFF818081
++#define OID_RT_AUTH_STATUS				0xFF818082
++
++/* ************************************************************************ */
++#define OID_RT_PRO_SET_CONTINUOUS_TX			0xFF81800B
++#define OID_RT_PRO_SET_SINGLE_CARRIER_TX		0xFF81800C
++#define OID_RT_PRO_SET_CARRIER_SUPPRESSION_TX		0xFF81802B
++#define OID_RT_PRO_SET_SINGLE_TONE_TX			0xFF818043
++/* ************************************************************************ */
++
++
++/* by Owen for RTL8185 Phy Status Report Utility */
++#define OID_RT_UTILITY_FALSE_ALARM_COUNTERS				0xFF818580
++#define OID_RT_UTILITY_SELECT_DEBUG_MODE				0xFF818581
++#define OID_RT_UTILITY_SELECT_SUBCARRIER_NUMBER				0xFF818582
++#define OID_RT_UTILITY_GET_RSSI_STATUS					0xFF818583
++#define OID_RT_UTILITY_GET_FRAME_DETECTION_STATUS			0xFF818584
++#define OID_RT_UTILITY_GET_AGC_AND_FREQUENCY_OFFSET_ESTIMATION_STATUS	0xFF818585
++#define OID_RT_UTILITY_GET_CHANNEL_ESTIMATION_STATUS			0xFF818586
++/*  */
++
++/* by Owen on 03/09/19-03/09/22 for RTL8185 */
++#define OID_RT_WIRELESS_MODE				0xFF818500
++#define OID_RT_SUPPORTED_RATES				0xFF818501
++#define OID_RT_DESIRED_RATES				0xFF818502
++#define OID_RT_WIRELESS_MODE_STARTING_ADHOC		0xFF818503
++/*  */
++
++#define OID_RT_GET_CONNECT_STATE	0xFF030001
++#define OID_RT_RESCAN		0xFF030002
++#define OID_RT_SET_KEY_LENGTH				0xFF030003
++#define OID_RT_SET_DEFAULT_KEY_ID			0xFF030004
++
++#define OID_RT_SET_CHANNEL				0xFF010182
++#define OID_RT_SET_SNIFFER_MODE	0xFF010183
++#define OID_RT_GET_SIGNAL_QUALITY	0xFF010184
++#define OID_RT_GET_SMALL_PACKET_CRC			0xFF010185
++#define OID_RT_GET_MIDDLE_PACKET_CRC			0xFF010186
++#define OID_RT_GET_LARGE_PACKET_CRC			0xFF010187
++#define OID_RT_GET_TX_RETRY				0xFF010188
++#define OID_RT_GET_RX_RETRY				0xFF010189
++#define OID_RT_PRO_SET_FW_DIG_STATE			0xFF01018A/* S */
++#define OID_RT_PRO_SET_FW_RA_STATE			0xFF01018B/* S */
++
++#define OID_RT_GET_RX_TOTAL_PACKET			0xFF010190
++#define OID_RT_GET_TX_BEACON_OK				0xFF010191
++#define OID_RT_GET_TX_BEACON_ERR			0xFF010192
++#define OID_RT_GET_RX_ICV_ERR				0xFF010193
++#define OID_RT_SET_ENCRYPTION_ALGORITHM			0xFF010194
++#define OID_RT_SET_NO_AUTO_RESCAN			0xFF010195
++#define OID_RT_GET_PREAMBLE_MODE			0xFF010196
++#define OID_RT_GET_DRIVER_UP_DELTA_TIME			0xFF010197
++#define OID_RT_GET_AP_IP				0xFF010198
++#define OID_RT_GET_CHANNELPLAN				0xFF010199
++#define OID_RT_SET_PREAMBLE_MODE			0xFF01019A
++#define OID_RT_SET_BCN_INTVL				0xFF01019B
++#define OID_RT_GET_RF_VENDER				0xFF01019C
++#define OID_RT_DEDICATE_PROBE				0xFF01019D
++#define OID_RT_PRO_RX_FILTER_PATTERN			0xFF01019E
++
++#define OID_RT_GET_DCST_CURRENT_THRESHOLD		0xFF01019F
++
++#define OID_RT_GET_CCA_ERR				0xFF0101A0
++#define OID_RT_GET_CCA_UPGRADE_THRESHOLD		0xFF0101A1
++#define OID_RT_GET_CCA_FALLBACK_THRESHOLD		0xFF0101A2
++
++#define OID_RT_GET_CCA_UPGRADE_EVALUATE_TIMES		0xFF0101A3
++#define OID_RT_GET_CCA_FALLBACK_EVALUATE_TIMES		0xFF0101A4
++
++/* by Owen on 03/31/03 for Cameo's request */
++#define OID_RT_SET_RATE_ADAPTIVE			0xFF0101A5
++/*  */
++#define OID_RT_GET_DCST_EVALUATE_PERIOD			0xFF0101A5
++#define OID_RT_GET_DCST_TIME_UNIT_INDEX			0xFF0101A6
++#define OID_RT_GET_TOTAL_TX_BYTES			0xFF0101A7
++#define OID_RT_GET_TOTAL_RX_BYTES			0xFF0101A8
++#define OID_RT_CURRENT_TX_POWER_LEVEL			0xFF0101A9
++#define OID_RT_GET_ENC_KEY_MISMATCH_COUNT		0xFF0101AA
++#define OID_RT_GET_ENC_KEY_MATCH_COUNT			0xFF0101AB
++#define OID_RT_GET_CHANNEL				0xFF0101AC
++
++#define OID_RT_SET_CHANNELPLAN				0xFF0101AD
++#define OID_RT_GET_HARDWARE_RADIO_OFF			0xFF0101AE
++#define OID_RT_CHANNELPLAN_BY_COUNTRY			0xFF0101AF
++#define OID_RT_SCAN_AVAILABLE_BSSID			0xFF0101B0
++#define OID_RT_GET_HARDWARE_VERSION			0xFF0101B1
++#define OID_RT_GET_IS_ROAMING				0xFF0101B2
++#define OID_RT_GET_IS_PRIVACY				0xFF0101B3
++#define OID_RT_GET_KEY_MISMATCH				0xFF0101B4
++#define OID_RT_SET_RSSI_ROAM_TRAFFIC_TH			0xFF0101B5
++#define OID_RT_SET_RSSI_ROAM_SIGNAL_TH			0xFF0101B6
++#define OID_RT_RESET_LOG				0xFF0101B7
++#define OID_RT_GET_LOG					0xFF0101B8
++#define OID_RT_SET_INDICATE_HIDDEN_AP			0xFF0101B9
++#define OID_RT_GET_HEADER_FAIL				0xFF0101BA
++#define OID_RT_SUPPORTED_WIRELESS_MODE			0xFF0101BB
++#define OID_RT_GET_CHANNEL_LIST				0xFF0101BC
++#define OID_RT_GET_SCAN_IN_PROGRESS			0xFF0101BD
++#define OID_RT_GET_TX_INFO				0xFF0101BE
++#define OID_RT_RF_READ_WRITE_OFFSET			0xFF0101BF
++#define OID_RT_RF_READ_WRITE				0xFF0101C0
++
++/* For Netgear request. 2005.01.13, by rcnjko. */
++#define OID_RT_FORCED_DATA_RATE				0xFF0101C1
++#define OID_RT_WIRELESS_MODE_FOR_SCAN_LIST		0xFF0101C2
++/* For Netgear request. 2005.02.17, by rcnjko. */
++#define OID_RT_GET_BSS_WIRELESS_MODE			0xFF0101C3
++/* For AZ project. 2005.06.27, by rcnjko. */
++#define OID_RT_SCAN_WITH_MAGIC_PACKET			0xFF0101C4
++
++/* Vincent 8185MP */
++#define OID_RT_PRO_RX_FILTER				0xFF0111C0
++
++/* Andy TEST
++ * #define OID_RT_PRO_WRITE_REGISTRY			0xFF0111C1
++ * #define OID_RT_PRO_READ_REGISTRY			0xFF0111C2 */
++#define OID_CE_USB_WRITE_REGISTRY			0xFF0111C1
++#define OID_CE_USB_READ_REGISTRY			0xFF0111C2
++
++
++#define OID_RT_PRO_SET_INITIAL_GAIN			0xFF0111C3
++#define OID_RT_PRO_SET_BB_RF_STANDBY_MODE		0xFF0111C4
++#define OID_RT_PRO_SET_BB_RF_SHUTDOWN_MODE		0xFF0111C5
++#define OID_RT_PRO_SET_TX_CHARGE_PUMP			0xFF0111C6
++#define OID_RT_PRO_SET_RX_CHARGE_PUMP			0xFF0111C7
++#define OID_RT_PRO_RF_WRITE_REGISTRY			0xFF0111C8
++#define OID_RT_PRO_RF_READ_REGISTRY			0xFF0111C9
++#define OID_RT_PRO_QUERY_RF_TYPE			0xFF0111CA
++
++/* AP OID */
++#define OID_RT_AP_GET_ASSOCIATED_STATION_LIST		0xFF010300
++#define OID_RT_AP_GET_CURRENT_TIME_STAMP		0xFF010301
++#define OID_RT_AP_SWITCH_INTO_AP_MODE			0xFF010302
++#define OID_RT_AP_SET_DTIM_PERIOD			0xFF010303
++#define OID_RT_AP_SUPPORTED				0xFF010304	/* Determine if driver supports AP mode. 2004.08.27, by rcnjko. */
++#define OID_RT_AP_SET_PASSPHRASE			0xFF010305	/* Set WPA-PSK passphrase into authenticator. 2005.07.08, byrcnjko. */
++
++/* 8187MP. 2004.09.06, by rcnjko. */
++#define OID_RT_PRO8187_WI_POLL				0xFF818780
++#define OID_RT_PRO_WRITE_BB_REG				0xFF818781
++#define OID_RT_PRO_READ_BB_REG				0xFF818782
++#define OID_RT_PRO_WRITE_RF_REG				0xFF818783
++#define OID_RT_PRO_READ_RF_REG				0xFF818784
++
++/* Meeting House. added by Annie, 2005-07-20. */
++#define OID_RT_MH_VENDER_ID				0xFFEDC100
++
++/* 8711 MP OID added 20051230. */
++#define OID_RT_PRO8711_JOIN_BSS				0xFF871100/* S */
++
++#define OID_RT_PRO_READ_REGISTER			0xFF871101 /* Q */
++#define OID_RT_PRO_WRITE_REGISTER			0xFF871102 /* S */
++
++#define OID_RT_PRO_BURST_READ_REGISTER			0xFF871103 /* Q		 */
++#define OID_RT_PRO_BURST_WRITE_REGISTER 		0xFF871104 /* S */
++
++#define OID_RT_PRO_WRITE_TXCMD				0xFF871105 /* S */
++
++#define OID_RT_PRO_READ16_EEPROM			0xFF871106 /* Q */
++#define OID_RT_PRO_WRITE16_EEPROM			0xFF871107 /* S */
++
++#define OID_RT_PRO_H2C_SET_COMMAND			0xFF871108 /* S */
++#define OID_RT_PRO_H2C_QUERY_RESULT			0xFF871109 /* Q */
++
++#define OID_RT_PRO8711_WI_POLL				0xFF87110A /* Q */
++#define OID_RT_PRO8711_PKT_LOSS				0xFF87110B /* Q */
++#define OID_RT_RD_ATTRIB_MEM				0xFF87110C/* Q */
++#define OID_RT_WR_ATTRIB_MEM				0xFF87110D/* S */
++
++
++/* Method 2 for H2C/C2H */
++#define OID_RT_PRO_H2C_CMD_MODE				0xFF871110 /* S */
++#define OID_RT_PRO_H2C_CMD_RSP_MODE			0xFF871111 /* Q */
++#define OID_RT_PRO_H2C_CMD_EVENT_MODE			0xFF871112 /* S */
++#define OID_RT_PRO_WAIT_C2H_EVENT			0xFF871113 /* Q */
++#define OID_RT_PRO_RW_ACCESS_PROTOCOL_TEST		0xFF871114/* Q */
++
++#define OID_RT_PRO_SCSI_ACCESS_TEST			0xFF871115 /* Q, S */
++
++#define OID_RT_PRO_SCSI_TCPIPOFFLOAD_OUT		0xFF871116 /* S */
++#define OID_RT_PRO_SCSI_TCPIPOFFLOAD_IN			0xFF871117 /* Q, S */
++#define OID_RT_RRO_RX_PKT_VIA_IOCTRL			0xFF871118 /* Q */
++#define OID_RT_RRO_RX_PKTARRAY_VIA_IOCTRL		0xFF871119 /* Q */
++
++#define OID_RT_RPO_SET_PWRMGT_TEST			0xFF87111A /* S */
++#define OID_RT_PRO_QRY_PWRMGT_TEST			0XFF87111B /* Q */
++#define OID_RT_RPO_ASYNC_RWIO_TEST			0xFF87111C /* S */
++#define OID_RT_RPO_ASYNC_RWIO_POLL			0xFF87111D /* Q */
++#define OID_RT_PRO_SET_RF_INTFS				0xFF87111E /* S */
++#define OID_RT_POLL_RX_STATUS				0xFF87111F /* Q */
++
++#define OID_RT_PRO_CFG_DEBUG_MESSAGE			0xFF871120 /* Q, S */
++#define OID_RT_PRO_SET_DATA_RATE_EX			0xFF871121/* S */
++#define OID_RT_PRO_SET_BASIC_RATE			0xFF871122/* S */
++#define OID_RT_PRO_READ_TSSI				0xFF871123/* S */
++#define OID_RT_PRO_SET_POWER_TRACKING			0xFF871124/* S */
++
++
++#define OID_RT_PRO_QRY_PWRSTATE				0xFF871150 /* Q */
++#define OID_RT_PRO_SET_PWRSTATE				0xFF871151 /* S */
++
++/* Method 2 , using workitem */
++#define OID_RT_SET_READ_REG				0xFF871181 /* S */
++#define OID_RT_SET_WRITE_REG				0xFF871182 /* S */
++#define OID_RT_SET_BURST_READ_REG			0xFF871183 /* S */
++#define OID_RT_SET_BURST_WRITE_REG			0xFF871184 /* S */
++#define OID_RT_SET_WRITE_TXCMD				0xFF871185 /* S */
++#define OID_RT_SET_READ16_EEPROM			0xFF871186 /* S */
++#define OID_RT_SET_WRITE16_EEPROM			0xFF871187 /* S */
++#define OID_RT_QRY_POLL_WKITEM				0xFF871188 /* Q */
++
++/* For SDIO INTERFACE only */
++#define OID_RT_PRO_SYNCPAGERW_SRAM			0xFF8711A0 /* Q, S */
++#define OID_RT_PRO_871X_DRV_EXT			0xFF8711A1
++
++/* For USB INTERFACE only */
++#define OID_RT_PRO_USB_VENDOR_REQ			0xFF8711B0 /* Q, S */
++#define OID_RT_PRO_SCSI_AUTO_TEST			0xFF8711B1 /* S */
++#define OID_RT_PRO_USB_MAC_AC_FIFO_WRITE		0xFF8711B2 /* S */
++#define OID_RT_PRO_USB_MAC_RX_FIFO_READ			0xFF8711B3 /* Q */
++#define OID_RT_PRO_USB_MAC_RX_FIFO_POLLING		0xFF8711B4 /* Q */
++
++#define OID_RT_PRO_H2C_SET_RATE_TABLE			0xFF8711FB /* S */
++#define OID_RT_PRO_H2C_GET_RATE_TABLE			0xFF8711FC /* S */
++#define OID_RT_PRO_H2C_C2H_LBK_TEST			0xFF8711FE
++
++#define OID_RT_PRO_ENCRYPTION_CTRL			0xFF871200 /* Q, S */
++#define OID_RT_PRO_ADD_STA_INFO				0xFF871201 /* S */
++#define OID_RT_PRO_DELE_STA_INFO    			0xFF871202 /* S */
++#define OID_RT_PRO_QUERY_DR_VARIABLE   			0xFF871203 /* Q */
++
++#define OID_RT_PRO_RX_PACKET_TYPE			0xFF871204 /* Q, S */
++
++#define OID_RT_PRO_READ_EFUSE				0xFF871205 /* Q */
++#define OID_RT_PRO_WRITE_EFUSE				0xFF871206 /* S */
++#define OID_RT_PRO_RW_EFUSE_PGPKT			0xFF871207 /* Q, S */
++#define OID_RT_GET_EFUSE_CURRENT_SIZE			0xFF871208 /* Q */
++
++#define OID_RT_SET_BANDWIDTH				0xFF871209 /* S */
++#define OID_RT_SET_CRYSTAL_CAP				0xFF87120A /* S */
++
++#define OID_RT_SET_RX_PACKET_TYPE    			0xFF87120B /* S */
++
++#define OID_RT_GET_EFUSE_MAX_SIZE			0xFF87120C /* Q */
++
++#define OID_RT_PRO_SET_TX_AGC_OFFSET			0xFF87120D /* S */
++
++#define OID_RT_PRO_SET_PKT_TEST_MODE			0xFF87120E /* S */
++
++#define OID_RT_PRO_FOR_EVM_TEST_SETTING			0xFF87120F /* S */
++
++#define OID_RT_PRO_GET_THERMAL_METER			0xFF871210 /* Q */
++
++#define OID_RT_RESET_PHY_RX_PACKET_COUNT		0xFF871211 /* S */
++#define OID_RT_GET_PHY_RX_PACKET_RECEIVED		0xFF871212 /* Q */
++#define OID_RT_GET_PHY_RX_PACKET_CRC32_ERROR		0xFF871213 /* Q */
++
++#define OID_RT_SET_POWER_DOWN				0xFF871214 /* S */
++
++#define OID_RT_GET_POWER_MODE				0xFF871215 /* Q */
++
++#define OID_RT_PRO_EFUSE				0xFF871216 /* Q, S */
++#define OID_RT_PRO_EFUSE_MAP				0xFF871217 /* Q, S */
++
++#endif /* #ifndef	__CUSTOM_OID_H */
+diff --git a/drivers/net/wireless/rtl8723du/include/nic_spec.h b/drivers/net/wireless/rtl8723du/include/nic_spec.h
+new file mode 100644
+index 0000000..c0a952f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/nic_spec.h
+@@ -0,0 +1,46 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#ifndef __NIC_SPEC_H__
++#define __NIC_SPEC_H__
++
++#include <drv_conf.h>
++
++#define RTL8711_MCTRL_		(0x20000)
++#define RTL8711_UART_		(0x30000)
++#define RTL8711_TIMER_		(0x40000)
++#define RTL8711_FINT_		(0x50000)
++#define RTL8711_HINT_		(0x50000)
++#define RTL8711_GPIO_		(0x60000)
++#define RTL8711_WLANCTRL_	(0x200000)
++#define RTL8711_WLANFF_		(0xe00000)
++#define RTL8711_HCICTRL_	(0x600000)
++#define RTL8711_SYSCFG_		(0x620000)
++#define RTL8711_SYSCTRL_	(0x620000)
++#define RTL8711_MCCTRL_		(0x020000)
++
++
++#include <rtl8711_regdef.h>
++
++#include <rtl8711_bitdef.h>
++
++
++#endif /* __RTL8711_SPEC_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/osdep_intf.h b/drivers/net/wireless/rtl8723du/include/osdep_intf.h
+new file mode 100644
+index 0000000..a73ed28
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/osdep_intf.h
+@@ -0,0 +1,167 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __OSDEP_INTF_H_
++#define __OSDEP_INTF_H_
++
++
++struct intf_priv {
++
++	u8 *intf_dev;
++	u32	max_iosz;	/* USB2.0: 128, USB1.1: 64, SDIO:64 */
++	u32	max_xmitsz; /* USB2.0: unlimited, SDIO:512 */
++	u32	max_recvsz; /* USB2.0: unlimited, SDIO:512 */
++
++	volatile u8 *io_rwmem;
++	volatile u8 *allocated_io_rwmem;
++	u32	io_wsz; /* unit: 4bytes */
++	u32	io_rsz;/* unit: 4bytes */
++	u8 intf_status;
++
++	void (*_bus_io)(u8 *priv);
++
++	/*
++	Under Sync. IRP (SDIO/USB)
++	A protection mechanism is necessary for the io_rwmem(read/write protocol)
++
++	Under Async. IRP (SDIO/USB)
++	The protection mechanism is through the pending queue.
++	*/
++
++	_mutex ioctl_mutex;
++
++
++#ifdef PLATFORM_LINUX
++#ifdef CONFIG_USB_HCI
++	/* when in USB, IO is through interrupt in/out endpoints */
++	struct usb_device	*udev;
++	PURB	piorw_urb;
++	u8 io_irp_cnt;
++	u8 bio_irp_pending;
++	_sema io_retevt;
++	_timer	io_timer;
++	u8 bio_irp_timeout;
++	u8 bio_timer_cancel;
++#endif
++#endif
++
++#ifdef PLATFORM_OS_XP
++#ifdef CONFIG_SDIO_HCI
++	/* below is for io_rwmem... */
++	PMDL pmdl;
++	PSDBUS_REQUEST_PACKET  sdrp;
++	PSDBUS_REQUEST_PACKET  recv_sdrp;
++	PSDBUS_REQUEST_PACKET  xmit_sdrp;
++
++	PIRP		piorw_irp;
++
++#endif
++#ifdef CONFIG_USB_HCI
++	PURB	piorw_urb;
++	PIRP		piorw_irp;
++	u8 io_irp_cnt;
++	u8 bio_irp_pending;
++	_sema io_retevt;
++#endif
++#endif
++
++};
++
++
++#ifdef CONFIG_R871X_TEST
++	int rtw_start_pseudo_adhoc(_adapter *padapter);
++	int rtw_stop_pseudo_adhoc(_adapter *padapter);
++#endif
++
++struct dvobj_priv *devobj_init(void);
++void devobj_deinit(struct dvobj_priv *pdvobj);
++
++u8 rtw_init_drv_sw(_adapter *padapter);
++u8 rtw_free_drv_sw(_adapter *padapter);
++u8 rtw_reset_drv_sw(_adapter *padapter);
++void rtw_dev_unload(PADAPTER padapter);
++
++u32 rtw_start_drv_threads(_adapter *padapter);
++void rtw_stop_drv_threads(_adapter *padapter);
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++void rtw_cancel_dynamic_chk_timer(_adapter *padapter);
++#endif
++void rtw_cancel_all_timer(_adapter *padapter);
++
++uint loadparam(_adapter *adapter);
++
++#ifdef PLATFORM_LINUX
++int rtw_ioctl(struct net_device *dev, struct ifreq *rq, int cmd);
++
++int rtw_init_netdev_name(struct net_device *pnetdev, const char *ifname);
++struct net_device *rtw_init_netdev(_adapter *padapter);
++
++void rtw_os_ndev_free(_adapter *adapter);
++int rtw_os_ndev_init(_adapter *adapter, char *name);
++void rtw_os_ndev_deinit(_adapter *adapter);
++void rtw_os_ndevs_unregister(struct dvobj_priv *dvobj);
++int rtw_os_ndevs_init(struct dvobj_priv *dvobj);
++void rtw_os_ndevs_deinit(struct dvobj_priv *dvobj);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++u16 rtw_recv_select_queue(struct sk_buff *skb);
++#endif /* LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35) */
++
++int rtw_ndev_notifier_register(void);
++void rtw_ndev_notifier_unregister(void);
++
++#include "../os_dep/linux/rtw_proc.h"
++
++#ifdef CONFIG_IOCTL_CFG80211
++	#include "../os_dep/linux/ioctl_cfg80211.h"
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++#endif /* PLATFORM_LINUX */
++
++
++#ifdef PLATFORM_FREEBSD
++extern int rtw_ioctl(struct ifnet *ifp, u_long cmd, caddr_t data);
++#endif
++
++void rtw_ips_dev_unload(_adapter *padapter);
++
++#ifdef CONFIG_IPS
++int rtw_ips_pwr_up(_adapter *padapter);
++void rtw_ips_pwr_down(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++struct _io_ops;
++struct dvobj_priv;
++_adapter *rtw_drv_add_vir_if(_adapter *primary_padapter, void (*set_intf_ops)(_adapter *primary_padapter, struct _io_ops *pops));
++void rtw_drv_stop_vir_ifaces(struct dvobj_priv *dvobj);
++void rtw_drv_free_vir_ifaces(struct dvobj_priv *dvobj);
++#endif
++
++void rtw_ndev_destructor(_nic_hdl ndev);
++
++#ifdef CONFIG_ARP_KEEP_ALIVE
++int	rtw_gw_addr_query(_adapter *padapter);
++#endif
++
++int rtw_suspend_common(_adapter *padapter);
++int rtw_resume_common(_adapter *padapter);
++
++#endif /* _OSDEP_INTF_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/osdep_service.h b/drivers/net/wireless/rtl8723du/include/osdep_service.h
+new file mode 100644
+index 0000000..e3cd85d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/osdep_service.h
+@@ -0,0 +1,670 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __OSDEP_SERVICE_H_
++#define __OSDEP_SERVICE_H_
++
++
++#define _FAIL		0
++#define _SUCCESS	1
++#define RTW_RX_HANDLED 2
++/* #define RTW_STATUS_TIMEDOUT -110 */
++
++#undef _TRUE
++#define _TRUE		1
++
++#undef _FALSE
++#define _FALSE		0
++
++
++#ifdef PLATFORM_FREEBSD
++	#include <osdep_service_bsd.h>
++#endif
++
++#ifdef PLATFORM_LINUX
++	#include <osdep_service_linux.h>
++#endif
++
++#ifdef PLATFORM_OS_XP
++	#include <osdep_service_xp.h>
++#endif
++
++#ifdef PLATFORM_OS_CE
++	#include <osdep_service_ce.h>
++#endif
++
++#define RTW_TIMER_HDL_NAME(name) rtw_##name##_timer_hdl
++#define RTW_DECLARE_TIMER_HDL(name) void RTW_TIMER_HDL_NAME(name)(RTW_TIMER_HDL_ARGS)
++
++/* #include <rtw_byteorder.h> */
++
++#ifndef BIT
++	#define BIT(x)	(1 << (x))
++#endif
++
++#define BIT0	0x00000001
++#define BIT1	0x00000002
++#define BIT2	0x00000004
++#define BIT3	0x00000008
++#define BIT4	0x00000010
++#define BIT5	0x00000020
++#define BIT6	0x00000040
++#define BIT7	0x00000080
++#define BIT8	0x00000100
++#define BIT9	0x00000200
++#define BIT10	0x00000400
++#define BIT11	0x00000800
++#define BIT12	0x00001000
++#define BIT13	0x00002000
++#define BIT14	0x00004000
++#define BIT15	0x00008000
++#define BIT16	0x00010000
++#define BIT17	0x00020000
++#define BIT18	0x00040000
++#define BIT19	0x00080000
++#define BIT20	0x00100000
++#define BIT21	0x00200000
++#define BIT22	0x00400000
++#define BIT23	0x00800000
++#define BIT24	0x01000000
++#define BIT25	0x02000000
++#define BIT26	0x04000000
++#define BIT27	0x08000000
++#define BIT28	0x10000000
++#define BIT29	0x20000000
++#define BIT30	0x40000000
++#define BIT31	0x80000000
++#define BIT32	0x0100000000
++#define BIT33	0x0200000000
++#define BIT34	0x0400000000
++#define BIT35	0x0800000000
++#define BIT36	0x1000000000
++
++extern int RTW_STATUS_CODE(int error_code);
++
++#ifndef RTK_DMP_PLATFORM
++	#define CONFIG_USE_VMALLOC
++#endif
++
++/* flags used for rtw_mstat_update() */
++enum mstat_f {
++	/* type: 0x00ff */
++	MSTAT_TYPE_VIR = 0x00,
++	MSTAT_TYPE_PHY = 0x01,
++	MSTAT_TYPE_SKB = 0x02,
++	MSTAT_TYPE_USB = 0x03,
++	MSTAT_TYPE_MAX = 0x04,
++
++	/* func: 0xff00 */
++	MSTAT_FUNC_UNSPECIFIED = 0x00 << 8,
++	MSTAT_FUNC_IO = 0x01 << 8,
++	MSTAT_FUNC_TX_IO = 0x02 << 8,
++	MSTAT_FUNC_RX_IO = 0x03 << 8,
++	MSTAT_FUNC_TX = 0x04 << 8,
++	MSTAT_FUNC_RX = 0x05 << 8,
++	MSTAT_FUNC_CFG_VENDOR = 0x06 << 8,
++	MSTAT_FUNC_MAX = 0x07 << 8,
++};
++
++#define mstat_tf_idx(flags) ((flags) & 0xff)
++#define mstat_ff_idx(flags) (((flags) & 0xff00) >> 8)
++
++typedef enum mstat_status {
++	MSTAT_ALLOC_SUCCESS = 0,
++	MSTAT_ALLOC_FAIL,
++	MSTAT_FREE
++} MSTAT_STATUS;
++
++#ifdef DBG_MEM_ALLOC
++void rtw_mstat_update(const enum mstat_f flags, const MSTAT_STATUS status, u32 sz);
++void rtw_mstat_dump(void *sel);
++u8 *dbg_rtw_vmalloc(u32 sz, const enum mstat_f flags, const char *func, const int line);
++u8 *dbg_rtw_zvmalloc(u32 sz, const enum mstat_f flags, const char *func, const int line);
++void dbg_rtw_vmfree(u8 *pbuf, const enum mstat_f flags, u32 sz, const char *func, const int line);
++u8 *dbg_rtw_malloc(u32 sz, const enum mstat_f flags, const char *func, const int line);
++u8 *dbg_rtw_zmalloc(u32 sz, const enum mstat_f flags, const char *func, const int line);
++void dbg_rtw_mfree(u8 *pbuf, const enum mstat_f flags, u32 sz, const char *func, const int line);
++
++struct sk_buff *dbg_rtw_skb_alloc(unsigned int size, const enum mstat_f flags, const char *func, const int line);
++void dbg_rtw_skb_free(struct sk_buff *skb, const enum mstat_f flags, const char *func, const int line);
++struct sk_buff *dbg_rtw_skb_copy(const struct sk_buff *skb, const enum mstat_f flags, const char *func, const int line);
++struct sk_buff *dbg_rtw_skb_clone(struct sk_buff *skb, const enum mstat_f flags, const char *func, const int line);
++int dbg_rtw_netif_rx(_nic_hdl ndev, struct sk_buff *skb, const enum mstat_f flags, const char *func, int line);
++void dbg_rtw_skb_queue_purge(struct sk_buff_head *list, enum mstat_f flags, const char *func, int line);
++#ifdef CONFIG_USB_HCI
++void *dbg_rtw_usb_buffer_alloc(struct usb_device *dev, size_t size, dma_addr_t *dma, const enum mstat_f flags, const char *func, const int line);
++void dbg_rtw_usb_buffer_free(struct usb_device *dev, size_t size, void *addr, dma_addr_t dma, const enum mstat_f flags, const char *func, const int line);
++#endif /* CONFIG_USB_HCI */
++
++#ifdef CONFIG_USE_VMALLOC
++#define rtw_vmalloc(sz)			dbg_rtw_vmalloc((sz), MSTAT_TYPE_VIR, __FUNCTION__, __LINE__)
++#define rtw_zvmalloc(sz)			dbg_rtw_zvmalloc((sz), MSTAT_TYPE_VIR, __FUNCTION__, __LINE__)
++#define rtw_vmfree(pbuf, sz)		dbg_rtw_vmfree((pbuf), (sz), MSTAT_TYPE_VIR, __FUNCTION__, __LINE__)
++#define rtw_vmalloc_f(sz, mstat_f)			dbg_rtw_vmalloc((sz), ((mstat_f) & 0xff00) | MSTAT_TYPE_VIR, __FUNCTION__, __LINE__)
++#define rtw_zvmalloc_f(sz, mstat_f)		dbg_rtw_zvmalloc((sz), ((mstat_f) & 0xff00) | MSTAT_TYPE_VIR, __FUNCTION__, __LINE__)
++#define rtw_vmfree_f(pbuf, sz, mstat_f)	dbg_rtw_vmfree((pbuf), (sz), ((mstat_f) & 0xff00) | MSTAT_TYPE_VIR, __FUNCTION__, __LINE__)
++#else /* CONFIG_USE_VMALLOC */
++#define rtw_vmalloc(sz)			dbg_rtw_malloc((sz), MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_zvmalloc(sz)			dbg_rtw_zmalloc((sz), MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_vmfree(pbuf, sz)		dbg_rtw_mfree((pbuf), (sz), MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_vmalloc_f(sz, mstat_f)			dbg_rtw_malloc((sz), ((mstat_f) & 0xff00) | MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_zvmalloc_f(sz, mstat_f)		dbg_rtw_zmalloc((sz), ((mstat_f) & 0xff00) | MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_vmfree_f(pbuf, sz, mstat_f)	dbg_rtw_mfree((pbuf), (sz), ((mstat_f) & 0xff00) | MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#endif /* CONFIG_USE_VMALLOC */
++#define rtw_malloc(sz)			dbg_rtw_malloc((sz), MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_zmalloc(sz)			dbg_rtw_zmalloc((sz), MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_mfree(pbuf, sz)		dbg_rtw_mfree((pbuf), (sz), MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_malloc_f(sz, mstat_f)			dbg_rtw_malloc((sz), ((mstat_f) & 0xff00) | MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_zmalloc_f(sz, mstat_f)			dbg_rtw_zmalloc((sz), ((mstat_f) & 0xff00) | MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_mfree_f(pbuf, sz, mstat_f)		dbg_rtw_mfree((pbuf), (sz), ((mstat_f) & 0xff00) | MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++
++#define rtw_skb_alloc(size)	dbg_rtw_skb_alloc((size), MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_free(skb)	dbg_rtw_skb_free((skb), MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_alloc_f(size, mstat_f)	dbg_rtw_skb_alloc((size), ((mstat_f) & 0xff00) | MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_free_f(skb, mstat_f)	dbg_rtw_skb_free((skb), ((mstat_f) & 0xff00) | MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_copy(skb)	dbg_rtw_skb_copy((skb), MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_clone(skb)	dbg_rtw_skb_clone((skb), MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_copy_f(skb, mstat_f)	dbg_rtw_skb_copy((skb), ((mstat_f) & 0xff00) | MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_clone_f(skb, mstat_f)	dbg_rtw_skb_clone((skb), ((mstat_f) & 0xff00) | MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_netif_rx(ndev, skb)	dbg_rtw_netif_rx(ndev, skb, MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_queue_purge(sk_buff_head) dbg_rtw_skb_queue_purge(sk_buff_head, MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#ifdef CONFIG_USB_HCI
++#define rtw_usb_buffer_alloc(dev, size, dma)		dbg_rtw_usb_buffer_alloc((dev), (size), (dma), MSTAT_TYPE_USB, __FUNCTION__, __LINE__)
++#define rtw_usb_buffer_free(dev, size, addr, dma)	dbg_rtw_usb_buffer_free((dev), (size), (addr), (dma), MSTAT_TYPE_USB, __FUNCTION__, __LINE__)
++#define rtw_usb_buffer_alloc_f(dev, size, dma, mstat_f)			dbg_rtw_usb_buffer_alloc((dev), (size), (dma), ((mstat_f) & 0xff00) | MSTAT_TYPE_USB, __FUNCTION__, __LINE__)
++#define rtw_usb_buffer_free_f(dev, size, addr, dma, mstat_f)	dbg_rtw_usb_buffer_free((dev), (size), (addr), (dma), ((mstat_f) & 0xff00) | MSTAT_TYPE_USB, __FUNCTION__, __LINE__)
++#endif /* CONFIG_USB_HCI */
++
++#else /* DBG_MEM_ALLOC */
++#define rtw_mstat_update(flag, status, sz) do {} while (0)
++#define rtw_mstat_dump(sel) do {} while (0)
++u8 *_rtw_vmalloc(u32 sz);
++u8 *_rtw_zvmalloc(u32 sz);
++void	_rtw_vmfree(u8 *pbuf, u32 sz);
++u8 *_rtw_zmalloc(u32 sz);
++u8 *_rtw_malloc(u32 sz);
++void	_rtw_mfree(u8 *pbuf, u32 sz);
++
++struct sk_buff *_rtw_skb_alloc(u32 sz);
++void _rtw_skb_free(struct sk_buff *skb);
++struct sk_buff *_rtw_skb_copy(const struct sk_buff *skb);
++struct sk_buff *_rtw_skb_clone(struct sk_buff *skb);
++int _rtw_netif_rx(_nic_hdl ndev, struct sk_buff *skb);
++void _rtw_skb_queue_purge(struct sk_buff_head *list);
++
++#ifdef CONFIG_USB_HCI
++void *_rtw_usb_buffer_alloc(struct usb_device *dev, size_t size, dma_addr_t *dma);
++void _rtw_usb_buffer_free(struct usb_device *dev, size_t size, void *addr, dma_addr_t dma);
++#endif /* CONFIG_USB_HCI */
++
++#ifdef CONFIG_USE_VMALLOC
++#define rtw_vmalloc(sz)			_rtw_vmalloc((sz))
++#define rtw_zvmalloc(sz)			_rtw_zvmalloc((sz))
++#define rtw_vmfree(pbuf, sz)		_rtw_vmfree((pbuf), (sz))
++#define rtw_vmalloc_f(sz, mstat_f)			_rtw_vmalloc((sz))
++#define rtw_zvmalloc_f(sz, mstat_f)		_rtw_zvmalloc((sz))
++#define rtw_vmfree_f(pbuf, sz, mstat_f)	_rtw_vmfree((pbuf), (sz))
++#else /* CONFIG_USE_VMALLOC */
++#define rtw_vmalloc(sz)			_rtw_malloc((sz))
++#define rtw_zvmalloc(sz)			_rtw_zmalloc((sz))
++#define rtw_vmfree(pbuf, sz)		_rtw_mfree((pbuf), (sz))
++#define rtw_vmalloc_f(sz, mstat_f)			_rtw_malloc((sz))
++#define rtw_zvmalloc_f(sz, mstat_f)		_rtw_zmalloc((sz))
++#define rtw_vmfree_f(pbuf, sz, mstat_f)	_rtw_mfree((pbuf), (sz))
++#endif /* CONFIG_USE_VMALLOC */
++#define rtw_malloc(sz)			_rtw_malloc((sz))
++#define rtw_zmalloc(sz)			_rtw_zmalloc((sz))
++#define rtw_mfree(pbuf, sz)		_rtw_mfree((pbuf), (sz))
++#define rtw_malloc_f(sz, mstat_f)			_rtw_malloc((sz))
++#define rtw_zmalloc_f(sz, mstat_f)			_rtw_zmalloc((sz))
++#define rtw_mfree_f(pbuf, sz, mstat_f)		_rtw_mfree((pbuf), (sz))
++
++#define rtw_skb_alloc(size) _rtw_skb_alloc((size))
++#define rtw_skb_free(skb) _rtw_skb_free((skb))
++#define rtw_skb_alloc_f(size, mstat_f)	_rtw_skb_alloc((size))
++#define rtw_skb_free_f(skb, mstat_f)	_rtw_skb_free((skb))
++#define rtw_skb_copy(skb)	_rtw_skb_copy((skb))
++#define rtw_skb_clone(skb)	_rtw_skb_clone((skb))
++#define rtw_skb_copy_f(skb, mstat_f)	_rtw_skb_copy((skb))
++#define rtw_skb_clone_f(skb, mstat_f)	_rtw_skb_clone((skb))
++#define rtw_netif_rx(ndev, skb) _rtw_netif_rx(ndev, skb)
++#define rtw_skb_queue_purge(sk_buff_head) _rtw_skb_queue_purge(sk_buff_head)
++#ifdef CONFIG_USB_HCI
++#define rtw_usb_buffer_alloc(dev, size, dma) _rtw_usb_buffer_alloc((dev), (size), (dma))
++#define rtw_usb_buffer_free(dev, size, addr, dma) _rtw_usb_buffer_free((dev), (size), (addr), (dma))
++#define rtw_usb_buffer_alloc_f(dev, size, dma, mstat_f) _rtw_usb_buffer_alloc((dev), (size), (dma))
++#define rtw_usb_buffer_free_f(dev, size, addr, dma, mstat_f) _rtw_usb_buffer_free((dev), (size), (addr), (dma))
++#endif /* CONFIG_USB_HCI */
++#endif /* DBG_MEM_ALLOC */
++
++extern void	*rtw_malloc2d(int h, int w, size_t size);
++extern void	rtw_mfree2d(void *pbuf, int h, int w, int size);
++
++extern void	_rtw_memcpy(void *dec, const void *sour, u32 sz);
++extern void _rtw_memmove(void *dst, const void *src, u32 sz);
++extern int	_rtw_memcmp(const void *dst, const void *src, u32 sz);
++extern void	_rtw_memset(void *pbuf, int c, u32 sz);
++
++extern void	_rtw_init_listhead(_list *list);
++extern u32	rtw_is_list_empty(_list *phead);
++extern void	rtw_list_insert_head(_list *plist, _list *phead);
++extern void	rtw_list_insert_tail(_list *plist, _list *phead);
++#ifndef PLATFORM_FREEBSD
++extern void	rtw_list_delete(_list *plist);
++#endif /* PLATFORM_FREEBSD */
++
++extern void	_rtw_init_sema(_sema *sema, int init_val);
++extern void	_rtw_free_sema(_sema	*sema);
++extern void	_rtw_up_sema(_sema	*sema);
++extern u32	_rtw_down_sema(_sema *sema);
++extern void	_rtw_mutex_init(_mutex *pmutex);
++extern void	_rtw_mutex_free(_mutex *pmutex);
++#ifndef PLATFORM_FREEBSD
++extern void	_rtw_spinlock_init(_lock *plock);
++#endif /* PLATFORM_FREEBSD */
++extern void	_rtw_spinlock_free(_lock *plock);
++extern void	_rtw_spinlock(_lock	*plock);
++extern void	_rtw_spinunlock(_lock	*plock);
++extern void	_rtw_spinlock_ex(_lock	*plock);
++extern void	_rtw_spinunlock_ex(_lock	*plock);
++
++extern void	_rtw_init_queue(_queue *pqueue);
++extern void _rtw_deinit_queue(_queue *pqueue);
++extern u32	_rtw_queue_empty(_queue	*pqueue);
++extern u32	rtw_end_of_queue_search(_list *queue, _list *pelement);
++
++extern u32	rtw_get_current_time(void);
++extern u32	rtw_systime_to_ms(u32 systime);
++extern u32	rtw_ms_to_systime(u32 ms);
++extern s32	rtw_get_passing_time_ms(u32 start);
++extern s32	rtw_get_time_interval_ms(u32 start, u32 end);
++
++extern void	rtw_sleep_schedulable(int ms);
++
++extern void	rtw_msleep_os(int ms);
++extern void	rtw_usleep_os(int us);
++
++extern u32	rtw_atoi(u8 *s);
++
++#ifdef DBG_DELAY_OS
++#define rtw_mdelay_os(ms) _rtw_mdelay_os((ms), __FUNCTION__, __LINE__)
++#define rtw_udelay_os(ms) _rtw_udelay_os((ms), __FUNCTION__, __LINE__)
++extern void _rtw_mdelay_os(int ms, const char *func, const int line);
++extern void _rtw_udelay_os(int us, const char *func, const int line);
++#else
++extern void	rtw_mdelay_os(int ms);
++extern void	rtw_udelay_os(int us);
++#endif
++
++extern void rtw_yield_os(void);
++
++
++extern void rtw_init_timer(_timer *ptimer, void *padapter, void *pfunc);
++
++
++__inline static unsigned char _cancel_timer_ex(_timer *ptimer)
++{
++#ifdef PLATFORM_LINUX
++	return del_timer_sync(ptimer);
++#endif
++#ifdef PLATFORM_FREEBSD
++	_cancel_timer(ptimer, 0);
++	return 0;
++#endif
++#ifdef PLATFORM_WINDOWS
++	u8 bcancelled;
++
++	_cancel_timer(ptimer, &bcancelled);
++
++	return bcancelled;
++#endif
++}
++
++static __inline void thread_enter(char *name)
++{
++#ifdef PLATFORM_LINUX
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++	daemonize("%s", name);
++#endif
++	allow_signal(SIGTERM);
++#endif
++#ifdef PLATFORM_FREEBSD
++	printf("%s", "RTKTHREAD_enter");
++#endif
++}
++
++__inline static void flush_signals_thread(void)
++{
++#ifdef PLATFORM_LINUX
++	if (signal_pending(current))
++		flush_signals(current);
++#endif
++}
++
++__inline static _OS_STATUS res_to_status(sint res)
++{
++
++#if defined(PLATFORM_LINUX) || defined (PLATFORM_MPIXEL) || defined (PLATFORM_FREEBSD)
++	return res;
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++	if (res == _SUCCESS)
++		return NDIS_STATUS_SUCCESS;
++	else
++		return NDIS_STATUS_FAILURE;
++
++#endif
++
++}
++
++__inline static void rtw_dump_stack(void)
++{
++#ifdef PLATFORM_LINUX
++	dump_stack();
++#endif
++}
++
++#ifdef PLATFORM_LINUX
++#define rtw_warn_on(condition) WARN_ON(condition)
++#else
++#define rtw_warn_on(condition) do {} while (0)
++#endif
++
++__inline static int rtw_bug_check(void *parg1, void *parg2, void *parg3, void *parg4)
++{
++	int ret = _TRUE;
++
++#ifdef PLATFORM_WINDOWS
++	if (((uint)parg1) <= 0x7fffffff ||
++	    ((uint)parg2) <= 0x7fffffff ||
++	    ((uint)parg3) <= 0x7fffffff ||
++	    ((uint)parg4) <= 0x7fffffff) {
++		ret = _FALSE;
++		KeBugCheckEx(0x87110000, (ULONG_PTR)parg1, (ULONG_PTR)parg2, (ULONG_PTR)parg3, (ULONG_PTR)parg4);
++	}
++#endif
++
++	return ret;
++
++}
++
++#define _RND(sz, r) ((((sz)+((r)-1))/(r))*(r))
++#define RND4(x)	(((x >> 2) + (((x & 3) == 0) ? 0 : 1)) << 2)
++
++__inline static u32 _RND4(u32 sz)
++{
++
++	u32	val;
++
++	val = ((sz >> 2) + ((sz & 3) ? 1 : 0)) << 2;
++
++	return val;
++
++}
++
++__inline static u32 _RND8(u32 sz)
++{
++
++	u32	val;
++
++	val = ((sz >> 3) + ((sz & 7) ? 1 : 0)) << 3;
++
++	return val;
++
++}
++
++__inline static u32 _RND128(u32 sz)
++{
++
++	u32	val;
++
++	val = ((sz >> 7) + ((sz & 127) ? 1 : 0)) << 7;
++
++	return val;
++
++}
++
++__inline static u32 _RND256(u32 sz)
++{
++
++	u32	val;
++
++	val = ((sz >> 8) + ((sz & 255) ? 1 : 0)) << 8;
++
++	return val;
++
++}
++
++__inline static u32 _RND512(u32 sz)
++{
++
++	u32	val;
++
++	val = ((sz >> 9) + ((sz & 511) ? 1 : 0)) << 9;
++
++	return val;
++
++}
++
++__inline static u32 bitshift(u32 bitmask)
++{
++	u32 i;
++
++	for (i = 0; i <= 31; i++)
++		if (((bitmask >> i) &  0x1) == 1)
++			break;
++
++	return i;
++}
++
++static inline int largest_bit(u32 bitmask)
++{
++	int i;
++
++	for (i = 31; i >= 0; i--)
++		if (bitmask & BIT(i))
++			break;
++
++	return i;
++}
++
++#define rtw_min(a, b) ((a > b) ? b : a)
++#define rtw_is_range_a_in_b(hi_a, lo_a, hi_b, lo_b) (((hi_a) <= (hi_b)) && ((lo_a) >= (lo_b)))
++#define rtw_is_range_overlap(hi_a, lo_a, hi_b, lo_b) (((hi_a) > (lo_b)) && ((lo_a) < (hi_b)))
++
++#ifndef MAC_FMT
++#define MAC_FMT "%02x:%02x:%02x:%02x:%02x:%02x"
++#endif
++#ifndef MAC_ARG
++#define MAC_ARG(x) ((u8 *)(x))[0], ((u8 *)(x))[1], ((u8 *)(x))[2], ((u8 *)(x))[3], ((u8 *)(x))[4], ((u8 *)(x))[5]
++#endif
++
++
++extern void rtw_suspend_lock_init(void);
++extern void rtw_suspend_lock_uninit(void);
++extern void rtw_lock_suspend(void);
++extern void rtw_unlock_suspend(void);
++extern void rtw_lock_suspend_timeout(u32 timeout_ms);
++extern void rtw_lock_ext_suspend_timeout(u32 timeout_ms);
++extern void rtw_lock_rx_suspend_timeout(u32 timeout_ms);
++extern void rtw_lock_traffic_suspend_timeout(u32 timeout_ms);
++extern void rtw_lock_resume_scan_timeout(u32 timeout_ms);
++extern void rtw_resume_lock_suspend(void);
++extern void rtw_resume_unlock_suspend(void);
++#ifdef CONFIG_AP_WOWLAN
++extern void rtw_softap_lock_suspend(void);
++extern void rtw_softap_unlock_suspend(void);
++#endif
++
++extern void ATOMIC_SET(ATOMIC_T *v, int i);
++extern int ATOMIC_READ(ATOMIC_T *v);
++extern void ATOMIC_ADD(ATOMIC_T *v, int i);
++extern void ATOMIC_SUB(ATOMIC_T *v, int i);
++extern void ATOMIC_INC(ATOMIC_T *v);
++extern void ATOMIC_DEC(ATOMIC_T *v);
++extern int ATOMIC_ADD_RETURN(ATOMIC_T *v, int i);
++extern int ATOMIC_SUB_RETURN(ATOMIC_T *v, int i);
++extern int ATOMIC_INC_RETURN(ATOMIC_T *v);
++extern int ATOMIC_DEC_RETURN(ATOMIC_T *v);
++
++/* File operation APIs, just for linux now */
++extern int rtw_is_file_readable(const char *path);
++extern int rtw_is_file_readable_with_size(const char *path, u32 *sz);
++extern int rtw_retrieve_from_file(const char *path, u8 *buf, u32 sz);
++extern int rtw_store_to_file(const char *path, u8 *buf, u32 sz);
++
++
++#ifndef PLATFORM_FREEBSD
++extern void rtw_free_netdev(struct net_device *netdev);
++#endif /* PLATFORM_FREEBSD */
++
++
++extern u64 rtw_modular64(u64 x, u64 y);
++extern u64 rtw_division64(u64 x, u64 y);
++extern u32 rtw_random32(void);
++
++/* Macros for handling unaligned memory accesses */
++
++#define RTW_GET_BE16(a) ((u16) (((a)[0] << 8) | (a)[1]))
++#define RTW_PUT_BE16(a, val)			\
++	do {					\
++		(a)[0] = ((u16) (val)) >> 8;	\
++		(a)[1] = ((u16) (val)) & 0xff;	\
++	} while (0)
++
++#define RTW_GET_LE16(a) ((u16) (((a)[1] << 8) | (a)[0]))
++#define RTW_PUT_LE16(a, val)			\
++	do {					\
++		(a)[1] = ((u16) (val)) >> 8;	\
++		(a)[0] = ((u16) (val)) & 0xff;	\
++	} while (0)
++
++#define RTW_GET_BE24(a) ((((u32) (a)[0]) << 16) | (((u32) (a)[1]) << 8) | \
++			 ((u32) (a)[2]))
++#define RTW_PUT_BE24(a, val)					\
++	do {							\
++		(a)[0] = (u8) ((((u32) (val)) >> 16) & 0xff);	\
++		(a)[1] = (u8) ((((u32) (val)) >> 8) & 0xff);	\
++		(a)[2] = (u8) (((u32) (val)) & 0xff);		\
++	} while (0)
++
++#define RTW_GET_BE32(a) ((((u32) (a)[0]) << 24) | (((u32) (a)[1]) << 16) | \
++			 (((u32) (a)[2]) << 8) | ((u32) (a)[3]))
++#define RTW_PUT_BE32(a, val)					\
++	do {							\
++		(a)[0] = (u8) ((((u32) (val)) >> 24) & 0xff);	\
++		(a)[1] = (u8) ((((u32) (val)) >> 16) & 0xff);	\
++		(a)[2] = (u8) ((((u32) (val)) >> 8) & 0xff);	\
++		(a)[3] = (u8) (((u32) (val)) & 0xff);		\
++	} while (0)
++
++#define RTW_GET_LE32(a) ((((u32) (a)[3]) << 24) | (((u32) (a)[2]) << 16) | \
++			 (((u32) (a)[1]) << 8) | ((u32) (a)[0]))
++#define RTW_PUT_LE32(a, val)					\
++	do {							\
++		(a)[3] = (u8) ((((u32) (val)) >> 24) & 0xff);	\
++		(a)[2] = (u8) ((((u32) (val)) >> 16) & 0xff);	\
++		(a)[1] = (u8) ((((u32) (val)) >> 8) & 0xff);	\
++		(a)[0] = (u8) (((u32) (val)) & 0xff);		\
++	} while (0)
++
++#define RTW_GET_BE64(a) ((((u64) (a)[0]) << 56) | (((u64) (a)[1]) << 48) | \
++			 (((u64) (a)[2]) << 40) | (((u64) (a)[3]) << 32) | \
++			 (((u64) (a)[4]) << 24) | (((u64) (a)[5]) << 16) | \
++			 (((u64) (a)[6]) << 8) | ((u64) (a)[7]))
++#define RTW_PUT_BE64(a, val)				\
++	do {						\
++		(a)[0] = (u8) (((u64) (val)) >> 56);	\
++		(a)[1] = (u8) (((u64) (val)) >> 48);	\
++		(a)[2] = (u8) (((u64) (val)) >> 40);	\
++		(a)[3] = (u8) (((u64) (val)) >> 32);	\
++		(a)[4] = (u8) (((u64) (val)) >> 24);	\
++		(a)[5] = (u8) (((u64) (val)) >> 16);	\
++		(a)[6] = (u8) (((u64) (val)) >> 8);	\
++		(a)[7] = (u8) (((u64) (val)) & 0xff);	\
++	} while (0)
++
++#define RTW_GET_LE64(a) ((((u64) (a)[7]) << 56) | (((u64) (a)[6]) << 48) | \
++			 (((u64) (a)[5]) << 40) | (((u64) (a)[4]) << 32) | \
++			 (((u64) (a)[3]) << 24) | (((u64) (a)[2]) << 16) | \
++			 (((u64) (a)[1]) << 8) | ((u64) (a)[0]))
++
++void rtw_buf_free(u8 **buf, u32 *buf_len);
++void rtw_buf_update(u8 **buf, u32 *buf_len, u8 *src, u32 src_len);
++
++struct rtw_cbuf {
++	u32 write;
++	u32 read;
++	u32 size;
++	void *bufs[0];
++};
++
++bool rtw_cbuf_full(struct rtw_cbuf *cbuf);
++bool rtw_cbuf_empty(struct rtw_cbuf *cbuf);
++bool rtw_cbuf_push(struct rtw_cbuf *cbuf, void *buf);
++void *rtw_cbuf_pop(struct rtw_cbuf *cbuf);
++struct rtw_cbuf *rtw_cbuf_alloc(u32 size);
++void rtw_cbuf_free(struct rtw_cbuf *cbuf);
++
++struct map_seg_t {
++	u16 sa;
++	u16 len;
++	u8 *c;
++};
++
++struct map_t {
++	u16 len;
++	u16 seg_num;
++	u8 init_value;
++	struct map_seg_t *segs;
++};
++
++#define MAPSEG_ARRAY_ENT(_sa, _len, _c, arg...) \
++	{ .sa = _sa, .len = _len, .c = (u8[_len]){ _c, ##arg}, }
++
++#define MAPSEG_PTR_ENT(_sa, _len, _p) \
++	{ .sa = _sa, .len = _len, .c = _p, }
++
++#define MAP_ENT(_len, _seg_num, _init_v, _seg, arg...) \
++	{ .len = _len, .seg_num = _seg_num, .init_value = _init_v, .segs = (struct map_seg_t[_seg_num]){ _seg, ##arg}, }
++
++int map_readN(const struct map_t *map, u16 offset, u16 len, u8 *buf);
++u8 map_read8(const struct map_t *map, u16 offset);
++
++/* String handler */
++
++BOOLEAN is_null(char c);
++BOOLEAN is_eol(char c);
++BOOLEAN is_space(char c);
++BOOLEAN IsHexDigit(char chTmp);
++BOOLEAN is_alpha(char chTmp);
++char alpha_to_upper(char c);
++
++/*
++ * Write formatted output to sized buffer
++ */
++#ifdef PLATFORM_LINUX
++#define rtw_sprintf(buf, size, format, arg...)	snprintf(buf, size, format, ##arg)
++#else /* !PLATFORM_LINUX */
++#error "NOT DEFINE \"rtw_sprintf\"!!"
++#endif /* !PLATFORM_LINUX */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/osdep_service_bsd.h b/drivers/net/wireless/rtl8723du/include/osdep_service_bsd.h
+new file mode 100644
+index 0000000..b56ccbb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/osdep_service_bsd.h
+@@ -0,0 +1,749 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __OSDEP_BSD_SERVICE_H_
++#define __OSDEP_BSD_SERVICE_H_
++
++
++#include <sys/cdefs.h>
++#include <sys/types.h>
++#include <sys/systm.h>
++#include <sys/param.h>
++#include <sys/sockio.h>
++#include <sys/sysctl.h>
++#include <sys/lock.h>
++#include <sys/mutex.h>
++#include <sys/mbuf.h>
++#include <sys/kernel.h>
++#include <sys/socket.h>
++#include <sys/systm.h>
++#include <sys/malloc.h>
++#include <sys/module.h>
++#include <sys/bus.h>
++#include <sys/endian.h>
++#include <sys/kdb.h>
++#include <sys/kthread.h>
++#include <sys/malloc.h>
++#include <sys/time.h>
++#include <machine/atomic.h>
++#include <machine/bus.h>
++#include <machine/resource.h>
++#include <sys/rman.h>
++
++#include <net/bpf.h>
++#include <net/if.h>
++#include <net/if_arp.h>
++#include <net/ethernet.h>
++#include <net/if_dl.h>
++#include <net/if_media.h>
++#include <net/if_types.h>
++#include <net/route.h>
++
++
++#include <netinet/in.h>
++#include <netinet/in_systm.h>
++#include <netinet/in_var.h>
++#include <netinet/if_ether.h>
++#include <if_ether.h>
++
++#include <net80211/ieee80211_var.h>
++#include <net80211/ieee80211_regdomain.h>
++#include <net80211/ieee80211_radiotap.h>
++#include <net80211/ieee80211_ratectl.h>
++
++#include <dev/usb/usb.h>
++#include <dev/usb/usbdi.h>
++#include "usbdevs.h"
++
++#define	USB_DEBUG_VAR rum_debug
++#include <dev/usb/usb_debug.h>
++
++#if 1 //Baron porting from linux, it's all temp solution, needs to check again
++#include <sys/sema.h>
++#include <sys/pcpu.h> /* XXX for PCPU_GET */
++//	typedef struct 	semaphore _sema;
++	typedef struct 	sema _sema;
++//	typedef	spinlock_t	_lock;
++	typedef	struct mtx	_lock;
++	typedef struct mtx 		_mutex;
++	typedef struct timer_list _timer;
++	struct list_head {
++	struct list_head *next, *prev;
++	};
++	struct	__queue	{
++		struct	list_head	queue;	
++		_lock	lock;
++	};
++
++	//typedef	struct sk_buff	_pkt;
++	typedef	struct mbuf	_pkt;
++	typedef struct mbuf	_buffer;
++	
++	typedef struct	__queue	_queue;
++	typedef struct	list_head	_list;
++	typedef	int	_OS_STATUS;
++	//typedef u32	_irqL;
++	typedef unsigned long _irqL;
++	typedef	struct	ifnet * _nic_hdl;
++	
++	typedef pid_t		_thread_hdl_;
++//	typedef struct thread		_thread_hdl_;
++	typedef void		thread_return;
++	typedef void*	thread_context;
++
++	//#define thread_exit() complete_and_exit(NULL, 0)
++
++	#define thread_exit() do{printf("%s", "RTKTHREAD_exit");}while(0)
++
++	typedef void timer_hdl_return;
++	typedef void* timer_hdl_context;
++	typedef struct work_struct _workitem;
++
++#define   KERNEL_VERSION(a,b,c) (((a) << 16) + ((b) << 8) + (c))
++/* emulate a modern version */
++#define LINUX_VERSION_CODE KERNEL_VERSION(2, 6, 35)
++
++#define WIRELESS_EXT -1
++#define HZ hz
++#define spin_lock_irqsave mtx_lock_irqsave
++#define spin_lock_bh mtx_lock_irqsave
++#define mtx_lock_irqsave(lock, x) mtx_lock(lock)//{local_irq_save((x)); mtx_lock_spin((lock));}
++//#define IFT_RTW	0xf9 //ifnet allocate type for RTW
++#define free_netdev if_free
++#define LIST_CONTAINOR(ptr, type, member) \
++        ((type *)((char *)(ptr)-(SIZE_T)(&((type *)0)->member)))
++#define container_of(p,t,n) (t*)((p)-&(((t*)0)->n))
++/* 
++ * Linux timers are emulated using FreeBSD callout functions
++ * (and taskqueue functionality).
++ *
++ * Currently no timer stats functionality.
++ *
++ * See (linux_compat) processes.c
++ *
++ */
++struct timer_list {
++
++        /* FreeBSD callout related fields */
++        struct callout callout;
++
++ 	//timeout function
++        void (*function)(void*);
++	//argument
++	 void *arg;
++        
++};
++struct workqueue_struct;
++struct work_struct;
++typedef void (*work_func_t)(struct work_struct *work);
++/* Values for the state of an item of work (work_struct) */
++typedef enum work_state {
++        WORK_STATE_UNSET = 0,
++        WORK_STATE_CALLOUT_PENDING = 1,
++        WORK_STATE_TASK_PENDING = 2,
++        WORK_STATE_WORK_CANCELLED = 3        
++} work_state_t;
++
++struct work_struct {
++        struct task task; /* FreeBSD task */
++        work_state_t state; /* the pending or otherwise state of work. */
++        work_func_t func;       
++};
++#define spin_unlock_irqrestore mtx_unlock_irqrestore
++#define spin_unlock_bh mtx_unlock_irqrestore
++#define mtx_unlock_irqrestore(lock,x)    mtx_unlock(lock);
++extern void	_rtw_spinlock_init(_lock *plock);
++
++//modify private structure to match freebsd
++#define BITS_PER_LONG 32
++union ktime {
++	s64	tv64;
++#if BITS_PER_LONG != 64 && !defined(CONFIG_KTIME_SCALAR)
++	struct {
++#ifdef __BIG_ENDIAN
++	s32	sec, nsec;
++#else
++	s32	nsec, sec;
++#endif
++	} tv;
++#endif
++};
++#define kmemcheck_bitfield_begin(name)
++#define kmemcheck_bitfield_end(name)
++#define CHECKSUM_NONE 0
++typedef unsigned char *sk_buff_data_t;
++typedef union ktime ktime_t;		/* Kill this */
++
++void rtw_mtx_lock(_lock *plock);
++	
++void rtw_mtx_unlock(_lock *plock);
++
++/** 
++ *	struct sk_buff - socket buffer
++ *	@next: Next buffer in list
++ *	@prev: Previous buffer in list
++ *	@sk: Socket we are owned by
++ *	@tstamp: Time we arrived
++ *	@dev: Device we arrived on/are leaving by
++ *	@transport_header: Transport layer header
++ *	@network_header: Network layer header
++ *	@mac_header: Link layer header
++ *	@_skb_refdst: destination entry (with norefcount bit)
++ *	@sp: the security path, used for xfrm
++ *	@cb: Control buffer. Free for use by every layer. Put private vars here
++ *	@len: Length of actual data
++ *	@data_len: Data length
++ *	@mac_len: Length of link layer header
++ *	@hdr_len: writable header length of cloned skb
++ *	@csum: Checksum (must include start/offset pair)
++ *	@csum_start: Offset from skb->head where checksumming should start
++ *	@csum_offset: Offset from csum_start where checksum should be stored
++ *	@local_df: allow local fragmentation
++ *	@cloned: Head may be cloned (check refcnt to be sure)
++ *	@nohdr: Payload reference only, must not modify header
++ *	@pkt_type: Packet class
++ *	@fclone: skbuff clone status
++ *	@ip_summed: Driver fed us an IP checksum
++ *	@priority: Packet queueing priority
++ *	@users: User count - see {datagram,tcp}.c
++ *	@protocol: Packet protocol from driver
++ *	@truesize: Buffer size 
++ *	@head: Head of buffer
++ *	@data: Data head pointer
++ *	@tail: Tail pointer
++ *	@end: End pointer
++ *	@destructor: Destruct function
++ *	@mark: Generic packet mark
++ *	@nfct: Associated connection, if any
++ *	@ipvs_property: skbuff is owned by ipvs
++ *	@peeked: this packet has been seen already, so stats have been
++ *		done for it, don't do them again
++ *	@nf_trace: netfilter packet trace flag
++ *	@nfctinfo: Relationship of this skb to the connection
++ *	@nfct_reasm: netfilter conntrack re-assembly pointer
++ *	@nf_bridge: Saved data about a bridged frame - see br_netfilter.c
++ *	@skb_iif: ifindex of device we arrived on
++ *	@rxhash: the packet hash computed on receive
++ *	@queue_mapping: Queue mapping for multiqueue devices
++ *	@tc_index: Traffic control index
++ *	@tc_verd: traffic control verdict
++ *	@ndisc_nodetype: router type (from link layer)
++ *	@dma_cookie: a cookie to one of several possible DMA operations
++ *		done by skb DMA functions
++ *	@secmark: security marking
++ *	@vlan_tci: vlan tag control information
++ */
++
++struct sk_buff {
++	/* These two members must be first. */
++	struct sk_buff		*next;
++	struct sk_buff		*prev;
++
++	ktime_t			tstamp;
++
++	struct sock		*sk;
++	//struct net_device	*dev;
++	struct ifnet *dev;
++
++	/*
++	 * This is the control buffer. It is free to use for every
++	 * layer. Please put your private variables there. If you
++	 * want to keep them across layers you have to do a skb_clone()
++	 * first. This is owned by whoever has the skb queued ATM.
++	 */
++	char			cb[48] __aligned(8);
++
++	unsigned long		_skb_refdst;
++#ifdef CONFIG_XFRM
++	struct	sec_path	*sp;
++#endif
++	unsigned int		len,
++				data_len;
++	u16			mac_len,
++				hdr_len;
++	union {
++		u32		csum;
++		struct {
++			u16	csum_start;
++			u16	csum_offset;
++		}smbol2;
++	}smbol1;
++	u32			priority;
++	kmemcheck_bitfield_begin(flags1);
++	u8			local_df:1,
++				cloned:1,
++				ip_summed:2,
++				nohdr:1,
++				nfctinfo:3;
++	u8			pkt_type:3,
++				fclone:2,
++				ipvs_property:1,
++				peeked:1,
++				nf_trace:1;
++	kmemcheck_bitfield_end(flags1);
++	u16			protocol;
++
++	void			(*destructor)(struct sk_buff *skb);
++#if defined(CONFIG_NF_CONNTRACK) || defined(CONFIG_NF_CONNTRACK_MODULE)
++	struct nf_conntrack	*nfct;
++	struct sk_buff		*nfct_reasm;
++#endif
++#ifdef CONFIG_BRIDGE_NETFILTER
++	struct nf_bridge_info	*nf_bridge;
++#endif
++
++	int			skb_iif;
++#ifdef CONFIG_NET_SCHED
++	u16			tc_index;	/* traffic control index */
++#ifdef CONFIG_NET_CLS_ACT
++	u16			tc_verd;	/* traffic control verdict */
++#endif
++#endif
++
++	u32			rxhash;
++
++	kmemcheck_bitfield_begin(flags2);
++	u16			queue_mapping:16;
++#ifdef CONFIG_IPV6_NDISC_NODETYPE
++	u8			ndisc_nodetype:2,
++				deliver_no_wcard:1;
++#else
++	u8			deliver_no_wcard:1;
++#endif
++	kmemcheck_bitfield_end(flags2);
++
++	/* 0/14 bit hole */
++
++#ifdef CONFIG_NET_DMA
++	dma_cookie_t		dma_cookie;
++#endif
++#ifdef CONFIG_NETWORK_SECMARK
++	u32			secmark;
++#endif
++	union {
++		u32		mark;
++		u32		dropcount;
++	}symbol3;
++
++	u16			vlan_tci;
++
++	sk_buff_data_t		transport_header;
++	sk_buff_data_t		network_header;
++	sk_buff_data_t		mac_header;
++	/* These elements must be at the end, see alloc_skb() for details.  */
++	sk_buff_data_t		tail;
++	sk_buff_data_t		end;
++	unsigned char		*head,
++				*data;
++	unsigned int		truesize;
++	atomic_t		users;
++};
++struct sk_buff_head {
++	/* These two members must be first. */
++	struct sk_buff	*next;
++	struct sk_buff	*prev;
++
++	u32		qlen;
++	_lock	lock;
++};
++#define skb_tail_pointer(skb)	skb->tail
++static inline unsigned char *skb_put(struct sk_buff *skb, unsigned int len)
++{
++	unsigned char *tmp = skb_tail_pointer(skb);
++	//SKB_LINEAR_ASSERT(skb);
++	skb->tail += len;
++	skb->len  += len;
++	return tmp;
++}
++
++static inline unsigned char *__skb_pull(struct sk_buff *skb, unsigned int len)
++{
++	skb->len -= len;
++	if(skb->len < skb->data_len)
++		printf("%s(),%d,error!\n",__FUNCTION__,__LINE__);
++	return skb->data += len;
++}
++static inline unsigned char *skb_pull(struct sk_buff *skb, unsigned int len)
++{
++	#ifdef PLATFORM_FREEBSD
++	return __skb_pull(skb, len);
++	#else
++	return unlikely(len > skb->len) ? NULL : __skb_pull(skb, len);
++	#endif //PLATFORM_FREEBSD
++}
++static inline u32 skb_queue_len(const struct sk_buff_head *list_)
++{
++	return list_->qlen;
++}
++static inline void __skb_insert(struct sk_buff *newsk,
++				struct sk_buff *prev, struct sk_buff *next,
++				struct sk_buff_head *list)
++{
++	newsk->next = next;
++	newsk->prev = prev;
++	next->prev  = prev->next = newsk;
++	list->qlen++;
++}
++static inline void __skb_queue_before(struct sk_buff_head *list,
++				      struct sk_buff *next,
++				      struct sk_buff *newsk)
++{
++	__skb_insert(newsk, next->prev, next, list);
++}
++static inline void skb_queue_tail(struct sk_buff_head *list,
++				   struct sk_buff *newsk)
++{
++	mtx_lock(&list->lock);
++	__skb_queue_before(list, (struct sk_buff *)list, newsk);
++	mtx_unlock(&list->lock);
++}
++static inline struct sk_buff *skb_peek(struct sk_buff_head *list_)
++{
++	struct sk_buff *list = ((struct sk_buff *)list_)->next;
++	if (list == (struct sk_buff *)list_)
++		list = NULL;
++	return list;
++}
++static inline void __skb_unlink(struct sk_buff *skb, struct sk_buff_head *list)
++{
++	struct sk_buff *next, *prev;
++
++	list->qlen--;
++	next	   = skb->next;
++	prev	   = skb->prev;
++	skb->next  = skb->prev = NULL;
++	next->prev = prev;
++	prev->next = next;
++}
++
++static inline struct sk_buff *skb_dequeue(struct sk_buff_head *list)
++{
++	mtx_lock(&list->lock);
++
++	struct sk_buff *skb = skb_peek(list);
++	if (skb)
++		__skb_unlink(skb, list);
++
++	mtx_unlock(&list->lock);
++
++	return skb;
++}
++static inline void skb_reserve(struct sk_buff *skb, int len)
++{
++	skb->data += len;
++	skb->tail += len;
++}
++static inline void __skb_queue_head_init(struct sk_buff_head *list)
++{
++	list->prev = list->next = (struct sk_buff *)list;
++	list->qlen = 0;
++}
++/*
++ * This function creates a split out lock class for each invocation;
++ * this is needed for now since a whole lot of users of the skb-queue
++ * infrastructure in drivers have different locking usage (in hardirq)
++ * than the networking core (in softirq only). In the long run either the
++ * network layer or drivers should need annotation to consolidate the
++ * main types of usage into 3 classes.
++ */
++static inline void skb_queue_head_init(struct sk_buff_head *list)
++{
++	_rtw_spinlock_init(&list->lock);
++	__skb_queue_head_init(list);
++}
++unsigned long copy_from_user(void *to, const void *from, unsigned long n);
++unsigned long copy_to_user(void *to, const void *from, unsigned long n);
++struct sk_buff * dev_alloc_skb(unsigned int size);
++struct sk_buff *skb_clone(const struct sk_buff *skb);
++void dev_kfree_skb_any(struct sk_buff *skb);
++#endif //Baron porting from linux, it's all temp solution, needs to check again
++
++
++#if 1 // kenny add Linux compatibility code for Linux USB driver
++#include <dev/usb/usb_compat_linux.h>
++
++#define __init		// __attribute ((constructor))
++#define __exit		// __attribute ((destructor))
++
++/*
++ * Definitions for module_init and module_exit macros.
++ *
++ * These macros will use the SYSINIT framework to call a specified
++ * function (with no arguments) on module loading or unloading.
++ * 
++ */
++
++void module_init_exit_wrapper(void *arg);
++
++#define module_init(initfn)                             \
++        SYSINIT(mod_init_ ## initfn,                    \
++                SI_SUB_KLD, SI_ORDER_FIRST,             \
++                module_init_exit_wrapper, initfn)
++
++#define module_exit(exitfn)                             \
++        SYSUNINIT(mod_exit_ ## exitfn,                  \
++                  SI_SUB_KLD, SI_ORDER_ANY,             \
++                  module_init_exit_wrapper, exitfn)
++
++/*
++ * The usb_register and usb_deregister functions are used to register
++ * usb drivers with the usb subsystem. 
++ */
++int usb_register(struct usb_driver *driver);
++int usb_deregister(struct usb_driver *driver);
++
++/*
++ * usb_get_dev and usb_put_dev - increment/decrement the reference count 
++ * of the usb device structure.
++ *
++ * Original body of usb_get_dev:
++ *
++ *       if (dev)
++ *               get_device(&dev->dev);
++ *       return dev;
++ *
++ * Reference counts are not currently used in this compatibility
++ * layer. So these functions will do nothing.
++ */
++static inline struct usb_device *
++usb_get_dev(struct usb_device *dev)
++{
++        return dev;
++}
++
++static inline void 
++usb_put_dev(struct usb_device *dev)
++{
++        return;
++}
++
++
++// rtw_usb_compat_linux
++int rtw_usb_submit_urb(struct urb *urb, uint16_t mem_flags);
++int rtw_usb_unlink_urb(struct urb *urb);
++int rtw_usb_clear_halt(struct usb_device *dev, struct usb_host_endpoint *uhe);
++int rtw_usb_control_msg(struct usb_device *dev, struct usb_host_endpoint *uhe,
++    uint8_t request, uint8_t requesttype,
++    uint16_t value, uint16_t index, void *data,
++    uint16_t size, usb_timeout_t timeout);
++int rtw_usb_set_interface(struct usb_device *dev, uint8_t iface_no, uint8_t alt_index);
++int rtw_usb_setup_endpoint(struct usb_device *dev,
++    struct usb_host_endpoint *uhe, usb_size_t bufsize);
++struct urb *rtw_usb_alloc_urb(uint16_t iso_packets, uint16_t mem_flags);
++struct usb_host_endpoint *rtw_usb_find_host_endpoint(struct usb_device *dev, uint8_t type, uint8_t ep);
++struct usb_host_interface *rtw_usb_altnum_to_altsetting(const struct usb_interface *intf, uint8_t alt_index);
++struct usb_interface *rtw_usb_ifnum_to_if(struct usb_device *dev, uint8_t iface_no);
++void *rtw_usbd_get_intfdata(struct usb_interface *intf);
++void rtw_usb_linux_register(void *arg);
++void rtw_usb_linux_deregister(void *arg);
++void rtw_usb_linux_free_device(struct usb_device *dev);
++void rtw_usb_free_urb(struct urb *urb);
++void rtw_usb_init_urb(struct urb *urb);
++void rtw_usb_kill_urb(struct urb *urb);
++void rtw_usb_set_intfdata(struct usb_interface *intf, void *data);
++void rtw_usb_fill_bulk_urb(struct urb *urb, struct usb_device *udev,
++    struct usb_host_endpoint *uhe, void *buf,
++    int length, usb_complete_t callback, void *arg);
++int rtw_usb_bulk_msg(struct usb_device *udev, struct usb_host_endpoint *uhe,
++    void *data, int len, uint16_t *pactlen, usb_timeout_t timeout);
++void *usb_get_intfdata(struct usb_interface *intf);
++int usb_linux_init_endpoints(struct usb_device *udev);
++
++
++
++typedef struct urb *  PURB;
++
++typedef unsigned gfp_t;
++#define __GFP_WAIT      ((gfp_t)0x10u)  /* Can wait and reschedule? */
++#define __GFP_HIGH      ((gfp_t)0x20u)  /* Should access emergency pools? */
++#define __GFP_IO        ((gfp_t)0x40u)  /* Can start physical IO? */
++#define __GFP_FS        ((gfp_t)0x80u)  /* Can call down to low-level FS? */
++#define __GFP_COLD      ((gfp_t)0x100u) /* Cache-cold page required */
++#define __GFP_NOWARN    ((gfp_t)0x200u) /* Suppress page allocation failure warning */
++#define __GFP_REPEAT    ((gfp_t)0x400u) /* Retry the allocation.  Might fail */
++#define __GFP_NOFAIL    ((gfp_t)0x800u) /* Retry for ever.  Cannot fail */
++#define __GFP_NORETRY   ((gfp_t)0x1000u)/* Do not retry.  Might fail */
++#define __GFP_NO_GROW   ((gfp_t)0x2000u)/* Slab internal usage */
++#define __GFP_COMP      ((gfp_t)0x4000u)/* Add compound page metadata */
++#define __GFP_ZERO      ((gfp_t)0x8000u)/* Return zeroed page on success */
++#define __GFP_NOMEMALLOC ((gfp_t)0x10000u) /* Don't use emergency reserves */
++#define __GFP_HARDWALL   ((gfp_t)0x20000u) /* Enforce hardwall cpuset memory allocs */
++
++/* This equals 0, but use constants in case they ever change */
++#define GFP_NOWAIT      (GFP_ATOMIC & ~__GFP_HIGH)
++/* GFP_ATOMIC means both !wait (__GFP_WAIT not set) and use emergency pool */
++#define GFP_ATOMIC      (__GFP_HIGH)
++#define GFP_NOIO        (__GFP_WAIT)
++#define GFP_NOFS        (__GFP_WAIT | __GFP_IO)
++#define GFP_KERNEL      (__GFP_WAIT | __GFP_IO | __GFP_FS)
++#define GFP_USER        (__GFP_WAIT | __GFP_IO | __GFP_FS | __GFP_HARDWALL)
++#define GFP_HIGHUSER    (__GFP_WAIT | __GFP_IO | __GFP_FS | __GFP_HARDWALL | \
++                         __GFP_HIGHMEM)
++
++
++#endif // kenny add Linux compatibility code for Linux USB
++
++__inline static _list *get_next(_list	*list)
++{
++	return list->next;
++}	
++
++__inline static _list	*get_list_head(_queue	*queue)
++{
++	return (&(queue->queue));
++}
++
++	
++#define LIST_CONTAINOR(ptr, type, member) \
++        ((type *)((char *)(ptr)-(SIZE_T)(&((type *)0)->member)))	
++
++        
++__inline static void _enter_critical(_lock *plock, _irqL *pirqL)
++{
++	spin_lock_irqsave(plock, *pirqL);
++}
++
++__inline static void _exit_critical(_lock *plock, _irqL *pirqL)
++{
++	spin_unlock_irqrestore(plock, *pirqL);
++}
++
++__inline static void _enter_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	spin_lock_irqsave(plock, *pirqL);
++}
++
++__inline static void _exit_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	spin_unlock_irqrestore(plock, *pirqL);
++}
++
++__inline static void _enter_critical_bh(_lock *plock, _irqL *pirqL)
++{
++	spin_lock_bh(plock, *pirqL);
++}
++
++__inline static void _exit_critical_bh(_lock *plock, _irqL *pirqL)
++{
++	spin_unlock_bh(plock, *pirqL);
++}
++
++__inline static void _enter_critical_mutex(_mutex *pmutex, _irqL *pirqL)
++{
++
++		mtx_lock(pmutex);
++
++}
++
++
++__inline static void _exit_critical_mutex(_mutex *pmutex, _irqL *pirqL)
++{
++
++		mtx_unlock(pmutex);
++
++}
++static inline void __list_del(struct list_head * prev, struct list_head * next)
++{
++	next->prev = prev;
++	prev->next = next;
++}
++static inline void INIT_LIST_HEAD(struct list_head *list)
++{
++	list->next = list;
++	list->prev = list;
++}
++__inline static void rtw_list_delete(_list *plist)
++{
++	__list_del(plist->prev, plist->next);
++	INIT_LIST_HEAD(plist);
++}
++
++__inline static void _init_timer(_timer *ptimer,_nic_hdl padapter,void *pfunc,void* cntx)
++{
++	ptimer->function = pfunc;
++	ptimer->arg = cntx;
++	callout_init(&ptimer->callout, CALLOUT_MPSAFE);
++}
++
++__inline static void _set_timer(_timer *ptimer,u32 delay_time)
++{	
++	//	mod_timer(ptimer , (jiffies+(delay_time*HZ/1000)));
++	if(ptimer->function && ptimer->arg){
++		rtw_mtx_lock(NULL);
++		callout_reset(&ptimer->callout, delay_time,ptimer->function, ptimer->arg);
++		rtw_mtx_unlock(NULL);
++	}
++}
++
++__inline static void _cancel_timer(_timer *ptimer,u8 *bcancelled)
++{
++	//	del_timer_sync(ptimer); 	
++	//	*bcancelled=  _TRUE;//TRUE ==1; FALSE==0	
++	rtw_mtx_lock(NULL);
++	callout_drain(&ptimer->callout);
++	rtw_mtx_unlock(NULL);
++}
++
++__inline static void _init_workitem(_workitem *pwork, void *pfunc, PVOID cntx)
++{
++	printf("%s Not implement yet! \n",__FUNCTION__);
++}
++
++__inline static void _set_workitem(_workitem *pwork)
++{
++	printf("%s Not implement yet! \n",__FUNCTION__);
++//	schedule_work(pwork);
++}
++
++//
++// Global Mutex: can only be used at PASSIVE level.
++//
++
++#define ACQUIRE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++}
++
++#define RELEASE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++}
++
++#define ATOMIC_INIT(i)  { (i) }
++
++static __inline void thread_enter(char *name);
++
++//Atomic integer operations
++typedef uint32_t ATOMIC_T ;
++
++#define rtw_netdev_priv(netdev) (((struct ifnet *)netdev)->if_softc)
++
++#define rtw_free_netdev(netdev) if_free((netdev))
++
++#define NDEV_FMT "%s"
++#define NDEV_ARG(ndev) ""
++#define ADPT_FMT "%s"
++#define ADPT_ARG(adapter) ""
++#define FUNC_NDEV_FMT "%s"
++#define FUNC_NDEV_ARG(ndev) __func__
++#define FUNC_ADPT_FMT "%s"
++#define FUNC_ADPT_ARG(adapter) __func__
++
++#define STRUCT_PACKED
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/include/osdep_service_ce.h b/drivers/net/wireless/rtl8723du/include/osdep_service_ce.h
+new file mode 100644
+index 0000000..04c5b18
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/osdep_service_ce.h
+@@ -0,0 +1,192 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __OSDEP_CE_SERVICE_H_
++#define __OSDEP_CE_SERVICE_H_
++
++
++#include <ndis.h>
++#include <ntddndis.h>
++
++#ifdef CONFIG_SDIO_HCI
++#include "SDCardDDK.h"
++#endif
++
++#ifdef CONFIG_USB_HCI
++#include <usbdi.h>
++#endif
++
++typedef HANDLE 	_sema;
++typedef	LIST_ENTRY	_list;
++typedef NDIS_STATUS _OS_STATUS;
++
++typedef NDIS_SPIN_LOCK	_lock;
++
++typedef HANDLE 		_rwlock; //Mutex
++
++typedef u32	_irqL;
++
++typedef NDIS_HANDLE  _nic_hdl;
++
++
++typedef NDIS_MINIPORT_TIMER    _timer;
++
++struct	__queue	{
++	LIST_ENTRY	queue;
++	_lock	lock;
++};
++
++typedef	NDIS_PACKET	_pkt;
++typedef NDIS_BUFFER	_buffer;
++typedef struct	__queue	_queue;
++
++typedef HANDLE 	_thread_hdl_;
++typedef DWORD thread_return;
++typedef void*	thread_context;
++typedef NDIS_WORK_ITEM _workitem;
++
++#define thread_exit() ExitThread(STATUS_SUCCESS); return 0;
++
++
++#define SEMA_UPBND	(0x7FFFFFFF)   //8192
++
++__inline static _list *get_prev(_list	*list)
++{
++	return list->Blink;
++}
++	
++__inline static _list *get_next(_list	*list)
++{
++	return list->Flink;
++}
++
++__inline static _list	*get_list_head(_queue	*queue)
++{
++	return (&(queue->queue));
++}
++
++#define LIST_CONTAINOR(ptr, type, member) CONTAINING_RECORD(ptr, type, member)
++
++__inline static void _enter_critical(_lock *plock, _irqL *pirqL)
++{
++	NdisAcquireSpinLock(plock);
++}
++
++__inline static void _exit_critical(_lock *plock, _irqL *pirqL)
++{
++	NdisReleaseSpinLock(plock);
++}
++
++__inline static _enter_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	NdisDprAcquireSpinLock(plock);	
++}
++
++__inline static _exit_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	NdisDprReleaseSpinLock(plock);	
++}
++
++
++__inline static void _enter_hwio_critical(_rwlock *prwlock, _irqL *pirqL)
++{
++	WaitForSingleObject(*prwlock, INFINITE );
++
++}
++
++__inline static void _exit_hwio_critical(_rwlock *prwlock, _irqL *pirqL)
++{
++	ReleaseMutex(*prwlock);
++}
++
++__inline static void rtw_list_delete(_list *plist)
++{
++	RemoveEntryList(plist);
++	InitializeListHead(plist);
++}
++
++#define RTW_TIMER_HDL_ARGS IN PVOID SystemSpecific1, IN PVOID FunctionContext, IN PVOID SystemSpecific2, IN PVOID SystemSpecific3
++
++__inline static void _init_timer(_timer *ptimer,_nic_hdl nic_hdl,void *pfunc,PVOID cntx)
++{
++	NdisMInitializeTimer(ptimer, nic_hdl, pfunc, cntx);
++}
++
++__inline static void _set_timer(_timer *ptimer,u32 delay_time)
++{
++ 	NdisMSetTimer(ptimer,delay_time);
++}
++
++__inline static void _cancel_timer(_timer *ptimer,u8 *bcancelled)
++{
++	NdisMCancelTimer(ptimer,bcancelled);
++}
++
++__inline static void _init_workitem(_workitem *pwork, void *pfunc, PVOID cntx)
++{
++
++	NdisInitializeWorkItem(pwork, pfunc, cntx);
++}
++
++__inline static void _set_workitem(_workitem *pwork)
++{
++	NdisScheduleWorkItem(pwork);
++}
++
++#define ATOMIC_INIT(i)  { (i) }
++
++//
++// Global Mutex: can only be used at PASSIVE level.
++//
++
++#define ACQUIRE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++    while (NdisInterlockedIncrement((PULONG)&(_MutexCounter)) != 1)\
++    {                                                           \
++        NdisInterlockedDecrement((PULONG)&(_MutexCounter));        \
++        NdisMSleep(10000);                          \
++    }                                                           \
++}
++
++#define RELEASE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++    NdisInterlockedDecrement((PULONG)&(_MutexCounter));              \
++}
++
++// limitation of path length
++#define PATH_LENGTH_MAX MAX_PATH
++
++//Atomic integer operations
++#define ATOMIC_T LONG
++
++#define NDEV_FMT "%s"
++#define NDEV_ARG(ndev) ""
++#define ADPT_FMT "%s"
++#define ADPT_ARG(adapter) ""
++#define FUNC_NDEV_FMT "%s"
++#define FUNC_NDEV_ARG(ndev) __func__
++#define FUNC_ADPT_FMT "%s"
++#define FUNC_ADPT_ARG(adapter) __func__
++
++#define STRUCT_PACKED
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/include/osdep_service_linux.h b/drivers/net/wireless/rtl8723du/include/osdep_service_linux.h
+new file mode 100644
+index 0000000..e951b1b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/osdep_service_linux.h
+@@ -0,0 +1,440 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __OSDEP_LINUX_SERVICE_H_
++#define __OSDEP_LINUX_SERVICE_H_
++
++#include <linux/version.h>
++#include <linux/spinlock.h>
++#include <linux/compiler.h>
++#include <linux/kernel.h>
++#include <linux/errno.h>
++#include <linux/init.h>
++#include <linux/slab.h>
++#include <linux/module.h>
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 5))
++	#include <linux/kref.h>
++#endif
++/* #include <linux/smp_lock.h> */
++#include <linux/netdevice.h>
++#include <linux/skbuff.h>
++#include <linux/circ_buf.h>
++#include <asm/uaccess.h>
++#include <asm/byteorder.h>
++#include <asm/atomic.h>
++#include <asm/io.h>
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 26))
++	#include <asm/semaphore.h>
++#else
++	#include <linux/semaphore.h>
++#endif
++#include <linux/sem.h>
++#include <linux/sched.h>
++#include <linux/etherdevice.h>
++#include <linux/wireless.h>
++#include <net/iw_handler.h>
++#include <linux/if_arp.h>
++#include <linux/rtnetlink.h>
++#include <linux/delay.h>
++#include <linux/interrupt.h>	/* for struct tasklet_struct */
++#include <linux/ip.h>
++#include <linux/kthread.h>
++#include <linux/list.h>
++#include <linux/vmalloc.h>
++
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 5, 41))
++	#include <linux/tqueue.h>
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 7, 0))
++	#include <uapi/linux/limits.h>
++#else
++	#include <linux/limits.h>
++#endif
++
++#ifdef RTK_DMP_PLATFORM
++	#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 12))
++		#include <linux/pageremap.h>
++	#endif
++	#include <asm/io.h>
++#endif
++
++#ifdef CONFIG_NET_RADIO
++	#define CONFIG_WIRELESS_EXT
++#endif
++
++/* Monitor mode */
++#include <net/ieee80211_radiotap.h>
++#include <linux/ieee80211.h>
++#ifdef CONFIG_IOCTL_CFG80211
++	/*	#include <linux/ieee80211.h> */
++	#include <net/cfg80211.h>
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
++	#include <linux/in.h>
++	#include <linux/udp.h>
++#endif
++
++#ifdef CONFIG_HAS_EARLYSUSPEND
++	#include <linux/earlysuspend.h>
++#endif /* CONFIG_HAS_EARLYSUSPEND */
++
++#ifdef CONFIG_EFUSE_CONFIG_FILE
++	#include <linux/fs.h>
++#endif
++
++#ifdef CONFIG_USB_HCI
++	#include <linux/usb.h>
++	#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 21))
++		#include <linux/usb_ch9.h>
++	#else
++		#include <linux/usb/ch9.h>
++	#endif
++#endif
++
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	#include <net/sock.h>
++	#include <net/tcp.h>
++	#include <linux/udp.h>
++	#include <linux/in.h>
++	#include <linux/netlink.h>
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++
++#ifdef CONFIG_USB_HCI
++	typedef struct urb   *PURB;
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 22))
++		#ifdef CONFIG_USB_SUSPEND
++			#define CONFIG_AUTOSUSPEND	1
++		#endif
++	#endif
++#endif
++
++#if defined(CONFIG_RTW_GRO) && (!defined(CONFIG_RTW_NAPI))
++
++	#error "Enable NAPI before enable GRO\n"
++
++#elif (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,29) && defined(CONFIG_RTW_NAPI))
++
++	#error "Linux Kernel version too old (should newer than 2.6.29)\n"
++
++#endif
++
++
++typedef struct	semaphore _sema;
++typedef	spinlock_t	_lock;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37))
++	typedef struct mutex		_mutex;
++#else
++	typedef struct semaphore	_mutex;
++#endif
++typedef struct timer_list _timer;
++
++struct	__queue	{
++	struct	list_head	queue;
++	_lock	lock;
++};
++
++typedef	struct sk_buff	_pkt;
++typedef unsigned char	_buffer;
++
++typedef struct	__queue	_queue;
++typedef struct	list_head	_list;
++typedef	int	_OS_STATUS;
++/* typedef u32	_irqL; */
++typedef unsigned long _irqL;
++typedef	struct	net_device *_nic_hdl;
++
++typedef void		*_thread_hdl_;
++typedef int		thread_return;
++typedef void	*thread_context;
++
++#define thread_exit() complete_and_exit(NULL, 0)
++
++typedef void timer_hdl_return;
++typedef void *timer_hdl_context;
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 5, 41))
++	typedef struct work_struct _workitem;
++#else
++	typedef struct tq_struct _workitem;
++#endif
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 24))
++	#define DMA_BIT_MASK(n) (((n) == 64) ? ~0ULL : ((1ULL<<(n))-1))
++#endif
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 22))
++/* Porting from linux kernel, for compatible with old kernel. */
++static inline unsigned char *skb_tail_pointer(const struct sk_buff *skb)
++{
++	return skb->tail;
++}
++
++static inline void skb_reset_tail_pointer(struct sk_buff *skb)
++{
++	skb->tail = skb->data;
++}
++
++static inline void skb_set_tail_pointer(struct sk_buff *skb, const int offset)
++{
++	skb->tail = skb->data + offset;
++}
++
++static inline unsigned char *skb_end_pointer(const struct sk_buff *skb)
++{
++	return skb->end;
++}
++#endif
++
++__inline static _list *get_next(_list	*list)
++{
++	return list->next;
++}
++
++__inline static _list	*get_list_head(_queue	*queue)
++{
++	return &(queue->queue);
++}
++
++
++#define LIST_CONTAINOR(ptr, type, member) \
++	((type *)((char *)(ptr)-(SIZE_T)(&((type *)0)->member)))
++
++
++__inline static void _enter_critical(_lock *plock, _irqL *pirqL)
++{
++	spin_lock_irqsave(plock, *pirqL);
++}
++
++__inline static void _exit_critical(_lock *plock, _irqL *pirqL)
++{
++	spin_unlock_irqrestore(plock, *pirqL);
++}
++
++__inline static void _enter_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	spin_lock_irqsave(plock, *pirqL);
++}
++
++__inline static void _exit_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	spin_unlock_irqrestore(plock, *pirqL);
++}
++
++__inline static void _enter_critical_bh(_lock *plock, _irqL *pirqL)
++{
++	spin_lock_bh(plock);
++}
++
++__inline static void _exit_critical_bh(_lock *plock, _irqL *pirqL)
++{
++	spin_unlock_bh(plock);
++}
++
++__inline static int _enter_critical_mutex(_mutex *pmutex, _irqL *pirqL)
++{
++	int ret = 0;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37))
++	/* mutex_lock(pmutex); */
++	ret = mutex_lock_interruptible(pmutex);
++#else
++	ret = down_interruptible(pmutex);
++#endif
++	return ret;
++}
++
++
++__inline static void _exit_critical_mutex(_mutex *pmutex, _irqL *pirqL)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37))
++	mutex_unlock(pmutex);
++#else
++	up(pmutex);
++#endif
++}
++
++__inline static void rtw_list_delete(_list *plist)
++{
++	list_del_init(plist);
++}
++
++#define RTW_TIMER_HDL_ARGS void *FunctionContext
++
++__inline static void _init_timer(_timer *ptimer, _nic_hdl nic_hdl, void *pfunc, void *cntx)
++{
++	/* setup_timer(ptimer, pfunc,(u32)cntx);	 */
++	ptimer->function = pfunc;
++	ptimer->data = (unsigned long)cntx;
++	init_timer(ptimer);
++}
++
++__inline static void _set_timer(_timer *ptimer, u32 delay_time)
++{
++	mod_timer(ptimer , (jiffies + (delay_time * HZ / 1000)));
++}
++
++__inline static void _cancel_timer(_timer *ptimer, u8 *bcancelled)
++{
++	del_timer_sync(ptimer);
++	*bcancelled = 1;
++}
++
++
++static inline void _init_workitem(_workitem *pwork, void *pfunc, void *cntx)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 20))
++	INIT_WORK(pwork, pfunc);
++#elif (LINUX_VERSION_CODE > KERNEL_VERSION(2, 5, 41))
++	INIT_WORK(pwork, pfunc, pwork);
++#else
++	INIT_TQUEUE(pwork, pfunc, pwork);
++#endif
++}
++
++__inline static void _set_workitem(_workitem *pwork)
++{
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 5, 41))
++	schedule_work(pwork);
++#else
++	schedule_task(pwork);
++#endif
++}
++
++__inline static void _cancel_workitem_sync(_workitem *pwork)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 22))
++	cancel_work_sync(pwork);
++#elif (LINUX_VERSION_CODE > KERNEL_VERSION(2, 5, 41))
++	flush_scheduled_work();
++#else
++	flush_scheduled_tasks();
++#endif
++}
++/*
++ * Global Mutex: can only be used at PASSIVE level.
++ *   */
++
++#define ACQUIRE_GLOBAL_MUTEX(_MutexCounter)                              \
++	{                                                               \
++		while (atomic_inc_return((atomic_t *)&(_MutexCounter)) != 1) { \
++			atomic_dec((atomic_t *)&(_MutexCounter));        \
++			msleep(10);                          \
++		}                                                           \
++	}
++
++#define RELEASE_GLOBAL_MUTEX(_MutexCounter)                              \
++	{                                                               \
++		atomic_dec((atomic_t *)&(_MutexCounter));        \
++	}
++
++static inline int rtw_netif_queue_stopped(struct net_device *pnetdev)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	return (netif_tx_queue_stopped(netdev_get_tx_queue(pnetdev, 0)) &&
++		netif_tx_queue_stopped(netdev_get_tx_queue(pnetdev, 1)) &&
++		netif_tx_queue_stopped(netdev_get_tx_queue(pnetdev, 2)) &&
++		netif_tx_queue_stopped(netdev_get_tx_queue(pnetdev, 3)));
++#else
++	return netif_queue_stopped(pnetdev);
++#endif
++}
++
++static inline void rtw_netif_wake_queue(struct net_device *pnetdev)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	netif_tx_wake_all_queues(pnetdev);
++#else
++	netif_wake_queue(pnetdev);
++#endif
++}
++
++static inline void rtw_netif_start_queue(struct net_device *pnetdev)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	netif_tx_start_all_queues(pnetdev);
++#else
++	netif_start_queue(pnetdev);
++#endif
++}
++
++static inline void rtw_netif_stop_queue(struct net_device *pnetdev)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	netif_tx_stop_all_queues(pnetdev);
++#else
++	netif_stop_queue(pnetdev);
++#endif
++}
++static inline void rtw_netif_carrier_on(struct net_device *pnetdev)
++{
++	netif_device_attach(pnetdev);
++	netif_carrier_on(pnetdev);
++}
++static inline int rtw_merge_string(char *dst, int dst_len, const char *src1, const char *src2)
++{
++	int	len = 0;
++	len += snprintf(dst + len, dst_len - len, "%s", src1);
++	len += snprintf(dst + len, dst_len - len, "%s", src2);
++
++	return len;
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 27))
++	#define rtw_signal_process(pid, sig) kill_pid(find_vpid((pid)), (sig), 1)
++#else /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 27)) */
++	#define rtw_signal_process(pid, sig) kill_proc((pid), (sig), 1)
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 27)) */
++
++
++/* Suspend lock prevent system from going suspend */
++#ifdef CONFIG_WAKELOCK
++	#include <linux/wakelock.h>
++#elif defined(CONFIG_ANDROID_POWER)
++	#include <linux/android_power.h>
++#endif
++
++/* limitation of path length */
++#define PATH_LENGTH_MAX PATH_MAX
++
++/* Atomic integer operations */
++#define ATOMIC_T atomic_t
++
++#define rtw_netdev_priv(netdev) (((struct rtw_netdev_priv_indicator *)netdev_priv(netdev))->priv)
++
++#define NDEV_FMT "%s"
++#define NDEV_ARG(ndev) ndev->name
++#define ADPT_FMT "%s"
++#define ADPT_ARG(adapter) adapter->pnetdev->name
++#define FUNC_NDEV_FMT "%s(%s)"
++#define FUNC_NDEV_ARG(ndev) __func__, ndev->name
++#define FUNC_ADPT_FMT "%s(%s)"
++#define FUNC_ADPT_ARG(adapter) __func__, adapter->pnetdev->name
++
++struct rtw_netdev_priv_indicator {
++	void *priv;
++	u32 sizeof_priv;
++};
++struct net_device *rtw_alloc_etherdev_with_old_priv(int sizeof_priv, void *old_priv);
++extern struct net_device *rtw_alloc_etherdev(int sizeof_priv);
++
++#define STRUCT_PACKED __attribute__ ((packed))
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/osdep_service_xp.h b/drivers/net/wireless/rtl8723du/include/osdep_service_xp.h
+new file mode 100644
+index 0000000..45d54af
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/osdep_service_xp.h
+@@ -0,0 +1,202 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __OSDEP_LINUX_SERVICE_H_
++#define __OSDEP_LINUX_SERVICE_H_
++
++	#include <ndis.h>
++	#include <ntddk.h>
++	#include <ntddndis.h>
++	#include <ntdef.h>
++
++#ifdef CONFIG_USB_HCI
++	#include <usb.h>
++	#include <usbioctl.h>
++	#include <usbdlib.h>
++#endif
++
++	typedef KSEMAPHORE 	_sema;
++	typedef	LIST_ENTRY	_list;
++	typedef NDIS_STATUS _OS_STATUS;
++	
++
++	typedef NDIS_SPIN_LOCK	_lock;
++
++	typedef KMUTEX 			_mutex;
++
++	typedef KIRQL	_irqL;
++
++	// USB_PIPE for WINCE , but handle can be use just integer under windows
++	typedef NDIS_HANDLE  _nic_hdl;
++
++
++	typedef NDIS_MINIPORT_TIMER    _timer;
++
++	struct	__queue	{
++		LIST_ENTRY	queue;	
++		_lock	lock;
++	};
++
++	typedef	NDIS_PACKET	_pkt;
++	typedef NDIS_BUFFER	_buffer;
++	typedef struct	__queue	_queue;
++	
++	typedef PKTHREAD _thread_hdl_;
++	typedef void	thread_return;
++	typedef void* thread_context;
++
++	typedef NDIS_WORK_ITEM _workitem;
++
++	#define thread_exit() PsTerminateSystemThread(STATUS_SUCCESS);
++
++	#define HZ			10000000
++	#define SEMA_UPBND	(0x7FFFFFFF)   //8192
++	
++__inline static _list *get_next(_list	*list)
++{
++	return list->Flink;
++}	
++
++__inline static _list	*get_list_head(_queue	*queue)
++{
++	return (&(queue->queue));
++}
++	
++
++#define LIST_CONTAINOR(ptr, type, member) CONTAINING_RECORD(ptr, type, member)
++     
++
++__inline static _enter_critical(_lock *plock, _irqL *pirqL)
++{
++	NdisAcquireSpinLock(plock);	
++}
++
++__inline static _exit_critical(_lock *plock, _irqL *pirqL)
++{
++	NdisReleaseSpinLock(plock);	
++}
++
++
++__inline static _enter_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	NdisDprAcquireSpinLock(plock);	
++}
++
++__inline static _exit_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	NdisDprReleaseSpinLock(plock);	
++}
++
++__inline static void _enter_critical_bh(_lock *plock, _irqL *pirqL)
++{
++	NdisDprAcquireSpinLock(plock);
++}
++
++__inline static void _exit_critical_bh(_lock *plock, _irqL *pirqL)
++{
++	NdisDprReleaseSpinLock(plock);
++}
++
++__inline static _enter_critical_mutex(_mutex *pmutex, _irqL *pirqL)
++{
++	KeWaitForSingleObject(pmutex, Executive, KernelMode, FALSE, NULL);
++}
++
++
++__inline static _exit_critical_mutex(_mutex *pmutex, _irqL *pirqL)
++{
++	KeReleaseMutex(pmutex, FALSE);
++}
++
++
++__inline static void rtw_list_delete(_list *plist)
++{
++	RemoveEntryList(plist);
++	InitializeListHead(plist);	
++}
++
++#define RTW_TIMER_HDL_ARGS IN PVOID SystemSpecific1, IN PVOID FunctionContext, IN PVOID SystemSpecific2, IN PVOID SystemSpecific3
++
++__inline static void _init_timer(_timer *ptimer,_nic_hdl nic_hdl,void *pfunc,PVOID cntx)
++{
++	NdisMInitializeTimer(ptimer, nic_hdl, pfunc, cntx);
++}
++
++__inline static void _set_timer(_timer *ptimer,u32 delay_time)
++{	
++ 	NdisMSetTimer(ptimer,delay_time);	
++}
++
++__inline static void _cancel_timer(_timer *ptimer,u8 *bcancelled)
++{
++	NdisMCancelTimer(ptimer,bcancelled);
++}
++
++__inline static void _init_workitem(_workitem *pwork, void *pfunc, PVOID cntx)
++{
++
++	NdisInitializeWorkItem(pwork, pfunc, cntx);
++}
++
++__inline static void _set_workitem(_workitem *pwork)
++{
++	NdisScheduleWorkItem(pwork);
++}
++
++
++#define ATOMIC_INIT(i)  { (i) }
++
++//
++// Global Mutex: can only be used at PASSIVE level.
++//
++
++#define ACQUIRE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++    while (NdisInterlockedIncrement((PULONG)&(_MutexCounter)) != 1)\
++    {                                                           \
++        NdisInterlockedDecrement((PULONG)&(_MutexCounter));        \
++        NdisMSleep(10000);                          \
++    }                                                           \
++}
++
++#define RELEASE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++    NdisInterlockedDecrement((PULONG)&(_MutexCounter));              \
++}
++
++// limitation of path length
++#define PATH_LENGTH_MAX MAX_PATH
++
++//Atomic integer operations
++#define ATOMIC_T LONG
++
++
++#define NDEV_FMT "%s"
++#define NDEV_ARG(ndev) ""
++#define ADPT_FMT "%s"
++#define ADPT_ARG(adapter) ""
++#define FUNC_NDEV_FMT "%s"
++#define FUNC_NDEV_ARG(ndev) __func__
++#define FUNC_ADPT_FMT "%s"
++#define FUNC_ADPT_ARG(adapter) __func__
++
++#define STRUCT_PACKED
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8723du/include/pci_hal.h b/drivers/net/wireless/rtl8723du/include/pci_hal.h
+new file mode 100644
+index 0000000..8aa1a56
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/pci_hal.h
+@@ -0,0 +1,53 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __PCI_HAL_H__
++#define __PCI_HAL_H__
++
++#ifdef CONFIG_RTL8188E
++	void rtl8188ee_set_hal_ops(_adapter *padapter);
++#endif
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++	void rtl8812ae_set_hal_ops(_adapter *padapter);
++#endif
++
++#if defined(CONFIG_RTL8192E)
++	void rtl8192ee_set_hal_ops(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_RTL8723B
++	void rtl8723be_set_hal_ops(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_RTL8723D
++	void rtl8723de_set_hal_ops(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_RTL8814A
++	void rtl8814ae_set_hal_ops(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_RTL8822B
++	void rtl8822be_set_hal_ops(PADAPTER padapter);
++#endif
++
++u8 rtw_set_hal_ops(_adapter *padapter);
++
++#endif /* __PCIE_HAL_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/pci_ops.h b/drivers/net/wireless/rtl8723du/include/pci_ops.h
+new file mode 100644
+index 0000000..bef8237
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/pci_ops.h
+@@ -0,0 +1,92 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __PCI_OPS_H_
++#define __PCI_OPS_H_
++
++
++#ifdef CONFIG_RTL8188E
++	u32	rtl8188ee_init_desc_ring(_adapter *padapter);
++	u32	rtl8188ee_free_desc_ring(_adapter *padapter);
++	void	rtl8188ee_reset_desc_ring(_adapter *padapter);
++	int	rtl8188ee_interrupt(PADAPTER Adapter);
++	void	rtl8188ee_xmit_tasklet(void *priv);
++	void	rtl8188ee_recv_tasklet(void *priv);
++	void	rtl8188ee_prepare_bcn_tasklet(void *priv);
++	void	rtl8188ee_set_intf_ops(struct _io_ops	*pops);
++#endif
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++	u32	rtl8812ae_init_desc_ring(_adapter *padapter);
++	u32	rtl8812ae_free_desc_ring(_adapter *padapter);
++	void	rtl8812ae_reset_desc_ring(_adapter *padapter);
++	int	rtl8812ae_interrupt(PADAPTER Adapter);
++	void	rtl8812ae_xmit_tasklet(void *priv);
++	void	rtl8812ae_recv_tasklet(void *priv);
++	void	rtl8812ae_prepare_bcn_tasklet(void *priv);
++	void	rtl8812ae_set_intf_ops(struct _io_ops	*pops);
++#endif
++
++#ifdef CONFIG_RTL8192E
++	u32	rtl8192ee_init_desc_ring(_adapter *padapter);
++	u32	rtl8192ee_free_desc_ring(_adapter *padapter);
++	void	rtl8192ee_reset_desc_ring(_adapter *padapter);
++	void	rtl8192ee_recv_tasklet(void *priv);
++	void	rtl8192ee_prepare_bcn_tasklet(void *priv);
++	int	rtl8192ee_interrupt(PADAPTER Adapter);
++	void	rtl8192ee_set_intf_ops(struct _io_ops	*pops);
++#endif
++
++#ifdef CONFIG_RTL8723B
++	u32	rtl8723be_init_desc_ring(_adapter *padapter);
++	u32	rtl8723be_free_desc_ring(_adapter *padapter);
++	void	rtl8723be_reset_desc_ring(_adapter *padapter);
++	int	rtl8723be_interrupt(PADAPTER Adapter);
++	void	rtl8723be_recv_tasklet(void *priv);
++	void	rtl8723be_prepare_bcn_tasklet(void *priv);
++	void	rtl8723be_set_intf_ops(struct _io_ops	*pops);
++#endif
++
++#ifdef CONFIG_RTL8723D
++	u32	rtl8723de_init_desc_ring(_adapter *padapter);
++	u32	rtl8723de_free_desc_ring(_adapter *padapter);
++	void	rtl8723de_reset_desc_ring(_adapter *padapter);
++	int	rtl8723de_interrupt(PADAPTER Adapter);
++	void	rtl8723de_recv_tasklet(void *priv);
++	void	rtl8723de_prepare_bcn_tasklet(void *priv);
++	void	rtl8723de_set_intf_ops(struct _io_ops	*pops);
++	u8 check_tx_desc_resource(_adapter *padapter, int prio);
++#endif
++
++#ifdef CONFIG_RTL8814A
++	u32	rtl8814ae_init_desc_ring(_adapter *padapter);
++	u32	rtl8814ae_free_desc_ring(_adapter *padapter);
++	void	rtl8814ae_reset_desc_ring(_adapter *padapter);
++	int	rtl8814ae_interrupt(PADAPTER Adapter);
++	void	rtl8814ae_xmit_tasklet(void *priv);
++	void	rtl8814ae_recv_tasklet(void *priv);
++	void	rtl8814ae_prepare_bcn_tasklet(void *priv);
++	void	rtl8814ae_set_intf_ops(struct _io_ops	*pops);
++#endif
++
++#ifdef CONFIG_RTL8822B
++	void rtl8822be_set_intf_ops(struct _io_ops *pops);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/pci_osintf.h b/drivers/net/wireless/rtl8723du/include/pci_osintf.h
+new file mode 100644
+index 0000000..286bcdd
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/pci_osintf.h
+@@ -0,0 +1,42 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __PCI_OSINTF_H
++#define __PCI_OSINTF_H
++
++#ifdef RTK_129X_PLATFORM
++#define PCIE_SLOT1_MEM_START	0x9804F000
++#define PCIE_SLOT1_MEM_LEN	0x1000
++#define PCIE_SLOT1_MASK		0x9804ED00
++
++#define PCIE_SLOT2_MEM_START	0x9803C000
++#define PCIE_SLOT2_MEM_LEN	0x1000
++#define PCIE_SLOT2_MASK		0x9803BD00
++
++#define PCIE_TRANSLATE_OFFSET   4 /* offset from MASK reg */
++#endif
++
++void	rtw_pci_disable_aspm(_adapter *padapter);
++void	rtw_pci_enable_aspm(_adapter *padapter);
++void	PlatformClearPciPMEStatus(PADAPTER Adapter);
++#ifdef CONFIG_64BIT_DMA
++	u8	PlatformEnableDMA64(PADAPTER Adapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/recv_osdep.h b/drivers/net/wireless/rtl8723du/include/recv_osdep.h
+new file mode 100644
+index 0000000..604875d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/recv_osdep.h
+@@ -0,0 +1,61 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RECV_OSDEP_H_
++#define __RECV_OSDEP_H_
++
++
++extern sint _rtw_init_recv_priv(struct recv_priv *precvpriv, _adapter *padapter);
++extern void _rtw_free_recv_priv(struct recv_priv *precvpriv);
++
++
++extern s32  rtw_recv_entry(union recv_frame *precv_frame);
++extern int rtw_recv_indicatepkt(_adapter *adapter, union recv_frame *precv_frame);
++extern void rtw_recv_returnpacket(IN _nic_hdl cnxt, IN _pkt *preturnedpkt);
++
++extern int rtw_recv_monitor(_adapter *padapter, union recv_frame *precv_frame);
++
++extern void rtw_hostapd_mlme_rx(_adapter *padapter, union recv_frame *precv_frame);
++
++struct sta_info;
++extern void rtw_handle_tkip_mic_err(_adapter *padapter, struct sta_info *sta, u8 bgroup);
++
++
++int rtw_os_recv_resource_init(struct recv_priv *precvpriv, _adapter *padapter);
++int rtw_os_recv_resource_alloc(_adapter *padapter, union recv_frame *precvframe);
++void rtw_os_recv_resource_free(struct recv_priv *precvpriv);
++
++
++int rtw_os_alloc_recvframe(_adapter *padapter, union recv_frame *precvframe, u8 *pdata, _pkt *pskb);
++int rtw_os_recvframe_duplicate_skb(_adapter *padapter, union recv_frame *pcloneframe, _pkt *pskb);
++void rtw_os_free_recvframe(union recv_frame *precvframe);
++
++
++int rtw_os_recvbuf_resource_alloc(_adapter *padapter, struct recv_buf *precvbuf);
++int rtw_os_recvbuf_resource_free(_adapter *padapter, struct recv_buf *precvbuf);
++
++_pkt *rtw_os_alloc_msdu_pkt(union recv_frame *prframe, u16 nSubframe_Length, u8 *pdata);
++void rtw_os_recv_indicate_pkt(_adapter *padapter, _pkt *pkt, struct rx_pkt_attrib *pattrib);
++
++void rtw_os_read_port(_adapter *padapter, struct recv_buf *precvbuf);
++
++void rtw_init_recv_timer(struct recv_reorder_ctrl *preorder_ctrl);
++
++
++#endif /*  */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8188e_cmd.h b/drivers/net/wireless/rtl8723du/include/rtl8188e_cmd.h
+new file mode 100644
+index 0000000..a3d6e01
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8188e_cmd.h
+@@ -0,0 +1,179 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188E_CMD_H__
++#define __RTL8188E_CMD_H__
++
++#if 0
++enum cmd_msg_element_id {
++	NONE_CMDMSG_EID,
++	AP_OFFLOAD_EID = 0,
++	SET_PWRMODE_EID = 1,
++	JOINBSS_RPT_EID = 2,
++	RSVD_PAGE_EID = 3,
++	RSSI_4_EID = 4,
++	RSSI_SETTING_EID = 5,
++	MACID_CONFIG_EID = 6,
++	MACID_PS_MODE_EID = 7,
++	P2P_PS_OFFLOAD_EID = 8,
++	SELECTIVE_SUSPEND_ROF_CMD = 9,
++	P2P_PS_CTW_CMD_EID = 32,
++	MAX_CMDMSG_EID
++};
++#else
++typedef enum _RTL8188E_H2C_CMD_ID {
++	/* Class Common */
++	H2C_COM_RSVD_PAGE			= 0x00,
++	H2C_COM_MEDIA_STATUS_RPT	= 0x01,
++	H2C_COM_SCAN					= 0x02,
++	H2C_COM_KEEP_ALIVE			= 0x03,
++	H2C_COM_DISCNT_DECISION		= 0x04,
++#ifndef CONFIG_WOWLAN
++	H2C_COM_WWLAN				= 0x05,
++#endif
++	H2C_COM_INIT_OFFLOAD			= 0x06,
++	H2C_COM_REMOTE_WAKE_CTL	= 0x07,
++	H2C_COM_AP_OFFLOAD			= 0x08,
++	H2C_COM_BCN_RSVD_PAGE		= 0x09,
++	H2C_COM_PROB_RSP_RSVD_PAGE	= 0x0A,
++
++	/* Class PS */
++	H2C_PS_PWR_MODE				= 0x20,
++	H2C_PS_TUNE_PARA				= 0x21,
++	H2C_PS_TUNE_PARA_2			= 0x22,
++	H2C_PS_LPS_PARA				= 0x23,
++	H2C_PS_P2P_OFFLOAD			= 0x24,
++
++	/* Class DM */
++	H2C_DM_MACID_CFG				= 0x40,
++	H2C_DM_TXBF					= 0x41,
++	H2C_RSSI_REPORT				= 0x42,
++	/* Class BT */
++	H2C_BT_COEX_MASK				= 0x60,
++	H2C_BT_COEX_GPIO_MODE		= 0x61,
++	H2C_BT_DAC_SWING_VAL			= 0x62,
++	H2C_BT_PSD_RST				= 0x63,
++
++	/* Class Remote WakeUp */
++#ifdef CONFIG_WOWLAN
++	H2C_COM_WWLAN				= 0x80,
++	H2C_COM_REMOTE_WAKE_CTRL	= 0x81,
++	H2C_COM_AOAC_GLOBAL_INFO	= 0x82,
++	H2C_COM_AOAC_RSVD_PAGE		= 0x83,
++#endif
++
++	/* Class */
++	/* H2C_RESET_TSF				=0xc0, */
++} RTL8188E_H2C_CMD_ID;
++
++#endif
++
++
++struct cmd_msg_parm {
++	u8 eid; /* element id */
++	u8 sz; /* sz */
++	u8 buf[6];
++};
++
++enum {
++	PWRS
++};
++
++typedef struct _SETPWRMODE_PARM {
++	u8 Mode;/* 0:Active,1:LPS,2:WMMPS */
++	/* u8 RLBM:4; */ /* 0:Min,1:Max,2: User define */
++	u8 SmartPS_RLBM;/* LPS=0:PS_Poll,1:PS_Poll,2:NullData,WMM=0:PS_Poll,1:NullData */
++	u8 AwakeInterval;	/* unit: beacon interval */
++	u8 bAllQueueUAPSD;
++	u8 PwrState;/* AllON(0x0c),RFON(0x04),RFOFF(0x00) */
++} SETPWRMODE_PARM, *PSETPWRMODE_PARM;
++
++struct H2C_SS_RFOFF_PARAM {
++	u8 ROFOn; /* 1: on, 0:off */
++	u16 gpio_period; /* unit: 1024 us */
++} __attribute__((packed));
++
++
++typedef struct JOINBSSRPT_PARM_88E {
++	u8 OpMode;	/* RT_MEDIA_STATUS */
++#ifdef CONFIG_WOWLAN
++	u8 MacID;       /* MACID */
++#endif /* CONFIG_WOWLAN */
++} JOINBSSRPT_PARM_88E, *PJOINBSSRPT_PARM_88E;
++
++#if 0
++/* move to hal_com_h2c.h */
++typedef struct _RSVDPAGE_LOC_88E {
++	u8 LocProbeRsp;
++	u8 LocPsPoll;
++	u8 LocNullData;
++	u8 LocQosNull;
++	u8 LocBTQosNull;
++#ifdef CONFIG_WOWLAN
++	u8 LocRemoteCtrlInfo;
++	u8 LocArpRsp;
++	u8 LocNbrAdv;
++	u8 LocGTKRsp;
++	u8 LocGTKInfo;
++	u8 LocProbeReq;
++	u8 LocNetList;
++#endif /* CONFIG_WOWLAN	 */
++} RSVDPAGE_LOC_88E, *PRSVDPAGE_LOC_88E;
++#endif
++
++/* host message to firmware cmd */
++void rtl8188e_set_FwPwrMode_cmd(PADAPTER padapter, u8 Mode);
++void rtl8188e_set_FwJoinBssReport_cmd(PADAPTER padapter, u8 mstatus);
++u8 rtl8188e_set_rssi_cmd(PADAPTER padapter, u8 *param);
++u8 rtl8188e_set_raid_cmd(_adapter *padapter, u32 bitmap, u8 *arg, u8 bw);
++s32 FillH2CCmd_88E(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++/* u8 rtl8192c_set_FwSelectSuspend_cmd(PADAPTER padapter, u8 bfwpoll, u16 period); */
++u8 GetTxBufferRsvdPageNum8188E(_adapter *padapter, bool wowlan);
++
++
++#ifdef CONFIG_P2P
++	void rtl8188e_set_p2p_ps_offload_cmd(PADAPTER padapter, u8 p2p_ps_state);
++#endif /* CONFIG_P2P */
++
++void CheckFwRsvdPageContent(PADAPTER padapter);
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++	/* u8 rtl8188e_reset_tsf(_adapter *padapter, u8 reset_port); */
++	int reset_tsf(PADAPTER Adapter, u8 reset_port);
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++
++/* #define H2C_8188E_RSVDPAGE_LOC_LEN      5 */
++/* #define H2C_8188E_AOAC_RSVDPAGE_LOC_LEN 7 */
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD CONTENT    --------------------------------------------------
++ * ---------------------------------------------------------------------------------------------------------
++ *   */
++#if 0
++	/* move to hal_com_h2c.h
++	* _RSVDPAGE_LOC_CMD_0x00 */
++	#define SET_8188E_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(__pH2CCmd, __Value)     SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++	#define SET_8188E_H2CCMD_RSVDPAGE_LOC_PSPOLL(__pH2CCmd, __Value)            SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++	#define SET_8188E_H2CCMD_RSVDPAGE_LOC_NULL_DATA(__pH2CCmd, __Value)     SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++	#define SET_8188E_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(__pH2CCmd, __Value)     SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++	/*  AOAC_RSVDPAGE_LOC_0x83 */
++	#define SET_8188E_H2CCMD_AOAC_RSVDPAGE_LOC_REMOTE_WAKE_CTRL_INFO(__pH2CCmd, __Value)        SET_BITS_TO_LE_1BYTE((__pH2CCmd), 0, 8, __Value)
++	#define SET_8188E_H2CCMD_AOAC_RSVDPAGE_LOC_ARP_RSP(__pH2CCmd, __Value)                  SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#endif
++#endif/* __RTL8188E_CMD_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8188e_dm.h b/drivers/net/wireless/rtl8723du/include/rtl8188e_dm.h
+new file mode 100644
+index 0000000..a4c2527
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8188e_dm.h
+@@ -0,0 +1,32 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188E_DM_H__
++#define __RTL8188E_DM_H__
++
++void rtl8188e_init_dm_priv(IN PADAPTER Adapter);
++void rtl8188e_deinit_dm_priv(IN PADAPTER Adapter);
++void rtl8188e_InitHalDm(IN PADAPTER Adapter);
++void rtl8188e_HalDmWatchDog(IN PADAPTER Adapter);
++
++/* VOID rtl8192c_dm_CheckTXPowerTracking(IN PADAPTER Adapter); */
++
++/* void rtl8192c_dm_RF_Saving(IN PADAPTER pAdapter, IN u8 bForceInNormal); */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8188e_hal.h b/drivers/net/wireless/rtl8723du/include/rtl8188e_hal.h
+new file mode 100644
+index 0000000..911595e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8188e_hal.h
+@@ -0,0 +1,320 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188E_HAL_H__
++#define __RTL8188E_HAL_H__
++
++/* #include "hal_com.h" */
++#include "hal_data.h"
++
++/* include HAL Related header after HAL Related compiling flags */
++#include "rtl8188e_spec.h"
++#include "Hal8188EPhyReg.h"
++#include "Hal8188EPhyCfg.h"
++#include "rtl8188e_rf.h"
++#include "rtl8188e_dm.h"
++#include "rtl8188e_recv.h"
++#include "rtl8188e_xmit.h"
++#include "rtl8188e_cmd.h"
++#include "rtl8188e_led.h"
++#include "Hal8188EPwrSeq.h"
++#ifdef DBG_CONFIG_ERROR_DETECT
++	#include "rtl8188e_sreset.h"
++#endif
++
++/* --------------------------------------------------------------------- */
++/*		RTL8188E Power Configuration CMDs for USB/SDIO/PCIE interfaces */
++/* --------------------------------------------------------------------- */
++#define Rtl8188E_NIC_PWR_ON_FLOW				rtl8188E_power_on_flow
++#define Rtl8188E_NIC_RF_OFF_FLOW				rtl8188E_radio_off_flow
++#define Rtl8188E_NIC_DISABLE_FLOW				rtl8188E_card_disable_flow
++#define Rtl8188E_NIC_ENABLE_FLOW				rtl8188E_card_enable_flow
++#define Rtl8188E_NIC_SUSPEND_FLOW				rtl8188E_suspend_flow
++#define Rtl8188E_NIC_RESUME_FLOW				rtl8188E_resume_flow
++#define Rtl8188E_NIC_PDN_FLOW					rtl8188E_hwpdn_flow
++#define Rtl8188E_NIC_LPS_ENTER_FLOW			rtl8188E_enter_lps_flow
++#define Rtl8188E_NIC_LPS_LEAVE_FLOW			rtl8188E_leave_lps_flow
++
++
++#if 1 /* download firmware related data structure */
++#define MAX_FW_8188E_SIZE			0x8000 /* 32768, 32k / 16384, 16k */
++
++#define FW_8188E_SIZE				0x4000 /* 16384, 16k */
++#define FW_8188E_SIZE_2			0x8000 /* 32768, 32k */
++
++#define FW_8188E_START_ADDRESS	0x1000
++#define FW_8188E_END_ADDRESS		0x1FFF /* 0x5FFF */
++
++
++#define IS_FW_HEADER_EXIST_88E(_pFwHdr)	((le16_to_cpu(_pFwHdr->Signature) & 0xFFF0) == 0x88E0)
++
++typedef struct _RT_FIRMWARE_8188E {
++	FIRMWARE_SOURCE	eFWSource;
++#ifdef CONFIG_EMBEDDED_FWIMG
++	u8			*szFwBuffer;
++#else
++	u8			szFwBuffer[MAX_FW_8188E_SIZE];
++#endif
++	u32			ulFwLength;
++} RT_FIRMWARE_8188E, *PRT_FIRMWARE_8188E;
++
++/*
++ * This structure must be cared byte-ordering
++ *   */
++
++typedef struct _RT_8188E_FIRMWARE_HDR {
++	/* 8-byte alinment required */
++
++	/* --- LONG WORD 0 ---- */
++	u16		Signature;	/* 92C0: test chip; 92C, 88C0: test chip; 88C1: MP A-cut; 92C1: MP A-cut */
++	u8		Category;	/* AP/NIC and USB/PCI */
++	u8		Function;	/* Reserved for different FW function indcation, for further use when driver needs to download different FW in different conditions */
++	u16		Version;		/* FW Version */
++	u8		Subversion;	/* FW Subversion, default 0x00 */
++	u16		Rsvd1;
++
++
++	/* --- LONG WORD 1 ---- */
++	u8		Month;	/* Release time Month field */
++	u8		Date;	/* Release time Date field */
++	u8		Hour;	/* Release time Hour field */
++	u8		Minute;	/* Release time Minute field */
++	u16		RamCodeSize;	/* The size of RAM code */
++	u8		Foundry;
++	u8		Rsvd2;
++
++	/* --- LONG WORD 2 ---- */
++	u32		SvnIdx;	/* The SVN entry index */
++	u32		Rsvd3;
++
++	/* --- LONG WORD 3 ---- */
++	u32		Rsvd4;
++	u32		Rsvd5;
++} RT_8188E_FIRMWARE_HDR, *PRT_8188E_FIRMWARE_HDR;
++#endif /* download firmware related data structure */
++
++
++#define DRIVER_EARLY_INT_TIME_8188E			0x05
++#define BCN_DMA_ATIME_INT_TIME_8188E		0x02
++
++
++/* #define MAX_RX_DMA_BUFFER_SIZE_88E	      0x2400 */ /* 9k for 88E nornal chip , */ /* MaxRxBuff=10k-max(TxReportSize(64*8), WOLPattern(16*24)) */
++#ifdef CONFIG_USB_HCI
++	#define RX_DMA_SIZE_88E(__Adapter) 0x2800 /* no cut difference */
++#else
++	#define RX_DMA_SIZE_88E(__Adapter) ((!IS_VENDOR_8188E_I_CUT_SERIES(__Adapter)) ? 0x2800 : 0x4000)
++#endif
++
++#ifdef CONFIG_WOWLAN
++	#define RESV_FMWF	(WKFMCAM_SIZE * MAX_WKFM_NUM) /* 16 entries, for each is 24 bytes*/
++#else
++	#define RESV_FMWF	0
++#endif
++
++#define RX_DMA_RESERVD_FW_FEATURE	0x200 /* for tx report (64*8) */
++
++#define MAX_RX_DMA_BUFFER_SIZE_88E(__Adapter) (RX_DMA_SIZE_88E(__Adapter)-RX_DMA_RESERVD_FW_FEATURE)
++
++#define MAX_TX_REPORT_BUFFER_SIZE			0x0400 /* 1k */
++
++/* Note: We will divide number of page equally for each queue other than public queue!
++ * 22k = 22528 bytes = 176 pages (@page =  128 bytes)
++ * must reserved about 7 pages for LPS =>  176-7 = 169 (0xA9)
++ * 2*BCN / 1*ps-poll / 1*null-data /1*prob_rsp /1*QOS null-data /1*BT QOS null-data  */
++
++#define BCNQ_PAGE_NUM_88E		0x08
++
++/* For WoWLan , more reserved page */
++#ifdef CONFIG_WOWLAN
++	#define WOWLAN_PAGE_NUM_88E	0x00
++#else
++	#define WOWLAN_PAGE_NUM_88E	0x00
++#endif
++
++/* Note:
++Tx FIFO Size : previous CUT:22K /I_CUT after:32KB
++Tx page Size : 128B
++Total page numbers : 176(0xB0) / 256(0x100)
++*/
++#ifdef CONFIG_USB_HCI
++	#define TOTAL_PAGE_NUMBER_88E(_Adapter) (0xB0 - 1) /* no cut difference */
++#else
++	#define TOTAL_PAGE_NUMBER_88E(_Adapter)	((IS_VENDOR_8188E_I_CUT_SERIES(_Adapter) ? 0x100 : 0xB0) - 1)/* must reserved 1 page for dma issue */
++#endif
++#define TX_TOTAL_PAGE_NUMBER_88E(_Adapter)	(TOTAL_PAGE_NUMBER_88E(_Adapter) - BCNQ_PAGE_NUM_88E - WOWLAN_PAGE_NUM_88E)
++#define TX_PAGE_BOUNDARY_88E(_Adapter)		(TX_TOTAL_PAGE_NUMBER_88E(_Adapter) + 1) /* beacon header start address */
++
++#define WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_88E(_Adapter)	TX_TOTAL_PAGE_NUMBER_88E(_Adapter)
++#define WMM_NORMAL_TX_PAGE_BOUNDARY_88E(_Adapter)		(WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_88E(_Adapter) + 1)
++
++/* For Normal Chip Setting
++ * (HPQ + LPQ + NPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER_8723B */
++#define NORMAL_PAGE_NUM_HPQ_88E		0x0
++#define NORMAL_PAGE_NUM_LPQ_88E		0x09
++#define NORMAL_PAGE_NUM_NPQ_88E		0x0
++
++/* Note: For Normal Chip Setting, modify later */
++#define WMM_NORMAL_PAGE_NUM_HPQ_88E		0x29
++#define WMM_NORMAL_PAGE_NUM_LPQ_88E		0x1C
++#define WMM_NORMAL_PAGE_NUM_NPQ_88E		0x1C
++
++
++/* -------------------------------------------------------------------------
++ *	Chip specific
++ * ------------------------------------------------------------------------- */
++#define CHIP_BONDING_IDENTIFIER(_value)	(((_value)>>22) & 0x3)
++#define CHIP_BONDING_92C_1T2R	0x1
++#define CHIP_BONDING_88C_USB_MCARD	0x2
++#define CHIP_BONDING_88C_USB_HP	0x1
++
++/* -------------------------------------------------------------------------
++ *	Channel Plan
++ * ------------------------------------------------------------------------- */
++
++
++#define EFUSE_REAL_CONTENT_LEN		512
++#define EFUSE_MAP_LEN				128
++#define EFUSE_MAX_SECTION			16
++#define EFUSE_IC_ID_OFFSET			506	/* For some inferiority IC purpose. added by Roger, 2009.09.02. */
++#define AVAILABLE_EFUSE_ADDR(addr)	(addr < EFUSE_REAL_CONTENT_LEN)
++/*
++ * <Roger_Notes>
++ * To prevent out of boundary programming case,
++ * leave 1byte and program full section
++ * 9bytes + 1byt + 5bytes and pre 1byte.
++ * For worst case:
++ * | 1byte|----8bytes----|1byte|--5bytes--|
++ * |         |            Reserved(14bytes)	      |
++ *   */
++#define EFUSE_OOB_PROTECT_BYTES 		15	/* PG data exclude header, dummy 6 bytes frome CP test and reserved 1byte. */
++
++#define		EFUSE_REAL_CONTENT_LEN_88E	256
++#define		EFUSE_MAP_LEN_88E		512
++#define		EFUSE_MAX_SECTION_88E		64
++#define		EFUSE_MAX_WORD_UNIT_88E		4
++#define		EFUSE_IC_ID_OFFSET_88E			506	/* For some inferiority IC purpose. added by Roger, 2009.09.02. */
++#define		AVAILABLE_EFUSE_ADDR_88E(addr)	(addr < EFUSE_REAL_CONTENT_LEN_88E)
++/* <Roger_Notes> To prevent out of boundary programming case, leave 1byte and program full section
++ * 9bytes + 1byt + 5bytes and pre 1byte.
++ * For worst case:
++ * | 2byte|----8bytes----|1byte|--7bytes--|  */ /* 92D */
++#define 		EFUSE_OOB_PROTECT_BYTES_88E	18	/* PG data exclude header, dummy 7 bytes frome CP test and reserved 1byte. */
++#define		EFUSE_PROTECT_BYTES_BANK_88E	16
++
++
++/* ********************************************************
++ *			EFUSE for BT definition
++ * ******************************************************** */
++#define EFUSE_BT_REAL_CONTENT_LEN		1536	/* 512*3 */
++#define EFUSE_BT_MAP_LEN				1024	/* 1k bytes */
++#define EFUSE_BT_MAX_SECTION			128		/* 1024/8 */
++
++#define EFUSE_PROTECT_BYTES_BANK		16
++
++#define INCLUDE_MULTI_FUNC_BT(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_BT)
++#define INCLUDE_MULTI_FUNC_GPS(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_GPS)
++
++/* #define IS_MULTI_FUNC_CHIP(_Adapter)	(((((PHAL_DATA_TYPE)(_Adapter->HalData))->MultiFunc) & (RT_MULTI_FUNC_BT|RT_MULTI_FUNC_GPS)) ? _TRUE : _FALSE) */
++
++/* #define RT_IS_FUNC_DISABLED(__pAdapter, __FuncBits) ( (__pAdapter)->DisabledFunctions & (__FuncBits) ) */
++
++#ifdef CONFIG_PCI_HCI
++	/* according to the define in the rtw_xmit.h, rtw_recv.h */
++	#define TX_DESC_NUM_8188EE  TXDESC_NUM   /* 128 */
++	#ifdef CONFIG_CONCURRENT_MODE
++		/*#define BE_QUEUE_TX_DESC_NUM_8188EE  (TXDESC_NUM<<1)*/		/* 256 */
++		#define BE_QUEUE_TX_DESC_NUM_8188EE  ((TXDESC_NUM<<1)+(TXDESC_NUM>>1))    /* 320 */
++		/*#define BE_QUEUE_TX_DESC_NUM_8188EE  ((TXDESC_NUM<<1)+TXDESC_NUM)*/    /* 384 */
++	#else
++		#define BE_QUEUE_TX_DESC_NUM_8188EE  TXDESC_NUM /* 128 */
++		/*#define BE_QUEUE_TX_DESC_NUM_8188EE  (TXDESC_NUM+(TXDESC_NUM>>1)) */ /* 192 */
++	#endif
++
++	void InterruptRecognized8188EE(PADAPTER Adapter, PRT_ISR_CONTENT pIsrContent);
++	void UpdateInterruptMask8188EE(PADAPTER Adapter, u32 AddMSR, u32 AddMSR1, u32 RemoveMSR, u32 RemoveMSR1);
++#endif /* CONFIG_PCI_HCI */
++
++/* rtl8188e_hal_init.c */
++
++s32 rtl8188e_FirmwareDownload(PADAPTER padapter, BOOLEAN  bUsedWoWLANFw);
++void _8051Reset88E(PADAPTER padapter);
++void rtl8188e_InitializeFirmwareVars(PADAPTER padapter);
++
++
++s32 InitLLTTable(PADAPTER padapter, u8 txpktbuf_bndy);
++
++/* EFuse */
++u8 GetEEPROMSize8188E(PADAPTER padapter);
++void Hal_InitPGData88E(PADAPTER padapter);
++void Hal_EfuseParseIDCode88E(PADAPTER padapter, u8 *hwinfo);
++void Hal_ReadTxPowerInfo88E(PADAPTER padapter, u8 *hwinfo, BOOLEAN	AutoLoadFail);
++
++void Hal_EfuseParseEEPROMVer88E(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void rtl8188e_EfuseParseChnlPlan(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseCustomerID88E(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_ReadAntennaDiversity88E(PADAPTER pAdapter, u8 *PROMContent, BOOLEAN AutoLoadFail);
++void Hal_ReadThermalMeter_88E(PADAPTER	Adapter, u8 *PROMContent, BOOLEAN	AutoloadFail);
++void Hal_EfuseParseXtal_8188E(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseBoardType88E(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_ReadPowerSavingMode88E(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_ReadPAType_8188E(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++void Hal_ReadAmplifierType_8188E(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++void Hal_ReadRFEType_8188E(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++
++BOOLEAN HalDetectPwrDownMode88E(PADAPTER Adapter);
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	void Hal_DetectWoWMode(PADAPTER pAdapter);
++#endif /* CONFIG_WOWLAN */
++
++
++#ifdef CONFIG_RF_POWER_TRIM
++	void Hal_ReadRFGainOffset(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++#endif /*CONFIG_RF_POWER_TRIM*/
++
++void rtl8188e_init_default_value(_adapter *adapter);
++
++void rtl8188e_set_hal_ops(struct hal_ops *pHalFunc);
++void init_hal_spec_8188e(_adapter *adapter);
++
++/* register */
++void SetBcnCtrlReg(PADAPTER padapter, u8 SetBits, u8 ClearBits);
++
++void rtl8188e_start_thread(_adapter *padapter);
++void rtl8188e_stop_thread(_adapter *padapter);
++
++void rtw_IOL_cmd_tx_pkt_buf_dump(ADAPTER *Adapter, int data_len);
++#ifdef CONFIG_IOL_EFUSE_PATCH
++	s32 rtl8188e_iol_efuse_patch(PADAPTER padapter);
++#endif/* CONFIG_IOL_EFUSE_PATCH */
++void _InitTransferPageSize(PADAPTER padapter);
++
++void SetHwReg8188E(PADAPTER padapter, u8 variable, u8 *val);
++void GetHwReg8188E(PADAPTER padapter, u8 variable, u8 *val);
++
++u8
++GetHalDefVar8188E(
++	IN	PADAPTER				Adapter,
++	IN	HAL_DEF_VARIABLE		eVariable,
++	IN	PVOID					pValue
++);
++#ifdef CONFIG_GPIO_API
++int rtl8188e_GpioFuncCheck(PADAPTER adapter, u8 gpio_num);
++#endif
++#endif /* __RTL8188E_HAL_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8188e_led.h b/drivers/net/wireless/rtl8723du/include/rtl8188e_led.h
+new file mode 100644
+index 0000000..8d0feee
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8188e_led.h
+@@ -0,0 +1,40 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188E_LED_H__
++#define __RTL8188E_LED_H__
++
++
++/* ********************************************************************************
++ * Interface to manipulate LED objects.
++ * ******************************************************************************** */
++#ifdef CONFIG_USB_HCI
++	void rtl8188eu_InitSwLeds(PADAPTER padapter);
++	void rtl8188eu_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_PCI_HCI
++	void rtl8188ee_InitSwLeds(PADAPTER padapter);
++	void rtl8188ee_DeInitSwLeds(PADAPTER padapter);
++#endif
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	void rtl8188es_InitSwLeds(PADAPTER padapter);
++	void rtl8188es_DeInitSwLeds(PADAPTER padapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8188e_recv.h b/drivers/net/wireless/rtl8723du/include/rtl8188e_recv.h
+new file mode 100644
+index 0000000..2f574a8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8188e_recv.h
+@@ -0,0 +1,170 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188E_RECV_H__
++#define __RTL8188E_RECV_H__
++
++#define RECV_BLK_SZ 512
++#define RECV_BLK_CNT 16
++#define RECV_BLK_TH RECV_BLK_CNT
++
++#if defined(CONFIG_USB_HCI)
++
++	#ifndef MAX_RECVBUF_SZ
++		#ifdef PLATFORM_OS_CE
++			#define MAX_RECVBUF_SZ (8192+1024) /* 8K+1k */
++		#else
++			#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++				/* #define MAX_RECVBUF_SZ (32768) */ /* 32k */
++				/* #define MAX_RECVBUF_SZ (16384) */ /* 16K */
++				/* #define MAX_RECVBUF_SZ (10240) */ /* 10K */
++				#ifdef CONFIG_PLATFORM_MSTAR
++					#define MAX_RECVBUF_SZ (8192) /* 8K */
++				#else
++					#define MAX_RECVBUF_SZ (15360) /* 15k < 16k */
++				#endif
++				/* #define MAX_RECVBUF_SZ (8192+1024) */ /* 8K+1k */
++			#else
++				#define MAX_RECVBUF_SZ (4000) /* about 4K */
++			#endif
++		#endif
++	#endif /* !MAX_RECVBUF_SZ */
++
++#elif defined(CONFIG_PCI_HCI)
++	/* #ifndef CONFIG_MINIMAL_MEMORY_USAGE */
++	/*	#define MAX_RECVBUF_SZ (9100) */
++	/* #else */
++	#define MAX_RECVBUF_SZ (4000) /* about 4K
++	* #endif */
++
++
++#elif defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++
++	#define MAX_RECVBUF_SZ (10240)
++
++#endif
++
++/* Rx smooth factor */
++#define	Rx_Smooth_Factor (20)
++
++#define TX_RPT1_PKT_LEN 8
++
++typedef struct rxreport_8188e {
++	/* Offset 0 */
++	u32 pktlen:14;
++	u32 crc32:1;
++	u32 icverr:1;
++	u32 drvinfosize:4;
++	u32 security:3;
++	u32 qos:1;
++	u32 shift:2;
++	u32 physt:1;
++	u32 swdec:1;
++	u32 ls:1;
++	u32 fs:1;
++	u32 eor:1;
++	u32 own:1;
++
++	/* Offset 4 */
++	u32 macid:5;
++	u32 tid:4;
++	u32 hwrsvd:4;
++	u32 amsdu:1;
++	u32 paggr:1;
++	u32 faggr:1;
++	u32 a1fit:4;
++	u32 a2fit:4;
++	u32 pam:1;
++	u32 pwr:1;
++	u32 md:1;
++	u32 mf:1;
++	u32 type:2;
++	u32 mc:1;
++	u32 bc:1;
++
++	/* Offset 8 */
++	u32 seq:12;
++	u32 frag:4;
++	u32 nextpktlen:14;
++	u32 nextind:1;
++	u32 rsvd0831:1;
++
++	/* Offset 12 */
++	u32 rxmcs:6;
++	u32 rxht:1;
++	u32 gf:1;
++	u32 splcp:1;
++	u32 bw:1;
++	u32 htc:1;
++	u32 eosp:1;
++	u32 bssidfit:2;
++	u32 rpt_sel:2;
++	u32 rsvd1216:13;
++	u32 pattern_match:1;
++	u32 unicastwake:1;
++	u32 magicwake:1;
++
++	/* Offset 16 */
++	/*
++	u32 pattern0match:1;
++	u32 pattern1match:1;
++	u32 pattern2match:1;
++	u32 pattern3match:1;
++	u32 pattern4match:1;
++	u32 pattern5match:1;
++	u32 pattern6match:1;
++	u32 pattern7match:1;
++	u32 pattern8match:1;
++	u32 pattern9match:1;
++	u32 patternamatch:1;
++	u32 patternbmatch:1;
++	u32 patterncmatch:1;
++	u32 rsvd1613:19;
++	*/
++	u32 rsvd16;
++
++	/* Offset 20 */
++	u32 tsfl;
++
++	/* Offset 24 */
++	u32 bassn:12;
++	u32 bavld:1;
++	u32 rsvd2413:19;
++} RXREPORT, *PRXREPORT;
++
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	s32 rtl8188es_init_recv_priv(PADAPTER padapter);
++	void rtl8188es_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_USB_HCI
++	void rtl8188eu_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf);
++	s32 rtl8188eu_init_recv_priv(PADAPTER padapter);
++	void rtl8188eu_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8188ee_init_recv_priv(PADAPTER padapter);
++	void rtl8188ee_free_recv_priv(PADAPTER padapter);
++#endif
++
++void rtl8188e_query_rx_desc_status(union recv_frame *precvframe, struct recv_stat *prxstat);
++
++#endif /* __RTL8188E_RECV_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8188e_rf.h b/drivers/net/wireless/rtl8723du/include/rtl8188e_rf.h
+new file mode 100644
+index 0000000..6588126
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8188e_rf.h
+@@ -0,0 +1,32 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188E_RF_H__
++#define __RTL8188E_RF_H__
++
++
++
++int	PHY_RF6052_Config8188E(IN	PADAPTER		Adapter);
++void		rtl8188e_RF_ChangeTxPath(IN	PADAPTER	Adapter,
++		IN	u16		DataRate);
++void		rtl8188e_PHY_RF6052SetBandwidth(
++	IN	PADAPTER				Adapter,
++	IN	CHANNEL_WIDTH		Bandwidth);
++
++#endif/* __RTL8188E_RF_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8188e_spec.h b/drivers/net/wireless/rtl8723du/include/rtl8188e_spec.h
+new file mode 100644
+index 0000000..c7698a6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8188e_spec.h
+@@ -0,0 +1,165 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#ifndef __RTL8188E_SPEC_H__
++#define __RTL8188E_SPEC_H__
++
++
++/* ************************************************************
++ * 8188E Regsiter offset definition
++ * ************************************************************ */
++
++
++/* ************************************************************
++ *
++ * ************************************************************ */
++
++/* -----------------------------------------------------
++ *
++ *	0x0000h ~ 0x00FFh	System Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_BB_PAD_CTRL				0x0064
++#define REG_HMEBOX_E0					0x0088
++#define REG_HMEBOX_E1					0x008A
++#define REG_HMEBOX_E2					0x008C
++#define REG_HMEBOX_E3					0x008E
++#define REG_HMEBOX_EXT_0				0x01F0
++#define REG_HMEBOX_EXT_1				0x01F4
++#define REG_HMEBOX_EXT_2				0x01F8
++#define REG_HMEBOX_EXT_3				0x01FC
++#define REG_HIMR_88E					0x00B0 /* RTL8188E */
++#define REG_HISR_88E					0x00B4 /* RTL8188E */
++#define REG_HIMRE_88E					0x00B8 /* RTL8188E */
++#define REG_HISRE_88E					0x00BC /* RTL8188E */
++#define REG_MACID_NO_LINK_0			0x0484
++#define REG_MACID_NO_LINK_1			0x0488
++#define REG_MACID_PAUSE_0			0x048c
++#define REG_MACID_PAUSE_1			0x0490
++
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_PKTBUF_DBG_ADDR			(REG_PKTBUF_DBG_CTRL)
++#define REG_RXPKTBUF_DBG				(REG_PKTBUF_DBG_CTRL+2)
++#define REG_TXPKTBUF_DBG				(REG_PKTBUF_DBG_CTRL+3)
++#define REG_WOWLAN_WAKE_REASON		REG_MCUTST_WOWLAN
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0300h ~ 0x03FFh	PCIe
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++#ifdef CONFIG_WOWLAN
++	#define REG_TXPKTBUF_IV_LOW             0x01a4
++	#define REG_TXPKTBUF_IV_HIGH            0x01a8
++#endif
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++#ifdef CONFIG_RF_POWER_TRIM
++	#define EEPROM_RF_GAIN_OFFSET			0xC1
++	#define EEPROM_RF_GAIN_VAL				0xF6
++	#define EEPROM_THERMAL_OFFSET			0xF5
++#endif /*CONFIG_RF_POWER_TRIM*/
++/* ----------------------------------------------------------------------------
++ * 88E Driver Initialization Offload REG_FDHM0(Offset 0x88, 8 bits)
++ * ----------------------------------------------------------------------------
++ * IOL config for REG_FDHM0(Reg0x88) */
++#define CMD_INIT_LLT					BIT0
++#define CMD_READ_EFUSE_MAP		BIT1
++#define CMD_EFUSE_PATCH			BIT2
++#define CMD_IOCONFIG				BIT3
++#define CMD_INIT_LLT_ERR			BIT4
++#define CMD_READ_EFUSE_MAP_ERR	BIT5
++#define CMD_EFUSE_PATCH_ERR		BIT6
++#define CMD_IOCONFIG_ERR			BIT7
++
++/* -----------------------------------------------------
++ *
++ *	Redifine register definition for compatibility
++ *
++ * ----------------------------------------------------- */
++
++/* TODO: use these definition when using REG_xxx naming rule.
++ * NOTE: DO NOT Remove these definition. Use later. */
++#define ISR_88E				REG_HISR_88E
++
++#ifdef CONFIG_PCI_HCI
++	/* #define IMR_RX_MASK		(IMR_ROK_88E|IMR_RDU_88E|IMR_RXFOVW_88E) */
++	#define IMR_TX_MASK			(IMR_VODOK_88E | IMR_VIDOK_88E | IMR_BEDOK_88E | IMR_BKDOK_88E | IMR_MGNTDOK_88E | IMR_HIGHDOK_88E | IMR_BCNDERR0_88E)
++
++	#ifdef CONFIG_CONCURRENT_MODE
++		#define RT_BCN_INT_MASKS	(IMR_BCNDMAINT0_88E | IMR_TBDOK_88E | IMR_TBDER_88E | IMR_BCNDMAINT_E_88E)
++	#else
++		#define RT_BCN_INT_MASKS	(IMR_BCNDMAINT0_88E | IMR_TBDOK_88E | IMR_TBDER_88E)
++	#endif
++
++	#define RT_AC_INT_MASKS	(IMR_VIDOK_88E | IMR_VODOK_88E | IMR_BEDOK_88E | IMR_BKDOK_88E)
++#endif
++
++
++/* ********************************************************
++ * General definitions
++ * ******************************************************** */
++
++#define MACID_NUM_88E 64
++#define SEC_CAM_ENT_NUM_88E 32
++#define HW_PORT_NUM_88E	2
++#define NSS_NUM_88E 1
++#define BAND_CAP_88E (BAND_CAP_2G)
++#define BW_CAP_88E (BW_CAP_20M | BW_CAP_40M)
++#define PROTO_CAP_88E (PROTO_CAP_11B | PROTO_CAP_11G | PROTO_CAP_11N)
++
++/* ----------------------------------------------------------------------------
++ * 8192C EEPROM/EFUSE share register definition.
++ * ---------------------------------------------------------------------------- */
++
++#define EFUSE_ACCESS_ON			0x69	/* For RTL8723 only. */
++#define EFUSE_ACCESS_OFF			0x00	/* For RTL8723 only. */
++
++#endif /* __RTL8188E_SPEC_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8188e_sreset.h b/drivers/net/wireless/rtl8723du/include/rtl8188e_sreset.h
+new file mode 100644
+index 0000000..d0214ac
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8188e_sreset.h
+@@ -0,0 +1,29 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8188E_SRESET_H_
++#define _RTL8188E_SRESET_H_
++
++#include <rtw_sreset.h>
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	extern void rtl8188e_sreset_xmit_status_check(_adapter *padapter);
++	extern void rtl8188e_sreset_linked_status_check(_adapter *padapter);
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8188e_xmit.h b/drivers/net/wireless/rtl8723du/include/rtl8188e_xmit.h
+new file mode 100644
+index 0000000..c04a66c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8188e_xmit.h
+@@ -0,0 +1,300 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188E_XMIT_H__
++#define __RTL8188E_XMIT_H__
++
++
++
++
++/* For 88e early mode */
++#define SET_EARLYMODE_PKTNUM(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 0, 3, __Value)
++#define SET_EARLYMODE_LEN0(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 4, 12, __Value)
++#define SET_EARLYMODE_LEN1(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 16, 12, __Value)
++#define SET_EARLYMODE_LEN2_1(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 28, 4, __Value)
++#define SET_EARLYMODE_LEN2_2(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 8, __Value)
++#define SET_EARLYMODE_LEN3(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 8, 12, __Value)
++#define SET_EARLYMODE_LEN4(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 20, 12, __Value)
++
++/*
++ * defined for TX DESC Operation
++ *   */
++
++#define MAX_TID (15)
++
++/* OFFSET 0 */
++#define OFFSET_SZ	0
++#define OFFSET_SHT	16
++#define BMC		BIT(24)
++#define LSG		BIT(26)
++#define FSG		BIT(27)
++#define OWN		BIT(31)
++
++
++/* OFFSET 4 */
++#define PKT_OFFSET_SZ		0
++#define QSEL_SHT			8
++#define RATE_ID_SHT			16
++#define NAVUSEHDR			BIT(20)
++#define SEC_TYPE_SHT		22
++#define PKT_OFFSET_SHT		26
++
++/* OFFSET 8 */
++#define AGG_EN				BIT(12)
++#define AGG_BK					BIT(16)
++#define AMPDU_DENSITY_SHT	20
++#define ANTSEL_A			BIT(24)
++#define ANTSEL_B			BIT(25)
++#define TX_ANT_CCK_SHT		26
++#define TX_ANTL_SHT			28
++#define TX_ANT_HT_SHT		30
++
++/* OFFSET 12 */
++#define SEQ_SHT				16
++#define EN_HWSEQ			BIT(31)
++
++/* OFFSET 16 */
++#define	QOS                          BIT(6)
++#define	HW_SSN				BIT(7)
++#define	USERATE			BIT(8)
++#define	DISDATAFB			BIT(10)
++#define   CTS_2_SELF			BIT(11)
++#define	RTS_EN				BIT(12)
++#define	HW_RTS_EN			BIT(13)
++#define	DATA_SHORT			BIT(24)
++#define	PWR_STATUS_SHT	15
++#define	DATA_SC_SHT		20
++#define	DATA_BW			BIT(25)
++
++/* OFFSET 20 */
++#define	RTY_LMT_EN			BIT(17)
++
++
++/* OFFSET 20 */
++#define SGI					BIT(6)
++#define USB_TXAGG_NUM_SHT	24
++
++typedef struct txdesc_88e {
++	/* Offset 0 */
++	u32 pktlen:16;
++	u32 offset:8;
++	u32 bmc:1;
++	u32 htc:1;
++	u32 ls:1;
++	u32 fs:1;
++	u32 linip:1;
++	u32 noacm:1;
++	u32 gf:1;
++	u32 own:1;
++
++	/* Offset 4 */
++	u32 macid:6;
++	u32 rsvd0406:2;
++	u32 qsel:5;
++	u32 rd_nav_ext:1;
++	u32 lsig_txop_en:1;
++	u32 pifs:1;
++	u32 rate_id:4;
++	u32 navusehdr:1;
++	u32 en_desc_id:1;
++	u32 sectype:2;
++	u32 rsvd0424:2;
++	u32 pkt_offset:5;	/* unit: 8 bytes */
++	u32 rsvd0431:1;
++
++	/* Offset 8 */
++	u32 rts_rc:6;
++	u32 data_rc:6;
++	u32 agg_en:1;
++	u32 rd_en:1;
++	u32 bar_rty_th:2;
++	u32 bk:1;
++	u32 morefrag:1;
++	u32 raw:1;
++	u32 ccx:1;
++	u32 ampdu_density:3;
++	u32 bt_null:1;
++	u32 ant_sel_a:1;
++	u32 ant_sel_b:1;
++	u32 tx_ant_cck:2;
++	u32 tx_antl:2;
++	u32 tx_ant_ht:2;
++
++	/* Offset 12 */
++	u32 nextheadpage:8;
++	u32 tailpage:8;
++	u32 seq:12;
++	u32 cpu_handle:1;
++	u32 tag1:1;
++	u32 trigger_int:1;
++	u32 hwseq_en:1;
++
++	/* Offset 16 */
++	u32 rtsrate:5;
++	u32 ap_dcfe:1;
++	u32 hwseq_sel:2;
++	u32 userate:1;
++	u32 disrtsfb:1;
++	u32 disdatafb:1;
++	u32 cts2self:1;
++	u32 rtsen:1;
++	u32 hw_rts_en:1;
++	u32 port_id:1;
++	u32 pwr_status:3;
++	u32 wait_dcts:1;
++	u32 cts2ap_en:1;
++	u32 data_sc:2;
++	u32 data_stbc:2;
++	u32 data_short:1;
++	u32 data_bw:1;
++	u32 rts_short:1;
++	u32 rts_bw:1;
++	u32 rts_sc:2;
++	u32 vcs_stbc:2;
++
++	/* Offset 20 */
++	u32 datarate:6;
++	u32 sgi:1;
++	u32 try_rate:1;
++	u32 data_ratefb_lmt:5;
++	u32 rts_ratefb_lmt:4;
++	u32 rty_lmt_en:1;
++	u32 data_rt_lmt:6;
++	u32 usb_txagg_num:8;
++
++	/* Offset 24 */
++	u32 txagg_a:5;
++	u32 txagg_b:5;
++	u32 use_max_len:1;
++	u32 max_agg_num:5;
++	u32 mcsg1_max_len:4;
++	u32 mcsg2_max_len:4;
++	u32 mcsg3_max_len:4;
++	u32 mcs7_sgi_max_len:4;
++
++	/* Offset 28 */
++	u32 checksum:16;	/* TxBuffSize(PCIe)/CheckSum(USB) */
++	u32 sw0:8; /* offset 30 */
++	u32 sw1:4;
++	u32 mcs15_sgi_max_len:4;
++} TXDESC_8188E, *PTXDESC_8188E;
++
++#define txdesc_set_ccx_sw_88e(txdesc, value) \
++	do { \
++		((struct txdesc_88e *)(txdesc))->sw1 = (((value)>>8) & 0x0f); \
++		((struct txdesc_88e *)(txdesc))->sw0 = ((value) & 0xff); \
++	} while (0)
++
++struct txrpt_ccx_88e {
++	/* offset 0 */
++	u8 tag1:1;
++	u8 pkt_num:3;
++	u8 txdma_underflow:1;
++	u8 int_bt:1;
++	u8 int_tri:1;
++	u8 int_ccx:1;
++
++	/* offset 1 */
++	u8 mac_id:6;
++	u8 pkt_ok:1;
++	u8 bmc:1;
++
++	/* offset 2 */
++	u8 retry_cnt:6;
++	u8 lifetime_over:1;
++	u8 retry_over:1;
++
++	/* offset 3 */
++	u8 ccx_qtime0;
++	u8 ccx_qtime1;
++
++	/* offset 5 */
++	u8 final_data_rate;
++
++	/* offset 6 */
++	u8 sw1:4;
++	u8 qsel:4;
++
++	/* offset 7 */
++	u8 sw0;
++};
++
++#define txrpt_ccx_sw_88e(txrpt_ccx) ((txrpt_ccx)->sw0 + ((txrpt_ccx)->sw1<<8))
++#define txrpt_ccx_qtime_88e(txrpt_ccx) ((txrpt_ccx)->ccx_qtime0+((txrpt_ccx)->ccx_qtime1<<8))
++
++#define SET_TX_DESC_SEC_TYPE_8188E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 22, 2, __Value)
++
++void rtl8188e_fill_fake_txdesc(PADAPTER	padapter, u8 *pDesc, u32 BufferLen,
++			       u8 IsPsPoll, u8	IsBTQosNull, u8 bDataFrame);
++void rtl8188e_cal_txdesc_chksum(struct tx_desc	*ptxdesc);
++#if defined(CONFIG_CONCURRENT_MODE)
++	void fill_txdesc_force_bmc_camid(struct pkt_attrib *pattrib, struct tx_desc *ptxdesc);
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	s32 rtl8188es_init_xmit_priv(PADAPTER padapter);
++	void rtl8188es_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8188es_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8188es_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8188es_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	thread_return rtl8188es_xmit_thread(thread_context context);
++	s32 rtl8188es_xmit_buf_handler(PADAPTER padapter);
++
++	#ifdef CONFIG_SDIO_TX_TASKLET
++		void rtl8188es_xmit_tasklet(void *priv);
++	#endif
++#endif
++
++#ifdef CONFIG_USB_HCI
++	s32 rtl8188eu_init_xmit_priv(PADAPTER padapter);
++	void rtl8188eu_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8188eu_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8188eu_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8188eu_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8188eu_xmit_buf_handler(PADAPTER padapter);
++	void rtl8188eu_xmit_tasklet(void *priv);
++	s32 rtl8188eu_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8188ee_init_xmit_priv(PADAPTER padapter);
++	void rtl8188ee_free_xmit_priv(PADAPTER padapter);
++	void	rtl8188ee_xmitframe_resume(_adapter *padapter);
++	s32 rtl8188ee_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8188ee_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8188ee_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	void rtl8188ee_xmit_tasklet(void *priv);
++#endif
++
++
++
++#ifdef CONFIG_TX_EARLY_MODE
++	void UpdateEarlyModeInfo8188E(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++#endif
++
++#ifdef CONFIG_XMIT_ACK
++	void dump_txrpt_ccx_88e(void *buf);
++	void handle_txrpt_ccx_88e(_adapter *adapter, u8 *buf);
++#else
++	#define dump_txrpt_ccx_88e(buf) do {} while (0)
++	#define handle_txrpt_ccx_88e(adapter, buf) do {} while (0)
++#endif /* CONFIG_XMIT_ACK */
++
++void _dbg_dump_tx_info(_adapter	*padapter, int frame_tag, struct tx_desc *ptxdesc);
++#endif /* __RTL8188E_XMIT_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8188f_cmd.h b/drivers/net/wireless/rtl8723du/include/rtl8188f_cmd.h
+new file mode 100644
+index 0000000..6536503
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8188f_cmd.h
+@@ -0,0 +1,219 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188F_CMD_H__
++#define __RTL8188F_CMD_H__
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD DEFINITION    ------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++enum h2c_cmd_8188F {
++	/* Common Class: 000 */
++	H2C_8188F_RSVD_PAGE = 0x00,
++	H2C_8188F_MEDIA_STATUS_RPT = 0x01,
++	H2C_8188F_SCAN_ENABLE = 0x02,
++	H2C_8188F_KEEP_ALIVE = 0x03,
++	H2C_8188F_DISCON_DECISION = 0x04,
++	H2C_8188F_PSD_OFFLOAD = 0x05,
++	H2C_8188F_AP_OFFLOAD = 0x08,
++	H2C_8188F_BCN_RSVDPAGE = 0x09,
++	H2C_8188F_PROBERSP_RSVDPAGE = 0x0A,
++	H2C_8188F_FCS_RSVDPAGE = 0x10,
++	H2C_8188F_FCS_INFO = 0x11,
++	H2C_8188F_AP_WOW_GPIO_CTRL = 0x13,
++
++	/* PoweSave Class: 001 */
++	H2C_8188F_SET_PWR_MODE = 0x20,
++	H2C_8188F_PS_TUNING_PARA = 0x21,
++	H2C_8188F_PS_TUNING_PARA2 = 0x22,
++	H2C_8188F_P2P_LPS_PARAM = 0x23,
++	H2C_8188F_P2P_PS_OFFLOAD = 0x24,
++	H2C_8188F_PS_SCAN_ENABLE = 0x25,
++	H2C_8188F_SAP_PS_ = 0x26,
++	H2C_8188F_INACTIVE_PS_ = 0x27, /* Inactive_PS */
++	H2C_8188F_FWLPS_IN_IPS_ = 0x28,
++
++	/* Dynamic Mechanism Class: 010 */
++	H2C_8188F_MACID_CFG = 0x40,
++	H2C_8188F_TXBF = 0x41,
++	H2C_8188F_RSSI_SETTING = 0x42,
++	H2C_8188F_AP_REQ_TXRPT = 0x43,
++	H2C_8188F_INIT_RATE_COLLECT = 0x44,
++	H2C_8188F_RA_PARA_ADJUST = 0x46,
++
++	/* BT Class: 011 */
++	H2C_8188F_B_TYPE_TDMA = 0x60,
++	H2C_8188F_BT_INFO = 0x61,
++	H2C_8188F_FORCE_BT_TXPWR = 0x62,
++	H2C_8188F_BT_IGNORE_WLANACT = 0x63,
++	H2C_8188F_DAC_SWING_VALUE = 0x64,
++	H2C_8188F_ANT_SEL_RSV = 0x65,
++	H2C_8188F_WL_OPMODE = 0x66,
++	H2C_8188F_BT_MP_OPER = 0x67,
++	H2C_8188F_BT_CONTROL = 0x68,
++	H2C_8188F_BT_WIFI_CTRL = 0x69,
++	H2C_8188F_BT_FW_PATCH = 0x6A,
++	H2C_8188F_BT_WLAN_CALIBRATION = 0x6D,
++
++	/* WOWLAN Class: 100 */
++	H2C_8188F_WOWLAN = 0x80,
++	H2C_8188F_REMOTE_WAKE_CTRL = 0x81,
++	H2C_8188F_AOAC_GLOBAL_INFO = 0x82,
++	H2C_8188F_AOAC_RSVD_PAGE = 0x83,
++	H2C_8188F_AOAC_RSVD_PAGE2 = 0x84,
++	H2C_8188F_D0_SCAN_OFFLOAD_CTRL = 0x85,
++	H2C_8188F_D0_SCAN_OFFLOAD_INFO = 0x86,
++	H2C_8188F_CHNL_SWITCH_OFFLOAD = 0x87,
++	H2C_8188F_P2P_OFFLOAD_RSVD_PAGE = 0x8A,
++	H2C_8188F_P2P_OFFLOAD = 0x8B,
++
++	H2C_8188F_RESET_TSF = 0xC0,
++	H2C_8188F_MAXID,
++};
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD CONTENT    --------------------------------------------------
++ * ---------------------------------------------------------------------------------------------------------
++ * _RSVDPAGE_LOC_CMD_0x00 */
++#define SET_8188F_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8188F_H2CCMD_RSVDPAGE_LOC_PSPOLL(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_8188F_H2CCMD_RSVDPAGE_LOC_NULL_DATA(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8188F_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8188F_H2CCMD_RSVDPAGE_LOC_BT_QOS_NULL_DATA(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++
++/* _KEEP_ALIVE_CMD_0x03 */
++#define SET_8188F_H2CCMD_KEEPALIVE_PARM_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8188F_H2CCMD_KEEPALIVE_PARM_ADOPT(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8188F_H2CCMD_KEEPALIVE_PARM_PKT_TYPE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_8188F_H2CCMD_KEEPALIVE_PARM_CHECK_PERIOD(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++
++/* _DISCONNECT_DECISION_CMD_0x04 */
++#define SET_8188F_H2CCMD_DISCONDECISION_PARM_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8188F_H2CCMD_DISCONDECISION_PARM_ADOPT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8188F_H2CCMD_DISCONDECISION_PARM_CHECK_PERIOD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8188F_H2CCMD_DISCONDECISION_PARM_TRY_PKT_NUM(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++
++/* _PWR_MOD_CMD_0x20 */
++#define SET_8188F_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8188F_H2CCMD_PWRMODE_PARM_RLBM(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 4, __Value)
++#define SET_8188F_H2CCMD_PWRMODE_PARM_SMART_PS(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 4, 4, __Value)
++#define SET_8188F_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8188F_H2CCMD_PWRMODE_PARM_ALL_QUEUE_UAPSD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8188F_H2CCMD_PWRMODE_PARM_BCN_EARLY_C2H_RPT(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 2, 1, __Value)
++#define SET_8188F_H2CCMD_PWRMODE_PARM_PWR_STATE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8188F_H2CCMD_PWRMODE_PARM_BYTE5(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++#define GET_8188F_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd)					LE_BITS_TO_1BYTE(__pH2CCmd, 0, 8)
++
++/* _PS_TUNE_PARAM_CMD_0x21 */
++#define SET_8188F_H2CCMD_PSTUNE_PARM_BCN_TO_LIMIT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8188F_H2CCMD_PSTUNE_PARM_DTIM_TIMEOUT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8188F_H2CCMD_PSTUNE_PARM_ADOPT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 1, __Value)
++#define SET_8188F_H2CCMD_PSTUNE_PARM_PS_TIMEOUT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 1, 7, __Value)
++#define SET_8188F_H2CCMD_PSTUNE_PARM_DTIM_PERIOD(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++
++/* _MACID_CFG_CMD_0x40 */
++#define SET_8188F_H2CCMD_MACID_CFG_MACID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_RAID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 5, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_SGI_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 7, 1, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_BW(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 2, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_NO_UPDATE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 3, 1, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_VHT_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 4, 2, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_DISPT(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 6, 1, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_DISRA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 7, 1, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_RATE_MASK0(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_RATE_MASK1(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+4, 0, 8, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_RATE_MASK2(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+5, 0, 8, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_RATE_MASK3(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+6, 0, 8, __Value)
++
++/* _RSSI_SETTING_CMD_0x42 */
++#define SET_8188F_H2CCMD_RSSI_SETTING_MACID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8188F_H2CCMD_RSSI_SETTING_RSSI(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 7, __Value)
++#define SET_8188F_H2CCMD_RSSI_SETTING_ULDL_STATE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++
++/* _AP_REQ_TXRPT_CMD_0x43 */
++#define SET_8188F_H2CCMD_APREQRPT_PARM_MACID1(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8188F_H2CCMD_APREQRPT_PARM_MACID2(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++
++/* _FORCE_BT_TXPWR_CMD_0x62 */
++#define SET_8188F_H2CCMD_BT_PWR_IDX(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++
++/* _FORCE_BT_MP_OPER_CMD_0x67 */
++#define SET_8188F_H2CCMD_BT_MPOPER_VER(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 4, __Value)
++#define SET_8188F_H2CCMD_BT_MPOPER_REQNUM(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 4, __Value)
++#define SET_8188F_H2CCMD_BT_MPOPER_IDX(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8188F_H2CCMD_BT_MPOPER_PARAM1(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++#define SET_8188F_H2CCMD_BT_MPOPER_PARAM2(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++#define SET_8188F_H2CCMD_BT_MPOPER_PARAM3(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+4, 0, 8, __Value)
++
++/* _BT_FW_PATCH_0x6A */
++#define SET_8188F_H2CCMD_BT_FW_PATCH_SIZE(__pH2CCmd, __Value)					SET_BITS_TO_LE_2BYTE((pu1Byte)(__pH2CCmd), 0, 16, __Value)
++#define SET_8188F_H2CCMD_BT_FW_PATCH_ADDR0(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8188F_H2CCMD_BT_FW_PATCH_ADDR1(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8188F_H2CCMD_BT_FW_PATCH_ADDR2(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8188F_H2CCMD_BT_FW_PATCH_ADDR3(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++
++/* ---------------------------------------------------------------------------------------------------------
++ * -------------------------------------------    Structure    --------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    Function Statement     --------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++/* host message to firmware cmd */
++void rtl8188f_set_FwPwrMode_cmd(PADAPTER padapter, u8 Mode);
++void rtl8188f_set_FwJoinBssRpt_cmd(PADAPTER padapter, u8 mstatus);
++void rtl8188f_set_rssi_cmd(PADAPTER padapter, u8 *param);
++void rtl8188f_fw_try_ap_cmd(PADAPTER padapter, u32 need_ack);
++/* s32 rtl8188f_set_lowpwr_lps_cmd(PADAPTER padapter, u8 enable); */
++void rtl8188f_set_FwPsTuneParam_cmd(PADAPTER padapter);
++void rtl8188f_set_FwMacIdConfig_cmd(_adapter *padapter, u8 mac_id, u8 raid, u8 bw, u8 sgi, u32 mask);
++void rtl8188f_set_FwBtMpOper_cmd(PADAPTER padapter, u8 idx, u8 ver, u8 reqnum, u8 *param);
++void rtl8188f_download_rsvd_page(PADAPTER padapter, u8 mstatus);
++#ifdef CONFIG_BT_COEXIST
++	void rtl8188f_download_BTCoex_AP_mode_rsvd_page(PADAPTER padapter);
++#endif /* CONFIG_BT_COEXIST */
++#ifdef CONFIG_P2P
++void rtl8188f_set_p2p_ps_offload_cmd(PADAPTER padapter, u8 p2p_ps_state);
++#endif /* CONFIG_P2P */
++
++void CheckFwRsvdPageContent(PADAPTER padapter);
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++void rtl8188f_set_BcnEarly_C2H_Rpt_cmd(PADAPTER padapter, u8 enable);
++#endif
++#endif
++
++#ifdef CONFIG_P2P_WOWLAN
++void rtl8188f_set_p2p_wowlan_offload_cmd(PADAPTER padapter);
++#endif
++
++void rtl8188f_set_FwPwrModeInIPS_cmd(PADAPTER padapter, u8 cmd_param);
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++u8 rtl8188f_reset_tsf(_adapter *padapter, u8 reset_port);
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++s32 FillH2CCmd8188F(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++u8 GetTxBufferRsvdPageNum8188F(_adapter *padapter, bool wowlan);
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8188f_dm.h b/drivers/net/wireless/rtl8723du/include/rtl8188f_dm.h
+new file mode 100644
+index 0000000..78aeab0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8188f_dm.h
+@@ -0,0 +1,47 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188F_DM_H__
++#define __RTL8188F_DM_H__
++/* ************************************************************
++ * Description:
++ *
++ * This file is for 8188F dynamic mechanism only
++ *
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * structure and define
++ * ************************************************************ */
++
++/* ************************************************************
++ * function prototype
++ * ************************************************************ */
++
++void rtl8188f_init_dm_priv(PADAPTER padapter);
++void rtl8188f_deinit_dm_priv(PADAPTER padapter);
++
++void rtl8188f_InitHalDm(PADAPTER padapter);
++void rtl8188f_HalDmWatchDog(PADAPTER padapter);
++void rtl8188f_HalDmWatchDog_in_LPS(PADAPTER padapter);
++void rtl8188f_hal_dm_in_lps(PADAPTER padapter);
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8188f_hal.h b/drivers/net/wireless/rtl8723du/include/rtl8188f_hal.h
+new file mode 100644
+index 0000000..d7dfce5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8188f_hal.h
+@@ -0,0 +1,271 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188F_HAL_H__
++#define __RTL8188F_HAL_H__
++
++#include "hal_data.h"
++
++#include "rtl8188f_spec.h"
++#include "rtl8188f_rf.h"
++#include "rtl8188f_dm.h"
++#include "rtl8188f_recv.h"
++#include "rtl8188f_xmit.h"
++#include "rtl8188f_cmd.h"
++#include "rtl8188f_led.h"
++#include "Hal8188FPwrSeq.h"
++#include "Hal8188FPhyReg.h"
++#include "Hal8188FPhyCfg.h"
++#ifdef DBG_CONFIG_ERROR_DETECT
++#include "rtl8188f_sreset.h"
++#endif
++
++#define FW_8188F_SIZE			0x8000
++#define FW_8188F_START_ADDRESS	0x1000
++#define FW_8188F_END_ADDRESS		0x1FFF /* 0x5FFF */
++
++#define IS_FW_HEADER_EXIST_8188F(_pFwHdr)	((le16_to_cpu(_pFwHdr->Signature) & 0xFFF0) == 0x88F0)
++
++typedef struct _RT_FIRMWARE {
++	FIRMWARE_SOURCE	eFWSource;
++#ifdef CONFIG_EMBEDDED_FWIMG
++	u8			*szFwBuffer;
++#else
++	u8			szFwBuffer[FW_8188F_SIZE];
++#endif
++	u32			ulFwLength;
++} RT_FIRMWARE_8188F, *PRT_FIRMWARE_8188F;
++
++/*
++ * This structure must be cared byte-ordering
++ *
++ * Added by tynli. 2009.12.04. */
++typedef struct _RT_8188F_FIRMWARE_HDR {
++	/* 8-byte alinment required */
++
++	/* --- LONG WORD 0 ---- */
++	u16		Signature;	/* 92C0: test chip; 92C, 88C0: test chip; 88C1: MP A-cut; 92C1: MP A-cut */
++	u8		Category;	/* AP/NIC and USB/PCI */
++	u8		Function;	/* Reserved for different FW function indcation, for further use when driver needs to download different FW in different conditions */
++	u16		Version;		/* FW Version */
++	u16		Subversion;	/* FW Subversion, default 0x00 */
++
++	/* --- LONG WORD 1 ---- */
++	u8		Month;	/* Release time Month field */
++	u8		Date;	/* Release time Date field */
++	u8		Hour;	/* Release time Hour field */
++	u8		Minute;	/* Release time Minute field */
++	u16		RamCodeSize;	/* The size of RAM code */
++	u16		Rsvd2;
++
++	/* --- LONG WORD 2 ---- */
++	u32		SvnIdx;	/* The SVN entry index */
++	u32		Rsvd3;
++
++	/* --- LONG WORD 3 ---- */
++	u32		Rsvd4;
++	u32		Rsvd5;
++} RT_8188F_FIRMWARE_HDR, *PRT_8188F_FIRMWARE_HDR;
++
++#define DRIVER_EARLY_INT_TIME_8188F		0x05
++#define BCN_DMA_ATIME_INT_TIME_8188F		0x02
++
++/* for 8188F
++ * TX 32K, RX 16K, Page size 128B for TX, 8B for RX */
++#define PAGE_SIZE_TX_8188F			128
++#define PAGE_SIZE_RX_8188F			8
++
++#define RX_DMA_SIZE_8188F			0x4000	/* 16K */
++#ifdef CONFIG_FW_C2H_DEBUG
++	#define RX_DMA_RESERVED_SIZE_8188F	0x100	/* 256B, reserved for c2h debug message */
++#else
++	#define RX_DMA_RESERVED_SIZE_8188F	0x80	/* 128B, reserved for tx report */
++#endif
++
++#ifdef CONFIG_WOWLAN
++	#define RESV_FMWF	(WKFMCAM_SIZE * MAX_WKFM_NUM) /* 16 entries, for each is 24 bytes*/
++#else
++	#define RESV_FMWF	0
++#endif
++
++#define RX_DMA_BOUNDARY_8188F		(RX_DMA_SIZE_8188F - RX_DMA_RESERVED_SIZE_8188F - 1)
++
++/* Note: We will divide number of page equally for each queue other than public queue! */
++
++/* For General Reserved Page Number(Beacon Queue is reserved page)
++ * Beacon:2, PS-Poll:1, Null Data:1,Qos Null Data:1,BT Qos Null Data:1 */
++#define BCNQ_PAGE_NUM_8188F		0x08
++#ifdef CONFIG_CONCURRENT_MODE
++	#define BCNQ1_PAGE_NUM_8188F		0x08 /* 0x04 */
++#else
++	#define BCNQ1_PAGE_NUM_8188F		0x00
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++#undef BCNQ1_PAGE_NUM_8188F
++#define BCNQ1_PAGE_NUM_8188F		0x00 /* 0x04 */
++#endif
++
++/* For WoWLan , more reserved page
++ * ARP Rsp:1, RWC:1, GTK Info:1,GTK RSP:2,GTK EXT MEM:2, PNO: 6 */
++#ifdef CONFIG_WOWLAN
++	#define WOWLAN_PAGE_NUM_8188F	0x07
++#else
++	#define WOWLAN_PAGE_NUM_8188F	0x00
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++#undef WOWLAN_PAGE_NUM_8188F
++#define WOWLAN_PAGE_NUM_8188F	0x15
++#endif
++
++#ifdef CONFIG_AP_WOWLAN
++#define AP_WOWLAN_PAGE_NUM_8188F	0x02
++#endif
++
++#define TX_TOTAL_PAGE_NUMBER_8188F	(0xFF - BCNQ_PAGE_NUM_8188F - BCNQ1_PAGE_NUM_8188F - WOWLAN_PAGE_NUM_8188F)
++#define TX_PAGE_BOUNDARY_8188F		(TX_TOTAL_PAGE_NUMBER_8188F + 1)
++
++#define WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8188F	TX_TOTAL_PAGE_NUMBER_8188F
++#define WMM_NORMAL_TX_PAGE_BOUNDARY_8188F		(WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8188F + 1)
++
++/* For Normal Chip Setting
++ * (HPQ + LPQ + NPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER_8188F */
++#define NORMAL_PAGE_NUM_HPQ_8188F		0x0C
++#define NORMAL_PAGE_NUM_LPQ_8188F		0x02
++#define NORMAL_PAGE_NUM_NPQ_8188F		0x02
++
++/* Note: For Normal Chip Setting, modify later */
++#define WMM_NORMAL_PAGE_NUM_HPQ_8188F		0x30
++#define WMM_NORMAL_PAGE_NUM_LPQ_8188F		0x20
++#define WMM_NORMAL_PAGE_NUM_NPQ_8188F		0x20
++
++
++#include "HalVerDef.h"
++#include "hal_com.h"
++
++#define EFUSE_OOB_PROTECT_BYTES		15
++
++#define HAL_EFUSE_MEMORY
++
++#define HWSET_MAX_SIZE_8188F			512
++#define EFUSE_REAL_CONTENT_LEN_8188F		512
++#define EFUSE_MAP_LEN_8188F				512
++#define EFUSE_MAX_SECTION_8188F			64
++
++#define EFUSE_IC_ID_OFFSET			506	/* For some inferiority IC purpose. added by Roger, 2009.09.02. */
++#define AVAILABLE_EFUSE_ADDR(addr)	(addr < EFUSE_REAL_CONTENT_LEN_8188F)
++
++#define EFUSE_ACCESS_ON			0x69	/* For RTL8188 only. */
++#define EFUSE_ACCESS_OFF			0x00	/* For RTL8188 only. */
++
++/* ********************************************************
++ *			EFUSE for BT definition
++ * ******************************************************** */
++#define EFUSE_BT_REAL_BANK_CONTENT_LEN	512
++#define EFUSE_BT_REAL_CONTENT_LEN		1536	/* 512*3 */
++#define EFUSE_BT_MAP_LEN				1024	/* 1k bytes */
++#define EFUSE_BT_MAX_SECTION			128		/* 1024/8 */
++
++#define EFUSE_PROTECT_BYTES_BANK		16
++
++#define INCLUDE_MULTI_FUNC_BT(_Adapter)		(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_BT)
++#define INCLUDE_MULTI_FUNC_GPS(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_GPS)
++
++/* rtl8188a_hal_init.c */
++s32 rtl8188f_FirmwareDownload(PADAPTER padapter, BOOLEAN  bUsedWoWLANFw);
++void rtl8188f_FirmwareSelfReset(PADAPTER padapter);
++void rtl8188f_InitializeFirmwareVars(PADAPTER padapter);
++
++void rtl8188f_InitAntenna_Selection(PADAPTER padapter);
++void rtl8188f_DeinitAntenna_Selection(PADAPTER padapter);
++void rtl8188f_CheckAntenna_Selection(PADAPTER padapter);
++void rtl8188f_init_default_value(PADAPTER padapter);
++
++s32 rtl8188f_InitLLTTable(PADAPTER padapter);
++
++s32 CardDisableHWSM(PADAPTER padapter, u8 resetMCU);
++s32 CardDisableWithoutHWSM(PADAPTER padapter);
++
++/* EFuse */
++u8 GetEEPROMSize8188F(PADAPTER padapter);
++void Hal_InitPGData(PADAPTER padapter, u8 *PROMContent);
++void Hal_EfuseParseIDCode(PADAPTER padapter, u8 *hwinfo);
++void Hal_EfuseParseTxPowerInfo_8188F(PADAPTER padapter, u8 *PROMContent, BOOLEAN AutoLoadFail);
++/* void Hal_EfuseParseBTCoexistInfo_8188F(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail); */
++void Hal_EfuseParseEEPROMVer_8188F(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseChnlPlan_8188F(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseCustomerID_8188F(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParsePowerSavingMode_8188F(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseAntennaDiversity_8188F(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseXtal_8188F(PADAPTER pAdapter, u8 *hwinfo, u8 AutoLoadFail);
++void Hal_EfuseParseThermalMeter_8188F(PADAPTER padapter, u8 *hwinfo, u8 AutoLoadFail);
++void Hal_EfuseParseKFreeData_8188F(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++
++#if 0 /* Do not need for rtl8188f */
++VOID Hal_EfuseParseVoltage_8188F(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN	AutoLoadFail);
++#endif
++
++void rtl8188f_set_pll_ref_clk_sel(_adapter *adapter, u8 sel);
++
++void rtl8188f_set_hal_ops(struct hal_ops *pHalFunc);
++void init_hal_spec_8188f(_adapter *adapter);
++void SetHwReg8188F(PADAPTER padapter, u8 variable, u8 *val);
++void GetHwReg8188F(PADAPTER padapter, u8 variable, u8 *val);
++u8 SetHalDefVar8188F(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++u8 GetHalDefVar8188F(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++
++/* register */
++void rtl8188f_InitBeaconParameters(PADAPTER padapter);
++void rtl8188f_InitBeaconMaxError(PADAPTER padapter, u8 InfraMode);
++void	_InitBurstPktLen_8188FS(PADAPTER Adapter);
++void _8051Reset8188(PADAPTER padapter);
++#ifdef CONFIG_WOWLAN
++void Hal_DetectWoWMode(PADAPTER pAdapter);
++#endif /* CONFIG_WOWLAN */
++
++void rtl8188f_start_thread(_adapter *padapter);
++void rtl8188f_stop_thread(_adapter *padapter);
++
++#if defined(CONFIG_CHECK_BT_HANG) && defined(CONFIG_BT_COEXIST)
++	void rtl8188fs_init_checkbthang_workqueue(_adapter *adapter);
++	void rtl8188fs_free_checkbthang_workqueue(_adapter *adapter);
++	void rtl8188fs_cancle_checkbthang_workqueue(_adapter *adapter);
++	void rtl8188fs_hal_check_bt_hang(_adapter *adapter);
++#endif
++
++#ifdef CONFIG_GPIO_WAKEUP
++void HalSetOutPutGPIO(PADAPTER padapter, u8 index, u8 OutPutValue);
++#endif
++
++#ifdef CONFIG_MP_INCLUDED
++int FirmwareDownloadBT(IN PADAPTER Adapter, PRT_MP_FIRMWARE pFirmware);
++#endif
++
++void CCX_FwC2HTxRpt_8188f(PADAPTER padapter, u8 *pdata, u8 len);
++
++u8 MRateToHwRate8188F(u8  rate);
++u8 HwRateToMRate8188F(u8	 rate);
++
++#ifdef CONFIG_PCI_HCI
++BOOLEAN	InterruptRecognized8188FE(PADAPTER Adapter);
++VOID	UpdateInterruptMask8188FE(PADAPTER Adapter, u32 AddMSR, u32 AddMSR1, u32 RemoveMSR, u32 RemoveMSR1);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8188f_led.h b/drivers/net/wireless/rtl8723du/include/rtl8188f_led.h
+new file mode 100644
+index 0000000..232ede5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8188f_led.h
+@@ -0,0 +1,48 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188F_LED_H__
++#define __RTL8188F_LED_H__
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++
++/* ********************************************************************************
++ * Interface to manipulate LED objects.
++ * ******************************************************************************** */
++#ifdef CONFIG_USB_HCI
++void rtl8188fu_InitSwLeds(PADAPTER padapter);
++void rtl8188fu_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_SDIO_HCI
++void rtl8188fs_InitSwLeds(PADAPTER padapter);
++void rtl8188fs_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_GSPI_HCI
++void rtl8188fs_InitSwLeds(PADAPTER padapter);
++void rtl8188fs_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_PCI_HCI
++void rtl8188fe_InitSwLeds(PADAPTER padapter);
++void rtl8188fe_DeInitSwLeds(PADAPTER padapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8188f_recv.h b/drivers/net/wireless/rtl8723du/include/rtl8188f_recv.h
+new file mode 100644
+index 0000000..a5bfb54
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8188f_recv.h
+@@ -0,0 +1,72 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188F_RECV_H__
++#define __RTL8188F_RECV_H__
++
++#if defined(CONFIG_USB_HCI)
++	#ifndef MAX_RECVBUF_SZ
++		#ifdef PLATFORM_OS_CE
++			#define MAX_RECVBUF_SZ (8192+1024) /* 8K+1k */
++		#else
++			#ifdef CONFIG_MINIMAL_MEMORY_USAGE
++				#define MAX_RECVBUF_SZ (4000) /* about 4K */
++			#else
++				#ifdef CONFIG_PLATFORM_MSTAR
++					#define MAX_RECVBUF_SZ (8192) /* 8K */
++				#elif defined(CONFIG_PLATFORM_HISILICON)
++					#define MAX_RECVBUF_SZ (16384) /* 16k */
++				#else
++					#define MAX_RECVBUF_SZ (32768) /* 32k */
++				#endif
++				/* #define MAX_RECVBUF_SZ (20480) */ /* 20K */
++				/* #define MAX_RECVBUF_SZ (10240)  */ /* 10K */
++				/* #define MAX_RECVBUF_SZ (16384) */ /* 16k - 92E RX BUF :16K */
++				/* #define MAX_RECVBUF_SZ (8192+1024) */ /* 8K+1k		 */
++			#endif
++		#endif
++	#endif /* !MAX_RECVBUF_SZ */
++#elif defined(CONFIG_PCI_HCI)
++	#define MAX_RECVBUF_SZ (4000) /* about 4K */
++#elif defined(CONFIG_SDIO_HCI)
++	#define MAX_RECVBUF_SZ (RX_DMA_BOUNDARY_8188F + 1)
++#endif /* CONFIG_SDIO_HCI */
++
++/* Rx smooth factor */
++#define	Rx_Smooth_Factor (20)
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++s32 rtl8188fs_init_recv_priv(PADAPTER padapter);
++void rtl8188fs_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_USB_HCI
++int rtl8188fu_init_recv_priv(_adapter *padapter);
++void rtl8188fu_free_recv_priv(_adapter *padapter);
++void rtl8188fu_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++s32 rtl8188fe_init_recv_priv(PADAPTER padapter);
++void rtl8188fe_free_recv_priv(PADAPTER padapter);
++#endif
++
++void rtl8188f_query_rx_desc_status(union recv_frame *precvframe, u8 *pdesc);
++
++#endif /* __RTL8188F_RECV_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8188f_rf.h b/drivers/net/wireless/rtl8723du/include/rtl8188f_rf.h
+new file mode 100644
+index 0000000..185d2d0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8188f_rf.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188F_RF_H__
++#define __RTL8188F_RF_H__
++
++int	PHY_RF6052_Config8188F(IN	PADAPTER		Adapter);
++
++VOID
++PHY_RF6052SetBandwidth8188F(
++	IN	PADAPTER				Adapter,
++	IN	CHANNEL_WIDTH		Bandwidth);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8188f_spec.h b/drivers/net/wireless/rtl8723du/include/rtl8188f_spec.h
+new file mode 100644
+index 0000000..23de47e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8188f_spec.h
+@@ -0,0 +1,303 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#ifndef __RTL8188F_SPEC_H__
++#define __RTL8188F_SPEC_H__
++
++#include <drv_conf.h>
++
++
++#define HAL_NAV_UPPER_UNIT_8188F		128		/* micro-second */
++
++/* -----------------------------------------------------
++ *
++ *	0x0000h ~ 0x00FFh	System Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RSV_CTRL_8188F				0x001C	/* 3 Byte */
++#define REG_BT_WIFI_ANTENNA_SWITCH_8188F	0x0038
++#define REG_HSISR_8188F					0x005c
++#define REG_PAD_CTRL1_8188F		0x0064
++#define REG_AFE_CTRL_4_8188F		0x0078
++#define REG_HMEBOX_DBG_0_8188F	0x0088
++#define REG_HMEBOX_DBG_1_8188F	0x008A
++#define REG_HMEBOX_DBG_2_8188F	0x008C
++#define REG_HMEBOX_DBG_3_8188F	0x008E
++#define REG_HIMR0_8188F					0x00B0
++#define REG_HISR0_8188F					0x00B4
++#define REG_HIMR1_8188F					0x00B8
++#define REG_HISR1_8188F					0x00BC
++#define REG_PMC_DBG_CTRL2_8188F			0x00CC
++
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_C2HEVT_CMD_ID_8188F	0x01A0
++#define REG_C2HEVT_CMD_LEN_8188F	0x01AE
++#define REG_WOWLAN_WAKE_REASON 0x01C7
++#define REG_WOWLAN_GTK_DBG1	0x630
++#define REG_WOWLAN_GTK_DBG2	0x634
++
++#define REG_HMEBOX_EXT0_8188F			0x01F0
++#define REG_HMEBOX_EXT1_8188F			0x01F4
++#define REG_HMEBOX_EXT2_8188F			0x01F8
++#define REG_HMEBOX_EXT3_8188F			0x01FC
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RXDMA_CONTROL_8188F		0x0286 /* Control the RX DMA. */
++#define REG_RXDMA_MODE_CTRL_8188F		0x0290
++
++/* -----------------------------------------------------
++ *
++ *	0x0300h ~ 0x03FFh	PCIe
++ *
++ * ----------------------------------------------------- */
++#define	REG_PCIE_CTRL_REG_8188F		0x0300
++#define	REG_INT_MIG_8188F				0x0304	/* Interrupt Migration */
++#define	REG_BCNQ_DESA_8188F			0x0308	/* TX Beacon Descriptor Address */
++#define	REG_HQ_DESA_8188F				0x0310	/* TX High Queue Descriptor Address */
++#define	REG_MGQ_DESA_8188F			0x0318	/* TX Manage Queue Descriptor Address */
++#define	REG_VOQ_DESA_8188F			0x0320	/* TX VO Queue Descriptor Address */
++#define	REG_VIQ_DESA_8188F				0x0328	/* TX VI Queue Descriptor Address */
++#define	REG_BEQ_DESA_8188F			0x0330	/* TX BE Queue Descriptor Address */
++#define	REG_BKQ_DESA_8188F			0x0338	/* TX BK Queue Descriptor Address */
++#define	REG_RX_DESA_8188F				0x0340	/* RX Queue	Descriptor Address */
++#define	REG_DBI_WDATA_8188F			0x0348	/* DBI Write Data */
++#define	REG_DBI_RDATA_8188F			0x034C	/* DBI Read Data */
++#define	REG_DBI_ADDR_8188F				0x0350	/* DBI Address */
++#define	REG_DBI_FLAG_8188F				0x0352	/* DBI Read/Write Flag */
++#define	REG_MDIO_WDATA_8188F		0x0354	/* MDIO for Write PCIE PHY */
++#define	REG_MDIO_RDATA_8188F			0x0356	/* MDIO for Reads PCIE PHY */
++#define	REG_MDIO_CTL_8188F			0x0358	/* MDIO for Control */
++#define	REG_DBG_SEL_8188F				0x0360	/* Debug Selection Register */
++#define	REG_PCIE_HRPWM_8188F			0x0361	/* PCIe RPWM */
++#define	REG_PCIE_HCPWM_8188F			0x0363	/* PCIe CPWM */
++#define	REG_PCIE_MULTIFET_CTRL_8188F	0x036A	/* PCIE Multi-Fethc Control */
++
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_TXPKTBUF_BCNQ_BDNY_8188F	0x0424
++#define REG_TXPKTBUF_MGQ_BDNY_8188F	0x0425
++#define REG_TXPKTBUF_WMAC_LBK_BF_HD_8188F	0x045D
++#ifdef CONFIG_WOWLAN
++#define REG_TXPKTBUF_IV_LOW             0x0484
++#define REG_TXPKTBUF_IV_HIGH            0x0488
++#endif
++#define REG_AMPDU_BURST_MODE_8188F	0x04BC
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_SECONDARY_CCA_CTRL_8188F	0x0577
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++
++
++/* ************************************************************
++ * SDIO Bus Specification
++ * ************************************************************ */
++
++/* -----------------------------------------------------
++ * SDIO CMD Address Mapping
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * I/O bus domain (Host)
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * SDIO register
++ * ----------------------------------------------------- */
++#define SDIO_REG_HIQ_FREEPG_8188F		0x0020
++#define SDIO_REG_MID_FREEPG_8188F		0x0022
++#define SDIO_REG_LOW_FREEPG_8188F		0x0024
++#define SDIO_REG_PUB_FREEPG_8188F		0x0026
++#define SDIO_REG_EXQ_FREEPG_8188F		0x0028
++#define SDIO_REG_AC_OQT_FREEPG_8188F	0x002A
++#define SDIO_REG_NOAC_OQT_FREEPG_8188F	0x002B
++
++#define SDIO_REG_HCPWM1_8188F			0x0038
++
++/* indirect access */
++#define SDIO_REG_INDIRECT_REG_CFG_8188F		0x40
++#define SET_INDIRECT_REG_ADDR(_cmd, _addr)	SET_BITS_TO_LE_2BYTE(((u8 *)(_cmd)) + 0, 0, 16, (_addr))
++#define SET_INDIRECT_REG_SIZE_1BYTE(_cmd)	SET_BITS_TO_LE_1BYTE(((u8 *)(_cmd)) + 2, 0, 2, 0)
++#define SET_INDIRECT_REG_SIZE_2BYTE(_cmd)	SET_BITS_TO_LE_1BYTE(((u8 *)(_cmd)) + 2, 0, 2, 1)
++#define SET_INDIRECT_REG_SIZE_4BYTE(_cmd)	SET_BITS_TO_LE_1BYTE(((u8 *)(_cmd)) + 2, 0, 2, 2)
++#define SET_INDIRECT_REG_WRITE(_cmd)		SET_BITS_TO_LE_1BYTE(((u8 *)(_cmd)) + 2, 2, 1, 1)
++#define SET_INDIRECT_REG_READ(_cmd)			SET_BITS_TO_LE_1BYTE(((u8 *)(_cmd)) + 2, 3, 1, 1)
++#define GET_INDIRECT_REG_RDY(_cmd)			LE_BITS_TO_1BYTE(((u8 *)(_cmd)) + 2, 4, 1)
++
++#define SDIO_REG_INDIRECT_REG_DATA_8188F	0x44
++
++/* ****************************************************************************
++ *	8188 Regsiter Bit and Content definition
++ * **************************************************************************** */
++
++/* 2 HSISR
++ * interrupt mask which needs to clear */
++#define MASK_HSISR_CLEAR		(HSISR_GPIO12_0_INT |\
++		HSISR_SPS_OCP_INT |\
++		HSISR_RON_INT |\
++		HSISR_PDNINT |\
++		HSISR_GPIO9_INT)
++
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define BIT_USB_RXDMA_AGG_EN	BIT(31)
++#define RXDMA_AGG_MODE_EN		BIT(1)
++
++#ifdef CONFIG_WOWLAN
++#define RXPKT_RELEASE_POLL		BIT(16)
++#define RXDMA_IDLE				BIT(17)
++#define RW_RELEASE_EN			BIT(18)
++#endif
++
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* ----------------------------------------------------------------------------
++ * 8188F REG_CCK_CHECK						(offset 0x454)
++ * ---------------------------------------------------------------------------- */
++#define BIT_BCN_PORT_SEL		BIT5
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* ----------------------------------------------------------------------------
++ * 8195 IMR/ISR bits						(offset 0xB0,  8bits)
++ * ---------------------------------------------------------------------------- */
++#define	IMR_DISABLED_8188F					0
++/* IMR DW0(0x00B0-00B3) Bit 0-31 */
++#define	IMR_TIMER2_8188F					BIT31		/* Timeout interrupt 2 */
++#define	IMR_TIMER1_8188F					BIT30		/* Timeout interrupt 1	 */
++#define	IMR_PSTIMEOUT_8188F				BIT29		/* Power Save Time Out Interrupt */
++#define	IMR_GTINT4_8188F					BIT28		/* When GTIMER4 expires, this bit is set to 1	 */
++#define	IMR_GTINT3_8188F					BIT27		/* When GTIMER3 expires, this bit is set to 1	 */
++#define	IMR_TXBCN0ERR_8188F				BIT26		/* Transmit Beacon0 Error			 */
++#define	IMR_TXBCN0OK_8188F				BIT25		/* Transmit Beacon0 OK			 */
++#define	IMR_TSF_BIT32_TOGGLE_8188F		BIT24		/* TSF Timer BIT32 toggle indication interrupt			 */
++#define	IMR_BCNDMAINT0_8188F				BIT20		/* Beacon DMA Interrupt 0			 */
++#define	IMR_BCNDERR0_8188F				BIT16		/* Beacon Queue DMA OK0			 */
++#define	IMR_HSISR_IND_ON_INT_8188F		BIT15		/* HSISR Indicator (HSIMR & HSISR is true, this bit is set to 1) */
++#define	IMR_BCNDMAINT_E_8188F			BIT14		/* Beacon DMA Interrupt Extension for Win7			 */
++#define	IMR_ATIMEND_8188F				BIT12		/* CTWidnow End or ATIM Window End */
++#define	IMR_C2HCMD_8188F					BIT10		/* CPU to Host Command INT Status, Write 1 clear	 */
++#define	IMR_CPWM2_8188F					BIT9			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_CPWM_8188F					BIT8			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_HIGHDOK_8188F				BIT7			/* High Queue DMA OK	 */
++#define	IMR_MGNTDOK_8188F				BIT6			/* Management Queue DMA OK	 */
++#define	IMR_BKDOK_8188F					BIT5			/* AC_BK DMA OK		 */
++#define	IMR_BEDOK_8188F					BIT4			/* AC_BE DMA OK	 */
++#define	IMR_VIDOK_8188F					BIT3			/* AC_VI DMA OK		 */
++#define	IMR_VODOK_8188F					BIT2			/* AC_VO DMA OK	 */
++#define	IMR_RDU_8188F					BIT1			/* Rx Descriptor Unavailable	 */
++#define	IMR_ROK_8188F					BIT0			/* Receive DMA OK */
++
++/* IMR DW1(0x00B4-00B7) Bit 0-31 */
++#define	IMR_BCNDMAINT7_8188F				BIT27		/* Beacon DMA Interrupt 7 */
++#define	IMR_BCNDMAINT6_8188F				BIT26		/* Beacon DMA Interrupt 6 */
++#define	IMR_BCNDMAINT5_8188F				BIT25		/* Beacon DMA Interrupt 5 */
++#define	IMR_BCNDMAINT4_8188F				BIT24		/* Beacon DMA Interrupt 4 */
++#define	IMR_BCNDMAINT3_8188F				BIT23		/* Beacon DMA Interrupt 3 */
++#define	IMR_BCNDMAINT2_8188F				BIT22		/* Beacon DMA Interrupt 2 */
++#define	IMR_BCNDMAINT1_8188F				BIT21		/* Beacon DMA Interrupt 1 */
++#define	IMR_BCNDOK7_8188F					BIT20		/* Beacon Queue DMA OK Interrup 7 */
++#define	IMR_BCNDOK6_8188F					BIT19		/* Beacon Queue DMA OK Interrup 6 */
++#define	IMR_BCNDOK5_8188F					BIT18		/* Beacon Queue DMA OK Interrup 5 */
++#define	IMR_BCNDOK4_8188F					BIT17		/* Beacon Queue DMA OK Interrup 4 */
++#define	IMR_BCNDOK3_8188F					BIT16		/* Beacon Queue DMA OK Interrup 3 */
++#define	IMR_BCNDOK2_8188F					BIT15		/* Beacon Queue DMA OK Interrup 2 */
++#define	IMR_BCNDOK1_8188F					BIT14		/* Beacon Queue DMA OK Interrup 1 */
++#define	IMR_ATIMEND_E_8188F				BIT13		/* ATIM Window End Extension for Win7 */
++#define	IMR_TXERR_8188F					BIT11		/* Tx Error Flag Interrupt Status, write 1 clear. */
++#define	IMR_RXERR_8188F					BIT10		/* Rx Error Flag INT Status, Write 1 clear */
++#define	IMR_TXFOVW_8188F					BIT9			/* Transmit FIFO Overflow */
++#define	IMR_RXFOVW_8188F					BIT8			/* Receive FIFO Overflow */
++
++#ifdef CONFIG_PCI_HCI
++/* #define IMR_RX_MASK		(IMR_ROK_8188F|IMR_RDU_8188F|IMR_RXFOVW_8188F) */
++#define IMR_TX_MASK			(IMR_VODOK_8188F | IMR_VIDOK_8188F | IMR_BEDOK_8188F | IMR_BKDOK_8188F | IMR_MGNTDOK_8188F | IMR_HIGHDOK_8188F)
++
++#define RT_BCN_INT_MASKS	(IMR_BCNDMAINT0_8188F | IMR_TXBCN0OK_8188F | IMR_TXBCN0ERR_8188F | IMR_BCNDERR0_8188F)
++
++#define RT_AC_INT_MASKS	(IMR_VIDOK_8188F | IMR_VODOK_8188F | IMR_BEDOK_8188F | IMR_BKDOK_8188F)
++#endif
++
++/* ********************************************************
++ * General definitions
++ * ******************************************************** */
++
++#define MACID_NUM_8188F 16
++#define SEC_CAM_ENT_NUM_8188F 16
++#define HW_PORT_NUM_8188F	2
++#define NSS_NUM_8188F 1
++#define BAND_CAP_8188F (BAND_CAP_2G)
++#define BW_CAP_8188F (BW_CAP_20M | BW_CAP_40M)
++#define PROTO_CAP_8188F (PROTO_CAP_11B | PROTO_CAP_11G | PROTO_CAP_11N)
++
++#endif /* __RTL8188F_SPEC_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8188f_sreset.h b/drivers/net/wireless/rtl8723du/include/rtl8188f_sreset.h
+new file mode 100644
+index 0000000..ef5b0ff
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8188f_sreset.h
+@@ -0,0 +1,29 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8188F_SRESET_H_
++#define _RTL8188F_SRESET_H_
++
++#include <rtw_sreset.h>
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++extern void rtl8188f_sreset_xmit_status_check(_adapter *padapter);
++extern void rtl8188f_sreset_linked_status_check(_adapter *padapter);
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8188f_xmit.h b/drivers/net/wireless/rtl8723du/include/rtl8188f_xmit.h
+new file mode 100644
+index 0000000..be88ca4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8188f_xmit.h
+@@ -0,0 +1,338 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188F_XMIT_H__
++#define __RTL8188F_XMIT_H__
++
++
++#define MAX_TID (15)
++
++
++#ifndef __INC_HAL8188FDESC_H
++#define __INC_HAL8188FDESC_H
++
++#define RX_STATUS_DESC_SIZE_8188F		24
++#define RX_DRV_INFO_SIZE_UNIT_8188F 8
++
++
++/* DWORD 0 */
++#define SET_RX_STATUS_DESC_PKT_LEN_8188F(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++#define SET_RX_STATUS_DESC_EOR_8188F(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 30, 1, __Value)
++#define SET_RX_STATUS_DESC_OWN_8188F(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 31, 1, __Value)
++
++#define GET_RX_STATUS_DESC_PKT_LEN_8188F(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 0, 14)
++#define GET_RX_STATUS_DESC_CRC32_8188F(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 14, 1)
++#define GET_RX_STATUS_DESC_ICV_8188F(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++#define GET_RX_STATUS_DESC_DRVINFO_SIZE_8188F(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 4)
++#define GET_RX_STATUS_DESC_SECURITY_8188F(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 20, 3)
++#define GET_RX_STATUS_DESC_QOS_8188F(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 23, 1)
++#define GET_RX_STATUS_DESC_SHIFT_8188F(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 24, 2)
++#define GET_RX_STATUS_DESC_PHY_STATUS_8188F(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 26, 1)
++#define GET_RX_STATUS_DESC_SWDEC_8188F(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 27, 1)
++#define GET_RX_STATUS_DESC_LAST_SEG_8188F(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 28, 1)
++#define GET_RX_STATUS_DESC_FIRST_SEG_8188F(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 29, 1)
++#define GET_RX_STATUS_DESC_EOR_8188F(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 30, 1)
++#define GET_RX_STATUS_DESC_OWN_8188F(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 31, 1)
++
++/* DWORD 1 */
++#define GET_RX_STATUS_DESC_MACID_8188F(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 0, 7)
++#define GET_RX_STATUS_DESC_TID_8188F(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 8, 4)
++#define GET_RX_STATUS_DESC_AMSDU_8188F(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 13, 1)
++#define GET_RX_STATUS_DESC_RXID_MATCH_8188F(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+4, 14, 1)
++#define GET_RX_STATUS_DESC_PAGGR_8188F(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 15, 1)
++#define GET_RX_STATUS_DESC_A1_FIT_8188F(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 16, 4)
++#define GET_RX_STATUS_DESC_CHKERR_8188F(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 20, 1)
++#define GET_RX_STATUS_DESC_IPVER_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 21, 1)
++#define GET_RX_STATUS_DESC_IS_TCPUDP__8188F(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+4, 22, 1)
++#define GET_RX_STATUS_DESC_CHK_VLD_8188F(__pRxDesc)	LE_BITS_TO_4BYTE(__pRxDesc+4, 23, 1)
++#define GET_RX_STATUS_DESC_PAM_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 24, 1)
++#define GET_RX_STATUS_DESC_PWR_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 25, 1)
++#define GET_RX_STATUS_DESC_MORE_DATA_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 26, 1)
++#define GET_RX_STATUS_DESC_MORE_FRAG_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 27, 1)
++#define GET_RX_STATUS_DESC_TYPE_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 28, 2)
++#define GET_RX_STATUS_DESC_MC_8188F(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 30, 1)
++#define GET_RX_STATUS_DESC_BC_8188F(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 31, 1)
++
++/* DWORD 2 */
++#define GET_RX_STATUS_DESC_SEQ_8188F(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 0, 12)
++#define GET_RX_STATUS_DESC_FRAG_8188F(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 12, 4)
++#define GET_RX_STATUS_DESC_RX_IS_QOS_8188F(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 16, 1)
++#define GET_RX_STATUS_DESC_WLANHD_IV_LEN_8188F(__pRxStatusDesc)	LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 18, 6)
++#define GET_RX_STATUS_DESC_RPT_SEL_8188F(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 28, 1)
++
++/* DWORD 3 */
++#define GET_RX_STATUS_DESC_RX_RATE_8188F(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 0, 7)
++#define GET_RX_STATUS_DESC_HTC_8188F(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 10, 1)
++#define GET_RX_STATUS_DESC_EOSP_8188F(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 11, 1)
++#define GET_RX_STATUS_DESC_BSSID_FIT_8188F(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 12, 2)
++#ifdef CONFIG_USB_RX_AGGREGATION
++#define GET_RX_STATUS_DESC_USB_AGG_PKTNUM_8188F(__pRxStatusDesc)	LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 16, 8)
++#endif
++#define GET_RX_STATUS_DESC_PATTERN_MATCH_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 29, 1)
++#define GET_RX_STATUS_DESC_UNICAST_MATCH_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 30, 1)
++#define GET_RX_STATUS_DESC_MAGIC_MATCH_8188F(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+12, 31, 1)
++
++/* DWORD 6 */
++#define GET_RX_STATUS_DESC_SPLCP_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 0, 1)
++#define GET_RX_STATUS_DESC_LDPC_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 1, 1)
++#define GET_RX_STATUS_DESC_STBC_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 2, 1)
++#define GET_RX_STATUS_DESC_BW_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 4, 2)
++
++/* DWORD 5 */
++#define GET_RX_STATUS_DESC_TSFL_8188F(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+20, 0, 32)
++
++#define GET_RX_STATUS_DESC_BUFF_ADDR_8188F(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+24, 0, 32)
++#define GET_RX_STATUS_DESC_BUFF_ADDR64_8188F(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+28, 0, 32)
++
++#define SET_RX_STATUS_DESC_BUFF_ADDR_8188F(__pRxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pRxDesc+24, 0, 32, __Value)
++
++
++/* Dword 0 */
++#define GET_TX_DESC_OWN_8188F(__pTxDesc)				LE_BITS_TO_4BYTE(__pTxDesc, 31, 1)
++
++#define SET_TX_DESC_PKT_SIZE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 16, __Value)
++#define SET_TX_DESC_OFFSET_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 8, __Value)
++#define SET_TX_DESC_BMC_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 24, 1, __Value)
++#define SET_TX_DESC_HTC_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 25, 1, __Value)
++#define SET_TX_DESC_LAST_SEG_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 26, 1, __Value)
++#define SET_TX_DESC_FIRST_SEG_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 27, 1, __Value)
++#define SET_TX_DESC_LINIP_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 28, 1, __Value)
++#define SET_TX_DESC_NO_ACM_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 29, 1, __Value)
++#define SET_TX_DESC_GF_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 30, 1, __Value)
++#define SET_TX_DESC_OWN_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 31, 1, __Value)
++
++/* Dword 1 */
++#define SET_TX_DESC_MACID_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 7, __Value)
++#define SET_TX_DESC_QUEUE_SEL_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 8, 5, __Value)
++#define SET_TX_DESC_RDG_NAV_EXT_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 13, 1, __Value)
++#define SET_TX_DESC_LSIG_TXOP_EN_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 14, 1, __Value)
++#define SET_TX_DESC_PIFS_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 15, 1, __Value)
++#define SET_TX_DESC_RATE_ID_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 16, 5, __Value)
++#define SET_TX_DESC_EN_DESC_ID_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 21, 1, __Value)
++#define SET_TX_DESC_SEC_TYPE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 22, 2, __Value)
++#define SET_TX_DESC_PKT_OFFSET_8188F(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 24, 5, __Value)
++
++
++/* Dword 2 */
++#define SET_TX_DESC_PAID_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 0,  9, __Value)
++#define SET_TX_DESC_CCA_RTS_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 10, 2, __Value)
++#define SET_TX_DESC_AGG_ENABLE_8188F(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 12, 1, __Value)
++#define SET_TX_DESC_RDG_ENABLE_8188F(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 13, 1, __Value)
++#define SET_TX_DESC_AGG_BREAK_8188F(__pTxDesc, __Value)				SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 16, 1, __Value)
++#define SET_TX_DESC_MORE_FRAG_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 17, 1, __Value)
++#define SET_TX_DESC_RAW_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 18, 1, __Value)
++#define SET_TX_DESC_SPE_RPT_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 19, 1, __Value)
++#define SET_TX_DESC_AMPDU_DENSITY_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 20, 3, __Value)
++#define SET_TX_DESC_BT_INT_8188F(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 23, 1, __Value)
++#define SET_TX_DESC_GID_8188F(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 24, 6, __Value)
++
++
++/* Dword 3 */
++#define SET_TX_DESC_WHEADER_LEN_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 0, 4, __Value)
++#define SET_TX_DESC_CHK_EN_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 4, 1, __Value)
++#define SET_TX_DESC_EARLY_MODE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 5, 1, __Value)
++#define SET_TX_DESC_HWSEQ_SEL_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 6, 2, __Value)
++#define SET_TX_DESC_USE_RATE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 8, 1, __Value)
++#define SET_TX_DESC_DISABLE_RTS_FB_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 9, 1, __Value)
++#define SET_TX_DESC_DISABLE_FB_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 10, 1, __Value)
++#define SET_TX_DESC_CTS2SELF_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 11, 1, __Value)
++#define SET_TX_DESC_RTS_ENABLE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 12, 1, __Value)
++#define SET_TX_DESC_HW_RTS_ENABLE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 13, 1, __Value)
++#define SET_TX_DESC_NAV_USE_HDR_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 15, 1, __Value)
++#define SET_TX_DESC_USE_MAX_LEN_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 16, 1, __Value)
++#define SET_TX_DESC_MAX_AGG_NUM_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 17, 5, __Value)
++#define SET_TX_DESC_NDPA_8188F(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 22, 2, __Value)
++#define SET_TX_DESC_AMPDU_MAX_TIME_8188F(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 24, 8, __Value)
++
++/* Dword 4 */
++#define SET_TX_DESC_TX_RATE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 0, 7, __Value)
++#define SET_TX_DESC_DATA_RATE_FB_LIMIT_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 8, 5, __Value)
++#define SET_TX_DESC_RTS_RATE_FB_LIMIT_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 13, 4, __Value)
++#define SET_TX_DESC_RETRY_LIMIT_ENABLE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 17, 1, __Value)
++#define SET_TX_DESC_DATA_RETRY_LIMIT_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 18, 6, __Value)
++#define SET_TX_DESC_RTS_RATE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 24, 5, __Value)
++
++
++/* Dword 5 */
++#define SET_TX_DESC_DATA_SC_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 0, 4, __Value)
++#define SET_TX_DESC_DATA_SHORT_8188F(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 4, 1, __Value)
++#define SET_TX_DESC_DATA_BW_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 5, 2, __Value)
++#define SET_TX_DESC_DATA_LDPC_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 7, 1, __Value)
++#define SET_TX_DESC_DATA_STBC_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 8, 2, __Value)
++#define SET_TX_DESC_CTROL_STBC_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 10, 2, __Value)
++#define SET_TX_DESC_RTS_SHORT_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 12, 1, __Value)
++#define SET_TX_DESC_RTS_SC_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 13, 4, __Value)
++
++
++/* Dword 6 */
++#define SET_TX_DESC_SW_DEFINE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 0, 12, __Value)
++#define SET_TX_DESC_MBSSID_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 12, 4, __Value)
++#define SET_TX_DESC_ANTSEL_A_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 16, 3, __Value)
++#define SET_TX_DESC_ANTSEL_B_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 19, 3, __Value)
++#define SET_TX_DESC_ANTSEL_C_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 22, 3, __Value)
++#define SET_TX_DESC_ANTSEL_D_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 25, 3, __Value)
++
++/* Dword 7 */
++#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++#define SET_TX_DESC_TX_BUFFER_SIZE_8188F(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#else
++#define SET_TX_DESC_TX_DESC_CHECKSUM_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#endif
++#define SET_TX_DESC_USB_TXAGG_NUM_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 24, 8, __Value)
++#if (DEV_BUS_TYPE == RT_SDIO_INTERFACE)
++#define SET_TX_DESC_SDIO_TXSEQ_8188F(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 16, 8, __Value)
++#endif
++
++/* Dword 8 */
++#define SET_TX_DESC_HWSEQ_EN_8188F(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 15, 1, __Value)
++
++/* Dword 9 */
++#define SET_TX_DESC_SEQ_8188F(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 12, 12, __Value)
++
++/* Dword 10 */
++#define SET_TX_DESC_TX_BUFFER_ADDRESS_8188F(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+40, 0, 32, __Value)
++#define GET_TX_DESC_TX_BUFFER_ADDRESS_8188F(__pTxDesc)	LE_BITS_TO_4BYTE(__pTxDesc+40, 0, 32)
++
++/* Dword 11 */
++#define SET_TX_DESC_NEXT_DESC_ADDRESS_8188F(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+48, 0, 32, __Value)
++
++
++#define SET_EARLYMODE_PKTNUM_8188F(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 0, 4, __Value)
++#define SET_EARLYMODE_LEN0_8188F(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 4, 15, __Value)
++#define SET_EARLYMODE_LEN1_1_8188F(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 19, 13, __Value)
++#define SET_EARLYMODE_LEN1_2_8188F(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 2, __Value)
++#define SET_EARLYMODE_LEN2_8188F(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 2, 15,	__Value)
++#define SET_EARLYMODE_LEN3_8188F(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 17, 15, __Value)
++
++#endif
++/* -----------------------------------------------------------
++ *
++ *	Rate
++ *
++ * -----------------------------------------------------------
++ * CCK Rates, TxHT = 0 */
++#define DESC8188F_RATE1M				0x00
++#define DESC8188F_RATE2M				0x01
++#define DESC8188F_RATE5_5M				0x02
++#define DESC8188F_RATE11M				0x03
++
++/* OFDM Rates, TxHT = 0 */
++#define DESC8188F_RATE6M				0x04
++#define DESC8188F_RATE9M				0x05
++#define DESC8188F_RATE12M				0x06
++#define DESC8188F_RATE18M				0x07
++#define DESC8188F_RATE24M				0x08
++#define DESC8188F_RATE36M				0x09
++#define DESC8188F_RATE48M				0x0a
++#define DESC8188F_RATE54M				0x0b
++
++/* MCS Rates, TxHT = 1 */
++#define DESC8188F_RATEMCS0				0x0c
++#define DESC8188F_RATEMCS1				0x0d
++#define DESC8188F_RATEMCS2				0x0e
++#define DESC8188F_RATEMCS3				0x0f
++#define DESC8188F_RATEMCS4				0x10
++#define DESC8188F_RATEMCS5				0x11
++#define DESC8188F_RATEMCS6				0x12
++#define DESC8188F_RATEMCS7				0x13
++#define DESC8188F_RATEMCS8				0x14
++#define DESC8188F_RATEMCS9				0x15
++#define DESC8188F_RATEMCS10		0x16
++#define DESC8188F_RATEMCS11		0x17
++#define DESC8188F_RATEMCS12		0x18
++#define DESC8188F_RATEMCS13		0x19
++#define DESC8188F_RATEMCS14		0x1a
++#define DESC8188F_RATEMCS15		0x1b
++#define DESC8188F_RATEVHTSS1MCS0		0x2c
++#define DESC8188F_RATEVHTSS1MCS1		0x2d
++#define DESC8188F_RATEVHTSS1MCS2		0x2e
++#define DESC8188F_RATEVHTSS1MCS3		0x2f
++#define DESC8188F_RATEVHTSS1MCS4		0x30
++#define DESC8188F_RATEVHTSS1MCS5		0x31
++#define DESC8188F_RATEVHTSS1MCS6		0x32
++#define DESC8188F_RATEVHTSS1MCS7		0x33
++#define DESC8188F_RATEVHTSS1MCS8		0x34
++#define DESC8188F_RATEVHTSS1MCS9		0x35
++#define DESC8188F_RATEVHTSS2MCS0		0x36
++#define DESC8188F_RATEVHTSS2MCS1		0x37
++#define DESC8188F_RATEVHTSS2MCS2		0x38
++#define DESC8188F_RATEVHTSS2MCS3		0x39
++#define DESC8188F_RATEVHTSS2MCS4		0x3a
++#define DESC8188F_RATEVHTSS2MCS5		0x3b
++#define DESC8188F_RATEVHTSS2MCS6		0x3c
++#define DESC8188F_RATEVHTSS2MCS7		0x3d
++#define DESC8188F_RATEVHTSS2MCS8		0x3e
++#define DESC8188F_RATEVHTSS2MCS9		0x3f
++
++
++#define	RX_HAL_IS_CCK_RATE_8188F(pDesc)\
++	(GET_RX_STATUS_DESC_RX_RATE_8188F(pDesc) == DESC8188F_RATE1M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8188F(pDesc) == DESC8188F_RATE2M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8188F(pDesc) == DESC8188F_RATE5_5M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8188F(pDesc) == DESC8188F_RATE11M)
++
++
++void rtl8188f_update_txdesc(struct xmit_frame *pxmitframe, u8 *pmem);
++void rtl8188f_fill_fake_txdesc(PADAPTER padapter, u8 *pDesc, u32 BufferLen, u8 IsPsPoll, u8 IsBTQosNull, u8 bDataFrame);
++#if defined(CONFIG_CONCURRENT_MODE)
++void fill_txdesc_force_bmc_camid(struct pkt_attrib *pattrib, u8 *ptxdesc);
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++s32 rtl8188fs_init_xmit_priv(PADAPTER padapter);
++void rtl8188fs_free_xmit_priv(PADAPTER padapter);
++s32 rtl8188fs_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++s32 rtl8188fs_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++s32	rtl8188fs_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++s32 rtl8188fs_xmit_buf_handler(PADAPTER padapter);
++thread_return rtl8188fs_xmit_thread(thread_context context);
++#define hal_xmit_handler rtl8188fs_xmit_buf_handler
++#endif
++
++#ifdef CONFIG_USB_HCI
++s32 rtl8188fu_xmit_buf_handler(PADAPTER padapter);
++#define hal_xmit_handler rtl8188fu_xmit_buf_handler
++
++
++s32 rtl8188fu_init_xmit_priv(PADAPTER padapter);
++void rtl8188fu_free_xmit_priv(PADAPTER padapter);
++s32 rtl8188fu_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++s32 rtl8188fu_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++s32	 rtl8188fu_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++/* s32 rtl8812au_xmit_buf_handler(PADAPTER padapter); */
++void rtl8188fu_xmit_tasklet(void *priv);
++s32 rtl8188fu_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++void _dbg_dump_tx_info(_adapter	*padapter, int frame_tag, struct tx_desc *ptxdesc);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++s32 rtl8188fe_init_xmit_priv(PADAPTER padapter);
++void rtl8188fe_free_xmit_priv(PADAPTER padapter);
++struct xmit_buf *rtl8188fe_dequeue_xmitbuf(struct rtw_tx_ring *ring);
++void	rtl8188fe_xmitframe_resume(_adapter *padapter);
++s32 rtl8188fe_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++s32 rtl8188fe_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++s32	rtl8188fe_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++void rtl8188fe_xmit_tasklet(void *priv);
++#endif
++
++u8	BWMapping_8188F(PADAPTER Adapter, struct pkt_attrib *pattrib);
++u8	SCMapping_8188F(PADAPTER Adapter, struct pkt_attrib	*pattrib);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8192e_cmd.h b/drivers/net/wireless/rtl8723du/include/rtl8192e_cmd.h
+new file mode 100644
+index 0000000..78d476b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8192e_cmd.h
+@@ -0,0 +1,161 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192E_CMD_H__
++#define __RTL8192E_CMD_H__
++
++typedef enum _RTL8192E_H2C_CMD {
++	H2C_8192E_RSVDPAGE	= 0x00,
++	H2C_8192E_MSRRPT	= 0x01,
++	H2C_8192E_SCAN		= 0x02,
++	H2C_8192E_KEEP_ALIVE_CTRL = 0x03,
++	H2C_8192E_DISCONNECT_DECISION = 0x04,
++	H2C_8192E_INIT_OFFLOAD = 0x06,
++	H2C_8192E_AP_OFFLOAD = 0x08,
++	H2C_8192E_BCN_RSVDPAGE = 0x09,
++	H2C_8192E_PROBERSP_RSVDPAGE = 0x0a,
++
++	H2C_8192E_AP_WOW_GPIO_CTRL = 0x13,
++
++	H2C_8192E_SETPWRMODE = 0x20,
++	H2C_8192E_PS_TUNING_PARA = 0x21,
++	H2C_8192E_PS_TUNING_PARA2 = 0x22,
++	H2C_8192E_PS_LPS_PARA = 0x23,
++	H2C_8192E_P2P_PS_OFFLOAD = 0x24,
++	H2C_8192E_SAP_PS = 0x26,
++	H2C_8192E_RA_MASK = 0x40,
++	H2C_8192E_RSSI_REPORT = 0x42,
++	H2C_8192E_RA_PARA_ADJUST = 0x46,
++
++	H2C_8192E_WO_WLAN = 0x80,
++	H2C_8192E_REMOTE_WAKE_CTRL = 0x81,
++	H2C_8192E_AOAC_GLOBAL_INFO = 0x82,
++	H2C_8192E_AOAC_RSVDPAGE = 0x83,
++
++	/* Not defined in new 88E H2C CMD Format */
++	H2C_8192E_SELECTIVE_SUSPEND_ROF_CMD,
++	H2C_8192E_P2P_PS_MODE,
++	H2C_8192E_PSD_RESULT,
++	MAX_8192E_H2CCMD
++} RTL8192E_H2C_CMD;
++
++struct cmd_msg_parm {
++	u8 eid; /* element id */
++	u8 sz; /* sz */
++	u8 buf[6];
++};
++
++enum {
++	PWRS
++};
++
++typedef struct _SETPWRMODE_PARM {
++	u8 Mode;/* 0:Active,1:LPS,2:WMMPS */
++	/* u8 RLBM:4; */ /* 0:Min,1:Max,2: User define */
++	u8 SmartPS_RLBM;/* LPS=0:PS_Poll,1:PS_Poll,2:NullData,WMM=0:PS_Poll,1:NullData */
++	u8 AwakeInterval;	/* unit: beacon interval */
++	u8 bAllQueueUAPSD;
++	u8 PwrState;/* AllON(0x0c),RFON(0x04),RFOFF(0x00) */
++} SETPWRMODE_PARM, *PSETPWRMODE_PARM;
++
++struct H2C_SS_RFOFF_PARAM {
++	u8 ROFOn; /* 1: on, 0:off */
++	u16 gpio_period; /* unit: 1024 us */
++} __attribute__((packed));
++
++
++typedef struct JOINBSSRPT_PARM_92E {
++	u8 OpMode;	/* RT_MEDIA_STATUS */
++#ifdef CONFIG_WOWLAN
++	u8 MacID;       /* MACID */
++#endif /* CONFIG_WOWLAN */
++} JOINBSSRPT_PARM_92E, *PJOINBSSRPT_PARM_92E;
++
++/* move to hal_com_h2c.h
++typedef struct _RSVDPAGE_LOC_92E {
++	u8 LocProbeRsp;
++	u8 LocPsPoll;
++	u8 LocNullData;
++	u8 LocQosNull;
++	u8 LocBTQosNull;
++} RSVDPAGE_LOC_92E, *PRSVDPAGE_LOC_92E;
++*/
++
++
++/* _SETPWRMODE_PARM */
++#define SET_8192E_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8192E_H2CCMD_PWRMODE_PARM_RLBM(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 4, __Value)
++#define SET_8192E_H2CCMD_PWRMODE_PARM_SMART_PS(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 4, 4, __Value)
++#define SET_8192E_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8192E_H2CCMD_PWRMODE_PARM_ALL_QUEUE_UAPSD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8192E_H2CCMD_PWRMODE_PARM_BCN_EARLY_C2H_RPT(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 2, 1, __Value)
++#define SET_8192E_H2CCMD_PWRMODE_PARM_PWR_STATE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8192E_H2CCMD_PWRMODE_PARM_BYTE5(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++#define GET_8192E_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd)						LE_BITS_TO_1BYTE(__pH2CCmd, 0, 8)
++
++/* _P2P_PS_OFFLOAD */
++#define SET_8192E_H2CCMD_P2P_PS_OFFLOAD_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8192E_H2CCMD_P2P_PS_OFFLOAD_ROLE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8192E_H2CCMD_P2P_PS_OFFLOAD_CTWINDOW_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_8192E_H2CCMD_P2P_PS_OFFLOAD_NOA0_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 3, 1, __Value)
++#define SET_8192E_H2CCMD_P2P_PS_OFFLOAD_NOA1_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 1, __Value)
++#define SET_8192E_H2CCMD_P2P_PS_OFFLOAD_ALLSTASLEEP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 5, 1, __Value)
++
++
++/* host message to firmware cmd */
++void rtl8192e_set_FwPwrMode_cmd(PADAPTER padapter, u8 Mode);
++void rtl8192e_set_FwJoinBssReport_cmd(PADAPTER padapter, u8 mstatus);
++u8 rtl8192e_set_rssi_cmd(PADAPTER padapter, u8 *param);
++void rtl8192e_set_raid_cmd(PADAPTER padapter, u32 bitmap, u8 *arg, u8 bw);
++s32 FillH2CCmd_8192E(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++u8 GetTxBufferRsvdPageNum8192E(_adapter *padapter, bool wowlan);
++/* u8 rtl8192c_set_FwSelectSuspend_cmd(PADAPTER padapter, u8 bfwpoll, u16 period); */
++s32 c2h_handler_8192e(_adapter *adapter, u8 id, u8 seq, u8 plen, u8 *payload);
++#ifdef CONFIG_BT_COEXIST
++	void rtl8192e_download_BTCoex_AP_mode_rsvd_page(PADAPTER padapter);
++#endif /* CONFIG_BT_COEXIST */
++#ifdef CONFIG_P2P_PS
++	void rtl8192e_set_p2p_ps_offload_cmd(PADAPTER padapter, u8 p2p_ps_state);
++#endif /* CONFIG_P2P */
++
++void CheckFwRsvdPageContent(PADAPTER padapter);
++
++#ifdef CONFIG_TDLS
++	#ifdef CONFIG_TDLS_CH_SW
++		void rtl8192e_set_BcnEarly_C2H_Rpt_cmd(PADAPTER padapter, u8 enable);
++	#endif
++#endif
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++	int reset_tsf(PADAPTER Adapter, u8 reset_port);
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++
++/* / TX Feedback Content */
++#define	USEC_UNIT_FOR_8192E_C2H_TX_RPT_QUEUE_TIME			256
++
++#define	GET_8192E_C2H_TX_RPT_QUEUE_SELECT(_Header)			LE_BITS_TO_1BYTE((_Header + 0), 0, 5)
++#define	GET_8192E_C2H_TX_RPT_PKT_BROCAST(_Header)			LE_BITS_TO_1BYTE((_Header + 0), 5, 1)
++#define	GET_8192E_C2H_TX_RPT_LIFE_TIME_OVER(_Header)			LE_BITS_TO_1BYTE((_Header + 0), 6, 1)
++#define	GET_8192E_C2H_TX_RPT_RETRY_OVER(_Header)				LE_BITS_TO_1BYTE((_Header + 0), 7, 1)
++#define	GET_8192E_C2H_TX_RPT_MAC_ID(_Header)					LE_BITS_TO_1BYTE((_Header + 1), 0, 8)
++#define	GET_8192E_C2H_TX_RPT_DATA_RETRY_CNT(_Header)		LE_BITS_TO_1BYTE((_Header + 2), 0, 6)
++#define	GET_8192E_C2H_TX_RPT_QUEUE_TIME(_Header)				LE_BITS_TO_2BYTE((_Header + 3), 0, 16)	/* In unit of 256 microseconds. */
++#define	GET_8192E_C2H_TX_RPT_FINAL_DATA_RATE(_Header)		LE_BITS_TO_1BYTE((_Header + 5), 0, 8)
++
++#endif /* __RTL8192E_CMD_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8192e_dm.h b/drivers/net/wireless/rtl8723du/include/rtl8192e_dm.h
+new file mode 100644
+index 0000000..ff1b341
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8192e_dm.h
+@@ -0,0 +1,33 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192E_DM_H__
++#define __RTL8192E_DM_H__
++
++
++void rtl8192e_init_dm_priv(IN PADAPTER Adapter);
++void rtl8192e_deinit_dm_priv(IN PADAPTER Adapter);
++void rtl8192e_InitHalDm(IN PADAPTER Adapter);
++void rtl8192e_HalDmWatchDog(IN PADAPTER Adapter);
++
++/* VOID rtl8192c_dm_CheckTXPowerTracking(IN PADAPTER Adapter); */
++
++/* void rtl8192c_dm_RF_Saving(IN PADAPTER pAdapter, IN u8 bForceInNormal); */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8192e_hal.h b/drivers/net/wireless/rtl8723du/include/rtl8192e_hal.h
+new file mode 100644
+index 0000000..aff83a9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8192e_hal.h
+@@ -0,0 +1,332 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192E_HAL_H__
++#define __RTL8192E_HAL_H__
++
++/* #include "hal_com.h" */
++
++#include "hal_data.h"
++
++/* include HAL Related header after HAL Related compiling flags */
++#include "rtl8192e_spec.h"
++#include "rtl8192e_rf.h"
++#include "rtl8192e_dm.h"
++#include "rtl8192e_recv.h"
++#include "rtl8192e_xmit.h"
++#include "rtl8192e_cmd.h"
++#include "rtl8192e_led.h"
++#include "Hal8192EPwrSeq.h"
++#include "Hal8192EPhyReg.h"
++#include "Hal8192EPhyCfg.h"
++
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	#include "rtl8192e_sreset.h"
++#endif
++
++/* ---------------------------------------------------------------------
++ *		RTL8192E Power Configuration CMDs for PCIe interface
++ * --------------------------------------------------------------------- */
++#define Rtl8192E_NIC_PWR_ON_FLOW				rtl8192E_power_on_flow
++#define Rtl8192E_NIC_RF_OFF_FLOW				rtl8192E_radio_off_flow
++#define Rtl8192E_NIC_DISABLE_FLOW				rtl8192E_card_disable_flow
++#define Rtl8192E_NIC_ENABLE_FLOW				rtl8192E_card_enable_flow
++#define Rtl8192E_NIC_SUSPEND_FLOW				rtl8192E_suspend_flow
++#define Rtl8192E_NIC_RESUME_FLOW				rtl8192E_resume_flow
++#define Rtl8192E_NIC_PDN_FLOW					rtl8192E_hwpdn_flow
++#define Rtl8192E_NIC_LPS_ENTER_FLOW			rtl8192E_enter_lps_flow
++#define Rtl8192E_NIC_LPS_LEAVE_FLOW			rtl8192E_leave_lps_flow
++
++
++#if 1 /* download firmware related data structure */
++#define FW_SIZE_8192E			0x8000 /* Compatible with RTL8192e Maximal RAM code size 32k */
++#define FW_START_ADDRESS		0x1000
++#define FW_END_ADDRESS			0x5FFF
++
++
++#define IS_FW_HEADER_EXIST_8192E(_pFwHdr)	((GET_FIRMWARE_HDR_SIGNATURE_8192E(_pFwHdr) & 0xFFF0) == 0x92E0)
++
++
++
++typedef struct _RT_FIRMWARE_8192E {
++	FIRMWARE_SOURCE	eFWSource;
++#ifdef CONFIG_EMBEDDED_FWIMG
++	u8			*szFwBuffer;
++#else
++	u8			szFwBuffer[FW_SIZE_8192E];
++#endif
++	u32			ulFwLength;
++} RT_FIRMWARE_8192E, *PRT_FIRMWARE_8192E;
++
++/*
++ * This structure must be cared byte-ordering
++ *
++ * Added by tynli. 2009.12.04. */
++
++/* *****************************************************
++ *					Firmware Header(8-byte alinment required)
++ * *****************************************************
++ * --- LONG WORD 0 ---- */
++#define GET_FIRMWARE_HDR_SIGNATURE_8192E(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr, 0, 16) /* 92C0: test chip; 92C, 88C0: test chip; 88C1: MP A-cut; 92C1: MP A-cut */
++#define GET_FIRMWARE_HDR_CATEGORY_8192E(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr, 16, 8) /* AP/NIC and USB/PCI */
++#define GET_FIRMWARE_HDR_FUNCTION_8192E(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr, 24, 8) /* Reserved for different FW function indcation, for further use when driver needs to download different FW in different conditions */
++#define GET_FIRMWARE_HDR_VERSION_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+4, 0, 16)/* FW Version */
++#define GET_FIRMWARE_HDR_SUB_VER_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+4, 16, 8) /* FW Subversion, default 0x00 */
++#define GET_FIRMWARE_HDR_RSVD1_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+4, 24, 8)
++
++/* --- LONG WORD 1 ---- */
++#define GET_FIRMWARE_HDR_MONTH_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+8, 0, 8) /* Release time Month field */
++#define GET_FIRMWARE_HDR_DATE_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+8, 8, 8) /* Release time Date field */
++#define GET_FIRMWARE_HDR_HOUR_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+8, 16, 8)/* Release time Hour field */
++#define GET_FIRMWARE_HDR_MINUTE_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+8, 24, 8)/* Release time Minute field */
++#define GET_FIRMWARE_HDR_ROMCODE_SIZE_8192E(__FwHdr)	LE_BITS_TO_4BYTE(__FwHdr+12, 0, 16)/* The size of RAM code */
++#define GET_FIRMWARE_HDR_RSVD2_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+12, 16, 16)
++
++/* --- LONG WORD 2 ---- */
++#define GET_FIRMWARE_HDR_SVN_IDX_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+16, 0, 32)/* The SVN entry index */
++#define GET_FIRMWARE_HDR_RSVD3_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+20, 0, 32)
++
++/* --- LONG WORD 3 ---- */
++#define GET_FIRMWARE_HDR_RSVD4_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+24, 0, 32)
++#define GET_FIRMWARE_HDR_RSVD5_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+28, 0, 32)
++
++#endif /* download firmware related data structure */
++
++#define DRIVER_EARLY_INT_TIME_8192E		0x05
++#define BCN_DMA_ATIME_INT_TIME_8192E		0x02
++#define RX_DMA_SIZE_8192E					0x4000	/* 16K*/
++
++#ifdef CONFIG_WOWLAN
++	#define RESV_FMWF	(WKFMCAM_SIZE * MAX_WKFM_NUM) /* 16 entries, for each is 24 bytes*/
++#else
++	#define RESV_FMWF	0
++#endif
++
++#ifdef CONFIG_FW_C2H_DEBUG
++	#define RX_DMA_RESERVED_SIZE_8192E	0x100	/* 256B, reserved for c2h debug message*/
++#else
++	#define RX_DMA_RESERVED_SIZE_8192E	0x40	/* 64B, reserved for c2h event(16bytes) or ccx(8 Bytes)*/
++#endif
++#define MAX_RX_DMA_BUFFER_SIZE_8192E		(RX_DMA_SIZE_8192E-RX_DMA_RESERVED_SIZE_8192E)	/*RX 16K*/
++
++/* For General Reserved Page Number(Beacon Queue is reserved page)
++ * if (CONFIG_2BCN_EN) Beacon:4, PS-Poll:1, Null Data:1,Prob Rsp:1,Qos Null Data:1
++ * Beacon:2, PS-Poll:1, Null Data:1,Prob Rsp:1,Qos Null Data:1 */
++#define RSVD_PAGE_NUM_8192E		0x08
++/* For WoWLan , more reserved page
++ * ARP Rsp:1, RWC:1, GTK Info:1,GTK RSP:2,GTK EXT MEM:2, PNO: 6 */
++#ifdef CONFIG_WOWLAN
++	#define WOWLAN_PAGE_NUM_8192E	0x07
++#else
++	#define WOWLAN_PAGE_NUM_8192E	0x00
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++	#undef WOWLAN_PAGE_NUM_8192E
++	#define WOWLAN_PAGE_NUM_8192E	0x0d
++#endif
++
++/* Note:
++Tx FIFO Size : 64KB
++Tx page Size : 256B
++Total page numbers : 256(0x100)
++*/
++
++#define	TOTAL_RSVD_PAGE_NUMBER_8192E	(RSVD_PAGE_NUM_8192E + WOWLAN_PAGE_NUM_8192E)
++
++#define	TOTAL_PAGE_NUMBER_8192E	(0x100)
++#define	TX_TOTAL_PAGE_NUMBER_8192E	(TOTAL_PAGE_NUMBER_8192E - TOTAL_RSVD_PAGE_NUMBER_8192E)
++
++#define	TX_PAGE_BOUNDARY_8192E	(TX_TOTAL_PAGE_NUMBER_8192E) /* beacon header start address */
++
++
++#define PAGE_SIZE_TX_92E	PAGE_SIZE_256
++#define RSVD_PKT_LEN_92E	(TOTAL_RSVD_PAGE_NUMBER_8192E * PAGE_SIZE_TX_92E)
++
++#define TX_PAGE_LOAD_FW_BOUNDARY_8192E		0x47 /* 0xA5 */
++#define TX_PAGE_BOUNDARY_WOWLAN_8192E		0xE0
++
++/* For Normal Chip Setting
++ * (HPQ + LPQ + NPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER_92C */
++
++#define NORMAL_PAGE_NUM_HPQ_8192E			0x10
++#define NORMAL_PAGE_NUM_LPQ_8192E			0x10
++#define NORMAL_PAGE_NUM_NPQ_8192E			0x10
++#define NORMAL_PAGE_NUM_EPQ_8192E			0x00
++
++
++/* Note: For WMM Normal Chip Setting ,modify later */
++#define WMM_NORMAL_PAGE_NUM_HPQ_8192E		NORMAL_PAGE_NUM_HPQ_8192E
++#define WMM_NORMAL_PAGE_NUM_LPQ_8192E		NORMAL_PAGE_NUM_LPQ_8192E
++#define WMM_NORMAL_PAGE_NUM_NPQ_8192E		NORMAL_PAGE_NUM_NPQ_8192E
++
++
++/* -------------------------------------------------------------------------
++ *	Chip specific
++ * ------------------------------------------------------------------------- */
++
++/* pic buffer descriptor */
++#define RTL8192EE_SEG_NUM			TX_BUFFER_SEG_NUM
++#define TX_DESC_NUM_92E			128
++#define RX_DESC_NUM_92E			128
++
++/* -------------------------------------------------------------------------
++ *	Channel Plan
++ * ------------------------------------------------------------------------- */
++
++#define		HWSET_MAX_SIZE_8192E			512
++
++#define		EFUSE_REAL_CONTENT_LEN_8192E	512
++
++#define		EFUSE_MAP_LEN_8192E			512
++#define		EFUSE_MAX_SECTION_8192E		64
++#define		EFUSE_MAX_WORD_UNIT_8192E		4
++#define		EFUSE_IC_ID_OFFSET_8192E		506	/* For some inferiority IC purpose. added by Roger, 2009.09.02. */
++#define		AVAILABLE_EFUSE_ADDR_8192E(addr)	(addr < EFUSE_REAL_CONTENT_LEN_8192E)
++/*
++ * <Roger_Notes> To prevent out of boundary programming case, leave 1byte and program full section
++ * 9bytes + 1byt + 5bytes and pre 1byte.
++ * For worst case:
++ * | 1byte|----8bytes----|1byte|--5bytes--|
++ * |         |            Reserved(14bytes)	      |
++ *   */
++#define		EFUSE_OOB_PROTECT_BYTES_8192E 		15	/* PG data exclude header, dummy 6 bytes frome CP test and reserved 1byte. */
++
++
++
++/* ********************************************************
++ *			EFUSE for BT definition
++ * ******************************************************** */
++#define		EFUSE_BT_REAL_BANK_CONTENT_LEN_8192E	512
++#define		EFUSE_BT_REAL_CONTENT_LEN_8192E			1024	/* 512*2 */
++#define		EFUSE_BT_MAP_LEN_8192E					1024	/* 1k bytes */
++#define		EFUSE_BT_MAX_SECTION_8192E				128		/* 1024/8 */
++
++#define		EFUSE_PROTECT_BYTES_BANK_8192E			16
++#define		EFUSE_MAX_BANK_8192E					3
++/* *********************************************************** */
++
++#define INCLUDE_MULTI_FUNC_BT(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_BT)
++#define INCLUDE_MULTI_FUNC_GPS(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_GPS)
++
++/* #define IS_MULTI_FUNC_CHIP(_Adapter)	(((((PHAL_DATA_TYPE)(_Adapter->HalData))->MultiFunc) & (RT_MULTI_FUNC_BT|RT_MULTI_FUNC_GPS)) ? _TRUE : _FALSE) */
++
++/* #define RT_IS_FUNC_DISABLED(__pAdapter, __FuncBits) ( (__pAdapter)->DisabledFunctions & (__FuncBits) ) */
++
++/* rtl8812_hal_init.c */
++void	_8051Reset8192E(PADAPTER padapter);
++s32	FirmwareDownload8192E(PADAPTER Adapter, BOOLEAN bUsedWoWLANFw);
++void	InitializeFirmwareVars8192E(PADAPTER padapter);
++
++s32	InitLLTTable8192E(PADAPTER padapter, u8 txpktbuf_bndy);
++
++/* EFuse */
++u8	GetEEPROMSize8192E(PADAPTER padapter);
++void	hal_InitPGData_8192E(PADAPTER padapter, u8 *PROMContent);
++void	Hal_EfuseParseIDCode8192E(PADAPTER padapter, u8 *hwinfo);
++void	Hal_ReadPROMVersion8192E(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	Hal_ReadPowerSavingMode8192E(PADAPTER padapter, u8	*hwinfo, BOOLEAN	AutoLoadFail);
++void	Hal_ReadTxPowerInfo8192E(PADAPTER padapter, u8 *hwinfo, BOOLEAN	AutoLoadFail);
++void	Hal_ReadBoardType8192E(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	Hal_ReadThermalMeter_8192E(PADAPTER	Adapter, u8 *PROMContent, BOOLEAN	AutoloadFail);
++void	Hal_ReadChannelPlan8192E(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	Hal_EfuseParseXtal_8192E(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	Hal_ReadAntennaDiversity8192E(PADAPTER pAdapter, u8 *PROMContent, BOOLEAN AutoLoadFail);
++void	Hal_ReadPAType_8192E(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++void	Hal_ReadAmplifierType_8192E(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++void	Hal_ReadRFEType_8192E(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++void	Hal_EfuseParseBTCoexistInfo8192E(PADAPTER Adapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	Hal_EfuseParseKFreeData_8192E(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++
++u8 Hal_CrystalAFEAdjust(_adapter *Adapter);
++
++BOOLEAN HalDetectPwrDownMode8192E(PADAPTER Adapter);
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	void Hal_DetectWoWMode(PADAPTER pAdapter);
++#endif /* CONFIG_WOWLAN */
++
++/***********************************************************/
++/* RTL8192E-MAC Setting */
++VOID _InitQueueReservedPage_8192E(IN  PADAPTER Adapter);
++VOID _InitQueuePriority_8192E(IN	PADAPTER Adapter);
++VOID _InitTxBufferBoundary_8192E(IN PADAPTER Adapter, IN u8 txpktbuf_bndy);
++VOID _InitPageBoundary_8192E(IN PADAPTER Adapter);
++/* VOID _InitTransferPageSize_8192E(IN PADAPTER Adapter); */
++VOID _InitDriverInfoSize_8192E(IN PADAPTER Adapter, IN u8 drvInfoSize);
++VOID _InitRDGSetting_8192E(PADAPTER Adapter);
++void _InitID_8192E(IN  PADAPTER Adapter);
++VOID _InitNetworkType_8192E(IN  PADAPTER Adapter);
++VOID _InitWMACSetting_8192E(IN PADAPTER Adapter);
++VOID _InitAdaptiveCtrl_8192E(IN  PADAPTER Adapter);
++VOID _InitRateFallback_8192E(IN  PADAPTER Adapter);
++VOID _InitEDCA_8192E(IN  PADAPTER Adapter);
++VOID _InitRetryFunction_8192E(IN  PADAPTER Adapter);
++VOID _BBTurnOnBlock_8192E(IN	PADAPTER Adapter);
++VOID _InitBeaconParameters_8192E(IN  PADAPTER Adapter);
++VOID _InitBeaconMaxError_8192E(
++	IN  PADAPTER	Adapter,
++	IN	BOOLEAN		InfraMode
++);
++void SetBeaconRelatedRegisters8192E(PADAPTER padapter);
++VOID hal_ReadRFType_8192E(PADAPTER	Adapter);
++/* RTL8192E-MAC Setting
++ ***********************************************************/
++
++void SetHwReg8192E(PADAPTER Adapter, u8 variable, u8 *val);
++void GetHwReg8192E(PADAPTER Adapter, u8 variable, u8 *val);
++u8
++SetHalDefVar8192E(
++	IN	PADAPTER				Adapter,
++	IN	HAL_DEF_VARIABLE		eVariable,
++	IN	PVOID					pValue
++);
++u8
++GetHalDefVar8192E(
++	IN	PADAPTER				Adapter,
++	IN	HAL_DEF_VARIABLE		eVariable,
++	IN	PVOID					pValue
++);
++
++void rtl8192e_set_hal_ops(struct hal_ops *pHalFunc);
++void init_hal_spec_8192e(_adapter *adapter);
++void rtl8192e_init_default_value(_adapter *padapter);
++/* register */
++void SetBcnCtrlReg(PADAPTER padapter, u8 SetBits, u8 ClearBits);
++
++void rtl8192e_start_thread(_adapter *padapter);
++void rtl8192e_stop_thread(_adapter *padapter);
++
++#ifdef CONFIG_PCI_HCI
++	BOOLEAN	InterruptRecognized8192EE(PADAPTER Adapter);
++	u16	get_txdesc_buf_addr(u16 ff_hwaddr);
++#endif
++
++#ifdef CONFIG_SDIO_HCI
++	#ifdef CONFIG_SDIO_TX_ENABLE_AVAL_INT
++		void _init_available_page_threshold(PADAPTER padapter, u8 numHQ, u8 numNQ, u8 numLQ, u8 numPubQ);
++	#endif
++#endif
++
++#ifdef CONFIG_BT_COEXIST
++	void rtl8192e_combo_card_WifiOnlyHwInit(PADAPTER Adapter);
++#endif
++
++#endif /* __RTL8192E_HAL_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8192e_led.h b/drivers/net/wireless/rtl8723du/include/rtl8192e_led.h
+new file mode 100644
+index 0000000..d79bd91
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8192e_led.h
+@@ -0,0 +1,40 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192E_LED_H__
++#define __RTL8192E_LED_H__
++
++
++/* ********************************************************************************
++ * Interface to manipulate LED objects.
++ * ******************************************************************************** */
++#ifdef CONFIG_USB_HCI
++	void rtl8192eu_InitSwLeds(PADAPTER padapter);
++	void rtl8192eu_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_PCI_HCI
++	void rtl8192ee_InitSwLeds(PADAPTER padapter);
++	void rtl8192ee_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_SDIO_HCI
++	void rtl8192es_InitSwLeds(PADAPTER padapter);
++	void rtl8192es_DeInitSwLeds(PADAPTER padapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8192e_recv.h b/drivers/net/wireless/rtl8723du/include/rtl8192e_recv.h
+new file mode 100644
+index 0000000..34f081c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8192e_recv.h
+@@ -0,0 +1,173 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192E_RECV_H__
++#define __RTL8192E_RECV_H__
++
++#if defined(CONFIG_USB_HCI)
++
++	#ifndef MAX_RECVBUF_SZ
++		#ifdef PLATFORM_OS_CE
++			#define MAX_RECVBUF_SZ (8192+1024) /* 8K+1k */
++		#else
++			#ifdef CONFIG_MINIMAL_MEMORY_USAGE
++				#define MAX_RECVBUF_SZ (4000) /* about 4K */
++			#else
++				#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++					#define MAX_RECVBUF_SZ (rtw_rtkm_get_buff_size()) /*depend rtkm*/
++				#elif defined(CONFIG_PLATFORM_HISILICON)
++					#define MAX_RECVBUF_SZ (16384) /* 16k */
++				#else
++					#define MAX_RECVBUF_SZ (32768) /* 32k */
++				#endif
++				/* #define MAX_RECVBUF_SZ (20480) */ /* 20K */
++				/* #define MAX_RECVBUF_SZ (10240)  */ /* 10K */
++				/* #define MAX_RECVBUF_SZ (16384) */ /* 16k - 92E RX BUF :16K */
++				/* #define MAX_RECVBUF_SZ (8192+1024) */ /* 8K+1k		 */
++			#endif
++		#endif
++	#endif /* !MAX_RECVBUF_SZ */
++
++#elif defined(CONFIG_PCI_HCI)
++	/* #ifndef CONFIG_MINIMAL_MEMORY_USAGE */
++	/*	#define MAX_RECVBUF_SZ (9100) */
++	/* #else */
++	#define MAX_RECVBUF_SZ (4000) /* about 4K
++	* #endif */
++
++
++#elif defined(CONFIG_SDIO_HCI)
++
++	#define MAX_RECVBUF_SZ (16384)
++
++#endif
++
++
++/* Rx smooth factor */
++#define Rx_Smooth_Factor (20)
++
++/* *************
++ * [1] Rx Buffer Descriptor (for PCIE) buffer descriptor architecture
++ * DWORD 0 */
++#define SET_RX_BUFFER_DESC_DATA_LENGTH_92E(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++#define SET_RX_BUFFER_DESC_LS_92E(__pRxStatusDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 15, 1, __Value)
++#define SET_RX_BUFFER_DESC_FS_92E(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 16, 1, __Value)
++#define SET_RX_BUFFER_DESC_TOTAL_LENGTH_92E(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 16, 15, __Value)
++
++#define GET_RX_BUFFER_DESC_OWN_92E(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 31, 1)
++#define GET_RX_BUFFER_DESC_LS_92E(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++#define GET_RX_BUFFER_DESC_FS_92E(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 1)
++#define GET_RX_BUFFER_DESC_TOTAL_LENGTH_92E(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 15)
++
++
++/* DWORD 1 */
++#define SET_RX_BUFFER_PHYSICAL_LOW_92E(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc+4, 0, 32, __Value)
++#define GET_RX_BUFFER_PHYSICAL_LOW_92E(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 0, 32)
++
++/* DWORD 2 */
++#define SET_RX_BUFFER_PHYSICAL_HIGH_92E(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc+8, 0, 32, __Value)
++
++/* *************
++ * [2] Rx Descriptor
++ * DWORD 0 */
++#define GET_RX_STATUS_DESC_PKT_LEN_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 0, 14)
++#define GET_RX_STATUS_DESC_CRC32_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 14, 1)
++#define GET_RX_STATUS_DESC_ICVERR_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++#define GET_RX_STATUS_DESC_DRVINFO_SIZE_92E(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 4)
++#define GET_RX_STATUS_DESC_SECURITY_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 20, 3)
++#define GET_RX_STATUS_DESC_QOS_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 23, 1)
++#define GET_RX_STATUS_DESC_SHIFT_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 24, 2)
++#define GET_RX_STATUS_DESC_PHY_STATUS_92E(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 26, 1)
++#define GET_RX_STATUS_DESC_SWDEC_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 27, 1)
++#define GET_RX_STATUS_DESC_EOR_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 30, 1)
++#define GET_RX_STATUS_DESC_OWN_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 31, 1)
++
++
++#define SET_RX_STATUS_DESC_PKT_LEN_92E(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++#define SET_RX_STATUS_DESC_EOR_92E(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 30, 1, __Value)
++#define SET_RX_STATUS_DESC_OWN_92E(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 31, 1, __Value)
++
++/* DWORD 1 */
++#define GET_RX_STATUS_DESC_MACID_92E(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 0, 7)
++#define GET_RX_STATUS_DESC_TID_92E(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 8, 4)
++#define GET_RX_STATUS_DESC_MACID_VLD_92E(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 12, 1)
++#define GET_RX_STATUS_DESC_AMSDU_92E(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 13, 1)
++#define GET_RX_STATUS_DESC_RXID_MATCH_92E(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 14, 1)
++#define GET_RX_STATUS_DESC_PAGGR_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 15, 1)
++#define GET_RX_STATUS_DESC_A1_FITS_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 16, 4)
++#define GET_RX_STATUS_DESC_TCPOFFLOAD_CHKERR_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 20, 1)
++#define GET_RX_STATUS_DESC_TCPOFFLOAD_IPVER_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 21, 1)
++#define GET_RX_STATUS_DESC_TCPOFFLOAD_IS_TCPUDP_92E(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 22, 1)
++#define GET_RX_STATUS_DESC_TCPOFFLOAD_CHK_VLD_92E(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 23, 1)
++#define GET_RX_STATUS_DESC_PAM_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 24, 1)
++#define GET_RX_STATUS_DESC_PWR_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 25, 1)
++#define GET_RX_STATUS_DESC_MORE_DATA_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 26, 1)
++#define GET_RX_STATUS_DESC_MORE_FRAG_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 27, 1)
++#define GET_RX_STATUS_DESC_TYPE_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 28, 2)
++#define GET_RX_STATUS_DESC_MC_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 30, 1)
++#define GET_RX_STATUS_DESC_BC_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 31, 1)
++
++/* DWORD 2 */
++#define GET_RX_STATUS_DESC_SEQ_92E(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 0, 12)
++#define GET_RX_STATUS_DESC_FRAG_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 12, 4)
++#define GET_RX_STATUS_DESC_RX_IS_QOS_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 16, 1)
++
++#define GET_RX_STATUS_DESC_WLANHD_IV_LEN_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 18, 6)
++#define GET_RX_STATUS_DESC_HWRSVD_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 24, 4)
++#define GET_RX_STATUS_DESC_FCS_OK_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 31, 1)
++#define GET_RX_STATUS_DESC_RPT_SEL_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 28, 1)
++
++/* DWORD 3 */
++#define GET_RX_STATUS_DESC_RX_RATE_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 0, 7)
++#define GET_RX_STATUS_DESC_HTC_92E(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 10, 1)
++#define GET_RX_STATUS_DESC_EOSP_92E(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 11, 1)
++#define GET_RX_STATUS_DESC_BSSID_FIT_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 12, 2)
++#define GET_RX_STATUS_DESC_DMA_AGG_NUM_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 16, 8)
++
++#define GET_RX_STATUS_DESC_PATTERN_MATCH_92E(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 29, 1)
++#define GET_RX_STATUS_DESC_UNICAST_92E(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 30, 1)
++#define GET_RX_STATUS_DESC_MAGIC_WAKE_92E(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 31, 1)
++
++
++/* DWORD 5 */
++#define GET_RX_STATUS_DESC_TSFL_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+20, 0, 32)
++
++#define GET_RX_STATUS_DESC_BUFF_ADDR_92E(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+24, 0, 32)
++#define GET_RX_STATUS_DESC_BUFF_ADDR64_92E(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+28, 0, 32)
++
++
++#ifdef CONFIG_SDIO_HCI
++	s32 rtl8192es_init_recv_priv(PADAPTER padapter);
++	void rtl8192es_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_USB_HCI
++	void rtl8192eu_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf);
++	s32 rtl8192eu_init_recv_priv(PADAPTER padapter);
++	void rtl8192eu_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8192ee_init_recv_priv(PADAPTER padapter);
++	void rtl8192ee_free_recv_priv(PADAPTER padapter);
++#endif
++
++void rtl8192e_query_rx_desc_status(union recv_frame *precvframe, u8 *pdesc);
++
++#endif /* __RTL8192E_RECV_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8192e_rf.h b/drivers/net/wireless/rtl8723du/include/rtl8192e_rf.h
+new file mode 100644
+index 0000000..cd344a4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8192e_rf.h
+@@ -0,0 +1,33 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192E_RF_H__
++#define __RTL8192E_RF_H__
++
++VOID
++PHY_RF6052SetBandwidth8192E(
++	IN	PADAPTER				Adapter,
++	IN	CHANNEL_WIDTH		Bandwidth);
++
++
++int
++PHY_RF6052_Config_8192E(
++	IN	PADAPTER	Adapter);
++
++#endif/* __RTL8192E_RF_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8192e_spec.h b/drivers/net/wireless/rtl8723du/include/rtl8192e_spec.h
+new file mode 100644
+index 0000000..7b3c83a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8192e_spec.h
+@@ -0,0 +1,329 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#ifndef __RTL8192E_SPEC_H__
++#define __RTL8192E_SPEC_H__
++
++#include <drv_conf.h>
++
++#define HAL_NAV_UPPER_UNIT_8192E		128		/* micro-second */
++
++/* ************************************************************
++ * 8192E Regsiter offset definition
++ * ************************************************************ */
++
++/* ************************************************************
++ *
++ * ************************************************************ */
++
++/* -----------------------------------------------------
++ *
++ *	0x0000h ~ 0x00FFh	System Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_SYS_SWR_CTRL1_8192E		0x0010	/* 1 Byte        */
++#define REG_SYS_SWR_CTRL2_8192E		0x0014	/* 1 Byte      */
++#define REG_AFE_CTRL1_8192E			0x0024
++#define REG_AFE_CTRL2_8192E			0x0028
++#define REG_AFE_CTRL3_8192E			0x002c
++
++#define REG_PAD_CTRL1_8192E			0x0064
++#define REG_SDIO_CTRL_8192E			0x0070
++#define REG_OPT_CTRL_8192E				0x0074
++#define REG_RF_B_CTRL_8192E			0x0076
++#define REG_AFE_CTRL4_8192E			0x0078
++#define REG_LDO_SWR_CTRL				0x007C
++#define REG_FW_DRV_MSG_8192E			0x0088
++#define REG_HMEBOX_E2_E3_8192E		0x008C
++#define REG_HIMR0_8192E				0x00B0
++#define REG_HISR0_8192E					0x00B4
++#define REG_HIMR1_8192E					0x00B8
++#define REG_HISR1_8192E					0x00BC
++
++#define REG_SYS_CFG1_8192E				0x00F0
++#define REG_SYS_CFG2_8192E				0x00FC
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_PKTBUF_DBG_ADDR			(REG_PKTBUF_DBG_CTRL)
++#define REG_RXPKTBUF_DBG				(REG_PKTBUF_DBG_CTRL+2)
++#define REG_TXPKTBUF_DBG				(REG_PKTBUF_DBG_CTRL+3)
++#define REG_WOWLAN_WAKE_REASON		REG_MCUTST_WOWLAN
++
++#define REG_RSVD3_8192E					0x0168
++#define REG_C2HEVT_CMD_SEQ_88XX		0x01A1
++#define REG_C2hEVT_CMD_CONTENT_88XX	0x01A2
++#define REG_C2HEVT_CMD_LEN_88XX		0x01AE
++
++#define REG_HMEBOX_EXT0_8192E			0x01F0
++#define REG_HMEBOX_EXT1_8192E			0x01F4
++#define REG_HMEBOX_EXT2_8192E			0x01F8
++#define REG_HMEBOX_EXT3_8192E			0x01FC
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_DWBCN0_CTRL             0x0208
++#define REG_DWBCN1_CTRL             0x0228
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RXDMA_8192E					0x0290
++#define REG_EARLY_MODE_CONTROL_8192E		0x02BC
++
++#define REG_RSVD5_8192E					0x02F0
++#define REG_RSVD6_8192E					0x02F4
++#define REG_RSVD7_8192E					0x02F8
++#define REG_RSVD8_8192E					0x02FC
++
++/* -----------------------------------------------------
++ *
++ *	0x0300h ~ 0x03FFh	PCIe
++ *
++ * ----------------------------------------------------- */
++#define	REG_PCIE_CTRL_REG_8192E			0x0300
++#define	REG_INT_MIG_8192E					0x0304	/* Interrupt Migration */
++#define	REG_BCNQ_TXBD_DESA_8192E		0x0308	/* TX Beacon Descriptor Address */
++#define	REG_MGQ_TXBD_DESA_8192E			0x0310	/* TX Manage Queue Descriptor Address */
++#define	REG_VOQ_TXBD_DESA_8192E			0x0318	/* TX VO Queue Descriptor Address */
++#define	REG_VIQ_TXBD_DESA_8192E			0x0320	/* TX VI Queue Descriptor Address */
++#define	REG_BEQ_TXBD_DESA_8192E			0x0328	/* TX BE Queue Descriptor Address */
++#define	REG_BKQ_TXBD_DESA_8192E			0x0330	/* TX BK Queue Descriptor Address */
++#define	REG_RXQ_RXBD_DESA_8192E			0x0338	/* RX Queue	Descriptor Address */
++#define	REG_HI0Q_TXBD_DESA_8192E			0x0340
++#define	REG_HI1Q_TXBD_DESA_8192E			0x0348
++#define	REG_HI2Q_TXBD_DESA_8192E			0x0350
++#define	REG_HI3Q_TXBD_DESA_8192E			0x0358
++#define	REG_HI4Q_TXBD_DESA_8192E			0x0360
++#define	REG_HI5Q_TXBD_DESA_8192E			0x0368
++#define	REG_HI6Q_TXBD_DESA_8192E			0x0370
++#define	REG_HI7Q_TXBD_DESA_8192E			0x0378
++#define	REG_MGQ_TXBD_NUM_8192E			0x0380
++#define	REG_RX_RXBD_NUM_8192E			0x0382
++#define	REG_VOQ_TXBD_NUM_8192E			0x0384
++#define	REG_VIQ_TXBD_NUM_8192E			0x0386
++#define	REG_BEQ_TXBD_NUM_8192E			0x0388
++#define	REG_BKQ_TXBD_NUM_8192E			0x038A
++#define	REG_HI0Q_TXBD_NUM_8192E			0x038C
++#define	REG_HI1Q_TXBD_NUM_8192E			0x038E
++#define	REG_HI2Q_TXBD_NUM_8192E			0x0390
++#define	REG_HI3Q_TXBD_NUM_8192E			0x0392
++#define	REG_HI4Q_TXBD_NUM_8192E			0x0394
++#define	REG_HI5Q_TXBD_NUM_8192E			0x0396
++#define	REG_HI6Q_TXBD_NUM_8192E			0x0398
++#define	REG_HI7Q_TXBD_NUM_8192E			0x039A
++#define	REG_TSFTIMER_HCI_8192E			0x039C
++
++/* Read Write Point */
++#define	REG_VOQ_TXBD_IDX_8192E			0x03A0
++#define	REG_VIQ_TXBD_IDX_8192E			0x03A4
++#define	REG_BEQ_TXBD_IDX_8192E			0x03A8
++#define	REG_BKQ_TXBD_IDX_8192E			0x03AC
++#define	REG_MGQ_TXBD_IDX_8192E			0x03B0
++#define	REG_RXQ_TXBD_IDX_8192E			0x03B4
++#define	REG_HI0Q_TXBD_IDX_8192E			0x03B8
++#define	REG_HI1Q_TXBD_IDX_8192E			0x03BC
++#define	REG_HI2Q_TXBD_IDX_8192E			0x03C0
++#define	REG_HI3Q_TXBD_IDX_8192E			0x03C4
++#define	REG_HI4Q_TXBD_IDX_8192E			0x03C8
++#define	REG_HI5Q_TXBD_IDX_8192E			0x03CC
++#define	REG_HI6Q_TXBD_IDX_8192E			0x03D0
++#define	REG_HI7Q_TXBD_IDX_8192E			0x03D4
++
++#define	REG_PCIE_HCPWM_8192EE			0x03D8 /* ?????? */
++#define	REG_PCIE_HRPWM_8192EE			0x03DC	/* PCIe RPWM */ /* ?????? */
++#define	REG_DBI_WDATA_V1_8192E			0x03E8
++#define	REG_DBI_RDATA_V1_8192E			0x03EC
++#define	REG_DBI_FLAG_V1_8192E				0x03F0
++#define	REG_MDIO_V1_8192E					0x3F4
++#define	REG_PCIE_MIX_CFG_8192E				0x3F8
++
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_TXBF_CTRL_8192E				0x042C
++#define REG_ARFR0_8192E					0x0444
++#define REG_ARFR1_8192E					0x044C
++#define REG_CCK_CHECK_8192E				0x0454
++#define REG_AMPDU_MAX_TIME_8192E			0x0456
++#define REG_BCNQ1_BDNY_8192E				0x0457
++
++#define REG_AMPDU_MAX_LENGTH_8192E	0x0458
++#define REG_WMAC_LBK_BUF_HD_8192E			0x045D
++#define REG_NDPA_OPT_CTRL_8192E		0x045F
++#define REG_DATA_SC_8192E				0x0483
++#ifdef CONFIG_WOWLAN
++	#define REG_TXPKTBUF_IV_LOW             0x0484
++	#define REG_TXPKTBUF_IV_HIGH            0x0488
++#endif
++#define REG_ARFR2_8192E					0x048C
++#define REG_ARFR3_8192E					0x0494
++#define REG_TXRPT_START_OFFSET			0x04AC
++#define REG_AMPDU_BURST_MODE_8192E	0x04BC
++#define REG_HT_SINGLE_AMPDU_8192E		0x04C7
++#define REG_MACID_PKT_DROP0_8192E		0x04D0
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_CTWND_8192E					0x0572
++#define REG_SECONDARY_CCA_CTRL_8192E	0x0577
++#define REG_SCH_TXCMD_8192E			0x05F8
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_MAC_CR_8192E				0x0600
++
++#define REG_MAC_TX_SM_STATE_8192E		0x06B4
++
++/* Power */
++#define REG_BFMER0_INFO_8192E			0x06E4
++#define REG_BFMER1_INFO_8192E			0x06EC
++#define REG_CSI_RPT_PARAM_BW20_8192E	0x06F4
++#define REG_CSI_RPT_PARAM_BW40_8192E	0x06F8
++#define REG_CSI_RPT_PARAM_BW80_8192E	0x06FC
++
++/* Hardware Port 2 */
++#define REG_BFMEE_SEL_8192E				0x0714
++#define REG_SND_PTCL_CTRL_8192E		0x0718
++
++
++/* -----------------------------------------------------
++ *
++ *	Redifine register definition for compatibility
++ *
++ * ----------------------------------------------------- */
++
++/* TODO: use these definition when using REG_xxx naming rule.
++ * NOTE: DO NOT Remove these definition. Use later. */
++#define	ISR_8192E							REG_HISR0_8192E
++
++/* ----------------------------------------------------------------------------
++ * 8192E IMR/ISR bits						(offset 0xB0,  8bits)
++ * ---------------------------------------------------------------------------- */
++#define	IMR_DISABLED_8192E					0
++/* IMR DW0(0x00B0-00B3) Bit 0-31 */
++#define	IMR_TIMER2_8192E					BIT31		/* Timeout interrupt 2 */
++#define	IMR_TIMER1_8192E					BIT30		/* Timeout interrupt 1	 */
++#define	IMR_PSTIMEOUT_8192E				BIT29		/* Power Save Time Out Interrupt */
++#define	IMR_GTINT4_8192E					BIT28		/* When GTIMER4 expires, this bit is set to 1	 */
++#define	IMR_GTINT3_8192E					BIT27		/* When GTIMER3 expires, this bit is set to 1	 */
++#define	IMR_TXBCN0ERR_8192E				BIT26		/* Transmit Beacon0 Error			 */
++#define	IMR_TXBCN0OK_8192E					BIT25		/* Transmit Beacon0 OK			 */
++#define	IMR_TSF_BIT32_TOGGLE_8192E		BIT24		/* TSF Timer BIT32 toggle indication interrupt			 */
++#define	IMR_BCNDMAINT0_8192E				BIT20		/* Beacon DMA Interrupt 0			 */
++#define	IMR_BCNDERR0_8192E					BIT16		/* Beacon Queue DMA OK0			 */
++#define	IMR_HSISR_IND_ON_INT_8192E		BIT15		/* HSISR Indicator (HSIMR & HSISR is true, this bit is set to 1) */
++#define	IMR_BCNDMAINT_E_8192E				BIT14		/* Beacon DMA Interrupt Extension for Win7			 */
++#define	IMR_ATIMEND_8192E					BIT12		/* CTWidnow End or ATIM Window End */
++#define	IMR_C2HCMD_8192E					BIT10		/* CPU to Host Command INT Status, Write 1 clear	 */
++#define	IMR_CPWM2_8192E					BIT9			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_CPWM_8192E						BIT8			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_HIGHDOK_8192E					BIT7			/* High Queue DMA OK	 */
++#define	IMR_MGNTDOK_8192E					BIT6			/* Management Queue DMA OK	 */
++#define	IMR_BKDOK_8192E					BIT5			/* AC_BK DMA OK		 */
++#define	IMR_BEDOK_8192E					BIT4			/* AC_BE DMA OK	 */
++#define	IMR_VIDOK_8192E					BIT3			/* AC_VI DMA OK		 */
++#define	IMR_VODOK_8192E					BIT2			/* AC_VO DMA OK	 */
++#define	IMR_RDU_8192E						BIT1			/* Rx Descriptor Unavailable	 */
++#define	IMR_ROK_8192E						BIT0			/* Receive DMA OK */
++
++/* IMR DW1(0x00B4-00B7) Bit 0-31 */
++#define	IMR_BCNDMAINT7_8192E				BIT27		/* Beacon DMA Interrupt 7 */
++#define	IMR_BCNDMAINT6_8192E				BIT26		/* Beacon DMA Interrupt 6 */
++#define	IMR_BCNDMAINT5_8192E				BIT25		/* Beacon DMA Interrupt 5 */
++#define	IMR_BCNDMAINT4_8192E				BIT24		/* Beacon DMA Interrupt 4 */
++#define	IMR_BCNDMAINT3_8192E				BIT23		/* Beacon DMA Interrupt 3 */
++#define	IMR_BCNDMAINT2_8192E				BIT22		/* Beacon DMA Interrupt 2 */
++#define	IMR_BCNDMAINT1_8192E				BIT21		/* Beacon DMA Interrupt 1 */
++#define	IMR_BCNDOK7_8192E					BIT20		/* Beacon Queue DMA OK Interrup 7 */
++#define	IMR_BCNDOK6_8192E					BIT19		/* Beacon Queue DMA OK Interrup 6 */
++#define	IMR_BCNDOK5_8192E					BIT18		/* Beacon Queue DMA OK Interrup 5 */
++#define	IMR_BCNDOK4_8192E					BIT17		/* Beacon Queue DMA OK Interrup 4 */
++#define	IMR_BCNDOK3_8192E					BIT16		/* Beacon Queue DMA OK Interrup 3 */
++#define	IMR_BCNDOK2_8192E					BIT15		/* Beacon Queue DMA OK Interrup 2 */
++#define	IMR_BCNDOK1_8192E					BIT14		/* Beacon Queue DMA OK Interrup 1 */
++#define	IMR_ATIMEND_E_8192E				BIT13		/* ATIM Window End Extension for Win7 */
++#define	IMR_TXERR_8192E					BIT11		/* Tx Error Flag Interrupt Status, write 1 clear. */
++#define	IMR_RXERR_8192E					BIT10		/* Rx Error Flag INT Status, Write 1 clear */
++#define	IMR_TXFOVW_8192E					BIT9			/* Transmit FIFO Overflow */
++#define	IMR_RXFOVW_8192E					BIT8			/* Receive FIFO Overflow */
++
++/* ----------------------------------------------------------------------------
++ * 8192E Auto LLT bits						(offset 0x224,  8bits)
++ * ----------------------------------------------------------------------------
++ * 224 REG_AUTO_LLT
++ * move to hal_com_reg.h */
++
++/* ----------------------------------------------------------------------------
++ * 8192E Auto LLT bits						(offset 0x290,  32bits)
++ * ---------------------------------------------------------------------------- */
++#define BIT_DMA_MODE			BIT1
++#define BIT_USB_RXDMA_AGG_EN	BIT31
++
++/* ----------------------------------------------------------------------------
++ * 8192E REG_SYS_CFG1						(offset 0xF0,  32bits)
++ * ---------------------------------------------------------------------------- */
++#define BIT_SPSLDO_SEL			BIT24
++
++
++/* ----------------------------------------------------------------------------
++ * 8192E REG_CCK_CHECK						(offset 0x454,  8bits)
++ * ---------------------------------------------------------------------------- */
++#define BIT_BCN_PORT_SEL		BIT5
++
++/* ****************************************************************************
++ * Regsiter Bit and Content definition
++ * **************************************************************************** */
++
++/* 2 ACMHWCTRL 0x05C0 */
++#define	AcmHw_HwEn_8192E				BIT(0)
++#define	AcmHw_VoqEn_8192E				BIT(1)
++#define	AcmHw_ViqEn_8192E				BIT(2)
++#define	AcmHw_BeqEn_8192E				BIT(3)
++#define	AcmHw_VoqStatus_8192E			BIT(5)
++#define	AcmHw_ViqStatus_8192E			BIT(6)
++#define	AcmHw_BeqStatus_8192E			BIT(7)
++
++/* ********************************************************
++ * General definitions
++ * ******************************************************** */
++
++#define MACID_NUM_8192E 128
++#define SEC_CAM_ENT_NUM_8192E 64
++#define HW_PORT_NUM_8192E	2
++#define NSS_NUM_8192E 2
++#define BAND_CAP_8192E (BAND_CAP_2G)
++#define BW_CAP_8192E (BW_CAP_20M | BW_CAP_40M)
++#define PROTO_CAP_8192E (PROTO_CAP_11B | PROTO_CAP_11G | PROTO_CAP_11N)
++
++#endif /* __RTL8192E_SPEC_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8192e_sreset.h b/drivers/net/wireless/rtl8723du/include/rtl8192e_sreset.h
+new file mode 100644
+index 0000000..7430d9a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8192e_sreset.h
+@@ -0,0 +1,29 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL88812A_SRESET_H_
++#define _RTL8812A_SRESET_H_
++
++#include <rtw_sreset.h>
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	extern void rtl8192e_sreset_xmit_status_check(_adapter *padapter);
++	extern void rtl8192e_sreset_linked_status_check(_adapter *padapter);
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8192e_xmit.h b/drivers/net/wireless/rtl8723du/include/rtl8192e_xmit.h
+new file mode 100644
+index 0000000..23deb8d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8192e_xmit.h
+@@ -0,0 +1,451 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192E_XMIT_H__
++#define __RTL8192E_XMIT_H__
++
++typedef struct txdescriptor_8192e {
++	/* Offset 0 */
++	u32 pktlen:16;
++	u32 offset:8;
++	u32 bmc:1;
++	u32 htc:1;
++	u32 ls:1;
++	u32 fs:1;
++	u32 linip:1;
++	u32 noacm:1;
++	u32 gf:1;
++	u32 own:1;
++
++	/* Offset 4 */
++	u32 macid:6;
++	u32 rsvd0406:2;
++	u32 qsel:5;
++	u32 rd_nav_ext:1;
++	u32 lsig_txop_en:1;
++	u32 pifs:1;
++	u32 rate_id:4;
++	u32 navusehdr:1;
++	u32 en_desc_id:1;
++	u32 sectype:2;
++	u32 rsvd0424:2;
++	u32 pkt_offset:5;	/* unit: 8 bytes */
++	u32 rsvd0431:1;
++
++	/* Offset 8 */
++	u32 rts_rc:6;
++	u32 data_rc:6;
++	u32 agg_en:1;
++	u32 rd_en:1;
++	u32 bar_rty_th:2;
++	u32 bk:1;
++	u32 morefrag:1;
++	u32 raw:1;
++	u32 ccx:1;
++	u32 ampdu_density:3;
++	u32 bt_null:1;
++	u32 ant_sel_a:1;
++	u32 ant_sel_b:1;
++	u32 tx_ant_cck:2;
++	u32 tx_antl:2;
++	u32 tx_ant_ht:2;
++
++	/* Offset 12 */
++	u32 nextheadpage:8;
++	u32 tailpage:8;
++	u32 seq:12;
++	u32 cpu_handle:1;
++	u32 tag1:1;
++	u32 trigger_int:1;
++	u32 hwseq_en:1;
++
++	/* Offset 16 */
++	u32 rtsrate:5;
++	u32 ap_dcfe:1;
++	u32 hwseq_sel:2;
++	u32 userate:1;
++	u32 disrtsfb:1;
++	u32 disdatafb:1;
++	u32 cts2self:1;
++	u32 rtsen:1;
++	u32 hw_rts_en:1;
++	u32 port_id:1;
++	u32 pwr_status:3;
++	u32 wait_dcts:1;
++	u32 cts2ap_en:1;
++	u32 data_sc:2;
++	u32 data_stbc:2;
++	u32 data_short:1;
++	u32 data_bw:1;
++	u32 rts_short:1;
++	u32 rts_bw:1;
++	u32 rts_sc:2;
++	u32 vcs_stbc:2;
++
++	/* Offset 20 */
++	u32 datarate:6;
++	u32 sgi:1;
++	u32 try_rate:1;
++	u32 data_ratefb_lmt:5;
++	u32 rts_ratefb_lmt:4;
++	u32 rty_lmt_en:1;
++	u32 data_rt_lmt:6;
++	u32 usb_txagg_num:8;
++
++	/* Offset 24 */
++	u32 txagg_a:5;
++	u32 txagg_b:5;
++	u32 use_max_len:1;
++	u32 max_agg_num:5;
++	u32 mcsg1_max_len:4;
++	u32 mcsg2_max_len:4;
++	u32 mcsg3_max_len:4;
++	u32 mcs7_sgi_max_len:4;
++
++	/* Offset 28 */
++	u32 checksum:16;	/* TxBuffSize(PCIe)/CheckSum(USB) */
++	u32 mcsg4_max_len:4;
++	u32 mcsg5_max_len:4;
++	u32 mcsg6_max_len:4;
++	u32 mcs15_sgi_max_len:4;
++} TXDESC_8192E, *PTXDESC_8192E;
++
++
++
++/* For 88e early mode */
++#define SET_EARLYMODE_PKTNUM(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 0, 3, __Value)
++#define SET_EARLYMODE_LEN0(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 4, 12, __Value)
++#define SET_EARLYMODE_LEN1(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 16, 12, __Value)
++#define SET_EARLYMODE_LEN2_1(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 28, 4, __Value)
++#define SET_EARLYMODE_LEN2_2(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 8, __Value)
++#define SET_EARLYMODE_LEN3(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 8, 12, __Value)
++#define SET_EARLYMODE_LEN4(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 20, 12, __Value)
++
++/*
++ * defined for TX DESC Operation
++ *   */
++
++#define MAX_TID (15)
++
++/* OFFSET 0 */
++#define OFFSET_SZ	0
++#define OFFSET_SHT	16
++#define BMC		BIT(24)
++#define LSG		BIT(26)
++#define FSG		BIT(27)
++#define OWN		BIT(31)
++
++
++/* OFFSET 4 */
++#define PKT_OFFSET_SZ		0
++#define QSEL_SHT			8
++#define RATE_ID_SHT			16
++#define NAVUSEHDR			BIT(20)
++#define SEC_TYPE_SHT		22
++#define PKT_OFFSET_SHT		26
++
++/* OFFSET 8 */
++#define AGG_EN				BIT(12)
++#define AGG_BK					BIT(16)
++#define AMPDU_DENSITY_SHT	20
++#define ANTSEL_A			BIT(24)
++#define ANTSEL_B			BIT(25)
++#define TX_ANT_CCK_SHT		26
++#define TX_ANTL_SHT			28
++#define TX_ANT_HT_SHT		30
++
++/* OFFSET 12 */
++#define SEQ_SHT				16
++#define EN_HWSEQ			BIT(31)
++
++/* OFFSET 16 */
++#define	QOS                          BIT(6)
++#define	HW_SSN				BIT(7)
++#define	USERATE			BIT(8)
++#define	DISDATAFB			BIT(10)
++#define   CTS_2_SELF			BIT(11)
++#define	RTS_EN				BIT(12)
++#define	HW_RTS_EN			BIT(13)
++#define	DATA_SHORT			BIT(24)
++#define	PWR_STATUS_SHT	15
++#define	DATA_SC_SHT		20
++#define	DATA_BW			BIT(25)
++
++/* OFFSET 20 */
++#define	RTY_LMT_EN			BIT(17)
++
++
++/* OFFSET 20 */
++#define SGI					BIT(6)
++#define USB_TXAGG_NUM_SHT	24
++
++
++/* *****Tx Desc Buffer content */
++
++/* config element for each tx buffer
++ *
++#define SET_TXBUFFER_DESC_LEN_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*16), 0, 16, __Valeu)
++#define SET_TXBUFFER_DESC_AMSDU_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*16), 31, 1, __Valeu)
++#define SET_TXBUFFER_DESC_ADD_LOW_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*16)+4, 0, 32, __Valeu)
++#define SET_TXBUFFER_DESC_ADD_HIGT_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*16)+8, 0, 32, __Valeu)
++*/
++#define SET_TXBUFFER_DESC_LEN_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*8), 0, 16, __Valeu)
++#define SET_TXBUFFER_DESC_AMSDU_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*8), 31, 1, __Valeu)
++#define SET_TXBUFFER_DESC_ADD_LOW_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*8)+4, 0, 32, __Valeu)
++#define SET_TXBUFFER_DESC_ADD_HIGT_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*16)+8, 0, 32, __Valeu)
++
++
++/* Dword 0 */
++#define SET_TX_BUFF_DESC_LEN_0_92E(__pTxDesc, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 14, __Valeu)
++#define SET_TX_BUFF_DESC_PSB_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 15, __Value)
++#define SET_TX_BUFF_DESC_OWN_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 31, 1, __Value)
++/* Dword 1 */
++#define SET_TX_BUFF_DESC_ADDR_LOW_0_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 32, __Value)
++#define GET_TX_DESC_TX_BUFFER_ADDRESS_92E(__pTxDesc) LE_BITS_TO_4BYTE(__pTxDesc+4, 0, 32)
++
++
++/* Dword 2 */
++#define SET_TX_BUFF_DESC_ADDR_HIGH_0_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 0, 32, __Value)
++/* Dword 3, RESERVED */
++
++
++/* *****Tx Desc content
++ * Dword 0 */
++#define SET_TX_DESC_PKT_SIZE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 16, __Value)
++#define SET_TX_DESC_OFFSET_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 8, __Value)
++#define SET_TX_DESC_BMC_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 24, 1, __Value)
++#define SET_TX_DESC_HTC_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 25, 1, __Value)
++#define SET_TX_DESC_LAST_SEG_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 26, 1, __Value)
++#define SET_TX_DESC_FIRST_SEG_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 27, 1, __Value)
++#define SET_TX_DESC_LINIP_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 28, 1, __Value)
++#define SET_TX_DESC_NO_ACM_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 29, 1, __Value)
++#define SET_TX_DESC_GF_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 30, 1, __Value)
++#define SET_TX_DESC_OWN_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 31, 1, __Value)
++#define GET_TX_DESC_OWN_92E(__pTxDesc) LE_BITS_TO_4BYTE(__pTxDesc, 31, 1)
++
++/* Dword 1 */
++#define SET_TX_DESC_MACID_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 7, __Value)
++#define SET_TX_DESC_QUEUE_SEL_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 8, 5, __Value)
++#define SET_TX_DESC_RDG_NAV_EXT_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 13, 1, __Value)
++#define SET_TX_DESC_LSIG_TXOP_EN_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 14, 1, __Value)
++#define SET_TX_DESC_PIFS_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 15, 1, __Value)
++#define SET_TX_DESC_RATE_ID_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 16, 5, __Value)
++#define SET_TX_DESC_EN_DESC_ID_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 21, 1, __Value)
++#define SET_TX_DESC_SEC_TYPE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 22, 2, __Value)
++#define SET_TX_DESC_PKT_OFFSET_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 24, 5, __Value)
++#define SET_TX_DESC_MORE_DATA_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 29, 1, __Value)
++#define SET_TX_DESC_TXOP_PS_CAP_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 30, 1, __Value)
++#define SET_TX_DESC_TXOP_PS_MODE_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 31, 1, __Value)
++
++
++/* Dword 2 */
++#define SET_TX_DESC_PAID_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 0,  9, __Value)
++#define SET_TX_DESC_CCA_RTS_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 10, 2, __Value)
++#define SET_TX_DESC_AGG_ENABLE_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 12, 1, __Value)
++#define SET_TX_DESC_RDG_ENABLE_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 13, 1, __Value)
++#define SET_TX_DESC_NULL_0_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 14, 1, __Value)
++#define SET_TX_DESC_NULL_1_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 15, 1, __Value)
++#define SET_TX_DESC_BK_92E(__pTxDesc, __Value)				SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 16, 1, __Value)
++#define SET_TX_DESC_MORE_FRAG_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 17, 1, __Value)
++#define SET_TX_DESC_RAW_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 18, 1, __Value)
++#define GET_TX_DESC_MORE_FRAG_92E(__pTxDesc)				LE_BITS_TO_4BYTE(__pTxDesc+8, 17, 1)
++#define SET_TX_DESC_SPE_RPT_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 19, 1, __Value)
++#define SET_TX_DESC_AMPDU_DENSITY_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 20, 3, __Value)
++#define SET_TX_DESC_BT_NULL_92E(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 23, 1, __Value)
++#define SET_TX_DESC_GID_92E(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 24, 6, __Value)
++
++
++/* Dword 3 */
++#define SET_TX_DESC_WHEADER_LEN_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 0, 4, __Value)
++#define SET_TX_DESC_CHK_EN_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 4, 1, __Value)
++#define SET_TX_DESC_EARLY_RATE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 5, 1, __Value)
++#define SET_TX_DESC_HWSEQ_SEL_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 6, 2, __Value)
++#define SET_TX_DESC_USE_RATE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 8, 1, __Value)
++#define SET_TX_DESC_DISABLE_RTS_FB_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 9, 1, __Value)
++#define SET_TX_DESC_DISABLE_FB_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 10, 1, __Value)
++#define SET_TX_DESC_CTS2SELF_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 11, 1, __Value)
++#define SET_TX_DESC_RTS_ENABLE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 12, 1, __Value)
++#define SET_TX_DESC_HW_RTS_ENABLE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 13, 1, __Value)
++#define SET_TX_DESC_HW_PORT_ID_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 14, 1, __Value)
++#define SET_TX_DESC_NAV_USE_HDR_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 15, 1, __Value)
++#define SET_TX_DESC_USE_MAX_LEN_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 16, 1, __Value)
++#define SET_TX_DESC_MAX_AGG_NUM_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 17, 5, __Value)
++#define SET_TX_DESC_NDPA_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 22, 2, __Value)
++#define SET_TX_DESC_AMPDU_MAX_TIME_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 24, 8, __Value)
++
++/* Dword 4 */
++#define SET_TX_DESC_TX_RATE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 0, 7, __Value)
++#define SET_TX_DESC_TRY_RATE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 7, 1, __Value)
++#define SET_TX_DESC_DATA_RATE_FB_LIMIT_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 8, 5, __Value)
++#define SET_TX_DESC_RTS_RATE_FB_LIMIT_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 13, 4, __Value)
++#define SET_TX_DESC_RETRY_LIMIT_ENABLE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 17, 1, __Value)
++#define SET_TX_DESC_DATA_RETRY_LIMIT_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 18, 6, __Value)
++#define SET_TX_DESC_RTS_RATE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 24, 5, __Value)
++#define SET_TX_DESC_PCTS_ENABLE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 29, 1, __Value)
++#define SET_TX_DESC_PCTS_MASK_IDX_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 30, 2, __Value)
++
++
++/* Dword 5 */
++#define SET_TX_DESC_DATA_SC_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 0, 4, __Value)
++#define SET_TX_DESC_DATA_SHORT_92E(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 4, 1, __Value)
++#define SET_TX_DESC_DATA_BW_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 5, 2, __Value)
++#define SET_TX_DESC_DATA_LDPC_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 7, 1, __Value)
++#define SET_TX_DESC_DATA_STBC_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 8, 2, __Value)
++#define SET_TX_DESC_VCS_STBC_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 10, 2, __Value)
++#define SET_TX_DESC_RTS_SHORT_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 12, 1, __Value)
++#define SET_TX_DESC_RTS_SC_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 13, 4, __Value)
++#define SET_TX_DESC_TX_ANT_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 24, 4, __Value)
++#define SET_TX_DESC_TX_POWER_0_PSET_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 28, 3, __Value)
++
++/* Dword 6 */
++#define SET_TX_DESC_SW_DEFINE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 0, 12, __Value)
++#define SET_TX_DESC_MBSSID_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 12, 4, __Value)
++#define SET_TX_DESC_ANTSEL_A_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 16, 3, __Value)
++#define SET_TX_DESC_ANTSEL_B_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 19, 3, __Value)
++#define SET_TX_DESC_ANTSEL_C_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 22, 3, __Value)
++#define SET_TX_DESC_ANTSEL_D_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 25, 3, __Value)
++
++/* Dword 7 */
++#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++	#define SET_TX_DESC_TX_BUFFER_SIZE_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#else
++	#define SET_TX_DESC_TX_DESC_CHECKSUM_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#endif
++#define SET_TX_DESC_USB_TXAGG_NUM_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 24, 8, __Value)
++
++
++/* #define SET_TX_DESC_HWSEQ_EN_92E(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 15, 1, __Value) */
++/* Dword 8 */
++
++#define SET_TX_DESC_RTS_RC_92E(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 0, 6, __Value)
++#define SET_TX_DESC_BAR_RTY_TH_92E(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 6, 2, __Value)
++#define SET_TX_DESC_DATA_RC_92E(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 8, 6, __Value)
++#define SET_TX_DESC_EN_HWSEQ_92E(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 15, 1, __Value)
++#define SET_TX_DESC_NEXT_HEAD_PAGE_92E(__pTxDesc, __Value)(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 16, 8, __Value)
++#define SET_TX_DESC_TAIL_PAGE_92E(__pTxDesc, __Value)(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 24, 8, __Value)
++
++/* Dword 9 */
++#define SET_TX_DESC_PADDING_LENGTH_92E(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 0, 11, __Value)
++#define SET_TX_DESC_TXBF_PATH_92E(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 11, 1, __Value)
++#define SET_TX_DESC_SEQ_92E(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 12, 12, __Value)
++#define SET_TX_DESC_FINAL_DATA_RATE_92E(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 24, 8, __Value)
++
++
++#define SET_EARLYMODE_PKTNUM_92E(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 0, 4, __Value)
++#define SET_EARLYMODE_LEN0_92E(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 4, 15, __Value)
++#define SET_EARLYMODE_LEN1_1_92E(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 19, 13, __Value)
++#define SET_EARLYMODE_LEN1_2_92E(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 2, __Value)
++#define SET_EARLYMODE_LEN2_92E(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 2, 15,  __Value)
++#define SET_EARLYMODE_LEN3_92E(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 17, 15, __Value)
++
++void rtl8192e_cal_txdesc_chksum(u8 *ptxdesc);
++
++#ifdef CONFIG_USB_HCI
++	s32 rtl8192eu_init_xmit_priv(PADAPTER padapter);
++	void rtl8192eu_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8192eu_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8192eu_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8192eu_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8192eu_xmit_buf_handler(PADAPTER padapter);
++	#define hal_xmit_handler rtl8192eu_xmit_buf_handler
++	void rtl8192eu_xmit_tasklet(void *priv);
++	s32 rtl8192eu_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8192ee_init_xmit_priv(PADAPTER padapter);
++	void rtl8192ee_free_xmit_priv(PADAPTER padapter);
++	struct xmit_buf *rtl8192ee_dequeue_xmitbuf(struct rtw_tx_ring *ring);
++	s32	rtl8192ee_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	void	rtl8192ee_xmitframe_resume(_adapter *padapter);
++	s32 rtl8192ee_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8192ee_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	void rtl8192ee_xmit_tasklet(void *priv);
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	s32 rtl8192es_init_xmit_priv(PADAPTER padapter);
++	void rtl8192es_free_xmit_priv(PADAPTER padapter);
++
++	s32 rtl8192es_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8192es_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8192es_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	thread_return rtl8192es_xmit_thread(thread_context context);
++	s32 rtl8192es_xmit_buf_handler(PADAPTER padapter);
++
++	#ifdef CONFIG_SDIO_TX_TASKLET
++		void rtl8192es_xmit_tasklet(void *priv);
++	#endif
++#endif
++
++struct txrpt_ccx_92e {
++	/* offset 0 */
++	u8 tag1:1;
++	u8 pkt_num:3;
++	u8 txdma_underflow:1;
++	u8 int_bt:1;
++	u8 int_tri:1;
++	u8 int_ccx:1;
++
++	/* offset 1 */
++	u8 mac_id:6;
++	u8 pkt_ok:1;
++	u8 bmc:1;
++
++	/* offset 2 */
++	u8 retry_cnt:6;
++	u8 lifetime_over:1;
++	u8 retry_over:1;
++
++	/* offset 3 */
++	u8 ccx_qtime0;
++	u8 ccx_qtime1;
++
++	/* offset 5 */
++	u8 final_data_rate;
++
++	/* offset 6 */
++	u8 sw1:4;
++	u8 qsel:4;
++
++	/* offset 7 */
++	u8 sw0;
++};
++
++#ifdef CONFIG_TX_EARLY_MODE
++	void UpdateEarlyModeInfo8192E(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++#endif
++s32	rtl8192e_init_xmit_priv(_adapter *padapter);
++void _dbg_dump_tx_info(_adapter	*padapter, int frame_tag, u8 *ptxdesc);
++
++void rtl8192e_fill_fake_txdesc(PADAPTER	padapter, u8 *pDesc, u32 BufferLen,
++			       u8 IsPsPoll, u8	IsBTQosNull, u8 bDataFrame);
++void rtl8192e_cal_txdesc_chksum(u8 *ptxdesc);
++
++u8	BWMapping_92E(PADAPTER Adapter, struct pkt_attrib *pattrib);
++u8	SCMapping_92E(PADAPTER Adapter, struct pkt_attrib	*pattrib);
++void fill_txdesc_phy(PADAPTER padapter, struct pkt_attrib *pattrib, u8 *ptxdesc);
++void fill_txdesc_vcs(struct pkt_attrib *pattrib, u8 *ptxdesc);
++#if defined(CONFIG_CONCURRENT_MODE)
++	void fill_txdesc_force_bmc_camid(struct pkt_attrib *pattrib, u8 *ptxdesc);
++#endif
++void fill_txdesc_sectype(struct pkt_attrib *pattrib, u8 *ptxdesc);
++void rtl8192e_fixed_rate(_adapter *padapter, u8 *ptxdesc);
++
++#endif /* __RTL8192E_XMIT_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8703b_cmd.h b/drivers/net/wireless/rtl8723du/include/rtl8703b_cmd.h
+new file mode 100644
+index 0000000..cdf51c7
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8703b_cmd.h
+@@ -0,0 +1,218 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8703B_CMD_H__
++#define __RTL8703B_CMD_H__
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD DEFINITION    ------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++enum h2c_cmd_8703B {
++	/* Common Class: 000 */
++	H2C_8703B_RSVD_PAGE = 0x00,
++	H2C_8703B_MEDIA_STATUS_RPT = 0x01,
++	H2C_8703B_SCAN_ENABLE = 0x02,
++	H2C_8703B_KEEP_ALIVE = 0x03,
++	H2C_8703B_DISCON_DECISION = 0x04,
++	H2C_8703B_PSD_OFFLOAD = 0x05,
++	H2C_8703B_AP_OFFLOAD = 0x08,
++	H2C_8703B_BCN_RSVDPAGE = 0x09,
++	H2C_8703B_PROBERSP_RSVDPAGE = 0x0A,
++	H2C_8703B_FCS_RSVDPAGE = 0x10,
++	H2C_8703B_FCS_INFO = 0x11,
++	H2C_8703B_AP_WOW_GPIO_CTRL = 0x13,
++
++	/* PoweSave Class: 001 */
++	H2C_8703B_SET_PWR_MODE = 0x20,
++	H2C_8703B_PS_TUNING_PARA = 0x21,
++	H2C_8703B_PS_TUNING_PARA2 = 0x22,
++	H2C_8703B_P2P_LPS_PARAM = 0x23,
++	H2C_8703B_P2P_PS_OFFLOAD = 0x24,
++	H2C_8703B_PS_SCAN_ENABLE = 0x25,
++	H2C_8703B_SAP_PS_ = 0x26,
++	H2C_8703B_INACTIVE_PS_ = 0x27, /* Inactive_PS */
++	H2C_8703B_FWLPS_IN_IPS_ = 0x28,
++
++	/* Dynamic Mechanism Class: 010 */
++	H2C_8703B_MACID_CFG = 0x40,
++	H2C_8703B_TXBF = 0x41,
++	H2C_8703B_RSSI_SETTING = 0x42,
++	H2C_8703B_AP_REQ_TXRPT = 0x43,
++	H2C_8703B_INIT_RATE_COLLECT = 0x44,
++	H2C_8703B_RA_PARA_ADJUST = 0x46,
++
++	/* BT Class: 011 */
++	H2C_8703B_B_TYPE_TDMA = 0x60,
++	H2C_8703B_BT_INFO = 0x61,
++	H2C_8703B_FORCE_BT_TXPWR = 0x62,
++	H2C_8703B_BT_IGNORE_WLANACT = 0x63,
++	H2C_8703B_DAC_SWING_VALUE = 0x64,
++	H2C_8703B_ANT_SEL_RSV = 0x65,
++	H2C_8703B_WL_OPMODE = 0x66,
++	H2C_8703B_BT_MP_OPER = 0x67,
++	H2C_8703B_BT_CONTROL = 0x68,
++	H2C_8703B_BT_WIFI_CTRL = 0x69,
++	H2C_8703B_BT_FW_PATCH = 0x6A,
++	H2C_8703B_BT_WLAN_CALIBRATION = 0x6D,
++
++	/* WOWLAN Class: 100 */
++	H2C_8703B_WOWLAN = 0x80,
++	H2C_8703B_REMOTE_WAKE_CTRL = 0x81,
++	H2C_8703B_AOAC_GLOBAL_INFO = 0x82,
++	H2C_8703B_AOAC_RSVD_PAGE = 0x83,
++	H2C_8703B_AOAC_RSVD_PAGE2 = 0x84,
++	H2C_8703B_D0_SCAN_OFFLOAD_CTRL = 0x85,
++	H2C_8703B_D0_SCAN_OFFLOAD_INFO = 0x86,
++	H2C_8703B_CHNL_SWITCH_OFFLOAD = 0x87,
++	H2C_8703B_P2P_OFFLOAD_RSVD_PAGE = 0x8A,
++	H2C_8703B_P2P_OFFLOAD = 0x8B,
++
++	H2C_8703B_RESET_TSF = 0xC0,
++	H2C_8703B_MAXID,
++};
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD CONTENT    --------------------------------------------------
++ * ---------------------------------------------------------------------------------------------------------
++ * _RSVDPAGE_LOC_CMD_0x00 */
++#define SET_8703B_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8703B_H2CCMD_RSVDPAGE_LOC_PSPOLL(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_8703B_H2CCMD_RSVDPAGE_LOC_NULL_DATA(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8703B_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8703B_H2CCMD_RSVDPAGE_LOC_BT_QOS_NULL_DATA(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++
++/* _KEEP_ALIVE_CMD_0x03 */
++#define SET_8703B_H2CCMD_KEEPALIVE_PARM_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8703B_H2CCMD_KEEPALIVE_PARM_ADOPT(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8703B_H2CCMD_KEEPALIVE_PARM_PKT_TYPE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_8703B_H2CCMD_KEEPALIVE_PARM_CHECK_PERIOD(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++
++/* _DISCONNECT_DECISION_CMD_0x04 */
++#define SET_8703B_H2CCMD_DISCONDECISION_PARM_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8703B_H2CCMD_DISCONDECISION_PARM_ADOPT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8703B_H2CCMD_DISCONDECISION_PARM_CHECK_PERIOD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8703B_H2CCMD_DISCONDECISION_PARM_TRY_PKT_NUM(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++
++/* _PWR_MOD_CMD_0x20 */
++#define SET_8703B_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8703B_H2CCMD_PWRMODE_PARM_RLBM(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 4, __Value)
++#define SET_8703B_H2CCMD_PWRMODE_PARM_SMART_PS(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 4, 4, __Value)
++#define SET_8703B_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8703B_H2CCMD_PWRMODE_PARM_ALL_QUEUE_UAPSD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8703B_H2CCMD_PWRMODE_PARM_BCN_EARLY_C2H_RPT(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 2, 1, __Value)
++#define SET_8703B_H2CCMD_PWRMODE_PARM_PWR_STATE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8703B_H2CCMD_PWRMODE_PARM_BYTE5(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++#define GET_8703B_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd)					LE_BITS_TO_1BYTE(__pH2CCmd, 0, 8)
++
++/* _PS_TUNE_PARAM_CMD_0x21 */
++#define SET_8703B_H2CCMD_PSTUNE_PARM_BCN_TO_LIMIT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8703B_H2CCMD_PSTUNE_PARM_DTIM_TIMEOUT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8703B_H2CCMD_PSTUNE_PARM_ADOPT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 1, __Value)
++#define SET_8703B_H2CCMD_PSTUNE_PARM_PS_TIMEOUT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 1, 7, __Value)
++#define SET_8703B_H2CCMD_PSTUNE_PARM_DTIM_PERIOD(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++
++/* _MACID_CFG_CMD_0x40 */
++#define SET_8703B_H2CCMD_MACID_CFG_MACID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_RAID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 5, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_SGI_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 7, 1, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_BW(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 2, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_NO_UPDATE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 3, 1, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_VHT_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 4, 2, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_DISPT(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 6, 1, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_DISRA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 7, 1, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_RATE_MASK0(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_RATE_MASK1(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+4, 0, 8, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_RATE_MASK2(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+5, 0, 8, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_RATE_MASK3(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+6, 0, 8, __Value)
++
++/* _RSSI_SETTING_CMD_0x42 */
++#define SET_8703B_H2CCMD_RSSI_SETTING_MACID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8703B_H2CCMD_RSSI_SETTING_RSSI(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 7, __Value)
++#define SET_8703B_H2CCMD_RSSI_SETTING_ULDL_STATE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++
++/* _AP_REQ_TXRPT_CMD_0x43 */
++#define SET_8703B_H2CCMD_APREQRPT_PARM_MACID1(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8703B_H2CCMD_APREQRPT_PARM_MACID2(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++
++/* _FORCE_BT_TXPWR_CMD_0x62 */
++#define SET_8703B_H2CCMD_BT_PWR_IDX(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++
++/* _FORCE_BT_MP_OPER_CMD_0x67 */
++#define SET_8703B_H2CCMD_BT_MPOPER_VER(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 4, __Value)
++#define SET_8703B_H2CCMD_BT_MPOPER_REQNUM(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 4, __Value)
++#define SET_8703B_H2CCMD_BT_MPOPER_IDX(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8703B_H2CCMD_BT_MPOPER_PARAM1(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++#define SET_8703B_H2CCMD_BT_MPOPER_PARAM2(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++#define SET_8703B_H2CCMD_BT_MPOPER_PARAM3(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+4, 0, 8, __Value)
++
++/* _BT_FW_PATCH_0x6A */
++#define SET_8703B_H2CCMD_BT_FW_PATCH_SIZE(__pH2CCmd, __Value)					SET_BITS_TO_LE_2BYTE((pu1Byte)(__pH2CCmd), 0, 16, __Value)
++#define SET_8703B_H2CCMD_BT_FW_PATCH_ADDR0(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8703B_H2CCMD_BT_FW_PATCH_ADDR1(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8703B_H2CCMD_BT_FW_PATCH_ADDR2(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8703B_H2CCMD_BT_FW_PATCH_ADDR3(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++/* ---------------------------------------------------------------------------------------------------------
++ * -------------------------------------------    Structure    --------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    Function Statement     --------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++/* host message to firmware cmd */
++void rtl8703b_set_FwPwrMode_cmd(PADAPTER padapter, u8 Mode);
++void rtl8703b_set_FwJoinBssRpt_cmd(PADAPTER padapter, u8 mstatus);
++void rtl8703b_set_rssi_cmd(PADAPTER padapter, u8 *param);
++void rtl8703b_fw_try_ap_cmd(PADAPTER padapter, u32 need_ack);
++/* s32 rtl8703b_set_lowpwr_lps_cmd(PADAPTER padapter, u8 enable); */
++void rtl8703b_set_FwPsTuneParam_cmd(PADAPTER padapter);
++void rtl8703b_set_FwMacIdConfig_cmd(_adapter *padapter, u8 mac_id, u8 raid, u8 bw, u8 sgi, u32 mask);
++void rtl8703b_set_FwBtMpOper_cmd(PADAPTER padapter, u8 idx, u8 ver, u8 reqnum, u8 *param);
++void rtl8703b_download_rsvd_page(PADAPTER padapter, u8 mstatus);
++#ifdef CONFIG_BT_COEXIST
++	void rtl8703b_download_BTCoex_AP_mode_rsvd_page(PADAPTER padapter);
++#endif /* CONFIG_BT_COEXIST */
++#ifdef CONFIG_P2P
++	void rtl8703b_set_p2p_ps_offload_cmd(PADAPTER padapter, u8 p2p_ps_state);
++#endif /* CONFIG_P2P */
++
++void CheckFwRsvdPageContent(PADAPTER padapter);
++
++#ifdef CONFIG_TDLS
++	#ifdef CONFIG_TDLS_CH_SW
++		void rtl8703b_set_BcnEarly_C2H_Rpt_cmd(PADAPTER padapter, u8 enable);
++	#endif
++#endif
++
++#ifdef CONFIG_P2P_WOWLAN
++	void rtl8703b_set_p2p_wowlan_offload_cmd(PADAPTER padapter);
++#endif
++
++void rtl8703b_set_FwPwrModeInIPS_cmd(PADAPTER padapter, u8 cmd_param);
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++	u8 rtl8703b_reset_tsf(_adapter *padapter, u8 reset_port);
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++s32 FillH2CCmd8703B(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++u8 GetTxBufferRsvdPageNum8703B(_adapter *padapter, bool wowlan);
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8703b_dm.h b/drivers/net/wireless/rtl8723du/include/rtl8703b_dm.h
+new file mode 100644
+index 0000000..4ee834d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8703b_dm.h
+@@ -0,0 +1,47 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8703B_DM_H__
++#define __RTL8703B_DM_H__
++/* ************************************************************
++ * Description:
++ *
++ * This file is for 8703B dynamic mechanism only
++ *
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * structure and define
++ * ************************************************************ */
++
++/* ************************************************************
++ * function prototype
++ * ************************************************************ */
++
++void rtl8703b_init_dm_priv(PADAPTER padapter);
++void rtl8703b_deinit_dm_priv(PADAPTER padapter);
++
++void rtl8703b_InitHalDm(PADAPTER padapter);
++void rtl8703b_HalDmWatchDog(PADAPTER padapter);
++void rtl8703b_HalDmWatchDog_in_LPS(PADAPTER padapter);
++void rtl8703b_hal_dm_in_lps(PADAPTER padapter);
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8703b_hal.h b/drivers/net/wireless/rtl8723du/include/rtl8703b_hal.h
+new file mode 100644
+index 0000000..c1a9f2f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8703b_hal.h
+@@ -0,0 +1,277 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8703B_HAL_H__
++#define __RTL8703B_HAL_H__
++
++#include "hal_data.h"
++
++#include "rtl8703b_spec.h"
++#include "rtl8703b_rf.h"
++#include "rtl8703b_dm.h"
++#include "rtl8703b_recv.h"
++#include "rtl8703b_xmit.h"
++#include "rtl8703b_cmd.h"
++#include "rtl8703b_led.h"
++#include "Hal8703BPwrSeq.h"
++#include "Hal8703BPhyReg.h"
++#include "Hal8703BPhyCfg.h"
++#ifdef DBG_CONFIG_ERROR_DETECT
++	#include "rtl8703b_sreset.h"
++#endif
++
++#define FW_8703B_SIZE			0x8000
++#define FW_8703B_START_ADDRESS	0x1000
++#define FW_8703B_END_ADDRESS		0x1FFF /* 0x5FFF */
++
++#define IS_FW_HEADER_EXIST_8703B(_pFwHdr)	((le16_to_cpu(_pFwHdr->Signature) & 0xFFF0) == 0x03B0)
++
++typedef struct _RT_FIRMWARE {
++	FIRMWARE_SOURCE	eFWSource;
++#ifdef CONFIG_EMBEDDED_FWIMG
++	u8			*szFwBuffer;
++#else
++	u8			szFwBuffer[FW_8703B_SIZE];
++#endif
++	u32			ulFwLength;
++} RT_FIRMWARE_8703B, *PRT_FIRMWARE_8703B;
++
++/*
++ * This structure must be cared byte-ordering
++ *
++ * Added by tynli. 2009.12.04. */
++typedef struct _RT_8703B_FIRMWARE_HDR {
++	/* 8-byte alinment required */
++
++	/* --- LONG WORD 0 ---- */
++	u16		Signature;	/* 92C0: test chip; 92C, 88C0: test chip; 88C1: MP A-cut; 92C1: MP A-cut */
++	u8		Category;	/* AP/NIC and USB/PCI */
++	u8		Function;	/* Reserved for different FW function indcation, for further use when driver needs to download different FW in different conditions */
++	u16		Version;		/* FW Version */
++	u16		Subversion;	/* FW Subversion, default 0x00 */
++
++	/* --- LONG WORD 1 ---- */
++	u8		Month;	/* Release time Month field */
++	u8		Date;	/* Release time Date field */
++	u8		Hour;	/* Release time Hour field */
++	u8		Minute;	/* Release time Minute field */
++	u16		RamCodeSize;	/* The size of RAM code */
++	u16		Rsvd2;
++
++	/* --- LONG WORD 2 ---- */
++	u32		SvnIdx;	/* The SVN entry index */
++	u32		Rsvd3;
++
++	/* --- LONG WORD 3 ---- */
++	u32		Rsvd4;
++	u32		Rsvd5;
++} RT_8703B_FIRMWARE_HDR, *PRT_8703B_FIRMWARE_HDR;
++
++#define DRIVER_EARLY_INT_TIME_8703B		0x05
++#define BCN_DMA_ATIME_INT_TIME_8703B		0x02
++
++/* for 8703B
++ * TX 32K, RX 16K, Page size 128B for TX, 8B for RX */
++#define PAGE_SIZE_TX_8703B			128
++#define PAGE_SIZE_RX_8703B			8
++
++#define TX_DMA_SIZE_8703B			0x8000	/* 32K(TX) */
++#define RX_DMA_SIZE_8703B			0x4000	/* 16K(RX) */
++
++#ifdef CONFIG_WOWLAN
++	#define RESV_FMWF	(WKFMCAM_SIZE * MAX_WKFM_NUM) /* 16 entries, for each is 24 bytes*/
++#else
++	#define RESV_FMWF	0
++#endif
++
++#ifdef CONFIG_FW_C2H_DEBUG
++	#define RX_DMA_RESERVED_SIZE_8703B	0x100	/* 256B, reserved for c2h debug message */
++#else
++	#define RX_DMA_RESERVED_SIZE_8703B	0x80	/* 128B, reserved for tx report */
++#endif
++#define RX_DMA_BOUNDARY_8703B		(RX_DMA_SIZE_8703B - RX_DMA_RESERVED_SIZE_8703B - 1)
++
++
++/* Note: We will divide number of page equally for each queue other than public queue! */
++
++/* For General Reserved Page Number(Beacon Queue is reserved page)
++ * Beacon:2, PS-Poll:1, Null Data:1,Qos Null Data:1,BT Qos Null Data:1 */
++#define BCNQ_PAGE_NUM_8703B		0x08
++#ifdef CONFIG_CONCURRENT_MODE
++	#define BCNQ1_PAGE_NUM_8703B		0x08 /* 0x04 */
++#else
++	#define BCNQ1_PAGE_NUM_8703B		0x00
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++	#undef BCNQ1_PAGE_NUM_8703B
++	#define BCNQ1_PAGE_NUM_8703B		0x00 /* 0x04 */
++#endif
++
++/* For WoWLan , more reserved page
++ * ARP Rsp:1, RWC:1, GTK Info:1,GTK RSP:2,GTK EXT MEM:2, PNO: 6 */
++#ifdef CONFIG_WOWLAN
++	#define WOWLAN_PAGE_NUM_8703B	0x07
++#else
++	#define WOWLAN_PAGE_NUM_8703B	0x00
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++	#undef WOWLAN_PAGE_NUM_8703B
++	#define WOWLAN_PAGE_NUM_8703B	0x15
++#endif
++
++#ifdef CONFIG_AP_WOWLAN
++	#define AP_WOWLAN_PAGE_NUM_8703B	0x02
++#endif
++
++#define TX_TOTAL_PAGE_NUMBER_8703B	(0xFF - BCNQ_PAGE_NUM_8703B - BCNQ1_PAGE_NUM_8703B - WOWLAN_PAGE_NUM_8703B)
++#define TX_PAGE_BOUNDARY_8703B		(TX_TOTAL_PAGE_NUMBER_8703B + 1)
++
++#define WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8703B	TX_TOTAL_PAGE_NUMBER_8703B
++#define WMM_NORMAL_TX_PAGE_BOUNDARY_8703B		(WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8703B + 1)
++
++/* For Normal Chip Setting
++ * (HPQ + LPQ + NPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER_8703B */
++#define NORMAL_PAGE_NUM_HPQ_8703B		0x0C
++#define NORMAL_PAGE_NUM_LPQ_8703B		0x02
++#define NORMAL_PAGE_NUM_NPQ_8703B		0x02
++
++/* Note: For Normal Chip Setting, modify later */
++#define WMM_NORMAL_PAGE_NUM_HPQ_8703B		0x30
++#define WMM_NORMAL_PAGE_NUM_LPQ_8703B		0x20
++#define WMM_NORMAL_PAGE_NUM_NPQ_8703B		0x20
++
++
++#include "HalVerDef.h"
++#include "hal_com.h"
++
++#define EFUSE_OOB_PROTECT_BYTES		15
++
++#define HAL_EFUSE_MEMORY
++
++#define HWSET_MAX_SIZE_8703B			256
++#define EFUSE_REAL_CONTENT_LEN_8703B		256
++#define EFUSE_MAP_LEN_8703B				512
++#define EFUSE_MAX_SECTION_8703B			64
++
++#define EFUSE_IC_ID_OFFSET			506	/* For some inferiority IC purpose. added by Roger, 2009.09.02. */
++#define AVAILABLE_EFUSE_ADDR(addr)	(addr < EFUSE_REAL_CONTENT_LEN_8703B)
++
++#define EFUSE_ACCESS_ON			0x69
++#define EFUSE_ACCESS_OFF			0x00
++
++/* ********************************************************
++ *			EFUSE for BT definition
++ * ******************************************************** */
++#define BANK_NUM		1
++#define EFUSE_BT_REAL_BANK_CONTENT_LEN	128
++#define EFUSE_BT_REAL_CONTENT_LEN		(EFUSE_BT_REAL_BANK_CONTENT_LEN * BANK_NUM)
++#define EFUSE_BT_MAP_LEN				1024	/* 1k bytes */
++#define EFUSE_BT_MAX_SECTION			(EFUSE_BT_MAP_LEN / 8)
++#define EFUSE_PROTECT_BYTES_BANK		16
++
++typedef enum tag_Package_Definition {
++	PACKAGE_DEFAULT,
++	PACKAGE_QFN68,
++	PACKAGE_TFBGA90,
++	PACKAGE_TFBGA80,
++	PACKAGE_TFBGA79
++} PACKAGE_TYPE_E;
++
++#define INCLUDE_MULTI_FUNC_BT(_Adapter)		(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_BT)
++#define INCLUDE_MULTI_FUNC_GPS(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_GPS)
++
++/* rtl8703b_hal_init.c */
++s32 rtl8703b_FirmwareDownload(PADAPTER padapter, BOOLEAN  bUsedWoWLANFw);
++void rtl8703b_FirmwareSelfReset(PADAPTER padapter);
++void rtl8703b_InitializeFirmwareVars(PADAPTER padapter);
++
++void rtl8703b_InitAntenna_Selection(PADAPTER padapter);
++void rtl8703b_DeinitAntenna_Selection(PADAPTER padapter);
++void rtl8703b_CheckAntenna_Selection(PADAPTER padapter);
++void rtl8703b_init_default_value(PADAPTER padapter);
++
++s32 rtl8703b_InitLLTTable(PADAPTER padapter);
++
++s32 CardDisableHWSM(PADAPTER padapter, u8 resetMCU);
++s32 CardDisableWithoutHWSM(PADAPTER padapter);
++
++/* EFuse */
++u8 GetEEPROMSize8703B(PADAPTER padapter);
++void Hal_InitPGData(PADAPTER padapter, u8 *PROMContent);
++void Hal_EfuseParseIDCode(PADAPTER padapter, u8 *hwinfo);
++void Hal_EfuseParseTxPowerInfo_8703B(PADAPTER padapter, u8 *PROMContent, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseBTCoexistInfo_8703B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseEEPROMVer_8703B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseChnlPlan_8703B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseCustomerID_8703B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseAntennaDiversity_8703B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseXtal_8703B(PADAPTER pAdapter, u8 *hwinfo, u8 AutoLoadFail);
++void Hal_EfuseParseThermalMeter_8703B(PADAPTER padapter, u8 *hwinfo, u8 AutoLoadFail);
++VOID Hal_EfuseParseVoltage_8703B(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN	AutoLoadFail);
++VOID Hal_EfuseParseBoardType_8703B(PADAPTER Adapter,	u8	*PROMContent, BOOLEAN AutoloadFail);
++
++void rtl8703b_set_hal_ops(struct hal_ops *pHalFunc);
++void init_hal_spec_8703b(_adapter *adapter);
++void SetHwReg8703B(PADAPTER padapter, u8 variable, u8 *val);
++void GetHwReg8703B(PADAPTER padapter, u8 variable, u8 *val);
++u8 SetHalDefVar8703B(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++u8 GetHalDefVar8703B(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++
++/* register */
++void rtl8703b_InitBeaconParameters(PADAPTER padapter);
++void rtl8703b_InitBeaconMaxError(PADAPTER padapter, u8 InfraMode);
++void	_InitBurstPktLen_8703BS(PADAPTER Adapter);
++void _InitLTECoex_8703BS(PADAPTER Adapter);
++void _InitMacAPLLSetting_8703B(PADAPTER Adapter);
++void _8051Reset8703(PADAPTER padapter);
++#ifdef CONFIG_WOWLAN
++	void Hal_DetectWoWMode(PADAPTER pAdapter);
++#endif /* CONFIG_WOWLAN */
++
++void rtl8703b_start_thread(_adapter *padapter);
++void rtl8703b_stop_thread(_adapter *padapter);
++
++#if defined(CONFIG_CHECK_BT_HANG) && defined(CONFIG_BT_COEXIST)
++	void rtl8703bs_init_checkbthang_workqueue(_adapter *adapter);
++	void rtl8703bs_free_checkbthang_workqueue(_adapter *adapter);
++	void rtl8703bs_cancle_checkbthang_workqueue(_adapter *adapter);
++	void rtl8703bs_hal_check_bt_hang(_adapter *adapter);
++#endif
++
++#ifdef CONFIG_GPIO_WAKEUP
++	void HalSetOutPutGPIO(PADAPTER padapter, u8 index, u8 OutPutValue);
++#endif
++#ifdef CONFIG_MP_INCLUDED
++int FirmwareDownloadBT(IN PADAPTER Adapter, PRT_MP_FIRMWARE pFirmware);
++#endif
++void CCX_FwC2HTxRpt_8703b(PADAPTER padapter, u8 *pdata, u8 len);
++
++u8 MRateToHwRate8703B(u8  rate);
++u8 HwRateToMRate8703B(u8	 rate);
++
++void Hal_ReadRFGainOffset(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++
++#ifdef CONFIG_PCI_HCI
++	BOOLEAN	InterruptRecognized8703BE(PADAPTER Adapter);
++	VOID	UpdateInterruptMask8703BE(PADAPTER Adapter, u32 AddMSR, u32 AddMSR1, u32 RemoveMSR, u32 RemoveMSR1);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8703b_led.h b/drivers/net/wireless/rtl8723du/include/rtl8703b_led.h
+new file mode 100644
+index 0000000..fb11fdd
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8703b_led.h
+@@ -0,0 +1,48 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8703B_LED_H__
++#define __RTL8703B_LED_H__
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++
++/* ********************************************************************************
++ * Interface to manipulate LED objects.
++ * ******************************************************************************** */
++#ifdef CONFIG_USB_HCI
++	void rtl8703bu_InitSwLeds(PADAPTER padapter);
++	void rtl8703bu_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_SDIO_HCI
++	void rtl8703bs_InitSwLeds(PADAPTER padapter);
++	void rtl8703bs_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_GSPI_HCI
++	void rtl8703bs_InitSwLeds(PADAPTER padapter);
++	void rtl8703bs_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_PCI_HCI
++	void rtl8703be_InitSwLeds(PADAPTER padapter);
++	void rtl8703be_DeInitSwLeds(PADAPTER padapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8703b_recv.h b/drivers/net/wireless/rtl8723du/include/rtl8703b_recv.h
+new file mode 100644
+index 0000000..4c82652
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8703b_recv.h
+@@ -0,0 +1,91 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8703B_RECV_H__
++#define __RTL8703B_RECV_H__
++
++#define RECV_BLK_SZ 512
++#define RECV_BLK_CNT 16
++#define RECV_BLK_TH RECV_BLK_CNT
++
++#if defined(CONFIG_USB_HCI)
++
++	#ifndef MAX_RECVBUF_SZ
++		#ifdef PLATFORM_OS_CE
++			#define MAX_RECVBUF_SZ (8192+1024) /* 8K+1k */
++		#else
++			#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++				/* #define MAX_RECVBUF_SZ (32768) */ /* 32k */
++				/* #define MAX_RECVBUF_SZ (16384) */ /* 16K */
++				/* #define MAX_RECVBUF_SZ (10240) */ /* 10K */
++				#ifdef CONFIG_PLATFORM_MSTAR
++					#define MAX_RECVBUF_SZ (8192) /* 8K */
++				#else
++					#define MAX_RECVBUF_SZ (15360) /* 15k < 16k */
++				#endif
++				/* #define MAX_RECVBUF_SZ (8192+1024) */ /* 8K+1k */
++			#else
++				#define MAX_RECVBUF_SZ (4000) /* about 4K */
++			#endif
++		#endif
++	#endif /* !MAX_RECVBUF_SZ */
++
++#elif defined(CONFIG_PCI_HCI)
++	/* #ifndef CONFIG_MINIMAL_MEMORY_USAGE */
++	/*	#define MAX_RECVBUF_SZ (9100) */
++	/* #else */
++	#define MAX_RECVBUF_SZ (4000) /* about 4K
++	* #endif */
++
++
++#elif defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++
++	#define MAX_RECVBUF_SZ (RX_DMA_SIZE_8703B - RX_DMA_RESERVED_SIZE_8703B)
++
++#endif
++
++/* Rx smooth factor */
++#define	Rx_Smooth_Factor (20)
++
++#ifdef CONFIG_SDIO_HCI
++	#ifndef CONFIG_SDIO_RX_COPY
++		#undef MAX_RECVBUF_SZ
++		#define MAX_RECVBUF_SZ	(RX_DMA_SIZE_8703B - RX_DMA_RESERVED_SIZE_8703B)
++	#endif /* !CONFIG_SDIO_RX_COPY */
++#endif /* CONFIG_SDIO_HCI */
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	s32 rtl8703bs_init_recv_priv(PADAPTER padapter);
++	void rtl8703bs_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_USB_HCI
++	int rtl8703bu_init_recv_priv(_adapter *padapter);
++	void rtl8703bu_free_recv_priv(_adapter *padapter);
++	void rtl8703bu_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8703be_init_recv_priv(PADAPTER padapter);
++	void rtl8703be_free_recv_priv(PADAPTER padapter);
++#endif
++
++void rtl8703b_query_rx_desc_status(union recv_frame *precvframe, u8 *pdesc);
++
++#endif /* __RTL8703B_RECV_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8703b_rf.h b/drivers/net/wireless/rtl8723du/include/rtl8703b_rf.h
+new file mode 100644
+index 0000000..0d3d0aa
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8703b_rf.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8703B_RF_H__
++#define __RTL8703B_RF_H__
++
++int	PHY_RF6052_Config8703B(IN	PADAPTER		Adapter);
++
++VOID
++PHY_RF6052SetBandwidth8703B(
++	IN	PADAPTER				Adapter,
++	IN	CHANNEL_WIDTH		Bandwidth);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8703b_spec.h b/drivers/net/wireless/rtl8723du/include/rtl8703b_spec.h
+new file mode 100644
+index 0000000..9f9491e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8703b_spec.h
+@@ -0,0 +1,480 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#ifndef __RTL8703B_SPEC_H__
++#define __RTL8703B_SPEC_H__
++
++#include <drv_conf.h>
++
++
++#define HAL_NAV_UPPER_UNIT_8703B		128		/* micro-second */
++
++/* -----------------------------------------------------
++ *
++ *	0x0000h ~ 0x00FFh	System Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_SYS_ISO_CTRL_8703B			0x0000	/* 2 Byte */
++#define REG_SYS_FUNC_EN_8703B			0x0002	/* 2 Byte */
++#define REG_APS_FSMCO_8703B			0x0004	/* 4 Byte */
++#define REG_SYS_CLKR_8703B				0x0008	/* 2 Byte */
++#define REG_9346CR_8703B				0x000A	/* 2 Byte */
++#define REG_EE_VPD_8703B				0x000C	/* 2 Byte */
++#define REG_AFE_MISC_8703B				0x0010	/* 1 Byte */
++#define REG_SPS0_CTRL_8703B				0x0011	/* 7 Byte */
++#define REG_SPS_OCP_CFG_8703B			0x0018	/* 4 Byte */
++#define REG_RSV_CTRL_8703B				0x001C	/* 3 Byte */
++#define REG_RF_CTRL_8703B				0x001F	/* 1 Byte */
++#define REG_LPLDO_CTRL_8703B			0x0023	/* 1 Byte */
++#define REG_AFE_XTAL_CTRL_8703B		0x0024	/* 4 Byte */
++#define REG_AFE_PLL_CTRL_8703B			0x0028	/* 4 Byte */
++#define REG_MAC_PLL_CTRL_EXT_8703B		0x002c	/* 4 Byte */
++#define REG_EFUSE_CTRL_8703B			0x0030
++#define REG_EFUSE_TEST_8703B			0x0034
++#define REG_PWR_DATA_8703B				0x0038
++#define REG_CAL_TIMER_8703B				0x003C
++#define REG_ACLK_MON_8703B				0x003E
++#define REG_GPIO_MUXCFG_8703B			0x0040
++#define REG_GPIO_IO_SEL_8703B			0x0042
++#define REG_MAC_PINMUX_CFG_8703B		0x0043
++#define REG_GPIO_PIN_CTRL_8703B			0x0044
++#define REG_GPIO_INTM_8703B				0x0048
++#define REG_LEDCFG0_8703B				0x004C
++#define REG_LEDCFG1_8703B				0x004D
++#define REG_LEDCFG2_8703B				0x004E
++#define REG_LEDCFG3_8703B				0x004F
++#define REG_FSIMR_8703B					0x0050
++#define REG_FSISR_8703B					0x0054
++#define REG_HSIMR_8703B					0x0058
++#define REG_HSISR_8703B					0x005c
++#define REG_GPIO_EXT_CTRL				0x0060
++#define REG_PAD_CTRL1_8703B		0x0064
++#define REG_MULTI_FUNC_CTRL_8703B		0x0068
++#define REG_GPIO_STATUS_8703B			0x006C
++#define REG_SDIO_CTRL_8703B				0x0070
++#define REG_OPT_CTRL_8703B				0x0074
++#define REG_AFE_CTRL_4_8703B		0x0078
++#define REG_MCUFWDL_8703B				0x0080
++#define REG_HMEBOX_DBG_0_8703B	0x0088
++#define REG_HMEBOX_DBG_1_8703B	0x008A
++#define REG_HMEBOX_DBG_2_8703B	0x008C
++#define REG_HMEBOX_DBG_3_8703B	0x008E
++#define REG_HIMR0_8703B					0x00B0
++#define REG_HISR0_8703B					0x00B4
++#define REG_HIMR1_8703B					0x00B8
++#define REG_HISR1_8703B					0x00BC
++#define REG_PMC_DBG_CTRL2_8703B			0x00CC
++#define	REG_EFUSE_BURN_GNT_8703B		0x00CF
++#define REG_HPON_FSM_8703B				0x00EC
++#define REG_SYS_CFG_8703B				0x00F0
++#define REG_SYS_CFG1_8703B				0x00FC
++#define REG_ROM_VERSION					0x00FD
++
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_C2HEVT_CMD_ID_8703B	0x01A0
++#define REG_C2HEVT_CMD_SEQ_88XX		0x01A1
++#define REG_C2hEVT_CMD_CONTENT_88XX	0x01A2
++#define REG_C2HEVT_CMD_LEN_8703B        0x01AE
++#define REG_C2HEVT_CMD_LEN_88XX		REG_C2HEVT_CMD_LEN_8703B
++#define REG_C2HEVT_CLEAR_8703B			0x01AF
++#define REG_MCUTST_1_8703B				0x01C0
++#define REG_WOWLAN_WAKE_REASON 0x01C7
++#define REG_FMETHR_8703B				0x01C8
++#define REG_HMETFR_8703B				0x01CC
++#define REG_HMEBOX_0_8703B				0x01D0
++#define REG_HMEBOX_1_8703B				0x01D4
++#define REG_HMEBOX_2_8703B				0x01D8
++#define REG_HMEBOX_3_8703B				0x01DC
++#define REG_LLT_INIT_8703B				0x01E0
++#define REG_HMEBOX_EXT0_8703B			0x01F0
++#define REG_HMEBOX_EXT1_8703B			0x01F4
++#define REG_HMEBOX_EXT2_8703B			0x01F8
++#define REG_HMEBOX_EXT3_8703B			0x01FC
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RQPN_8703B					0x0200
++#define REG_FIFOPAGE_8703B				0x0204
++#define REG_DWBCN0_CTRL_8703B			REG_TDECTRL
++#define REG_TXDMA_OFFSET_CHK_8703B	0x020C
++#define REG_TXDMA_STATUS_8703B		0x0210
++#define REG_RQPN_NPQ_8703B			0x0214
++#define REG_DWBCN1_CTRL_8703B			0x0228
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RXDMA_AGG_PG_TH_8703B		0x0280
++#define REG_FW_UPD_RDPTR_8703B		0x0284 /* FW shall update this register before FW write RXPKT_RELEASE_POLL to 1 */
++#define REG_RXDMA_CONTROL_8703B		0x0286 /* Control the RX DMA. */
++#define REG_RXPKT_NUM_8703B			0x0287 /* The number of packets in RXPKTBUF.	 */
++#define REG_RXDMA_STATUS_8703B			0x0288
++#define REG_RXDMA_MODE_CTRL_8703B		0x0290
++#define REG_EARLY_MODE_CONTROL_8703B	0x02BC
++#define REG_RSVD5_8703B					0x02F0
++#define REG_RSVD6_8703B					0x02F4
++
++/* -----------------------------------------------------
++ *
++ *	0x0300h ~ 0x03FFh	PCIe
++ *
++ * ----------------------------------------------------- */
++#define	REG_PCIE_CTRL_REG_8703B		0x0300
++#define	REG_INT_MIG_8703B				0x0304	/* Interrupt Migration */
++#define	REG_BCNQ_DESA_8703B			0x0308	/* TX Beacon Descriptor Address */
++#define	REG_HQ_DESA_8703B				0x0310	/* TX High Queue Descriptor Address */
++#define	REG_MGQ_DESA_8703B			0x0318	/* TX Manage Queue Descriptor Address */
++#define	REG_VOQ_DESA_8703B			0x0320	/* TX VO Queue Descriptor Address */
++#define	REG_VIQ_DESA_8703B				0x0328	/* TX VI Queue Descriptor Address */
++#define	REG_BEQ_DESA_8703B			0x0330	/* TX BE Queue Descriptor Address */
++#define	REG_BKQ_DESA_8703B			0x0338	/* TX BK Queue Descriptor Address */
++#define	REG_RX_DESA_8703B				0x0340	/* RX Queue	Descriptor Address */
++#define	REG_DBI_WDATA_8703B			0x0348	/* DBI Write Data */
++#define	REG_DBI_RDATA_8703B			0x034C	/* DBI Read Data */
++#define	REG_DBI_ADDR_8703B				0x0350	/* DBI Address */
++#define	REG_DBI_FLAG_8703B				0x0352	/* DBI Read/Write Flag */
++#define	REG_MDIO_WDATA_8703B		0x0354	/* MDIO for Write PCIE PHY */
++#define	REG_MDIO_RDATA_8703B			0x0356	/* MDIO for Reads PCIE PHY */
++#define	REG_MDIO_CTL_8703B			0x0358	/* MDIO for Control */
++#define	REG_DBG_SEL_8703B				0x0360	/* Debug Selection Register */
++#define	REG_PCIE_HRPWM_8703B			0x0361	/* PCIe RPWM */
++#define	REG_PCIE_HCPWM_8703B			0x0363	/* PCIe CPWM */
++#define	REG_PCIE_MULTIFET_CTRL_8703B	0x036A	/* PCIE Multi-Fethc Control */
++
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_VOQ_INFORMATION_8703B		0x0400
++#define REG_VIQ_INFORMATION_8703B		0x0404
++#define REG_BEQ_INFORMATION_8703B		0x0408
++#define REG_BKQ_INFORMATION_8703B		0x040C
++#define REG_MGQ_INFORMATION_8703B		0x0410
++#define REG_HGQ_INFORMATION_8703B		0x0414
++#define REG_BCNQ_INFORMATION_8703B	0x0418
++#define REG_TXPKT_EMPTY_8703B			0x041A
++
++#define REG_FWHW_TXQ_CTRL_8703B		0x0420
++#define REG_HWSEQ_CTRL_8703B			0x0423
++#define REG_TXPKTBUF_BCNQ_BDNY_8703B	0x0424
++#define REG_TXPKTBUF_MGQ_BDNY_8703B	0x0425
++#define REG_LIFECTRL_CTRL_8703B			0x0426
++#define REG_MULTI_BCNQ_OFFSET_8703B	0x0427
++#define REG_SPEC_SIFS_8703B				0x0428
++#define REG_RL_8703B						0x042A
++#define REG_TXBF_CTRL_8703B				0x042C
++#define REG_DARFRC_8703B				0x0430
++#define REG_RARFRC_8703B				0x0438
++#define REG_RRSR_8703B					0x0440
++#define REG_ARFR0_8703B					0x0444
++#define REG_ARFR1_8703B					0x044C
++#define REG_CCK_CHECK_8703B				0x0454
++#define REG_AMPDU_MAX_TIME_8703B		0x0456
++#define REG_TXPKTBUF_BCNQ_BDNY1_8703B	0x0457
++
++#define REG_AMPDU_MAX_LENGTH_8703B	0x0458
++#define REG_TXPKTBUF_WMAC_LBK_BF_HD_8703B	0x045D
++#define REG_NDPA_OPT_CTRL_8703B		0x045F
++#define REG_FAST_EDCA_CTRL_8703B		0x0460
++#define REG_RD_RESP_PKT_TH_8703B		0x0463
++#define REG_DATA_SC_8703B				0x0483
++#ifdef CONFIG_WOWLAN
++	#define REG_TXPKTBUF_IV_LOW             0x0484
++	#define REG_TXPKTBUF_IV_HIGH            0x0488
++#endif
++#define REG_TXRPT_START_OFFSET		0x04AC
++#define REG_POWER_STAGE1_8703B		0x04B4
++#define REG_POWER_STAGE2_8703B		0x04B8
++#define REG_AMPDU_BURST_MODE_8703B	0x04BC
++#define REG_PKT_VO_VI_LIFE_TIME_8703B	0x04C0
++#define REG_PKT_BE_BK_LIFE_TIME_8703B	0x04C2
++#define REG_STBC_SETTING_8703B			0x04C4
++#define REG_HT_SINGLE_AMPDU_8703B		0x04C7
++#define REG_PROT_MODE_CTRL_8703B		0x04C8
++#define REG_MAX_AGGR_NUM_8703B		0x04CA
++#define REG_RTS_MAX_AGGR_NUM_8703B	0x04CB
++#define REG_BAR_MODE_CTRL_8703B		0x04CC
++#define REG_RA_TRY_RATE_AGG_LMT_8703B	0x04CF
++#define REG_MACID_PKT_DROP0_8703B		0x04D0
++#define REG_MACID_PKT_SLEEP_8703B		0x04D4
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_EDCA_VO_PARAM_8703B		0x0500
++#define REG_EDCA_VI_PARAM_8703B		0x0504
++#define REG_EDCA_BE_PARAM_8703B		0x0508
++#define REG_EDCA_BK_PARAM_8703B		0x050C
++#define REG_BCNTCFG_8703B				0x0510
++#define REG_PIFS_8703B					0x0512
++#define REG_RDG_PIFS_8703B				0x0513
++#define REG_SIFS_CTX_8703B				0x0514
++#define REG_SIFS_TRX_8703B				0x0516
++#define REG_AGGR_BREAK_TIME_8703B		0x051A
++#define REG_SLOT_8703B					0x051B
++#define REG_TX_PTCL_CTRL_8703B			0x0520
++#define REG_TXPAUSE_8703B				0x0522
++#define REG_DIS_TXREQ_CLR_8703B		0x0523
++#define REG_RD_CTRL_8703B				0x0524
++/*
++ * Format for offset 540h-542h:
++ *	[3:0]:   TBTT prohibit setup in unit of 32us. The time for HW getting beacon content before TBTT.
++ *	[7:4]:   Reserved.
++ *	[19:8]:  TBTT prohibit hold in unit of 32us. The time for HW holding to send the beacon packet.
++ *	[23:20]: Reserved
++ * Description:
++ *	              |
++ * |<--Setup--|--Hold------------>|
++ *	--------------|----------------------
++ * |
++ * TBTT
++ * Note: We cannot update beacon content to HW or send any AC packets during the time between Setup and Hold.
++ * Described by Designer Tim and Bruce, 2011-01-14.
++ *   */
++#define REG_TBTT_PROHIBIT_8703B			0x0540
++#define REG_RD_NAV_NXT_8703B			0x0544
++#define REG_NAV_PROT_LEN_8703B			0x0546
++#define REG_BCN_CTRL_8703B				0x0550
++#define REG_BCN_CTRL_1_8703B			0x0551
++#define REG_MBID_NUM_8703B				0x0552
++#define REG_DUAL_TSF_RST_8703B			0x0553
++#define REG_BCN_INTERVAL_8703B			0x0554
++#define REG_DRVERLYINT_8703B			0x0558
++#define REG_BCNDMATIM_8703B			0x0559
++#define REG_ATIMWND_8703B				0x055A
++#define REG_USTIME_TSF_8703B			0x055C
++#define REG_BCN_MAX_ERR_8703B			0x055D
++#define REG_RXTSF_OFFSET_CCK_8703B		0x055E
++#define REG_RXTSF_OFFSET_OFDM_8703B	0x055F
++#define REG_TSFTR_8703B					0x0560
++#define REG_CTWND_8703B					0x0572
++#define REG_SECONDARY_CCA_CTRL_8703B	0x0577
++#define REG_PSTIMER_8703B				0x0580
++#define REG_TIMER0_8703B				0x0584
++#define REG_TIMER1_8703B				0x0588
++#define REG_ACMHWCTRL_8703B			0x05C0
++#define REG_SCH_TXCMD_8703B			0x05F8
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_MAC_CR_8703B				0x0600
++#define REG_TCR_8703B					0x0604
++#define REG_RCR_8703B					0x0608
++#define REG_RX_PKT_LIMIT_8703B			0x060C
++#define REG_RX_DLK_TIME_8703B			0x060D
++#define REG_RX_DRVINFO_SZ_8703B		0x060F
++
++#define REG_MACID_8703B					0x0610
++#define REG_BSSID_8703B					0x0618
++#define REG_MAR_8703B					0x0620
++#define REG_MBIDCAMCFG_8703B			0x0628
++#define REG_WOWLAN_GTK_DBG1	0x630
++#define REG_WOWLAN_GTK_DBG2	0x634
++
++#define REG_USTIME_EDCA_8703B			0x0638
++#define REG_MAC_SPEC_SIFS_8703B		0x063A
++#define REG_RESP_SIFP_CCK_8703B			0x063C
++#define REG_RESP_SIFS_OFDM_8703B		0x063E
++#define REG_ACKTO_8703B					0x0640
++#define REG_CTS2TO_8703B				0x0641
++#define REG_EIFS_8703B					0x0642
++
++#define REG_NAV_UPPER_8703B			0x0652	/* unit of 128 */
++#define REG_TRXPTCL_CTL_8703B			0x0668
++
++/* Security */
++#define REG_CAMCMD_8703B				0x0670
++#define REG_CAMWRITE_8703B				0x0674
++#define REG_CAMREAD_8703B				0x0678
++#define REG_CAMDBG_8703B				0x067C
++#define REG_SECCFG_8703B				0x0680
++
++/* Power */
++#define REG_WOW_CTRL_8703B				0x0690
++#define REG_PS_RX_INFO_8703B			0x0692
++#define REG_UAPSD_TID_8703B				0x0693
++#define REG_WKFMCAM_CMD_8703B			0x0698
++#define REG_WKFMCAM_NUM_8703B			0x0698
++#define REG_WKFMCAM_RWD_8703B			0x069C
++#define REG_RXFLTMAP0_8703B				0x06A0
++#define REG_RXFLTMAP1_8703B				0x06A2
++#define REG_RXFLTMAP2_8703B				0x06A4
++#define REG_BCN_PSR_RPT_8703B			0x06A8
++#define REG_BT_COEX_TABLE_8703B		0x06C0
++#define REG_BFMER0_INFO_8703B			0x06E4
++#define REG_BFMER1_INFO_8703B			0x06EC
++#define REG_CSI_RPT_PARAM_BW20_8703B	0x06F4
++#define REG_CSI_RPT_PARAM_BW40_8703B	0x06F8
++#define REG_CSI_RPT_PARAM_BW80_8703B	0x06FC
++
++/* Hardware Port 2 */
++#define REG_MACID1_8703B				0x0700
++#define REG_BSSID1_8703B				0x0708
++#define REG_BFMEE_SEL_8703B				0x0714
++#define REG_SND_PTCL_CTRL_8703B		0x0718
++
++/* LTE_COEX */
++#define REG_LTECOEX_CTRL			0x07C0
++#define REG_LTECOEX_WRITE_DATA		0x07C4
++#define REG_LTECOEX_READ_DATA		0x07C8
++#define REG_LTECOEX_PATH_CONTROL	0x70
++
++/* ************************************************************
++ * SDIO Bus Specification
++ * ************************************************************ */
++
++/* -----------------------------------------------------
++ * SDIO CMD Address Mapping
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * I/O bus domain (Host)
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * SDIO register
++ * ----------------------------------------------------- */
++#define SDIO_REG_HCPWM1_8703B	0x025 /* HCI Current Power Mode 1 */
++
++
++/* ****************************************************************************
++ *	8703 Regsiter Bit and Content definition
++ * **************************************************************************** */
++
++#define BIT_USB_RXDMA_AGG_EN	BIT(31)
++#define RXDMA_AGG_MODE_EN		BIT(1)
++
++#ifdef CONFIG_WOWLAN
++	#define RXPKT_RELEASE_POLL		BIT(16)
++	#define RXDMA_IDLE				BIT(17)
++	#define RW_RELEASE_EN			BIT(18)
++#endif
++
++/* 2 HSISR
++ * interrupt mask which needs to clear */
++#define MASK_HSISR_CLEAR		(HSISR_GPIO12_0_INT |\
++		HSISR_SPS_OCP_INT |\
++		HSISR_RON_INT |\
++		HSISR_PDNINT |\
++		HSISR_GPIO9_INT)
++
++
++/* ----------------------------------------------------------------------------
++ * 8703B REG_CCK_CHECK						(offset 0x454)
++ * ---------------------------------------------------------------------------- */
++#define BIT_BCN_PORT_SEL		BIT5
++
++#ifdef CONFIG_RF_POWER_TRIM
++
++	#ifdef CONFIG_RTL8703B
++		#define EEPROM_RF_GAIN_OFFSET			0xC1
++	#endif
++
++	#define EEPROM_RF_GAIN_VAL				0x1F6
++#endif /*CONFIG_RF_POWER_TRIM*/
++
++
++/* ----------------------------------------------------------------------------
++ * 8195 IMR/ISR bits						(offset 0xB0,  8bits)
++ * ---------------------------------------------------------------------------- */
++#define	IMR_DISABLED_8703B					0
++/* IMR DW0(0x00B0-00B3) Bit 0-31 */
++#define	IMR_TIMER2_8703B					BIT31		/* Timeout interrupt 2 */
++#define	IMR_TIMER1_8703B					BIT30		/* Timeout interrupt 1	 */
++#define	IMR_PSTIMEOUT_8703B				BIT29		/* Power Save Time Out Interrupt */
++#define	IMR_GTINT4_8703B					BIT28		/* When GTIMER4 expires, this bit is set to 1	 */
++#define	IMR_GTINT3_8703B					BIT27		/* When GTIMER3 expires, this bit is set to 1	 */
++#define	IMR_TXBCN0ERR_8703B				BIT26		/* Transmit Beacon0 Error			 */
++#define	IMR_TXBCN0OK_8703B				BIT25		/* Transmit Beacon0 OK			 */
++#define	IMR_TSF_BIT32_TOGGLE_8703B		BIT24		/* TSF Timer BIT32 toggle indication interrupt			 */
++#define	IMR_BCNDMAINT0_8703B				BIT20		/* Beacon DMA Interrupt 0			 */
++#define	IMR_BCNDERR0_8703B				BIT16		/* Beacon Queue DMA OK0			 */
++#define	IMR_HSISR_IND_ON_INT_8703B		BIT15		/* HSISR Indicator (HSIMR & HSISR is true, this bit is set to 1) */
++#define	IMR_BCNDMAINT_E_8703B			BIT14		/* Beacon DMA Interrupt Extension for Win7			 */
++#define	IMR_ATIMEND_8703B				BIT12		/* CTWidnow End or ATIM Window End */
++#define	IMR_C2HCMD_8703B					BIT10		/* CPU to Host Command INT Status, Write 1 clear	 */
++#define	IMR_CPWM2_8703B					BIT9			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_CPWM_8703B					BIT8			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_HIGHDOK_8703B				BIT7			/* High Queue DMA OK	 */
++#define	IMR_MGNTDOK_8703B				BIT6			/* Management Queue DMA OK	 */
++#define	IMR_BKDOK_8703B					BIT5			/* AC_BK DMA OK		 */
++#define	IMR_BEDOK_8703B					BIT4			/* AC_BE DMA OK	 */
++#define	IMR_VIDOK_8703B					BIT3			/* AC_VI DMA OK		 */
++#define	IMR_VODOK_8703B					BIT2			/* AC_VO DMA OK	 */
++#define	IMR_RDU_8703B					BIT1			/* Rx Descriptor Unavailable	 */
++#define	IMR_ROK_8703B					BIT0			/* Receive DMA OK */
++
++/* IMR DW1(0x00B4-00B7) Bit 0-31 */
++#define	IMR_BCNDMAINT7_8703B				BIT27		/* Beacon DMA Interrupt 7 */
++#define	IMR_BCNDMAINT6_8703B				BIT26		/* Beacon DMA Interrupt 6 */
++#define	IMR_BCNDMAINT5_8703B				BIT25		/* Beacon DMA Interrupt 5 */
++#define	IMR_BCNDMAINT4_8703B				BIT24		/* Beacon DMA Interrupt 4 */
++#define	IMR_BCNDMAINT3_8703B				BIT23		/* Beacon DMA Interrupt 3 */
++#define	IMR_BCNDMAINT2_8703B				BIT22		/* Beacon DMA Interrupt 2 */
++#define	IMR_BCNDMAINT1_8703B				BIT21		/* Beacon DMA Interrupt 1 */
++#define	IMR_BCNDOK7_8703B					BIT20		/* Beacon Queue DMA OK Interrup 7 */
++#define	IMR_BCNDOK6_8703B					BIT19		/* Beacon Queue DMA OK Interrup 6 */
++#define	IMR_BCNDOK5_8703B					BIT18		/* Beacon Queue DMA OK Interrup 5 */
++#define	IMR_BCNDOK4_8703B					BIT17		/* Beacon Queue DMA OK Interrup 4 */
++#define	IMR_BCNDOK3_8703B					BIT16		/* Beacon Queue DMA OK Interrup 3 */
++#define	IMR_BCNDOK2_8703B					BIT15		/* Beacon Queue DMA OK Interrup 2 */
++#define	IMR_BCNDOK1_8703B					BIT14		/* Beacon Queue DMA OK Interrup 1 */
++#define	IMR_ATIMEND_E_8703B				BIT13		/* ATIM Window End Extension for Win7 */
++#define	IMR_TXERR_8703B					BIT11		/* Tx Error Flag Interrupt Status, write 1 clear. */
++#define	IMR_RXERR_8703B					BIT10		/* Rx Error Flag INT Status, Write 1 clear */
++#define	IMR_TXFOVW_8703B					BIT9			/* Transmit FIFO Overflow */
++#define	IMR_RXFOVW_8703B					BIT8			/* Receive FIFO Overflow */
++
++#ifdef CONFIG_PCI_HCI
++	/* #define IMR_RX_MASK		(IMR_ROK_8703B|IMR_RDU_8703B|IMR_RXFOVW_8703B) */
++	#define IMR_TX_MASK			(IMR_VODOK_8703B | IMR_VIDOK_8703B | IMR_BEDOK_8703B | IMR_BKDOK_8703B | IMR_MGNTDOK_8703B | IMR_HIGHDOK_8703B)
++
++	#define RT_BCN_INT_MASKS	(IMR_BCNDMAINT0_8703B | IMR_TXBCN0OK_8703B | IMR_TXBCN0ERR_8703B | IMR_BCNDERR0_8703B)
++
++	#define RT_AC_INT_MASKS	(IMR_VIDOK_8703B | IMR_VODOK_8703B | IMR_BEDOK_8703B | IMR_BKDOK_8703B)
++#endif
++
++/* ********************************************************
++ * General definitions
++ * ******************************************************** */
++
++#define MACID_NUM_8703B 16
++#define SEC_CAM_ENT_NUM_8703B 16
++#define HW_PORT_NUM_8703B	2
++#define NSS_NUM_8703B 1
++#define BAND_CAP_8703B (BAND_CAP_2G)
++#define BW_CAP_8703B (BW_CAP_20M | BW_CAP_40M)
++#define PROTO_CAP_8703B (PROTO_CAP_11B | PROTO_CAP_11G | PROTO_CAP_11N)
++
++#endif /* __RTL8703B_SPEC_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8703b_sreset.h b/drivers/net/wireless/rtl8723du/include/rtl8703b_sreset.h
+new file mode 100644
+index 0000000..fbed1fb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8703b_sreset.h
+@@ -0,0 +1,29 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8703B_SRESET_H_
++#define _RTL8703B_SRESET_H_
++
++#include <rtw_sreset.h>
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	extern void rtl8703b_sreset_xmit_status_check(_adapter *padapter);
++	extern void rtl8703b_sreset_linked_status_check(_adapter *padapter);
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8703b_xmit.h b/drivers/net/wireless/rtl8723du/include/rtl8703b_xmit.h
+new file mode 100644
+index 0000000..c44609c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8703b_xmit.h
+@@ -0,0 +1,338 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8703B_XMIT_H__
++#define __RTL8703B_XMIT_H__
++
++
++#define MAX_TID (15)
++
++
++#ifndef __INC_HAL8703BDESC_H
++	#define __INC_HAL8703BDESC_H
++
++	#define RX_STATUS_DESC_SIZE_8703B		24
++	#define RX_DRV_INFO_SIZE_UNIT_8703B 8
++
++
++	/* DWORD 0 */
++	#define SET_RX_STATUS_DESC_PKT_LEN_8703B(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++	#define SET_RX_STATUS_DESC_EOR_8703B(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 30, 1, __Value)
++	#define SET_RX_STATUS_DESC_OWN_8703B(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 31, 1, __Value)
++
++	#define GET_RX_STATUS_DESC_PKT_LEN_8703B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 0, 14)
++	#define GET_RX_STATUS_DESC_CRC32_8703B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 14, 1)
++	#define GET_RX_STATUS_DESC_ICV_8703B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++	#define GET_RX_STATUS_DESC_DRVINFO_SIZE_8703B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 4)
++	#define GET_RX_STATUS_DESC_SECURITY_8703B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 20, 3)
++	#define GET_RX_STATUS_DESC_QOS_8703B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 23, 1)
++	#define GET_RX_STATUS_DESC_SHIFT_8703B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 24, 2)
++	#define GET_RX_STATUS_DESC_PHY_STATUS_8703B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 26, 1)
++	#define GET_RX_STATUS_DESC_SWDEC_8703B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 27, 1)
++	#define GET_RX_STATUS_DESC_LAST_SEG_8703B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 28, 1)
++	#define GET_RX_STATUS_DESC_FIRST_SEG_8703B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 29, 1)
++	#define GET_RX_STATUS_DESC_EOR_8703B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 30, 1)
++	#define GET_RX_STATUS_DESC_OWN_8703B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 31, 1)
++
++	/* DWORD 1 */
++	#define GET_RX_STATUS_DESC_MACID_8703B(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 0, 7)
++	#define GET_RX_STATUS_DESC_TID_8703B(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 8, 4)
++	#define GET_RX_STATUS_DESC_AMSDU_8703B(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 13, 1)
++	#define GET_RX_STATUS_DESC_RXID_MATCH_8703B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+4, 14, 1)
++	#define GET_RX_STATUS_DESC_PAGGR_8703B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 15, 1)
++	#define GET_RX_STATUS_DESC_A1_FIT_8703B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 16, 4)
++	#define GET_RX_STATUS_DESC_CHKERR_8703B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 20, 1)
++	#define GET_RX_STATUS_DESC_IPVER_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 21, 1)
++	#define GET_RX_STATUS_DESC_IS_TCPUDP__8703B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+4, 22, 1)
++	#define GET_RX_STATUS_DESC_CHK_VLD_8703B(__pRxDesc)	LE_BITS_TO_4BYTE(__pRxDesc+4, 23, 1)
++	#define GET_RX_STATUS_DESC_PAM_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 24, 1)
++	#define GET_RX_STATUS_DESC_PWR_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 25, 1)
++	#define GET_RX_STATUS_DESC_MORE_DATA_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 26, 1)
++	#define GET_RX_STATUS_DESC_MORE_FRAG_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 27, 1)
++	#define GET_RX_STATUS_DESC_TYPE_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 28, 2)
++	#define GET_RX_STATUS_DESC_MC_8703B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 30, 1)
++	#define GET_RX_STATUS_DESC_BC_8703B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 31, 1)
++
++	/* DWORD 2 */
++	#define GET_RX_STATUS_DESC_SEQ_8703B(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 0, 12)
++	#define GET_RX_STATUS_DESC_FRAG_8703B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 12, 4)
++	#define GET_RX_STATUS_DESC_RX_IS_QOS_8703B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 16, 1)
++	#define GET_RX_STATUS_DESC_WLANHD_IV_LEN_8703B(__pRxStatusDesc)	LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 18, 6)
++	#define GET_RX_STATUS_DESC_RPT_SEL_8703B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 28, 1)
++
++	/* DWORD 3 */
++	#define GET_RX_STATUS_DESC_RX_RATE_8703B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 0, 7)
++	#define GET_RX_STATUS_DESC_HTC_8703B(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 10, 1)
++	#define GET_RX_STATUS_DESC_EOSP_8703B(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 11, 1)
++	#define GET_RX_STATUS_DESC_BSSID_FIT_8703B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 12, 2)
++	#ifdef CONFIG_USB_RX_AGGREGATION
++		#define GET_RX_STATUS_DESC_USB_AGG_PKTNUM_8703B(__pRxStatusDesc)	LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 16, 8)
++	#endif
++	#define GET_RX_STATUS_DESC_PATTERN_MATCH_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 29, 1)
++	#define GET_RX_STATUS_DESC_UNICAST_MATCH_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 30, 1)
++	#define GET_RX_STATUS_DESC_MAGIC_MATCH_8703B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+12, 31, 1)
++
++	/* DWORD 6 */
++	#define GET_RX_STATUS_DESC_SPLCP_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 0, 1)
++	#define GET_RX_STATUS_DESC_LDPC_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 1, 1)
++	#define GET_RX_STATUS_DESC_STBC_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 2, 1)
++	#define GET_RX_STATUS_DESC_BW_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 4, 2)
++
++	/* DWORD 5 */
++	#define GET_RX_STATUS_DESC_TSFL_8703B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+20, 0, 32)
++
++	#define GET_RX_STATUS_DESC_BUFF_ADDR_8703B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+24, 0, 32)
++	#define GET_RX_STATUS_DESC_BUFF_ADDR64_8703B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+28, 0, 32)
++
++	#define SET_RX_STATUS_DESC_BUFF_ADDR_8703B(__pRxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pRxDesc+24, 0, 32, __Value)
++
++
++	/* Dword 0 */
++	#define GET_TX_DESC_OWN_8703B(__pTxDesc)				LE_BITS_TO_4BYTE(__pTxDesc, 31, 1)
++
++	#define SET_TX_DESC_PKT_SIZE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 16, __Value)
++	#define SET_TX_DESC_OFFSET_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 8, __Value)
++	#define SET_TX_DESC_BMC_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 24, 1, __Value)
++	#define SET_TX_DESC_HTC_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 25, 1, __Value)
++	#define SET_TX_DESC_LAST_SEG_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 26, 1, __Value)
++	#define SET_TX_DESC_FIRST_SEG_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 27, 1, __Value)
++	#define SET_TX_DESC_LINIP_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 28, 1, __Value)
++	#define SET_TX_DESC_NO_ACM_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 29, 1, __Value)
++	#define SET_TX_DESC_GF_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 30, 1, __Value)
++	#define SET_TX_DESC_OWN_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 31, 1, __Value)
++
++	/* Dword 1 */
++	#define SET_TX_DESC_MACID_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 7, __Value)
++	#define SET_TX_DESC_QUEUE_SEL_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 8, 5, __Value)
++	#define SET_TX_DESC_RDG_NAV_EXT_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 13, 1, __Value)
++	#define SET_TX_DESC_LSIG_TXOP_EN_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 14, 1, __Value)
++	#define SET_TX_DESC_PIFS_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 15, 1, __Value)
++	#define SET_TX_DESC_RATE_ID_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 16, 5, __Value)
++	#define SET_TX_DESC_EN_DESC_ID_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 21, 1, __Value)
++	#define SET_TX_DESC_SEC_TYPE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 22, 2, __Value)
++	#define SET_TX_DESC_PKT_OFFSET_8703B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 24, 5, __Value)
++
++
++	/* Dword 2 */
++	#define SET_TX_DESC_PAID_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 0,  9, __Value)
++	#define SET_TX_DESC_CCA_RTS_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 10, 2, __Value)
++	#define SET_TX_DESC_AGG_ENABLE_8703B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 12, 1, __Value)
++	#define SET_TX_DESC_RDG_ENABLE_8703B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 13, 1, __Value)
++	#define SET_TX_DESC_AGG_BREAK_8703B(__pTxDesc, __Value)				SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 16, 1, __Value)
++	#define SET_TX_DESC_MORE_FRAG_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 17, 1, __Value)
++	#define SET_TX_DESC_RAW_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 18, 1, __Value)
++	#define SET_TX_DESC_SPE_RPT_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 19, 1, __Value)
++	#define SET_TX_DESC_AMPDU_DENSITY_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 20, 3, __Value)
++	#define SET_TX_DESC_BT_INT_8703B(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 23, 1, __Value)
++	#define SET_TX_DESC_GID_8703B(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 24, 6, __Value)
++
++
++	/* Dword 3 */
++	#define SET_TX_DESC_WHEADER_LEN_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 0, 4, __Value)
++	#define SET_TX_DESC_CHK_EN_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 4, 1, __Value)
++	#define SET_TX_DESC_EARLY_MODE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 5, 1, __Value)
++	#define SET_TX_DESC_HWSEQ_SEL_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 6, 2, __Value)
++	#define SET_TX_DESC_USE_RATE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 8, 1, __Value)
++	#define SET_TX_DESC_DISABLE_RTS_FB_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 9, 1, __Value)
++	#define SET_TX_DESC_DISABLE_FB_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 10, 1, __Value)
++	#define SET_TX_DESC_CTS2SELF_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 11, 1, __Value)
++	#define SET_TX_DESC_RTS_ENABLE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 12, 1, __Value)
++	#define SET_TX_DESC_HW_RTS_ENABLE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 13, 1, __Value)
++	#define SET_TX_DESC_NAV_USE_HDR_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 15, 1, __Value)
++	#define SET_TX_DESC_USE_MAX_LEN_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 16, 1, __Value)
++	#define SET_TX_DESC_MAX_AGG_NUM_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 17, 5, __Value)
++	#define SET_TX_DESC_NDPA_8703B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 22, 2, __Value)
++	#define SET_TX_DESC_AMPDU_MAX_TIME_8703B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 24, 8, __Value)
++
++	/* Dword 4 */
++	#define SET_TX_DESC_TX_RATE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 0, 7, __Value)
++	#define SET_TX_DESC_DATA_RATE_FB_LIMIT_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 8, 5, __Value)
++	#define SET_TX_DESC_RTS_RATE_FB_LIMIT_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 13, 4, __Value)
++	#define SET_TX_DESC_RETRY_LIMIT_ENABLE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 17, 1, __Value)
++	#define SET_TX_DESC_DATA_RETRY_LIMIT_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 18, 6, __Value)
++	#define SET_TX_DESC_RTS_RATE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 24, 5, __Value)
++
++
++	/* Dword 5 */
++	#define SET_TX_DESC_DATA_SC_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 0, 4, __Value)
++	#define SET_TX_DESC_DATA_SHORT_8703B(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 4, 1, __Value)
++	#define SET_TX_DESC_DATA_BW_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 5, 2, __Value)
++	#define SET_TX_DESC_DATA_LDPC_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 7, 1, __Value)
++	#define SET_TX_DESC_DATA_STBC_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 8, 2, __Value)
++	#define SET_TX_DESC_CTROL_STBC_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 10, 2, __Value)
++	#define SET_TX_DESC_RTS_SHORT_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 12, 1, __Value)
++	#define SET_TX_DESC_RTS_SC_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 13, 4, __Value)
++
++
++	/* Dword 6 */
++	#define SET_TX_DESC_SW_DEFINE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 0, 12, __Value)
++	#define SET_TX_DESC_MBSSID_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 12, 4, __Value)
++	#define SET_TX_DESC_ANTSEL_A_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 16, 3, __Value)
++	#define SET_TX_DESC_ANTSEL_B_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 19, 3, __Value)
++	#define SET_TX_DESC_ANTSEL_C_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 22, 3, __Value)
++	#define SET_TX_DESC_ANTSEL_D_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 25, 3, __Value)
++
++	/* Dword 7 */
++	#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++		#define SET_TX_DESC_TX_BUFFER_SIZE_8703B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++	#else
++		#define SET_TX_DESC_TX_DESC_CHECKSUM_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++	#endif
++	#define SET_TX_DESC_USB_TXAGG_NUM_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 24, 8, __Value)
++	#if (DEV_BUS_TYPE == RT_SDIO_INTERFACE)
++		#define SET_TX_DESC_SDIO_TXSEQ_8703B(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 16, 8, __Value)
++	#endif
++
++	/* Dword 8 */
++	#define SET_TX_DESC_HWSEQ_EN_8703B(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 15, 1, __Value)
++
++	/* Dword 9 */
++	#define SET_TX_DESC_SEQ_8703B(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 12, 12, __Value)
++
++	/* Dword 10 */
++	#define SET_TX_DESC_TX_BUFFER_ADDRESS_8703B(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+40, 0, 32, __Value)
++	#define GET_TX_DESC_TX_BUFFER_ADDRESS_8703B(__pTxDesc)	LE_BITS_TO_4BYTE(__pTxDesc+40, 0, 32)
++
++	/* Dword 11 */
++	#define SET_TX_DESC_NEXT_DESC_ADDRESS_8703B(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+48, 0, 32, __Value)
++
++
++	#define SET_EARLYMODE_PKTNUM_8703B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 0, 4, __Value)
++	#define SET_EARLYMODE_LEN0_8703B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 4, 15, __Value)
++	#define SET_EARLYMODE_LEN1_1_8703B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 19, 13, __Value)
++	#define SET_EARLYMODE_LEN1_2_8703B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 2, __Value)
++	#define SET_EARLYMODE_LEN2_8703B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 2, 15,	__Value)
++	#define SET_EARLYMODE_LEN3_8703B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 17, 15, __Value)
++
++#endif
++/* -----------------------------------------------------------
++ *
++ *	Rate
++ *
++ * -----------------------------------------------------------
++ * CCK Rates, TxHT = 0 */
++#define DESC8703B_RATE1M				0x00
++#define DESC8703B_RATE2M				0x01
++#define DESC8703B_RATE5_5M				0x02
++#define DESC8703B_RATE11M				0x03
++
++/* OFDM Rates, TxHT = 0 */
++#define DESC8703B_RATE6M				0x04
++#define DESC8703B_RATE9M				0x05
++#define DESC8703B_RATE12M				0x06
++#define DESC8703B_RATE18M				0x07
++#define DESC8703B_RATE24M				0x08
++#define DESC8703B_RATE36M				0x09
++#define DESC8703B_RATE48M				0x0a
++#define DESC8703B_RATE54M				0x0b
++
++/* MCS Rates, TxHT = 1 */
++#define DESC8703B_RATEMCS0				0x0c
++#define DESC8703B_RATEMCS1				0x0d
++#define DESC8703B_RATEMCS2				0x0e
++#define DESC8703B_RATEMCS3				0x0f
++#define DESC8703B_RATEMCS4				0x10
++#define DESC8703B_RATEMCS5				0x11
++#define DESC8703B_RATEMCS6				0x12
++#define DESC8703B_RATEMCS7				0x13
++#define DESC8703B_RATEMCS8				0x14
++#define DESC8703B_RATEMCS9				0x15
++#define DESC8703B_RATEMCS10		0x16
++#define DESC8703B_RATEMCS11		0x17
++#define DESC8703B_RATEMCS12		0x18
++#define DESC8703B_RATEMCS13		0x19
++#define DESC8703B_RATEMCS14		0x1a
++#define DESC8703B_RATEMCS15		0x1b
++#define DESC8703B_RATEVHTSS1MCS0		0x2c
++#define DESC8703B_RATEVHTSS1MCS1		0x2d
++#define DESC8703B_RATEVHTSS1MCS2		0x2e
++#define DESC8703B_RATEVHTSS1MCS3		0x2f
++#define DESC8703B_RATEVHTSS1MCS4		0x30
++#define DESC8703B_RATEVHTSS1MCS5		0x31
++#define DESC8703B_RATEVHTSS1MCS6		0x32
++#define DESC8703B_RATEVHTSS1MCS7		0x33
++#define DESC8703B_RATEVHTSS1MCS8		0x34
++#define DESC8703B_RATEVHTSS1MCS9		0x35
++#define DESC8703B_RATEVHTSS2MCS0		0x36
++#define DESC8703B_RATEVHTSS2MCS1		0x37
++#define DESC8703B_RATEVHTSS2MCS2		0x38
++#define DESC8703B_RATEVHTSS2MCS3		0x39
++#define DESC8703B_RATEVHTSS2MCS4		0x3a
++#define DESC8703B_RATEVHTSS2MCS5		0x3b
++#define DESC8703B_RATEVHTSS2MCS6		0x3c
++#define DESC8703B_RATEVHTSS2MCS7		0x3d
++#define DESC8703B_RATEVHTSS2MCS8		0x3e
++#define DESC8703B_RATEVHTSS2MCS9		0x3f
++
++
++#define	RX_HAL_IS_CCK_RATE_8703B(pDesc)\
++	(GET_RX_STATUS_DESC_RX_RATE_8703B(pDesc) == DESC8703B_RATE1M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8703B(pDesc) == DESC8703B_RATE2M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8703B(pDesc) == DESC8703B_RATE5_5M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8703B(pDesc) == DESC8703B_RATE11M)
++
++
++void rtl8703b_update_txdesc(struct xmit_frame *pxmitframe, u8 *pmem);
++void rtl8703b_fill_fake_txdesc(PADAPTER padapter, u8 *pDesc, u32 BufferLen, u8 IsPsPoll, u8 IsBTQosNull, u8 bDataFrame);
++#if defined(CONFIG_CONCURRENT_MODE)
++	void fill_txdesc_force_bmc_camid(struct pkt_attrib *pattrib, u8 *ptxdesc);
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	s32 rtl8703bs_init_xmit_priv(PADAPTER padapter);
++	void rtl8703bs_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8703bs_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8703bs_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8703bs_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8703bs_xmit_buf_handler(PADAPTER padapter);
++	thread_return rtl8703bs_xmit_thread(thread_context context);
++	#define hal_xmit_handler rtl8703bs_xmit_buf_handler
++#endif
++
++#ifdef CONFIG_USB_HCI
++	s32 rtl8703bu_xmit_buf_handler(PADAPTER padapter);
++	#define hal_xmit_handler rtl8703bu_xmit_buf_handler
++
++
++	s32 rtl8703bu_init_xmit_priv(PADAPTER padapter);
++	void rtl8703bu_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8703bu_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8703bu_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	 rtl8703bu_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	/* s32 rtl8812au_xmit_buf_handler(PADAPTER padapter); */
++	void rtl8703bu_xmit_tasklet(void *priv);
++	s32 rtl8703bu_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++	void _dbg_dump_tx_info(_adapter	*padapter, int frame_tag, struct tx_desc *ptxdesc);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8703be_init_xmit_priv(PADAPTER padapter);
++	void rtl8703be_free_xmit_priv(PADAPTER padapter);
++	struct xmit_buf *rtl8703be_dequeue_xmitbuf(struct rtw_tx_ring *ring);
++	void	rtl8703be_xmitframe_resume(_adapter *padapter);
++	s32 rtl8703be_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8703be_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8703be_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	void rtl8703be_xmit_tasklet(void *priv);
++#endif
++
++u8	BWMapping_8703B(PADAPTER Adapter, struct pkt_attrib *pattrib);
++u8	SCMapping_8703B(PADAPTER Adapter, struct pkt_attrib	*pattrib);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8723b_cmd.h b/drivers/net/wireless/rtl8723du/include/rtl8723b_cmd.h
+new file mode 100644
+index 0000000..dadb82c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8723b_cmd.h
+@@ -0,0 +1,218 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723B_CMD_H__
++#define __RTL8723B_CMD_H__
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD DEFINITION    ------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++enum h2c_cmd_8723B {
++	/* Common Class: 000 */
++	H2C_8723B_RSVD_PAGE = 0x00,
++	H2C_8723B_MEDIA_STATUS_RPT = 0x01,
++	H2C_8723B_SCAN_ENABLE = 0x02,
++	H2C_8723B_KEEP_ALIVE = 0x03,
++	H2C_8723B_DISCON_DECISION = 0x04,
++	H2C_8723B_PSD_OFFLOAD = 0x05,
++	H2C_8723B_AP_OFFLOAD = 0x08,
++	H2C_8723B_BCN_RSVDPAGE = 0x09,
++	H2C_8723B_PROBERSP_RSVDPAGE = 0x0A,
++	H2C_8723B_FCS_RSVDPAGE = 0x10,
++	H2C_8723B_FCS_INFO = 0x11,
++	H2C_8723B_AP_WOW_GPIO_CTRL = 0x13,
++
++	/* PoweSave Class: 001 */
++	H2C_8723B_SET_PWR_MODE = 0x20,
++	H2C_8723B_PS_TUNING_PARA = 0x21,
++	H2C_8723B_PS_TUNING_PARA2 = 0x22,
++	H2C_8723B_P2P_LPS_PARAM = 0x23,
++	H2C_8723B_P2P_PS_OFFLOAD = 0x24,
++	H2C_8723B_PS_SCAN_ENABLE = 0x25,
++	H2C_8723B_SAP_PS_ = 0x26,
++	H2C_8723B_INACTIVE_PS_ = 0x27, /* Inactive_PS */
++	H2C_8723B_FWLPS_IN_IPS_ = 0x28,
++
++	/* Dynamic Mechanism Class: 010 */
++	H2C_8723B_MACID_CFG = 0x40,
++	H2C_8723B_TXBF = 0x41,
++	H2C_8723B_RSSI_SETTING = 0x42,
++	H2C_8723B_AP_REQ_TXRPT = 0x43,
++	H2C_8723B_INIT_RATE_COLLECT = 0x44,
++	H2C_8723B_RA_PARA_ADJUST = 0x46,
++
++	/* BT Class: 011 */
++	H2C_8723B_B_TYPE_TDMA = 0x60,
++	H2C_8723B_BT_INFO = 0x61,
++	H2C_8723B_FORCE_BT_TXPWR = 0x62,
++	H2C_8723B_BT_IGNORE_WLANACT = 0x63,
++	H2C_8723B_DAC_SWING_VALUE = 0x64,
++	H2C_8723B_ANT_SEL_RSV = 0x65,
++	H2C_8723B_WL_OPMODE = 0x66,
++	H2C_8723B_BT_MP_OPER = 0x67,
++	H2C_8723B_BT_CONTROL = 0x68,
++	H2C_8723B_BT_WIFI_CTRL = 0x69,
++	H2C_8723B_BT_FW_PATCH = 0x6A,
++	H2C_8723B_BT_WLAN_CALIBRATION = 0x6D,
++
++	/* WOWLAN Class: 100 */
++	H2C_8723B_WOWLAN = 0x80,
++	H2C_8723B_REMOTE_WAKE_CTRL = 0x81,
++	H2C_8723B_AOAC_GLOBAL_INFO = 0x82,
++	H2C_8723B_AOAC_RSVD_PAGE = 0x83,
++	H2C_8723B_AOAC_RSVD_PAGE2 = 0x84,
++	H2C_8723B_D0_SCAN_OFFLOAD_CTRL = 0x85,
++	H2C_8723B_D0_SCAN_OFFLOAD_INFO = 0x86,
++	H2C_8723B_CHNL_SWITCH_OFFLOAD = 0x87,
++	H2C_8723B_P2P_OFFLOAD_RSVD_PAGE = 0x8A,
++	H2C_8723B_P2P_OFFLOAD = 0x8B,
++
++	H2C_8723B_RESET_TSF = 0xC0,
++	H2C_8723B_MAXID,
++};
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD CONTENT    --------------------------------------------------
++ * ---------------------------------------------------------------------------------------------------------
++ * _RSVDPAGE_LOC_CMD_0x00 */
++#define SET_8723B_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723B_H2CCMD_RSVDPAGE_LOC_PSPOLL(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_8723B_H2CCMD_RSVDPAGE_LOC_NULL_DATA(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8723B_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8723B_H2CCMD_RSVDPAGE_LOC_BT_QOS_NULL_DATA(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++
++/* _KEEP_ALIVE_CMD_0x03 */
++#define SET_8723B_H2CCMD_KEEPALIVE_PARM_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8723B_H2CCMD_KEEPALIVE_PARM_ADOPT(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8723B_H2CCMD_KEEPALIVE_PARM_PKT_TYPE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_8723B_H2CCMD_KEEPALIVE_PARM_CHECK_PERIOD(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++
++/* _DISCONNECT_DECISION_CMD_0x04 */
++#define SET_8723B_H2CCMD_DISCONDECISION_PARM_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8723B_H2CCMD_DISCONDECISION_PARM_ADOPT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8723B_H2CCMD_DISCONDECISION_PARM_CHECK_PERIOD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8723B_H2CCMD_DISCONDECISION_PARM_TRY_PKT_NUM(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++
++/* _PWR_MOD_CMD_0x20 */
++#define SET_8723B_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723B_H2CCMD_PWRMODE_PARM_RLBM(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 4, __Value)
++#define SET_8723B_H2CCMD_PWRMODE_PARM_SMART_PS(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 4, 4, __Value)
++#define SET_8723B_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8723B_H2CCMD_PWRMODE_PARM_ALL_QUEUE_UAPSD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8723B_H2CCMD_PWRMODE_PARM_BCN_EARLY_C2H_RPT(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 2, 1, __Value)
++#define SET_8723B_H2CCMD_PWRMODE_PARM_PWR_STATE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8723B_H2CCMD_PWRMODE_PARM_BYTE5(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++#define GET_8723B_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd)					LE_BITS_TO_1BYTE(__pH2CCmd, 0, 8)
++
++/* _PS_TUNE_PARAM_CMD_0x21 */
++#define SET_8723B_H2CCMD_PSTUNE_PARM_BCN_TO_LIMIT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723B_H2CCMD_PSTUNE_PARM_DTIM_TIMEOUT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8723B_H2CCMD_PSTUNE_PARM_ADOPT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 1, __Value)
++#define SET_8723B_H2CCMD_PSTUNE_PARM_PS_TIMEOUT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 1, 7, __Value)
++#define SET_8723B_H2CCMD_PSTUNE_PARM_DTIM_PERIOD(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++
++/* _MACID_CFG_CMD_0x40 */
++#define SET_8723B_H2CCMD_MACID_CFG_MACID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_RAID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 5, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_SGI_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 7, 1, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_BW(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 2, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_NO_UPDATE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 3, 1, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_VHT_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 4, 2, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_DISPT(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 6, 1, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_DISRA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 7, 1, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_RATE_MASK0(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_RATE_MASK1(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+4, 0, 8, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_RATE_MASK2(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+5, 0, 8, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_RATE_MASK3(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+6, 0, 8, __Value)
++
++/* _RSSI_SETTING_CMD_0x42 */
++#define SET_8723B_H2CCMD_RSSI_SETTING_MACID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723B_H2CCMD_RSSI_SETTING_RSSI(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 7, __Value)
++#define SET_8723B_H2CCMD_RSSI_SETTING_ULDL_STATE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++
++/* _AP_REQ_TXRPT_CMD_0x43 */
++#define SET_8723B_H2CCMD_APREQRPT_PARM_MACID1(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723B_H2CCMD_APREQRPT_PARM_MACID2(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++
++/* _FORCE_BT_TXPWR_CMD_0x62 */
++#define SET_8723B_H2CCMD_BT_PWR_IDX(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++
++/* _FORCE_BT_MP_OPER_CMD_0x67 */
++#define SET_8723B_H2CCMD_BT_MPOPER_VER(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 4, __Value)
++#define SET_8723B_H2CCMD_BT_MPOPER_REQNUM(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 4, __Value)
++#define SET_8723B_H2CCMD_BT_MPOPER_IDX(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8723B_H2CCMD_BT_MPOPER_PARAM1(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++#define SET_8723B_H2CCMD_BT_MPOPER_PARAM2(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++#define SET_8723B_H2CCMD_BT_MPOPER_PARAM3(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+4, 0, 8, __Value)
++
++/* _BT_FW_PATCH_0x6A */
++#define SET_8723B_H2CCMD_BT_FW_PATCH_SIZE(__pH2CCmd, __Value)					SET_BITS_TO_LE_2BYTE((pu1Byte)(__pH2CCmd), 0, 16, __Value)
++#define SET_8723B_H2CCMD_BT_FW_PATCH_ADDR0(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8723B_H2CCMD_BT_FW_PATCH_ADDR1(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8723B_H2CCMD_BT_FW_PATCH_ADDR2(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8723B_H2CCMD_BT_FW_PATCH_ADDR3(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++/* ---------------------------------------------------------------------------------------------------------
++ * -------------------------------------------    Structure    --------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    Function Statement     --------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++/* host message to firmware cmd */
++void rtl8723b_set_FwPwrMode_cmd(PADAPTER padapter, u8 Mode);
++void rtl8723b_set_FwJoinBssRpt_cmd(PADAPTER padapter, u8 mstatus);
++void rtl8723b_set_rssi_cmd(PADAPTER padapter, u8 *param);
++void rtl8723b_fw_try_ap_cmd(PADAPTER padapter, u32 need_ack);
++/* s32 rtl8723b_set_lowpwr_lps_cmd(PADAPTER padapter, u8 enable); */
++void rtl8723b_set_FwPsTuneParam_cmd(PADAPTER padapter);
++void rtl8723b_set_FwMacIdConfig_cmd(_adapter *padapter, u8 mac_id, u8 raid, u8 bw, u8 sgi, u32 mask);
++void rtl8723b_set_FwBtMpOper_cmd(PADAPTER padapter, u8 idx, u8 ver, u8 reqnum, u8 *param);
++void rtl8723b_download_rsvd_page(PADAPTER padapter, u8 mstatus);
++#ifdef CONFIG_BT_COEXIST
++	void rtl8723b_download_BTCoex_AP_mode_rsvd_page(PADAPTER padapter);
++#endif /* CONFIG_BT_COEXIST */
++#ifdef CONFIG_P2P
++	void rtl8723b_set_p2p_ps_offload_cmd(PADAPTER padapter, u8 p2p_ps_state);
++#endif /* CONFIG_P2P */
++
++void CheckFwRsvdPageContent(PADAPTER padapter);
++
++#ifdef CONFIG_TDLS
++	#ifdef CONFIG_TDLS_CH_SW
++		void rtl8723b_set_BcnEarly_C2H_Rpt_cmd(PADAPTER padapter, u8 enable);
++	#endif
++#endif
++
++#ifdef CONFIG_P2P_WOWLAN
++	void rtl8723b_set_p2p_wowlan_offload_cmd(PADAPTER padapter);
++#endif
++
++void rtl8723b_set_FwPwrModeInIPS_cmd(PADAPTER padapter, u8 cmd_param);
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++	u8 rtl8723b_reset_tsf(_adapter *padapter, u8 reset_port);
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++s32 FillH2CCmd8723B(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++u8 GetTxBufferRsvdPageNum8723B(_adapter *padapter, bool wowlan);
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8723b_dm.h b/drivers/net/wireless/rtl8723du/include/rtl8723b_dm.h
+new file mode 100644
+index 0000000..a3bb7df
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8723b_dm.h
+@@ -0,0 +1,47 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723B_DM_H__
++#define __RTL8723B_DM_H__
++/* ************************************************************
++ * Description:
++ *
++ * This file is for 8723B dynamic mechanism only
++ *
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * structure and define
++ * ************************************************************ */
++
++/* ************************************************************
++ * function prototype
++ * ************************************************************ */
++
++void rtl8723b_init_dm_priv(PADAPTER padapter);
++void rtl8723b_deinit_dm_priv(PADAPTER padapter);
++
++void rtl8723b_InitHalDm(PADAPTER padapter);
++void rtl8723b_HalDmWatchDog(PADAPTER padapter);
++void rtl8723b_HalDmWatchDog_in_LPS(PADAPTER padapter);
++void rtl8723b_hal_dm_in_lps(PADAPTER padapter);
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8723b_hal.h b/drivers/net/wireless/rtl8723du/include/rtl8723b_hal.h
+new file mode 100644
+index 0000000..59f2b84
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8723b_hal.h
+@@ -0,0 +1,283 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723B_HAL_H__
++#define __RTL8723B_HAL_H__
++
++#include "hal_data.h"
++
++#include "rtl8723b_spec.h"
++#include "rtl8723b_rf.h"
++#include "rtl8723b_dm.h"
++#include "rtl8723b_recv.h"
++#include "rtl8723b_xmit.h"
++#include "rtl8723b_cmd.h"
++#include "rtl8723b_led.h"
++#include "Hal8723BPwrSeq.h"
++#include "Hal8723BPhyReg.h"
++#include "Hal8723BPhyCfg.h"
++#ifdef DBG_CONFIG_ERROR_DETECT
++	#include "rtl8723b_sreset.h"
++#endif
++
++#define FW_8723B_SIZE			0x8000
++#define FW_8723B_START_ADDRESS	0x1000
++#define FW_8723B_END_ADDRESS		0x1FFF /* 0x5FFF */
++
++#define IS_FW_HEADER_EXIST_8723B(_pFwHdr)	((le16_to_cpu(_pFwHdr->Signature) & 0xFFF0) == 0x5300)
++
++typedef struct _RT_FIRMWARE {
++	FIRMWARE_SOURCE	eFWSource;
++#ifdef CONFIG_EMBEDDED_FWIMG
++	u8			*szFwBuffer;
++#else
++	u8			szFwBuffer[FW_8723B_SIZE];
++#endif
++	u32			ulFwLength;
++} RT_FIRMWARE_8723B, *PRT_FIRMWARE_8723B;
++
++/*
++ * This structure must be cared byte-ordering
++ *
++ * Added by tynli. 2009.12.04. */
++typedef struct _RT_8723B_FIRMWARE_HDR {
++	/* 8-byte alinment required */
++
++	/* --- LONG WORD 0 ---- */
++	u16		Signature;	/* 92C0: test chip; 92C, 88C0: test chip; 88C1: MP A-cut; 92C1: MP A-cut */
++	u8		Category;	/* AP/NIC and USB/PCI */
++	u8		Function;	/* Reserved for different FW function indcation, for further use when driver needs to download different FW in different conditions */
++	u16		Version;		/* FW Version */
++	u16		Subversion;	/* FW Subversion, default 0x00 */
++
++	/* --- LONG WORD 1 ---- */
++	u8		Month;	/* Release time Month field */
++	u8		Date;	/* Release time Date field */
++	u8		Hour;	/* Release time Hour field */
++	u8		Minute;	/* Release time Minute field */
++	u16		RamCodeSize;	/* The size of RAM code */
++	u16		Rsvd2;
++
++	/* --- LONG WORD 2 ---- */
++	u32		SvnIdx;	/* The SVN entry index */
++	u32		Rsvd3;
++
++	/* --- LONG WORD 3 ---- */
++	u32		Rsvd4;
++	u32		Rsvd5;
++} RT_8723B_FIRMWARE_HDR, *PRT_8723B_FIRMWARE_HDR;
++
++#define DRIVER_EARLY_INT_TIME_8723B		0x05
++#define BCN_DMA_ATIME_INT_TIME_8723B		0x02
++
++/* for 8723B
++ * TX 32K, RX 16K, Page size 128B for TX, 8B for RX */
++#define PAGE_SIZE_TX_8723B			128
++#define PAGE_SIZE_RX_8723B			8
++
++#define TX_DMA_SIZE_8723B			0x8000	/* 32K(TX) */
++#define RX_DMA_SIZE_8723B			0x4000	/* 16K(RX) */
++
++#ifdef CONFIG_WOWLAN
++	#define RESV_FMWF	(WKFMCAM_SIZE * MAX_WKFM_NUM) /* 16 entries, for each is 24 bytes*/
++#else
++	#define RESV_FMWF	0
++#endif
++
++#ifdef CONFIG_FW_C2H_DEBUG
++	#define RX_DMA_RESERVED_SIZE_8723B	0x100	/* 256B, reserved for c2h debug message */
++#else
++	#define RX_DMA_RESERVED_SIZE_8723B	0x80	/* 128B, reserved for tx report */
++#endif
++#define RX_DMA_BOUNDARY_8723B		(RX_DMA_SIZE_8723B - RX_DMA_RESERVED_SIZE_8723B - 1)
++
++
++/* Note: We will divide number of page equally for each queue other than public queue! */
++
++/* For General Reserved Page Number(Beacon Queue is reserved page)
++ * Beacon:2, PS-Poll:1, Null Data:1,Qos Null Data:1,BT Qos Null Data:1 */
++#define BCNQ_PAGE_NUM_8723B		0x08
++#ifdef CONFIG_CONCURRENT_MODE
++	#define BCNQ1_PAGE_NUM_8723B		0x08 /* 0x04 */
++#else
++	#define BCNQ1_PAGE_NUM_8723B		0x00
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++	#undef BCNQ1_PAGE_NUM_8723B
++	#define BCNQ1_PAGE_NUM_8723B		0x00 /* 0x04 */
++#endif
++
++/* For WoWLan , more reserved page
++ * ARP Rsp:1, RWC:1, GTK Info:1,GTK RSP:2,GTK EXT MEM:2, PNO: 6 */
++#ifdef CONFIG_WOWLAN
++	#define WOWLAN_PAGE_NUM_8723B	0x07
++#else
++	#define WOWLAN_PAGE_NUM_8723B	0x00
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++	#undef WOWLAN_PAGE_NUM_8723B
++	#define WOWLAN_PAGE_NUM_8723B	0x15
++#endif
++
++#ifdef CONFIG_AP_WOWLAN
++	#define AP_WOWLAN_PAGE_NUM_8723B	0x02
++#endif
++
++#define TX_TOTAL_PAGE_NUMBER_8723B	(0xFF - BCNQ_PAGE_NUM_8723B - BCNQ1_PAGE_NUM_8723B - WOWLAN_PAGE_NUM_8723B)
++#define TX_PAGE_BOUNDARY_8723B		(TX_TOTAL_PAGE_NUMBER_8723B + 1)
++
++#define WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8723B	TX_TOTAL_PAGE_NUMBER_8723B
++#define WMM_NORMAL_TX_PAGE_BOUNDARY_8723B		(WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8723B + 1)
++
++/* For Normal Chip Setting
++ * (HPQ + LPQ + NPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER_8723B */
++#define NORMAL_PAGE_NUM_HPQ_8723B		0x0C
++#define NORMAL_PAGE_NUM_LPQ_8723B		0x02
++#define NORMAL_PAGE_NUM_NPQ_8723B		0x02
++
++/* Note: For Normal Chip Setting, modify later */
++#define WMM_NORMAL_PAGE_NUM_HPQ_8723B		0x30
++#define WMM_NORMAL_PAGE_NUM_LPQ_8723B		0x20
++#define WMM_NORMAL_PAGE_NUM_NPQ_8723B		0x20
++
++
++#include "HalVerDef.h"
++#include "hal_com.h"
++
++#define EFUSE_OOB_PROTECT_BYTES		15
++
++#define HAL_EFUSE_MEMORY
++
++#define HWSET_MAX_SIZE_8723B			512
++#define EFUSE_REAL_CONTENT_LEN_8723B		512
++#define EFUSE_MAP_LEN_8723B				512
++#define EFUSE_MAX_SECTION_8723B			64
++
++#define EFUSE_IC_ID_OFFSET			506	/* For some inferiority IC purpose. added by Roger, 2009.09.02. */
++#define AVAILABLE_EFUSE_ADDR(addr)	(addr < EFUSE_REAL_CONTENT_LEN_8723B)
++
++#define EFUSE_ACCESS_ON			0x69	/* For RTL8723 only. */
++#define EFUSE_ACCESS_OFF			0x00	/* For RTL8723 only. */
++
++/* ********************************************************
++ *			EFUSE for BT definition
++ * ******************************************************** */
++#define EFUSE_BT_REAL_BANK_CONTENT_LEN	512
++#define EFUSE_BT_REAL_CONTENT_LEN		1536	/* 512*3 */
++#define EFUSE_BT_MAP_LEN				1024	/* 1k bytes */
++#define EFUSE_BT_MAX_SECTION			128		/* 1024/8 */
++
++#define EFUSE_PROTECT_BYTES_BANK		16
++
++typedef enum tag_Package_Definition {
++	PACKAGE_DEFAULT,
++	PACKAGE_QFN68,
++	PACKAGE_TFBGA90,
++	PACKAGE_TFBGA80,
++	PACKAGE_TFBGA79
++} PACKAGE_TYPE_E;
++
++#define INCLUDE_MULTI_FUNC_BT(_Adapter)		(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_BT)
++#define INCLUDE_MULTI_FUNC_GPS(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_GPS)
++
++/* rtl8723a_hal_init.c */
++s32 rtl8723b_FirmwareDownload(PADAPTER padapter, BOOLEAN  bUsedWoWLANFw);
++void rtl8723b_FirmwareSelfReset(PADAPTER padapter);
++void rtl8723b_InitializeFirmwareVars(PADAPTER padapter);
++
++void rtl8723b_InitAntenna_Selection(PADAPTER padapter);
++void rtl8723b_DeinitAntenna_Selection(PADAPTER padapter);
++void rtl8723b_CheckAntenna_Selection(PADAPTER padapter);
++void rtl8723b_init_default_value(PADAPTER padapter);
++
++s32 rtl8723b_InitLLTTable(PADAPTER padapter);
++
++s32 CardDisableHWSM(PADAPTER padapter, u8 resetMCU);
++s32 CardDisableWithoutHWSM(PADAPTER padapter);
++
++/* EFuse */
++u8 GetEEPROMSize8723B(PADAPTER padapter);
++void Hal_InitPGData(PADAPTER padapter, u8 *PROMContent);
++void Hal_EfuseParseIDCode(PADAPTER padapter, u8 *hwinfo);
++void Hal_EfuseParseTxPowerInfo_8723B(PADAPTER padapter, u8 *PROMContent, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseBTCoexistInfo_8723B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseEEPROMVer_8723B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseChnlPlan_8723B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseCustomerID_8723B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseAntennaDiversity_8723B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseXtal_8723B(PADAPTER pAdapter, u8 *hwinfo, u8 AutoLoadFail);
++void Hal_EfuseParseThermalMeter_8723B(PADAPTER padapter, u8 *hwinfo, u8 AutoLoadFail);
++VOID Hal_EfuseParsePackageType_8723B(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++VOID Hal_EfuseParseVoltage_8723B(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN	AutoLoadFail);
++VOID Hal_EfuseParseBoardType_8723B(PADAPTER Adapter,	u8	*PROMContent, BOOLEAN AutoloadFail);
++
++void rtl8723b_set_hal_ops(struct hal_ops *pHalFunc);
++void init_hal_spec_8723b(_adapter *adapter);
++void SetHwReg8723B(PADAPTER padapter, u8 variable, u8 *val);
++void GetHwReg8723B(PADAPTER padapter, u8 variable, u8 *val);
++u8 SetHalDefVar8723B(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++u8 GetHalDefVar8723B(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++
++/* register */
++void rtl8723b_InitBeaconParameters(PADAPTER padapter);
++void rtl8723b_InitBeaconMaxError(PADAPTER padapter, u8 InfraMode);
++void	_InitBurstPktLen_8723BS(PADAPTER Adapter);
++void _8051Reset8723(PADAPTER padapter);
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	void Hal_DetectWoWMode(PADAPTER pAdapter);
++#endif /* CONFIG_WOWLAN */
++
++void rtl8723b_start_thread(_adapter *padapter);
++void rtl8723b_stop_thread(_adapter *padapter);
++
++#if defined(CONFIG_CHECK_BT_HANG) && defined(CONFIG_BT_COEXIST)
++	void rtl8723bs_init_checkbthang_workqueue(_adapter *adapter);
++	void rtl8723bs_free_checkbthang_workqueue(_adapter *adapter);
++	void rtl8723bs_cancle_checkbthang_workqueue(_adapter *adapter);
++	void rtl8723bs_hal_check_bt_hang(_adapter *adapter);
++#endif
++
++#ifdef CONFIG_GPIO_WAKEUP
++	void HalSetOutPutGPIO(PADAPTER padapter, u8 index, u8 OutPutValue);
++#endif
++#ifdef CONFIG_MP_INCLUDED
++int FirmwareDownloadBT(IN PADAPTER Adapter, PRT_MP_FIRMWARE pFirmware);
++#endif
++void CCX_FwC2HTxRpt_8723b(PADAPTER padapter, u8 *pdata, u8 len);
++
++u8 MRateToHwRate8723B(u8  rate);
++u8 HwRateToMRate8723B(u8	 rate);
++
++#ifdef CONFIG_RF_POWER_TRIM
++	void Hal_ReadRFGainOffset(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++#endif /*CONFIG_RF_POWER_TRIM*/
++
++#ifdef CONFIG_PCI_HCI
++	BOOLEAN	InterruptRecognized8723BE(PADAPTER Adapter);
++	VOID	UpdateInterruptMask8723BE(PADAPTER Adapter, u32 AddMSR, u32 AddMSR1, u32 RemoveMSR, u32 RemoveMSR1);
++#endif
++
++#ifdef CONFIG_GPIO_API
++int rtl8723b_GpioFuncCheck(PADAPTER adapter, u8 gpio_num);
++VOID rtl8723b_GpioMultiFuncReset(PADAPTER adapter, u8 gpio_num);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8723b_led.h b/drivers/net/wireless/rtl8723du/include/rtl8723b_led.h
+new file mode 100644
+index 0000000..0a7b2c9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8723b_led.h
+@@ -0,0 +1,48 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723B_LED_H__
++#define __RTL8723B_LED_H__
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++
++/* ********************************************************************************
++ * Interface to manipulate LED objects.
++ * ******************************************************************************** */
++#ifdef CONFIG_USB_HCI
++	void rtl8723bu_InitSwLeds(PADAPTER padapter);
++	void rtl8723bu_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_SDIO_HCI
++	void rtl8723bs_InitSwLeds(PADAPTER padapter);
++	void rtl8723bs_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_GSPI_HCI
++	void rtl8723bs_InitSwLeds(PADAPTER padapter);
++	void rtl8723bs_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_PCI_HCI
++	void rtl8723be_InitSwLeds(PADAPTER padapter);
++	void rtl8723be_DeInitSwLeds(PADAPTER padapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8723b_recv.h b/drivers/net/wireless/rtl8723du/include/rtl8723b_recv.h
+new file mode 100644
+index 0000000..fd9faef
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8723b_recv.h
+@@ -0,0 +1,91 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723B_RECV_H__
++#define __RTL8723B_RECV_H__
++
++#define RECV_BLK_SZ 512
++#define RECV_BLK_CNT 16
++#define RECV_BLK_TH RECV_BLK_CNT
++
++#if defined(CONFIG_USB_HCI)
++
++	#ifndef MAX_RECVBUF_SZ
++		#ifdef PLATFORM_OS_CE
++			#define MAX_RECVBUF_SZ (8192+1024) /* 8K+1k */
++		#else
++			#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++				/* #define MAX_RECVBUF_SZ (32768) */ /* 32k */
++				/* #define MAX_RECVBUF_SZ (16384) */ /* 16K */
++				/* #define MAX_RECVBUF_SZ (10240) */ /* 10K */
++				#ifdef CONFIG_PLATFORM_MSTAR
++					#define MAX_RECVBUF_SZ (8192) /* 8K */
++				#else
++					#define MAX_RECVBUF_SZ (15360) /* 15k < 16k */
++				#endif
++				/* #define MAX_RECVBUF_SZ (8192+1024) */ /* 8K+1k */
++			#else
++				#define MAX_RECVBUF_SZ (4000) /* about 4K */
++			#endif
++		#endif
++	#endif /* !MAX_RECVBUF_SZ */
++
++#elif defined(CONFIG_PCI_HCI)
++	/* #ifndef CONFIG_MINIMAL_MEMORY_USAGE */
++	/*	#define MAX_RECVBUF_SZ (9100) */
++	/* #else */
++	#define MAX_RECVBUF_SZ (4000) /* about 4K
++	* #endif */
++
++
++#elif defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++
++	#define MAX_RECVBUF_SZ  (RX_DMA_SIZE_8723B - RX_DMA_RESERVED_SIZE_8723B)
++
++#endif
++
++/* Rx smooth factor */
++#define	Rx_Smooth_Factor (20)
++
++#ifdef CONFIG_SDIO_HCI
++	#ifndef CONFIG_SDIO_RX_COPY
++		#undef MAX_RECVBUF_SZ
++		#define MAX_RECVBUF_SZ	(RX_DMA_SIZE_8723B - RX_DMA_RESERVED_SIZE_8723B)
++	#endif /* !CONFIG_SDIO_RX_COPY */
++#endif /* CONFIG_SDIO_HCI */
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	s32 rtl8723bs_init_recv_priv(PADAPTER padapter);
++	void rtl8723bs_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_USB_HCI
++	int rtl8723bu_init_recv_priv(_adapter *padapter);
++	void rtl8723bu_free_recv_priv(_adapter *padapter);
++	void rtl8723bu_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8723be_init_recv_priv(PADAPTER padapter);
++	void rtl8723be_free_recv_priv(PADAPTER padapter);
++#endif
++
++void rtl8723b_query_rx_desc_status(union recv_frame *precvframe, u8 *pdesc);
++
++#endif /* __RTL8723B_RECV_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8723b_rf.h b/drivers/net/wireless/rtl8723du/include/rtl8723b_rf.h
+new file mode 100644
+index 0000000..bf56dde
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8723b_rf.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723B_RF_H__
++#define __RTL8723B_RF_H__
++
++int	PHY_RF6052_Config8723B(IN	PADAPTER		Adapter);
++
++VOID
++PHY_RF6052SetBandwidth8723B(
++	IN	PADAPTER				Adapter,
++	IN	CHANNEL_WIDTH		Bandwidth);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8723b_spec.h b/drivers/net/wireless/rtl8723du/include/rtl8723b_spec.h
+new file mode 100644
+index 0000000..85b9d1e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8723b_spec.h
+@@ -0,0 +1,296 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#ifndef __RTL8723B_SPEC_H__
++#define __RTL8723B_SPEC_H__
++
++#include <drv_conf.h>
++
++
++#define HAL_NAV_UPPER_UNIT_8723B		128		/* micro-second */
++
++/* -----------------------------------------------------
++ *
++ *	0x0000h ~ 0x00FFh	System Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RSV_CTRL_8723B				0x001C	/* 3 Byte */
++#define REG_BT_WIFI_ANTENNA_SWITCH_8723B	0x0038
++#define REG_HSISR_8723B					0x005c
++#define REG_PAD_CTRL1_8723B		0x0064
++#define REG_AFE_CTRL_4_8723B		0x0078
++#define REG_HMEBOX_DBG_0_8723B	0x0088
++#define REG_HMEBOX_DBG_1_8723B	0x008A
++#define REG_HMEBOX_DBG_2_8723B	0x008C
++#define REG_HMEBOX_DBG_3_8723B	0x008E
++#define REG_HIMR0_8723B					0x00B0
++#define REG_HISR0_8723B					0x00B4
++#define REG_HIMR1_8723B					0x00B8
++#define REG_HISR1_8723B					0x00BC
++#define REG_PMC_DBG_CTRL2_8723B			0x00CC
++
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_C2HEVT_CMD_ID_8723B	0x01A0
++#define REG_C2HEVT_CMD_LEN_8723B	0x01AE
++#define REG_WOWLAN_WAKE_REASON 0x01C7
++#define REG_WOWLAN_GTK_DBG1	0x630
++#define REG_WOWLAN_GTK_DBG2	0x634
++
++#define REG_HMEBOX_EXT0_8723B			0x01F0
++#define REG_HMEBOX_EXT1_8723B			0x01F4
++#define REG_HMEBOX_EXT2_8723B			0x01F8
++#define REG_HMEBOX_EXT3_8723B			0x01FC
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RXDMA_CONTROL_8723B		0x0286 /* Control the RX DMA. */
++#define REG_RXDMA_MODE_CTRL_8723B		0x0290
++
++/* -----------------------------------------------------
++ *
++ *	0x0300h ~ 0x03FFh	PCIe
++ *
++ * ----------------------------------------------------- */
++#define	REG_PCIE_CTRL_REG_8723B		0x0300
++#define	REG_INT_MIG_8723B				0x0304	/* Interrupt Migration */
++#define	REG_BCNQ_DESA_8723B			0x0308	/* TX Beacon Descriptor Address */
++#define	REG_HQ_DESA_8723B				0x0310	/* TX High Queue Descriptor Address */
++#define	REG_MGQ_DESA_8723B			0x0318	/* TX Manage Queue Descriptor Address */
++#define	REG_VOQ_DESA_8723B			0x0320	/* TX VO Queue Descriptor Address */
++#define	REG_VIQ_DESA_8723B				0x0328	/* TX VI Queue Descriptor Address */
++#define	REG_BEQ_DESA_8723B			0x0330	/* TX BE Queue Descriptor Address */
++#define	REG_BKQ_DESA_8723B			0x0338	/* TX BK Queue Descriptor Address */
++#define	REG_RX_DESA_8723B				0x0340	/* RX Queue	Descriptor Address */
++#define	REG_DBI_WDATA_8723B			0x0348	/* DBI Write Data */
++#define	REG_DBI_RDATA_8723B			0x034C	/* DBI Read Data */
++#define	REG_DBI_ADDR_8723B				0x0350	/* DBI Address */
++#define	REG_DBI_FLAG_8723B				0x0352	/* DBI Read/Write Flag */
++#define	REG_MDIO_WDATA_8723B		0x0354	/* MDIO for Write PCIE PHY */
++#define	REG_MDIO_RDATA_8723B			0x0356	/* MDIO for Reads PCIE PHY */
++#define	REG_MDIO_CTL_8723B			0x0358	/* MDIO for Control */
++#define	REG_DBG_SEL_8723B				0x0360	/* Debug Selection Register */
++#define	REG_PCIE_HRPWM_8723B			0x0361	/* PCIe RPWM */
++#define	REG_PCIE_HCPWM_8723B			0x0363	/* PCIe CPWM */
++#define	REG_PCIE_MULTIFET_CTRL_8723B	0x036A	/* PCIE Multi-Fethc Control */
++
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_TXPKTBUF_BCNQ_BDNY_8723B	0x0424
++#define REG_TXPKTBUF_MGQ_BDNY_8723B	0x0425
++#define REG_TXPKTBUF_WMAC_LBK_BF_HD_8723B	0x045D
++#ifdef CONFIG_WOWLAN
++	#define REG_TXPKTBUF_IV_LOW             0x0484
++	#define REG_TXPKTBUF_IV_HIGH            0x0488
++#endif
++#define REG_AMPDU_BURST_MODE_8723B	0x04BC
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_SECONDARY_CCA_CTRL_8723B	0x0577
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++
++
++/* ************************************************************
++ * SDIO Bus Specification
++ * ************************************************************ */
++
++/* -----------------------------------------------------
++ * SDIO CMD Address Mapping
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * I/O bus domain (Host)
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * SDIO register
++ * ----------------------------------------------------- */
++#define SDIO_REG_HCPWM1_8723B	0x025 /* HCI Current Power Mode 1 */
++
++
++/* ****************************************************************************
++ *	8723 Regsiter Bit and Content definition
++ * **************************************************************************** */
++
++/* 2 HSISR
++ * interrupt mask which needs to clear */
++#define MASK_HSISR_CLEAR		(HSISR_GPIO12_0_INT |\
++		HSISR_SPS_OCP_INT |\
++		HSISR_RON_INT |\
++		HSISR_PDNINT |\
++		HSISR_GPIO9_INT)
++
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++#undef IS_E_CUT
++#define IS_E_CUT(version)		FALSE
++#undef IS_F_CUT
++#define IS_F_CUT(version)		((GET_CVID_CUT_VERSION(version) == E_CUT_VERSION) ? TRUE : FALSE)
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define BIT_USB_RXDMA_AGG_EN	BIT(31)
++#define RXDMA_AGG_MODE_EN		BIT(1)
++
++#ifdef CONFIG_WOWLAN
++	#define RXPKT_RELEASE_POLL		BIT(16)
++	#define RXDMA_IDLE				BIT(17)
++	#define RW_RELEASE_EN			BIT(18)
++#endif
++
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* ----------------------------------------------------------------------------
++ * 8723B REG_CCK_CHECK						(offset 0x454)
++ * ---------------------------------------------------------------------------- */
++#define BIT_BCN_PORT_SEL		BIT5
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++#ifdef CONFIG_RF_POWER_TRIM
++
++	#ifdef CONFIG_RTL8723B
++		#define EEPROM_RF_GAIN_OFFSET			0xC1
++	#endif
++
++	#define EEPROM_RF_GAIN_VAL				0x1F6
++#endif /*CONFIG_RF_POWER_TRIM*/
++
++
++/* ----------------------------------------------------------------------------
++ * 8195 IMR/ISR bits						(offset 0xB0,  8bits)
++ * ---------------------------------------------------------------------------- */
++#define	IMR_DISABLED_8723B					0
++/* IMR DW0(0x00B0-00B3) Bit 0-31 */
++#define	IMR_TIMER2_8723B					BIT31		/* Timeout interrupt 2 */
++#define	IMR_TIMER1_8723B					BIT30		/* Timeout interrupt 1	 */
++#define	IMR_PSTIMEOUT_8723B				BIT29		/* Power Save Time Out Interrupt */
++#define	IMR_GTINT4_8723B					BIT28		/* When GTIMER4 expires, this bit is set to 1	 */
++#define	IMR_GTINT3_8723B					BIT27		/* When GTIMER3 expires, this bit is set to 1	 */
++#define	IMR_TXBCN0ERR_8723B				BIT26		/* Transmit Beacon0 Error			 */
++#define	IMR_TXBCN0OK_8723B				BIT25		/* Transmit Beacon0 OK			 */
++#define	IMR_TSF_BIT32_TOGGLE_8723B		BIT24		/* TSF Timer BIT32 toggle indication interrupt			 */
++#define	IMR_BCNDMAINT0_8723B				BIT20		/* Beacon DMA Interrupt 0			 */
++#define	IMR_BCNDERR0_8723B				BIT16		/* Beacon Queue DMA OK0			 */
++#define	IMR_HSISR_IND_ON_INT_8723B		BIT15		/* HSISR Indicator (HSIMR & HSISR is true, this bit is set to 1) */
++#define	IMR_BCNDMAINT_E_8723B			BIT14		/* Beacon DMA Interrupt Extension for Win7			 */
++#define	IMR_ATIMEND_8723B				BIT12		/* CTWidnow End or ATIM Window End */
++#define	IMR_C2HCMD_8723B					BIT10		/* CPU to Host Command INT Status, Write 1 clear	 */
++#define	IMR_CPWM2_8723B					BIT9			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_CPWM_8723B					BIT8			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_HIGHDOK_8723B				BIT7			/* High Queue DMA OK	 */
++#define	IMR_MGNTDOK_8723B				BIT6			/* Management Queue DMA OK	 */
++#define	IMR_BKDOK_8723B					BIT5			/* AC_BK DMA OK		 */
++#define	IMR_BEDOK_8723B					BIT4			/* AC_BE DMA OK	 */
++#define	IMR_VIDOK_8723B					BIT3			/* AC_VI DMA OK		 */
++#define	IMR_VODOK_8723B					BIT2			/* AC_VO DMA OK	 */
++#define	IMR_RDU_8723B					BIT1			/* Rx Descriptor Unavailable	 */
++#define	IMR_ROK_8723B					BIT0			/* Receive DMA OK */
++
++/* IMR DW1(0x00B4-00B7) Bit 0-31 */
++#define	IMR_BCNDMAINT7_8723B				BIT27		/* Beacon DMA Interrupt 7 */
++#define	IMR_BCNDMAINT6_8723B				BIT26		/* Beacon DMA Interrupt 6 */
++#define	IMR_BCNDMAINT5_8723B				BIT25		/* Beacon DMA Interrupt 5 */
++#define	IMR_BCNDMAINT4_8723B				BIT24		/* Beacon DMA Interrupt 4 */
++#define	IMR_BCNDMAINT3_8723B				BIT23		/* Beacon DMA Interrupt 3 */
++#define	IMR_BCNDMAINT2_8723B				BIT22		/* Beacon DMA Interrupt 2 */
++#define	IMR_BCNDMAINT1_8723B				BIT21		/* Beacon DMA Interrupt 1 */
++#define	IMR_BCNDOK7_8723B					BIT20		/* Beacon Queue DMA OK Interrup 7 */
++#define	IMR_BCNDOK6_8723B					BIT19		/* Beacon Queue DMA OK Interrup 6 */
++#define	IMR_BCNDOK5_8723B					BIT18		/* Beacon Queue DMA OK Interrup 5 */
++#define	IMR_BCNDOK4_8723B					BIT17		/* Beacon Queue DMA OK Interrup 4 */
++#define	IMR_BCNDOK3_8723B					BIT16		/* Beacon Queue DMA OK Interrup 3 */
++#define	IMR_BCNDOK2_8723B					BIT15		/* Beacon Queue DMA OK Interrup 2 */
++#define	IMR_BCNDOK1_8723B					BIT14		/* Beacon Queue DMA OK Interrup 1 */
++#define	IMR_ATIMEND_E_8723B				BIT13		/* ATIM Window End Extension for Win7 */
++#define	IMR_TXERR_8723B					BIT11		/* Tx Error Flag Interrupt Status, write 1 clear. */
++#define	IMR_RXERR_8723B					BIT10		/* Rx Error Flag INT Status, Write 1 clear */
++#define	IMR_TXFOVW_8723B					BIT9			/* Transmit FIFO Overflow */
++#define	IMR_RXFOVW_8723B					BIT8			/* Receive FIFO Overflow */
++
++#ifdef CONFIG_PCI_HCI
++	/* #define IMR_RX_MASK		(IMR_ROK_8723B|IMR_RDU_8723B|IMR_RXFOVW_8723B) */
++	#define IMR_TX_MASK			(IMR_VODOK_8723B | IMR_VIDOK_8723B | IMR_BEDOK_8723B | IMR_BKDOK_8723B | IMR_MGNTDOK_8723B | IMR_HIGHDOK_8723B)
++
++	#define RT_BCN_INT_MASKS	(IMR_BCNDMAINT0_8723B | IMR_TXBCN0OK_8723B | IMR_TXBCN0ERR_8723B | IMR_BCNDERR0_8723B)
++
++	#define RT_AC_INT_MASKS	(IMR_VIDOK_8723B | IMR_VODOK_8723B | IMR_BEDOK_8723B | IMR_BKDOK_8723B)
++#endif
++
++/* ********************************************************
++ * General definitions
++ * ******************************************************** */
++
++#define MACID_NUM_8723B 128
++#define SEC_CAM_ENT_NUM_8723B 64
++#define HW_PORT_NUM_8723B	2
++#define NSS_NUM_8723B 1
++#define BAND_CAP_8723B (BAND_CAP_2G)
++#define BW_CAP_8723B (BW_CAP_20M | BW_CAP_40M)
++#define PROTO_CAP_8723B (PROTO_CAP_11B | PROTO_CAP_11G | PROTO_CAP_11N)
++
++#endif /* __RTL8723B_SPEC_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8723b_sreset.h b/drivers/net/wireless/rtl8723du/include/rtl8723b_sreset.h
+new file mode 100644
+index 0000000..8067359
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8723b_sreset.h
+@@ -0,0 +1,29 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8723B_SRESET_H_
++#define _RTL8723B_SRESET_H_
++
++#include <rtw_sreset.h>
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	extern void rtl8723b_sreset_xmit_status_check(_adapter *padapter);
++	extern void rtl8723b_sreset_linked_status_check(_adapter *padapter);
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8723b_xmit.h b/drivers/net/wireless/rtl8723du/include/rtl8723b_xmit.h
+new file mode 100644
+index 0000000..7cc33e1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8723b_xmit.h
+@@ -0,0 +1,338 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723B_XMIT_H__
++#define __RTL8723B_XMIT_H__
++
++
++#define MAX_TID (15)
++
++
++#ifndef __INC_HAL8723BDESC_H
++	#define __INC_HAL8723BDESC_H
++
++	#define RX_STATUS_DESC_SIZE_8723B		24
++	#define RX_DRV_INFO_SIZE_UNIT_8723B 8
++
++
++	/* DWORD 0 */
++	#define SET_RX_STATUS_DESC_PKT_LEN_8723B(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++	#define SET_RX_STATUS_DESC_EOR_8723B(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 30, 1, __Value)
++	#define SET_RX_STATUS_DESC_OWN_8723B(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 31, 1, __Value)
++
++	#define GET_RX_STATUS_DESC_PKT_LEN_8723B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 0, 14)
++	#define GET_RX_STATUS_DESC_CRC32_8723B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 14, 1)
++	#define GET_RX_STATUS_DESC_ICV_8723B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++	#define GET_RX_STATUS_DESC_DRVINFO_SIZE_8723B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 4)
++	#define GET_RX_STATUS_DESC_SECURITY_8723B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 20, 3)
++	#define GET_RX_STATUS_DESC_QOS_8723B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 23, 1)
++	#define GET_RX_STATUS_DESC_SHIFT_8723B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 24, 2)
++	#define GET_RX_STATUS_DESC_PHY_STATUS_8723B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 26, 1)
++	#define GET_RX_STATUS_DESC_SWDEC_8723B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 27, 1)
++	#define GET_RX_STATUS_DESC_LAST_SEG_8723B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 28, 1)
++	#define GET_RX_STATUS_DESC_FIRST_SEG_8723B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 29, 1)
++	#define GET_RX_STATUS_DESC_EOR_8723B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 30, 1)
++	#define GET_RX_STATUS_DESC_OWN_8723B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 31, 1)
++
++	/* DWORD 1 */
++	#define GET_RX_STATUS_DESC_MACID_8723B(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 0, 7)
++	#define GET_RX_STATUS_DESC_TID_8723B(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 8, 4)
++	#define GET_RX_STATUS_DESC_AMSDU_8723B(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 13, 1)
++	#define GET_RX_STATUS_DESC_RXID_MATCH_8723B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+4, 14, 1)
++	#define GET_RX_STATUS_DESC_PAGGR_8723B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 15, 1)
++	#define GET_RX_STATUS_DESC_A1_FIT_8723B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 16, 4)
++	#define GET_RX_STATUS_DESC_CHKERR_8723B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 20, 1)
++	#define GET_RX_STATUS_DESC_IPVER_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 21, 1)
++	#define GET_RX_STATUS_DESC_IS_TCPUDP__8723B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+4, 22, 1)
++	#define GET_RX_STATUS_DESC_CHK_VLD_8723B(__pRxDesc)	LE_BITS_TO_4BYTE(__pRxDesc+4, 23, 1)
++	#define GET_RX_STATUS_DESC_PAM_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 24, 1)
++	#define GET_RX_STATUS_DESC_PWR_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 25, 1)
++	#define GET_RX_STATUS_DESC_MORE_DATA_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 26, 1)
++	#define GET_RX_STATUS_DESC_MORE_FRAG_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 27, 1)
++	#define GET_RX_STATUS_DESC_TYPE_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 28, 2)
++	#define GET_RX_STATUS_DESC_MC_8723B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 30, 1)
++	#define GET_RX_STATUS_DESC_BC_8723B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 31, 1)
++
++	/* DWORD 2 */
++	#define GET_RX_STATUS_DESC_SEQ_8723B(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 0, 12)
++	#define GET_RX_STATUS_DESC_FRAG_8723B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 12, 4)
++	#define GET_RX_STATUS_DESC_RX_IS_QOS_8723B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 16, 1)
++	#define GET_RX_STATUS_DESC_WLANHD_IV_LEN_8723B(__pRxStatusDesc)	LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 18, 6)
++	#define GET_RX_STATUS_DESC_RPT_SEL_8723B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 28, 1)
++
++	/* DWORD 3 */
++	#define GET_RX_STATUS_DESC_RX_RATE_8723B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 0, 7)
++	#define GET_RX_STATUS_DESC_HTC_8723B(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 10, 1)
++	#define GET_RX_STATUS_DESC_EOSP_8723B(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 11, 1)
++	#define GET_RX_STATUS_DESC_BSSID_FIT_8723B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 12, 2)
++	#ifdef CONFIG_USB_RX_AGGREGATION
++		#define GET_RX_STATUS_DESC_USB_AGG_PKTNUM_8723B(__pRxStatusDesc)	LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 16, 8)
++	#endif
++	#define GET_RX_STATUS_DESC_PATTERN_MATCH_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 29, 1)
++	#define GET_RX_STATUS_DESC_UNICAST_MATCH_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 30, 1)
++	#define GET_RX_STATUS_DESC_MAGIC_MATCH_8723B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+12, 31, 1)
++
++	/* DWORD 6 */
++	#define GET_RX_STATUS_DESC_SPLCP_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 0, 1)
++	#define GET_RX_STATUS_DESC_LDPC_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 1, 1)
++	#define GET_RX_STATUS_DESC_STBC_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 2, 1)
++	#define GET_RX_STATUS_DESC_BW_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 4, 2)
++
++	/* DWORD 5 */
++	#define GET_RX_STATUS_DESC_TSFL_8723B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+20, 0, 32)
++
++	#define GET_RX_STATUS_DESC_BUFF_ADDR_8723B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+24, 0, 32)
++	#define GET_RX_STATUS_DESC_BUFF_ADDR64_8723B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+28, 0, 32)
++
++	#define SET_RX_STATUS_DESC_BUFF_ADDR_8723B(__pRxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pRxDesc+24, 0, 32, __Value)
++
++
++	/* Dword 0 */
++	#define GET_TX_DESC_OWN_8723B(__pTxDesc)				LE_BITS_TO_4BYTE(__pTxDesc, 31, 1)
++
++	#define SET_TX_DESC_PKT_SIZE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 16, __Value)
++	#define SET_TX_DESC_OFFSET_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 8, __Value)
++	#define SET_TX_DESC_BMC_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 24, 1, __Value)
++	#define SET_TX_DESC_HTC_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 25, 1, __Value)
++	#define SET_TX_DESC_LAST_SEG_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 26, 1, __Value)
++	#define SET_TX_DESC_FIRST_SEG_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 27, 1, __Value)
++	#define SET_TX_DESC_LINIP_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 28, 1, __Value)
++	#define SET_TX_DESC_NO_ACM_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 29, 1, __Value)
++	#define SET_TX_DESC_GF_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 30, 1, __Value)
++	#define SET_TX_DESC_OWN_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 31, 1, __Value)
++
++	/* Dword 1 */
++	#define SET_TX_DESC_MACID_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 7, __Value)
++	#define SET_TX_DESC_QUEUE_SEL_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 8, 5, __Value)
++	#define SET_TX_DESC_RDG_NAV_EXT_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 13, 1, __Value)
++	#define SET_TX_DESC_LSIG_TXOP_EN_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 14, 1, __Value)
++	#define SET_TX_DESC_PIFS_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 15, 1, __Value)
++	#define SET_TX_DESC_RATE_ID_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 16, 5, __Value)
++	#define SET_TX_DESC_EN_DESC_ID_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 21, 1, __Value)
++	#define SET_TX_DESC_SEC_TYPE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 22, 2, __Value)
++	#define SET_TX_DESC_PKT_OFFSET_8723B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 24, 5, __Value)
++
++
++	/* Dword 2 */
++	#define SET_TX_DESC_PAID_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 0,  9, __Value)
++	#define SET_TX_DESC_CCA_RTS_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 10, 2, __Value)
++	#define SET_TX_DESC_AGG_ENABLE_8723B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 12, 1, __Value)
++	#define SET_TX_DESC_RDG_ENABLE_8723B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 13, 1, __Value)
++	#define SET_TX_DESC_AGG_BREAK_8723B(__pTxDesc, __Value)				SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 16, 1, __Value)
++	#define SET_TX_DESC_MORE_FRAG_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 17, 1, __Value)
++	#define SET_TX_DESC_RAW_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 18, 1, __Value)
++	#define SET_TX_DESC_SPE_RPT_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 19, 1, __Value)
++	#define SET_TX_DESC_AMPDU_DENSITY_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 20, 3, __Value)
++	#define SET_TX_DESC_BT_INT_8723B(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 23, 1, __Value)
++	#define SET_TX_DESC_GID_8723B(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 24, 6, __Value)
++
++
++	/* Dword 3 */
++	#define SET_TX_DESC_WHEADER_LEN_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 0, 4, __Value)
++	#define SET_TX_DESC_CHK_EN_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 4, 1, __Value)
++	#define SET_TX_DESC_EARLY_MODE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 5, 1, __Value)
++	#define SET_TX_DESC_HWSEQ_SEL_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 6, 2, __Value)
++	#define SET_TX_DESC_USE_RATE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 8, 1, __Value)
++	#define SET_TX_DESC_DISABLE_RTS_FB_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 9, 1, __Value)
++	#define SET_TX_DESC_DISABLE_FB_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 10, 1, __Value)
++	#define SET_TX_DESC_CTS2SELF_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 11, 1, __Value)
++	#define SET_TX_DESC_RTS_ENABLE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 12, 1, __Value)
++	#define SET_TX_DESC_HW_RTS_ENABLE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 13, 1, __Value)
++	#define SET_TX_DESC_NAV_USE_HDR_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 15, 1, __Value)
++	#define SET_TX_DESC_USE_MAX_LEN_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 16, 1, __Value)
++	#define SET_TX_DESC_MAX_AGG_NUM_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 17, 5, __Value)
++	#define SET_TX_DESC_NDPA_8723B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 22, 2, __Value)
++	#define SET_TX_DESC_AMPDU_MAX_TIME_8723B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 24, 8, __Value)
++
++	/* Dword 4 */
++	#define SET_TX_DESC_TX_RATE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 0, 7, __Value)
++	#define SET_TX_DESC_DATA_RATE_FB_LIMIT_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 8, 5, __Value)
++	#define SET_TX_DESC_RTS_RATE_FB_LIMIT_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 13, 4, __Value)
++	#define SET_TX_DESC_RETRY_LIMIT_ENABLE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 17, 1, __Value)
++	#define SET_TX_DESC_DATA_RETRY_LIMIT_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 18, 6, __Value)
++	#define SET_TX_DESC_RTS_RATE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 24, 5, __Value)
++
++
++	/* Dword 5 */
++	#define SET_TX_DESC_DATA_SC_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 0, 4, __Value)
++	#define SET_TX_DESC_DATA_SHORT_8723B(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 4, 1, __Value)
++	#define SET_TX_DESC_DATA_BW_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 5, 2, __Value)
++	#define SET_TX_DESC_DATA_LDPC_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 7, 1, __Value)
++	#define SET_TX_DESC_DATA_STBC_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 8, 2, __Value)
++	#define SET_TX_DESC_CTROL_STBC_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 10, 2, __Value)
++	#define SET_TX_DESC_RTS_SHORT_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 12, 1, __Value)
++	#define SET_TX_DESC_RTS_SC_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 13, 4, __Value)
++
++
++	/* Dword 6 */
++	#define SET_TX_DESC_SW_DEFINE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 0, 12, __Value)
++	#define SET_TX_DESC_MBSSID_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 12, 4, __Value)
++	#define SET_TX_DESC_ANTSEL_A_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 16, 3, __Value)
++	#define SET_TX_DESC_ANTSEL_B_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 19, 3, __Value)
++	#define SET_TX_DESC_ANTSEL_C_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 22, 3, __Value)
++	#define SET_TX_DESC_ANTSEL_D_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 25, 3, __Value)
++
++	/* Dword 7 */
++	#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++		#define SET_TX_DESC_TX_BUFFER_SIZE_8723B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++	#else
++		#define SET_TX_DESC_TX_DESC_CHECKSUM_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++	#endif
++	#define SET_TX_DESC_USB_TXAGG_NUM_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 24, 8, __Value)
++	#if (DEV_BUS_TYPE == RT_SDIO_INTERFACE)
++		#define SET_TX_DESC_SDIO_TXSEQ_8723B(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 16, 8, __Value)
++	#endif
++
++	/* Dword 8 */
++	#define SET_TX_DESC_HWSEQ_EN_8723B(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 15, 1, __Value)
++
++	/* Dword 9 */
++	#define SET_TX_DESC_SEQ_8723B(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 12, 12, __Value)
++
++	/* Dword 10 */
++	#define SET_TX_DESC_TX_BUFFER_ADDRESS_8723B(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+40, 0, 32, __Value)
++	#define GET_TX_DESC_TX_BUFFER_ADDRESS_8723B(__pTxDesc)	LE_BITS_TO_4BYTE(__pTxDesc+40, 0, 32)
++
++	/* Dword 11 */
++	#define SET_TX_DESC_NEXT_DESC_ADDRESS_8723B(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+48, 0, 32, __Value)
++
++
++	#define SET_EARLYMODE_PKTNUM_8723B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 0, 4, __Value)
++	#define SET_EARLYMODE_LEN0_8723B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 4, 15, __Value)
++	#define SET_EARLYMODE_LEN1_1_8723B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 19, 13, __Value)
++	#define SET_EARLYMODE_LEN1_2_8723B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 2, __Value)
++	#define SET_EARLYMODE_LEN2_8723B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 2, 15,	__Value)
++	#define SET_EARLYMODE_LEN3_8723B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 17, 15, __Value)
++
++#endif
++/* -----------------------------------------------------------
++ *
++ *	Rate
++ *
++ * -----------------------------------------------------------
++ * CCK Rates, TxHT = 0 */
++#define DESC8723B_RATE1M				0x00
++#define DESC8723B_RATE2M				0x01
++#define DESC8723B_RATE5_5M				0x02
++#define DESC8723B_RATE11M				0x03
++
++/* OFDM Rates, TxHT = 0 */
++#define DESC8723B_RATE6M				0x04
++#define DESC8723B_RATE9M				0x05
++#define DESC8723B_RATE12M				0x06
++#define DESC8723B_RATE18M				0x07
++#define DESC8723B_RATE24M				0x08
++#define DESC8723B_RATE36M				0x09
++#define DESC8723B_RATE48M				0x0a
++#define DESC8723B_RATE54M				0x0b
++
++/* MCS Rates, TxHT = 1 */
++#define DESC8723B_RATEMCS0				0x0c
++#define DESC8723B_RATEMCS1				0x0d
++#define DESC8723B_RATEMCS2				0x0e
++#define DESC8723B_RATEMCS3				0x0f
++#define DESC8723B_RATEMCS4				0x10
++#define DESC8723B_RATEMCS5				0x11
++#define DESC8723B_RATEMCS6				0x12
++#define DESC8723B_RATEMCS7				0x13
++#define DESC8723B_RATEMCS8				0x14
++#define DESC8723B_RATEMCS9				0x15
++#define DESC8723B_RATEMCS10		0x16
++#define DESC8723B_RATEMCS11		0x17
++#define DESC8723B_RATEMCS12		0x18
++#define DESC8723B_RATEMCS13		0x19
++#define DESC8723B_RATEMCS14		0x1a
++#define DESC8723B_RATEMCS15		0x1b
++#define DESC8723B_RATEVHTSS1MCS0		0x2c
++#define DESC8723B_RATEVHTSS1MCS1		0x2d
++#define DESC8723B_RATEVHTSS1MCS2		0x2e
++#define DESC8723B_RATEVHTSS1MCS3		0x2f
++#define DESC8723B_RATEVHTSS1MCS4		0x30
++#define DESC8723B_RATEVHTSS1MCS5		0x31
++#define DESC8723B_RATEVHTSS1MCS6		0x32
++#define DESC8723B_RATEVHTSS1MCS7		0x33
++#define DESC8723B_RATEVHTSS1MCS8		0x34
++#define DESC8723B_RATEVHTSS1MCS9		0x35
++#define DESC8723B_RATEVHTSS2MCS0		0x36
++#define DESC8723B_RATEVHTSS2MCS1		0x37
++#define DESC8723B_RATEVHTSS2MCS2		0x38
++#define DESC8723B_RATEVHTSS2MCS3		0x39
++#define DESC8723B_RATEVHTSS2MCS4		0x3a
++#define DESC8723B_RATEVHTSS2MCS5		0x3b
++#define DESC8723B_RATEVHTSS2MCS6		0x3c
++#define DESC8723B_RATEVHTSS2MCS7		0x3d
++#define DESC8723B_RATEVHTSS2MCS8		0x3e
++#define DESC8723B_RATEVHTSS2MCS9		0x3f
++
++
++#define	RX_HAL_IS_CCK_RATE_8723B(pDesc)\
++	(GET_RX_STATUS_DESC_RX_RATE_8723B(pDesc) == DESC8723B_RATE1M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8723B(pDesc) == DESC8723B_RATE2M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8723B(pDesc) == DESC8723B_RATE5_5M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8723B(pDesc) == DESC8723B_RATE11M)
++
++
++void rtl8723b_update_txdesc(struct xmit_frame *pxmitframe, u8 *pmem);
++void rtl8723b_fill_fake_txdesc(PADAPTER padapter, u8 *pDesc, u32 BufferLen, u8 IsPsPoll, u8 IsBTQosNull, u8 bDataFrame);
++#if defined(CONFIG_CONCURRENT_MODE)
++	void fill_txdesc_force_bmc_camid(struct pkt_attrib *pattrib, u8 *ptxdesc);
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	s32 rtl8723bs_init_xmit_priv(PADAPTER padapter);
++	void rtl8723bs_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8723bs_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8723bs_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8723bs_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8723bs_xmit_buf_handler(PADAPTER padapter);
++	thread_return rtl8723bs_xmit_thread(thread_context context);
++	#define hal_xmit_handler rtl8723bs_xmit_buf_handler
++#endif
++
++#ifdef CONFIG_USB_HCI
++	s32 rtl8723bu_xmit_buf_handler(PADAPTER padapter);
++	#define hal_xmit_handler rtl8723bu_xmit_buf_handler
++
++
++	s32 rtl8723bu_init_xmit_priv(PADAPTER padapter);
++	void rtl8723bu_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8723bu_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8723bu_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	 rtl8723bu_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	/* s32 rtl8812au_xmit_buf_handler(PADAPTER padapter); */
++	void rtl8723bu_xmit_tasklet(void *priv);
++	s32 rtl8723bu_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++	void _dbg_dump_tx_info(_adapter	*padapter, int frame_tag, struct tx_desc *ptxdesc);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8723be_init_xmit_priv(PADAPTER padapter);
++	void rtl8723be_free_xmit_priv(PADAPTER padapter);
++	struct xmit_buf *rtl8723be_dequeue_xmitbuf(struct rtw_tx_ring *ring);
++	void	rtl8723be_xmitframe_resume(_adapter *padapter);
++	s32 rtl8723be_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8723be_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8723be_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	void rtl8723be_xmit_tasklet(void *priv);
++#endif
++
++u8	BWMapping_8723B(PADAPTER Adapter, struct pkt_attrib *pattrib);
++u8	SCMapping_8723B(PADAPTER Adapter, struct pkt_attrib	*pattrib);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8723d_cmd.h b/drivers/net/wireless/rtl8723du/include/rtl8723d_cmd.h
+new file mode 100644
+index 0000000..49deb46
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8723d_cmd.h
+@@ -0,0 +1,211 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723D_CMD_H__
++#define __RTL8723D_CMD_H__
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD DEFINITION    ------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++enum h2c_cmd_8723D {
++	/* Common Class: 000 */
++	H2C_8723D_RSVD_PAGE = 0x00,
++	H2C_8723D_MEDIA_STATUS_RPT = 0x01,
++	H2C_8723D_SCAN_ENABLE = 0x02,
++	H2C_8723D_KEEP_ALIVE = 0x03,
++	H2C_8723D_DISCON_DECISION = 0x04,
++	H2C_8723D_PSD_OFFLOAD = 0x05,
++	H2C_8723D_AP_OFFLOAD = 0x08,
++	H2C_8723D_BCN_RSVDPAGE = 0x09,
++	H2C_8723D_PROBERSP_RSVDPAGE = 0x0A,
++	H2C_8723D_FCS_RSVDPAGE = 0x10,
++	H2C_8723D_FCS_INFO = 0x11,
++	H2C_8723D_AP_WOW_GPIO_CTRL = 0x13,
++
++	/* PoweSave Class: 001 */
++	H2C_8723D_SET_PWR_MODE = 0x20,
++	H2C_8723D_PS_TUNING_PARA = 0x21,
++	H2C_8723D_PS_TUNING_PARA2 = 0x22,
++	H2C_8723D_P2P_LPS_PARAM = 0x23,
++	H2C_8723D_P2P_PS_OFFLOAD = 0x24,
++	H2C_8723D_PS_SCAN_ENABLE = 0x25,
++	H2C_8723D_SAP_PS_ = 0x26,
++	H2C_8723D_INACTIVE_PS_ = 0x27, /* Inactive_PS */
++	H2C_8723D_FWLPS_IN_IPS_ = 0x28,
++
++	/* Dynamic Mechanism Class: 010 */
++	H2C_8723D_MACID_CFG = 0x40,
++	H2C_8723D_TXBF = 0x41,
++	H2C_8723D_RSSI_SETTING = 0x42,
++	H2C_8723D_AP_REQ_TXRPT = 0x43,
++	H2C_8723D_INIT_RATE_COLLECT = 0x44,
++	H2C_8723D_RA_PARA_ADJUST = 0x46,
++
++	/* BT Class: 011 */
++	H2C_8723D_B_TYPE_TDMA = 0x60,
++	H2C_8723D_BT_INFO = 0x61,
++	H2C_8723D_FORCE_BT_TXPWR = 0x62,
++	H2C_8723D_BT_IGNORE_WLANACT = 0x63,
++	H2C_8723D_DAC_SWING_VALUE = 0x64,
++	H2C_8723D_ANT_SEL_RSV = 0x65,
++	H2C_8723D_WL_OPMODE = 0x66,
++	H2C_8723D_BT_MP_OPER = 0x67,
++	H2C_8723D_BT_CONTROL = 0x68,
++	H2C_8723D_BT_WIFI_CTRL = 0x69,
++	H2C_8723D_BT_FW_PATCH = 0x6A,
++	H2C_8723D_BT_WLAN_CALIBRATION = 0x6D,
++
++	/* WOWLAN Class: 100 */
++	H2C_8723D_WOWLAN = 0x80,
++	H2C_8723D_REMOTE_WAKE_CTRL = 0x81,
++	H2C_8723D_AOAC_GLOBAL_INFO = 0x82,
++	H2C_8723D_AOAC_RSVD_PAGE = 0x83,
++	H2C_8723D_AOAC_RSVD_PAGE2 = 0x84,
++	H2C_8723D_D0_SCAN_OFFLOAD_CTRL = 0x85,
++	H2C_8723D_D0_SCAN_OFFLOAD_INFO = 0x86,
++	H2C_8723D_CHNL_SWITCH_OFFLOAD = 0x87,
++	H2C_8723D_P2P_OFFLOAD_RSVD_PAGE = 0x8A,
++	H2C_8723D_P2P_OFFLOAD = 0x8B,
++
++	H2C_8723D_RESET_TSF = 0xC0,
++	H2C_8723D_MAXID,
++};
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD CONTENT    --------------------------------------------------
++ * ---------------------------------------------------------------------------------------------------------
++ * _RSVDPAGE_LOC_CMD_0x00 */
++#define SET_8723D_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723D_H2CCMD_RSVDPAGE_LOC_PSPOLL(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_8723D_H2CCMD_RSVDPAGE_LOC_NULL_DATA(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8723D_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8723D_H2CCMD_RSVDPAGE_LOC_BT_QOS_NULL_DATA(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++
++/* _KEEP_ALIVE_CMD_0x03 */
++#define SET_8723D_H2CCMD_KEEPALIVE_PARM_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8723D_H2CCMD_KEEPALIVE_PARM_ADOPT(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8723D_H2CCMD_KEEPALIVE_PARM_PKT_TYPE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_8723D_H2CCMD_KEEPALIVE_PARM_CHECK_PERIOD(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++
++/* _DISCONNECT_DECISION_CMD_0x04 */
++#define SET_8723D_H2CCMD_DISCONDECISION_PARM_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8723D_H2CCMD_DISCONDECISION_PARM_ADOPT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8723D_H2CCMD_DISCONDECISION_PARM_CHECK_PERIOD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8723D_H2CCMD_DISCONDECISION_PARM_TRY_PKT_NUM(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++
++/* _PWR_MOD_CMD_0x20 */
++#define SET_8723D_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723D_H2CCMD_PWRMODE_PARM_RLBM(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 4, __Value)
++#define SET_8723D_H2CCMD_PWRMODE_PARM_SMART_PS(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 4, 4, __Value)
++#define SET_8723D_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8723D_H2CCMD_PWRMODE_PARM_ALL_QUEUE_UAPSD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8723D_H2CCMD_PWRMODE_PARM_PWR_STATE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8723D_H2CCMD_PWRMODE_PARM_BYTE5(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++#define GET_8723D_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd)					LE_BITS_TO_1BYTE(__pH2CCmd, 0, 8)
++
++/* _PS_TUNE_PARAM_CMD_0x21 */
++#define SET_8723D_H2CCMD_PSTUNE_PARM_BCN_TO_LIMIT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723D_H2CCMD_PSTUNE_PARM_DTIM_TIMEOUT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8723D_H2CCMD_PSTUNE_PARM_ADOPT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 1, __Value)
++#define SET_8723D_H2CCMD_PSTUNE_PARM_PS_TIMEOUT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 1, 7, __Value)
++#define SET_8723D_H2CCMD_PSTUNE_PARM_DTIM_PERIOD(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++
++/* _MACID_CFG_CMD_0x40 */
++#define SET_8723D_H2CCMD_MACID_CFG_MACID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_RAID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 5, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_SGI_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 7, 1, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_BW(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 2, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_NO_UPDATE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 3, 1, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_VHT_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 4, 2, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_DISPT(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 6, 1, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_DISRA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 7, 1, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_RATE_MASK0(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_RATE_MASK1(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+4, 0, 8, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_RATE_MASK2(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+5, 0, 8, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_RATE_MASK3(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+6, 0, 8, __Value)
++
++/* _RSSI_SETTING_CMD_0x42 */
++#define SET_8723D_H2CCMD_RSSI_SETTING_MACID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723D_H2CCMD_RSSI_SETTING_RSSI(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 7, __Value)
++#define SET_8723D_H2CCMD_RSSI_SETTING_ULDL_STATE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++
++/* _AP_REQ_TXRPT_CMD_0x43 */
++#define SET_8723D_H2CCMD_APREQRPT_PARM_MACID1(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723D_H2CCMD_APREQRPT_PARM_MACID2(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++
++/* _FORCE_BT_TXPWR_CMD_0x62 */
++#define SET_8723D_H2CCMD_BT_PWR_IDX(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++
++/* _FORCE_BT_MP_OPER_CMD_0x67 */
++#define SET_8723D_H2CCMD_BT_MPOPER_VER(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 4, __Value)
++#define SET_8723D_H2CCMD_BT_MPOPER_REQNUM(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 4, __Value)
++#define SET_8723D_H2CCMD_BT_MPOPER_IDX(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8723D_H2CCMD_BT_MPOPER_PARAM1(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++#define SET_8723D_H2CCMD_BT_MPOPER_PARAM2(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++#define SET_8723D_H2CCMD_BT_MPOPER_PARAM3(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+4, 0, 8, __Value)
++
++/* _BT_FW_PATCH_0x6A */
++#define SET_8723D_H2CCMD_BT_FW_PATCH_SIZE(__pH2CCmd, __Value)					SET_BITS_TO_LE_2BYTE((pu1Byte)(__pH2CCmd), 0, 16, __Value)
++#define SET_8723D_H2CCMD_BT_FW_PATCH_ADDR0(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8723D_H2CCMD_BT_FW_PATCH_ADDR1(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8723D_H2CCMD_BT_FW_PATCH_ADDR2(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8723D_H2CCMD_BT_FW_PATCH_ADDR3(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++/* ---------------------------------------------------------------------------------------------------------
++ * -------------------------------------------    Structure    --------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    Function Statement     --------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++/* host message to firmware cmd */
++void rtl8723d_set_FwPwrMode_cmd(PADAPTER padapter, u8 Mode);
++void rtl8723d_set_FwJoinBssRpt_cmd(PADAPTER padapter, u8 mstatus);
++void rtl8723d_set_rssi_cmd(PADAPTER padapter, u8 *param);
++void rtl8723d_fw_try_ap_cmd(PADAPTER padapter, u32 need_ack);
++/* s32 rtl8723d_set_lowpwr_lps_cmd(PADAPTER padapter, u8 enable); */
++void rtl8723d_set_FwPsTuneParam_cmd(PADAPTER padapter);
++void rtl8723d_set_FwMacIdConfig_cmd(_adapter *padapter, u8 mac_id, u8 raid, u8 bw, u8 sgi, u32 mask);
++void rtl8723d_set_FwBtMpOper_cmd(PADAPTER padapter, u8 idx, u8 ver, u8 reqnum, u8 *param);
++void rtl8723d_download_rsvd_page(PADAPTER padapter, u8 mstatus);
++#ifdef CONFIG_BT_COEXIST
++	void rtl8723d_download_BTCoex_AP_mode_rsvd_page(PADAPTER padapter);
++#endif /* CONFIG_BT_COEXIST */
++#ifdef CONFIG_P2P
++	void rtl8723d_set_p2p_ps_offload_cmd(PADAPTER padapter, u8 p2p_ps_state);
++#endif /* CONFIG_P2P */
++
++void CheckFwRsvdPageContent(PADAPTER padapter);
++
++#ifdef CONFIG_P2P_WOWLAN
++	void rtl8723d_set_p2p_wowlan_offload_cmd(PADAPTER padapter);
++#endif
++
++void rtl8723d_set_FwPwrModeInIPS_cmd(PADAPTER padapter, u8 en);
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++	u8 rtl8723d_reset_tsf(_adapter *padapter, u8 reset_port);
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++s32 FillH2CCmd8723D(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++u8 GetTxBufferRsvdPageNum8723D(_adapter *padapter, bool wowlan);
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8723d_dm.h b/drivers/net/wireless/rtl8723du/include/rtl8723d_dm.h
+new file mode 100644
+index 0000000..bae086d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8723d_dm.h
+@@ -0,0 +1,47 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723D_DM_H__
++#define __RTL8723D_DM_H__
++/* ************************************************************
++ * Description:
++ *
++ * This file is for 8723D dynamic mechanism only
++ *
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * structure and define
++ * ************************************************************ */
++
++/* ************************************************************
++ * function prototype
++ * ************************************************************ */
++
++void rtl8723d_init_dm_priv(PADAPTER padapter);
++void rtl8723d_deinit_dm_priv(PADAPTER padapter);
++
++void rtl8723d_InitHalDm(PADAPTER padapter);
++void rtl8723d_HalDmWatchDog(PADAPTER padapter);
++void rtl8723d_HalDmWatchDog_in_LPS(PADAPTER padapter);
++void rtl8723d_hal_dm_in_lps(PADAPTER padapter);
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8723d_hal.h b/drivers/net/wireless/rtl8723du/include/rtl8723d_hal.h
+new file mode 100644
+index 0000000..f546af1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8723d_hal.h
+@@ -0,0 +1,316 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723D_HAL_H__
++#define __RTL8723D_HAL_H__
++
++#include "hal_data.h"
++
++#include "rtl8723d_spec.h"
++#include "rtl8723d_rf.h"
++#include "rtl8723d_dm.h"
++#include "rtl8723d_recv.h"
++#include "rtl8723d_xmit.h"
++#include "rtl8723d_cmd.h"
++#include "rtl8723d_led.h"
++#include "Hal8723DPwrSeq.h"
++#include "Hal8723DPhyReg.h"
++#include "Hal8723DPhyCfg.h"
++#ifdef DBG_CONFIG_ERROR_DETECT
++	#include "rtl8723d_sreset.h"
++#endif
++#ifdef CONFIG_LPS_POFF
++	#include "rtl8723d_lps_poff.h"
++#endif
++
++#define FW_8723D_SIZE		0x8000
++#define FW_8723D_START_ADDRESS	0x1000
++#define FW_8723D_END_ADDRESS	0x1FFF /* 0x5FFF */
++
++#define IS_FW_HEADER_EXIST_8723D(_pFwHdr)\
++	((le16_to_cpu(_pFwHdr->Signature) & 0xFFF0) == 0x23D0)
++
++typedef struct _RT_FIRMWARE {
++	FIRMWARE_SOURCE	eFWSource;
++#ifdef CONFIG_EMBEDDED_FWIMG
++	u8			*szFwBuffer;
++#else
++	u8			szFwBuffer[FW_8723D_SIZE];
++#endif
++	u32			ulFwLength;
++} RT_FIRMWARE_8723D, *PRT_FIRMWARE_8723D;
++
++/*
++ * This structure must be cared byte-ordering
++ *
++ * Added by tynli. 2009.12.04. */
++typedef struct _RT_8723D_FIRMWARE_HDR {
++	/* 8-byte alinment required */
++
++	/* --- LONG WORD 0 ---- */
++	u16		Signature;	/* 92C0: test chip; 92C, 88C0: test chip; 88C1: MP A-cut; 92C1: MP A-cut */
++	u8		Category;	/* AP/NIC and USB/PCI */
++	u8		Function;	/* Reserved for different FW function indcation, for further use when driver needs to download different FW in different conditions */
++	u16		Version;		/* FW Version */
++	u16		Subversion;	/* FW Subversion, default 0x00 */
++
++	/* --- LONG WORD 1 ---- */
++	u8		Month;	/* Release time Month field */
++	u8		Date;	/* Release time Date field */
++	u8		Hour;	/* Release time Hour field */
++	u8		Minute;	/* Release time Minute field */
++	u16		RamCodeSize;	/* The size of RAM code */
++	u16		Rsvd2;
++
++	/* --- LONG WORD 2 ---- */
++	u32		SvnIdx;	/* The SVN entry index */
++	u32		Rsvd3;
++
++	/* --- LONG WORD 3 ---- */
++	u32		Rsvd4;
++	u32		Rsvd5;
++} RT_8723D_FIRMWARE_HDR, *PRT_8723D_FIRMWARE_HDR;
++
++#define DRIVER_EARLY_INT_TIME_8723D		0x05
++#define BCN_DMA_ATIME_INT_TIME_8723D		0x02
++
++/* for 8723D
++ * TX 32K, RX 16K, Page size 128B for TX, 8B for RX */
++#define PAGE_SIZE_TX_8723D			128
++#define PAGE_SIZE_RX_8723D			8
++
++#define TX_DMA_SIZE_8723D			0x8000	/* 32K(TX) */
++#define RX_DMA_SIZE_8723D			0x4000	/* 16K(RX) */
++
++#ifdef CONFIG_WOWLAN
++	#define RESV_FMWF	(WKFMCAM_SIZE * MAX_WKFM_NUM) /* 16 entries, for each is 24 bytes*/
++#else
++	#define RESV_FMWF	0
++#endif
++
++#ifdef CONFIG_FW_C2H_DEBUG
++	#define RX_DMA_RESERVED_SIZE_8723D	0x100	/* 256B, reserved for c2h debug message */
++#else
++	#define RX_DMA_RESERVED_SIZE_8723D	0x80	/* 128B, reserved for tx report */
++#endif
++#define RX_DMA_BOUNDARY_8723D\
++	(RX_DMA_SIZE_8723D - RX_DMA_RESERVED_SIZE_8723D - 1)
++
++
++/* Note: We will divide number of page equally for each queue other than public queue! */
++
++/* For General Reserved Page Number(Beacon Queue is reserved page)
++ * Beacon:2, PS-Poll:1, Null Data:1,Qos Null Data:1,BT Qos Null Data:1 */
++#define BCNQ_PAGE_NUM_8723D		0x08
++#ifdef CONFIG_CONCURRENT_MODE
++	#define BCNQ1_PAGE_NUM_8723D		0x08 /* 0x04 */
++#else
++	#define BCNQ1_PAGE_NUM_8723D		0x00
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++	#undef BCNQ1_PAGE_NUM_8723D
++	#define BCNQ1_PAGE_NUM_8723D		0x00 /* 0x04 */
++#endif
++
++/* For WoWLan , more reserved page
++ * ARP Rsp:1, RWC:1, GTK Info:1,GTK RSP:2,GTK EXT MEM:2, PNO: 6 */
++#ifdef CONFIG_WOWLAN
++	#define WOWLAN_PAGE_NUM_8723D	0x07
++#else
++	#define WOWLAN_PAGE_NUM_8723D	0x00
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++	#undef WOWLAN_PAGE_NUM_8723D
++	#define WOWLAN_PAGE_NUM_8723D	0x15
++#endif
++
++#ifdef CONFIG_AP_WOWLAN
++	#define AP_WOWLAN_PAGE_NUM_8723D	0x02
++#endif
++
++#define TX_TOTAL_PAGE_NUMBER_8723D\
++	(0xFF - BCNQ_PAGE_NUM_8723D - BCNQ1_PAGE_NUM_8723D - WOWLAN_PAGE_NUM_8723D)
++#define TX_PAGE_BOUNDARY_8723D		(TX_TOTAL_PAGE_NUMBER_8723D + 1)
++
++#define WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8723D	TX_TOTAL_PAGE_NUMBER_8723D
++#define WMM_NORMAL_TX_PAGE_BOUNDARY_8723D\
++	(WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8723D + 1)
++
++/* For Normal Chip Setting
++ * (HPQ + LPQ + NPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER_8723D */
++#define NORMAL_PAGE_NUM_HPQ_8723D		0x0C
++#define NORMAL_PAGE_NUM_LPQ_8723D		0x02
++#define NORMAL_PAGE_NUM_NPQ_8723D		0x02
++
++/* Note: For Normal Chip Setting, modify later */
++#define WMM_NORMAL_PAGE_NUM_HPQ_8723D		0x30
++#define WMM_NORMAL_PAGE_NUM_LPQ_8723D		0x20
++#define WMM_NORMAL_PAGE_NUM_NPQ_8723D		0x20
++
++
++#include "HalVerDef.h"
++#include "hal_com.h"
++
++#define EFUSE_OOB_PROTECT_BYTES			19
++
++#define HAL_EFUSE_MEMORY
++#define HWSET_MAX_SIZE_8723D                512
++#define EFUSE_REAL_CONTENT_LEN_8723D        512
++#define EFUSE_MAP_LEN_8723D                 512
++#define EFUSE_MAX_SECTION_8723D             64
++
++/* For some inferiority IC purpose. added by Roger, 2009.09.02.*/
++#define EFUSE_IC_ID_OFFSET			506
++#define AVAILABLE_EFUSE_ADDR(addr)	(addr < EFUSE_REAL_CONTENT_LEN_8723D)
++
++#define EFUSE_ACCESS_ON		0x69
++#define EFUSE_ACCESS_OFF	0x00
++
++/* ********************************************************
++ *			EFUSE for BT definition
++ * ******************************************************** */
++#define BANK_NUM			1
++#define EFUSE_BT_REAL_BANK_CONTENT_LEN	128
++#define EFUSE_BT_REAL_CONTENT_LEN	\
++	(EFUSE_BT_REAL_BANK_CONTENT_LEN * BANK_NUM)
++#define EFUSE_BT_MAP_LEN		1024	/* 1k bytes */
++#define EFUSE_BT_MAX_SECTION		(EFUSE_BT_MAP_LEN / 8)
++#define EFUSE_PROTECT_BYTES_BANK	16
++
++typedef enum tag_Package_Definition {
++	PACKAGE_DEFAULT,
++	PACKAGE_QFN68,
++	PACKAGE_TFBGA90,
++	PACKAGE_TFBGA80,
++	PACKAGE_TFBGA79
++} PACKAGE_TYPE_E;
++
++#define INCLUDE_MULTI_FUNC_BT(_Adapter) \
++	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_BT)
++#define INCLUDE_MULTI_FUNC_GPS(_Adapter) \
++	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_GPS)
++
++#ifdef CONFIG_FILE_FWIMG
++	extern char *rtw_fw_file_path;
++	extern char *rtw_fw_wow_file_path;
++	#ifdef CONFIG_MP_INCLUDED
++		extern char *rtw_fw_mp_bt_file_path;
++	#endif /* CONFIG_MP_INCLUDED */
++#endif /* CONFIG_FILE_FWIMG */
++
++/* rtl8723d_hal_init.c */
++s32 rtl8723d_FirmwareDownload(PADAPTER padapter, BOOLEAN  bUsedWoWLANFw);
++void rtl8723d_FirmwareSelfReset(PADAPTER padapter);
++void rtl8723d_InitializeFirmwareVars(PADAPTER padapter);
++
++void rtl8723d_InitAntenna_Selection(PADAPTER padapter);
++void rtl8723d_DeinitAntenna_Selection(PADAPTER padapter);
++void rtl8723d_CheckAntenna_Selection(PADAPTER padapter);
++void rtl8723d_init_default_value(PADAPTER padapter);
++
++s32 rtl8723d_InitLLTTable(PADAPTER padapter);
++
++s32 CardDisableHWSM(PADAPTER padapter, u8 resetMCU);
++s32 CardDisableWithoutHWSM(PADAPTER padapter);
++
++/* EFuse */
++u8 GetEEPROMSize8723D(PADAPTER padapter);
++void Hal_InitPGData(PADAPTER padapter, u8 *PROMContent);
++void Hal_EfuseParseIDCode(PADAPTER padapter, u8 *hwinfo);
++void Hal_EfuseParseTxPowerInfo_8723D(PADAPTER padapter,
++				     u8 *PROMContent, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseBTCoexistInfo_8723D(PADAPTER padapter,
++				       u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseEEPROMVer_8723D(PADAPTER padapter,
++				   u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParsePackageType_8723D(PADAPTER pAdapter,
++				     u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseChnlPlan_8723D(PADAPTER padapter,
++				  u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseCustomerID_8723D(PADAPTER padapter,
++				    u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseAntennaDiversity_8723D(PADAPTER padapter,
++		u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseXtal_8723D(PADAPTER pAdapter,
++			      u8 *hwinfo, u8 AutoLoadFail);
++void Hal_EfuseParseThermalMeter_8723D(PADAPTER padapter,
++				      u8 *hwinfo, u8 AutoLoadFail);
++VOID Hal_EfuseParseVoltage_8723D(PADAPTER pAdapter,
++				 u8 *hwinfo, BOOLEAN	AutoLoadFail);
++VOID Hal_EfuseParseBoardType_8723D(PADAPTER Adapter,
++				   u8	*PROMContent, BOOLEAN AutoloadFail);
++
++void rtl8723d_set_hal_ops(struct hal_ops *pHalFunc);
++void init_hal_spec_8723d(_adapter *adapter);
++void SetHwReg8723D(PADAPTER padapter, u8 variable, u8 *val);
++void GetHwReg8723D(PADAPTER padapter, u8 variable, u8 *val);
++u8 SetHalDefVar8723D(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++u8 GetHalDefVar8723D(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++
++/* register */
++void rtl8723d_InitBeaconParameters(PADAPTER padapter);
++void rtl8723d_InitBeaconMaxError(PADAPTER padapter, u8 InfraMode);
++void _InitBurstPktLen_8723DS(PADAPTER Adapter);
++void _InitLTECoex_8723DS(PADAPTER Adapter);
++void _InitMacAPLLSetting_8723D(PADAPTER Adapter);
++void _8051Reset8723(PADAPTER padapter);
++#ifdef CONFIG_WOWLAN
++	void Hal_DetectWoWMode(PADAPTER pAdapter);
++#endif /* CONFIG_WOWLAN */
++
++void rtl8723d_start_thread(_adapter *padapter);
++void rtl8723d_stop_thread(_adapter *padapter);
++
++#if defined(CONFIG_CHECK_BT_HANG) && defined(CONFIG_BT_COEXIST)
++	void rtl8723ds_init_checkbthang_workqueue(_adapter *adapter);
++	void rtl8723ds_free_checkbthang_workqueue(_adapter *adapter);
++	void rtl8723ds_cancle_checkbthang_workqueue(_adapter *adapter);
++	void rtl8723ds_hal_check_bt_hang(_adapter *adapter);
++#endif
++
++#ifdef CONFIG_GPIO_WAKEUP
++	void HalSetOutPutGPIO(PADAPTER padapter, u8 index, u8 OutPutValue);
++#endif
++#ifdef CONFIG_MP_INCLUDED
++int FirmwareDownloadBT(IN PADAPTER Adapter, PRT_MP_FIRMWARE pFirmware);
++#endif
++void CCX_FwC2HTxRpt_8723d(PADAPTER padapter, u8 *pdata, u8 len);
++
++u8 MRateToHwRate8723D(u8 rate);
++u8 HwRateToMRate8723D(u8 rate);
++
++void Hal_ReadRFGainOffset(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++
++#if defined(CONFIG_CHECK_BT_HANG) && defined(CONFIG_BT_COEXIST)
++	void check_bt_status_work(void *data);
++#endif
++
++#ifdef CONFIG_USB_HCI
++	void rtl8723d_cal_txdesc_chksum(struct tx_desc *ptxdesc);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	BOOLEAN	InterruptRecognized8723DE(PADAPTER Adapter);
++	VOID	UpdateInterruptMask8723DE(PADAPTER Adapter, u32 AddMSR, u32 AddMSR1, u32 RemoveMSR, u32 RemoveMSR1);
++	u16 get_txbufdesc_idx_hwaddr(u16 ff_hwaddr);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8723d_led.h b/drivers/net/wireless/rtl8723du/include/rtl8723d_led.h
+new file mode 100644
+index 0000000..439ee82
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8723d_led.h
+@@ -0,0 +1,48 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723D_LED_H__
++#define __RTL8723D_LED_H__
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++
++/* ********************************************************************************
++ * Interface to manipulate LED objects.
++ * ******************************************************************************** */
++#ifdef CONFIG_USB_HCI
++	void rtl8723du_InitSwLeds(PADAPTER padapter);
++	void rtl8723du_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_SDIO_HCI
++	void rtl8723ds_InitSwLeds(PADAPTER padapter);
++	void rtl8723ds_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_GSPI_HCI
++	void rtl8723ds_InitSwLeds(PADAPTER padapter);
++	void rtl8723ds_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_PCI_HCI
++	void rtl8723de_InitSwLeds(PADAPTER padapter);
++	void rtl8723de_DeInitSwLeds(PADAPTER padapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8723d_lps_poff.h b/drivers/net/wireless/rtl8723du/include/rtl8723d_lps_poff.h
+new file mode 100644
+index 0000000..c466d40
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8723d_lps_poff.h
+@@ -0,0 +1,61 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++/******************************************** CONST  ************************/
++#define NUM_OF_REGISTER_BANK	13
++#define NUM_OF_TOTAL_DWORD (NUM_OF_REGISTER_BANK * 64)
++#define TOTAL_LEN_FOR_HIOE ((NUM_OF_TOTAL_DWORD + 1) * 8)
++#define LPS_POFF_STATIC_FILE_LEN (TOTAL_LEN_FOR_HIOE + TXDESC_SIZE)
++#define LPS_POFF_DYNAMIC_FILE_LEN	(512 + TXDESC_SIZE)
++/******************************************** CONST  ************************/
++
++/******************************************** MACRO   ************************/
++/* HOIE Entry Definition */
++#define SET_HOIE_ENTRY_LOW_DATA(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE),	0, 16, __Value)
++#define SET_HOIE_ENTRY_HIGH_DATA(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE), 16, 16, __Value)
++#define SET_HOIE_ENTRY_MODE_SELECT(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE)+4, 0, 1, __Value)
++#define SET_HOIE_ENTRY_ADDRESS(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE)+4, 1, 14, __Value)
++#define SET_HOIE_ENTRY_BYTE_MASK(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE)+4, 15, 4, __Value)
++#define SET_HOIE_ENTRY_IO_LOCK(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE)+4, 19, 1, __Value)
++#define SET_HOIE_ENTRY_RD_EN(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE)+4, 20, 1, __Value)
++#define SET_HOIE_ENTRY_WR_EN(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE)+4, 21, 1, __Value)
++#define SET_HOIE_ENTRY_RAW_RW(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE)+4, 22, 1, __Value)
++#define SET_HOIE_ENTRY_RAW(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE)+4, 23, 1, __Value)
++#define SET_HOIE_ENTRY_IO_DELAY(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE)+4, 24, 8, __Value)
++
++/*********************Function Definition*******************************************/
++void rtl8723d_lps_poff_init(PADAPTER padapter);
++void rtl8723d_lps_poff_deinit(PADAPTER padapter);
++bool rtl8723d_lps_poff_get_txbndy_status(PADAPTER padapter);
++void rtl8723d_lps_poff_h2c_ctrl(PADAPTER padapter, u8 enable);
++void rtl8723d_lps_poff_set_ps_mode(PADAPTER padapter, bool bEnterLPS);
++bool rtl8723d_lps_poff_get_status(PADAPTER padapter);
++void rtl8723d_lps_poff_wow(PADAPTER padapter);
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8723d_recv.h b/drivers/net/wireless/rtl8723du/include/rtl8723d_recv.h
+new file mode 100644
+index 0000000..6343ec8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8723d_recv.h
+@@ -0,0 +1,120 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723D_RECV_H__
++#define __RTL8723D_RECV_H__
++
++#define RECV_BLK_SZ 512
++#define RECV_BLK_CNT 16
++#define RECV_BLK_TH RECV_BLK_CNT
++
++#if defined(CONFIG_USB_HCI)
++
++	#ifndef MAX_RECVBUF_SZ
++		#ifdef PLATFORM_OS_CE
++			#define MAX_RECVBUF_SZ (8192+1024) /* 8K+1k */
++		#else
++			#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++				/* #define MAX_RECVBUF_SZ (32768) */ /* 32k */
++				/* #define MAX_RECVBUF_SZ (16384) */ /* 16K */
++				/* #define MAX_RECVBUF_SZ (10240) */ /* 10K */
++				#ifdef CONFIG_PLATFORM_MSTAR
++					#define MAX_RECVBUF_SZ (8192) /* 8K */
++				#else
++					#define MAX_RECVBUF_SZ (15360) /* 15k < 16k */
++				#endif
++				/* #define MAX_RECVBUF_SZ (8192+1024) */ /* 8K+1k */
++			#else
++				#define MAX_RECVBUF_SZ (4000) /* about 4K */
++			#endif
++		#endif
++	#endif /* !MAX_RECVBUF_SZ */
++
++#elif defined(CONFIG_PCI_HCI)
++	/* #ifndef CONFIG_MINIMAL_MEMORY_USAGE */
++	/*	#define MAX_RECVBUF_SZ (9100) */
++	/* #else */
++	#define MAX_RECVBUF_SZ (4000) /* about 4K
++	* #endif */
++
++
++#elif defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++
++	#define MAX_RECVBUF_SZ (RX_DMA_BOUNDARY_8723D + 1)
++
++#endif
++
++/* Rx smooth factor */
++#define	Rx_Smooth_Factor (20)
++
++#ifdef CONFIG_SDIO_HCI
++	#ifndef CONFIG_SDIO_RX_COPY
++		#undef MAX_RECVBUF_SZ
++		#define MAX_RECVBUF_SZ	(RX_DMA_SIZE_8723D - RX_DMA_RESERVED_SIZE_8723D)
++	#endif /* !CONFIG_SDIO_RX_COPY */
++#endif /* CONFIG_SDIO_HCI */
++
++/*-----------------------------------------------------------------*/
++/*	RTL8723D RX BUFFER DESC                                      */
++/*-----------------------------------------------------------------*/
++/*DWORD 0*/
++#define SET_RX_BUFFER_DESC_DATA_LENGTH_8723D(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++#define SET_RX_BUFFER_DESC_LS_8723D(__pRxStatusDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 15, 1, __Value)
++#define SET_RX_BUFFER_DESC_FS_8723D(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 16, 1, __Value)
++#define SET_RX_BUFFER_DESC_TOTAL_LENGTH_8723D(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 16, 15, __Value)
++
++#define GET_RX_BUFFER_DESC_OWN_8723D(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 31, 1)
++#define GET_RX_BUFFER_DESC_LS_8723D(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++#define GET_RX_BUFFER_DESC_FS_8723D(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 1)
++#ifdef USING_RX_TAG
++	#define GET_RX_BUFFER_DESC_RX_TAG_8723D(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 13)
++#else
++	#define GET_RX_BUFFER_DESC_TOTAL_LENGTH_8723D(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 15)
++#endif
++
++/*DWORD 1*/
++#define SET_RX_BUFFER_PHYSICAL_LOW_8723D(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc+4, 0, 32, __Value)
++
++/*DWORD 2*/
++#ifdef CONFIG_64BIT_DMA
++	#define SET_RX_BUFFER_PHYSICAL_HIGH_8723D(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc+8, 0, 32, __Value)
++#else
++	#define SET_RX_BUFFER_PHYSICAL_HIGH_8723D(__pRxStatusDesc, __Value)
++#endif
++
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	s32 rtl8723ds_init_recv_priv(PADAPTER padapter);
++	void rtl8723ds_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_USB_HCI
++	int rtl8723du_init_recv_priv(_adapter *padapter);
++	void rtl8723du_free_recv_priv(_adapter *padapter);
++	void rtl8723du_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8723de_init_recv_priv(PADAPTER padapter);
++	void rtl8723de_free_recv_priv(PADAPTER padapter);
++#endif
++
++void rtl8723d_query_rx_desc_status(union recv_frame *precvframe, u8 *pdesc);
++
++#endif /* __RTL8723D_RECV_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8723d_rf.h b/drivers/net/wireless/rtl8723du/include/rtl8723d_rf.h
+new file mode 100644
+index 0000000..0aa5813
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8723d_rf.h
+@@ -0,0 +1,26 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723D_RF_H__
++#define __RTL8723D_RF_H__
++
++int PHY_RF6052_Config8723D(IN PADAPTER pdapter);
++
++void PHY_RF6052SetBandwidth8723D(IN PADAPTER Adapter, IN CHANNEL_WIDTH Bandwidth);
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8723d_spec.h b/drivers/net/wireless/rtl8723du/include/rtl8723d_spec.h
+new file mode 100644
+index 0000000..1d41056
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8723d_spec.h
+@@ -0,0 +1,457 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#ifndef __RTL8723D_SPEC_H__
++#define __RTL8723D_SPEC_H__
++
++#include <drv_conf.h>
++
++
++#define HAL_NAV_UPPER_UNIT_8723D		128		/* micro-second */
++
++/* -----------------------------------------------------
++ *
++ *	0x0000h ~ 0x00FFh	System Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_SYS_ISO_CTRL_8723D			0x0000	/* 2 Byte */
++#define REG_SYS_FUNC_EN_8723D			0x0002	/* 2 Byte */
++#define REG_APS_FSMCO_8723D			0x0004	/* 4 Byte */
++#define REG_SYS_CLKR_8723D				0x0008	/* 2 Byte */
++#define REG_9346CR_8723D				0x000A	/* 2 Byte */
++#define REG_EE_VPD_8723D				0x000C	/* 2 Byte */
++#define REG_AFE_MISC_8723D				0x0010	/* 1 Byte */
++#define REG_SPS0_CTRL_8723D				0x0011	/* 7 Byte */
++#define REG_SPS_OCP_CFG_8723D			0x0018	/* 4 Byte */
++#define REG_RSV_CTRL_8723D				0x001C	/* 3 Byte */
++#define REG_RF_CTRL_8723D				0x001F	/* 1 Byte */
++#define REG_LPLDO_CTRL_8723D			0x0023	/* 1 Byte */
++#define REG_AFE_XTAL_CTRL_8723D		0x0024	/* 4 Byte */
++#define REG_AFE_PLL_CTRL_8723D			0x0028	/* 4 Byte */
++#define REG_MAC_PLL_CTRL_EXT_8723D		0x002c	/* 4 Byte */
++#define REG_EFUSE_CTRL_8723D			0x0030
++#define REG_EFUSE_TEST_8723D			0x0034
++#define REG_PWR_DATA_8723D				0x0038
++#define REG_CAL_TIMER_8723D				0x003C
++#define REG_ACLK_MON_8723D				0x003E
++#define REG_GPIO_MUXCFG_8723D			0x0040
++#define REG_GPIO_IO_SEL_8723D			0x0042
++#define REG_MAC_PINMUX_CFG_8723D		0x0043
++#define REG_GPIO_PIN_CTRL_8723D			0x0044
++#define REG_GPIO_INTM_8723D				0x0048
++#define REG_LEDCFG0_8723D				0x004C
++#define REG_LEDCFG1_8723D				0x004D
++#define REG_LEDCFG2_8723D				0x004E
++#define REG_LEDCFG3_8723D				0x004F
++#define REG_FSIMR_8723D					0x0050
++#define REG_FSISR_8723D					0x0054
++#define REG_HSIMR_8723D					0x0058
++#define REG_HSISR_8723D					0x005c
++#define REG_GPIO_EXT_CTRL				0x0060
++#define REG_PAD_CTRL1_8723D		0x0064
++#define REG_MULTI_FUNC_CTRL_8723D		0x0068
++#define REG_GPIO_STATUS_8723D			0x006C
++#define REG_SDIO_CTRL_8723D				0x0070
++#define REG_OPT_CTRL_8723D				0x0074
++#define REG_AFE_CTRL_4_8723D		0x0078
++#define REG_MCUFWDL_8723D				0x0080
++#define REG_8051FW_CTRL_8723D			0x0080
++#define REG_HMEBOX_DBG_0_8723D	0x0088
++#define REG_HMEBOX_DBG_1_8723D	0x008A
++#define REG_HMEBOX_DBG_2_8723D	0x008C
++#define REG_HMEBOX_DBG_3_8723D	0x008E
++#define REG_WLLPS_CTRL		0x0090
++#define REG_HIMR0_8723D					0x00B0
++#define REG_HISR0_8723D					0x00B4
++#define REG_HIMR1_8723D					0x00B8
++#define REG_HISR1_8723D					0x00BC
++#define REG_PMC_DBG_CTRL2_8723D			0x00CC
++#define	REG_EFUSE_BURN_GNT_8723D		0x00CF
++#define REG_HPON_FSM_8723D				0x00EC
++#define REG_SYS_CFG_8723D				0x00FC
++#define REG_ROM_VERSION					0x00FD
++
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_C2HEVT_CMD_ID_8723D	0x01A0
++#define REG_C2HEVT_CMD_SEQ_88XX		0x01A1
++#define REG_C2hEVT_CMD_CONTENT_88XX	0x01A2
++#define REG_C2HEVT_CMD_LEN_8723D        0x01AE
++#define REG_C2HEVT_CLEAR_8723D			0x01AF
++#define REG_MCUTST_1_8723D				0x01C0
++#define REG_WOWLAN_WAKE_REASON 0x01C7
++#define REG_FMETHR_8723D				0x01C8
++#define REG_HMETFR_8723D				0x01CC
++#define REG_HMEBOX_0_8723D				0x01D0
++#define REG_HMEBOX_1_8723D				0x01D4
++#define REG_HMEBOX_2_8723D				0x01D8
++#define REG_HMEBOX_3_8723D				0x01DC
++#define REG_LLT_INIT_8723D				0x01E0
++#define REG_HMEBOX_EXT0_8723D			0x01F0
++#define REG_HMEBOX_EXT1_8723D			0x01F4
++#define REG_HMEBOX_EXT2_8723D			0x01F8
++#define REG_HMEBOX_EXT3_8723D			0x01FC
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RQPN_8723D					0x0200
++#define REG_FIFOPAGE_8723D				0x0204
++#define REG_DWBCN0_CTRL_8723D			REG_TDECTRL
++#define REG_TXDMA_OFFSET_CHK_8723D	0x020C
++#define REG_TXDMA_STATUS_8723D		0x0210
++#define REG_RQPN_NPQ_8723D			0x0214
++#define REG_DWBCN1_CTRL_8723D			0x0228
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RXDMA_AGG_PG_TH_8723D		0x0280
++#define REG_FW_UPD_RDPTR_8723D		0x0284 /* FW shall update this register before FW write RXPKT_RELEASE_POLL to 1 */
++#define REG_RXDMA_CONTROL_8723D		0x0286 /* Control the RX DMA. */
++#define REG_RXDMA_STATUS_8723D			0x0288
++#define REG_RXDMA_MODE_CTRL_8723D		0x0290
++#define REG_EARLY_MODE_CONTROL_8723D	0x02BC
++#define REG_RSVD5_8723D					0x02F0
++#define REG_RSVD6_8723D					0x02F4
++
++/* -----------------------------------------------------
++ *
++ *	0x0300h ~ 0x03FFh	PCIe
++ *
++ * ----------------------------------------------------- */
++#define	REG_PCIE_CTRL_REG_8723D			0x0300
++#define	REG_INT_MIG_8723D				0x0304	/* Interrupt Migration */
++#define	REG_BCNQ_TXBD_DESA_8723D		0x0308	/* TX Beacon Descriptor Address */
++#define	REG_MGQ_TXBD_DESA_8723D			0x0310	/* TX Manage Queue Descriptor Address */
++#define	REG_VOQ_TXBD_DESA_8723D			0x0318	/* TX VO Queue Descriptor Address */
++#define	REG_VIQ_TXBD_DESA_8723D			0x0320	/* TX VI Queue Descriptor Address */
++#define	REG_BEQ_TXBD_DESA_8723D			0x0328	/* TX BE Queue Descriptor Address */
++#define	REG_BKQ_TXBD_DESA_8723D			0x0330	/* TX BK Queue Descriptor Address */
++#define	REG_RXQ_RXBD_DESA_8723D			0x0338	/* RX Queue	Descriptor Address */
++#define REG_HI0Q_TXBD_DESA_8723D		0x0340
++#define REG_HI1Q_TXBD_DESA_8723D		0x0348
++#define REG_HI2Q_TXBD_DESA_8723D		0x0350
++#define REG_HI3Q_TXBD_DESA_8723D		0x0358
++#define REG_HI4Q_TXBD_DESA_8723D		0x0360
++#define REG_HI5Q_TXBD_DESA_8723D		0x0368
++#define REG_HI6Q_TXBD_DESA_8723D		0x0370
++#define REG_HI7Q_TXBD_DESA_8723D		0x0378
++#define	REG_MGQ_TXBD_NUM_8723D			0x0380
++#define	REG_RX_RXBD_NUM_8723D			0x0382
++#define	REG_VOQ_TXBD_NUM_8723D			0x0384
++#define	REG_VIQ_TXBD_NUM_8723D			0x0386
++#define	REG_BEQ_TXBD_NUM_8723D			0x0388
++#define	REG_BKQ_TXBD_NUM_8723D			0x038A
++#define	REG_HI0Q_TXBD_NUM_8723D			0x038C
++#define	REG_HI1Q_TXBD_NUM_8723D			0x038E
++#define	REG_HI2Q_TXBD_NUM_8723D			0x0390
++#define	REG_HI3Q_TXBD_NUM_8723D			0x0392
++#define	REG_HI4Q_TXBD_NUM_8723D			0x0394
++#define	REG_HI5Q_TXBD_NUM_8723D			0x0396
++#define	REG_HI6Q_TXBD_NUM_8723D			0x0398
++#define	REG_HI7Q_TXBD_NUM_8723D			0x039A
++#define	REG_TSFTIMER_HCI_8723D			0x039C
++#define	REG_BD_RW_PTR_CLR_8723D			0x039C
++
++/* Read Write Point */
++#define	REG_VOQ_TXBD_IDX_8723D			0x03A0
++#define	REG_VIQ_TXBD_IDX_8723D			0x03A4
++#define	REG_BEQ_TXBD_IDX_8723D			0x03A8
++#define	REG_BKQ_TXBD_IDX_8723D			0x03AC
++#define	REG_MGQ_TXBD_IDX_8723D			0x03B0
++#define	REG_RXQ_TXBD_IDX_8723D			0x03B4
++#define	REG_HI0Q_TXBD_IDX_8723D			0x03B8
++#define	REG_HI1Q_TXBD_IDX_8723D			0x03BC
++#define	REG_HI2Q_TXBD_IDX_8723D			0x03C0
++#define	REG_HI3Q_TXBD_IDX_8723D			0x03C4
++#define	REG_HI4Q_TXBD_IDX_8723D			0x03C8
++#define	REG_HI5Q_TXBD_IDX_8723D			0x03CC
++#define	REG_HI6Q_TXBD_IDX_8723D			0x03D0
++#define	REG_HI7Q_TXBD_IDX_8723D			0x03D4
++
++#define	REG_PCIE_HCPWM_8723DE			0x03D8 /* ?????? */
++#define	REG_PCIE_HRPWM_8723DE			0x03DC	/* PCIe RPWM  ?????? */
++#define	REG_DBI_WDATA_V1_8723D			0x03E8
++#define	REG_DBI_RDATA_V1_8723D			0x03EC
++#define	REG_DBI_FLAG_V1_8723D			0x03F0
++#define REG_MDIO_V1_8723D				0x03F4
++#define REG_PCIE_MIX_CFG_8723D			0x03F8
++#define REG_HCI_MIX_CFG_8723D			0x03FC
++
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_VOQ_INFORMATION_8723D		0x0400
++#define REG_VIQ_INFORMATION_8723D		0x0404
++#define REG_BEQ_INFORMATION_8723D		0x0408
++#define REG_BKQ_INFORMATION_8723D		0x040C
++#define REG_MGQ_INFORMATION_8723D		0x0410
++#define REG_HGQ_INFORMATION_8723D		0x0414
++#define REG_BCNQ_INFORMATION_8723D	0x0418
++#define REG_TXPKT_EMPTY_8723D			0x041A
++
++#define REG_FWHW_TXQ_CTRL_8723D		0x0420
++#define REG_HWSEQ_CTRL_8723D			0x0423
++#define REG_TXPKTBUF_BCNQ_BDNY_8723D	0x0424
++#define REG_TXPKTBUF_MGQ_BDNY_8723D	0x0425
++#define REG_LIFECTRL_CTRL_8723D			0x0426
++#define REG_MULTI_BCNQ_OFFSET_8723D	0x0427
++#define REG_SPEC_SIFS_8723D				0x0428
++#define REG_RL_8723D						0x042A
++#define REG_TXBF_CTRL_8723D				0x042C
++#define REG_DARFRC_8723D				0x0430
++#define REG_RARFRC_8723D				0x0438
++#define REG_RRSR_8723D					0x0440
++#define REG_ARFR0_8723D					0x0444
++#define REG_ARFR1_8723D					0x044C
++#define REG_CCK_CHECK_8723D				0x0454
++#define REG_AMPDU_MAX_TIME_8723D		0x0456
++#define REG_TXPKTBUF_BCNQ_BDNY1_8723D	0x0457
++
++#define REG_AMPDU_MAX_LENGTH_8723D	0x0458
++#define REG_TXPKTBUF_WMAC_LBK_BF_HD_8723D	0x045D
++#define REG_NDPA_OPT_CTRL_8723D		0x045F
++#define REG_FAST_EDCA_CTRL_8723D		0x0460
++#define REG_RD_RESP_PKT_TH_8723D		0x0463
++#define REG_DATA_SC_8723D				0x0483
++#ifdef CONFIG_WOWLAN
++	#define REG_TXPKTBUF_IV_LOW             0x0484
++	#define REG_TXPKTBUF_IV_HIGH            0x0488
++#endif
++#define REG_TXRPT_START_OFFSET		0x04AC
++#define REG_POWER_STAGE1_8723D		0x04B4
++#define REG_POWER_STAGE2_8723D		0x04B8
++#define REG_AMPDU_BURST_MODE_8723D	0x04BC
++#define REG_PKT_VO_VI_LIFE_TIME_8723D	0x04C0
++#define REG_PKT_BE_BK_LIFE_TIME_8723D	0x04C2
++#define REG_STBC_SETTING_8723D			0x04C4
++#define REG_HT_SINGLE_AMPDU_8723D		0x04C7
++#define REG_PROT_MODE_CTRL_8723D		0x04C8
++#define REG_MAX_AGGR_NUM_8723D		0x04CA
++#define REG_RTS_MAX_AGGR_NUM_8723D	0x04CB
++#define REG_BAR_MODE_CTRL_8723D		0x04CC
++#define REG_RA_TRY_RATE_AGG_LMT_8723D	0x04CF
++#define REG_MACID_PKT_DROP0_8723D		0x04D0
++#define REG_MACID_PKT_SLEEP_8723D		0x04D4
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_EDCA_VO_PARAM_8723D		0x0500
++#define REG_EDCA_VI_PARAM_8723D		0x0504
++#define REG_EDCA_BE_PARAM_8723D		0x0508
++#define REG_EDCA_BK_PARAM_8723D		0x050C
++#define REG_BCNTCFG_8723D				0x0510
++#define REG_PIFS_8723D					0x0512
++#define REG_RDG_PIFS_8723D				0x0513
++#define REG_SIFS_CTX_8723D				0x0514
++#define REG_SIFS_TRX_8723D				0x0516
++#define REG_AGGR_BREAK_TIME_8723D		0x051A
++#define REG_SLOT_8723D					0x051B
++#define REG_TX_PTCL_CTRL_8723D			0x0520
++#define REG_TXPAUSE_8723D				0x0522
++#define REG_DIS_TXREQ_CLR_8723D		0x0523
++#define REG_RD_CTRL_8723D				0x0524
++/*
++ * Format for offset 540h-542h:
++ *	[3:0]:   TBTT prohibit setup in unit of 32us. The time for HW getting beacon content before TBTT.
++ *	[7:4]:   Reserved.
++ *	[19:8]:  TBTT prohibit hold in unit of 32us. The time for HW holding to send the beacon packet.
++ *	[23:20]: Reserved
++ * Description:
++ *	              |
++ * |<--Setup--|--Hold------------>|
++ *	--------------|----------------------
++ * |
++ * TBTT
++ * Note: We cannot update beacon content to HW or send any AC packets during the time between Setup and Hold.
++ * Described by Designer Tim and Bruce, 2011-01-14.
++ *   */
++#define REG_TBTT_PROHIBIT_8723D			0x0540
++#define REG_RD_NAV_NXT_8723D			0x0544
++#define REG_NAV_PROT_LEN_8723D			0x0546
++#define REG_BCN_CTRL_8723D				0x0550
++#define REG_BCN_CTRL_1_8723D			0x0551
++#define REG_MBID_NUM_8723D				0x0552
++#define REG_DUAL_TSF_RST_8723D			0x0553
++#define REG_BCN_INTERVAL_8723D			0x0554
++#define REG_DRVERLYINT_8723D			0x0558
++#define REG_BCNDMATIM_8723D			0x0559
++#define REG_ATIMWND_8723D				0x055A
++#define REG_USTIME_TSF_8723D			0x055C
++#define REG_BCN_MAX_ERR_8723D			0x055D
++#define REG_RXTSF_OFFSET_CCK_8723D		0x055E
++#define REG_RXTSF_OFFSET_OFDM_8723D	0x055F
++#define REG_TSFTR_8723D					0x0560
++#define REG_CTWND_8723D					0x0572
++#define REG_SECONDARY_CCA_CTRL_8723D	0x0577
++#define REG_PSTIMER_8723D				0x0580
++#define REG_TIMER0_8723D				0x0584
++#define REG_TIMER1_8723D				0x0588
++#define REG_ACMHWCTRL_8723D			0x05C0
++#define REG_SCH_TXCMD_8723D			0x05F8
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_MAC_CR_8723D				0x0600
++#define REG_TCR_8723D					0x0604
++#define REG_RCR_8723D					0x0608
++#define REG_RX_PKT_LIMIT_8723D			0x060C
++#define REG_RX_DLK_TIME_8723D			0x060D
++#define REG_RX_DRVINFO_SZ_8723D		0x060F
++
++#define REG_MACID_8723D					0x0610
++#define REG_BSSID_8723D					0x0618
++#define REG_MAR_8723D					0x0620
++#define REG_MBIDCAMCFG_8723D			0x0628
++#define REG_WOWLAN_GTK_DBG1	0x630
++#define REG_WOWLAN_GTK_DBG2	0x634
++
++#define REG_USTIME_EDCA_8723D			0x0638
++#define REG_MAC_SPEC_SIFS_8723D		0x063A
++#define REG_RESP_SIFP_CCK_8723D			0x063C
++#define REG_RESP_SIFS_OFDM_8723D		0x063E
++#define REG_ACKTO_8723D					0x0640
++#define REG_CTS2TO_8723D				0x0641
++#define REG_EIFS_8723D					0x0642
++
++#define REG_NAV_UPPER_8723D			0x0652	/* unit of 128 */
++#define REG_TRXPTCL_CTL_8723D			0x0668
++
++/* Security */
++#define REG_CAMCMD_8723D				0x0670
++#define REG_CAMWRITE_8723D				0x0674
++#define REG_CAMREAD_8723D				0x0678
++#define REG_CAMDBG_8723D				0x067C
++#define REG_SECCFG_8723D				0x0680
++
++/* Power */
++#define REG_WOW_CTRL_8723D				0x0690
++#define REG_PS_RX_INFO_8723D			0x0692
++#define REG_UAPSD_TID_8723D				0x0693
++#define REG_WKFMCAM_CMD_8723D			0x0698
++#define REG_WKFMCAM_NUM_8723D			0x0698
++#define REG_WKFMCAM_RWD_8723D			0x069C
++#define REG_RXFLTMAP0_8723D				0x06A0
++#define REG_RXFLTMAP1_8723D				0x06A2
++#define REG_RXFLTMAP2_8723D				0x06A4
++#define REG_BCN_PSR_RPT_8723D			0x06A8
++#define REG_BT_COEX_TABLE_8723D		0x06C0
++#define REG_BFMER0_INFO_8723D			0x06E4
++#define REG_BFMER1_INFO_8723D			0x06EC
++#define REG_CSI_RPT_PARAM_BW20_8723D	0x06F4
++#define REG_CSI_RPT_PARAM_BW40_8723D	0x06F8
++#define REG_CSI_RPT_PARAM_BW80_8723D	0x06FC
++
++/* Hardware Port 2 */
++#define REG_MACID1_8723D				0x0700
++#define REG_BSSID1_8723D				0x0708
++#define REG_BFMEE_SEL_8723D				0x0714
++#define REG_SND_PTCL_CTRL_8723D		0x0718
++
++/* LTE_COEX */
++#define REG_LTECOEX_CTRL			0x07C0
++#define REG_LTECOEX_WRITE_DATA		0x07C4
++#define REG_LTECOEX_READ_DATA		0x07C8
++#define REG_LTECOEX_PATH_CONTROL	0x70
++
++/* ************************************************************
++ * SDIO Bus Specification
++ * ************************************************************ */
++
++/* -----------------------------------------------------
++ * SDIO CMD Address Mapping
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * I/O bus domain (Host)
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * SDIO register
++ * ----------------------------------------------------- */
++#define SDIO_REG_HCPWM1_8723D	0x025 /* HCI Current Power Mode 1 */
++
++
++/* ****************************************************************************
++ *	8723 Regsiter Bit and Content definition
++ * **************************************************************************** */
++
++#define BIT_USB_RXDMA_AGG_EN	BIT(31)
++#define RXDMA_AGG_MODE_EN		BIT(1)
++
++#ifdef CONFIG_WOWLAN
++	#define RXPKT_RELEASE_POLL		BIT(16)
++	#define RXDMA_IDLE				BIT(17)
++	#define RW_RELEASE_EN			BIT(18)
++#endif
++
++/* 2 HSISR
++ * interrupt mask which needs to clear */
++#define MASK_HSISR_CLEAR		(HSISR_GPIO12_0_INT |\
++		HSISR_SPS_OCP_INT |\
++		HSISR_RON_INT |\
++		HSISR_PDNINT |\
++		HSISR_GPIO9_INT)
++
++#ifdef CONFIG_RF_POWER_TRIM
++	#ifdef CONFIG_RTL8723D
++		#define EEPROM_RF_GAIN_OFFSET			0xC1
++	#endif
++
++	#define EEPROM_RF_GAIN_VAL				0x1F6
++#endif /*CONFIG_RF_POWER_TRIM*/
++
++#ifdef CONFIG_PCI_HCI
++	/* #define IMR_RX_MASK		(IMR_ROK_8723D|IMR_RDU_8723D|IMR_RXFOVW_8723D) */
++	#define IMR_TX_MASK			(IMR_VODOK_8723D | IMR_VIDOK_8723D | IMR_BEDOK_8723D | IMR_BKDOK_8723D | IMR_MGNTDOK_8723D | IMR_HIGHDOK_8723D)
++
++	#define RT_BCN_INT_MASKS	(IMR_BCNDMAINT0_8723D | IMR_TXBCN0OK_8723D | IMR_TXBCN0ERR_8723D | IMR_BCNDERR0_8723D)
++
++	#define RT_AC_INT_MASKS	(IMR_VIDOK_8723D | IMR_VODOK_8723D | IMR_BEDOK_8723D | IMR_BKDOK_8723D)
++#endif
++
++/* ********************************************************
++ * General definitions
++ * ******************************************************** */
++
++#define MACID_NUM_8723D 16
++#define SEC_CAM_ENT_NUM_8723D 32
++#define HW_PORT_NUM_8723D 3	/*port0, port1, port2*/
++#define NSS_NUM_8723D 1
++#define BAND_CAP_8723D (BAND_CAP_2G)
++#define BW_CAP_8723D (BW_CAP_20M | BW_CAP_40M)
++#define PROTO_CAP_8723D (PROTO_CAP_11B | PROTO_CAP_11G | PROTO_CAP_11N)
++
++#endif /* __RTL8723D_SPEC_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8723d_sreset.h b/drivers/net/wireless/rtl8723du/include/rtl8723d_sreset.h
+new file mode 100644
+index 0000000..aafe7c8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8723d_sreset.h
+@@ -0,0 +1,29 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8723D_SRESET_H_
++#define _RTL8723D_SRESET_H_
++
++#include <rtw_sreset.h>
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	extern void rtl8723d_sreset_xmit_status_check(_adapter *padapter);
++	extern void rtl8723d_sreset_linked_status_check(_adapter *padapter);
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8723d_xmit.h b/drivers/net/wireless/rtl8723du/include/rtl8723d_xmit.h
+new file mode 100644
+index 0000000..20f98b0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8723d_xmit.h
+@@ -0,0 +1,522 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723D_XMIT_H__
++#define __RTL8723D_XMIT_H__
++
++
++#define MAX_TID (15)
++
++
++#ifndef __INC_HAL8723DDESC_H
++#define __INC_HAL8723DDESC_H
++
++#define RX_STATUS_DESC_SIZE_8723D		24
++#define RX_DRV_INFO_SIZE_UNIT_8723D 8
++
++
++/* DWORD 0 */
++#define SET_RX_STATUS_DESC_PKT_LEN_8723D(__pRxStatusDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++#define SET_RX_STATUS_DESC_EOR_8723D(__pRxStatusDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 30, 1, __Value)
++#define SET_RX_STATUS_DESC_OWN_8723D(__pRxStatusDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 31, 1, __Value)
++
++#define GET_RX_STATUS_DESC_PKT_LEN_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 0, 14)
++#define GET_RX_STATUS_DESC_CRC32_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 14, 1)
++#define GET_RX_STATUS_DESC_ICV_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++#define GET_RX_STATUS_DESC_DRVINFO_SIZE_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 4)
++#define GET_RX_STATUS_DESC_SECURITY_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 20, 3)
++#define GET_RX_STATUS_DESC_QOS_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 23, 1)
++#define GET_RX_STATUS_DESC_SHIFT_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 24, 2)
++#define GET_RX_STATUS_DESC_PHY_STATUS_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 26, 1)
++#define GET_RX_STATUS_DESC_SWDEC_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 27, 1)
++#define GET_RX_STATUS_DESC_EOR_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 30, 1)
++#define GET_RX_STATUS_DESC_OWN_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 31, 1)
++
++/* DWORD 1 */
++#define GET_RX_STATUS_DESC_MACID_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 0, 7)
++#define GET_RX_STATUS_DESC_TID_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 8, 4)
++#define GET_RX_STATUS_DESC_AMSDU_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 13, 1)
++#define GET_RX_STATUS_DESC_RXID_MATCH_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 14, 1)
++#define GET_RX_STATUS_DESC_PAGGR_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 15, 1)
++#define GET_RX_STATUS_DESC_A1_FIT_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 16, 4)
++#define GET_RX_STATUS_DESC_CHKERR_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 20, 1)
++#define GET_RX_STATUS_DESC_IPVER_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 21, 1)
++#define GET_RX_STATUS_DESC_IS_TCPUDP__8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 22, 1)
++#define GET_RX_STATUS_DESC_CHK_VLD_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 23, 1)
++#define GET_RX_STATUS_DESC_PAM_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 24, 1)
++#define GET_RX_STATUS_DESC_PWR_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 25, 1)
++#define GET_RX_STATUS_DESC_MORE_DATA_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 26, 1)
++#define GET_RX_STATUS_DESC_MORE_FRAG_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 27, 1)
++#define GET_RX_STATUS_DESC_TYPE_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 28, 2)
++#define GET_RX_STATUS_DESC_MC_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 30, 1)
++#define GET_RX_STATUS_DESC_BC_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 31, 1)
++
++/* DWORD 2 */
++#define GET_RX_STATUS_DESC_SEQ_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 0, 12)
++#define GET_RX_STATUS_DESC_FRAG_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 12, 4)
++#define GET_RX_STATUS_DESC_RX_IS_QOS_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 16, 1)
++#define GET_RX_STATUS_DESC_WLANHD_IV_LEN_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 18, 6)
++#define GET_RX_STATUS_DESC_RPT_SEL_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 28, 1)
++#define GET_RX_STATUS_DESC_FCS_OK_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 31, 1)
++
++/* DWORD 3 */
++#define GET_RX_STATUS_DESC_RX_RATE_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 0, 7)
++#define GET_RX_STATUS_DESC_HTC_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 10, 1)
++#define GET_RX_STATUS_DESC_EOSP_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 11, 1)
++#define GET_RX_STATUS_DESC_BSSID_FIT_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 12, 2)
++#ifdef CONFIG_USB_RX_AGGREGATION
++#define GET_RX_STATUS_DESC_USB_AGG_PKTNUM_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 16, 8)
++#endif
++#define GET_RX_STATUS_DESC_PATTERN_MATCH_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+12, 29, 1)
++#define GET_RX_STATUS_DESC_UNICAST_MATCH_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+12, 30, 1)
++#define GET_RX_STATUS_DESC_MAGIC_MATCH_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+12, 31, 1)
++
++/* DWORD 6 */
++#define GET_RX_STATUS_DESC_MATCH_ID_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+16, 0, 7)
++
++/* DWORD 5 */
++#define GET_RX_STATUS_DESC_TSFL_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+20, 0, 32)
++
++#define GET_RX_STATUS_DESC_BUFF_ADDR_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+24, 0, 32)
++#define GET_RX_STATUS_DESC_BUFF_ADDR64_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+28, 0, 32)
++
++#define SET_RX_STATUS_DESC_BUFF_ADDR_8723D(__pRxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pRxDesc+24, 0, 32, __Value)
++
++
++/* Dword 0, rsvd: bit26, bit28 */
++#define GET_TX_DESC_OWN_8723D(__pTxDesc)\
++	LE_BITS_TO_4BYTE(__pTxDesc, 31, 1)
++
++#define SET_TX_DESC_PKT_SIZE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 16, __Value)
++#define SET_TX_DESC_OFFSET_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 8, __Value)
++#define SET_TX_DESC_BMC_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc, 24, 1, __Value)
++#define SET_TX_DESC_HTC_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc, 25, 1, __Value)
++#define SET_TX_DESC_AMSDU_PAD_EN_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc, 27, 1, __Value)
++#define SET_TX_DESC_NO_ACM_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc, 29, 1, __Value)
++#define SET_TX_DESC_GF_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc, 30, 1, __Value)
++
++/* Dword 1 */
++#define SET_TX_DESC_MACID_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 7, __Value)
++#define SET_TX_DESC_QUEUE_SEL_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 8, 5, __Value)
++#define SET_TX_DESC_RDG_NAV_EXT_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 13, 1, __Value)
++#define SET_TX_DESC_LSIG_TXOP_EN_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 14, 1, __Value)
++#define SET_TX_DESC_PIFS_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 15, 1, __Value)
++#define SET_TX_DESC_RATE_ID_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 16, 5, __Value)
++#define SET_TX_DESC_EN_DESC_ID_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 21, 1, __Value)
++#define SET_TX_DESC_SEC_TYPE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 22, 2, __Value)
++#define SET_TX_DESC_PKT_OFFSET_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 24, 5, __Value)
++#define SET_TX_DESC_MORE_DATA_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 29, 1, __Value)
++
++/* Dword 2  remove P_AID, G_ID field*/
++#define SET_TX_DESC_CCA_RTS_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 10, 2, __Value)
++#define SET_TX_DESC_AGG_ENABLE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 12, 1, __Value)
++#define SET_TX_DESC_RDG_ENABLE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 13, 1, __Value)
++#define SET_TX_DESC_NULL0_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 14, 1, __Value)
++#define SET_TX_DESC_NULL1_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 15, 1, __Value)
++#define SET_TX_DESC_BK_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 16, 1, __Value)
++#define SET_TX_DESC_MORE_FRAG_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 17, 1, __Value)
++#define SET_TX_DESC_RAW_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 18, 1, __Value)
++#define SET_TX_DESC_CCX_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 19, 1, __Value)
++#define SET_TX_DESC_AMPDU_DENSITY_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 20, 3, __Value)
++#define SET_TX_DESC_BT_INT_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 23, 1, __Value)
++#define SET_TX_DESC_FTM_EN_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 30, 1, __Value)
++
++/* Dword 3 */
++#define SET_TX_DESC_NAV_USE_HDR_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 5, 1, __Value)
++#define SET_TX_DESC_HWSEQ_SEL_8723D(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 6, 2, __Value)
++#define SET_TX_DESC_USE_RATE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 8, 1, __Value)
++#define SET_TX_DESC_DISABLE_RTS_FB_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 9, 1, __Value)
++#define SET_TX_DESC_DISABLE_FB_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 10, 1, __Value)
++#define SET_TX_DESC_CTS2SELF_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 11, 1, __Value)
++#define SET_TX_DESC_RTS_ENABLE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 12, 1, __Value)
++#define SET_TX_DESC_HW_RTS_ENABLE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 13, 1, __Value)
++#define SET_TX_DESC_PORT_ID_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 14, 2, __Value)
++#define SET_TX_DESC_USE_MAX_LEN_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 16, 1, __Value)
++#define SET_TX_DESC_MAX_AGG_NUM_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 17, 5, __Value)
++#define SET_TX_DESC_AMPDU_MAX_TIME_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 24, 8, __Value)
++
++/* Dword 4 */
++#define SET_TX_DESC_TX_RATE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 0, 7, __Value)
++#define SET_TX_DESC_TX_TRY_RATE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 7, 1, __Value)
++#define SET_TX_DESC_DATA_RATE_FB_LIMIT_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 8, 5, __Value)
++#define SET_TX_DESC_RTS_RATE_FB_LIMIT_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 13, 4, __Value)
++#define SET_TX_DESC_RETRY_LIMIT_ENABLE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 17, 1, __Value)
++#define SET_TX_DESC_DATA_RETRY_LIMIT_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 18, 6, __Value)
++#define SET_TX_DESC_RTS_RATE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 24, 5, __Value)
++#define SET_TX_DESC_PCTS_EN_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 29, 1, __Value)
++#define SET_TX_DESC_PCTS_MASK_IDX_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 30, 2, __Value)
++
++/* Dword 5 */
++#define SET_TX_DESC_DATA_SC_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 0, 4, __Value)
++#define SET_TX_DESC_DATA_SHORT_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 4, 1, __Value)
++#define SET_TX_DESC_DATA_BW_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 5, 2, __Value)
++#define SET_TX_DESC_DATA_STBC_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 8, 2, __Value)
++#define SET_TX_DESC_RTS_STBC_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 10, 2, __Value)
++#define SET_TX_DESC_RTS_SHORT_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 12, 1, __Value)
++#define SET_TX_DESC_RTS_SC_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 13, 4, __Value)
++#define SET_TX_DESC_PATH_A_EN_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 24, 1, __Value)
++#define SET_TX_DESC_TXPWR_OF_SET_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 28, 3, __Value)
++
++/* Dword 6 */
++#define SET_TX_DESC_SW_DEFINE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 0, 12, __Value)
++#define SET_TX_DESC_MBSSID_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 12, 4, __Value)
++#define SET_TX_DESC_RF_SEL_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 16, 3, __Value)
++
++/* Dword 7 */
++#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++#define SET_TX_DESC_TX_BUFFER_SIZE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#elif(DEV_BUS_TYPE == RT_USB_INTERFACE)
++#define SET_TX_DESC_TX_DESC_CHECKSUM_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#else
++#define SET_TX_DESC_TX_TIMESTAMP_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 6, 18, __Value)
++#endif
++
++#define SET_TX_DESC_USB_TXAGG_NUM_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 24, 8, __Value)
++
++/* Dword 8 */
++#define SET_TX_DESC_RTS_RC_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 0, 6, __Value)
++#define SET_TX_DESC_BAR_RC_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 6, 2, __Value)
++#define SET_TX_DESC_DATA_RC_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 8, 6, __Value)
++#define SET_TX_DESC_HWSEQ_EN_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 15, 1, __Value)
++#define SET_TX_DESC_NEXTHEADPAGE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 16, 8, __Value)
++#define SET_TX_DESC_TAILPAGE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 24, 8, __Value)
++
++/* Dword 9 */
++#define SET_TX_DESC_PADDING_LEN_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 0, 11, __Value)
++#define SET_TX_DESC_SEQ_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 12, 12, __Value)
++#define SET_TX_DESC_FINAL_DATA_RATE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 24, 8, __Value)
++
++
++#define SET_EARLYMODE_PKTNUM_8723D(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 0, 4, __Value)
++#define SET_EARLYMODE_LEN0_8723D(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 4, 15, __Value)
++#define SET_EARLYMODE_LEN1_1_8723D(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 19, 13, __Value)
++#define SET_EARLYMODE_LEN1_2_8723D(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 2, __Value)
++#define SET_EARLYMODE_LEN2_8723D(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 2, 15,	__Value)
++#define SET_EARLYMODE_LEN3_8723D(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 17, 15, __Value)
++
++
++/*-----------------------------------------------------------------*/
++/*	RTL8723D TX BUFFER DESC                                      */
++/*-----------------------------------------------------------------*/
++#ifdef CONFIG_64BIT_DMA
++	#define SET_TXBUFFER_DESC_LEN_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*16), 0, 16, __Valeu)
++	#define SET_TXBUFFER_DESC_AMSDU_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*16), 31, 1, __Valeu)
++	#define SET_TXBUFFER_DESC_ADD_LOW_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*16)+4, 0, 32, __Valeu)
++	#define SET_TXBUFFER_DESC_ADD_HIGT_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*16)+8, 0, 32, __Valeu)
++#else
++	#define SET_TXBUFFER_DESC_LEN_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*8), 0, 16, __Valeu)
++	#define SET_TXBUFFER_DESC_AMSDU_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*8), 31, 1, __Valeu)
++	#define SET_TXBUFFER_DESC_ADD_LOW_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*8)+4, 0, 32, __Valeu)
++	#define SET_TXBUFFER_DESC_ADD_HIGT_WITH_OFFSET(__pTxDesc, __Offset, __Valeu)	/* 64 BIT mode only */
++#endif
++/* ********************************************************* */
++
++/* 64 bits  -- 32 bits */
++/* =======     ======= */
++/* Dword 0     0 */
++#define SET_TX_BUFF_DESC_LEN_0_8723D(__pTxDesc, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 14, __Valeu)
++#define SET_TX_BUFF_DESC_PSB_8723D(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 15, __Value)
++#define SET_TX_BUFF_DESC_OWN_8723D(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 31, 1, __Value)
++
++/* Dword 1     1 */
++#define SET_TX_BUFF_DESC_ADDR_LOW_0_8723D(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 32, __Value)
++#define GET_TX_BUFF_DESC_ADDR_LOW_0_8723D(__pTxDesc) LE_BITS_TO_4BYTE(__pTxDesc+4, 0, 32)
++/* Dword 2     NA */
++#define SET_TX_BUFF_DESC_ADDR_HIGH_0_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_ADD_HIGT_WITH_OFFSET(__pTxDesc, 0, __Value)
++#ifdef CONFIG_64BIT_DMA
++	#define GET_TX_BUFF_DESC_ADDR_HIGH_0_8723D(__pTxDesc) LE_BITS_TO_4BYTE(__pTxDesc+8, 0, 32)
++#else
++	#define GET_TX_BUFF_DESC_ADDR_HIGH_0_8723D(__pTxDesc) 0
++#endif
++/* Dword 3     NA */
++/* RESERVED 0 */
++/* Dword 4     2 */
++#define SET_TX_BUFF_DESC_LEN_1_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_LEN_WITH_OFFSET(__pTxDesc, 1, __Value)
++#define SET_TX_BUFF_DESC_AMSDU_1_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_AMSDU_WITH_OFFSET(__pTxDesc, 1, __Value)
++/* Dword 5     3 */
++#define SET_TX_BUFF_DESC_ADDR_LOW_1_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_ADD_LOW_WITH_OFFSET(__pTxDesc, 1, __Value)
++/* Dword 6     NA */
++#define SET_TX_BUFF_DESC_ADDR_HIGH_1_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_ADD_HIGT_WITH_OFFSET(__pTxDesc, 1, __Value)
++/* Dword 7     NA */
++/*RESERVED 0 */
++/* Dword 8     4 */
++#define SET_TX_BUFF_DESC_LEN_2_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_LEN_WITH_OFFSET(__pTxDesc, 2, __Value)
++#define SET_TX_BUFF_DESC_AMSDU_2_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_AMSDU_WITH_OFFSET(__pTxDesc, 2, __Value)
++/* Dword 9     5 */
++#define SET_TX_BUFF_DESC_ADDR_LOW_2_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_ADD_LOW_WITH_OFFSET(__pTxDesc, 2, __Value)
++/* Dword 10    NA */
++#define SET_TX_BUFF_DESC_ADDR_HIGH_2_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_ADD_HIGT_WITH_OFFSET(__pTxDesc, 2, __Value)
++/* Dword 11    NA */
++/*RESERVED 0 */
++/* Dword 12    6 */
++#define SET_TX_BUFF_DESC_LEN_3_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_LEN_WITH_OFFSET(__pTxDesc, 3, __Value)
++#define SET_TX_BUFF_DESC_AMSDU_3_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_AMSDU_WITH_OFFSET(__pTxDesc, 3, __Value)
++/* Dword 13    7 */
++#define SET_TX_BUFF_DESC_ADDR_LOW_3_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_ADD_LOW_WITH_OFFSET(__pTxDesc, 3, __Value)
++/* Dword 14    NA */
++#define SET_TX_BUFF_DESC_ADDR_HIGH_3_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_ADD_HIGT_WITH_OFFSET(__pTxDesc, 3, __Value)
++/* Dword 15    NA */
++/*RESERVED 0 */
++
++
++#endif
++/* -----------------------------------------------------------
++ *
++ *	Rate
++ *
++ * -----------------------------------------------------------
++ * CCK Rates, TxHT = 0 */
++#define DESC8723D_RATE1M				0x00
++#define DESC8723D_RATE2M				0x01
++#define DESC8723D_RATE5_5M				0x02
++#define DESC8723D_RATE11M				0x03
++
++/* OFDM Rates, TxHT = 0 */
++#define DESC8723D_RATE6M				0x04
++#define DESC8723D_RATE9M				0x05
++#define DESC8723D_RATE12M				0x06
++#define DESC8723D_RATE18M				0x07
++#define DESC8723D_RATE24M				0x08
++#define DESC8723D_RATE36M				0x09
++#define DESC8723D_RATE48M				0x0a
++#define DESC8723D_RATE54M				0x0b
++
++/* MCS Rates, TxHT = 1 */
++#define DESC8723D_RATEMCS0				0x0c
++#define DESC8723D_RATEMCS1				0x0d
++#define DESC8723D_RATEMCS2				0x0e
++#define DESC8723D_RATEMCS3				0x0f
++#define DESC8723D_RATEMCS4				0x10
++#define DESC8723D_RATEMCS5				0x11
++#define DESC8723D_RATEMCS6				0x12
++#define DESC8723D_RATEMCS7				0x13
++#define DESC8723D_RATEMCS8				0x14
++#define DESC8723D_RATEMCS9				0x15
++#define DESC8723D_RATEMCS10		0x16
++#define DESC8723D_RATEMCS11		0x17
++#define DESC8723D_RATEMCS12		0x18
++#define DESC8723D_RATEMCS13		0x19
++#define DESC8723D_RATEMCS14		0x1a
++#define DESC8723D_RATEMCS15		0x1b
++#define DESC8723D_RATEVHTSS1MCS0		0x2c
++#define DESC8723D_RATEVHTSS1MCS1		0x2d
++#define DESC8723D_RATEVHTSS1MCS2		0x2e
++#define DESC8723D_RATEVHTSS1MCS3		0x2f
++#define DESC8723D_RATEVHTSS1MCS4		0x30
++#define DESC8723D_RATEVHTSS1MCS5		0x31
++#define DESC8723D_RATEVHTSS1MCS6		0x32
++#define DESC8723D_RATEVHTSS1MCS7		0x33
++#define DESC8723D_RATEVHTSS1MCS8		0x34
++#define DESC8723D_RATEVHTSS1MCS9		0x35
++#define DESC8723D_RATEVHTSS2MCS0		0x36
++#define DESC8723D_RATEVHTSS2MCS1		0x37
++#define DESC8723D_RATEVHTSS2MCS2		0x38
++#define DESC8723D_RATEVHTSS2MCS3		0x39
++#define DESC8723D_RATEVHTSS2MCS4		0x3a
++#define DESC8723D_RATEVHTSS2MCS5		0x3b
++#define DESC8723D_RATEVHTSS2MCS6		0x3c
++#define DESC8723D_RATEVHTSS2MCS7		0x3d
++#define DESC8723D_RATEVHTSS2MCS8		0x3e
++#define DESC8723D_RATEVHTSS2MCS9		0x3f
++
++
++#define	RX_HAL_IS_CCK_RATE_8723D(pDesc)\
++	(GET_RX_STATUS_DESC_RX_RATE_8723D(pDesc) == DESC8723D_RATE1M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8723D(pDesc) == DESC8723D_RATE2M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8723D(pDesc) == DESC8723D_RATE5_5M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8723D(pDesc) == DESC8723D_RATE11M)
++
++#ifdef CONFIG_TRX_BD_ARCH
++	struct tx_desc;
++#endif
++
++void rtl8723d_cal_txdesc_chksum(struct tx_desc *ptxdesc);
++void rtl8723d_update_txdesc(struct xmit_frame *pxmitframe, u8 *pmem);
++void rtl8723d_fill_txdesc_sectype(struct pkt_attrib *pattrib, struct tx_desc *ptxdesc);
++void rtl8723d_fill_txdesc_vcs(PADAPTER padapter, struct pkt_attrib *pattrib, struct tx_desc *ptxdesc);
++void rtl8723d_fill_txdesc_phy(PADAPTER padapter, struct pkt_attrib *pattrib, struct tx_desc *ptxdesc);
++void rtl8723d_fill_fake_txdesc(PADAPTER padapter, u8 *pDesc, u32 BufferLen, u8 IsPsPoll, u8 IsBTQosNull, u8 bDataFrame);
++
++#if defined(CONFIG_CONCURRENT_MODE)
++	void fill_txdesc_force_bmc_camid(struct pkt_attrib *pattrib, u8 *ptxdesc);
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	s32 rtl8723ds_init_xmit_priv(PADAPTER padapter);
++	void rtl8723ds_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8723ds_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8723ds_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8723ds_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8723ds_xmit_buf_handler(PADAPTER padapter);
++	thread_return rtl8723ds_xmit_thread(thread_context context);
++	#define hal_xmit_handler rtl8723ds_xmit_buf_handler
++#endif
++
++#ifdef CONFIG_USB_HCI
++	s32 rtl8723du_xmit_buf_handler(PADAPTER padapter);
++	#define hal_xmit_handler rtl8723du_xmit_buf_handler
++	s32 rtl8723du_init_xmit_priv(PADAPTER padapter);
++	void rtl8723du_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8723du_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8723du_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	 rtl8723du_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	void rtl8723du_xmit_tasklet(void *priv);
++	s32 rtl8723du_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++	void _dbg_dump_tx_info(_adapter	*padapter, int frame_tag, struct tx_desc *ptxdesc);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8723de_init_xmit_priv(PADAPTER padapter);
++	void rtl8723de_free_xmit_priv(PADAPTER padapter);
++	struct xmit_buf *rtl8723de_dequeue_xmitbuf(struct rtw_tx_ring *ring);
++	void	rtl8723de_xmitframe_resume(_adapter *padapter);
++	s32 rtl8723de_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8723de_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8723de_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	void rtl8723de_xmit_tasklet(void *priv);
++#endif
++
++u8	BWMapping_8723D(PADAPTER Adapter, struct pkt_attrib *pattrib);
++u8	SCMapping_8723D(PADAPTER Adapter, struct pkt_attrib	*pattrib);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8812a_cmd.h b/drivers/net/wireless/rtl8723du/include/rtl8812a_cmd.h
+new file mode 100644
+index 0000000..fc09d16
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8812a_cmd.h
+@@ -0,0 +1,172 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8812A_CMD_H__
++#define __RTL8812A_CMD_H__
++
++typedef enum _RTL8812_H2C_CMD {
++	H2C_8812_RSVDPAGE = 0,
++	H2C_8812_MSRRPT = 1,
++	H2C_8812_SCAN = 2,
++	H2C_8812_KEEP_ALIVE_CTRL = 3,
++	H2C_8812_DISCONNECT_DECISION = 4,
++
++	H2C_8812_INIT_OFFLOAD = 6,
++	H2C_8812_AP_OFFLOAD = 8,
++	H2C_8812_BCN_RSVDPAGE = 9,
++	H2C_8812_PROBERSP_RSVDPAGE = 10,
++
++	H2C_8812_SETPWRMODE = 0x20,
++	H2C_8812_PS_TUNING_PARA = 0x21,
++	H2C_8812_PS_TUNING_PARA2 = 0x22,
++	H2C_8812_PS_LPS_PARA = 0x23,
++	H2C_8812_P2P_PS_OFFLOAD = 0x24,
++	H2C_8812_INACTIVE_PS = 0x27,
++	H2C_8812_RA_MASK = 0x40,
++	H2C_8812_TxBF = 0x41,
++	H2C_8812_RSSI_REPORT = 0x42,
++	H2C_8812_IQ_CALIBRATION = 0x45,
++	H2C_8812_RA_PARA_ADJUST = 0x46,
++
++	H2C_8812_BT_FW_PATCH = 0x6a,
++
++	H2C_8812_WO_WLAN = 0x80,
++	H2C_8812_REMOTE_WAKE_CTRL = 0x81,
++	H2C_8812_AOAC_GLOBAL_INFO = 0x82,
++	H2C_8812_AOAC_RSVDPAGE = 0x83,
++	H2C_8812_FW_SWCHANNL = 0x87,
++
++	H2C_8812_TSF_RESET = 0xC0,
++
++	MAX_8812_H2CCMD
++} RTL8812_H2C_CMD;
++
++struct cmd_msg_parm {
++	u8 eid; /* element id */
++	u8 sz; /* sz */
++	u8 buf[6];
++};
++
++enum {
++	PWRS
++};
++
++struct H2C_SS_RFOFF_PARAM {
++	u8 ROFOn; /* 1: on, 0:off */
++	u16 gpio_period; /* unit: 1024 us */
++} __attribute__((packed));
++
++
++
++/* _RSVDPAGE_LOC_CMD0 */
++#define SET_8812_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8812_H2CCMD_RSVDPAGE_LOC_PSPOLL(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_8812_H2CCMD_RSVDPAGE_LOC_NULL_DATA(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8812_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8812_H2CCMD_RSVDPAGE_LOC_BT_QOS_NULL_DATA(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++
++/* _SETPWRMODE_PARM */
++#define SET_8812_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8812_H2CCMD_PWRMODE_PARM_RLBM(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 4, __Value)
++#define SET_8812_H2CCMD_PWRMODE_PARM_SMART_PS(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 4, 4, __Value)
++#define SET_8812_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8812_H2CCMD_PWRMODE_PARM_ALL_QUEUE_UAPSD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8812_H2CCMD_PWRMODE_PARM_BCN_EARLY_C2H_RPT(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 2, 1, __Value)
++#define SET_8812_H2CCMD_PWRMODE_PARM_PWR_STATE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8812_H2CCMD_PWRMODE_PARM_BYTE5(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++#define GET_8812_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd)							LE_BITS_TO_1BYTE(__pH2CCmd, 0, 8)
++
++/* _P2P_PS_OFFLOAD */
++#define SET_8812_H2CCMD_P2P_PS_OFFLOAD_ENABLE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8812_H2CCMD_P2P_PS_OFFLOAD_ROLE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8812_H2CCMD_P2P_PS_OFFLOAD_CTWINDOW_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_8812_H2CCMD_P2P_PS_OFFLOAD_NOA0_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 3, 1, __Value)
++#define SET_8812_H2CCMD_P2P_PS_OFFLOAD_NOA1_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 1, __Value)
++#define SET_8812_H2CCMD_P2P_PS_OFFLOAD_ALLSTASLEEP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 5, 1, __Value)
++#define SET_8812_H2CCMD_P2P_PS_OFFLOAD_DISCOVERY(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 6, 1, __Value)
++
++
++void	Set_RA_LDPC_8812(struct sta_info	*psta, BOOLEAN bLDPC);
++
++/* host message to firmware cmd */
++s32 FillH2CCmd_8812(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++void rtl8812_set_FwPwrMode_cmd(PADAPTER padapter, u8 PSMode);
++void rtl8812_set_FwJoinBssReport_cmd(PADAPTER padapter, u8 mstatus);
++u8 rtl8812_set_rssi_cmd(PADAPTER padapter, u8 *param);
++void rtl8812_set_raid_cmd(PADAPTER padapter, u32 bitmap, u8 *arg, u8 bw);
++void rtl8812_set_wowlan_cmd(_adapter *padapter, u8 enable);
++s32 FillH2CCmd_8812(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++u8 GetTxBufferRsvdPageNum8812(_adapter *padapter, bool wowlan);
++
++#ifdef CONFIG_BT_COEXIST
++void rtl8812a_download_BTCoex_AP_mode_rsvd_page(PADAPTER padapter);
++#endif /* CONFIG_BT_COEXIST */
++#ifdef CONFIG_P2P_PS
++void rtl8812_set_p2p_ps_offload_cmd(PADAPTER padapter, u8 p2p_ps_state);
++#endif /* CONFIG_P2P */
++
++#ifdef CONFIG_FWLPS_IN_IPS
++void rtl8812_set_FwPwrModeInIPS_cmd(PADAPTER padapter, u8 cmd_param);
++#endif
++
++void CheckFwRsvdPageContent(PADAPTER padapter);
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++void rtl8812_set_BcnEarly_C2H_Rpt_cmd(PADAPTER padapter, u8 enable);
++#endif
++#endif
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++int reset_tsf(PADAPTER Adapter, u8 reset_port);
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++
++/* ------------------------------------
++ * C2H format
++ * ------------------------------------ */
++
++/* TX Beamforming */
++#define GET_8812_C2H_TXBF_ORIGINATE(_Header)			LE_BITS_TO_1BYTE(_Header, 0, 8)
++#define GET_8812_C2H_TXBF_MACID(_Header)				LE_BITS_TO_1BYTE((_Header + 1), 0, 8)
++
++
++
++/* / TX Feedback Content */
++#define	USEC_UNIT_FOR_8812_C2H_TX_RPT_QUEUE_TIME			256
++
++#define	GET_8812_C2H_TX_RPT_QUEUE_SELECT(_Header)			LE_BITS_TO_1BYTE((_Header + 0), 0, 5)
++#define	GET_8812_C2H_TX_RPT_PKT_BROCAST(_Header)			LE_BITS_TO_1BYTE((_Header + 0), 5, 1)
++#define	GET_8812_C2H_TX_RPT_LIFE_TIME_OVER(_Header)			LE_BITS_TO_1BYTE((_Header + 0), 6, 1)
++#define	GET_8812_C2H_TX_RPT_RETRY_OVER(_Header)				LE_BITS_TO_1BYTE((_Header + 0), 7, 1)
++#define	GET_8812_C2H_TX_RPT_MAC_ID(_Header)					LE_BITS_TO_1BYTE((_Header + 1), 0, 8)
++#define	GET_8812_C2H_TX_RPT_DATA_RETRY_CNT(_Header)		LE_BITS_TO_1BYTE((_Header + 2), 0, 6)
++#define	GET_8812_C2H_TX_RPT_QUEUE_TIME(_Header)				LE_BITS_TO_2BYTE((_Header + 3), 0, 16)	/* In unit of 256 microseconds. */
++#define	GET_8812_C2H_TX_RPT_FINAL_DATA_RATE(_Header)		LE_BITS_TO_1BYTE((_Header + 5), 0, 8)
++
++/* BT_FW_PATCH */
++#define SET_8812_H2CCMD_BT_FW_PATCH_SIZE(__pH2CCmd, __Value)					SET_BITS_TO_LE_2BYTE((pu1Byte)(__pH2CCmd), 0, 16, __Value)
++#define SET_8812_H2CCMD_BT_FW_PATCH_ADDR0(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((pu1Byte)(__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8812_H2CCMD_BT_FW_PATCH_ADDR1(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((pu1Byte)(__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8812_H2CCMD_BT_FW_PATCH_ADDR2(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((pu1Byte)(__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8812_H2CCMD_BT_FW_PATCH_ADDR3(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((pu1Byte)(__pH2CCmd)+5, 0, 8, __Value)
++
++s32 c2h_handler_8812a(_adapter *adapter, u8 id, u8 seq, u8 plen, u8 *payload);
++
++#endif/* __RTL8812A_CMD_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8812a_dm.h b/drivers/net/wireless/rtl8723du/include/rtl8812a_dm.h
+new file mode 100644
+index 0000000..fef5824
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8812a_dm.h
+@@ -0,0 +1,32 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8812A_DM_H__
++#define __RTL8812A_DM_H__
++
++void rtl8812_init_dm_priv(IN PADAPTER Adapter);
++void rtl8812_deinit_dm_priv(IN PADAPTER Adapter);
++void rtl8812_InitHalDm(IN PADAPTER Adapter);
++void rtl8812_HalDmWatchDog(IN PADAPTER Adapter);
++
++/* VOID rtl8192c_dm_CheckTXPowerTracking(IN PADAPTER Adapter); */
++
++/* void rtl8192c_dm_RF_Saving(IN PADAPTER pAdapter, IN u8 bForceInNormal); */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8812a_hal.h b/drivers/net/wireless/rtl8723du/include/rtl8812a_hal.h
+new file mode 100644
+index 0000000..4b46ea8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8812a_hal.h
+@@ -0,0 +1,348 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8812A_HAL_H__
++#define __RTL8812A_HAL_H__
++
++/* #include "hal_com.h" */
++#include "hal_data.h"
++
++/* include HAL Related header after HAL Related compiling flags */
++#include "rtl8812a_spec.h"
++#include "rtl8812a_rf.h"
++#include "rtl8812a_dm.h"
++#include "rtl8812a_recv.h"
++#include "rtl8812a_xmit.h"
++#include "rtl8812a_cmd.h"
++#include "rtl8812a_led.h"
++#include "Hal8812PwrSeq.h"
++#include "Hal8821APwrSeq.h" /* for 8821A/8811A */
++#include "Hal8812PhyReg.h"
++#include "Hal8812PhyCfg.h"
++#ifdef DBG_CONFIG_ERROR_DETECT
++#include "rtl8812a_sreset.h"
++#endif
++
++/* ---------------------------------------------------------------------
++ *		RTL8812 Power Configuration CMDs for PCIe interface
++ * --------------------------------------------------------------------- */
++#define Rtl8812_NIC_PWR_ON_FLOW				rtl8812_power_on_flow
++#define Rtl8812_NIC_RF_OFF_FLOW				rtl8812_radio_off_flow
++#define Rtl8812_NIC_DISABLE_FLOW				rtl8812_card_disable_flow
++#define Rtl8812_NIC_ENABLE_FLOW				rtl8812_card_enable_flow
++#define Rtl8812_NIC_SUSPEND_FLOW				rtl8812_suspend_flow
++#define Rtl8812_NIC_RESUME_FLOW				rtl8812_resume_flow
++#define Rtl8812_NIC_PDN_FLOW					rtl8812_hwpdn_flow
++#define Rtl8812_NIC_LPS_ENTER_FLOW			rtl8812_enter_lps_flow
++#define Rtl8812_NIC_LPS_LEAVE_FLOW				rtl8812_leave_lps_flow
++
++/* ---------------------------------------------------------------------
++ *		RTL8821 Power Configuration CMDs for PCIe interface
++ * --------------------------------------------------------------------- */
++#define Rtl8821A_NIC_PWR_ON_FLOW				rtl8821A_power_on_flow
++#define Rtl8821A_NIC_RF_OFF_FLOW				rtl8821A_radio_off_flow
++#define Rtl8821A_NIC_DISABLE_FLOW				rtl8821A_card_disable_flow
++#define Rtl8821A_NIC_ENABLE_FLOW				rtl8821A_card_enable_flow
++#define Rtl8821A_NIC_SUSPEND_FLOW				rtl8821A_suspend_flow
++#define Rtl8821A_NIC_RESUME_FLOW				rtl8821A_resume_flow
++#define Rtl8821A_NIC_PDN_FLOW					rtl8821A_hwpdn_flow
++#define Rtl8821A_NIC_LPS_ENTER_FLOW			rtl8821A_enter_lps_flow
++#define Rtl8821A_NIC_LPS_LEAVE_FLOW			rtl8821A_leave_lps_flow
++
++
++#if 1 /* download firmware related data structure */
++#define FW_SIZE_8812			0x8000 /* Compatible with RTL8723 Maximal RAM code size 24K.   modified to 32k, TO compatible with 92d maximal fw size 32k */
++#define FW_START_ADDRESS		0x1000
++#define FW_END_ADDRESS		0x5FFF
++
++
++
++typedef struct _RT_FIRMWARE_8812 {
++	FIRMWARE_SOURCE	eFWSource;
++#ifdef CONFIG_EMBEDDED_FWIMG
++	u8			*szFwBuffer;
++#else
++	u8			szFwBuffer[FW_SIZE_8812];
++#endif
++	u32			ulFwLength;
++} RT_FIRMWARE_8812, *PRT_FIRMWARE_8812;
++
++/*
++ * This structure must be cared byte-ordering
++ *
++ * Added by tynli. 2009.12.04. */
++#define IS_FW_HEADER_EXIST_8812(_pFwHdr)	((GET_FIRMWARE_HDR_SIGNATURE_8812(_pFwHdr) & 0xFFF0) == 0x9500)
++
++#define IS_FW_HEADER_EXIST_8821(_pFwHdr)	((GET_FIRMWARE_HDR_SIGNATURE_8812(_pFwHdr) & 0xFFF0) == 0x2100)
++/* *****************************************************
++ *					Firmware Header(8-byte alinment required)
++ * *****************************************************
++ * --- LONG WORD 0 ---- */
++#define GET_FIRMWARE_HDR_SIGNATURE_8812(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr, 0, 16) /* 92C0: test chip; 92C, 88C0: test chip; 88C1: MP A-cut; 92C1: MP A-cut */
++#define GET_FIRMWARE_HDR_CATEGORY_8812(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr, 16, 8) /* AP/NIC and USB/PCI */
++#define GET_FIRMWARE_HDR_FUNCTION_8812(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr, 24, 8) /* Reserved for different FW function indcation, for further use when driver needs to download different FW in different conditions */
++#define GET_FIRMWARE_HDR_VERSION_8812(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr+4, 0, 16)/* FW Version */
++#define GET_FIRMWARE_HDR_SUB_VER_8812(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr+4, 16, 8) /* FW Subversion, default 0x00 */
++#define GET_FIRMWARE_HDR_RSVD1_8812(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+4, 24, 8)
++
++/* --- LONG WORD 1 ---- */
++#define GET_FIRMWARE_HDR_MONTH_8812(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+8, 0, 8) /* Release time Month field */
++#define GET_FIRMWARE_HDR_DATE_8812(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+8, 8, 8) /* Release time Date field */
++#define GET_FIRMWARE_HDR_HOUR_8812(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+8, 16, 8)/* Release time Hour field */
++#define GET_FIRMWARE_HDR_MINUTE_8812(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr+8, 24, 8)/* Release time Minute field */
++#define GET_FIRMWARE_HDR_ROMCODE_SIZE_8812(__FwHdr)	LE_BITS_TO_4BYTE(__FwHdr+12, 0, 16)/* The size of RAM code */
++#define GET_FIRMWARE_HDR_RSVD2_8812(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+12, 16, 16)
++
++/* --- LONG WORD 2 ---- */
++#define GET_FIRMWARE_HDR_SVN_IDX_8812(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr+16, 0, 32)/* The SVN entry index */
++#define GET_FIRMWARE_HDR_RSVD3_8812(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+20, 0, 32)
++
++/* --- LONG WORD 3 ---- */
++#define GET_FIRMWARE_HDR_RSVD4_8812(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+24, 0, 32)
++#define GET_FIRMWARE_HDR_RSVD5_8812(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+28, 0, 32)
++
++#endif /* download firmware related data structure */
++
++
++#define DRIVER_EARLY_INT_TIME_8812		0x05
++#define BCN_DMA_ATIME_INT_TIME_8812		0x02
++
++/* for 8812
++ * TX 128K, RX 16K, Page size 512B for TX, 128B for RX */
++#define MAX_RX_DMA_BUFFER_SIZE_8812	0x3E80 /* RX 16K */
++
++#ifdef CONFIG_WOWLAN
++	#define RESV_FMWF	(WKFMCAM_SIZE * MAX_WKFM_NUM) /* 16 entries, for each is 24 bytes*/
++#else
++	#define RESV_FMWF	0
++#endif
++
++#ifdef CONFIG_FW_C2H_DEBUG
++	#define RX_DMA_RESERVED_SIZE_8812	0x100	/* 256B, reserved for c2h debug message */
++#else
++	#define RX_DMA_RESERVED_SIZE_8812	0x0	/* 0B */
++#endif
++#define RX_DMA_BOUNDARY_8812		(MAX_RX_DMA_BUFFER_SIZE_8812 - RX_DMA_RESERVED_SIZE_8812 - 1)
++
++#define BCNQ_PAGE_NUM_8812		0x07
++
++/* For WoWLan , more reserved page
++ * ARP Rsp:1, RWC:1, GTK Info:1,GTK RSP:1,GTK EXT MEM:1, PNO: 6 */
++#ifdef CONFIG_WOWLAN
++	#define WOWLAN_PAGE_NUM_8812	0x05
++#else
++	#define WOWLAN_PAGE_NUM_8812	0x00
++#endif
++
++
++#ifdef CONFIG_BEAMFORMER_FW_NDPA
++	#define FW_NDPA_PAGE_NUM	0x02
++#else
++	#define FW_NDPA_PAGE_NUM	0x00
++#endif
++
++#define TX_TOTAL_PAGE_NUMBER_8812	(0xFF - BCNQ_PAGE_NUM_8812 - WOWLAN_PAGE_NUM_8812-FW_NDPA_PAGE_NUM)
++#define TX_PAGE_BOUNDARY_8812			(TX_TOTAL_PAGE_NUMBER_8812 + 1)
++
++#define TX_PAGE_BOUNDARY_WOWLAN_8812		(0xFF - BCNQ_PAGE_NUM_8812 - WOWLAN_PAGE_NUM_8812 + 1)
++
++#define WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8812	TX_TOTAL_PAGE_NUMBER_8812
++#define WMM_NORMAL_TX_PAGE_BOUNDARY_8812		(WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8812 + 1)
++
++/* For Normal Chip Setting
++ * (HPQ + LPQ + NPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER_8812 */
++#define NORMAL_PAGE_NUM_LPQ_8812				0x10
++#define NORMAL_PAGE_NUM_HPQ_8812			0x10
++#define NORMAL_PAGE_NUM_NPQ_8812			0x00
++
++#define WMM_NORMAL_PAGE_NUM_HPQ_8812		0x30
++#define WMM_NORMAL_PAGE_NUM_LPQ_8812		0x20
++#define WMM_NORMAL_PAGE_NUM_NPQ_8812		0x20
++
++
++/* for 8821A
++ * TX 64K, RX 16K, Page size 256B for TX, 128B for RX */
++#define PAGE_SIZE_TX_8821A					256
++#define PAGE_SIZE_RX_8821A					128
++
++#define MAX_RX_DMA_BUFFER_SIZE_8821			0x3E80 /* RX 16K */
++
++#ifdef CONFIG_FW_C2H_DEBUG
++	#define RX_DMA_RESERVED_SIZE_8821	0x100	/* 256B, reserved for c2h debug message */
++#else
++	#define RX_DMA_RESERVED_SIZE_8821	0x0	/* 0B */
++#endif
++#define RX_DMA_BOUNDARY_8821		(MAX_RX_DMA_BUFFER_SIZE_8821 - RX_DMA_RESERVED_SIZE_8821 - 1)
++
++#define BCNQ_PAGE_NUM_8821		0x08
++#ifdef CONFIG_CONCURRENT_MODE
++	#define BCNQ1_PAGE_NUM_8821		0x04
++#else
++	#define BCNQ1_PAGE_NUM_8821		0x00
++#endif
++
++/* For WoWLan , more reserved page
++ * ARP Rsp:1, RWC:1, GTK Info:1,GTK RSP:1,GTK EXT MEM:1, PNO: 6 */
++#ifdef CONFIG_WOWLAN
++	#define WOWLAN_PAGE_NUM_8821	0x06
++#else
++	#define WOWLAN_PAGE_NUM_8821	0x00
++#endif
++
++#define TX_TOTAL_PAGE_NUMBER_8821	(0xFF - BCNQ_PAGE_NUM_8821 - BCNQ1_PAGE_NUM_8821 - WOWLAN_PAGE_NUM_8821)
++#define TX_PAGE_BOUNDARY_8821				(TX_TOTAL_PAGE_NUMBER_8821 + 1)
++/* #define TX_PAGE_BOUNDARY_WOWLAN_8821		0xE0 */
++
++#define WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8821	TX_TOTAL_PAGE_NUMBER_8821
++#define WMM_NORMAL_TX_PAGE_BOUNDARY_8821		(WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8821 + 1)
++
++
++/* (HPQ + LPQ + NPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER */
++#define NORMAL_PAGE_NUM_LPQ_8821			0x08/* 0x10 */
++#define NORMAL_PAGE_NUM_HPQ_8821		0x08/* 0x10 */
++#define NORMAL_PAGE_NUM_NPQ_8821		0x00
++
++#define WMM_NORMAL_PAGE_NUM_HPQ_8821		0x30
++#define WMM_NORMAL_PAGE_NUM_LPQ_8821		0x20
++#define WMM_NORMAL_PAGE_NUM_NPQ_8821		0x20
++
++#define MCC_NORMAL_PAGE_NUM_HPQ_8821		0x10
++#define MCC_NORMAL_PAGE_NUM_LPQ_8821		0x10
++#define MCC_NORMAL_PAGE_NUM_NPQ_8821		0x10
++
++#define	EFUSE_HIDDEN_812AU					0
++#define	EFUSE_HIDDEN_812AU_VS				1
++#define	EFUSE_HIDDEN_812AU_VL				2
++#define	EFUSE_HIDDEN_812AU_VN				3
++
++#if 0
++#define EFUSE_REAL_CONTENT_LEN_JAGUAR		1024
++#define HWSET_MAX_SIZE_JAGUAR					1024
++#else
++#define EFUSE_REAL_CONTENT_LEN_JAGUAR		512
++#define HWSET_MAX_SIZE_JAGUAR					512
++#endif
++
++#define EFUSE_MAX_BANK_8812A					2
++#define EFUSE_MAP_LEN_JAGUAR					512
++#define EFUSE_MAX_SECTION_JAGUAR				64
++#define EFUSE_MAX_WORD_UNIT_JAGUAR			4
++#define EFUSE_IC_ID_OFFSET_JAGUAR				506	/* For some inferiority IC purpose. added by Roger, 2009.09.02. */
++#define AVAILABLE_EFUSE_ADDR_8812(addr)	(addr < EFUSE_REAL_CONTENT_LEN_JAGUAR)
++/* <Roger_Notes> To prevent out of boundary programming case, leave 1byte and program full section
++ * 9bytes + 1byt + 5bytes and pre 1byte.
++ * For worst case:
++ * | 2byte|----8bytes----|1byte|--7bytes--|  */ /* 92D */
++#define EFUSE_OOB_PROTECT_BYTES_JAGUAR		18	/* PG data exclude header, dummy 7 bytes frome CP test and reserved 1byte. */
++#define EFUSE_PROTECT_BYTES_BANK_JAGUAR		16
++
++#define INCLUDE_MULTI_FUNC_BT(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_BT)
++#define INCLUDE_MULTI_FUNC_GPS(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_GPS)
++
++/* #define IS_MULTI_FUNC_CHIP(_Adapter)	(((((PHAL_DATA_TYPE)(_Adapter->HalData))->MultiFunc) & (RT_MULTI_FUNC_BT|RT_MULTI_FUNC_GPS)) ? _TRUE : _FALSE) */
++
++/* #define RT_IS_FUNC_DISABLED(__pAdapter, __FuncBits) ( (__pAdapter)->DisabledFunctions & (__FuncBits) ) */
++
++
++#ifdef CONFIG_FILE_FWIMG
++extern char *rtw_fw_file_path;
++#ifdef CONFIG_WOWLAN
++extern char *rtw_fw_wow_file_path;
++#endif
++#ifdef CONFIG_MP_INCLUDED
++extern char *rtw_fw_mp_bt_file_path;
++#endif
++#endif
++
++
++/* rtl8812_hal_init.c */
++void	_8051Reset8812(PADAPTER padapter);
++s32	FirmwareDownload8812(PADAPTER Adapter, BOOLEAN bUsedWoWLANFw);
++void	InitializeFirmwareVars8812(PADAPTER padapter);
++
++s32	_LLTWrite_8812A(PADAPTER Adapter, u32 address, u32 data);
++s32	InitLLTTable8812A(PADAPTER padapter, u8 txpktbuf_bndy);
++void InitRDGSetting8812A(PADAPTER padapter);
++
++void CheckAutoloadState8812A(PADAPTER padapter);
++
++/* EFuse */
++u8	GetEEPROMSize8812A(PADAPTER padapter);
++void InitPGData8812A(PADAPTER padapter);
++void	Hal_EfuseParseIDCode8812A(PADAPTER padapter, u8 *hwinfo);
++void	Hal_ReadPROMVersion8812A(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	Hal_ReadTxPowerInfo8812A(PADAPTER padapter, u8 *hwinfo, BOOLEAN	AutoLoadFail);
++void	Hal_ReadBoardType8812A(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	Hal_ReadThermalMeter_8812A(PADAPTER	Adapter, u8 *PROMContent, BOOLEAN	AutoloadFail);
++void	Hal_ReadChannelPlan8812A(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	Hal_EfuseParseXtal_8812A(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	Hal_ReadAntennaDiversity8812A(PADAPTER pAdapter, u8 *PROMContent, BOOLEAN AutoLoadFail);
++void	Hal_ReadAmplifierType_8812A(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++void	Hal_ReadPAType_8821A(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++void	Hal_ReadRFEType_8812A(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++void	Hal_EfuseParseBTCoexistInfo8812A(PADAPTER Adapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	hal_ReadUsbType_8812AU(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++#ifdef CONFIG_MP_INCLUDED
++int	FirmwareDownloadBT(PADAPTER Adapter, PRT_MP_FIRMWARE pFirmware);
++#endif
++void	Hal_ReadRemoteWakeup_8812A(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++
++BOOLEAN HalDetectPwrDownMode8812(PADAPTER Adapter);
++void Hal_EfuseParseKFreeData_8821A(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++
++#ifdef CONFIG_WOWLAN
++void Hal_DetectWoWMode(PADAPTER pAdapter);
++#endif /* CONFIG_WOWLAN */
++
++void _InitBeaconParameters_8812A(PADAPTER padapter);
++void SetBeaconRelatedRegisters8812A(PADAPTER padapter);
++
++void ReadRFType8812A(PADAPTER padapter);
++void InitDefaultValue8821A(PADAPTER padapter);
++
++void SetHwReg8812A(PADAPTER padapter, u8 variable, u8 *pval);
++void GetHwReg8812A(PADAPTER padapter, u8 variable, u8 *pval);
++u8 SetHalDefVar8812A(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++u8 GetHalDefVar8812A(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++void rtl8812_set_hal_ops(struct hal_ops *pHalFunc);
++void init_hal_spec_8812a(_adapter *adapter);
++void init_hal_spec_8821a(_adapter *adapter);
++
++/* register */
++void SetBcnCtrlReg(PADAPTER padapter, u8 SetBits, u8 ClearBits);
++
++void rtl8812_start_thread(PADAPTER padapter);
++void rtl8812_stop_thread(PADAPTER padapter);
++
++#ifdef CONFIG_PCI_HCI
++BOOLEAN	InterruptRecognized8812AE(PADAPTER Adapter);
++VOID	UpdateInterruptMask8812AE(PADAPTER Adapter, u32 AddMSR, u32 AddMSR1, u32 RemoveMSR, u32 RemoveMSR1);
++#endif
++
++#ifdef CONFIG_BT_COEXIST
++void rtl8812a_combo_card_WifiOnlyHwInit(PADAPTER Adapter);
++#endif
++
++VOID
++Hal_PatchwithJaguar_8812(
++	IN PADAPTER				Adapter,
++	IN RT_MEDIA_STATUS		MediaStatus
++);
++
++#endif /* __RTL8188E_HAL_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8812a_led.h b/drivers/net/wireless/rtl8723du/include/rtl8812a_led.h
+new file mode 100644
+index 0000000..28840be
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8812a_led.h
+@@ -0,0 +1,41 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8812A_LED_H__
++#define __RTL8812A_LED_H__
++
++
++/* ********************************************************************************
++ * Interface to manipulate LED objects.
++ * ******************************************************************************** */
++#ifdef CONFIG_USB_HCI
++void rtl8812au_InitSwLeds(PADAPTER padapter);
++void rtl8812au_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_PCI_HCI
++void rtl8812ae_InitSwLeds(PADAPTER padapter);
++void rtl8812ae_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_SDIO_HCI
++void rtl8821as_hw_led_config(PADAPTER adapter);
++void rtl8821as_InitSwLeds(PADAPTER padapter);
++void rtl8821as_DeInitSwLeds(PADAPTER padapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8812a_recv.h b/drivers/net/wireless/rtl8723du/include/rtl8812a_recv.h
+new file mode 100644
+index 0000000..4e7b4ed
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8812a_recv.h
+@@ -0,0 +1,158 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8812A_RECV_H__
++#define __RTL8812A_RECV_H__
++
++#if defined(CONFIG_USB_HCI)
++
++	#ifndef MAX_RECVBUF_SZ
++		#ifdef PLATFORM_OS_CE
++			#define MAX_RECVBUF_SZ (8192+1024) /* 8K+1k */
++		#else
++			#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++				#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++					#define MAX_RECVBUF_SZ (rtw_rtkm_get_buff_size()) /*depend rtkm*/
++				#else
++					#define MAX_RECVBUF_SZ (32768)  /*32k*/
++				#endif
++				/* #define MAX_RECVBUF_SZ (24576) */ /* 24k */
++				/* #define MAX_RECVBUF_SZ (20480) */ /* 20K */
++				/* #define MAX_RECVBUF_SZ (10240) */ /* 10K */
++				/* #define MAX_RECVBUF_SZ (15360) */ /* 15k < 16k */
++				/* #define MAX_RECVBUF_SZ (8192+1024) */ /* 8K+1k */
++				#ifdef CONFIG_PLATFORM_NOVATEK_NT72668
++					#undef MAX_RECVBUF_SZ
++					#define MAX_RECVBUF_SZ (15360) /* 15k < 16k */
++				#endif /* CONFIG_PLATFORM_NOVATEK_NT72668 */
++			#else
++				#define MAX_RECVBUF_SZ (4000) /* about 4K */
++			#endif
++		#endif
++	#endif /* !MAX_RECVBUF_SZ */
++
++#elif defined(CONFIG_PCI_HCI)
++	/* #ifndef CONFIG_MINIMAL_MEMORY_USAGE */
++	/*	#define MAX_RECVBUF_SZ (9100) */
++	/* #else */
++	#define MAX_RECVBUF_SZ (4000) /* about 4K
++	* #endif */
++
++
++#elif defined(CONFIG_SDIO_HCI)
++
++	#define MAX_RECVBUF_SZ (RX_DMA_BOUNDARY_8821 + 1)
++
++#endif
++
++
++/* Rx smooth factor */
++#define Rx_Smooth_Factor (20)
++
++/* DWORD 0 */
++#define SET_RX_STATUS_DESC_PKT_LEN_8812(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++#define SET_RX_STATUS_DESC_EOR_8812(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 30, 1, __Value)
++#define SET_RX_STATUS_DESC_OWN_8812(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 31, 1, __Value)
++
++#define GET_RX_STATUS_DESC_PKT_LEN_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 0, 14)
++#define GET_RX_STATUS_DESC_CRC32_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 14, 1)
++#define GET_RX_STATUS_DESC_ICV_8812(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++#define GET_RX_STATUS_DESC_DRVINFO_SIZE_8812(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 4)
++#define GET_RX_STATUS_DESC_SECURITY_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 20, 3)
++#define GET_RX_STATUS_DESC_QOS_8812(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 23, 1)
++#define GET_RX_STATUS_DESC_SHIFT_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 24, 2)
++#define GET_RX_STATUS_DESC_PHY_STATUS_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 26, 1)
++#define GET_RX_STATUS_DESC_SWDEC_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 27, 1)
++#define GET_RX_STATUS_DESC_LAST_SEG_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 28, 1)
++#define GET_RX_STATUS_DESC_FIRST_SEG_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 29, 1)
++#define GET_RX_STATUS_DESC_EOR_8812(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 30, 1)
++#define GET_RX_STATUS_DESC_OWN_8812(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 31, 1)
++
++/* DWORD 1 */
++#define GET_RX_STATUS_DESC_MACID_8812(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 0, 7)
++#define GET_RX_STATUS_DESC_TID_8812(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 8, 4)
++#define GET_RX_STATUS_DESC_AMSDU_8812(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 13, 1)
++#define GET_RX_STATUS_DESC_RXID_MATCH_8812(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+4, 14, 1)
++#define GET_RX_STATUS_DESC_PAGGR_8812(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 15, 1)
++#define GET_RX_STATUS_DESC_A1_FIT_8812(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 16, 4)
++#define GET_RX_STATUS_DESC_CHKERR_8812(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 20, 1)
++#define GET_RX_STATUS_DESC_IPVER_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 21, 1)
++#define GET_RX_STATUS_DESC_IS_TCPUDP__8812(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+4, 22, 1)
++#define GET_RX_STATUS_DESC_CHK_VLD_8812(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+4, 23, 1)
++#define GET_RX_STATUS_DESC_PAM_8812(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 24, 1)
++#define GET_RX_STATUS_DESC_PWR_8812(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 25, 1)
++#define GET_RX_STATUS_DESC_MORE_DATA_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 26, 1)
++#define GET_RX_STATUS_DESC_MORE_FRAG_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 27, 1)
++#define GET_RX_STATUS_DESC_TYPE_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 28, 2)
++#define GET_RX_STATUS_DESC_MC_8812(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 30, 1)
++#define GET_RX_STATUS_DESC_BC_8812(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 31, 1)
++
++/* DWORD 2 */
++#define GET_RX_STATUS_DESC_SEQ_8812(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 0, 12)
++#define GET_RX_STATUS_DESC_FRAG_8812(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 12, 4)
++#define GET_RX_STATUS_DESC_RX_IS_QOS_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 16, 1)
++#define GET_RX_STATUS_DESC_WLANHD_IV_LEN_8812(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 18, 6)
++#define GET_RX_STATUS_DESC_RPT_SEL_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 28, 1)
++
++/* DWORD 3 */
++#define GET_RX_STATUS_DESC_RX_RATE_8812(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 0, 7)
++#define GET_RX_STATUS_DESC_HTC_8812(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 10, 1)
++#define GET_RX_STATUS_DESC_EOSP_8812(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 11, 1)
++#define GET_RX_STATUS_DESC_BSSID_FIT_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 12, 2)
++#ifdef CONFIG_USB_RX_AGGREGATION
++#define GET_RX_STATUS_DESC_USB_AGG_PKTNUM_8812(__pRxStatusDesc)	LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 16, 8)
++#endif
++#define GET_RX_STATUS_DESC_PATTERN_MATCH_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 29, 1)
++#define GET_RX_STATUS_DESC_UNICAST_MATCH_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 30, 1)
++#define GET_RX_STATUS_DESC_MAGIC_MATCH_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 31, 1)
++
++/* DWORD 6 */
++#define GET_RX_STATUS_DESC_SPLCP_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 0, 1)
++#define GET_RX_STATUS_DESC_LDPC_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 1, 1)
++#define GET_RX_STATUS_DESC_STBC_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 2, 1)
++#define GET_RX_STATUS_DESC_BW_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 4, 2)
++
++/* DWORD 5 */
++#define GET_RX_STATUS_DESC_TSFL_8812(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+20, 0, 32)
++
++#define GET_RX_STATUS_DESC_BUFF_ADDR_8812(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+24, 0, 32)
++#define GET_RX_STATUS_DESC_BUFF_ADDR64_8812(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+28, 0, 32)
++
++#define SET_RX_STATUS_DESC_BUFF_ADDR_8812(__pRxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pRxDesc+24, 0, 32, __Value)
++
++
++#ifdef CONFIG_SDIO_HCI
++s32 InitRecvPriv8821AS(PADAPTER padapter);
++void FreeRecvPriv8821AS(PADAPTER padapter);
++#endif /* CONFIG_SDIO_HCI */
++
++#ifdef CONFIG_USB_HCI
++void rtl8812au_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf);
++s32 rtl8812au_init_recv_priv(PADAPTER padapter);
++void rtl8812au_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++s32 rtl8812ae_init_recv_priv(PADAPTER padapter);
++void rtl8812ae_free_recv_priv(PADAPTER padapter);
++#endif
++
++void rtl8812_query_rx_desc_status(union recv_frame *precvframe, u8 *pdesc);
++
++#endif /* __RTL8812A_RECV_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8812a_rf.h b/drivers/net/wireless/rtl8723du/include/rtl8812a_rf.h
+new file mode 100644
+index 0000000..9a7175d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8812a_rf.h
+@@ -0,0 +1,33 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8812A_RF_H__
++#define __RTL8812A_RF_H__
++
++VOID
++PHY_RF6052SetBandwidth8812(
++	IN	PADAPTER				Adapter,
++	IN	CHANNEL_WIDTH		Bandwidth);
++
++
++int
++PHY_RF6052_Config_8812(
++	IN	PADAPTER	Adapter);
++
++#endif/* __RTL8188E_RF_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8812a_spec.h b/drivers/net/wireless/rtl8723du/include/rtl8812a_spec.h
+new file mode 100644
+index 0000000..dc7bd3d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8812a_spec.h
+@@ -0,0 +1,276 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#ifndef __RTL8812A_SPEC_H__
++#define __RTL8812A_SPEC_H__
++
++#include <drv_conf.h>
++
++
++/* ************************************************************
++* 8812 Regsiter offset definition
++* ************************************************************ */
++
++/* ************************************************************
++*
++* ************************************************************ */
++
++/* -----------------------------------------------------
++*
++*	0x0000h ~ 0x00FFh	System Configuration
++*
++* ----------------------------------------------------- */
++#define REG_SYS_CLKR_8812A				0x0008
++#define REG_AFE_PLL_CTRL_8812A		0x0028
++#define REG_HSIMR_8812					0x0058
++#define REG_HSISR_8812					0x005c
++#define REG_GPIO_EXT_CTRL				0x0060
++#define REG_GPIO_STATUS_8812			0x006C
++#define REG_SDIO_CTRL_8812				0x0070
++#define REG_OPT_CTRL_8812				0x0074
++#define REG_RF_B_CTRL_8812				0x0076
++#define REG_FW_DRV_MSG_8812			0x0088
++#define REG_HMEBOX_E2_E3_8812			0x008C
++#define REG_HIMR0_8812					0x00B0
++#define REG_HISR0_8812					0x00B4
++#define REG_HIMR1_8812					0x00B8
++#define REG_HISR1_8812					0x00BC
++#define REG_EFUSE_BURN_GNT_8812		0x00CF
++#define REG_SYS_CFG1_8812				0x00FC
++
++/* -----------------------------------------------------
++*
++*	0x0100h ~ 0x01FFh	MACTOP General Configuration
++*
++* ----------------------------------------------------- */
++#define REG_CR_8812A					0x100
++#define REG_PKTBUF_DBG_ADDR			(REG_PKTBUF_DBG_CTRL)
++#define REG_RXPKTBUF_DBG				(REG_PKTBUF_DBG_CTRL+2)
++#define REG_TXPKTBUF_DBG				(REG_PKTBUF_DBG_CTRL+3)
++#define REG_WOWLAN_WAKE_REASON			REG_MCUTST_WOWLAN
++
++#define REG_RSVD3_8812					0x0168
++#define REG_C2HEVT_CMD_SEQ_88XX		0x01A1
++#define REG_C2hEVT_CMD_CONTENT_88XX	0x01A2
++#define REG_C2HEVT_CMD_LEN_88XX		0x01AE
++
++#define REG_HMEBOX_EXT0_8812			0x01F0
++#define REG_HMEBOX_EXT1_8812			0x01F4
++#define REG_HMEBOX_EXT2_8812			0x01F8
++#define REG_HMEBOX_EXT3_8812			0x01FC
++
++/* -----------------------------------------------------
++*
++*	0x0200h ~ 0x027Fh	TXDMA Configuration
++*
++* ----------------------------------------------------- */
++#define REG_DWBCN0_CTRL_8812				REG_TDECTRL
++#define REG_DWBCN1_CTRL_8812				0x0228
++
++/* -----------------------------------------------------
++*
++*	0x0280h ~ 0x02FFh	RXDMA Configuration
++*
++* ----------------------------------------------------- */
++#define REG_TDECTRL_8812A				0x0208
++#define REG_RXDMA_CONTROL_8812A		0x0286		/*Control the RX DMA.*/
++#define REG_RXDMA_PRO_8812			0x0290
++#define REG_EARLY_MODE_CONTROL_8812	0x02BC
++#define REG_RSVD5_8812					0x02F0
++#define REG_RSVD6_8812					0x02F4
++#define REG_RSVD7_8812					0x02F8
++#define REG_RSVD8_8812					0x02FC
++
++
++/* -----------------------------------------------------
++*
++*	0x0300h ~ 0x03FFh	PCIe
++*
++* ----------------------------------------------------- */
++#define	REG_PCIE_CTRL_REG_8812A		0x0300
++#define	REG_DBI_WDATA_8812			0x0348	/* DBI Write Data */
++#define	REG_DBI_RDATA_8812			0x034C	/* DBI Read Data */
++#define	REG_DBI_ADDR_8812				0x0350	/* DBI Address */
++#define	REG_DBI_FLAG_8812				0x0352	/* DBI Read/Write Flag */
++#define	REG_MDIO_WDATA_8812			0x0354	/* MDIO for Write PCIE PHY */
++#define	REG_MDIO_RDATA_8812			0x0356	/* MDIO for Reads PCIE PHY */
++#define	REG_MDIO_CTL_8812				0x0358	/* MDIO for Control */
++#define	REG_PCIE_MULTIFET_CTRL_8812	0x036A	/* PCIE Multi-Fethc Control */
++
++/* -----------------------------------------------------
++*
++*	0x0400h ~ 0x047Fh	Protocol Configuration
++*
++* ----------------------------------------------------- */
++#define REG_TXPKT_EMPTY_8812A			0x041A
++#define REG_FWHW_TXQ_CTRL_8812A		0x0420
++#define REG_TXBF_CTRL_8812A			0x042C
++#define REG_ARFR0_8812					0x0444
++#define REG_ARFR1_8812					0x044C
++#define REG_CCK_CHECK_8812				0x0454
++#define REG_AMPDU_MAX_TIME_8812		0x0456
++#define REG_TXPKTBUF_BCNQ_BDNY1_8812	0x0457
++
++#define REG_AMPDU_MAX_LENGTH_8812	0x0458
++#define REG_TXPKTBUF_WMAC_LBK_BF_HD_8812	0x045D
++#define REG_NDPA_OPT_CTRL_8812A		0x045F
++#define REG_DATA_SC_8812				0x0483
++#ifdef CONFIG_WOWLAN
++#define REG_TXPKTBUF_IV_LOW             0x0484
++#define REG_TXPKTBUF_IV_HIGH            0x0488
++#endif
++#define REG_ARFR2_8812					0x048C
++#define REG_ARFR3_8812					0x0494
++#define REG_TXRPT_START_OFFSET		0x04AC
++#define REG_AMPDU_BURST_MODE_8812	0x04BC
++#define REG_HT_SINGLE_AMPDU_8812		0x04C7
++#define REG_MACID_PKT_DROP0_8812		0x04D0
++
++/* -----------------------------------------------------
++*
++*	0x0500h ~ 0x05FFh	EDCA Configuration
++*
++* ----------------------------------------------------- */
++#define REG_TXPAUSE_8812A				0x0522
++#define REG_CTWND_8812					0x0572
++#define REG_SECONDARY_CCA_CTRL_8812	0x0577
++#define REG_SCH_TXCMD_8812A			0x05F8
++
++/* -----------------------------------------------------
++*
++*	0x0600h ~ 0x07FFh	WMAC Configuration
++*
++* ----------------------------------------------------- */
++#define REG_MAC_CR_8812				0x0600
++
++#define REG_MAC_TX_SM_STATE_8812		0x06B4
++
++/* Power */
++#define REG_BFMER0_INFO_8812A			0x06E4
++#define REG_BFMER1_INFO_8812A			0x06EC
++#define REG_CSI_RPT_PARAM_BW20_8812A	0x06F4
++#define REG_CSI_RPT_PARAM_BW40_8812A	0x06F8
++#define REG_CSI_RPT_PARAM_BW80_8812A	0x06FC
++
++/* Hardware Port 2 */
++#define REG_BFMEE_SEL_8812A			0x0714
++#define REG_SND_PTCL_CTRL_8812A		0x0718
++
++
++/* -----------------------------------------------------
++*
++*	Redifine register definition for compatibility
++*
++* ----------------------------------------------------- */
++
++/* TODO: use these definition when using REG_xxx naming rule.
++* NOTE: DO NOT Remove these definition. Use later. */
++#define	ISR_8812							REG_HISR0_8812
++
++/* ----------------------------------------------------------------------------
++* 8195 IMR/ISR bits						(offset 0xB0,  8bits)
++* ---------------------------------------------------------------------------- */
++#define	IMR_DISABLED_8812					0
++/* IMR DW0(0x00B0-00B3) Bit 0-31 */
++#define	IMR_TIMER2_8812					BIT31		/* Timeout interrupt 2 */
++#define	IMR_TIMER1_8812					BIT30		/* Timeout interrupt 1	 */
++#define	IMR_PSTIMEOUT_8812				BIT29		/* Power Save Time Out Interrupt */
++#define	IMR_GTINT4_8812					BIT28		/* When GTIMER4 expires, this bit is set to 1	 */
++#define	IMR_GTINT3_8812					BIT27		/* When GTIMER3 expires, this bit is set to 1	 */
++#define	IMR_TXBCN0ERR_8812				BIT26		/* Transmit Beacon0 Error			 */
++#define	IMR_TXBCN0OK_8812					BIT25		/* Transmit Beacon0 OK			 */
++#define	IMR_TSF_BIT32_TOGGLE_8812		BIT24		/* TSF Timer BIT32 toggle indication interrupt			 */
++#define	IMR_BCNDMAINT0_8812				BIT20		/* Beacon DMA Interrupt 0			 */
++#define	IMR_BCNDERR0_8812					BIT16		/* Beacon Queue DMA OK0			 */
++#define	IMR_HSISR_IND_ON_INT_8812		BIT15		/* HSISR Indicator (HSIMR & HSISR is true, this bit is set to 1) */
++#define	IMR_BCNDMAINT_E_8812				BIT14		/* Beacon DMA Interrupt Extension for Win7			 */
++#define	IMR_ATIMEND_8812					BIT12		/* CTWidnow End or ATIM Window End */
++#define	IMR_C2HCMD_8812					BIT10		/* CPU to Host Command INT Status, Write 1 clear	 */
++#define	IMR_CPWM2_8812					BIT9			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_CPWM_8812						BIT8			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_HIGHDOK_8812					BIT7			/* High Queue DMA OK	 */
++#define	IMR_MGNTDOK_8812					BIT6			/* Management Queue DMA OK	 */
++#define	IMR_BKDOK_8812					BIT5			/* AC_BK DMA OK		 */
++#define	IMR_BEDOK_8812					BIT4			/* AC_BE DMA OK	 */
++#define	IMR_VIDOK_8812					BIT3			/* AC_VI DMA OK		 */
++#define	IMR_VODOK_8812					BIT2			/* AC_VO DMA OK	 */
++#define	IMR_RDU_8812						BIT1			/* Rx Descriptor Unavailable	 */
++#define	IMR_ROK_8812						BIT0			/* Receive DMA OK */
++
++/* IMR DW1(0x00B4-00B7) Bit 0-31 */
++#define	IMR_BCNDMAINT7_8812				BIT27		/* Beacon DMA Interrupt 7 */
++#define	IMR_BCNDMAINT6_8812				BIT26		/* Beacon DMA Interrupt 6 */
++#define	IMR_BCNDMAINT5_8812				BIT25		/* Beacon DMA Interrupt 5 */
++#define	IMR_BCNDMAINT4_8812				BIT24		/* Beacon DMA Interrupt 4 */
++#define	IMR_BCNDMAINT3_8812				BIT23		/* Beacon DMA Interrupt 3 */
++#define	IMR_BCNDMAINT2_8812				BIT22		/* Beacon DMA Interrupt 2 */
++#define	IMR_BCNDMAINT1_8812				BIT21		/* Beacon DMA Interrupt 1 */
++#define	IMR_BCNDOK7_8812					BIT20		/* Beacon Queue DMA OK Interrup 7 */
++#define	IMR_BCNDOK6_8812					BIT19		/* Beacon Queue DMA OK Interrup 6 */
++#define	IMR_BCNDOK5_8812					BIT18		/* Beacon Queue DMA OK Interrup 5 */
++#define	IMR_BCNDOK4_8812					BIT17		/* Beacon Queue DMA OK Interrup 4 */
++#define	IMR_BCNDOK3_8812					BIT16		/* Beacon Queue DMA OK Interrup 3 */
++#define	IMR_BCNDOK2_8812					BIT15		/* Beacon Queue DMA OK Interrup 2 */
++#define	IMR_BCNDOK1_8812					BIT14		/* Beacon Queue DMA OK Interrup 1 */
++#define	IMR_ATIMEND_E_8812				BIT13		/* ATIM Window End Extension for Win7 */
++#define	IMR_TXERR_8812					BIT11		/* Tx Error Flag Interrupt Status, write 1 clear. */
++#define	IMR_RXERR_8812					BIT10		/* Rx Error Flag INT Status, Write 1 clear */
++#define	IMR_TXFOVW_8812					BIT9			/* Transmit FIFO Overflow */
++#define	IMR_RXFOVW_8812					BIT8			/* Receive FIFO Overflow */
++
++
++#ifdef CONFIG_PCI_HCI
++/* #define IMR_RX_MASK		(IMR_ROK_8812|IMR_RDU_8812|IMR_RXFOVW_8812) */
++#define IMR_TX_MASK			(IMR_VODOK_8812 | IMR_VIDOK_8812 | IMR_BEDOK_8812 | IMR_BKDOK_8812 | IMR_MGNTDOK_8812 | IMR_HIGHDOK_8812)
++
++#define RT_BCN_INT_MASKS	(IMR_BCNDMAINT0_8812 | IMR_TXBCN0OK_8812 | IMR_TXBCN0ERR_8812 | IMR_BCNDERR0_8812)
++
++#define RT_AC_INT_MASKS	(IMR_VIDOK_8812 | IMR_VODOK_8812 | IMR_BEDOK_8812 | IMR_BKDOK_8812)
++#endif
++
++
++/* ****************************************************************************
++* Regsiter Bit and Content definition
++* **************************************************************************** */
++
++/* 2 ACMHWCTRL 0x05C0 */
++#define	AcmHw_HwEn_8812				BIT(0)
++#define	AcmHw_VoqEn_8812				BIT(1)
++#define	AcmHw_ViqEn_8812				BIT(2)
++#define	AcmHw_BeqEn_8812				BIT(3)
++#define	AcmHw_VoqStatus_8812			BIT(5)
++#define	AcmHw_ViqStatus_8812			BIT(6)
++#define	AcmHw_BeqStatus_8812			BIT(7)
++
++/* ********************************************************
++* General definitions
++* ******************************************************** */
++
++#define MACID_NUM_8812A 128
++#define SEC_CAM_ENT_NUM_8812A 64
++#define HW_PORT_NUM_8812A	2
++#define NSS_NUM_8812A 2
++#define BAND_CAP_8812A (BAND_CAP_2G | BAND_CAP_5G)
++#define BW_CAP_8812A (BW_CAP_20M | BW_CAP_40M | BW_CAP_80M)
++#define PROTO_CAP_8812A (PROTO_CAP_11B | PROTO_CAP_11G | PROTO_CAP_11N | PROTO_CAP_11AC)
++
++#endif /* __RTL8812A_SPEC_H__ */
++
++#ifdef CONFIG_RTL8821A
++#include "rtl8821a_spec.h"
++#endif /* CONFIG_RTL8821A */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8812a_sreset.h b/drivers/net/wireless/rtl8723du/include/rtl8812a_sreset.h
+new file mode 100644
+index 0000000..1d166dc
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8812a_sreset.h
+@@ -0,0 +1,29 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL88812A_SRESET_H_
++#define _RTL8812A_SRESET_H_
++
++#include <rtw_sreset.h>
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++extern void rtl8812_sreset_xmit_status_check(_adapter *padapter);
++extern void rtl8812_sreset_linked_status_check(_adapter *padapter);
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8812a_xmit.h b/drivers/net/wireless/rtl8723du/include/rtl8812a_xmit.h
+new file mode 100644
+index 0000000..9d0df79
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8812a_xmit.h
+@@ -0,0 +1,366 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8812A_XMIT_H__
++#define __RTL8812A_XMIT_H__
++
++
++/* For 88e early mode */
++#define SET_EARLYMODE_PKTNUM(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 0, 3, __Value)
++#define SET_EARLYMODE_LEN0(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 4, 12, __Value)
++#define SET_EARLYMODE_LEN1(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 16, 12, __Value)
++#define SET_EARLYMODE_LEN2_1(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 28, 4, __Value)
++#define SET_EARLYMODE_LEN2_2(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 8, __Value)
++#define SET_EARLYMODE_LEN3(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 8, 12, __Value)
++#define SET_EARLYMODE_LEN4(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 20, 12, __Value)
++
++/*
++ * defined for TX DESC Operation
++ *   */
++
++#define MAX_TID (15)
++
++/* OFFSET 0 */
++#define OFFSET_SZ	0
++#define OFFSET_SHT	16
++#define BMC			BIT(24)
++#define LSG			BIT(26)
++#define FSG			BIT(27)
++#define OWN		BIT(31)
++
++
++/* OFFSET 4 */
++#define PKT_OFFSET_SZ		0
++#define QSEL_SHT			8
++#define RATE_ID_SHT			16
++#define NAVUSEHDR			BIT(20)
++#define SEC_TYPE_SHT		22
++#define PKT_OFFSET_SHT		26
++
++/* OFFSET 8 */
++#define AGG_EN				BIT(12)
++#define AGG_BK				BIT(16)
++#define AMPDU_DENSITY_SHT	20
++#define ANTSEL_A			BIT(24)
++#define ANTSEL_B			BIT(25)
++#define TX_ANT_CCK_SHT		26
++#define TX_ANTL_SHT			28
++#define TX_ANT_HT_SHT		30
++
++/* OFFSET 12 */
++#define SEQ_SHT				16
++#define EN_HWSEQ			BIT(31)
++
++/* OFFSET 16 */
++#define QOS					BIT(6)
++#define	HW_SSN				BIT(7)
++#define USERATE				BIT(8)
++#define DISDATAFB			BIT(10)
++#define CTS_2_SELF			BIT(11)
++#define	RTS_EN				BIT(12)
++#define	HW_RTS_EN			BIT(13)
++#define DATA_SHORT			BIT(24)
++#define PWR_STATUS_SHT	15
++#define DATA_SC_SHT		20
++#define DATA_BW				BIT(25)
++
++/* OFFSET 20 */
++#define	RTY_LMT_EN			BIT(17)
++
++/* OFFSET 20 */
++#define SGI					BIT(6)
++#define USB_TXAGG_NUM_SHT	24
++
++typedef struct txdescriptor_8812 {
++	/* Offset 0 */
++	u32 pktlen:16;
++	u32 offset:8;
++	u32 bmc:1;
++	u32 htc:1;
++	u32 ls:1;
++	u32 fs:1;
++	u32 linip:1;
++	u32 noacm:1;
++	u32 gf:1;
++	u32 own:1;
++
++	/* Offset 4 */
++	u32 macid:6;
++	u32 rsvd0406:2;
++	u32 qsel:5;
++	u32 rd_nav_ext:1;
++	u32 lsig_txop_en:1;
++	u32 pifs:1;
++	u32 rate_id:4;
++	u32 navusehdr:1;
++	u32 en_desc_id:1;
++	u32 sectype:2;
++	u32 rsvd0424:2;
++	u32 pkt_offset:5;	/* unit: 8 bytes */
++	u32 rsvd0431:1;
++
++	/* Offset 8 */
++	u32 rts_rc:6;
++	u32 data_rc:6;
++	u32 agg_en:1;
++	u32 rd_en:1;
++	u32 bar_rty_th:2;
++	u32 bk:1;
++	u32 morefrag:1;
++	u32 raw:1;
++	u32 ccx:1;
++	u32 ampdu_density:3;
++	u32 bt_null:1;
++	u32 ant_sel_a:1;
++	u32 ant_sel_b:1;
++	u32 tx_ant_cck:2;
++	u32 tx_antl:2;
++	u32 tx_ant_ht:2;
++
++	/* Offset 12 */
++	u32 nextheadpage:8;
++	u32 tailpage:8;
++	u32 seq:12;
++	u32 cpu_handle:1;
++	u32 tag1:1;
++	u32 trigger_int:1;
++	u32 hwseq_en:1;
++
++	/* Offset 16 */
++	u32 rtsrate:5;
++	u32 ap_dcfe:1;
++	u32 hwseq_sel:2;
++	u32 userate:1;
++	u32 disrtsfb:1;
++	u32 disdatafb:1;
++	u32 cts2self:1;
++	u32 rtsen:1;
++	u32 hw_rts_en:1;
++	u32 port_id:1;
++	u32 pwr_status:3;
++	u32 wait_dcts:1;
++	u32 cts2ap_en:1;
++	u32 data_sc:2;
++	u32 data_stbc:2;
++	u32 data_short:1;
++	u32 data_bw:1;
++	u32 rts_short:1;
++	u32 rts_bw:1;
++	u32 rts_sc:2;
++	u32 vcs_stbc:2;
++
++	/* Offset 20 */
++	u32 datarate:6;
++	u32 sgi:1;
++	u32 try_rate:1;
++	u32 data_ratefb_lmt:5;
++	u32 rts_ratefb_lmt:4;
++	u32 rty_lmt_en:1;
++	u32 data_rt_lmt:6;
++	u32 usb_txagg_num:8;
++
++	/* Offset 24 */
++	u32 txagg_a:5;
++	u32 txagg_b:5;
++	u32 use_max_len:1;
++	u32 max_agg_num:5;
++	u32 mcsg1_max_len:4;
++	u32 mcsg2_max_len:4;
++	u32 mcsg3_max_len:4;
++	u32 mcs7_sgi_max_len:4;
++
++	/* Offset 28 */
++	u32 checksum:16;	/* TxBuffSize(PCIe)/CheckSum(USB) */
++	u32 mcsg4_max_len:4;
++	u32 mcsg5_max_len:4;
++	u32 mcsg6_max_len:4;
++	u32 mcs15_sgi_max_len:4;
++
++	/* Offset 32 */
++	u32 rsvd32;
++
++	/* Offset 36 */
++	u32 rsvd36;
++} TXDESC_8812, *PTXDESC_8812;
++
++
++/* Dword 0 */
++#define GET_TX_DESC_OWN_8812(__pTxDesc)				LE_BITS_TO_4BYTE(__pTxDesc, 31, 1)
++#define SET_TX_DESC_PKT_SIZE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 16, __Value)
++#define SET_TX_DESC_OFFSET_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 8, __Value)
++#define SET_TX_DESC_BMC_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 24, 1, __Value)
++#define SET_TX_DESC_HTC_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 25, 1, __Value)
++#define SET_TX_DESC_LAST_SEG_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 26, 1, __Value)
++#define SET_TX_DESC_FIRST_SEG_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 27, 1, __Value)
++#define SET_TX_DESC_LINIP_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 28, 1, __Value)
++#define SET_TX_DESC_NO_ACM_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 29, 1, __Value)
++#define SET_TX_DESC_GF_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 30, 1, __Value)
++#define SET_TX_DESC_OWN_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 31, 1, __Value)
++
++/* Dword 1 */
++#define SET_TX_DESC_MACID_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 7, __Value)
++#define SET_TX_DESC_QUEUE_SEL_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 8, 5, __Value)
++#define SET_TX_DESC_RDG_NAV_EXT_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 13, 1, __Value)
++#define SET_TX_DESC_LSIG_TXOP_EN_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 14, 1, __Value)
++#define SET_TX_DESC_PIFS_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 15, 1, __Value)
++#define SET_TX_DESC_RATE_ID_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 16, 5, __Value)
++#define SET_TX_DESC_EN_DESC_ID_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 21, 1, __Value)
++#define SET_TX_DESC_SEC_TYPE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 22, 2, __Value)
++#define SET_TX_DESC_PKT_OFFSET_8812(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 24, 5, __Value)
++
++/* Dword 2 */
++#define SET_TX_DESC_PAID_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 0,  9, __Value)
++#define SET_TX_DESC_CCA_RTS_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 10, 2, __Value)
++#define SET_TX_DESC_AGG_ENABLE_8812(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 12, 1, __Value)
++#define SET_TX_DESC_RDG_ENABLE_8812(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 13, 1, __Value)
++#define SET_TX_DESC_AGG_BREAK_8812(__pTxDesc, __Value)				SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 16, 1, __Value)
++#define SET_TX_DESC_MORE_FRAG_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 17, 1, __Value)
++#define SET_TX_DESC_RAW_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 18, 1, __Value)
++#define SET_TX_DESC_SPE_RPT_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 19, 1, __Value)
++#define SET_TX_DESC_AMPDU_DENSITY_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 20, 3, __Value)
++#define SET_TX_DESC_BT_INT_8812(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 23, 1, __Value)
++#define SET_TX_DESC_GID_8812(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 24, 6, __Value)
++
++/* Dword 3 */
++#define SET_TX_DESC_WHEADER_LEN_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 0, 4, __Value)
++#define SET_TX_DESC_CHK_EN_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 4, 1, __Value)
++#define SET_TX_DESC_EARLY_MODE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 5, 1, __Value)
++#define SET_TX_DESC_HWSEQ_SEL_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 6, 2, __Value)
++#define SET_TX_DESC_USE_RATE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 8, 1, __Value)
++#define SET_TX_DESC_DISABLE_RTS_FB_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 9, 1, __Value)
++#define SET_TX_DESC_DISABLE_FB_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 10, 1, __Value)
++#define SET_TX_DESC_CTS2SELF_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 11, 1, __Value)
++#define SET_TX_DESC_RTS_ENABLE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 12, 1, __Value)
++#define SET_TX_DESC_HW_RTS_ENABLE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 13, 1, __Value)
++#define SET_TX_DESC_NAV_USE_HDR_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 15, 1, __Value)
++#define SET_TX_DESC_USE_MAX_LEN_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 16, 1, __Value)
++#define SET_TX_DESC_MAX_AGG_NUM_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 17, 5, __Value)
++#define SET_TX_DESC_NDPA_8812(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 22, 2, __Value)
++#define SET_TX_DESC_AMPDU_MAX_TIME_8812(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 24, 8, __Value)
++
++/* Dword 4 */
++#define SET_TX_DESC_TX_RATE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 0, 7, __Value)
++#define SET_TX_DESC_DATA_RATE_FB_LIMIT_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 8, 5, __Value)
++#define SET_TX_DESC_RTS_RATE_FB_LIMIT_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 13, 4, __Value)
++#define SET_TX_DESC_RETRY_LIMIT_ENABLE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 17, 1, __Value)
++#define SET_TX_DESC_DATA_RETRY_LIMIT_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 18, 6, __Value)
++#define SET_TX_DESC_RTS_RATE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 24, 5, __Value)
++
++/* Dword 5 */
++#define SET_TX_DESC_DATA_SC_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 0, 4, __Value)
++#define SET_TX_DESC_DATA_SHORT_8812(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 4, 1, __Value)
++#define SET_TX_DESC_DATA_BW_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 5, 2, __Value)
++#define SET_TX_DESC_DATA_LDPC_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 7, 1, __Value)
++#define SET_TX_DESC_DATA_STBC_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 8, 2, __Value)
++#define SET_TX_DESC_CTROL_STBC_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 10, 2, __Value)
++#define SET_TX_DESC_RTS_SHORT_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 12, 1, __Value)
++#define SET_TX_DESC_RTS_SC_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 13, 4, __Value)
++#define SET_TX_DESC_TX_ANT_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 24, 4, __Value)
++
++/* Dword 6 */
++#define SET_TX_DESC_SW_DEFINE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 0, 12, __Value)
++#define SET_TX_DESC_ANTSEL_A_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 16, 3, __Value)
++#define SET_TX_DESC_ANTSEL_B_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 19, 3, __Value)
++#define SET_TX_DESC_ANTSEL_C_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 22, 3, __Value)
++#define SET_TX_DESC_ANTSEL_D_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 25, 3, __Value)
++#define SET_TX_DESC_MBSSID_8821(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 12, 4, __Value)
++
++/* Dword 7 */
++#define SET_TX_DESC_TX_BUFFER_SIZE_8812(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#define SET_TX_DESC_TX_DESC_CHECKSUM_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#define SET_TX_DESC_USB_TXAGG_NUM_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 24, 8, __Value)
++#ifdef CONFIG_SDIO_HCI
++#define SET_TX_DESC_SDIO_TXSEQ_8812(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 16, 8, __Value)
++#endif
++
++/* Dword 8 */
++#define SET_TX_DESC_HWSEQ_EN_8812(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 15, 1, __Value)
++
++/* Dword 9 */
++#define SET_TX_DESC_SEQ_8812(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 12, 12, __Value)
++
++/* Dword 10 */
++#define SET_TX_DESC_TX_BUFFER_ADDRESS_8812(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+40, 0, 32, __Value)
++#define GET_TX_DESC_TX_BUFFER_ADDRESS_8812(__pTxDesc)	LE_BITS_TO_4BYTE(__pTxDesc+40, 0, 32)
++
++/* Dword 11 */
++#define SET_TX_DESC_NEXT_DESC_ADDRESS_8812(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+48, 0, 32, __Value)
++
++
++#define SET_EARLYMODE_PKTNUM_8812(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 0, 4, __Value)
++#define SET_EARLYMODE_LEN0_8812(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 4, 15, __Value)
++#define SET_EARLYMODE_LEN1_1_8812(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 19, 13, __Value)
++#define SET_EARLYMODE_LEN1_2_8812(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 2, __Value)
++#define SET_EARLYMODE_LEN2_8812(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 2, 15,  __Value)
++#define SET_EARLYMODE_LEN3_8812(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 17, 15, __Value)
++
++#ifdef CONFIG_TX_EARLY_MODE
++	#define USB_DUMMY_OFFSET		2
++#else
++	#define USB_DUMMY_OFFSET		1
++#endif
++#define USB_DUMMY_LENGTH		(USB_DUMMY_OFFSET * PACKET_OFFSET_SZ)
++
++
++void rtl8812a_cal_txdesc_chksum(u8 *ptxdesc);
++void rtl8812a_fill_fake_txdesc(PADAPTER	padapter, u8 *pDesc, u32 BufferLen, u8 IsPsPoll, u8	IsBTQosNull, u8 bDataFrame);
++void rtl8812a_fill_txdesc_sectype(struct pkt_attrib *pattrib, u8 *ptxdesc);
++void rtl8812a_fill_txdesc_vcs(PADAPTER padapter, struct pkt_attrib *pattrib, u8 *ptxdesc);
++void rtl8812a_fill_txdesc_phy(PADAPTER padapter, struct pkt_attrib *pattrib, u8 *ptxdesc);
++#if defined(CONFIG_CONCURRENT_MODE)
++void fill_txdesc_force_bmc_camid(struct pkt_attrib *pattrib, u8 *ptxdesc);
++#endif
++
++#ifdef CONFIG_USB_HCI
++s32 rtl8812au_init_xmit_priv(PADAPTER padapter);
++void rtl8812au_free_xmit_priv(PADAPTER padapter);
++s32 rtl8812au_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++s32 rtl8812au_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++s32	 rtl8812au_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++s32 rtl8812au_xmit_buf_handler(PADAPTER padapter);
++void rtl8812au_xmit_tasklet(void *priv);
++s32 rtl8812au_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++s32 rtl8812ae_init_xmit_priv(PADAPTER padapter);
++void rtl8812ae_free_xmit_priv(PADAPTER padapter);
++struct xmit_buf *rtl8812ae_dequeue_xmitbuf(struct rtw_tx_ring *ring);
++void	rtl8812ae_xmitframe_resume(_adapter *padapter);
++s32 rtl8812ae_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++s32 rtl8812ae_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++s32	rtl8812ae_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++void rtl8812ae_xmit_tasklet(void *priv);
++#endif
++
++#ifdef CONFIG_TX_EARLY_MODE
++void UpdateEarlyModeInfo8812(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++#endif
++
++void _dbg_dump_tx_info(_adapter	*padapter, int frame_tag, u8 *ptxdesc);
++
++u8	BWMapping_8812(PADAPTER Adapter, struct pkt_attrib *pattrib);
++
++u8	SCMapping_8812(PADAPTER Adapter, struct pkt_attrib	*pattrib);
++
++#endif /* __RTL8812_XMIT_H__ */
++
++#ifdef CONFIG_RTL8821A
++#include "rtl8821a_xmit.h"
++#endif /* CONFIG_RTL8821A */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8814a_cmd.h b/drivers/net/wireless/rtl8723du/include/rtl8814a_cmd.h
+new file mode 100644
+index 0000000..a42504d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8814a_cmd.h
+@@ -0,0 +1,145 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8814A_CMD_H__
++#define __RTL8814A_CMD_H__
++#include "hal_com_h2c.h"
++
++/* _RSVDPAGE_LOC_CMD0 */
++#define SET_8814A_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8814A_H2CCMD_RSVDPAGE_LOC_PSPOLL(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_8814A_H2CCMD_RSVDPAGE_LOC_NULL_DATA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8814A_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8814A_H2CCMD_RSVDPAGE_LOC_BT_QOS_NULL_DATA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++
++/* _SETPWRMODE_PARM */
++#define SET_8814A_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8814A_H2CCMD_PWRMODE_PARM_RLBM(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 4, __Value)
++#define SET_8814A_H2CCMD_PWRMODE_PARM_SMART_PS(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 4, 4, __Value)
++#define SET_8814A_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8814A_H2CCMD_PWRMODE_PARM_ALL_QUEUE_UAPSD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8814A_H2CCMD_PWRMODE_PARM_BCN_EARLY_C2H_RPT(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 2, 1, __Value)
++#define SET_8814A_H2CCMD_PWRMODE_PARM_PWR_STATE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8814A_H2CCMD_PWRMODE_PARM_BYTE5(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++#define GET_8814A_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd)					LE_BITS_TO_1BYTE(__pH2CCmd, 0, 8)
++
++
++/* _WoWLAN PARAM_CMD5 */
++#define SET_8814A_H2CCMD_WOWLAN_FUNC_ENABLE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8814A_H2CCMD_WOWLAN_PATTERN_MATCH_ENABLE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8814A_H2CCMD_WOWLAN_MAGIC_PKT_ENABLE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_8814A_H2CCMD_WOWLAN_UNICAST_PKT_ENABLE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 3, 1, __Value)
++#define SET_8814A_H2CCMD_WOWLAN_ALL_PKT_DROP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 1, __Value)
++#define SET_8814A_H2CCMD_WOWLAN_GPIO_ACTIVE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 5, 1, __Value)
++#define SET_8814A_H2CCMD_WOWLAN_REKEY_WAKE_UP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 6, 1, __Value)
++#define SET_8814A_H2CCMD_WOWLAN_DISCONNECT_WAKE_UP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 7, 1, __Value)
++#define SET_8814A_H2CCMD_WOWLAN_GPIONUM(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_8814A_H2CCMD_WOWLAN_GPIO_DURATION(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++
++
++/* WLANINFO_PARM */
++#define SET_8814A_H2CCMD_WLANINFO_PARM_OPMODE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8814A_H2CCMD_WLANINFO_PARM_CHANNEL(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_8814A_H2CCMD_WLANINFO_PARM_BW40MHZ(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++
++/* _REMOTE_WAKEUP_CMD7 */
++#define SET_8814A_H2CCMD_REMOTE_WAKECTRL_ENABLE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8814A_H2CCMD_REMOTE_WAKE_CTRL_ARP_OFFLOAD_EN(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8814A_H2CCMD_REMOTE_WAKE_CTRL_NDP_OFFLOAD_EN(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_8814A_H2CCMD_REMOTE_WAKE_CTRL_GTK_OFFLOAD_EN(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 3, 1, __Value)
++
++
++/* _AP_OFFLOAD_CMD8 */
++#define SET_8814A_H2CCMD_AP_OFFLOAD_ON(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8814A_H2CCMD_AP_OFFLOAD_HIDDEN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_8814A_H2CCMD_AP_OFFLOAD_DENYANY(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8814A_H2CCMD_AP_OFFLOAD_WAKEUP_EVT_RPT(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++
++/* _PWR_MOD_CMD20 */
++#define SET_88E_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_88E_H2CCMD_PWRMODE_PARM_RLBM(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 4, __Value)
++#define SET_88E_H2CCMD_PWRMODE_PARM_SMART_PS(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 4, 4, __Value)
++#define SET_88E_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_88E_H2CCMD_PWRMODE_PARM_ALL_QUEUE_UAPSD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_88E_H2CCMD_PWRMODE_PARM_PWR_STATE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++
++/*BCNHWSEQ*/
++#define SET_8814A_H2CCMD_BCNHWSEQ_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd), 0, 1, __Value)
++#define SET_8814A_H2CCMD_BCNHWSEQ_BCN_NUMBER(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd), 1, 3, __Value)
++#define SET_8814A_H2CCMD_BCNHWSEQ_HWSEQ(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd), 6, 1, __Value)
++#define SET_8814A_H2CCMD_BCNHWSEQ_EXHWSEQ(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd), 7, 1, __Value)
++#define SET_8814A_H2CCMD_BCNHWSEQ_PAGE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++void rtl8814_fw_update_beacon_cmd(_adapter *padapter);
++
++/* TX Beamforming */
++#define GET_8814A_C2H_TXBF_ORIGINATE(_Header)			LE_BITS_TO_1BYTE(_Header, 0, 8)
++#define GET_8814A_C2H_TXBF_MACID(_Header)				LE_BITS_TO_1BYTE((_Header + 1), 0, 8)
++
++
++
++/* / TX Feedback Content */
++#define	USEC_UNIT_FOR_8814A_C2H_TX_RPT_QUEUE_TIME			256
++
++#define	GET_8814A_C2H_TX_RPT_QUEUE_SELECT(_Header)			LE_BITS_TO_1BYTE((_Header + 0), 0, 5)
++#define	GET_8814A_C2H_TX_RPT_PKT_BROCAST(_Header)			LE_BITS_TO_1BYTE((_Header + 0), 5, 1)
++#define	GET_8814A_C2H_TX_RPT_LIFE_TIME_OVER(_Header)			LE_BITS_TO_1BYTE((_Header + 0), 6, 1)
++#define	GET_8814A_C2H_TX_RPT_RETRY_OVER(_Header)				LE_BITS_TO_1BYTE((_Header + 0), 7, 1)
++#define	GET_8814A_C2H_TX_RPT_MAC_ID(_Header)					LE_BITS_TO_1BYTE((_Header + 1), 0, 8)
++#define	GET_8814A_C2H_TX_RPT_DATA_RETRY_CNT(_Header)		LE_BITS_TO_1BYTE((_Header + 2), 0, 6)
++#define	GET_8814A_C2H_TX_RPT_QUEUE_TIME(_Header)				LE_BITS_TO_2BYTE((_Header + 3), 0, 16)	/* In unit of 256 microseconds. */
++#define	GET_8814A_C2H_TX_RPT_FINAL_DATA_RATE(_Header)		LE_BITS_TO_1BYTE((_Header + 5), 0, 8)
++
++
++/* _P2P_PS_OFFLOAD */
++#define SET_8814A_H2CCMD_P2P_PS_OFFLOAD_ENABLE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8814A_H2CCMD_P2P_PS_OFFLOAD_ROLE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8814A_H2CCMD_P2P_PS_OFFLOAD_CTWINDOW_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_8814A_H2CCMD_P2P_PS_OFFLOAD_NOA0_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 3, 1, __Value)
++#define SET_8814A_H2CCMD_P2P_PS_OFFLOAD_NOA1_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 1, __Value)
++#define SET_8814A_H2CCMD_P2P_PS_OFFLOAD_ALLSTASLEEP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 5, 1, __Value)
++#define SET_8814A_H2CCMD_P2P_PS_OFFLOAD_DISCOVERY(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 6, 1, __Value)
++
++s32 FillH2CCmd_8814(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++void rtl8814_set_raid_cmd(PADAPTER padapter, u64 bitmap, u8 *arg, u8 bw);
++void rtl8814_set_wowlan_cmd(_adapter *padapter, u8 enable);
++void rtl8814_set_FwJoinBssReport_cmd(PADAPTER padapter, u8 mstatus);
++void rtl8814_set_FwPwrMode_cmd(PADAPTER padapter, u8 PSMode);
++u8 GetTxBufferRsvdPageNum8814(_adapter *padapter, bool wowlan);
++u8 rtl8814_set_rssi_cmd(_adapter *padapter, u8 *param);
++
++#ifdef CONFIG_TDLS
++	#ifdef CONFIG_TDLS_CH_SW
++		void rtl8814_set_BcnEarly_C2H_Rpt_cmd(PADAPTER padapter, u8 enable);
++	#endif
++#endif
++
++void
++Set_RA_LDPC_8814(
++	struct sta_info	*psta,
++	BOOLEAN			bLDPC
++);
++
++s32 c2h_handler_8814a(_adapter *adapter, u8 id, u8 seq, u8 plen, u8 *payload);
++
++#ifdef CONFIG_P2P_PS
++	void rtl8814_set_p2p_ps_offload_cmd(PADAPTER padapter, u8 p2p_ps_state);
++#endif /* CONFIG_P2P */
++
++#endif/* __RTL8814A_CMD_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8814a_dm.h b/drivers/net/wireless/rtl8723du/include/rtl8814a_dm.h
+new file mode 100644
+index 0000000..bb925e4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8814a_dm.h
+@@ -0,0 +1,28 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8814A_DM_H__
++#define __RTL8814A_DM_H__
++
++void rtl8814_init_dm_priv(IN PADAPTER Adapter);
++void rtl8814_deinit_dm_priv(IN PADAPTER Adapter);
++void rtl8814_InitHalDm(IN PADAPTER Adapter);
++void rtl8814_HalDmWatchDog(IN PADAPTER Adapter);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8814a_hal.h b/drivers/net/wireless/rtl8723du/include/rtl8814a_hal.h
+new file mode 100644
+index 0000000..c5a3f88
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8814a_hal.h
+@@ -0,0 +1,324 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8814A_HAL_H__
++#define __RTL8814A_HAL_H__
++
++/* #include "hal_com.h" */
++#include "hal_data.h"
++
++/* include HAL Related header after HAL Related compiling flags */
++#include "rtl8814a_spec.h"
++#include "rtl8814a_rf.h"
++#include "rtl8814a_dm.h"
++#include "rtl8814a_recv.h"
++#include "rtl8814a_xmit.h"
++#include "rtl8814a_cmd.h"
++#include "rtl8814a_led.h"
++#include "Hal8814PwrSeq.h"
++#include "Hal8814PhyReg.h"
++#include "Hal8814PhyCfg.h"
++#ifdef DBG_CONFIG_ERROR_DETECT
++	#include "rtl8814a_sreset.h"
++#endif /* DBG_CONFIG_ERROR_DETECT */
++
++enum {
++	VOLTAGE_V25						= 0x03,
++	LDOE25_SHIFT					= 28 ,
++};
++/* max. iram is 64k , max dmen is 32k. Total = 96k = 0x18000*/
++#define FW_SIZE							0x18000
++#define FW_START_ADDRESS   0x1000
++typedef struct _RT_FIRMWARE_8814 {
++	FIRMWARE_SOURCE	eFWSource;
++#ifdef CONFIG_EMBEDDED_FWIMG
++	u8			*szFwBuffer;
++#else
++	u8			szFwBuffer[FW_SIZE];
++#endif
++	u32			ulFwLength;
++} RT_FIRMWARE_8814, *PRT_FIRMWARE_8814;
++
++#define PAGE_SIZE_TX_8814	PAGE_SIZE_128
++#define BCNQ_PAGE_NUM_8814		0x08
++
++#define Rtl8814A_NIC_PWR_ON_FLOW				rtl8814A_power_on_flow
++#define Rtl8814A_NIC_RF_OFF_FLOW				rtl8814A_radio_off_flow
++#define Rtl8814A_NIC_DISABLE_FLOW				rtl8814A_card_disable_flow
++#define Rtl8814A_NIC_ENABLE_FLOW				rtl8814A_card_enable_flow
++#define Rtl8814A_NIC_SUSPEND_FLOW				rtl8814A_suspend_flow
++#define Rtl8814A_NIC_RESUME_FLOW				rtl8814A_resume_flow
++#define Rtl8814A_NIC_PDN_FLOW					rtl8814A_hwpdn_flow
++#define Rtl8814A_NIC_LPS_ENTER_FLOW			rtl8814A_enter_lps_flow
++#define Rtl8814A_NIC_LPS_LEAVE_FLOW			rtl8814A_leave_lps_flow
++
++/* *****************************************************
++ *				New	Firmware Header(8-byte alinment required)
++ * *****************************************************
++ * --- LONG WORD 0 ---- */
++#define GET_FIRMWARE_HDR_SIGNATURE_3081(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr, 0, 16)
++#define GET_FIRMWARE_HDR_CATEGORY_3081(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr, 16, 8) /* AP/NIC and USB/PCI */
++#define GET_FIRMWARE_HDR_FUNCTION_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr, 24, 8) /* Reserved for different FW function indcation, for further use when driver needs to download different FW in different conditions */
++#define GET_FIRMWARE_HDR_VERSION_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+4, 0, 16)/* FW Version */
++#define GET_FIRMWARE_HDR_SUB_VER_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+4, 16, 8) /* FW Subversion, default 0x00 */
++#define GET_FIRMWARE_HDR_SUB_IDX_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+4, 24, 8) /* FW Subversion Index */
++
++/* --- LONG WORD 1 ---- */
++#define GET_FIRMWARE_HDR_SVN_IDX_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+8, 0, 32)/* The SVN entry index */
++#define GET_FIRMWARE_HDR_RSVD1_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+12, 0, 32)
++
++/* --- LONG WORD 2 ---- */
++#define GET_FIRMWARE_HDR_MONTH_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+16, 0, 8) /* Release time Month field */
++#define GET_FIRMWARE_HDR_DATE_3081(__FwHdr)				LE_BITS_TO_4BYTE(__FwHdr+16, 8, 8) /* Release time Date field */
++#define GET_FIRMWARE_HDR_HOUR_3081(__FwHdr)				LE_BITS_TO_4BYTE(__FwHdr+16, 16, 8)/* Release time Hour field */
++#define GET_FIRMWARE_HDR_MINUTE_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+16, 24, 8)/* Release time Minute field */
++#define GET_FIRMWARE_HDR_YEAR_3081(__FwHdr)				LE_BITS_TO_4BYTE(__FwHdr+20, 0, 16)/* Release time Year field */
++#define GET_FIRMWARE_HDR_FOUNDRY_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+20, 16, 8)/* Release time Foundry field */
++#define GET_FIRMWARE_HDR_RSVD2_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+20, 24, 8)
++
++/* --- LONG WORD 3 ---- */
++#define GET_FIRMWARE_HDR_MEM_UASGE_DL_FROM_3081(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr+24, 0, 1)
++#define GET_FIRMWARE_HDR_MEM_UASGE_BOOT_FROM_3081(__FwHdr)	LE_BITS_TO_4BYTE(__FwHdr+24, 1, 1)
++#define GET_FIRMWARE_HDR_MEM_UASGE_BOOT_LOADER_3081(__FwHdr)LE_BITS_TO_4BYTE(__FwHdr+24, 2, 1)
++#define GET_FIRMWARE_HDR_MEM_UASGE_IRAM_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+24, 3, 1)
++#define GET_FIRMWARE_HDR_MEM_UASGE_ERAM_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+24, 4, 1)
++#define GET_FIRMWARE_HDR_MEM_UASGE_RSVD4_3081(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr+24, 5, 3)
++#define GET_FIRMWARE_HDR_RSVD3_3081(__FwHdr)					LE_BITS_TO_4BYTE(__FwHdr+24, 8, 8)
++#define GET_FIRMWARE_HDR_BOOT_LOADER_SZ_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+24, 16, 16)
++#define GET_FIRMWARE_HDR_RSVD5_3081(__FwHdr)					LE_BITS_TO_4BYTE(__FwHdr+28, 0, 32)
++
++/* --- LONG WORD 4 ---- */
++#define GET_FIRMWARE_HDR_TOTAL_DMEM_SZ_3081(__FwHdr)	LE_BITS_TO_4BYTE(__FwHdr+36, 0, 32)
++#define GET_FIRMWARE_HDR_FW_CFG_SZ_3081(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr+36, 0, 16)
++#define GET_FIRMWARE_HDR_FW_ATTR_SZ_3081(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr+36, 16, 16)
++
++/* --- LONG WORD 5 ---- */
++#define GET_FIRMWARE_HDR_IROM_3081(__FwHdr)				LE_BITS_TO_4BYTE(__FwHdr+40, 0, 32)
++#define GET_FIRMWARE_HDR_EROM_3081(__FwHdr)				LE_BITS_TO_4BYTE(__FwHdr+44, 0, 32)
++
++/* --- LONG WORD 6 ---- */
++#define GET_FIRMWARE_HDR_IRAM_SZ_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+48, 0, 32)
++#define GET_FIRMWARE_HDR_ERAM_SZ_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+52, 0, 32)
++
++/* --- LONG WORD 7 ---- */
++#define GET_FIRMWARE_HDR_RSVD6_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+56, 0, 32)
++#define GET_FIRMWARE_HDR_RSVD7_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+60, 0, 32)
++
++
++
++/*
++ * 2013/08/16 MH MOve from SDIO.h for common use.
++ *   */
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_USB_HCI)
++	#define TRX_SHARE_MODE_8814A				0	/* TRX Buffer Share Index */
++	#define BASIC_RXFF_SIZE_8814A				24576/* Basic RXFF Size is 24K = 24*1024 Unit: Byte */
++	#define TRX_SHARE_BUFF_UNIT_8814A			65536/* TRX Share Buffer unit Size 64K = 64*1024 Unit: Byte */
++	#define TRX_SHARE_BUFF_UNIT_PAGE_8814A	(TRX_SHARE_BUFF_UNIT_8814A/PAGE_SIZE_8814A)/* 512 Pages */
++
++	/* Origin: */
++	#define  HPQ_PGNUM_8814A					0x20	/* High Queue */
++	#define  LPQ_PGNUM_8814A					0x20	/* Low Queue */
++	#define  NPQ_PGNUM_8814A					0x20	/* Normal Queue */
++	#define  EPQ_PGNUM_8814A					0x20	/* Extra Queue */
++
++#else	/*  #if defined(CONFIG_SDIO_HCI) || defined(CONFIG_USB_HCI) */
++
++	#define  HPQ_PGNUM_8814A		20
++	#define  NPQ_PGNUM_8814A		20
++	#define  LPQ_PGNUM_8814A		20 /* 1972 */
++	#define  EPQ_PGNUM_8814A		20
++	#define  BCQ_PGNUM_8814A		32
++
++#endif /* #if defined(CONFIG_SDIO_HCI) || defined(CONFIG_USB_HCI) */
++
++#ifdef CONFIG_WOWLAN
++	#define WOWLAN_PAGE_NUM_8814	0x00
++#else
++	#define WOWLAN_PAGE_NUM_8814	0x00
++#endif
++
++#define PAGE_SIZE_8814A						128/* TXFF Page Size, Unit: Byte */
++#define MAX_RX_DMA_BUFFER_SIZE_8814A		0x5C00	/* BASIC_RXFF_SIZE_8814A + TRX_SHARE_MODE_8814A * TRX_SHARE_BUFF_UNIT_8814A */ /* Basic RXFF Size + ShareBuffer Size */
++#define TX_PAGE_BOUNDARY_8814A			TXPKT_PGNUM_8814A	/* Need to enlarge boundary, by KaiYuan */
++#define TX_PAGE_BOUNDARY_WOWLAN_8814A	TXPKT_PGNUM_8814A	/* TODO: 20130415 KaiYuan Check this value later */
++
++#ifdef CONFIG_FW_C2H_DEBUG
++	#define RX_DMA_RESERVED_SIZE_8814A	0x100	/* 256B, reserved for c2h debug message */
++#else
++	#define RX_DMA_RESERVED_SIZE_8814A	0x0	/* 0B */
++#endif
++#define RX_DMA_BOUNDARY_8814A		(MAX_RX_DMA_BUFFER_SIZE_8814A - RX_DMA_RESERVED_SIZE_8814A - 1)
++
++#define  TOTAL_PGNUM_8814A		2048
++#define  TXPKT_PGNUM_8814A		(2048 - BCNQ_PAGE_NUM_8814-WOWLAN_PAGE_NUM_8814)
++#define  PUB_PGNUM_8814A		(TXPKT_PGNUM_8814A-HPQ_PGNUM_8814A-NPQ_PGNUM_8814A-LPQ_PGNUM_8814A-EPQ_PGNUM_8814A)
++
++/* Note: For WMM Normal Chip Setting ,modify later */
++#define WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8814A	TX_PAGE_BOUNDARY_8814A
++#define WMM_NORMAL_TX_PAGE_BOUNDARY_8814A		(WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8814A + 1)
++
++#define DRIVER_EARLY_INT_TIME_8814		0x05
++#define BCN_DMA_ATIME_INT_TIME_8814		0x02
++
++
++#define MAX_PAGE_SIZE			4096	/* @ page : 4k bytes */
++
++#define EFUSE_MAX_SECTION_JAGUAR				64
++
++#define	HWSET_MAX_SIZE_8814A			512
++
++#define	EFUSE_REAL_CONTENT_LEN_8814A	1024
++#define	EFUSE_MAX_BANK_8814A		2
++
++#define	EFUSE_MAP_LEN_8814A			512
++#define	EFUSE_MAX_SECTION_8814A		64
++#define	EFUSE_MAX_WORD_UNIT_8814A		4
++#define	EFUSE_PROTECT_BYTES_BANK_8814A		16
++
++#define	EFUSE_IC_ID_OFFSET_8814A		506	/* For some inferiority IC purpose. added by Roger, 2009.09.02. */
++#define AVAILABLE_EFUSE_ADDR_8814A(addr)	(addr < EFUSE_REAL_CONTENT_LEN_8814A)
++
++/*-------------------------------------------------------------------------
++Chip specific
++-------------------------------------------------------------------------*/
++
++/* pic buffer descriptor */
++#if 1 /* according to the define in the rtw_xmit.h, rtw_recv.h */
++	#define RTL8814AE_SEG_NUM  TX_BUFFER_SEG_NUM /* 0:2 seg, 1: 4 seg, 2: 8 seg */
++	#define TX_DESC_NUM_8814A  TXDESC_NUM   /* 128 */
++	#define RX_DESC_NUM_8814A  PCI_MAX_RX_COUNT /* 128 */
++	#ifdef CONFIG_CONCURRENT_MODE
++		#define BE_QUEUE_TX_DESC_NUM_8814A  (TXDESC_NUM<<1)    /* 256 */
++	#else
++		#define BE_QUEUE_TX_DESC_NUM_8814A  (TXDESC_NUM+(TXDESC_NUM>>1)) /* 192 */
++	#endif
++#else
++	#define RTL8814AE_SEG_NUM  TX_BUFFER_SEG_NUM /* 0:2 seg, 1: 4 seg, 2: 8 seg */
++	#define TX_DESC_NUM_8814A  128 /* 1024//2048 change by ylb 20130624 */
++	#define RX_DESC_NUM_8814A  128 /* 1024 //512 change by ylb 20130624 */
++#endif
++
++/* <Roger_Notes> To prevent out of boundary programming case, leave 1byte and program full section
++ * 9bytes + 1byt + 5bytes and pre 1byte.
++ * For worst case:
++ * | 1byte|----8bytes----|1byte|--5bytes--|
++ * |         |            Reserved(14bytes)	      |
++ *   */
++#define	EFUSE_OOB_PROTECT_BYTES		15	/* PG data exclude header, dummy 6 bytes frome CP test and reserved 1byte. */
++
++/* rtl8814_hal_init.c */
++s32 FirmwareDownload8814A(PADAPTER	Adapter, BOOLEAN bUsedWoWLANFw);
++void	InitializeFirmwareVars8814(PADAPTER padapter);
++
++VOID
++Hal_InitEfuseVars_8814A(
++	IN	PADAPTER	Adapter
++);
++
++s32 InitLLTTable8814A(
++	IN	PADAPTER	Adapter
++);
++
++
++void InitRDGSetting8814A(PADAPTER padapter);
++
++/* void CheckAutoloadState8812A(PADAPTER padapter); */
++
++/* EFuse */
++u8	GetEEPROMSize8814A(PADAPTER padapter);
++VOID hal_InitPGData_8814A(
++ IN PADAPTER  padapter,
++ IN OUT u8   *PROMContent
++);
++
++void	hal_ReadPROMVersion8814A(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	hal_ReadTxPowerInfo8814A(PADAPTER padapter, u8 *hwinfo, BOOLEAN	AutoLoadFail);
++void	hal_ReadBoardType8814A(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	hal_ReadThermalMeter_8814A(PADAPTER	Adapter, u8 *PROMContent, BOOLEAN	AutoloadFail);
++void	hal_ReadChannelPlan8814A(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	hal_EfuseParseXtal_8814A(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	hal_ReadAntennaDiversity8814A(PADAPTER pAdapter, u8 *PROMContent, BOOLEAN AutoLoadFail);
++void	hal_Read_TRX_antenna_8814A(PADAPTER	Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++VOID hal_ReadAmplifierType_8814A(
++	IN	PADAPTER		Adapter
++);
++VOID hal_ReadPAType_8814A(
++	IN	PADAPTER	Adapter,
++	IN	u8			*PROMContent,
++	IN	BOOLEAN		AutoloadFail,
++	OUT u8		*pPAType,
++	OUT u8		*pLNAType
++);
++
++void hal_ReadPowerTrackingType_8814A(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++
++void hal_GetRxGainOffset_8814A(
++	PADAPTER	Adapter,
++	pu1Byte		PROMContent,
++	BOOLEAN		AutoloadFail
++);
++void Hal_EfuseParseKFreeData_8814A(
++	IN		PADAPTER		Adapter,
++	IN		u8				*PROMContent,
++	IN		BOOLEAN			AutoloadFail);
++void	hal_ReadRFEType_8814A(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++void	hal_EfuseParseBTCoexistInfo8814A(PADAPTER Adapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++
++/* void	hal_ReadUsbType_8812AU(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++ * int	FirmwareDownloadBT(PADAPTER Adapter, PRT_MP_FIRMWARE pFirmware); */
++void	hal_ReadRemoteWakeup_8814A(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++u8	MgntQuery_NssTxRate(u16 Rate);
++
++/* BOOLEAN HalDetectPwrDownMode8812(PADAPTER Adapter); */
++
++#ifdef CONFIG_WOWLAN
++	void Hal_DetectWoWMode(PADAPTER pAdapter);
++#endif /* CONFIG_WOWLAN */
++
++void _InitBeaconParameters_8814A(PADAPTER padapter);
++void SetBeaconRelatedRegisters8814A(PADAPTER padapter);
++
++void ReadRFType8814A(PADAPTER padapter);
++void InitDefaultValue8814A(PADAPTER padapter);
++
++void SetHwReg8814A(PADAPTER padapter, u8 variable, u8 *pval);
++void GetHwReg8814A(PADAPTER padapter, u8 variable, u8 *pval);
++u8 SetHalDefVar8814A(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++u8 GetHalDefVar8814A(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++void rtl8814_set_hal_ops(struct hal_ops *pHalFunc);
++void init_hal_spec_8814a(_adapter *adapter);
++
++/* register */
++void SetBcnCtrlReg(PADAPTER padapter, u8 SetBits, u8 ClearBits);
++void SetBcnCtrlReg(PADAPTER	Adapter, u8	SetBits, u8	ClearBits);
++void rtl8814_start_thread(PADAPTER padapter);
++void rtl8814_stop_thread(PADAPTER padapter);
++
++
++#ifdef CONFIG_PCI_HCI
++	BOOLEAN	InterruptRecognized8814AE(PADAPTER Adapter);
++	VOID	UpdateInterruptMask8814AE(PADAPTER Adapter, u32 AddMSR, u32 AddMSR1, u32 RemoveMSR, u32 RemoveMSR1);
++	u16	get_txbd_idx_addr(u16 ff_hwaddr);
++#endif
++
++#ifdef CONFIG_BT_COEXIST
++	void rtl8812a_combo_card_WifiOnlyHwInit(PADAPTER Adapter);
++#endif
++
++#endif /* __RTL8188E_HAL_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8814a_led.h b/drivers/net/wireless/rtl8723du/include/rtl8814a_led.h
+new file mode 100644
+index 0000000..1137a9b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8814a_led.h
+@@ -0,0 +1,40 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8814A_LED_H__
++#define __RTL8814A_LED_H__
++
++
++/* ********************************************************************************
++ * Interface to manipulate LED objects.
++ * ******************************************************************************** */
++#ifdef CONFIG_USB_HCI
++	void rtl8814au_InitSwLeds(PADAPTER padapter);
++	void rtl8814au_DeInitSwLeds(PADAPTER padapter);
++#endif /* CONFIG_USB_HCI */
++#ifdef CONFIG_PCI_HCI
++	void rtl8814ae_InitSwLeds(PADAPTER padapter);
++	void rtl8814ae_DeInitSwLeds(PADAPTER padapter);
++#endif /* CONFIG_PCI_HCI */
++#ifdef CONFIG_SDIO_HCI
++	void rtl8814s_InitSwLeds(PADAPTER padapter);
++	void rtl8814s_DeInitSwLeds(PADAPTER padapter);
++#endif /* CONFIG_SDIO_HCI */
++
++#endif /* __RTL8814A_LED_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8814a_recv.h b/drivers/net/wireless/rtl8723du/include/rtl8814a_recv.h
+new file mode 100644
+index 0000000..e9626f3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8814a_recv.h
+@@ -0,0 +1,191 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8814A_RECV_H__
++#define __RTL8814A_RECV_H__
++
++#if defined(CONFIG_USB_HCI)
++
++	#ifndef MAX_RECVBUF_SZ
++		#ifdef PLATFORM_OS_CE
++			#define MAX_RECVBUF_SZ (8192+1024) /* 8K+1k */
++		#else
++			#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++				#ifdef CONFIG_PLATFORM_MSTAR
++					#define MAX_RECVBUF_SZ (8192) /* 8K */
++				#else
++					#define MAX_RECVBUF_SZ (32768) /* 32k */
++				#endif
++				/* #define MAX_RECVBUF_SZ (24576) */ /* 24k */
++				/* #define MAX_RECVBUF_SZ (20480) */ /* 20K */
++				/* #define MAX_RECVBUF_SZ (10240) */ /* 10K */
++				/* #define MAX_RECVBUF_SZ (15360) */ /* 15k < 16k */
++				/* #define MAX_RECVBUF_SZ (8192+1024) */ /* 8K+1k */
++			#else
++				#define MAX_RECVBUF_SZ (4000) /* about 4K */
++			#endif
++		#endif
++	#endif /* !MAX_RECVBUF_SZ */
++
++#elif defined(CONFIG_PCI_HCI)
++	/* #ifndef CONFIG_MINIMAL_MEMORY_USAGE */
++	/*	#define MAX_RECVBUF_SZ (9100) */
++	/* #else */
++	#define MAX_RECVBUF_SZ (4000) /* about 4K
++	* #endif */
++
++
++#elif defined(CONFIG_SDIO_HCI)
++	#if 0
++		/* temp solution */
++		#ifdef CONFIG_SDIO_RX_COPY
++			#define MAX_RECVBUF_SZ (10240)
++		#else /*  !CONFIG_SDIO_RX_COPY */
++			#define MAX_RECVBUF_SZ	MAX_RX_DMA_BUFFER_SIZE_8821
++		#endif /*  !CONFIG_SDIO_RX_COPY */
++	#endif
++#endif
++
++
++/* RX buffer descriptor */
++/* DWORD 0 */
++#define SET_RX_BUFFER_DESC_DATA_LENGTH_8814A(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++#define SET_RX_BUFFER_DESC_LS_8814A(__pRxStatusDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 14, 1, __Value)
++#define SET_RX_BUFFER_DESC_FS_8814A(__pRxStatusDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 15, 1, __Value)
++#define SET_RX_BUFFER_DESC_TOTAL_LENGTH_8814A(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 16, 16, __Value)
++
++#define GET_RX_BUFFER_DESC_OWN_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc, 31, 1)
++#define GET_RX_BUFFER_DESC_LS_8814A(__pRxStatusDesc)							LE_BITS_TO_4BYTE(__pRxStatusDesc, 14, 1)
++#define GET_RX_BUFFER_DESC_FS_8814A(__pRxStatusDesc)							LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++#define GET_RX_BUFFER_DESC_TOTAL_LENGTH_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 15)
++
++/* DWORD 1 */
++#define SET_RX_BUFFER_PHYSICAL_LOW_8814A(__pRxStatusDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pRxStatusDesc+4, 0, 32, __Value)
++#define GET_RX_BUFFER_PHYSICAL_LOW_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 0, 32)
++
++/* DWORD 2 */
++#define SET_RX_BUFFER_PHYSICAL_HIGH_8814A(__pRxStatusDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pRxStatusDesc+8, 0, 32, __Value)
++
++/* DWORD 3*/ /* RESERVED */
++
++
++#if 0
++	/* =============
++	* RX Info
++	* ============== */
++#endif
++/* DWORD 0 */
++#define SET_RX_STATUS_DESC_PKT_LEN_8814A(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++#define SET_RX_STATUS_DESC_EOR_8814A(__pRxStatusDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 30, 1, __Value)
++#define SET_RX_STATUS_DESC_OWN_8814AE(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 31, 1, __Value)
++
++#define GET_RX_STATUS_DESC_PKT_LEN_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 0, 14)
++#define GET_RX_STATUS_DESC_CRC32_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc, 14, 1)
++#define GET_RX_STATUS_DESC_ICV_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++#define GET_RX_STATUS_DESC_DRVINFO_SIZE_8814A(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 4)
++#define GET_RX_STATUS_DESC_SECURITY_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 20, 3)
++#define GET_RX_STATUS_DESC_QOS_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc, 23, 1)
++#define GET_RX_STATUS_DESC_SHIFT_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc, 24, 2)
++#define GET_RX_STATUS_DESC_PHY_STATUS_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 26, 1)
++#define GET_RX_STATUS_DESC_SWDEC_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc, 27, 1)
++#define GET_RX_STATUS_DESC_LAST_SEG_8814AE(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 28, 1)
++#define GET_RX_STATUS_DESC_EOR_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc, 30, 1)
++
++/* DWORD 1 */
++#define GET_RX_STATUS_DESC_MACID_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 0, 7)
++#define GET_RX_STATUS_DESC_EXT_SECTYPE_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 7, 1)/* 20130415 KaiYuan add for 8814 */
++#define GET_RX_STATUS_DESC_TID_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 8, 4)
++#define GET_RX_STATUS_DESC_MACID_VLD_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 12, 1)
++#define GET_RX_STATUS_DESC_AMSDU_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 13, 1)
++#define GET_RX_STATUS_DESC_RXID_MATCH_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 14, 1)
++#define GET_RX_STATUS_DESC_PAGGR_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 15, 1)
++#define GET_RX_STATUS_DESC_TCPOFFLOAD_CHKERR_8814A(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 20, 1)
++#define GET_RX_STATUS_DESC_TCPOFFLOAD_IPVER_8814A(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 21, 1)
++#define GET_RX_STATUS_DESC_TCPOFFLOAD_IS_TCPUDP_8814A(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 22, 1)
++#define GET_RX_STATUS_DESC_TCPOFFLOAD_CHK_VLD_8814A(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 23, 1)
++#define GET_RX_STATUS_DESC_PAM_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 24, 1)
++#define GET_RX_STATUS_DESC_PWR_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 25, 1)
++#define GET_RX_STATUS_DESC_MORE_DATA_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 26, 1)
++#define GET_RX_STATUS_DESC_MORE_FRAG_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 27, 1)
++#define GET_RX_STATUS_DESC_TYPE_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 28, 2)
++#define GET_RX_STATUS_DESC_FIRST_SEG_8814AE(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 29, 1)
++#define GET_RX_STATUS_DESC_EOR_8814AE(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 30, 1)
++#define GET_RX_STATUS_DESC_MC_8814A(__pRxStatusDesc)							LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 30, 1)
++#define GET_RX_STATUS_DESC_BC_8814A(__pRxStatusDesc)							LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 31, 1)
++
++/* DWORD 2 */
++#define GET_RX_STATUS_DESC_SEQ_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 0, 12)
++#define GET_RX_STATUS_DESC_FRAG_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 12, 4)
++#ifdef CONFIG_USB_RX_AGGREGATION
++	#define GET_RX_STATUS_DESC_USB_AGG_PKTNUM_8814A(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 16, 8)
++#else
++	#define GET_RX_STATUS_DESC_RX_IS_QOS_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 16, 1)
++#endif
++#define GET_RX_STATUS_DESC_WLANHD_IV_LEN_8814A(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 18, 6)
++#define GET_RX_STATUS_DESC_HWRSVD_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 24, 4)
++#define GET_RX_STATUS_C2H_8814A(__pRxStatusDesc)								LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 28, 1)
++#define GET_RX_STATUS_DESC_FCS_OK_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 31, 1)
++
++/* DWORD 3 */
++#define GET_RX_STATUS_DESC_RX_RATE_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 0, 7)
++#define GET_RX_STATUS_DESC_BSSID_FIT_H_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 7, 3)/* 20130415 KaiYuan add for 8814 */
++#define GET_RX_STATUS_DESC_HTC_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 10, 1)
++#define GET_RX_STATUS_DESC_EOSP_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 11, 1)
++#define GET_RX_STATUS_DESC_BSSID_FIT_L_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 12, 2)
++#define GET_RX_STATUS_DESC_DMA_AGG_NUM_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 16, 8)/* 20130415 KaiYuan Check if it exist anymore */
++#define GET_RX_STATUS_DESC_PATTERN_MATCH_8814A(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 29, 1)
++#define GET_RX_STATUS_DESC_UNICAST_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 30, 1)
++#define GET_RX_STATUS_DESC_MAGIC_WAKE_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 31, 1)
++
++/* DWORD 4 */
++#define GET_RX_STATUS_DESC_PATTERN_IDX_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+16, 0, 8)
++#define GET_RX_STATUS_DESC_RX_EOF_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+16, 8, 1)
++#define GET_RX_STATUS_DESC_RX_SCRAMBLER_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+16, 9, 7)
++#define GET_RX_STATUS_DESC_RX_PRE_NDP_VLD_8814A(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+16, 16, 1)
++#define GET_RX_STATUS_DESC_A1_FIT_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+16, 24, 5)
++
++
++/* DWORD 5 */
++#define GET_RX_STATUS_DESC_TSFL_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+20, 0, 32)
++
++
++/* Rx smooth factor */
++#define Rx_Smooth_Factor (20)
++
++#ifdef CONFIG_USB_HCI
++	s32 rtl8814au_init_recv_priv(PADAPTER padapter);
++	void rtl8814au_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8814ae_init_recv_priv(PADAPTER padapter);
++	void rtl8814ae_free_recv_priv(PADAPTER padapter);
++#endif
++
++#if 0
++	/* temp solution */
++	#ifdef CONFIG_SDIO_HCI
++		s32 InitRecvPriv8821AS(PADAPTER padapter);
++		void FreeRecvPriv8821AS(PADAPTER padapter);
++	#endif /*  CONFIG_SDIO_HCI */
++#endif
++
++void rtl8814_query_rx_desc_status(union recv_frame *precvframe, u8 *pdesc);
++
++#endif /* __RTL8814A_RECV_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8814a_rf.h b/drivers/net/wireless/rtl8723du/include/rtl8814a_rf.h
+new file mode 100644
+index 0000000..7b11d99
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8814a_rf.h
+@@ -0,0 +1,33 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8814A_RF_H__
++#define __RTL8814A_RF_H__
++
++VOID
++PHY_RF6052SetBandwidth8814A(
++	IN	PADAPTER				Adapter,
++	IN	CHANNEL_WIDTH		Bandwidth);
++
++
++int
++PHY_RF6052_Config_8814A(
++	IN	PADAPTER	Adapter);
++
++#endif/* __RTL8188E_RF_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8814a_spec.h b/drivers/net/wireless/rtl8723du/include/rtl8814a_spec.h
+new file mode 100644
+index 0000000..43a6381
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8814a_spec.h
+@@ -0,0 +1,651 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#ifndef __RTL8814A_SPEC_H__
++#define __RTL8814A_SPEC_H__
++
++#include <drv_conf.h>
++
++
++/* ************************************************************
++ *
++ * ************************************************************ */
++
++/* -----------------------------------------------------
++ *
++ *	0x0000h ~ 0x00FFh	System Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_SYS_ISO_CTRL_8814A			0x0000	/* 2 Byte */
++#define REG_SYS_FUNC_EN_8814A			0x0002	/* 2 Byte */
++#define REG_SYS_PW_CTRL_8814A			0x0004	/* 4 Byte        */
++#define REG_SYS_CLKR_8814A				0x0008	/* 2 Byte */
++#define REG_SYS_EEPROM_CTRL_8814A		0x000A	/* 2 Byte        */
++#define REG_EE_VPD_8814A				0x000C	/* 2 Byte */
++#define REG_SYS_SWR_CTRL1_8814A			0x0010	/* 1 Byte */
++#define REG_SPS0_CTRL_8814A				0x0011	/* 7 Byte */
++#define REG_SYS_SWR_CTRL3_8814A			0x0018	/* 4 Byte */
++#define REG_RSV_CTRL_8814A				0x001C	/* 3 Byte */
++#define REG_RF_CTRL0_8814A				0x001F	/* 1 Byte */
++#define REG_RF_CTRL1_8814A				0x0020	/* 1 Byte */
++#define REG_RF_CTRL2_8814A				0x0021	/* 1 Byte */
++#define REG_LPLDO_CTRL_8814A			0x0023	/* 1 Byte */
++#define REG_AFE_CTRL1_8814A				0x0024	/* 4 Byte        */
++#define REG_AFE_CTRL2_8814A				0x0028	/* 4 Byte        */
++#define REG_AFE_CTRL3_8814A				0x002c	/* 4 Byte  */
++#define REG_EFUSE_CTRL_8814A			0x0030
++#define REG_LDO_EFUSE_CTRL_8814A		0x0034
++#define REG_PWR_DATA_8814A				0x0038
++#define REG_CAL_TIMER_8814A				0x003C
++#define REG_ACLK_MON_8814A				0x003E
++#define REG_GPIO_MUXCFG_8814A			0x0040
++#define REG_GPIO_IO_SEL_8814A			0x0042
++#define REG_MAC_PINMUX_CFG_8814A		0x0043
++#define REG_GPIO_PIN_CTRL_8814A			0x0044
++#define REG_GPIO_INTM_8814A				0x0048
++#define REG_LEDCFG0_8814A				0x004C
++#define REG_LEDCFG1_8814A				0x004D
++#define REG_LEDCFG2_8814A				0x004E
++#define REG_LEDCFG3_8814A				0x004F
++#define REG_FSIMR_8814A					0x0050
++#define REG_FSISR_8814A					0x0054
++#define REG_HSIMR_8814A					0x0058
++#define REG_HSISR_8814A					0x005c
++#define REG_GPIO_EXT_CTRL_8814A			0x0060
++#define REG_GPIO_STATUS_8814A			0x006C
++#define REG_SDIO_CTRL_8814A				0x0070
++#define REG_HCI_OPT_CTRL_8814A			0x0074
++#define REG_RF_CTRL3_8814A				0x0076	/* 1 Byte */
++#define REG_AFE_CTRL4_8814A				0x0078
++#define REG_8051FW_CTRL_8814A			0x0080
++#define REG_HIMR0_8814A					0x00B0
++#define REG_HISR0_8814A					0x00B4
++#define REG_HIMR1_8814A					0x00B8
++#define REG_HISR1_8814A					0x00BC
++#define REG_SYS_CFG1_8814A				0x00F0
++#define REG_SYS_CFG2_8814A				0x00FC
++#define REG_SYS_CFG3_8814A				0x1000
++
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_CR_8814A						0x0100
++#define REG_PBP_8814A					0x0104
++#define REG_PKT_BUFF_ACCESS_CTRL_8814A	0x0106
++#define REG_TRXDMA_CTRL_8814A			0x010C
++#define REG_TRXFF_BNDY_8814A			0x0114
++#define REG_TRXFF_STATUS_8814A			0x0118
++#define REG_RXFF_PTR_8814A				0x011C
++#define REG_CPWM_8814A					0x012F
++#define REG_FWIMR_8814A					0x0130
++#define REG_FWISR_8814A					0x0134
++#define REG_FTIMR_8814A					0x0138
++#define REG_PKTBUF_DBG_CTRL_8814A		0x0140
++#define REG_RXPKTBUF_CTRL_8814A		0x0142
++#define REG_PKTBUF_DBG_DATA_L_8814A	0x0144
++#define REG_PKTBUF_DBG_DATA_H_8814A	0x0148
++
++#define REG_WOWLAN_WAKE_REASON			REG_MCUTST_WOWLAN
++
++#define REG_TC0_CTRL_8814A				0x0150
++#define REG_TC1_CTRL_8814A				0x0154
++#define REG_TC2_CTRL_8814A				0x0158
++#define REG_TC3_CTRL_8814A				0x015C
++#define REG_TC4_CTRL_8814A				0x0160
++#define REG_TCUNIT_BASE_8814A			0x0164
++#define REG_RSVD3_8814A					0x0168
++#define REG_C2HEVT_MSG_NORMAL_8814A	0x01A0
++#define REG_C2HEVT_CLEAR_8814A			0x01AF
++#define REG_MCUTST_1_8814A				0x01C0
++#define REG_MCUTST_WOWLAN_8814A		0x01C7
++#define REG_FMETHR_8814A				0x01C8
++#define REG_HMETFR_8814A				0x01CC
++#define REG_HMEBOX_0_8814A				0x01D0
++#define REG_HMEBOX_1_8814A				0x01D4
++#define REG_HMEBOX_2_8814A				0x01D8
++#define REG_HMEBOX_3_8814A				0x01DC
++#define REG_LLT_INIT_8814A				0x01E0
++#define REG_LLT_ADDR_8814A				0x01E4 /* 20130415 KaiYuan add for 8814 */
++#define REG_HMEBOX_EXT0_8814A			0x01F0
++#define REG_HMEBOX_EXT1_8814A			0x01F4
++#define REG_HMEBOX_EXT2_8814A			0x01F8
++#define REG_HMEBOX_EXT3_8814A			0x01FC
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_FIFOPAGE_CTRL_1_8814A			0x0200
++#define REG_FIFOPAGE_CTRL_2_8814A		0x0204
++#define REG_AUTO_LLT_8814A					0x0208
++#define REG_TXDMA_OFFSET_CHK_8814A	0x020C
++#define REG_TXDMA_STATUS_8814A			0x0210
++#define REG_RQPN_NPQ_8814A				0x0214
++#define REG_TQPNT1_8814A					0x0218
++#define REG_TQPNT2_8814A					0x021C
++#define REG_TQPNT3_8814A					0x0220
++#define REG_TQPNT4_8814A					0x0224
++#define REG_RQPN_CTRL_1_8814A				0x0228
++#define REG_RQPN_CTRL_2_8814A				0x022C
++#define REG_FIFOPAGE_INFO_1_8814A			0x0230
++#define REG_FIFOPAGE_INFO_2_8814A			0x0234
++#define REG_FIFOPAGE_INFO_3_8814A			0x0238
++#define REG_FIFOPAGE_INFO_4_8814A			0x023C
++#define REG_FIFOPAGE_INFO_5_8814A			0x0240
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RXDMA_AGG_PG_TH_8814A		0x0280
++#define REG_RXPKT_NUM_8814A				0x0284 /* The number of packets in RXPKTBUF. */
++#define REG_RXDMA_CONTROL_8814A			0x0286 /* ?????? Control the RX DMA. */
++#define REG_RXDMA_STATUS_8814A			0x0288
++#define REG_RXDMA_MODE_8814A				0x0290 /* ?????? */
++#define REG_EARLY_MODE_CONTROL_8814A	0x02BC /* ?????? */
++#define REG_RSVD5_8814A					0x02F0 /* ?????? */
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0300h ~ 0x03FFh	PCIe
++ *
++ * ----------------------------------------------------- */
++#define	REG_PCIE_CTRL_REG_8814A			0x0300
++#define	REG_INT_MIG_8814A				0x0304	/* Interrupt Migration */
++#define	REG_BCNQ_TXBD_DESA_8814A		0x0308	/* TX Beacon Descriptor Address */
++#define	REG_MGQ_TXBD_DESA_8814A			0x0310	/* TX Manage Queue Descriptor Address */
++#define	REG_VOQ_TXBD_DESA_8814A			0x0318	/* TX VO Queue Descriptor Address */
++#define	REG_VIQ_TXBD_DESA_8814A			0x0320	/* TX VI Queue Descriptor Address */
++#define	REG_BEQ_TXBD_DESA_8814A			0x0328	/* TX BE Queue Descriptor Address */
++#define	REG_BKQ_TXBD_DESA_8814A			0x0330	/* TX BK Queue Descriptor Address */
++#define	REG_RXQ_RXBD_DESA_8814A			0x0338	/* RX Queue	Descriptor Address */
++#define REG_HI0Q_TXBD_DESA_8814A		0x0340
++#define REG_HI1Q_TXBD_DESA_8814A		0x0348
++#define REG_HI2Q_TXBD_DESA_8814A		0x0350
++#define REG_HI3Q_TXBD_DESA_8814A		0x0358
++#define REG_HI4Q_TXBD_DESA_8814A		0x0360
++#define REG_HI5Q_TXBD_DESA_8814A		0x0368
++#define REG_HI6Q_TXBD_DESA_8814A		0x0370
++#define REG_HI7Q_TXBD_DESA_8814A		0x0378
++#define	REG_MGQ_TXBD_NUM_8814A			0x0380
++#define	REG_RX_RXBD_NUM_8814A			0x0382
++#define	REG_VOQ_TXBD_NUM_8814A			0x0384
++#define	REG_VIQ_TXBD_NUM_8814A			0x0386
++#define	REG_BEQ_TXBD_NUM_8814A			0x0388
++#define	REG_BKQ_TXBD_NUM_8814A			0x038A
++#define	REG_HI0Q_TXBD_NUM_8814A			0x038C
++#define	REG_HI1Q_TXBD_NUM_8814A			0x038E
++#define	REG_HI2Q_TXBD_NUM_8814A			0x0390
++#define	REG_HI3Q_TXBD_NUM_8814A			0x0392
++#define	REG_HI4Q_TXBD_NUM_8814A			0x0394
++#define	REG_HI5Q_TXBD_NUM_8814A			0x0396
++#define	REG_HI6Q_TXBD_NUM_8814A			0x0398
++#define	REG_HI7Q_TXBD_NUM_8814A			0x039A
++#define	REG_TSFTIMER_HCI_8814A			0x039C
++
++/* Read Write Point */
++#define	REG_VOQ_TXBD_IDX_8814A			0x03A0
++#define	REG_VIQ_TXBD_IDX_8814A			0x03A4
++#define	REG_BEQ_TXBD_IDX_8814A			0x03A8
++#define	REG_BKQ_TXBD_IDX_8814A			0x03AC
++#define	REG_MGQ_TXBD_IDX_8814A			0x03B0
++#define	REG_RXQ_TXBD_IDX_8814A			0x03B4
++#define	REG_HI0Q_TXBD_IDX_8814A			0x03B8
++#define	REG_HI1Q_TXBD_IDX_8814A			0x03BC
++#define	REG_HI2Q_TXBD_IDX_8814A			0x03C0
++#define	REG_HI3Q_TXBD_IDX_8814A			0x03C4
++#define	REG_HI4Q_TXBD_IDX_8814A			0x03C8
++#define	REG_HI5Q_TXBD_IDX_8814A			0x03CC
++#define	REG_HI6Q_TXBD_IDX_8814A			0x03D0
++#define	REG_HI7Q_TXBD_IDX_8814A			0x03D4
++#define REG_DBG_SEL_V1_8814A				0x03D8
++#define REG_PCIE_HRPWM1_V1_8814A			0x03D9
++#define REG_PCIE_HCPWM1_V1_8814A			0x03DA
++#define REG_PCIE_CTRL2_8814A				0x03DB
++#define REG_PCIE_HRPWM2_V1_8814A			0x03DC
++#define REG_PCIE_HCPWM2_V1_8814A			0x03DE
++#define REG_PCIE_H2C_MSG_V1_8814A		0x03E0
++#define REG_PCIE_C2H_MSG_V1_8814A		0x03E4
++#define REG_DBI_WDATA_V1_8814A			0x03E8
++#define REG_DBI_RDATA_V1_8814A			0x03EC
++#define REG_DBI_FLAG_V1_8814A				0x03F0
++#define REG_MDIO_V1_8814A					0x03F4
++#define REG_PCIE_MIX_CFG_8814A			0x03F8
++#define REG_DBG_8814A						0x03FC
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_VOQ_INFORMATION_8814A		0x0400
++#define REG_VIQ_INFORMATION_8814A		0x0404
++#define REG_BEQ_INFORMATION_8814A		0x0408
++#define REG_BKQ_INFORMATION_8814A		0x040C
++#define REG_MGQ_INFORMATION_8814A		0x0410
++#define REG_HGQ_INFORMATION_8814A		0x0414
++#define REG_BCNQ_INFORMATION_8814A	0x0418
++#define REG_TXPKT_EMPTY_8814A			0x041A
++#define REG_CPU_MGQ_INFORMATION_8814A	0x041C
++#define REG_FWHW_TXQ_CTRL_8814A		0x0420
++#define REG_HWSEQ_CTRL_8814A			0x0423
++#define REG_TXPKTBUF_BCNQ_BDNY_8814A	0x0424
++/* #define REG_MGQ_BDNY_8814A				0x0425 */
++#define REG_LIFETIME_EN_8814A				0x0426
++/* #define REG_FW_FREE_TAIL_8814A			0x0427 */
++#define REG_SPEC_SIFS_8814A				0x0428
++#define REG_RETRY_LIMIT_8814A				0x042A
++#define REG_TXBF_CTRL_8814A				0x042C
++#define REG_DARFRC_8814A				0x0430
++#define REG_RARFRC_8814A				0x0438
++#define REG_RRSR_8814A					0x0440
++#define REG_ARFR0_8814A					0x0444
++#define REG_ARFR1_8814A					0x044C
++#define REG_CCK_CHECK_8814A				0x0454
++#define REG_AMPDU_MAX_TIME_8814A			0x0455
++#define REG_TXPKTBUF_BCNQ1_BDNY_8814A	0x0456
++#define REG_AMPDU_MAX_LENGTH_8814A	0x0458
++#define REG_ACQ_STOP_8814A				0x045C
++#define REG_NDPA_RATE_8814A				0x045D
++#define REG_TX_HANG_CTRL_8814A			0x045E
++#define REG_NDPA_OPT_CTRL_8814A		0x045F
++#define REG_FAST_EDCA_CTRL_8814A		0x0460
++#define REG_RD_RESP_PKT_TH_8814A		0x0463
++#define REG_CMDQ_INFO_8814A				0x0464
++#define REG_Q4_INFO_8814A					0x0468
++#define REG_Q5_INFO_8814A					0x046C
++#define REG_Q6_INFO_8814A					0x0470
++#define REG_Q7_INFO_8814A					0x0474
++#define REG_WMAC_LBK_BUF_HD_8814A		0x0478
++#define REG_MGQ_PGBNDY_8814A				0x047A
++#define REG_INIRTS_RATE_SEL_8814A			0x0480
++#define REG_BASIC_CFEND_RATE_8814A		0x0481
++#define REG_STBC_CFEND_RATE_8814A		0x0482
++#define REG_DATA_SC_8814A					0x0483
++#define REG_MACID_SLEEP3_8814A			0x0484
++#define REG_MACID_SLEEP1_8814A			0x0488
++#ifdef CONFIG_WOWLAN
++	#define REG_TXPKTBUF_IV_LOW				0x0484
++	#define REG_TXPKTBUF_IV_HIGH			0x0488
++#endif /* CONFIG_WOWLAN */
++#define REG_ARFR2_8814A					0x048C
++#define REG_ARFR3_8814A					0x0494
++#define REG_ARFR4_8814A					0x049C
++#define REG_ARFR5_8814A					0x04A4
++#define REG_TXRPT_START_OFFSET_8814A		0x04AC
++#define REG_TRYING_CNT_TH_8814A			0x04B0
++#define REG_POWER_STAGE1_8814A		0x04B4
++#define REG_POWER_STAGE2_8814A		0x04B8
++#define REG_SW_AMPDU_BURST_MODE_CTRL_8814A	0x04BC
++#define REG_PKT_LIFE_TIME_8814A			0x04C0
++#define REG_PKT_BE_BK_LIFE_TIME_8814A		0x04C2 /* ?????? */
++#define REG_STBC_SETTING_8814A			0x04C4
++#define REG_STBC_8814A						0x04C5
++#define REG_QUEUE_CTRL_8814A				0x04C6
++#define REG_SINGLE_AMPDU_CTRL_8814A		0x04C7
++#define REG_PROT_MODE_CTRL_8814A		0x04C8
++#define REG_MAX_AGGR_NUM_8814A		0x04CA
++#define REG_RTS_MAX_AGGR_NUM_8814A	0x04CB
++#define REG_BAR_MODE_CTRL_8814A		0x04CC
++#define REG_RA_TRY_RATE_AGG_LMT_8814A	0x04CF
++#define REG_MACID_SLEEP2_8814A			0x04D0
++#define REG_MACID_SLEEP0_8814A			0x04D4
++#define REG_HW_SEQ0_8814A				0x04D8
++#define REG_HW_SEQ1_8814A				0x04DA
++#define REG_HW_SEQ2_8814A				0x04DC
++#define REG_HW_SEQ3_8814A				0x04DE
++#define REG_NULL_PKT_STATUS_8814A			0x04E0
++#define REG_PTCL_ERR_STATUS_8814A			0x04E2
++#define REG_DROP_PKT_NUM_8814A			0x04EC
++#define REG_PTCL_TX_RPT_8814A				0x04F0
++#define REG_Dummy_8814A					0x04FC
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_EDCA_VO_PARAM_8814A			0x0500
++#define REG_EDCA_VI_PARAM_8814A			0x0504
++#define REG_EDCA_BE_PARAM_8814A			0x0508
++#define REG_EDCA_BK_PARAM_8814A			0x050C
++#define REG_BCNTCFG_8814A					0x0510
++#define REG_PIFS_8814A						0x0512
++#define REG_RDG_PIFS_8814A					0x0513
++#define REG_SIFS_CTX_8814A					0x0514
++#define REG_SIFS_TRX_8814A					0x0516
++#define REG_AGGR_BREAK_TIME_8814A			0x051A
++#define REG_SLOT_8814A						0x051B
++#define REG_TX_PTCL_CTRL_8814A				0x0520
++#define REG_TXPAUSE_8814A					0x0522
++#define REG_DIS_TXREQ_CLR_8814A			0x0523
++#define REG_RD_CTRL_8814A					0x0524
++/*
++ * Format for offset 540h-542h:
++ *	[3:0]:   TBTT prohibit setup in unit of 32us. The time for HW getting beacon content before TBTT.
++ *	[7:4]:   Reserved.
++ *	[19:8]:  TBTT prohibit hold in unit of 32us. The time for HW holding to send the beacon packet.
++ *	[23:20]: Reserved
++ * Description:
++ *	              |
++ * |<--Setup--|--Hold------------>|
++ *	--------------|----------------------
++ * |
++ * TBTT
++ * Note: We cannot update beacon content to HW or send any AC packets during the time between Setup and Hold.
++ * Described by Designer Tim and Bruce, 2011-01-14.
++ *   */
++#define REG_TBTT_PROHIBIT_8814A			0x0540
++#define REG_RD_NAV_NXT_8814A				0x0544
++#define REG_NAV_PROT_LEN_8814A			0x0546
++#define REG_BCN_CTRL_8814A					0x0550
++#define REG_BCN_CTRL_1_8814A				0x0551
++#define REG_MBID_NUM_8814A				0x0552
++#define REG_DUAL_TSF_RST_8814A				0x0553
++#define REG_MBSSID_BCN_SPACE_8814A		0x0554
++#define REG_DRVERLYINT_8814A				0x0558
++#define REG_BCNDMATIM_8814A				0x0559
++#define REG_ATIMWND_8814A					0x055A
++#define REG_USTIME_TSF_8814A				0x055C
++#define REG_BCN_MAX_ERR_8814A				0x055D
++#define REG_RXTSF_OFFSET_CCK_8814A		0x055E
++#define REG_RXTSF_OFFSET_OFDM_8814A		0x055F
++#define REG_TSFTR_8814A						0x0560
++#define REG_CTWND_8814A					0x0572
++#define REG_SECONDARY_CCA_CTRL_8814A		0x0577 /* ?????? */
++#define REG_PSTIMER_8814A					0x0580
++#define REG_TIMER0_8814A					0x0584
++#define REG_TIMER1_8814A					0x0588
++#define REG_BCN_PREDL_ITV_8814A			0x058F	/* Pre download beacon interval */
++#define REG_ACMHWCTRL_8814A				0x05C0
++#define REG_P2P_RST_8814A				0x05F0
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_MAC_CR_8814A					0x0600
++#define REG_TCR_8814A						0x0604
++#define REG_RCR_8814A						0x0608
++#define REG_RX_PKT_LIMIT_8814A				0x060C
++#define REG_RX_DLK_TIME_8814A				0x060D
++#define REG_RX_DRVINFO_SZ_8814A			0x060F
++
++#define REG_MACID_8814A					0x0610
++#define REG_BSSID_8814A						0x0618
++#define REG_MAR_8814A						0x0620
++#define REG_MBIDCAMCFG_8814A				0x0628
++
++#define REG_USTIME_EDCA_8814A				0x0638
++#define REG_MAC_SPEC_SIFS_8814A			0x063A
++#define REG_RESP_SIFP_CCK_8814A			0x063C
++#define REG_RESP_SIFS_OFDM_8814A			0x063E
++#define REG_ACKTO_8814A					0x0640
++#define REG_CTS2TO_8814A					0x0641
++#define REG_EIFS_8814A						0x0642
++
++#define	REG_NAV_UPPER_8814A				0x0652	/* unit of 128 */
++#define REG_TRXPTCL_CTL_8814A				0x0668
++
++/* Security */
++#define REG_CAMCMD_8814A					0x0670
++#define REG_CAMWRITE_8814A				0x0674
++#define REG_CAMREAD_8814A					0x0678
++#define REG_CAMDBG_8814A					0x067C
++#define REG_SECCFG_8814A					0x0680
++
++/* Power */
++#define REG_WOW_CTRL_8814A				0x0690
++#define REG_PS_RX_INFO_8814A				0x0692
++#define REG_UAPSD_TID_8814A				0x0693
++#define REG_WKFMCAM_NUM_8814A			0x0698
++#define REG_RXFLTMAP0_8814A				0x06A0
++#define REG_RXFLTMAP1_8814A				0x06A2
++#define REG_RXFLTMAP2_8814A				0x06A4
++#define REG_BCN_PSR_RPT_8814A				0x06A8
++#define REG_BT_COEX_TABLE_8814A			0x06C0
++#define REG_TX_DATA_RSP_RATE_8814A		0x06DE
++#define REG_ASSOCIATED_BFMER0_INFO_8814A	0x06E4
++#define REG_ASSOCIATED_BFMER1_INFO_8814A	0x06EC
++#define REG_CSI_RPT_PARAM_BW20_8814A		0x06F4
++#define REG_CSI_RPT_PARAM_BW40_8814A		0x06F8
++#define REG_CSI_RPT_PARAM_BW80_8814A		0x06FC
++
++/* Hardware Port 2 */
++#define REG_MACID1_8814A					0x0700
++#define REG_BSSID1_8814A					0x0708
++/* Hardware Port 3 */
++#define REG_MACID2_8814A					0x1620
++#define REG_BSSID2_8814A					0x1628
++/* Hardware Port 4 */
++#define REG_MACID3_8814A					0x1630
++#define REG_BSSID3_8814A					0x1638
++/* Hardware Port 5 */
++#define REG_MACID4_8814A					0x1640
++#define REG_BSSID4_8814A					0x1648
++
++#define REG_ASSOCIATED_BFMEE_SEL_8814A	0x0714
++#define REG_SND_PTCL_CTRL_8814A			0x0718
++#define REG_IQ_DUMP_8814A					0x07C0
++
++/**** page 19 ****/
++/* TX BeamForming */
++#define	REG_BB_TXBF_ANT_SET_BF1				0x19ac
++#define	REG_BB_TXBF_ANT_SET_BF0				0x19b4
++
++/*	0x1200h ~ 0x12FFh	DDMA CTRL
++ *
++ * ----------------------------------------------------- */
++#define REG_DDMA_CH0SA                   0x1200
++#define REG_DDMA_CH0DA                   0x1204
++#define REG_DDMA_CH0CTRL                0x1208
++#define REG_DDMA_CH1SA                   0x1210
++#define REG_DDMA_CH1DA	0x1214
++#define REG_DDMA_CH1CTRL                0x1218
++#define REG_DDMA_CH2SA                   0x1220
++#define REG_DDMA_CH2DA                   0x1224
++#define REG_DDMA_CH2CTRL                0x1228
++#define REG_DDMA_CH3SA                   0x1230
++#define REG_DDMA_CH3DA                   0x1234
++#define REG_DDMA_CH3CTRL                0x1238
++#define REG_DDMA_CH4SA                   0x1240
++#define REG_DDMA_CH4DA                   0x1244
++#define REG_DDMA_CH4CTRL                0x1248
++#define REG_DDMA_CH5SA                   0x1250
++#define REG_DDMA_CH5DA                   0x1254
++#define REG_DDMA_CH5CTRL                0x1258
++#define REG_DDMA_INT_MSK                0x12E0
++#define REG_DDMA_CHSTATUS              0x12E8
++#define REG_DDMA_CHKSUM                 0x12F0
++#define REG_DDMA_MONITER                0x12FC
++
++#define DDMA_LEN_MASK		0x0001FFFF
++#define FW_CHKSUM_DUMMY_SZ		8
++#define DDMA_CH_CHKSUM_CNT		BIT(24)
++#define DDMA_RST_CHKSUM_STS		BIT(25)
++#define DDMA_MODE_BLOCK_CPU		BIT(26)
++#define DDMA_CHKSUM_FAIL			BIT(27)
++#define DDMA_DA_W_DISABLE			BIT(28)
++#define DDMA_CHKSUM_EN			BIT(29)
++#define DDMA_CH_OWN	BIT(31)
++
++
++/* 3081 FWDL */
++#define FWDL_EN                 BIT0
++#define IMEM_BOOT_DL_RDY        BIT1
++#define IMEM_BOOT_CHKSUM_FAIL   BIT2
++#define IMEM_DL_RDY             BIT3
++#define IMEM_CHKSUM_OK        BIT4
++#define DMEM_DL_RDY             BIT5
++#define DMEM_CHKSUM_OK        BIT6
++#define EMEM_DL_RDY             BIT7
++#define EMEM_CHKSUM_FAIL        BIT8
++#define EMEM_TXBUF_DL_RDY       BIT9
++#define EMEM_TXBUF_CHKSUM_FAIL  BIT10
++#define CPU_CLK_SWITCH_BUSY     BIT11
++#define CPU_CLK_SEL             (BIT12 | BIT13)
++#define FWDL_OK                 BIT14
++#define FW_INIT_RDY             BIT15
++#define R_EN_BOOT_FLASH         BIT20
++
++#define OCPBASE_IMEM_3081        0x00000000
++#define OCPBASE_DMEM_3081        0x00200000
++#define OCPBASE_RPTBUF_3081      0x18660000
++#define OCPBASE_RXBUF2_3081      0x18680000
++#define OCPBASE_RXBUF_3081       0x18700000
++#define OCPBASE_TXBUF_3081       0x18780000
++
++
++#define REG_FAST_EDCA_VOVI_SETTING_8814A 0x1448
++#define REG_FAST_EDCA_BEBK_SETTING_8814A 0x144C
++
++
++/* -----------------------------------------------------
++ *   */
++
++
++/* -----------------------------------------------------
++ *
++ *	Redifine 8192C register definition for compatibility
++ *
++ * ----------------------------------------------------- */
++
++/* TODO: use these definition when using REG_xxx naming rule.
++ * NOTE: DO NOT Remove these definition. Use later. */
++#define	EFUSE_CTRL_8814A					REG_EFUSE_CTRL_8814A		/* E-Fuse Control. */
++#define	EFUSE_TEST_8814A					REG_LDO_EFUSE_CTRL_8814A		/* E-Fuse Test. */
++#define	MSR_8814A							(REG_CR_8814A + 2)		/* Media Status register */
++#define	ISR_8814A							REG_HISR0_8814A
++#define	TSFR_8814A							REG_TSFTR_8814A			/* Timing Sync Function Timer Register. */
++
++#define PBP_8814A							REG_PBP_8814A
++
++/* Redifine MACID register, to compatible prior ICs. */
++#define	IDR0_8814A							REG_MACID_8814A			/* MAC ID Register, Offset 0x0050-0x0053 */
++#define	IDR4_8814A							(REG_MACID_8814A + 4)	/* MAC ID Register, Offset 0x0054-0x0055 */
++
++
++/*
++ * 9. Security Control Registers	(Offset: )
++ *   */
++#define	RWCAM_8814A						REG_CAMCMD_8814A		/* IN 8190 Data Sheet is called CAMcmd */
++#define	WCAMI_8814A						REG_CAMWRITE_8814A		/* Software write CAM input content */
++#define	RCAMO_8814A						REG_CAMREAD_8814A		/* Software read/write CAM config */
++#define	CAMDBG_8814A						REG_CAMDBG_8814A
++#define	SECR_8814A							REG_SECCFG_8814A		/* Security Configuration Register */
++
++
++/* ----------------------------------------------------------------------------
++ * 8195 IMR/ISR bits						(offset 0xB0,  8bits)
++ * ---------------------------------------------------------------------------- */
++#define	IMR_DISABLED_8814A					0
++/* IMR DW0(0x00B0-00B3) Bit 0-31 */
++#define	IMR_TIMER2_8814A					BIT31		/* Timeout interrupt 2 */
++#define	IMR_TIMER1_8814A					BIT30		/* Timeout interrupt 1	 */
++#define	IMR_PSTIMEOUT_8814A				BIT29		/* Power Save Time Out Interrupt */
++#define	IMR_GTINT4_8814A					BIT28		/* When GTIMER4 expires, this bit is set to 1	 */
++#define	IMR_GTINT3_8814A					BIT27		/* When GTIMER3 expires, this bit is set to 1	 */
++#define	IMR_TXBCN0ERR_8814A				BIT26		/* Transmit Beacon0 Error			 */
++#define	IMR_TXBCN0OK_8814A					BIT25		/* Transmit Beacon0 OK			 */
++#define	IMR_TSF_BIT32_TOGGLE_8814A		BIT24		/* TSF Timer BIT32 toggle indication interrupt			 */
++#define	IMR_BCNDMAINT0_8814A				BIT20		/* Beacon DMA Interrupt 0			 */
++#define	IMR_BCNDERR0_8814A					BIT16		/* Beacon Queue DMA OK0			 */
++#define	IMR_HSISR_IND_ON_INT_8814A		BIT15		/* HSISR Indicator (HSIMR & HSISR is true, this bit is set to 1) */
++#define	IMR_BCNDMAINT_E_8814A				BIT14		/* Beacon DMA Interrupt Extension for Win7			 */
++#define	IMR_ATIMEND_8814A					BIT12		/* CTWidnow End or ATIM Window End */
++#define	IMR_C2HCMD_8814A					BIT10		/* CPU to Host Command INT Status, Write 1 clear	 */
++#define	IMR_CPWM2_8814A					BIT9			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_CPWM_8814A						BIT8			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_HIGHDOK_8814A					BIT7			/* High Queue DMA OK	 */
++#define	IMR_MGNTDOK_8814A					BIT6			/* Management Queue DMA OK	 */
++#define	IMR_BKDOK_8814A					BIT5			/* AC_BK DMA OK		 */
++#define	IMR_BEDOK_8814A					BIT4			/* AC_BE DMA OK	 */
++#define	IMR_VIDOK_8814A					BIT3			/* AC_VI DMA OK		 */
++#define	IMR_VODOK_8814A					BIT2			/* AC_VO DMA OK	 */
++#define	IMR_RDU_8814A						BIT1			/* Rx Descriptor Unavailable	 */
++#define	IMR_ROK_8814A						BIT0			/* Receive DMA OK */
++
++/* IMR DW1(0x00B4-00B7) Bit 0-31 */
++#define	IMR_MCUERR_8814A						BIT28		/* Beacon DMA Interrupt 7 */
++#define	IMR_BCNDMAINT7_8814A				BIT27		/* Beacon DMA Interrupt 7 */
++#define	IMR_BCNDMAINT6_8814A				BIT26		/* Beacon DMA Interrupt 6 */
++#define	IMR_BCNDMAINT5_8814A				BIT25		/* Beacon DMA Interrupt 5 */
++#define	IMR_BCNDMAINT4_8814A				BIT24		/* Beacon DMA Interrupt 4 */
++#define	IMR_BCNDMAINT3_8814A				BIT23		/* Beacon DMA Interrupt 3 */
++#define	IMR_BCNDMAINT2_8814A				BIT22		/* Beacon DMA Interrupt 2 */
++#define	IMR_BCNDMAINT1_8814A				BIT21		/* Beacon DMA Interrupt 1 */
++#define	IMR_BCNDOK7_8814A					BIT20		/* Beacon Queue DMA OK Interrup 7 */
++#define	IMR_BCNDOK6_8814A					BIT19		/* Beacon Queue DMA OK Interrup 6 */
++#define	IMR_BCNDOK5_8814A					BIT18		/* Beacon Queue DMA OK Interrup 5 */
++#define	IMR_BCNDOK4_8814A					BIT17		/* Beacon Queue DMA OK Interrup 4 */
++#define	IMR_BCNDOK3_8814A					BIT16		/* Beacon Queue DMA OK Interrup 3 */
++#define	IMR_BCNDOK2_8814A					BIT15		/* Beacon Queue DMA OK Interrup 2 */
++#define	IMR_BCNDOK1_8814A					BIT14		/* Beacon Queue DMA OK Interrup 1 */
++#define	IMR_ATIMEND_E_8814A				BIT13		/* ATIM Window End Extension for Win7 */
++#define	IMR_TXERR_8814A					BIT11		/* Tx Error Flag Interrupt Status, write 1 clear. */
++#define	IMR_RXERR_8814A					BIT10		/* Rx Error Flag INT Status, Write 1 clear */
++#define	IMR_TXFOVW_8814A					BIT9			/* Transmit FIFO Overflow */
++#define	IMR_RXFOVW_8814A					BIT8			/* Receive FIFO Overflow */
++
++
++#ifdef CONFIG_PCI_HCI
++	#define IMR_TX_MASK			(IMR_VODOK_8814A | IMR_VIDOK_8814A | IMR_BEDOK_8814A | IMR_BKDOK_8814A | IMR_MGNTDOK_8814A | IMR_HIGHDOK_8814A)
++
++	#define RT_BCN_INT_MASKS	(IMR_BCNDMAINT0_8814A | IMR_TXBCN0OK_8814A | IMR_TXBCN0ERR_8814A | IMR_BCNDERR0_8814A)
++
++	#define RT_AC_INT_MASKS	(IMR_VIDOK_8814A | IMR_VODOK_8814A | IMR_BEDOK_8814A | IMR_BKDOK_8814A)
++#endif
++
++
++/*===================================================================
++=====================================================================
++Here the register defines are for 92C. When the define is as same with 92C,
++we will use the 92C's define for the consistency
++So the following defines for 92C is not entire!!!!!!
++=====================================================================
++=====================================================================*/
++
++
++/* -----------------------------------------------------
++ *
++ *	0xFE00h ~ 0xFE55h	USB Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* 2 Special Option */
++#define USB_AGG_EN_8814A			BIT(7)
++#define REG_USB_HRPWM_U3			0xF052
++
++#define LAST_ENTRY_OF_TX_PKT_BUFFER_8814A       (2048-1)	/* 20130415 KaiYuan add for 8814 */
++
++#define MACID_NUM_8814A 128
++#define SEC_CAM_ENT_NUM_8814A 64
++#define HW_PORT_NUM_8814A	5
++#define NSS_NUM_8814A 3
++#define BAND_CAP_8814A (BAND_CAP_2G | BAND_CAP_5G)
++#define BW_CAP_8814A (BW_CAP_20M | BW_CAP_40M | BW_CAP_80M)
++#define PROTO_CAP_8814A (PROTO_CAP_11B | PROTO_CAP_11G | PROTO_CAP_11N | PROTO_CAP_11AC)
++
++#endif /* __RTL8814A_SPEC_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8814a_sreset.h b/drivers/net/wireless/rtl8723du/include/rtl8814a_sreset.h
+new file mode 100644
+index 0000000..5d95e1f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8814a_sreset.h
+@@ -0,0 +1,29 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL88814A_SRESET_H_
++#define _RTL8814A_SRESET_H_
++
++#include <rtw_sreset.h>
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	extern void rtl8814_sreset_xmit_status_check(_adapter *padapter);
++	extern void rtl8814_sreset_linked_status_check(_adapter *padapter);
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8814a_xmit.h b/drivers/net/wireless/rtl8723du/include/rtl8814a_xmit.h
+new file mode 100644
+index 0000000..099760d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8814a_xmit.h
+@@ -0,0 +1,310 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8814A_XMIT_H__
++#define __RTL8814A_XMIT_H__
++
++typedef struct txdescriptor_8814 {
++	/* Offset 0 */
++	u32 pktlen:16;
++	u32 offset:8;
++	u32 bmc:1;
++	u32 htc:1;
++	u32 ls:1;
++} TXDESC_8814, *PTXDESC_8814;
++
++
++#define OFFSET_SZ	0
++#define OFFSET_SHT	16
++
++
++
++#ifdef CONFIG_SDIO_HCI
++	#define SET_TX_DESC_SDIO_TXSEQ_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 16, 8, __Value)
++#endif /* CONFIG_SDIO_HCI */
++
++/* -----------------------------------------------------------------
++ *	RTL8814A TX BUFFER DESC
++ * -----------------------------------------------------------------
++ *
++- Each TXBD has 4 segment.
++ -- For 32 bit, each segment is 8 bytes.
++ -- For 64 bit, each segment is 16 bytes.
++*/
++#if 0
++	#if 1 /* 32 bit */
++		#define SET_TX_EXTBUFF_DESC_LEN_8814A(__pTxDesc, __Value, __Set) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Set*8), 0, 16, __Value)
++		#define SET_TX_EXTBUFF_DESC_ADDR_LOW_8814A(__pTxDesc, __Value, __Set) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Set*8)+4, 0, 32, __Value)
++	#else /* 64 bit */
++		#define SET_TX_EXTBUFF_DESC_LEN_8814A(__pTxDesc, __Value, __Set) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Set*16), 0, 16, __Value)
++		#define SET_TX_EXTBUFF_DESC_ADDR_LOW_8814A(__pTxDesc, __Value, __Set) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Set*16)+4, 0, 32, __Value)
++	#endif
++	#define SET_TX_EXTBUFF_DESC_ADDR_HIGH_8814A(__pTxDesc, __Value, __Set) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Set*16)+8, 0, 32, __Value)
++#endif
++/*c2h-DWORD 2*/
++#define GET_RX_STATUS_DESC_RPT_SEL_8814A(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+8, 28, 1)
++
++/* *********************************************************
++ * for Txfilldescroptor8814Ae, fill the desc content. */
++#if 1 /* 32 bit */
++	#define SET_TXBUFFER_DESC_LEN_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*8), 0, 16, __Valeu)
++	#define SET_TXBUFFER_DESC_AMSDU_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*8), 31, 1, __Valeu)
++	#define SET_TXBUFFER_DESC_ADD_LOW_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*8)+4, 0, 32, __Valeu)
++#else /* 64 bit */
++	#define SET_TXBUFFER_DESC_LEN_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*16), 0, 16, __Valeu)
++	#define SET_TXBUFFER_DESC_AMSDU_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*16), 31, 1, __Valeu)
++	#define SET_TXBUFFER_DESC_ADD_LOW_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*16)+4, 0, 32, __Valeu)
++#endif
++#define SET_TXBUFFER_DESC_ADD_HIGT_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*16)+8, 0, 32, __Valeu)
++
++/* ********************************************************* */
++
++/* TX buffer
++ * *************
++ * Dword 0 */
++#define SET_TX_BUFF_DESC_LEN_0_8814A(__pTxDesc, __Valeu)			SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 16, __Valeu)
++#define SET_TX_BUFF_DESC_PSB_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 15, __Value)
++#define SET_TX_BUFF_DESC_OWN_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc, 31, 1, __Value)
++#define GET_TX_BUFF_DESC_OWN_8814A(__pTxDesc)				LE_BITS_TO_4BYTE(__pTxDesc, 31, 1)
++
++/* Dword 1 */
++#define SET_TX_BUFF_DESC_ADDR_LOW_0_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 32, __Value)
++#define GET_TX_BUFF_DESC_ADDR_LOW_0_8814A(__pTxDesc)			LE_BITS_TO_4BYTE(__pTxDesc+4, 0, 32)
++/* Dword 2 */
++#define SET_TX_BUFF_DESC_ADDR_HIGH_0_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 0, 32, __Value)
++#define GET_TX_BUFF_DESC_ADDR_HIGH_0_8814A(__pTxDesc)			LE_BITS_TO_4BYTE(__pTxDesc+8, 0, 32)
++/* Dword 3 */ /* RESERVED 0 */
++
++#if 0 /* 64 bit */
++	/* Dword 4 */
++	#define SET_TX_BUFF_DESC_LEN_1_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 0, 16, __Value)
++	#define SET_TX_BUFF_DESC_AMSDU_1_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 31, 1, __Value)
++	/* Dword 5 */
++	#define SET_TX_BUFF_DESC_ADDR_LOW_1_8814A(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 0, 32, __Value)
++	/* Dword 6 */
++	#define SET_TX_BUFF_DESC_ADDR_HIGH_1_8814A(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 0, 32, __Value)
++	/* Dword 7 */ /* RESERVED 0 */
++	/* Dword 8 */
++	#define SET_TX_BUFF_DESC_LEN_2_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 0, 16, __Value)
++	#define SET_TX_BUFF_DESC_AMSDU_2_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 31, 1, __Value)
++	/* Dword 9 */
++	#define SET_TX_BUFF_DESC_ADDR_LOW_2_8814A(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 0, 32, __Value)
++	/* Dword 10 */
++	#define SET_TX_BUFF_DESC_ADDR_HIGH_2_8814A(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+40, 0, 32, __Value)
++	/* Dword 11 */ /* RESERVED 0 */
++	/* Dword 12 */
++	#define SET_TX_BUFF_DESC_LEN_3_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+48, 0, 16, __Value)
++	#define SET_TX_BUFF_DESC_AMSDU_3_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+48, 31, 1, __Value)
++	/* Dword 13 */
++	#define SET_TX_BUFF_DESC_ADDR_LOW_3_8814A(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+52, 0, 32, __Value)
++	/* Dword 14 */
++	#define SET_TX_BUFF_DESC_ADDR_HIGH_3_8814A(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+56, 0, 32, __Value)
++	/* Dword 15 */ /* RESERVED 0 */
++#endif
++
++/* *****Desc content
++ * TX Info
++ * *************
++ * Dword 0 */
++#define SET_TX_DESC_PKT_SIZE_8814A(__pTxDesc, __Value)						SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 16, __Value)
++#define GET_TX_DESC_PKT_SIZE_8814A(__pTxDesc)									LE_BITS_TO_4BYTE(__pTxDesc, 0, 16)
++#define SET_TX_DESC_OFFSET_8814A(__pTxDesc, __Value)							SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 8, __Value)
++#define GET_TX_DESC_OFFSET_8814A(__pTxDesc)									LE_BITS_TO_4BYTE(__pTxDesc, 16, 8)
++#define SET_TX_DESC_BMC_8814A(__pTxDesc, __Value)							SET_BITS_TO_LE_4BYTE(__pTxDesc, 24, 1, __Value)
++#define SET_TX_DESC_HTC_8814A(__pTxDesc, __Value)								SET_BITS_TO_LE_4BYTE(__pTxDesc, 25, 1, __Value)
++#define SET_TX_DESC_LAST_SEG_8814A(__pTxDesc, __Value)						SET_BITS_TO_LE_4BYTE(__pTxDesc, 26, 1, __Value)
++#define SET_TX_DESC_LINIP_8814A(__pTxDesc, __Value)							SET_BITS_TO_LE_4BYTE(__pTxDesc, 28, 1, __Value)
++#define SET_TX_DESC_AMSDU_PAD_EN_8814A(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc, 27, 1, __Value)
++#define SET_TX_DESC_NO_ACM_8814A(__pTxDesc, __Value)							SET_BITS_TO_LE_4BYTE(__pTxDesc, 29, 1, __Value)
++#define SET_TX_DESC_GF_8814A(__pTxDesc, __Value)								SET_BITS_TO_LE_4BYTE(__pTxDesc, 30, 1, __Value)
++#define SET_TX_DESC_DISQSELSEQ_8814A(__pTxDesc, __Value)						SET_BITS_TO_LE_4BYTE(__pTxDesc, 31, 1, __Value)
++
++/* Dword 1 */
++#define SET_TX_DESC_MACID_8814A(__pTxDesc, __Value)							SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 7, __Value)
++#define SET_TX_DESC_QUEUE_SEL_8814A(__pTxDesc, __Value)						SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 8, 5, __Value)
++#define SET_TX_DESC_RDG_NAV_EXT_8814A(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 13, 1, __Value)
++#define SET_TX_DESC_LSIG_TXOP_EN_8814A(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 14, 1, __Value)
++#define SET_TX_DESC_PIFS_8814A(__pTxDesc, __Value)							SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 15, 1, __Value)
++#define SET_TX_DESC_RATE_ID_8814A(__pTxDesc, __Value)							SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 16, 5, __Value)
++#define SET_TX_DESC_EN_DESC_ID_8814A(__pTxDesc, __Value)						SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 21, 1, __Value)
++#define SET_TX_DESC_SEC_TYPE_8814A(__pTxDesc, __Value)						SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 22, 2, __Value)
++#define SET_TX_DESC_PKT_OFFSET_8814A(__pTxDesc, __Value)						SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 24, 5, __Value)
++#define SET_TX_DESC_MORE_DATA_8814A(__pTxDesc, __Value)						SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 29, 1, __Value)
++#define SET_TX_DESC_TXOP_PS_CAP_8814A(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 30, 1, __Value)
++#define SET_TX_DESC_TXOP_PS_MODE_8814A(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 31, 1, __Value)
++
++
++/* Dword 2 */
++#define SET_TX_DESC_PAID_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 0,  9, __Value)
++#define SET_TX_DESC_CCA_RTS_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 10, 2, __Value)
++#define SET_TX_DESC_AGG_ENABLE_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 12, 1, __Value)
++#define SET_TX_DESC_RDG_ENABLE_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 13, 1, __Value)
++#define SET_TX_DESC_NULL_0_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 14, 1, __Value)
++#define SET_TX_DESC_NULL_1_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 15, 1, __Value)
++#define SET_TX_DESC_BK_8814A(__pTxDesc, __Value)				SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 16, 1, __Value)
++#define SET_TX_DESC_MORE_FRAG_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 17, 1, __Value)
++#define GET_TX_DESC_MORE_FRAG_8814A(__pTxDesc)				LE_BITS_TO_4BYTE(__pTxDesc+8, 17, 1)
++#define SET_TX_DESC_RAW_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 18, 1, __Value)
++#define SET_TX_DESC_SPE_RPT_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 19, 1, __Value)
++#define SET_TX_DESC_AMPDU_DENSITY_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 20, 3, __Value)
++#define SET_TX_DESC_BT_NULL_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 23, 1, __Value)
++#define SET_TX_DESC_GID_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 24, 6, __Value)
++#define SET_TX_DESC_HW_AES_IV_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 31, 1, __Value)
++
++
++/* Dword 3 */
++#define SET_TX_DESC_WHEADER_LEN_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 0, 5, __Value)
++#define SET_TX_DESC_EARLY_RATE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 5, 1, __Value)
++#define SET_TX_DESC_HW_SSN_SEL_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 6, 2, __Value)
++#define SET_TX_DESC_USE_RATE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 8, 1, __Value)
++#define SET_TX_DESC_DISABLE_RTS_FB_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 9, 1, __Value)
++#define SET_TX_DESC_DISABLE_FB_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 10, 1, __Value)
++#define SET_TX_DESC_CTS2SELF_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 11, 1, __Value)
++#define SET_TX_DESC_RTS_ENABLE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 12, 1, __Value)
++#define SET_TX_DESC_HW_RTS_ENABLE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 13, 1, __Value)
++#define SET_TX_DESC_CHECK_EN_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 14, 1, __Value)
++#define SET_TX_DESC_NAV_USE_HDR_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 15, 1, __Value)
++#define SET_TX_DESC_USE_MAX_LEN_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 16, 1, __Value)
++#define SET_TX_DESC_MAX_AGG_NUM_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 17, 5, __Value)
++#define SET_TX_DESC_NDPA_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 22, 2, __Value)
++#define SET_TX_DESC_AMPDU_MAX_TIME_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 24, 8, __Value)
++
++/* Dword 4 */
++#define SET_TX_DESC_TX_RATE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 0, 7, __Value)
++#define SET_TX_DESC_TRY_RATE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 7, 1, __Value)
++#define SET_TX_DESC_DATA_RATE_FB_LIMIT_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 8, 5, __Value)
++#define SET_TX_DESC_RTS_RATE_FB_LIMIT_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 13, 4, __Value)
++#define SET_TX_DESC_RETRY_LIMIT_ENABLE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 17, 1, __Value)
++#define SET_TX_DESC_DATA_RETRY_LIMIT_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 18, 6, __Value)
++#define SET_TX_DESC_RTS_RATE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 24, 5, __Value)
++#define SET_TX_DESC_PCTS_ENABLE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 29, 1, __Value)
++#define SET_TX_DESC_PCTS_MASK_IDX_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 30, 2, __Value)
++
++
++/* Dword 5 */
++#define SET_TX_DESC_DATA_SC_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 0, 4, __Value)
++#define SET_TX_DESC_DATA_SHORT_8814A(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 4, 1, __Value)
++#define SET_TX_DESC_DATA_BW_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 5, 2, __Value)
++#define SET_TX_DESC_DATA_LDPC_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 7, 1, __Value)
++#define SET_TX_DESC_DATA_STBC_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 8, 2, __Value)
++#define SET_TX_DESC_CTROL_STBC_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 10, 2, __Value)
++#define SET_TX_DESC_RTS_SHORT_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 12, 1, __Value)
++#define SET_TX_DESC_RTS_SC_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 13, 4, __Value)
++#define SET_TX_DESC_SIGNALING_TA_PKT_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 17, 1, __Value)
++#define SET_TX_DESC_PORT_ID_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 21, 3, __Value)/* 20130415 KaiYuan add for 8814 */
++#define SET_TX_DESC_TX_ANT_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 24, 4, __Value)
++#define SET_TX_DESC_TX_POWER_OFFSET_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 28, 3, __Value)
++
++/* Dword 6 */
++#define SET_TX_DESC_SW_DEFINE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 0, 12, __Value)
++#define SET_TX_DESC_MBSSID_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 12, 4, __Value)
++#define SET_TX_DESC_ANTSEL_A_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 16, 3, __Value)
++#define SET_TX_DESC_ANTSEL_B_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 19, 3, __Value)
++#define SET_TX_DESC_ANT_MAPA_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 22, 2, __Value)
++#define SET_TX_DESC_ANT_MAPB_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 24, 2, __Value)
++#define SET_TX_DESC_ANT_MAPC_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 26, 2, __Value)
++#define SET_TX_DESC_ANT_MAPD_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 28, 2, __Value)
++
++
++/* Dword 7 */
++#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++	#define SET_TX_DESC_TX_BUFFER_SIZE_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#else
++	#define SET_TX_DESC_TX_DESC_CHECKSUM_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#endif
++#define SET_TX_DESC_NTX_MAP_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 20, 4, __Value)
++#define SET_TX_DESC_USB_TXAGG_NUM_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 24, 8, __Value)
++
++
++/* Dword 8 */
++#define SET_TX_DESC_RTS_RC_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 0, 6, __Value)
++#define SET_TX_DESC_BAR_RTY_TH_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 6, 2, __Value)
++#define SET_TX_DESC_DATA_RC_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 8, 6, __Value)
++#define SET_TX_DESC_EN_HWEXSEQ_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 14, 1, __Value)
++#define SET_TX_DESC_HWSEQ_EN_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 15, 1, __Value)
++#if (DEV_BUS_TYPE != RT_SDIO_INTERFACE)
++	#define SET_TX_DESC_NEXT_HEAD_PAGE_L_8814A(__pTxDesc, __Value)(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 16, 8, __Value)
++#else
++	#define SET_TX_DESC_SDIO_SEQ_8814A(__pTxDesc, __Value)(__pTxDesc, __Value) 			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 16, 8, __Value) /* 20130415 KaiYuan add for 8814AS */
++#endif
++#define SET_TX_DESC_TAIL_PAGE_L_8814A(__pTxDesc, __Value)(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 24, 8, __Value)
++
++/* Dword 9 */
++#define SET_TX_DESC_PADDING_LENGTH_8814A(__pTxDesc, __Value)						SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 0, 11, __Value)
++#define SET_TX_DESC_TXBF_PATH_8814A(__pTxDesc, __Value)								SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 11, 1, __Value)
++#define SET_TX_DESC_SEQ_8814A(__pTxDesc, __Value)										SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 12, 12, __Value)
++#define SET_TX_DESC_NEXT_HEAD_PAGE_H_8814A(__pTxDesc, __Value)(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 24, 4, __Value)
++#define SET_TX_DESC_TAIL_PAGE_H_8814A(__pTxDesc, __Value)(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 28, 4, __Value)
++
++
++
++#define SET_EARLYMODE_PKTNUM_8814A(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 0, 4, __Value)
++#define SET_EARLYMODE_LEN0_8814A(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 4, 15, __Value)
++#define SET_EARLYMODE_LEN1_1_8814A(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 19, 13, __Value)
++#define SET_EARLYMODE_LEN1_2_8814A(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 2, __Value)
++#define SET_EARLYMODE_LEN2_8814A(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 2, 15,  __Value)
++#define SET_EARLYMODE_LEN3_8814A(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 17, 15, __Value)
++
++
++void rtl8814a_cal_txdesc_chksum(u8 *ptxdesc);
++void rtl8814a_fill_fake_txdesc(PADAPTER	padapter, u8 *pDesc, u32 BufferLen, u8 IsPsPoll, u8	IsBTQosNull, u8 bDataFrame);
++void rtl8814a_fill_txdesc_sectype(struct pkt_attrib *pattrib, u8 *ptxdesc);
++void rtl8814a_fill_txdesc_vcs(PADAPTER padapter, struct pkt_attrib *pattrib, u8 *ptxdesc);
++void rtl8814a_fill_txdesc_phy(PADAPTER padapter, struct pkt_attrib *pattrib, u8 *ptxdesc);
++#if defined(CONFIG_CONCURRENT_MODE)
++	void fill_txdesc_force_bmc_camid(struct pkt_attrib *pattrib, u8 *ptxdesc);
++#endif
++
++#ifdef CONFIG_USB_HCI
++	s32 rtl8814au_init_xmit_priv(PADAPTER padapter);
++	void rtl8814au_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8814au_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8814au_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	 rtl8814au_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8814au_xmit_buf_handler(PADAPTER padapter);
++	void rtl8814au_xmit_tasklet(void *priv);
++	s32 rtl8814au_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++#endif /* CONFIG_USB_HCI */
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8814ae_init_xmit_priv(PADAPTER padapter);
++	void rtl8814ae_free_xmit_priv(PADAPTER padapter);
++	struct xmit_buf *rtl8814ae_dequeue_xmitbuf(struct rtw_tx_ring *ring);
++	void rtl8814ae_xmitframe_resume(_adapter *padapter);
++	s32 rtl8814ae_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8814ae_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8814ae_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	void rtl8814ae_xmit_tasklet(void *priv);
++#endif
++
++void _dbg_dump_tx_info(_adapter	*padapter, int frame_tag, u8 *ptxdesc);
++u8
++SCMapping_8814(
++	IN	PADAPTER		Adapter,
++	IN	struct pkt_attrib	*pattrib
++);
++
++u8
++BWMapping_8814(
++	IN	PADAPTER		Adapter,
++	IN	struct pkt_attrib	*pattrib
++);
++
++
++#endif /* __RTL8814_XMIT_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8821a_spec.h b/drivers/net/wireless/rtl8723du/include/rtl8821a_spec.h
+new file mode 100644
+index 0000000..b4dfe3f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8821a_spec.h
+@@ -0,0 +1,108 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#ifndef __RTL8821A_SPEC_H__
++#define __RTL8821A_SPEC_H__
++
++#include <drv_conf.h>
++/* This file should based on "hal_com_reg.h" */
++#include <hal_com_reg.h>
++/* Because 8812a and 8821a is the same serial,
++ * most of 8821a register definitions are the same as 8812a. */
++#include <rtl8812a_spec.h>
++
++
++/* ************************************************************
++ * 8821A Regsiter offset definition
++ * ************************************************************ */
++
++/* ************************************************************
++ * MAC register
++ * ************************************************************ */
++
++/* -----------------------------------------------------
++ *	0x0000h ~ 0x00FFh	System Configuration
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ * ----------------------------------------------------- */
++#define REG_WOWLAN_WAKE_REASON          REG_MCUTST_WOWLAN
++
++/* -----------------------------------------------------
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *	0x0300h ~ 0x03FFh	PCIe
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ * ----------------------------------------------------- */
++
++
++/* ************************************************************
++ * SDIO Bus Specification
++ * ************************************************************ */
++
++/* -----------------------------------------------------
++ * SDIO CMD Address Mapping
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * I/O bus domain (Host)
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * SDIO register
++ * ----------------------------------------------------- */
++#undef SDIO_REG_HCPWM1
++#define SDIO_REG_FREE_TXPG2		0x024
++#define SDIO_REG_HCPWM1			0x025
++
++
++/* ************************************************************
++ * Regsiter Bit and Content definition
++ * ************************************************************ */
++
++/* ********************************************************
++ * General definitions
++ * ******************************************************** */
++
++#define MACID_NUM_8821A 128
++#define SEC_CAM_ENT_NUM_8821A 64
++#define HW_PORT_NUM_8821A	2
++#define NSS_NUM_8821A 1
++#define BAND_CAP_8821A (BAND_CAP_2G | BAND_CAP_5G)
++#define BW_CAP_8821A (BW_CAP_20M | BW_CAP_40M | BW_CAP_80M)
++#define PROTO_CAP_8821A (PROTO_CAP_11B | PROTO_CAP_11G | PROTO_CAP_11N | PROTO_CAP_11AC)
++
++#endif /* __RTL8821A_SPEC_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8821a_xmit.h b/drivers/net/wireless/rtl8723du/include/rtl8821a_xmit.h
+new file mode 100644
+index 0000000..d7a97e3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8821a_xmit.h
+@@ -0,0 +1,178 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8821A_XMIT_H__
++#define __RTL8821A_XMIT_H__
++
++#include <drv_types.h>
++
++typedef struct txdescriptor_8821a {
++	/* Offset 0 */
++	u32 pktlen:16;
++	u32 offset:8;
++	u32 bmc:1;
++	u32 htc:1;
++	u32 rsvd0026:1;
++	u32 rsvd0027:1;
++	u32 linip:1;
++	u32 noacm:1;
++	u32 gf:1;
++	u32 rsvd0031:1;
++
++	/* Offset 4 */
++	u32 macid:7;
++	u32 rsvd0407:1;
++	u32 qsel:5;
++	u32 rdg_nav_ext:1;
++	u32 lsig_txop_en:1;
++	u32 pifs:1;
++	u32 rate_id:5;
++	u32 en_desc_id:1;
++	u32 sectype:2;
++	u32 pkt_offset:5; /* unit: 8 bytes */
++	u32 moredata:1;
++	u32 txop_ps_cap:1;
++	u32 txop_ps_mode:1;
++
++	/* Offset 8 */
++	u32 p_aid:9;
++	u32 rsvd0809:1;
++	u32 cca_rts:2;
++	u32 agg_en:1;
++	u32 rdg_en:1;
++	u32 null_0:1;
++	u32 null_1:1;
++	u32 bk:1;
++	u32 morefrag:1;
++	u32 raw:1;
++	u32 spe_rpt:1;
++	u32 ampdu_density:3;
++	u32 bt_null:1;
++	u32 g_id:6;
++	u32 rsvd0830:2;
++
++	/* Offset 12 */
++	u32 wheader_len:4;
++	u32 chk_en:1;
++	u32 early_rate:1;
++	u32 hw_ssn_sel:2;
++	u32 userate:1;
++	u32 disrtsfb:1;
++	u32 disdatafb:1;
++	u32 cts2self:1;
++	u32 rtsen:1;
++	u32 hw_rts_en:1;
++	u32 port_id:1;
++	u32 navusehdr:1;
++	u32 use_max_len:1;
++	u32 max_agg_num:5;
++	u32 ndpa:2;
++	u32 ampdu_max_time:8;
++
++	/* Offset 16 */
++	u32 datarate:7;
++	u32 try_rate:1;
++	u32 data_ratefb_lmt:5;
++	u32 rts_ratefb_lmt:4;
++	u32 rty_lmt_en:1;
++	u32 data_rt_lmt:6;
++	u32 rtsrate:5;
++	u32 pcts_en:1;
++	u32 pcts_mask_idx:2;
++
++	/* Offset 20 */
++	u32 data_sc:4;
++	u32 data_short:1;
++	u32 data_bw:2;
++	u32 data_ldpc:1;
++	u32 data_stbc:2;
++	u32 vcs_stbc:2;
++	u32 rts_short:1;
++	u32 rts_sc:4;
++	u32 rsvd2016:7;
++	u32 tx_ant:4;
++	u32 txpwr_offset:3;
++	u32 rsvd2031:1;
++
++	/* Offset 24 */
++	u32 sw_define:12;
++	u32 mbssid:4;
++	u32 antsel_A:3;
++	u32 antsel_B:3;
++	u32 antsel_C:3;
++	u32 antsel_D:3;
++	u32 rsvd2428:4;
++
++	/* Offset 28 */
++	u32 checksum:16;
++	u32 rsvd2816:8;
++	u32 usb_txagg_num:8;
++
++	/* Offset 32 */
++	u32 rts_rc:6;
++	u32 bar_rty_th:2;
++	u32 data_rc:6;
++	u32 rsvd3214:1;
++	u32 en_hwseq:1;
++	u32 nextneadpage:8;
++	u32 tailpage:8;
++
++	/* Offset 36 */
++	u32 padding_len:11;
++	u32 txbf_path:1;
++	u32 seq:12;
++	u32 final_data_rate:8;
++} TXDESC_8821A, *PTXDESC_8821A;
++
++#ifdef CONFIG_SDIO_HCI
++s32 InitXmitPriv8821AS(PADAPTER padapter);
++void FreeXmitPriv8821AS(PADAPTER padapter);
++s32 XmitBufHandler8821AS(PADAPTER padapter);
++s32 MgntXmit8821AS(PADAPTER padapter, struct xmit_frame *pmgntframe);
++s32	HalXmitNoLock8821AS(PADAPTER padapter, struct xmit_frame *pxmitframe);
++s32 HalXmit8821AS(PADAPTER padapter, struct xmit_frame *pxmitframe);
++#ifndef CONFIG_SDIO_TX_TASKLET
++thread_return XmitThread8821AS(thread_context context);
++#endif /* !CONFIG_SDIO_TX_TASKLET */
++#endif /* CONFIG_SDIO_HCI */
++
++#if 0
++#ifdef CONFIG_USB_HCI
++s32 rtl8821au_init_xmit_priv(PADAPTER padapter);
++void rtl8821au_free_xmit_priv(PADAPTER padapter);
++s32 rtl8821au_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++s32 rtl8821au_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++s32 rtl8821au_hal_xmitframe_enqueue(PADAPTER padapter, struct xmit_frame *pxmitframe);
++s32 rtl8821au_xmit_buf_handler(PADAPTER padapter);
++void rtl8821au_xmit_tasklet(void *priv);
++s32 rtl8821au_xmitframe_complete(PADAPTER padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++#endif /* CONFIG_USB_HCI */
++
++#ifdef CONFIG_PCI_HCI
++s32 rtl8821e_init_xmit_priv(PADAPTER padapter);
++void rtl8821e_free_xmit_priv(PADAPTER padapter);
++struct xmit_buf *rtl8821e_dequeue_xmitbuf(struct rtw_tx_ring *ring);
++void rtl8821e_xmitframe_resume(PADAPTER padapter);
++s32 rtl8821e_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++s32 rtl8821e_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++void rtl8821e_xmit_tasklet(void *priv);
++#endif /* CONFIG_PCI_HCI */
++#endif
++
++#endif /* __RTL8821_XMIT_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8821c_hal.h b/drivers/net/wireless/rtl8723du/include/rtl8821c_hal.h
+new file mode 100644
+index 0000000..d99d9d3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8821c_hal.h
+@@ -0,0 +1,68 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8821C_HAL_H_
++#define _RTL8821C_HAL_H_
++
++#include <osdep_service.h>		/* BIT(x) */
++#include "../hal/halmac/halmac_api.h"	/* MAC REG definition */
++#include "hal_data.h"
++
++#if defined(CONFIG_USB_HCI)
++
++	#ifndef MAX_RECVBUF_SZ
++		#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++			#ifdef CONFIG_PLATFORM_MSTAR
++				#define MAX_RECVBUF_SZ (8192) /* 8K */
++			#else
++				/* 8821C - RX FIFO :16K ,for RX agg DMA mode = 16K, Rx agg USB mode could large than 16k*/
++				#define MAX_RECVBUF_SZ		HALMAC_RX_FIFO_SIZE_8821C
++			#endif
++			/*#define MAX_RECVBUF_SZ_8821C (24576)*/ /* 24k*/
++			/*#define MAX_RECVBUF_SZ_8821C (20480)*/ /*20K*/
++			/*#define MAX_RECVBUF_SZ_8821C (10240) */ /*10K*/
++			/*#define MAX_RECVBUF_SZ_8821C (15360)*/ /*15k < 16k*/
++			/*#define MAX_RECVBUF_SZ_8821C (8192+1024)*/ /* 8K+1k*/
++		#else
++			#define MAX_RECVBUF_SZ (4096) /* about 4K */
++		#endif
++	#endif/* !MAX_RECVBUF_SZ*/
++
++#elif defined(CONFIG_PCI_HCI)
++	/*#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++	#define MAX_RECVBUF_SZ (9100)
++	#else*/
++	#define MAX_RECVBUF_SZ (4096) /* about 4K */
++	/*#endif*/
++
++#elif defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++
++	#define MAX_RECVBUF_SZ	HALMAC_RX_FIFO_SIZE_8821C
++
++#endif
++
++void init_hal_spec_rtl8821c(PADAPTER);
++/* MP Functions */
++#ifdef CONFIG_MP_INCLUDED
++void rtl8821c_phy_init_haldm(PADAPTER);				/* rtw_mp.c */
++void rtl8821c_prepare_mp_txdesc(PADAPTER, struct mp_priv *);	/* rtw_mp.c */
++void rtl8821c_mp_config_rfpath(PADAPTER);			/* hal_mp.c */
++#endif
++
++#endif /* _RTL8821C_HAL_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8821cs_hal.h b/drivers/net/wireless/rtl8723du/include/rtl8821cs_hal.h
+new file mode 100644
+index 0000000..97df6e9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8821cs_hal.h
+@@ -0,0 +1,28 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8821CS_HAL_H_
++#define _RTL8821CS_HAL_H_
++
++#include <drv_types.h>		/* PADAPTER */
++
++/* rtl8821cs_ops.c */
++u8 rtl8821cs_set_hal_ops(PADAPTER);
++
++#endif /* _RTL8821CS_HAL_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8821cu_hal.h b/drivers/net/wireless/rtl8723du/include/rtl8821cu_hal.h
+new file mode 100644
+index 0000000..63c25a8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8821cu_hal.h
+@@ -0,0 +1,29 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8821CU_HAL_H_
++#define _RTL8821CU_HAL_H_
++
++#include <drv_types.h>		/* PADAPTER */
++
++/* rtl8821cu_ops.c */
++u8 rtl8821cu_set_hal_ops(PADAPTER);
++void rtl8821cu_set_hw_type(struct dvobj_priv *pdvobj);
++
++#endif /* _RTL8821CU_HAL_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8822b_hal.h b/drivers/net/wireless/rtl8723du/include/rtl8822b_hal.h
+new file mode 100644
+index 0000000..089f97d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8822b_hal.h
+@@ -0,0 +1,216 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8822B_HAL_H_
++#define _RTL8822B_HAL_H_
++
++#include <osdep_service.h>		/* BIT(x) */
++#include <drv_types.h>			/* PADAPTER */
++#include "../hal/halmac/halmac_api.h"	/* MAC REG definition */
++
++
++#define MAX_RECVBUF_SZ		HALMAC_RX_FIFO_SIZE_8822B
++
++/*
++ * MAC Register definition
++ */
++#define REG_AFE_XTAL_CTRL	REG_AFE_CTRL1_8822B	/* hal_com.c & phydm */
++#define REG_AFE_PLL_CTRL	REG_AFE_CTRL2_8822B	/* hal_com.c & phydm */
++#define REG_MAC_PHY_CTRL	REG_AFE_CTRL3_8822B	/* phydm only */
++#define REG_LEDCFG0		REG_LED_CFG_8822B	/* rtw_mp.c */
++#define MSR			(REG_CR_8822B + 2)	/* rtw_mp.c & hal_com.c */
++#define MSR1			REG_CR_EXT_8822B	/* rtw_mp.c & hal_com.c */
++#define REG_C2HEVT_MSG_NORMAL	0x1A0			/* hal_com.c */
++#define REG_C2HEVT_CLEAR	0x1AF			/* hal_com.c */
++#define REG_BCN_CTRL_1		REG_BCN_CTRL_CLINT0_8822B	/* hal_com.c */
++#define REG_TSFTR1		REG_FREERUN_CNT_8822B	/* hal_com.c */
++#define REG_RXFLTMAP2		REG_RXFLTMAP_8822B	/* rtw_mp.c */
++
++/* RXERR_RPT, for rtw_mp.c */
++#define RXERR_TYPE_OFDM_PPDU		0
++#define RXERR_TYPE_OFDM_FALSE_ALARM	2
++#define RXERR_TYPE_OFDM_MPDU_OK		0
++#define RXERR_TYPE_OFDM_MPDU_FAIL	1
++#define RXERR_TYPE_CCK_PPDU		3
++#define RXERR_TYPE_CCK_FALSE_ALARM	5
++#define RXERR_TYPE_CCK_MPDU_OK		3
++#define RXERR_TYPE_CCK_MPDU_FAIL	4
++#define RXERR_TYPE_HT_PPDU		8
++#define RXERR_TYPE_HT_FALSE_ALARM	9
++#define RXERR_TYPE_HT_MPDU_TOTAL	6
++#define RXERR_TYPE_HT_MPDU_OK		6
++#define RXERR_TYPE_HT_MPDU_FAIL		7
++#define RXERR_TYPE_RX_FULL_DROP		10
++
++#define RXERR_COUNTER_MASK		BIT_MASK_RPT_COUNTER_8822B
++#define RXERR_RPT_RST			BIT_RXERR_RPT_RST_8822B
++#define _RXERR_RPT_SEL(type)		(BIT_RXERR_RPT_SEL_V1_3_0_8822B(type) \
++					| ((type & 0x10) ? BIT_RXERR_RPT_SEL_V1_4_8822B : 0))
++
++/*
++ * BB Register definition
++ */
++#define rPMAC_Reset			0x100	/* hal_mp.c */
++
++#define	rFPGA0_RFMOD			0x800
++#define rFPGA0_TxInfo			0x804
++#define rOFDMCCKEN_Jaguar		0x808	/* hal_mp.c */
++#define rFPGA0_TxGainStage		0x80C	/* phydm only */
++#define rFPGA0_XA_HSSIParameter1	0x820	/* hal_mp.c */
++#define rFPGA0_XA_HSSIParameter2	0x824	/* hal_mp.c */
++#define rFPGA0_XB_HSSIParameter1	0x828	/* hal_mp.c */
++#define rFPGA0_XB_HSSIParameter2	0x82C	/* hal_mp.c */
++#define rTxAGC_B_Rate18_06		0x830
++#define rTxAGC_B_Rate54_24		0x834
++#define rTxAGC_B_CCK1_55_Mcs32		0x838
++#define rCCAonSec_Jaguar		0x838	/* hal_mp.c */
++#define rTxAGC_B_Mcs03_Mcs00		0x83C
++#define rTxAGC_B_Mcs07_Mcs04		0x848
++#define rTxAGC_B_Mcs11_Mcs08		0x84C
++#define rFPGA0_XA_RFInterfaceOE		0x860
++#define rFPGA0_XB_RFInterfaceOE		0x864
++#define rTxAGC_B_Mcs15_Mcs12		0x868
++#define rTxAGC_B_CCK11_A_CCK2_11	0x86C
++#define rFPGA0_XAB_RFInterfaceSW	0x870
++#define rFPGA0_XAB_RFParameter		0x878
++#define rFPGA0_AnalogParameter4		0x88C	/* hal_mp.c & phydm */
++#define rFPGA0_XB_LSSIReadBack		0x8A4	/* phydm */
++#define rHSSIRead_Jaguar		0x8B0	/* RF read addr (rtl8822b_phy.c) */
++
++#define	rC_TxScale_Jaguar2		0x181C  /* Pah_C TX scaling factor (hal_mp.c) */
++#define	rC_IGI_Jaguar2			0x1850	/* Initial Gain for path-C (hal_mp.c) */
++
++#define rFPGA1_TxInfo			0x90C	/* hal_mp.c */
++#define rSingleTone_ContTx_Jaguar	0x914	/* hal_mp.c */
++/* TX BeamForming */
++#define REG_BB_TX_PATH_SEL_1_8822B	0x93C	/* rtl8822b_phy.c */
++#define REG_BB_TX_PATH_SEL_2_8822B	0x940	/* rtl8822b_phy.c */
++
++/* TX BeamForming */
++#define REG_BB_TXBF_ANT_SET_BF1_8822B	0x19AC	/* rtl8822b_phy.c */
++#define REG_BB_TXBF_ANT_SET_BF0_8822B	0x19B4	/* rtl8822b_phy.c */
++
++#define rCCK0_System			0xA00
++#define rCCK0_AFESetting		0xA04
++
++#define rCCK0_DSPParameter2		0xA1C
++#define rCCK0_TxFilter1			0xA20
++#define rCCK0_TxFilter2			0xA24
++#define rCCK0_DebugPort			0xA28
++#define rCCK0_FalseAlarmReport		0xA2C
++
++#define	rD_TxScale_Jaguar2		0x1A1C  /* Path_D TX scaling factor (hal_mp.c) */
++#define	rD_IGI_Jaguar2			0x1A50	/* Initial Gain for path-D (hal_mp.c) */
++
++#define rOFDM0_TRxPathEnable		0xC04
++#define rOFDM0_TRMuxPar			0xC08
++#define rA_TxScale_Jaguar		0xC1C	/* Pah_A TX scaling factor (hal_mp.c) */
++#define rOFDM0_RxDetector1		0xC30	/* rtw_mp.c */
++#define rOFDM0_ECCAThreshold		0xC4C	/* phydm only */
++#define rOFDM0_XAAGCCore1		0xC50	/* phydm only */
++#define rA_IGI_Jaguar			0xC50	/* Initial Gain for path-A (hal_mp.c) */
++#define rOFDM0_XBAGCCore1		0xC58	/* phydm only */
++#define rOFDM0_XATxIQImbalance		0xC80	/* phydm only */
++#define rA_LSSIWrite_Jaguar		0xC90	/* RF write addr, LSSI Parameter (rtl8822b_phy.c) */
++#define rA_RFE_Pinmux_Jaguar		0xCB0	/* hal_mp.c */
++
++#define rOFDM1_LSTF			0xD00
++#define rOFDM1_TRxPathEnable		0xD04	/* hal_mp.c */
++#define rA_PIRead_Jaguar		0xD04	/* RF readback with PI (rtl8822b_phy.c) */
++#define rA_SIRead_Jaguar		0xD08	/* RF readback with SI (rtl8822b_phy.c) */
++#define rB_PIRead_Jaguar		0xD44	/* RF readback with PI (rtl8822b_phy.c) */
++#define rB_SIRead_Jaguar		0xD48	/* RF readback with SI (rtl8822b_phy.c) */
++
++#define rTxAGC_A_Rate18_06		0xE00
++#define rTxAGC_A_Rate54_24		0xE04
++#define rTxAGC_A_CCK1_Mcs32		0xE08
++#define rTxAGC_A_Mcs03_Mcs00		0xE10
++#define rTxAGC_A_Mcs07_Mcs04		0xE14
++#define rTxAGC_A_Mcs11_Mcs08		0xE18
++#define rTxAGC_A_Mcs15_Mcs12		0xE1C
++#define rB_TxScale_Jaguar		0xE1C	/* Path_B TX scaling factor (hal_mp.c) */
++#define rB_IGI_Jaguar			0xE50	/* Initial Gain for path-B (hal_mp.c) */
++#define rB_LSSIWrite_Jaguar		0xE90	/* RF write addr, LSSI Parameter (rtl8822b_phy.c) */
++#define rB_RFE_Pinmux_Jaguar		0xEB0	/* hal_mp.c */
++
++/* Page1(0x100) */
++#define bBBResetB			0x100
++
++/* Page8(0x800) */
++#define bCCKEn				0x1000000
++#define bOFDMEn				0x2000000
++/* Reg 0x80C rFPGA0_TxGainStage */
++#define bXBTxAGC			0xF00
++#define bXCTxAGC			0xF000
++#define bXDTxAGC			0xF0000
++
++/* PageA(0xA00) */
++#define bCCKBBMode			0x3
++
++#define bCCKScramble			0x8
++#define bCCKTxRate			0x3000
++
++/* General */
++#define bMaskByte0		0xFF		/* mp, rtw_odm.c & phydm */
++#define bMaskByte1		0xFF00		/* hal_mp.c & phydm */
++#define bMaskByte2		0xFF0000	/* hal_mp.c & phydm */
++#define bMaskByte3		0xFF000000	/* hal_mp.c & phydm */
++#define bMaskHWord		0xFFFF0000	/* hal_com.c, rtw_mp.c */
++#define bMaskLWord		0x0000FFFF	/* mp, hal_com.c & phydm */
++#define bMaskDWord		0xFFFFFFFF	/* mp, hal, rtw_odm.c & phydm */
++
++#define bEnable			0x1		/* hal_mp.c, rtw_mp.c */
++#define bDisable		0x0		/* rtw_mp.c */
++
++#define MAX_STALL_TIME		50		/* unit: us, hal_com_phycfg.c */
++
++#define Rx_Smooth_Factor	20		/* phydm only */
++
++/*
++ * RF Register definition
++ */
++#define RF_AC			0x00
++#define RF_AC_Jaguar		0x00	/* hal_mp.c */
++#define RF_CHNLBW		0x18	/* rtl8822b_phy.c */
++#define RF_ModeTableAddr	0x30	/* rtl8822b_phy.c */
++#define RF_ModeTableData0	0x31	/* rtl8822b_phy.c */
++#define RF_ModeTableData1	0x32	/* rtl8822b_phy.c */
++#define RF_0x52			0x52
++#define RF_WeLut_Jaguar		0xEF	/* rtl8822b_phy.c */
++
++/* General Functions */
++void rtl8822b_init_hal_spec(PADAPTER);				/* hal/hal_com.c */
++
++#ifdef CONFIG_MP_INCLUDED
++/* MP Functions */
++#include <rtw_mp.h>		/* struct mp_priv */
++void rtl8822b_phy_init_haldm(PADAPTER);				/* rtw_mp.c */
++void rtl8822b_prepare_mp_txdesc(PADAPTER, struct mp_priv *);	/* rtw_mp.c */
++void rtl8822b_mp_config_rfpath(PADAPTER);			/* hal_mp.c */
++#endif
++
++#ifdef CONFIG_USB_HCI
++#include <rtl8822bu_hal.h>
++#elif defined(CONFIG_SDIO_HCI)
++#include <rtl8822bs_hal.h>
++#elif defined(CONFIG_PCI_HCI)
++#include <rtl8822be_hal.h>
++#endif
++
++#endif /* _RTL8822B_HAL_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8822be_hal.h b/drivers/net/wireless/rtl8723du/include/rtl8822be_hal.h
+new file mode 100644
+index 0000000..8379fab
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8822be_hal.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8822BE_HAL_H_
++#define _RTL8822BE_HAL_H_
++
++#include <drv_types.h>		/* PADAPTER */
++
++#define RT_BCN_INT_MASKS	(BIT20 | BIT25 | BIT26 | BIT16)
++
++/* rtl8822be_ops.c */
++void UpdateInterruptMask8822BE(PADAPTER, u32 AddMSR, u32 AddMSR1, u32 RemoveMSR, u32 RemoveMSR1);
++
++#endif /* _RTL8822BE_HAL_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8822bs_hal.h b/drivers/net/wireless/rtl8723du/include/rtl8822bs_hal.h
+new file mode 100644
+index 0000000..313036d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8822bs_hal.h
+@@ -0,0 +1,32 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8822BS_HAL_H_
++#define _RTL8822BS_HAL_H_
++
++#include <drv_types.h>		/* PADAPTER */
++
++/* rtl8822bs_ops.c */
++void rtl8822bs_set_hal_ops(PADAPTER);
++
++/* rtl8822bs_xmit.c */
++s32 rtl8822bs_dequeue_writeport(PADAPTER);
++#define _dequeue_writeport(a)	rtl8822bs_dequeue_writeport(a)
++
++#endif /* _RTL8822BS_HAL_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtl8822bu_hal.h b/drivers/net/wireless/rtl8723du/include/rtl8822bu_hal.h
+new file mode 100644
+index 0000000..495b391
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtl8822bu_hal.h
+@@ -0,0 +1,58 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8822BU_HAL_H_
++#define _RTL8822BU_HAL_H_
++
++#ifdef CONFIG_USB_HCI
++	#include <drv_types.h>		/* PADAPTER */
++
++	#ifdef CONFIG_USB_HCI
++		#ifdef USB_PACKET_OFFSET_SZ
++			#define PACKET_OFFSET_SZ (USB_PACKET_OFFSET_SZ)
++		#else
++			#define PACKET_OFFSET_SZ (8)
++		#endif
++		#define TXDESC_OFFSET (TXDESC_SIZE + PACKET_OFFSET_SZ)
++	#endif
++
++	/* recv_buffer must be large than usb agg size */
++	#ifndef MAX_RECVBUF_SZ
++		#ifdef PLATFORM_OS_CE
++			#define MAX_RECVBUF_SZ (8192+1024)
++		#else /* !PLATFORM_OS_CE */
++			#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++				#define MAX_RECVBUF_SZ (32768)
++			#else
++				#define MAX_RECVBUF_SZ (4000)
++			#endif
++		#endif /* PLATFORM_OS_CE */
++	#endif /* !MAX_RECVBUF_SZ */
++
++	/* rtl8822bu_ops.c */
++	void rtl8822bu_set_hal_ops(PADAPTER padapter);
++	void rtl8822bu_set_hw_type(struct dvobj_priv *pdvobj);
++
++	/* rtl8822bu_io.c */
++	void rtl8822bu_set_intf_ops(struct _io_ops *pops);
++
++#endif /* CONFIG_USB_HCI */
++
++
++#endif /* _RTL8822BU_HAL_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_android.h b/drivers/net/wireless/rtl8723du/include/rtw_android.h
+new file mode 100644
+index 0000000..2015afe
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_android.h
+@@ -0,0 +1,115 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __RTW_ANDROID_H__
++#define __RTW_ANDROID_H__
++
++enum ANDROID_WIFI_CMD {
++	ANDROID_WIFI_CMD_START,
++	ANDROID_WIFI_CMD_STOP,
++	ANDROID_WIFI_CMD_SCAN_ACTIVE,
++	ANDROID_WIFI_CMD_SCAN_PASSIVE,
++	ANDROID_WIFI_CMD_RSSI,
++	ANDROID_WIFI_CMD_LINKSPEED,
++	ANDROID_WIFI_CMD_RXFILTER_START,
++	ANDROID_WIFI_CMD_RXFILTER_STOP,
++	ANDROID_WIFI_CMD_RXFILTER_ADD,
++	ANDROID_WIFI_CMD_RXFILTER_REMOVE,
++	ANDROID_WIFI_CMD_BTCOEXSCAN_START,
++	ANDROID_WIFI_CMD_BTCOEXSCAN_STOP,
++	ANDROID_WIFI_CMD_BTCOEXMODE,
++	ANDROID_WIFI_CMD_SETSUSPENDOPT,
++	ANDROID_WIFI_CMD_P2P_DEV_ADDR,
++	ANDROID_WIFI_CMD_SETFWPATH,
++	ANDROID_WIFI_CMD_SETBAND,
++	ANDROID_WIFI_CMD_GETBAND,
++	ANDROID_WIFI_CMD_COUNTRY,
++	ANDROID_WIFI_CMD_P2P_SET_NOA,
++	ANDROID_WIFI_CMD_P2P_GET_NOA,
++	ANDROID_WIFI_CMD_P2P_SET_PS,
++	ANDROID_WIFI_CMD_SET_AP_WPS_P2P_IE,
++
++	ANDROID_WIFI_CMD_MIRACAST,
++
++#ifdef CONFIG_PNO_SUPPORT
++	ANDROID_WIFI_CMD_PNOSSIDCLR_SET,
++	ANDROID_WIFI_CMD_PNOSETUP_SET,
++	ANDROID_WIFI_CMD_PNOENABLE_SET,
++	ANDROID_WIFI_CMD_PNODEBUG_SET,
++#endif
++
++	ANDROID_WIFI_CMD_MACADDR,
++
++	ANDROID_WIFI_CMD_BLOCK_SCAN,
++	ANDROID_WIFI_CMD_BLOCK,
++
++	ANDROID_WIFI_CMD_WFD_ENABLE,
++	ANDROID_WIFI_CMD_WFD_DISABLE,
++
++	ANDROID_WIFI_CMD_WFD_SET_TCPPORT,
++	ANDROID_WIFI_CMD_WFD_SET_MAX_TPUT,
++	ANDROID_WIFI_CMD_WFD_SET_DEVTYPE,
++	ANDROID_WIFI_CMD_CHANGE_DTIM,
++	ANDROID_WIFI_CMD_HOSTAPD_SET_MACADDR_ACL,
++	ANDROID_WIFI_CMD_HOSTAPD_ACL_ADD_STA,
++	ANDROID_WIFI_CMD_HOSTAPD_ACL_REMOVE_STA,
++#if defined(CONFIG_GTK_OL) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 1, 0))
++	ANDROID_WIFI_CMD_GTK_REKEY_OFFLOAD,
++#endif /* CONFIG_GTK_OL */
++	ANDROID_WIFI_CMD_P2P_DISABLE,
++	ANDROID_WIFI_CMD_DRIVERVERSION,
++	ANDROID_WIFI_CMD_MAX
++};
++
++int rtw_android_cmdstr_to_num(char *cmdstr);
++int rtw_android_priv_cmd(struct net_device *net, struct ifreq *ifr, int cmd);
++
++#if defined(CONFIG_PNO_SUPPORT) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
++int rtw_android_pno_enable(struct net_device *net, int pno_enable);
++int rtw_android_cfg80211_pno_setup(struct net_device *net,
++		   struct cfg80211_ssid *ssid, int n_ssids, int interval);
++#endif
++
++#if defined(RTW_ENABLE_WIFI_CONTROL_FUNC)
++int rtw_android_wifictrl_func_add(void);
++void rtw_android_wifictrl_func_del(void);
++void *wl_android_prealloc(int section, unsigned long size);
++
++int wifi_get_irq_number(unsigned long *irq_flags_ptr);
++int wifi_set_power(int on, unsigned long msec);
++int wifi_get_mac_addr(unsigned char *buf);
++void *wifi_get_country_code(char *ccode);
++#else
++static int rtw_android_wifictrl_func_add(void)
++{
++	return 0;
++}
++static void rtw_android_wifictrl_func_del(void) {}
++#endif /* defined(RTW_ENABLE_WIFI_CONTROL_FUNC) */
++
++#ifdef CONFIG_GPIO_WAKEUP
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++int wifi_configure_gpio(void);
++#endif /* CONFIG_PLATFORM_INTEL_BYT */
++void wifi_free_gpio(unsigned int gpio);
++#endif /* CONFIG_GPIO_WAKEUP */
++
++
++#endif /* __RTW_ANDROID_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_ap.h b/drivers/net/wireless/rtl8723du/include/rtw_ap.h
+new file mode 100644
+index 0000000..5a0fb53
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_ap.h
+@@ -0,0 +1,88 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_AP_H_
++#define __RTW_AP_H_
++
++
++#ifdef CONFIG_AP_MODE
++
++/* external function */
++extern void rtw_indicate_sta_assoc_event(_adapter *padapter, struct sta_info *psta);
++extern void rtw_indicate_sta_disassoc_event(_adapter *padapter, struct sta_info *psta);
++
++
++void init_mlme_ap_info(_adapter *padapter);
++void free_mlme_ap_info(_adapter *padapter);
++/* void update_BCNTIM(_adapter *padapter); */
++void rtw_add_bcn_ie(_adapter *padapter, WLAN_BSSID_EX *pnetwork, u8 index, u8 *data, u8 len);
++void rtw_remove_bcn_ie(_adapter *padapter, WLAN_BSSID_EX *pnetwork, u8 index);
++void _update_beacon(_adapter *padapter, u8 ie_id, u8 *oui, u8 tx, const char *tag);
++#define update_beacon(adapter, ie_id, oui, tx) _update_beacon((adapter), (ie_id), (oui), (tx), __func__)
++void add_RATid(_adapter *padapter, struct sta_info *psta, u8 rssi_level);
++void expire_timeout_chk(_adapter *padapter);
++void update_sta_info_apmode(_adapter *padapter, struct sta_info *psta);
++void rtw_start_bss_hdl_after_chbw_decided(_adapter *adapter);
++void start_bss_network(_adapter *padapter, struct createbss_parm *parm);
++int rtw_check_beacon_data(_adapter *padapter, u8 *pbuf,  int len);
++void rtw_ap_restore_network(_adapter *padapter);
++
++#if CONFIG_RTW_MACADDR_ACL
++void rtw_set_macaddr_acl(_adapter *adapter, int mode);
++int rtw_acl_add_sta(_adapter *adapter, const u8 *addr);
++int rtw_acl_remove_sta(_adapter *adapter, const u8 *addr);
++#endif /* CONFIG_RTW_MACADDR_ACL */
++
++u8 rtw_ap_set_pairwise_key(_adapter *padapter, struct sta_info *psta);
++int rtw_ap_set_group_key(_adapter *padapter, u8 *key, u8 alg, int keyid);
++int rtw_ap_set_wep_key(_adapter *padapter, u8 *key, u8 keylen, int keyid, u8 set_tx);
++
++#ifdef CONFIG_NATIVEAP_MLME
++void associated_clients_update(_adapter *padapter, u8 updated, u32 sta_info_type);
++void bss_cap_update_on_sta_join(_adapter *padapter, struct sta_info *psta);
++u8 bss_cap_update_on_sta_leave(_adapter *padapter, struct sta_info *psta);
++void sta_info_update(_adapter *padapter, struct sta_info *psta);
++void ap_sta_info_defer_update(_adapter *padapter, struct sta_info *psta);
++u8 ap_free_sta(_adapter *padapter, struct sta_info *psta, bool active, u16 reason, bool enqueue);
++int rtw_sta_flush(_adapter *padapter, bool enqueue);
++int rtw_ap_inform_ch_switch(_adapter *padapter, u8 new_ch, u8 ch_offset);
++void start_ap_mode(_adapter *padapter);
++void stop_ap_mode(_adapter *padapter);
++#endif
++
++void rtw_ap_update_bss_chbw(_adapter *adapter, WLAN_BSSID_EX *bss, u8 ch, u8 bw, u8 offset);
++bool rtw_ap_chbw_decision(_adapter *adapter, s16 req_ch, s8 req_bw, s8 req_offset, u8 *ch, u8 *bw, u8 *offset, u8 *chbw_allow);
++
++#ifdef CONFIG_AUTO_AP_MODE
++extern void rtw_start_auto_ap(_adapter *adapter);
++#endif /* CONFIG_AUTO_AP_MODE */
++
++#endif /* end of CONFIG_AP_MODE */
++
++#endif
++void update_bmc_sta(_adapter *padapter);
++
++void rtw_process_ht_action_smps(_adapter *padapter, u8 *ta, u8 ctrl_field);
++void rtw_process_public_act_bsscoex(_adapter *padapter, u8 *pframe, uint frame_len);
++int rtw_ht_operation_update(_adapter *padapter);
++
++#ifdef CONFIG_SWTIMER_BASED_TXBCN
++void tx_beacon_handlder(struct dvobj_priv *pdvobj);
++void tx_beacon_timer_handlder(struct dvobj_priv *pdvobj);
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_beamforming.h b/drivers/net/wireless/rtl8723du/include/rtw_beamforming.h
+new file mode 100644
+index 0000000..1d46f4b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_beamforming.h
+@@ -0,0 +1,299 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_BEAMFORMING_H_
++#define __RTW_BEAMFORMING_H_
++
++#ifdef CONFIG_BEAMFORMING
++
++#if (BEAMFORMING_SUPPORT == 0) /*for diver defined beamforming*/
++#ifdef RTW_BEAMFORMING_VERSION_2
++#define MAX_NUM_BEAMFORMEE_SU	2
++#define MAX_NUM_BEAMFORMER_SU	2
++#define MAX_NUM_BEAMFORMEE_MU	6
++#define MAX_NUM_BEAMFORMER_MU	1
++
++#define MAX_BEAMFORMEE_ENTRY_NUM	(MAX_NUM_BEAMFORMEE_SU + MAX_NUM_BEAMFORMEE_MU)
++#define MAX_BEAMFORMER_ENTRY_NUM	(MAX_NUM_BEAMFORMER_SU + MAX_NUM_BEAMFORMER_MU)
++
++#define GetInitSoundCnt(_SoundPeriod, _MinSoundPeriod)	((_SoundPeriod)/(_MinSoundPeriod))
++
++#define GET_BEAMFORM_INFO(adapter)	(&GET_HAL_DATA(adapter)->beamforming_info)
++#else /* !RTW_BEAMFORMING_VERSION_2 */
++#define BEAMFORMING_ENTRY_NUM		2
++#define GET_BEAMFORM_INFO(_pmlmepriv)	((struct beamforming_info *)(&(_pmlmepriv)->beamforming_info))
++#endif /* !RTW_BEAMFORMING_VERSION_2 */
++
++typedef enum _BEAMFORMING_ENTRY_STATE {
++	BEAMFORMING_ENTRY_STATE_UNINITIALIZE,
++	BEAMFORMING_ENTRY_STATE_INITIALIZEING,
++	BEAMFORMING_ENTRY_STATE_INITIALIZED,
++	BEAMFORMING_ENTRY_STATE_PROGRESSING,
++	BEAMFORMING_ENTRY_STATE_PROGRESSED,
++} BEAMFORMING_ENTRY_STATE, *PBEAMFORMING_ENTRY_STATE;
++
++
++typedef enum _BEAMFORMING_STATE {
++	BEAMFORMING_STATE_IDLE,
++	BEAMFORMING_STATE_START,
++	BEAMFORMING_STATE_END,
++} BEAMFORMING_STATE, *PBEAMFORMING_STATE;
++
++
++typedef enum _BEAMFORMING_CAP {
++	BEAMFORMING_CAP_NONE = 0x0,
++	BEAMFORMER_CAP_HT_EXPLICIT = 0x1,
++	BEAMFORMEE_CAP_HT_EXPLICIT = 0x2,
++	BEAMFORMER_CAP_VHT_SU = 0x4,			/* Self has er Cap, because Reg er  & peer ee */
++	BEAMFORMEE_CAP_VHT_SU = 0x8, 			/* Self has ee Cap, because Reg ee & peer er */
++	BEAMFORMER_CAP_VHT_MU = 0x10,			/* Self has er Cap, because Reg er & peer ee */
++	BEAMFORMEE_CAP_VHT_MU = 0x20,			/* Self has ee Cap, because Reg ee & peer er */
++	BEAMFORMER_CAP = 0x40,
++	BEAMFORMEE_CAP = 0x80,
++} BEAMFORMING_CAP, *PBEAMFORMING_CAP;
++
++
++typedef enum _SOUNDING_MODE {
++	SOUNDING_SW_VHT_TIMER = 0x0,
++	SOUNDING_SW_HT_TIMER = 0x1,
++	SOUNDING_STOP_All_TIMER = 0x2,
++	SOUNDING_HW_VHT_TIMER = 0x3,
++	SOUNDING_HW_HT_TIMER = 0x4,
++	SOUNDING_STOP_OID_TIMER = 0x5,
++	SOUNDING_AUTO_VHT_TIMER = 0x6,
++	SOUNDING_AUTO_HT_TIMER = 0x7,
++	SOUNDING_FW_VHT_TIMER = 0x8,
++	SOUNDING_FW_HT_TIMER = 0x9,
++} SOUNDING_MODE, *PSOUNDING_MODE;
++
++#ifdef RTW_BEAMFORMING_VERSION_2
++enum _BEAMFORM_ENTRY_HW_STATE {
++	BEAMFORM_ENTRY_HW_STATE_NONE,
++	BEAMFORM_ENTRY_HW_STATE_ADD_INIT,
++	BEAMFORM_ENTRY_HW_STATE_ADDING,
++	BEAMFORM_ENTRY_HW_STATE_ADDED,
++	BEAMFORM_ENTRY_HW_STATE_DELETE_INIT,
++	BEAMFORM_ENTRY_HW_STATE_DELETING,
++	BEAMFORM_ENTRY_HW_STATE_MAX
++};
++
++struct beamformee_entry {
++	u8 used;	/* _TRUE/_FALSE */
++	u8 txbf;
++	u8 sounding;
++	/* Used to construct AID field of NDPA packet */
++	u16 aid;
++	/* Used to Set Reg42C in IBSS mode */
++	u16 mac_id;
++	/* Used to fill Reg42C & Reg714 to compare with P_AID of Tx DESC */
++	u16 p_aid;
++	u16 g_id;
++	/* Used to fill Reg6E4 to fill Mac address of CSI report frame */
++	u8 mac_addr[ETH_ALEN];
++	/* Sounding BandWidth */
++	CHANNEL_WIDTH sound_bw;
++	u16 sound_period;
++
++	BEAMFORMING_CAP cap;
++	enum _BEAMFORM_ENTRY_HW_STATE state;
++
++	/* The BFee need to be sounded when count to zero */
++	u8 SoundCnt;
++	u8 bCandidateSoundingPeer;
++	u8 bSoundingTimeout;
++	u8 bDeleteSounding;
++
++	u16 LogStatusFailCnt:5;	/* 0~21 */
++	u16 DefaultCSICnt:5; /* 0~21 */
++	u8 CSIMatrix[327];
++	u16 CSIMatrixLen;
++
++	u8 NumofSoundingDim;
++	u8 CompSteeringNumofBFer;
++
++	u8 su_reg_index;
++
++	/* MU-MIMO */
++	u8 mu_reg_index;
++	u8 gid_valid[8];
++	u8 user_position[16];
++};
++
++struct beamformer_entry {
++	u8 used;
++	/* p_aid of BFer entry is probably not used */
++	/* Used to fill Reg42C & Reg714 to compare with p_aid of Tx DESC */
++	u16 p_aid;
++	u16 g_id;
++	u8 mac_addr[ETH_ALEN];
++
++	BEAMFORMING_CAP cap;
++	enum _BEAMFORM_ENTRY_HW_STATE state;
++
++	u8 NumofSoundingDim;
++	u8 su_reg_index;
++
++	 /* MU-MIMO */
++	u8 gid_valid[8];
++	u8 user_position[16];
++	u16 aid;
++};
++
++/* The sounding state is recorded by BFer. */
++enum _SOUNDING_STATE {
++	SOUNDING_STATE_NONE		= 0,
++	SOUNDING_STATE_INIT		= 1,
++	SOUNDING_STATE_SU_START		= 2,
++	SOUNDING_STATE_SU_SOUNDDOWN	= 3,
++	SOUNDING_STATE_MU_START		= 4,
++	SOUNDING_STATE_MU_SOUNDDOWN	= 5,
++	SOUNDING_STATE_SOUNDING_TIMEOUT	= 6,
++	SOUNDING_STATE_MAX
++};
++
++struct sounding_info {
++	u8			su_sounding_list[MAX_NUM_BEAMFORMEE_SU];
++	u8			mu_sounding_list[MAX_NUM_BEAMFORMEE_MU];
++
++	enum _SOUNDING_STATE	state;
++	u8			su_bfee_curidx;
++	u8			candidate_mu_bfee_cnt;
++
++	/* For sounding schedule maintenance */
++	u16			min_sounding_period;
++	/* Get from sounding list */
++	/* Ex: SU STA1, SU STA2, MU STA(1~n) => the value will be 2+1=3 */
++	u8			sound_remain_cnt_per_period;
++	/* Real number of SU sound per period */
++	u8			su_sound_num_per_period;
++	/* Real number of MU sound per period */
++	u8			mu_sound_num_per_period;
++};
++
++struct beamforming_info {
++	BEAMFORMING_CAP		beamforming_cap;
++	BEAMFORMING_STATE	beamforming_state;
++	struct beamformee_entry	bfee_entry[MAX_BEAMFORMEE_ENTRY_NUM];
++	struct beamformer_entry	bfer_entry[MAX_BEAMFORMER_ENTRY_NUM];
++	u8			sounding_sequence;
++	u8			beamformee_su_cnt;
++	u8			beamformer_su_cnt;
++	u32			beamformee_su_reg_maping;
++	u32			beamformer_su_reg_maping;
++	/* For MU-MINO */
++	u8			beamformee_mu_cnt;
++	u8			beamformer_mu_cnt;
++	u32			beamformee_mu_reg_maping;
++	u8			first_mu_bfee_index;
++	u8			mu_bfer_curidx;
++
++	struct sounding_info	sounding_info;
++
++	/* For HW configuration */
++	u8			SetHalBFEnterOnDemandCnt;
++	u8			SetHalBFLeaveOnDemandCnt;
++	u8			SetHalSoundownOnDemandCnt;
++};
++
++struct beamformee_entry *beamforming_get_bfee_entry_by_addr(PADAPTER, u8 *ra);
++struct beamformer_entry *beamforming_get_bfer_entry_by_addr(PADAPTER, u8 *ra);
++u8 beamforming_send_vht_gid_mgnt_packet(PADAPTER, struct beamformee_entry*);
++
++#else /* !RTW_BEAMFORMING_VERSION_2 */
++struct beamforming_entry {
++	BOOLEAN	bUsed;
++	BOOLEAN	bSound;
++	u16	aid;			/* Used to construct AID field of NDPA packet. */
++	u16	mac_id;		/* Used to Set Reg42C in IBSS mode. */
++	u16	p_aid;		/* Used to fill Reg42C & Reg714 to compare with P_AID of Tx DESC. */
++	u16 g_id;
++	u8	mac_addr[6];/* Used to fill Reg6E4 to fill Mac address of CSI report frame. */
++	CHANNEL_WIDTH	sound_bw;	/* Sounding BandWidth */
++	u16	sound_period;
++	BEAMFORMING_CAP	beamforming_entry_cap;
++	BEAMFORMING_ENTRY_STATE	beamforming_entry_state;
++	u8				ClockResetTimes;			/*Modified by Jeffery @2015-04-10*/
++	u8				PreLogSeq;				/*Modified by Jeffery @2015-03-30*/
++	u8				LogSeq;					/*Modified by Jeffery @2014-10-29*/
++	u16				LogRetryCnt:3;			/*Modified by Jeffery @2014-10-29*/
++	u16				LogSuccess:2;			/*Modified by Jeffery @2014-10-29*/
++
++	u8	LogStatusFailCnt;
++	u8	PreCsiReport[327];
++	u8	DefaultCsiCnt;
++	BOOLEAN	bDefaultCSI;
++};
++
++struct sounding_info {
++	u8				sound_idx;
++	CHANNEL_WIDTH	sound_bw;
++	SOUNDING_MODE	sound_mode;
++	u16				sound_period;
++};
++
++struct beamforming_info {
++	BEAMFORMING_CAP		beamforming_cap;
++	BEAMFORMING_STATE		beamforming_state;
++	struct beamforming_entry	beamforming_entry[BEAMFORMING_ENTRY_NUM];
++	u8						beamforming_cur_idx;
++	u8						beamforming_in_progress;
++	u8						sounding_sequence;
++	struct sounding_info		sounding_info;
++};
++
++struct rtw_ndpa_sta_info {
++	u16	aid:12;
++	u16	feedback_type:1;
++	u16	nc_index:3;
++};
++
++void	beamforming_notify(PADAPTER adapter);
++BEAMFORMING_CAP beamforming_get_beamform_cap(struct beamforming_info	*pBeamInfo);
++#endif /* !RTW_BEAMFORMING_VERSION_2 */
++
++BEAMFORMING_CAP beamforming_get_entry_beam_cap_by_mac_id(void *mlmepriv, u8 mac_id);
++
++BOOLEAN	beamforming_send_ht_ndpa_packet(PADAPTER Adapter, u8 *ra, CHANNEL_WIDTH bw, u8 qidx);
++BOOLEAN	beamforming_send_vht_ndpa_packet(PADAPTER Adapter, u8 *ra, u16 aid, CHANNEL_WIDTH bw, u8 qidx);
++
++void	beamforming_check_sounding_success(PADAPTER Adapter, BOOLEAN status);
++
++void	beamforming_watchdog(PADAPTER Adapter);
++#endif /*#if (BEAMFORMING_SUPPORT ==0)- for diver defined beamforming*/
++
++enum BEAMFORMING_CTRL_TYPE {
++	BEAMFORMING_CTRL_ENTER = 0,
++	BEAMFORMING_CTRL_LEAVE = 1,
++	BEAMFORMING_CTRL_START_PERIOD = 2,
++	BEAMFORMING_CTRL_END_PERIOD = 3,
++	BEAMFORMING_CTRL_SOUNDING_FAIL = 4,
++	BEAMFORMING_CTRL_SOUNDING_CLK = 5,
++	BEAMFORMING_CTRL_SET_GID_TABLE = 6,
++};
++u32	beamforming_get_report_frame(PADAPTER	 Adapter, union recv_frame *precv_frame);
++void	beamforming_get_ndpa_frame(PADAPTER	 Adapter, union recv_frame *precv_frame);
++u32 beamforming_get_vht_gid_mgnt_frame(PADAPTER, union recv_frame *);
++
++void	beamforming_wk_hdl(_adapter *padapter, u8 type, u8 *pbuf);
++u8	beamforming_wk_cmd(_adapter *padapter, s32 type, u8 *pbuf, s32 size, u8 enqueue);
++void update_attrib_txbf_info(_adapter *padapter, struct pkt_attrib *pattrib, struct sta_info *psta);
++
++#endif /*#ifdef CONFIG_BEAMFORMING */
++
++#endif /*__RTW_BEAMFORMING_H_*/
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_br_ext.h b/drivers/net/wireless/rtl8723du/include/rtw_br_ext.h
+new file mode 100644
+index 0000000..1df8dc6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_br_ext.h
+@@ -0,0 +1,74 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_BR_EXT_H_
++#define _RTW_BR_EXT_H_
++
++#if 1	/* rtw_wifi_driver */
++#define CL_IPV6_PASS	1
++#define MACADDRLEN		6
++#define _DEBUG_ERR		RTW_INFO
++#define _DEBUG_INFO		/* RTW_INFO */
++#define DEBUG_WARN		RTW_INFO
++#define DEBUG_INFO		/* RTW_INFO */
++#define DEBUG_ERR		RTW_INFO
++/* #define GET_MY_HWADDR		((GET_MIB(priv))->dot11OperationEntry.hwaddr) */
++#define GET_MY_HWADDR(padapter)		(adapter_mac_addr(padapter))
++#endif /* rtw_wifi_driver */
++
++#define NAT25_HASH_BITS		4
++#define NAT25_HASH_SIZE		(1 << NAT25_HASH_BITS)
++#define NAT25_AGEING_TIME	300
++
++#ifdef CL_IPV6_PASS
++	#define MAX_NETWORK_ADDR_LEN	17
++#else
++	#define MAX_NETWORK_ADDR_LEN	11
++#endif
++
++struct nat25_network_db_entry {
++	struct nat25_network_db_entry	*next_hash;
++	struct nat25_network_db_entry	**pprev_hash;
++	atomic_t						use_count;
++	unsigned char					macAddr[6];
++	unsigned long					ageing_timer;
++	unsigned char				networkAddr[MAX_NETWORK_ADDR_LEN];
++};
++
++enum NAT25_METHOD {
++	NAT25_MIN,
++	NAT25_CHECK,
++	NAT25_INSERT,
++	NAT25_LOOKUP,
++	NAT25_PARSE,
++	NAT25_MAX
++};
++
++struct br_ext_info {
++	unsigned int	nat25_disable;
++	unsigned int	macclone_enable;
++	unsigned int	dhcp_bcst_disable;
++	int		addPPPoETag;		/* 1: Add PPPoE relay-SID, 0: disable */
++	unsigned char	nat25_dmzMac[MACADDRLEN];
++	unsigned int	nat25sc_disable;
++};
++
++void nat25_db_cleanup(_adapter *priv);
++
++#endif /* _RTW_BR_EXT_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_bt_mp.h b/drivers/net/wireless/rtl8723du/include/rtw_bt_mp.h
+new file mode 100644
+index 0000000..cd6ed0a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_bt_mp.h
+@@ -0,0 +1,293 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __RTW_BT_MP_H
++#define __RTW_BT_MP_H
++
++
++#if (MP_DRIVER == 1)
++
++#pragma pack(1)
++
++/* definition for BT_UP_OP_BT_READY */
++#define	MP_BT_NOT_READY						0
++#define	MP_BT_READY							1
++
++/* definition for BT_UP_OP_BT_SET_MODE */
++typedef enum _MP_BT_MODE {
++	MP_BT_MODE_RF_TXRX_TEST_MODE							= 0,
++	MP_BT_MODE_BT20_DUT_TEST_MODE							= 1,
++	MP_BT_MODE_BT40_DIRECT_TEST_MODE						= 2,
++	MP_BT_MODE_CONNECT_TEST_MODE							= 3,
++	MP_BT_MODE_MAX
++} MP_BT_MODE, *PMP_BT_MODE;
++
++
++/* definition for BT_UP_OP_BT_SET_TX_RX_PARAMETER */
++typedef struct _BT_TXRX_PARAMETERS {
++	u1Byte		txrxChannel;
++	u4Byte		txrxTxPktCnt;
++	u1Byte		txrxTxPktInterval;
++	u1Byte		txrxPayloadType;
++	u1Byte		txrxPktType;
++	u2Byte		txrxPayloadLen;
++	u4Byte		txrxPktHeader;
++	u1Byte		txrxWhitenCoeff;
++	u1Byte		txrxBdaddr[6];
++	u1Byte		txrxTxGainIndex;
++} BT_TXRX_PARAMETERS, *PBT_TXRX_PARAMETERS;
++
++/* txrxPktType */
++typedef enum _MP_BT_PKT_TYPE {
++	MP_BT_PKT_DH1							= 0,
++	MP_BT_PKT_DH3							= 1,
++	MP_BT_PKT_DH5							= 2,
++	MP_BT_PKT_2DH1							= 3,
++	MP_BT_PKT_2DH3							= 4,
++	MP_BT_PKT_2DH5							= 5,
++	MP_BT_PKT_3DH1							= 6,
++	MP_BT_PKT_3DH3							= 7,
++	MP_BT_PKT_3DH5							= 8,
++	MP_BT_PKT_LE							= 9,
++	MP_BT_PKT_MAX
++} MP_BT_PKT_TYPE, *PMP_BT_PKT_TYPE;
++/* txrxPayloadType */
++typedef enum _MP_BT_PAYLOAD_TYPE {
++	MP_BT_PAYLOAD_01010101					= 0,
++	MP_BT_PAYLOAD_ALL_1						= 1,
++	MP_BT_PAYLOAD_ALL_0						= 2,
++	MP_BT_PAYLOAD_11110000					= 3,
++	MP_BT_PAYLOAD_PRBS9						= 4,
++	MP_BT_PAYLOAD_MAX						= 8,
++} MP_BT_PAYLOAD_TYPE, *PMP_BT_PAYLOAD_TYPE;
++
++
++/* definition for BT_UP_OP_BT_TEST_CTRL */
++typedef enum _MP_BT_TEST_CTRL {
++	MP_BT_TEST_STOP_ALL_TESTS						= 0,
++	MP_BT_TEST_START_RX_TEST						= 1,
++	MP_BT_TEST_START_PACKET_TX_TEST					= 2,
++	MP_BT_TEST_START_CONTINUOUS_TX_TEST			= 3,
++	MP_BT_TEST_START_INQUIRY_SCAN_TEST				= 4,
++	MP_BT_TEST_START_PAGE_SCAN_TEST					= 5,
++	MP_BT_TEST_START_INQUIRY_PAGE_SCAN_TEST			= 6,
++	MP_BT_TEST_START_LEGACY_CONNECT_TEST			= 7,
++	MP_BT_TEST_START_LE_CONNECT_TEST_INITIATOR		= 8,
++	MP_BT_TEST_START_LE_CONNECT_TEST_ADVERTISER	= 9,
++	MP_BT_TEST_MAX
++} MP_BT_TEST_CTRL, *PMP_BT_TEST_CTRL;
++
++
++typedef enum _RTL_EXT_C2H_EVT {
++	EXT_C2H_WIFI_FW_ACTIVE_RSP = 0,
++	EXT_C2H_TRIG_BY_BT_FW = 1,
++	MAX_EXT_C2HEVENT
++} RTL_EXT_C2H_EVT;
++
++/* OP codes definition between the user layer and driver */
++typedef enum _BT_CTRL_OPCODE_UPPER {
++	BT_UP_OP_BT_READY										= 0x00,
++	BT_UP_OP_BT_SET_MODE									= 0x01,
++	BT_UP_OP_BT_SET_TX_RX_PARAMETER						= 0x02,
++	BT_UP_OP_BT_SET_GENERAL								= 0x03,
++	BT_UP_OP_BT_GET_GENERAL								= 0x04,
++	BT_UP_OP_BT_TEST_CTRL									= 0x05,
++	BT_UP_OP_TEST_BT										= 0x06,
++	BT_UP_OP_MAX
++} BT_CTRL_OPCODE_UPPER, *PBT_CTRL_OPCODE_UPPER;
++
++
++typedef enum _BT_SET_GENERAL {
++	BT_GSET_REG											= 0x00,
++	BT_GSET_RESET											= 0x01,
++	BT_GSET_TARGET_BD_ADDR									= 0x02,
++	BT_GSET_TX_PWR_FINETUNE								= 0x03,
++	BT_SET_TRACKING_INTERVAL								= 0x04,
++	BT_SET_THERMAL_METER									= 0x05,
++	BT_ENABLE_CFO_TRACKING									= 0x06,
++	BT_GSET_UPDATE_BT_PATCH								= 0x07,
++	BT_GSET_MAX
++} BT_SET_GENERAL, *PBT_SET_GENERAL;
++
++typedef enum _BT_GET_GENERAL {
++	BT_GGET_REG											= 0x00,
++	BT_GGET_STATUS											= 0x01,
++	BT_GGET_REPORT											= 0x02,
++	BT_GGET_AFH_MAP										= 0x03,
++	BT_GGET_AFH_STATUS										= 0x04,
++	BT_GGET_MAX
++} BT_GET_GENERAL, *PBT_GET_GENERAL;
++
++/* definition for BT_UP_OP_BT_SET_GENERAL */
++typedef enum _BT_REG_TYPE {
++	BT_REG_RF								= 0,
++	BT_REG_MODEM							= 1,
++	BT_REG_BLUEWIZE						= 2,
++	BT_REG_VENDOR							= 3,
++	BT_REG_LE								= 4,
++	BT_REG_MAX
++} BT_REG_TYPE, *PBT_REG_TYPE;
++
++/* definition for BT_LO_OP_GET_AFH_MAP */
++typedef enum _BT_AFH_MAP_TYPE {
++	BT_AFH_MAP_RESULT						= 0,
++	BT_AFH_MAP_WIFI_PSD_ONLY				= 1,
++	BT_AFH_MAP_WIFI_CH_BW_ONLY				= 2,
++	BT_AFH_MAP_BT_PSD_ONLY					= 3,
++	BT_AFH_MAP_HOST_CLASSIFICATION_ONLY	= 4,
++	BT_AFH_MAP_MAX
++} BT_AFH_MAP_TYPE, *PBT_AFH_MAP_TYPE;
++
++/* definition for BT_UP_OP_BT_GET_GENERAL */
++typedef enum _BT_REPORT_TYPE {
++	BT_REPORT_RX_PACKET_CNT				= 0,
++	BT_REPORT_RX_ERROR_BITS				= 1,
++	BT_REPORT_RSSI							= 2,
++	BT_REPORT_CFO_HDR_QUALITY				= 3,
++	BT_REPORT_CONNECT_TARGET_BD_ADDR		= 4,
++	BT_REPORT_MAX
++} BT_REPORT_TYPE, *PBT_REPORT_TYPE;
++
++VOID
++MPTBT_Test(
++	IN	PADAPTER	Adapter,
++	IN	u1Byte		opCode,
++	IN	u1Byte		byte1,
++	IN	u1Byte		byte2,
++	IN	u1Byte		byte3
++);
++
++NDIS_STATUS
++MPTBT_SendOidBT(
++	IN	PADAPTER		pAdapter,
++	IN	PVOID			InformationBuffer,
++	IN	ULONG			InformationBufferLength,
++	OUT	PULONG			BytesRead,
++	OUT	PULONG			BytesNeeded
++);
++
++VOID
++MPTBT_FwC2hBtMpCtrl(
++	PADAPTER	Adapter,
++	pu1Byte	tmpBuf,
++	u1Byte		length
++);
++
++void MPh2c_timeout_handle(void *FunctionContext);
++
++VOID mptbt_BtControlProcess(
++	PADAPTER	Adapter,
++	PVOID		pInBuf
++);
++
++#define	BT_H2C_MAX_RETRY								1
++#define	BT_MAX_C2H_LEN								20
++
++typedef struct _BT_REQ_CMD {
++	UCHAR       opCodeVer;
++	UCHAR       OpCode;
++	USHORT      paraLength;
++	UCHAR       pParamStart[100];
++} BT_REQ_CMD, *PBT_REQ_CMD;
++
++typedef struct _BT_RSP_CMD {
++	USHORT      status;
++	USHORT      paraLength;
++	UCHAR       pParamStart[100];
++} BT_RSP_CMD, *PBT_RSP_CMD;
++
++
++typedef struct _BT_H2C {
++	u1Byte	opCodeVer:4;
++	u1Byte	reqNum:4;
++	u1Byte	opCode;
++	u1Byte	buf[100];
++} BT_H2C, *PBT_H2C;
++
++
++
++typedef struct _BT_EXT_C2H {
++	u1Byte	extendId;
++	u1Byte	statusCode:4;
++	u1Byte	retLen:4;
++	u1Byte	opCodeVer:4;
++	u1Byte	reqNum:4;
++	u1Byte	buf[100];
++} BT_EXT_C2H, *PBT_EXT_C2H;
++
++
++typedef enum _BT_OPCODE_STATUS {
++	BT_OP_STATUS_SUCCESS									= 0x00, /* Success */
++	BT_OP_STATUS_VERSION_MISMATCH							= 0x01,
++	BT_OP_STATUS_UNKNOWN_OPCODE								= 0x02,
++	BT_OP_STATUS_ERROR_PARAMETER							= 0x03,
++	BT_OP_STATUS_MAX
++} BT_OPCODE_STATUS, *PBT_OPCODE_STATUS;
++
++
++
++/* OP codes definition between driver and bt fw */
++typedef enum _BT_CTRL_OPCODE_LOWER {
++	BT_LO_OP_GET_BT_VERSION									= 0x00,
++	BT_LO_OP_RESET												= 0x01,
++	BT_LO_OP_TEST_CTRL											= 0x02,
++	BT_LO_OP_SET_BT_MODE										= 0x03,
++	BT_LO_OP_SET_CHNL_TX_GAIN									= 0x04,
++	BT_LO_OP_SET_PKT_TYPE_LEN									= 0x05,
++	BT_LO_OP_SET_PKT_CNT_L_PL_TYPE								= 0x06,
++	BT_LO_OP_SET_PKT_CNT_H_PKT_INTV							= 0x07,
++	BT_LO_OP_SET_PKT_HEADER									= 0x08,
++	BT_LO_OP_SET_WHITENCOEFF									= 0x09,
++	BT_LO_OP_SET_BD_ADDR_L										= 0x0a,
++	BT_LO_OP_SET_BD_ADDR_H										= 0x0b,
++	BT_LO_OP_WRITE_REG_ADDR									= 0x0c,
++	BT_LO_OP_WRITE_REG_VALUE									= 0x0d,
++	BT_LO_OP_GET_BT_STATUS										= 0x0e,
++	BT_LO_OP_GET_BD_ADDR_L										= 0x0f,
++	BT_LO_OP_GET_BD_ADDR_H										= 0x10,
++	BT_LO_OP_READ_REG											= 0x11,
++	BT_LO_OP_SET_TARGET_BD_ADDR_L								= 0x12,
++	BT_LO_OP_SET_TARGET_BD_ADDR_H								= 0x13,
++	BT_LO_OP_SET_TX_POWER_CALIBRATION							= 0x14,
++	BT_LO_OP_GET_RX_PKT_CNT_L									= 0x15,
++	BT_LO_OP_GET_RX_PKT_CNT_H									= 0x16,
++	BT_LO_OP_GET_RX_ERROR_BITS_L								= 0x17,
++	BT_LO_OP_GET_RX_ERROR_BITS_H								= 0x18,
++	BT_LO_OP_GET_RSSI											= 0x19,
++	BT_LO_OP_GET_CFO_HDR_QUALITY_L								= 0x1a,
++	BT_LO_OP_GET_CFO_HDR_QUALITY_H								= 0x1b,
++	BT_LO_OP_GET_TARGET_BD_ADDR_L								= 0x1c,
++	BT_LO_OP_GET_TARGET_BD_ADDR_H								= 0x1d,
++	BT_LO_OP_GET_AFH_MAP_L										= 0x1e,
++	BT_LO_OP_GET_AFH_MAP_M										= 0x1f,
++	BT_LO_OP_GET_AFH_MAP_H										= 0x20,
++	BT_LO_OP_GET_AFH_STATUS									= 0x21,
++	BT_LO_OP_SET_TRACKING_INTERVAL								= 0x22,
++	BT_LO_OP_SET_THERMAL_METER									= 0x23,
++	BT_LO_OP_ENABLE_CFO_TRACKING								= 0x24,
++	BT_LO_OP_MAX
++} BT_CTRL_OPCODE_LOWER, *PBT_CTRL_OPCODE_LOWER;
++
++
++
++
++#endif  /* #if(MP_DRIVER == 1) */
++
++#endif /*  #ifndef __INC_MPT_BT_H */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_btcoex.h b/drivers/net/wireless/rtl8723du/include/rtw_btcoex.h
+new file mode 100644
+index 0000000..d6f640d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_btcoex.h
+@@ -0,0 +1,445 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_BTCOEX_H__
++#define __RTW_BTCOEX_H__
++
++#include <drv_types.h>
++
++/* For H2C: H2C_BT_MP_OPER. Return status definition to the user layer */
++typedef enum _BT_CTRL_STATUS {
++	BT_STATUS_SUCCESS								= 0x00, /* Success */
++	BT_STATUS_BT_OP_SUCCESS							= 0x01, /* bt fw op execution success */
++	BT_STATUS_H2C_SUCCESS							= 0x02, /* H2c success */
++	BT_STATUS_H2C_FAIL								= 0x03, /* H2c fail */
++	BT_STATUS_H2C_LENGTH_EXCEEDED					= 0x04, /* H2c command length exceeded */
++	BT_STATUS_H2C_TIMTOUT							= 0x05, /* H2c timeout */
++	BT_STATUS_H2C_BT_NO_RSP							= 0x06, /* H2c sent, bt no rsp */
++	BT_STATUS_C2H_SUCCESS							= 0x07, /* C2h success */
++	BT_STATUS_C2H_REQNUM_MISMATCH					= 0x08, /* bt fw wrong rsp */
++	BT_STATUS_OPCODE_U_VERSION_MISMATCH				= 0x08, /* Upper layer OP code version mismatch. */
++	BT_STATUS_OPCODE_L_VERSION_MISMATCH				= 0x0a, /* Lower layer OP code version mismatch. */
++	BT_STATUS_UNKNOWN_OPCODE_U						= 0x0b, /* Unknown Upper layer OP code */
++	BT_STATUS_UNKNOWN_OPCODE_L						= 0x0c, /* Unknown Lower layer OP code */
++	BT_STATUS_PARAMETER_FORMAT_ERROR_U				= 0x0d, /* Wrong parameters sent by upper layer. */
++	BT_STATUS_PARAMETER_FORMAT_ERROR_L				= 0x0e, /* bt fw parameter format is not consistency */
++	BT_STATUS_PARAMETER_OUT_OF_RANGE_U				= 0x0f, /* uppery layer parameter value is out of range */
++	BT_STATUS_PARAMETER_OUT_OF_RANGE_L				= 0x10, /* bt fw parameter value is out of range */
++	BT_STATUS_UNKNOWN_STATUS_L						= 0x11, /* bt returned an defined status code */
++	BT_STATUS_UNKNOWN_STATUS_H						= 0x12, /* driver need to do error handle or not handle-well. */
++	BT_STATUS_WRONG_LEVEL							= 0x13, /* should be under passive level */
++	BT_STATUS_NOT_IMPLEMENT						= 0x14, /* op code not implemented yet */
++	BT_STATUS_BT_STACK_OP_SUCCESS					= 0x15, /* bt stack op execution success */
++	BT_STATUS_BT_STACK_NOT_SUPPORT					= 0x16, /* stack version not support this. */
++	BT_STATUS_BT_STACK_SEND_HCI_EVENT_FAIL			= 0x17, /* send hci event fail */
++	BT_STATUS_BT_STACK_NOT_BIND						= 0x18, /* stack not bind wifi driver */
++	BT_STATUS_BT_STACK_NO_RSP						= 0x19, /* stack doesn't have any rsp. */
++	BT_STATUS_MAX
++} BT_CTRL_STATUS, *PBT_CTRL_STATUS;
++
++typedef enum _BTCOEX_SUSPEND_STATE {
++	BTCOEX_SUSPEND_STATE_RESUME					= 0x0,
++	BTCOEX_SUSPEND_STATE_SUSPEND				= 0x1,
++	BTCOEX_SUSPEND_STATE_SUSPEND_KEEP_ANT		= 0x2,
++	BTCOEX_SUSPEND_STATE_MAX
++} BTCOEX_SUSPEND_STATE, *PBTCOEX_SUSPEND_STATE;
++
++#define SET_BT_MP_OPER_RET(OpCode, StatusCode)						((OpCode << 8) | StatusCode)
++#define GET_OP_CODE_FROM_BT_MP_OPER_RET(RetCode)					((RetCode & 0xF0) >> 8)
++#define GET_STATUS_CODE_FROM_BT_MP_OPER_RET(RetCode)				(RetCode & 0x0F)
++#define CHECK_STATUS_CODE_FROM_BT_MP_OPER_RET(RetCode, StatusCode)	(GET_STATUS_CODE_FROM_BT_MP_OPER_RET(RetCode) == StatusCode)
++
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++
++#define NETLINK_USER 31
++#define CONNECT_PORT 30000
++#define CONNECT_PORT_BT 30001
++#define KERNEL_SOCKET_OK 0x01
++#define NETLINK_SOCKET_OK 0x02
++
++#define OTHER 0
++#define RX_ATTEND_ACK 1
++#define RX_LEAVE_ACK 2
++#define RX_BT_LEAVE 3
++#define RX_INVITE_REQ 4
++#define RX_ATTEND_REQ 5
++#define RX_INVITE_RSP 6
++
++#define invite_req "INVITE_REQ"
++#define invite_rsp "INVITE_RSP"
++#define attend_req "ATTEND_REQ"
++#define attend_ack "ATTEND_ACK"
++#define wifi_leave "WIFI_LEAVE"
++#define leave_ack "LEAVE_ACK"
++#define bt_leave "BT_LEAVE"
++
++#define BT_INFO_NOTIFY_CMD 0x0106
++#define BT_INFO_LEN 8
++
++typedef struct _HCI_LINK_INFO {
++	u2Byte					ConnectHandle;
++	u1Byte					IncomingTrafficMode;
++	u1Byte					OutgoingTrafficMode;
++	u1Byte					BTProfile;
++	u1Byte					BTCoreSpec;
++	s1Byte					BT_RSSI;
++	u1Byte					TrafficProfile;
++	u1Byte					linkRole;
++} HCI_LINK_INFO, *PHCI_LINK_INFO;
++
++#define	MAX_BT_ACL_LINK_NUM				8
++
++typedef struct _HCI_EXT_CONFIG {
++	HCI_LINK_INFO				aclLink[MAX_BT_ACL_LINK_NUM];
++	u1Byte					btOperationCode;
++	u2Byte					CurrentConnectHandle;
++	u1Byte					CurrentIncomingTrafficMode;
++	u1Byte					CurrentOutgoingTrafficMode;
++
++	u1Byte					NumberOfACL;
++	u1Byte					NumberOfSCO;
++	u1Byte					CurrentBTStatus;
++	u2Byte					HCIExtensionVer;
++
++	BOOLEAN					bEnableWifiScanNotify;
++} HCI_EXT_CONFIG, *PHCI_EXT_CONFIG;
++
++typedef struct _HCI_PHY_LINK_BSS_INFO {
++	u2Byte						bdCap;			/* capability information */
++
++	/* Qos related. Added by Annie, 2005-11-01. */
++	/* BSS_QOS						BssQos;		 */
++
++} HCI_PHY_LINK_BSS_INFO, *PHCI_PHY_LINK_BSS_INFO;
++
++typedef enum _BT_CONNECT_TYPE {
++	BT_CONNECT_AUTH_REQ								= 0x00,
++	BT_CONNECT_AUTH_RSP								= 0x01,
++	BT_CONNECT_ASOC_REQ								= 0x02,
++	BT_CONNECT_ASOC_RSP								= 0x03,
++	BT_DISCONNECT										= 0x04
++} BT_CONNECT_TYPE, *PBT_CONNECT_TYPE;
++
++
++typedef struct _PACKET_IRP_HCIEVENT_DATA {
++	u8		EventCode;
++	u8		Length; /* total cmd length = extension event length+1(extension event code length) */
++	u8		Data[1]; /* byte1 is extension event code */
++} rtw_HCI_event;
++
++
++struct btinfo_8761ATV {
++	u8 cid;
++	u8 len;
++
++	u8 bConnection:1;
++	u8 bSCOeSCO:1;
++	u8 bInQPage:1;
++	u8 bACLBusy:1;
++	u8 bSCOBusy:1;
++	u8 bHID:1;
++	u8 bA2DP:1;
++	u8 bFTP:1;
++
++	u8 retry_cnt:4;
++	u8 rsvd_34:1;
++	u8 bPage:1;
++	u8 TRxMask:1;
++	u8 Sniff_attempt:1;
++
++	u8 rssi;
++
++	u8 A2dp_rate:1;
++	u8 ReInit:1;
++	u8 MaxPower:1;
++	u8 bEnIgnoreWlanAct:1;
++	u8 TxPowerLow:1;
++	u8 TxPowerHigh:1;
++	u8 eSCO_SCO:1;
++	u8 Master_Slave:1;
++
++	u8 ACL_TRx_TP_low;
++	u8 ACL_TRx_TP_high;
++};
++
++#define HCIOPCODE(_OCF, _OGF)     ((_OGF)<<10|(_OCF))
++#define HCIOPCODELOW(_OCF, _OGF)	(u8)(HCIOPCODE(_OCF, _OGF) & 0x00ff)
++#define HCIOPCODEHIGHT(_OCF, _OGF) (u8)(HCIOPCODE(_OCF, _OGF)>>8)
++#define HCI_OGF(opCode)  (unsigned char)((0xFC00 & (opCode)) >> 10)
++#define HCI_OCF(opCode)  (0x3FF & (opCode))
++
++
++typedef enum _HCI_STATUS {
++	HCI_STATUS_SUCCESS										= 0x00, /* Success */
++	HCI_STATUS_UNKNOW_HCI_CMD								= 0x01, /* Unknown HCI Command */
++	HCI_STATUS_UNKNOW_CONNECT_ID							= 0X02, /* Unknown Connection Identifier */
++	HCI_STATUS_HW_FAIL										= 0X03, /* Hardware Failure */
++	HCI_STATUS_PAGE_TIMEOUT									= 0X04, /* Page Timeout */
++	HCI_STATUS_AUTH_FAIL										= 0X05, /* Authentication Failure */
++	HCI_STATUS_PIN_OR_KEY_MISSING							= 0X06, /* PIN or Key Missing */
++	HCI_STATUS_MEM_CAP_EXCEED								= 0X07, /* Memory Capacity Exceeded */
++	HCI_STATUS_CONNECT_TIMEOUT								= 0X08, /* Connection Timeout */
++	HCI_STATUS_CONNECT_LIMIT									= 0X09, /* Connection Limit Exceeded */
++	HCI_STATUS_SYN_CONNECT_LIMIT								= 0X0a, /* Synchronous Connection Limit To A Device Exceeded */
++	HCI_STATUS_ACL_CONNECT_EXISTS							= 0X0b, /* ACL Connection Already Exists */
++	HCI_STATUS_CMD_DISALLOW									= 0X0c, /* Command Disallowed */
++	HCI_STATUS_CONNECT_RJT_LIMIT_RESOURCE					= 0X0d, /* Connection Rejected due to Limited Resources */
++	HCI_STATUS_CONNECT_RJT_SEC_REASON						= 0X0e, /* Connection Rejected Due To Security Reasons */
++	HCI_STATUS_CONNECT_RJT_UNACCEPT_BD_ADDR				= 0X0f, /* Connection Rejected due to Unacceptable BD_ADDR */
++	HCI_STATUS_CONNECT_ACCEPT_TIMEOUT						= 0X10, /* Connection Accept Timeout Exceeded */
++	HCI_STATUS_UNSUPPORT_FEATURE_PARA_VALUE				= 0X11, /* Unsupported Feature or Parameter Value */
++	HCI_STATUS_INVALID_HCI_CMD_PARA_VALUE					= 0X12, /* Invalid HCI Command Parameters */
++	HCI_STATUS_REMOTE_USER_TERMINATE_CONNECT				= 0X13, /* Remote User Terminated Connection */
++	HCI_STATUS_REMOTE_DEV_TERMINATE_LOW_RESOURCE			= 0X14, /* Remote Device Terminated Connection due to Low Resources */
++	HCI_STATUS_REMOTE_DEV_TERMINATE_CONNECT_POWER_OFF	= 0X15, /* Remote Device Terminated Connection due to Power Off */
++	HCI_STATUS_CONNECT_TERMINATE_LOCAL_HOST				= 0X16, /* Connection Terminated By Local Host */
++	HCI_STATUS_REPEATE_ATTEMPT								= 0X17, /* Repeated Attempts */
++	HCI_STATUS_PAIR_NOT_ALLOW								= 0X18, /* Pairing Not Allowed */
++	HCI_STATUS_UNKNOW_LMP_PDU								= 0X19, /* Unknown LMP PDU */
++	HCI_STATUS_UNSUPPORT_REMOTE_LMP_FEATURE				= 0X1a, /* Unsupported Remote Feature / Unsupported LMP Feature */
++	HCI_STATUS_SOC_OFFSET_REJECT								= 0X1b, /* SCO Offset Rejected */
++	HCI_STATUS_SOC_INTERVAL_REJECT							= 0X1c, /* SCO Interval Rejected */
++	HCI_STATUS_SOC_AIR_MODE_REJECT							= 0X1d, /* SCO Air Mode Rejected */
++	HCI_STATUS_INVALID_LMP_PARA								= 0X1e, /* Invalid LMP Parameters */
++	HCI_STATUS_UNSPECIFIC_ERROR								= 0X1f, /* Unspecified Error */
++	HCI_STATUS_UNSUPPORT_LMP_PARA_VALUE					= 0X20, /* Unsupported LMP Parameter Value */
++	HCI_STATUS_ROLE_CHANGE_NOT_ALLOW						= 0X21, /* Role Change Not Allowed */
++	HCI_STATUS_LMP_RESPONSE_TIMEOUT							= 0X22, /* LMP Response Timeout */
++	HCI_STATUS_LMP_ERROR_TRANSACTION_COLLISION				= 0X23, /* LMP Error Transaction Collision */
++	HCI_STATUS_LMP_PDU_NOT_ALLOW							= 0X24, /* LMP PDU Not Allowed */
++	HCI_STATUS_ENCRYPTION_MODE_NOT_ALLOW					= 0X25, /* Encryption Mode Not Acceptable */
++	HCI_STATUS_LINK_KEY_CAN_NOT_CHANGE						= 0X26, /* Link Key Can Not be Changed */
++	HCI_STATUS_REQUEST_QOS_NOT_SUPPORT						= 0X27, /* Requested QoS Not Supported */
++	HCI_STATUS_INSTANT_PASSED								= 0X28, /* Instant Passed */
++	HCI_STATUS_PAIRING_UNIT_KEY_NOT_SUPPORT					= 0X29, /* Pairing With Unit Key Not Supported */
++	HCI_STATUS_DIFFERENT_TRANSACTION_COLLISION				= 0X2a, /* Different Transaction Collision */
++	HCI_STATUS_RESERVE_1										= 0X2b, /* Reserved */
++	HCI_STATUS_QOS_UNACCEPT_PARA							= 0X2c, /* QoS Unacceptable Parameter */
++	HCI_STATUS_QOS_REJECT										= 0X2d, /* QoS Rejected */
++	HCI_STATUS_CHNL_CLASSIFICATION_NOT_SUPPORT				= 0X2e, /* Channel Classification Not Supported */
++	HCI_STATUS_INSUFFICIENT_SECURITY							= 0X2f, /* Insufficient Security */
++	HCI_STATUS_PARA_OUT_OF_RANGE							= 0x30, /* Parameter Out Of Mandatory Range */
++	HCI_STATUS_RESERVE_2										= 0X31, /* Reserved */
++	HCI_STATUS_ROLE_SWITCH_PENDING							= 0X32, /* Role Switch Pending */
++	HCI_STATUS_RESERVE_3										= 0X33, /* Reserved */
++	HCI_STATUS_RESERVE_SOLT_VIOLATION						= 0X34, /* Reserved Slot Violation */
++	HCI_STATUS_ROLE_SWITCH_FAIL								= 0X35, /* Role Switch Failed */
++	HCI_STATUS_EXTEND_INQUIRY_RSP_TOO_LARGE				= 0X36, /* Extended Inquiry Response Too Large */
++	HCI_STATUS_SEC_SIMPLE_PAIRING_NOT_SUPPORT				= 0X37, /* Secure Simple Pairing Not Supported By Host. */
++	HCI_STATUS_HOST_BUSY_PAIRING								= 0X38, /* Host Busy - Pairing */
++	HCI_STATUS_CONNECT_REJ_NOT_SUIT_CHNL_FOUND			= 0X39, /* Connection Rejected due to No Suitable Channel Found */
++	HCI_STATUS_CONTROLLER_BUSY								= 0X3a /* CONTROLLER BUSY */
++} RTW_HCI_STATUS;
++
++#define HCI_EVENT_COMMAND_COMPLETE					0x0e
++
++#define OGF_EXTENSION									0X3f
++typedef enum HCI_EXTENSION_COMMANDS {
++	HCI_SET_ACL_LINK_DATA_FLOW_MODE				= 0x0010,
++	HCI_SET_ACL_LINK_STATUS							= 0x0020,
++	HCI_SET_SCO_LINK_STATUS							= 0x0030,
++	HCI_SET_RSSI_VALUE								= 0x0040,
++	HCI_SET_CURRENT_BLUETOOTH_STATUS				= 0x0041,
++
++	/* The following is for RTK8723 */
++	HCI_EXTENSION_VERSION_NOTIFY					= 0x0100,
++	HCI_LINK_STATUS_NOTIFY							= 0x0101,
++	HCI_BT_OPERATION_NOTIFY							= 0x0102,
++	HCI_ENABLE_WIFI_SCAN_NOTIFY						= 0x0103,
++	HCI_QUERY_RF_STATUS								= 0x0104,
++	HCI_BT_ABNORMAL_NOTIFY							= 0x0105,
++	HCI_BT_INFO_NOTIFY								= 0x0106,
++	HCI_BT_COEX_NOTIFY								= 0x0107,
++	HCI_BT_PATCH_VERSION_NOTIFY						= 0x0108,
++	HCI_BT_AFH_MAP_NOTIFY							= 0x0109,
++	HCI_BT_REGISTER_VALUE_NOTIFY					= 0x010a,
++
++	/* The following is for IVT */
++	HCI_WIFI_CURRENT_CHANNEL						= 0x0300,
++	HCI_WIFI_CURRENT_BANDWIDTH						= 0x0301,
++	HCI_WIFI_CONNECTION_STATUS						= 0x0302
++} RTW_HCI_EXT_CMD;
++
++#define HCI_EVENT_EXTENSION_RTK						0xfe
++typedef enum HCI_EXTENSION_EVENT_RTK {
++	HCI_EVENT_EXT_WIFI_SCAN_NOTIFY								= 0x01,
++	HCI_EVENT_EXT_WIFI_RF_STATUS_NOTIFY						= 0x02,
++	HCI_EVENT_EXT_BT_INFO_CONTROL								= 0x03,
++	HCI_EVENT_EXT_BT_COEX_CONTROL								= 0x04
++} RTW_HCI_EXT_EVENT;
++
++typedef enum _BT_TRAFFIC_MODE {
++	BT_MOTOR_EXT_BE		= 0x00, /* Best Effort. Default. for HCRP, PAN, SDP, RFCOMM-based profiles like FTP,OPP, SPP, DUN, etc. */
++	BT_MOTOR_EXT_GUL		= 0x01, /* Guaranteed Latency. This type of traffic is used e.g. for HID and AVRCP. */
++	BT_MOTOR_EXT_GUB		= 0X02, /* Guaranteed Bandwidth. */
++	BT_MOTOR_EXT_GULB	= 0X03  /* Guaranteed Latency and Bandwidth. for A2DP and VDP. */
++} BT_TRAFFIC_MODE;
++
++typedef enum _BT_TRAFFIC_MODE_PROFILE {
++	BT_PROFILE_NONE,
++	BT_PROFILE_A2DP,
++	BT_PROFILE_PAN	,
++	BT_PROFILE_HID,
++	BT_PROFILE_SCO
++} BT_TRAFFIC_MODE_PROFILE;
++
++typedef enum _HCI_EXT_BT_OPERATION {
++	HCI_BT_OP_NONE				= 0x0,
++	HCI_BT_OP_INQUIRY_START		= 0x1,
++	HCI_BT_OP_INQUIRY_FINISH		= 0x2,
++	HCI_BT_OP_PAGING_START		= 0x3,
++	HCI_BT_OP_PAGING_SUCCESS		= 0x4,
++	HCI_BT_OP_PAGING_UNSUCCESS	= 0x5,
++	HCI_BT_OP_PAIRING_START		= 0x6,
++	HCI_BT_OP_PAIRING_FINISH		= 0x7,
++	HCI_BT_OP_BT_DEV_ENABLE		= 0x8,
++	HCI_BT_OP_BT_DEV_DISABLE		= 0x9,
++	HCI_BT_OP_MAX
++} HCI_EXT_BT_OPERATION, *PHCI_EXT_BT_OPERATION;
++
++typedef struct _BT_MGNT {
++	BOOLEAN				bBTConnectInProgress;
++	BOOLEAN				bLogLinkInProgress;
++	BOOLEAN				bPhyLinkInProgress;
++	BOOLEAN				bPhyLinkInProgressStartLL;
++	u1Byte				BtCurrentPhyLinkhandle;
++	u2Byte				BtCurrentLogLinkhandle;
++	u1Byte				CurrentConnectEntryNum;
++	u1Byte				DisconnectEntryNum;
++	u1Byte				CurrentBTConnectionCnt;
++	BT_CONNECT_TYPE		BTCurrentConnectType;
++	BT_CONNECT_TYPE		BTReceiveConnectPkt;
++	u1Byte				BTAuthCount;
++	u1Byte				BTAsocCount;
++	BOOLEAN				bStartSendSupervisionPkt;
++	BOOLEAN				BtOperationOn;
++	BOOLEAN				BTNeedAMPStatusChg;
++	BOOLEAN				JoinerNeedSendAuth;
++	HCI_PHY_LINK_BSS_INFO	bssDesc;
++	HCI_EXT_CONFIG		ExtConfig;
++	BOOLEAN				bNeedNotifyAMPNoCap;
++	BOOLEAN				bCreateSpportQos;
++	BOOLEAN				bSupportProfile;
++	u1Byte				BTChannel;
++	BOOLEAN				CheckChnlIsSuit;
++	BOOLEAN				bBtScan;
++	BOOLEAN				btLogoTest;
++	BOOLEAN				bRfStatusNotified;
++	BOOLEAN				bBtRsvedPageDownload;
++} BT_MGNT, *PBT_MGNT;
++
++struct bt_coex_info {
++	/* For Kernel Socket */
++	struct socket *udpsock;
++	struct sockaddr_in wifi_sockaddr; /*wifi socket*/
++	struct sockaddr_in bt_sockaddr;/* BT socket */
++	struct sock *sk_store;/*back up socket for UDP RX int*/
++
++	/* store which socket is OK */
++	u8 sock_open;
++
++	u8 BT_attend;
++	u8 is_exist; /* socket exist */
++	BT_MGNT BtMgnt;
++	struct workqueue_struct *btcoex_wq;
++	struct delayed_work recvmsg_work;
++};
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++
++#define	PACKET_NORMAL			0
++#define	PACKET_DHCP				1
++#define	PACKET_ARP				2
++#define	PACKET_EAPOL			3
++
++void rtw_btcoex_Initialize(PADAPTER);
++void rtw_btcoex_PowerOnSetting(PADAPTER padapter);
++void rtw_btcoex_PreLoadFirmware(PADAPTER padapter);
++void rtw_btcoex_HAL_Initialize(PADAPTER padapter, u8 bWifiOnly);
++void rtw_btcoex_IpsNotify(PADAPTER, u8 type);
++void rtw_btcoex_LpsNotify(PADAPTER, u8 type);
++void rtw_btcoex_ScanNotify(PADAPTER, u8 type);
++void rtw_btcoex_ConnectNotify(PADAPTER, u8 action);
++void rtw_btcoex_MediaStatusNotify(PADAPTER, u8 mediaStatus);
++void rtw_btcoex_SpecialPacketNotify(PADAPTER, u8 pktType);
++void rtw_btcoex_IQKNotify(PADAPTER padapter, u8 state);
++void rtw_btcoex_BtInfoNotify(PADAPTER, u8 length, u8 *tmpBuf);
++void rtw_btcoex_BtMpRptNotify(PADAPTER, u8 length, u8 *tmpBuf);
++void rtw_btcoex_SuspendNotify(PADAPTER, u8 state);
++void rtw_btcoex_HaltNotify(PADAPTER);
++void rtw_btcoex_switchband_notify(u8 under_scan, u8 band_type);
++void rtw_btcoex_SwitchBtTRxMask(PADAPTER);
++void rtw_btcoex_Switch(PADAPTER, u8 enable);
++u8 rtw_btcoex_IsBtDisabled(PADAPTER);
++void rtw_btcoex_Handler(PADAPTER);
++s32 rtw_btcoex_IsBTCoexRejectAMPDU(PADAPTER padapter);
++s32 rtw_btcoex_IsBTCoexCtrlAMPDUSize(PADAPTER);
++u32 rtw_btcoex_GetAMPDUSize(PADAPTER);
++void rtw_btcoex_SetManualControl(PADAPTER, u8 bmanual);
++u8 rtw_btcoex_1Ant(PADAPTER);
++u8 rtw_btcoex_IsBtControlLps(PADAPTER);
++u8 rtw_btcoex_IsLpsOn(PADAPTER);
++u8 rtw_btcoex_RpwmVal(PADAPTER);
++u8 rtw_btcoex_LpsVal(PADAPTER);
++u32 rtw_btcoex_GetRaMask(PADAPTER);
++void rtw_btcoex_RecordPwrMode(PADAPTER, u8 *pCmdBuf, u8 cmdLen);
++void rtw_btcoex_DisplayBtCoexInfo(PADAPTER, u8 *pbuf, u32 bufsize);
++void rtw_btcoex_SetDBG(PADAPTER, u32 *pDbgModule);
++u32 rtw_btcoex_GetDBG(PADAPTER, u8 *pStrBuf, u32 bufSize);
++u8 rtw_btcoex_IncreaseScanDeviceNum(PADAPTER);
++u8 rtw_btcoex_IsBtLinkExist(PADAPTER);
++void rtw_btcoex_BTOffOnNotify(PADAPTER padapter, u8 bBTON);
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++void rtw_btcoex_SetBtPatchVersion(PADAPTER padapter, u16 btHciVer, u16 btPatchVer);
++void rtw_btcoex_SetHciVersion(PADAPTER  padapter, u16 hciVersion);
++void rtw_btcoex_StackUpdateProfileInfo(void);
++void rtw_btcoex_init_socket(_adapter *padapter);
++void rtw_btcoex_close_socket(_adapter *padapter);
++void rtw_btcoex_dump_tx_msg(u8 *tx_msg, u8 len, u8 *msg_name);
++u8 rtw_btcoex_sendmsgbysocket(_adapter *padapter, u8 *msg, u8 msg_size, bool force);
++u8 rtw_btcoex_create_kernel_socket(_adapter *padapter);
++void rtw_btcoex_close_kernel_socket(_adapter *padapter);
++void rtw_btcoex_recvmsgbysocket(void *data);
++u16 rtw_btcoex_parse_recv_data(u8 *msg, u8 msg_size);
++u8 rtw_btcoex_btinfo_cmd(PADAPTER padapter, u8 *pbuf, u16 length);
++void rtw_btcoex_parse_hci_cmd(_adapter *padapter, u8 *cmd, u16 len);
++void rtw_btcoex_SendEventExtBtCoexControl(PADAPTER Adapter, u8 bNeedDbgRsp, u8 dataLen, void *pData);
++void rtw_btcoex_SendEventExtBtInfoControl(PADAPTER Adapter, u8 dataLen, void *pData);
++void rtw_btcoex_SendScanNotify(PADAPTER padapter, u8 scanType);
++#define BT_SendEventExtBtCoexControl(Adapter, bNeedDbgRsp, dataLen, pData) rtw_btcoex_SendEventExtBtCoexControl(Adapter, bNeedDbgRsp, dataLen, pData)
++#define BT_SendEventExtBtInfoControl(Adapter, dataLen, pData) rtw_btcoex_SendEventExtBtInfoControl(Adapter, dataLen, pData)
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++u16 rtw_btcoex_btreg_read(PADAPTER padapter, u8 type, u16 addr, u32 *data);
++u16 rtw_btcoex_btreg_write(PADAPTER padapter, u8 type, u16 addr, u16 val);
++u8 rtw_btcoex_get_ant_div_cfg(PADAPTER padapter);
++u8 rtw_btcoex_get_bt_coexist(PADAPTER padapter);
++u8 rtw_btcoex_get_chip_type(PADAPTER padapter);
++u8 rtw_btcoex_get_pg_ant_num(PADAPTER padapter);
++u8 rtw_btcoex_get_pg_single_ant_path(PADAPTER padapter);
++u8 rtw_btcoex_get_pg_rfe_type(PADAPTER padapter);
++u8 rtw_btcoex_is_tfbga_package_type(PADAPTER padapter);
++u8 rtw_btcoex_get_ant_div_cfg(PADAPTER padapter);
++
++/* ==================================================
++ * Below Functions are called by BT-Coex
++ * ================================================== */
++void rtw_btcoex_rx_ampdu_apply(PADAPTER);
++void rtw_btcoex_LPS_Enter(PADAPTER);
++void rtw_btcoex_LPS_Leave(PADAPTER);
++
++#endif /* __RTW_BTCOEX_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_byteorder.h b/drivers/net/wireless/rtl8723du/include/rtw_byteorder.h
+new file mode 100644
+index 0000000..70482d2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_byteorder.h
+@@ -0,0 +1,38 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL871X_BYTEORDER_H_
++#define _RTL871X_BYTEORDER_H_
++
++
++#if defined(CONFIG_LITTLE_ENDIAN) && defined (CONFIG_BIG_ENDIAN)
++	#error "Shall be CONFIG_LITTLE_ENDIAN or CONFIG_BIG_ENDIAN, but not both!\n"
++#endif
++
++#if defined(CONFIG_LITTLE_ENDIAN)
++	#ifndef CONFIG_PLATFORM_MSTAR389
++		#include <byteorder/little_endian.h>
++	#endif
++#elif defined (CONFIG_BIG_ENDIAN)
++	#include <byteorder/big_endian.h>
++#else
++	#  error "Must be LITTLE/BIG Endian Host"
++#endif
++
++#endif /* _RTL871X_BYTEORDER_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_cmd.h b/drivers/net/wireless/rtl8723du/include/rtw_cmd.h
+new file mode 100644
+index 0000000..15d4896
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_cmd.h
+@@ -0,0 +1,1293 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_CMD_H_
++#define __RTW_CMD_H_
++
++
++#define C2H_MEM_SZ (16*1024)
++
++#ifndef CONFIG_RTL8711FW
++
++#define FREE_CMDOBJ_SZ	128
++
++#define MAX_CMDSZ	1024
++#define MAX_RSPSZ	512
++#define MAX_EVTSZ	1024
++
++#ifdef PLATFORM_OS_CE
++	#define CMDBUFF_ALIGN_SZ 4
++#else
++	#define CMDBUFF_ALIGN_SZ 512
++#endif
++
++struct cmd_obj {
++	_adapter *padapter;
++	u16	cmdcode;
++	u8	res;
++	u8	*parmbuf;
++	u32	cmdsz;
++	u8	*rsp;
++	u32	rspsz;
++	struct submit_ctx *sctx;
++	u8 no_io;
++	/* _sema 	cmd_sem; */
++	_list	list;
++};
++
++/* cmd flags */
++enum {
++	RTW_CMDF_DIRECTLY = BIT0,
++	RTW_CMDF_WAIT_ACK = BIT1,
++};
++
++struct cmd_priv {
++	_sema	cmd_queue_sema;
++	/* _sema	cmd_done_sema; */
++	_sema	terminate_cmdthread_sema;
++	_queue	cmd_queue;
++	u8	cmd_seq;
++	u8	*cmd_buf;	/* shall be non-paged, and 4 bytes aligned */
++	u8	*cmd_allocated_buf;
++	u8	*rsp_buf;	/* shall be non-paged, and 4 bytes aligned		 */
++	u8	*rsp_allocated_buf;
++	u32	cmd_issued_cnt;
++	u32	cmd_done_cnt;
++	u32	rsp_cnt;
++	ATOMIC_T cmdthd_running;
++	/* u8 cmdthd_running; */
++	u8 stop_req;
++	_adapter *padapter;
++	_mutex sctx_mutex;
++};
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++struct evt_obj {
++	u16	evtcode;
++	u8	res;
++	u8	*parmbuf;
++	u32	evtsz;
++	_list	list;
++};
++#endif
++
++struct	evt_priv {
++#ifdef CONFIG_EVENT_THREAD_MODE
++	_sema	evt_notify;
++	_sema	terminate_evtthread_sema;
++	_queue	evt_queue;
++#endif
++
++#ifdef CONFIG_FW_C2H_REG
++	#define CONFIG_C2H_WK
++#endif
++
++#ifdef CONFIG_C2H_WK
++	_workitem c2h_wk;
++	bool c2h_wk_alive;
++	struct rtw_cbuf *c2h_queue;
++	#define C2H_QUEUE_MAX_LEN 10
++#endif
++
++#ifdef CONFIG_H2CLBK
++	_sema	lbkevt_done;
++	u8	lbkevt_limit;
++	u8	lbkevt_num;
++	u8	*cmdevt_parm;
++#endif
++	ATOMIC_T event_seq;
++	u8	*evt_buf;	/* shall be non-paged, and 4 bytes aligned		 */
++	u8	*evt_allocated_buf;
++	u32	evt_done_cnt;
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	u8	*c2h_mem;
++	u8	*allocated_c2h_mem;
++#ifdef PLATFORM_OS_XP
++	PMDL	pc2h_mdl;
++#endif
++#endif
++
++};
++
++#define init_h2fwcmd_w_parm_no_rsp(pcmd, pparm, code) \
++	do {\
++		_rtw_init_listhead(&pcmd->list);\
++		pcmd->cmdcode = code;\
++		pcmd->parmbuf = (u8 *)(pparm);\
++		pcmd->cmdsz = sizeof (*pparm);\
++		pcmd->rsp = NULL;\
++		pcmd->rspsz = 0;\
++	} while (0)
++
++#define init_h2fwcmd_w_parm_no_parm_rsp(pcmd, code) \
++	do {\
++		_rtw_init_listhead(&pcmd->list);\
++		pcmd->cmdcode = code;\
++		pcmd->parmbuf = NULL;\
++		pcmd->cmdsz = 0;\
++		pcmd->rsp = NULL;\
++		pcmd->rspsz = 0;\
++	} while (0)
++
++struct P2P_PS_Offload_t {
++	u8 Offload_En:1;
++	u8 role:1; /* 1: Owner, 0: Client */
++	u8 CTWindow_En:1;
++	u8 NoA0_En:1;
++	u8 NoA1_En:1;
++	u8 AllStaSleep:1; /* Only valid in Owner */
++	u8 discovery:1;
++	u8 rsvd:1;
++};
++
++struct P2P_PS_CTWPeriod_t {
++	u8 CTWPeriod;	/* TU */
++};
++
++#ifdef CONFIG_P2P_WOWLAN
++
++struct P2P_WoWlan_Offload_t {
++	u8 Disconnect_Wkup_Drv:1;
++	u8 role:2;
++	u8 Wps_Config[2];
++};
++
++#endif /* CONFIG_P2P_WOWLAN */
++
++extern u32 rtw_enqueue_cmd(struct cmd_priv *pcmdpriv, struct cmd_obj *obj);
++extern struct cmd_obj *rtw_dequeue_cmd(struct cmd_priv *pcmdpriv);
++extern void rtw_free_cmd_obj(struct cmd_obj *pcmd);
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++extern u32 rtw_enqueue_evt(struct evt_priv *pevtpriv, struct evt_obj *obj);
++extern struct evt_obj *rtw_dequeue_evt(_queue *queue);
++extern void rtw_free_evt_obj(struct evt_obj *pcmd);
++#endif
++
++void rtw_stop_cmd_thread(_adapter *adapter);
++thread_return rtw_cmd_thread(thread_context context);
++
++extern u32 rtw_init_cmd_priv(struct cmd_priv *pcmdpriv);
++extern void rtw_free_cmd_priv(struct cmd_priv *pcmdpriv);
++
++extern u32 rtw_init_evt_priv(struct evt_priv *pevtpriv);
++extern void rtw_free_evt_priv(struct evt_priv *pevtpriv);
++extern void rtw_cmd_clr_isr(struct cmd_priv *pcmdpriv);
++extern void rtw_evt_notify_isr(struct evt_priv *pevtpriv);
++#ifdef CONFIG_P2P
++u8 p2p_protocol_wk_cmd(_adapter *padapter, int intCmdType);
++#endif /* CONFIG_P2P */
++
++#else
++/* #include <ieee80211.h> */
++#endif	/* CONFIG_RTL8711FW */
++
++enum rtw_drvextra_cmd_id {
++	NONE_WK_CID,
++	STA_MSTATUS_RPT_WK_CID,
++	DYNAMIC_CHK_WK_CID,
++	DM_CTRL_WK_CID,
++	PBC_POLLING_WK_CID,
++	POWER_SAVING_CTRL_WK_CID,/* IPS,AUTOSuspend */
++	LPS_CTRL_WK_CID,
++	ANT_SELECT_WK_CID,
++	P2P_PS_WK_CID,
++	P2P_PROTO_WK_CID,
++	CHECK_HIQ_WK_CID,/* for softap mode, check hi queue if empty */
++	INTEl_WIDI_WK_CID,
++	C2H_WK_CID,
++	RTP_TIMER_CFG_WK_CID,
++	RESET_SECURITYPRIV, /* add for CONFIG_IEEE80211W, none 11w also can use */
++	FREE_ASSOC_RESOURCES, /* add for CONFIG_IEEE80211W, none 11w also can use */
++	DM_IN_LPS_WK_CID,
++	DM_RA_MSK_WK_CID, /* add for STA update RAMask when bandwith change. */
++	BEAMFORMING_WK_CID,
++	LPS_CHANGE_DTIM_CID,
++	BTINFO_WK_CID,
++	DFS_MASTER_WK_CID,
++	SESSION_TRACKER_WK_CID,
++	EN_HW_UPDATE_TSF_WK_CID,
++	TEST_H2C_CID,
++	MAX_WK_CID
++};
++
++enum LPS_CTRL_TYPE {
++	LPS_CTRL_SCAN = 0,
++	LPS_CTRL_JOINBSS = 1,
++	LPS_CTRL_CONNECT = 2,
++	LPS_CTRL_DISCONNECT = 3,
++	LPS_CTRL_SPECIAL_PACKET = 4,
++	LPS_CTRL_LEAVE = 5,
++	LPS_CTRL_TRAFFIC_BUSY = 6,
++	LPS_CTRL_TX_TRAFFIC_LEAVE = 7,
++	LPS_CTRL_RX_TRAFFIC_LEAVE = 8,
++	LPS_CTRL_ENTER = 9,
++	LPS_CTRL_LEAVE_CFG80211_PWRMGMT = 10,
++};
++
++enum STAKEY_TYPE {
++	GROUP_KEY		= 0,
++	UNICAST_KEY		= 1,
++	TDLS_KEY		= 2,
++};
++
++enum RFINTFS {
++	SWSI,
++	HWSI,
++	HWPI,
++};
++
++/*
++Caller Mode: Infra, Ad-HoC(C)
++
++Notes: To enter USB suspend mode
++
++Command Mode
++
++*/
++struct usb_suspend_parm {
++	u32 action;/* 1: sleep, 0:resume */
++};
++
++/*
++Caller Mode: Infra, Ad-HoC
++
++Notes: To join a known BSS.
++
++Command-Event Mode
++
++*/
++
++/*
++Caller Mode: Infra, Ad-Hoc
++
++Notes: To join the specified bss
++
++Command Event Mode
++
++*/
++struct joinbss_parm {
++	WLAN_BSSID_EX network;
++};
++
++/*
++Caller Mode: Infra, Ad-HoC(C)
++
++Notes: To disconnect the current associated BSS
++
++Command Mode
++
++*/
++struct disconnect_parm {
++	u32 deauth_timeout_ms;
++};
++
++/*
++Caller Mode: AP, Ad-HoC(M)
++
++Notes: To create a BSS
++
++Command Mode
++*/
++struct createbss_parm {
++	bool adhoc;
++
++	/* used by AP mode now */
++	s16 req_ch;
++	s8 req_bw;
++	s8 req_offset;
++};
++
++#if 0
++/* Caller Mode: AP, Ad-HoC, Infra */
++/* Notes: To set the NIC mode of RTL8711 */
++/* Command Mode */
++/* The definition of mode: */
++
++#define IW_MODE_AUTO	0	/*  Let the driver decides which AP to join */
++#define IW_MODE_ADHOC	1	/*  Single cell network (Ad-Hoc Clients) */
++#define IW_MODE_INFRA	2	/*  Multi cell network, roaming, .. */
++#define IW_MODE_MASTER	3	/*  Synchronisation master or Access Point */
++#define IW_MODE_REPEAT	4	/*  Wireless Repeater (forwarder) */
++#define IW_MODE_SECOND	5	/*  Secondary master/repeater (backup) */
++#define IW_MODE_MONITOR	6	/*  Passive monitor (listen only) */
++#endif
++
++struct	setopmode_parm {
++	u8	mode;
++	u8	rsvd[3];
++};
++
++/*
++Caller Mode: AP, Ad-HoC, Infra
++
++Notes: To ask RTL8711 performing site-survey
++
++Command-Event Mode
++
++*/
++
++#define RTW_SSID_SCAN_AMOUNT 9 /* for WEXT_CSCAN_AMOUNT 9 */
++#define RTW_CHANNEL_SCAN_AMOUNT (14+37)
++struct sitesurvey_parm {
++	sint scan_mode;	/* active: 1, passive: 0 */
++	/* sint bsslimit;	// 1 ~ 48 */
++	u8 ssid_num;
++	u8 ch_num;
++	NDIS_802_11_SSID ssid[RTW_SSID_SCAN_AMOUNT];
++	struct rtw_ieee80211_channel ch[RTW_CHANNEL_SCAN_AMOUNT];
++};
++
++/*
++Caller Mode: Any
++
++Notes: To set the auth type of RTL8711. open/shared/802.1x
++
++Command Mode
++
++*/
++struct setauth_parm {
++	u8 mode;  /* 0: legacy open, 1: legacy shared 2: 802.1x */
++	u8 _1x;   /* 0: PSK, 1: TLS */
++	u8 rsvd[2];
++};
++
++/*
++Caller Mode: Infra
++
++a. algorithm: wep40, wep104, tkip & aes
++b. keytype: grp key/unicast key
++c. key contents
++
++when shared key ==> keyid is the camid
++when 802.1x ==> keyid [0:1] ==> grp key
++when 802.1x ==> keyid > 2 ==> unicast key
++
++*/
++struct setkey_parm {
++	u8	algorithm;	/* encryption algorithm, could be none, wep40, TKIP, CCMP, wep104 */
++	u8	keyid;
++	u8	grpkey;		/* 1: this is the grpkey for 802.1x. 0: this is the unicast key for 802.1x */
++	u8	set_tx;		/* 1: main tx key for wep. 0: other key. */
++	u8	key[16];	/* this could be 40 or 104 */
++};
++
++/*
++When in AP or Ad-Hoc mode, this is used to
++allocate an sw/hw entry for a newly associated sta.
++
++Command
++
++when shared key ==> algorithm/keyid
++
++*/
++struct set_stakey_parm {
++	u8	addr[ETH_ALEN];
++	u8	algorithm;
++	u8	keyid;
++	u8	key[16];
++};
++
++struct set_stakey_rsp {
++	u8	addr[ETH_ALEN];
++	u8	keyid;
++	u8	rsvd;
++};
++
++/*
++Caller Ad-Hoc/AP
++
++Command -Rsp(AID == CAMID) mode
++
++This is to force fw to add an sta_data entry per driver's request.
++
++FW will write an cam entry associated with it.
++
++*/
++struct set_assocsta_parm {
++	u8	addr[ETH_ALEN];
++};
++
++struct set_assocsta_rsp {
++	u8	cam_id;
++	u8	rsvd[3];
++};
++
++/*
++	Caller Ad-Hoc/AP
++	Command mode
++	This is to force fw to del an sta_data entry per driver's request
++	FW will invalidate the cam entry associated with it.
++*/
++struct del_assocsta_parm {
++	u8	addr[ETH_ALEN];
++};
++
++/*
++Caller Mode: AP/Ad-HoC(M)
++
++Notes: To notify fw that given staid has changed its power state
++
++Command Mode
++
++*/
++struct setstapwrstate_parm {
++	u8	staid;
++	u8	status;
++	u8	hwaddr[6];
++};
++
++/*
++Caller Mode: Any
++
++Notes: To setup the basic rate of RTL8711
++
++Command Mode
++
++*/
++struct	setbasicrate_parm {
++	u8	basicrates[NumRates];
++};
++
++/*
++Caller Mode: Any
++
++Notes: To read the current basic rate
++
++Command-Rsp Mode
++
++*/
++struct getbasicrate_parm {
++	u32 rsvd;
++};
++
++struct getbasicrate_rsp {
++	u8 basicrates[NumRates];
++};
++
++/*
++Caller Mode: Any
++
++Notes: To setup the data rate of RTL8711
++
++Command Mode
++
++*/
++struct setdatarate_parm {
++#ifdef MP_FIRMWARE_OFFLOAD
++	u32	curr_rateidx;
++#else
++	u8	mac_id;
++	u8	datarates[NumRates];
++#endif
++};
++
++/*
++Caller Mode: Any
++
++Notes: To read the current data rate
++
++Command-Rsp Mode
++
++*/
++struct getdatarate_parm {
++	u32 rsvd;
++
++};
++struct getdatarate_rsp {
++	u8 datarates[NumRates];
++};
++
++
++/*
++Caller Mode: Any
++AP: AP can use the info for the contents of beacon frame
++Infra: STA can use the info when sitesurveying
++Ad-HoC(M): Like AP
++Ad-HoC(C): Like STA
++
++
++Notes: To set the phy capability of the NIC
++
++Command Mode
++
++*/
++
++struct	setphyinfo_parm {
++	struct regulatory_class class_sets[NUM_REGULATORYS];
++	u8	status;
++};
++
++struct	getphyinfo_parm {
++	u32 rsvd;
++};
++
++struct	getphyinfo_rsp {
++	struct regulatory_class class_sets[NUM_REGULATORYS];
++	u8	status;
++};
++
++/*
++Caller Mode: Any
++
++Notes: To set the channel/modem/band
++This command will be used when channel/modem/band is changed.
++
++Command Mode
++
++*/
++struct	setphy_parm {
++	u8	rfchannel;
++	u8	modem;
++};
++
++/*
++Caller Mode: Any
++
++Notes: To get the current setting of channel/modem/band
++
++Command-Rsp Mode
++
++*/
++struct	getphy_parm {
++	u32 rsvd;
++
++};
++struct	getphy_rsp {
++	u8	rfchannel;
++	u8	modem;
++};
++
++struct readBB_parm {
++	u8	offset;
++};
++struct readBB_rsp {
++	u8	value;
++};
++
++struct readTSSI_parm {
++	u8	offset;
++};
++struct readTSSI_rsp {
++	u8	value;
++};
++
++struct readMAC_parm {
++	u8 len;
++	u32	addr;
++};
++
++struct writeBB_parm {
++	u8	offset;
++	u8	value;
++};
++
++struct readRF_parm {
++	u8	offset;
++};
++struct readRF_rsp {
++	u32	value;
++};
++
++struct writeRF_parm {
++	u32	offset;
++	u32	value;
++};
++
++struct getrfintfs_parm {
++	u8	rfintfs;
++};
++
++
++struct Tx_Beacon_param {
++	WLAN_BSSID_EX network;
++};
++
++/*
++	Notes: This command is used for H2C/C2H loopback testing
++
++	mac[0] == 0
++	==> CMD mode, return H2C_SUCCESS.
++	The following condition must be ture under CMD mode
++		mac[1] == mac[4], mac[2] == mac[3], mac[0]=mac[5]= 0;
++		s0 == 0x1234, s1 == 0xabcd, w0 == 0x78563412, w1 == 0x5aa5def7;
++		s2 == (b1 << 8 | b0);
++
++	mac[0] == 1
++	==> CMD_RSP mode, return H2C_SUCCESS_RSP
++
++	The rsp layout shall be:
++	rsp:			parm:
++		mac[0]  =   mac[5];
++		mac[1]  =   mac[4];
++		mac[2]  =   mac[3];
++		mac[3]  =   mac[2];
++		mac[4]  =   mac[1];
++		mac[5]  =   mac[0];
++		s0		=   s1;
++		s1		=   swap16(s0);
++		w0		=	swap32(w1);
++		b0		=	b1
++		s2		=	s0 + s1
++		b1		=	b0
++		w1		=	w0
++
++	mac[0] ==	2
++	==> CMD_EVENT mode, return	H2C_SUCCESS
++	The event layout shall be:
++	event:			parm:
++		mac[0]  =   mac[5];
++		mac[1]  =   mac[4];
++		mac[2]  =   event's sequence number, starting from 1 to parm's marc[3]
++		mac[3]  =   mac[2];
++		mac[4]  =   mac[1];
++		mac[5]  =   mac[0];
++		s0		=   swap16(s0) - event.mac[2];
++		s1		=   s1 + event.mac[2];
++		w0		=	swap32(w0);
++		b0		=	b1
++		s2		=	s0 + event.mac[2]
++		b1		=	b0
++		w1		=	swap32(w1) - event.mac[2];
++
++		parm->mac[3] is the total event counts that host requested.
++
++
++	event will be the same with the cmd's param.
++
++*/
++
++#ifdef CONFIG_H2CLBK
++
++struct seth2clbk_parm {
++	u8 mac[6];
++	u16	s0;
++	u16	s1;
++	u32	w0;
++	u8	b0;
++	u16  s2;
++	u8	b1;
++	u32	w1;
++};
++
++struct geth2clbk_parm {
++	u32 rsv;
++};
++
++struct geth2clbk_rsp {
++	u8	mac[6];
++	u16	s0;
++	u16	s1;
++	u32	w0;
++	u8	b0;
++	u16	s2;
++	u8	b1;
++	u32	w1;
++};
++
++#endif	/* CONFIG_H2CLBK */
++
++/* CMD param Formart for driver extra cmd handler */
++struct drvextra_cmd_parm {
++	int ec_id; /* extra cmd id */
++	int type; /* Can use this field as the type id or command size */
++	int size; /* buffer size */
++	unsigned char *pbuf;
++};
++
++/*------------------- Below are used for RF/BB tunning ---------------------*/
++
++struct	setantenna_parm {
++	u8	tx_antset;
++	u8	rx_antset;
++	u8	tx_antenna;
++	u8	rx_antenna;
++};
++
++struct	enrateadaptive_parm {
++	u32	en;
++};
++
++struct settxagctbl_parm {
++	u32	txagc[MAX_RATES_LENGTH];
++};
++
++struct gettxagctbl_parm {
++	u32 rsvd;
++};
++struct gettxagctbl_rsp {
++	u32	txagc[MAX_RATES_LENGTH];
++};
++
++struct setagcctrl_parm {
++	u32	agcctrl;		/* 0: pure hw, 1: fw */
++};
++
++
++struct setssup_parm	{
++	u32	ss_ForceUp[MAX_RATES_LENGTH];
++};
++
++struct getssup_parm	{
++	u32 rsvd;
++};
++struct getssup_rsp	{
++	u8	ss_ForceUp[MAX_RATES_LENGTH];
++};
++
++
++struct setssdlevel_parm	{
++	u8	ss_DLevel[MAX_RATES_LENGTH];
++};
++
++struct getssdlevel_parm	{
++	u32 rsvd;
++};
++struct getssdlevel_rsp	{
++	u8	ss_DLevel[MAX_RATES_LENGTH];
++};
++
++struct setssulevel_parm	{
++	u8	ss_ULevel[MAX_RATES_LENGTH];
++};
++
++struct getssulevel_parm	{
++	u32 rsvd;
++};
++struct getssulevel_rsp	{
++	u8	ss_ULevel[MAX_RATES_LENGTH];
++};
++
++
++struct	setcountjudge_parm {
++	u8	count_judge[MAX_RATES_LENGTH];
++};
++
++struct	getcountjudge_parm {
++	u32 rsvd;
++};
++struct	getcountjudge_rsp {
++	u8	count_judge[MAX_RATES_LENGTH];
++};
++
++
++struct setratable_parm {
++	u8 ss_ForceUp[NumRates];
++	u8 ss_ULevel[NumRates];
++	u8 ss_DLevel[NumRates];
++	u8 count_judge[NumRates];
++};
++
++struct getratable_parm {
++	uint rsvd;
++};
++struct getratable_rsp {
++	u8 ss_ForceUp[NumRates];
++	u8 ss_ULevel[NumRates];
++	u8 ss_DLevel[NumRates];
++	u8 count_judge[NumRates];
++};
++
++
++/* to get TX,RX retry count */
++struct gettxretrycnt_parm {
++	unsigned int rsvd;
++};
++struct gettxretrycnt_rsp {
++	unsigned long tx_retrycnt;
++};
++
++struct getrxretrycnt_parm {
++	unsigned int rsvd;
++};
++struct getrxretrycnt_rsp {
++	unsigned long rx_retrycnt;
++};
++
++/* to get BCNOK,BCNERR count */
++struct getbcnokcnt_parm {
++	unsigned int rsvd;
++};
++struct getbcnokcnt_rsp {
++	unsigned long  bcnokcnt;
++};
++
++struct getbcnerrcnt_parm {
++	unsigned int rsvd;
++};
++struct getbcnerrcnt_rsp {
++	unsigned long bcnerrcnt;
++};
++
++/* to get current TX power level */
++struct getcurtxpwrlevel_parm {
++	unsigned int rsvd;
++};
++struct getcurtxpwrlevel_rsp {
++	unsigned short tx_power;
++};
++
++struct setprobereqextraie_parm {
++	unsigned char e_id;
++	unsigned char ie_len;
++	unsigned char ie[0];
++};
++
++struct setassocreqextraie_parm {
++	unsigned char e_id;
++	unsigned char ie_len;
++	unsigned char ie[0];
++};
++
++struct setproberspextraie_parm {
++	unsigned char e_id;
++	unsigned char ie_len;
++	unsigned char ie[0];
++};
++
++struct setassocrspextraie_parm {
++	unsigned char e_id;
++	unsigned char ie_len;
++	unsigned char ie[0];
++};
++
++
++struct addBaReq_parm {
++	unsigned int tid;
++	u8	addr[ETH_ALEN];
++};
++
++struct addBaRsp_parm {
++	unsigned int tid;
++	unsigned int start_seq;
++	u8 addr[ETH_ALEN];
++	u8 status;
++	u8 size;
++};
++
++/*H2C Handler index: 46 */
++struct set_ch_parm {
++	u8 ch;
++	u8 bw;
++	u8 ch_offset;
++};
++
++#ifdef MP_FIRMWARE_OFFLOAD
++/*H2C Handler index: 47 */
++struct SetTxPower_parm {
++	u8 TxPower;
++};
++
++/*H2C Handler index: 48 */
++struct SwitchAntenna_parm {
++	u16 antenna_tx;
++	u16 antenna_rx;
++	/*	R_ANTENNA_SELECT_CCK cck_txrx; */
++	u8 cck_txrx;
++};
++
++/*H2C Handler index: 49 */
++struct SetCrystalCap_parm {
++	u32 curr_crystalcap;
++};
++
++/*H2C Handler index: 50 */
++struct SetSingleCarrierTx_parm {
++	u8 bStart;
++};
++
++/*H2C Handler index: 51 */
++struct SetSingleToneTx_parm {
++	u8 bStart;
++	u8 curr_rfpath;
++};
++
++/*H2C Handler index: 52 */
++struct SetCarrierSuppressionTx_parm {
++	u8 bStart;
++	u32 curr_rateidx;
++};
++
++/*H2C Handler index: 53 */
++struct SetContinuousTx_parm {
++	u8 bStart;
++	u8 CCK_flag; /*1:CCK 2:OFDM*/
++	u32 curr_rateidx;
++};
++
++/*H2C Handler index: 54 */
++struct SwitchBandwidth_parm {
++	u8 curr_bandwidth;
++};
++
++#endif	/* MP_FIRMWARE_OFFLOAD */
++
++/*H2C Handler index: 59 */
++struct SetChannelPlan_param {
++	const struct country_chplan *country_ent;
++	u8 channel_plan;
++};
++
++/*H2C Handler index: 60 */
++struct LedBlink_param {
++	PVOID	 pLed;
++};
++
++/*H2C Handler index: 61 */
++struct SetChannelSwitch_param {
++	u8 new_ch_no;
++};
++
++/*H2C Handler index: 62 */
++struct TDLSoption_param {
++	u8 addr[ETH_ALEN];
++	u8 option;
++};
++
++/*H2C Handler index: 64 */
++struct RunInThread_param {
++	void (*func)(void *);
++	void *context;
++};
++
++
++#define GEN_CMD_CODE(cmd)	cmd ## _CMD_
++
++
++/*
++
++Result:
++0x00: success
++0x01: sucess, and check Response.
++0x02: cmd ignored due to duplicated sequcne number
++0x03: cmd dropped due to invalid cmd code
++0x04: reserved.
++
++*/
++
++#define H2C_RSP_OFFSET			512
++
++#define H2C_SUCCESS			0x00
++#define H2C_SUCCESS_RSP			0x01
++#define H2C_DUPLICATED			0x02
++#define H2C_DROPPED			0x03
++#define H2C_PARAMETERS_ERROR		0x04
++#define H2C_REJECTED			0x05
++#define H2C_CMD_OVERFLOW		0x06
++#define H2C_RESERVED			0x07
++#define H2C_ENQ_HEAD			0x08
++#define H2C_ENQ_HEAD_FAIL		0x09
++
++extern u8 rtw_setassocsta_cmd(_adapter  *padapter, u8 *mac_addr);
++extern u8 rtw_setstandby_cmd(_adapter *padapter, uint action);
++u8 rtw_sitesurvey_cmd(_adapter  *padapter, NDIS_802_11_SSID *ssid, int ssid_num, struct rtw_ieee80211_channel *ch, int ch_num);
++
++u8 rtw_create_ibss_cmd(_adapter *adapter, int flags);
++u8 rtw_startbss_cmd(_adapter *adapter, int flags);
++u8 rtw_change_bss_chbw_cmd(_adapter *adapter, int flags, s16 req_ch, s8 req_bw, s8 req_offset);
++
++extern u8 rtw_setphy_cmd(_adapter  *padapter, u8 modem, u8 ch);
++
++struct sta_info;
++extern u8 rtw_setstakey_cmd(_adapter  *padapter, struct sta_info *sta, u8 key_type, bool enqueue);
++extern u8 rtw_clearstakey_cmd(_adapter *padapter, struct sta_info *sta, u8 enqueue);
++
++extern u8 rtw_joinbss_cmd(_adapter  *padapter, struct wlan_network *pnetwork);
++u8 rtw_disassoc_cmd(_adapter *padapter, u32 deauth_timeout_ms, bool enqueue);
++extern u8 rtw_setopmode_cmd(_adapter  *padapter, NDIS_802_11_NETWORK_INFRASTRUCTURE networktype, bool enqueue);
++extern u8 rtw_setdatarate_cmd(_adapter  *padapter, u8 *rateset);
++extern u8 rtw_setbasicrate_cmd(_adapter  *padapter, u8 *rateset);
++extern u8 rtw_getmacreg_cmd(_adapter *padapter, u8 len, u32 addr);
++extern void rtw_usb_catc_trigger_cmd(_adapter *padapter, const char *caller);
++extern u8 rtw_setbbreg_cmd(_adapter *padapter, u8 offset, u8 val);
++extern u8 rtw_setrfreg_cmd(_adapter *padapter, u8 offset, u32 val);
++extern u8 rtw_getbbreg_cmd(_adapter *padapter, u8 offset, u8 *pval);
++extern u8 rtw_getrfreg_cmd(_adapter *padapter, u8 offset, u8 *pval);
++extern u8 rtw_setrfintfs_cmd(_adapter  *padapter, u8 mode);
++extern u8 rtw_setrttbl_cmd(_adapter  *padapter, struct setratable_parm *prate_table);
++extern u8 rtw_getrttbl_cmd(_adapter  *padapter, struct getratable_rsp *pval);
++
++extern u8 rtw_gettssi_cmd(_adapter  *padapter, u8 offset, u8 *pval);
++extern u8 rtw_setfwdig_cmd(_adapter *padapter, u8 type);
++extern u8 rtw_setfwra_cmd(_adapter *padapter, u8 type);
++
++extern u8 rtw_addbareq_cmd(_adapter *padapter, u8 tid, u8 *addr);
++extern u8 rtw_addbarsp_cmd(_adapter *padapter, u8 *addr, u16 tid, u8 status, u8 size, u16 start_seq);
++/* add for CONFIG_IEEE80211W, none 11w also can use */
++extern u8 rtw_reset_securitypriv_cmd(_adapter *padapter);
++extern u8 rtw_free_assoc_resources_cmd(_adapter *padapter);
++extern u8 rtw_dynamic_chk_wk_cmd(_adapter *adapter);
++
++u8 rtw_lps_ctrl_wk_cmd(_adapter *padapter, u8 lps_ctrl_type, u8 enqueue);
++u8 rtw_dm_in_lps_wk_cmd(_adapter *padapter);
++u8 rtw_lps_change_dtim_cmd(_adapter *padapter, u8 dtim);
++
++#if (RATE_ADAPTIVE_SUPPORT == 1)
++u8 rtw_rpt_timer_cfg_cmd(_adapter *padapter, u16 minRptTime);
++#endif
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++extern  u8 rtw_antenna_select_cmd(_adapter *padapter, u8 antenna, u8 enqueue);
++#endif
++
++u8 rtw_dm_ra_mask_wk_cmd(_adapter *padapter, u8 *psta);
++
++extern u8 rtw_ps_cmd(_adapter *padapter);
++
++#ifdef CONFIG_AP_MODE
++u8 rtw_chk_hi_queue_cmd(_adapter *padapter);
++#ifdef CONFIG_DFS_MASTER
++u8 rtw_dfs_master_cmd(_adapter *adapter, bool enqueue);
++void rtw_dfs_master_timer_hdl(RTW_TIMER_HDL_ARGS);
++void rtw_dfs_master_enable(_adapter *adapter, u8 ch, u8 bw, u8 offset);
++void rtw_dfs_master_disable(_adapter *adapter, u8 ch, u8 bw, u8 offset, bool by_others);
++enum {
++	MLME_STA_CONNECTING,
++	MLME_STA_CONNECTED,
++	MLME_STA_DISCONNECTED,
++	MLME_AP_STARTED,
++	MLME_AP_STOPPED,
++};
++void rtw_dfs_master_status_apply(_adapter *adapter, u8 self_action);
++#endif /* CONFIG_DFS_MASTER */
++#endif /* CONFIG_AP_MODE */
++
++#ifdef CONFIG_BT_COEXIST
++u8 rtw_btinfo_cmd(PADAPTER padapter, u8 *pbuf, u16 length);
++#endif
++
++u8 rtw_test_h2c_cmd(_adapter *adapter, u8 *buf, u8 len);
++
++u8 rtw_enable_hw_update_tsf_cmd(_adapter *padapter);
++
++u8 rtw_set_ch_cmd(_adapter *padapter, u8 ch, u8 bw, u8 ch_offset, u8 enqueue);
++
++u8 rtw_set_chplan_cmd(_adapter *adapter, int flags, u8 chplan, u8 swconfig);
++u8 rtw_set_country_cmd(_adapter *adapter, int flags, const char *country_code, u8 swconfig);
++
++extern u8 rtw_led_blink_cmd(_adapter *padapter, PVOID pLed);
++extern u8 rtw_set_csa_cmd(_adapter *padapter, u8 new_ch_no);
++extern u8 rtw_tdls_cmd(_adapter *padapter, u8 *addr, u8 option);
++
++#ifdef CONFIG_FW_C2H_REG
++u8 rtw_c2h_reg_wk_cmd(_adapter *adapter, u8 *c2h_evt);
++#endif
++#ifdef CONFIG_FW_C2H_PKT
++u8 rtw_c2h_packet_wk_cmd(_adapter *adapter, u8 *c2h_evt, u16 length);
++#endif
++
++u8 rtw_run_in_thread_cmd(PADAPTER padapter, void (*func)(void *), void *context);
++
++u8 session_tracker_chk_cmd(_adapter *adapter, struct sta_info *sta);
++u8 session_tracker_add_cmd(_adapter *adapter, struct sta_info *sta, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port);
++u8 session_tracker_del_cmd(_adapter *adapter, struct sta_info *sta, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port);
++
++u8 rtw_drvextra_cmd_hdl(_adapter *padapter, unsigned char *pbuf);
++
++extern void rtw_survey_cmd_callback(_adapter  *padapter, struct cmd_obj *pcmd);
++extern void rtw_disassoc_cmd_callback(_adapter  *padapter, struct cmd_obj *pcmd);
++extern void rtw_joinbss_cmd_callback(_adapter  *padapter, struct cmd_obj *pcmd);
++void rtw_create_ibss_post_hdl(_adapter *padapter, int status);
++extern void rtw_getbbrfreg_cmdrsp_callback(_adapter  *padapter, struct cmd_obj *pcmd);
++extern void rtw_readtssi_cmdrsp_callback(_adapter	*padapter,  struct cmd_obj *pcmd);
++
++extern void rtw_setstaKey_cmdrsp_callback(_adapter  *padapter,  struct cmd_obj *pcmd);
++extern void rtw_setassocsta_cmdrsp_callback(_adapter  *padapter,  struct cmd_obj *pcmd);
++extern void rtw_getrttbl_cmdrsp_callback(_adapter  *padapter,  struct cmd_obj *pcmd);
++extern void rtw_getmacreg_cmdrsp_callback(_adapter *padapter,  struct cmd_obj *pcmd);
++
++
++struct _cmd_callback {
++	u32	cmd_code;
++	void (*callback)(_adapter  *padapter, struct cmd_obj *cmd);
++};
++
++enum rtw_h2c_cmd {
++	GEN_CMD_CODE(_Read_MACREG) ,	/*0*/
++	GEN_CMD_CODE(_Write_MACREG) ,
++	GEN_CMD_CODE(_Read_BBREG) ,
++	GEN_CMD_CODE(_Write_BBREG) ,
++	GEN_CMD_CODE(_Read_RFREG) ,
++	GEN_CMD_CODE(_Write_RFREG) , /*5*/
++	GEN_CMD_CODE(_Read_EEPROM) ,
++	GEN_CMD_CODE(_Write_EEPROM) ,
++	GEN_CMD_CODE(_Read_EFUSE) ,
++	GEN_CMD_CODE(_Write_EFUSE) ,
++
++	GEN_CMD_CODE(_Read_CAM) ,	/*10*/
++	GEN_CMD_CODE(_Write_CAM) ,
++	GEN_CMD_CODE(_setBCNITV),
++	GEN_CMD_CODE(_setMBIDCFG),
++	GEN_CMD_CODE(_JoinBss),   /*14*/
++	GEN_CMD_CODE(_DisConnect) , /*15*/
++	GEN_CMD_CODE(_CreateBss) ,
++	GEN_CMD_CODE(_SetOpMode) ,
++	GEN_CMD_CODE(_SiteSurvey),  /*18*/
++	GEN_CMD_CODE(_SetAuth) ,
++
++	GEN_CMD_CODE(_SetKey) ,	/*20*/
++	GEN_CMD_CODE(_SetStaKey) ,
++	GEN_CMD_CODE(_SetAssocSta) ,
++	GEN_CMD_CODE(_DelAssocSta) ,
++	GEN_CMD_CODE(_SetStaPwrState) ,
++	GEN_CMD_CODE(_SetBasicRate) , /*25*/
++	GEN_CMD_CODE(_GetBasicRate) ,
++	GEN_CMD_CODE(_SetDataRate) ,
++	GEN_CMD_CODE(_GetDataRate) ,
++	GEN_CMD_CODE(_SetPhyInfo) ,
++
++	GEN_CMD_CODE(_GetPhyInfo) ,	/*30*/
++	GEN_CMD_CODE(_SetPhy) ,
++	GEN_CMD_CODE(_GetPhy) ,
++	GEN_CMD_CODE(_readRssi) ,
++	GEN_CMD_CODE(_readGain) ,
++	GEN_CMD_CODE(_SetAtim) , /*35*/
++	GEN_CMD_CODE(_SetPwrMode) ,
++	GEN_CMD_CODE(_JoinbssRpt),
++	GEN_CMD_CODE(_SetRaTable) ,
++	GEN_CMD_CODE(_GetRaTable) ,
++
++	GEN_CMD_CODE(_GetCCXReport), /*40*/
++	GEN_CMD_CODE(_GetDTMReport),
++	GEN_CMD_CODE(_GetTXRateStatistics),
++	GEN_CMD_CODE(_SetUsbSuspend),
++	GEN_CMD_CODE(_SetH2cLbk),
++	GEN_CMD_CODE(_AddBAReq) , /*45*/
++	GEN_CMD_CODE(_SetChannel), /*46*/
++	GEN_CMD_CODE(_SetTxPower),
++	GEN_CMD_CODE(_SwitchAntenna),
++	GEN_CMD_CODE(_SetCrystalCap),
++	GEN_CMD_CODE(_SetSingleCarrierTx), /*50*/
++
++	GEN_CMD_CODE(_SetSingleToneTx),/*51*/
++	GEN_CMD_CODE(_SetCarrierSuppressionTx),
++	GEN_CMD_CODE(_SetContinuousTx),
++	GEN_CMD_CODE(_SwitchBandwidth), /*54*/
++	GEN_CMD_CODE(_TX_Beacon), /*55*/
++
++	GEN_CMD_CODE(_Set_MLME_EVT), /*56*/
++	GEN_CMD_CODE(_Set_Drv_Extra), /*57*/
++	GEN_CMD_CODE(_Set_H2C_MSG), /*58*/
++
++	GEN_CMD_CODE(_SetChannelPlan), /*59*/
++	GEN_CMD_CODE(_LedBlink), /*60*/
++
++	GEN_CMD_CODE(_SetChannelSwitch), /*61*/
++	GEN_CMD_CODE(_TDLS), /*62*/
++	GEN_CMD_CODE(_ChkBMCSleepq), /*63*/
++
++	GEN_CMD_CODE(_RunInThreadCMD), /*64*/
++	GEN_CMD_CODE(_AddBARsp) , /*65*/
++
++	MAX_H2CCMD
++};
++
++#define _GetMACReg_CMD_ _Read_MACREG_CMD_
++#define _SetMACReg_CMD_ _Write_MACREG_CMD_
++#define _GetBBReg_CMD_		_Read_BBREG_CMD_
++#define _SetBBReg_CMD_		_Write_BBREG_CMD_
++#define _GetRFReg_CMD_		_Read_RFREG_CMD_
++#define _SetRFReg_CMD_		_Write_RFREG_CMD_
++
++#ifdef _RTW_CMD_C_
++struct _cmd_callback	rtw_cmd_callback[] = {
++	{GEN_CMD_CODE(_Read_MACREG), &rtw_getmacreg_cmdrsp_callback}, /*0*/
++	{GEN_CMD_CODE(_Write_MACREG), NULL},
++	{GEN_CMD_CODE(_Read_BBREG), &rtw_getbbrfreg_cmdrsp_callback},
++	{GEN_CMD_CODE(_Write_BBREG), NULL},
++	{GEN_CMD_CODE(_Read_RFREG), &rtw_getbbrfreg_cmdrsp_callback},
++	{GEN_CMD_CODE(_Write_RFREG), NULL}, /*5*/
++	{GEN_CMD_CODE(_Read_EEPROM), NULL},
++	{GEN_CMD_CODE(_Write_EEPROM), NULL},
++	{GEN_CMD_CODE(_Read_EFUSE), NULL},
++	{GEN_CMD_CODE(_Write_EFUSE), NULL},
++
++	{GEN_CMD_CODE(_Read_CAM),	NULL},	/*10*/
++	{GEN_CMD_CODE(_Write_CAM),	 NULL},
++	{GEN_CMD_CODE(_setBCNITV), NULL},
++	{GEN_CMD_CODE(_setMBIDCFG), NULL},
++	{GEN_CMD_CODE(_JoinBss), &rtw_joinbss_cmd_callback},  /*14*/
++	{GEN_CMD_CODE(_DisConnect), &rtw_disassoc_cmd_callback}, /*15*/
++	{GEN_CMD_CODE(_CreateBss), NULL},
++	{GEN_CMD_CODE(_SetOpMode), NULL},
++	{GEN_CMD_CODE(_SiteSurvey), &rtw_survey_cmd_callback}, /*18*/
++	{GEN_CMD_CODE(_SetAuth), NULL},
++
++	{GEN_CMD_CODE(_SetKey), NULL},	/*20*/
++	{GEN_CMD_CODE(_SetStaKey), &rtw_setstaKey_cmdrsp_callback},
++	{GEN_CMD_CODE(_SetAssocSta), &rtw_setassocsta_cmdrsp_callback},
++	{GEN_CMD_CODE(_DelAssocSta), NULL},
++	{GEN_CMD_CODE(_SetStaPwrState), NULL},
++	{GEN_CMD_CODE(_SetBasicRate), NULL}, /*25*/
++	{GEN_CMD_CODE(_GetBasicRate), NULL},
++	{GEN_CMD_CODE(_SetDataRate), NULL},
++	{GEN_CMD_CODE(_GetDataRate), NULL},
++	{GEN_CMD_CODE(_SetPhyInfo), NULL},
++
++	{GEN_CMD_CODE(_GetPhyInfo), NULL}, /*30*/
++	{GEN_CMD_CODE(_SetPhy), NULL},
++	{GEN_CMD_CODE(_GetPhy), NULL},
++	{GEN_CMD_CODE(_readRssi), NULL},
++	{GEN_CMD_CODE(_readGain), NULL},
++	{GEN_CMD_CODE(_SetAtim), NULL}, /*35*/
++	{GEN_CMD_CODE(_SetPwrMode), NULL},
++	{GEN_CMD_CODE(_JoinbssRpt), NULL},
++	{GEN_CMD_CODE(_SetRaTable), NULL},
++	{GEN_CMD_CODE(_GetRaTable) , NULL},
++
++	{GEN_CMD_CODE(_GetCCXReport), NULL}, /*40*/
++	{GEN_CMD_CODE(_GetDTMReport),	NULL},
++	{GEN_CMD_CODE(_GetTXRateStatistics), NULL},
++	{GEN_CMD_CODE(_SetUsbSuspend), NULL},
++	{GEN_CMD_CODE(_SetH2cLbk), NULL},
++	{GEN_CMD_CODE(_AddBAReq), NULL}, /*45*/
++	{GEN_CMD_CODE(_SetChannel), NULL},		/*46*/
++	{GEN_CMD_CODE(_SetTxPower), NULL},
++	{GEN_CMD_CODE(_SwitchAntenna), NULL},
++	{GEN_CMD_CODE(_SetCrystalCap), NULL},
++	{GEN_CMD_CODE(_SetSingleCarrierTx), NULL},	/*50*/
++
++	{GEN_CMD_CODE(_SetSingleToneTx), NULL}, /*51*/
++	{GEN_CMD_CODE(_SetCarrierSuppressionTx), NULL},
++	{GEN_CMD_CODE(_SetContinuousTx), NULL},
++	{GEN_CMD_CODE(_SwitchBandwidth), NULL},		/*54*/
++	{GEN_CMD_CODE(_TX_Beacon), NULL},/*55*/
++
++	{GEN_CMD_CODE(_Set_MLME_EVT), NULL},/*56*/
++	{GEN_CMD_CODE(_Set_Drv_Extra), NULL},/*57*/
++	{GEN_CMD_CODE(_Set_H2C_MSG), NULL},/*58*/
++	{GEN_CMD_CODE(_SetChannelPlan), NULL},/*59*/
++	{GEN_CMD_CODE(_LedBlink), NULL},/*60*/
++
++	{GEN_CMD_CODE(_SetChannelSwitch), NULL},/*61*/
++	{GEN_CMD_CODE(_TDLS), NULL},/*62*/
++	{GEN_CMD_CODE(_ChkBMCSleepq), NULL}, /*63*/
++
++	{GEN_CMD_CODE(_RunInThreadCMD), NULL},/*64*/
++	{GEN_CMD_CODE(_AddBARsp), NULL}, /*65*/
++};
++#endif
++
++#define CMD_FMT "cmd=%d,%d,%d"
++#define CMD_ARG(cmd) \
++	(cmd)->cmdcode, \
++	(cmd)->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra) ? ((struct drvextra_cmd_parm *)(cmd)->parmbuf)->ec_id : ((cmd)->cmdcode == GEN_CMD_CODE(_Set_MLME_EVT) ? ((struct C2HEvent_Header *)(cmd)->parmbuf)->ID : 0), \
++	(cmd)->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra) ? ((struct drvextra_cmd_parm *)(cmd)->parmbuf)->type : 0
++
++#endif /* _CMD_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_debug.h b/drivers/net/wireless/rtl8723du/include/rtw_debug.h
+new file mode 100644
+index 0000000..d4c4e23
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_debug.h
+@@ -0,0 +1,601 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_DEBUG_H__
++#define __RTW_DEBUG_H__
++
++/* driver log level*/
++enum {
++	_DRV_NONE_ = 0,
++	_DRV_ALWAYS_ = 1,
++	_DRV_ERR_ = 2,
++	_DRV_WARNING_ = 3,
++	_DRV_INFO_ = 4,
++	_DRV_DEBUG_ = 5,
++	_DRV_MAX_ = 6
++};
++
++#define DRIVER_PREFIX "RTW: "
++
++#ifdef PLATFORM_OS_CE
++extern void rtl871x_cedbg(const char *fmt, ...);
++#endif
++
++#ifdef PLATFORM_WINDOWS
++	#define RTW_PRINT do {} while (0)
++	#define RTW_ERR do {} while (0)
++	#define RTW_WARN do {} while (0)
++	#define RTW_INFO do {} while (0)
++	#define RTW_DBG do {} while (0)
++	#define RTW_PRINT_SEL do {} while (0)
++	#define _RTW_PRINT do {} while (0)
++	#define _RTW_ERR do {} while (0)
++	#define _RTW_WARN do {} while (0)
++	#define _RTW_INFO do {} while (0)
++	#define _RTW_DBG do {} while (0)
++	#define _RTW_PRINT_SEL do {} while (0)
++#else
++	#define RTW_PRINT(x, ...) do {} while (0)
++	#define RTW_ERR(x, ...) do {} while (0)
++	#define RTW_WARN(x,...) do {} while (0)
++	#define RTW_INFO(x,...) do {} while (0)
++	#define RTW_DBG(x,...) do {} while (0)
++	#define RTW_PRINT_SEL(x,...) do {} while (0)
++	#define _RTW_PRINT(x, ...) do {} while (0)
++	#define _RTW_ERR(x, ...) do {} while (0)
++	#define _RTW_WARN(x,...) do {} while (0)
++	#define _RTW_INFO(x,...) do {} while (0)
++	#define _RTW_DBG(x,...) do {} while (0)
++	#define _RTW_PRINT_SEL(x,...) do {} while (0)
++#endif
++
++#define RTW_INFO_DUMP(_TitleString, _HexData, _HexDataLen) do {} while (0)
++#define RTW_DBG_DUMP(_TitleString, _HexData, _HexDataLen) do {} while (0)
++#define _RTW_INFO_DUMP(_TitleString, _HexData, _HexDataLen) do {} while (0)
++#define _RTW_DBG_DUMP(_TitleString, _HexData, _HexDataLen) do {} while (0)
++
++#define RTW_DBG_EXPR(EXPR) do {} while (0)
++
++#define RTW_DBGDUMP 0 /* 'stream' for _dbgdump */
++
++/* don't use these 3 APIs anymore, will be removed later */
++#define RT_TRACE(_Comp, _Level, Fmt) do {} while (0)
++
++
++#undef _dbgdump
++#undef _seqdump
++
++#if defined(PLATFORM_WINDOWS) && defined(PLATFORM_OS_XP)
++	#define _dbgdump DbgPrint
++	#define _seqdump(sel, fmt, arg...) _dbgdump(fmt, ##arg)
++#elif defined(PLATFORM_WINDOWS) && defined(PLATFORM_OS_CE)
++	#define _dbgdump rtl871x_cedbg
++	#define _seqdump(sel, fmt, arg...) _dbgdump(fmt, ##arg)
++#elif defined PLATFORM_LINUX
++	#define _dbgdump printk
++	#define _seqdump seq_printf
++#elif defined PLATFORM_FREEBSD
++	#define _dbgdump printf
++	#define _seqdump(sel, fmt, arg...) _dbgdump(fmt, ##arg)
++#endif
++
++#ifdef CONFIG_RTW_DEBUG
++
++#ifndef _OS_INTFS_C_
++extern uint rtw_drv_log_level;
++#endif
++
++#if defined(_dbgdump)
++
++/* with driver-defined prefix */
++#undef RTW_PRINT
++#define RTW_PRINT(fmt, arg...)     \
++	do {\
++		if (_DRV_ALWAYS_ <= rtw_drv_log_level) {\
++			_dbgdump(DRIVER_PREFIX fmt, ##arg);\
++		} \
++	} while (0)
++
++#undef RTW_ERR
++#define RTW_ERR(fmt, arg...)     \
++	do {\
++		if (_DRV_ERR_ <= rtw_drv_log_level) {\
++			_dbgdump(DRIVER_PREFIX"ERROR " fmt, ##arg);\
++		} \
++	} while (0)
++
++
++#undef RTW_WARN
++#define RTW_WARN(fmt, arg...)     \
++	do {\
++		if (_DRV_WARNING_ <= rtw_drv_log_level) {\
++			_dbgdump(DRIVER_PREFIX"WARN " fmt, ##arg);\
++		} \
++	} while (0)
++
++#undef RTW_INFO
++#define RTW_INFO(fmt, arg...)     \
++	do {\
++		if (_DRV_INFO_ <= rtw_drv_log_level) {\
++			_dbgdump(DRIVER_PREFIX fmt, ##arg);\
++		} \
++	} while (0)
++
++
++#undef RTW_DBG
++#define RTW_DBG(fmt, arg...)     \
++	do {\
++		if (_DRV_DEBUG_ <= rtw_drv_log_level) {\
++			_dbgdump(DRIVER_PREFIX fmt, ##arg);\
++		} \
++	} while (0)
++
++
++#undef RTW_INFO_DUMP
++#define RTW_INFO_DUMP(_TitleString, _HexData, _HexDataLen)			\
++	do {\
++		if (_DRV_INFO_ <= rtw_drv_log_level) {	\
++			int __i;								\
++			u8	*ptr = (u8 *)_HexData;				\
++			_dbgdump("%s", DRIVER_PREFIX);						\
++			_dbgdump(_TitleString);						\
++			for (__i = 0; __i < (int)_HexDataLen; __i++) {				\
++				_dbgdump("%02X%s", ptr[__i], (((__i + 1) % 4) == 0) ? "  " : " ");	\
++				if (((__i + 1) % 16) == 0)	\
++					_dbgdump("\n");			\
++			}								\
++			_dbgdump("\n");							\
++		} \
++	} while (0)
++
++#undef RTW_DBG_DUMP
++#define RTW_DBG_DUMP(_TitleString, _HexData, _HexDataLen)			\
++	do {\
++		if (_DRV_DEBUG_ <= rtw_drv_log_level) { \
++			int __i;								\
++			u8	*ptr = (u8 *)_HexData;				\
++			_dbgdump("%s", DRIVER_PREFIX);						\
++			_dbgdump(_TitleString);						\
++			for (__i = 0; __i < (int)_HexDataLen; __i++) {				\
++				_dbgdump("%02X%s", ptr[__i], (((__i + 1) % 4) == 0) ? "  " : " ");	\
++				if (((__i + 1) % 16) == 0)	\
++					_dbgdump("\n");			\
++			}								\
++			_dbgdump("\n");							\
++		} \
++	} while (0)
++
++
++#undef RTW_PRINT_DUMP
++#define RTW_PRINT_DUMP(_TitleString, _HexData, _HexDataLen)			\
++	do {\
++		if (_DRV_ALWAYS_ <= rtw_drv_log_level) { \
++			int __i;								\
++			u8	*ptr = (u8 *)_HexData;				\
++			_dbgdump("%s", DRIVER_PREFIX);						\
++			_dbgdump(_TitleString); 					\
++			for (__i = 0; __i < (int)_HexDataLen; __i++) {				\
++				_dbgdump("%02X%s", ptr[__i], (((__i + 1) % 4) == 0) ? "  " : " ");	\
++				if (((__i + 1) % 16) == 0)	\
++					_dbgdump("\n"); 		\
++			}								\
++			_dbgdump("\n"); 						\
++		} \
++	} while (0)
++
++/* without driver-defined prefix */
++#undef _RTW_PRINT
++#define _RTW_PRINT(fmt, arg...)     \
++	do {\
++		if (_DRV_ALWAYS_ <= rtw_drv_log_level) {\
++			_dbgdump(fmt, ##arg);\
++		} \
++	} while (0)
++
++#undef _RTW_ERR
++#define _RTW_ERR(fmt, arg...)     \
++	do {\
++		if (_DRV_ERR_ <= rtw_drv_log_level) {\
++			_dbgdump(fmt, ##arg);\
++		} \
++	} while (0)
++
++
++#undef _RTW_WARN
++#define _RTW_WARN(fmt, arg...)     \
++	do {\
++		if (_DRV_WARNING_ <= rtw_drv_log_level) {\
++			_dbgdump(fmt, ##arg);\
++		} \
++	} while (0)
++
++#undef _RTW_INFO
++#define _RTW_INFO(fmt, arg...)     \
++	do {\
++		if (_DRV_INFO_ <= rtw_drv_log_level) {\
++			_dbgdump(fmt, ##arg);\
++		} \
++	} while (0)
++
++#undef _RTW_DBG
++#define _RTW_DBG(fmt, arg...)     \
++	do {\
++		if (_DRV_DEBUG_ <= rtw_drv_log_level) {\
++			_dbgdump(fmt, ##arg);\
++		} \
++	} while (0)
++
++
++#undef _RTW_INFO_DUMP
++#define _RTW_INFO_DUMP(_TitleString, _HexData, _HexDataLen)			\
++	if (_DRV_INFO_ <= rtw_drv_log_level) {	\
++		int __i;								\
++		u8	*ptr = (u8 *)_HexData;				\
++		_dbgdump(_TitleString);						\
++		for (__i = 0; __i<(int)_HexDataLen; __i++)				\
++		{								\
++			_dbgdump("%02X%s", ptr[__i], (((__i + 1) % 4) == 0) ? "  " : " ");	\
++			if (((__i + 1) % 16) == 0)	_dbgdump("\n");			\
++		}								\
++		_dbgdump("\n");							\
++	}
++
++#undef _RTW_DBG_DUMP
++#define _RTW_DBG_DUMP(_TitleString, _HexData, _HexDataLen)			\
++	if (_DRV_DEBUG_ <= rtw_drv_log_level) { \
++		int __i;								\
++		u8	*ptr = (u8 *)_HexData;				\
++		_dbgdump(_TitleString);						\
++		for (__i = 0; __i<(int)_HexDataLen; __i++)				\
++		{								\
++			_dbgdump("%02X%s", ptr[__i], (((__i + 1) % 4) == 0) ? "  " : " ");	\
++			if (((__i + 1) % 16) == 0)	_dbgdump("\n");			\
++		}								\
++		_dbgdump("\n");							\
++	}
++
++/* other debug APIs */
++#undef RTW_DBG_EXPR
++#define RTW_DBG_EXPR(EXPR) do { if (_DRV_DEBUG_ <= rtw_drv_log_level) EXPR; } while (0)
++
++#endif /* defined(_dbgdump) */
++#endif /* CONFIG_RTW_DEBUG */
++
++
++#if defined(_seqdump)
++/* dump message to selected 'stream' with driver-defined prefix */
++#undef RTW_PRINT_SEL
++#define RTW_PRINT_SEL(sel, fmt, arg...) \
++	do {\
++		if (sel == RTW_DBGDUMP)\
++			RTW_PRINT(fmt, ##arg); \
++		else {\
++			_seqdump(sel, fmt, ##arg) /*rtw_warn_on(1)*/; \
++		} \
++	} while (0)
++
++/* dump message to selected 'stream' */
++#undef _RTW_PRINT_SEL
++#define _RTW_PRINT_SEL(sel, fmt, arg...) \
++	do {\
++		if (sel == RTW_DBGDUMP)\
++			_RTW_PRINT(fmt, ##arg); \
++		else {\
++			_seqdump(sel, fmt, ##arg) /*rtw_warn_on(1)*/; \
++		} \
++	} while (0)
++
++#endif /* defined(_seqdump) */
++
++
++#ifdef CONFIG_DBG_COUNTER
++	#define DBG_COUNTER(counter) counter++
++#else
++	#define DBG_COUNTER(counter)
++#endif
++
++void dump_drv_version(void *sel);
++void dump_log_level(void *sel);
++void dump_drv_cfg(void *sel);
++
++#ifdef CONFIG_SDIO_HCI
++void sd_f0_reg_dump(void *sel, _adapter *adapter);
++void sdio_local_reg_dump(void *sel, _adapter *adapter);
++#endif /* CONFIG_SDIO_HCI */
++
++void mac_reg_dump(void *sel, _adapter *adapter);
++void bb_reg_dump(void *sel, _adapter *adapter);
++void rf_reg_dump(void *sel, _adapter *adapter);
++
++bool rtw_fwdl_test_trigger_chksum_fail(void);
++bool rtw_fwdl_test_trigger_wintint_rdy_fail(void);
++bool rtw_del_rx_ampdu_test_trigger_no_tx_fail(void);
++
++u32 rtw_get_wait_hiq_empty_ms(void);
++void rtw_sink_rtp_seq_dbg(_adapter *adapter, _pkt *pkt);
++
++struct sta_info;
++void sta_rx_reorder_ctl_dump(void *sel, struct sta_info *sta);
++
++struct dvobj_priv;
++void dump_tx_rate_bmp(void *sel, struct dvobj_priv *dvobj);
++void dump_adapters_status(void *sel, struct dvobj_priv *dvobj);
++void dump_adapters_info(void *sel, struct dvobj_priv *dvobj);
++
++struct sec_cam_ent;
++void dump_sec_cam_ent(void *sel, struct sec_cam_ent *ent, int id);
++void dump_sec_cam_ent_title(void *sel, u8 has_id);
++void dump_sec_cam(void *sel, _adapter *adapter);
++void dump_sec_cam_cache(void *sel, _adapter *adapter);
++
++#ifdef CONFIG_PROC_DEBUG
++ssize_t proc_set_write_reg(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_read_reg(struct seq_file *m, void *v);
++ssize_t proc_set_read_reg(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++int proc_get_fwstate(struct seq_file *m, void *v);
++int proc_get_sec_info(struct seq_file *m, void *v);
++int proc_get_mlmext_state(struct seq_file *m, void *v);
++#ifdef CONFIG_LAYER2_ROAMING
++int proc_get_roam_flags(struct seq_file *m, void *v);
++ssize_t proc_set_roam_flags(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_roam_param(struct seq_file *m, void *v);
++ssize_t proc_set_roam_param(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++ssize_t proc_set_roam_tgt_addr(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif /* CONFIG_LAYER2_ROAMING */
++#ifdef CONFIG_RTW_80211R
++int proc_get_ft_flags(struct seq_file *m, void *v);
++ssize_t proc_set_ft_flags(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif
++int proc_get_qos_option(struct seq_file *m, void *v);
++int proc_get_ht_option(struct seq_file *m, void *v);
++int proc_get_rf_info(struct seq_file *m, void *v);
++int proc_get_scan_param(struct seq_file *m, void *v);
++ssize_t proc_set_scan_param(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_scan_abort(struct seq_file *m, void *v);
++#ifdef CONFIG_SCAN_BACKOP
++int proc_get_backop_flags_sta(struct seq_file *m, void *v);
++ssize_t proc_set_backop_flags_sta(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_backop_flags_ap(struct seq_file *m, void *v);
++ssize_t proc_set_backop_flags_ap(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif /* CONFIG_SCAN_BACKOP */
++int proc_get_survey_info(struct seq_file *m, void *v);
++ssize_t proc_set_survey_info(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_ap_info(struct seq_file *m, void *v);
++ssize_t proc_reset_trx_info(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_trx_info(struct seq_file *m, void *v);
++int proc_get_rate_ctl(struct seq_file *m, void *v);
++int proc_get_wifi_spec(struct seq_file *m, void *v);
++ssize_t proc_set_rate_ctl(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_bw_ctl(struct seq_file *m, void *v);
++ssize_t proc_set_bw_ctl(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#ifdef DBG_RX_COUNTER_DUMP
++int proc_get_rx_cnt_dump(struct seq_file *m, void *v);
++ssize_t proc_set_rx_cnt_dump(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif
++int proc_get_dis_pwt(struct seq_file *m, void *v);
++ssize_t proc_set_dis_pwt(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++int proc_get_suspend_resume_info(struct seq_file *m, void *v);
++
++ssize_t proc_set_fwdl_test_case(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++ssize_t proc_set_del_rx_ampdu_test_case(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#ifdef CONFIG_DFS_MASTER
++int proc_get_dfs_master_test_case(struct seq_file *m, void *v);
++ssize_t proc_set_dfs_master_test_case(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif /* CONFIG_DFS_MASTER */
++ssize_t proc_set_wait_hiq_empty(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++#ifdef CONFIG_AP_MODE
++int proc_get_all_sta_info(struct seq_file *m, void *v);
++#endif /* CONFIG_AP_MODE */
++
++#ifdef DBG_MEMORY_LEAK
++int proc_get_malloc_cnt(struct seq_file *m, void *v);
++#endif /* DBG_MEMORY_LEAK */
++
++#ifdef CONFIG_FIND_BEST_CHANNEL
++int proc_get_best_channel(struct seq_file *m, void *v);
++ssize_t proc_set_best_channel(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif /* CONFIG_FIND_BEST_CHANNEL */
++
++int proc_get_trx_info_debug(struct seq_file *m, void *v);
++
++int proc_get_rx_signal(struct seq_file *m, void *v);
++ssize_t proc_set_rx_signal(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_hw_status(struct seq_file *m, void *v);
++ssize_t proc_set_hw_status(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++#ifdef CONFIG_80211N_HT
++int proc_get_ht_enable(struct seq_file *m, void *v);
++ssize_t proc_set_ht_enable(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++int proc_get_bw_mode(struct seq_file *m, void *v);
++ssize_t proc_set_bw_mode(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++int proc_get_ampdu_enable(struct seq_file *m, void *v);
++ssize_t proc_set_ampdu_enable(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++int proc_get_mac_rptbuf(struct seq_file *m, void *v);
++
++int proc_get_rx_ampdu(struct seq_file *m, void *v);
++ssize_t proc_set_rx_ampdu(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++int proc_get_rx_stbc(struct seq_file *m, void *v);
++ssize_t proc_set_rx_stbc(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++
++int proc_get_rx_ampdu_factor(struct seq_file *m, void *v);
++ssize_t proc_set_rx_ampdu_factor(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++int proc_get_rx_ampdu_density(struct seq_file *m, void *v);
++ssize_t proc_set_rx_ampdu_density(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++int proc_get_tx_ampdu_density(struct seq_file *m, void *v);
++ssize_t proc_set_tx_ampdu_density(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif /* CONFIG_80211N_HT */
++
++int proc_get_en_fwps(struct seq_file *m, void *v);
++ssize_t proc_set_en_fwps(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++#if 0
++int proc_get_two_path_rssi(struct seq_file *m, void *v);
++int proc_get_rssi_disp(struct seq_file *m, void *v);
++ssize_t proc_set_rssi_disp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif
++
++#ifdef CONFIG_BT_COEXIST
++int proc_get_btcoex_dbg(struct seq_file *m, void *v);
++ssize_t proc_set_btcoex_dbg(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_btcoex_info(struct seq_file *m, void *v);
++#endif /* CONFIG_BT_COEXIST */
++
++#if defined(DBG_CONFIG_ERROR_DETECT)
++int proc_get_sreset(struct seq_file *m, void *v);
++ssize_t proc_set_sreset(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif /* DBG_CONFIG_ERROR_DETECT */
++
++int proc_get_odm_dbg_comp(struct seq_file *m, void *v);
++ssize_t proc_set_odm_dbg_comp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_odm_dbg_level(struct seq_file *m, void *v);
++ssize_t proc_set_odm_dbg_level(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++int proc_get_odm_adaptivity(struct seq_file *m, void *v);
++ssize_t proc_set_odm_adaptivity(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++#ifdef CONFIG_DBG_COUNTER
++int proc_get_rx_logs(struct seq_file *m, void *v);
++int proc_get_tx_logs(struct seq_file *m, void *v);
++int proc_get_int_logs(struct seq_file *m, void *v);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++int proc_get_rx_ring(struct seq_file *m, void *v);
++int proc_get_tx_ring(struct seq_file *m, void *v);
++#endif
++
++#ifdef CONFIG_WOWLAN
++int proc_get_pattern_info(struct seq_file *m, void *v);
++ssize_t proc_set_pattern_info(struct file *file, const char __user *buffer,
++		size_t count, loff_t *pos, void *data);
++int proc_get_wakeup_reason(struct seq_file *m, void *v);
++#endif
++
++#ifdef CONFIG_GPIO_WAKEUP
++int proc_get_wowlan_gpio_info(struct seq_file *m, void *v);
++ssize_t proc_set_wowlan_gpio_info(struct file *file, const char __user *buffer,
++		size_t count, loff_t *pos, void *data);
++#endif /*CONFIG_GPIO_WAKEUP*/
++
++#ifdef CONFIG_P2P_WOWLAN
++int proc_get_p2p_wowlan_info(struct seq_file *m, void *v);
++#endif /* CONFIG_P2P_WOWLAN */
++
++int proc_get_new_bcn_max(struct seq_file *m, void *v);
++ssize_t proc_set_new_bcn_max(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++#ifdef CONFIG_POWER_SAVING
++int proc_get_ps_info(struct seq_file *m, void *v);
++#endif /* CONFIG_POWER_SAVING */
++
++#ifdef CONFIG_TDLS
++int proc_get_tdls_info(struct seq_file *m, void *v);
++#endif
++
++int proc_get_monitor(struct seq_file *m, void *v);
++ssize_t proc_set_monitor(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++
++#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++int proc_get_rtkm_info(struct seq_file *m, void *v);
++#endif /* CONFIG_PREALLOC_RX_SKB_BUFFER */
++
++#ifdef CONFIG_IEEE80211W
++ssize_t proc_set_tx_sa_query(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_tx_sa_query(struct seq_file *m, void *v);
++ssize_t proc_set_tx_deauth(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_tx_deauth(struct seq_file *m, void *v);
++ssize_t proc_set_tx_auth(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_tx_auth(struct seq_file *m, void *v);
++#endif /* CONFIG_IEEE80211W */
++
++#endif /* CONFIG_PROC_DEBUG */
++
++int proc_get_efuse_map(struct seq_file *m, void *v);
++ssize_t proc_set_efuse_map(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++#ifdef CONFIG_MCC_MODE
++int proc_get_mcc_info(struct seq_file *m, void *v);
++ssize_t proc_set_mcc_enable(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++ssize_t proc_set_mcc_single_tx_criteria(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++ssize_t proc_set_mcc_ap_bw20_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++ssize_t proc_set_mcc_ap_bw40_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++ssize_t proc_set_mcc_ap_bw80_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++ssize_t proc_set_mcc_sta_bw20_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++ssize_t proc_set_mcc_sta_bw40_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++ssize_t proc_set_mcc_sta_bw80_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif /* CONFIG_MCC_MODE */
++
++
++#define _drv_always_		1
++#define _drv_emerg_			2
++#define _drv_alert_			3
++#define _drv_crit_			4
++#define _drv_err_			5
++#define _drv_warning_		6
++#define _drv_notice_		7
++#define _drv_info_			8
++#define _drv_dump_			9
++#define _drv_debug_			10
++
++#define _module_rtl871x_xmit_c_		BIT(0)
++#define _module_xmit_osdep_c_		BIT(1)
++#define _module_rtl871x_recv_c_		BIT(2)
++#define _module_recv_osdep_c_		BIT(3)
++#define _module_rtl871x_mlme_c_		BIT(4)
++#define _module_mlme_osdep_c_		BIT(5)
++#define _module_rtl871x_sta_mgt_c_		BIT(6)
++#define _module_rtl871x_cmd_c_			BIT(7)
++#define _module_cmd_osdep_c_		BIT(8)
++#define _module_rtl871x_io_c_				BIT(9)
++#define _module_io_osdep_c_		BIT(10)
++#define _module_os_intfs_c_			BIT(11)
++#define _module_rtl871x_security_c_		BIT(12)
++#define _module_rtl871x_eeprom_c_			BIT(13)
++#define _module_hal_init_c_		BIT(14)
++#define _module_hci_hal_init_c_		BIT(15)
++#define _module_rtl871x_ioctl_c_		BIT(16)
++#define _module_rtl871x_ioctl_set_c_		BIT(17)
++#define _module_rtl871x_ioctl_query_c_	BIT(18)
++#define _module_rtl871x_pwrctrl_c_			BIT(19)
++#define _module_hci_intfs_c_			BIT(20)
++#define _module_hci_ops_c_			BIT(21)
++#define _module_osdep_service_c_			BIT(22)
++#define _module_mp_			BIT(23)
++#define _module_hci_ops_os_c_			BIT(24)
++#define _module_rtl871x_ioctl_os_c		BIT(25)
++#define _module_rtl8712_cmd_c_		BIT(26)
++/* #define _module_efuse_			BIT(27) */
++#define	_module_rtl8192c_xmit_c_ BIT(28)
++#define _module_hal_xmit_c_	BIT(28)
++#define _module_efuse_			BIT(29)
++#define _module_rtl8712_recv_c_		BIT(30)
++#define _module_rtl8712_led_c_		BIT(31)
++
++#endif /* __RTW_DEBUG_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_eeprom.h b/drivers/net/wireless/rtl8723du/include/rtw_eeprom.h
+new file mode 100644
+index 0000000..9d9103f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_eeprom.h
+@@ -0,0 +1,121 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_EEPROM_H__
++#define __RTW_EEPROM_H__
++
++
++#define	RTL8712_EEPROM_ID			0x8712
++/* #define	EEPROM_MAX_SIZE			256 */
++
++#define	HWSET_MAX_SIZE_128		128
++#define	HWSET_MAX_SIZE_256		256
++#define	HWSET_MAX_SIZE_512		512
++#define HWSET_MAX_SIZE_1024		1024
++
++#define	EEPROM_MAX_SIZE			HWSET_MAX_SIZE_1024
++
++#define	CLOCK_RATE					50			/* 100us		 */
++
++/* - EEPROM opcodes */
++#define EEPROM_READ_OPCODE		06
++#define EEPROM_WRITE_OPCODE		05
++#define EEPROM_ERASE_OPCODE		07
++#define EEPROM_EWEN_OPCODE		19      /* Erase/write enable */
++#define EEPROM_EWDS_OPCODE		16      /* Erase/write disable */
++
++/* Country codes */
++#define USA							0x555320
++#define EUROPE						0x1 /* temp, should be provided later	 */
++#define JAPAN						0x2 /* temp, should be provided later */
++
++/*
++ * Customer ID, note that:
++ * This variable is initiailzed through EEPROM or registry,
++ * however, its definition may be different with that in EEPROM for
++ * EEPROM size consideration. So, we have to perform proper translation between them.
++ * Besides, CustomerID of registry has precedence of that of EEPROM.
++ * defined below. 060703, by rcnjko.
++ *   */
++typedef enum _RT_CUSTOMER_ID {
++	RT_CID_DEFAULT = 0,
++	RT_CID_8187_ALPHA0 = 1,
++	RT_CID_8187_SERCOMM_PS = 2,
++	RT_CID_8187_HW_LED = 3,
++	RT_CID_8187_NETGEAR = 4,
++	RT_CID_WHQL = 5,
++	RT_CID_819x_CAMEO  = 6,
++	RT_CID_819x_RUNTOP = 7,
++	RT_CID_819x_Senao = 8,
++	RT_CID_TOSHIBA = 9,	/* Merge by Jacken, 2008/01/31. */
++	RT_CID_819x_Netcore = 10,
++	RT_CID_Nettronix = 11,
++	RT_CID_DLINK = 12,
++	RT_CID_PRONET = 13,
++	RT_CID_COREGA = 14,
++	RT_CID_CHINA_MOBILE = 15,
++	RT_CID_819x_ALPHA = 16,
++	RT_CID_819x_Sitecom = 17,
++	RT_CID_CCX = 18, /* It's set under CCX logo test and isn't demanded for CCX functions, but for test behavior like retry limit and tx report. By Bruce, 2009-02-17. */
++	RT_CID_819x_Lenovo = 19,
++	RT_CID_819x_QMI = 20,
++	RT_CID_819x_Edimax_Belkin = 21,
++	RT_CID_819x_Sercomm_Belkin = 22,
++	RT_CID_819x_CAMEO1 = 23,
++	RT_CID_819x_MSI = 24,
++	RT_CID_819x_Acer = 25,
++	RT_CID_819x_AzWave_ASUS = 26,
++	RT_CID_819x_AzWave = 27, /* For AzWave in PCIe, The ID is AzWave use and not only Asus */
++	RT_CID_819x_HP = 28,
++	RT_CID_819x_WNC_COREGA = 29,
++	RT_CID_819x_Arcadyan_Belkin = 30,
++	RT_CID_819x_SAMSUNG = 31,
++	RT_CID_819x_CLEVO = 32,
++	RT_CID_819x_DELL = 33,
++	RT_CID_819x_PRONETS = 34,
++	RT_CID_819x_Edimax_ASUS = 35,
++	RT_CID_NETGEAR = 36,
++	RT_CID_PLANEX = 37,
++	RT_CID_CC_C = 38,
++	RT_CID_819x_Xavi = 39,
++	RT_CID_LENOVO_CHINA = 40,
++	RT_CID_INTEL_CHINA = 41,
++	RT_CID_TPLINK_HPWR = 42,
++	RT_CID_819x_Sercomm_Netgear = 43,
++	RT_CID_819x_ALPHA_Dlink = 44,/* add by ylb 20121012 for customer led for alpha */
++	RT_CID_WNC_NEC = 45,/* add by page for NEC */
++	RT_CID_DNI_BUFFALO = 46,/* add by page for NEC */
++} RT_CUSTOMER_ID, *PRT_CUSTOMER_ID;
++
++extern void eeprom_write16(_adapter *padapter, u16 reg, u16 data);
++extern u16 eeprom_read16(_adapter *padapter, u16 reg);
++extern void read_eeprom_content(_adapter *padapter);
++extern void eeprom_read_sz(_adapter *padapter, u16 reg, u8 *data, u32 sz);
++
++extern void read_eeprom_content_by_attrib(_adapter	*padapter);
++
++#ifdef PLATFORM_LINUX
++#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++extern int isAdaptorInfoFileValid(void);
++extern int storeAdaptorInfoFile(char *path, u8 *efuse_data);
++extern int retriveAdaptorInfoFile(char *path, u8 *efuse_data);
++#endif /* CONFIG_ADAPTOR_INFO_CACHING_FILE */
++#endif /* PLATFORM_LINUX */
++
++#endif /* __RTL871X_EEPROM_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_efuse.h b/drivers/net/wireless/rtl8723du/include/rtw_efuse.h
+new file mode 100644
+index 0000000..2fc02fb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_efuse.h
+@@ -0,0 +1,242 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_EFUSE_H__
++#define __RTW_EFUSE_H__
++
++
++#define	EFUSE_ERROE_HANDLE		1
++
++#define	PG_STATE_HEADER		0x01
++#define	PG_STATE_WORD_0		0x02
++#define	PG_STATE_WORD_1		0x04
++#define	PG_STATE_WORD_2		0x08
++#define	PG_STATE_WORD_3		0x10
++#define	PG_STATE_DATA			0x20
++
++#define	PG_SWBYTE_H			0x01
++#define	PG_SWBYTE_L			0x02
++
++#define	PGPKT_DATA_SIZE		8
++
++#define	EFUSE_WIFI				0
++#define	EFUSE_BT				1
++
++enum _EFUSE_DEF_TYPE {
++	TYPE_EFUSE_MAX_SECTION				= 0,
++	TYPE_EFUSE_REAL_CONTENT_LEN			= 1,
++	TYPE_AVAILABLE_EFUSE_BYTES_BANK		= 2,
++	TYPE_AVAILABLE_EFUSE_BYTES_TOTAL	= 3,
++	TYPE_EFUSE_MAP_LEN					= 4,
++	TYPE_EFUSE_PROTECT_BYTES_BANK		= 5,
++	TYPE_EFUSE_CONTENT_LEN_BANK			= 6,
++};
++
++#define		EFUSE_MAX_MAP_LEN		1024
++
++#define		EFUSE_MAX_HW_SIZE		1024
++#define		EFUSE_MAX_SECTION_BASE	16
++
++/*RTL8822B 8821C BT EFUSE Define 1 BANK 128 size logical map 1024*/ 
++#ifdef RTW_HALMAC
++#define BANK_NUM		1
++#define EFUSE_BT_REAL_BANK_CONTENT_LEN	128
++#define EFUSE_BT_REAL_CONTENT_LEN		(EFUSE_BT_REAL_BANK_CONTENT_LEN * BANK_NUM)
++#define EFUSE_BT_MAP_LEN				1024	/* 1k bytes */
++#define EFUSE_BT_MAX_SECTION			(EFUSE_BT_MAP_LEN / 8)
++#define EFUSE_PROTECT_BYTES_BANK		16
++#define AVAILABLE_EFUSE_ADDR(addr)	(addr < EFUSE_BT_REAL_CONTENT_LEN)
++#endif
++
++#define EXT_HEADER(header) ((header & 0x1F) == 0x0F)
++#define ALL_WORDS_DISABLED(wde)	((wde & 0x0F) == 0x0F)
++#define GET_HDR_OFFSET_2_0(header) ((header & 0xE0) >> 5)
++
++#define		EFUSE_REPEAT_THRESHOLD_			3
++
++#define IS_MASKED_MP(ic, txt, offset) (EFUSE_IsAddressMasked_MP_##ic##txt(offset))
++#define IS_MASKED_TC(ic, txt, offset) (EFUSE_IsAddressMasked_TC_##ic##txt(offset))
++#define GET_MASK_ARRAY_LEN_MP(ic, txt) (EFUSE_GetArrayLen_MP_##ic##txt())
++#define GET_MASK_ARRAY_LEN_TC(ic, txt) (EFUSE_GetArrayLen_TC_##ic##txt())
++#define GET_MASK_ARRAY_MP(ic, txt, offset) (EFUSE_GetMaskArray_MP_##ic##txt(offset))
++#define GET_MASK_ARRAY_TC(ic, txt, offset) (EFUSE_GetMaskArray_TC_##ic##txt(offset))
++
++
++#define IS_MASKED(ic, txt, offset) (IS_MASKED_MP(ic, txt, offset))
++#define GET_MASK_ARRAY_LEN(ic, txt) (GET_MASK_ARRAY_LEN_MP(ic, txt))
++#define GET_MASK_ARRAY(ic, txt, out) do { GET_MASK_ARRAY_MP(ic, txt, out); } while (0)
++
++/* *********************************************
++ *	The following is for BT Efuse definition
++ * ********************************************* */
++#define		EFUSE_BT_MAX_MAP_LEN		1024
++#define		EFUSE_MAX_BANK			4
++#define		EFUSE_MAX_BT_BANK		(EFUSE_MAX_BANK-1)
++/* *********************************************
++ *--------------------------Define Parameters-------------------------------*/
++#define		EFUSE_MAX_WORD_UNIT			4
++
++/*------------------------------Define structure----------------------------*/
++typedef struct PG_PKT_STRUCT_A {
++	u8 offset;
++	u8 word_en;
++	u8 data[8];
++	u8 word_cnts;
++} PGPKT_STRUCT, *PPGPKT_STRUCT;
++
++typedef enum {
++	ERR_SUCCESS = 0,
++	ERR_DRIVER_FAILURE,
++	ERR_IO_FAILURE,
++	ERR_WI_TIMEOUT,
++	ERR_WI_BUSY,
++	ERR_BAD_FORMAT,
++	ERR_INVALID_DATA,
++	ERR_NOT_ENOUGH_SPACE,
++	ERR_WRITE_PROTECT,
++	ERR_READ_BACK_FAIL,
++	ERR_OUT_OF_RANGE
++} ERROR_CODE;
++
++/*------------------------------Define structure----------------------------*/
++typedef struct _EFUSE_HAL {
++	u8	fakeEfuseBank;
++	u32	fakeEfuseUsedBytes;
++	u8	fakeEfuseContent[EFUSE_MAX_HW_SIZE];
++	u8	fakeEfuseInitMap[EFUSE_MAX_MAP_LEN];
++	u8	fakeEfuseModifiedMap[EFUSE_MAX_MAP_LEN];
++	u32	EfuseUsedBytes;
++	u8	EfuseUsedPercentage;
++
++	u16	BTEfuseUsedBytes;
++	u8	BTEfuseUsedPercentage;
++	u8	BTEfuseContent[EFUSE_MAX_BT_BANK][EFUSE_MAX_HW_SIZE];
++	u8	BTEfuseInitMap[EFUSE_BT_MAX_MAP_LEN];
++	u8	BTEfuseModifiedMap[EFUSE_BT_MAX_MAP_LEN];
++
++	u16	fakeBTEfuseUsedBytes;
++	u8	fakeBTEfuseContent[EFUSE_MAX_BT_BANK][EFUSE_MAX_HW_SIZE];
++	u8	fakeBTEfuseInitMap[EFUSE_BT_MAX_MAP_LEN];
++	u8	fakeBTEfuseModifiedMap[EFUSE_BT_MAX_MAP_LEN];
++
++	/* EFUSE Configuration, initialized in HAL_CmnInitPGData(). */
++	const u16  MaxSecNum_WiFi;
++	const u16  MaxSecNum_BT;
++	const u16  WordUnit;
++	const u16  PhysicalLen_WiFi;
++	const u16  PhysicalLen_BT;
++	const u16  LogicalLen_WiFi;
++	const u16  LogicalLen_BT;
++	const u16  BankSize;
++	const u16  TotalBankNum;
++	const u16  BankNum_WiFi;
++	const u16  BankNum_BT;
++	const u16  OOBProtectBytes;
++	const u16  ProtectBytes;
++	const u16  BankAvailBytes;
++	const u16  TotalAvailBytes_WiFi;
++	const u16  TotalAvailBytes_BT;
++	const u16  HeaderRetry;
++	const u16  DataRetry;
++
++	ERROR_CODE	  Status;
++
++} EFUSE_HAL, *PEFUSE_HAL;
++
++extern u8 maskfileBuffer[32];
++
++/*------------------------Export global variable----------------------------*/
++extern u8 fakeEfuseBank;
++extern u32 fakeEfuseUsedBytes;
++extern u8 fakeEfuseContent[];
++extern u8 fakeEfuseInitMap[];
++extern u8 fakeEfuseModifiedMap[];
++
++extern u32 BTEfuseUsedBytes;
++extern u8 BTEfuseContent[EFUSE_MAX_BT_BANK][EFUSE_MAX_HW_SIZE];
++extern u8 BTEfuseInitMap[];
++extern u8 BTEfuseModifiedMap[];
++
++extern u32 fakeBTEfuseUsedBytes;
++extern u8 fakeBTEfuseContent[EFUSE_MAX_BT_BANK][EFUSE_MAX_HW_SIZE];
++extern u8 fakeBTEfuseInitMap[];
++extern u8 fakeBTEfuseModifiedMap[];
++/*------------------------Export global variable----------------------------*/
++u8	efuse_bt_GetCurrentSize(PADAPTER padapter, u16 *size);
++u16	efuse_bt_GetMaxSize(PADAPTER padapter);
++
++u8	efuse_GetCurrentSize(PADAPTER padapter, u16 *size);
++u16	efuse_GetMaxSize(PADAPTER padapter);
++u8	rtw_efuse_access(PADAPTER padapter, u8 bRead, u16 start_addr, u16 cnts, u8 *data);
++u8	rtw_efuse_bt_access(PADAPTER adapter, u8 write, u16 addr, u16 cnts, u8 *data);
++
++u8	rtw_efuse_mask_map_read(PADAPTER padapter, u16 addr, u16 cnts, u8 *data);
++u8	rtw_efuse_map_read(PADAPTER padapter, u16 addr, u16 cnts, u8 *data);
++u8	rtw_efuse_map_write(PADAPTER padapter, u16 addr, u16 cnts, u8 *data);
++u8	rtw_BT_efuse_map_read(PADAPTER padapter, u16 addr, u16 cnts, u8 *data);
++u8	rtw_BT_efuse_map_write(PADAPTER padapter, u16 addr, u16 cnts, u8 *data);
++
++u16	Efuse_GetCurrentSize(PADAPTER pAdapter, u8 efuseType, BOOLEAN bPseudoTest);
++u8	Efuse_CalculateWordCnts(u8 word_en);
++void	ReadEFuseByte(PADAPTER Adapter, u16 _offset, u8 *pbuf, BOOLEAN bPseudoTest) ;
++void	EFUSE_GetEfuseDefinition(PADAPTER pAdapter, u8 efuseType, u8 type, void *pOut, BOOLEAN bPseudoTest);
++u8	efuse_OneByteRead(PADAPTER pAdapter, u16 addr, u8 *data, BOOLEAN	 bPseudoTest);
++u8	efuse_OneByteWrite(PADAPTER pAdapter, u16 addr, u8 data, BOOLEAN	 bPseudoTest);
++
++void	BTEfuse_PowerSwitch(PADAPTER pAdapter, u8	bWrite, u8	 PwrState);
++void	Efuse_PowerSwitch(PADAPTER pAdapter, u8	bWrite, u8	 PwrState);
++int	Efuse_PgPacketRead(PADAPTER pAdapter, u8 offset, u8 *data, BOOLEAN bPseudoTest);
++int	Efuse_PgPacketWrite(PADAPTER pAdapter, u8 offset, u8 word_en, u8 *data, BOOLEAN bPseudoTest);
++void	efuse_WordEnableDataRead(u8 word_en, u8 *sourdata, u8 *targetdata);
++u8	Efuse_WordEnableDataWrite(PADAPTER pAdapter, u16 efuse_addr, u8 word_en, u8 *data, BOOLEAN bPseudoTest);
++void	EFUSE_ShadowMapUpdate(PADAPTER pAdapter, u8 efuseType, BOOLEAN bPseudoTest);
++void	EFUSE_ShadowRead(PADAPTER pAdapter, u8 Type, u16 Offset, u32 *Value);
++
++VOID	hal_ReadEFuse_BT_logic_map(
++	PADAPTER	padapter,
++	u16			_offset,
++	u16			_size_byte,
++	u8			*pbuf
++);
++u8	EfusePgPacketWrite_BT(
++	PADAPTER	pAdapter,
++	u8			offset,
++	u8			word_en,
++	u8			*pData,
++	u8			bPseudoTest);
++
++#define MAC_HIDDEN_MAX_BW_NUM 8
++extern const u8 _mac_hidden_max_bw_to_hal_bw_cap[];
++#define mac_hidden_max_bw_to_hal_bw_cap(max_bw) (((max_bw) >= MAC_HIDDEN_MAX_BW_NUM) ? 0 : _mac_hidden_max_bw_to_hal_bw_cap[(max_bw)])
++
++#define MAC_HIDDEN_PROTOCOL_NUM 4
++extern const u8 _mac_hidden_proto_to_hal_proto_cap[];
++#define mac_hidden_proto_to_hal_proto_cap(proto) (((proto) >= MAC_HIDDEN_PROTOCOL_NUM) ? 0 : _mac_hidden_proto_to_hal_proto_cap[(proto)])
++
++u8 mac_hidden_wl_func_to_hal_wl_func(u8 func);
++
++#ifdef PLATFORM_LINUX
++u8 rtw_efuse_file_read(PADAPTER padapter, u8 *filepatch, u8 *buf, u32 len);
++#ifdef CONFIG_EFUSE_CONFIG_FILE
++u32 rtw_read_efuse_from_file(const char *path, u8 *buf, int map_size);
++u32 rtw_read_macaddr_from_file(const char *path, u8 *buf);
++#endif /* CONFIG_EFUSE_CONFIG_FILE */
++#endif /* PLATFORM_LINUX */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_event.h b/drivers/net/wireless/rtl8723du/include/rtw_event.h
+new file mode 100644
+index 0000000..4516e5c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_event.h
+@@ -0,0 +1,135 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_EVENT_H_
++#define _RTW_EVENT_H_
++
++#ifdef CONFIG_H2CLBK
++	#include <h2clbk.h>
++#endif
++
++/*
++Used to report a bss has been scanned
++
++*/
++struct survey_event	{
++	WLAN_BSSID_EX bss;
++};
++
++/*
++Used to report that the requested site survey has been done.
++
++bss_cnt indicates the number of bss that has been reported.
++
++
++*/
++struct surveydone_event {
++	unsigned int	bss_cnt;
++
++};
++
++/*
++Used to report the link result of joinning the given bss
++
++
++join_res:
++-1: authentication fail
++-2: association fail
++> 0: TID
++
++*/
++struct joinbss_event {
++	struct	wlan_network	network;
++};
++
++/*
++Used to report a given STA has joinned the created BSS.
++It is used in AP/Ad-HoC(M) mode.
++
++
++*/
++struct stassoc_event {
++	unsigned char macaddr[6];
++};
++
++struct stadel_event {
++	unsigned char macaddr[6];
++	unsigned char rsvd[2]; /* for reason */
++	unsigned char locally_generated;
++	int mac_id;
++};
++
++struct addba_event {
++	unsigned int tid;
++};
++
++struct wmm_event {
++	unsigned char wmm;
++};
++
++#ifdef CONFIG_H2CLBK
++struct c2hlbk_event {
++	unsigned char mac[6];
++	unsigned short	s0;
++	unsigned short	s1;
++	unsigned int	w0;
++	unsigned char	b0;
++	unsigned short  s2;
++	unsigned char	b1;
++	unsigned int	w1;
++};
++#endif/* CONFIG_H2CLBK */
++
++#define GEN_EVT_CODE(event)	event ## _EVT_
++
++
++
++struct fwevent {
++	u32	parmsize;
++	void (*event_callback)(_adapter *dev, u8 *pbuf);
++};
++
++
++#define C2HEVENT_SZ			32
++
++struct event_node {
++	unsigned char *node;
++	unsigned char evt_code;
++	unsigned short evt_sz;
++	volatile int	*caller_ff_tail;
++	int	caller_ff_sz;
++};
++
++struct c2hevent_queue {
++	volatile int	head;
++	volatile int	tail;
++	struct	event_node	nodes[C2HEVENT_SZ];
++	unsigned char	seq;
++};
++
++#define NETWORK_QUEUE_SZ	4
++
++struct network_queue {
++	volatile int	head;
++	volatile int	tail;
++	WLAN_BSSID_EX networks[NETWORK_QUEUE_SZ];
++};
++
++
++#endif /* _WLANEVENT_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_ht.h b/drivers/net/wireless/rtl8723du/include/rtw_ht.h
+new file mode 100644
+index 0000000..8ae15ed
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_ht.h
+@@ -0,0 +1,219 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_HT_H_
++#define _RTW_HT_H_
++
++
++struct ht_priv {
++	u8	ht_option;
++	u8	ampdu_enable;/* for enable Tx A-MPDU */
++	u8	tx_amsdu_enable;/* for enable Tx A-MSDU */
++	u8	bss_coexist;/* for 20/40 Bss coexist */
++
++	/* u8	baddbareq_issued[16]; */
++	u32	tx_amsdu_maxlen; /* 1: 8k, 0:4k ; default:8k, for tx */
++	u32	rx_ampdu_maxlen; /* for rx reordering ctrl win_sz, updated when join_callback. */
++
++	u8	rx_ampdu_min_spacing;
++
++	u8	ch_offset;/* PRIME_CHNL_OFFSET */
++	u8	sgi_20m;
++	u8	sgi_40m;
++
++	/* for processing Tx A-MPDU */
++	u8	agg_enable_bitmap;
++	/* u8	ADDBA_retry_count; */
++	u8	candidate_tid_bitmap;
++
++	u8	ldpc_cap;
++	u8	stbc_cap;
++	u8	beamform_cap;
++	u8	smps_cap; /*spatial multiplexing power save mode. 0:static SMPS, 1:dynamic SMPS, 3:SMPS disabled, 2:reserved*/
++
++	struct rtw_ieee80211_ht_cap ht_cap;
++
++};
++
++typedef enum AGGRE_SIZE {
++	HT_AGG_SIZE_8K = 0,
++	HT_AGG_SIZE_16K = 1,
++	HT_AGG_SIZE_32K = 2,
++	HT_AGG_SIZE_64K = 3,
++	VHT_AGG_SIZE_128K = 4,
++	VHT_AGG_SIZE_256K = 5,
++	VHT_AGG_SIZE_512K = 6,
++	VHT_AGG_SIZE_1024K = 7,
++} AGGRE_SIZE_E, *PAGGRE_SIZE_E;
++
++typedef enum _RT_HT_INF0_CAP {
++	RT_HT_CAP_USE_TURBO_AGGR = 0x01,
++	RT_HT_CAP_USE_LONG_PREAMBLE = 0x02,
++	RT_HT_CAP_USE_AMPDU = 0x04,
++	RT_HT_CAP_USE_WOW = 0x8,
++	RT_HT_CAP_USE_SOFTAP = 0x10,
++	RT_HT_CAP_USE_92SE = 0x20,
++	RT_HT_CAP_USE_88C_92C = 0x40,
++	RT_HT_CAP_USE_AP_CLIENT_MODE = 0x80,	/* AP team request to reserve this bit, by Emily */
++} RT_HT_INF0_CAPBILITY, *PRT_HT_INF0_CAPBILITY;
++
++typedef enum _RT_HT_INF1_CAP {
++	RT_HT_CAP_USE_VIDEO_CLIENT = 0x01,
++	RT_HT_CAP_USE_JAGUAR_BCUT = 0x02,
++	RT_HT_CAP_USE_JAGUAR_CCUT = 0x04,
++} RT_HT_INF1_CAPBILITY, *PRT_HT_INF1_CAPBILITY;
++
++#define	LDPC_HT_ENABLE_RX			BIT0
++#define	LDPC_HT_ENABLE_TX			BIT1
++#define	LDPC_HT_TEST_TX_ENABLE		BIT2
++#define	LDPC_HT_CAP_TX				BIT3
++
++#define	STBC_HT_ENABLE_RX			BIT0
++#define	STBC_HT_ENABLE_TX			BIT1
++#define	STBC_HT_TEST_TX_ENABLE		BIT2
++#define	STBC_HT_CAP_TX				BIT3
++
++#define	BEAMFORMING_HT_BEAMFORMER_ENABLE	BIT0	/* Declare our NIC supports beamformer */
++#define	BEAMFORMING_HT_BEAMFORMEE_ENABLE	BIT1	/* Declare our NIC supports beamformee */
++#define	BEAMFORMING_HT_BEAMFORMER_TEST		BIT2	/* Transmiting Beamforming no matter the target supports it or not */
++#define	BEAMFORMING_HT_BEAMFORMER_STEER_NUM		(BIT4 | BIT5)
++#define	BEAMFORMING_HT_BEAMFORMEE_CHNL_EST_CAP	(BIT6 | BIT7)
++
++/* ------------------------------------------------------------
++ * The HT Control field
++ * ------------------------------------------------------------ */
++#define SET_HT_CTRL_CSI_STEERING(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart))+2, 6, 2, _val)
++#define SET_HT_CTRL_NDP_ANNOUNCEMENT(_pEleStart, _val)		SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart))+3, 0, 1, _val)
++#define GET_HT_CTRL_NDP_ANNOUNCEMENT(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+3, 0, 1)
++
++/* 20/40 BSS Coexist */
++#define SET_EXT_CAPABILITY_ELE_BSS_COEXIST(_pEleStart, _val)	SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)), 0, 1, _val)
++#define GET_EXT_CAPABILITY_ELE_BSS_COEXIST(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)), 0, 1)
++
++/* HT Capabilities Info field */
++#define HT_CAP_ELE_CAP_INFO(_pEleStart)					((u8 *)(_pEleStart))
++#define GET_HT_CAP_ELE_LDPC_CAP(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)), 0, 1)
++#define GET_HT_CAP_ELE_CHL_WIDTH(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)), 1, 1)
++#define GET_HT_CAP_ELE_SM_PS(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)), 2, 2)
++#define GET_HT_CAP_ELE_GREENFIELD(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)), 4, 1)
++#define GET_HT_CAP_ELE_SHORT_GI20M(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)), 5, 1)
++#define GET_HT_CAP_ELE_SHORT_GI40M(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)), 6, 1)
++#define GET_HT_CAP_ELE_TX_STBC(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)), 7, 1)
++#define GET_HT_CAP_ELE_RX_STBC(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+1, 0, 2)
++#define GET_HT_CAP_ELE_DELAYED_BA(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+1, 2, 1)
++#define GET_HT_CAP_ELE_MAX_AMSDU_LENGTH(_pEleStart)		LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+1, 3, 1)
++#define GET_HT_CAP_ELE_DSSS_CCK_40M(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+1, 4, 1)
++#define GET_HT_CAP_ELE_FORTY_INTOLERANT(_pEleStart)		LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+1, 6, 1)
++#define GET_HT_CAP_ELE_LSIG_TXOP_PROTECT(_pEleStart)	LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+1, 7, 1)
++
++#define SET_HT_CAP_ELE_LDPC_CAP(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)), 0, 1, _val)
++#define SET_HT_CAP_ELE_CHL_WIDTH(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)), 1, 1, _val)
++#define SET_HT_CAP_ELE_SM_PS(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)), 2, 2, _val)
++#define SET_HT_CAP_ELE_GREENFIELD(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)), 4, 1, _val)
++#define SET_HT_CAP_ELE_SHORT_GI20M(_pEleStart, _val)		SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)), 5, 1, _val)
++#define SET_HT_CAP_ELE_SHORT_GI40M(_pEleStart, _val)		SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)), 6, 1, _val)
++#define SET_HT_CAP_ELE_TX_STBC(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)), 7, 1, _val)
++#define SET_HT_CAP_ELE_RX_STBC(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 1, 0, 2, _val)
++#define SET_HT_CAP_ELE_DELAYED_BA(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 1, 2, 1, _val)
++#define SET_HT_CAP_ELE_MAX_AMSDU_LENGTH(_pEleStart, _val)	SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 1, 3, 1, _val)
++#define SET_HT_CAP_ELE_DSSS_CCK_40M(_pEleStart, _val)		SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 1, 4, 1, _val)
++#define SET_HT_CAP_ELE_FORTY_INTOLERANT(_pEleStart, _val)	SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 1, 6, 1, _val)
++#define SET_HT_CAP_ELE_LSIG_TXOP_PROTECT(_pEleStart, _val)	SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 1, 7, 1, _val)
++
++/* A-MPDU Parameters field */
++#define HT_CAP_ELE_AMPDU_PARA(_pEleStart)				(((u8 *)(_pEleStart))+2)
++#define GET_HT_CAP_ELE_MAX_AMPDU_LEN_EXP(_pEleStart)	LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+2, 0, 2)
++#define GET_HT_CAP_ELE_MIN_MPDU_S_SPACE(_pEleStart)		LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+2, 2, 3)
++
++#define HT_AMPDU_PARA_FMT "%02x " \
++	"MAX AMPDU len:%u bytes, MIN MPDU Start Spacing:%u"
++
++#define HT_AMPDU_PARA_ARG(x) \
++	*((u8 *)(x)) \
++	, (1 << (13+GET_HT_CAP_ELE_MAX_AMPDU_LEN_EXP(((u8 *)x)-2)))-1 \
++	, GET_HT_CAP_ELE_MIN_MPDU_S_SPACE(((u8 *)x)-2)
++
++/* Supported MCS Set field */
++#define HT_CAP_ELE_SUP_MCS_SET(_pEleStart)				(((u8 *)(_pEleStart))+3)
++#define HT_CAP_ELE_RX_MCS_MAP(_pEleStart)				HT_CAP_ELE_SUP_MCS_SET(_pEleStart)
++#define GET_HT_CAP_ELE_RX_HIGHEST_DATA_RATE(_pEleStart)	LE_BITS_TO_2BYTE(((u8 *)(_pEleStart))+13, 0, 10)
++#define GET_HT_CAP_ELE_TX_MCS_DEF(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+15, 0, 1)
++#define GET_HT_CAP_ELE_TRX_MCS_NEQ(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+15, 1, 1)
++#define GET_HT_CAP_ELE_TX_MAX_SS(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+15, 2, 2)
++#define GET_HT_CAP_ELE_TX_UEQM(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+15, 4, 1)
++
++#define HT_SUP_MCS_SET_FMT "%02x %02x %02x %02x %02x%02x%02x%02x%02x%02x" \
++	/* "\n%02x%02x%02x%02x%02x%02x" */\
++	" %uMbps %s%s%s"
++#define HT_SUP_MCS_SET_ARG(x) ((u8 *)(x))[0], ((u8 *)(x))[1], ((u8 *)(x))[2], ((u8 *)(x))[3], ((u8 *)(x))[4], ((u8 *)(x))[5], \
++	((u8 *)(x))[6], ((u8 *)(x))[7], ((u8 *)(x))[8], ((u8 *)(x))[9] \
++	/*,((u8 *)(x))[10], ((u8 *)(x))[11], ((u8 *)(x))[12], ((u8 *)(x))[13], ((u8 *)(x))[14], ((u8 *)(x))[15] */\
++	, GET_HT_CAP_ELE_RX_HIGHEST_DATA_RATE(((u8 *)x)-3) \
++	, GET_HT_CAP_ELE_TX_MCS_DEF(((u8 *)x)-3) ? "TX_MCS_DEF " : "" \
++	, GET_HT_CAP_ELE_TRX_MCS_NEQ(((u8 *)x)-3) ? "TRX_MCS_NEQ " : "" \
++	, GET_HT_CAP_ELE_TX_UEQM(((u8 *)x)-3) ? "TX_UEQM " : ""
++
++/* TXBF Capabilities */
++#define SET_HT_CAP_TXBF_RECEIVE_NDP_CAP(_pEleStart, _val)				SET_BITS_TO_LE_4BYTE(((u8 *)(_pEleStart))+21, 3, 1, ((u8)_val))
++#define SET_HT_CAP_TXBF_TRANSMIT_NDP_CAP(_pEleStart, _val)				SET_BITS_TO_LE_4BYTE(((u8 *)(_pEleStart))+21, 4, 1, ((u8)_val))
++#define SET_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP(_pEleStart, _val)	SET_BITS_TO_LE_4BYTE(((u8 *)(_pEleStart))+21, 10, 1, ((u8)_val))
++#define SET_HT_CAP_TXBF_EXPLICIT_COMP_FEEDBACK_CAP(_pEleStart, _val)	SET_BITS_TO_LE_4BYTE(((u8 *)(_pEleStart))+21, 15, 2, ((u8)_val))
++#define SET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS(_pEleStart, _val)	SET_BITS_TO_LE_4BYTE(((u8 *)(_pEleStart))+21, 23, 2, ((u8)_val))
++#define SET_HT_CAP_TXBF_CHNL_ESTIMATION_NUM_ANTENNAS(_pEleStart, _val)	SET_BITS_TO_LE_4BYTE(((u8 *)(_pEleStart))+21, 27, 2, ((u8)_val))
++
++
++#define GET_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP(_pEleStart)			LE_BITS_TO_4BYTE(((u8 *)(_pEleStart))+21, 10, 1)
++#define GET_HT_CAP_TXBF_EXPLICIT_COMP_FEEDBACK_CAP(_pEleStart)			LE_BITS_TO_4BYTE(((u8 *)(_pEleStart))+21, 15, 2)
++#define GET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS(_pEleStart)		LE_BITS_TO_4BYTE(((u8 *)(_pEleStart))+21, 23, 2)
++#define GET_HT_CAP_TXBF_CHNL_ESTIMATION_NUM_ANTENNAS(_pEleStart)		LE_BITS_TO_4BYTE(((u8 *)(_pEleStart))+21, 27, 2)
++
++/* HT Operation element */
++
++#define GET_HT_OP_ELE_PRI_CHL(_pEleStart)					LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)), 0, 8)
++#define SET_HT_OP_ELE_PRI_CHL(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)), 0, 8, _val)
++
++/* HT Operation Info field */
++#define HT_OP_ELE_OP_INFO(_pEleStart)						(((u8 *)(_pEleStart)) + 1)
++#define GET_HT_OP_ELE_2ND_CHL_OFFSET(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 1, 0, 2)
++#define GET_HT_OP_ELE_STA_CHL_WIDTH(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 1, 2, 1)
++#define GET_HT_OP_ELE_RIFS_MODE(_pEleStart)					LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 1, 3, 1)
++#define GET_HT_OP_ELE_HT_PROTECT(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 2, 0, 2)
++#define GET_HT_OP_ELE_NON_GREEN_PRESENT(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 2, 2, 1)
++#define GET_HT_OP_ELE_OBSS_NON_HT_PRESENT(_pEleStart)		LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 2, 4, 1)
++#define GET_HT_OP_ELE_DUAL_BEACON(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 4, 6, 1)
++#define GET_HT_OP_ELE_DUAL_CTS(_pEleStart)					LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 4, 7, 1)
++#define GET_HT_OP_ELE_STBC_BEACON(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 5, 0, 1)
++#define GET_HT_OP_ELE_LSIG_TXOP_PROTECT(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 5, 1, 1)
++#define GET_HT_OP_ELE_PCO_ACTIVE(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 5, 2, 1)
++#define GET_HT_OP_ELE_PCO_PHASE(_pEleStart)					LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 5, 3, 1)
++
++#define SET_HT_OP_ELE_2ND_CHL_OFFSET(_pEleStart, _val)		SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 1, 0, 2, _val)
++#define SET_HT_OP_ELE_STA_CHL_WIDTH(_pEleStart, _val)		SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 1, 2, 1, _val)
++#define SET_HT_OP_ELE_RIFS_MODE(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 1, 3, 1, _val)
++#define SET_HT_OP_ELE_HT_PROTECT(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 2, 0, 2, _val)
++#define SET_HT_OP_ELE_NON_GREEN_PRESENT(_pEleStart, _val)	SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 2, 2, 1, _val)
++#define SET_HT_OP_ELE_OBSS_NON_HT_PRESENT(_pEleStart, _val)	SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 2, 4, 1, _val)
++#define SET_HT_OP_ELE_DUAL_BEACON(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 4, 6, 1, _val)
++#define SET_HT_OP_ELE_DUAL_CTS(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 4, 7, 1, _val)
++#define SET_HT_OP_ELE_STBC_BEACON(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 5, 0, 1, _val)
++#define SET_HT_OP_ELE_LSIG_TXOP_PROTECT(_pEleStart, _val)	SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 5, 1, 1, _val)
++#define SET_HT_OP_ELE_PCO_ACTIVE(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 5, 2, 1, _val)
++#define SET_HT_OP_ELE_PCO_PHASE(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 5, 3, 1, _val)
++
++#endif /* _RTL871X_HT_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_io.h b/drivers/net/wireless/rtl8723du/include/rtw_io.h
+new file mode 100644
+index 0000000..44a1749
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_io.h
+@@ -0,0 +1,576 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef _RTW_IO_H_
++#define _RTW_IO_H_
++
++#define NUM_IOREQ		8
++
++#ifdef PLATFORM_WINDOWS
++	#define MAX_PROT_SZ	64
++#endif
++#ifdef PLATFORM_LINUX
++	#define MAX_PROT_SZ	(64-16)
++#endif
++
++#define _IOREADY			0
++#define _IO_WAIT_COMPLETE   1
++#define _IO_WAIT_RSP        2
++
++/* IO COMMAND TYPE */
++#define _IOSZ_MASK_		(0x7F)
++#define _IO_WRITE_		BIT(7)
++#define _IO_FIXED_		BIT(8)
++#define _IO_BURST_		BIT(9)
++#define _IO_BYTE_		BIT(10)
++#define _IO_HW_			BIT(11)
++#define _IO_WORD_		BIT(12)
++#define _IO_SYNC_		BIT(13)
++#define _IO_CMDMASK_	(0x1F80)
++
++
++/*
++	For prompt mode accessing, caller shall free io_req
++	Otherwise, io_handler will free io_req
++*/
++
++
++
++/* IO STATUS TYPE */
++#define _IO_ERR_		BIT(2)
++#define _IO_SUCCESS_	BIT(1)
++#define _IO_DONE_		BIT(0)
++
++
++#define IO_RD32			(_IO_SYNC_ | _IO_WORD_)
++#define IO_RD16			(_IO_SYNC_ | _IO_HW_)
++#define IO_RD8			(_IO_SYNC_ | _IO_BYTE_)
++
++#define IO_RD32_ASYNC	(_IO_WORD_)
++#define IO_RD16_ASYNC	(_IO_HW_)
++#define IO_RD8_ASYNC	(_IO_BYTE_)
++
++#define IO_WR32			(_IO_WRITE_ | _IO_SYNC_ | _IO_WORD_)
++#define IO_WR16			(_IO_WRITE_ | _IO_SYNC_ | _IO_HW_)
++#define IO_WR8			(_IO_WRITE_ | _IO_SYNC_ | _IO_BYTE_)
++
++#define IO_WR32_ASYNC	(_IO_WRITE_ | _IO_WORD_)
++#define IO_WR16_ASYNC	(_IO_WRITE_ | _IO_HW_)
++#define IO_WR8_ASYNC	(_IO_WRITE_ | _IO_BYTE_)
++
++/*
++
++	Only Sync. burst accessing is provided.
++
++*/
++
++#define IO_WR_BURST(x)		(_IO_WRITE_ | _IO_SYNC_ | _IO_BURST_ | ((x) & _IOSZ_MASK_))
++#define IO_RD_BURST(x)		(_IO_SYNC_ | _IO_BURST_ | ((x) & _IOSZ_MASK_))
++
++
++
++/* below is for the intf_option bit defition... */
++
++#define _INTF_ASYNC_	BIT(0)	/* support async io */
++
++struct intf_priv;
++struct intf_hdl;
++struct io_queue;
++
++struct _io_ops {
++	u8(*_read8)(struct intf_hdl *pintfhdl, u32 addr);
++	u16(*_read16)(struct intf_hdl *pintfhdl, u32 addr);
++	u32(*_read32)(struct intf_hdl *pintfhdl, u32 addr);
++
++	int (*_write8)(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++	int (*_write16)(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++	int (*_write32)(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++	int (*_writeN)(struct intf_hdl *pintfhdl, u32 addr, u32 length, u8 *pdata);
++
++	int (*_write8_async)(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++	int (*_write16_async)(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++	int (*_write32_async)(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++
++	void (*_read_mem)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++	void (*_write_mem)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++
++	void (*_sync_irp_protocol_rw)(struct io_queue *pio_q);
++
++	u32(*_read_interrupt)(struct intf_hdl *pintfhdl, u32 addr);
++
++	u32(*_read_port)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++	u32(*_write_port)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++
++	u32(*_write_scsi)(struct intf_hdl *pintfhdl, u32 cnt, u8 *pmem);
++
++	void (*_read_port_cancel)(struct intf_hdl *pintfhdl);
++	void (*_write_port_cancel)(struct intf_hdl *pintfhdl);
++
++#ifdef CONFIG_SDIO_HCI
++	u8(*_sd_f0_read8)(struct intf_hdl *pintfhdl, u32 addr);
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++	u8(*_sd_iread8)(struct intf_hdl *pintfhdl, u32 addr);
++	u16(*_sd_iread16)(struct intf_hdl *pintfhdl, u32 addr);
++	u32(*_sd_iread32)(struct intf_hdl *pintfhdl, u32 addr);
++	int (*_sd_iwrite8)(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++	int (*_sd_iwrite16)(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++	int (*_sd_iwrite32)(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++#endif /* CONFIG_SDIO_INDIRECT_ACCESS */
++#endif
++
++};
++
++struct io_req {
++	_list	list;
++	u32	addr;
++	volatile u32	val;
++	u32	command;
++	u32	status;
++	u8	*pbuf;
++	_sema	sema;
++
++#ifdef PLATFORM_OS_CE
++#ifdef CONFIG_USB_HCI
++	/* URB handler for rtw_write_mem */
++	USB_TRANSFER usb_transfer_write_mem;
++#endif
++#endif
++
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt);
++	u8 *cnxt;
++
++#ifdef PLATFORM_OS_XP
++	PMDL pmdl;
++	PIRP  pirp;
++
++#ifdef CONFIG_SDIO_HCI
++	PSDBUS_REQUEST_PACKET sdrp;
++#endif
++
++#endif
++
++
++};
++
++struct	intf_hdl {
++
++#if 0
++	u32	intf_option;
++	u32	bus_status;
++	u32	do_flush;
++	u8	*adapter;
++	u8	*intf_dev;
++	struct intf_priv	*pintfpriv;
++	u8	cnt;
++	void (*intf_hdl_init)(u8 *priv);
++	void (*intf_hdl_unload)(u8 *priv);
++	void (*intf_hdl_open)(u8 *priv);
++	void (*intf_hdl_close)(u8 *priv);
++	struct	_io_ops	io_ops;
++	/* u8 intf_status;//moved to struct intf_priv */
++	u16 len;
++	u16 done_len;
++#endif
++	_adapter *padapter;
++	struct dvobj_priv *pintf_dev;/*	pointer to &(padapter->dvobjpriv); */
++
++	struct _io_ops	io_ops;
++
++};
++
++struct reg_protocol_rd {
++
++#ifdef CONFIG_LITTLE_ENDIAN
++
++	/* DW1 */
++	u32		NumOfTrans:4;
++	u32		Reserved1:4;
++	u32		Reserved2:24;
++	/* DW2 */
++	u32		ByteCount:7;
++	u32		WriteEnable:1;		/* 0:read, 1:write */
++	u32		FixOrContinuous:1;	/* 0:continuous, 1: Fix */
++	u32		BurstMode:1;
++	u32		Byte1Access:1;
++	u32		Byte2Access:1;
++	u32		Byte4Access:1;
++	u32		Reserved3:3;
++	u32		Reserved4:16;
++	/* DW3 */
++	u32		BusAddress;
++	/* DW4 */
++	/* u32		Value; */
++#else
++
++
++	/* DW1 */
++	u32 Reserved1:4;
++	u32 NumOfTrans:4;
++
++	u32 Reserved2:24;
++
++	/* DW2 */
++	u32 WriteEnable:1;
++	u32 ByteCount:7;
++
++
++	u32 Reserved3:3;
++	u32 Byte4Access:1;
++
++	u32 Byte2Access:1;
++	u32 Byte1Access:1;
++	u32 BurstMode:1;
++	u32 FixOrContinuous:1;
++
++	u32 Reserved4:16;
++
++	/* DW3 */
++	u32		BusAddress;
++
++	/* DW4 */
++	/* u32		Value; */
++
++#endif
++
++};
++
++
++struct reg_protocol_wt {
++
++
++#ifdef CONFIG_LITTLE_ENDIAN
++
++	/* DW1 */
++	u32		NumOfTrans:4;
++	u32		Reserved1:4;
++	u32		Reserved2:24;
++	/* DW2 */
++	u32		ByteCount:7;
++	u32		WriteEnable:1;		/* 0:read, 1:write */
++	u32		FixOrContinuous:1;	/* 0:continuous, 1: Fix */
++	u32		BurstMode:1;
++	u32		Byte1Access:1;
++	u32		Byte2Access:1;
++	u32		Byte4Access:1;
++	u32		Reserved3:3;
++	u32		Reserved4:16;
++	/* DW3 */
++	u32		BusAddress;
++	/* DW4 */
++	u32		Value;
++
++#else
++	/* DW1 */
++	u32 Reserved1:4;
++	u32 NumOfTrans:4;
++
++	u32 Reserved2:24;
++
++	/* DW2 */
++	u32 WriteEnable:1;
++	u32 ByteCount:7;
++
++	u32 Reserved3:3;
++	u32 Byte4Access:1;
++
++	u32 Byte2Access:1;
++	u32 Byte1Access:1;
++	u32 BurstMode:1;
++	u32 FixOrContinuous:1;
++
++	u32 Reserved4:16;
++
++	/* DW3 */
++	u32		BusAddress;
++
++	/* DW4 */
++	u32		Value;
++
++#endif
++
++};
++#ifdef CONFIG_PCI_HCI
++#define MAX_CONTINUAL_IO_ERR 4
++#endif
++
++#ifdef CONFIG_USB_HCI
++#define MAX_CONTINUAL_IO_ERR 4
++#endif
++
++#ifdef CONFIG_SDIO_HCI
++#define SD_IO_TRY_CNT (8)
++#define MAX_CONTINUAL_IO_ERR SD_IO_TRY_CNT
++#endif
++
++#ifdef CONFIG_GSPI_HCI
++#define SD_IO_TRY_CNT (8)
++#define MAX_CONTINUAL_IO_ERR SD_IO_TRY_CNT
++#endif
++
++
++int rtw_inc_and_chk_continual_io_error(struct dvobj_priv *dvobj);
++void rtw_reset_continual_io_error(struct dvobj_priv *dvobj);
++
++/*
++Below is the data structure used by _io_handler
++
++*/
++
++struct io_queue {
++	_lock	lock;
++	_list	free_ioreqs;
++	_list		pending;		/* The io_req list that will be served in the single protocol read/write.	 */
++	_list		processing;
++	u8	*free_ioreqs_buf; /* 4-byte aligned */
++	u8	*pallocated_free_ioreqs_buf;
++	struct	intf_hdl	intf;
++};
++
++struct io_priv {
++
++	_adapter *padapter;
++
++	struct intf_hdl intf;
++
++};
++
++extern uint ioreq_flush(_adapter *adapter, struct io_queue *ioqueue);
++extern void sync_ioreq_enqueue(struct io_req *preq, struct io_queue *ioqueue);
++extern uint sync_ioreq_flush(_adapter *adapter, struct io_queue *ioqueue);
++
++
++extern uint free_ioreq(struct io_req *preq, struct io_queue *pio_queue);
++extern struct io_req *alloc_ioreq(struct io_queue *pio_q);
++
++extern uint register_intf_hdl(u8 *dev, struct intf_hdl *pintfhdl);
++extern void unregister_intf_hdl(struct intf_hdl *pintfhdl);
++
++extern void _rtw_attrib_read(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++extern void _rtw_attrib_write(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++
++extern u8 _rtw_read8(_adapter *adapter, u32 addr);
++extern u16 _rtw_read16(_adapter *adapter, u32 addr);
++extern u32 _rtw_read32(_adapter *adapter, u32 addr);
++extern void _rtw_read_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++extern void _rtw_read_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++extern void _rtw_read_port_cancel(_adapter *adapter);
++
++
++extern int _rtw_write8(_adapter *adapter, u32 addr, u8 val);
++extern int _rtw_write16(_adapter *adapter, u32 addr, u16 val);
++extern int _rtw_write32(_adapter *adapter, u32 addr, u32 val);
++extern int _rtw_writeN(_adapter *adapter, u32 addr, u32 length, u8 *pdata);
++
++#ifdef CONFIG_SDIO_HCI
++u8 _rtw_sd_f0_read8(_adapter *adapter, u32 addr);
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++u8 _rtw_sd_iread8(_adapter *adapter, u32 addr);
++u16 _rtw_sd_iread16(_adapter *adapter, u32 addr);
++u32 _rtw_sd_iread32(_adapter *adapter, u32 addr);
++int _rtw_sd_iwrite8(_adapter *adapter, u32 addr, u8 val);
++int _rtw_sd_iwrite16(_adapter *adapter, u32 addr, u16 val);
++int _rtw_sd_iwrite32(_adapter *adapter, u32 addr, u32 val);
++#endif /* CONFIG_SDIO_INDIRECT_ACCESS */
++#endif /* CONFIG_SDIO_HCI */
++
++extern int _rtw_write8_async(_adapter *adapter, u32 addr, u8 val);
++extern int _rtw_write16_async(_adapter *adapter, u32 addr, u16 val);
++extern int _rtw_write32_async(_adapter *adapter, u32 addr, u32 val);
++
++extern void _rtw_write_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++extern u32 _rtw_write_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++u32 _rtw_write_port_and_wait(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem, int timeout_ms);
++extern void _rtw_write_port_cancel(_adapter *adapter);
++
++#ifdef DBG_IO
++bool match_read_sniff_ranges(u32 addr, u16 len);
++bool match_write_sniff_ranges(u32 addr, u16 len);
++bool match_rf_read_sniff_ranges(u8 path, u32 addr, u32 mask);
++bool match_rf_write_sniff_ranges(u8 path, u32 addr, u32 mask);
++
++extern u8 dbg_rtw_read8(_adapter *adapter, u32 addr, const char *caller, const int line);
++extern u16 dbg_rtw_read16(_adapter *adapter, u32 addr, const char *caller, const int line);
++extern u32 dbg_rtw_read32(_adapter *adapter, u32 addr, const char *caller, const int line);
++
++extern int dbg_rtw_write8(_adapter *adapter, u32 addr, u8 val, const char *caller, const int line);
++extern int dbg_rtw_write16(_adapter *adapter, u32 addr, u16 val, const char *caller, const int line);
++extern int dbg_rtw_write32(_adapter *adapter, u32 addr, u32 val, const char *caller, const int line);
++extern int dbg_rtw_writeN(_adapter *adapter, u32 addr , u32 length , u8 *data, const char *caller, const int line);
++
++#ifdef CONFIG_SDIO_HCI
++u8 dbg_rtw_sd_f0_read8(_adapter *adapter, u32 addr, const char *caller, const int line);
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++u8 dbg_rtw_sd_iread8(_adapter *adapter, u32 addr, const char *caller, const int line);
++u16 dbg_rtw_sd_iread16(_adapter *adapter, u32 addr, const char *caller, const int line);
++u32 dbg_rtw_sd_iread32(_adapter *adapter, u32 addr, const char *caller, const int line);
++int dbg_rtw_sd_iwrite8(_adapter *adapter, u32 addr, u8 val, const char *caller, const int line);
++int dbg_rtw_sd_iwrite16(_adapter *adapter, u32 addr, u16 val, const char *caller, const int line);
++int dbg_rtw_sd_iwrite32(_adapter *adapter, u32 addr, u32 val, const char *caller, const int line);
++#endif /* CONFIG_SDIO_INDIRECT_ACCESS */
++#endif /* CONFIG_SDIO_HCI */
++
++#define rtw_read8(adapter, addr) dbg_rtw_read8((adapter), (addr), __FUNCTION__, __LINE__)
++#define rtw_read16(adapter, addr) dbg_rtw_read16((adapter), (addr), __FUNCTION__, __LINE__)
++#define rtw_read32(adapter, addr) dbg_rtw_read32((adapter), (addr), __FUNCTION__, __LINE__)
++#define rtw_read_mem(adapter, addr, cnt, mem) _rtw_read_mem((adapter), (addr), (cnt), (mem))
++#define rtw_read_port(adapter, addr, cnt, mem) _rtw_read_port((adapter), (addr), (cnt), (mem))
++#define rtw_read_port_cancel(adapter) _rtw_read_port_cancel((adapter))
++
++#define  rtw_write8(adapter, addr, val) dbg_rtw_write8((adapter), (addr), (val), __FUNCTION__, __LINE__)
++#define  rtw_write16(adapter, addr, val) dbg_rtw_write16((adapter), (addr), (val), __FUNCTION__, __LINE__)
++#define  rtw_write32(adapter, addr, val) dbg_rtw_write32((adapter), (addr), (val), __FUNCTION__, __LINE__)
++#define  rtw_writeN(adapter, addr, length, data) dbg_rtw_writeN((adapter), (addr), (length), (data), __FUNCTION__, __LINE__)
++
++#define rtw_write8_async(adapter, addr, val) _rtw_write8_async((adapter), (addr), (val))
++#define rtw_write16_async(adapter, addr, val) _rtw_write16_async((adapter), (addr), (val))
++#define rtw_write32_async(adapter, addr, val) _rtw_write32_async((adapter), (addr), (val))
++
++#define rtw_write_mem(adapter, addr, cnt, mem) _rtw_write_mem((adapter), addr, cnt, mem)
++#define rtw_write_port(adapter, addr, cnt, mem) _rtw_write_port(adapter, addr, cnt, mem)
++#define rtw_write_port_and_wait(adapter, addr, cnt, mem, timeout_ms) _rtw_write_port_and_wait((adapter), (addr), (cnt), (mem), (timeout_ms))
++#define rtw_write_port_cancel(adapter) _rtw_write_port_cancel(adapter)
++
++#ifdef CONFIG_SDIO_HCI
++#define rtw_sd_f0_read8(adapter, addr) dbg_rtw_sd_f0_read8((adapter), (addr), __func__, __LINE__)
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++#define rtw_sd_iread8(adapter, addr) dbg_rtw_sd_iread8((adapter), (addr), __func__, __LINE__)
++#define rtw_sd_iread16(adapter, addr) dbg_rtw_sd_iread16((adapter), (addr), __func__, __LINE__)
++#define rtw_sd_iread32(adapter, addr) dbg_rtw_sd_iread32((adapter), (addr), __func__, __LINE__)
++#define rtw_sd_iwrite8(adapter, addr, val) dbg_rtw_sd_iwrite8((adapter), (addr), (val), __func__, __LINE__)
++#define rtw_sd_iwrite16(adapter, addr, val) dbg_rtw_sd_iwrite16((adapter), (addr), (val), __func__, __LINE__)
++#define rtw_sd_iwrite32(adapter, addr, val) dbg_rtw_sd_iwrite32((adapter), (addr), (val), __func__, __LINE__)
++#endif /* CONFIG_SDIO_INDIRECT_ACCESS */
++#endif /* CONFIG_SDIO_HCI */
++
++#else /* DBG_IO */
++#define match_read_sniff_ranges(addr, len) _FALSE
++#define match_write_sniff_ranges(addr, len) _FALSE
++#define match_rf_read_sniff_ranges(path, addr, mask) _FALSE
++#define match_rf_write_sniff_ranges(path, addr, mask) _FALSE
++#define rtw_read8(adapter, addr) _rtw_read8((adapter), (addr))
++#define rtw_read16(adapter, addr) _rtw_read16((adapter), (addr))
++#define rtw_read32(adapter, addr) _rtw_read32((adapter), (addr))
++#define rtw_read_mem(adapter, addr, cnt, mem) _rtw_read_mem((adapter), (addr), (cnt), (mem))
++#define rtw_read_port(adapter, addr, cnt, mem) _rtw_read_port((adapter), (addr), (cnt), (mem))
++#define rtw_read_port_cancel(adapter) _rtw_read_port_cancel((adapter))
++
++#define  rtw_write8(adapter, addr, val) _rtw_write8((adapter), (addr), (val))
++#define  rtw_write16(adapter, addr, val) _rtw_write16((adapter), (addr), (val))
++#define  rtw_write32(adapter, addr, val) _rtw_write32((adapter), (addr), (val))
++#define  rtw_writeN(adapter, addr, length, data) _rtw_writeN((adapter), (addr), (length), (data))
++
++#define rtw_write8_async(adapter, addr, val) _rtw_write8_async((adapter), (addr), (val))
++#define rtw_write16_async(adapter, addr, val) _rtw_write16_async((adapter), (addr), (val))
++#define rtw_write32_async(adapter, addr, val) _rtw_write32_async((adapter), (addr), (val))
++
++#define rtw_write_mem(adapter, addr, cnt, mem) _rtw_write_mem((adapter), (addr), (cnt), (mem))
++#define rtw_write_port(adapter, addr, cnt, mem) _rtw_write_port((adapter), (addr), (cnt), (mem))
++#define rtw_write_port_and_wait(adapter, addr, cnt, mem, timeout_ms) _rtw_write_port_and_wait((adapter), (addr), (cnt), (mem), (timeout_ms))
++#define rtw_write_port_cancel(adapter) _rtw_write_port_cancel((adapter))
++
++#ifdef CONFIG_SDIO_HCI
++#define rtw_sd_f0_read8(adapter, addr) _rtw_sd_f0_read8((adapter), (addr))
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++#define rtw_sd_iread8(adapter, addr) _rtw_sd_iread8((adapter), (addr))
++#define rtw_sd_iread16(adapter, addr) _rtw_sd_iread16((adapter), (addr))
++#define rtw_sd_iread32(adapter, addr) _rtw_sd_iread32((adapter), (addr))
++#define rtw_sd_iwrite8(adapter, addr, val) _rtw_sd_iwrite8((adapter), (addr), (val))
++#define rtw_sd_iwrite16(adapter, addr, val) _rtw_sd_iwrite16((adapter), (addr), (val))
++#define rtw_sd_iwrite32(adapter, addr, val) _rtw_sd_iwrite32((adapter), (addr), (val))
++#endif /* CONFIG_SDIO_INDIRECT_ACCESS */
++#endif /* CONFIG_SDIO_HCI */
++
++#endif /* DBG_IO */
++
++extern void rtw_write_scsi(_adapter *adapter, u32 cnt, u8 *pmem);
++
++/* ioreq */
++extern void ioreq_read8(_adapter *adapter, u32 addr, u8 *pval);
++extern void ioreq_read16(_adapter *adapter, u32 addr, u16 *pval);
++extern void ioreq_read32(_adapter *adapter, u32 addr, u32 *pval);
++extern void ioreq_write8(_adapter *adapter, u32 addr, u8 val);
++extern void ioreq_write16(_adapter *adapter, u32 addr, u16 val);
++extern void ioreq_write32(_adapter *adapter, u32 addr, u32 val);
++
++
++extern uint async_read8(_adapter *adapter, u32 addr, u8 *pbuff,
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt), u8 *cnxt);
++extern uint async_read16(_adapter *adapter, u32 addr,  u8 *pbuff,
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt), u8 *cnxt);
++extern uint async_read32(_adapter *adapter, u32 addr,  u8 *pbuff,
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt), u8 *cnxt);
++
++extern void async_read_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++extern void async_read_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++
++extern void async_write8(_adapter *adapter, u32 addr, u8 val,
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt), u8 *cnxt);
++extern void async_write16(_adapter *adapter, u32 addr, u16 val,
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt), u8 *cnxt);
++extern void async_write32(_adapter *adapter, u32 addr, u32 val,
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt), u8 *cnxt);
++
++extern void async_write_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++extern void async_write_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++
++
++int rtw_init_io_priv(_adapter *padapter, void (*set_intf_ops)(_adapter *padapter, struct _io_ops *pops));
++
++
++extern uint alloc_io_queue(_adapter *adapter);
++extern void free_io_queue(_adapter *adapter);
++extern void async_bus_io(struct io_queue *pio_q);
++extern void bus_sync_io(struct io_queue *pio_q);
++extern u32 _ioreq2rwmem(struct io_queue *pio_q);
++extern void dev_power_down(_adapter *Adapter, u8 bpwrup);
++
++/*
++#define RTL_R8(reg)		rtw_read8(padapter, reg)
++#define RTL_R16(reg)            rtw_read16(padapter, reg)
++#define RTL_R32(reg)            rtw_read32(padapter, reg)
++#define RTL_W8(reg, val8)       rtw_write8(padapter, reg, val8)
++#define RTL_W16(reg, val16)     rtw_write16(padapter, reg, val16)
++#define RTL_W32(reg, val32)     rtw_write32(padapter, reg, val32)
++*/
++
++/*
++#define RTL_W8_ASYNC(reg, val8) rtw_write32_async(padapter, reg, val8)
++#define RTL_W16_ASYNC(reg, val16) rtw_write32_async(padapter, reg, val16)
++#define RTL_W32_ASYNC(reg, val32) rtw_write32_async(padapter, reg, val32)
++
++#define RTL_WRITE_BB(reg, val32)	phy_SetUsbBBReg(padapter, reg, val32)
++#define RTL_READ_BB(reg)	phy_QueryUsbBBReg(padapter, reg)
++*/
++
++#define PlatformEFIOWrite1Byte(_a, _b, _c)		\
++	rtw_write8(_a, _b, _c)
++#define PlatformEFIOWrite2Byte(_a, _b, _c)		\
++	rtw_write16(_a, _b, _c)
++#define PlatformEFIOWrite4Byte(_a, _b, _c)		\
++	rtw_write32(_a, _b, _c)
++
++#define PlatformEFIORead1Byte(_a, _b)		\
++	rtw_read8(_a, _b)
++#define PlatformEFIORead2Byte(_a, _b)		\
++	rtw_read16(_a, _b)
++#define PlatformEFIORead4Byte(_a, _b)		\
++	rtw_read32(_a, _b)
++
++#endif /* _RTL8711_IO_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_ioctl.h b/drivers/net/wireless/rtl8723du/include/rtw_ioctl.h
+new file mode 100644
+index 0000000..b981bf0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_ioctl.h
+@@ -0,0 +1,317 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_IOCTL_H_
++#define _RTW_IOCTL_H_
++
++#ifndef PLATFORM_WINDOWS
++/*	00 - Success
++*	11 - Error */
++#define STATUS_SUCCESS				(0x00000000L)
++#define STATUS_PENDING				(0x00000103L)
++
++#define STATUS_UNSUCCESSFUL			(0xC0000001L)
++#define STATUS_INSUFFICIENT_RESOURCES		(0xC000009AL)
++#define STATUS_NOT_SUPPORTED			(0xC00000BBL)
++
++#define NDIS_STATUS_SUCCESS			((NDIS_STATUS)STATUS_SUCCESS)
++#define NDIS_STATUS_PENDING			((NDIS_STATUS)STATUS_PENDING)
++#define NDIS_STATUS_NOT_RECOGNIZED		((NDIS_STATUS)0x00010001L)
++#define NDIS_STATUS_NOT_COPIED			((NDIS_STATUS)0x00010002L)
++#define NDIS_STATUS_NOT_ACCEPTED		((NDIS_STATUS)0x00010003L)
++#define NDIS_STATUS_CALL_ACTIVE			((NDIS_STATUS)0x00010007L)
++
++#define NDIS_STATUS_FAILURE			((NDIS_STATUS)STATUS_UNSUCCESSFUL)
++#define NDIS_STATUS_RESOURCES			((NDIS_STATUS)STATUS_INSUFFICIENT_RESOURCES)
++#define NDIS_STATUS_CLOSING			((NDIS_STATUS)0xC0010002L)
++#define NDIS_STATUS_BAD_VERSION			((NDIS_STATUS)0xC0010004L)
++#define NDIS_STATUS_BAD_CHARACTERISTICS		((NDIS_STATUS)0xC0010005L)
++#define NDIS_STATUS_ADAPTER_NOT_FOUND		((NDIS_STATUS)0xC0010006L)
++#define NDIS_STATUS_OPEN_FAILED			((NDIS_STATUS)0xC0010007L)
++#define NDIS_STATUS_DEVICE_FAILED		((NDIS_STATUS)0xC0010008L)
++#define NDIS_STATUS_MULTICAST_FULL		((NDIS_STATUS)0xC0010009L)
++#define NDIS_STATUS_MULTICAST_EXISTS		((NDIS_STATUS)0xC001000AL)
++#define NDIS_STATUS_MULTICAST_NOT_FOUND		((NDIS_STATUS)0xC001000BL)
++#define NDIS_STATUS_REQUEST_ABORTED		((NDIS_STATUS)0xC001000CL)
++#define NDIS_STATUS_RESET_IN_PROGRESS		((NDIS_STATUS)0xC001000DL)
++#define NDIS_STATUS_CLOSING_INDICATING		((NDIS_STATUS)0xC001000EL)
++#define NDIS_STATUS_NOT_SUPPORTED		((NDIS_STATUS)STATUS_NOT_SUPPORTED)
++#define NDIS_STATUS_INVALID_PACKET		((NDIS_STATUS)0xC001000FL)
++#define NDIS_STATUS_OPEN_LIST_FULL		((NDIS_STATUS)0xC0010010L)
++#define NDIS_STATUS_ADAPTER_NOT_READY		((NDIS_STATUS)0xC0010011L)
++#define NDIS_STATUS_ADAPTER_NOT_OPEN		((NDIS_STATUS)0xC0010012L)
++#define NDIS_STATUS_NOT_INDICATING		((NDIS_STATUS)0xC0010013L)
++#define NDIS_STATUS_INVALID_LENGTH		((NDIS_STATUS)0xC0010014L)
++#define NDIS_STATUS_INVALID_DATA		((NDIS_STATUS)0xC0010015L)
++#define NDIS_STATUS_BUFFER_TOO_SHORT		((NDIS_STATUS)0xC0010016L)
++#define NDIS_STATUS_INVALID_OID			((NDIS_STATUS)0xC0010017L)
++#define NDIS_STATUS_ADAPTER_REMOVED		((NDIS_STATUS)0xC0010018L)
++#define NDIS_STATUS_UNSUPPORTED_MEDIA		((NDIS_STATUS)0xC0010019L)
++#define NDIS_STATUS_GROUP_ADDRESS_IN_USE	((NDIS_STATUS)0xC001001AL)
++#define NDIS_STATUS_FILE_NOT_FOUND		((NDIS_STATUS)0xC001001BL)
++#define NDIS_STATUS_ERROR_READING_FILE		((NDIS_STATUS)0xC001001CL)
++#define NDIS_STATUS_ALREADY_MAPPED		((NDIS_STATUS)0xC001001DL)
++#define NDIS_STATUS_RESOURCE_CONFLICT		((NDIS_STATUS)0xC001001EL)
++#define NDIS_STATUS_NO_CABLE			((NDIS_STATUS)0xC001001FL)
++
++#define NDIS_STATUS_INVALID_SAP			((NDIS_STATUS)0xC0010020L)
++#define NDIS_STATUS_SAP_IN_USE			((NDIS_STATUS)0xC0010021L)
++#define NDIS_STATUS_INVALID_ADDRESS		((NDIS_STATUS)0xC0010022L)
++#define NDIS_STATUS_VC_NOT_ACTIVATED		((NDIS_STATUS)0xC0010023L)
++#define NDIS_STATUS_DEST_OUT_OF_ORDER		((NDIS_STATUS)0xC0010024L)  /* cause 27 */
++#define NDIS_STATUS_VC_NOT_AVAILABLE		((NDIS_STATUS)0xC0010025L)  /* cause 35, 45 */
++#define NDIS_STATUS_CELLRATE_NOT_AVAILABLE	((NDIS_STATUS)0xC0010026L)  /* cause 37 */
++#define NDIS_STATUS_INCOMPATABLE_QOS		((NDIS_STATUS)0xC0010027L)  /* cause 49 */
++#define NDIS_STATUS_AAL_PARAMS_UNSUPPORTED	((NDIS_STATUS)0xC0010028L)  /* cause 93 */
++#define NDIS_STATUS_NO_ROUTE_TO_DESTINATION	((NDIS_STATUS)0xC0010029L)  /* cause 3 */
++#endif /* #ifndef PLATFORM_WINDOWS */
++
++
++#ifndef OID_802_11_CAPABILITY
++	#define OID_802_11_CAPABILITY                   0x0d010122
++#endif
++
++#ifndef OID_802_11_PMKID
++	#define OID_802_11_PMKID                        0x0d010123
++#endif
++
++
++/* For DDK-defined OIDs */
++#define OID_NDIS_SEG1	0x00010100
++#define OID_NDIS_SEG2	0x00010200
++#define OID_NDIS_SEG3	0x00020100
++#define OID_NDIS_SEG4	0x01010100
++#define OID_NDIS_SEG5	0x01020100
++#define OID_NDIS_SEG6	0x01020200
++#define OID_NDIS_SEG7	0xFD010100
++#define OID_NDIS_SEG8	0x0D010100
++#define OID_NDIS_SEG9	0x0D010200
++#define OID_NDIS_SEG10	0x0D020200
++
++#define SZ_OID_NDIS_SEG1		  23
++#define SZ_OID_NDIS_SEG2		    3
++#define SZ_OID_NDIS_SEG3		    6
++#define SZ_OID_NDIS_SEG4		    6
++#define SZ_OID_NDIS_SEG5		    4
++#define SZ_OID_NDIS_SEG6		    8
++#define SZ_OID_NDIS_SEG7		    7
++#define SZ_OID_NDIS_SEG8		  36
++#define SZ_OID_NDIS_SEG9		  24
++#define SZ_OID_NDIS_SEG10		  19
++
++/* For Realtek-defined OIDs */
++#define OID_MP_SEG1		0xFF871100
++#define OID_MP_SEG2		0xFF818000
++
++#define OID_MP_SEG3		0xFF818700
++#define OID_MP_SEG4		0xFF011100
++
++enum oid_type {
++	QUERY_OID,
++	SET_OID
++};
++
++struct oid_funs_node {
++	unsigned int oid_start; /* the starting number for OID */
++	unsigned int oid_end; /* the ending number for OID */
++	struct oid_obj_priv *node_array;
++	unsigned int array_sz; /* the size of node_array */
++	int query_counter; /* count the number of query hits for this segment  */
++	int set_counter; /* count the number of set hits for this segment  */
++};
++
++struct oid_par_priv {
++	void		*adapter_context;
++	NDIS_OID	oid;
++	void		*information_buf;
++	u32		information_buf_len;
++	u32		*bytes_rw;
++	u32		*bytes_needed;
++	enum oid_type	type_of_oid;
++	u32		dbg;
++};
++
++struct oid_obj_priv {
++	unsigned char	dbg; /* 0: without OID debug message  1: with OID debug message */
++	NDIS_STATUS(*oidfuns)(struct oid_par_priv *poid_par_priv);
++};
++
++#if (defined(CONFIG_MP_INCLUDED) && defined(_RTW_MP_IOCTL_C_)) || \
++	(defined(PLATFORM_WINDOWS) && defined(_RTW_IOCTL_RTL_C_))
++static NDIS_STATUS oid_null_function(struct oid_par_priv *poid_par_priv)
++{
++	return NDIS_STATUS_SUCCESS;
++}
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++int TranslateNdisPsToRtPs(IN NDIS_802_11_POWER_MODE	ndisPsMode);
++
++/* OID Handler for Segment 1 */
++NDIS_STATUS oid_gen_supported_list_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_hardware_status_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_media_supported_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_media_in_use_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_maximum_lookahead_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_maximum_frame_size_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_link_speed_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_transmit_buffer_space_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_receive_buffer_space_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_transmit_block_size_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_receive_block_size_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_vendor_id_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_vendor_description_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_current_packet_filter_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_current_lookahead_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_driver_version_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_maximum_total_size_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_protocol_options_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_mac_options_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_media_connect_status_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_maximum_send_packets_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_vendor_driver_version_hdl(struct oid_par_priv *poid_par_priv);
++
++
++/* OID Handler for Segment 2 */
++NDIS_STATUS oid_gen_physical_medium_hdl(struct oid_par_priv *poid_par_priv);
++
++/* OID Handler for Segment 3 */
++NDIS_STATUS oid_gen_xmit_ok_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_rcv_ok_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_xmit_error_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_rcv_error_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_rcv_no_buffer_hdl(struct oid_par_priv *poid_par_priv);
++
++
++/* OID Handler for Segment 4 */
++NDIS_STATUS oid_802_3_permanent_address_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_current_address_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_multicast_list_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_maximum_list_size_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_mac_options_hdl(struct oid_par_priv *poid_par_priv);
++
++
++
++/* OID Handler for Segment 5 */
++NDIS_STATUS oid_802_3_rcv_error_alignment_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_one_collision_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_more_collisions_hdl(struct oid_par_priv *poid_par_priv);
++
++
++/* OID Handler for Segment 6 */
++NDIS_STATUS oid_802_3_xmit_deferred_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_max_collisions_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_rcv_overrun_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_underrun_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_heartbeat_failure_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_times_crs_lost_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_late_collisions_hdl(struct oid_par_priv *poid_par_priv);
++
++
++
++/* OID Handler for Segment 7 */
++NDIS_STATUS oid_pnp_capabilities_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_pnp_set_power_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_pnp_query_power_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_pnp_add_wake_up_pattern_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_pnp_remove_wake_up_pattern_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_pnp_wake_up_pattern_list_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_pnp_enable_wake_up_hdl(struct oid_par_priv *poid_par_priv);
++
++
++
++/* OID Handler for Segment 8 */
++NDIS_STATUS oid_802_11_bssid_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_ssid_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_infrastructure_mode_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_add_wep_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_remove_wep_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_disassociate_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_authentication_mode_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_privacy_filter_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_bssid_list_scan_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_encryption_status_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_reload_defaults_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_add_key_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_remove_key_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_association_information_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_test_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_media_stream_mode_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_capability_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_pmkid_hdl(struct oid_par_priv *poid_par_priv);
++
++
++
++
++
++/* OID Handler for Segment 9 */
++NDIS_STATUS oid_802_11_network_types_supported_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_network_type_in_use_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_tx_power_level_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_rssi_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_rssi_trigger_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_fragmentation_threshold_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_rts_threshold_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_number_of_antennas_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_rx_antenna_selected_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_tx_antenna_selected_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_supported_rates_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_desired_rates_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_configuration_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_power_mode_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_bssid_list_hdl(struct oid_par_priv *poid_par_priv);
++
++
++/* OID Handler for Segment 10 */
++NDIS_STATUS oid_802_11_statistics_hdl(struct oid_par_priv *poid_par_priv);
++
++
++/* OID Handler for Segment ED */
++NDIS_STATUS oid_rt_mh_vender_id_hdl(struct oid_par_priv *poid_par_priv);
++
++void Set_802_3_MULTICAST_LIST(ADAPTER *pAdapter, UCHAR *MCListbuf, ULONG MCListlen, BOOLEAN bAcceptAllMulticast);
++
++#endif/* end of PLATFORM_WINDOWS */
++
++#if defined(PLATFORM_LINUX) && defined(CONFIG_WIRELESS_EXT)
++extern struct iw_handler_def  rtw_handlers_def;
++#endif
++
++extern void rtw_request_wps_pbc_event(_adapter *padapter);
++
++extern	NDIS_STATUS drv_query_info(
++	IN	_nic_hdl		MiniportAdapterContext,
++	IN	NDIS_OID		Oid,
++	IN	void			*InformationBuffer,
++	IN	u32			InformationBufferLength,
++	OUT	u32			*BytesWritten,
++	OUT	u32			*BytesNeeded
++);
++
++extern	NDIS_STATUS	drv_set_info(
++	IN	_nic_hdl		MiniportAdapterContext,
++	IN	NDIS_OID		Oid,
++	IN	void			*InformationBuffer,
++	IN	u32			InformationBufferLength,
++	OUT	u32			*BytesRead,
++	OUT	u32			*BytesNeeded
++);
++
++#endif /*  #ifndef __INC_CEINFO_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_ioctl_query.h b/drivers/net/wireless/rtl8723du/include/rtw_ioctl_query.h
+new file mode 100644
+index 0000000..a74d13d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_ioctl_query.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_IOCTL_QUERY_H_
++#define _RTW_IOCTL_QUERY_H_
++
++
++#ifdef PLATFORM_WINDOWS
++u8 query_802_11_capability(_adapter	*padapter, u8 *pucBuf, u32 *pulOutLen);
++u8 query_802_11_association_information(_adapter *padapter, PNDIS_802_11_ASSOCIATION_INFORMATION pAssocInfo);
++#endif
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_ioctl_rtl.h b/drivers/net/wireless/rtl8723du/include/rtw_ioctl_rtl.h
+new file mode 100644
+index 0000000..ddf798f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_ioctl_rtl.h
+@@ -0,0 +1,80 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_IOCTL_RTL_H_
++#define _RTW_IOCTL_RTL_H_
++
++
++/* ************** oid_rtl_seg_01_01 ************** */
++NDIS_STATUS oid_rt_get_signal_quality_hdl(struct oid_par_priv *poid_par_priv);/* 84 */
++NDIS_STATUS oid_rt_get_small_packet_crc_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_middle_packet_crc_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_large_packet_crc_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_tx_retry_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_rx_retry_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_rx_total_packet_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_tx_beacon_ok_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_tx_beacon_err_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_set_fw_dig_state_hdl(struct oid_par_priv *poid_par_priv);	/* 8a */
++NDIS_STATUS oid_rt_pro_set_fw_ra_state_hdl(struct oid_par_priv *poid_par_priv);	/* 8b */
++
++NDIS_STATUS oid_rt_get_rx_icv_err_hdl(struct oid_par_priv *poid_par_priv);/* 93 */
++NDIS_STATUS oid_rt_set_encryption_algorithm_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_preamble_mode_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_ap_ip_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_channelplan_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_set_channelplan_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_set_preamble_mode_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_set_bcn_intvl_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_dedicate_probe_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_total_tx_bytes_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_total_rx_bytes_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_current_tx_power_level_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_enc_key_mismatch_count_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_enc_key_match_count_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_channel_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_hardware_radio_off_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_key_mismatch_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_supported_wireless_mode_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_channel_list_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_scan_in_progress_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_forced_data_rate_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_wireless_mode_for_scan_list_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_bss_wireless_mode_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_scan_with_magic_packet_hdl(struct oid_par_priv *poid_par_priv);
++
++/* **************  oid_rtl_seg_01_03 section start ************** */
++NDIS_STATUS oid_rt_ap_get_associated_station_list_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_ap_switch_into_ap_mode_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_ap_supported_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_ap_set_passphrase_hdl(struct oid_par_priv *poid_par_priv);
++
++/* oid_rtl_seg_01_11 */
++NDIS_STATUS oid_rt_pro_rf_write_registry_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_rf_read_registry_hdl(struct oid_par_priv *poid_par_priv);
++
++/* **************  oid_rtl_seg_03_00 section start **************  */
++NDIS_STATUS oid_rt_get_connect_state_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_set_default_key_id_hdl(struct oid_par_priv *poid_par_priv);
++
++
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_ioctl_set.h b/drivers/net/wireless/rtl8723du/include/rtw_ioctl_set.h
+new file mode 100644
+index 0000000..1f87214
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_ioctl_set.h
+@@ -0,0 +1,75 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_IOCTL_SET_H_
++#define __RTW_IOCTL_SET_H_
++
++
++typedef u8 NDIS_802_11_PMKID_VALUE[16];
++
++typedef struct _BSSIDInfo {
++	NDIS_802_11_MAC_ADDRESS  BSSID;
++	NDIS_802_11_PMKID_VALUE  PMKID;
++} BSSIDInfo, *PBSSIDInfo;
++
++
++#ifdef PLATFORM_OS_XP
++typedef struct _NDIS_802_11_PMKID {
++	u32	Length;
++	u32	BSSIDInfoCount;
++	BSSIDInfo BSSIDInfo[1];
++} NDIS_802_11_PMKID, *PNDIS_802_11_PMKID;
++#endif
++
++
++#ifdef PLATFORM_WINDOWS
++u8 rtw_set_802_11_reload_defaults(_adapter *padapter, NDIS_802_11_RELOAD_DEFAULTS reloadDefaults);
++u8 rtw_set_802_11_test(_adapter *padapter, NDIS_802_11_TEST *test);
++u8 rtw_set_802_11_pmkid(_adapter *pdapter, NDIS_802_11_PMKID *pmkid);
++
++u8 rtw_pnp_set_power_sleep(_adapter *padapter);
++u8 rtw_pnp_set_power_wakeup(_adapter *padapter);
++
++void rtw_pnp_resume_wk(void *context);
++void rtw_pnp_sleep_wk(void *context);
++
++#endif
++
++u8 rtw_set_802_11_add_key(_adapter *padapter, NDIS_802_11_KEY *key);
++u8 rtw_set_802_11_authentication_mode(_adapter *pdapter, NDIS_802_11_AUTHENTICATION_MODE authmode);
++u8 rtw_set_802_11_bssid(_adapter *padapter, u8 *bssid);
++u8 rtw_set_802_11_add_wep(_adapter *padapter, NDIS_802_11_WEP *wep);
++u8 rtw_set_802_11_disassociate(_adapter *padapter);
++u8 rtw_set_802_11_bssid_list_scan(_adapter *padapter, NDIS_802_11_SSID *pssid, int ssid_max_num, struct rtw_ieee80211_channel *ch, int ch_num);
++u8 rtw_set_802_11_infrastructure_mode(_adapter *padapter, NDIS_802_11_NETWORK_INFRASTRUCTURE networktype);
++u8 rtw_set_802_11_remove_wep(_adapter *padapter, u32 keyindex);
++u8 rtw_set_802_11_ssid(_adapter *padapter, NDIS_802_11_SSID *ssid);
++u8 rtw_set_802_11_connect(_adapter *padapter, u8 *bssid, NDIS_802_11_SSID *ssid);
++u8 rtw_set_802_11_remove_key(_adapter *padapter, NDIS_802_11_REMOVE_KEY *key);
++
++u8 rtw_validate_bssid(u8 *bssid);
++u8 rtw_validate_ssid(NDIS_802_11_SSID *ssid);
++
++u16 rtw_get_cur_max_rate(_adapter *adapter);
++int rtw_set_scan_mode(_adapter *adapter, RT_SCAN_TYPE scan_mode);
++int rtw_set_channel_plan(_adapter *adapter, u8 channel_plan);
++int rtw_set_country(_adapter *adapter, const char *country_code);
++int rtw_set_band(_adapter *adapter, u8 band);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_iol.h b/drivers/net/wireless/rtl8723du/include/rtw_iol.h
+new file mode 100644
+index 0000000..b68a525
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_iol.h
+@@ -0,0 +1,136 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_IOL_H_
++#define __RTW_IOL_H_
++
++
++struct xmit_frame	*rtw_IOL_accquire_xmit_frame(ADAPTER *adapter);
++int rtw_IOL_append_cmds(struct xmit_frame *xmit_frame, u8 *IOL_cmds, u32 cmd_len);
++int rtw_IOL_append_LLT_cmd(struct xmit_frame *xmit_frame, u8 page_boundary);
++int rtw_IOL_exec_cmds_sync(ADAPTER *adapter, struct xmit_frame *xmit_frame, u32 max_wating_ms, u32 bndy_cnt);
++bool rtw_IOL_applied(ADAPTER *adapter);
++int rtw_IOL_append_DELAY_US_cmd(struct xmit_frame *xmit_frame, u16 us);
++int rtw_IOL_append_DELAY_MS_cmd(struct xmit_frame *xmit_frame, u16 ms);
++int rtw_IOL_append_END_cmd(struct xmit_frame *xmit_frame);
++
++
++#ifdef CONFIG_IOL_NEW_GENERATION
++#define IOREG_CMD_END_LEN	4
++
++struct ioreg_cfg {
++	u8	length;
++	u8	cmd_id;
++	u16	address;
++	u32	data;
++	u32  mask;
++};
++enum ioreg_cmd {
++	IOREG_CMD_LLT			= 0x01,
++	IOREG_CMD_REFUSE		= 0x02,
++	IOREG_CMD_EFUSE_PATH = 0x03,
++	IOREG_CMD_WB_REG		= 0x04,
++	IOREG_CMD_WW_REG	= 0x05,
++	IOREG_CMD_WD_REG	= 0x06,
++	IOREG_CMD_W_RF		= 0x07,
++	IOREG_CMD_DELAY_US	= 0x10,
++	IOREG_CMD_DELAY_MS	= 0x11,
++	IOREG_CMD_END		= 0xFF,
++};
++void read_efuse_from_txpktbuf(ADAPTER *adapter, int bcnhead, u8 *content, u16 *size);
++
++int _rtw_IOL_append_WB_cmd(struct xmit_frame *xmit_frame, u16 addr, u8 value, u8 mask);
++int _rtw_IOL_append_WW_cmd(struct xmit_frame *xmit_frame, u16 addr, u16 value, u16 mask);
++int _rtw_IOL_append_WD_cmd(struct xmit_frame *xmit_frame, u16 addr, u32 value, u32 mask);
++int _rtw_IOL_append_WRF_cmd(struct xmit_frame *xmit_frame, u8 rf_path, u16 addr, u32 value, u32 mask);
++#define rtw_IOL_append_WB_cmd(xmit_frame, addr, value, mask) _rtw_IOL_append_WB_cmd((xmit_frame), (addr), (value), (mask))
++#define rtw_IOL_append_WW_cmd(xmit_frame, addr, value, mask) _rtw_IOL_append_WW_cmd((xmit_frame), (addr), (value), (mask))
++#define rtw_IOL_append_WD_cmd(xmit_frame, addr, value, mask) _rtw_IOL_append_WD_cmd((xmit_frame), (addr), (value), (mask))
++#define rtw_IOL_append_WRF_cmd(xmit_frame, rf_path, addr, value, mask) _rtw_IOL_append_WRF_cmd((xmit_frame), (rf_path), (addr), (value), (mask))
++
++u8 rtw_IOL_cmd_boundary_handle(struct xmit_frame *pxmit_frame);
++void  rtw_IOL_cmd_buf_dump(ADAPTER *Adapter, int buf_len, u8 *pbuf);
++
++#ifdef CONFIG_IOL_IOREG_CFG_DBG
++struct cmd_cmp {
++	u16 addr;
++	u32 value;
++};
++#endif
++
++#else /* CONFIG_IOL_NEW_GENERATION */
++
++typedef struct _io_offload_cmd {
++	u8 rsvd0;
++	u8 cmd;
++	u16 address;
++	u32 value;
++} IO_OFFLOAD_CMD, IOL_CMD;
++
++#define IOL_CMD_LLT			0x00
++/* #define IOL_CMD_R_EFUSE	0x01 */
++#define IOL_CMD_WB_REG		0x02
++#define IOL_CMD_WW_REG	0x03
++#define IOL_CMD_WD_REG		0x04
++/* #define IOL_CMD_W_RF		0x05 */
++#define IOL_CMD_DELAY_US	0x80
++#define IOL_CMD_DELAY_MS	0x81
++/* #define IOL_CMD_DELAY_S	0x82 */
++#define IOL_CMD_END			0x83
++
++/*****************************************************
++CMD					Address			Value
++(B1)					(B2/B3:H/L addr)	(B4:B7 : MSB:LSB)
++******************************************************
++IOL_CMD_LLT			-				B7: PGBNDY
++IOL_CMD_R_EFUSE	-				-
++IOL_CMD_WB_REG		0x0~0xFFFF		B7
++IOL_CMD_WW_REG	0x0~0xFFFF		B6~B7
++IOL_CMD_WD_REG	0x0~0xFFFF		B4~B7
++IOL_CMD_W_RF		RF Reg			B5~B7
++IOL_CMD_DELAY_US	-				B6~B7
++IOL_CMD_DELAY_MS	-				B6~B7
++IOL_CMD_DELAY_S	-				B6~B7
++IOL_CMD_END		-				-
++******************************************************/
++int _rtw_IOL_append_WB_cmd(struct xmit_frame *xmit_frame, u16 addr, u8 value);
++int _rtw_IOL_append_WW_cmd(struct xmit_frame *xmit_frame, u16 addr, u16 value);
++int _rtw_IOL_append_WD_cmd(struct xmit_frame *xmit_frame, u16 addr, u32 value);
++
++
++int rtw_IOL_exec_cmd_array_sync(PADAPTER adapter, u8 *IOL_cmds, u32 cmd_num, u32 max_wating_ms);
++int rtw_IOL_exec_empty_cmds_sync(ADAPTER *adapter, u32 max_wating_ms);
++
++#ifdef DBG_IO
++int dbg_rtw_IOL_append_WB_cmd(struct xmit_frame *xmit_frame, u16 addr, u8 value, const char *caller, const int line);
++int dbg_rtw_IOL_append_WW_cmd(struct xmit_frame *xmit_frame, u16 addr, u16 value, const char *caller, const int line);
++int dbg_rtw_IOL_append_WD_cmd(struct xmit_frame *xmit_frame, u16 addr, u32 value, const char *caller, const int line);
++#define rtw_IOL_append_WB_cmd(xmit_frame, addr, value) dbg_rtw_IOL_append_WB_cmd((xmit_frame), (addr), (value), __FUNCTION__, __LINE__)
++#define rtw_IOL_append_WW_cmd(xmit_frame, addr, value) dbg_rtw_IOL_append_WW_cmd((xmit_frame), (addr), (value), __FUNCTION__, __LINE__)
++#define rtw_IOL_append_WD_cmd(xmit_frame, addr, value) dbg_rtw_IOL_append_WD_cmd((xmit_frame), (addr), (value), __FUNCTION__, __LINE__)
++#else
++#define rtw_IOL_append_WB_cmd(xmit_frame, addr, value) _rtw_IOL_append_WB_cmd((xmit_frame), (addr), (value))
++#define rtw_IOL_append_WW_cmd(xmit_frame, addr, value) _rtw_IOL_append_WW_cmd((xmit_frame), (addr), (value))
++#define rtw_IOL_append_WD_cmd(xmit_frame, addr, value) _rtw_IOL_append_WD_cmd((xmit_frame), (addr), (value))
++#endif /* DBG_IO */
++#endif /* CONFIG_IOL_NEW_GENERATION */
++
++
++
++#endif /* __RTW_IOL_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_mcc.h b/drivers/net/wireless/rtl8723du/include/rtw_mcc.h
+new file mode 100644
+index 0000000..177dae3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_mcc.h
+@@ -0,0 +1,207 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ ******************************************************************************/
++#ifdef CONFIG_MCC_MODE
++
++#ifndef _RTW_MCC_H_
++#define _RTW_MCC_H_
++
++#include <drv_types.h> /* PADAPTER */
++
++#define MCC_STATUS_PROCESS_MCC_START_SETTING BIT0
++#define MCC_STATUS_PROCESS_MCC_STOP_SETTING BIT1
++#define MCC_STATUS_NEED_MCC BIT2
++#define MCC_STATUS_DOING_MCC BIT3
++
++
++#define MCC_DURATION 35 /* ms */
++#define MCC_SWCH_FW_EARLY_TIME 10 /* ms */
++#define MCC_EXPIRE_TIME 50 /* ms */
++#define MCC_TOLERANCE_TIME 2 /* 2*2 = 4s */
++
++#define MCC_ROLE_STA_GC_MGMT_QUEUE_MACID 0
++#define MCC_ROLE_SOFTAP_GO_MGMT_QUEUE_MACID 1
++
++/* Lower for stop, Higher for start */
++#define MCC_SETCMD_STATUS_STOP_DISCONNECT 0x0
++#define MCC_SETCMD_STATUS_STOP_SCAN_START 0x1
++#define MCC_SETCMD_STATUS_START_CONNECT 0x80
++#define MCC_SETCMD_STATUS_START_SCAN_DONE 0x81
++
++/*
++* depenad platform or customer requirement(TP unit:Mbps),
++* must be provided by PM or sales or product document
++* too large value means not to limit tx bytes (current for ap mode)
++* NOTE: following values ref from test results
++*/
++#define MCC_AP_BW20_TARGET_TX_TP (300)
++#define MCC_AP_BW40_TARGET_TX_TP (300)
++#define MCC_AP_BW80_TARGET_TX_TP (300)
++#define MCC_STA_BW20_TARGET_TX_TP (35)
++#define MCC_STA_BW40_TARGET_TX_TP (70)
++#define MCC_STA_BW80_TARGET_TX_TP (140)
++#define MCC_SINGLE_TX_CRITERIA 5 /* Mbps */
++
++#define MAX_MCC_NUM 2
++
++#define MCC_STOP(adapter) (adapter->mcc_adapterpriv.mcc_tx_stop)
++#define MCC_EN(adapter) (adapter->registrypriv.en_mcc)
++
++/* Represent Channel Tx Null setting */
++enum mcc_channel_tx_null {
++	MCC_ENABLE_TX_NULL = 0,
++	MCC_DISABLE_TX_NULL = 1,
++};
++
++/* Represent C2H Report setting */
++enum mcc_c2h_report {
++	MCC_C2H_REPORT_DISABLE = 0,
++	MCC_C2H_REPORT_FAIL_STATUS = 1,
++	MCC_C2H_REPORT_ALL_STATUS = 2,
++};
++
++/* Represent Channel Scan */
++enum mcc_channel_scan {
++	MCC_CHIDX = 0,
++	MCC_SCANCH_RSVD_LOC = 1,
++};
++
++/* Represent FW status report of channel switch */
++enum mcc_status_rpt {
++	MCC_RPT_SUCCESS = 0,
++	MCC_RPT_TXNULL_FAIL = 1,
++	MCC_RPT_STOPMCC = 2,
++	MCC_RPT_READY = 3,
++	MCC_RPT_SWICH_CHANNEL_NOTIFY = 7,
++	MCC_RPT_MAX,
++};
++
++enum MCC_ROLE {
++	MCC_ROLE_STA = 0,
++	MCC_ROLE_AP = 1,
++	MCC_ROLE_GC = 2,
++	MCC_ROLE_GO = 3,
++	MCC_ROLE_MAX,
++};
++
++struct mcc_iqk_backup {
++	u16 TX_X;
++	u16 TX_Y;
++	u16 RX_X;
++	u16 RX_Y;
++};
++
++/*  mcc data for adapter */
++struct mcc_adapter_priv {
++	u8 order;		/* FW document, softap/AP must be 0 */
++	u8 role;			/* MCC role(AP,STA,GO,GC) */
++	u8 mcc_duration; /* channel stay period, UNIT:1TU */
++
++	/* flow control */
++	u8 mcc_tx_stop;				/* check if tp stop or not */
++	u8 mcc_tp_limit;				/* check if tp limit or not */
++	u32 mcc_target_tx_bytes_to_port;		/* customer require */
++	u32 mcc_tx_bytes_to_port;	/* already tx to tx fifo (write port) */
++
++	/* data from kernel to check if enqueue data or netif stop queue */
++	u32 mcc_tp;
++	u64 mcc_tx_bytes_from_kernel;
++	u64 mcc_last_tx_bytes_from_kernel;
++
++	/* Backup IQK value for MCC */
++	struct mcc_iqk_backup mcc_iqk_arr[MAX_RF_PATH];
++
++	/* mgmt queue macid to avoid RA issue */
++	u8 mgmt_queue_macid;
++
++	/* set macid bitmap to let fw know which macid should be tx pause */
++	/* all interface share total 16 macid */
++	u16 mcc_macid_bitmap;
++};
++
++struct mcc_obj_priv {
++	u8 duration; /* channel stay period, UNIT:1TU */
++	u8 mcc_c2h_status;
++	u8 cur_mcc_success_cnt; /* used for check mcc switch channel success */
++	u8 prev_mcc_success_cnt; /* used for check mcc switch channel success */
++	u8 mcc_tolerance_time; /* used for detect mcc switch channel success */
++	u8 mcc_loc_rsvd_paga[MAX_MCC_NUM];  /* mcc rsvd page */
++	u8 mcc_status; /* mcc status stop or start .... */
++	u32 mcc_launch_time; /* mcc launch time, used for starting detect mcc switch channel success */
++	_mutex mcc_mutex;
++	_lock mcc_lock;
++	PADAPTER iface[MAX_MCC_NUM]; /* by order, use for mcc parameter cmd */
++	struct submit_ctx mcc_sctx;
++};
++
++/* backup IQK val */
++void rtw_hal_mcc_backup_IQK_val(PADAPTER padapter);
++
++/* check mcc status */
++u8 rtw_hal_check_mcc_status(PADAPTER padapter, u8 mcc_status);
++
++/* set mcc status */
++void rtw_hal_set_mcc_status(PADAPTER padapter, u8 mcc_status);
++
++/* clear mcc status */
++void rtw_hal_clear_mcc_status(PADAPTER padapter, u8 mcc_status);
++
++/* dl mcc rsvd page */
++u8 rtw_hal_dl_mcc_fw_rsvd_page(_adapter *adapter, u8 *pframe, u16 *index
++	, u8 tx_desc, u32 page_size, u8 *page_num, u32 *total_pkt_len, RSVDPAGE_LOC *rsvd_page_loc);
++
++/* handle C2H */
++void rtw_hal_mcc_c2h_handler(PADAPTER padapter, u8 buflen, u8 *tmpBuf);
++
++/* switch channel successfully or not */
++void rtw_hal_mcc_sw_status_check(PADAPTER padapter);
++
++/* change some scan flags under site survey */
++u8 rtw_hal_mcc_change_scan_flag(PADAPTER padapter, u8 *ch, u8 *bw, u8 *offset);
++
++/* record data kernel TX to driver to check MCC concurrent TX */
++void rtw_hal_mcc_calc_tx_bytes_from_kernel(PADAPTER padapter, u32 len);
++
++/* record data to port to let driver do flow ctrl */
++void rtw_hal_mcc_calc_tx_bytes_to_port(PADAPTER padapter, u32 len);
++
++/* check stop write port or not */
++u8 rtw_hal_mcc_stop_tx_bytes_to_port(PADAPTER padapter);
++
++u8 rtw_hal_set_mcc_setting_scan_start(PADAPTER padapter);
++
++u8 rtw_hal_set_mcc_setting_scan_complete(PADAPTER padapter);
++
++u8 rtw_hal_set_mcc_setting_start_bss_network(PADAPTER padapter, u8 chbw_grouped);
++
++u8 rtw_hal_set_mcc_setting_disconnect(PADAPTER padapter);
++
++u8 rtw_hal_set_mcc_setting_join_done_chk_ch(PADAPTER padapter);
++
++u8 rtw_hal_set_mcc_setting_chk_start_clnt_join(PADAPTER padapter, u8 *ch, u8 *bw, u8 *offset, u8 chbw_allow);
++
++void rtw_hal_dump_mcc_info(void *sel, struct dvobj_priv *dvobj);
++
++void update_mcc_mgntframe_attrib(_adapter *padapter, struct pkt_attrib *pattrib);
++
++u8 rtw_hal_mcc_link_status_chk(_adapter *padapter, const char *msg);
++
++void rtw_hal_mcc_issue_null_data(_adapter *padapter, u8 chbw_allow, u8 ps_mode);
++
++#endif /* _RTW_MCC_H_ */
++#endif /* CONFIG_MCC_MODE */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_mem.h b/drivers/net/wireless/rtl8723du/include/rtw_mem.h
+new file mode 100644
+index 0000000..ae6049f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_mem.h
+@@ -0,0 +1,41 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_MEM_H__
++#define __RTW_MEM_H__
++
++#include <drv_conf.h>
++#include <basic_types.h>
++#include <osdep_service.h>
++
++#ifdef CONFIG_PLATFORM_MSTAR_HIGH
++	#define MAX_RTKM_RECVBUF_SZ (31744) /* 31k */
++#else
++	#define MAX_RTKM_RECVBUF_SZ (15360) /* 15k */
++#endif /* CONFIG_PLATFORM_MSTAR_HIGH */
++#define MAX_RTKM_NR_PREALLOC_RECV_SKB 16
++
++u16 rtw_rtkm_get_buff_size(void);
++u8 rtw_rtkm_get_nr_recv_skb(void);
++struct u8 *rtw_alloc_revcbuf_premem(void);
++struct sk_buff *rtw_alloc_skb_premem(u16 in_size);
++int rtw_free_skb_premem(struct sk_buff *pskb);
++
++
++#endif /* __RTW_MEM_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_mi.h b/drivers/net/wireless/rtl8723du/include/rtw_mi.h
+new file mode 100644
+index 0000000..06f020a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_mi.h
+@@ -0,0 +1,201 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_MI_H_
++#define __RTW_MI_H_
++
++void rtw_mi_update_union_chan_inf(_adapter *adapter, u8 ch, u8 offset , u8 bw);
++int rtw_mi_get_ch_setting_union(_adapter *adapter, u8 *ch, u8 *bw, u8 *offset);
++int rtw_mi_get_ch_setting_union_no_self(_adapter *adapter, u8 *ch, u8 *bw, u8 *offset);
++
++void rtw_mi_status(_adapter *adapter, u8 *sta_num, u8 *ld_sta_num, u8 *lg_sta_num
++	, u8 *ap_num, u8 *ld_ap_num, u8 *uw_num);
++void rtw_mi_status_no_self(_adapter *adapter, u8 *sta_num, u8 *ld_sta_num, u8 *lg_sta_num
++	, u8 *ap_num, u8 *ld_ap_num, u8 *uw_num);
++
++void rtw_mi_update_iface_status(struct mlme_priv *pmlmepriv, sint state);
++
++u8 rtw_mi_mp_mode_check(_adapter *padapter);
++
++#ifdef CONFIG_CONCURRENT_MODE
++#define UNDER_SURVEY_T1	1 /*buddy under suvey*/
++#define UNDER_SURVEY_T2	2 /*buddy under suvey by scan_request*/
++u8 rtw_mi_buddy_under_survey(_adapter *padapter);
++void  rtw_mi_buddy_indicate_scan_done(_adapter *padapter, bool bscan_aborted);
++#endif
++
++u8 rtw_mi_netif_stop_queue(_adapter *padapter, bool carrier_off);
++u8 rtw_mi_buddy_netif_stop_queue(_adapter *padapter, bool carrier_off);
++
++u8 rtw_mi_netif_wake_queue(_adapter *padapter);
++u8 rtw_mi_buddy_netif_wake_queue(_adapter *padapter);
++
++u8 rtw_mi_netif_carrier_on(_adapter *padapter);
++u8 rtw_mi_buddy_netif_carrier_on(_adapter *padapter);
++
++void rtw_mi_scan_abort(_adapter *adapter, bool bwait);
++void rtw_mi_buddy_scan_abort(_adapter *adapter, bool bwait);
++void rtw_mi_start_drv_threads(_adapter *adapter);
++void rtw_mi_buddy_start_drv_threads(_adapter *adapter);
++void rtw_mi_stop_drv_threads(_adapter *adapter);
++void rtw_mi_buddy_stop_drv_threads(_adapter *adapter);
++void rtw_mi_cancel_all_timer(_adapter *adapter);
++void rtw_mi_buddy_cancel_all_timer(_adapter *adapter);
++void rtw_mi_reset_drv_sw(_adapter *adapter);
++void rtw_mi_buddy_reset_drv_sw(_adapter *adapter);
++
++extern void rtw_intf_start(_adapter *adapter);
++extern void rtw_intf_stop(_adapter *adapter);
++void rtw_mi_intf_start(_adapter *adapter);
++void rtw_mi_buddy_intf_start(_adapter *adapter);
++void rtw_mi_intf_stop(_adapter *adapter);
++void rtw_mi_buddy_intf_stop(_adapter *adapter);
++
++void rtw_mi_suspend_free_assoc_resource(_adapter *adapter);
++void rtw_mi_buddy_suspend_free_assoc_resource(_adapter *adapter);
++
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++void rtw_mi_set_scan_deny(_adapter *adapter, u32 ms);
++void rtw_mi_buddy_set_scan_deny(_adapter *adapter, u32 ms);
++#else
++#define rtw_mi_set_scan_deny(adapter, ms) do {} while (0)
++#define rtw_mi_buddy_set_scan_deny(adapter, ms) do {} while (0)
++#endif
++
++u8 rtw_mi_is_scan_deny(_adapter *adapter);
++u8 rtw_mi_buddy_is_scan_deny(_adapter *adapter);
++
++u8 rtw_mi_issue_nulldata(_adapter *padapter, unsigned char *da, unsigned int power_mode, int try_cnt, int wait_ms);
++u8 rtw_mi_buddy_issue_nulldata(_adapter *padapter, unsigned char *da, unsigned int power_mode, int try_cnt, int wait_ms);
++
++void rtw_mi_beacon_update(_adapter *padapter);
++void rtw_mi_buddy_beacon_update(_adapter *padapter);
++
++void rtw_mi_hal_dump_macaddr(_adapter *padapter);
++void rtw_mi_buddy_hal_dump_macaddr(_adapter *padapter);
++
++#ifdef CONFIG_PCI_HCI
++void rtw_mi_xmit_tasklet_schedule(_adapter *padapter);
++void rtw_mi_buddy_xmit_tasklet_schedule(_adapter *padapter);
++#endif
++
++u8 rtw_mi_busy_traffic_check(_adapter *padapter, bool check_sc_interval);
++u8 rtw_mi_buddy_busy_traffic_check(_adapter *padapter, bool check_sc_interval);
++
++u8 rtw_mi_check_mlmeinfo_state(_adapter *padapter, u32 state);
++u8 rtw_mi_buddy_check_mlmeinfo_state(_adapter *padapter, u32 state);
++
++u8 rtw_mi_check_fwstate(_adapter *padapter, sint state);
++u8 rtw_mi_buddy_check_fwstate(_adapter *padapter, sint state);
++enum {
++	MI_LINKED,
++	MI_ASSOC,
++	MI_UNDER_WPS,
++	MI_AP_MODE,
++	MI_AP_ASSOC,
++	MI_ADHOC,
++	MI_ADHOC_ASSOC,
++	MI_STA_NOLINK, /* this is misleading, but not used now */
++	MI_STA_LINKED,
++	MI_STA_LINKING,
++};
++u8 rtw_mi_check_status(_adapter *adapter, u8 type);
++#define rtw_mi_get_union_chan(adapter)	adapter_to_dvobj(adapter)->iface_state.union_ch
++#define rtw_mi_get_union_bw(adapter)		adapter_to_dvobj(adapter)->iface_state.union_bw
++#define rtw_mi_get_union_offset(adapter)	adapter_to_dvobj(adapter)->iface_state.union_offset
++
++#define rtw_mi_get_assoced_sta_num(adapter)	adapter_to_dvobj(adapter)->iface_state.ld_sta_num
++#define rtw_mi_get_ap_num(adapter)			adapter_to_dvobj(adapter)->iface_state.ap_num
++#define rtw_mi_get_sta_num(adapter)			adapter_to_dvobj(adapter)->iface_state.sta_num
++
++void dump_dvobj_mi_status(void *sel, const char *fun_name, _adapter *adapter);
++#ifdef DBG_IFACE_STATUS
++#define DBG_IFACE_STATUS_DUMP(adapter)	dump_dvobj_mi_status(RTW_DBGDUMP, __func__, adapter)
++#endif
++void dump_mi_status(void *sel, struct dvobj_priv *dvobj);
++
++u8 rtw_mi_traffic_statistics(_adapter *padapter);
++u8 rtw_mi_check_miracast_enabled(_adapter *padapter);
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++u8 rtw_mi_check_pending_xmitbuf(_adapter *padapter);
++u8 rtw_mi_buddy_check_pending_xmitbuf(_adapter *padapter);
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++#ifdef CONFIG_RTL8822B
++	#include <rtl8822b_hal.h>
++#else
++	extern s32 _dequeue_writeport(PADAPTER padapter);
++#endif
++u8 rtw_mi_dequeue_writeport(_adapter *padapter);
++u8 rtw_mi_buddy_dequeue_writeport(_adapter *padapter);
++#endif
++
++void rtw_mi_adapter_reset(_adapter *padapter);
++void rtw_mi_buddy_adapter_reset(_adapter *padapter);
++
++u8 rtw_mi_dynamic_check_timer_handlder(_adapter *padapter);
++u8 rtw_mi_buddy_dynamic_check_timer_handlder(_adapter *padapter);
++
++u8 rtw_mi_dev_unload(_adapter *padapter);
++u8 rtw_mi_buddy_dev_unload(_adapter *padapter);
++
++extern void dynamic_chk_wk_hdl(_adapter *padapter);
++u8 rtw_mi_dynamic_chk_wk_hdl(_adapter *padapter);
++u8 rtw_mi_buddy_dynamic_chk_wk_hdl(_adapter *padapter);
++
++u8 rtw_mi_os_xmit_schedule(_adapter *padapter);
++u8 rtw_mi_buddy_os_xmit_schedule(_adapter *padapter);
++
++u8 rtw_mi_report_survey_event(_adapter *padapter, union recv_frame *precv_frame);
++u8 rtw_mi_buddy_report_survey_event(_adapter *padapter, union recv_frame *precv_frame);
++
++extern void sreset_start_adapter(_adapter *padapter);
++extern void sreset_stop_adapter(_adapter *padapter);
++u8 rtw_mi_sreset_adapter_hdl(_adapter *padapter, u8 bstart);
++u8 rtw_mi_buddy_sreset_adapter_hdl(_adapter *padapter, u8 bstart);
++
++u8 rtw_mi_tx_beacon_hdl(_adapter *padapter);
++u8 rtw_mi_buddy_tx_beacon_hdl(_adapter *padapter);
++
++u8 rtw_mi_set_tx_beacon_cmd(_adapter *padapter);
++u8 rtw_mi_buddy_set_tx_beacon_cmd(_adapter *padapter);
++
++#ifdef CONFIG_P2P
++u8 rtw_mi_p2p_chk_state(_adapter *padapter, enum P2P_STATE p2p_state);
++u8 rtw_mi_buddy_p2p_chk_state(_adapter *padapter, enum P2P_STATE p2p_state);
++u8 rtw_mi_stay_in_p2p_mode(_adapter *padapter);
++u8 rtw_mi_buddy_stay_in_p2p_mode(_adapter *padapter);
++#endif
++
++_adapter *rtw_get_iface_by_id(_adapter *padapter, u8 iface_id);
++_adapter *rtw_get_iface_by_macddr(_adapter *padapter, u8 *mac_addr);
++_adapter *rtw_get_iface_by_hwport(_adapter *padapter, u8 hw_port);
++
++void rtw_mi_buddy_clone_bcmc_packet(_adapter *padapter, union recv_frame *precvframe, u8 *pphy_status);
++
++#ifdef CONFIG_PCI_HCI
++/*API be create temporary for MI, caller is interrupt-handler, PCIE's interrupt handler cannot apply to multi-AP*/
++_adapter *rtw_mi_get_ap_adapter(_adapter *padapter);
++#endif
++
++void rtw_mi_update_ap_bmc_camid(_adapter *padapter, u8 camid_a, u8 camid_b);
++
++#endif /*__RTW_MI_H_*/
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_mlme.h b/drivers/net/wireless/rtl8723du/include/rtw_mlme.h
+new file mode 100644
+index 0000000..dacc0bf
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_mlme.h
+@@ -0,0 +1,1174 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_MLME_H_
++#define __RTW_MLME_H_
++
++
++#define	MAX_BSS_CNT	128
++/* #define   MAX_JOIN_TIMEOUT	2000 */
++/* #define   MAX_JOIN_TIMEOUT	2500 */
++#define   MAX_JOIN_TIMEOUT	6500
++
++/*	Commented by Albert 20101105
++ *	Increase the scanning timeout because of increasing the SURVEY_TO value. */
++
++#define SCANNING_TIMEOUT 8000
++#ifdef CONFIG_SCAN_BACKOP
++#define CONC_SCANNING_TIMEOUT_SINGLE_BAND 10000
++#define CONC_SCANNING_TIMEOUT_DUAL_BAND 15000
++#endif
++
++#ifdef PALTFORM_OS_WINCE
++#define	SCANQUEUE_LIFETIME 12000000 /* unit:us */
++#else
++#define	SCANQUEUE_LIFETIME 20000 /* 20sec, unit:msec */
++#endif
++
++#define WIFI_NULL_STATE					0x00000000
++#define WIFI_ASOC_STATE					0x00000001 /* Linked */
++#define WIFI_REASOC_STATE				0x00000002
++#define WIFI_SLEEP_STATE				0x00000004
++#define WIFI_STATION_STATE				0x00000008
++#define WIFI_AP_STATE					0x00000010
++#define WIFI_ADHOC_STATE				0x00000020
++#define WIFI_ADHOC_MASTER_STATE			0x00000040
++#define WIFI_UNDER_LINKING				0x00000080
++#define WIFI_UNDER_WPS					0x00000100
++/*#define WIFI_UNDEFINED_STATE			0x00000200*/
++#define WIFI_STA_ALIVE_CHK_STATE		0x00000400
++#define WIFI_SITE_MONITOR				0x00000800 /* under site surveying */
++#define WIFI_WDS						0x00001000
++#define WIFI_WDS_RX_BEACON				0x00002000 /* already rx WDS AP beacon */
++#define WIFI_AUTOCONF					0x00004000
++#define WIFI_AUTOCONF_IND				0x00008000
++#define WIFI_MP_STATE					0x00010000
++#define WIFI_MP_CTX_BACKGROUND			0x00020000 /* in continuous tx background */
++#define WIFI_MP_CTX_ST					0x00040000 /* in continuous tx with single-tone */
++#define WIFI_MP_CTX_BACKGROUND_PENDING	0x00080000 /* pending in continuous tx background due to out of skb */
++#define WIFI_MP_CTX_CCK_HW				0x00100000 /* in continuous tx */
++#define WIFI_MP_CTX_CCK_CS				0x00200000 /* in continuous tx with carrier suppression */
++#define WIFI_MP_LPBK_STATE				0x00400000
++#define WIFI_OP_CH_SWITCHING			0x00800000
++/*#define WIFI_UNDEFINED_STATE			0x01000000*/
++/*#define WIFI_UNDEFINED_STATE			0x02000000*/
++/*#define WIFI_UNDEFINED_STATE			0x04000000*/
++/*#define WIFI_UNDEFINED_STATE			0x08000000*/
++/*#define WIFI_UNDEFINED_STATE			0x10000000*/
++/*#define WIFI_UNDEFINED_STATE			0x20000000*/
++/*#define WIFI_UNDEFINED_STATE			0x40000000*/
++#define WIFI_MONITOR_STATE				0x80000000
++
++#define MIRACAST_DISABLED	0
++#define MIRACAST_SOURCE		BIT0
++#define MIRACAST_SINK		BIT1
++
++#define MIRACAST_MODE_REVERSE(mode) \
++	((((mode) & MIRACAST_SOURCE) ? MIRACAST_SINK : 0) | (((mode) & MIRACAST_SINK) ? MIRACAST_SOURCE : 0))
++
++bool is_miracast_enabled(_adapter *adapter);
++bool rtw_chk_miracast_mode(_adapter *adapter, u8 mode);
++const char *get_miracast_mode_str(int mode);
++void rtw_wfd_st_switch(struct sta_info *sta, bool on);
++
++#define MLME_STATE(adapter) get_fwstate(&((adapter)->mlmepriv))
++
++#define MLME_IS_STA(adapter) (MLME_STATE((adapter)) & WIFI_STATION_STATE)
++#define MLME_IS_AP(adapter) (MLME_STATE((adapter)) & WIFI_AP_STATE)
++#define MLME_IS_ADHOC(adapter) (MLME_STATE((adapter)) & WIFI_ADHOC_STATE)
++#define MLME_IS_ADHOC_MASTER(adapter) (MLME_STATE((adapter)) & WIFI_ADHOC_MASTER_STATE)
++#define MLME_IS_MONITOR(adapter) (MLME_STATE((adapter)) & WIFI_MONITOR_STATE)
++#define MLME_IS_MP(adapter) (MLME_STATE((adapter)) & WIFI_MP_STATE)
++#ifdef CONFIG_P2P
++	#define MLME_IS_GC(adapter) rtw_p2p_chk_role(&(adapter)->wdinfo, P2P_ROLE_CLIENT)
++	#define MLME_IS_GO(adapter) rtw_p2p_chk_role(&(adapter)->wdinfo, P2P_ROLE_GO)
++#else /* !CONFIG_P2P */
++	#define MLME_IS_GC(adapter) 0
++	#define MLME_IS_GO(adapter) 0
++#endif /* !CONFIG_P2P */
++#define MLME_IS_MSRC(adapter) rtw_chk_miracast_mode((adapter), MIRACAST_SOURCE)
++#define MLME_IS_MSINK(adapter) rtw_chk_miracast_mode((adapter), MIRACAST_SINK)
++
++#define MLME_STATE_FMT "%s%s%s%s%s%s%s%s%s%s%s%s%s%s"
++#define MLME_STATE_ARG(adapter) \
++	MLME_IS_STA((adapter)) ? (MLME_IS_GC((adapter)) ? " GC" : " STA") : "", \
++	MLME_IS_AP((adapter)) ? (MLME_IS_GO((adapter)) ? " GO" : " AP") : "", \
++	MLME_IS_ADHOC((adapter)) ? " ADHOC" : "", \
++	MLME_IS_ADHOC_MASTER((adapter)) ? " ADHOC_M" : "", \
++	MLME_IS_MONITOR((adapter)) ? " MONITOR" : "", \
++	MLME_IS_MP((adapter)) ? " MP" : "", \
++	MLME_IS_MSRC((adapter)) ? " MSRC" : "", \
++	MLME_IS_MSINK((adapter)) ? " MSINK" : "", \
++	(MLME_STATE((adapter)) & WIFI_SITE_MONITOR) ? " SCAN" : "", \
++	(MLME_STATE((adapter)) & WIFI_UNDER_LINKING) ? " LINKING" : "", \
++	(MLME_STATE((adapter)) & WIFI_ASOC_STATE) ? " ASOC" : "", \
++	(MLME_STATE((adapter)) & WIFI_OP_CH_SWITCHING) ? " OP_CH_SW" : "", \
++	(MLME_STATE((adapter)) & WIFI_UNDER_WPS) ? " WPS" : "", \
++	(MLME_STATE((adapter)) & WIFI_SLEEP_STATE) ? " SLEEP" : ""
++
++#define _FW_UNDER_LINKING	WIFI_UNDER_LINKING
++#define _FW_LINKED			WIFI_ASOC_STATE
++#define _FW_UNDER_SURVEY	WIFI_SITE_MONITOR
++
++
++enum dot11AuthAlgrthmNum {
++	dot11AuthAlgrthm_Open = 0,
++	dot11AuthAlgrthm_Shared,
++	dot11AuthAlgrthm_8021X,
++	dot11AuthAlgrthm_Auto,
++	dot11AuthAlgrthm_WAPI,
++	dot11AuthAlgrthm_MaxNum
++};
++
++/* Scan type including active and passive scan. */
++typedef enum _RT_SCAN_TYPE {
++	SCAN_PASSIVE,
++	SCAN_ACTIVE,
++	SCAN_MIX,
++} RT_SCAN_TYPE, *PRT_SCAN_TYPE;
++
++#define WIFI_FREQUENCY_BAND_AUTO 0
++#define WIFI_FREQUENCY_BAND_5GHZ 1
++#define WIFI_FREQUENCY_BAND_2GHZ 2
++
++#define rtw_band_valid(band) ((band) <= WIFI_FREQUENCY_BAND_2GHZ)
++
++enum DriverInterface {
++	DRIVER_WEXT =  1,
++	DRIVER_CFG80211 = 2
++};
++
++enum SCAN_RESULT_TYPE {
++	SCAN_RESULT_P2P_ONLY = 0,		/*	Will return all the P2P devices. */
++	SCAN_RESULT_ALL = 1,			/*	Will return all the scanned device, include AP. */
++	SCAN_RESULT_WFD_TYPE = 2		/*	Will just return the correct WFD device. */
++									/*	If this device is Miracast sink device, it will just return all the Miracast source devices. */
++};
++
++/*
++
++there are several "locks" in mlme_priv,
++since mlme_priv is a shared resource between many threads,
++like ISR/Call-Back functions, the OID handlers, and even timer functions.
++
++
++Each _queue has its own locks, already.
++Other items are protected by mlme_priv.lock.
++
++To avoid possible dead lock, any thread trying to modifiying mlme_priv
++SHALL not lock up more than one locks at a time!
++
++*/
++
++
++#define traffic_threshold	10
++#define	traffic_scan_period	500
++
++struct sitesurvey_ctrl {
++	u64	last_tx_pkts;
++	uint	last_rx_pkts;
++	sint	traffic_busy;
++	_timer	sitesurvey_ctrl_timer;
++};
++
++typedef struct _RT_LINK_DETECT_T {
++	u32				NumTxOkInPeriod;
++	u32				NumRxOkInPeriod;
++	u32				NumRxUnicastOkInPeriod;
++	BOOLEAN			bBusyTraffic;
++	BOOLEAN			bTxBusyTraffic;
++	BOOLEAN			bRxBusyTraffic;
++	BOOLEAN			bHigherBusyTraffic; /* For interrupt migration purpose. */
++	BOOLEAN			bHigherBusyRxTraffic; /* We may disable Tx interrupt according as Rx traffic. */
++	BOOLEAN			bHigherBusyTxTraffic; /* We may disable Tx interrupt according as Tx traffic. */
++	/* u8 TrafficBusyState; */
++	u8 TrafficTransitionCount;
++	u32 LowPowerTransitionCount;
++} RT_LINK_DETECT_T, *PRT_LINK_DETECT_T;
++
++struct profile_info {
++	u8	ssidlen;
++	u8	ssid[WLAN_SSID_MAXLEN];
++	u8	peermac[ETH_ALEN];
++};
++
++struct tx_invite_req_info {
++	u8					token;
++	u8					benable;
++	u8					go_ssid[WLAN_SSID_MAXLEN];
++	u8					ssidlen;
++	u8					go_bssid[ETH_ALEN];
++	u8					peer_macaddr[ETH_ALEN];
++	u8					operating_ch;	/*	This information will be set by using the p2p_set op_ch=x */
++	u8					peer_ch;		/*	The listen channel for peer P2P device */
++
++};
++
++struct tx_invite_resp_info {
++	u8					token;	/*	Used to record the dialog token of p2p invitation request frame. */
++};
++
++#ifdef CONFIG_WFD
++
++struct wifi_display_info {
++	u16							wfd_enable;			/*	Eanble/Disable the WFD function. */
++	u16							init_rtsp_ctrlport;	/* init value of rtsp_ctrlport when WFD enable */
++	u16							rtsp_ctrlport;		/* TCP port number at which the this WFD device listens for RTSP messages, 0 when WFD disable */
++	u16							tdls_rtsp_ctrlport;	/* rtsp_ctrlport used by tdls, will sync when rtsp_ctrlport is changed by user */
++	u16							peer_rtsp_ctrlport;	/*	TCP port number at which the peer WFD device listens for RTSP messages */
++													/*	This filed should be filled when receiving the gropu negotiation request */
++
++	u8							peer_session_avail;	/*	WFD session is available or not for the peer wfd device. */
++													/*	This variable will be set when sending the provisioning discovery request to peer WFD device. */
++													/*	And this variable will be reset when it is read by using the iwpriv p2p_get wfd_sa command. */
++	u8							ip_address[4];
++	u8							peer_ip_address[4];
++	u8							wfd_pc;				/*	WFD preferred connection */
++													/*	0 -> Prefer to use the P2P for WFD connection on peer side. */
++													/*	1 -> Prefer to use the TDLS for WFD connection on peer side. */
++
++	u8							wfd_device_type;	/*	WFD Device Type */
++													/*	0 -> WFD Source Device */
++													/*	1 -> WFD Primary Sink Device */
++	enum	SCAN_RESULT_TYPE	scan_result_type;	/*	Used when P2P is enable. This parameter will impact the scan result. */
++	u8 op_wfd_mode;
++	u8 stack_wfd_mode;
++};
++#endif /* CONFIG_WFD */
++
++struct tx_provdisc_req_info {
++	u16					wps_config_method_request;	/*	Used when sending the provisioning request frame */
++	u16					peer_channel_num[2];		/*	The channel number which the receiver stands. */
++	NDIS_802_11_SSID	ssid;
++	u8					peerDevAddr[ETH_ALEN];		/*	Peer device address */
++	u8					peerIFAddr[ETH_ALEN];		/*	Peer interface address */
++	u8					benable;					/*	This provision discovery request frame is trigger to send or not */
++};
++
++struct rx_provdisc_req_info {	/* When peer device issue prov_disc_req first, we should store the following informations */
++	u8					peerDevAddr[ETH_ALEN];		/*	Peer device address */
++	u8					strconfig_method_desc_of_prov_disc_req[4];	/*	description for the config method located in the provisioning discovery request frame.	 */
++																	/*	The UI must know this information to know which config method the remote p2p device is requiring. */
++};
++
++struct tx_nego_req_info {
++	u16					peer_channel_num[2];		/*	The channel number which the receiver stands. */
++	u8					peerDevAddr[ETH_ALEN];		/*	Peer device address */
++	u8					benable;					/*	This negoitation request frame is trigger to send or not */
++	u8					peer_ch;					/*	The listen channel for peer P2P device */
++};
++
++struct group_id_info {
++	u8					go_device_addr[ETH_ALEN];	/*	The GO's device address of this P2P group */
++	u8					ssid[WLAN_SSID_MAXLEN];		/*	The SSID of this P2P group */
++};
++
++struct scan_limit_info {
++	u8					scan_op_ch_only;			/*	When this flag is set, the driver should just scan the operation channel */
++#ifndef CONFIG_P2P_OP_CHK_SOCIAL_CH
++	u8					operation_ch[2];				/*	Store the operation channel of invitation request frame */
++#else
++	u8					operation_ch[5];				/*	Store additional channel 1,6,11  for Android 4.2 IOT & Nexus 4 */
++#endif /* CONFIG_P2P_OP_CHK_SOCIAL_CH */
++};
++
++#ifdef CONFIG_IOCTL_CFG80211
++struct cfg80211_wifidirect_info {
++	_timer					remain_on_ch_timer;
++	u8						restore_channel;
++	struct ieee80211_channel	remain_on_ch_channel;
++	enum nl80211_channel_type	remain_on_ch_type;
++	ATOMIC_T ro_ch_cookie_gen;
++	u64 remain_on_ch_cookie;
++	bool is_ro_ch;
++	u32 last_ro_ch_time; /* this will be updated at the beginning and end of ro_ch */
++};
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++#ifdef CONFIG_P2P_WOWLAN
++
++enum P2P_WOWLAN_RECV_FRAME_TYPE {
++	P2P_WOWLAN_RECV_NEGO_REQ = 0,
++	P2P_WOWLAN_RECV_INVITE_REQ = 1,
++	P2P_WOWLAN_RECV_PROVISION_REQ = 2,
++};
++
++struct p2p_wowlan_info {
++
++	u8						is_trigger;
++	enum P2P_WOWLAN_RECV_FRAME_TYPE	wowlan_recv_frame_type;
++	u8						wowlan_peer_addr[ETH_ALEN];
++	u16						wowlan_peer_wpsconfig;
++	u8						wowlan_peer_is_persistent;
++	u8						wowlan_peer_invitation_type;
++};
++
++#endif /* CONFIG_P2P_WOWLAN */
++
++struct wifidirect_info {
++	_adapter				*padapter;
++	_timer					find_phase_timer;
++	_timer					restore_p2p_state_timer;
++
++	/*	Used to do the scanning. After confirming the peer is availalble, the driver transmits the P2P frame to peer. */
++	_timer					pre_tx_scan_timer;
++	_timer					reset_ch_sitesurvey;
++	_timer					reset_ch_sitesurvey2;	/*	Just for resetting the scan limit function by using p2p nego */
++#ifdef CONFIG_CONCURRENT_MODE
++	/*	Used to switch the channel between legacy AP and listen state. */
++	_timer					ap_p2p_switch_timer;
++#endif
++	struct tx_provdisc_req_info	tx_prov_disc_info;
++	struct rx_provdisc_req_info rx_prov_disc_info;
++	struct tx_invite_req_info	invitereq_info;
++	struct profile_info			profileinfo[P2P_MAX_PERSISTENT_GROUP_NUM];	/*	Store the profile information of persistent group */
++	struct tx_invite_resp_info	inviteresp_info;
++	struct tx_nego_req_info	nego_req_info;
++	struct group_id_info		groupid_info;	/*	Store the group id information when doing the group negotiation handshake. */
++	struct scan_limit_info		rx_invitereq_info;	/*	Used for get the limit scan channel from the Invitation procedure */
++	struct scan_limit_info		p2p_info;		/*	Used for get the limit scan channel from the P2P negotiation handshake */
++#ifdef CONFIG_WFD
++	struct wifi_display_info		*wfd_info;
++#endif
++
++#ifdef CONFIG_P2P_WOWLAN
++	struct p2p_wowlan_info		p2p_wow_info;
++#endif /* CONFIG_P2P_WOWLAN */
++
++	enum P2P_ROLE			role;
++	enum P2P_STATE			pre_p2p_state;
++	enum P2P_STATE			p2p_state;
++	u8						device_addr[ETH_ALEN];	/*	The device address should be the mac address of this device. */
++	u8						interface_addr[ETH_ALEN];
++	u8						social_chan[4];
++	u8						listen_channel;
++	u8						operating_channel;
++	u8						listen_dwell;		/*	This value should be between 1 and 3 */
++	u8						support_rate[8];
++	u8						p2p_wildcard_ssid[P2P_WILDCARD_SSID_LEN];
++	u8						intent;		/*	should only include the intent value. */
++	u8						p2p_peer_interface_addr[ETH_ALEN];
++	u8						p2p_peer_device_addr[ETH_ALEN];
++	u8						peer_intent;	/*	Included the intent value and tie breaker value. */
++	u8						device_name[WPS_MAX_DEVICE_NAME_LEN];	/*	Device name for displaying on searching device screen */
++	u8						device_name_len;
++	u8						profileindex;	/*	Used to point to the index of profileinfo array */
++	u8						peer_operating_ch;
++	u8						find_phase_state_exchange_cnt;
++	u16						device_password_id_for_nego;	/*	The device password ID for group negotation */
++	u8						negotiation_dialog_token;
++	u8						nego_ssid[WLAN_SSID_MAXLEN];	/*	SSID information for group negotitation */
++	u8						nego_ssidlen;
++	u8						p2p_group_ssid[WLAN_SSID_MAXLEN];
++	u8						p2p_group_ssid_len;
++	u8						persistent_supported;		/*	Flag to know the persistent function should be supported or not. */
++														/*	In the Sigma test, the Sigma will provide this enable from the sta_set_p2p CAPI. */
++														/*	0: disable */
++														/*	1: enable */
++	u8						session_available;			/*	Flag to set the WFD session available to enable or disable "by Sigma" */
++														/*	In the Sigma test, the Sigma will disable the session available by using the sta_preset CAPI. */
++														/*	0: disable */
++														/*	1: enable */
++
++	u8						wfd_tdls_enable;			/*	Flag to enable or disable the TDLS by WFD Sigma */
++														/*	0: disable */
++														/*	1: enable */
++	u8						wfd_tdls_weaksec;			/*	Flag to enable or disable the weak security function for TDLS by WFD Sigma */
++														/*	0: disable */
++														/*	In this case, the driver can't issue the tdsl setup request frame. */
++														/*	1: enable */
++														/*	In this case, the driver can issue the tdls setup request frame */
++														/*	even the current security is weak security. */
++
++	enum	P2P_WPSINFO		ui_got_wps_info;			/*	This field will store the WPS value (PIN value or PBC) that UI had got from the user. */
++	u16						supported_wps_cm;			/*	This field describes the WPS config method which this driver supported. */
++														/*	The value should be the combination of config method defined in page104 of WPS v2.0 spec.	 */
++	u8						external_uuid;				/* UUID flag */
++	u8						uuid[16];					/* UUID */
++	uint						channel_list_attr_len;	/*	This field will contain the length of body of P2P Channel List attribute of group negotitation response frame. */
++	u8						channel_list_attr[100];		/*	This field will contain the body of P2P Channel List attribute of group negotitation response frame. */
++														/*	We will use the channel_cnt and channel_list fields when constructing the group negotitation confirm frame. */
++	u8						driver_interface;			/*	Indicate DRIVER_WEXT or DRIVER_CFG80211 */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	u16						ext_listen_interval;	/*	The interval to be available with legacy AP (ms) */
++	u16						ext_listen_period;	/*	The time period to be available for P2P listen state (ms) */
++#endif
++#ifdef CONFIG_P2P_PS
++	enum P2P_PS_MODE		p2p_ps_mode; /* indicate p2p ps mode */
++	enum P2P_PS_STATE		p2p_ps_state; /* indicate p2p ps state */
++	u8						noa_index; /* Identifies and instance of Notice of Absence timing. */
++	u8						ctwindow; /* Client traffic window. A period of time in TU after TBTT. */
++	u8						opp_ps; /* opportunistic power save. */
++	u8						noa_num; /* number of NoA descriptor in P2P IE. */
++	u8						noa_count[P2P_MAX_NOA_NUM]; /* Count for owner, Type of client. */
++	u32						noa_duration[P2P_MAX_NOA_NUM]; /* Max duration for owner, preferred or min acceptable duration for client. */
++	u32						noa_interval[P2P_MAX_NOA_NUM]; /* Length of interval for owner, preferred or max acceptable interval of client. */
++	u32						noa_start_time[P2P_MAX_NOA_NUM]; /* schedule expressed in terms of the lower 4 bytes of the TSF timer. */
++#endif /* CONFIG_P2P_PS */
++};
++
++struct tdls_ss_record {	/* signal strength record */
++	u8		macaddr[ETH_ALEN];
++	u8		RxPWDBAll;
++	u8		is_tdls_sta;	/* _TRUE: direct link sta, _FALSE: else */
++};
++
++struct tdls_temp_mgmt {
++	u8	initiator;	/* 0: None, 1: we initiate, 2: peer initiate */
++	u8	peer_addr[ETH_ALEN];
++};
++
++#ifdef CONFIG_TDLS_CH_SW
++struct tdls_ch_switch {
++	u32	ch_sw_state;
++	ATOMIC_T	chsw_on;
++	u8	addr[ETH_ALEN];
++	u8	off_ch_num;
++	u8	ch_offset;
++	u32	cur_time;
++	u8	delay_switch_back;
++	u8	dump_stack;
++	struct submit_ctx	chsw_sctx;
++};
++#endif
++
++struct tdls_info {
++	u8					ap_prohibited;
++	u8					ch_switch_prohibited;
++	u8					link_established;
++	u8					sta_cnt;
++	u8					sta_maximum;	/* 1:tdls sta is equal (NUM_STA-1), reach max direct link number; 0: else; */
++	struct tdls_ss_record	ss_record;
++#ifdef CONFIG_TDLS_CH_SW
++	struct tdls_ch_switch	chsw_info;
++#endif
++
++	u8					ch_sensing;
++	u8					cur_channel;
++	u8					collect_pkt_num[MAX_CHANNEL_NUM];
++	_lock				cmd_lock;
++	_lock				hdl_lock;
++	u8					watchdog_count;
++	u8					dev_discovered;		/* WFD_TDLS: for sigma test */
++	u8					tdls_enable;
++
++	/* Let wpa_supplicant to setup*/
++	u8					driver_setup;
++#ifdef CONFIG_WFD
++	struct wifi_display_info		*wfd_info;
++#endif
++};
++
++struct tdls_txmgmt {
++	u8 peer[ETH_ALEN];
++	u8 action_code;
++	u8 dialog_token;
++	u16 status_code;
++	u8 *buf;
++	size_t len;
++};
++
++/* used for mlme_priv.roam_flags */
++enum {
++	RTW_ROAM_ON_EXPIRED = BIT0,
++	RTW_ROAM_ON_RESUME = BIT1,
++	RTW_ROAM_ACTIVE = BIT2,
++};
++
++struct beacon_keys {
++	u8 ssid[IW_ESSID_MAX_SIZE];
++	u32 ssid_len;
++	u8 bcn_channel;
++	u16 ht_cap_info;
++	u8 ht_info_infos_0_sco; /* bit0 & bit1 in infos[0] is second channel offset */
++	int encryp_protocol;
++	int pairwise_cipher;
++	int group_cipher;
++	int is_8021x;
++};
++#ifdef CONFIG_RTW_80211R
++#define FT_ACTION_REQ_LIMIT	4
++
++typedef enum _RTW_WIFI_FT_STA_STATUS {
++	RTW_FT_UNASSOCIATED_STA = 0,
++	RTW_FT_AUTHENTICATING_STA,
++	RTW_FT_AUTHENTICATED_STA,
++	RTW_FT_ASSOCIATING_STA,
++	RTW_FT_ASSOCIATED_STA,
++	RTW_FT_REQUESTING_STA,
++	RTW_FT_REQUESTED_STA,
++	RTW_FT_CONFIRMED_STA,
++	RTW_FT_UNSPECIFIED_STA
++} RTW_WIFI_FT_STA_STATUS;
++
++#define rtw_chk_ft_status(adapter, status) ((adapter)->mlmepriv.ftpriv.ft_status == status)
++#define rtw_set_ft_status(adapter, status) \
++	do { \
++		((adapter)->mlmepriv.ftpriv.ft_status = status); \
++	} while (0)
++
++#define rtw_reset_ft_status(adapter) \
++	do { \
++		((adapter)->mlmepriv.ftpriv.ft_status = RTW_FT_UNASSOCIATED_STA); \
++	} while (0)
++
++typedef enum _RTW_WIFI_FT_CAPABILITY {
++	RTW_FT_STA_SUPPORTED = BIT0,
++	RTW_FT_STA_OVER_DS_SUPPORTED = BIT1,
++	RTW_FT_SUPPORTED = BIT2,
++	RTW_FT_OVER_DS_SUPPORTED = BIT3,
++} RTW_WIFI_FT_CAPABILITY;
++
++#define rtw_chk_ft_flags(adapter, flags) ((adapter)->mlmepriv.ftpriv.ft_flags & (flags))
++#define rtw_set_ft_flags(adapter, flags) \
++	do { \
++		((adapter)->mlmepriv.ftpriv.ft_flags |= (flags)); \
++	} while (0)
++
++#define rtw_clr_ft_flags(adapter, flags) \
++	do { \
++		((adapter)->mlmepriv.ftpriv.ft_flags &= ~(flags)); \
++	} while (0)
++
++#define RTW_MAX_FTIE_SZ	256
++typedef struct _ft_priv {
++	u16	mdid;
++	u8	ft_cap;	/*b0: FT over DS, b1: Resource Req Protocol Cap, b2~b7: Reserved*/
++	u8	updated_ft_ies[RTW_MAX_FTIE_SZ];
++	u16	updated_ft_ies_len;
++	u8	ft_action[RTW_MAX_FTIE_SZ];
++	u16	ft_action_len;
++	struct cfg80211_ft_event_params ft_event;
++	u8	ft_roam_on_expired;
++	u8	ft_flags;
++	u32 ft_status;
++	u32 ft_req_retry_cnt;
++} ft_priv;
++#endif
++
++struct mlme_priv {
++
++	_lock	lock;
++	sint	fw_state;	/* shall we protect this variable? maybe not necessarily... */
++	u8 bScanInProcess;
++	u8	to_join; /* flag */
++#ifdef CONFIG_LAYER2_ROAMING
++	u8 to_roam; /* roaming trying times */
++	struct wlan_network *roam_network; /* the target of active roam */
++	u8 roam_flags;
++	u8 roam_rssi_diff_th; /* rssi difference threshold for active scan candidate selection */
++	u32 roam_scan_int_ms; /* scan interval for active roam */
++	u32 roam_scanr_exp_ms; /* scan result expire time in ms  for roam */
++	u8 roam_tgt_addr[ETH_ALEN]; /* request to roam to speicific target without other consideration */
++	u8 roam_rssi_threshold;
++	bool need_to_roam;
++#endif
++
++	u8	*nic_hdl;
++
++#ifdef SUPPLICANT_RTK_VERSION_LOWER_THAN_JB42
++	u8	not_indic_disco;
++#endif
++	_list		*pscanned;
++	_queue	free_bss_pool;
++	_queue	scanned_queue;
++	u8		*free_bss_buf;
++	u32	num_of_scanned;
++
++	NDIS_802_11_SSID	assoc_ssid;
++	u8	assoc_bssid[6];
++
++	struct wlan_network	cur_network;
++	struct wlan_network *cur_network_scanned;
++
++	/* bcn check info */
++	struct beacon_keys cur_beacon_keys; /* save current beacon keys */
++	struct beacon_keys new_beacon_keys; /* save new beacon keys */
++	u8 new_beacon_cnts; /* if new_beacon_cnts >= threshold, ap beacon is changed */
++
++#ifdef CONFIG_ARP_KEEP_ALIVE
++	/* for arp offload keep alive */
++	u8 bGetGateway;
++	u8	gw_mac_addr[6];
++	u8	gw_ip[4];
++#endif
++
++	/* uint wireless_mode; no used, remove it */
++
++	u32	auto_scan_int_ms;
++
++	_timer assoc_timer;
++
++	uint assoc_by_bssid;
++	uint assoc_by_rssi;
++
++	_timer scan_to_timer; /* driver itself handles scan_timeout status. */
++	u32 scan_start_time; /* used to evaluate the time spent in scanning */
++
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++	_timer set_scan_deny_timer;
++	ATOMIC_T set_scan_deny; /* 0: allowed, 1: deny */
++#endif
++
++	struct qos_priv qospriv;
++
++#ifdef CONFIG_80211N_HT
++
++	/* Number of non-HT AP/stations */
++	int num_sta_no_ht;
++
++	/* Number of HT AP/stations 20 MHz */
++	/* int num_sta_ht_20mhz; */
++
++
++	int num_FortyMHzIntolerant;
++
++	struct ht_priv	htpriv;
++
++#endif
++
++#ifdef CONFIG_80211AC_VHT
++	struct vht_priv	vhtpriv;
++#endif
++#ifdef CONFIG_BEAMFORMING
++#if (BEAMFORMING_SUPPORT == 0)/*for driver beamforming*/
++#ifndef RTW_BEAMFORMING_VERSION_2
++	struct beamforming_info	beamforming_info;
++#endif /* !RTW_BEAMFORMING_VERSION_2 */
++#endif
++#endif
++
++#ifdef CONFIG_DFS
++	u8	handle_dfs;
++#endif
++#ifdef CONFIG_DFS_MASTER
++	/* TODO: move to rfctl */
++	_timer dfs_master_timer;
++#endif
++#ifdef CONFIG_RTW_80211R
++	ft_priv ftpriv;
++#endif
++
++	RT_LINK_DETECT_T	LinkDetectInfo;
++	_timer	dynamic_chk_timer; /* dynamic/periodic check timer */
++
++	u8	acm_mask; /* for wmm acm mask */
++	const struct country_chplan *country_ent;
++	u8	ChannelPlan;
++	RT_SCAN_TYPE	scan_mode; /* active: 1, passive: 0 */
++
++	u8 *wps_probe_req_ie;
++	u32 wps_probe_req_ie_len;
++
++	u8 ext_capab_ie_data[8];/*currently for ap mode only*/
++	u8 ext_capab_ie_len;
++
++#if defined(CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	/* Number of associated Non-ERP stations (i.e., stations using 802.11b
++	 * in 802.11g BSS) */
++	int num_sta_non_erp;
++
++	/* Number of associated stations that do not support Short Slot Time */
++	int num_sta_no_short_slot_time;
++
++	/* Number of associated stations that do not support Short Preamble */
++	int num_sta_no_short_preamble;
++
++	ATOMIC_T olbc; /* Overlapping Legacy BSS Condition (Legacy b/g)*/
++
++	/* Number of HT associated stations that do not support greenfield */
++	int num_sta_ht_no_gf;
++
++	/* Number of associated non-HT stations */
++	/* int num_sta_no_ht; */
++
++	/* Number of HT associated stations 20 MHz */
++	int num_sta_ht_20mhz;
++
++	/* number of associated stations 40MHz intolerant */
++	int num_sta_40mhz_intolerant;
++
++	/* Overlapping BSS information */
++	ATOMIC_T olbc_ht;
++
++#ifdef CONFIG_80211N_HT
++	int ht_20mhz_width_req;
++	int ht_intolerant_ch_reported;
++	u16 ht_op_mode;
++	u8 sw_to_20mhz; /*switch to 20Mhz BW*/
++#endif /* CONFIG_80211N_HT */
++
++#ifdef CONFIG_RTW_80211R
++	u8 *auth_rsp;
++	u32 auth_rsp_len;
++#endif
++	u8 *assoc_req;
++	u32 assoc_req_len;
++	u8 *assoc_rsp;
++	u32 assoc_rsp_len;
++
++	u8 *wps_beacon_ie;
++	/* u8 *wps_probe_req_ie; */
++	u8 *wps_probe_resp_ie;
++	u8 *wps_assoc_resp_ie; /* for CONFIG_IOCTL_CFG80211, this IE could include p2p ie / wfd ie */
++
++	u32 wps_beacon_ie_len;
++	/* u32 wps_probe_req_ie_len; */
++	u32 wps_probe_resp_ie_len;
++	u32 wps_assoc_resp_ie_len; /* for CONFIG_IOCTL_CFG80211, this IE len could include p2p ie / wfd ie */
++
++	u8 *p2p_beacon_ie;
++	u8 *p2p_probe_req_ie;
++	u8 *p2p_probe_resp_ie;
++	u8 *p2p_go_probe_resp_ie; /* for GO	 */
++	u8 *p2p_assoc_req_ie;
++	u8 *p2p_assoc_resp_ie;
++
++	u32 p2p_beacon_ie_len;
++	u32 p2p_probe_req_ie_len;
++	u32 p2p_probe_resp_ie_len;
++	u32 p2p_go_probe_resp_ie_len; /* for GO */
++	u32 p2p_assoc_req_ie_len;
++	u32 p2p_assoc_resp_ie_len;
++
++	_lock	bcn_update_lock;
++	u8		update_bcn;
++
++	u8 ori_ch;
++	u8 ori_bw;
++	u8 ori_offset;
++#endif /* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++
++#if defined(CONFIG_WFD) && defined(CONFIG_IOCTL_CFG80211)
++
++	u8 *wfd_beacon_ie;
++	u8 *wfd_probe_req_ie;
++	u8 *wfd_probe_resp_ie;
++	u8 *wfd_go_probe_resp_ie; /* for GO	 */
++	u8 *wfd_assoc_req_ie;
++	u8 *wfd_assoc_resp_ie;
++
++	u32 wfd_beacon_ie_len;
++	u32 wfd_probe_req_ie_len;
++	u32 wfd_probe_resp_ie_len;
++	u32 wfd_go_probe_resp_ie_len; /* for GO */
++	u32 wfd_assoc_req_ie_len;
++	u32 wfd_assoc_resp_ie_len;
++
++#endif
++
++#ifdef RTK_DMP_PLATFORM
++	/* DMP kobject_hotplug function  signal need in passive level */
++	_workitem	Linkup_workitem;
++	_workitem	Linkdown_workitem;
++#endif
++
++#ifdef CONFIG_INTEL_WIDI
++	int	widi_state;
++	int	listen_state;
++	_timer	listen_timer;
++	ATOMIC_T	rx_probe_rsp; /* 1:receive probe respone from RDS source. */
++	u8	*l2sdTaBuffer;
++	u8	channel_idx;
++	u8	group_cnt;	/* In WiDi 3.5, they specified another scan algo. for WFD/RDS co-existed */
++	u8	sa_ext[L2SDTA_SERVICE_VE_LEN];
++
++	u8	widi_enable;
++	/**
++	 * For WiDi 4; upper layer would set
++	 * p2p_primary_device_type_category_id
++	 * p2p_primary_device_type_sub_category_id
++	 * p2p_secondary_device_type_category_id
++	 * p2p_secondary_device_type_sub_category_id
++	 */
++	u16	p2p_pdt_cid;
++	u16	p2p_pdt_scid;
++	u8	num_p2p_sdt;
++	u16	p2p_sdt_cid[MAX_NUM_P2P_SDT];
++	u16	p2p_sdt_scid[MAX_NUM_P2P_SDT];
++	u8	p2p_reject_disable;	/* When starting NL80211 wpa_supplicant/hostapd, it will call netdev_close */
++							/* such that it will cause p2p disabled. Use this flag to reject. */
++#endif /* CONFIG_INTEL_WIDI */
++	u32 lastscantime;
++#ifdef CONFIG_CONCURRENT_MODE
++	u8	scanning_via_buddy_intf;
++#endif
++
++#if 0
++	u8	NumOfBcnInfoChkFail;
++	u32	timeBcnInfoChkStart;
++#endif
++
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++	u32 vendor_ie_mask[WLAN_MAX_VENDOR_IE_NUM];
++	u8 vendor_ie[WLAN_MAX_VENDOR_IE_NUM][WLAN_MAX_VENDOR_IE_LEN];
++	u32 vendor_ielen[WLAN_MAX_VENDOR_IE_NUM];
++#endif
++};
++
++#define mlme_set_scan_to_timer(mlme, ms) \
++	do { \
++		/* RTW_INFO("%s set_scan_to_timer(%p, %d)\n", __FUNCTION__, (mlme), (ms)); */ \
++		_set_timer(&(mlme)->scan_to_timer, (ms)); \
++	} while (0)
++
++#define rtw_mlme_set_auto_scan_int(adapter, ms) \
++	do { \
++		adapter->mlmepriv.auto_scan_int_ms = ms; \
++	} while (0)
++
++#define RTW_AUTO_SCAN_REASON_UNSPECIFIED	0
++#define RTW_AUTO_SCAN_REASON_2040_BSS		BIT0
++#define RTW_AUTO_SCAN_REASON_ACS			BIT1
++#define RTW_AUTO_SCAN_REASON_ROAM			BIT2
++
++void rtw_mlme_reset_auto_scan_int(_adapter *adapter, u8 *reason);
++
++#ifdef CONFIG_AP_MODE
++
++struct hostapd_priv {
++	_adapter *padapter;
++
++#ifdef CONFIG_HOSTAPD_MLME
++	struct net_device *pmgnt_netdev;
++	struct usb_anchor anchored;
++#endif
++
++};
++
++extern int hostapd_mode_init(_adapter *padapter);
++extern void hostapd_mode_unload(_adapter *padapter);
++#endif
++
++
++extern void rtw_joinbss_event_prehandle(_adapter *adapter, u8 *pbuf);
++extern void rtw_survey_event_callback(_adapter *adapter, u8 *pbuf);
++extern void rtw_surveydone_event_callback(_adapter *adapter, u8 *pbuf);
++extern void rtw_joinbss_event_callback(_adapter *adapter, u8 *pbuf);
++extern void rtw_stassoc_event_callback(_adapter *adapter, u8 *pbuf);
++extern void rtw_stadel_event_callback(_adapter *adapter, u8 *pbuf);
++void rtw_sta_mstatus_report(_adapter *adapter);
++extern void rtw_atimdone_event_callback(_adapter *adapter, u8 *pbuf);
++extern void rtw_cpwm_event_callback(_adapter *adapter, u8 *pbuf);
++extern void rtw_wmm_event_callback(PADAPTER padapter, u8 *pbuf);
++#ifdef CONFIG_IEEE80211W
++void rtw_sta_timeout_event_callback(_adapter *adapter, u8 *pbuf);
++#endif /* CONFIG_IEEE80211W */
++#ifdef CONFIG_RTW_80211R
++void rtw_update_ft_stainfo(_adapter *padapter, WLAN_BSSID_EX *pnetwork);
++void rtw_ft_reassoc_event_callback(_adapter *padapter, u8 *pbuf);
++#endif
++extern void rtw_join_timeout_handler(RTW_TIMER_HDL_ARGS);
++extern void _rtw_scan_timeout_handler(RTW_TIMER_HDL_ARGS);
++
++thread_return event_thread(thread_context context);
++
++extern void rtw_free_network_queue(_adapter *adapter, u8 isfreeall);
++extern int rtw_init_mlme_priv(_adapter *adapter);/* (struct mlme_priv *pmlmepriv); */
++
++extern void rtw_free_mlme_priv(struct mlme_priv *pmlmepriv);
++
++
++extern sint rtw_select_and_join_from_scanned_queue(struct mlme_priv *pmlmepriv);
++extern sint rtw_set_key(_adapter *adapter, struct security_priv *psecuritypriv, sint keyid, u8 set_tx, bool enqueue);
++extern sint rtw_set_auth(_adapter *adapter, struct security_priv *psecuritypriv);
++
++__inline static u8 *get_bssid(struct mlme_priv *pmlmepriv)
++{
++	/* if sta_mode:pmlmepriv->cur_network.network.MacAddress=> bssid */
++	/* if adhoc_mode:pmlmepriv->cur_network.network.MacAddress=> ibss mac address */
++	return pmlmepriv->cur_network.network.MacAddress;
++}
++
++__inline static sint check_fwstate(struct mlme_priv *pmlmepriv, sint state)
++{
++	if ((state == WIFI_NULL_STATE) &&
++		(pmlmepriv->fw_state == WIFI_NULL_STATE))
++		return _TRUE;
++
++	if (pmlmepriv->fw_state & state)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++__inline static sint get_fwstate(struct mlme_priv *pmlmepriv)
++{
++	return pmlmepriv->fw_state;
++}
++
++/*
++ * No Limit on the calling context,
++ * therefore set it to be the critical section...
++ *
++ * ### NOTE:#### (!!!!)
++ * MUST TAKE CARE THAT BEFORE CALLING THIS FUNC, YOU SHOULD HAVE LOCKED pmlmepriv->lock
++ */
++extern void rtw_mi_update_iface_status(struct mlme_priv *pmlmepriv, sint state);
++
++static inline void set_fwstate(struct mlme_priv *pmlmepriv, sint state)
++{
++	pmlmepriv->fw_state |= state;
++
++	/*bScanInProcess hook in phydm*/
++	if (_FW_UNDER_SURVEY == state)
++		pmlmepriv->bScanInProcess = _TRUE;
++
++	rtw_mi_update_iface_status(pmlmepriv, state);
++}
++static inline void init_fwstate(struct mlme_priv *pmlmepriv, sint state)
++{
++	pmlmepriv->fw_state = state;
++
++	/*bScanInProcess hook in phydm*/
++	if (_FW_UNDER_SURVEY == state)
++		pmlmepriv->bScanInProcess = _TRUE;
++
++	rtw_mi_update_iface_status(pmlmepriv, state);
++}
++
++static inline void _clr_fwstate_(struct mlme_priv *pmlmepriv, sint state)
++{
++	pmlmepriv->fw_state &= ~state;
++
++	/*bScanInProcess hook in phydm*/
++	if (_FW_UNDER_SURVEY == state)
++		pmlmepriv->bScanInProcess = _FALSE;
++
++	rtw_mi_update_iface_status(pmlmepriv, state);
++}
++
++/*
++ * No Limit on the calling context,
++ * therefore set it to be the critical section...
++ */
++static inline void clr_fwstate(struct mlme_priv *pmlmepriv, sint state)
++{
++	_irqL irqL;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	_clr_fwstate_(pmlmepriv, state);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++
++static inline void up_scanned_network(struct mlme_priv *pmlmepriv)
++{
++	_irqL irqL;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	pmlmepriv->num_of_scanned++;
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++u8 rtw_is_adapter_up(_adapter *padapter);
++
++__inline static void down_scanned_network(struct mlme_priv *pmlmepriv)
++{
++	_irqL irqL;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	pmlmepriv->num_of_scanned--;
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++
++__inline static void set_scanned_network_val(struct mlme_priv *pmlmepriv, sint val)
++{
++	_irqL irqL;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	pmlmepriv->num_of_scanned = val;
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++
++extern u16 rtw_get_capability(WLAN_BSSID_EX *bss);
++extern void rtw_update_scanned_network(_adapter *adapter, WLAN_BSSID_EX *target);
++extern void rtw_disconnect_hdl_under_linked(_adapter *adapter, struct sta_info *psta, u8 free_assoc);
++extern void rtw_generate_random_ibss(u8 *pibss);
++extern struct wlan_network *rtw_find_network(_queue *scanned_queue, u8 *addr);
++extern struct wlan_network *rtw_get_oldest_wlan_network(_queue *scanned_queue);
++struct wlan_network *_rtw_find_same_network(_queue *scanned_queue, struct wlan_network *network);
++struct wlan_network *rtw_find_same_network(_queue *scanned_queue, struct wlan_network *network);
++
++extern void rtw_free_assoc_resources(_adapter *adapter, int lock_scanned_queue);
++extern void rtw_indicate_disconnect(_adapter *adapter, u16 reason, u8 locally_generated);
++extern void rtw_indicate_connect(_adapter *adapter);
++void rtw_indicate_scan_done(_adapter *padapter, bool aborted);
++
++void rtw_drv_scan_by_self(_adapter *padapter, u8 reason);
++void rtw_scan_wait_completed(_adapter *adapter);
++u32 rtw_scan_abort_timeout(_adapter *adapter, u32 timeout_ms);
++void rtw_scan_abort_no_wait(_adapter *adapter);
++void rtw_scan_abort(_adapter *adapter);
++
++extern int rtw_restruct_sec_ie(_adapter *adapter, u8 *in_ie, u8 *out_ie, uint in_len);
++extern int rtw_restruct_wmm_ie(_adapter *adapter, u8 *in_ie, u8 *out_ie, uint in_len, uint initial_out_len);
++extern void rtw_init_registrypriv_dev_network(_adapter *adapter);
++
++extern void rtw_update_registrypriv_dev_network(_adapter *adapter);
++
++extern void rtw_get_encrypt_decrypt_from_registrypriv(_adapter *adapter);
++
++extern void _rtw_join_timeout_handler(_adapter *adapter);
++extern void rtw_scan_timeout_handler(_adapter *adapter);
++
++extern void rtw_dynamic_check_timer_handlder(_adapter *adapter);
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++bool rtw_is_scan_deny(_adapter *adapter);
++void rtw_clear_scan_deny(_adapter *adapter);
++void rtw_set_scan_deny_timer_hdl(_adapter *adapter);
++void rtw_set_scan_deny(_adapter *adapter, u32 ms);
++#else
++#define rtw_is_scan_deny(adapter) _FALSE
++#define rtw_clear_scan_deny(adapter) do {} while (0)
++#define rtw_set_scan_deny_timer_hdl(adapter) do {} while (0)
++#define rtw_set_scan_deny(adapter, ms) do {} while (0)
++#endif
++
++void rtw_free_mlme_priv_ie_data(struct mlme_priv *pmlmepriv);
++
++#define MLME_BEACON_IE			0
++#define MLME_PROBE_REQ_IE		1
++#define MLME_PROBE_RESP_IE		2
++#define MLME_GO_PROBE_RESP_IE	3
++#define MLME_ASSOC_REQ_IE		4
++#define MLME_ASSOC_RESP_IE		5
++
++#if defined(CONFIG_WFD) && defined(CONFIG_IOCTL_CFG80211)
++int rtw_mlme_update_wfd_ie_data(struct mlme_priv *mlme, u8 type, u8 *ie, u32 ie_len);
++#endif
++
++
++/* extern struct wlan_network* _rtw_dequeue_network(_queue *queue); */
++
++extern struct wlan_network *_rtw_alloc_network(struct mlme_priv *pmlmepriv);
++
++
++extern void _rtw_free_network(struct mlme_priv *pmlmepriv, struct wlan_network *pnetwork, u8 isfreeall);
++extern void _rtw_free_network_nolock(struct mlme_priv *pmlmepriv, struct wlan_network *pnetwork);
++
++
++extern struct wlan_network *_rtw_find_network(_queue *scanned_queue, u8 *addr);
++
++extern void _rtw_free_network_queue(_adapter *padapter, u8 isfreeall);
++
++extern sint rtw_if_up(_adapter *padapter);
++
++sint rtw_linked_check(_adapter *padapter);
++
++u8 *rtw_get_capability_from_ie(u8 *ie);
++u8 *rtw_get_timestampe_from_ie(u8 *ie);
++u8 *rtw_get_beacon_interval_from_ie(u8 *ie);
++
++
++void rtw_joinbss_reset(_adapter *padapter);
++
++#ifdef CONFIG_80211N_HT
++void	rtw_ht_use_default_setting(_adapter *padapter);
++void rtw_build_wmm_ie_ht(_adapter *padapter, u8 *out_ie, uint *pout_len);
++unsigned int rtw_restructure_ht_ie(_adapter *padapter, u8 *in_ie, u8 *out_ie, uint in_len, uint *pout_len, u8 channel);
++void rtw_update_ht_cap(_adapter *padapter, u8 *pie, uint ie_len, u8 channel);
++void rtw_issue_addbareq_cmd(_adapter *padapter, struct xmit_frame *pxmitframe);
++void rtw_append_exented_cap(_adapter *padapter, u8 *out_ie, uint *pout_len);
++#endif
++
++int rtw_is_same_ibss(_adapter *adapter, struct wlan_network *pnetwork);
++int is_same_network(WLAN_BSSID_EX *src, WLAN_BSSID_EX *dst, u8 feature);
++
++#ifdef CONFIG_LAYER2_ROAMING
++#define rtw_roam_flags(adapter) ((adapter)->mlmepriv.roam_flags)
++#define rtw_chk_roam_flags(adapter, flags) ((adapter)->mlmepriv.roam_flags & flags)
++#define rtw_clr_roam_flags(adapter, flags) \
++	do { \
++		((adapter)->mlmepriv.roam_flags &= ~flags); \
++	} while (0)
++
++#define rtw_set_roam_flags(adapter, flags) \
++	do { \
++		((adapter)->mlmepriv.roam_flags |= flags); \
++	} while (0)
++
++#define rtw_assign_roam_flags(adapter, flags) \
++	do { \
++		((adapter)->mlmepriv.roam_flags = flags); \
++	} while (0)
++
++void _rtw_roaming(_adapter *adapter, struct wlan_network *tgt_network);
++void rtw_roaming(_adapter *adapter, struct wlan_network *tgt_network);
++void rtw_set_to_roam(_adapter *adapter, u8 to_roam);
++u8 rtw_dec_to_roam(_adapter *adapter);
++u8 rtw_to_roam(_adapter *adapter);
++int rtw_select_roaming_candidate(struct mlme_priv *pmlmepriv);
++#else
++#define rtw_roam_flags(adapter) 0
++#define rtw_chk_roam_flags(adapter, flags) 0
++#define rtw_clr_roam_flags(adapter, flags) do {} while (0)
++#define rtw_set_roam_flags(adapter, flags) do {} while (0)
++#define rtw_assign_roam_flags(adapter, flags) do {} while (0)
++#define _rtw_roaming(adapter, tgt_network) do {} while (0)
++#define rtw_roaming(adapter, tgt_network) do {} while (0)
++#define rtw_set_to_roam(adapter, to_roam) do {} while (0)
++#define rtw_dec_to_roam(adapter) 0
++#define rtw_to_roam(adapter) 0
++#define rtw_select_roaming_candidate(mlme) _FAIL
++#endif /* CONFIG_LAYER2_ROAMING */
++
++bool rtw_adjust_chbw(_adapter *adapter, u8 req_ch, u8 *req_bw, u8 *req_offset);
++
++struct sta_media_status_rpt_cmd_parm {
++	struct sta_info *sta;
++	bool connected;
++};
++
++void rtw_sta_media_status_rpt(_adapter *adapter, struct sta_info *sta, bool connected);
++u8 rtw_sta_media_status_rpt_cmd(_adapter *adapter, struct sta_info *sta, bool connected);
++void rtw_sta_media_status_rpt_cmd_hdl(_adapter *adapter, struct sta_media_status_rpt_cmd_parm *parm);
++
++#ifdef CONFIG_INTEL_PROXIM
++void rtw_proxim_enable(_adapter *padapter);
++void rtw_proxim_disable(_adapter *padapter);
++void rtw_proxim_send_packet(_adapter *padapter, u8 *pbuf, u16 len, u8 hw_rate);
++#endif /* CONFIG_INTEL_PROXIM */
++
++#define IPV4_SRC(_iphdr)			(((u8 *)(_iphdr)) + 12)
++#define IPV4_DST(_iphdr)			(((u8 *)(_iphdr)) + 16)
++#define GET_IPV4_IHL(_iphdr)		BE_BITS_TO_1BYTE(((u8 *)(_iphdr)) + 0, 0, 4)
++#define GET_IPV4_PROTOCOL(_iphdr)	BE_BITS_TO_1BYTE(((u8 *)(_iphdr)) + 9, 0, 8)
++#define GET_IPV4_SRC(_iphdr)		BE_BITS_TO_4BYTE(((u8 *)(_iphdr)) + 12, 0, 32)
++#define GET_IPV4_DST(_iphdr)		BE_BITS_TO_4BYTE(((u8 *)(_iphdr)) + 16, 0, 32)
++
++#define GET_UDP_SRC(_udphdr)			BE_BITS_TO_2BYTE(((u8 *)(_udphdr)) + 0, 0, 16)
++#define GET_UDP_DST(_udphdr)			BE_BITS_TO_2BYTE(((u8 *)(_udphdr)) + 2, 0, 16)
++
++#define TCP_SRC(_tcphdr)				(((u8 *)(_tcphdr)) + 0)
++#define TCP_DST(_tcphdr)				(((u8 *)(_tcphdr)) + 2)
++#define GET_TCP_SRC(_tcphdr)			BE_BITS_TO_2BYTE(((u8 *)(_tcphdr)) + 0, 0, 16)
++#define GET_TCP_DST(_tcphdr)			BE_BITS_TO_2BYTE(((u8 *)(_tcphdr)) + 2, 0, 16)
++#define GET_TCP_SEQ(_tcphdr)			BE_BITS_TO_4BYTE(((u8 *)(_tcphdr)) + 4, 0, 32)
++#define GET_TCP_ACK_SEQ(_tcphdr)		BE_BITS_TO_4BYTE(((u8 *)(_tcphdr)) + 8, 0, 32)
++#define GET_TCP_DOFF(_tcphdr)			BE_BITS_TO_1BYTE(((u8 *)(_tcphdr)) + 12, 4, 4)
++#define GET_TCP_FIN(_tcphdr)			BE_BITS_TO_1BYTE(((u8 *)(_tcphdr)) + 13, 0, 1)
++#define GET_TCP_SYN(_tcphdr)			BE_BITS_TO_1BYTE(((u8 *)(_tcphdr)) + 13, 1, 1)
++#define GET_TCP_RST(_tcphdr)			BE_BITS_TO_1BYTE(((u8 *)(_tcphdr)) + 13, 2, 1)
++#define GET_TCP_PSH(_tcphdr)			BE_BITS_TO_1BYTE(((u8 *)(_tcphdr)) + 13, 3, 1)
++#define GET_TCP_ACK(_tcphdr)			BE_BITS_TO_1BYTE(((u8 *)(_tcphdr)) + 13, 4, 1)
++#define GET_TCP_URG(_tcphdr)			BE_BITS_TO_1BYTE(((u8 *)(_tcphdr)) + 13, 5, 1)
++#define GET_TCP_ECE(_tcphdr)			BE_BITS_TO_1BYTE(((u8 *)(_tcphdr)) + 13, 6, 1)
++#define GET_TCP_CWR(_tcphdr)			BE_BITS_TO_1BYTE(((u8 *)(_tcphdr)) + 13, 7, 1)
++
++#endif /* __RTL871X_MLME_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_mlme_ext.h b/drivers/net/wireless/rtl8723du/include/rtw_mlme_ext.h
+new file mode 100644
+index 0000000..2e79068
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_mlme_ext.h
+@@ -0,0 +1,1274 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_MLME_EXT_H_
++#define __RTW_MLME_EXT_H_
++
++
++/*	Commented by Albert 20101105
++ *	Increase the SURVEY_TO value from 100 to 150  ( 100ms to 150ms )
++ *	The Realtek 8188CE SoftAP will spend around 100ms to send the probe response after receiving the probe request.
++ *	So, this driver tried to extend the dwell time for each scanning channel.
++ *	This will increase the chance to receive the probe response from SoftAP. */
++
++#define SURVEY_TO		(100)
++#define REAUTH_TO		(300) /* (50) */
++#define REASSOC_TO		(300) /* (50) */
++/* #define DISCONNECT_TO	(3000) */
++#define ADDBA_TO			(2000)
++
++#define LINKED_TO (1) /* unit:2 sec, 1x2 = 2 sec */
++
++#define REAUTH_LIMIT	(4)
++#define REASSOC_LIMIT	(4)
++#define READDBA_LIMIT	(2)
++
++#ifdef CONFIG_GSPI_HCI
++	#define ROAMING_LIMIT	5
++#else
++	#define ROAMING_LIMIT	8
++#endif
++/* #define	IOCMD_REG0		0x10250370 */
++/* #define	IOCMD_REG1		0x10250374 */
++/* #define	IOCMD_REG2		0x10250378 */
++
++/* #define	FW_DYNAMIC_FUN_SWITCH	0x10250364 */
++
++/* #define	WRITE_BB_CMD		0xF0000001 */
++/* #define	SET_CHANNEL_CMD	0xF3000000 */
++/* #define	UPDATE_RA_CMD	0xFD0000A2 */
++
++#define _HW_STATE_NOLINK_		0x00
++#define _HW_STATE_ADHOC_		0x01
++#define _HW_STATE_STATION_	0x02
++#define _HW_STATE_AP_			0x03
++#define _HW_STATE_MONITOR_ 0x04
++
++
++#define		_1M_RATE_	0
++#define		_2M_RATE_	1
++#define		_5M_RATE_	2
++#define		_11M_RATE_	3
++#define		_6M_RATE_	4
++#define		_9M_RATE_	5
++#define		_12M_RATE_	6
++#define		_18M_RATE_	7
++#define		_24M_RATE_	8
++#define		_36M_RATE_	9
++#define		_48M_RATE_	10
++#define		_54M_RATE_	11
++
++/********************************************************
++MCS rate definitions
++*********************************************************/
++#define MCS_RATE_1R	(0x000000ff)
++#define MCS_RATE_2R	(0x0000ffff)
++#define MCS_RATE_3R	(0x00ffffff)
++#define MCS_RATE_4R	(0xffffffff)
++#define MCS_RATE_2R_13TO15_OFF	(0x00001fff)
++
++
++extern unsigned char RTW_WPA_OUI[];
++extern unsigned char WMM_OUI[];
++extern unsigned char WPS_OUI[];
++extern unsigned char WFD_OUI[];
++extern unsigned char P2P_OUI[];
++
++extern unsigned char WMM_INFO_OUI[];
++extern unsigned char WMM_PARA_OUI[];
++
++typedef enum _RT_CHANNEL_DOMAIN {
++	/* ===== 0x00 ~ 0x1F, legacy channel plan ===== */
++	RTW_CHPLAN_FCC = 0x00,
++	RTW_CHPLAN_IC = 0x01,
++	RTW_CHPLAN_ETSI = 0x02,
++	RTW_CHPLAN_SPAIN = 0x03,
++	RTW_CHPLAN_FRANCE = 0x04,
++	RTW_CHPLAN_MKK = 0x05,
++	RTW_CHPLAN_MKK1 = 0x06,
++	RTW_CHPLAN_ISRAEL = 0x07,
++	RTW_CHPLAN_TELEC = 0x08,
++	RTW_CHPLAN_GLOBAL_DOAMIN = 0x09,
++	RTW_CHPLAN_WORLD_WIDE_13 = 0x0A,
++	RTW_CHPLAN_TAIWAN = 0x0B,
++	RTW_CHPLAN_CHINA = 0x0C,
++	RTW_CHPLAN_SINGAPORE_INDIA_MEXICO = 0x0D,
++	RTW_CHPLAN_KOREA = 0x0E,
++	RTW_CHPLAN_TURKEY = 0x0F,
++	RTW_CHPLAN_JAPAN = 0x10,
++	RTW_CHPLAN_FCC_NO_DFS = 0x11,
++	RTW_CHPLAN_JAPAN_NO_DFS = 0x12,
++	RTW_CHPLAN_WORLD_WIDE_5G = 0x13,
++	RTW_CHPLAN_TAIWAN_NO_DFS = 0x14,
++
++	/* ===== 0x20 ~ 0x7F, new channel plan ===== */
++	RTW_CHPLAN_WORLD_NULL = 0x20,
++	RTW_CHPLAN_ETSI1_NULL = 0x21,
++	RTW_CHPLAN_FCC1_NULL = 0x22,
++	RTW_CHPLAN_MKK1_NULL = 0x23,
++	RTW_CHPLAN_ETSI2_NULL = 0x24,
++	RTW_CHPLAN_FCC1_FCC1 = 0x25,
++	RTW_CHPLAN_WORLD_ETSI1 = 0x26,
++	RTW_CHPLAN_MKK1_MKK1 = 0x27,
++	RTW_CHPLAN_WORLD_KCC1 = 0x28,
++	RTW_CHPLAN_WORLD_FCC2 = 0x29,
++	RTW_CHPLAN_FCC2_NULL = 0x2A,
++	RTW_CHPLAN_WORLD_FCC3 = 0x30,
++	RTW_CHPLAN_WORLD_FCC4 = 0x31,
++	RTW_CHPLAN_WORLD_FCC5 = 0x32,
++	RTW_CHPLAN_WORLD_FCC6 = 0x33,
++	RTW_CHPLAN_FCC1_FCC7 = 0x34,
++	RTW_CHPLAN_WORLD_ETSI2 = 0x35,
++	RTW_CHPLAN_WORLD_ETSI3 = 0x36,
++	RTW_CHPLAN_MKK1_MKK2 = 0x37,
++	RTW_CHPLAN_MKK1_MKK3 = 0x38,
++	RTW_CHPLAN_FCC1_NCC1 = 0x39,
++	RTW_CHPLAN_FCC1_NCC2 = 0x40,
++	RTW_CHPLAN_GLOBAL_NULL = 0x41,
++	RTW_CHPLAN_ETSI1_ETSI4 = 0x42,
++	RTW_CHPLAN_FCC1_FCC2 = 0x43,
++	RTW_CHPLAN_FCC1_NCC3 = 0x44,
++	RTW_CHPLAN_WORLD_ETSI5 = 0x45,
++	RTW_CHPLAN_FCC1_FCC8 = 0x46,
++	RTW_CHPLAN_WORLD_ETSI6 = 0x47,
++	RTW_CHPLAN_WORLD_ETSI7 = 0x48,
++	RTW_CHPLAN_WORLD_ETSI8 = 0x49,
++	RTW_CHPLAN_WORLD_ETSI9 = 0x50,
++	RTW_CHPLAN_WORLD_ETSI10 = 0x51,
++	RTW_CHPLAN_WORLD_ETSI11 = 0x52,
++	RTW_CHPLAN_FCC1_NCC4 = 0x53,
++	RTW_CHPLAN_WORLD_ETSI12 = 0x54,
++	RTW_CHPLAN_FCC1_FCC9 = 0x55,
++	RTW_CHPLAN_WORLD_ETSI13 = 0x56,
++	RTW_CHPLAN_FCC1_FCC10 = 0x57,
++	RTW_CHPLAN_MKK2_MKK4 = 0x58,
++	RTW_CHPLAN_WORLD_ETSI14 = 0x59,
++	RTW_CHPLAN_FCC1_FCC5 = 0x60,
++
++	RTW_CHPLAN_MAX,
++	RTW_CHPLAN_REALTEK_DEFINE = 0x7F,
++} RT_CHANNEL_DOMAIN, *PRT_CHANNEL_DOMAIN;
++
++typedef enum _RT_CHANNEL_DOMAIN_2G {
++	RTW_RD_2G_NULL = 0,
++	RTW_RD_2G_WORLD = 1,	/* Worldwird 13 */
++	RTW_RD_2G_ETSI1 = 2,	/* Europe */
++	RTW_RD_2G_FCC1 = 3,		/* US */
++	RTW_RD_2G_MKK1 = 4,		/* Japan */
++	RTW_RD_2G_ETSI2 = 5,	/* France */
++	RTW_RD_2G_GLOBAL = 6,	/* Global domain */
++	RTW_RD_2G_MKK2 = 7,		/* Japan */
++	RTW_RD_2G_FCC2 = 8,		/* US */
++
++	RTW_RD_2G_MAX,
++} RT_CHANNEL_DOMAIN_2G, *PRT_CHANNEL_DOMAIN_2G;
++
++typedef enum _RT_CHANNEL_DOMAIN_5G {
++	RTW_RD_5G_NULL = 0,		/*	*/
++	RTW_RD_5G_ETSI1 = 1,	/* Europe */
++	RTW_RD_5G_ETSI2 = 2,	/* Australia, New Zealand */
++	RTW_RD_5G_ETSI3 = 3,	/* Russia */
++	RTW_RD_5G_FCC1 = 4,		/* US */
++	RTW_RD_5G_FCC2 = 5,		/* FCC w/o DFS Channels */
++	RTW_RD_5G_FCC3 = 6,		/* Bolivia, Chile, El Salvador, Venezuela */
++	RTW_RD_5G_FCC4 = 7,		/* Venezuela */
++	RTW_RD_5G_FCC5 = 8,		/* China */
++	RTW_RD_5G_FCC6 = 9,		/*	*/
++	RTW_RD_5G_FCC7 = 10,	/* US Canada(w/o Weather radar) */
++	RTW_RD_5G_KCC1 = 11,	/* Korea */
++	RTW_RD_5G_MKK1 = 12,	/* Japan */
++	RTW_RD_5G_MKK2 = 13,	/* Japan (W52, W53) */
++	RTW_RD_5G_MKK3 = 14,	/* Japan (W56) */
++	RTW_RD_5G_NCC1 = 15,	/* Taiwan, (w/o Weather radar) */
++	RTW_RD_5G_NCC2 = 16,	/* Taiwan, Band2, Band4 */
++	RTW_RD_5G_NCC3 = 17,	/* Taiwan w/o DFS, Band4 only */
++	RTW_RD_5G_ETSI4 = 18,	/* Europe w/o DFS, Band1 only */
++	RTW_RD_5G_ETSI5 = 19,	/* Australia, New Zealand(w/o Weather radar) */
++	RTW_RD_5G_FCC8 = 20,	/* Latin America */
++	RTW_RD_5G_ETSI6 = 21,	/* Israel, Bahrain, Egypt, India, China, Malaysia */
++	RTW_RD_5G_ETSI7 = 22,	/* China */
++	RTW_RD_5G_ETSI8 = 23,	/* Jordan */
++	RTW_RD_5G_ETSI9 = 24,	/* Lebanon */
++	RTW_RD_5G_ETSI10 = 25,	/* Qatar */
++	RTW_RD_5G_ETSI11 = 26,	/* Russia */
++	RTW_RD_5G_NCC4 = 27,	/* Taiwan, (w/o Weather radar) */
++	RTW_RD_5G_ETSI12 = 28,	/* Indonesia */
++	RTW_RD_5G_FCC9 = 29,	/* (w/o Weather radar) */
++	RTW_RD_5G_ETSI13 = 30,	/* (w/o Weather radar) */
++	RTW_RD_5G_FCC10 = 31,	/* Argentina(w/o Weather radar) */
++	RTW_RD_5G_MKK4 = 32,	/* Japan (W52) */
++	RTW_RD_5G_ETSI14 = 33,	/* Russia */
++
++	/* === Below are driver defined for legacy channel plan compatible, DON'T assign index ==== */
++	RTW_RD_5G_OLD_FCC1,
++	RTW_RD_5G_OLD_NCC1,
++	RTW_RD_5G_OLD_KCC1,
++
++	RTW_RD_5G_MAX,
++} RT_CHANNEL_DOMAIN_5G, *PRT_CHANNEL_DOMAIN_5G;
++
++bool rtw_chplan_is_empty(u8 id);
++#define rtw_is_channel_plan_valid(chplan) (((chplan) < RTW_CHPLAN_MAX || (chplan) == RTW_CHPLAN_REALTEK_DEFINE) && !rtw_chplan_is_empty(chplan))
++#define rtw_is_legacy_channel_plan(chplan) ((chplan) < 0x20)
++
++typedef struct _RT_CHANNEL_PLAN {
++	unsigned char	Channel[MAX_CHANNEL_NUM];
++	unsigned char	Len;
++} RT_CHANNEL_PLAN, *PRT_CHANNEL_PLAN;
++
++typedef struct _RT_CHANNEL_PLAN_2G {
++	unsigned char	Channel[MAX_CHANNEL_NUM_2G];
++	unsigned char	Len;
++} RT_CHANNEL_PLAN_2G, *PRT_CHANNEL_PLAN_2G;
++
++typedef struct _RT_CHANNEL_PLAN_5G {
++	unsigned char	Channel[MAX_CHANNEL_NUM_5G];
++	unsigned char	Len;
++} RT_CHANNEL_PLAN_5G, *PRT_CHANNEL_PLAN_5G;
++
++typedef struct _RT_CHANNEL_PLAN_MAP {
++	u8 Index2G;
++	u8 Index5G;
++	u8 regd; /* value of REGULATION_TXPWR_LMT */
++} RT_CHANNEL_PLAN_MAP, *PRT_CHANNEL_PLAN_MAP;
++
++enum Associated_AP {
++	atherosAP	= 0,
++	broadcomAP	= 1,
++	ciscoAP		= 2,
++	marvellAP	= 3,
++	ralinkAP	= 4,
++	realtekAP	= 5,
++	airgocapAP	= 6,
++	unknownAP	= 7,
++	maxAP,
++};
++
++typedef enum _HT_IOT_PEER {
++	HT_IOT_PEER_UNKNOWN			= 0,
++	HT_IOT_PEER_REALTEK			= 1,
++	HT_IOT_PEER_REALTEK_92SE		= 2,
++	HT_IOT_PEER_BROADCOM		= 3,
++	HT_IOT_PEER_RALINK			= 4,
++	HT_IOT_PEER_ATHEROS			= 5,
++	HT_IOT_PEER_CISCO				= 6,
++	HT_IOT_PEER_MERU				= 7,
++	HT_IOT_PEER_MARVELL			= 8,
++	HT_IOT_PEER_REALTEK_SOFTAP 	= 9,/* peer is RealTek SOFT_AP, by Bohn, 2009.12.17 */
++	HT_IOT_PEER_SELF_SOFTAP 		= 10, /* Self is SoftAP */
++	HT_IOT_PEER_AIRGO				= 11,
++	HT_IOT_PEER_INTEL				= 12,
++	HT_IOT_PEER_RTK_APCLIENT		= 13,
++	HT_IOT_PEER_REALTEK_81XX		= 14,
++	HT_IOT_PEER_REALTEK_WOW		= 15,
++	HT_IOT_PEER_REALTEK_JAGUAR_BCUTAP = 16,
++	HT_IOT_PEER_REALTEK_JAGUAR_CCUTAP = 17,
++	HT_IOT_PEER_MAX				= 18
++} HT_IOT_PEER_E, *PHTIOT_PEER_E;
++
++struct mlme_handler {
++	unsigned int   num;
++	char *str;
++	unsigned int (*func)(_adapter *padapter, union recv_frame *precv_frame);
++};
++
++struct action_handler {
++	unsigned int   num;
++	char *str;
++	unsigned int (*func)(_adapter *padapter, union recv_frame *precv_frame);
++};
++
++enum SCAN_STATE {
++	SCAN_DISABLE = 0,
++	SCAN_START = 1,
++	SCAN_PS_ANNC_WAIT = 2,
++	SCAN_ENTER = 3,
++	SCAN_PROCESS = 4,
++
++	/* backop */
++	SCAN_BACKING_OP = 5,
++	SCAN_BACK_OP = 6,
++	SCAN_LEAVING_OP = 7,
++	SCAN_LEAVE_OP = 8,
++
++	/* SW antenna diversity (before linked) */
++	SCAN_SW_ANTDIV_BL = 9,
++
++	/* legacy p2p */
++	SCAN_TO_P2P_LISTEN = 10,
++	SCAN_P2P_LISTEN = 11,
++
++	SCAN_COMPLETE = 12,
++	SCAN_STATE_MAX,
++};
++
++const char *scan_state_str(u8 state);
++
++enum ss_backop_flag {
++	SS_BACKOP_EN = BIT0, /* backop when linked */
++	SS_BACKOP_EN_NL = BIT1, /* backop even when no linked */
++
++	SS_BACKOP_PS_ANNC = BIT4,
++	SS_BACKOP_TX_RESUME = BIT5,
++};
++
++struct ss_res {
++	u8 state;
++	u8 next_state; /* will set to state on next cmd hdl */
++	int	bss_cnt;
++	int	channel_idx;
++	int	scan_mode;
++	u16 scan_ch_ms;
++	u8 rx_ampdu_accept;
++	u8 rx_ampdu_size;
++#ifdef CONFIG_SCAN_BACKOP
++	u8 backop_flags_sta; /* policy for station mode*/
++	u8 backop_flags_ap; /* policy for ap mode */
++	u8 backop_flags; /* per backop runtime decision */
++	u8 scan_cnt;
++	u8 scan_cnt_max;
++	u32 backop_time; /* the start time of backop */
++	u16 backop_ms;
++#endif
++#if defined(CONFIG_ANTENNA_DIVERSITY) || defined(DBG_SCAN_SW_ANTDIV_BL)
++	u8 is_sw_antdiv_bl_scan;
++#endif
++	u8 ssid_num;
++	u8 ch_num;
++	NDIS_802_11_SSID ssid[RTW_SSID_SCAN_AMOUNT];
++	struct rtw_ieee80211_channel ch[RTW_CHANNEL_SCAN_AMOUNT];
++};
++
++/* #define AP_MODE				0x0C */
++/* #define STATION_MODE	0x08 */
++/* #define AD_HOC_MODE		0x04 */
++/* #define NO_LINK_MODE	0x00 */
++
++#define	WIFI_FW_NULL_STATE			_HW_STATE_NOLINK_
++#define	WIFI_FW_STATION_STATE		_HW_STATE_STATION_
++#define	WIFI_FW_AP_STATE				_HW_STATE_AP_
++#define	WIFI_FW_ADHOC_STATE			_HW_STATE_ADHOC_
++
++#define	WIFI_FW_AUTH_NULL			0x00000100
++#define	WIFI_FW_AUTH_STATE			0x00000200
++#define	WIFI_FW_AUTH_SUCCESS			0x00000400
++
++#define	WIFI_FW_ASSOC_STATE			0x00002000
++#define	WIFI_FW_ASSOC_SUCCESS		0x00004000
++
++#define	WIFI_FW_LINKING_STATE		(WIFI_FW_AUTH_NULL | WIFI_FW_AUTH_STATE | WIFI_FW_AUTH_SUCCESS | WIFI_FW_ASSOC_STATE)
++
++#ifdef CONFIG_TDLS
++enum TDLS_option {
++	TDLS_ESTABLISHED = 1,
++	TDLS_ISSUE_PTI,
++	TDLS_CH_SW_RESP,
++	TDLS_CH_SW_PREPARE,
++	TDLS_CH_SW_START,
++	TDLS_CH_SW_TO_OFF_CHNL,
++	TDLS_CH_SW_TO_BASE_CHNL_UNSOLICITED,
++	TDLS_CH_SW_TO_BASE_CHNL,
++	TDLS_CH_SW_END_TO_BASE_CHNL,
++	TDLS_CH_SW_END,
++	TDLS_RS_RCR,
++	TDLS_TEARDOWN_STA,
++	TDLS_TEARDOWN_STA_LOCALLY,
++	maxTDLS,
++};
++
++#endif /* CONFIG_TDLS */
++
++/*
++ * Usage:
++ * When one iface acted as AP mode and the other iface is STA mode and scanning,
++ * it should switch back to AP's operating channel periodically.
++ * Parameters info:
++ * When the driver scanned RTW_SCAN_NUM_OF_CH channels, it would switch back to AP's operating channel for
++ * RTW_BACK_OP_CH_MS milliseconds.
++ * Example:
++ * For chip supports 2.4G + 5GHz and AP mode is operating in channel 1,
++ * RTW_SCAN_NUM_OF_CH is 8, RTW_BACK_OP_CH_MS is 300
++ * When it's STA mode gets set_scan command,
++ * it would
++ * 1. Doing the scan on channel 1.2.3.4.5.6.7.8
++ * 2. Back to channel 1 for 300 milliseconds
++ * 3. Go through doing site survey on channel 9.10.11.36.40.44.48.52
++ * 4. Back to channel 1 for 300 milliseconds
++ * 5. ... and so on, till survey done.
++ */
++#if defined(CONFIG_ATMEL_RC_PATCH)
++	#define RTW_SCAN_NUM_OF_CH 2
++	#define RTW_BACK_OP_CH_MS 200
++#else
++	#define RTW_SCAN_NUM_OF_CH 3
++	#define RTW_BACK_OP_CH_MS 400
++#endif
++
++struct mlme_ext_info {
++	u32	state;
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++	u8	hw_media_state;
++#endif
++	u32	reauth_count;
++	u32	reassoc_count;
++	u32	link_count;
++	u32	auth_seq;
++	u32	auth_algo;	/* 802.11 auth, could be open, shared, auto */
++	u32	authModeToggle;
++	u32	enc_algo;/* encrypt algorithm; */
++	u32	key_index;	/* this is only valid for legendary wep, 0~3 for key id. */
++	u32	iv;
++	u8	chg_txt[128];
++	u16	aid;
++	u16	bcn_interval;
++	u16	capability;
++	u8	assoc_AP_vendor;
++	u8	slotTime;
++	u8	preamble_mode;
++	u8	WMM_enable;
++	u8	ERP_enable;
++	u8	ERP_IE;
++	u8	HT_enable;
++	u8	HT_caps_enable;
++	u8	HT_info_enable;
++	u8	HT_protection;
++	u8	turboMode_cts2self;
++	u8	turboMode_rtsen;
++	u8	SM_PS;
++	u8	agg_enable_bitmap;
++	u8	ADDBA_retry_count;
++	u8	candidate_tid_bitmap;
++	u8	dialogToken;
++	/* Accept ADDBA Request */
++	BOOLEAN bAcceptAddbaReq;
++	u8	bwmode_updated;
++	u8	hidden_ssid_mode;
++	u8	VHT_enable;
++
++	struct ADDBA_request		ADDBA_req;
++	struct WMM_para_element	WMM_param;
++	struct HT_caps_element	HT_caps;
++	struct HT_info_element		HT_info;
++	WLAN_BSSID_EX			network;/* join network or bss_network, if in ap mode, it is the same to cur_network.network */
++};
++
++/* The channel information about this channel including joining, scanning, and power constraints. */
++typedef struct _RT_CHANNEL_INFO {
++	u8				ChannelNum;		/* The channel number. */
++	RT_SCAN_TYPE	ScanType;		/* Scan type such as passive or active scan. */
++	/* u16				ScanPeriod;		 */ /* Listen time in millisecond in this channel. */
++	/* s32				MaxTxPwrDbm;	 */ /* Max allowed tx power. */
++	/* u32				ExInfo;			 */ /* Extended Information for this channel. */
++#ifdef CONFIG_FIND_BEST_CHANNEL
++	u32				rx_count;
++#endif
++#ifdef CONFIG_DFS_MASTER
++	u32 non_ocp_end_time;
++#endif
++} RT_CHANNEL_INFO, *PRT_CHANNEL_INFO;
++
++#define DFS_MASTER_TIMER_MS 100
++#define CAC_TIME_MS (60*1000)
++#define CAC_TIME_CE_MS (10*60*1000)
++#define NON_OCP_TIME_MS (30*60*1000)
++
++void rtw_rfctl_init(_adapter *adapter);
++
++#ifdef CONFIG_DFS_MASTER
++struct rf_ctl_t;
++#define CH_IS_NON_OCP(rt_ch_info) (time_after((unsigned long)(rt_ch_info)->non_ocp_end_time, (unsigned long)rtw_get_current_time()))
++bool rtw_is_cac_reset_needed(_adapter *adapter, u8 ch, u8 bw, u8 offset);
++bool _rtw_rfctl_overlap_radar_detect_ch(struct rf_ctl_t *rfctl, u8 ch, u8 bw, u8 offset);
++bool rtw_rfctl_overlap_radar_detect_ch(struct rf_ctl_t *rfctl);
++bool rtw_rfctl_is_tx_blocked_by_ch_waiting(struct rf_ctl_t *rfctl);
++bool rtw_chset_is_ch_non_ocp(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset);
++void rtw_chset_update_non_ocp(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset);
++void rtw_chset_update_non_ocp_ms(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset, int ms);
++u32 rtw_get_ch_waiting_ms(_adapter *adapter, u8 ch, u8 bw, u8 offset, u32 *r_non_ocp_ms, u32 *r_cac_ms);
++void rtw_reset_cac(_adapter *adapter, u8 ch, u8 bw, u8 offset);
++bool rtw_choose_shortest_waiting_ch(_adapter *adapter, u8 req_bw, u8 *dec_ch, u8 *dec_bw, u8 *dec_offset, u8 d_flags);
++#else
++#define CH_IS_NON_OCP(rt_ch_info) 0
++#define rtw_chset_is_ch_non_ocp(ch_set, ch, bw, offset) _FALSE
++#define rtw_rfctl_is_tx_blocked_by_ch_waiting(rfctl) _FALSE
++#endif
++
++enum {
++	RTW_CHF_2G = BIT0,
++	RTW_CHF_5G = BIT1,
++	RTW_CHF_DFS = BIT2,
++	RTW_CHF_LONG_CAC = BIT3,
++	RTW_CHF_NON_DFS = BIT4,
++	RTW_CHF_NON_LONG_CAC = BIT5,
++	RTW_CHF_NON_OCP = BIT6,
++};
++void dump_country_chplan(void *sel, const struct country_chplan *ent);
++void dump_country_chplan_map(void *sel);
++void dump_chplan_id_list(void *sel);
++void dump_chplan_test(void *sel);
++void dump_chset(void *sel, RT_CHANNEL_INFO *ch_set);
++void dump_cur_chset(void *sel, _adapter *adapter);
++
++int rtw_ch_set_search_ch(RT_CHANNEL_INFO *ch_set, const u32 ch);
++u8 rtw_chset_is_chbw_valid(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset);
++
++bool rtw_mlme_band_check(_adapter *adapter, const u32 ch);
++
++
++enum {
++	BAND_24G = BIT0,
++	BAND_5G = BIT1,
++};
++void RTW_SET_SCAN_BAND_SKIP(_adapter *padapter, int skip_band);
++void RTW_CLR_SCAN_BAND_SKIP(_adapter *padapter, int skip_band);
++int RTW_GET_SCAN_BAND_SKIP(_adapter *padapter);
++
++bool rtw_mlme_ignore_chan(_adapter *adapter, const u32 ch);
++
++/* P2P_MAX_REG_CLASSES - Maximum number of regulatory classes */
++#define P2P_MAX_REG_CLASSES 10
++
++/* P2P_MAX_REG_CLASS_CHANNELS - Maximum number of channels per regulatory class */
++#define P2P_MAX_REG_CLASS_CHANNELS 20
++
++/* struct p2p_channels - List of supported channels */
++struct p2p_channels {
++	/* struct p2p_reg_class - Supported regulatory class */
++	struct p2p_reg_class {
++		/* reg_class - Regulatory class (IEEE 802.11-2007, Annex J) */
++		u8 reg_class;
++
++		/* channel - Supported channels */
++		u8 channel[P2P_MAX_REG_CLASS_CHANNELS];
++
++		/* channels - Number of channel entries in use */
++		size_t channels;
++	} reg_class[P2P_MAX_REG_CLASSES];
++
++	/* reg_classes - Number of reg_class entries in use */
++	size_t reg_classes;
++};
++
++struct p2p_oper_class_map {
++	enum hw_mode {IEEE80211G, IEEE80211A} mode;
++	u8 op_class;
++	u8 min_chan;
++	u8 max_chan;
++	u8 inc;
++	enum { BW20, BW40PLUS, BW40MINUS } bw;
++};
++
++struct mlme_ext_priv {
++	_adapter	*padapter;
++	u8	mlmeext_init;
++	ATOMIC_T		event_seq;
++	u16	mgnt_seq;
++#ifdef CONFIG_IEEE80211W
++	u16	sa_query_seq;
++	u64 mgnt_80211w_IPN;
++	u64 mgnt_80211w_IPN_rx;
++#endif /* CONFIG_IEEE80211W */
++	/* struct fw_priv 	fwpriv; */
++
++	unsigned char	cur_channel;
++	unsigned char	cur_bwmode;
++	unsigned char	cur_ch_offset;/* PRIME_CHNL_OFFSET */
++	unsigned char	cur_wireless_mode;	/* NETWORK_TYPE */
++
++	unsigned char	max_chan_nums;
++	RT_CHANNEL_INFO		channel_set[MAX_CHANNEL_NUM];
++	struct p2p_channels channel_list;
++	unsigned char	basicrate[NumRates];
++	unsigned char	datarate[NumRates];
++#ifdef CONFIG_80211N_HT
++	unsigned char default_supported_mcs_set[16];
++#endif
++
++	struct ss_res		sitesurvey_res;
++	struct mlme_ext_info	mlmext_info;/* for sta/adhoc mode, including current scanning/connecting/connected related info.
++                                                      * for ap mode, network includes ap's cap_info */
++	_timer		survey_timer;
++	_timer		link_timer;
++#ifdef CONFIG_RTW_80211R
++	_timer		ft_link_timer;
++	_timer		ft_roam_timer;
++#endif
++
++	/* _timer		ADDBA_timer; */
++	u32 last_scan_time;
++	u8	scan_abort;
++	u8	tx_rate; /* TXRATE when USERATE is set. */
++
++	u32	retry; /* retry for issue probereq */
++
++	u64 TSFValue;
++
++	/* for LPS-32K to adaptive bcn early and timeout */
++	u8 adaptive_tsf_done;
++	u32 bcn_delay_cnt[9];
++	u32 bcn_delay_ratio[9];
++	u32 bcn_cnt;
++	u8 DrvBcnEarly;
++	u8 DrvBcnTimeOut;
++
++#ifdef CONFIG_AP_MODE
++	unsigned char bstart_bss;
++#endif
++
++#ifdef CONFIG_80211D
++	u8 update_channel_plan_by_ap_done;
++#endif
++	/* recv_decache check for Action_public frame */
++	u8 action_public_dialog_token;
++	u16	 action_public_rxseq;
++
++	/* #ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK */
++	u8 active_keep_alive_check;
++	/* #endif */
++#ifdef DBG_FIXED_CHAN
++	u8 fixed_chan;
++#endif
++	/* set hw sync bcn tsf register or not */
++	u8 en_hw_update_tsf;
++};
++
++static inline u8 check_mlmeinfo_state(struct mlme_ext_priv *plmeext, sint state)
++{
++	if ((plmeext->mlmext_info.state & 0x03) == state)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++#define mlmeext_msr(mlmeext) ((mlmeext)->mlmext_info.state & 0x03)
++#define mlmeext_scan_state(mlmeext) ((mlmeext)->sitesurvey_res.state)
++#define mlmeext_scan_state_str(mlmeext) scan_state_str((mlmeext)->sitesurvey_res.state)
++#define mlmeext_chk_scan_state(mlmeext, _state) ((mlmeext)->sitesurvey_res.state == (_state))
++#define mlmeext_set_scan_state(mlmeext, _state) \
++	do { \
++		((mlmeext)->sitesurvey_res.state = (_state)); \
++		((mlmeext)->sitesurvey_res.next_state = (_state)); \
++		/* RTW_INFO("set_scan_state:%s\n", scan_state_str(_state)); */ \
++	} while (0)
++
++#define mlmeext_scan_next_state(mlmeext) ((mlmeext)->sitesurvey_res.next_state)
++#define mlmeext_set_scan_next_state(mlmeext, _state) \
++	do { \
++		((mlmeext)->sitesurvey_res.next_state = (_state)); \
++		/* RTW_INFO("set_scan_next_state:%s\n", scan_state_str(_state)); */ \
++	} while (0)
++
++#ifdef CONFIG_SCAN_BACKOP
++#define mlmeext_scan_backop_flags(mlmeext) ((mlmeext)->sitesurvey_res.backop_flags)
++#define mlmeext_chk_scan_backop_flags(mlmeext, flags) ((mlmeext)->sitesurvey_res.backop_flags & (flags))
++#define mlmeext_assign_scan_backop_flags(mlmeext, flags) \
++	do { \
++		((mlmeext)->sitesurvey_res.backop_flags = (flags)); \
++		RTW_INFO("assign_scan_backop_flags:0x%02x\n", (mlmeext)->sitesurvey_res.backop_flags); \
++	} while (0)
++
++#define mlmeext_scan_backop_flags_sta(mlmeext) ((mlmeext)->sitesurvey_res.backop_flags_sta)
++#define mlmeext_chk_scan_backop_flags_sta(mlmeext, flags) ((mlmeext)->sitesurvey_res.backop_flags_sta & (flags))
++#define mlmeext_assign_scan_backop_flags_sta(mlmeext, flags) \
++	do { \
++		((mlmeext)->sitesurvey_res.backop_flags_sta = (flags)); \
++	} while (0)
++
++#define mlmeext_scan_backop_flags_ap(mlmeext) ((mlmeext)->sitesurvey_res.backop_flags_ap)
++#define mlmeext_chk_scan_backop_flags_ap(mlmeext, flags) ((mlmeext)->sitesurvey_res.backop_flags_ap & (flags))
++#define mlmeext_assign_scan_backop_flags_ap(mlmeext, flags) \
++	do { \
++		((mlmeext)->sitesurvey_res.backop_flags_ap = (flags)); \
++	} while (0)
++#else
++#define mlmeext_scan_backop_flags(mlmeext) (0)
++#define mlmeext_chk_scan_backop_flags(mlmeext, flags) (0)
++#define mlmeext_assign_scan_backop_flags(mlmeext, flags) do {} while (0)
++
++#define mlmeext_scan_backop_flags_sta(mlmeext) (0)
++#define mlmeext_chk_scan_backop_flags_sta(mlmeext, flags) (0)
++#define mlmeext_assign_scan_backop_flags_sta(mlmeext, flags) do {} while (0)
++
++#define mlmeext_scan_backop_flags_ap(mlmeext) (0)
++#define mlmeext_chk_scan_backop_flags_ap(mlmeext, flags) (0)
++#define mlmeext_assign_scan_backop_flags_ap(mlmeext, flags) do {} while (0)
++#endif
++
++void init_mlme_default_rate_set(_adapter *padapter);
++int init_mlme_ext_priv(_adapter *padapter);
++int init_hw_mlme_ext(_adapter *padapter);
++void free_mlme_ext_priv(struct mlme_ext_priv *pmlmeext);
++extern void init_mlme_ext_timer(_adapter *padapter);
++extern void init_addba_retry_timer(_adapter *padapter, struct sta_info *psta);
++extern struct xmit_frame *alloc_mgtxmitframe(struct xmit_priv *pxmitpriv);
++struct xmit_frame *alloc_mgtxmitframe_once(struct xmit_priv *pxmitpriv);
++
++/* void fill_fwpriv(_adapter * padapter, struct fw_priv *pfwpriv); */
++#ifdef CONFIG_GET_RAID_BY_DRV
++unsigned char networktype_to_raid(_adapter *adapter, struct sta_info *psta);
++unsigned char networktype_to_raid_ex(_adapter *adapter, struct sta_info *psta);
++#endif
++u8 judge_network_type(_adapter *padapter, unsigned char *rate, int ratelen);
++void get_rate_set(_adapter *padapter, unsigned char *pbssrate, int *bssrate_len);
++void set_mcs_rate_by_mask(u8 *mcs_set, u32 mask);
++void UpdateBrateTbl(_adapter *padapter, u8 *mBratesOS);
++void UpdateBrateTblForSoftAP(u8 *bssrateset, u32 bssratelen);
++void change_band_update_ie(_adapter *padapter, WLAN_BSSID_EX *pnetwork, u8 ch);
++
++void Set_MSR(_adapter *padapter, u8 type);
++
++u8 rtw_get_oper_ch(_adapter *adapter);
++void rtw_set_oper_ch(_adapter *adapter, u8 ch);
++u8 rtw_get_oper_bw(_adapter *adapter);
++void rtw_set_oper_bw(_adapter *adapter, u8 bw);
++u8 rtw_get_oper_choffset(_adapter *adapter);
++void rtw_set_oper_choffset(_adapter *adapter, u8 offset);
++u8	rtw_get_center_ch(u8 channel, u8 chnl_bw, u8 chnl_offset);
++u32 rtw_get_on_oper_ch_time(_adapter *adapter);
++u32 rtw_get_on_cur_ch_time(_adapter *adapter);
++
++u8 rtw_get_offset_by_chbw(u8 ch, u8 bw, u8 *r_offset);
++u8 rtw_get_offset_by_ch(u8 channel);
++
++void set_channel_bwmode(_adapter *padapter, unsigned char channel, unsigned char channel_offset, unsigned short bwmode);
++
++unsigned int decide_wait_for_beacon_timeout(unsigned int bcn_interval);
++
++void _clear_cam_entry(_adapter *padapter, u8 entry);
++void write_cam_from_cache(_adapter *adapter, u8 id);
++void rtw_sec_cam_swap(_adapter *adapter, u8 cam_id_a, u8 cam_id_b);
++void rtw_clean_dk_section(_adapter *adapter);
++void rtw_clean_hw_dk_cam(_adapter *adapter);
++
++/* modify both HW and cache */
++void write_cam(_adapter *padapter, u8 id, u16 ctrl, u8 *mac, u8 *key);
++void clear_cam_entry(_adapter *padapter, u8 id);
++
++/* modify cache only */
++void write_cam_cache(_adapter *adapter, u8 id, u16 ctrl, u8 *mac, u8 *key);
++void clear_cam_cache(_adapter *adapter, u8 id);
++
++void invalidate_cam_all(_adapter *padapter);
++void CAM_empty_entry(PADAPTER Adapter, u8 ucIndex);
++
++void flush_all_cam_entry(_adapter *padapter);
++
++BOOLEAN IsLegal5GChannel(PADAPTER Adapter, u8 channel);
++
++void site_survey(_adapter *padapter, u8 survey_channel, RT_SCAN_TYPE ScanType);
++u8 collect_bss_info(_adapter *padapter, union recv_frame *precv_frame, WLAN_BSSID_EX *bssid);
++void update_network(WLAN_BSSID_EX *dst, WLAN_BSSID_EX *src, _adapter *padapter, bool update_ie);
++
++int get_bsstype(unsigned short capability);
++u8 *get_my_bssid(WLAN_BSSID_EX *pnetwork);
++u16 get_beacon_interval(WLAN_BSSID_EX *bss);
++
++int is_client_associated_to_ap(_adapter *padapter);
++int is_client_associated_to_ibss(_adapter *padapter);
++int is_IBSS_empty(_adapter *padapter);
++
++unsigned char check_assoc_AP(u8 *pframe, uint len);
++
++int WMM_param_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs	pIE);
++#ifdef CONFIG_WFD
++void rtw_process_wfd_ie(_adapter *adapter, u8 *ie, u8 ie_len, const char *tag);
++void rtw_process_wfd_ies(_adapter *adapter, u8 *ies, u8 ies_len, const char *tag);
++#endif
++void WMMOnAssocRsp(_adapter *padapter);
++
++void HT_caps_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE);
++void HT_info_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE);
++void HTOnAssocRsp(_adapter *padapter);
++
++void ERP_IE_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE);
++void VCS_update(_adapter *padapter, struct sta_info *psta);
++void	update_ldpc_stbc_cap(struct sta_info *psta);
++
++int rtw_get_bcn_keys(ADAPTER *Adapter, u8 *pframe, u32 packet_len,
++		struct beacon_keys *recv_beacon);
++void rtw_dump_bcn_keys(struct beacon_keys *recv_beacon);
++int rtw_check_bcn_info(ADAPTER *Adapter, u8 *pframe, u32 packet_len);
++void update_beacon_info(_adapter *padapter, u8 *pframe, uint len, struct sta_info *psta);
++#ifdef CONFIG_DFS
++void process_csa_ie(_adapter *padapter, u8 *pframe, uint len);
++#endif /* CONFIG_DFS */
++void update_capinfo(PADAPTER Adapter, u16 updateCap);
++void update_wireless_mode(_adapter *padapter);
++void update_tx_basic_rate(_adapter *padapter, u8 modulation);
++void update_sta_basic_rate(struct sta_info *psta, u8 wireless_mode);
++int rtw_ies_get_supported_rate(u8 *ies, uint ies_len, u8 *rate_set, u8 *rate_num);
++
++/* for sta/adhoc mode */
++void update_sta_info(_adapter *padapter, struct sta_info *psta);
++unsigned int update_basic_rate(unsigned char *ptn, unsigned int ptn_sz);
++unsigned int update_supported_rate(unsigned char *ptn, unsigned int ptn_sz);
++unsigned int update_MCS_rate(struct HT_caps_element *pHT_caps);
++void Update_RA_Entry(_adapter *padapter, struct sta_info *psta);
++void set_sta_rate(_adapter *padapter, struct sta_info *psta);
++
++unsigned int receive_disconnect(_adapter *padapter, unsigned char *MacAddr, unsigned short reason, u8 locally_generated);
++
++unsigned char get_highest_rate_idx(u32 mask);
++int support_short_GI(_adapter *padapter, struct HT_caps_element *pHT_caps, u8 bwmode);
++unsigned int is_ap_in_tkip(_adapter *padapter);
++unsigned int is_ap_in_wep(_adapter *padapter);
++unsigned int should_forbid_n_rate(_adapter *padapter);
++
++bool _rtw_camctl_chk_cap(_adapter *adapter, u8 cap);
++void _rtw_camctl_set_flags(_adapter *adapter, u32 flags);
++void rtw_camctl_set_flags(_adapter *adapter, u32 flags);
++void _rtw_camctl_clr_flags(_adapter *adapter, u32 flags);
++void rtw_camctl_clr_flags(_adapter *adapter, u32 flags);
++bool _rtw_camctl_chk_flags(_adapter *adapter, u32 flags);
++
++struct sec_cam_bmp;
++void dump_sec_cam_map(void *sel, struct sec_cam_bmp *map, u8 max_num);
++void rtw_sec_cam_map_clr_all(struct sec_cam_bmp *map);
++
++bool _rtw_camid_is_gk(_adapter *adapter, u8 cam_id);
++bool rtw_camid_is_gk(_adapter *adapter, u8 cam_id);
++s16 rtw_camid_search(_adapter *adapter, u8 *addr, s16 kid, s8 gk);
++s16 rtw_camid_alloc(_adapter *adapter, struct sta_info *sta, u8 kid, bool *used);
++void rtw_camid_free(_adapter *adapter, u8 cam_id);
++u8 rtw_get_sec_camid(_adapter *adapter, u8 max_bk_key_num, u8 *sec_key_id);
++
++struct macid_bmp;
++struct macid_ctl_t;
++void dump_macid_map(void *sel, struct macid_bmp *map, u8 max_num);
++bool rtw_macid_is_set(struct macid_bmp *map, u8 id);
++bool rtw_macid_is_used(struct macid_ctl_t *macid_ctl, u8 id);
++bool rtw_macid_is_bmc(struct macid_ctl_t *macid_ctl, u8 id);
++s8 rtw_macid_get_if_g(struct macid_ctl_t *macid_ctl, u8 id);
++s8 rtw_macid_get_ch_g(struct macid_ctl_t *macid_ctl, u8 id);
++void rtw_alloc_macid(_adapter *padapter, struct sta_info *psta);
++void rtw_release_macid(_adapter *padapter, struct sta_info *psta);
++u8 rtw_search_max_mac_id(_adapter *padapter);
++void rtw_macid_ctl_set_h2c_msr(struct macid_ctl_t *macid_ctl, u8 id, u8 h2c_msr);
++void rtw_macid_ctl_set_bw(struct macid_ctl_t *macid_ctl, u8 id, u8 bw);
++void rtw_macid_ctl_set_vht_en(struct macid_ctl_t *macid_ctl, u8 id, u8 en);
++void rtw_macid_ctl_set_rate_bmp0(struct macid_ctl_t *macid_ctl, u8 id, u32 bmp);
++void rtw_macid_ctl_set_rate_bmp1(struct macid_ctl_t *macid_ctl, u8 id, u32 bmp);
++void rtw_macid_ctl_init(struct macid_ctl_t *macid_ctl);
++void rtw_macid_ctl_deinit(struct macid_ctl_t *macid_ctl);
++u8 rtw_iface_bcmc_id_get(_adapter *padapter);
++
++u32 report_join_res(_adapter *padapter, int res);
++void report_survey_event(_adapter *padapter, union recv_frame *precv_frame);
++void report_surveydone_event(_adapter *padapter);
++u32 report_del_sta_event(_adapter *padapter, unsigned char *MacAddr, unsigned short reason, bool enqueue, u8 locally_generated);
++void report_add_sta_event(_adapter *padapter, unsigned char *MacAddr);
++bool rtw_port_switch_chk(_adapter *adapter);
++void report_wmm_edca_update(_adapter *padapter);
++
++void beacon_timing_control(_adapter *padapter);
++u8 chk_bmc_sleepq_cmd(_adapter *padapter);
++extern u8 set_tx_beacon_cmd(_adapter *padapter);
++unsigned int setup_beacon_frame(_adapter *padapter, unsigned char *beacon_frame);
++void update_mgnt_tx_rate(_adapter *padapter, u8 rate);
++void update_monitor_frame_attrib(_adapter *padapter, struct pkt_attrib *pattrib);
++void update_mgntframe_attrib(_adapter *padapter, struct pkt_attrib *pattrib);
++void update_mgntframe_attrib_addr(_adapter *padapter, struct xmit_frame *pmgntframe);
++void dump_mgntframe(_adapter *padapter, struct xmit_frame *pmgntframe);
++s32 dump_mgntframe_and_wait(_adapter *padapter, struct xmit_frame *pmgntframe, int timeout_ms);
++s32 dump_mgntframe_and_wait_ack(_adapter *padapter, struct xmit_frame *pmgntframe);
++s32 dump_mgntframe_and_wait_ack_timeout(_adapter *padapter, struct xmit_frame *pmgntframe, int timeout_ms);
++
++#ifdef CONFIG_P2P
++void issue_probersp_p2p(_adapter *padapter, unsigned char *da);
++void issue_p2p_provision_request(_adapter *padapter, u8 *pssid, u8 ussidlen, u8 *pdev_raddr);
++void issue_p2p_GO_request(_adapter *padapter, u8 *raddr);
++void issue_probereq_p2p(_adapter *padapter, u8 *da);
++int issue_probereq_p2p_ex(_adapter *adapter, u8 *da, int try_cnt, int wait_ms);
++void issue_p2p_invitation_response(_adapter *padapter, u8 *raddr, u8 dialogToken, u8 success);
++void issue_p2p_invitation_request(_adapter *padapter, u8 *raddr);
++#endif /* CONFIG_P2P */
++void issue_beacon(_adapter *padapter, int timeout_ms);
++void issue_probersp(_adapter *padapter, unsigned char *da, u8 is_valid_p2p_probereq);
++void _issue_assocreq(_adapter *padapter, u8 is_assoc);
++void issue_assocreq(_adapter *padapter);
++void issue_reassocreq(_adapter *padapter);
++void issue_asocrsp(_adapter *padapter, unsigned short status, struct sta_info *pstat, int pkt_type);
++void issue_auth(_adapter *padapter, struct sta_info *psta, unsigned short status);
++void issue_probereq(_adapter *padapter, NDIS_802_11_SSID *pssid, u8 *da);
++s32 issue_probereq_ex(_adapter *padapter, NDIS_802_11_SSID *pssid, u8 *da, u8 ch, bool append_wps, int try_cnt, int wait_ms);
++int issue_nulldata(_adapter *padapter, unsigned char *da, unsigned int power_mode, int try_cnt, int wait_ms);
++s32 issue_nulldata_in_interrupt(PADAPTER padapter, u8 *da, unsigned int power_mode);
++int issue_qos_nulldata(_adapter *padapter, unsigned char *da, u16 tid, int try_cnt, int wait_ms);
++int issue_deauth(_adapter *padapter, unsigned char *da, unsigned short reason);
++int issue_deauth_ex(_adapter *padapter, u8 *da, unsigned short reason, int try_cnt, int wait_ms);
++void issue_action_spct_ch_switch(_adapter *padapter, u8 *ra, u8 new_ch, u8 ch_offset);
++void issue_addba_req(_adapter *adapter, unsigned char *ra, u8 tid);
++void issue_addba_rsp(_adapter *adapter, unsigned char *ra, u8 tid, u16 status, u8 size);
++u8 issue_addba_rsp_wait_ack(_adapter *adapter, unsigned char *ra, u8 tid, u16 status, u8 size, int try_cnt, int wait_ms);
++void issue_del_ba(_adapter *adapter, unsigned char *ra, u8 tid, u16 reason, u8 initiator);
++int issue_del_ba_ex(_adapter *adapter, unsigned char *ra, u8 tid, u16 reason, u8 initiator, int try_cnt, int wait_ms);
++
++#ifdef CONFIG_IEEE80211W
++void issue_action_SA_Query(_adapter *padapter, unsigned char *raddr, unsigned char action, unsigned short tid, u8 key_type);
++int issue_deauth_11w(_adapter *padapter, unsigned char *da, unsigned short reason, u8 key_type);
++extern void init_dot11w_expire_timer(_adapter *padapter, struct sta_info *psta);
++#endif /* CONFIG_IEEE80211W */
++int issue_action_SM_PS(_adapter *padapter ,  unsigned char *raddr , u8 NewMimoPsMode);
++int issue_action_SM_PS_wait_ack(_adapter *padapter, unsigned char *raddr, u8 NewMimoPsMode, int try_cnt, int wait_ms);
++
++unsigned int send_delba_sta_tid(_adapter *adapter, u8 initiator, struct sta_info *sta, u8 tid, u8 force);
++unsigned int send_delba_sta_tid_wait_ack(_adapter *adapter, u8 initiator, struct sta_info *sta, u8 tid, u8 force);
++
++unsigned int send_delba(_adapter *padapter, u8 initiator, u8 *addr);
++unsigned int send_beacon(_adapter *padapter);
++
++void start_clnt_assoc(_adapter *padapter);
++void start_clnt_auth(_adapter *padapter);
++void start_clnt_join(_adapter *padapter);
++void start_create_ibss(_adapter *padapter);
++
++unsigned int OnAssocReq(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAssocRsp(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnProbeReq(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnProbeRsp(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int DoReserved(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnBeacon(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAtim(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnDisassoc(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAuth(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAuthClient(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnDeAuth(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAction(_adapter *padapter, union recv_frame *precv_frame);
++
++unsigned int on_action_spct(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAction_qos(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAction_dls(_adapter *padapter, union recv_frame *precv_frame);
++#ifdef CONFIG_RTW_WNM
++unsigned int on_action_wnm(_adapter *adapter, union recv_frame *rframe);
++#endif
++
++#define RX_AMPDU_ACCEPT_INVALID 0xFF
++#define RX_AMPDU_SIZE_INVALID 0xFF
++
++enum rx_ampdu_reason {
++	RX_AMPDU_DRV_FIXED = 1,
++	RX_AMPDU_BTCOEX = 2, /* not used, because BTCOEX has its own variable management */
++	RX_AMPDU_DRV_SCAN = 3,
++};
++u8 rtw_rx_ampdu_size(_adapter *adapter);
++bool rtw_rx_ampdu_is_accept(_adapter *adapter);
++bool rtw_rx_ampdu_set_size(_adapter *adapter, u8 size, u8 reason);
++bool rtw_rx_ampdu_set_accept(_adapter *adapter, u8 accept, u8 reason);
++u8 rx_ampdu_apply_sta_tid(_adapter *adapter, struct sta_info *sta, u8 tid, u8 accept, u8 size);
++u8 rx_ampdu_apply_sta(_adapter *adapter, struct sta_info *sta, u8 accept, u8 size);
++u16 rtw_rx_ampdu_apply(_adapter *adapter);
++
++unsigned int OnAction_back(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int on_action_public(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAction_ft(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAction_ht(_adapter *padapter, union recv_frame *precv_frame);
++#ifdef CONFIG_IEEE80211W
++unsigned int OnAction_sa_query(_adapter *padapter, union recv_frame *precv_frame);
++#endif /* CONFIG_IEEE80211W */
++unsigned int OnAction_wmm(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAction_vht(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAction_p2p(_adapter *padapter, union recv_frame *precv_frame);
++
++#ifdef CONFIG_RTW_80211R
++void start_clnt_ft_action(_adapter *padapter, u8 *pTargetAddr);
++void issue_action_ft_request(_adapter *padapter, u8 *pTargetAddr);
++void report_ft_event(_adapter *padapter);
++void report_ft_reassoc_event(_adapter *padapter, u8 *pMacAddr);
++void ft_link_timer_hdl(_adapter *padapter);
++void ft_roam_timer_hdl(_adapter *padapter);
++#endif
++void mlmeext_joinbss_event_callback(_adapter *padapter, int join_res);
++void mlmeext_sta_del_event_callback(_adapter *padapter);
++void mlmeext_sta_add_event_callback(_adapter *padapter, struct sta_info *psta);
++
++void linked_status_chk(_adapter *padapter, u8 from_timer);
++
++void _linked_info_dump(_adapter *padapter);
++
++void survey_timer_hdl(_adapter *padapter);
++void link_timer_hdl(_adapter *padapter);
++void addba_timer_hdl(struct sta_info *psta);
++#ifdef CONFIG_IEEE80211W
++void sa_query_timer_hdl(struct sta_info *psta);
++#endif /* CONFIG_IEEE80211W */
++#if 0
++void reauth_timer_hdl(_adapter *padapter);
++void reassoc_timer_hdl(_adapter *padapter);
++#endif
++
++#define set_survey_timer(mlmeext, ms) \
++	do { \
++		/*RTW_INFO("%s set_survey_timer(%p, %d)\n", __FUNCTION__, (mlmeext), (ms));*/ \
++		_set_timer(&(mlmeext)->survey_timer, (ms)); \
++	} while (0)
++
++#define set_link_timer(mlmeext, ms) \
++	do { \
++		/*RTW_INFO("%s set_link_timer(%p, %d)\n", __FUNCTION__, (mlmeext), (ms));*/ \
++		_set_timer(&(mlmeext)->link_timer, (ms)); \
++	} while (0)
++
++extern int cckrates_included(unsigned char *rate, int ratelen);
++extern int cckratesonly_included(unsigned char *rate, int ratelen);
++
++extern void process_addba_req(_adapter *padapter, u8 *paddba_req, u8 *addr);
++
++extern void update_TSF(struct mlme_ext_priv *pmlmeext, u8 *pframe, uint len);
++extern void correct_TSF(_adapter *padapter, struct mlme_ext_priv *pmlmeext);
++extern void adaptive_early_32k(struct mlme_ext_priv *pmlmeext, u8 *pframe, uint len);
++extern u8 traffic_status_watchdog(_adapter *padapter, u8 from_timer);
++
++
++void rtw_join_done_chk_ch(_adapter *padapter, int join_res);
++
++int rtw_chk_start_clnt_join(_adapter *padapter, u8 *ch, u8 *bw, u8 *offset);
++
++#ifdef CONFIG_PLATFORM_ARM_SUN8I
++	#define BUSY_TRAFFIC_SCAN_DENY_PERIOD	8000
++#else
++	#define BUSY_TRAFFIC_SCAN_DENY_PERIOD	12000
++#endif
++
++struct cmd_hdl {
++	uint	parmsize;
++	u8(*h2cfuns)(struct _ADAPTER *padapter, u8 *pbuf);
++};
++
++
++u8 read_macreg_hdl(_adapter *padapter, u8 *pbuf);
++u8 write_macreg_hdl(_adapter *padapter, u8 *pbuf);
++u8 read_bbreg_hdl(_adapter *padapter, u8 *pbuf);
++u8 write_bbreg_hdl(_adapter *padapter, u8 *pbuf);
++u8 read_rfreg_hdl(_adapter *padapter, u8 *pbuf);
++u8 write_rfreg_hdl(_adapter *padapter, u8 *pbuf);
++
++
++u8 NULL_hdl(_adapter *padapter, u8 *pbuf);
++u8 join_cmd_hdl(_adapter *padapter, u8 *pbuf);
++u8 disconnect_hdl(_adapter *padapter, u8 *pbuf);
++u8 createbss_hdl(_adapter *padapter, u8 *pbuf);
++u8 setopmode_hdl(_adapter *padapter, u8 *pbuf);
++u8 sitesurvey_cmd_hdl(_adapter *padapter, u8 *pbuf);
++u8 setauth_hdl(_adapter *padapter, u8 *pbuf);
++u8 setkey_hdl(_adapter *padapter, u8 *pbuf);
++u8 set_stakey_hdl(_adapter *padapter, u8 *pbuf);
++u8 set_assocsta_hdl(_adapter *padapter, u8 *pbuf);
++u8 del_assocsta_hdl(_adapter *padapter, u8 *pbuf);
++u8 add_ba_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 add_ba_rsp_hdl(_adapter *padapter, unsigned char *pbuf);
++
++void rtw_ap_wep_pk_setting(_adapter *adapter, struct sta_info *psta);
++
++u8 mlme_evt_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 h2c_msg_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 chk_bmc_sleepq_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 tx_beacon_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 set_ch_hdl(_adapter *padapter, u8 *pbuf);
++u8 set_chplan_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 led_blink_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 set_csa_hdl(_adapter *padapter, unsigned char *pbuf);	/* Kurt: Handling DFS channel switch announcement ie. */
++u8 tdls_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 run_in_thread_hdl(_adapter *padapter, u8 *pbuf);
++u8 rtw_getmacreg_hdl(_adapter *padapter, u8 *pbuf);
++
++#define GEN_DRV_CMD_HANDLER(size, cmd)	{size, &cmd ## _hdl},
++#define GEN_MLME_EXT_HANDLER(size, cmd)	{size, cmd},
++
++#ifdef _RTW_CMD_C_
++
++struct cmd_hdl wlancmds[] = {
++	GEN_DRV_CMD_HANDLER(sizeof(struct readMAC_parm), rtw_getmacreg) /*0*/
++	GEN_DRV_CMD_HANDLER(0, NULL)
++	GEN_DRV_CMD_HANDLER(0, NULL)
++	GEN_DRV_CMD_HANDLER(0, NULL)
++	GEN_DRV_CMD_HANDLER(0, NULL)
++	GEN_DRV_CMD_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL) /*10*/
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct joinbss_parm), join_cmd_hdl)  /*14*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct disconnect_parm), disconnect_hdl)
++	GEN_MLME_EXT_HANDLER(sizeof(struct createbss_parm), createbss_hdl)
++	GEN_MLME_EXT_HANDLER(sizeof(struct setopmode_parm), setopmode_hdl)
++	GEN_MLME_EXT_HANDLER(sizeof(struct sitesurvey_parm), sitesurvey_cmd_hdl)  /*18*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct setauth_parm), setauth_hdl)
++	GEN_MLME_EXT_HANDLER(sizeof(struct setkey_parm), setkey_hdl)  /*20*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct set_stakey_parm), set_stakey_hdl)
++	GEN_MLME_EXT_HANDLER(sizeof(struct set_assocsta_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct del_assocsta_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct setstapwrstate_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct setbasicrate_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct getbasicrate_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct setdatarate_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct getdatarate_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct setphyinfo_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct getphyinfo_parm), NULL)   /*30*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct setphy_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct getphy_parm), NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)	/*40*/
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct addBaReq_parm), add_ba_hdl)
++	GEN_MLME_EXT_HANDLER(sizeof(struct set_ch_parm), set_ch_hdl) /* 46 */
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL) /*50*/
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct Tx_Beacon_param), tx_beacon_hdl) /*55*/
++
++	GEN_MLME_EXT_HANDLER(0, mlme_evt_hdl) /*56*/
++	GEN_MLME_EXT_HANDLER(0, rtw_drvextra_cmd_hdl) /*57*/
++
++	GEN_MLME_EXT_HANDLER(0, h2c_msg_hdl) /*58*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct SetChannelPlan_param), set_chplan_hdl) /*59*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct LedBlink_param), led_blink_hdl) /*60*/
++
++	GEN_MLME_EXT_HANDLER(sizeof(struct SetChannelSwitch_param), set_csa_hdl) /*61*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct TDLSoption_param), tdls_hdl) /*62*/
++	GEN_MLME_EXT_HANDLER(0, chk_bmc_sleepq_hdl) /*63*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct RunInThread_param), run_in_thread_hdl) /*64*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct addBaRsp_parm), add_ba_rsp_hdl) /* 65 */
++};
++
++#endif
++
++struct C2HEvent_Header {
++
++#ifdef CONFIG_LITTLE_ENDIAN
++
++	unsigned int len:16;
++	unsigned int ID:8;
++	unsigned int seq:8;
++
++#elif defined(CONFIG_BIG_ENDIAN)
++
++	unsigned int seq:8;
++	unsigned int ID:8;
++	unsigned int len:16;
++
++#else
++
++#  error "Must be LITTLE or BIG Endian"
++
++#endif
++
++	unsigned int rsvd;
++
++};
++
++void rtw_dummy_event_callback(_adapter *adapter , u8 *pbuf);
++void rtw_fwdbg_event_callback(_adapter *adapter , u8 *pbuf);
++
++enum rtw_c2h_event {
++	GEN_EVT_CODE(_Read_MACREG) = 0, /*0*/
++	GEN_EVT_CODE(_Read_BBREG),
++	GEN_EVT_CODE(_Read_RFREG),
++	GEN_EVT_CODE(_Read_EEPROM),
++	GEN_EVT_CODE(_Read_EFUSE),
++	GEN_EVT_CODE(_Read_CAM),			/*5*/
++	GEN_EVT_CODE(_Get_BasicRate),
++	GEN_EVT_CODE(_Get_DataRate),
++	GEN_EVT_CODE(_Survey),	 /*8*/
++	GEN_EVT_CODE(_SurveyDone),	 /*9*/
++
++	GEN_EVT_CODE(_JoinBss) , /*10*/
++	GEN_EVT_CODE(_AddSTA),
++	GEN_EVT_CODE(_DelSTA),
++	GEN_EVT_CODE(_AtimDone) ,
++	GEN_EVT_CODE(_TX_Report),
++	GEN_EVT_CODE(_CCX_Report),			/*15*/
++	GEN_EVT_CODE(_DTM_Report),
++	GEN_EVT_CODE(_TX_Rate_Statistics),
++	GEN_EVT_CODE(_C2HLBK),
++	GEN_EVT_CODE(_FWDBG),
++	GEN_EVT_CODE(_C2HFEEDBACK),               /*20*/
++	GEN_EVT_CODE(_ADDBA),
++	GEN_EVT_CODE(_C2HBCN),
++	GEN_EVT_CODE(_ReportPwrState),		/* filen: only for PCIE, USB	 */
++	GEN_EVT_CODE(_CloseRF),				/* filen: only for PCIE, work around ASPM */
++	GEN_EVT_CODE(_WMM),					/*25*/
++#ifdef CONFIG_IEEE80211W
++	GEN_EVT_CODE(_TimeoutSTA),
++#endif /* CONFIG_IEEE80211W */
++#ifdef CONFIG_RTW_80211R
++	GEN_EVT_CODE(_FT_REASSOC),
++#endif
++	MAX_C2HEVT
++};
++
++
++#ifdef _RTW_MLME_EXT_C_
++
++static struct fwevent wlanevents[] = {
++	{0, rtw_dummy_event_callback},	/*0*/
++	{0, NULL},
++	{0, NULL},
++	{0, NULL},
++	{0, NULL},
++	{0, NULL},
++	{0, NULL},
++	{0, NULL},
++	{0, &rtw_survey_event_callback},		/*8*/
++	{sizeof(struct surveydone_event), &rtw_surveydone_event_callback},	/*9*/
++
++	{0, &rtw_joinbss_event_callback},		/*10*/
++	{sizeof(struct stassoc_event), &rtw_stassoc_event_callback},
++	{sizeof(struct stadel_event), &rtw_stadel_event_callback},
++	{0, &rtw_atimdone_event_callback},
++	{0, rtw_dummy_event_callback},
++	{0, NULL},	/*15*/
++	{0, NULL},
++	{0, NULL},
++	{0, NULL},
++	{0, rtw_fwdbg_event_callback},
++	{0, NULL},	 /*20*/
++	{0, NULL},
++	{0, NULL},
++	{0, &rtw_cpwm_event_callback},
++	{0, NULL},
++	{0, &rtw_wmm_event_callback}, /*25*/
++#ifdef CONFIG_IEEE80211W
++	{sizeof(struct stadel_event), &rtw_sta_timeout_event_callback},
++#endif /* CONFIG_IEEE80211W */
++#ifdef CONFIG_RTW_80211R
++	{sizeof(struct stassoc_event), &rtw_ft_reassoc_event_callback},
++#endif
++};
++
++#endif/* _RTW_MLME_EXT_C_ */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_mp.h b/drivers/net/wireless/rtl8723du/include/rtw_mp.h
+new file mode 100644
+index 0000000..f5536b1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_mp.h
+@@ -0,0 +1,935 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_MP_H_
++#define _RTW_MP_H_
++
++#define RTWPRIV_VER_INFO	1
++
++#define MAX_MP_XMITBUF_SZ	2048
++#define NR_MP_XMITFRAME		8
++
++struct mp_xmit_frame {
++	_list	list;
++
++	struct pkt_attrib attrib;
++
++	_pkt *pkt;
++
++	int frame_tag;
++
++	_adapter *padapter;
++
++#ifdef CONFIG_USB_HCI
++
++	/* insert urb, irp, and irpcnt info below... */
++	/* max frag_cnt = 8 */
++
++	u8 *mem_addr;
++	u32 sz[8];
++
++#if defined(PLATFORM_OS_XP) || defined(PLATFORM_LINUX)
++	PURB pxmit_urb[8];
++#endif
++
++#ifdef PLATFORM_OS_XP
++	PIRP pxmit_irp[8];
++#endif
++
++	u8 bpending[8];
++	sint ac_tag[8];
++	sint last[8];
++	uint irpcnt;
++	uint fragcnt;
++#endif /* CONFIG_USB_HCI */
++
++	uint mem[(MAX_MP_XMITBUF_SZ >> 2)];
++};
++
++struct mp_wiparam {
++	u32 bcompleted;
++	u32 act_type;
++	u32 io_offset;
++	u32 io_value;
++};
++
++typedef void(*wi_act_func)(void *padapter);
++
++#ifdef PLATFORM_WINDOWS
++struct mp_wi_cntx {
++	u8 bmpdrv_unload;
++
++	/* Work Item */
++	NDIS_WORK_ITEM mp_wi;
++	NDIS_EVENT mp_wi_evt;
++	_lock mp_wi_lock;
++	u8 bmp_wi_progress;
++	wi_act_func curractfunc;
++	/* Variable needed in each implementation of CurrActFunc. */
++	struct mp_wiparam param;
++};
++#endif
++
++struct mp_tx {
++	u8 stop;
++	u32 count, sended;
++	u8 payload;
++	struct pkt_attrib attrib;
++	/* struct tx_desc desc; */
++	/* u8 resvdtx[7]; */
++	u8 desc[TXDESC_SIZE];
++	u8 *pallocated_buf;
++	u8 *buf;
++	u32 buf_size, write_size;
++	_thread_hdl_ PktTxThread;
++};
++
++#define MP_MAX_LINES		1000
++#define MP_MAX_LINES_BYTES	256
++#define u1Byte u8
++#define s1Byte s8
++#define u4Byte u32
++#define s4Byte s32
++#define u1Byte		u8
++#define pu1Byte		u8*
++
++#define u2Byte		u16
++#define pu2Byte		u16*
++
++#define u4Byte		u32
++#define pu4Byte		u32*
++
++#define u8Byte		u64
++#define pu8Byte		u64*
++
++#define s1Byte		s8
++#define ps1Byte		s8*
++
++#define s2Byte		s16
++#define ps2Byte		s16*
++
++#define s4Byte		s32
++#define ps4Byte		s32*
++
++#define s8Byte		s64
++#define ps8Byte		s64*
++
++#define UCHAR u8
++#define USHORT u16
++#define UINT u32
++#define ULONG u32
++#define PULONG u32*
++
++typedef struct _RT_PMAC_PKT_INFO {
++	UCHAR			MCS;
++	UCHAR			Nss;
++	UCHAR			Nsts;
++	UINT			N_sym;
++	UCHAR			SIGA2B3;
++} RT_PMAC_PKT_INFO, *PRT_PMAC_PKT_INFO;
++
++typedef struct _RT_PMAC_TX_INFO {
++	u8			bEnPMacTx:1;		/* 0: Disable PMac 1: Enable PMac */
++	u8			Mode:3;				/* 0: Packet TX 3:Continuous TX */
++	u8			Ntx:4;				/* 0-7 */
++	u8			TX_RATE;			/* MPT_RATE_E */
++	u8			TX_RATE_HEX;
++	u8			TX_SC;
++	u8			bSGI:1;
++	u8			bSPreamble:1;
++	u8			bSTBC:1;
++	u8			bLDPC:1;
++	u8			NDP_sound:1;
++	u8			BandWidth:3;		/* 0: 20 1:40 2:80Mhz */
++	u8			m_STBC;			/* bSTBC + 1 */
++	USHORT			PacketPeriod;
++	UINT		PacketCount;
++	UINT		PacketLength;
++	u8			PacketPattern;
++	USHORT			SFD;
++	u8			SignalField;
++	u8			ServiceField;
++	USHORT			LENGTH;
++	u8			CRC16[2];
++	u8			LSIG[3];
++	u8			HT_SIG[6];
++	u8			VHT_SIG_A[6];
++	u8			VHT_SIG_B[4];
++	u8			VHT_SIG_B_CRC;
++	u8			VHT_Delimiter[4];
++	u8			MacAddress[6];
++} RT_PMAC_TX_INFO, *PRT_PMAC_TX_INFO;
++
++
++typedef VOID (*MPT_WORK_ITEM_HANDLER)(IN PVOID Adapter);
++typedef struct _MPT_CONTEXT {
++	/* Indicate if we have started Mass Production Test. */
++	BOOLEAN			bMassProdTest;
++
++	/* Indicate if the driver is unloading or unloaded. */
++	BOOLEAN			bMptDrvUnload;
++
++	_sema			MPh2c_Sema;
++	_timer			MPh2c_timeout_timer;
++	/* Event used to sync H2c for BT control */
++
++	BOOLEAN		MptH2cRspEvent;
++	BOOLEAN		MptBtC2hEvent;
++	BOOLEAN		bMPh2c_timeout;
++
++	/* 8190 PCI does not support NDIS_WORK_ITEM. */
++	/* Work Item for Mass Production Test. */
++	/* NDIS_WORK_ITEM	MptWorkItem;
++	*	RT_WORK_ITEM		MptWorkItem; */
++	/* Event used to sync the case unloading driver and MptWorkItem is still in progress.
++	*	NDIS_EVENT		MptWorkItemEvent; */
++	/* To protect the following variables.
++	*	NDIS_SPIN_LOCK		MptWorkItemSpinLock; */
++	/* Indicate a MptWorkItem is scheduled and not yet finished. */
++	BOOLEAN			bMptWorkItemInProgress;
++	/* An instance which implements function and context of MptWorkItem. */
++	MPT_WORK_ITEM_HANDLER	CurrMptAct;
++
++	/* 1=Start, 0=Stop from UI. */
++	ULONG			MptTestStart;
++	/* _TEST_MODE, defined in MPT_Req2.h */
++	ULONG			MptTestItem;
++	/* Variable needed in each implementation of CurrMptAct. */
++	ULONG			MptActType;	/* Type of action performed in CurrMptAct. */
++	/* The Offset of IO operation is depend of MptActType. */
++	ULONG			MptIoOffset;
++	/* The Value of IO operation is depend of MptActType. */
++	ULONG			MptIoValue;
++	/* The RfPath of IO operation is depend of MptActType. */
++	ULONG			MptRfPath;
++
++	WIRELESS_MODE		MptWirelessModeToSw;	/* Wireless mode to switch. */
++	u8			MptChannelToSw;	/* Channel to switch. */
++	u8			MptInitGainToSet;	/* Initial gain to set. */
++	/* ULONG			bMptAntennaA;		 */ /* TRUE if we want to use antenna A. */
++	ULONG			MptBandWidth;		/* bandwidth to switch. */
++	ULONG			MptRateIndex;		/* rate index. */
++	/* Register value kept for Single Carrier Tx test. */
++	u8			btMpCckTxPower;
++	/* Register value kept for Single Carrier Tx test. */
++	u8			btMpOfdmTxPower;
++	/* For MP Tx Power index */
++	u8			TxPwrLevel[4];	/* rf-A, rf-B*/
++	u32			RegTxPwrLimit;
++	/* Content of RCR Regsiter for Mass Production Test. */
++	ULONG			MptRCR;
++	/* TRUE if we only receive packets with specific pattern. */
++	BOOLEAN			bMptFilterPattern;
++	/* Rx OK count, statistics used in Mass Production Test. */
++	ULONG			MptRxOkCnt;
++	/* Rx CRC32 error count, statistics used in Mass Production Test. */
++	ULONG			MptRxCrcErrCnt;
++
++	BOOLEAN			bCckContTx;	/* TRUE if we are in CCK Continuous Tx test. */
++	BOOLEAN			bOfdmContTx;	/* TRUE if we are in OFDM Continuous Tx test. */
++	BOOLEAN			bStartContTx;	/* TRUE if we have start Continuous Tx test. */
++	/* TRUE if we are in Single Carrier Tx test. */
++	BOOLEAN			bSingleCarrier;
++	/* TRUE if we are in Carrier Suppression Tx Test. */
++	BOOLEAN			bCarrierSuppression;
++	/* TRUE if we are in Single Tone Tx test. */
++	BOOLEAN			bSingleTone;
++
++	/* ACK counter asked by K.Y.. */
++	BOOLEAN			bMptEnableAckCounter;
++	ULONG			MptAckCounter;
++
++	/* SD3 Willis For 8192S to save 1T/2T RF table for ACUT	Only fro ACUT delete later ~~~! */
++	/* s1Byte		BufOfLines[2][MAX_LINES_HWCONFIG_TXT][MAX_BYTES_LINE_HWCONFIG_TXT]; */
++	/* s1Byte			BufOfLines[2][MP_MAX_LINES][MP_MAX_LINES_BYTES]; */
++	/* s4Byte			RfReadLine[2]; */
++
++	u8		APK_bound[2];	/* for APK	path A/path B */
++	BOOLEAN		bMptIndexEven;
++
++	u8		backup0xc50;
++	u8		backup0xc58;
++	u8		backup0xc30;
++	u8		backup0x52_RF_A;
++	u8		backup0x52_RF_B;
++
++	u4Byte			backup0x58_RF_A;
++	u4Byte			backup0x58_RF_B;
++
++	u1Byte			h2cReqNum;
++	u1Byte			c2hBuf[32];
++
++	u1Byte          btInBuf[100];
++	ULONG			mptOutLen;
++	u1Byte          mptOutBuf[100];
++	RT_PMAC_TX_INFO	PMacTxInfo;
++	RT_PMAC_PKT_INFO	PMacPktInfo;
++	u8 HWTxmode;
++
++	BOOLEAN			bldpc;
++	BOOLEAN			bstbc;
++} MPT_CONTEXT, *PMPT_CONTEXT;
++/* #endif */
++
++
++/* #define RTPRIV_IOCTL_MP					( SIOCIWFIRSTPRIV + 0x17) */
++enum {
++	WRITE_REG = 1,
++	READ_REG,
++	WRITE_RF,
++	READ_RF,
++	MP_START,
++	MP_STOP,
++	MP_RATE,
++	MP_CHANNEL,
++	MP_BANDWIDTH,
++	MP_TXPOWER,
++	MP_ANT_TX,
++	MP_ANT_RX,
++	MP_CTX,
++	MP_QUERY,
++	MP_ARX,
++	MP_PSD,
++	MP_PWRTRK,
++	MP_THER,
++	MP_IOCTL,
++	EFUSE_GET,
++	EFUSE_SET,
++	MP_RESET_STATS,
++	MP_DUMP,
++	MP_PHYPARA,
++	MP_SetRFPathSwh,
++	MP_QueryDrvStats,
++	CTA_TEST,
++	MP_DISABLE_BT_COEXIST,
++	MP_PwrCtlDM,
++	MP_GETVER,
++	MP_MON,
++	EFUSE_MASK,
++	EFUSE_FILE,
++	MP_TX,
++	MP_RX,
++	MP_IQK,
++	MP_LCK,
++	MP_HW_TX_MODE,
++	MP_GET_TXPOWER_INX,
++	MP_NULL,
++	MP_SetBT,
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++	VENDOR_IE_SET ,
++	VENDOR_IE_GET ,
++#endif
++#ifdef CONFIG_WOWLAN
++	MP_WOW_ENABLE,
++	MP_WOW_SET_PATTERN,
++#endif
++#ifdef CONFIG_AP_WOWLAN
++	MP_AP_WOW_ENABLE,
++#endif
++	MP_SD_IREAD,
++	MP_SD_IWRITE,
++};
++
++struct mp_priv {
++	_adapter *papdater;
++
++	/* Testing Flag */
++	u32 mode;/* 0 for normal type packet, 1 for loopback packet (16bytes TXCMD) */
++
++	u32 prev_fw_state;
++
++	/* OID cmd handler */
++	struct mp_wiparam workparam;
++	/*	u8 act_in_progress; */
++
++	/* Tx Section */
++	u8 TID;
++	u32 tx_pktcount;
++	u32 pktInterval;
++	u32 pktLength;
++	struct mp_tx tx;
++
++	/* Rx Section */
++	u32 rx_bssidpktcount;
++	u32 rx_pktcount;
++	u32 rx_pktcount_filter_out;
++	u32 rx_crcerrpktcount;
++	u32 rx_pktloss;
++	BOOLEAN  rx_bindicatePkt;
++	struct recv_stat rxstat;
++
++	/* RF/BB relative */
++	u8 channel;
++	u8 bandwidth;
++	u8 prime_channel_offset;
++	u8 txpoweridx;
++	u8 rateidx;
++	u32 preamble;
++	/*	u8 modem; */
++	u32 CrystalCap;
++	/*	u32 curr_crystalcap; */
++
++	u16 antenna_tx;
++	u16 antenna_rx;
++	/*	u8 curr_rfpath; */
++
++	u8 check_mp_pkt;
++
++	u8 bSetTxPower;
++	/*	uint ForcedDataRate; */
++	u8 mp_dm;
++	u8 mac_filter[ETH_ALEN];
++	u8 bmac_filter;
++
++	struct wlan_network mp_network;
++	NDIS_802_11_MAC_ADDRESS network_macaddr;
++
++#ifdef PLATFORM_WINDOWS
++	u32 rx_testcnt;
++	u32 rx_testcnt1;
++	u32 rx_testcnt2;
++	u32 tx_testcnt;
++	u32 tx_testcnt1;
++
++	struct mp_wi_cntx wi_cntx;
++
++	u8 h2c_result;
++	u8 h2c_seqnum;
++	u16 h2c_cmdcode;
++	u8 h2c_resp_parambuf[512];
++	_lock h2c_lock;
++	_lock wkitm_lock;
++	u32 h2c_cmdcnt;
++	NDIS_EVENT h2c_cmd_evt;
++	NDIS_EVENT c2h_set;
++	NDIS_EVENT h2c_clr;
++	NDIS_EVENT cpwm_int;
++
++	NDIS_EVENT scsir_full_evt;
++	NDIS_EVENT scsiw_empty_evt;
++#endif
++
++	u8 *pallocated_mp_xmitframe_buf;
++	u8 *pmp_xmtframe_buf;
++	_queue free_mp_xmitqueue;
++	u32 free_mp_xmitframe_cnt;
++	BOOLEAN bSetRxBssid;
++	BOOLEAN bTxBufCkFail;
++	BOOLEAN bRTWSmbCfg;
++	BOOLEAN bloopback;
++	MPT_CONTEXT MptCtx;
++
++	u8		*TXradomBuffer;
++};
++
++typedef struct _IOCMD_STRUCT_ {
++	u8	cmdclass;
++	u16	value;
++	u8	index;
++} IOCMD_STRUCT;
++
++struct rf_reg_param {
++	u32 path;
++	u32 offset;
++	u32 value;
++};
++
++struct bb_reg_param {
++	u32 offset;
++	u32 value;
++};
++
++typedef struct _MP_FIRMWARE {
++	FIRMWARE_SOURCE eFWSource;
++#ifdef CONFIG_EMBEDDED_FWIMG
++	u8		*szFwBuffer;
++#else
++	u8			szFwBuffer[0x8000];
++#endif
++	u32		ulFwLength;
++} RT_MP_FIRMWARE, *PRT_MP_FIRMWARE;
++
++
++
++
++/* *********************************************************************** */
++
++#define LOWER	_TRUE
++#define RAISE	_FALSE
++
++/* Hardware Registers */
++#if 0
++#if 0
++#define IOCMD_CTRL_REG			0x102502C0
++#define IOCMD_DATA_REG			0x102502C4
++#else
++#define IOCMD_CTRL_REG			0x10250370
++#define IOCMD_DATA_REG			0x10250374
++#endif
++
++#define IOCMD_GET_THERMAL_METER		0xFD000028
++
++#define IOCMD_CLASS_BB_RF		0xF0
++#define IOCMD_BB_READ_IDX		0x00
++#define IOCMD_BB_WRITE_IDX		0x01
++#define IOCMD_RF_READ_IDX		0x02
++#define IOCMD_RF_WRIT_IDX		0x03
++#endif
++#define BB_REG_BASE_ADDR		0x800
++
++/* MP variables */
++#if 0
++#define _2MAC_MODE_	0
++#define _LOOPBOOK_MODE_	1
++#endif
++typedef enum _MP_MODE_ {
++	MP_OFF,
++	MP_ON,
++	MP_ERR,
++	MP_CONTINUOUS_TX,
++	MP_SINGLE_CARRIER_TX,
++	MP_CARRIER_SUPPRISSION_TX,
++	MP_SINGLE_TONE_TX,
++	MP_PACKET_TX,
++	MP_PACKET_RX
++} MP_MODE;
++
++typedef enum _TEST_MODE {
++	TEST_NONE                 ,
++	PACKETS_TX                ,
++	PACKETS_RX                ,
++	CONTINUOUS_TX             ,
++	OFDM_Single_Tone_TX       ,
++	CCK_Carrier_Suppression_TX
++} TEST_MODE;
++
++
++typedef enum _MPT_BANDWIDTH {
++	MPT_BW_20MHZ = 0,
++	MPT_BW_40MHZ_DUPLICATE = 1,
++	MPT_BW_40MHZ_ABOVE = 2,
++	MPT_BW_40MHZ_BELOW = 3,
++	MPT_BW_40MHZ = 4,
++	MPT_BW_80MHZ = 5,
++	MPT_BW_80MHZ_20_ABOVE = 6,
++	MPT_BW_80MHZ_20_BELOW = 7,
++	MPT_BW_80MHZ_20_BOTTOM = 8,
++	MPT_BW_80MHZ_20_TOP = 9,
++	MPT_BW_80MHZ_40_ABOVE = 10,
++	MPT_BW_80MHZ_40_BELOW = 11,
++} MPT_BANDWIDTHE, *PMPT_BANDWIDTH;
++
++#define MAX_RF_PATH_NUMS	RF_PATH_MAX
++
++
++extern u8 mpdatarate[NumRates];
++
++/* MP set force data rate base on the definition. */
++typedef enum _MPT_RATE_INDEX {
++	/* CCK rate. */
++	MPT_RATE_1M = 1 ,	/* 0 */
++	MPT_RATE_2M,
++	MPT_RATE_55M,
++	MPT_RATE_11M,	/* 3 */
++
++	/* OFDM rate. */
++	MPT_RATE_6M,	/* 4 */
++	MPT_RATE_9M,
++	MPT_RATE_12M,
++	MPT_RATE_18M,
++	MPT_RATE_24M,
++	MPT_RATE_36M,
++	MPT_RATE_48M,
++	MPT_RATE_54M,	/* 11 */
++
++	/* HT rate. */
++	MPT_RATE_MCS0,	/* 12 */
++	MPT_RATE_MCS1,
++	MPT_RATE_MCS2,
++	MPT_RATE_MCS3,
++	MPT_RATE_MCS4,
++	MPT_RATE_MCS5,
++	MPT_RATE_MCS6,
++	MPT_RATE_MCS7,	/* 19 */
++	MPT_RATE_MCS8,
++	MPT_RATE_MCS9,
++	MPT_RATE_MCS10,
++	MPT_RATE_MCS11,
++	MPT_RATE_MCS12,
++	MPT_RATE_MCS13,
++	MPT_RATE_MCS14,
++	MPT_RATE_MCS15,	/* 27 */
++	MPT_RATE_MCS16,
++	MPT_RATE_MCS17, /*  #29 */
++	MPT_RATE_MCS18,
++	MPT_RATE_MCS19,
++	MPT_RATE_MCS20,
++	MPT_RATE_MCS21,
++	MPT_RATE_MCS22, /*  #34 */
++	MPT_RATE_MCS23,
++	MPT_RATE_MCS24,
++	MPT_RATE_MCS25,
++	MPT_RATE_MCS26,
++	MPT_RATE_MCS27, /*  #39 */
++	MPT_RATE_MCS28, /*  #40 */
++	MPT_RATE_MCS29, /*  #41 */
++	MPT_RATE_MCS30, /*  #42 */
++	MPT_RATE_MCS31, /*  #43 */
++	/* VHT rate. Total: 20*/
++	MPT_RATE_VHT1SS_MCS0 = 100,/*  #44*/
++	MPT_RATE_VHT1SS_MCS1, /*  # */
++	MPT_RATE_VHT1SS_MCS2,
++	MPT_RATE_VHT1SS_MCS3,
++	MPT_RATE_VHT1SS_MCS4,
++	MPT_RATE_VHT1SS_MCS5,
++	MPT_RATE_VHT1SS_MCS6, /*  # */
++	MPT_RATE_VHT1SS_MCS7,
++	MPT_RATE_VHT1SS_MCS8,
++	MPT_RATE_VHT1SS_MCS9, /* #53 */
++	MPT_RATE_VHT2SS_MCS0, /* #54 */
++	MPT_RATE_VHT2SS_MCS1,
++	MPT_RATE_VHT2SS_MCS2,
++	MPT_RATE_VHT2SS_MCS3,
++	MPT_RATE_VHT2SS_MCS4,
++	MPT_RATE_VHT2SS_MCS5,
++	MPT_RATE_VHT2SS_MCS6,
++	MPT_RATE_VHT2SS_MCS7,
++	MPT_RATE_VHT2SS_MCS8,
++	MPT_RATE_VHT2SS_MCS9, /* #63 */
++	MPT_RATE_VHT3SS_MCS0,
++	MPT_RATE_VHT3SS_MCS1,
++	MPT_RATE_VHT3SS_MCS2,
++	MPT_RATE_VHT3SS_MCS3,
++	MPT_RATE_VHT3SS_MCS4,
++	MPT_RATE_VHT3SS_MCS5,
++	MPT_RATE_VHT3SS_MCS6, /*  #126 */
++	MPT_RATE_VHT3SS_MCS7,
++	MPT_RATE_VHT3SS_MCS8,
++	MPT_RATE_VHT3SS_MCS9,
++	MPT_RATE_VHT4SS_MCS0,
++	MPT_RATE_VHT4SS_MCS1, /*  #131 */
++	MPT_RATE_VHT4SS_MCS2,
++	MPT_RATE_VHT4SS_MCS3,
++	MPT_RATE_VHT4SS_MCS4,
++	MPT_RATE_VHT4SS_MCS5,
++	MPT_RATE_VHT4SS_MCS6, /*  #136 */
++	MPT_RATE_VHT4SS_MCS7,
++	MPT_RATE_VHT4SS_MCS8,
++	MPT_RATE_VHT4SS_MCS9,
++	MPT_RATE_LAST
++} MPT_RATE_E, *PMPT_RATE_E;
++
++#define MAX_TX_PWR_INDEX_N_MODE 64	/* 0x3F */
++
++#define MPT_IS_CCK_RATE(_value)		(MPT_RATE_1M <= _value && _value <= MPT_RATE_11M)
++#define MPT_IS_OFDM_RATE(_value)	(MPT_RATE_6M <= _value && _value <= MPT_RATE_54M)
++#define MPT_IS_HT_RATE(_value)		(MPT_RATE_MCS0 <= _value && _value <= MPT_RATE_MCS31)
++#define MPT_IS_HT_1S_RATE(_value)	(MPT_RATE_MCS0 <= _value && _value <= MPT_RATE_MCS7)
++#define MPT_IS_HT_2S_RATE(_value)	(MPT_RATE_MCS8 <= _value && _value <= MPT_RATE_MCS15)
++#define MPT_IS_HT_3S_RATE(_value)	(MPT_RATE_MCS16 <= _value && _value <= MPT_RATE_MCS23)
++#define MPT_IS_HT_4S_RATE(_value)	(MPT_RATE_MCS24 <= _value && _value <= MPT_RATE_MCS31)
++
++#define MPT_IS_VHT_RATE(_value)		(MPT_RATE_VHT1SS_MCS0 <= _value && _value <= MPT_RATE_VHT4SS_MCS9)
++#define MPT_IS_VHT_1S_RATE(_value)	(MPT_RATE_VHT1SS_MCS0 <= _value && _value <= MPT_RATE_VHT1SS_MCS9)
++#define MPT_IS_VHT_2S_RATE(_value)	(MPT_RATE_VHT2SS_MCS0 <= _value && _value <= MPT_RATE_VHT2SS_MCS9)
++#define MPT_IS_VHT_3S_RATE(_value)	(MPT_RATE_VHT3SS_MCS0 <= _value && _value <= MPT_RATE_VHT3SS_MCS9)
++#define MPT_IS_VHT_4S_RATE(_value)	(MPT_RATE_VHT4SS_MCS0 <= _value && _value <= MPT_RATE_VHT4SS_MCS9)
++
++#define MPT_IS_2SS_RATE(_rate) ((MPT_RATE_MCS8 <= _rate && _rate <= MPT_RATE_MCS15) || \
++	(MPT_RATE_VHT2SS_MCS0 <= _rate && _rate <= MPT_RATE_VHT2SS_MCS9))
++#define MPT_IS_3SS_RATE(_rate) ((MPT_RATE_MCS16 <= _rate && _rate <= MPT_RATE_MCS23) || \
++	(MPT_RATE_VHT3SS_MCS0 <= _rate && _rate <= MPT_RATE_VHT3SS_MCS9))
++#define MPT_IS_4SS_RATE(_rate) ((MPT_RATE_MCS24 <= _rate && _rate <= MPT_RATE_MCS31) || \
++	(MPT_RATE_VHT4SS_MCS0 <= _rate && _rate <= MPT_RATE_VHT4SS_MCS9))
++
++typedef enum _POWER_MODE_ {
++	POWER_LOW = 0,
++	POWER_NORMAL
++} POWER_MODE;
++
++/* The following enumeration is used to define the value of Reg0xD00[30:28] or JaguarReg0x914[18:16]. */
++typedef enum _OFDM_TX_MODE {
++	OFDM_ALL_OFF		= 0,
++	OFDM_ContinuousTx	= 1,
++	OFDM_SingleCarrier	= 2,
++	OFDM_SingleTone	= 4,
++} OFDM_TX_MODE;
++
++
++#define RX_PKT_BROADCAST	1
++#define RX_PKT_DEST_ADDR	2
++#define RX_PKT_PHY_MATCH	3
++
++typedef enum _ENCRY_CTRL_STATE_ {
++	HW_CONTROL,		/* hw encryption& decryption */
++	SW_CONTROL,		/* sw encryption& decryption */
++	HW_ENCRY_SW_DECRY,	/* hw encryption & sw decryption */
++	SW_ENCRY_HW_DECRY	/* sw encryption & hw decryption */
++} ENCRY_CTRL_STATE;
++
++typedef enum	_MPT_TXPWR_DEF {
++	MPT_CCK,
++	MPT_OFDM, /* L and HT OFDM */
++	MPT_OFDM_AND_HT,
++	MPT_HT,
++	MPT_VHT
++} MPT_TXPWR_DEF;
++
++
++#define IS_MPT_HT_RATE(_rate)			(_rate >= MPT_RATE_MCS0 && _rate <= MPT_RATE_MCS31)
++#define IS_MPT_VHT_RATE(_rate)			(_rate >= MPT_RATE_VHT1SS_MCS0 && _rate <= MPT_RATE_VHT4SS_MCS9)
++#define IS_MPT_CCK_RATE(_rate)			(_rate >= MPT_RATE_1M && _rate <= MPT_RATE_11M)
++#define IS_MPT_OFDM_RATE(_rate)			(_rate >= MPT_RATE_6M && _rate <= MPT_RATE_54M)
++/*************************************************************************/
++#if 0
++extern struct mp_xmit_frame *alloc_mp_xmitframe(struct mp_priv *pmp_priv);
++extern int free_mp_xmitframe(struct xmit_priv *pxmitpriv, struct mp_xmit_frame *pmp_xmitframe);
++#endif
++
++extern s32 init_mp_priv(PADAPTER padapter);
++extern void free_mp_priv(struct mp_priv *pmp_priv);
++extern s32 MPT_InitializeAdapter(PADAPTER padapter, u8 Channel);
++extern void MPT_DeInitAdapter(PADAPTER padapter);
++extern s32 mp_start_test(PADAPTER padapter);
++extern void mp_stop_test(PADAPTER padapter);
++
++extern u32 _read_rfreg(PADAPTER padapter, u8 rfpath, u32 addr, u32 bitmask);
++extern void _write_rfreg(PADAPTER padapter, u8 rfpath, u32 addr, u32 bitmask, u32 val);
++
++extern u32 read_macreg(_adapter *padapter, u32 addr, u32 sz);
++extern void write_macreg(_adapter *padapter, u32 addr, u32 val, u32 sz);
++extern u32 read_bbreg(_adapter *padapter, u32 addr, u32 bitmask);
++extern void write_bbreg(_adapter *padapter, u32 addr, u32 bitmask, u32 val);
++extern u32 read_rfreg(PADAPTER padapter, u8 rfpath, u32 addr);
++extern void write_rfreg(PADAPTER padapter, u8 rfpath, u32 addr, u32 val);
++
++void	SetChannel(PADAPTER pAdapter);
++void	SetBandwidth(PADAPTER pAdapter);
++int	SetTxPower(PADAPTER pAdapter);
++void	SetAntenna(PADAPTER pAdapter);
++void	SetDataRate(PADAPTER pAdapter);
++void	SetAntenna(PADAPTER pAdapter);
++s32	SetThermalMeter(PADAPTER pAdapter, u8 target_ther);
++void	GetThermalMeter(PADAPTER pAdapter, u8 *value);
++void	SetContinuousTx(PADAPTER pAdapter, u8 bStart);
++void	SetSingleCarrierTx(PADAPTER pAdapter, u8 bStart);
++void	SetSingleToneTx(PADAPTER pAdapter, u8 bStart);
++void	SetCarrierSuppressionTx(PADAPTER pAdapter, u8 bStart);
++void	PhySetTxPowerLevel(PADAPTER pAdapter);
++void	fill_txdesc_for_mp(PADAPTER padapter, u8 *ptxdesc);
++void	SetPacketTx(PADAPTER padapter);
++void	SetPacketRx(PADAPTER pAdapter, u8 bStartRx, u8 bAB);
++void	ResetPhyRxPktCount(PADAPTER pAdapter);
++u32	GetPhyRxPktReceived(PADAPTER pAdapter);
++u32	GetPhyRxPktCRC32Error(PADAPTER pAdapter);
++s32	SetPowerTracking(PADAPTER padapter, u8 enable);
++void	GetPowerTracking(PADAPTER padapter, u8 *enable);
++u32	mp_query_psd(PADAPTER pAdapter, u8 *data);
++void	rtw_mp_trigger_iqk(PADAPTER padapter);
++void	rtw_mp_trigger_lck(PADAPTER padapter);
++
++
++
++void hal_mpt_SwitchRfSetting(PADAPTER pAdapter);
++s32 hal_mpt_SetPowerTracking(PADAPTER padapter, u8 enable);
++void hal_mpt_GetPowerTracking(PADAPTER padapter, u8 *enable);
++void hal_mpt_CCKTxPowerAdjust(PADAPTER Adapter, BOOLEAN bInCH14);
++void hal_mpt_SetChannel(PADAPTER pAdapter);
++void hal_mpt_SetBandwidth(PADAPTER pAdapter);
++void hal_mpt_SetTxPower(PADAPTER pAdapter);
++void hal_mpt_SetDataRate(PADAPTER pAdapter);
++void hal_mpt_SetAntenna(PADAPTER pAdapter);
++s32 hal_mpt_SetThermalMeter(PADAPTER pAdapter, u8 target_ther);
++void hal_mpt_TriggerRFThermalMeter(PADAPTER pAdapter);
++u8 hal_mpt_ReadRFThermalMeter(PADAPTER pAdapter);
++void hal_mpt_GetThermalMeter(PADAPTER pAdapter, u8 *value);
++void hal_mpt_CCKTxPowerAdjustbyIndex(PADAPTER pAdapter, BOOLEAN beven);
++void hal_mpt_SetContinuousTx(PADAPTER pAdapter, u8 bStart);
++void hal_mpt_SetSingleCarrierTx(PADAPTER pAdapter, u8 bStart);
++void hal_mpt_SetSingleToneTx(PADAPTER pAdapter, u8 bStart);
++void hal_mpt_SetCarrierSuppressionTx(PADAPTER pAdapter, u8 bStart);
++void hal_mpt_SetCCKContinuousTx(PADAPTER pAdapter, u8 bStart);
++void hal_mpt_SetOFDMContinuousTx(PADAPTER pAdapter, u8 bStart);
++void mpt_ProSetPMacTx(PADAPTER	Adapter);
++
++void MP_PHY_SetRFPathSwitch(PADAPTER pAdapter , BOOLEAN bMain);
++ULONG mpt_ProQueryCalTxPower(PADAPTER	pAdapter, u8 RfPath);
++void MPT_PwrCtlDM(PADAPTER padapter, u32 bstart);
++u8 MptToMgntRate(u32	MptRateIdx);
++u8 rtw_mpRateParseFunc(PADAPTER pAdapter, u8 *targetStr);
++u32 mp_join(PADAPTER padapter, u8 mode);
++u32 hal_mpt_query_phytxok(PADAPTER	pAdapter);
++
++void
++PMAC_Get_Pkt_Param(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo
++);
++void
++CCK_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo
++);
++void
++PMAC_Nsym_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo
++);
++void
++L_SIG_generator(
++	UINT	N_SYM,		/* Max: 750*/
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo
++);
++
++void HT_SIG_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo);
++
++void VHT_SIG_A_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo);
++
++void VHT_SIG_B_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo);
++
++void VHT_Delimiter_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo);
++
++
++int rtw_mp_write_reg(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_read_reg(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_write_rf(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_read_rf(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_start(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_stop(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_rate(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_channel(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_bandwidth(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_txpower_index(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_txpower(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_txpower(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_ant_tx(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_ant_rx(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_set_ctx_destAddr(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_ctx(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_disable_bt_coexist(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_mp_disable_bt_coexist(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_mp_arx(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_trx_query(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_pwrtrk(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_psd(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_thermal(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_reset_stats(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_dump(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_phypara(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_SetRFPath(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_QueryDrv(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_mp_PwrCtlDM(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_getver(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_mp_mon(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_efuse_mask_file(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_efuse_file_map(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_mp_SetBT(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_mp_pretx_proc(PADAPTER padapter, u8 bStartTest, char *extra);
++int rtw_mp_tx(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_mp_rx(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_mp_hwtx(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++u8 HwRateToMPTRate(u8 rate);
++int rtw_mp_iqk(struct net_device *dev,
++		 struct iw_request_info *info,
++		 struct iw_point *wrqu, char *extra);
++int rtw_mp_lck(struct net_device *dev, 
++		struct iw_request_info *info, 
++		struct iw_point *wrqu, char *extra);
++#endif /* _RTW_MP_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_mp_ioctl.h b/drivers/net/wireless/rtl8723du/include/rtw_mp_ioctl.h
+new file mode 100644
+index 0000000..e6a9a23
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_mp_ioctl.h
+@@ -0,0 +1,575 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_MP_IOCTL_H_
++#define _RTW_MP_IOCTL_H_
++
++#include <mp_custom_oid.h>
++#include <rtw_mp.h>
++
++#if 0
++#define TESTFWCMDNUMBER			1000000
++#define TEST_H2CINT_WAIT_TIME		500
++#define TEST_C2HINT_WAIT_TIME		500
++#define HCI_TEST_SYSCFG_HWMASK		1
++#define _BUSCLK_40M			(4 << 2)
++#endif
++/* ------------------------------------------------------------------------------ */
++typedef struct CFG_DBG_MSG_STRUCT {
++	u32 DebugLevel;
++	u32 DebugComponent_H32;
++	u32 DebugComponent_L32;
++} CFG_DBG_MSG_STRUCT, *PCFG_DBG_MSG_STRUCT;
++
++typedef struct _RW_REG {
++	u32 offset;
++	u32 width;
++	u32 value;
++} mp_rw_reg, RW_Reg, *pRW_Reg;
++
++/* for OID_RT_PRO_READ16_EEPROM & OID_RT_PRO_WRITE16_EEPROM */
++typedef struct _EEPROM_RW_PARAM {
++	u32 offset;
++	u16 value;
++} eeprom_rw_param, EEPROM_RWParam, *pEEPROM_RWParam;
++
++typedef struct _EFUSE_ACCESS_STRUCT_ {
++	u16	start_addr;
++	u16	cnts;
++	u8	data[0];
++} EFUSE_ACCESS_STRUCT, *PEFUSE_ACCESS_STRUCT;
++
++typedef struct _BURST_RW_REG {
++	u32 offset;
++	u32 len;
++	u8 Data[256];
++} burst_rw_reg, Burst_RW_Reg, *pBurst_RW_Reg;
++
++typedef struct _USB_VendorReq {
++	u8	bRequest;
++	u16	wValue;
++	u16	wIndex;
++	u16	wLength;
++	u8	u8Dir;/* 0:OUT, 1:IN */
++	u8	u8InData;
++} usb_vendor_req, USB_VendorReq, *pUSB_VendorReq;
++
++typedef struct _DR_VARIABLE_STRUCT_ {
++	u8 offset;
++	u32 variable;
++} DR_VARIABLE_STRUCT;
++
++/* int mp_start_joinbss(_adapter *padapter, NDIS_802_11_SSID *pssid); */
++
++/* void _irqlevel_changed_(_irqL *irqlevel, BOOLEANunsigned char bLower); */
++#ifdef PLATFORM_OS_XP
++static void _irqlevel_changed_(_irqL *irqlevel, u8 bLower)
++{
++
++	if (bLower == LOWER) {
++		*irqlevel = KeGetCurrentIrql();
++
++		if (*irqlevel > PASSIVE_LEVEL)
++			KeLowerIrql(PASSIVE_LEVEL);
++	} else {
++		if (KeGetCurrentIrql() == PASSIVE_LEVEL)
++			KeRaiseIrql(DISPATCH_LEVEL, irqlevel);
++	}
++
++}
++#else
++#define _irqlevel_changed_(a, b)
++#endif
++
++/* oid_rtl_seg_81_80_00 */
++NDIS_STATUS oid_rt_pro_set_data_rate_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_start_test_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_stop_test_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_channel_direct_call_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_antenna_bb_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_tx_power_control_hdl(struct oid_par_priv *poid_par_priv);
++/* oid_rtl_seg_81_80_20 */
++NDIS_STATUS oid_rt_pro_query_tx_packet_sent_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_query_rx_packet_received_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_query_rx_packet_crc32_error_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_reset_tx_packet_sent_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_reset_rx_packet_received_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_modulation_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_set_continuous_tx_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_single_carrier_tx_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_carrier_suppression_tx_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_single_tone_tx_hdl(struct oid_par_priv *poid_par_priv);
++
++
++/* oid_rtl_seg_81_87 */
++NDIS_STATUS oid_rt_pro_write_bb_reg_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_read_bb_reg_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_write_rf_reg_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_read_rf_reg_hdl(struct oid_par_priv *poid_par_priv);
++
++
++/* oid_rtl_seg_81_85 */
++NDIS_STATUS oid_rt_wireless_mode_hdl(struct oid_par_priv *poid_par_priv);
++
++
++/* oid_rtl_seg_87_11_00 */
++NDIS_STATUS oid_rt_pro8711_join_bss_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_read_register_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_write_register_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_burst_read_register_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_burst_write_register_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_write_txcmd_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_read16_eeprom_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_write16_eeprom_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro8711_wi_poll_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro8711_pkt_loss_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_rd_attrib_mem_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_wr_attrib_mem_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS  oid_rt_pro_set_rf_intfs_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_poll_rx_status_hdl(struct oid_par_priv *poid_par_priv);
++/* oid_rtl_seg_87_11_20 */
++NDIS_STATUS oid_rt_pro_cfg_debug_message_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_data_rate_ex_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_basic_rate_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_read_tssi_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_power_tracking_hdl(struct oid_par_priv *poid_par_priv);
++/* oid_rtl_seg_87_11_50 */
++NDIS_STATUS oid_rt_pro_qry_pwrstate_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_pwrstate_hdl(struct oid_par_priv *poid_par_priv);
++/* oid_rtl_seg_87_11_F0 */
++NDIS_STATUS oid_rt_pro_h2c_set_rate_table_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_h2c_get_rate_table_hdl(struct oid_par_priv *poid_par_priv);
++
++
++/* oid_rtl_seg_87_12_00 */
++NDIS_STATUS oid_rt_pro_encryption_ctrl_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_add_sta_info_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_dele_sta_info_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_query_dr_variable_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_rx_packet_type_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_read_efuse_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_write_efuse_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_rw_efuse_pgpkt_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_efuse_current_size_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_efuse_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_efuse_map_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_set_bandwidth_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_set_crystal_cap_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_set_rx_packet_type_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_efuse_max_size_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_tx_agc_offset_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_set_pkt_test_mode_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_get_thermal_meter_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_reset_phy_rx_packet_count_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_phy_rx_packet_received_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_phy_rx_packet_crc32_error_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_set_power_down_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_get_power_mode_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_trigger_gpio_hdl(struct oid_par_priv *poid_par_priv);
++
++#ifdef _RTW_MP_IOCTL_C_
++
++const struct oid_obj_priv oid_rtl_seg_81_80_00[] = {
++	{1, &oid_null_function},			/* 0x00	OID_RT_PRO_RESET_DUT */
++	{1, &oid_rt_pro_set_data_rate_hdl},		/* 0x01 */
++	{1, &oid_rt_pro_start_test_hdl},		/* 0x02 */
++	{1, &oid_rt_pro_stop_test_hdl},			/* 0x03 */
++	{1, &oid_null_function},			/* 0x04	OID_RT_PRO_SET_PREAMBLE */
++	{1, &oid_null_function},			/* 0x05	OID_RT_PRO_SET_SCRAMBLER */
++	{1, &oid_null_function},			/* 0x06	OID_RT_PRO_SET_FILTER_BB */
++	{1, &oid_null_function},			/* 0x07	OID_RT_PRO_SET_MANUAL_DIVERSITY_BB */
++	{1, &oid_rt_pro_set_channel_direct_call_hdl},	/* 0x08 */
++	{1, &oid_null_function},			/* 0x09	OID_RT_PRO_SET_SLEEP_MODE_DIRECT_CALL */
++	{1, &oid_null_function},			/* 0x0A	OID_RT_PRO_SET_WAKE_MODE_DIRECT_CALL */
++	{1, &oid_rt_pro_set_continuous_tx_hdl},		/* 0x0B	OID_RT_PRO_SET_TX_CONTINUOUS_DIRECT_CALL */
++	{1, &oid_rt_pro_set_single_carrier_tx_hdl},	/* 0x0C	OID_RT_PRO_SET_SINGLE_CARRIER_TX_CONTINUOUS */
++	{1, &oid_null_function},			/* 0x0D	OID_RT_PRO_SET_TX_ANTENNA_BB */
++	{1, &oid_rt_pro_set_antenna_bb_hdl},		/* 0x0E */
++	{1, &oid_null_function},			/* 0x0F	OID_RT_PRO_SET_CR_SCRAMBLER */
++	{1, &oid_null_function},			/* 0x10	OID_RT_PRO_SET_CR_NEW_FILTER */
++	{1, &oid_rt_pro_set_tx_power_control_hdl},	/* 0x11	OID_RT_PRO_SET_TX_POWER_CONTROL */
++	{1, &oid_null_function},			/* 0x12	OID_RT_PRO_SET_CR_TX_CONFIG */
++	{1, &oid_null_function},			/* 0x13	OID_RT_PRO_GET_TX_POWER_CONTROL */
++	{1, &oid_null_function},			/* 0x14	OID_RT_PRO_GET_CR_SIGNAL_QUALITY */
++	{1, &oid_null_function},			/* 0x15	OID_RT_PRO_SET_CR_SETPOINT */
++	{1, &oid_null_function},			/* 0x16	OID_RT_PRO_SET_INTEGRATOR */
++	{1, &oid_null_function},			/* 0x17	OID_RT_PRO_SET_SIGNAL_QUALITY */
++	{1, &oid_null_function},			/* 0x18	OID_RT_PRO_GET_INTEGRATOR */
++	{1, &oid_null_function},			/* 0x19	OID_RT_PRO_GET_SIGNAL_QUALITY */
++	{1, &oid_null_function},			/* 0x1A	OID_RT_PRO_QUERY_EEPROM_TYPE */
++	{1, &oid_null_function},			/* 0x1B	OID_RT_PRO_WRITE_MAC_ADDRESS */
++	{1, &oid_null_function},			/* 0x1C	OID_RT_PRO_READ_MAC_ADDRESS */
++	{1, &oid_null_function},			/* 0x1D	OID_RT_PRO_WRITE_CIS_DATA */
++	{1, &oid_null_function},			/* 0x1E	OID_RT_PRO_READ_CIS_DATA */
++	{1, &oid_null_function}				/* 0x1F	OID_RT_PRO_WRITE_POWER_CONTROL */
++
++};
++
++const struct oid_obj_priv oid_rtl_seg_81_80_20[] = {
++	{1, &oid_null_function},			/* 0x20	OID_RT_PRO_READ_POWER_CONTROL */
++	{1, &oid_null_function},			/* 0x21	OID_RT_PRO_WRITE_EEPROM */
++	{1, &oid_null_function},			/* 0x22	OID_RT_PRO_READ_EEPROM */
++	{1, &oid_rt_pro_reset_tx_packet_sent_hdl},	/* 0x23 */
++	{1, &oid_rt_pro_query_tx_packet_sent_hdl},	/* 0x24 */
++	{1, &oid_rt_pro_reset_rx_packet_received_hdl},	/* 0x25 */
++	{1, &oid_rt_pro_query_rx_packet_received_hdl},	/* 0x26 */
++	{1, &oid_rt_pro_query_rx_packet_crc32_error_hdl},	/* 0x27 */
++	{1, &oid_null_function},			/* 0x28	OID_RT_PRO_QUERY_CURRENT_ADDRESS */
++	{1, &oid_null_function},			/* 0x29	OID_RT_PRO_QUERY_PERMANENT_ADDRESS */
++	{1, &oid_null_function},			/* 0x2A	OID_RT_PRO_SET_PHILIPS_RF_PARAMETERS */
++	{1, &oid_rt_pro_set_carrier_suppression_tx_hdl},/* 0x2B	OID_RT_PRO_SET_CARRIER_SUPPRESSION_TX */
++	{1, &oid_null_function},			/* 0x2C	OID_RT_PRO_RECEIVE_PACKET */
++	{1, &oid_null_function},			/* 0x2D	OID_RT_PRO_WRITE_EEPROM_BYTE */
++	{1, &oid_null_function},			/* 0x2E	OID_RT_PRO_READ_EEPROM_BYTE */
++	{1, &oid_rt_pro_set_modulation_hdl}		/* 0x2F */
++
++};
++
++const struct oid_obj_priv oid_rtl_seg_81_80_40[] = {
++	{1, &oid_null_function},			/* 0x40 */
++	{1, &oid_null_function},			/* 0x41 */
++	{1, &oid_null_function},			/* 0x42 */
++	{1, &oid_rt_pro_set_single_tone_tx_hdl},	/* 0x43 */
++	{1, &oid_null_function},			/* 0x44 */
++	{1, &oid_null_function}				/* 0x45 */
++};
++
++const struct oid_obj_priv oid_rtl_seg_81_80_80[] = {
++	{1, &oid_null_function},			/* 0x80	OID_RT_DRIVER_OPTION */
++	{1, &oid_null_function},			/* 0x81	OID_RT_RF_OFF */
++	{1, &oid_null_function}				/* 0x82	OID_RT_AUTH_STATUS */
++
++};
++
++const struct oid_obj_priv oid_rtl_seg_81_85[] = {
++	{1, &oid_rt_wireless_mode_hdl}			/* 0x00	OID_RT_WIRELESS_MODE */
++};
++
++struct oid_obj_priv oid_rtl_seg_81_87[] = {
++	{1, &oid_null_function},			/* 0x80	OID_RT_PRO8187_WI_POLL */
++	{1, &oid_rt_pro_write_bb_reg_hdl},		/* 0x81 */
++	{1, &oid_rt_pro_read_bb_reg_hdl},		/* 0x82 */
++	{1, &oid_rt_pro_write_rf_reg_hdl},		/* 0x82 */
++	{1, &oid_rt_pro_read_rf_reg_hdl}		/* 0x83 */
++};
++
++struct oid_obj_priv oid_rtl_seg_87_11_00[] = {
++	{1, &oid_rt_pro8711_join_bss_hdl},		/* 0x00  */ /* S */
++	{1, &oid_rt_pro_read_register_hdl},		/* 0x01 */
++	{1, &oid_rt_pro_write_register_hdl},		/* 0x02 */
++	{1, &oid_rt_pro_burst_read_register_hdl},	/* 0x03 */
++	{1, &oid_rt_pro_burst_write_register_hdl},	/* 0x04 */
++	{1, &oid_rt_pro_write_txcmd_hdl},		/* 0x05 */
++	{1, &oid_rt_pro_read16_eeprom_hdl},		/* 0x06 */
++	{1, &oid_rt_pro_write16_eeprom_hdl},		/* 0x07 */
++	{1, &oid_null_function},			/* 0x08	OID_RT_PRO_H2C_SET_COMMAND */
++	{1, &oid_null_function},			/* 0x09	OID_RT_PRO_H2C_QUERY_RESULT */
++	{1, &oid_rt_pro8711_wi_poll_hdl},		/* 0x0A */
++	{1, &oid_rt_pro8711_pkt_loss_hdl},		/* 0x0B */
++	{1, &oid_rt_rd_attrib_mem_hdl},			/* 0x0C */
++	{1, &oid_rt_wr_attrib_mem_hdl},			/* 0x0D */
++	{1, &oid_null_function},			/* 0x0E */
++	{1, &oid_null_function},			/* 0x0F */
++	{1, &oid_null_function},			/* 0x10	OID_RT_PRO_H2C_CMD_MODE */
++	{1, &oid_null_function},			/* 0x11	OID_RT_PRO_H2C_CMD_RSP_MODE */
++	{1, &oid_null_function},			/* 0X12	OID_RT_PRO_WAIT_C2H_EVENT */
++	{1, &oid_null_function},			/* 0X13	OID_RT_PRO_RW_ACCESS_PROTOCOL_TEST */
++	{1, &oid_null_function},			/* 0X14	OID_RT_PRO_SCSI_ACCESS_TEST */
++	{1, &oid_null_function},			/* 0X15	OID_RT_PRO_SCSI_TCPIPOFFLOAD_OUT */
++	{1, &oid_null_function},			/* 0X16	OID_RT_PRO_SCSI_TCPIPOFFLOAD_IN */
++	{1, &oid_null_function},			/* 0X17	OID_RT_RRO_RX_PKT_VIA_IOCTRL */
++	{1, &oid_null_function},			/* 0X18	OID_RT_RRO_RX_PKTARRAY_VIA_IOCTRL */
++	{1, &oid_null_function},			/* 0X19	OID_RT_RPO_SET_PWRMGT_TEST */
++	{1, &oid_null_function},			/* 0X1A */
++	{1, &oid_null_function},			/* 0X1B	OID_RT_PRO_QRY_PWRMGT_TEST */
++	{1, &oid_null_function},			/* 0X1C	OID_RT_RPO_ASYNC_RWIO_TEST */
++	{1, &oid_null_function},			/* 0X1D	OID_RT_RPO_ASYNC_RWIO_POLL */
++	{1, &oid_rt_pro_set_rf_intfs_hdl},		/* 0X1E */
++	{1, &oid_rt_poll_rx_status_hdl}			/* 0X1F */
++};
++
++struct oid_obj_priv oid_rtl_seg_87_11_20[] = {
++	{1, &oid_rt_pro_cfg_debug_message_hdl},		/* 0x20 */
++	{1, &oid_rt_pro_set_data_rate_ex_hdl},		/* 0x21 */
++	{1, &oid_rt_pro_set_basic_rate_hdl},		/* 0x22 */
++	{1, &oid_rt_pro_read_tssi_hdl},			/* 0x23 */
++	{1, &oid_rt_pro_set_power_tracking_hdl}		/* 0x24 */
++};
++
++
++struct oid_obj_priv oid_rtl_seg_87_11_50[] = {
++	{1, &oid_rt_pro_qry_pwrstate_hdl},		/* 0x50 */
++	{1, &oid_rt_pro_set_pwrstate_hdl}		/* 0x51 */
++};
++
++struct oid_obj_priv oid_rtl_seg_87_11_80[] = {
++	{1, &oid_null_function}				/* 0x80 */
++};
++
++struct oid_obj_priv oid_rtl_seg_87_11_B0[] = {
++	{1, &oid_null_function}				/* 0xB0 */
++};
++
++struct oid_obj_priv oid_rtl_seg_87_11_F0[] = {
++	{1, &oid_null_function},			/* 0xF0 */
++	{1, &oid_null_function},			/* 0xF1 */
++	{1, &oid_null_function},			/* 0xF2 */
++	{1, &oid_null_function},			/* 0xF3 */
++	{1, &oid_null_function},			/* 0xF4 */
++	{1, &oid_null_function},			/* 0xF5 */
++	{1, &oid_null_function},			/* 0xF6 */
++	{1, &oid_null_function},			/* 0xF7 */
++	{1, &oid_null_function},			/* 0xF8 */
++	{1, &oid_null_function},			/* 0xF9 */
++	{1, &oid_null_function},			/* 0xFA */
++	{1, &oid_rt_pro_h2c_set_rate_table_hdl},	/* 0xFB */
++	{1, &oid_rt_pro_h2c_get_rate_table_hdl},	/* 0xFC */
++	{1, &oid_null_function},			/* 0xFD */
++	{1, &oid_null_function},			/* 0xFE	OID_RT_PRO_H2C_C2H_LBK_TEST */
++	{1, &oid_null_function}				/* 0xFF */
++
++};
++
++struct oid_obj_priv oid_rtl_seg_87_12_00[] = {
++	{1, &oid_rt_pro_encryption_ctrl_hdl},		/* 0x00	Q&S */
++	{1, &oid_rt_pro_add_sta_info_hdl},		/* 0x01	S */
++	{1, &oid_rt_pro_dele_sta_info_hdl},		/* 0x02	S */
++	{1, &oid_rt_pro_query_dr_variable_hdl},		/* 0x03	Q */
++	{1, &oid_rt_pro_rx_packet_type_hdl},		/* 0x04	Q,S */
++	{1, &oid_rt_pro_read_efuse_hdl},		/* 0x05	Q	OID_RT_PRO_READ_EFUSE */
++	{1, &oid_rt_pro_write_efuse_hdl},		/* 0x06	S	OID_RT_PRO_WRITE_EFUSE */
++	{1, &oid_rt_pro_rw_efuse_pgpkt_hdl},		/* 0x07	Q,S */
++	{1, &oid_rt_get_efuse_current_size_hdl},	/* 0x08 	Q */
++	{1, &oid_rt_set_bandwidth_hdl},			/* 0x09 */
++	{1, &oid_rt_set_crystal_cap_hdl},		/* 0x0a */
++	{1, &oid_rt_set_rx_packet_type_hdl},		/* 0x0b	S */
++	{1, &oid_rt_get_efuse_max_size_hdl},		/* 0x0c */
++	{1, &oid_rt_pro_set_tx_agc_offset_hdl},		/* 0x0d */
++	{1, &oid_rt_pro_set_pkt_test_mode_hdl},		/* 0x0e */
++	{1, &oid_null_function},			/* 0x0f		OID_RT_PRO_FOR_EVM_TEST_SETTING */
++	{1, &oid_rt_get_thermal_meter_hdl},		/* 0x10	Q	OID_RT_PRO_GET_THERMAL_METER */
++	{1, &oid_rt_reset_phy_rx_packet_count_hdl},	/* 0x11	S	OID_RT_RESET_PHY_RX_PACKET_COUNT */
++	{1, &oid_rt_get_phy_rx_packet_received_hdl},	/* 0x12	Q	OID_RT_GET_PHY_RX_PACKET_RECEIVED */
++	{1, &oid_rt_get_phy_rx_packet_crc32_error_hdl},	/* 0x13	Q	OID_RT_GET_PHY_RX_PACKET_CRC32_ERROR */
++	{1, &oid_rt_set_power_down_hdl},		/* 0x14	Q	OID_RT_SET_POWER_DOWN */
++	{1, &oid_rt_get_power_mode_hdl}			/* 0x15	Q	OID_RT_GET_POWER_MODE */
++};
++
++#else /* _RTL871X_MP_IOCTL_C_ */
++
++extern struct oid_obj_priv oid_rtl_seg_81_80_00[32];
++extern struct oid_obj_priv oid_rtl_seg_81_80_20[16];
++extern struct oid_obj_priv oid_rtl_seg_81_80_40[6];
++extern struct oid_obj_priv oid_rtl_seg_81_80_80[3];
++
++extern struct oid_obj_priv oid_rtl_seg_81_85[1];
++extern struct oid_obj_priv oid_rtl_seg_81_87[5];
++
++extern struct oid_obj_priv oid_rtl_seg_87_11_00[32];
++extern struct oid_obj_priv oid_rtl_seg_87_11_20[5];
++extern struct oid_obj_priv oid_rtl_seg_87_11_50[2];
++extern struct oid_obj_priv oid_rtl_seg_87_11_80[1];
++extern struct oid_obj_priv oid_rtl_seg_87_11_B0[1];
++extern struct oid_obj_priv oid_rtl_seg_87_11_F0[16];
++
++extern struct oid_obj_priv oid_rtl_seg_87_12_00[32];
++
++#endif /* _RTL871X_MP_IOCTL_C_ */
++
++struct rwreg_param {
++	u32 offset;
++	u32 width;
++	u32 value;
++};
++
++struct bbreg_param {
++	u32 offset;
++	u32 phymask;
++	u32 value;
++};
++/*
++struct rfchannel_param{
++	u32 ch;
++	u32 modem;
++};
++*/
++struct txpower_param {
++	u32 pwr_index;
++};
++
++
++struct datarate_param {
++	u32 rate_index;
++};
++
++
++struct rfintfs_parm {
++	u32 rfintfs;
++};
++
++typedef struct _mp_xmit_parm_ {
++	u8 enable;
++	u32 count;
++	u16 length;
++	u8 payload_type;
++	u8 da[ETH_ALEN];
++} MP_XMIT_PARM, *PMP_XMIT_PARM;
++
++struct mp_xmit_packet {
++	u32 len;
++	u32 mem[MAX_MP_XMITBUF_SZ >> 2];
++};
++
++struct psmode_param {
++	u32 ps_mode;
++	u32 smart_ps;
++};
++
++/* for OID_RT_PRO_READ16_EEPROM & OID_RT_PRO_WRITE16_EEPROM */
++struct eeprom_rw_param {
++	u32 offset;
++	u16 value;
++};
++
++struct mp_ioctl_handler {
++	u32 paramsize;
++	u32(*handler)(struct oid_par_priv *poid_par_priv);
++	u32 oid;
++};
++
++struct mp_ioctl_param {
++	u32 subcode;
++	u32 len;
++	u8 data[0];
++};
++
++#define GEN_MP_IOCTL_SUBCODE(code) _MP_IOCTL_ ## code ## _CMD_
++
++enum RTL871X_MP_IOCTL_SUBCODE {
++	GEN_MP_IOCTL_SUBCODE(MP_START),			/*0*/
++	GEN_MP_IOCTL_SUBCODE(MP_STOP),
++	GEN_MP_IOCTL_SUBCODE(READ_REG),
++	GEN_MP_IOCTL_SUBCODE(WRITE_REG),
++	GEN_MP_IOCTL_SUBCODE(READ_BB_REG),
++	GEN_MP_IOCTL_SUBCODE(WRITE_BB_REG),		/*5*/
++	GEN_MP_IOCTL_SUBCODE(READ_RF_REG),
++	GEN_MP_IOCTL_SUBCODE(WRITE_RF_REG),
++	GEN_MP_IOCTL_SUBCODE(SET_CHANNEL),
++	GEN_MP_IOCTL_SUBCODE(SET_TXPOWER),
++	GEN_MP_IOCTL_SUBCODE(SET_DATARATE),		/*10*/
++	GEN_MP_IOCTL_SUBCODE(SET_BANDWIDTH),
++	GEN_MP_IOCTL_SUBCODE(SET_ANTENNA),
++	GEN_MP_IOCTL_SUBCODE(CNTU_TX),
++	GEN_MP_IOCTL_SUBCODE(SC_TX),
++	GEN_MP_IOCTL_SUBCODE(CS_TX),			/*15*/
++	GEN_MP_IOCTL_SUBCODE(ST_TX),
++	GEN_MP_IOCTL_SUBCODE(IOCTL_XMIT_PACKET),
++	GEN_MP_IOCTL_SUBCODE(SET_RX_PKT_TYPE),
++	GEN_MP_IOCTL_SUBCODE(RESET_PHY_RX_PKT_CNT),
++	GEN_MP_IOCTL_SUBCODE(GET_PHY_RX_PKT_RECV),	/*20*/
++	GEN_MP_IOCTL_SUBCODE(GET_PHY_RX_PKT_ERROR),
++	GEN_MP_IOCTL_SUBCODE(READ16_EEPROM),
++	GEN_MP_IOCTL_SUBCODE(WRITE16_EEPROM),
++	GEN_MP_IOCTL_SUBCODE(EFUSE),
++	GEN_MP_IOCTL_SUBCODE(EFUSE_MAP),		/*25*/
++	GEN_MP_IOCTL_SUBCODE(GET_EFUSE_MAX_SIZE),
++	GEN_MP_IOCTL_SUBCODE(GET_EFUSE_CURRENT_SIZE),
++	GEN_MP_IOCTL_SUBCODE(GET_THERMAL_METER),
++	GEN_MP_IOCTL_SUBCODE(SET_PTM),
++	GEN_MP_IOCTL_SUBCODE(SET_POWER_DOWN),		/*30*/
++	GEN_MP_IOCTL_SUBCODE(TRIGGER_GPIO),
++	GEN_MP_IOCTL_SUBCODE(SET_DM_BT),		/*32*/
++	GEN_MP_IOCTL_SUBCODE(DEL_BA),			/*33*/
++	GEN_MP_IOCTL_SUBCODE(GET_WIFI_STATUS),	/*34*/
++	MAX_MP_IOCTL_SUBCODE,
++};
++
++u32 mp_ioctl_xmit_packet_hdl(struct oid_par_priv *poid_par_priv);
++
++#ifdef _RTW_MP_IOCTL_C_
++
++#define GEN_MP_IOCTL_HANDLER(sz, hdl, oid) {sz, hdl, oid},
++
++#define EXT_MP_IOCTL_HANDLER(sz, subcode, oid) {sz, mp_ioctl_ ## subcode ## _hdl, oid},
++
++
++struct mp_ioctl_handler mp_ioctl_hdl[] = {
++
++	/*0*/	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_start_test_hdl, OID_RT_PRO_START_TEST)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_stop_test_hdl, OID_RT_PRO_STOP_TEST)
++
++	GEN_MP_IOCTL_HANDLER(sizeof(struct rwreg_param), oid_rt_pro_read_register_hdl, OID_RT_PRO_READ_REGISTER)
++	GEN_MP_IOCTL_HANDLER(sizeof(struct rwreg_param), oid_rt_pro_write_register_hdl, OID_RT_PRO_WRITE_REGISTER)
++	GEN_MP_IOCTL_HANDLER(sizeof(struct bb_reg_param), oid_rt_pro_read_bb_reg_hdl, OID_RT_PRO_READ_BB_REG)
++	/*5*/	GEN_MP_IOCTL_HANDLER(sizeof(struct bb_reg_param), oid_rt_pro_write_bb_reg_hdl, OID_RT_PRO_WRITE_BB_REG)
++	GEN_MP_IOCTL_HANDLER(sizeof(struct rf_reg_param), oid_rt_pro_read_rf_reg_hdl, OID_RT_PRO_RF_READ_REGISTRY)
++	GEN_MP_IOCTL_HANDLER(sizeof(struct rf_reg_param), oid_rt_pro_write_rf_reg_hdl, OID_RT_PRO_RF_WRITE_REGISTRY)
++
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_channel_direct_call_hdl, OID_RT_PRO_SET_CHANNEL_DIRECT_CALL)
++	GEN_MP_IOCTL_HANDLER(sizeof(struct txpower_param), oid_rt_pro_set_tx_power_control_hdl, OID_RT_PRO_SET_TX_POWER_CONTROL)
++	/*10*/	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_data_rate_hdl, OID_RT_PRO_SET_DATA_RATE)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_set_bandwidth_hdl, OID_RT_SET_BANDWIDTH)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_antenna_bb_hdl, OID_RT_PRO_SET_ANTENNA_BB)
++
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_continuous_tx_hdl, OID_RT_PRO_SET_CONTINUOUS_TX)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_single_carrier_tx_hdl, OID_RT_PRO_SET_SINGLE_CARRIER_TX)
++	/*15*/	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_carrier_suppression_tx_hdl, OID_RT_PRO_SET_CARRIER_SUPPRESSION_TX)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_single_tone_tx_hdl, OID_RT_PRO_SET_SINGLE_TONE_TX)
++
++	EXT_MP_IOCTL_HANDLER(0, xmit_packet, 0)
++
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_set_rx_packet_type_hdl, OID_RT_SET_RX_PACKET_TYPE)
++	GEN_MP_IOCTL_HANDLER(0, oid_rt_reset_phy_rx_packet_count_hdl, OID_RT_RESET_PHY_RX_PACKET_COUNT)
++	/*20*/	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_get_phy_rx_packet_received_hdl, OID_RT_GET_PHY_RX_PACKET_RECEIVED)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_get_phy_rx_packet_crc32_error_hdl, OID_RT_GET_PHY_RX_PACKET_CRC32_ERROR)
++
++	GEN_MP_IOCTL_HANDLER(sizeof(struct eeprom_rw_param), NULL, 0)
++	GEN_MP_IOCTL_HANDLER(sizeof(struct eeprom_rw_param), NULL, 0)
++	GEN_MP_IOCTL_HANDLER(sizeof(EFUSE_ACCESS_STRUCT), oid_rt_pro_efuse_hdl, OID_RT_PRO_EFUSE)
++	/*25*/	GEN_MP_IOCTL_HANDLER(0, oid_rt_pro_efuse_map_hdl, OID_RT_PRO_EFUSE_MAP)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_get_efuse_max_size_hdl, OID_RT_GET_EFUSE_MAX_SIZE)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_get_efuse_current_size_hdl, OID_RT_GET_EFUSE_CURRENT_SIZE)
++
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_get_thermal_meter_hdl, OID_RT_PRO_GET_THERMAL_METER)
++	GEN_MP_IOCTL_HANDLER(sizeof(u8), oid_rt_pro_set_power_tracking_hdl, OID_RT_PRO_SET_POWER_TRACKING)
++	/*30*/	GEN_MP_IOCTL_HANDLER(sizeof(u8), oid_rt_set_power_down_hdl, OID_RT_SET_POWER_DOWN)
++	/*31*/	GEN_MP_IOCTL_HANDLER(0, oid_rt_pro_trigger_gpio_hdl, 0)
++	GEN_MP_IOCTL_HANDLER(0, NULL, 0)
++	GEN_MP_IOCTL_HANDLER(0, NULL, 0)
++	GEN_MP_IOCTL_HANDLER(0, NULL, 0)
++};
++
++#else /* _RTW_MP_IOCTL_C_ */
++
++extern struct mp_ioctl_handler mp_ioctl_hdl[];
++
++#endif /* _RTW_MP_IOCTL_C_ */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_mp_phy_regdef.h b/drivers/net/wireless/rtl8723du/include/rtw_mp_phy_regdef.h
+new file mode 100644
+index 0000000..5f79e46
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_mp_phy_regdef.h
+@@ -0,0 +1,1099 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*****************************************************************************
++ *
++ * Module:	__RTW_MP_PHY_REGDEF_H_
++ *
++ *
++ * Note:	1. Define PMAC/BB register map
++ *			2. Define RF register map
++ *			3. PMAC/BB register bit mask.
++ *			4. RF reg bit mask.
++ *			5. Other BB/RF relative definition.
++ *
++ *
++ * Export:	Constants, macro, functions(API), global variables(None).
++ *
++ * Abbrev:
++ *
++ * History:
++ *	Data			Who		Remark
++ *	08/07/2007	MHC		1. Porting from 9x series PHYCFG.h.
++ *						2. Reorganize code architecture.
++ *	09/25/2008	MH		1. Add RL6052 register definition
++ *
++ *****************************************************************************/
++#ifndef __RTW_MP_PHY_REGDEF_H_
++#define __RTW_MP_PHY_REGDEF_H_
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++/* ************************************************************
++ * 8192S Regsiter offset definition
++ * ************************************************************ */
++
++/*
++ * BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++ * 3. RF register 0x00-2E
++ * 4. Bit Mask for BB/RF register
++ * 5. Other defintion for BB/RF R/W
++ *   */
++
++
++/*
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 1. Page1(0x100)
++ *   */
++#define		rPMAC_Reset					0x100
++#define		rPMAC_TxStart					0x104
++#define		rPMAC_TxLegacySIG				0x108
++#define		rPMAC_TxHTSIG1				0x10c
++#define		rPMAC_TxHTSIG2				0x110
++#define		rPMAC_PHYDebug				0x114
++#define		rPMAC_TxPacketNum				0x118
++#define		rPMAC_TxIdle					0x11c
++#define		rPMAC_TxMACHeader0			0x120
++#define		rPMAC_TxMACHeader1			0x124
++#define		rPMAC_TxMACHeader2			0x128
++#define		rPMAC_TxMACHeader3			0x12c
++#define		rPMAC_TxMACHeader4			0x130
++#define		rPMAC_TxMACHeader5			0x134
++#define		rPMAC_TxDataType				0x138
++#define		rPMAC_TxRandomSeed			0x13c
++#define		rPMAC_CCKPLCPPreamble			0x140
++#define		rPMAC_CCKPLCPHeader			0x144
++#define		rPMAC_CCKCRC16				0x148
++#define		rPMAC_OFDMRxCRC32OK			0x170
++#define		rPMAC_OFDMRxCRC32Er			0x174
++#define		rPMAC_OFDMRxParityEr			0x178
++#define		rPMAC_OFDMRxCRC8Er			0x17c
++#define		rPMAC_CCKCRxRC16Er			0x180
++#define		rPMAC_CCKCRxRC32Er			0x184
++#define		rPMAC_CCKCRxRC32OK			0x188
++#define		rPMAC_TxStatus					0x18c
++
++/*
++ * 2. Page2(0x200)
++ *
++ * The following two definition are only used for USB interface.
++ * #define		RF_BB_CMD_ADDR				0x02c0 */	/* RF/BB read/write command address.
++ * #define		RF_BB_CMD_DATA				0x02c4 */	/* RF/BB read/write command data. */
++
++/*
++ * 3. Page8(0x800)
++ *   */
++#define		rFPGA0_RFMOD				0x800	/* RF mode & CCK TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA0_TxInfo				0x804	/* Status report?? */
++#define		rFPGA0_PSDFunction			0x808
++
++#define		rFPGA0_TxGainStage			0x80c	/* Set TX PWR init gain? */
++
++#define		rFPGA0_RFTiming1			0x810	/* Useless now */
++#define		rFPGA0_RFTiming2			0x814
++/* #define rFPGA0_XC_RFTiming		0x818 */
++/* #define rFPGA0_XD_RFTiming		0x81c */
++
++#define		rFPGA0_XA_HSSIParameter1		0x820	/* RF 3 wire register */
++#define		rFPGA0_XA_HSSIParameter2		0x824
++#define		rFPGA0_XB_HSSIParameter1		0x828
++#define		rFPGA0_XB_HSSIParameter2		0x82c
++#define		rFPGA0_XC_HSSIParameter1		0x830
++#define		rFPGA0_XC_HSSIParameter2		0x834
++#define		rFPGA0_XD_HSSIParameter1		0x838
++#define		rFPGA0_XD_HSSIParameter2		0x83c
++#define		rFPGA0_XA_LSSIParameter		0x840
++#define		rFPGA0_XB_LSSIParameter		0x844
++#define		rFPGA0_XC_LSSIParameter		0x848
++#define		rFPGA0_XD_LSSIParameter		0x84c
++
++#define		rFPGA0_RFWakeUpParameter		0x850	/* Useless now */
++#define		rFPGA0_RFSleepUpParameter		0x854
++
++#define		rFPGA0_XAB_SwitchControl		0x858	/* RF Channel switch */
++#define		rFPGA0_XCD_SwitchControl		0x85c
++
++#define		rFPGA0_XA_RFInterfaceOE		0x860	/* RF Channel switch */
++#define		rFPGA0_XB_RFInterfaceOE		0x864
++#define		rFPGA0_XC_RFInterfaceOE		0x868
++#define		rFPGA0_XD_RFInterfaceOE		0x86c
++
++#define		rFPGA0_XAB_RFInterfaceSW		0x870	/* RF Interface Software Control */
++#define		rFPGA0_XCD_RFInterfaceSW		0x874
++
++#define		rFPGA0_XAB_RFParameter		0x878	/* RF Parameter */
++#define		rFPGA0_XCD_RFParameter		0x87c
++
++#define		rFPGA0_AnalogParameter1		0x880	/* Crystal cap setting RF-R/W protection for parameter4?? */
++#define		rFPGA0_AnalogParameter2		0x884
++#define		rFPGA0_AnalogParameter3		0x888	/* Useless now */
++#define		rFPGA0_AnalogParameter4		0x88c
++
++#define		rFPGA0_XA_LSSIReadBack		0x8a0	/* Tranceiver LSSI Readback */
++#define		rFPGA0_XB_LSSIReadBack		0x8a4
++#define		rFPGA0_XC_LSSIReadBack		0x8a8
++#define		rFPGA0_XD_LSSIReadBack		0x8ac
++
++#define		rFPGA0_PSDReport				0x8b4	/* Useless now */
++#define		rFPGA0_XAB_RFInterfaceRB		0x8e0	/* Useless now */ /* RF Interface Readback Value */
++#define		rFPGA0_XCD_RFInterfaceRB		0x8e4	/* Useless now */
++
++/*
++ * 4. Page9(0x900)
++ *   */
++#define		rFPGA1_RFMOD				0x900	/* RF mode & OFDM TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA1_TxBlock				0x904	/* Useless now */
++#define		rFPGA1_DebugSelect			0x908	/* Useless now */
++#define		rFPGA1_TxInfo				0x90c	/* Useless now */ /* Status report?? */
++#define	rS0S1_PathSwitch			0x948
++
++/*
++ * 5. PageA(0xA00)
++ *
++ * Set Control channel to upper or lower. These settings are required only for 40MHz */
++#define		rCCK0_System				0xa00
++
++#define		rCCK0_AFESetting			0xa04	/* Disable init gain now */ /* Select RX path by RSSI */
++#define		rCCK0_CCA					0xa08	/* Disable init gain now */ /* Init gain */
++
++#define		rCCK0_RxAGC1				0xa0c	/* AGC default value, saturation level  */ /* Antenna Diversity, RX AGC, LNA Threshold, RX LNA Threshold useless now. Not the same as 90 series */
++#define		rCCK0_RxAGC2				0xa10	/* AGC & DAGC */
++
++#define		rCCK0_RxHP					0xa14
++
++#define		rCCK0_DSPParameter1		0xa18	/* Timing recovery & Channel estimation threshold */
++#define		rCCK0_DSPParameter2		0xa1c	/* SQ threshold */
++
++#define		rCCK0_TxFilter1				0xa20
++#define		rCCK0_TxFilter2				0xa24
++#define		rCCK0_DebugPort			0xa28	/* debug port and Tx filter3 */
++#define		rCCK0_FalseAlarmReport		0xa2c	/* 0xa2d	useless now 0xa30-a4f channel report */
++#define		rCCK0_TRSSIReport		0xa50
++#define		rCCK0_RxReport            		0xa54  /* 0xa57 */
++#define		rCCK0_FACounterLower      	0xa5c  /* 0xa5b */
++#define		rCCK0_FACounterUpper      	0xa58  /* 0xa5c */
++
++/*
++ * 6. PageC(0xC00)
++ *   */
++#define		rOFDM0_LSTF				0xc00
++
++#define		rOFDM0_TRxPathEnable		0xc04
++#define		rOFDM0_TRMuxPar			0xc08
++#define		rOFDM0_TRSWIsolation		0xc0c
++
++#define		rOFDM0_XARxAFE			0xc10  /* RxIQ DC offset, Rx digital filter, DC notch filter */
++#define		rOFDM0_XARxIQImbalance    	0xc14  /* RxIQ imblance matrix */
++#define		rOFDM0_XBRxAFE		0xc18
++#define		rOFDM0_XBRxIQImbalance	0xc1c
++#define		rOFDM0_XCRxAFE		0xc20
++#define		rOFDM0_XCRxIQImbalance	0xc24
++#define		rOFDM0_XDRxAFE		0xc28
++#define		rOFDM0_XDRxIQImbalance	0xc2c
++
++#define		rOFDM0_RxDetector1			0xc30  /* PD, BW & SBD	 */ /* DM tune init gain */
++#define		rOFDM0_RxDetector2			0xc34  /* SBD & Fame Sync. */
++#define		rOFDM0_RxDetector3			0xc38  /* Frame Sync. */
++#define		rOFDM0_RxDetector4			0xc3c  /* PD, SBD, Frame Sync & Short-GI */
++
++#define		rOFDM0_RxDSP				0xc40  /* Rx Sync Path */
++#define		rOFDM0_CFOandDAGC		0xc44  /* CFO & DAGC */
++#define		rOFDM0_CCADropThreshold	0xc48 /* CCA Drop threshold */
++#define		rOFDM0_ECCAThreshold		0xc4c /* energy CCA */
++
++#define		rOFDM0_XAAGCCore1			0xc50	/* DIG  */
++#define		rOFDM0_XAAGCCore2			0xc54
++#define		rOFDM0_XBAGCCore1			0xc58
++#define		rOFDM0_XBAGCCore2			0xc5c
++#define		rOFDM0_XCAGCCore1			0xc60
++#define		rOFDM0_XCAGCCore2			0xc64
++#define		rOFDM0_XDAGCCore1			0xc68
++#define		rOFDM0_XDAGCCore2			0xc6c
++
++#define		rOFDM0_AGCParameter1			0xc70
++#define		rOFDM0_AGCParameter2			0xc74
++#define		rOFDM0_AGCRSSITable			0xc78
++#define		rOFDM0_HTSTFAGC				0xc7c
++
++#define		rOFDM0_XATxIQImbalance		0xc80	/* TX PWR TRACK and DIG */
++#define		rOFDM0_XATxAFE				0xc84
++#define		rOFDM0_XBTxIQImbalance		0xc88
++#define		rOFDM0_XBTxAFE				0xc8c
++#define		rOFDM0_XCTxIQImbalance		0xc90
++#define		rOFDM0_XCTxAFE			0xc94
++#define		rOFDM0_XDTxIQImbalance		0xc98
++#define		rOFDM0_XDTxAFE				0xc9c
++#define		rOFDM0_RxIQExtAnta			0xca0
++
++#define		rOFDM0_RxHPParameter			0xce0
++#define		rOFDM0_TxPseudoNoiseWgt		0xce4
++#define		rOFDM0_FrameSync				0xcf0
++#define		rOFDM0_DFSReport				0xcf4
++#define		rOFDM0_TxCoeff1				0xca4
++#define		rOFDM0_TxCoeff2				0xca8
++#define		rOFDM0_TxCoeff3				0xcac
++#define		rOFDM0_TxCoeff4				0xcb0
++#define		rOFDM0_TxCoeff5				0xcb4
++#define		rOFDM0_TxCoeff6				0xcb8
++
++
++/*
++ * 7. PageD(0xD00)
++ *   */
++#define		rOFDM1_LSTF					0xd00
++#define		rOFDM1_TRxPathEnable			0xd04
++
++#define		rOFDM1_CFO						0xd08	/* No setting now */
++#define		rOFDM1_CSI1					0xd10
++#define		rOFDM1_SBD						0xd14
++#define		rOFDM1_CSI2					0xd18
++#define		rOFDM1_CFOTracking			0xd2c
++#define		rOFDM1_TRxMesaure1			0xd34
++#define		rOFDM1_IntfDet					0xd3c
++#define		rOFDM1_PseudoNoiseStateAB		0xd50
++#define		rOFDM1_PseudoNoiseStateCD		0xd54
++#define		rOFDM1_RxPseudoNoiseWgt		0xd58
++
++#define		rOFDM_PHYCounter1				0xda0  /* cca, parity fail */
++#define		rOFDM_PHYCounter2				0xda4  /* rate illegal, crc8 fail */
++#define		rOFDM_PHYCounter3				0xda8  /* MCS not support */
++
++#define		rOFDM_ShortCFOAB				0xdac	/* No setting now */
++#define		rOFDM_ShortCFOCD				0xdb0
++#define		rOFDM_LongCFOAB				0xdb4
++#define		rOFDM_LongCFOCD				0xdb8
++#define		rOFDM_TailCFOAB				0xdbc
++#define		rOFDM_TailCFOCD				0xdc0
++#define		rOFDM_PWMeasure1		0xdc4
++#define		rOFDM_PWMeasure2		0xdc8
++#define		rOFDM_BWReport				0xdcc
++#define		rOFDM_AGCReport				0xdd0
++#define		rOFDM_RxSNR					0xdd4
++#define		rOFDM_RxEVMCSI				0xdd8
++#define		rOFDM_SIGReport				0xddc
++
++
++/*
++ * 8. PageE(0xE00)
++ *   */
++#define		rTxAGC_Rate18_06				0xe00
++#define		rTxAGC_Rate54_24				0xe04
++#define		rTxAGC_CCK_Mcs32				0xe08
++#define		rTxAGC_Mcs03_Mcs00			0xe10
++#define		rTxAGC_Mcs07_Mcs04			0xe14
++#define		rTxAGC_Mcs11_Mcs08			0xe18
++#define		rTxAGC_Mcs15_Mcs12			0xe1c
++
++/* Analog- control in RX_WAIT_CCA : REG: EE0 [Analog- Power & Control Register] */
++#define		rRx_Wait_CCCA					0xe70
++#define		rAnapar_Ctrl_BB					0xee0
++
++/*
++ * 7. RF Register 0x00-0x2E (RF 8256)
++ * RF-0222D 0x00-3F
++ *
++ * Zebra1 */
++#define RTL92SE_FPGA_VERIFY 0
++#define		rZebra1_HSSIEnable				0x0	/* Useless now */
++#define		rZebra1_TRxEnable1				0x1
++#define		rZebra1_TRxEnable2				0x2
++#define		rZebra1_AGC					0x4
++#define		rZebra1_ChargePump			0x5
++/* #if (RTL92SE_FPGA_VERIFY == 1) */
++#define		rZebra1_Channel				0x7	/* RF channel switch
++ * #else */
++
++/* #endif */
++#define		rZebra1_TxGain					0x8	/* Useless now */
++#define		rZebra1_TxLPF					0x9
++#define		rZebra1_RxLPF					0xb
++#define		rZebra1_RxHPFCorner			0xc
++
++/* Zebra4 */
++#define		rGlobalCtrl						0	/* Useless now */
++#define		rRTL8256_TxLPF					19
++#define		rRTL8256_RxLPF					11
++
++/* RTL8258 */
++#define		rRTL8258_TxLPF					0x11	/* Useless now */
++#define		rRTL8258_RxLPF					0x13
++#define		rRTL8258_RSSILPF				0xa
++
++/*
++ * RL6052 Register definition
++ *   */
++#define		RF_AC						0x00	/*  */
++
++#define		RF_IQADJ_G1				0x01	/*  */
++#define		RF_IQADJ_G2				0x02	/*  */
++#define		RF_POW_TRSW				0x05	/*  */
++
++#define		RF_GAIN_RX					0x06	/*  */
++#define		RF_GAIN_TX					0x07	/*  */
++
++#define		RF_TXM_IDAC				0x08	/*  */
++#define		RF_BS_IQGEN				0x0F	/*  */
++
++#define		RF_MODE1					0x10	/*  */
++#define		RF_MODE2					0x11	/*  */
++
++#define		RF_RX_AGC_HP				0x12	/*  */
++#define		RF_TX_AGC					0x13	/*  */
++#define		RF_BIAS						0x14	/*  */
++#define		RF_IPA						0x15	/*  */
++#define		RF_TXBIAS					0x16
++#define		RF_POW_ABILITY			0x17	/*  */
++#define		RF_MODE_AG				0x18	/*  */
++#define		rRfChannel					0x18	/* RF channel and BW switch */
++#define		RF_CHNLBW					0x18	/* RF channel and BW switch */
++#define		RF_TOP						0x19	/*  */
++
++#define		RF_RX_G1					0x1A	/*  */
++#define		RF_RX_G2					0x1B	/*  */
++
++#define		RF_RX_BB2					0x1C	/*  */
++#define		RF_RX_BB1					0x1D	/*  */
++
++#define		RF_RCK1					0x1E	/*  */
++#define		RF_RCK2					0x1F	/*  */
++
++#define		RF_TX_G1					0x20	/*  */
++#define		RF_TX_G2					0x21	/*  */
++#define		RF_TX_G3					0x22	/*  */
++
++#define		RF_TX_BB1					0x23	/*  */
++
++#define		RF_T_METER					0x24	/*  */
++
++#define		RF_SYN_G1					0x25	/* RF TX Power control */
++#define		RF_SYN_G2					0x26	/* RF TX Power control */
++#define		RF_SYN_G3					0x27	/* RF TX Power control */
++#define		RF_SYN_G4					0x28	/* RF TX Power control */
++#define		RF_SYN_G5					0x29	/* RF TX Power control */
++#define		RF_SYN_G6					0x2A	/* RF TX Power control */
++#define		RF_SYN_G7					0x2B	/* RF TX Power control */
++#define		RF_SYN_G8					0x2C	/* RF TX Power control */
++
++#define		RF_RCK_OS					0x30	/* RF TX PA control */
++
++#define		RF_TXPA_G1					0x31	/* RF TX PA control */
++#define		RF_TXPA_G2					0x32	/* RF TX PA control */
++#define		RF_TXPA_G3					0x33	/* RF TX PA control */
++
++/*
++ * Bit Mask
++ *
++ * 1. Page1(0x100) */
++#define		bBBResetB						0x100	/* Useless now? */
++#define		bGlobalResetB					0x200
++#define		bOFDMTxStart					0x4
++#define		bCCKTxStart						0x8
++#define		bCRC32Debug					0x100
++#define		bPMACLoopback					0x10
++#define		bTxLSIG							0xffffff
++#define		bOFDMTxRate					0xf
++#define		bOFDMTxReserved				0x10
++#define		bOFDMTxLength					0x1ffe0
++#define		bOFDMTxParity					0x20000
++#define		bTxHTSIG1						0xffffff
++#define		bTxHTMCSRate					0x7f
++#define		bTxHTBW						0x80
++#define		bTxHTLength					0xffff00
++#define		bTxHTSIG2						0xffffff
++#define		bTxHTSmoothing					0x1
++#define		bTxHTSounding					0x2
++#define		bTxHTReserved					0x4
++#define		bTxHTAggreation				0x8
++#define		bTxHTSTBC						0x30
++#define		bTxHTAdvanceCoding			0x40
++#define		bTxHTShortGI					0x80
++#define		bTxHTNumberHT_LTF			0x300
++#define		bTxHTCRC8						0x3fc00
++#define		bCounterReset					0x10000
++#define		bNumOfOFDMTx					0xffff
++#define		bNumOfCCKTx					0xffff0000
++#define		bTxIdleInterval					0xffff
++#define		bOFDMService					0xffff0000
++#define		bTxMACHeader					0xffffffff
++#define		bTxDataInit						0xff
++#define		bTxHTMode						0x100
++#define		bTxDataType					0x30000
++#define		bTxRandomSeed					0xffffffff
++#define		bCCKTxPreamble					0x1
++#define		bCCKTxSFD						0xffff0000
++#define		bCCKTxSIG						0xff
++#define		bCCKTxService					0xff00
++#define		bCCKLengthExt					0x8000
++#define		bCCKTxLength					0xffff0000
++#define		bCCKTxCRC16					0xffff
++#define		bCCKTxStatus					0x1
++#define		bOFDMTxStatus					0x2
++
++#define		IS_BB_REG_OFFSET_92S(_Offset)		((_Offset >= 0x800) && (_Offset <= 0xfff))
++
++/* 2. Page8(0x800) */
++#define		bRFMOD							0x1	/* Reg 0x800 rFPGA0_RFMOD */
++#define		bJapanMode						0x2
++#define		bCCKTxSC						0x30
++#define		bCCKEn							0x1000000
++#define		bOFDMEn						0x2000000
++
++#define		bOFDMRxADCPhase           		0x10000	/* Useless now */
++#define		bOFDMTxDACPhase		0x40000
++#define		bXATxAGC			0x3f
++
++#define		bXBTxAGC                  			0xf00	/* Reg 80c rFPGA0_TxGainStage */
++#define		bXCTxAGC			0xf000
++#define		bXDTxAGC			0xf0000
++
++#define		bPAStart                  			0xf0000000	/* Useless now */
++#define		bTRStart			0x00f00000
++#define		bRFStart			0x0000f000
++#define		bBBStart			0x000000f0
++#define		bBBCCKStart		0x0000000f
++#define		bPAEnd                    			0xf          /* Reg0x814 */
++#define		bTREnd			0x0f000000
++#define		bRFEnd			0x000f0000
++#define		bCCAMask                  			0x000000f0   /* T2R */
++#define		bR2RCCAMask		0x00000f00
++#define		bHSSI_R2TDelay		0xf8000000
++#define		bHSSI_T2RDelay		0xf80000
++#define		bContTxHSSI               		0x400     /* chane gain at continue Tx */
++#define		bIGFromCCK		0x200
++#define		bAGCAddress		0x3f
++#define		bRxHPTx			0x7000
++#define		bRxHPT2R			0x38000
++#define		bRxHPCCKIni		0xc0000
++#define		bAGCTxCode		0xc00000
++#define		bAGCRxCode		0x300000
++
++#define		b3WireDataLength          		0x800	/* Reg 0x820~84f rFPGA0_XA_HSSIParameter1 */
++#define		b3WireAddressLength		0x400
++
++#define		b3WireRFPowerDown         		0x1	/* Useless now
++ * #define bHWSISelect		0x8 */
++#define		b5GPAPEPolarity		0x40000000
++#define		b2GPAPEPolarity		0x80000000
++#define		bRFSW_TxDefaultAnt		0x3
++#define		bRFSW_TxOptionAnt		0x30
++#define		bRFSW_RxDefaultAnt		0x300
++#define		bRFSW_RxOptionAnt		0x3000
++#define		bRFSI_3WireData		0x1
++#define		bRFSI_3WireClock		0x2
++#define		bRFSI_3WireLoad		0x4
++#define		bRFSI_3WireRW		0x8
++#define		bRFSI_3Wire			0xf
++
++#define		bRFSI_RFENV               		0x10	/* Reg 0x870 rFPGA0_XAB_RFInterfaceSW */
++
++#define		bRFSI_TRSW                		0x20	/* Useless now */
++#define		bRFSI_TRSWB		0x40
++#define		bRFSI_ANTSW		0x100
++#define		bRFSI_ANTSWB		0x200
++#define		bRFSI_PAPE			0x400
++#define		bRFSI_PAPE5G		0x800
++#define		bBandSelect			0x1
++#define		bHTSIG2_GI			0x80
++#define		bHTSIG2_Smoothing		0x01
++#define		bHTSIG2_Sounding		0x02
++#define		bHTSIG2_Aggreaton		0x08
++#define		bHTSIG2_STBC		0x30
++#define		bHTSIG2_AdvCoding		0x40
++#define		bHTSIG2_NumOfHTLTF	0x300
++#define		bHTSIG2_CRC8		0x3fc
++#define		bHTSIG1_MCS		0x7f
++#define		bHTSIG1_BandWidth		0x80
++#define		bHTSIG1_HTLength		0xffff
++#define		bLSIG_Rate			0xf
++#define		bLSIG_Reserved		0x10
++#define		bLSIG_Length		0x1fffe
++#define		bLSIG_Parity			0x20
++#define		bCCKRxPhase		0x4
++#if (RTL92SE_FPGA_VERIFY == 1)
++	#define		bLSSIReadAddress          		0x3f000000   /* LSSI "Read" Address	 */ /* Reg 0x824 rFPGA0_XA_HSSIParameter2 */
++#else
++	#define		bLSSIReadAddress          		0x7f800000   /* T65 RF */
++#endif
++#define		bLSSIReadEdge             		0x80000000   /* LSSI "Read" edge signal */
++#if (RTL92SE_FPGA_VERIFY == 1)
++	#define		bLSSIReadBackData         		0xfff		/* Reg 0x8a0 rFPGA0_XA_LSSIReadBack */
++#else
++	#define		bLSSIReadBackData         		0xfffff		/* T65 RF */
++#endif
++#define		bLSSIReadOKFlag           		0x1000	/* Useless now */
++#define		bCCKSampleRate            		0x8       /* 0: 44MHz, 1:88MHz      		 */
++#define		bRegulator0Standby		0x1
++#define		bRegulatorPLLStandby		0x2
++#define		bRegulator1Standby		0x4
++#define		bPLLPowerUp		0x8
++#define		bDPLLPowerUp		0x10
++#define		bDA10PowerUp		0x20
++#define		bAD7PowerUp		0x200
++#define		bDA6PowerUp		0x2000
++#define		bXtalPowerUp		0x4000
++#define		b40MDClkPowerUP		0x8000
++#define		bDA6DebugMode		0x20000
++#define		bDA6Swing			0x380000
++
++#define		bADClkPhase               		0x4000000	/* Reg 0x880 rFPGA0_AnalogParameter1 20/40 CCK support switch 40/80 BB MHZ */
++
++#define		b80MClkDelay              		0x18000000	/* Useless */
++#define		bAFEWatchDogEnable		0x20000000
++
++#define		bXtalCap01                			0xc0000000	/* Reg 0x884 rFPGA0_AnalogParameter2 Crystal cap */
++#define		bXtalCap23			0x3
++#define		bXtalCap92x					0x0f000000
++#define		bXtalCap			0x0f000000
++
++#define		bIntDifClkEnable          		0x400	/* Useless */
++#define		bExtSigClkEnable		0x800
++#define		bBandgapMbiasPowerUp	0x10000
++#define		bAD11SHGain		0xc0000
++#define		bAD11InputRange		0x700000
++#define		bAD11OPCurrent		0x3800000
++#define		bIPathLoopback		0x4000000
++#define		bQPathLoopback		0x8000000
++#define		bAFELoopback		0x10000000
++#define		bDA10Swing		0x7e0
++#define		bDA10Reverse		0x800
++#define		bDAClkSource		0x1000
++#define		bAD7InputRange		0x6000
++#define		bAD7Gain			0x38000
++#define		bAD7OutputCMMode		0x40000
++#define		bAD7InputCMMode		0x380000
++#define		bAD7Current			0xc00000
++#define		bRegulatorAdjust		0x7000000
++#define		bAD11PowerUpAtTx		0x1
++#define		bDA10PSAtTx		0x10
++#define		bAD11PowerUpAtRx		0x100
++#define		bDA10PSAtRx		0x1000
++#define		bCCKRxAGCFormat		0x200
++#define		bPSDFFTSamplepPoint		0xc000
++#define		bPSDAverageNum		0x3000
++#define		bIQPathControl		0xc00
++#define		bPSDFreq			0x3ff
++#define		bPSDAntennaPath		0x30
++#define		bPSDIQSwitch		0x40
++#define		bPSDRxTrigger		0x400000
++#define		bPSDTxTrigger		0x80000000
++#define		bPSDSineToneScale		0x7f000000
++#define		bPSDReport			0xffff
++
++/* 3. Page9(0x900) */
++#define		bOFDMTxSC                 		0x30000000	/* Useless */
++#define		bCCKTxOn			0x1
++#define		bOFDMTxOn		0x2
++#define		bDebugPage                		0xfff  /* reset debug page and also HWord, LWord */
++#define		bDebugItem                		0xff   /* reset debug page and LWord */
++#define		bAntL			0x10
++#define		bAntNonHT				0x100
++#define		bAntHT1			0x1000
++#define		bAntHT2			0x10000
++#define		bAntHT1S1			0x100000
++#define		bAntNonHTS1		0x1000000
++
++/* 4. PageA(0xA00) */
++#define		bCCKBBMode                		0x3	/* Useless */
++#define		bCCKTxPowerSaving		0x80
++#define		bCCKRxPowerSaving		0x40
++
++#define		bCCKSideBand              		0x10	/* Reg 0xa00 rCCK0_System 20/40 switch */
++
++#define		bCCKScramble              		0x8	/* Useless */
++#define		bCCKAntDiversity			0x8000
++#define		bCCKCarrierRecovery		0x4000
++#define		bCCKTxRate			0x3000
++#define		bCCKDCCancel		0x0800
++#define		bCCKISICancel		0x0400
++#define		bCCKMatchFilter		0x0200
++#define		bCCKEqualizer		0x0100
++#define		bCCKPreambleDetect		0x800000
++#define		bCCKFastFalseCCA		0x400000
++#define		bCCKChEstStart		0x300000
++#define		bCCKCCACount		0x080000
++#define		bCCKcs_lim			0x070000
++#define		bCCKBistMode		0x80000000
++#define		bCCKCCAMask		0x40000000
++#define		bCCKTxDACPhase		0x4
++#define		bCCKRxADCPhase         	   	0x20000000   /* r_rx_clk */
++#define		bCCKr_cp_mode0		0x0100
++#define		bCCKTxDCOffset		0xf0
++#define		bCCKRxDCOffset		0xf
++#define		bCCKCCAMode		0xc000
++#define		bCCKFalseCS_lim		0x3f00
++#define		bCCKCS_ratio		0xc00000
++#define		bCCKCorgBit_sel		0x300000
++#define		bCCKPD_lim			0x0f0000
++#define		bCCKNewCCA		0x80000000
++#define		bCCKRxHPofIG		0x8000
++#define		bCCKRxIG			0x7f00
++#define		bCCKLNAPolarity		0x800000
++#define		bCCKRx1stGain		0x7f0000
++#define		bCCKRFExtend              		0x20000000 /* CCK Rx Iinital gain polarity */
++#define		bCCKRxAGCSatLevel		0x1f000000
++#define		bCCKRxAGCSatCount		0xe0
++#define		bCCKRxRFSettle            		0x1f       /* AGCsamp_dly */
++#define		bCCKFixedRxAGC		0x8000
++/* #define bCCKRxAGCFormat		0x4000 */   /* remove to HSSI register 0x824 */
++#define		bCCKAntennaPolarity		0x2000
++#define		bCCKTxFilterType		0x0c00
++#define		bCCKRxAGCReportType		0x0300
++#define		bCCKRxDAGCEn		0x80000000
++#define		bCCKRxDAGCPeriod		0x20000000
++#define		bCCKRxDAGCSatLevel		0x1f000000
++#define		bCCKTimingRecovery		0x800000
++#define		bCCKTxC0			0x3f0000
++#define		bCCKTxC1			0x3f000000
++#define		bCCKTxC2			0x3f
++#define		bCCKTxC3			0x3f00
++#define		bCCKTxC4			0x3f0000
++#define		bCCKTxC5			0x3f000000
++#define		bCCKTxC6			0x3f
++#define		bCCKTxC7			0x3f00
++#define		bCCKDebugPort		0xff0000
++#define		bCCKDACDebug		0x0f000000
++#define		bCCKFalseAlarmEnable		0x8000
++#define		bCCKFalseAlarmRead		0x4000
++#define		bCCKTRSSI			0x7f
++#define		bCCKRxAGCReport		0xfe
++#define		bCCKRxReport_AntSel		0x80000000
++#define		bCCKRxReport_MFOff		0x40000000
++#define		bCCKRxRxReport_SQLoss	0x20000000
++#define		bCCKRxReport_Pktloss		0x10000000
++#define		bCCKRxReport_Lockedbit	0x08000000
++#define		bCCKRxReport_RateError	0x04000000
++#define		bCCKRxReport_RxRate		0x03000000
++#define		bCCKRxFACounterLower	0xff
++#define		bCCKRxFACounterUpper	0xff000000
++#define		bCCKRxHPAGCStart		0xe000
++#define		bCCKRxHPAGCFinal		0x1c00
++#define		bCCKRxFalseAlarmEnable	0x8000
++#define		bCCKFACounterFreeze		0x4000
++#define		bCCKTxPathSel		0x10000000
++#define		bCCKDefaultRxPath		0xc000000
++#define		bCCKOptionRxPath		0x3000000
++
++/* 5. PageC(0xC00) */
++#define		bNumOfSTF                			0x3	/* Useless */
++#define		bShift_L			0xc0
++#define		bGI_TH			0xc
++#define		bRxPathA			0x1
++#define		bRxPathB			0x2
++#define		bRxPathC			0x4
++#define		bRxPathD			0x8
++#define		bTxPathA			0x1
++#define		bTxPathB			0x2
++#define		bTxPathC			0x4
++#define		bTxPathD			0x8
++#define		bTRSSIFreq			0x200
++#define		bADCBackoff			0x3000
++#define		bDFIRBackoff			0xc000
++#define		bTRSSILatchPhase		0x10000
++#define		bRxIDCOffset			0xff
++#define		bRxQDCOffset			0xff00
++#define		bRxDFIRMode		0x1800000
++#define		bRxDCNFType		0xe000000
++#define		bRXIQImb_A			0x3ff
++#define		bRXIQImb_B			0xfc00
++#define		bRXIQImb_C			0x3f0000
++#define		bRXIQImb_D			0xffc00000
++#define		bDC_dc_Notch		0x60000
++#define		bRxNBINotch			0x1f000000
++#define		bPD_TH			0xf
++#define		bPD_TH_Opt2		0xc000
++#define		bPWED_TH			0x700
++#define		bIfMF_Win_L			0x800
++#define		bPD_Option			0x1000
++#define		bMF_Win_L			0xe000
++#define		bBW_Search_L		0x30000
++#define		bwin_enh_L			0xc0000
++#define		bBW_TH			0x700000
++#define		bED_TH2			0x3800000
++#define		bBW_option			0x4000000
++#define		bRatio_TH			0x18000000
++#define		bWindow_L			0xe0000000
++#define		bSBD_Option			0x1
++#define		bFrame_TH			0x1c
++#define		bFS_Option			0x60
++#define		bDC_Slope_check		0x80
++#define		bFGuard_Counter_DC_L		0xe00
++#define		bFrame_Weight_Short		0x7000
++#define		bSub_Tune			0xe00000
++#define		bFrame_DC_Length		0xe000000
++#define		bSBD_start_offset		0x30000000
++#define		bFrame_TH_2		0x7
++#define		bFrame_GI2_TH		0x38
++#define		bGI2_Sync_en		0x40
++#define		bSarch_Short_Early		0x300
++#define		bSarch_Short_Late		0xc00
++#define		bSarch_GI2_Late		0x70000
++#define		bCFOAntSum		0x1
++#define		bCFOAcc			0x2
++#define		bCFOStartOffset		0xc
++#define		bCFOLookBack		0x70
++#define		bCFOSumWeight		0x80
++#define		bDAGCEnable			0x10000
++#define		bTXIQImb_A			0x3ff
++#define		bTXIQImb_B			0xfc00
++#define		bTXIQImb_C			0x3f0000
++#define		bTXIQImb_D			0xffc00000
++#define		bTxIDCOffset			0xff
++#define		bTxQDCOffset			0xff00
++#define		bTxDFIRMode		0x10000
++#define		bTxPesudoNoiseOn		0x4000000
++#define		bTxPesudoNoise_A		0xff
++#define		bTxPesudoNoise_B		0xff00
++#define		bTxPesudoNoise_C		0xff0000
++#define		bTxPesudoNoise_D		0xff000000
++#define		bCCADropOption		0x20000
++#define		bCCADropThres		0xfff00000
++#define		bEDCCA_H			0xf
++#define		bEDCCA_L			0xf0
++#define		bLambda_ED               0x300
++#define		bRxInitialGain           0x7f
++#define		bRxAntDivEn              0x80
++#define		bRxAGCAddressForLNA      0x7f00
++#define		bRxHighPowerFlow         0x8000
++#define		bRxAGCFreezeThres        0xc0000
++#define		bRxFreezeStep_AGC1       0x300000
++#define		bRxFreezeStep_AGC2       0xc00000
++#define		bRxFreezeStep_AGC3       0x3000000
++#define		bRxFreezeStep_AGC0       0xc000000
++#define		bRxRssi_Cmp_En           0x10000000
++#define		bRxQuickAGCEn            0x20000000
++#define		bRxAGCFreezeThresMode    0x40000000
++#define		bRxOverFlowCheckType     0x80000000
++#define		bRxAGCShift              0x7f
++#define		bTRSW_Tri_Only           0x80
++#define		bPowerThres              0x300
++#define		bRxAGCEn                 0x1
++#define		bRxAGCTogetherEn         0x2
++#define		bRxAGCMin                0x4
++#define		bRxHP_Ini                0x7
++#define		bRxHP_TRLNA              0x70
++#define		bRxHP_RSSI               0x700
++#define		bRxHP_BBP1               0x7000
++#define		bRxHP_BBP2               0x70000
++#define		bRxHP_BBP3               0x700000
++#define		bRSSI_H                  0x7f0000     /* the threshold for high power */
++#define		bRSSI_Gen                0x7f000000   /* the threshold for ant diversity */
++#define		bRxSettle_TRSW           0x7
++#define		bRxSettle_LNA            0x38
++#define		bRxSettle_RSSI           0x1c0
++#define		bRxSettle_BBP            0xe00
++#define		bRxSettle_RxHP           0x7000
++#define		bRxSettle_AntSW_RSSI     0x38000
++#define		bRxSettle_AntSW          0xc0000
++#define		bRxProcessTime_DAGC      0x300000
++#define		bRxSettle_HSSI           0x400000
++#define		bRxProcessTime_BBPPW     0x800000
++#define		bRxAntennaPowerShift     0x3000000
++#define		bRSSITableSelect         0xc000000
++#define		bRxHP_Final              0x7000000
++#define		bRxHTSettle_BBP          0x7
++#define		bRxHTSettle_HSSI         0x8
++#define		bRxHTSettle_RxHP         0x70
++#define		bRxHTSettle_BBPPW        0x80
++#define		bRxHTSettle_Idle         0x300
++#define		bRxHTSettle_Reserved     0x1c00
++#define		bRxHTRxHPEn              0x8000
++#define		bRxHTAGCFreezeThres      0x30000
++#define		bRxHTAGCTogetherEn       0x40000
++#define		bRxHTAGCMin              0x80000
++#define		bRxHTAGCEn               0x100000
++#define		bRxHTDAGCEn              0x200000
++#define		bRxHTRxHP_BBP            0x1c00000
++#define		bRxHTRxHP_Final          0xe0000000
++#define		bRxPWRatioTH             0x3
++#define		bRxPWRatioEn             0x4
++#define		bRxMFHold                0x3800
++#define		bRxPD_Delay_TH1          0x38
++#define		bRxPD_Delay_TH2          0x1c0
++#define		bRxPD_DC_COUNT_MAX       0x600
++/* #define bRxMF_Hold               0x3800 */
++#define		bRxPD_Delay_TH           0x8000
++#define		bRxProcess_Delay         0xf0000
++#define		bRxSearchrange_GI2_Early 0x700000
++#define		bRxFrame_Guard_Counter_L 0x3800000
++#define		bRxSGI_Guard_L           0xc000000
++#define		bRxSGI_Search_L          0x30000000
++#define		bRxSGI_TH                0xc0000000
++#define		bDFSCnt0                 0xff
++#define		bDFSCnt1                 0xff00
++#define		bDFSFlag                 0xf0000
++#define		bMFWeightSum             0x300000
++#define		bMinIdxTH                0x7f000000
++#define		bDAFormat                0x40000
++#define		bTxChEmuEnable           0x01000000
++#define		bTRSWIsolation_A         0x7f
++#define		bTRSWIsolation_B         0x7f00
++#define		bTRSWIsolation_C         0x7f0000
++#define		bTRSWIsolation_D         0x7f000000
++#define		bExtLNAGain              0x7c00
++
++/* 6. PageE(0xE00) */
++#define		bSTBCEn                  0x4	/* Useless */
++#define		bAntennaMapping          0x10
++#define		bNss                     0x20
++#define		bCFOAntSumD              0x200
++#define		bPHYCounterReset         0x8000000
++#define		bCFOReportGet            0x4000000
++#define		bOFDMContinueTx          0x10000000
++#define		bOFDMSingleCarrier       0x20000000
++#define		bOFDMSingleTone          0x40000000
++/* #define bRxPath1                 0x01 */
++/* #define bRxPath2                 0x02 */
++/* #define bRxPath3                 0x04 */
++/* #define bRxPath4                 0x08 */
++/* #define bTxPath1                 0x10 */
++/* #define bTxPath2                 0x20 */
++#define		bHTDetect                0x100
++#define		bCFOEn                   0x10000
++#define		bCFOValue                0xfff00000
++#define		bSigTone_Re              0x3f
++#define		bSigTone_Im              0x7f00
++#define		bCounter_CCA             0xffff
++#define		bCounter_ParityFail      0xffff0000
++#define		bCounter_RateIllegal     0xffff
++#define		bCounter_CRC8Fail        0xffff0000
++#define		bCounter_MCSNoSupport    0xffff
++#define		bCounter_FastSync        0xffff
++#define		bShortCFO                0xfff
++#define		bShortCFOTLength         12   /* total */
++#define		bShortCFOFLength         11   /* fraction */
++#define		bLongCFO                 0x7ff
++#define		bLongCFOTLength          11
++#define		bLongCFOFLength          11
++#define		bTailCFO                 0x1fff
++#define		bTailCFOTLength          13
++#define		bTailCFOFLength          12
++#define		bmax_en_pwdB             0xffff
++#define		bCC_power_dB             0xffff0000
++#define		bnoise_pwdB              0xffff
++#define		bPowerMeasTLength        10
++#define		bPowerMeasFLength        3
++#define		bRx_HT_BW                0x1
++#define		bRxSC                    0x6
++#define		bRx_HT                   0x8
++#define		bNB_intf_det_on          0x1
++#define		bIntf_win_len_cfg        0x30
++#define		bNB_Intf_TH_cfg          0x1c0
++#define		bRFGain                  0x3f
++#define		bTableSel                0x40
++#define		bTRSW                    0x80
++#define		bRxSNR_A                 0xff
++#define		bRxSNR_B                 0xff00
++#define		bRxSNR_C                 0xff0000
++#define		bRxSNR_D                 0xff000000
++#define		bSNREVMTLength           8
++#define		bSNREVMFLength           1
++#define		bCSI1st                  0xff
++#define		bCSI2nd                  0xff00
++#define		bRxEVM1st                0xff0000
++#define		bRxEVM2nd                0xff000000
++#define		bSIGEVM                  0xff
++#define		bPWDB                    0xff00
++#define		bSGIEN                   0x10000
++
++#define		bSFactorQAM1             0xf	/* Useless */
++#define		bSFactorQAM2             0xf0
++#define		bSFactorQAM3             0xf00
++#define		bSFactorQAM4             0xf000
++#define		bSFactorQAM5             0xf0000
++#define		bSFactorQAM6             0xf0000
++#define		bSFactorQAM7             0xf00000
++#define		bSFactorQAM8             0xf000000
++#define		bSFactorQAM9             0xf0000000
++#define		bCSIScheme               0x100000
++
++#define		bNoiseLvlTopSet          0x3	/* Useless */
++#define		bChSmooth                0x4
++#define		bChSmoothCfg1            0x38
++#define		bChSmoothCfg2            0x1c0
++#define		bChSmoothCfg3            0xe00
++#define		bChSmoothCfg4            0x7000
++#define		bMRCMode                 0x800000
++#define		bTHEVMCfg                0x7000000
++
++#define		bLoopFitType             0x1	/* Useless */
++#define		bUpdCFO                  0x40
++#define		bUpdCFOOffData           0x80
++#define		bAdvUpdCFO               0x100
++#define		bAdvTimeCtrl             0x800
++#define		bUpdClko                 0x1000
++#define		bFC                      0x6000
++#define		bTrackingMode            0x8000
++#define		bPhCmpEnable             0x10000
++#define		bUpdClkoLTF              0x20000
++#define		bComChCFO                0x40000
++#define		bCSIEstiMode             0x80000
++#define		bAdvUpdEqz               0x100000
++#define		bUChCfg                  0x7000000
++#define		bUpdEqz                  0x8000000
++
++#define		bTxAGCRate18_06			0x7f7f7f7f	/* Useless */
++#define		bTxAGCRate54_24			0x7f7f7f7f
++#define		bTxAGCRateMCS32			0x7f
++#define		bTxAGCRateCCK			0x7f00
++#define		bTxAGCRateMCS3_MCS0		0x7f7f7f7f
++#define		bTxAGCRateMCS7_MCS4		0x7f7f7f7f
++#define		bTxAGCRateMCS11_MCS8	0x7f7f7f7f
++#define		bTxAGCRateMCS15_MCS12	0x7f7f7f7f
++
++/* Rx Pseduo noise */
++#define		bRxPesudoNoiseOn         0x20000000	/* Useless */
++#define		bRxPesudoNoise_A         0xff
++#define		bRxPesudoNoise_B         0xff00
++#define		bRxPesudoNoise_C         0xff0000
++#define		bRxPesudoNoise_D         0xff000000
++#define		bPesudoNoiseState_A      0xffff
++#define		bPesudoNoiseState_B      0xffff0000
++#define		bPesudoNoiseState_C      0xffff
++#define		bPesudoNoiseState_D      0xffff0000
++
++/* 7. RF Register
++ * Zebra1 */
++#define		bZebra1_HSSIEnable        0x8		/* Useless */
++#define		bZebra1_TRxControl        0xc00
++#define		bZebra1_TRxGainSetting    0x07f
++#define		bZebra1_RxCorner          0xc00
++#define		bZebra1_TxChargePump      0x38
++#define		bZebra1_RxChargePump      0x7
++#define		bZebra1_ChannelNum        0xf80
++#define		bZebra1_TxLPFBW           0x400
++#define		bZebra1_RxLPFBW           0x600
++
++/* Zebra4 */
++#define		bRTL8256RegModeCtrl1      0x100	/* Useless */
++#define		bRTL8256RegModeCtrl0      0x40
++#define		bRTL8256_TxLPFBW          0x18
++#define		bRTL8256_RxLPFBW          0x600
++
++/* RTL8258 */
++#define		bRTL8258_TxLPFBW          0xc	/* Useless */
++#define		bRTL8258_RxLPFBW          0xc00
++#define		bRTL8258_RSSILPFBW        0xc0
++
++
++/*
++ * Other Definition
++ *   */
++
++/* byte endable for sb_write */
++#define		bByte0                    0x1	/* Useless */
++#define		bByte1                    0x2
++#define		bByte2                    0x4
++#define		bByte3                    0x8
++#define		bWord0                    0x3
++#define		bWord1                    0xc
++#define		bDWord                    0xf
++
++/* for PutRegsetting & GetRegSetting BitMask */
++#define		bMaskByte0		0xff	/* Reg 0xc50 rOFDM0_XAAGCCore~0xC6f */
++#define		bMaskByte1		0xff00
++#define		bMaskByte2		0xff0000
++#define		bMaskByte3		0xff000000
++#define		bMaskHWord	0xffff0000
++#define		bMaskLWord		0x0000ffff
++#define		bMaskDWord	0xffffffff
++#define		bMaskH4Bits		0xf0000000
++#define		bMaskH3Bytes	0xffffff00
++#define		bMaskOFDM_D	0xffc00000
++#define		bMaskCCK		0x3f3f3f3f
++#define		bMask12Bits		0xfff
++
++/* for PutRFRegsetting & GetRFRegSetting BitMask */
++#if (RTL92SE_FPGA_VERIFY == 1)
++/* #define		bMask12Bits               0xfff */	/* RF Reg mask bits */
++/* #define		bMask20Bits               0xfff */	/* RF Reg mask bits T65 RF */
++#define		bRFRegOffsetMask	0xfff
++#else
++/* #define		bMask12Bits               0xfffff */	/* RF Reg mask bits */
++/* #define		bMask20Bits               0xfffff */	/* RF Reg mask bits T65 RF */
++#define		bRFRegOffsetMask	0xfffff
++#endif
++#define		bEnable                   0x1	/* Useless */
++#define		bDisable                  0x0
++
++#define		LeftAntenna               0x0	/* Useless */
++#define		RightAntenna              0x1
++
++#define		tCheckTxStatus            500   /* 500ms */ /* Useless */
++#define		tUpdateRxCounter          100   /* 100ms */
++
++#define		rateCCK     0	/* Useless */
++#define		rateOFDM    1
++#define		rateHT      2
++
++/* define Register-End */
++#define		bPMAC_End                 0x1ff	/* Useless */
++#define		bFPGAPHY0_End             0x8ff
++#define		bFPGAPHY1_End             0x9ff
++#define		bCCKPHY0_End              0xaff
++#define		bOFDMPHY0_End             0xcff
++#define		bOFDMPHY1_End             0xdff
++
++/* define max debug item in each debug page
++ * #define bMaxItem_FPGA_PHY0        0x9
++ * #define bMaxItem_FPGA_PHY1        0x3
++ * #define bMaxItem_PHY_11B          0x16
++ * #define bMaxItem_OFDM_PHY0        0x29
++ * #define bMaxItem_OFDM_PHY1        0x0 */
++
++#define		bPMACControl	0x0		/* Useless */
++#define		bWMACControl	0x1
++#define		bWNICControl	0x2
++
++#if 0
++#define		ANTENNA_A	0x1	/* Useless */
++#define		ANTENNA_B	0x2
++#define		ANTENNA_AB	0x3	/* ANTENNA_A | ANTENNA_B */
++
++#define		ANTENNA_C	0x4
++#define		ANTENNA_D	0x8
++#endif
++
++#define RCR_AAP			BIT(0)				/* accept all physical address */
++#define RCR_APM			BIT(1)				/* accept physical match */
++#define RCR_AM			BIT(2)				/* accept multicast */
++#define RCR_AB			BIT(3)				/* accept broadcast */
++#define RCR_ACRC32		BIT(5)				/* accept error packet */
++#define RCR_9356SEL		BIT(6)
++#define RCR_AICV		BIT(9)				/* Accept ICV error packet */
++#define RCR_RXFTH0		(BIT(13) | BIT(14) | BIT(15))	/* Rx FIFO threshold */
++#define RCR_ADF			BIT(18)				/* Accept Data(frame type) frame */
++#define RCR_ACF			BIT(19)				/* Accept control frame */
++#define RCR_AMF			BIT(20)				/* Accept management frame */
++#define RCR_ADD3		BIT(21)
++#define RCR_APWRMGT		BIT(22)				/* Accept power management packet */
++#define RCR_CBSSID		BIT(23)				/* Accept BSSID match packet */
++#define RCR_ENMARP		BIT(28)				/* enable mac auto reset phy */
++#define RCR_EnCS1		BIT(29)				/* enable carrier sense method 1 */
++#define RCR_EnCS2		BIT(30)				/* enable carrier sense method 2 */
++#define RCR_OnlyErlPkt		BIT(31)				/* Rx Early mode is performed for packet size greater than 1536 */
++
++/*--------------------------Define Parameters-------------------------------*/
++
++
++#endif /* __INC_HAL8192SPHYREG_H */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_odm.h b/drivers/net/wireless/rtl8723du/include/rtw_odm.h
+new file mode 100644
+index 0000000..150b440
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_odm.h
+@@ -0,0 +1,58 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_ODM_H__
++#define __RTW_ODM_H__
++
++#include <drv_types.h>
++#include "../hal/phydm/phydm_types.h"
++/*
++* This file provides utilities/wrappers for rtw driver to use ODM
++*/
++
++void rtw_odm_dbg_comp_msg(void *sel, _adapter *adapter);
++void rtw_odm_dbg_comp_set(_adapter *adapter, u64 comps);
++void rtw_odm_dbg_level_msg(void *sel, _adapter *adapter);
++void rtw_odm_dbg_level_set(_adapter *adapter, u32 level);
++
++void rtw_odm_ability_msg(void *sel, _adapter *adapter);
++void rtw_odm_ability_set(_adapter *adapter, u32 ability);
++
++void rtw_odm_init_ic_type(_adapter *adapter);
++
++void rtw_odm_set_force_igi_lb(_adapter *adapter, u8 lb);
++u8 rtw_odm_get_force_igi_lb(_adapter *adapter);
++
++void rtw_odm_adaptivity_config_msg(void *sel, _adapter *adapter);
++
++bool rtw_odm_adaptivity_needed(_adapter *adapter);
++void rtw_odm_adaptivity_parm_msg(void *sel, _adapter *adapter);
++void rtw_odm_adaptivity_parm_set(_adapter *adapter, s8 TH_L2H_ini, s8 TH_EDCCA_HL_diff, s8 TH_L2H_ini_mode2, s8 TH_EDCCA_HL_diff_mode2, u8 EDCCA_enable);
++void rtw_odm_get_perpkt_rssi(void *sel, _adapter *adapter);
++void rtw_odm_acquirespinlock(_adapter *adapter,	RT_SPINLOCK_TYPE type);
++void rtw_odm_releasespinlock(_adapter *adapter,	RT_SPINLOCK_TYPE type);
++
++#ifdef CONFIG_DFS_MASTER
++u8 rtw_odm_get_dfs_domain(_adapter *adapter);
++VOID rtw_odm_radar_detect_reset(_adapter *adapter);
++VOID rtw_odm_radar_detect_disable(_adapter *adapter);
++VOID rtw_odm_radar_detect_enable(_adapter *adapter);
++BOOLEAN rtw_odm_radar_detect(_adapter *adapter);
++#endif /* CONFIG_DFS_MASTER */
++#endif /* __RTW_ODM_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_p2p.h b/drivers/net/wireless/rtl8723du/include/rtw_p2p.h
+new file mode 100644
+index 0000000..ce32c72
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_p2p.h
+@@ -0,0 +1,176 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_P2P_H_
++#define __RTW_P2P_H_
++
++
++u32 build_beacon_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_probe_resp_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_prov_disc_request_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf, u8 *pssid, u8 ussidlen, u8 *pdev_raddr);
++u32 build_assoc_resp_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf, u8 status_code);
++u32 build_deauth_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++#ifdef CONFIG_WFD
++int rtw_init_wifi_display_info(_adapter *padapter);
++void rtw_wfd_enable(_adapter *adapter, bool on);
++void rtw_wfd_set_ctrl_port(_adapter *adapter, u16 port);
++void rtw_tdls_wfd_enable(_adapter *adapter, bool on);
++
++u32 build_probe_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_probe_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf, u8 tunneled);
++u32 build_beacon_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_nego_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_nego_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_nego_confirm_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_invitation_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_invitation_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_assoc_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_assoc_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_provdisc_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_provdisc_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++
++u32 rtw_append_beacon_wfd_ie(_adapter *adapter, u8 *pbuf);
++u32 rtw_append_probe_req_wfd_ie(_adapter *adapter, u8 *pbuf);
++u32 rtw_append_probe_resp_wfd_ie(_adapter *adapter, u8 *pbuf);
++u32 rtw_append_assoc_req_wfd_ie(_adapter *adapter, u8 *pbuf);
++u32 rtw_append_assoc_resp_wfd_ie(_adapter *adapter, u8 *pbuf);
++#endif /*CONFIG_WFD */
++
++void rtw_xframe_chk_wfd_ie(struct xmit_frame *xframe);
++
++u32 process_probe_req_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pframe, uint len);
++u32 process_assoc_req_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pframe, uint len, struct sta_info *psta);
++u32 process_p2p_devdisc_req(struct wifidirect_info *pwdinfo, u8 *pframe, uint len);
++u32 process_p2p_devdisc_resp(struct wifidirect_info *pwdinfo, u8 *pframe, uint len);
++u8 process_p2p_provdisc_req(struct wifidirect_info *pwdinfo,  u8 *pframe, uint len);
++u8 process_p2p_provdisc_resp(struct wifidirect_info *pwdinfo,  u8 *pframe);
++u8 process_p2p_group_negotation_req(struct wifidirect_info *pwdinfo, u8 *pframe, uint len);
++u8 process_p2p_group_negotation_resp(struct wifidirect_info *pwdinfo, u8 *pframe, uint len);
++u8 process_p2p_group_negotation_confirm(struct wifidirect_info *pwdinfo, u8 *pframe, uint len);
++u8 process_p2p_presence_req(struct wifidirect_info *pwdinfo, u8 *pframe, uint len);
++int process_p2p_cross_connect_ie(PADAPTER padapter, u8 *IEs, u32 IELength);
++
++void p2p_protocol_wk_hdl(_adapter *padapter, int intCmdType);
++
++#ifdef CONFIG_P2P_PS
++void	process_p2p_ps_ie(PADAPTER padapter, u8 *IEs, u32 IELength);
++void	p2p_ps_wk_hdl(_adapter *padapter, u8 p2p_ps_state);
++u8	p2p_ps_wk_cmd(_adapter *padapter, u8 p2p_ps_state, u8 enqueue);
++#endif /* CONFIG_P2P_PS */
++
++#ifdef CONFIG_IOCTL_CFG80211
++void rtw_init_cfg80211_wifidirect_info(_adapter	*padapter);
++int rtw_p2p_check_frames(_adapter *padapter, const u8 *buf, u32 len, u8 tx);
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++void reset_global_wifidirect_info(_adapter *padapter);
++void rtw_init_wifidirect_timers(_adapter *padapter);
++void rtw_init_wifidirect_addrs(_adapter *padapter, u8 *dev_addr, u8 *iface_addr);
++void init_wifidirect_info(_adapter *padapter, enum P2P_ROLE role);
++int rtw_p2p_enable(_adapter *padapter, enum P2P_ROLE role);
++
++static inline void _rtw_p2p_set_state(struct wifidirect_info *wdinfo, enum P2P_STATE state)
++{
++	if (wdinfo->p2p_state != state) {
++		/* wdinfo->pre_p2p_state = wdinfo->p2p_state; */
++		wdinfo->p2p_state = state;
++	}
++}
++static inline void _rtw_p2p_set_pre_state(struct wifidirect_info *wdinfo, enum P2P_STATE state)
++{
++	if (wdinfo->pre_p2p_state != state)
++		wdinfo->pre_p2p_state = state;
++}
++#if 0
++static inline void _rtw_p2p_restore_state(struct wifidirect_info *wdinfo)
++{
++	if (wdinfo->pre_p2p_state != -1) {
++		wdinfo->p2p_state = wdinfo->pre_p2p_state;
++		wdinfo->pre_p2p_state = -1;
++	}
++}
++#endif
++static inline void _rtw_p2p_set_role(struct wifidirect_info *wdinfo, enum P2P_ROLE role)
++{
++	if (wdinfo->role != role)
++		wdinfo->role = role;
++}
++static inline int _rtw_p2p_state(struct wifidirect_info *wdinfo)
++{
++	return wdinfo->p2p_state;
++}
++static inline int _rtw_p2p_pre_state(struct wifidirect_info *wdinfo)
++{
++	return wdinfo->pre_p2p_state;
++}
++static inline int _rtw_p2p_role(struct wifidirect_info *wdinfo)
++{
++	return wdinfo->role;
++}
++static inline bool _rtw_p2p_chk_state(struct wifidirect_info *wdinfo, enum P2P_STATE state)
++{
++	return wdinfo->p2p_state == state;
++}
++static inline bool _rtw_p2p_chk_role(struct wifidirect_info *wdinfo, enum P2P_ROLE role)
++{
++	return wdinfo->role == role;
++}
++
++#ifdef CONFIG_DBG_P2P
++void dbg_rtw_p2p_set_state(struct wifidirect_info *wdinfo, enum P2P_STATE state, const char *caller, int line);
++void dbg_rtw_p2p_set_pre_state(struct wifidirect_info *wdinfo, enum P2P_STATE state, const char *caller, int line);
++/* void dbg_rtw_p2p_restore_state(struct wifidirect_info *wdinfo, const char *caller, int line); */
++void dbg_rtw_p2p_set_role(struct wifidirect_info *wdinfo, enum P2P_ROLE role, const char *caller, int line);
++#define rtw_p2p_set_state(wdinfo, state) dbg_rtw_p2p_set_state(wdinfo, state, __FUNCTION__, __LINE__)
++#define rtw_p2p_set_pre_state(wdinfo, state) dbg_rtw_p2p_set_pre_state(wdinfo, state, __FUNCTION__, __LINE__)
++#define rtw_p2p_set_role(wdinfo, role) dbg_rtw_p2p_set_role(wdinfo, role, __FUNCTION__, __LINE__)
++/* #define rtw_p2p_restore_state(wdinfo) dbg_rtw_p2p_restore_state(wdinfo, __FUNCTION__, __LINE__) */
++#else /* CONFIG_DBG_P2P */
++#define rtw_p2p_set_state(wdinfo, state) _rtw_p2p_set_state(wdinfo, state)
++#define rtw_p2p_set_pre_state(wdinfo, state) _rtw_p2p_set_pre_state(wdinfo, state)
++#define rtw_p2p_set_role(wdinfo, role) _rtw_p2p_set_role(wdinfo, role)
++/* #define rtw_p2p_restore_state(wdinfo) _rtw_p2p_restore_state(wdinfo) */
++#endif /* CONFIG_DBG_P2P */
++
++#define rtw_p2p_state(wdinfo) _rtw_p2p_state(wdinfo)
++#define rtw_p2p_pre_state(wdinfo) _rtw_p2p_pre_state(wdinfo)
++#define rtw_p2p_role(wdinfo) _rtw_p2p_role(wdinfo)
++#define rtw_p2p_chk_state(wdinfo, state) _rtw_p2p_chk_state(wdinfo, state)
++#define rtw_p2p_chk_role(wdinfo, role) _rtw_p2p_chk_role(wdinfo, role)
++
++#define rtw_p2p_findphase_ex_set(wdinfo, value) \
++	(wdinfo)->find_phase_state_exchange_cnt = (value)
++
++#ifdef CONFIG_P2P
++/* is this find phase exchange for social channel scan? */
++#define rtw_p2p_findphase_ex_is_social(wdinfo)   \
++	(wdinfo)->find_phase_state_exchange_cnt >= P2P_FINDPHASE_EX_SOCIAL_FIRST
++
++/* should we need find phase exchange anymore? */
++#define rtw_p2p_findphase_ex_is_needed(wdinfo) \
++	((wdinfo)->find_phase_state_exchange_cnt < P2P_FINDPHASE_EX_MAX && \
++	 (wdinfo)->find_phase_state_exchange_cnt != P2P_FINDPHASE_EX_NONE && \
++	 !(wdinfo)->rx_invitereq_info.scan_op_ch_only && \
++	 !(wdinfo)->p2p_info.scan_op_ch_only)
++#else
++#define rtw_p2p_findphase_ex_is_social(wdinfo) 0
++#define rtw_p2p_findphase_ex_is_needed(wdinfo) 0
++#endif /* CONFIG_P2P */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_pwrctrl.h b/drivers/net/wireless/rtl8723du/include/rtw_pwrctrl.h
+new file mode 100644
+index 0000000..8b22cdc
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_pwrctrl.h
+@@ -0,0 +1,547 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_PWRCTRL_H_
++#define __RTW_PWRCTRL_H_
++
++
++#define FW_PWR0	0
++#define FW_PWR1	1
++#define FW_PWR2	2
++#define FW_PWR3	3
++
++
++#define HW_PWR0	7
++#define HW_PWR1	6
++#define HW_PWR2	2
++#define HW_PWR3	0
++#define HW_PWR4	8
++
++#define FW_PWRMSK	0x7
++
++
++#define XMIT_ALIVE	BIT(0)
++#define RECV_ALIVE	BIT(1)
++#define CMD_ALIVE	BIT(2)
++#define EVT_ALIVE	BIT(3)
++#ifdef CONFIG_BT_COEXIST
++#define BTCOEX_ALIVE	BIT(4)
++#endif /* CONFIG_BT_COEXIST */
++
++#ifdef CONFIG_WOWLAN
++#ifdef CONFIG_DEFAULT_PATTERNS_EN
++	#ifdef CONFIG_PLATFORM_ANDROID_INTEL_X86
++		/* TCP/ICMP/UDP multicast with specific IP addr */
++		#define DEFAULT_PATTERN_NUM 3
++	#else
++		/* TCP/ICMP */
++		#define DEFAULT_PATTERN_NUM 2
++	#endif
++#else
++	#define DEFAULT_PATTERN_NUM 0
++#endif /*CONFIG_DEFAULT_PATTERNS_EN*/
++
++#define MAX_WKFM_NUM 16	/* Frame Mask Cam number for pattern match */
++#define MAX_WKFM_SIZE	16 /* (16 bytes for WKFM bit mask, 16*8 = 128 bits) */
++#define MAX_WKFM_PATTERN_SIZE	128
++#define WKFMCAM_ADDR_NUM 6
++#define WKFMCAM_SIZE 24 /* each entry need 6*4 bytes */
++enum pattern_type {
++	PATTERN_BROADCAST = 0,
++	PATTERN_MULTICAST,
++	PATTERN_UNICAST,
++	PATTERN_VALID,
++	PATTERN_INVALID,
++};
++
++typedef struct rtl_priv_pattern {
++	int len;
++	char content[MAX_WKFM_PATTERN_SIZE];
++	char mask[MAX_WKFM_SIZE];
++} rtl_priv_pattern_t;
++
++struct rtl_wow_pattern {
++	u16	crc;
++	u8	type;
++	u32	mask[4];
++};
++#endif /* CONFIG_WOWLAN */
++
++enum Power_Mgnt {
++	PS_MODE_ACTIVE	= 0	,
++	PS_MODE_MIN			,
++	PS_MODE_MAX			,
++	PS_MODE_DTIM			,	/* PS_MODE_SELF_DEFINED */
++	PS_MODE_VOIP			,
++	PS_MODE_UAPSD_WMM	,
++	PS_MODE_UAPSD			,
++	PS_MODE_IBSS			,
++	PS_MODE_WWLAN		,
++	PM_Radio_Off			,
++	PM_Card_Disable		,
++	PS_MODE_NUM,
++};
++
++#ifdef CONFIG_PNO_SUPPORT
++#define MAX_PNO_LIST_COUNT 16
++#define MAX_SCAN_LIST_COUNT 14	/* 2.4G only */
++#define MAX_HIDDEN_AP 8		/* 8 hidden AP */
++#endif
++
++/*
++	BIT[2:0] = HW state
++	BIT[3] = Protocol PS state,   0: register active state , 1: register sleep state
++	BIT[4] = sub-state
++*/
++
++#define PS_DPS				BIT(0)
++#define PS_LCLK				(PS_DPS)
++#define PS_RF_OFF			BIT(1)
++#define PS_ALL_ON			BIT(2)
++#define PS_ST_ACTIVE		BIT(3)
++
++#define PS_ISR_ENABLE		BIT(4)
++#define PS_IMR_ENABLE		BIT(5)
++#define PS_ACK				BIT(6)
++#define PS_TOGGLE			BIT(7)
++
++#define PS_STATE_MASK		(0x0F)
++#define PS_STATE_HW_MASK	(0x07)
++#define PS_SEQ_MASK			(0xc0)
++
++#define PS_STATE(x)		(PS_STATE_MASK & (x))
++#define PS_STATE_HW(x)	(PS_STATE_HW_MASK & (x))
++#define PS_SEQ(x)		(PS_SEQ_MASK & (x))
++
++#define PS_STATE_S0		(PS_DPS)
++#define PS_STATE_S1		(PS_LCLK)
++#define PS_STATE_S2		(PS_RF_OFF)
++#define PS_STATE_S3		(PS_ALL_ON)
++#define PS_STATE_S4		((PS_ST_ACTIVE) | (PS_ALL_ON))
++
++
++#define PS_IS_RF_ON(x)	((x) & (PS_ALL_ON))
++#define PS_IS_ACTIVE(x)	((x) & (PS_ST_ACTIVE))
++#define CLR_PS_STATE(x)	((x) = ((x) & (0xF0)))
++
++
++struct reportpwrstate_parm {
++	unsigned char mode;
++	unsigned char state; /* the CPWM value */
++	unsigned short rsvd;
++};
++
++
++typedef _sema _pwrlock;
++
++
++__inline static void _init_pwrlock(_pwrlock *plock)
++{
++	_rtw_init_sema(plock, 1);
++}
++
++__inline static void _free_pwrlock(_pwrlock *plock)
++{
++	_rtw_free_sema(plock);
++}
++
++
++__inline static void _enter_pwrlock(_pwrlock *plock)
++{
++	_rtw_down_sema(plock);
++}
++
++
++__inline static void _exit_pwrlock(_pwrlock *plock)
++{
++	_rtw_up_sema(plock);
++}
++
++#define LPS_DELAY_TIME	1*HZ /* 1 sec */
++
++#define EXE_PWR_NONE	0x01
++#define EXE_PWR_IPS		0x02
++#define EXE_PWR_LPS		0x04
++
++/* RF state. */
++typedef enum _rt_rf_power_state {
++	rf_on,		/* RF is on after RFSleep or RFOff */
++	rf_sleep,	/* 802.11 Power Save mode */
++	rf_off,		/* HW/SW Radio OFF or Inactive Power Save */
++	/* =====Add the new RF state above this line===== */
++	rf_max
++} rt_rf_power_state;
++
++/* RF Off Level for IPS or HW/SW radio off */
++#define	RT_RF_OFF_LEVL_ASPM			BIT(0)	/* PCI ASPM */
++#define	RT_RF_OFF_LEVL_CLK_REQ		BIT(1)	/* PCI clock request */
++#define	RT_RF_OFF_LEVL_PCI_D3			BIT(2)	/* PCI D3 mode */
++#define	RT_RF_OFF_LEVL_HALT_NIC		BIT(3)	/* NIC halt, re-initialize hw parameters */
++#define	RT_RF_OFF_LEVL_FREE_FW		BIT(4)	/* FW free, re-download the FW */
++#define	RT_RF_OFF_LEVL_FW_32K		BIT(5)	/* FW in 32k */
++#define	RT_RF_PS_LEVEL_ALWAYS_ASPM	BIT(6)	/* Always enable ASPM and Clock Req in initialization. */
++#define	RT_RF_LPS_DISALBE_2R			BIT(30)	/* When LPS is on, disable 2R if no packet is received or transmittd. */
++#define	RT_RF_LPS_LEVEL_ASPM			BIT(31)	/* LPS with ASPM */
++
++#define	RT_IN_PS_LEVEL(ppsc, _PS_FLAG)		((ppsc->cur_ps_level & _PS_FLAG) ? _TRUE : _FALSE)
++#define	RT_CLEAR_PS_LEVEL(ppsc, _PS_FLAG)	(ppsc->cur_ps_level &= (~(_PS_FLAG)))
++#define	RT_SET_PS_LEVEL(ppsc, _PS_FLAG)		(ppsc->cur_ps_level |= _PS_FLAG)
++
++/* ASPM OSC Control bit, added by Roger, 2013.03.29. */
++#define	RT_PCI_ASPM_OSC_IGNORE		0	 /* PCI ASPM ignore OSC control in default */
++#define	RT_PCI_ASPM_OSC_ENABLE		BIT0 /* PCI ASPM controlled by OS according to ACPI Spec 5.0 */
++#define	RT_PCI_ASPM_OSC_DISABLE		BIT1 /* PCI ASPM controlled by driver or BIOS, i.e., force enable ASPM */
++
++
++enum _PS_BBRegBackup_ {
++	PSBBREG_RF0 = 0,
++	PSBBREG_RF1,
++	PSBBREG_RF2,
++	PSBBREG_AFE0,
++	PSBBREG_TOTALCNT
++};
++
++enum { /* for ips_mode */
++	IPS_NONE = 0,
++	IPS_NORMAL,
++	IPS_LEVEL_2,
++	IPS_NUM
++};
++
++/* Design for pwrctrl_priv.ips_deny, 32 bits for 32 reasons at most */
++typedef enum _PS_DENY_REASON {
++	PS_DENY_DRV_INITIAL = 0,
++	PS_DENY_SCAN,
++	PS_DENY_JOIN,
++	PS_DENY_DISCONNECT,
++	PS_DENY_SUSPEND,
++	PS_DENY_IOCTL,
++	PS_DENY_MGNT_TX,
++	PS_DENY_DRV_REMOVE = 30,
++	PS_DENY_OTHERS = 31
++} PS_DENY_REASON;
++
++#ifdef CONFIG_PNO_SUPPORT
++typedef struct pno_nlo_info {
++	u32 fast_scan_period;				/* Fast scan period */
++	u8	ssid_num;				/* number of entry */
++	u8	hidden_ssid_num;
++	u32	slow_scan_period;			/* slow scan period */
++	u32	fast_scan_iterations;			/* Fast scan iterations */
++	u8	ssid_length[MAX_PNO_LIST_COUNT];	/* SSID Length Array */
++	u8	ssid_cipher_info[MAX_PNO_LIST_COUNT];	/* Cipher information for security */
++	u8	ssid_channel_info[MAX_PNO_LIST_COUNT];	/* channel information */
++	u8	loc_probe_req[MAX_HIDDEN_AP];		/* loc_probeReq */
++} pno_nlo_info_t;
++
++typedef struct pno_ssid {
++	u32		SSID_len;
++	u8		SSID[32];
++} pno_ssid_t;
++
++typedef struct pno_ssid_list {
++	pno_ssid_t	node[MAX_PNO_LIST_COUNT];
++} pno_ssid_list_t;
++
++typedef struct pno_scan_channel_info {
++	u8	channel;
++	u8	tx_power;
++	u8	timeout;
++	u8	active;				/* set 1 means active scan, or pasivite scan. */
++} pno_scan_channel_info_t;
++
++typedef struct pno_scan_info {
++	u8	enableRFE;			/* Enable RFE */
++	u8	period_scan_time;		/* exclusive with fast_scan_period and slow_scan_period */
++	u8	periodScan;			/* exclusive with fast_scan_period and slow_scan_period */
++	u8	orig_80_offset;			/* original channel 80 offset */
++	u8	orig_40_offset;			/* original channel 40 offset */
++	u8	orig_bw;			/* original bandwidth */
++	u8	orig_ch;			/* original channel */
++	u8	channel_num;			/* number of channel */
++	u64	rfe_type;			/* rfe_type && 0x00000000000000ff */
++	pno_scan_channel_info_t ssid_channel_info[MAX_SCAN_LIST_COUNT];
++} pno_scan_info_t;
++#endif /* CONFIG_PNO_SUPPORT */
++
++#ifdef CONFIG_LPS_POFF
++/* Driver context for LPS 32K Close IO Power */
++typedef struct lps_poff_info {
++	bool	bEn;
++	u8	*pStaticFile;
++	u8	*pDynamicFile;
++	u32	ConfFileOffset;
++	u32	tx_bndy_static;
++	u32	tx_bndy_dynamic;
++	u16	ConfLenForPTK;
++	u16	ConfLenForGTK;
++	ATOMIC_T bEnterPOFF;
++	ATOMIC_T bTxBoundInProgress;
++	ATOMIC_T bSetPOFFParm;
++} lps_poff_info_t;
++#endif /*CONFIG_LPS_POFF*/
++
++struct pwrctrl_priv {
++	_pwrlock	lock;
++	_pwrlock	check_32k_lock;
++	volatile u8 rpwm; /* requested power state for fw */
++	volatile u8 cpwm; /* fw current power state. updated when 1. read from HCPWM 2. driver lowers power level */
++	volatile u8 tog; /* toggling */
++	volatile u8 cpwm_tog; /* toggling */
++
++	u8	pwr_mode;
++	u8	smart_ps;
++	u8	bcn_ant_mode;
++	u8	dtim;
++
++	u32	alives;
++	_workitem cpwm_event;
++#ifdef CONFIG_LPS_RPWM_TIMER
++	u8 brpwmtimeout;
++	_workitem rpwmtimeoutwi;
++	_timer pwr_rpwm_timer;
++#endif /* CONFIG_LPS_RPWM_TIMER */
++	u8	bpower_saving; /* for LPS/IPS */
++
++	u8	b_hw_radio_off;
++	u8	reg_rfoff;
++	u8	reg_pdnmode; /* powerdown mode */
++	u32	rfoff_reason;
++
++	/* RF OFF Level */
++	u32	cur_ps_level;
++	u32	reg_rfps_level;
++
++	uint	ips_enter_cnts;
++	uint	ips_leave_cnts;
++	uint	lps_enter_cnts;
++	uint	lps_leave_cnts;
++
++	u8	ips_mode;
++	u8	ips_org_mode;
++	u8	ips_mode_req; /* used to accept the mode setting request, will update to ipsmode later */
++	uint bips_processing;
++	u32 ips_deny_time; /* will deny IPS when system time is smaller than this */
++	u8 pre_ips_type;/* 0: default flow, 1: carddisbale flow */
++
++	/* ps_deny: if 0, power save is free to go; otherwise deny all kinds of power save. */
++	/* Use PS_DENY_REASON to decide reason. */
++	/* Don't access this variable directly without control function, */
++	/* and this variable should be protected by lock. */
++	u32 ps_deny;
++
++	u8 ps_processing; /* temporarily used to mark whether in rtw_ps_processor */
++
++	u8 fw_psmode_iface_id;
++	u8	bLeisurePs;
++	u8	LpsIdleCount;
++	u8	power_mgnt;
++	u8	org_power_mgnt;
++	u8	bFwCurrentInPSMode;
++	u32	DelayLPSLastTimeStamp;
++	s32		pnp_current_pwr_state;
++	u8		pnp_bstop_trx;
++
++
++	u8		bInternalAutoSuspend;
++	u8		bInSuspend;
++#ifdef CONFIG_BT_COEXIST
++	u8		bAutoResume;
++	u8		autopm_cnt;
++#endif
++	u8		bSupportRemoteWakeup;
++	u8		wowlan_wake_reason;
++	u8		wowlan_last_wake_reason;
++	u8		wowlan_ap_mode;
++	u8		wowlan_mode;
++	u8		wowlan_p2p_mode;
++	u8		wowlan_pno_enable;
++#ifdef CONFIG_GPIO_WAKEUP
++	u8		is_high_active;
++#endif /* CONFIG_GPIO_WAKEUP */
++#ifdef CONFIG_WOWLAN
++	u8		wowlan_txpause_status;
++	u8		wowlan_pattern_idx;
++	u64		wowlan_fw_iv;
++	struct rtl_priv_pattern	patterns[MAX_WKFM_NUM];
++#ifdef CONFIG_PNO_SUPPORT
++	u8		pno_in_resume;
++	u8		pno_inited;
++	pno_nlo_info_t	*pnlo_info;
++	pno_scan_info_t	*pscan_info;
++	pno_ssid_list_t	*pno_ssid_list;
++#endif /* CONFIG_PNO_SUPPORT */
++#endif /* CONFIG_WOWLAN */
++	_timer	pwr_state_check_timer;
++	int		pwr_state_check_interval;
++	u8		pwr_state_check_cnts;
++
++	int		ps_flag; /* used by autosuspend */
++
++	rt_rf_power_state	rf_pwrstate;/* cur power state, only for IPS */
++	/* rt_rf_power_state	current_rfpwrstate; */
++	rt_rf_power_state	change_rfpwrstate;
++
++	u8		bHWPowerdown; /* power down mode selection. 0:radio off, 1:power down */
++	u8		bHWPwrPindetect; /* come from registrypriv.hwpwrp_detect. enable power down function. 0:disable, 1:enable */
++	u8		bkeepfwalive;
++	u8		brfoffbyhw;
++	unsigned long PS_BBRegBackup[PSBBREG_TOTALCNT];
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++	struct workqueue_struct *rtw_workqueue;
++	_workitem resume_work;
++#endif
++
++#ifdef CONFIG_HAS_EARLYSUSPEND
++	struct early_suspend early_suspend;
++	u8 do_late_resume;
++#endif /* CONFIG_HAS_EARLYSUSPEND */
++
++#ifdef CONFIG_ANDROID_POWER
++	android_early_suspend_t early_suspend;
++	u8 do_late_resume;
++#endif
++
++#ifdef CONFIG_INTEL_PROXIM
++	u8	stored_power_mgnt;
++#endif
++
++#ifdef CONFIG_LPS_POFF
++	lps_poff_info_t	*plps_poff_info;
++#endif
++
++#ifdef CONFIG_LPS_PG
++	u8 lpspg_rsvd_page_locate;
++	u8 blpspg_info_up;
++#endif
++};
++
++#define rtw_get_ips_mode_req(pwrctl) \
++	(pwrctl)->ips_mode_req
++
++#define rtw_ips_mode_req(pwrctl, ips_mode) \
++	(pwrctl)->ips_mode_req = (ips_mode)
++
++#define RTW_PWR_STATE_CHK_INTERVAL 2000
++
++#define _rtw_set_pwr_state_check_timer(pwrctl, ms) \
++	do { \
++		/*RTW_INFO("%s _rtw_set_pwr_state_check_timer(%p, %d)\n", __FUNCTION__, (pwrctl), (ms));*/ \
++		_set_timer(&(pwrctl)->pwr_state_check_timer, (ms)); \
++	} while (0)
++
++#define rtw_set_pwr_state_check_timer(pwrctl) \
++	_rtw_set_pwr_state_check_timer((pwrctl), (pwrctl)->pwr_state_check_interval)
++
++extern void rtw_init_pwrctrl_priv(_adapter *adapter);
++extern void rtw_free_pwrctrl_priv(_adapter *adapter);
++
++#ifdef CONFIG_LPS_LCLK
++s32 rtw_register_task_alive(PADAPTER, u32 task);
++void rtw_unregister_task_alive(PADAPTER, u32 task);
++extern s32 rtw_register_tx_alive(PADAPTER padapter);
++extern void rtw_unregister_tx_alive(PADAPTER padapter);
++extern s32 rtw_register_rx_alive(PADAPTER padapter);
++extern void rtw_unregister_rx_alive(PADAPTER padapter);
++extern s32 rtw_register_cmd_alive(PADAPTER padapter);
++extern void rtw_unregister_cmd_alive(PADAPTER padapter);
++extern s32 rtw_register_evt_alive(PADAPTER padapter);
++extern void rtw_unregister_evt_alive(PADAPTER padapter);
++extern void cpwm_int_hdl(PADAPTER padapter, struct reportpwrstate_parm *preportpwrstate);
++extern void LPS_Leave_check(PADAPTER padapter);
++#endif
++
++extern void LeaveAllPowerSaveMode(PADAPTER Adapter);
++extern void LeaveAllPowerSaveModeDirect(PADAPTER Adapter);
++#ifdef CONFIG_IPS
++void _ips_enter(_adapter *padapter);
++void ips_enter(_adapter *padapter);
++int _ips_leave(_adapter *padapter);
++int ips_leave(_adapter *padapter);
++#endif
++
++void rtw_ps_processor(_adapter *padapter);
++
++#ifdef CONFIG_AUTOSUSPEND
++int autoresume_enter(_adapter *padapter);
++#endif
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++rt_rf_power_state RfOnOffDetect(IN	PADAPTER pAdapter);
++#endif
++
++
++int rtw_fw_ps_state(PADAPTER padapter);
++
++#ifdef CONFIG_LPS
++s32 LPS_RF_ON_check(PADAPTER padapter, u32 delay_ms);
++void LPS_Enter(PADAPTER padapter, const char *msg);
++void LPS_Leave(PADAPTER padapter, const char *msg);
++void traffic_check_for_leave_lps(PADAPTER padapter, u8 tx, u32 tx_packets);
++void rtw_set_ps_mode(PADAPTER padapter, u8 ps_mode, u8 smart_ps, u8 bcn_ant_mode, const char *msg);
++void rtw_set_fw_in_ips_mode(PADAPTER padapter, u8 enable);
++void rtw_set_rpwm(_adapter *padapter, u8 val8);
++#endif
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++void rtw_resume_in_workqueue(struct pwrctrl_priv *pwrpriv);
++#endif /* CONFIG_RESUME_IN_WORKQUEUE */
++
++#if defined(CONFIG_HAS_EARLYSUSPEND) || defined(CONFIG_ANDROID_POWER)
++bool rtw_is_earlysuspend_registered(struct pwrctrl_priv *pwrpriv);
++bool rtw_is_do_late_resume(struct pwrctrl_priv *pwrpriv);
++void rtw_set_do_late_resume(struct pwrctrl_priv *pwrpriv, bool enable);
++void rtw_register_early_suspend(struct pwrctrl_priv *pwrpriv);
++void rtw_unregister_early_suspend(struct pwrctrl_priv *pwrpriv);
++#else
++#define rtw_is_earlysuspend_registered(pwrpriv) _FALSE
++#define rtw_is_do_late_resume(pwrpriv) _FALSE
++#define rtw_set_do_late_resume(pwrpriv, enable) do {} while (0)
++#define rtw_register_early_suspend(pwrpriv) do {} while (0)
++#define rtw_unregister_early_suspend(pwrpriv) do {} while (0)
++#endif /* CONFIG_HAS_EARLYSUSPEND || CONFIG_ANDROID_POWER */
++
++u8 rtw_interface_ps_func(_adapter *padapter, HAL_INTF_PS_FUNC efunc_id, u8 *val);
++void rtw_set_ips_deny(_adapter *padapter, u32 ms);
++int _rtw_pwr_wakeup(_adapter *padapter, u32 ips_deffer_ms, const char *caller);
++#define rtw_pwr_wakeup(adapter) _rtw_pwr_wakeup(adapter, RTW_PWR_STATE_CHK_INTERVAL, __FUNCTION__)
++#define rtw_pwr_wakeup_ex(adapter, ips_deffer_ms) _rtw_pwr_wakeup(adapter, ips_deffer_ms, __FUNCTION__)
++int rtw_pm_set_ips(_adapter *padapter, u8 mode);
++int rtw_pm_set_lps(_adapter *padapter, u8 mode);
++
++void rtw_ps_deny(PADAPTER padapter, PS_DENY_REASON reason);
++void rtw_ps_deny_cancel(PADAPTER padapter, PS_DENY_REASON reason);
++u32 rtw_ps_deny_get(PADAPTER padapter);
++
++#if defined(CONFIG_WOWLAN)
++void rtw_get_current_ip_address(PADAPTER padapter, u8 *pcurrentip);
++void rtw_get_sec_iv(PADAPTER padapter, u8 *pcur_dot11txpn, u8 *StaAddr);
++void rtw_set_sec_pn(_adapter *padapter);
++bool rtw_check_pattern_valid(u8 *input, u8 len);
++bool rtw_write_to_frame_mask(_adapter *adapter, u8 idx,
++			     struct rtl_wow_pattern *content);
++
++bool rtw_read_from_frame_mask(_adapter *adapter, u8 idx);
++bool rtw_wowlan_parser_pattern_cmd(u8 *input, char *pattern,
++				int *pattern_len, char *bit_mask);
++u8 rtw_set_default_pattern(_adapter *adapter);
++void rtw_dump_priv_pattern(_adapter *adapter, u8 idx);
++void rtw_clean_pattern(_adapter *adapter);
++#endif /* CONFIG_WOWLAN */
++#endif /* __RTL871X_PWRCTRL_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_qos.h b/drivers/net/wireless/rtl8723du/include/rtw_qos.h
+new file mode 100644
+index 0000000..57555e1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_qos.h
+@@ -0,0 +1,34 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#ifndef _RTW_QOS_H_
++#define _RTW_QOS_H_
++
++
++
++struct	qos_priv	{
++
++	unsigned int	  qos_option;	/* bit mask option: u-apsd, s-apsd, ts, block ack...		 */
++
++};
++
++
++#endif /* _RTL871X_QOS_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_recv.h b/drivers/net/wireless/rtl8723du/include/rtw_recv.h
+new file mode 100644
+index 0000000..a4c2b24
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_recv.h
+@@ -0,0 +1,890 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_RECV_H_
++#define _RTW_RECV_H_
++
++#ifdef PLATFORM_OS_XP
++	#ifdef CONFIG_SDIO_HCI
++		#define NR_RECVBUFF 1024/* 512 */ /* 128 */
++	#else
++		#define NR_RECVBUFF (16)
++	#endif
++#elif defined(PLATFORM_OS_CE)
++	#ifdef CONFIG_SDIO_HCI
++		#define NR_RECVBUFF (128)
++	#else
++		#define NR_RECVBUFF (4)
++	#endif
++#else /* PLATFORM_LINUX /PLATFORM_BSD */
++
++	#ifdef CONFIG_SINGLE_RECV_BUF
++		#define NR_RECVBUFF (1)
++	#else
++		#if defined(CONFIG_GSPI_HCI)
++			#define NR_RECVBUFF (32)
++		#elif defined(CONFIG_SDIO_HCI)
++			#define NR_RECVBUFF (8)
++		#else
++			#define NR_RECVBUFF (8)
++		#endif
++	#endif /* CONFIG_SINGLE_RECV_BUF */
++	#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++		#define NR_PREALLOC_RECV_SKB (rtw_rtkm_get_nr_recv_skb()>>1)
++	#else /*!CONFIG_PREALLOC_RX_SKB_BUFFER */
++		#define NR_PREALLOC_RECV_SKB 8
++	#endif /* CONFIG_PREALLOC_RX_SKB_BUFFER */
++
++	#ifdef CONFIG_RTW_NAPI
++		#define RTL_NAPI_WEIGHT (32)
++	#endif
++#endif
++
++#define NR_RECVFRAME 256
++
++#define RXFRAME_ALIGN	8
++#define RXFRAME_ALIGN_SZ	(1<<RXFRAME_ALIGN)
++
++#define DRVINFO_SZ	4 /* unit is 8bytes */
++
++#define MAX_RXFRAME_CNT	512
++#define MAX_RX_NUMBLKS		(32)
++#define RECVFRAME_HDR_ALIGN 128
++#define MAX_CONTINUAL_NORXPACKET_COUNT 4    /*  In MAX_CONTINUAL_NORXPACKET_COUNT*2 sec  , no rx traffict would issue DELBA*/
++
++#define PHY_RSSI_SLID_WIN_MAX				100
++#define PHY_LINKQUALITY_SLID_WIN_MAX		20
++
++
++#define SNAP_SIZE sizeof(struct ieee80211_snap_hdr)
++
++#define RX_MPDU_QUEUE				0
++#define RX_CMD_QUEUE				1
++#define RX_MAX_QUEUE				2
++
++static u8 SNAP_ETH_TYPE_IPX[2] = {0x81, 0x37};
++
++static u8 SNAP_ETH_TYPE_APPLETALK_AARP[2] = {0x80, 0xf3};
++static u8 SNAP_ETH_TYPE_APPLETALK_DDP[2] = {0x80, 0x9b};
++static u8 SNAP_ETH_TYPE_TDLS[2] = {0x89, 0x0d};
++static u8 SNAP_HDR_APPLETALK_DDP[3] = {0x08, 0x00, 0x07}; /* Datagram Delivery Protocol */
++
++static u8 oui_8021h[] = {0x00, 0x00, 0xf8};
++static u8 oui_rfc1042[] = {0x00, 0x00, 0x00};
++
++#define MAX_SUBFRAME_COUNT	64
++static u8 rtw_rfc1042_header[] = { 0xaa, 0xaa, 0x03, 0x00, 0x00, 0x00 };
++/* Bridge-Tunnel header (for EtherTypes ETH_P_AARP and ETH_P_IPX) */
++static u8 rtw_bridge_tunnel_header[] = { 0xaa, 0xaa, 0x03, 0x00, 0x00, 0xf8 };
++
++/* for Rx reordering buffer control */
++struct recv_reorder_ctrl {
++	_adapter	*padapter;
++	u8 enable;
++	u16 indicate_seq;/* =wstart_b, init_value=0xffff */
++	u16 wend_b;
++	u8 wsize_b;
++	u8 ampdu_size;
++	_queue pending_recvframe_queue;
++	_timer reordering_ctrl_timer;
++	u8 bReorderWaiting;
++};
++
++struct	stainfo_rxcache	{
++	u16	tid_rxseq[16];
++#if 0
++	unsigned short	tid0_rxseq;
++	unsigned short	tid1_rxseq;
++	unsigned short	tid2_rxseq;
++	unsigned short	tid3_rxseq;
++	unsigned short	tid4_rxseq;
++	unsigned short	tid5_rxseq;
++	unsigned short	tid6_rxseq;
++	unsigned short	tid7_rxseq;
++	unsigned short	tid8_rxseq;
++	unsigned short	tid9_rxseq;
++	unsigned short	tid10_rxseq;
++	unsigned short	tid11_rxseq;
++	unsigned short	tid12_rxseq;
++	unsigned short	tid13_rxseq;
++	unsigned short	tid14_rxseq;
++	unsigned short	tid15_rxseq;
++#endif
++};
++
++
++struct smooth_rssi_data {
++	u32	elements[100];	/* array to store values */
++	u32	index;			/* index to current array to store */
++	u32	total_num;		/* num of valid elements */
++	u32	total_val;		/* sum of valid elements */
++};
++
++struct signal_stat {
++	u8	update_req;		/* used to indicate */
++	u8	avg_val;		/* avg of valid elements */
++	u32	total_num;		/* num of valid elements */
++	u32	total_val;		/* sum of valid elements	 */
++};
++#if 0
++typedef struct _ODM_Phy_Status_Info_ {
++	/* */
++	/*  Be care, if you want to add any element please insert between */
++	/*  RxPWDBAll & SignalStrength. */
++	/* */
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN))
++	u4Byte		RxPWDBAll;
++#else
++	u1Byte		RxPWDBAll;
++#endif
++
++	u1Byte		SignalQuality;	 		/*  in 0-100 index. */
++	s1Byte		RxMIMOSignalQuality[4];	/* per-path's EVM */
++	u1Byte		RxMIMOEVMdbm[4]; 		/* per-path's EVM dbm */
++
++	u1Byte		RxMIMOSignalStrength[4];/*  in 0~100 index */
++
++	u2Byte		Cfo_short[4]; 			/*  per-path's Cfo_short */
++	u2Byte		Cfo_tail[4];			/*  per-path's Cfo_tail */
++
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++	s1Byte		RxPower;				/*  in dBm Translate from PWdB */
++	s1Byte		RecvSignalPower;		/*  Real power in dBm for this packet, no beautification and aggregation. Keep this raw info to be used for the other procedures. */
++	u1Byte		BTRxRSSIPercentage;
++	u1Byte		SignalStrength; 		/*  in 0-100 index. */
++
++	u1Byte		RxPwr[4];				/* per-path's pwdb */
++#endif
++	u1Byte		RxSNR[4];				/* per-path's SNR	 */
++	u1Byte		BandWidth;
++	u1Byte		btCoexPwrAdjust;
++} ODM_PHY_INFO_T, *PODM_PHY_INFO_T;
++#endif
++
++struct phy_info {
++	u8			RxPWDBAll;
++	u8			SignalQuality;				/* in 0-100 index. */
++	s8			RxMIMOSignalQuality[4];		/* per-path's EVM */
++	u8			RxMIMOEVMdbm[4];			/* per-path's EVM dbm */
++	u8			RxMIMOSignalStrength[4];	/* in 0~100 index */
++	s16			Cfo_short[4];				/* per-path's Cfo_short */
++	s16			Cfo_tail[4];					/* per-path's Cfo_tail */
++	s8			RxPower;					/* in dBm Translate from PWdB */
++	s8			RecvSignalPower;			/* Real power in dBm for this packet, no beautification and aggregation. Keep this raw info to be used for the other procedures. */
++	u8			BTRxRSSIPercentage;
++	u8			SignalStrength;				/* in 0-100 index. */
++	s8			RxPwr[4];					/* per-path's pwdb */
++	s8			RxSNR[4];
++#if ((RTL8822B_SUPPORT == 1) || (RTL8723D_SUPPORT == 1) || (RTL8821C_SUPPORT == 1))
++	u8			RxCount:2;
++	u8			BandWidth:2;
++	u8			rxsc:4;
++#else
++	u8			BandWidth;
++#endif
++	u8			btCoexPwrAdjust;
++#if ((RTL8822B_SUPPORT == 1) || (RTL8723D_SUPPORT == 1) || (RTL8821C_SUPPORT == 1))
++	u8			channel;						/* channel number---*/
++	BOOLEAN		bMuPacket;					/* is MU packet or not---*/
++	BOOLEAN		bBeamformed;
++#endif
++};
++
++struct rx_raw_rssi {
++	u8 data_rate;
++	u8 pwdball;
++	s8 pwr_all;
++
++	u8 mimo_signal_strength[4];/* in 0~100 index */
++	u8 mimo_signal_quality[4];
++
++	s8 ofdm_pwr[4];
++	u8 ofdm_snr[4];
++};
++
++
++struct rx_pkt_attrib	{
++	u16	pkt_len;
++	u8	physt;
++	u8	drvinfo_sz;
++	u8	shift_sz;
++	u8	hdrlen; /* the WLAN Header Len */
++	u8	to_fr_ds;
++	u8	amsdu;
++	u8	qos;
++	u8	priority;
++	u8	pw_save;
++	u8	mdata;
++	u16	seq_num;
++	u8	frag_num;
++	u8	mfrag;
++	u8	order;
++	u8	privacy; /* in frame_ctrl field */
++	u8	bdecrypted;
++	u8	encrypt; /* when 0 indicate no encrypt. when non-zero, indicate the encrypt algorith */
++	u8	iv_len;
++	u8	icv_len;
++	u8	crc_err;
++	u8	icv_err;
++
++	u16	eth_type;
++
++	u8	dst[ETH_ALEN];
++	u8	src[ETH_ALEN];
++	u8	ta[ETH_ALEN];
++	u8	ra[ETH_ALEN];
++	u8	bssid[ETH_ALEN];
++
++	u8	ack_policy;
++
++/* #ifdef CONFIG_TCP_CSUM_OFFLOAD_RX */
++	u8	tcpchk_valid; /* 0: invalid, 1: valid */
++	u8	ip_chkrpt; /* 0: incorrect, 1: correct */
++	u8	tcp_chkrpt; /* 0: incorrect, 1: correct */
++/* #endif */
++	u8	key_index;
++
++	u8	data_rate;
++	u8	bw;
++	u8	stbc;
++	u8	ldpc;
++	u8	sgi;
++	u8	pkt_rpt_type;
++	u32 tsfl;
++	u32	MacIDValidEntry[2];	/* 64 bits present 64 entry. */
++
++#if 0
++	u8	signal_qual;
++	s8	rx_mimo_signal_qual[2];
++	u8	signal_strength;
++	u32	RxPWDBAll;
++	s32	RecvSignalPower;
++#endif
++	struct phy_info phy_info;
++};
++
++
++/* These definition is used for Rx packet reordering. */
++#define SN_LESS(a, b)		(((a-b) & 0x800) != 0)
++#define SN_EQUAL(a, b)	(a == b)
++/* #define REORDER_WIN_SIZE	128 */
++/* #define REORDER_ENTRY_NUM	128 */
++#define REORDER_WAIT_TIME	(50) /* (ms) */
++
++#define RECVBUFF_ALIGN_SZ 8
++
++#ifdef CONFIG_TRX_BD_ARCH
++	#define RX_WIFI_INFO_SIZE	24
++#elif (defined(CONFIG_RTL8192E) || defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B)) && defined(CONFIG_PCI_HCI)
++	#define RXBD_SIZE	sizeof(struct recv_stat)
++#endif
++
++#define RXDESC_SIZE	24
++#define RXDESC_OFFSET RXDESC_SIZE
++
++#ifdef CONFIG_TRX_BD_ARCH
++struct rx_buf_desc {
++	/* RX has exactly one segment */
++#ifdef CONFIG_64BIT_DMA
++	unsigned int dword[4];
++#else
++	unsigned int dword[2];
++#endif
++};
++
++struct recv_stat {
++	unsigned int rxdw[8];
++};
++#else
++struct recv_stat {
++	unsigned int rxdw0;
++
++	unsigned int rxdw1;
++
++#if !((defined(CONFIG_RTL8192E) || defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)) && defined(CONFIG_PCI_HCI))  /* exclude 8192ee, 8814ae, 8822be, 8821ce */
++	unsigned int rxdw2;
++
++	unsigned int rxdw3;
++#endif
++
++#ifndef BUF_DESC_ARCH
++	unsigned int rxdw4;
++
++	unsigned int rxdw5;
++
++#ifdef CONFIG_PCI_HCI
++	unsigned int rxdw6;
++
++	unsigned int rxdw7;
++#endif
++#endif /* if BUF_DESC_ARCH is defined, rx_buf_desc occupy 4 double words */
++};
++#endif
++
++#define EOR BIT(30)
++
++#ifdef CONFIG_PCI_HCI
++#define PCI_MAX_RX_QUEUE		1/* MSDU packet queue, Rx Command Queue */
++#define PCI_MAX_RX_COUNT		128
++#ifdef CONFIG_TRX_BD_ARCH
++#define RX_BD_NUM				PCI_MAX_RX_COUNT	/* alias */
++#endif
++
++struct rtw_rx_ring {
++#ifdef CONFIG_TRX_BD_ARCH
++	struct rx_buf_desc	*buf_desc;
++#else
++	struct recv_stat	*desc;
++#endif
++	dma_addr_t		dma;
++	unsigned int		idx;
++	struct sk_buff	*rx_buf[PCI_MAX_RX_COUNT];
++};
++#endif
++
++
++
++/*
++accesser of recv_priv: rtw_recv_entry(dispatch / passive level); recv_thread(passive) ; returnpkt(dispatch)
++; halt(passive) ;
++
++using enter_critical section to protect
++*/
++struct recv_priv {
++	_lock	lock;
++
++#ifdef CONFIG_RECV_THREAD_MODE
++	_sema	recv_sema;
++	_sema	terminate_recvthread_sema;
++#endif
++
++	/* _queue	blk_strms[MAX_RX_NUMBLKS];    */ /* keeping the block ack frame until return ack */
++	_queue	free_recv_queue;
++	_queue	recv_pending_queue;
++	_queue	uc_swdec_pending_queue;
++
++
++	u8 *pallocated_frame_buf;
++	u8 *precv_frame_buf;
++
++	uint free_recvframe_cnt;
++
++	_adapter	*adapter;
++
++#ifdef PLATFORM_WINDOWS
++	_nic_hdl  RxPktPoolHdl;
++	_nic_hdl  RxBufPoolHdl;
++
++#ifdef PLATFORM_OS_XP
++	PMDL	pbytecnt_mdl;
++#endif
++	uint	counter; /* record the number that up-layer will return to drv; only when counter==0 can we  release recv_priv */
++	NDIS_EVENT	recv_resource_evt ;
++#endif
++
++	u32	bIsAnyNonBEPkts;
++	u64	rx_bytes;
++	u64	rx_pkts;
++	u64	rx_drop;
++
++	uint  rx_icv_err;
++	uint  rx_largepacket_crcerr;
++	uint  rx_smallpacket_crcerr;
++	uint  rx_middlepacket_crcerr;
++
++#ifdef CONFIG_USB_HCI
++	/* u8 *pallocated_urb_buf; */
++	_sema allrxreturnevt;
++	uint	ff_hwaddr;
++	ATOMIC_T	rx_pending_cnt;
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++#ifdef PLATFORM_LINUX
++	PURB	int_in_urb;
++#endif
++
++	u8	*int_in_buf;
++#endif /* CONFIG_USB_INTERRUPT_IN_PIPE */
++
++#endif
++#if defined(PLATFORM_LINUX) || defined(PLATFORM_FREEBSD)
++#ifdef PLATFORM_FREEBSD
++	struct task irq_prepare_beacon_tasklet;
++	struct task recv_tasklet;
++#else /* PLATFORM_FREEBSD */
++	struct tasklet_struct irq_prepare_beacon_tasklet;
++	struct tasklet_struct recv_tasklet;
++#endif /* PLATFORM_FREEBSD */
++	struct sk_buff_head free_recv_skb_queue;
++	struct sk_buff_head rx_skb_queue;
++#ifdef CONFIG_RTW_NAPI
++	struct sk_buff_head rx_napi_skb_queue;
++#endif 
++#ifdef CONFIG_RX_INDICATE_QUEUE
++	struct task rx_indicate_tasklet;
++	struct ifqueue rx_indicate_queue;
++#endif /* CONFIG_RX_INDICATE_QUEUE */
++
++#endif /* defined(PLATFORM_LINUX) || defined(PLATFORM_FREEBSD) */
++
++	u8 *pallocated_recv_buf;
++	u8 *precv_buf;    /* 4 alignment */
++	_queue	free_recv_buf_queue;
++	u32	free_recv_buf_queue_cnt;
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI) || defined(CONFIG_USB_HCI)
++	_queue	recv_buf_pending_queue;
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	/* Rx */
++	struct rtw_rx_ring	rx_ring[PCI_MAX_RX_QUEUE];
++	int rxringcount;	/* size should be PCI_MAX_RX_QUEUE */
++	u16	rxbuffersize;
++#endif
++
++	/* For display the phy informatiom */
++	u8 is_signal_dbg;	/* for debug */
++	u8 signal_strength_dbg;	/* for debug */
++
++	u8 signal_strength;
++	u8 signal_qual;
++	s8 rssi;	/* translate_percentage_to_dbm(ptarget_wlan->network.PhyInfo.SignalStrength); */
++	struct rx_raw_rssi raw_rssi_info;
++	/* s8 rxpwdb;	 */
++	s16 noise;
++	/* int RxSNRdB[2]; */
++	/* s8 RxRssi[2]; */
++	/* int FalseAlmCnt_all; */
++
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	_timer signal_stat_timer;
++	u32 signal_stat_sampling_interval;
++	/* u32 signal_stat_converging_constant; */
++	struct signal_stat signal_qual_data;
++	struct signal_stat signal_strength_data;
++#else /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++	struct smooth_rssi_data signal_qual_data;
++	struct smooth_rssi_data signal_strength_data;
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++	u16 sink_udpport, pre_rtp_rxseq, cur_rtp_rxseq;
++
++	BOOLEAN store_law_data_flag;
++};
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++#define rtw_set_signal_stat_timer(recvpriv) _set_timer(&(recvpriv)->signal_stat_timer, (recvpriv)->signal_stat_sampling_interval)
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++
++struct sta_recv_priv {
++
++	_lock	lock;
++	sint	option;
++
++	/* _queue	blk_strms[MAX_RX_NUMBLKS]; */
++	_queue defrag_q;	 /* keeping the fragment frame until defrag */
++
++	struct	stainfo_rxcache rxcache;
++
++	/* uint	sta_rx_bytes; */
++	/* uint	sta_rx_pkts; */
++	/* uint	sta_rx_fail; */
++
++};
++
++
++struct recv_buf {
++	_list list;
++
++	_lock recvbuf_lock;
++
++	u32	ref_cnt;
++
++	PADAPTER adapter;
++
++	u8	*pbuf;
++	u8	*pallocated_buf;
++
++	u32	len;
++	u8	*phead;
++	u8	*pdata;
++	u8	*ptail;
++	u8	*pend;
++
++#ifdef CONFIG_USB_HCI
++
++#if defined(PLATFORM_OS_XP) || defined(PLATFORM_LINUX) || defined(PLATFORM_FREEBSD)
++	PURB	purb;
++	dma_addr_t dma_transfer_addr;	/* (in) dma addr for transfer_buffer */
++	u32 alloc_sz;
++#endif
++
++#ifdef PLATFORM_OS_XP
++	PIRP		pirp;
++#endif
++
++#ifdef PLATFORM_OS_CE
++	USB_TRANSFER	usb_transfer_read_port;
++#endif
++
++	u8  irp_pending;
++	int  transfer_len;
++
++#endif
++
++#ifdef PLATFORM_LINUX
++	_pkt	*pskb;
++#endif
++#ifdef PLATFORM_FREEBSD /* skb solution */
++	struct sk_buff *pskb;
++#endif /* PLATFORM_FREEBSD */ /* skb solution */
++};
++
++
++/*
++	head  ----->
++
++		data  ----->
++
++			payload
++
++		tail  ----->
++
++
++	end   ----->
++
++	len = (unsigned int )(tail - data);
++
++*/
++struct recv_frame_hdr {
++	_list	list;
++#ifndef CONFIG_BSD_RX_USE_MBUF
++	struct sk_buff	*pkt;
++	struct sk_buff	*pkt_newalloc;
++#else /* CONFIG_BSD_RX_USE_MBUF */
++	_pkt	*pkt;
++	_pkt *pkt_newalloc;
++#endif /* CONFIG_BSD_RX_USE_MBUF */
++
++	_adapter  *adapter;
++
++	u8 fragcnt;
++
++	int frame_tag;
++
++	struct rx_pkt_attrib attrib;
++
++	uint  len;
++	u8 *rx_head;
++	u8 *rx_data;
++	u8 *rx_tail;
++	u8 *rx_end;
++
++	void *precvbuf;
++
++
++	/*  */
++	struct sta_info *psta;
++
++	/* for A-MPDU Rx reordering buffer control */
++	struct recv_reorder_ctrl *preorder_ctrl;
++
++#ifdef CONFIG_WAPI_SUPPORT
++	u8 UserPriority;
++	u8 WapiTempPN[16];
++	u8 WapiSrcAddr[6];
++	u8 bWapiCheckPNInDecrypt;
++	u8 bIsWaiPacket;
++#endif
++
++};
++
++
++union recv_frame {
++
++	union {
++		_list list;
++		struct recv_frame_hdr hdr;
++		uint mem[RECVFRAME_HDR_ALIGN >> 2];
++	} u;
++
++	/* uint mem[MAX_RXSZ>>2]; */
++
++};
++
++bool rtw_rframe_del_wfd_ie(union recv_frame *rframe, u8 ies_offset);
++
++typedef enum _RX_PACKET_TYPE {
++	NORMAL_RX,/* Normal rx packet */
++	TX_REPORT1,/* CCX */
++	TX_REPORT2,/* TX RPT */
++	HIS_REPORT,/* USB HISR RPT */
++	C2H_PACKET
++} RX_PACKET_TYPE, *PRX_PACKET_TYPE;
++
++extern union recv_frame *_rtw_alloc_recvframe(_queue *pfree_recv_queue);   /* get a free recv_frame from pfree_recv_queue */
++extern union recv_frame *rtw_alloc_recvframe(_queue *pfree_recv_queue);   /* get a free recv_frame from pfree_recv_queue */
++extern void rtw_init_recvframe(union recv_frame *precvframe , struct recv_priv *precvpriv);
++extern int	 rtw_free_recvframe(union recv_frame *precvframe, _queue *pfree_recv_queue);
++
++#define rtw_dequeue_recvframe(queue) rtw_alloc_recvframe(queue)
++extern int _rtw_enqueue_recvframe(union recv_frame *precvframe, _queue *queue);
++extern int rtw_enqueue_recvframe(union recv_frame *precvframe, _queue *queue);
++
++extern void rtw_free_recvframe_queue(_queue *pframequeue,  _queue *pfree_recv_queue);
++u32 rtw_free_uc_swdec_pending_queue(_adapter *adapter);
++
++sint rtw_enqueue_recvbuf_to_head(struct recv_buf *precvbuf, _queue *queue);
++sint rtw_enqueue_recvbuf(struct recv_buf *precvbuf, _queue *queue);
++struct recv_buf *rtw_dequeue_recvbuf(_queue *queue);
++
++void rtw_reordering_ctrl_timeout_handler(void *pcontext);
++
++void rx_query_phy_status(union recv_frame *rframe, u8 *phy_stat);
++int rtw_inc_and_chk_continual_no_rx_packet(struct sta_info *sta, int tid_index);
++void rtw_reset_continual_no_rx_packet(struct sta_info *sta, int tid_index);
++
++__inline static u8 *get_rxmem(union recv_frame *precvframe)
++{
++	/* always return rx_head... */
++	if (precvframe == NULL)
++		return NULL;
++
++	return precvframe->u.hdr.rx_head;
++}
++
++__inline static u8 *get_rx_status(union recv_frame *precvframe)
++{
++
++	return get_rxmem(precvframe);
++
++}
++
++__inline static u8 *get_recvframe_data(union recv_frame *precvframe)
++{
++
++	/* alwasy return rx_data */
++	if (precvframe == NULL)
++		return NULL;
++
++	return precvframe->u.hdr.rx_data;
++
++}
++
++__inline static u8 *recvframe_push(union recv_frame *precvframe, sint sz)
++{
++	/* append data before rx_data */
++
++	/* add data to the start of recv_frame
++	*
++	*      This function extends the used data area of the recv_frame at the buffer
++	*      start. rx_data must be still larger than rx_head, after pushing.
++	*/
++
++	if (precvframe == NULL)
++		return NULL;
++
++
++	precvframe->u.hdr.rx_data -= sz ;
++	if (precvframe->u.hdr.rx_data < precvframe->u.hdr.rx_head) {
++		precvframe->u.hdr.rx_data += sz ;
++		return NULL;
++	}
++
++	precvframe->u.hdr.len += sz;
++
++	return precvframe->u.hdr.rx_data;
++
++}
++
++
++__inline static u8 *recvframe_pull(union recv_frame *precvframe, sint sz)
++{
++	/* rx_data += sz; move rx_data sz bytes  hereafter */
++
++	/* used for extract sz bytes from rx_data, update rx_data and return the updated rx_data to the caller */
++
++
++	if (precvframe == NULL)
++		return NULL;
++
++
++	precvframe->u.hdr.rx_data += sz;
++
++	if (precvframe->u.hdr.rx_data > precvframe->u.hdr.rx_tail) {
++		precvframe->u.hdr.rx_data -= sz;
++		return NULL;
++	}
++
++	precvframe->u.hdr.len -= sz;
++
++	return precvframe->u.hdr.rx_data;
++
++}
++
++__inline static u8 *recvframe_put(union recv_frame *precvframe, sint sz)
++{
++	/* rx_tai += sz; move rx_tail sz bytes  hereafter */
++
++	/* used for append sz bytes from ptr to rx_tail, update rx_tail and return the updated rx_tail to the caller */
++	/* after putting, rx_tail must be still larger than rx_end. */
++	unsigned char *prev_rx_tail;
++
++	/* RTW_INFO("recvframe_put: len=%d\n", sz); */
++
++	if (precvframe == NULL)
++		return NULL;
++
++	prev_rx_tail = precvframe->u.hdr.rx_tail;
++
++	precvframe->u.hdr.rx_tail += sz;
++
++	if (precvframe->u.hdr.rx_tail > precvframe->u.hdr.rx_end) {
++		precvframe->u.hdr.rx_tail -= sz;
++		return NULL;
++	}
++
++	precvframe->u.hdr.len += sz;
++
++	return precvframe->u.hdr.rx_tail;
++
++}
++
++
++
++__inline static u8 *recvframe_pull_tail(union recv_frame *precvframe, sint sz)
++{
++	/* rmv data from rx_tail (by yitsen) */
++
++	/* used for extract sz bytes from rx_end, update rx_end and return the updated rx_end to the caller */
++	/* after pulling, rx_end must be still larger than rx_data. */
++
++	if (precvframe == NULL)
++		return NULL;
++
++	precvframe->u.hdr.rx_tail -= sz;
++
++	if (precvframe->u.hdr.rx_tail < precvframe->u.hdr.rx_data) {
++		precvframe->u.hdr.rx_tail += sz;
++		return NULL;
++	}
++
++	precvframe->u.hdr.len -= sz;
++
++	return precvframe->u.hdr.rx_tail;
++
++}
++
++
++
++__inline static _buffer *get_rxbuf_desc(union recv_frame *precvframe)
++{
++	_buffer *buf_desc;
++
++	if (precvframe == NULL)
++		return NULL;
++#ifdef PLATFORM_WINDOWS
++	NdisQueryPacket(precvframe->u.hdr.pkt, NULL, NULL, &buf_desc, NULL);
++#endif
++
++	return buf_desc;
++}
++
++
++__inline static union recv_frame *rxmem_to_recvframe(u8 *rxmem)
++{
++	/* due to the design of 2048 bytes alignment of recv_frame, we can reference the union recv_frame */
++	/* from any given member of recv_frame. */
++	/* rxmem indicates the any member/address in recv_frame */
++
++	return (union recv_frame *)(((SIZE_PTR)rxmem >> RXFRAME_ALIGN) << RXFRAME_ALIGN);
++
++}
++
++__inline static union recv_frame *pkt_to_recvframe(_pkt *pkt)
++{
++
++	u8 *buf_star;
++	union recv_frame *precv_frame;
++#ifdef PLATFORM_WINDOWS
++	_buffer *buf_desc;
++	uint len;
++
++	NdisQueryPacket(pkt, NULL, NULL, &buf_desc, &len);
++	NdisQueryBufferSafe(buf_desc, &buf_star, &len, HighPagePriority);
++#endif
++	precv_frame = rxmem_to_recvframe((unsigned char *)buf_star);
++
++	return precv_frame;
++}
++
++__inline static u8 *pkt_to_recvmem(_pkt *pkt)
++{
++	/* return the rx_head */
++
++	union recv_frame *precv_frame = pkt_to_recvframe(pkt);
++
++	return	precv_frame->u.hdr.rx_head;
++
++}
++
++__inline static u8 *pkt_to_recvdata(_pkt *pkt)
++{
++	/* return the rx_data */
++
++	union recv_frame *precv_frame = pkt_to_recvframe(pkt);
++
++	return	precv_frame->u.hdr.rx_data;
++
++}
++
++
++__inline static sint get_recvframe_len(union recv_frame *precvframe)
++{
++	return precvframe->u.hdr.len;
++}
++
++
++__inline static s32 translate_percentage_to_dbm(u32 SignalStrengthIndex)
++{
++	s32	SignalPower; /* in dBm. */
++
++#ifdef CONFIG_SIGNAL_SCALE_MAPPING
++	/* Translate to dBm (x=0.5y-95). */
++	SignalPower = (s32)((SignalStrengthIndex + 1) >> 1);
++	SignalPower -= 95;
++#else
++	/* Translate to dBm (x=y-100) */
++	SignalPower = SignalStrengthIndex - 100;
++#endif
++
++	return SignalPower;
++}
++
++
++struct sta_info;
++
++extern void _rtw_init_sta_recv_priv(struct sta_recv_priv *psta_recvpriv);
++
++extern void  mgt_dispatcher(_adapter *padapter, union recv_frame *precv_frame);
++
++s32 pre_recv_entry(union recv_frame *precvframe, u8 *pphy_status);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_rf.h b/drivers/net/wireless/rtl8723du/include/rtw_rf.h
+new file mode 100644
+index 0000000..6b30b87
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_rf.h
+@@ -0,0 +1,284 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef	__RTW_RF_H_
++#define __RTW_RF_H_
++
++
++#define OFDM_PHY		1
++#define MIXED_PHY		2
++#define CCK_PHY		3
++
++#define NumRates	(13)
++
++/* slot time for 11g */
++#define SHORT_SLOT_TIME					9
++#define NON_SHORT_SLOT_TIME				20
++
++#define RTL8711_RF_MAX_SENS 6
++#define RTL8711_RF_DEF_SENS 4
++
++/*
++ * We now define the following channels as the max channels in each channel plan.
++ * 2G, total 14 chnls
++ * {1,2,3,4,5,6,7,8,9,10,11,12,13,14}
++ * 5G, total 24 chnls
++ * {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140,149,153,157,161,165} */
++#define	MAX_CHANNEL_NUM_2G				14
++#define	MAX_CHANNEL_NUM_5G				24
++#define	MAX_CHANNEL_NUM					38/* 14+24 */
++
++#define CENTER_CH_2G_40M_NUM	9
++#define CENTER_CH_2G_NUM		14
++#define CENTER_CH_5G_20M_NUM	28	/* 20M center channels */
++#define CENTER_CH_5G_40M_NUM	14	/* 40M center channels */
++#define CENTER_CH_5G_80M_NUM	7	/* 80M center channels */
++#define CENTER_CH_5G_160M_NUM	3	/* 160M center channels */
++#define CENTER_CH_5G_ALL_NUM	(CENTER_CH_5G_20M_NUM + CENTER_CH_5G_40M_NUM + CENTER_CH_5G_80M_NUM)
++
++extern u8 center_ch_2g[CENTER_CH_2G_NUM];
++extern u8 center_ch_2g_40m[CENTER_CH_2G_40M_NUM];
++
++u8 center_chs_2g_num(u8 bw);
++u8 center_chs_2g(u8 bw, u8 id);
++
++extern u8 center_ch_5g_20m[CENTER_CH_5G_20M_NUM];
++extern u8 center_ch_5g_40m[CENTER_CH_5G_40M_NUM];
++extern u8 center_ch_5g_20m_40m[CENTER_CH_5G_20M_NUM + CENTER_CH_5G_40M_NUM];
++extern u8 center_ch_5g_80m[CENTER_CH_5G_80M_NUM];
++extern u8 center_ch_5g_all[CENTER_CH_5G_ALL_NUM];
++
++u8 center_chs_5g_num(u8 bw);
++u8 center_chs_5g(u8 bw, u8 id);
++
++u8 rtw_get_scch_by_cch_offset(u8 cch, u8 bw, u8 offset);
++
++u8 rtw_get_op_chs_by_cch_bw(u8 cch, u8 bw, u8 **op_chs, u8 *op_ch_num);
++
++u8 rtw_get_ch_group(u8 ch, u8 *group, u8 *cck_group);
++
++/* #define NUM_REGULATORYS	21 */
++#define NUM_REGULATORYS	1
++
++/* Country codes */
++#define USA							0x555320
++#define EUROPE						0x1 /* temp, should be provided later	 */
++#define JAPAN						0x2 /* temp, should be provided later	 */
++
++struct	regulatory_class {
++	u32	starting_freq;					/* MHz, */
++	u8	channel_set[MAX_CHANNEL_NUM];
++	u8	channel_cck_power[MAX_CHANNEL_NUM];/* dbm */
++	u8	channel_ofdm_power[MAX_CHANNEL_NUM];/* dbm */
++	u8	txpower_limit;  				/* dbm */
++	u8	channel_spacing;				/* MHz */
++	u8	modem;
++};
++
++typedef enum _CAPABILITY {
++	cESS			= 0x0001,
++	cIBSS			= 0x0002,
++	cPollable		= 0x0004,
++	cPollReq			= 0x0008,
++	cPrivacy		= 0x0010,
++	cShortPreamble	= 0x0020,
++	cPBCC			= 0x0040,
++	cChannelAgility	= 0x0080,
++	cSpectrumMgnt	= 0x0100,
++	cQos			= 0x0200,	/* For HCCA, use with CF-Pollable and CF-PollReq */
++	cShortSlotTime	= 0x0400,
++	cAPSD			= 0x0800,
++	cRM				= 0x1000,	/* RRM (Radio Request Measurement) */
++	cDSSS_OFDM	= 0x2000,
++	cDelayedBA		= 0x4000,
++	cImmediateBA	= 0x8000,
++} CAPABILITY, *PCAPABILITY;
++
++enum	_REG_PREAMBLE_MODE {
++	PREAMBLE_LONG	= 1,
++	PREAMBLE_AUTO	= 2,
++	PREAMBLE_SHORT	= 3,
++};
++
++
++enum _RTL8712_RF_MIMO_CONFIG_ {
++	RTL8712_RFCONFIG_1T = 0x10,
++	RTL8712_RFCONFIG_2T = 0x20,
++	RTL8712_RFCONFIG_1R = 0x01,
++	RTL8712_RFCONFIG_2R = 0x02,
++	RTL8712_RFCONFIG_1T1R = 0x11,
++	RTL8712_RFCONFIG_1T2R = 0x12,
++	RTL8712_RFCONFIG_TURBO = 0x92,
++	RTL8712_RFCONFIG_2T2R = 0x22
++};
++
++typedef enum _RF_PATH {
++	RF_PATH_A = 0,
++	RF_PATH_B = 1,
++	RF_PATH_C = 2,
++	RF_PATH_D = 3,
++} RF_PATH, *PRF_PATH;
++
++#define rf_path_char(path) (((path) >= RF_PATH_MAX) ? 'X' : 'A' + (path))
++
++/* Bandwidth Offset */
++#define HAL_PRIME_CHNL_OFFSET_DONT_CARE	0
++#define HAL_PRIME_CHNL_OFFSET_LOWER	1
++#define HAL_PRIME_CHNL_OFFSET_UPPER	2
++
++typedef enum _BAND_TYPE {
++	BAND_ON_2_4G = 0,
++	BAND_ON_5G = 1,
++	BAND_ON_BOTH = 2,
++	BAND_MAX = 3,
++} BAND_TYPE, *PBAND_TYPE;
++
++extern const char *const _band_str[];
++#define band_str(band) (((band) >= BAND_MAX) ? _band_str[BAND_MAX] : _band_str[(band)])
++
++extern const u8 _band_to_band_cap[];
++#define band_to_band_cap(band) (((band) >= BAND_MAX) ? _band_to_band_cap[BAND_MAX] : _band_to_band_cap[(band)])
++
++/* Represent Channel Width in HT Capabilities
++ *   */
++typedef enum _CHANNEL_WIDTH {
++	CHANNEL_WIDTH_20 = 0,
++	CHANNEL_WIDTH_40 = 1,
++	CHANNEL_WIDTH_80 = 2,
++	CHANNEL_WIDTH_160 = 3,
++	CHANNEL_WIDTH_80_80 = 4,
++	CHANNEL_WIDTH_MAX = 5,
++} CHANNEL_WIDTH, *PCHANNEL_WIDTH;
++
++extern const char *const _ch_width_str[];
++#define ch_width_str(bw) (((bw) >= CHANNEL_WIDTH_MAX) ? _ch_width_str[CHANNEL_WIDTH_MAX] : _ch_width_str[(bw)])
++
++extern const u8 _ch_width_to_bw_cap[];
++#define ch_width_to_bw_cap(bw) (((bw) >= CHANNEL_WIDTH_MAX) ? _ch_width_to_bw_cap[CHANNEL_WIDTH_MAX] : _ch_width_to_bw_cap[(bw)])
++
++/*
++ * Represent Extention Channel Offset in HT Capabilities
++ * This is available only in 40Mhz mode.
++ *   */
++typedef enum _EXTCHNL_OFFSET {
++	EXTCHNL_OFFSET_NO_EXT = 0,
++	EXTCHNL_OFFSET_UPPER = 1,
++	EXTCHNL_OFFSET_NO_DEF = 2,
++	EXTCHNL_OFFSET_LOWER = 3,
++} EXTCHNL_OFFSET, *PEXTCHNL_OFFSET;
++
++typedef enum _VHT_DATA_SC {
++	VHT_DATA_SC_DONOT_CARE = 0,
++	VHT_DATA_SC_20_UPPER_OF_80MHZ = 1,
++	VHT_DATA_SC_20_LOWER_OF_80MHZ = 2,
++	VHT_DATA_SC_20_UPPERST_OF_80MHZ = 3,
++	VHT_DATA_SC_20_LOWEST_OF_80MHZ = 4,
++	VHT_DATA_SC_20_RECV1 = 5,
++	VHT_DATA_SC_20_RECV2 = 6,
++	VHT_DATA_SC_20_RECV3 = 7,
++	VHT_DATA_SC_20_RECV4 = 8,
++	VHT_DATA_SC_40_UPPER_OF_80MHZ = 9,
++	VHT_DATA_SC_40_LOWER_OF_80MHZ = 10,
++} VHT_DATA_SC, *PVHT_DATA_SC_E;
++
++typedef enum _PROTECTION_MODE {
++	PROTECTION_MODE_AUTO = 0,
++	PROTECTION_MODE_FORCE_ENABLE = 1,
++	PROTECTION_MODE_FORCE_DISABLE = 2,
++} PROTECTION_MODE, *PPROTECTION_MODE;
++
++typedef	enum _RT_RF_TYPE_DEFINITION {
++	RF_1T2R = 0,
++	RF_2T4R = 1,
++	RF_2T2R = 2,
++	RF_1T1R = 3,
++	RF_2T2R_GREEN = 4,
++	RF_2T3R = 5,
++	RF_3T3R = 6,
++	RF_3T4R	= 7,
++	RF_4T4R	= 8,
++
++	RF_MAX_TYPE = 0xF, /* u1Byte */
++} RT_RF_TYPE_DEF_E;
++
++int rtw_ch2freq(int chan);
++int rtw_freq2ch(int freq);
++bool rtw_chbw_to_freq_range(u8 ch, u8 bw, u8 offset, u32 *hi, u32 *lo);
++
++#define RTW_MODULE_RTL8821AE_HMC_M2		BIT0 /* RTL8821AE(HMC + M.2) */
++#define RTW_MODULE_RTL8821AU			BIT1 /* RTL8821AU */
++#define RTW_MODULE_RTL8812AENF_NGFF		BIT2 /* RTL8812AENF(8812AE+8761)_NGFF */
++#define RTW_MODULE_RTL8812AEBT_HMC		BIT3 /* RTL8812AEBT(8812AE+8761)_HMC */
++#define RTW_MODULE_RTL8188EE_HMC_M2		BIT4 /* RTL8188EE(HMC + M.2) */
++#define RTW_MODULE_RTL8723BE_HMC_M2		BIT5 /* RTL8723BE(HMC + M.2) */
++#define RTW_MODULE_RTL8723BS_NGFF1216	BIT6 /* RTL8723BS(NGFF1216) */
++#define RTW_MODULE_RTL8192EEBT_HMC_M2	BIT7 /* RTL8192EEBT(8192EE+8761AU)_(HMC + M.2) */
++
++#define IS_ALPHA2_NO_SPECIFIED(_alpha2) ((*((u16 *)(_alpha2))) == 0xFFFF)
++
++struct country_chplan {
++	char alpha2[2];
++	u8 chplan;
++#ifdef CONFIG_80211AC_VHT
++	u8 en_11ac;
++#endif
++#if RTW_DEF_MODULE_REGULATORY_CERT
++	u8 def_module_flags; /* RTW_MODULE_RTLXXX */
++#endif
++};
++
++#ifdef CONFIG_80211AC_VHT
++#define COUNTRY_CHPLAN_EN_11AC(_ent) ((_ent)->en_11ac)
++#else
++#define COUNTRY_CHPLAN_EN_11AC(_ent) 0
++#endif
++
++#if RTW_DEF_MODULE_REGULATORY_CERT
++#define COUNTRY_CHPLAN_DEF_MODULE_FALGS(_ent) ((_ent)->def_module_flags)
++#else
++#define COUNTRY_CHPLAN_DEF_MODULE_FALGS(_ent) 0
++#endif
++
++const struct country_chplan *rtw_get_chplan_from_country(const char *country_code);
++
++#define BB_GAIN_2G 0
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++#define BB_GAIN_5GLB1 1
++#define BB_GAIN_5GLB2 2
++#define BB_GAIN_5GMB1 3
++#define BB_GAIN_5GMB2 4
++#define BB_GAIN_5GHB 5
++#endif
++
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++#define BB_GAIN_NUM 6
++#else
++#define BB_GAIN_NUM 1
++#endif
++
++int rtw_ch_to_bb_gain_sel(int ch);
++void rtw_rf_set_tx_gain_offset(_adapter *adapter, u8 path, s8 offset);
++void rtw_rf_apply_tx_gain_offset(_adapter *adapter, u8 ch);
++
++bool rtw_is_dfs_range(u32 hi, u32 lo);
++bool rtw_is_dfs_ch(u8 ch, u8 bw, u8 offset);
++bool rtw_is_long_cac_range(u32 hi, u32 lo, u8 dfs_region);
++bool rtw_is_long_cac_ch(u8 ch, u8 bw, u8 offset, u8 dfs_region);
++
++#endif /* _RTL8711_RF_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_sdio.h b/drivers/net/wireless/rtl8723du/include/rtw_sdio.h
+new file mode 100644
+index 0000000..da86a3a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_sdio.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ ******************************************************************************/
++#ifndef _RTW_SDIO_H_
++#define _RTW_SDIO_H_
++
++#include <drv_types.h>		/* struct dvobj_priv and etc. */
++
++u8 rtw_sdio_read_cmd52(struct dvobj_priv *, u32 addr, void *buf, size_t len);
++u8 rtw_sdio_read_cmd53(struct dvobj_priv *, u32 addr, void *buf, size_t len);
++u8 rtw_sdio_write_cmd52(struct dvobj_priv *, u32 addr, void *buf, size_t len);
++u8 rtw_sdio_write_cmd53(struct dvobj_priv *, u32 addr, void *buf, size_t len);
++u8 rtw_sdio_f0_read(struct dvobj_priv *, u32 addr, void *buf, size_t len);
++
++#endif /* _RTW_SDIO_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_security.h b/drivers/net/wireless/rtl8723du/include/rtw_security.h
+new file mode 100644
+index 0000000..6535cc0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_security.h
+@@ -0,0 +1,492 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_SECURITY_H_
++#define __RTW_SECURITY_H_
++
++
++#define _NO_PRIVACY_		0x0
++#define _WEP40_				0x1
++#define _TKIP_				0x2
++#define _TKIP_WTMIC_		0x3
++#define _AES_				0x4
++#define _WEP104_			0x5
++#define _WEP_WPA_MIXED_	0x07  /* WEP + WPA */
++#define _SMS4_				0x06
++#ifdef CONFIG_IEEE80211W
++#define _BIP_				0x8
++#endif /* CONFIG_IEEE80211W */
++/* 802.11W use wrong key */
++#define IEEE80211W_RIGHT_KEY	0x0
++#define IEEE80211W_WRONG_KEY	0x1
++#define IEEE80211W_NO_KEY		0x2
++
++#define is_wep_enc(alg) (((alg) == _WEP40_) || ((alg) == _WEP104_))
++
++const char *security_type_str(u8 value);
++
++#define _WPA_IE_ID_	0xdd
++#define _WPA2_IE_ID_	0x30
++
++#define SHA256_MAC_LEN 32
++#define AES_BLOCK_SIZE 16
++#define AES_PRIV_SIZE (4 * 44)
++
++#define RTW_KEK_LEN 16
++#define RTW_KCK_LEN 16
++#define RTW_REPLAY_CTR_LEN 8
++
++#define INVALID_SEC_MAC_CAM_ID	0xFF
++
++typedef enum {
++	ENCRYP_PROTOCOL_OPENSYS,   /* open system */
++	ENCRYP_PROTOCOL_WEP,       /* WEP */
++	ENCRYP_PROTOCOL_WPA,       /* WPA */
++	ENCRYP_PROTOCOL_WPA2,      /* WPA2 */
++	ENCRYP_PROTOCOL_WAPI,      /* WAPI: Not support in this version */
++	ENCRYP_PROTOCOL_MAX
++} ENCRYP_PROTOCOL_E;
++
++
++#ifndef Ndis802_11AuthModeWPA2
++#define Ndis802_11AuthModeWPA2 (Ndis802_11AuthModeWPANone + 1)
++#endif
++
++#ifndef Ndis802_11AuthModeWPA2PSK
++#define Ndis802_11AuthModeWPA2PSK (Ndis802_11AuthModeWPANone + 2)
++#endif
++
++union pn48	{
++
++	u64	val;
++
++#ifdef CONFIG_LITTLE_ENDIAN
++
++struct {
++	u8 TSC0;
++	u8 TSC1;
++	u8 TSC2;
++	u8 TSC3;
++	u8 TSC4;
++	u8 TSC5;
++	u8 TSC6;
++	u8 TSC7;
++} _byte_;
++
++#elif defined(CONFIG_BIG_ENDIAN)
++
++struct {
++	u8 TSC7;
++	u8 TSC6;
++	u8 TSC5;
++	u8 TSC4;
++	u8 TSC3;
++	u8 TSC2;
++	u8 TSC1;
++	u8 TSC0;
++} _byte_;
++
++#endif
++
++};
++
++union Keytype {
++	u8   skey[16];
++	u32    lkey[4];
++};
++
++
++typedef struct _RT_PMKID_LIST {
++	u8						bUsed;
++	u8						Bssid[6];
++	u8						PMKID[16];
++	u8						SsidBuf[33];
++	u8						*ssid_octet;
++	u16						ssid_length;
++} RT_PMKID_LIST, *PRT_PMKID_LIST;
++
++
++struct security_priv {
++	u32	  dot11AuthAlgrthm;		/* 802.11 auth, could be open, shared, 8021x and authswitch */
++	u32	  dot11PrivacyAlgrthm;	/* This specify the privacy for shared auth. algorithm. */
++
++	/* WEP */
++	u32	  dot11PrivacyKeyIndex;	/* this is only valid for legendary wep, 0~3 for key id. (tx key index) */
++	union Keytype dot11DefKey[4];			/* this is only valid for def. key	 */
++	u32	dot11DefKeylen[4];
++	u8	dot11Def_camid[4];
++	u8 	key_mask; /* use to restore wep key after hal_init */
++
++	u32 dot118021XGrpPrivacy;	/* This specify the privacy algthm. used for Grp key */
++	u32	dot118021XGrpKeyid;		/* key id used for Grp Key ( tx key index) */
++	union Keytype	dot118021XGrpKey[4];	/* 802.1x Group Key, for inx0 and inx1	 */
++	union Keytype	dot118021XGrptxmickey[4];
++	union Keytype	dot118021XGrprxmickey[4];
++	union pn48		dot11Grptxpn;			/* PN48 used for Grp Key xmit. */
++	union pn48		dot11Grprxpn;			/* PN48 used for Grp Key recv. */
++#ifdef CONFIG_IEEE80211W
++	u32	dot11wBIPKeyid;						/* key id used for BIP Key ( tx key index) */
++	union Keytype	dot11wBIPKey[6];		/* BIP Key, for index4 and index5 */
++	union pn48		dot11wBIPtxpn;			/* PN48 used for Grp Key xmit. */
++	union pn48		dot11wBIPrxpn;			/* PN48 used for Grp Key recv. */
++#endif /* CONFIG_IEEE80211W */
++#ifdef CONFIG_AP_MODE
++	/* extend security capabilities for AP_MODE */
++	unsigned int dot8021xalg;/* 0:disable, 1:psk, 2:802.1x */
++	unsigned int wpa_psk;/* 0:disable, bit(0): WPA, bit(1):WPA2 */
++	unsigned int wpa_group_cipher;
++	unsigned int wpa2_group_cipher;
++	unsigned int wpa_pairwise_cipher;
++	unsigned int wpa2_pairwise_cipher;
++#endif
++#ifdef CONFIG_CONCURRENT_MODE
++	u8	dot118021x_bmc_cam_id;
++#endif
++	/*IEEE802.11-2012 Std. Table 8-101 AKM Suite Selectors*/
++	u32	rsn_akm_suite_type;
++
++	u8 wps_ie[MAX_WPS_IE_LEN];/* added in assoc req */
++	int wps_ie_len;
++
++
++	u8	binstallGrpkey;
++#ifdef CONFIG_GTK_OL
++	u8	binstallKCK_KEK;
++#endif /* CONFIG_GTK_OL */
++#ifdef CONFIG_IEEE80211W
++	u8	binstallBIPkey;
++#endif /* CONFIG_IEEE80211W */
++	u8	busetkipkey;
++	/* _timer tkip_timer; */
++	u8	bcheck_grpkey;
++	u8	bgrpkey_handshake;
++
++	/* u8	packet_cnt; */ /* unused, removed */
++
++	s32	sw_encrypt;/* from registry_priv */
++	s32	sw_decrypt;/* from registry_priv */
++
++	s32 	hw_decrypted;/* if the rx packets is hw_decrypted==_FALSE, it means the hw has not been ready. */
++
++
++	/* keeps the auth_type & enc_status from upper layer ioctl(wpa_supplicant or wzc) */
++	u32 ndisauthtype;	/* NDIS_802_11_AUTHENTICATION_MODE */
++	u32 ndisencryptstatus;	/* NDIS_802_11_ENCRYPTION_STATUS */
++
++	NDIS_802_11_WEP ndiswep;
++#ifdef PLATFORM_WINDOWS
++	u8 KeyMaterial[16];/* variable length depending on above field. */
++#endif
++
++	u8 assoc_info[600];
++	u8 szofcapability[256]; /* for wpa2 usage */
++	u8 oidassociation[512]; /* for wpa/wpa2 usage */
++	u8 authenticator_ie[256];  /* store ap security information element */
++	u8 supplicant_ie[256];  /* store sta security information element */
++
++
++	/* for tkip countermeasure */
++	u32 last_mic_err_time;
++	u8	btkip_countermeasure;
++	u8	btkip_wait_report;
++	u32 btkip_countermeasure_time;
++
++	/* --------------------------------------------------------------------------- */
++	/* For WPA2 Pre-Authentication. */
++	/* --------------------------------------------------------------------------- */
++	/* u8				RegEnablePreAuth;				 */ /* Default value: Pre-Authentication enabled or not, from registry "EnablePreAuth". Added by Annie, 2005-11-01. */
++	/* u8				EnablePreAuthentication;			 */ /* Current Value: Pre-Authentication enabled or not. */
++	RT_PMKID_LIST		PMKIDList[NUM_PMKID_CACHE];	/* Renamed from PreAuthKey[NUM_PRE_AUTH_KEY]. Annie, 2006-10-13. */
++	u8				PMKIDIndex;
++	/* u32				PMKIDCount;						 */ /* Added by Annie, 2006-10-13. */
++	/* u8				szCapability[256];				 */ /* For WPA2-PSK using zero-config, by Annie, 2005-09-20. */
++
++	u8 bWepDefaultKeyIdxSet;
++
++#define DBG_SW_SEC_CNT
++#ifdef DBG_SW_SEC_CNT
++	u64 wep_sw_enc_cnt_bc;
++	u64 wep_sw_enc_cnt_mc;
++	u64 wep_sw_enc_cnt_uc;
++	u64 wep_sw_dec_cnt_bc;
++	u64 wep_sw_dec_cnt_mc;
++	u64 wep_sw_dec_cnt_uc;
++
++	u64 tkip_sw_enc_cnt_bc;
++	u64 tkip_sw_enc_cnt_mc;
++	u64 tkip_sw_enc_cnt_uc;
++	u64 tkip_sw_dec_cnt_bc;
++	u64 tkip_sw_dec_cnt_mc;
++	u64 tkip_sw_dec_cnt_uc;
++
++	u64 aes_sw_enc_cnt_bc;
++	u64 aes_sw_enc_cnt_mc;
++	u64 aes_sw_enc_cnt_uc;
++	u64 aes_sw_dec_cnt_bc;
++	u64 aes_sw_dec_cnt_mc;
++	u64 aes_sw_dec_cnt_uc;
++#endif /* DBG_SW_SEC_CNT */
++};
++
++struct sha256_state {
++	u64 length;
++	u32 state[8], curlen;
++	u8 buf[64];
++};
++
++#define GET_ENCRY_ALGO(psecuritypriv, psta, encry_algo, bmcst)\
++	do {\
++		switch (psecuritypriv->dot11AuthAlgrthm) {\
++		case dot11AuthAlgrthm_Open:\
++		case dot11AuthAlgrthm_Shared:\
++		case dot11AuthAlgrthm_Auto:\
++			encry_algo = (u8)psecuritypriv->dot11PrivacyAlgrthm;\
++			break;\
++		case dot11AuthAlgrthm_8021X:\
++			if (bmcst)\
++				encry_algo = (u8)psecuritypriv->dot118021XGrpPrivacy;\
++			else\
++				encry_algo = (u8) psta->dot118021XPrivacy;\
++			break;\
++		case dot11AuthAlgrthm_WAPI:\
++			encry_algo = (u8)psecuritypriv->dot11PrivacyAlgrthm;\
++			break;\
++		} \
++	} while (0)
++
++#define _AES_IV_LEN_ 8
++
++#define SET_ICE_IV_LEN(iv_len, icv_len, encrypt)\
++	do {\
++		switch (encrypt) {\
++		case _WEP40_:\
++		case _WEP104_:\
++			iv_len = 4;\
++			icv_len = 4;\
++			break;\
++		case _TKIP_:\
++			iv_len = 8;\
++			icv_len = 4;\
++			break;\
++		case _AES_:\
++			iv_len = 8;\
++			icv_len = 8;\
++			break;\
++		case _SMS4_:\
++			iv_len = 18;\
++			icv_len = 16;\
++			break;\
++		default:\
++			iv_len = 0;\
++			icv_len = 0;\
++			break;\
++		} \
++	} while (0)
++
++
++#define GET_TKIP_PN(iv, dot11txpn)\
++	do {\
++		dot11txpn._byte_.TSC0 = iv[2];\
++		dot11txpn._byte_.TSC1 = iv[0];\
++		dot11txpn._byte_.TSC2 = iv[4];\
++		dot11txpn._byte_.TSC3 = iv[5];\
++		dot11txpn._byte_.TSC4 = iv[6];\
++		dot11txpn._byte_.TSC5 = iv[7];\
++	} while (0)
++
++
++#define ROL32(A, n)	(((A) << (n)) | (((A)>>(32-(n)))  & ((1UL << (n)) - 1)))
++#define ROR32(A, n)	ROL32((A), 32-(n))
++
++struct mic_data {
++	u32  K0, K1;         /* Key */
++	u32  L, R;           /* Current state */
++	u32  M;              /* Message accumulator (single word) */
++	u32     nBytesInM;      /*  # bytes in M */
++};
++
++extern const u32 Te0[256];
++extern const u32 Te1[256];
++extern const u32 Te2[256];
++extern const u32 Te3[256];
++extern const u32 Te4[256];
++extern const u32 Td0[256];
++extern const u32 Td1[256];
++extern const u32 Td2[256];
++extern const u32 Td3[256];
++extern const u32 Td4[256];
++extern const u32 rcon[10];
++extern const u8 Td4s[256];
++extern const u8 rcons[10];
++
++#define RCON(i) (rcons[(i)] << 24)
++
++static inline u32 rotr(u32 val, int bits)
++{
++	return (val >> bits) | (val << (32 - bits));
++}
++
++#define TE0(i) Te0[((i) >> 24) & 0xff]
++#define TE1(i) rotr(Te0[((i) >> 16) & 0xff], 8)
++#define TE2(i) rotr(Te0[((i) >> 8) & 0xff], 16)
++#define TE3(i) rotr(Te0[(i) & 0xff], 24)
++#define TE41(i) ((Te0[((i) >> 24) & 0xff] << 8) & 0xff000000)
++#define TE42(i) (Te0[((i) >> 16) & 0xff] & 0x00ff0000)
++#define TE43(i) (Te0[((i) >> 8) & 0xff] & 0x0000ff00)
++#define TE44(i) ((Te0[(i) & 0xff] >> 8) & 0x000000ff)
++#define TE421(i) ((Te0[((i) >> 16) & 0xff] << 8) & 0xff000000)
++#define TE432(i) (Te0[((i) >> 8) & 0xff] & 0x00ff0000)
++#define TE443(i) (Te0[(i) & 0xff] & 0x0000ff00)
++#define TE414(i) ((Te0[((i) >> 24) & 0xff] >> 8) & 0x000000ff)
++#define TE4(i) ((Te0[(i)] >> 8) & 0x000000ff)
++
++#define TD0(i) Td0[((i) >> 24) & 0xff]
++#define TD1(i) rotr(Td0[((i) >> 16) & 0xff], 8)
++#define TD2(i) rotr(Td0[((i) >> 8) & 0xff], 16)
++#define TD3(i) rotr(Td0[(i) & 0xff], 24)
++#define TD41(i) (Td4s[((i) >> 24) & 0xff] << 24)
++#define TD42(i) (Td4s[((i) >> 16) & 0xff] << 16)
++#define TD43(i) (Td4s[((i) >> 8) & 0xff] << 8)
++#define TD44(i) (Td4s[(i) & 0xff])
++#define TD0_(i) Td0[(i) & 0xff]
++#define TD1_(i) rotr(Td0[(i) & 0xff], 8)
++#define TD2_(i) rotr(Td0[(i) & 0xff], 16)
++#define TD3_(i) rotr(Td0[(i) & 0xff], 24)
++
++#define GETU32(pt) (((u32)(pt)[0] << 24) ^ ((u32)(pt)[1] << 16) ^ \
++			((u32)(pt)[2] <<  8) ^ ((u32)(pt)[3]))
++
++#define PUTU32(ct, st) { \
++		(ct)[0] = (u8)((st) >> 24); (ct)[1] = (u8)((st) >> 16); \
++		(ct)[2] = (u8)((st) >>  8); (ct)[3] = (u8)(st); }
++
++#define WPA_GET_BE32(a) ((((u32) (a)[0]) << 24) | (((u32) (a)[1]) << 16) | \
++			 (((u32) (a)[2]) << 8) | ((u32) (a)[3]))
++
++#define WPA_PUT_LE16(a, val)			\
++	do {					\
++		(a)[1] = ((u16) (val)) >> 8;	\
++		(a)[0] = ((u16) (val)) & 0xff;	\
++	} while (0)
++
++#define WPA_PUT_BE32(a, val)					\
++	do {							\
++		(a)[0] = (u8) ((((u32) (val)) >> 24) & 0xff);	\
++		(a)[1] = (u8) ((((u32) (val)) >> 16) & 0xff);	\
++		(a)[2] = (u8) ((((u32) (val)) >> 8) & 0xff);	\
++		(a)[3] = (u8) (((u32) (val)) & 0xff);		\
++	} while (0)
++
++#define WPA_PUT_BE64(a, val)				\
++	do {						\
++		(a)[0] = (u8) (((u64) (val)) >> 56);	\
++		(a)[1] = (u8) (((u64) (val)) >> 48);	\
++		(a)[2] = (u8) (((u64) (val)) >> 40);	\
++		(a)[3] = (u8) (((u64) (val)) >> 32);	\
++		(a)[4] = (u8) (((u64) (val)) >> 24);	\
++		(a)[5] = (u8) (((u64) (val)) >> 16);	\
++		(a)[6] = (u8) (((u64) (val)) >> 8);	\
++		(a)[7] = (u8) (((u64) (val)) & 0xff);	\
++	} while (0)
++
++/* ===== start - public domain SHA256 implementation ===== */
++
++/* This is based on SHA256 implementation in LibTomCrypt that was released into
++ * public domain by Tom St Denis. */
++
++/* the K array */
++static const unsigned long K[64] = {
++	0x428a2f98UL, 0x71374491UL, 0xb5c0fbcfUL, 0xe9b5dba5UL, 0x3956c25bUL,
++	0x59f111f1UL, 0x923f82a4UL, 0xab1c5ed5UL, 0xd807aa98UL, 0x12835b01UL,
++	0x243185beUL, 0x550c7dc3UL, 0x72be5d74UL, 0x80deb1feUL, 0x9bdc06a7UL,
++	0xc19bf174UL, 0xe49b69c1UL, 0xefbe4786UL, 0x0fc19dc6UL, 0x240ca1ccUL,
++	0x2de92c6fUL, 0x4a7484aaUL, 0x5cb0a9dcUL, 0x76f988daUL, 0x983e5152UL,
++	0xa831c66dUL, 0xb00327c8UL, 0xbf597fc7UL, 0xc6e00bf3UL, 0xd5a79147UL,
++	0x06ca6351UL, 0x14292967UL, 0x27b70a85UL, 0x2e1b2138UL, 0x4d2c6dfcUL,
++	0x53380d13UL, 0x650a7354UL, 0x766a0abbUL, 0x81c2c92eUL, 0x92722c85UL,
++	0xa2bfe8a1UL, 0xa81a664bUL, 0xc24b8b70UL, 0xc76c51a3UL, 0xd192e819UL,
++	0xd6990624UL, 0xf40e3585UL, 0x106aa070UL, 0x19a4c116UL, 0x1e376c08UL,
++	0x2748774cUL, 0x34b0bcb5UL, 0x391c0cb3UL, 0x4ed8aa4aUL, 0x5b9cca4fUL,
++	0x682e6ff3UL, 0x748f82eeUL, 0x78a5636fUL, 0x84c87814UL, 0x8cc70208UL,
++	0x90befffaUL, 0xa4506cebUL, 0xbef9a3f7UL, 0xc67178f2UL
++};
++
++
++/* Various logical functions */
++#define RORc(x, y) \
++	(((((unsigned long) (x) & 0xFFFFFFFFUL) >> (unsigned long) ((y) & 31)) | \
++	  ((unsigned long) (x) << (unsigned long) (32 - ((y) & 31)))) & 0xFFFFFFFFUL)
++#define Ch(x, y, z)       (z ^ (x & (y ^ z)))
++#define Maj(x, y, z)      (((x | y) & z) | (x & y))
++#define S(x, n)         RORc((x), (n))
++#define R(x, n)         (((x) & 0xFFFFFFFFUL)>>(n))
++#define Sigma0(x)       (S(x, 2) ^ S(x, 13) ^ S(x, 22))
++#define Sigma1(x)       (S(x, 6) ^ S(x, 11) ^ S(x, 25))
++#define Gamma0(x)       (S(x, 7) ^ S(x, 18) ^ R(x, 3))
++#define Gamma1(x)       (S(x, 17) ^ S(x, 19) ^ R(x, 10))
++#ifndef MIN
++#define MIN(x, y) (((x) < (y)) ? (x) : (y))
++#endif
++#ifdef CONFIG_IEEE80211W
++int omac1_aes_128(u8 *key, u8 *data, size_t data_len, u8 *mac);
++#endif /* CONFIG_IEEE80211W */
++void rtw_secmicsetkey(struct mic_data *pmicdata, u8 *key);
++void rtw_secmicappendbyte(struct mic_data *pmicdata, u8 b);
++void rtw_secmicappend(struct mic_data *pmicdata, u8 *src, u32 nBytes);
++void rtw_secgetmic(struct mic_data *pmicdata, u8 *dst);
++
++void rtw_seccalctkipmic(
++	u8 *key,
++	u8 *header,
++	u8 *data,
++	u32 data_len,
++	u8 *Miccode,
++	u8   priority);
++
++u32 rtw_aes_encrypt(_adapter *padapter, u8 *pxmitframe);
++u32 rtw_tkip_encrypt(_adapter *padapter, u8 *pxmitframe);
++void rtw_wep_encrypt(_adapter *padapter, u8  *pxmitframe);
++
++u32 rtw_aes_decrypt(_adapter *padapter, u8  *precvframe);
++u32 rtw_tkip_decrypt(_adapter *padapter, u8  *precvframe);
++void rtw_wep_decrypt(_adapter *padapter, u8  *precvframe);
++#ifdef CONFIG_IEEE80211W
++u32	rtw_BIP_verify(_adapter *padapter, u8 *precvframe);
++#endif /* CONFIG_IEEE80211W */
++#ifdef CONFIG_TDLS
++void wpa_tdls_generate_tpk(_adapter *padapter, PVOID sta);
++int wpa_tdls_ftie_mic(u8 *kck, u8 trans_seq,
++			u8 *lnkid, u8 *rsnie, u8 *timeoutie, u8 *ftie,
++			u8 *mic);
++int wpa_tdls_teardown_ftie_mic(u8 *kck, u8 *lnkid, u16 reason,
++			u8 dialog_token, u8 trans_seq, u8 *ftie, u8 *mic);
++int tdls_verify_mic(u8 *kck, u8 trans_seq,
++			u8 *lnkid, u8 *rsnie, u8 *timeoutie, u8 *ftie);
++#endif /* CONFIG_TDLS */
++
++void rtw_use_tkipkey_handler(RTW_TIMER_HDL_ARGS);
++
++void rtw_sec_restore_wep_key(_adapter *adapter);
++u8 rtw_handle_tkip_countermeasure(_adapter *adapter, const char *caller);
++
++#ifdef CONFIG_WOWLAN
++u16 rtw_calc_crc(u8  *pdata, int length);
++#endif /*CONFIG_WOWLAN*/
++
++#endif /* __RTL871X_SECURITY_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_sreset.h b/drivers/net/wireless/rtl8723du/include/rtw_sreset.h
+new file mode 100644
+index 0000000..0ecdfc7
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_sreset.h
+@@ -0,0 +1,60 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_SRESET_H_
++#define _RTW_SRESET_H_
++
++/* #include <drv_types.h> */
++
++enum {
++	SRESET_TGP_NULL = 0,
++	SRESET_TGP_XMIT_STATUS = 1,
++	SRESET_TGP_LINK_STATUS = 2,
++};
++
++struct sreset_priv {
++	_mutex	silentreset_mutex;
++	u8	silent_reset_inprogress;
++	u8	Wifi_Error_Status;
++	unsigned long last_tx_time;
++	unsigned long last_tx_complete_time;
++
++	s32 dbg_trigger_point;
++};
++
++
++
++#define	WIFI_STATUS_SUCCESS		0
++#define	USB_VEN_REQ_CMD_FAIL	BIT0
++#define	USB_READ_PORT_FAIL		BIT1
++#define	USB_WRITE_PORT_FAIL		BIT2
++#define	WIFI_MAC_TXDMA_ERROR	BIT3
++#define   WIFI_TX_HANG				BIT4
++#define	WIFI_RX_HANG				BIT5
++#define	WIFI_IF_NOT_EXIST			BIT6
++
++void sreset_init_value(_adapter *padapter);
++void sreset_reset_value(_adapter *padapter);
++u8 sreset_get_wifi_status(_adapter *padapter);
++void sreset_set_wifi_error_status(_adapter *padapter, u32 status);
++void sreset_set_trigger_point(_adapter *padapter, s32 tgp);
++bool sreset_inprogress(_adapter *padapter);
++void sreset_reset(_adapter *padapter);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_tdls.h b/drivers/net/wireless/rtl8723du/include/rtw_tdls.h
+new file mode 100644
+index 0000000..ad16d66
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_tdls.h
+@@ -0,0 +1,173 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_TDLS_H_
++#define __RTW_TDLS_H_
++
++
++#ifdef CONFIG_TDLS
++/* TDLS STA state */
++
++
++/* TDLS Diect Link Establishment */
++#define	TDLS_STATE_NONE				0x00000000		/* Default state */
++#define	TDLS_INITIATOR_STATE		BIT(28)			/* 0x10000000 */
++#define	TDLS_RESPONDER_STATE		BIT(29)			/* 0x20000000 */
++#define	TDLS_LINKED_STATE			BIT(30)			/* 0x40000000 */
++/* TDLS PU Buffer STA */
++#define	TDLS_WAIT_PTR_STATE			BIT(24)			/* 0x01000000 */	/* Waiting peer's TDLS_PEER_TRAFFIC_RESPONSE frame */
++/* TDLS Check ALive */
++#define	TDLS_ALIVE_STATE			BIT(20)			/* 0x00100000 */	/* Check if peer sta is alived. */
++/* TDLS Channel Switch */
++#define	TDLS_CH_SWITCH_PREPARE_STATE	BIT(15)			/* 0x00008000 */
++#define	TDLS_CH_SWITCH_ON_STATE			BIT(16)			/* 0x00010000 */
++#define	TDLS_PEER_AT_OFF_STATE			BIT(17)			/* 0x00020000 */	/* Could send pkt on target ch */
++#define	TDLS_CH_SW_INITIATOR_STATE		BIT(18)			/* 0x00040000 */	/* Avoid duplicated or unconditional ch. switch rsp. */
++#define	TDLS_WAIT_CH_RSP_STATE			BIT(19)			/* 0x00080000 */	/* Wait Ch. response as we are TDLS channel switch initiator */
++
++
++#define	TDLS_TPK_RESEND_COUNT			86400	/*Unit: seconds */
++#define	TDLS_CH_SWITCH_TIME				15
++#define	TDLS_CH_SWITCH_TIMEOUT			30
++#define	TDLS_CH_SWITCH_OPER_OFFLOAD_TIMEOUT	10
++#define	TDLS_SIGNAL_THRESH			0x20
++#define	TDLS_WATCHDOG_PERIOD		10	/* Periodically sending tdls discovery request in TDLS_WATCHDOG_PERIOD * 2 sec */
++#define	TDLS_HANDSHAKE_TIME			3000
++#define	TDLS_PTI_TIME				7000
++
++#define TDLS_CH_SW_STAY_ON_BASE_CHNL_TIMEOUT	20		/* ms */
++#define TDLS_CH_SW_MONITOR_TIMEOUT				2000	/*ms */
++
++#define TDLS_MIC_LEN 16
++#define WPA_NONCE_LEN 32
++#define TDLS_TIMEOUT_LEN 4
++
++enum TDLS_CH_SW_CHNL {
++	TDLS_CH_SW_BASE_CHNL = 0,
++	TDLS_CH_SW_OFF_CHNL
++};
++
++struct wpa_tdls_ftie {
++	u8 ie_type; /* FTIE */
++	u8 ie_len;
++	u8 mic_ctrl[2];
++	u8 mic[TDLS_MIC_LEN];
++	u8 Anonce[WPA_NONCE_LEN]; /* Responder Nonce in TDLS */
++	u8 Snonce[WPA_NONCE_LEN]; /* Initiator Nonce in TDLS */
++	/* followed by optional elements */
++} ;
++
++struct wpa_tdls_lnkid {
++	u8 ie_type; /* Link Identifier IE */
++	u8 ie_len;
++	u8 bssid[ETH_ALEN];
++	u8 init_sta[ETH_ALEN];
++	u8 resp_sta[ETH_ALEN];
++} ;
++
++static u8 TDLS_RSNIE[20] = {	0x01, 0x00,	/* Version shall be set to 1 */
++				0x00, 0x0f, 0xac, 0x07,	/* Group sipher suite */
++				0x01, 0x00,	/* Pairwise cipher suite count */
++	0x00, 0x0f, 0xac, 0x04,	/* Pairwise cipher suite list; CCMP only */
++				0x01, 0x00,	/* AKM suite count */
++				0x00, 0x0f, 0xac, 0x07,	/* TPK Handshake */
++				0x0c, 0x02,
++				/* PMKID shall not be present */
++			   };
++
++static u8 TDLS_WMMIE[] = {0x00, 0x50, 0xf2, 0x02, 0x00, 0x01, 0x00};	/* Qos info all set zero */
++
++static u8 TDLS_WMM_PARAM_IE[] = {0x00, 0x00, 0x03, 0xa4, 0x00, 0x00, 0x27, 0xa4, 0x00, 0x00, 0x42, 0x43, 0x5e, 0x00, 0x62, 0x32, 0x2f, 0x00};
++
++static u8 TDLS_EXT_CAPIE[] = {0x00, 0x00, 0x00, 0x50, 0x20, 0x00, 0x00, 0x00};	/* bit(28), bit(30), bit(37) */
++
++/* SRC: Supported Regulatory Classes */
++static u8 TDLS_SRC[] = { 0x01, 0x01, 0x02, 0x03, 0x04, 0x0c, 0x16, 0x17, 0x18, 0x19, 0x1b, 0x1c, 0x1d, 0x1e, 0x20, 0x21 };
++
++int check_ap_tdls_prohibited(u8 *pframe, u8 pkt_len);
++int check_ap_tdls_ch_switching_prohibited(u8 *pframe, u8 pkt_len);
++
++u8 rtw_tdls_is_setup_allowed(_adapter *padapter);
++#ifdef CONFIG_TDLS_CH_SW
++u8 rtw_tdls_is_chsw_allowed(_adapter *padapter);
++#endif
++
++void rtw_reset_tdls_info(_adapter *padapter);
++int rtw_init_tdls_info(_adapter *padapter);
++void rtw_free_tdls_info(struct tdls_info *ptdlsinfo);
++int issue_nulldata_to_TDLS_peer_STA(_adapter *padapter, unsigned char *da, unsigned int power_mode, int try_cnt, int wait_ms);
++void rtw_init_tdls_timer(_adapter *padapter, struct sta_info *psta);
++void	rtw_free_tdls_timer(struct sta_info *psta);
++void free_tdls_sta(_adapter *padapter, struct sta_info *ptdls_sta);
++
++#ifdef CONFIG_TDLS_CH_SW
++void rtw_tdls_set_ch_sw_oper_control(_adapter *padapter, u8 enable);
++void rtw_tdls_ch_sw_back_to_base_chnl(_adapter *padapter);
++s32 rtw_tdls_do_ch_sw(_adapter *padapter, struct sta_info *ptdls_sta, u8 chnl_type, u8 channel, u8 channel_offset, u16 bwmode, u16 ch_switch_time);
++void rtw_tdls_chsw_oper_done(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_WFD
++int issue_tunneled_probe_req(_adapter *padapter);
++int issue_tunneled_probe_rsp(_adapter *padapter, union recv_frame *precv_frame);
++#endif /* CONFIG_WFD */
++int issue_tdls_dis_req(_adapter *padapter, struct tdls_txmgmt *ptxmgmt);
++int issue_tdls_setup_req(_adapter *padapter, struct tdls_txmgmt *ptxmgmt, int wait_ack);
++int issue_tdls_setup_rsp(_adapter *padapter, struct tdls_txmgmt *ptxmgmt);
++int issue_tdls_setup_cfm(_adapter *padapter, struct tdls_txmgmt *ptxmgmt);
++int issue_tdls_dis_rsp(_adapter *padapter, struct tdls_txmgmt *ptxmgmt, u8 privacy);
++int issue_tdls_teardown(_adapter *padapter, struct tdls_txmgmt *ptxmgmt, u8 wait_ack);
++int issue_tdls_peer_traffic_rsp(_adapter *padapter, struct sta_info *psta, struct tdls_txmgmt *ptxmgmt);
++int issue_tdls_peer_traffic_indication(_adapter *padapter, struct sta_info *psta);
++#ifdef CONFIG_TDLS_CH_SW
++int issue_tdls_ch_switch_req(_adapter *padapter, struct sta_info *ptdls_sta);
++int issue_tdls_ch_switch_rsp(_adapter *padapter, struct tdls_txmgmt *ptxmgmt, int wait_ack);
++#endif
++sint On_TDLS_Dis_Rsp(_adapter *adapter, union recv_frame *precv_frame);
++sint On_TDLS_Setup_Req(_adapter *adapter, union recv_frame *precv_frame);
++int On_TDLS_Setup_Rsp(_adapter *adapter, union recv_frame *precv_frame);
++int On_TDLS_Setup_Cfm(_adapter *adapter, union recv_frame *precv_frame);
++int On_TDLS_Dis_Req(_adapter *adapter, union recv_frame *precv_frame);
++int On_TDLS_Teardown(_adapter *adapter, union recv_frame *precv_frame);
++int On_TDLS_Peer_Traffic_Indication(_adapter *adapter, union recv_frame *precv_frame);
++int On_TDLS_Peer_Traffic_Rsp(_adapter *adapter, union recv_frame *precv_frame);
++#ifdef CONFIG_TDLS_CH_SW
++sint On_TDLS_Ch_Switch_Req(_adapter *adapter, union recv_frame *precv_frame);
++sint On_TDLS_Ch_Switch_Rsp(_adapter *adapter, union recv_frame *precv_frame);
++void rtw_build_tdls_ch_switch_req_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt);
++void rtw_build_tdls_ch_switch_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt);
++#endif
++void rtw_build_tdls_setup_req_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt);
++void rtw_build_tdls_setup_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt);
++void rtw_build_tdls_setup_cfm_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt);
++void rtw_build_tdls_teardown_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt);
++void rtw_build_tdls_dis_req_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt);
++void rtw_build_tdls_dis_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt, u8 privacy);
++void rtw_build_tdls_peer_traffic_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt);
++void rtw_build_tdls_peer_traffic_indication_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt);
++void rtw_build_tunneled_probe_req_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe);
++void rtw_build_tunneled_probe_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe);
++
++u32 update_mask_tdls(_adapter *padapter, struct sta_info *psta);
++int rtw_tdls_is_driver_setup(_adapter *padapter);
++void rtw_tdls_set_key(_adapter *padapter, struct sta_info *ptdls_sta);
++const char *rtw_tdls_action_txt(enum TDLS_ACTION_FIELD action);
++#endif /* CONFIG_TDLS */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_version.h b/drivers/net/wireless/rtl8723du/include/rtw_version.h
+new file mode 100644
+index 0000000..a288dca
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_version.h
+@@ -0,0 +1,2 @@
++#define DRIVERVERSION	"v5.1.1.4_18936.20160809_BTCOEX20160805-0c0c"
++#define BTCOEXVERSION	"BTCOEX20160805-0c0c"
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_vht.h b/drivers/net/wireless/rtl8723du/include/rtw_vht.h
+new file mode 100644
+index 0000000..1d886bb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_vht.h
+@@ -0,0 +1,143 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_VHT_H_
++#define _RTW_VHT_H_
++
++#define	LDPC_VHT_ENABLE_RX			BIT0
++#define	LDPC_VHT_ENABLE_TX			BIT1
++#define	LDPC_VHT_TEST_TX_ENABLE		BIT2
++#define	LDPC_VHT_CAP_TX				BIT3
++
++#define	STBC_VHT_ENABLE_RX			BIT0
++#define	STBC_VHT_ENABLE_TX			BIT1
++#define	STBC_VHT_TEST_TX_ENABLE		BIT2
++#define	STBC_VHT_CAP_TX				BIT3
++
++#define	BEAMFORMING_VHT_BEAMFORMER_ENABLE	BIT0	/* Declare our NIC supports beamformer */
++#define	BEAMFORMING_VHT_BEAMFORMEE_ENABLE	BIT1	/* Declare our NIC supports beamformee */
++#define	BEAMFORMING_VHT_MU_MIMO_AP_ENABLE		BIT2			/*Declare our NIC support MU-MIMO AP mode*/
++#define	BEAMFORMING_VHT_MU_MIMO_STA_ENABLE	BIT3			/*Declare our NIC support MU-MIMO STA mode*/
++#define	BEAMFORMING_VHT_BEAMFORMER_TEST		BIT4			/*Transmiting Beamforming no matter the target supports it or not*/
++#define	BEAMFORMING_VHT_BEAMFORMER_STS_CAP		(BIT8 | BIT9 | BIT10)		/*Asoc rsp cap*/
++#define	BEAMFORMING_VHT_BEAMFORMEE_SOUND_DIM		(BIT12 | BIT13 | BIT14)		/*Asoc rsp cap*/
++
++
++/* VHT capability info */
++#define SET_VHT_CAPABILITY_ELE_MAX_MPDU_LENGTH(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(_pEleStart, 0, 2, _val)
++#define SET_VHT_CAPABILITY_ELE_CHL_WIDTH(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(_pEleStart, 2, 2, _val)
++#define SET_VHT_CAPABILITY_ELE_RX_LDPC(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(_pEleStart, 4, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_SHORT_GI80M(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE(_pEleStart, 5, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_SHORT_GI160M(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE(_pEleStart, 6, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_TX_STBC(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE(_pEleStart, 7, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_RX_STBC(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+1, 0, 3, _val)
++#define SET_VHT_CAPABILITY_ELE_SU_BFER(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+1, 3, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_SU_BFEE(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+1, 4, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_BFER_ANT_SUPP(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+1, 5, 3, _val)
++#define SET_VHT_CAPABILITY_ELE_SOUNDING_DIMENSIONS(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+2, 0, 3, _val)
++
++#define SET_VHT_CAPABILITY_ELE_MU_BFER(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+2, 3, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_MU_BFEE(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+2, 4, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_TXOP_PS(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+2, 5, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_HTC_VHT(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+2, 6, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_MAX_RXAMPDU_FACTOR(_pEleStart, _val)		SET_BITS_TO_LE_2BYTE((_pEleStart)+2, 7, 3, _val) /* B23~B25 */
++#define SET_VHT_CAPABILITY_ELE_LINK_ADAPTION(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+2, 2, 2, _val)
++#define SET_VHT_CAPABILITY_ELE_MCS_RX_MAP(_pEleStart, _val)				SET_BITS_TO_LE_2BYTE((_pEleStart)+4, 0, 16, _val)   /* B0~B15 indicate Rx MCS MAP, we write 0 to indicate MCS0~7. by page */
++#define SET_VHT_CAPABILITY_ELE_MCS_RX_HIGHEST_RATE(_pEleStart, _val)				SET_BITS_TO_LE_2BYTE((_pEleStart)+6, 0, 13, _val)
++#define SET_VHT_CAPABILITY_ELE_MCS_TX_MAP(_pEleStart, _val)				SET_BITS_TO_LE_2BYTE((_pEleStart)+8, 0, 16, _val)   /* B0~B15 indicate Tx MCS MAP, we write 0 to indicate MCS0~7. by page */
++#define SET_VHT_CAPABILITY_ELE_MCS_TX_HIGHEST_RATE(_pEleStart, _val)				SET_BITS_TO_LE_2BYTE((_pEleStart)+10, 0, 13, _val)
++
++
++#define GET_VHT_CAPABILITY_ELE_MAX_MPDU_LENGTH(_pEleStart)			LE_BITS_TO_1BYTE(_pEleStart, 0, 2)
++#define GET_VHT_CAPABILITY_ELE_CHL_WIDTH(_pEleStart)				LE_BITS_TO_1BYTE(_pEleStart, 2, 2)
++#define GET_VHT_CAPABILITY_ELE_RX_LDPC(_pEleStart)			LE_BITS_TO_1BYTE(_pEleStart, 4, 1)
++#define GET_VHT_CAPABILITY_ELE_SHORT_GI80M(_pEleStart)				LE_BITS_TO_1BYTE(_pEleStart, 5, 1)
++#define GET_VHT_CAPABILITY_ELE_SHORT_GI160M(_pEleStart)				LE_BITS_TO_1BYTE(_pEleStart, 6, 1)
++#define GET_VHT_CAPABILITY_ELE_TX_STBC(_pEleStart)				LE_BITS_TO_1BYTE(_pEleStart, 7, 1)
++#define GET_VHT_CAPABILITY_ELE_RX_STBC(_pEleStart)				LE_BITS_TO_1BYTE((_pEleStart)+1, 0, 3)
++#define GET_VHT_CAPABILITY_ELE_SU_BFER(_pEleStart)					LE_BITS_TO_1BYTE((_pEleStart)+1, 3, 1)
++#define GET_VHT_CAPABILITY_ELE_SU_BFEE(_pEleStart)					LE_BITS_TO_1BYTE((_pEleStart)+1, 4, 1)
++/*phydm-beamforming*/
++#define GET_VHT_CAPABILITY_ELE_SU_BFEE_STS_CAP(_pEleStart)	LE_BITS_TO_2BYTE((_pEleStart)+1, 5, 3)
++#define GET_VHT_CAPABILITY_ELE_SU_BFER_SOUND_DIM_NUM(_pEleStart)	LE_BITS_TO_2BYTE((_pEleStart)+2, 0, 3)
++#define GET_VHT_CAPABILITY_ELE_MU_BFER(_pEleStart)				LE_BITS_TO_1BYTE((_pEleStart)+2, 3, 1)
++#define GET_VHT_CAPABILITY_ELE_MU_BFEE(_pEleStart)				LE_BITS_TO_1BYTE((_pEleStart)+2, 4, 1)
++#define GET_VHT_CAPABILITY_ELE_TXOP_PS(_pEleStart)				LE_BITS_TO_1BYTE((_pEleStart)+2, 5, 1)
++#define GET_VHT_CAPABILITY_ELE_MAX_RXAMPDU_FACTOR(_pEleStart)	LE_BITS_TO_2BYTE((_pEleStart)+2, 7, 3)
++#define GET_VHT_CAPABILITY_ELE_RX_MCS(_pEleStart)					       ((_pEleStart)+4)
++#define GET_VHT_CAPABILITY_ELE_MCS_RX_HIGHEST_RATE(_pEleStart)			LE_BITS_TO_2BYTE((_pEleStart)+6, 0, 13)
++#define GET_VHT_CAPABILITY_ELE_TX_MCS(_pEleStart)					       ((_pEleStart)+8)
++#define GET_VHT_CAPABILITY_ELE_MCS_TX_HIGHEST_RATE(_pEleStart)			LE_BITS_TO_2BYTE((_pEleStart)+10, 0, 13)
++
++
++/* VHT Operation Information Element */
++#define SET_VHT_OPERATION_ELE_CHL_WIDTH(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(_pEleStart, 0, 8, _val)
++#define SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ1(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(_pEleStart+1, 0, 8, _val)
++#define SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ2(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(_pEleStart+2, 0, 8, _val)
++#define SET_VHT_OPERATION_ELE_BASIC_MCS_SET(_pEleStart, _val)			SET_BITS_TO_LE_2BYTE((_pEleStart)+3, 0, 16, _val)
++
++#define GET_VHT_OPERATION_ELE_CHL_WIDTH(_pEleStart)		LE_BITS_TO_1BYTE(_pEleStart, 0, 8)
++#define GET_VHT_OPERATION_ELE_CENTER_FREQ1(_pEleStart)	LE_BITS_TO_1BYTE((_pEleStart)+1, 0, 8)
++#define GET_VHT_OPERATION_ELE_CENTER_FREQ2(_pEleStart)     LE_BITS_TO_1BYTE((_pEleStart)+2, 0, 8)
++
++/* VHT Operating Mode */
++#define SET_VHT_OPERATING_MODE_FIELD_CHNL_WIDTH(_pEleStart, _val)		SET_BITS_TO_LE_1BYTE(_pEleStart, 0, 2, _val)
++#define SET_VHT_OPERATING_MODE_FIELD_RX_NSS(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(_pEleStart, 4, 3, _val)
++#define SET_VHT_OPERATING_MODE_FIELD_RX_NSS_TYPE(_pEleStart, _val)	SET_BITS_TO_LE_1BYTE(_pEleStart, 7, 1, _val)
++#define GET_VHT_OPERATING_MODE_FIELD_CHNL_WIDTH(_pEleStart)			LE_BITS_TO_1BYTE(_pEleStart, 0, 2)
++#define GET_VHT_OPERATING_MODE_FIELD_RX_NSS(_pEleStart)				LE_BITS_TO_1BYTE(_pEleStart, 4, 3)
++#define GET_VHT_OPERATING_MODE_FIELD_RX_NSS_TYPE(_pEleStart)		LE_BITS_TO_1BYTE(_pEleStart, 7, 1)
++
++#define SET_EXT_CAPABILITY_ELE_OP_MODE_NOTIF(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE((_pEleStart)+7, 6, 1, _val)
++#define GET_EXT_CAPABILITY_ELE_OP_MODE_NOTIF(_pEleStart)				LE_BITS_TO_1BYTE((_pEleStart)+7, 6, 1)
++
++struct vht_priv {
++	u8	vht_option;
++
++	u8	ldpc_cap;
++	u8	stbc_cap;
++	u16	beamform_cap;
++
++	u8	sgi_80m;/* short GI */
++	u8	ampdu_len;
++
++	u8	vht_op_mode_notify;
++	u8	vht_highest_rate;
++	u8	vht_mcs_map[2];
++
++	u8	vht_cap[32];
++};
++
++u8	rtw_get_vht_highest_rate(u8 *pvht_mcs_map);
++u16	rtw_vht_mcs_to_data_rate(u8 bw, u8 short_GI, u8 vht_mcs_rate);
++u64	rtw_vht_rate_to_bitmap(u8 *pVHTRate);
++void	rtw_vht_use_default_setting(_adapter *padapter);
++u32	rtw_build_vht_operation_ie(_adapter *padapter, u8 *pbuf, u8 channel);
++u32	rtw_build_vht_op_mode_notify_ie(_adapter *padapter, u8 *pbuf, u8 bw);
++u32	rtw_build_vht_cap_ie(_adapter *padapter, u8 *pbuf);
++void	update_sta_vht_info_apmode(_adapter *padapter, PVOID psta);
++void	update_hw_vht_param(_adapter *padapter);
++void	VHT_caps_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE);
++void	VHT_operation_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE);
++void	rtw_process_vht_op_mode_notify(_adapter *padapter, u8 *pframe, PVOID sta);
++u32	rtw_restructure_vht_ie(_adapter *padapter, u8 *in_ie, u8 *out_ie, uint in_len, uint *pout_len);
++void	VHTOnAssocRsp(_adapter *padapter);
++u8	rtw_vht_mcsmap_to_nss(u8 *pvht_mcs_map);
++
++#endif /* _RTW_VHT_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_wapi.h b/drivers/net/wireless/rtl8723du/include/rtw_wapi.h
+new file mode 100644
+index 0000000..635aec0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_wapi.h
+@@ -0,0 +1,214 @@
++#ifndef __INC_WAPI_H
++#define __INC_WAPI_H
++
++
++#define CONFIG_WAPI_SW_SMS4
++#define WAPI_DEBUG
++
++#define SMS4_MIC_LEN                16
++#define WAPI_EXT_LEN                18
++#define MAX_WAPI_IE_LEN		    256
++#define sMacHdrLng				24		/* octets in data header, no WEP */
++
++#ifdef WAPI_DEBUG
++
++/* WAPI trace debug */
++extern u32 wapi_debug_component;
++
++static inline void dump_buf(u8 *buf, u32 len)
++{
++	u32 i;
++	printk("-----------------Len %d----------------\n", len);
++	for (i = 0; i < len; i++)
++		printk("%2.2x-", *(buf + i));
++	printk("\n");
++}
++
++#define WAPI_TRACE(component, x, args...) \
++	do { if (wapi_debug_component & (component)) \
++			printk(KERN_DEBUG "WAPI" ":" x "" , \
++			       ##args);\
++	} while (0);
++
++#define WAPI_DATA(component, x, buf, len) \
++	do { if (wapi_debug_component & (component)) { \
++			printk("%s:\n", x);\
++			dump_buf((buf), (len)); } \
++	} while (0);
++
++#define RT_ASSERT_RET(_Exp)								\
++	if (!(_Exp)) {									\
++		printk("RTWLAN: ");					\
++		printk("Assertion failed! %s,%s, line=%d\n", \
++		       #_Exp, __FUNCTION__, __LINE__);          \
++		return;						\
++	}
++#define RT_ASSERT_RET_VALUE(_Exp, Ret)								\
++	if (!(_Exp)) {									\
++		printk("RTWLAN: ");					\
++		printk("Assertion failed! %s,%s, line=%d\n", \
++		       #_Exp, __FUNCTION__, __LINE__);          \
++		return Ret;						\
++	}
++
++#else
++#define RT_ASSERT_RET(_Exp) do {} while (0)
++#define RT_ASSERT_RET_VALUE(_Exp, Ret) do {} while (0)
++#define WAPI_TRACE(component, x, args...) do {} while (0)
++#define WAPI_DATA(component, x, buf, len) do {} while (0)
++#endif
++
++
++enum WAPI_DEBUG {
++	WAPI_INIT				= 1,
++	WAPI_API				= 1 << 1,
++	WAPI_TX				= 1 << 2,
++	WAPI_RX				= 1 << 3,
++	WAPI_MLME				= 1 << 4,
++	WAPI_IOCTL				= 1 << 5,
++	WAPI_ERR			= 1 << 31
++};
++
++#define			WAPI_MAX_BKID_NUM				4
++#define			WAPI_MAX_STAINFO_NUM			4
++#define			WAPI_CAM_ENTRY_NUM			14	/* 28/2 = 14 */
++
++typedef struct  _RT_WAPI_BKID {
++	struct list_head	list;
++	u8				bkid[16];
++} RT_WAPI_BKID, *PRT_WAPI_BKID;
++
++typedef struct  _RT_WAPI_KEY {
++	u8			dataKey[16];
++	u8			micKey[16];
++	u8			keyId;
++	bool			bSet;
++	bool             bTxEnable;
++} RT_WAPI_KEY, *PRT_WAPI_KEY;
++
++typedef enum _RT_WAPI_PACKET_TYPE {
++	WAPI_NONE = 0,
++	WAPI_PREAUTHENTICATE = 1,
++	WAPI_STAKEY_REQUEST = 2,
++	WAPI_AUTHENTICATE_ACTIVE = 3,
++	WAPI_ACCESS_AUTHENTICATE_REQUEST = 4,
++	WAPI_ACCESS_AUTHENTICATE_RESPONSE = 5,
++	WAPI_CERTIFICATE_AUTHENTICATE_REQUEST = 6,
++	WAPI_CERTIFICATE_AUTHENTICATE_RESPONSE = 7,
++	WAPI_USK_REQUEST = 8,
++	WAPI_USK_RESPONSE = 9,
++	WAPI_USK_CONFIRM = 10,
++	WAPI_MSK_NOTIFICATION = 11,
++	WAPI_MSK_RESPONSE = 12
++} RT_WAPI_PACKET_TYPE;
++
++typedef struct	_RT_WAPI_STA_INFO {
++	struct list_head		list;
++	u8					PeerMacAddr[6];
++	RT_WAPI_KEY		      wapiUsk;
++	RT_WAPI_KEY		      wapiUskUpdate;
++	RT_WAPI_KEY		      wapiMsk;
++	RT_WAPI_KEY		      wapiMskUpdate;
++	u8					lastRxUnicastPN[16];
++	u8					lastTxUnicastPN[16];
++	u8					lastRxMulticastPN[16];
++	u8					lastRxUnicastPNBEQueue[16];
++	u8					lastRxUnicastPNBKQueue[16];
++	u8					lastRxUnicastPNVIQueue[16];
++	u8					lastRxUnicastPNVOQueue[16];
++	bool					bSetkeyOk;
++	bool					bAuthenticateInProgress;
++	bool					bAuthenticatorInUpdata;
++} RT_WAPI_STA_INFO, *PRT_WAPI_STA_INFO;
++
++/* Added for HW wapi en/decryption */
++typedef struct _RT_WAPI_CAM_ENTRY {
++	/* RT_LIST_ENTRY		list; */
++	u8			IsUsed;
++	u8			entry_idx;/* for cam entry */
++	u8			keyidx;	/* 0 or 1,new or old key */
++	u8			PeerMacAddr[6];
++	u8			type;	/* should be 110,wapi */
++} RT_WAPI_CAM_ENTRY, *PRT_WAPI_CAM_ENTRY;
++
++typedef struct _RT_WAPI_T {
++	/* BKID */
++	RT_WAPI_BKID		wapiBKID[WAPI_MAX_BKID_NUM];
++	struct list_head		wapiBKIDIdleList;
++	struct list_head		wapiBKIDStoreList;
++	/* Key for Tx Multicast/Broadcast */
++	RT_WAPI_KEY		      wapiTxMsk;
++
++	/* sec related */
++	u8				lastTxMulticastPN[16];
++	/* STA list */
++	RT_WAPI_STA_INFO	wapiSta[WAPI_MAX_STAINFO_NUM];
++	struct list_head		wapiSTAIdleList;
++	struct list_head		wapiSTAUsedList;
++	/*  */
++	bool				bWapiEnable;
++
++	/* store WAPI IE */
++	u8				wapiIE[256];
++	u8				wapiIELength;
++	bool				bWapiPSK;
++	/* last sequece number for wai packet */
++	u16				wapiSeqnumAndFragNum;
++	int extra_prefix_len;
++	int extra_postfix_len;
++
++	RT_WAPI_CAM_ENTRY	wapiCamEntry[WAPI_CAM_ENTRY_NUM];
++} RT_WAPI_T, *PRT_WAPI_T;
++
++typedef struct _WLAN_HEADER_WAPI_EXTENSION {
++	u8      KeyIdx;
++	u8      Reserved;
++	u8      PN[16];
++} WLAN_HEADER_WAPI_EXTENSION, *PWLAN_HEADER_WAPI_EXTENSION;
++
++u32 WapiComparePN(u8 *PN1, u8 *PN2);
++
++
++void rtw_wapi_init(_adapter *padapter);
++
++void rtw_wapi_free(_adapter *padapter);
++
++void rtw_wapi_disable_tx(_adapter *padapter);
++
++u8 rtw_wapi_is_wai_packet(_adapter *padapter, u8 *pkt_data);
++
++void rtw_wapi_update_info(_adapter *padapter, union recv_frame *precv_frame);
++
++u8 rtw_wapi_check_for_drop(_adapter *padapter, union recv_frame *precv_frame);
++
++void rtw_build_probe_resp_wapi_ie(_adapter *padapter, unsigned char *pframe, struct pkt_attrib *pattrib);
++
++void rtw_build_beacon_wapi_ie(_adapter *padapter, unsigned char *pframe, struct pkt_attrib *pattrib);
++
++void rtw_build_assoc_req_wapi_ie(_adapter *padapter, unsigned char *pframe, struct pkt_attrib *pattrib);
++
++void rtw_wapi_on_assoc_ok(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE);
++
++void rtw_wapi_return_one_sta_info(_adapter *padapter, u8 *MacAddr);
++
++void rtw_wapi_return_all_sta_info(_adapter *padapter);
++
++void rtw_wapi_clear_cam_entry(_adapter *padapter, u8 *pMacAddr);
++
++void rtw_wapi_clear_all_cam_entry(_adapter *padapter);
++
++void rtw_wapi_set_key(_adapter *padapter, RT_WAPI_KEY *pWapiKey, RT_WAPI_STA_INFO *pWapiSta, u8 bGroupKey, u8 bUseDefaultKey);
++
++int rtw_wapi_create_event_send(_adapter *padapter, u8 EventId, u8 *MacAddr, u8 *Buff, u16 BufLen);
++
++u32	rtw_sms4_encrypt(_adapter *padapter, u8 *pxmitframe);
++
++u32	rtw_sms4_decrypt(_adapter *padapter, u8 *precvframe);
++
++void rtw_wapi_get_iv(_adapter *padapter, u8 *pRA, u8 *IV);
++
++u8 WapiIncreasePN(u8 *PN, u8 AddCount);
++
++bool rtw_wapi_drop_for_key_absent(_adapter *padapter, u8 *pRA);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_wifi_regd.h b/drivers/net/wireless/rtl8723du/include/rtw_wifi_regd.h
+new file mode 100644
+index 0000000..2182712
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_wifi_regd.h
+@@ -0,0 +1,25 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2009-2010  Realtek Corporation.
++ *
++ *****************************************************************************/
++
++#ifndef __RTW_WIFI_REGD_H__
++#define __RTW_WIFI_REGD_H__
++
++struct country_code_to_enum_rd {
++	u16 countrycode;
++	const char *iso_name;
++};
++
++enum country_code_type_t {
++	COUNTRY_CODE_USER = 0,
++
++	/*add new channel plan above this line */
++	COUNTRY_CODE_MAX
++};
++
++int rtw_regd_init(_adapter *padapter);
++void rtw_reg_notify_by_driver(_adapter *adapter);
++
++#endif /* __RTW_WIFI_REGD_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/rtw_xmit.h b/drivers/net/wireless/rtl8723du/include/rtw_xmit.h
+new file mode 100644
+index 0000000..483f84a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/rtw_xmit.h
+@@ -0,0 +1,930 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_XMIT_H_
++#define _RTW_XMIT_H_
++
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	#ifdef CONFIG_TX_AGGREGATION
++		#define MAX_XMITBUF_SZ	(20480)	/* 20k */
++		/* #define SDIO_TX_AGG_MAX	5 */
++	#else
++		#define MAX_XMITBUF_SZ (1664)
++		#define SDIO_TX_AGG_MAX	1
++	#endif
++
++	#if defined CONFIG_SDIO_HCI
++		#define NR_XMITBUFF	(16)
++	#endif
++	#if defined(CONFIG_GSPI_HCI)
++		#define NR_XMITBUFF	(128)
++	#endif
++
++#elif defined (CONFIG_USB_HCI)
++
++	#ifdef CONFIG_USB_TX_AGGREGATION
++		#if defined(CONFIG_PLATFORM_ARM_SUNxI) || defined(CONFIG_PLATFORM_ARM_SUN6I) || defined(CONFIG_PLATFORM_ARM_SUN7I) || defined(CONFIG_PLATFORM_ARM_SUN8I) || defined(CONFIG_PLATFORM_ARM_SUN50IW1P1)
++			#define MAX_XMITBUF_SZ (12288)  /* 12k 1536*8 */
++		#elif defined (CONFIG_PLATFORM_MSTAR)
++			#define MAX_XMITBUF_SZ	7680	/* 7.5k */
++		#else
++			#define MAX_XMITBUF_SZ	(20480)	/* 20k */
++		#endif
++	#else
++		#define MAX_XMITBUF_SZ	(2048)
++	#endif
++
++	#ifdef CONFIG_SINGLE_XMIT_BUF
++		#define NR_XMITBUFF	(1)
++	#else
++		#define NR_XMITBUFF	(4)
++	#endif /* CONFIG_SINGLE_XMIT_BUF */
++#elif defined (CONFIG_PCI_HCI)
++	#define MAX_XMITBUF_SZ	(1664)
++	#define NR_XMITBUFF	(128)
++#endif
++
++#ifdef PLATFORM_OS_CE
++	#define XMITBUF_ALIGN_SZ 4
++#else
++	#ifdef CONFIG_PCI_HCI
++		#define XMITBUF_ALIGN_SZ 4
++	#else
++		#ifdef USB_XMITBUF_ALIGN_SZ
++			#define XMITBUF_ALIGN_SZ (USB_XMITBUF_ALIGN_SZ)
++		#else
++			#define XMITBUF_ALIGN_SZ 512
++		#endif
++	#endif
++#endif
++
++/* xmit extension buff defination */
++#define MAX_XMIT_EXTBUF_SZ	(1536)
++
++#ifdef CONFIG_SINGLE_XMIT_BUF
++	#define NR_XMIT_EXTBUFF	(1)
++#else
++	#define NR_XMIT_EXTBUFF	(32)
++#endif
++
++#ifdef CONFIG_RTL8812A
++	#define MAX_CMDBUF_SZ	(512*14)
++#elif defined(CONFIG_RTL8723D) && defined(CONFIG_LPS_POFF)
++	#define MAX_CMDBUF_SZ	(128*70) /*(8960)*/
++#else
++	#define MAX_CMDBUF_SZ	(5120)	/* (4096) */
++#endif
++
++#define MAX_NUMBLKS		(1)
++
++#define XMIT_VO_QUEUE (0)
++#define XMIT_VI_QUEUE (1)
++#define XMIT_BE_QUEUE (2)
++#define XMIT_BK_QUEUE (3)
++
++#define VO_QUEUE_INX		0
++#define VI_QUEUE_INX		1
++#define BE_QUEUE_INX		2
++#define BK_QUEUE_INX		3
++#define BCN_QUEUE_INX		4
++#define MGT_QUEUE_INX		5
++#define HIGH_QUEUE_INX		6
++#define TXCMD_QUEUE_INX	7
++
++#define HW_QUEUE_ENTRY	8
++
++#ifdef CONFIG_PCI_HCI
++	#ifdef CONFIG_TRX_BD_ARCH
++		#define TX_BD_NUM			(128+1)	/* +1 result from ring buffer */
++	#else
++		/* #define TXDESC_NUM						64 */
++		#define TXDESC_NUM						128
++		#define TXBD_NUM				TXDESC_NUM
++		#define TXDESC_NUM_BE_QUEUE			128
++		#define TXBD_NUM_RSVD				2
++	#endif
++#endif
++
++#define WEP_IV(pattrib_iv, dot11txpn, keyidx)\
++	do {\
++		pattrib_iv[0] = dot11txpn._byte_.TSC0;\
++		pattrib_iv[1] = dot11txpn._byte_.TSC1;\
++		pattrib_iv[2] = dot11txpn._byte_.TSC2;\
++		pattrib_iv[3] = ((keyidx & 0x3)<<6);\
++		dot11txpn.val = (dot11txpn.val == 0xffffff) ? 0 : (dot11txpn.val+1);\
++	} while (0)
++
++
++#define TKIP_IV(pattrib_iv, dot11txpn, keyidx)\
++	do {\
++		pattrib_iv[0] = dot11txpn._byte_.TSC1;\
++		pattrib_iv[1] = (dot11txpn._byte_.TSC1 | 0x20) & 0x7f;\
++		pattrib_iv[2] = dot11txpn._byte_.TSC0;\
++		pattrib_iv[3] = BIT(5) | ((keyidx & 0x3)<<6);\
++		pattrib_iv[4] = dot11txpn._byte_.TSC2;\
++		pattrib_iv[5] = dot11txpn._byte_.TSC3;\
++		pattrib_iv[6] = dot11txpn._byte_.TSC4;\
++		pattrib_iv[7] = dot11txpn._byte_.TSC5;\
++		dot11txpn.val = dot11txpn.val == 0xffffffffffffULL ? 0 : (dot11txpn.val+1);\
++	} while (0)
++
++#define AES_IV(pattrib_iv, dot11txpn, keyidx)\
++	do {\
++		pattrib_iv[0] = dot11txpn._byte_.TSC0;\
++		pattrib_iv[1] = dot11txpn._byte_.TSC1;\
++		pattrib_iv[2] = 0;\
++		pattrib_iv[3] = BIT(5) | ((keyidx & 0x3)<<6);\
++		pattrib_iv[4] = dot11txpn._byte_.TSC2;\
++		pattrib_iv[5] = dot11txpn._byte_.TSC3;\
++		pattrib_iv[6] = dot11txpn._byte_.TSC4;\
++		pattrib_iv[7] = dot11txpn._byte_.TSC5;\
++		dot11txpn.val = dot11txpn.val == 0xffffffffffffULL ? 0 : (dot11txpn.val+1);\
++	} while (0)
++
++
++#define HWXMIT_ENTRY	4
++
++/* For Buffer Descriptor ring architecture */
++#if defined(BUF_DESC_ARCH) || defined(CONFIG_TRX_BD_ARCH)
++	#if defined(CONFIG_RTL8192E)
++		#define TX_BUFFER_SEG_NUM	1 /* 0:2 seg, 1: 4 seg, 2: 8 seg. */
++	#elif defined(CONFIG_RTL8814A)
++		#define TX_BUFFER_SEG_NUM	1 /* 0:2 seg, 1: 4 seg, 2: 8 seg. */
++	#else
++		#define TX_BUFFER_SEG_NUM	1 /* 0:2 seg, 1: 4 seg, 2: 8 seg. */
++	#endif
++#endif
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) ||\
++	defined(CONFIG_RTL8723B) || defined(CONFIG_RTL8192E) ||\
++	defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8703B) ||\
++	defined(CONFIG_RTL8188F) || defined(CONFIG_RTL8723D)
++	#define TXDESC_SIZE 40
++#elif defined(CONFIG_RTL8822B)
++	#define TXDESC_SIZE 48		/* HALMAC_TX_DESC_SIZE_8822B */
++#elif defined(CONFIG_RTL8821C)
++	#define TXDESC_SIZE 48		/* HALMAC_TX_DESC_SIZE_8821C */
++#else
++	#define TXDESC_SIZE 32 /* old IC (ex: 8188E) */
++#endif
++
++#ifdef CONFIG_TX_EARLY_MODE
++	#define EARLY_MODE_INFO_SIZE	8
++#endif
++
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	#define TXDESC_OFFSET TXDESC_SIZE
++#endif
++
++#ifdef CONFIG_USB_HCI
++	#ifdef USB_PACKET_OFFSET_SZ
++		#define PACKET_OFFSET_SZ (USB_PACKET_OFFSET_SZ)
++	#else
++		#define PACKET_OFFSET_SZ (8)
++	#endif
++	#define TXDESC_OFFSET (TXDESC_SIZE + PACKET_OFFSET_SZ)
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	#if defined(CONFIG_RTL8192E) || defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C) || defined(CONFIG_TRX_BD_ARCH)
++		/* this section is defined for buffer descriptor ring architecture */
++		#define TX_WIFI_INFO_SIZE (TXDESC_SIZE) /* it may add 802.11 hdr or others... */
++		/* tx desc and payload are in the same buf */
++		#define TXDESC_OFFSET (TX_WIFI_INFO_SIZE)
++	#else
++		/* tx desc and payload are NOT in the same buf */
++		#define TXDESC_OFFSET (0)
++		/* 8188ee/8723be/8812ae/8821ae has extra PCI DMA info in tx desc */
++		#define TX_DESC_NEXT_DESC_OFFSET	(TXDESC_SIZE + 8)
++	#endif
++#endif /* CONFIG_PCI_HCI */
++
++enum TXDESC_SC {
++	SC_DONT_CARE = 0x00,
++	SC_UPPER = 0x01,
++	SC_LOWER = 0x02,
++	SC_DUPLICATE = 0x03
++};
++
++#ifdef CONFIG_PCI_HCI
++	#ifndef CONFIG_TRX_BD_ARCH	/* CONFIG_TRX_BD_ARCH doesn't need this */
++		#define TXDESC_64_BYTES
++	#endif
++#elif defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) || defined(CONFIG_RTL8723B) \
++	|| defined(CONFIG_RTL8188F) || defined(CONFIG_RTL8723D)
++	#define TXDESC_40_BYTES
++#endif
++
++#ifdef CONFIG_TRX_BD_ARCH
++struct tx_buf_desc {
++#ifdef CONFIG_64BIT_DMA
++#define TX_BUFFER_SEG_SIZE	4	/* in unit of DWORD */
++#else
++#define TX_BUFFER_SEG_SIZE	2	/* in unit of DWORD */
++#endif
++	unsigned int dword[TX_BUFFER_SEG_SIZE * (2 << TX_BUFFER_SEG_NUM)];
++} __packed;
++#elif (defined(CONFIG_RTL8192E) || defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B)) && defined(CONFIG_PCI_HCI) /* 8192ee or 8814ae */
++/* 8192EE_TODO */
++struct tx_desc {
++	unsigned int txdw0;
++	unsigned int txdw1;
++	unsigned int txdw2;
++	unsigned int txdw3;
++	unsigned int txdw4;
++	unsigned int txdw5;
++	unsigned int txdw6;
++	unsigned int txdw7;
++};
++#else
++struct tx_desc {
++	unsigned int txdw0;
++	unsigned int txdw1;
++	unsigned int txdw2;
++	unsigned int txdw3;
++	unsigned int txdw4;
++	unsigned int txdw5;
++	unsigned int txdw6;
++	unsigned int txdw7;
++
++#if defined(TXDESC_40_BYTES) || defined(TXDESC_64_BYTES)
++	unsigned int txdw8;
++	unsigned int txdw9;
++#endif /* TXDESC_40_BYTES */
++
++#ifdef TXDESC_64_BYTES
++	unsigned int txdw10;
++	unsigned int txdw11;
++
++	/* 2008/05/15 MH Because PCIE HW memory R/W 4K limit. And now,  our descriptor */
++	/* size is 40 bytes. If you use more than 102 descriptor( 103*40>4096), HW will execute */
++	/* memoryR/W CRC error. And then all DMA fetch will fail. We must decrease descriptor */
++	/* number or enlarge descriptor size as 64 bytes. */
++	unsigned int txdw12;
++	unsigned int txdw13;
++	unsigned int txdw14;
++	unsigned int txdw15;
++#endif
++};
++#endif
++
++#ifndef CONFIG_TRX_BD_ARCH
++union txdesc {
++	struct tx_desc txdesc;
++	unsigned int value[TXDESC_SIZE >> 2];
++};
++#endif
++
++#ifdef CONFIG_PCI_HCI
++#define PCI_MAX_TX_QUEUE_COUNT	8	/* == HW_QUEUE_ENTRY */
++
++struct rtw_tx_ring {
++	unsigned char	qid;
++#ifdef CONFIG_TRX_BD_ARCH
++	struct tx_buf_desc	*buf_desc;
++#else
++	struct tx_desc	*desc;
++#endif
++	dma_addr_t	dma;
++	unsigned int	idx;
++	unsigned int	entries;
++	_queue		queue;
++	u32		qlen;
++#ifdef CONFIG_TRX_BD_ARCH
++	u16		hw_rp_cache;
++#endif
++};
++#endif
++
++struct	hw_xmit	{
++	/* _lock xmit_lock; */
++	/* _list	pending; */
++	_queue *sta_queue;
++	/* struct hw_txqueue *phwtxqueue; */
++	/* sint	txcmdcnt; */
++	int	accnt;
++};
++
++#if 0
++struct pkt_attrib {
++	u8	type;
++	u8	subtype;
++	u8	bswenc;
++	u8	dhcp_pkt;
++	u16	ether_type;
++	int	pktlen;		/* the original 802.3 pkt raw_data len (not include ether_hdr data) */
++	int	pkt_hdrlen;	/* the original 802.3 pkt header len */
++	int	hdrlen;		/* the WLAN Header Len */
++	int	nr_frags;
++	int	last_txcmdsz;
++	int	encrypt;	/* when 0 indicate no encrypt. when non-zero, indicate the encrypt algorith */
++	u8	iv[8];
++	int	iv_len;
++	u8	icv[8];
++	int	icv_len;
++	int	priority;
++	int	ack_policy;
++	int	mac_id;
++	int	vcs_mode;	/* virtual carrier sense method */
++
++	u8	dst[ETH_ALEN];
++	u8	src[ETH_ALEN];
++	u8	ta[ETH_ALEN];
++	u8	ra[ETH_ALEN];
++
++	u8	key_idx;
++
++	u8	qos_en;
++	u8	ht_en;
++	u8	raid;/* rate adpative id */
++	u8	bwmode;
++	u8	ch_offset;/* PRIME_CHNL_OFFSET */
++	u8	sgi;/* short GI */
++	u8	ampdu_en;/* tx ampdu enable */
++	u8	mdata;/* more data bit */
++	u8	eosp;
++
++	u8	triggered;/* for ap mode handling Power Saving sta */
++
++	u32	qsel;
++	u16	seqnum;
++
++	struct sta_info *psta;
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
++	u8	hw_tcp_csum;
++#endif
++};
++#else
++/* reduce size */
++struct pkt_attrib {
++	u8	type;
++	u8	subtype;
++	u8	bswenc;
++	u8	dhcp_pkt;
++	u16	ether_type;
++	u16	seqnum;
++	u8	hw_ssn_sel;	/* for HW_SEQ0,1,2,3 */
++	u16	pkt_hdrlen;	/* the original 802.3 pkt header len */
++	u16	hdrlen;		/* the WLAN Header Len */
++	u32	pktlen;		/* the original 802.3 pkt raw_data len (not include ether_hdr data) */
++	u32	last_txcmdsz;
++	u8	nr_frags;
++	u8	encrypt;	/* when 0 indicate no encrypt. when non-zero, indicate the encrypt algorith */
++#if defined(CONFIG_CONCURRENT_MODE)
++	u8	bmc_camid;
++#endif
++	u8	iv_len;
++	u8	icv_len;
++	u8	iv[18];
++	u8	icv[16];
++	u8	priority;
++	u8	ack_policy;
++	u8	mac_id;
++	u8	vcs_mode;	/* virtual carrier sense method */
++	u8	dst[ETH_ALEN];
++	u8	src[ETH_ALEN];
++	u8	ta[ETH_ALEN];
++	u8	ra[ETH_ALEN];
++	u8	key_idx;
++	u8	qos_en;
++	u8	ht_en;
++	u8	raid;/* rate adpative id */
++	u8	bwmode;
++	u8	ch_offset;/* PRIME_CHNL_OFFSET */
++	u8	sgi;/* short GI */
++	u8	ampdu_en;/* tx ampdu enable */
++	u8	ampdu_spacing; /* ampdu_min_spacing for peer sta's rx */
++	u8	mdata;/* more data bit */
++	u8	pctrl;/* per packet txdesc control enable */
++	u8	triggered;/* for ap mode handling Power Saving sta */
++	u8	qsel;
++	u8	order;/* order bit */
++	u8	eosp;
++	u8	rate;
++	u8	intel_proxim;
++	u8	retry_ctrl;
++	u8   mbssid;
++	u8	ldpc;
++	u8	stbc;
++	struct sta_info *psta;
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
++	u8	hw_tcp_csum;
++#endif
++
++	u8 rtsen;
++	u8 cts2self;
++	union Keytype	dot11tkiptxmickey;
++	/* union Keytype	dot11tkiprxmickey; */
++	union Keytype	dot118021x_UncstKey;
++
++#ifdef CONFIG_TDLS
++	u8 direct_link;
++	struct sta_info *ptdls_sta;
++#endif /* CONFIG_TDLS */
++	u8 key_type;
++
++	u8 icmp_pkt;
++
++#ifdef CONFIG_BEAMFORMING
++	u16 txbf_p_aid;/*beamforming Partial_AID*/
++	u16 txbf_g_id;/*beamforming Group ID*/
++#endif
++
++};
++#endif
++
++#define WLANHDR_OFFSET	64
++
++#define NULL_FRAMETAG		(0x0)
++#define DATA_FRAMETAG		0x01
++#define L2_FRAMETAG		0x02
++#define MGNT_FRAMETAG		0x03
++#define AMSDU_FRAMETAG	0x04
++
++#define EII_FRAMETAG		0x05
++#define IEEE8023_FRAMETAG  0x06
++
++#define MP_FRAMETAG		0x07
++
++#define TXAGG_FRAMETAG	0x08
++
++enum {
++	XMITBUF_DATA = 0,
++	XMITBUF_MGNT = 1,
++	XMITBUF_CMD = 2,
++};
++
++bool rtw_xmit_ac_blocked(_adapter *adapter);
++
++struct  submit_ctx {
++	u32 submit_time; /* */
++	u32 timeout_ms; /* <0: not synchronous, 0: wait forever, >0: up to ms waiting */
++	int status; /* status for operation */
++#ifdef PLATFORM_LINUX
++	struct completion done;
++#endif
++};
++
++enum {
++	RTW_SCTX_SUBMITTED = -1,
++	RTW_SCTX_DONE_SUCCESS = 0,
++	RTW_SCTX_DONE_UNKNOWN,
++	RTW_SCTX_DONE_TIMEOUT,
++	RTW_SCTX_DONE_BUF_ALLOC,
++	RTW_SCTX_DONE_BUF_FREE,
++	RTW_SCTX_DONE_WRITE_PORT_ERR,
++	RTW_SCTX_DONE_TX_DESC_NA,
++	RTW_SCTX_DONE_TX_DENY,
++	RTW_SCTX_DONE_CCX_PKT_FAIL,
++	RTW_SCTX_DONE_DRV_STOP,
++	RTW_SCTX_DONE_DEV_REMOVE,
++	RTW_SCTX_DONE_CMD_ERROR,
++};
++
++
++void rtw_sctx_init(struct submit_ctx *sctx, int timeout_ms);
++int rtw_sctx_wait(struct submit_ctx *sctx, const char *msg);
++void rtw_sctx_done_err(struct submit_ctx **sctx, int status);
++void rtw_sctx_done(struct submit_ctx **sctx);
++
++struct xmit_buf {
++	_list	list;
++
++	_adapter *padapter;
++
++	u8 *pallocated_buf;
++
++	u8 *pbuf;
++
++	void *priv_data;
++
++	u16 buf_tag; /* 0: Normal xmitbuf, 1: extension xmitbuf, 2:cmd xmitbuf */
++	u16 flags;
++	u32 alloc_sz;
++
++	u32  len;
++
++	struct submit_ctx *sctx;
++
++#ifdef CONFIG_USB_HCI
++
++	/* u32 sz[8]; */
++	u32	ff_hwaddr;
++#ifdef RTW_HALMAC
++	u8 bulkout_id; /* for halmac */
++#endif /* RTW_HALMAC */
++
++#if defined(PLATFORM_OS_XP) || defined(PLATFORM_LINUX) || defined(PLATFORM_FREEBSD)
++	PURB	pxmit_urb[8];
++	dma_addr_t dma_transfer_addr;	/* (in) dma addr for transfer_buffer */
++#endif
++
++#ifdef PLATFORM_OS_XP
++	PIRP		pxmit_irp[8];
++#endif
++
++#ifdef PLATFORM_OS_CE
++	USB_TRANSFER	usb_transfer_write_port;
++#endif
++
++	u8 bpending[8];
++
++	sint last[8];
++
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	u8 *phead;
++	u8 *pdata;
++	u8 *ptail;
++	u8 *pend;
++	u32 ff_hwaddr;
++	u8	pg_num;
++	u8	agg_num;
++#ifdef PLATFORM_OS_XP
++	PMDL pxmitbuf_mdl;
++	PIRP  pxmitbuf_irp;
++	PSDBUS_REQUEST_PACKET pxmitbuf_sdrp;
++#endif
++#endif
++
++#ifdef CONFIG_PCI_HCI
++#ifdef CONFIG_TRX_BD_ARCH
++	/*struct tx_buf_desc *buf_desc;*/
++#else
++	struct tx_desc *desc;
++#endif
++#endif
++
++#if defined(DBG_XMIT_BUF) || defined(DBG_XMIT_BUF_EXT)
++	u8 no;
++#endif
++
++};
++
++
++struct xmit_frame {
++	_list	list;
++
++	struct pkt_attrib attrib;
++
++	_pkt *pkt;
++
++	int	frame_tag;
++
++	_adapter *padapter;
++
++	u8	*buf_addr;
++
++	struct xmit_buf *pxmitbuf;
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	u8	pg_num;
++	u8	agg_num;
++#endif
++
++#ifdef CONFIG_USB_HCI
++#ifdef CONFIG_USB_TX_AGGREGATION
++	u8	agg_num;
++#endif
++	s8	pkt_offset;
++#endif
++
++#ifdef CONFIG_XMIT_ACK
++	u8 ack_report;
++#endif
++
++	u8 *alloc_addr; /* the actual address this xmitframe allocated */
++	u8 ext_tag; /* 0:data, 1:mgmt */
++
++};
++
++struct tx_servq {
++	_list	tx_pending;
++	_queue	sta_pending;
++	int qcnt;
++};
++
++
++struct sta_xmit_priv {
++	_lock	lock;
++	sint	option;
++	sint	apsd_setting;	/* When bit mask is on, the associated edca queue supports APSD. */
++
++
++	/* struct tx_servq blk_q[MAX_NUMBLKS]; */
++	struct tx_servq	be_q;			/* priority == 0,3 */
++	struct tx_servq	bk_q;			/* priority == 1,2 */
++	struct tx_servq	vi_q;			/* priority == 4,5 */
++	struct tx_servq	vo_q;			/* priority == 6,7 */
++	_list	legacy_dz;
++	_list  apsd;
++
++	u16 txseq_tid[16];
++
++	/* uint	sta_tx_bytes; */
++	/* u64	sta_tx_pkts; */
++	/* uint	sta_tx_fail; */
++
++
++};
++
++
++struct	hw_txqueue	{
++	volatile sint	head;
++	volatile sint	tail;
++	volatile sint 	free_sz;	/* in units of 64 bytes */
++	volatile sint      free_cmdsz;
++	volatile sint	 txsz[8];
++	uint	ff_hwaddr;
++	uint	cmd_hwaddr;
++	sint	ac_tag;
++};
++
++struct agg_pkt_info {
++	u16 offset;
++	u16 pkt_len;
++};
++
++enum cmdbuf_type {
++	CMDBUF_BEACON = 0x00,
++	CMDBUF_RSVD,
++	CMDBUF_MAX
++};
++
++u8 rtw_get_hwseq_no(_adapter *padapter);
++
++struct	xmit_priv	{
++
++	_lock	lock;
++
++	_sema	xmit_sema;
++	_sema	terminate_xmitthread_sema;
++
++	/* _queue	blk_strms[MAX_NUMBLKS]; */
++	_queue	be_pending;
++	_queue	bk_pending;
++	_queue	vi_pending;
++	_queue	vo_pending;
++	_queue	bm_pending;
++
++	/* _queue	legacy_dz_queue; */
++	/* _queue	apsd_queue; */
++
++	u8 *pallocated_frame_buf;
++	u8 *pxmit_frame_buf;
++	uint free_xmitframe_cnt;
++	_queue	free_xmit_queue;
++
++	/* uint mapping_addr; */
++	/* uint pkt_sz; */
++
++	u8 *xframe_ext_alloc_addr;
++	u8 *xframe_ext;
++	uint free_xframe_ext_cnt;
++	_queue free_xframe_ext_queue;
++
++	/* struct	hw_txqueue	be_txqueue; */
++	/* struct	hw_txqueue	bk_txqueue; */
++	/* struct	hw_txqueue	vi_txqueue; */
++	/* struct	hw_txqueue	vo_txqueue; */
++	/* struct	hw_txqueue	bmc_txqueue; */
++
++	uint	frag_len;
++
++	_adapter	*adapter;
++
++	u8   vcs_setting;
++	u8	vcs;
++	u8	vcs_type;
++	/* u16  rts_thresh; */
++
++	u64	tx_bytes;
++	u64	tx_pkts;
++	u64	tx_drop;
++	u64	last_tx_pkts;
++
++	struct hw_xmit *hwxmits;
++	u8	hwxmit_entry;
++
++	u8	wmm_para_seq[4];/* sequence for wmm ac parameter strength from large to small. it's value is 0->vo, 1->vi, 2->be, 3->bk. */
++
++#ifdef CONFIG_USB_HCI
++	_sema	tx_retevt;/* all tx return event; */
++	u8		txirp_cnt;
++
++#ifdef PLATFORM_OS_CE
++	USB_TRANSFER	usb_transfer_write_port;
++	/*	USB_TRANSFER	usb_transfer_write_mem; */
++#endif
++#ifdef PLATFORM_LINUX
++	struct tasklet_struct xmit_tasklet;
++#endif
++#ifdef PLATFORM_FREEBSD
++	struct task xmit_tasklet;
++#endif
++	/* per AC pending irp */
++	int beq_cnt;
++	int bkq_cnt;
++	int viq_cnt;
++	int voq_cnt;
++
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	/* Tx */
++	struct rtw_tx_ring	tx_ring[PCI_MAX_TX_QUEUE_COUNT];
++	int	txringcount[PCI_MAX_TX_QUEUE_COUNT];
++	u8 	beaconDMAing;		/* flag of indicating beacon is transmiting to HW by DMA */
++#ifdef PLATFORM_LINUX
++	struct tasklet_struct xmit_tasklet;
++#endif
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++#ifdef CONFIG_SDIO_TX_TASKLET
++#ifdef PLATFORM_LINUX
++	struct tasklet_struct xmit_tasklet;
++#endif /* PLATFORM_LINUX */
++#else
++	_thread_hdl_	SdioXmitThread;
++	_sema		SdioXmitSema;
++	_sema		SdioXmitTerminateSema;
++#endif /* CONFIG_SDIO_TX_TASKLET */
++#endif /* CONFIG_SDIO_HCI */
++
++	_queue free_xmitbuf_queue;
++	_queue pending_xmitbuf_queue;
++	u8 *pallocated_xmitbuf;
++	u8 *pxmitbuf;
++	uint free_xmitbuf_cnt;
++
++	_queue free_xmit_extbuf_queue;
++	u8 *pallocated_xmit_extbuf;
++	u8 *pxmit_extbuf;
++	uint free_xmit_extbuf_cnt;
++
++	struct xmit_buf	pcmd_xmitbuf[CMDBUF_MAX];
++	u8   hw_ssn_seq_no;/* mapping to REG_HW_SEQ 0,1,2,3 */
++	u16	nqos_ssn;
++#ifdef CONFIG_TX_EARLY_MODE
++
++#ifdef CONFIG_SDIO_HCI
++#define MAX_AGG_PKT_NUM 20
++#else
++#define MAX_AGG_PKT_NUM 256 /* Max tx ampdu coounts		 */
++#endif
++
++	struct agg_pkt_info agg_pkt[MAX_AGG_PKT_NUM];
++#endif
++
++#ifdef CONFIG_XMIT_ACK
++	int	ack_tx;
++	_mutex ack_tx_mutex;
++	struct submit_ctx ack_tx_ops;
++	u8 seq_no;
++#endif
++	_lock lock_sctx;
++};
++
++extern struct xmit_frame *__rtw_alloc_cmdxmitframe(struct xmit_priv *pxmitpriv,
++		enum cmdbuf_type buf_type);
++#define rtw_alloc_cmdxmitframe(p) __rtw_alloc_cmdxmitframe(p, CMDBUF_RSVD)
++#if defined(CONFIG_RTL8192E) && defined(CONFIG_PCI_HCI)
++extern struct xmit_frame *__rtw_alloc_cmdxmitframe_8192ee(struct xmit_priv *pxmitpriv,
++		enum cmdbuf_type buf_type);
++#define rtw_alloc_bcnxmitframe(p) __rtw_alloc_cmdxmitframe_8192ee(p, CMDBUF_BEACON)
++#elif defined(CONFIG_RTL8822B) && defined(CONFIG_PCI_HCI)
++extern struct xmit_frame *__rtw_alloc_cmdxmitframe_8822be(struct xmit_priv *pxmitpriv,
++		enum cmdbuf_type buf_type);
++#define rtw_alloc_bcnxmitframe(p) __rtw_alloc_cmdxmitframe_8822be(p, CMDBUF_BEACON)
++#elif defined(CONFIG_RTL8821C) && defined(CONFIG_PCI_HCI)
++extern struct xmit_frame *__rtw_alloc_cmdxmitframe_8821ce(struct xmit_priv *pxmitpriv,
++		enum cmdbuf_type buf_type);
++#define rtw_alloc_bcnxmitframe(p) __rtw_alloc_cmdxmitframe_8821ce(p, CMDBUF_BEACON)
++#else
++#define rtw_alloc_bcnxmitframe(p) __rtw_alloc_cmdxmitframe(p, CMDBUF_BEACON)
++#endif
++
++extern struct xmit_buf *rtw_alloc_xmitbuf_ext(struct xmit_priv *pxmitpriv);
++extern s32 rtw_free_xmitbuf_ext(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++
++extern struct xmit_buf *rtw_alloc_xmitbuf(struct xmit_priv *pxmitpriv);
++extern s32 rtw_free_xmitbuf(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++
++void rtw_count_tx_stats(_adapter *padapter, struct xmit_frame *pxmitframe, int sz);
++extern void rtw_update_protection(_adapter *padapter, u8 *ie, uint ie_len);
++static s32 update_attrib_sec_info(_adapter *padapter, struct pkt_attrib *pattrib, struct sta_info *psta);
++static void update_attrib_phy_info(_adapter *padapter, struct pkt_attrib *pattrib, struct sta_info *psta);
++extern s32 rtw_make_wlanhdr(_adapter *padapter, u8 *hdr, struct pkt_attrib *pattrib);
++extern s32 rtw_put_snap(u8 *data, u16 h_proto);
++
++extern struct xmit_frame *rtw_alloc_xmitframe(struct xmit_priv *pxmitpriv);
++struct xmit_frame *rtw_alloc_xmitframe_ext(struct xmit_priv *pxmitpriv);
++struct xmit_frame *rtw_alloc_xmitframe_once(struct xmit_priv *pxmitpriv);
++extern s32 rtw_free_xmitframe(struct xmit_priv *pxmitpriv, struct xmit_frame *pxmitframe);
++extern void rtw_free_xmitframe_queue(struct xmit_priv *pxmitpriv, _queue *pframequeue);
++struct tx_servq *rtw_get_sta_pending(_adapter *padapter, struct sta_info *psta, sint up, u8 *ac);
++extern s32 rtw_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++extern struct xmit_frame *rtw_dequeue_xframe(struct xmit_priv *pxmitpriv, struct hw_xmit *phwxmit_i, sint entry);
++
++extern s32 rtw_xmit_classifier(_adapter *padapter, struct xmit_frame *pxmitframe);
++extern u32 rtw_calculate_wlan_pkt_size_by_attribue(struct pkt_attrib *pattrib);
++#define rtw_wlan_pkt_size(f) rtw_calculate_wlan_pkt_size_by_attribue(&f->attrib)
++extern s32 rtw_xmitframe_coalesce(_adapter *padapter, _pkt *pkt, struct xmit_frame *pxmitframe);
++#ifdef CONFIG_IEEE80211W
++extern s32 rtw_mgmt_xmitframe_coalesce(_adapter *padapter, _pkt *pkt, struct xmit_frame *pxmitframe);
++#endif /* CONFIG_IEEE80211W */
++#ifdef CONFIG_TDLS
++extern struct tdls_txmgmt *ptxmgmt;
++s32 rtw_xmit_tdls_coalesce(_adapter *padapter, struct xmit_frame *pxmitframe, struct tdls_txmgmt *ptxmgmt);
++s32 update_tdls_attrib(_adapter *padapter, struct pkt_attrib *pattrib);
++#endif
++s32 _rtw_init_hw_txqueue(struct hw_txqueue *phw_txqueue, u8 ac_tag);
++void _rtw_init_sta_xmit_priv(struct sta_xmit_priv *psta_xmitpriv);
++
++
++s32 rtw_txframes_pending(_adapter *padapter);
++s32 rtw_txframes_sta_ac_pending(_adapter *padapter, struct pkt_attrib *pattrib);
++void rtw_init_hwxmits(struct hw_xmit *phwxmit, sint entry);
++
++
++s32 _rtw_init_xmit_priv(struct xmit_priv *pxmitpriv, _adapter *padapter);
++void _rtw_free_xmit_priv(struct xmit_priv *pxmitpriv);
++
++
++void rtw_alloc_hwxmits(_adapter *padapter);
++void rtw_free_hwxmits(_adapter *padapter);
++
++s32 rtw_monitor_xmit_entry(struct sk_buff *skb, struct net_device *ndev);
++
++s32 rtw_xmit(_adapter *padapter, _pkt **pkt);
++bool xmitframe_hiq_filter(struct xmit_frame *xmitframe);
++#if defined(CONFIG_AP_MODE) || defined(CONFIG_TDLS)
++sint xmitframe_enqueue_for_sleeping_sta(_adapter *padapter, struct xmit_frame *pxmitframe);
++void stop_sta_xmit(_adapter *padapter, struct sta_info *psta);
++void wakeup_sta_to_xmit(_adapter *padapter, struct sta_info *psta);
++void xmit_delivery_enabled_frames(_adapter *padapter, struct sta_info *psta);
++#endif
++
++u8 rtw_get_tx_bw_mode(_adapter *adapter, struct sta_info *sta);
++
++void rtw_get_adapter_tx_rate_bmp_by_bw(_adapter *adapter, u8 bw, u16 *r_bmp_cck_ofdm, u32 *r_bmp_ht, u32 *r_bmp_vht);
++void rtw_update_tx_rate_bmp(struct dvobj_priv *dvobj);
++u16 rtw_get_tx_rate_bmp_cck_ofdm(struct dvobj_priv *dvobj);
++u32 rtw_get_tx_rate_bmp_ht_by_bw(struct dvobj_priv *dvobj, u8 bw);
++u32 rtw_get_tx_rate_bmp_vht_by_bw(struct dvobj_priv *dvobj, u8 bw);
++u8 rtw_get_tx_bw_bmp_of_ht_rate(struct dvobj_priv *dvobj, u8 rate, u8 max_bw);
++u8 rtw_get_tx_bw_bmp_of_vht_rate(struct dvobj_priv *dvobj, u8 rate, u8 max_bw);
++
++
++void rtw_get_adapter_tx_rate_bmp_by_bw(_adapter *adapter, u8 bw, u16 *r_bmp_cck_ofdm, u32 *r_bmp_ht, u32 *r_bmp_vht);
++void rtw_update_tx_rate_bmp(struct dvobj_priv *dvobj);
++u16 rtw_get_tx_rate_bmp_cck_ofdm(struct dvobj_priv *dvobj);
++u32 rtw_get_tx_rate_bmp_ht_by_bw(struct dvobj_priv *dvobj, u8 bw);
++u32 rtw_get_tx_rate_bmp_vht_by_bw(struct dvobj_priv *dvobj, u8 bw);
++
++u8 query_ra_short_GI(struct sta_info *psta, u8 bw);
++
++u8	qos_acm(u8 acm_mask, u8 priority);
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++void	enqueue_pending_xmitbuf(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++void enqueue_pending_xmitbuf_to_head(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++struct xmit_buf	*dequeue_pending_xmitbuf(struct xmit_priv *pxmitpriv);
++struct xmit_buf	*select_and_dequeue_pending_xmitbuf(_adapter *padapter);
++sint	check_pending_xmitbuf(struct xmit_priv *pxmitpriv);
++thread_return	rtw_xmit_thread(thread_context context);
++#endif
++
++static void do_queue_select(_adapter *padapter, struct pkt_attrib *pattrib);
++u32	rtw_get_ff_hwaddr(struct xmit_frame	*pxmitframe);
++
++#ifdef CONFIG_XMIT_ACK
++int rtw_ack_tx_wait(struct xmit_priv *pxmitpriv, u32 timeout_ms);
++void rtw_ack_tx_done(struct xmit_priv *pxmitpriv, int status);
++#endif /* CONFIG_XMIT_ACK */
++
++
++/* include after declaring struct xmit_buf, in order to avoid warning */
++#include <xmit_osdep.h>
++
++#endif /* _RTL871X_XMIT_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/sdio_hal.h b/drivers/net/wireless/rtl8723du/include/sdio_hal.h
+new file mode 100644
+index 0000000..c8f554d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/sdio_hal.h
+@@ -0,0 +1,54 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __SDIO_HAL_H__
++#define __SDIO_HAL_H__
++
++void sd_int_dpc(PADAPTER padapter);
++u8 rtw_set_hal_ops(_adapter *padapter);
++
++#ifdef CONFIG_RTL8188E
++void rtl8188es_set_hal_ops(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_RTL8723B
++void rtl8723bs_set_hal_ops(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_RTL8821A
++void rtl8821as_set_hal_ops(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_RTL8192E
++void rtl8192es_set_hal_ops(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_RTL8703B
++void rtl8703bs_set_hal_ops(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_RTL8723D
++void rtl8723ds_set_hal_ops(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_RTL8188F
++void rtl8188fs_set_hal_ops(PADAPTER padapter);
++#endif
++
++#endif /* __SDIO_HAL_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/sdio_ops.h b/drivers/net/wireless/rtl8723du/include/sdio_ops.h
+new file mode 100644
+index 0000000..827c725
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/sdio_ops.h
+@@ -0,0 +1,161 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __SDIO_OPS_H__
++#define __SDIO_OPS_H__
++
++
++/* Follow mac team suggestion, default I/O fail return value is 0xFF */
++#define SDIO_ERR_VAL8	0xFF
++#define SDIO_ERR_VAL16	0xFFFF
++#define SDIO_ERR_VAL32	0xFFFFFFFF
++
++#ifdef PLATFORM_LINUX
++#include <sdio_ops_linux.h>
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++#ifdef PLATFORM_OS_XP
++#include <sdio_ops_xp.h>
++struct async_context {
++	PMDL pmdl;
++	PSDBUS_REQUEST_PACKET sdrp;
++	unsigned char *r_buf;
++	unsigned char *padapter;
++};
++#endif
++
++#ifdef PLATFORM_OS_CE
++#include <sdio_ops_ce.h>
++#endif
++
++#endif /* PLATFORM_WINDOWS */
++
++
++extern void sdio_set_intf_ops(_adapter *padapter, struct _io_ops *pops);
++
++#if 0
++extern void sdio_func1cmd52_read(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem);
++extern void sdio_func1cmd52_write(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *wmem);
++#endif
++extern u8 SdioLocalCmd52Read1Byte(PADAPTER padapter, u32 addr);
++extern void SdioLocalCmd52Write1Byte(PADAPTER padapter, u32 addr, u8 v);
++extern s32 _sdio_local_read(PADAPTER padapter, u32 addr, u32 cnt, u8 *pbuf);
++extern s32 sdio_local_read(PADAPTER padapter, u32 addr, u32 cnt, u8 *pbuf);
++extern s32 _sdio_local_write(PADAPTER padapter, u32 addr, u32 cnt, u8 *pbuf);
++extern s32 sdio_local_write(PADAPTER padapter, u32 addr, u32 cnt, u8 *pbuf);
++
++u32 _sdio_read32(PADAPTER padapter, u32 addr);
++s32 _sdio_write32(PADAPTER padapter, u32 addr, u32 val);
++
++extern void sd_int_hdl(PADAPTER padapter);
++extern u8 CheckIPSStatus(PADAPTER padapter);
++
++#ifdef CONFIG_RTL8188E
++extern void InitInterrupt8188ESdio(PADAPTER padapter);
++extern void EnableInterrupt8188ESdio(PADAPTER padapter);
++extern void DisableInterrupt8188ESdio(PADAPTER padapter);
++extern void UpdateInterruptMask8188ESdio(PADAPTER padapter, u32 AddMSR, u32 RemoveMSR);
++extern u8 HalQueryTxBufferStatus8189ESdio(PADAPTER padapter);
++extern u8 HalQueryTxOQTBufferStatus8189ESdio(PADAPTER padapter);
++extern void ClearInterrupt8188ESdio(PADAPTER padapter);
++#endif /* CONFIG_RTL8188E */
++
++#ifdef CONFIG_RTL8821A
++extern void InitInterrupt8821AS(PADAPTER padapter);
++extern void EnableInterrupt8821AS(PADAPTER padapter);
++extern void DisableInterrupt8821AS(PADAPTER padapter);
++extern u8 HalQueryTxBufferStatus8821AS(PADAPTER padapter);
++extern u8 HalQueryTxOQTBufferStatus8821ASdio(PADAPTER padapter);
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++void ClearInterrupt8821AS(PADAPTER padapter);
++#endif /* defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN) */
++#endif /* CONFIG_RTL8821A */
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++#ifdef CONFIG_RTL8821C
++u8 rtw_hal_enable_cpwm2(_adapter *adapter);
++#endif
++extern u8 RecvOnePkt(PADAPTER padapter, u32 size);
++#endif /* CONFIG_WOWLAN */
++#ifdef CONFIG_RTL8723B
++extern void InitInterrupt8723BSdio(PADAPTER padapter);
++extern void InitSysInterrupt8723BSdio(PADAPTER padapter);
++extern void EnableInterrupt8723BSdio(PADAPTER padapter);
++extern void DisableInterrupt8723BSdio(PADAPTER padapter);
++extern u8 HalQueryTxBufferStatus8723BSdio(PADAPTER padapter);
++extern u8 HalQueryTxOQTBufferStatus8723BSdio(PADAPTER padapter);
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++extern void DisableInterruptButCpwm28723BSdio(PADAPTER padapter);
++extern void ClearInterrupt8723BSdio(PADAPTER padapter);
++#endif /* CONFIG_WOWLAN */
++#endif
++
++
++#ifdef CONFIG_RTL8192E
++extern void InitInterrupt8192ESdio(PADAPTER padapter);
++extern void EnableInterrupt8192ESdio(PADAPTER padapter);
++extern void DisableInterrupt8192ESdio(PADAPTER padapter);
++extern void UpdateInterruptMask8192ESdio(PADAPTER padapter, u32 AddMSR, u32 RemoveMSR);
++extern u8 HalQueryTxBufferStatus8192ESdio(PADAPTER padapter);
++extern u8 HalQueryTxOQTBufferStatus8192ESdio(PADAPTER padapter);
++extern void ClearInterrupt8192ESdio(PADAPTER padapter);
++#endif /* CONFIG_RTL8192E */
++
++#ifdef CONFIG_RTL8703B
++extern void InitInterrupt8703BSdio(PADAPTER padapter);
++extern void InitSysInterrupt8703BSdio(PADAPTER padapter);
++extern void EnableInterrupt8703BSdio(PADAPTER padapter);
++extern void DisableInterrupt8703BSdio(PADAPTER padapter);
++extern u8 HalQueryTxBufferStatus8703BSdio(PADAPTER padapter);
++extern u8 HalQueryTxOQTBufferStatus8703BSdio(PADAPTER padapter);
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++extern void DisableInterruptButCpwm28703BSdio(PADAPTER padapter);
++extern void ClearInterrupt8703BSdio(PADAPTER padapter);
++#endif /* CONFIG_WOWLAN */
++#endif
++
++#ifdef CONFIG_RTL8723D
++extern void InitInterrupt8723DSdio(PADAPTER padapter);
++extern void InitSysInterrupt8723DSdio(PADAPTER padapter);
++extern void EnableInterrupt8723DSdio(PADAPTER padapter);
++extern void DisableInterrupt8723DSdio(PADAPTER padapter);
++extern u8 HalQueryTxBufferStatus8723DSdio(PADAPTER padapter);
++extern u8 HalQueryTxOQTBufferStatus8723DSdio(PADAPTER padapter);
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++extern void DisableInterruptButCpwm28723dSdio(PADAPTER padapter);
++extern void ClearInterrupt8723DSdio(PADAPTER padapter);
++#endif /* CONFIG_WOWLAN */
++#endif
++
++#ifdef CONFIG_RTL8188F
++extern void InitInterrupt8188FSdio(PADAPTER padapter);
++extern void InitSysInterrupt8188FSdio(PADAPTER padapter);
++extern void EnableInterrupt8188FSdio(PADAPTER padapter);
++extern void DisableInterrupt8188FSdio(PADAPTER padapter);
++extern u8 HalQueryTxBufferStatus8188FSdio(PADAPTER padapter);
++extern u8 HalQueryTxOQTBufferStatus8188FSdio(PADAPTER padapter);
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++extern void DisableInterruptButCpwm28188FSdio(PADAPTER padapter);
++extern void ClearInterrupt8188FSdio(PADAPTER padapter);
++#endif /* defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN) */
++#endif
++
++#endif /* !__SDIO_OPS_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/sdio_ops_ce.h b/drivers/net/wireless/rtl8723du/include/sdio_ops_ce.h
+new file mode 100644
+index 0000000..59ca381
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/sdio_ops_ce.h
+@@ -0,0 +1,54 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _SDIO_OPS_WINCE_H_
++#define _SDIO_OPS_WINCE_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <osdep_intf.h>
++
++
++#ifdef PLATFORM_OS_CE
++
++
++extern u8 sdbus_cmd52r_ce(struct intf_priv *pintfpriv, u32 addr);
++
++
++extern void sdbus_cmd52w_ce(struct intf_priv *pintfpriv, u32 addr, u8 val8);
++
++
++uint sdbus_read_blocks_to_membuf_ce(struct intf_priv *pintfpriv, u32 addr, u32 cnt, u8 *pbuf);
++
++extern uint sdbus_read_bytes_to_membuf_ce(struct intf_priv *pintfpriv, u32 addr, u32 cnt, u8 *pbuf);
++
++
++extern uint sdbus_write_blocks_from_membuf_ce(struct intf_priv *pintfpriv, u32 addr, u32 cnt, u8 *pbuf, u8 async);
++
++extern uint sdbus_write_bytes_from_membuf_ce(struct intf_priv *pintfpriv, u32 addr, u32 cnt, u8 *pbuf);
++extern u8 sdbus_func1cmd52r_ce(struct intf_priv *pintfpriv, u32 addr);
++extern void sdbus_func1cmd52w_ce(struct intf_priv *pintfpriv, u32 addr, u8 val8);
++extern uint sdbus_read_reg(struct intf_priv *pintfpriv, u32 addr, u32 cnt, void *pdata);
++extern uint sdbus_write_reg(struct intf_priv *pintfpriv, u32 addr, u32 cnt, void *pdata);
++extern void sdio_read_int(_adapter *padapter, u32 addr, u8 sz, void *pdata);
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/sdio_ops_linux.h b/drivers/net/wireless/rtl8723du/include/sdio_ops_linux.h
+new file mode 100644
+index 0000000..46c3ddc
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/sdio_ops_linux.h
+@@ -0,0 +1,53 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __SDIO_OPS_LINUX_H__
++#define __SDIO_OPS_LINUX_H__
++
++#ifndef RTW_HALMAC
++u8 sd_f0_read8(struct intf_hdl *pintfhdl, u32 addr, s32 *err);
++void sd_f0_write8(struct intf_hdl *pintfhdl, u32 addr, u8 v, s32 *err);
++
++s32 _sd_cmd52_read(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pdata);
++s32 _sd_cmd52_write(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pdata);
++s32 sd_cmd52_read(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pdata);
++s32 sd_cmd52_write(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pdata);
++
++u8 _sd_read8(struct intf_hdl *pintfhdl, u32 addr, s32 *err);
++u8 sd_read8(struct intf_hdl *pintfhdl, u32 addr, s32 *err);
++u16 sd_read16(struct intf_hdl *pintfhdl, u32 addr, s32 *err);
++u32 _sd_read32(struct intf_hdl *pintfhdl, u32 addr, s32 *err);
++u32 sd_read32(struct intf_hdl *pintfhdl, u32 addr, s32 *err);
++void sd_write8(struct intf_hdl *pintfhdl, u32 addr, u8 v, s32 *err);
++void sd_write16(struct intf_hdl *pintfhdl, u32 addr, u16 v, s32 *err);
++void _sd_write32(struct intf_hdl *pintfhdl, u32 addr, u32 v, s32 *err);
++void sd_write32(struct intf_hdl *pintfhdl, u32 addr, u32 v, s32 *err);
++#endif /* RTW_HALMAC */
++
++s32 _sd_read(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, void *pdata);
++s32 sd_read(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, void *pdata);
++s32 _sd_write(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, void *pdata);
++s32 sd_write(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, void *pdata);
++
++void rtw_sdio_set_irq_thd(struct dvobj_priv *dvobj, _thread_hdl_ thd_hdl);
++int __must_check rtw_sdio_raw_read(struct dvobj_priv *d, int addr,
++				void *buf, size_t len, bool fixed);
++int __must_check rtw_sdio_raw_write(struct dvobj_priv *d, int addr,
++				void *buf, size_t len, bool fixed);
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/sdio_ops_xp.h b/drivers/net/wireless/rtl8723du/include/sdio_ops_xp.h
+new file mode 100644
+index 0000000..5020365
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/sdio_ops_xp.h
+@@ -0,0 +1,54 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _SDIO_OPS_XP_H_
++#define _SDIO_OPS_XP_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <osdep_intf.h>
++
++
++#ifdef PLATFORM_OS_XP
++
++
++extern u8 sdbus_cmd52r_xp(struct intf_priv *pintfpriv, u32 addr);
++
++
++extern void sdbus_cmd52w_xp(struct intf_priv *pintfpriv, u32 addr, u8 val8);
++
++
++uint sdbus_read_blocks_to_membuf_xp(struct intf_priv *pintfpriv, u32 addr, u32 cnt, u8 *pbuf);
++
++extern uint sdbus_read_bytes_to_membuf_xp(struct intf_priv *pintfpriv, u32 addr, u32 cnt, u8 *pbuf);
++
++
++extern uint sdbus_write_blocks_from_membuf_xp(struct intf_priv *pintfpriv, u32 addr, u32 cnt, u8 *pbuf, u8 async);
++
++extern uint sdbus_write_bytes_from_membuf_xp(struct intf_priv *pintfpriv, u32 addr, u32 cnt, u8 *pbuf);
++extern u8 sdbus_func1cmd52r_xp(struct intf_priv *pintfpriv, u32 addr);
++extern void sdbus_func1cmd52w_xp(struct intf_priv *pintfpriv, u32 addr, u8 val8);
++extern uint sdbus_read_reg(struct intf_priv *pintfpriv, u32 addr, u32 cnt, void *pdata);
++extern uint sdbus_write_reg(struct intf_priv *pintfpriv, u32 addr, u32 cnt, void *pdata);
++extern void sdio_read_int(_adapter *padapter, u32 addr, u8 sz, void *pdata);
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/sdio_osintf.h b/drivers/net/wireless/rtl8723du/include/sdio_osintf.h
+new file mode 100644
+index 0000000..d2906bd
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/sdio_osintf.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __SDIO_OSINTF_H__
++#define __SDIO_OSINTF_H__
++
++
++#ifdef PLATFORM_OS_CE
++extern NDIS_STATUS ce_sd_get_dev_hdl(PADAPTER padapter);
++SD_API_STATUS ce_sd_int_callback(SD_DEVICE_HANDLE hDevice, PADAPTER padapter);
++extern void sd_setup_irs(PADAPTER padapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/sta_info.h b/drivers/net/wireless/rtl8723du/include/sta_info.h
+new file mode 100644
+index 0000000..b8d60c9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/sta_info.h
+@@ -0,0 +1,628 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __STA_INFO_H_
++#define __STA_INFO_H_
++
++
++#define IBSS_START_MAC_ID	2
++#define NUM_STA MACID_NUM_SW_LIMIT
++
++#ifndef CONFIG_RTW_MACADDR_ACL
++	#define CONFIG_RTW_MACADDR_ACL 1
++#endif
++#define NUM_ACL 16
++#define RTW_ACL_MODE_DISABLED				0
++#define RTW_ACL_MODE_ACCEPT_UNLESS_LISTED	1
++#define RTW_ACL_MODE_DENY_UNLESS_LISTED		2
++#define RTW_ACL_MODE_MAX					3
++
++#if CONFIG_RTW_MACADDR_ACL
++extern const char *const _acl_mode_str[];
++#define acl_mode_str(mode) (((mode) >= RTW_ACL_MODE_MAX) ? _acl_mode_str[RTW_ACL_MODE_DISABLED] : _acl_mode_str[(mode)])
++#endif
++
++#ifdef CONFIG_TDLS
++#define MAX_ALLOWED_TDLS_STA_NUM	4
++#endif
++
++enum sta_info_update_type {
++	STA_INFO_UPDATE_NONE = 0,
++	STA_INFO_UPDATE_BW = BIT(0),
++	STA_INFO_UPDATE_RATE = BIT(1),
++	STA_INFO_UPDATE_PROTECTION_MODE = BIT(2),
++	STA_INFO_UPDATE_CAP = BIT(3),
++	STA_INFO_UPDATE_HT_CAP = BIT(4),
++	STA_INFO_UPDATE_VHT_CAP = BIT(5),
++	STA_INFO_UPDATE_ALL = STA_INFO_UPDATE_BW
++			      | STA_INFO_UPDATE_RATE
++			      | STA_INFO_UPDATE_PROTECTION_MODE
++			      | STA_INFO_UPDATE_CAP
++			      | STA_INFO_UPDATE_HT_CAP
++			      | STA_INFO_UPDATE_VHT_CAP,
++	STA_INFO_UPDATE_MAX
++};
++
++struct rtw_wlan_acl_node {
++	_list		        list;
++	u8       addr[ETH_ALEN];
++	u8       valid;
++};
++
++struct wlan_acl_pool {
++	int mode;
++	int num;
++	struct rtw_wlan_acl_node aclnode[NUM_ACL];
++	_queue	acl_node_q;
++};
++
++typedef struct _RSSI_STA {
++	s32	UndecoratedSmoothedPWDB;
++	s32	UndecoratedSmoothedCCK;
++	s32	UndecoratedSmoothedOFDM;
++	u8	OFDM_pkt;
++	u8	CCK_pkt;
++	u16	CCK_sum_power;
++	u8	bsend_rssi;
++	u64	PacketMap;
++	u8	ValidBit;
++} RSSI_STA, *PRSSI_STA;
++
++struct	stainfo_stats	{
++
++	u64 rx_mgnt_pkts;
++		u64 rx_beacon_pkts;
++		u64 rx_probereq_pkts;
++		u64 rx_probersp_pkts;
++		u64 rx_probersp_bm_pkts;
++		u64 rx_probersp_uo_pkts;
++	u64 rx_ctrl_pkts;
++	u64 rx_data_pkts;
++	u64 rx_data_qos_pkts[TID_NUM];
++	u64	last_rx_mgnt_pkts;
++		u64 last_rx_beacon_pkts;
++		u64 last_rx_probereq_pkts;
++		u64 last_rx_probersp_pkts;
++		u64 last_rx_probersp_bm_pkts;
++		u64 last_rx_probersp_uo_pkts;
++	u64	last_rx_ctrl_pkts;
++	u64	last_rx_data_pkts;
++	u64 last_rx_data_qos_pkts[TID_NUM];
++#ifdef CONFIG_TDLS
++	u64 rx_tdls_disc_rsp_pkts;
++	u64 last_rx_tdls_disc_rsp_pkts;
++#endif
++	u64	rx_bytes;
++	u64	rx_drops;
++
++	u64	tx_pkts;
++	u64	tx_bytes;
++	u64  tx_drops;
++};
++
++#ifndef DBG_SESSION_TRACKER
++#define DBG_SESSION_TRACKER 0
++#endif
++
++/* session tracker status */
++#define ST_STATUS_NONE		0
++#define ST_STATUS_CHECK		BIT0
++#define ST_STATUS_ESTABLISH	BIT1
++#define ST_STATUS_EXPIRE	BIT2
++
++#define ST_EXPIRE_MS (10 * 1000)
++
++struct session_tracker {
++	_list list; /* session_tracker_queue */
++	u32 local_naddr;
++	u16 local_port;
++	u32 remote_naddr;
++	u16 remote_port;
++	u32 set_time;
++	u8 status;
++};
++
++/* session tracker cmd */
++#define ST_CMD_ADD 0
++#define ST_CMD_DEL 1
++#define ST_CMD_CHK 2
++
++struct st_cmd_parm {
++	u8 cmd;
++	struct sta_info *sta;
++	u32 local_naddr; /* TODO: IPV6 */
++	u16 local_port;
++	u32 remote_naddr; /* TODO: IPV6 */
++	u16 remote_port;
++};
++
++typedef bool (*st_match_rule)(_adapter *adapter, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port);
++
++struct st_register {
++	u8 s_proto;
++	st_match_rule rule;
++};
++
++#define SESSION_TRACKER_REG_ID_WFD 0
++#define SESSION_TRACKER_REG_ID_NUM 1
++
++struct st_ctl_t {
++	struct st_register reg[SESSION_TRACKER_REG_ID_NUM];
++	_queue tracker_q;
++};
++
++void rtw_st_ctl_init(struct st_ctl_t *st_ctl);
++void rtw_st_ctl_deinit(struct st_ctl_t *st_ctl);
++void rtw_st_ctl_register(struct st_ctl_t *st_ctl, u8 st_reg_id, struct st_register *reg);
++void rtw_st_ctl_unregister(struct st_ctl_t *st_ctl, u8 st_reg_id);
++bool rtw_st_ctl_chk_reg_s_proto(struct st_ctl_t *st_ctl, u8 s_proto);
++bool rtw_st_ctl_chk_reg_rule(struct st_ctl_t *st_ctl, _adapter *adapter, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port);
++void dump_st_ctl(void *sel, struct st_ctl_t *st_ctl);
++
++#ifdef CONFIG_TDLS
++struct TDLS_PeerKey {
++	u8 kck[16]; /* TPK-KCK */
++	u8 tk[16]; /* TPK-TK; only CCMP will be used */
++} ;
++#endif /* CONFIG_TDLS */
++
++#ifdef DBG_RX_DFRAME_RAW_DATA
++struct sta_recv_dframe_info {
++
++	u8 sta_data_rate;
++	u8 sta_sgi;
++	u8 sta_bw_mode;
++	s8 sta_mimo_signal_strength[4];
++	s8 sta_RxPwr[4];
++	u8 sta_ofdm_snr[4];
++};
++#endif
++
++struct sta_info {
++
++	_lock	lock;
++	_list	list; /* free_sta_queue */
++	_list	hash_list; /* sta_hash */
++	/* _list asoc_list; */ /* 20061114 */
++	/* _list sleep_list; */ /* sleep_q */
++	/* _list wakeup_list; */ /* wakeup_q */
++	_adapter *padapter;
++
++	struct sta_xmit_priv sta_xmitpriv;
++	struct sta_recv_priv sta_recvpriv;
++
++#ifdef DBG_RX_DFRAME_RAW_DATA
++	struct sta_recv_dframe_info  sta_dframe_info;
++#endif
++	_queue sleep_q;
++	unsigned int sleepq_len;
++
++	uint state;
++	uint aid;
++	uint mac_id;
++	uint qos_option;
++	u8	hwaddr[ETH_ALEN];
++	u16 hwseq;
++	u8	ra_rpt_linked;
++
++	uint	ieee8021x_blocked;	/* 0: allowed, 1:blocked */
++	uint	dot118021XPrivacy; /* aes, tkip... */
++	union Keytype	dot11tkiptxmickey;
++	union Keytype	dot11tkiprxmickey;
++	union Keytype	dot118021x_UncstKey;
++	union pn48		dot11txpn;			/* PN48 used for Unicast xmit */
++#ifdef CONFIG_GTK_OL
++	u8 kek[RTW_KEK_LEN];
++	u8 kck[RTW_KCK_LEN];
++	u8 replay_ctr[RTW_REPLAY_CTR_LEN];
++#endif /* CONFIG_GTK_OL */
++#ifdef CONFIG_IEEE80211W
++	union pn48		dot11wtxpn;			/* PN48 used for Unicast mgmt xmit. */
++	_timer dot11w_expire_timer;
++#endif /* CONFIG_IEEE80211W */
++	union pn48		dot11rxpn;			/* PN48 used for Unicast recv. */
++
++
++	u8	bssrateset[16];
++	u32	bssratelen;
++	s32  rssi;
++	s32	signal_quality;
++
++	u8	cts2self;
++	u8	rtsen;
++
++	u8	raid;
++	u8	init_rate;
++	u64	ra_mask;
++	u8	wireless_mode;	/* NETWORK_TYPE */
++	u8	bw_mode;
++
++	u8	ldpc;
++	u8	stbc;
++
++#ifdef CONFIG_BEAMFORMING
++	u16 txbf_paid;
++	u16 txbf_gid;
++#endif
++
++	struct stainfo_stats sta_stats;
++
++#ifdef CONFIG_TDLS
++	u32	tdls_sta_state;
++	u8	SNonce[32];
++	u8	ANonce[32];
++	u32	TDLS_PeerKey_Lifetime;
++	u32	TPK_count;
++	_timer	TPK_timer;
++	struct TDLS_PeerKey	tpk;
++#ifdef CONFIG_TDLS_CH_SW
++	u16	ch_switch_time;
++	u16	ch_switch_timeout;
++	/* u8	option; */
++	_timer	ch_sw_timer;
++	_timer	delay_timer;
++	_timer	stay_on_base_chnl_timer;
++	_timer	ch_sw_monitor_timer;
++#endif
++	_timer handshake_timer;
++	u8 alive_count;
++	_timer	pti_timer;
++	u8	TDLS_RSNIE[20];	/* Save peer's RSNIE, used for sending TDLS_SETUP_RSP */
++#endif /* CONFIG_TDLS */
++
++	/* for A-MPDU TX, ADDBA timeout check	 */
++	_timer addba_retry_timer;
++
++	/* for A-MPDU Rx reordering buffer control */
++	struct recv_reorder_ctrl recvreorder_ctrl[TID_NUM];
++	ATOMIC_T continual_no_rx_packet[TID_NUM];
++	/* for A-MPDU Tx */
++	/* unsigned char		ampdu_txen_bitmap; */
++	u16	BA_starting_seqctrl[16];
++
++
++#ifdef CONFIG_80211N_HT
++	struct ht_priv	htpriv;
++#endif
++
++#ifdef CONFIG_80211AC_VHT
++	struct vht_priv	vhtpriv;
++#endif
++
++	/* Notes:	 */
++	/* STA_Mode: */
++	/* curr_network(mlme_priv/security_priv/qos/ht) + sta_info: (STA & AP) CAP/INFO	 */
++	/* scan_q: AP CAP/INFO */
++
++	/* AP_Mode: */
++	/* curr_network(mlme_priv/security_priv/qos/ht) : AP CAP/INFO */
++	/* sta_info: (AP & STA) CAP/INFO */
++
++	unsigned int expire_to;
++
++#ifdef CONFIG_AP_MODE
++
++	_list asoc_list;
++	_list auth_list;
++
++	unsigned int auth_seq;
++	unsigned int authalg;
++	unsigned char chg_txt[128];
++
++	u16 capability;
++	int flags;
++
++	int dot8021xalg;/* 0:disable, 1:psk, 2:802.1x */
++	int wpa_psk;/* 0:disable, bit(0): WPA, bit(1):WPA2 */
++	int wpa_group_cipher;
++	int wpa2_group_cipher;
++	int wpa_pairwise_cipher;
++	int wpa2_pairwise_cipher;
++
++	u8 bpairwise_key_installed;
++#ifdef CONFIG_RTW_80211R
++	u8 ft_pairwise_key_installed;
++#endif
++
++#ifdef CONFIG_NATIVEAP_MLME
++	u8 wpa_ie[32];
++
++	u8 nonerp_set;
++	u8 no_short_slot_time_set;
++	u8 no_short_preamble_set;
++	u8 no_ht_gf_set;
++	u8 no_ht_set;
++	u8 ht_20mhz_set;
++	u8 ht_40mhz_intolerant;
++#endif /* CONFIG_NATIVEAP_MLME */
++
++#ifdef CONFIG_ATMEL_RC_PATCH
++	u8 flag_atmel_rc;
++#endif
++
++	u8 qos_info;
++
++	u8 max_sp_len;
++	u8 uapsd_bk;/* BIT(0): Delivery enabled, BIT(1): Trigger enabled */
++	u8 uapsd_be;
++	u8 uapsd_vi;
++	u8 uapsd_vo;
++
++	u8 has_legacy_ac;
++	unsigned int sleepq_ac_len;
++
++#ifdef CONFIG_P2P
++	/* p2p priv data */
++	u8 is_p2p_device;
++	u8 p2p_status_code;
++
++	/* p2p client info */
++	u8 dev_addr[ETH_ALEN];
++	/* u8 iface_addr[ETH_ALEN]; */ /* = hwaddr[ETH_ALEN] */
++	u8 dev_cap;
++	u16 config_methods;
++	u8 primary_dev_type[8];
++	u8 num_of_secdev_type;
++	u8 secdev_types_list[32];/* 32/8 == 4; */
++	u16 dev_name_len;
++	u8 dev_name[32];
++#endif /* CONFIG_P2P */
++
++#ifdef CONFIG_WFD
++	u8 op_wfd_mode;
++#endif
++
++#ifdef CONFIG_TX_MCAST2UNI
++	u8 under_exist_checking;
++#endif /* CONFIG_TX_MCAST2UNI */
++
++	u8 keep_alive_trycnt;
++
++#ifdef CONFIG_AUTO_AP_MODE
++	u8 isrc; /* this device is rc */
++	u16 pid; /* pairing id */
++#endif
++
++#endif /* CONFIG_AP_MODE	 */
++
++#ifdef CONFIG_IOCTL_CFG80211
++	u8 *passoc_req;
++	u32 assoc_req_len;
++#endif
++
++	/* for DM */
++	RSSI_STA	 rssi_stat;
++
++	/* ODM_STA_INFO_T */
++	/* ================ODM Relative Info======================= */
++	/* Please be care, dont declare too much structure here. It will cost memory * STA support num. */
++	/*  */
++	/*  */
++	/* 2011/10/20 MH Add for ODM STA info.	 */
++	/*  */
++	/* Driver Write */
++	u8		bValid;				/* record the sta status link or not? */
++	/* u8		WirelessMode;		 */ /* */
++	u8		IOTPeer;			/* Enum value.	HT_IOT_PEER_E */
++	/* ODM Write */
++	/* 1 PHY_STATUS_INFO */
++	u8		RSSI_Path[4];		/*  */
++	u8		RSSI_Ave;
++	u8		RXEVM[4];
++	u8		RXSNR[4];
++
++	u8		rssi_level;			/* for Refresh RA mask */
++	/* ODM Write */
++	/* 1 TX_INFO (may changed by IC) */
++	/* TX_INFO_T		pTxInfo;				 */ /* Define in IC folder. Move lower layer. */
++	/*  */
++	/* ================ODM Relative Info======================= */
++	/*  */
++
++	/* To store the sequence number of received management frame */
++	u16 RxMgmtFrameSeqNum;
++
++	struct st_ctl_t st_ctl;
++};
++
++#define sta_rx_pkts(sta) \
++	(sta->sta_stats.rx_mgnt_pkts \
++	 + sta->sta_stats.rx_ctrl_pkts \
++	 + sta->sta_stats.rx_data_pkts)
++
++#define sta_last_rx_pkts(sta) \
++	(sta->sta_stats.last_rx_mgnt_pkts \
++	 + sta->sta_stats.last_rx_ctrl_pkts \
++	 + sta->sta_stats.last_rx_data_pkts)
++
++#define sta_rx_data_pkts(sta) \
++	(sta->sta_stats.rx_data_pkts)
++
++#define sta_rx_data_qos_pkts(sta, i) \
++	(sta->sta_stats.rx_data_qos_pkts[i])
++
++#define sta_last_rx_data_pkts(sta) \
++	(sta->sta_stats.last_rx_data_pkts)
++
++#define sta_last_rx_data_qos_pkts(sta, i) \
++	(sta->sta_stats.last_rx_data_qos_pkts[i])
++
++#define sta_rx_mgnt_pkts(sta) \
++	(sta->sta_stats.rx_mgnt_pkts)
++
++#define sta_last_rx_mgnt_pkts(sta) \
++	(sta->sta_stats.last_rx_mgnt_pkts)
++
++#define sta_rx_beacon_pkts(sta) \
++	(sta->sta_stats.rx_beacon_pkts)
++
++#define sta_last_rx_beacon_pkts(sta) \
++	(sta->sta_stats.last_rx_beacon_pkts)
++
++#define sta_rx_probereq_pkts(sta) \
++	(sta->sta_stats.rx_probereq_pkts)
++
++#define sta_last_rx_probereq_pkts(sta) \
++	(sta->sta_stats.last_rx_probereq_pkts)
++
++#define sta_rx_probersp_pkts(sta) \
++	(sta->sta_stats.rx_probersp_pkts)
++
++#define sta_last_rx_probersp_pkts(sta) \
++	(sta->sta_stats.last_rx_probersp_pkts)
++
++#define sta_rx_probersp_bm_pkts(sta) \
++	(sta->sta_stats.rx_probersp_bm_pkts)
++
++#define sta_last_rx_probersp_bm_pkts(sta) \
++	(sta->sta_stats.last_rx_probersp_bm_pkts)
++
++#define sta_rx_probersp_uo_pkts(sta) \
++	(sta->sta_stats.rx_probersp_uo_pkts)
++
++#define sta_last_rx_probersp_uo_pkts(sta) \
++	(sta->sta_stats.last_rx_probersp_uo_pkts)
++
++#define sta_update_last_rx_pkts(sta) \
++	do { \
++		sta->sta_stats.last_rx_mgnt_pkts = sta->sta_stats.rx_mgnt_pkts; \
++		sta->sta_stats.last_rx_beacon_pkts = sta->sta_stats.rx_beacon_pkts; \
++		sta->sta_stats.last_rx_probereq_pkts = sta->sta_stats.rx_probereq_pkts; \
++		sta->sta_stats.last_rx_probersp_pkts = sta->sta_stats.rx_probersp_pkts; \
++		sta->sta_stats.last_rx_probersp_bm_pkts = sta->sta_stats.rx_probersp_bm_pkts; \
++		sta->sta_stats.last_rx_probersp_uo_pkts = sta->sta_stats.rx_probersp_uo_pkts; \
++		sta->sta_stats.last_rx_ctrl_pkts = sta->sta_stats.rx_ctrl_pkts; \
++		sta->sta_stats.last_rx_data_pkts = sta->sta_stats.rx_data_pkts; \
++	} while (0)
++
++#define STA_RX_PKTS_ARG(sta) \
++	sta->sta_stats.rx_mgnt_pkts \
++	, sta->sta_stats.rx_ctrl_pkts \
++	, sta->sta_stats.rx_data_pkts
++
++#define STA_LAST_RX_PKTS_ARG(sta) \
++	sta->sta_stats.last_rx_mgnt_pkts \
++	, sta->sta_stats.last_rx_ctrl_pkts \
++	, sta->sta_stats.last_rx_data_pkts
++
++#define STA_RX_PKTS_DIFF_ARG(sta) \
++	sta->sta_stats.rx_mgnt_pkts - sta->sta_stats.last_rx_mgnt_pkts \
++	, sta->sta_stats.rx_ctrl_pkts - sta->sta_stats.last_rx_ctrl_pkts \
++	, sta->sta_stats.rx_data_pkts - sta->sta_stats.last_rx_data_pkts
++
++#define STA_PKTS_FMT "(m:%llu, c:%llu, d:%llu)"
++
++#ifdef CONFIG_WFD
++#define STA_OP_WFD_MODE(sta) (sta)->op_wfd_mode
++#define STA_SET_OP_WFD_MODE(sta, mode) (sta)->op_wfd_mode = (mode)
++#else
++#define STA_OP_WFD_MODE(sta) 0
++#define STA_SET_OP_WFD_MODE(sta, mode) do {} while (0)
++#endif
++
++struct	sta_priv {
++
++	u8 *pallocated_stainfo_buf;
++	u8 *pstainfo_buf;
++	_queue	free_sta_queue;
++
++	_lock sta_hash_lock;
++	_list   sta_hash[NUM_STA];
++	int asoc_sta_count;
++	_queue sleep_q;
++	_queue wakeup_q;
++
++	_adapter *padapter;
++
++	u32 adhoc_expire_to;
++
++#ifdef CONFIG_AP_MODE
++	_list asoc_list;
++	_list auth_list;
++	_lock asoc_list_lock;
++	_lock auth_list_lock;
++	u8 asoc_list_cnt;
++	u8 auth_list_cnt;
++
++	unsigned int auth_to;  /* sec, time to expire in authenticating. */
++	unsigned int assoc_to; /* sec, time to expire before associating. */
++	unsigned int expire_to; /* sec , time to expire after associated. */
++
++	/* pointers to STA info; based on allocated AID or NULL if AID free
++	 * AID is in the range 1-2007, so sta_aid[0] corresponders to AID 1
++	 * and so on
++	 */
++	struct sta_info *sta_aid[NUM_STA];
++
++	u16 sta_dz_bitmap;/* only support 15 stations, staion aid bitmap for sleeping sta. */
++	u16 tim_bitmap;/* only support 15 stations, aid=0~15 mapping bit0~bit15	 */
++
++	u16 max_num_sta;
++
++#if CONFIG_RTW_MACADDR_ACL
++	struct wlan_acl_pool acl_list;
++#endif
++
++#endif
++
++#ifdef CONFIG_ATMEL_RC_PATCH
++	u8 atmel_rc_pattern[6];
++#endif
++
++};
++
++
++__inline static u32 wifi_mac_hash(u8 *mac)
++{
++	u32 x;
++
++	x = mac[0];
++	x = (x << 2) ^ mac[1];
++	x = (x << 2) ^ mac[2];
++	x = (x << 2) ^ mac[3];
++	x = (x << 2) ^ mac[4];
++	x = (x << 2) ^ mac[5];
++
++	x ^= x >> 8;
++	x  = x & (NUM_STA - 1);
++
++	return x;
++}
++
++
++extern u32	_rtw_init_sta_priv(struct sta_priv *pstapriv);
++extern u32	_rtw_free_sta_priv(struct sta_priv *pstapriv);
++
++#define stainfo_offset_valid(offset) (offset < NUM_STA && offset >= 0)
++int rtw_stainfo_offset(struct sta_priv *stapriv, struct sta_info *sta);
++struct sta_info *rtw_get_stainfo_by_offset(struct sta_priv *stapriv, int offset);
++
++extern struct sta_info *rtw_alloc_stainfo(struct	sta_priv *pstapriv, u8 *hwaddr);
++extern u32	rtw_free_stainfo(_adapter *padapter , struct sta_info *psta);
++extern void rtw_free_all_stainfo(_adapter *padapter);
++extern struct sta_info *rtw_get_stainfo(struct sta_priv *pstapriv, u8 *hwaddr);
++extern u32 rtw_init_bcmc_stainfo(_adapter *padapter);
++extern struct sta_info *rtw_get_bcmc_stainfo(_adapter *padapter);
++
++#if CONFIG_RTW_MACADDR_ACL
++extern u8 rtw_access_ctrl(_adapter *adapter, u8 *mac_addr);
++void dump_macaddr_acl(void *sel, _adapter *adapter);
++#endif
++
++#endif /* _STA_INFO_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/usb_hal.h b/drivers/net/wireless/rtl8723du/include/usb_hal.h
+new file mode 100644
+index 0000000..7e556e4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/usb_hal.h
+@@ -0,0 +1,67 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __USB_HAL_H__
++#define __USB_HAL_H__
++
++int usb_init_recv_priv(_adapter *padapter, u16 ini_in_buf_sz);
++void usb_free_recv_priv(_adapter *padapter, u16 ini_in_buf_sz);
++#ifdef CONFIG_FW_C2H_REG
++void usb_c2h_hisr_hdl(_adapter *adapter, u8 *buf);
++#endif
++
++u8 rtw_set_hal_ops(_adapter *padapter);
++
++#ifdef CONFIG_RTL8188E
++void rtl8188eu_set_hal_ops(_adapter *padapter);
++#endif
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++void rtl8812au_set_hal_ops(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_RTL8192E
++void rtl8192eu_set_hal_ops(_adapter *padapter);
++#endif
++
++
++#ifdef CONFIG_RTL8723B
++void rtl8723bu_set_hal_ops(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_RTL8814A
++void rtl8814au_set_hal_ops(_adapter *padapter);
++#endif /* CONFIG_RTL8814A */
++
++#ifdef CONFIG_RTL8188F
++void rtl8188fu_set_hal_ops(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_RTL8703B
++void rtl8703bu_set_hal_ops(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_RTL8723D
++void rtl8723du_set_hal_ops(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_INTEL_PROXIM
++extern _adapter  *rtw_usb_get_sw_pointer(void);
++#endif /* CONFIG_INTEL_PROXIM */
++#endif /* __USB_HAL_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/include/usb_ops.h b/drivers/net/wireless/rtl8723du/include/usb_ops.h
+new file mode 100644
+index 0000000..350a675
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/usb_ops.h
+@@ -0,0 +1,133 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __USB_OPS_H_
++#define __USB_OPS_H_
++
++
++#define REALTEK_USB_VENQT_READ		0xC0
++#define REALTEK_USB_VENQT_WRITE	0x40
++#define REALTEK_USB_VENQT_CMD_REQ	0x05
++#define REALTEK_USB_VENQT_CMD_IDX	0x00
++#define REALTEK_USB_IN_INT_EP_IDX	1
++
++enum {
++	VENDOR_WRITE = 0x00,
++	VENDOR_READ = 0x01,
++};
++#define ALIGNMENT_UNIT				16
++#define MAX_VENDOR_REQ_CMD_SIZE	254		/* 8188cu SIE Support */
++#define MAX_USB_IO_CTL_SIZE		(MAX_VENDOR_REQ_CMD_SIZE + ALIGNMENT_UNIT)
++
++#ifdef PLATFORM_LINUX
++#include <usb_ops_linux.h>
++#endif /* PLATFORM_LINUX */
++
++#ifdef CONFIG_RTL8188E
++void rtl8188eu_set_hw_type(struct dvobj_priv *pdvobj);
++#ifdef CONFIG_SUPPORT_USB_INT
++void interrupt_handler_8188eu(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif
++#endif
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++void rtl8812au_set_hw_type(struct dvobj_priv *pdvobj);
++#ifdef CONFIG_SUPPORT_USB_INT
++void interrupt_handler_8812au(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif
++#endif
++
++#ifdef CONFIG_RTL8814A
++void rtl8814au_set_hw_type(struct dvobj_priv *pdvobj);
++#ifdef CONFIG_SUPPORT_USB_INT
++void interrupt_handler_8814au(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif
++#endif /* CONFIG_RTL8814 */
++
++#ifdef CONFIG_RTL8192E
++void rtl8192eu_set_hw_type(struct dvobj_priv *pdvobj);
++#ifdef CONFIG_SUPPORT_USB_INT
++void interrupt_handler_8192eu(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif
++
++#endif
++
++#ifdef CONFIG_RTL8188F
++void rtl8188fu_set_hw_type(struct dvobj_priv *pdvobj);
++#ifdef CONFIG_SUPPORT_USB_INT
++void interrupt_handler_8188fu(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif
++#endif
++
++#ifdef CONFIG_RTL8723B
++void rtl8723bu_set_hw_type(struct dvobj_priv *pdvobj);
++#ifdef CONFIG_SUPPORT_USB_INT
++void interrupt_handler_8723bu(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif
++#endif
++
++#ifdef CONFIG_RTL8703B
++void rtl8703bu_set_hw_type(struct dvobj_priv *pdvobj);
++#ifdef CONFIG_SUPPORT_USB_INT
++void interrupt_handler_8703bu(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif /* CONFIG_SUPPORT_USB_INT */
++#endif /* CONFIG_RTL8703B */
++
++void usb_set_intf_ops(_adapter *padapter, struct _io_ops *pops);
++
++#ifdef CONFIG_RTL8723D
++void rtl8723du_set_hw_type(struct dvobj_priv *pdvobj);
++void rtl8723du_set_intf_ops(struct _io_ops *pops);
++void rtl8723du_recv_tasklet(void *priv);
++void rtl8723du_xmit_tasklet(void *priv);
++#ifdef CONFIG_SUPPORT_USB_INT
++void interrupt_handler_8723du(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif /* CONFIG_SUPPORT_USB_INT */
++#endif /* CONFIG_RTL8723D */
++
++enum RTW_USB_SPEED {
++	RTW_USB_SPEED_UNKNOWN	= 0,
++	RTW_USB_SPEED_1_1	= 1,
++	RTW_USB_SPEED_2		= 2,
++	RTW_USB_SPEED_3		= 3,
++};
++
++#define IS_FULL_SPEED_USB(Adapter)	(adapter_to_dvobj(Adapter)->usb_speed == RTW_USB_SPEED_1_1)
++#define IS_HIGH_SPEED_USB(Adapter)	(adapter_to_dvobj(Adapter)->usb_speed == RTW_USB_SPEED_2)
++#define IS_SUPER_SPEED_USB(Adapter)	(adapter_to_dvobj(Adapter)->usb_speed == RTW_USB_SPEED_3)
++
++#define USB_SUPER_SPEED_BULK_SIZE	1024	/* usb 3.0 */
++#define USB_HIGH_SPEED_BULK_SIZE	512		/* usb 2.0 */
++#define USB_FULL_SPEED_BULK_SIZE	64		/* usb 1.1 */
++
++static inline u8 rtw_usb_bulk_size_boundary(_adapter *padapter, int buf_len)
++{
++	u8 rst = _TRUE;
++
++	if (IS_SUPER_SPEED_USB(padapter))
++		rst = (0 == (buf_len) % USB_SUPER_SPEED_BULK_SIZE) ? _TRUE : _FALSE;
++	if (IS_HIGH_SPEED_USB(padapter))
++		rst = (0 == (buf_len) % USB_HIGH_SPEED_BULK_SIZE) ? _TRUE : _FALSE;
++	else
++		rst = (0 == (buf_len) % USB_FULL_SPEED_BULK_SIZE) ? _TRUE : _FALSE;
++	return rst;
++}
++
++
++#endif /* __USB_OPS_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/usb_ops_linux.h b/drivers/net/wireless/rtl8723du/include/usb_ops_linux.h
+new file mode 100644
+index 0000000..18d2ed6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/usb_ops_linux.h
+@@ -0,0 +1,106 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __USB_OPS_LINUX_H__
++#define __USB_OPS_LINUX_H__
++
++#define VENDOR_CMD_MAX_DATA_LEN	254
++#define FW_START_ADDRESS	0x1000
++
++#define RTW_USB_CONTROL_MSG_TIMEOUT_TEST	10/* ms */
++#define RTW_USB_CONTROL_MSG_TIMEOUT	500/* ms */
++
++#define RECV_BULK_IN_ADDR		0x80/* assign by drv, not real address */
++#define RECV_INT_IN_ADDR		0x81/* assign by drv, not real address */
++
++#define INTERRUPT_MSG_FORMAT_LEN 60
++
++#if defined(CONFIG_VENDOR_REQ_RETRY) && defined(CONFIG_USB_VENDOR_REQ_MUTEX)
++	/* vendor req retry should be in the situation when each vendor req is atomically submitted from others */
++	#define MAX_USBCTRL_VENDORREQ_TIMES	10
++#else
++	#define MAX_USBCTRL_VENDORREQ_TIMES	1
++#endif
++
++#define RTW_USB_BULKOUT_TIMEOUT	5000/* ms */
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 5, 0)) || (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 18))
++#define _usbctrl_vendorreq_async_callback(urb, regs)	_usbctrl_vendorreq_async_callback(urb)
++#define usb_bulkout_zero_complete(purb, regs)	usb_bulkout_zero_complete(purb)
++#define usb_write_mem_complete(purb, regs)	usb_write_mem_complete(purb)
++#define usb_write_port_complete(purb, regs)	usb_write_port_complete(purb)
++#define usb_read_port_complete(purb, regs)	usb_read_port_complete(purb)
++#define usb_read_interrupt_complete(purb, regs)	usb_read_interrupt_complete(purb)
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 12))
++#define rtw_usb_control_msg(dev, pipe, request, requesttype, value, index, data, size, timeout_ms) \
++	usb_control_msg((dev), (pipe), (request), (requesttype), (value), (index), (data), (size), (timeout_ms))
++#define rtw_usb_bulk_msg(usb_dev, pipe, data, len, actual_length, timeout_ms) \
++	usb_bulk_msg((usb_dev), (pipe), (data), (len), (actual_length), (timeout_ms))
++#else
++#define rtw_usb_control_msg(dev, pipe, request, requesttype, value, index, data, size, timeout_ms) \
++	usb_control_msg((dev), (pipe), (request), (requesttype), (value), (index), (data), (size), \
++		((timeout_ms) == 0) || ((timeout_ms) * HZ / 1000 > 0) ? ((timeout_ms) * HZ / 1000) : 1)
++#define rtw_usb_bulk_msg(usb_dev, pipe, data, len, actual_length, timeout_ms) \
++	usb_bulk_msg((usb_dev), (pipe), (data), (len), (actual_length), \
++		((timeout_ms) == 0) || ((timeout_ms) * HZ / 1000 > 0) ? ((timeout_ms) * HZ / 1000) : 1)
++#endif
++
++
++#ifdef CONFIG_USB_SUPPORT_ASYNC_VDN_REQ
++int usb_async_write8(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++int usb_async_write16(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++int usb_async_write32(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++#endif /* CONFIG_USB_SUPPORT_ASYNC_VDN_REQ */
++
++unsigned int ffaddr2pipehdl(struct dvobj_priv *pdvobj, u32 addr);
++
++void usb_read_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem);
++void usb_write_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *wmem);
++
++void usb_read_port_cancel(struct intf_hdl *pintfhdl);
++
++u32 usb_write_port(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *wmem);
++void usb_write_port_cancel(struct intf_hdl *pintfhdl);
++
++int usbctrl_vendorreq(struct intf_hdl *pintfhdl, u8 request, u16 value, u16 index, void *pdata, u16 len, u8 requesttype);
++#ifdef CONFIG_USB_SUPPORT_ASYNC_VDN_REQ
++int _usbctrl_vendorreq_async_write(struct usb_device *udev, u8 request,
++		u16 value, u16 index, void *pdata, u16 len, u8 requesttype);
++#endif /* CONFIG_USB_SUPPORT_ASYNC_VDN_REQ */
++
++u8 usb_read8(struct intf_hdl *pintfhdl, u32 addr);
++u16 usb_read16(struct intf_hdl *pintfhdl, u32 addr);
++u32 usb_read32(struct intf_hdl *pintfhdl, u32 addr);
++int usb_write8(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++int usb_write16(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++int usb_write32(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++int usb_writeN(struct intf_hdl *pintfhdl, u32 addr, u32 length, u8 *pdata);
++u32 usb_read_port(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem);
++void usb_recv_tasklet(void *priv);
++#ifdef CONFIG_RTW_NAPI
++int recv_napi_poll(struct napi_struct *napi, int budget);
++#endif
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++void usb_read_interrupt_complete(struct urb *purb, struct pt_regs *regs);
++u32 usb_read_interrupt(struct intf_hdl *pintfhdl, u32 addr);
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/usb_osintf.h b/drivers/net/wireless/rtl8723du/include/usb_osintf.h
+new file mode 100644
+index 0000000..9c39520
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/usb_osintf.h
+@@ -0,0 +1,31 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __USB_OSINTF_H
++#define __USB_OSINTF_H
++
++#include <usb_vendor_req.h>
++
++#define USBD_HALTED(Status) ((ULONG)(Status) >> 30 == 3)
++
++
++u8 usbvendorrequest(struct dvobj_priv *pdvobjpriv, RT_USB_BREQUEST brequest, RT_USB_WVALUE wvalue, u8 windex, void *data, u8 datalen, u8 isdirectionin);
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/usb_vendor_req.h b/drivers/net/wireless/rtl8723du/include/usb_vendor_req.h
+new file mode 100644
+index 0000000..2281d36
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/usb_vendor_req.h
+@@ -0,0 +1,61 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _USB_VENDOR_REQUEST_H_
++#define _USB_VENDOR_REQUEST_H_
++
++/* 4	Set/Get Register related wIndex/Data */
++#define	RT_USB_RESET_MASK_OFF		0
++#define	RT_USB_RESET_MASK_ON		1
++#define	RT_USB_SLEEP_MASK_OFF		0
++#define	RT_USB_SLEEP_MASK_ON		1
++#define	RT_USB_LDO_ON				1
++#define	RT_USB_LDO_OFF				0
++
++/* 4	Set/Get SYSCLK related	wValue or Data */
++#define	RT_USB_SYSCLK_32KHZ		0
++#define	RT_USB_SYSCLK_40MHZ		1
++#define	RT_USB_SYSCLK_60MHZ		2
++
++
++typedef enum _RT_USB_BREQUEST {
++	RT_USB_SET_REGISTER		= 1,
++	RT_USB_SET_SYSCLK		= 2,
++	RT_USB_GET_SYSCLK		= 3,
++	RT_USB_GET_REGISTER		= 4
++} RT_USB_BREQUEST;
++
++
++typedef enum _RT_USB_WVALUE {
++	RT_USB_RESET_MASK	=	1,
++	RT_USB_SLEEP_MASK	=	2,
++	RT_USB_USB_HRCPWM	=	3,
++	RT_USB_LDO			=	4,
++	RT_USB_BOOT_TYPE	=	5
++} RT_USB_WVALUE;
++
++
++#if 0
++BOOLEAN usbvendorrequest(PCE_USB_DEVICE	CEdevice, RT_USB_BREQUEST bRequest, RT_USB_WVALUE wValue, UCHAR wIndex, PVOID Data, UCHAR DataLength, BOOLEAN isDirectionIn);
++BOOLEAN CEusbGetStatusRequest(PCE_USB_DEVICE CEdevice, IN USHORT Op, IN USHORT Index, PVOID Data);
++BOOLEAN CEusbFeatureRequest(PCE_USB_DEVICE CEdevice, IN USHORT Op, IN USHORT FeatureSelector, IN USHORT Index);
++BOOLEAN CEusbGetDescriptorRequest(PCE_USB_DEVICE CEdevice, IN short urbLength, IN UCHAR DescriptorType, IN UCHAR Index, IN USHORT LanguageId, IN PVOID  TransferBuffer, IN ULONG TransferBufferLength);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/include/wifi.h b/drivers/net/wireless/rtl8723du/include/wifi.h
+new file mode 100644
+index 0000000..04f0ad1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/wifi.h
+@@ -0,0 +1,1390 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _WIFI_H_
++#define _WIFI_H_
++
++
++#ifdef BIT
++/* #error	"BIT define occurred earlier elsewhere!\n" */
++#undef BIT
++#endif
++#define BIT(x)	(1 << (x))
++
++
++#define WLAN_ETHHDR_LEN		14
++#define WLAN_ETHADDR_LEN	6
++#define WLAN_IEEE_OUI_LEN	3
++#define WLAN_ADDR_LEN		6
++#define WLAN_CRC_LEN		4
++#define WLAN_BSSID_LEN		6
++#define WLAN_BSS_TS_LEN		8
++#define WLAN_HDR_A3_LEN		24
++#define WLAN_HDR_A4_LEN		30
++#define WLAN_HDR_A3_QOS_LEN	26
++#define WLAN_HDR_A4_QOS_LEN	32
++#define WLAN_SSID_MAXLEN	32
++#define WLAN_DATA_MAXLEN	2312
++
++#define WLAN_A3_PN_OFFSET	24
++#define WLAN_A4_PN_OFFSET	30
++
++#define WLAN_MIN_ETHFRM_LEN	60
++#define WLAN_MAX_ETHFRM_LEN	1514
++#define WLAN_ETHHDR_LEN		14
++#define WLAN_WMM_LEN		24
++
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++#define WLAN_MAX_VENDOR_IE_LEN 255
++#define WLAN_MAX_VENDOR_IE_NUM 5
++#define WIFI_BEACON_VENDOR_IE_BIT BIT(0)
++#define WIFI_PROBEREQ_VENDOR_IE_BIT BIT(1)
++#define WIFI_PROBERESP_VENDOR_IE_BIT BIT(2)
++#define WIFI_ASSOCREQ_VENDOR_IE_BIT BIT(3)
++#define WIFI_ASSOCRESP_VENDOR_IE_BIT BIT(4)
++#endif
++
++#define P80211CAPTURE_VERSION	0x80211001
++
++/* This value is tested by WiFi 11n Test Plan 5.2.3.
++ * This test verifies the WLAN NIC can update the NAV through sending the CTS with large duration. */
++#define	WiFiNavUpperUs				30000	/* 30 ms */
++
++#ifdef GREEN_HILL
++#pragma pack(1)
++#endif
++
++enum WIFI_FRAME_TYPE {
++	WIFI_MGT_TYPE  =	(0),
++	WIFI_CTRL_TYPE =	(BIT(2)),
++	WIFI_DATA_TYPE =	(BIT(3)),
++	WIFI_QOS_DATA_TYPE	= (BIT(7) | BIT(3)),	/* !< QoS Data	 */
++};
++
++enum WIFI_FRAME_SUBTYPE {
++
++	/* below is for mgt frame */
++	WIFI_ASSOCREQ       = (0 | WIFI_MGT_TYPE),
++	WIFI_ASSOCRSP       = (BIT(4) | WIFI_MGT_TYPE),
++	WIFI_REASSOCREQ     = (BIT(5) | WIFI_MGT_TYPE),
++	WIFI_REASSOCRSP     = (BIT(5) | BIT(4) | WIFI_MGT_TYPE),
++	WIFI_PROBEREQ       = (BIT(6) | WIFI_MGT_TYPE),
++	WIFI_PROBERSP       = (BIT(6) | BIT(4) | WIFI_MGT_TYPE),
++	WIFI_BEACON         = (BIT(7) | WIFI_MGT_TYPE),
++	WIFI_ATIM           = (BIT(7) | BIT(4) | WIFI_MGT_TYPE),
++	WIFI_DISASSOC       = (BIT(7) | BIT(5) | WIFI_MGT_TYPE),
++	WIFI_AUTH           = (BIT(7) | BIT(5) | BIT(4) | WIFI_MGT_TYPE),
++	WIFI_DEAUTH         = (BIT(7) | BIT(6) | WIFI_MGT_TYPE),
++	WIFI_ACTION         = (BIT(7) | BIT(6) | BIT(4) | WIFI_MGT_TYPE),
++	WIFI_ACTION_NOACK = (BIT(7) | BIT(6) | BIT(5) | WIFI_MGT_TYPE),
++
++	/* below is for control frame */
++	WIFI_NDPA         = (BIT(6) | BIT(4) | WIFI_CTRL_TYPE),
++	WIFI_PSPOLL         = (BIT(7) | BIT(5) | WIFI_CTRL_TYPE),
++	WIFI_RTS            = (BIT(7) | BIT(5) | BIT(4) | WIFI_CTRL_TYPE),
++	WIFI_CTS            = (BIT(7) | BIT(6) | WIFI_CTRL_TYPE),
++	WIFI_ACK            = (BIT(7) | BIT(6) | BIT(4) | WIFI_CTRL_TYPE),
++	WIFI_CFEND          = (BIT(7) | BIT(6) | BIT(5) | WIFI_CTRL_TYPE),
++	WIFI_CFEND_CFACK    = (BIT(7) | BIT(6) | BIT(5) | BIT(4) | WIFI_CTRL_TYPE),
++
++	/* below is for data frame */
++	WIFI_DATA           = (0 | WIFI_DATA_TYPE),
++	WIFI_DATA_CFACK     = (BIT(4) | WIFI_DATA_TYPE),
++	WIFI_DATA_CFPOLL    = (BIT(5) | WIFI_DATA_TYPE),
++	WIFI_DATA_CFACKPOLL = (BIT(5) | BIT(4) | WIFI_DATA_TYPE),
++	WIFI_DATA_NULL      = (BIT(6) | WIFI_DATA_TYPE),
++	WIFI_CF_ACK         = (BIT(6) | BIT(4) | WIFI_DATA_TYPE),
++	WIFI_CF_POLL        = (BIT(6) | BIT(5) | WIFI_DATA_TYPE),
++	WIFI_CF_ACKPOLL     = (BIT(6) | BIT(5) | BIT(4) | WIFI_DATA_TYPE),
++	WIFI_QOS_DATA_NULL	= (BIT(6) | WIFI_QOS_DATA_TYPE),
++};
++
++enum WIFI_REASON_CODE	{
++	_RSON_RESERVED_					= 0,
++	_RSON_UNSPECIFIED_				= 1,
++	_RSON_AUTH_NO_LONGER_VALID_		= 2,
++	_RSON_DEAUTH_STA_LEAVING_		= 3,
++	_RSON_INACTIVITY_				= 4,
++	_RSON_UNABLE_HANDLE_			= 5,
++	_RSON_CLS2_						= 6,
++	_RSON_CLS3_						= 7,
++	_RSON_DISAOC_STA_LEAVING_		= 8,
++	_RSON_ASOC_NOT_AUTH_			= 9,
++
++	/* WPA reason */
++	_RSON_INVALID_IE_				= 13,
++	_RSON_MIC_FAILURE_				= 14,
++	_RSON_4WAY_HNDSHK_TIMEOUT_		= 15,
++	_RSON_GROUP_KEY_UPDATE_TIMEOUT_	= 16,
++	_RSON_DIFF_IE_					= 17,
++	_RSON_MLTCST_CIPHER_NOT_VALID_	= 18,
++	_RSON_UNICST_CIPHER_NOT_VALID_	= 19,
++	_RSON_AKMP_NOT_VALID_			= 20,
++	_RSON_UNSUPPORT_RSNE_VER_		= 21,
++	_RSON_INVALID_RSNE_CAP_			= 22,
++	_RSON_IEEE_802DOT1X_AUTH_FAIL_	= 23,
++
++	/* belowing are Realtek definition */
++	_RSON_PMK_NOT_AVAILABLE_		= 24,
++	_RSON_TDLS_TEAR_TOOFAR_			= 25,
++	_RSON_TDLS_TEAR_UN_RSN_			= 26,
++};
++
++/* Reason codes (IEEE 802.11-2007, 7.3.1.7, Table 7-22) */
++#if 0
++#define WLAN_REASON_UNSPECIFIED 1
++#define WLAN_REASON_PREV_AUTH_NOT_VALID 2
++#define WLAN_REASON_DEAUTH_LEAVING 3
++#define WLAN_REASON_DISASSOC_DUE_TO_INACTIVITY 4
++#define WLAN_REASON_DISASSOC_AP_BUSY 5
++#define WLAN_REASON_CLASS2_FRAME_FROM_NONAUTH_STA 6
++#define WLAN_REASON_CLASS3_FRAME_FROM_NONASSOC_STA 7
++#define WLAN_REASON_DISASSOC_STA_HAS_LEFT 8
++#define WLAN_REASON_STA_REQ_ASSOC_WITHOUT_AUTH 9
++#endif
++/* IEEE 802.11h */
++#define WLAN_REASON_PWR_CAPABILITY_NOT_VALID 10
++#define WLAN_REASON_SUPPORTED_CHANNEL_NOT_VALID 11
++#if 0
++/* IEEE 802.11i */
++#define WLAN_REASON_INVALID_IE 13
++#define WLAN_REASON_MICHAEL_MIC_FAILURE 14
++#define WLAN_REASON_4WAY_HANDSHAKE_TIMEOUT 15
++#define WLAN_REASON_GROUP_KEY_UPDATE_TIMEOUT 16
++#define WLAN_REASON_IE_IN_4WAY_DIFFERS 17
++#define WLAN_REASON_GROUP_CIPHER_NOT_VALID 18
++#define WLAN_REASON_PAIRWISE_CIPHER_NOT_VALID 19
++#define WLAN_REASON_AKMP_NOT_VALID 20
++#define WLAN_REASON_UNSUPPORTED_RSN_IE_VERSION 21
++#define WLAN_REASON_INVALID_RSN_IE_CAPAB 22
++#define WLAN_REASON_IEEE_802_1X_AUTH_FAILED 23
++#define WLAN_REASON_CIPHER_SUITE_REJECTED 24
++#endif
++
++enum WIFI_STATUS_CODE {
++	_STATS_SUCCESSFUL_			= 0,
++	_STATS_FAILURE_				= 1,
++	_STATS_SEC_DISABLED_			= 5,
++	_STATS_NOT_IN_SAME_BSS_		= 7,
++	_STATS_CAP_FAIL_			= 10,
++	_STATS_NO_ASOC_				= 11,
++	_STATS_OTHER_				= 12,
++	_STATS_NO_SUPP_ALG_			= 13,
++	_STATS_OUT_OF_AUTH_SEQ_		= 14,
++	_STATS_CHALLENGE_FAIL_		= 15,
++	_STATS_AUTH_TIMEOUT_		= 16,
++	_STATS_UNABLE_HANDLE_STA_	= 17,
++	_STATS_RATE_FAIL_			= 18,
++	_STATS_REFUSED_TEMPORARILY_ = 30,
++	_STATS_DECLINE_REQ_			= 37,
++	_STATS_INVALID_PARAMETERS_	= 38,
++	_STATS_INVALID_RSNIE_			= 72,
++};
++
++/* Status codes (IEEE 802.11-2007, 7.3.1.9, Table 7-23) */
++#if 0
++#define WLAN_STATUS_SUCCESS 0
++#define WLAN_STATUS_UNSPECIFIED_FAILURE 1
++#define WLAN_STATUS_CAPS_UNSUPPORTED 10
++#define WLAN_STATUS_REASSOC_NO_ASSOC 11
++#define WLAN_STATUS_ASSOC_DENIED_UNSPEC 12
++#define WLAN_STATUS_NOT_SUPPORTED_AUTH_ALG 13
++#define WLAN_STATUS_UNKNOWN_AUTH_TRANSACTION 14
++#define WLAN_STATUS_CHALLENGE_FAIL 15
++#define WLAN_STATUS_AUTH_TIMEOUT 16
++#define WLAN_STATUS_AP_UNABLE_TO_HANDLE_NEW_STA 17
++#define WLAN_STATUS_ASSOC_DENIED_RATES 18
++#endif
++/* entended */
++/* IEEE 802.11b */
++#define WLAN_STATUS_ASSOC_DENIED_NOSHORT 19
++#define WLAN_STATUS_ASSOC_DENIED_NOPBCC 20
++#define WLAN_STATUS_ASSOC_DENIED_NOAGILITY 21
++/* IEEE 802.11h */
++#define WLAN_STATUS_SPEC_MGMT_REQUIRED 22
++#define WLAN_STATUS_PWR_CAPABILITY_NOT_VALID 23
++#define WLAN_STATUS_SUPPORTED_CHANNEL_NOT_VALID 24
++/* IEEE 802.11g */
++#define WLAN_STATUS_ASSOC_DENIED_NO_SHORT_SLOT_TIME 25
++#define WLAN_STATUS_ASSOC_DENIED_NO_ER_PBCC 26
++#define WLAN_STATUS_ASSOC_DENIED_NO_DSSS_OFDM 27
++/* IEEE 802.11w */
++#define WLAN_STATUS_ASSOC_REJECTED_TEMPORARILY 30
++#define WLAN_STATUS_ROBUST_MGMT_FRAME_POLICY_VIOLATION 31
++/* IEEE 802.11i */
++#define WLAN_STATUS_INVALID_IE 40
++#define WLAN_STATUS_GROUP_CIPHER_NOT_VALID 41
++#define WLAN_STATUS_PAIRWISE_CIPHER_NOT_VALID 42
++#define WLAN_STATUS_AKMP_NOT_VALID 43
++#define WLAN_STATUS_UNSUPPORTED_RSN_IE_VERSION 44
++#define WLAN_STATUS_INVALID_RSN_IE_CAPAB 45
++#define WLAN_STATUS_CIPHER_REJECTED_PER_POLICY 46
++#define WLAN_STATUS_TS_NOT_CREATED 47
++#define WLAN_STATUS_DIRECT_LINK_NOT_ALLOWED 48
++#define WLAN_STATUS_DEST_STA_NOT_PRESENT 49
++#define WLAN_STATUS_DEST_STA_NOT_QOS_STA 50
++#define WLAN_STATUS_ASSOC_DENIED_LISTEN_INT_TOO_LARGE 51
++/* IEEE 802.11r */
++#define WLAN_STATUS_INVALID_FT_ACTION_FRAME_COUNT 52
++#define WLAN_STATUS_INVALID_PMKID 53
++#define WLAN_STATUS_INVALID_MDIE 54
++#define WLAN_STATUS_INVALID_FTIE 55
++
++
++enum WIFI_REG_DOMAIN {
++	DOMAIN_FCC		= 1,
++	DOMAIN_IC		= 2,
++	DOMAIN_ETSI		= 3,
++	DOMAIN_SPAIN	= 4,
++	DOMAIN_FRANCE	= 5,
++	DOMAIN_MKK		= 6,
++	DOMAIN_ISRAEL	= 7,
++	DOMAIN_MKK1		= 8,
++	DOMAIN_MKK2		= 9,
++	DOMAIN_MKK3		= 10,
++	DOMAIN_MAX
++};
++
++#define _TO_DS_		BIT(8)
++#define _FROM_DS_	BIT(9)
++#define _MORE_FRAG_	BIT(10)
++#define _RETRY_		BIT(11)
++#define _PWRMGT_	BIT(12)
++#define _MORE_DATA_	BIT(13)
++#define _PRIVACY_	BIT(14)
++#define _ORDER_			BIT(15)
++
++#define SetToDs(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_TO_DS_); \
++	} while (0)
++
++#define GetToDs(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_TO_DS_)) != 0)
++
++#define ClearToDs(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_TO_DS_)); \
++	} while (0)
++
++#define SetFrDs(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_FROM_DS_); \
++	} while (0)
++
++#define GetFrDs(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_FROM_DS_)) != 0)
++
++#define ClearFrDs(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_FROM_DS_)); \
++	} while (0)
++
++#define get_tofr_ds(pframe)	((GetToDs(pframe) << 1) | GetFrDs(pframe))
++
++
++#define SetMFrag(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_MORE_FRAG_); \
++	} while (0)
++
++#define GetMFrag(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_MORE_FRAG_)) != 0)
++
++#define ClearMFrag(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_MORE_FRAG_)); \
++	} while (0)
++
++#define SetRetry(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_RETRY_); \
++	} while (0)
++
++#define GetRetry(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_RETRY_)) != 0)
++
++#define ClearRetry(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_RETRY_)); \
++	} while (0)
++
++#define SetPwrMgt(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_PWRMGT_); \
++	} while (0)
++
++#define GetPwrMgt(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_PWRMGT_)) != 0)
++
++#define ClearPwrMgt(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_PWRMGT_)); \
++	} while (0)
++
++#define SetMData(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_MORE_DATA_); \
++	} while (0)
++
++#define GetMData(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_MORE_DATA_)) != 0)
++
++#define ClearMData(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_MORE_DATA_)); \
++	} while (0)
++
++#define SetPrivacy(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_PRIVACY_); \
++	} while (0)
++
++#define GetPrivacy(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_PRIVACY_)) != 0)
++
++#define ClearPrivacy(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_PRIVACY_)); \
++	} while (0)
++
++
++#define GetOrder(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_ORDER_)) != 0)
++
++#define GetFrameType(pbuf)	(le16_to_cpu(*(unsigned short *)(pbuf)) & (BIT(3) | BIT(2)))
++
++#define SetFrameType(pbuf, type)	\
++	do {	\
++		*(unsigned short *)(pbuf) &= __constant_cpu_to_le16(~(BIT(3) | BIT(2))); \
++		*(unsigned short *)(pbuf) |= __constant_cpu_to_le16(type); \
++	} while (0)
++
++#define GetFrameSubType(pbuf)	(cpu_to_le16(*(unsigned short *)(pbuf)) & (BIT(7) | BIT(6) | BIT(5) | BIT(4) | BIT(3) | BIT(2)))
++
++#define SetFrameSubType(pbuf, type) \
++	do {    \
++		*(unsigned short *)(pbuf) &= cpu_to_le16(~(BIT(7) | BIT(6) | BIT(5) | BIT(4) | BIT(3) | BIT(2))); \
++		*(unsigned short *)(pbuf) |= cpu_to_le16(type); \
++	} while (0)
++
++#define GetSequence(pbuf)	(cpu_to_le16(*(unsigned short *)((SIZE_PTR)(pbuf) + 22)) >> 4)
++
++#define GetFragNum(pbuf)	(cpu_to_le16(*(unsigned short *)((SIZE_PTR)(pbuf) + 22)) & 0x0f)
++
++#define GetTupleCache(pbuf)	(cpu_to_le16(*(unsigned short *)((SIZE_PTR)(pbuf) + 22)))
++
++#define SetFragNum(pbuf, num) \
++	do {    \
++		*(unsigned short *)((SIZE_PTR)(pbuf) + 22) = \
++			((*(unsigned short *)((SIZE_PTR)(pbuf) + 22)) & le16_to_cpu(~(0x000f))) | \
++				cpu_to_le16(0x0f & (num));     \
++	} while (0)
++
++#define SetSeqNum(pbuf, num) \
++	do {    \
++		*(unsigned short *)((SIZE_PTR)(pbuf) + 22) = \
++			((*(unsigned short *)((SIZE_PTR)(pbuf) + 22)) & le16_to_cpu((unsigned short)~0xfff0)) | \
++			le16_to_cpu((unsigned short)(0xfff0 & (num << 4))); \
++	} while (0)
++
++#define SetDuration(pbuf, dur) \
++	do {    \
++		*(unsigned short *)((SIZE_PTR)(pbuf) + 2) = cpu_to_le16(0xffff & (dur)); \
++	} while (0)
++
++
++#define SetPriority(pbuf, tid)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(tid & 0xf); \
++	} while (0)
++
++#define GetPriority(pbuf)	((le16_to_cpu(*(unsigned short *)(pbuf))) & 0xf)
++
++#define SetEOSP(pbuf, eosp)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16((eosp & 1) << 4); \
++	} while (0)
++
++#define SetAckpolicy(pbuf, ack)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16((ack & 3) << 5); \
++	} while (0)
++
++#define GetAckpolicy(pbuf) (((le16_to_cpu(*(unsigned short *)pbuf)) >> 5) & 0x3)
++
++#define GetAMsdu(pbuf) (((le16_to_cpu(*(unsigned short *)pbuf)) >> 7) & 0x1)
++
++#define SetAMsdu(pbuf, amsdu)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16((amsdu & 1) << 7); \
++	} while (0)
++
++#define GetAid(pbuf)	(cpu_to_le16(*(unsigned short *)((SIZE_PTR)(pbuf) + 2)) & 0x3fff)
++
++#define GetTid(pbuf)	(cpu_to_le16(*(unsigned short *)((SIZE_PTR)(pbuf) + (((GetToDs(pbuf)<<1) | GetFrDs(pbuf)) == 3 ? 30 : 24))) & 0x000f)
++
++#define GetAddr1Ptr(pbuf)	((unsigned char *)((SIZE_PTR)(pbuf) + 4))
++
++#define GetAddr2Ptr(pbuf)	((unsigned char *)((SIZE_PTR)(pbuf) + 10))
++
++#define GetAddr3Ptr(pbuf)	((unsigned char *)((SIZE_PTR)(pbuf) + 16))
++
++#define GetAddr4Ptr(pbuf)	((unsigned char *)((SIZE_PTR)(pbuf) + 24))
++
++#define MacAddr_isBcst(addr) \
++	(\
++	 ((addr[0] == 0xff) && (addr[1] == 0xff) && \
++	  (addr[2] == 0xff) && (addr[3] == 0xff) && \
++	  (addr[4] == 0xff) && (addr[5] == 0xff)) ? _TRUE : _FALSE \
++	)
++
++__inline static int IS_MCAST(unsigned char *da)
++{
++	if ((*da) & 0x01)
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++__inline static unsigned char *get_ra(unsigned char *pframe)
++{
++	unsigned char	*ra;
++	ra = GetAddr1Ptr(pframe);
++	return ra;
++}
++__inline static unsigned char *get_ta(unsigned char *pframe)
++{
++	unsigned char	*ta;
++	ta = GetAddr2Ptr(pframe);
++	return ta;
++}
++
++__inline static unsigned char *get_da(unsigned char *pframe)
++{
++	unsigned char	*da;
++	unsigned int	to_fr_ds	= (GetToDs(pframe) << 1) | GetFrDs(pframe);
++
++	switch (to_fr_ds) {
++	case 0x00:	/* ToDs=0, FromDs=0 */
++		da = GetAddr1Ptr(pframe);
++		break;
++	case 0x01:	/* ToDs=0, FromDs=1 */
++		da = GetAddr1Ptr(pframe);
++		break;
++	case 0x02:	/* ToDs=1, FromDs=0 */
++		da = GetAddr3Ptr(pframe);
++		break;
++	default:	/* ToDs=1, FromDs=1 */
++		da = GetAddr3Ptr(pframe);
++		break;
++	}
++
++	return da;
++}
++
++
++__inline static unsigned char *get_sa(unsigned char *pframe)
++{
++	unsigned char	*sa;
++	unsigned int	to_fr_ds	= (GetToDs(pframe) << 1) | GetFrDs(pframe);
++
++	switch (to_fr_ds) {
++	case 0x00:	/* ToDs=0, FromDs=0 */
++		sa = GetAddr2Ptr(pframe);
++		break;
++	case 0x01:	/* ToDs=0, FromDs=1 */
++		sa = GetAddr3Ptr(pframe);
++		break;
++	case 0x02:	/* ToDs=1, FromDs=0 */
++		sa = GetAddr2Ptr(pframe);
++		break;
++	default:	/* ToDs=1, FromDs=1 */
++		sa = GetAddr4Ptr(pframe);
++		break;
++	}
++
++	return sa;
++}
++
++__inline static unsigned char *get_hdr_bssid(unsigned char *pframe)
++{
++	unsigned char	*sa = NULL;
++	unsigned int	to_fr_ds	= (GetToDs(pframe) << 1) | GetFrDs(pframe);
++
++	switch (to_fr_ds) {
++	case 0x00:	/* ToDs=0, FromDs=0 */
++		sa = GetAddr3Ptr(pframe);
++		break;
++	case 0x01:	/* ToDs=0, FromDs=1 */
++		sa = GetAddr2Ptr(pframe);
++		break;
++	case 0x02:	/* ToDs=1, FromDs=0 */
++		sa = GetAddr1Ptr(pframe);
++		break;
++	case 0x03:	/* ToDs=1, FromDs=1 */
++		sa = GetAddr1Ptr(pframe);
++		break;
++	}
++
++	return sa;
++}
++
++
++__inline static int IsFrameTypeCtrl(unsigned char *pframe)
++{
++	if (WIFI_CTRL_TYPE == GetFrameType(pframe))
++		return _TRUE;
++	else
++		return _FALSE;
++}
++/*-----------------------------------------------------------------------------
++			Below is for the security related definition
++------------------------------------------------------------------------------*/
++#define _RESERVED_FRAME_TYPE_	0
++#define _SKB_FRAME_TYPE_		2
++#define _PRE_ALLOCMEM_			1
++#define _PRE_ALLOCHDR_			3
++#define _PRE_ALLOCLLCHDR_		4
++#define _PRE_ALLOCICVHDR_		5
++#define _PRE_ALLOCMICHDR_		6
++
++#define _SIFSTIME_				((priv->pmib->dot11BssType.net_work_type&WIRELESS_11A) ? 16 : 10)
++#define _ACKCTSLNG_				14	/* 14 bytes long, including crclng */
++#define _CRCLNG_				4
++
++#define _ASOCREQ_IE_OFFSET_		4	/* excluding wlan_hdr */
++#define	_ASOCRSP_IE_OFFSET_		6
++#define _REASOCREQ_IE_OFFSET_	10
++#define _REASOCRSP_IE_OFFSET_	6
++#define _PROBEREQ_IE_OFFSET_	0
++#define	_PROBERSP_IE_OFFSET_	12
++#define _AUTH_IE_OFFSET_		6
++#define _DEAUTH_IE_OFFSET_		0
++#define _BEACON_IE_OFFSET_		12
++#define _PUBLIC_ACTION_IE_OFFSET_	8
++
++#define _FIXED_IE_LENGTH_			_BEACON_IE_OFFSET_
++
++#define _SSID_IE_				0
++#define _SUPPORTEDRATES_IE_	1
++#define _DSSET_IE_				3
++#define _TIM_IE_					5
++#define _IBSS_PARA_IE_			6
++#define _COUNTRY_IE_			7
++#define _CHLGETXT_IE_			16
++#define _SUPPORTED_CH_IE_		36
++#define _CH_SWTICH_ANNOUNCE_	37	/* Secondary Channel Offset */
++#define _RSN_IE_2_				48
++#define _SSN_IE_1_					221
++#define _ERPINFO_IE_			42
++#define _EXT_SUPPORTEDRATES_IE_	50
++
++#define _HT_CAPABILITY_IE_			45
++#define _MDIE_						54
++#define _FTIE_						55
++#define _TIMEOUT_ITVL_IE_			56
++#define _SRC_IE_				59
++#define _HT_EXTRA_INFO_IE_			61
++#define _HT_ADD_INFO_IE_			61 /* _HT_EXTRA_INFO_IE_ */
++#define _WAPI_IE_					68
++
++
++/* #define EID_BSSCoexistence			72 */ /* 20/40 BSS Coexistence
++ * #define EID_BSSIntolerantChlReport	73 */
++#define _RIC_Descriptor_IE_			75
++#ifdef CONFIG_IEEE80211W
++#define _MME_IE_					76 /* 802.11w Management MIC element */
++#endif /* CONFIG_IEEE80211W */
++#define _LINK_ID_IE_					101
++#define _CH_SWITCH_TIMING_		104
++#define _PTI_BUFFER_STATUS_		106
++#define _EXT_CAP_IE_				127
++#define _VENDOR_SPECIFIC_IE_		221
++
++#define	_RESERVED47_				47
++
++typedef	enum _ELEMENT_ID {
++	EID_SsId					= 0, /* service set identifier (0:32) */
++	EID_SupRates				= 1, /* supported rates (1:8) */
++	EID_FHParms				= 2, /* FH parameter set (5) */
++	EID_DSParms				= 3, /* DS parameter set (1) */
++	EID_CFParms				= 4, /* CF parameter set (6) */
++	EID_Tim						= 5, /* Traffic Information Map (4:254) */
++	EID_IbssParms				= 6, /* IBSS parameter set (2) */
++	EID_Country					= 7, /* */
++
++	/* Form 7.3.2: Information elements in 802.11E/D13.0, page 46. */
++	EID_QBSSLoad				= 11,
++	EID_EDCAParms				= 12,
++	EID_TSpec					= 13,
++	EID_TClass					= 14,
++	EID_Schedule				= 15,
++	/*  */
++
++	EID_Ctext					= 16, /* challenge text*/
++	EID_POWER_CONSTRAINT		= 32, /* Power Constraint*/
++
++	/* vivi for WIFITest, 802.11h AP, 20100427 */
++	/* 2010/12/26 MH The definition we can declare always!! */
++	EID_PowerCap				= 33,
++	EID_SupportedChannels		= 36,
++	EID_ChlSwitchAnnounce		= 37,
++
++	EID_MeasureRequest			= 38, /* Measurement Request */
++	EID_MeasureReport			= 39, /* Measurement Report */
++
++	EID_ERPInfo				= 42,
++
++	/* Form 7.3.2: Information elements in 802.11E/D13.0, page 46. */
++	EID_TSDelay				= 43,
++	EID_TCLASProc				= 44,
++	EID_HTCapability			= 45,
++	EID_QoSCap					= 46,
++	/*  */
++
++	EID_WPA2					= 48,
++	EID_ExtSupRates			= 50,
++
++	EID_FTIE					= 55, /* Defined in 802.11r */
++	EID_Timeout				= 56, /* Defined in 802.11r */
++
++	EID_SupRegulatory			= 59, /* Supported Requlatory Classes 802.11y */
++	EID_HTInfo					= 61,
++	EID_SecondaryChnlOffset		= 62,
++
++	EID_BSSCoexistence			= 72, /* 20/40 BSS Coexistence */
++	EID_BSSIntolerantChlReport	= 73,
++	EID_OBSS					= 74, /* Overlapping BSS Scan Parameters */
++
++	EID_LinkIdentifier			= 101, /* Defined in 802.11z */
++	EID_WakeupSchedule		= 102, /* Defined in 802.11z */
++	EID_ChnlSwitchTimeing		= 104, /* Defined in 802.11z */
++	EID_PTIControl				= 105, /* Defined in 802.11z */
++	EID_PUBufferStatus			= 106, /* Defined in 802.11z */
++
++	EID_EXTCapability			= 127, /* Extended Capabilities */
++	/* From S19:Aironet IE and S21:AP IP address IE in CCX v1.13, p16 and p18. */
++	EID_Aironet					= 133, /* 0x85: Aironet Element for Cisco CCX */
++	EID_CiscoIP					= 149, /* 0x95: IP Address IE for Cisco CCX */
++
++	EID_CellPwr					= 150, /* 0x96: Cell Power Limit IE. Ref. 0x96. */
++
++	EID_CCKM					= 156,
++
++	EID_Vendor					= 221, /* 0xDD: Vendor Specific */
++
++	EID_WAPI					= 68,
++	EID_VHTCapability 			= 191, /* Based on 802.11ac D2.0 */
++	EID_VHTOperation 			= 192, /* Based on 802.11ac D2.0 */
++	EID_AID						= 197, /* Based on 802.11ac D4.0 */
++	EID_OpModeNotification		= 199, /* Based on 802.11ac D3.0 */
++} ELEMENT_ID, *PELEMENT_ID;
++
++/* ---------------------------------------------------------------------------
++					Below is the fixed elements...
++-----------------------------------------------------------------------------*/
++#define _AUTH_ALGM_NUM_			2
++#define _AUTH_SEQ_NUM_			2
++#define _BEACON_ITERVAL_		2
++#define _CAPABILITY_			2
++#define _CURRENT_APADDR_		6
++#define _LISTEN_INTERVAL_		2
++#define _RSON_CODE_				2
++#define _ASOC_ID_				2
++#define _STATUS_CODE_			2
++#define _TIMESTAMP_				8
++
++#define AUTH_ODD_TO				0
++#define AUTH_EVEN_TO			1
++
++#define WLAN_ETHCONV_ENCAP		1
++#define WLAN_ETHCONV_RFC1042	2
++#define WLAN_ETHCONV_8021h		3
++
++#define cap_ESS BIT(0)
++#define cap_IBSS BIT(1)
++#define cap_CFPollable BIT(2)
++#define cap_CFRequest BIT(3)
++#define cap_Privacy BIT(4)
++#define cap_ShortPremble BIT(5)
++#define cap_PBCC	BIT(6)
++#define cap_ChAgility	BIT(7)
++#define cap_SpecMgmt	BIT(8)
++#define cap_QoS	BIT(9)
++#define cap_ShortSlot	BIT(10)
++
++/*-----------------------------------------------------------------------------
++				Below is the definition for 802.11i / 802.1x
++------------------------------------------------------------------------------*/
++#define _IEEE8021X_MGT_			1		/* WPA */
++#define _IEEE8021X_PSK_			2		/* WPA with pre-shared key */
++
++#if 0
++#define _NO_PRIVACY_			0
++#define _WEP_40_PRIVACY_		1
++#define _TKIP_PRIVACY_			2
++#define _WRAP_PRIVACY_			3
++#define _CCMP_PRIVACY_			4
++#define _WEP_104_PRIVACY_		5
++#define _WEP_WPA_MIXED_PRIVACY_ 6	/*  WEP + WPA */
++#endif
++
++#ifdef CONFIG_IEEE80211W
++#define _MME_IE_LENGTH_  18
++#endif /* CONFIG_IEEE80211W */
++/*-----------------------------------------------------------------------------
++				Below is the definition for WMM
++------------------------------------------------------------------------------*/
++#define _WMM_IE_Length_				7  /* for WMM STA */
++#define _WMM_Para_Element_Length_		24
++
++
++/*-----------------------------------------------------------------------------
++				Below is the definition for 802.11n
++------------------------------------------------------------------------------*/
++
++/* #ifdef CONFIG_80211N_HT */
++
++#define SetOrderBit(pbuf)	\
++		do	{	\
++			*(unsigned short *)(pbuf) |= cpu_to_le16(_ORDER_); \
++		} while (0)
++
++#define GetOrderBit(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_ORDER_)) != 0)
++
++#define ACT_CAT_VENDOR				0x7F/* 127 */
++
++/**
++ * struct rtw_ieee80211_bar - HT Block Ack Request
++ *
++ * This structure refers to "HT BlockAckReq" as
++ * described in 802.11n draft section 7.2.1.7.1
++ */
++#if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8712FW)
++struct rtw_ieee80211_bar {
++	unsigned short frame_control;
++	unsigned short duration;
++	unsigned char ra[6];
++	unsigned char ta[6];
++	unsigned short control;
++	unsigned short start_seq_num;
++} __attribute__((packed));
++#endif
++
++/* 802.11 BAR control masks */
++#define IEEE80211_BAR_CTRL_ACK_POLICY_NORMAL     0x0000
++#define IEEE80211_BAR_CTRL_CBMTID_COMPRESSED_BA  0x0004
++
++
++#if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8712FW) || defined(PLATFORM_FREEBSD)
++
++
++
++/**
++* struct rtw_ieee80211_ht_cap - HT capabilities
++*
++* This structure refers to "HT capabilities element" as
++* described in 802.11n draft section 7.3.2.52
++*/
++
++struct rtw_ieee80211_ht_cap {
++	unsigned short	cap_info;
++	unsigned char	ampdu_params_info;
++	unsigned char	supp_mcs_set[16];
++	unsigned short	extended_ht_cap_info;
++	unsigned int		tx_BF_cap_info;
++	unsigned char	       antenna_selection_info;
++} __attribute__((packed));
++
++/**
++ * struct rtw_ieee80211_ht_cap - HT additional information
++ *
++ * This structure refers to "HT information element" as
++ * described in 802.11n draft section 7.3.2.53
++ */
++struct ieee80211_ht_addt_info {
++	unsigned char	control_chan;
++	unsigned char		ht_param;
++	unsigned short	operation_mode;
++	unsigned short	stbc_param;
++	unsigned char		basic_set[16];
++} __attribute__((packed));
++
++
++struct HT_caps_element {
++	union {
++		struct {
++			unsigned short	HT_caps_info;
++			unsigned char	AMPDU_para;
++			unsigned char	MCS_rate[16];
++			unsigned short	HT_ext_caps;
++			unsigned int	Beamforming_caps;
++			unsigned char	ASEL_caps;
++		} HT_cap_element;
++		unsigned char HT_cap[26];
++	} u;
++} __attribute__((packed));
++
++struct HT_info_element {
++	unsigned char	primary_channel;
++	unsigned char	infos[5];
++	unsigned char	MCS_rate[16];
++}  __attribute__((packed));
++
++struct AC_param {
++	unsigned char		ACI_AIFSN;
++	unsigned char		CW;
++	unsigned short	TXOP_limit;
++}  __attribute__((packed));
++
++struct WMM_para_element {
++	unsigned char		QoS_info;
++	unsigned char		reserved;
++	struct AC_param	ac_param[4];
++}  __attribute__((packed));
++
++struct ADDBA_request {
++	unsigned char		dialog_token;
++	unsigned short	BA_para_set;
++	unsigned short	BA_timeout_value;
++	unsigned short	BA_starting_seqctrl;
++}  __attribute__((packed));
++
++
++
++#endif
++
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++
++struct rtw_ieee80211_ht_cap {
++	unsigned short	cap_info;
++	unsigned char	ampdu_params_info;
++	unsigned char	supp_mcs_set[16];
++	unsigned short	extended_ht_cap_info;
++	unsigned int		tx_BF_cap_info;
++	unsigned char	       antenna_selection_info;
++};
++
++
++struct ieee80211_ht_addt_info {
++	unsigned char	control_chan;
++	unsigned char		ht_param;
++	unsigned short	operation_mode;
++	unsigned short	stbc_param;
++	unsigned char		basic_set[16];
++};
++
++struct HT_caps_element {
++	union {
++		struct {
++			unsigned short	HT_caps_info;
++			unsigned char	AMPDU_para;
++			unsigned char	MCS_rate[16];
++			unsigned short	HT_ext_caps;
++			unsigned int	Beamforming_caps;
++			unsigned char	ASEL_caps;
++		} HT_cap_element;
++		unsigned char HT_cap[26];
++	};
++};
++
++struct HT_info_element {
++	unsigned char	primary_channel;
++	unsigned char	infos[5];
++	unsigned char	MCS_rate[16];
++};
++
++struct AC_param {
++	unsigned char		ACI_AIFSN;
++	unsigned char		CW;
++	unsigned short	TXOP_limit;
++};
++
++struct WMM_para_element {
++	unsigned char		QoS_info;
++	unsigned char		reserved;
++	struct AC_param	ac_param[4];
++};
++
++struct ADDBA_request {
++	unsigned char		dialog_token;
++	unsigned short	BA_para_set;
++	unsigned short	BA_timeout_value;
++	unsigned short	BA_starting_seqctrl;
++};
++
++
++#pragma pack()
++
++#endif
++
++typedef enum _HT_CAP_AMPDU_FACTOR {
++	MAX_AMPDU_FACTOR_8K		= 0,
++	MAX_AMPDU_FACTOR_16K	= 1,
++	MAX_AMPDU_FACTOR_32K	= 2,
++	MAX_AMPDU_FACTOR_64K	= 3,
++} HT_CAP_AMPDU_FACTOR;
++
++
++typedef enum _HT_CAP_AMPDU_DENSITY {
++	AMPDU_DENSITY_VALUE_0 = 0 , /* For no restriction */
++	AMPDU_DENSITY_VALUE_1 = 1 , /* For 1/4 us */
++	AMPDU_DENSITY_VALUE_2 = 2 , /* For 1/2 us */
++	AMPDU_DENSITY_VALUE_3 = 3 , /* For 1 us */
++	AMPDU_DENSITY_VALUE_4 = 4 , /* For 2 us */
++	AMPDU_DENSITY_VALUE_5 = 5 , /* For 4 us */
++	AMPDU_DENSITY_VALUE_6 = 6 , /* For 8 us */
++	AMPDU_DENSITY_VALUE_7 = 7 , /* For 16 us */
++} HT_CAP_AMPDU_DENSITY;
++
++/* 802.11n HT capabilities masks */
++#define IEEE80211_HT_CAP_LDPC_CODING		0x0001
++#define IEEE80211_HT_CAP_SUP_WIDTH		0x0002
++#define IEEE80211_HT_CAP_SM_PS			0x000C
++#define IEEE80211_HT_CAP_GRN_FLD		0x0010
++#define IEEE80211_HT_CAP_SGI_20			0x0020
++#define IEEE80211_HT_CAP_SGI_40			0x0040
++#define IEEE80211_HT_CAP_TX_STBC			0x0080
++#define IEEE80211_HT_CAP_RX_STBC_1R		0x0100
++#define IEEE80211_HT_CAP_RX_STBC_2R		0x0200
++#define IEEE80211_HT_CAP_RX_STBC_3R		0x0300
++#define IEEE80211_HT_CAP_DELAY_BA		0x0400
++#define IEEE80211_HT_CAP_MAX_AMSDU		0x0800
++#define IEEE80211_HT_CAP_DSSSCCK40		0x1000
++#define RTW_IEEE80211_HT_CAP_40MHZ_INTOLERANT	((u16) BIT(14))
++/* 802.11n HT capability AMPDU settings */
++#define IEEE80211_HT_CAP_AMPDU_FACTOR		0x03
++#define IEEE80211_HT_CAP_AMPDU_DENSITY		0x1C
++/* 802.11n HT capability MSC set */
++#define IEEE80211_SUPP_MCS_SET_UEQM		4
++#define IEEE80211_HT_CAP_MAX_STREAMS		4
++#define IEEE80211_SUPP_MCS_SET_LEN		10
++/* maximum streams the spec allows */
++#define IEEE80211_HT_CAP_MCS_TX_DEFINED		0x01
++#define IEEE80211_HT_CAP_MCS_TX_RX_DIFF		0x02
++#define IEEE80211_HT_CAP_MCS_TX_STREAMS		0x0C
++#define IEEE80211_HT_CAP_MCS_TX_UEQM		0x10
++/* 802.11n HT capability TXBF capability */
++#define IEEE80211_HT_CAP_TXBF_RX_NDP		0x00000008
++#define IEEE80211_HT_CAP_TXBF_TX_NDP		0x00000010
++#define IEEE80211_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP	0x00000400
++
++/* 802.11n HT IE masks */
++#define IEEE80211_HT_IE_CHA_SEC_OFFSET		0x03
++#define IEEE80211_HT_IE_CHA_SEC_NONE		0x00
++#define IEEE80211_HT_IE_CHA_SEC_ABOVE		0x01
++#define IEEE80211_HT_IE_CHA_SEC_BELOW		0x03
++#define IEEE80211_HT_IE_CHA_WIDTH		0x04
++#define IEEE80211_HT_IE_HT_PROTECTION		0x0003
++#define IEEE80211_HT_IE_NON_GF_STA_PRSNT	0x0004
++#define IEEE80211_HT_IE_NON_HT_STA_PRSNT	0x0010
++
++/* block-ack parameters */
++#define IEEE80211_ADDBA_PARAM_POLICY_MASK 0x0002
++#define IEEE80211_ADDBA_PARAM_TID_MASK 0x003C
++#define RTW_IEEE80211_ADDBA_PARAM_BUF_SIZE_MASK 0xFFC0
++#define IEEE80211_DELBA_PARAM_TID_MASK 0xF000
++#define IEEE80211_DELBA_PARAM_INITIATOR_MASK 0x0800
++
++/*
++ * A-PMDU buffer sizes
++ * According to IEEE802.11n spec size varies from 8K to 64K (in powers of 2)
++ */
++#define IEEE80211_MIN_AMPDU_BUF 0x8
++#define IEEE80211_MAX_AMPDU_BUF 0x40
++
++
++/* Spatial Multiplexing Power Save Modes */
++#define WLAN_HT_CAP_SM_PS_STATIC		0
++#define WLAN_HT_CAP_SM_PS_DYNAMIC	1
++#define WLAN_HT_CAP_SM_PS_INVALID	2
++#define WLAN_HT_CAP_SM_PS_DISABLED	3
++
++
++#define OP_MODE_PURE                    0
++#define OP_MODE_MAY_BE_LEGACY_STAS      1
++#define OP_MODE_20MHZ_HT_STA_ASSOCED    2
++#define OP_MODE_MIXED                   3
++
++#define HT_INFO_HT_PARAM_SECONDARY_CHNL_OFF_MASK	((u8) BIT(0) | BIT(1))
++#define HT_INFO_HT_PARAM_SECONDARY_CHNL_ABOVE		((u8) BIT(0))
++#define HT_INFO_HT_PARAM_SECONDARY_CHNL_BELOW		((u8) BIT(0) | BIT(1))
++#define HT_INFO_HT_PARAM_REC_TRANS_CHNL_WIDTH		((u8) BIT(2))
++#define HT_INFO_HT_PARAM_RIFS_MODE			((u8) BIT(3))
++#define HT_INFO_HT_PARAM_CTRL_ACCESS_ONLY		((u8) BIT(4))
++#define HT_INFO_HT_PARAM_SRV_INTERVAL_GRANULARITY	((u8) BIT(5))
++
++#define HT_INFO_OPERATION_MODE_OP_MODE_MASK	\
++	((u16) (0x0001 | 0x0002))
++#define HT_INFO_OPERATION_MODE_OP_MODE_OFFSET		0
++#define HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT	((u8) BIT(2))
++#define HT_INFO_OPERATION_MODE_TRANSMIT_BURST_LIMIT	((u8) BIT(3))
++#define HT_INFO_OPERATION_MODE_NON_HT_STA_PRESENT	((u8) BIT(4))
++
++#define HT_INFO_STBC_PARAM_DUAL_BEACON			((u16) BIT(6))
++#define HT_INFO_STBC_PARAM_DUAL_STBC_PROTECT		((u16) BIT(7))
++#define HT_INFO_STBC_PARAM_SECONDARY_BCN		((u16) BIT(8))
++#define HT_INFO_STBC_PARAM_LSIG_TXOP_PROTECT_ALLOWED	((u16) BIT(9))
++#define HT_INFO_STBC_PARAM_PCO_ACTIVE			((u16) BIT(10))
++#define HT_INFO_STBC_PARAM_PCO_PHASE			((u16) BIT(11))
++
++
++
++/* #endif */
++
++/*	===============WPS Section=============== */
++/*	For WPSv1.0 */
++#define WPSOUI							0x0050f204
++/*	WPS attribute ID */
++#define WPS_ATTR_VER1					0x104A
++#define WPS_ATTR_SIMPLE_CONF_STATE	0x1044
++#define WPS_ATTR_RESP_TYPE			0x103B
++#define WPS_ATTR_UUID_E				0x1047
++#define WPS_ATTR_MANUFACTURER		0x1021
++#define WPS_ATTR_MODEL_NAME			0x1023
++#define WPS_ATTR_MODEL_NUMBER		0x1024
++#define WPS_ATTR_SERIAL_NUMBER		0x1042
++#define WPS_ATTR_PRIMARY_DEV_TYPE	0x1054
++#define WPS_ATTR_SEC_DEV_TYPE_LIST	0x1055
++#define WPS_ATTR_DEVICE_NAME			0x1011
++#define WPS_ATTR_CONF_METHOD			0x1008
++#define WPS_ATTR_RF_BANDS				0x103C
++#define WPS_ATTR_DEVICE_PWID			0x1012
++#define WPS_ATTR_REQUEST_TYPE			0x103A
++#define WPS_ATTR_ASSOCIATION_STATE	0x1002
++#define WPS_ATTR_CONFIG_ERROR			0x1009
++#define WPS_ATTR_VENDOR_EXT			0x1049
++#define WPS_ATTR_SELECTED_REGISTRAR	0x1041
++
++/*	Value of WPS attribute "WPS_ATTR_DEVICE_NAME */
++#define WPS_MAX_DEVICE_NAME_LEN		32
++
++/*	Value of WPS Request Type Attribute */
++#define WPS_REQ_TYPE_ENROLLEE_INFO_ONLY			0x00
++#define WPS_REQ_TYPE_ENROLLEE_OPEN_8021X		0x01
++#define WPS_REQ_TYPE_REGISTRAR					0x02
++#define WPS_REQ_TYPE_WLAN_MANAGER_REGISTRAR	0x03
++
++/*	Value of WPS Response Type Attribute */
++#define WPS_RESPONSE_TYPE_INFO_ONLY	0x00
++#define WPS_RESPONSE_TYPE_8021X		0x01
++#define WPS_RESPONSE_TYPE_REGISTRAR	0x02
++#define WPS_RESPONSE_TYPE_AP			0x03
++
++/*	Value of WPS WiFi Simple Configuration State Attribute */
++#define WPS_WSC_STATE_NOT_CONFIG	0x01
++#define WPS_WSC_STATE_CONFIG			0x02
++
++/*	Value of WPS Version Attribute */
++#define WPS_VERSION_1					0x10
++
++/*	Value of WPS Configuration Method Attribute */
++#define WPS_CONFIG_METHOD_FLASH		0x0001
++#define WPS_CONFIG_METHOD_ETHERNET	0x0002
++#define WPS_CONFIG_METHOD_LABEL		0x0004
++#define WPS_CONFIG_METHOD_DISPLAY	0x0008
++#define WPS_CONFIG_METHOD_E_NFC		0x0010
++#define WPS_CONFIG_METHOD_I_NFC		0x0020
++#define WPS_CONFIG_METHOD_NFC		0x0040
++#define WPS_CONFIG_METHOD_PBC		0x0080
++#define WPS_CONFIG_METHOD_KEYPAD	0x0100
++#define WPS_CONFIG_METHOD_VPBC		0x0280
++#define WPS_CONFIG_METHOD_PPBC		0x0480
++#define WPS_CONFIG_METHOD_VDISPLAY	0x2008
++#define WPS_CONFIG_METHOD_PDISPLAY	0x4008
++
++/*	Value of Category ID of WPS Primary Device Type Attribute */
++#define WPS_PDT_CID_DISPLAYS			0x0007
++#define WPS_PDT_CID_MULIT_MEDIA		0x0008
++#define WPS_PDT_CID_RTK_WIDI			WPS_PDT_CID_MULIT_MEDIA
++
++/*	Value of Sub Category ID of WPS Primary Device Type Attribute */
++#define WPS_PDT_SCID_MEDIA_SERVER	0x0005
++#define WPS_PDT_SCID_RTK_DMP			WPS_PDT_SCID_MEDIA_SERVER
++
++/*	Value of Device Password ID */
++#define WPS_DPID_PIN					0x0000
++#define WPS_DPID_USER_SPEC			0x0001
++#define WPS_DPID_MACHINE_SPEC			0x0002
++#define WPS_DPID_REKEY					0x0003
++#define WPS_DPID_PBC					0x0004
++#define WPS_DPID_REGISTRAR_SPEC		0x0005
++
++/*	Value of WPS RF Bands Attribute */
++#define WPS_RF_BANDS_2_4_GHZ		0x01
++#define WPS_RF_BANDS_5_GHZ		0x02
++
++/*	Value of WPS Association State Attribute */
++#define WPS_ASSOC_STATE_NOT_ASSOCIATED			0x00
++#define WPS_ASSOC_STATE_CONNECTION_SUCCESS		0x01
++#define WPS_ASSOC_STATE_CONFIGURATION_FAILURE	0x02
++#define WPS_ASSOC_STATE_ASSOCIATION_FAILURE		0x03
++#define WPS_ASSOC_STATE_IP_FAILURE				0x04
++
++/*	=====================P2P Section===================== */
++/*	For P2P */
++#define	P2POUI							0x506F9A09
++
++/*	P2P Attribute ID */
++#define	P2P_ATTR_STATUS					0x00
++#define	P2P_ATTR_MINOR_REASON_CODE		0x01
++#define	P2P_ATTR_CAPABILITY				0x02
++#define	P2P_ATTR_DEVICE_ID				0x03
++#define	P2P_ATTR_GO_INTENT				0x04
++#define	P2P_ATTR_CONF_TIMEOUT			0x05
++#define	P2P_ATTR_LISTEN_CH				0x06
++#define	P2P_ATTR_GROUP_BSSID				0x07
++#define	P2P_ATTR_EX_LISTEN_TIMING		0x08
++#define	P2P_ATTR_INTENTED_IF_ADDR		0x09
++#define	P2P_ATTR_MANAGEABILITY			0x0A
++#define	P2P_ATTR_CH_LIST					0x0B
++#define	P2P_ATTR_NOA						0x0C
++#define	P2P_ATTR_DEVICE_INFO				0x0D
++#define	P2P_ATTR_GROUP_INFO				0x0E
++#define	P2P_ATTR_GROUP_ID					0x0F
++#define	P2P_ATTR_INTERFACE				0x10
++#define	P2P_ATTR_OPERATING_CH			0x11
++#define	P2P_ATTR_INVITATION_FLAGS		0x12
++
++/*	Value of Status Attribute */
++#define	P2P_STATUS_SUCCESS						0x00
++#define	P2P_STATUS_FAIL_INFO_UNAVAILABLE		0x01
++#define	P2P_STATUS_FAIL_INCOMPATIBLE_PARAM		0x02
++#define	P2P_STATUS_FAIL_LIMIT_REACHED			0x03
++#define	P2P_STATUS_FAIL_INVALID_PARAM			0x04
++#define	P2P_STATUS_FAIL_REQUEST_UNABLE			0x05
++#define	P2P_STATUS_FAIL_PREVOUS_PROTO_ERR		0x06
++#define	P2P_STATUS_FAIL_NO_COMMON_CH			0x07
++#define	P2P_STATUS_FAIL_UNKNOWN_P2PGROUP		0x08
++#define	P2P_STATUS_FAIL_BOTH_GOINTENT_15		0x09
++#define	P2P_STATUS_FAIL_INCOMPATIBLE_PROVSION	0x0A
++#define	P2P_STATUS_FAIL_USER_REJECT				0x0B
++
++/*	Value of Inviation Flags Attribute */
++#define	P2P_INVITATION_FLAGS_PERSISTENT			BIT(0)
++
++#define	DMP_P2P_DEVCAP_SUPPORT	(P2P_DEVCAP_SERVICE_DISCOVERY | \
++				 P2P_DEVCAP_CLIENT_DISCOVERABILITY | \
++				 P2P_DEVCAP_CONCURRENT_OPERATION | \
++				 P2P_DEVCAP_INVITATION_PROC)
++
++#define	DMP_P2P_GRPCAP_SUPPORT	(P2P_GRPCAP_INTRABSS)
++
++/*	Value of Device Capability Bitmap */
++#define	P2P_DEVCAP_SERVICE_DISCOVERY		BIT(0)
++#define	P2P_DEVCAP_CLIENT_DISCOVERABILITY	BIT(1)
++#define	P2P_DEVCAP_CONCURRENT_OPERATION	BIT(2)
++#define	P2P_DEVCAP_INFRA_MANAGED			BIT(3)
++#define	P2P_DEVCAP_DEVICE_LIMIT				BIT(4)
++#define	P2P_DEVCAP_INVITATION_PROC			BIT(5)
++
++/*	Value of Group Capability Bitmap */
++#define	P2P_GRPCAP_GO							BIT(0)
++#define	P2P_GRPCAP_PERSISTENT_GROUP			BIT(1)
++#define	P2P_GRPCAP_GROUP_LIMIT				BIT(2)
++#define	P2P_GRPCAP_INTRABSS					BIT(3)
++#define	P2P_GRPCAP_CROSS_CONN				BIT(4)
++#define	P2P_GRPCAP_PERSISTENT_RECONN		BIT(5)
++#define	P2P_GRPCAP_GROUP_FORMATION			BIT(6)
++
++/*	P2P Public Action Frame ( Management Frame ) */
++#define	P2P_PUB_ACTION_ACTION				0x09
++
++/*	P2P Public Action Frame Type */
++#define	P2P_GO_NEGO_REQ						0
++#define	P2P_GO_NEGO_RESP						1
++#define	P2P_GO_NEGO_CONF						2
++#define	P2P_INVIT_REQ							3
++#define	P2P_INVIT_RESP							4
++#define	P2P_DEVDISC_REQ						5
++#define	P2P_DEVDISC_RESP						6
++#define	P2P_PROVISION_DISC_REQ				7
++#define	P2P_PROVISION_DISC_RESP				8
++
++/*	P2P Action Frame Type */
++#define	P2P_NOTICE_OF_ABSENCE	0
++#define	P2P_PRESENCE_REQUEST		1
++#define	P2P_PRESENCE_RESPONSE	2
++#define	P2P_GO_DISC_REQUEST		3
++
++
++#define	P2P_MAX_PERSISTENT_GROUP_NUM		10
++
++#define	P2P_PROVISIONING_SCAN_CNT			3
++
++#define	P2P_WILDCARD_SSID_LEN				7
++
++#define	P2P_FINDPHASE_EX_NONE				0	/* default value, used when: (1)p2p disabed or (2)p2p enabled but only do 1 scan phase */
++#define	P2P_FINDPHASE_EX_FULL				1	/* used when p2p enabled and want to do 1 scan phase and P2P_FINDPHASE_EX_MAX-1 find phase */
++#define	P2P_FINDPHASE_EX_SOCIAL_FIRST		(P2P_FINDPHASE_EX_FULL+1)
++#define	P2P_FINDPHASE_EX_MAX					4
++#define	P2P_FINDPHASE_EX_SOCIAL_LAST		P2P_FINDPHASE_EX_MAX
++
++#define	P2P_PROVISION_TIMEOUT				5000	/*	5 seconds timeout for sending the provision discovery request */
++#define	P2P_CONCURRENT_PROVISION_TIMEOUT	3000	/*	3 seconds timeout for sending the provision discovery request under concurrent mode */
++#define	P2P_GO_NEGO_TIMEOUT					5000	/*	5 seconds timeout for receiving the group negotation response */
++#define	P2P_CONCURRENT_GO_NEGO_TIMEOUT		3000	/*	3 seconds timeout for sending the negotiation request under concurrent mode */
++#define	P2P_TX_PRESCAN_TIMEOUT				100		/*	100ms */
++#define	P2P_INVITE_TIMEOUT					5000	/*	5 seconds timeout for sending the invitation request */
++#define	P2P_CONCURRENT_INVITE_TIMEOUT		3000	/*	3 seconds timeout for sending the invitation request under concurrent mode */
++#define	P2P_RESET_SCAN_CH						25000	/*	25 seconds timeout to reset the scan channel (based on channel plan) */
++#define	P2P_MAX_INTENT						15
++
++#define	P2P_MAX_NOA_NUM						2
++
++/*	WPS Configuration Method */
++#define	WPS_CM_NONE							0x0000
++#define	WPS_CM_LABEL							0x0004
++#define	WPS_CM_DISPLYA						0x0008
++#define	WPS_CM_EXTERNAL_NFC_TOKEN			0x0010
++#define	WPS_CM_INTEGRATED_NFC_TOKEN		0x0020
++#define	WPS_CM_NFC_INTERFACE					0x0040
++#define	WPS_CM_PUSH_BUTTON					0x0080
++#define	WPS_CM_KEYPAD						0x0100
++#define	WPS_CM_SW_PUHS_BUTTON				0x0280
++#define	WPS_CM_HW_PUHS_BUTTON				0x0480
++#define	WPS_CM_SW_DISPLAY_PIN				0x2008
++#define	WPS_CM_LCD_DISPLAY_PIN				0x4008
++
++enum P2P_ROLE {
++	P2P_ROLE_DISABLE = 0,
++	P2P_ROLE_DEVICE = 1,
++	P2P_ROLE_CLIENT = 2,
++	P2P_ROLE_GO = 3
++};
++
++enum P2P_STATE {
++	P2P_STATE_NONE = 0,							/*	P2P disable */
++	P2P_STATE_IDLE = 1,								/*	P2P had enabled and do nothing ,  buddy adapters is linked */
++	P2P_STATE_LISTEN = 2,							/*	In pure listen state */
++	P2P_STATE_SCAN = 3,							/*	In scan phase */
++	P2P_STATE_FIND_PHASE_LISTEN = 4,				/*	In the listen state of find phase */
++	P2P_STATE_FIND_PHASE_SEARCH = 5,				/*	In the search state of find phase */
++	P2P_STATE_TX_PROVISION_DIS_REQ = 6,			/*	In P2P provisioning discovery */
++	P2P_STATE_RX_PROVISION_DIS_RSP = 7,
++	P2P_STATE_RX_PROVISION_DIS_REQ = 8,
++	P2P_STATE_GONEGO_ING = 9,						/*	Doing the group owner negoitation handshake */
++	P2P_STATE_GONEGO_OK = 10,						/*	finish the group negoitation handshake with success */
++	P2P_STATE_GONEGO_FAIL = 11,					/*	finish the group negoitation handshake with failure */
++	P2P_STATE_RECV_INVITE_REQ_MATCH = 12,		/*	receiving the P2P Inviation request and match with the profile. */
++	P2P_STATE_PROVISIONING_ING = 13,				/*	Doing the P2P WPS */
++	P2P_STATE_PROVISIONING_DONE = 14,			/*	Finish the P2P WPS */
++	P2P_STATE_TX_INVITE_REQ = 15,					/*	Transmit the P2P Invitation request */
++	P2P_STATE_RX_INVITE_RESP_OK = 16,				/*	Receiving the P2P Invitation response */
++	P2P_STATE_RECV_INVITE_REQ_DISMATCH = 17,	/*	receiving the P2P Inviation request and dismatch with the profile. */
++	P2P_STATE_RECV_INVITE_REQ_GO = 18,			/*	receiving the P2P Inviation request and this wifi is GO. */
++	P2P_STATE_RECV_INVITE_REQ_JOIN = 19,			/*	receiving the P2P Inviation request to join an existing P2P Group. */
++	P2P_STATE_RX_INVITE_RESP_FAIL = 20,			/*	recveing the P2P Inviation response with failure */
++	P2P_STATE_RX_INFOR_NOREADY = 21,			/* receiving p2p negoitation response with information is not available */
++	P2P_STATE_TX_INFOR_NOREADY = 22,			/* sending p2p negoitation response with information is not available */
++};
++
++enum P2P_WPSINFO {
++	P2P_NO_WPSINFO						= 0,
++	P2P_GOT_WPSINFO_PEER_DISPLAY_PIN	= 1,
++	P2P_GOT_WPSINFO_SELF_DISPLAY_PIN	= 2,
++	P2P_GOT_WPSINFO_PBC					= 3,
++};
++
++#define	P2P_PRIVATE_IOCTL_SET_LEN		64
++
++enum P2P_PROTO_WK_ID {
++	P2P_FIND_PHASE_WK = 0,
++	P2P_RESTORE_STATE_WK = 1,
++	P2P_PRE_TX_PROVDISC_PROCESS_WK = 2,
++	P2P_PRE_TX_NEGOREQ_PROCESS_WK = 3,
++	P2P_PRE_TX_INVITEREQ_PROCESS_WK = 4,
++	P2P_AP_P2P_CH_SWITCH_PROCESS_WK = 5,
++	P2P_RO_CH_WK = 6,
++};
++
++#ifdef CONFIG_P2P_PS
++enum P2P_PS_STATE {
++	P2P_PS_DISABLE = 0,
++	P2P_PS_ENABLE = 1,
++	P2P_PS_SCAN = 2,
++	P2P_PS_SCAN_DONE = 3,
++	P2P_PS_ALLSTASLEEP = 4, /* for P2P GO */
++};
++
++enum P2P_PS_MODE {
++	P2P_PS_NONE = 0,
++	P2P_PS_CTWINDOW = 1,
++	P2P_PS_NOA	 = 2,
++	P2P_PS_MIX = 3, /* CTWindow and NoA */
++};
++#endif /* CONFIG_P2P_PS */
++
++/*	=====================WFD Section=====================
++ *	For Wi-Fi Display */
++#define	WFD_ATTR_DEVICE_INFO			0x00
++#define	WFD_ATTR_ASSOC_BSSID			0x01
++#define	WFD_ATTR_COUPLED_SINK_INFO	0x06
++#define	WFD_ATTR_LOCAL_IP_ADDR		0x08
++#define	WFD_ATTR_SESSION_INFO		0x09
++#define	WFD_ATTR_ALTER_MAC			0x0a
++
++/*	For WFD Device Information Attribute */
++#define	WFD_DEVINFO_SOURCE					0x0000
++#define	WFD_DEVINFO_PSINK					0x0001
++#define	WFD_DEVINFO_SSINK					0x0002
++#define	WFD_DEVINFO_DUAL					0x0003
++
++#define	WFD_DEVINFO_SESSION_AVAIL			0x0010
++#define	WFD_DEVINFO_WSD						0x0040
++#define	WFD_DEVINFO_PC_TDLS					0x0080
++#define	WFD_DEVINFO_HDCP_SUPPORT			0x0100
++
++#ifdef CONFIG_TX_MCAST2UNI
++#define IP_MCAST_MAC(mac)		((mac[0] == 0x01) && (mac[1] == 0x00) && (mac[2] == 0x5e))
++#define ICMPV6_MCAST_MAC(mac)	((mac[0] == 0x33) && (mac[1] == 0x33) && (mac[2] != 0xff))
++#endif /* CONFIG_TX_MCAST2UNI */
++
++#ifdef CONFIG_IOCTL_CFG80211
++/* Regulatroy Domain */
++struct regd_pair_mapping {
++	u16 reg_dmnenum;
++	u16 reg_5ghz_ctl;
++	u16 reg_2ghz_ctl;
++};
++
++struct rtw_regulatory {
++	char alpha2[2];
++	u16 country_code;
++	u16 max_power_level;
++	u32 tp_scale;
++	u16 current_rd;
++	u16 current_rd_ext;
++	int16_t power_limit;
++	struct regd_pair_mapping *regpair;
++};
++#endif
++
++#ifdef CONFIG_WAPI_SUPPORT
++#ifndef IW_AUTH_WAPI_VERSION_1
++#define IW_AUTH_WAPI_VERSION_1		0x00000008
++#endif
++#ifndef IW_AUTH_KEY_MGMT_WAPI_PSK
++#define IW_AUTH_KEY_MGMT_WAPI_PSK	0x04
++#endif
++#ifndef IW_AUTH_WAPI_ENABLED
++#define IW_AUTH_WAPI_ENABLED		0x20
++#endif
++#ifndef IW_ENCODE_ALG_SM4
++#define IW_ENCODE_ALG_SM4			0x20
++#endif
++#endif
++
++#endif /* _WIFI_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/wlan_bssdef.h b/drivers/net/wireless/rtl8723du/include/wlan_bssdef.h
+new file mode 100644
+index 0000000..dd39e0c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/wlan_bssdef.h
+@@ -0,0 +1,690 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __WLAN_BSSDEF_H__
++#define __WLAN_BSSDEF_H__
++
++
++#define MAX_IE_SZ	768
++
++
++#ifdef PLATFORM_LINUX
++
++#define NDIS_802_11_LENGTH_SSID         32
++#define NDIS_802_11_LENGTH_RATES        8
++#define NDIS_802_11_LENGTH_RATES_EX     16
++
++typedef unsigned char   NDIS_802_11_MAC_ADDRESS[6];
++typedef long    		NDIS_802_11_RSSI;           /* in dBm */
++typedef unsigned char   NDIS_802_11_RATES[NDIS_802_11_LENGTH_RATES];        /* Set of 8 data rates */
++typedef unsigned char   NDIS_802_11_RATES_EX[NDIS_802_11_LENGTH_RATES_EX];  /* Set of 16 data rates */
++
++
++typedef  ULONG  NDIS_802_11_KEY_INDEX;
++typedef unsigned long long NDIS_802_11_KEY_RSC;
++
++
++typedef struct _NDIS_802_11_SSID {
++	ULONG  SsidLength;
++	UCHAR  Ssid[32];
++} NDIS_802_11_SSID, *PNDIS_802_11_SSID;
++
++typedef enum _NDIS_802_11_NETWORK_TYPE {
++	Ndis802_11FH,
++	Ndis802_11DS,
++	Ndis802_11OFDM5,
++	Ndis802_11OFDM24,
++	Ndis802_11NetworkTypeMax    /* not a real type, defined as an upper bound */
++} NDIS_802_11_NETWORK_TYPE, *PNDIS_802_11_NETWORK_TYPE;
++
++typedef struct _NDIS_802_11_CONFIGURATION_FH {
++	ULONG           Length;             /* Length of structure */
++	ULONG           HopPattern;         /* As defined by 802.11, MSB set */
++	ULONG           HopSet;             /* to one if non-802.11 */
++	ULONG           DwellTime;          /* units are Kusec */
++} NDIS_802_11_CONFIGURATION_FH, *PNDIS_802_11_CONFIGURATION_FH;
++
++
++/*
++	FW will only save the channel number in DSConfig.
++	ODI Handler will convert the channel number to freq. number.
++*/
++typedef struct _NDIS_802_11_CONFIGURATION {
++	ULONG           Length;             /* Length of structure */
++	ULONG           BeaconPeriod;       /* units are Kusec */
++	ULONG           ATIMWindow;         /* units are Kusec */
++	ULONG           DSConfig;           /* channel number */
++	NDIS_802_11_CONFIGURATION_FH    FHConfig;
++} NDIS_802_11_CONFIGURATION, *PNDIS_802_11_CONFIGURATION;
++
++
++
++typedef enum _NDIS_802_11_NETWORK_INFRASTRUCTURE {
++	Ndis802_11IBSS,
++	Ndis802_11Infrastructure,
++	Ndis802_11AutoUnknown,
++	Ndis802_11InfrastructureMax,     /* Not a real value, defined as upper bound */
++	Ndis802_11APMode,
++	Ndis802_11Monitor,
++} NDIS_802_11_NETWORK_INFRASTRUCTURE, *PNDIS_802_11_NETWORK_INFRASTRUCTURE;
++
++
++
++
++
++typedef struct _NDIS_802_11_FIXED_IEs {
++	UCHAR  Timestamp[8];
++	USHORT  BeaconInterval;
++	USHORT  Capabilities;
++} NDIS_802_11_FIXED_IEs, *PNDIS_802_11_FIXED_IEs;
++
++
++
++typedef struct _NDIS_802_11_VARIABLE_IEs {
++	UCHAR  ElementID;
++	UCHAR  Length;
++	UCHAR  data[1];
++} NDIS_802_11_VARIABLE_IEs, *PNDIS_802_11_VARIABLE_IEs;
++
++
++
++/*
++
++
++
++Length is the 4 bytes multiples of the sume of
++	sizeof (NDIS_802_11_MAC_ADDRESS) + 2 + sizeof (NDIS_802_11_SSID) + sizeof (ULONG)
+++   sizeof (NDIS_802_11_RSSI) + sizeof (NDIS_802_11_NETWORK_TYPE) + sizeof (NDIS_802_11_CONFIGURATION)
+++   sizeof (NDIS_802_11_RATES_EX) + IELength
++
++Except the IELength, all other fields are fixed length. Therefore, we can define a marco to present the
++partial sum.
++
++*/
++#if 0
++typedef struct _NDIS_WLAN_BSSID_EX {
++	ULONG  Length;
++	NDIS_802_11_MAC_ADDRESS  MacAddress;
++	UCHAR  Reserved[2];/* [0]: IS beacon frame, [1]:optimum_antenna=>For antenna diversity; */
++	NDIS_802_11_SSID  Ssid;
++	ULONG  Privacy;
++	NDIS_802_11_RSSI  Rssi;
++	NDIS_802_11_NETWORK_TYPE  NetworkTypeInUse;
++	NDIS_802_11_CONFIGURATION  Configuration;
++	NDIS_802_11_NETWORK_INFRASTRUCTURE  InfrastructureMode;
++	NDIS_802_11_RATES_EX  SupportedRates;
++	ULONG  IELength;
++	UCHAR  IEs[MAX_IE_SZ];	/* (timestamp, beacon interval, and capability information) */
++} NDIS_WLAN_BSSID_EX, *PNDIS_WLAN_BSSID_EX;
++
++
++typedef struct _NDIS_802_11_BSSID_LIST_EX {
++	ULONG  NumberOfItems;
++	NDIS_WLAN_BSSID_EX  Bssid[1];
++} NDIS_802_11_BSSID_LIST_EX, *PNDIS_802_11_BSSID_LIST_EX;
++#endif
++
++typedef enum _NDIS_802_11_AUTHENTICATION_MODE {
++	Ndis802_11AuthModeOpen,
++	Ndis802_11AuthModeShared,
++	Ndis802_11AuthModeAutoSwitch,
++	Ndis802_11AuthModeWPA,
++	Ndis802_11AuthModeWPAPSK,
++	Ndis802_11AuthModeWPANone,
++	Ndis802_11AuthModeWAPI,
++	Ndis802_11AuthModeMax               /* Not a real mode, defined as upper bound */
++} NDIS_802_11_AUTHENTICATION_MODE, *PNDIS_802_11_AUTHENTICATION_MODE;
++
++typedef enum _NDIS_802_11_WEP_STATUS {
++	Ndis802_11WEPEnabled,
++	Ndis802_11Encryption1Enabled = Ndis802_11WEPEnabled,
++	Ndis802_11WEPDisabled,
++	Ndis802_11EncryptionDisabled = Ndis802_11WEPDisabled,
++	Ndis802_11WEPKeyAbsent,
++	Ndis802_11Encryption1KeyAbsent = Ndis802_11WEPKeyAbsent,
++	Ndis802_11WEPNotSupported,
++	Ndis802_11EncryptionNotSupported = Ndis802_11WEPNotSupported,
++	Ndis802_11Encryption2Enabled,
++	Ndis802_11Encryption2KeyAbsent,
++	Ndis802_11Encryption3Enabled,
++	Ndis802_11Encryption3KeyAbsent,
++	Ndis802_11_EncrypteionWAPI
++} NDIS_802_11_WEP_STATUS, *PNDIS_802_11_WEP_STATUS,
++NDIS_802_11_ENCRYPTION_STATUS, *PNDIS_802_11_ENCRYPTION_STATUS;
++
++
++#define NDIS_802_11_AI_REQFI_CAPABILITIES      1
++#define NDIS_802_11_AI_REQFI_LISTENINTERVAL    2
++#define NDIS_802_11_AI_REQFI_CURRENTAPADDRESS  4
++
++#define NDIS_802_11_AI_RESFI_CAPABILITIES      1
++#define NDIS_802_11_AI_RESFI_STATUSCODE        2
++#define NDIS_802_11_AI_RESFI_ASSOCIATIONID     4
++
++typedef struct _NDIS_802_11_AI_REQFI {
++	USHORT Capabilities;
++	USHORT ListenInterval;
++	NDIS_802_11_MAC_ADDRESS  CurrentAPAddress;
++} NDIS_802_11_AI_REQFI, *PNDIS_802_11_AI_REQFI;
++
++typedef struct _NDIS_802_11_AI_RESFI {
++	USHORT Capabilities;
++	USHORT StatusCode;
++	USHORT AssociationId;
++} NDIS_802_11_AI_RESFI, *PNDIS_802_11_AI_RESFI;
++
++typedef struct _NDIS_802_11_ASSOCIATION_INFORMATION {
++	ULONG                   Length;
++	USHORT                  AvailableRequestFixedIEs;
++	NDIS_802_11_AI_REQFI    RequestFixedIEs;
++	ULONG                   RequestIELength;
++	ULONG                   OffsetRequestIEs;
++	USHORT                  AvailableResponseFixedIEs;
++	NDIS_802_11_AI_RESFI    ResponseFixedIEs;
++	ULONG                   ResponseIELength;
++	ULONG                   OffsetResponseIEs;
++} NDIS_802_11_ASSOCIATION_INFORMATION, *PNDIS_802_11_ASSOCIATION_INFORMATION;
++
++typedef enum _NDIS_802_11_RELOAD_DEFAULTS {
++	Ndis802_11ReloadWEPKeys
++} NDIS_802_11_RELOAD_DEFAULTS, *PNDIS_802_11_RELOAD_DEFAULTS;
++
++
++/* Key mapping keys require a BSSID */
++typedef struct _NDIS_802_11_KEY {
++	ULONG           Length;             /* Length of this structure */
++	ULONG           KeyIndex;
++	ULONG           KeyLength;          /* length of key in bytes */
++	NDIS_802_11_MAC_ADDRESS BSSID;
++	NDIS_802_11_KEY_RSC KeyRSC;
++	UCHAR           KeyMaterial[32];     /* variable length depending on above field */
++} NDIS_802_11_KEY, *PNDIS_802_11_KEY;
++
++typedef struct _NDIS_802_11_REMOVE_KEY {
++	ULONG                   Length;        /* Length of this structure */
++	ULONG                   KeyIndex;
++	NDIS_802_11_MAC_ADDRESS BSSID;
++} NDIS_802_11_REMOVE_KEY, *PNDIS_802_11_REMOVE_KEY;
++
++typedef struct _NDIS_802_11_WEP {
++	ULONG     Length;        /* Length of this structure */
++	ULONG     KeyIndex;      /* 0 is the per-client key, 1-N are the global keys */
++	ULONG     KeyLength;     /* length of key in bytes */
++	UCHAR     KeyMaterial[16];/* variable length depending on above field */
++} NDIS_802_11_WEP, *PNDIS_802_11_WEP;
++
++typedef struct _NDIS_802_11_AUTHENTICATION_REQUEST {
++	ULONG Length;            /* Length of structure */
++	NDIS_802_11_MAC_ADDRESS Bssid;
++	ULONG Flags;
++} NDIS_802_11_AUTHENTICATION_REQUEST, *PNDIS_802_11_AUTHENTICATION_REQUEST;
++
++typedef enum _NDIS_802_11_STATUS_TYPE {
++	Ndis802_11StatusType_Authentication,
++	Ndis802_11StatusType_MediaStreamMode,
++	Ndis802_11StatusType_PMKID_CandidateList,
++	Ndis802_11StatusTypeMax    /* not a real type, defined as an upper bound */
++} NDIS_802_11_STATUS_TYPE, *PNDIS_802_11_STATUS_TYPE;
++
++typedef struct _NDIS_802_11_STATUS_INDICATION {
++	NDIS_802_11_STATUS_TYPE StatusType;
++} NDIS_802_11_STATUS_INDICATION, *PNDIS_802_11_STATUS_INDICATION;
++
++/* mask for authentication/integrity fields */
++#define NDIS_802_11_AUTH_REQUEST_AUTH_FIELDS        0x0f
++#define NDIS_802_11_AUTH_REQUEST_REAUTH			0x01
++#define NDIS_802_11_AUTH_REQUEST_KEYUPDATE		0x02
++#define NDIS_802_11_AUTH_REQUEST_PAIRWISE_ERROR		0x06
++#define NDIS_802_11_AUTH_REQUEST_GROUP_ERROR		0x0E
++
++/* MIC check time, 60 seconds. */
++#define MIC_CHECK_TIME	60000000
++
++typedef struct _NDIS_802_11_AUTHENTICATION_EVENT {
++	NDIS_802_11_STATUS_INDICATION       Status;
++	NDIS_802_11_AUTHENTICATION_REQUEST  Request[1];
++} NDIS_802_11_AUTHENTICATION_EVENT, *PNDIS_802_11_AUTHENTICATION_EVENT;
++
++typedef struct _NDIS_802_11_TEST {
++	ULONG Length;
++	ULONG Type;
++	union {
++		NDIS_802_11_AUTHENTICATION_EVENT AuthenticationEvent;
++		NDIS_802_11_RSSI RssiTrigger;
++	} tt;
++} NDIS_802_11_TEST, *PNDIS_802_11_TEST;
++
++
++#endif /* end of #ifdef PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++
++#define NDIS_802_11_LENGTH_SSID         32
++#define NDIS_802_11_LENGTH_RATES        8
++#define NDIS_802_11_LENGTH_RATES_EX     16
++
++typedef unsigned char   NDIS_802_11_MAC_ADDRESS[6];
++typedef long    		NDIS_802_11_RSSI;           /* in dBm */
++typedef unsigned char   NDIS_802_11_RATES[NDIS_802_11_LENGTH_RATES];        /* Set of 8 data rates */
++typedef unsigned char   NDIS_802_11_RATES_EX[NDIS_802_11_LENGTH_RATES_EX];  /* Set of 16 data rates */
++
++
++typedef  ULONG  NDIS_802_11_KEY_INDEX;
++typedef unsigned long long NDIS_802_11_KEY_RSC;
++
++
++typedef struct _NDIS_802_11_SSID {
++	ULONG  SsidLength;
++	UCHAR  Ssid[32];
++} NDIS_802_11_SSID, *PNDIS_802_11_SSID;
++
++typedef enum _NDIS_802_11_NETWORK_TYPE {
++	Ndis802_11FH,
++	Ndis802_11DS,
++	Ndis802_11OFDM5,
++	Ndis802_11OFDM24,
++	Ndis802_11NetworkTypeMax    /* not a real type, defined as an upper bound */
++} NDIS_802_11_NETWORK_TYPE, *PNDIS_802_11_NETWORK_TYPE;
++
++typedef struct _NDIS_802_11_CONFIGURATION_FH {
++	ULONG           Length;             /* Length of structure */
++	ULONG           HopPattern;         /* As defined by 802.11, MSB set */
++	ULONG           HopSet;             /* to one if non-802.11 */
++	ULONG           DwellTime;          /* units are Kusec */
++} NDIS_802_11_CONFIGURATION_FH, *PNDIS_802_11_CONFIGURATION_FH;
++
++
++/*
++	FW will only save the channel number in DSConfig.
++	ODI Handler will convert the channel number to freq. number.
++*/
++typedef struct _NDIS_802_11_CONFIGURATION {
++	ULONG           Length;             /* Length of structure */
++	ULONG           BeaconPeriod;       /* units are Kusec */
++	ULONG           ATIMWindow;         /* units are Kusec */
++	ULONG           DSConfig;           /* channel number */
++	NDIS_802_11_CONFIGURATION_FH    FHConfig;
++} NDIS_802_11_CONFIGURATION, *PNDIS_802_11_CONFIGURATION;
++
++
++
++typedef enum _NDIS_802_11_NETWORK_INFRASTRUCTURE {
++	Ndis802_11IBSS,
++	Ndis802_11Infrastructure,
++	Ndis802_11AutoUnknown,
++	Ndis802_11InfrastructureMax,     /* Not a real value, defined as upper bound */
++	Ndis802_11APMode
++} NDIS_802_11_NETWORK_INFRASTRUCTURE, *PNDIS_802_11_NETWORK_INFRASTRUCTURE;
++
++
++
++
++
++typedef struct _NDIS_802_11_FIXED_IEs {
++	UCHAR  Timestamp[8];
++	USHORT  BeaconInterval;
++	USHORT  Capabilities;
++} NDIS_802_11_FIXED_IEs, *PNDIS_802_11_FIXED_IEs;
++
++
++
++typedef struct _NDIS_802_11_VARIABLE_IEs {
++	UCHAR  ElementID;
++	UCHAR  Length;
++	UCHAR  data[1];
++} NDIS_802_11_VARIABLE_IEs, *PNDIS_802_11_VARIABLE_IEs;
++
++
++
++/*
++
++
++
++Length is the 4 bytes multiples of the sume of
++	sizeof (NDIS_802_11_MAC_ADDRESS) + 2 + sizeof (NDIS_802_11_SSID) + sizeof (ULONG)
+++   sizeof (NDIS_802_11_RSSI) + sizeof (NDIS_802_11_NETWORK_TYPE) + sizeof (NDIS_802_11_CONFIGURATION)
+++   sizeof (NDIS_802_11_RATES_EX) + IELength
++
++Except the IELength, all other fields are fixed length. Therefore, we can define a marco to present the
++partial sum.
++
++*/
++#if 0
++typedef struct _NDIS_WLAN_BSSID_EX {
++	ULONG  Length;
++	NDIS_802_11_MAC_ADDRESS  MacAddress;
++	UCHAR  Reserved[2];/* [0]: IS beacon frame, [1]:optimum_antenna=>For antenna diversity; */
++	NDIS_802_11_SSID  Ssid;
++	ULONG  Privacy;
++	NDIS_802_11_RSSI  Rssi;
++	NDIS_802_11_NETWORK_TYPE  NetworkTypeInUse;
++	NDIS_802_11_CONFIGURATION  Configuration;
++	NDIS_802_11_NETWORK_INFRASTRUCTURE  InfrastructureMode;
++	NDIS_802_11_RATES_EX  SupportedRates;
++	ULONG  IELength;
++	UCHAR  IEs[MAX_IE_SZ];	/* (timestamp, beacon interval, and capability information) */
++} NDIS_WLAN_BSSID_EX, *PNDIS_WLAN_BSSID_EX;
++
++
++typedef struct _NDIS_802_11_BSSID_LIST_EX {
++	ULONG  NumberOfItems;
++	NDIS_WLAN_BSSID_EX  Bssid[1];
++} NDIS_802_11_BSSID_LIST_EX, *PNDIS_802_11_BSSID_LIST_EX;
++#endif
++
++typedef enum _NDIS_802_11_AUTHENTICATION_MODE {
++	Ndis802_11AuthModeOpen,
++	Ndis802_11AuthModeShared,
++	Ndis802_11AuthModeAutoSwitch,
++	Ndis802_11AuthModeWPA,
++	Ndis802_11AuthModeWPAPSK,
++	Ndis802_11AuthModeWPANone,
++	Ndis802_11AuthModeMax               /* Not a real mode, defined as upper bound */
++} NDIS_802_11_AUTHENTICATION_MODE, *PNDIS_802_11_AUTHENTICATION_MODE;
++
++typedef enum _NDIS_802_11_WEP_STATUS {
++	Ndis802_11WEPEnabled,
++	Ndis802_11Encryption1Enabled = Ndis802_11WEPEnabled,
++	Ndis802_11WEPDisabled,
++	Ndis802_11EncryptionDisabled = Ndis802_11WEPDisabled,
++	Ndis802_11WEPKeyAbsent,
++	Ndis802_11Encryption1KeyAbsent = Ndis802_11WEPKeyAbsent,
++	Ndis802_11WEPNotSupported,
++	Ndis802_11EncryptionNotSupported = Ndis802_11WEPNotSupported,
++	Ndis802_11Encryption2Enabled,
++	Ndis802_11Encryption2KeyAbsent,
++	Ndis802_11Encryption3Enabled,
++	Ndis802_11Encryption3KeyAbsent
++} NDIS_802_11_WEP_STATUS, *PNDIS_802_11_WEP_STATUS,
++NDIS_802_11_ENCRYPTION_STATUS, *PNDIS_802_11_ENCRYPTION_STATUS;
++
++
++#define NDIS_802_11_AI_REQFI_CAPABILITIES      1
++#define NDIS_802_11_AI_REQFI_LISTENINTERVAL    2
++#define NDIS_802_11_AI_REQFI_CURRENTAPADDRESS  4
++
++#define NDIS_802_11_AI_RESFI_CAPABILITIES      1
++#define NDIS_802_11_AI_RESFI_STATUSCODE        2
++#define NDIS_802_11_AI_RESFI_ASSOCIATIONID     4
++
++typedef struct _NDIS_802_11_AI_REQFI {
++	USHORT Capabilities;
++	USHORT ListenInterval;
++	NDIS_802_11_MAC_ADDRESS  CurrentAPAddress;
++} NDIS_802_11_AI_REQFI, *PNDIS_802_11_AI_REQFI;
++
++typedef struct _NDIS_802_11_AI_RESFI {
++	USHORT Capabilities;
++	USHORT StatusCode;
++	USHORT AssociationId;
++} NDIS_802_11_AI_RESFI, *PNDIS_802_11_AI_RESFI;
++
++typedef struct _NDIS_802_11_ASSOCIATION_INFORMATION {
++	ULONG                   Length;
++	USHORT                  AvailableRequestFixedIEs;
++	NDIS_802_11_AI_REQFI    RequestFixedIEs;
++	ULONG                   RequestIELength;
++	ULONG                   OffsetRequestIEs;
++	USHORT                  AvailableResponseFixedIEs;
++	NDIS_802_11_AI_RESFI    ResponseFixedIEs;
++	ULONG                   ResponseIELength;
++	ULONG                   OffsetResponseIEs;
++} NDIS_802_11_ASSOCIATION_INFORMATION, *PNDIS_802_11_ASSOCIATION_INFORMATION;
++
++typedef enum _NDIS_802_11_RELOAD_DEFAULTS {
++	Ndis802_11ReloadWEPKeys
++} NDIS_802_11_RELOAD_DEFAULTS, *PNDIS_802_11_RELOAD_DEFAULTS;
++
++
++/* Key mapping keys require a BSSID */
++typedef struct _NDIS_802_11_KEY {
++	ULONG           Length;             /* Length of this structure */
++	ULONG           KeyIndex;
++	ULONG           KeyLength;          /* length of key in bytes */
++	NDIS_802_11_MAC_ADDRESS BSSID;
++	NDIS_802_11_KEY_RSC KeyRSC;
++	UCHAR           KeyMaterial[32];     /* variable length depending on above field */
++} NDIS_802_11_KEY, *PNDIS_802_11_KEY;
++
++typedef struct _NDIS_802_11_REMOVE_KEY {
++	ULONG                   Length;        /* Length of this structure */
++	ULONG                   KeyIndex;
++	NDIS_802_11_MAC_ADDRESS BSSID;
++} NDIS_802_11_REMOVE_KEY, *PNDIS_802_11_REMOVE_KEY;
++
++typedef struct _NDIS_802_11_WEP {
++	ULONG     Length;        /* Length of this structure */
++	ULONG     KeyIndex;      /* 0 is the per-client key, 1-N are the global keys */
++	ULONG     KeyLength;     /* length of key in bytes */
++	UCHAR     KeyMaterial[16];/* variable length depending on above field */
++} NDIS_802_11_WEP, *PNDIS_802_11_WEP;
++
++typedef struct _NDIS_802_11_AUTHENTICATION_REQUEST {
++	ULONG Length;            /* Length of structure */
++	NDIS_802_11_MAC_ADDRESS Bssid;
++	ULONG Flags;
++} NDIS_802_11_AUTHENTICATION_REQUEST, *PNDIS_802_11_AUTHENTICATION_REQUEST;
++
++typedef enum _NDIS_802_11_STATUS_TYPE {
++	Ndis802_11StatusType_Authentication,
++	Ndis802_11StatusType_MediaStreamMode,
++	Ndis802_11StatusType_PMKID_CandidateList,
++	Ndis802_11StatusTypeMax    /* not a real type, defined as an upper bound */
++} NDIS_802_11_STATUS_TYPE, *PNDIS_802_11_STATUS_TYPE;
++
++typedef struct _NDIS_802_11_STATUS_INDICATION {
++	NDIS_802_11_STATUS_TYPE StatusType;
++} NDIS_802_11_STATUS_INDICATION, *PNDIS_802_11_STATUS_INDICATION;
++
++/* mask for authentication/integrity fields */
++#define NDIS_802_11_AUTH_REQUEST_AUTH_FIELDS        0x0f
++#define NDIS_802_11_AUTH_REQUEST_REAUTH			0x01
++#define NDIS_802_11_AUTH_REQUEST_KEYUPDATE		0x02
++#define NDIS_802_11_AUTH_REQUEST_PAIRWISE_ERROR		0x06
++#define NDIS_802_11_AUTH_REQUEST_GROUP_ERROR		0x0E
++
++/* MIC check time, 60 seconds. */
++#define MIC_CHECK_TIME	60000000
++
++typedef struct _NDIS_802_11_AUTHENTICATION_EVENT {
++	NDIS_802_11_STATUS_INDICATION       Status;
++	NDIS_802_11_AUTHENTICATION_REQUEST  Request[1];
++} NDIS_802_11_AUTHENTICATION_EVENT, *PNDIS_802_11_AUTHENTICATION_EVENT;
++
++typedef struct _NDIS_802_11_TEST {
++	ULONG Length;
++	ULONG Type;
++	union {
++		NDIS_802_11_AUTHENTICATION_EVENT AuthenticationEvent;
++		NDIS_802_11_RSSI RssiTrigger;
++	} tt;
++} NDIS_802_11_TEST, *PNDIS_802_11_TEST;
++
++
++#endif /* PLATFORM_FREEBSD */
++#ifndef Ndis802_11APMode
++#define Ndis802_11APMode (Ndis802_11InfrastructureMax+1)
++#endif
++
++typedef struct _WLAN_PHY_INFO {
++	u8	SignalStrength;/* (in percentage) */
++	u8	SignalQuality;/* (in percentage) */
++	u8	Optimum_antenna;  /* for Antenna diversity */
++	u8	Reserved_0;
++} WLAN_PHY_INFO, *PWLAN_PHY_INFO;
++
++typedef struct _WLAN_BCN_INFO {
++	/* these infor get from rtw_get_encrypt_info when
++	 *	 * translate scan to UI */
++	u8 encryp_protocol;/* ENCRYP_PROTOCOL_E: OPEN/WEP/WPA/WPA2/WAPI */
++	int group_cipher; /* WPA/WPA2 group cipher */
++	int pairwise_cipher;/* //WPA/WPA2/WEP pairwise cipher */
++	int is_8021x;
++
++	/* bwmode 20/40 and ch_offset UP/LOW */
++	unsigned short	ht_cap_info;
++	unsigned char	ht_info_infos_0;
++} WLAN_BCN_INFO, *PWLAN_BCN_INFO;
++
++/* temporally add #pragma pack for structure alignment issue of
++*   WLAN_BSSID_EX and get_WLAN_BSSID_EX_sz()
++*/
++#ifdef PLATFORM_WINDOWS
++#pragma pack(push)
++#pragma pack(1)
++#endif
++typedef struct _WLAN_BSSID_EX {
++	ULONG  Length;
++	NDIS_802_11_MAC_ADDRESS  MacAddress;
++	UCHAR  Reserved[2];/* [0]: IS beacon frame */
++	NDIS_802_11_SSID  Ssid;
++	ULONG  Privacy;
++	NDIS_802_11_RSSI  Rssi;/* (in dBM,raw data ,get from PHY) */
++	NDIS_802_11_NETWORK_TYPE  NetworkTypeInUse;
++	NDIS_802_11_CONFIGURATION  Configuration;
++	NDIS_802_11_NETWORK_INFRASTRUCTURE  InfrastructureMode;
++	NDIS_802_11_RATES_EX  SupportedRates;
++	WLAN_PHY_INFO	PhyInfo;
++	ULONG  IELength;
++	UCHAR  IEs[MAX_IE_SZ];	/* (timestamp, beacon interval, and capability information) */
++}
++#ifndef PLATFORM_WINDOWS
++__attribute__((packed))
++#endif
++WLAN_BSSID_EX, *PWLAN_BSSID_EX;
++#ifdef PLATFORM_WINDOWS
++#pragma pack(pop)
++#endif
++
++#define BSS_EX_IES(bss_ex) ((bss_ex)->IEs)
++#define BSS_EX_IES_LEN(bss_ex) ((bss_ex)->IELength)
++#define BSS_EX_FIXED_IE_OFFSET(bss_ex) ((bss_ex)->Reserved[0] == 2 ? 0 : 12)
++#define BSS_EX_TLV_IES(bss_ex) (BSS_EX_IES((bss_ex)) + BSS_EX_FIXED_IE_OFFSET((bss_ex)))
++#define BSS_EX_TLV_IES_LEN(bss_ex) (BSS_EX_IES_LEN((bss_ex)) - BSS_EX_FIXED_IE_OFFSET((bss_ex)))
++
++__inline  static uint get_WLAN_BSSID_EX_sz(WLAN_BSSID_EX *bss)
++{
++#if 0
++	uint t_len;
++
++	t_len = sizeof(ULONG)
++		+ sizeof(NDIS_802_11_MAC_ADDRESS)
++		+ 2
++		+ sizeof(NDIS_802_11_SSID)
++		+ sizeof(ULONG)
++		+ sizeof(NDIS_802_11_RSSI)
++		+ sizeof(NDIS_802_11_NETWORK_TYPE)
++		+ sizeof(NDIS_802_11_CONFIGURATION)
++		+ sizeof(NDIS_802_11_NETWORK_INFRASTRUCTURE)
++		+ sizeof(NDIS_802_11_RATES_EX)
++		/* all new member add here */
++		+ sizeof(WLAN_PHY_INFO)
++		/* all new member add here */
++		+ sizeof(ULONG)
++		+ bss->IELength;
++	return t_len;
++#else
++	return sizeof(WLAN_BSSID_EX) - MAX_IE_SZ + bss->IELength;
++#endif
++}
++
++struct	wlan_network {
++	_list	list;
++	int	network_type;	/* refer to ieee80211.h for WIRELESS_11A/B/G */
++	int	fixed;			/* set to fixed when not to be removed as site-surveying */
++	unsigned long	last_scanned; /* timestamp for the network */
++	int	aid;			/* will only be valid when a BSS is joinned. */
++	int	join_res;
++	WLAN_BSSID_EX	network; /* must be the last item */
++	WLAN_BCN_INFO	BcnInfo;
++#ifdef PLATFORM_WINDOWS
++	unsigned char  iebuf[MAX_IE_SZ];
++#endif
++
++};
++
++enum VRTL_CARRIER_SENSE {
++	DISABLE_VCS,
++	ENABLE_VCS,
++	AUTO_VCS
++};
++
++enum VCS_TYPE {
++	NONE_VCS,
++	RTS_CTS,
++	CTS_TO_SELF
++};
++
++
++
++
++#define PWR_CAM 0
++#define PWR_MINPS 1
++#define PWR_MAXPS 2
++#define PWR_UAPSD 3
++#define PWR_VOIP 4
++
++
++enum UAPSD_MAX_SP {
++	NO_LIMIT,
++	TWO_MSDU,
++	FOUR_MSDU,
++	SIX_MSDU
++};
++
++
++/* john */
++#define NUM_PRE_AUTH_KEY 16
++#define NUM_PMKID_CACHE NUM_PRE_AUTH_KEY
++
++/*
++*	WPA2
++*/
++
++#ifndef PLATFORM_OS_CE
++typedef struct _PMKID_CANDIDATE {
++	NDIS_802_11_MAC_ADDRESS BSSID;
++	ULONG Flags;
++} PMKID_CANDIDATE, *PPMKID_CANDIDATE;
++
++typedef struct _NDIS_802_11_PMKID_CANDIDATE_LIST {
++	ULONG Version;       /* Version of the structure */
++	ULONG NumCandidates; /* No. of pmkid candidates */
++	PMKID_CANDIDATE CandidateList[1];
++} NDIS_802_11_PMKID_CANDIDATE_LIST, *PNDIS_802_11_PMKID_CANDIDATE_LIST;
++
++
++typedef struct _NDIS_802_11_AUTHENTICATION_ENCRYPTION {
++	NDIS_802_11_AUTHENTICATION_MODE AuthModeSupported;
++	NDIS_802_11_ENCRYPTION_STATUS EncryptStatusSupported;
++
++} NDIS_802_11_AUTHENTICATION_ENCRYPTION, *PNDIS_802_11_AUTHENTICATION_ENCRYPTION;
++
++typedef struct _NDIS_802_11_CAPABILITY {
++	ULONG  Length;
++	ULONG  Version;
++	ULONG  NoOfPMKIDs;
++	ULONG  NoOfAuthEncryptPairsSupported;
++	NDIS_802_11_AUTHENTICATION_ENCRYPTION AuthenticationEncryptionSupported[1];
++
++} NDIS_802_11_CAPABILITY, *PNDIS_802_11_CAPABILITY;
++#endif
++
++
++#endif /* #ifndef WLAN_BSSDEF_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/include/xmit_osdep.h b/drivers/net/wireless/rtl8723du/include/xmit_osdep.h
+new file mode 100644
+index 0000000..ea5725d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/include/xmit_osdep.h
+@@ -0,0 +1,99 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __XMIT_OSDEP_H_
++#define __XMIT_OSDEP_H_
++
++
++struct pkt_file {
++	_pkt *pkt;
++	SIZE_T pkt_len;	 /* the remainder length of the open_file */
++	_buffer *cur_buffer;
++	u8 *buf_start;
++	u8 *cur_addr;
++	SIZE_T buf_len;
++};
++
++#ifdef PLATFORM_WINDOWS
++
++#ifdef PLATFORM_OS_XP
++#ifdef CONFIG_USB_HCI
++#include <usb.h>
++#include <usbdlib.h>
++#include <usbioctl.h>
++#endif
++#endif
++
++#ifdef CONFIG_GSPI_HCI
++	#define NR_XMITFRAME     64
++#else
++	#define NR_XMITFRAME     128
++#endif
++
++#define ETH_ALEN	6
++
++extern NDIS_STATUS rtw_xmit_entry(
++	IN _nic_hdl		cnxt,
++	IN NDIS_PACKET		*pkt,
++	IN UINT				flags
++);
++
++#endif /* PLATFORM_WINDOWS */
++
++#ifdef PLATFORM_FREEBSD
++#define NR_XMITFRAME	256
++extern int rtw_xmit_entry(_pkt *pkt, _nic_hdl pnetdev);
++extern void rtw_xmit_entry_wrap(struct ifnet *pifp);
++#endif /* PLATFORM_FREEBSD */
++
++#ifdef PLATFORM_LINUX
++
++#define NR_XMITFRAME	256
++
++struct xmit_priv;
++struct pkt_attrib;
++struct sta_xmit_priv;
++struct xmit_frame;
++struct xmit_buf;
++
++extern int _rtw_xmit_entry(_pkt *pkt, _nic_hdl pnetdev);
++extern int rtw_xmit_entry(_pkt *pkt, _nic_hdl pnetdev);
++
++#endif /* PLATFORM_LINUX */
++
++void rtw_os_xmit_schedule(_adapter *padapter);
++
++int rtw_os_xmit_resource_alloc(_adapter *padapter, struct xmit_buf *pxmitbuf, u32 alloc_sz, u8 flag);
++void rtw_os_xmit_resource_free(_adapter *padapter, struct xmit_buf *pxmitbuf, u32 free_sz, u8 flag);
++
++extern void rtw_set_tx_chksum_offload(_pkt *pkt, struct pkt_attrib *pattrib);
++
++extern uint rtw_remainder_len(struct pkt_file *pfile);
++extern void _rtw_open_pktfile(_pkt *pkt, struct pkt_file *pfile);
++extern uint _rtw_pktfile_read(struct pkt_file *pfile, u8 *rmem, uint rlen);
++extern sint rtw_endofpktfile(struct pkt_file *pfile);
++
++extern void rtw_os_pkt_complete(_adapter *padapter, _pkt *pkt);
++extern void rtw_os_xmit_complete(_adapter *padapter, struct xmit_frame *pxframe);
++
++void rtw_os_wake_queue_at_free_stainfo(_adapter *padapter, int *qcnt_freed);
++
++void dump_os_queue(void *sel, _adapter *padapter);
++
++#endif /* __XMIT_OSDEP_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/custom_gpio_linux.c b/drivers/net/wireless/rtl8723du/os_dep/linux/custom_gpio_linux.c
+new file mode 100644
+index 0000000..4f10bbe
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/custom_gpio_linux.c
+@@ -0,0 +1,346 @@
++/******************************************************************************
++ * Customer code to add GPIO control during WLAN start/stop
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#include "drv_types.h"
++
++#ifdef CONFIG_PLATFORM_SPRD
++
++/* gspi func & GPIO define */
++#include <mach/gpio.h>/* 0915 */
++#include <mach/board.h>
++
++#if !(defined ANDROID_2X)
++
++#ifdef CONFIG_RTL8188E
++#include <mach/regulator.h>
++#include <linux/regulator/consumer.h>
++#endif /* CONFIG_RTL8188E */
++
++#ifndef GPIO_WIFI_POWER
++#define GPIO_WIFI_POWER -1
++#endif /* !GPIO_WIFI_POWER */
++
++#ifndef GPIO_WIFI_RESET
++#define GPIO_WIFI_RESET -1
++#endif /* !GPIO_WIFI_RESET */
++
++#ifndef GPIO_WIFI_PWDN
++#define GPIO_WIFI_PWDN -1
++#endif /* !GPIO_WIFI_RESET */
++#ifdef CONFIG_GSPI_HCI
++extern unsigned int oob_irq;
++#endif /* CONFIG_GSPI_HCI */
++
++#ifdef CONFIG_SDIO_HCI
++extern int rtw_mp_mode;
++#else /* !CONFIG_SDIO_HCI */
++#endif /* !CONFIG_SDIO_HCI */
++
++int rtw_wifi_gpio_init(void)
++{
++#ifdef CONFIG_GSPI_HCI
++	if (GPIO_WIFI_IRQ > 0) {
++		gpio_request(GPIO_WIFI_IRQ, "oob_irq");
++		gpio_direction_input(GPIO_WIFI_IRQ);
++
++		oob_irq = gpio_to_irq(GPIO_WIFI_IRQ);
++
++		RTW_INFO("%s oob_irq:%d\n", __func__, oob_irq);
++	}
++#endif
++	if (GPIO_WIFI_RESET > 0)
++		gpio_request(GPIO_WIFI_RESET , "wifi_rst");
++	if (GPIO_WIFI_POWER > 0)
++		gpio_request(GPIO_WIFI_POWER, "wifi_power");
++
++#ifdef CONFIG_SDIO_HCI
++#if (defined(CONFIG_RTL8723B)) && (MP_DRIVER == 1)
++	if (rtw_mp_mode == 1) {
++		RTW_INFO("%s GPIO_BT_RESET pin special for mp_test\n", __func__);
++		if (GPIO_BT_RESET > 0)
++			gpio_request(GPIO_BT_RESET , "bt_rst");
++	}
++#endif
++#endif
++	return 0;
++}
++
++int rtw_wifi_gpio_deinit(void)
++{
++#ifdef CONFIG_GSPI_HCI
++	if (GPIO_WIFI_IRQ > 0)
++		gpio_free(GPIO_WIFI_IRQ);
++#endif
++	if (GPIO_WIFI_RESET > 0)
++		gpio_free(GPIO_WIFI_RESET);
++	if (GPIO_WIFI_POWER > 0)
++		gpio_free(GPIO_WIFI_POWER);
++
++#ifdef CONFIG_SDIO_HCI
++#if (defined(CONFIG_RTL8723B)) && (MP_DRIVER == 1)
++	if (rtw_mp_mode == 1) {
++		RTW_INFO("%s GPIO_BT_RESET pin special for mp_test\n", __func__);
++		if (GPIO_BT_RESET > 0)
++			gpio_free(GPIO_BT_RESET);
++	}
++#endif
++#endif
++	return 0;
++}
++
++/* Customer function to control hw specific wlan gpios */
++void rtw_wifi_gpio_wlan_ctrl(int onoff)
++{
++	switch (onoff) {
++	case WLAN_PWDN_OFF:
++		RTW_INFO("%s: call customer specific GPIO(%d) to set wifi power down pin to 0\n",
++			 __FUNCTION__, GPIO_WIFI_RESET);
++
++#ifndef CONFIG_DONT_BUS_SCAN
++		if (GPIO_WIFI_RESET > 0)
++			gpio_direction_output(GPIO_WIFI_RESET , 0);
++#endif
++		break;
++
++	case WLAN_PWDN_ON:
++		RTW_INFO("%s: callc customer specific GPIO(%d) to set wifi power down pin to 1\n",
++			 __FUNCTION__, GPIO_WIFI_RESET);
++
++		if (GPIO_WIFI_RESET > 0)
++			gpio_direction_output(GPIO_WIFI_RESET , 1);
++		break;
++
++	case WLAN_POWER_OFF:
++		break;
++
++	case WLAN_POWER_ON:
++		break;
++#ifdef CONFIG_SDIO_HCI
++#if (defined(CONFIG_RTL8723B)) && (MP_DRIVER == 1)
++	case WLAN_BT_PWDN_OFF:
++		if (rtw_mp_mode == 1) {
++			RTW_INFO("%s: call customer specific GPIO to set wifi power down pin to 0\n",
++				 __FUNCTION__);
++			if (GPIO_BT_RESET > 0)
++				gpio_direction_output(GPIO_BT_RESET , 0);
++		}
++		break;
++
++	case WLAN_BT_PWDN_ON:
++		if (rtw_mp_mode == 1) {
++			RTW_INFO("%s: callc customer specific GPIO to set wifi power down pin to 1 %x\n",
++				 __FUNCTION__, GPIO_BT_RESET);
++
++			if (GPIO_BT_RESET > 0)
++				gpio_direction_output(GPIO_BT_RESET , 1);
++		}
++		break;
++#endif
++#endif
++	}
++}
++
++#else /* ANDROID_2X */
++
++#include <mach/ldo.h>
++
++#ifdef CONFIG_RTL8188E
++extern int sprd_3rdparty_gpio_wifi_power;
++#endif
++extern int sprd_3rdparty_gpio_wifi_pwd;
++#if  defined(CONFIG_RTL8723B)
++extern int sprd_3rdparty_gpio_bt_reset;
++#endif
++
++int rtw_wifi_gpio_init(void)
++{
++#if defined(CONFIG_RTL8723B)
++	if (sprd_3rdparty_gpio_bt_reset > 0)
++		gpio_direction_output(sprd_3rdparty_gpio_bt_reset, 1);
++#endif
++
++	return 0;
++}
++
++int rtw_wifi_gpio_deinit(void)
++{
++	return 0;
++}
++
++/* Customer function to control hw specific wlan gpios */
++void rtw_wifi_gpio_wlan_ctrl(int onoff)
++{
++	switch (onoff) {
++	case WLAN_PWDN_OFF:
++		RTW_INFO("%s: call customer specific GPIO to set wifi power down pin to 0\n",
++			 __FUNCTION__);
++		if (sprd_3rdparty_gpio_wifi_pwd > 0)
++			gpio_set_value(sprd_3rdparty_gpio_wifi_pwd, 0);
++
++		if (sprd_3rdparty_gpio_wifi_pwd == 60) {
++			RTW_INFO("%s: turn off VSIM2 2.8V\n", __func__);
++			LDO_TurnOffLDO(LDO_LDO_SIM2);
++		}
++		break;
++
++	case WLAN_PWDN_ON:
++		RTW_INFO("%s: callc customer specific GPIO to set wifi power down pin to 1\n",
++			 __FUNCTION__);
++		if (sprd_3rdparty_gpio_wifi_pwd == 60) {
++			RTW_INFO("%s: turn on VSIM2 2.8V\n", __func__);
++			LDO_SetVoltLevel(LDO_LDO_SIM2, LDO_VOLT_LEVEL0);
++			LDO_TurnOnLDO(LDO_LDO_SIM2);
++		}
++		if (sprd_3rdparty_gpio_wifi_pwd > 0)
++			gpio_set_value(sprd_3rdparty_gpio_wifi_pwd, 1);
++		break;
++
++	case WLAN_POWER_OFF:
++#ifdef CONFIG_RTL8188E
++#ifdef CONFIG_WIF1_LDO
++		RTW_INFO("%s: turn off VDD-WIFI0 1.2V\n", __FUNCTION__);
++		LDO_TurnOffLDO(LDO_LDO_WIF1);
++#endif /* CONFIG_WIF1_LDO */
++
++		RTW_INFO("%s: turn off VDD-WIFI0 3.3V\n", __FUNCTION__);
++		LDO_TurnOffLDO(LDO_LDO_WIF0);
++
++		RTW_INFO("%s: call customer specific GPIO(%d) to turn off wifi power\n",
++			 __FUNCTION__, sprd_3rdparty_gpio_wifi_power);
++		if (sprd_3rdparty_gpio_wifi_power != 65535)
++			gpio_set_value(sprd_3rdparty_gpio_wifi_power, 0);
++#endif
++		break;
++
++	case WLAN_POWER_ON:
++#ifdef CONFIG_RTL8188E
++		RTW_INFO("%s: call customer specific GPIO(%d) to turn on wifi power\n",
++			 __FUNCTION__, sprd_3rdparty_gpio_wifi_power);
++		if (sprd_3rdparty_gpio_wifi_power != 65535)
++			gpio_set_value(sprd_3rdparty_gpio_wifi_power, 1);
++
++		RTW_INFO("%s: turn on VDD-WIFI0 3.3V\n", __FUNCTION__);
++		LDO_TurnOnLDO(LDO_LDO_WIF0);
++		LDO_SetVoltLevel(LDO_LDO_WIF0, LDO_VOLT_LEVEL1);
++
++#ifdef CONFIG_WIF1_LDO
++		RTW_INFO("%s: turn on VDD-WIFI1 1.2V\n", __func__);
++		LDO_TurnOnLDO(LDO_LDO_WIF1);
++		LDO_SetVoltLevel(LDO_LDO_WIF1, LDO_VOLT_LEVEL3);
++#endif /* CONFIG_WIF1_LDO */
++#endif
++		break;
++
++	case WLAN_BT_PWDN_OFF:
++		RTW_INFO("%s: call customer specific GPIO to set bt power down pin to 0\n",
++			 __FUNCTION__);
++#if defined(CONFIG_RTL8723B)
++		if (sprd_3rdparty_gpio_bt_reset > 0)
++			gpio_set_value(sprd_3rdparty_gpio_bt_reset, 0);
++#endif
++		break;
++
++	case WLAN_BT_PWDN_ON:
++		RTW_INFO("%s: callc customer specific GPIO to set bt power down pin to 1\n",
++			 __FUNCTION__);
++#if defined(CONFIG_RTL8723B)
++		if (sprd_3rdparty_gpio_bt_reset > 0)
++			gpio_set_value(sprd_3rdparty_gpio_bt_reset, 1);
++#endif
++		break;
++	}
++}
++#endif /* ANDROID_2X */
++
++#elif defined(CONFIG_PLATFORM_ARM_RK3066)
++#include <mach/iomux.h>
++
++#define GPIO_WIFI_IRQ		RK30_PIN2_PC2
++extern unsigned int oob_irq;
++int rtw_wifi_gpio_init(void)
++{
++#ifdef CONFIG_GSPI_HCI
++	if (GPIO_WIFI_IRQ > 0) {
++		rk30_mux_api_set(GPIO2C2_LCDC1DATA18_SMCBLSN1_HSADCDATA5_NAME, GPIO2C_GPIO2C2);/* jacky_test */
++		gpio_request(GPIO_WIFI_IRQ, "oob_irq");
++		gpio_direction_input(GPIO_WIFI_IRQ);
++
++		oob_irq = gpio_to_irq(GPIO_WIFI_IRQ);
++
++		RTW_INFO("%s oob_irq:%d\n", __func__, oob_irq);
++	}
++#endif
++	return 0;
++}
++
++
++int rtw_wifi_gpio_deinit(void)
++{
++#ifdef CONFIG_GSPI_HCI
++	if (GPIO_WIFI_IRQ > 0)
++		gpio_free(GPIO_WIFI_IRQ);
++#endif
++	return 0;
++}
++
++void rtw_wifi_gpio_wlan_ctrl(int onoff)
++{
++}
++
++#ifdef CONFIG_GPIO_API
++/* this is a demo for extending GPIO pin[7] as interrupt mode */
++struct net_device *rtl_net;
++extern int rtw_register_gpio_interrupt(struct net_device *netdev, int gpio_num, void(*callback)(u8 level));
++extern int rtw_disable_gpio_interrupt(struct net_device *netdev, int gpio_num);
++void gpio_int(u8 is_high)
++{
++	RTW_INFO("%s level=%d\n", __func__, is_high);
++}
++int register_net_gpio_init(void)
++{
++	rtl_net = dev_get_by_name(&init_net, "wlan0");
++	if (!rtl_net) {
++		RTW_PRINT("rtl_net init fail!\n");
++		return -1;
++	}
++	return rtw_register_gpio_interrupt(rtl_net, 7, gpio_int);
++}
++int unregister_net_gpio_init(void)
++{
++	rtl_net = dev_get_by_name(&init_net, "wlan0");
++	if (!rtl_net) {
++		RTW_PRINT("rtl_net init fail!\n");
++		return -1;
++	}
++	return rtw_disable_gpio_interrupt(rtl_net, 7);
++}
++#endif
++
++#else
++
++int rtw_wifi_gpio_init(void)
++{
++	return 0;
++}
++
++void rtw_wifi_gpio_wlan_ctrl(int onoff)
++{
++}
++#endif /* CONFIG_PLATFORM_SPRD */
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_cfg80211.c b/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_cfg80211.c
+new file mode 100755
+index 0000000..cd8cb08
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_cfg80211.c
+@@ -0,0 +1,6633 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define  _IOCTL_CFG80211_C_
++
++#include <drv_types.h>
++
++#ifdef CONFIG_IOCTL_CFG80211
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 0, 0))
++#define STATION_INFO_SIGNAL		BIT(NL80211_STA_INFO_SIGNAL)
++#define STATION_INFO_TX_BITRATE		BIT(NL80211_STA_INFO_TX_BITRATE)
++#define STATION_INFO_RX_PACKETS		BIT(NL80211_STA_INFO_RX_PACKETS)
++#define STATION_INFO_TX_PACKETS		BIT(NL80211_STA_INFO_TX_PACKETS)
++#define STATION_INFO_ASSOC_REQ_IES	0
++#endif /* Linux kernel >= 4.0.0 */
++
++#include <rtw_wifi_regd.h>
++
++#define RTW_MAX_MGMT_TX_CNT (8)
++#define RTW_MAX_MGMT_TX_MS_GAS (500)
++
++#define RTW_SCAN_IE_LEN_MAX      2304
++#define RTW_MAX_REMAIN_ON_CHANNEL_DURATION 5000 /* ms */
++#define RTW_MAX_NUM_PMKIDS 4
++
++#define RTW_CH_MAX_2G_CHANNEL               14      /* Max channel in 2G band */
++
++#ifdef CONFIG_WAPI_SUPPORT
++
++#ifndef WLAN_CIPHER_SUITE_SMS4
++#define WLAN_CIPHER_SUITE_SMS4          0x00147201
++#endif
++
++#ifndef WLAN_AKM_SUITE_WAPI_PSK
++#define WLAN_AKM_SUITE_WAPI_PSK         0x000FAC04
++#endif
++
++#ifndef WLAN_AKM_SUITE_WAPI_CERT
++#define WLAN_AKM_SUITE_WAPI_CERT        0x000FAC12
++#endif
++
++#ifndef NL80211_WAPI_VERSION_1
++#define NL80211_WAPI_VERSION_1          (1 << 2)
++#endif
++
++#endif /* CONFIG_WAPI_SUPPORT */
++
++#ifdef CONFIG_RTW_80211R
++#define WLAN_AKM_SUITE_FT_8021X		0x000FAC03
++#define WLAN_AKM_SUITE_FT_PSK			0x000FAC04
++#endif
++
++static const u32 rtw_cipher_suites[] = {
++	WLAN_CIPHER_SUITE_WEP40,
++	WLAN_CIPHER_SUITE_WEP104,
++	WLAN_CIPHER_SUITE_TKIP,
++	WLAN_CIPHER_SUITE_CCMP,
++#ifdef CONFIG_WAPI_SUPPORT
++	WLAN_CIPHER_SUITE_SMS4,
++#endif /* CONFIG_WAPI_SUPPORT */
++#ifdef CONFIG_IEEE80211W
++	WLAN_CIPHER_SUITE_AES_CMAC,
++#endif /* CONFIG_IEEE80211W */
++};
++
++#define RATETAB_ENT(_rate, _rateid, _flags) \
++	{								\
++		.bitrate	= (_rate),				\
++		.hw_value	= (_rateid),				\
++		.flags		= (_flags),				\
++	}
++
++#define CHAN2G(_channel, _freq, _flags) {			\
++		.band			= NL80211_BAND_2GHZ,		\
++		.center_freq		= (_freq),			\
++		.hw_value		= (_channel),			\
++		.flags			= (_flags),			\
++		.max_antenna_gain	= 0,				\
++		.max_power		= 30,				\
++	}
++
++#define CHAN5G(_channel, _flags) {				\
++		.band			= NL80211_BAND_5GHZ,		\
++		.center_freq		= 5000 + (5 * (_channel)),	\
++		.hw_value		= (_channel),			\
++		.flags			= (_flags),			\
++		.max_antenna_gain	= 0,				\
++		.max_power		= 30,				\
++	}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
++/* if wowlan is not supported, kernel generate a disconnect at each suspend
++ * cf: /net/wireless/sysfs.c, so register a stub wowlan.
++ * Moreover wowlan has to be enabled via a the nl80211_set_wowlan callback.
++ * (from user space, e.g. iw phy0 wowlan enable)
++ */
++static const struct wiphy_wowlan_support wowlan_stub = {
++	.flags = WIPHY_WOWLAN_ANY,
++	.n_patterns = 0,
++	.pattern_max_len = 0,
++	.pattern_min_len = 0,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 10, 0))
++	.max_pkt_offset = 0,
++#endif
++};
++#endif
++
++static struct ieee80211_rate rtw_rates[] = {
++	RATETAB_ENT(10,  0x1,   0),
++	RATETAB_ENT(20,  0x2,   0),
++	RATETAB_ENT(55,  0x4,   0),
++	RATETAB_ENT(110, 0x8,   0),
++	RATETAB_ENT(60,  0x10,  0),
++	RATETAB_ENT(90,  0x20,  0),
++	RATETAB_ENT(120, 0x40,  0),
++	RATETAB_ENT(180, 0x80,  0),
++	RATETAB_ENT(240, 0x100, 0),
++	RATETAB_ENT(360, 0x200, 0),
++	RATETAB_ENT(480, 0x400, 0),
++	RATETAB_ENT(540, 0x800, 0),
++};
++
++#define rtw_a_rates		(rtw_rates + 4)
++#define RTW_A_RATES_NUM	8
++#define rtw_g_rates		(rtw_rates + 0)
++#define RTW_G_RATES_NUM	12
++
++#define RTW_2G_CHANNELS_NUM 14
++#define RTW_5G_CHANNELS_NUM 37
++
++static struct ieee80211_channel rtw_2ghz_channels[] = {
++	CHAN2G(1, 2412, 0),
++	CHAN2G(2, 2417, 0),
++	CHAN2G(3, 2422, 0),
++	CHAN2G(4, 2427, 0),
++	CHAN2G(5, 2432, 0),
++	CHAN2G(6, 2437, 0),
++	CHAN2G(7, 2442, 0),
++	CHAN2G(8, 2447, 0),
++	CHAN2G(9, 2452, 0),
++	CHAN2G(10, 2457, 0),
++	CHAN2G(11, 2462, 0),
++	CHAN2G(12, 2467, 0),
++	CHAN2G(13, 2472, 0),
++	CHAN2G(14, 2484, 0),
++};
++
++static struct ieee80211_channel rtw_5ghz_a_channels[] = {
++	CHAN5G(34, 0),		CHAN5G(36, 0),
++	CHAN5G(38, 0),		CHAN5G(40, 0),
++	CHAN5G(42, 0),		CHAN5G(44, 0),
++	CHAN5G(46, 0),		CHAN5G(48, 0),
++	CHAN5G(52, 0),		CHAN5G(56, 0),
++	CHAN5G(60, 0),		CHAN5G(64, 0),
++	CHAN5G(100, 0),		CHAN5G(104, 0),
++	CHAN5G(108, 0),		CHAN5G(112, 0),
++	CHAN5G(116, 0),		CHAN5G(120, 0),
++	CHAN5G(124, 0),		CHAN5G(128, 0),
++	CHAN5G(132, 0),		CHAN5G(136, 0),
++	CHAN5G(140, 0),		CHAN5G(149, 0),
++	CHAN5G(153, 0),		CHAN5G(157, 0),
++	CHAN5G(161, 0),		CHAN5G(165, 0),
++	CHAN5G(184, 0),		CHAN5G(188, 0),
++	CHAN5G(192, 0),		CHAN5G(196, 0),
++	CHAN5G(200, 0),		CHAN5G(204, 0),
++	CHAN5G(208, 0),		CHAN5G(212, 0),
++	CHAN5G(216, 0),
++};
++
++
++void rtw_2g_channels_init(struct ieee80211_channel *channels)
++{
++	_rtw_memcpy((void *)channels, (void *)rtw_2ghz_channels,
++		sizeof(struct ieee80211_channel) * RTW_2G_CHANNELS_NUM
++	);
++}
++
++void rtw_5g_channels_init(struct ieee80211_channel *channels)
++{
++	_rtw_memcpy((void *)channels, (void *)rtw_5ghz_a_channels,
++		sizeof(struct ieee80211_channel) * RTW_5G_CHANNELS_NUM
++	);
++}
++
++void rtw_2g_rates_init(struct ieee80211_rate *rates)
++{
++	_rtw_memcpy(rates, rtw_g_rates,
++		sizeof(struct ieee80211_rate) * RTW_G_RATES_NUM
++	);
++}
++
++void rtw_5g_rates_init(struct ieee80211_rate *rates)
++{
++	_rtw_memcpy(rates, rtw_a_rates,
++		sizeof(struct ieee80211_rate) * RTW_A_RATES_NUM
++	);
++}
++
++struct ieee80211_supported_band *rtw_spt_band_alloc(
++	enum nl80211_band band
++)
++{
++	struct ieee80211_supported_band *spt_band = NULL;
++	int n_channels, n_bitrates;
++
++	if (band == NL80211_BAND_2GHZ) {
++		n_channels = RTW_2G_CHANNELS_NUM;
++		n_bitrates = RTW_G_RATES_NUM;
++	} else if (band == NL80211_BAND_5GHZ) {
++		n_channels = RTW_5G_CHANNELS_NUM;
++		n_bitrates = RTW_A_RATES_NUM;
++	} else
++		goto exit;
++
++	spt_band = (struct ieee80211_supported_band *)rtw_zmalloc(
++		sizeof(struct ieee80211_supported_band)
++		+ sizeof(struct ieee80211_channel) * n_channels
++		+ sizeof(struct ieee80211_rate) * n_bitrates
++	);
++	if (!spt_band)
++		goto exit;
++
++	spt_band->channels = (struct ieee80211_channel *)(((u8 *)spt_band) + sizeof(struct ieee80211_supported_band));
++	spt_band->bitrates = (struct ieee80211_rate *)(((u8 *)spt_band->channels) + sizeof(struct ieee80211_channel) * n_channels);
++	spt_band->band = band;
++	spt_band->n_channels = n_channels;
++	spt_band->n_bitrates = n_bitrates;
++
++	if (band == NL80211_BAND_2GHZ) {
++		rtw_2g_channels_init(spt_band->channels);
++		rtw_2g_rates_init(spt_band->bitrates);
++	} else if (band == NL80211_BAND_5GHZ) {
++		rtw_5g_channels_init(spt_band->channels);
++		rtw_5g_rates_init(spt_band->bitrates);
++	}
++
++	/* spt_band.ht_cap */
++
++exit:
++
++	return spt_band;
++}
++
++void rtw_spt_band_free(struct ieee80211_supported_band *spt_band)
++{
++	u32 size = 0;
++
++	if (!spt_band)
++		return;
++
++	if (spt_band->band == NL80211_BAND_2GHZ) {
++		size = sizeof(struct ieee80211_supported_band)
++			+ sizeof(struct ieee80211_channel) * RTW_2G_CHANNELS_NUM
++			+ sizeof(struct ieee80211_rate) * RTW_G_RATES_NUM;
++	} else if (spt_band->band == NL80211_BAND_5GHZ) {
++		size = sizeof(struct ieee80211_supported_band)
++			+ sizeof(struct ieee80211_channel) * RTW_5G_CHANNELS_NUM
++			+ sizeof(struct ieee80211_rate) * RTW_A_RATES_NUM;
++	} else {
++
++	}
++	rtw_mfree((u8 *)spt_band, size);
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++static const struct ieee80211_txrx_stypes
++	rtw_cfg80211_default_mgmt_stypes[NUM_NL80211_IFTYPES] = {
++	[NL80211_IFTYPE_ADHOC] = {
++		.tx = 0xffff,
++		.rx = BIT(IEEE80211_STYPE_ACTION >> 4)
++	},
++	[NL80211_IFTYPE_STATION] = {
++		.tx = 0xffff,
++		.rx = BIT(IEEE80211_STYPE_ACTION >> 4) |
++		BIT(IEEE80211_STYPE_PROBE_REQ >> 4)
++	},
++	[NL80211_IFTYPE_AP] = {
++		.tx = 0xffff,
++		.rx = BIT(IEEE80211_STYPE_ASSOC_REQ >> 4) |
++		BIT(IEEE80211_STYPE_REASSOC_REQ >> 4) |
++		BIT(IEEE80211_STYPE_PROBE_REQ >> 4) |
++		BIT(IEEE80211_STYPE_DISASSOC >> 4) |
++		BIT(IEEE80211_STYPE_AUTH >> 4) |
++		BIT(IEEE80211_STYPE_DEAUTH >> 4) |
++		BIT(IEEE80211_STYPE_ACTION >> 4)
++	},
++	[NL80211_IFTYPE_AP_VLAN] = {
++		/* copy AP */
++		.tx = 0xffff,
++		.rx = BIT(IEEE80211_STYPE_ASSOC_REQ >> 4) |
++		BIT(IEEE80211_STYPE_REASSOC_REQ >> 4) |
++		BIT(IEEE80211_STYPE_PROBE_REQ >> 4) |
++		BIT(IEEE80211_STYPE_DISASSOC >> 4) |
++		BIT(IEEE80211_STYPE_AUTH >> 4) |
++		BIT(IEEE80211_STYPE_DEAUTH >> 4) |
++		BIT(IEEE80211_STYPE_ACTION >> 4)
++	},
++	[NL80211_IFTYPE_P2P_CLIENT] = {
++		.tx = 0xffff,
++		.rx = BIT(IEEE80211_STYPE_ACTION >> 4) |
++		BIT(IEEE80211_STYPE_PROBE_REQ >> 4)
++	},
++	[NL80211_IFTYPE_P2P_GO] = {
++		.tx = 0xffff,
++		.rx = BIT(IEEE80211_STYPE_ASSOC_REQ >> 4) |
++		BIT(IEEE80211_STYPE_REASSOC_REQ >> 4) |
++		BIT(IEEE80211_STYPE_PROBE_REQ >> 4) |
++		BIT(IEEE80211_STYPE_DISASSOC >> 4) |
++		BIT(IEEE80211_STYPE_AUTH >> 4) |
++		BIT(IEEE80211_STYPE_DEAUTH >> 4) |
++		BIT(IEEE80211_STYPE_ACTION >> 4)
++	},
++};
++#endif
++
++static u64 rtw_get_systime_us(void)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 39))
++	struct timespec ts;
++	get_monotonic_boottime(&ts);
++	return ((u64)ts.tv_sec * 1000000) + ts.tv_nsec / 1000;
++#else
++	struct timeval tv;
++	do_gettimeofday(&tv);
++	return ((u64)tv.tv_sec * 1000000) + tv.tv_usec;
++#endif
++}
++
++#define MAX_BSSINFO_LEN 1000
++struct cfg80211_bss *rtw_cfg80211_inform_bss(_adapter *padapter, struct wlan_network *pnetwork)
++{
++	struct ieee80211_channel *notify_channel;
++	struct cfg80211_bss *bss = NULL;
++	/* struct ieee80211_supported_band *band;       */
++	u16 channel;
++	u32 freq;
++	u64 notify_timestamp;
++	u16 notify_capability;
++	u16 notify_interval;
++	u8 *notify_ie;
++	size_t notify_ielen;
++	s32 notify_signal;
++	/* u8 buf[MAX_BSSINFO_LEN]; */
++
++	u8 *pbuf;
++	size_t buf_size = MAX_BSSINFO_LEN;
++	size_t len, bssinf_len = 0;
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	unsigned short *fctrl;
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++	struct wireless_dev *wdev = padapter->rtw_wdev;
++	struct wiphy *wiphy = wdev->wiphy;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	pbuf = rtw_zmalloc(buf_size);
++	if (pbuf == NULL) {
++		RTW_INFO("%s pbuf allocate failed  !!\n", __FUNCTION__);
++		return bss;
++	}
++
++	/* RTW_INFO("%s\n", __func__); */
++
++	bssinf_len = pnetwork->network.IELength + sizeof(struct rtw_ieee80211_hdr_3addr);
++	if (bssinf_len > buf_size) {
++		RTW_INFO("%s IE Length too long > %zu byte\n", __FUNCTION__, buf_size);
++		goto exit;
++	}
++
++#ifndef CONFIG_WAPI_SUPPORT
++	{
++		u16 wapi_len = 0;
++
++		if (rtw_get_wapi_ie(pnetwork->network.IEs, pnetwork->network.IELength, NULL, &wapi_len) > 0) {
++			if (wapi_len > 0) {
++				RTW_INFO("%s, no support wapi!\n", __FUNCTION__);
++				goto exit;
++			}
++		}
++	}
++#endif /* !CONFIG_WAPI_SUPPORT */
++
++	/* To reduce PBC Overlap rate */
++	/* _enter_critical_bh(&pwdev_priv->scan_req_lock, &irqL); */
++	if (adapter_wdev_data(padapter)->scan_request != NULL) {
++		u8 *psr = NULL, sr = 0;
++		NDIS_802_11_SSID *pssid = &pnetwork->network.Ssid;
++		struct cfg80211_scan_request *request = adapter_wdev_data(padapter)->scan_request;
++		struct cfg80211_ssid *ssids = request->ssids;
++		u32 wpsielen = 0;
++		u8 *wpsie = NULL;
++
++		wpsie = rtw_get_wps_ie(pnetwork->network.IEs + _FIXED_IE_LENGTH_, pnetwork->network.IELength - _FIXED_IE_LENGTH_, NULL, &wpsielen);
++
++		if (wpsie && wpsielen > 0)
++			psr = rtw_get_wps_attr_content(wpsie,  wpsielen, WPS_ATTR_SELECTED_REGISTRAR, (u8 *)(&sr), NULL);
++
++		if (sr != 0) {
++			if (request->n_ssids == 1 && request->n_channels == 1) { /* it means under processing WPS */
++				RTW_INFO("ssid=%s, len=%d\n", pssid->Ssid, pssid->SsidLength);
++
++				if (ssids[0].ssid_len == 0) {
++				} else if (pssid->SsidLength == ssids[0].ssid_len &&
++					_rtw_memcmp(pssid->Ssid, ssids[0].ssid, ssids[0].ssid_len))
++					RTW_INFO("%s, got sr and ssid match!\n", __func__);
++				else {
++					if (psr != NULL)
++						*psr = 0; /* clear sr */
++
++#if 0
++					WLAN_BSSID_EX  *pselect_network = &pnetwork->network;
++					struct cfg80211_bss *pselect_bss = NULL;
++					struct ieee80211_channel *notify_channel = NULL;
++					u32 freq;
++
++					RTW_INFO("%s, got sr, but ssid mismatch, to remove this bss\n", __func__);
++
++					freq = rtw_ch2freq(pselect_network->Configuration.DSConfig);
++					notify_channel = ieee80211_get_channel(wiphy, freq);
++					pselect_bss = cfg80211_get_bss(wiphy, NULL/*notify_channel*/,
++						pselect_network->MacAddress, pselect_network->Ssid.Ssid,
++						pselect_network->Ssid.SsidLength, 0/*WLAN_CAPABILITY_ESS*/,
++						0/*WLAN_CAPABILITY_ESS*/);
++
++					if (pselect_bss) {
++						RTW_INFO("%s, got bss for cfg80211 for unlinking bss\n", __func__);
++
++						cfg80211_unlink_bss(wiphy, pselect_bss);
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(3, 9, 0)
++						cfg80211_put_bss(wiphy, pselect_bss);
++#else
++						cfg80211_put_bss(pselect_bss);
++#endif
++
++					}
++
++					goto exit;
++#endif
++				}
++			}
++		}
++	}
++	/* _exit_critical_bh(&pwdev_priv->scan_req_lock, &irqL); */
++
++
++	channel = pnetwork->network.Configuration.DSConfig;
++	freq = rtw_ch2freq(channel);
++	notify_channel = ieee80211_get_channel(wiphy, freq);
++
++	if (0)
++		notify_timestamp = le64_to_cpu(*(u64 *)rtw_get_timestampe_from_ie(pnetwork->network.IEs));
++	else
++		notify_timestamp = rtw_get_systime_us();
++
++	notify_interval = le16_to_cpu(*(u16 *)rtw_get_beacon_interval_from_ie(pnetwork->network.IEs));
++	notify_capability = le16_to_cpu(*(u16 *)rtw_get_capability_from_ie(pnetwork->network.IEs));
++
++	notify_ie = pnetwork->network.IEs + _FIXED_IE_LENGTH_;
++	notify_ielen = pnetwork->network.IELength - _FIXED_IE_LENGTH_;
++
++	/* We've set wiphy's signal_type as CFG80211_SIGNAL_TYPE_MBM: signal strength in mBm (100*dBm) */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE &&
++		is_same_network(&pmlmepriv->cur_network.network, &pnetwork->network, 0)) {
++		notify_signal = 100 * translate_percentage_to_dbm(padapter->recvpriv.signal_strength); /* dbm */
++	} else {
++		notify_signal = 100 * translate_percentage_to_dbm(pnetwork->network.PhyInfo.SignalStrength); /* dbm */
++	}
++
++#if 0
++	RTW_INFO("bssid: "MAC_FMT"\n", MAC_ARG(pnetwork->network.MacAddress));
++	RTW_INFO("Channel: %d(%d)\n", channel, freq);
++	RTW_INFO("Capability: %X\n", notify_capability);
++	RTW_INFO("Beacon interval: %d\n", notify_interval);
++	RTW_INFO("Signal: %d\n", notify_signal);
++	RTW_INFO("notify_timestamp: %llu\n", notify_timestamp);
++#endif
++
++	/* pbuf = buf; */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pbuf;
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	SetSeqNum(pwlanhdr, 0/*pmlmeext->mgnt_seq*/);
++	/* pmlmeext->mgnt_seq++; */
++
++	if (pnetwork->network.Reserved[0] == 1) { /* WIFI_BEACON */
++		_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++		SetFrameSubType(pbuf, WIFI_BEACON);
++	} else {
++		_rtw_memcpy(pwlanhdr->addr1, adapter_mac_addr(padapter), ETH_ALEN);
++		SetFrameSubType(pbuf, WIFI_PROBERSP);
++	}
++
++	_rtw_memcpy(pwlanhdr->addr2, pnetwork->network.MacAddress, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, pnetwork->network.MacAddress, ETH_ALEN);
++
++
++	/* pbuf += sizeof(struct rtw_ieee80211_hdr_3addr); */
++	len = sizeof(struct rtw_ieee80211_hdr_3addr);
++	_rtw_memcpy((pbuf + len), pnetwork->network.IEs, pnetwork->network.IELength);
++	*((u64 *)(pbuf + len)) = cpu_to_le64(notify_timestamp);
++
++	len += pnetwork->network.IELength;
++
++	#if defined(CONFIG_P2P) && 0
++	if(rtw_get_p2p_ie(pnetwork->network.IEs+12, pnetwork->network.IELength-12, NULL, NULL))
++		RTW_INFO("%s, got p2p_ie\n", __func__);
++	#endif
++
++#if 1
++	bss = cfg80211_inform_bss_frame(wiphy, notify_channel, (struct ieee80211_mgmt *)pbuf,
++					len, notify_signal, GFP_ATOMIC);
++#else
++
++	bss = cfg80211_inform_bss(wiphy, notify_channel, (const u8 *)pnetwork->network.MacAddress,
++		notify_timestamp, notify_capability, notify_interval, notify_ie,
++		notify_ielen, notify_signal, GFP_ATOMIC/*GFP_KERNEL*/);
++#endif
++
++	if (unlikely(!bss)) {
++		RTW_INFO(FUNC_ADPT_FMT" bss NULL\n", FUNC_ADPT_ARG(padapter));
++		goto exit;
++	}
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 38))
++#ifndef COMPAT_KERNEL_RELEASE
++	/* patch for cfg80211, update beacon ies to information_elements */
++	if (pnetwork->network.Reserved[0] == 1) { /* WIFI_BEACON */
++
++		if (bss->len_information_elements != bss->len_beacon_ies) {
++			bss->information_elements = bss->beacon_ies;
++			bss->len_information_elements =  bss->len_beacon_ies;
++		}
++	}
++#endif /* COMPAT_KERNEL_RELEASE */
++#endif /* LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 38) */
++
++#if 0
++	{
++		if (bss->information_elements == bss->proberesp_ies) {
++			if (bss->len_information_elements !=  bss->len_proberesp_ies)
++				RTW_INFO("error!, len_information_elements != bss->len_proberesp_ies\n");
++		} else if (bss->len_information_elements <  bss->len_beacon_ies) {
++			bss->information_elements = bss->beacon_ies;
++			bss->len_information_elements =  bss->len_beacon_ies;
++		}
++	}
++#endif
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(3, 9, 0)
++	cfg80211_put_bss(wiphy, bss);
++#else
++	cfg80211_put_bss(bss);
++#endif
++
++exit:
++	if (pbuf)
++		rtw_mfree(pbuf, buf_size);
++	return bss;
++
++}
++
++/*
++	Check the given bss is valid by kernel API cfg80211_get_bss()
++	@padapter : the given adapter
++
++	return _TRUE if bss is valid,  _FALSE for not found.
++*/
++int rtw_cfg80211_check_bss(_adapter *padapter)
++{
++	WLAN_BSSID_EX  *pnetwork = &(padapter->mlmeextpriv.mlmext_info.network);
++	struct cfg80211_bss *bss = NULL;
++	struct ieee80211_channel *notify_channel = NULL;
++	u32 freq;
++
++	if (!(pnetwork) || !(padapter->rtw_wdev))
++		return _FALSE;
++
++	freq = rtw_ch2freq(pnetwork->Configuration.DSConfig);
++	notify_channel = ieee80211_get_channel(padapter->rtw_wdev->wiphy, freq);
++	bss = cfg80211_get_bss(padapter->rtw_wdev->wiphy, notify_channel,
++			pnetwork->MacAddress, pnetwork->Ssid.Ssid,
++			pnetwork->Ssid.SsidLength,
++			WLAN_CAPABILITY_ESS, WLAN_CAPABILITY_ESS);
++
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(3, 9, 0)
++	cfg80211_put_bss(padapter->rtw_wdev->wiphy, bss);
++#else
++	cfg80211_put_bss(bss);
++#endif
++
++	return bss != NULL;
++}
++
++void rtw_cfg80211_ibss_indicate_connect(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network  *cur_network = &(pmlmepriv->cur_network);
++	struct wireless_dev *pwdev = padapter->rtw_wdev;
++	struct cfg80211_bss *bss = NULL;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 15, 0))
++	struct wiphy *wiphy = pwdev->wiphy;
++	int freq = 2412;
++	struct ieee80211_channel *notify_channel;
++#endif
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 15, 0))
++	freq = rtw_ch2freq(cur_network->network.Configuration.DSConfig);
++
++	if (0)
++		RTW_INFO("chan: %d, freq: %d\n", cur_network->network.Configuration.DSConfig, freq);
++#endif
++
++	if (pwdev->iftype != NL80211_IFTYPE_ADHOC)
++		return;
++
++	if (!rtw_cfg80211_check_bss(padapter)) {
++		WLAN_BSSID_EX  *pnetwork = &(padapter->mlmeextpriv.mlmext_info.network);
++		struct wlan_network *scanned = pmlmepriv->cur_network_scanned;
++
++		if (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) {
++
++			_rtw_memcpy(&cur_network->network, pnetwork, sizeof(WLAN_BSSID_EX));
++			if (cur_network) {
++				if (!rtw_cfg80211_inform_bss(padapter, cur_network))
++					RTW_INFO(FUNC_ADPT_FMT" inform fail !!\n", FUNC_ADPT_ARG(padapter));
++				else
++					RTW_INFO(FUNC_ADPT_FMT" inform success !!\n", FUNC_ADPT_ARG(padapter));
++			} else {
++				RTW_INFO("cur_network is not exist!!!\n");
++				return ;
++			}
++		} else {
++			if (scanned == NULL)
++				rtw_warn_on(1);
++
++			if (_rtw_memcmp(&(scanned->network.Ssid), &(pnetwork->Ssid), sizeof(NDIS_802_11_SSID)) == _TRUE
++				&& _rtw_memcmp(scanned->network.MacAddress, pnetwork->MacAddress, sizeof(NDIS_802_11_MAC_ADDRESS)) == _TRUE
++			) {
++				if (!rtw_cfg80211_inform_bss(padapter, scanned))
++					RTW_INFO(FUNC_ADPT_FMT" inform fail !!\n", FUNC_ADPT_ARG(padapter));
++				else {
++					/* RTW_INFO(FUNC_ADPT_FMT" inform success !!\n", FUNC_ADPT_ARG(padapter)); */
++				}
++			} else {
++				RTW_INFO("scanned & pnetwork compare fail\n");
++				rtw_warn_on(1);
++			}
++		}
++
++		if (!rtw_cfg80211_check_bss(padapter))
++			RTW_PRINT(FUNC_ADPT_FMT" BSS not found !!\n", FUNC_ADPT_ARG(padapter));
++	}
++	/* notify cfg80211 that device joined an IBSS */
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 15, 0))
++	notify_channel = ieee80211_get_channel(wiphy, freq);
++	cfg80211_ibss_joined(padapter->pnetdev, cur_network->network.MacAddress, notify_channel, GFP_ATOMIC);
++#else
++	cfg80211_ibss_joined(padapter->pnetdev, cur_network->network.MacAddress, GFP_ATOMIC);
++#endif
++}
++
++void rtw_cfg80211_indicate_connect(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network  *cur_network = &(pmlmepriv->cur_network);
++	struct wireless_dev *pwdev = padapter->rtw_wdev;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif
++	struct cfg80211_bss *bss = NULL;
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++	if (pwdev->iftype != NL80211_IFTYPE_STATION
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++		&& pwdev->iftype != NL80211_IFTYPE_P2P_CLIENT
++		#endif
++	)
++		return;
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		return;
++
++#ifdef CONFIG_P2P
++	if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++		if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++			rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++			rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++			RTW_INFO("%s, role=%d, p2p_state=%d, pre_p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo), rtw_p2p_pre_state(pwdinfo));
++		}
++	}
++#endif /* CONFIG_P2P */
++
++	if (check_fwstate(pmlmepriv, WIFI_MONITOR_STATE) != _TRUE) {
++		WLAN_BSSID_EX  *pnetwork = &(padapter->mlmeextpriv.mlmext_info.network);
++		struct wlan_network *scanned = pmlmepriv->cur_network_scanned;
++
++		/* RTW_INFO(FUNC_ADPT_FMT" BSS not found\n", FUNC_ADPT_ARG(padapter)); */
++
++		if (scanned == NULL) {
++			rtw_warn_on(1);
++			goto check_bss;
++		}
++
++		if (_rtw_memcmp(scanned->network.MacAddress, pnetwork->MacAddress, sizeof(NDIS_802_11_MAC_ADDRESS)) == _TRUE
++			&& _rtw_memcmp(&(scanned->network.Ssid), &(pnetwork->Ssid), sizeof(NDIS_802_11_SSID)) == _TRUE
++		) {
++			if (!rtw_cfg80211_inform_bss(padapter, scanned))
++				RTW_INFO(FUNC_ADPT_FMT" inform fail !!\n", FUNC_ADPT_ARG(padapter));
++			else {
++				/* RTW_INFO(FUNC_ADPT_FMT" inform success !!\n", FUNC_ADPT_ARG(padapter)); */
++			}
++		} else {
++			RTW_INFO("scanned: %s("MAC_FMT"), cur: %s("MAC_FMT")\n",
++				scanned->network.Ssid.Ssid, MAC_ARG(scanned->network.MacAddress),
++				pnetwork->Ssid.Ssid, MAC_ARG(pnetwork->MacAddress)
++			);
++			rtw_warn_on(1);
++		}
++	}
++
++check_bss:
++	if (!rtw_cfg80211_check_bss(padapter))
++		RTW_PRINT(FUNC_ADPT_FMT" BSS not found !!\n", FUNC_ADPT_ARG(padapter));
++
++	if (rtw_to_roam(padapter) > 0) {
++		#if LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 39) || defined(COMPAT_KERNEL_RELEASE)
++		struct wiphy *wiphy = pwdev->wiphy;
++		struct ieee80211_channel *notify_channel;
++		u32 freq;
++		u16 channel = cur_network->network.Configuration.DSConfig;
++
++		freq = rtw_ch2freq(channel);
++		notify_channel = ieee80211_get_channel(wiphy, freq);
++		#endif
++
++		RTW_INFO(FUNC_ADPT_FMT" call cfg80211_roamed\n", FUNC_ADPT_ARG(padapter));
++		cfg80211_roamed(padapter->pnetdev
++			#if LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 39) || defined(COMPAT_KERNEL_RELEASE)
++			, notify_channel
++			#endif
++			, cur_network->network.MacAddress
++			, pmlmepriv->assoc_req + sizeof(struct rtw_ieee80211_hdr_3addr) + 2
++			, pmlmepriv->assoc_req_len - sizeof(struct rtw_ieee80211_hdr_3addr) - 2
++			, pmlmepriv->assoc_rsp + sizeof(struct rtw_ieee80211_hdr_3addr) + 6
++			, pmlmepriv->assoc_rsp_len - sizeof(struct rtw_ieee80211_hdr_3addr) - 6
++			, GFP_ATOMIC);
++#ifdef CONFIG_RTW_80211R
++		if ((rtw_to_roam(padapter) > 0) && rtw_chk_ft_flags(padapter, RTW_FT_SUPPORTED))
++			rtw_set_ft_status(padapter, RTW_FT_ASSOCIATED_STA);
++#endif
++	} else {
++		#if LINUX_VERSION_CODE < KERNEL_VERSION(3, 11, 0) || defined(COMPAT_KERNEL_RELEASE)
++		RTW_INFO("pwdev->sme_state(b)=%d\n", pwdev->sme_state);
++		#endif
++		cfg80211_connect_result(padapter->pnetdev, cur_network->network.MacAddress
++			, pmlmepriv->assoc_req + sizeof(struct rtw_ieee80211_hdr_3addr) + 2
++			, pmlmepriv->assoc_req_len - sizeof(struct rtw_ieee80211_hdr_3addr) - 2
++			, pmlmepriv->assoc_rsp + sizeof(struct rtw_ieee80211_hdr_3addr) + 6
++			, pmlmepriv->assoc_rsp_len - sizeof(struct rtw_ieee80211_hdr_3addr) - 6
++			, WLAN_STATUS_SUCCESS, GFP_ATOMIC);
++		#if LINUX_VERSION_CODE < KERNEL_VERSION(3, 11, 0) || defined(COMPAT_KERNEL_RELEASE)
++		RTW_INFO("pwdev->sme_state(a)=%d\n", pwdev->sme_state);
++		#endif
++	}
++}
++
++void rtw_cfg80211_indicate_disconnect(_adapter *padapter, u16 reason, u8 locally_generated)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct wireless_dev *pwdev = padapter->rtw_wdev;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++	/*always replace privated definitions with wifi reserved value 0*/
++	if ((reason == WLAN_REASON_ACTIVE_ROAM) || (reason == WLAN_REASON_JOIN_WRONG_CHANNEL) || (reason == WLAN_REASON_EXPIRATION_CHK))
++		reason = 0;
++
++	if (pwdev->iftype != NL80211_IFTYPE_STATION
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++		&& pwdev->iftype != NL80211_IFTYPE_P2P_CLIENT
++		#endif
++	)
++		return;
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		return;
++
++#ifdef CONFIG_P2P
++	if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++		if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++			rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++
++			#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++			if (pwdev->iftype != NL80211_IFTYPE_P2P_CLIENT)
++			#endif
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++
++			RTW_INFO("%s, role=%d, p2p_state=%d, pre_p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo), rtw_p2p_pre_state(pwdinfo));
++		}
++	}
++#endif /* CONFIG_P2P */
++
++	#ifdef SUPPLICANT_RTK_VERSION_LOWER_THAN_JB42
++	if (!padapter->mlmepriv.not_indic_disco || padapter->ndev_unregistering) {
++	#else
++	{
++	#endif
++		#if LINUX_VERSION_CODE < KERNEL_VERSION(3, 11, 0) || defined(COMPAT_KERNEL_RELEASE)
++		RTW_INFO("pwdev->sme_state(b)=%d\n", pwdev->sme_state);
++
++		if (pwdev->sme_state == CFG80211_SME_CONNECTING)
++			cfg80211_connect_result(padapter->pnetdev, NULL, NULL, 0, NULL, 0,
++				WLAN_STATUS_UNSPECIFIED_FAILURE, GFP_ATOMIC/*GFP_KERNEL*/);
++		else if (pwdev->sme_state == CFG80211_SME_CONNECTED) {
++			#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 2, 0))
++			cfg80211_disconnected(padapter->pnetdev, reason, NULL, 0, locally_generated, GFP_ATOMIC);
++			#else
++			cfg80211_disconnected(padapter->pnetdev, 0, NULL, 0, GFP_ATOMIC);
++			#endif
++		}
++		#if 0
++		else
++			RTW_INFO("pwdev->sme_state=%d\n", pwdev->sme_state);
++		#endif
++
++		RTW_INFO("pwdev->sme_state(a)=%d\n", pwdev->sme_state);
++		#else
++
++		if (check_fwstate(&padapter->mlmepriv, _FW_LINKED)) {
++			#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 2, 0))
++			RTW_INFO(FUNC_ADPT_FMT" call cfg80211_disconnected\n", FUNC_ADPT_ARG(padapter));
++			cfg80211_disconnected(padapter->pnetdev, reason, NULL, 0, locally_generated, GFP_ATOMIC);
++			#else
++			RTW_INFO(FUNC_ADPT_FMT" call cfg80211_disconnected\n", FUNC_ADPT_ARG(padapter));
++			cfg80211_disconnected(padapter->pnetdev, 0, NULL, 0, GFP_ATOMIC);
++			#endif
++		} else {
++			RTW_INFO(FUNC_ADPT_FMT" call cfg80211_connect_result\n", FUNC_ADPT_ARG(padapter));
++			cfg80211_connect_result(padapter->pnetdev, NULL, NULL, 0, NULL, 0,
++				WLAN_STATUS_UNSPECIFIED_FAILURE, GFP_ATOMIC);
++		}
++		#endif
++	}
++}
++
++
++#ifdef CONFIG_AP_MODE
++static int rtw_cfg80211_ap_set_encryption(struct net_device *dev, struct ieee_param *param, u32 param_len)
++{
++	int ret = 0;
++	u32 wep_key_idx, wep_key_len, wep_total_len;
++	struct sta_info *psta = NULL, *pbcmc_sta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &(padapter->securitypriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	param->u.crypt.err = 0;
++	param->u.crypt.alg[IEEE_CRYPT_ALG_NAME_LEN - 1] = '\0';
++
++	/* sizeof(struct ieee_param) = 64 bytes; */
++	/* if (param_len !=  (u32) ((u8 *) param->u.crypt.key - (u8 *) param) + param->u.crypt.key_len) */
++	if (param_len !=  sizeof(struct ieee_param) + param->u.crypt.key_len) {
++		ret =  -EINVAL;
++		goto exit;
++	}
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff) {
++		if (param->u.crypt.idx >= WEP_KEYS
++#ifdef CONFIG_IEEE80211W
++			&& param->u.crypt.idx > BIP_MAX_KEYID
++#endif /* CONFIG_IEEE80211W */
++		) {
++			ret = -EINVAL;
++			goto exit;
++		}
++	} else {
++		psta = rtw_get_stainfo(pstapriv, param->sta_addr);
++		if (!psta) {
++			/* ret = -EINVAL; */
++			RTW_INFO("rtw_set_encryption(), sta has already been removed or never been added\n");
++			goto exit;
++		}
++	}
++
++	if (strcmp(param->u.crypt.alg, "none") == 0 && (psta == NULL)) {
++		/* todo:clear default encryption keys */
++
++		RTW_INFO("clear default encryption keys, keyid=%d\n", param->u.crypt.idx);
++
++		goto exit;
++	}
++
++
++	if (strcmp(param->u.crypt.alg, "WEP") == 0 && (psta == NULL)) {
++		RTW_INFO("r871x_set_encryption, crypt.alg = WEP\n");
++
++		wep_key_idx = param->u.crypt.idx;
++		wep_key_len = param->u.crypt.key_len;
++
++		RTW_INFO("r871x_set_encryption, wep_key_idx=%d, len=%d\n", wep_key_idx, wep_key_len);
++
++		if ((wep_key_idx >= WEP_KEYS) || (wep_key_len <= 0)) {
++			ret = -EINVAL;
++			goto exit;
++		}
++
++		if (wep_key_len > 0)
++			wep_key_len = wep_key_len <= 5 ? 5 : 13;
++
++		if (psecuritypriv->bWepDefaultKeyIdxSet == 0) {
++			/* wep default key has not been set, so use this key index as default key. */
++
++			psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++			psecuritypriv->ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			psecuritypriv->dot11PrivacyAlgrthm = _WEP40_;
++			psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++
++			if (wep_key_len == 13) {
++				psecuritypriv->dot11PrivacyAlgrthm = _WEP104_;
++				psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++			}
++
++			psecuritypriv->dot11PrivacyKeyIndex = wep_key_idx;
++		}
++
++		_rtw_memcpy(&(psecuritypriv->dot11DefKey[wep_key_idx].skey[0]), param->u.crypt.key, wep_key_len);
++
++		psecuritypriv->dot11DefKeylen[wep_key_idx] = wep_key_len;
++
++		rtw_ap_set_wep_key(padapter, param->u.crypt.key, wep_key_len, wep_key_idx, 1);
++
++		goto exit;
++
++	}
++
++
++	if (!psta && check_fwstate(pmlmepriv, WIFI_AP_STATE)) { /* group key */
++		if (param->u.crypt.set_tx == 0) { /* group key */
++			if (strcmp(param->u.crypt.alg, "WEP") == 0) {
++				RTW_INFO("%s, set group_key, WEP\n", __FUNCTION__);
++
++				_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++				psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++				if (param->u.crypt.key_len == 13)
++					psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++
++			} else if (strcmp(param->u.crypt.alg, "TKIP") == 0) {
++				RTW_INFO("%s, set group_key, TKIP\n", __FUNCTION__);
++
++				psecuritypriv->dot118021XGrpPrivacy = _TKIP_;
++
++				_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++				/* DEBUG_ERR("set key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len); */
++				/* set mic key */
++				_rtw_memcpy(psecuritypriv->dot118021XGrptxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[16]), 8);
++				_rtw_memcpy(psecuritypriv->dot118021XGrprxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[24]), 8);
++
++				psecuritypriv->busetkipkey = _TRUE;
++
++			} else if (strcmp(param->u.crypt.alg, "CCMP") == 0) {
++				RTW_INFO("%s, set group_key, CCMP\n", __FUNCTION__);
++
++				psecuritypriv->dot118021XGrpPrivacy = _AES_;
++
++				_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++			}
++#ifdef CONFIG_IEEE80211W
++			else if (strcmp(param->u.crypt.alg, "BIP") == 0) {
++				int no;
++
++				RTW_INFO("BIP key_len=%d , index=%d\n", param->u.crypt.key_len, param->u.crypt.idx);
++				/* save the IGTK key, length 16 bytes */
++				_rtw_memcpy(padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey, param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++				/* RTW_INFO("IGTK key below:\n");
++				for(no=0;no<16;no++)
++					printk(" %02x ", padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey[no]);
++				RTW_INFO("\n"); */
++				padapter->securitypriv.dot11wBIPKeyid = param->u.crypt.idx;
++				padapter->securitypriv.binstallBIPkey = _TRUE;
++				RTW_INFO(" ~~~~set sta key:IGKT\n");
++				goto exit;
++			}
++#endif /* CONFIG_IEEE80211W */
++			else {
++				RTW_INFO("%s, set group_key, none\n", __FUNCTION__);
++
++				psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++			}
++
++			psecuritypriv->dot118021XGrpKeyid = param->u.crypt.idx;
++
++			psecuritypriv->binstallGrpkey = _TRUE;
++
++			psecuritypriv->dot11PrivacyAlgrthm = psecuritypriv->dot118021XGrpPrivacy;/* !!! */
++
++			rtw_ap_set_group_key(padapter, param->u.crypt.key, psecuritypriv->dot118021XGrpPrivacy, param->u.crypt.idx);
++
++			pbcmc_sta = rtw_get_bcmc_stainfo(padapter);
++			if (pbcmc_sta) {
++				pbcmc_sta->ieee8021x_blocked = _FALSE;
++				pbcmc_sta->dot118021XPrivacy = psecuritypriv->dot118021XGrpPrivacy; /* rx will use bmc_sta's dot118021XPrivacy			 */
++			}
++
++		}
++
++		goto exit;
++
++	}
++
++	if (psecuritypriv->dot11AuthAlgrthm == dot11AuthAlgrthm_8021X && psta) { /* psk/802_1x */
++		if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++			if (param->u.crypt.set_tx == 1) { /* pairwise key */
++				_rtw_memcpy(psta->dot118021x_UncstKey.skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++				if (strcmp(param->u.crypt.alg, "WEP") == 0) {
++					RTW_INFO("%s, set pairwise key, WEP\n", __FUNCTION__);
++
++					psta->dot118021XPrivacy = _WEP40_;
++					if (param->u.crypt.key_len == 13)
++						psta->dot118021XPrivacy = _WEP104_;
++				} else if (strcmp(param->u.crypt.alg, "TKIP") == 0) {
++					RTW_INFO("%s, set pairwise key, TKIP\n", __FUNCTION__);
++
++					psta->dot118021XPrivacy = _TKIP_;
++
++					/* DEBUG_ERR("set key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len); */
++					/* set mic key */
++					_rtw_memcpy(psta->dot11tkiptxmickey.skey, &(param->u.crypt.key[16]), 8);
++					_rtw_memcpy(psta->dot11tkiprxmickey.skey, &(param->u.crypt.key[24]), 8);
++
++					psecuritypriv->busetkipkey = _TRUE;
++
++				} else if (strcmp(param->u.crypt.alg, "CCMP") == 0) {
++
++					RTW_INFO("%s, set pairwise key, CCMP\n", __FUNCTION__);
++
++					psta->dot118021XPrivacy = _AES_;
++				} else {
++					RTW_INFO("%s, set pairwise key, none\n", __FUNCTION__);
++
++					psta->dot118021XPrivacy = _NO_PRIVACY_;
++				}
++
++				rtw_ap_set_pairwise_key(padapter, psta);
++
++				psta->ieee8021x_blocked = _FALSE;
++
++				psta->bpairwise_key_installed = _TRUE;
++
++			} else { /* group key??? */
++				if (strcmp(param->u.crypt.alg, "WEP") == 0) {
++					_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++					psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++					if (param->u.crypt.key_len == 13)
++						psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++				} else if (strcmp(param->u.crypt.alg, "TKIP") == 0) {
++					psecuritypriv->dot118021XGrpPrivacy = _TKIP_;
++
++					_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++					/* DEBUG_ERR("set key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len); */
++					/* set mic key */
++					_rtw_memcpy(psecuritypriv->dot118021XGrptxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[16]), 8);
++					_rtw_memcpy(psecuritypriv->dot118021XGrprxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[24]), 8);
++
++					psecuritypriv->busetkipkey = _TRUE;
++
++				} else if (strcmp(param->u.crypt.alg, "CCMP") == 0) {
++					psecuritypriv->dot118021XGrpPrivacy = _AES_;
++
++					_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++				} else
++					psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++
++				psecuritypriv->dot118021XGrpKeyid = param->u.crypt.idx;
++
++				psecuritypriv->binstallGrpkey = _TRUE;
++
++				psecuritypriv->dot11PrivacyAlgrthm = psecuritypriv->dot118021XGrpPrivacy;/* !!! */
++
++				rtw_ap_set_group_key(padapter, param->u.crypt.key, psecuritypriv->dot118021XGrpPrivacy, param->u.crypt.idx);
++
++				pbcmc_sta = rtw_get_bcmc_stainfo(padapter);
++				if (pbcmc_sta) {
++					pbcmc_sta->ieee8021x_blocked = _FALSE;
++					pbcmc_sta->dot118021XPrivacy = psecuritypriv->dot118021XGrpPrivacy; /* rx will use bmc_sta's dot118021XPrivacy			 */
++				}
++
++			}
++
++		}
++
++	}
++
++exit:
++
++	return ret;
++
++}
++#endif
++
++static int rtw_cfg80211_set_encryption(struct net_device *dev, struct ieee_param *param, u32 param_len)
++{
++	int ret = 0;
++	u32 wep_key_idx, wep_key_len, wep_total_len;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++#endif /* CONFIG_P2P */
++
++
++	RTW_INFO("%s\n", __func__);
++
++	param->u.crypt.err = 0;
++	param->u.crypt.alg[IEEE_CRYPT_ALG_NAME_LEN - 1] = '\0';
++
++	if (param_len < (u32)((u8 *) param->u.crypt.key - (u8 *) param) + param->u.crypt.key_len) {
++		ret =  -EINVAL;
++		goto exit;
++	}
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff) {
++		if (param->u.crypt.idx >= WEP_KEYS
++#ifdef CONFIG_IEEE80211W
++			&& param->u.crypt.idx > BIP_MAX_KEYID
++#endif /* CONFIG_IEEE80211W */
++		) {
++			ret = -EINVAL;
++			goto exit;
++		}
++	} else {
++#ifdef CONFIG_WAPI_SUPPORT
++		if (strcmp(param->u.crypt.alg, "SMS4"))
++#endif
++		{
++			ret = -EINVAL;
++			goto exit;
++		}
++	}
++
++	if (strcmp(param->u.crypt.alg, "WEP") == 0) {
++		RTW_INFO("wpa_set_encryption, crypt.alg = WEP\n");
++
++		wep_key_idx = param->u.crypt.idx;
++		wep_key_len = param->u.crypt.key_len;
++
++		if ((wep_key_idx > WEP_KEYS) || (wep_key_len <= 0)) {
++			ret = -EINVAL;
++			goto exit;
++		}
++
++		if (psecuritypriv->bWepDefaultKeyIdxSet == 0) {
++			/* wep default key has not been set, so use this key index as default key. */
++
++			wep_key_len = wep_key_len <= 5 ? 5 : 13;
++
++			psecuritypriv->ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			psecuritypriv->dot11PrivacyAlgrthm = _WEP40_;
++			psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++
++			if (wep_key_len == 13) {
++				psecuritypriv->dot11PrivacyAlgrthm = _WEP104_;
++				psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++			}
++
++			psecuritypriv->dot11PrivacyKeyIndex = wep_key_idx;
++		}
++
++		_rtw_memcpy(&(psecuritypriv->dot11DefKey[wep_key_idx].skey[0]), param->u.crypt.key, wep_key_len);
++
++		psecuritypriv->dot11DefKeylen[wep_key_idx] = wep_key_len;
++
++		rtw_set_key(padapter, psecuritypriv, wep_key_idx, 0, _TRUE);
++
++		goto exit;
++	}
++
++	if (padapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X) { /* 802_1x */
++		struct sta_info *psta, *pbcmc_sta;
++		struct sta_priv *pstapriv = &padapter->stapriv;
++
++		/* RTW_INFO("%s, : dot11AuthAlgrthm == dot11AuthAlgrthm_8021X\n", __func__); */
++
++		if (check_fwstate(pmlmepriv, WIFI_STATION_STATE | WIFI_MP_STATE) == _TRUE) { /* sta mode */
++#ifdef CONFIG_RTW_80211R
++			if ((rtw_to_roam(padapter) > 0) && rtw_chk_ft_flags(padapter, RTW_FT_SUPPORTED))
++				psta = rtw_get_stainfo(pstapriv, pmlmepriv->assoc_bssid);
++			else
++#endif
++				psta = rtw_get_stainfo(pstapriv, get_bssid(pmlmepriv));
++			if (psta == NULL) {
++				/* DEBUG_ERR( ("Set wpa_set_encryption: Obtain Sta_info fail\n")); */
++				RTW_INFO("%s, : Obtain Sta_info fail\n", __func__);
++			} else {
++				/* Jeff: don't disable ieee8021x_blocked while clearing key */
++				if (strcmp(param->u.crypt.alg, "none") != 0)
++					psta->ieee8021x_blocked = _FALSE;
++
++
++				if ((padapter->securitypriv.ndisencryptstatus == Ndis802_11Encryption2Enabled) ||
++				    (padapter->securitypriv.ndisencryptstatus ==  Ndis802_11Encryption3Enabled))
++					psta->dot118021XPrivacy = padapter->securitypriv.dot11PrivacyAlgrthm;
++
++				if (param->u.crypt.set_tx == 1) { /* pairwise key */
++
++					RTW_INFO("%s, : param->u.crypt.set_tx ==1\n", __func__);
++
++					_rtw_memcpy(psta->dot118021x_UncstKey.skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++					if (strcmp(param->u.crypt.alg, "TKIP") == 0) { /* set mic key */
++						/* DEBUG_ERR(("\nset key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len)); */
++						_rtw_memcpy(psta->dot11tkiptxmickey.skey, &(param->u.crypt.key[16]), 8);
++						_rtw_memcpy(psta->dot11tkiprxmickey.skey, &(param->u.crypt.key[24]), 8);
++
++						padapter->securitypriv.busetkipkey = _FALSE;
++						/* _set_timer(&padapter->securitypriv.tkip_timer, 50);						 */
++					}
++					psta->bpairwise_key_installed = _TRUE;
++#ifdef CONFIG_RTW_80211R
++					psta->ft_pairwise_key_installed = _TRUE;
++#endif
++					/* DEBUG_ERR((" param->u.crypt.key_len=%d\n",param->u.crypt.key_len)); */
++					RTW_INFO(" ~~~~set sta key:unicastkey\n");
++
++					rtw_setstakey_cmd(padapter, psta, UNICAST_KEY, _TRUE);
++				} else { /* group key */
++					if (strcmp(param->u.crypt.alg, "TKIP") == 0 || strcmp(param->u.crypt.alg, "CCMP") == 0) {
++						_rtw_memcpy(padapter->securitypriv.dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key,
++							(param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++						_rtw_memcpy(padapter->securitypriv.dot118021XGrptxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[16]), 8);
++						_rtw_memcpy(padapter->securitypriv.dot118021XGrprxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[24]), 8);
++						padapter->securitypriv.binstallGrpkey = _TRUE;
++						/* DEBUG_ERR((" param->u.crypt.key_len=%d\n", param->u.crypt.key_len)); */
++						RTW_INFO(" ~~~~set sta key:groupkey\n");
++
++						padapter->securitypriv.dot118021XGrpKeyid = param->u.crypt.idx;
++						rtw_set_key(padapter, &padapter->securitypriv, param->u.crypt.idx, 1, _TRUE);
++					}
++#ifdef CONFIG_IEEE80211W
++					else if (strcmp(param->u.crypt.alg, "BIP") == 0) {
++						int no;
++						/* RTW_INFO("BIP key_len=%d , index=%d @@@@@@@@@@@@@@@@@@\n", param->u.crypt.key_len, param->u.crypt.idx); */
++						/* save the IGTK key, length 16 bytes */
++						_rtw_memcpy(padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey,  param->u.crypt.key,
++							(param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++						/*RTW_INFO("IGTK key below:\n");
++						for(no=0;no<16;no++)
++							printk(" %02x ", padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey[no]);
++						RTW_INFO("\n");*/
++						padapter->securitypriv.dot11wBIPKeyid = param->u.crypt.idx;
++						padapter->securitypriv.binstallBIPkey = _TRUE;
++						RTW_INFO(" ~~~~set sta key:IGKT\n");
++					}
++#endif /* CONFIG_IEEE80211W */
++
++#ifdef CONFIG_P2P
++					if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++						if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_PROVISIONING_ING))
++							rtw_p2p_set_state(pwdinfo, P2P_STATE_PROVISIONING_DONE);
++					}
++#endif /* CONFIG_P2P */
++
++				}
++			}
++
++			pbcmc_sta = rtw_get_bcmc_stainfo(padapter);
++			if (pbcmc_sta == NULL) {
++				/* DEBUG_ERR( ("Set OID_802_11_ADD_KEY: bcmc stainfo is null\n")); */
++			} else {
++				/* Jeff: don't disable ieee8021x_blocked while clearing key */
++				if (strcmp(param->u.crypt.alg, "none") != 0)
++					pbcmc_sta->ieee8021x_blocked = _FALSE;
++
++				if ((padapter->securitypriv.ndisencryptstatus == Ndis802_11Encryption2Enabled) ||
++				    (padapter->securitypriv.ndisencryptstatus ==  Ndis802_11Encryption3Enabled))
++					pbcmc_sta->dot118021XPrivacy = padapter->securitypriv.dot11PrivacyAlgrthm;
++			}
++		} else if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE)) { /* adhoc mode */
++		}
++	}
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (strcmp(param->u.crypt.alg, "SMS4") == 0) {
++		PRT_WAPI_T			pWapiInfo = &padapter->wapiInfo;
++		PRT_WAPI_STA_INFO	pWapiSta;
++		u8					WapiASUEPNInitialValueSrc[16] = {0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++		u8					WapiAEPNInitialValueSrc[16] = {0x37, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++		u8					WapiAEMultiCastPNInitialValueSrc[16] = {0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++
++		if (param->u.crypt.set_tx == 1) {
++			list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++				if (_rtw_memcmp(pWapiSta->PeerMacAddr, param->sta_addr, 6)) {
++					_rtw_memcpy(pWapiSta->lastTxUnicastPN, WapiASUEPNInitialValueSrc, 16);
++
++					pWapiSta->wapiUsk.bSet = true;
++					_rtw_memcpy(pWapiSta->wapiUsk.dataKey, param->u.crypt.key, 16);
++					_rtw_memcpy(pWapiSta->wapiUsk.micKey, param->u.crypt.key + 16, 16);
++					pWapiSta->wapiUsk.keyId = param->u.crypt.idx ;
++					pWapiSta->wapiUsk.bTxEnable = true;
++
++					_rtw_memcpy(pWapiSta->lastRxUnicastPNBEQueue, WapiAEPNInitialValueSrc, 16);
++					_rtw_memcpy(pWapiSta->lastRxUnicastPNBKQueue, WapiAEPNInitialValueSrc, 16);
++					_rtw_memcpy(pWapiSta->lastRxUnicastPNVIQueue, WapiAEPNInitialValueSrc, 16);
++					_rtw_memcpy(pWapiSta->lastRxUnicastPNVOQueue, WapiAEPNInitialValueSrc, 16);
++					_rtw_memcpy(pWapiSta->lastRxUnicastPN, WapiAEPNInitialValueSrc, 16);
++					pWapiSta->wapiUskUpdate.bTxEnable = false;
++					pWapiSta->wapiUskUpdate.bSet = false;
++
++					if (psecuritypriv->sw_encrypt == false || psecuritypriv->sw_decrypt == false) {
++						/* set unicast key for ASUE */
++						rtw_wapi_set_key(padapter, &pWapiSta->wapiUsk, pWapiSta, false, false);
++					}
++				}
++			}
++		} else {
++			list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++				if (_rtw_memcmp(pWapiSta->PeerMacAddr, get_bssid(pmlmepriv), 6)) {
++					pWapiSta->wapiMsk.bSet = true;
++					_rtw_memcpy(pWapiSta->wapiMsk.dataKey, param->u.crypt.key, 16);
++					_rtw_memcpy(pWapiSta->wapiMsk.micKey, param->u.crypt.key + 16, 16);
++					pWapiSta->wapiMsk.keyId = param->u.crypt.idx ;
++					pWapiSta->wapiMsk.bTxEnable = false;
++					if (!pWapiSta->bSetkeyOk)
++						pWapiSta->bSetkeyOk = true;
++					pWapiSta->bAuthenticateInProgress = false;
++
++					_rtw_memcpy(pWapiSta->lastRxMulticastPN, WapiAEMultiCastPNInitialValueSrc, 16);
++
++					if (psecuritypriv->sw_decrypt == false) {
++						/* set rx broadcast key for ASUE */
++						rtw_wapi_set_key(padapter, &pWapiSta->wapiMsk, pWapiSta, true, false);
++					}
++				}
++
++			}
++		}
++	}
++#endif
++
++
++exit:
++
++	RTW_INFO("%s, ret=%d\n", __func__, ret);
++
++
++	return ret;
++}
++
++static int cfg80211_rtw_add_key(struct wiphy *wiphy, struct net_device *ndev,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	u8 key_index, bool pairwise, const u8 *mac_addr,
++#else	/* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) */
++	u8 key_index, const u8 *mac_addr,
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) */
++	struct key_params *params)
++{
++	char *alg_name;
++	u32 param_len;
++	struct ieee_param *param = NULL;
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct wireless_dev *rtw_wdev = padapter->rtw_wdev;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++#ifdef CONFIG_TDLS
++	struct sta_info *ptdls_sta;
++#endif /* CONFIG_TDLS */
++
++	RTW_INFO(FUNC_NDEV_FMT" adding key for %pM\n", FUNC_NDEV_ARG(ndev), mac_addr);
++	RTW_INFO("cipher=0x%x\n", params->cipher);
++	RTW_INFO("key_len=0x%x\n", params->key_len);
++	RTW_INFO("seq_len=0x%x\n", params->seq_len);
++	RTW_INFO("key_index=%d\n", key_index);
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	RTW_INFO("pairwise=%d\n", pairwise);
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) */
++
++	param_len = sizeof(struct ieee_param) + params->key_len;
++	param = (struct ieee_param *)rtw_malloc(param_len);
++	if (param == NULL)
++		return -1;
++
++	_rtw_memset(param, 0, param_len);
++
++	param->cmd = IEEE_CMD_SET_ENCRYPTION;
++	_rtw_memset(param->sta_addr, 0xff, ETH_ALEN);
++
++	switch (params->cipher) {
++	case IW_AUTH_CIPHER_NONE:
++		/* todo: remove key */
++		/* remove = 1;	 */
++		alg_name = "none";
++		break;
++	case WLAN_CIPHER_SUITE_WEP40:
++	case WLAN_CIPHER_SUITE_WEP104:
++		alg_name = "WEP";
++		break;
++	case WLAN_CIPHER_SUITE_TKIP:
++		alg_name = "TKIP";
++		break;
++	case WLAN_CIPHER_SUITE_CCMP:
++		alg_name = "CCMP";
++		break;
++#ifdef CONFIG_IEEE80211W
++	case WLAN_CIPHER_SUITE_AES_CMAC:
++		alg_name = "BIP";
++		break;
++#endif /* CONFIG_IEEE80211W */
++#ifdef CONFIG_WAPI_SUPPORT
++	case WLAN_CIPHER_SUITE_SMS4:
++		alg_name = "SMS4";
++		if (pairwise == NL80211_KEYTYPE_PAIRWISE) {
++			if (key_index != 0 && key_index != 1) {
++				ret = -ENOTSUPP;
++				goto addkey_end;
++			}
++			_rtw_memcpy((void *)param->sta_addr, (void *)mac_addr, ETH_ALEN);
++		} else
++			RTW_INFO("mac_addr is null\n");
++		RTW_INFO("rtw_wx_set_enc_ext: SMS4 case\n");
++		break;
++#endif
++
++	default:
++		ret = -ENOTSUPP;
++		goto addkey_end;
++	}
++
++	strncpy((char *)param->u.crypt.alg, alg_name, IEEE_CRYPT_ALG_NAME_LEN);
++
++
++	if (!mac_addr || is_broadcast_ether_addr(mac_addr)) {
++		param->u.crypt.set_tx = 0; /* for wpa/wpa2 group key */
++	} else {
++		param->u.crypt.set_tx = 1; /* for wpa/wpa2 pairwise key */
++	}
++
++
++	/* param->u.crypt.idx = key_index - 1; */
++	param->u.crypt.idx = key_index;
++
++	if (params->seq_len && params->seq)
++		_rtw_memcpy(param->u.crypt.seq, (u8 *)params->seq, params->seq_len);
++
++	if (params->key_len && params->key) {
++		param->u.crypt.key_len = params->key_len;
++		_rtw_memcpy(param->u.crypt.key, (u8 *)params->key, params->key_len);
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE) {
++#ifdef CONFIG_TDLS
++		if (rtw_tdls_is_driver_setup(padapter) == _FALSE && mac_addr) {
++			ptdls_sta = rtw_get_stainfo(&padapter->stapriv, (void *)mac_addr);
++			if (ptdls_sta != NULL && ptdls_sta->tdls_sta_state) {
++				_rtw_memcpy(ptdls_sta->tpk.tk, params->key, params->key_len);
++				rtw_tdls_set_key(padapter, ptdls_sta);
++				goto addkey_end;
++			}
++		}
++#endif /* CONFIG_TDLS */
++
++		ret =  rtw_cfg80211_set_encryption(ndev, param, param_len);
++	} else if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++#ifdef CONFIG_AP_MODE
++		if (mac_addr)
++			_rtw_memcpy(param->sta_addr, (void *)mac_addr, ETH_ALEN);
++
++		ret = rtw_cfg80211_ap_set_encryption(ndev, param, param_len);
++#endif
++	} else if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE
++		|| check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE
++	) {
++		/* RTW_INFO("@@@@@@@@@@ fw_state=0x%x, iftype=%d\n", pmlmepriv->fw_state, rtw_wdev->iftype); */
++		ret =  rtw_cfg80211_set_encryption(ndev, param, param_len);
++	} else
++		RTW_INFO("error! fw_state=0x%x, iftype=%d\n", pmlmepriv->fw_state, rtw_wdev->iftype);
++
++
++addkey_end:
++	if (param)
++		rtw_mfree((u8 *)param, param_len);
++
++	return ret;
++
++}
++
++static int cfg80211_rtw_get_key(struct wiphy *wiphy, struct net_device *ndev,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	u8 key_index, bool pairwise, const u8 *mac_addr,
++#else	/* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) */
++	u8 key_index, const u8 *mac_addr,
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) */
++	void *cookie,
++	void (*callback)(void *cookie, struct key_params *))
++{
++#if 0
++	struct iwm_priv *iwm = ndev_to_iwm(ndev);
++	struct iwm_key *key = &iwm->keys[key_index];
++	struct key_params params;
++
++	IWM_DBG_WEXT(iwm, DBG, "Getting key %d\n", key_index);
++
++	memset(&params, 0, sizeof(params));
++
++	params.cipher = key->cipher;
++	params.key_len = key->key_len;
++	params.seq_len = key->seq_len;
++	params.seq = key->seq;
++	params.key = key->key;
++
++	callback(cookie, &params);
++
++	return key->key_len ? 0 : -ENOENT;
++#endif
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++	return 0;
++}
++
++static int cfg80211_rtw_del_key(struct wiphy *wiphy, struct net_device *ndev,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++				u8 key_index, bool pairwise, const u8 *mac_addr)
++#else	/* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) */
++				u8 key_index, const u8 *mac_addr)
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) */
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++
++	RTW_INFO(FUNC_NDEV_FMT" key_index=%d\n", FUNC_NDEV_ARG(ndev), key_index);
++
++	if (key_index == psecuritypriv->dot11PrivacyKeyIndex) {
++		/* clear the flag of wep default key set. */
++		psecuritypriv->bWepDefaultKeyIdxSet = 0;
++	}
++
++	return 0;
++}
++
++static int cfg80211_rtw_set_default_key(struct wiphy *wiphy,
++	struct net_device *ndev, u8 key_index
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 38)) || defined(COMPAT_KERNEL_RELEASE)
++	, bool unicast, bool multicast
++	#endif
++)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++
++#define SET_DEF_KEY_PARAM_FMT " key_index=%d"
++#define SET_DEF_KEY_PARAM_ARG , key_index
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 38)) || defined(COMPAT_KERNEL_RELEASE)
++	#define SET_DEF_KEY_PARAM_FMT_2_6_38 ", unicast=%d, multicast=%d"
++	#define SET_DEF_KEY_PARAM_ARG_2_6_38 , unicast, multicast
++#else
++	#define SET_DEF_KEY_PARAM_FMT_2_6_38 ""
++	#define SET_DEF_KEY_PARAM_ARG_2_6_38
++#endif
++
++	RTW_INFO(FUNC_NDEV_FMT
++		SET_DEF_KEY_PARAM_FMT
++		SET_DEF_KEY_PARAM_FMT_2_6_38
++		"\n", FUNC_NDEV_ARG(ndev)
++		SET_DEF_KEY_PARAM_ARG
++		SET_DEF_KEY_PARAM_ARG_2_6_38
++	);
++
++	if ((key_index < WEP_KEYS) && ((psecuritypriv->dot11PrivacyAlgrthm == _WEP40_) || (psecuritypriv->dot11PrivacyAlgrthm == _WEP104_))) { /* set wep default key */
++		psecuritypriv->ndisencryptstatus = Ndis802_11Encryption1Enabled;
++
++		psecuritypriv->dot11PrivacyKeyIndex = key_index;
++
++		psecuritypriv->dot11PrivacyAlgrthm = _WEP40_;
++		psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++		if (psecuritypriv->dot11DefKeylen[key_index] == 13) {
++			psecuritypriv->dot11PrivacyAlgrthm = _WEP104_;
++			psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++		}
++
++		psecuritypriv->bWepDefaultKeyIdxSet = 1; /* set the flag to represent that wep default key has been set */
++	}
++
++	return 0;
++
++}
++#if defined(CONFIG_GTK_OL) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 1, 0))
++static int cfg80211_rtw_set_rekey_data(struct wiphy *wiphy,
++	struct net_device *ndev,
++	struct cfg80211_gtk_rekey_data *data)
++{
++	/*int i;*/
++	struct sta_info *psta;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct mlme_priv   *pmlmepriv = &padapter->mlmepriv;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct security_priv *psecuritypriv = &(padapter->securitypriv);
++
++	psta = rtw_get_stainfo(pstapriv, get_bssid(pmlmepriv));
++	if (psta == NULL) {
++		RTW_INFO("%s, : Obtain Sta_info fail\n", __func__);
++		return -1;
++	}
++
++	_rtw_memcpy(psta->kek, data->kek, NL80211_KEK_LEN);
++	/*printk("\ncfg80211_rtw_set_rekey_data KEK:");
++	for(i=0;i<NL80211_KEK_LEN; i++)
++		printk(" %02x ", psta->kek[i]);*/
++	_rtw_memcpy(psta->kck, data->kck, NL80211_KCK_LEN);
++	/*printk("\ncfg80211_rtw_set_rekey_data KCK:");
++	for(i=0;i<NL80211_KCK_LEN; i++)
++		printk(" %02x ", psta->kck[i]);*/
++	_rtw_memcpy(psta->replay_ctr, data->replay_ctr, NL80211_REPLAY_CTR_LEN);
++	psecuritypriv->binstallKCK_KEK = _TRUE;
++	/*printk("\nREPLAY_CTR: ");
++	for(i=0;i<RTW_REPLAY_CTR_LEN; i++)
++		printk(" %02x ", psta->replay_ctr[i]);*/
++
++	return 0;
++}
++#endif /*CONFIG_GTK_OL*/
++static int cfg80211_rtw_get_station(struct wiphy *wiphy,
++	struct net_device *ndev,
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 16, 0))
++	u8 *mac,
++#else
++	const u8 *mac,
++#endif
++	struct station_info *sinfo)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct sta_info *psta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	sinfo->filled = 0;
++
++	if (!mac) {
++		RTW_INFO(FUNC_NDEV_FMT" mac==%p\n", FUNC_NDEV_ARG(ndev), mac);
++		ret = -ENOENT;
++		goto exit;
++	}
++
++	psta = rtw_get_stainfo(pstapriv, (u8 *)mac);
++	if (psta == NULL) {
++		RTW_INFO("%s, sta_info is null\n", __func__);
++		ret = -ENOENT;
++		goto exit;
++	}
++
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO(FUNC_NDEV_FMT" mac="MAC_FMT"\n", FUNC_NDEV_ARG(ndev), MAC_ARG(mac));
++#endif
++
++	/* for infra./P2PClient mode */
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)
++		&& check_fwstate(pmlmepriv, _FW_LINKED)
++	) {
++		struct wlan_network  *cur_network = &(pmlmepriv->cur_network);
++
++		if (_rtw_memcmp((u8 *)mac, cur_network->network.MacAddress, ETH_ALEN) == _FALSE) {
++			RTW_INFO("%s, mismatch bssid="MAC_FMT"\n", __func__, MAC_ARG(cur_network->network.MacAddress));
++			ret = -ENOENT;
++			goto exit;
++		}
++
++		sinfo->filled |= STATION_INFO_SIGNAL;
++		sinfo->signal = translate_percentage_to_dbm(padapter->recvpriv.signal_strength);
++
++		sinfo->filled |= STATION_INFO_TX_BITRATE;
++		sinfo->txrate.legacy = rtw_get_cur_max_rate(padapter);
++
++		sinfo->filled |= STATION_INFO_RX_PACKETS;
++		sinfo->rx_packets = sta_rx_data_pkts(psta);
++
++		sinfo->filled |= STATION_INFO_TX_PACKETS;
++		sinfo->tx_packets = psta->sta_stats.tx_pkts;
++
++	}
++
++	/* for Ad-Hoc/AP mode */
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_STATE)
++		|| check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE)
++		|| check_fwstate(pmlmepriv, WIFI_AP_STATE))
++		&& check_fwstate(pmlmepriv, _FW_LINKED)
++	) {
++		/* TODO: should acquire station info... */
++	}
++
++exit:
++	return ret;
++}
++
++extern int netdev_open(struct net_device *pnetdev);
++
++#if 0
++enum nl80211_iftype {
++	NL80211_IFTYPE_UNSPECIFIED,
++	NL80211_IFTYPE_ADHOC, /* 1 */
++	NL80211_IFTYPE_STATION, /* 2 */
++	NL80211_IFTYPE_AP, /* 3 */
++	NL80211_IFTYPE_AP_VLAN,
++	NL80211_IFTYPE_WDS,
++	NL80211_IFTYPE_MONITOR, /* 6 */
++	NL80211_IFTYPE_MESH_POINT,
++	NL80211_IFTYPE_P2P_CLIENT, /* 8 */
++	NL80211_IFTYPE_P2P_GO, /* 9 */
++	/* keep last */
++	NUM_NL80211_IFTYPES,
++	NL80211_IFTYPE_MAX = NUM_NL80211_IFTYPES - 1
++};
++#endif
++static int cfg80211_rtw_change_iface(struct wiphy *wiphy,
++				     struct net_device *ndev,
++				     enum nl80211_iftype type, u32 *flags,
++				     struct vif_params *params)
++{
++	enum nl80211_iftype old_type;
++	NDIS_802_11_NETWORK_INFRASTRUCTURE networkType;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct wireless_dev *rtw_wdev = padapter->rtw_wdev;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif
++	int ret = 0;
++	u8 change = _FALSE;
++
++	RTW_INFO(FUNC_NDEV_FMT" type=%d\n", FUNC_NDEV_ARG(ndev), type);
++
++	if (adapter_to_dvobj(padapter)->processing_dev_remove == _TRUE) {
++		ret = -EPERM;
++		goto exit;
++	}
++
++
++	RTW_INFO(FUNC_NDEV_FMT" call netdev_open\n", FUNC_NDEV_ARG(ndev));
++	if (netdev_open(ndev) != 0) {
++		RTW_INFO(FUNC_NDEV_FMT" call netdev_open fail\n", FUNC_NDEV_ARG(ndev));
++		ret = -EPERM;
++		goto exit;
++	}
++
++
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		RTW_INFO(FUNC_NDEV_FMT" call rtw_pwr_wakeup fail\n", FUNC_NDEV_ARG(ndev));
++		ret = -EPERM;
++		goto exit;
++	}
++
++	old_type = rtw_wdev->iftype;
++	RTW_INFO(FUNC_NDEV_FMT" old_iftype=%d, new_iftype=%d\n",
++		FUNC_NDEV_ARG(ndev), old_type, type);
++
++	if (old_type != type) {
++		change = _TRUE;
++		pmlmeext->action_public_rxseq = 0xffff;
++		pmlmeext->action_public_dialog_token = 0xff;
++	}
++
++	/* initial default type */
++	ndev->type = ARPHRD_ETHER;
++
++	switch (type) {
++	case NL80211_IFTYPE_ADHOC:
++		networkType = Ndis802_11IBSS;
++		break;
++#if defined(CONFIG_P2P) && ((LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE))
++	case NL80211_IFTYPE_P2P_CLIENT:
++#endif
++	case NL80211_IFTYPE_STATION:
++		networkType = Ndis802_11Infrastructure;
++		#ifdef CONFIG_P2P
++		if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++			if (change && rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++				/* it means remove GO and change mode from AP(GO) to station(P2P DEVICE) */
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++				rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++
++				RTW_INFO("%s, role=%d, p2p_state=%d, pre_p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo), rtw_p2p_pre_state(pwdinfo));
++			}
++			#if ((LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE))
++			if (type == NL80211_IFTYPE_P2P_CLIENT)
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++			else {
++				/* NL80211_IFTYPE_STATION */
++				if (rtw_p2p_role(pwdinfo) == P2P_ROLE_CLIENT)
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++			}
++			#endif
++		}
++		#endif /* CONFIG_P2P */
++		break;
++#if defined(CONFIG_P2P) && ((LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE))
++	case NL80211_IFTYPE_P2P_GO:
++#endif
++	case NL80211_IFTYPE_AP:
++		networkType = Ndis802_11APMode;
++		#ifdef CONFIG_P2P
++		if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++			if (change && !rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++				/* it means P2P Group created, we will be GO and change mode from  P2P DEVICE to AP(GO) */
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++			}
++		}
++		#endif /* CONFIG_P2P */
++		break;
++	case NL80211_IFTYPE_MONITOR:
++		networkType = Ndis802_11Monitor;
++#if 0
++		ndev->type = ARPHRD_IEEE80211; /* IEEE 802.11 : 801 */
++#endif
++		ndev->type = ARPHRD_IEEE80211_RADIOTAP; /* IEEE 802.11 + radiotap header : 803 */
++		break;
++	default:
++		ret = -EOPNOTSUPP;
++		goto exit;
++	}
++
++	rtw_wdev->iftype = type;
++
++	if (rtw_set_802_11_infrastructure_mode(padapter, networkType) == _FALSE) {
++		rtw_wdev->iftype = old_type;
++		ret = -EPERM;
++		goto exit;
++	}
++
++	rtw_setopmode_cmd(padapter, networkType, _TRUE);
++
++exit:
++
++	RTW_INFO(FUNC_NDEV_FMT" ret:%d\n", FUNC_NDEV_ARG(ndev), ret);
++	return ret;
++}
++
++void rtw_cfg80211_indicate_scan_done(_adapter *adapter, bool aborted)
++{
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(adapter);
++	_irqL	irqL;
++
++	_enter_critical_bh(&pwdev_priv->scan_req_lock, &irqL);
++	if (pwdev_priv->scan_request != NULL) {
++		#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO("%s with scan req\n", __FUNCTION__);
++		#endif
++
++		/* avoid WARN_ON(request != wiphy_to_dev(request->wiphy)->scan_req); */
++		if (pwdev_priv->scan_request->wiphy != pwdev_priv->rtw_wdev->wiphy)
++			RTW_INFO("error wiphy compare\n");
++		else {
++			struct cfg80211_scan_info info = {
++				.aborted = aborted,
++			};
++			cfg80211_scan_done(pwdev_priv->scan_request, &info);
++		}
++
++		pwdev_priv->scan_request = NULL;
++	} else {
++		#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO("%s without scan req\n", __FUNCTION__);
++		#endif
++	}
++	_exit_critical_bh(&pwdev_priv->scan_req_lock, &irqL);
++}
++
++u32 rtw_cfg80211_wait_scan_req_empty(_adapter *adapter, u32 timeout_ms)
++{
++	struct rtw_wdev_priv *wdev_priv = adapter_wdev_data(adapter);
++	u8 empty = _FALSE;
++	u32 start;
++	u32 pass_ms;
++
++	start = rtw_get_current_time();
++
++	while (rtw_get_passing_time_ms(start) <= timeout_ms) {
++
++		if (RTW_CANNOT_RUN(adapter))
++			break;
++
++		if (!wdev_priv->scan_request) {
++			empty = _TRUE;
++			break;
++		}
++
++		rtw_msleep_os(10);
++	}
++
++	pass_ms = rtw_get_passing_time_ms(start);
++
++	if (empty == _FALSE && pass_ms > timeout_ms)
++		RTW_PRINT(FUNC_ADPT_FMT" pass_ms:%u, timeout\n"
++			, FUNC_ADPT_ARG(adapter), pass_ms);
++
++	return pass_ms;
++}
++
++void rtw_cfg80211_unlink_bss(_adapter *padapter, struct wlan_network *pnetwork)
++{
++	struct wireless_dev *pwdev = padapter->rtw_wdev;
++	struct wiphy *wiphy = pwdev->wiphy;
++	struct cfg80211_bss *bss = NULL;
++	WLAN_BSSID_EX select_network = pnetwork->network;
++
++	bss = cfg80211_get_bss(wiphy, NULL/*notify_channel*/,
++		select_network.MacAddress, select_network.Ssid.Ssid,
++		select_network.Ssid.SsidLength, 0/*WLAN_CAPABILITY_ESS*/,
++		0/*WLAN_CAPABILITY_ESS*/);
++
++	if (bss) {
++		cfg80211_unlink_bss(wiphy, bss);
++		RTW_INFO("%s(): cfg80211_unlink %s!! () ", __func__, select_network.Ssid.Ssid);
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(3, 9, 0)
++		cfg80211_put_bss(padapter->rtw_wdev->wiphy, bss);
++#else
++		cfg80211_put_bss(bss);
++#endif
++	}
++	return;
++}
++
++void rtw_cfg80211_surveydone_event_callback(_adapter *padapter)
++{
++	_irqL	irqL;
++	_list					*plist, *phead;
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	_queue				*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	u32 cnt = 0;
++	u32 wait_for_surveydone;
++	sint wait_status;
++#ifdef CONFIG_P2P
++	struct	wifidirect_info	*pwdinfo = &padapter->wdinfo;
++#endif /* CONFIG_P2P */
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(padapter);
++
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO("%s\n", __func__);
++#endif
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		/* report network only if the current channel set contains the channel to which this network belongs */
++		if (rtw_ch_set_search_ch(padapter->mlmeextpriv.channel_set, pnetwork->network.Configuration.DSConfig) >= 0
++			&& rtw_mlme_band_check(padapter, pnetwork->network.Configuration.DSConfig) == _TRUE
++			&& _TRUE == rtw_validate_ssid(&(pnetwork->network.Ssid))
++		) {
++			/* ev=translate_scan(padapter, a, pnetwork, ev, stop); */
++			rtw_cfg80211_inform_bss(padapter, pnetwork);
++		}
++#if 0
++		/* check ralink testbed RSN IE length */
++		{
++			if (_rtw_memcmp(pnetwork->network.Ssid.Ssid, "Ralink_11n_AP", 13)) {
++				uint ie_len = 0;
++				u8 *p = NULL;
++				p = rtw_get_ie(pnetwork->network.IEs + _BEACON_IE_OFFSET_, _RSN_IE_2_, &ie_len, (pnetwork->network.IELength - _BEACON_IE_OFFSET_));
++				RTW_INFO("ie_len=%d\n", ie_len);
++			}
++		}
++#endif
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++}
++
++static int rtw_cfg80211_set_probe_req_wpsp2pie(_adapter *padapter, char *buf, int len)
++{
++	int ret = 0;
++	uint wps_ielen = 0;
++	u8 *wps_ie;
++	u32	p2p_ielen = 0;
++	u8 *p2p_ie;
++	u32	wfd_ielen = 0;
++	u8 *wfd_ie;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO("%s, ielen=%d\n", __func__, len);
++#endif
++
++	if (len > 0) {
++		wps_ie = rtw_get_wps_ie(buf, len, NULL, &wps_ielen);
++		if (wps_ie) {
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("probe_req_wps_ielen=%d\n", wps_ielen);
++			#endif
++
++			if (pmlmepriv->wps_probe_req_ie) {
++				u32 free_len = pmlmepriv->wps_probe_req_ie_len;
++				pmlmepriv->wps_probe_req_ie_len = 0;
++				rtw_mfree(pmlmepriv->wps_probe_req_ie, free_len);
++				pmlmepriv->wps_probe_req_ie = NULL;
++			}
++
++			pmlmepriv->wps_probe_req_ie = rtw_malloc(wps_ielen);
++			if (pmlmepriv->wps_probe_req_ie == NULL) {
++				RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				return -EINVAL;
++
++			}
++			_rtw_memcpy(pmlmepriv->wps_probe_req_ie, wps_ie, wps_ielen);
++			pmlmepriv->wps_probe_req_ie_len = wps_ielen;
++		}
++
++		/* buf += wps_ielen; */
++		/* len -= wps_ielen; */
++
++		#ifdef CONFIG_P2P
++		p2p_ie = rtw_get_p2p_ie(buf, len, NULL, &p2p_ielen);
++		if (p2p_ie) {
++			struct wifidirect_info *wdinfo = &padapter->wdinfo;
++			u32 attr_contentlen = 0;
++			u8 listen_ch_attr[5];
++
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("probe_req_p2p_ielen=%d\n", p2p_ielen);
++			#endif
++
++			if (pmlmepriv->p2p_probe_req_ie) {
++				u32 free_len = pmlmepriv->p2p_probe_req_ie_len;
++				pmlmepriv->p2p_probe_req_ie_len = 0;
++				rtw_mfree(pmlmepriv->p2p_probe_req_ie, free_len);
++				pmlmepriv->p2p_probe_req_ie = NULL;
++			}
++
++			pmlmepriv->p2p_probe_req_ie = rtw_malloc(p2p_ielen);
++			if (pmlmepriv->p2p_probe_req_ie == NULL) {
++				RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				return -EINVAL;
++
++			}
++			_rtw_memcpy(pmlmepriv->p2p_probe_req_ie, p2p_ie, p2p_ielen);
++			pmlmepriv->p2p_probe_req_ie_len = p2p_ielen;
++
++			if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_LISTEN_CH, (u8 *)listen_ch_attr, (uint *) &attr_contentlen)
++				&& attr_contentlen == 5) {
++				if (wdinfo->listen_channel !=  listen_ch_attr[4]) {
++					RTW_INFO(FUNC_ADPT_FMT" listen channel - country:%c%c%c, class:%u, ch:%u\n",
++						FUNC_ADPT_ARG(padapter), listen_ch_attr[0], listen_ch_attr[1], listen_ch_attr[2],
++						listen_ch_attr[3], listen_ch_attr[4]);
++					wdinfo->listen_channel = listen_ch_attr[4];
++				}
++			}
++		}
++		#endif /* CONFIG_P2P */
++
++		#ifdef CONFIG_WFD
++		wfd_ie = rtw_get_wfd_ie(buf, len, NULL, &wfd_ielen);
++		if (wfd_ie) {
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("probe_req_wfd_ielen=%d\n", wfd_ielen);
++			#endif
++
++			if (rtw_mlme_update_wfd_ie_data(pmlmepriv, MLME_PROBE_REQ_IE, wfd_ie, wfd_ielen) != _SUCCESS)
++				return -EINVAL;
++		}
++		#endif /* CONFIG_WFD */
++	}
++
++	return ret;
++
++}
++
++static int cfg80211_rtw_scan(struct wiphy *wiphy
++	#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 6, 0))
++	, struct net_device *ndev
++	#endif
++	, struct cfg80211_scan_request *request)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct net_device *ndev = wdev_to_ndev(request->wdev);
++#endif
++	int i, chan_num = 0;
++	u8 _status = _FALSE;
++	int ret = 0;
++	NDIS_802_11_SSID ssid[RTW_SSID_SCAN_AMOUNT];
++	struct rtw_ieee80211_channel ch[RTW_CHANNEL_SCAN_AMOUNT];
++	struct rtw_ieee80211_channel *pch;
++	_irqL	irqL;
++	u8 *wps_ie = NULL;
++	uint wps_ielen = 0;
++	u8 *p2p_ie = NULL;
++	uint p2p_ielen = 0;
++	u8 survey_times = 3;
++	u8 survey_times_for_one_ch = 6;
++	struct cfg80211_ssid *ssids = request->ssids;
++	int social_channel = 0, j = 0;
++	bool need_indicate_scan_done = _FALSE;
++	bool ps_denied = _FALSE;
++
++	_adapter *padapter;
++	struct rtw_wdev_priv *pwdev_priv;
++	struct mlme_priv *pmlmepriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo;
++#endif /* CONFIG_P2P */
++
++	if (ndev == NULL) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	padapter = (_adapter *)rtw_netdev_priv(ndev);
++	pwdev_priv = adapter_wdev_data(padapter);
++	pmlmepriv = &padapter->mlmepriv;
++#ifdef CONFIG_P2P
++	pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++#ifdef CONFIG_MP_INCLUDED
++	if (rtw_mi_mp_mode_check(padapter)) {
++		RTW_INFO("MP mode block Scan request\n");
++		ret = -EPERM;
++		goto exit;
++	}
++#endif
++
++	_enter_critical_bh(&pwdev_priv->scan_req_lock, &irqL);
++	pwdev_priv->scan_request = request;
++	_exit_critical_bh(&pwdev_priv->scan_req_lock, &irqL);
++
++	if (adapter_wdev_data(padapter)->block_scan == _TRUE) {
++		RTW_INFO(FUNC_ADPT_FMT" wdev_priv.block_scan is set\n", FUNC_ADPT_ARG(padapter));
++		need_indicate_scan_done = _TRUE;
++		goto check_need_indicate_scan_done;
++	}
++
++	rtw_ps_deny(padapter, PS_DENY_SCAN);
++	ps_denied = _TRUE;
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		need_indicate_scan_done = _TRUE;
++		goto check_need_indicate_scan_done;
++	}
++
++#ifdef CONFIG_P2P
++	if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++		if (ssids->ssid != NULL
++			&& _rtw_memcmp(ssids->ssid, "DIRECT-", 7)
++			&& rtw_get_p2p_ie((u8 *)request->ie, request->ie_len, NULL, NULL)
++		) {
++			if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++				rtw_p2p_enable(padapter, P2P_ROLE_DEVICE);
++				adapter_wdev_data(padapter)->p2p_enabled = _TRUE;
++			} else {
++				rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++				#ifdef CONFIG_DEBUG_CFG80211
++				RTW_INFO("%s, role=%d, p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo));
++				#endif
++			}
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_LISTEN);
++
++			if (request->n_channels == 3 &&
++				request->channels[0]->hw_value == 1 &&
++				request->channels[1]->hw_value == 6 &&
++				request->channels[2]->hw_value == 11
++			)
++				social_channel = 1;
++		}
++	}
++#endif /*CONFIG_P2P*/
++
++	if (request->ie && request->ie_len > 0)
++		rtw_cfg80211_set_probe_req_wpsp2pie(padapter, (u8 *)request->ie, request->ie_len);
++
++	if (rtw_is_scan_deny(padapter)) {
++		RTW_INFO(FUNC_ADPT_FMT	": scan deny\n", FUNC_ADPT_ARG(padapter));
++		need_indicate_scan_done = _TRUE;
++		goto check_need_indicate_scan_done;
++	}
++
++	/* check fw state*/
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++
++#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO(FUNC_ADPT_FMT" under WIFI_AP_STATE\n", FUNC_ADPT_ARG(padapter));
++#endif
++
++		if (check_fwstate(pmlmepriv, WIFI_UNDER_WPS | _FW_UNDER_SURVEY | _FW_UNDER_LINKING) == _TRUE) {
++			RTW_INFO("%s, fwstate=0x%x\n", __func__, pmlmepriv->fw_state);
++
++			if (check_fwstate(pmlmepriv, WIFI_UNDER_WPS))
++				RTW_INFO("AP mode process WPS\n");
++
++			need_indicate_scan_done = _TRUE;
++			goto check_need_indicate_scan_done;
++		}
++	}
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE) {
++		RTW_INFO("%s, fwstate=0x%x\n", __func__, pmlmepriv->fw_state);
++		need_indicate_scan_done = _TRUE;
++		goto check_need_indicate_scan_done;
++	} else if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE) {
++		RTW_INFO("%s, fwstate=0x%x\n", __func__, pmlmepriv->fw_state);
++		ret = -EBUSY;
++		goto check_need_indicate_scan_done;
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_buddy_check_fwstate(padapter, _FW_UNDER_LINKING | WIFI_UNDER_WPS)) {
++		RTW_INFO("%s exit due to buddy_intf's mlme state under linking or wps\n", __func__);
++		need_indicate_scan_done = _TRUE;
++		goto check_need_indicate_scan_done;
++
++	} else {
++		bool scan_via_buddy = _FALSE;
++		u8 bunder_survey = rtw_mi_buddy_under_survey(padapter);
++
++		if (bunder_survey) {
++			scan_via_buddy = (UNDER_SURVEY_T2 == bunder_survey) ? _TRUE : _FALSE;
++			if (scan_via_buddy == _FALSE)
++				need_indicate_scan_done = _TRUE;
++
++			goto check_need_indicate_scan_done;
++		}
++	}
++
++#endif /* CONFIG_CONCURRENT_MODE */
++
++	/* busy traffic check*/
++	if (rtw_mi_busy_traffic_check(padapter, _TRUE)) {
++		need_indicate_scan_done = _TRUE;
++		goto check_need_indicate_scan_done;
++	}
++
++#ifdef CONFIG_P2P
++	if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE) && !rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE)) {
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH);
++		rtw_free_network_queue(padapter, _TRUE);
++
++		if (social_channel == 0)
++			rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_NONE);
++		else
++			rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_SOCIAL_LAST);
++	}
++#endif /* CONFIG_P2P */
++
++
++	_rtw_memset(ssid, 0, sizeof(NDIS_802_11_SSID) * RTW_SSID_SCAN_AMOUNT);
++	/* parsing request ssids, n_ssids */
++	for (i = 0; i < request->n_ssids && i < RTW_SSID_SCAN_AMOUNT; i++) {
++		#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO("ssid=%s, len=%d\n", ssids[i].ssid, ssids[i].ssid_len);
++		#endif
++		_rtw_memcpy(ssid[i].Ssid, ssids[i].ssid, ssids[i].ssid_len);
++		ssid[i].SsidLength = ssids[i].ssid_len;
++	}
++
++	/* parsing channels, n_channels */
++	_rtw_memset(ch, 0, sizeof(struct rtw_ieee80211_channel) * RTW_CHANNEL_SCAN_AMOUNT);
++	for (i = 0; i < request->n_channels && i < RTW_CHANNEL_SCAN_AMOUNT; i++) {
++		#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO(FUNC_ADPT_FMT CHAN_FMT"\n", FUNC_ADPT_ARG(padapter), CHAN_ARG(request->channels[i]));
++		#endif
++		ch[i].hw_value = request->channels[i]->hw_value;
++		ch[i].flags = request->channels[i]->flags;
++	}
++
++
++
++	if (request->n_channels == 1) {
++		for (i = 1; i < survey_times_for_one_ch; i++)
++			_rtw_memcpy(&ch[i], &ch[0], sizeof(struct rtw_ieee80211_channel));
++		pch = ch;
++		chan_num = survey_times_for_one_ch;
++	} else if (request->n_channels <= 4) {
++		for (j = request->n_channels - 1; j >= 0; j--)
++			for (i = 0; i < survey_times; i++)
++				_rtw_memcpy(&ch[j * survey_times + i], &ch[j], sizeof(struct rtw_ieee80211_channel));
++		pch = ch;
++		chan_num = survey_times * request->n_channels;
++	} else {
++		pch = ch;
++		chan_num = request->n_channels;
++	}
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	_status = rtw_sitesurvey_cmd(padapter, ssid, RTW_SSID_SCAN_AMOUNT, pch, chan_num);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++	if (_status == _FALSE)
++		ret = -1;
++
++check_need_indicate_scan_done:
++	if (_TRUE == need_indicate_scan_done) {
++		rtw_cfg80211_surveydone_event_callback(padapter);
++		rtw_cfg80211_indicate_scan_done(padapter, _FALSE);
++	}
++
++cancel_ps_deny:
++	if (ps_denied == _TRUE)
++		rtw_ps_deny_cancel(padapter, PS_DENY_SCAN);
++
++exit:
++	return ret;
++
++}
++
++static int cfg80211_rtw_set_wiphy_params(struct wiphy *wiphy, u32 changed)
++{
++#if 0
++	struct iwm_priv *iwm = wiphy_to_iwm(wiphy);
++
++	if (changed & WIPHY_PARAM_RTS_THRESHOLD &&
++	    (iwm->conf.rts_threshold != wiphy->rts_threshold)) {
++		int ret;
++
++		iwm->conf.rts_threshold = wiphy->rts_threshold;
++
++		ret = iwm_umac_set_config_fix(iwm, UMAC_PARAM_TBL_CFG_FIX,
++				CFG_RTS_THRESHOLD,
++				iwm->conf.rts_threshold);
++		if (ret < 0)
++			return ret;
++	}
++
++	if (changed & WIPHY_PARAM_FRAG_THRESHOLD &&
++	    (iwm->conf.frag_threshold != wiphy->frag_threshold)) {
++		int ret;
++
++		iwm->conf.frag_threshold = wiphy->frag_threshold;
++
++		ret = iwm_umac_set_config_fix(iwm, UMAC_PARAM_TBL_FA_CFG_FIX,
++				CFG_FRAG_THRESHOLD,
++				iwm->conf.frag_threshold);
++		if (ret < 0)
++			return ret;
++	}
++#endif
++	RTW_INFO("%s\n", __func__);
++	return 0;
++}
++
++
++
++static int rtw_cfg80211_set_wpa_version(struct security_priv *psecuritypriv, u32 wpa_version)
++{
++	RTW_INFO("%s, wpa_version=%d\n", __func__, wpa_version);
++
++	if (!wpa_version) {
++		psecuritypriv->ndisauthtype = Ndis802_11AuthModeOpen;
++		return 0;
++	}
++
++
++	if (wpa_version & (NL80211_WPA_VERSION_1 | NL80211_WPA_VERSION_2))
++		psecuritypriv->ndisauthtype = Ndis802_11AuthModeWPAPSK;
++
++#if 0
++	if (wpa_version & NL80211_WPA_VERSION_2)
++		psecuritypriv->ndisauthtype = Ndis802_11AuthModeWPA2PSK;
++#endif
++
++	#ifdef CONFIG_WAPI_SUPPORT
++	if (wpa_version & NL80211_WAPI_VERSION_1)
++		psecuritypriv->ndisauthtype = Ndis802_11AuthModeWAPI;
++	#endif
++
++	return 0;
++
++}
++
++static int rtw_cfg80211_set_auth_type(struct security_priv *psecuritypriv,
++		enum nl80211_auth_type sme_auth_type)
++{
++	RTW_INFO("%s, nl80211_auth_type=%d\n", __func__, sme_auth_type);
++
++
++	switch (sme_auth_type) {
++	case NL80211_AUTHTYPE_AUTOMATIC:
++
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++
++		break;
++	case NL80211_AUTHTYPE_OPEN_SYSTEM:
++
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Open;
++
++		if (psecuritypriv->ndisauthtype > Ndis802_11AuthModeWPA)
++			psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++
++#ifdef CONFIG_WAPI_SUPPORT
++		if (psecuritypriv->ndisauthtype == Ndis802_11AuthModeWAPI)
++			psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_WAPI;
++#endif
++
++		break;
++	case NL80211_AUTHTYPE_SHARED_KEY:
++
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Shared;
++
++		psecuritypriv->ndisencryptstatus = Ndis802_11Encryption1Enabled;
++
++
++		break;
++	default:
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Open;
++		/* return -ENOTSUPP; */
++	}
++
++	return 0;
++
++}
++
++static int rtw_cfg80211_set_cipher(struct security_priv *psecuritypriv, u32 cipher, bool ucast)
++{
++	u32 ndisencryptstatus = Ndis802_11EncryptionDisabled;
++
++	u32 *profile_cipher = ucast ? &psecuritypriv->dot11PrivacyAlgrthm :
++		&psecuritypriv->dot118021XGrpPrivacy;
++
++	RTW_INFO("%s, ucast=%d, cipher=0x%x\n", __func__, ucast, cipher);
++
++
++	if (!cipher) {
++		*profile_cipher = _NO_PRIVACY_;
++		psecuritypriv->ndisencryptstatus = ndisencryptstatus;
++		return 0;
++	}
++
++	switch (cipher) {
++	case IW_AUTH_CIPHER_NONE:
++		*profile_cipher = _NO_PRIVACY_;
++		ndisencryptstatus = Ndis802_11EncryptionDisabled;
++#ifdef CONFIG_WAPI_SUPPORT
++		if (psecuritypriv->dot11PrivacyAlgrthm == _SMS4_)
++			*profile_cipher = _SMS4_;
++#endif
++		break;
++	case WLAN_CIPHER_SUITE_WEP40:
++		*profile_cipher = _WEP40_;
++		ndisencryptstatus = Ndis802_11Encryption1Enabled;
++		break;
++	case WLAN_CIPHER_SUITE_WEP104:
++		*profile_cipher = _WEP104_;
++		ndisencryptstatus = Ndis802_11Encryption1Enabled;
++		break;
++	case WLAN_CIPHER_SUITE_TKIP:
++		*profile_cipher = _TKIP_;
++		ndisencryptstatus = Ndis802_11Encryption2Enabled;
++		break;
++	case WLAN_CIPHER_SUITE_CCMP:
++		*profile_cipher = _AES_;
++		ndisencryptstatus = Ndis802_11Encryption3Enabled;
++		break;
++#ifdef CONFIG_WAPI_SUPPORT
++	case WLAN_CIPHER_SUITE_SMS4:
++		*profile_cipher = _SMS4_;
++		ndisencryptstatus = Ndis802_11_EncrypteionWAPI;
++		break;
++#endif
++	default:
++		RTW_INFO("Unsupported cipher: 0x%x\n", cipher);
++		return -ENOTSUPP;
++	}
++
++	if (ucast) {
++		psecuritypriv->ndisencryptstatus = ndisencryptstatus;
++
++		/* if(psecuritypriv->dot11PrivacyAlgrthm >= _AES_) */
++		/*	psecuritypriv->ndisauthtype = Ndis802_11AuthModeWPA2PSK; */
++	}
++
++	return 0;
++}
++
++static int rtw_cfg80211_set_key_mgt(struct security_priv *psecuritypriv, u32 key_mgt)
++{
++	RTW_INFO("%s, key_mgt=0x%x\n", __func__, key_mgt);
++
++	if (key_mgt == WLAN_AKM_SUITE_8021X) {
++		/* *auth_type = UMAC_AUTH_TYPE_8021X; */
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++		psecuritypriv->rsn_akm_suite_type = 1;
++	} else if (key_mgt == WLAN_AKM_SUITE_PSK) {
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++		psecuritypriv->rsn_akm_suite_type = 2;
++	}
++#ifdef CONFIG_WAPI_SUPPORT
++	else if (key_mgt == WLAN_AKM_SUITE_WAPI_PSK)
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_WAPI;
++	else if (key_mgt == WLAN_AKM_SUITE_WAPI_CERT)
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_WAPI;
++#endif
++#ifdef CONFIG_RTW_80211R
++	else if (key_mgt == WLAN_AKM_SUITE_FT_8021X) {
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++		psecuritypriv->rsn_akm_suite_type = 3;
++	} else if (key_mgt == WLAN_AKM_SUITE_FT_PSK) {
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++		psecuritypriv->rsn_akm_suite_type = 4;
++	}
++#endif
++	else {
++		RTW_INFO("Invalid key mgt: 0x%x\n", key_mgt);
++		/* return -EINVAL; */
++	}
++
++	return 0;
++}
++
++static int rtw_cfg80211_set_wpa_ie(_adapter *padapter, u8 *pie, size_t ielen)
++{
++	u8 *buf = NULL, *pos = NULL;
++	u32 left;
++	int group_cipher = 0, pairwise_cipher = 0;
++	int ret = 0;
++	int wpa_ielen = 0;
++	int wpa2_ielen = 0;
++	u8 *pwpa, *pwpa2;
++	u8 null_addr[] = {0, 0, 0, 0, 0, 0};
++
++	if (pie == NULL || !ielen) {
++		/* Treat this as normal case, but need to clear WIFI_UNDER_WPS */
++		_clr_fwstate_(&padapter->mlmepriv, WIFI_UNDER_WPS);
++		goto exit;
++	}
++
++	if (ielen > MAX_WPA_IE_LEN + MAX_WPS_IE_LEN + MAX_P2P_IE_LEN) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	buf = rtw_zmalloc(ielen);
++	if (buf == NULL) {
++		ret =  -ENOMEM;
++		goto exit;
++	}
++
++	_rtw_memcpy(buf, pie , ielen);
++
++	/* dump */
++	{
++		int i;
++		RTW_INFO("set wpa_ie(length:%zu):\n", ielen);
++		for (i = 0; i < ielen; i = i + 8)
++			RTW_INFO("0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x\n", buf[i], buf[i + 1], buf[i + 2], buf[i + 3], buf[i + 4], buf[i + 5], buf[i + 6], buf[i + 7]);
++	}
++
++	pos = buf;
++	if (ielen < RSN_HEADER_LEN) {
++		ret  = -1;
++		goto exit;
++	}
++
++	pwpa = rtw_get_wpa_ie(buf, &wpa_ielen, ielen);
++	if (pwpa && wpa_ielen > 0) {
++		if (rtw_parse_wpa_ie(pwpa, wpa_ielen + 2, &group_cipher, &pairwise_cipher, NULL) == _SUCCESS) {
++			padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeWPAPSK;
++			_rtw_memcpy(padapter->securitypriv.supplicant_ie, &pwpa[0], wpa_ielen + 2);
++
++			RTW_INFO("got wpa_ie, wpa_ielen:%u\n", wpa_ielen);
++		}
++	}
++
++	pwpa2 = rtw_get_wpa2_ie(buf, &wpa2_ielen, ielen);
++	if (pwpa2 && wpa2_ielen > 0) {
++		if (rtw_parse_wpa2_ie(pwpa2, wpa2_ielen + 2, &group_cipher, &pairwise_cipher, NULL) == _SUCCESS) {
++			padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeWPA2PSK;
++			_rtw_memcpy(padapter->securitypriv.supplicant_ie, &pwpa2[0], wpa2_ielen + 2);
++
++			RTW_INFO("got wpa2_ie, wpa2_ielen:%u\n", wpa2_ielen);
++		}
++	}
++
++	if (group_cipher == 0)
++		group_cipher = WPA_CIPHER_NONE;
++	if (pairwise_cipher == 0)
++		pairwise_cipher = WPA_CIPHER_NONE;
++
++	switch (group_cipher) {
++	case WPA_CIPHER_NONE:
++		padapter->securitypriv.dot118021XGrpPrivacy = _NO_PRIVACY_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11EncryptionDisabled;
++		break;
++	case WPA_CIPHER_WEP40:
++		padapter->securitypriv.dot118021XGrpPrivacy = _WEP40_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++		break;
++	case WPA_CIPHER_TKIP:
++		padapter->securitypriv.dot118021XGrpPrivacy = _TKIP_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption2Enabled;
++		break;
++	case WPA_CIPHER_CCMP:
++		padapter->securitypriv.dot118021XGrpPrivacy = _AES_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption3Enabled;
++		break;
++	case WPA_CIPHER_WEP104:
++		padapter->securitypriv.dot118021XGrpPrivacy = _WEP104_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++		break;
++	}
++
++	switch (pairwise_cipher) {
++	case WPA_CIPHER_NONE:
++		padapter->securitypriv.dot11PrivacyAlgrthm = _NO_PRIVACY_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11EncryptionDisabled;
++		break;
++	case WPA_CIPHER_WEP40:
++		padapter->securitypriv.dot11PrivacyAlgrthm = _WEP40_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++		break;
++	case WPA_CIPHER_TKIP:
++		padapter->securitypriv.dot11PrivacyAlgrthm = _TKIP_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption2Enabled;
++		break;
++	case WPA_CIPHER_CCMP:
++		padapter->securitypriv.dot11PrivacyAlgrthm = _AES_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption3Enabled;
++		break;
++	case WPA_CIPHER_WEP104:
++		padapter->securitypriv.dot11PrivacyAlgrthm = _WEP104_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++		break;
++	}
++
++	{/* handle wps_ie */
++		uint wps_ielen;
++		u8 *wps_ie;
++
++		wps_ie = rtw_get_wps_ie(buf, ielen, NULL, &wps_ielen);
++		if (wps_ie && wps_ielen > 0) {
++			RTW_INFO("got wps_ie, wps_ielen:%u\n", wps_ielen);
++			padapter->securitypriv.wps_ie_len = wps_ielen < MAX_WPS_IE_LEN ? wps_ielen : MAX_WPS_IE_LEN;
++			_rtw_memcpy(padapter->securitypriv.wps_ie, wps_ie, padapter->securitypriv.wps_ie_len);
++			set_fwstate(&padapter->mlmepriv, WIFI_UNDER_WPS);
++		} else
++			_clr_fwstate_(&padapter->mlmepriv, WIFI_UNDER_WPS);
++	}
++
++	#ifdef CONFIG_P2P
++	{/* check p2p_ie for assoc req; */
++		uint p2p_ielen = 0;
++		u8 *p2p_ie;
++		struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++		p2p_ie = rtw_get_p2p_ie(buf, ielen, NULL, &p2p_ielen);
++		if (p2p_ie) {
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("%s p2p_assoc_req_ielen=%d\n", __FUNCTION__, p2p_ielen);
++			#endif
++
++			if (pmlmepriv->p2p_assoc_req_ie) {
++				u32 free_len = pmlmepriv->p2p_assoc_req_ie_len;
++				pmlmepriv->p2p_assoc_req_ie_len = 0;
++				rtw_mfree(pmlmepriv->p2p_assoc_req_ie, free_len);
++				pmlmepriv->p2p_assoc_req_ie = NULL;
++			}
++
++			pmlmepriv->p2p_assoc_req_ie = rtw_malloc(p2p_ielen);
++			if (pmlmepriv->p2p_assoc_req_ie == NULL) {
++				RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				goto exit;
++			}
++			_rtw_memcpy(pmlmepriv->p2p_assoc_req_ie, p2p_ie, p2p_ielen);
++			pmlmepriv->p2p_assoc_req_ie_len = p2p_ielen;
++		}
++	}
++	#endif /* CONFIG_P2P */
++
++	#ifdef CONFIG_WFD
++	{
++		uint wfd_ielen = 0;
++		u8 *wfd_ie;
++		struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++		wfd_ie = rtw_get_wfd_ie(buf, ielen, NULL, &wfd_ielen);
++		if (wfd_ie) {
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("%s wfd_assoc_req_ielen=%d\n", __FUNCTION__, wfd_ielen);
++			#endif
++
++			if (rtw_mlme_update_wfd_ie_data(pmlmepriv, MLME_ASSOC_REQ_IE, wfd_ie, wfd_ielen) != _SUCCESS)
++				goto exit;
++		}
++	}
++	#endif /* CONFIG_WFD */
++
++	/* TKIP and AES disallow multicast packets until installing group key */
++	if (padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_
++		|| padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_WTMIC_
++		|| padapter->securitypriv.dot11PrivacyAlgrthm == _AES_)
++		/* WPS open need to enable multicast */
++		/* || check_fwstate(&padapter->mlmepriv, WIFI_UNDER_WPS) == _TRUE) */
++		rtw_hal_set_hwreg(padapter, HW_VAR_OFF_RCR_AM, null_addr);
++
++
++exit:
++	if (buf)
++		rtw_mfree(buf, ielen);
++	if (ret)
++		_clr_fwstate_(&padapter->mlmepriv, WIFI_UNDER_WPS);
++
++	return ret;
++}
++
++static int cfg80211_rtw_join_ibss(struct wiphy *wiphy, struct net_device *ndev,
++				  struct cfg80211_ibss_params *params)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	NDIS_802_11_SSID ndis_ssid;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 8, 0))
++	struct cfg80211_chan_def *pch_def;
++#endif
++	struct ieee80211_channel *pch;
++	int ret = 0;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 8, 0))
++	pch_def = (struct cfg80211_chan_def *)(&params->chandef);
++	pch = (struct ieee80211_channel *) pch_def->chan;
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 31))
++	pch = (struct ieee80211_channel *)(params->channel);
++#endif
++
++	if (!params->ssid || !params->ssid_len) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	if (params->ssid_len > IW_ESSID_MAX_SIZE) {
++		ret = -E2BIG;
++		goto exit;
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++		ret = -EPERM;
++		goto exit;
++	}
++
++	rtw_ps_deny(padapter, PS_DENY_JOIN);
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		ret = -EPERM;
++		goto cancel_ps_deny;
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_buddy_check_fwstate(padapter, _FW_UNDER_LINKING)) {
++		RTW_INFO("%s, but buddy_intf is under linking\n", __FUNCTION__);
++		ret = -EINVAL;
++		goto cancel_ps_deny;
++	}
++	rtw_mi_buddy_scan_abort(padapter, _TRUE); /* OR rtw_mi_scan_abort(padapter, _TRUE);*/
++#endif /*CONFIG_CONCURRENT_MODE*/
++
++
++	_rtw_memset(&ndis_ssid, 0, sizeof(NDIS_802_11_SSID));
++	ndis_ssid.SsidLength = params->ssid_len;
++	_rtw_memcpy(ndis_ssid.Ssid, (u8 *)params->ssid, params->ssid_len);
++
++	/* RTW_INFO("ssid=%s, len=%zu\n", ndis_ssid.Ssid, params->ssid_len); */
++
++	psecuritypriv->ndisencryptstatus = Ndis802_11EncryptionDisabled;
++	psecuritypriv->dot11PrivacyAlgrthm = _NO_PRIVACY_;
++	psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++	psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Open; /* open system */
++	psecuritypriv->ndisauthtype = Ndis802_11AuthModeOpen;
++
++	ret = rtw_cfg80211_set_auth_type(psecuritypriv, NL80211_AUTHTYPE_OPEN_SYSTEM);
++	rtw_set_802_11_authentication_mode(padapter, psecuritypriv->ndisauthtype);
++
++	RTW_INFO("%s: center_freq = %d\n", __func__, pch->center_freq);
++	pmlmeext->cur_channel = rtw_freq2ch(pch->center_freq);
++
++	if (rtw_set_802_11_ssid(padapter, &ndis_ssid) == _FALSE) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++cancel_ps_deny:
++	rtw_ps_deny_cancel(padapter, PS_DENY_JOIN);
++exit:
++	return ret;
++}
++
++static int cfg80211_rtw_leave_ibss(struct wiphy *wiphy, struct net_device *ndev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct wireless_dev *rtw_wdev = padapter->rtw_wdev;
++	enum nl80211_iftype old_type;
++	int ret = 0;
++
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	#ifdef SUPPLICANT_RTK_VERSION_LOWER_THAN_JB42
++	padapter->mlmepriv.not_indic_disco = _TRUE;
++	#endif
++
++	old_type = rtw_wdev->iftype;
++
++	rtw_set_to_roam(padapter, 0);
++
++	if (check_fwstate(&padapter->mlmepriv, _FW_LINKED)) {
++		rtw_scan_abort(padapter);
++		LeaveAllPowerSaveMode(padapter);
++
++		rtw_wdev->iftype = NL80211_IFTYPE_STATION;
++
++		if (rtw_set_802_11_infrastructure_mode(padapter, Ndis802_11Infrastructure) == _FALSE) {
++			rtw_wdev->iftype = old_type;
++			ret = -EPERM;
++			goto leave_ibss;
++		}
++		rtw_setopmode_cmd(padapter, Ndis802_11Infrastructure, _TRUE);
++	}
++
++leave_ibss:
++	#ifdef SUPPLICANT_RTK_VERSION_LOWER_THAN_JB42
++	padapter->mlmepriv.not_indic_disco = _FALSE;
++	#endif
++
++	return 0;
++}
++
++static int cfg80211_rtw_connect(struct wiphy *wiphy, struct net_device *ndev,
++				struct cfg80211_connect_params *sme)
++{
++	int ret = 0;
++	_irqL irqL;
++	_list *phead;
++	struct wlan_network *pnetwork = NULL;
++	NDIS_802_11_AUTHENTICATION_MODE authmode;
++	NDIS_802_11_SSID ndis_ssid;
++	u8 *dst_ssid, *src_ssid;
++	u8 *dst_bssid, *src_bssid;
++	/* u8 matched_by_bssid=_FALSE; */
++	/* u8 matched_by_ssid=_FALSE; */
++	u8 matched = _FALSE;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	_queue *queue = &pmlmepriv->scanned_queue;
++
++#ifdef SUPPLICANT_RTK_VERSION_LOWER_THAN_JB42
++	padapter->mlmepriv.not_indic_disco = _TRUE;
++#endif
++
++	RTW_INFO("=>"FUNC_NDEV_FMT" - Start to Connection\n", FUNC_NDEV_ARG(ndev));
++	RTW_INFO("privacy=%d, key=%p, key_len=%d, key_idx=%d, auth_type=%d\n",
++		sme->privacy, sme->key, sme->key_len, sme->key_idx, sme->auth_type);
++
++
++	if (adapter_wdev_data(padapter)->block == _TRUE) {
++		ret = -EBUSY;
++		RTW_INFO("%s wdev_priv.block is set\n", __FUNCTION__);
++		goto exit;
++	}
++
++#ifdef CONFIG_PLATFORM_MSTAR_SCAN_BEFORE_CONNECT
++	printk("MStar Android!\n");
++	if (adapter_wdev_data(padapter)->bandroid_scan == _FALSE) {
++#ifdef CONFIG_P2P
++		struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++		if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++#endif /* CONFIG_P2P */
++		{
++			ret = -EBUSY;
++			printk("Android hasn't attached yet!\n");
++			goto exit;
++		}
++	}
++#endif
++
++	if (!sme->ssid || !sme->ssid_len) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	if (sme->ssid_len > IW_ESSID_MAX_SIZE) {
++		ret = -E2BIG;
++		goto exit;
++	}
++
++	rtw_ps_deny(padapter, PS_DENY_JOIN);
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		ret = -EPERM;
++		goto cancel_ps_deny;
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++		ret = -EPERM;
++		goto cancel_ps_deny;
++	}
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE) {
++		ret = -EBUSY;
++		RTW_INFO("%s, fw_state=0x%x, goto exit\n", __func__, pmlmepriv->fw_state);
++		goto cancel_ps_deny;
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_buddy_check_fwstate(padapter, _FW_UNDER_LINKING)) {
++		ret = -EINVAL;
++		goto cancel_ps_deny;
++	}
++#endif
++
++	rtw_mi_scan_abort(padapter, _TRUE);
++
++	_rtw_memset(&ndis_ssid, 0, sizeof(NDIS_802_11_SSID));
++	ndis_ssid.SsidLength = sme->ssid_len;
++	_rtw_memcpy(ndis_ssid.Ssid, (u8 *)sme->ssid, sme->ssid_len);
++
++	RTW_INFO("ssid=%s, len=%zu\n", ndis_ssid.Ssid, sme->ssid_len);
++
++
++	if (sme->bssid)
++		RTW_INFO("bssid="MAC_FMT"\n", MAC_ARG(sme->bssid));
++
++
++	psecuritypriv->ndisencryptstatus = Ndis802_11EncryptionDisabled;
++	psecuritypriv->dot11PrivacyAlgrthm = _NO_PRIVACY_;
++	psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++	psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Open; /* open system */
++	psecuritypriv->ndisauthtype = Ndis802_11AuthModeOpen;
++
++#ifdef CONFIG_WAPI_SUPPORT
++	padapter->wapiInfo.bWapiEnable = false;
++#endif
++
++	ret = rtw_cfg80211_set_wpa_version(psecuritypriv, sme->crypto.wpa_versions);
++	if (ret < 0)
++		goto cancel_ps_deny;
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (sme->crypto.wpa_versions & NL80211_WAPI_VERSION_1) {
++		padapter->wapiInfo.bWapiEnable = true;
++		padapter->wapiInfo.extra_prefix_len = WAPI_EXT_LEN;
++		padapter->wapiInfo.extra_postfix_len = SMS4_MIC_LEN;
++	}
++#endif
++
++	ret = rtw_cfg80211_set_auth_type(psecuritypriv, sme->auth_type);
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (psecuritypriv->dot11AuthAlgrthm == dot11AuthAlgrthm_WAPI)
++		padapter->mlmeextpriv.mlmext_info.auth_algo = psecuritypriv->dot11AuthAlgrthm;
++#endif
++
++
++	if (ret < 0)
++		goto cancel_ps_deny;
++
++	RTW_INFO("%s, ie_len=%zu\n", __func__, sme->ie_len);
++
++	ret = rtw_cfg80211_set_wpa_ie(padapter, (u8 *)sme->ie, sme->ie_len);
++	if (ret < 0)
++		goto cancel_ps_deny;
++
++	if (sme->crypto.n_ciphers_pairwise) {
++		ret = rtw_cfg80211_set_cipher(psecuritypriv, sme->crypto.ciphers_pairwise[0], _TRUE);
++		if (ret < 0)
++			goto cancel_ps_deny;
++	}
++
++	/* For WEP Shared auth */
++	if (sme->key_len > 0 && sme->key) {
++		u32 wep_key_idx, wep_key_len, wep_total_len;
++		NDIS_802_11_WEP	*pwep = NULL;
++		RTW_INFO("%s(): Shared/Auto WEP\n", __FUNCTION__);
++
++		wep_key_idx = sme->key_idx;
++		wep_key_len = sme->key_len;
++
++		if (sme->key_idx > WEP_KEYS) {
++			ret = -EINVAL;
++			goto cancel_ps_deny;
++		}
++
++		if (wep_key_len > 0) {
++			wep_key_len = wep_key_len <= 5 ? 5 : 13;
++			wep_total_len = wep_key_len + FIELD_OFFSET(NDIS_802_11_WEP, KeyMaterial);
++			pwep = (NDIS_802_11_WEP *) rtw_malloc(wep_total_len);
++			if (pwep == NULL) {
++				RTW_INFO(" wpa_set_encryption: pwep allocate fail !!!\n");
++				ret = -ENOMEM;
++				goto cancel_ps_deny;
++			}
++
++			_rtw_memset(pwep, 0, wep_total_len);
++
++			pwep->KeyLength = wep_key_len;
++			pwep->Length = wep_total_len;
++
++			if (wep_key_len == 13) {
++				padapter->securitypriv.dot11PrivacyAlgrthm = _WEP104_;
++				padapter->securitypriv.dot118021XGrpPrivacy = _WEP104_;
++			}
++		} else {
++			ret = -EINVAL;
++			goto cancel_ps_deny;
++		}
++
++		pwep->KeyIndex = wep_key_idx;
++		pwep->KeyIndex |= 0x80000000;
++
++		_rtw_memcpy(pwep->KeyMaterial, (void *)sme->key, pwep->KeyLength);
++
++		if (rtw_set_802_11_add_wep(padapter, pwep) == (u8)_FAIL)
++			ret = -EOPNOTSUPP ;
++
++		if (pwep)
++			rtw_mfree((u8 *)pwep, wep_total_len);
++
++		if (ret < 0)
++			goto cancel_ps_deny;
++	}
++
++	ret = rtw_cfg80211_set_cipher(psecuritypriv, sme->crypto.cipher_group, _FALSE);
++	if (ret < 0)
++		return ret;
++
++	if (sme->crypto.n_akm_suites) {
++		ret = rtw_cfg80211_set_key_mgt(psecuritypriv, sme->crypto.akm_suites[0]);
++		if (ret < 0)
++			goto cancel_ps_deny;
++	}
++#ifdef CONFIG_8011R
++	else {
++		/*It could be a connection without RSN IEs*/
++		psecuritypriv->rsn_akm_suite_type = 0;
++	}
++#endif
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (sme->crypto.akm_suites[0] == WLAN_AKM_SUITE_WAPI_PSK)
++		padapter->wapiInfo.bWapiPSK = true;
++	else if (sme->crypto.akm_suites[0] == WLAN_AKM_SUITE_WAPI_CERT)
++		padapter->wapiInfo.bWapiPSK = false;
++#endif
++
++	authmode = psecuritypriv->ndisauthtype;
++	rtw_set_802_11_authentication_mode(padapter, authmode);
++
++	/* rtw_set_802_11_encryption_mode(padapter, padapter->securitypriv.ndisencryptstatus); */
++
++	if (rtw_set_802_11_connect(padapter, (u8 *)sme->bssid, &ndis_ssid) == _FALSE) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++	RTW_INFO("set ssid:dot11AuthAlgrthm=%d, dot11PrivacyAlgrthm=%d, dot118021XGrpPrivacy=%d\n", psecuritypriv->dot11AuthAlgrthm, psecuritypriv->dot11PrivacyAlgrthm,
++		psecuritypriv->dot118021XGrpPrivacy);
++
++cancel_ps_deny:
++	rtw_ps_deny_cancel(padapter, PS_DENY_JOIN);
++
++exit:
++	RTW_INFO("<=%s, ret %d\n", __FUNCTION__, ret);
++
++#ifdef SUPPLICANT_RTK_VERSION_LOWER_THAN_JB42
++	padapter->mlmepriv.not_indic_disco = _FALSE;
++#endif
++
++	return ret;
++}
++
++static int cfg80211_rtw_disconnect(struct wiphy *wiphy, struct net_device *ndev,
++				   u16 reason_code)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++
++	RTW_INFO(FUNC_NDEV_FMT" - Start to Disconnect\n", FUNC_NDEV_ARG(ndev));
++
++#ifdef SUPPLICANT_RTK_VERSION_LOWER_THAN_JB42
++	padapter->mlmepriv.not_indic_disco = _TRUE;
++#endif
++
++	rtw_set_to_roam(padapter, 0);
++
++	/* if(check_fwstate(&padapter->mlmepriv, _FW_LINKED)) */
++	{
++		rtw_scan_abort(padapter);
++		LeaveAllPowerSaveMode(padapter);
++		rtw_disassoc_cmd(padapter, 500, _FALSE);
++		rtw_sta_mstatus_report(padapter);
++
++		RTW_INFO("%s...call rtw_indicate_disconnect\n", __func__);
++
++		rtw_free_assoc_resources(padapter, 1);
++		rtw_indicate_disconnect(padapter, 0, _TRUE);
++
++		rtw_pwr_wakeup(padapter);
++	}
++
++#ifdef SUPPLICANT_RTK_VERSION_LOWER_THAN_JB42
++	padapter->mlmepriv.not_indic_disco = _FALSE;
++#endif
++
++	RTW_INFO(FUNC_NDEV_FMT" return 0\n", FUNC_NDEV_ARG(ndev));
++	return 0;
++}
++
++static int cfg80211_rtw_set_txpower(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 8, 0))
++	struct wireless_dev *wdev,
++#endif
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 36)) || defined(COMPAT_KERNEL_RELEASE)
++	enum nl80211_tx_power_setting type, int mbm)
++#else
++	enum tx_power_setting type, int dbm)
++#endif
++{
++#if 0
++	struct iwm_priv *iwm = wiphy_to_iwm(wiphy);
++	int ret;
++
++	switch (type) {
++	case NL80211_TX_POWER_AUTOMATIC:
++		return 0;
++	case NL80211_TX_POWER_FIXED:
++		if (mbm < 0 || (mbm % 100))
++			return -EOPNOTSUPP;
++
++		if (!test_bit(IWM_STATUS_READY, &iwm->status))
++			return 0;
++
++		ret = iwm_umac_set_config_fix(iwm, UMAC_PARAM_TBL_CFG_FIX,
++					      CFG_TX_PWR_LIMIT_USR,
++					      MBM_TO_DBM(mbm) * 2);
++		if (ret < 0)
++			return ret;
++
++		return iwm_tx_power_trigger(iwm);
++	default:
++		IWM_ERR(iwm, "Unsupported power type: %d\n", type);
++		return -EOPNOTSUPP;
++	}
++#endif
++	RTW_INFO("%s\n", __func__);
++	return 0;
++}
++
++static int cfg80211_rtw_get_txpower(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 8, 0))
++	struct wireless_dev *wdev,
++#endif
++	int *dbm)
++{
++	RTW_INFO("%s\n", __func__);
++
++	*dbm = (12);
++
++	return 0;
++}
++
++inline bool rtw_cfg80211_pwr_mgmt(_adapter *adapter)
++{
++	struct rtw_wdev_priv *rtw_wdev_priv = adapter_wdev_data(adapter);
++	return rtw_wdev_priv->power_mgmt;
++}
++
++static int cfg80211_rtw_set_power_mgmt(struct wiphy *wiphy,
++				       struct net_device *ndev,
++				       bool enabled, int timeout)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct rtw_wdev_priv *rtw_wdev_priv = adapter_wdev_data(padapter);
++
++	RTW_INFO(FUNC_NDEV_FMT" enabled:%u, timeout:%d\n", FUNC_NDEV_ARG(ndev),
++		enabled, timeout);
++
++	rtw_wdev_priv->power_mgmt = enabled;
++
++#ifdef CONFIG_LPS
++	if (!enabled)
++		rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_LEAVE_CFG80211_PWRMGMT, 1);
++#endif
++
++	return 0;
++}
++
++static int cfg80211_rtw_set_pmksa(struct wiphy *wiphy,
++				  struct net_device *ndev,
++				  struct cfg80211_pmksa *pmksa)
++{
++	u8	index, blInserted = _FALSE;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct mlme_priv *mlme = &padapter->mlmepriv;
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++	u8	strZeroMacAddress[ETH_ALEN] = { 0x00 };
++
++	RTW_INFO(FUNC_NDEV_FMT" "MAC_FMT" "KEY_FMT"\n", FUNC_NDEV_ARG(ndev)
++		, MAC_ARG(pmksa->bssid), KEY_ARG(pmksa->pmkid));
++
++	if (_rtw_memcmp((u8 *)pmksa->bssid, strZeroMacAddress, ETH_ALEN) == _TRUE)
++		return -EINVAL;
++
++	if (check_fwstate(mlme, _FW_LINKED) == _FALSE) {
++		RTW_INFO(FUNC_NDEV_FMT" not set pmksa cause not in linked state\n", FUNC_NDEV_ARG(ndev));
++		return -EINVAL;
++	}
++
++	blInserted = _FALSE;
++
++	/* overwrite PMKID */
++	for (index = 0 ; index < NUM_PMKID_CACHE; index++) {
++		if (_rtw_memcmp(psecuritypriv->PMKIDList[index].Bssid, (u8 *)pmksa->bssid, ETH_ALEN) == _TRUE) {
++			/* BSSID is matched, the same AP => rewrite with new PMKID. */
++			RTW_INFO(FUNC_NDEV_FMT" BSSID exists in the PMKList.\n", FUNC_NDEV_ARG(ndev));
++
++			_rtw_memcpy(psecuritypriv->PMKIDList[index].PMKID, (u8 *)pmksa->pmkid, WLAN_PMKID_LEN);
++			psecuritypriv->PMKIDList[index].bUsed = _TRUE;
++			psecuritypriv->PMKIDIndex = index + 1;
++			blInserted = _TRUE;
++			break;
++		}
++	}
++
++	if (!blInserted) {
++		/* Find a new entry */
++		RTW_INFO(FUNC_NDEV_FMT" Use the new entry index = %d for this PMKID.\n",
++			FUNC_NDEV_ARG(ndev), psecuritypriv->PMKIDIndex);
++
++		_rtw_memcpy(psecuritypriv->PMKIDList[psecuritypriv->PMKIDIndex].Bssid, (u8 *)pmksa->bssid, ETH_ALEN);
++		_rtw_memcpy(psecuritypriv->PMKIDList[psecuritypriv->PMKIDIndex].PMKID, (u8 *)pmksa->pmkid, WLAN_PMKID_LEN);
++
++		psecuritypriv->PMKIDList[psecuritypriv->PMKIDIndex].bUsed = _TRUE;
++		psecuritypriv->PMKIDIndex++ ;
++		if (psecuritypriv->PMKIDIndex == 16)
++			psecuritypriv->PMKIDIndex = 0;
++	}
++
++	return 0;
++}
++
++static int cfg80211_rtw_del_pmksa(struct wiphy *wiphy,
++				  struct net_device *ndev,
++				  struct cfg80211_pmksa *pmksa)
++{
++	u8	index, bMatched = _FALSE;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++
++	RTW_INFO(FUNC_NDEV_FMT" "MAC_FMT" "KEY_FMT"\n", FUNC_NDEV_ARG(ndev)
++		, MAC_ARG(pmksa->bssid), KEY_ARG(pmksa->pmkid));
++
++	for (index = 0 ; index < NUM_PMKID_CACHE; index++) {
++		if (_rtw_memcmp(psecuritypriv->PMKIDList[index].Bssid, (u8 *)pmksa->bssid, ETH_ALEN) == _TRUE) {
++			/* BSSID is matched, the same AP => Remove this PMKID information and reset it. */
++			_rtw_memset(psecuritypriv->PMKIDList[index].Bssid, 0x00, ETH_ALEN);
++			_rtw_memset(psecuritypriv->PMKIDList[index].PMKID, 0x00, WLAN_PMKID_LEN);
++			psecuritypriv->PMKIDList[index].bUsed = _FALSE;
++			bMatched = _TRUE;
++			RTW_INFO(FUNC_NDEV_FMT" clear id:%hhu\n", FUNC_NDEV_ARG(ndev), index);
++			break;
++		}
++	}
++
++	if (_FALSE == bMatched) {
++		RTW_INFO(FUNC_NDEV_FMT" do not have matched BSSID\n"
++			, FUNC_NDEV_ARG(ndev));
++		return -EINVAL;
++	}
++
++	return 0;
++}
++
++static int cfg80211_rtw_flush_pmksa(struct wiphy *wiphy,
++				    struct net_device *ndev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	_rtw_memset(&psecuritypriv->PMKIDList[0], 0x00, sizeof(RT_PMKID_LIST) * NUM_PMKID_CACHE);
++	psecuritypriv->PMKIDIndex = 0;
++
++	return 0;
++}
++
++#ifdef CONFIG_AP_MODE
++void rtw_cfg80211_indicate_sta_assoc(_adapter *padapter, u8 *pmgmt_frame, uint frame_len)
++{
++	s32 freq;
++	int channel;
++	struct wireless_dev *pwdev = padapter->rtw_wdev;
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++	struct net_device *ndev = padapter->pnetdev;
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++#if defined(RTW_USE_CFG80211_STA_EVENT) || defined(COMPAT_KERNEL_RELEASE)
++	{
++		struct station_info sinfo;
++		u8 ie_offset;
++		if (GetFrameSubType(pmgmt_frame) == WIFI_ASSOCREQ)
++			ie_offset = _ASOCREQ_IE_OFFSET_;
++		else /* WIFI_REASSOCREQ */
++			ie_offset = _REASOCREQ_IE_OFFSET_;
++
++		memset(&sinfo, 0, sizeof(sinfo));
++		sinfo.filled = STATION_INFO_ASSOC_REQ_IES;
++		sinfo.assoc_req_ies = pmgmt_frame + WLAN_HDR_A3_LEN + ie_offset;
++		sinfo.assoc_req_ies_len = frame_len - WLAN_HDR_A3_LEN - ie_offset;
++		cfg80211_new_sta(ndev, GetAddr2Ptr(pmgmt_frame), &sinfo, GFP_ATOMIC);
++	}
++#else /* defined(RTW_USE_CFG80211_STA_EVENT) */
++	channel = pmlmeext->cur_channel;
++	freq = rtw_ch2freq(channel);
++
++	#ifdef COMPAT_KERNEL_RELEASE
++	rtw_cfg80211_rx_mgmt(padapter, freq, 0, pmgmt_frame, frame_len, GFP_ATOMIC);
++	#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) && !defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++	rtw_cfg80211_rx_mgmt(padapter, freq, 0, pmgmt_frame, frame_len, GFP_ATOMIC);
++	#else /* COMPAT_KERNEL_RELEASE */
++	{
++		/* to avoid WARN_ON(wdev->iftype != NL80211_IFTYPE_STATION)  when calling cfg80211_send_rx_assoc() */
++		#ifndef CONFIG_PLATFORM_MSTAR
++		pwdev->iftype = NL80211_IFTYPE_STATION;
++		#endif /* CONFIG_PLATFORM_MSTAR */
++		RTW_INFO("iftype=%d before call cfg80211_send_rx_assoc()\n", pwdev->iftype);
++		rtw_cfg80211_send_rx_assoc(padapter, NULL, pmgmt_frame, frame_len);
++		RTW_INFO("iftype=%d after call cfg80211_send_rx_assoc()\n", pwdev->iftype);
++		pwdev->iftype = NL80211_IFTYPE_AP;
++		/* cfg80211_rx_action(padapter->pnetdev, freq, pmgmt_frame, frame_len, GFP_ATOMIC); */
++	}
++	#endif /* COMPAT_KERNEL_RELEASE */
++#endif /* defined(RTW_USE_CFG80211_STA_EVENT) */
++
++}
++
++void rtw_cfg80211_indicate_sta_disassoc(_adapter *padapter, unsigned char *da, unsigned short reason)
++{
++	s32 freq;
++	int channel;
++	u8 *pmgmt_frame;
++	uint frame_len;
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	unsigned short *fctrl;
++	u8 mgmt_buf[128] = {0};
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct net_device *ndev = padapter->pnetdev;
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++#if defined(RTW_USE_CFG80211_STA_EVENT) || defined(COMPAT_KERNEL_RELEASE)
++	cfg80211_del_sta(ndev, da, GFP_ATOMIC);
++#else /* defined(RTW_USE_CFG80211_STA_EVENT) */
++	channel = pmlmeext->cur_channel;
++	freq = rtw_ch2freq(channel);
++
++	pmgmt_frame = mgmt_buf;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pmgmt_frame;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pmgmt_frame, WIFI_DEAUTH);
++
++	pmgmt_frame += sizeof(struct rtw_ieee80211_hdr_3addr);
++	frame_len = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	reason = cpu_to_le16(reason);
++	pmgmt_frame = rtw_set_fixed_ie(pmgmt_frame, _RSON_CODE_ , (unsigned char *)&reason, &frame_len);
++
++	#ifdef COMPAT_KERNEL_RELEASE
++	rtw_cfg80211_rx_mgmt(padapter, freq, 0, mgmt_buf, frame_len, GFP_ATOMIC);
++	#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) && !defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++	rtw_cfg80211_rx_mgmt(padapter, freq, 0, mgmt_buf, frame_len, GFP_ATOMIC);
++	#else /* COMPAT_KERNEL_RELEASE */
++	cfg80211_send_disassoc(padapter->pnetdev, mgmt_buf, frame_len);
++	/* cfg80211_rx_action(padapter->pnetdev, freq, mgmt_buf, frame_len, GFP_ATOMIC); */
++	#endif /* COMPAT_KERNEL_RELEASE */
++#endif /* defined(RTW_USE_CFG80211_STA_EVENT) */
++}
++
++static int rtw_cfg80211_monitor_if_open(struct net_device *ndev)
++{
++	int ret = 0;
++
++	RTW_INFO("%s\n", __func__);
++
++	return ret;
++}
++
++static int rtw_cfg80211_monitor_if_close(struct net_device *ndev)
++{
++	int ret = 0;
++
++	RTW_INFO("%s\n", __func__);
++
++	return ret;
++}
++
++static int rtw_cfg80211_monitor_if_xmit_entry(struct sk_buff *skb, struct net_device *ndev)
++{
++	int ret = 0;
++	int rtap_len;
++	int qos_len = 0;
++	int dot11_hdr_len = 24;
++	int snap_len = 6;
++	unsigned char *pdata;
++	u16 frame_ctl;
++	unsigned char src_mac_addr[6];
++	unsigned char dst_mac_addr[6];
++	struct rtw_ieee80211_hdr *dot11_hdr;
++	struct ieee80211_radiotap_header *rtap_hdr;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	if (skb)
++		rtw_mstat_update(MSTAT_TYPE_SKB, MSTAT_ALLOC_SUCCESS, skb->truesize);
++
++	if (unlikely(skb->len < sizeof(struct ieee80211_radiotap_header)))
++		goto fail;
++
++	rtap_hdr = (struct ieee80211_radiotap_header *)skb->data;
++	if (unlikely(rtap_hdr->it_version))
++		goto fail;
++
++	rtap_len = ieee80211_get_radiotap_len(skb->data);
++	if (unlikely(skb->len < rtap_len))
++		goto fail;
++
++	if (rtap_len != 14) {
++		RTW_INFO("radiotap len (should be 14): %d\n", rtap_len);
++		goto fail;
++	}
++
++	/* Skip the ratio tap header */
++	skb_pull(skb, rtap_len);
++
++	dot11_hdr = (struct rtw_ieee80211_hdr *)skb->data;
++	frame_ctl = le16_to_cpu(dot11_hdr->frame_ctl);
++	/* Check if the QoS bit is set */
++	if ((frame_ctl & RTW_IEEE80211_FCTL_FTYPE) == RTW_IEEE80211_FTYPE_DATA) {
++		/* Check if this ia a Wireless Distribution System (WDS) frame
++		 * which has 4 MAC addresses
++		 */
++		if (dot11_hdr->frame_ctl & 0x0080)
++			qos_len = 2;
++		if ((dot11_hdr->frame_ctl & 0x0300) == 0x0300)
++			dot11_hdr_len += 6;
++
++		memcpy(dst_mac_addr, dot11_hdr->addr1, sizeof(dst_mac_addr));
++		memcpy(src_mac_addr, dot11_hdr->addr2, sizeof(src_mac_addr));
++
++		/* Skip the 802.11 header, QoS (if any) and SNAP, but leave spaces for
++		 * for two MAC addresses
++		 */
++		skb_pull(skb, dot11_hdr_len + qos_len + snap_len - sizeof(src_mac_addr) * 2);
++		pdata = (unsigned char *)skb->data;
++		memcpy(pdata, dst_mac_addr, sizeof(dst_mac_addr));
++		memcpy(pdata + sizeof(dst_mac_addr), src_mac_addr, sizeof(src_mac_addr));
++
++		RTW_INFO("should be eapol packet\n");
++
++		/* Use the real net device to transmit the packet */
++		ret = _rtw_xmit_entry(skb, padapter->pnetdev);
++
++		return ret;
++
++	} else if ((frame_ctl & (RTW_IEEE80211_FCTL_FTYPE | RTW_IEEE80211_FCTL_STYPE))
++		== (RTW_IEEE80211_FTYPE_MGMT | RTW_IEEE80211_STYPE_ACTION)
++	) {
++		/* only for action frames */
++		struct xmit_frame		*pmgntframe;
++		struct pkt_attrib	*pattrib;
++		unsigned char	*pframe;
++		/* u8 category, action, OUI_Subtype, dialogToken=0; */
++		/* unsigned char	*frame_body; */
++		struct rtw_ieee80211_hdr *pwlanhdr;
++		struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++		struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++		u8 *buf = skb->data;
++		u32 len = skb->len;
++		u8 category, action;
++		int type = -1;
++
++		if (rtw_action_frame_parse(buf, len, &category, &action) == _FALSE) {
++			RTW_INFO(FUNC_NDEV_FMT" frame_control:0x%x\n", FUNC_NDEV_ARG(ndev),
++				le16_to_cpu(((struct rtw_ieee80211_hdr_3addr *)buf)->frame_ctl));
++			goto fail;
++		}
++
++		RTW_INFO("RTW_Tx:da="MAC_FMT" via "FUNC_NDEV_FMT"\n",
++			MAC_ARG(GetAddr1Ptr(buf)), FUNC_NDEV_ARG(ndev));
++		#ifdef CONFIG_P2P
++		type = rtw_p2p_check_frames(padapter, buf, len, _TRUE);
++		if (type >= 0)
++			goto dump;
++		#endif
++		if (category == RTW_WLAN_CATEGORY_PUBLIC)
++			RTW_INFO("RTW_Tx:%s\n", action_public_str(action));
++		else
++			RTW_INFO("RTW_Tx:category(%u), action(%u)\n", category, action);
++
++dump:
++		/* starting alloc mgmt frame to dump it */
++		pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++		if (pmgntframe == NULL)
++			goto fail;
++
++		/* update attribute */
++		pattrib = &pmgntframe->attrib;
++		update_mgntframe_attrib(padapter, pattrib);
++		pattrib->retry_ctrl = _FALSE;
++
++		_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++		pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++		_rtw_memcpy(pframe, (void *)buf, len);
++		pattrib->pktlen = len;
++
++#ifdef CONFIG_P2P
++		if (type >= 0)
++			rtw_xframe_chk_wfd_ie(pmgntframe);
++#endif /* CONFIG_P2P */
++
++		pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++		/* update seq number */
++		pmlmeext->mgnt_seq = GetSequence(pwlanhdr);
++		pattrib->seqnum = pmlmeext->mgnt_seq;
++		pmlmeext->mgnt_seq++;
++
++
++		pattrib->last_txcmdsz = pattrib->pktlen;
++
++		dump_mgntframe(padapter, pmgntframe);
++
++	} else
++		RTW_INFO("frame_ctl=0x%x\n", frame_ctl & (RTW_IEEE80211_FCTL_FTYPE | RTW_IEEE80211_FCTL_STYPE));
++
++
++fail:
++
++	rtw_skb_free(skb);
++
++	return 0;
++
++}
++
++static void rtw_cfg80211_monitor_if_set_multicast_list(struct net_device *ndev)
++{
++	RTW_INFO("%s\n", __func__);
++}
++
++static int rtw_cfg80211_monitor_if_set_mac_address(struct net_device *ndev, void *addr)
++{
++	int ret = 0;
++
++	RTW_INFO("%s\n", __func__);
++
++	return ret;
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
++static const struct net_device_ops rtw_cfg80211_monitor_if_ops = {
++	.ndo_open = rtw_cfg80211_monitor_if_open,
++	.ndo_stop = rtw_cfg80211_monitor_if_close,
++	.ndo_start_xmit = rtw_cfg80211_monitor_if_xmit_entry,
++	#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 2, 0))
++	.ndo_set_multicast_list = rtw_cfg80211_monitor_if_set_multicast_list,
++	#endif
++	.ndo_set_mac_address = rtw_cfg80211_monitor_if_set_mac_address,
++};
++#endif
++
++static int rtw_cfg80211_add_monitor_if(_adapter *padapter, char *name, struct net_device **ndev)
++{
++	int ret = 0;
++	struct net_device *mon_ndev = NULL;
++	struct wireless_dev *mon_wdev = NULL;
++	struct rtw_netdev_priv_indicator *pnpi;
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(padapter);
++
++	if (!name) {
++		RTW_INFO(FUNC_ADPT_FMT" without specific name\n", FUNC_ADPT_ARG(padapter));
++		ret = -EINVAL;
++		goto out;
++	}
++
++	if (pwdev_priv->pmon_ndev) {
++		RTW_INFO(FUNC_ADPT_FMT" monitor interface exist: "NDEV_FMT"\n",
++			FUNC_ADPT_ARG(padapter), NDEV_ARG(pwdev_priv->pmon_ndev));
++		ret = -EBUSY;
++		goto out;
++	}
++
++	mon_ndev = alloc_etherdev(sizeof(struct rtw_netdev_priv_indicator));
++	if (!mon_ndev) {
++		RTW_INFO(FUNC_ADPT_FMT" allocate ndev fail\n", FUNC_ADPT_ARG(padapter));
++		ret = -ENOMEM;
++		goto out;
++	}
++
++	mon_ndev->type = ARPHRD_IEEE80211_RADIOTAP;
++	strncpy(mon_ndev->name, name, IFNAMSIZ);
++	mon_ndev->name[IFNAMSIZ - 1] = 0;
++	mon_ndev->destructor = rtw_ndev_destructor;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
++	mon_ndev->netdev_ops = &rtw_cfg80211_monitor_if_ops;
++#else
++	mon_ndev->open = rtw_cfg80211_monitor_if_open;
++	mon_ndev->stop = rtw_cfg80211_monitor_if_close;
++	mon_ndev->hard_start_xmit = rtw_cfg80211_monitor_if_xmit_entry;
++	mon_ndev->set_mac_address = rtw_cfg80211_monitor_if_set_mac_address;
++#endif
++
++	pnpi = netdev_priv(mon_ndev);
++	pnpi->priv = padapter;
++	pnpi->sizeof_priv = sizeof(_adapter);
++
++	/*  wdev */
++	mon_wdev = (struct wireless_dev *)rtw_zmalloc(sizeof(struct wireless_dev));
++	if (!mon_wdev) {
++		RTW_INFO(FUNC_ADPT_FMT" allocate mon_wdev fail\n", FUNC_ADPT_ARG(padapter));
++		ret = -ENOMEM;
++		goto out;
++	}
++
++	mon_wdev->wiphy = padapter->rtw_wdev->wiphy;
++	mon_wdev->netdev = mon_ndev;
++	mon_wdev->iftype = NL80211_IFTYPE_MONITOR;
++	mon_ndev->ieee80211_ptr = mon_wdev;
++
++	ret = register_netdevice(mon_ndev);
++	if (ret)
++		goto out;
++
++	*ndev = pwdev_priv->pmon_ndev = mon_ndev;
++	_rtw_memcpy(pwdev_priv->ifname_mon, name, IFNAMSIZ + 1);
++
++out:
++	if (ret && mon_wdev) {
++		rtw_mfree((u8 *)mon_wdev, sizeof(struct wireless_dev));
++		mon_wdev = NULL;
++	}
++
++	if (ret && mon_ndev) {
++		free_netdev(mon_ndev);
++		*ndev = mon_ndev = NULL;
++	}
++
++	return ret;
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++static struct wireless_dev *
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 38)) || defined(COMPAT_KERNEL_RELEASE)
++static struct net_device *
++#else
++static int
++#endif
++	cfg80211_rtw_add_virtual_intf(
++		struct wiphy *wiphy,
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 7, 0))
++		const char *name,
++		#else
++		char *name,
++		#endif
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 1, 0))
++		unsigned char name_assign_type,
++		#endif
++		enum nl80211_iftype type, u32 *flags, struct vif_params *params)
++{
++	int ret = 0;
++	struct net_device *ndev = NULL;
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++
++	RTW_INFO("%s wiphy:%s, name:%s, type:%d\n",
++		__func__, wiphy_name(wiphy), name, type);
++
++	switch (type) {
++	case NL80211_IFTYPE_ADHOC:
++	case NL80211_IFTYPE_AP_VLAN:
++	case NL80211_IFTYPE_WDS:
++	case NL80211_IFTYPE_MESH_POINT:
++		ret = -ENODEV;
++		break;
++	case NL80211_IFTYPE_MONITOR:
++		ret = rtw_cfg80211_add_monitor_if(padapter, (char *)name, &ndev);
++		break;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	case NL80211_IFTYPE_P2P_CLIENT:
++#endif
++	case NL80211_IFTYPE_STATION:
++		ret = -ENODEV;
++		break;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	case NL80211_IFTYPE_P2P_GO:
++#endif
++	case NL80211_IFTYPE_AP:
++		ret = -ENODEV;
++		break;
++	default:
++		ret = -ENODEV;
++		RTW_INFO("Unsupported interface type\n");
++		break;
++	}
++
++	RTW_INFO("%s ndev:%p, ret:%d\n", __func__, ndev, ret);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	return ndev ? ndev->ieee80211_ptr : ERR_PTR(ret);
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 38)) || defined(COMPAT_KERNEL_RELEASE)
++	return ndev ? ndev : ERR_PTR(ret);
++#else
++	return ret;
++#endif
++}
++
++static int cfg80211_rtw_del_virtual_intf(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct wireless_dev *wdev
++#else
++	struct net_device *ndev
++#endif
++)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct net_device *ndev = wdev_to_ndev(wdev);
++#endif
++	int ret = 0;
++	_adapter *adapter;
++	struct rtw_wdev_priv *pwdev_priv;
++
++	if (!ndev) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	adapter = (_adapter *)rtw_netdev_priv(ndev);
++	pwdev_priv = adapter_wdev_data(adapter);
++
++	unregister_netdevice(ndev);
++
++	if (ndev == pwdev_priv->pmon_ndev) {
++		pwdev_priv->pmon_ndev = NULL;
++		pwdev_priv->ifname_mon[0] = '\0';
++		RTW_INFO(FUNC_NDEV_FMT" remove monitor interface\n", FUNC_NDEV_ARG(ndev));
++	}
++
++exit:
++	return ret;
++}
++
++static int rtw_add_beacon(_adapter *adapter, const u8 *head, size_t head_len, const u8 *tail, size_t tail_len)
++{
++	int ret = 0;
++	u8 *pbuf = NULL;
++	uint len, wps_ielen = 0;
++	uint p2p_ielen = 0;
++	u8 *p2p_ie;
++	u8 got_p2p_ie = _FALSE;
++	struct mlme_priv *pmlmepriv = &(adapter->mlmepriv);
++	/* struct sta_priv *pstapriv = &padapter->stapriv; */
++
++
++	RTW_INFO("%s beacon_head_len=%zu, beacon_tail_len=%zu\n", __FUNCTION__, head_len, tail_len);
++
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	if (head_len < 24)
++		return -EINVAL;
++
++
++	pbuf = rtw_zmalloc(head_len + tail_len);
++	if (!pbuf)
++		return -ENOMEM;
++
++
++	/* _rtw_memcpy(&pstapriv->max_num_sta, param->u.bcn_ie.reserved, 2); */
++
++	/* if((pstapriv->max_num_sta>NUM_STA) || (pstapriv->max_num_sta<=0)) */
++	/*	pstapriv->max_num_sta = NUM_STA; */
++
++
++	_rtw_memcpy(pbuf, (void *)head + 24, head_len - 24); /* 24=beacon header len. */
++	_rtw_memcpy(pbuf + head_len - 24, (void *)tail, tail_len);
++
++	len = head_len + tail_len - 24;
++
++	/* check wps ie if inclued */
++	if (rtw_get_wps_ie(pbuf + _FIXED_IE_LENGTH_, len - _FIXED_IE_LENGTH_, NULL, &wps_ielen))
++		RTW_INFO("add bcn, wps_ielen=%d\n", wps_ielen);
++
++#ifdef CONFIG_P2P
++	if (adapter->wdinfo.driver_interface == DRIVER_CFG80211) {
++		/* check p2p if enable */
++		if (rtw_get_p2p_ie(pbuf + _FIXED_IE_LENGTH_, len - _FIXED_IE_LENGTH_, NULL, &p2p_ielen)) {
++			struct mlme_ext_priv *pmlmeext = &adapter->mlmeextpriv;
++			struct wifidirect_info *pwdinfo = &(adapter->wdinfo);
++
++			RTW_INFO("got p2p_ie, len=%d\n", p2p_ielen);
++
++			got_p2p_ie = _TRUE;
++
++			if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++				RTW_INFO("Enable P2P function for the first time\n");
++				rtw_p2p_enable(adapter, P2P_ROLE_GO);
++				adapter_wdev_data(adapter)->p2p_enabled = _TRUE;
++
++				adapter->stapriv.expire_to = 3; /* 3x2 = 6 sec in p2p mode */
++			} else {
++				RTW_INFO("enter GO Mode, p2p_ielen=%d\n", p2p_ielen);
++
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++				rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++				pwdinfo->intent = 15;
++			}
++		}
++	}
++#endif /* CONFIG_P2P */
++
++	/* pbss_network->IEs will not include p2p_ie, wfd ie */
++	rtw_ies_remove_ie(pbuf, &len, _BEACON_IE_OFFSET_, _VENDOR_SPECIFIC_IE_, P2P_OUI, 4);
++	rtw_ies_remove_ie(pbuf, &len, _BEACON_IE_OFFSET_, _VENDOR_SPECIFIC_IE_, WFD_OUI, 4);
++
++	if (rtw_check_beacon_data(adapter, pbuf,  len) == _SUCCESS) {
++#ifdef CONFIG_P2P
++		/* check p2p if enable */
++		if (got_p2p_ie == _TRUE) {
++			struct mlme_ext_priv *pmlmeext = &adapter->mlmeextpriv;
++			struct wifidirect_info *pwdinfo = &(adapter->wdinfo);
++			pwdinfo->operating_channel = pmlmeext->cur_channel;
++		}
++#endif /* CONFIG_P2P */
++		ret = 0;
++	} else
++		ret = -EINVAL;
++
++
++	rtw_mfree(pbuf, head_len + tail_len);
++
++	return ret;
++}
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 4, 0)) && !defined(COMPAT_KERNEL_RELEASE)
++static int cfg80211_rtw_add_beacon(struct wiphy *wiphy, struct net_device *ndev,
++		struct beacon_parameters *info)
++{
++	int ret = 0;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(ndev);
++
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++	ret = rtw_add_beacon(adapter, info->head, info->head_len, info->tail, info->tail_len);
++
++	return ret;
++}
++
++static int cfg80211_rtw_set_beacon(struct wiphy *wiphy, struct net_device *ndev,
++		struct beacon_parameters *info)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct mlme_ext_priv *pmlmeext = &(adapter->mlmeextpriv);
++
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	pmlmeext->bstart_bss = _TRUE;
++
++	cfg80211_rtw_add_beacon(wiphy, ndev, info);
++
++	return 0;
++}
++
++static int	cfg80211_rtw_del_beacon(struct wiphy *wiphy, struct net_device *ndev)
++{
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	return 0;
++}
++#else
++static int cfg80211_rtw_start_ap(struct wiphy *wiphy, struct net_device *ndev,
++		struct cfg80211_ap_settings *settings)
++{
++	int ret = 0;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(ndev);
++
++	RTW_INFO(FUNC_NDEV_FMT" hidden_ssid:%d, auth_type:%d\n", FUNC_NDEV_ARG(ndev),
++		settings->hidden_ssid, settings->auth_type);
++
++	ret = rtw_add_beacon(adapter, settings->beacon.head, settings->beacon.head_len,
++		settings->beacon.tail, settings->beacon.tail_len);
++
++	adapter->mlmeextpriv.mlmext_info.hidden_ssid_mode = settings->hidden_ssid;
++
++	if (settings->ssid && settings->ssid_len) {
++		WLAN_BSSID_EX *pbss_network = &adapter->mlmepriv.cur_network.network;
++		WLAN_BSSID_EX *pbss_network_ext = &adapter->mlmeextpriv.mlmext_info.network;
++
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" ssid:(%s,%zu), from ie:(%s,%d)\n", FUNC_ADPT_ARG(adapter),
++				settings->ssid, settings->ssid_len,
++				pbss_network->Ssid.Ssid, pbss_network->Ssid.SsidLength);
++
++		_rtw_memcpy(pbss_network->Ssid.Ssid, (void *)settings->ssid, settings->ssid_len);
++		pbss_network->Ssid.SsidLength = settings->ssid_len;
++		_rtw_memcpy(pbss_network_ext->Ssid.Ssid, (void *)settings->ssid, settings->ssid_len);
++		pbss_network_ext->Ssid.SsidLength = settings->ssid_len;
++
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" after ssid:(%s,%d), (%s,%d)\n", FUNC_ADPT_ARG(adapter),
++				pbss_network->Ssid.Ssid, pbss_network->Ssid.SsidLength,
++				pbss_network_ext->Ssid.Ssid, pbss_network_ext->Ssid.SsidLength);
++	}
++
++	return ret;
++}
++
++static int cfg80211_rtw_change_beacon(struct wiphy *wiphy, struct net_device *ndev,
++		struct cfg80211_beacon_data *info)
++{
++	int ret = 0;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(ndev);
++
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	ret = rtw_add_beacon(adapter, info->head, info->head_len, info->tail, info->tail_len);
++
++	return ret;
++}
++
++static int cfg80211_rtw_stop_ap(struct wiphy *wiphy, struct net_device *ndev)
++{
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++	return 0;
++}
++
++#endif /* (LINUX_VERSION_CODE < KERNEL_VERSION(3, 4, 0)) */
++
++#if CONFIG_RTW_MACADDR_ACL && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 9, 0))
++static int cfg80211_rtw_set_mac_acl(struct wiphy *wiphy, struct net_device *ndev,
++		const struct cfg80211_acl_data *params)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(ndev);
++	u8 acl_mode = RTW_ACL_MODE_DISABLED;
++	int ret = -1;
++	int i;
++
++	if (!params) {
++		RTW_WARN(FUNC_ADPT_FMT" params NULL\n", FUNC_ADPT_ARG(adapter));
++		goto exit;
++	}
++
++	RTW_INFO(FUNC_ADPT_FMT" acl_policy:%d, entry_num:%d\n"
++		, FUNC_ADPT_ARG(adapter), params->acl_policy, params->n_acl_entries);
++
++	if (params->acl_policy == NL80211_ACL_POLICY_ACCEPT_UNLESS_LISTED)
++		acl_mode = RTW_ACL_MODE_ACCEPT_UNLESS_LISTED;
++	else if (params->acl_policy == NL80211_ACL_POLICY_DENY_UNLESS_LISTED)
++		acl_mode = RTW_ACL_MODE_DENY_UNLESS_LISTED;
++
++	if (!params->n_acl_entries) {
++		if (acl_mode != RTW_ACL_MODE_DISABLED)
++			RTW_WARN(FUNC_ADPT_FMT" acl_policy:%d with no entry\n"
++				, FUNC_ADPT_ARG(adapter), params->acl_policy);
++		acl_mode = RTW_ACL_MODE_DISABLED;
++		goto exit;
++	}
++
++	for (i = 0; i < params->n_acl_entries; i++)
++		rtw_acl_add_sta(adapter, params->mac_addrs[i].addr);
++
++	ret = 0;
++
++exit:
++	rtw_set_macaddr_acl(adapter, acl_mode);
++	return ret;
++}
++#endif /* CONFIG_RTW_MACADDR_ACL && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 9, 0)) */
++
++static int	cfg80211_rtw_add_station(struct wiphy *wiphy, struct net_device *ndev,
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 16, 0))
++	u8 *mac,
++#else
++	const u8 *mac,
++#endif
++	struct station_parameters *params)
++{
++	int ret = 0;
++#ifdef CONFIG_TDLS
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta;
++#endif /* CONFIG_TDLS */
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++#ifdef CONFIG_TDLS
++	psta = rtw_get_stainfo(pstapriv, (u8 *)mac);
++	if (psta == NULL) {
++		psta = rtw_alloc_stainfo(pstapriv, (u8 *)mac);
++		if (psta == NULL) {
++			RTW_INFO("[%s] Alloc station for "MAC_FMT" fail\n", __FUNCTION__, MAC_ARG(mac));
++			ret = -EOPNOTSUPP;
++			goto exit;
++		}
++	}
++#endif /* CONFIG_TDLS */
++
++exit:
++	return ret;
++}
++
++static int	cfg80211_rtw_del_station(struct wiphy *wiphy, struct net_device *ndev,
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 16, 0))
++	u8 *mac
++#elif (LINUX_VERSION_CODE < KERNEL_VERSION(3, 19, 0))
++	const u8 *mac
++#else
++	struct station_del_parameters *params
++#endif
++)
++{
++	int ret = 0;
++	_irqL irqL;
++	_list	*phead, *plist;
++	u8 updated = _FALSE;
++	const u8 *target_mac;
++	struct sta_info *psta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	RTW_INFO("+"FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 19, 0))
++	target_mac = mac;
++#else
++	target_mac = params->mac;
++#endif
++
++	if (check_fwstate(pmlmepriv, (_FW_LINKED | WIFI_AP_STATE)) != _TRUE) {
++		RTW_INFO("%s, fw_state != FW_LINKED|WIFI_AP_STATE\n", __func__);
++		return -EINVAL;
++	}
++
++
++	if (!target_mac) {
++		RTW_INFO("flush all sta, and cam_entry\n");
++
++		flush_all_cam_entry(padapter);	/* clear CAM */
++
++		ret = rtw_sta_flush(padapter, _TRUE);
++
++		return ret;
++	}
++
++
++	RTW_INFO("free sta macaddr =" MAC_FMT "\n", MAC_ARG(target_mac));
++
++	if (target_mac[0] == 0xff && target_mac[1] == 0xff &&
++	    target_mac[2] == 0xff && target_mac[3] == 0xff &&
++	    target_mac[4] == 0xff && target_mac[5] == 0xff)
++		return -EINVAL;
++
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++
++	/* check asoc_queue */
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++
++		plist = get_next(plist);
++
++		if (_rtw_memcmp((u8 *)target_mac, psta->hwaddr, ETH_ALEN)) {
++			if (psta->dot8021xalg == 1 && psta->bpairwise_key_installed == _FALSE)
++				RTW_INFO("%s, sta's dot8021xalg = 1 and key_installed = _FALSE\n", __func__);
++			else {
++				RTW_INFO("free psta=%p, aid=%d\n", psta, psta->aid);
++
++				rtw_list_delete(&psta->asoc_list);
++				pstapriv->asoc_list_cnt--;
++
++				/* _exit_critical_bh(&pstapriv->asoc_list_lock, &irqL); */
++				if (check_fwstate(pmlmepriv, (WIFI_AP_STATE)) == _TRUE)
++					updated = ap_free_sta(padapter, psta, _TRUE, WLAN_REASON_PREV_AUTH_NOT_VALID, _TRUE);
++				else
++					updated = ap_free_sta(padapter, psta, _TRUE, WLAN_REASON_DEAUTH_LEAVING, _TRUE);
++				/* _enter_critical_bh(&pstapriv->asoc_list_lock, &irqL); */
++
++				psta = NULL;
++
++				break;
++			}
++
++		}
++
++	}
++
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	associated_clients_update(padapter, updated, STA_INFO_UPDATE_ALL);
++
++	RTW_INFO("-"FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	return ret;
++
++}
++
++static int	cfg80211_rtw_change_station(struct wiphy *wiphy, struct net_device *ndev,
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 16, 0))
++	u8 *mac,
++#else
++	const u8 *mac,
++#endif
++	struct station_parameters *params)
++{
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	return 0;
++}
++
++struct sta_info *rtw_sta_info_get_by_idx(const int idx, struct sta_priv *pstapriv)
++
++{
++
++	_list	*phead, *plist;
++	struct sta_info *psta = NULL;
++	int i = 0;
++
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++
++	/* check asoc_queue */
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		if (idx == i)
++			psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		plist = get_next(plist);
++		i++;
++	}
++	return psta;
++}
++
++static int	cfg80211_rtw_dump_station(struct wiphy *wiphy, struct net_device *ndev,
++		int idx, u8 *mac, struct station_info *sinfo)
++{
++
++	int ret = 0;
++	_irqL irqL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct sta_info *psta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	psta = rtw_sta_info_get_by_idx(idx, pstapriv);
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	if (NULL == psta) {
++		RTW_INFO("Station is not found\n");
++		ret = -ENOENT;
++		goto exit;
++	}
++	_rtw_memcpy(mac, psta->hwaddr, ETH_ALEN);
++	sinfo->filled = 0;
++	sinfo->filled |= STATION_INFO_SIGNAL;
++	sinfo->signal = psta->rssi;
++
++exit:
++	return ret;
++}
++
++static int	cfg80211_rtw_change_bss(struct wiphy *wiphy, struct net_device *ndev,
++		struct bss_parameters *params)
++{
++	u8 i;
++
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++/*
++	RTW_INFO("use_cts_prot=%d\n", params->use_cts_prot);
++	RTW_INFO("use_short_preamble=%d\n", params->use_short_preamble);
++	RTW_INFO("use_short_slot_time=%d\n", params->use_short_slot_time);
++	RTW_INFO("ap_isolate=%d\n", params->ap_isolate);
++
++	RTW_INFO("basic_rates_len=%d\n", params->basic_rates_len);
++	for(i = 0; i < params->basic_rates_len; i++)
++		RTW_INFO("basic_rates=%d\n", params->basic_rates[i]);
++*/
++	return 0;
++
++}
++
++static int	cfg80211_rtw_set_channel(struct wiphy *wiphy
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	, struct net_device *ndev
++	#endif
++	, struct ieee80211_channel *chan, enum nl80211_channel_type channel_type)
++{
++	int chan_target = (u8) ieee80211_frequency_to_channel(chan->center_freq);
++	int chan_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	int chan_width = CHANNEL_WIDTH_20;
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++#endif
++
++	switch (channel_type) {
++	case NL80211_CHAN_NO_HT:
++	case NL80211_CHAN_HT20:
++		chan_width = CHANNEL_WIDTH_20;
++		chan_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	case NL80211_CHAN_HT40MINUS:
++		chan_width = CHANNEL_WIDTH_40;
++		chan_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++		break;
++	case NL80211_CHAN_HT40PLUS:
++		chan_width = CHANNEL_WIDTH_40;
++		chan_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++		break;
++	default:
++		chan_width = CHANNEL_WIDTH_20;
++		chan_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	}
++
++	set_channel_bwmode(padapter, chan_target, chan_offset, chan_width);
++
++	return 0;
++}
++
++static int cfg80211_rtw_set_monitor_channel(struct wiphy *wiphy
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 8, 0))
++	, struct cfg80211_chan_def *chandef
++#else
++	, struct ieee80211_channel *chan
++	, enum nl80211_channel_type channel_type
++#endif
++)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 8, 0))
++	struct ieee80211_channel *chan = chandef->chan;
++#endif
++
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++	int target_channal = chan->hw_value;
++	int target_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	int target_width = CHANNEL_WIDTH_20;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 8, 0))
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO("center_freq %u Mhz ch %u width %u freq1 %u freq2 %u\n"
++		, chan->center_freq
++		, chan->hw_value
++		, chandef->width
++		, chandef->center_freq1
++		, chandef->center_freq2);
++#endif /* CONFIG_DEBUG_CFG80211 */
++
++	switch (chandef->width) {
++	case NL80211_CHAN_WIDTH_20_NOHT:
++	case NL80211_CHAN_WIDTH_20:
++		target_width = CHANNEL_WIDTH_20;
++		target_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	case NL80211_CHAN_WIDTH_40:
++		target_width = CHANNEL_WIDTH_40;
++		if (chandef->center_freq1 > chan->center_freq)
++			target_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++		else
++			target_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++		break;
++	case NL80211_CHAN_WIDTH_80:
++		target_width = CHANNEL_WIDTH_80;
++		target_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	case NL80211_CHAN_WIDTH_80P80:
++		target_width = CHANNEL_WIDTH_80_80;
++		target_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	case NL80211_CHAN_WIDTH_160:
++		target_width = CHANNEL_WIDTH_160;
++		target_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 11, 0))
++	case NL80211_CHAN_WIDTH_5:
++	case NL80211_CHAN_WIDTH_10:
++#endif
++	default:
++		target_width = CHANNEL_WIDTH_20;
++		target_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	}
++#else
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO("center_freq %u Mhz ch %u channel_type %u\n"
++		, chan->center_freq
++		, chan->hw_value
++		, channel_type);
++#endif /* CONFIG_DEBUG_CFG80211 */
++
++	switch (channel_type) {
++	case NL80211_CHAN_NO_HT:
++	case NL80211_CHAN_HT20:
++		target_width = CHANNEL_WIDTH_20;
++		target_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	case NL80211_CHAN_HT40MINUS:
++		target_width = CHANNEL_WIDTH_40;
++		target_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++		break;
++	case NL80211_CHAN_HT40PLUS:
++		target_width = CHANNEL_WIDTH_40;
++		target_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++		break;
++	default:
++		target_width = CHANNEL_WIDTH_20;
++		target_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	}
++#endif
++
++	set_channel_bwmode(padapter, target_channal, target_offset, target_width);
++
++	return 0;
++}
++
++static int	cfg80211_rtw_auth(struct wiphy *wiphy, struct net_device *ndev,
++		struct cfg80211_auth_request *req)
++{
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	return 0;
++}
++
++static int	cfg80211_rtw_assoc(struct wiphy *wiphy, struct net_device *ndev,
++		struct cfg80211_assoc_request *req)
++{
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	return 0;
++}
++#endif /* CONFIG_AP_MODE */
++
++void rtw_cfg80211_rx_probe_request(_adapter *adapter, u8 *frame, uint frame_len)
++{
++	s32 freq;
++	int channel;
++	struct mlme_ext_priv *pmlmeext = &(adapter->mlmeextpriv);
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(adapter);
++	u8 category, action;
++
++	channel = rtw_get_oper_ch(adapter);
++	freq = rtw_ch2freq(channel);
++
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO("RTW_Rx: probe request, cur_ch=%d\n", channel);
++#endif /* CONFIG_DEBUG_CFG80211 */
++	rtw_cfg80211_rx_mgmt(adapter, freq, 0, frame, frame_len, GFP_ATOMIC);
++}
++
++void rtw_cfg80211_rx_action_p2p(_adapter *padapter, u8 *pmgmt_frame, uint frame_len)
++{
++	int type;
++	s32 freq;
++	int channel;
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++	u8 category, action;
++
++	channel = rtw_get_oper_ch(padapter);
++
++	RTW_INFO("RTW_Rx:cur_ch=%d\n", channel);
++#ifdef CONFIG_P2P
++	type = rtw_p2p_check_frames(padapter, pmgmt_frame, frame_len, _FALSE);
++	if (type >= 0)
++		goto indicate;
++#endif
++	rtw_action_frame_parse(pmgmt_frame, frame_len, &category, &action);
++	RTW_INFO("RTW_Rx:category(%u), action(%u)\n", category, action);
++
++indicate:
++	freq = rtw_ch2freq(channel);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	rtw_cfg80211_rx_mgmt(padapter, freq, 0, pmgmt_frame, frame_len, GFP_ATOMIC);
++#else
++	cfg80211_rx_action(padapter->pnetdev, freq, pmgmt_frame, frame_len, GFP_ATOMIC);
++#endif
++}
++
++void rtw_cfg80211_rx_p2p_action_public(_adapter *padapter, u8 *pmgmt_frame, uint frame_len)
++{
++	int type;
++	s32 freq;
++	int channel;
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++	u8 category, action;
++
++	channel = rtw_get_oper_ch(padapter);
++
++	RTW_INFO("RTW_Rx:cur_ch=%d\n", channel);
++	#ifdef CONFIG_P2P
++	type = rtw_p2p_check_frames(padapter, pmgmt_frame, frame_len, _FALSE);
++	if (type >= 0) {
++		switch (type) {
++		case P2P_GO_NEGO_CONF:
++		case P2P_PROVISION_DISC_RESP:
++		case P2P_INVIT_RESP:
++			/*rtw_mi_set_scan_deny(padapter, 2000);
++			rtw_clear_scan_deny(padapter);*/
++			rtw_mi_buddy_set_scan_deny(padapter, 2000);
++		}
++		goto indicate;
++	}
++	#endif
++	rtw_action_frame_parse(pmgmt_frame, frame_len, &category, &action);
++	RTW_INFO("RTW_Rx:category(%u), action(%u)\n", category, action);
++
++indicate:
++	freq = rtw_ch2freq(channel);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	rtw_cfg80211_rx_mgmt(padapter, freq, 0, pmgmt_frame, frame_len, GFP_ATOMIC);
++#else
++	cfg80211_rx_action(padapter->pnetdev, freq, pmgmt_frame, frame_len, GFP_ATOMIC);
++#endif
++}
++
++void rtw_cfg80211_rx_action(_adapter *adapter, u8 *frame, uint frame_len, const char *msg)
++{
++	s32 freq;
++	int channel;
++	struct mlme_ext_priv *pmlmeext = &(adapter->mlmeextpriv);
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(adapter);
++	u8 category, action;
++
++	channel = rtw_get_oper_ch(adapter);
++
++	rtw_action_frame_parse(frame, frame_len, &category, &action);
++
++	if (action == ACT_PUBLIC_GAS_INITIAL_REQ) {
++		rtw_mi_set_scan_deny(adapter, 200);
++		rtw_mi_scan_abort(adapter, _FALSE); /*rtw_scan_abort_no_wait*/
++	}
++
++	freq = rtw_ch2freq(channel);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	rtw_cfg80211_rx_mgmt(adapter, freq, 0, frame, frame_len, GFP_ATOMIC);
++#else
++	cfg80211_rx_action(adapter->pnetdev, freq, frame, frame_len, GFP_ATOMIC);
++#endif
++
++	RTW_INFO("RTW_Rx:cur_ch=%d\n", channel);
++	if (msg)
++		RTW_INFO("RTW_Rx:%s\n", msg);
++	else
++		RTW_INFO("RTW_Rx:category(%u), action(%u)\n", category, action);
++}
++
++#ifdef CONFIG_P2P
++void rtw_cfg80211_issue_p2p_provision_request(_adapter *padapter, const u8 *buf, size_t len)
++{
++	u16	wps_devicepassword_id = 0x0000;
++	uint	wps_devicepassword_id_len = 0;
++	u8			wpsie[255] = { 0x00 }, p2p_ie[255] = { 0x00 };
++	uint			p2p_ielen = 0;
++	uint			wpsielen = 0;
++	u32	devinfo_contentlen = 0;
++	u8	devinfo_content[64] = { 0x00 };
++	u16	capability = 0;
++	uint capability_len = 0;
++
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u8			dialogToken = 1;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_PROVISION_DISC_REQ;
++	u32			p2pielen = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++	u8 *frame_body = (unsigned char *)(buf + sizeof(struct rtw_ieee80211_hdr_3addr));
++	size_t frame_body_len = len - sizeof(struct rtw_ieee80211_hdr_3addr);
++
++
++	RTW_INFO("[%s] In\n", __FUNCTION__);
++
++	/* prepare for building provision_request frame	 */
++	_rtw_memcpy(pwdinfo->tx_prov_disc_info.peerIFAddr, GetAddr1Ptr(buf), ETH_ALEN);
++	_rtw_memcpy(pwdinfo->tx_prov_disc_info.peerDevAddr, GetAddr1Ptr(buf), ETH_ALEN);
++
++	pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_PUSH_BUTTON;
++
++	rtw_get_wps_ie(frame_body + _PUBLIC_ACTION_IE_OFFSET_, frame_body_len - _PUBLIC_ACTION_IE_OFFSET_, wpsie, &wpsielen);
++	rtw_get_wps_attr_content(wpsie, wpsielen, WPS_ATTR_DEVICE_PWID, (u8 *) &wps_devicepassword_id, &wps_devicepassword_id_len);
++	wps_devicepassword_id = be16_to_cpu(wps_devicepassword_id);
++
++	switch (wps_devicepassword_id) {
++	case WPS_DPID_PIN:
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_LABEL;
++		break;
++	case WPS_DPID_USER_SPEC:
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_DISPLYA;
++		break;
++	case WPS_DPID_MACHINE_SPEC:
++		break;
++	case WPS_DPID_REKEY:
++		break;
++	case WPS_DPID_PBC:
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_PUSH_BUTTON;
++		break;
++	case WPS_DPID_REGISTRAR_SPEC:
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_KEYPAD;
++		break;
++	default:
++		break;
++	}
++
++
++	if (rtw_get_p2p_ie(frame_body + _PUBLIC_ACTION_IE_OFFSET_, frame_body_len - _PUBLIC_ACTION_IE_OFFSET_, p2p_ie, &p2p_ielen)) {
++
++		rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_DEVICE_INFO, devinfo_content, &devinfo_contentlen);
++		rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CAPABILITY, (u8 *)&capability, &capability_len);
++
++	}
++
++
++	/* start to build provision_request frame	 */
++	_rtw_memset(wpsie, 0, sizeof(wpsie));
++	_rtw_memset(p2p_ie, 0, sizeof(p2p_ie));
++	p2p_ielen = 0;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, pwdinfo->tx_prov_disc_info.peerDevAddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, pwdinfo->tx_prov_disc_info.peerDevAddr, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));
++
++
++	/* build_prov_disc_request_p2p_ie	 */
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2p_ie[p2pielen++] = 0x50;
++	p2p_ie[p2pielen++] = 0x6F;
++	p2p_ie[p2pielen++] = 0x9A;
++	p2p_ie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20110301 */
++	/*	According to the P2P Specification, the provision discovery request frame should contain 3 P2P attributes */
++	/*	1. P2P Capability */
++	/*	2. Device Info */
++	/*	3. Group ID ( When joining an operating P2P Group ) */
++
++	/*	P2P Capability ATTR */
++	/*	Type:	 */
++	p2p_ie[p2pielen++] = P2P_ATTR_CAPABILITY;
++
++	/*	Length: */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0002 ); */
++	RTW_PUT_LE16(p2p_ie + p2pielen, 0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Device Capability Bitmap, 1 byte */
++	/*	Group Capability Bitmap, 1 byte */
++	_rtw_memcpy(p2p_ie + p2pielen, &capability, 2);
++	p2pielen += 2;
++
++
++	/*	Device Info ATTR */
++	/*	Type: */
++	p2p_ie[p2pielen++] = P2P_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	21->P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes)  */
++	/*	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes) */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 21 + pwdinfo->device_name_len ); */
++	RTW_PUT_LE16(p2p_ie + p2pielen, devinfo_contentlen);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2p_ie + p2pielen, devinfo_content, devinfo_contentlen);
++	p2pielen += devinfo_contentlen;
++
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2p_ie, &p2p_ielen);
++	/* p2pielen = build_prov_disc_request_p2p_ie( pwdinfo, pframe, NULL, 0, pwdinfo->tx_prov_disc_info.peerDevAddr); */
++	/* pframe += p2pielen; */
++	pattrib->pktlen += p2p_ielen;
++
++	wpsielen = 0;
++	/*	WPS OUI */
++	*(u32 *)(wpsie) = cpu_to_be32(WPSOUI);
++	wpsielen += 4;
++
++	/*	WPS version */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++	wpsielen += 2;
++
++	/*	Value: */
++	wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++
++	/*	Config Method */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_CONF_METHOD);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0002);
++	wpsielen += 2;
++
++	/*	Value: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(pwdinfo->tx_prov_disc_info.wps_config_method_request);
++	wpsielen += 2;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen);
++
++
++#ifdef CONFIG_WFD
++	wfdielen = build_provdisc_req_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	/* dump_mgntframe(padapter, pmgntframe); */
++	if (dump_mgntframe_and_wait_ack(padapter, pmgntframe) != _SUCCESS)
++		RTW_INFO("%s, ack to\n", __func__);
++
++	#if 0
++	if(wps_devicepassword_id == WPS_DPID_REGISTRAR_SPEC) {
++		RTW_INFO("waiting for p2p peer key-in PIN CODE\n");
++		rtw_msleep_os(15000); /* 15 sec for key in PIN CODE, workaround for GS2 before issuing Nego Req. */
++	}
++	#endif
++
++}
++
++#ifdef CONFIG_RTW_80211R
++static s32 cfg80211_rtw_update_ft_ies(struct wiphy *wiphy,
++	struct net_device *ndev,
++	struct cfg80211_update_ft_ies_params *ftie)
++{
++	_adapter *padapter = NULL;
++	struct mlme_priv *pmlmepriv = NULL;
++	ft_priv *pftpriv = NULL;
++	_irqL irqL;
++	u8 *p;
++	u8 *pie = NULL;
++	u32 ie_len = 0;
++
++	if (ndev == NULL)
++		return  -EINVAL;
++
++	padapter = (_adapter *)rtw_netdev_priv(ndev);
++	pmlmepriv = &(padapter->mlmepriv);
++	pftpriv = &pmlmepriv->ftpriv;
++
++	p = (u8 *)ftie->ie;
++	if (ftie->ie_len <= sizeof(pftpriv->updated_ft_ies)) {
++		_enter_critical_bh(&pmlmepriv->lock, &irqL);
++		_rtw_memcpy(pftpriv->updated_ft_ies, ftie->ie, ftie->ie_len);
++		pftpriv->updated_ft_ies_len = ftie->ie_len;
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++	} else {
++		RTW_ERR("FTIEs parsing fail!\n");
++		return -EINVAL;
++	}
++
++	if ((rtw_to_roam(padapter) > 0) && rtw_chk_ft_status(padapter, RTW_FT_AUTHENTICATED_STA)) {
++		RTW_PRINT("auth success, start reassoc\n");
++		_enter_critical_bh(&pmlmepriv->lock, &irqL);
++		rtw_set_ft_status(padapter, RTW_FT_ASSOCIATING_STA);
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++		start_clnt_assoc(padapter);
++	}
++
++	return 0;
++}
++#endif
++
++static s32 cfg80211_rtw_remain_on_channel(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct wireless_dev *wdev,
++#else
++	struct net_device *ndev,
++#endif
++	struct ieee80211_channel *channel,
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++	enum nl80211_channel_type channel_type,
++#endif
++	unsigned int duration, u64 *cookie)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct net_device *ndev = wdev_to_ndev(wdev);
++#endif
++	s32 err = 0;
++	u8 remain_ch = (u8) ieee80211_frequency_to_channel(channel->center_freq);
++	u8 union_ch = 0, union_bw = 0, union_offset = 0;
++	u8 i;
++	u8 ready_on_channel = _FALSE;
++	_adapter *padapter;
++	_adapter *iface;
++	struct dvobj_priv *dvobj;
++	struct rtw_wdev_priv *pwdev_priv;
++	struct mlme_ext_priv *pmlmeext;
++	struct wifidirect_info *pwdinfo;
++	struct cfg80211_wifidirect_info *pcfg80211_wdinfo;
++	u8 is_p2p_find = _FALSE;
++
++#ifndef CONFIG_RADIO_WORK /*define for Android L*/
++#define RTW_ROCH_DURATION_ENLARGE
++#define RTW_ROCH_BACK_OP
++#endif
++
++	if (ndev == NULL)
++		return  -EINVAL;
++
++	padapter = (_adapter *)rtw_netdev_priv(ndev);
++	dvobj = adapter_to_dvobj(padapter);
++	pwdev_priv = adapter_wdev_data(padapter);
++	pmlmeext = &padapter->mlmeextpriv;
++	pwdinfo = &padapter->wdinfo;
++	pcfg80211_wdinfo = &padapter->cfg80211_wdinfo;
++#ifdef CONFIG_CONCURRENT_MODE
++	is_p2p_find = (duration < (pwdinfo->ext_listen_interval)) ? _TRUE : _FALSE;
++#endif
++
++	*cookie = ATOMIC_INC_RETURN(&pcfg80211_wdinfo->ro_ch_cookie_gen);
++
++	RTW_INFO(FUNC_ADPT_FMT" ch:%u duration:%d, cookie:0x%llx\n", FUNC_ADPT_ARG(padapter), remain_ch, duration, *cookie);
++
++#ifdef CONFIG_MP_INCLUDED
++	if (rtw_mi_mp_mode_check(padapter)) {
++		RTW_INFO("MP mode block remain_on_channel request\n");
++		err = -EFAULT;
++		goto exit;
++	}
++#endif
++
++	if (pcfg80211_wdinfo->is_ro_ch == _TRUE) {
++		RTW_INFO("%s, cancel ro ch timer\n", __func__);
++		_cancel_timer_ex(&padapter->cfg80211_wdinfo.remain_on_ch_timer);
++		#ifdef CONFIG_CONCURRENT_MODE
++		ATOMIC_SET(&pwdev_priv->ro_ch_to, 1);
++		#endif /* CONFIG_CONCURRENT_MODE */
++		p2p_protocol_wk_hdl(padapter, P2P_RO_CH_WK);
++	}
++
++	pcfg80211_wdinfo->is_ro_ch = _TRUE;
++	pcfg80211_wdinfo->last_ro_ch_time = rtw_get_current_time();
++
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		err = -EFAULT;
++		goto exit;
++	}
++
++	_rtw_memcpy(&pcfg80211_wdinfo->remain_on_ch_channel, channel, sizeof(struct ieee80211_channel));
++	#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++	pcfg80211_wdinfo->remain_on_ch_type = channel_type;
++	#endif
++	pcfg80211_wdinfo->remain_on_ch_cookie = *cookie;
++
++	rtw_scan_abort(padapter);
++#ifdef CONFIG_CONCURRENT_MODE
++	/*don't scan_abort during p2p_listen.*/
++	if (is_p2p_find)
++		rtw_mi_buddy_scan_abort(padapter, _TRUE);
++#endif /*CONFIG_CONCURRENT_MODE*/
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (check_fwstate(&iface->mlmepriv, _FW_UNDER_LINKING | WIFI_UNDER_WPS) == _TRUE) {
++			RTW_INFO(ADPT_FMT"- _FW_UNDER_LINKING |WIFI_UNDER_WPS (mlme state:0x%x)\n", ADPT_ARG(iface), get_fwstate(&iface->mlmepriv));
++			remain_ch = iface->mlmeextpriv.cur_channel;
++		}
++	}
++
++	/* if(!rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT) && !rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) */
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++		rtw_p2p_enable(padapter, P2P_ROLE_DEVICE);
++		adapter_wdev_data(padapter)->p2p_enabled = _TRUE;
++		padapter->wdinfo.listen_channel = remain_ch;
++	} else if (rtw_p2p_chk_state(pwdinfo , P2P_STATE_LISTEN))
++		padapter->wdinfo.listen_channel = remain_ch;
++	else {
++		rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO("%s, role=%d, p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo));
++#endif
++	}
++
++	rtw_p2p_set_state(pwdinfo, P2P_STATE_LISTEN);
++
++	#ifdef RTW_ROCH_DURATION_ENLARGE
++	if (duration < 400)
++		duration = duration * 3; /* extend from exper */
++	#endif
++
++#if defined(RTW_ROCH_BACK_OP) && defined(CONFIG_CONCURRENT_MODE)
++	if (rtw_mi_check_status(padapter, MI_LINKED)) {
++		if (is_p2p_find) /* p2p_find , duration<1000 */
++			duration = duration + pwdinfo->ext_listen_interval;
++		else /* p2p_listen, duration=5000 */
++			duration = pwdinfo->ext_listen_interval + (pwdinfo->ext_listen_interval / 4);
++	}
++#endif /*defined (RTW_ROCH_BACK_OP) && defined(CONFIG_CONCURRENT_MODE) */
++
++	pcfg80211_wdinfo->restore_channel = rtw_get_oper_ch(padapter);
++
++	if (rtw_ch_set_search_ch(pmlmeext->channel_set, remain_ch) >= 0) {
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED) && (0 != rtw_mi_get_union_chan(padapter))) {
++			if ((remain_ch != rtw_mi_get_union_chan(padapter)) && !check_fwstate(&padapter->mlmepriv, _FW_LINKED)) {
++				if (ATOMIC_READ(&pwdev_priv->switch_ch_to) == 1 ||
++					(remain_ch != pmlmeext->cur_channel)) {
++
++					rtw_mi_buddy_issue_nulldata(padapter, NULL, 1, 3, 500);
++					ATOMIC_SET(&pwdev_priv->switch_ch_to, 0);
++
++					#ifdef RTW_ROCH_BACK_OP
++					RTW_INFO("%s, set switch ch timer, duration=%d\n", __func__, duration - pwdinfo->ext_listen_interval);
++					_set_timer(&pwdinfo->ap_p2p_switch_timer, duration - pwdinfo->ext_listen_interval);
++					#endif
++				}
++			}
++
++			ready_on_channel = _TRUE;
++			/* pmlmeext->cur_channel = remain_ch;			 */
++			/* set_channel_bwmode(padapter, remain_ch, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20); */
++		} else
++#endif /* CONFIG_CONCURRENT_MODE */
++			if (remain_ch != rtw_get_oper_ch(padapter)) {
++				ready_on_channel = _TRUE;
++				/* pmlmeext->cur_channel = remain_ch;			 */
++				/* set_channel_bwmode(padapter, remain_ch, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20); */
++			}
++	} else
++		RTW_INFO("%s remain_ch:%u not in channel plan!!!!\n", __FUNCTION__, remain_ch);
++
++
++	/* call this after other things have been done */
++#ifdef CONFIG_CONCURRENT_MODE
++	if (ATOMIC_READ(&pwdev_priv->ro_ch_to) == 1 ||
++		(remain_ch != rtw_get_oper_ch(padapter))) {
++		u8 co_channel = 0xff;
++		ATOMIC_SET(&pwdev_priv->ro_ch_to, 0);
++#endif
++
++		if (ready_on_channel == _TRUE) {
++			if (!check_fwstate(&padapter->mlmepriv, _FW_LINKED)) {
++				pmlmeext->cur_channel = remain_ch;
++
++#ifdef CONFIG_CONCURRENT_MODE
++				co_channel = rtw_get_oper_ch(padapter);
++
++				if (co_channel != remain_ch)
++#endif
++				{
++					/* if (!padapter->mlmepriv.LinkDetectInfo.bBusyTraffic) */
++					set_channel_bwmode(padapter, remain_ch, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++				}
++			}
++		}
++		RTW_INFO("%s, set ro ch timer, duration=%d\n", __func__, duration);
++		_set_timer(&pcfg80211_wdinfo->remain_on_ch_timer, duration);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	}
++#endif
++
++	rtw_cfg80211_ready_on_channel(padapter, *cookie, channel, channel_type, duration, GFP_KERNEL);
++
++exit:
++	if (err) {
++		pcfg80211_wdinfo->is_ro_ch = _FALSE;
++		pcfg80211_wdinfo->last_ro_ch_time = rtw_get_current_time();
++	}
++
++	return err;
++}
++
++static s32 cfg80211_rtw_cancel_remain_on_channel(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct wireless_dev *wdev,
++#else
++	struct net_device *ndev,
++#endif
++	u64 cookie)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct net_device *ndev = wdev_to_ndev(wdev);
++#endif
++	s32 err = 0;
++	_adapter *padapter;
++	struct rtw_wdev_priv *pwdev_priv;
++	struct wifidirect_info *pwdinfo;
++	struct cfg80211_wifidirect_info *pcfg80211_wdinfo;
++
++	if (ndev == NULL) {
++		err = -EINVAL;
++		goto exit;
++	}
++
++	padapter = (_adapter *)rtw_netdev_priv(ndev);
++	pwdev_priv = adapter_wdev_data(padapter);
++	pwdinfo = &padapter->wdinfo;
++	pcfg80211_wdinfo = &padapter->cfg80211_wdinfo;
++
++	RTW_INFO(FUNC_ADPT_FMT" cookie:0x%llx\n", FUNC_ADPT_ARG(padapter), cookie);
++
++	if (pcfg80211_wdinfo->is_ro_ch == _TRUE) {
++		RTW_INFO("%s, cancel ro ch timer\n", __func__);
++		_cancel_timer_ex(&padapter->cfg80211_wdinfo.remain_on_ch_timer);
++		#ifdef CONFIG_CONCURRENT_MODE
++		ATOMIC_SET(&pwdev_priv->ro_ch_to, 1);
++		#endif
++		p2p_protocol_wk_hdl(padapter, P2P_RO_CH_WK);
++	}
++
++#if 0
++	/*	Disable P2P Listen State */
++	if (!rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT) && !rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_NONE);
++			_rtw_memset(pwdinfo, 0x00, sizeof(struct wifidirect_info));
++		}
++	} else
++#endif
++	{
++		rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO("%s, role=%d, p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo));
++#endif
++	}
++
++	pcfg80211_wdinfo->is_ro_ch = _FALSE;
++	pcfg80211_wdinfo->last_ro_ch_time = rtw_get_current_time();
++
++exit:
++	return err;
++}
++
++#endif /* CONFIG_P2P */
++
++static int _cfg80211_rtw_mgmt_tx(_adapter *padapter, u8 tx_ch, const u8 *buf, size_t len, int wait_ack)
++{
++	struct xmit_frame	*pmgntframe;
++	struct pkt_attrib	*pattrib;
++	unsigned char	*pframe;
++	int ret = _FAIL;
++	bool ack = _TRUE;
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(padapter);
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++#endif /* CONFIG_P2P */
++	/* struct cfg80211_wifidirect_info *pcfg80211_wdinfo = &padapter->cfg80211_wdinfo; */
++
++	rtw_mi_set_scan_deny(padapter, 1000);
++	rtw_mi_scan_abort(padapter, _TRUE);
++
++#ifdef CONFIG_P2P
++	if (padapter->cfg80211_wdinfo.is_ro_ch == _TRUE) {
++		/* RTW_INFO("%s, cancel ro ch timer\n", __func__); */
++		/* _cancel_timer_ex(&padapter->cfg80211_wdinfo.remain_on_ch_timer); */
++		/* padapter->cfg80211_wdinfo.is_ro_ch = _FALSE; */
++		#ifdef CONFIG_CONCURRENT_MODE
++		if (!check_fwstate(&padapter->mlmepriv, _FW_LINKED)) {
++			RTW_INFO("%s, extend ro ch time\n", __func__);
++			_set_timer(&padapter->cfg80211_wdinfo.remain_on_ch_timer, pwdinfo->ext_listen_period);
++		}
++		#endif /* CONFIG_CONCURRENT_MODE */
++	}
++#endif /* CONFIG_P2P */
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED)) {
++		u8 union_ch = rtw_mi_get_union_chan(padapter);
++		u8 co_channel = 0xff;
++		co_channel = rtw_get_oper_ch(padapter);
++
++		if (tx_ch != union_ch) {
++			u16 ext_listen_period;
++
++			if (ATOMIC_READ(&pwdev_priv->switch_ch_to) == 1) {
++				rtw_mi_buddy_issue_nulldata(padapter, NULL, 1, 3, 500);
++				ATOMIC_SET(&pwdev_priv->switch_ch_to, 0);
++				/* RTW_INFO("%s, set switch ch timer, period=%d\n", __func__, pwdinfo->ext_listen_period); */
++				/* _set_timer(&pwdinfo->ap_p2p_switch_timer, pwdinfo->ext_listen_period); */
++			}
++
++			if (check_fwstate(&padapter->mlmepriv, _FW_LINKED))
++				ext_listen_period = 500;/*500ms*/
++#ifdef CONFIG_P2P				
++			else
++				ext_listen_period = pwdinfo->ext_listen_period;
++
++			_set_timer(&pwdinfo->ap_p2p_switch_timer, ext_listen_period);
++#endif
++			RTW_INFO("%s, set switch ch timer, period=%d\n", __func__, ext_listen_period);
++		}
++
++		if (!check_fwstate(&padapter->mlmepriv, _FW_LINKED))
++			pmlmeext->cur_channel = tx_ch;
++
++		if (tx_ch != co_channel)
++			set_channel_bwmode(padapter, tx_ch, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++	} else
++#endif /* CONFIG_CONCURRENT_MODE */
++	/* if (tx_ch != pmlmeext->cur_channel) { */
++	if (tx_ch != rtw_get_oper_ch(padapter)) {
++		if (!check_fwstate(&padapter->mlmepriv, _FW_LINKED))
++			pmlmeext->cur_channel = tx_ch;
++		set_channel_bwmode(padapter, tx_ch, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++	}
++
++	/* starting alloc mgmt frame to dump it */
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL) {
++		/* ret = -ENOMEM; */
++		ret = _FAIL;
++		goto exit;
++	}
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++	pattrib->retry_ctrl = _FALSE;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	_rtw_memcpy(pframe, (void *)buf, len);
++	pattrib->pktlen = len;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++	/* update seq number */
++	pmlmeext->mgnt_seq = GetSequence(pwlanhdr);
++	pattrib->seqnum = pmlmeext->mgnt_seq;
++	pmlmeext->mgnt_seq++;
++
++#ifdef CONFIG_P2P
++	rtw_xframe_chk_wfd_ie(pmgntframe);
++#endif /* CONFIG_P2P */
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	if (wait_ack) {
++		if (dump_mgntframe_and_wait_ack(padapter, pmgntframe) != _SUCCESS) {
++			ack = _FALSE;
++			ret = _FAIL;
++
++#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("%s, ack == _FAIL\n", __func__);
++#endif
++		} else {
++
++#ifdef CONFIG_XMIT_ACK
++			rtw_msleep_os(50);
++#endif
++#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("%s, ack=%d, ok!\n", __func__, ack);
++#endif
++			ret = _SUCCESS;
++		}
++	} else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++exit:
++
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO("%s, ret=%d\n", __func__, ret);
++#endif
++
++	return ret;
++
++}
++
++static int cfg80211_rtw_mgmt_tx(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct wireless_dev *wdev,
++#else
++	struct net_device *ndev,
++#endif
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 14, 0)) || defined(COMPAT_KERNEL_RELEASE)
++	struct ieee80211_channel *chan,
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 38)) || defined(COMPAT_KERNEL_RELEASE)
++	bool offchan,
++	#endif
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 34)) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++	enum nl80211_channel_type channel_type,
++	#endif
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 36)) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++	bool channel_type_valid,
++	#endif
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 38)) || defined(COMPAT_KERNEL_RELEASE)
++	unsigned int wait,
++	#endif
++	const u8 *buf, size_t len,
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 2, 0))
++	bool no_cck,
++	#endif
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 3, 0))
++	bool dont_wait_for_ack,
++	#endif
++#else
++	struct cfg80211_mgmt_tx_params *params,
++#endif
++	u64 *cookie)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct net_device *ndev = wdev_to_ndev(wdev);
++#endif
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 14, 0)) || defined(COMPAT_KERNEL_RELEASE)
++	struct ieee80211_channel *chan = params->chan;
++	bool offchan = params->offchan;
++	unsigned int wait = params->wait;
++	const u8 *buf = params->buf;
++	size_t len = params->len;
++	bool no_cck = params->no_cck;
++	bool dont_wait_for_ack = params->dont_wait_for_ack;
++#endif
++	int ret = 0;
++	int tx_ret;
++	int wait_ack = 1;
++	u32 dump_limit = RTW_MAX_MGMT_TX_CNT;
++	u32 dump_cnt = 0;
++	bool ack = _TRUE;
++	u8 tx_ch;
++	u8 category, action;
++	u8 frame_styp;
++	int type = (-1);
++	u32 start = rtw_get_current_time();
++	_adapter *padapter;
++	struct rtw_wdev_priv *pwdev_priv;
++
++	if ((ndev == NULL) || (chan == NULL)) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	tx_ch = (u8)ieee80211_frequency_to_channel(chan->center_freq);
++
++	padapter = (_adapter *)rtw_netdev_priv(ndev);
++	pwdev_priv = adapter_wdev_data(padapter);
++
++	/* cookie generation */
++	*cookie = (unsigned long) buf;
++
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO(FUNC_ADPT_FMT" len=%zu, ch=%d"
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 34)) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++		", ch_type=%d"
++		#endif
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 36)) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++		", channel_type_valid=%d"
++		#endif
++		"\n", FUNC_ADPT_ARG(padapter),
++		len, tx_ch
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 34)) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++		, channel_type
++		#endif
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 34)) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++		, channel_type_valid
++		#endif
++	);
++#endif /* CONFIG_DEBUG_CFG80211 */
++
++	/* indicate ack before issue frame to avoid racing with rsp frame */
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	rtw_cfg80211_mgmt_tx_status(padapter, *cookie, buf, len, ack, GFP_KERNEL);
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 34) && LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 36))
++	cfg80211_action_tx_status(ndev, *cookie, buf, len, ack, GFP_KERNEL);
++#endif
++
++	frame_styp = le16_to_cpu(((struct rtw_ieee80211_hdr_3addr *)buf)->frame_ctl) & IEEE80211_FCTL_STYPE;
++	if (IEEE80211_STYPE_PROBE_RESP == frame_styp) {
++#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO("RTW_Tx: probe_resp tx_ch=%d, da="MAC_FMT"\n", tx_ch, MAC_ARG(GetAddr1Ptr(buf)));
++#endif /* CONFIG_DEBUG_CFG80211 */
++		wait_ack = 0;
++		goto dump;
++	}
++
++	if (rtw_action_frame_parse(buf, len, &category, &action) == _FALSE) {
++		RTW_INFO(FUNC_ADPT_FMT" frame_control:0x%x\n", FUNC_ADPT_ARG(padapter),
++			le16_to_cpu(((struct rtw_ieee80211_hdr_3addr *)buf)->frame_ctl));
++		goto exit;
++	}
++
++	RTW_INFO("RTW_Tx:tx_ch=%d, da="MAC_FMT"\n", tx_ch, MAC_ARG(GetAddr1Ptr(buf)));
++#ifdef CONFIG_P2P
++	type = rtw_p2p_check_frames(padapter, buf, len, _TRUE);
++	if (type >= 0)
++		goto dump;
++#endif
++	if (category == RTW_WLAN_CATEGORY_PUBLIC)
++		RTW_INFO("RTW_Tx:%s\n", action_public_str(action));
++	else
++		RTW_INFO("RTW_Tx:category(%u), action(%u)\n", category, action);
++
++dump:
++
++	rtw_ps_deny(padapter, PS_DENY_MGNT_TX);
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		ret = -EFAULT;
++		goto cancel_ps_deny;
++	}
++
++	while (1) {
++		u32 sleep_ms = 0;
++		u32 retry_guarantee_ms = 0;
++
++		dump_cnt++;
++		tx_ret = _cfg80211_rtw_mgmt_tx(padapter, tx_ch, buf, len, wait_ack);
++
++		switch (action) {
++		case ACT_PUBLIC_GAS_INITIAL_REQ:
++		case ACT_PUBLIC_GAS_INITIAL_RSP:
++			sleep_ms = 50;
++			retry_guarantee_ms = RTW_MAX_MGMT_TX_MS_GAS;
++		}
++
++		if (tx_ret == _SUCCESS
++			|| (dump_cnt >= dump_limit && rtw_get_passing_time_ms(start) >= retry_guarantee_ms))
++			break;
++
++		if (sleep_ms > 0)
++			rtw_msleep_os(sleep_ms);
++	}
++
++	if (tx_ret != _SUCCESS || dump_cnt > 1) {
++		RTW_INFO(FUNC_ADPT_FMT" %s (%d/%d) in %d ms\n", FUNC_ADPT_ARG(padapter),
++			tx_ret == _SUCCESS ? "OK" : "FAIL", dump_cnt, dump_limit, rtw_get_passing_time_ms(start));
++	}
++
++	switch (type) {
++	case P2P_GO_NEGO_CONF:
++		rtw_clear_scan_deny(padapter);
++		break;
++	case P2P_INVIT_RESP:
++		if (pwdev_priv->invit_info.flags & BIT(0)
++			&& pwdev_priv->invit_info.status == 0
++		) {
++			RTW_INFO(FUNC_ADPT_FMT" agree with invitation of persistent group\n",
++				FUNC_ADPT_ARG(padapter));
++			/*rtw_set_scan_deny(padapter, 5000);
++			rtw_clear_scan_deny(padapter);*/
++			rtw_mi_buddy_set_scan_deny(padapter, 5000);
++			rtw_pwr_wakeup_ex(padapter, 5000);
++		}
++		break;
++	}
++
++cancel_ps_deny:
++	rtw_ps_deny_cancel(padapter, PS_DENY_MGNT_TX);
++exit:
++	return ret;
++}
++
++static void cfg80211_rtw_mgmt_frame_register(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct wireless_dev *wdev,
++#else
++	struct net_device *ndev,
++#endif
++	u16 frame_type, bool reg)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct net_device *ndev = wdev_to_ndev(wdev);
++#endif
++	_adapter *adapter;
++
++	struct rtw_wdev_priv *pwdev_priv;
++
++	if (ndev == NULL)
++		goto exit;
++
++	adapter = (_adapter *)rtw_netdev_priv(ndev);
++	pwdev_priv = adapter_wdev_data(adapter);
++
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO(FUNC_ADPT_FMT" frame_type:%x, reg:%d\n", FUNC_ADPT_ARG(adapter),
++		frame_type, reg);
++#endif
++
++	/* Wait QC Verify */
++	return;
++
++	switch (frame_type) {
++	case IEEE80211_STYPE_PROBE_REQ: /* 0x0040 */
++		SET_CFG80211_REPORT_MGMT(pwdev_priv, IEEE80211_STYPE_PROBE_REQ, reg);
++		break;
++	case IEEE80211_STYPE_ACTION: /* 0x00D0 */
++		SET_CFG80211_REPORT_MGMT(pwdev_priv, IEEE80211_STYPE_ACTION, reg);
++		break;
++	default:
++		break;
++	}
++
++exit:
++	return;
++}
++
++#if defined(CONFIG_TDLS) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 2, 0))
++static int cfg80211_rtw_tdls_mgmt(struct wiphy *wiphy,
++	struct net_device *ndev,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 16, 0))
++	const u8 *peer,
++#else
++	u8 *peer,
++#endif
++	u8 action_code,
++	u8 dialog_token,
++	u16 status_code,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 15, 0))
++	u32 peer_capability,
++#endif
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 17, 0))
++	bool initiator,
++#endif
++	const u8 *buf,
++	size_t len)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &pmlmeext->mlmext_info;
++	int ret = 0;
++	struct tdls_txmgmt txmgmt;
++
++	if (hal_chk_wl_func(padapter, WL_FUNC_TDLS) == _FALSE) {
++		RTW_INFO("Discard tdls action:%d, since hal doesn't support tdls\n", action_code);
++		goto discard;
++	}
++
++	if (rtw_tdls_is_driver_setup(padapter)) {
++		RTW_INFO("Discard tdls action:%d, let driver to set up direct link\n", action_code);
++		goto discard;
++	}
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	_rtw_memcpy(txmgmt.peer, peer, ETH_ALEN);
++	txmgmt.action_code = action_code;
++	txmgmt.dialog_token = dialog_token;
++	txmgmt.status_code = status_code;
++	txmgmt.len = len;
++	txmgmt.buf = (u8 *)rtw_malloc(txmgmt.len);
++	if (txmgmt.buf == NULL) {
++		ret = -ENOMEM;
++		goto bad;
++	}
++	_rtw_memcpy(txmgmt.buf, (void *)buf, txmgmt.len);
++
++	/* Debug purpose */
++#if 1
++	RTW_INFO("%s %d\n", __FUNCTION__, __LINE__);
++	RTW_INFO("peer:"MAC_FMT", action code:%d, dialog:%d, status code:%d\n",
++		MAC_ARG(txmgmt.peer), txmgmt.action_code,
++		txmgmt.dialog_token, txmgmt.status_code);
++	if (txmgmt.len > 0) {
++		int i = 0;
++		for (; i < len; i++)
++			printk("%02x ", *(txmgmt.buf + i));
++		RTW_INFO("len:%d\n", (u32)txmgmt.len);
++	}
++#endif
++
++	switch (txmgmt.action_code) {
++	case TDLS_SETUP_REQUEST:
++		issue_tdls_setup_req(padapter, &txmgmt, _TRUE);
++		break;
++	case TDLS_SETUP_RESPONSE:
++		issue_tdls_setup_rsp(padapter, &txmgmt);
++		break;
++	case TDLS_SETUP_CONFIRM:
++		issue_tdls_setup_cfm(padapter, &txmgmt);
++		break;
++	case TDLS_TEARDOWN:
++		issue_tdls_teardown(padapter, &txmgmt, _TRUE);
++		break;
++	case TDLS_DISCOVERY_REQUEST:
++		issue_tdls_dis_req(padapter, &txmgmt);
++		break;
++	case TDLS_DISCOVERY_RESPONSE:
++		issue_tdls_dis_rsp(padapter, &txmgmt, pmlmeinfo->enc_algo ? _TRUE : _FALSE);
++		break;
++	}
++
++bad:
++	if (txmgmt.buf)
++		rtw_mfree(txmgmt.buf, txmgmt.len);
++
++discard:
++	return ret;
++}
++
++static int cfg80211_rtw_tdls_oper(struct wiphy *wiphy,
++	struct net_device *ndev,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 16, 0))
++	const u8 *peer,
++#else
++	u8 *peer,
++#endif
++	enum nl80211_tdls_operation oper)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct tdls_txmgmt	txmgmt;
++	struct sta_info *ptdls_sta = NULL;
++
++	RTW_INFO(FUNC_NDEV_FMT", nl80211_tdls_operation:%d\n", FUNC_NDEV_ARG(ndev), oper);
++
++	if (hal_chk_wl_func(padapter, WL_FUNC_TDLS) == _FALSE) {
++		RTW_INFO("Discard tdls oper:%d, since hal doesn't support tdls\n", oper);
++		return 0;
++	}
++
++#ifdef CONFIG_LPS
++	rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_LEAVE, 1);
++#endif /* CONFIG_LPS */
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	if (peer)
++		_rtw_memcpy(txmgmt.peer, peer, ETH_ALEN);
++
++	if (rtw_tdls_is_driver_setup(padapter)) {
++		/* these two cases are done by driver itself */
++		if (oper == NL80211_TDLS_ENABLE_LINK || oper == NL80211_TDLS_DISABLE_LINK)
++			return 0;
++	}
++
++	switch (oper) {
++	case NL80211_TDLS_DISCOVERY_REQ:
++		issue_tdls_dis_req(padapter, &txmgmt);
++		break;
++	case NL80211_TDLS_SETUP:
++#ifdef CONFIG_WFD
++		if (_AES_ != padapter->securitypriv.dot11PrivacyAlgrthm) {
++			if (padapter->wdinfo.wfd_tdls_weaksec == _TRUE)
++				issue_tdls_setup_req(padapter, &txmgmt, _TRUE);
++			else
++				RTW_INFO("[%s] Current link is not AES, SKIP sending the tdls setup request!!\n", __FUNCTION__);
++		} else
++#endif /* CONFIG_WFD */
++		{
++			issue_tdls_setup_req(padapter, &txmgmt, _TRUE);
++		}
++		break;
++	case NL80211_TDLS_TEARDOWN:
++		ptdls_sta = rtw_get_stainfo(&(padapter->stapriv), txmgmt.peer);
++		if (ptdls_sta != NULL) {
++			txmgmt.status_code = _RSON_TDLS_TEAR_UN_RSN_;
++			issue_tdls_teardown(padapter, &txmgmt, _TRUE);
++		} else
++			RTW_INFO("TDLS peer not found\n");
++		break;
++	case NL80211_TDLS_ENABLE_LINK:
++		RTW_INFO(FUNC_NDEV_FMT", NL80211_TDLS_ENABLE_LINK;mac:"MAC_FMT"\n", FUNC_NDEV_ARG(ndev), MAC_ARG(peer));
++		ptdls_sta = rtw_get_stainfo(&(padapter->stapriv), (u8 *)peer);
++		if (ptdls_sta != NULL) {
++			ptdlsinfo->link_established = _TRUE;
++			ptdls_sta->tdls_sta_state |= TDLS_LINKED_STATE;
++			ptdls_sta->state |= _FW_LINKED;
++			rtw_tdls_cmd(padapter, txmgmt.peer, TDLS_ESTABLISHED);
++		}
++		break;
++	case NL80211_TDLS_DISABLE_LINK:
++		RTW_INFO(FUNC_NDEV_FMT", NL80211_TDLS_DISABLE_LINK;mac:"MAC_FMT"\n", FUNC_NDEV_ARG(ndev), MAC_ARG(peer));
++		ptdls_sta = rtw_get_stainfo(&(padapter->stapriv), (u8 *)peer);
++		if (ptdls_sta != NULL)
++			rtw_tdls_cmd(padapter, (u8 *)peer, TDLS_TEARDOWN_STA_LOCALLY);
++		break;
++	}
++	return 0;
++}
++#endif /* CONFIG_TDLS */
++
++#if defined(CONFIG_PNO_SUPPORT) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
++static int cfg80211_rtw_sched_scan_start(struct wiphy *wiphy,
++		struct net_device *dev,
++		struct cfg80211_sched_scan_request *request)
++{
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	u8 ret;
++
++	if (padapter->bup == _FALSE) {
++		RTW_INFO("%s: net device is down.\n", __func__);
++		return -EIO;
++	}
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE ||
++		check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE  ||
++		check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE) {
++		RTW_INFO("%s: device is busy.\n", __func__);
++		rtw_scan_abort(padapter);
++	}
++
++	if (request == NULL) {
++		RTW_INFO("%s: invalid cfg80211_requests parameters.\n", __func__);
++		return -EINVAL;
++	}
++
++	ret = rtw_android_cfg80211_pno_setup(dev, request->ssids,
++			request->n_ssids, request->interval);
++
++	if (ret < 0) {
++		RTW_INFO("%s ret: %d\n", __func__, ret);
++		goto exit;
++	}
++
++	ret = rtw_android_pno_enable(dev, _TRUE);
++	if (ret < 0) {
++		RTW_INFO("%s ret: %d\n", __func__, ret);
++		goto exit;
++	}
++exit:
++	return ret;
++}
++
++static int cfg80211_rtw_sched_scan_stop(struct wiphy *wiphy,
++		struct net_device *dev)
++{
++	return rtw_android_pno_enable(dev, _FALSE);
++}
++#endif /* CONFIG_PNO_SUPPORT */
++
++static int rtw_cfg80211_set_beacon_wpsp2pie(struct net_device *ndev, char *buf, int len)
++{
++	int ret = 0;
++	uint wps_ielen = 0;
++	u8 *wps_ie;
++	u32	p2p_ielen = 0;
++	u8 wps_oui[8] = {0x0, 0x50, 0xf2, 0x04};
++	u8 *p2p_ie;
++	u32	wfd_ielen = 0;
++	u8 *wfd_ie;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++
++	RTW_INFO(FUNC_NDEV_FMT" ielen=%d\n", FUNC_NDEV_ARG(ndev), len);
++
++	if (len > 0) {
++		wps_ie = rtw_get_wps_ie(buf, len, NULL, &wps_ielen);
++		if (wps_ie) {
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("bcn_wps_ielen=%d\n", wps_ielen);
++			#endif
++
++			if (pmlmepriv->wps_beacon_ie) {
++				u32 free_len = pmlmepriv->wps_beacon_ie_len;
++				pmlmepriv->wps_beacon_ie_len = 0;
++				rtw_mfree(pmlmepriv->wps_beacon_ie, free_len);
++				pmlmepriv->wps_beacon_ie = NULL;
++			}
++
++			pmlmepriv->wps_beacon_ie = rtw_malloc(wps_ielen);
++			if (pmlmepriv->wps_beacon_ie == NULL) {
++				RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				return -EINVAL;
++
++			}
++
++			_rtw_memcpy(pmlmepriv->wps_beacon_ie, wps_ie, wps_ielen);
++			pmlmepriv->wps_beacon_ie_len = wps_ielen;
++
++			update_beacon(padapter, _VENDOR_SPECIFIC_IE_, wps_oui, _TRUE);
++
++		}
++
++		/* buf += wps_ielen; */
++		/* len -= wps_ielen; */
++
++		#ifdef CONFIG_P2P
++		p2p_ie = rtw_get_p2p_ie(buf, len, NULL, &p2p_ielen);
++		if (p2p_ie) {
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("bcn_p2p_ielen=%d\n", p2p_ielen);
++			#endif
++
++			if (pmlmepriv->p2p_beacon_ie) {
++				u32 free_len = pmlmepriv->p2p_beacon_ie_len;
++				pmlmepriv->p2p_beacon_ie_len = 0;
++				rtw_mfree(pmlmepriv->p2p_beacon_ie, free_len);
++				pmlmepriv->p2p_beacon_ie = NULL;
++			}
++
++			pmlmepriv->p2p_beacon_ie = rtw_malloc(p2p_ielen);
++			if (pmlmepriv->p2p_beacon_ie == NULL) {
++				RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				return -EINVAL;
++
++			}
++
++			_rtw_memcpy(pmlmepriv->p2p_beacon_ie, p2p_ie, p2p_ielen);
++			pmlmepriv->p2p_beacon_ie_len = p2p_ielen;
++
++		}
++		#endif /* CONFIG_P2P */
++
++
++		#ifdef CONFIG_WFD
++		wfd_ie = rtw_get_wfd_ie(buf, len, NULL, &wfd_ielen);
++		if (wfd_ie) {
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("bcn_wfd_ielen=%d\n", wfd_ielen);
++			#endif
++
++			if (rtw_mlme_update_wfd_ie_data(pmlmepriv, MLME_BEACON_IE, wfd_ie, wfd_ielen) != _SUCCESS)
++				return -EINVAL;
++		}
++		#endif /* CONFIG_WFD */
++
++		pmlmeext->bstart_bss = _TRUE;
++
++	}
++
++	return ret;
++
++}
++
++static int rtw_cfg80211_set_probe_resp_wpsp2pie(struct net_device *net, char *buf, int len)
++{
++	int ret = 0;
++	uint wps_ielen = 0;
++	u8 *wps_ie;
++	u32	p2p_ielen = 0;
++	u8 *p2p_ie;
++	u32	wfd_ielen = 0;
++	u8 *wfd_ie;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO("%s, ielen=%d\n", __func__, len);
++#endif
++
++	if (len > 0) {
++		wps_ie = rtw_get_wps_ie(buf, len, NULL, &wps_ielen);
++		if (wps_ie) {
++			uint	attr_contentlen = 0;
++			u16	uconfig_method, *puconfig_method = NULL;
++
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("probe_resp_wps_ielen=%d\n", wps_ielen);
++			#endif
++
++			if (check_fwstate(pmlmepriv, WIFI_UNDER_WPS)) {
++				u8 sr = 0;
++				rtw_get_wps_attr_content(wps_ie,  wps_ielen, WPS_ATTR_SELECTED_REGISTRAR, (u8 *)(&sr), NULL);
++
++				if (sr != 0)
++					RTW_INFO("%s, got sr\n", __func__);
++				else {
++					RTW_INFO("GO mode process WPS under site-survey,  sr no set\n");
++					return ret;
++				}
++			}
++
++			if (pmlmepriv->wps_probe_resp_ie) {
++				u32 free_len = pmlmepriv->wps_probe_resp_ie_len;
++				pmlmepriv->wps_probe_resp_ie_len = 0;
++				rtw_mfree(pmlmepriv->wps_probe_resp_ie, free_len);
++				pmlmepriv->wps_probe_resp_ie = NULL;
++			}
++
++			pmlmepriv->wps_probe_resp_ie = rtw_malloc(wps_ielen);
++			if (pmlmepriv->wps_probe_resp_ie == NULL) {
++				RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				return -EINVAL;
++
++			}
++
++			/* add PUSH_BUTTON config_method by driver self in wpsie of probe_resp at GO Mode */
++			puconfig_method = (u16 *)rtw_get_wps_attr_content(wps_ie, wps_ielen, WPS_ATTR_CONF_METHOD , NULL, &attr_contentlen);
++			if (puconfig_method != NULL) {
++				/* struct registry_priv *pregistrypriv = &padapter->registrypriv; */
++				struct wireless_dev *wdev = padapter->rtw_wdev;
++
++				#ifdef CONFIG_DEBUG_CFG80211
++				/* printk("config_method in wpsie of probe_resp = 0x%x\n", be16_to_cpu(*puconfig_method)); */
++				#endif
++
++				#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++				/* for WIFI-DIRECT LOGO 4.2.2, AUTO GO can't set PUSH_BUTTON flags */
++				if (wdev->iftype == NL80211_IFTYPE_P2P_GO) {
++					uconfig_method = WPS_CM_PUSH_BUTTON;
++					uconfig_method = cpu_to_be16(uconfig_method);
++
++					*puconfig_method &= ~uconfig_method;
++				}
++				#endif
++			}
++
++			_rtw_memcpy(pmlmepriv->wps_probe_resp_ie, wps_ie, wps_ielen);
++			pmlmepriv->wps_probe_resp_ie_len = wps_ielen;
++
++		}
++
++		/* buf += wps_ielen; */
++		/* len -= wps_ielen; */
++
++		#ifdef CONFIG_P2P
++		p2p_ie = rtw_get_p2p_ie(buf, len, NULL, &p2p_ielen);
++		if (p2p_ie) {
++			u8 is_GO = _FALSE;
++			u32 attr_contentlen = 0;
++			u16 cap_attr = 0;
++
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("probe_resp_p2p_ielen=%d\n", p2p_ielen);
++			#endif
++
++			/* Check P2P Capability ATTR */
++			if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CAPABILITY, (u8 *)&cap_attr, (uint *) &attr_contentlen)) {
++				u8 grp_cap = 0;
++				/* RTW_INFO( "[%s] Got P2P Capability Attr!!\n", __FUNCTION__ ); */
++				cap_attr = le16_to_cpu(cap_attr);
++				grp_cap = (u8)((cap_attr >> 8) & 0xff);
++
++				is_GO = (grp_cap & BIT(0)) ? _TRUE : _FALSE;
++
++				if (is_GO)
++					RTW_INFO("Got P2P Capability Attr, grp_cap=0x%x, is_GO\n", grp_cap);
++			}
++
++
++			if (is_GO == _FALSE) {
++				if (pmlmepriv->p2p_probe_resp_ie) {
++					u32 free_len = pmlmepriv->p2p_probe_resp_ie_len;
++					pmlmepriv->p2p_probe_resp_ie_len = 0;
++					rtw_mfree(pmlmepriv->p2p_probe_resp_ie, free_len);
++					pmlmepriv->p2p_probe_resp_ie = NULL;
++				}
++
++				pmlmepriv->p2p_probe_resp_ie = rtw_malloc(p2p_ielen);
++				if (pmlmepriv->p2p_probe_resp_ie == NULL) {
++					RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++					return -EINVAL;
++
++				}
++				_rtw_memcpy(pmlmepriv->p2p_probe_resp_ie, p2p_ie, p2p_ielen);
++				pmlmepriv->p2p_probe_resp_ie_len = p2p_ielen;
++			} else {
++				if (pmlmepriv->p2p_go_probe_resp_ie) {
++					u32 free_len = pmlmepriv->p2p_go_probe_resp_ie_len;
++					pmlmepriv->p2p_go_probe_resp_ie_len = 0;
++					rtw_mfree(pmlmepriv->p2p_go_probe_resp_ie, free_len);
++					pmlmepriv->p2p_go_probe_resp_ie = NULL;
++				}
++
++				pmlmepriv->p2p_go_probe_resp_ie = rtw_malloc(p2p_ielen);
++				if (pmlmepriv->p2p_go_probe_resp_ie == NULL) {
++					RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++					return -EINVAL;
++
++				}
++				_rtw_memcpy(pmlmepriv->p2p_go_probe_resp_ie, p2p_ie, p2p_ielen);
++				pmlmepriv->p2p_go_probe_resp_ie_len = p2p_ielen;
++			}
++
++		}
++		#endif /* CONFIG_P2P */
++
++
++		#ifdef CONFIG_WFD
++		wfd_ie = rtw_get_wfd_ie(buf, len, NULL, &wfd_ielen);
++		if (wfd_ie) {
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("probe_resp_wfd_ielen=%d\n", wfd_ielen);
++			#endif
++
++			if (rtw_mlme_update_wfd_ie_data(pmlmepriv, MLME_PROBE_RESP_IE, wfd_ie, wfd_ielen) != _SUCCESS)
++				return -EINVAL;
++		}
++		#endif /* CONFIG_WFD */
++
++	}
++
++	return ret;
++
++}
++
++static int rtw_cfg80211_set_assoc_resp_wpsp2pie(struct net_device *net, char *buf, int len)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	u8 *ie;
++	u32 ie_len;
++
++	RTW_INFO("%s, ielen=%d\n", __func__, len);
++
++	if (len <= 0)
++		goto exit;
++
++	ie = rtw_get_wps_ie(buf, len, NULL, &ie_len);
++	if (ie && ie_len) {
++		if (pmlmepriv->wps_assoc_resp_ie) {
++			u32 free_len = pmlmepriv->wps_assoc_resp_ie_len;
++
++			pmlmepriv->wps_assoc_resp_ie_len = 0;
++			rtw_mfree(pmlmepriv->wps_assoc_resp_ie, free_len);
++			pmlmepriv->wps_assoc_resp_ie = NULL;
++		}
++
++		pmlmepriv->wps_assoc_resp_ie = rtw_malloc(ie_len);
++		if (pmlmepriv->wps_assoc_resp_ie == NULL) {
++			RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++			return -EINVAL;
++		}
++		_rtw_memcpy(pmlmepriv->wps_assoc_resp_ie, ie, ie_len);
++		pmlmepriv->wps_assoc_resp_ie_len = ie_len;
++	}
++
++	ie = rtw_get_p2p_ie(buf, len, NULL, &ie_len);
++	if (ie && ie_len) {
++		if (pmlmepriv->p2p_assoc_resp_ie) {
++			u32 free_len = pmlmepriv->p2p_assoc_resp_ie_len;
++
++			pmlmepriv->p2p_assoc_resp_ie_len = 0;
++			rtw_mfree(pmlmepriv->p2p_assoc_resp_ie, free_len);
++			pmlmepriv->p2p_assoc_resp_ie = NULL;
++		}
++
++		pmlmepriv->p2p_assoc_resp_ie = rtw_malloc(ie_len);
++		if (pmlmepriv->p2p_assoc_resp_ie == NULL) {
++			RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++			return -EINVAL;
++		}
++		_rtw_memcpy(pmlmepriv->p2p_assoc_resp_ie, ie, ie_len);
++		pmlmepriv->p2p_assoc_resp_ie_len = ie_len;
++	}
++
++#ifdef CONFIG_WFD
++	ie = rtw_get_wfd_ie(buf, len, NULL, &ie_len);
++	if (rtw_mlme_update_wfd_ie_data(pmlmepriv, MLME_ASSOC_RESP_IE, ie, ie_len) != _SUCCESS)
++		return -EINVAL;
++#endif
++
++exit:
++	return ret;
++}
++
++int rtw_cfg80211_set_mgnt_wpsp2pie(struct net_device *net, char *buf, int len,
++	int type)
++{
++	int ret = 0;
++	uint wps_ielen = 0;
++	u32	p2p_ielen = 0;
++
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO("%s, ielen=%d\n", __func__, len);
++#endif
++
++	if ((rtw_get_wps_ie(buf, len, NULL, &wps_ielen) && (wps_ielen > 0))
++		#ifdef CONFIG_P2P
++		|| (rtw_get_p2p_ie(buf, len, NULL, &p2p_ielen) && (p2p_ielen > 0))
++		#endif
++	) {
++		if (net != NULL) {
++			switch (type) {
++			case 0x1: /* BEACON */
++				ret = rtw_cfg80211_set_beacon_wpsp2pie(net, buf, len);
++				break;
++			case 0x2: /* PROBE_RESP */
++				ret = rtw_cfg80211_set_probe_resp_wpsp2pie(net, buf, len);
++				break;
++			case 0x4: /* ASSOC_RESP */
++				ret = rtw_cfg80211_set_assoc_resp_wpsp2pie(net, buf, len);
++				break;
++			}
++		}
++	}
++
++	return ret;
++
++}
++
++static void rtw_cfg80211_init_ht_capab_ex(_adapter *padapter, struct ieee80211_sta_ht_cap *ht_cap, enum nl80211_band band, u8 rf_type)
++{
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct ht_priv		*phtpriv = &pmlmepriv->htpriv;
++	u8 stbc_rx_enable = _FALSE;
++
++	rtw_ht_use_default_setting(padapter);
++
++	/* RX LDPC */
++	if (TEST_FLAG(phtpriv->ldpc_cap, LDPC_HT_ENABLE_RX))
++		ht_cap->cap |= IEEE80211_HT_CAP_LDPC_CODING;
++
++	/* TX STBC */
++	if (TEST_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_TX))
++		ht_cap->cap |= IEEE80211_HT_CAP_TX_STBC;
++
++	/* RX STBC */
++	if (TEST_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_RX)) {
++		/*rtw_rx_stbc 0: disable, bit(0):enable 2.4g, bit(1):enable 5g*/
++		if (NL80211_BAND_2GHZ == band)
++			stbc_rx_enable = (pregistrypriv->rx_stbc & BIT(0)) ? _TRUE : _FALSE;
++		if (NL80211_BAND_5GHZ == band)
++			stbc_rx_enable = (pregistrypriv->rx_stbc & BIT(1)) ? _TRUE : _FALSE;
++
++		if (stbc_rx_enable) {
++			switch (rf_type) {
++			case RF_1T1R:
++				ht_cap->cap |= IEEE80211_HT_CAP_RX_STBC_1R;/*RX STBC One spatial stream*/
++				break;
++
++			case RF_2T2R:
++			case RF_1T2R:
++				ht_cap->cap |= IEEE80211_HT_CAP_RX_STBC_1R;/* Only one spatial-stream STBC RX is supported */
++				break;
++			case RF_3T3R:
++			case RF_3T4R:
++			case RF_4T4R:
++				ht_cap->cap |= IEEE80211_HT_CAP_RX_STBC_1R;/* Only one spatial-stream STBC RX is supported */
++				break;
++			default:
++				RTW_INFO("[warning] rf_type %d is not expected\n", rf_type);
++				break;
++			}
++		}
++	}
++}
++
++static void rtw_cfg80211_init_ht_capab(_adapter *padapter, struct ieee80211_sta_ht_cap *ht_cap, enum nl80211_band band, u8 rf_type)
++{
++#define MAX_BIT_RATE_40MHZ_MCS23	450	/* Mbps */
++#define MAX_BIT_RATE_40MHZ_MCS15	300	/* Mbps */
++#define MAX_BIT_RATE_40MHZ_MCS7	150	/* Mbps */
++
++	ht_cap->ht_supported = _TRUE;
++
++	ht_cap->cap = IEEE80211_HT_CAP_SUP_WIDTH_20_40 |
++				IEEE80211_HT_CAP_SGI_40 | IEEE80211_HT_CAP_SGI_20 |
++				IEEE80211_HT_CAP_DSSSCCK40 | IEEE80211_HT_CAP_MAX_AMSDU;
++	rtw_cfg80211_init_ht_capab_ex(padapter, ht_cap, band, rf_type);
++
++	/*
++	 *Maximum length of AMPDU that the STA can receive.
++	 *Length = 2 ^ (13 + max_ampdu_length_exp) - 1 (octets)
++	 */
++	ht_cap->ampdu_factor = IEEE80211_HT_MAX_AMPDU_64K;
++
++	/*Minimum MPDU start spacing , */
++	ht_cap->ampdu_density = IEEE80211_HT_MPDU_DENSITY_16;
++
++	ht_cap->mcs.tx_params = IEEE80211_HT_MCS_TX_DEFINED;
++
++	/*
++	 *hw->wiphy->bands[NL80211_BAND_2GHZ]
++	 *base on ant_num
++	 *rx_mask: RX mask
++	 *if rx_ant =1 rx_mask[0]=0xff;==>MCS0-MCS7
++	 *if rx_ant =2 rx_mask[1]=0xff;==>MCS8-MCS15
++	 *if rx_ant >=3 rx_mask[2]=0xff;
++	 *if BW_40 rx_mask[4]=0x01;
++	 *highest supported RX rate
++	 */
++	if (rf_type == RF_1T1R) {
++		ht_cap->mcs.rx_mask[0] = 0xFF;
++
++		ht_cap->mcs.rx_highest = MAX_BIT_RATE_40MHZ_MCS7;
++	} else if ((rf_type == RF_1T2R) || (rf_type == RF_2T2R) || (rf_type == RF_2T2R_GREEN)) {
++		ht_cap->mcs.rx_mask[0] = 0xFF;
++		ht_cap->mcs.rx_mask[1] = 0xFF;
++
++		ht_cap->mcs.rx_highest = MAX_BIT_RATE_40MHZ_MCS15;
++	} else if ((rf_type == RF_2T3R) || (rf_type == RF_3T3R)) {
++		ht_cap->mcs.rx_mask[0] = 0xFF;
++		ht_cap->mcs.rx_mask[1] = 0xFF;
++		ht_cap->mcs.rx_mask[2] = 0xFF;
++
++		ht_cap->mcs.rx_highest = MAX_BIT_RATE_40MHZ_MCS23;
++	} else {
++		rtw_warn_on(1);
++		RTW_INFO("%s, error rf_type=%d\n", __func__, rf_type);
++	}
++
++}
++void rtw_cfg80211_init_wdev_data(_adapter *padapter)
++{
++#ifdef CONFIG_CONCURRENT_MODE
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(padapter);
++
++	ATOMIC_SET(&pwdev_priv->switch_ch_to, 1);
++	ATOMIC_SET(&pwdev_priv->ro_ch_to, 1);
++#endif
++}
++
++void rtw_cfg80211_init_wiphy(_adapter *padapter)
++{
++	u8 rf_type;
++	struct ieee80211_supported_band *bands;
++	struct wireless_dev *pwdev = padapter->rtw_wdev;
++	struct wiphy *wiphy = pwdev->wiphy;
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++	RTW_INFO("%s:rf_type=%d\n", __func__, rf_type);
++
++	if (IsSupported24G(padapter->registrypriv.wireless_mode)) {
++		bands = wiphy->bands[NL80211_BAND_2GHZ];
++		if (bands)
++			rtw_cfg80211_init_ht_capab(padapter, &bands->ht_cap, NL80211_BAND_2GHZ, rf_type);
++	}
++#ifdef CONFIG_NL80211_BAND_5GHZ
++	if (IsSupported5G(padapter->registrypriv.wireless_mode)) {
++		bands = wiphy->bands[NL80211_BAND_5GHZ];
++		if (bands)
++			rtw_cfg80211_init_ht_capab(padapter, &bands->ht_cap, NL80211_BAND_5GHZ, rf_type);
++	}
++#endif
++	/* init regulary domain */
++	rtw_regd_init(padapter);
++
++	/* copy mac_addr to wiphy */
++	_rtw_memcpy(wiphy->perm_addr, adapter_mac_addr(padapter), ETH_ALEN);
++
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
++struct ieee80211_iface_limit rtw_limits[] = {
++	{
++		.max = 2,
++		.types = BIT(NL80211_IFTYPE_STATION)
++			#if defined(CONFIG_P2P) && ((LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE))
++			| BIT(NL80211_IFTYPE_P2P_CLIENT)
++			#endif
++	},
++	#ifdef CONFIG_AP_MODE
++	{
++		.max = 1,
++		.types = BIT(NL80211_IFTYPE_AP)
++			#if defined(CONFIG_P2P) && ((LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE))
++			| BIT(NL80211_IFTYPE_P2P_GO)
++			#endif
++	},
++#endif
++};
++
++struct ieee80211_iface_combination rtw_combinations[] = {
++	{
++		.limits = rtw_limits,
++		.n_limits = ARRAY_SIZE(rtw_limits),
++		.max_interfaces = 2,
++		.num_different_channels = 1,
++	},
++};
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0)) */
++
++static void rtw_cfg80211_preinit_wiphy(_adapter *adapter, struct wiphy *wiphy)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct registry_priv *regsty = dvobj_to_regsty(dvobj);
++
++	wiphy->signal_type = CFG80211_SIGNAL_TYPE_MBM;
++
++	wiphy->max_scan_ssids = RTW_SSID_SCAN_AMOUNT;
++	wiphy->max_scan_ie_len = RTW_SCAN_IE_LEN_MAX;
++	wiphy->max_num_pmkids = RTW_MAX_NUM_PMKIDS;
++
++#if CONFIG_RTW_MACADDR_ACL && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 9, 0))
++	wiphy->max_acl_mac_addrs = NUM_ACL;
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 38)) || defined(COMPAT_KERNEL_RELEASE)
++	wiphy->max_remain_on_channel_duration = RTW_MAX_REMAIN_ON_CHANNEL_DURATION;
++#endif
++
++	wiphy->interface_modes =	BIT(NL80211_IFTYPE_STATION)
++								| BIT(NL80211_IFTYPE_ADHOC)
++#ifdef CONFIG_AP_MODE
++								| BIT(NL80211_IFTYPE_AP)
++								#ifdef CONFIG_WIFI_MONITOR
++								| BIT(NL80211_IFTYPE_MONITOR)
++								#endif
++#endif
++#if defined(CONFIG_P2P) && ((LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE))
++								| BIT(NL80211_IFTYPE_P2P_CLIENT)
++								| BIT(NL80211_IFTYPE_P2P_GO)
++#endif
++								;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++#ifdef CONFIG_AP_MODE
++	wiphy->mgmt_stypes = rtw_cfg80211_default_mgmt_stypes;
++#endif /* CONFIG_AP_MODE */
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
++	#ifdef CONFIG_WIFI_MONITOR
++	wiphy->software_iftypes |= BIT(NL80211_IFTYPE_MONITOR);
++	#endif
++#endif
++
++#if defined(RTW_SINGLE_WIPHY) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
++	wiphy->iface_combinations = rtw_combinations;
++	wiphy->n_iface_combinations = ARRAY_SIZE(rtw_combinations);
++#endif
++
++	wiphy->cipher_suites = rtw_cipher_suites;
++	wiphy->n_cipher_suites = ARRAY_SIZE(rtw_cipher_suites);
++
++	if (IsSupported24G(adapter->registrypriv.wireless_mode))
++		wiphy->bands[NL80211_BAND_2GHZ] = rtw_spt_band_alloc(NL80211_BAND_2GHZ);
++
++#ifdef CONFIG_NL80211_BAND_5GHZ
++	if (IsSupported5G(adapter->registrypriv.wireless_mode))
++		wiphy->bands[NL80211_BAND_5GHZ] = rtw_spt_band_alloc(NL80211_BAND_5GHZ);
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 38) && LINUX_VERSION_CODE < KERNEL_VERSION(3, 0, 0))
++	wiphy->flags |= WIPHY_FLAG_SUPPORTS_SEPARATE_DEFAULT_KEYS;
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 3, 0))
++	wiphy->flags |= WIPHY_FLAG_HAS_REMAIN_ON_CHANNEL;
++	wiphy->flags |= WIPHY_FLAG_HAVE_AP_SME;
++	/* remove WIPHY_FLAG_OFFCHAN_TX, because we not support this feature */
++	/* wiphy->flags |= WIPHY_FLAG_OFFCHAN_TX | WIPHY_FLAG_HAVE_AP_SME; */
++#endif
++
++#if defined(CONFIG_PM) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
++	wiphy->flags |= WIPHY_FLAG_SUPPORTS_SCHED_SCAN;
++#ifdef CONFIG_PNO_SUPPORT
++	wiphy->max_sched_scan_ssids = MAX_PNO_LIST_COUNT;
++#endif
++#endif
++
++#if defined(CONFIG_PM) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 11, 0))
++	wiphy->wowlan = wowlan_stub;
++#else
++	wiphy->wowlan = &wowlan_stub;
++#endif
++#endif
++
++#if defined(CONFIG_TDLS) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 2, 0))
++	wiphy->flags |= WIPHY_FLAG_SUPPORTS_TDLS;
++#ifndef CONFIG_TDLS_DRIVER_SETUP
++	wiphy->flags |= WIPHY_FLAG_TDLS_EXTERNAL_SETUP;	/* Driver handles key exchange */
++	wiphy->flags |= NL80211_ATTR_HT_CAPABILITY;
++#endif /* CONFIG_TDLS_DRIVER_SETUP */
++#endif /* CONFIG_TDLS */
++
++	if (regsty->power_mgnt != PS_MODE_ACTIVE)
++		wiphy->flags |= WIPHY_FLAG_PS_ON_BY_DEFAULT;
++	else
++		wiphy->flags &= ~WIPHY_FLAG_PS_ON_BY_DEFAULT;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 2, 0))
++	/* wiphy->flags |= WIPHY_FLAG_SUPPORTS_FW_ROAM; */
++#endif
++}
++
++static struct cfg80211_ops rtw_cfg80211_ops = {
++	.change_virtual_intf = cfg80211_rtw_change_iface,
++	.add_key = cfg80211_rtw_add_key,
++	.get_key = cfg80211_rtw_get_key,
++	.del_key = cfg80211_rtw_del_key,
++	.set_default_key = cfg80211_rtw_set_default_key,
++#if defined(CONFIG_GTK_OL) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 1, 0))
++	.set_rekey_data = cfg80211_rtw_set_rekey_data,
++#endif /*CONFIG_GTK_OL*/
++	.get_station = cfg80211_rtw_get_station,
++	.scan = cfg80211_rtw_scan,
++	.set_wiphy_params = cfg80211_rtw_set_wiphy_params,
++	.connect = cfg80211_rtw_connect,
++	.disconnect = cfg80211_rtw_disconnect,
++	.join_ibss = cfg80211_rtw_join_ibss,
++	.leave_ibss = cfg80211_rtw_leave_ibss,
++	.set_tx_power = cfg80211_rtw_set_txpower,
++	.get_tx_power = cfg80211_rtw_get_txpower,
++	.set_power_mgmt = cfg80211_rtw_set_power_mgmt,
++	.set_pmksa = cfg80211_rtw_set_pmksa,
++	.del_pmksa = cfg80211_rtw_del_pmksa,
++	.flush_pmksa = cfg80211_rtw_flush_pmksa,
++
++#ifdef CONFIG_AP_MODE
++	.add_virtual_intf = cfg80211_rtw_add_virtual_intf,
++	.del_virtual_intf = cfg80211_rtw_del_virtual_intf,
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 4, 0)) && !defined(COMPAT_KERNEL_RELEASE)
++	.add_beacon = cfg80211_rtw_add_beacon,
++	.set_beacon = cfg80211_rtw_set_beacon,
++	.del_beacon = cfg80211_rtw_del_beacon,
++#else
++	.start_ap = cfg80211_rtw_start_ap,
++	.change_beacon = cfg80211_rtw_change_beacon,
++	.stop_ap = cfg80211_rtw_stop_ap,
++#endif
++
++#if CONFIG_RTW_MACADDR_ACL && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 9, 0))
++	.set_mac_acl = cfg80211_rtw_set_mac_acl,
++#endif
++
++	.add_station = cfg80211_rtw_add_station,
++	.del_station = cfg80211_rtw_del_station,
++	.change_station = cfg80211_rtw_change_station,
++	.dump_station = cfg80211_rtw_dump_station,
++	.change_bss = cfg80211_rtw_change_bss,
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 6, 0))
++	.set_channel = cfg80211_rtw_set_channel,
++#endif
++	/* .auth = cfg80211_rtw_auth, */
++	/* .assoc = cfg80211_rtw_assoc,	 */
++#endif /* CONFIG_AP_MODE */
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	.set_monitor_channel = cfg80211_rtw_set_monitor_channel,
++#endif
++
++#ifdef CONFIG_P2P
++	.remain_on_channel = cfg80211_rtw_remain_on_channel,
++	.cancel_remain_on_channel = cfg80211_rtw_cancel_remain_on_channel,
++#endif
++
++#ifdef CONFIG_RTW_80211R
++	.update_ft_ies = cfg80211_rtw_update_ft_ies,
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	.mgmt_tx = cfg80211_rtw_mgmt_tx,
++	.mgmt_frame_register = cfg80211_rtw_mgmt_frame_register,
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 34) && LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++	.action = cfg80211_rtw_mgmt_tx,
++#endif
++
++#if defined(CONFIG_TDLS) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 2, 0))
++	.tdls_mgmt = cfg80211_rtw_tdls_mgmt,
++	.tdls_oper = cfg80211_rtw_tdls_oper,
++#endif /* CONFIG_TDLS */
++
++#if defined(CONFIG_PNO_SUPPORT) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
++	.sched_scan_start = cfg80211_rtw_sched_scan_start,
++	.sched_scan_stop = cfg80211_rtw_sched_scan_stop,
++#endif /* CONFIG_PNO_SUPPORT */
++};
++
++struct wiphy *rtw_wiphy_alloc(_adapter *padapter, struct device *dev)
++{
++	struct wiphy *wiphy;
++	struct rtw_wiphy_data *wiphy_data;
++
++	/* wiphy */
++	wiphy = wiphy_new(&rtw_cfg80211_ops, sizeof(_adapter *));
++	if (!wiphy) {
++		RTW_INFO("Couldn't allocate wiphy device\n");
++		goto exit;
++	}
++	set_wiphy_dev(wiphy, dev);
++	*((_adapter **)wiphy_priv(wiphy)) = padapter;
++
++	rtw_cfg80211_preinit_wiphy(padapter, wiphy);
++
++	RTW_INFO(FUNC_WIPHY_FMT"\n", FUNC_WIPHY_ARG(wiphy));
++
++exit:
++	return wiphy;
++}
++
++void rtw_wiphy_free(struct wiphy *wiphy)
++{
++	if (!wiphy)
++		return;
++
++	RTW_INFO(FUNC_WIPHY_FMT"\n", FUNC_WIPHY_ARG(wiphy));
++
++	if (wiphy->bands[NL80211_BAND_2GHZ]) {
++		rtw_spt_band_free(wiphy->bands[NL80211_BAND_2GHZ]);
++		wiphy->bands[NL80211_BAND_2GHZ] = NULL;
++	}
++	if (wiphy->bands[NL80211_BAND_5GHZ]) {
++		rtw_spt_band_free(wiphy->bands[NL80211_BAND_5GHZ]);
++		wiphy->bands[NL80211_BAND_5GHZ] = NULL;
++	}
++
++	wiphy_free(wiphy);
++}
++
++int rtw_wiphy_register(struct wiphy *wiphy)
++{
++	RTW_INFO(FUNC_WIPHY_FMT"\n", FUNC_WIPHY_ARG(wiphy));
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 14, 0)) || defined(RTW_VENDOR_EXT_SUPPORT)
++	rtw_cfgvendor_attach(wiphy);
++#endif
++
++	return wiphy_register(wiphy);
++}
++
++void rtw_wiphy_unregister(struct wiphy *wiphy)
++{
++	RTW_INFO(FUNC_WIPHY_FMT"\n", FUNC_WIPHY_ARG(wiphy));
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 14, 0)) || defined(RTW_VENDOR_EXT_SUPPORT)
++	rtw_cfgvendor_detach(wiphy);
++#endif
++
++	return wiphy_unregister(wiphy);
++}
++
++int rtw_wdev_alloc(_adapter *padapter, struct wiphy *wiphy)
++{
++	int ret = 0;
++	struct net_device *pnetdev = padapter->pnetdev;
++	struct wireless_dev *wdev;
++	struct rtw_wdev_priv *pwdev_priv;
++
++	RTW_INFO("%s(padapter=%p)\n", __func__, padapter);
++
++	/*  wdev */
++	wdev = (struct wireless_dev *)rtw_zmalloc(sizeof(struct wireless_dev));
++	if (!wdev) {
++		RTW_INFO("Couldn't allocate wireless device\n");
++		ret = -ENOMEM;
++		goto exit;
++	}
++	wdev->wiphy = wiphy;
++	wdev->netdev = pnetdev;
++
++	wdev->iftype = NL80211_IFTYPE_STATION;	/* will be init in rtw_hal_init() */
++											/* Must sync with _rtw_init_mlme_priv() */
++											/* pmlmepriv->fw_state = WIFI_STATION_STATE */
++	/* wdev->iftype = NL80211_IFTYPE_MONITOR; */ /* for rtw_setopmode_cmd() in cfg80211_rtw_change_iface() */
++	padapter->rtw_wdev = wdev;
++	pnetdev->ieee80211_ptr = wdev;
++
++	/* init pwdev_priv */
++	pwdev_priv = adapter_wdev_data(padapter);
++	pwdev_priv->rtw_wdev = wdev;
++	pwdev_priv->pmon_ndev = NULL;
++	pwdev_priv->ifname_mon[0] = '\0';
++	pwdev_priv->padapter = padapter;
++	pwdev_priv->scan_request = NULL;
++	_rtw_spinlock_init(&pwdev_priv->scan_req_lock);
++
++	pwdev_priv->p2p_enabled = _FALSE;
++	pwdev_priv->provdisc_req_issued = _FALSE;
++	rtw_wdev_invit_info_init(&pwdev_priv->invit_info);
++	rtw_wdev_nego_info_init(&pwdev_priv->nego_info);
++
++	pwdev_priv->bandroid_scan = _FALSE;
++
++	if (padapter->registrypriv.power_mgnt != PS_MODE_ACTIVE)
++		pwdev_priv->power_mgmt = _TRUE;
++	else
++		pwdev_priv->power_mgmt = _FALSE;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	ATOMIC_SET(&pwdev_priv->switch_ch_to, 1);
++	ATOMIC_SET(&pwdev_priv->ro_ch_to, 1);
++#endif
++
++exit:
++	return ret;
++}
++
++void rtw_wdev_free(struct wireless_dev *wdev)
++{
++	RTW_INFO("%s(wdev=%p)\n", __func__, wdev);
++
++	if (!wdev)
++		return;
++
++	rtw_mfree((u8 *)wdev, sizeof(struct wireless_dev));
++}
++
++void rtw_wdev_unregister(struct wireless_dev *wdev)
++{
++	struct net_device *ndev;
++	_adapter *adapter;
++	struct rtw_wdev_priv *pwdev_priv;
++
++	RTW_INFO("%s(wdev=%p)\n", __func__, wdev);
++
++	if (!wdev)
++		return;
++
++	ndev = wdev_to_ndev(wdev);
++	if (!ndev)
++		return;
++
++	adapter = (_adapter *)rtw_netdev_priv(ndev);
++	pwdev_priv = adapter_wdev_data(adapter);
++
++	rtw_cfg80211_indicate_scan_done(adapter, _TRUE);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 2, 0))
++	if (wdev->current_bss) {
++		u8 locally_generated = 1;
++		RTW_INFO(FUNC_ADPT_FMT" clear current_bss by cfg80211_disconnected\n", FUNC_ADPT_ARG(adapter));
++		cfg80211_disconnected(adapter->pnetdev, 0, NULL, 0, locally_generated, GFP_ATOMIC);
++	}
++#elif ((LINUX_VERSION_CODE >= KERNEL_VERSION(3, 11, 0)) && (LINUX_VERSION_CODE < KERNEL_VERSION(4, 2, 0))) || defined(COMPAT_KERNEL_RELEASE)
++	if (wdev->current_bss) {
++		RTW_INFO(FUNC_ADPT_FMT" clear current_bss by cfg80211_disconnected\n", FUNC_ADPT_ARG(adapter));
++		cfg80211_disconnected(adapter->pnetdev, 0, NULL, 0, GFP_ATOMIC);
++	}
++#endif
++
++	if (pwdev_priv->pmon_ndev) {
++		RTW_INFO("%s, unregister monitor interface\n", __func__);
++		unregister_netdev(pwdev_priv->pmon_ndev);
++	}
++}
++
++int rtw_cfg80211_ndev_res_alloc(_adapter *adapter)
++{
++	int ret = _FAIL;
++
++#if !defined(RTW_SINGLE_WIPHY)
++	struct wiphy *wiphy;
++	struct device *dev = dvobj_to_dev(adapter_to_dvobj(adapter));
++
++	wiphy = rtw_wiphy_alloc(adapter, dev);
++	if (wiphy == NULL)
++		goto exit;
++
++	adapter->wiphy = wiphy;
++#endif
++
++	if (rtw_wdev_alloc(adapter, adapter_to_wiphy(adapter)) == 0)
++		ret = _SUCCESS;
++
++#if !defined(RTW_SINGLE_WIPHY)
++	if (ret != _SUCCESS) {
++		rtw_wiphy_free(wiphy);
++		adapter->wiphy = NULL;
++	}
++#endif
++
++exit:
++	return ret;
++}
++
++void rtw_cfg80211_ndev_res_free(_adapter *adapter)
++{
++	rtw_wdev_free(adapter->rtw_wdev);
++#if !defined(RTW_SINGLE_WIPHY)
++	rtw_wiphy_free(adapter_to_wiphy(adapter));
++	adapter->wiphy = NULL;
++#endif
++}
++
++int rtw_cfg80211_ndev_res_register(_adapter *adapter)
++{
++	int ret = _FAIL;
++
++#if !defined(RTW_SINGLE_WIPHY)
++	if (rtw_wiphy_register(adapter_to_wiphy(adapter)) < 0) {
++		RTW_INFO("%s rtw_wiphy_register fail for if%d\n", __func__, (adapter->iface_id + 1));
++		goto exit;
++	}
++#endif
++
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++void rtw_cfg80211_ndev_res_unregister(_adapter *adapter)
++{
++	rtw_wdev_unregister(adapter->rtw_wdev);
++}
++
++int rtw_cfg80211_dev_res_alloc(struct dvobj_priv *dvobj)
++{
++	int ret = _FAIL;
++
++#if defined(RTW_SINGLE_WIPHY)
++	struct wiphy *wiphy;
++	struct device *dev = dvobj_to_dev(dvobj);
++
++	wiphy = rtw_wiphy_alloc(dvobj->padapters[IFACE_ID0], dev);
++	if (wiphy == NULL)
++		goto exit;
++
++	dvobj->wiphy = wiphy;
++#endif
++
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++void rtw_cfg80211_dev_res_free(struct dvobj_priv *dvobj)
++{
++#if defined(RTW_SINGLE_WIPHY)
++	rtw_wiphy_free(dvobj_to_wiphy(dvobj));
++	dvobj->wiphy = NULL;
++#endif
++}
++
++int rtw_cfg80211_dev_res_register(struct dvobj_priv *dvobj)
++{
++	int ret = _FAIL;
++
++#if defined(RTW_SINGLE_WIPHY)
++	if (rtw_wiphy_register(dvobj_to_wiphy(dvobj)) != 0)
++		goto exit;
++#endif
++
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++void rtw_cfg80211_dev_res_unregister(struct dvobj_priv *dvobj)
++{
++#if defined(RTW_SINGLE_WIPHY)
++	rtw_wiphy_unregister(dvobj_to_wiphy(dvobj));
++#endif
++}
++
++#endif /* CONFIG_IOCTL_CFG80211 */
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_cfg80211.h b/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_cfg80211.h
+new file mode 100644
+index 0000000..e810904
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_cfg80211.h
+@@ -0,0 +1,219 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __IOCTL_CFG80211_H__
++#define __IOCTL_CFG80211_H__
++
++
++#if defined(RTW_USE_CFG80211_STA_EVENT)
++	#undef CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER
++#endif
++
++struct rtw_wdev_invit_info {
++	u8 state; /* 0: req, 1:rep */
++	u8 peer_mac[ETH_ALEN];
++	u8 active;
++	u8 token;
++	u8 flags;
++	u8 status;
++	u8 req_op_ch;
++	u8 rsp_op_ch;
++};
++
++#define rtw_wdev_invit_info_init(invit_info) \
++	do { \
++		(invit_info)->state = 0xff; \
++		_rtw_memset((invit_info)->peer_mac, 0, ETH_ALEN); \
++		(invit_info)->active = 0xff; \
++		(invit_info)->token = 0; \
++		(invit_info)->flags = 0x00; \
++		(invit_info)->status = 0xff; \
++		(invit_info)->req_op_ch = 0; \
++		(invit_info)->rsp_op_ch = 0; \
++	} while (0)
++
++struct rtw_wdev_nego_info {
++	u8 state; /* 0: req, 1:rep, 2:conf */
++	u8 peer_mac[ETH_ALEN];
++	u8 active;
++	u8 token;
++	u8 status;
++	u8 req_intent;
++	u8 req_op_ch;
++	u8 req_listen_ch;
++	u8 rsp_intent;
++	u8 rsp_op_ch;
++	u8 conf_op_ch;
++};
++
++#define rtw_wdev_nego_info_init(nego_info) \
++	do { \
++		(nego_info)->state = 0xff; \
++		_rtw_memset((nego_info)->peer_mac, 0, ETH_ALEN); \
++		(nego_info)->active = 0xff; \
++		(nego_info)->token = 0; \
++		(nego_info)->status = 0xff; \
++		(nego_info)->req_intent = 0xff; \
++		(nego_info)->req_op_ch = 0; \
++		(nego_info)->req_listen_ch = 0; \
++		(nego_info)->rsp_intent = 0xff; \
++		(nego_info)->rsp_op_ch = 0; \
++		(nego_info)->conf_op_ch = 0; \
++	} while (0)
++
++struct rtw_wdev_priv {
++	struct wireless_dev *rtw_wdev;
++
++	_adapter *padapter;
++
++	struct cfg80211_scan_request *scan_request;
++	_lock scan_req_lock;
++
++	struct net_device *pmon_ndev;/* for monitor interface */
++	char ifname_mon[IFNAMSIZ + 1]; /* interface name for monitor interface */
++
++	u8 p2p_enabled;
++
++	u8 provdisc_req_issued;
++
++	struct rtw_wdev_invit_info invit_info;
++	struct rtw_wdev_nego_info nego_info;
++
++	u8 bandroid_scan;
++	bool block;
++	bool block_scan;
++	bool power_mgmt;
++
++	/* report mgmt_frame registered */
++	u16 report_mgmt;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	ATOMIC_T ro_ch_to;
++	ATOMIC_T switch_ch_to;
++#endif
++
++};
++
++#define wiphy_to_adapter(x) (*((_adapter **)wiphy_priv(x)))
++
++#define wdev_to_ndev(w) ((w)->netdev)
++#define wdev_to_wiphy(w) ((w)->wiphy)
++#define ndev_to_wdev(n) ((n)->ieee80211_ptr)
++
++#define WIPHY_FMT "%s"
++#define WIPHY_ARG(wiphy) wiphy_name(wiphy)
++#define FUNC_WIPHY_FMT "%s("WIPHY_FMT")"
++#define FUNC_WIPHY_ARG(wiphy) __func__, WIPHY_ARG(wiphy)
++
++#define SET_CFG80211_REPORT_MGMT(w, t, v) (w->report_mgmt |= (v ? BIT(t >> 4) : 0))
++#define GET_CFG80211_REPORT_MGMT(w, t) ((w->report_mgmt & BIT(t >> 4)) > 0)
++
++struct wiphy *rtw_wiphy_alloc(_adapter *padapter, struct device *dev);
++void rtw_wiphy_free(struct wiphy *wiphy);
++int rtw_wiphy_register(struct wiphy *wiphy);
++void rtw_wiphy_unregister(struct wiphy *wiphy);
++
++int rtw_wdev_alloc(_adapter *padapter, struct wiphy *wiphy);
++void rtw_wdev_free(struct wireless_dev *wdev);
++void rtw_wdev_unregister(struct wireless_dev *wdev);
++
++int rtw_cfg80211_ndev_res_alloc(_adapter *adapter);
++void rtw_cfg80211_ndev_res_free(_adapter *adapter);
++int rtw_cfg80211_ndev_res_register(_adapter *adapter);
++void rtw_cfg80211_ndev_res_unregister(_adapter *adapter);
++
++int rtw_cfg80211_dev_res_alloc(struct dvobj_priv *dvobj);
++void rtw_cfg80211_dev_res_free(struct dvobj_priv *dvobj);
++int rtw_cfg80211_dev_res_register(struct dvobj_priv *dvobj);
++void rtw_cfg80211_dev_res_unregister(struct dvobj_priv *dvobj);
++
++void rtw_cfg80211_init_wdev_data(_adapter *padapter);
++void rtw_cfg80211_init_wiphy(_adapter *padapter);
++
++void rtw_cfg80211_unlink_bss(_adapter *padapter, struct wlan_network *pnetwork);
++void rtw_cfg80211_surveydone_event_callback(_adapter *padapter);
++struct cfg80211_bss *rtw_cfg80211_inform_bss(_adapter *padapter, struct wlan_network *pnetwork);
++int rtw_cfg80211_check_bss(_adapter *padapter);
++void rtw_cfg80211_ibss_indicate_connect(_adapter *padapter);
++void rtw_cfg80211_indicate_connect(_adapter *padapter);
++void rtw_cfg80211_indicate_disconnect(_adapter *padapter, u16 reason, u8 locally_generated);
++void rtw_cfg80211_indicate_scan_done(_adapter *adapter, bool aborted);
++u32 rtw_cfg80211_wait_scan_req_empty(_adapter *adapter, u32 timeout_ms);
++
++#ifdef CONFIG_AP_MODE
++void rtw_cfg80211_indicate_sta_assoc(_adapter *padapter, u8 *pmgmt_frame, uint frame_len);
++void rtw_cfg80211_indicate_sta_disassoc(_adapter *padapter, unsigned char *da, unsigned short reason);
++#endif /* CONFIG_AP_MODE */
++
++void rtw_cfg80211_issue_p2p_provision_request(_adapter *padapter, const u8 *buf, size_t len);
++void rtw_cfg80211_rx_p2p_action_public(_adapter *padapter, u8 *pmgmt_frame, uint frame_len);
++void rtw_cfg80211_rx_action_p2p(_adapter *padapter, u8 *pmgmt_frame, uint frame_len);
++void rtw_cfg80211_rx_action(_adapter *adapter, u8 *frame, uint frame_len, const char *msg);
++void rtw_cfg80211_rx_probe_request(_adapter *padapter, u8 *pmgmt_frame, uint frame_len);
++
++int rtw_cfg80211_set_mgnt_wpsp2pie(struct net_device *net, char *buf, int len, int type);
++
++bool rtw_cfg80211_pwr_mgmt(_adapter *adapter);
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 4, 0))  && !defined(COMPAT_KERNEL_RELEASE)
++#define rtw_cfg80211_rx_mgmt(adapter, freq, sig_dbm, buf, len, gfp) cfg80211_rx_mgmt((adapter)->pnetdev, freq, buf, len, gfp)
++#elif (LINUX_VERSION_CODE < KERNEL_VERSION(3, 6, 0))
++#define rtw_cfg80211_rx_mgmt(adapter, freq, sig_dbm, buf, len, gfp) cfg80211_rx_mgmt((adapter)->pnetdev, freq, sig_dbm, buf, len, gfp)
++#elif (LINUX_VERSION_CODE < KERNEL_VERSION(3, 12, 0))
++#define rtw_cfg80211_rx_mgmt(adapter, freq, sig_dbm, buf, len, gfp) cfg80211_rx_mgmt((adapter)->rtw_wdev, freq, sig_dbm, buf, len, gfp)
++#elif (LINUX_VERSION_CODE < KERNEL_VERSION(3 , 18 , 0))
++#define rtw_cfg80211_rx_mgmt(adapter , freq , sig_dbm , buf , len , gfp) cfg80211_rx_mgmt((adapter)->rtw_wdev , freq , sig_dbm , buf , len , 0 , gfp)
++#else
++#define rtw_cfg80211_rx_mgmt(adapter , freq , sig_dbm , buf , len , gfp) cfg80211_rx_mgmt((adapter)->rtw_wdev , freq , sig_dbm , buf , len , 0)
++#endif
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 4, 0))  && !defined(COMPAT_KERNEL_RELEASE)
++#define rtw_cfg80211_send_rx_assoc(adapter, bss, buf, len) cfg80211_send_rx_assoc((adapter)->pnetdev, buf, len)
++#else
++#define rtw_cfg80211_send_rx_assoc(adapter, bss, buf, len) cfg80211_send_rx_assoc((adapter)->pnetdev, bss, buf, len)
++#endif
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 6, 0))
++#define rtw_cfg80211_mgmt_tx_status(adapter, cookie, buf, len, ack, gfp) cfg80211_mgmt_tx_status((adapter)->pnetdev, cookie, buf, len, ack, gfp)
++#else
++#define rtw_cfg80211_mgmt_tx_status(adapter, cookie, buf, len, ack, gfp) cfg80211_mgmt_tx_status((adapter)->rtw_wdev, cookie, buf, len, ack, gfp)
++#endif
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 6, 0))
++#define rtw_cfg80211_ready_on_channel(adapter, cookie, chan, channel_type, duration, gfp)  cfg80211_ready_on_channel((adapter)->pnetdev, cookie, chan, channel_type, duration, gfp)
++#define rtw_cfg80211_remain_on_channel_expired(adapter, cookie, chan, chan_type, gfp) cfg80211_remain_on_channel_expired((adapter)->pnetdev, cookie, chan, chan_type, gfp)
++#elif (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++#define rtw_cfg80211_ready_on_channel(adapter, cookie, chan, channel_type, duration, gfp)  cfg80211_ready_on_channel((adapter)->rtw_wdev, cookie, chan, channel_type, duration, gfp)
++#define rtw_cfg80211_remain_on_channel_expired(adapter, cookie, chan, chan_type, gfp) cfg80211_remain_on_channel_expired((adapter)->rtw_wdev, cookie, chan, chan_type, gfp)
++#else
++#define rtw_cfg80211_ready_on_channel(adapter, cookie, chan, channel_type, duration, gfp)  cfg80211_ready_on_channel((adapter)->rtw_wdev, cookie, chan, duration, gfp)
++#define rtw_cfg80211_remain_on_channel_expired(adapter, cookie, chan, chan_type, gfp) cfg80211_remain_on_channel_expired((adapter)->rtw_wdev, cookie, chan, gfp)
++#endif
++
++#ifdef CONFIG_RTW_80211R
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 10, 0))
++#define rtw_cfg80211_ft_event(adapter, parm)  cfg80211_ft_event((adapter)->pnetdev, parm)
++#else
++	#error "Cannot support FT for KERNEL_VERSION < 3.10\n"
++#endif
++#endif
++
++#include "rtw_cfgvendor.h"
++
++#endif /* __IOCTL_CFG80211_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_linux.c b/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_linux.c
+new file mode 100644
+index 0000000..0e50145
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_linux.c
+@@ -0,0 +1,13143 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _IOCTL_LINUX_C_
++
++#include <drv_types.h>
++#include <rtw_mp.h>
++#include <rtw_mp_ioctl.h>
++#include "../../hal/phydm/phydm_precomp.h"
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 27))
++#define  iwe_stream_add_event(a, b, c, d, e)  iwe_stream_add_event(b, c, d, e)
++#define  iwe_stream_add_point(a, b, c, d, e)  iwe_stream_add_point(b, c, d, e)
++#endif
++
++#ifdef CONFIG_80211N_HT
++extern int rtw_ht_enable;
++#endif
++
++
++#define RTL_IOCTL_WPA_SUPPLICANT	(SIOCIWFIRSTPRIV+30)
++
++#define SCAN_ITEM_SIZE 768
++#define MAX_CUSTOM_LEN 64
++#define RATE_COUNT 4
++
++#ifdef CONFIG_GLOBAL_UI_PID
++extern int ui_pid[3];
++#endif
++
++/* combo scan */
++#define WEXT_CSCAN_AMOUNT 9
++#define WEXT_CSCAN_BUF_LEN		360
++#define WEXT_CSCAN_HEADER		"CSCAN S\x01\x00\x00S\x00"
++#define WEXT_CSCAN_HEADER_SIZE		12
++#define WEXT_CSCAN_SSID_SECTION		'S'
++#define WEXT_CSCAN_CHANNEL_SECTION	'C'
++#define WEXT_CSCAN_NPROBE_SECTION	'N'
++#define WEXT_CSCAN_ACTV_DWELL_SECTION	'A'
++#define WEXT_CSCAN_PASV_DWELL_SECTION	'P'
++#define WEXT_CSCAN_HOME_DWELL_SECTION	'H'
++#define WEXT_CSCAN_TYPE_SECTION		'T'
++
++
++extern u8 key_2char2num(u8 hch, u8 lch);
++extern u8 str_2char2num(u8 hch, u8 lch);
++extern void macstr2num(u8 *dst, u8 *src);
++extern u8 convert_ip_addr(u8 hch, u8 mch, u8 lch);
++
++u32 rtw_rates[] = {1000000, 2000000, 5500000, 11000000,
++	6000000, 9000000, 12000000, 18000000, 24000000, 36000000, 48000000, 54000000};
++
++static const char *const iw_operation_mode[] = {
++	"Auto", "Ad-Hoc", "Managed",  "Master", "Repeater", "Secondary", "Monitor"
++};
++
++static int hex2num_i(char c)
++{
++	if (c >= '0' && c <= '9')
++		return c - '0';
++	if (c >= 'a' && c <= 'f')
++		return c - 'a' + 10;
++	if (c >= 'A' && c <= 'F')
++		return c - 'A' + 10;
++	return -1;
++}
++
++static int hex2byte_i(const char *hex)
++{
++	int a, b;
++	a = hex2num_i(*hex++);
++	if (a < 0)
++		return -1;
++	b = hex2num_i(*hex++);
++	if (b < 0)
++		return -1;
++	return (a << 4) | b;
++}
++
++/**
++ * hwaddr_aton - Convert ASCII string to MAC address
++ * @txt: MAC address as a string (e.g., "00:11:22:33:44:55")
++ * @addr: Buffer for the MAC address (ETH_ALEN = 6 bytes)
++ * Returns: 0 on success, -1 on failure (e.g., string not a MAC address)
++ */
++static int hwaddr_aton_i(const char *txt, u8 *addr)
++{
++	int i;
++
++	for (i = 0; i < 6; i++) {
++		int a, b;
++
++		a = hex2num_i(*txt++);
++		if (a < 0)
++			return -1;
++		b = hex2num_i(*txt++);
++		if (b < 0)
++			return -1;
++		*addr++ = (a << 4) | b;
++		if (i < 5 && *txt++ != ':')
++			return -1;
++	}
++
++	return 0;
++}
++
++static void indicate_wx_custom_event(_adapter *padapter, char *msg)
++{
++	u8 *buff, *p;
++	union iwreq_data wrqu;
++
++	if (strlen(msg) > IW_CUSTOM_MAX) {
++		RTW_INFO("%s strlen(msg):%zu > IW_CUSTOM_MAX:%u\n", __FUNCTION__ , strlen(msg), IW_CUSTOM_MAX);
++		return;
++	}
++
++	buff = rtw_zmalloc(IW_CUSTOM_MAX + 1);
++	if (!buff)
++		return;
++
++	_rtw_memcpy(buff, msg, strlen(msg));
++
++	_rtw_memset(&wrqu, 0, sizeof(wrqu));
++	wrqu.data.length = strlen(msg);
++
++	RTW_INFO("%s %s\n", __FUNCTION__, buff);
++#ifndef CONFIG_IOCTL_CFG80211
++	wireless_send_event(padapter->pnetdev, IWEVCUSTOM, &wrqu, buff);
++#endif
++
++	rtw_mfree(buff, IW_CUSTOM_MAX + 1);
++
++}
++
++
++static void request_wps_pbc_event(_adapter *padapter)
++{
++	u8 *buff, *p;
++	union iwreq_data wrqu;
++
++
++	buff = rtw_malloc(IW_CUSTOM_MAX);
++	if (!buff)
++		return;
++
++	_rtw_memset(buff, 0, IW_CUSTOM_MAX);
++
++	p = buff;
++
++	p += sprintf(p, "WPS_PBC_START.request=TRUE");
++
++	_rtw_memset(&wrqu, 0, sizeof(wrqu));
++
++	wrqu.data.length = p - buff;
++
++	wrqu.data.length = (wrqu.data.length < IW_CUSTOM_MAX) ? wrqu.data.length : IW_CUSTOM_MAX;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++#ifndef CONFIG_IOCTL_CFG80211
++	wireless_send_event(padapter->pnetdev, IWEVCUSTOM, &wrqu, buff);
++#endif
++
++	if (buff)
++		rtw_mfree(buff, IW_CUSTOM_MAX);
++
++}
++
++#ifdef CONFIG_SUPPORT_HW_WPS_PBC
++void rtw_request_wps_pbc_event(_adapter *padapter)
++{
++#ifdef RTK_DMP_PLATFORM
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 12))
++	kobject_uevent(&padapter->pnetdev->dev.kobj, KOBJ_NET_PBC);
++#else
++	kobject_hotplug(&padapter->pnetdev->class_dev.kobj, KOBJ_NET_PBC);
++#endif
++#else
++
++	if (padapter->pid[0] == 0) {
++		/*	0 is the default value and it means the application monitors the HW PBC doesn't privde its pid to driver. */
++		return;
++	}
++
++	rtw_signal_process(padapter->pid[0], SIGUSR1);
++
++#endif
++
++	rtw_led_control(padapter, LED_CTL_START_WPS_BOTTON);
++}
++#endif/* #ifdef CONFIG_SUPPORT_HW_WPS_PBC */
++
++void indicate_wx_scan_complete_event(_adapter *padapter)
++{
++	union iwreq_data wrqu;
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	_rtw_memset(&wrqu, 0, sizeof(union iwreq_data));
++
++	/* RTW_INFO("+rtw_indicate_wx_scan_complete_event\n"); */
++#ifndef CONFIG_IOCTL_CFG80211
++	wireless_send_event(padapter->pnetdev, SIOCGIWSCAN, &wrqu, NULL);
++#endif
++}
++
++
++void rtw_indicate_wx_assoc_event(_adapter *padapter)
++{
++	union iwreq_data wrqu;
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++
++	_rtw_memset(&wrqu, 0, sizeof(union iwreq_data));
++
++	wrqu.ap_addr.sa_family = ARPHRD_ETHER;
++
++	if (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE)
++		_rtw_memcpy(wrqu.ap_addr.sa_data, pnetwork->MacAddress, ETH_ALEN);
++	else
++		_rtw_memcpy(wrqu.ap_addr.sa_data, pmlmepriv->cur_network.network.MacAddress, ETH_ALEN);
++
++	RTW_PRINT("assoc success\n");
++#ifndef CONFIG_IOCTL_CFG80211
++	wireless_send_event(padapter->pnetdev, SIOCGIWAP, &wrqu, NULL);
++#endif
++}
++
++void rtw_indicate_wx_disassoc_event(_adapter *padapter)
++{
++	union iwreq_data wrqu;
++
++	_rtw_memset(&wrqu, 0, sizeof(union iwreq_data));
++
++	wrqu.ap_addr.sa_family = ARPHRD_ETHER;
++	_rtw_memset(wrqu.ap_addr.sa_data, 0, ETH_ALEN);
++
++#ifndef CONFIG_IOCTL_CFG80211
++	RTW_PRINT("indicate disassoc\n");
++	wireless_send_event(padapter->pnetdev, SIOCGIWAP, &wrqu, NULL);
++#endif
++}
++
++/*
++uint	rtw_is_cckrates_included(u8 *rate)
++{
++		u32	i = 0;
++
++		while(rate[i]!=0)
++		{
++			if  (  (((rate[i]) & 0x7f) == 2)	|| (((rate[i]) & 0x7f) == 4) ||
++			(((rate[i]) & 0x7f) == 11)  || (((rate[i]) & 0x7f) == 22) )
++			return _TRUE;
++			i++;
++		}
++
++		return _FALSE;
++}
++
++uint	rtw_is_cckratesonly_included(u8 *rate)
++{
++	u32 i = 0;
++
++	while(rate[i]!=0)
++	{
++			if  (  (((rate[i]) & 0x7f) != 2) && (((rate[i]) & 0x7f) != 4) &&
++				(((rate[i]) & 0x7f) != 11)  && (((rate[i]) & 0x7f) != 22) )
++			return _FALSE;
++			i++;
++	}
++
++	return _TRUE;
++}
++*/
++
++static int search_p2p_wfd_ie(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop)
++{
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &padapter->wdinfo;
++#ifdef CONFIG_WFD
++	if (SCAN_RESULT_ALL == pwdinfo->wfd_info->scan_result_type) {
++
++	} else if ((SCAN_RESULT_P2P_ONLY == pwdinfo->wfd_info->scan_result_type) ||
++		(SCAN_RESULT_WFD_TYPE == pwdinfo->wfd_info->scan_result_type))
++#endif /* CONFIG_WFD */
++	{
++		if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++			u32	blnGotP2PIE = _FALSE;
++
++			/*	User is doing the P2P device discovery */
++			/*	The prefix of SSID should be "DIRECT-" and the IE should contains the P2P IE. */
++			/*	If not, the driver should ignore this AP and go to the next AP. */
++
++			/*	Verifying the SSID */
++			if (_rtw_memcmp(pnetwork->network.Ssid.Ssid, pwdinfo->p2p_wildcard_ssid, P2P_WILDCARD_SSID_LEN)) {
++				u32	p2pielen = 0;
++
++				/*	Verifying the P2P IE */
++				if (rtw_bss_ex_get_p2p_ie(&pnetwork->network, NULL, &p2pielen))
++					blnGotP2PIE = _TRUE;
++			}
++
++			if (blnGotP2PIE == _FALSE)
++				return _FALSE;
++
++		}
++	}
++
++#ifdef CONFIG_WFD
++	if (SCAN_RESULT_WFD_TYPE == pwdinfo->wfd_info->scan_result_type) {
++		u32	blnGotWFD = _FALSE;
++		u8 *wfd_ie;
++		uint wfd_ielen = 0;
++
++		wfd_ie = rtw_bss_ex_get_wfd_ie(&pnetwork->network, NULL, &wfd_ielen);
++		if (wfd_ie) {
++			u8 *wfd_devinfo;
++			uint wfd_devlen;
++
++			wfd_devinfo = rtw_get_wfd_attr_content(wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, NULL, &wfd_devlen);
++			if (wfd_devinfo) {
++				if (pwdinfo->wfd_info->wfd_device_type == WFD_DEVINFO_PSINK) {
++					/*	the first two bits will indicate the WFD device type */
++					if ((wfd_devinfo[1] & 0x03) == WFD_DEVINFO_SOURCE) {
++						/*	If this device is Miracast PSink device, the scan reuslt should just provide the Miracast source. */
++						blnGotWFD = _TRUE;
++					}
++				} else if (pwdinfo->wfd_info->wfd_device_type == WFD_DEVINFO_SOURCE) {
++					/*	the first two bits will indicate the WFD device type */
++					if ((wfd_devinfo[1] & 0x03) == WFD_DEVINFO_PSINK) {
++						/*	If this device is Miracast source device, the scan reuslt should just provide the Miracast PSink. */
++						/*	Todo: How about the SSink?! */
++						blnGotWFD = _TRUE;
++					}
++				}
++			}
++		}
++
++		if (blnGotWFD == _FALSE)
++			return _FALSE;
++	}
++#endif /* CONFIG_WFD */
++
++#endif /* CONFIG_P2P */
++	return _TRUE;
++}
++static inline char *iwe_stream_mac_addr_proess(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++	/*  AP MAC address */
++	iwe->cmd = SIOCGIWAP;
++	iwe->u.ap_addr.sa_family = ARPHRD_ETHER;
++
++	_rtw_memcpy(iwe->u.ap_addr.sa_data, pnetwork->network.MacAddress, ETH_ALEN);
++	start = iwe_stream_add_event(info, start, stop, iwe, IW_EV_ADDR_LEN);
++	return start;
++}
++static inline char *iwe_stream_essid_proess(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++
++	/* Add the ESSID */
++	iwe->cmd = SIOCGIWESSID;
++	iwe->u.data.flags = 1;
++	iwe->u.data.length = min((u16)pnetwork->network.Ssid.SsidLength, (u16)32);
++	start = iwe_stream_add_point(info, start, stop, iwe, pnetwork->network.Ssid.Ssid);
++	return start;
++}
++
++static inline char *iwe_stream_chan_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++	if (pnetwork->network.Configuration.DSConfig < 1 /*|| pnetwork->network.Configuration.DSConfig>14*/)
++		pnetwork->network.Configuration.DSConfig = 1;
++
++	/* Add frequency/channel */
++	iwe->cmd = SIOCGIWFREQ;
++	iwe->u.freq.m = rtw_ch2freq(pnetwork->network.Configuration.DSConfig) * 100000;
++	iwe->u.freq.e = 1;
++	iwe->u.freq.i = pnetwork->network.Configuration.DSConfig;
++	start = iwe_stream_add_event(info, start, stop, iwe, IW_EV_FREQ_LEN);
++	return start;
++}
++static inline char *iwe_stream_mode_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe, u16 cap)
++{
++	/* Add mode */
++	if (cap & (WLAN_CAPABILITY_IBSS | WLAN_CAPABILITY_BSS)) {
++		iwe->cmd = SIOCGIWMODE;
++		if (cap & WLAN_CAPABILITY_BSS)
++			iwe->u.mode = IW_MODE_MASTER;
++		else
++			iwe->u.mode = IW_MODE_ADHOC;
++
++		start = iwe_stream_add_event(info, start, stop, iwe, IW_EV_UINT_LEN);
++	}
++	return start;
++}
++static inline char *iwe_stream_encryption_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe, u16 cap)
++{
++
++	/* Add encryption capability */
++	iwe->cmd = SIOCGIWENCODE;
++	if (cap & WLAN_CAPABILITY_PRIVACY)
++		iwe->u.data.flags = IW_ENCODE_ENABLED | IW_ENCODE_NOKEY;
++	else
++		iwe->u.data.flags = IW_ENCODE_DISABLED;
++	iwe->u.data.length = 0;
++	start = iwe_stream_add_point(info, start, stop, iwe, pnetwork->network.Ssid.Ssid);
++	return start;
++
++}
++
++static inline char *iwe_stream_protocol_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++	u16 ht_cap = _FALSE, vht_cap = _FALSE;
++	u32 ht_ielen = 0, vht_ielen = 0;
++	char *p;
++	u8 ie_offset = (pnetwork->network.Reserved[0] == 2 ? 0 : 12); /* Probe Request	 */
++
++	/* parsing HT_CAP_IE	 */
++	p = rtw_get_ie(&pnetwork->network.IEs[ie_offset], _HT_CAPABILITY_IE_, &ht_ielen, pnetwork->network.IELength - ie_offset);
++	if (p && ht_ielen > 0)
++		ht_cap = _TRUE;
++
++#ifdef CONFIG_80211AC_VHT
++	/* parsing VHT_CAP_IE */
++	p = rtw_get_ie(&pnetwork->network.IEs[ie_offset], EID_VHTCapability, &vht_ielen, pnetwork->network.IELength - ie_offset);
++	if (p && vht_ielen > 0)
++		vht_cap = _TRUE;
++#endif
++	/* Add the protocol name */
++	iwe->cmd = SIOCGIWNAME;
++	if ((rtw_is_cckratesonly_included((u8 *)&pnetwork->network.SupportedRates)) == _TRUE) {
++		if (ht_cap == _TRUE)
++			snprintf(iwe->u.name, IFNAMSIZ, "IEEE 802.11bn");
++		else
++			snprintf(iwe->u.name, IFNAMSIZ, "IEEE 802.11b");
++	} else if ((rtw_is_cckrates_included((u8 *)&pnetwork->network.SupportedRates)) == _TRUE) {
++		if (ht_cap == _TRUE)
++			snprintf(iwe->u.name, IFNAMSIZ, "IEEE 802.11bgn");
++		else
++			snprintf(iwe->u.name, IFNAMSIZ, "IEEE 802.11bg");
++	} else {
++		if (pnetwork->network.Configuration.DSConfig > 14) {
++			#ifdef CONFIG_80211AC_VHT
++			if (vht_cap == _TRUE)
++				snprintf(iwe->u.name, IFNAMSIZ, "IEEE 802.11AC");
++			else
++			#endif
++			{
++				if (ht_cap == _TRUE)
++					snprintf(iwe->u.name, IFNAMSIZ, "IEEE 802.11an");
++				else
++					snprintf(iwe->u.name, IFNAMSIZ, "IEEE 802.11a");
++			}
++		} else {
++			if (ht_cap == _TRUE)
++				snprintf(iwe->u.name, IFNAMSIZ, "IEEE 802.11gn");
++			else
++				snprintf(iwe->u.name, IFNAMSIZ, "IEEE 802.11g");
++		}
++	}
++	start = iwe_stream_add_event(info, start, stop, iwe, IW_EV_CHAR_LEN);
++	return start;
++}
++
++static inline char *iwe_stream_rate_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++	u32 ht_ielen = 0, vht_ielen = 0;
++	char *p;
++	u16 max_rate = 0, rate, ht_cap = _FALSE, vht_cap = _FALSE;
++	u32 i = 0;
++	u8 bw_40MHz = 0, short_GI = 0, bw_160MHz = 0, vht_highest_rate = 0;
++	u16 mcs_rate = 0, vht_data_rate = 0;
++	char custom[MAX_CUSTOM_LEN] = {0};
++	u8 ie_offset = (pnetwork->network.Reserved[0] == 2 ? 0 : 12); /* Probe Request	 */
++
++	/* parsing HT_CAP_IE	 */
++	p = rtw_get_ie(&pnetwork->network.IEs[ie_offset], _HT_CAPABILITY_IE_, &ht_ielen, pnetwork->network.IELength - ie_offset);
++	if (p && ht_ielen > 0) {
++		struct rtw_ieee80211_ht_cap *pht_capie;
++		ht_cap = _TRUE;
++		pht_capie = (struct rtw_ieee80211_ht_cap *)(p + 2);
++		_rtw_memcpy(&mcs_rate , pht_capie->supp_mcs_set, 2);
++		bw_40MHz = (pht_capie->cap_info & IEEE80211_HT_CAP_SUP_WIDTH) ? 1 : 0;
++		short_GI = (pht_capie->cap_info & (IEEE80211_HT_CAP_SGI_20 | IEEE80211_HT_CAP_SGI_40)) ? 1 : 0;
++	}
++
++#ifdef CONFIG_80211AC_VHT
++	/* parsing VHT_CAP_IE */
++	p = rtw_get_ie(&pnetwork->network.IEs[ie_offset], EID_VHTCapability, &vht_ielen, pnetwork->network.IELength - ie_offset);
++	if (p && vht_ielen > 0) {
++		u8	mcs_map[2];
++
++		vht_cap = _TRUE;
++		bw_160MHz = GET_VHT_CAPABILITY_ELE_CHL_WIDTH(p + 2);
++		if (bw_160MHz)
++			short_GI = GET_VHT_CAPABILITY_ELE_SHORT_GI160M(p + 2);
++		else
++			short_GI = GET_VHT_CAPABILITY_ELE_SHORT_GI80M(p + 2);
++
++		_rtw_memcpy(mcs_map, GET_VHT_CAPABILITY_ELE_TX_MCS(p + 2), 2);
++
++		vht_highest_rate = rtw_get_vht_highest_rate(mcs_map);
++		vht_data_rate = rtw_vht_mcs_to_data_rate(CHANNEL_WIDTH_80, short_GI, vht_highest_rate);
++	}
++#endif
++
++	/*Add basic and extended rates */
++	p = custom;
++	p += snprintf(p, MAX_CUSTOM_LEN - (p - custom), " Rates (Mb/s): ");
++	while (pnetwork->network.SupportedRates[i] != 0) {
++		rate = pnetwork->network.SupportedRates[i] & 0x7F;
++		if (rate > max_rate)
++			max_rate = rate;
++		p += snprintf(p, MAX_CUSTOM_LEN - (p - custom),
++			      "%d%s ", rate >> 1, (rate & 1) ? ".5" : "");
++		i++;
++	}
++#ifdef CONFIG_80211AC_VHT
++	if (vht_cap == _TRUE)
++		max_rate = vht_data_rate;
++	else
++#endif
++		if (ht_cap == _TRUE) {
++			if (mcs_rate & 0x8000) /* MCS15 */
++				max_rate = (bw_40MHz) ? ((short_GI) ? 300 : 270) : ((short_GI) ? 144 : 130);
++
++			else if (mcs_rate & 0x0080) /* MCS7 */
++				max_rate = (bw_40MHz) ? ((short_GI) ? 150 : 135) : ((short_GI) ? 72 : 65);
++			else { /* default MCS7 */
++				/* RTW_INFO("wx_get_scan, mcs_rate_bitmap=0x%x\n", mcs_rate); */
++				max_rate = (bw_40MHz) ? ((short_GI) ? 150 : 135) : ((short_GI) ? 72 : 65);
++			}
++
++			max_rate = max_rate * 2; /* Mbps/2;		 */
++		}
++
++	iwe->cmd = SIOCGIWRATE;
++	iwe->u.bitrate.fixed = iwe->u.bitrate.disabled = 0;
++	iwe->u.bitrate.value = max_rate * 500000;
++	start = iwe_stream_add_event(info, start, stop, iwe, IW_EV_PARAM_LEN);
++	return start ;
++}
++
++static inline char *iwe_stream_wpa_wpa2_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++	int buf_size = MAX_WPA_IE_LEN * 2;
++	/* u8 pbuf[buf_size]={0};	 */
++	u8 *pbuf = rtw_zmalloc(buf_size);
++
++	u8 wpa_ie[255] = {0}, rsn_ie[255] = {0};
++	u16 i, wpa_len = 0, rsn_len = 0;
++	u8 *p;
++	sint out_len = 0;
++
++
++	if (pbuf) {
++		p = pbuf;
++
++		/* parsing WPA/WPA2 IE */
++		if (pnetwork->network.Reserved[0] != 2) { /* Probe Request */
++			out_len = rtw_get_sec_ie(pnetwork->network.IEs , pnetwork->network.IELength, rsn_ie, &rsn_len, wpa_ie, &wpa_len);
++
++			if (wpa_len > 0) {
++
++				_rtw_memset(pbuf, 0, buf_size);
++				p += sprintf(p, "wpa_ie=");
++				for (i = 0; i < wpa_len; i++)
++					p += sprintf(p, "%02x", wpa_ie[i]);
++
++				if (wpa_len > 100) {
++					printk("-----------------Len %d----------------\n", wpa_len);
++					for (i = 0; i < wpa_len; i++)
++						printk("%02x ", wpa_ie[i]);
++					printk("\n");
++					printk("-----------------Len %d----------------\n", wpa_len);
++				}
++
++				_rtw_memset(iwe, 0, sizeof(*iwe));
++				iwe->cmd = IWEVCUSTOM;
++				iwe->u.data.length = strlen(pbuf);
++				start = iwe_stream_add_point(info, start, stop, iwe, pbuf);
++
++				_rtw_memset(iwe, 0, sizeof(*iwe));
++				iwe->cmd = IWEVGENIE;
++				iwe->u.data.length = wpa_len;
++				start = iwe_stream_add_point(info, start, stop, iwe, wpa_ie);
++			}
++			if (rsn_len > 0) {
++
++				_rtw_memset(pbuf, 0, buf_size);
++				p += sprintf(p, "rsn_ie=");
++				for (i = 0; i < rsn_len; i++)
++					p += sprintf(p, "%02x", rsn_ie[i]);
++				_rtw_memset(iwe, 0, sizeof(*iwe));
++				iwe->cmd = IWEVCUSTOM;
++				iwe->u.data.length = strlen(pbuf);
++				start = iwe_stream_add_point(info, start, stop, iwe, pbuf);
++
++				_rtw_memset(iwe, 0, sizeof(*iwe));
++				iwe->cmd = IWEVGENIE;
++				iwe->u.data.length = rsn_len;
++				start = iwe_stream_add_point(info, start, stop, iwe, rsn_ie);
++			}
++		}
++
++		rtw_mfree(pbuf, buf_size);
++	}
++	return start;
++}
++
++static inline char *iwe_stream_wps_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++	/* parsing WPS IE */
++	uint cnt = 0, total_ielen;
++	u8 *wpsie_ptr = NULL;
++	uint wps_ielen = 0;
++	u8 ie_offset = (pnetwork->network.Reserved[0] == 2 ? 0 : 12);
++
++	u8 *ie_ptr = pnetwork->network.IEs + ie_offset;
++	total_ielen = pnetwork->network.IELength - ie_offset;
++
++	if (pnetwork->network.Reserved[0] == 2) { /* Probe Request */
++		ie_ptr = pnetwork->network.IEs;
++		total_ielen = pnetwork->network.IELength;
++	} else { /* Beacon or Probe Respones */
++		ie_ptr = pnetwork->network.IEs + _FIXED_IE_LENGTH_;
++		total_ielen = pnetwork->network.IELength - _FIXED_IE_LENGTH_;
++	}
++	while (cnt < total_ielen) {
++		if (rtw_is_wps_ie(&ie_ptr[cnt], &wps_ielen) && (wps_ielen > 2)) {
++			wpsie_ptr = &ie_ptr[cnt];
++			iwe->cmd = IWEVGENIE;
++			iwe->u.data.length = (u16)wps_ielen;
++			start = iwe_stream_add_point(info, start, stop, iwe, wpsie_ptr);
++		}
++		cnt += ie_ptr[cnt + 1] + 2; /* goto next */
++	}
++	return start;
++}
++
++static inline char *iwe_stream_wapi_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++#ifdef CONFIG_WAPI_SUPPORT
++	char *p;
++
++	if (pnetwork->network.Reserved[0] != 2) { /* Probe Request */
++		sint out_len_wapi = 0;
++		/* here use static for stack size */
++		static u8 buf_wapi[MAX_WAPI_IE_LEN * 2] = {0};
++		static u8 wapi_ie[MAX_WAPI_IE_LEN] = {0};
++		u16 wapi_len = 0;
++		u16  i;
++
++		out_len_wapi = rtw_get_wapi_ie(pnetwork->network.IEs , pnetwork->network.IELength, wapi_ie, &wapi_len);
++
++		RTW_INFO("rtw_wx_get_scan: %s ", pnetwork->network.Ssid.Ssid);
++		RTW_INFO("rtw_wx_get_scan: ssid = %d ", wapi_len);
++
++
++		if (wapi_len > 0) {
++			p = buf_wapi;
++			/* _rtw_memset(buf_wapi, 0, MAX_WAPI_IE_LEN*2); */
++			p += sprintf(p, "wapi_ie=");
++			for (i = 0; i < wapi_len; i++)
++				p += sprintf(p, "%02x", wapi_ie[i]);
++
++			_rtw_memset(iwe, 0, sizeof(*iwe));
++			iwe->cmd = IWEVCUSTOM;
++			iwe->u.data.length = strlen(buf_wapi);
++			start = iwe_stream_add_point(info, start, stop, iwe, buf_wapi);
++
++			_rtw_memset(iwe, 0, sizeof(*iwe));
++			iwe->cmd = IWEVGENIE;
++			iwe->u.data.length = wapi_len;
++			start = iwe_stream_add_point(info, start, stop, iwe, wapi_ie);
++		}
++	}
++#endif/* #ifdef CONFIG_WAPI_SUPPORT */
++	return start;
++}
++
++static inline char   *iwe_stream_rssi_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++	u8 ss, sq;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	/* Add quality statistics */
++	iwe->cmd = IWEVQUAL;
++	iwe->u.qual.updated = IW_QUAL_QUAL_UPDATED | IW_QUAL_LEVEL_UPDATED
++#if defined(CONFIG_SIGNAL_DISPLAY_DBM) && defined(CONFIG_BACKGROUND_NOISE_MONITOR)
++			      | IW_QUAL_NOISE_UPDATED
++#else
++			      | IW_QUAL_NOISE_INVALID
++#endif
++#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++			      | IW_QUAL_DBM
++#endif
++			      ;
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE &&
++	    is_same_network(&pmlmepriv->cur_network.network, &pnetwork->network, 0)) {
++		ss = padapter->recvpriv.signal_strength;
++		sq = padapter->recvpriv.signal_qual;
++	} else {
++		ss = pnetwork->network.PhyInfo.SignalStrength;
++		sq = pnetwork->network.PhyInfo.SignalQuality;
++	}
++
++
++#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++	iwe->u.qual.level = (u8) translate_percentage_to_dbm(ss); /* dbm */
++#else
++#ifdef CONFIG_SIGNAL_SCALE_MAPPING
++	iwe->u.qual.level = (u8)ss; /* % */
++#else
++	{
++		/* Do signal scale mapping when using percentage as the unit of signal strength, since the scale mapping is skipped in odm */
++
++		HAL_DATA_TYPE *pHal = GET_HAL_DATA(padapter);
++
++		iwe->u.qual.level = (u8)odm_SignalScaleMapping(&pHal->odmpriv, ss);
++	}
++#endif
++#endif
++
++	iwe->u.qual.qual = (u8)sq;   /* signal quality */
++
++#ifdef CONFIG_PLATFORM_ROCKCHIPS
++	iwe->u.qual.noise = -100; /* noise level suggest by zhf@rockchips */
++#else
++#if defined(CONFIG_SIGNAL_DISPLAY_DBM) && defined(CONFIG_BACKGROUND_NOISE_MONITOR)
++	{
++		s16 tmp_noise = 0;
++		rtw_hal_get_odm_var(padapter, HAL_ODM_NOISE_MONITOR, &(pnetwork->network.Configuration.DSConfig), &(tmp_noise));
++		iwe->u.qual.noise = tmp_noise ;
++	}
++#else
++	iwe->u.qual.noise = 0; /* noise level */
++#endif
++#endif /* CONFIG_PLATFORM_ROCKCHIPS */
++
++	/* RTW_INFO("iqual=%d, ilevel=%d, inoise=%d, iupdated=%d\n", iwe.u.qual.qual, iwe.u.qual.level , iwe.u.qual.noise, iwe.u.qual.updated); */
++
++	start = iwe_stream_add_event(info, start, stop, iwe, IW_EV_QUAL_LEN);
++	return start;
++}
++
++static inline char   *iwe_stream_net_rsv_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++	u8 buf[32] = {0};
++	u8 *p, *pos;
++	int len;
++	p = buf;
++	pos = pnetwork->network.Reserved;
++
++	p += sprintf(p, "fm=%02X%02X", pos[1], pos[0]);
++	_rtw_memset(iwe, 0, sizeof(*iwe));
++	iwe->cmd = IWEVCUSTOM;
++	iwe->u.data.length = strlen(buf);
++	start = iwe_stream_add_point(info, start, stop, iwe, buf);
++	return start;
++}
++
++#if 1
++static char *translate_scan(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop)
++{
++	struct iw_event iwe;
++	u16 cap = 0;
++	_rtw_memset(&iwe, 0, sizeof(iwe));
++
++	if (_FALSE == search_p2p_wfd_ie(padapter, info, pnetwork, start, stop))
++		return start;
++
++	start = iwe_stream_mac_addr_proess(padapter, info, pnetwork, start, stop, &iwe);
++	start = iwe_stream_essid_proess(padapter, info, pnetwork, start, stop, &iwe);
++	start = iwe_stream_protocol_process(padapter, info, pnetwork, start, stop, &iwe);
++	if (pnetwork->network.Reserved[0] == 2) /* Probe Request */
++		cap = 0;
++	else {
++		_rtw_memcpy((u8 *)&cap, rtw_get_capability_from_ie(pnetwork->network.IEs), 2);
++		cap = le16_to_cpu(cap);
++	}
++
++	start = iwe_stream_mode_process(padapter, info, pnetwork, start, stop, &iwe, cap);
++	start = iwe_stream_chan_process(padapter, info, pnetwork, start, stop, &iwe);
++	start = iwe_stream_encryption_process(padapter, info, pnetwork, start, stop, &iwe, cap);
++	start = iwe_stream_rate_process(padapter, info, pnetwork, start, stop, &iwe);
++	start = iwe_stream_wpa_wpa2_process(padapter, info, pnetwork, start, stop, &iwe);
++	start = iwe_stream_wps_process(padapter, info, pnetwork, start, stop, &iwe);
++	start = iwe_stream_wapi_process(padapter, info, pnetwork, start, stop, &iwe);
++	start = iwe_stream_rssi_process(padapter, info, pnetwork, start, stop, &iwe);
++	start = iwe_stream_net_rsv_process(padapter, info, pnetwork, start, stop, &iwe);
++
++	return start;
++}
++#else
++static char *translate_scan(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop)
++{
++	struct iw_event iwe;
++	u16 cap;
++	u32 ht_ielen = 0, vht_ielen = 0;
++	char custom[MAX_CUSTOM_LEN];
++	char *p;
++	u16 max_rate = 0, rate, ht_cap = _FALSE, vht_cap = _FALSE;
++	u32 i = 0;
++	char	*current_val;
++	long rssi;
++	u8 bw_40MHz = 0, short_GI = 0, bw_160MHz = 0, vht_highest_rate = 0;
++	u16 mcs_rate = 0, vht_data_rate = 0;
++	u8 ie_offset = (pnetwork->network.Reserved[0] == 2 ? 0 : 12);
++	struct registry_priv *pregpriv = &padapter->registrypriv;
++
++	if (_FALSE == search_p2p_wfd_ie(padapter, info, pnetwork, start, stop))
++		return start;
++
++	/*  AP MAC address */
++	iwe.cmd = SIOCGIWAP;
++	iwe.u.ap_addr.sa_family = ARPHRD_ETHER;
++
++	_rtw_memcpy(iwe.u.ap_addr.sa_data, pnetwork->network.MacAddress, ETH_ALEN);
++	start = iwe_stream_add_event(info, start, stop, &iwe, IW_EV_ADDR_LEN);
++
++	/* Add the ESSID */
++	iwe.cmd = SIOCGIWESSID;
++	iwe.u.data.flags = 1;
++	iwe.u.data.length = min((u16)pnetwork->network.Ssid.SsidLength, (u16)32);
++	start = iwe_stream_add_point(info, start, stop, &iwe, pnetwork->network.Ssid.Ssid);
++
++	/* parsing HT_CAP_IE */
++	if (pnetwork->network.Reserved[0] == 2) /* Probe Request */
++		p = rtw_get_ie(&pnetwork->network.IEs[0], _HT_CAPABILITY_IE_, &ht_ielen, pnetwork->network.IELength);
++	else
++		p = rtw_get_ie(&pnetwork->network.IEs[12], _HT_CAPABILITY_IE_, &ht_ielen, pnetwork->network.IELength - 12);
++	if (p && ht_ielen > 0) {
++		struct rtw_ieee80211_ht_cap *pht_capie;
++		ht_cap = _TRUE;
++		pht_capie = (struct rtw_ieee80211_ht_cap *)(p + 2);
++		_rtw_memcpy(&mcs_rate , pht_capie->supp_mcs_set, 2);
++		bw_40MHz = (pht_capie->cap_info & IEEE80211_HT_CAP_SUP_WIDTH) ? 1 : 0;
++		short_GI = (pht_capie->cap_info & (IEEE80211_HT_CAP_SGI_20 | IEEE80211_HT_CAP_SGI_40)) ? 1 : 0;
++	}
++
++#ifdef CONFIG_80211AC_VHT
++	/* parsing VHT_CAP_IE */
++	p = rtw_get_ie(&pnetwork->network.IEs[ie_offset], EID_VHTCapability, &vht_ielen, pnetwork->network.IELength - ie_offset);
++	if (p && vht_ielen > 0) {
++		u8	mcs_map[2];
++
++		vht_cap = _TRUE;
++		bw_160MHz = GET_VHT_CAPABILITY_ELE_CHL_WIDTH(p + 2);
++		if (bw_160MHz)
++			short_GI = GET_VHT_CAPABILITY_ELE_SHORT_GI160M(p + 2);
++		else
++			short_GI = GET_VHT_CAPABILITY_ELE_SHORT_GI80M(p + 2);
++
++		_rtw_memcpy(mcs_map, GET_VHT_CAPABILITY_ELE_TX_MCS(p + 2), 2);
++
++		vht_highest_rate = rtw_get_vht_highest_rate(mcs_map);
++		vht_data_rate = rtw_vht_mcs_to_data_rate(CHANNEL_WIDTH_80, short_GI, vht_highest_rate);
++	}
++#endif
++
++	/* Add the protocol name */
++	iwe.cmd = SIOCGIWNAME;
++	if ((rtw_is_cckratesonly_included((u8 *)&pnetwork->network.SupportedRates)) == _TRUE) {
++		if (ht_cap == _TRUE)
++			snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11bn");
++		else
++			snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11b");
++	} else if ((rtw_is_cckrates_included((u8 *)&pnetwork->network.SupportedRates)) == _TRUE) {
++		if (ht_cap == _TRUE)
++			snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11bgn");
++		else
++			snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11bg");
++	} else {
++		if (pnetwork->network.Configuration.DSConfig > 14) {
++			if (vht_cap == _TRUE)
++				snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11AC");
++			else if (ht_cap == _TRUE)
++				snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11an");
++			else
++				snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11a");
++		} else {
++			if (ht_cap == _TRUE)
++				snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11gn");
++			else
++				snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11g");
++		}
++	}
++
++	start = iwe_stream_add_event(info, start, stop, &iwe, IW_EV_CHAR_LEN);
++
++	/* Add mode */
++	if (pnetwork->network.Reserved[0] == 2) /* Probe Request */
++		cap = 0;
++	else {
++		iwe.cmd = SIOCGIWMODE;
++		_rtw_memcpy((u8 *)&cap, rtw_get_capability_from_ie(pnetwork->network.IEs), 2);
++		cap = le16_to_cpu(cap);
++	}
++
++	if (cap & (WLAN_CAPABILITY_IBSS | WLAN_CAPABILITY_BSS)) {
++		if (cap & WLAN_CAPABILITY_BSS)
++			iwe.u.mode = IW_MODE_MASTER;
++		else
++			iwe.u.mode = IW_MODE_ADHOC;
++
++		start = iwe_stream_add_event(info, start, stop, &iwe, IW_EV_UINT_LEN);
++	}
++
++	if (pnetwork->network.Configuration.DSConfig < 1 /*|| pnetwork->network.Configuration.DSConfig>14*/)
++		pnetwork->network.Configuration.DSConfig = 1;
++
++	/* Add frequency/channel */
++	iwe.cmd = SIOCGIWFREQ;
++	iwe.u.freq.m = rtw_ch2freq(pnetwork->network.Configuration.DSConfig) * 100000;
++	iwe.u.freq.e = 1;
++	iwe.u.freq.i = pnetwork->network.Configuration.DSConfig;
++	start = iwe_stream_add_event(info, start, stop, &iwe, IW_EV_FREQ_LEN);
++
++	/* Add encryption capability */
++	iwe.cmd = SIOCGIWENCODE;
++	if (cap & WLAN_CAPABILITY_PRIVACY)
++		iwe.u.data.flags = IW_ENCODE_ENABLED | IW_ENCODE_NOKEY;
++	else
++		iwe.u.data.flags = IW_ENCODE_DISABLED;
++	iwe.u.data.length = 0;
++	start = iwe_stream_add_point(info, start, stop, &iwe, pnetwork->network.Ssid.Ssid);
++
++	/*Add basic and extended rates */
++	max_rate = 0;
++	p = custom;
++	p += snprintf(p, MAX_CUSTOM_LEN - (p - custom), " Rates (Mb/s): ");
++	while (pnetwork->network.SupportedRates[i] != 0) {
++		rate = pnetwork->network.SupportedRates[i] & 0x7F;
++		if (rate > max_rate)
++			max_rate = rate;
++		p += snprintf(p, MAX_CUSTOM_LEN - (p - custom),
++			      "%d%s ", rate >> 1, (rate & 1) ? ".5" : "");
++		i++;
++	}
++
++	if (vht_cap == _TRUE)
++		max_rate = vht_data_rate;
++	else if (ht_cap == _TRUE) {
++		if (mcs_rate & 0x8000) /* MCS15 */
++			max_rate = (bw_40MHz) ? ((short_GI) ? 300 : 270) : ((short_GI) ? 144 : 130);
++
++		else if (mcs_rate & 0x0080) /* MCS7 */
++			max_rate = (bw_40MHz) ? ((short_GI) ? 150 : 135) : ((short_GI) ? 72 : 65);
++		else { /* default MCS7 */
++			/* RTW_INFO("wx_get_scan, mcs_rate_bitmap=0x%x\n", mcs_rate); */
++			max_rate = (bw_40MHz) ? ((short_GI) ? 150 : 135) : ((short_GI) ? 72 : 65);
++		}
++
++		max_rate = max_rate * 2; /* Mbps/2;		 */
++	}
++
++	iwe.cmd = SIOCGIWRATE;
++	iwe.u.bitrate.fixed = iwe.u.bitrate.disabled = 0;
++	iwe.u.bitrate.value = max_rate * 500000;
++	start = iwe_stream_add_event(info, start, stop, &iwe, IW_EV_PARAM_LEN);
++
++	/* parsing WPA/WPA2 IE */
++	if (pnetwork->network.Reserved[0] != 2) { /* Probe Request */
++		u8 buf[MAX_WPA_IE_LEN * 2];
++		u8 wpa_ie[255], rsn_ie[255];
++		u16 wpa_len = 0, rsn_len = 0;
++		u8 *p;
++		sint out_len = 0;
++		out_len = rtw_get_sec_ie(pnetwork->network.IEs , pnetwork->network.IELength, rsn_ie, &rsn_len, wpa_ie, &wpa_len);
++
++		if (wpa_len > 0) {
++			p = buf;
++			_rtw_memset(buf, 0, MAX_WPA_IE_LEN * 2);
++			p += sprintf(p, "wpa_ie=");
++			for (i = 0; i < wpa_len; i++)
++				p += sprintf(p, "%02x", wpa_ie[i]);
++
++			if (wpa_len > 100) {
++				printk("-----------------Len %d----------------\n", wpa_len);
++				for (i = 0; i < wpa_len; i++)
++					printk("%02x ", wpa_ie[i]);
++				printk("\n");
++				printk("-----------------Len %d----------------\n", wpa_len);
++			}
++
++			_rtw_memset(&iwe, 0, sizeof(iwe));
++			iwe.cmd = IWEVCUSTOM;
++			iwe.u.data.length = strlen(buf);
++			start = iwe_stream_add_point(info, start, stop, &iwe, buf);
++
++			_rtw_memset(&iwe, 0, sizeof(iwe));
++			iwe.cmd = IWEVGENIE;
++			iwe.u.data.length = wpa_len;
++			start = iwe_stream_add_point(info, start, stop, &iwe, wpa_ie);
++		}
++		if (rsn_len > 0) {
++			p = buf;
++			_rtw_memset(buf, 0, MAX_WPA_IE_LEN * 2);
++			p += sprintf(p, "rsn_ie=");
++			for (i = 0; i < rsn_len; i++)
++				p += sprintf(p, "%02x", rsn_ie[i]);
++			_rtw_memset(&iwe, 0, sizeof(iwe));
++			iwe.cmd = IWEVCUSTOM;
++			iwe.u.data.length = strlen(buf);
++			start = iwe_stream_add_point(info, start, stop, &iwe, buf);
++
++			_rtw_memset(&iwe, 0, sizeof(iwe));
++			iwe.cmd = IWEVGENIE;
++			iwe.u.data.length = rsn_len;
++			start = iwe_stream_add_point(info, start, stop, &iwe, rsn_ie);
++		}
++	}
++
++	{ /* parsing WPS IE */
++		uint cnt = 0, total_ielen;
++		u8 *wpsie_ptr = NULL;
++		uint wps_ielen = 0;
++
++		u8 *ie_ptr = pnetwork->network.IEs + ie_offset;
++		total_ielen = pnetwork->network.IELength - ie_offset;
++
++		if (pnetwork->network.Reserved[0] == 2) { /* Probe Request */
++			ie_ptr = pnetwork->network.IEs;
++			total_ielen = pnetwork->network.IELength;
++		} else { /* Beacon or Probe Respones */
++			ie_ptr = pnetwork->network.IEs + _FIXED_IE_LENGTH_;
++			total_ielen = pnetwork->network.IELength - _FIXED_IE_LENGTH_;
++		}
++
++		while (cnt < total_ielen) {
++			if (rtw_is_wps_ie(&ie_ptr[cnt], &wps_ielen) && (wps_ielen > 2)) {
++				wpsie_ptr = &ie_ptr[cnt];
++				iwe.cmd = IWEVGENIE;
++				iwe.u.data.length = (u16)wps_ielen;
++				start = iwe_stream_add_point(info, start, stop, &iwe, wpsie_ptr);
++			}
++			cnt += ie_ptr[cnt + 1] + 2; /* goto next */
++		}
++	}
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (pnetwork->network.Reserved[0] != 2) { /* Probe Request */
++		sint out_len_wapi = 0;
++		/* here use static for stack size */
++		static u8 buf_wapi[MAX_WAPI_IE_LEN * 2];
++		static u8 wapi_ie[MAX_WAPI_IE_LEN];
++		u16 wapi_len = 0;
++		u16  i;
++
++		_rtw_memset(buf_wapi, 0, MAX_WAPI_IE_LEN);
++		_rtw_memset(wapi_ie, 0, MAX_WAPI_IE_LEN);
++
++		out_len_wapi = rtw_get_wapi_ie(pnetwork->network.IEs , pnetwork->network.IELength, wapi_ie, &wapi_len);
++
++		RTW_INFO("rtw_wx_get_scan: %s ", pnetwork->network.Ssid.Ssid);
++		RTW_INFO("rtw_wx_get_scan: ssid = %d ", wapi_len);
++
++
++		if (wapi_len > 0) {
++			p = buf_wapi;
++			_rtw_memset(buf_wapi, 0, MAX_WAPI_IE_LEN * 2);
++			p += sprintf(p, "wapi_ie=");
++			for (i = 0; i < wapi_len; i++)
++				p += sprintf(p, "%02x", wapi_ie[i]);
++
++			_rtw_memset(&iwe, 0, sizeof(iwe));
++			iwe.cmd = IWEVCUSTOM;
++			iwe.u.data.length = strlen(buf_wapi);
++			start = iwe_stream_add_point(info, start, stop, &iwe, buf_wapi);
++
++			_rtw_memset(&iwe, 0, sizeof(iwe));
++			iwe.cmd = IWEVGENIE;
++			iwe.u.data.length = wapi_len;
++			start = iwe_stream_add_point(info, start, stop, &iwe, wapi_ie);
++		}
++	}
++#endif
++
++	{
++		struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++		u8 ss, sq;
++
++		/* Add quality statistics */
++		iwe.cmd = IWEVQUAL;
++		iwe.u.qual.updated = IW_QUAL_QUAL_UPDATED | IW_QUAL_LEVEL_UPDATED
++#if defined(CONFIG_SIGNAL_DISPLAY_DBM) && defined(CONFIG_BACKGROUND_NOISE_MONITOR)
++				     | IW_QUAL_NOISE_UPDATED
++#else
++				     | IW_QUAL_NOISE_INVALID
++#endif
++#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++				     | IW_QUAL_DBM
++#endif
++				     ;
++
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE &&
++		    is_same_network(&pmlmepriv->cur_network.network, &pnetwork->network, 0)) {
++			ss = padapter->recvpriv.signal_strength;
++			sq = padapter->recvpriv.signal_qual;
++		} else {
++			ss = pnetwork->network.PhyInfo.SignalStrength;
++			sq = pnetwork->network.PhyInfo.SignalQuality;
++		}
++
++
++#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++		iwe.u.qual.level = (u8) translate_percentage_to_dbm(ss); /* dbm */
++#else
++#ifdef CONFIG_SIGNAL_SCALE_MAPPING
++		iwe.u.qual.level = (u8)ss; /* % */
++#else
++		{
++			/* Do signal scale mapping when using percentage as the unit of signal strength, since the scale mapping is skipped in odm */
++
++			HAL_DATA_TYPE *pHal = GET_HAL_DATA(padapter);
++
++			iwe.u.qual.level = (u8)odm_SignalScaleMapping(&pHal->odmpriv, ss);
++		}
++#endif
++#endif
++
++		iwe.u.qual.qual = (u8)sq;   /* signal quality */
++
++#ifdef CONFIG_PLATFORM_ROCKCHIPS
++		iwe.u.qual.noise = -100; /* noise level suggest by zhf@rockchips */
++#else
++#if defined(CONFIG_SIGNAL_DISPLAY_DBM) && defined(CONFIG_BACKGROUND_NOISE_MONITOR)
++		{
++			s16 tmp_noise = 0;
++			rtw_hal_get_odm_var(padapter, HAL_ODM_NOISE_MONITOR, &(pnetwork->network.Configuration.DSConfig), &(tmp_noise));
++			iwe.u.qual.noise = tmp_noise ;
++		}
++#else
++		iwe.u.qual.noise = 0; /* noise level */
++#endif
++#endif /* CONFIG_PLATFORM_ROCKCHIPS */
++
++		/* RTW_INFO("iqual=%d, ilevel=%d, inoise=%d, iupdated=%d\n", iwe.u.qual.qual, iwe.u.qual.level , iwe.u.qual.noise, iwe.u.qual.updated); */
++
++		start = iwe_stream_add_event(info, start, stop, &iwe, IW_EV_QUAL_LEN);
++	}
++
++	{
++		u8 buf[MAX_WPA_IE_LEN];
++		u8 *p, *pos;
++		int len;
++		p = buf;
++		pos = pnetwork->network.Reserved;
++		_rtw_memset(buf, 0, MAX_WPA_IE_LEN);
++		p += sprintf(p, "fm=%02X%02X", pos[1], pos[0]);
++		_rtw_memset(&iwe, 0, sizeof(iwe));
++		iwe.cmd = IWEVCUSTOM;
++		iwe.u.data.length = strlen(buf);
++		start = iwe_stream_add_point(info, start, stop, &iwe, buf);
++	}
++
++	return start;
++}
++#endif
++
++static int wpa_set_auth_algs(struct net_device *dev, u32 value)
++{
++	_adapter *padapter = (_adapter *) rtw_netdev_priv(dev);
++	int ret = 0;
++
++	if ((value & AUTH_ALG_SHARED_KEY) && (value & AUTH_ALG_OPEN_SYSTEM)) {
++		RTW_INFO("wpa_set_auth_algs, AUTH_ALG_SHARED_KEY and  AUTH_ALG_OPEN_SYSTEM [value:0x%x]\n", value);
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++		padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeAutoSwitch;
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++	} else if (value & AUTH_ALG_SHARED_KEY) {
++		RTW_INFO("wpa_set_auth_algs, AUTH_ALG_SHARED_KEY  [value:0x%x]\n", value);
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++
++#ifdef CONFIG_PLATFORM_MT53XX
++		padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeAutoSwitch;
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++#else
++		padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeShared;
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Shared;
++#endif
++	} else if (value & AUTH_ALG_OPEN_SYSTEM) {
++		RTW_INFO("wpa_set_auth_algs, AUTH_ALG_OPEN_SYSTEM\n");
++		/* padapter->securitypriv.ndisencryptstatus = Ndis802_11EncryptionDisabled; */
++		if (padapter->securitypriv.ndisauthtype < Ndis802_11AuthModeWPAPSK) {
++#ifdef CONFIG_PLATFORM_MT53XX
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeAutoSwitch;
++			padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++#else
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeOpen;
++			padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Open;
++#endif
++		}
++
++	} else if (value & AUTH_ALG_LEAP)
++		RTW_INFO("wpa_set_auth_algs, AUTH_ALG_LEAP\n");
++	else {
++		RTW_INFO("wpa_set_auth_algs, error!\n");
++		ret = -EINVAL;
++	}
++
++	return ret;
++
++}
++
++static int wpa_set_encryption(struct net_device *dev, struct ieee_param *param, u32 param_len)
++{
++	int ret = 0;
++	u32 wep_key_idx, wep_key_len, wep_total_len;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++#endif /* CONFIG_P2P */
++
++
++	param->u.crypt.err = 0;
++	param->u.crypt.alg[IEEE_CRYPT_ALG_NAME_LEN - 1] = '\0';
++
++	if (param_len < (u32)((u8 *) param->u.crypt.key - (u8 *) param) + param->u.crypt.key_len) {
++		ret =  -EINVAL;
++		goto exit;
++	}
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff) {
++
++		if (param->u.crypt.idx >= WEP_KEYS
++#ifdef CONFIG_IEEE80211W
++		    && param->u.crypt.idx > BIP_MAX_KEYID
++#endif /* CONFIG_IEEE80211W */
++		   ) {
++			ret = -EINVAL;
++			goto exit;
++		}
++	} else {
++#ifdef CONFIG_WAPI_SUPPORT
++		if (strcmp(param->u.crypt.alg, "SMS4"))
++#endif
++		{
++			ret = -EINVAL;
++			goto exit;
++		}
++	}
++
++	if (strcmp(param->u.crypt.alg, "WEP") == 0) {
++		RTW_INFO("wpa_set_encryption, crypt.alg = WEP\n");
++
++		wep_key_idx = param->u.crypt.idx;
++		wep_key_len = param->u.crypt.key_len;
++
++		if ((wep_key_idx > WEP_KEYS) || (wep_key_len <= 0)) {
++			ret = -EINVAL;
++			goto exit;
++		}
++
++		if (psecuritypriv->bWepDefaultKeyIdxSet == 0) {
++			/* wep default key has not been set, so use this key index as default key.*/
++
++			wep_key_len = wep_key_len <= 5 ? 5 : 13;
++
++			psecuritypriv->ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			psecuritypriv->dot11PrivacyAlgrthm = _WEP40_;
++			psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++
++			if (wep_key_len == 13) {
++				psecuritypriv->dot11PrivacyAlgrthm = _WEP104_;
++				psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++			}
++
++			psecuritypriv->dot11PrivacyKeyIndex = wep_key_idx;
++		}
++
++		_rtw_memcpy(&(psecuritypriv->dot11DefKey[wep_key_idx].skey[0]), param->u.crypt.key, wep_key_len);
++
++		psecuritypriv->dot11DefKeylen[wep_key_idx] = wep_key_len;
++
++		psecuritypriv->key_mask |= BIT(wep_key_idx);
++
++		goto exit;
++	}
++
++	if (padapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X) { /* 802_1x */
++		struct sta_info *psta, *pbcmc_sta;
++		struct sta_priv *pstapriv = &padapter->stapriv;
++
++		if (check_fwstate(pmlmepriv, WIFI_STATION_STATE | WIFI_MP_STATE) == _TRUE) { /* sta mode */
++			psta = rtw_get_stainfo(pstapriv, get_bssid(pmlmepriv));
++			if (psta == NULL) {
++				/* DEBUG_ERR( ("Set wpa_set_encryption: Obtain Sta_info fail\n")); */
++			} else {
++				/* Jeff: don't disable ieee8021x_blocked while clearing key */
++				if (strcmp(param->u.crypt.alg, "none") != 0)
++					psta->ieee8021x_blocked = _FALSE;
++
++				if ((padapter->securitypriv.ndisencryptstatus == Ndis802_11Encryption2Enabled) ||
++				    (padapter->securitypriv.ndisencryptstatus ==  Ndis802_11Encryption3Enabled))
++					psta->dot118021XPrivacy = padapter->securitypriv.dot11PrivacyAlgrthm;
++
++				if (param->u.crypt.set_tx == 1) { /* pairwise key */
++					_rtw_memcpy(psta->dot118021x_UncstKey.skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++					if (strcmp(param->u.crypt.alg, "TKIP") == 0) { /* set mic key */
++						/* DEBUG_ERR(("\nset key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len)); */
++						_rtw_memcpy(psta->dot11tkiptxmickey.skey, &(param->u.crypt.key[16]), 8);
++						_rtw_memcpy(psta->dot11tkiprxmickey.skey, &(param->u.crypt.key[24]), 8);
++
++						padapter->securitypriv.busetkipkey = _FALSE;
++						/* _set_timer(&padapter->securitypriv.tkip_timer, 50);						 */
++					}
++
++					/* DEBUG_ERR((" param->u.crypt.key_len=%d\n",param->u.crypt.key_len)); */
++					RTW_INFO(" ~~~~set sta key:unicastkey\n");
++
++					rtw_setstakey_cmd(padapter, psta, UNICAST_KEY, _TRUE);
++
++					psta->bpairwise_key_installed = _TRUE;
++
++				} else { /* group key */
++					if (strcmp(param->u.crypt.alg, "TKIP") == 0 || strcmp(param->u.crypt.alg, "CCMP") == 0) {
++						_rtw_memcpy(padapter->securitypriv.dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key,
++							(param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++						/* only TKIP group key need to install this */
++						if (param->u.crypt.key_len > 16) {
++							_rtw_memcpy(padapter->securitypriv.dot118021XGrptxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[16]), 8);
++							_rtw_memcpy(padapter->securitypriv.dot118021XGrprxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[24]), 8);
++						}
++						padapter->securitypriv.binstallGrpkey = _TRUE;
++						/* DEBUG_ERR((" param->u.crypt.key_len=%d\n", param->u.crypt.key_len)); */
++						RTW_INFO(" ~~~~set sta key:groupkey\n");
++
++						padapter->securitypriv.dot118021XGrpKeyid = param->u.crypt.idx;
++
++						rtw_set_key(padapter, &padapter->securitypriv, param->u.crypt.idx, 1, _TRUE);
++					}
++#ifdef CONFIG_IEEE80211W
++					else if (strcmp(param->u.crypt.alg, "BIP") == 0) {
++						int no;
++						/* printk("BIP key_len=%d , index=%d @@@@@@@@@@@@@@@@@@\n", param->u.crypt.key_len, param->u.crypt.idx); */
++						/* save the IGTK key, length 16 bytes */
++						_rtw_memcpy(padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey,  param->u.crypt.key,
++							(param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++						/*printk("IGTK key below:\n");
++						for(no=0;no<16;no++)
++							printk(" %02x ", padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey[no]);
++						printk("\n");*/
++						padapter->securitypriv.dot11wBIPKeyid = param->u.crypt.idx;
++						padapter->securitypriv.binstallBIPkey = _TRUE;
++						RTW_INFO(" ~~~~set sta key:IGKT\n");
++					}
++#endif /* CONFIG_IEEE80211W */
++
++#ifdef CONFIG_P2P
++					if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_PROVISIONING_ING))
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_PROVISIONING_DONE);
++#endif /* CONFIG_P2P */
++
++				}
++			}
++
++			pbcmc_sta = rtw_get_bcmc_stainfo(padapter);
++			if (pbcmc_sta == NULL) {
++				/* DEBUG_ERR( ("Set OID_802_11_ADD_KEY: bcmc stainfo is null\n")); */
++			} else {
++				/* Jeff: don't disable ieee8021x_blocked while clearing key */
++				if (strcmp(param->u.crypt.alg, "none") != 0)
++					pbcmc_sta->ieee8021x_blocked = _FALSE;
++
++				if ((padapter->securitypriv.ndisencryptstatus == Ndis802_11Encryption2Enabled) ||
++				    (padapter->securitypriv.ndisencryptstatus ==  Ndis802_11Encryption3Enabled))
++					pbcmc_sta->dot118021XPrivacy = padapter->securitypriv.dot11PrivacyAlgrthm;
++			}
++		} else if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE)) { /* adhoc mode */
++		}
++	}
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (strcmp(param->u.crypt.alg, "SMS4") == 0) {
++		PRT_WAPI_T			pWapiInfo = &padapter->wapiInfo;
++		PRT_WAPI_STA_INFO	pWapiSta;
++		u8					WapiASUEPNInitialValueSrc[16] = {0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++		u8					WapiAEPNInitialValueSrc[16] = {0x37, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++		u8					WapiAEMultiCastPNInitialValueSrc[16] = {0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++
++		if (param->u.crypt.set_tx == 1) {
++			list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++				if (_rtw_memcmp(pWapiSta->PeerMacAddr, param->sta_addr, 6)) {
++					_rtw_memcpy(pWapiSta->lastTxUnicastPN, WapiASUEPNInitialValueSrc, 16);
++
++					pWapiSta->wapiUsk.bSet = true;
++					_rtw_memcpy(pWapiSta->wapiUsk.dataKey, param->u.crypt.key, 16);
++					_rtw_memcpy(pWapiSta->wapiUsk.micKey, param->u.crypt.key + 16, 16);
++					pWapiSta->wapiUsk.keyId = param->u.crypt.idx ;
++					pWapiSta->wapiUsk.bTxEnable = true;
++
++					_rtw_memcpy(pWapiSta->lastRxUnicastPNBEQueue, WapiAEPNInitialValueSrc, 16);
++					_rtw_memcpy(pWapiSta->lastRxUnicastPNBKQueue, WapiAEPNInitialValueSrc, 16);
++					_rtw_memcpy(pWapiSta->lastRxUnicastPNVIQueue, WapiAEPNInitialValueSrc, 16);
++					_rtw_memcpy(pWapiSta->lastRxUnicastPNVOQueue, WapiAEPNInitialValueSrc, 16);
++					_rtw_memcpy(pWapiSta->lastRxUnicastPN, WapiAEPNInitialValueSrc, 16);
++					pWapiSta->wapiUskUpdate.bTxEnable = false;
++					pWapiSta->wapiUskUpdate.bSet = false;
++
++					if (psecuritypriv->sw_encrypt == false || psecuritypriv->sw_decrypt == false) {
++						/* set unicast key for ASUE */
++						rtw_wapi_set_key(padapter, &pWapiSta->wapiUsk, pWapiSta, false, false);
++					}
++				}
++			}
++		} else {
++			list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++				if (_rtw_memcmp(pWapiSta->PeerMacAddr, get_bssid(pmlmepriv), 6)) {
++					pWapiSta->wapiMsk.bSet = true;
++					_rtw_memcpy(pWapiSta->wapiMsk.dataKey, param->u.crypt.key, 16);
++					_rtw_memcpy(pWapiSta->wapiMsk.micKey, param->u.crypt.key + 16, 16);
++					pWapiSta->wapiMsk.keyId = param->u.crypt.idx ;
++					pWapiSta->wapiMsk.bTxEnable = false;
++					if (!pWapiSta->bSetkeyOk)
++						pWapiSta->bSetkeyOk = true;
++					pWapiSta->bAuthenticateInProgress = false;
++
++					_rtw_memcpy(pWapiSta->lastRxMulticastPN, WapiAEMultiCastPNInitialValueSrc, 16);
++
++					if (psecuritypriv->sw_decrypt == false) {
++						/* set rx broadcast key for ASUE */
++						rtw_wapi_set_key(padapter, &pWapiSta->wapiMsk, pWapiSta, true, false);
++					}
++				}
++
++			}
++		}
++	}
++#endif
++
++exit:
++
++
++	return ret;
++}
++
++static int rtw_set_wpa_ie(_adapter *padapter, char *pie, unsigned short ielen)
++{
++	u8 *buf = NULL, *pos = NULL;
++	u32 left;
++	int group_cipher = 0, pairwise_cipher = 0;
++	int ret = 0;
++	u8 null_addr[] = {0, 0, 0, 0, 0, 0};
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++#endif /* CONFIG_P2P */
++
++	if ((ielen > MAX_WPA_IE_LEN) || (pie == NULL)) {
++		_clr_fwstate_(&padapter->mlmepriv, WIFI_UNDER_WPS);
++		if (pie == NULL)
++			return ret;
++		else
++			return -EINVAL;
++	}
++
++	if (ielen) {
++		buf = rtw_zmalloc(ielen);
++		if (buf == NULL) {
++			ret =  -ENOMEM;
++			goto exit;
++		}
++
++		_rtw_memcpy(buf, pie , ielen);
++
++		/* dump */
++		{
++			int i;
++			RTW_INFO("\n wpa_ie(length:%d):\n", ielen);
++			for (i = 0; i < ielen; i = i + 8)
++				RTW_INFO("0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x\n", buf[i], buf[i + 1], buf[i + 2], buf[i + 3], buf[i + 4], buf[i + 5], buf[i + 6], buf[i + 7]);
++		}
++
++		pos = buf;
++		if (ielen < RSN_HEADER_LEN) {
++			ret  = -1;
++			goto exit;
++		}
++
++#if 0
++		pos += RSN_HEADER_LEN;
++		left  = ielen - RSN_HEADER_LEN;
++
++		if (left >= RSN_SELECTOR_LEN) {
++			pos += RSN_SELECTOR_LEN;
++			left -= RSN_SELECTOR_LEN;
++		} else if (left > 0) {
++			ret = -1;
++			goto exit;
++		}
++#endif
++
++		if (rtw_parse_wpa_ie(buf, ielen, &group_cipher, &pairwise_cipher, NULL) == _SUCCESS) {
++			padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeWPAPSK;
++			_rtw_memcpy(padapter->securitypriv.supplicant_ie, &buf[0], ielen);
++		}
++
++		if (rtw_parse_wpa2_ie(buf, ielen, &group_cipher, &pairwise_cipher, NULL) == _SUCCESS) {
++			padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeWPA2PSK;
++			_rtw_memcpy(padapter->securitypriv.supplicant_ie, &buf[0], ielen);
++		}
++
++		if (group_cipher == 0)
++			group_cipher = WPA_CIPHER_NONE;
++		if (pairwise_cipher == 0)
++			pairwise_cipher = WPA_CIPHER_NONE;
++
++		switch (group_cipher) {
++		case WPA_CIPHER_NONE:
++			padapter->securitypriv.dot118021XGrpPrivacy = _NO_PRIVACY_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11EncryptionDisabled;
++			break;
++		case WPA_CIPHER_WEP40:
++			padapter->securitypriv.dot118021XGrpPrivacy = _WEP40_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			break;
++		case WPA_CIPHER_TKIP:
++			padapter->securitypriv.dot118021XGrpPrivacy = _TKIP_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption2Enabled;
++			break;
++		case WPA_CIPHER_CCMP:
++			padapter->securitypriv.dot118021XGrpPrivacy = _AES_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption3Enabled;
++			break;
++		case WPA_CIPHER_WEP104:
++			padapter->securitypriv.dot118021XGrpPrivacy = _WEP104_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			break;
++		}
++
++		switch (pairwise_cipher) {
++		case WPA_CIPHER_NONE:
++			padapter->securitypriv.dot11PrivacyAlgrthm = _NO_PRIVACY_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11EncryptionDisabled;
++			break;
++		case WPA_CIPHER_WEP40:
++			padapter->securitypriv.dot11PrivacyAlgrthm = _WEP40_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			break;
++		case WPA_CIPHER_TKIP:
++			padapter->securitypriv.dot11PrivacyAlgrthm = _TKIP_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption2Enabled;
++			break;
++		case WPA_CIPHER_CCMP:
++			padapter->securitypriv.dot11PrivacyAlgrthm = _AES_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption3Enabled;
++			break;
++		case WPA_CIPHER_WEP104:
++			padapter->securitypriv.dot11PrivacyAlgrthm = _WEP104_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			break;
++		}
++
++		_clr_fwstate_(&padapter->mlmepriv, WIFI_UNDER_WPS);
++		{/* set wps_ie	 */
++			u16 cnt = 0;
++			u8 eid, wps_oui[4] = {0x0, 0x50, 0xf2, 0x04};
++
++			while (cnt < ielen) {
++				eid = buf[cnt];
++
++				if ((eid == _VENDOR_SPECIFIC_IE_) && (_rtw_memcmp(&buf[cnt + 2], wps_oui, 4) == _TRUE)) {
++					RTW_INFO("SET WPS_IE\n");
++
++					padapter->securitypriv.wps_ie_len = ((buf[cnt + 1] + 2) < MAX_WPS_IE_LEN) ? (buf[cnt + 1] + 2) : MAX_WPS_IE_LEN;
++
++					_rtw_memcpy(padapter->securitypriv.wps_ie, &buf[cnt], padapter->securitypriv.wps_ie_len);
++
++					set_fwstate(&padapter->mlmepriv, WIFI_UNDER_WPS);
++
++#ifdef CONFIG_P2P
++					if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_OK))
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_PROVISIONING_ING);
++#endif /* CONFIG_P2P */
++					cnt += buf[cnt + 1] + 2;
++
++					break;
++				} else {
++					cnt += buf[cnt + 1] + 2; /* goto next	 */
++				}
++			}
++		}
++	}
++
++	/* TKIP and AES disallow multicast packets until installing group key */
++	if (padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_
++	    || padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_WTMIC_
++	    || padapter->securitypriv.dot11PrivacyAlgrthm == _AES_)
++		/* WPS open need to enable multicast
++		 * || check_fwstate(&padapter->mlmepriv, WIFI_UNDER_WPS) == _TRUE) */
++		rtw_hal_set_hwreg(padapter, HW_VAR_OFF_RCR_AM, null_addr);
++
++
++exit:
++
++	if (buf)
++		rtw_mfree(buf, ielen);
++
++	return ret;
++}
++
++static int rtw_wx_get_name(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u16 cap;
++	u32 ht_ielen = 0;
++	char *p;
++	u8 ht_cap = _FALSE, vht_cap = _FALSE;
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX  *pcur_bss = &pmlmepriv->cur_network.network;
++	NDIS_802_11_RATES_EX *prates = NULL;
++
++
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED | WIFI_ADHOC_MASTER_STATE) == _TRUE) {
++		/* parsing HT_CAP_IE */
++		p = rtw_get_ie(&pcur_bss->IEs[12], _HT_CAPABILITY_IE_, &ht_ielen, pcur_bss->IELength - 12);
++		if (p && ht_ielen > 0)
++			ht_cap = _TRUE;
++
++#ifdef CONFIG_80211AC_VHT
++		if (pmlmepriv->vhtpriv.vht_option == _TRUE)
++			vht_cap = _TRUE;
++#endif
++
++		prates = &pcur_bss->SupportedRates;
++
++		if (rtw_is_cckratesonly_included((u8 *)prates) == _TRUE) {
++			if (ht_cap == _TRUE)
++				snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11bn");
++			else
++				snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11b");
++		} else if ((rtw_is_cckrates_included((u8 *)prates)) == _TRUE) {
++			if (ht_cap == _TRUE)
++				snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11bgn");
++			else
++				snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11bg");
++		} else {
++			if (pcur_bss->Configuration.DSConfig > 14) {
++#ifdef CONFIG_80211AC_VHT
++				if (vht_cap == _TRUE)
++					snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11AC");
++				else
++#endif
++				{
++					if (ht_cap == _TRUE)
++						snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11an");
++					else
++						snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11a");
++				}
++			} else {
++				if (ht_cap == _TRUE)
++					snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11gn");
++				else
++					snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11g");
++			}
++		}
++	} else {
++		/* prates = &padapter->registrypriv.dev_network.SupportedRates; */
++		/* snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11g"); */
++		snprintf(wrqu->name, IFNAMSIZ, "unassociated");
++	}
++
++
++	return 0;
++}
++
++static int rtw_wx_set_freq(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(padapter);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct wlan_network  *cur_network = &(pmlmepriv->cur_network);
++	int exp = 1, freq = 0, div = 0;
++
++
++
++	if (wrqu->freq.m <= 1000) {
++		if (wrqu->freq.flags == IW_FREQ_AUTO) {
++			if (rtw_ch_set_search_ch(padapter->mlmeextpriv.channel_set, wrqu->freq.m) > 0) {
++				padapter->mlmeextpriv.cur_channel = wrqu->freq.m;
++				RTW_INFO("%s: channel is auto, set to channel %d\n", __func__, wrqu->freq.m);
++			} else {
++				padapter->mlmeextpriv.cur_channel = 1;
++				RTW_INFO("%s: channel is auto, Channel Plan don't match just set to channel 1\n", __func__);
++			}
++		} else {
++			padapter->mlmeextpriv.cur_channel = wrqu->freq.m;
++			RTW_INFO("%s: set to channel %d\n", __func__, padapter->mlmeextpriv.cur_channel);
++		}
++	} else {
++		while (wrqu->freq.e) {
++			exp *= 10;
++			wrqu->freq.e--;
++		}
++
++		freq = wrqu->freq.m;
++
++		while (!(freq % 10)) {
++			freq /= 10;
++			exp *= 10;
++		}
++
++		/* freq unit is MHz here */
++		div = 1000000 / exp;
++
++		if (div)
++			freq /= div;
++		else {
++			div = exp / 1000000;
++			freq *= div;
++		}
++
++		/* If freq is invalid, rtw_freq2ch() will return channel 1 */
++		padapter->mlmeextpriv.cur_channel = rtw_freq2ch(freq);
++		RTW_INFO("%s: set to channel %d\n", __func__, padapter->mlmeextpriv.cur_channel);
++	}
++
++	set_channel_bwmode(padapter, padapter->mlmeextpriv.cur_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++
++
++	return 0;
++}
++
++static int rtw_wx_get_freq(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX  *pcur_bss = &pmlmepriv->cur_network.network;
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE && check_fwstate(pmlmepriv, WIFI_MONITOR_STATE) != _TRUE) {
++
++		wrqu->freq.m = rtw_ch2freq(pcur_bss->Configuration.DSConfig) * 100000;
++		wrqu->freq.e = 1;
++		wrqu->freq.i = pcur_bss->Configuration.DSConfig;
++
++	} else {
++		wrqu->freq.m = rtw_ch2freq(padapter->mlmeextpriv.cur_channel) * 100000;
++		wrqu->freq.e = 1;
++		wrqu->freq.i = padapter->mlmeextpriv.cur_channel;
++	}
++
++	return 0;
++}
++
++static int rtw_wx_set_mode(struct net_device *dev, struct iw_request_info *a,
++			   union iwreq_data *wrqu, char *b)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	NDIS_802_11_NETWORK_INFRASTRUCTURE networkType ;
++	int ret = 0;
++
++
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		ret = -EPERM;
++		goto exit;
++	}
++
++	if (!rtw_is_hw_init_completed(padapter)) {
++		ret = -EPERM;
++		goto exit;
++	}
++
++	/* initial default type */
++	dev->type = ARPHRD_ETHER;
++
++	switch (wrqu->mode) {
++	case IW_MODE_MONITOR:
++		networkType = Ndis802_11Monitor;
++#if 0
++		dev->type = ARPHRD_IEEE80211; /* IEEE 802.11 : 801 */
++#endif
++		dev->type = ARPHRD_IEEE80211_RADIOTAP; /* IEEE 802.11 + radiotap header : 803 */
++		RTW_INFO("set_mode = IW_MODE_MONITOR\n");
++		break;
++
++	case IW_MODE_AUTO:
++		networkType = Ndis802_11AutoUnknown;
++		RTW_INFO("set_mode = IW_MODE_AUTO\n");
++		break;
++	case IW_MODE_ADHOC:
++		networkType = Ndis802_11IBSS;
++		RTW_INFO("set_mode = IW_MODE_ADHOC\n");
++		break;
++	case IW_MODE_MASTER:
++		networkType = Ndis802_11APMode;
++		RTW_INFO("set_mode = IW_MODE_MASTER\n");
++		/* rtw_setopmode_cmd(padapter, networkType,_TRUE);	 */
++		break;
++	case IW_MODE_INFRA:
++		networkType = Ndis802_11Infrastructure;
++		RTW_INFO("set_mode = IW_MODE_INFRA\n");
++		break;
++
++	default:
++		ret = -EINVAL;;
++		goto exit;
++	}
++
++	/*
++		if(Ndis802_11APMode == networkType)
++		{
++			rtw_setopmode_cmd(padapter, networkType,_TRUE);
++		}
++		else
++		{
++			rtw_setopmode_cmd(padapter, Ndis802_11AutoUnknown,_TRUE);
++		}
++	*/
++
++	if (rtw_set_802_11_infrastructure_mode(padapter, networkType) == _FALSE) {
++
++		ret = -EPERM;
++		goto exit;
++
++	}
++
++	rtw_setopmode_cmd(padapter, networkType, _TRUE);
++
++	if (check_fwstate(pmlmepriv, WIFI_MONITOR_STATE) == _TRUE)
++		rtw_indicate_connect(padapter);
++
++exit:
++
++
++	return ret;
++
++}
++
++static int rtw_wx_get_mode(struct net_device *dev, struct iw_request_info *a,
++			   union iwreq_data *wrqu, char *b)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++
++
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++		wrqu->mode = IW_MODE_INFRA;
++	else if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) ||
++		 (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE))
++
++		wrqu->mode = IW_MODE_ADHOC;
++	else if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		wrqu->mode = IW_MODE_MASTER;
++	else if (check_fwstate(pmlmepriv, WIFI_MONITOR_STATE) == _TRUE)
++		wrqu->mode = IW_MODE_MONITOR;
++	else
++		wrqu->mode = IW_MODE_AUTO;
++
++
++	return 0;
++
++}
++
++
++static int rtw_wx_set_pmkid(struct net_device *dev,
++			    struct iw_request_info *a,
++			    union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8          j, blInserted = _FALSE;
++	int         intReturn = _FALSE;
++	struct mlme_priv  *pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct iw_pmksa  *pPMK = (struct iw_pmksa *) extra;
++	u8     strZeroMacAddress[ETH_ALEN] = { 0x00 };
++	u8     strIssueBssid[ETH_ALEN] = { 0x00 };
++
++#if 0
++	struct iw_pmksa {
++		__u32   cmd;
++		struct sockaddr bssid;
++		__u8    pmkid[IW_PMKID_LEN];   /* IW_PMKID_LEN=16 */
++	}
++	There are the BSSID information in the bssid.sa_data array.
++	If cmd is IW_PMKSA_FLUSH, it means the wpa_suppplicant wants to clear all the PMKID information.
++	If cmd is IW_PMKSA_ADD, it means the wpa_supplicant wants to add a PMKID / BSSID to driver.
++	If cmd is IW_PMKSA_REMOVE, it means the wpa_supplicant wants to remove a PMKID / BSSID from driver.
++#endif
++
++	_rtw_memcpy(strIssueBssid, pPMK->bssid.sa_data, ETH_ALEN);
++	if (pPMK->cmd == IW_PMKSA_ADD) {
++		RTW_INFO("[rtw_wx_set_pmkid] IW_PMKSA_ADD!\n");
++		if (_rtw_memcmp(strIssueBssid, strZeroMacAddress, ETH_ALEN) == _TRUE)
++			return intReturn ;
++		else
++			intReturn = _TRUE;
++		blInserted = _FALSE;
++
++		/* overwrite PMKID */
++		for (j = 0 ; j < NUM_PMKID_CACHE; j++) {
++			if (_rtw_memcmp(psecuritypriv->PMKIDList[j].Bssid, strIssueBssid, ETH_ALEN) == _TRUE) {
++				/* BSSID is matched, the same AP => rewrite with new PMKID. */
++
++				RTW_INFO("[rtw_wx_set_pmkid] BSSID exists in the PMKList.\n");
++
++				_rtw_memcpy(psecuritypriv->PMKIDList[j].PMKID, pPMK->pmkid, IW_PMKID_LEN);
++				psecuritypriv->PMKIDList[j].bUsed = _TRUE;
++				psecuritypriv->PMKIDIndex = j + 1;
++				blInserted = _TRUE;
++				break;
++			}
++		}
++
++		if (!blInserted) {
++			/* Find a new entry */
++			RTW_INFO("[rtw_wx_set_pmkid] Use the new entry index = %d for this PMKID.\n",
++				 psecuritypriv->PMKIDIndex);
++
++			_rtw_memcpy(psecuritypriv->PMKIDList[psecuritypriv->PMKIDIndex].Bssid, strIssueBssid, ETH_ALEN);
++			_rtw_memcpy(psecuritypriv->PMKIDList[psecuritypriv->PMKIDIndex].PMKID, pPMK->pmkid, IW_PMKID_LEN);
++
++			psecuritypriv->PMKIDList[psecuritypriv->PMKIDIndex].bUsed = _TRUE;
++			psecuritypriv->PMKIDIndex++ ;
++			if (psecuritypriv->PMKIDIndex == 16)
++				psecuritypriv->PMKIDIndex = 0;
++		}
++	} else if (pPMK->cmd == IW_PMKSA_REMOVE) {
++		RTW_INFO("[rtw_wx_set_pmkid] IW_PMKSA_REMOVE!\n");
++		intReturn = _TRUE;
++		for (j = 0 ; j < NUM_PMKID_CACHE; j++) {
++			if (_rtw_memcmp(psecuritypriv->PMKIDList[j].Bssid, strIssueBssid, ETH_ALEN) == _TRUE) {
++				/* BSSID is matched, the same AP => Remove this PMKID information and reset it. */
++				_rtw_memset(psecuritypriv->PMKIDList[j].Bssid, 0x00, ETH_ALEN);
++				psecuritypriv->PMKIDList[j].bUsed = _FALSE;
++				break;
++			}
++		}
++	} else if (pPMK->cmd == IW_PMKSA_FLUSH) {
++		RTW_INFO("[rtw_wx_set_pmkid] IW_PMKSA_FLUSH!\n");
++		_rtw_memset(&psecuritypriv->PMKIDList[0], 0x00, sizeof(RT_PMKID_LIST) * NUM_PMKID_CACHE);
++		psecuritypriv->PMKIDIndex = 0;
++		intReturn = _TRUE;
++	}
++	return intReturn ;
++}
++
++static int rtw_wx_get_sens(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++#ifdef CONFIG_PLATFORM_ROCKCHIPS
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	/*
++	*  20110311 Commented by Jeff
++	*  For rockchip platform's wpa_driver_wext_get_rssi
++	*/
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++		/* wrqu->sens.value=-padapter->recvpriv.signal_strength; */
++		wrqu->sens.value = -padapter->recvpriv.rssi;
++		/* RTW_INFO("%s: %d\n", __FUNCTION__, wrqu->sens.value); */
++		wrqu->sens.fixed = 0; /* no auto select */
++	} else
++#endif
++	{
++		wrqu->sens.value = 0;
++		wrqu->sens.fixed = 0;	/* no auto select */
++		wrqu->sens.disabled = 1;
++	}
++	return 0;
++}
++
++static int rtw_wx_get_range(struct net_device *dev,
++			    struct iw_request_info *info,
++			    union iwreq_data *wrqu, char *extra)
++{
++	struct iw_range *range = (struct iw_range *)extra;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	u16 val;
++	int i;
++
++
++
++	wrqu->data.length = sizeof(*range);
++	_rtw_memset(range, 0, sizeof(*range));
++
++	/* Let's try to keep this struct in the same order as in
++	 * linux/include/wireless.h
++	 */
++
++	/* TODO: See what values we can set, and remove the ones we can't
++	 * set, or fill them with some default data.
++	 */
++
++	/* ~5 Mb/s real (802.11b) */
++	range->throughput = 5 * 1000 * 1000;
++
++	/* TODO: Not used in 802.11b?
++	*	range->min_nwid;	 Minimal NWID we are able to set  */
++	/* TODO: Not used in 802.11b?
++	*	range->max_nwid;	 Maximal NWID we are able to set  */
++
++	/* Old Frequency (backward compat - moved lower ) */
++	/*	range->old_num_channels;
++	 *	range->old_num_frequency;
++	 * 	range->old_freq[6];  Filler to keep "version" at the same offset  */
++
++	/* signal level threshold range */
++
++	/* Quality of link & SNR stuff */
++	/* Quality range (link, level, noise)
++	 * If the quality is absolute, it will be in the range [0 ; max_qual],
++	 * if the quality is dBm, it will be in the range [max_qual ; 0].
++	 * Don't forget that we use 8 bit arithmetics...
++	 *
++	 * If percentage range is 0~100
++	 * Signal strength dbm range logical is -100 ~ 0
++	 * but usually value is -90 ~ -20
++	 * When CONFIG_SIGNAL_SCALE_MAPPING is defined, dbm range is -95 ~ -45
++	 */
++	range->max_qual.qual = 100;
++#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++	range->max_qual.level = (u8)-100;
++	range->max_qual.noise = (u8)-100;
++	range->max_qual.updated = IW_QUAL_ALL_UPDATED; /* Updated all three */
++	range->max_qual.updated |= IW_QUAL_DBM;
++#else /* !CONFIG_SIGNAL_DISPLAY_DBM */
++	/* percent values between 0 and 100. */
++	range->max_qual.level = 100;
++	range->max_qual.noise = 100;
++	range->max_qual.updated = IW_QUAL_ALL_UPDATED; /* Updated all three */
++#endif /* !CONFIG_SIGNAL_DISPLAY_DBM */
++
++	/* This should contain the average/typical values of the quality
++	 * indicator. This should be the threshold between a "good" and
++	 * a "bad" link (example : monitor going from green to orange).
++	 * Currently, user space apps like quality monitors don't have any
++	 * way to calibrate the measurement. With this, they can split
++	 * the range between 0 and max_qual in different quality level
++	 * (using a geometric subdivision centered on the average).
++	 * I expect that people doing the user space apps will feedback
++	 * us on which value we need to put in each driver... */
++	range->avg_qual.qual = 92; /* > 8% missed beacons is 'bad' */
++#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++	/* TODO: Find real 'good' to 'bad' threshold value for RSSI */
++	range->avg_qual.level = (u8)-70;
++	range->avg_qual.noise = 0;
++	range->avg_qual.updated = IW_QUAL_ALL_UPDATED; /* Updated all three */
++	range->avg_qual.updated |= IW_QUAL_DBM;
++#else /* !CONFIG_SIGNAL_DISPLAY_DBM */
++	/* TODO: Find real 'good' to 'bad' threshol value for RSSI */
++	range->avg_qual.level = 30;
++	range->avg_qual.noise = 100;
++	range->avg_qual.updated = IW_QUAL_ALL_UPDATED; /* Updated all three */
++#endif /* !CONFIG_SIGNAL_DISPLAY_DBM */
++
++	range->num_bitrates = RATE_COUNT;
++
++	for (i = 0; i < RATE_COUNT && i < IW_MAX_BITRATES; i++)
++		range->bitrate[i] = rtw_rates[i];
++
++	range->min_frag = MIN_FRAG_THRESHOLD;
++	range->max_frag = MAX_FRAG_THRESHOLD;
++
++	range->pm_capa = 0;
++
++	range->we_version_compiled = WIRELESS_EXT;
++	range->we_version_source = 16;
++
++	/*	range->retry_capa;	 What retry options are supported
++	 *	range->retry_flags;	 How to decode max/min retry limit
++	 *	range->r_time_flags;	 How to decode max/min retry life
++	 *	range->min_retry;	 Minimal number of retries
++	 *	range->max_retry;	 Maximal number of retries
++	 *	range->min_r_time;	 Minimal retry lifetime
++	 *	range->max_r_time;	 Maximal retry lifetime  */
++
++	for (i = 0, val = 0; i < MAX_CHANNEL_NUM; i++) {
++
++		/* Include only legal frequencies for some countries */
++		if (pmlmeext->channel_set[i].ChannelNum != 0) {
++			range->freq[val].i = pmlmeext->channel_set[i].ChannelNum;
++			range->freq[val].m = rtw_ch2freq(pmlmeext->channel_set[i].ChannelNum) * 100000;
++			range->freq[val].e = 1;
++			val++;
++		}
++
++		if (val == IW_MAX_FREQUENCIES)
++			break;
++	}
++
++	range->num_channels = val;
++	range->num_frequency = val;
++
++	/* Commented by Albert 2009/10/13
++	 * The following code will proivde the security capability to network manager.
++	 * If the driver doesn't provide this capability to network manager,
++	 * the WPA/WPA2 routers can't be choosen in the network manager. */
++
++	/*
++	#define IW_SCAN_CAPA_NONE		0x00
++	#define IW_SCAN_CAPA_ESSID		0x01
++	#define IW_SCAN_CAPA_BSSID		0x02
++	#define IW_SCAN_CAPA_CHANNEL	0x04
++	#define IW_SCAN_CAPA_MODE		0x08
++	#define IW_SCAN_CAPA_RATE		0x10
++	#define IW_SCAN_CAPA_TYPE		0x20
++	#define IW_SCAN_CAPA_TIME		0x40
++	*/
++
++#if WIRELESS_EXT > 17
++	range->enc_capa = IW_ENC_CAPA_WPA | IW_ENC_CAPA_WPA2 |
++			  IW_ENC_CAPA_CIPHER_TKIP | IW_ENC_CAPA_CIPHER_CCMP;
++#endif
++
++#ifdef IW_SCAN_CAPA_ESSID /* WIRELESS_EXT > 21 */
++	range->scan_capa = IW_SCAN_CAPA_ESSID | IW_SCAN_CAPA_TYPE | IW_SCAN_CAPA_BSSID |
++		   IW_SCAN_CAPA_CHANNEL | IW_SCAN_CAPA_MODE | IW_SCAN_CAPA_RATE;
++#endif
++
++
++
++	return 0;
++
++}
++
++/* set bssid flow
++ * s1. rtw_set_802_11_infrastructure_mode()
++ * s2. rtw_set_802_11_authentication_mode()
++ * s3. set_802_11_encryption_mode()
++ * s4. rtw_set_802_11_bssid() */
++static int rtw_wx_set_wap(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *awrq,
++			  char *extra)
++{
++	_irqL	irqL;
++	uint ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct sockaddr *temp = (struct sockaddr *)awrq;
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	_list	*phead;
++	u8 *dst_bssid, *src_bssid;
++	_queue	*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	NDIS_802_11_AUTHENTICATION_MODE	authmode;
++
++	/*
++	#ifdef CONFIG_CONCURRENT_MODE
++		if(padapter->adapter_type > PRIMARY_IFACE)
++		{
++			ret = -EINVAL;
++			goto exit;
++		}
++	#endif
++	*/
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_buddy_check_fwstate(padapter, _FW_UNDER_SURVEY | _FW_UNDER_LINKING) == _TRUE) {
++		RTW_INFO("set bssid, but buddy_intf is under scanning or linking\n");
++
++		ret = -EINVAL;
++
++		goto exit;
++	}
++#endif
++
++	rtw_ps_deny(padapter, PS_DENY_JOIN);
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++	if (!padapter->bup) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++
++	if (temp->sa_family != ARPHRD_ETHER) {
++		ret = -EINVAL;
++		goto cancel_ps_deny;
++	}
++
++	authmode = padapter->securitypriv.ndisauthtype;
++	_enter_critical_bh(&queue->lock, &irqL);
++	phead = get_list_head(queue);
++	pmlmepriv->pscanned = get_next(phead);
++
++	while (1) {
++
++		if ((rtw_end_of_queue_search(phead, pmlmepriv->pscanned)) == _TRUE) {
++#if 0
++			ret = -EINVAL;
++			goto cancel_ps_deny;
++
++			if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) {
++				rtw_set_802_11_bssid(padapter, temp->sa_data);
++				goto cancel_ps_deny;
++			} else {
++				ret = -EINVAL;
++				goto cancel_ps_deny;
++			}
++#endif
++
++			break;
++		}
++
++		pnetwork = LIST_CONTAINOR(pmlmepriv->pscanned, struct wlan_network, list);
++
++		pmlmepriv->pscanned = get_next(pmlmepriv->pscanned);
++
++		dst_bssid = pnetwork->network.MacAddress;
++
++		src_bssid = temp->sa_data;
++
++		if ((_rtw_memcmp(dst_bssid, src_bssid, ETH_ALEN)) == _TRUE) {
++			if (!rtw_set_802_11_infrastructure_mode(padapter, pnetwork->network.InfrastructureMode)) {
++				ret = -1;
++				_exit_critical_bh(&queue->lock, &irqL);
++				goto cancel_ps_deny;
++			}
++
++			break;
++		}
++
++	}
++	_exit_critical_bh(&queue->lock, &irqL);
++
++	rtw_set_802_11_authentication_mode(padapter, authmode);
++	/* set_802_11_encryption_mode(padapter, padapter->securitypriv.ndisencryptstatus); */
++	if (rtw_set_802_11_bssid(padapter, temp->sa_data) == _FALSE) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++cancel_ps_deny:
++	rtw_ps_deny_cancel(padapter, PS_DENY_JOIN);
++
++exit:
++	return ret;
++}
++
++static int rtw_wx_get_wap(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX  *pcur_bss = &pmlmepriv->cur_network.network;
++
++	wrqu->ap_addr.sa_family = ARPHRD_ETHER;
++
++	_rtw_memset(wrqu->ap_addr.sa_data, 0, ETH_ALEN);
++
++
++
++	if (((check_fwstate(pmlmepriv, _FW_LINKED)) == _TRUE) ||
++	    ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE)) == _TRUE) ||
++	    ((check_fwstate(pmlmepriv, WIFI_AP_STATE)) == _TRUE))
++
++		_rtw_memcpy(wrqu->ap_addr.sa_data, pcur_bss->MacAddress, ETH_ALEN);
++	else
++		_rtw_memset(wrqu->ap_addr.sa_data, 0, ETH_ALEN);
++
++
++	return 0;
++
++}
++
++static int rtw_wx_set_mlme(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++#if 0
++	/* SIOCSIWMLME data */
++	struct	iw_mlme {
++		__u16		cmd; /* IW_MLME_* */
++		__u16		reason_code;
++		struct sockaddr	addr;
++	};
++#endif
++
++	int ret = 0;
++	u16 reason;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_mlme *mlme = (struct iw_mlme *) extra;
++
++
++	if (mlme == NULL)
++		return -1;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	reason = cpu_to_le16(mlme->reason_code);
++
++
++	RTW_INFO("%s, cmd=%d, reason=%d\n", __FUNCTION__, mlme->cmd, reason);
++
++
++	switch (mlme->cmd) {
++	case IW_MLME_DEAUTH:
++		if (!rtw_set_802_11_disassociate(padapter))
++			ret = -1;
++		break;
++
++	case IW_MLME_DISASSOC:
++		if (!rtw_set_802_11_disassociate(padapter))
++			ret = -1;
++
++		break;
++
++	default:
++		return -EOPNOTSUPP;
++	}
++
++	return ret;
++}
++
++static int rtw_wx_set_scan(struct net_device *dev, struct iw_request_info *a,
++			   union iwreq_data *wrqu, char *extra)
++{
++	u8 _status = _FALSE;
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	NDIS_802_11_SSID ssid[RTW_SSID_SCAN_AMOUNT];
++
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++
++
++#ifdef DBG_IOCTL
++	RTW_INFO("DBG_IOCTL %s:%d\n", __FUNCTION__, __LINE__);
++#endif
++
++#ifdef CONFIG_MP_INCLUDED
++	if (rtw_mi_mp_mode_check(padapter)) {
++		RTW_INFO("MP mode block Scan request\n");
++		ret = -EPERM;
++		goto exit;
++	}
++#endif
++	if (rtw_is_scan_deny(padapter)) {
++		indicate_wx_scan_complete_event(padapter);
++		goto exit;
++	}
++
++	rtw_ps_deny(padapter, PS_DENY_SCAN);
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++	if (!rtw_is_adapter_up(padapter)) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++#ifndef CONFIG_DOSCAN_IN_BUSYTRAFFIC
++	/* When Busy Traffic, driver do not site survey. So driver return success. */
++	/* wpa_supplicant will not issue SIOCSIWSCAN cmd again after scan timeout. */
++	/* modify by thomas 2011-02-22. */
++	if (rtw_mi_busy_traffic_check(padapter, _FALSE)) {
++		indicate_wx_scan_complete_event(padapter);
++		goto cancel_ps_deny;
++	}
++#endif
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) && check_fwstate(pmlmepriv, WIFI_UNDER_WPS)) {
++		RTW_INFO("AP mode process WPS\n");
++		indicate_wx_scan_complete_event(padapter);
++		goto cancel_ps_deny;
++	}
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY | _FW_UNDER_LINKING) == _TRUE) {
++		indicate_wx_scan_complete_event(padapter);
++		goto cancel_ps_deny;
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_buddy_check_fwstate(padapter,
++		       _FW_UNDER_SURVEY | _FW_UNDER_LINKING | WIFI_UNDER_WPS)) {
++
++		indicate_wx_scan_complete_event(padapter);
++		goto cancel_ps_deny;
++	}
++#endif
++
++#ifdef CONFIG_P2P
++	if (pwdinfo->p2p_state != P2P_STATE_NONE) {
++		rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH);
++		rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_FULL);
++		rtw_free_network_queue(padapter, _TRUE);
++	}
++#endif /* CONFIG_P2P */
++
++	_rtw_memset(ssid, 0, sizeof(NDIS_802_11_SSID) * RTW_SSID_SCAN_AMOUNT);
++
++#if WIRELESS_EXT >= 17
++	if (wrqu->data.length == sizeof(struct iw_scan_req)) {
++		struct iw_scan_req *req = (struct iw_scan_req *)extra;
++
++		if (wrqu->data.flags & IW_SCAN_THIS_ESSID) {
++			int len = min((int)req->essid_len, IW_ESSID_MAX_SIZE);
++
++			_rtw_memcpy(ssid[0].Ssid, req->essid, len);
++			ssid[0].SsidLength = len;
++
++			RTW_INFO("IW_SCAN_THIS_ESSID, ssid=%s, len=%d\n", req->essid, req->essid_len);
++
++			_status = rtw_set_802_11_bssid_list_scan(padapter, ssid, 1, NULL, 0);
++
++		} else if (req->scan_type == IW_SCAN_TYPE_PASSIVE)
++			RTW_INFO("rtw_wx_set_scan, req->scan_type == IW_SCAN_TYPE_PASSIVE\n");
++
++	} else
++#endif
++
++		if (wrqu->data.length >= WEXT_CSCAN_HEADER_SIZE
++		    && _rtw_memcmp(extra, WEXT_CSCAN_HEADER, WEXT_CSCAN_HEADER_SIZE) == _TRUE
++		   ) {
++			int len = wrqu->data.length - WEXT_CSCAN_HEADER_SIZE;
++			char *pos = extra + WEXT_CSCAN_HEADER_SIZE;
++			char section;
++			char sec_len;
++			int ssid_index = 0;
++
++			/* RTW_INFO("%s COMBO_SCAN header is recognized\n", __FUNCTION__); */
++
++			while (len >= 1) {
++				section = *(pos++);
++				len -= 1;
++
++				switch (section) {
++				case WEXT_CSCAN_SSID_SECTION:
++					/* RTW_INFO("WEXT_CSCAN_SSID_SECTION\n"); */
++					if (len < 1) {
++						len = 0;
++						break;
++					}
++
++					sec_len = *(pos++);
++					len -= 1;
++
++					if (sec_len > 0 && sec_len <= len) {
++						ssid[ssid_index].SsidLength = sec_len;
++						_rtw_memcpy(ssid[ssid_index].Ssid, pos, ssid[ssid_index].SsidLength);
++						/* RTW_INFO("%s COMBO_SCAN with specific ssid:%s, %d\n", __FUNCTION__ */
++						/*	, ssid[ssid_index].Ssid, ssid[ssid_index].SsidLength); */
++						ssid_index++;
++					}
++
++					pos += sec_len;
++					len -= sec_len;
++					break;
++
++
++				case WEXT_CSCAN_CHANNEL_SECTION:
++					/* RTW_INFO("WEXT_CSCAN_CHANNEL_SECTION\n"); */
++					pos += 1;
++					len -= 1;
++					break;
++				case WEXT_CSCAN_ACTV_DWELL_SECTION:
++					/* RTW_INFO("WEXT_CSCAN_ACTV_DWELL_SECTION\n"); */
++					pos += 2;
++					len -= 2;
++					break;
++				case WEXT_CSCAN_PASV_DWELL_SECTION:
++					/* RTW_INFO("WEXT_CSCAN_PASV_DWELL_SECTION\n"); */
++					pos += 2;
++					len -= 2;
++					break;
++				case WEXT_CSCAN_HOME_DWELL_SECTION:
++					/* RTW_INFO("WEXT_CSCAN_HOME_DWELL_SECTION\n"); */
++					pos += 2;
++					len -= 2;
++					break;
++				case WEXT_CSCAN_TYPE_SECTION:
++					/* RTW_INFO("WEXT_CSCAN_TYPE_SECTION\n"); */
++					pos += 1;
++					len -= 1;
++					break;
++#if 0
++				case WEXT_CSCAN_NPROBE_SECTION:
++					RTW_INFO("WEXT_CSCAN_NPROBE_SECTION\n");
++					break;
++#endif
++
++				default:
++					/* RTW_INFO("Unknown CSCAN section %c\n", section); */
++					len = 0; /* stop parsing */
++				}
++				/* RTW_INFO("len:%d\n", len); */
++
++			}
++
++			/* jeff: it has still some scan paramater to parse, we only do this now... */
++			_status = rtw_set_802_11_bssid_list_scan(padapter, ssid, RTW_SSID_SCAN_AMOUNT, NULL, 0);
++
++		} else
++
++			_status = rtw_set_802_11_bssid_list_scan(padapter, NULL, 0, NULL, 0);
++
++	if (_status == _FALSE)
++		ret = -1;
++
++cancel_ps_deny:
++	rtw_ps_deny_cancel(padapter, PS_DENY_SCAN);
++
++exit:
++#ifdef DBG_IOCTL
++	RTW_INFO("DBG_IOCTL %s:%d return %d\n", __FUNCTION__, __LINE__, ret);
++#endif
++
++	return ret;
++}
++
++static int rtw_wx_get_scan(struct net_device *dev, struct iw_request_info *a,
++			   union iwreq_data *wrqu, char *extra)
++{
++	_irqL	irqL;
++	_list					*plist, *phead;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	_queue				*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	char *ev = extra;
++	char *stop = ev + wrqu->data.length;
++	u32 ret = 0;
++	u32 cnt = 0;
++	u32 wait_for_surveydone;
++	sint wait_status;
++
++#ifdef CONFIG_P2P
++	struct	wifidirect_info	*pwdinfo = &padapter->wdinfo;
++#endif /* CONFIG_P2P */
++
++
++#ifdef DBG_IOCTL
++	RTW_INFO("DBG_IOCTL %s:%d\n", __FUNCTION__, __LINE__);
++#endif
++
++	if (adapter_to_pwrctl(padapter)->brfoffbyhw && rtw_is_drv_stopped(padapter)) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++#ifdef CONFIG_P2P
++	if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		wait_for_surveydone = 200;
++	else {
++		/*	P2P is disabled */
++		wait_for_surveydone = 100;
++	}
++#else
++	{
++		wait_for_surveydone = 100;
++	}
++#endif /* CONFIG_P2P */
++
++#if 1 /* Wireless Extension use EAGAIN to try */
++	wait_status = _FW_UNDER_SURVEY
++#ifndef CONFIG_ANDROID
++		      | _FW_UNDER_LINKING
++#endif
++		      ;
++
++	while (check_fwstate(pmlmepriv, wait_status) == _TRUE)
++		return -EAGAIN;
++#else
++	wait_status = _FW_UNDER_SURVEY
++#ifndef CONFIG_ANDROID
++		      | _FW_UNDER_LINKING
++#endif
++		      ;
++
++	while (check_fwstate(pmlmepriv, wait_status) == _TRUE) {
++		rtw_msleep_os(30);
++		cnt++;
++		if (cnt > wait_for_surveydone)
++			break;
++	}
++#endif
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		if ((stop - ev) < SCAN_ITEM_SIZE) {
++			ret = -E2BIG;
++			break;
++		}
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		/* report network only if the current channel set contains the channel to which this network belongs */
++		if (rtw_ch_set_search_ch(padapter->mlmeextpriv.channel_set, pnetwork->network.Configuration.DSConfig) >= 0
++		    && rtw_mlme_band_check(padapter, pnetwork->network.Configuration.DSConfig) == _TRUE
++		    && _TRUE == rtw_validate_ssid(&(pnetwork->network.Ssid))
++		   )
++			ev = translate_scan(padapter, a, pnetwork, ev, stop);
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	wrqu->data.length = ev - extra;
++	wrqu->data.flags = 0;
++
++exit:
++
++
++#ifdef DBG_IOCTL
++	RTW_INFO("DBG_IOCTL %s:%d return %d\n", __FUNCTION__, __LINE__, ret);
++#endif
++
++	return ret ;
++
++}
++
++/* set ssid flow
++ * s1. rtw_set_802_11_infrastructure_mode()
++ * s2. set_802_11_authenticaion_mode()
++ * s3. set_802_11_encryption_mode()
++ * s4. rtw_set_802_11_ssid() */
++static int rtw_wx_set_essid(struct net_device *dev,
++			    struct iw_request_info *a,
++			    union iwreq_data *wrqu, char *extra)
++{
++	_irqL irqL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_queue *queue = &pmlmepriv->scanned_queue;
++	_list *phead;
++	s8 status = _TRUE;
++	struct wlan_network *pnetwork = NULL;
++	NDIS_802_11_AUTHENTICATION_MODE authmode;
++	NDIS_802_11_SSID ndis_ssid;
++	u8 *dst_ssid, *src_ssid;
++
++	uint ret = 0, len;
++
++
++#ifdef DBG_IOCTL
++	RTW_INFO("DBG_IOCTL %s:%d\n", __FUNCTION__, __LINE__);
++#endif
++#ifdef CONFIG_WEXT_DONT_JOIN_BYSSID
++	RTW_INFO("%s: CONFIG_WEXT_DONT_JOIN_BYSSID be defined!! only allow bssid joining\n", __func__);
++	return -EPERM;
++#endif
++
++#if WIRELESS_EXT <= 20
++	if ((wrqu->essid.length - 1) > IW_ESSID_MAX_SIZE) {
++#else
++	if (wrqu->essid.length > IW_ESSID_MAX_SIZE) {
++#endif
++		ret = -E2BIG;
++		goto exit;
++	}
++
++
++
++	rtw_ps_deny(padapter, PS_DENY_JOIN);
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++	if (!padapter->bup) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_buddy_check_fwstate(padapter, _FW_UNDER_SURVEY | _FW_UNDER_LINKING)) {
++		RTW_INFO("set ssid, but buddy_intf is under scanning or linking\n");
++		ret = -EINVAL;
++		goto cancel_ps_deny;
++	}
++#endif
++	authmode = padapter->securitypriv.ndisauthtype;
++	RTW_INFO("=>%s\n", __FUNCTION__);
++	if (wrqu->essid.flags && wrqu->essid.length) {
++		/* Commented by Albert 20100519 */
++		/* We got the codes in "set_info" function of iwconfig source code. */
++		/*	========================================= */
++		/*	wrq.u.essid.length = strlen(essid) + 1; */
++		/*	if(we_kernel_version > 20) */
++		/*		wrq.u.essid.length--; */
++		/*	========================================= */
++		/*	That means, if the WIRELESS_EXT less than or equal to 20, the correct ssid len should subtract 1. */
++#if WIRELESS_EXT <= 20
++		len = ((wrqu->essid.length - 1) < IW_ESSID_MAX_SIZE) ? (wrqu->essid.length - 1) : IW_ESSID_MAX_SIZE;
++#else
++		len = (wrqu->essid.length < IW_ESSID_MAX_SIZE) ? wrqu->essid.length : IW_ESSID_MAX_SIZE;
++#endif
++
++		if (wrqu->essid.length != 33)
++			RTW_INFO("ssid=%s, len=%d\n", extra, wrqu->essid.length);
++
++		_rtw_memset(&ndis_ssid, 0, sizeof(NDIS_802_11_SSID));
++		ndis_ssid.SsidLength = len;
++		_rtw_memcpy(ndis_ssid.Ssid, extra, len);
++		src_ssid = ndis_ssid.Ssid;
++
++		_enter_critical_bh(&queue->lock, &irqL);
++		phead = get_list_head(queue);
++		pmlmepriv->pscanned = get_next(phead);
++
++		while (1) {
++			if (rtw_end_of_queue_search(phead, pmlmepriv->pscanned) == _TRUE) {
++#if 0
++				if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) {
++					rtw_set_802_11_ssid(padapter, &ndis_ssid);
++
++					goto cancel_ps_deny;
++				} else {
++					ret = -EINVAL;
++					goto cancel_ps_deny;
++				}
++#endif
++
++				break;
++			}
++
++			pnetwork = LIST_CONTAINOR(pmlmepriv->pscanned, struct wlan_network, list);
++
++			pmlmepriv->pscanned = get_next(pmlmepriv->pscanned);
++
++			dst_ssid = pnetwork->network.Ssid.Ssid;
++
++
++			if ((_rtw_memcmp(dst_ssid, src_ssid, ndis_ssid.SsidLength) == _TRUE) &&
++			    (pnetwork->network.Ssid.SsidLength == ndis_ssid.SsidLength)) {
++
++				if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) {
++					if (pnetwork->network.InfrastructureMode != pmlmepriv->cur_network.network.InfrastructureMode)
++						continue;
++				}
++
++				if (rtw_set_802_11_infrastructure_mode(padapter, pnetwork->network.InfrastructureMode) == _FALSE) {
++					ret = -1;
++					_exit_critical_bh(&queue->lock, &irqL);
++					goto cancel_ps_deny;
++				}
++
++				break;
++			}
++		}
++		_exit_critical_bh(&queue->lock, &irqL);
++		rtw_set_802_11_authentication_mode(padapter, authmode);
++		/* set_802_11_encryption_mode(padapter, padapter->securitypriv.ndisencryptstatus); */
++		if (rtw_set_802_11_ssid(padapter, &ndis_ssid) == _FALSE) {
++			ret = -1;
++			goto cancel_ps_deny;
++		}
++	}
++
++cancel_ps_deny:
++	rtw_ps_deny_cancel(padapter, PS_DENY_JOIN);
++
++exit:
++	RTW_INFO("<=%s, ret %d\n", __FUNCTION__, ret);
++
++#ifdef DBG_IOCTL
++	RTW_INFO("DBG_IOCTL %s:%d return %d\n", __FUNCTION__, __LINE__, ret);
++#endif
++
++
++	return ret;
++}
++
++static int rtw_wx_get_essid(struct net_device *dev,
++			    struct iw_request_info *a,
++			    union iwreq_data *wrqu, char *extra)
++{
++	u32 len, ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX  *pcur_bss = &pmlmepriv->cur_network.network;
++
++
++
++	if ((check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) ||
++	    (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE)) {
++		len = pcur_bss->Ssid.SsidLength;
++
++		wrqu->essid.length = len;
++
++		_rtw_memcpy(extra, pcur_bss->Ssid.Ssid, len);
++
++		wrqu->essid.flags = 1;
++	} else {
++		ret = -1;
++		goto exit;
++	}
++
++exit:
++
++
++	return ret;
++
++}
++
++static int rtw_wx_set_rate(struct net_device *dev,
++			   struct iw_request_info *a,
++			   union iwreq_data *wrqu, char *extra)
++{
++	int	i, ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8	datarates[NumRates];
++	u32	target_rate = wrqu->bitrate.value;
++	u32	fixed = wrqu->bitrate.fixed;
++	u32	ratevalue = 0;
++	u8 mpdatarate[NumRates] = {11, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1, 0, 0xff};
++
++
++
++	if (target_rate == -1) {
++		ratevalue = 11;
++		goto set_rate;
++	}
++	target_rate = target_rate / 100000;
++
++	switch (target_rate) {
++	case 10:
++		ratevalue = 0;
++		break;
++	case 20:
++		ratevalue = 1;
++		break;
++	case 55:
++		ratevalue = 2;
++		break;
++	case 60:
++		ratevalue = 3;
++		break;
++	case 90:
++		ratevalue = 4;
++		break;
++	case 110:
++		ratevalue = 5;
++		break;
++	case 120:
++		ratevalue = 6;
++		break;
++	case 180:
++		ratevalue = 7;
++		break;
++	case 240:
++		ratevalue = 8;
++		break;
++	case 360:
++		ratevalue = 9;
++		break;
++	case 480:
++		ratevalue = 10;
++		break;
++	case 540:
++		ratevalue = 11;
++		break;
++	default:
++		ratevalue = 11;
++		break;
++	}
++
++set_rate:
++
++	for (i = 0; i < NumRates; i++) {
++		if (ratevalue == mpdatarate[i]) {
++			datarates[i] = mpdatarate[i];
++			if (fixed == 0)
++				break;
++		} else
++			datarates[i] = 0xff;
++
++	}
++
++	if (rtw_setdatarate_cmd(padapter, datarates) != _SUCCESS) {
++		ret = -1;
++	}
++
++
++	return ret;
++}
++
++static int rtw_wx_get_rate(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	u16 max_rate = 0;
++
++	max_rate = rtw_get_cur_max_rate((_adapter *)rtw_netdev_priv(dev));
++
++	if (max_rate == 0)
++		return -EPERM;
++
++	wrqu->bitrate.fixed = 0;	/* no auto select */
++	wrqu->bitrate.value = max_rate * 100000;
++
++	return 0;
++}
++
++static int rtw_wx_set_rts(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++
++	if (wrqu->rts.disabled)
++		padapter->registrypriv.rts_thresh = 2347;
++	else {
++		if (wrqu->rts.value < 0 ||
++		    wrqu->rts.value > 2347)
++			return -EINVAL;
++
++		padapter->registrypriv.rts_thresh = wrqu->rts.value;
++	}
++
++	RTW_INFO("%s, rts_thresh=%d\n", __func__, padapter->registrypriv.rts_thresh);
++
++
++	return 0;
++
++}
++
++static int rtw_wx_get_rts(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++
++	RTW_INFO("%s, rts_thresh=%d\n", __func__, padapter->registrypriv.rts_thresh);
++
++	wrqu->rts.value = padapter->registrypriv.rts_thresh;
++	wrqu->rts.fixed = 0;	/* no auto select */
++	/* wrqu->rts.disabled = (wrqu->rts.value == DEFAULT_RTS_THRESHOLD); */
++
++
++	return 0;
++}
++
++static int rtw_wx_set_frag(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++
++	if (wrqu->frag.disabled)
++		padapter->xmitpriv.frag_len = MAX_FRAG_THRESHOLD;
++	else {
++		if (wrqu->frag.value < MIN_FRAG_THRESHOLD ||
++		    wrqu->frag.value > MAX_FRAG_THRESHOLD)
++			return -EINVAL;
++
++		padapter->xmitpriv.frag_len = wrqu->frag.value & ~0x1;
++	}
++
++	RTW_INFO("%s, frag_len=%d\n", __func__, padapter->xmitpriv.frag_len);
++
++
++	return 0;
++
++}
++
++static int rtw_wx_get_frag(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++
++	RTW_INFO("%s, frag_len=%d\n", __func__, padapter->xmitpriv.frag_len);
++
++	wrqu->frag.value = padapter->xmitpriv.frag_len;
++	wrqu->frag.fixed = 0;	/* no auto select */
++	/* wrqu->frag.disabled = (wrqu->frag.value == DEFAULT_FRAG_THRESHOLD); */
++
++
++	return 0;
++}
++
++static int rtw_wx_get_retry(struct net_device *dev,
++			    struct iw_request_info *info,
++			    union iwreq_data *wrqu, char *extra)
++{
++	/* _adapter *padapter = (_adapter *)rtw_netdev_priv(dev); */
++
++
++	wrqu->retry.value = 7;
++	wrqu->retry.fixed = 0;	/* no auto select */
++	wrqu->retry.disabled = 1;
++
++	return 0;
++
++}
++
++#if 0
++	#define IW_ENCODE_INDEX		0x00FF	/* Token index (if needed) */
++	#define IW_ENCODE_FLAGS		0xFF00	/* Flags defined below */
++	#define IW_ENCODE_MODE		0xF000	/* Modes defined below */
++	#define IW_ENCODE_DISABLED	0x8000	/* Encoding disabled */
++	#define IW_ENCODE_ENABLED	0x0000	/* Encoding enabled */
++	#define IW_ENCODE_RESTRICTED	0x4000	/* Refuse non-encoded packets */
++	#define IW_ENCODE_OPEN		0x2000	/* Accept non-encoded packets */
++	#define IW_ENCODE_NOKEY		0x0800  /* Key is write only, so not present */
++	#define IW_ENCODE_TEMP		0x0400  /* Temporary key */
++	/*
++	iwconfig wlan0 key on->flags = 0x6001->maybe it means auto
++	iwconfig wlan0 key off->flags = 0x8800
++	iwconfig wlan0 key open->flags = 0x2800
++	iwconfig wlan0 key open 1234567890->flags = 0x2000
++	iwconfig wlan0 key restricted->flags = 0x4800
++	iwconfig wlan0 key open [3] 1234567890->flags = 0x2003
++	iwconfig wlan0 key restricted [2] 1234567890->flags = 0x4002
++	iwconfig wlan0 key open [3] -> flags = 0x2803
++	iwconfig wlan0 key restricted [2] -> flags = 0x4802
++	*/
++#endif
++
++static int rtw_wx_set_enc(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *keybuf)
++{
++	u32 key, ret = 0;
++	u32 keyindex_provided;
++	NDIS_802_11_WEP	 wep;
++	NDIS_802_11_AUTHENTICATION_MODE authmode;
++
++	struct iw_point *erq = &(wrqu->encoding);
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	RTW_INFO("+rtw_wx_set_enc, flags=0x%x\n", erq->flags);
++
++	_rtw_memset(&wep, 0, sizeof(NDIS_802_11_WEP));
++
++	key = erq->flags & IW_ENCODE_INDEX;
++
++
++	if (erq->flags & IW_ENCODE_DISABLED) {
++		RTW_INFO("EncryptionDisabled\n");
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11EncryptionDisabled;
++		padapter->securitypriv.dot11PrivacyAlgrthm = _NO_PRIVACY_;
++		padapter->securitypriv.dot118021XGrpPrivacy = _NO_PRIVACY_;
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Open; /* open system */
++		authmode = Ndis802_11AuthModeOpen;
++		padapter->securitypriv.ndisauthtype = authmode;
++
++		goto exit;
++	}
++
++	if (key) {
++		if (key > WEP_KEYS)
++			return -EINVAL;
++		key--;
++		keyindex_provided = 1;
++	} else {
++		keyindex_provided = 0;
++		key = padapter->securitypriv.dot11PrivacyKeyIndex;
++		RTW_INFO("rtw_wx_set_enc, key=%d\n", key);
++	}
++
++	/* set authentication mode	 */
++	if (erq->flags & IW_ENCODE_OPEN) {
++		RTW_INFO("rtw_wx_set_enc():IW_ENCODE_OPEN\n");
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;/* Ndis802_11EncryptionDisabled; */
++
++#ifdef CONFIG_PLATFORM_MT53XX
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++#else
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Open;
++#endif
++
++		padapter->securitypriv.dot11PrivacyAlgrthm = _NO_PRIVACY_;
++		padapter->securitypriv.dot118021XGrpPrivacy = _NO_PRIVACY_;
++		authmode = Ndis802_11AuthModeOpen;
++		padapter->securitypriv.ndisauthtype = authmode;
++	} else if (erq->flags & IW_ENCODE_RESTRICTED) {
++		RTW_INFO("rtw_wx_set_enc():IW_ENCODE_RESTRICTED\n");
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++
++#ifdef CONFIG_PLATFORM_MT53XX
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++#else
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Shared;
++#endif
++
++		padapter->securitypriv.dot11PrivacyAlgrthm = _WEP40_;
++		padapter->securitypriv.dot118021XGrpPrivacy = _WEP40_;
++		authmode = Ndis802_11AuthModeShared;
++		padapter->securitypriv.ndisauthtype = authmode;
++	} else {
++		RTW_INFO("rtw_wx_set_enc():erq->flags=0x%x\n", erq->flags);
++
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;/* Ndis802_11EncryptionDisabled; */
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Open; /* open system */
++		padapter->securitypriv.dot11PrivacyAlgrthm = _NO_PRIVACY_;
++		padapter->securitypriv.dot118021XGrpPrivacy = _NO_PRIVACY_;
++		authmode = Ndis802_11AuthModeOpen;
++		padapter->securitypriv.ndisauthtype = authmode;
++	}
++
++	wep.KeyIndex = key;
++	if (erq->length > 0) {
++		wep.KeyLength = erq->length <= 5 ? 5 : 13;
++
++		wep.Length = wep.KeyLength + FIELD_OFFSET(NDIS_802_11_WEP, KeyMaterial);
++	} else {
++		wep.KeyLength = 0 ;
++
++		if (keyindex_provided == 1) { /* set key_id only, no given KeyMaterial(erq->length==0). */
++			padapter->securitypriv.dot11PrivacyKeyIndex = key;
++
++			RTW_INFO("(keyindex_provided == 1), keyid=%d, key_len=%d\n", key, padapter->securitypriv.dot11DefKeylen[key]);
++
++			switch (padapter->securitypriv.dot11DefKeylen[key]) {
++			case 5:
++				padapter->securitypriv.dot11PrivacyAlgrthm = _WEP40_;
++				break;
++			case 13:
++				padapter->securitypriv.dot11PrivacyAlgrthm = _WEP104_;
++				break;
++			default:
++				padapter->securitypriv.dot11PrivacyAlgrthm = _NO_PRIVACY_;
++				break;
++			}
++
++			goto exit;
++
++		}
++
++	}
++
++	wep.KeyIndex |= 0x80000000;
++
++	_rtw_memcpy(wep.KeyMaterial, keybuf, wep.KeyLength);
++
++	if (rtw_set_802_11_add_wep(padapter, &wep) == _FALSE) {
++		if (rf_on == pwrpriv->rf_pwrstate)
++			ret = -EOPNOTSUPP;
++		goto exit;
++	}
++
++exit:
++
++
++	return ret;
++
++}
++
++static int rtw_wx_get_enc(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *keybuf)
++{
++	uint key, ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *erq = &(wrqu->encoding);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED) != _TRUE) {
++		if (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) != _TRUE) {
++			erq->length = 0;
++			erq->flags |= IW_ENCODE_DISABLED;
++			return 0;
++		}
++	}
++
++
++	key = erq->flags & IW_ENCODE_INDEX;
++
++	if (key) {
++		if (key > WEP_KEYS)
++			return -EINVAL;
++		key--;
++	} else
++		key = padapter->securitypriv.dot11PrivacyKeyIndex;
++
++	erq->flags = key + 1;
++
++	/* if(padapter->securitypriv.ndisauthtype == Ndis802_11AuthModeOpen) */
++	/* { */
++	/* erq->flags |= IW_ENCODE_OPEN; */
++	/* }	  */
++
++	switch (padapter->securitypriv.ndisencryptstatus) {
++	case Ndis802_11EncryptionNotSupported:
++	case Ndis802_11EncryptionDisabled:
++
++		erq->length = 0;
++		erq->flags |= IW_ENCODE_DISABLED;
++
++		break;
++
++	case Ndis802_11Encryption1Enabled:
++
++		erq->length = padapter->securitypriv.dot11DefKeylen[key];
++
++		if (erq->length) {
++			_rtw_memcpy(keybuf, padapter->securitypriv.dot11DefKey[key].skey, padapter->securitypriv.dot11DefKeylen[key]);
++
++			erq->flags |= IW_ENCODE_ENABLED;
++
++			if (padapter->securitypriv.ndisauthtype == Ndis802_11AuthModeOpen)
++				erq->flags |= IW_ENCODE_OPEN;
++			else if (padapter->securitypriv.ndisauthtype == Ndis802_11AuthModeShared)
++				erq->flags |= IW_ENCODE_RESTRICTED;
++		} else {
++			erq->length = 0;
++			erq->flags |= IW_ENCODE_DISABLED;
++		}
++
++		break;
++
++	case Ndis802_11Encryption2Enabled:
++	case Ndis802_11Encryption3Enabled:
++
++		erq->length = 16;
++		erq->flags |= (IW_ENCODE_ENABLED | IW_ENCODE_OPEN | IW_ENCODE_NOKEY);
++
++		break;
++
++	default:
++		erq->length = 0;
++		erq->flags |= IW_ENCODE_DISABLED;
++
++		break;
++
++	}
++
++
++	return ret;
++
++}
++
++static int rtw_wx_get_power(struct net_device *dev,
++			    struct iw_request_info *info,
++			    union iwreq_data *wrqu, char *extra)
++{
++	/* _adapter *padapter = (_adapter *)rtw_netdev_priv(dev); */
++
++	wrqu->power.value = 0;
++	wrqu->power.fixed = 0;	/* no auto select */
++	wrqu->power.disabled = 1;
++
++	return 0;
++
++}
++
++static int rtw_wx_set_gen_ie(struct net_device *dev,
++			     struct iw_request_info *info,
++			     union iwreq_data *wrqu, char *extra)
++{
++	int ret;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	ret = rtw_set_wpa_ie(padapter, extra, wrqu->data.length);
++
++	return ret;
++}
++
++static int rtw_wx_set_auth(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_param *param = (struct iw_param *)&(wrqu->param);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u32 value = param->value;
++	int ret = 0;
++
++	switch (param->flags & IW_AUTH_INDEX) {
++
++	case IW_AUTH_WPA_VERSION:
++#ifdef CONFIG_WAPI_SUPPORT
++#ifndef CONFIG_IOCTL_CFG80211
++		padapter->wapiInfo.bWapiEnable = false;
++		if (value == IW_AUTH_WAPI_VERSION_1) {
++			padapter->wapiInfo.bWapiEnable = true;
++			psecuritypriv->dot11PrivacyAlgrthm = _SMS4_;
++			psecuritypriv->dot118021XGrpPrivacy = _SMS4_;
++			psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_WAPI;
++			pmlmeinfo->auth_algo = psecuritypriv->dot11AuthAlgrthm;
++			padapter->wapiInfo.extra_prefix_len = WAPI_EXT_LEN;
++			padapter->wapiInfo.extra_postfix_len = SMS4_MIC_LEN;
++		}
++#endif
++#endif
++		break;
++	case IW_AUTH_CIPHER_PAIRWISE:
++
++		break;
++	case IW_AUTH_CIPHER_GROUP:
++
++		break;
++	case IW_AUTH_KEY_MGMT:
++#ifdef CONFIG_WAPI_SUPPORT
++#ifndef CONFIG_IOCTL_CFG80211
++		RTW_INFO("rtw_wx_set_auth: IW_AUTH_KEY_MGMT case\n");
++		if (value == IW_AUTH_KEY_MGMT_WAPI_PSK)
++			padapter->wapiInfo.bWapiPSK = true;
++		else
++			padapter->wapiInfo.bWapiPSK = false;
++		RTW_INFO("rtw_wx_set_auth: IW_AUTH_KEY_MGMT bwapipsk %d\n", padapter->wapiInfo.bWapiPSK);
++#endif
++#endif
++		/*
++		 *  ??? does not use these parameters
++		 */
++		break;
++
++	case IW_AUTH_TKIP_COUNTERMEASURES: {
++		if (param->value) {
++			/* wpa_supplicant is enabling the tkip countermeasure. */
++			padapter->securitypriv.btkip_countermeasure = _TRUE;
++		} else {
++			/* wpa_supplicant is disabling the tkip countermeasure. */
++			padapter->securitypriv.btkip_countermeasure = _FALSE;
++		}
++		break;
++	}
++	case IW_AUTH_DROP_UNENCRYPTED: {
++		/* HACK:
++		 *
++		 * wpa_supplicant calls set_wpa_enabled when the driver
++		 * is loaded and unloaded, regardless of if WPA is being
++		 * used.  No other calls are made which can be used to
++		 * determine if encryption will be used or not prior to
++		 * association being expected.  If encryption is not being
++		 * used, drop_unencrypted is set to false, else true -- we
++		 * can use this to determine if the CAP_PRIVACY_ON bit should
++		 * be set.
++		 */
++
++		if (padapter->securitypriv.ndisencryptstatus == Ndis802_11Encryption1Enabled) {
++			break;/* it means init value, or using wep, ndisencryptstatus = Ndis802_11Encryption1Enabled, */
++			/* then it needn't reset it; */
++		}
++
++		if (param->value) {
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11EncryptionDisabled;
++			padapter->securitypriv.dot11PrivacyAlgrthm = _NO_PRIVACY_;
++			padapter->securitypriv.dot118021XGrpPrivacy = _NO_PRIVACY_;
++			padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Open; /* open system */
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeOpen;
++		}
++
++		break;
++	}
++
++	case IW_AUTH_80211_AUTH_ALG:
++
++#if defined(CONFIG_ANDROID) || 1
++		/*
++		 *  It's the starting point of a link layer connection using wpa_supplicant
++		*/
++		if (check_fwstate(&padapter->mlmepriv, _FW_LINKED)) {
++			LeaveAllPowerSaveMode(padapter);
++			rtw_disassoc_cmd(padapter, 500, _FALSE);
++			RTW_INFO("%s...call rtw_indicate_disconnect\n ", __FUNCTION__);
++			rtw_indicate_disconnect(padapter, 0, _FALSE);
++			rtw_free_assoc_resources(padapter, 1);
++		}
++#endif
++
++
++		ret = wpa_set_auth_algs(dev, (u32)param->value);
++
++		break;
++
++	case IW_AUTH_WPA_ENABLED:
++
++		/* if(param->value) */
++		/* padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_8021X; */ /* 802.1x */
++		/* else */
++		/* padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Open; */ /* open system */
++
++		/* _disassociate(priv); */
++
++		break;
++
++	case IW_AUTH_RX_UNENCRYPTED_EAPOL:
++		/* ieee->ieee802_1x = param->value; */
++		break;
++
++	case IW_AUTH_PRIVACY_INVOKED:
++		/* ieee->privacy_invoked = param->value; */
++		break;
++
++#ifdef CONFIG_WAPI_SUPPORT
++#ifndef CONFIG_IOCTL_CFG80211
++	case IW_AUTH_WAPI_ENABLED:
++		break;
++#endif
++#endif
++
++	default:
++		return -EOPNOTSUPP;
++
++	}
++
++	return ret;
++
++}
++
++static int rtw_wx_set_enc_ext(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++	char *alg_name;
++	u32 param_len;
++	struct ieee_param *param = NULL;
++	struct iw_point *pencoding = &wrqu->encoding;
++	struct iw_encode_ext *pext = (struct iw_encode_ext *)extra;
++	int ret = 0;
++
++	param_len = sizeof(struct ieee_param) + pext->key_len;
++	param = (struct ieee_param *)rtw_malloc(param_len);
++	if (param == NULL)
++		return -1;
++
++	_rtw_memset(param, 0, param_len);
++
++	param->cmd = IEEE_CMD_SET_ENCRYPTION;
++	_rtw_memset(param->sta_addr, 0xff, ETH_ALEN);
++
++
++	switch (pext->alg) {
++	case IW_ENCODE_ALG_NONE:
++		/* todo: remove key */
++		/* remove = 1;	 */
++		alg_name = "none";
++		break;
++	case IW_ENCODE_ALG_WEP:
++		alg_name = "WEP";
++		break;
++	case IW_ENCODE_ALG_TKIP:
++		alg_name = "TKIP";
++		break;
++	case IW_ENCODE_ALG_CCMP:
++		alg_name = "CCMP";
++		break;
++#ifdef CONFIG_IEEE80211W
++	case IW_ENCODE_ALG_AES_CMAC:
++		alg_name = "BIP";
++		break;
++#endif /* CONFIG_IEEE80211W */
++#ifdef CONFIG_WAPI_SUPPORT
++#ifndef CONFIG_IOCTL_CFG80211
++	case IW_ENCODE_ALG_SM4:
++		alg_name = "SMS4";
++		_rtw_memcpy(param->sta_addr, pext->addr.sa_data, ETH_ALEN);
++		RTW_INFO("rtw_wx_set_enc_ext: SMS4 case\n");
++		break;
++#endif
++#endif
++	default:
++		ret = -1;
++		goto exit;
++	}
++
++	strncpy((char *)param->u.crypt.alg, alg_name, IEEE_CRYPT_ALG_NAME_LEN);
++
++	if (pext->ext_flags & IW_ENCODE_EXT_SET_TX_KEY)
++		param->u.crypt.set_tx = 1;
++
++	/* cliW: WEP does not have group key
++	 * just not checking GROUP key setting
++	 */
++	if ((pext->alg != IW_ENCODE_ALG_WEP) &&
++	    ((pext->ext_flags & IW_ENCODE_EXT_GROUP_KEY)
++#ifdef CONFIG_IEEE80211W
++	     || (pext->ext_flags & IW_ENCODE_ALG_AES_CMAC)
++#endif /* CONFIG_IEEE80211W */
++	    ))
++		param->u.crypt.set_tx = 0;
++
++	param->u.crypt.idx = (pencoding->flags & 0x00FF) - 1 ;
++
++	if (pext->ext_flags & IW_ENCODE_EXT_RX_SEQ_VALID) {
++#ifdef CONFIG_WAPI_SUPPORT
++#ifndef CONFIG_IOCTL_CFG80211
++		if (pext->alg == IW_ENCODE_ALG_SM4)
++			_rtw_memcpy(param->u.crypt.seq, pext->rx_seq, 16);
++		else
++#endif /* CONFIG_IOCTL_CFG80211 */
++#endif /* CONFIG_WAPI_SUPPORT */
++			_rtw_memcpy(param->u.crypt.seq, pext->rx_seq, 8);
++	}
++
++	if (pext->key_len) {
++		param->u.crypt.key_len = pext->key_len;
++		/* _rtw_memcpy(param + 1, pext + 1, pext->key_len); */
++		_rtw_memcpy(param->u.crypt.key, pext + 1, pext->key_len);
++	}
++
++	if (pencoding->flags & IW_ENCODE_DISABLED) {
++		/* todo: remove key */
++		/* remove = 1; */
++	}
++
++	ret =  wpa_set_encryption(dev, param, param_len);
++
++exit:
++	if (param)
++		rtw_mfree((u8 *)param, param_len);
++
++	return ret;
++}
++
++
++static int rtw_wx_get_nick(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	/* _adapter *padapter = (_adapter *)rtw_netdev_priv(dev); */
++	/* struct mlme_priv *pmlmepriv = &(padapter->mlmepriv); */
++	/* struct security_priv *psecuritypriv = &padapter->securitypriv; */
++
++	if (extra) {
++		wrqu->data.length = 14;
++		wrqu->data.flags = 1;
++		_rtw_memcpy(extra, "<WIFI@REALTEK>", 14);
++	}
++
++	/* rtw_signal_process(pid, SIGUSR1); */ /* for test */
++
++	/* dump debug info here	 */
++#if 0
++	u32 dot11AuthAlgrthm;		/*  802.11 auth, could be open, shared, and 8021x */
++	u32 dot11PrivacyAlgrthm;	/*  This specify the privacy for shared auth. algorithm. */
++	u32 dot118021XGrpPrivacy;	/*  This specify the privacy algthm. used for Grp key */
++	u32 ndisauthtype;
++	u32 ndisencryptstatus;
++#endif
++
++	/* RTW_INFO("auth_alg=0x%x, enc_alg=0x%x, auth_type=0x%x, enc_type=0x%x\n",  */
++	/*		psecuritypriv->dot11AuthAlgrthm, psecuritypriv->dot11PrivacyAlgrthm, */
++	/*		psecuritypriv->ndisauthtype, psecuritypriv->ndisencryptstatus); */
++
++	/* RTW_INFO("enc_alg=0x%x\n", psecuritypriv->dot11PrivacyAlgrthm); */
++	/* RTW_INFO("auth_type=0x%x\n", psecuritypriv->ndisauthtype); */
++	/* RTW_INFO("enc_type=0x%x\n", psecuritypriv->ndisencryptstatus); */
++
++#if 0
++	RTW_INFO("dbg(0x210)=0x%x\n", rtw_read32(padapter, 0x210));
++	RTW_INFO("dbg(0x608)=0x%x\n", rtw_read32(padapter, 0x608));
++	RTW_INFO("dbg(0x280)=0x%x\n", rtw_read32(padapter, 0x280));
++	RTW_INFO("dbg(0x284)=0x%x\n", rtw_read32(padapter, 0x284));
++	RTW_INFO("dbg(0x288)=0x%x\n", rtw_read32(padapter, 0x288));
++
++	RTW_INFO("dbg(0x664)=0x%x\n", rtw_read32(padapter, 0x664));
++
++
++	RTW_INFO("\n");
++
++	RTW_INFO("dbg(0x430)=0x%x\n", rtw_read32(padapter, 0x430));
++	RTW_INFO("dbg(0x438)=0x%x\n", rtw_read32(padapter, 0x438));
++
++	RTW_INFO("dbg(0x440)=0x%x\n", rtw_read32(padapter, 0x440));
++
++	RTW_INFO("dbg(0x458)=0x%x\n", rtw_read32(padapter, 0x458));
++
++	RTW_INFO("dbg(0x484)=0x%x\n", rtw_read32(padapter, 0x484));
++	RTW_INFO("dbg(0x488)=0x%x\n", rtw_read32(padapter, 0x488));
++
++	RTW_INFO("dbg(0x444)=0x%x\n", rtw_read32(padapter, 0x444));
++	RTW_INFO("dbg(0x448)=0x%x\n", rtw_read32(padapter, 0x448));
++	RTW_INFO("dbg(0x44c)=0x%x\n", rtw_read32(padapter, 0x44c));
++	RTW_INFO("dbg(0x450)=0x%x\n", rtw_read32(padapter, 0x450));
++#endif
++
++	return 0;
++
++}
++
++static int rtw_wx_read32(struct net_device *dev,
++			 struct iw_request_info *info,
++			 union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter;
++	struct iw_point *p;
++	u16 len;
++	u32 addr;
++	u32 data32;
++	u32 bytes;
++	u8 *ptmp;
++	int ret;
++
++
++	ret = 0;
++	padapter = (PADAPTER)rtw_netdev_priv(dev);
++	p = &wrqu->data;
++	len = p->length;
++	if (0 == len)
++		return -EINVAL;
++
++	ptmp = (u8 *)rtw_malloc(len);
++	if (NULL == ptmp)
++		return -ENOMEM;
++
++	if (copy_from_user(ptmp, p->pointer, len)) {
++		ret = -EFAULT;
++		goto exit;
++	}
++
++	bytes = 0;
++	addr = 0;
++	sscanf(ptmp, "%d,%x", &bytes, &addr);
++
++	switch (bytes) {
++	case 1:
++		data32 = rtw_read8(padapter, addr);
++		sprintf(extra, "0x%02X", data32);
++		break;
++	case 2:
++		data32 = rtw_read16(padapter, addr);
++		sprintf(extra, "0x%04X", data32);
++		break;
++	case 4:
++		data32 = rtw_read32(padapter, addr);
++		sprintf(extra, "0x%08X", data32);
++		break;
++
++	#if defined(CONFIG_SDIO_HCI) && defined(CONFIG_SDIO_INDIRECT_ACCESS) && defined(DBG_SDIO_INDIRECT_ACCESS)
++	case 11:
++		data32 = rtw_sd_iread8(padapter, addr);
++		sprintf(extra, "0x%02X", data32);
++		break;
++	case 12:
++		data32 = rtw_sd_iread16(padapter, addr);
++		sprintf(extra, "0x%04X", data32);
++		break;
++	case 14:
++		data32 = rtw_sd_iread32(padapter, addr);
++		sprintf(extra, "0x%08X", data32);
++		break;
++	#endif
++	default:
++		RTW_INFO("%s: usage> read [bytes],[address(hex)]\n", __func__);
++		ret = -EINVAL;
++		goto exit;
++	}
++	RTW_INFO("%s: addr=0x%08X data=%s\n", __func__, addr, extra);
++
++exit:
++	rtw_mfree(ptmp, len);
++
++	return 0;
++}
++
++static int rtw_wx_write32(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = (PADAPTER)rtw_netdev_priv(dev);
++
++	u32 addr;
++	u32 data32;
++	u32 bytes;
++
++
++	bytes = 0;
++	addr = 0;
++	data32 = 0;
++	sscanf(extra, "%d,%x,%x", &bytes, &addr, &data32);
++
++	switch (bytes) {
++	case 1:
++		rtw_write8(padapter, addr, (u8)data32);
++		RTW_INFO("%s: addr=0x%08X data=0x%02X\n", __func__, addr, (u8)data32);
++		break;
++	case 2:
++		rtw_write16(padapter, addr, (u16)data32);
++		RTW_INFO("%s: addr=0x%08X data=0x%04X\n", __func__, addr, (u16)data32);
++		break;
++	case 4:
++		rtw_write32(padapter, addr, data32);
++		RTW_INFO("%s: addr=0x%08X data=0x%08X\n", __func__, addr, data32);
++		break;
++	default:
++		RTW_INFO("%s: usage> write [bytes],[address(hex)],[data(hex)]\n", __func__);
++		return -EINVAL;
++	}
++
++	return 0;
++}
++
++static int rtw_wx_read_rf(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u32 path, addr, data32;
++
++
++	path = *(u32 *)extra;
++	addr = *((u32 *)extra + 1);
++	data32 = rtw_hal_read_rfreg(padapter, path, addr, 0xFFFFF);
++	/*	RTW_INFO("%s: path=%d addr=0x%02x data=0x%05x\n", __func__, path, addr, data32); */
++	/*
++	 * IMPORTANT!!
++	 * Only when wireless private ioctl is at odd order,
++	 * "extra" would be copied to user space.
++	 */
++	sprintf(extra, "0x%05x", data32);
++
++	return 0;
++}
++
++static int rtw_wx_write_rf(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u32 path, addr, data32;
++
++
++	path = *(u32 *)extra;
++	addr = *((u32 *)extra + 1);
++	data32 = *((u32 *)extra + 2);
++	/*	RTW_INFO("%s: path=%d addr=0x%02x data=0x%05x\n", __func__, path, addr, data32); */
++	rtw_hal_write_rfreg(padapter, path, addr, 0xFFFFF, data32);
++
++	return 0;
++}
++
++static int rtw_wx_priv_null(struct net_device *dev, struct iw_request_info *a,
++			    union iwreq_data *wrqu, char *b)
++{
++	return -1;
++}
++
++static int dummy(struct net_device *dev, struct iw_request_info *a,
++		 union iwreq_data *wrqu, char *b)
++{
++	/* _adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	 */
++	/* struct mlme_priv *pmlmepriv = &(padapter->mlmepriv); */
++
++	/* RTW_INFO("cmd_code=%x, fwstate=0x%x\n", a->cmd, get_fwstate(pmlmepriv)); */
++
++	return -1;
++
++}
++
++static int rtw_wx_set_channel_plan(struct net_device *dev,
++				   struct iw_request_info *info,
++				   union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	u8 channel_plan_req = (u8)(*((int *)wrqu));
++
++	if (_SUCCESS != rtw_set_channel_plan(padapter, channel_plan_req))
++		return -EPERM;
++
++	return 0;
++}
++
++static int rtw_wx_set_mtk_wps_probe_ie(struct net_device *dev,
++				       struct iw_request_info *a,
++				       union iwreq_data *wrqu, char *b)
++{
++#ifdef CONFIG_PLATFORM_MT53XX
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++#endif
++	return 0;
++}
++
++static int rtw_wx_get_sensitivity(struct net_device *dev,
++				  struct iw_request_info *info,
++				  union iwreq_data *wrqu, char *buf)
++{
++#ifdef CONFIG_PLATFORM_MT53XX
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	/*	Modified by Albert 20110914 */
++	/*	This is in dbm format for MTK platform. */
++	wrqu->qual.level = padapter->recvpriv.rssi;
++	RTW_INFO(" level = %u\n",  wrqu->qual.level);
++#endif
++	return 0;
++}
++
++static int rtw_wx_set_mtk_wps_ie(struct net_device *dev,
++				 struct iw_request_info *info,
++				 union iwreq_data *wrqu, char *extra)
++{
++#ifdef CONFIG_PLATFORM_MT53XX
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	return rtw_set_wpa_ie(padapter, wrqu->data.pointer, wrqu->data.length);
++#else
++	return 0;
++#endif
++}
++
++/*
++typedef int (*iw_handler)(struct net_device *dev, struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra);
++*/
++/*
++ *	For all data larger than 16 octets, we need to use a
++ *	pointer to memory allocated in user space.
++ */
++static  int rtw_drvext_hdl(struct net_device *dev, struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++
++#if 0
++	struct	iw_point {
++		void __user	*pointer;	/* Pointer to the data  (in user space) */
++		__u16		length;		/* number of fields or size in bytes */
++		__u16		flags;		/* Optional params */
++	};
++#endif
++
++#ifdef CONFIG_DRVEXT_MODULE
++	u8 res;
++	struct drvext_handler *phandler;
++	struct drvext_oidparam *poidparam;
++	int ret;
++	u16 len;
++	u8 *pparmbuf, bset;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *p = &wrqu->data;
++
++	if ((!p->length) || (!p->pointer)) {
++		ret = -EINVAL;
++		goto _rtw_drvext_hdl_exit;
++	}
++
++
++	bset = (u8)(p->flags & 0xFFFF);
++	len = p->length;
++	pparmbuf = (u8 *)rtw_malloc(len);
++	if (pparmbuf == NULL) {
++		ret = -ENOMEM;
++		goto _rtw_drvext_hdl_exit;
++	}
++
++	if (bset) { /* set info */
++		if (copy_from_user(pparmbuf, p->pointer, len)) {
++			rtw_mfree(pparmbuf, len);
++			ret = -EFAULT;
++			goto _rtw_drvext_hdl_exit;
++		}
++	} else { /* query info */
++
++	}
++
++
++	/*  */
++	poidparam = (struct drvext_oidparam *)pparmbuf;
++
++
++
++	/* check subcode	 */
++	if (poidparam->subcode >= MAX_DRVEXT_HANDLERS) {
++		ret = -EINVAL;
++		goto _rtw_drvext_hdl_exit;
++	}
++
++
++	if (poidparam->subcode >= MAX_DRVEXT_OID_SUBCODES) {
++		ret = -EINVAL;
++		goto _rtw_drvext_hdl_exit;
++	}
++
++
++	phandler = drvextoidhandlers + poidparam->subcode;
++
++	if (poidparam->len != phandler->parmsize) {
++		ret = -EINVAL;
++		goto _rtw_drvext_hdl_exit;
++	}
++
++
++	res = phandler->handler(&padapter->drvextpriv, bset, poidparam->data);
++
++	if (res == 0) {
++		ret = 0;
++
++		if (bset == 0x00) {/* query info */
++			/* _rtw_memcpy(p->pointer, pparmbuf, len); */
++			if (copy_to_user(p->pointer, pparmbuf, len))
++				ret = -EFAULT;
++		}
++	} else
++		ret = -EFAULT;
++
++
++_rtw_drvext_hdl_exit:
++
++	return ret;
++
++#endif
++
++	return 0;
++
++}
++
++static void rtw_dbg_mode_hdl(_adapter *padapter, u32 id, u8 *pdata, u32 len)
++{
++	pRW_Reg	RegRWStruct;
++	struct rf_reg_param *prfreg;
++	u8 path;
++	u8 offset;
++	u32 value;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	switch (id) {
++	case GEN_MP_IOCTL_SUBCODE(MP_START):
++		RTW_INFO("871x_driver is only for normal mode, can't enter mp mode\n");
++		break;
++	case GEN_MP_IOCTL_SUBCODE(READ_REG):
++		RegRWStruct = (pRW_Reg)pdata;
++		switch (RegRWStruct->width) {
++		case 1:
++			RegRWStruct->value = rtw_read8(padapter, RegRWStruct->offset);
++			break;
++		case 2:
++			RegRWStruct->value = rtw_read16(padapter, RegRWStruct->offset);
++			break;
++		case 4:
++			RegRWStruct->value = rtw_read32(padapter, RegRWStruct->offset);
++			break;
++		default:
++			break;
++		}
++
++		break;
++	case GEN_MP_IOCTL_SUBCODE(WRITE_REG):
++		RegRWStruct = (pRW_Reg)pdata;
++		switch (RegRWStruct->width) {
++		case 1:
++			rtw_write8(padapter, RegRWStruct->offset, (u8)RegRWStruct->value);
++			break;
++		case 2:
++			rtw_write16(padapter, RegRWStruct->offset, (u16)RegRWStruct->value);
++			break;
++		case 4:
++			rtw_write32(padapter, RegRWStruct->offset, (u32)RegRWStruct->value);
++			break;
++		default:
++			break;
++		}
++
++		break;
++	case GEN_MP_IOCTL_SUBCODE(READ_RF_REG):
++
++		prfreg = (struct rf_reg_param *)pdata;
++
++		path = (u8)prfreg->path;
++		offset = (u8)prfreg->offset;
++
++		value = rtw_hal_read_rfreg(padapter, path, offset, 0xffffffff);
++
++		prfreg->value = value;
++
++		break;
++	case GEN_MP_IOCTL_SUBCODE(WRITE_RF_REG):
++
++		prfreg = (struct rf_reg_param *)pdata;
++
++		path = (u8)prfreg->path;
++		offset = (u8)prfreg->offset;
++		value = prfreg->value;
++
++		rtw_hal_write_rfreg(padapter, path, offset, 0xffffffff, value);
++
++		break;
++	case GEN_MP_IOCTL_SUBCODE(TRIGGER_GPIO):
++		RTW_INFO("==> trigger gpio 0\n");
++		rtw_hal_set_hwreg(padapter, HW_VAR_TRIGGER_GPIO_0, 0);
++		break;
++#ifdef CONFIG_BT_COEXIST
++	case GEN_MP_IOCTL_SUBCODE(SET_DM_BT):
++		RTW_INFO("==> set dm_bt_coexist:%x\n", *(u8 *)pdata);
++		rtw_hal_set_hwreg(padapter, HW_VAR_BT_SET_COEXIST, pdata);
++		break;
++	case GEN_MP_IOCTL_SUBCODE(DEL_BA):
++		RTW_INFO("==> delete ba:%x\n", *(u8 *)pdata);
++		rtw_hal_set_hwreg(padapter, HW_VAR_BT_ISSUE_DELBA, pdata);
++		break;
++#endif
++#ifdef DBG_CONFIG_ERROR_DETECT
++	case GEN_MP_IOCTL_SUBCODE(GET_WIFI_STATUS):
++		*pdata = rtw_hal_sreset_get_wifi_status(padapter);
++		break;
++#endif
++
++	default:
++		break;
++	}
++
++}
++
++static int rtw_mp_ioctl_hdl(struct net_device *dev, struct iw_request_info *info,
++			    union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++	u32 BytesRead, BytesWritten, BytesNeeded;
++	struct oid_par_priv	oid_par;
++	struct mp_ioctl_handler	*phandler;
++	struct mp_ioctl_param	*poidparam;
++	uint status = 0;
++	u16 len;
++	u8 *pparmbuf = NULL, bset;
++	PADAPTER padapter = (PADAPTER)rtw_netdev_priv(dev);
++	struct iw_point *p = &wrqu->data;
++
++	/* RTW_INFO("+rtw_mp_ioctl_hdl\n"); */
++
++	/* mutex_lock(&ioctl_mutex); */
++
++	if ((!p->length) || (!p->pointer)) {
++		ret = -EINVAL;
++		goto _rtw_mp_ioctl_hdl_exit;
++	}
++
++	pparmbuf = NULL;
++	bset = (u8)(p->flags & 0xFFFF);
++	len = p->length;
++	pparmbuf = (u8 *)rtw_malloc(len);
++	if (pparmbuf == NULL) {
++		ret = -ENOMEM;
++		goto _rtw_mp_ioctl_hdl_exit;
++	}
++
++	if (copy_from_user(pparmbuf, p->pointer, len)) {
++		ret = -EFAULT;
++		goto _rtw_mp_ioctl_hdl_exit;
++	}
++
++	poidparam = (struct mp_ioctl_param *)pparmbuf;
++
++	if (poidparam->subcode >= MAX_MP_IOCTL_SUBCODE) {
++		ret = -EINVAL;
++		goto _rtw_mp_ioctl_hdl_exit;
++	}
++
++	/* RTW_INFO("%s: %d\n", __func__, poidparam->subcode); */
++#ifdef CONFIG_MP_INCLUDED
++	if (padapter->registrypriv.mp_mode == 1) {
++		phandler = mp_ioctl_hdl + poidparam->subcode;
++
++		if ((phandler->paramsize != 0) && (poidparam->len < phandler->paramsize)) {
++			ret = -EINVAL;
++			goto _rtw_mp_ioctl_hdl_exit;
++		}
++
++		if (phandler->handler) {
++			oid_par.adapter_context = padapter;
++			oid_par.oid = phandler->oid;
++			oid_par.information_buf = poidparam->data;
++			oid_par.information_buf_len = poidparam->len;
++			oid_par.dbg = 0;
++
++			BytesWritten = 0;
++			BytesNeeded = 0;
++
++			if (bset) {
++				oid_par.bytes_rw = &BytesRead;
++				oid_par.bytes_needed = &BytesNeeded;
++				oid_par.type_of_oid = SET_OID;
++			} else {
++				oid_par.bytes_rw = &BytesWritten;
++				oid_par.bytes_needed = &BytesNeeded;
++				oid_par.type_of_oid = QUERY_OID;
++			}
++
++			status = phandler->handler(&oid_par);
++
++			/* todo:check status, BytesNeeded, etc. */
++		} else {
++			RTW_INFO("rtw_mp_ioctl_hdl(): err!, subcode=%d, oid=%d, handler=%p\n",
++				poidparam->subcode, phandler->oid, phandler->handler);
++			ret = -EFAULT;
++			goto _rtw_mp_ioctl_hdl_exit;
++		}
++	} else
++#endif
++	{
++		rtw_dbg_mode_hdl(padapter, poidparam->subcode, poidparam->data, poidparam->len);
++	}
++
++	if (bset == 0x00) {/* query info */
++		if (copy_to_user(p->pointer, pparmbuf, len))
++			ret = -EFAULT;
++	}
++
++	if (status) {
++		ret = -EFAULT;
++		goto _rtw_mp_ioctl_hdl_exit;
++	}
++
++_rtw_mp_ioctl_hdl_exit:
++
++	if (pparmbuf)
++		rtw_mfree(pparmbuf, len);
++
++	/* mutex_unlock(&ioctl_mutex); */
++
++	return ret;
++}
++
++static int rtw_get_ap_info(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	int bssid_match, ret = 0;
++	u32 cnt = 0, wpa_ielen;
++	_irqL	irqL;
++	_list	*plist, *phead;
++	unsigned char *pbuf;
++	u8 bssid[ETH_ALEN];
++	char data[32];
++	struct wlan_network *pnetwork = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	_queue *queue = &(pmlmepriv->scanned_queue);
++	struct iw_point *pdata = &wrqu->data;
++
++	RTW_INFO("+rtw_get_aplist_info\n");
++
++	if (rtw_is_drv_stopped(padapter) || (pdata == NULL)) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	while ((check_fwstate(pmlmepriv, (_FW_UNDER_SURVEY | _FW_UNDER_LINKING))) == _TRUE) {
++		rtw_msleep_os(30);
++		cnt++;
++		if (cnt > 100)
++			break;
++	}
++
++
++	/* pdata->length = 0; */ /* ?	 */
++	pdata->flags = 0;
++	if (pdata->length >= 32) {
++		if (copy_from_user(data, pdata->pointer, 32)) {
++			ret = -EINVAL;
++			goto exit;
++		}
++	} else {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		/* if(hwaddr_aton_i(pdata->pointer, bssid)) */
++		if (hwaddr_aton_i(data, bssid)) {
++			RTW_INFO("Invalid BSSID '%s'.\n", (u8 *)data);
++			_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			return -EINVAL;
++		}
++
++
++		if (_rtw_memcmp(bssid, pnetwork->network.MacAddress, ETH_ALEN) == _TRUE) { /* BSSID match, then check if supporting wpa/wpa2 */
++			RTW_INFO("BSSID:" MAC_FMT "\n", MAC_ARG(bssid));
++
++			pbuf = rtw_get_wpa_ie(&pnetwork->network.IEs[12], &wpa_ielen, pnetwork->network.IELength - 12);
++			if (pbuf && (wpa_ielen > 0)) {
++				pdata->flags = 1;
++				break;
++			}
++
++			pbuf = rtw_get_wpa2_ie(&pnetwork->network.IEs[12], &wpa_ielen, pnetwork->network.IELength - 12);
++			if (pbuf && (wpa_ielen > 0)) {
++				pdata->flags = 2;
++				break;
++			}
++
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (pdata->length >= 34) {
++		if (copy_to_user((u8 *)pdata->pointer + 32, (u8 *)&pdata->flags, 1)) {
++			ret = -EINVAL;
++			goto exit;
++		}
++	}
++
++exit:
++
++	return ret;
++
++}
++
++static int rtw_set_pid(struct net_device *dev,
++		       struct iw_request_info *info,
++		       union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = rtw_netdev_priv(dev);
++	int *pdata = (int *)wrqu;
++	int selector;
++
++	if (rtw_is_drv_stopped(padapter) || (pdata == NULL)) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	selector = *pdata;
++	if (selector < 3 && selector >= 0) {
++		padapter->pid[selector] = *(pdata + 1);
++#ifdef CONFIG_GLOBAL_UI_PID
++		ui_pid[selector] = *(pdata + 1);
++#endif
++		RTW_INFO("%s set pid[%d]=%d\n", __FUNCTION__, selector , padapter->pid[selector]);
++	} else
++		RTW_INFO("%s selector %d error\n", __FUNCTION__, selector);
++
++exit:
++
++	return ret;
++
++}
++
++static int rtw_wps_start(struct net_device *dev,
++			 struct iw_request_info *info,
++			 union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	u32   u32wps_start = 0;
++	unsigned int uintRet = 0;
++
++	if (RTW_CANNOT_RUN(padapter) || (NULL == pdata)) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	uintRet = copy_from_user((void *) &u32wps_start, pdata->pointer, 4);
++	if (u32wps_start == 0)
++		u32wps_start = *extra;
++
++	RTW_INFO("[%s] wps_start = %d\n", __FUNCTION__, u32wps_start);
++
++	if (u32wps_start == 1)   /* WPS Start */
++		rtw_led_control(padapter, LED_CTL_START_WPS);
++	else if (u32wps_start == 2)   /* WPS Stop because of wps success */
++		rtw_led_control(padapter, LED_CTL_STOP_WPS);
++	else if (u32wps_start == 3)   /* WPS Stop because of wps fail */
++		rtw_led_control(padapter, LED_CTL_STOP_WPS_FAIL);
++
++#ifdef CONFIG_INTEL_WIDI
++	process_intel_widi_wps_status(padapter, u32wps_start);
++#endif /* CONFIG_INTEL_WIDI */
++
++exit:
++
++	return ret;
++
++}
++
++#ifdef CONFIG_P2P
++static int rtw_wext_p2p_enable(struct net_device *dev,
++			       struct iw_request_info *info,
++			       union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	enum P2P_ROLE init_role = P2P_ROLE_DISABLE;
++
++	if (*extra == '0')
++		init_role = P2P_ROLE_DISABLE;
++	else if (*extra == '1')
++		init_role = P2P_ROLE_DEVICE;
++	else if (*extra == '2')
++		init_role = P2P_ROLE_CLIENT;
++	else if (*extra == '3')
++		init_role = P2P_ROLE_GO;
++
++	if (_FAIL == rtw_p2p_enable(padapter, init_role)) {
++		ret = -EFAULT;
++		goto exit;
++	}
++
++	/* set channel/bandwidth */
++	if (init_role != P2P_ROLE_DISABLE) {
++		u8 channel, ch_offset;
++		u16 bwmode;
++
++		if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_LISTEN)) {
++			/*	Stay at the listen state and wait for discovery. */
++			channel = pwdinfo->listen_channel;
++			pwdinfo->operating_channel = pwdinfo->listen_channel;
++			ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++			bwmode = CHANNEL_WIDTH_20;
++		}
++#ifdef CONFIG_CONCURRENT_MODE
++		else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE)) {
++
++			_set_timer(&pwdinfo->ap_p2p_switch_timer, pwdinfo->ext_listen_interval);
++
++			channel = rtw_mi_get_union_chan(padapter);
++			ch_offset = rtw_mi_get_union_offset(padapter);
++			bwmode = rtw_mi_get_union_bw(padapter);
++
++			pwdinfo->operating_channel = channel;
++		}
++#endif
++		else {
++			pwdinfo->operating_channel = pmlmeext->cur_channel;
++
++			channel = pwdinfo->operating_channel;
++			ch_offset = pmlmeext->cur_ch_offset;
++			bwmode = pmlmeext->cur_bwmode;
++		}
++
++		set_channel_bwmode(padapter, channel, ch_offset, bwmode);
++	}
++
++exit:
++	return ret;
++
++}
++
++static int rtw_p2p_set_go_nego_ssid(struct net_device *dev,
++				    struct iw_request_info *info,
++				    union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++
++	RTW_INFO("[%s] ssid = %s, len = %zu\n", __FUNCTION__, extra, strlen(extra));
++	_rtw_memcpy(pwdinfo->nego_ssid, extra, strlen(extra));
++	pwdinfo->nego_ssidlen = strlen(extra);
++
++	return ret;
++
++}
++
++
++static int rtw_p2p_set_intent(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++	int							ret = 0;
++	_adapter						*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info			*pwdinfo = &(padapter->wdinfo);
++	u8							intent = pwdinfo->intent;
++
++	extra[wrqu->data.length] = 0x00;
++
++	intent = rtw_atoi(extra);
++
++	if (intent <= 15)
++		pwdinfo->intent = intent;
++	else
++		ret = -1;
++
++	RTW_INFO("[%s] intent = %d\n", __FUNCTION__, intent);
++
++	return ret;
++
++}
++
++static int rtw_p2p_set_listen_ch(struct net_device *dev,
++				 struct iw_request_info *info,
++				 union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++	u8	listen_ch = pwdinfo->listen_channel;	/*	Listen channel number */
++
++	extra[wrqu->data.length] = 0x00;
++	listen_ch = rtw_atoi(extra);
++
++	if ((listen_ch == 1) || (listen_ch == 6) || (listen_ch == 11)) {
++		pwdinfo->listen_channel = listen_ch;
++		set_channel_bwmode(padapter, pwdinfo->listen_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++	} else
++		ret = -1;
++
++	RTW_INFO("[%s] listen_ch = %d\n", __FUNCTION__, pwdinfo->listen_channel);
++
++	return ret;
++
++}
++
++static int rtw_p2p_set_op_ch(struct net_device *dev,
++			     struct iw_request_info *info,
++			     union iwreq_data *wrqu, char *extra)
++{
++	/*	Commented by Albert 20110524
++	 *	This function is used to set the operating channel if the driver will become the group owner */
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++	u8	op_ch = pwdinfo->operating_channel;	/*	Operating channel number */
++
++	extra[wrqu->data.length] = 0x00;
++
++	op_ch = (u8) rtw_atoi(extra);
++	if (op_ch > 0)
++		pwdinfo->operating_channel = op_ch;
++	else
++		ret = -1;
++
++	RTW_INFO("[%s] op_ch = %d\n", __FUNCTION__, pwdinfo->operating_channel);
++
++	return ret;
++
++}
++
++
++static int rtw_p2p_profilefound(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++
++	/*	Comment by Albert 2010/10/13 */
++	/*	Input data format: */
++	/*	Ex:  0 */
++	/*	Ex:  1XX:XX:XX:XX:XX:XXYYSSID */
++	/*	0 => Reflush the profile record list. */
++	/*	1 => Add the profile list */
++	/*	XX:XX:XX:XX:XX:XX => peer's MAC Address ( ex: 00:E0:4C:00:00:01 ) */
++	/*	YY => SSID Length */
++	/*	SSID => SSID for persistence group */
++
++	RTW_INFO("[%s] In value = %s, len = %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++
++	/*	The upper application should pass the SSID to driver by using this rtw_p2p_profilefound function. */
++	if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++		if (extra[0] == '0') {
++			/*	Remove all the profile information of wifidirect_info structure. */
++			_rtw_memset(&pwdinfo->profileinfo[0], 0x00, sizeof(struct profile_info) * P2P_MAX_PERSISTENT_GROUP_NUM);
++			pwdinfo->profileindex = 0;
++		} else {
++			if (pwdinfo->profileindex >= P2P_MAX_PERSISTENT_GROUP_NUM)
++				ret = -1;
++			else {
++				int jj, kk;
++
++				/*	Add this profile information into pwdinfo->profileinfo */
++				/*	Ex:  1XX:XX:XX:XX:XX:XXYYSSID */
++				for (jj = 0, kk = 1; jj < ETH_ALEN; jj++, kk += 3)
++					pwdinfo->profileinfo[pwdinfo->profileindex].peermac[jj] = key_2char2num(extra[kk], extra[kk + 1]);
++
++				/* pwdinfo->profileinfo[pwdinfo->profileindex].ssidlen = ( extra[18] - '0' ) * 10 + ( extra[19] - '0' ); */
++				/* _rtw_memcpy( pwdinfo->profileinfo[pwdinfo->profileindex].ssid, &extra[20], pwdinfo->profileinfo[pwdinfo->profileindex].ssidlen ); */
++				pwdinfo->profileindex++;
++			}
++		}
++	}
++
++	return ret;
++
++}
++
++static int rtw_p2p_setDN(struct net_device *dev,
++			 struct iw_request_info *info,
++			 union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++	_rtw_memset(pwdinfo->device_name, 0x00, WPS_MAX_DEVICE_NAME_LEN);
++	_rtw_memcpy(pwdinfo->device_name, extra, wrqu->data.length - 1);
++	pwdinfo->device_name_len = wrqu->data.length - 1;
++
++	return ret;
++
++}
++
++
++static int rtw_p2p_get_status(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	if (padapter->bShowGetP2PState) {
++		RTW_INFO("[%s] Role = %d, Status = %d, peer addr = %.2X:%.2X:%.2X:%.2X:%.2X:%.2X\n", __FUNCTION__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo),
++			pwdinfo->p2p_peer_interface_addr[0], pwdinfo->p2p_peer_interface_addr[1], pwdinfo->p2p_peer_interface_addr[2],
++			pwdinfo->p2p_peer_interface_addr[3], pwdinfo->p2p_peer_interface_addr[4], pwdinfo->p2p_peer_interface_addr[5]);
++	}
++
++	/*	Commented by Albert 2010/10/12 */
++	/*	Because of the output size limitation, I had removed the "Role" information. */
++	/*	About the "Role" information, we will use the new private IOCTL to get the "Role" information. */
++	sprintf(extra, "\n\nStatus=%.2d\n", rtw_p2p_state(pwdinfo));
++	wrqu->data.length = strlen(extra);
++
++	return ret;
++
++}
++
++/*	Commented by Albert 20110520
++ *	This function will return the config method description
++ *	This config method description will show us which config method the remote P2P device is intented to use
++ *	by sending the provisioning discovery request frame. */
++
++static int rtw_p2p_get_req_cm(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	sprintf(extra, "\n\nCM=%s\n", pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req);
++	wrqu->data.length = strlen(extra);
++	return ret;
++
++}
++
++
++static int rtw_p2p_get_role(struct net_device *dev,
++			    struct iw_request_info *info,
++			    union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	RTW_INFO("[%s] Role = %d, Status = %d, peer addr = %.2X:%.2X:%.2X:%.2X:%.2X:%.2X\n", __FUNCTION__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo),
++		pwdinfo->p2p_peer_interface_addr[0], pwdinfo->p2p_peer_interface_addr[1], pwdinfo->p2p_peer_interface_addr[2],
++		pwdinfo->p2p_peer_interface_addr[3], pwdinfo->p2p_peer_interface_addr[4], pwdinfo->p2p_peer_interface_addr[5]);
++
++	sprintf(extra, "\n\nRole=%.2d\n", rtw_p2p_role(pwdinfo));
++	wrqu->data.length = strlen(extra);
++	return ret;
++
++}
++
++
++static int rtw_p2p_get_peer_ifaddr(struct net_device *dev,
++				   struct iw_request_info *info,
++				   union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	RTW_INFO("[%s] Role = %d, Status = %d, peer addr = %.2X:%.2X:%.2X:%.2X:%.2X:%.2X\n", __FUNCTION__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo),
++		pwdinfo->p2p_peer_interface_addr[0], pwdinfo->p2p_peer_interface_addr[1], pwdinfo->p2p_peer_interface_addr[2],
++		pwdinfo->p2p_peer_interface_addr[3], pwdinfo->p2p_peer_interface_addr[4], pwdinfo->p2p_peer_interface_addr[5]);
++
++	sprintf(extra, "\nMAC %.2X:%.2X:%.2X:%.2X:%.2X:%.2X",
++		pwdinfo->p2p_peer_interface_addr[0], pwdinfo->p2p_peer_interface_addr[1], pwdinfo->p2p_peer_interface_addr[2],
++		pwdinfo->p2p_peer_interface_addr[3], pwdinfo->p2p_peer_interface_addr[4], pwdinfo->p2p_peer_interface_addr[5]);
++	wrqu->data.length = strlen(extra);
++	return ret;
++
++}
++
++static int rtw_p2p_get_peer_devaddr(struct net_device *dev,
++				    struct iw_request_info *info,
++				    union iwreq_data *wrqu, char *extra)
++
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	RTW_INFO("[%s] Role = %d, Status = %d, peer addr = %.2X:%.2X:%.2X:%.2X:%.2X:%.2X\n", __FUNCTION__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo),
++		pwdinfo->rx_prov_disc_info.peerDevAddr[0], pwdinfo->rx_prov_disc_info.peerDevAddr[1],
++		pwdinfo->rx_prov_disc_info.peerDevAddr[2], pwdinfo->rx_prov_disc_info.peerDevAddr[3],
++		pwdinfo->rx_prov_disc_info.peerDevAddr[4], pwdinfo->rx_prov_disc_info.peerDevAddr[5]);
++	sprintf(extra, "\n%.2X%.2X%.2X%.2X%.2X%.2X",
++		pwdinfo->rx_prov_disc_info.peerDevAddr[0], pwdinfo->rx_prov_disc_info.peerDevAddr[1],
++		pwdinfo->rx_prov_disc_info.peerDevAddr[2], pwdinfo->rx_prov_disc_info.peerDevAddr[3],
++		pwdinfo->rx_prov_disc_info.peerDevAddr[4], pwdinfo->rx_prov_disc_info.peerDevAddr[5]);
++	wrqu->data.length = strlen(extra);
++	return ret;
++
++}
++
++static int rtw_p2p_get_peer_devaddr_by_invitation(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra)
++
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	RTW_INFO("[%s] Role = %d, Status = %d, peer addr = %.2X:%.2X:%.2X:%.2X:%.2X:%.2X\n", __FUNCTION__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo),
++		pwdinfo->p2p_peer_device_addr[0], pwdinfo->p2p_peer_device_addr[1],
++		pwdinfo->p2p_peer_device_addr[2], pwdinfo->p2p_peer_device_addr[3],
++		pwdinfo->p2p_peer_device_addr[4], pwdinfo->p2p_peer_device_addr[5]);
++	sprintf(extra, "\nMAC %.2X:%.2X:%.2X:%.2X:%.2X:%.2X",
++		pwdinfo->p2p_peer_device_addr[0], pwdinfo->p2p_peer_device_addr[1],
++		pwdinfo->p2p_peer_device_addr[2], pwdinfo->p2p_peer_device_addr[3],
++		pwdinfo->p2p_peer_device_addr[4], pwdinfo->p2p_peer_device_addr[5]);
++	wrqu->data.length = strlen(extra);
++	return ret;
++
++}
++
++static int rtw_p2p_get_groupid(struct net_device *dev,
++			       struct iw_request_info *info,
++			       union iwreq_data *wrqu, char *extra)
++
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	sprintf(extra, "\n%.2X:%.2X:%.2X:%.2X:%.2X:%.2X %s",
++		pwdinfo->groupid_info.go_device_addr[0], pwdinfo->groupid_info.go_device_addr[1],
++		pwdinfo->groupid_info.go_device_addr[2], pwdinfo->groupid_info.go_device_addr[3],
++		pwdinfo->groupid_info.go_device_addr[4], pwdinfo->groupid_info.go_device_addr[5],
++		pwdinfo->groupid_info.ssid);
++	wrqu->data.length = strlen(extra);
++	return ret;
++
++}
++
++static int rtw_p2p_get_op_ch(struct net_device *dev,
++			     struct iw_request_info *info,
++			     union iwreq_data *wrqu, char *extra)
++
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	RTW_INFO("[%s] Op_ch = %02x\n", __FUNCTION__, pwdinfo->operating_channel);
++
++	sprintf(extra, "\n\nOp_ch=%.2d\n", pwdinfo->operating_channel);
++	wrqu->data.length = strlen(extra);
++	return ret;
++
++}
++
++static int rtw_p2p_get_wps_configmethod(struct net_device *dev,
++					struct iw_request_info *info,
++			union iwreq_data *wrqu, char *extra, char *subcmd)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 peerMAC[ETH_ALEN] = { 0x00 };
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_irqL irqL;
++	_list *plist, *phead;
++	_queue *queue = &(pmlmepriv->scanned_queue);
++	struct wlan_network *pnetwork = NULL;
++	u8 blnMatch = 0;
++	u16	attr_content = 0;
++	uint attr_contentlen = 0;
++	u8	attr_content_str[P2P_PRIVATE_IOCTL_SET_LEN] = { 0x00 };
++
++	/*	Commented by Albert 20110727 */
++	/*	The input data is the MAC address which the application wants to know its WPS config method. */
++	/*	After knowing its WPS config method, the application can decide the config method for provisioning discovery. */
++	/*	Format: iwpriv wlanx p2p_get_wpsCM 00:E0:4C:00:00:05 */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, subcmd);
++
++	macstr2num(peerMAC, subcmd);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if (_rtw_memcmp(pnetwork->network.MacAddress, peerMAC, ETH_ALEN)) {
++			u8 *wpsie;
++			uint	wpsie_len = 0;
++
++			/*	The mac address is matched. */
++
++			wpsie = rtw_get_wps_ie_from_scan_queue(&pnetwork->network.IEs[0], pnetwork->network.IELength, NULL, &wpsie_len, pnetwork->network.Reserved[0]);
++			if (wpsie) {
++				rtw_get_wps_attr_content(wpsie, wpsie_len, WPS_ATTR_CONF_METHOD, (u8 *)&attr_content, &attr_contentlen);
++				if (attr_contentlen) {
++					attr_content = be16_to_cpu(attr_content);
++					sprintf(attr_content_str, "\n\nM=%.4d", attr_content);
++					blnMatch = 1;
++				}
++			}
++
++			break;
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (!blnMatch)
++		sprintf(attr_content_str, "\n\nM=0000");
++
++	wrqu->data.length = strlen(attr_content_str);
++	_rtw_memcpy(extra, attr_content_str, wrqu->data.length);
++
++	return ret;
++
++}
++
++#ifdef CONFIG_WFD
++static int rtw_p2p_get_peer_wfd_port(struct net_device *dev,
++				     struct iw_request_info *info,
++				     union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	RTW_INFO("[%s] p2p_state = %d\n", __FUNCTION__, rtw_p2p_state(pwdinfo));
++
++	sprintf(extra, "\n\nPort=%d\n", pwdinfo->wfd_info->peer_rtsp_ctrlport);
++	RTW_INFO("[%s] remote port = %d\n", __FUNCTION__, pwdinfo->wfd_info->peer_rtsp_ctrlport);
++
++	wrqu->data.length = strlen(extra);
++	return ret;
++
++}
++
++static int rtw_p2p_get_peer_wfd_preferred_connection(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	sprintf(extra, "\n\nwfd_pc=%d\n", pwdinfo->wfd_info->wfd_pc);
++	RTW_INFO("[%s] wfd_pc = %d\n", __FUNCTION__, pwdinfo->wfd_info->wfd_pc);
++
++	wrqu->data.length = strlen(extra);
++	pwdinfo->wfd_info->wfd_pc = _FALSE;	/*	Reset the WFD preferred connection to P2P */
++	return ret;
++
++}
++
++static int rtw_p2p_get_peer_wfd_session_available(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	sprintf(extra, "\n\nwfd_sa=%d\n", pwdinfo->wfd_info->peer_session_avail);
++	RTW_INFO("[%s] wfd_sa = %d\n", __FUNCTION__, pwdinfo->wfd_info->peer_session_avail);
++
++	wrqu->data.length = strlen(extra);
++	pwdinfo->wfd_info->peer_session_avail = _TRUE;	/*	Reset the WFD session available */
++	return ret;
++
++}
++#endif /* CONFIG_WFD */
++
++static int rtw_p2p_get_go_device_address(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra, char *subcmd)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 peerMAC[ETH_ALEN] = { 0x00 };
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_irqL irqL;
++	_list *plist, *phead;
++	_queue *queue	= &(pmlmepriv->scanned_queue);
++	struct wlan_network *pnetwork = NULL;
++	u8 blnMatch = 0;
++	u8 *p2pie;
++	uint p2pielen = 0, attr_contentlen = 0;
++	u8 attr_content[100] = { 0x00 };
++	u8 go_devadd_str[P2P_PRIVATE_IOCTL_SET_LEN] = { 0x00 };
++
++	/*	Commented by Albert 20121209 */
++	/*	The input data is the GO's interface address which the application wants to know its device address. */
++	/*	Format: iwpriv wlanx p2p_get2 go_devadd=00:E0:4C:00:00:05 */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, subcmd);
++
++	macstr2num(peerMAC, subcmd);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if (_rtw_memcmp(pnetwork->network.MacAddress, peerMAC, ETH_ALEN)) {
++			/*	Commented by Albert 2011/05/18 */
++			/*	Match the device address located in the P2P IE */
++			/*	This is for the case that the P2P device address is not the same as the P2P interface address. */
++
++			p2pie = rtw_bss_ex_get_p2p_ie(&pnetwork->network, NULL, &p2pielen);
++			if (p2pie) {
++				while (p2pie) {
++					/*	The P2P Device ID attribute is included in the Beacon frame. */
++					/*	The P2P Device Info attribute is included in the probe response frame. */
++
++					_rtw_memset(attr_content, 0x00, 100);
++					if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_DEVICE_ID, attr_content, &attr_contentlen)) {
++						/*	Handle the P2P Device ID attribute of Beacon first */
++						blnMatch = 1;
++						break;
++
++					} else if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_DEVICE_INFO, attr_content, &attr_contentlen)) {
++						/*	Handle the P2P Device Info attribute of probe response */
++						blnMatch = 1;
++						break;
++					}
++
++					/* Get the next P2P IE */
++					p2pie = rtw_get_p2p_ie(p2pie + p2pielen, BSS_EX_TLV_IES_LEN(&pnetwork->network) - (p2pie + p2pielen - BSS_EX_TLV_IES(&pnetwork->network)), NULL, &p2pielen);
++				}
++			}
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (!blnMatch)
++		sprintf(go_devadd_str, "\n\ndev_add=NULL");
++	else {
++		sprintf(go_devadd_str, "\n\ndev_add=%.2X:%.2X:%.2X:%.2X:%.2X:%.2X",
++			attr_content[0], attr_content[1], attr_content[2], attr_content[3], attr_content[4], attr_content[5]);
++	}
++
++	wrqu->data.length = strlen(go_devadd_str);
++	_rtw_memcpy(extra, go_devadd_str, wrqu->data.length);
++
++	return ret;
++
++}
++
++static int rtw_p2p_get_device_type(struct net_device *dev,
++				   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra, char *subcmd)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 peerMAC[ETH_ALEN] = { 0x00 };
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_irqL irqL;
++	_list *plist, *phead;
++	_queue *queue = &(pmlmepriv->scanned_queue);
++	struct wlan_network *pnetwork = NULL;
++	u8 blnMatch = 0;
++	u8 dev_type[8] = { 0x00 };
++	uint dev_type_len = 0;
++	u8 dev_type_str[P2P_PRIVATE_IOCTL_SET_LEN] = { 0x00 };    /* +9 is for the str "dev_type=", we have to clear it at wrqu->data.pointer */
++
++	/*	Commented by Albert 20121209 */
++	/*	The input data is the MAC address which the application wants to know its device type. */
++	/*	Such user interface could know the device type. */
++	/*	Format: iwpriv wlanx p2p_get2 dev_type=00:E0:4C:00:00:05 */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, subcmd);
++
++	macstr2num(peerMAC, subcmd);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if (_rtw_memcmp(pnetwork->network.MacAddress, peerMAC, ETH_ALEN)) {
++			u8 *wpsie;
++			uint	wpsie_len = 0;
++
++			/*	The mac address is matched. */
++
++			wpsie = rtw_get_wps_ie_from_scan_queue(&pnetwork->network.IEs[0], pnetwork->network.IELength, NULL, &wpsie_len, pnetwork->network.Reserved[0]);
++			if (wpsie) {
++				rtw_get_wps_attr_content(wpsie, wpsie_len, WPS_ATTR_PRIMARY_DEV_TYPE, dev_type, &dev_type_len);
++				if (dev_type_len) {
++					u16	type = 0;
++
++					_rtw_memcpy(&type, dev_type, 2);
++					type = be16_to_cpu(type);
++					sprintf(dev_type_str, "\n\nN=%.2d", type);
++					blnMatch = 1;
++				}
++			}
++			break;
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (!blnMatch)
++		sprintf(dev_type_str, "\n\nN=00");
++
++	wrqu->data.length = strlen(dev_type_str);
++	_rtw_memcpy(extra, dev_type_str, wrqu->data.length);
++
++	return ret;
++
++}
++
++static int rtw_p2p_get_device_name(struct net_device *dev,
++				   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra, char *subcmd)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 peerMAC[ETH_ALEN] = { 0x00 };
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_irqL irqL;
++	_list *plist, *phead;
++	_queue *queue = &(pmlmepriv->scanned_queue);
++	struct wlan_network *pnetwork = NULL;
++	u8 blnMatch = 0;
++	u8 dev_name[WPS_MAX_DEVICE_NAME_LEN] = { 0x00 };
++	uint dev_len = 0;
++	u8 dev_name_str[P2P_PRIVATE_IOCTL_SET_LEN] = { 0x00 };
++
++	/*	Commented by Albert 20121225 */
++	/*	The input data is the MAC address which the application wants to know its device name. */
++	/*	Such user interface could show peer device's device name instead of ssid. */
++	/*	Format: iwpriv wlanx p2p_get2 devN=00:E0:4C:00:00:05 */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, subcmd);
++
++	macstr2num(peerMAC, subcmd);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if (_rtw_memcmp(pnetwork->network.MacAddress, peerMAC, ETH_ALEN)) {
++			u8 *wpsie;
++			uint	wpsie_len = 0;
++
++			/*	The mac address is matched. */
++
++			wpsie = rtw_get_wps_ie_from_scan_queue(&pnetwork->network.IEs[0], pnetwork->network.IELength, NULL, &wpsie_len, pnetwork->network.Reserved[0]);
++			if (wpsie) {
++				rtw_get_wps_attr_content(wpsie, wpsie_len, WPS_ATTR_DEVICE_NAME, dev_name, &dev_len);
++				if (dev_len) {
++					sprintf(dev_name_str, "\n\nN=%s", dev_name);
++					blnMatch = 1;
++				}
++			}
++			break;
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (!blnMatch)
++		sprintf(dev_name_str, "\n\nN=0000");
++
++	wrqu->data.length = strlen(dev_name_str);
++	_rtw_memcpy(extra, dev_name_str, wrqu->data.length);
++
++	return ret;
++
++}
++
++static int rtw_p2p_get_invitation_procedure(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra, char *subcmd)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 peerMAC[ETH_ALEN] = { 0x00 };
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_irqL irqL;
++	_list *plist, *phead;
++	_queue *queue	= &(pmlmepriv->scanned_queue);
++	struct wlan_network *pnetwork = NULL;
++	u8 blnMatch = 0;
++	u8 *p2pie;
++	uint p2pielen = 0, attr_contentlen = 0;
++	u8 attr_content[2] = { 0x00 };
++	u8 inv_proc_str[P2P_PRIVATE_IOCTL_SET_LEN] = { 0x00 };
++
++	/*	Commented by Ouden 20121226 */
++	/*	The application wants to know P2P initation procedure is support or not. */
++	/*	Format: iwpriv wlanx p2p_get2 InvProc=00:E0:4C:00:00:05 */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, subcmd);
++
++	macstr2num(peerMAC, subcmd);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if (_rtw_memcmp(pnetwork->network.MacAddress, peerMAC, ETH_ALEN)) {
++			/*	Commented by Albert 20121226 */
++			/*	Match the device address located in the P2P IE */
++			/*	This is for the case that the P2P device address is not the same as the P2P interface address. */
++
++			p2pie = rtw_bss_ex_get_p2p_ie(&pnetwork->network, NULL, &p2pielen);
++			if (p2pie) {
++				while (p2pie) {
++					/* _rtw_memset( attr_content, 0x00, 2); */
++					if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_CAPABILITY, attr_content, &attr_contentlen)) {
++						/*	Handle the P2P capability attribute */
++						blnMatch = 1;
++						break;
++
++					}
++
++					/* Get the next P2P IE */
++					p2pie = rtw_get_p2p_ie(p2pie + p2pielen, BSS_EX_TLV_IES_LEN(&pnetwork->network) - (p2pie + p2pielen - BSS_EX_TLV_IES(&pnetwork->network)), NULL, &p2pielen);
++				}
++			}
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (!blnMatch)
++		sprintf(inv_proc_str, "\nIP=-1");
++	else {
++		if ((attr_content[0] & 0x20) == 0x20)
++			sprintf(inv_proc_str, "\nIP=1");
++		else
++			sprintf(inv_proc_str, "\nIP=0");
++	}
++
++	wrqu->data.length = strlen(inv_proc_str);
++	_rtw_memcpy(extra, inv_proc_str, wrqu->data.length);
++
++	return ret;
++
++}
++
++static int rtw_p2p_connect(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter				*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8					peerMAC[ETH_ALEN] = { 0x00 };
++	int					jj, kk;
++	u8					peerMACStr[ETH_ALEN * 2] = { 0x00 };
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	_irqL				irqL;
++	_list					*plist, *phead;
++	_queue				*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	uint					uintPeerChannel = 0;
++
++	/*	Commented by Albert 20110304 */
++	/*	The input data contains two informations. */
++	/*	1. First information is the MAC address which wants to formate with */
++	/*	2. Second information is the WPS PINCode or "pbc" string for push button method */
++	/*	Format: 00:E0:4C:00:00:05 */
++	/*	Format: 00:E0:4C:00:00:05 */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, extra);
++
++	if (pwdinfo->p2p_state == P2P_STATE_NONE) {
++		RTW_INFO("[%s] WiFi Direct is disable!\n", __FUNCTION__);
++		return ret;
++	}
++
++#ifdef CONFIG_INTEL_WIDI
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE) {
++		RTW_INFO("[%s] WiFi is under survey!\n", __FUNCTION__);
++		return ret;
++	}
++#endif /* CONFIG_INTEL_WIDI	 */
++
++	if (pwdinfo->ui_got_wps_info == P2P_NO_WPSINFO)
++		return -1;
++
++	for (jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3)
++		peerMAC[jj] = key_2char2num(extra[kk], extra[kk + 1]);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if (_rtw_memcmp(pnetwork->network.MacAddress, peerMAC, ETH_ALEN)) {
++			if (pnetwork->network.Configuration.DSConfig != 0)
++				uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++			else if (pwdinfo->nego_req_info.peer_ch != 0)
++				uintPeerChannel = pnetwork->network.Configuration.DSConfig = pwdinfo->nego_req_info.peer_ch;
++			else {
++				/* Unexpected case */
++				uintPeerChannel = 0;
++				RTW_INFO("%s  uintPeerChannel = 0\n", __func__);
++			}
++			break;
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (uintPeerChannel) {
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			_cancel_timer_ex(&pwdinfo->ap_p2p_switch_timer);
++#endif /* CONFIG_CONCURRENT_MODE */
++
++		_rtw_memset(&pwdinfo->nego_req_info, 0x00, sizeof(struct tx_nego_req_info));
++		_rtw_memset(&pwdinfo->groupid_info, 0x00, sizeof(struct group_id_info));
++
++		pwdinfo->nego_req_info.peer_channel_num[0] = uintPeerChannel;
++		_rtw_memcpy(pwdinfo->nego_req_info.peerDevAddr, pnetwork->network.MacAddress, ETH_ALEN);
++		pwdinfo->nego_req_info.benable = _TRUE;
++
++		_cancel_timer_ex(&pwdinfo->restore_p2p_state_timer);
++		if (rtw_p2p_state(pwdinfo) != P2P_STATE_GONEGO_OK) {
++			/*	Restore to the listen state if the current p2p state is not nego OK */
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_LISTEN);
++		}
++
++		rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_ING);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED)) {
++			u8 union_ch = rtw_mi_get_union_chan(padapter);
++			u8 union_bw = rtw_mi_get_union_bw(padapter);
++			u8 union_offset = rtw_mi_get_union_offset(padapter);
++			/*	Have to enter the power saving with the AP */
++			set_channel_bwmode(padapter, union_ch, union_offset, union_bw);
++
++			rtw_mi_buddy_issue_nulldata(padapter, NULL, 1, 3, 500);
++		}
++#endif /* CONFIG_CONCURRENT_MODE */
++
++		RTW_INFO("[%s] Start PreTx Procedure!\n", __FUNCTION__);
++		_set_timer(&pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT);
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_CONCURRENT_GO_NEGO_TIMEOUT);
++		else
++			_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_GO_NEGO_TIMEOUT);
++#else
++		_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_GO_NEGO_TIMEOUT);
++#endif /* CONFIG_CONCURRENT_MODE		 */
++
++	} else {
++		RTW_INFO("[%s] Not Found in Scanning Queue~\n", __FUNCTION__);
++#ifdef CONFIG_INTEL_WIDI
++		_cancel_timer_ex(&pwdinfo->restore_p2p_state_timer);
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH);
++		rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_NONE);
++		rtw_free_network_queue(padapter, _TRUE);
++		/**
++		 * For WiDi, if we can't find candidate device in scanning queue,
++		 * driver will do scanning itself
++		 */
++		_enter_critical_bh(&pmlmepriv->lock, &irqL);
++		rtw_sitesurvey_cmd(padapter, NULL, 0, NULL, 0);
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++#endif /* CONFIG_INTEL_WIDI */
++		ret = -1;
++	}
++exit:
++	return ret;
++}
++
++static int rtw_p2p_invite_req(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter					*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point			*pdata = &wrqu->data;
++	struct wifidirect_info		*pwdinfo = &(padapter->wdinfo);
++	int						jj, kk;
++	u8						peerMACStr[ETH_ALEN * 2] = { 0x00 };
++	struct mlme_priv			*pmlmepriv = &padapter->mlmepriv;
++	_list						*plist, *phead;
++	_queue					*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network		*pnetwork = NULL;
++	uint						uintPeerChannel = 0;
++	u8						attr_content[50] = { 0x00 }, _status = 0;
++	u8						*p2pie;
++	uint						p2pielen = 0, attr_contentlen = 0;
++	_irqL					irqL;
++	struct tx_invite_req_info	*pinvite_req_info = &pwdinfo->invitereq_info;
++
++	/*	Commented by Albert 20120321 */
++	/*	The input data contains two informations. */
++	/*	1. First information is the P2P device address which you want to send to.	 */
++	/*	2. Second information is the group id which combines with GO's mac address, space and GO's ssid. */
++	/*	Command line sample: iwpriv wlan0 p2p_set invite="00:11:22:33:44:55 00:E0:4C:00:00:05 DIRECT-xy" */
++	/*	Format: 00:11:22:33:44:55 00:E0:4C:00:00:05 DIRECT-xy */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, extra);
++
++	if (wrqu->data.length <=  37) {
++		RTW_INFO("[%s] Wrong format!\n", __FUNCTION__);
++		return ret;
++	}
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++		RTW_INFO("[%s] WiFi Direct is disable!\n", __FUNCTION__);
++		return ret;
++	} else {
++		/*	Reset the content of struct tx_invite_req_info */
++		pinvite_req_info->benable = _FALSE;
++		_rtw_memset(pinvite_req_info->go_bssid, 0x00, ETH_ALEN);
++		_rtw_memset(pinvite_req_info->go_ssid, 0x00, WLAN_SSID_MAXLEN);
++		pinvite_req_info->ssidlen = 0x00;
++		pinvite_req_info->operating_ch = pwdinfo->operating_channel;
++		_rtw_memset(pinvite_req_info->peer_macaddr, 0x00, ETH_ALEN);
++		pinvite_req_info->token = 3;
++	}
++
++	for (jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3)
++		pinvite_req_info->peer_macaddr[jj] = key_2char2num(extra[kk], extra[kk + 1]);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		/*	Commented by Albert 2011/05/18 */
++		/*	Match the device address located in the P2P IE */
++		/*	This is for the case that the P2P device address is not the same as the P2P interface address. */
++
++		p2pie = rtw_bss_ex_get_p2p_ie(&pnetwork->network, NULL, &p2pielen);
++		if (p2pie) {
++			/*	The P2P Device ID attribute is included in the Beacon frame. */
++			/*	The P2P Device Info attribute is included in the probe response frame. */
++
++			if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_DEVICE_ID, attr_content, &attr_contentlen)) {
++				/*	Handle the P2P Device ID attribute of Beacon first */
++				if (_rtw_memcmp(attr_content, pinvite_req_info->peer_macaddr, ETH_ALEN)) {
++					uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++					break;
++				}
++			} else if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_DEVICE_INFO, attr_content, &attr_contentlen)) {
++				/*	Handle the P2P Device Info attribute of probe response */
++				if (_rtw_memcmp(attr_content, pinvite_req_info->peer_macaddr, ETH_ALEN)) {
++					uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++					break;
++				}
++			}
++
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++#ifdef CONFIG_WFD
++	if (hal_chk_wl_func(padapter, WL_FUNC_MIRACAST) && uintPeerChannel) {
++		struct wifi_display_info *pwfd_info = pwdinfo->wfd_info;
++		u8 *wfd_ie;
++		uint wfd_ielen = 0;
++
++		wfd_ie = rtw_bss_ex_get_wfd_ie(&pnetwork->network, NULL, &wfd_ielen);
++		if (wfd_ie) {
++			u8 *wfd_devinfo;
++			uint wfd_devlen;
++
++			RTW_INFO("[%s] Found WFD IE!\n", __FUNCTION__);
++			wfd_devinfo = rtw_get_wfd_attr_content(wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, NULL, &wfd_devlen);
++			if (wfd_devinfo) {
++				u16	wfd_devinfo_field = 0;
++
++				/*	Commented by Albert 20120319 */
++				/*	The first two bytes are the WFD device information field of WFD device information subelement. */
++				/*	In big endian format. */
++				wfd_devinfo_field = RTW_GET_BE16(wfd_devinfo);
++				if (wfd_devinfo_field & WFD_DEVINFO_SESSION_AVAIL)
++					pwfd_info->peer_session_avail = _TRUE;
++				else
++					pwfd_info->peer_session_avail = _FALSE;
++			}
++		}
++
++		if (_FALSE == pwfd_info->peer_session_avail) {
++			RTW_INFO("[%s] WFD Session not avaiable!\n", __FUNCTION__);
++			goto exit;
++		}
++	}
++#endif /* CONFIG_WFD */
++
++	if (uintPeerChannel) {
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			_cancel_timer_ex(&pwdinfo->ap_p2p_switch_timer);
++#endif /* CONFIG_CONCURRENT_MODE */
++
++		/*	Store the GO's bssid */
++		for (jj = 0, kk = 18; jj < ETH_ALEN; jj++, kk += 3)
++			pinvite_req_info->go_bssid[jj] = key_2char2num(extra[kk], extra[kk + 1]);
++
++		/*	Store the GO's ssid */
++		pinvite_req_info->ssidlen = wrqu->data.length - 36;
++		_rtw_memcpy(pinvite_req_info->go_ssid, &extra[36], (u32) pinvite_req_info->ssidlen);
++		pinvite_req_info->benable = _TRUE;
++		pinvite_req_info->peer_ch = uintPeerChannel;
++
++		rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_TX_INVITE_REQ);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED)) {
++			u8 union_ch = rtw_mi_get_union_chan(padapter);
++			u8 union_bw = rtw_mi_get_union_bw(padapter);
++			u8 union_offset = rtw_mi_get_union_offset(padapter);
++			/*	Have to enter the power saving with the AP */
++			set_channel_bwmode(padapter, union_ch, union_offset, union_bw);
++
++			rtw_mi_buddy_issue_nulldata(padapter, NULL, 1, 3, 500);
++		} else
++			set_channel_bwmode(padapter, uintPeerChannel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++#else
++		set_channel_bwmode(padapter, uintPeerChannel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++#endif
++
++		_set_timer(&pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_CONCURRENT_INVITE_TIMEOUT);
++		else
++			_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_INVITE_TIMEOUT);
++#else
++		_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_INVITE_TIMEOUT);
++#endif /* CONFIG_CONCURRENT_MODE		 */
++
++
++	} else
++		RTW_INFO("[%s] NOT Found in the Scanning Queue!\n", __FUNCTION__);
++exit:
++
++	return ret;
++
++}
++
++static int rtw_p2p_set_persistent(struct net_device *dev,
++				  struct iw_request_info *info,
++				  union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter					*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point			*pdata = &wrqu->data;
++	struct wifidirect_info		*pwdinfo = &(padapter->wdinfo);
++	int						jj, kk;
++	u8						peerMACStr[ETH_ALEN * 2] = { 0x00 };
++	struct mlme_priv			*pmlmepriv = &padapter->mlmepriv;
++	_list						*plist, *phead;
++	_queue					*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network		*pnetwork = NULL;
++	uint						uintPeerChannel = 0;
++	u8						attr_content[50] = { 0x00 }, _status = 0;
++	u8						*p2pie;
++	uint						p2pielen = 0, attr_contentlen = 0;
++	_irqL					irqL;
++	struct tx_invite_req_info	*pinvite_req_info = &pwdinfo->invitereq_info;
++
++	/*	Commented by Albert 20120328 */
++	/*	The input data is 0 or 1 */
++	/*	0: disable persistent group functionality */
++	/*	1: enable persistent group founctionality */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, extra);
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++		RTW_INFO("[%s] WiFi Direct is disable!\n", __FUNCTION__);
++		return ret;
++	} else {
++		if (extra[0] == '0')	/*	Disable the persistent group function. */
++			pwdinfo->persistent_supported = _FALSE;
++		else if (extra[0] == '1')	/*	Enable the persistent group function. */
++			pwdinfo->persistent_supported = _TRUE;
++		else
++			pwdinfo->persistent_supported = _FALSE;
++	}
++	printk("[%s] persistent_supported = %d\n", __FUNCTION__, pwdinfo->persistent_supported);
++
++exit:
++
++	return ret;
++
++}
++
++static int hexstr2bin(const char *hex, u8 *buf, size_t len)
++{
++	size_t i;
++	int a;
++	const char *ipos = hex;
++	u8 *opos = buf;
++
++	for (i = 0; i < len; i++) {
++		a = hex2byte_i(ipos);
++		if (a < 0)
++			return -1;
++		*opos++ = a;
++		ipos += 2;
++	}
++	return 0;
++}
++
++static int uuid_str2bin(const char *str, u8 *bin)
++{
++	const char *pos;
++	u8 *opos;
++
++	pos = str;
++	opos = bin;
++
++	if (hexstr2bin(pos, opos, 4))
++		return -1;
++	pos += 8;
++	opos += 4;
++
++	if (*pos++ != '-' || hexstr2bin(pos, opos, 2))
++		return -1;
++	pos += 4;
++	opos += 2;
++
++	if (*pos++ != '-' || hexstr2bin(pos, opos, 2))
++		return -1;
++	pos += 4;
++	opos += 2;
++
++	if (*pos++ != '-' || hexstr2bin(pos, opos, 2))
++		return -1;
++	pos += 4;
++	opos += 2;
++
++	if (*pos++ != '-' || hexstr2bin(pos, opos, 6))
++		return -1;
++
++	return 0;
++}
++
++static int rtw_p2p_set_wps_uuid(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter				*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info			*pwdinfo = &(padapter->wdinfo);
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, extra);
++
++	if ((36 == strlen(extra)) && (uuid_str2bin(extra, pwdinfo->uuid) == 0))
++		pwdinfo->external_uuid = 1;
++	else {
++		pwdinfo->external_uuid = 0;
++		ret = -EINVAL;
++	}
++
++	return ret;
++
++}
++#ifdef CONFIG_WFD
++static int rtw_p2p_set_pc(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter				*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point		*pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8					peerMAC[ETH_ALEN] = { 0x00 };
++	int					jj, kk;
++	u8					peerMACStr[ETH_ALEN * 2] = { 0x00 };
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	_list					*plist, *phead;
++	_queue				*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	u8					attr_content[50] = { 0x00 }, _status = 0;
++	u8 *p2pie;
++	uint					p2pielen = 0, attr_contentlen = 0;
++	_irqL				irqL;
++	uint					uintPeerChannel = 0;
++
++	struct wifi_display_info	*pwfd_info = pwdinfo->wfd_info;
++
++	/*	Commented by Albert 20120512 */
++	/*	1. Input information is the MAC address which wants to know the Preferred Connection bit (PC bit) */
++	/*	Format: 00:E0:4C:00:00:05 */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, extra);
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++		RTW_INFO("[%s] WiFi Direct is disable!\n", __FUNCTION__);
++		return ret;
++	}
++
++	for (jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3)
++		peerMAC[jj] = key_2char2num(extra[kk], extra[kk + 1]);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		/*	Commented by Albert 2011/05/18 */
++		/*	Match the device address located in the P2P IE */
++		/*	This is for the case that the P2P device address is not the same as the P2P interface address. */
++
++		p2pie = rtw_bss_ex_get_p2p_ie(&pnetwork->network, NULL, &p2pielen);
++		if (p2pie) {
++			/*	The P2P Device ID attribute is included in the Beacon frame. */
++			/*	The P2P Device Info attribute is included in the probe response frame. */
++			printk("[%s] Got P2P IE\n", __FUNCTION__);
++			if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_DEVICE_ID, attr_content, &attr_contentlen)) {
++				/*	Handle the P2P Device ID attribute of Beacon first */
++				printk("[%s] P2P_ATTR_DEVICE_ID\n", __FUNCTION__);
++				if (_rtw_memcmp(attr_content, peerMAC, ETH_ALEN)) {
++					uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++					break;
++				}
++			} else if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_DEVICE_INFO, attr_content, &attr_contentlen)) {
++				/*	Handle the P2P Device Info attribute of probe response */
++				printk("[%s] P2P_ATTR_DEVICE_INFO\n", __FUNCTION__);
++				if (_rtw_memcmp(attr_content, peerMAC, ETH_ALEN)) {
++					uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++					break;
++				}
++			}
++
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++	printk("[%s] channel = %d\n", __FUNCTION__, uintPeerChannel);
++
++	if (uintPeerChannel) {
++		u8 *wfd_ie;
++		uint wfd_ielen = 0;
++
++		wfd_ie = rtw_bss_ex_get_wfd_ie(&pnetwork->network, NULL, &wfd_ielen);
++		if (wfd_ie) {
++			u8 *wfd_devinfo;
++			uint wfd_devlen;
++
++			RTW_INFO("[%s] Found WFD IE!\n", __FUNCTION__);
++			wfd_devinfo = rtw_get_wfd_attr_content(wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, NULL, &wfd_devlen);
++			if (wfd_devinfo) {
++				u16	wfd_devinfo_field = 0;
++
++				/*	Commented by Albert 20120319 */
++				/*	The first two bytes are the WFD device information field of WFD device information subelement. */
++				/*	In big endian format. */
++				wfd_devinfo_field = RTW_GET_BE16(wfd_devinfo);
++				if (wfd_devinfo_field & WFD_DEVINFO_PC_TDLS)
++					pwfd_info->wfd_pc = _TRUE;
++				else
++					pwfd_info->wfd_pc = _FALSE;
++			}
++		}
++	} else
++		RTW_INFO("[%s] NOT Found in the Scanning Queue!\n", __FUNCTION__);
++
++exit:
++
++	return ret;
++
++}
++
++static int rtw_p2p_set_wfd_device_type(struct net_device *dev,
++				       struct iw_request_info *info,
++				       union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter					*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point			*pdata = &wrqu->data;
++	struct wifidirect_info		*pwdinfo = &(padapter->wdinfo);
++	struct wifi_display_info		*pwfd_info = pwdinfo->wfd_info;
++
++	/*	Commented by Albert 20120328 */
++	/*	The input data is 0 or 1 */
++	/*	0: specify to Miracast source device */
++	/*	1 or others: specify to Miracast sink device (display device) */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, extra);
++
++	if (extra[0] == '0')	/*	Set to Miracast source device. */
++		pwfd_info->wfd_device_type = WFD_DEVINFO_SOURCE;
++	else					/*	Set to Miracast sink device. */
++		pwfd_info->wfd_device_type = WFD_DEVINFO_PSINK;
++
++exit:
++
++	return ret;
++
++}
++
++static int rtw_p2p_set_wfd_enable(struct net_device *dev,
++				  struct iw_request_info *info,
++				  union iwreq_data *wrqu, char *extra)
++{
++	/*	Commented by Kurt 20121206
++	 *	This function is used to set wfd enabled */
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++
++	if (*extra == '0')
++		rtw_wfd_enable(padapter, 0);
++	else if (*extra == '1')
++		rtw_wfd_enable(padapter, 1);
++
++	RTW_INFO("[%s] wfd_enable = %d\n", __FUNCTION__, pwdinfo->wfd_info->wfd_enable);
++
++	return ret;
++
++}
++
++static int rtw_p2p_set_driver_iface(struct net_device *dev,
++				    struct iw_request_info *info,
++				    union iwreq_data *wrqu, char *extra)
++{
++	/*	Commented by Kurt 20121206
++	 *	This function is used to set driver iface is WEXT or CFG80211 */
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++
++	if (*extra == '1') {
++		pwdinfo->driver_interface = DRIVER_WEXT;
++		RTW_INFO("[%s] driver_interface = WEXT\n", __FUNCTION__);
++	} else if (*extra == '2') {
++		pwdinfo->driver_interface = DRIVER_CFG80211;
++		RTW_INFO("[%s] driver_interface = CFG80211\n", __FUNCTION__);
++	}
++
++	return ret;
++
++}
++
++/*	To set the WFD session available to enable or disable */
++static int rtw_p2p_set_sa(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter					*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point			*pdata = &wrqu->data;
++	struct wifidirect_info		*pwdinfo = &(padapter->wdinfo);
++	struct wifi_display_info		*pwfd_info = pwdinfo->wfd_info;
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, extra);
++
++	if (0) {
++		RTW_INFO("[%s] WiFi Direct is disable!\n", __FUNCTION__);
++		return ret;
++	} else {
++		if (extra[0] == '0')	/*	Disable the session available. */
++			pwdinfo->session_available = _FALSE;
++		else if (extra[0] == '1')	/*	Enable the session available. */
++			pwdinfo->session_available = _TRUE;
++		else
++			pwdinfo->session_available = _FALSE;
++	}
++	printk("[%s] session available = %d\n", __FUNCTION__, pwdinfo->session_available);
++
++exit:
++
++	return ret;
++
++}
++#endif /* CONFIG_WFD */
++
++static int rtw_p2p_prov_disc(struct net_device *dev,
++			     struct iw_request_info *info,
++			     union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++	_adapter				*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8					peerMAC[ETH_ALEN] = { 0x00 };
++	int					jj, kk;
++	u8					peerMACStr[ETH_ALEN * 2] = { 0x00 };
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	_list					*plist, *phead;
++	_queue				*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	uint					uintPeerChannel = 0;
++	u8					attr_content[100] = { 0x00 }, _status = 0;
++	u8 *p2pie;
++	uint					p2pielen = 0, attr_contentlen = 0;
++	_irqL				irqL;
++
++	/*	Commented by Albert 20110301 */
++	/*	The input data contains two informations. */
++	/*	1. First information is the MAC address which wants to issue the provisioning discovery request frame. */
++	/*	2. Second information is the WPS configuration method which wants to discovery */
++	/*	Format: 00:E0:4C:00:00:05_display */
++	/*	Format: 00:E0:4C:00:00:05_keypad */
++	/*	Format: 00:E0:4C:00:00:05_pbc */
++	/*	Format: 00:E0:4C:00:00:05_label */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, extra);
++
++	if (pwdinfo->p2p_state == P2P_STATE_NONE) {
++		RTW_INFO("[%s] WiFi Direct is disable!\n", __FUNCTION__);
++		return ret;
++	} else {
++#ifdef CONFIG_INTEL_WIDI
++		if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE) {
++			RTW_INFO("[%s] WiFi is under survey!\n", __FUNCTION__);
++			return ret;
++		}
++#endif /* CONFIG_INTEL_WIDI */
++
++		/*	Reset the content of struct tx_provdisc_req_info excluded the wps_config_method_request. */
++		_rtw_memset(pwdinfo->tx_prov_disc_info.peerDevAddr, 0x00, ETH_ALEN);
++		_rtw_memset(pwdinfo->tx_prov_disc_info.peerIFAddr, 0x00, ETH_ALEN);
++		_rtw_memset(&pwdinfo->tx_prov_disc_info.ssid, 0x00, sizeof(NDIS_802_11_SSID));
++		pwdinfo->tx_prov_disc_info.peer_channel_num[0] = 0;
++		pwdinfo->tx_prov_disc_info.peer_channel_num[1] = 0;
++		pwdinfo->tx_prov_disc_info.benable = _FALSE;
++	}
++
++	for (jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3)
++		peerMAC[jj] = key_2char2num(extra[kk], extra[kk + 1]);
++
++	if (_rtw_memcmp(&extra[18], "display", 7))
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_DISPLYA;
++	else if (_rtw_memcmp(&extra[18], "keypad", 7))
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_KEYPAD;
++	else if (_rtw_memcmp(&extra[18], "pbc", 3))
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_PUSH_BUTTON;
++	else if (_rtw_memcmp(&extra[18], "label", 5))
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_LABEL;
++	else {
++		RTW_INFO("[%s] Unknown WPS config methodn", __FUNCTION__);
++		return ret ;
++	}
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		if (uintPeerChannel != 0)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		/*	Commented by Albert 2011/05/18 */
++		/*	Match the device address located in the P2P IE */
++		/*	This is for the case that the P2P device address is not the same as the P2P interface address. */
++
++		p2pie = rtw_bss_ex_get_p2p_ie(&pnetwork->network, NULL, &p2pielen);
++		if (p2pie) {
++			while (p2pie) {
++				/*	The P2P Device ID attribute is included in the Beacon frame. */
++				/*	The P2P Device Info attribute is included in the probe response frame. */
++
++				if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_DEVICE_ID, attr_content, &attr_contentlen)) {
++					/*	Handle the P2P Device ID attribute of Beacon first */
++					if (_rtw_memcmp(attr_content, peerMAC, ETH_ALEN)) {
++						uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++						break;
++					}
++				} else if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_DEVICE_INFO, attr_content, &attr_contentlen)) {
++					/*	Handle the P2P Device Info attribute of probe response */
++					if (_rtw_memcmp(attr_content, peerMAC, ETH_ALEN)) {
++						uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++						break;
++					}
++				}
++
++				/* Get the next P2P IE */
++				p2pie = rtw_get_p2p_ie(p2pie + p2pielen, BSS_EX_TLV_IES_LEN(&pnetwork->network) - (p2pie + p2pielen - BSS_EX_TLV_IES(&pnetwork->network)), NULL, &p2pielen);
++			}
++
++		}
++
++#ifdef CONFIG_INTEL_WIDI
++		/* Some Intel WiDi source may not provide P2P IE, */
++		/* so we could only compare mac addr by 802.11 Source Address */
++		if (pmlmepriv->widi_state == INTEL_WIDI_STATE_WFD_CONNECTION
++		    && uintPeerChannel == 0) {
++			if (_rtw_memcmp(pnetwork->network.MacAddress, peerMAC, ETH_ALEN)) {
++				uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++				break;
++			}
++		}
++#endif /* CONFIG_INTEL_WIDI */
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (uintPeerChannel) {
++#ifdef CONFIG_WFD
++		if (hal_chk_wl_func(padapter, WL_FUNC_MIRACAST)) {
++			struct wifi_display_info *pwfd_info = pwdinfo->wfd_info;
++			u8 *wfd_ie;
++			uint wfd_ielen = 0;
++
++			wfd_ie = rtw_bss_ex_get_wfd_ie(&pnetwork->network, NULL, &wfd_ielen);
++			if (wfd_ie) {
++				u8 *wfd_devinfo;
++				uint wfd_devlen;
++
++				RTW_INFO("[%s] Found WFD IE!\n", __FUNCTION__);
++				wfd_devinfo = rtw_get_wfd_attr_content(wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, NULL, &wfd_devlen);
++				if (wfd_devinfo) {
++					u16	wfd_devinfo_field = 0;
++
++					/*	Commented by Albert 20120319 */
++					/*	The first two bytes are the WFD device information field of WFD device information subelement. */
++					/*	In big endian format. */
++					wfd_devinfo_field = RTW_GET_BE16(wfd_devinfo);
++					if (wfd_devinfo_field & WFD_DEVINFO_SESSION_AVAIL)
++						pwfd_info->peer_session_avail = _TRUE;
++					else
++						pwfd_info->peer_session_avail = _FALSE;
++				}
++			}
++
++			if (_FALSE == pwfd_info->peer_session_avail) {
++				RTW_INFO("[%s] WFD Session not avaiable!\n", __FUNCTION__);
++				goto exit;
++			}
++		}
++#endif /* CONFIG_WFD */
++
++		RTW_INFO("[%s] peer channel: %d!\n", __FUNCTION__, uintPeerChannel);
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			_cancel_timer_ex(&pwdinfo->ap_p2p_switch_timer);
++#endif /* CONFIG_CONCURRENT_MODE */
++		_rtw_memcpy(pwdinfo->tx_prov_disc_info.peerIFAddr, pnetwork->network.MacAddress, ETH_ALEN);
++		_rtw_memcpy(pwdinfo->tx_prov_disc_info.peerDevAddr, peerMAC, ETH_ALEN);
++		pwdinfo->tx_prov_disc_info.peer_channel_num[0] = (u16) uintPeerChannel;
++		pwdinfo->tx_prov_disc_info.benable = _TRUE;
++		rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_TX_PROVISION_DIS_REQ);
++
++		if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT))
++			_rtw_memcpy(&pwdinfo->tx_prov_disc_info.ssid, &pnetwork->network.Ssid, sizeof(NDIS_802_11_SSID));
++		else if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_DEVICE) || rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++			_rtw_memcpy(pwdinfo->tx_prov_disc_info.ssid.Ssid, pwdinfo->p2p_wildcard_ssid, P2P_WILDCARD_SSID_LEN);
++			pwdinfo->tx_prov_disc_info.ssid.SsidLength = P2P_WILDCARD_SSID_LEN;
++		}
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED)) {
++			u8 union_ch = rtw_mi_get_union_chan(padapter);
++			u8 union_bw = rtw_mi_get_union_bw(padapter);
++			u8 union_offset = rtw_mi_get_union_offset(padapter);
++
++			/*	Have to enter the power saving with the AP */
++			set_channel_bwmode(padapter, union_ch, union_offset, union_bw);
++
++			rtw_mi_buddy_issue_nulldata(padapter, NULL, 1, 3, 500);
++		} else
++			set_channel_bwmode(padapter, uintPeerChannel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++#else
++		set_channel_bwmode(padapter, uintPeerChannel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++#endif
++
++		_set_timer(&pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_CONCURRENT_PROVISION_TIMEOUT);
++		else
++			_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_PROVISION_TIMEOUT);
++#else
++		_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_PROVISION_TIMEOUT);
++#endif /* CONFIG_CONCURRENT_MODE		 */
++
++	} else {
++		RTW_INFO("[%s] NOT Found in the Scanning Queue!\n", __FUNCTION__);
++#ifdef CONFIG_INTEL_WIDI
++		_cancel_timer_ex(&pwdinfo->restore_p2p_state_timer);
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH);
++		rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_NONE);
++		rtw_free_network_queue(padapter, _TRUE);
++		_enter_critical_bh(&pmlmepriv->lock, &irqL);
++		rtw_sitesurvey_cmd(padapter, NULL, 0, NULL, 0);
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++#endif /* CONFIG_INTEL_WIDI */
++	}
++exit:
++
++	return ret;
++
++}
++
++/*	Added by Albert 20110328
++ *	This function is used to inform the driver the user had specified the pin code value or pbc
++ *	to application. */
++
++static int rtw_p2p_got_wpsinfo(struct net_device *dev,
++			       struct iw_request_info *info,
++			       union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter				*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, extra);
++	/*	Added by Albert 20110328 */
++	/*	if the input data is P2P_NO_WPSINFO -> reset the wpsinfo */
++	/*	if the input data is P2P_GOT_WPSINFO_PEER_DISPLAY_PIN -> the utility just input the PIN code got from the peer P2P device. */
++	/*	if the input data is P2P_GOT_WPSINFO_SELF_DISPLAY_PIN -> the utility just got the PIN code from itself. */
++	/*	if the input data is P2P_GOT_WPSINFO_PBC -> the utility just determine to use the PBC */
++
++	if (*extra == '0')
++		pwdinfo->ui_got_wps_info = P2P_NO_WPSINFO;
++	else if (*extra == '1')
++		pwdinfo->ui_got_wps_info = P2P_GOT_WPSINFO_PEER_DISPLAY_PIN;
++	else if (*extra == '2')
++		pwdinfo->ui_got_wps_info = P2P_GOT_WPSINFO_SELF_DISPLAY_PIN;
++	else if (*extra == '3')
++		pwdinfo->ui_got_wps_info = P2P_GOT_WPSINFO_PBC;
++	else
++		pwdinfo->ui_got_wps_info = P2P_NO_WPSINFO;
++
++	return ret;
++
++}
++
++#endif /* CONFIG_P2P */
++
++static int rtw_p2p_set(struct net_device *dev,
++		       struct iw_request_info *info,
++		       union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++#ifdef CONFIG_P2P
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	RTW_INFO("[%s] extra = %s\n", __FUNCTION__, extra);
++
++	if (_rtw_memcmp(extra, "enable=", 7))
++		rtw_wext_p2p_enable(dev, info, wrqu, &extra[7]);
++	else if (_rtw_memcmp(extra, "setDN=", 6)) {
++		wrqu->data.length -= 6;
++		rtw_p2p_setDN(dev, info, wrqu, &extra[6]);
++	} else if (_rtw_memcmp(extra, "profilefound=", 13)) {
++		wrqu->data.length -= 13;
++		rtw_p2p_profilefound(dev, info, wrqu, &extra[13]);
++	} else if (_rtw_memcmp(extra, "prov_disc=", 10)) {
++		wrqu->data.length -= 10;
++		rtw_p2p_prov_disc(dev, info, wrqu, &extra[10]);
++	} else if (_rtw_memcmp(extra, "nego=", 5)) {
++		wrqu->data.length -= 5;
++		rtw_p2p_connect(dev, info, wrqu, &extra[5]);
++	} else if (_rtw_memcmp(extra, "intent=", 7)) {
++		/*	Commented by Albert 2011/03/23 */
++		/*	The wrqu->data.length will include the null character */
++		/*	So, we will decrease 7 + 1 */
++		wrqu->data.length -= 8;
++		rtw_p2p_set_intent(dev, info, wrqu, &extra[7]);
++	} else if (_rtw_memcmp(extra, "ssid=", 5)) {
++		wrqu->data.length -= 5;
++		rtw_p2p_set_go_nego_ssid(dev, info, wrqu, &extra[5]);
++	} else if (_rtw_memcmp(extra, "got_wpsinfo=", 12)) {
++		wrqu->data.length -= 12;
++		rtw_p2p_got_wpsinfo(dev, info, wrqu, &extra[12]);
++	} else if (_rtw_memcmp(extra, "listen_ch=", 10)) {
++		/*	Commented by Albert 2011/05/24 */
++		/*	The wrqu->data.length will include the null character */
++		/*	So, we will decrease (10 + 1)	 */
++		wrqu->data.length -= 11;
++		rtw_p2p_set_listen_ch(dev, info, wrqu, &extra[10]);
++	} else if (_rtw_memcmp(extra, "op_ch=", 6)) {
++		/*	Commented by Albert 2011/05/24 */
++		/*	The wrqu->data.length will include the null character */
++		/*	So, we will decrease (6 + 1)	 */
++		wrqu->data.length -= 7;
++		rtw_p2p_set_op_ch(dev, info, wrqu, &extra[6]);
++	} else if (_rtw_memcmp(extra, "invite=", 7)) {
++		wrqu->data.length -= 8;
++		rtw_p2p_invite_req(dev, info, wrqu, &extra[7]);
++	} else if (_rtw_memcmp(extra, "persistent=", 11)) {
++		wrqu->data.length -= 11;
++		rtw_p2p_set_persistent(dev, info, wrqu, &extra[11]);
++	} else if (_rtw_memcmp(extra, "uuid=", 5)) {
++		wrqu->data.length -= 5;
++		ret = rtw_p2p_set_wps_uuid(dev, info, wrqu, &extra[5]);
++	}
++
++#ifdef CONFIG_WFD
++	if (hal_chk_wl_func(padapter, WL_FUNC_MIRACAST)) {
++		if (_rtw_memcmp(extra, "sa=", 3)) {
++			/* sa: WFD Session Available information */
++			wrqu->data.length -= 3;
++			rtw_p2p_set_sa(dev, info, wrqu, &extra[3]);
++		} else if (_rtw_memcmp(extra, "pc=", 3)) {
++			/* pc: WFD Preferred Connection */
++			wrqu->data.length -= 3;
++			rtw_p2p_set_pc(dev, info, wrqu, &extra[3]);
++		} else if (_rtw_memcmp(extra, "wfd_type=", 9)) {
++			wrqu->data.length -= 9;
++			rtw_p2p_set_wfd_device_type(dev, info, wrqu, &extra[9]);
++		} else if (_rtw_memcmp(extra, "wfd_enable=", 11)) {
++			wrqu->data.length -= 11;
++			rtw_p2p_set_wfd_enable(dev, info, wrqu, &extra[11]);
++		} else if (_rtw_memcmp(extra, "driver_iface=", 13)) {
++			wrqu->data.length -= 13;
++			rtw_p2p_set_driver_iface(dev, info, wrqu, &extra[13]);
++		}
++	}
++#endif /* CONFIG_WFD */
++
++#endif /* CONFIG_P2P */
++
++	return ret;
++
++}
++
++static int rtw_p2p_get(struct net_device *dev,
++		       struct iw_request_info *info,
++		       union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++
++#ifdef CONFIG_P2P
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	if (padapter->bShowGetP2PState)
++		RTW_INFO("[%s] extra = %s\n", __FUNCTION__, (char *) wrqu->data.pointer);
++
++	if (_rtw_memcmp(wrqu->data.pointer, "status", 6))
++		rtw_p2p_get_status(dev, info, wrqu, extra);
++	else if (_rtw_memcmp(wrqu->data.pointer, "role", 4))
++		rtw_p2p_get_role(dev, info, wrqu, extra);
++	else if (_rtw_memcmp(wrqu->data.pointer, "peer_ifa", 8))
++		rtw_p2p_get_peer_ifaddr(dev, info, wrqu, extra);
++	else if (_rtw_memcmp(wrqu->data.pointer, "req_cm", 6))
++		rtw_p2p_get_req_cm(dev, info, wrqu, extra);
++	else if (_rtw_memcmp(wrqu->data.pointer, "peer_deva", 9)) {
++		/*	Get the P2P device address when receiving the provision discovery request frame. */
++		rtw_p2p_get_peer_devaddr(dev, info, wrqu, extra);
++	} else if (_rtw_memcmp(wrqu->data.pointer, "group_id", 8))
++		rtw_p2p_get_groupid(dev, info, wrqu, extra);
++	else if (_rtw_memcmp(wrqu->data.pointer, "inv_peer_deva", 13)) {
++		/*	Get the P2P device address when receiving the P2P Invitation request frame. */
++		rtw_p2p_get_peer_devaddr_by_invitation(dev, info, wrqu, extra);
++	} else if (_rtw_memcmp(wrqu->data.pointer, "op_ch", 5))
++		rtw_p2p_get_op_ch(dev, info, wrqu, extra);
++
++#ifdef CONFIG_WFD
++	if (hal_chk_wl_func(padapter, WL_FUNC_MIRACAST)) {
++		if (_rtw_memcmp(wrqu->data.pointer, "peer_port", 9))
++			rtw_p2p_get_peer_wfd_port(dev, info, wrqu, extra);
++		else if (_rtw_memcmp(wrqu->data.pointer, "wfd_sa", 6))
++			rtw_p2p_get_peer_wfd_session_available(dev, info, wrqu, extra);
++		else if (_rtw_memcmp(wrqu->data.pointer, "wfd_pc", 6))
++			rtw_p2p_get_peer_wfd_preferred_connection(dev, info, wrqu, extra);
++	}
++#endif /* CONFIG_WFD */
++
++#endif /* CONFIG_P2P */
++
++	return ret;
++
++}
++
++static int rtw_p2p_get2(struct net_device *dev,
++			struct iw_request_info *info,
++			union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++
++#ifdef CONFIG_P2P
++
++	int length = wrqu->data.length;
++	char *buffer = (u8 *)rtw_malloc(length);
++
++	if (buffer == NULL) {
++		ret = -ENOMEM;
++		goto bad;
++	}
++
++	if (copy_from_user(buffer, wrqu->data.pointer, wrqu->data.length)) {
++		ret = -EFAULT;
++		goto bad;
++	}
++
++	RTW_INFO("[%s] buffer = %s\n", __FUNCTION__, buffer);
++
++	if (_rtw_memcmp(buffer, "wpsCM=", 6))
++		ret = rtw_p2p_get_wps_configmethod(dev, info, wrqu, extra, &buffer[6]);
++	else if (_rtw_memcmp(buffer, "devN=", 5))
++		ret = rtw_p2p_get_device_name(dev, info, wrqu, extra, &buffer[5]);
++	else if (_rtw_memcmp(buffer, "dev_type=", 9))
++		ret = rtw_p2p_get_device_type(dev, info, wrqu, extra, &buffer[9]);
++	else if (_rtw_memcmp(buffer, "go_devadd=", 10))
++		ret = rtw_p2p_get_go_device_address(dev, info, wrqu, extra, &buffer[10]);
++	else if (_rtw_memcmp(buffer, "InvProc=", 8))
++		ret = rtw_p2p_get_invitation_procedure(dev, info, wrqu, extra, &buffer[8]);
++	else {
++		snprintf(extra, sizeof("Command not found."), "Command not found.");
++		wrqu->data.length = strlen(extra);
++	}
++
++bad:
++	if (buffer)
++		rtw_mfree(buffer, length);
++
++#endif /* CONFIG_P2P */
++
++	return ret;
++
++}
++
++static int rtw_cta_test_start(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++	_adapter	*padapter = (_adapter *)rtw_netdev_priv(dev);
++	RTW_INFO("%s %s\n", __func__, extra);
++	if (!strcmp(extra, "1"))
++		padapter->in_cta_test = 1;
++	else
++		padapter->in_cta_test = 0;
++
++	if (padapter->in_cta_test) {
++		u32 v = rtw_read32(padapter, REG_RCR);
++		v &= ~(RCR_CBSSID_DATA | RCR_CBSSID_BCN); /* | RCR_ADF */
++		rtw_write32(padapter, REG_RCR, v);
++		RTW_INFO("enable RCR_ADF\n");
++	} else {
++		u32 v = rtw_read32(padapter, REG_RCR);
++		v |= RCR_CBSSID_DATA | RCR_CBSSID_BCN ;/* | RCR_ADF */
++		rtw_write32(padapter, REG_RCR, v);
++		RTW_INFO("disable RCR_ADF\n");
++	}
++	return ret;
++}
++
++
++extern int rtw_change_ifname(_adapter *padapter, const char *ifname);
++static int rtw_rereg_nd_name(struct net_device *dev,
++			     struct iw_request_info *info,
++			     union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++	_adapter *padapter = rtw_netdev_priv(dev);
++	struct rereg_nd_name_data *rereg_priv = &padapter->rereg_nd_name_priv;
++	char new_ifname[IFNAMSIZ];
++
++	if (rereg_priv->old_ifname[0] == 0) {
++		char *reg_ifname;
++#ifdef CONFIG_CONCURRENT_MODE
++		if (padapter->isprimary)
++			reg_ifname = padapter->registrypriv.ifname;
++		else
++#endif
++			reg_ifname = padapter->registrypriv.if2name;
++
++		strncpy(rereg_priv->old_ifname, reg_ifname, IFNAMSIZ);
++		rereg_priv->old_ifname[IFNAMSIZ - 1] = 0;
++	}
++
++	/* RTW_INFO("%s wrqu->data.length:%d\n", __FUNCTION__, wrqu->data.length); */
++	if (wrqu->data.length > IFNAMSIZ)
++		return -EFAULT;
++
++	if (copy_from_user(new_ifname, wrqu->data.pointer, IFNAMSIZ))
++		return -EFAULT;
++
++	if (0 == strcmp(rereg_priv->old_ifname, new_ifname))
++		return ret;
++
++	RTW_INFO("%s new_ifname:%s\n", __FUNCTION__, new_ifname);
++	ret = rtw_change_ifname(padapter, new_ifname);
++	if (0 != ret)
++		goto exit;
++
++	if (_rtw_memcmp(rereg_priv->old_ifname, "disable%d", 9) == _TRUE) {
++		padapter->ledpriv.bRegUseLed = rereg_priv->old_bRegUseLed;
++		rtw_hal_sw_led_init(padapter);
++		/* rtw_ips_mode_req(&padapter->pwrctrlpriv, rereg_priv->old_ips_mode); */
++	}
++
++	strncpy(rereg_priv->old_ifname, new_ifname, IFNAMSIZ);
++	rereg_priv->old_ifname[IFNAMSIZ - 1] = 0;
++
++	if (_rtw_memcmp(new_ifname, "disable%d", 9) == _TRUE) {
++
++		RTW_INFO("%s disable\n", __FUNCTION__);
++		/* free network queue for Android's timming issue */
++		rtw_free_network_queue(padapter, _TRUE);
++
++		/* close led */
++		rtw_led_control(padapter, LED_CTL_POWER_OFF);
++		rereg_priv->old_bRegUseLed = padapter->ledpriv.bRegUseLed;
++		padapter->ledpriv.bRegUseLed = _FALSE;
++		rtw_hal_sw_led_deinit(padapter);
++
++		/* the interface is being "disabled", we can do deeper IPS */
++		/* rereg_priv->old_ips_mode = rtw_get_ips_mode_req(&padapter->pwrctrlpriv); */
++		/* rtw_ips_mode_req(&padapter->pwrctrlpriv, IPS_NORMAL); */
++	}
++exit:
++	return ret;
++
++}
++
++#ifdef CONFIG_IOL
++#include <rtw_iol.h>
++#endif
++
++#ifdef DBG_CMD_QUEUE
++u8 dump_cmd_id = 0;
++#endif
++static int rtw_dbg_port(struct net_device *dev,
++			struct iw_request_info *info,
++			union iwreq_data *wrqu, char *extra)
++{
++	_irqL irqL;
++	int ret = 0;
++	u8 major_cmd, minor_cmd;
++	u16 arg;
++	u32 extra_arg, *pdata, val32;
++	struct sta_info *psta;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct wlan_network *cur_network = &(pmlmepriv->cur_network);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++
++	pdata = (u32 *)&wrqu->data;
++
++	val32 = *pdata;
++	arg = (u16)(val32 & 0x0000ffff);
++	major_cmd = (u8)(val32 >> 24);
++	minor_cmd = (u8)((val32 >> 16) & 0x00ff);
++
++	extra_arg = *(pdata + 1);
++
++	switch (major_cmd) {
++	case 0x70: /* read_reg */
++		switch (minor_cmd) {
++		case 1:
++			RTW_INFO("rtw_read8(0x%x)=0x%02x\n", arg, rtw_read8(padapter, arg));
++			break;
++		case 2:
++			RTW_INFO("rtw_read16(0x%x)=0x%04x\n", arg, rtw_read16(padapter, arg));
++			break;
++		case 4:
++			RTW_INFO("rtw_read32(0x%x)=0x%08x\n", arg, rtw_read32(padapter, arg));
++			break;
++		}
++		break;
++	case 0x71: /* write_reg */
++		switch (minor_cmd) {
++		case 1:
++			rtw_write8(padapter, arg, extra_arg);
++			RTW_INFO("rtw_write8(0x%x)=0x%02x\n", arg, rtw_read8(padapter, arg));
++			break;
++		case 2:
++			rtw_write16(padapter, arg, extra_arg);
++			RTW_INFO("rtw_write16(0x%x)=0x%04x\n", arg, rtw_read16(padapter, arg));
++			break;
++		case 4:
++			rtw_write32(padapter, arg, extra_arg);
++			RTW_INFO("rtw_write32(0x%x)=0x%08x\n", arg, rtw_read32(padapter, arg));
++			break;
++		}
++		break;
++	case 0x72: /* read_bb */
++		RTW_INFO("read_bbreg(0x%x)=0x%x\n", arg, rtw_hal_read_bbreg(padapter, arg, 0xffffffff));
++		break;
++	case 0x73: /* write_bb */
++		rtw_hal_write_bbreg(padapter, arg, 0xffffffff, extra_arg);
++		RTW_INFO("write_bbreg(0x%x)=0x%x\n", arg, rtw_hal_read_bbreg(padapter, arg, 0xffffffff));
++		break;
++	case 0x74: /* read_rf */
++		RTW_INFO("read RF_reg path(0x%02x),offset(0x%x),value(0x%08x)\n", minor_cmd, arg, rtw_hal_read_rfreg(padapter, minor_cmd, arg, 0xffffffff));
++		break;
++	case 0x75: /* write_rf */
++		rtw_hal_write_rfreg(padapter, minor_cmd, arg, 0xffffffff, extra_arg);
++		RTW_INFO("write RF_reg path(0x%02x),offset(0x%x),value(0x%08x)\n", minor_cmd, arg, rtw_hal_read_rfreg(padapter, minor_cmd, arg, 0xffffffff));
++		break;
++
++	case 0x76:
++		switch (minor_cmd) {
++		case 0x00: /* normal mode, */
++			padapter->recvpriv.is_signal_dbg = 0;
++			break;
++		case 0x01: /* dbg mode */
++			padapter->recvpriv.is_signal_dbg = 1;
++			extra_arg = extra_arg > 100 ? 100 : extra_arg;
++			padapter->recvpriv.signal_strength_dbg = extra_arg;
++			break;
++		}
++		break;
++	case 0x78: /* IOL test */
++		switch (minor_cmd) {
++		#ifdef CONFIG_IOL
++		case 0x04: { /* LLT table initialization test */
++			u8 page_boundary = 0xf9;
++			{
++				struct xmit_frame	*xmit_frame;
++
++				xmit_frame = rtw_IOL_accquire_xmit_frame(padapter);
++				if (xmit_frame == NULL) {
++					ret = -ENOMEM;
++					break;
++				}
++
++				rtw_IOL_append_LLT_cmd(xmit_frame, page_boundary);
++
++
++				if (_SUCCESS != rtw_IOL_exec_cmds_sync(padapter, xmit_frame, 500, 0))
++					ret = -EPERM;
++			}
++		}
++			break;
++		case 0x05: { /* blink LED test */
++			u16 reg = 0x4c;
++			u32 blink_num = 50;
++			u32 blink_delay_ms = 200;
++			int i;
++
++			{
++				struct xmit_frame	*xmit_frame;
++
++				xmit_frame = rtw_IOL_accquire_xmit_frame(padapter);
++				if (xmit_frame == NULL) {
++					ret = -ENOMEM;
++					break;
++				}
++
++				for (i = 0; i < blink_num; i++) {
++					#ifdef CONFIG_IOL_NEW_GENERATION
++					rtw_IOL_append_WB_cmd(xmit_frame, reg, 0x00, 0xff);
++					rtw_IOL_append_DELAY_MS_cmd(xmit_frame, blink_delay_ms);
++					rtw_IOL_append_WB_cmd(xmit_frame, reg, 0x08, 0xff);
++					rtw_IOL_append_DELAY_MS_cmd(xmit_frame, blink_delay_ms);
++					#else
++					rtw_IOL_append_WB_cmd(xmit_frame, reg, 0x00);
++					rtw_IOL_append_DELAY_MS_cmd(xmit_frame, blink_delay_ms);
++					rtw_IOL_append_WB_cmd(xmit_frame, reg, 0x08);
++					rtw_IOL_append_DELAY_MS_cmd(xmit_frame, blink_delay_ms);
++					#endif
++				}
++				if (_SUCCESS != rtw_IOL_exec_cmds_sync(padapter, xmit_frame, (blink_delay_ms * blink_num * 2) + 200, 0))
++					ret = -EPERM;
++			}
++		}
++			break;
++
++		case 0x06: { /* continuous wirte byte test */
++			u16 reg = arg;
++			u16 start_value = 0;
++			u32 write_num = extra_arg;
++			int i;
++			u8 final;
++
++			{
++				struct xmit_frame	*xmit_frame;
++
++				xmit_frame = rtw_IOL_accquire_xmit_frame(padapter);
++				if (xmit_frame == NULL) {
++					ret = -ENOMEM;
++					break;
++				}
++
++				for (i = 0; i < write_num; i++) {
++					#ifdef CONFIG_IOL_NEW_GENERATION
++					rtw_IOL_append_WB_cmd(xmit_frame, reg, i + start_value, 0xFF);
++					#else
++					rtw_IOL_append_WB_cmd(xmit_frame, reg, i + start_value);
++					#endif
++				}
++				if (_SUCCESS != rtw_IOL_exec_cmds_sync(padapter, xmit_frame, 5000, 0))
++					ret = -EPERM;
++			}
++
++			final = rtw_read8(padapter, reg);
++			if (start_value + write_num - 1 == final)
++				RTW_INFO("continuous IOL_CMD_WB_REG to 0x%x %u times Success, start:%u, final:%u\n", reg, write_num, start_value, final);
++			else
++				RTW_INFO("continuous IOL_CMD_WB_REG to 0x%x %u times Fail, start:%u, final:%u\n", reg, write_num, start_value, final);
++		}
++			break;
++
++		case 0x07: { /* continuous wirte word test */
++			u16 reg = arg;
++			u16 start_value = 200;
++			u32 write_num = extra_arg;
++
++			int i;
++			u16 final;
++
++			{
++				struct xmit_frame	*xmit_frame;
++
++				xmit_frame = rtw_IOL_accquire_xmit_frame(padapter);
++				if (xmit_frame == NULL) {
++					ret = -ENOMEM;
++					break;
++				}
++
++				for (i = 0; i < write_num; i++) {
++					#ifdef CONFIG_IOL_NEW_GENERATION
++					rtw_IOL_append_WW_cmd(xmit_frame, reg, i + start_value, 0xFFFF);
++					#else
++					rtw_IOL_append_WW_cmd(xmit_frame, reg, i + start_value);
++					#endif
++				}
++				if (_SUCCESS != rtw_IOL_exec_cmds_sync(padapter, xmit_frame, 5000, 0))
++					ret = -EPERM;
++			}
++
++			final = rtw_read16(padapter, reg);
++			if (start_value + write_num - 1 == final)
++				RTW_INFO("continuous IOL_CMD_WW_REG to 0x%x %u times Success, start:%u, final:%u\n", reg, write_num, start_value, final);
++			else
++				RTW_INFO("continuous IOL_CMD_WW_REG to 0x%x %u times Fail, start:%u, final:%u\n", reg, write_num, start_value, final);
++		}
++			break;
++
++		case 0x08: { /* continuous wirte dword test */
++			u16 reg = arg;
++			u32 start_value = 0x110000c7;
++			u32 write_num = extra_arg;
++
++			int i;
++			u32 final;
++
++			{
++				struct xmit_frame	*xmit_frame;
++
++				xmit_frame = rtw_IOL_accquire_xmit_frame(padapter);
++				if (xmit_frame == NULL) {
++					ret = -ENOMEM;
++					break;
++				}
++
++				for (i = 0; i < write_num; i++) {
++					#ifdef CONFIG_IOL_NEW_GENERATION
++					rtw_IOL_append_WD_cmd(xmit_frame, reg, i + start_value, 0xFFFFFFFF);
++					#else
++					rtw_IOL_append_WD_cmd(xmit_frame, reg, i + start_value);
++					#endif
++				}
++				if (_SUCCESS != rtw_IOL_exec_cmds_sync(padapter, xmit_frame, 5000, 0))
++					ret = -EPERM;
++
++			}
++
++			final = rtw_read32(padapter, reg);
++			if (start_value + write_num - 1 == final)
++				RTW_INFO("continuous IOL_CMD_WD_REG to 0x%x %u times Success, start:%u, final:%u\n", reg, write_num, start_value, final);
++			else
++				RTW_INFO("continuous IOL_CMD_WD_REG to 0x%x %u times Fail, start:%u, final:%u\n", reg, write_num, start_value, final);
++		}
++			break;
++		#endif /* CONFIG_IOL */
++		}
++		break;
++	case 0x79: {
++		/*
++		* dbg 0x79000000 [value], set RESP_TXAGC to + value, value:0~15
++		* dbg 0x79010000 [value], set RESP_TXAGC to - value, value:0~15
++		*/
++		u8 value =  extra_arg & 0x0f;
++		u8 sign = minor_cmd;
++		u16 write_value = 0;
++
++		RTW_INFO("%s set RESP_TXAGC to %s %u\n", __func__, sign ? "minus" : "plus", value);
++
++		if (sign)
++			value = value | 0x10;
++
++		write_value = value | (value << 5);
++		rtw_write16(padapter, 0x6d9, write_value);
++	}
++		break;
++	case 0x7a:
++		receive_disconnect(padapter, pmlmeinfo->network.MacAddress
++				   , WLAN_REASON_EXPIRATION_CHK, _FALSE);
++		break;
++	case 0x7F:
++		switch (minor_cmd) {
++		case 0x0:
++			RTW_INFO("fwstate=0x%x\n", get_fwstate(pmlmepriv));
++			break;
++		case 0x01:
++			RTW_INFO("auth_alg=0x%x, enc_alg=0x%x, auth_type=0x%x, enc_type=0x%x\n",
++				psecuritypriv->dot11AuthAlgrthm, psecuritypriv->dot11PrivacyAlgrthm,
++				psecuritypriv->ndisauthtype, psecuritypriv->ndisencryptstatus);
++			break;
++		case 0x02:
++			RTW_INFO("pmlmeinfo->state=0x%x\n", pmlmeinfo->state);
++			RTW_INFO("DrvBcnEarly=%d\n", pmlmeext->DrvBcnEarly);
++			RTW_INFO("DrvBcnTimeOut=%d\n", pmlmeext->DrvBcnTimeOut);
++			break;
++		case 0x03:
++			RTW_INFO("qos_option=%d\n", pmlmepriv->qospriv.qos_option);
++#ifdef CONFIG_80211N_HT
++			RTW_INFO("ht_option=%d\n", pmlmepriv->htpriv.ht_option);
++#endif /* CONFIG_80211N_HT */
++			break;
++		case 0x04:
++			RTW_INFO("cur_ch=%d\n", pmlmeext->cur_channel);
++			RTW_INFO("cur_bw=%d\n", pmlmeext->cur_bwmode);
++			RTW_INFO("cur_ch_off=%d\n", pmlmeext->cur_ch_offset);
++
++			RTW_INFO("oper_ch=%d\n", rtw_get_oper_ch(padapter));
++			RTW_INFO("oper_bw=%d\n", rtw_get_oper_bw(padapter));
++			RTW_INFO("oper_ch_offet=%d\n", rtw_get_oper_choffset(padapter));
++
++			break;
++		case 0x05:
++			psta = rtw_get_stainfo(pstapriv, cur_network->network.MacAddress);
++			if (psta) {
++				RTW_INFO("SSID=%s\n", cur_network->network.Ssid.Ssid);
++				RTW_INFO("sta's macaddr:" MAC_FMT "\n", MAC_ARG(psta->hwaddr));
++				RTW_INFO("cur_channel=%d, cur_bwmode=%d, cur_ch_offset=%d\n", pmlmeext->cur_channel, pmlmeext->cur_bwmode, pmlmeext->cur_ch_offset);
++				RTW_INFO("rtsen=%d, cts2slef=%d\n", psta->rtsen, psta->cts2self);
++				RTW_INFO("state=0x%x, aid=%d, macid=%d, raid=%d\n", psta->state, psta->aid, psta->mac_id, psta->raid);
++#ifdef CONFIG_80211N_HT
++				RTW_INFO("qos_en=%d, ht_en=%d, init_rate=%d\n", psta->qos_option, psta->htpriv.ht_option, psta->init_rate);
++				RTW_INFO("bwmode=%d, ch_offset=%d, sgi_20m=%d,sgi_40m=%d\n", psta->bw_mode, psta->htpriv.ch_offset, psta->htpriv.sgi_20m, psta->htpriv.sgi_40m);
++				RTW_INFO("ampdu_enable = %d\n", psta->htpriv.ampdu_enable);
++				RTW_INFO("agg_enable_bitmap=%x, candidate_tid_bitmap=%x\n", psta->htpriv.agg_enable_bitmap, psta->htpriv.candidate_tid_bitmap);
++#endif /* CONFIG_80211N_HT */
++
++				sta_rx_reorder_ctl_dump(RTW_DBGDUMP, psta);
++			} else
++				RTW_INFO("can't get sta's macaddr, cur_network's macaddr:" MAC_FMT "\n", MAC_ARG(cur_network->network.MacAddress));
++			break;
++		case 0x06: {
++		}
++			break;
++		case 0x07:
++			RTW_INFO("bSurpriseRemoved=%s, bDriverStopped=%s\n"
++				, rtw_is_surprise_removed(padapter) ? "True" : "False"
++				, rtw_is_drv_stopped(padapter) ? "True" : "False");
++			break;
++		case 0x08: {
++			struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++			struct recv_priv  *precvpriv = &padapter->recvpriv;
++
++			RTW_INFO("free_xmitbuf_cnt=%d, free_xmitframe_cnt=%d"
++				", free_xmit_extbuf_cnt=%d, free_xframe_ext_cnt=%d"
++				 ", free_recvframe_cnt=%d\n",
++				pxmitpriv->free_xmitbuf_cnt, pxmitpriv->free_xmitframe_cnt,
++				pxmitpriv->free_xmit_extbuf_cnt, pxmitpriv->free_xframe_ext_cnt,
++				 precvpriv->free_recvframe_cnt);
++#ifdef CONFIG_USB_HCI
++			RTW_INFO("rx_urb_pending_cn=%d\n", ATOMIC_READ(&(precvpriv->rx_pending_cnt)));
++#endif
++		}
++			break;
++		case 0x09: {
++			int i;
++			_list	*plist, *phead;
++
++#ifdef CONFIG_AP_MODE
++			RTW_INFO("sta_dz_bitmap=0x%x, tim_bitmap=0x%x\n", pstapriv->sta_dz_bitmap, pstapriv->tim_bitmap);
++#endif
++			_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++			for (i = 0; i < NUM_STA; i++) {
++				phead = &(pstapriv->sta_hash[i]);
++				plist = get_next(phead);
++
++				while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++					psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++
++					plist = get_next(plist);
++
++					if (extra_arg == psta->aid) {
++						RTW_INFO("sta's macaddr:" MAC_FMT "\n", MAC_ARG(psta->hwaddr));
++						RTW_INFO("rtsen=%d, cts2slef=%d\n", psta->rtsen, psta->cts2self);
++						RTW_INFO("state=0x%x, aid=%d, macid=%d, raid=%d\n", psta->state, psta->aid, psta->mac_id, psta->raid);
++#ifdef CONFIG_80211N_HT
++						RTW_INFO("qos_en=%d, ht_en=%d, init_rate=%d\n", psta->qos_option, psta->htpriv.ht_option, psta->init_rate);
++						RTW_INFO("bwmode=%d, ch_offset=%d, sgi_20m=%d,sgi_40m=%d\n", psta->bw_mode, psta->htpriv.ch_offset, psta->htpriv.sgi_20m,
++							psta->htpriv.sgi_40m);
++						RTW_INFO("ampdu_enable = %d\n", psta->htpriv.ampdu_enable);
++						RTW_INFO("agg_enable_bitmap=%x, candidate_tid_bitmap=%x\n", psta->htpriv.agg_enable_bitmap, psta->htpriv.candidate_tid_bitmap);
++#endif /* CONFIG_80211N_HT */
++
++#ifdef CONFIG_AP_MODE
++						RTW_INFO("capability=0x%x\n", psta->capability);
++						RTW_INFO("flags=0x%x\n", psta->flags);
++						RTW_INFO("wpa_psk=0x%x\n", psta->wpa_psk);
++						RTW_INFO("wpa2_group_cipher=0x%x\n", psta->wpa2_group_cipher);
++						RTW_INFO("wpa2_pairwise_cipher=0x%x\n", psta->wpa2_pairwise_cipher);
++						RTW_INFO("qos_info=0x%x\n", psta->qos_info);
++#endif
++						RTW_INFO("dot118021XPrivacy=0x%x\n", psta->dot118021XPrivacy);
++
++						sta_rx_reorder_ctl_dump(RTW_DBGDUMP, psta);
++					}
++
++				}
++			}
++
++			_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++		}
++			break;
++
++		case 0x0b: { /* Enable=1, Disable=0 driver control vrtl_carrier_sense. */
++			/* u8 driver_vcs_en; */ /* Enable=1, Disable=0 driver control vrtl_carrier_sense. */
++			/* u8 driver_vcs_type; */ /* force 0:disable VCS, 1:RTS-CTS, 2:CTS-to-self when vcs_en=1. */
++
++			if (arg == 0) {
++				RTW_INFO("disable driver ctrl vcs\n");
++				padapter->driver_vcs_en = 0;
++			} else if (arg == 1) {
++				RTW_INFO("enable driver ctrl vcs = %d\n", extra_arg);
++				padapter->driver_vcs_en = 1;
++
++				if (extra_arg > 2)
++					padapter->driver_vcs_type = 1;
++				else
++					padapter->driver_vcs_type = extra_arg;
++			}
++		}
++			break;
++		case 0x0c: { /* dump rx/tx packet */
++			if (arg == 0) {
++				RTW_INFO("dump rx packet (%d)\n", extra_arg);
++				/* pHalData->bDumpRxPkt =extra_arg;						 */
++				rtw_hal_set_def_var(padapter, HAL_DEF_DBG_DUMP_RXPKT, &(extra_arg));
++			} else if (arg == 1) {
++				RTW_INFO("dump tx packet (%d)\n", extra_arg);
++				rtw_hal_set_def_var(padapter, HAL_DEF_DBG_DUMP_TXPKT, &(extra_arg));
++			}
++		}
++			break;
++		case 0x0e: {
++			if (arg == 0) {
++				RTW_INFO("disable driver ctrl rx_ampdu_factor\n");
++				padapter->driver_rx_ampdu_factor = 0xFF;
++			} else if (arg == 1) {
++
++				RTW_INFO("enable driver ctrl rx_ampdu_factor = %d\n", extra_arg);
++
++				if (extra_arg > 0x03)
++					padapter->driver_rx_ampdu_factor = 0xFF;
++				else
++					padapter->driver_rx_ampdu_factor = extra_arg;
++			}
++		}
++			break;
++		#ifdef DBG_CONFIG_ERROR_DETECT
++		case 0x0f: {
++			if (extra_arg == 0) {
++				RTW_INFO("###### silent reset test.......#####\n");
++				rtw_hal_sreset_reset(padapter);
++			} else {
++				HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++				struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++				psrtpriv->dbg_trigger_point = extra_arg;
++			}
++
++		}
++			break;
++		case 0x15: {
++			struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++			RTW_INFO("==>silent resete cnts:%d\n", pwrpriv->ips_enter_cnts);
++		}
++			break;
++
++		#endif
++
++		case 0x10: /* driver version display */
++			dump_drv_version(RTW_DBGDUMP);
++			break;
++		case 0x11: { /* dump linked status */
++			int pre_mode;
++			pre_mode = padapter->bLinkInfoDump;
++			/* linked_info_dump(padapter,extra_arg); */
++			if (extra_arg == 1 || (extra_arg == 0 && pre_mode == 1)) /* not consider pwr_saving 0: */
++				padapter->bLinkInfoDump = extra_arg;
++
++			else if ((extra_arg == 2) || (extra_arg == 0 && pre_mode == 2)) { /* consider power_saving */
++				/* RTW_INFO("linked_info_dump =%s\n", (padapter->bLinkInfoDump)?"enable":"disable") */
++				linked_info_dump(padapter, extra_arg);
++			}
++
++
++
++		}
++			break;
++#ifdef CONFIG_80211N_HT
++		case 0x12: { /* set rx_stbc */
++			struct registry_priv	*pregpriv = &padapter->registrypriv;
++			/* 0: disable, bit(0):enable 2.4g, bit(1):enable 5g, 0x3: enable both 2.4g and 5g */
++			/* default is set to enable 2.4GHZ for IOT issue with bufflao's AP at 5GHZ */
++			if (pregpriv && (extra_arg == 0 || extra_arg == 1 || extra_arg == 2 || extra_arg == 3)) {
++				pregpriv->rx_stbc = extra_arg;
++				RTW_INFO("set rx_stbc=%d\n", pregpriv->rx_stbc);
++			} else
++				RTW_INFO("get rx_stbc=%d\n", pregpriv->rx_stbc);
++
++		}
++			break;
++		case 0x13: { /* set ampdu_enable */
++			struct registry_priv	*pregpriv = &padapter->registrypriv;
++			/* 0: disable, 0x1:enable */
++			if (pregpriv && extra_arg < 2) {
++				pregpriv->ampdu_enable = extra_arg;
++				RTW_INFO("set ampdu_enable=%d\n", pregpriv->ampdu_enable);
++			} else
++				RTW_INFO("get ampdu_enable=%d\n", pregpriv->ampdu_enable);
++
++		}
++			break;
++#endif
++		case 0x14: { /* get wifi_spec */
++			struct registry_priv	*pregpriv = &padapter->registrypriv;
++			RTW_INFO("get wifi_spec=%d\n", pregpriv->wifi_spec);
++
++		}
++			break;
++		case 0x16: {
++			if (arg == 0xff)
++				rtw_odm_dbg_comp_msg(RTW_DBGDUMP, padapter);
++			else {
++				u64 dbg_comp = (u64)extra_arg;
++				rtw_odm_dbg_comp_set(padapter, dbg_comp);
++			}
++		}
++			break;
++#ifdef DBG_FIXED_CHAN
++		case 0x17: {
++			struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++			printk("===>  Fixed channel to %d\n", extra_arg);
++			pmlmeext->fixed_chan = extra_arg;
++
++		}
++			break;
++#endif
++#ifdef CONFIG_80211N_HT
++		case 0x19: {
++			struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++			/* extra_arg : */
++			/* BIT0: Enable VHT LDPC Rx, BIT1: Enable VHT LDPC Tx, */
++			/* BIT4: Enable HT LDPC Rx, BIT5: Enable HT LDPC Tx */
++			if (arg == 0) {
++				RTW_INFO("driver disable LDPC\n");
++				pregistrypriv->ldpc_cap = 0x00;
++			} else if (arg == 1) {
++				RTW_INFO("driver set LDPC cap = 0x%x\n", extra_arg);
++				pregistrypriv->ldpc_cap = (u8)(extra_arg & 0x33);
++			}
++		}
++			break;
++		case 0x1a: {
++			struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++			/* extra_arg : */
++			/* BIT0: Enable VHT STBC Rx, BIT1: Enable VHT STBC Tx, */
++			/* BIT4: Enable HT STBC Rx, BIT5: Enable HT STBC Tx */
++			if (arg == 0) {
++				RTW_INFO("driver disable STBC\n");
++				pregistrypriv->stbc_cap = 0x00;
++			} else if (arg == 1) {
++				RTW_INFO("driver set STBC cap = 0x%x\n", extra_arg);
++				pregistrypriv->stbc_cap = (u8)(extra_arg & 0x33);
++			}
++		}
++			break;
++#endif /* CONFIG_80211N_HT */
++		case 0x1b: {
++			struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++
++			if (arg == 0) {
++				RTW_INFO("disable driver ctrl max_rx_rate, reset to default_rate_set\n");
++				init_mlme_default_rate_set(padapter);
++#ifdef CONFIG_80211N_HT
++				pregistrypriv->ht_enable = (u8)rtw_ht_enable;
++#endif /* CONFIG_80211N_HT */
++			} else if (arg == 1) {
++
++				int i;
++				u8 max_rx_rate;
++
++				RTW_INFO("enable driver ctrl max_rx_rate = 0x%x\n", extra_arg);
++
++				max_rx_rate = (u8)extra_arg;
++
++				if (max_rx_rate < 0xc) { /* max_rx_rate < MSC0->B or G -> disable HT */
++#ifdef CONFIG_80211N_HT
++					pregistrypriv->ht_enable = 0;
++#endif /* CONFIG_80211N_HT */
++					for (i = 0; i < NumRates; i++) {
++						if (pmlmeext->datarate[i] > max_rx_rate)
++							pmlmeext->datarate[i] = 0xff;
++					}
++
++				}
++#ifdef CONFIG_80211N_HT
++				else if (max_rx_rate < 0x1c) { /* mcs0~mcs15 */
++					u32 mcs_bitmap = 0x0;
++
++					for (i = 0; i < ((max_rx_rate + 1) - 0xc); i++)
++						mcs_bitmap |= BIT(i);
++
++					set_mcs_rate_by_mask(pmlmeext->default_supported_mcs_set, mcs_bitmap);
++				}
++#endif /* CONFIG_80211N_HT							 */
++			}
++		}
++			break;
++		case 0x1c: { /* enable/disable driver control AMPDU Density for peer sta's rx */
++			if (arg == 0) {
++				RTW_INFO("disable driver ctrl ampdu density\n");
++				padapter->driver_ampdu_spacing = 0xFF;
++			} else if (arg == 1) {
++
++				RTW_INFO("enable driver ctrl ampdu density = %d\n", extra_arg);
++
++				if (extra_arg > 0x07)
++					padapter->driver_ampdu_spacing = 0xFF;
++				else
++					padapter->driver_ampdu_spacing = extra_arg;
++			}
++		}
++			break;
++#ifdef CONFIG_BACKGROUND_NOISE_MONITOR
++		case 0x1e: {
++			HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++			PDM_ODM_T pDM_Odm = &pHalData->odmpriv;
++			u8 chan = rtw_get_oper_ch(padapter);
++			RTW_INFO("===========================================\n");
++			ODM_InbandNoise_Monitor(pDM_Odm, _TRUE, 0x1e, 100);
++			RTW_INFO("channel(%d),noise_a = %d, noise_b = %d , noise_all:%d\n",
++				chan, pDM_Odm->noise_level.noise[ODM_RF_PATH_A],
++				pDM_Odm->noise_level.noise[ODM_RF_PATH_B],
++				 pDM_Odm->noise_level.noise_all);
++			RTW_INFO("===========================================\n");
++
++		}
++			break;
++#endif
++
++
++#if defined(CONFIG_SDIO_HCI) && defined(CONFIG_SDIO_INDIRECT_ACCESS) && defined(DBG_SDIO_INDIRECT_ACCESS)
++		case 0x1f:
++			{
++				int i, j = 0, test_cnts = 0;
++				static u8 test_code = 0x5A;
++				static u32 data_misatch_cnt = 0, d_acc_err_cnt = 0;
++
++				u32 d_data, i_data;
++				u32 imr;
++
++				test_cnts = extra_arg;
++				for (i = 0; i < test_cnts; i++) {
++					if (RTW_CANNOT_IO(padapter))
++						break;
++
++					rtw_write8(padapter, 0x07, test_code);
++
++					d_data = rtw_read32(padapter, 0x04);
++					imr =  rtw_read32(padapter, 0x10250014);
++					rtw_write32(padapter, 0x10250014, 0);
++					rtw_msleep_os(50);
++
++					i_data = rtw_sd_iread32(padapter, 0x04);
++
++					rtw_write32(padapter, 0x10250014, imr);
++
++					if (d_data != i_data) {
++						data_misatch_cnt++;
++						RTW_ERR("d_data :0x%08x, i_data : 0x%08x\n", d_data, i_data);
++					}
++
++					if (test_code != (i_data >> 24)) {
++						d_acc_err_cnt++;
++						rtw_write8(padapter, 0x07, 0xAA);
++						RTW_ERR("test_code :0x%02x, i_data : 0x%08x\n", test_code, i_data);
++					}
++					if ((j++) == 100) {
++						rtw_msleep_os(2000);
++						RTW_INFO(" Indirect access testing..........%d/%d\n", i, test_cnts);
++						j = 0;
++					}
++
++					test_code = ~test_code;
++					rtw_msleep_os(50);
++				}
++				RTW_INFO("========Indirect access test=========\n");
++				RTW_INFO(" test_cnts = %d\n", test_cnts);
++				RTW_INFO(" direct & indirect read32 data missatch cnts = %d\n", data_misatch_cnt);
++				RTW_INFO(" indirect rdata is not equal to wdata cnts = %d\n", d_acc_err_cnt);
++				RTW_INFO("========Indirect access test=========\n\n");
++				data_misatch_cnt = d_acc_err_cnt = 0;
++
++			}
++			break;
++#endif
++
++		case 0x23: {
++			RTW_INFO("turn %s the bNotifyChannelChange Variable\n", (extra_arg == 1) ? "on" : "off");
++			padapter->bNotifyChannelChange = extra_arg;
++			break;
++		}
++		case 0x24: {
++#ifdef CONFIG_P2P
++			RTW_INFO("turn %s the bShowGetP2PState Variable\n", (extra_arg == 1) ? "on" : "off");
++			padapter->bShowGetP2PState = extra_arg;
++#endif /* CONFIG_P2P */
++			break;
++		}
++#ifdef CONFIG_GPIO_API
++		case 0x25: { /* Get GPIO register */
++			/*
++			* dbg 0x7f250000 [gpio_num], Get gpio value, gpio_num:0~7
++			*/
++
++			u8 value;
++			RTW_INFO("Read GPIO Value  extra_arg = %d\n", extra_arg);
++			value = rtw_hal_get_gpio(padapter, extra_arg);
++			RTW_INFO("Read GPIO Value = %d\n", value);
++			break;
++		}
++		case 0x26: { /* Set GPIO direction */
++
++			/* dbg 0x7f26000x [y], Set gpio direction,
++			* x: gpio_num,4~7  y: indicate direction, 0~1
++			*/
++
++			int value;
++			RTW_INFO("Set GPIO Direction! arg = %d ,extra_arg=%d\n", arg , extra_arg);
++			value = rtw_hal_config_gpio(padapter, arg, extra_arg);
++			RTW_INFO("Set GPIO Direction %s\n", (value == -1) ? "Fail!!!" : "Success");
++			break;
++		}
++		case 0x27: { /* Set GPIO output direction value */
++			/*
++			* dbg 0x7f27000x [y], Set gpio output direction value,
++			* x: gpio_num,4~7  y: indicate direction, 0~1
++			*/
++
++			int value;
++			RTW_INFO("Set GPIO Value! arg = %d ,extra_arg=%d\n", arg , extra_arg);
++			value = rtw_hal_set_gpio_output_value(padapter, arg, extra_arg);
++			RTW_INFO("Set GPIO Value %s\n", (value == -1) ? "Fail!!!" : "Success");
++			break;
++		}
++#endif
++#ifdef DBG_CMD_QUEUE
++		case 0x28: {
++			dump_cmd_id = extra_arg;
++			RTW_INFO("dump_cmd_id:%d\n", dump_cmd_id);
++		}
++			break;
++#endif /* DBG_CMD_QUEUE */
++		case 0xaa: {
++			if ((extra_arg & 0x7F) > 0x3F)
++				extra_arg = 0xFF;
++			RTW_INFO("chang data rate to :0x%02x\n", extra_arg);
++			padapter->fix_rate = extra_arg;
++		}
++			break;
++		case 0xdd: { /* registers dump , 0 for mac reg,1 for bb reg, 2 for rf reg */
++			if (extra_arg == 0)
++				mac_reg_dump(RTW_DBGDUMP, padapter);
++			else if (extra_arg == 1)
++				bb_reg_dump(RTW_DBGDUMP, padapter);
++			else if (extra_arg == 2)
++				rf_reg_dump(RTW_DBGDUMP, padapter);
++		}
++			break;
++
++		case 0xee: {
++			RTW_INFO(" === please control /proc  to trun on/off PHYDM func ===\n");
++		}
++			break;
++
++		case 0xfd:
++			rtw_write8(padapter, 0xc50, arg);
++			RTW_INFO("wr(0xc50)=0x%x\n", rtw_read8(padapter, 0xc50));
++			rtw_write8(padapter, 0xc58, arg);
++			RTW_INFO("wr(0xc58)=0x%x\n", rtw_read8(padapter, 0xc58));
++			break;
++		case 0xfe:
++			RTW_INFO("rd(0xc50)=0x%x\n", rtw_read8(padapter, 0xc50));
++			RTW_INFO("rd(0xc58)=0x%x\n", rtw_read8(padapter, 0xc58));
++			break;
++		case 0xff: {
++			RTW_INFO("dbg(0x210)=0x%x\n", rtw_read32(padapter, 0x210));
++			RTW_INFO("dbg(0x608)=0x%x\n", rtw_read32(padapter, 0x608));
++			RTW_INFO("dbg(0x280)=0x%x\n", rtw_read32(padapter, 0x280));
++			RTW_INFO("dbg(0x284)=0x%x\n", rtw_read32(padapter, 0x284));
++			RTW_INFO("dbg(0x288)=0x%x\n", rtw_read32(padapter, 0x288));
++
++			RTW_INFO("dbg(0x664)=0x%x\n", rtw_read32(padapter, 0x664));
++
++
++			RTW_INFO("\n");
++
++			RTW_INFO("dbg(0x430)=0x%x\n", rtw_read32(padapter, 0x430));
++			RTW_INFO("dbg(0x438)=0x%x\n", rtw_read32(padapter, 0x438));
++
++			RTW_INFO("dbg(0x440)=0x%x\n", rtw_read32(padapter, 0x440));
++
++			RTW_INFO("dbg(0x458)=0x%x\n", rtw_read32(padapter, 0x458));
++
++			RTW_INFO("dbg(0x484)=0x%x\n", rtw_read32(padapter, 0x484));
++			RTW_INFO("dbg(0x488)=0x%x\n", rtw_read32(padapter, 0x488));
++
++			RTW_INFO("dbg(0x444)=0x%x\n", rtw_read32(padapter, 0x444));
++			RTW_INFO("dbg(0x448)=0x%x\n", rtw_read32(padapter, 0x448));
++			RTW_INFO("dbg(0x44c)=0x%x\n", rtw_read32(padapter, 0x44c));
++			RTW_INFO("dbg(0x450)=0x%x\n", rtw_read32(padapter, 0x450));
++		}
++			break;
++		}
++		break;
++	default:
++		RTW_INFO("error dbg cmd!\n");
++		break;
++	}
++
++
++	return ret;
++
++}
++
++static int wpa_set_param(struct net_device *dev, u8 name, u32 value)
++{
++	uint ret = 0;
++	u32 flags;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	switch (name) {
++	case IEEE_PARAM_WPA_ENABLED:
++
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_8021X; /* 802.1x */
++
++		/* ret = ieee80211_wpa_enable(ieee, value); */
++
++		switch ((value) & 0xff) {
++		case 1: /* WPA */
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeWPAPSK; /* WPA_PSK */
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption2Enabled;
++			break;
++		case 2: /* WPA2 */
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeWPA2PSK; /* WPA2_PSK */
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption3Enabled;
++			break;
++		}
++
++
++		break;
++
++	case IEEE_PARAM_TKIP_COUNTERMEASURES:
++		/* ieee->tkip_countermeasures=value; */
++		break;
++
++	case IEEE_PARAM_DROP_UNENCRYPTED: {
++		/* HACK:
++		 *
++		 * wpa_supplicant calls set_wpa_enabled when the driver
++		 * is loaded and unloaded, regardless of if WPA is being
++		 * used.  No other calls are made which can be used to
++		 * determine if encryption will be used or not prior to
++		 * association being expected.  If encryption is not being
++		 * used, drop_unencrypted is set to false, else true -- we
++		 * can use this to determine if the CAP_PRIVACY_ON bit should
++		 * be set.
++		 */
++
++#if 0
++		struct ieee80211_security sec = {
++			.flags = SEC_ENABLED,
++			.enabled = value,
++		};
++		ieee->drop_unencrypted = value;
++		/* We only change SEC_LEVEL for open mode. Others
++		 * are set by ipw_wpa_set_encryption.
++		 */
++		if (!value) {
++			sec.flags |= SEC_LEVEL;
++			sec.level = SEC_LEVEL_0;
++		} else {
++			sec.flags |= SEC_LEVEL;
++			sec.level = SEC_LEVEL_1;
++		}
++		if (ieee->set_security)
++			ieee->set_security(ieee->dev, &sec);
++#endif
++		break;
++
++	}
++	case IEEE_PARAM_PRIVACY_INVOKED:
++
++		/* ieee->privacy_invoked=value; */
++
++		break;
++
++	case IEEE_PARAM_AUTH_ALGS:
++
++		ret = wpa_set_auth_algs(dev, value);
++
++		break;
++
++	case IEEE_PARAM_IEEE_802_1X:
++
++		/* ieee->ieee802_1x=value;		 */
++
++		break;
++
++	case IEEE_PARAM_WPAX_SELECT:
++
++		/* added for WPA2 mixed mode */
++		/*RTW_WARN("------------------------>wpax value = %x\n", value);*/
++		/*
++		spin_lock_irqsave(&ieee->wpax_suitlist_lock,flags);
++		ieee->wpax_type_set = 1;
++		ieee->wpax_type_notify = value;
++		spin_unlock_irqrestore(&ieee->wpax_suitlist_lock,flags);
++		*/
++
++		break;
++
++	default:
++
++
++
++		ret = -EOPNOTSUPP;
++
++
++		break;
++
++	}
++
++	return ret;
++
++}
++
++static int wpa_mlme(struct net_device *dev, u32 command, u32 reason)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	switch (command) {
++	case IEEE_MLME_STA_DEAUTH:
++
++		if (!rtw_set_802_11_disassociate(padapter))
++			ret = -1;
++
++		break;
++
++	case IEEE_MLME_STA_DISASSOC:
++
++		if (!rtw_set_802_11_disassociate(padapter))
++			ret = -1;
++
++		break;
++
++	default:
++		ret = -EOPNOTSUPP;
++		break;
++	}
++
++	return ret;
++
++}
++
++static int wpa_supplicant_ioctl(struct net_device *dev, struct iw_point *p)
++{
++	struct ieee_param *param;
++	uint ret = 0;
++
++	/* down(&ieee->wx_sem);	 */
++
++	if (p->length < sizeof(struct ieee_param) || !p->pointer) {
++		ret = -EINVAL;
++		goto out;
++	}
++
++	param = (struct ieee_param *)rtw_malloc(p->length);
++	if (param == NULL) {
++		ret = -ENOMEM;
++		goto out;
++	}
++
++	if (copy_from_user(param, p->pointer, p->length)) {
++		rtw_mfree((u8 *)param, p->length);
++		ret = -EFAULT;
++		goto out;
++	}
++
++	switch (param->cmd) {
++
++	case IEEE_CMD_SET_WPA_PARAM:
++		ret = wpa_set_param(dev, param->u.wpa_param.name, param->u.wpa_param.value);
++		break;
++
++	case IEEE_CMD_SET_WPA_IE:
++		/* ret = wpa_set_wpa_ie(dev, param, p->length); */
++		ret =  rtw_set_wpa_ie((_adapter *)rtw_netdev_priv(dev), (char *)param->u.wpa_ie.data, (u16)param->u.wpa_ie.len);
++		break;
++
++	case IEEE_CMD_SET_ENCRYPTION:
++		ret = wpa_set_encryption(dev, param, p->length);
++		break;
++
++	case IEEE_CMD_MLME:
++		ret = wpa_mlme(dev, param->u.mlme.command, param->u.mlme.reason_code);
++		break;
++
++	default:
++		RTW_INFO("Unknown WPA supplicant request: %d\n", param->cmd);
++		ret = -EOPNOTSUPP;
++		break;
++
++	}
++
++	if (ret == 0 && copy_to_user(p->pointer, param, p->length))
++		ret = -EFAULT;
++
++	rtw_mfree((u8 *)param, p->length);
++
++out:
++
++	/* up(&ieee->wx_sem); */
++
++	return ret;
++
++}
++
++#ifdef CONFIG_AP_MODE
++static int rtw_set_encryption(struct net_device *dev, struct ieee_param *param, u32 param_len)
++{
++	int ret = 0;
++	u32 wep_key_idx, wep_key_len, wep_total_len;
++	NDIS_802_11_WEP	*pwep = NULL;
++	struct sta_info *psta = NULL, *pbcmc_sta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &(padapter->securitypriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	param->u.crypt.err = 0;
++	param->u.crypt.alg[IEEE_CRYPT_ALG_NAME_LEN - 1] = '\0';
++
++	/* sizeof(struct ieee_param) = 64 bytes; */
++	/* if (param_len !=  (u32) ((u8 *) param->u.crypt.key - (u8 *) param) + param->u.crypt.key_len) */
++	if (param_len !=  sizeof(struct ieee_param) + param->u.crypt.key_len) {
++		ret =  -EINVAL;
++		goto exit;
++	}
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff) {
++		if (param->u.crypt.idx >= WEP_KEYS
++#ifdef CONFIG_IEEE80211W
++		    && param->u.crypt.idx > BIP_MAX_KEYID
++#endif /* CONFIG_IEEE80211W */
++		   ) {
++			ret = -EINVAL;
++			goto exit;
++		}
++	} else {
++		psta = rtw_get_stainfo(pstapriv, param->sta_addr);
++		if (!psta) {
++			/* ret = -EINVAL; */
++			RTW_INFO("rtw_set_encryption(), sta has already been removed or never been added\n");
++			goto exit;
++		}
++	}
++
++	if (strcmp(param->u.crypt.alg, "none") == 0 && (psta == NULL)) {
++		/* todo:clear default encryption keys */
++
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Open;
++		psecuritypriv->ndisencryptstatus = Ndis802_11EncryptionDisabled;
++		psecuritypriv->dot11PrivacyAlgrthm = _NO_PRIVACY_;
++		psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++
++		RTW_INFO("clear default encryption keys, keyid=%d\n", param->u.crypt.idx);
++
++		goto exit;
++	}
++
++
++	if (strcmp(param->u.crypt.alg, "WEP") == 0 && (psta == NULL)) {
++		RTW_INFO("r871x_set_encryption, crypt.alg = WEP\n");
++
++		wep_key_idx = param->u.crypt.idx;
++		wep_key_len = param->u.crypt.key_len;
++
++		RTW_INFO("r871x_set_encryption, wep_key_idx=%d, len=%d\n", wep_key_idx, wep_key_len);
++
++		if ((wep_key_idx >= WEP_KEYS) || (wep_key_len <= 0)) {
++			ret = -EINVAL;
++			goto exit;
++		}
++
++
++		if (wep_key_len > 0) {
++			wep_key_len = wep_key_len <= 5 ? 5 : 13;
++			wep_total_len = wep_key_len + FIELD_OFFSET(NDIS_802_11_WEP, KeyMaterial);
++			pwep = (NDIS_802_11_WEP *)rtw_malloc(wep_total_len);
++			if (pwep == NULL) {
++				RTW_INFO(" r871x_set_encryption: pwep allocate fail !!!\n");
++				goto exit;
++			}
++
++			_rtw_memset(pwep, 0, wep_total_len);
++
++			pwep->KeyLength = wep_key_len;
++			pwep->Length = wep_total_len;
++
++		}
++
++		pwep->KeyIndex = wep_key_idx;
++
++		_rtw_memcpy(pwep->KeyMaterial,  param->u.crypt.key, pwep->KeyLength);
++
++		if (param->u.crypt.set_tx) {
++			RTW_INFO("wep, set_tx=1\n");
++
++			psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++			psecuritypriv->ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			psecuritypriv->dot11PrivacyAlgrthm = _WEP40_;
++			psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++
++			if (pwep->KeyLength == 13) {
++				psecuritypriv->dot11PrivacyAlgrthm = _WEP104_;
++				psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++			}
++
++
++			psecuritypriv->dot11PrivacyKeyIndex = wep_key_idx;
++
++			_rtw_memcpy(&(psecuritypriv->dot11DefKey[wep_key_idx].skey[0]), pwep->KeyMaterial, pwep->KeyLength);
++
++			psecuritypriv->dot11DefKeylen[wep_key_idx] = pwep->KeyLength;
++
++			rtw_ap_set_wep_key(padapter, pwep->KeyMaterial, pwep->KeyLength, wep_key_idx, 1);
++		} else {
++			RTW_INFO("wep, set_tx=0\n");
++
++			/* don't update "psecuritypriv->dot11PrivacyAlgrthm" and  */
++			/* "psecuritypriv->dot11PrivacyKeyIndex=keyid", but can rtw_set_key to cam */
++
++			_rtw_memcpy(&(psecuritypriv->dot11DefKey[wep_key_idx].skey[0]), pwep->KeyMaterial, pwep->KeyLength);
++
++			psecuritypriv->dot11DefKeylen[wep_key_idx] = pwep->KeyLength;
++
++			rtw_ap_set_wep_key(padapter, pwep->KeyMaterial, pwep->KeyLength, wep_key_idx, 0);
++		}
++
++		goto exit;
++
++	}
++
++
++	if (!psta && check_fwstate(pmlmepriv, WIFI_AP_STATE)) /*  */ { /* group key */
++		if (param->u.crypt.set_tx == 1) {
++			if (strcmp(param->u.crypt.alg, "WEP") == 0) {
++				RTW_INFO("%s, set group_key, WEP\n", __FUNCTION__);
++
++				_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++				psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++				if (param->u.crypt.key_len == 13)
++					psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++
++			} else if (strcmp(param->u.crypt.alg, "TKIP") == 0) {
++				RTW_INFO("%s, set group_key, TKIP\n", __FUNCTION__);
++
++				psecuritypriv->dot118021XGrpPrivacy = _TKIP_;
++
++				_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++				/* DEBUG_ERR("set key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len); */
++				/* set mic key */
++				_rtw_memcpy(psecuritypriv->dot118021XGrptxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[16]), 8);
++				_rtw_memcpy(psecuritypriv->dot118021XGrprxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[24]), 8);
++
++				psecuritypriv->busetkipkey = _TRUE;
++
++			} else if (strcmp(param->u.crypt.alg, "CCMP") == 0) {
++				RTW_INFO("%s, set group_key, CCMP\n", __FUNCTION__);
++
++				psecuritypriv->dot118021XGrpPrivacy = _AES_;
++
++				_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++			}
++#ifdef CONFIG_IEEE80211W
++			else if (strcmp(param->u.crypt.alg, "BIP") == 0) {
++				int no;
++
++				RTW_INFO("BIP key_len=%d , index=%d\n", param->u.crypt.key_len, param->u.crypt.idx);
++				/* save the IGTK key, length 16 bytes */
++				_rtw_memcpy(padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey, param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++				/* RTW_INFO("IGTK key below:\n");
++				for(no=0;no<16;no++)
++					printk(" %02x ", padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey[no]);
++				RTW_INFO("\n"); */
++				padapter->securitypriv.dot11wBIPKeyid = param->u.crypt.idx;
++				padapter->securitypriv.binstallBIPkey = _TRUE;
++				RTW_INFO(" ~~~~set sta key:IGKT\n");
++				goto exit;
++			}
++#endif /* CONFIG_IEEE80211W */
++			else {
++				RTW_INFO("%s, set group_key, none\n", __FUNCTION__);
++
++				psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++			}
++
++			psecuritypriv->dot118021XGrpKeyid = param->u.crypt.idx;
++
++			psecuritypriv->binstallGrpkey = _TRUE;
++
++			psecuritypriv->dot11PrivacyAlgrthm = psecuritypriv->dot118021XGrpPrivacy;/* !!! */
++
++			rtw_ap_set_group_key(padapter, param->u.crypt.key, psecuritypriv->dot118021XGrpPrivacy, param->u.crypt.idx);
++
++			pbcmc_sta = rtw_get_bcmc_stainfo(padapter);
++			if (pbcmc_sta) {
++				pbcmc_sta->ieee8021x_blocked = _FALSE;
++				pbcmc_sta->dot118021XPrivacy = psecuritypriv->dot118021XGrpPrivacy; /* rx will use bmc_sta's dot118021XPrivacy			 */
++			}
++
++		}
++
++		goto exit;
++
++	}
++
++	if (psecuritypriv->dot11AuthAlgrthm == dot11AuthAlgrthm_8021X && psta) { /* psk/802_1x */
++		if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++			if (param->u.crypt.set_tx == 1) {
++				_rtw_memcpy(psta->dot118021x_UncstKey.skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++				if (strcmp(param->u.crypt.alg, "WEP") == 0) {
++					RTW_INFO("%s, set pairwise key, WEP\n", __FUNCTION__);
++
++					psta->dot118021XPrivacy = _WEP40_;
++					if (param->u.crypt.key_len == 13)
++						psta->dot118021XPrivacy = _WEP104_;
++				} else if (strcmp(param->u.crypt.alg, "TKIP") == 0) {
++					RTW_INFO("%s, set pairwise key, TKIP\n", __FUNCTION__);
++
++					psta->dot118021XPrivacy = _TKIP_;
++
++					/* DEBUG_ERR("set key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len); */
++					/* set mic key */
++					_rtw_memcpy(psta->dot11tkiptxmickey.skey, &(param->u.crypt.key[16]), 8);
++					_rtw_memcpy(psta->dot11tkiprxmickey.skey, &(param->u.crypt.key[24]), 8);
++
++					psecuritypriv->busetkipkey = _TRUE;
++
++				} else if (strcmp(param->u.crypt.alg, "CCMP") == 0) {
++
++					RTW_INFO("%s, set pairwise key, CCMP\n", __FUNCTION__);
++
++					psta->dot118021XPrivacy = _AES_;
++				} else {
++					RTW_INFO("%s, set pairwise key, none\n", __FUNCTION__);
++
++					psta->dot118021XPrivacy = _NO_PRIVACY_;
++				}
++
++				rtw_ap_set_pairwise_key(padapter, psta);
++
++				psta->ieee8021x_blocked = _FALSE;
++
++				psta->bpairwise_key_installed = _TRUE;
++
++			} else { /* group key??? */
++				if (strcmp(param->u.crypt.alg, "WEP") == 0) {
++					_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++					psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++					if (param->u.crypt.key_len == 13)
++						psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++				} else if (strcmp(param->u.crypt.alg, "TKIP") == 0) {
++					psecuritypriv->dot118021XGrpPrivacy = _TKIP_;
++
++					_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++					/* DEBUG_ERR("set key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len); */
++					/* set mic key */
++					_rtw_memcpy(psecuritypriv->dot118021XGrptxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[16]), 8);
++					_rtw_memcpy(psecuritypriv->dot118021XGrprxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[24]), 8);
++
++					psecuritypriv->busetkipkey = _TRUE;
++
++				} else if (strcmp(param->u.crypt.alg, "CCMP") == 0) {
++					psecuritypriv->dot118021XGrpPrivacy = _AES_;
++
++					_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++				} else
++					psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++
++				psecuritypriv->dot118021XGrpKeyid = param->u.crypt.idx;
++
++				psecuritypriv->binstallGrpkey = _TRUE;
++
++				psecuritypriv->dot11PrivacyAlgrthm = psecuritypriv->dot118021XGrpPrivacy;/* !!! */
++
++				rtw_ap_set_group_key(padapter, param->u.crypt.key, psecuritypriv->dot118021XGrpPrivacy, param->u.crypt.idx);
++
++				pbcmc_sta = rtw_get_bcmc_stainfo(padapter);
++				if (pbcmc_sta) {
++					pbcmc_sta->ieee8021x_blocked = _FALSE;
++					pbcmc_sta->dot118021XPrivacy = psecuritypriv->dot118021XGrpPrivacy; /* rx will use bmc_sta's dot118021XPrivacy			 */
++				}
++
++			}
++
++		}
++
++	}
++
++exit:
++
++	if (pwep)
++		rtw_mfree((u8 *)pwep, wep_total_len);
++
++	return ret;
++
++}
++
++static int rtw_set_beacon(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	unsigned char *pbuf = param->u.bcn_ie.buf;
++
++
++	RTW_INFO("%s, len=%d\n", __FUNCTION__, len);
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	_rtw_memcpy(&pstapriv->max_num_sta, param->u.bcn_ie.reserved, 2);
++
++	if ((pstapriv->max_num_sta > NUM_STA) || (pstapriv->max_num_sta <= 0))
++		pstapriv->max_num_sta = NUM_STA;
++
++
++	if (rtw_check_beacon_data(padapter, pbuf, (len - 12 - 2)) == _SUCCESS) /* 12 = param header, 2:no packed */
++		ret = 0;
++	else
++		ret = -EINVAL;
++
++
++	return ret;
++
++}
++
++static int rtw_hostapd_sta_flush(struct net_device *dev)
++{
++	/* _irqL irqL; */
++	/* _list	*phead, *plist; */
++	int ret = 0;
++	/* struct sta_info *psta = NULL; */
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	/* struct sta_priv *pstapriv = &padapter->stapriv; */
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	flush_all_cam_entry(padapter);	/* clear CAM */
++
++	ret = rtw_sta_flush(padapter, _TRUE);
++
++	return ret;
++
++}
++
++static int rtw_add_sta(struct net_device *dev, struct ieee_param *param)
++{
++	_irqL irqL;
++	int ret = 0;
++	struct sta_info *psta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	RTW_INFO("rtw_add_sta(aid=%d)=" MAC_FMT "\n", param->u.add_sta.aid, MAC_ARG(param->sta_addr));
++
++	if (check_fwstate(pmlmepriv, (_FW_LINKED | WIFI_AP_STATE)) != _TRUE)
++		return -EINVAL;
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff)
++		return -EINVAL;
++
++#if 0
++	psta = rtw_get_stainfo(pstapriv, param->sta_addr);
++	if (psta) {
++		RTW_INFO("rtw_add_sta(), free has been added psta=%p\n", psta);
++		/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		 */
++		rtw_free_stainfo(padapter,  psta);
++		/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL); */
++
++		psta = NULL;
++	}
++#endif
++	/* psta = rtw_alloc_stainfo(pstapriv, param->sta_addr); */
++	psta = rtw_get_stainfo(pstapriv, param->sta_addr);
++	if (psta) {
++		int flags = param->u.add_sta.flags;
++
++		/* RTW_INFO("rtw_add_sta(), init sta's variables, psta=%p\n", psta); */
++
++		psta->aid = param->u.add_sta.aid;/* aid=1~2007 */
++
++		_rtw_memcpy(psta->bssrateset, param->u.add_sta.tx_supp_rates, 16);
++
++
++		/* check wmm cap. */
++		if (WLAN_STA_WME & flags)
++			psta->qos_option = 1;
++		else
++			psta->qos_option = 0;
++
++		if (pmlmepriv->qospriv.qos_option == 0)
++			psta->qos_option = 0;
++
++
++#ifdef CONFIG_80211N_HT
++		/* chec 802.11n ht cap. */
++		if (WLAN_STA_HT & flags) {
++			psta->htpriv.ht_option = _TRUE;
++			psta->qos_option = 1;
++			_rtw_memcpy((void *)&psta->htpriv.ht_cap, (void *)&param->u.add_sta.ht_cap, sizeof(struct rtw_ieee80211_ht_cap));
++		} else
++			psta->htpriv.ht_option = _FALSE;
++
++		if (pmlmepriv->htpriv.ht_option == _FALSE)
++			psta->htpriv.ht_option = _FALSE;
++#endif
++
++
++		update_sta_info_apmode(padapter, psta);
++
++
++	} else
++		ret = -ENOMEM;
++
++	return ret;
++
++}
++
++static int rtw_del_sta(struct net_device *dev, struct ieee_param *param)
++{
++	_irqL irqL;
++	int ret = 0;
++	struct sta_info *psta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	RTW_INFO("rtw_del_sta=" MAC_FMT "\n", MAC_ARG(param->sta_addr));
++
++	if (check_fwstate(pmlmepriv, (_FW_LINKED | WIFI_AP_STATE)) != _TRUE)
++		return -EINVAL;
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff)
++		return -EINVAL;
++
++	psta = rtw_get_stainfo(pstapriv, param->sta_addr);
++	if (psta) {
++		u8 updated = _FALSE;
++
++		/* RTW_INFO("free psta=%p, aid=%d\n", psta, psta->aid); */
++
++		_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++		if (rtw_is_list_empty(&psta->asoc_list) == _FALSE) {
++			rtw_list_delete(&psta->asoc_list);
++			pstapriv->asoc_list_cnt--;
++			updated = ap_free_sta(padapter, psta, _TRUE, WLAN_REASON_DEAUTH_LEAVING, _TRUE);
++
++		}
++		_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++		associated_clients_update(padapter, updated, STA_INFO_UPDATE_ALL);
++
++		psta = NULL;
++
++	} else {
++		RTW_INFO("rtw_del_sta(), sta has already been removed or never been added\n");
++
++		/* ret = -1; */
++	}
++
++
++	return ret;
++
++}
++
++static int rtw_ioctl_get_sta_data(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret = 0;
++	struct sta_info *psta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct ieee_param_ex *param_ex = (struct ieee_param_ex *)param;
++	struct sta_data *psta_data = (struct sta_data *)param_ex->data;
++
++	RTW_INFO("rtw_ioctl_get_sta_info, sta_addr: " MAC_FMT "\n", MAC_ARG(param_ex->sta_addr));
++
++	if (check_fwstate(pmlmepriv, (_FW_LINKED | WIFI_AP_STATE)) != _TRUE)
++		return -EINVAL;
++
++	if (param_ex->sta_addr[0] == 0xff && param_ex->sta_addr[1] == 0xff &&
++	    param_ex->sta_addr[2] == 0xff && param_ex->sta_addr[3] == 0xff &&
++	    param_ex->sta_addr[4] == 0xff && param_ex->sta_addr[5] == 0xff)
++		return -EINVAL;
++
++	psta = rtw_get_stainfo(pstapriv, param_ex->sta_addr);
++	if (psta) {
++#if 0
++		struct {
++			u16 aid;
++			u16 capability;
++			int flags;
++			u32 sta_set;
++			u8 tx_supp_rates[16];
++			u32 tx_supp_rates_len;
++			struct rtw_ieee80211_ht_cap ht_cap;
++			u64	rx_pkts;
++			u64	rx_bytes;
++			u64	rx_drops;
++			u64	tx_pkts;
++			u64	tx_bytes;
++			u64	tx_drops;
++		} get_sta;
++#endif
++		psta_data->aid = (u16)psta->aid;
++		psta_data->capability = psta->capability;
++		psta_data->flags = psta->flags;
++
++		/*
++				nonerp_set : BIT(0)
++				no_short_slot_time_set : BIT(1)
++				no_short_preamble_set : BIT(2)
++				no_ht_gf_set : BIT(3)
++				no_ht_set : BIT(4)
++				ht_20mhz_set : BIT(5)
++		*/
++
++		psta_data->sta_set = ((psta->nonerp_set) |
++				      (psta->no_short_slot_time_set << 1) |
++				      (psta->no_short_preamble_set << 2) |
++				      (psta->no_ht_gf_set << 3) |
++				      (psta->no_ht_set << 4) |
++				      (psta->ht_20mhz_set << 5));
++
++		psta_data->tx_supp_rates_len =  psta->bssratelen;
++		_rtw_memcpy(psta_data->tx_supp_rates, psta->bssrateset, psta->bssratelen);
++#ifdef CONFIG_80211N_HT
++		_rtw_memcpy(&psta_data->ht_cap, &psta->htpriv.ht_cap, sizeof(struct rtw_ieee80211_ht_cap));
++#endif /* CONFIG_80211N_HT */
++		psta_data->rx_pkts = psta->sta_stats.rx_data_pkts;
++		psta_data->rx_bytes = psta->sta_stats.rx_bytes;
++		psta_data->rx_drops = psta->sta_stats.rx_drops;
++
++		psta_data->tx_pkts = psta->sta_stats.tx_pkts;
++		psta_data->tx_bytes = psta->sta_stats.tx_bytes;
++		psta_data->tx_drops = psta->sta_stats.tx_drops;
++
++
++	} else
++		ret = -1;
++
++	return ret;
++
++}
++
++static int rtw_get_sta_wpaie(struct net_device *dev, struct ieee_param *param)
++{
++	int ret = 0;
++	struct sta_info *psta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	RTW_INFO("rtw_get_sta_wpaie, sta_addr: " MAC_FMT "\n", MAC_ARG(param->sta_addr));
++
++	if (check_fwstate(pmlmepriv, (_FW_LINKED | WIFI_AP_STATE)) != _TRUE)
++		return -EINVAL;
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff)
++		return -EINVAL;
++
++	psta = rtw_get_stainfo(pstapriv, param->sta_addr);
++	if (psta) {
++		if ((psta->wpa_ie[0] == WLAN_EID_RSN) || (psta->wpa_ie[0] == WLAN_EID_GENERIC)) {
++			int wpa_ie_len;
++			int copy_len;
++
++			wpa_ie_len = psta->wpa_ie[1];
++
++			copy_len = ((wpa_ie_len + 2) > sizeof(psta->wpa_ie)) ? (sizeof(psta->wpa_ie)) : (wpa_ie_len + 2);
++
++			param->u.wpa_ie.len = copy_len;
++
++			_rtw_memcpy(param->u.wpa_ie.reserved, psta->wpa_ie, copy_len);
++		} else {
++			/* ret = -1; */
++			RTW_INFO("sta's wpa_ie is NONE\n");
++		}
++	} else
++		ret = -1;
++
++	return ret;
++
++}
++
++static int rtw_set_wps_beacon(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret = 0;
++	unsigned char wps_oui[4] = {0x0, 0x50, 0xf2, 0x04};
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	int ie_len;
++
++	RTW_INFO("%s, len=%d\n", __FUNCTION__, len);
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	ie_len = len - 12 - 2; /* 12 = param header, 2:no packed */
++
++
++	if (pmlmepriv->wps_beacon_ie) {
++		rtw_mfree(pmlmepriv->wps_beacon_ie, pmlmepriv->wps_beacon_ie_len);
++		pmlmepriv->wps_beacon_ie = NULL;
++	}
++
++	if (ie_len > 0) {
++		pmlmepriv->wps_beacon_ie = rtw_malloc(ie_len);
++		pmlmepriv->wps_beacon_ie_len = ie_len;
++		if (pmlmepriv->wps_beacon_ie == NULL) {
++			RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++			return -EINVAL;
++		}
++
++		_rtw_memcpy(pmlmepriv->wps_beacon_ie, param->u.bcn_ie.buf, ie_len);
++
++		update_beacon(padapter, _VENDOR_SPECIFIC_IE_, wps_oui, _TRUE);
++
++		pmlmeext->bstart_bss = _TRUE;
++
++	}
++
++
++	return ret;
++
++}
++
++static int rtw_set_wps_probe_resp(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	int ie_len;
++
++	RTW_INFO("%s, len=%d\n", __FUNCTION__, len);
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	ie_len = len - 12 - 2; /* 12 = param header, 2:no packed */
++
++
++	if (pmlmepriv->wps_probe_resp_ie) {
++		rtw_mfree(pmlmepriv->wps_probe_resp_ie, pmlmepriv->wps_probe_resp_ie_len);
++		pmlmepriv->wps_probe_resp_ie = NULL;
++	}
++
++	if (ie_len > 0) {
++		pmlmepriv->wps_probe_resp_ie = rtw_malloc(ie_len);
++		pmlmepriv->wps_probe_resp_ie_len = ie_len;
++		if (pmlmepriv->wps_probe_resp_ie == NULL) {
++			RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++			return -EINVAL;
++		}
++		_rtw_memcpy(pmlmepriv->wps_probe_resp_ie, param->u.bcn_ie.buf, ie_len);
++	}
++
++
++	return ret;
++
++}
++
++static int rtw_set_wps_assoc_resp(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	int ie_len;
++
++	RTW_INFO("%s, len=%d\n", __FUNCTION__, len);
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	ie_len = len - 12 - 2; /* 12 = param header, 2:no packed */
++
++
++	if (pmlmepriv->wps_assoc_resp_ie) {
++		rtw_mfree(pmlmepriv->wps_assoc_resp_ie, pmlmepriv->wps_assoc_resp_ie_len);
++		pmlmepriv->wps_assoc_resp_ie = NULL;
++	}
++
++	if (ie_len > 0) {
++		pmlmepriv->wps_assoc_resp_ie = rtw_malloc(ie_len);
++		pmlmepriv->wps_assoc_resp_ie_len = ie_len;
++		if (pmlmepriv->wps_assoc_resp_ie == NULL) {
++			RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++			return -EINVAL;
++		}
++
++		_rtw_memcpy(pmlmepriv->wps_assoc_resp_ie, param->u.bcn_ie.buf, ie_len);
++	}
++
++
++	return ret;
++
++}
++
++static int rtw_set_hidden_ssid(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret = 0;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *mlmepriv = &(adapter->mlmepriv);
++	struct mlme_ext_priv	*mlmeext = &(adapter->mlmeextpriv);
++	struct mlme_ext_info	*mlmeinfo = &(mlmeext->mlmext_info);
++	int ie_len;
++	u8 *ssid_ie;
++	char ssid[NDIS_802_11_LENGTH_SSID + 1];
++	sint ssid_len = 0;
++	u8 ignore_broadcast_ssid;
++
++	if (check_fwstate(mlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EPERM;
++
++	if (param->u.bcn_ie.reserved[0] != 0xea)
++		return -EINVAL;
++
++	mlmeinfo->hidden_ssid_mode = ignore_broadcast_ssid = param->u.bcn_ie.reserved[1];
++
++	ie_len = len - 12 - 2; /* 12 = param header, 2:no packed */
++	ssid_ie = rtw_get_ie(param->u.bcn_ie.buf,  WLAN_EID_SSID, &ssid_len, ie_len);
++
++	if (ssid_ie && ssid_len > 0 && ssid_len <= NDIS_802_11_LENGTH_SSID) {
++		WLAN_BSSID_EX *pbss_network = &mlmepriv->cur_network.network;
++		WLAN_BSSID_EX *pbss_network_ext = &mlmeinfo->network;
++
++		_rtw_memcpy(ssid, ssid_ie + 2, ssid_len);
++		ssid[ssid_len] = 0x0;
++
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" ssid:(%s,%d), from ie:(%s,%d), (%s,%d)\n", FUNC_ADPT_ARG(adapter),
++				ssid, ssid_len,
++				pbss_network->Ssid.Ssid, pbss_network->Ssid.SsidLength,
++				pbss_network_ext->Ssid.Ssid, pbss_network_ext->Ssid.SsidLength);
++
++		_rtw_memcpy(pbss_network->Ssid.Ssid, (void *)ssid, ssid_len);
++		pbss_network->Ssid.SsidLength = ssid_len;
++		_rtw_memcpy(pbss_network_ext->Ssid.Ssid, (void *)ssid, ssid_len);
++		pbss_network_ext->Ssid.SsidLength = ssid_len;
++
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" after ssid:(%s,%d), (%s,%d)\n", FUNC_ADPT_ARG(adapter),
++				pbss_network->Ssid.Ssid, pbss_network->Ssid.SsidLength,
++				pbss_network_ext->Ssid.Ssid, pbss_network_ext->Ssid.SsidLength);
++	}
++
++	RTW_INFO(FUNC_ADPT_FMT" ignore_broadcast_ssid:%d, %s,%d\n", FUNC_ADPT_ARG(adapter),
++		ignore_broadcast_ssid, ssid, ssid_len);
++
++	return ret;
++}
++
++#if CONFIG_RTW_MACADDR_ACL
++static int rtw_ioctl_acl_remove_sta(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff)
++		return -EINVAL;
++
++	ret = rtw_acl_remove_sta(padapter, param->sta_addr);
++
++	return ret;
++
++}
++
++static int rtw_ioctl_acl_add_sta(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff)
++		return -EINVAL;
++
++	ret = rtw_acl_add_sta(padapter, param->sta_addr);
++
++	return ret;
++
++}
++
++static int rtw_ioctl_set_macaddr_acl(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	rtw_set_macaddr_acl(padapter, param->u.mlme.command);
++
++	return ret;
++}
++#endif /* CONFIG_RTW_MACADDR_ACL */
++
++static int rtw_hostapd_ioctl(struct net_device *dev, struct iw_point *p)
++{
++	struct ieee_param *param;
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	/*
++	* this function is expect to call in master mode, which allows no power saving
++	* so, we just check hw_init_completed
++	*/
++
++	if (!rtw_is_hw_init_completed(padapter)) {
++		ret = -EPERM;
++		goto out;
++	}
++
++
++	/* if (p->length < sizeof(struct ieee_param) || !p->pointer){ */
++	if (!p->pointer) {
++		ret = -EINVAL;
++		goto out;
++	}
++
++	param = (struct ieee_param *)rtw_malloc(p->length);
++	if (param == NULL) {
++		ret = -ENOMEM;
++		goto out;
++	}
++
++	if (copy_from_user(param, p->pointer, p->length)) {
++		rtw_mfree((u8 *)param, p->length);
++		ret = -EFAULT;
++		goto out;
++	}
++
++	/* RTW_INFO("%s, cmd=%d\n", __FUNCTION__, param->cmd); */
++
++	switch (param->cmd) {
++	case RTL871X_HOSTAPD_FLUSH:
++
++		ret = rtw_hostapd_sta_flush(dev);
++
++		break;
++
++	case RTL871X_HOSTAPD_ADD_STA:
++
++		ret = rtw_add_sta(dev, param);
++
++		break;
++
++	case RTL871X_HOSTAPD_REMOVE_STA:
++
++		ret = rtw_del_sta(dev, param);
++
++		break;
++
++	case RTL871X_HOSTAPD_SET_BEACON:
++
++		ret = rtw_set_beacon(dev, param, p->length);
++
++		break;
++
++	case RTL871X_SET_ENCRYPTION:
++
++		ret = rtw_set_encryption(dev, param, p->length);
++
++		break;
++
++	case RTL871X_HOSTAPD_GET_WPAIE_STA:
++
++		ret = rtw_get_sta_wpaie(dev, param);
++
++		break;
++
++	case RTL871X_HOSTAPD_SET_WPS_BEACON:
++
++		ret = rtw_set_wps_beacon(dev, param, p->length);
++
++		break;
++
++	case RTL871X_HOSTAPD_SET_WPS_PROBE_RESP:
++
++		ret = rtw_set_wps_probe_resp(dev, param, p->length);
++
++		break;
++
++	case RTL871X_HOSTAPD_SET_WPS_ASSOC_RESP:
++
++		ret = rtw_set_wps_assoc_resp(dev, param, p->length);
++
++		break;
++
++	case RTL871X_HOSTAPD_SET_HIDDEN_SSID:
++
++		ret = rtw_set_hidden_ssid(dev, param, p->length);
++
++		break;
++
++	case RTL871X_HOSTAPD_GET_INFO_STA:
++
++		ret = rtw_ioctl_get_sta_data(dev, param, p->length);
++
++		break;
++
++#if CONFIG_RTW_MACADDR_ACL
++	case RTL871X_HOSTAPD_SET_MACADDR_ACL:
++		ret = rtw_ioctl_set_macaddr_acl(dev, param, p->length);
++		break;
++	case RTL871X_HOSTAPD_ACL_ADD_STA:
++		ret = rtw_ioctl_acl_add_sta(dev, param, p->length);
++		break;
++	case RTL871X_HOSTAPD_ACL_REMOVE_STA:
++		ret = rtw_ioctl_acl_remove_sta(dev, param, p->length);
++		break;
++#endif /* CONFIG_RTW_MACADDR_ACL */
++
++	default:
++		RTW_INFO("Unknown hostapd request: %d\n", param->cmd);
++		ret = -EOPNOTSUPP;
++		break;
++
++	}
++
++	if (ret == 0 && copy_to_user(p->pointer, param, p->length))
++		ret = -EFAULT;
++
++
++	rtw_mfree((u8 *)param, p->length);
++
++out:
++
++	return ret;
++
++}
++#endif
++
++static int rtw_wx_set_priv(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *awrq,
++			   char *extra)
++{
++
++#ifdef CONFIG_DEBUG_RTW_WX_SET_PRIV
++	char *ext_dbg;
++#endif
++
++	int ret = 0;
++	int len = 0;
++	char *ext;
++	int i;
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *dwrq = (struct iw_point *)awrq;
++
++	if (dwrq->length == 0)
++		return -EFAULT;
++
++	len = dwrq->length;
++	ext = rtw_vmalloc(len);
++	if (!ext)
++		return -ENOMEM;
++
++	if (copy_from_user(ext, dwrq->pointer, len)) {
++		rtw_vmfree(ext, len);
++		return -EFAULT;
++	}
++
++
++
++#ifdef CONFIG_DEBUG_RTW_WX_SET_PRIV
++	ext_dbg = rtw_vmalloc(len);
++	if (!ext_dbg) {
++		rtw_vmfree(ext, len);
++		return -ENOMEM;
++	}
++
++	_rtw_memcpy(ext_dbg, ext, len);
++#endif
++
++	/* added for wps2.0 @20110524 */
++	if (dwrq->flags == 0x8766 && len > 8) {
++		u32 cp_sz;
++		struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++		u8 *probereq_wpsie = ext;
++		int probereq_wpsie_len = len;
++		u8 wps_oui[4] = {0x0, 0x50, 0xf2, 0x04};
++
++		if ((_VENDOR_SPECIFIC_IE_ == probereq_wpsie[0]) &&
++		    (_rtw_memcmp(&probereq_wpsie[2], wps_oui, 4) == _TRUE)) {
++			cp_sz = probereq_wpsie_len > MAX_WPS_IE_LEN ? MAX_WPS_IE_LEN : probereq_wpsie_len;
++
++			if (pmlmepriv->wps_probe_req_ie) {
++				u32 free_len = pmlmepriv->wps_probe_req_ie_len;
++				pmlmepriv->wps_probe_req_ie_len = 0;
++				rtw_mfree(pmlmepriv->wps_probe_req_ie, free_len);
++				pmlmepriv->wps_probe_req_ie = NULL;
++			}
++
++			pmlmepriv->wps_probe_req_ie = rtw_malloc(cp_sz);
++			if (pmlmepriv->wps_probe_req_ie == NULL) {
++				printk("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				ret =  -EINVAL;
++				goto FREE_EXT;
++
++			}
++
++			_rtw_memcpy(pmlmepriv->wps_probe_req_ie, probereq_wpsie, cp_sz);
++			pmlmepriv->wps_probe_req_ie_len = cp_sz;
++
++		}
++
++		goto FREE_EXT;
++
++	}
++
++	if (len >= WEXT_CSCAN_HEADER_SIZE
++		&& _rtw_memcmp(ext, WEXT_CSCAN_HEADER, WEXT_CSCAN_HEADER_SIZE) == _TRUE
++	) {
++		ret = rtw_wx_set_scan(dev, info, awrq, ext);
++		goto FREE_EXT;
++	}
++
++#ifdef CONFIG_ANDROID
++	/* RTW_INFO("rtw_wx_set_priv: %s req=%s\n", dev->name, ext); */
++
++	i = rtw_android_cmdstr_to_num(ext);
++
++	switch (i) {
++	case ANDROID_WIFI_CMD_START:
++		indicate_wx_custom_event(padapter, "START");
++		break;
++	case ANDROID_WIFI_CMD_STOP:
++		indicate_wx_custom_event(padapter, "STOP");
++		break;
++	case ANDROID_WIFI_CMD_RSSI: {
++		struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++		struct	wlan_network	*pcur_network = &pmlmepriv->cur_network;
++
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++			sprintf(ext, "%s rssi %d", pcur_network->network.Ssid.Ssid, padapter->recvpriv.rssi);
++		else
++			sprintf(ext, "OK");
++	}
++		break;
++	case ANDROID_WIFI_CMD_LINKSPEED: {
++		u16 mbps = rtw_get_cur_max_rate(padapter) / 10;
++		sprintf(ext, "LINKSPEED %d", mbps);
++	}
++		break;
++	case ANDROID_WIFI_CMD_MACADDR:
++		sprintf(ext, "MACADDR = " MAC_FMT, MAC_ARG(dev->dev_addr));
++		break;
++	case ANDROID_WIFI_CMD_SCAN_ACTIVE: {
++		/* rtw_set_scan_mode(padapter, SCAN_ACTIVE); */
++		sprintf(ext, "OK");
++	}
++		break;
++	case ANDROID_WIFI_CMD_SCAN_PASSIVE: {
++		/* rtw_set_scan_mode(padapter, SCAN_PASSIVE); */
++		sprintf(ext, "OK");
++	}
++		break;
++
++	case ANDROID_WIFI_CMD_COUNTRY: {
++		char country_code[10];
++		sscanf(ext, "%*s %s", country_code);
++		rtw_set_country(padapter, country_code);
++		sprintf(ext, "OK");
++	}
++		break;
++	default:
++		#ifdef CONFIG_DEBUG_RTW_WX_SET_PRIV
++		RTW_INFO("%s: %s unknowned req=%s\n", __FUNCTION__,
++			dev->name, ext_dbg);
++		#endif
++
++		sprintf(ext, "OK");
++
++	}
++
++	if (copy_to_user(dwrq->pointer, ext, min(dwrq->length, (u16)(strlen(ext) + 1))))
++		ret = -EFAULT;
++
++#ifdef CONFIG_DEBUG_RTW_WX_SET_PRIV
++	RTW_INFO("%s: %s req=%s rep=%s dwrq->length=%d, strlen(ext)+1=%d\n", __FUNCTION__,
++		dev->name, ext_dbg , ext, dwrq->length, (u16)(strlen(ext) + 1));
++#endif
++#endif /* end of CONFIG_ANDROID */
++
++
++FREE_EXT:
++
++	rtw_vmfree(ext, len);
++	#ifdef CONFIG_DEBUG_RTW_WX_SET_PRIV
++	rtw_vmfree(ext_dbg, len);
++	#endif
++
++	/* RTW_INFO("rtw_wx_set_priv: (SIOCSIWPRIV) %s ret=%d\n",  */
++	/*		dev->name, ret); */
++
++	return ret;
++
++}
++#ifdef CONFIG_WOWLAN
++static int rtw_wowlan_ctrl(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wowlan_ioctl_param poidparam;
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct sta_info	*psta = NULL;
++	int ret = 0;
++	u32 start_time = rtw_get_current_time();
++	poidparam.subcode = 0;
++
++	RTW_INFO("+rtw_wowlan_ctrl: %s\n", extra);
++
++	if (!check_fwstate(pmlmepriv, _FW_LINKED) &&
++	    check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++#ifdef CONFIG_PNO_SUPPORT
++		pwrctrlpriv->wowlan_pno_enable = _TRUE;
++#else
++		RTW_INFO("[%s] WARNING: Please Connect With AP First!!\n", __func__);
++		goto _rtw_wowlan_ctrl_exit_free;
++#endif /* CONFIG_PNO_SUPPORT */
++	}
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY))
++		rtw_scan_abort(padapter);
++
++	if (_rtw_memcmp(extra, "enable", 6))
++
++
++		rtw_suspend_common(padapter);
++
++	else if (_rtw_memcmp(extra, "disable", 7)) {
++#ifdef CONFIG_USB_HCI
++		RTW_ENABLE_FUNC(padapter, DF_RX_BIT);
++		RTW_ENABLE_FUNC(padapter, DF_TX_BIT);
++#endif
++		rtw_resume_common(padapter);
++
++#ifdef CONFIG_PNO_SUPPORT
++		pwrctrlpriv->wowlan_pno_enable = _FALSE;
++#endif /* CONFIG_PNO_SUPPORT */
++
++	} else {
++		RTW_INFO("[%s] Invalid Parameter.\n", __func__);
++		goto _rtw_wowlan_ctrl_exit_free;
++	}
++	/* mutex_lock(&ioctl_mutex); */
++_rtw_wowlan_ctrl_exit_free:
++	RTW_INFO("-rtw_wowlan_ctrl( subcode = %d)\n", poidparam.subcode);
++	RTW_PRINT("%s in %d ms\n", __func__,
++		  rtw_get_passing_time_ms(start_time));
++_rtw_wowlan_ctrl_exit:
++	return ret;
++}
++
++/*
++ * IP filter This pattern if for a frame containing a ip packet:
++ * AA:AA:AA:AA:AA:AA:BB:BB:BB:BB:BB:BB:CC:CC:DD:-:-:-:-:-:-:-:-:EE:-:-:FF:FF:FF:FF:GG:GG:GG:GG:HH:HH:II:II
++ *
++ * A: Ethernet destination address
++ * B: Ethernet source address
++ * C: Ethernet protocol type
++ * D: IP header VER+Hlen, use: 0x45 (4 is for ver 4, 5 is for len 20)
++ * E: IP protocol
++ * F: IP source address ( 192.168.0.4: C0:A8:00:2C )
++ * G: IP destination address ( 192.168.0.4: C0:A8:00:2C )
++ * H: Source port (1024: 04:00)
++ * I: Destination port (1024: 04:00)
++ */
++
++static int rtw_wowlan_set_pattern(struct net_device *dev,
++				  struct iw_request_info *info,
++				  union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct wowlan_ioctl_param poidparam;
++	int ret = 0, len = 0, i = 0;
++	u32 start_time = rtw_get_current_time();
++	u8 input[wrqu->data.length];
++	u8 index = 0;
++
++	poidparam.subcode = 0;
++
++	if (!check_fwstate(pmlmepriv, _FW_LINKED) &&
++	    check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++		ret = -EFAULT;
++		RTW_INFO("Please Connect With AP First!!\n");
++		goto _rtw_wowlan_set_pattern_exit;
++	}
++
++	if (wrqu->data.length <= 0) {
++		ret = -EFAULT;
++		RTW_INFO("ERROR: parameter length <= 0\n");
++		goto _rtw_wowlan_set_pattern_exit;
++	} else {
++		/* set pattern */
++		if (copy_from_user(input,
++				   wrqu->data.pointer, wrqu->data.length))
++			return -EFAULT;
++		/* leave PS first */
++		rtw_ps_deny(padapter, PS_DENY_IOCTL);
++		LeaveAllPowerSaveModeDirect(padapter);
++		if (strncmp(input, "pattern=", 8) == 0) {
++			if (pwrpriv->wowlan_pattern_idx >= MAX_WKFM_NUM) {
++				RTW_INFO("WARNING: priv-pattern is full(idx: %d)\n",
++					 pwrpriv->wowlan_pattern_idx);
++				RTW_INFO("WARNING: please clean priv-pattern first\n");
++				ret = -EINVAL;
++				goto _rtw_wowlan_set_pattern_exit;
++			} else {
++				index = pwrpriv->wowlan_pattern_idx;
++				ret = rtw_wowlan_parser_pattern_cmd(input,
++					    pwrpriv->patterns[index].content,
++					    &pwrpriv->patterns[index].len,
++					    pwrpriv->patterns[index].mask);
++
++				if (ret == _TRUE)
++					pwrpriv->wowlan_pattern_idx++;
++			}
++		} else if (strncmp(input, "clean", 5) == 0) {
++			poidparam.subcode = WOWLAN_PATTERN_CLEAN;
++			rtw_hal_set_hwreg(padapter,
++					  HW_VAR_WOWLAN, (u8 *)&poidparam);
++		} else if (strncmp(input, "show", 4) == 0) {
++			for (i = 0 ; i < MAX_WKFM_NUM ; i++) {
++				RTW_INFO("=======[%d]=======\n", i);
++				rtw_read_from_frame_mask(padapter, i);
++			}
++
++			RTW_INFO("********[RTK priv-patterns]*********\n");
++			for (i = 0 ; i < MAX_WKFM_NUM ; i++)
++				rtw_dump_priv_pattern(padapter, i);
++		} else {
++			RTW_INFO("ERROR: incorrect parameter!\n");
++			ret = -EINVAL;
++		}
++		rtw_ps_deny_cancel(padapter, PS_DENY_IOCTL);
++	}
++_rtw_wowlan_set_pattern_exit:
++	return ret;
++}
++#endif /* CONFIG_WOWLAN */
++
++#ifdef CONFIG_AP_WOWLAN
++static int rtw_ap_wowlan_ctrl(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wowlan_ioctl_param poidparam;
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct sta_info	*psta = NULL;
++	int ret = 0;
++	u32 start_time = rtw_get_current_time();
++	poidparam.subcode = 0;
++
++	RTW_INFO("+rtw_ap_wowlan_ctrl: %s\n", extra);
++
++	if (!check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++		RTW_INFO("[%s] It is not AP mode!!\n", __func__);
++		goto _rtw_ap_wowlan_ctrl_exit_free;
++	}
++
++	if (_rtw_memcmp(extra, "enable", 6)) {
++
++		pwrctrlpriv->wowlan_ap_mode = _TRUE;
++
++		rtw_suspend_common(padapter);
++	} else if (_rtw_memcmp(extra, "disable", 7)) {
++#ifdef CONFIG_USB_HCI
++		RTW_ENABLE_FUNC(padapter, DF_RX_BIT);
++		RTW_ENABLE_FUNC(padapter, DF_TX_BIT);
++#endif
++		rtw_resume_common(padapter);
++	} else {
++		RTW_INFO("[%s] Invalid Parameter.\n", __func__);
++		goto _rtw_ap_wowlan_ctrl_exit_free;
++	}
++	/* mutex_lock(&ioctl_mutex); */
++_rtw_ap_wowlan_ctrl_exit_free:
++	RTW_INFO("-rtw_ap_wowlan_ctrl( subcode = %d)\n", poidparam.subcode);
++	RTW_PRINT("%s in %d ms\n", __func__,
++		  rtw_get_passing_time_ms(start_time));
++_rtw_ap_wowlan_ctrl_exit:
++	return ret;
++}
++#endif /* CONFIG_AP_WOWLAN */
++
++static int rtw_pm_set(struct net_device *dev,
++		      struct iw_request_info *info,
++		      union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++	unsigned	mode = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_INFO("[%s] extra = %s\n", __FUNCTION__, extra);
++
++	if (_rtw_memcmp(extra, "lps=", 4)) {
++		sscanf(extra + 4, "%u", &mode);
++		ret = rtw_pm_set_lps(padapter, mode);
++	} else if (_rtw_memcmp(extra, "ips=", 4)) {
++		sscanf(extra + 4, "%u", &mode);
++		ret = rtw_pm_set_ips(padapter, mode);
++	} else
++		ret = -EINVAL;
++
++	return ret;
++}
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++
++int rtw_vendor_ie_get(struct net_device *dev, struct iw_request_info *info, union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0, vendor_ie_num = 0 , j , len = 0 , cmdlen;
++	char *pstring;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct iw_point *p;
++	u8 *ptmp;
++	u32 vendor_ie_mask = 0;
++
++	p = &wrqu->data;
++	cmdlen = p->length;
++	if (0 == cmdlen)
++		return -EINVAL;
++
++	ptmp = (u8 *)rtw_malloc(cmdlen);
++	if (NULL == ptmp)
++		return -ENOMEM;
++
++	if (copy_from_user(ptmp, p->pointer, cmdlen)) {
++		ret = -EFAULT;
++		goto exit;
++	}
++	ret = sscanf(ptmp , "%d", &vendor_ie_num);
++	if (vendor_ie_num > WLAN_MAX_VENDOR_IE_NUM - 1) {
++		ret = -EFAULT;
++		goto exit;
++	}
++	vendor_ie_mask = pmlmepriv->vendor_ie_mask[vendor_ie_num];
++	pstring = extra;
++	pstring += sprintf(pstring , "\nVendor IE num %d , Mask:%x " , vendor_ie_num , vendor_ie_mask);
++
++	if (vendor_ie_mask & WIFI_BEACON_VENDOR_IE_BIT)
++		pstring += sprintf(pstring , "[Beacon]");
++	if (vendor_ie_mask & WIFI_PROBEREQ_VENDOR_IE_BIT)
++		pstring += sprintf(pstring , "[Probe Req]");
++	if (vendor_ie_mask & WIFI_PROBERESP_VENDOR_IE_BIT)
++		pstring += sprintf(pstring , "[Probe Resp]");
++	if (vendor_ie_mask & WIFI_ASSOCREQ_VENDOR_IE_BIT)
++		pstring += sprintf(pstring , "[Assoc Req]");
++	if (vendor_ie_mask & WIFI_ASSOCRESP_VENDOR_IE_BIT)
++		pstring += sprintf(pstring , "[Assoc Resp]");
++
++	pstring += sprintf(pstring , "\nVendor IE:\n");
++	for (j = 0 ; j < pmlmepriv->vendor_ielen[vendor_ie_num]  ; j++)
++		pstring += sprintf(pstring , "%02x" , pmlmepriv->vendor_ie[vendor_ie_num][j]);
++
++	wrqu->data.length = pstring - extra;
++
++exit:
++	rtw_mfree(ptmp, cmdlen);
++
++	return 0;
++}
++
++int rtw_vendor_ie_set(struct net_device *dev, struct iw_request_info *info, union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0, i , len = 0 , totoal_ie_len = 0 , total_ie_len_byte = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	u32 vendor_ie_mask = 0;
++	u32 vendor_ie_num = 0;
++	u32 id, elen;
++
++	ret = sscanf(extra, "%d,%x,%*s", &vendor_ie_num , &vendor_ie_mask);
++	if (strrchr(extra , ','))
++		extra = strrchr(extra , ',') + 1;
++	else
++		return -EINVAL;
++	totoal_ie_len = strlen(extra);
++	RTW_INFO("[%s] vendor_ie_num = %d , vendor_ie_mask = %x , vendor_ie = %s , len = %d\n", __func__ , vendor_ie_num , vendor_ie_mask , extra  , totoal_ie_len);
++
++	if (vendor_ie_num  > WLAN_MAX_VENDOR_IE_NUM - 1) {
++		RTW_INFO("[%s] only support %d vendor ie\n", __func__ , WLAN_MAX_VENDOR_IE_NUM);
++		return -EFAULT;
++	}
++
++	if (totoal_ie_len > WLAN_MAX_VENDOR_IE_LEN) {
++		RTW_INFO("[%s] Fail , not support ie length extend %d\n", __func__ , WLAN_MAX_VENDOR_IE_LEN);
++		return -EFAULT;
++	}
++
++	if (vendor_ie_mask == 0) {
++		RTW_INFO("[%s] Clear vendor_ie_num %d group\n", __func__ , vendor_ie_num);
++		goto _clear_path;
++	}
++
++	if (totoal_ie_len % 2 != 0) {
++		RTW_INFO("[%s]  Fail , IE length = %zu is odd\n" , __func__ , strlen(extra));
++		return -EFAULT;
++	}
++
++	if (totoal_ie_len > 0) {
++		for (i = 0  ; i < strlen(extra) ; i += 2) {
++			pmlmepriv->vendor_ie[vendor_ie_num][len] = key_2char2num(extra[i] , extra[i + 1]);
++			if (len == 0) {
++				id = pmlmepriv->vendor_ie[vendor_ie_num][len];
++				if (id != WLAN_EID_VENDOR_SPECIFIC) {
++					RTW_INFO("[%s] Fail , VENDOR SPECIFIC IE ID \"%x\" was not correct\n", __func__ , id);
++					goto _clear_path;
++				}
++			} else if (len == 1) {
++				total_ie_len_byte = (totoal_ie_len / 2) - 2;
++				elen = pmlmepriv->vendor_ie[vendor_ie_num][len];
++				if (elen != total_ie_len_byte) {
++					RTW_INFO("[%s] Fail , Input IE length = \"%d\"(hex:%x) bytes , not match input total IE context length \"%d\" bytes\n", __func__ , elen , elen ,
++						 total_ie_len_byte);
++					goto _clear_path;
++				}
++			}
++			len++;
++		}
++		pmlmepriv->vendor_ielen[vendor_ie_num] = len;
++	} else
++		pmlmepriv->vendor_ielen[vendor_ie_num] = 0;
++
++
++
++	if (vendor_ie_mask & WIFI_BEACON_VENDOR_IE_BIT)
++		RTW_INFO("[%s] Beacon append vendor ie\n", __func__);
++	if (vendor_ie_mask & WIFI_PROBEREQ_VENDOR_IE_BIT)
++		RTW_INFO("[%s] Probe Req append vendor ie\n", __func__);
++	if (vendor_ie_mask & WIFI_PROBERESP_VENDOR_IE_BIT)
++		RTW_INFO("[%s] Probe Resp  append vendor ie\n", __func__);
++	if (vendor_ie_mask & WIFI_ASSOCREQ_VENDOR_IE_BIT)
++		RTW_INFO("[%s] Assoc Req append vendor ie\n", __func__);
++	if (vendor_ie_mask & WIFI_ASSOCRESP_VENDOR_IE_BIT)
++		RTW_INFO("[%s] Assoc Resp append vendor ie\n", __func__);
++
++	pmlmepriv->vendor_ie_mask[vendor_ie_num] = vendor_ie_mask;
++
++	return ret;
++
++_clear_path:
++	_rtw_memset(pmlmepriv->vendor_ie[vendor_ie_num] , 0 , sizeof(u32) * WLAN_MAX_VENDOR_IE_LEN);
++	pmlmepriv->vendor_ielen[vendor_ie_num] = 0;
++	pmlmepriv->vendor_ie_mask[vendor_ie_num] = 0;
++	return -EFAULT;
++}
++#endif
++
++static int rtw_mp_efuse_get(struct net_device *dev,
++			    struct iw_request_info *info,
++			    union iwreq_data *wdata, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	PEFUSE_HAL pEfuseHal;
++	struct iw_point *wrqu;
++
++	u8	*PROMContent = pHalData->efuse_eeprom_data;
++	u8 ips_mode = IPS_NUM; /* init invalid value */
++	u8 lps_mode = PS_MODE_NUM; /* init invalid value */
++	struct pwrctrl_priv *pwrctrlpriv ;
++	u8 *data = NULL;
++	u8 *rawdata = NULL;
++	char *pch, *ptmp, *token, *tmp[3] = {0x00, 0x00, 0x00};
++	u16 i = 0, j = 0, mapLen = 0, addr = 0, cnts = 0;
++	u16 max_available_len = 0, raw_cursize = 0, raw_maxsize = 0;
++	int err;
++#ifdef CONFIG_IOL
++	u8 org_fw_iol = padapter->registrypriv.fw_iol;/* 0:Disable, 1:enable, 2:by usb speed */
++#endif
++
++	wrqu = (struct iw_point *)wdata;
++	pwrctrlpriv = adapter_to_pwrctl(padapter);
++	pEfuseHal = &pHalData->EfuseHal;
++
++	err = 0;
++	data = rtw_zmalloc(EFUSE_BT_MAX_MAP_LEN);
++	if (data == NULL) {
++		err = -ENOMEM;
++		goto exit;
++	}
++	rawdata = rtw_zmalloc(EFUSE_BT_MAX_MAP_LEN);
++	if (rawdata == NULL) {
++		err = -ENOMEM;
++		goto exit;
++	}
++
++	if (copy_from_user(extra, wrqu->pointer, wrqu->length)) {
++		err = -EFAULT;
++		goto exit;
++	}
++#ifdef CONFIG_LPS
++	lps_mode = pwrctrlpriv->power_mgnt;/* keep org value */
++	rtw_pm_set_lps(padapter, PS_MODE_ACTIVE);
++#endif
++
++#ifdef CONFIG_IPS
++	ips_mode = pwrctrlpriv->ips_mode;/* keep org value */
++	rtw_pm_set_ips(padapter, IPS_NONE);
++#endif
++
++	pch = extra;
++	RTW_INFO("%s: in=%s\n", __FUNCTION__, extra);
++
++	i = 0;
++	/* mac 16 "00e04c871200" rmap,00,2 */
++	while ((token = strsep(&pch, ",")) != NULL) {
++		if (i > 2)
++			break;
++		tmp[i] = token;
++		i++;
++	}
++#ifdef CONFIG_IOL
++	padapter->registrypriv.fw_iol = 0;/* 0:Disable, 1:enable, 2:by usb speed */
++#endif
++
++	if (strcmp(tmp[0], "status") == 0) {
++		sprintf(extra, "Load File efuse=%s,Load File MAC=%s"
++			, pHalData->efuse_file_status == EFUSE_FILE_FAILED ? "FAIL" : "OK"
++			, pHalData->macaddr_file_status == MACADDR_FILE_FAILED ? "FAIL" : "OK"
++		       );
++		goto exit;
++	} else if (strcmp(tmp[0], "drvmap") == 0) {
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (void *)&mapLen, _FALSE);
++
++		sprintf(extra, "\n");
++		for (i = 0; i < mapLen; i += 16) {
++			/*RTW_INFO("0x%02x\t", i);*/
++			sprintf(extra, "%s0x%02x\t", extra, i);
++			for (j = 0; j < 8; j++) {
++				/*				RTW_INFO("%02X ", data[i+j]); */
++				sprintf(extra, "%s%02X ", extra, PROMContent[i + j]);
++			}
++			/*			RTW_INFO("\t"); */
++			sprintf(extra, "%s\t", extra);
++			for (; j < 16; j++) {
++				/*				RTW_INFO("%02X ", data[i+j]); */
++				sprintf(extra, "%s%02X ", extra, PROMContent[i + j]);
++			}
++			/*			RTW_INFO("\n"); */
++			sprintf(extra, "%s\n", extra);
++		}
++		/*		RTW_INFO("\n"); */
++	} else if (strcmp(tmp[0], "realmap") == 0) {
++		static u8 order = 0;
++		u8 *efuse;
++		u32 shift, cnt;
++		u32 blksz = 0x200; /* The size of one time show, default 512 */
++
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN , (void *)&mapLen, _FALSE);
++		efuse = pEfuseHal->fakeEfuseInitMap;
++		if (rtw_efuse_mask_map_read(padapter, 0, mapLen, efuse) == _FAIL) {
++			RTW_INFO("%s: read realmap Fail!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++
++#if 0
++		RTW_INFO("OFFSET\tVALUE(hex)\n");
++		for (i = 0; i < mapLen; i += 16) {
++			RTW_INFO("0x%02x\t", i);
++			for (j = 0; j < 8; j++)
++				RTW_INFO("%02X ", efuse[i + j]);
++			RTW_INFO("\t");
++			for (; j < 16; j++)
++				RTW_INFO("%02X ", efuse[i + j]);
++			RTW_INFO("\n");
++		}
++		RTW_INFO("\n");
++#endif
++
++		shift = blksz * order;
++		efuse += shift;
++		cnt = mapLen - shift;
++		if (cnt > blksz) {
++			cnt = blksz;
++			order++;
++		} else
++			order = 0;
++
++		sprintf(extra, "\n");
++		for (i = 0; i < cnt; i += 16) {
++			sprintf(extra, "%s0x%02x\t", extra, shift + i);
++			for (j = 0; j < 8; j++)
++				sprintf(extra, "%s%02X ", extra, efuse[i + j]);
++			sprintf(extra, "%s\t", extra);
++			for (; j < 16; j++)
++				sprintf(extra, "%s%02X ", extra, efuse[i + j]);
++			sprintf(extra, "%s\n", extra);
++		}
++		if ((shift + cnt) < mapLen)
++			sprintf(extra, "%s\t...more\n", extra);
++	} else if (strcmp(tmp[0], "rmap") == 0) {
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			RTW_INFO("%s: rmap Fail!! Parameters error!\n", __FUNCTION__);
++			err = -EINVAL;
++			goto exit;
++		}
++
++		/* rmap addr cnts */
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		RTW_INFO("%s: addr=%x\n", __FUNCTION__, addr);
++
++		cnts = simple_strtoul(tmp[2], &ptmp, 10);
++		if (cnts == 0) {
++			RTW_INFO("%s: rmap Fail!! cnts error!\n", __FUNCTION__);
++			err = -EINVAL;
++			goto exit;
++		}
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN , (PVOID)&max_available_len, _FALSE);
++		if ((addr + cnts) > max_available_len) {
++			RTW_INFO("%s: addr(0x%X)+cnts(%d) parameter error!\n", __FUNCTION__, addr, cnts);
++			err = -EINVAL;
++			goto exit;
++		}
++
++		if (rtw_efuse_mask_map_read(padapter, addr, cnts, data) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_mask_map_read error!\n", __func__);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		/*		RTW_INFO("%s: data={", __FUNCTION__); */
++		*extra = 0;
++		for (i = 0; i < cnts; i++) {
++			/*			RTW_INFO("0x%02x ", data[i]); */
++			sprintf(extra, "%s0x%02X ", extra, data[i]);
++		}
++		/*		RTW_INFO("}\n"); */
++	} else if (strcmp(tmp[0], "realraw") == 0) {
++		addr = 0;
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_REAL_CONTENT_LEN , (PVOID)&mapLen, _FALSE);
++		RTW_INFO("EFUSE_MAX_SIZE = %d\n", EFUSE_MAX_SIZE);
++
++		if (rtw_efuse_access(padapter, _FALSE, addr, mapLen, rawdata) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_access Fail!!\n", __func__);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		if (mapLen >= 512)
++			mapLen = 512;
++
++		_rtw_memset(extra, '\0', strlen(extra));
++
++		sprintf(extra, "\n0x00\t");
++
++		for (i = 0; i < mapLen ; i++) {
++			sprintf(extra, "%s%02X", extra, rawdata[i]);
++			if ((i & 0xF) == 0xF) {
++				sprintf(extra, "%s\n", extra);
++				sprintf(extra, "%s0x%02x\t", extra, i + 1);
++			} else if ((i & 0x7) == 0x7)
++				sprintf(extra, "%s \t", extra);
++			else
++				sprintf(extra, "%s ", extra);
++		}
++
++	} else if (strcmp(tmp[0], "realrawb") == 0) {
++		addr = 0;
++		mapLen = EFUSE_MAX_SIZE;
++		RTW_INFO("EFUSE_MAX_SIZE =%d\n", EFUSE_MAX_SIZE);
++		if (rtw_efuse_access(padapter, _FALSE, addr, mapLen, rawdata) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_access Fail!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++		_rtw_memset(extra, '\0', strlen(extra));
++		/*		RTW_INFO("%s: realraw={\n", __FUNCTION__); */
++		sprintf(extra, "\n0x00\t");
++		for (i = 512; i < mapLen; i++) {
++			/*			RTW_INFO("%02X", rawdata[i]); */
++			sprintf(extra, "%s%02X", extra, rawdata[i]);
++			if ((i & 0xF) == 0xF) {
++				/*				RTW_INFO("\n"); */
++				sprintf(extra, "%s\n", extra);
++				sprintf(extra, "%s0x%02x\t", extra, i + 1);
++			} else if ((i & 0x7) == 0x7) {
++				/*				RTW_INFO("\t"); */
++				sprintf(extra, "%s \t", extra);
++			} else {
++				/*				RTW_INFO(" "); */
++				sprintf(extra, "%s ", extra);
++			}
++		}
++		/*		RTW_INFO("}\n"); */
++	} else if (strcmp(tmp[0], "mac") == 0) {
++		if (hal_efuse_macaddr_offset(padapter) == -1) {
++			err = -EFAULT;
++			goto exit;
++		}
++
++		addr = hal_efuse_macaddr_offset(padapter);
++		cnts = 6;
++
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&max_available_len, _FALSE);
++		if ((addr + cnts) > max_available_len) {
++			RTW_INFO("%s: addr(0x%02x)+cnts(%d) parameter error!\n", __FUNCTION__, addr, cnts);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		if (rtw_efuse_mask_map_read(padapter, addr, cnts, data) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_mask_map_read error!\n", __func__);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		/*		RTW_INFO("%s: MAC address={", __FUNCTION__); */
++		*extra = 0;
++		for (i = 0; i < cnts; i++) {
++			/*			RTW_INFO("%02X", data[i]); */
++			sprintf(extra, "%s%02X", extra, data[i]);
++			if (i != (cnts - 1)) {
++				/*				RTW_INFO(":"); */
++				sprintf(extra, "%s:", extra);
++			}
++		}
++		/*		RTW_INFO("}\n"); */
++	} else if (strcmp(tmp[0], "vidpid") == 0) {
++#ifdef CONFIG_RTL8188E
++#ifdef CONFIG_USB_HCI
++		addr = EEPROM_VID_88EU;
++#endif
++#ifdef CONFIG_PCI_HCI
++		addr = EEPROM_VID_88EE;
++#endif
++#endif /* CONFIG_RTL8188E */
++
++#ifdef CONFIG_RTL8192E
++#ifdef CONFIG_USB_HCI
++		addr = EEPROM_VID_8192EU;
++#endif
++#ifdef CONFIG_PCI_HCI
++		addr = EEPROM_VID_8192EE;
++#endif
++#endif /* CONFIG_RTL8192E */
++#ifdef CONFIG_RTL8723B
++		addr = EEPROM_VID_8723BU;
++#endif /* CONFIG_RTL8192E */
++
++#ifdef CONFIG_RTL8188F
++		addr = EEPROM_VID_8188FU;
++#endif /* CONFIG_RTL8188F */
++
++#ifdef CONFIG_RTL8703B
++#ifdef CONFIG_USB_HCI
++		addr = EEPROM_VID_8703BU;
++#endif
++#endif /* CONFIG_RTL8703B */
++
++#ifdef CONFIG_RTL8723D
++#ifdef CONFIG_USB_HCI
++		addr = EEPROM_VID_8723DU;
++#endif /* CONFIG_USB_HCI */
++#endif /* CONFIG_RTL8723D */
++
++		cnts = 4;
++
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&max_available_len, _FALSE);
++		if ((addr + cnts) > max_available_len) {
++			RTW_INFO("%s: addr(0x%02x)+cnts(%d) parameter error!\n", __FUNCTION__, addr, cnts);
++			err = -EFAULT;
++			goto exit;
++		}
++		if (rtw_efuse_mask_map_read(padapter, addr, cnts, data) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_access error!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		/*		RTW_INFO("%s: {VID,PID}={", __FUNCTION__); */
++		*extra = 0;
++		for (i = 0; i < cnts; i++) {
++			/*			RTW_INFO("0x%02x", data[i]); */
++			sprintf(extra, "%s0x%02X", extra, data[i]);
++			if (i != (cnts - 1)) {
++				/*				RTW_INFO(","); */
++				sprintf(extra, "%s,", extra);
++			}
++		}
++		/*		RTW_INFO("}\n"); */
++	} else if (strcmp(tmp[0], "ableraw") == 0) {
++		efuse_GetCurrentSize(padapter, &raw_cursize);
++		raw_maxsize = efuse_GetMaxSize(padapter);
++		sprintf(extra, "[available raw size]= %d bytes\n", raw_maxsize - raw_cursize);
++	} else if (strcmp(tmp[0], "btableraw") == 0) {
++		efuse_bt_GetCurrentSize(padapter, &raw_cursize);
++		raw_maxsize = efuse_bt_GetMaxSize(padapter);
++		sprintf(extra, "[available raw size]= %d bytes\n", raw_maxsize - raw_cursize);
++	} else if (strcmp(tmp[0], "btfmap") == 0) {
++
++		BTEfuse_PowerSwitch(padapter, 1, _TRUE);
++
++		mapLen = EFUSE_BT_MAX_MAP_LEN;
++		if (rtw_BT_efuse_map_read(padapter, 0, mapLen, pEfuseHal->BTEfuseInitMap) == _FAIL) {
++			RTW_INFO("%s: rtw_BT_efuse_map_read Fail!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		/*		RTW_INFO("OFFSET\tVALUE(hex)\n"); */
++		sprintf(extra, "\n");
++		for (i = 0; i < 512; i += 16) { /* set 512 because the iwpriv's extra size have limit 0x7FF */
++			/*			RTW_INFO("0x%03x\t", i); */
++			sprintf(extra, "%s0x%03x\t", extra, i);
++			for (j = 0; j < 8; j++) {
++				/*				RTW_INFO("%02X ", pEfuseHal->BTEfuseInitMap[i+j]); */
++				sprintf(extra, "%s%02X ", extra, pEfuseHal->BTEfuseInitMap[i + j]);
++			}
++			/*			RTW_INFO("\t"); */
++			sprintf(extra, "%s\t", extra);
++			for (; j < 16; j++) {
++				/*				RTW_INFO("%02X ", pEfuseHal->BTEfuseInitMap[i+j]); */
++				sprintf(extra, "%s%02X ", extra, pEfuseHal->BTEfuseInitMap[i + j]);
++			}
++			/*			RTW_INFO("\n"); */
++			sprintf(extra, "%s\n", extra);
++		}
++		/*		RTW_INFO("\n"); */
++	} else if (strcmp(tmp[0], "btbmap") == 0) {
++		BTEfuse_PowerSwitch(padapter, 1, _TRUE);
++
++		mapLen = EFUSE_BT_MAX_MAP_LEN;
++		if (rtw_BT_efuse_map_read(padapter, 0, mapLen, pEfuseHal->BTEfuseInitMap) == _FAIL) {
++			RTW_INFO("%s: rtw_BT_efuse_map_read Fail!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		/*		RTW_INFO("OFFSET\tVALUE(hex)\n"); */
++		sprintf(extra, "\n");
++		for (i = 512; i < 1024 ; i += 16) {
++			/*			RTW_INFO("0x%03x\t", i); */
++			sprintf(extra, "%s0x%03x\t", extra, i);
++			for (j = 0; j < 8; j++) {
++				/*				RTW_INFO("%02X ", data[i+j]); */
++				sprintf(extra, "%s%02X ", extra, pEfuseHal->BTEfuseInitMap[i + j]);
++			}
++			/*			RTW_INFO("\t"); */
++			sprintf(extra, "%s\t", extra);
++			for (; j < 16; j++) {
++				/*				RTW_INFO("%02X ", data[i+j]); */
++				sprintf(extra, "%s%02X ", extra, pEfuseHal->BTEfuseInitMap[i + j]);
++			}
++			/*			RTW_INFO("\n"); */
++			sprintf(extra, "%s\n", extra);
++		}
++		/*		RTW_INFO("\n"); */
++	} else if (strcmp(tmp[0], "btrmap") == 0) {
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		BTEfuse_PowerSwitch(padapter, 1, _TRUE);
++
++		/* rmap addr cnts */
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++
++		cnts = simple_strtoul(tmp[2], &ptmp, 10);
++		if (cnts == 0) {
++			RTW_INFO("%s: btrmap Fail!! cnts error!\n", __FUNCTION__);
++			err = -EINVAL;
++			goto exit;
++		}
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_BT, TYPE_EFUSE_MAP_LEN, (PVOID)&max_available_len, _FALSE);
++		if ((addr + cnts) > max_available_len) {
++			RTW_INFO("%s: addr(0x%X)+cnts(%d) parameter error!\n", __FUNCTION__, addr, cnts);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		if (rtw_BT_efuse_map_read(padapter, addr, cnts, data) == _FAIL) {
++			RTW_INFO("%s: rtw_BT_efuse_map_read error!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		*extra = 0;
++		/*		RTW_INFO("%s: bt efuse data={", __FUNCTION__); */
++		for (i = 0; i < cnts; i++) {
++			/*			RTW_INFO("0x%02x ", data[i]); */
++			sprintf(extra, "%s 0x%02X ", extra, data[i]);
++		}
++		/*		RTW_INFO("}\n"); */
++		RTW_INFO(FUNC_ADPT_FMT ": BT MAC=[%s]\n", FUNC_ADPT_ARG(padapter), extra);
++	} else if (strcmp(tmp[0], "btffake") == 0) {
++		/*		RTW_INFO("OFFSET\tVALUE(hex)\n"); */
++		sprintf(extra, "\n");
++		for (i = 0; i < 512; i += 16) {
++			/*			RTW_INFO("0x%03x\t", i); */
++			sprintf(extra, "%s0x%03x\t", extra, i);
++			for (j = 0; j < 8; j++) {
++				/*				RTW_INFO("%02X ", pEfuseHal->fakeBTEfuseModifiedMap[i+j]); */
++				sprintf(extra, "%s%02X ", extra, pEfuseHal->fakeBTEfuseModifiedMap[i + j]);
++			}
++			/*			RTW_INFO("\t"); */
++			sprintf(extra, "%s\t", extra);
++			for (; j < 16; j++) {
++				/*				RTW_INFO("%02X ", pEfuseHal->fakeBTEfuseModifiedMap[i+j]); */
++				sprintf(extra, "%s%02X ", extra, pEfuseHal->fakeBTEfuseModifiedMap[i + j]);
++			}
++			/*			RTW_INFO("\n"); */
++			sprintf(extra, "%s\n", extra);
++		}
++		/*		RTW_INFO("\n"); */
++	} else if (strcmp(tmp[0], "btbfake") == 0) {
++		/*		RTW_INFO("OFFSET\tVALUE(hex)\n"); */
++		sprintf(extra, "\n");
++		for (i = 512; i < 1024; i += 16) {
++			/*			RTW_INFO("0x%03x\t", i); */
++			sprintf(extra, "%s0x%03x\t", extra, i);
++			for (j = 0; j < 8; j++) {
++				/*				RTW_INFO("%02X ", pEfuseHal->fakeBTEfuseModifiedMap[i+j]); */
++				sprintf(extra, "%s%02X ", extra, pEfuseHal->fakeBTEfuseModifiedMap[i + j]);
++			}
++			/*			RTW_INFO("\t"); */
++			sprintf(extra, "%s\t", extra);
++			for (; j < 16; j++) {
++				/*				RTW_INFO("%02X ", pEfuseHal->fakeBTEfuseModifiedMap[i+j]); */
++				sprintf(extra, "%s%02X ", extra, pEfuseHal->fakeBTEfuseModifiedMap[i + j]);
++			}
++			/*			RTW_INFO("\n"); */
++			sprintf(extra, "%s\n", extra);
++		}
++		/*		RTW_INFO("\n"); */
++	} else if (strcmp(tmp[0], "wlrfkmap") == 0) {
++		static u8 fk_order = 0;
++		u8 *efuse;
++		u32 shift, cnt;
++		u32 blksz = 0x200; /* The size of one time show, default 512 */
++
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN , (void *)&mapLen, _FALSE);
++		efuse = pEfuseHal->fakeEfuseModifiedMap;
++
++		shift = blksz * fk_order;
++		efuse += shift;
++		cnt = mapLen - shift;
++		if (cnt > blksz) {
++			cnt = blksz;
++			fk_order++;
++		} else
++			fk_order = 0;
++
++		sprintf(extra, "\n");
++		for (i = 0; i < cnt; i += 16) {
++			sprintf(extra, "%s0x%02x\t", extra, shift + i);
++			for (j = 0; j < 8; j++)
++				sprintf(extra, "%s%02X ", extra, efuse[i + j]);
++			sprintf(extra, "%s\t", extra);
++			for (; j < 16; j++)
++				sprintf(extra, "%s%02X ", extra, efuse[i + j]);
++			sprintf(extra, "%s\n", extra);
++		}
++		if ((shift + cnt) < mapLen)
++			sprintf(extra, "%s\t...more\n", extra);
++
++	} else if (strcmp(tmp[0], "wlrfkrmap") == 0) {
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			RTW_INFO("%s: rmap Fail!! Parameters error!\n", __FUNCTION__);
++			err = -EINVAL;
++			goto exit;
++		}
++		/* rmap addr cnts */
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		RTW_INFO("%s: addr=%x\n", __FUNCTION__, addr);
++
++		cnts = simple_strtoul(tmp[2], &ptmp, 10);
++		if (cnts == 0) {
++			RTW_INFO("%s: rmap Fail!! cnts error!\n", __FUNCTION__);
++			err = -EINVAL;
++			goto exit;
++		}
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++
++		/*		RTW_INFO("%s: data={", __FUNCTION__); */
++		*extra = 0;
++		for (i = 0; i < cnts; i++) {
++			RTW_INFO("wlrfkrmap = 0x%02x\n", pEfuseHal->fakeEfuseModifiedMap[addr + i]);
++			sprintf(extra, "%s0x%02X ", extra, pEfuseHal->fakeEfuseModifiedMap[addr + i]);
++		}
++	} else if (strcmp(tmp[0], "btrfkrmap") == 0) {
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			RTW_INFO("%s: rmap Fail!! Parameters error!\n", __FUNCTION__);
++			err = -EINVAL;
++			goto exit;
++		}
++		/* rmap addr cnts */
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		RTW_INFO("%s: addr=%x\n", __FUNCTION__, addr);
++
++		cnts = simple_strtoul(tmp[2], &ptmp, 10);
++		if (cnts == 0) {
++			RTW_INFO("%s: rmap Fail!! cnts error!\n", __FUNCTION__);
++			err = -EINVAL;
++			goto exit;
++		}
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++
++		/*		RTW_INFO("%s: data={", __FUNCTION__); */
++		*extra = 0;
++		for (i = 0; i < cnts; i++) {
++			RTW_INFO("wlrfkrmap = 0x%02x\n", pEfuseHal->fakeBTEfuseModifiedMap[addr + i]);
++			sprintf(extra, "%s0x%02X ", extra, pEfuseHal->fakeBTEfuseModifiedMap[addr + i]);
++		}
++	} else
++		sprintf(extra, "Command not found!");
++
++exit:
++	if (data)
++		rtw_mfree(data, EFUSE_BT_MAX_MAP_LEN);
++	if (rawdata)
++		rtw_mfree(rawdata, EFUSE_BT_MAX_MAP_LEN);
++	if (!err)
++		wrqu->length = strlen(extra);
++
++	if (padapter->registrypriv.mp_mode == 0) {
++#ifdef CONFIG_IPS
++		rtw_pm_set_ips(padapter, ips_mode);
++#endif /* CONFIG_IPS */
++
++#ifdef CONFIG_LPS
++		rtw_pm_set_lps(padapter, lps_mode);
++#endif /* CONFIG_LPS */
++	}
++
++#ifdef CONFIG_IOL
++	padapter->registrypriv.fw_iol = org_fw_iol;/* 0:Disable, 1:enable, 2:by usb speed */
++#endif
++	return err;
++}
++
++static int rtw_mp_efuse_set(struct net_device *dev,
++			    struct iw_request_info *info,
++			    union iwreq_data *wdata, char *extra)
++{
++	struct iw_point *wrqu;
++	PADAPTER padapter;
++	struct pwrctrl_priv *pwrctrlpriv ;
++	PHAL_DATA_TYPE pHalData;
++	PEFUSE_HAL pEfuseHal;
++	struct hal_ops *pHalFunc;
++
++	u8 ips_mode = IPS_NUM; /* init invalid value */
++	u8 lps_mode = PS_MODE_NUM; /* init invalid value */
++	u32 i = 0, j = 0, jj, kk;
++	u8 *setdata = NULL;
++	u8 *ShadowMapBT = NULL;
++	u8 *ShadowMapWiFi = NULL;
++	u8 *setrawdata = NULL;
++	char *pch, *ptmp, *token, *tmp[3] = {0x00, 0x00, 0x00};
++	u16 addr = 0xFF, cnts = 0, BTStatus = 0 , max_available_len = 0;
++	u16 wifimaplen;
++	int err;
++
++	wrqu = (struct iw_point *)wdata;
++	padapter = rtw_netdev_priv(dev);
++	pwrctrlpriv = adapter_to_pwrctl(padapter);
++	pHalData = GET_HAL_DATA(padapter);
++	pEfuseHal = &pHalData->EfuseHal;
++	pHalFunc = &padapter->HalFunc;
++
++	err = 0;
++
++	if (copy_from_user(extra, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN , (void *)&wifimaplen, _FALSE);
++
++	setdata = rtw_zmalloc(1024);
++	if (setdata == NULL) {
++		err = -ENOMEM;
++		goto exit;
++	}
++	ShadowMapBT = rtw_malloc(EFUSE_BT_MAX_MAP_LEN);
++	if (ShadowMapBT == NULL) {
++		err = -ENOMEM;
++		goto exit;
++	}
++	ShadowMapWiFi = rtw_malloc(wifimaplen);
++	if (ShadowMapWiFi == NULL) {
++		err = -ENOMEM;
++		goto exit;
++	}
++	setrawdata = rtw_malloc(EFUSE_MAX_SIZE);
++	if (setrawdata == NULL) {
++		err = -ENOMEM;
++		goto exit;
++	}
++
++#ifdef CONFIG_LPS
++	lps_mode = pwrctrlpriv->power_mgnt;/* keep org value */
++	rtw_pm_set_lps(padapter, PS_MODE_ACTIVE);
++#endif
++
++#ifdef CONFIG_IPS
++	ips_mode = pwrctrlpriv->ips_mode;/* keep org value */
++	rtw_pm_set_ips(padapter, IPS_NONE);
++#endif
++
++	pch = extra;
++	RTW_INFO("%s: in=%s\n", __FUNCTION__, extra);
++
++	i = 0;
++	while ((token = strsep(&pch, ",")) != NULL) {
++		if (i > 2)
++			break;
++		tmp[i] = token;
++		i++;
++	}
++
++	/* tmp[0],[1],[2] */
++	/* wmap,addr,00e04c871200 */
++	if (strcmp(tmp[0], "wmap") == 0) {
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++#ifndef RTW_HALMAC
++		/* unknown bug workaround, need to fix later */
++		addr = 0x1ff;
++		rtw_write8(padapter, EFUSE_CTRL + 1, (addr & 0xff));
++		rtw_msleep_os(10);
++		rtw_write8(padapter, EFUSE_CTRL + 2, ((addr >> 8) & 0x03));
++		rtw_msleep_os(10);
++		rtw_write8(padapter, EFUSE_CTRL + 3, 0x72);
++		rtw_msleep_os(10);
++		rtw_read8(padapter, EFUSE_CTRL);
++#endif /* RTW_HALMAC */
++
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		addr &= 0xFFF;
++
++		cnts = strlen(tmp[2]);
++		if (cnts % 2) {
++			err = -EINVAL;
++			goto exit;
++		}
++		cnts /= 2;
++		if (cnts == 0) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++		RTW_INFO("%s: map data=%s\n", __FUNCTION__, tmp[2]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2)
++			setdata[jj] = key_2char2num(tmp[2][kk], tmp[2][kk + 1]);
++
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&max_available_len, _FALSE);
++
++		if ((addr + cnts) > max_available_len) {
++			RTW_INFO("%s: addr(0x%X)+cnts(%d) parameter error!\n", __FUNCTION__, addr, cnts);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		if (rtw_efuse_map_write(padapter, addr, cnts, setdata) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_map_write error!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++		*extra = 0;
++		RTW_INFO("%s: after rtw_efuse_map_write to _rtw_memcmp\n", __func__);
++		if (rtw_efuse_mask_map_read(padapter, addr, cnts, ShadowMapWiFi) == _SUCCESS) {
++			if (_rtw_memcmp((void *)ShadowMapWiFi , (void *)setdata, cnts)) {
++				RTW_INFO("%s: WiFi write map afterf compare success\n", __FUNCTION__);
++				sprintf(extra, "WiFi write map compare OK\n");
++				err = 0;
++				goto exit;
++			} else {
++				sprintf(extra, "WiFi write map compare FAIL\n");
++				RTW_INFO("%s: WiFi write map compare Fail\n", __FUNCTION__);
++				err = 0;
++				goto exit;
++			}
++		}
++	} else if (strcmp(tmp[0], "wraw") == 0) {
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		addr &= 0xFFF;
++
++		cnts = strlen(tmp[2]);
++		if (cnts % 2) {
++			err = -EINVAL;
++			goto exit;
++		}
++		cnts /= 2;
++		if (cnts == 0) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++		RTW_INFO("%s: raw data=%s\n", __FUNCTION__, tmp[2]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2)
++			setrawdata[jj] = key_2char2num(tmp[2][kk], tmp[2][kk + 1]);
++
++		if (rtw_efuse_access(padapter, _TRUE, addr, cnts, setrawdata) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_access error!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++	} else if (strcmp(tmp[0], "btwraw") == 0) {
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		addr &= 0xFFF;
++
++		cnts = strlen(tmp[2]);
++		if (cnts % 2) {
++			err = -EINVAL;
++			goto exit;
++		}
++		cnts /= 2;
++		if (cnts == 0) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++		RTW_INFO("%s: raw data=%s\n", __FUNCTION__, tmp[2]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2)
++			setrawdata[jj] = key_2char2num(tmp[2][kk], tmp[2][kk + 1]);
++#ifdef RTW_HALMAC
++		if (rtw_efuse_bt_access(padapter, _TRUE, addr, cnts, setrawdata) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_access error!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++#else
++		rtw_write8(padapter, 0x35, 1); /* switch bank 1 (BT)*/
++		if (rtw_efuse_access(padapter, _TRUE, addr, cnts, setrawdata) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_access error!!\n", __FUNCTION__);
++			rtw_write8(padapter, 0x35, 0); /* switch bank 0 (WiFi)*/
++			err = -EFAULT;
++			goto exit;
++		}
++		rtw_write8(padapter, 0x35, 0); /* switch bank 0 (WiFi)*/
++#endif
++	} else if (strcmp(tmp[0], "mac") == 0) {
++		if (tmp[1] == NULL) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		/* mac,00e04c871200 */
++
++		if (hal_efuse_macaddr_offset(padapter) == -1) {
++			err = -EFAULT;
++			goto exit;
++		}
++
++		addr = hal_efuse_macaddr_offset(padapter);
++		cnts = strlen(tmp[1]);
++		if (cnts % 2) {
++			err = -EINVAL;
++			goto exit;
++		}
++		cnts /= 2;
++		if (cnts == 0) {
++			err = -EINVAL;
++			goto exit;
++		}
++		if (cnts > 6) {
++			RTW_INFO("%s: error data for mac addr=\"%s\"\n", __FUNCTION__, tmp[1]);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++		RTW_INFO("%s: MAC address=%s\n", __FUNCTION__, tmp[1]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2)
++			setdata[jj] = key_2char2num(tmp[1][kk], tmp[1][kk + 1]);
++
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&max_available_len, _FALSE);
++
++		if ((addr + cnts) > max_available_len) {
++			RTW_INFO("%s: addr(0x%X)+cnts(%d) parameter error!\n", __FUNCTION__, addr, cnts);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		if (rtw_efuse_map_write(padapter, addr, cnts, setdata) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_map_write error!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++	} else if (strcmp(tmp[0], "vidpid") == 0) {
++		if (tmp[1] == NULL) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		/* pidvid,da0b7881		 */
++#ifdef CONFIG_RTL8188E
++#ifdef CONFIG_USB_HCI
++		addr = EEPROM_VID_88EU;
++#endif
++#ifdef CONFIG_PCI_HCI
++		addr = EEPROM_VID_88EE;
++#endif
++#endif /* CONFIG_RTL8188E */
++
++#ifdef CONFIG_RTL8192E
++#ifdef CONFIG_USB_HCI
++		addr = EEPROM_VID_8192EU;
++#endif
++#ifdef CONFIG_PCI_HCI
++		addr = EEPROM_VID_8192EE;
++#endif
++#endif /* CONFIG_RTL8188E */
++
++#ifdef CONFIG_RTL8723B
++		addr = EEPROM_VID_8723BU;
++#endif
++
++#ifdef CONFIG_RTL8188F
++		addr = EEPROM_VID_8188FU;
++#endif
++
++#ifdef CONFIG_RTL8703B
++#ifdef CONFIG_USB_HCI
++		addr = EEPROM_VID_8703BU;
++#endif /* CONFIG_USB_HCI */
++#endif /* CONFIG_RTL8703B */
++
++#ifdef CONFIG_RTL8723D
++#ifdef CONFIG_USB_HCI
++		addr = EEPROM_VID_8723DU;
++#endif /* CONFIG_USB_HCI */
++#endif /* CONFIG_RTL8723D */
++
++		cnts = strlen(tmp[1]);
++		if (cnts % 2) {
++			err = -EINVAL;
++			goto exit;
++		}
++		cnts /= 2;
++		if (cnts == 0) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++		RTW_INFO("%s: VID/PID=%s\n", __FUNCTION__, tmp[1]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2)
++			setdata[jj] = key_2char2num(tmp[1][kk], tmp[1][kk + 1]);
++
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&max_available_len, _FALSE);
++		if ((addr + cnts) > max_available_len) {
++			RTW_INFO("%s: addr(0x%X)+cnts(%d) parameter error!\n", __FUNCTION__, addr, cnts);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		if (rtw_efuse_map_write(padapter, addr, cnts, setdata) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_map_write error!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++	} else if (strcmp(tmp[0], "wldumpfake") == 0) {
++		if (wifimaplen > EFUSE_MAX_MAP_LEN)
++			cnts = EFUSE_MAX_MAP_LEN;
++		else
++			cnts = wifimaplen;
++		if (rtw_efuse_mask_map_read(padapter, 0, cnts, pEfuseHal->fakeEfuseModifiedMap) == _SUCCESS)
++			RTW_INFO("%s: WiFi hw efuse dump to Fake map success\n", __func__);
++		else {
++			RTW_INFO("%s: WiFi hw efuse dump to Fake map Fail\n", __func__);
++			err = -EFAULT;
++		}
++	} else if (strcmp(tmp[0], "btwmap") == 0) {
++		rtw_write8(padapter, 0xa3, 0x05); /* For 8723AB ,8821S ? */
++		BTStatus = rtw_read8(padapter, 0xa0);
++		RTW_INFO("%s: btwmap before read 0xa0 BT Status =0x%x\n", __FUNCTION__, BTStatus);
++		if (BTStatus != 0x04) {
++			sprintf(extra, "BT Status not Active ,can't do Write\n");
++			goto exit;
++		}
++
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++#ifndef RTW_HALMAC
++		BTEfuse_PowerSwitch(padapter, 1, _TRUE);
++		addr = 0x1ff;
++		rtw_write8(padapter, EFUSE_CTRL + 1, (addr & 0xff));
++		rtw_msleep_os(10);
++		rtw_write8(padapter, EFUSE_CTRL + 2, ((addr >> 8) & 0x03));
++		rtw_msleep_os(10);
++		rtw_write8(padapter, EFUSE_CTRL + 3, 0x72);
++		rtw_msleep_os(10);
++		rtw_read8(padapter, EFUSE_CTRL);
++		BTEfuse_PowerSwitch(padapter, 1, _FALSE);
++#endif /* RTW_HALMAC */
++
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		addr &= 0xFFF;
++
++		cnts = strlen(tmp[2]);
++		if (cnts % 2) {
++			err = -EINVAL;
++			goto exit;
++		}
++		cnts /= 2;
++		if (cnts == 0) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++		RTW_INFO("%s: BT data=%s\n", __FUNCTION__, tmp[2]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2)
++			setdata[jj] = key_2char2num(tmp[2][kk], tmp[2][kk + 1]);
++#ifdef CONFIG_RTL8703B
++		if (cnts == 1 && addr == 0x189) {
++			setdata[1] = setdata[0];
++			setdata[0] = 0x00;
++			cnts += 1;
++			addr = 0x188;
++			RTW_INFO("addr 0x%x ,setdata=0x%X 0x%X\n", addr, setdata[0], setdata[1]);
++		} else if (cnts == 1 && addr == 0x161) {
++			setdata[1] = setdata[0];
++			setdata[0] = 0xFE;
++			cnts += 1;
++			addr = 0x160;
++			RTW_INFO("addr 0x%x ,setdata=0x%X 0x%X\n", addr, setdata[0], setdata[1]);
++		}
++#endif
++#ifndef RTW_HALMAC
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_BT, TYPE_EFUSE_MAP_LEN, (PVOID)&max_available_len, _FALSE);
++		if ((addr + cnts) > max_available_len) {
++			RTW_INFO("%s: addr(0x%X)+cnts(%d) parameter error!\n", __FUNCTION__, addr, cnts);
++			err = -EFAULT;
++			goto exit;
++		}
++#endif
++		if (rtw_BT_efuse_map_write(padapter, addr, cnts, setdata) == _FAIL) {
++			RTW_INFO("%s: rtw_BT_efuse_map_write error!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++		*extra = 0;
++		RTW_INFO("%s: after rtw_BT_efuse_map_write to _rtw_memcmp\n", __FUNCTION__);
++		if ((rtw_BT_efuse_map_read(padapter, addr, cnts, ShadowMapBT) == _SUCCESS)) {
++			if (_rtw_memcmp((void *)ShadowMapBT , (void *)setdata, cnts)) {
++				RTW_INFO("%s: BT write map compare OK BTStatus=0x%x\n", __FUNCTION__, BTStatus);
++				sprintf(extra, "BT write map compare OK");
++				err = 0;
++				goto exit;
++			} else {
++				sprintf(extra, "BT write map compare FAIL");
++				RTW_INFO("%s: BT write map compare FAIL BTStatus=0x%x\n", __FUNCTION__, BTStatus);
++				err = 0;
++				goto exit;
++			}
++		}
++	} else if (strcmp(tmp[0], "btwfake") == 0) {
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		addr &= 0xFFF;
++
++		cnts = strlen(tmp[2]);
++		if (cnts % 2) {
++			err = -EINVAL;
++			goto exit;
++		}
++		cnts /= 2;
++		if (cnts == 0) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++		RTW_INFO("%s: BT tmp data=%s\n", __FUNCTION__, tmp[2]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2)
++			pEfuseHal->fakeBTEfuseModifiedMap[addr + jj] = key_2char2num(tmp[2][kk], tmp[2][kk + 1]);
++	} else if (strcmp(tmp[0], "btdumpfake") == 0) {
++		if (rtw_BT_efuse_map_read(padapter, 0, EFUSE_BT_MAX_MAP_LEN, pEfuseHal->fakeBTEfuseModifiedMap) == _SUCCESS)
++			RTW_INFO("%s: BT read all map success\n", __FUNCTION__);
++		else {
++			RTW_INFO("%s: BT read all map Fail!\n", __FUNCTION__);
++			err = -EFAULT;
++		}
++	} else if (strcmp(tmp[0], "btfk2map") == 0) {
++		rtw_write8(padapter, 0xa3, 0x05);
++		BTStatus = rtw_read8(padapter, 0xa0);
++		RTW_INFO("%s: btwmap before read 0xa0 BT Status =0x%x\n", __FUNCTION__, BTStatus);
++		if (BTStatus != 0x04) {
++			sprintf(extra, "BT Status not Active Write FAIL\n");
++			goto exit;
++		}
++#ifndef RTW_HALMAC
++		BTEfuse_PowerSwitch(padapter, 1, _TRUE);
++		addr = 0x1ff;
++		rtw_write8(padapter, EFUSE_CTRL + 1, (addr & 0xff));
++		rtw_msleep_os(10);
++		rtw_write8(padapter, EFUSE_CTRL + 2, ((addr >> 8) & 0x03));
++		rtw_msleep_os(10);
++		rtw_write8(padapter, EFUSE_CTRL + 3, 0x72);
++		rtw_msleep_os(10);
++		rtw_read8(padapter, EFUSE_CTRL);
++		BTEfuse_PowerSwitch(padapter, 1, _FALSE);
++#endif /* RTW_HALMAC */
++		_rtw_memcpy(pEfuseHal->BTEfuseModifiedMap, pEfuseHal->fakeBTEfuseModifiedMap, EFUSE_BT_MAX_MAP_LEN);
++
++		if (rtw_BT_efuse_map_write(padapter, 0x00, EFUSE_BT_MAX_MAP_LEN, pEfuseHal->fakeBTEfuseModifiedMap) == _FAIL) {
++			RTW_INFO("%s: rtw_BT_efuse_map_write error!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		RTW_INFO("pEfuseHal->fakeBTEfuseModifiedMap OFFSET\tVALUE(hex)\n");
++		for (i = 0; i < EFUSE_BT_MAX_MAP_LEN; i += 16) {
++			printk("0x%02x\t", i);
++			for (j = 0; j < 8; j++)
++				printk("%02X ", pEfuseHal->fakeBTEfuseModifiedMap[i + j]);
++			printk("\t");
++
++			for (; j < 16; j++)
++				printk("%02X ", pEfuseHal->fakeBTEfuseModifiedMap[i + j]);
++			printk("\n");
++		}
++		printk("\n");
++#if 1
++		err = -EFAULT;
++		RTW_INFO("%s: rtw_BT_efuse_map_read _rtw_memcmp\n", __FUNCTION__);
++		if ((rtw_BT_efuse_map_read(padapter, 0x00, EFUSE_BT_MAX_MAP_LEN, pEfuseHal->fakeBTEfuseInitMap) == _SUCCESS)) {
++			if (_rtw_memcmp((void *)pEfuseHal->fakeBTEfuseModifiedMap, (void *)pEfuseHal->fakeBTEfuseInitMap, EFUSE_BT_MAX_MAP_LEN)) {
++				sprintf(extra, "BT write map compare OK");
++				RTW_INFO("%s: BT write map afterf compare success BTStatus=0x%x\n", __FUNCTION__, BTStatus);
++				err = 0;
++				goto exit;
++			} else {
++				sprintf(extra, "BT write map compare FAIL");
++				if (rtw_BT_efuse_map_write(padapter, 0x00, EFUSE_BT_MAX_MAP_LEN, pEfuseHal->fakeBTEfuseModifiedMap) == _FAIL)
++					RTW_INFO("%s: rtw_BT_efuse_map_write compare error,retry = %d!\n", __FUNCTION__, i);
++
++				if (rtw_BT_efuse_map_read(padapter, EFUSE_BT, EFUSE_BT_MAX_MAP_LEN, pEfuseHal->fakeBTEfuseInitMap) == _SUCCESS) {
++					RTW_INFO("pEfuseHal->fakeBTEfuseInitMap OFFSET\tVALUE(hex)\n");
++
++					for (i = 0; i < EFUSE_BT_MAX_MAP_LEN; i += 16) {
++						printk("0x%02x\t", i);
++						for (j = 0; j < 8; j++)
++							printk("%02X ", pEfuseHal->fakeBTEfuseInitMap[i + j]);
++						printk("\t");
++						for (; j < 16; j++)
++							printk("%02X ", pEfuseHal->fakeBTEfuseInitMap[i + j]);
++						printk("\n");
++					}
++					printk("\n");
++				}
++				RTW_INFO("%s: BT write map afterf compare not match to write efuse try write Map again , BTStatus=0x%x\n", __FUNCTION__, BTStatus);
++				goto exit;
++			}
++		}
++#endif
++
++	} else if (strcmp(tmp[0], "wlfk2map") == 0) {
++		if (wifimaplen > EFUSE_MAX_MAP_LEN)
++			cnts = EFUSE_MAX_MAP_LEN;
++		else
++			cnts = wifimaplen;
++		if (rtw_efuse_map_write(padapter, 0x00, cnts, pEfuseHal->fakeEfuseModifiedMap) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_map_write fakeEfuseModifiedMap error!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++		*extra = 0;
++		if (rtw_efuse_mask_map_read(padapter, 0x00, wifimaplen, ShadowMapWiFi) == _SUCCESS) {
++			if (_rtw_memcmp((void *)ShadowMapWiFi , (void *)pEfuseHal->fakeEfuseModifiedMap, cnts)) {
++				RTW_INFO("%s: WiFi write map afterf compare OK\n", __FUNCTION__);
++				sprintf(extra, "WiFi write map compare OK\n");
++				err = 0;
++				goto exit;
++			} else {
++				sprintf(extra, "WiFi write map compare FAIL\n");
++				RTW_INFO("%s: WiFi write map compare Fail\n", __FUNCTION__);
++				err = 0;
++				goto exit;
++			}
++		}
++	} else if (strcmp(tmp[0], "wlwfake") == 0) {
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		addr &= 0xFFF;
++
++		cnts = strlen(tmp[2]);
++		if (cnts % 2) {
++			err = -EINVAL;
++			goto exit;
++		}
++		cnts /= 2;
++		if (cnts == 0) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++		RTW_INFO("%s: map tmp data=%s\n", __FUNCTION__, tmp[2]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2)
++			pEfuseHal->fakeEfuseModifiedMap[addr + jj] = key_2char2num(tmp[2][kk], tmp[2][kk + 1]);
++		_rtw_memset(extra, '\0', strlen(extra));
++		sprintf(extra, "wlwfake OK\n");
++
++	}
++	else if (strcmp(tmp[0], "wfakemac") == 0) {
++		if (tmp[1] == NULL) {
++			err = -EINVAL;
++			goto exit;
++		}
++		/* wfakemac,00e04c871200 */
++		if (hal_efuse_macaddr_offset(padapter) == -1) {
++			err = -EFAULT;
++			goto exit;
++		}
++
++		addr = hal_efuse_macaddr_offset(padapter);
++		cnts = strlen(tmp[1]);
++		if (cnts % 2) {
++			err = -EINVAL;
++			goto exit;
++		}
++		cnts /= 2;
++		if (cnts == 0) {
++			err = -EINVAL;
++			goto exit;
++		}
++		if (cnts > 6) {
++			RTW_INFO("%s: error data for mac addr=\"%s\"\n", __FUNCTION__, tmp[1]);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++		RTW_INFO("%s: MAC address=%s\n", __FUNCTION__, tmp[1]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2)
++			pEfuseHal->fakeEfuseModifiedMap[addr + jj] = key_2char2num(tmp[1][kk], tmp[1][kk + 1]);
++
++		_rtw_memset(extra, '\0', strlen(extra));
++		sprintf(extra, "write mac addr to fake map OK\n");
++	} else if(strcmp(tmp[0], "update") == 0) {
++		RTW_INFO("To Use new eFuse map\n");
++		/*step read efuse/eeprom data and get mac_addr*/
++		rtw_hal_read_chip_info(padapter);
++		/* set mac addr*/
++		rtw_macaddr_cfg(adapter_mac_addr(padapter), get_hal_mac_addr(padapter));
++		_rtw_memcpy(padapter->pnetdev->dev_addr, get_hal_mac_addr(padapter), ETH_ALEN); /* set mac addr to net_device */
++
++#ifdef CONFIG_P2P
++		rtw_init_wifidirect_addrs(padapter, adapter_mac_addr(padapter), adapter_mac_addr(padapter));
++#endif
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		rtw_hal_change_macaddr_mbid(padapter, adapter_mac_addr(padapter));
++#else
++		rtw_hal_set_hwreg(padapter, HW_VAR_MAC_ADDR, adapter_mac_addr(padapter)); /* set mac addr to mac register */
++#endif
++		/*pHalFunc->hal_deinit(padapter);*/
++		if (pHalFunc->hal_init(padapter) == _FAIL) {
++			err = -EINVAL;
++			goto exit;
++		}
++		_rtw_memset(extra, '\0', strlen(extra));
++		sprintf(extra, "eFuse Update OK\n");
++	}
++
++exit:
++	if (setdata)
++		rtw_mfree(setdata, 1024);
++	if (ShadowMapBT)
++		rtw_mfree(ShadowMapBT, EFUSE_BT_MAX_MAP_LEN);
++	if (ShadowMapWiFi)
++		rtw_mfree(ShadowMapWiFi, wifimaplen);
++	if (setrawdata)
++		rtw_mfree(setrawdata, EFUSE_MAX_SIZE);
++
++	wrqu->length = strlen(extra);
++
++	if (padapter->registrypriv.mp_mode == 0) {
++#ifdef CONFIG_IPS
++		rtw_pm_set_ips(padapter, ips_mode);
++#endif /* CONFIG_IPS */
++
++#ifdef CONFIG_LPS
++		rtw_pm_set_lps(padapter, lps_mode);
++#endif /* CONFIG_LPS */
++	}
++
++	return err;
++}
++
++
++#ifdef CONFIG_MP_INCLUDED
++static int rtw_priv_mp_set(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wdata, char *extra)
++{
++
++	struct iw_point *wrqu = (struct iw_point *)wdata;
++	u32 subcmd = wrqu->flags;
++
++	switch (subcmd) {
++	case CTA_TEST:
++		RTW_INFO("set CTA_TEST\n");
++		rtw_cta_test_start(dev, info, wdata, extra);
++		break;
++	case MP_DISABLE_BT_COEXIST:
++		RTW_INFO("set case MP_DISABLE_BT_COEXIST\n");
++		rtw_mp_disable_bt_coexist(dev, info, wdata, extra);
++		break;
++	case MP_IQK:
++		RTW_INFO("set MP_IQK\n");
++		rtw_mp_iqk(dev, info, wrqu, extra);
++		break;
++	case MP_LCK:
++		RTW_INFO("set MP_LCK\n");
++		rtw_mp_lck(dev, info, wrqu, extra);
++	break;
++
++	default:
++		return -EIO;
++	}
++
++	return 0;
++}
++
++static int rtw_priv_mp_get(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wdata, char *extra)
++{
++
++	struct iw_point *wrqu = (struct iw_point *)wdata;
++	u32 subcmd = wrqu->flags;
++
++	switch (subcmd) {
++	case MP_START:
++		RTW_INFO("set case mp_start\n");
++		rtw_mp_start(dev, info, wrqu, extra);
++		break;
++	case MP_STOP:
++		RTW_INFO("set case mp_stop\n");
++		rtw_mp_stop(dev, info, wrqu, extra);
++		break;
++	case MP_BANDWIDTH:
++		RTW_INFO("set case mp_bandwidth\n");
++		rtw_mp_bandwidth(dev, info, wrqu, extra);
++		break;
++	case MP_RESET_STATS:
++		RTW_INFO("set case MP_RESET_STATS\n");
++		rtw_mp_reset_stats(dev, info, wrqu, extra);
++		break;
++	case MP_SetRFPathSwh:
++		RTW_INFO("set MP_SetRFPathSwitch\n");
++		rtw_mp_SetRFPath(dev, info, wrqu, extra);
++		break;
++	case WRITE_REG:
++		rtw_mp_write_reg(dev, info, wrqu, extra);
++		break;
++	case WRITE_RF:
++		rtw_mp_write_rf(dev, info, wrqu, extra);
++		break;
++	case MP_PHYPARA:
++		RTW_INFO("mp_get  MP_PHYPARA\n");
++		rtw_mp_phypara(dev, info, wrqu, extra);
++		break;
++	case MP_CHANNEL:
++		RTW_INFO("set case mp_channel\n");
++		rtw_mp_channel(dev , info, wrqu, extra);
++		break;
++	case READ_REG:
++		RTW_INFO("mp_get  READ_REG\n");
++		rtw_mp_read_reg(dev, info, wrqu, extra);
++		break;
++	case READ_RF:
++		RTW_INFO("mp_get  READ_RF\n");
++		rtw_mp_read_rf(dev, info, wrqu, extra);
++		break;
++	case MP_RATE:
++		RTW_INFO("set case mp_rate\n");
++		rtw_mp_rate(dev, info, wrqu, extra);
++		break;
++	case MP_TXPOWER:
++		RTW_INFO("set case MP_TXPOWER\n");
++		rtw_mp_txpower(dev, info, wrqu, extra);
++		break;
++	case MP_ANT_TX:
++		RTW_INFO("set case MP_ANT_TX\n");
++		rtw_mp_ant_tx(dev, info, wrqu, extra);
++		break;
++	case MP_ANT_RX:
++		RTW_INFO("set case MP_ANT_RX\n");
++		rtw_mp_ant_rx(dev, info, wrqu, extra);
++		break;
++	case MP_QUERY:
++		rtw_mp_trx_query(dev, info, wrqu, extra);
++		break;
++	case MP_CTX:
++		RTW_INFO("set case MP_CTX\n");
++		rtw_mp_ctx(dev, info, wrqu, extra);
++		break;
++	case MP_ARX:
++		RTW_INFO("set case MP_ARX\n");
++		rtw_mp_arx(dev, info, wrqu, extra);
++		break;
++	case MP_DUMP:
++		RTW_INFO("set case MP_DUMP\n");
++		rtw_mp_dump(dev, info, wrqu, extra);
++		break;
++	case MP_PSD:
++		RTW_INFO("set case MP_PSD\n");
++		rtw_mp_psd(dev, info, wrqu, extra);
++		break;
++	case MP_THER:
++		RTW_INFO("set case MP_THER\n");
++		rtw_mp_thermal(dev, info, wrqu, extra);
++		break;
++	case MP_PwrCtlDM:
++		RTW_INFO("set MP_PwrCtlDM\n");
++		rtw_mp_PwrCtlDM(dev, info, wrqu, extra);
++		break;
++	case MP_QueryDrvStats:
++		RTW_INFO("mp_get MP_QueryDrvStats\n");
++		rtw_mp_QueryDrv(dev, info, wdata, extra);
++		break;
++	case MP_PWRTRK:
++		RTW_INFO("set case MP_PWRTRK\n");
++		rtw_mp_pwrtrk(dev, info, wrqu, extra);
++		break;
++	case EFUSE_SET:
++		RTW_INFO("set case efuse set\n");
++		rtw_mp_efuse_set(dev, info, wdata, extra);
++		break;
++	case EFUSE_GET:
++		RTW_INFO("efuse get EFUSE_GET\n");
++		rtw_mp_efuse_get(dev, info, wdata, extra);
++		break;
++	case MP_GET_TXPOWER_INX:
++		RTW_INFO("mp_get MP_GET_TXPOWER_INX\n");
++		rtw_mp_txpower_index(dev, info, wrqu, extra);
++		break;
++	case MP_GETVER:
++		RTW_INFO("mp_get MP_GETVER\n");
++		rtw_mp_getver(dev, info, wdata, extra);
++		break;
++	case MP_MON:
++		RTW_INFO("mp_get MP_MON\n");
++		rtw_mp_mon(dev, info, wdata, extra);
++		break;
++	case EFUSE_MASK:
++		RTW_INFO("mp_get EFUSE_MASK\n");
++		rtw_efuse_mask_file(dev, info, wdata, extra);
++		break;
++	case  EFUSE_FILE:
++		RTW_INFO("mp_get EFUSE_FILE\n");
++		rtw_efuse_file_map(dev, info, wdata, extra);
++		break;
++	case  MP_TX:
++		RTW_INFO("mp_get MP_TX\n");
++		rtw_mp_tx(dev, info, wdata, extra);
++		break;
++	case  MP_RX:
++		RTW_INFO("mp_get MP_RX\n");
++		rtw_mp_rx(dev, info, wdata, extra);
++		break;
++	case MP_HW_TX_MODE:
++		RTW_INFO("mp_get MP_HW_TX_MODE\n");
++		rtw_mp_hwtx(dev, info, wdata, extra);
++		break;
++	default:
++		return -EIO;
++	}
++
++	return 0;
++}
++#endif /*#if defined(CONFIG_MP_INCLUDED)*/
++
++
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++#define DBG_MP_SDIO_INDIRECT_ACCESS 1
++static int rtw_mp_sd_iread(struct net_device *dev
++			   , struct iw_request_info *info
++			   , struct iw_point *wrqu
++			   , char *extra)
++{
++	char input[16];
++	u8 width;
++	unsigned long addr;
++	u32 ret = 0;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	if (wrqu->length > 16) {
++		RTW_INFO(FUNC_ADPT_FMT" wrqu->length:%d\n", FUNC_ADPT_ARG(padapter), wrqu->length);
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length)) {
++		RTW_INFO(FUNC_ADPT_FMT" copy_from_user fail\n", FUNC_ADPT_ARG(padapter));
++		ret = -EFAULT;
++		goto exit;
++	}
++
++	_rtw_memset(extra, 0, wrqu->length);
++
++	if (sscanf(input, "%hhu,%lx", &width, &addr) != 2) {
++		RTW_INFO(FUNC_ADPT_FMT" sscanf fail\n", FUNC_ADPT_ARG(padapter));
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	if (addr > 0x3FFF) {
++		RTW_INFO(FUNC_ADPT_FMT" addr:0x%lx\n", FUNC_ADPT_ARG(padapter), addr);
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	if (DBG_MP_SDIO_INDIRECT_ACCESS)
++		RTW_INFO(FUNC_ADPT_FMT" width:%u, addr:0x%lx\n", FUNC_ADPT_ARG(padapter), width, addr);
++
++	switch (width) {
++	case 1:
++		sprintf(extra, "0x%02x", rtw_sd_iread8(padapter, addr));
++		wrqu->length = strlen(extra);
++		break;
++	case 2:
++		sprintf(extra, "0x%04x", rtw_sd_iread16(padapter, addr));
++		wrqu->length = strlen(extra);
++		break;
++	case 4:
++		sprintf(extra, "0x%08x", rtw_sd_iread32(padapter, addr));
++		wrqu->length = strlen(extra);
++		break;
++	default:
++		wrqu->length = 0;
++		ret = -EINVAL;
++		break;
++	}
++
++exit:
++	return ret;
++}
++
++static int rtw_mp_sd_iwrite(struct net_device *dev
++			    , struct iw_request_info *info
++			    , struct iw_point *wrqu
++			    , char *extra)
++{
++	char width;
++	unsigned long addr, data;
++	int ret = 0;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	char input[32];
++
++	if (wrqu->length > 32) {
++		RTW_INFO(FUNC_ADPT_FMT" wrqu->length:%d\n", FUNC_ADPT_ARG(padapter), wrqu->length);
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length)) {
++		RTW_INFO(FUNC_ADPT_FMT" copy_from_user fail\n", FUNC_ADPT_ARG(padapter));
++		ret = -EFAULT;
++		goto exit;
++	}
++
++	_rtw_memset(extra, 0, wrqu->length);
++
++	if (sscanf(input, "%hhu,%lx,%lx", &width, &addr, &data) != 3) {
++		RTW_INFO(FUNC_ADPT_FMT" sscanf fail\n", FUNC_ADPT_ARG(padapter));
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	if (addr > 0x3FFF) {
++		RTW_INFO(FUNC_ADPT_FMT" addr:0x%lx\n", FUNC_ADPT_ARG(padapter), addr);
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	if (DBG_MP_SDIO_INDIRECT_ACCESS)
++		RTW_INFO(FUNC_ADPT_FMT" width:%u, addr:0x%lx, data:0x%lx\n", FUNC_ADPT_ARG(padapter), width, addr, data);
++
++	switch (width) {
++	case 1:
++		if (data > 0xFF) {
++			ret = -EINVAL;
++			break;
++		}
++		rtw_sd_iwrite8(padapter, addr, data);
++		break;
++	case 2:
++		if (data > 0xFFFF) {
++			ret = -EINVAL;
++			break;
++		}
++		rtw_sd_iwrite16(padapter, addr, data);
++		break;
++	case 4:
++		rtw_sd_iwrite32(padapter, addr, data);
++		break;
++	default:
++		wrqu->length = 0;
++		ret = -EINVAL;
++		break;
++	}
++
++exit:
++	return ret;
++}
++#endif /* CONFIG_SDIO_INDIRECT_ACCESS */
++
++static int rtw_priv_set(struct net_device *dev,
++			struct iw_request_info *info,
++			union iwreq_data *wdata, char *extra)
++{
++	struct iw_point *wrqu = (struct iw_point *)wdata;
++	u32 subcmd = wrqu->flags;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	if (padapter == NULL)
++		return -ENETDOWN;
++
++	if (padapter->bup == _FALSE) {
++		RTW_INFO(" %s fail =>(padapter->bup == _FALSE )\n", __FUNCTION__);
++		return -ENETDOWN;
++	}
++
++	if (RTW_CANNOT_RUN(padapter)) {
++		RTW_INFO("%s fail =>(bSurpriseRemoved == _TRUE) || ( bDriverStopped == _TRUE)\n", __func__);
++		return -ENETDOWN;
++	}
++
++	if (extra == NULL) {
++		wrqu->length = 0;
++		return -EIO;
++	}
++
++	if (subcmd < MP_NULL) {
++#ifdef CONFIG_MP_INCLUDED
++		rtw_priv_mp_set(dev, info, wdata, extra);
++#endif
++		return 0;
++	}
++
++	switch (subcmd) {
++#ifdef CONFIG_WOWLAN
++	case MP_WOW_ENABLE:
++		RTW_INFO("set case MP_WOW_ENABLE: %s\n", extra);
++
++		rtw_wowlan_ctrl(dev, info, wdata, extra);
++		break;
++	case MP_WOW_SET_PATTERN:
++		RTW_INFO("set case MP_WOW_SET_PATTERN: %s\n", extra);
++		rtw_wowlan_set_pattern(dev, info, wdata, extra);
++		break;
++#endif
++#ifdef CONFIG_AP_WOWLAN
++	case MP_AP_WOW_ENABLE:
++		RTW_INFO("set case MP_AP_WOW_ENABLE: %s\n", extra);
++		rtw_ap_wowlan_ctrl(dev, info, wdata, extra);
++		break;
++#endif
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++	case VENDOR_IE_SET:
++		RTW_INFO("set case VENDOR_IE_SET\n");
++		rtw_vendor_ie_set(dev , info , wdata , extra);
++		break;
++#endif
++	default:
++		return -EIO;
++	}
++
++	return 0;
++}
++
++
++static int rtw_priv_get(struct net_device *dev,
++			struct iw_request_info *info,
++			union iwreq_data *wdata, char *extra)
++{
++	struct iw_point *wrqu = (struct iw_point *)wdata;
++	u32 subcmd = wrqu->flags;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++
++	if (padapter == NULL)
++		return -ENETDOWN;
++
++	if (padapter->bup == _FALSE) {
++		RTW_INFO(" %s fail =>(padapter->bup == _FALSE )\n", __FUNCTION__);
++		return -ENETDOWN;
++	}
++
++	if (RTW_CANNOT_RUN(padapter)) {
++		RTW_INFO("%s fail =>(padapter->bSurpriseRemoved == _TRUE) || ( padapter->bDriverStopped == _TRUE)\n", __func__);
++		return -ENETDOWN;
++	}
++
++	if (extra == NULL) {
++		wrqu->length = 0;
++		return -EIO;
++	}
++
++	if (subcmd < MP_NULL) {
++#ifdef CONFIG_MP_INCLUDED
++		rtw_priv_mp_get(dev, info, wdata, extra);
++#endif		
++		return 0;
++	}
++
++	switch (subcmd) {
++#if defined(CONFIG_RTL8723B)
++	case MP_SetBT:
++		RTW_INFO("set MP_SetBT\n");
++		rtw_mp_SetBT(dev, info, wdata, extra);
++		break;
++#endif
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++	case MP_SD_IREAD:
++		rtw_mp_sd_iread(dev, info, wrqu, extra);
++		break;
++	case MP_SD_IWRITE:
++		rtw_mp_sd_iwrite(dev, info, wrqu, extra);
++		break;
++#endif
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++	case VENDOR_IE_GET:
++		RTW_INFO("get case VENDOR_IE_GET\n");
++		rtw_vendor_ie_get(dev , info , wdata , extra);
++		break;
++#endif
++	default:
++		return -EIO;
++	}
++
++	rtw_msleep_os(10); /* delay 5ms for sending pkt before exit adb shell operation */
++	return 0;
++}
++
++
++
++static int rtw_wx_tdls_wfd_enable(struct net_device *dev,
++				  struct iw_request_info *info,
++				  union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_WFD
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	if (extra[0] == '0')
++		rtw_tdls_wfd_enable(padapter, 0);
++	else
++		rtw_tdls_wfd_enable(padapter, 1);
++
++#endif /* CONFIG_WFD */
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_weaksec(struct net_device *dev,
++			    struct iw_request_info *info,
++			    union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	u8 i, j;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	if (extra[0] == '0')
++		padapter->wdinfo.wfd_tdls_weaksec = 0;
++	else
++		padapter->wdinfo.wfd_tdls_weaksec = 1;
++
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++
++static int rtw_tdls_enable(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info	*ptdlsinfo = &padapter->tdlsinfo;
++	_irqL	 irqL;
++	_list	*plist, *phead;
++	s32	index;
++	struct sta_info *psta = NULL;
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	u8 tdls_sta[NUM_STA][ETH_ALEN];
++	u8 empty_hwaddr[ETH_ALEN] = { 0x00 };
++	struct tdls_txmgmt txmgmt;
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	_rtw_memset(tdls_sta, 0x00, sizeof(tdls_sta));
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++
++	if (extra[0] == '0') {
++		ptdlsinfo->tdls_enable = 0;
++
++		if (pstapriv->asoc_sta_count == 1)
++			return ret;
++
++		_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++		for (index = 0; index < NUM_STA; index++) {
++			phead = &(pstapriv->sta_hash[index]);
++			plist = get_next(phead);
++
++			while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++				psta = LIST_CONTAINOR(plist, struct sta_info , hash_list);
++
++				plist = get_next(plist);
++
++				if (psta->tdls_sta_state != TDLS_STATE_NONE)
++					_rtw_memcpy(tdls_sta[index], psta->hwaddr, ETH_ALEN);
++			}
++		}
++		_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++		for (index = 0; index < NUM_STA; index++) {
++			if (!_rtw_memcmp(tdls_sta[index], empty_hwaddr, ETH_ALEN)) {
++				RTW_INFO("issue tear down to "MAC_FMT"\n", MAC_ARG(tdls_sta[index]));
++				txmgmt.status_code = _RSON_TDLS_TEAR_UN_RSN_;
++				_rtw_memcpy(txmgmt.peer, tdls_sta[index], ETH_ALEN);
++				issue_tdls_teardown(padapter, &txmgmt, _TRUE);
++			}
++		}
++		rtw_tdls_cmd(padapter, NULL, TDLS_RS_RCR);
++		rtw_reset_tdls_info(padapter);
++	}	else if (extra[0] == '1')
++		ptdlsinfo->tdls_enable = 1;
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_setup(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++#ifdef CONFIG_TDLS
++	u8 i, j;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_txmgmt txmgmt;
++#ifdef CONFIG_WFD
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_WFD */
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	if (wrqu->data.length - 1 != 17) {
++		RTW_INFO("[%s] length:%d != 17\n", __FUNCTION__, (wrqu->data.length - 1));
++		return ret;
++	}
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	for (i = 0, j = 0 ; i < ETH_ALEN; i++, j += 3)
++		txmgmt.peer[i] = key_2char2num(*(extra + j), *(extra + j + 1));
++
++#ifdef CONFIG_WFD
++	if (_AES_ != padapter->securitypriv.dot11PrivacyAlgrthm) {
++		/* Weak Security situation with AP. */
++		if (0 == pwdinfo->wfd_tdls_weaksec)	{
++			/* Can't send the tdls setup request out!! */
++			RTW_INFO("[%s] Current link is not AES, "
++				"SKIP sending the tdls setup request!!\n", __FUNCTION__);
++		} else
++			issue_tdls_setup_req(padapter, &txmgmt, _TRUE);
++	} else
++#endif /* CONFIG_WFD */
++	{
++		issue_tdls_setup_req(padapter, &txmgmt, _TRUE);
++	}
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_teardown(struct net_device *dev,
++			     struct iw_request_info *info,
++			     union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	u8 i, j;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct sta_info *ptdls_sta = NULL;
++	struct tdls_txmgmt txmgmt;
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	if (wrqu->data.length - 1 != 17 && wrqu->data.length - 1 != 19) {
++		RTW_INFO("[%s] length:%d != 17 or 19\n",
++			 __FUNCTION__, (wrqu->data.length - 1));
++		return ret;
++	}
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	for (i = 0, j = 0; i < ETH_ALEN; i++, j += 3)
++		txmgmt.peer[i] = key_2char2num(*(extra + j), *(extra + j + 1));
++
++	ptdls_sta = rtw_get_stainfo(&(padapter->stapriv), txmgmt.peer);
++
++	if (ptdls_sta != NULL) {
++		txmgmt.status_code = _RSON_TDLS_TEAR_UN_RSN_;
++		if (wrqu->data.length - 1 == 19)
++			issue_tdls_teardown(padapter, &txmgmt, _FALSE);
++		else
++			issue_tdls_teardown(padapter, &txmgmt, _TRUE);
++	} else
++		RTW_INFO("TDLS peer not found\n");
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_discovery(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_txmgmt	txmgmt;
++	int i = 0, j = 0;
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	for (i = 0, j = 0 ; i < ETH_ALEN; i++, j += 3)
++		txmgmt.peer[i] = key_2char2num(*(extra + j), *(extra + j + 1));
++
++	issue_tdls_dis_req(padapter, &txmgmt);
++
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_ch_switch(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++	u8 i, j;
++	struct sta_info *ptdls_sta = NULL;
++	u8 take_care_iqk;
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	if (rtw_tdls_is_chsw_allowed(padapter) == _FALSE) {
++		RTW_INFO("TDLS channel switch is not allowed\n");
++		return ret;
++	}
++
++	for (i = 0, j = 0 ; i < ETH_ALEN; i++, j += 3)
++		pchsw_info->addr[i] = key_2char2num(*(extra + j), *(extra + j + 1));
++
++	ptdls_sta = rtw_get_stainfo(&padapter->stapriv, pchsw_info->addr);
++	if (ptdls_sta == NULL)
++		return ret;
++
++	pchsw_info->ch_sw_state |= TDLS_CH_SW_INITIATOR_STATE;
++
++	if (ptdls_sta != NULL) {
++		if (pchsw_info->off_ch_num == 0)
++			pchsw_info->off_ch_num = 11;
++	} else
++		RTW_INFO("TDLS peer not found\n");
++
++	rtw_pm_set_lps(padapter, PS_MODE_ACTIVE);
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_CH_SW_NEED_TO_TAKE_CARE_IQK_INFO, &take_care_iqk);
++	if (take_care_iqk == _TRUE) {
++		u8 central_chnl;
++		u8 bw_mode;
++
++		bw_mode = (pchsw_info->ch_offset) ? CHANNEL_WIDTH_40 : CHANNEL_WIDTH_20;
++		central_chnl = rtw_get_center_ch(pchsw_info->off_ch_num, bw_mode, pchsw_info->ch_offset);
++		if (rtw_hal_ch_sw_iqk_info_search(padapter, central_chnl, bw_mode) >= 0)
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_START);
++		else
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_PREPARE);
++	} else
++		rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_START);
++
++	/* issue_tdls_ch_switch_req(padapter, ptdls_sta); */
++	/* RTW_INFO("issue tdls ch switch req\n"); */
++
++#endif /* CONFIG_TDLS_CH_SW */
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_ch_switch_off(struct net_device *dev,
++				  struct iw_request_info *info,
++				  union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++	u8 i, j, mac_addr[ETH_ALEN];
++	struct sta_info *ptdls_sta = NULL;
++	struct tdls_txmgmt txmgmt;
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	if (rtw_tdls_is_chsw_allowed(padapter) == _FALSE) {
++		RTW_INFO("TDLS channel switch is not allowed\n");
++		return ret;
++	}
++
++	if (wrqu->data.length >= 17) {
++		for (i = 0, j = 0 ; i < ETH_ALEN; i++, j += 3)
++			mac_addr[i] = key_2char2num(*(extra + j), *(extra + j + 1));
++		ptdls_sta = rtw_get_stainfo(&padapter->stapriv, mac_addr);
++	}
++
++	if (ptdls_sta == NULL)
++		return ret;
++
++	rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_END_TO_BASE_CHNL);
++
++	pchsw_info->ch_sw_state &= ~(TDLS_CH_SW_INITIATOR_STATE |
++				     TDLS_CH_SWITCH_ON_STATE |
++				     TDLS_PEER_AT_OFF_STATE);
++	_rtw_memset(pchsw_info->addr, 0x00, ETH_ALEN);
++
++	ptdls_sta->ch_switch_time = 0;
++	ptdls_sta->ch_switch_timeout = 0;
++	_cancel_timer_ex(&ptdls_sta->ch_sw_timer);
++	_cancel_timer_ex(&ptdls_sta->delay_timer);
++	_cancel_timer_ex(&ptdls_sta->stay_on_base_chnl_timer);
++	_cancel_timer_ex(&ptdls_sta->ch_sw_monitor_timer);
++
++	rtw_pm_set_lps(padapter, PS_MODE_MAX);
++#endif /* CONFIG_TDLS_CH_SW */
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_dump_ch(struct net_device *dev,
++			    struct iw_request_info *info,
++			    union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	RTW_INFO("[%s] dump_stack:%s\n", __FUNCTION__, extra);
++
++	extra[wrqu->data.length] = 0x00;
++	ptdlsinfo->chsw_info.dump_stack = rtw_atoi(extra);
++
++	return ret;
++
++#endif
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_off_ch_num(struct net_device *dev,
++			       struct iw_request_info *info,
++			       union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	RTW_INFO("[%s] off_ch_num:%s\n", __FUNCTION__, extra);
++
++	extra[wrqu->data.length] = 0x00;
++	ptdlsinfo->chsw_info.off_ch_num = rtw_atoi(extra);
++
++	return ret;
++
++#endif
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_ch_offset(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	RTW_INFO("[%s] ch_offset:%s\n", __FUNCTION__, extra);
++
++	extra[wrqu->data.length] = 0x00;
++	switch (rtw_atoi(extra)) {
++	case SCA:
++		ptdlsinfo->chsw_info.ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++		break;
++
++	case SCB:
++		ptdlsinfo->chsw_info.ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++		break;
++
++	default:
++		ptdlsinfo->chsw_info.ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	}
++
++	return ret;
++
++#endif
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_pson(struct net_device *dev,
++			 struct iw_request_info *info,
++			 union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 i, j, mac_addr[ETH_ALEN];
++	struct sta_info *ptdls_sta = NULL;
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	for (i = 0, j = 0; i < ETH_ALEN; i++, j += 3)
++		mac_addr[i] = key_2char2num(*(extra + j), *(extra + j + 1));
++
++	ptdls_sta = rtw_get_stainfo(&padapter->stapriv, mac_addr);
++
++	issue_nulldata_to_TDLS_peer_STA(padapter, ptdls_sta->hwaddr, 1, 3, 500);
++
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_psoff(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 i, j, mac_addr[ETH_ALEN];
++	struct sta_info *ptdls_sta = NULL;
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	for (i = 0, j = 0; i < ETH_ALEN; i++, j += 3)
++		mac_addr[i] = key_2char2num(*(extra + j), *(extra + j + 1));
++
++	ptdls_sta = rtw_get_stainfo(&padapter->stapriv, mac_addr);
++
++	if (ptdls_sta)
++		issue_nulldata_to_TDLS_peer_STA(padapter, ptdls_sta->hwaddr, 0, 3, 500);
++
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_setip(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_WFD
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct wifi_display_info *pwfd_info = ptdlsinfo->wfd_info;
++	u8 i = 0, j = 0, k = 0, tag = 0;
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	while (i < 4) {
++		for (j = 0; j < 4; j++) {
++			if (*(extra + j + tag) == '.' || *(extra + j + tag) == '\0') {
++				if (j == 1)
++					pwfd_info->ip_address[i] = convert_ip_addr('0', '0', *(extra + (j - 1) + tag));
++				if (j == 2)
++					pwfd_info->ip_address[i] = convert_ip_addr('0', *(extra + (j - 2) + tag), *(extra + (j - 1) + tag));
++				if (j == 3)
++					pwfd_info->ip_address[i] = convert_ip_addr(*(extra + (j - 3) + tag), *(extra + (j - 2) + tag), *(extra + (j - 1) + tag));
++
++				tag += j + 1;
++				break;
++			}
++		}
++		i++;
++	}
++
++	RTW_INFO("[%s] Set IP = %u.%u.%u.%u\n", __FUNCTION__,
++		 ptdlsinfo->wfd_info->ip_address[0],
++		 ptdlsinfo->wfd_info->ip_address[1],
++		 ptdlsinfo->wfd_info->ip_address[2],
++		 ptdlsinfo->wfd_info->ip_address[3]);
++
++#endif /* CONFIG_WFD */
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_getip(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_WFD
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct wifi_display_info *pwfd_info = ptdlsinfo->wfd_info;
++
++	RTW_INFO("[%s]\n", __FUNCTION__);
++
++	sprintf(extra, "\n\n%u.%u.%u.%u\n",
++		pwfd_info->peer_ip_address[0], pwfd_info->peer_ip_address[1],
++		pwfd_info->peer_ip_address[2], pwfd_info->peer_ip_address[3]);
++
++	RTW_INFO("[%s] IP=%u.%u.%u.%u\n", __FUNCTION__,
++		 pwfd_info->peer_ip_address[0], pwfd_info->peer_ip_address[1],
++		 pwfd_info->peer_ip_address[2], pwfd_info->peer_ip_address[3]);
++
++	wrqu->data.length = strlen(extra);
++
++#endif /* CONFIG_WFD */
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_getport(struct net_device *dev,
++			    struct iw_request_info *info,
++			    union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_WFD
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct wifi_display_info *pwfd_info = ptdlsinfo->wfd_info;
++
++	RTW_INFO("[%s]\n", __FUNCTION__);
++
++	sprintf(extra, "\n\n%d\n", pwfd_info->peer_rtsp_ctrlport);
++	RTW_INFO("[%s] remote port = %d\n",
++		 __FUNCTION__, pwfd_info->peer_rtsp_ctrlport);
++
++	wrqu->data.length = strlen(extra);
++
++#endif /* CONFIG_WFD */
++#endif /* CONFIG_TDLS */
++
++	return ret;
++
++}
++
++/* WFDTDLS, for sigma test */
++static int rtw_tdls_dis_result(struct net_device *dev,
++			       struct iw_request_info *info,
++			       union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_WFD
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	RTW_INFO("[%s]\n", __FUNCTION__);
++
++	if (ptdlsinfo->dev_discovered == _TRUE) {
++		sprintf(extra, "\n\nDis=1\n");
++		ptdlsinfo->dev_discovered = _FALSE;
++	}
++
++	wrqu->data.length = strlen(extra);
++
++#endif /* CONFIG_WFD */
++#endif /* CONFIG_TDLS */
++
++	return ret;
++
++}
++
++/* WFDTDLS, for sigma test */
++static int rtw_wfd_tdls_status(struct net_device *dev,
++			       struct iw_request_info *info,
++			       union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	RTW_INFO("[%s]\n", __FUNCTION__);
++
++	sprintf(extra, "\nlink_established:%d\n"
++		"sta_cnt:%d\n"
++		"sta_maximum:%d\n"
++		"cur_channel:%d\n"
++		"tdls_enable:%d"
++#ifdef CONFIG_TDLS_CH_SW
++		"ch_sw_state:%08x\n"
++		"chsw_on:%d\n"
++		"off_ch_num:%d\n"
++		"cur_time:%d\n"
++		"ch_offset:%d\n"
++		"delay_swtich_back:%d"
++#endif
++		,
++		ptdlsinfo->link_established, ptdlsinfo->sta_cnt,
++		ptdlsinfo->sta_maximum, ptdlsinfo->cur_channel,
++		ptdlsinfo->tdls_enable
++#ifdef CONFIG_TDLS_CH_SW
++		,
++		ptdlsinfo->chsw_info.ch_sw_state,
++		ATOMIC_READ(&padapter->tdlsinfo.chsw_info.chsw_on),
++		ptdlsinfo->chsw_info.off_ch_num,
++		ptdlsinfo->chsw_info.cur_time,
++		ptdlsinfo->chsw_info.ch_offset,
++		ptdlsinfo->chsw_info.delay_switch_back
++#endif
++	       );
++
++	wrqu->data.length = strlen(extra);
++
++#endif /* CONFIG_TDLS */
++
++	return ret;
++
++}
++
++static int rtw_tdls_getsta(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++#ifdef CONFIG_TDLS
++	u8 i, j;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 addr[ETH_ALEN] = {0};
++	char charmac[17];
++	struct sta_info *ptdls_sta = NULL;
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__,
++		 (char *)wrqu->data.pointer, wrqu->data.length - 1);
++
++	if (copy_from_user(charmac, wrqu->data.pointer + 9, 17)) {
++		ret = -EFAULT;
++		goto exit;
++	}
++
++	RTW_INFO("[%s] %d, charmac:%s\n", __FUNCTION__, __LINE__, charmac);
++	for (i = 0, j = 0 ; i < ETH_ALEN; i++, j += 3)
++		addr[i] = key_2char2num(*(charmac + j), *(charmac + j + 1));
++
++	RTW_INFO("[%s] %d, charmac:%s, addr:"MAC_FMT"\n",
++		 __FUNCTION__, __LINE__, charmac, MAC_ARG(addr));
++	ptdls_sta = rtw_get_stainfo(&padapter->stapriv, addr);
++	if (ptdls_sta) {
++		sprintf(extra, "\n\ntdls_sta_state=0x%08x\n", ptdls_sta->tdls_sta_state);
++		RTW_INFO("\n\ntdls_sta_state=%d\n", ptdls_sta->tdls_sta_state);
++	} else {
++		sprintf(extra, "\n\nNot found this sta\n");
++		RTW_INFO("\n\nNot found this sta\n");
++	}
++	wrqu->data.length = strlen(extra);
++
++#endif /* CONFIG_TDLS */
++exit:
++	return ret;
++
++}
++
++static int rtw_tdls_get_best_ch(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++#ifdef CONFIG_FIND_BEST_CHANNEL
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	u32 i, best_channel_24G = 1, best_channel_5G = 36, index_24G = 0, index_5G = 0;
++
++	for (i = 0; pmlmeext->channel_set[i].ChannelNum != 0; i++) {
++		if (pmlmeext->channel_set[i].ChannelNum == 1)
++			index_24G = i;
++		if (pmlmeext->channel_set[i].ChannelNum == 36)
++			index_5G = i;
++	}
++
++	for (i = 0; pmlmeext->channel_set[i].ChannelNum != 0; i++) {
++		/* 2.4G */
++		if (pmlmeext->channel_set[i].ChannelNum == 6 || pmlmeext->channel_set[i].ChannelNum == 11) {
++			if (pmlmeext->channel_set[i].rx_count < pmlmeext->channel_set[index_24G].rx_count) {
++				index_24G = i;
++				best_channel_24G = pmlmeext->channel_set[i].ChannelNum;
++			}
++		}
++
++		/* 5G */
++		if (pmlmeext->channel_set[i].ChannelNum >= 36
++		    && pmlmeext->channel_set[i].ChannelNum < 140) {
++			/* Find primary channel */
++			if (((pmlmeext->channel_set[i].ChannelNum - 36) % 8 == 0)
++			    && (pmlmeext->channel_set[i].rx_count < pmlmeext->channel_set[index_5G].rx_count)) {
++				index_5G = i;
++				best_channel_5G = pmlmeext->channel_set[i].ChannelNum;
++			}
++		}
++
++		if (pmlmeext->channel_set[i].ChannelNum >= 149
++		    && pmlmeext->channel_set[i].ChannelNum < 165) {
++			/* Find primary channel */
++			if (((pmlmeext->channel_set[i].ChannelNum - 149) % 8 == 0)
++			    && (pmlmeext->channel_set[i].rx_count < pmlmeext->channel_set[index_5G].rx_count)) {
++				index_5G = i;
++				best_channel_5G = pmlmeext->channel_set[i].ChannelNum;
++			}
++		}
++#if 1 /* debug */
++		RTW_INFO("The rx cnt of channel %3d = %d\n",
++			 pmlmeext->channel_set[i].ChannelNum,
++			 pmlmeext->channel_set[i].rx_count);
++#endif
++	}
++
++	sprintf(extra, "\nbest_channel_24G = %d\n", best_channel_24G);
++	RTW_INFO("best_channel_24G = %d\n", best_channel_24G);
++
++	if (index_5G != 0) {
++		sprintf(extra, "best_channel_5G = %d\n", best_channel_5G);
++		RTW_INFO("best_channel_5G = %d\n", best_channel_5G);
++	}
++
++	wrqu->data.length = strlen(extra);
++
++#endif
++
++	return 0;
++
++}
++
++static int rtw_tdls(struct net_device *dev,
++		    struct iw_request_info *info,
++		    union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_INFO("[%s] extra = %s\n", __FUNCTION__, extra);
++
++	if (hal_chk_wl_func(padapter, WL_FUNC_TDLS) == _FALSE) {
++		RTW_INFO("Discard tdls oper since hal doesn't support tdls\n");
++		return 0;
++	}
++
++	if (padapter->tdlsinfo.tdls_enable == 0) {
++		RTW_INFO("tdls haven't enabled\n");
++		return 0;
++	}
++
++	/* WFD Sigma will use the tdls enable command to let the driver know we want to test the tdls now! */
++
++	if (hal_chk_wl_func(padapter, WL_FUNC_MIRACAST)) {
++		if (_rtw_memcmp(extra, "wfdenable=", 10)) {
++			wrqu->data.length -= 10;
++			rtw_wx_tdls_wfd_enable(dev, info, wrqu, &extra[10]);
++			return ret;
++		}
++	}
++
++	if (_rtw_memcmp(extra, "weaksec=", 8)) {
++		wrqu->data.length -= 8;
++		rtw_tdls_weaksec(dev, info, wrqu, &extra[8]);
++		return ret;
++	} else if (_rtw_memcmp(extra, "tdlsenable=", 11)) {
++		wrqu->data.length -= 11;
++		rtw_tdls_enable(dev, info, wrqu, &extra[11]);
++		return ret;
++	}
++
++	if (_rtw_memcmp(extra, "setup=", 6)) {
++		wrqu->data.length -= 6;
++		rtw_tdls_setup(dev, info, wrqu, &extra[6]);
++	} else if (_rtw_memcmp(extra, "tear=", 5)) {
++		wrqu->data.length -= 5;
++		rtw_tdls_teardown(dev, info, wrqu, &extra[5]);
++	} else if (_rtw_memcmp(extra, "dis=", 4)) {
++		wrqu->data.length -= 4;
++		rtw_tdls_discovery(dev, info, wrqu, &extra[4]);
++	} else if (_rtw_memcmp(extra, "swoff=", 6)) {
++		wrqu->data.length -= 6;
++		rtw_tdls_ch_switch_off(dev, info, wrqu, &extra[6]);
++	} else if (_rtw_memcmp(extra, "sw=", 3)) {
++		wrqu->data.length -= 3;
++		rtw_tdls_ch_switch(dev, info, wrqu, &extra[3]);
++	} else if (_rtw_memcmp(extra, "dumpstack=", 10)) {
++		wrqu->data.length -= 10;
++		rtw_tdls_dump_ch(dev, info, wrqu, &extra[10]);
++	} else if (_rtw_memcmp(extra, "offchnum=", 9)) {
++		wrqu->data.length -= 9;
++		rtw_tdls_off_ch_num(dev, info, wrqu, &extra[9]);
++	} else if (_rtw_memcmp(extra, "choffset=", 9)) {
++		wrqu->data.length -= 9;
++		rtw_tdls_ch_offset(dev, info, wrqu, &extra[9]);
++	} else if (_rtw_memcmp(extra, "pson=", 5)) {
++		wrqu->data.length -= 5;
++		rtw_tdls_pson(dev, info, wrqu, &extra[5]);
++	} else if (_rtw_memcmp(extra, "psoff=", 6)) {
++		wrqu->data.length -= 6;
++		rtw_tdls_psoff(dev, info, wrqu, &extra[6]);
++	}
++
++#ifdef CONFIG_WFD
++	if (hal_chk_wl_func(padapter, WL_FUNC_MIRACAST)) {
++		if (_rtw_memcmp(extra, "setip=", 6)) {
++			wrqu->data.length -= 6;
++			rtw_tdls_setip(dev, info, wrqu, &extra[6]);
++		} else if (_rtw_memcmp(extra, "tprobe=", 6))
++			issue_tunneled_probe_req((_adapter *)rtw_netdev_priv(dev));
++	}
++#endif /* CONFIG_WFD */
++
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++
++static int rtw_tdls_get(struct net_device *dev,
++			struct iw_request_info *info,
++			union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	RTW_INFO("[%s] extra = %s\n", __FUNCTION__, (char *) wrqu->data.pointer);
++
++	if (_rtw_memcmp(wrqu->data.pointer, "ip", 2))
++		rtw_tdls_getip(dev, info, wrqu, extra);
++	else if (_rtw_memcmp(wrqu->data.pointer, "port", 4))
++		rtw_tdls_getport(dev, info, wrqu, extra);
++	/* WFDTDLS, for sigma test */
++	else if (_rtw_memcmp(wrqu->data.pointer, "dis", 3))
++		rtw_tdls_dis_result(dev, info, wrqu, extra);
++	else if (_rtw_memcmp(wrqu->data.pointer, "status", 6))
++		rtw_wfd_tdls_status(dev, info, wrqu, extra);
++	else if (_rtw_memcmp(wrqu->data.pointer, "tdls_sta=", 9))
++		rtw_tdls_getsta(dev, info, wrqu, extra);
++	else if (_rtw_memcmp(wrqu->data.pointer, "best_ch", 7))
++		rtw_tdls_get_best_ch(dev, info, wrqu, extra);
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++
++
++
++
++#ifdef CONFIG_INTEL_WIDI
++static int rtw_widi_set(struct net_device *dev,
++			struct iw_request_info *info,
++			union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	process_intel_widi_cmd(padapter, extra);
++
++	return ret;
++}
++
++static int rtw_widi_set_probe_request(struct net_device *dev,
++				      struct iw_request_info *info,
++				      union iwreq_data *wrqu, char *extra)
++{
++	int	ret = 0;
++	u8	*pbuf = NULL;
++	_adapter	*padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	pbuf = rtw_malloc(sizeof(l2_msg_t));
++	if (pbuf) {
++		if (copy_from_user(pbuf, wrqu->data.pointer, wrqu->data.length))
++			ret = -EFAULT;
++		/* _rtw_memcpy(pbuf, wrqu->data.pointer, wrqu->data.length); */
++
++		if (wrqu->data.flags == 0)
++			intel_widi_wk_cmd(padapter, INTEL_WIDI_ISSUE_PROB_WK, pbuf, sizeof(l2_msg_t));
++		else if (wrqu->data.flags == 1)
++			rtw_set_wfd_rds_sink_info(padapter, (l2_msg_t *)pbuf);
++	}
++	return ret;
++}
++#endif /* CONFIG_INTEL_WIDI */
++
++#ifdef CONFIG_MAC_LOOPBACK_DRIVER
++
++#if defined(CONFIG_RTL8188E)
++#include <rtl8188e_hal.h>
++extern void rtl8188e_cal_txdesc_chksum(struct tx_desc *ptxdesc);
++#define cal_txdesc_chksum rtl8188e_cal_txdesc_chksum
++#ifdef CONFIG_SDIO_HCI || defined(CONFIG_GSPI_HCI)
++extern void rtl8188es_fill_default_txdesc(struct xmit_frame *pxmitframe, u8 *pbuf);
++#define fill_default_txdesc rtl8188es_fill_default_txdesc
++#endif /* CONFIG_SDIO_HCI */
++#endif /* CONFIG_RTL8188E */
++#if defined(CONFIG_RTL8723B)
++extern void rtl8723b_cal_txdesc_chksum(struct tx_desc *ptxdesc);
++#define cal_txdesc_chksum rtl8723b_cal_txdesc_chksum
++extern void rtl8723b_fill_default_txdesc(struct xmit_frame *pxmitframe, u8 *pbuf);
++#define fill_default_txdesc rtl8723b_fill_default_txdesc
++#endif /* CONFIG_RTL8723B */
++
++#if defined(CONFIG_RTL8703B)
++/* extern void rtl8703b_cal_txdesc_chksum(struct tx_desc *ptxdesc); */
++#define cal_txdesc_chksum rtl8703b_cal_txdesc_chksum
++/* extern void rtl8703b_fill_default_txdesc(struct xmit_frame *pxmitframe, u8 *pbuf); */
++#define fill_default_txdesc rtl8703b_fill_default_txdesc
++#endif /* CONFIG_RTL8703B */
++
++#if defined(CONFIG_RTL8723D)
++/* extern void rtl8723d_cal_txdesc_chksum(struct tx_desc *ptxdesc); */
++#define cal_txdesc_chksum rtl8723d_cal_txdesc_chksum
++/* extern void rtl8723d_fill_default_txdesc(struct xmit_frame *pxmitframe, u8 *pbuf); */
++#define fill_default_txdesc rtl8723d_fill_default_txdesc
++#endif /* CONFIG_RTL8723D */
++
++#if defined(CONFIG_RTL8192E)
++extern void rtl8192e_cal_txdesc_chksum(struct tx_desc *ptxdesc);
++#define cal_txdesc_chksum rtl8192e_cal_txdesc_chksum
++#ifdef CONFIG_SDIO_HCI || defined(CONFIG_GSPI_HCI)
++extern void rtl8192es_fill_default_txdesc(struct xmit_frame *pxmitframe, u8 *pbuf);
++#define fill_default_txdesc rtl8192es_fill_default_txdesc
++#endif /* CONFIG_SDIO_HCI */
++#endif /* CONFIG_RTL8192E */
++
++static s32 initLoopback(PADAPTER padapter)
++{
++	PLOOPBACKDATA ploopback;
++
++
++	if (padapter->ploopback == NULL) {
++		ploopback = (PLOOPBACKDATA)rtw_zmalloc(sizeof(LOOPBACKDATA));
++		if (ploopback == NULL)
++			return -ENOMEM;
++
++		_rtw_init_sema(&ploopback->sema, 0);
++		ploopback->bstop = _TRUE;
++		ploopback->cnt = 0;
++		ploopback->size = 300;
++		_rtw_memset(ploopback->msg, 0, sizeof(ploopback->msg));
++
++		padapter->ploopback = ploopback;
++	}
++
++	return 0;
++}
++
++static void freeLoopback(PADAPTER padapter)
++{
++	PLOOPBACKDATA ploopback;
++
++
++	ploopback = padapter->ploopback;
++	if (ploopback) {
++		rtw_mfree((u8 *)ploopback, sizeof(LOOPBACKDATA));
++		padapter->ploopback = NULL;
++	}
++}
++
++static s32 initpseudoadhoc(PADAPTER padapter)
++{
++	NDIS_802_11_NETWORK_INFRASTRUCTURE networkType;
++	s32 err;
++
++	networkType = Ndis802_11IBSS;
++	err = rtw_set_802_11_infrastructure_mode(padapter, networkType);
++	if (err == _FALSE)
++		return _FAIL;
++
++	err = rtw_setopmode_cmd(padapter, networkType, _TRUE);
++	if (err == _FAIL)
++		return _FAIL;
++
++	return _SUCCESS;
++}
++
++static s32 createpseudoadhoc(PADAPTER padapter)
++{
++	NDIS_802_11_AUTHENTICATION_MODE authmode;
++	struct mlme_priv *pmlmepriv;
++	NDIS_802_11_SSID *passoc_ssid;
++	WLAN_BSSID_EX *pdev_network;
++	u8 *pibss;
++	u8 ssid[] = "pseduo_ad-hoc";
++	s32 err;
++	_irqL irqL;
++
++
++	pmlmepriv = &padapter->mlmepriv;
++
++	authmode = Ndis802_11AuthModeOpen;
++	err = rtw_set_802_11_authentication_mode(padapter, authmode);
++	if (err == _FALSE)
++		return _FAIL;
++
++	passoc_ssid = &pmlmepriv->assoc_ssid;
++	_rtw_memset(passoc_ssid, 0, sizeof(NDIS_802_11_SSID));
++	passoc_ssid->SsidLength = sizeof(ssid) - 1;
++	_rtw_memcpy(passoc_ssid->Ssid, ssid, passoc_ssid->SsidLength);
++
++	pdev_network = &padapter->registrypriv.dev_network;
++	pibss = padapter->registrypriv.dev_network.MacAddress;
++	_rtw_memcpy(&pdev_network->Ssid, passoc_ssid, sizeof(NDIS_802_11_SSID));
++
++	rtw_update_registrypriv_dev_network(padapter);
++	rtw_generate_random_ibss(pibss);
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	/*pmlmepriv->fw_state = WIFI_ADHOC_MASTER_STATE;*/
++	init_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++#if 0
++	err = rtw_create_ibss_cmd(padapter, 0);
++	if (err == _FAIL)
++		return _FAIL;
++#else
++	{
++		struct wlan_network *pcur_network;
++		struct sta_info *psta;
++
++		/* 3  create a new psta */
++		pcur_network = &pmlmepriv->cur_network;
++
++		/* clear psta in the cur_network, if any */
++		psta = rtw_get_stainfo(&padapter->stapriv, pcur_network->network.MacAddress);
++		if (psta)
++			rtw_free_stainfo(padapter, psta);
++
++		psta = rtw_alloc_stainfo(&padapter->stapriv, pibss);
++		if (psta == NULL)
++			return _FAIL;
++
++		/* 3  join psudo AdHoc */
++		pcur_network->join_res = 1;
++		pcur_network->aid = psta->aid = 1;
++		_rtw_memcpy(&pcur_network->network, pdev_network, get_WLAN_BSSID_EX_sz(pdev_network));
++
++		/* set msr to WIFI_FW_ADHOC_STATE */
++		padapter->hw_port = HW_PORT0;
++		Set_MSR(padapter, WIFI_FW_ADHOC_STATE);
++
++	}
++#endif
++
++	return _SUCCESS;
++}
++
++static struct xmit_frame *createloopbackpkt(PADAPTER padapter, u32 size)
++{
++	struct xmit_priv *pxmitpriv;
++	struct xmit_frame *pframe;
++	struct xmit_buf *pxmitbuf;
++	struct pkt_attrib *pattrib;
++	struct tx_desc *desc;
++	u8 *pkt_start, *pkt_end, *ptr;
++	struct rtw_ieee80211_hdr *hdr;
++	s32 bmcast;
++	_irqL irqL;
++
++
++	if ((TXDESC_SIZE + WLANHDR_OFFSET + size) > MAX_XMITBUF_SZ)
++		return NULL;
++
++	pxmitpriv = &padapter->xmitpriv;
++	pframe = NULL;
++
++	/* 2 1. allocate xmit frame */
++	pframe = rtw_alloc_xmitframe(pxmitpriv);
++	if (pframe == NULL)
++		return NULL;
++	pframe->padapter = padapter;
++
++	/* 2 2. allocate xmit buffer */
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++	pxmitbuf = rtw_alloc_xmitbuf(pxmitpriv);
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++	if (pxmitbuf == NULL) {
++		rtw_free_xmitframe(pxmitpriv, pframe);
++		return NULL;
++	}
++
++	pframe->pxmitbuf = pxmitbuf;
++	pframe->buf_addr = pxmitbuf->pbuf;
++	pxmitbuf->priv_data = pframe;
++
++	/* 2 3. update_attrib() */
++	pattrib = &pframe->attrib;
++
++	/* init xmitframe attribute */
++	_rtw_memset(pattrib, 0, sizeof(struct pkt_attrib));
++
++	pattrib->ether_type = 0x8723;
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++	_rtw_memset(pattrib->dst, 0xFF, ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++
++	/*	pattrib->dhcp_pkt = 0;
++	 *	pattrib->pktlen = 0; */
++	pattrib->ack_policy = 0;
++	/*	pattrib->pkt_hdrlen = ETH_HLEN; */
++	pattrib->hdrlen = WLAN_HDR_A3_LEN;
++	pattrib->subtype = WIFI_DATA;
++	pattrib->priority = 0;
++	pattrib->qsel = pattrib->priority;
++	/*	do_queue_select(padapter, pattrib); */
++	pattrib->nr_frags = 1;
++	pattrib->encrypt = 0;
++	pattrib->bswenc = _FALSE;
++	pattrib->qos_en = _FALSE;
++
++	bmcast = IS_MCAST(pattrib->ra);
++	if (bmcast) {
++		pattrib->mac_id = 1;
++		pattrib->psta = rtw_get_bcmc_stainfo(padapter);
++	} else {
++		pattrib->mac_id = 0;
++		pattrib->psta = rtw_get_stainfo(&padapter->stapriv, get_bssid(&padapter->mlmepriv));
++	}
++
++	pattrib->pktlen = size;
++	pattrib->last_txcmdsz = pattrib->hdrlen + pattrib->pktlen;
++
++	/* 2 4. fill TX descriptor */
++	desc = (struct tx_desc *)pframe->buf_addr;
++	_rtw_memset(desc, 0, TXDESC_SIZE);
++
++	fill_default_txdesc(pframe, (u8 *)desc);
++
++	/* Hw set sequence number */
++	((PTXDESC)desc)->hwseq_en = 0; /* HWSEQ_EN, 0:disable, 1:enable
++ * ((PTXDESC)desc)->hwseq_sel = 0;  */ /* HWSEQ_SEL */
++
++	((PTXDESC)desc)->disdatafb = 1;
++
++	/* convert to little endian */
++	desc->txdw0 = cpu_to_le32(desc->txdw0);
++	desc->txdw1 = cpu_to_le32(desc->txdw1);
++	desc->txdw2 = cpu_to_le32(desc->txdw2);
++	desc->txdw3 = cpu_to_le32(desc->txdw3);
++	desc->txdw4 = cpu_to_le32(desc->txdw4);
++	desc->txdw5 = cpu_to_le32(desc->txdw5);
++	desc->txdw6 = cpu_to_le32(desc->txdw6);
++	desc->txdw7 = cpu_to_le32(desc->txdw7);
++#ifdef CONFIG_PCI_HCI
++	desc->txdw8 = cpu_to_le32(desc->txdw8);
++	desc->txdw9 = cpu_to_le32(desc->txdw9);
++	desc->txdw10 = cpu_to_le32(desc->txdw10);
++	desc->txdw11 = cpu_to_le32(desc->txdw11);
++	desc->txdw12 = cpu_to_le32(desc->txdw12);
++	desc->txdw13 = cpu_to_le32(desc->txdw13);
++	desc->txdw14 = cpu_to_le32(desc->txdw14);
++	desc->txdw15 = cpu_to_le32(desc->txdw15);
++#endif
++
++	cal_txdesc_chksum(desc);
++
++	/* 2 5. coalesce */
++	pkt_start = pframe->buf_addr + TXDESC_SIZE;
++	pkt_end = pkt_start + pattrib->last_txcmdsz;
++
++	/* 3 5.1. make wlan header, make_wlanhdr() */
++	hdr = (struct rtw_ieee80211_hdr *)pkt_start;
++	SetFrameSubType(&hdr->frame_ctl, pattrib->subtype);
++	_rtw_memcpy(hdr->addr1, pattrib->dst, ETH_ALEN); /* DA */
++	_rtw_memcpy(hdr->addr2, pattrib->src, ETH_ALEN); /* SA */
++	_rtw_memcpy(hdr->addr3, get_bssid(&padapter->mlmepriv), ETH_ALEN); /* RA, BSSID */
++
++	/* 3 5.2. make payload */
++	ptr = pkt_start + pattrib->hdrlen;
++	get_random_bytes(ptr, pkt_end - ptr);
++
++	pxmitbuf->len = TXDESC_SIZE + pattrib->last_txcmdsz;
++	pxmitbuf->ptail += pxmitbuf->len;
++
++	return pframe;
++}
++
++static void freeloopbackpkt(PADAPTER padapter, struct xmit_frame *pframe)
++{
++	struct xmit_priv *pxmitpriv;
++	struct xmit_buf *pxmitbuf;
++
++
++	pxmitpriv = &padapter->xmitpriv;
++	pxmitbuf = pframe->pxmitbuf;
++
++	rtw_free_xmitframe(pxmitpriv, pframe);
++	rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++}
++
++static void printdata(u8 *pbuf, u32 len)
++{
++	u32 i, val;
++
++
++	for (i = 0; (i + 4) <= len; i += 4) {
++		printk("%08X", *(u32 *)(pbuf + i));
++		if ((i + 4) & 0x1F)
++			printk(" ");
++		else
++			printk("\n");
++	}
++
++	if (i < len) {
++#ifdef CONFIG_BIG_ENDIAN
++		for (; i < len, i++)
++			printk("%02X", pbuf + i);
++#else /* CONFIG_LITTLE_ENDIAN */
++#if 0
++		val = 0;
++		_rtw_memcpy(&val, pbuf + i, len - i);
++		printk("%8X", val);
++#else
++		u8 str[9];
++		u8 n;
++		val = 0;
++		n = len - i;
++		_rtw_memcpy(&val, pbuf + i, n);
++		sprintf(str, "%08X", val);
++		n = (4 - n) * 2;
++		printk("%8s", str + n);
++#endif
++#endif /* CONFIG_LITTLE_ENDIAN */
++	}
++	printk("\n");
++}
++
++static u8 pktcmp(PADAPTER padapter, u8 *txbuf, u32 txsz, u8 *rxbuf, u32 rxsz)
++{
++	PHAL_DATA_TYPE phal;
++	struct recv_stat *prxstat;
++	struct recv_stat report;
++	PRXREPORT prxreport;
++	u32 drvinfosize;
++	u32 rxpktsize;
++	u8 fcssize;
++	u8 ret = _FALSE;
++
++	prxstat = (struct recv_stat *)rxbuf;
++	report.rxdw0 = le32_to_cpu(prxstat->rxdw0);
++	report.rxdw1 = le32_to_cpu(prxstat->rxdw1);
++	report.rxdw2 = le32_to_cpu(prxstat->rxdw2);
++	report.rxdw3 = le32_to_cpu(prxstat->rxdw3);
++	report.rxdw4 = le32_to_cpu(prxstat->rxdw4);
++	report.rxdw5 = le32_to_cpu(prxstat->rxdw5);
++
++	prxreport = (PRXREPORT)&report;
++	drvinfosize = prxreport->drvinfosize << 3;
++	rxpktsize = prxreport->pktlen;
++
++	phal = GET_HAL_DATA(padapter);
++	if (phal->ReceiveConfig & RCR_APPFCS)
++		fcssize = IEEE80211_FCS_LEN;
++	else
++		fcssize = 0;
++
++	if ((txsz - TXDESC_SIZE) != (rxpktsize - fcssize)) {
++		RTW_INFO("%s: ERROR! size not match tx/rx=%d/%d !\n",
++			 __func__, txsz - TXDESC_SIZE, rxpktsize - fcssize);
++		ret = _FALSE;
++	} else {
++		ret = _rtw_memcmp(txbuf + TXDESC_SIZE, \
++				  rxbuf + RXDESC_SIZE + drvinfosize, \
++				  txsz - TXDESC_SIZE);
++		if (ret == _FALSE)
++			RTW_INFO("%s: ERROR! pkt content mismatch!\n", __func__);
++	}
++
++	if (ret == _FALSE) {
++		RTW_INFO("\n%s: TX PKT total=%d, desc=%d, content=%d\n",
++			 __func__, txsz, TXDESC_SIZE, txsz - TXDESC_SIZE);
++		RTW_INFO("%s: TX DESC size=%d\n", __func__, TXDESC_SIZE);
++		printdata(txbuf, TXDESC_SIZE);
++		RTW_INFO("%s: TX content size=%d\n", __func__, txsz - TXDESC_SIZE);
++		printdata(txbuf + TXDESC_SIZE, txsz - TXDESC_SIZE);
++
++		RTW_INFO("\n%s: RX PKT read=%d offset=%d(%d,%d) content=%d\n",
++			__func__, rxsz, RXDESC_SIZE + drvinfosize, RXDESC_SIZE, drvinfosize, rxpktsize);
++		if (rxpktsize != 0) {
++			RTW_INFO("%s: RX DESC size=%d\n", __func__, RXDESC_SIZE);
++			printdata(rxbuf, RXDESC_SIZE);
++			RTW_INFO("%s: RX drvinfo size=%d\n", __func__, drvinfosize);
++			printdata(rxbuf + RXDESC_SIZE, drvinfosize);
++			RTW_INFO("%s: RX content size=%d\n", __func__, rxpktsize);
++			printdata(rxbuf + RXDESC_SIZE + drvinfosize, rxpktsize);
++		} else {
++			RTW_INFO("%s: RX data size=%d\n", __func__, rxsz);
++			printdata(rxbuf, rxsz);
++		}
++	}
++
++	return ret;
++}
++
++thread_return lbk_thread(thread_context context)
++{
++	s32 err;
++	PADAPTER padapter;
++	PLOOPBACKDATA ploopback;
++	struct xmit_frame *pxmitframe;
++	u32 cnt, ok, fail, headerlen;
++	u32 pktsize;
++	u32 ff_hwaddr;
++
++
++	padapter = (PADAPTER)context;
++	ploopback = padapter->ploopback;
++	if (ploopback == NULL)
++		return -1;
++	cnt = 0;
++	ok = 0;
++	fail = 0;
++
++	daemonize("%s", "RTW_LBK_THREAD");
++	allow_signal(SIGTERM);
++
++	do {
++		if (ploopback->size == 0) {
++			get_random_bytes(&pktsize, 4);
++			pktsize = (pktsize % 1535) + 1; /* 1~1535 */
++		} else
++			pktsize = ploopback->size;
++
++		pxmitframe = createloopbackpkt(padapter, pktsize);
++		if (pxmitframe == NULL) {
++			sprintf(ploopback->msg, "loopback FAIL! 3. create Packet FAIL!");
++			break;
++		}
++
++		ploopback->txsize = TXDESC_SIZE + pxmitframe->attrib.last_txcmdsz;
++		_rtw_memcpy(ploopback->txbuf, pxmitframe->buf_addr, ploopback->txsize);
++		ff_hwaddr = rtw_get_ff_hwaddr(pxmitframe);
++		cnt++;
++		RTW_INFO("%s: wirte port cnt=%d size=%d\n", __func__, cnt, ploopback->txsize);
++		pxmitframe->pxmitbuf->pdata = ploopback->txbuf;
++		rtw_write_port(padapter, ff_hwaddr, ploopback->txsize, (u8 *)pxmitframe->pxmitbuf);
++
++		/* wait for rx pkt */
++		_rtw_down_sema(&ploopback->sema);
++
++		err = pktcmp(padapter, ploopback->txbuf, ploopback->txsize, ploopback->rxbuf, ploopback->rxsize);
++		if (err == _TRUE)
++			ok++;
++		else
++			fail++;
++
++		ploopback->txsize = 0;
++		_rtw_memset(ploopback->txbuf, 0, 0x8000);
++		ploopback->rxsize = 0;
++		_rtw_memset(ploopback->rxbuf, 0, 0x8000);
++
++		freeloopbackpkt(padapter, pxmitframe);
++		pxmitframe = NULL;
++
++		if (signal_pending(current))
++			flush_signals(current);
++
++		if ((ploopback->bstop == _TRUE) ||
++		    ((ploopback->cnt != 0) && (ploopback->cnt == cnt))) {
++			u32 ok_rate, fail_rate, all;
++			all = cnt;
++			ok_rate = (ok * 100) / all;
++			fail_rate = (fail * 100) / all;
++			sprintf(ploopback->msg, \
++				"loopback result: ok=%d%%(%d/%d),error=%d%%(%d/%d)", \
++				ok_rate, ok, all, fail_rate, fail, all);
++			break;
++		}
++	} while (1);
++
++	ploopback->bstop = _TRUE;
++
++	thread_exit();
++}
++
++static void loopbackTest(PADAPTER padapter, u32 cnt, u32 size, u8 *pmsg)
++{
++	PLOOPBACKDATA ploopback;
++	u32 len;
++	s32 err;
++
++
++	ploopback = padapter->ploopback;
++
++	if (ploopback) {
++		if (ploopback->bstop == _FALSE) {
++			ploopback->bstop = _TRUE;
++			_rtw_up_sema(&ploopback->sema);
++		}
++		len = 0;
++		do {
++			len = strlen(ploopback->msg);
++			if (len)
++				break;
++			rtw_msleep_os(1);
++		} while (1);
++		_rtw_memcpy(pmsg, ploopback->msg, len + 1);
++		freeLoopback(padapter);
++
++		return;
++	}
++
++	/* disable dynamic algorithm	 */
++	rtw_phydm_ability_backup(padapter);
++	rtw_phydm_func_disable_all(padapter);
++
++	/* create pseudo ad-hoc connection */
++	err = initpseudoadhoc(padapter);
++	if (err == _FAIL) {
++		sprintf(pmsg, "loopback FAIL! 1.1 init ad-hoc FAIL!");
++		return;
++	}
++
++	err = createpseudoadhoc(padapter);
++	if (err == _FAIL) {
++		sprintf(pmsg, "loopback FAIL! 1.2 create ad-hoc master FAIL!");
++		return;
++	}
++
++	err = initLoopback(padapter);
++	if (err) {
++		sprintf(pmsg, "loopback FAIL! 2. init FAIL! error code=%d", err);
++		return;
++	}
++
++	ploopback = padapter->ploopback;
++
++	ploopback->bstop = _FALSE;
++	ploopback->cnt = cnt;
++	ploopback->size = size;
++	ploopback->lbkthread = kthread_run(lbk_thread, padapter, "RTW_LBK_THREAD");
++	if (IS_ERR(padapter->lbkthread)) {
++		freeLoopback(padapter);
++		sprintf(pmsg, "loopback start FAIL! cnt=%d", cnt);
++		return;
++	}
++
++	sprintf(pmsg, "loopback start! cnt=%d", cnt);
++}
++#endif /* CONFIG_MAC_LOOPBACK_DRIVER */
++
++static int rtw_test(
++	struct net_device *dev,
++	struct iw_request_info *info,
++	union iwreq_data *wrqu, char *extra)
++{
++	u32 len;
++	u8 *pbuf, *pch;
++	char *ptmp;
++	u8 *delim = ",";
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++
++	RTW_INFO("+%s\n", __func__);
++	len = wrqu->data.length;
++
++	pbuf = (u8 *)rtw_zmalloc(len);
++	if (pbuf == NULL) {
++		RTW_INFO("%s: no memory!\n", __func__);
++		return -ENOMEM;
++	}
++
++	if (copy_from_user(pbuf, wrqu->data.pointer, len)) {
++		rtw_mfree(pbuf, len);
++		RTW_INFO("%s: copy from user fail!\n", __func__);
++		return -EFAULT;
++	}
++	RTW_INFO("%s: string=\"%s\"\n", __func__, pbuf);
++
++	ptmp = (char *)pbuf;
++	pch = strsep(&ptmp, delim);
++	if ((pch == NULL) || (strlen(pch) == 0)) {
++		rtw_mfree(pbuf, len);
++		RTW_INFO("%s: parameter error(level 1)!\n", __func__);
++		return -EFAULT;
++	}
++
++#ifdef CONFIG_MAC_LOOPBACK_DRIVER
++	if (strcmp(pch, "loopback") == 0) {
++		s32 cnt = 0;
++		u32 size = 64;
++
++		pch = strsep(&ptmp, delim);
++		if ((pch == NULL) || (strlen(pch) == 0)) {
++			rtw_mfree(pbuf, len);
++			RTW_INFO("%s: parameter error(level 2)!\n", __func__);
++			return -EFAULT;
++		}
++
++		sscanf(pch, "%d", &cnt);
++		RTW_INFO("%s: loopback cnt=%d\n", __func__, cnt);
++
++		pch = strsep(&ptmp, delim);
++		if ((pch == NULL) || (strlen(pch) == 0)) {
++			rtw_mfree(pbuf, len);
++			RTW_INFO("%s: parameter error(level 2)!\n", __func__);
++			return -EFAULT;
++		}
++
++		sscanf(pch, "%d", &size);
++		RTW_INFO("%s: loopback size=%d\n", __func__, size);
++
++		loopbackTest(padapter, cnt, size, extra);
++		wrqu->data.length = strlen(extra) + 1;
++
++		goto free_buf;
++	}
++#endif
++
++
++#ifdef CONFIG_BT_COEXIST
++	if (strcmp(pch, "bton") == 0) {
++		rtw_btcoex_SetManualControl(padapter, _FALSE);
++		goto free_buf;
++	} else if (strcmp(pch, "btoff") == 0) {
++		rtw_btcoex_SetManualControl(padapter, _TRUE);
++		goto free_buf;
++	}
++#endif
++
++	if (strcmp(pch, "h2c") == 0) {
++		u8 param[8];
++		u8 count = 0;
++		u32 tmp;
++		u8 i;
++		u32 pos;
++		u8 ret;
++
++		do {
++			pch = strsep(&ptmp, delim);
++			if ((pch == NULL) || (strlen(pch) == 0))
++				break;
++
++			sscanf(pch, "%x", &tmp);
++			param[count++] = (u8)tmp;
++		} while (count < 8);
++
++		if (count == 0) {
++			rtw_mfree(pbuf, len);
++			RTW_INFO("%s: parameter error(level 2)!\n", __func__);
++			return -EFAULT;
++		}
++
++		ret = rtw_test_h2c_cmd(padapter, param, count);
++
++		pos = sprintf(extra, "H2C ID=0x%02x content=", param[0]);
++		for (i = 1; i < count; i++)
++			pos += sprintf(extra + pos, "%02x,", param[i]);
++		extra[pos] = 0;
++		pos--;
++		pos += sprintf(extra + pos, " %s", ret == _FAIL ? "FAIL" : "OK");
++
++		wrqu->data.length = strlen(extra) + 1;
++
++		goto free_buf;
++	}
++
++free_buf:
++	rtw_mfree(pbuf, len);
++	return 0;
++}
++
++static iw_handler rtw_handlers[] = {
++	NULL,					/* SIOCSIWCOMMIT */
++	rtw_wx_get_name,		/* SIOCGIWNAME */
++	dummy,					/* SIOCSIWNWID */
++	dummy,					/* SIOCGIWNWID */
++	rtw_wx_set_freq,		/* SIOCSIWFREQ */
++	rtw_wx_get_freq,		/* SIOCGIWFREQ */
++	rtw_wx_set_mode,		/* SIOCSIWMODE */
++	rtw_wx_get_mode,		/* SIOCGIWMODE */
++	dummy,					/* SIOCSIWSENS */
++	rtw_wx_get_sens,		/* SIOCGIWSENS */
++	NULL,					/* SIOCSIWRANGE */
++	rtw_wx_get_range,		/* SIOCGIWRANGE */
++	rtw_wx_set_priv,		/* SIOCSIWPRIV */
++	NULL,					/* SIOCGIWPRIV */
++	NULL,					/* SIOCSIWSTATS */
++	NULL,					/* SIOCGIWSTATS */
++	dummy,					/* SIOCSIWSPY */
++	dummy,					/* SIOCGIWSPY */
++	NULL,					/* SIOCGIWTHRSPY */
++	NULL,					/* SIOCWIWTHRSPY */
++	rtw_wx_set_wap,		/* SIOCSIWAP */
++	rtw_wx_get_wap,		/* SIOCGIWAP */
++	rtw_wx_set_mlme,		/* request MLME operation; uses struct iw_mlme */
++	dummy,					/* SIOCGIWAPLIST -- depricated */
++	rtw_wx_set_scan,		/* SIOCSIWSCAN */
++	rtw_wx_get_scan,		/* SIOCGIWSCAN */
++	rtw_wx_set_essid,		/* SIOCSIWESSID */
++	rtw_wx_get_essid,		/* SIOCGIWESSID */
++	dummy,					/* SIOCSIWNICKN */
++	rtw_wx_get_nick,		/* SIOCGIWNICKN */
++	NULL,					/* -- hole -- */
++	NULL,					/* -- hole -- */
++	rtw_wx_set_rate,		/* SIOCSIWRATE */
++	rtw_wx_get_rate,		/* SIOCGIWRATE */
++	rtw_wx_set_rts,			/* SIOCSIWRTS */
++	rtw_wx_get_rts,			/* SIOCGIWRTS */
++	rtw_wx_set_frag,		/* SIOCSIWFRAG */
++	rtw_wx_get_frag,		/* SIOCGIWFRAG */
++	dummy,					/* SIOCSIWTXPOW */
++	dummy,					/* SIOCGIWTXPOW */
++	dummy,					/* SIOCSIWRETRY */
++	rtw_wx_get_retry,		/* SIOCGIWRETRY */
++	rtw_wx_set_enc,			/* SIOCSIWENCODE */
++	rtw_wx_get_enc,			/* SIOCGIWENCODE */
++	dummy,					/* SIOCSIWPOWER */
++	rtw_wx_get_power,		/* SIOCGIWPOWER */
++	NULL,					/*---hole---*/
++	NULL,					/*---hole---*/
++	rtw_wx_set_gen_ie,		/* SIOCSIWGENIE */
++	NULL,					/* SIOCGWGENIE */
++	rtw_wx_set_auth,		/* SIOCSIWAUTH */
++	NULL,					/* SIOCGIWAUTH */
++	rtw_wx_set_enc_ext,		/* SIOCSIWENCODEEXT */
++	NULL,					/* SIOCGIWENCODEEXT */
++	rtw_wx_set_pmkid,		/* SIOCSIWPMKSA */
++	NULL,					/*---hole---*/
++};
++
++
++static const struct iw_priv_args rtw_private_args[] = {
++	{
++		SIOCIWFIRSTPRIV + 0x0,
++		IW_PRIV_TYPE_CHAR | 0x7FF, 0, "write"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x1,
++		IW_PRIV_TYPE_CHAR | 0x7FF,
++		IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_FIXED | IFNAMSIZ, "read"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x2, 0, 0, "driver_ext"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x3, 0, 0, "mp_ioctl"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x4,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, 0, "apinfo"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x5,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 2, 0, "setpid"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x6,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, 0, "wps_start"
++	},
++	/* for PLATFORM_MT53XX	 */
++	{
++		SIOCIWFIRSTPRIV + 0x7,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, 0, "get_sensitivity"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x8,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, 0, "wps_prob_req_ie"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x9,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, 0, "wps_assoc_req_ie"
++	},
++
++	/* for RTK_DMP_PLATFORM	 */
++	{
++		SIOCIWFIRSTPRIV + 0xA,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, 0, "channel_plan"
++	},
++
++	{
++		SIOCIWFIRSTPRIV + 0xB,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 2, 0, "dbg"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0xC,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 3, 0, "rfw"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0xD,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 2, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_FIXED | IFNAMSIZ, "rfr"
++	},
++#if 0
++	{
++		SIOCIWFIRSTPRIV + 0xE, 0, 0, "wowlan_ctrl"
++	},
++#endif
++	{
++		SIOCIWFIRSTPRIV + 0x10,
++		IW_PRIV_TYPE_CHAR | 1024, 0, "p2p_set"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x11,
++		IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK , "p2p_get"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x12, 0, 0, "NULL"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x13,
++		IW_PRIV_TYPE_CHAR | 64, IW_PRIV_TYPE_CHAR | 64 , "p2p_get2"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x14,
++		IW_PRIV_TYPE_CHAR  | 64, 0, "tdls"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x15,
++		IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | 1024 , "tdls_get"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x16,
++		IW_PRIV_TYPE_CHAR | 64, 0, "pm_set"
++	},
++
++	{SIOCIWFIRSTPRIV + 0x18, IW_PRIV_TYPE_CHAR | IFNAMSIZ , 0 , "rereg_nd_name"},
++#ifdef CONFIG_MP_INCLUDED
++	{SIOCIWFIRSTPRIV + 0x1A, IW_PRIV_TYPE_CHAR | 1024, 0,  "NULL"},
++	{SIOCIWFIRSTPRIV + 0x1B, IW_PRIV_TYPE_CHAR | 128, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "NULL"},
++#else
++	{SIOCIWFIRSTPRIV + 0x1A, IW_PRIV_TYPE_CHAR | 1024, 0, "efuse_set"},
++	{SIOCIWFIRSTPRIV + 0x1B, IW_PRIV_TYPE_CHAR | 128, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "efuse_get"},
++#endif
++	{
++		SIOCIWFIRSTPRIV + 0x1D,
++		IW_PRIV_TYPE_CHAR | 40, IW_PRIV_TYPE_CHAR | 0x7FF, "test"
++	},
++
++#ifdef CONFIG_INTEL_WIDI
++	{
++		SIOCIWFIRSTPRIV + 0x1E,
++		IW_PRIV_TYPE_CHAR | 1024, 0, "widi_set"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x1F,
++		IW_PRIV_TYPE_CHAR | 128, 0, "widi_prob_req"
++	},
++#endif /* CONFIG_INTEL_WIDI */
++
++	{ SIOCIWFIRSTPRIV + 0x0E, IW_PRIV_TYPE_CHAR | 1024, 0 , ""},  /* set  */
++	{ SIOCIWFIRSTPRIV + 0x0F, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK , ""},/* get
++ * --- sub-ioctls definitions --- */
++
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++	{ VENDOR_IE_SET, IW_PRIV_TYPE_CHAR | 1024 , 0 , "vendor_ie_set" },
++	{ VENDOR_IE_GET, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "vendor_ie_get" },
++#endif
++#if defined(CONFIG_RTL8723B)
++	{ MP_SetBT, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_setbt" },
++	{ MP_DISABLE_BT_COEXIST, IW_PRIV_TYPE_CHAR | 1024, 0, "mp_disa_btcoex"},
++#endif
++#ifdef CONFIG_WOWLAN
++	{ MP_WOW_ENABLE , IW_PRIV_TYPE_CHAR | 1024, 0, "wow_mode" },
++	{ MP_WOW_SET_PATTERN , IW_PRIV_TYPE_CHAR | 1024, 0, "wow_set_pattern" },
++#endif
++#ifdef CONFIG_AP_WOWLAN
++	{ MP_AP_WOW_ENABLE , IW_PRIV_TYPE_CHAR | 1024, 0, "ap_wow_mode" }, /* set  */
++#endif
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++	{ MP_SD_IREAD, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "sd_iread" },
++	{ MP_SD_IWRITE, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "sd_iwrite" },
++#endif
++};
++
++
++static const struct iw_priv_args rtw_mp_private_args[] = {
++	/* --- sub-ioctls definitions --- */
++#ifdef CONFIG_MP_INCLUDED
++	{ MP_START , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_start" },
++	{ MP_PHYPARA, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_phypara" },
++	{ MP_STOP , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_stop" },
++	{ MP_CHANNEL , IW_PRIV_TYPE_CHAR | 1024 , IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_channel" },
++	{ MP_BANDWIDTH , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_bandwidth"},
++	{ MP_RATE , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_rate" },
++	{ MP_RESET_STATS , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_reset_stats"},
++	{ MP_QUERY , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK , "mp_query"},
++	{ READ_REG , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "read_reg" },
++	{ MP_RATE , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_rate" },
++	{ READ_RF , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "read_rf" },
++	{ MP_PSD , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_psd"},
++	{ MP_DUMP, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_dump" },
++	{ MP_TXPOWER , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_txpower"},
++	{ MP_ANT_TX , IW_PRIV_TYPE_CHAR | 1024,  IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_ant_tx"},
++	{ MP_ANT_RX , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_ant_rx"},
++	{ WRITE_REG , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "write_reg" },
++	{ WRITE_RF , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "write_rf" },
++	{ MP_CTX , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_ctx"},
++	{ MP_ARX , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_arx"},
++	{ MP_THER , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_ther"},
++	{ EFUSE_SET, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "efuse_set" },
++	{ EFUSE_GET, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "efuse_get" },
++	{ MP_PWRTRK , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_pwrtrk"},
++	{ MP_QueryDrvStats, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_drvquery" },
++	{ MP_IOCTL, IW_PRIV_TYPE_CHAR | 1024, 0, "mp_ioctl"},
++	{ MP_SetRFPathSwh, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_setrfpath" },
++	{ MP_PwrCtlDM, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_pwrctldm" },
++	{ MP_GET_TXPOWER_INX, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_get_txpower" },
++	{ MP_GETVER, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_priv_ver" },
++	{ MP_MON, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_mon" },
++	{ EFUSE_MASK, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "efuse_mask" },
++	{ EFUSE_FILE, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "efuse_file" },
++	{ MP_TX, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_tx" },
++	{ MP_RX, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_rx" },
++	{ MP_HW_TX_MODE, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_hxtx" },
++	{ CTA_TEST, IW_PRIV_TYPE_CHAR | 1024, 0, "cta_test"},
++	{ MP_IQK, IW_PRIV_TYPE_CHAR | 1024, 0, "mp_iqk"},
++	{ MP_LCK, IW_PRIV_TYPE_CHAR | 1024, 0, "mp_lck"},
++
++#endif /* CONFIG_MP_INCLUDED */
++};
++
++static iw_handler rtw_private_handler[] = {
++	rtw_wx_write32,					/* 0x00 */
++	rtw_wx_read32,					/* 0x01 */
++	rtw_drvext_hdl,					/* 0x02 */
++#ifdef MP_IOCTL_HDL
++	rtw_mp_ioctl_hdl,				/* 0x03 */
++#else
++	rtw_wx_priv_null,
++#endif
++	/* for MM DTV platform */
++	rtw_get_ap_info,					/* 0x04 */
++
++	rtw_set_pid,						/* 0x05 */
++	rtw_wps_start,					/* 0x06 */
++
++	/* for PLATFORM_MT53XX */
++	rtw_wx_get_sensitivity,			/* 0x07 */
++	rtw_wx_set_mtk_wps_probe_ie,	/* 0x08 */
++	rtw_wx_set_mtk_wps_ie,			/* 0x09 */
++
++	/* for RTK_DMP_PLATFORM
++	 * Set Channel depend on the country code */
++	rtw_wx_set_channel_plan,		/* 0x0A */
++
++	rtw_dbg_port,					/* 0x0B */
++	rtw_wx_write_rf,					/* 0x0C */
++	rtw_wx_read_rf,					/* 0x0D */
++
++	rtw_priv_set,					/*0x0E*/
++	rtw_priv_get,					/*0x0F*/
++
++	rtw_p2p_set,					/* 0x10 */
++	rtw_p2p_get,					/* 0x11 */
++	NULL,							/* 0x12 */
++	rtw_p2p_get2,					/* 0x13 */
++
++	rtw_tdls,						/* 0x14 */
++	rtw_tdls_get,					/* 0x15 */
++
++	rtw_pm_set,						/* 0x16 */
++	rtw_wx_priv_null,				/* 0x17 */
++	rtw_rereg_nd_name,				/* 0x18 */
++	rtw_wx_priv_null,				/* 0x19 */
++#ifdef CONFIG_MP_INCLUDED
++	rtw_wx_priv_null,				/* 0x1A */
++	rtw_wx_priv_null,				/* 0x1B */
++#else
++	rtw_mp_efuse_set,				/* 0x1A */
++	rtw_mp_efuse_get,				/* 0x1B */
++#endif
++	NULL,							/* 0x1C is reserved for hostapd */
++	rtw_test,						/* 0x1D */
++#ifdef CONFIG_INTEL_WIDI
++	rtw_widi_set,					/* 0x1E */
++	rtw_widi_set_probe_request,		/* 0x1F */
++#endif /* CONFIG_INTEL_WIDI */
++};
++
++#if WIRELESS_EXT >= 17
++static struct iw_statistics *rtw_get_wireless_stats(struct net_device *dev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_statistics *piwstats = &padapter->iwstats;
++	int tmp_level = 0;
++	int tmp_qual = 0;
++	int tmp_noise = 0;
++
++	if (check_fwstate(&padapter->mlmepriv, _FW_LINKED) != _TRUE) {
++		piwstats->qual.qual = 0;
++		piwstats->qual.level = 0;
++		piwstats->qual.noise = 0;
++		/* RTW_INFO("No link  level:%d, qual:%d, noise:%d\n", tmp_level, tmp_qual, tmp_noise); */
++	} else {
++#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++		tmp_level = translate_percentage_to_dbm(padapter->recvpriv.signal_strength);
++#else
++#ifdef CONFIG_SIGNAL_SCALE_MAPPING
++		tmp_level = padapter->recvpriv.signal_strength;
++#else
++		{
++			/* Do signal scale mapping when using percentage as the unit of signal strength, since the scale mapping is skipped in odm */
++
++			HAL_DATA_TYPE *pHal = GET_HAL_DATA(padapter);
++
++			tmp_level = (u8)odm_SignalScaleMapping(&pHal->odmpriv, padapter->recvpriv.signal_strength);
++		}
++#endif
++#endif
++
++		tmp_qual = padapter->recvpriv.signal_qual;
++		rtw_get_noise(padapter);
++		tmp_noise = padapter->recvpriv.noise;
++		/* RTW_INFO("level:%d, qual:%d, noise:%d, rssi (%d)\n", tmp_level, tmp_qual, tmp_noise,padapter->recvpriv.rssi); */
++
++		piwstats->qual.level = tmp_level;
++		piwstats->qual.qual = tmp_qual;
++		piwstats->qual.noise = tmp_noise;
++	}
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 14))
++	piwstats->qual.updated = IW_QUAL_ALL_UPDATED ;/* |IW_QUAL_DBM; */
++#else
++#ifdef RTK_DMP_PLATFORM
++	/* IW_QUAL_DBM= 0x8, if driver use this flag, wireless extension will show value of dbm. */
++	/* remove this flag for show percentage 0~100 */
++	piwstats->qual.updated = 0x07;
++#else
++	piwstats->qual.updated = 0x0f;
++#endif
++#endif
++
++#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++	piwstats->qual.updated = piwstats->qual.updated | IW_QUAL_DBM;
++#endif
++
++	return &padapter->iwstats;
++}
++#endif
++
++#ifdef CONFIG_WIRELESS_EXT
++struct iw_handler_def rtw_handlers_def = {
++	.standard = rtw_handlers,
++	.num_standard = sizeof(rtw_handlers) / sizeof(iw_handler),
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 33)) || defined(CONFIG_WEXT_PRIV)
++	.private = rtw_private_handler,
++	.private_args = (struct iw_priv_args *)rtw_private_args,
++	.num_private = sizeof(rtw_private_handler) / sizeof(iw_handler),
++	.num_private_args = sizeof(rtw_private_args) / sizeof(struct iw_priv_args),
++#endif
++#if WIRELESS_EXT >= 17
++	.get_wireless_stats = rtw_get_wireless_stats,
++#endif
++};
++#endif
++
++/* copy from net/wireless/wext.c start
++ * ----------------------------------------------------------------
++ *
++ * Calculate size of private arguments
++ */
++static const char iw_priv_type_size[] = {
++	0,                              /* IW_PRIV_TYPE_NONE */
++	1,                              /* IW_PRIV_TYPE_BYTE */
++	1,                              /* IW_PRIV_TYPE_CHAR */
++	0,                              /* Not defined */
++	sizeof(__u32),                  /* IW_PRIV_TYPE_INT */
++	sizeof(struct iw_freq),         /* IW_PRIV_TYPE_FLOAT */
++	sizeof(struct sockaddr),        /* IW_PRIV_TYPE_ADDR */
++	0,                              /* Not defined */
++};
++
++static int get_priv_size(__u16 args)
++{
++	int num = args & IW_PRIV_SIZE_MASK;
++	int type = (args & IW_PRIV_TYPE_MASK) >> 12;
++
++	return num * iw_priv_type_size[type];
++}
++/* copy from net/wireless/wext.c end */
++
++
++static int _rtw_ioctl_wext_private(struct net_device *dev, union iwreq_data *wrq_data)
++{
++	int err = 0;
++	u8 *input = NULL;
++	u32 input_len = 0;
++	const char delim[] = " ";
++	u8 *output = NULL;
++	u32 output_len = 0;
++	u32 count = 0;
++	u8 *buffer = NULL;
++	u32 buffer_len = 0;
++	char *ptr = NULL;
++	u8 cmdname[17] = {0}; /* IFNAMSIZ+1 */
++	u32 cmdlen;
++	s32 len;
++	u8 *extra = NULL;
++	u32 extra_size = 0;
++
++	s32 k;
++	const iw_handler *priv;		/* Private ioctl */
++	const struct iw_priv_args *priv_args;	/* Private ioctl description */
++	const struct iw_priv_args *mp_priv_args;	/*MP Private ioctl description */
++	const struct iw_priv_args *sel_priv_args;	/*Selected Private ioctl description */
++	u32 num_priv;				/* Number of ioctl */
++	u32 num_priv_args;			/* Number of descriptions */
++	u32 num_mp_priv_args;			/*Number of MP descriptions */
++	u32 num_sel_priv_args;			/*Number of Selected descriptions */
++	iw_handler handler;
++	int temp;
++	int subcmd = 0;				/* sub-ioctl index */
++	int offset = 0;				/* Space for sub-ioctl index */
++
++	union iwreq_data wdata;
++
++	_rtw_memcpy(&wdata, wrq_data, sizeof(wdata));
++
++	input_len = wdata.data.length;
++	if (!input_len)
++		return -EINVAL;
++	input = rtw_zmalloc(input_len);
++	if (NULL == input)
++		return -ENOMEM;
++	if (copy_from_user(input, wdata.data.pointer, input_len)) {
++		err = -EFAULT;
++		goto exit;
++	}
++	input[input_len - 1] = '\0';
++	ptr = input;
++	len = input_len;
++
++	if (ptr == NULL) {
++		err = -EOPNOTSUPP;
++		goto exit;
++	}
++
++	sscanf(ptr, "%16s", cmdname);
++	cmdlen = strlen(cmdname);
++	RTW_INFO("%s: cmd=%s\n", __func__, cmdname);
++
++	/* skip command string */
++	if (cmdlen > 0)
++		cmdlen += 1; /* skip one space */
++	ptr += cmdlen;
++	len -= cmdlen;
++	RTW_INFO("%s: parameters=%s\n", __func__, ptr);
++
++	priv = rtw_private_handler;
++	priv_args = rtw_private_args;
++	mp_priv_args = rtw_mp_private_args;
++	num_priv = sizeof(rtw_private_handler) / sizeof(iw_handler);
++	num_priv_args = sizeof(rtw_private_args) / sizeof(struct iw_priv_args);
++	num_mp_priv_args = sizeof(rtw_mp_private_args) / sizeof(struct iw_priv_args);
++
++	if (num_priv_args == 0) {
++		err = -EOPNOTSUPP;
++		goto exit;
++	}
++
++	/* Search the correct ioctl */
++	k = -1;
++	sel_priv_args = priv_args;
++	num_sel_priv_args = num_priv_args;
++	while
++	((++k < num_sel_priv_args) && strcmp(sel_priv_args[k].name, cmdname))
++		;
++
++	/* If not found... */
++	if (k == num_sel_priv_args) {
++		k = -1;
++		sel_priv_args = mp_priv_args;
++		num_sel_priv_args = num_mp_priv_args;
++		while
++		((++k < num_sel_priv_args) && strcmp(sel_priv_args[k].name, cmdname))
++			;
++
++		if (k == num_sel_priv_args) {
++			err = -EOPNOTSUPP;
++			goto exit;
++		}
++	}
++
++	/* Watch out for sub-ioctls ! */
++	if (sel_priv_args[k].cmd < SIOCDEVPRIVATE) {
++		int j = -1;
++
++		/* Find the matching *real* ioctl */
++		while ((++j < num_priv_args) && ((priv_args[j].name[0] != '\0') ||
++			 (priv_args[j].set_args != sel_priv_args[k].set_args) ||
++			 (priv_args[j].get_args != sel_priv_args[k].get_args)))
++			;
++
++		/* If not found... */
++		if (j == num_priv_args) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		/* Save sub-ioctl number */
++		subcmd = sel_priv_args[k].cmd;
++		/* Reserve one int (simplify alignment issues) */
++		offset = sizeof(__u32);
++		/* Use real ioctl definition from now on */
++		k = j;
++	}
++
++	buffer = rtw_zmalloc(4096);
++	if (NULL == buffer) {
++		err = -ENOMEM;
++		goto exit;
++	}
++
++	/* If we have to set some data */
++	if ((priv_args[k].set_args & IW_PRIV_TYPE_MASK) &&
++	    (priv_args[k].set_args & IW_PRIV_SIZE_MASK)) {
++		u8 *str;
++
++		switch (priv_args[k].set_args & IW_PRIV_TYPE_MASK) {
++		case IW_PRIV_TYPE_BYTE:
++			/* Fetch args */
++			count = 0;
++			do {
++				str = strsep(&ptr, delim);
++				if (NULL == str)
++					break;
++				sscanf(str, "%i", &temp);
++				buffer[count++] = (u8)temp;
++			} while (1);
++			buffer_len = count;
++
++			/* Number of args to fetch */
++			wdata.data.length = count;
++			if (wdata.data.length > (priv_args[k].set_args & IW_PRIV_SIZE_MASK))
++				wdata.data.length = priv_args[k].set_args & IW_PRIV_SIZE_MASK;
++
++			break;
++
++		case IW_PRIV_TYPE_INT:
++			/* Fetch args */
++			count = 0;
++			do {
++				str = strsep(&ptr, delim);
++				if (NULL == str)
++					break;
++				sscanf(str, "%i", &temp);
++				((s32 *)buffer)[count++] = (s32)temp;
++			} while (1);
++			buffer_len = count * sizeof(s32);
++
++			/* Number of args to fetch */
++			wdata.data.length = count;
++			if (wdata.data.length > (priv_args[k].set_args & IW_PRIV_SIZE_MASK))
++				wdata.data.length = priv_args[k].set_args & IW_PRIV_SIZE_MASK;
++
++			break;
++
++		case IW_PRIV_TYPE_CHAR:
++			if (len > 0) {
++				/* Size of the string to fetch */
++				wdata.data.length = len;
++				if (wdata.data.length > (priv_args[k].set_args & IW_PRIV_SIZE_MASK))
++					wdata.data.length = priv_args[k].set_args & IW_PRIV_SIZE_MASK;
++
++				/* Fetch string */
++				_rtw_memcpy(buffer, ptr, wdata.data.length);
++			} else {
++				wdata.data.length = 1;
++				buffer[0] = '\0';
++			}
++			buffer_len = wdata.data.length;
++			break;
++
++		default:
++			RTW_INFO("%s: Not yet implemented...\n", __func__);
++			err = -1;
++			goto exit;
++		}
++
++		if ((priv_args[k].set_args & IW_PRIV_SIZE_FIXED) &&
++		    (wdata.data.length != (priv_args[k].set_args & IW_PRIV_SIZE_MASK))) {
++			RTW_INFO("%s: The command %s needs exactly %d argument(s)...\n",
++				__func__, cmdname, priv_args[k].set_args & IW_PRIV_SIZE_MASK);
++			err = -EINVAL;
++			goto exit;
++		}
++	}   /* if args to set */
++	else
++		wdata.data.length = 0L;
++
++	/* Those two tests are important. They define how the driver
++	* will have to handle the data */
++	if ((priv_args[k].set_args & IW_PRIV_SIZE_FIXED) &&
++	    ((get_priv_size(priv_args[k].set_args) + offset) <= IFNAMSIZ)) {
++		/* First case : all SET args fit within wrq */
++		if (offset)
++			wdata.mode = subcmd;
++		_rtw_memcpy(wdata.name + offset, buffer, IFNAMSIZ - offset);
++	} else {
++		if ((priv_args[k].set_args == 0) &&
++		    (priv_args[k].get_args & IW_PRIV_SIZE_FIXED) &&
++		    (get_priv_size(priv_args[k].get_args) <= IFNAMSIZ)) {
++			/* Second case : no SET args, GET args fit within wrq */
++			if (offset)
++				wdata.mode = subcmd;
++		} else {
++			/* Third case : args won't fit in wrq, or variable number of args */
++			if (copy_to_user(wdata.data.pointer, buffer, buffer_len)) {
++				err = -EFAULT;
++				goto exit;
++			}
++			wdata.data.flags = subcmd;
++		}
++	}
++
++	rtw_mfree(input, input_len);
++	input = NULL;
++
++	extra_size = 0;
++	if (IW_IS_SET(priv_args[k].cmd)) {
++		/* Size of set arguments */
++		extra_size = get_priv_size(priv_args[k].set_args);
++
++		/* Does it fits in iwr ? */
++		if ((priv_args[k].set_args & IW_PRIV_SIZE_FIXED) &&
++		    ((extra_size + offset) <= IFNAMSIZ))
++			extra_size = 0;
++	} else {
++		/* Size of get arguments */
++		extra_size = get_priv_size(priv_args[k].get_args);
++
++		/* Does it fits in iwr ? */
++		if ((priv_args[k].get_args & IW_PRIV_SIZE_FIXED) &&
++		    (extra_size <= IFNAMSIZ))
++			extra_size = 0;
++	}
++
++	if (extra_size == 0) {
++		extra = (u8 *)&wdata;
++		rtw_mfree(buffer, 4096);
++		buffer = NULL;
++	} else
++		extra = buffer;
++
++	handler = priv[priv_args[k].cmd - SIOCIWFIRSTPRIV];
++	err = handler(dev, NULL, &wdata, extra);
++
++	/* If we have to get some data */
++	if ((priv_args[k].get_args & IW_PRIV_TYPE_MASK) &&
++	    (priv_args[k].get_args & IW_PRIV_SIZE_MASK)) {
++		int j;
++		int n = 0;	/* number of args */
++		u8 str[20] = {0};
++
++		/* Check where is the returned data */
++		if ((priv_args[k].get_args & IW_PRIV_SIZE_FIXED) &&
++		    (get_priv_size(priv_args[k].get_args) <= IFNAMSIZ))
++			n = priv_args[k].get_args & IW_PRIV_SIZE_MASK;
++		else
++			n = wdata.data.length;
++
++		output = rtw_zmalloc(4096);
++		if (NULL == output) {
++			err =  -ENOMEM;
++			goto exit;
++		}
++
++		switch (priv_args[k].get_args & IW_PRIV_TYPE_MASK) {
++		case IW_PRIV_TYPE_BYTE:
++			/* Display args */
++			for (j = 0; j < n; j++) {
++				sprintf(str, "%d  ", extra[j]);
++				len = strlen(str);
++				output_len = strlen(output);
++				if ((output_len + len + 1) > 4096) {
++					err = -E2BIG;
++					goto exit;
++				}
++				_rtw_memcpy(output + output_len, str, len);
++			}
++			break;
++
++		case IW_PRIV_TYPE_INT:
++			/* Display args */
++			for (j = 0; j < n; j++) {
++				sprintf(str, "%d  ", ((__s32 *)extra)[j]);
++				len = strlen(str);
++				output_len = strlen(output);
++				if ((output_len + len + 1) > 4096) {
++					err = -E2BIG;
++					goto exit;
++				}
++				_rtw_memcpy(output + output_len, str, len);
++			}
++			break;
++
++		case IW_PRIV_TYPE_CHAR:
++			/* Display args */
++			_rtw_memcpy(output, extra, n);
++			break;
++
++		default:
++			RTW_INFO("%s: Not yet implemented...\n", __func__);
++			err = -1;
++			goto exit;
++		}
++
++		output_len = strlen(output) + 1;
++		wrq_data->data.length = output_len;
++		if (copy_to_user(wrq_data->data.pointer, output, output_len)) {
++			err = -EFAULT;
++			goto exit;
++		}
++	}   /* if args to set */
++	else
++		wrq_data->data.length = 0;
++
++exit:
++	if (input)
++		rtw_mfree(input, input_len);
++	if (buffer)
++		rtw_mfree(buffer, 4096);
++	if (output)
++		rtw_mfree(output, 4096);
++
++	return err;
++}
++
++#ifdef CONFIG_COMPAT
++static int rtw_ioctl_compat_wext_private(struct net_device *dev, struct ifreq *rq)
++{
++	struct compat_iw_point iwp_compat;
++	union iwreq_data wrq_data;
++	int err = 0;
++	RTW_INFO("%s:...\n", __func__);
++	if (copy_from_user(&iwp_compat, rq->ifr_ifru.ifru_data, sizeof(struct compat_iw_point)))
++		return -EFAULT;
++
++	wrq_data.data.pointer = compat_ptr(iwp_compat.pointer);
++	wrq_data.data.length = iwp_compat.length;
++	wrq_data.data.flags = iwp_compat.flags;
++
++	err = _rtw_ioctl_wext_private(dev, &wrq_data);
++
++	iwp_compat.pointer = ptr_to_compat(wrq_data.data.pointer);
++	iwp_compat.length = wrq_data.data.length;
++	iwp_compat.flags = wrq_data.data.flags;
++	if (copy_to_user(rq->ifr_ifru.ifru_data, &iwp_compat, sizeof(struct compat_iw_point)))
++		return -EFAULT;
++
++	return err;
++}
++#endif /* CONFIG_COMPAT */
++
++static int rtw_ioctl_standard_wext_private(struct net_device *dev, struct ifreq *rq)
++{
++	struct iw_point *iwp;
++	struct ifreq ifrq;
++	union iwreq_data wrq_data;
++	int err = 0;
++	iwp = &wrq_data.data;
++	RTW_INFO("%s:...\n", __func__);
++	if (copy_from_user(iwp, rq->ifr_ifru.ifru_data, sizeof(struct iw_point)))
++		return -EFAULT;
++
++	err = _rtw_ioctl_wext_private(dev, &wrq_data);
++
++	if (copy_to_user(rq->ifr_ifru.ifru_data, iwp, sizeof(struct iw_point)))
++		return -EFAULT;
++
++	return err;
++}
++
++static int rtw_ioctl_wext_private(struct net_device *dev, struct ifreq *rq)
++{
++#ifdef CONFIG_COMPAT
++	if (is_compat_task())
++		return rtw_ioctl_compat_wext_private(dev, rq);
++	else
++#endif /* CONFIG_COMPAT */
++		return rtw_ioctl_standard_wext_private(dev, rq);
++}
++
++int rtw_ioctl(struct net_device *dev, struct ifreq *rq, int cmd)
++{
++	struct iwreq *wrq = (struct iwreq *)rq;
++	int ret = 0;
++
++	switch (cmd) {
++	case RTL_IOCTL_WPA_SUPPLICANT:
++		ret = wpa_supplicant_ioctl(dev, &wrq->u.data);
++		break;
++#ifdef CONFIG_AP_MODE
++	case RTL_IOCTL_HOSTAPD:
++		ret = rtw_hostapd_ioctl(dev, &wrq->u.data);
++		break;
++#ifdef CONFIG_WIRELESS_EXT
++	case SIOCSIWMODE:
++		ret = rtw_wx_set_mode(dev, NULL, &wrq->u, NULL);
++		break;
++#endif
++#endif /* CONFIG_AP_MODE */
++	case SIOCDEVPRIVATE:
++		ret = rtw_ioctl_wext_private(dev, rq);
++		break;
++	case (SIOCDEVPRIVATE+1):
++		ret = rtw_android_priv_cmd(dev, rq, cmd);
++		break;
++	default:
++		ret = -EOPNOTSUPP;
++		break;
++	}
++
++	return ret;
++}
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_mp.c b/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_mp.c
+new file mode 100644
+index 0000000..70cc4e6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_mp.c
+@@ -0,0 +1,2407 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#if defined(CONFIG_MP_INCLUDED)
++
++#include <drv_types.h>
++#include <rtw_mp.h>
++#include <rtw_mp_ioctl.h>
++#include "../../hal/phydm/phydm_precomp.h"
++
++
++#if defined(CONFIG_RTL8723B)
++	#include <rtw_bt_mp.h>
++#endif
++
++/*
++ * Input Format: %s,%d,%d
++ *	%s is width, could be
++ *		"b" for 1 byte
++ *		"w" for WORD (2 bytes)
++ *		"dw" for DWORD (4 bytes)
++ *	1st %d is address(offset)
++ *	2st %d is data to write
++ */
++int rtw_mp_write_reg(struct net_device *dev,
++		     struct iw_request_info *info,
++		     struct iw_point *wrqu, char *extra)
++{
++	char *pch, *pnext, *ptmp;
++	char *width_str;
++	char width, buf[5];
++	u32 addr, data;
++	int ret;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	char input[wrqu->length];
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	_rtw_memset(extra, 0, wrqu->length);
++
++	pch = input;
++
++	pnext = strpbrk(pch, " ,.-");
++	if (pnext == NULL)
++		return -EINVAL;
++	*pnext = 0;
++	width_str = pch;
++
++	pch = pnext + 1;
++	pnext = strpbrk(pch, " ,.-");
++	if (pnext == NULL)
++		return -EINVAL;
++	*pnext = 0;
++	/*addr = simple_strtoul(pch, &ptmp, 16);
++	_rtw_memset(buf, '\0', sizeof(buf));
++	_rtw_memcpy(buf, pch, pnext-pch);
++	ret = kstrtoul(buf, 16, &addr);*/
++	ret = sscanf(pch, "%x", &addr);
++	if (addr > 0x3FFF)
++		return -EINVAL;
++
++	pch = pnext + 1;
++	pnext = strpbrk(pch, " ,.-");
++	if ((pch - input) >= wrqu->length)
++		return -EINVAL;
++	/*data = simple_strtoul(pch, &ptmp, 16);*/
++	ret = sscanf(pch, "%x", &data);
++	RTW_INFO("data=%x,addr=%x\n", (u32)data, (u32)addr);
++	ret = 0;
++	width = width_str[0];
++	switch (width) {
++	case 'b':
++		/* 1 byte*/
++		if (data > 0xFF) {
++			ret = -EINVAL;
++			break;
++		}
++		rtw_write8(padapter, addr, data);
++		break;
++	case 'w':
++		/* 2 bytes*/
++		if (data > 0xFFFF) {
++			ret = -EINVAL;
++			break;
++		}
++		rtw_write16(padapter, addr, data);
++		break;
++	case 'd':
++		/* 4 bytes*/
++		rtw_write32(padapter, addr, data);
++		break;
++	default:
++		ret = -EINVAL;
++		break;
++	}
++
++	return ret;
++}
++
++
++/*
++ * Input Format: %s,%d
++ *	%s is width, could be
++ *		"b" for 1 byte
++ *		"w" for WORD (2 bytes)
++ *		"dw" for DWORD (4 bytes)
++ *	%d is address(offset)
++ *
++ * Return:
++ *	%d for data readed
++ */
++int rtw_mp_read_reg(struct net_device *dev,
++		    struct iw_request_info *info,
++		    struct iw_point *wrqu, char *extra)
++{
++	char input[wrqu->length];
++	char *pch, *pnext, *ptmp;
++	char *width_str;
++	char width;
++	char data[20], tmp[20], buf[3];
++	u32 addr = 0, strtout = 0;
++	u32 i = 0, j = 0, ret = 0, data32 = 0;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++
++	if (wrqu->length > 128)
++		return -EFAULT;
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	_rtw_memset(extra, 0, wrqu->length);
++	_rtw_memset(data, '\0', sizeof(data));
++	_rtw_memset(tmp, '\0', sizeof(tmp));
++	pch = input;
++	pnext = strpbrk(pch, " ,.-");
++	if (pnext == NULL)
++		return -EINVAL;
++	*pnext = 0;
++	width_str = pch;
++
++	pch = pnext + 1;
++
++	ret = sscanf(pch, "%x", &addr);
++	if (addr > 0x3FFF)
++		return -EINVAL;
++
++	ret = 0;
++	width = width_str[0];
++
++	switch (width) {
++	case 'b':
++		data32 = rtw_read8(padapter, addr);
++		RTW_INFO("%x\n", data32);
++		sprintf(extra, "%d", data32);
++		wrqu->length = strlen(extra);
++		break;
++	case 'w':
++		/* 2 bytes*/
++		sprintf(data, "%04x\n", rtw_read16(padapter, addr));
++
++		for (i = 0 ; i <= strlen(data) ; i++) {
++			if (i % 2 == 0) {
++				tmp[j] = ' ';
++				j++;
++			}
++			if (data[i] != '\0')
++				tmp[j] = data[i];
++
++			j++;
++		}
++		pch = tmp;
++		RTW_INFO("pch=%s", pch);
++
++		while (*pch != '\0') {
++			pnext = strpbrk(pch, " ");
++			if (!pnext || ((pnext - tmp) > 4))
++				break;
++
++			pnext++;
++			if (*pnext != '\0') {
++				/*strtout = simple_strtoul(pnext , &ptmp, 16);*/
++				ret = sscanf(pnext, "%x", &strtout);
++				sprintf(extra, "%s %d" , extra , strtout);
++			} else
++				break;
++			pch = pnext;
++		}
++		wrqu->length = strlen(extra);
++		break;
++	case 'd':
++		/* 4 bytes */
++		sprintf(data, "%08x", rtw_read32(padapter, addr));
++		/*add read data format blank*/
++		for (i = 0 ; i <= strlen(data) ; i++) {
++			if (i % 2 == 0) {
++				tmp[j] = ' ';
++				j++;
++			}
++			if (data[i] != '\0')
++				tmp[j] = data[i];
++
++			j++;
++		}
++		pch = tmp;
++		RTW_INFO("pch=%s", pch);
++
++		while (*pch != '\0') {
++			pnext = strpbrk(pch, " ");
++			if (!pnext)
++				break;
++
++			pnext++;
++			if (*pnext != '\0') {
++				ret = sscanf(pnext, "%x", &strtout);
++				sprintf(extra, "%s %d" , extra , strtout);
++			} else
++				break;
++			pch = pnext;
++		}
++		wrqu->length = strlen(extra);
++		break;
++
++	default:
++		wrqu->length = 0;
++		ret = -EINVAL;
++		break;
++	}
++
++	return ret;
++}
++
++
++/*
++ * Input Format: %d,%x,%x
++ *	%d is RF path, should be smaller than MAX_RF_PATH_NUMS
++ *	1st %x is address(offset)
++ *	2st %x is data to write
++ */
++int rtw_mp_write_rf(struct net_device *dev,
++		    struct iw_request_info *info,
++		    struct iw_point *wrqu, char *extra)
++{
++
++	u32 path, addr, data;
++	int ret;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	char input[wrqu->length];
++
++
++	_rtw_memset(input, 0, wrqu->length);
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++
++	ret = sscanf(input, "%d,%x,%x", &path, &addr, &data);
++	if (ret < 3)
++		return -EINVAL;
++
++	if (path >= GET_HAL_RFPATH_NUM(padapter))
++		return -EINVAL;
++	if (addr > 0xFF)
++		return -EINVAL;
++	if (data > 0xFFFFF)
++		return -EINVAL;
++
++	_rtw_memset(extra, 0, wrqu->length);
++
++	write_rfreg(padapter, path, addr, data);
++
++	sprintf(extra, "write_rf completed\n");
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++
++/*
++ * Input Format: %d,%x
++ *	%d is RF path, should be smaller than MAX_RF_PATH_NUMS
++ *	%x is address(offset)
++ *
++ * Return:
++ *	%d for data readed
++ */
++int rtw_mp_read_rf(struct net_device *dev,
++		   struct iw_request_info *info,
++		   struct iw_point *wrqu, char *extra)
++{
++	char input[wrqu->length];
++	char *pch, *pnext, *ptmp;
++	char data[20], tmp[20], buf[3];
++	u32 path, addr, strtou;
++	u32 ret, i = 0 , j = 0;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	if (wrqu->length > 128)
++		return -EFAULT;
++	_rtw_memset(input, 0, wrqu->length);
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	ret = sscanf(input, "%d,%x", &path, &addr);
++	if (ret < 2)
++		return -EINVAL;
++
++	if (path >= GET_HAL_RFPATH_NUM(padapter))
++		return -EINVAL;
++	if (addr > 0xFF)
++		return -EINVAL;
++
++	_rtw_memset(extra, 0, wrqu->length);
++
++	sprintf(data, "%08x", read_rfreg(padapter, path, addr));
++	/*add read data format blank*/
++	for (i = 0 ; i <= strlen(data) ; i++) {
++		if (i % 2 == 0) {
++			tmp[j] = ' ';
++			j++;
++		}
++		tmp[j] = data[i];
++		j++;
++	}
++	pch = tmp;
++	RTW_INFO("pch=%s", pch);
++
++	while (*pch != '\0') {
++		pnext = strpbrk(pch, " ");
++		if (!pnext)
++			break;
++		pnext++;
++		if (*pnext != '\0') {
++			/*strtou =simple_strtoul(pnext , &ptmp, 16);*/
++			ret = sscanf(pnext, "%x", &strtou);
++			sprintf(extra, "%s %d" , extra , strtou);
++		} else
++			break;
++		pch = pnext;
++	}
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++
++int rtw_mp_start(struct net_device *dev,
++		 struct iw_request_info *info,
++		 struct iw_point *wrqu, char *extra)
++{
++	u8 val8;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct hal_ops *pHalFunc = &padapter->HalFunc;
++
++	rtw_pm_set_ips(padapter, IPS_NONE);
++	LeaveAllPowerSaveMode(padapter);
++
++	if (rtw_mi_check_fwstate(padapter, _FW_UNDER_SURVEY))
++		rtw_mi_scan_abort(padapter, _FALSE);
++
++	if (padapter->registrypriv.mp_mode == 0) {
++		rtw_hal_deinit(padapter);
++		padapter->registrypriv.mp_mode = 1;
++#ifdef CONFIG_RF_POWER_TRIM
++		if (!IS_HARDWARE_TYPE_8814A(padapter) && !IS_HARDWARE_TYPE_8822B(padapter)) {
++			padapter->registrypriv.RegPwrTrimEnable = 1;
++			rtw_hal_read_chip_info(padapter);
++		}
++#endif /*CONFIG_RF_POWER_TRIM*/
++		rtw_hal_init(padapter);
++	}
++
++	if (padapter->registrypriv.mp_mode == 0)
++		return -EPERM;
++
++	if (padapter->mppriv.mode == MP_OFF) {
++		if (mp_start_test(padapter) == _FAIL)
++			return -EPERM;
++		padapter->mppriv.mode = MP_ON;
++		MPT_PwrCtlDM(padapter, 0);
++	}
++	padapter->mppriv.bmac_filter = _FALSE;
++#ifdef CONFIG_RTL8723B
++#ifdef CONFIG_USB_HCI
++	rtw_write32(padapter, 0x765, 0x0000);
++	rtw_write32(padapter, 0x948, 0x0280);
++#else
++	rtw_write32(padapter, 0x765, 0x0000);
++	rtw_write32(padapter, 0x948, 0x0000);
++#endif
++#ifdef CONFIG_FOR_RTL8723BS_VQ0
++	rtw_write32(padapter, 0x765, 0x0000);
++	rtw_write32(padapter, 0x948, 0x0280);
++#endif
++	rtw_write8(padapter, 0x66, 0x27); /*Open BT uart Log*/
++	rtw_write8(padapter, 0xc50, 0x20); /*for RX init Gain*/
++#endif
++	ODM_Write_DIG(&pHalData->odmpriv, 0x20);
++
++	_rtw_memset(extra, 0, wrqu->length);
++	sprintf(extra, "mp_start ok\n");
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++
++
++int rtw_mp_stop(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	struct hal_ops *pHalFunc = &padapter->HalFunc;
++
++	if (padapter->registrypriv.mp_mode == 1) {
++
++		MPT_DeInitAdapter(padapter);
++		pHalFunc->hal_deinit(padapter);
++		padapter->registrypriv.mp_mode = 0;
++		pHalFunc->hal_init(padapter);
++	}
++
++	if (padapter->mppriv.mode != MP_OFF) {
++		mp_stop_test(padapter);
++		padapter->mppriv.mode = MP_OFF;
++	}
++	_rtw_memset(extra, 0, wrqu->length);
++	sprintf(extra, "mp_stop ok\n");
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++
++int rtw_mp_rate(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra)
++{
++	u32 rate = MPT_RATE_1M;
++	u8		input[wrqu->length];
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	PMPT_CONTEXT		pMptCtx = &(padapter->mppriv.MptCtx);
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	rate = rtw_mpRateParseFunc(padapter, input);
++	padapter->mppriv.rateidx = rate;
++
++	if (rate == 0 && strcmp(input, "1M") != 0) {
++		rate = rtw_atoi(input);
++		padapter->mppriv.rateidx = MRateToHwRate(rate);
++		/*if (rate <= 0x7f)
++			rate = wifirate2_ratetbl_inx((u8)rate);
++		else if (rate < 0xC8)
++			rate = (rate - 0x79 + MPT_RATE_MCS0);
++		HT  rate 0x80(MCS0)  ~ 0x8F(MCS15) ~ 0x9F(MCS31) 128~159
++		VHT1SS~2SS rate 0xA0 (VHT1SS_MCS0 44) ~ 0xB3 (VHT2SS_MCS9 #63) 160~179
++		VHT rate 0xB4 (VHT3SS_MCS0 64) ~ 0xC7 (VHT2SS_MCS9 #83) 180~199
++		else
++		VHT rate 0x90(VHT1SS_MCS0) ~ 0x99(VHT1SS_MCS9) 144~153
++		rate =(rate - MPT_RATE_VHT1SS_MCS0);
++		*/
++	}
++	_rtw_memset(extra, 0, wrqu->length);
++
++	sprintf(extra, "Set data rate to %s index %d" , input, padapter->mppriv.rateidx);
++	RTW_INFO("%s: %s rate index=%d\n", __func__, input, padapter->mppriv.rateidx);
++
++	if (padapter->mppriv.rateidx >= DESC_RATEVHTSS4MCS9)
++		return -EINVAL;
++
++	pMptCtx->MptRateIndex = HwRateToMPTRate(padapter->mppriv.rateidx);
++	SetDataRate(padapter);
++
++	wrqu->length = strlen(extra);
++	return 0;
++}
++
++
++int rtw_mp_channel(struct net_device *dev,
++		   struct iw_request_info *info,
++		   struct iw_point *wrqu, char *extra)
++{
++
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(padapter);
++	u8		input[wrqu->length];
++	u32	channel = 1;
++	int cur_ch_offset;
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	channel = rtw_atoi(input);
++	/*RTW_INFO("%s: channel=%d\n", __func__, channel);*/
++	_rtw_memset(extra, 0, wrqu->length);
++	sprintf(extra, "Change channel %d to channel %d", padapter->mppriv.channel , channel);
++	padapter->mppriv.channel = channel;
++	SetChannel(padapter);
++	pHalData->CurrentChannel = channel;
++
++	wrqu->length = strlen(extra);
++	return 0;
++}
++
++
++int rtw_mp_bandwidth(struct net_device *dev,
++		     struct iw_request_info *info,
++		     struct iw_point *wrqu, char *extra)
++{
++	u32 bandwidth = 0, sg = 0;
++	int cur_ch_offset;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(padapter);
++	u8		input[wrqu->length];
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	if (sscanf(input, "40M=%d,shortGI=%d", &bandwidth, &sg) > 0)
++		RTW_INFO("%s: bw=%d sg=%d\n", __func__, bandwidth , sg);
++
++	if (bandwidth == 1)
++		bandwidth = CHANNEL_WIDTH_40;
++	else if (bandwidth == 2)
++		bandwidth = CHANNEL_WIDTH_80;
++
++	padapter->mppriv.bandwidth = (u8)bandwidth;
++	padapter->mppriv.preamble = sg;
++	_rtw_memset(extra, 0, wrqu->length);
++	sprintf(extra, "Change BW %d to BW %d\n", pHalData->CurrentChannelBW , bandwidth);
++
++	SetBandwidth(padapter);
++	pHalData->CurrentChannelBW = bandwidth;
++	/*cur_ch_offset =  rtw_get_offset_by_ch(padapter->mppriv.channel);*/
++	/*set_channel_bwmode(padapter, padapter->mppriv.channel, cur_ch_offset, bandwidth);*/
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++
++int rtw_mp_txpower_index(struct net_device *dev,
++			 struct iw_request_info *info,
++			 struct iw_point *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	char input[wrqu->length];
++	u32 rfpath;
++	u32 txpower_inx;
++
++	if (wrqu->length > 128)
++		return -EFAULT;
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	rfpath = rtw_atoi(input);
++	txpower_inx = mpt_ProQueryCalTxPower(padapter, rfpath);
++	sprintf(extra, " %d", txpower_inx);
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++
++int rtw_mp_txpower(struct net_device *dev,
++		   struct iw_request_info *info,
++		   struct iw_point *wrqu, char *extra)
++{
++	u32 idx_a = 0, idx_b = 0, idx_c = 0, idx_d = 0, status = 0;
++	int MsetPower = 1;
++	u8		input[wrqu->length];
++
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	PMPT_CONTEXT		pMptCtx = &(padapter->mppriv.MptCtx);
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	MsetPower = strncmp(input, "off", 3);
++	if (MsetPower == 0) {
++		padapter->mppriv.bSetTxPower = 0;
++		sprintf(extra, "MP Set power off");
++	} else {
++		if (sscanf(input, "patha=%d,pathb=%d,pathc=%d,pathd=%d", &idx_a, &idx_b, &idx_c, &idx_d) < 3)
++			RTW_INFO("Invalid format on line %s ,patha=%d,pathb=%d,pathc=%d,pathd=%d\n", input , idx_a , idx_b , idx_c , idx_d);
++
++		sprintf(extra, "Set power level path_A:%d path_B:%d path_C:%d path_D:%d", idx_a , idx_b , idx_c , idx_d);
++		padapter->mppriv.txpoweridx = (u8)idx_a;
++
++		pMptCtx->TxPwrLevel[ODM_RF_PATH_A] = (u8)idx_a;
++		pMptCtx->TxPwrLevel[ODM_RF_PATH_B] = (u8)idx_b;
++		pMptCtx->TxPwrLevel[ODM_RF_PATH_C] = (u8)idx_c;
++		pMptCtx->TxPwrLevel[ODM_RF_PATH_D]  = (u8)idx_d;
++		padapter->mppriv.bSetTxPower = 1;
++
++		SetTxPower(padapter);
++	}
++
++	wrqu->length = strlen(extra);
++	return 0;
++}
++
++
++int rtw_mp_ant_tx(struct net_device *dev,
++		  struct iw_request_info *info,
++		  struct iw_point *wrqu, char *extra)
++{
++	u8 i;
++	u8		input[wrqu->length];
++	u16 antenna = 0;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	sprintf(extra, "switch Tx antenna to %s", input);
++
++	for (i = 0; i < strlen(input); i++) {
++		switch (input[i]) {
++		case 'a':
++			antenna |= ANTENNA_A;
++			break;
++		case 'b':
++			antenna |= ANTENNA_B;
++			break;
++		case 'c':
++			antenna |= ANTENNA_C;
++			break;
++		case 'd':
++			antenna |= ANTENNA_D;
++			break;
++		}
++	}
++	/*antenna |= BIT(extra[i]-'a');*/
++	RTW_INFO("%s: antenna=0x%x\n", __func__, antenna);
++	padapter->mppriv.antenna_tx = antenna;
++	padapter->mppriv.antenna_rx = antenna;
++	/*RTW_INFO("%s:mppriv.antenna_rx=%d\n", __func__, padapter->mppriv.antenna_tx);*/
++	pHalData->AntennaTxPath = antenna;
++
++	SetAntenna(padapter);
++
++	wrqu->length = strlen(extra);
++	return 0;
++}
++
++
++int rtw_mp_ant_rx(struct net_device *dev,
++		  struct iw_request_info *info,
++		  struct iw_point *wrqu, char *extra)
++{
++	u8 i;
++	u16 antenna = 0;
++	u8		input[wrqu->length];
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++	/*RTW_INFO("%s: input=%s\n", __func__, input);*/
++	_rtw_memset(extra, 0, wrqu->length);
++
++	sprintf(extra, "switch Rx antenna to %s", input);
++
++	for (i = 0; i < strlen(input); i++) {
++		switch (input[i]) {
++		case 'a':
++			antenna |= ANTENNA_A;
++			break;
++		case 'b':
++			antenna |= ANTENNA_B;
++			break;
++		case 'c':
++			antenna |= ANTENNA_C;
++			break;
++		case 'd':
++			antenna |= ANTENNA_D;
++			break;
++		}
++	}
++
++	RTW_INFO("%s: antenna=0x%x\n", __func__, antenna);
++	padapter->mppriv.antenna_tx = antenna;
++	padapter->mppriv.antenna_rx = antenna;
++	pHalData->AntennaRxPath = antenna;
++	/*RTW_INFO("%s:mppriv.antenna_rx=%d\n", __func__, padapter->mppriv.antenna_rx);*/
++	SetAntenna(padapter);
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++
++int rtw_set_ctx_destAddr(struct net_device *dev,
++			 struct iw_request_info *info,
++			 struct iw_point *wrqu, char *extra)
++{
++	int jj, kk = 0;
++
++	struct pkt_attrib *pattrib;
++	struct mp_priv *pmp_priv;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	pmp_priv = &padapter->mppriv;
++	pattrib = &pmp_priv->tx.attrib;
++
++	if (strlen(extra) < 5)
++		return _FAIL;
++
++	RTW_INFO("%s: in=%s\n", __func__, extra);
++	for (jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3)
++		pattrib->dst[jj] = key_2char2num(extra[kk], extra[kk + 1]);
++
++	RTW_INFO("pattrib->dst:%x %x %x %x %x %x\n", pattrib->dst[0], pattrib->dst[1], pattrib->dst[2], pattrib->dst[3], pattrib->dst[4], pattrib->dst[5]);
++	return 0;
++}
++
++
++
++int rtw_mp_ctx(struct net_device *dev,
++	       struct iw_request_info *info,
++	       struct iw_point *wrqu, char *extra)
++{
++	u32 pkTx = 1;
++	int countPkTx = 1, cotuTx = 1, CarrSprTx = 1, scTx = 1, sgleTx = 1, stop = 1;
++	u32 bStartTest = 1;
++	u32 count = 0, pktinterval = 0, pktlen = 0;
++	u8 status;
++	struct mp_priv *pmp_priv;
++	struct pkt_attrib *pattrib;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	pmp_priv = &padapter->mppriv;
++	pattrib = &pmp_priv->tx.attrib;
++
++	if (copy_from_user(extra, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	RTW_INFO("%s: in=%s\n", __func__, extra);
++#ifdef CONFIG_CONCURRENT_MODE
++	if (!is_primary_adapter(padapter)) {
++		sprintf(extra, "Error: MP mode can't support Virtual Adapter, Please to use main Adapter.\n");
++		wrqu->length = strlen(extra);
++		return 0;
++	}
++#endif
++	countPkTx = strncmp(extra, "count=", 5); /* strncmp TRUE is 0*/
++	cotuTx = strncmp(extra, "background", 20);
++	CarrSprTx = strncmp(extra, "background,cs", 20);
++	scTx = strncmp(extra, "background,sc", 20);
++	sgleTx = strncmp(extra, "background,stone", 20);
++	pkTx = strncmp(extra, "background,pkt", 20);
++	stop = strncmp(extra, "stop", 4);
++	if (sscanf(extra, "count=%d,pkt", &count) > 0)
++		RTW_INFO("count= %d\n", count);
++	if (sscanf(extra, "pktinterval=%d", &pktinterval) > 0)
++		RTW_INFO("pktinterval= %d\n", pktinterval);
++
++	if (sscanf(extra, "pktlen=%d", &pktlen) > 0)
++		RTW_INFO("pktlen= %d\n", pktlen);
++
++	if (_rtw_memcmp(extra, "destmac=", 8)) {
++		wrqu->length -= 8;
++		rtw_set_ctx_destAddr(dev, info, wrqu, &extra[8]);
++		sprintf(extra, "Set dest mac OK !\n");
++		return 0;
++	}
++
++	/*RTW_INFO("%s: count=%d countPkTx=%d cotuTx=%d CarrSprTx=%d scTx=%d sgleTx=%d pkTx=%d stop=%d\n", __func__, count, countPkTx, cotuTx, CarrSprTx, pkTx, sgleTx, scTx, stop);*/
++	_rtw_memset(extra, '\0', strlen(extra));
++
++	if (pktinterval != 0) {
++		sprintf(extra, "Pkt Interval = %d", pktinterval);
++		padapter->mppriv.pktInterval = pktinterval;
++		wrqu->length = strlen(extra);
++		return 0;
++	}
++	if (pktlen != 0) {
++		sprintf(extra, "Pkt len = %d", pktlen);
++		pattrib->pktlen = pktlen;
++		wrqu->length = strlen(extra);
++		return 0;
++	}
++	if (stop == 0) {
++		bStartTest = 0; /* To set Stop*/
++		pmp_priv->tx.stop = 1;
++		sprintf(extra, "Stop continuous Tx");
++		ODM_Write_DIG(&pHalData->odmpriv, 0x20);
++	} else {
++		bStartTest = 1;
++		ODM_Write_DIG(&pHalData->odmpriv, 0x7f);
++		if (pmp_priv->mode != MP_ON) {
++			if (pmp_priv->tx.stop != 1) {
++				RTW_INFO("%s: MP_MODE != ON %d\n", __func__, pmp_priv->mode);
++				return	-EFAULT;
++			}
++		}
++	}
++
++	pmp_priv->tx.count = count;
++
++	if (pkTx == 0 || countPkTx == 0)
++		pmp_priv->mode = MP_PACKET_TX;
++	if (sgleTx == 0)
++		pmp_priv->mode = MP_SINGLE_TONE_TX;
++	if (cotuTx == 0)
++		pmp_priv->mode = MP_CONTINUOUS_TX;
++	if (CarrSprTx == 0)
++		pmp_priv->mode = MP_CARRIER_SUPPRISSION_TX;
++	if (scTx == 0)
++		pmp_priv->mode = MP_SINGLE_CARRIER_TX;
++
++	status = rtw_mp_pretx_proc(padapter, bStartTest, extra);
++
++	wrqu->length = strlen(extra);
++	return status;
++}
++
++
++
++int rtw_mp_disable_bt_coexist(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = (PADAPTER)rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct hal_ops *pHalFunc = &padapter->HalFunc;
++
++	u8 input[wrqu->data.length];
++	u32 bt_coexist;
++
++	if (copy_from_user(input, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++
++	bt_coexist = rtw_atoi(input);
++
++	if (bt_coexist == 0) {
++		RTW_INFO("Set OID_RT_SET_DISABLE_BT_COEXIST: disable BT_COEXIST\n");
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_HaltNotify(padapter);
++		rtw_btcoex_SetManualControl(padapter, _TRUE);
++		/* Force to switch Antenna to WiFi*/
++		rtw_write16(padapter, 0x870, 0x300);
++		rtw_write16(padapter, 0x860, 0x110);
++#endif
++		/* CONFIG_BT_COEXIST */
++	} else {
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_SetManualControl(padapter, _FALSE);
++#endif
++	}
++
++	return 0;
++}
++
++
++int rtw_mp_arx(struct net_device *dev,
++	       struct iw_request_info *info,
++	       struct iw_point *wrqu, char *extra)
++{
++	int bStartRx = 0, bStopRx = 0, bQueryPhy = 0, bQueryMac = 0, bSetBssid = 0;
++	int bmac_filter = 0, bfilter_init = 0, bmon = 0, bSmpCfg = 0, bloopbk = 0;
++	u8		input[wrqu->length];
++	char *pch, *ptmp, *token, *tmp[2] = {0x00, 0x00};
++	u32 i = 0, ii = 0, jj = 0, kk = 0, cnts = 0, ret;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	struct mp_priv *pmppriv = &padapter->mppriv;
++	struct dbg_rx_counter rx_counter;
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	RTW_INFO("%s: %s\n", __func__, input);
++#ifdef CONFIG_CONCURRENT_MODE
++	if (!is_primary_adapter(padapter)) {
++		sprintf(extra, "Error: MP mode can't support Virtual Adapter, Please to use main Adapter.\n");
++		wrqu->length = strlen(extra);
++		return 0;
++	}
++#endif
++	bStartRx = (strncmp(input, "start", 5) == 0) ? 1 : 0; /* strncmp TRUE is 0*/
++	bStopRx = (strncmp(input, "stop", 5) == 0) ? 1 : 0; /* strncmp TRUE is 0*/
++	bQueryPhy = (strncmp(input, "phy", 3) == 0) ? 1 : 0; /* strncmp TRUE is 0*/
++	bQueryMac = (strncmp(input, "mac", 3) == 0) ? 1 : 0; /* strncmp TRUE is 0*/
++	bSetBssid = (strncmp(input, "setbssid=", 8) == 0) ? 1 : 0; /* strncmp TRUE is 0*/
++	/*bfilter_init = (strncmp(input, "filter_init",11)==0)?1:0;*/
++	bmac_filter = (strncmp(input, "accept_mac", 10) == 0) ? 1 : 0;
++	bmon = (strncmp(input, "mon=", 4) == 0) ? 1 : 0;
++	bSmpCfg = (strncmp(input , "smpcfg=" , 7) == 0) ? 1 : 0;
++	pmppriv->bloopback = (strncmp(input, "loopbk", 6) == 0) ? 1 : 0; /* strncmp TRUE is 0*/
++
++	if (bSetBssid == 1) {
++		pch = input;
++		while ((token = strsep(&pch, "=")) != NULL) {
++			if (i > 1)
++				break;
++			tmp[i] = token;
++			i++;
++		}
++		if ((tmp[0] != NULL) && (tmp[1] != NULL)) {
++			cnts = strlen(tmp[1]) / 2;
++			if (cnts < 1)
++				return -EFAULT;
++			RTW_INFO("%s: cnts=%d\n", __func__, cnts);
++			RTW_INFO("%s: data=%s\n", __func__, tmp[1]);
++			for (jj = 0, kk = 0; jj < cnts ; jj++, kk += 2) {
++				pmppriv->network_macaddr[jj] = key_2char2num(tmp[1][kk], tmp[1][kk + 1]);
++				RTW_INFO("network_macaddr[%d]=%x\n", jj, pmppriv->network_macaddr[jj]);
++			}
++		} else
++			return -EFAULT;
++
++		pmppriv->bSetRxBssid = _TRUE;
++	}
++
++	if (bmac_filter) {
++		pmppriv->bmac_filter = bmac_filter;
++		pch = input;
++		while ((token = strsep(&pch, "=")) != NULL) {
++			if (i > 1)
++				break;
++			tmp[i] = token;
++			i++;
++		}
++		if ((tmp[0] != NULL) && (tmp[1] != NULL)) {
++			cnts = strlen(tmp[1]) / 2;
++			if (cnts < 1)
++				return -EFAULT;
++			RTW_INFO("%s: cnts=%d\n", __func__, cnts);
++			RTW_INFO("%s: data=%s\n", __func__, tmp[1]);
++			for (jj = 0, kk = 0; jj < cnts ; jj++, kk += 2) {
++				pmppriv->mac_filter[jj] = key_2char2num(tmp[1][kk], tmp[1][kk + 1]);
++				RTW_INFO("%s mac_filter[%d]=%x\n", __func__, jj, pmppriv->mac_filter[jj]);
++			}
++		} else
++			return -EFAULT;
++
++	}
++
++	if (bStartRx) {
++		sprintf(extra, "start");
++		SetPacketRx(padapter, bStartRx, _FALSE);
++	} else if (bStopRx) {
++		SetPacketRx(padapter, bStartRx, _FALSE);
++		pmppriv->bmac_filter = _FALSE;
++		pmppriv->bSetRxBssid = _FALSE;
++		sprintf(extra, "Received packet OK:%d CRC error:%d ,Filter out:%d", padapter->mppriv.rx_pktcount, padapter->mppriv.rx_crcerrpktcount, padapter->mppriv.rx_pktcount_filter_out);
++	} else if (bQueryPhy) {
++		_rtw_memset(&rx_counter, 0, sizeof(struct dbg_rx_counter));
++		rtw_dump_phy_rx_counters(padapter, &rx_counter);
++
++		RTW_INFO("%s: OFDM_FA =%d\n", __func__, rx_counter.rx_ofdm_fa);
++		RTW_INFO("%s: CCK_FA =%d\n", __func__, rx_counter.rx_cck_fa);
++		sprintf(extra, "Phy Received packet OK:%d CRC error:%d FA Counter: %d", rx_counter.rx_pkt_ok, rx_counter.rx_pkt_crc_error, rx_counter.rx_cck_fa + rx_counter.rx_ofdm_fa);
++
++
++	} else if (bQueryMac) {
++		_rtw_memset(&rx_counter, 0, sizeof(struct dbg_rx_counter));
++		rtw_dump_mac_rx_counters(padapter, &rx_counter);
++		sprintf(extra, "Mac Received packet OK: %d , CRC error: %d , Drop Packets: %d\n",
++			rx_counter.rx_pkt_ok, rx_counter.rx_pkt_crc_error, rx_counter.rx_pkt_drop);
++
++	}
++
++	if (bmon == 1) {
++		ret = sscanf(input, "mon=%d", &bmon);
++
++		if (bmon == 1) {
++			pmppriv->rx_bindicatePkt = _TRUE;
++			sprintf(extra, "Indicating Receive Packet to network start\n");
++		} else {
++			pmppriv->rx_bindicatePkt = _FALSE;
++			sprintf(extra, "Indicating Receive Packet to network Stop\n");
++		}
++	}
++	if (bSmpCfg == 1) {
++		ret = sscanf(input, "smpcfg=%d", &bSmpCfg);
++
++		if (bSmpCfg == 1) {
++			pmppriv->bRTWSmbCfg = _TRUE;
++			sprintf(extra , "Indicate By Simple Config Format\n");
++			SetPacketRx(padapter, _TRUE, _TRUE);
++		} else {
++			pmppriv->bRTWSmbCfg = _FALSE;
++			sprintf(extra , "Indicate By Normal Format\n");
++			SetPacketRx(padapter, _TRUE, _FALSE);
++		}
++	}
++
++	if (pmppriv->bloopback == _TRUE) {
++		sprintf(extra , "Enter MAC LoopBack mode\n");
++		_rtw_write32(padapter, 0x100, 0xB0106FF);
++		RTW_INFO("0x100 :0x%x" , _rtw_read32(padapter, 0x100));
++		_rtw_write16(padapter, 0x608, 0x30c);
++		RTW_INFO("0x100 :0x%x" , _rtw_read32(padapter, 0x608));
++	}
++
++	wrqu->length = strlen(extra) + 1;
++
++	return 0;
++}
++
++
++int rtw_mp_trx_query(struct net_device *dev,
++		     struct iw_request_info *info,
++		     struct iw_point *wrqu, char *extra)
++{
++	u32 txok, txfail, rxok, rxfail, rxfilterout;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	PMPT_CONTEXT	pMptCtx		=	&(padapter->mppriv.MptCtx);
++	RT_PMAC_TX_INFO	PMacTxInfo	=	pMptCtx->PMacTxInfo;
++
++	if (PMacTxInfo.bEnPMacTx == TRUE)
++		txok = hal_mpt_query_phytxok(padapter);
++	else
++		txok = padapter->mppriv.tx.sended;
++
++	txfail = 0;
++	rxok = padapter->mppriv.rx_pktcount;
++	rxfail = padapter->mppriv.rx_crcerrpktcount;
++	rxfilterout = padapter->mppriv.rx_pktcount_filter_out;
++
++	_rtw_memset(extra, '\0', 128);
++
++	sprintf(extra, "Tx OK:%d, Tx Fail:%d, Rx OK:%d, CRC error:%d ,Rx Filter out:%d\n", txok, txfail, rxok, rxfail, rxfilterout);
++
++	wrqu->length = strlen(extra) + 1;
++
++	return 0;
++}
++
++
++int rtw_mp_pwrtrk(struct net_device *dev,
++		  struct iw_request_info *info,
++		  struct iw_point *wrqu, char *extra)
++{
++	u8 enable;
++	u32 thermal;
++	s32 ret;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(padapter);
++	u8		input[wrqu->length];
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	_rtw_memset(extra, 0, wrqu->length);
++
++	enable = 1;
++	if (wrqu->length > 1) {
++		/* not empty string*/
++		if (strncmp(input, "stop", 4) == 0) {
++			enable = 0;
++			sprintf(extra, "mp tx power tracking stop");
++		} else if (sscanf(input, "ther=%d", &thermal) == 1) {
++			ret = SetThermalMeter(padapter, (u8)thermal);
++			if (ret == _FAIL)
++				return -EPERM;
++			sprintf(extra, "mp tx power tracking start,target value=%d ok", thermal);
++		} else
++			return -EINVAL;
++	}
++
++	ret = SetPowerTracking(padapter, enable);
++	if (ret == _FAIL)
++		return -EPERM;
++
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++
++
++int rtw_mp_psd(struct net_device *dev,
++	       struct iw_request_info *info,
++	       struct iw_point *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	u8		input[wrqu->length];
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	strcpy(extra, input);
++
++	wrqu->length = mp_query_psd(padapter, extra);
++
++	return 0;
++}
++
++
++int rtw_mp_thermal(struct net_device *dev,
++		   struct iw_request_info *info,
++		   struct iw_point *wrqu, char *extra)
++{
++	u8 val;
++	int bwrite = 1;
++
++#ifdef CONFIG_RTL8188E
++	u16 addr = EEPROM_THERMAL_METER_88E;
++#endif
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) || defined(CONFIG_RTL8814A)
++	u16 addr = EEPROM_THERMAL_METER_8812;
++#endif
++#ifdef CONFIG_RTL8192E
++	u16 addr = EEPROM_THERMAL_METER_8192E;
++#endif
++#ifdef CONFIG_RTL8723B
++	u16 addr = EEPROM_THERMAL_METER_8723B;
++#endif
++#ifdef CONFIG_RTL8703B
++	u16 addr = EEPROM_THERMAL_METER_8703B;
++#endif
++#ifdef CONFIG_RTL8723D
++	u16 addr = EEPROM_THERMAL_METER_8723D;
++#endif
++#ifdef CONFIG_RTL8188F
++	u16 addr = EEPROM_THERMAL_METER_8188F;
++#endif
++#ifdef CONFIG_RTL8822B
++	u16 addr = EEPROM_THERMAL_METER_8822B;
++#endif
++#ifdef CONFIG_RTL8821C
++	u16 addr = EEPROM_THERMAL_METER_8821C;
++#endif
++	u16 cnt = 1;
++	u16 max_available_size = 0;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	if (copy_from_user(extra, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	bwrite = strncmp(extra, "write", 6);/* strncmp TRUE is 0*/
++
++	GetThermalMeter(padapter, &val);
++
++	if (bwrite == 0) {
++		/*RTW_INFO("to write val:%d",val);*/
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_available_size, _FALSE);
++		if (2 > max_available_size) {
++			RTW_INFO("no available efuse!\n");
++			return -EFAULT;
++		}
++		if (rtw_efuse_map_write(padapter, addr, cnt, &val) == _FAIL) {
++			RTW_INFO("rtw_efuse_map_write error\n");
++			return -EFAULT;
++		}
++		sprintf(extra, " efuse write ok :%d", val);
++	} else
++		sprintf(extra, "%d", val);
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++
++
++int rtw_mp_reset_stats(struct net_device *dev,
++		       struct iw_request_info *info,
++		       struct iw_point *wrqu, char *extra)
++{
++	struct mp_priv *pmp_priv;
++	struct pkt_attrib *pattrib;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	pmp_priv = &padapter->mppriv;
++
++	pmp_priv->tx.sended = 0;
++	pmp_priv->tx_pktcount = 0;
++	pmp_priv->rx_pktcount = 0;
++	pmp_priv->rx_pktcount_filter_out = 0;
++	pmp_priv->rx_crcerrpktcount = 0;
++
++	rtw_reset_phy_rx_counters(padapter);
++	rtw_reset_mac_rx_counters(padapter);
++
++	_rtw_memset(extra, 0, wrqu->length);
++	sprintf(extra, "mp_reset_stats ok\n");
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++
++int rtw_mp_dump(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra)
++{
++	struct mp_priv *pmp_priv;
++	struct pkt_attrib *pattrib;
++	u32 value;
++	u8		input[wrqu->length];
++	u8 rf_type, path_nums = 0;
++	u32 i, j = 1, path;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	pmp_priv = &padapter->mppriv;
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	if (strncmp(input, "all", 4) == 0) {
++		mac_reg_dump(RTW_DBGDUMP, padapter);
++		bb_reg_dump(RTW_DBGDUMP, padapter);
++		rf_reg_dump(RTW_DBGDUMP, padapter);
++	}
++	return 0;
++}
++
++
++int rtw_mp_phypara(struct net_device *dev,
++		   struct iw_request_info *info,
++		   struct iw_point *wrqu, char *extra)
++{
++
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(padapter);
++	char	input[wrqu->length];
++	u32		valxcap, ret;
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	RTW_INFO("%s:iwpriv in=%s\n", __func__, input);
++
++	ret = sscanf(input, "xcap=%d", &valxcap);
++
++	pHalData->CrystalCap = (u8)valxcap;
++	hal_set_crystal_cap(padapter , valxcap);
++
++	sprintf(extra, "Set xcap=%d", valxcap);
++	wrqu->length = strlen(extra) + 1;
++
++	return 0;
++
++}
++
++
++int rtw_mp_SetRFPath(struct net_device *dev,
++		     struct iw_request_info *info,
++		     struct iw_point *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	char	input[wrqu->length];
++	int		bMain = 1, bTurnoff = 1;
++
++	RTW_INFO("%s:iwpriv in=%s\n", __func__, input);
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	bMain = strncmp(input, "1", 2); /* strncmp TRUE is 0*/
++	bTurnoff = strncmp(input, "0", 3); /* strncmp TRUE is 0*/
++
++	_rtw_memset(extra, 0, wrqu->length);
++
++	if (bMain == 0) {
++		MP_PHY_SetRFPathSwitch(padapter, _TRUE);
++		RTW_INFO("%s:PHY_SetRFPathSwitch=TRUE\n", __func__);
++		sprintf(extra, "mp_setrfpath Main\n");
++
++	} else if (bTurnoff == 0) {
++		MP_PHY_SetRFPathSwitch(padapter, _FALSE);
++		RTW_INFO("%s:PHY_SetRFPathSwitch=FALSE\n", __func__);
++		sprintf(extra, "mp_setrfpath Aux\n");
++	}
++
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++
++int rtw_mp_QueryDrv(struct net_device *dev,
++		    struct iw_request_info *info,
++		    union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	char	input[wrqu->data.length];
++	int	qAutoLoad = 1;
++
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++
++	if (copy_from_user(input, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++	RTW_INFO("%s:iwpriv in=%s\n", __func__, input);
++
++	qAutoLoad = strncmp(input, "autoload", 8); /* strncmp TRUE is 0*/
++
++	if (qAutoLoad == 0) {
++		RTW_INFO("%s:qAutoLoad\n", __func__);
++
++		if (pHalData->bautoload_fail_flag)
++			sprintf(extra, "fail");
++		else
++			sprintf(extra, "ok");
++	}
++	wrqu->data.length = strlen(extra) + 1;
++	return 0;
++}
++
++
++int rtw_mp_PwrCtlDM(struct net_device *dev,
++		    struct iw_request_info *info,
++		    struct iw_point *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	u8		input[wrqu->length];
++	int		bstart = 1;
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	bstart = strncmp(input, "start", 5); /* strncmp TRUE is 0*/
++	if (bstart == 0) {
++		sprintf(extra, "PwrCtlDM start\n");
++		MPT_PwrCtlDM(padapter, 1);
++	} else {
++		sprintf(extra, "PwrCtlDM stop\n");
++		MPT_PwrCtlDM(padapter, 0);
++	}
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++int rtw_mp_iqk(struct net_device *dev,
++		 struct iw_request_info *info,
++		 struct iw_point *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	rtw_mp_trigger_iqk(padapter);
++
++	return 0;
++}
++
++int rtw_mp_lck(struct net_device *dev,
++		 struct iw_request_info *info,
++		 struct iw_point *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	rtw_mp_trigger_lck(padapter);
++
++	return 0;
++}
++
++int rtw_mp_getver(struct net_device *dev,
++		  struct iw_request_info *info,
++		  union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	struct mp_priv *pmp_priv;
++
++	pmp_priv = &padapter->mppriv;
++
++	if (copy_from_user(extra, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++
++	sprintf(extra, "rtwpriv=%d\n", RTWPRIV_VER_INFO);
++	wrqu->data.length = strlen(extra);
++	return 0;
++}
++
++
++int rtw_mp_mon(struct net_device *dev,
++	       struct iw_request_info *info,
++	       union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct hal_ops *pHalFunc = &padapter->HalFunc;
++	NDIS_802_11_NETWORK_INFRASTRUCTURE networkType;
++	int bstart = 1, bstop = 1;
++
++	networkType = Ndis802_11Infrastructure;
++	if (copy_from_user(extra, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++
++	rtw_pm_set_ips(padapter, IPS_NONE);
++	LeaveAllPowerSaveMode(padapter);
++
++#ifdef CONFIG_MP_INCLUDED
++	if (init_mp_priv(padapter) == _FAIL)
++		RTW_INFO("%s: initialize MP private data Fail!\n", __func__);
++	padapter->mppriv.channel = 6;
++
++	bstart = strncmp(extra, "start", 5); /* strncmp TRUE is 0*/
++	bstop = strncmp(extra, "stop", 4); /* strncmp TRUE is 0*/
++	if (bstart == 0) {
++		mp_join(padapter, WIFI_FW_ADHOC_STATE);
++		SetPacketRx(padapter, _TRUE, _FALSE);
++		SetChannel(padapter);
++		pmp_priv->rx_bindicatePkt = _TRUE;
++		pmp_priv->bRTWSmbCfg = _TRUE;
++		sprintf(extra, "monitor mode start\n");
++	} else if (bstop == 0) {
++		SetPacketRx(padapter, _FALSE, _FALSE);
++		pmp_priv->rx_bindicatePkt = _FALSE;
++		pmp_priv->bRTWSmbCfg = _FALSE;
++		padapter->registrypriv.mp_mode = 1;
++		pHalFunc->hal_deinit(padapter);
++		padapter->registrypriv.mp_mode = 0;
++		pHalFunc->hal_init(padapter);
++		/*rtw_disassoc_cmd(padapter, 0, _TRUE);*/
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++			rtw_disassoc_cmd(padapter, 500, _TRUE);
++			rtw_indicate_disconnect(padapter, 0, _FALSE);
++			/*rtw_free_assoc_resources(padapter, 1);*/
++		}
++		rtw_pm_set_ips(padapter, IPS_NORMAL);
++		sprintf(extra, "monitor mode Stop\n");
++	}
++#endif
++	wrqu->data.length = strlen(extra);
++	return 0;
++}
++
++int rtw_mp_pretx_proc(PADAPTER padapter, u8 bStartTest, char *extra)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(padapter);
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	PMPT_CONTEXT		pMptCtx = &(padapter->mppriv.MptCtx);
++
++	switch (pmp_priv->mode) {
++
++	case MP_PACKET_TX:
++		if (bStartTest == 0) {
++			pmp_priv->tx.stop = 1;
++			pmp_priv->mode = MP_ON;
++			sprintf(extra, "Stop continuous Tx");
++		} else if (pmp_priv->tx.stop == 1) {
++			sprintf(extra, "%s\nStart continuous DA=ffffffffffff len=1500 count=%u\n", extra, pmp_priv->tx.count);
++			pmp_priv->tx.stop = 0;
++			SetPacketTx(padapter);
++		} else
++			return -EFAULT;
++		return 0;
++	case MP_SINGLE_TONE_TX:
++		if (bStartTest != 0)
++			sprintf(extra, "%s\nStart continuous DA=ffffffffffff len=1500\n infinite=yes.", extra);
++		SetSingleToneTx(padapter, (u8)bStartTest);
++		break;
++	case MP_CONTINUOUS_TX:
++		if (bStartTest != 0)
++			sprintf(extra, "%s\nStart continuous DA=ffffffffffff len=1500\n infinite=yes.", extra);
++		SetContinuousTx(padapter, (u8)bStartTest);
++		break;
++	case MP_CARRIER_SUPPRISSION_TX:
++		if (bStartTest != 0) {
++			if (HwRateToMPTRate(pmp_priv->rateidx) <= MPT_RATE_11M)
++				sprintf(extra, "%s\nStart continuous DA=ffffffffffff len=1500\n infinite=yes.", extra);
++			else
++				sprintf(extra, "%s\nSpecify carrier suppression but not CCK rate", extra);
++		}
++		SetCarrierSuppressionTx(padapter, (u8)bStartTest);
++		break;
++	case MP_SINGLE_CARRIER_TX:
++		if (bStartTest != 0)
++			sprintf(extra, "%s\nStart continuous DA=ffffffffffff len=1500\n infinite=yes.", extra);
++		SetSingleCarrierTx(padapter, (u8)bStartTest);
++		break;
++
++	default:
++		sprintf(extra, "Error! Continuous-Tx is not on-going.");
++		return -EFAULT;
++	}
++
++	if (bStartTest == 1 && pmp_priv->mode != MP_ON) {
++		struct mp_priv *pmp_priv = &padapter->mppriv;
++
++		if (pmp_priv->tx.stop == 0) {
++			pmp_priv->tx.stop = 1;
++			rtw_msleep_os(5);
++		}
++#ifdef CONFIG_80211N_HT
++		pmp_priv->tx.attrib.ht_en = 1;
++#endif
++		pmp_priv->tx.stop = 0;
++		pmp_priv->tx.count = 1;
++		SetPacketTx(padapter);
++	} else
++		pmp_priv->mode = MP_ON;
++
++#if defined(CONFIG_RTL8812A)
++	if (IS_HARDWARE_TYPE_8812AU(padapter)) {
++		/* <20130425, Kordan> Turn off OFDM Rx to prevent from CCA causing Tx hang.*/
++		if (pmp_priv->mode == MP_PACKET_TX)
++			PHY_SetBBReg(padapter, rCCAonSec_Jaguar, BIT3, 1);
++		else
++			PHY_SetBBReg(padapter, rCCAonSec_Jaguar, BIT3, 0);
++	}
++#endif
++
++	return 0;
++}
++
++
++int rtw_mp_tx(struct net_device *dev,
++	      struct iw_request_info *info,
++	      union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(padapter);
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	PMPT_CONTEXT		pMptCtx = &(padapter->mppriv.MptCtx);
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++
++	u32 bandwidth = 0, sg = 0, channel = 6, txpower = 40, rate = 108, ant = 0, txmode = 1, count = 0;
++	u8 i = 0, j = 0, bStartTest = 1, status = 0, Idx = 0, tmpU1B = 0;
++	u16 antenna = 0;
++
++	if (copy_from_user(extra, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++	RTW_INFO("extra = %s\n", extra);
++#ifdef CONFIG_CONCURRENT_MODE
++	if (!is_primary_adapter(padapter)) {
++		sprintf(extra, "Error: MP mode can't support Virtual Adapter, Please to use main Adapter.\n");
++		wrqu->data.length = strlen(extra);
++		return 0;
++	}
++#endif
++
++	if (strncmp(extra, "stop", 3) == 0) {
++		bStartTest = 0; /* To set Stop*/
++		pmp_priv->tx.stop = 1;
++		sprintf(extra, "Stop continuous Tx");
++		status = rtw_mp_pretx_proc(padapter, bStartTest, extra);
++		wrqu->data.length = strlen(extra);
++		return status;
++	} else if (strncmp(extra, "count", 5) == 0) {
++		if (sscanf(extra, "count=%d", &count) < 1)
++			RTW_INFO("Got Count=%d]\n", count);
++		pmp_priv->tx.count = count;
++		return 0;
++	} else if (strncmp(extra, "setting", 7) == 0) {
++		_rtw_memset(extra, 0, wrqu->data.length);
++		sprintf(extra, "Current Setting :\n Channel:%d", pmp_priv->channel);
++		sprintf(extra, "%s\n Bandwidth:%d", extra, pmp_priv->bandwidth);
++		sprintf(extra, "%s\n Rate index:%d", extra, pmp_priv->rateidx);
++		sprintf(extra, "%s\n TxPower index:%d", extra, pmp_priv->txpoweridx);
++		sprintf(extra, "%s\n Antenna TxPath:%d", extra, pmp_priv->antenna_tx);
++		sprintf(extra, "%s\n Antenna RxPath:%d", extra, pmp_priv->antenna_rx);
++		sprintf(extra, "%s\n MP Mode:%d", extra, pmp_priv->mode);
++		wrqu->data.length = strlen(extra);
++		return 0;
++#ifdef CONFIG_MP_VHT_HW_TX_MODE
++	} else if (strncmp(extra, "pmact", 5) == 0) {
++		if (strncmp(extra, "pmact=", 6) == 0) {
++			_rtw_memset(&pMptCtx->PMacTxInfo, 0, sizeof(pMptCtx->PMacTxInfo));
++			if (strncmp(extra, "pmact=start", 11) == 0) {
++				pMptCtx->PMacTxInfo.bEnPMacTx = _TRUE;
++				sprintf(extra, "Set PMac Tx Mode start\n");
++			} else {
++				pMptCtx->PMacTxInfo.bEnPMacTx = _FALSE;
++				sprintf(extra, "Set PMac Tx Mode Stop\n");
++			}
++			if (pMptCtx->bldpc == TRUE)
++				pMptCtx->PMacTxInfo.bLDPC = _TRUE;
++
++			if (pMptCtx->bstbc == TRUE)
++				pMptCtx->PMacTxInfo.bSTBC = _TRUE;
++
++			pMptCtx->PMacTxInfo.bSPreamble = pmp_priv->preamble;
++			pMptCtx->PMacTxInfo.bSGI = pmp_priv->preamble;
++			pMptCtx->PMacTxInfo.BandWidth = pmp_priv->bandwidth;
++			pMptCtx->PMacTxInfo.TX_RATE = HwRateToMPTRate(pmp_priv->rateidx);
++
++			pMptCtx->PMacTxInfo.Mode = pMptCtx->HWTxmode;
++
++			pMptCtx->PMacTxInfo.NDP_sound = FALSE;/*(Adapter.PacketType == NDP_PKT)?TRUE:FALSE;*/
++
++			if (padapter->mppriv.pktInterval == 0)
++				pMptCtx->PMacTxInfo.PacketPeriod = 100;
++			else
++				pMptCtx->PMacTxInfo.PacketPeriod = padapter->mppriv.pktInterval;
++
++			if (padapter->mppriv.pktLength < 1000)
++				pMptCtx->PMacTxInfo.PacketLength = 1000;
++			else
++				pMptCtx->PMacTxInfo.PacketLength = padapter->mppriv.pktLength;
++
++			pMptCtx->PMacTxInfo.PacketPattern  = rtw_random32() % 0xFF;
++
++			if (padapter->mppriv.tx_pktcount != 0)
++				pMptCtx->PMacTxInfo.PacketCount = padapter->mppriv.tx_pktcount;
++
++			pMptCtx->PMacTxInfo.Ntx = 0;
++			for (Idx = 16; Idx < 20; Idx++) {
++				tmpU1B = (padapter->mppriv.antenna_tx >> Idx) & 1;
++				if (tmpU1B)
++					pMptCtx->PMacTxInfo.Ntx++;
++			}
++
++			_rtw_memset(pMptCtx->PMacTxInfo.MacAddress, 0xFF, ETH_ALEN);
++
++			PMAC_Get_Pkt_Param(&pMptCtx->PMacTxInfo, &pMptCtx->PMacPktInfo);
++
++			if (MPT_IS_CCK_RATE(pMptCtx->PMacTxInfo.TX_RATE))
++
++				CCK_generator(&pMptCtx->PMacTxInfo, &pMptCtx->PMacPktInfo);
++			else {
++				PMAC_Nsym_generator(&pMptCtx->PMacTxInfo, &pMptCtx->PMacPktInfo);
++				/* 24 BIT*/
++				L_SIG_generator(pMptCtx->PMacPktInfo.N_sym, &pMptCtx->PMacTxInfo, &pMptCtx->PMacPktInfo);
++			}
++			/*	48BIT*/
++			if (MPT_IS_HT_RATE(pMptCtx->PMacTxInfo.TX_RATE))
++				HT_SIG_generator(&pMptCtx->PMacTxInfo, &pMptCtx->PMacPktInfo);
++			else if (MPT_IS_VHT_RATE(pMptCtx->PMacTxInfo.TX_RATE)) {
++				/*	48BIT*/
++				VHT_SIG_A_generator(&pMptCtx->PMacTxInfo, &pMptCtx->PMacPktInfo);
++
++				/*	26/27/29 BIT  & CRC 8 BIT*/
++				VHT_SIG_B_generator(&pMptCtx->PMacTxInfo);
++
++				/* 32 BIT*/
++				VHT_Delimiter_generator(&pMptCtx->PMacTxInfo);
++			}
++
++			mpt_ProSetPMacTx(padapter);
++
++		} else if (strncmp(extra, "pmact,mode=", 11) == 0) {
++			int txmode = 0;
++
++			if (sscanf(extra, "pmact,mode=%d", &txmode) > 0) {
++				if (txmode == 1) {
++					pMptCtx->HWTxmode = CONTINUOUS_TX;
++					sprintf(extra, "\t Config HW Tx mode = CONTINUOUS_TX\n");
++				} else if (txmode == 2) {
++					pMptCtx->HWTxmode = OFDM_Single_Tone_TX;
++					sprintf(extra, "\t Config HW Tx mode = OFDM_Single_Tone_TX\n");
++				} else {
++					pMptCtx->HWTxmode = PACKETS_TX;
++					sprintf(extra, "\t Config HW Tx mode = PACKETS_TX\n");
++				}
++			} else {
++				pMptCtx->HWTxmode = PACKETS_TX;
++				sprintf(extra, "\t Config HW Tx mode=\n 0 = PACKETS_TX\n 1 = CONTINUOUS_TX\n 2 = OFDM_Single_Tone_TX");
++			}
++		} else if (strncmp(extra, "pmact,", 6) == 0) {
++			int PacketPeriod = 0, PacketLength = 0, PacketCout = 0;
++			int bldpc = 0, bstbc = 0;
++
++			if (sscanf(extra, "pmact,period=%d", &PacketPeriod) > 0) {
++				padapter->mppriv.pktInterval = PacketPeriod;
++				RTW_INFO("PacketPeriod=%d\n", padapter->mppriv.pktInterval);
++				sprintf(extra, "PacketPeriod [1~255]= %d\n", padapter->mppriv.pktInterval);
++
++			} else if (sscanf(extra, "pmact,length=%d", &PacketLength) > 0) {
++				padapter->mppriv.pktLength = PacketLength;
++				RTW_INFO("PacketPeriod=%d\n", padapter->mppriv.pktLength);
++				sprintf(extra, "PacketLength[~65535]=%d\n", padapter->mppriv.pktLength);
++
++			} else if (sscanf(extra, "pmact,count=%d", &PacketCout) > 0) {
++				padapter->mppriv.tx_pktcount = PacketCout;
++				RTW_INFO("Packet Cout =%d\n", padapter->mppriv.tx_pktcount);
++				sprintf(extra, "Packet Cout =%d\n", padapter->mppriv.tx_pktcount);
++
++			} else if (sscanf(extra, "pmact,ldpc=%d", &bldpc) > 0) {
++				pMptCtx->bldpc = bldpc;
++				RTW_INFO("Set LDPC =%d\n", pMptCtx->bldpc);
++				sprintf(extra, "Set LDPC =%d\n", pMptCtx->bldpc);
++
++			} else if (sscanf(extra, "pmact,stbc=%d", &bstbc) > 0) {
++				pMptCtx->bstbc = bstbc;
++				RTW_INFO("Set STBC =%d\n", pMptCtx->bstbc);
++				sprintf(extra, "Set STBC =%d\n", pMptCtx->bstbc);
++			} else
++				sprintf(extra, "\n period={1~255}\n length={1000~65535}\n count={0~}\n ldpc={0/1}\n stbc={0/1}");
++
++		}
++
++		wrqu->data.length = strlen(extra);
++		return 0;
++#endif
++	} else {
++
++		if (sscanf(extra, "ch=%d,bw=%d,rate=%d,pwr=%d,ant=%d,tx=%d", &channel, &bandwidth, &rate, &txpower, &ant, &txmode) < 6) {
++			RTW_INFO("Invalid format [ch=%d,bw=%d,rate=%d,pwr=%d,ant=%d,tx=%d]\n", channel, bandwidth, rate, txpower, ant, txmode);
++			_rtw_memset(extra, 0, wrqu->data.length);
++			sprintf(extra, "\n Please input correct format as bleow:\n");
++			sprintf(extra, "%s\t ch=%d,bw=%d,rate=%d,pwr=%d,ant=%d,tx=%d\n", extra, channel, bandwidth, rate, txpower, ant, txmode);
++			sprintf(extra, "%s\n [ ch : BGN = <1~14> , A or AC = <36~165> ]", extra);
++			sprintf(extra, "%s\n [ bw : Bandwidth: 0 = 20M, 1 = 40M, 2 = 80M ]", extra);
++			sprintf(extra, "%s\n [ rate :	CCK: 1 2 5.5 11M X 2 = < 2 4 11 22 >]", extra);
++			sprintf(extra, "%s\n [		OFDM: 6 9 12 18 24 36 48 54M X 2 = < 12 18 24 36 48 72 96 108>", extra);
++			sprintf(extra, "%s\n [		HT 1S2SS MCS0 ~ MCS15 : < [MCS0]=128 ~ [MCS7]=135 ~ [MCS15]=143 >", extra);
++			sprintf(extra, "%s\n [		HT 3SS MCS16 ~ MCS32 : < [MCS16]=144 ~ [MCS23]=151 ~ [MCS32]=159 >", extra);
++			sprintf(extra, "%s\n [		VHT 1SS MCS0 ~ MCS9 : < [MCS0]=160 ~ [MCS9]=169 >", extra);
++			sprintf(extra, "%s\n [ txpower : 1~63 power index", extra);
++			sprintf(extra, "%s\n [ ant : <A = 1, B = 2, C = 4, D = 8> ,2T ex: AB=3 BC=6 CD=12", extra);
++			sprintf(extra, "%s\n [ txmode : < 0 = CONTINUOUS_TX, 1 = PACKET_TX, 2 = SINGLE_TONE_TX, 3 = CARRIER_SUPPRISSION_TX, 4 = SINGLE_CARRIER_TX>\n", extra);
++			wrqu->data.length = strlen(extra);
++			return status;
++
++		} else {
++			RTW_INFO("Got format [ch=%d,bw=%d,rate=%d,pwr=%d,ant=%d,tx=%d]\n", channel, bandwidth, rate, txpower, ant, txmode);
++			_rtw_memset(extra, 0, wrqu->data.length);
++			sprintf(extra, "Change Current channel %d to channel %d", padapter->mppriv.channel , channel);
++			padapter->mppriv.channel = channel;
++			SetChannel(padapter);
++			pHalData->CurrentChannel = channel;
++
++			if (bandwidth == 1)
++				bandwidth = CHANNEL_WIDTH_40;
++			else if (bandwidth == 2)
++				bandwidth = CHANNEL_WIDTH_80;
++			sprintf(extra, "%s\nChange Current Bandwidth %d to Bandwidth %d", extra, padapter->mppriv.bandwidth , bandwidth);
++			padapter->mppriv.bandwidth = (u8)bandwidth;
++			padapter->mppriv.preamble = sg;
++			SetBandwidth(padapter);
++			pHalData->CurrentChannelBW = bandwidth;
++
++			sprintf(extra, "%s\nSet power level :%d", extra, txpower);
++			padapter->mppriv.txpoweridx = (u8)txpower;
++			pMptCtx->TxPwrLevel[ODM_RF_PATH_A] = (u8)txpower;
++			pMptCtx->TxPwrLevel[ODM_RF_PATH_B] = (u8)txpower;
++			pMptCtx->TxPwrLevel[ODM_RF_PATH_C] = (u8)txpower;
++			pMptCtx->TxPwrLevel[ODM_RF_PATH_D]  = (u8)txpower;
++
++			RTW_INFO("%s: bw=%d sg=%d\n", __func__, bandwidth, sg);
++
++			if (rate <= 0x7f)
++				rate = wifirate2_ratetbl_inx((u8)rate);
++			else if (rate < 0xC8)
++				rate = (rate - 0x80 + MPT_RATE_MCS0);
++			/*HT  rate 0x80(MCS0)  ~ 0x8F(MCS15) ~ 0x9F(MCS31) 128~159
++			VHT1SS~2SS rate 0xA0 (VHT1SS_MCS0 44) ~ 0xB3 (VHT2SS_MCS9 #63) 160~179
++			VHT rate 0xB4 (VHT3SS_MCS0 64) ~ 0xC7 (VHT2SS_MCS9 #83) 180~199
++			else
++			VHT rate 0x90(VHT1SS_MCS0) ~ 0x99(VHT1SS_MCS9) 144~153
++			rate =(rate - MPT_RATE_VHT1SS_MCS0);
++			*/
++			RTW_INFO("%s: rate index=%d\n", __func__, rate);
++			if (rate >= MPT_RATE_LAST)
++				return -EINVAL;
++			sprintf(extra, "%s\nSet data rate to %d index %d", extra, padapter->mppriv.rateidx, rate);
++
++			padapter->mppriv.rateidx = rate;
++			pMptCtx->MptRateIndex = rate;
++			SetDataRate(padapter);
++
++			sprintf(extra, "%s\nSet Antenna Path :%d",  extra, ant);
++			switch (ant) {
++			case 1:
++				antenna = ANTENNA_A;
++				break;
++			case 2:
++				antenna = ANTENNA_B;
++				break;
++			case 4:
++				antenna = ANTENNA_C;
++				break;
++			case 8:
++				antenna = ANTENNA_D;
++				break;
++			case 3:
++				antenna = ANTENNA_AB;
++				break;
++			case 5:
++				antenna = ANTENNA_AC;
++				break;
++			case 9:
++				antenna = ANTENNA_AD;
++				break;
++			case 6:
++				antenna = ANTENNA_BC;
++				break;
++			case 10:
++				antenna = ANTENNA_BD;
++				break;
++			case 12:
++				antenna = ANTENNA_CD;
++				break;
++			case 7:
++				antenna = ANTENNA_ABC;
++				break;
++			case 14:
++				antenna = ANTENNA_BCD;
++				break;
++			case 11:
++				antenna = ANTENNA_ABD;
++				break;
++			case 15:
++				antenna = ANTENNA_ABCD;
++				break;
++			}
++			RTW_INFO("%s: antenna=0x%x\n", __func__, antenna);
++			padapter->mppriv.antenna_tx = antenna;
++			padapter->mppriv.antenna_rx = antenna;
++			pHalData->AntennaTxPath = antenna;
++			SetAntenna(padapter);
++
++			if (txmode == 0)
++				pmp_priv->mode = MP_CONTINUOUS_TX;
++			else if (txmode == 1) {
++				pmp_priv->mode = MP_PACKET_TX;
++				pmp_priv->tx.count = count;
++			} else if (txmode == 2)
++				pmp_priv->mode = MP_SINGLE_TONE_TX;
++			else if (txmode == 3)
++				pmp_priv->mode = MP_CARRIER_SUPPRISSION_TX;
++			else if (txmode == 4)
++				pmp_priv->mode = MP_SINGLE_CARRIER_TX;
++
++			status = rtw_mp_pretx_proc(padapter, bStartTest, extra);
++		}
++
++	}
++
++	wrqu->data.length = strlen(extra);
++	return status;
++}
++
++
++int rtw_mp_rx(struct net_device *dev,
++	      struct iw_request_info *info,
++	      union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(padapter);
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	PMPT_CONTEXT		pMptCtx = &(padapter->mppriv.MptCtx);
++
++	u32 bandwidth = 0, sg = 0, channel = 6, ant = 0;
++	u16 antenna = 0;
++	u8 bStartRx = 0;
++
++	if (copy_from_user(extra, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (!is_primary_adapter(padapter)) {
++		sprintf(extra, "Error: MP mode can't support Virtual Adapter, Please to use main Adapter.\n");
++		wrqu->data.length = strlen(extra);
++		return 0;
++	}
++#endif
++
++	if (strncmp(extra, "stop", 4) == 0) {
++		_rtw_memset(extra, 0, wrqu->data.length);
++		SetPacketRx(padapter, bStartRx, _FALSE);
++		pmp_priv->bmac_filter = _FALSE;
++		sprintf(extra, "Received packet OK:%d CRC error:%d ,Filter out:%d", padapter->mppriv.rx_pktcount, padapter->mppriv.rx_crcerrpktcount, padapter->mppriv.rx_pktcount_filter_out);
++		wrqu->data.length = strlen(extra);
++		return 0;
++
++	} else if (sscanf(extra, "ch=%d,bw=%d,ant=%d", &channel, &bandwidth, &ant) < 3) {
++		RTW_INFO("Invalid format [ch=%d,bw=%d,ant=%d]\n", channel, bandwidth, ant);
++		_rtw_memset(extra, 0, wrqu->data.length);
++		sprintf(extra, "\n Please input correct format as bleow:\n");
++		sprintf(extra, "%s\t ch=%d,bw=%d,ant=%d\n", extra, channel, bandwidth, ant);
++		sprintf(extra, "%s\n [ ch : BGN = <1~14> , A or AC = <36~165> ]", extra);
++		sprintf(extra, "%s\n [ bw : Bandwidth: 0 = 20M, 1 = 40M, 2 = 80M ]", extra);
++		sprintf(extra, "%s\n [ ant : <A = 1, B = 2, C = 4, D = 8> ,2T ex: AB=3 BC=6 CD=12", extra);
++		wrqu->data.length = strlen(extra);
++		return 0;
++
++	} else {
++		bStartRx = 1;
++		RTW_INFO("Got format [ch=%d,bw=%d,ant=%d]\n", channel, bandwidth, ant);
++		_rtw_memset(extra, 0, wrqu->data.length);
++		sprintf(extra, "Change Current channel %d to channel %d", padapter->mppriv.channel , channel);
++		padapter->mppriv.channel = channel;
++		SetChannel(padapter);
++		pHalData->CurrentChannel = channel;
++
++		if (bandwidth == 1)
++			bandwidth = CHANNEL_WIDTH_40;
++		else if (bandwidth == 2)
++			bandwidth = CHANNEL_WIDTH_80;
++		sprintf(extra, "%s\nChange Current Bandwidth %d to Bandwidth %d", extra, padapter->mppriv.bandwidth , bandwidth);
++		padapter->mppriv.bandwidth = (u8)bandwidth;
++		padapter->mppriv.preamble = sg;
++		SetBandwidth(padapter);
++		pHalData->CurrentChannelBW = bandwidth;
++
++		sprintf(extra, "%s\nSet Antenna Path :%d",  extra, ant);
++		switch (ant) {
++		case 1:
++			antenna = ANTENNA_A;
++			break;
++		case 2:
++			antenna = ANTENNA_B;
++			break;
++		case 4:
++			antenna = ANTENNA_C;
++			break;
++		case 8:
++			antenna = ANTENNA_D;
++			break;
++		case 3:
++			antenna = ANTENNA_AB;
++			break;
++		case 5:
++			antenna = ANTENNA_AC;
++			break;
++		case 9:
++			antenna = ANTENNA_AD;
++			break;
++		case 6:
++			antenna = ANTENNA_BC;
++			break;
++		case 10:
++			antenna = ANTENNA_BD;
++			break;
++		case 12:
++			antenna = ANTENNA_CD;
++			break;
++		case 7:
++			antenna = ANTENNA_ABC;
++			break;
++		case 14:
++			antenna = ANTENNA_BCD;
++			break;
++		case 11:
++			antenna = ANTENNA_ABD;
++			break;
++		case 15:
++			antenna = ANTENNA_ABCD;
++			break;
++		}
++		RTW_INFO("%s: antenna=0x%x\n", __func__, antenna);
++		padapter->mppriv.antenna_tx = antenna;
++		padapter->mppriv.antenna_rx = antenna;
++		pHalData->AntennaTxPath = antenna;
++		SetAntenna(padapter);
++
++		sprintf(extra, "%s\nstart Rx", extra);
++		SetPacketRx(padapter, bStartRx, _FALSE);
++	}
++	wrqu->data.length = strlen(extra);
++	return 0;
++}
++
++
++int rtw_mp_hwtx(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(padapter);
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	PMPT_CONTEXT		pMptCtx = &(padapter->mppriv.MptCtx);
++
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8821B) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++	u8		input[wrqu->data.length];
++
++	if (copy_from_user(input, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++
++	_rtw_memset(&pMptCtx->PMacTxInfo, 0, sizeof(RT_PMAC_TX_INFO));
++	_rtw_memcpy((void *)&pMptCtx->PMacTxInfo, (void *)input, sizeof(RT_PMAC_TX_INFO));
++
++	mpt_ProSetPMacTx(padapter);
++	sprintf(extra, "Set PMac Tx Mode start\n");
++
++	wrqu->data.length = strlen(extra);
++#endif
++	return 0;
++
++}
++
++int rtw_efuse_mask_file(struct net_device *dev,
++			struct iw_request_info *info,
++			union iwreq_data *wrqu, char *extra)
++{
++	char *rtw_efuse_mask_file_path;
++	u8 Status;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	_rtw_memset(maskfileBuffer, 0x00, sizeof(maskfileBuffer));
++
++	if (copy_from_user(extra, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++
++	if (strncmp(extra, "off", 3) == 0 && strlen(extra) < 4) {
++		padapter->registrypriv.boffefusemask = 1;
++		sprintf(extra, "Turn off Efuse Mask\n");
++		wrqu->data.length = strlen(extra);
++		return 0;
++	}
++	if (strncmp(extra, "on", 2) == 0 && strlen(extra) < 3) {
++		padapter->registrypriv.boffefusemask = 0;
++		sprintf(extra, "Turn on Efuse Mask\n");
++		wrqu->data.length = strlen(extra);
++		return 0;
++	}
++	rtw_efuse_mask_file_path = extra;
++
++	if (rtw_is_file_readable(rtw_efuse_mask_file_path) == _TRUE) {
++		RTW_INFO("%s do rtw_efuse_mask_file_read = %s! ,sizeof maskfileBuffer %zu\n", __func__, rtw_efuse_mask_file_path, sizeof(maskfileBuffer));
++		Status = rtw_efuse_file_read(padapter, rtw_efuse_mask_file_path, maskfileBuffer, sizeof(maskfileBuffer));
++		if (Status == _TRUE)
++			padapter->registrypriv.bFileMaskEfuse = _TRUE;
++		sprintf(extra, "efuse mask file read OK\n");
++	} else {
++		padapter->registrypriv.bFileMaskEfuse = _FALSE;
++		sprintf(extra, "efuse mask file readable FAIL\n");
++		RTW_INFO("%s rtw_is_file_readable fail!\n", __func__);
++	}
++	wrqu->data.length = strlen(extra);
++	return 0;
++}
++
++
++int rtw_efuse_file_map(struct net_device *dev,
++		       struct iw_request_info *info,
++		       union iwreq_data *wrqu, char *extra)
++{
++	char *rtw_efuse_file_map_path;
++	u8 Status;
++	PEFUSE_HAL pEfuseHal;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	pEfuseHal = &pHalData->EfuseHal;
++	if (copy_from_user(extra, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++
++	rtw_efuse_file_map_path = extra;
++
++	_rtw_memset(pEfuseHal->fakeEfuseModifiedMap, 0xFF, EFUSE_MAX_MAP_LEN);
++
++	if (rtw_is_file_readable(rtw_efuse_file_map_path) == _TRUE) {
++		RTW_INFO("%s do rtw_efuse_mask_file_read = %s!\n", __func__, rtw_efuse_file_map_path);
++		Status = rtw_efuse_file_read(padapter, rtw_efuse_file_map_path, pEfuseHal->fakeEfuseModifiedMap, sizeof(pEfuseHal->fakeEfuseModifiedMap));
++		if (Status == _TRUE)
++			sprintf(extra, "efuse file file_read OK\n");
++		else
++			sprintf(extra, "efuse file file_read FAIL\n");
++	} else {
++		sprintf(extra, "efuse file readable FAIL\n");
++		RTW_INFO("%s rtw_is_file_readable fail!\n", __func__);
++	}
++	wrqu->data.length = strlen(extra);
++	return 0;
++}
++
++#if defined(CONFIG_RTL8723B)
++int rtw_mp_SetBT(struct net_device *dev,
++		 struct iw_request_info *info,
++		 union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	struct hal_ops *pHalFunc = &padapter->HalFunc;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	BT_REQ_CMD	BtReq;
++	PMPT_CONTEXT	pMptCtx = &(padapter->mppriv.MptCtx);
++	PBT_RSP_CMD	pBtRsp = (PBT_RSP_CMD)&pMptCtx->mptOutBuf[0];
++	char	input[128];
++	char *pch, *ptmp, *token, *tmp[2] = {0x00, 0x00};
++	u8 setdata[100];
++	u8 resetbt = 0x00;
++	u8 tempval, BTStatus;
++	u8 H2cSetbtmac[6];
++	u8 u1H2CBtMpOperParm[4] = {0x01};
++	int testmode = 1, ready = 1, trxparam = 1, setgen = 1, getgen = 1, testctrl = 1, testbt = 1, readtherm = 1, setbtmac = 1;
++	u32 i = 0, ii = 0, jj = 0, kk = 0, cnts = 0, status = 0;
++	PRT_MP_FIRMWARE pBTFirmware = NULL;
++
++	if (copy_from_user(extra, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++	if (strlen(extra) < 1)
++		return -EFAULT;
++
++	RTW_INFO("%s:iwpriv in=%s\n", __func__, extra);
++	ready = strncmp(extra, "ready", 5);
++	testmode = strncmp(extra, "testmode", 8); /* strncmp TRUE is 0*/
++	trxparam = strncmp(extra, "trxparam", 8);
++	setgen = strncmp(extra, "setgen", 6);
++	getgen = strncmp(extra, "getgen", 6);
++	testctrl = strncmp(extra, "testctrl", 8);
++	testbt = strncmp(extra, "testbt", 6);
++	readtherm = strncmp(extra, "readtherm", 9);
++	setbtmac = strncmp(extra, "setbtmac", 8);
++
++	if (strncmp(extra, "dlbt", 4) == 0) {
++		pHalData->LastHMEBoxNum = 0;
++		padapter->bBTFWReady = _FALSE;
++		rtw_write8(padapter, 0xa3, 0x05);
++		BTStatus = rtw_read8(padapter, 0xa0);
++		RTW_INFO("%s: btwmap before read 0xa0 BT Status =0x%x\n", __func__, BTStatus);
++		if (BTStatus != 0x04) {
++			sprintf(extra, "BT Status not Active DLFW FAIL\n");
++			goto exit;
++		}
++
++		tempval = rtw_read8(padapter, 0x6B);
++		tempval |= BIT7;
++		rtw_write8(padapter, 0x6B, tempval);
++
++		/* Attention!! Between 0x6A[14] and 0x6A[15] setting need 100us delay*/
++		/* So don't write 0x6A[14]=1 and 0x6A[15]=0 together!*/
++		rtw_usleep_os(100);
++		/* disable BT power cut*/
++		/* 0x6A[14] = 0*/
++		tempval = rtw_read8(padapter, 0x6B);
++		tempval &= ~BIT6;
++		rtw_write8(padapter, 0x6B, tempval);
++		rtw_usleep_os(100);
++		MPT_PwrCtlDM(padapter, 0);
++		rtw_write32(padapter, 0xcc, (rtw_read32(padapter, 0xcc) | 0x00000004));
++		rtw_write32(padapter, 0x6b, (rtw_read32(padapter, 0x6b) & 0xFFFFFFEF));
++		rtw_msleep_os(600);
++		rtw_write32(padapter, 0x6b, (rtw_read32(padapter, 0x6b) | 0x00000010));
++		rtw_write32(padapter, 0xcc, (rtw_read32(padapter, 0xcc) & 0xFFFFFFFB));
++		rtw_msleep_os(1200);
++		pBTFirmware = (PRT_MP_FIRMWARE)rtw_zmalloc(sizeof(RT_MP_FIRMWARE));
++		if (pBTFirmware == NULL)
++			goto exit;
++		padapter->bBTFWReady = _FALSE;
++		FirmwareDownloadBT(padapter, pBTFirmware);
++		if (pBTFirmware)
++			rtw_mfree((u8 *)pBTFirmware, sizeof(RT_MP_FIRMWARE));
++
++		RTW_INFO("Wait for FirmwareDownloadBT fw boot!\n");
++		rtw_msleep_os(2000);
++		_rtw_memset(extra, '\0', wrqu->data.length);
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 0;
++		BtReq.paraLength = 0;
++		mptbt_BtControlProcess(padapter, &BtReq);
++		rtw_msleep_os(100);
++
++		RTW_INFO("FirmwareDownloadBT ready = 0x%x 0x%x", pMptCtx->mptOutBuf[4], pMptCtx->mptOutBuf[5]);
++		if ((pMptCtx->mptOutBuf[4] == 0x00) && (pMptCtx->mptOutBuf[5] == 0x00)) {
++
++			if (padapter->mppriv.bTxBufCkFail == _TRUE)
++				sprintf(extra, "check TxBuf Fail.\n");
++			else
++				sprintf(extra, "download FW Fail.\n");
++		} else {
++			sprintf(extra, "download FW OK.\n");
++			goto exit;
++		}
++		goto exit;
++	}
++	if (strncmp(extra, "dlfw", 4) == 0) {
++		pHalData->LastHMEBoxNum = 0;
++		padapter->bBTFWReady = _FALSE;
++		rtw_write8(padapter, 0xa3, 0x05);
++		BTStatus = rtw_read8(padapter, 0xa0);
++		RTW_INFO("%s: btwmap before read 0xa0 BT Status =0x%x\n", __func__, BTStatus);
++		if (BTStatus != 0x04) {
++			sprintf(extra, "BT Status not Active DLFW FAIL\n");
++			goto exit;
++		}
++
++		tempval = rtw_read8(padapter, 0x6B);
++		tempval |= BIT7;
++		rtw_write8(padapter, 0x6B, tempval);
++
++		/* Attention!! Between 0x6A[14] and 0x6A[15] setting need 100us delay*/
++		/* So don't write 0x6A[14]=1 and 0x6A[15]=0 together!*/
++		rtw_usleep_os(100);
++		/* disable BT power cut*/
++		/* 0x6A[14] = 0*/
++		tempval = rtw_read8(padapter, 0x6B);
++		tempval &= ~BIT6;
++		rtw_write8(padapter, 0x6B, tempval);
++		rtw_usleep_os(100);
++
++		MPT_PwrCtlDM(padapter, 0);
++		rtw_write32(padapter, 0xcc, (rtw_read32(padapter, 0xcc) | 0x00000004));
++		rtw_write32(padapter, 0x6b, (rtw_read32(padapter, 0x6b) & 0xFFFFFFEF));
++		rtw_msleep_os(600);
++		rtw_write32(padapter, 0x6b, (rtw_read32(padapter, 0x6b) | 0x00000010));
++		rtw_write32(padapter, 0xcc, (rtw_read32(padapter, 0xcc) & 0xFFFFFFFB));
++		rtw_msleep_os(1200);
++
++#if defined(CONFIG_PLATFORM_SPRD) && (MP_DRIVER == 1)
++		/* Pull up BT reset pin.*/
++		RTW_INFO("%s: pull up BT reset pin when bt start mp test\n", __func__);
++		rtw_wifi_gpio_wlan_ctrl(WLAN_BT_PWDN_ON);
++#endif
++		RTW_INFO(" FirmwareDownload!\n");
++
++#if defined(CONFIG_RTL8723B)
++		status = rtl8723b_FirmwareDownload(padapter, _FALSE);
++#endif
++		RTW_INFO("Wait for FirmwareDownloadBT fw boot!\n");
++		rtw_msleep_os(1000);
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_HaltNotify(padapter);
++		RTW_INFO("SetBT btcoex HaltNotify !\n");
++		/*hal_btcoex1ant_SetAntPath(padapter);*/
++		rtw_btcoex_SetManualControl(padapter, _TRUE);
++#endif
++		_rtw_memset(extra, '\0', wrqu->data.length);
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 0;
++		BtReq.paraLength = 0;
++		mptbt_BtControlProcess(padapter, &BtReq);
++		rtw_msleep_os(200);
++
++		RTW_INFO("FirmwareDownloadBT ready = 0x%x 0x%x", pMptCtx->mptOutBuf[4], pMptCtx->mptOutBuf[5]);
++		if ((pMptCtx->mptOutBuf[4] == 0x00) && (pMptCtx->mptOutBuf[5] == 0x00)) {
++			if (padapter->mppriv.bTxBufCkFail == _TRUE)
++				sprintf(extra, "check TxBuf Fail.\n");
++			else
++				sprintf(extra, "download FW Fail.\n");
++		} else {
++#ifdef CONFIG_BT_COEXIST
++			rtw_btcoex_SwitchBtTRxMask(padapter);
++#endif
++			rtw_msleep_os(200);
++			sprintf(extra, "download FW OK.\n");
++			goto exit;
++		}
++		goto exit;
++	}
++
++	if (strncmp(extra, "down", 4) == 0) {
++		RTW_INFO("SetBT down for to hal_init !\n");
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_SetManualControl(padapter, _FALSE);
++		rtw_btcoex_Initialize(padapter);
++#endif
++		pHalFunc->read_adapter_info(padapter);
++		pHalFunc->hal_deinit(padapter);
++		pHalFunc->hal_init(padapter);
++		rtw_pm_set_ips(padapter, IPS_NONE);
++		LeaveAllPowerSaveMode(padapter);
++		MPT_PwrCtlDM(padapter, 0);
++		rtw_write32(padapter, 0xcc, (rtw_read32(padapter, 0xcc) | 0x00000004));
++		rtw_write32(padapter, 0x6b, (rtw_read32(padapter, 0x6b) & 0xFFFFFFEF));
++		rtw_msleep_os(600);
++		/*rtw_write32(padapter, 0x6a, (rtw_read32(padapter, 0x6a)& 0xFFFFFFFE));*/
++		rtw_write32(padapter, 0x6b, (rtw_read32(padapter, 0x6b) | 0x00000010));
++		rtw_write32(padapter, 0xcc, (rtw_read32(padapter, 0xcc) & 0xFFFFFFFB));
++		rtw_msleep_os(1200);
++		goto exit;
++	}
++	if (strncmp(extra, "disable", 7) == 0) {
++		RTW_INFO("SetBT disable !\n");
++		rtw_write32(padapter, 0x6a, (rtw_read32(padapter, 0x6a) & 0xFFFFFFFB));
++		rtw_msleep_os(500);
++		goto exit;
++	}
++	if (strncmp(extra, "enable", 6) == 0) {
++		RTW_INFO("SetBT enable !\n");
++		rtw_write32(padapter, 0x6a, (rtw_read32(padapter, 0x6a) | 0x00000004));
++		rtw_msleep_os(500);
++		goto exit;
++	}
++	if (strncmp(extra, "h2c", 3) == 0) {
++		RTW_INFO("SetBT h2c !\n");
++		padapter->bBTFWReady = _TRUE;
++		rtw_hal_fill_h2c_cmd(padapter, 0x63, 1, u1H2CBtMpOperParm);
++		goto exit;
++	}
++	if (strncmp(extra, "2ant", 4) == 0) {
++		RTW_INFO("Set BT 2ant use!\n");
++		PHY_SetMacReg(padapter, 0x67, BIT5, 0x1);
++		rtw_write32(padapter, 0x948, 0000);
++
++		goto exit;
++	}
++
++	if (ready != 0 && testmode != 0 && trxparam != 0 && setgen != 0 && getgen != 0 && testctrl != 0 && testbt != 0 && readtherm != 0 && setbtmac != 0)
++		return -EFAULT;
++
++	if (testbt == 0) {
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 6;
++		BtReq.paraLength = cnts / 2;
++		goto todo;
++	}
++	if (ready == 0) {
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 0;
++		BtReq.paraLength = 0;
++		goto todo;
++	}
++
++	pch = extra;
++	i = 0;
++	while ((token = strsep(&pch, ",")) != NULL) {
++		if (i > 1)
++			break;
++		tmp[i] = token;
++		i++;
++	}
++
++	if ((tmp[0] != NULL) && (tmp[1] != NULL)) {
++		cnts = strlen(tmp[1]);
++		if (cnts < 1)
++			return -EFAULT;
++
++		RTW_INFO("%s: cnts=%d\n", __func__, cnts);
++		RTW_INFO("%s: data=%s\n", __func__, tmp[1]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2) {
++			BtReq.pParamStart[jj] = key_2char2num(tmp[1][kk], tmp[1][kk + 1]);
++			/*			RTW_INFO("BtReq.pParamStart[%d]=0x%02x\n", jj, BtReq.pParamStart[jj]);*/
++		}
++	} else
++		return -EFAULT;
++
++	if (testmode == 0) {
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 1;
++		BtReq.paraLength = 1;
++	}
++	if (trxparam == 0) {
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 2;
++		BtReq.paraLength = cnts / 2;
++	}
++	if (setgen == 0) {
++		RTW_INFO("%s: BT_SET_GENERAL\n", __func__);
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 3;/*BT_SET_GENERAL	3*/
++		BtReq.paraLength = cnts / 2;
++	}
++	if (getgen == 0) {
++		RTW_INFO("%s: BT_GET_GENERAL\n", __func__);
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 4;/*BT_GET_GENERAL	4*/
++		BtReq.paraLength = cnts / 2;
++	}
++	if (readtherm == 0) {
++		RTW_INFO("%s: BT_GET_GENERAL\n", __func__);
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 4;/*BT_GET_GENERAL	4*/
++		BtReq.paraLength = cnts / 2;
++	}
++
++	if (testctrl == 0) {
++		RTW_INFO("%s: BT_TEST_CTRL\n", __func__);
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 5;/*BT_TEST_CTRL	5*/
++		BtReq.paraLength = cnts / 2;
++	}
++
++	RTW_INFO("%s: Req opCodeVer=%d OpCode=%d paraLength=%d\n",
++		 __func__, BtReq.opCodeVer, BtReq.OpCode, BtReq.paraLength);
++
++	if (BtReq.paraLength < 1)
++		goto todo;
++	for (i = 0; i < BtReq.paraLength; i++) {
++		RTW_INFO("%s: BtReq.pParamStart[%d] = 0x%02x\n",
++			 __func__, i, BtReq.pParamStart[i]);
++	}
++
++todo:
++	_rtw_memset(extra, '\0', wrqu->data.length);
++
++	if (padapter->bBTFWReady == _FALSE) {
++		sprintf(extra, "BTFWReady = FALSE.\n");
++		goto exit;
++	}
++
++	mptbt_BtControlProcess(padapter, &BtReq);
++
++	if (readtherm == 0) {
++		sprintf(extra, "BT thermal=");
++		for (i = 4; i < pMptCtx->mptOutLen; i++) {
++			if ((pMptCtx->mptOutBuf[i] == 0x00) && (pMptCtx->mptOutBuf[i + 1] == 0x00))
++				goto exit;
++
++			sprintf(extra, "%s %d ", extra, (pMptCtx->mptOutBuf[i] & 0x1f));
++		}
++	} else {
++		for (i = 4; i < pMptCtx->mptOutLen; i++)
++			sprintf(extra, "%s 0x%x ", extra, pMptCtx->mptOutBuf[i]);
++	}
++
++exit:
++	wrqu->data.length = strlen(extra) + 1;
++	RTW_INFO("-%s: output len=%d data=%s\n", __func__, wrqu->data.length, extra);
++
++	return status;
++}
++
++#endif /*#ifdef CONFIG_RTL8723B*/
++
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/mlme_linux.c b/drivers/net/wireless/rtl8723du/os_dep/linux/mlme_linux.c
+new file mode 100644
+index 0000000..3e9741e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/mlme_linux.c
+@@ -0,0 +1,605 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#define _MLME_OSDEP_C_
++
++#include <drv_types.h>
++
++
++#ifdef RTK_DMP_PLATFORM
++void Linkup_workitem_callback(struct work_struct *work)
++{
++	struct mlme_priv *pmlmepriv = container_of(work, struct mlme_priv, Linkup_workitem);
++	_adapter *padapter = container_of(pmlmepriv, _adapter, mlmepriv);
++
++
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 12))
++	kobject_uevent(&padapter->pnetdev->dev.kobj, KOBJ_LINKUP);
++#else
++	kobject_hotplug(&padapter->pnetdev->class_dev.kobj, KOBJ_LINKUP);
++#endif
++
++}
++
++void Linkdown_workitem_callback(struct work_struct *work)
++{
++	struct mlme_priv *pmlmepriv = container_of(work, struct mlme_priv, Linkdown_workitem);
++	_adapter *padapter = container_of(pmlmepriv, _adapter, mlmepriv);
++
++
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 12))
++	kobject_uevent(&padapter->pnetdev->dev.kobj, KOBJ_LINKDOWN);
++#else
++	kobject_hotplug(&padapter->pnetdev->class_dev.kobj, KOBJ_LINKDOWN);
++#endif
++
++}
++#endif
++
++
++/*
++void sitesurvey_ctrl_handler(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++
++	_sitesurvey_ctrl_handler(adapter);
++
++	_set_timer(&adapter->mlmepriv.sitesurveyctrl.sitesurvey_ctrl_timer, 3000);
++}
++*/
++
++void rtw_join_timeout_handler(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	_rtw_join_timeout_handler(adapter);
++}
++
++
++void _rtw_scan_timeout_handler(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	rtw_scan_timeout_handler(adapter);
++}
++
++
++void _dynamic_check_timer_handlder(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++
++#if (MP_DRIVER == 1)
++	if (adapter->registrypriv.mp_mode == 1 && adapter->mppriv.mp_dm == 0) { /* for MP ODM dynamic Tx power tracking */
++		/* RTW_INFO("_dynamic_check_timer_handlder mp_dm =0 return\n"); */
++		_set_timer(&adapter->mlmepriv.dynamic_chk_timer, 2000);
++		return;
++	}
++#endif
++
++	rtw_mi_dynamic_check_timer_handlder(adapter);
++
++	_set_timer(&adapter->mlmepriv.dynamic_chk_timer, 2000);
++}
++
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++void _rtw_set_scan_deny_timer_hdl(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	rtw_set_scan_deny_timer_hdl(adapter);
++}
++#endif
++
++
++void rtw_init_mlme_timer(_adapter *padapter)
++{
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	_init_timer(&(pmlmepriv->assoc_timer), padapter->pnetdev, rtw_join_timeout_handler, padapter);
++	/* _init_timer(&(pmlmepriv->sitesurveyctrl.sitesurvey_ctrl_timer), padapter->pnetdev, sitesurvey_ctrl_handler, padapter); */
++	_init_timer(&(pmlmepriv->scan_to_timer), padapter->pnetdev, _rtw_scan_timeout_handler, padapter);
++
++#ifdef CONFIG_DFS_MASTER
++	_init_timer(&(pmlmepriv->dfs_master_timer), padapter->pnetdev, rtw_dfs_master_timer_hdl, padapter);
++#endif
++
++	_init_timer(&(pmlmepriv->dynamic_chk_timer), padapter->pnetdev, _dynamic_check_timer_handlder, padapter);
++
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++	_init_timer(&(pmlmepriv->set_scan_deny_timer), padapter->pnetdev, _rtw_set_scan_deny_timer_hdl, padapter);
++#endif
++
++#ifdef RTK_DMP_PLATFORM
++	_init_workitem(&(pmlmepriv->Linkup_workitem), Linkup_workitem_callback, padapter);
++	_init_workitem(&(pmlmepriv->Linkdown_workitem), Linkdown_workitem_callback, padapter);
++#endif
++
++}
++
++extern void rtw_indicate_wx_assoc_event(_adapter *padapter);
++extern void rtw_indicate_wx_disassoc_event(_adapter *padapter);
++
++void rtw_os_indicate_connect(_adapter *adapter)
++{
++	struct mlme_priv *pmlmepriv = &(adapter->mlmepriv);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) ||
++	    (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE))
++		rtw_cfg80211_ibss_indicate_connect(adapter);
++	else
++		rtw_cfg80211_indicate_connect(adapter);
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	rtw_indicate_wx_assoc_event(adapter);
++	netif_carrier_on(adapter->pnetdev);
++
++	if (adapter->pid[2] != 0)
++		rtw_signal_process(adapter->pid[2], SIGALRM);
++
++#ifdef RTK_DMP_PLATFORM
++	_set_workitem(&adapter->mlmepriv.Linkup_workitem);
++#endif
++
++
++}
++
++extern void indicate_wx_scan_complete_event(_adapter *padapter);
++void rtw_os_indicate_scan_done(_adapter *padapter, bool aborted)
++{
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_cfg80211_indicate_scan_done(padapter, aborted);
++#endif
++	indicate_wx_scan_complete_event(padapter);
++}
++
++static RT_PMKID_LIST   backupPMKIDList[NUM_PMKID_CACHE];
++void rtw_reset_securitypriv(_adapter *adapter)
++{
++	u8	backupPMKIDIndex = 0;
++	u8	backupTKIPCountermeasure = 0x00;
++	u32	backupTKIPcountermeasure_time = 0;
++	/* add for CONFIG_IEEE80211W, none 11w also can use */
++	_irqL irqL;
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++
++	_enter_critical_bh(&adapter->security_key_mutex, &irqL);
++
++	if (adapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X) { /* 802.1x */
++		/* Added by Albert 2009/02/18 */
++		/* We have to backup the PMK information for WiFi PMK Caching test item. */
++		/*  */
++		/* Backup the btkip_countermeasure information. */
++		/* When the countermeasure is trigger, the driver have to disconnect with AP for 60 seconds. */
++
++		_rtw_memset(&backupPMKIDList[0], 0x00, sizeof(RT_PMKID_LIST) * NUM_PMKID_CACHE);
++
++		_rtw_memcpy(&backupPMKIDList[0], &adapter->securitypriv.PMKIDList[0], sizeof(RT_PMKID_LIST) * NUM_PMKID_CACHE);
++		backupPMKIDIndex = adapter->securitypriv.PMKIDIndex;
++		backupTKIPCountermeasure = adapter->securitypriv.btkip_countermeasure;
++		backupTKIPcountermeasure_time = adapter->securitypriv.btkip_countermeasure_time;
++#ifdef CONFIG_IEEE80211W
++		/* reset RX BIP packet number */
++		pmlmeext->mgnt_80211w_IPN_rx = 0;
++#endif /* CONFIG_IEEE80211W */
++		_rtw_memset((unsigned char *)&adapter->securitypriv, 0, sizeof(struct security_priv));
++		/* _init_timer(&(adapter->securitypriv.tkip_timer),adapter->pnetdev, rtw_use_tkipkey_handler, adapter); */
++
++		/* Added by Albert 2009/02/18 */
++		/* Restore the PMK information to securitypriv structure for the following connection. */
++		_rtw_memcpy(&adapter->securitypriv.PMKIDList[0], &backupPMKIDList[0], sizeof(RT_PMKID_LIST) * NUM_PMKID_CACHE);
++		adapter->securitypriv.PMKIDIndex = backupPMKIDIndex;
++		adapter->securitypriv.btkip_countermeasure = backupTKIPCountermeasure;
++		adapter->securitypriv.btkip_countermeasure_time = backupTKIPcountermeasure_time;
++
++		adapter->securitypriv.ndisauthtype = Ndis802_11AuthModeOpen;
++		adapter->securitypriv.ndisencryptstatus = Ndis802_11WEPDisabled;
++
++	} else { /* reset values in securitypriv */
++		/* if(adapter->mlmepriv.fw_state & WIFI_STATION_STATE) */
++		/* { */
++		struct security_priv *psec_priv = &adapter->securitypriv;
++
++		psec_priv->dot11AuthAlgrthm = dot11AuthAlgrthm_Open; /* open system */
++		psec_priv->dot11PrivacyAlgrthm = _NO_PRIVACY_;
++		psec_priv->dot11PrivacyKeyIndex = 0;
++
++		psec_priv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++		psec_priv->dot118021XGrpKeyid = 1;
++
++		psec_priv->ndisauthtype = Ndis802_11AuthModeOpen;
++		psec_priv->ndisencryptstatus = Ndis802_11WEPDisabled;
++		/* } */
++	}
++	/* add for CONFIG_IEEE80211W, none 11w also can use */
++	_exit_critical_bh(&adapter->security_key_mutex, &irqL);
++
++	RTW_INFO(FUNC_ADPT_FMT" - End to Disconnect\n", FUNC_ADPT_ARG(adapter));
++}
++
++void rtw_os_indicate_disconnect(_adapter *adapter,  u16 reason, u8 locally_generated)
++{
++	/* RT_PMKID_LIST   backupPMKIDList[NUM_PMKID_CACHE]; */
++
++
++	netif_carrier_off(adapter->pnetdev); /* Do it first for tx broadcast pkt after disconnection issue! */
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_cfg80211_indicate_disconnect(adapter,  reason, locally_generated);
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	rtw_indicate_wx_disassoc_event(adapter);
++
++#ifdef RTK_DMP_PLATFORM
++	_set_workitem(&adapter->mlmepriv.Linkdown_workitem);
++#endif
++	/* modify for CONFIG_IEEE80211W, none 11w also can use the same command */
++	rtw_reset_securitypriv_cmd(adapter);
++
++
++}
++
++void rtw_report_sec_ie(_adapter *adapter, u8 authmode, u8 *sec_ie)
++{
++	uint	len;
++	u8	*buff, *p, i;
++	union iwreq_data wrqu;
++
++
++
++	buff = NULL;
++	if (authmode == _WPA_IE_ID_) {
++
++		buff = rtw_zmalloc(IW_CUSTOM_MAX);
++		if (NULL == buff) {
++			RTW_INFO(FUNC_ADPT_FMT ": alloc memory FAIL!!\n",
++				 FUNC_ADPT_ARG(adapter));
++			return;
++		}
++		p = buff;
++
++		p += sprintf(p, "ASSOCINFO(ReqIEs=");
++
++		len = sec_ie[1] + 2;
++		len = (len < IW_CUSTOM_MAX) ? len : IW_CUSTOM_MAX;
++
++		for (i = 0; i < len; i++)
++			p += sprintf(p, "%02x", sec_ie[i]);
++
++		p += sprintf(p, ")");
++
++		_rtw_memset(&wrqu, 0, sizeof(wrqu));
++
++		wrqu.data.length = p - buff;
++
++		wrqu.data.length = (wrqu.data.length < IW_CUSTOM_MAX) ? wrqu.data.length : IW_CUSTOM_MAX;
++
++#ifndef CONFIG_IOCTL_CFG80211
++		wireless_send_event(adapter->pnetdev, IWEVCUSTOM, &wrqu, buff);
++#endif
++
++		rtw_mfree(buff, IW_CUSTOM_MAX);
++	}
++
++
++}
++
++void _survey_timer_hdl(void *FunctionContext)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++
++	survey_timer_hdl(padapter);
++}
++
++void _link_timer_hdl(void *FunctionContext)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++	link_timer_hdl(padapter);
++}
++
++#ifdef CONFIG_RTW_80211R
++void _ft_link_timer_hdl(void *FunctionContext)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++
++	ft_link_timer_hdl(padapter);
++}
++
++void _ft_roam_timer_hdl(void *FunctionContext)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++
++	ft_roam_timer_hdl(padapter);
++}
++#endif
++
++void _addba_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *psta = (struct sta_info *)FunctionContext;
++	addba_timer_hdl(psta);
++}
++
++#ifdef CONFIG_IEEE80211W
++
++void _sa_query_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *psta = (struct sta_info *)FunctionContext;
++
++	sa_query_timer_hdl(psta);
++}
++
++void init_dot11w_expire_timer(_adapter *padapter, struct sta_info *psta)
++{
++	_init_timer(&psta->dot11w_expire_timer, padapter->pnetdev, _sa_query_timer_hdl, psta);
++}
++
++#endif /* CONFIG_IEEE80211W */
++
++void init_addba_retry_timer(_adapter *padapter, struct sta_info *psta)
++{
++
++	_init_timer(&psta->addba_retry_timer, padapter->pnetdev, _addba_timer_hdl, psta);
++}
++
++/*
++void _reauth_timer_hdl(void *FunctionContext)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++	reauth_timer_hdl(padapter);
++}
++
++void _reassoc_timer_hdl(void *FunctionContext)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++	reassoc_timer_hdl(padapter);
++}
++*/
++
++void init_mlme_ext_timer(_adapter *padapter)
++{
++	struct	mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	_init_timer(&pmlmeext->survey_timer, padapter->pnetdev, _survey_timer_hdl, padapter);
++	_init_timer(&pmlmeext->link_timer, padapter->pnetdev, _link_timer_hdl, padapter);
++#ifdef CONFIG_RTW_80211R
++	_init_timer(&pmlmeext->ft_link_timer, padapter->pnetdev, _ft_link_timer_hdl, padapter);
++	_init_timer(&pmlmeext->ft_roam_timer, padapter->pnetdev, _ft_roam_timer_hdl, padapter);
++#endif
++
++	/* _init_timer(&pmlmeext->ADDBA_timer, padapter->pnetdev, _addba_timer_hdl, padapter); */
++
++	/* _init_timer(&pmlmeext->reauth_timer, padapter->pnetdev, _reauth_timer_hdl, padapter); */
++	/* _init_timer(&pmlmeext->reassoc_timer, padapter->pnetdev, _reassoc_timer_hdl, padapter); */
++}
++
++#ifdef CONFIG_AP_MODE
++
++void rtw_indicate_sta_assoc_event(_adapter *padapter, struct sta_info *psta)
++{
++	union iwreq_data wrqu;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	if (psta == NULL)
++		return;
++
++	if (psta->aid > NUM_STA)
++		return;
++
++	if (pstapriv->sta_aid[psta->aid - 1] != psta)
++		return;
++
++
++	wrqu.addr.sa_family = ARPHRD_ETHER;
++
++	_rtw_memcpy(wrqu.addr.sa_data, psta->hwaddr, ETH_ALEN);
++
++	RTW_INFO("+rtw_indicate_sta_assoc_event\n");
++
++#ifndef CONFIG_IOCTL_CFG80211
++	wireless_send_event(padapter->pnetdev, IWEVREGISTERED, &wrqu, NULL);
++#endif
++
++}
++
++void rtw_indicate_sta_disassoc_event(_adapter *padapter, struct sta_info *psta)
++{
++	union iwreq_data wrqu;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	if (psta == NULL)
++		return;
++
++	if (psta->aid > NUM_STA)
++		return;
++
++	if (pstapriv->sta_aid[psta->aid - 1] != psta)
++		return;
++
++
++	wrqu.addr.sa_family = ARPHRD_ETHER;
++
++	_rtw_memcpy(wrqu.addr.sa_data, psta->hwaddr, ETH_ALEN);
++
++	RTW_INFO("+rtw_indicate_sta_disassoc_event\n");
++
++#ifndef CONFIG_IOCTL_CFG80211
++	wireless_send_event(padapter->pnetdev, IWEVEXPIRED, &wrqu, NULL);
++#endif
++
++}
++
++
++#ifdef CONFIG_HOSTAPD_MLME
++
++static int mgnt_xmit_entry(struct sk_buff *skb, struct net_device *pnetdev)
++{
++	struct hostapd_priv *phostapdpriv = rtw_netdev_priv(pnetdev);
++	_adapter *padapter = (_adapter *)phostapdpriv->padapter;
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	return rtw_hal_hostap_mgnt_xmit_entry(padapter, skb);
++}
++
++static int mgnt_netdev_open(struct net_device *pnetdev)
++{
++	struct hostapd_priv *phostapdpriv = rtw_netdev_priv(pnetdev);
++
++	RTW_INFO("mgnt_netdev_open: MAC Address:" MAC_FMT "\n", MAC_ARG(pnetdev->dev_addr));
++
++
++	init_usb_anchor(&phostapdpriv->anchored);
++
++	rtw_netif_wake_queue(pnetdev);
++
++	netif_carrier_on(pnetdev);
++
++	/* rtw_write16(phostapdpriv->padapter, 0x0116, 0x0100); */ /* only excluding beacon */
++
++	return 0;
++}
++static int mgnt_netdev_close(struct net_device *pnetdev)
++{
++	struct hostapd_priv *phostapdpriv = rtw_netdev_priv(pnetdev);
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	usb_kill_anchored_urbs(&phostapdpriv->anchored);
++
++	netif_carrier_off(pnetdev);
++
++	rtw_netif_stop_queue(pnetdev);
++
++	/* rtw_write16(phostapdpriv->padapter, 0x0116, 0x3f3f); */
++
++	return 0;
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
++static const struct net_device_ops rtl871x_mgnt_netdev_ops = {
++	.ndo_open = mgnt_netdev_open,
++	.ndo_stop = mgnt_netdev_close,
++	.ndo_start_xmit = mgnt_xmit_entry,
++	#if 0
++	.ndo_set_mac_address = r871x_net_set_mac_address,
++	.ndo_get_stats = r871x_net_get_stats,
++	.ndo_do_ioctl = r871x_mp_ioctl,
++	#endif
++};
++#endif
++
++int hostapd_mode_init(_adapter *padapter)
++{
++	unsigned char mac[ETH_ALEN];
++	struct hostapd_priv *phostapdpriv;
++	struct net_device *pnetdev;
++
++	pnetdev = rtw_alloc_etherdev(sizeof(struct hostapd_priv));
++	if (!pnetdev)
++		return -ENOMEM;
++
++	/* SET_MODULE_OWNER(pnetdev); */
++	ether_setup(pnetdev);
++
++	/* pnetdev->type = ARPHRD_IEEE80211; */
++
++	phostapdpriv = rtw_netdev_priv(pnetdev);
++	phostapdpriv->pmgnt_netdev = pnetdev;
++	phostapdpriv->padapter = padapter;
++	padapter->phostapdpriv = phostapdpriv;
++
++	/* pnetdev->init = NULL; */
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
++
++	RTW_INFO("register rtl871x_mgnt_netdev_ops to netdev_ops\n");
++
++	pnetdev->netdev_ops = &rtl871x_mgnt_netdev_ops;
++
++#else
++
++	pnetdev->open = mgnt_netdev_open;
++
++	pnetdev->stop = mgnt_netdev_close;
++
++	pnetdev->hard_start_xmit = mgnt_xmit_entry;
++
++	/* pnetdev->set_mac_address = r871x_net_set_mac_address; */
++
++	/* pnetdev->get_stats = r871x_net_get_stats; */
++
++	/* pnetdev->do_ioctl = r871x_mp_ioctl; */
++
++#endif
++
++	pnetdev->watchdog_timeo = HZ; /* 1 second timeout */
++
++	/* pnetdev->wireless_handlers = NULL; */
++
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
++	pnetdev->features |= NETIF_F_IP_CSUM;
++#endif
++
++
++
++	if (dev_alloc_name(pnetdev, "mgnt.wlan%d") < 0)
++		RTW_INFO("hostapd_mode_init(): dev_alloc_name, fail!\n");
++
++
++	/* SET_NETDEV_DEV(pnetdev, pintfpriv->udev); */
++
++
++	mac[0] = 0x00;
++	mac[1] = 0xe0;
++	mac[2] = 0x4c;
++	mac[3] = 0x87;
++	mac[4] = 0x11;
++	mac[5] = 0x12;
++
++	_rtw_memcpy(pnetdev->dev_addr, mac, ETH_ALEN);
++
++
++	netif_carrier_off(pnetdev);
++
++
++	/* Tell the network stack we exist */
++	if (register_netdev(pnetdev) != 0) {
++		RTW_INFO("hostapd_mode_init(): register_netdev fail!\n");
++
++		if (pnetdev)
++			rtw_free_netdev(pnetdev);
++	}
++
++	return 0;
++
++}
++
++void hostapd_mode_unload(_adapter *padapter)
++{
++	struct hostapd_priv *phostapdpriv = padapter->phostapdpriv;
++	struct net_device *pnetdev = phostapdpriv->pmgnt_netdev;
++
++	unregister_netdev(pnetdev);
++	rtw_free_netdev(pnetdev);
++
++}
++
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/os_intfs.c b/drivers/net/wireless/rtl8723du/os_dep/linux/os_intfs.c
+new file mode 100644
+index 0000000..dea4bbc
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/os_intfs.c
+@@ -0,0 +1,4334 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _OS_INTFS_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#if defined(PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++
++	#error "Shall be Linux or Windows, but not both!\n"
++
++#endif
++
++
++MODULE_LICENSE("GPL");
++MODULE_DESCRIPTION("Realtek Wireless Lan Driver");
++MODULE_AUTHOR("Realtek Semiconductor Corp.");
++MODULE_VERSION(DRIVERVERSION);
++
++/* module param defaults */
++int rtw_chip_version = 0x00;
++int rtw_rfintfs = HWPI;
++int rtw_lbkmode = 0;/* RTL8712_AIR_TRX; */
++
++
++int rtw_network_mode = Ndis802_11IBSS;/* Ndis802_11Infrastructure; */ /* infra, ad-hoc, auto */
++/* NDIS_802_11_SSID	ssid; */
++int rtw_channel = 1;/* ad-hoc support requirement */
++int rtw_wireless_mode = WIRELESS_MODE_MAX;
++int rtw_vrtl_carrier_sense = AUTO_VCS;
++int rtw_vcs_type = RTS_CTS;
++int rtw_rts_thresh = 2347;
++int rtw_frag_thresh = 2346;
++int rtw_preamble = PREAMBLE_LONG;/* long, short, auto */
++int rtw_scan_mode = 1;/* active, passive */
++int rtw_adhoc_tx_pwr = 1;
++int rtw_soft_ap = 0;
++/* int smart_ps = 1; */
++#ifdef CONFIG_POWER_SAVING
++	int rtw_power_mgnt = PS_MODE_MAX;
++	#ifdef CONFIG_IPS_LEVEL_2
++		int rtw_ips_mode = IPS_LEVEL_2;
++	#else
++		int rtw_ips_mode = IPS_NORMAL;
++	#endif
++#else
++	int rtw_power_mgnt = PS_MODE_ACTIVE;
++	int rtw_ips_mode = IPS_NONE;
++#endif
++module_param(rtw_ips_mode, int, 0644);
++MODULE_PARM_DESC(rtw_ips_mode, "The default IPS mode");
++
++int rtw_smart_ps = 2;
++
++int rtw_check_fw_ps = 1;
++
++#ifdef CONFIG_TX_EARLY_MODE
++int rtw_early_mode = 1;
++#endif
++
++int rtw_usb_rxagg_mode = 2;/* RX_AGG_DMA=1, RX_AGG_USB=2 */
++module_param(rtw_usb_rxagg_mode, int, 0644);
++
++/* set log level when inserting driver module, default log level is _DRV_INFO_ = 4,
++* please refer to "How_to_set_driver_debug_log_level.doc" to set the available level.
++*/
++#ifdef RTW_LOG_LEVEL
++	uint rtw_drv_log_level = (uint)RTW_LOG_LEVEL; /* from Makefile */
++#else
++	uint rtw_drv_log_level = _DRV_INFO_;
++#endif
++module_param(rtw_drv_log_level, uint, 0644);
++MODULE_PARM_DESC(rtw_drv_log_level, "set log level when insert driver module, default log level is _DRV_INFO_ = 4");
++
++int rtw_radio_enable = 1;
++int rtw_long_retry_lmt = 7;
++int rtw_short_retry_lmt = 7;
++int rtw_busy_thresh = 40;
++/* int qos_enable = 0; */ /* * */
++int rtw_ack_policy = NORMAL_ACK;
++
++int rtw_mp_mode = 0;
++
++int rtw_software_encrypt = 0;
++int rtw_software_decrypt = 0;
++
++int rtw_acm_method = 0;/* 0:By SW 1:By HW. */
++
++int rtw_wmm_enable = 1;/* default is set to enable the wmm. */
++int rtw_uapsd_enable = 0;
++int rtw_uapsd_max_sp = NO_LIMIT;
++int rtw_uapsd_acbk_en = 0;
++int rtw_uapsd_acbe_en = 0;
++int rtw_uapsd_acvi_en = 0;
++int rtw_uapsd_acvo_en = 0;
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++	int rtw_pwrtrim_enable = 2; /* disable kfree , rename to power trim disable */
++#else
++	int rtw_pwrtrim_enable = 0; /* Default Enalbe  power trim by efuse config */
++#endif
++
++uint rtw_tx_bw_mode = 0x21;
++module_param(rtw_tx_bw_mode, uint, 0644);
++MODULE_PARM_DESC(rtw_tx_bw_mode, "The max tx bw for 2.4G and 5G. format is the same as rtw_bw_mode");
++
++#ifdef CONFIG_80211N_HT
++int rtw_ht_enable = 1;
++/* 0: 20 MHz, 1: 40 MHz, 2: 80 MHz, 3: 160MHz, 4: 80+80MHz
++* 2.4G use bit 0 ~ 3, 5G use bit 4 ~ 7
++* 0x21 means enable 2.4G 40MHz & 5G 80MHz */
++int rtw_bw_mode = 0x21;
++int rtw_ampdu_enable = 1;/* for enable tx_ampdu , */ /* 0: disable, 0x1:enable */
++int rtw_rx_stbc = 1;/* 0: disable, bit(0):enable 2.4g, bit(1):enable 5g, default is set to enable 2.4GHZ for IOT issue with bufflao's AP at 5GHZ */
++int rtw_ampdu_amsdu = 0;/* 0: disabled, 1:enabled, 2:auto . There is an IOT issu with DLINK DIR-629 when the flag turn on */
++/* Short GI support Bit Map
++* BIT0 - 20MHz, 0: non-support, 1: support
++* BIT1 - 40MHz, 0: non-support, 1: support
++* BIT2 - 80MHz, 0: non-support, 1: support
++* BIT3 - 160MHz, 0: non-support, 1: support */
++int rtw_short_gi = 0xf;
++/* BIT0: Enable VHT LDPC Rx, BIT1: Enable VHT LDPC Tx, BIT4: Enable HT LDPC Rx, BIT5: Enable HT LDPC Tx */
++int rtw_ldpc_cap = 0x33;
++/* BIT0: Enable VHT STBC Rx, BIT1: Enable VHT STBC Tx, BIT4: Enable HT STBC Rx, BIT5: Enable HT STBC Tx */
++int rtw_stbc_cap = 0x13;
++/*
++* BIT0: Enable VHT SU Beamformer
++* BIT1: Enable VHT SU Beamformee
++* BIT2: Enable VHT MU Beamformer, depend on VHT SU Beamformer
++* BIT3: Enable VHT MU Beamformee, depend on VHT SU Beamformee
++* BIT4: Enable HT Beamformer
++* BIT5: Enable HT Beamformee
++*/
++int rtw_beamform_cap = BIT(1) | BIT(3);
++int rtw_bfer_rf_number = 0; /*BeamformerCapRfNum Rf path number, 0 for auto, others for manual*/
++int rtw_bfee_rf_number = 0; /*BeamformeeCapRfNum  Rf path number, 0 for auto, others for manual*/
++
++#endif /* CONFIG_80211N_HT */
++
++#ifdef CONFIG_80211AC_VHT
++int rtw_vht_enable = 1; /* 0:disable, 1:enable, 2:force auto enable */
++int rtw_ampdu_factor = 7;
++int rtw_vht_rate_sel = 0;
++#endif /* CONFIG_80211AC_VHT */
++
++int rtw_lowrate_two_xmit = 1;/* Use 2 path Tx to transmit MCS0~7 and legacy mode */
++
++/* int rf_config = RF_1T2R;  */ /* 1T2R */
++int rtw_rf_config = RF_MAX_TYPE;  /* auto */
++
++/* 0: not check in watch dog, 1: check in watch dog  */
++int rtw_check_hw_status = 0;
++
++int rtw_low_power = 0;
++#ifdef CONFIG_WIFI_TEST
++	int rtw_wifi_spec = 1;/* for wifi test */
++#else
++	int rtw_wifi_spec = 0;
++#endif
++
++#ifdef CONFIG_DEFAULT_PATTERNS_EN
++	bool	rtw_support_default_patterns = _TRUE;
++#else
++	bool	rtw_support_default_patterns = _FALSE;
++#endif
++
++int rtw_special_rf_path = 0; /* 0: 2T2R ,1: only turn on path A 1T1R */
++
++char rtw_country_unspecified[] = {0xFF, 0xFF, 0x00};
++char *rtw_country_code = rtw_country_unspecified;
++module_param(rtw_country_code, charp, 0644);
++MODULE_PARM_DESC(rtw_country_code, "The default country code (in alpha2)");
++
++int rtw_channel_plan = RTW_CHPLAN_MAX;
++module_param(rtw_channel_plan, int, 0644);
++MODULE_PARM_DESC(rtw_channel_plan, "The default chplan ID when rtw_alpha2 is not specified or valid");
++
++static uint rtw_excl_chs[MAX_CHANNEL_NUM] = CONFIG_RTW_EXCL_CHS;
++static int rtw_excl_chs_num = 0;
++module_param_array(rtw_excl_chs, uint, &rtw_excl_chs_num, 0644);
++MODULE_PARM_DESC(rtw_excl_chs, "exclusive channel array");
++
++/*if concurrent softap + p2p(GO) is needed, this param lets p2p response full channel list.
++But Softap must be SHUT DOWN once P2P decide to set up connection and become a GO.*/
++#ifdef CONFIG_FULL_CH_IN_P2P_HANDSHAKE
++	int rtw_full_ch_in_p2p_handshake = 1; /* reply full channel list*/
++#else
++	int rtw_full_ch_in_p2p_handshake = 0; /* reply only softap channel*/
++#endif
++
++#ifdef CONFIG_BT_COEXIST
++int rtw_btcoex_enable = 2;
++module_param(rtw_btcoex_enable, int, 0644);
++MODULE_PARM_DESC(rtw_btcoex_enable, "BT co-existence on/off, 0:off, 1:on, 2:by efuse");
++
++int rtw_ant_num = 0;
++module_param(rtw_ant_num, int, 0644);
++MODULE_PARM_DESC(rtw_ant_num, "Antenna number setting, 0:by efuse");
++
++int rtw_bt_iso = 2;/* 0:Low, 1:High, 2:From Efuse */
++int rtw_bt_sco = 3;/* 0:Idle, 1:None-SCO, 2:SCO, 3:From Counter, 4.Busy, 5.OtherBusy */
++int rtw_bt_ampdu = 1 ; /* 0:Disable BT control A-MPDU, 1:Enable BT control A-MPDU. */
++#endif /* CONFIG_BT_COEXIST */
++
++int rtw_AcceptAddbaReq = _TRUE;/* 0:Reject AP's Add BA req, 1:Accept AP's Add BA req. */
++
++int rtw_antdiv_cfg = 2; /* 0:OFF , 1:ON, 2:decide by Efuse config */
++int rtw_antdiv_type = 0
++	; /* 0:decide by efuse  1: for 88EE, 1Tx and 1RxCG are diversity.(2 Ant with SPDT), 2:  for 88EE, 1Tx and 2Rx are diversity.( 2 Ant, Tx and RxCG are both on aux port, RxCS is on main port ), 3: for 88EE, 1Tx and 1RxCG are fixed.(1Ant, Tx and RxCG are both on aux port) */
++
++int rtw_drv_ant_band_switch = 1; /* 0:OFF , 1:ON, Driver control antenna band switch*/
++
++/* 0: doesn't switch, 1: switch from usb2.0 to usb 3.0 2: switch from usb3.0 to usb 2.0 */
++int rtw_switch_usb_mode = 0;
++
++#ifdef CONFIG_USB_AUTOSUSPEND
++int rtw_enusbss = 1;/* 0:disable,1:enable */
++#else
++int rtw_enusbss = 0;/* 0:disable,1:enable */
++#endif
++
++int rtw_hwpdn_mode = 2; /* 0:disable,1:enable,2: by EFUSE config */
++
++#ifdef CONFIG_HW_PWRP_DETECTION
++int rtw_hwpwrp_detect = 1;
++#else
++int rtw_hwpwrp_detect = 0; /* HW power  ping detect 0:disable , 1:enable */
++#endif
++
++#ifdef CONFIG_USB_HCI
++int rtw_hw_wps_pbc = 1;
++#else
++int rtw_hw_wps_pbc = 0;
++#endif
++
++#ifdef CONFIG_TX_MCAST2UNI
++int rtw_mc2u_disable = 0;
++#endif /* CONFIG_TX_MCAST2UNI */
++
++#ifdef CONFIG_80211D
++int rtw_80211d = 0;
++#endif
++
++#ifdef CONFIG_SPECIAL_SETTING_FOR_FUNAI_TV
++int rtw_force_ant = 2;/* 0 :normal, 1:Main ant, 2:Aux ant */
++int rtw_force_igi = 0; /* 0 :normal */
++module_param(rtw_force_ant, int, 0644);
++module_param(rtw_force_igi, int, 0644);
++#endif
++
++int rtw_force_igi_lb = CONFIG_RTW_FORCE_IGI_LB;
++module_param(rtw_force_igi_lb, int, 0644);
++MODULE_PARM_DESC(rtw_force_igi_lb, "force IGI low-bound, 0:no specified");
++
++#ifdef CONFIG_QOS_OPTIMIZATION
++int rtw_qos_opt_enable = 1; /* 0: disable,1:enable */
++#else
++int rtw_qos_opt_enable = 0; /* 0: disable,1:enable */
++#endif
++module_param(rtw_qos_opt_enable, int, 0644);
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++int rtw_acs_mode = 1; /*0:disable, 1:enable*/
++module_param(rtw_acs_mode, int, 0644);
++
++int rtw_acs_auto_scan = 0; /*0:disable, 1:enable*/
++module_param(rtw_acs_auto_scan, int, 0644);
++
++#endif
++
++char *ifname = "wlan%d";
++module_param(ifname, charp, 0644);
++MODULE_PARM_DESC(ifname, "The default name to allocate for first interface");
++
++#ifdef CONFIG_PLATFORM_ANDROID
++	char *if2name = "p2p%d";
++#else /* CONFIG_PLATFORM_ANDROID */
++	char *if2name = "wlan%d";
++#endif /* CONFIG_PLATFORM_ANDROID */
++module_param(if2name, charp, 0644);
++MODULE_PARM_DESC(if2name, "The default name to allocate for second interface");
++
++char *rtw_initmac = 0;  /* temp mac address if users want to use instead of the mac address in Efuse */
++
++#ifdef CONFIG_CONCURRENT_MODE
++
++	#if (CONFIG_IFACE_NUMBER > 2)
++		int rtw_virtual_iface_num = CONFIG_IFACE_NUMBER - 1;
++		module_param(rtw_virtual_iface_num, int, 0644);
++	#else
++		int rtw_virtual_iface_num = 1;
++	#endif
++
++#endif
++
++module_param(rtw_pwrtrim_enable, int, 0644);
++module_param(rtw_initmac, charp, 0644);
++module_param(rtw_special_rf_path, int, 0644);
++module_param(rtw_chip_version, int, 0644);
++module_param(rtw_rfintfs, int, 0644);
++module_param(rtw_lbkmode, int, 0644);
++module_param(rtw_network_mode, int, 0644);
++module_param(rtw_channel, int, 0644);
++module_param(rtw_mp_mode, int, 0644);
++module_param(rtw_wmm_enable, int, 0644);
++module_param(rtw_vrtl_carrier_sense, int, 0644);
++module_param(rtw_vcs_type, int, 0644);
++module_param(rtw_busy_thresh, int, 0644);
++
++#ifdef CONFIG_80211N_HT
++module_param(rtw_ht_enable, int, 0644);
++module_param(rtw_bw_mode, int, 0644);
++module_param(rtw_ampdu_enable, int, 0644);
++module_param(rtw_rx_stbc, int, 0644);
++module_param(rtw_ampdu_amsdu, int, 0644);
++#endif /* CONFIG_80211N_HT */
++#ifdef CONFIG_80211AC_VHT
++module_param(rtw_vht_enable, int, 0644);
++#endif /* CONFIG_80211AC_VHT */
++#ifdef CONFIG_BEAMFORMING
++module_param(rtw_beamform_cap, int, 0644);
++#endif
++module_param(rtw_lowrate_two_xmit, int, 0644);
++
++module_param(rtw_rf_config, int, 0644);
++module_param(rtw_power_mgnt, int, 0644);
++module_param(rtw_smart_ps, int, 0644);
++module_param(rtw_low_power, int, 0644);
++module_param(rtw_wifi_spec, int, 0644);
++
++module_param(rtw_full_ch_in_p2p_handshake, int, 0644);
++module_param(rtw_antdiv_cfg, int, 0644);
++module_param(rtw_antdiv_type, int, 0644);
++
++module_param(rtw_drv_ant_band_switch, int, 0644);
++
++module_param(rtw_switch_usb_mode, int, 0644);
++
++module_param(rtw_enusbss, int, 0644);
++module_param(rtw_hwpdn_mode, int, 0644);
++module_param(rtw_hwpwrp_detect, int, 0644);
++
++module_param(rtw_hw_wps_pbc, int, 0644);
++module_param(rtw_check_hw_status, int, 0644);
++
++#ifdef CONFIG_TX_EARLY_MODE
++module_param(rtw_early_mode, int, 0644);
++#endif
++#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++char *rtw_adaptor_info_caching_file_path = "/data/misc/wifi/rtw_cache";
++module_param(rtw_adaptor_info_caching_file_path, charp, 0644);
++MODULE_PARM_DESC(rtw_adaptor_info_caching_file_path, "The path of adapter info cache file");
++#endif /* CONFIG_ADAPTOR_INFO_CACHING_FILE */
++
++#ifdef CONFIG_LAYER2_ROAMING
++uint rtw_max_roaming_times = 2;
++module_param(rtw_max_roaming_times, uint, 0644);
++MODULE_PARM_DESC(rtw_max_roaming_times, "The max roaming times to try");
++#endif /* CONFIG_LAYER2_ROAMING */
++
++#ifdef CONFIG_IOL
++int rtw_fw_iol = 1;
++module_param(rtw_fw_iol, int, 0644);
++MODULE_PARM_DESC(rtw_fw_iol, "FW IOL. 0:Disable, 1:enable, 2:by usb speed");
++#endif /* CONFIG_IOL */
++
++#ifdef CONFIG_FILE_FWIMG
++char *rtw_fw_file_path = "/system/etc/firmware/rtlwifi/FW_NIC.BIN";
++module_param(rtw_fw_file_path, charp, 0644);
++MODULE_PARM_DESC(rtw_fw_file_path, "The path of fw image");
++
++char *rtw_fw_wow_file_path = "/system/etc/firmware/rtlwifi/FW_WoWLAN.BIN";
++module_param(rtw_fw_wow_file_path, charp, 0644);
++MODULE_PARM_DESC(rtw_fw_wow_file_path, "The path of fw for Wake on Wireless image");
++
++#ifdef CONFIG_MP_INCLUDED
++char *rtw_fw_mp_bt_file_path = "";
++module_param(rtw_fw_mp_bt_file_path, charp, 0644);
++MODULE_PARM_DESC(rtw_fw_mp_bt_file_path, "The path of fw for MP-BT image");
++#endif /* CONFIG_MP_INCLUDED */
++#endif /* CONFIG_FILE_FWIMG */
++
++#ifdef CONFIG_TX_MCAST2UNI
++module_param(rtw_mc2u_disable, int, 0644);
++#endif /* CONFIG_TX_MCAST2UNI */
++
++#ifdef CONFIG_80211D
++module_param(rtw_80211d, int, 0644);
++MODULE_PARM_DESC(rtw_80211d, "Enable 802.11d mechanism");
++#endif
++
++uint rtw_notch_filter = RTW_NOTCH_FILTER;
++module_param(rtw_notch_filter, uint, 0644);
++MODULE_PARM_DESC(rtw_notch_filter, "0:Disable, 1:Enable, 2:Enable only for P2P");
++
++uint rtw_hiq_filter = CONFIG_RTW_HIQ_FILTER;
++module_param(rtw_hiq_filter, uint, 0644);
++MODULE_PARM_DESC(rtw_hiq_filter, "0:allow all, 1:allow special, 2:deny all");
++
++uint rtw_adaptivity_en = CONFIG_RTW_ADAPTIVITY_EN;
++module_param(rtw_adaptivity_en, uint, 0644);
++MODULE_PARM_DESC(rtw_adaptivity_en, "0:disable, 1:enable");
++
++uint rtw_adaptivity_mode = CONFIG_RTW_ADAPTIVITY_MODE;
++module_param(rtw_adaptivity_mode, uint, 0644);
++MODULE_PARM_DESC(rtw_adaptivity_mode, "0:normal, 1:carrier sense");
++
++uint rtw_adaptivity_dml = CONFIG_RTW_ADAPTIVITY_DML;
++module_param(rtw_adaptivity_dml, uint, 0644);
++MODULE_PARM_DESC(rtw_adaptivity_dml, "0:disable, 1:enable");
++
++uint rtw_adaptivity_dc_backoff = CONFIG_RTW_ADAPTIVITY_DC_BACKOFF;
++module_param(rtw_adaptivity_dc_backoff, uint, 0644);
++MODULE_PARM_DESC(rtw_adaptivity_dc_backoff, "DC backoff for Adaptivity");
++
++int rtw_adaptivity_th_l2h_ini = CONFIG_RTW_ADAPTIVITY_TH_L2H_INI;
++module_param(rtw_adaptivity_th_l2h_ini, int, 0644);
++MODULE_PARM_DESC(rtw_adaptivity_th_l2h_ini, "TH_L2H_ini for Adaptivity");
++
++int rtw_adaptivity_th_edcca_hl_diff = CONFIG_RTW_ADAPTIVITY_TH_EDCCA_HL_DIFF;
++module_param(rtw_adaptivity_th_edcca_hl_diff, int, 0644);
++MODULE_PARM_DESC(rtw_adaptivity_th_edcca_hl_diff, "TH_EDCCA_HL_diff for Adaptivity");
++
++#ifdef CONFIG_DFS_MASTER
++uint rtw_dfs_region_domain = CONFIG_RTW_DFS_REGION_DOMAIN;
++module_param(rtw_dfs_region_domain, uint, 0644);
++MODULE_PARM_DESC(rtw_dfs_region_domain, "1:FCC, 2:MKK, 3:ETSI");
++#endif
++
++uint rtw_amplifier_type_2g = CONFIG_RTW_AMPLIFIER_TYPE_2G;
++module_param(rtw_amplifier_type_2g, uint, 0644);
++MODULE_PARM_DESC(rtw_amplifier_type_2g, "BIT3:2G ext-PA, BIT4:2G ext-LNA");
++
++uint rtw_amplifier_type_5g = CONFIG_RTW_AMPLIFIER_TYPE_5G;
++module_param(rtw_amplifier_type_5g, uint, 0644);
++MODULE_PARM_DESC(rtw_amplifier_type_5g, "BIT6:5G ext-PA, BIT7:5G ext-LNA");
++
++uint rtw_RFE_type = CONFIG_RTW_RFE_TYPE;
++module_param(rtw_RFE_type, uint, 0644);
++MODULE_PARM_DESC(rtw_RFE_type, "default init value:64");
++
++uint rtw_powertracking_type = 64;
++module_param(rtw_powertracking_type, uint, 0644);
++MODULE_PARM_DESC(rtw_powertracking_type, "default init value:64");
++
++uint rtw_GLNA_type = CONFIG_RTW_GLNA_TYPE;
++module_param(rtw_GLNA_type, uint, 0644);
++MODULE_PARM_DESC(rtw_GLNA_type, "default init value:0");
++
++uint rtw_TxBBSwing_2G = 0xFF;
++module_param(rtw_TxBBSwing_2G, uint, 0644);
++MODULE_PARM_DESC(rtw_TxBBSwing_2G, "default init value:0xFF");
++
++uint rtw_TxBBSwing_5G = 0xFF;
++module_param(rtw_TxBBSwing_5G, uint, 0644);
++MODULE_PARM_DESC(rtw_TxBBSwing_5G, "default init value:0xFF");
++
++uint rtw_OffEfuseMask = 0;
++module_param(rtw_OffEfuseMask, uint, 0644);
++MODULE_PARM_DESC(rtw_OffEfuseMask, "default open Efuse Mask value:0");
++
++uint rtw_FileMaskEfuse = 0;
++module_param(rtw_FileMaskEfuse, uint, 0644);
++MODULE_PARM_DESC(rtw_FileMaskEfuse, "default drv Mask Efuse value:0");
++
++uint rtw_rxgain_offset_2g = 0;
++module_param(rtw_rxgain_offset_2g, uint, 0644);
++MODULE_PARM_DESC(rtw_rxgain_offset_2g, "default RF Gain 2G Offset value:0");
++
++uint rtw_rxgain_offset_5gl = 0;
++module_param(rtw_rxgain_offset_5gl, uint, 0644);
++MODULE_PARM_DESC(rtw_rxgain_offset_5gl, "default RF Gain 5GL Offset value:0");
++
++uint rtw_rxgain_offset_5gm = 0;
++module_param(rtw_rxgain_offset_5gm, uint, 0644);
++MODULE_PARM_DESC(rtw_rxgain_offset_5gm, "default RF Gain 5GM Offset value:0");
++
++uint rtw_rxgain_offset_5gh = 0;
++module_param(rtw_rxgain_offset_5gh, uint, 0644);
++MODULE_PARM_DESC(rtw_rxgain_offset_5gm, "default RF Gain 5GL Offset value:0");
++
++
++uint rtw_pll_ref_clk_sel = CONFIG_RTW_PLL_REF_CLK_SEL;
++module_param(rtw_pll_ref_clk_sel, uint, 0644);
++MODULE_PARM_DESC(rtw_pll_ref_clk_sel, "force pll_ref_clk_sel, 0xF:use autoload value");
++
++#if defined(CONFIG_CALIBRATE_TX_POWER_BY_REGULATORY) /* eFuse: Regulatory selection=1 */
++	int rtw_tx_pwr_lmt_enable = 1;
++	int rtw_tx_pwr_by_rate = 1;
++#elif defined(CONFIG_CALIBRATE_TX_POWER_TO_MAX)/* eFuse: Regulatory selection=0 */
++	int rtw_tx_pwr_lmt_enable = 0;
++	int rtw_tx_pwr_by_rate = 1;
++#else /* eFuse: Regulatory selection=2 */
++	#ifdef CONFIG_PCI_HCI
++		int rtw_tx_pwr_lmt_enable = 2; /* 2- Depend on efuse */
++		int rtw_tx_pwr_by_rate = 2;/* 2- Depend on efuse */
++	#else /* USB & SDIO */
++		int rtw_tx_pwr_lmt_enable = 0;
++		int rtw_tx_pwr_by_rate = 0;
++	#endif
++#endif
++
++module_param(rtw_tx_pwr_lmt_enable, int, 0644);
++MODULE_PARM_DESC(rtw_tx_pwr_lmt_enable, "0:Disable, 1:Enable, 2: Depend on efuse");
++
++module_param(rtw_tx_pwr_by_rate, int, 0644);
++MODULE_PARM_DESC(rtw_tx_pwr_by_rate, "0:Disable, 1:Enable, 2: Depend on efuse");
++
++static int rtw_target_tx_pwr_2g_a[RATE_SECTION_NUM] = CONFIG_RTW_TARGET_TX_PWR_2G_A;
++static int rtw_target_tx_pwr_2g_a_num = 0;
++module_param_array(rtw_target_tx_pwr_2g_a, int, &rtw_target_tx_pwr_2g_a_num, 0644);
++MODULE_PARM_DESC(rtw_target_tx_pwr_2g_a, "2.4G target tx power (unit:dBm) of RF path A for each rate section, should match the real calibrate power, -1: undefined");
++
++static int rtw_target_tx_pwr_2g_b[RATE_SECTION_NUM] = CONFIG_RTW_TARGET_TX_PWR_2G_B;
++static int rtw_target_tx_pwr_2g_b_num = 0;
++module_param_array(rtw_target_tx_pwr_2g_b, int, &rtw_target_tx_pwr_2g_b_num, 0644);
++MODULE_PARM_DESC(rtw_target_tx_pwr_2g_b, "2.4G target tx power (unit:dBm) of RF path B for each rate section, should match the real calibrate power, -1: undefined");
++
++static int rtw_target_tx_pwr_2g_c[RATE_SECTION_NUM] = CONFIG_RTW_TARGET_TX_PWR_2G_C;
++static int rtw_target_tx_pwr_2g_c_num = 0;
++module_param_array(rtw_target_tx_pwr_2g_c, int, &rtw_target_tx_pwr_2g_c_num, 0644);
++MODULE_PARM_DESC(rtw_target_tx_pwr_2g_c, "2.4G target tx power (unit:dBm) of RF path C for each rate section, should match the real calibrate power, -1: undefined");
++
++static int rtw_target_tx_pwr_2g_d[RATE_SECTION_NUM] = CONFIG_RTW_TARGET_TX_PWR_2G_D;
++static int rtw_target_tx_pwr_2g_d_num = 0;
++module_param_array(rtw_target_tx_pwr_2g_d, int, &rtw_target_tx_pwr_2g_d_num, 0644);
++MODULE_PARM_DESC(rtw_target_tx_pwr_2g_d, "2.4G target tx power (unit:dBm) of RF path D for each rate section, should match the real calibrate power, -1: undefined");
++
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++static int rtw_target_tx_pwr_5g_a[RATE_SECTION_NUM - 1] = CONFIG_RTW_TARGET_TX_PWR_5G_A;
++static int rtw_target_tx_pwr_5g_a_num = 0;
++module_param_array(rtw_target_tx_pwr_5g_a, int, &rtw_target_tx_pwr_5g_a_num, 0644);
++MODULE_PARM_DESC(rtw_target_tx_pwr_5g_a, "5G target tx power (unit:dBm) of RF path A for each rate section, should match the real calibrate power, -1: undefined");
++
++static int rtw_target_tx_pwr_5g_b[RATE_SECTION_NUM - 1] = CONFIG_RTW_TARGET_TX_PWR_5G_B;
++static int rtw_target_tx_pwr_5g_b_num = 0;
++module_param_array(rtw_target_tx_pwr_5g_b, int, &rtw_target_tx_pwr_5g_b_num, 0644);
++MODULE_PARM_DESC(rtw_target_tx_pwr_5g_b, "5G target tx power (unit:dBm) of RF path B for each rate section, should match the real calibrate power, -1: undefined");
++
++static int rtw_target_tx_pwr_5g_c[RATE_SECTION_NUM - 1] = CONFIG_RTW_TARGET_TX_PWR_5G_C;
++static int rtw_target_tx_pwr_5g_c_num = 0;
++module_param_array(rtw_target_tx_pwr_5g_c, int, &rtw_target_tx_pwr_5g_c_num, 0644);
++MODULE_PARM_DESC(rtw_target_tx_pwr_5g_c, "5G target tx power (unit:dBm) of RF path C for each rate section, should match the real calibrate power, -1: undefined");
++
++static int rtw_target_tx_pwr_5g_d[RATE_SECTION_NUM - 1] = CONFIG_RTW_TARGET_TX_PWR_5G_D;
++static int rtw_target_tx_pwr_5g_d_num = 0;
++module_param_array(rtw_target_tx_pwr_5g_d, int, &rtw_target_tx_pwr_5g_d_num, 0644);
++MODULE_PARM_DESC(rtw_target_tx_pwr_5g_d, "5G target tx power (unit:dBm) of RF path D for each rate section, should match the real calibrate power, -1: undefined");
++#endif /* CONFIG_IEEE80211_BAND_5GHZ */
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++char *rtw_phy_file_path = REALTEK_CONFIG_PATH;
++module_param(rtw_phy_file_path, charp, 0644);
++MODULE_PARM_DESC(rtw_phy_file_path, "The path of phy parameter");
++/* PHY FILE Bit Map
++* BIT0 - MAC,				0: non-support, 1: support
++* BIT1 - BB,					0: non-support, 1: support
++* BIT2 - BB_PG,				0: non-support, 1: support
++* BIT3 - BB_MP,				0: non-support, 1: support
++* BIT4 - RF,					0: non-support, 1: support
++* BIT5 - RF_TXPWR_TRACK,	0: non-support, 1: support
++* BIT6 - RF_TXPWR_LMT,		0: non-support, 1: support */
++int rtw_load_phy_file = (BIT2 | BIT6);
++module_param(rtw_load_phy_file, int, 0644);
++MODULE_PARM_DESC(rtw_load_phy_file, "PHY File Bit Map");
++int rtw_decrypt_phy_file = 0;
++module_param(rtw_decrypt_phy_file, int, 0644);
++MODULE_PARM_DESC(rtw_decrypt_phy_file, "Enable Decrypt PHY File");
++#endif
++
++#ifdef CONFIG_SUPPORT_TRX_SHARED
++#ifdef DFT_TRX_SHARE_MODE
++int rtw_trx_share_mode = DFT_TRX_SHARE_MODE;
++#else
++int rtw_trx_share_mode = 0;
++#endif
++module_param(rtw_trx_share_mode, int, 0644);
++MODULE_PARM_DESC(rtw_trx_share_mode, "TRx FIFO Shared");
++#endif
++
++int _netdev_open(struct net_device *pnetdev);
++int netdev_open(struct net_device *pnetdev);
++static int netdev_close(struct net_device *pnetdev);
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++extern int rtw_sdio_set_power(int on);
++#endif /* CONFIG_PLATFORM_INTEL_BYT */
++
++#ifdef CONFIG_MCC_MODE
++/* enable MCC mode or not */
++int rtw_en_mcc = 1;
++/* can referece following value before insmod driver */
++int rtw_mcc_ap_bw20_target_tx_tp = MCC_AP_BW20_TARGET_TX_TP;
++int rtw_mcc_ap_bw40_target_tx_tp = MCC_AP_BW40_TARGET_TX_TP;
++int rtw_mcc_ap_bw80_target_tx_tp = MCC_AP_BW80_TARGET_TX_TP;
++int rtw_mcc_sta_bw20_target_tx_tp = MCC_STA_BW20_TARGET_TX_TP;
++int rtw_mcc_sta_bw40_target_tx_tp = MCC_STA_BW40_TARGET_TX_TP;
++int rtw_mcc_sta_bw80_target_tx_tp = MCC_STA_BW80_TARGET_TX_TP;
++int rtw_mcc_single_tx_cri = MCC_SINGLE_TX_CRITERIA;
++module_param(rtw_en_mcc, int, 0644);
++module_param(rtw_mcc_single_tx_cri, int, 0644);
++module_param(rtw_mcc_ap_bw20_target_tx_tp, int, 0644);
++module_param(rtw_mcc_ap_bw40_target_tx_tp, int, 0644);
++module_param(rtw_mcc_ap_bw80_target_tx_tp, int, 0644);
++module_param(rtw_mcc_sta_bw20_target_tx_tp, int, 0644);
++module_param(rtw_mcc_sta_bw40_target_tx_tp, int, 0644);
++module_param(rtw_mcc_sta_bw80_target_tx_tp, int, 0644);
++#endif /*CONFIG_MCC_MODE */
++
++#ifdef CONFIG_RTW_NAPI
++/*following setting should define NAPI in Makefile
++enable napi only = 1, disable napi = 0*/
++int rtw_en_napi = 1;
++module_param(rtw_en_napi, int, 0644);
++#endif
++
++#ifdef CONFIG_RTW_GRO
++/*following setting should define GRO in Makefile
++enable gro = 1, disable gro = 0*/
++int rtw_en_gro = 1;
++module_param(rtw_en_gro, int, 0644);		
++#endif
++
++void rtw_regsty_load_target_tx_power(struct registry_priv *regsty)
++{
++	int path, rs;
++	int *target_tx_pwr;
++
++	for (path = RF_PATH_A; path < RF_PATH_MAX; path++) {
++		if (path == RF_PATH_A)
++			target_tx_pwr = rtw_target_tx_pwr_2g_a;
++		else if (path == RF_PATH_B)
++			target_tx_pwr = rtw_target_tx_pwr_2g_b;
++		else if (path == RF_PATH_C)
++			target_tx_pwr = rtw_target_tx_pwr_2g_c;
++		else if (path == RF_PATH_D)
++			target_tx_pwr = rtw_target_tx_pwr_2g_d;
++
++		for (rs = CCK; rs < RATE_SECTION_NUM; rs++)
++			regsty->target_tx_pwr_2g[path][rs] = target_tx_pwr[rs];
++	}
++
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	for (path = RF_PATH_A; path < RF_PATH_MAX; path++) {
++		if (path == RF_PATH_A)
++			target_tx_pwr = rtw_target_tx_pwr_5g_a;
++		else if (path == RF_PATH_B)
++			target_tx_pwr = rtw_target_tx_pwr_5g_b;
++		else if (path == RF_PATH_C)
++			target_tx_pwr = rtw_target_tx_pwr_5g_c;
++		else if (path == RF_PATH_D)
++			target_tx_pwr = rtw_target_tx_pwr_5g_d;
++
++		for (rs = OFDM; rs < RATE_SECTION_NUM; rs++)
++			regsty->target_tx_pwr_5g[path][rs - 1] = target_tx_pwr[rs - 1];
++	}
++#endif /* CONFIG_IEEE80211_BAND_5GHZ */
++}
++
++inline void rtw_regsty_load_excl_chs(struct registry_priv *regsty)
++{
++	int i;
++	int ch_num = 0;
++
++	for (i = 0; i < MAX_CHANNEL_NUM; i++)
++		if (((u8)rtw_excl_chs[i]) != 0)
++			regsty->excl_chs[ch_num++] = (u8)rtw_excl_chs[i];
++
++	if (ch_num < MAX_CHANNEL_NUM)
++		regsty->excl_chs[ch_num] = 0;
++}
++
++uint loadparam(_adapter *padapter)
++{
++	uint status = _SUCCESS;
++	struct registry_priv  *registry_par = &padapter->registrypriv;
++
++
++#ifdef CONFIG_RTW_DEBUG
++	if (rtw_drv_log_level >= _DRV_MAX_)
++		rtw_drv_log_level = _DRV_DEBUG_;
++#endif
++
++	registry_par->chip_version = (u8)rtw_chip_version;
++	registry_par->rfintfs = (u8)rtw_rfintfs;
++	registry_par->lbkmode = (u8)rtw_lbkmode;
++	/* registry_par->hci = (u8)hci; */
++	registry_par->network_mode  = (u8)rtw_network_mode;
++
++	_rtw_memcpy(registry_par->ssid.Ssid, "ANY", 3);
++	registry_par->ssid.SsidLength = 3;
++
++	registry_par->channel = (u8)rtw_channel;
++	registry_par->wireless_mode = (u8)rtw_wireless_mode;
++
++	if (IsSupported24G(registry_par->wireless_mode) && (!IsSupported5G(registry_par->wireless_mode))
++	    && (registry_par->channel > 14))
++		registry_par->channel = 1;
++	else if (IsSupported5G(registry_par->wireless_mode) && (!IsSupported24G(registry_par->wireless_mode))
++		 && (registry_par->channel <= 14))
++		registry_par->channel = 36;
++
++	registry_par->vrtl_carrier_sense = (u8)rtw_vrtl_carrier_sense ;
++	registry_par->vcs_type = (u8)rtw_vcs_type;
++	registry_par->rts_thresh = (u16)rtw_rts_thresh;
++	registry_par->frag_thresh = (u16)rtw_frag_thresh;
++	registry_par->preamble = (u8)rtw_preamble;
++	registry_par->scan_mode = (u8)rtw_scan_mode;
++	registry_par->adhoc_tx_pwr = (u8)rtw_adhoc_tx_pwr;
++	registry_par->soft_ap = (u8)rtw_soft_ap;
++	registry_par->smart_ps = (u8)rtw_smart_ps;
++	registry_par->check_fw_ps = (u8)rtw_check_fw_ps;
++	registry_par->power_mgnt = (u8)rtw_power_mgnt;
++	registry_par->ips_mode = (u8)rtw_ips_mode;
++	registry_par->radio_enable = (u8)rtw_radio_enable;
++	registry_par->long_retry_lmt = (u8)rtw_long_retry_lmt;
++	registry_par->short_retry_lmt = (u8)rtw_short_retry_lmt;
++	registry_par->busy_thresh = (u16)rtw_busy_thresh;
++	/* registry_par->qos_enable = (u8)rtw_qos_enable; */
++	registry_par->ack_policy = (u8)rtw_ack_policy;
++	registry_par->mp_mode = (u8)rtw_mp_mode;
++	registry_par->software_encrypt = (u8)rtw_software_encrypt;
++	registry_par->software_decrypt = (u8)rtw_software_decrypt;
++
++	registry_par->acm_method = (u8)rtw_acm_method;
++	registry_par->usb_rxagg_mode = (u8)rtw_usb_rxagg_mode;
++
++	/* UAPSD */
++	registry_par->wmm_enable = (u8)rtw_wmm_enable;
++	registry_par->uapsd_enable = (u8)rtw_uapsd_enable;
++	registry_par->uapsd_max_sp = (u8)rtw_uapsd_max_sp;
++	registry_par->uapsd_acbk_en = (u8)rtw_uapsd_acbk_en;
++	registry_par->uapsd_acbe_en = (u8)rtw_uapsd_acbe_en;
++	registry_par->uapsd_acvi_en = (u8)rtw_uapsd_acvi_en;
++	registry_par->uapsd_acvo_en = (u8)rtw_uapsd_acvo_en;
++
++	registry_par->RegPwrTrimEnable = (u8)rtw_pwrtrim_enable;
++
++	registry_par->tx_bw_mode = (u8)rtw_tx_bw_mode;
++
++#ifdef CONFIG_80211N_HT
++	registry_par->ht_enable = (u8)rtw_ht_enable;
++	registry_par->bw_mode = (u8)rtw_bw_mode;
++	registry_par->ampdu_enable = (u8)rtw_ampdu_enable;
++	registry_par->rx_stbc = (u8)rtw_rx_stbc;
++	registry_par->ampdu_amsdu = (u8)rtw_ampdu_amsdu;
++	registry_par->short_gi = (u8)rtw_short_gi;
++	registry_par->ldpc_cap = (u8)rtw_ldpc_cap;
++	registry_par->stbc_cap = (u8)rtw_stbc_cap;
++	registry_par->beamform_cap = (u8)rtw_beamform_cap;
++	registry_par->beamformer_rf_num = (u8)rtw_bfer_rf_number;
++	registry_par->beamformee_rf_num = (u8)rtw_bfee_rf_number;
++#endif
++
++#ifdef CONFIG_80211AC_VHT
++	registry_par->vht_enable = (u8)rtw_vht_enable;
++	registry_par->ampdu_factor = (u8)rtw_ampdu_factor;
++	registry_par->vht_rate_sel = (u8)rtw_vht_rate_sel;
++#endif
++
++#ifdef CONFIG_TX_EARLY_MODE
++	registry_par->early_mode = (u8)rtw_early_mode;
++#endif
++	registry_par->lowrate_two_xmit = (u8)rtw_lowrate_two_xmit;
++	registry_par->rf_config = (u8)rtw_rf_config;
++	registry_par->low_power = (u8)rtw_low_power;
++
++	registry_par->check_hw_status = (u8)rtw_check_hw_status;
++
++	registry_par->wifi_spec = (u8)rtw_wifi_spec;
++
++	if (strlen(rtw_country_code) != 2
++		|| is_alpha(rtw_country_code[0]) == _FALSE
++		|| is_alpha(rtw_country_code[1]) == _FALSE
++	) {
++		if (rtw_country_code != rtw_country_unspecified)
++			RTW_ERR("%s discard rtw_country_code not in alpha2\n", __func__);
++		_rtw_memset(registry_par->alpha2, 0xFF, 2);
++	} else
++		_rtw_memcpy(registry_par->alpha2, rtw_country_code, 2);
++
++	registry_par->channel_plan = (u8)rtw_channel_plan;
++	rtw_regsty_load_excl_chs(registry_par);
++
++	registry_par->special_rf_path = (u8)rtw_special_rf_path;
++
++	registry_par->full_ch_in_p2p_handshake = (u8)rtw_full_ch_in_p2p_handshake;
++#ifdef CONFIG_BT_COEXIST
++	registry_par->btcoex = (u8)rtw_btcoex_enable;
++	registry_par->bt_iso = (u8)rtw_bt_iso;
++	registry_par->bt_sco = (u8)rtw_bt_sco;
++	registry_par->bt_ampdu = (u8)rtw_bt_ampdu;
++	registry_par->ant_num = (u8)rtw_ant_num;
++#endif
++
++	registry_par->bAcceptAddbaReq = (u8)rtw_AcceptAddbaReq;
++
++	registry_par->antdiv_cfg = (u8)rtw_antdiv_cfg;
++	registry_par->antdiv_type = (u8)rtw_antdiv_type;
++
++	registry_par->drv_ant_band_switch = (u8) rtw_drv_ant_band_switch;
++
++	registry_par->switch_usb_mode = (u8)rtw_switch_usb_mode;
++
++#ifdef CONFIG_AUTOSUSPEND
++	registry_par->usbss_enable = (u8)rtw_enusbss;/* 0:disable,1:enable */
++#endif
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++	registry_par->hwpdn_mode = (u8)rtw_hwpdn_mode;/* 0:disable,1:enable,2:by EFUSE config */
++	registry_par->hwpwrp_detect = (u8)rtw_hwpwrp_detect;/* 0:disable,1:enable */
++#endif
++
++	registry_par->hw_wps_pbc = (u8)rtw_hw_wps_pbc;
++
++#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++	snprintf(registry_par->adaptor_info_caching_file_path, PATH_LENGTH_MAX, "%s", rtw_adaptor_info_caching_file_path);
++	registry_par->adaptor_info_caching_file_path[PATH_LENGTH_MAX - 1] = 0;
++#endif
++
++#ifdef CONFIG_LAYER2_ROAMING
++	registry_par->max_roaming_times = (u8)rtw_max_roaming_times;
++#ifdef CONFIG_INTEL_WIDI
++	registry_par->max_roaming_times = (u8)rtw_max_roaming_times + 2;
++#endif /* CONFIG_INTEL_WIDI */
++#endif
++
++#ifdef CONFIG_IOL
++	registry_par->fw_iol = rtw_fw_iol;
++#endif
++
++#ifdef CONFIG_80211D
++	registry_par->enable80211d = (u8)rtw_80211d;
++#endif
++
++	snprintf(registry_par->ifname, 16, "%s", ifname);
++	snprintf(registry_par->if2name, 16, "%s", if2name);
++
++	registry_par->notch_filter = (u8)rtw_notch_filter;
++
++#ifdef CONFIG_SPECIAL_SETTING_FOR_FUNAI_TV
++	registry_par->force_ant = (u8)rtw_force_ant;
++	registry_par->force_igi = (u8)rtw_force_igi;
++#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++	registry_par->virtual_iface_num = (u8)rtw_virtual_iface_num;
++#endif
++
++	registry_par->force_igi_lb = (u8)rtw_force_igi_lb;
++
++	registry_par->pll_ref_clk_sel = (u8)rtw_pll_ref_clk_sel;
++
++	registry_par->RegEnableTxPowerLimit = (u8)rtw_tx_pwr_lmt_enable;
++	registry_par->RegEnableTxPowerByRate = (u8)rtw_tx_pwr_by_rate;
++
++	rtw_regsty_load_target_tx_power(registry_par);
++
++	registry_par->RegPowerBase = 14;
++	registry_par->TxBBSwing_2G = (s8)rtw_TxBBSwing_2G;
++	registry_par->TxBBSwing_5G = (s8)rtw_TxBBSwing_5G;
++	registry_par->bEn_RFE = 1;
++	registry_par->RFE_Type = (u8)rtw_RFE_type;
++	registry_par->PowerTracking_Type = (u8)rtw_powertracking_type;
++	registry_par->AmplifierType_2G = (u8)rtw_amplifier_type_2g;
++	registry_par->AmplifierType_5G = (u8)rtw_amplifier_type_5g;
++	registry_par->GLNA_Type = (u8)rtw_GLNA_type;
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	registry_par->load_phy_file = (u8)rtw_load_phy_file;
++	registry_par->RegDecryptCustomFile = (u8)rtw_decrypt_phy_file;
++#endif
++	registry_par->qos_opt_enable = (u8)rtw_qos_opt_enable;
++
++	registry_par->hiq_filter = (u8)rtw_hiq_filter;
++
++	registry_par->adaptivity_en = (u8)rtw_adaptivity_en;
++	registry_par->adaptivity_mode = (u8)rtw_adaptivity_mode;
++	registry_par->adaptivity_dml = (u8)rtw_adaptivity_dml;
++	registry_par->adaptivity_dc_backoff = (u8)rtw_adaptivity_dc_backoff;
++	registry_par->adaptivity_th_l2h_ini = (s8)rtw_adaptivity_th_l2h_ini;
++	registry_par->adaptivity_th_edcca_hl_diff = (s8)rtw_adaptivity_th_edcca_hl_diff;
++
++	registry_par->boffefusemask = (u8)rtw_OffEfuseMask;
++	registry_par->bFileMaskEfuse = (u8)rtw_FileMaskEfuse;
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	registry_par->acs_mode = (u8)rtw_acs_mode;
++	registry_par->acs_auto_scan = (u8)rtw_acs_auto_scan;
++#endif
++	registry_par->reg_rxgain_offset_2g = (u32) rtw_rxgain_offset_2g;
++	registry_par->reg_rxgain_offset_5gl = (u32) rtw_rxgain_offset_5gl;
++	registry_par->reg_rxgain_offset_5gm = (u32) rtw_rxgain_offset_5gm;
++	registry_par->reg_rxgain_offset_5gh = (u32) rtw_rxgain_offset_5gh;
++
++#ifdef CONFIG_DFS_MASTER
++	registry_par->dfs_region_domain = (u8)rtw_dfs_region_domain;
++#endif
++
++#ifdef CONFIG_MCC_MODE
++	registry_par->en_mcc = (u8)rtw_en_mcc;
++	registry_par->rtw_mcc_ap_bw20_target_tx_tp = (u32)rtw_mcc_ap_bw20_target_tx_tp;
++	registry_par->rtw_mcc_ap_bw40_target_tx_tp = (u32)rtw_mcc_ap_bw40_target_tx_tp;
++	registry_par->rtw_mcc_ap_bw80_target_tx_tp = (u32)rtw_mcc_ap_bw80_target_tx_tp;
++	registry_par->rtw_mcc_sta_bw20_target_tx_tp = (u32)rtw_mcc_sta_bw20_target_tx_tp;
++	registry_par->rtw_mcc_sta_bw40_target_tx_tp = (u32)rtw_mcc_sta_bw40_target_tx_tp;
++	registry_par->rtw_mcc_sta_bw80_target_tx_tp = (u32)rtw_mcc_sta_bw80_target_tx_tp;
++	registry_par->rtw_mcc_single_tx_cri = (u32)rtw_mcc_single_tx_cri;
++#endif /*CONFIG_MCC_MODE */
++#ifdef CONFIG_DEFAULT_PATTERNS_EN
++	registry_par->default_patterns_en = rtw_support_default_patterns;
++#endif
++
++#ifdef CONFIG_SUPPORT_TRX_SHARED
++	registry_par->trx_share_mode = rtw_trx_share_mode;
++#endif
++
++#ifdef CONFIG_RTW_NAPI
++	registry_par->en_napi = (u8)rtw_en_napi;
++#endif
++	
++#ifdef CONFIG_RTW_GRO
++	registry_par->en_gro = (u8)rtw_en_gro;
++	if (registry_par->en_napi == FALSE && registry_par->en_gro == TRUE) {
++		registry_par->en_gro = 0;
++		RTW_INFO("Disable GRO becasue NAPI is not enabled\n");
++	}
++#endif
++
++	return status;
++}
++
++/**
++ * rtw_net_set_mac_address
++ * This callback function is used for the Media Access Control address
++ * of each net_device needs to be changed.
++ *
++ * Arguments:
++ * @pnetdev: net_device pointer.
++ * @addr: new MAC address.
++ *
++ * Return:
++ * ret = 0: Permit to change net_device's MAC address.
++ * ret = -1 (Default): Operation not permitted.
++ *
++ * Auther: Arvin Liu
++ * Date: 2015/05/29
++ */
++static int rtw_net_set_mac_address(struct net_device *pnetdev, void *addr)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct sockaddr *sa = (struct sockaddr *)addr;
++	int ret = -1;
++
++	/* only the net_device is in down state to permit modifying mac addr */
++	if ((pnetdev->flags & IFF_UP) == _TRUE) {
++		RTW_INFO(FUNC_ADPT_FMT": The net_device's is not in down state\n"
++			 , FUNC_ADPT_ARG(padapter));
++
++		return ret;
++	}
++
++	/* if the net_device is linked, it's not permit to modify mac addr */
++	if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) ||
++	    check_fwstate(pmlmepriv, _FW_LINKED) ||
++	    check_fwstate(pmlmepriv, _FW_UNDER_SURVEY)) {
++		RTW_INFO(FUNC_ADPT_FMT": The net_device's is not idle currently\n"
++			 , FUNC_ADPT_ARG(padapter));
++
++		return ret;
++	}
++
++	/* check whether the input mac address is valid to permit modifying mac addr */
++	if (rtw_check_invalid_mac_address(sa->sa_data, _FALSE) == _TRUE) {
++		RTW_INFO(FUNC_ADPT_FMT": Invalid Mac Addr for "MAC_FMT"\n"
++			 , FUNC_ADPT_ARG(padapter), MAC_ARG(sa->sa_data));
++
++		return ret;
++	}
++
++	_rtw_memcpy(adapter_mac_addr(padapter), sa->sa_data, ETH_ALEN); /* set mac addr to adapter */
++	_rtw_memcpy(pnetdev->dev_addr, sa->sa_data, ETH_ALEN); /* set mac addr to net_device */
++
++#if 0
++	if (rtw_is_hw_init_completed(padapter)) {
++		rtw_ps_deny(padapter, PS_DENY_IOCTL);
++		LeaveAllPowerSaveModeDirect(padapter); /* leave PS mode for guaranteeing to access hw register successfully */
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		rtw_hal_change_macaddr_mbid(padapter, sa->sa_data);
++#else
++		rtw_hal_set_hwreg(padapter, HW_VAR_MAC_ADDR, sa->sa_data); /* set mac addr to mac register */
++#endif
++
++		rtw_ps_deny_cancel(padapter, PS_DENY_IOCTL);
++	}
++#else
++	rtw_ps_deny(padapter, PS_DENY_IOCTL);
++	LeaveAllPowerSaveModeDirect(padapter); /* leave PS mode for guaranteeing to access hw register successfully */
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++	rtw_hal_change_macaddr_mbid(padapter, sa->sa_data);
++#else
++	rtw_hal_set_hwreg(padapter, HW_VAR_MAC_ADDR, sa->sa_data); /* set mac addr to mac register */
++#endif
++	rtw_ps_deny_cancel(padapter, PS_DENY_IOCTL);
++#endif
++
++	RTW_INFO(FUNC_ADPT_FMT": Set Mac Addr to "MAC_FMT" Successfully\n"
++		 , FUNC_ADPT_ARG(padapter), MAC_ARG(sa->sa_data));
++
++	ret = 0;
++
++	return ret;
++}
++
++static struct net_device_stats *rtw_net_get_stats(struct net_device *pnetdev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct xmit_priv *pxmitpriv = &(padapter->xmitpriv);
++	struct recv_priv *precvpriv = &(padapter->recvpriv);
++
++	padapter->stats.tx_packets = pxmitpriv->tx_pkts;/* pxmitpriv->tx_pkts++; */
++	padapter->stats.rx_packets = precvpriv->rx_pkts;/* precvpriv->rx_pkts++; */
++	padapter->stats.tx_dropped = pxmitpriv->tx_drop;
++	padapter->stats.rx_dropped = precvpriv->rx_drop;
++	padapter->stats.tx_bytes = pxmitpriv->tx_bytes;
++	padapter->stats.rx_bytes = precvpriv->rx_bytes;
++
++	return &padapter->stats;
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++/*
++ * AC to queue mapping
++ *
++ * AC_VO -> queue 0
++ * AC_VI -> queue 1
++ * AC_BE -> queue 2
++ * AC_BK -> queue 3
++ */
++static const u16 rtw_1d_to_queue[8] = { 2, 3, 3, 2, 1, 1, 0, 0 };
++
++/* Given a data frame determine the 802.1p/1d tag to use. */
++unsigned int rtw_classify8021d(struct sk_buff *skb)
++{
++	unsigned int dscp;
++
++	/* skb->priority values from 256->263 are magic values to
++	 * directly indicate a specific 802.1d priority.  This is used
++	 * to allow 802.1d priority to be passed directly in from VLAN
++	 * tags, etc.
++	 */
++	if (skb->priority >= 256 && skb->priority <= 263)
++		return skb->priority - 256;
++
++	switch (skb->protocol) {
++	case htons(ETH_P_IP):
++		dscp = ip_hdr(skb)->tos & 0xfc;
++		break;
++	default:
++		return 0;
++	}
++
++	return dscp >> 5;
++}
++
++
++static u16 rtw_select_queue(struct net_device *dev, struct sk_buff *skb
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(3, 13, 0)
++	, void *accel_priv
++	#if LINUX_VERSION_CODE >= KERNEL_VERSION(3, 14, 0)
++	, select_queue_fallback_t fallback
++	#endif
++#endif
++)
++{
++	_adapter	*padapter = rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	skb->priority = rtw_classify8021d(skb);
++
++	if (pmlmepriv->acm_mask != 0)
++		skb->priority = qos_acm(pmlmepriv->acm_mask, skb->priority);
++
++	return rtw_1d_to_queue[skb->priority];
++}
++
++u16 rtw_recv_select_queue(struct sk_buff *skb)
++{
++	struct iphdr *piphdr;
++	unsigned int dscp;
++	u16	eth_type;
++	u32 priority;
++	u8 *pdata = skb->data;
++
++	_rtw_memcpy(&eth_type, pdata + (ETH_ALEN << 1), 2);
++
++	switch (eth_type) {
++	case htons(ETH_P_IP):
++
++		piphdr = (struct iphdr *)(pdata + ETH_HLEN);
++
++		dscp = piphdr->tos & 0xfc;
++
++		priority = dscp >> 5;
++
++		break;
++	default:
++		priority = 0;
++	}
++
++	return rtw_1d_to_queue[priority];
++
++}
++
++#endif
++static int rtw_ndev_notifier_call(struct notifier_block *nb, unsigned long state, void *ptr)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 11, 0))
++	struct net_device *dev = netdev_notifier_info_to_dev(ptr);
++#else
++	struct net_device *dev = ptr;
++#endif
++
++	if (dev == NULL)
++		return NOTIFY_DONE;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
++	if (dev->netdev_ops == NULL)
++		return NOTIFY_DONE;
++
++	if (dev->netdev_ops->ndo_do_ioctl == NULL)
++		return NOTIFY_DONE;
++
++	if (dev->netdev_ops->ndo_do_ioctl != rtw_ioctl)
++#else
++	if (dev->do_ioctl == NULL)
++		return NOTIFY_DONE;
++
++	if (dev->do_ioctl != rtw_ioctl)
++#endif
++		return NOTIFY_DONE;
++
++	RTW_INFO(FUNC_NDEV_FMT" state:%lu\n", FUNC_NDEV_ARG(dev), state);
++
++	switch (state) {
++	case NETDEV_CHANGENAME:
++		rtw_adapter_proc_replace(dev);
++		break;
++	}
++
++	return NOTIFY_DONE;
++}
++
++static struct notifier_block rtw_ndev_notifier = {
++	.notifier_call = rtw_ndev_notifier_call,
++};
++
++int rtw_ndev_notifier_register(void)
++{
++	return register_netdevice_notifier(&rtw_ndev_notifier);
++}
++
++void rtw_ndev_notifier_unregister(void)
++{
++	unregister_netdevice_notifier(&rtw_ndev_notifier);
++}
++
++
++int rtw_ndev_init(struct net_device *dev)
++{
++	_adapter *adapter = rtw_netdev_priv(dev);
++
++	RTW_PRINT(FUNC_ADPT_FMT" if%d mac_addr="MAC_FMT"\n"
++		, FUNC_ADPT_ARG(adapter), (adapter->iface_id + 1), MAC_ARG(dev->dev_addr));
++	strncpy(adapter->old_ifname, dev->name, IFNAMSIZ);
++	adapter->old_ifname[IFNAMSIZ - 1] = '\0';
++	rtw_adapter_proc_init(dev);
++
++	return 0;
++}
++
++void rtw_ndev_uninit(struct net_device *dev)
++{
++	_adapter *adapter = rtw_netdev_priv(dev);
++
++	RTW_PRINT(FUNC_ADPT_FMT" if%d\n"
++		  , FUNC_ADPT_ARG(adapter), (adapter->iface_id + 1));
++	rtw_adapter_proc_deinit(dev);
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
++static const struct net_device_ops rtw_netdev_ops = {
++	.ndo_init = rtw_ndev_init,
++	.ndo_uninit = rtw_ndev_uninit,
++	.ndo_open = netdev_open,
++	.ndo_stop = netdev_close,
++	.ndo_start_xmit = rtw_xmit_entry,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	.ndo_select_queue	= rtw_select_queue,
++#endif
++	.ndo_set_mac_address = rtw_net_set_mac_address,
++	.ndo_get_stats = rtw_net_get_stats,
++	.ndo_do_ioctl = rtw_ioctl,
++};
++#endif
++
++int rtw_init_netdev_name(struct net_device *pnetdev, const char *ifname)
++{
++	_adapter *padapter = rtw_netdev_priv(pnetdev);
++
++#ifdef CONFIG_EASY_REPLACEMENT
++	struct net_device	*TargetNetdev = NULL;
++	_adapter			*TargetAdapter = NULL;
++	struct net		*devnet = NULL;
++
++	if (padapter->bDongle == 1) {
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 24))
++		TargetNetdev = dev_get_by_name("wlan0");
++#else
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 26))
++		devnet = pnetdev->nd_net;
++#else
++		devnet = dev_net(pnetdev);
++#endif
++		TargetNetdev = dev_get_by_name(devnet, "wlan0");
++#endif
++		if (TargetNetdev) {
++			RTW_INFO("Force onboard module driver disappear !!!\n");
++			TargetAdapter = rtw_netdev_priv(TargetNetdev);
++			TargetAdapter->DriverState = DRIVER_DISAPPEAR;
++
++			padapter->pid[0] = TargetAdapter->pid[0];
++			padapter->pid[1] = TargetAdapter->pid[1];
++			padapter->pid[2] = TargetAdapter->pid[2];
++
++			dev_put(TargetNetdev);
++			unregister_netdev(TargetNetdev);
++
++			padapter->DriverState = DRIVER_REPLACE_DONGLE;
++		}
++	}
++#endif /* CONFIG_EASY_REPLACEMENT */
++
++	if (dev_alloc_name(pnetdev, ifname) < 0)
++		RTW_ERR("dev_alloc_name, fail!\n");
++
++	netif_carrier_off(pnetdev);
++	/* rtw_netif_stop_queue(pnetdev); */
++
++	return 0;
++}
++
++void rtw_hook_if_ops(struct net_device *ndev)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
++	ndev->netdev_ops = &rtw_netdev_ops;
++#else
++	ndev->init = rtw_ndev_init;
++	ndev->uninit = rtw_ndev_uninit;
++	ndev->open = netdev_open;
++	ndev->stop = netdev_close;
++	ndev->hard_start_xmit = rtw_xmit_entry;
++	ndev->set_mac_address = rtw_net_set_mac_address;
++	ndev->get_stats = rtw_net_get_stats;
++	ndev->do_ioctl = rtw_ioctl;
++#endif
++}
++
++struct net_device *rtw_init_netdev(_adapter *old_padapter)
++{
++	_adapter *padapter;
++	struct net_device *pnetdev;
++
++
++	if (old_padapter != NULL)
++		pnetdev = rtw_alloc_etherdev_with_old_priv(sizeof(_adapter), (void *)old_padapter);
++	else
++		pnetdev = rtw_alloc_etherdev(sizeof(_adapter));
++
++	if (!pnetdev)
++		return NULL;
++
++	padapter = rtw_netdev_priv(pnetdev);
++	padapter->pnetdev = pnetdev;
++
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 24)
++	SET_MODULE_OWNER(pnetdev);
++#endif
++
++	rtw_hook_if_ops(pnetdev);
++
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
++	pnetdev->features |= NETIF_F_IP_CSUM;
++#endif
++
++	/* pnetdev->tx_timeout = NULL; */
++	pnetdev->watchdog_timeo = HZ * 3; /* 3 second timeout */
++
++#ifdef CONFIG_WIRELESS_EXT
++	pnetdev->wireless_handlers = (struct iw_handler_def *)&rtw_handlers_def;
++#endif
++
++#ifdef WIRELESS_SPY
++	/* priv->wireless_data.spy_data = &priv->spy_data; */
++	/* pnetdev->wireless_data = &priv->wireless_data; */
++#endif
++
++	return pnetdev;
++}
++
++int rtw_os_ndev_alloc(_adapter *adapter)
++{
++	int ret = _FAIL;
++	struct net_device *ndev = NULL;
++
++	ndev = rtw_init_netdev(adapter);
++	if (ndev == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++#if LINUX_VERSION_CODE > KERNEL_VERSION(2, 5, 0)
++	SET_NETDEV_DEV(ndev, dvobj_to_dev(adapter_to_dvobj(adapter)));
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	if (adapter_to_dvobj(adapter)->bdma64)
++		ndev->features |= NETIF_F_HIGHDMA;
++	ndev->irq = adapter_to_dvobj(adapter)->irq;
++#endif
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	if (rtw_cfg80211_ndev_res_alloc(adapter) != _SUCCESS) {
++		rtw_warn_on(1);
++		goto free_ndev;
++	}
++#endif
++
++	ret = _SUCCESS;
++
++free_ndev:
++	if (ret != _SUCCESS && ndev)
++		rtw_free_netdev(ndev);
++exit:
++	return ret;
++}
++
++void rtw_os_ndev_free(_adapter *adapter)
++{
++#if defined(CONFIG_IOCTL_CFG80211)
++	rtw_cfg80211_ndev_res_free(adapter);
++#endif
++
++	if (adapter->pnetdev) {
++		rtw_free_netdev(adapter->pnetdev);
++		adapter->pnetdev = NULL;
++	}
++}
++
++int rtw_os_ndev_register(_adapter *adapter, char *name)
++{
++	int ret = _SUCCESS;
++	struct net_device *ndev = adapter->pnetdev;
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	if (rtw_cfg80211_ndev_res_register(adapter) != _SUCCESS) {
++		rtw_warn_on(1);
++		ret = _FAIL;
++		goto exit;
++	}
++#endif
++
++	/* alloc netdev name */
++	rtw_init_netdev_name(ndev, name);
++
++	_rtw_memcpy(ndev->dev_addr, adapter_mac_addr(adapter), ETH_ALEN);
++
++	/* Tell the network stack we exist */
++	if (register_netdev(ndev) != 0) {
++		RTW_INFO(FUNC_NDEV_FMT" if%d Failed!\n", FUNC_NDEV_ARG(ndev), (adapter->iface_id + 1));
++		ret = _FAIL;
++	}
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	if (ret != _SUCCESS) {
++		rtw_cfg80211_ndev_res_unregister(adapter);
++		#if !defined(RTW_SINGLE_WIPHY)
++		rtw_wiphy_unregister(adapter_to_wiphy(adapter));
++		#endif
++	}
++#endif
++
++exit:
++	return ret;
++}
++
++void rtw_os_ndev_unregister(_adapter *adapter)
++{
++	struct net_device *netdev = NULL;
++
++	if (adapter == NULL)
++		return;
++
++	adapter->ndev_unregistering = 1;
++
++	netdev = adapter->pnetdev;
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	rtw_cfg80211_ndev_res_unregister(adapter);
++#endif
++
++	if ((adapter->DriverState != DRIVER_DISAPPEAR) && netdev)
++		unregister_netdev(netdev); /* will call netdev_close() */
++
++#if defined(CONFIG_IOCTL_CFG80211) && !defined(RTW_SINGLE_WIPHY)
++	rtw_wiphy_unregister(adapter_to_wiphy(adapter));
++#endif
++
++	adapter->ndev_unregistering = 0;
++}
++
++/**
++ * rtw_os_ndev_init - Allocate and register OS layer net device and relating structures for @adapter
++ * @adapter: the adapter on which this function applies
++ * @name: the requesting net device name
++ *
++ * Returns:
++ * _SUCCESS or _FAIL
++ */
++int rtw_os_ndev_init(_adapter *adapter, char *name)
++{
++	int ret = _FAIL;
++
++	if (rtw_os_ndev_alloc(adapter) != _SUCCESS)
++		goto exit;
++
++	if (rtw_os_ndev_register(adapter, name) != _SUCCESS)
++		goto os_ndev_free;
++
++	ret = _SUCCESS;
++
++os_ndev_free:
++	if (ret != _SUCCESS)
++		rtw_os_ndev_free(adapter);
++exit:
++	return ret;
++}
++
++/**
++ * rtw_os_ndev_deinit - Unregister and free OS layer net device and relating structures for @adapter
++ * @adapter: the adapter on which this function applies
++ */
++void rtw_os_ndev_deinit(_adapter *adapter)
++{
++	rtw_os_ndev_unregister(adapter);
++	rtw_os_ndev_free(adapter);
++}
++
++int rtw_os_ndevs_alloc(struct dvobj_priv *dvobj)
++{
++	int i, status = _SUCCESS;
++	_adapter *adapter;
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	if (rtw_cfg80211_dev_res_alloc(dvobj) != _SUCCESS) {
++		rtw_warn_on(1);
++		status = _FAIL;
++		goto exit;
++	}
++#endif
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++
++		if (i >= CONFIG_IFACE_NUMBER) {
++			RTW_ERR("%s %d >= CONFIG_IFACE_NUMBER(%d)\n", __func__, i, CONFIG_IFACE_NUMBER);
++			rtw_warn_on(1);
++			continue;
++		}
++
++		adapter = dvobj->padapters[i];
++		if (adapter && !adapter->pnetdev) {
++			status = rtw_os_ndev_alloc(adapter);
++			if (status != _SUCCESS) {
++				rtw_warn_on(1);
++				break;
++			}
++		}
++	}
++
++	if (status != _SUCCESS) {
++		for (; i >= 0; i--) {
++			adapter = dvobj->padapters[i];
++			if (adapter && adapter->pnetdev)
++				rtw_os_ndev_free(adapter);
++		}
++	}
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	if (status != _SUCCESS)
++		rtw_cfg80211_dev_res_free(dvobj);
++#endif
++exit:
++	return status;
++}
++
++void rtw_os_ndevs_free(struct dvobj_priv *dvobj)
++{
++	int i;
++	_adapter *adapter = NULL;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++
++		if (i >= CONFIG_IFACE_NUMBER) {
++			RTW_ERR("%s %d >= CONFIG_IFACE_NUMBER(%d)\n", __func__, i, CONFIG_IFACE_NUMBER);
++			rtw_warn_on(1);
++			continue;
++		}
++
++		adapter = dvobj->padapters[i];
++
++		if (adapter == NULL)
++			continue;
++
++		rtw_os_ndev_free(adapter);
++	}
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	rtw_cfg80211_dev_res_free(dvobj);
++#endif
++}
++
++u32 rtw_start_drv_threads(_adapter *padapter)
++{
++	u32 _status = _SUCCESS;
++
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++#if defined(CONFIG_SDIO_HCI)
++	if (is_primary_adapter(padapter))
++#endif
++	{
++		padapter->xmitThread = kthread_run(rtw_xmit_thread, padapter, "RTW_XMIT_THREAD");
++		if (IS_ERR(padapter->xmitThread))
++			_status = _FAIL;
++	}
++#endif /* #ifdef CONFIG_XMIT_THREAD_MODE */
++
++#ifdef CONFIG_RECV_THREAD_MODE
++	padapter->recvThread = kthread_run(rtw_recv_thread, padapter, "RTW_RECV_THREAD");
++	if (IS_ERR(padapter->recvThread))
++		_status = _FAIL;
++#endif
++
++	if (is_primary_adapter(padapter)) {
++		padapter->cmdThread = kthread_run(rtw_cmd_thread, padapter, "RTW_CMD_THREAD");
++		if (IS_ERR(padapter->cmdThread))
++			_status = _FAIL;
++		else
++			_rtw_down_sema(&padapter->cmdpriv.terminate_cmdthread_sema); /* wait for cmd_thread to run */
++	}
++
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++	padapter->evtThread = kthread_run(event_thread, padapter, "RTW_EVENT_THREAD");
++	if (IS_ERR(padapter->evtThread))
++		_status = _FAIL;
++#endif
++
++	rtw_hal_start_thread(padapter);
++	return _status;
++
++}
++
++void rtw_stop_drv_threads(_adapter *padapter)
++{
++
++	if (is_primary_adapter(padapter))
++		rtw_stop_cmd_thread(padapter);
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++	_rtw_up_sema(&padapter->evtpriv.evt_notify);
++	if (padapter->evtThread)
++		_rtw_down_sema(&padapter->evtpriv.terminate_evtthread_sema);
++#endif
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++	/* Below is to termindate tx_thread... */
++#if defined(CONFIG_SDIO_HCI)
++	/* Only wake-up primary adapter */
++	if (is_primary_adapter(padapter))
++#endif  /*SDIO_HCI */
++	{
++		_rtw_up_sema(&padapter->xmitpriv.xmit_sema);
++		_rtw_down_sema(&padapter->xmitpriv.terminate_xmitthread_sema);
++	}
++#endif
++
++#ifdef CONFIG_RECV_THREAD_MODE
++	/* Below is to termindate rx_thread... */
++	_rtw_up_sema(&padapter->recvpriv.recv_sema);
++	_rtw_down_sema(&padapter->recvpriv.terminate_recvthread_sema);
++#endif
++
++	rtw_hal_stop_thread(padapter);
++}
++
++u8 rtw_init_default_value(_adapter *padapter);
++u8 rtw_init_default_value(_adapter *padapter)
++{
++	u8 ret  = _SUCCESS;
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++
++	/* xmit_priv */
++	pxmitpriv->vcs_setting = pregistrypriv->vrtl_carrier_sense;
++	pxmitpriv->vcs = pregistrypriv->vcs_type;
++	pxmitpriv->vcs_type = pregistrypriv->vcs_type;
++	/* pxmitpriv->rts_thresh = pregistrypriv->rts_thresh; */
++	pxmitpriv->frag_len = pregistrypriv->frag_thresh;
++
++	/* security_priv */
++	/* rtw_get_encrypt_decrypt_from_registrypriv(padapter); */
++	psecuritypriv->binstallGrpkey = _FAIL;
++#ifdef CONFIG_GTK_OL
++	psecuritypriv->binstallKCK_KEK = _FAIL;
++#endif /* CONFIG_GTK_OL */
++	psecuritypriv->sw_encrypt = pregistrypriv->software_encrypt;
++	psecuritypriv->sw_decrypt = pregistrypriv->software_decrypt;
++
++	psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Open; /* open system */
++	psecuritypriv->dot11PrivacyAlgrthm = _NO_PRIVACY_;
++
++	psecuritypriv->dot11PrivacyKeyIndex = 0;
++
++	psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++	psecuritypriv->dot118021XGrpKeyid = 1;
++
++	psecuritypriv->ndisauthtype = Ndis802_11AuthModeOpen;
++	psecuritypriv->ndisencryptstatus = Ndis802_11WEPDisabled;
++#ifdef CONFIG_CONCURRENT_MODE
++	psecuritypriv->dot118021x_bmc_cam_id = INVALID_SEC_MAC_CAM_ID;
++#endif
++
++
++	/* pwrctrl_priv */
++
++
++	/* registry_priv */
++	rtw_init_registrypriv_dev_network(padapter);
++	rtw_update_registrypriv_dev_network(padapter);
++
++
++	/* hal_priv */
++	rtw_hal_def_value_init(padapter);
++
++	/* misc. */
++	RTW_ENABLE_FUNC(padapter, DF_RX_BIT);
++	RTW_ENABLE_FUNC(padapter, DF_TX_BIT);
++	padapter->bLinkInfoDump = 0;
++	padapter->bNotifyChannelChange = _FALSE;
++#ifdef CONFIG_P2P
++	padapter->bShowGetP2PState = 1;
++#endif
++
++	/* for debug purpose */
++	padapter->fix_rate = 0xFF;
++	padapter->data_fb = 0;
++	padapter->fix_bw = 0xFF;
++
++	padapter->driver_tx_bw_mode = pregistrypriv->tx_bw_mode;
++
++	padapter->driver_ampdu_spacing = 0xFF;
++	padapter->driver_rx_ampdu_factor =  0xFF;
++	padapter->driver_rx_ampdu_spacing = 0xFF;
++	padapter->fix_rx_ampdu_accept = RX_AMPDU_ACCEPT_INVALID;
++	padapter->fix_rx_ampdu_size = RX_AMPDU_SIZE_INVALID;
++#ifdef DBG_RX_COUNTER_DUMP
++	padapter->dump_rx_cnt_mode = 0;
++	padapter->drv_rx_cnt_ok = 0;
++	padapter->drv_rx_cnt_crcerror = 0;
++	padapter->drv_rx_cnt_drop = 0;
++#endif
++#ifdef CONFIG_RTW_NAPI
++	padapter->napi_state = NAPI_DISABLE;
++#endif
++	return ret;
++}
++
++#ifdef CONFIG_SWTIMER_BASED_TXBCN
++void _tx_beacon_timer_handlder(void *FunctionContext)
++{
++	struct dvobj_priv *pdvobj = (struct dvobj_priv *)FunctionContext;
++
++	tx_beacon_timer_handlder(pdvobj);
++}
++#endif
++
++struct dvobj_priv *devobj_init(void)
++{
++	struct dvobj_priv *pdvobj = NULL;
++
++	pdvobj = (struct dvobj_priv *)rtw_zmalloc(sizeof(*pdvobj));
++	if (pdvobj == NULL)
++		return NULL;
++
++	_rtw_mutex_init(&pdvobj->hw_init_mutex);
++	_rtw_mutex_init(&pdvobj->h2c_fwcmd_mutex);
++	_rtw_mutex_init(&pdvobj->setch_mutex);
++	_rtw_mutex_init(&pdvobj->setbw_mutex);
++	_rtw_mutex_init(&pdvobj->rf_read_reg_mutex);
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++	_rtw_mutex_init(&pdvobj->sd_indirect_access_mutex);
++#endif
++
++	pdvobj->processing_dev_remove = _FALSE;
++
++	ATOMIC_SET(&pdvobj->disable_func, 0);
++
++	rtw_macid_ctl_init(&pdvobj->macid_ctl);
++	_rtw_spinlock_init(&pdvobj->cam_ctl.lock);
++	_rtw_mutex_init(&pdvobj->cam_ctl.sec_cam_access_mutex);
++#if defined(RTK_129X_PLATFORM) && defined(CONFIG_PCI_HCI)
++	_rtw_spinlock_init(&pdvobj->io_reg_lock);
++#endif
++#ifdef CONFIG_MBSSID_CAM
++	rtw_mbid_cam_init(pdvobj);
++#endif
++
++#ifdef CONFIG_AP_MODE
++	pdvobj->nr_ap_if = 0;
++	pdvobj->inter_bcn_space = DEFAULT_BCN_INTERVAL; /* default value is equal to the default beacon_interval (100ms) */
++	_rtw_init_queue(&pdvobj->ap_if_q);
++#ifdef CONFIG_SWTIMER_BASED_TXBCN
++	_init_timer(&(pdvobj->txbcn_timer), NULL, _tx_beacon_timer_handlder, pdvobj);
++#endif
++#endif
++
++#ifdef CONFIG_MCC_MODE
++	_rtw_mutex_init(&(pdvobj->mcc_objpriv.mcc_mutex));
++	_rtw_spinlock_init(&pdvobj->mcc_objpriv.mcc_lock);
++#endif /* CONFIG_MCC_MODE */
++
++	return pdvobj;
++
++}
++
++void devobj_deinit(struct dvobj_priv *pdvobj)
++{
++	if (!pdvobj)
++		return;
++
++	/* TODO: use rtw_os_ndevs_deinit instead at the first stage of driver's dev deinit function */
++#if defined(CONFIG_IOCTL_CFG80211)
++	rtw_cfg80211_dev_res_free(pdvobj);
++#endif
++
++#ifdef CONFIG_MCC_MODE
++	_rtw_mutex_free(&(pdvobj->mcc_objpriv.mcc_mutex));
++	_rtw_spinlock_free(&pdvobj->mcc_objpriv.mcc_lock);
++#endif /* CONFIG_MCC_MODE */
++
++	_rtw_mutex_free(&pdvobj->hw_init_mutex);
++	_rtw_mutex_free(&pdvobj->h2c_fwcmd_mutex);
++	_rtw_mutex_free(&pdvobj->setch_mutex);
++	_rtw_mutex_free(&pdvobj->setbw_mutex);
++	_rtw_mutex_free(&pdvobj->rf_read_reg_mutex);
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++	_rtw_mutex_free(&pdvobj->sd_indirect_access_mutex);
++#endif
++
++	rtw_macid_ctl_deinit(&pdvobj->macid_ctl);
++	_rtw_spinlock_free(&pdvobj->cam_ctl.lock);
++	_rtw_mutex_free(&pdvobj->cam_ctl.sec_cam_access_mutex);
++
++#if defined(RTK_129X_PLATFORM) && defined(CONFIG_PCI_HCI)
++	_rtw_spinlock_free(&pdvobj->io_reg_lock);
++#endif
++#ifdef CONFIG_MBSSID_CAM
++	rtw_mbid_cam_deinit(pdvobj);
++#endif
++
++	_rtw_spinlock_free(&(pdvobj->ap_if_q.lock));
++
++	rtw_mfree((u8 *)pdvobj, sizeof(*pdvobj));
++}
++
++u8 rtw_reset_drv_sw(_adapter *padapter)
++{
++	u8	ret8 = _SUCCESS;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++
++	/* hal_priv */
++	if (is_primary_adapter(padapter))
++		rtw_hal_def_value_init(padapter);
++
++	RTW_ENABLE_FUNC(padapter, DF_RX_BIT);
++	RTW_ENABLE_FUNC(padapter, DF_TX_BIT);
++	padapter->bLinkInfoDump = 0;
++
++	padapter->xmitpriv.tx_pkts = 0;
++	padapter->recvpriv.rx_pkts = 0;
++
++	pmlmepriv->LinkDetectInfo.bBusyTraffic = _FALSE;
++
++	/* pmlmepriv->LinkDetectInfo.TrafficBusyState = _FALSE; */
++	pmlmepriv->LinkDetectInfo.TrafficTransitionCount = 0;
++	pmlmepriv->LinkDetectInfo.LowPowerTransitionCount = 0;
++
++	_clr_fwstate_(pmlmepriv, _FW_UNDER_SURVEY | _FW_UNDER_LINKING);
++
++#ifdef CONFIG_AUTOSUSPEND
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 22) && LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 34))
++	adapter_to_dvobj(padapter)->pusbdev->autosuspend_disabled = 1;/* autosuspend disabled by the user */
++#endif
++#endif
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	if (is_primary_adapter(padapter))
++		rtw_hal_sreset_reset_value(padapter);
++#endif
++	pwrctrlpriv->pwr_state_check_cnts = 0;
++
++	/* mlmeextpriv */
++	mlmeext_set_scan_state(&padapter->mlmeextpriv, SCAN_DISABLE);
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	rtw_set_signal_stat_timer(&padapter->recvpriv);
++#endif
++
++	return ret8;
++}
++
++
++u8 rtw_init_drv_sw(_adapter *padapter)
++{
++
++	u8	ret8 = _SUCCESS;
++
++
++
++	_rtw_init_listhead(&padapter->list);
++
++	ret8 = rtw_init_default_value(padapter);
++
++	if ((rtw_init_cmd_priv(&padapter->cmdpriv)) == _FAIL) {
++		ret8 = _FAIL;
++		goto exit;
++	}
++
++	padapter->cmdpriv.padapter = padapter;
++
++	if ((rtw_init_evt_priv(&padapter->evtpriv)) == _FAIL) {
++		ret8 = _FAIL;
++		goto exit;
++	}
++
++	rtw_rfctl_init(padapter);
++
++	if (rtw_init_mlme_priv(padapter) == _FAIL) {
++		ret8 = _FAIL;
++		goto exit;
++	}
++
++#ifdef CONFIG_P2P
++	rtw_init_wifidirect_timers(padapter);
++	init_wifidirect_info(padapter, P2P_ROLE_DISABLE);
++	reset_global_wifidirect_info(padapter);
++	#ifdef CONFIG_IOCTL_CFG80211
++	rtw_init_cfg80211_wifidirect_info(padapter);
++	#endif
++#ifdef CONFIG_WFD
++	if (rtw_init_wifi_display_info(padapter) == _FAIL)
++		RTW_ERR("Can't init init_wifi_display_info\n");
++#endif
++#endif /* CONFIG_P2P */
++
++	if (init_mlme_ext_priv(padapter) == _FAIL) {
++		ret8 = _FAIL;
++		goto exit;
++	}
++
++#ifdef CONFIG_TDLS
++	if (rtw_init_tdls_info(padapter) == _FAIL) {
++		RTW_INFO("Can't rtw_init_tdls_info\n");
++		ret8 = _FAIL;
++		goto exit;
++	}
++#endif /* CONFIG_TDLS */
++
++	if (_rtw_init_xmit_priv(&padapter->xmitpriv, padapter) == _FAIL) {
++		RTW_INFO("Can't _rtw_init_xmit_priv\n");
++		ret8 = _FAIL;
++		goto exit;
++	}
++
++	if (_rtw_init_recv_priv(&padapter->recvpriv, padapter) == _FAIL) {
++		RTW_INFO("Can't _rtw_init_recv_priv\n");
++		ret8 = _FAIL;
++		goto exit;
++	}
++	/* add for CONFIG_IEEE80211W, none 11w also can use */
++	_rtw_spinlock_init(&padapter->security_key_mutex);
++
++	/* We don't need to memset padapter->XXX to zero, because adapter is allocated by rtw_zvmalloc(). */
++	/* _rtw_memset((unsigned char *)&padapter->securitypriv, 0, sizeof (struct security_priv)); */
++
++	/* _init_timer(&(padapter->securitypriv.tkip_timer), padapter->pifp, rtw_use_tkipkey_handler, padapter); */
++
++	if (_rtw_init_sta_priv(&padapter->stapriv) == _FAIL) {
++		RTW_INFO("Can't _rtw_init_sta_priv\n");
++		ret8 = _FAIL;
++		goto exit;
++	}
++
++	padapter->stapriv.padapter = padapter;
++	padapter->setband = WIFI_FREQUENCY_BAND_AUTO;
++	padapter->fix_rate = 0xFF;
++	padapter->data_fb = 0;
++	padapter->fix_rx_ampdu_accept = RX_AMPDU_ACCEPT_INVALID;
++	padapter->fix_rx_ampdu_size = RX_AMPDU_SIZE_INVALID;
++#ifdef DBG_RX_COUNTER_DUMP
++	padapter->dump_rx_cnt_mode = 0;
++	padapter->drv_rx_cnt_ok = 0;
++	padapter->drv_rx_cnt_crcerror = 0;
++	padapter->drv_rx_cnt_drop = 0;
++#endif
++	rtw_init_bcmc_stainfo(padapter);
++
++	rtw_init_pwrctrl_priv(padapter);
++
++	/* _rtw_memset((u8 *)&padapter->qospriv, 0, sizeof (struct qos_priv)); */ /* move to mlme_priv */
++
++#ifdef CONFIG_MP_INCLUDED
++	if (init_mp_priv(padapter) == _FAIL)
++		RTW_INFO("%s: initialize MP private data Fail!\n", __func__);
++#endif
++
++	rtw_hal_dm_init(padapter);
++#ifdef CONFIG_SW_LED
++	rtw_hal_sw_led_init(padapter);
++#endif
++#ifdef DBG_CONFIG_ERROR_DETECT
++	rtw_hal_sreset_init(padapter);
++#endif
++
++#ifdef CONFIG_INTEL_WIDI
++	if (rtw_init_intel_widi(padapter) == _FAIL) {
++		RTW_INFO("Can't rtw_init_intel_widi\n");
++		ret8 = _FAIL;
++		goto exit;
++	}
++#endif /* CONFIG_INTEL_WIDI */
++
++#ifdef CONFIG_WAPI_SUPPORT
++	padapter->WapiSupport = true; /* set true temp, will revise according to Efuse or Registry value later. */
++	rtw_wapi_init(padapter);
++#endif
++
++#ifdef CONFIG_BR_EXT
++	_rtw_spinlock_init(&padapter->br_ext_lock);
++#endif /* CONFIG_BR_EXT */
++
++exit:
++
++
++
++	return ret8;
++
++}
++
++#ifdef CONFIG_WOWLAN
++void rtw_cancel_dynamic_chk_timer(_adapter *padapter)
++{
++	_cancel_timer_ex(&padapter->mlmepriv.dynamic_chk_timer);
++}
++#endif
++
++void rtw_cancel_all_timer(_adapter *padapter)
++{
++
++	_cancel_timer_ex(&padapter->mlmepriv.assoc_timer);
++
++#if 0
++	_cancel_timer_ex(&padapter->securitypriv.tkip_timer);
++#endif
++
++	_cancel_timer_ex(&padapter->mlmepriv.scan_to_timer);
++
++#ifdef CONFIG_DFS_MASTER
++	_cancel_timer_ex(&padapter->mlmepriv.dfs_master_timer);
++#endif
++
++	_cancel_timer_ex(&padapter->mlmepriv.dynamic_chk_timer);
++
++	/* cancel sw led timer */
++	rtw_hal_sw_led_deinit(padapter);
++
++	_cancel_timer_ex(&(adapter_to_pwrctl(padapter)->pwr_state_check_timer));
++
++#ifdef CONFIG_IOCTL_CFG80211
++#ifdef CONFIG_P2P
++	_cancel_timer_ex(&padapter->cfg80211_wdinfo.remain_on_ch_timer);
++#endif /* CONFIG_P2P */
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++	_cancel_timer_ex(&padapter->mlmepriv.set_scan_deny_timer);
++	rtw_clear_scan_deny(padapter);
++#endif
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	_cancel_timer_ex(&padapter->recvpriv.signal_stat_timer);
++#endif
++	/* cancel dm timer */
++	rtw_hal_dm_deinit(padapter);
++
++#ifdef CONFIG_PLATFORM_FS_MX61
++	msleep(50);
++#endif
++}
++
++u8 rtw_free_drv_sw(_adapter *padapter)
++{
++
++#ifdef CONFIG_WAPI_SUPPORT
++	rtw_wapi_free(padapter);
++#endif
++
++	/* we can call rtw_p2p_enable here, but: */
++	/* 1. rtw_p2p_enable may have IO operation */
++	/* 2. rtw_p2p_enable is bundled with wext interface */
++	#ifdef CONFIG_P2P
++	{
++		struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++		if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++			_cancel_timer_ex(&pwdinfo->find_phase_timer);
++			_cancel_timer_ex(&pwdinfo->restore_p2p_state_timer);
++			_cancel_timer_ex(&pwdinfo->pre_tx_scan_timer);
++			#ifdef CONFIG_CONCURRENT_MODE
++			_cancel_timer_ex(&pwdinfo->ap_p2p_switch_timer);
++			#endif /* CONFIG_CONCURRENT_MODE */
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_NONE);
++		}
++	}
++	#endif
++	/* add for CONFIG_IEEE80211W, none 11w also can use */
++	_rtw_spinlock_free(&padapter->security_key_mutex);
++
++#ifdef CONFIG_BR_EXT
++	_rtw_spinlock_free(&padapter->br_ext_lock);
++#endif /* CONFIG_BR_EXT */
++
++#ifdef CONFIG_INTEL_WIDI
++	rtw_free_intel_widi(padapter);
++#endif /* CONFIG_INTEL_WIDI */
++
++	free_mlme_ext_priv(&padapter->mlmeextpriv);
++
++#ifdef CONFIG_TDLS
++	/* rtw_free_tdls_info(&padapter->tdlsinfo); */
++#endif /* CONFIG_TDLS */
++
++	rtw_free_cmd_priv(&padapter->cmdpriv);
++
++	rtw_free_evt_priv(&padapter->evtpriv);
++
++	rtw_free_mlme_priv(&padapter->mlmepriv);
++
++	/* free_io_queue(padapter); */
++
++	_rtw_free_xmit_priv(&padapter->xmitpriv);
++
++	_rtw_free_sta_priv(&padapter->stapriv); /* will free bcmc_stainfo here */
++
++	_rtw_free_recv_priv(&padapter->recvpriv);
++
++	rtw_free_pwrctrl_priv(padapter);
++
++	/* rtw_mfree((void *)padapter, sizeof (padapter)); */
++
++#ifdef CONFIG_DRVEXT_MODULE
++	free_drvext(&padapter->drvextpriv);
++#endif
++
++	rtw_hal_free_data(padapter);
++
++
++	/* free the old_pnetdev */
++	if (padapter->rereg_nd_name_priv.old_pnetdev) {
++		free_netdev(padapter->rereg_nd_name_priv.old_pnetdev);
++		padapter->rereg_nd_name_priv.old_pnetdev = NULL;
++	}
++
++	return _SUCCESS;
++
++}
++void rtw_intf_start(_adapter *adapter)
++{
++	if (adapter->intf_start)
++		adapter->intf_start(adapter);
++}
++void rtw_intf_stop(_adapter *adapter)
++{
++	if (adapter->intf_stop)
++		adapter->intf_stop(adapter);
++}
++
++#ifdef CONFIG_CONCURRENT_MODE
++int _netdev_vir_if_open(struct net_device *pnetdev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	_adapter *primary_padapter = GET_PRIMARY_ADAPTER(padapter);
++
++	RTW_INFO(FUNC_NDEV_FMT" , bup=%d\n", FUNC_NDEV_ARG(pnetdev), padapter->bup);
++
++	if (!primary_padapter)
++		goto _netdev_virtual_iface_open_error;
++
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++	if (padapter->bup == _FALSE) {
++		u8 mac[ETH_ALEN];
++
++		/* get mac address from primary_padapter */
++		if (primary_padapter->bup == _FALSE)
++			rtw_macaddr_cfg(adapter_mac_addr(primary_padapter), get_hal_mac_addr(primary_padapter));
++
++		_rtw_memcpy(mac, adapter_mac_addr(primary_padapter), ETH_ALEN);
++
++		/*
++		* If the BIT1 is 0, the address is universally administered.
++		* If it is 1, the address is locally administered
++		*/
++		mac[0] |= BIT(1);
++
++		_rtw_memcpy(adapter_mac_addr(padapter), mac, ETH_ALEN);
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		rtw_mbid_camid_alloc(padapter, adapter_mac_addr(padapter));
++#endif
++		rtw_init_wifidirect_addrs(padapter, adapter_mac_addr(padapter), adapter_mac_addr(padapter));
++		_rtw_memcpy(pnetdev->dev_addr, adapter_mac_addr(padapter), ETH_ALEN);
++	}
++#endif /*CONFIG_PLATFORM_INTEL_BYT*/
++
++	if (primary_padapter->bup == _FALSE || !rtw_is_hw_init_completed(primary_padapter))
++		_netdev_open(primary_padapter->pnetdev);
++
++	if (padapter->bup == _FALSE && primary_padapter->bup == _TRUE &&
++	    rtw_is_hw_init_completed(primary_padapter)) {
++		padapter->bFWReady = primary_padapter->bFWReady;
++#if 0 /*#ifdef CONFIG_MI_WITH_MBSSID_CAM*/
++		rtw_hal_set_hwreg(padapter, HW_VAR_MAC_ADDR, adapter_mac_addr(padapter)); /* set mac addr to mac register */
++#endif
++
++		if (rtw_start_drv_threads(padapter) == _FAIL)
++			goto _netdev_virtual_iface_open_error;
++
++#ifdef CONFIG_RTW_NAPI
++		if(padapter->napi_state == NAPI_DISABLE) {
++			napi_enable(&padapter->napi);
++			padapter->napi_state = NAPI_ENABLE;
++		}
++#endif
++
++#ifdef CONFIG_IOCTL_CFG80211
++		rtw_cfg80211_init_wiphy(padapter);
++		rtw_cfg80211_init_wdev_data(padapter);
++#endif
++
++		padapter->bup = _TRUE;
++
++	}
++
++	padapter->net_closed = _FALSE;
++
++	/*execute dynamic_chk_timer only on primary interface
++	 all of virtual interface shares the timer with primary interface.*/
++	/*_set_timer(&padapter->mlmepriv.dynamic_chk_timer, 2000);*/
++
++	rtw_netif_wake_queue(pnetdev);
++
++	RTW_INFO(FUNC_NDEV_FMT" (bup=%d) exit\n", FUNC_NDEV_ARG(pnetdev), padapter->bup);
++
++	return 0;
++
++_netdev_virtual_iface_open_error:
++
++	padapter->bup = _FALSE;
++
++#ifdef CONFIG_RTW_NAPI
++	if(padapter->napi_state == NAPI_ENABLE) {
++		napi_disable(&padapter->napi);
++		padapter->napi_state = NAPI_DISABLE;
++	}
++#endif
++
++	netif_carrier_off(pnetdev);
++	rtw_netif_stop_queue(pnetdev);
++
++	return -1;
++
++}
++
++int netdev_vir_if_open(struct net_device *pnetdev)
++{
++	int ret;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++
++	_enter_critical_mutex(&(adapter_to_dvobj(padapter)->hw_init_mutex), NULL);
++	ret = _netdev_vir_if_open(pnetdev);
++	_exit_critical_mutex(&(adapter_to_dvobj(padapter)->hw_init_mutex), NULL);
++
++#ifdef CONFIG_AUTO_AP_MODE
++	/* if(padapter->iface_id == 2) */
++	/*	rtw_start_auto_ap(padapter); */
++#endif
++
++	return ret;
++}
++
++static int netdev_vir_if_close(struct net_device *pnetdev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++
++	RTW_INFO(FUNC_NDEV_FMT" , bup=%d\n", FUNC_NDEV_ARG(pnetdev), padapter->bup);
++	padapter->net_closed = _TRUE;
++	pmlmepriv->LinkDetectInfo.bBusyTraffic = _FALSE;
++
++	if (pnetdev)
++		rtw_netif_stop_queue(pnetdev);
++
++#ifdef CONFIG_P2P
++	if (!rtw_p2p_chk_role(&padapter->wdinfo, P2P_ROLE_DISABLE))
++		rtw_p2p_enable(padapter, P2P_ROLE_DISABLE);
++#endif
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_scan_abort(padapter);
++	rtw_cfg80211_wait_scan_req_empty(padapter, 200);
++	adapter_wdev_data(padapter)->bandroid_scan = _FALSE;
++#endif
++
++	return 0;
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
++static const struct net_device_ops rtw_netdev_vir_if_ops = {
++	.ndo_init = rtw_ndev_init,
++	.ndo_uninit = rtw_ndev_uninit,
++	.ndo_open = netdev_vir_if_open,
++	.ndo_stop = netdev_vir_if_close,
++	.ndo_start_xmit = rtw_xmit_entry,
++	.ndo_set_mac_address = rtw_net_set_mac_address,
++	.ndo_get_stats = rtw_net_get_stats,
++	.ndo_do_ioctl = rtw_ioctl,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	.ndo_select_queue	= rtw_select_queue,
++#endif
++};
++#endif
++
++void rtw_hook_vir_if_ops(struct net_device *ndev)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
++	ndev->netdev_ops = &rtw_netdev_vir_if_ops;
++#else
++	ndev->init = rtw_ndev_init;
++	ndev->uninit = rtw_ndev_uninit;
++	ndev->open = netdev_vir_if_open;
++	ndev->stop = netdev_vir_if_close;
++	ndev->set_mac_address = rtw_net_set_mac_address;
++#endif
++}
++_adapter *rtw_drv_add_vir_if(_adapter *primary_padapter,
++	void (*set_intf_ops)(_adapter *primary_padapter, struct _io_ops *pops))
++{
++	int res = _FAIL;
++	_adapter *padapter = NULL;
++	struct dvobj_priv *pdvobjpriv;
++	u8 mac[ETH_ALEN];
++
++	/****** init adapter ******/
++	padapter = (_adapter *)rtw_zvmalloc(sizeof(*padapter));
++	if (padapter == NULL)
++		goto exit;
++
++	if (loadparam(padapter) != _SUCCESS)
++		goto free_adapter;
++
++	_rtw_memcpy(padapter, primary_padapter, sizeof(_adapter));
++
++	/*  */
++	padapter->bup = _FALSE;
++	padapter->net_closed = _TRUE;
++	padapter->dir_dev = NULL;
++	padapter->dir_odm = NULL;
++
++	/*set adapter_type/iface type*/
++	padapter->isprimary = _FALSE;
++	padapter->adapter_type = VIRTUAL_ADAPTER;
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++	padapter->hw_port = HW_PORT0;
++#else
++	padapter->hw_port = HW_PORT1;
++#endif
++
++
++	/****** hook vir if into dvobj ******/
++	pdvobjpriv = adapter_to_dvobj(padapter);
++	padapter->iface_id = pdvobjpriv->iface_nums;
++	pdvobjpriv->padapters[pdvobjpriv->iface_nums++] = padapter;
++
++	padapter->intf_start = primary_padapter->intf_start;
++	padapter->intf_stop = primary_padapter->intf_stop;
++
++	/* step init_io_priv */
++	if ((rtw_init_io_priv(padapter, set_intf_ops)) == _FAIL) {
++		goto free_adapter;
++	}
++
++	/*init drv data*/
++	if (rtw_init_drv_sw(padapter) != _SUCCESS)
++		goto free_drv_sw;
++
++
++	/*get mac address from primary_padapter*/
++	_rtw_memcpy(mac, adapter_mac_addr(primary_padapter), ETH_ALEN);
++
++	/*
++	* If the BIT1 is 0, the address is universally administered.
++	* If it is 1, the address is locally administered
++	*/
++	mac[0] |= BIT(1);
++	if (padapter->iface_id > IFACE_ID1)
++		mac[4] ^= BIT(padapter->iface_id);
++
++	_rtw_memcpy(adapter_mac_addr(padapter), mac, ETH_ALEN);
++	/* update mac-address to mbsid-cam cache*/
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++	rtw_mbid_camid_alloc(padapter, adapter_mac_addr(padapter));
++#endif
++	RTW_INFO("%s if%d mac_addr : "MAC_FMT"\n", __func__, padapter->iface_id + 1, MAC_ARG(adapter_mac_addr(padapter)));
++#ifdef CONFIG_P2P
++	rtw_init_wifidirect_addrs(padapter, adapter_mac_addr(padapter), adapter_mac_addr(padapter));
++#endif
++	res = _SUCCESS;
++
++free_drv_sw:
++	if (res != _SUCCESS && padapter)
++		rtw_free_drv_sw(padapter);
++free_adapter:
++	if (res != _SUCCESS && padapter) {
++		rtw_vmfree((u8 *)padapter, sizeof(*padapter));
++		padapter = NULL;
++	}
++exit:
++	return padapter;
++}
++
++void rtw_drv_stop_vir_if(_adapter *padapter)
++{
++	struct net_device *pnetdev = NULL;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	if (padapter == NULL)
++		return;
++
++	pnetdev = padapter->pnetdev;
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED))
++		rtw_disassoc_cmd(padapter, 0, _FALSE);
++
++#ifdef CONFIG_AP_MODE
++	if (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE) {
++		free_mlme_ap_info(padapter);
++		#ifdef CONFIG_HOSTAPD_MLME
++		hostapd_mode_unload(padapter);
++		#endif
++	}
++#endif
++
++	if (padapter->bup == _TRUE) {
++		#ifdef CONFIG_XMIT_ACK
++		if (padapter->xmitpriv.ack_tx)
++			rtw_ack_tx_done(&padapter->xmitpriv, RTW_SCTX_DONE_DRV_STOP);
++		#endif
++
++		rtw_intf_stop(padapter);
++
++		rtw_stop_drv_threads(padapter);
++
++		padapter->bup = _FALSE;
++	}
++	/* cancel timer after thread stop */
++	rtw_cancel_all_timer(padapter);
++}
++
++void rtw_drv_free_vir_if(_adapter *padapter)
++{
++	if (padapter == NULL)
++		return;
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++	rtw_free_drv_sw(padapter);
++
++	/* TODO: use rtw_os_ndevs_deinit instead at the first stage of driver's dev deinit function */
++	rtw_os_ndev_free(padapter);
++
++	rtw_vmfree((u8 *)padapter, sizeof(_adapter));
++}
++
++
++void rtw_drv_stop_vir_ifaces(struct dvobj_priv *dvobj)
++{
++	int i;
++
++	for (i = VIF_START_ID; i < dvobj->iface_nums; i++)
++		rtw_drv_stop_vir_if(dvobj->padapters[i]);
++}
++
++void rtw_drv_free_vir_ifaces(struct dvobj_priv *dvobj)
++{
++	int i;
++
++	for (i = VIF_START_ID; i < dvobj->iface_nums; i++)
++		rtw_drv_free_vir_if(dvobj->padapters[i]);
++}
++
++void rtw_drv_del_vir_if(_adapter *padapter)
++{
++	rtw_drv_stop_vir_if(padapter);
++	rtw_drv_free_vir_if(padapter);
++}
++
++void rtw_drv_del_vir_ifaces(_adapter *primary_padapter)
++{
++	int i;
++	struct dvobj_priv *dvobj = primary_padapter->dvobj;
++
++	for (i = VIF_START_ID; i < dvobj->iface_nums; i++)
++		rtw_drv_del_vir_if(dvobj->padapters[i]);
++
++}
++
++#endif /*end of CONFIG_CONCURRENT_MODE*/
++
++int rtw_os_ndevs_register(struct dvobj_priv *dvobj)
++{
++	int i, status = _SUCCESS;
++	struct registry_priv *regsty = dvobj_to_regsty(dvobj);
++	_adapter *adapter;
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	if (rtw_cfg80211_dev_res_register(dvobj) != _SUCCESS) {
++		rtw_warn_on(1);
++		status = _FAIL;
++		goto exit;
++	}
++#endif
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++
++		if (i >= CONFIG_IFACE_NUMBER) {
++			RTW_ERR("%s %d >= CONFIG_IFACE_NUMBER(%d)\n", __func__, i, CONFIG_IFACE_NUMBER);
++			rtw_warn_on(1);
++			continue;
++		}
++
++		adapter = dvobj->padapters[i];
++		if (adapter) {
++			char *name;
++			
++#ifdef CONFIG_RTW_NAPI
++			netif_napi_add(adapter->pnetdev, &adapter->napi, recv_napi_poll, RTL_NAPI_WEIGHT);		
++#endif
++
++			if (adapter->iface_id == IFACE_ID0)
++				name = regsty->ifname;
++			else if (adapter->iface_id == IFACE_ID1)
++				name = regsty->if2name;
++			else
++				name = "wlan%d";
++
++#ifdef CONFIG_CONCURRENT_MODE
++			if (!is_primary_adapter(adapter))
++				rtw_hook_vir_if_ops(adapter->pnetdev);
++#endif /* CONFIG_CONCURRENT_MODE */
++
++			status = rtw_os_ndev_register(adapter, name);
++
++			if (status != _SUCCESS) {
++				rtw_warn_on(1);
++				break;
++			}
++		}
++	}
++
++	if (status != _SUCCESS) {
++		for (; i >= 0; i--) {
++			adapter = dvobj->padapters[i];
++			if (adapter)
++				rtw_os_ndev_unregister(adapter);
++		}
++	}
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	if (status != _SUCCESS)
++		rtw_cfg80211_dev_res_unregister(dvobj);
++#endif
++exit:
++	return status;
++}
++
++void rtw_os_ndevs_unregister(struct dvobj_priv *dvobj)
++{
++	int i;
++	_adapter *adapter = NULL;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		adapter = dvobj->padapters[i];
++
++		if (adapter == NULL)
++			continue;
++
++		rtw_os_ndev_unregister(adapter);
++		
++#ifdef CONFIG_RTW_NAPI
++		if(adapter->napi_state == NAPI_ENABLE) {
++			napi_disable(&adapter->napi);
++			adapter->napi_state = NAPI_DISABLE;
++		}	
++
++		netif_napi_del(&adapter->napi);
++#endif
++	}
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	rtw_cfg80211_dev_res_unregister(dvobj);
++#endif
++}
++
++/**
++ * rtw_os_ndevs_init - Allocate and register OS layer net devices and relating structures for @dvobj
++ * @dvobj: the dvobj on which this function applies
++ *
++ * Returns:
++ * _SUCCESS or _FAIL
++ */
++int rtw_os_ndevs_init(struct dvobj_priv *dvobj)
++{
++	int ret = _FAIL;
++
++	if (rtw_os_ndevs_alloc(dvobj) != _SUCCESS)
++		goto exit;
++
++	if (rtw_os_ndevs_register(dvobj) != _SUCCESS)
++		goto os_ndevs_free;
++
++	ret = _SUCCESS;
++
++os_ndevs_free:
++	if (ret != _SUCCESS)
++		rtw_os_ndevs_free(dvobj);
++exit:
++	return ret;
++}
++
++/**
++ * rtw_os_ndevs_deinit - Unregister and free OS layer net devices and relating structures for @dvobj
++ * @dvobj: the dvobj on which this function applies
++ */
++void rtw_os_ndevs_deinit(struct dvobj_priv *dvobj)
++{
++	rtw_os_ndevs_unregister(dvobj);
++	rtw_os_ndevs_free(dvobj);
++}
++
++#ifdef CONFIG_BR_EXT
++void netdev_br_init(struct net_device *netdev)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(netdev);
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
++	rcu_read_lock();
++#endif /* (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35)) */
++
++	/* if(check_fwstate(pmlmepriv, WIFI_STATION_STATE|WIFI_ADHOC_STATE) == _TRUE) */
++	{
++		/* struct net_bridge	*br = netdev->br_port->br; */ /* ->dev->dev_addr; */
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++		if (netdev->br_port)
++#else   /* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++		if (rcu_dereference(adapter->pnetdev->rx_handler_data))
++#endif /* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++		{
++			struct net_device *br_netdev;
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 24))
++			br_netdev = dev_get_by_name(CONFIG_BR_EXT_BRNAME);
++#else	/* (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 24)) */
++			struct net *devnet = NULL;
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 26))
++			devnet = netdev->nd_net;
++#else	/* (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 26)) */
++			devnet = dev_net(netdev);
++#endif /* (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 26)) */
++
++			br_netdev = dev_get_by_name(devnet, CONFIG_BR_EXT_BRNAME);
++#endif /* (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 24)) */
++
++			if (br_netdev) {
++				memcpy(adapter->br_mac, br_netdev->dev_addr, ETH_ALEN);
++				dev_put(br_netdev);
++			} else
++				printk("%s()-%d: dev_get_by_name(%s) failed!", __FUNCTION__, __LINE__, CONFIG_BR_EXT_BRNAME);
++		}
++
++		adapter->ethBrExtInfo.addPPPoETag = 1;
++	}
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
++	rcu_read_unlock();
++#endif /* (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35)) */
++}
++#endif /* CONFIG_BR_EXT */
++
++int _netdev_open(struct net_device *pnetdev)
++{
++	uint status;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(padapter);
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++
++
++	RTW_INFO(FUNC_NDEV_FMT" , bup=%d\n", FUNC_NDEV_ARG(pnetdev), padapter->bup);
++
++	padapter->netif_up = _TRUE;
++
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++	rtw_sdio_set_power(1);
++#endif /* CONFIG_PLATFORM_INTEL_BYT */
++
++	if (pwrctrlpriv->ps_flag == _TRUE) {
++		padapter->net_closed = _FALSE;
++		goto netdev_open_normal_process;
++	}
++
++	if (padapter->bup == _FALSE) {
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++		rtw_macaddr_cfg(adapter_mac_addr(padapter),  get_hal_mac_addr(padapter));
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		rtw_mbid_camid_alloc(padapter, adapter_mac_addr(padapter));
++#endif
++		rtw_init_wifidirect_addrs(padapter, adapter_mac_addr(padapter), adapter_mac_addr(padapter));
++		_rtw_memcpy(pnetdev->dev_addr, adapter_mac_addr(padapter), ETH_ALEN);
++#endif /* CONFIG_PLATFORM_INTEL_BYT */
++
++		rtw_clr_surprise_removed(padapter);
++		rtw_clr_drv_stopped(padapter);
++
++		status = rtw_hal_init(padapter);
++		if (status == _FAIL) {
++			goto netdev_open_error;
++		}
++#if 0/*#ifdef CONFIG_MI_WITH_MBSSID_CAM*/
++		rtw_hal_set_hwreg(padapter, HW_VAR_MAC_ADDR, adapter_mac_addr(padapter)); /* set mac addr to mac register */
++#endif
++
++		RTW_INFO("MAC Address = "MAC_FMT"\n", MAC_ARG(pnetdev->dev_addr));
++
++		status = rtw_start_drv_threads(padapter);
++		if (status == _FAIL) {
++			RTW_INFO("Initialize driver software resource Failed!\n");
++			goto netdev_open_error;
++		}
++
++#ifdef CONFIG_RTW_NAPI
++		if(padapter->napi_state == NAPI_DISABLE) {
++			napi_enable(&padapter->napi);
++			padapter->napi_state = NAPI_ENABLE;
++		}
++#endif
++
++#ifdef CONFIG_DRVEXT_MODULE
++		init_drvext(padapter);
++#endif
++		rtw_intf_start(padapter);
++
++#ifdef CONFIG_IOCTL_CFG80211
++		rtw_cfg80211_init_wiphy(padapter);
++		rtw_cfg80211_init_wdev_data(padapter);
++#endif
++
++		rtw_led_control(padapter, LED_CTL_NO_LINK);
++
++		padapter->bup = _TRUE;
++		pwrctrlpriv->bips_processing = _FALSE;
++
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_IpsNotify(padapter, IPS_NONE);
++#endif /* CONFIG_BT_COEXIST */
++#endif /* CONFIG_PLATFORM_INTEL_BYT		 */
++	}
++	padapter->net_closed = _FALSE;
++
++	_set_timer(&padapter->mlmepriv.dynamic_chk_timer, 2000);
++
++#ifndef CONFIG_IPS_CHECK_IN_WD
++	rtw_set_pwr_state_check_timer(pwrctrlpriv);
++#endif
++
++	/* netif_carrier_on(pnetdev); */ /* call this func when rtw_joinbss_event_callback return success */
++	rtw_netif_wake_queue(pnetdev);
++
++#ifdef CONFIG_BR_EXT
++	netdev_br_init(pnetdev);
++#endif /* CONFIG_BR_EXT */
++
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	if (is_primary_adapter(padapter) && (_TRUE == pHalData->EEPROMBluetoothCoexist)) {
++		rtw_btcoex_init_socket(padapter);
++		padapter->coex_info.BtMgnt.ExtConfig.HCIExtensionVer = 0x04;
++		rtw_btcoex_SetHciVersion(padapter, 0x04);
++	} else
++		RTW_INFO("CONFIG_BT_COEXIST: VIRTUAL_ADAPTER\n");
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++
++
++netdev_open_normal_process:
++
++#ifdef CONFIG_CONCURRENT_MODE
++	{
++		_adapter *sec_adapter = adapter_to_dvobj(padapter)->padapters[IFACE_ID1];
++
++		if (sec_adapter && (sec_adapter->bup == _FALSE))
++			_netdev_vir_if_open(sec_adapter->pnetdev);
++	}
++#endif
++
++	RTW_INFO("-871x_drv - drv_open, bup=%d\n", padapter->bup);
++
++	return 0;
++
++netdev_open_error:
++
++	padapter->bup = _FALSE;
++
++#ifdef CONFIG_RTW_NAPI
++	if(padapter->napi_state == NAPI_ENABLE) {
++		napi_disable(&padapter->napi);
++		padapter->napi_state = NAPI_DISABLE;
++	}
++#endif
++
++	netif_carrier_off(pnetdev);
++	rtw_netif_stop_queue(pnetdev);
++
++	RTW_INFO("-871x_drv - drv_open fail, bup=%d\n", padapter->bup);
++
++	return -1;
++
++}
++
++int netdev_open(struct net_device *pnetdev)
++{
++	int ret = _FALSE;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++
++	if (pwrctrlpriv->bInSuspend == _TRUE) {
++		RTW_INFO(" [WARN] "ADPT_FMT" %s  failed, bInSuspend=%d\n", ADPT_ARG(padapter), __func__, pwrctrlpriv->bInSuspend);
++		return 0;
++	}
++
++	_enter_critical_mutex(&(adapter_to_dvobj(padapter)->hw_init_mutex), NULL);
++	if (is_primary_adapter(padapter))
++		ret = _netdev_open(pnetdev);
++#ifdef CONFIG_CONCURRENT_MODE
++	else
++		ret = _netdev_vir_if_open(pnetdev);
++#endif
++	_exit_critical_mutex(&(adapter_to_dvobj(padapter)->hw_init_mutex), NULL);
++
++
++#ifdef CONFIG_AUTO_AP_MODE
++	if (padapter->iface_id == IFACE_ID2)
++		rtw_start_auto_ap(padapter);
++#endif
++
++	return ret;
++}
++
++#ifdef CONFIG_IPS
++int  ips_netdrv_open(_adapter *padapter)
++{
++	int status = _SUCCESS;
++	/* struct pwrctrl_priv	*pwrpriv = adapter_to_pwrctl(padapter); */
++
++	padapter->net_closed = _FALSE;
++
++	RTW_INFO("===> %s.........\n", __FUNCTION__);
++
++
++	rtw_clr_drv_stopped(padapter);
++	/* padapter->bup = _TRUE; */
++
++	status = rtw_hal_init(padapter);
++	if (status == _FAIL) {
++		goto netdev_open_error;
++	}
++#if 0
++	rtw_restore_mac_addr(padapter);
++#endif
++	rtw_intf_start(padapter);
++
++#ifndef CONFIG_IPS_CHECK_IN_WD
++	rtw_set_pwr_state_check_timer(adapter_to_pwrctl(padapter));
++#endif
++	_set_timer(&padapter->mlmepriv.dynamic_chk_timer, 2000);
++
++	return _SUCCESS;
++
++netdev_open_error:
++	/* padapter->bup = _FALSE; */
++	RTW_INFO("-ips_netdrv_open - drv_open failure, bup=%d\n", padapter->bup);
++
++	return _FAIL;
++}
++
++
++int rtw_ips_pwr_up(_adapter *padapter)
++{
++	int result;
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++#ifdef DBG_CONFIG_ERROR_DETECT
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++#endif/* #ifdef DBG_CONFIG_ERROR_DETECT */
++	u32 start_time = rtw_get_current_time();
++	RTW_INFO("===>  rtw_ips_pwr_up..............\n");
++
++#if defined(CONFIG_SWLPS_IN_IPS) || defined(CONFIG_FWLPS_IN_IPS)
++#ifdef DBG_CONFIG_ERROR_DETECT
++	if (psrtpriv->silent_reset_inprogress == _TRUE)
++#endif/* #ifdef DBG_CONFIG_ERROR_DETECT */
++#endif /* defined(CONFIG_SWLPS_IN_IPS) || defined(CONFIG_FWLPS_IN_IPS) */
++		rtw_reset_drv_sw(padapter);
++
++	result = ips_netdrv_open(padapter);
++
++	rtw_led_control(padapter, LED_CTL_NO_LINK);
++
++	RTW_INFO("<===  rtw_ips_pwr_up.............. in %dms\n", rtw_get_passing_time_ms(start_time));
++	return result;
++
++}
++
++void rtw_ips_pwr_down(_adapter *padapter)
++{
++	u32 start_time = rtw_get_current_time();
++	RTW_INFO("===> rtw_ips_pwr_down...................\n");
++
++	padapter->net_closed = _TRUE;
++
++	rtw_ips_dev_unload(padapter);
++	RTW_INFO("<=== rtw_ips_pwr_down..................... in %dms\n", rtw_get_passing_time_ms(start_time));
++}
++#endif
++void rtw_ips_dev_unload(_adapter *padapter)
++{
++	struct net_device *pnetdev = (struct net_device *)padapter->pnetdev;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++#ifdef DBG_CONFIG_ERROR_DETECT
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++#endif/* #ifdef DBG_CONFIG_ERROR_DETECT */
++	RTW_INFO("====> %s...\n", __FUNCTION__);
++
++
++#if defined(CONFIG_SWLPS_IN_IPS) || defined(CONFIG_FWLPS_IN_IPS)
++#ifdef DBG_CONFIG_ERROR_DETECT
++	if (psrtpriv->silent_reset_inprogress == _TRUE)
++#endif /* #ifdef DBG_CONFIG_ERROR_DETECT */
++#endif /* defined(CONFIG_SWLPS_IN_IPS) || defined(CONFIG_FWLPS_IN_IPS) */
++	{
++		rtw_hal_set_hwreg(padapter, HW_VAR_FIFO_CLEARN_UP, 0);
++		rtw_intf_stop(padapter);
++	}
++
++	if (!rtw_is_surprise_removed(padapter))
++		rtw_hal_deinit(padapter);
++
++}
++
++
++int pm_netdev_open(struct net_device *pnetdev, u8 bnormal)
++{
++	int status = 0;
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++
++	if (_TRUE == bnormal) {
++		_enter_critical_mutex(&(adapter_to_dvobj(padapter)->hw_init_mutex), NULL);
++		status = _netdev_open(pnetdev);
++#if 0
++		rtw_restore_mac_addr(padapter);
++#endif
++		_exit_critical_mutex(&(adapter_to_dvobj(padapter)->hw_init_mutex), NULL);
++	}
++#ifdef CONFIG_IPS
++	else
++		status = (_SUCCESS == ips_netdrv_open(padapter)) ? (0) : (-1);
++#endif
++
++	return status;
++}
++
++static int netdev_close(struct net_device *pnetdev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(padapter);
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++
++	RTW_INFO(FUNC_NDEV_FMT" , bup=%d\n", FUNC_NDEV_ARG(pnetdev), padapter->bup);
++#ifndef CONFIG_PLATFORM_INTEL_BYT
++	if (pwrctl->bInternalAutoSuspend == _TRUE) {
++		/* rtw_pwr_wakeup(padapter); */
++		if (pwrctl->rf_pwrstate == rf_off)
++			pwrctl->ps_flag = _TRUE;
++	}
++	padapter->net_closed = _TRUE;
++	padapter->netif_up = _FALSE;
++	pmlmepriv->LinkDetectInfo.bBusyTraffic = _FALSE;
++
++	/*	if (!rtw_is_hw_init_completed(padapter)) {
++			RTW_INFO("(1)871x_drv - drv_close, bup=%d, hw_init_completed=%s\n", padapter->bup, rtw_is_hw_init_completed(padapter)?"_TRUE":"_FALSE");
++
++			rtw_set_drv_stopped(padapter);
++
++			rtw_dev_unload(padapter);
++		}
++		else*/
++	if (pwrctl->rf_pwrstate == rf_on) {
++		RTW_INFO("(2)871x_drv - drv_close, bup=%d, hw_init_completed=%s\n", padapter->bup, rtw_is_hw_init_completed(padapter) ? "_TRUE" : "_FALSE");
++
++		/* s1. */
++		if (pnetdev)
++			rtw_netif_stop_queue(pnetdev);
++
++#ifndef CONFIG_ANDROID
++		/* s2. */
++		LeaveAllPowerSaveMode(padapter);
++		rtw_disassoc_cmd(padapter, 500, _FALSE);
++		/* s2-2.  indicate disconnect to os */
++		rtw_indicate_disconnect(padapter, 0, _FALSE);
++		/* s2-3. */
++		rtw_free_assoc_resources(padapter, 1);
++		/* s2-4. */
++		rtw_free_network_queue(padapter, _TRUE);
++#endif
++		/* Close LED */
++		rtw_led_control(padapter, LED_CTL_POWER_OFF);
++	}
++
++#ifdef CONFIG_BR_EXT
++	/* if (OPMODE & (WIFI_STATION_STATE | WIFI_ADHOC_STATE)) */
++	{
++		/* void nat25_db_cleanup(_adapter *priv); */
++		nat25_db_cleanup(padapter);
++	}
++#endif /* CONFIG_BR_EXT */
++
++#ifdef CONFIG_P2P
++	if (!rtw_p2p_chk_role(&padapter->wdinfo, P2P_ROLE_DISABLE))
++		rtw_p2p_enable(padapter, P2P_ROLE_DISABLE);
++#endif /* CONFIG_P2P */
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_scan_abort(padapter);
++	rtw_cfg80211_wait_scan_req_empty(padapter, 200);
++	adapter_wdev_data(padapter)->bandroid_scan = _FALSE;
++	/* padapter->rtw_wdev->iftype = NL80211_IFTYPE_MONITOR; */ /* set this at the end */
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++#ifdef CONFIG_WAPI_SUPPORT
++	rtw_wapi_disable_tx(padapter);
++#endif
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	if (is_primary_adapter(padapter) && (_TRUE == pHalData->EEPROMBluetoothCoexist))
++		rtw_btcoex_close_socket(padapter);
++	else
++		RTW_INFO("CONFIG_BT_COEXIST: VIRTUAL_ADAPTER\n");
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++#else /* !CONFIG_PLATFORM_INTEL_BYT */
++
++	if (pwrctl->bInSuspend == _TRUE) {
++		RTW_INFO("+871x_drv - drv_close, bInSuspend=%d\n", pwrctl->bInSuspend);
++		return 0;
++	}
++
++	rtw_scan_abort(padapter); /* stop scanning process before wifi is going to down */
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_cfg80211_wait_scan_req_empty(padapter, 200);
++#endif
++
++	RTW_INFO("netdev_close, bips_processing=%d\n", pwrctl->bips_processing);
++	while (pwrctl->bips_processing == _TRUE) /* waiting for ips_processing done before call rtw_dev_unload() */
++		rtw_msleep_os(1);
++
++	rtw_dev_unload(padapter);
++	rtw_sdio_set_power(0);
++
++#endif /* !CONFIG_PLATFORM_INTEL_BYT */
++
++	RTW_INFO("-871x_drv - drv_close, bup=%d\n", padapter->bup);
++
++	return 0;
++
++}
++
++int pm_netdev_close(struct net_device *pnetdev, u8 bnormal)
++{
++	int status = 0;
++
++	status = netdev_close(pnetdev);
++
++	return status;
++}
++
++void rtw_ndev_destructor(struct net_device *ndev)
++{
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (ndev->ieee80211_ptr)
++		rtw_mfree((u8 *)ndev->ieee80211_ptr, sizeof(struct wireless_dev));
++#endif
++	free_netdev(ndev);
++}
++
++#ifdef CONFIG_ARP_KEEP_ALIVE
++struct route_info {
++	struct in_addr dst_addr;
++	struct in_addr src_addr;
++	struct in_addr gateway;
++	unsigned int dev_index;
++};
++
++static void parse_routes(struct nlmsghdr *nl_hdr, struct route_info *rt_info)
++{
++	struct rtmsg *rt_msg;
++	struct rtattr *rt_attr;
++	int rt_len;
++
++	rt_msg = (struct rtmsg *) NLMSG_DATA(nl_hdr);
++	if ((rt_msg->rtm_family != AF_INET) || (rt_msg->rtm_table != RT_TABLE_MAIN))
++		return;
++
++	rt_attr = (struct rtattr *) RTM_RTA(rt_msg);
++	rt_len = RTM_PAYLOAD(nl_hdr);
++
++	for (; RTA_OK(rt_attr, rt_len); rt_attr = RTA_NEXT(rt_attr, rt_len)) {
++		switch (rt_attr->rta_type) {
++		case RTA_OIF:
++			rt_info->dev_index = *(int *) RTA_DATA(rt_attr);
++			break;
++		case RTA_GATEWAY:
++			rt_info->gateway.s_addr = *(u_int *) RTA_DATA(rt_attr);
++			break;
++		case RTA_PREFSRC:
++			rt_info->src_addr.s_addr = *(u_int *) RTA_DATA(rt_attr);
++			break;
++		case RTA_DST:
++			rt_info->dst_addr.s_addr = *(u_int *) RTA_DATA(rt_attr);
++			break;
++		}
++	}
++}
++
++static int route_dump(u32 *gw_addr , int *gw_index)
++{
++	int err = 0;
++	struct socket *sock;
++	struct {
++		struct nlmsghdr nlh;
++		struct rtgenmsg g;
++	} req;
++	struct msghdr msg;
++	struct iovec iov;
++	struct sockaddr_nl nladdr;
++	mm_segment_t oldfs;
++	char *pg;
++	int size = 0;
++
++	err = sock_create(AF_NETLINK, SOCK_DGRAM, NETLINK_ROUTE, &sock);
++	if (err) {
++		printk(": Could not create a datagram socket, error = %d\n", -ENXIO);
++		return err;
++	}
++
++	memset(&nladdr, 0, sizeof(nladdr));
++	nladdr.nl_family = AF_NETLINK;
++
++	req.nlh.nlmsg_len = sizeof(req);
++	req.nlh.nlmsg_type = RTM_GETROUTE;
++	req.nlh.nlmsg_flags = NLM_F_ROOT | NLM_F_MATCH | NLM_F_REQUEST;
++	req.nlh.nlmsg_pid = 0;
++	req.g.rtgen_family = AF_INET;
++
++	iov.iov_base = &req;
++	iov.iov_len = sizeof(req);
++
++	msg.msg_name = &nladdr;
++	msg.msg_namelen = sizeof(nladdr);
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 19, 0))
++	/* referece:sock_xmit in kernel code
++	 * WRITE for sock_sendmsg, READ for sock_recvmsg
++	 * third parameter for msg_iovlen
++	 * last parameter for iov_len
++	 */
++	iov_iter_init(&msg.msg_iter, WRITE, &iov, 1, sizeof(req));
++#else
++	msg.msg_iov = &iov;
++	msg.msg_iovlen = 1;
++#endif
++	msg.msg_control = NULL;
++	msg.msg_controllen = 0;
++	msg.msg_flags = MSG_DONTWAIT;
++
++	oldfs = get_fs();
++	set_fs(KERNEL_DS);
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 1, 0))
++	err = sock_sendmsg(sock, &msg);
++#else
++	err = sock_sendmsg(sock, &msg, sizeof(req));
++#endif
++	set_fs(oldfs);
++
++	if (err < 0)
++		goto out_sock;
++
++	pg = (char *) __get_free_page(GFP_KERNEL);
++	if (pg == NULL) {
++		err = -ENOMEM;
++		goto out_sock;
++	}
++
++#if defined(CONFIG_IPV6) || defined(CONFIG_IPV6_MODULE)
++restart:
++#endif
++
++	for (;;) {
++		struct nlmsghdr *h;
++
++		iov.iov_base = pg;
++		iov.iov_len = PAGE_SIZE;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 19, 0))
++		iov_iter_init(&msg.msg_iter, READ, &iov, 1, PAGE_SIZE);
++#endif
++
++		oldfs = get_fs();
++		set_fs(KERNEL_DS);
++		err = sock_recvmsg(sock, &msg, PAGE_SIZE, MSG_DONTWAIT);
++		set_fs(oldfs);
++
++		if (err < 0)
++			goto out_sock_pg;
++
++		if (msg.msg_flags & MSG_TRUNC) {
++			err = -ENOBUFS;
++			goto out_sock_pg;
++		}
++
++		h = (struct nlmsghdr *) pg;
++
++		while (NLMSG_OK(h, err)) {
++			struct route_info rt_info;
++			if (h->nlmsg_type == NLMSG_DONE) {
++				err = 0;
++				goto done;
++			}
++
++			if (h->nlmsg_type == NLMSG_ERROR) {
++				struct nlmsgerr *errm = (struct nlmsgerr *) NLMSG_DATA(h);
++				err = errm->error;
++				printk("NLMSG error: %d\n", errm->error);
++				goto done;
++			}
++
++			if (h->nlmsg_type == RTM_GETROUTE)
++				printk("RTM_GETROUTE: NLMSG: %d\n", h->nlmsg_type);
++			if (h->nlmsg_type != RTM_NEWROUTE) {
++				printk("NLMSG: %d\n", h->nlmsg_type);
++				err = -EINVAL;
++				goto done;
++			}
++
++			memset(&rt_info, 0, sizeof(struct route_info));
++			parse_routes(h, &rt_info);
++			if (!rt_info.dst_addr.s_addr && rt_info.gateway.s_addr && rt_info.dev_index) {
++				*gw_addr = rt_info.gateway.s_addr;
++				*gw_index = rt_info.dev_index;
++
++			}
++			h = NLMSG_NEXT(h, err);
++		}
++
++		if (err) {
++			printk("!!!Remnant of size %d %d %d\n", err, h->nlmsg_len, h->nlmsg_type);
++			err = -EINVAL;
++			break;
++		}
++	}
++
++done:
++#if defined(CONFIG_IPV6) || defined(CONFIG_IPV6_MODULE)
++	if (!err && req.g.rtgen_family == AF_INET) {
++		req.g.rtgen_family = AF_INET6;
++
++		iov.iov_base = &req;
++		iov.iov_len = sizeof(req);
++
++		msg.msg_name = &nladdr;
++		msg.msg_namelen = sizeof(nladdr);
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 19, 0))
++		iov_iter_init(&msg.msg_iter, WRITE, &iov, 1, sizeof(req));
++#else
++		msg.msg_iov = &iov;
++		msg.msg_iovlen = 1;
++#endif
++		msg.msg_control = NULL;
++		msg.msg_controllen = 0;
++		msg.msg_flags = MSG_DONTWAIT;
++
++		oldfs = get_fs();
++		set_fs(KERNEL_DS);
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 1, 0))
++		err = sock_sendmsg(sock, &msg);
++#else
++		err = sock_sendmsg(sock, &msg, sizeof(req));
++#endif
++		set_fs(oldfs);
++
++		if (err > 0)
++			goto restart;
++	}
++#endif
++
++out_sock_pg:
++	free_page((unsigned long) pg);
++
++out_sock:
++	sock_release(sock);
++	return err;
++}
++
++static int arp_query(unsigned char *haddr, u32 paddr,
++		     struct net_device *dev)
++{
++	struct neighbour *neighbor_entry;
++	int	ret = 0;
++
++	neighbor_entry = neigh_lookup(&arp_tbl, &paddr, dev);
++
++	if (neighbor_entry != NULL) {
++		neighbor_entry->used = jiffies;
++		if (neighbor_entry->nud_state & NUD_VALID) {
++			_rtw_memcpy(haddr, neighbor_entry->ha, dev->addr_len);
++			ret = 1;
++		}
++		neigh_release(neighbor_entry);
++	}
++	return ret;
++}
++
++static int get_defaultgw(u32 *ip_addr , char mac[])
++{
++	int gw_index = 0; /* oif device index */
++	struct net_device *gw_dev = NULL; /* oif device */
++
++	route_dump(ip_addr, &gw_index);
++
++	if (!(*ip_addr) || !gw_index) {
++		/* RTW_INFO("No default GW\n"); */
++		return -1;
++	}
++
++	gw_dev = dev_get_by_index(&init_net, gw_index);
++
++	if (gw_dev == NULL) {
++		/* RTW_INFO("get Oif Device Fail\n"); */
++		return -1;
++	}
++
++	if (!arp_query(mac, *ip_addr, gw_dev)) {
++		/* RTW_INFO( "arp query failed\n"); */
++		dev_put(gw_dev);
++		return -1;
++
++	}
++	dev_put(gw_dev);
++
++	return 0;
++}
++
++int	rtw_gw_addr_query(_adapter *padapter)
++{
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	u32 gw_addr = 0; /* default gw address */
++	unsigned char gw_mac[32] = {0}; /* default gw mac */
++	int i;
++	int res;
++
++	res = get_defaultgw(&gw_addr, gw_mac);
++	if (!res) {
++		pmlmepriv->gw_ip[0] = gw_addr & 0xff;
++		pmlmepriv->gw_ip[1] = (gw_addr & 0xff00) >> 8;
++		pmlmepriv->gw_ip[2] = (gw_addr & 0xff0000) >> 16;
++		pmlmepriv->gw_ip[3] = (gw_addr & 0xff000000) >> 24;
++		_rtw_memcpy(pmlmepriv->gw_mac_addr, gw_mac, 6);
++		RTW_INFO("%s Gateway Mac:\t" MAC_FMT "\n", __FUNCTION__, MAC_ARG(pmlmepriv->gw_mac_addr));
++		RTW_INFO("%s Gateway IP:\t" IP_FMT "\n", __FUNCTION__, IP_ARG(pmlmepriv->gw_ip));
++	} else
++		RTW_INFO("Get Gateway IP/MAC fail!\n");
++
++	return res;
++}
++#endif
++
++void rtw_dev_unload(PADAPTER padapter)
++{
++	struct net_device *pnetdev = (struct net_device *)padapter->pnetdev;
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	struct dvobj_priv *pobjpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &pobjpriv->drv_dbg;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++	u8 cnt = 0;
++
++
++	if (padapter->bup == _TRUE) {
++		RTW_INFO("===> %s\n", __FUNCTION__);
++
++		rtw_set_drv_stopped(padapter);
++#ifdef CONFIG_XMIT_ACK
++		if (padapter->xmitpriv.ack_tx)
++			rtw_ack_tx_done(&padapter->xmitpriv, RTW_SCTX_DONE_DRV_STOP);
++#endif
++
++		rtw_intf_stop(padapter);
++
++
++		if (!pwrctl->bInternalAutoSuspend)
++			rtw_stop_drv_threads(padapter);
++
++		while (ATOMIC_READ(&(pcmdpriv->cmdthd_running)) == _TRUE) {
++			if (cnt > 5) {
++				RTW_INFO("stop cmdthd timeout\n");
++				break;
++			} else {
++				cnt++;
++				RTW_INFO("cmdthd is running(%d)\n", cnt);
++				rtw_msleep_os(10);
++			}
++		}
++
++
++		/* check the status of IPS */
++		if (rtw_hal_check_ips_status(padapter) == _TRUE || pwrctl->rf_pwrstate == rf_off) { /* check HW status and SW state */
++			RTW_PRINT("%s: driver in IPS-FWLPS\n", __func__);
++			pdbgpriv->dbg_dev_unload_inIPS_cnt++;
++		} else
++			RTW_PRINT("%s: driver not in IPS\n", __func__);
++
++		if (!rtw_is_surprise_removed(padapter)) {
++#ifdef CONFIG_BT_COEXIST
++			rtw_btcoex_IpsNotify(padapter, pwrctl->ips_mode_req);
++#endif
++#ifdef CONFIG_WOWLAN
++			if (pwrctl->bSupportRemoteWakeup == _TRUE &&
++			    pwrctl->wowlan_mode == _TRUE)
++				RTW_PRINT("%s bSupportRemoteWakeup==_TRUE  do not run rtw_hal_deinit()\n", __FUNCTION__);
++			else
++#endif
++			{
++				/* amy modify 20120221 for power seq is different between driver open and ips */
++				rtw_hal_deinit(padapter);
++			}
++			rtw_set_surprise_removed(padapter);
++		}
++
++		padapter->bup = _FALSE;
++
++		RTW_INFO("<=== %s\n", __FUNCTION__);
++	} else {
++		RTW_INFO("%s: bup==_FALSE\n", __FUNCTION__);
++	}
++	rtw_cancel_all_timer(padapter);
++}
++
++int rtw_suspend_free_assoc_resource(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct net_device *pnetdev = padapter->pnetdev;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &padapter->wdinfo;
++#endif /* CONFIG_P2P */
++
++	RTW_INFO("==> "FUNC_ADPT_FMT" entry....\n", FUNC_ADPT_ARG(padapter));
++
++	if (rtw_chk_roam_flags(padapter, RTW_ROAM_ON_RESUME)) {
++		if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)
++		    && check_fwstate(pmlmepriv, _FW_LINKED)
++#ifdef CONFIG_P2P
++		    && rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)
++#endif /* CONFIG_P2P */
++		   ) {
++			RTW_INFO("%s %s(" MAC_FMT "), length:%d assoc_ssid.length:%d\n", __FUNCTION__,
++				 pmlmepriv->cur_network.network.Ssid.Ssid,
++				MAC_ARG(pmlmepriv->cur_network.network.MacAddress),
++				 pmlmepriv->cur_network.network.Ssid.SsidLength,
++				 pmlmepriv->assoc_ssid.SsidLength);
++			rtw_set_to_roam(padapter, 1);
++		}
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) && check_fwstate(pmlmepriv, _FW_LINKED)) {
++		rtw_disassoc_cmd(padapter, 0, _FALSE);
++		/* s2-2.  indicate disconnect to os */
++		rtw_indicate_disconnect(padapter, 0, _FALSE);
++	}
++#ifdef CONFIG_AP_MODE
++	else if (check_fwstate(pmlmepriv, WIFI_AP_STATE))
++		rtw_sta_flush(padapter, _TRUE);
++#endif
++
++	/* s2-3. */
++	rtw_free_assoc_resources(padapter, 1);
++
++	/* s2-4. */
++#ifdef CONFIG_AUTOSUSPEND
++	if (is_primary_adapter(padapter) && (!adapter_to_pwrctl(padapter)->bInternalAutoSuspend))
++#endif
++		rtw_free_network_queue(padapter, _TRUE);
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY)) {
++		RTW_PRINT("%s: fw_under_survey\n", __func__);
++		rtw_indicate_scan_done(padapter, 1);
++		clr_fwstate(pmlmepriv, _FW_UNDER_SURVEY);
++	}
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE) {
++		RTW_PRINT("%s: fw_under_linking\n", __FUNCTION__);
++		rtw_indicate_disconnect(padapter, 0, _FALSE);
++	}
++
++	RTW_INFO("<== "FUNC_ADPT_FMT" exit....\n", FUNC_ADPT_ARG(padapter));
++	return _SUCCESS;
++}
++
++#ifdef CONFIG_WOWLAN
++int rtw_suspend_wow(_adapter *padapter)
++{
++	u8 ch, bw, offset;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct net_device *pnetdev = padapter->pnetdev;
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct wowlan_ioctl_param poidparam;
++	int i;
++	_adapter *iface = NULL;
++	u8 ps_mode;
++	int ret = _SUCCESS;
++
++	RTW_INFO("==> "FUNC_ADPT_FMT" entry....\n", FUNC_ADPT_ARG(padapter));
++
++
++	RTW_INFO("wowlan_mode: %d\n", pwrpriv->wowlan_mode);
++	RTW_INFO("wowlan_pno_enable: %d\n", pwrpriv->wowlan_pno_enable);
++#ifdef CONFIG_P2P_WOWLAN
++	RTW_INFO("wowlan_p2p_enable: %d\n", pwrpriv->wowlan_p2p_enable);
++#endif
++
++	if (pwrpriv->wowlan_mode == _TRUE) {
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_SuspendNotify(padapter, BTCOEX_SUSPEND_STATE_SUSPEND_KEEP_ANT);
++#endif
++
++		if (pnetdev)
++			rtw_netif_stop_queue(pnetdev);
++		rtw_mi_buddy_netif_stop_queue(padapter, _TRUE);
++
++		/* 0. Power off LED */
++		rtw_led_control(padapter, LED_CTL_POWER_OFF);
++		/* 1. stop thread */
++		rtw_set_drv_stopped(padapter);	/*for stop thread*/
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if ((iface) && (iface->bup == _TRUE))
++				rtw_stop_drv_threads(iface);
++		}
++		rtw_clr_drv_stopped(padapter);	/*for 32k command*/
++
++		/* #ifdef CONFIG_LPS */
++		/* rtw_set_ps_mode(padapter, PS_MODE_ACTIVE, 0, 0, "WOWLAN"); */
++		/* #endif */
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		/* 2. disable interrupt */
++		rtw_mi_intf_stop(padapter);
++
++		/* 2.1 clean interupt */
++		rtw_hal_clear_interrupt(padapter);
++#endif /* CONFIG_SDIO_HCI */
++
++		/* 2.2 free irq */
++		/* sdio_free_irq(adapter_to_dvobj(padapter)); */
++#ifndef CONFIG_RTW_SDIO_KEEP_IRQ
++		if (padapter->intf_free_irq)
++			padapter->intf_free_irq(adapter_to_dvobj(padapter));
++#endif
++
++#ifdef CONFIG_RUNTIME_PORT_SWITCH
++		if (rtw_port_switch_chk(padapter)) {
++			RTW_INFO(" ### PORT SWITCH ###\n");
++			rtw_hal_set_hwreg(padapter, HW_VAR_PORT_SWITCH, NULL);
++		}
++#endif
++
++		poidparam.subcode = WOWLAN_ENABLE;
++		rtw_hal_set_hwreg(padapter, HW_VAR_WOWLAN, (u8 *)&poidparam);
++		if (rtw_chk_roam_flags(padapter, RTW_ROAM_ON_RESUME)) {
++			if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)
++			    && check_fwstate(pmlmepriv, _FW_LINKED)) {
++				RTW_INFO("%s %s(" MAC_FMT "), length:%d assoc_ssid.length:%d\n", __FUNCTION__,
++					pmlmepriv->cur_network.network.Ssid.Ssid,
++					MAC_ARG(pmlmepriv->cur_network.network.MacAddress),
++					pmlmepriv->cur_network.network.Ssid.SsidLength,
++					 pmlmepriv->assoc_ssid.SsidLength);
++
++				rtw_set_to_roam(padapter, 0);
++			}
++		}
++
++		RTW_PRINT("%s: wowmode suspending\n", __func__);
++
++		if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE) {
++			RTW_PRINT("%s: fw_under_survey\n", __func__);
++			rtw_indicate_scan_done(padapter, 1);
++			clr_fwstate(pmlmepriv, _FW_UNDER_SURVEY);
++		}
++
++#if 1
++		if (rtw_mi_check_status(padapter, MI_LINKED)) {
++			ch =  rtw_mi_get_union_chan(padapter);
++			bw = rtw_mi_get_union_bw(padapter);
++			offset = rtw_mi_get_union_offset(padapter);
++			RTW_INFO(FUNC_ADPT_FMT" back to linked/linking union - ch:%u, bw:%u, offset:%u\n",
++				 FUNC_ADPT_ARG(padapter), ch, bw, offset);
++			set_channel_bwmode(padapter, ch, offset, bw);
++		}
++#else
++		if (rtw_mi_get_ch_setting_union(padapter, &ch, &bw, &offset) != 0) {
++			RTW_INFO(FUNC_ADPT_FMT" back to linked/linking union - ch:%u, bw:%u, offset:%u\n",
++				 FUNC_ADPT_ARG(padapter), ch, bw, offset);
++			set_channel_bwmode(padapter, ch, offset, bw);
++			rtw_mi_update_union_chan_inf(padapter, ch, offset, bw);
++		}
++#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++		rtw_mi_buddy_suspend_free_assoc_resource(padapter);
++#endif
++
++		if (pwrpriv->wowlan_pno_enable) {
++			RTW_PRINT("%s: pno: %d\n", __func__,
++				  pwrpriv->wowlan_pno_enable);
++#ifdef CONFIG_FWLPS_IN_IPS
++			rtw_set_fw_in_ips_mode(padapter, _TRUE);
++#endif
++		}
++#ifdef CONFIG_LPS
++		else
++			rtw_set_ps_mode(padapter, PS_MODE_MAX, 0, 0, "WOWLAN");
++#endif /* #ifdef CONFIG_LPS */
++
++	} else
++		RTW_PRINT("%s: ### ERROR ### wowlan_mode=%d\n", __FUNCTION__, pwrpriv->wowlan_mode);
++	RTW_INFO("<== "FUNC_ADPT_FMT" exit....\n", FUNC_ADPT_ARG(padapter));
++	return ret;
++}
++#endif /* #ifdef CONFIG_WOWLAN */
++
++#ifdef CONFIG_AP_WOWLAN
++int rtw_suspend_ap_wow(_adapter *padapter)
++{
++	u8 ch, bw, offset;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct wowlan_ioctl_param poidparam;
++	int i;
++	_adapter *iface = NULL;
++	u8 ps_mode;
++	int ret = _SUCCESS;
++
++	RTW_INFO("==> "FUNC_ADPT_FMT" entry....\n", FUNC_ADPT_ARG(padapter));
++
++	pwrpriv->wowlan_ap_mode = _TRUE;
++
++	RTW_INFO("wowlan_ap_mode: %d\n", pwrpriv->wowlan_ap_mode);
++
++#ifdef CONFIG_BT_COEXIST
++	rtw_btcoex_SuspendNotify(padapter, BTCOEX_SUSPEND_STATE_SUSPEND_KEEP_ANT);
++#endif
++
++	rtw_mi_netif_stop_queue(padapter, _FALSE);
++
++	/* 0. Power off LED */
++	rtw_led_control(padapter, LED_CTL_POWER_OFF);
++	/* 1. stop thread */
++	rtw_set_drv_stopped(padapter);	/*for stop thread*/
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && (iface->bup == _TRUE))
++			rtw_stop_drv_threads(iface);
++	}
++	rtw_clr_drv_stopped(padapter);	/*for 32k command*/
++
++#ifdef CONFIG_SDIO_HCI
++	/* 2. disable interrupt*/
++	rtw_mi_intf_stop(padapter);
++
++	/* 2.1 clean interupt */
++	rtw_hal_clear_interrupt(padapter);
++#endif /* CONFIG_SDIO_HCI */
++
++	/* 2.2 free irq */
++	if (padapter->intf_free_irq)
++		padapter->intf_free_irq(adapter_to_dvobj(padapter));
++
++#ifdef CONFIG_RUNTIME_PORT_SWITCH
++	if (rtw_port_switch_chk(padapter)) {
++		RTW_INFO(" ### PORT SWITCH ###\n");
++		rtw_hal_set_hwreg(padapter, HW_VAR_PORT_SWITCH, NULL);
++	}
++#endif
++
++	poidparam.subcode = WOWLAN_AP_ENABLE;
++	rtw_hal_set_hwreg(padapter, HW_VAR_WOWLAN, (u8 *)&poidparam);
++
++	RTW_PRINT("%s: wowmode suspending\n", __func__);
++#if 1
++	if (rtw_mi_check_status(padapter, MI_LINKED)) {
++		ch =  rtw_mi_get_union_chan(padapter);
++		bw = rtw_mi_get_union_bw(padapter);
++		offset = rtw_mi_get_union_offset(padapter);
++		RTW_INFO("back to linked/linking union - ch:%u, bw:%u, offset:%u\n", ch, bw, offset);
++		set_channel_bwmode(padapter, ch, offset, bw);
++	}
++#else
++	if (rtw_mi_get_ch_setting_union(padapter, &ch, &bw, &offset) != 0) {
++		RTW_INFO("back to linked/linking union - ch:%u, bw:%u, offset:%u\n", ch, bw, offset);
++		set_channel_bwmode(padapter, ch, offset, bw);
++		rtw_mi_update_union_chan_inf(padapter, ch, offset, bw);
++	}
++#endif
++
++	/*FOR ONE AP - TODO :Multi-AP*/
++	{
++		int i;
++		_adapter *iface;
++		struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if ((iface) && rtw_is_adapter_up(iface)) {
++				if (check_fwstate(&iface->mlmepriv, WIFI_AP_STATE | _FW_LINKED))
++					rtw_mi_buddy_suspend_free_assoc_resource(iface);
++			}
++		}
++
++	}
++
++#ifdef CONFIG_LPS
++	rtw_set_ps_mode(padapter, PS_MODE_MIN, 0, 0, "AP-WOWLAN");
++#endif
++
++	RTW_INFO("<== "FUNC_ADPT_FMT" exit....\n", FUNC_ADPT_ARG(padapter));
++	return ret;
++}
++#endif /* #ifdef CONFIG_AP_WOWLAN */
++
++
++int rtw_suspend_normal(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	int ret = _SUCCESS;
++#ifdef CONFIG_RTW_SDIO_KEEP_IRQ
++	struct dvobj_priv *pdvobj = adapter_to_dvobj(padapter);
++	struct sdio_func *func = pdvobj->intf_data.func;
++#endif
++
++	RTW_INFO("==> "FUNC_ADPT_FMT" entry....\n", FUNC_ADPT_ARG(padapter));
++
++#ifdef CONFIG_BT_COEXIST
++	rtw_btcoex_SuspendNotify(padapter, BTCOEX_SUSPEND_STATE_SUSPEND);
++#endif
++
++	rtw_mi_netif_stop_queue(padapter, _TRUE);
++
++	rtw_mi_suspend_free_assoc_resource(padapter);
++
++	rtw_led_control(padapter, LED_CTL_POWER_OFF);
++
++#if defined(CONFIG_FWLPS_IN_IPS) || defined(CONFIG_SWLPS_IN_IPS)
++	if ((rtw_hal_check_ips_status(padapter) == _TRUE)
++	    || (adapter_to_pwrctl(padapter)->rf_pwrstate == rf_off))
++		RTW_PRINT("%s: ### ERROR #### driver in IPS ####ERROR###!!!\n", __FUNCTION__);
++#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++	rtw_mi_buddy_dev_unload(padapter);
++#endif
++	rtw_dev_unload(padapter);
++
++	/* sdio_deinit(adapter_to_dvobj(padapter)); */
++#ifdef CONFIG_RTW_SDIO_KEEP_IRQ
++	if (func) { 
++		int err;	
++
++		sdio_claim_host(func);
++		err = sdio_disable_func(func);
++		if (err) {
++			pdvobj->drv_dbg.dbg_sdio_deinit_error_cnt++;
++			RTW_INFO("%s: sdio_disable_func(%d)\n", __func__, err);
++		}
++
++		sdio_release_host(func);
++	}
++#else
++	if (padapter->intf_deinit)
++		padapter->intf_deinit(adapter_to_dvobj(padapter));
++#endif
++
++	RTW_INFO("<== "FUNC_ADPT_FMT" exit....\n", FUNC_ADPT_ARG(padapter));
++	return ret;
++}
++
++int rtw_suspend_common(_adapter *padapter)
++{
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	struct pwrctrl_priv *pwrpriv = dvobj_to_pwrctl(psdpriv);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	int ret = 0;
++	u32 start_time = rtw_get_current_time();
++
++	RTW_PRINT(" suspend start\n");
++	RTW_INFO("==> %s (%s:%d)\n", __FUNCTION__, current->comm, current->pid);
++
++	pdbgpriv->dbg_suspend_cnt++;
++
++	pwrpriv->bInSuspend = _TRUE;
++
++	while (pwrpriv->bips_processing == _TRUE)
++		rtw_msleep_os(1);
++
++#ifdef CONFIG_IOL_READ_EFUSE_MAP
++	if (!padapter->bup) {
++		u8 bMacPwrCtrlOn = _FALSE;
++		rtw_hal_get_hwreg(padapter, HW_VAR_APFM_ON_MAC, &bMacPwrCtrlOn);
++		if (bMacPwrCtrlOn)
++			rtw_hal_power_off(padapter);
++	}
++#endif
++
++	if ((!padapter->bup) || RTW_CANNOT_RUN(padapter)) {
++		RTW_INFO("%s bup=%d bDriverStopped=%s bSurpriseRemoved = %s\n", __func__
++			 , padapter->bup
++			 , rtw_is_drv_stopped(padapter) ? "True" : "False"
++			, rtw_is_surprise_removed(padapter) ? "True" : "False");
++		pdbgpriv->dbg_suspend_error_cnt++;
++		goto exit;
++	}
++	rtw_ps_deny(padapter, PS_DENY_SUSPEND);
++
++	rtw_mi_cancel_all_timer(padapter);
++	LeaveAllPowerSaveModeDirect(padapter);
++	rtw_stop_cmd_thread(padapter);
++
++	rtw_ps_deny_cancel(padapter, PS_DENY_SUSPEND);
++
++	if (rtw_mi_check_status(padapter, MI_AP_MODE) == _FALSE) {
++#ifdef CONFIG_WOWLAN
++		if (check_fwstate(pmlmepriv, _FW_LINKED))
++			pwrpriv->wowlan_mode = _TRUE;
++		else if (pwrpriv->wowlan_pno_enable == _TRUE)
++			pwrpriv->wowlan_mode |= pwrpriv->wowlan_pno_enable;
++
++#ifdef CONFIG_P2P_WOWLAN
++		if (!rtw_p2p_chk_state(&padapter->wdinfo, P2P_STATE_NONE) || P2P_ROLE_DISABLE != padapter->wdinfo.role)
++			pwrpriv->wowlan_p2p_mode = _TRUE;
++		if (_TRUE == pwrpriv->wowlan_p2p_mode)
++			pwrpriv->wowlan_mode |= pwrpriv->wowlan_p2p_mode;
++#endif /* CONFIG_P2P_WOWLAN */
++
++		if (pwrpriv->wowlan_mode == _TRUE)
++			rtw_suspend_wow(padapter);
++		else
++#endif /* CONFIG_WOWLAN */
++			rtw_suspend_normal(padapter);
++	} else if (rtw_mi_check_status(padapter, MI_AP_MODE)) {
++#ifdef CONFIG_AP_WOWLAN
++		rtw_suspend_ap_wow(padapter);
++#else
++		rtw_suspend_normal(padapter);
++#endif /*CONFIG_AP_WOWLAN*/
++	}
++
++
++	RTW_PRINT("rtw suspend success in %d ms\n",
++		  rtw_get_passing_time_ms(start_time));
++
++exit:
++	RTW_INFO("<===  %s return %d.............. in %dms\n", __FUNCTION__
++		 , ret, rtw_get_passing_time_ms(start_time));
++
++	return ret;
++}
++
++#ifdef CONFIG_WOWLAN
++int rtw_resume_process_wow(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct net_device *pnetdev = padapter->pnetdev;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	struct wowlan_ioctl_param poidparam;
++	struct sta_info	*psta = NULL;
++	int ret = _SUCCESS;
++
++	RTW_INFO("==> "FUNC_ADPT_FMT" entry....\n", FUNC_ADPT_ARG(padapter));
++
++	if (padapter) {
++		pnetdev = padapter->pnetdev;
++		pwrpriv = adapter_to_pwrctl(padapter);
++	} else {
++		pdbgpriv->dbg_resume_error_cnt++;
++		ret = -1;
++		goto exit;
++	}
++
++	if (RTW_CANNOT_RUN(padapter)) {
++		RTW_INFO("%s pdapter %p bDriverStopped %s bSurpriseRemoved %s\n"
++			 , __func__, padapter
++			 , rtw_is_drv_stopped(padapter) ? "True" : "False"
++			, rtw_is_surprise_removed(padapter) ? "True" : "False");
++		goto exit;
++	}
++
++#ifdef CONFIG_PNO_SUPPORT
++	pwrpriv->pno_in_resume = _TRUE;
++#ifdef CONFIG_FWLPS_IN_IPS
++	if (pwrpriv->wowlan_pno_enable)
++		rtw_set_fw_in_ips_mode(padapter, _FALSE);
++#endif /* CONFIG_FWLPS_IN_IPS */
++#endif/* CONFIG_PNO_SUPPORT */
++
++	if (pwrpriv->wowlan_mode == _TRUE) {
++#ifdef CONFIG_LPS
++		rtw_set_ps_mode(padapter, PS_MODE_ACTIVE, 0, 0, "WOWLAN");
++#endif /* CONFIG_LPS */
++
++		pwrpriv->bFwCurrentInPSMode = _FALSE;
++
++#ifdef CONFIG_SDIO_HCI
++		rtw_mi_intf_stop(padapter);
++		rtw_hal_clear_interrupt(padapter);
++#endif /* CONFIG_SDIO_HCI */
++
++#ifndef CONFIG_RTW_SDIO_KEEP_IRQ
++		/* if (sdio_alloc_irq(adapter_to_dvobj(padapter)) != _SUCCESS) {		 */
++		if ((padapter->intf_alloc_irq) && (padapter->intf_alloc_irq(adapter_to_dvobj(padapter)) != _SUCCESS)) {
++			ret = -1;
++			goto exit;
++		}
++#endif
++
++		/* Disable WOW, set H2C command */
++		poidparam.subcode = WOWLAN_DISABLE;
++		rtw_hal_set_hwreg(padapter, HW_VAR_WOWLAN, (u8 *)&poidparam);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		rtw_mi_buddy_reset_drv_sw(padapter);
++#endif
++
++		psta = rtw_get_stainfo(&padapter->stapriv, get_bssid(&padapter->mlmepriv));
++		if (psta)
++			set_sta_rate(padapter, psta);
++
++
++		rtw_clr_drv_stopped(padapter);
++		RTW_INFO("%s: wowmode resuming, DriverStopped:%s\n", __func__, rtw_is_drv_stopped(padapter) ? "True" : "False");
++
++		rtw_mi_start_drv_threads(padapter);
++
++		rtw_mi_intf_start(padapter);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		rtw_mi_buddy_netif_carrier_on(padapter);
++#endif
++
++		/* start netif queue */
++		if (pnetdev)
++			rtw_netif_wake_queue(pnetdev);
++	} else
++
++		RTW_PRINT("%s: ### ERROR ### wowlan_mode=%d\n", __FUNCTION__, pwrpriv->wowlan_mode);
++
++	if (padapter->pid[1] != 0) {
++		RTW_INFO("pid[1]:%d\n", padapter->pid[1]);
++		rtw_signal_process(padapter->pid[1], SIGUSR2);
++	}
++
++	if (rtw_chk_roam_flags(padapter, RTW_ROAM_ON_RESUME)) {
++		if (pwrpriv->wowlan_wake_reason == FW_DECISION_DISCONNECT ||
++		    pwrpriv->wowlan_wake_reason == RX_DISASSOC||
++		    pwrpriv->wowlan_wake_reason == RX_DEAUTH) {
++
++			RTW_INFO("%s: disconnect reason: %02x\n", __func__,
++				 pwrpriv->wowlan_wake_reason);
++			rtw_indicate_disconnect(padapter, 0, _FALSE);
++
++			rtw_sta_media_status_rpt(padapter,
++					 rtw_get_stainfo(&padapter->stapriv,
++					 get_bssid(&padapter->mlmepriv)), 0);
++
++			rtw_free_assoc_resources(padapter, 1);
++			pmlmeinfo->state = WIFI_FW_NULL_STATE;
++
++		} else {
++			RTW_INFO("%s: do roaming\n", __func__);
++			rtw_roaming(padapter, NULL);
++		}
++	}
++
++	if (pwrpriv->wowlan_wake_reason == FW_DECISION_DISCONNECT)
++		rtw_lock_ext_suspend_timeout(2000);
++
++	if (pwrpriv->wowlan_wake_reason == RX_GTK ||
++	    pwrpriv->wowlan_wake_reason == RX_DISASSOC||
++	    pwrpriv->wowlan_wake_reason == RX_DEAUTH)
++		rtw_lock_ext_suspend_timeout(8000);
++
++	if (pwrpriv->wowlan_wake_reason == RX_PNO) {
++#ifdef CONFIG_IOCTL_CFG80211
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 2, 0))
++		u8 locally_generated = 1;
++
++		cfg80211_disconnected(padapter->pnetdev, 0, NULL, 0, locally_generated, GFP_ATOMIC);
++#else
++		cfg80211_disconnected(padapter->pnetdev, 0, NULL, 0, GFP_ATOMIC);
++#endif
++#endif /* CONFIG_IOCTL_CFG80211 */
++		rtw_lock_ext_suspend_timeout(10000);
++	}
++
++	if (pwrpriv->wowlan_mode == _TRUE) {
++		pwrpriv->bips_processing = _FALSE;
++		_set_timer(&padapter->mlmepriv.dynamic_chk_timer, 2000);
++#ifndef CONFIG_IPS_CHECK_IN_WD
++		rtw_set_pwr_state_check_timer(pwrpriv);
++#endif
++	} else
++		RTW_PRINT("do not reset timer\n");
++
++	pwrpriv->wowlan_mode = _FALSE;
++
++	/* Power On LED */
++#ifdef CONFIG_SW_LED
++
++	if (pwrpriv->wowlan_wake_reason == RX_DISASSOC||
++	    pwrpriv->wowlan_wake_reason == RX_DEAUTH||
++	    pwrpriv->wowlan_wake_reason == FW_DECISION_DISCONNECT)
++		rtw_led_control(padapter, LED_CTL_NO_LINK);
++	else
++		rtw_led_control(padapter, LED_CTL_LINK);
++#endif
++	/* clean driver side wake up reason. */
++	pwrpriv->wowlan_last_wake_reason = pwrpriv->wowlan_wake_reason;
++	pwrpriv->wowlan_wake_reason = 0;
++
++#ifdef CONFIG_BT_COEXIST
++	rtw_btcoex_SuspendNotify(padapter, BTCOEX_SUSPEND_STATE_RESUME);
++#endif /* CONFIG_BT_COEXIST */
++
++exit:
++	RTW_INFO("<== "FUNC_ADPT_FMT" exit....\n", FUNC_ADPT_ARG(padapter));
++	return ret;
++}
++#endif /* #ifdef CONFIG_WOWLAN */
++
++#ifdef CONFIG_AP_WOWLAN
++int rtw_resume_process_ap_wow(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct net_device *pnetdev = padapter->pnetdev;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	struct wowlan_ioctl_param poidparam;
++	struct sta_info	*psta = NULL;
++	int ret = _SUCCESS;
++	u8 ch, bw, offset;
++
++	RTW_INFO("==> "FUNC_ADPT_FMT" entry....\n", FUNC_ADPT_ARG(padapter));
++
++	if (padapter) {
++		pnetdev = padapter->pnetdev;
++		pwrpriv = adapter_to_pwrctl(padapter);
++	} else {
++		pdbgpriv->dbg_resume_error_cnt++;
++		ret = -1;
++		goto exit;
++	}
++
++
++#ifdef CONFIG_LPS
++	rtw_set_ps_mode(padapter, PS_MODE_ACTIVE, 0, 0, "AP-WOWLAN");
++#endif /* CONFIG_LPS */
++
++	pwrpriv->bFwCurrentInPSMode = _FALSE;
++
++	rtw_hal_disable_interrupt(padapter);
++
++	rtw_hal_clear_interrupt(padapter);
++
++	/* if (sdio_alloc_irq(adapter_to_dvobj(padapter)) != _SUCCESS) {		 */
++	if ((padapter->intf_alloc_irq) && (padapter->intf_alloc_irq(adapter_to_dvobj(padapter)) != _SUCCESS)) {
++		ret = -1;
++		goto exit;
++	}
++
++	/* Disable WOW, set H2C command */
++	poidparam.subcode = WOWLAN_AP_DISABLE;
++	rtw_hal_set_hwreg(padapter, HW_VAR_WOWLAN, (u8 *)&poidparam);
++	pwrpriv->wowlan_ap_mode = _FALSE;
++
++	rtw_clr_drv_stopped(padapter);
++	RTW_INFO("%s: wowmode resuming, DriverStopped:%s\n", __func__, rtw_is_drv_stopped(padapter) ? "True" : "False");
++
++	rtw_mi_start_drv_threads(padapter);
++
++#if 1
++	if (rtw_mi_check_status(padapter, MI_LINKED)) {
++		ch =  rtw_mi_get_union_chan(padapter);
++		bw = rtw_mi_get_union_bw(padapter);
++		offset = rtw_mi_get_union_offset(padapter);
++		RTW_INFO(FUNC_ADPT_FMT" back to linked/linking union - ch:%u, bw:%u, offset:%u\n", FUNC_ADPT_ARG(padapter), ch, bw, offset);
++		set_channel_bwmode(padapter, ch, offset, bw);
++	}
++#else
++	if (rtw_mi_get_ch_setting_union(padapter, &ch, &bw, &offset) != 0) {
++		RTW_INFO(FUNC_ADPT_FMT" back to linked/linking union - ch:%u, bw:%u, offset:%u\n", FUNC_ADPT_ARG(padapter), ch, bw, offset);
++		set_channel_bwmode(padapter, ch, offset, bw);
++		rtw_mi_update_union_chan_inf(padapter, ch, offset, bw);
++	}
++#endif
++
++	/*FOR ONE AP - TODO :Multi-AP*/
++	{
++		int i;
++		_adapter *iface;
++		struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if ((iface) && rtw_is_adapter_up(iface)) {
++				if (check_fwstate(&iface->mlmepriv, WIFI_AP_STATE | _FW_LINKED))
++					rtw_mi_buddy_reset_drv_sw(iface);
++			}
++		}
++
++	}
++	rtw_mi_intf_start(padapter);
++	rtw_mi_netif_wake_queue(padapter);
++
++	if (padapter->pid[1] != 0) {
++		RTW_INFO("pid[1]:%d\n", padapter->pid[1]);
++		rtw_signal_process(padapter->pid[1], SIGUSR2);
++	}
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++	/* rtw_unlock_suspend(); */
++#endif /* CONFIG_RESUME_IN_WORKQUEUE */
++
++	if (pwrpriv->wowlan_wake_reason == AP_OFFLOAD_WAKEUP)
++		rtw_lock_ext_suspend_timeout(8000);
++
++	pwrpriv->bips_processing = _FALSE;
++	_set_timer(&padapter->mlmepriv.dynamic_chk_timer, 2000);
++#ifndef CONFIG_IPS_CHECK_IN_WD
++	rtw_set_pwr_state_check_timer(pwrpriv);
++#endif
++	/* clean driver side wake up reason. */
++	pwrpriv->wowlan_wake_reason = 0;
++
++#ifdef CONFIG_BT_COEXIST
++	rtw_btcoex_SuspendNotify(padapter, BTCOEX_SUSPEND_STATE_RESUME);
++#endif /* CONFIG_BT_COEXIST */
++
++	/* Power On LED */
++#ifdef CONFIG_SW_LED
++
++	rtw_led_control(padapter, LED_CTL_LINK);
++#endif
++exit:
++	RTW_INFO("<== "FUNC_ADPT_FMT" exit....\n", FUNC_ADPT_ARG(padapter));
++	return ret;
++}
++#endif /* #ifdef CONFIG_APWOWLAN */
++
++void rtw_mi_resume_process_normal(_adapter *padapter)
++{
++	int i;
++	_adapter *iface;
++	struct mlme_priv *pmlmepriv;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++			pmlmepriv = &iface->mlmepriv;
++
++			if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++				RTW_INFO(FUNC_ADPT_FMT" fwstate:0x%08x - WIFI_STATION_STATE\n", FUNC_ADPT_ARG(padapter), get_fwstate(pmlmepriv));
++
++				if (rtw_chk_roam_flags(padapter, RTW_ROAM_ON_RESUME))
++					rtw_roaming(padapter, NULL);
++
++			} else if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++				RTW_INFO(FUNC_ADPT_FMT" fwstate:0x%08x - WIFI_AP_STATE\n", FUNC_ADPT_ARG(padapter), get_fwstate(pmlmepriv));
++				rtw_ap_restore_network(padapter);
++			} else if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE))
++				RTW_INFO(FUNC_ADPT_FMT" fwstate:0x%08x - WIFI_ADHOC_STATE\n", FUNC_ADPT_ARG(padapter), get_fwstate(pmlmepriv));
++			else
++				RTW_INFO(FUNC_ADPT_FMT" fwstate:0x%08x - ???\n", FUNC_ADPT_ARG(padapter), get_fwstate(pmlmepriv));
++		}
++	}
++}
++
++int rtw_resume_process_normal(_adapter *padapter)
++{
++	struct net_device *pnetdev;
++	struct pwrctrl_priv *pwrpriv;
++	struct dvobj_priv *psdpriv;
++	struct debug_priv *pdbgpriv;
++
++	int ret = _SUCCESS;
++
++	if (!padapter) {
++		ret = -1;
++		goto exit;
++	}
++
++	pnetdev = padapter->pnetdev;
++	pwrpriv = adapter_to_pwrctl(padapter);
++	psdpriv = padapter->dvobj;
++	pdbgpriv = &psdpriv->drv_dbg;
++
++	RTW_INFO("==> "FUNC_ADPT_FMT" entry....\n", FUNC_ADPT_ARG(padapter));
++	/* interface init */
++	/* if (sdio_init(adapter_to_dvobj(padapter)) != _SUCCESS) */
++	if ((padapter->intf_init) && (padapter->intf_init(adapter_to_dvobj(padapter)) != _SUCCESS)) {
++		ret = -1;
++		goto exit;
++	}
++	rtw_hal_disable_interrupt(padapter);
++#ifndef CONFIG_RTW_SDIO_KEEP_IRQ
++	/* if (sdio_alloc_irq(adapter_to_dvobj(padapter)) != _SUCCESS) */
++	if ((padapter->intf_alloc_irq) && (padapter->intf_alloc_irq(adapter_to_dvobj(padapter)) != _SUCCESS)) {
++		ret = -1;
++		goto exit;
++	}
++#endif
++
++	rtw_mi_reset_drv_sw(padapter);
++
++	pwrpriv->bkeepfwalive = _FALSE;
++
++	RTW_INFO("bkeepfwalive(%x)\n", pwrpriv->bkeepfwalive);
++	if (pm_netdev_open(pnetdev, _TRUE) != 0) {
++		ret = -1;
++		pdbgpriv->dbg_resume_error_cnt++;
++		goto exit;
++	}
++
++	rtw_mi_netif_carrier_on(padapter);
++
++	if (padapter->pid[1] != 0) {
++		RTW_INFO("pid[1]:%d\n", padapter->pid[1]);
++		rtw_signal_process(padapter->pid[1], SIGUSR2);
++	}
++
++#ifdef CONFIG_BT_COEXIST
++	rtw_btcoex_SuspendNotify(padapter, BTCOEX_SUSPEND_STATE_RESUME);
++#endif /* CONFIG_BT_COEXIST */
++
++	rtw_mi_resume_process_normal(padapter);
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++	/* rtw_unlock_suspend(); */
++#endif /* CONFIG_RESUME_IN_WORKQUEUE */
++	RTW_INFO("<== "FUNC_ADPT_FMT" exit....\n", FUNC_ADPT_ARG(padapter));
++
++exit:
++	return ret;
++}
++
++int rtw_resume_common(_adapter *padapter)
++{
++	int ret = 0;
++	u32 start_time = rtw_get_current_time();
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++
++	if (pwrpriv->bInSuspend == _FALSE)
++		return 0;
++
++	RTW_PRINT("resume start\n");
++	RTW_INFO("==> %s (%s:%d)\n", __FUNCTION__, current->comm, current->pid);
++
++	if (rtw_mi_check_status(padapter, WIFI_AP_STATE) == _FALSE) {
++#ifdef CONFIG_WOWLAN
++		if (pwrpriv->wowlan_mode == _TRUE)
++			rtw_resume_process_wow(padapter);
++		else
++#endif
++			rtw_resume_process_normal(padapter);
++
++	} else if (rtw_mi_check_status(padapter, WIFI_AP_STATE)) {
++#ifdef CONFIG_AP_WOWLAN
++		rtw_resume_process_ap_wow(padapter);
++#else
++		rtw_resume_process_normal(padapter);
++#endif /* CONFIG_AP_WOWLAN */
++	}
++
++	if (pwrpriv) {
++		pwrpriv->bInSuspend = _FALSE;
++#ifdef CONFIG_PNO_SUPPORT
++		pwrpriv->pno_in_resume = _FALSE;
++#endif
++	}
++	RTW_PRINT("%s:%d in %d ms\n", __FUNCTION__ , ret,
++		  rtw_get_passing_time_ms(start_time));
++
++
++	return ret;
++}
++
++#ifdef CONFIG_GPIO_API
++u8 rtw_get_gpio(struct net_device *netdev, u8 gpio_num)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(netdev);
++	return rtw_hal_get_gpio(adapter, gpio_num);
++}
++EXPORT_SYMBOL(rtw_get_gpio);
++
++int  rtw_set_gpio_output_value(struct net_device *netdev, u8 gpio_num, bool isHigh)
++{
++	u8 direction = 0;
++	u8 res = -1;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(netdev);
++	return rtw_hal_set_gpio_output_value(adapter, gpio_num, isHigh);
++}
++EXPORT_SYMBOL(rtw_set_gpio_output_value);
++
++int rtw_config_gpio(struct net_device *netdev, u8 gpio_num, bool isOutput)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(netdev);
++	return rtw_hal_config_gpio(adapter, gpio_num, isOutput);
++}
++EXPORT_SYMBOL(rtw_config_gpio);
++int rtw_register_gpio_interrupt(struct net_device *netdev, int gpio_num, void(*callback)(u8 level))
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(netdev);
++	return rtw_hal_register_gpio_interrupt(adapter, gpio_num, callback);
++}
++EXPORT_SYMBOL(rtw_register_gpio_interrupt);
++
++int rtw_disable_gpio_interrupt(struct net_device *netdev, int gpio_num)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(netdev);
++	return rtw_hal_disable_gpio_interrupt(adapter, gpio_num);
++}
++EXPORT_SYMBOL(rtw_disable_gpio_interrupt);
++
++#endif /* #ifdef CONFIG_GPIO_API */
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/recv_linux.c b/drivers/net/wireless/rtl8723du/os_dep/linux/recv_linux.c
+new file mode 100644
+index 0000000..93d1794
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/recv_linux.c
+@@ -0,0 +1,814 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RECV_OSDEP_C_
++
++#include <drv_types.h>
++
++int rtw_os_recvframe_duplicate_skb(_adapter *padapter, union recv_frame *pcloneframe, _pkt *pskb)
++{
++	int res = _SUCCESS;
++	_pkt	*pkt_copy = NULL;
++	struct rx_pkt_attrib *pattrib = &pcloneframe->u.hdr.attrib;
++
++	if (pskb == NULL) {
++		RTW_INFO("%s [WARN] skb == NULL, drop frag frame\n", __func__);
++		return _FAIL;
++	}
++#if 1
++	pkt_copy = rtw_skb_copy(pskb);
++
++	if (pkt_copy == NULL) {
++		RTW_INFO("%s [WARN] rtw_skb_copy fail , drop frag frame\n", __func__);
++		return _FAIL;
++	}
++#else
++	pkt_copy = rtw_skb_clone(pskb);
++
++	if (pkt_copy == NULL) {
++		RTW_INFO("%s [WARN] rtw_skb_clone fail , drop frag frame\n", __func__);
++		return _FAIL;
++	}
++#endif
++	pkt_copy->dev = padapter->pnetdev;
++
++	pcloneframe->u.hdr.pkt = pkt_copy;
++	pcloneframe->u.hdr.rx_head = pkt_copy->head;
++	pcloneframe->u.hdr.rx_data = pkt_copy->data;
++	pcloneframe->u.hdr.rx_end = skb_end_pointer(pkt_copy);
++	pcloneframe->u.hdr.rx_tail = skb_tail_pointer(pkt_copy);
++	pcloneframe->u.hdr.len = pkt_copy->len;
++
++	return res;
++}
++
++int rtw_os_alloc_recvframe(_adapter *padapter, union recv_frame *precvframe, u8 *pdata, _pkt *pskb)
++{
++	int res = _SUCCESS;
++	u8	shift_sz = 0;
++	u32	skb_len, alloc_sz;
++	_pkt	*pkt_copy = NULL;
++	struct rx_pkt_attrib *pattrib = &precvframe->u.hdr.attrib;
++
++
++	if (pdata == NULL) {
++		precvframe->u.hdr.pkt = NULL;
++		res = _FAIL;
++		return res;
++	}
++
++
++	/*	Modified by Albert 20101213 */
++	/*	For 8 bytes IP header alignment. */
++	shift_sz = pattrib->qos ? 6 : 0; /*	Qos data, wireless lan header length is 26 */
++
++	skb_len = pattrib->pkt_len;
++
++	/* for first fragment packet, driver need allocate 1536+drvinfo_sz+RXDESC_SIZE to defrag packet. */
++	/* modify alloc_sz for recvive crc error packet by thomas 2011-06-02 */
++	if ((pattrib->mfrag == 1) && (pattrib->frag_num == 0)) {
++		/* alloc_sz = 1664;	 */ /* 1664 is 128 alignment. */
++		alloc_sz = (skb_len <= 1650) ? 1664 : (skb_len + 14);
++	} else {
++		alloc_sz = skb_len;
++		/*	6 is for IP header 8 bytes alignment in QoS packet case. */
++		/*	8 is for skb->data 4 bytes alignment. */
++		alloc_sz += 14;
++	}
++
++	pkt_copy = rtw_skb_alloc(alloc_sz);
++
++	if (pkt_copy) {
++		pkt_copy->dev = padapter->pnetdev;
++		pkt_copy->len = skb_len;
++		precvframe->u.hdr.pkt = pkt_copy;
++		precvframe->u.hdr.rx_head = pkt_copy->head;
++		precvframe->u.hdr.rx_end = pkt_copy->data + alloc_sz;
++		skb_reserve(pkt_copy, 8 - ((SIZE_PTR)(pkt_copy->data) & 7));  /* force pkt_copy->data at 8-byte alignment address */
++		skb_reserve(pkt_copy, shift_sz);/* force ip_hdr at 8-byte alignment address according to shift_sz. */
++		_rtw_memcpy(pkt_copy->data, pdata, skb_len);
++		precvframe->u.hdr.rx_data = precvframe->u.hdr.rx_tail = pkt_copy->data;
++	} else {
++#if 0
++		{
++			rtw_free_recvframe(precvframe_if2, &precvpriv->free_recv_queue);
++			rtw_enqueue_recvbuf_to_head(precvbuf, &precvpriv->recv_buf_pending_queue);
++
++			/* The case of can't allocate skb is serious and may never be recovered,
++			 once bDriverStopped is enable, this task should be stopped.*/
++			if (!rtw_is_drv_stopped(secondary_padapter))
++#ifdef PLATFORM_LINUX
++				tasklet_schedule(&precvpriv->recv_tasklet);
++#endif
++			return ret;
++		}
++
++#endif
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++		RTW_INFO("%s:can not allocate memory for skb copy\n", __func__);
++
++		precvframe->u.hdr.pkt = NULL;
++
++		/* rtw_free_recvframe(precvframe, pfree_recv_queue); */
++		/*exit_rtw_os_recv_resource_alloc;*/
++
++		res = _FAIL;
++#else
++		if ((pattrib->mfrag == 1) && (pattrib->frag_num == 0)) {
++			RTW_INFO("%s: alloc_skb fail , drop frag frame\n", __FUNCTION__);
++			/* rtw_free_recvframe(precvframe, pfree_recv_queue); */
++			res = _FAIL;
++			goto exit_rtw_os_recv_resource_alloc;
++		}
++
++		if (pskb == NULL) {
++			res = _FAIL;
++			goto exit_rtw_os_recv_resource_alloc;
++		}
++
++		precvframe->u.hdr.pkt = rtw_skb_clone(pskb);
++		if (precvframe->u.hdr.pkt) {
++			precvframe->u.hdr.pkt->dev = padapter->pnetdev;
++			precvframe->u.hdr.rx_head = precvframe->u.hdr.rx_data = precvframe->u.hdr.rx_tail = pdata;
++			precvframe->u.hdr.rx_end =  pdata + alloc_sz;
++		} else {
++			RTW_INFO("%s: rtw_skb_clone fail\n", __FUNCTION__);
++			/* rtw_free_recvframe(precvframe, pfree_recv_queue); */
++			/*exit_rtw_os_recv_resource_alloc;*/
++			res = _FAIL;
++		}
++#endif
++	}
++
++exit_rtw_os_recv_resource_alloc:
++
++	return res;
++
++}
++
++void rtw_os_free_recvframe(union recv_frame *precvframe)
++{
++	if (precvframe->u.hdr.pkt) {
++		rtw_skb_free(precvframe->u.hdr.pkt);/* free skb by driver */
++
++		precvframe->u.hdr.pkt = NULL;
++	}
++}
++
++/* init os related resource in struct recv_priv */
++int rtw_os_recv_resource_init(struct recv_priv *precvpriv, _adapter *padapter)
++{
++	int	res = _SUCCESS;
++
++	return res;
++}
++
++/* alloc os related resource in union recv_frame */
++int rtw_os_recv_resource_alloc(_adapter *padapter, union recv_frame *precvframe)
++{
++	int	res = _SUCCESS;
++
++	precvframe->u.hdr.pkt_newalloc = precvframe->u.hdr.pkt = NULL;
++
++	return res;
++}
++
++/* free os related resource in union recv_frame */
++void rtw_os_recv_resource_free(struct recv_priv *precvpriv)
++{
++	sint i;
++	union recv_frame *precvframe;
++	precvframe = (union recv_frame *) precvpriv->precv_frame_buf;
++
++	for (i = 0; i < NR_RECVFRAME; i++) {
++		if (precvframe->u.hdr.pkt) {
++			rtw_skb_free(precvframe->u.hdr.pkt);/* free skb by driver */
++			precvframe->u.hdr.pkt = NULL;
++		}
++		precvframe++;
++	}
++}
++
++/* alloc os related resource in struct recv_buf */
++int rtw_os_recvbuf_resource_alloc(_adapter *padapter, struct recv_buf *precvbuf)
++{
++	int res = _SUCCESS;
++
++#ifdef CONFIG_USB_HCI
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct usb_device	*pusbd = pdvobjpriv->pusbdev;
++
++	precvbuf->irp_pending = _FALSE;
++	precvbuf->purb = usb_alloc_urb(0, GFP_KERNEL);
++	if (precvbuf->purb == NULL)
++		res = _FAIL;
++
++	precvbuf->pskb = NULL;
++
++	precvbuf->pallocated_buf  = precvbuf->pbuf = NULL;
++
++	precvbuf->pdata = precvbuf->phead = precvbuf->ptail = precvbuf->pend = NULL;
++
++	precvbuf->transfer_len = 0;
++
++	precvbuf->len = 0;
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++	precvbuf->pallocated_buf = rtw_usb_buffer_alloc(pusbd, (size_t)precvbuf->alloc_sz, &precvbuf->dma_transfer_addr);
++	precvbuf->pbuf = precvbuf->pallocated_buf;
++	if (precvbuf->pallocated_buf == NULL)
++		return _FAIL;
++#endif /* CONFIG_USE_USB_BUFFER_ALLOC_RX */
++
++#endif /* CONFIG_USB_HCI */
++
++	return res;
++}
++
++/* free os related resource in struct recv_buf */
++int rtw_os_recvbuf_resource_free(_adapter *padapter, struct recv_buf *precvbuf)
++{
++	int ret = _SUCCESS;
++
++#ifdef CONFIG_USB_HCI
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct usb_device	*pusbd = pdvobjpriv->pusbdev;
++
++	rtw_usb_buffer_free(pusbd, (size_t)precvbuf->alloc_sz, precvbuf->pallocated_buf, precvbuf->dma_transfer_addr);
++	precvbuf->pallocated_buf =  NULL;
++	precvbuf->dma_transfer_addr = 0;
++
++#endif /* CONFIG_USE_USB_BUFFER_ALLOC_RX */
++
++	if (precvbuf->purb) {
++		/* usb_kill_urb(precvbuf->purb); */
++		usb_free_urb(precvbuf->purb);
++	}
++
++#endif /* CONFIG_USB_HCI */
++
++
++	if (precvbuf->pskb) {
++#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++		if (rtw_free_skb_premem(precvbuf->pskb) != 0)
++#endif
++			rtw_skb_free(precvbuf->pskb);
++	}
++	return ret;
++
++}
++
++_pkt *rtw_os_alloc_msdu_pkt(union recv_frame *prframe, u16 nSubframe_Length, u8 *pdata)
++{
++	u16	eth_type;
++	u8	*data_ptr;
++	_pkt *sub_skb;
++	struct rx_pkt_attrib *pattrib;
++
++	pattrib = &prframe->u.hdr.attrib;
++
++#ifdef CONFIG_SKB_COPY
++	sub_skb = rtw_skb_alloc(nSubframe_Length + 12);
++	if (sub_skb) {
++		skb_reserve(sub_skb, 12);
++		data_ptr = (u8 *)skb_put(sub_skb, nSubframe_Length);
++		_rtw_memcpy(data_ptr, (pdata + ETH_HLEN), nSubframe_Length);
++	} else
++#endif /* CONFIG_SKB_COPY */
++	{
++		sub_skb = rtw_skb_clone(prframe->u.hdr.pkt);
++		if (sub_skb) {
++			sub_skb->data = pdata + ETH_HLEN;
++			sub_skb->len = nSubframe_Length;
++			skb_set_tail_pointer(sub_skb, nSubframe_Length);
++		} else {
++			RTW_INFO("%s(): rtw_skb_clone() Fail!!!\n", __FUNCTION__);
++			return NULL;
++		}
++	}
++
++	eth_type = RTW_GET_BE16(&sub_skb->data[6]);
++
++	if (sub_skb->len >= 8 &&
++	    ((_rtw_memcmp(sub_skb->data, rtw_rfc1042_header, SNAP_SIZE) &&
++	      eth_type != ETH_P_AARP && eth_type != ETH_P_IPX) ||
++	     _rtw_memcmp(sub_skb->data, rtw_bridge_tunnel_header, SNAP_SIZE))) {
++		/* remove RFC1042 or Bridge-Tunnel encapsulation and replace EtherType */
++		skb_pull(sub_skb, SNAP_SIZE);
++		_rtw_memcpy(skb_push(sub_skb, ETH_ALEN), pattrib->src, ETH_ALEN);
++		_rtw_memcpy(skb_push(sub_skb, ETH_ALEN), pattrib->dst, ETH_ALEN);
++	} else {
++		u16 len;
++		/* Leave Ethernet header part of hdr and full payload */
++		len = htons(sub_skb->len);
++		_rtw_memcpy(skb_push(sub_skb, 2), &len, 2);
++		_rtw_memcpy(skb_push(sub_skb, ETH_ALEN), pattrib->src, ETH_ALEN);
++		_rtw_memcpy(skb_push(sub_skb, ETH_ALEN), pattrib->dst, ETH_ALEN);
++	}
++
++	return sub_skb;
++}
++
++#ifdef DBG_UDP_PKT_LOSE_11AC
++	#define PAYLOAD_LEN_LOC_OF_IP_HDR 0x10 /*ethernet payload length location of ip header (DA + SA+eth_type+(version&hdr_len)) */
++#endif
++
++void rtw_os_recv_indicate_pkt(_adapter *padapter, _pkt *pkt, struct rx_pkt_attrib *pattrib)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct recv_priv *precvpriv = &(padapter->recvpriv);
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++#ifdef CONFIG_BR_EXT
++	void *br_port = NULL;
++#endif
++	int ret;
++
++	/* Indicat the packets to upper layer */
++	if (pkt) {
++		if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++			_pkt *pskb2 = NULL;
++			struct sta_info *psta = NULL;
++			struct sta_priv *pstapriv = &padapter->stapriv;
++			int bmcast = IS_MCAST(pattrib->dst);
++
++			/* RTW_INFO("bmcast=%d\n", bmcast); */
++
++			if (_rtw_memcmp(pattrib->dst, adapter_mac_addr(padapter), ETH_ALEN) == _FALSE) {
++				/* RTW_INFO("not ap psta=%p, addr=%pM\n", psta, pattrib->dst); */
++
++				if (bmcast) {
++					psta = rtw_get_bcmc_stainfo(padapter);
++					pskb2 = rtw_skb_clone(pkt);
++				} else
++					psta = rtw_get_stainfo(pstapriv, pattrib->dst);
++
++				if (psta) {
++					struct net_device *pnetdev = (struct net_device *)padapter->pnetdev;
++
++					/* RTW_INFO("directly forwarding to the rtw_xmit_entry\n"); */
++
++					/* skb->ip_summed = CHECKSUM_NONE; */
++					pkt->dev = pnetdev;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++					skb_set_queue_mapping(pkt, rtw_recv_select_queue(pkt));
++#endif /* LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35) */
++
++					_rtw_xmit_entry(pkt, pnetdev);
++
++					if (bmcast && (pskb2 != NULL)) {
++						pkt = pskb2;
++						DBG_COUNTER(padapter->rx_logs.os_indicate_ap_mcast);
++					} else {
++						DBG_COUNTER(padapter->rx_logs.os_indicate_ap_forward);
++						return;
++					}
++				}
++			} else { /* to APself */
++				/* RTW_INFO("to APSelf\n"); */
++				DBG_COUNTER(padapter->rx_logs.os_indicate_ap_self);
++			}
++		}
++
++#ifdef CONFIG_BR_EXT
++		/* Insert NAT2.5 RX here! */
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++		br_port = padapter->pnetdev->br_port;
++#else   /* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++		rcu_read_lock();
++		br_port = rcu_dereference(padapter->pnetdev->rx_handler_data);
++		rcu_read_unlock();
++#endif /* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++
++
++		if (br_port && (check_fwstate(pmlmepriv, WIFI_STATION_STATE | WIFI_ADHOC_STATE) == _TRUE)) {
++			int nat25_handle_frame(_adapter *priv, struct sk_buff *skb);
++			if (nat25_handle_frame(padapter, pkt) == -1) {
++				/* priv->ext_stats.rx_data_drops++; */
++				/* DEBUG_ERR("RX DROP: nat25_handle_frame fail!\n"); */
++				/* return FAIL; */
++
++#if 1
++				/* bypass this frame to upper layer!! */
++#else
++				rtw_skb_free(sub_skb);
++				continue;
++#endif
++			}
++		}
++#endif /* CONFIG_BR_EXT */
++		if (precvpriv->sink_udpport > 0)
++			rtw_sink_rtp_seq_dbg(padapter, pkt);
++#ifdef DBG_UDP_PKT_LOSE_11AC
++		/* After eth_type_trans process , pkt->data pointer will move from ethrnet header to ip header ,
++		*	we have to check ethernet type , so this debug must be print before eth_type_trans
++		*/
++		if (*((unsigned short *)(pkt->data + ETH_ALEN * 2)) == htons(ETH_P_ARP)) {
++			/* ARP Payload length will be 42bytes or 42+18(tailer)=60bytes*/
++			if (pkt->len != 42 && pkt->len != 60)
++				RTW_INFO("Error !!%s,ARP Payload length %u not correct\n" , __func__ , pkt->len);
++		} else if (*((unsigned short *)(pkt->data + ETH_ALEN * 2)) == htons(ETH_P_IP)) {
++			if (be16_to_cpu(*((u16 *)(pkt->data + PAYLOAD_LEN_LOC_OF_IP_HDR))) != (pkt->len) - ETH_HLEN) {
++				RTW_INFO("Error !!%s,Payload length not correct\n" , __func__);
++				RTW_INFO("%s, IP header describe Total length=%u\n" , __func__ , be16_to_cpu(*((u16 *)(pkt->data + PAYLOAD_LEN_LOC_OF_IP_HDR))));
++				RTW_INFO("%s, Pkt real length=%u\n" , __func__ , (pkt->len) - ETH_HLEN);
++			}
++		}
++#endif
++		/* After eth_type_trans process , pkt->data pointer will move from ethrnet header to ip header */
++		pkt->protocol = eth_type_trans(pkt, padapter->pnetdev);
++		pkt->dev = padapter->pnetdev;
++
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_RX
++		if ((pattrib->tcpchk_valid == 1) && (pattrib->tcp_chkrpt == 1))
++			pkt->ip_summed = CHECKSUM_UNNECESSARY;
++		else
++			pkt->ip_summed = CHECKSUM_NONE;
++#else /* !CONFIG_TCP_CSUM_OFFLOAD_RX */
++		pkt->ip_summed = CHECKSUM_NONE;
++#endif /* CONFIG_TCP_CSUM_OFFLOAD_RX */
++
++#ifdef CONFIG_RTW_NAPI
++		if (pregistrypriv->en_napi == TRUE) {
++			skb_queue_tail(&precvpriv->rx_napi_skb_queue, pkt);
++			napi_schedule(&padapter->napi);
++			return;
++		}	
++#endif
++
++		ret = rtw_netif_rx(padapter->pnetdev, pkt);
++		if (ret == NET_RX_SUCCESS)
++			DBG_COUNTER(padapter->rx_logs.os_netif_ok);
++		else
++			DBG_COUNTER(padapter->rx_logs.os_netif_err);
++	}
++}
++
++void rtw_handle_tkip_mic_err(_adapter *padapter, struct sta_info *sta, u8 bgroup)
++{
++#ifdef CONFIG_IOCTL_CFG80211
++	enum nl80211_key_type key_type = 0;
++#endif
++	union iwreq_data wrqu;
++	struct iw_michaelmicfailure    ev;
++	struct mlme_priv              *pmlmepriv  = &padapter->mlmepriv;
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++	u32 cur_time = 0;
++
++	if (psecuritypriv->last_mic_err_time == 0)
++		psecuritypriv->last_mic_err_time = rtw_get_current_time();
++	else {
++		cur_time = rtw_get_current_time();
++
++		if (cur_time - psecuritypriv->last_mic_err_time < 60 * HZ) {
++			psecuritypriv->btkip_countermeasure = _TRUE;
++			psecuritypriv->last_mic_err_time = 0;
++			psecuritypriv->btkip_countermeasure_time = cur_time;
++		} else
++			psecuritypriv->last_mic_err_time = rtw_get_current_time();
++	}
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (bgroup)
++		key_type |= NL80211_KEYTYPE_GROUP;
++	else
++		key_type |= NL80211_KEYTYPE_PAIRWISE;
++
++	cfg80211_michael_mic_failure(padapter->pnetdev, sta->hwaddr, key_type, -1, NULL, GFP_ATOMIC);
++#endif
++
++	_rtw_memset(&ev, 0x00, sizeof(ev));
++	if (bgroup)
++		ev.flags |= IW_MICFAILURE_GROUP;
++	else
++		ev.flags |= IW_MICFAILURE_PAIRWISE;
++
++	ev.src_addr.sa_family = ARPHRD_ETHER;
++	_rtw_memcpy(ev.src_addr.sa_data, sta->hwaddr, ETH_ALEN);
++
++	_rtw_memset(&wrqu, 0x00, sizeof(wrqu));
++	wrqu.data.length = sizeof(ev);
++
++#ifndef CONFIG_IOCTL_CFG80211
++	wireless_send_event(padapter->pnetdev, IWEVMICHAELMICFAILURE, &wrqu, (char *) &ev);
++#endif
++}
++
++void rtw_hostapd_mlme_rx(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_HOSTAPD_MLME
++	_pkt *skb;
++	struct hostapd_priv *phostapdpriv  = padapter->phostapdpriv;
++	struct net_device *pmgnt_netdev = phostapdpriv->pmgnt_netdev;
++
++
++	skb = precv_frame->u.hdr.pkt;
++
++	if (skb == NULL)
++		return;
++
++	skb->data = precv_frame->u.hdr.rx_data;
++	skb->tail = precv_frame->u.hdr.rx_tail;
++	skb->len = precv_frame->u.hdr.len;
++
++	/* pskb_copy = rtw_skb_copy(skb);
++	*	if(skb == NULL) goto _exit; */
++
++	skb->dev = pmgnt_netdev;
++	skb->ip_summed = CHECKSUM_NONE;
++	skb->pkt_type = PACKET_OTHERHOST;
++	/* skb->protocol = __constant_htons(0x0019); ETH_P_80211_RAW */
++	skb->protocol = __constant_htons(0x0003); /*ETH_P_80211_RAW*/
++
++	/* RTW_INFO("(1)data=0x%x, head=0x%x, tail=0x%x, mac_header=0x%x, len=%d\n", skb->data, skb->head, skb->tail, skb->mac_header, skb->len); */
++
++	/* skb->mac.raw = skb->data; */
++	skb_reset_mac_header(skb);
++
++	/* skb_pull(skb, 24); */
++	_rtw_memset(skb->cb, 0, sizeof(skb->cb));
++
++	rtw_netif_rx(pmgnt_netdev, skb);
++
++	precv_frame->u.hdr.pkt = NULL; /* set pointer to NULL before rtw_free_recvframe() if call rtw_netif_rx() */
++#endif
++}
++
++#ifdef CONFIG_AUTO_AP_MODE
++static void rtw_os_ksocket_send(_adapter *padapter, union recv_frame *precv_frame)
++{
++	_pkt *skb = precv_frame->u.hdr.pkt;
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	struct sta_info *psta = precv_frame->u.hdr.psta;
++
++	RTW_INFO("eth rx: got eth_type=0x%x\n", pattrib->eth_type);
++
++	if (psta && psta->isrc && psta->pid > 0) {
++		u16 rx_pid;
++
++		rx_pid = *(u16 *)(skb->data + ETH_HLEN);
++
++		RTW_INFO("eth rx(pid=0x%x): sta("MAC_FMT") pid=0x%x\n",
++			 rx_pid, MAC_ARG(psta->hwaddr), psta->pid);
++
++		if (rx_pid == psta->pid) {
++			int i;
++			u16 len = *(u16 *)(skb->data + ETH_HLEN + 2);
++			/* u16 ctrl_type = *(u16*)(skb->data+ETH_HLEN+4); */
++
++			/* RTW_INFO("eth, RC: len=0x%x, ctrl_type=0x%x\n", len, ctrl_type);  */
++			RTW_INFO("eth, RC: len=0x%x\n", len);
++
++			for (i = 0; i < len; i++)
++				RTW_INFO("0x%x\n", *(skb->data + ETH_HLEN + 4 + i));
++			/* RTW_INFO("0x%x\n", *(skb->data+ETH_HLEN+6+i)); */
++
++			RTW_INFO("eth, RC-end\n");
++
++#if 0
++			/* send_sz = ksocket_send(padapter->ksock_send, &padapter->kaddr_send, (skb->data+ETH_HLEN+2), len);				 */
++			rtw_recv_ksocket_send_cmd(padapter, (skb->data + ETH_HLEN + 2), len);
++
++			/* RTW_INFO("ksocket_send size=%d\n", send_sz);  */
++#endif
++		}
++
++	}
++
++}
++#endif /* CONFIG_AUTO_AP_MODE */
++
++int rtw_recv_monitor(_adapter *padapter, union recv_frame *precv_frame)
++{
++	int ret = _FAIL;
++	struct recv_priv *precvpriv;
++	_queue	*pfree_recv_queue;
++	_pkt *skb;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct rx_pkt_attrib *pattrib;
++
++	if (NULL == precv_frame)
++		goto _recv_drop;
++
++	pattrib = &precv_frame->u.hdr.attrib;
++	precvpriv = &(padapter->recvpriv);
++	pfree_recv_queue = &(precvpriv->free_recv_queue);
++
++	skb = precv_frame->u.hdr.pkt;
++	if (skb == NULL) {
++		RTW_INFO("%s :skb==NULL something wrong!!!!\n", __func__);
++		goto _recv_drop;
++	}
++
++	skb->data = precv_frame->u.hdr.rx_data;
++	skb_set_tail_pointer(skb, precv_frame->u.hdr.len);
++	skb->len = precv_frame->u.hdr.len;
++	skb->ip_summed = CHECKSUM_NONE;
++	skb->pkt_type = PACKET_OTHERHOST;
++	skb->protocol = htons(0x0019); /* ETH_P_80211_RAW */
++
++	rtw_netif_rx(padapter->pnetdev, skb);
++
++	/* pointers to NULL before rtw_free_recvframe() */
++	precv_frame->u.hdr.pkt = NULL;
++
++	ret = _SUCCESS;
++
++_recv_drop:
++
++	/* enqueue back to free_recv_queue */
++	if (precv_frame)
++		rtw_free_recvframe(precv_frame, pfree_recv_queue);
++
++	return ret;
++
++}
++
++int rtw_recv_indicatepkt(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct recv_priv *precvpriv;
++	_queue	*pfree_recv_queue;
++	_pkt *skb;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct rx_pkt_attrib *pattrib;
++
++	if (NULL == precv_frame)
++		goto _recv_indicatepkt_drop;
++
++	DBG_COUNTER(padapter->rx_logs.os_indicate);
++	pattrib = &precv_frame->u.hdr.attrib;
++	precvpriv = &(padapter->recvpriv);
++	pfree_recv_queue = &(precvpriv->free_recv_queue);
++
++#ifdef CONFIG_DRVEXT_MODULE
++	if (drvext_rx_handler(padapter, precv_frame->u.hdr.rx_data, precv_frame->u.hdr.len) == _SUCCESS)
++		goto _recv_indicatepkt_drop;
++#endif
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (rtw_wapi_check_for_drop(padapter, precv_frame)) {
++		WAPI_TRACE(WAPI_ERR, "%s(): Rx Reorder Drop case!!\n", __FUNCTION__);
++		goto _recv_indicatepkt_drop;
++	}
++#endif
++
++	skb = precv_frame->u.hdr.pkt;
++	if (skb == NULL) {
++		goto _recv_indicatepkt_drop;
++	}
++
++
++	skb->data = precv_frame->u.hdr.rx_data;
++
++	skb_set_tail_pointer(skb, precv_frame->u.hdr.len);
++
++	skb->len = precv_frame->u.hdr.len;
++
++
++	if (pattrib->eth_type == 0x888e)
++		RTW_PRINT("recv eapol packet\n");
++
++#ifdef CONFIG_AUTO_AP_MODE
++#if 1 /* for testing */
++#if 1
++	if (0x8899 == pattrib->eth_type) {
++		rtw_os_ksocket_send(padapter, precv_frame);
++
++		/* goto _recv_indicatepkt_drop; */
++	}
++#else
++	if (0x8899 == pattrib->eth_type) {
++		rtw_auto_ap_mode_rx(padapter, precv_frame);
++
++		goto _recv_indicatepkt_end;
++	}
++#endif
++#endif
++#endif /* CONFIG_AUTO_AP_MODE */
++
++	/* TODO: move to core */
++	{
++		_pkt *pkt = skb;
++		struct ethhdr *etherhdr = (struct ethhdr *)pkt->data;
++		struct sta_info *sta = precv_frame->u.hdr.psta;
++
++		if (!sta)
++			goto bypass_session_tracker;
++
++		if (ntohs(etherhdr->h_proto) == ETH_P_IP) {
++			u8 *ip = pkt->data + 14;
++
++			if (GET_IPV4_PROTOCOL(ip) == 0x06  /* TCP */
++			    && rtw_st_ctl_chk_reg_s_proto(&sta->st_ctl, 0x06) == _TRUE
++			   ) {
++				u8 *tcp = ip + GET_IPV4_IHL(ip) * 4;
++
++				if (rtw_st_ctl_chk_reg_rule(&sta->st_ctl, padapter, IPV4_DST(ip), TCP_DST(tcp), IPV4_SRC(ip), TCP_SRC(tcp)) == _TRUE) {
++					if (GET_TCP_SYN(tcp) && GET_TCP_ACK(tcp)) {
++						session_tracker_add_cmd(padapter, sta
++							, IPV4_DST(ip), TCP_DST(tcp)
++							, IPV4_SRC(ip), TCP_SRC(tcp));
++						if (DBG_SESSION_TRACKER)
++							RTW_INFO(FUNC_ADPT_FMT" local:"IP_FMT":"PORT_FMT", remote:"IP_FMT":"PORT_FMT" SYN-ACK\n"
++								, FUNC_ADPT_ARG(padapter)
++								, IP_ARG(IPV4_DST(ip)), PORT_ARG(TCP_DST(tcp))
++								, IP_ARG(IPV4_SRC(ip)), PORT_ARG(TCP_SRC(tcp)));
++					}
++					if (GET_TCP_FIN(tcp)) {
++						session_tracker_del_cmd(padapter, sta
++							, IPV4_DST(ip), TCP_DST(tcp)
++							, IPV4_SRC(ip), TCP_SRC(tcp));
++						if (DBG_SESSION_TRACKER)
++							RTW_INFO(FUNC_ADPT_FMT" local:"IP_FMT":"PORT_FMT", remote:"IP_FMT":"PORT_FMT" FIN\n"
++								, FUNC_ADPT_ARG(padapter)
++								, IP_ARG(IPV4_DST(ip)), PORT_ARG(TCP_DST(tcp))
++								, IP_ARG(IPV4_SRC(ip)), PORT_ARG(TCP_SRC(tcp)));
++					}
++				}
++
++			}
++		}
++bypass_session_tracker:
++		;
++	}
++
++	rtw_os_recv_indicate_pkt(padapter, skb, pattrib);
++
++_recv_indicatepkt_end:
++
++	precv_frame->u.hdr.pkt = NULL; /* pointers to NULL before rtw_free_recvframe() */
++
++	rtw_free_recvframe(precv_frame, pfree_recv_queue);
++
++
++
++	return _SUCCESS;
++
++_recv_indicatepkt_drop:
++
++	/* enqueue back to free_recv_queue */
++	if (precv_frame)
++		rtw_free_recvframe(precv_frame, pfree_recv_queue);
++
++	DBG_COUNTER(padapter->rx_logs.os_indicate_err);
++
++	return _FAIL;
++
++}
++
++void rtw_os_read_port(_adapter *padapter, struct recv_buf *precvbuf)
++{
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++
++#ifdef CONFIG_USB_HCI
++
++	precvbuf->ref_cnt--;
++
++	/* free skb in recv_buf */
++	rtw_skb_free(precvbuf->pskb);
++
++	precvbuf->pskb = NULL;
++
++	if (precvbuf->irp_pending == _FALSE)
++		rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++
++
++#endif
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	precvbuf->pskb = NULL;
++#endif
++
++}
++void _rtw_reordering_ctrl_timeout_handler(void *FunctionContext);
++void _rtw_reordering_ctrl_timeout_handler(void *FunctionContext)
++{
++	struct recv_reorder_ctrl *preorder_ctrl = (struct recv_reorder_ctrl *)FunctionContext;
++	rtw_reordering_ctrl_timeout_handler(preorder_ctrl);
++}
++
++void rtw_init_recv_timer(struct recv_reorder_ctrl *preorder_ctrl)
++{
++	_adapter *padapter = preorder_ctrl->padapter;
++
++	_init_timer(&(preorder_ctrl->reordering_ctrl_timer), padapter->pnetdev, _rtw_reordering_ctrl_timeout_handler, preorder_ctrl);
++
++}
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/rtw_android.c b/drivers/net/wireless/rtl8723du/os_dep/linux/rtw_android.c
+new file mode 100644
+index 0000000..5907a00
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/rtw_android.c
+@@ -0,0 +1,1270 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifdef CONFIG_GPIO_WAKEUP
++#include <linux/gpio.h>
++#endif
++
++#include <drv_types.h>
++
++#if defined(RTW_ENABLE_WIFI_CONTROL_FUNC)
++#include <linux/platform_device.h>
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	#include <linux/wlan_plat.h>
++#else
++	#include <linux/wifi_tiwlan.h>
++#endif
++#endif /* defined(RTW_ENABLE_WIFI_CONTROL_FUNC) */
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 0, 0))
++#define strnicmp	strncasecmp
++#endif /* Linux kernel >= 4.0.0 */
++
++#ifdef CONFIG_GPIO_WAKEUP
++#include <linux/interrupt.h>
++#include <linux/irq.h>
++#endif
++
++#include "rtw_version.h"
++
++extern void macstr2num(u8 *dst, u8 *src);
++
++const char *android_wifi_cmd_str[ANDROID_WIFI_CMD_MAX] = {
++	"START",
++	"STOP",
++	"SCAN-ACTIVE",
++	"SCAN-PASSIVE",
++	"RSSI",
++	"LINKSPEED",
++	"RXFILTER-START",
++	"RXFILTER-STOP",
++	"RXFILTER-ADD",
++	"RXFILTER-REMOVE",
++	"BTCOEXSCAN-START",
++	"BTCOEXSCAN-STOP",
++	"BTCOEXMODE",
++	"SETSUSPENDOPT",
++	"P2P_DEV_ADDR",
++	"SETFWPATH",
++	"SETBAND",
++	"GETBAND",
++	"COUNTRY",
++	"P2P_SET_NOA",
++	"P2P_GET_NOA",
++	"P2P_SET_PS",
++	"SET_AP_WPS_P2P_IE",
++
++	"MIRACAST",
++
++#ifdef CONFIG_PNO_SUPPORT
++	"PNOSSIDCLR",
++	"PNOSETUP",
++	"PNOFORCE",
++	"PNODEBUG",
++#endif
++
++	"MACADDR",
++
++	"BLOCK_SCAN",
++	"BLOCK",
++	"WFD-ENABLE",
++	"WFD-DISABLE",
++	"WFD-SET-TCPPORT",
++	"WFD-SET-MAXTPUT",
++	"WFD-SET-DEVTYPE",
++	"SET_DTIM",
++	"HOSTAPD_SET_MACADDR_ACL",
++	"HOSTAPD_ACL_ADD_STA",
++	"HOSTAPD_ACL_REMOVE_STA",
++#if defined(CONFIG_GTK_OL) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 1, 0))
++	"GTK_REKEY_OFFLOAD",
++#endif /* CONFIG_GTK_OL */
++/*	Private command for	P2P disable*/
++	"P2P_DISABLE",
++	"DRIVER_VERSION"
++};
++
++#ifdef CONFIG_PNO_SUPPORT
++#define PNO_TLV_PREFIX			'S'
++#define PNO_TLV_VERSION			'1'
++#define PNO_TLV_SUBVERSION		'2'
++#define PNO_TLV_RESERVED		'0'
++#define PNO_TLV_TYPE_SSID_IE	'S'
++#define PNO_TLV_TYPE_TIME		'T'
++#define PNO_TLV_FREQ_REPEAT		'R'
++#define PNO_TLV_FREQ_EXPO_MAX	'M'
++
++typedef struct cmd_tlv {
++	char prefix;
++	char version;
++	char subver;
++	char reserved;
++} cmd_tlv_t;
++
++#ifdef CONFIG_PNO_SET_DEBUG
++char pno_in_example[] = {
++	'P', 'N', 'O', 'S', 'E', 'T', 'U', 'P', ' ',
++	'S', '1', '2', '0',
++	'S',	/* 1 */
++	0x05,
++	'd', 'l', 'i', 'n', 'k',
++	'S',	/* 2 */
++	0x06,
++	'B', 'U', 'F', 'B', 'U', 'F',
++	'S',	/* 3 */
++	0x20,
++	'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', '!', '@', '#', '$', '%', '^',
++	'S',	/* 4 */
++	0x0a,
++	'!', '@', '#', '$', '%', '^', '&', '*', '(', ')',
++	'T',
++	'0', '5',
++	'R',
++	'2',
++	'M',
++	'2',
++	0x00
++};
++#endif /* CONFIG_PNO_SET_DEBUG */
++#endif /* PNO_SUPPORT */
++
++typedef struct android_wifi_priv_cmd {
++	char *buf;
++	int used_len;
++	int total_len;
++} android_wifi_priv_cmd;
++
++#ifdef CONFIG_COMPAT
++typedef struct compat_android_wifi_priv_cmd {
++	compat_uptr_t buf;
++	int used_len;
++	int total_len;
++} compat_android_wifi_priv_cmd;
++#endif /* CONFIG_COMPAT */
++
++/**
++ * Local (static) functions and variables
++ */
++
++/* Initialize g_wifi_on to 1 so dhd_bus_start will be called for the first
++ * time (only) in dhd_open, subsequential wifi on will be handled by
++ * wl_android_wifi_on
++ */
++static int g_wifi_on = _TRUE;
++
++unsigned int oob_irq = 0;
++unsigned int oob_gpio = 0;
++
++#ifdef CONFIG_PNO_SUPPORT
++/*
++ * rtw_android_pno_setup
++ * Description:
++ * This is used for private command.
++ *
++ * Parameter:
++ * net: net_device
++ * command: parameters from private command
++ * total_len: the length of the command.
++ *
++ * */
++static int rtw_android_pno_setup(struct net_device *net, char *command, int total_len)
++{
++	pno_ssid_t pno_ssids_local[MAX_PNO_LIST_COUNT];
++	int res = -1;
++	int nssid = 0;
++	cmd_tlv_t *cmd_tlv_temp;
++	char *str_ptr;
++	int tlv_size_left;
++	int pno_time = 0;
++	int pno_repeat = 0;
++	int pno_freq_expo_max = 0;
++	int cmdlen = strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_PNOSETUP_SET]) + 1;
++
++#ifdef CONFIG_PNO_SET_DEBUG
++	int i;
++	char *p;
++	p = pno_in_example;
++
++	total_len = sizeof(pno_in_example);
++	str_ptr = p + cmdlen;
++#else
++	str_ptr = command + cmdlen;
++#endif
++
++	if (total_len < (cmdlen + sizeof(cmd_tlv_t))) {
++		RTW_INFO("%s argument=%d less min size\n", __func__, total_len);
++		goto exit_proc;
++	}
++
++	tlv_size_left = total_len - cmdlen;
++
++	cmd_tlv_temp = (cmd_tlv_t *)str_ptr;
++	memset(pno_ssids_local, 0, sizeof(pno_ssids_local));
++
++	if ((cmd_tlv_temp->prefix == PNO_TLV_PREFIX) &&
++	    (cmd_tlv_temp->version == PNO_TLV_VERSION) &&
++	    (cmd_tlv_temp->subver == PNO_TLV_SUBVERSION)) {
++
++		str_ptr += sizeof(cmd_tlv_t);
++		tlv_size_left -= sizeof(cmd_tlv_t);
++
++		nssid = rtw_parse_ssid_list_tlv(&str_ptr, pno_ssids_local,
++			     MAX_PNO_LIST_COUNT, &tlv_size_left);
++		if (nssid <= 0) {
++			RTW_INFO("SSID is not presented or corrupted ret=%d\n", nssid);
++			goto exit_proc;
++		} else {
++			if ((str_ptr[0] != PNO_TLV_TYPE_TIME) || (tlv_size_left <= 1)) {
++				RTW_INFO("%s scan duration corrupted field size %d\n",
++					 __func__, tlv_size_left);
++				goto exit_proc;
++			}
++			str_ptr++;
++			pno_time = simple_strtoul(str_ptr, &str_ptr, 16);
++			RTW_INFO("%s: pno_time=%d\n", __func__, pno_time);
++
++			if (str_ptr[0] != 0) {
++				if ((str_ptr[0] != PNO_TLV_FREQ_REPEAT)) {
++					RTW_INFO("%s pno repeat : corrupted field\n",
++						 __func__);
++					goto exit_proc;
++				}
++				str_ptr++;
++				pno_repeat = simple_strtoul(str_ptr, &str_ptr, 16);
++				RTW_INFO("%s :got pno_repeat=%d\n", __FUNCTION__, pno_repeat);
++				if (str_ptr[0] != PNO_TLV_FREQ_EXPO_MAX) {
++					RTW_INFO("%s FREQ_EXPO_MAX corrupted field size\n",
++						 __func__);
++					goto exit_proc;
++				}
++				str_ptr++;
++				pno_freq_expo_max = simple_strtoul(str_ptr, &str_ptr, 16);
++				RTW_INFO("%s: pno_freq_expo_max=%d\n",
++					 __func__, pno_freq_expo_max);
++			}
++		}
++	} else {
++		RTW_INFO("%s get wrong TLV command\n", __FUNCTION__);
++		goto exit_proc;
++	}
++
++	res = rtw_dev_pno_set(net, pno_ssids_local, nssid, pno_time, pno_repeat, pno_freq_expo_max);
++
++#ifdef CONFIG_PNO_SET_DEBUG
++	rtw_dev_pno_debug(net);
++#endif
++
++exit_proc:
++	return res;
++}
++
++/*
++ * rtw_android_cfg80211_pno_setup
++ * Description:
++ * This is used for cfg80211 sched_scan.
++ *
++ * Parameter:
++ * net: net_device
++ * request: cfg80211_request
++ * */
++
++int rtw_android_cfg80211_pno_setup(struct net_device *net,
++		   struct cfg80211_ssid *ssids, int n_ssids, int interval)
++{
++	int res = -1;
++	int nssid = 0;
++	int pno_time = 0;
++	int pno_repeat = 0;
++	int pno_freq_expo_max = 0;
++	int index = 0;
++	pno_ssid_t pno_ssids_local[MAX_PNO_LIST_COUNT];
++
++	if (n_ssids > MAX_PNO_LIST_COUNT || n_ssids < 0) {
++		RTW_INFO("%s: nssids(%d) is invalid.\n", __func__, n_ssids);
++		return -EINVAL;
++	}
++
++	memset(pno_ssids_local, 0, sizeof(pno_ssids_local));
++
++	nssid = n_ssids;
++
++	for (index = 0 ; index < nssid ; index++) {
++		pno_ssids_local[index].SSID_len = ssids[index].ssid_len;
++		memcpy(pno_ssids_local[index].SSID, ssids[index].ssid,
++		       ssids[index].ssid_len);
++	}
++
++	pno_time = (interval / 1000);
++
++	RTW_INFO("%s: nssids: %d, pno_time=%d\n", __func__, nssid, pno_time);
++
++	res = rtw_dev_pno_set(net, pno_ssids_local, nssid, pno_time,
++			      pno_repeat, pno_freq_expo_max);
++
++#ifdef CONFIG_PNO_SET_DEBUG
++	rtw_dev_pno_debug(net);
++#endif
++exit_proc:
++	return res;
++}
++
++int rtw_android_pno_enable(struct net_device *net, int pno_enable)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++
++	if (pwrctl) {
++		pwrctl->wowlan_pno_enable = pno_enable;
++		RTW_INFO("%s: wowlan_pno_enable: %d\n", __func__, pwrctl->wowlan_pno_enable);
++		if (pwrctl->wowlan_pno_enable == 0) {
++			if (pwrctl->pnlo_info != NULL) {
++				rtw_mfree((u8 *)pwrctl->pnlo_info, sizeof(pno_nlo_info_t));
++				pwrctl->pnlo_info = NULL;
++			}
++			if (pwrctl->pno_ssid_list != NULL) {
++				rtw_mfree((u8 *)pwrctl->pno_ssid_list, sizeof(pno_ssid_list_t));
++				pwrctl->pno_ssid_list = NULL;
++			}
++			if (pwrctl->pscan_info != NULL) {
++				rtw_mfree((u8 *)pwrctl->pscan_info, sizeof(pno_scan_info_t));
++				pwrctl->pscan_info = NULL;
++			}
++		}
++		return 0;
++	} else
++		return -1;
++}
++#endif /* CONFIG_PNO_SUPPORT */
++
++int rtw_android_cmdstr_to_num(char *cmdstr)
++{
++	int cmd_num;
++	for (cmd_num = 0 ; cmd_num < ANDROID_WIFI_CMD_MAX; cmd_num++)
++		if (0 == strnicmp(cmdstr , android_wifi_cmd_str[cmd_num], strlen(android_wifi_cmd_str[cmd_num])))
++			break;
++
++	return cmd_num;
++}
++
++int rtw_android_get_rssi(struct net_device *net, char *command, int total_len)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct	wlan_network	*pcur_network = &pmlmepriv->cur_network;
++	int bytes_written = 0;
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++		bytes_written += snprintf(&command[bytes_written], total_len, "%s rssi %d",
++			pcur_network->network.Ssid.Ssid, padapter->recvpriv.rssi);
++	}
++
++	return bytes_written;
++}
++
++int rtw_android_get_link_speed(struct net_device *net, char *command, int total_len)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct	wlan_network	*pcur_network = &pmlmepriv->cur_network;
++	int bytes_written = 0;
++	u16 link_speed = 0;
++
++	link_speed = rtw_get_cur_max_rate(padapter) / 10;
++	bytes_written = snprintf(command, total_len, "LinkSpeed %d", link_speed);
++
++	return bytes_written;
++}
++
++int rtw_android_get_macaddr(struct net_device *net, char *command, int total_len)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(net);
++	int bytes_written = 0;
++
++	bytes_written = snprintf(command, total_len, "Macaddr = "MAC_FMT, MAC_ARG(net->dev_addr));
++	return bytes_written;
++}
++
++int rtw_android_set_country(struct net_device *net, char *command, int total_len)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(net);
++	char *country_code = command + strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_COUNTRY]) + 1;
++	int ret = _FAIL;
++
++	ret = rtw_set_country(adapter, country_code);
++
++	return (ret == _SUCCESS) ? 0 : -1;
++}
++
++int rtw_android_get_p2p_dev_addr(struct net_device *net, char *command, int total_len)
++{
++	int bytes_written = 0;
++
++	/* We use the same address as our HW MAC address */
++	_rtw_memcpy(command, net->dev_addr, ETH_ALEN);
++
++	bytes_written = ETH_ALEN;
++	return bytes_written;
++}
++
++int rtw_android_set_block_scan(struct net_device *net, char *command, int total_len)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(net);
++	char *block_value = command + strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_BLOCK_SCAN]) + 1;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	adapter_wdev_data(adapter)->block_scan = (*block_value == '0') ? _FALSE : _TRUE;
++#endif
++
++	return 0;
++}
++
++int rtw_android_set_block(struct net_device *net, char *command, int total_len)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(net);
++	char *block_value = command + strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_BLOCK]) + 1;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	adapter_wdev_data(adapter)->block = (*block_value == '0') ? _FALSE : _TRUE;
++#endif
++
++	return 0;
++}
++
++int rtw_android_setband(struct net_device *net, char *command, int total_len)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(net);
++	char *arg = command + strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_SETBAND]) + 1;
++	u32 band = WIFI_FREQUENCY_BAND_AUTO;
++	int ret = _FAIL;
++
++	if (sscanf(arg, "%u", &band) >= 1)
++		ret = rtw_set_band(adapter, band);
++
++	return (ret == _SUCCESS) ? 0 : -1;
++}
++
++int rtw_android_getband(struct net_device *net, char *command, int total_len)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(net);
++	int bytes_written = 0;
++
++	bytes_written = snprintf(command, total_len, "%u", adapter->setband);
++
++	return bytes_written;
++}
++
++#ifdef CONFIG_WFD
++int rtw_android_set_miracast_mode(struct net_device *net, char *command, int total_len)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(net);
++	struct wifi_display_info *wfd_info = &adapter->wfd_info;
++	char *arg = command + strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_MIRACAST]) + 1;
++	u8 mode;
++	int num;
++	int ret = _FAIL;
++
++	num = sscanf(arg, "%hhu", &mode);
++
++	if (num < 1)
++		goto exit;
++
++	switch (mode) {
++	case 1: /* soruce */
++		mode = MIRACAST_SOURCE;
++		break;
++	case 2: /* sink */
++		mode = MIRACAST_SINK;
++		break;
++	case 0: /* disabled */
++	default:
++		mode = MIRACAST_DISABLED;
++		break;
++	}
++	wfd_info->stack_wfd_mode = mode;
++	RTW_INFO("stack miracast mode: %s\n", get_miracast_mode_str(wfd_info->stack_wfd_mode));
++
++	ret = _SUCCESS;
++
++exit:
++	return (ret == _SUCCESS) ? 0 : -1;
++}
++#endif /* CONFIG_WFD */
++
++int get_int_from_command(char *pcmd)
++{
++	int i = 0;
++
++	for (i = 0; i < strlen(pcmd); i++) {
++		if (pcmd[i] == '=') {
++			/*	Skip the '=' and space characters. */
++			i += 2;
++			break;
++		}
++	}
++	return rtw_atoi(pcmd + i) ;
++}
++
++#if defined(CONFIG_GTK_OL) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 1, 0))
++int rtw_gtk_offload(struct net_device *net, u8 *cmd_ptr)
++{
++	int i;
++	/* u8 *cmd_ptr = priv_cmd.buf; */
++	struct sta_info *psta;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct security_priv *psecuritypriv = &(padapter->securitypriv);
++	psta = rtw_get_stainfo(pstapriv, get_bssid(pmlmepriv));
++
++
++	if (psta == NULL)
++		RTW_INFO("%s, : Obtain Sta_info fail\n", __func__);
++	else {
++		/* string command length of "GTK_REKEY_OFFLOAD" */
++		cmd_ptr += 18;
++
++		_rtw_memcpy(psta->kek, cmd_ptr, RTW_KEK_LEN);
++		cmd_ptr += RTW_KEK_LEN;
++		/*
++		printk("supplicant KEK: ");
++		for(i=0;i<RTW_KEK_LEN; i++)
++			printk(" %02x ", psta->kek[i]);
++		printk("\n supplicant KCK: ");
++		*/
++		_rtw_memcpy(psta->kck, cmd_ptr, RTW_KCK_LEN);
++		cmd_ptr += RTW_KCK_LEN;
++		/*
++		for(i=0;i<RTW_KEK_LEN; i++)
++			printk(" %02x ", psta->kck[i]);
++		*/
++		_rtw_memcpy(psta->replay_ctr, cmd_ptr, RTW_REPLAY_CTR_LEN);
++		psecuritypriv->binstallKCK_KEK = _TRUE;
++
++		/* printk("\nREPLAY_CTR: "); */
++		/* for(i=0;i<RTW_REPLAY_CTR_LEN; i++) */
++		/* printk(" %02x ", psta->replay_ctr[i]); */
++	}
++
++	return _SUCCESS;
++}
++#endif /* CONFIG_GTK_OL */
++
++int rtw_android_priv_cmd(struct net_device *net, struct ifreq *ifr, int cmd)
++{
++	int ret = 0;
++	char *command = NULL;
++	int cmd_num;
++	int bytes_written = 0;
++#ifdef CONFIG_PNO_SUPPORT
++	uint cmdlen = 0;
++	uint pno_enable = 0;
++#endif
++	android_wifi_priv_cmd priv_cmd;
++	_adapter	*padapter = (_adapter *) rtw_netdev_priv(net);
++#ifdef CONFIG_WFD
++	struct wifi_display_info		*pwfd_info;
++#endif
++
++	rtw_lock_suspend();
++
++	if (!ifr->ifr_data) {
++		ret = -EINVAL;
++		goto exit;
++	}
++	if (padapter->registrypriv.mp_mode == 1) {
++		ret = -EINVAL;
++		goto exit;
++	}
++#ifdef CONFIG_COMPAT
++	if (is_compat_task()) {
++		/* User space is 32-bit, use compat ioctl */
++		compat_android_wifi_priv_cmd compat_priv_cmd;
++
++		if (copy_from_user(&compat_priv_cmd, ifr->ifr_data, sizeof(compat_android_wifi_priv_cmd))) {
++			ret = -EFAULT;
++			goto exit;
++		}
++		priv_cmd.buf = compat_ptr(compat_priv_cmd.buf);
++		priv_cmd.used_len = compat_priv_cmd.used_len;
++		priv_cmd.total_len = compat_priv_cmd.total_len;
++	} else
++#endif /* CONFIG_COMPAT */
++		if (copy_from_user(&priv_cmd, ifr->ifr_data, sizeof(android_wifi_priv_cmd))) {
++			ret = -EFAULT;
++			goto exit;
++		}
++	if (padapter->registrypriv.mp_mode == 1) {
++		ret = -EFAULT;
++		goto exit;
++	}
++	/*RTW_INFO("%s priv_cmd.buf=%p priv_cmd.total_len=%d  priv_cmd.used_len=%d\n",__func__,priv_cmd.buf,priv_cmd.total_len,priv_cmd.used_len);*/
++	command = rtw_zmalloc(priv_cmd.total_len);
++	if (!command) {
++		RTW_INFO("%s: failed to allocate memory\n", __FUNCTION__);
++		ret = -ENOMEM;
++		goto exit;
++	}
++
++	if (!access_ok(VERIFY_READ, priv_cmd.buf, priv_cmd.total_len)) {
++		RTW_INFO("%s: failed to access memory\n", __FUNCTION__);
++		ret = -EFAULT;
++		goto exit;
++	}
++	if (copy_from_user(command, (void *)priv_cmd.buf, priv_cmd.total_len)) {
++		ret = -EFAULT;
++		goto exit;
++	}
++
++	RTW_INFO("%s: Android private cmd \"%s\" on %s\n"
++		 , __FUNCTION__, command, ifr->ifr_name);
++
++	cmd_num = rtw_android_cmdstr_to_num(command);
++
++	switch (cmd_num) {
++	case ANDROID_WIFI_CMD_START:
++		/* bytes_written = wl_android_wifi_on(net); */
++		goto response;
++	case ANDROID_WIFI_CMD_SETFWPATH:
++		goto response;
++	}
++
++	if (!g_wifi_on) {
++		RTW_INFO("%s: Ignore private cmd \"%s\" - iface %s is down\n"
++			 , __FUNCTION__, command, ifr->ifr_name);
++		ret = 0;
++		goto exit;
++	}
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST)) {
++		switch (cmd_num) {
++		case ANDROID_WIFI_CMD_WFD_ENABLE:
++		case ANDROID_WIFI_CMD_WFD_DISABLE:
++		case ANDROID_WIFI_CMD_WFD_SET_TCPPORT:
++		case ANDROID_WIFI_CMD_WFD_SET_MAX_TPUT:
++		case ANDROID_WIFI_CMD_WFD_SET_DEVTYPE:
++			goto response;
++		}
++	}
++
++	switch (cmd_num) {
++
++	case ANDROID_WIFI_CMD_STOP:
++		/* bytes_written = wl_android_wifi_off(net); */
++		break;
++
++	case ANDROID_WIFI_CMD_SCAN_ACTIVE:
++		/* rtw_set_scan_mode((_adapter *)rtw_netdev_priv(net), SCAN_ACTIVE); */
++#ifdef CONFIG_PLATFORM_MSTAR
++#ifdef CONFIG_IOCTL_CFG80211
++		adapter_wdev_data((_adapter *)rtw_netdev_priv(net))->bandroid_scan = _TRUE;
++#endif /* CONFIG_IOCTL_CFG80211 */
++#endif /* CONFIG_PLATFORM_MSTAR */
++		break;
++	case ANDROID_WIFI_CMD_SCAN_PASSIVE:
++		/* rtw_set_scan_mode((_adapter *)rtw_netdev_priv(net), SCAN_PASSIVE); */
++		break;
++
++	case ANDROID_WIFI_CMD_RSSI:
++		bytes_written = rtw_android_get_rssi(net, command, priv_cmd.total_len);
++		break;
++	case ANDROID_WIFI_CMD_LINKSPEED:
++		bytes_written = rtw_android_get_link_speed(net, command, priv_cmd.total_len);
++		break;
++
++	case ANDROID_WIFI_CMD_MACADDR:
++		bytes_written = rtw_android_get_macaddr(net, command, priv_cmd.total_len);
++		break;
++
++	case ANDROID_WIFI_CMD_BLOCK_SCAN:
++		bytes_written = rtw_android_set_block_scan(net, command, priv_cmd.total_len);
++		break;
++
++	case ANDROID_WIFI_CMD_BLOCK:
++		bytes_written = rtw_android_set_block(net, command, priv_cmd.total_len);
++		break;
++
++	case ANDROID_WIFI_CMD_RXFILTER_START:
++		/* bytes_written = net_os_set_packet_filter(net, 1); */
++		break;
++	case ANDROID_WIFI_CMD_RXFILTER_STOP:
++		/* bytes_written = net_os_set_packet_filter(net, 0); */
++		break;
++	case ANDROID_WIFI_CMD_RXFILTER_ADD:
++		/* int filter_num = *(command + strlen(CMD_RXFILTER_ADD) + 1) - '0'; */
++		/* bytes_written = net_os_rxfilter_add_remove(net, TRUE, filter_num); */
++		break;
++	case ANDROID_WIFI_CMD_RXFILTER_REMOVE:
++		/* int filter_num = *(command + strlen(CMD_RXFILTER_REMOVE) + 1) - '0'; */
++		/* bytes_written = net_os_rxfilter_add_remove(net, FALSE, filter_num); */
++		break;
++
++	case ANDROID_WIFI_CMD_BTCOEXSCAN_START:
++		/* TBD: BTCOEXSCAN-START */
++		break;
++	case ANDROID_WIFI_CMD_BTCOEXSCAN_STOP:
++		/* TBD: BTCOEXSCAN-STOP */
++		break;
++	case ANDROID_WIFI_CMD_BTCOEXMODE:
++#if 0
++		uint mode = *(command + strlen(CMD_BTCOEXMODE) + 1) - '0';
++		if (mode == 1)
++			net_os_set_packet_filter(net, 0); /* DHCP starts */
++		else
++			net_os_set_packet_filter(net, 1); /* DHCP ends */
++#ifdef WL_CFG80211
++		bytes_written = wl_cfg80211_set_btcoex_dhcp(net, command);
++#endif
++#endif
++		break;
++
++	case ANDROID_WIFI_CMD_SETSUSPENDOPT:
++		/* bytes_written = wl_android_set_suspendopt(net, command, priv_cmd.total_len); */
++		break;
++
++	case ANDROID_WIFI_CMD_SETBAND:
++		bytes_written = rtw_android_setband(net, command, priv_cmd.total_len);
++		break;
++
++	case ANDROID_WIFI_CMD_GETBAND:
++		bytes_written = rtw_android_getband(net, command, priv_cmd.total_len);
++		break;
++
++	case ANDROID_WIFI_CMD_COUNTRY:
++		bytes_written = rtw_android_set_country(net, command, priv_cmd.total_len);
++		break;
++
++#ifdef CONFIG_PNO_SUPPORT
++	case ANDROID_WIFI_CMD_PNOSSIDCLR_SET:
++		/* bytes_written = dhd_dev_pno_reset(net); */
++		break;
++	case ANDROID_WIFI_CMD_PNOSETUP_SET:
++		bytes_written = rtw_android_pno_setup(net, command, priv_cmd.total_len);
++		break;
++	case ANDROID_WIFI_CMD_PNOENABLE_SET:
++		cmdlen = strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_PNOENABLE_SET]);
++		pno_enable = *(command + cmdlen + 1) - '0';
++		bytes_written = rtw_android_pno_enable(net, pno_enable);
++		break;
++#endif
++
++	case ANDROID_WIFI_CMD_P2P_DEV_ADDR:
++		bytes_written = rtw_android_get_p2p_dev_addr(net, command, priv_cmd.total_len);
++		break;
++	case ANDROID_WIFI_CMD_P2P_SET_NOA:
++		/* int skip = strlen(CMD_P2P_SET_NOA) + 1; */
++		/* bytes_written = wl_cfg80211_set_p2p_noa(net, command + skip, priv_cmd.total_len - skip); */
++		break;
++	case ANDROID_WIFI_CMD_P2P_GET_NOA:
++		/* bytes_written = wl_cfg80211_get_p2p_noa(net, command, priv_cmd.total_len); */
++		break;
++	case ANDROID_WIFI_CMD_P2P_SET_PS:
++		/* int skip = strlen(CMD_P2P_SET_PS) + 1; */
++		/* bytes_written = wl_cfg80211_set_p2p_ps(net, command + skip, priv_cmd.total_len - skip); */
++		break;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	case ANDROID_WIFI_CMD_SET_AP_WPS_P2P_IE: {
++		int skip = strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_SET_AP_WPS_P2P_IE]) + 3;
++		bytes_written = rtw_cfg80211_set_mgnt_wpsp2pie(net, command + skip, priv_cmd.total_len - skip, *(command + skip - 2) - '0');
++		break;
++	}
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++#ifdef CONFIG_WFD
++
++	case ANDROID_WIFI_CMD_MIRACAST:
++		bytes_written = rtw_android_set_miracast_mode(net, command, priv_cmd.total_len);
++		break;
++
++	case ANDROID_WIFI_CMD_WFD_ENABLE: {
++		/*	Commented by Albert 2012/07/24 */
++		/*	We can enable the WFD function by using the following command: */
++		/*	wpa_cli driver wfd-enable */
++
++		if (padapter->wdinfo.driver_interface == DRIVER_CFG80211)
++			rtw_wfd_enable(padapter, 1);
++		break;
++	}
++
++	case ANDROID_WIFI_CMD_WFD_DISABLE: {
++		/*	Commented by Albert 2012/07/24 */
++		/*	We can disable the WFD function by using the following command: */
++		/*	wpa_cli driver wfd-disable */
++
++		if (padapter->wdinfo.driver_interface == DRIVER_CFG80211)
++			rtw_wfd_enable(padapter, 0);
++		break;
++	}
++	case ANDROID_WIFI_CMD_WFD_SET_TCPPORT: {
++		/*	Commented by Albert 2012/07/24 */
++		/*	We can set the tcp port number by using the following command: */
++		/*	wpa_cli driver wfd-set-tcpport = 554 */
++
++		if (padapter->wdinfo.driver_interface == DRIVER_CFG80211)
++			rtw_wfd_set_ctrl_port(padapter, (u16)get_int_from_command(priv_cmd.buf));
++		break;
++	}
++	case ANDROID_WIFI_CMD_WFD_SET_MAX_TPUT: {
++		break;
++	}
++	case ANDROID_WIFI_CMD_WFD_SET_DEVTYPE: {
++		/*	Commented by Albert 2012/08/28 */
++		/*	Specify the WFD device type ( WFD source/primary sink ) */
++
++		pwfd_info = &padapter->wfd_info;
++		if (padapter->wdinfo.driver_interface == DRIVER_CFG80211) {
++			pwfd_info->wfd_device_type = (u8) get_int_from_command(priv_cmd.buf);
++			pwfd_info->wfd_device_type &= WFD_DEVINFO_DUAL;
++		}
++		break;
++	}
++#endif
++	case ANDROID_WIFI_CMD_CHANGE_DTIM: {
++#ifdef CONFIG_LPS
++		u8 dtim;
++		u8 *ptr = (u8 *) &priv_cmd.buf;
++
++		ptr += 9;/* string command length of  "SET_DTIM"; */
++
++		dtim = rtw_atoi(ptr);
++
++		RTW_INFO("DTIM=%d\n", dtim);
++
++		rtw_lps_change_dtim_cmd(padapter, dtim);
++#endif
++	}
++	break;
++
++#if CONFIG_RTW_MACADDR_ACL
++	case ANDROID_WIFI_CMD_HOSTAPD_SET_MACADDR_ACL: {
++		rtw_set_macaddr_acl(padapter, get_int_from_command(command));
++		break;
++	}
++	case ANDROID_WIFI_CMD_HOSTAPD_ACL_ADD_STA: {
++		u8 addr[ETH_ALEN] = {0x00};
++		macstr2num(addr, command + strlen("HOSTAPD_ACL_ADD_STA") + 3);	/* 3 is space bar + "=" + space bar these 3 chars */
++		rtw_acl_add_sta(padapter, addr);
++		break;
++	}
++	case ANDROID_WIFI_CMD_HOSTAPD_ACL_REMOVE_STA: {
++		u8 addr[ETH_ALEN] = {0x00};
++		macstr2num(addr, command + strlen("HOSTAPD_ACL_REMOVE_STA") + 3);	/* 3 is space bar + "=" + space bar these 3 chars */
++		rtw_acl_remove_sta(padapter, addr);
++		break;
++	}
++#endif /* CONFIG_RTW_MACADDR_ACL */
++#if defined(CONFIG_GTK_OL) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 1, 0))
++	case ANDROID_WIFI_CMD_GTK_REKEY_OFFLOAD:
++		rtw_gtk_offload(net, (u8 *)command);
++		break;
++#endif /* CONFIG_GTK_OL		 */
++	case ANDROID_WIFI_CMD_P2P_DISABLE: {
++#ifdef CONFIG_P2P
++		struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++		u8 channel, ch_offset;
++		u16 bwmode;
++
++		rtw_p2p_enable(padapter, P2P_ROLE_DISABLE);
++#endif /* CONFIG_P2P */
++		break;
++	}
++	case ANDROID_WIFI_CMD_DRIVERVERSION: {
++		bytes_written = strlen(DRIVERVERSION);
++		snprintf(command, bytes_written + 1, DRIVERVERSION);
++		break;
++	}
++	default:
++		RTW_INFO("Unknown PRIVATE command %s - ignored\n", command);
++		snprintf(command, 3, "OK");
++		bytes_written = strlen("OK");
++	}
++
++response:
++	if (bytes_written >= 0) {
++		if ((bytes_written == 0) && (priv_cmd.total_len > 0))
++			command[0] = '\0';
++		if (bytes_written >= priv_cmd.total_len) {
++			RTW_INFO("%s: bytes_written = %d\n", __FUNCTION__, bytes_written);
++			bytes_written = priv_cmd.total_len;
++		} else
++			bytes_written++;
++		priv_cmd.used_len = bytes_written;
++		if (copy_to_user((void *)priv_cmd.buf, command, bytes_written)) {
++			RTW_INFO("%s: failed to copy data to user buffer\n", __FUNCTION__);
++			ret = -EFAULT;
++		}
++	} else
++		ret = bytes_written;
++
++exit:
++	rtw_unlock_suspend();
++	if (command)
++		rtw_mfree(command, priv_cmd.total_len);
++
++	return ret;
++}
++
++
++/**
++ * Functions for Android WiFi card detection
++ */
++#if defined(RTW_ENABLE_WIFI_CONTROL_FUNC)
++
++static int g_wifidev_registered = 0;
++static struct semaphore wifi_control_sem;
++static struct wifi_platform_data *wifi_control_data = NULL;
++static struct resource *wifi_irqres = NULL;
++
++static int wifi_add_dev(void);
++static void wifi_del_dev(void);
++
++int rtw_android_wifictrl_func_add(void)
++{
++	int ret = 0;
++	sema_init(&wifi_control_sem, 0);
++
++	ret = wifi_add_dev();
++	if (ret) {
++		RTW_INFO("%s: platform_driver_register failed\n", __FUNCTION__);
++		return ret;
++	}
++	g_wifidev_registered = 1;
++
++	/* Waiting callback after platform_driver_register is done or exit with error */
++	if (down_timeout(&wifi_control_sem,  msecs_to_jiffies(1000)) != 0) {
++		ret = -EINVAL;
++		RTW_INFO("%s: platform_driver_register timeout\n", __FUNCTION__);
++	}
++
++	return ret;
++}
++
++void rtw_android_wifictrl_func_del(void)
++{
++	if (g_wifidev_registered) {
++		wifi_del_dev();
++		g_wifidev_registered = 0;
++	}
++}
++
++void *wl_android_prealloc(int section, unsigned long size)
++{
++	void *alloc_ptr = NULL;
++	if (wifi_control_data && wifi_control_data->mem_prealloc) {
++		alloc_ptr = wifi_control_data->mem_prealloc(section, size);
++		if (alloc_ptr) {
++			RTW_INFO("success alloc section %d\n", section);
++			if (size != 0L)
++				memset(alloc_ptr, 0, size);
++			return alloc_ptr;
++		}
++	}
++
++	RTW_INFO("can't alloc section %d\n", section);
++	return NULL;
++}
++
++int wifi_get_irq_number(unsigned long *irq_flags_ptr)
++{
++	if (wifi_irqres) {
++		*irq_flags_ptr = wifi_irqres->flags & IRQF_TRIGGER_MASK;
++		return (int)wifi_irqres->start;
++	}
++#ifdef CUSTOM_OOB_GPIO_NUM
++	return CUSTOM_OOB_GPIO_NUM;
++#else
++	return -1;
++#endif
++}
++
++int wifi_set_power(int on, unsigned long msec)
++{
++	RTW_INFO("%s = %d\n", __FUNCTION__, on);
++	if (wifi_control_data && wifi_control_data->set_power)
++		wifi_control_data->set_power(on);
++	if (msec)
++		msleep(msec);
++	return 0;
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++int wifi_get_mac_addr(unsigned char *buf)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++	if (!buf)
++		return -EINVAL;
++	if (wifi_control_data && wifi_control_data->get_mac_addr)
++		return wifi_control_data->get_mac_addr(buf);
++	return -EOPNOTSUPP;
++}
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35)) */
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 39)) || defined(COMPAT_KERNEL_RELEASE)
++void *wifi_get_country_code(char *ccode)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++	if (!ccode)
++		return NULL;
++	if (wifi_control_data && wifi_control_data->get_country_code)
++		return wifi_control_data->get_country_code(ccode);
++	return NULL;
++}
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 39)) */
++
++static int wifi_set_carddetect(int on)
++{
++	RTW_INFO("%s = %d\n", __FUNCTION__, on);
++	if (wifi_control_data && wifi_control_data->set_carddetect)
++		wifi_control_data->set_carddetect(on);
++	return 0;
++}
++
++static int wifi_probe(struct platform_device *pdev)
++{
++	struct wifi_platform_data *wifi_ctrl =
++		(struct wifi_platform_data *)(pdev->dev.platform_data);
++	int wifi_wake_gpio = 0;
++
++	RTW_INFO("## %s\n", __FUNCTION__);
++	wifi_irqres = platform_get_resource_byname(pdev, IORESOURCE_IRQ, "bcmdhd_wlan_irq");
++
++	if (wifi_irqres == NULL)
++		wifi_irqres = platform_get_resource_byname(pdev,
++				IORESOURCE_IRQ, "bcm4329_wlan_irq");
++	else
++		wifi_wake_gpio = wifi_irqres->start;
++
++#ifdef CONFIG_GPIO_WAKEUP
++	printk("%s: gpio:%d wifi_wake_gpio:%d\n", __func__,
++	       wifi_irqres->start, wifi_wake_gpio);
++
++	if (wifi_wake_gpio > 0) {
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++		wifi_configure_gpio();
++#else /* CONFIG_PLATFORM_INTEL_BYT */
++		gpio_request(wifi_wake_gpio, "oob_irq");
++		gpio_direction_input(wifi_wake_gpio);
++		oob_irq = gpio_to_irq(wifi_wake_gpio);
++#endif /* CONFIG_PLATFORM_INTEL_BYT */
++		printk("%s oob_irq:%d\n", __func__, oob_irq);
++	} else if (wifi_irqres) {
++		oob_irq = wifi_irqres->start;
++		printk("%s oob_irq:%d\n", __func__, oob_irq);
++	}
++#endif
++	wifi_control_data = wifi_ctrl;
++
++	wifi_set_power(1, 0);	/* Power On */
++	wifi_set_carddetect(1);	/* CardDetect (0->1) */
++
++	up(&wifi_control_sem);
++	return 0;
++}
++
++#ifdef RTW_SUPPORT_PLATFORM_SHUTDOWN
++extern PADAPTER g_test_adapter;
++
++static void shutdown_card(void)
++{
++	u32 addr;
++	u8 tmp8, cnt = 0;
++
++	if (NULL == g_test_adapter) {
++		RTW_INFO("%s: padapter==NULL\n", __FUNCTION__);
++		return;
++	}
++
++#ifdef CONFIG_FWLPS_IN_IPS
++	LeaveAllPowerSaveMode(g_test_adapter);
++#endif /* CONFIG_FWLPS_IN_IPS */
++
++	/* Leave SDIO HCI Suspend */
++	addr = 0x10250086;
++	rtw_write8(g_test_adapter, addr, 0);
++	do {
++		tmp8 = rtw_read8(g_test_adapter, addr);
++		cnt++;
++		RTW_INFO(FUNC_ADPT_FMT ": polling SDIO_HSUS_CTRL(0x%x)=0x%x, cnt=%d\n",
++			 FUNC_ADPT_ARG(g_test_adapter), addr, tmp8, cnt);
++
++		if (tmp8 & BIT(1))
++			break;
++
++		if (cnt >= 100) {
++			RTW_INFO(FUNC_ADPT_FMT ": polling 0x%x[1]==1 FAIL!!\n",
++				 FUNC_ADPT_ARG(g_test_adapter), addr);
++			break;
++		}
++
++		rtw_mdelay_os(10);
++	} while (1);
++
++	/* unlock register I/O */
++	rtw_write8(g_test_adapter, 0x1C, 0);
++
++	/* enable power down function */
++	/* 0x04[4] = 1 */
++	/* 0x05[7] = 1 */
++	addr = 0x04;
++	tmp8 = rtw_read8(g_test_adapter, addr);
++	tmp8 |= BIT(4);
++	rtw_write8(g_test_adapter, addr, tmp8);
++	RTW_INFO(FUNC_ADPT_FMT ": read after write 0x%x=0x%x\n",
++		FUNC_ADPT_ARG(g_test_adapter), addr, rtw_read8(g_test_adapter, addr));
++
++	addr = 0x05;
++	tmp8 = rtw_read8(g_test_adapter, addr);
++	tmp8 |= BIT(7);
++	rtw_write8(g_test_adapter, addr, tmp8);
++	RTW_INFO(FUNC_ADPT_FMT ": read after write 0x%x=0x%x\n",
++		FUNC_ADPT_ARG(g_test_adapter), addr, rtw_read8(g_test_adapter, addr));
++
++	/* lock register page0 0x0~0xB read/write */
++	rtw_write8(g_test_adapter, 0x1C, 0x0E);
++
++	rtw_set_surprise_removed(g_test_adapter);
++	RTW_INFO(FUNC_ADPT_FMT ": bSurpriseRemoved=%s\n",
++		FUNC_ADPT_ARG(g_test_adapter), rtw_is_surprise_removed(g_test_adapter) ? "True" : "False");
++}
++#endif /* RTW_SUPPORT_PLATFORM_SHUTDOWN */
++
++static int wifi_remove(struct platform_device *pdev)
++{
++	struct wifi_platform_data *wifi_ctrl =
++		(struct wifi_platform_data *)(pdev->dev.platform_data);
++
++	RTW_INFO("## %s\n", __FUNCTION__);
++	wifi_control_data = wifi_ctrl;
++
++	wifi_set_power(0, 0);	/* Power Off */
++	wifi_set_carddetect(0);	/* CardDetect (1->0) */
++
++	up(&wifi_control_sem);
++	return 0;
++}
++
++#ifdef RTW_SUPPORT_PLATFORM_SHUTDOWN
++static void wifi_shutdown(struct platform_device *pdev)
++{
++	struct wifi_platform_data *wifi_ctrl =
++		(struct wifi_platform_data *)(pdev->dev.platform_data);
++
++
++	RTW_INFO("## %s\n", __FUNCTION__);
++
++	wifi_control_data = wifi_ctrl;
++
++	shutdown_card();
++	wifi_set_power(0, 0);	/* Power Off */
++	wifi_set_carddetect(0);	/* CardDetect (1->0) */
++}
++#endif /* RTW_SUPPORT_PLATFORM_SHUTDOWN */
++
++static int wifi_suspend(struct platform_device *pdev, pm_message_t state)
++{
++	RTW_INFO("##> %s\n", __FUNCTION__);
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 39)) && defined(OOB_INTR_ONLY)
++	bcmsdh_oob_intr_set(0);
++#endif
++	return 0;
++}
++
++static int wifi_resume(struct platform_device *pdev)
++{
++	RTW_INFO("##> %s\n", __FUNCTION__);
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 39)) && defined(OOB_INTR_ONLY)
++	if (dhd_os_check_if_up(bcmsdh_get_drvdata()))
++		bcmsdh_oob_intr_set(1);
++#endif
++	return 0;
++}
++
++/* temporarily use these two */
++static struct platform_driver wifi_device = {
++	.probe          = wifi_probe,
++	.remove         = wifi_remove,
++	.suspend        = wifi_suspend,
++	.resume         = wifi_resume,
++#ifdef RTW_SUPPORT_PLATFORM_SHUTDOWN
++	.shutdown       = wifi_shutdown,
++#endif /* RTW_SUPPORT_PLATFORM_SHUTDOWN */
++	.driver         = {
++		.name   = "bcmdhd_wlan",
++	}
++};
++
++static struct platform_driver wifi_device_legacy = {
++	.probe          = wifi_probe,
++	.remove         = wifi_remove,
++	.suspend        = wifi_suspend,
++	.resume         = wifi_resume,
++	.driver         = {
++		.name   = "bcm4329_wlan",
++	}
++};
++
++static int wifi_add_dev(void)
++{
++	RTW_INFO("## Calling platform_driver_register\n");
++	platform_driver_register(&wifi_device);
++	platform_driver_register(&wifi_device_legacy);
++	return 0;
++}
++
++static void wifi_del_dev(void)
++{
++	RTW_INFO("## Unregister platform_driver_register\n");
++	platform_driver_unregister(&wifi_device);
++	platform_driver_unregister(&wifi_device_legacy);
++}
++#endif /* defined(RTW_ENABLE_WIFI_CONTROL_FUNC) */
++
++#ifdef CONFIG_GPIO_WAKEUP
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++int wifi_configure_gpio(void)
++{
++	if (gpio_request(oob_gpio, "oob_irq")) {
++		RTW_INFO("## %s Cannot request GPIO\n", __FUNCTION__);
++		return -1;
++	}
++	gpio_export(oob_gpio, 0);
++	if (gpio_direction_input(oob_gpio)) {
++		RTW_INFO("## %s Cannot set GPIO direction input\n", __FUNCTION__);
++		return -1;
++	}
++	oob_irq = gpio_to_irq(oob_gpio);
++	if (oob_irq < 0) {
++		RTW_INFO("## %s Cannot convert GPIO to IRQ\n", __FUNCTION__);
++		return -1;
++	}
++
++	RTW_INFO("## %s OOB_IRQ=%d\n", __FUNCTION__, oob_irq);
++
++	return 0;
++}
++#endif /* CONFIG_PLATFORM_INTEL_BYT */
++void wifi_free_gpio(unsigned int gpio)
++{
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++	if (gpio)
++		gpio_free(gpio);
++#endif /* CONFIG_PLATFORM_INTEL_BYT */
++}
++#endif /* CONFIG_GPIO_WAKEUP */
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/rtw_cfgvendor.c b/drivers/net/wireless/rtl8723du/os_dep/linux/rtw_cfgvendor.c
+new file mode 100644
+index 0000000..32c7a5f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/rtw_cfgvendor.c
+@@ -0,0 +1,1333 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2014 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include <drv_types.h>
++
++#ifdef CONFIG_IOCTL_CFG80211
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 14, 0)) || defined(RTW_VENDOR_EXT_SUPPORT)
++
++/*
++#include <linux/kernel.h>
++#include <linux/if_arp.h>
++#include <asm/uaccess.h>
++
++#include <linux/kernel.h>
++#include <linux/kthread.h>
++#include <linux/netdevice.h>
++#include <linux/sched.h>
++#include <linux/etherdevice.h>
++#include <linux/wireless.h>
++#include <linux/ieee80211.h>
++#include <linux/wait.h>
++#include <net/cfg80211.h>
++*/
++
++#include <net/rtnetlink.h>
++
++#ifdef DBG_MEM_ALLOC
++extern bool match_mstat_sniff_rules(const enum mstat_f flags, const size_t size);
++struct sk_buff *dbg_rtw_cfg80211_vendor_event_alloc(struct wiphy *wiphy, int len, int event_id, gfp_t gfp
++		, const enum mstat_f flags, const char *func, const int line)
++{
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++	struct wireless_dev *wdev = padapter->rtw_wdev;
++
++	struct sk_buff *skb;
++	unsigned int truesize = 0;
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(4, 1, 0))
++	skb = cfg80211_vendor_event_alloc(wiphy, len, event_id, gfp);
++#else
++	skb = cfg80211_vendor_event_alloc(wiphy, wdev, len, event_id, gfp);
++#endif
++
++	if (skb)
++		truesize = skb->truesize;
++
++	if (!skb || truesize < len || match_mstat_sniff_rules(flags, truesize))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%d), skb:%p, truesize=%u\n", func, line, __FUNCTION__, len, skb, truesize);
++
++	rtw_mstat_update(
++		flags
++		, skb ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, truesize
++	);
++
++	return skb;
++}
++
++void dbg_rtw_cfg80211_vendor_event(struct sk_buff *skb, gfp_t gfp
++		   , const enum mstat_f flags, const char *func, const int line)
++{
++	unsigned int truesize = skb->truesize;
++
++	if (match_mstat_sniff_rules(flags, truesize))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s, truesize=%u\n", func, line, __FUNCTION__, truesize);
++
++	cfg80211_vendor_event(skb, gfp);
++
++	rtw_mstat_update(
++		flags
++		, MSTAT_FREE
++		, truesize
++	);
++}
++
++struct sk_buff *dbg_rtw_cfg80211_vendor_cmd_alloc_reply_skb(struct wiphy *wiphy, int len
++		, const enum mstat_f flags, const char *func, const int line)
++{
++	struct sk_buff *skb;
++	unsigned int truesize = 0;
++
++	skb = cfg80211_vendor_cmd_alloc_reply_skb(wiphy, len);
++
++	if (skb)
++		truesize = skb->truesize;
++
++	if (!skb || truesize < len || match_mstat_sniff_rules(flags, truesize))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%d), skb:%p, truesize=%u\n", func, line, __FUNCTION__, len, skb, truesize);
++
++	rtw_mstat_update(
++		flags
++		, skb ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, truesize
++	);
++
++	return skb;
++}
++
++int dbg_rtw_cfg80211_vendor_cmd_reply(struct sk_buff *skb
++	      , const enum mstat_f flags, const char *func, const int line)
++{
++	unsigned int truesize = skb->truesize;
++	int ret;
++
++	if (match_mstat_sniff_rules(flags, truesize))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s, truesize=%u\n", func, line, __FUNCTION__, truesize);
++
++	ret = cfg80211_vendor_cmd_reply(skb);
++
++	rtw_mstat_update(
++		flags
++		, MSTAT_FREE
++		, truesize
++	);
++
++	return ret;
++}
++
++#define rtw_cfg80211_vendor_event_alloc(wiphy, len, event_id, gfp) \
++	dbg_rtw_cfg80211_vendor_event_alloc(wiphy, len, event_id, gfp, MSTAT_FUNC_CFG_VENDOR | MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++
++#define rtw_cfg80211_vendor_event(skb, gfp) \
++	dbg_rtw_cfg80211_vendor_event(skb, gfp, MSTAT_FUNC_CFG_VENDOR | MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++
++#define rtw_cfg80211_vendor_cmd_alloc_reply_skb(wiphy, len) \
++	dbg_rtw_cfg80211_vendor_cmd_alloc_reply_skb(wiphy, len, MSTAT_FUNC_CFG_VENDOR | MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++
++#define rtw_cfg80211_vendor_cmd_reply(skb) \
++	dbg_rtw_cfg80211_vendor_cmd_reply(skb, MSTAT_FUNC_CFG_VENDOR | MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#else
++
++struct sk_buff *rtw_cfg80211_vendor_event_alloc(
++	struct wiphy *wiphy, int len, int event_id, gfp_t gfp)
++{
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++	struct wireless_dev *wdev = padapter->rtw_wdev;
++	struct sk_buff *skb;
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(4, 1, 0))
++	skb = cfg80211_vendor_event_alloc(wiphy, len, event_id, gfp);
++#else
++	skb = cfg80211_vendor_event_alloc(wiphy, wdev, len, event_id, gfp);
++#endif
++	return skb;
++}
++
++#define rtw_cfg80211_vendor_event(skb, gfp) \
++	cfg80211_vendor_event(skb, gfp)
++
++#define rtw_cfg80211_vendor_cmd_alloc_reply_skb(wiphy, len) \
++	cfg80211_vendor_cmd_alloc_reply_skb(wiphy, len)
++
++#define rtw_cfg80211_vendor_cmd_reply(skb) \
++	cfg80211_vendor_cmd_reply(skb)
++#endif /* DBG_MEM_ALLOC */
++
++/*
++ * This API is to be used for asynchronous vendor events. This
++ * shouldn't be used in response to a vendor command from its
++ * do_it handler context (instead rtw_cfgvendor_send_cmd_reply should
++ * be used).
++ */
++int rtw_cfgvendor_send_async_event(struct wiphy *wiphy,
++	   struct net_device *dev, int event_id, const void  *data, int len)
++{
++	u16 kflags;
++	struct sk_buff *skb;
++
++	kflags = in_atomic() ? GFP_ATOMIC : GFP_KERNEL;
++
++	/* Alloc the SKB for vendor_event */
++	skb = rtw_cfg80211_vendor_event_alloc(wiphy, len, event_id, kflags);
++	if (!skb) {
++		RTW_ERR(FUNC_NDEV_FMT" skb alloc failed", FUNC_NDEV_ARG(dev));
++		return -ENOMEM;
++	}
++
++	/* Push the data to the skb */
++	nla_put_nohdr(skb, len, data);
++
++	rtw_cfg80211_vendor_event(skb, kflags);
++
++	return 0;
++}
++
++static int rtw_cfgvendor_send_cmd_reply(struct wiphy *wiphy,
++			struct net_device *dev, const void  *data, int len)
++{
++	struct sk_buff *skb;
++
++	/* Alloc the SKB for vendor_event */
++	skb = rtw_cfg80211_vendor_cmd_alloc_reply_skb(wiphy, len);
++	if (unlikely(!skb)) {
++		RTW_ERR(FUNC_NDEV_FMT" skb alloc failed", FUNC_NDEV_ARG(dev));
++		return -ENOMEM;
++	}
++
++	/* Push the data to the skb */
++	nla_put_nohdr(skb, len, data);
++
++	return rtw_cfg80211_vendor_cmd_reply(skb);
++}
++
++#define WIFI_FEATURE_INFRA              0x0001      /* Basic infrastructure mode       */
++#define WIFI_FEATURE_INFRA_5G           0x0002      /* Support for 5 GHz Band          */
++#define WIFI_FEATURE_HOTSPOT            0x0004      /* Support for GAS/ANQP            */
++#define WIFI_FEATURE_P2P                0x0008      /* Wifi-Direct                     */
++#define WIFI_FEATURE_SOFT_AP            0x0010      /* Soft AP                         */
++#define WIFI_FEATURE_GSCAN              0x0020      /* Google-Scan APIs                */
++#define WIFI_FEATURE_NAN                0x0040      /* Neighbor Awareness Networking   */
++#define WIFI_FEATURE_D2D_RTT            0x0080      /* Device-to-device RTT            */
++#define WIFI_FEATURE_D2AP_RTT           0x0100      /* Device-to-AP RTT                */
++#define WIFI_FEATURE_BATCH_SCAN         0x0200      /* Batched Scan (legacy)           */
++#define WIFI_FEATURE_PNO                0x0400      /* Preferred network offload       */
++#define WIFI_FEATURE_ADDITIONAL_STA     0x0800      /* Support for two STAs            */
++#define WIFI_FEATURE_TDLS               0x1000      /* Tunnel directed link setup      */
++#define WIFI_FEATURE_TDLS_OFFCHANNEL    0x2000      /* Support for TDLS off channel    */
++#define WIFI_FEATURE_EPR                0x4000      /* Enhanced power reporting        */
++#define WIFI_FEATURE_AP_STA             0x8000      /* Support for AP STA Concurrency  */
++
++#define MAX_FEATURE_SET_CONCURRRENT_GROUPS  3
++
++#include <hal_data.h>
++int rtw_dev_get_feature_set(struct net_device *dev)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	HAL_DATA_TYPE *HalData = GET_HAL_DATA(adapter);
++	HAL_VERSION *hal_ver = &HalData->VersionID;
++
++	int feature_set = 0;
++
++	feature_set |= WIFI_FEATURE_INFRA;
++
++	if (IS_8814A_SERIES(*hal_ver) || IS_8812_SERIES(*hal_ver) ||
++	    IS_8821_SERIES(*hal_ver))
++		feature_set |= WIFI_FEATURE_INFRA_5G;
++
++	feature_set |= WIFI_FEATURE_P2P;
++	feature_set |= WIFI_FEATURE_SOFT_AP;
++
++	feature_set |= WIFI_FEATURE_ADDITIONAL_STA;
++
++	return feature_set;
++}
++
++int *rtw_dev_get_feature_set_matrix(struct net_device *dev, int *num)
++{
++	int feature_set_full, mem_needed;
++	int *ret;
++
++	*num = 0;
++	mem_needed = sizeof(int) * MAX_FEATURE_SET_CONCURRRENT_GROUPS;
++	ret = (int *)rtw_malloc(mem_needed);
++
++	if (!ret) {
++		RTW_ERR(FUNC_NDEV_FMT" failed to allocate %d bytes\n"
++			, FUNC_NDEV_ARG(dev), mem_needed);
++		return ret;
++	}
++
++	feature_set_full = rtw_dev_get_feature_set(dev);
++
++	ret[0] = (feature_set_full & WIFI_FEATURE_INFRA) |
++		 (feature_set_full & WIFI_FEATURE_INFRA_5G) |
++		 (feature_set_full & WIFI_FEATURE_NAN) |
++		 (feature_set_full & WIFI_FEATURE_D2D_RTT) |
++		 (feature_set_full & WIFI_FEATURE_D2AP_RTT) |
++		 (feature_set_full & WIFI_FEATURE_PNO) |
++		 (feature_set_full & WIFI_FEATURE_BATCH_SCAN) |
++		 (feature_set_full & WIFI_FEATURE_GSCAN) |
++		 (feature_set_full & WIFI_FEATURE_HOTSPOT) |
++		 (feature_set_full & WIFI_FEATURE_ADDITIONAL_STA) |
++		 (feature_set_full & WIFI_FEATURE_EPR);
++
++	ret[1] = (feature_set_full & WIFI_FEATURE_INFRA) |
++		 (feature_set_full & WIFI_FEATURE_INFRA_5G) |
++		 /* Not yet verified NAN with P2P */
++		 /* (feature_set_full & WIFI_FEATURE_NAN) | */
++		 (feature_set_full & WIFI_FEATURE_P2P) |
++		 (feature_set_full & WIFI_FEATURE_D2AP_RTT) |
++		 (feature_set_full & WIFI_FEATURE_D2D_RTT) |
++		 (feature_set_full & WIFI_FEATURE_EPR);
++
++	ret[2] = (feature_set_full & WIFI_FEATURE_INFRA) |
++		 (feature_set_full & WIFI_FEATURE_INFRA_5G) |
++		 (feature_set_full & WIFI_FEATURE_NAN) |
++		 (feature_set_full & WIFI_FEATURE_D2D_RTT) |
++		 (feature_set_full & WIFI_FEATURE_D2AP_RTT) |
++		 (feature_set_full & WIFI_FEATURE_TDLS) |
++		 (feature_set_full & WIFI_FEATURE_TDLS_OFFCHANNEL) |
++		 (feature_set_full & WIFI_FEATURE_EPR);
++	*num = MAX_FEATURE_SET_CONCURRRENT_GROUPS;
++
++	return ret;
++}
++
++static int rtw_cfgvendor_get_feature_set(struct wiphy *wiphy,
++		struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	int reply;
++
++	reply = rtw_dev_get_feature_set(wdev_to_ndev(wdev));
++
++	err =  rtw_cfgvendor_send_cmd_reply(wiphy, wdev_to_ndev(wdev), &reply, sizeof(int));
++
++	if (unlikely(err))
++		RTW_ERR(FUNC_NDEV_FMT" Vendor Command reply failed ret:%d\n"
++			, FUNC_NDEV_ARG(wdev_to_ndev(wdev)), err);
++
++	return err;
++}
++
++static int rtw_cfgvendor_get_feature_set_matrix(struct wiphy *wiphy,
++		struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	struct sk_buff *skb;
++	int *reply;
++	int num, mem_needed, i;
++
++	reply = rtw_dev_get_feature_set_matrix(wdev_to_ndev(wdev), &num);
++
++	if (!reply) {
++		RTW_ERR(FUNC_NDEV_FMT" Could not get feature list matrix\n"
++			, FUNC_NDEV_ARG(wdev_to_ndev(wdev)));
++		err = -EINVAL;
++		return err;
++	}
++
++	mem_needed = VENDOR_REPLY_OVERHEAD + (ATTRIBUTE_U32_LEN * num) +
++		     ATTRIBUTE_U32_LEN;
++
++	/* Alloc the SKB for vendor_event */
++	skb = rtw_cfg80211_vendor_cmd_alloc_reply_skb(wiphy, mem_needed);
++	if (unlikely(!skb)) {
++		RTW_ERR(FUNC_NDEV_FMT" skb alloc failed", FUNC_NDEV_ARG(wdev_to_ndev(wdev)));
++		err = -ENOMEM;
++		goto exit;
++	}
++
++	nla_put_u32(skb, ANDR_WIFI_ATTRIBUTE_NUM_FEATURE_SET, num);
++	for (i = 0; i < num; i++)
++		nla_put_u32(skb, ANDR_WIFI_ATTRIBUTE_FEATURE_SET, reply[i]);
++
++	err =  rtw_cfg80211_vendor_cmd_reply(skb);
++
++	if (unlikely(err))
++		RTW_ERR(FUNC_NDEV_FMT" Vendor Command reply failed ret:%d\n"
++			, FUNC_NDEV_ARG(wdev_to_ndev(wdev)), err);
++exit:
++	rtw_mfree((u8 *)reply, sizeof(int) * num);
++	return err;
++}
++
++#if defined(GSCAN_SUPPORT) && 0
++int wl_cfgvendor_send_hotlist_event(struct wiphy *wiphy,
++	struct net_device *dev, void  *data, int len, wl_vendor_event_t event)
++{
++	u16 kflags;
++	const void *ptr;
++	struct sk_buff *skb;
++	int malloc_len, total, iter_cnt_to_send, cnt;
++	gscan_results_cache_t *cache = (gscan_results_cache_t *)data;
++
++	total = len / sizeof(wifi_gscan_result_t);
++	while (total > 0) {
++		malloc_len = (total * sizeof(wifi_gscan_result_t)) + VENDOR_DATA_OVERHEAD;
++		if (malloc_len > NLMSG_DEFAULT_SIZE)
++			malloc_len = NLMSG_DEFAULT_SIZE;
++		iter_cnt_to_send =
++			(malloc_len - VENDOR_DATA_OVERHEAD) / sizeof(wifi_gscan_result_t);
++		total = total - iter_cnt_to_send;
++
++		kflags = in_atomic() ? GFP_ATOMIC : GFP_KERNEL;
++
++		/* Alloc the SKB for vendor_event */
++		skb = rtw_cfg80211_vendor_event_alloc(wiphy, malloc_len, event, kflags);
++		if (!skb) {
++			WL_ERR(("skb alloc failed"));
++			return -ENOMEM;
++		}
++
++		while (cache && iter_cnt_to_send) {
++			ptr = (const void *) &cache->results[cache->tot_consumed];
++
++			if (iter_cnt_to_send < (cache->tot_count - cache->tot_consumed))
++				cnt = iter_cnt_to_send;
++			else
++				cnt = (cache->tot_count - cache->tot_consumed);
++
++			iter_cnt_to_send -= cnt;
++			cache->tot_consumed += cnt;
++			/* Push the data to the skb */
++			nla_append(skb, cnt * sizeof(wifi_gscan_result_t), ptr);
++			if (cache->tot_consumed == cache->tot_count)
++				cache = cache->next;
++
++		}
++
++		rtw_cfg80211_vendor_event(skb, kflags);
++	}
++
++	return 0;
++}
++
++
++static int wl_cfgvendor_gscan_get_capabilities(struct wiphy *wiphy,
++		struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	dhd_pno_gscan_capabilities_t *reply = NULL;
++	uint32 reply_len = 0;
++
++
++	reply = dhd_dev_pno_get_gscan(bcmcfg_to_prmry_ndev(cfg),
++			      DHD_PNO_GET_CAPABILITIES, NULL, &reply_len);
++	if (!reply) {
++		WL_ERR(("Could not get capabilities\n"));
++		err = -EINVAL;
++		return err;
++	}
++
++	err =  rtw_cfgvendor_send_cmd_reply(wiphy, bcmcfg_to_prmry_ndev(cfg),
++					    reply, reply_len);
++
++	if (unlikely(err))
++		WL_ERR(("Vendor Command reply failed ret:%d\n", err));
++
++	kfree(reply);
++	return err;
++}
++
++static int wl_cfgvendor_gscan_get_channel_list(struct wiphy *wiphy,
++		struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0, type, band;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	uint16 *reply = NULL;
++	uint32 reply_len = 0, num_channels, mem_needed;
++	struct sk_buff *skb;
++
++	type = nla_type(data);
++
++	if (type == GSCAN_ATTRIBUTE_BAND)
++		band = nla_get_u32(data);
++	else
++		return -1;
++
++	reply = dhd_dev_pno_get_gscan(bcmcfg_to_prmry_ndev(cfg),
++			      DHD_PNO_GET_CHANNEL_LIST, &band, &reply_len);
++
++	if (!reply) {
++		WL_ERR(("Could not get channel list\n"));
++		err = -EINVAL;
++		return err;
++	}
++	num_channels =  reply_len / sizeof(uint32);
++	mem_needed = reply_len + VENDOR_REPLY_OVERHEAD + (ATTRIBUTE_U32_LEN * 2);
++
++	/* Alloc the SKB for vendor_event */
++	skb = rtw_cfg80211_vendor_cmd_alloc_reply_skb(wiphy, mem_needed);
++	if (unlikely(!skb)) {
++		WL_ERR(("skb alloc failed"));
++		err = -ENOMEM;
++		goto exit;
++	}
++
++	nla_put_u32(skb, GSCAN_ATTRIBUTE_NUM_CHANNELS, num_channels);
++	nla_put(skb, GSCAN_ATTRIBUTE_CHANNEL_LIST, reply_len, reply);
++
++	err =  rtw_cfg80211_vendor_cmd_reply(skb);
++
++	if (unlikely(err))
++		WL_ERR(("Vendor Command reply failed ret:%d\n", err));
++exit:
++	kfree(reply);
++	return err;
++}
++
++static int wl_cfgvendor_gscan_get_batch_results(struct wiphy *wiphy,
++		struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	gscan_results_cache_t *results, *iter;
++	uint32 reply_len, complete = 0, num_results_iter;
++	int32 mem_needed;
++	wifi_gscan_result_t *ptr;
++	uint16 num_scan_ids, num_results;
++	struct sk_buff *skb;
++	struct nlattr *scan_hdr;
++
++	dhd_dev_wait_batch_results_complete(bcmcfg_to_prmry_ndev(cfg));
++	dhd_dev_pno_lock_access_batch_results(bcmcfg_to_prmry_ndev(cfg));
++	results = dhd_dev_pno_get_gscan(bcmcfg_to_prmry_ndev(cfg),
++				DHD_PNO_GET_BATCH_RESULTS, NULL, &reply_len);
++
++	if (!results) {
++		WL_ERR(("No results to send %d\n", err));
++		err =  rtw_cfgvendor_send_cmd_reply(wiphy, bcmcfg_to_prmry_ndev(cfg),
++						    results, 0);
++
++		if (unlikely(err))
++			WL_ERR(("Vendor Command reply failed ret:%d\n", err));
++		dhd_dev_pno_unlock_access_batch_results(bcmcfg_to_prmry_ndev(cfg));
++		return err;
++	}
++	num_scan_ids = reply_len & 0xFFFF;
++	num_results = (reply_len & 0xFFFF0000) >> 16;
++	mem_needed = (num_results * sizeof(wifi_gscan_result_t)) +
++		     (num_scan_ids * GSCAN_BATCH_RESULT_HDR_LEN) +
++		     VENDOR_REPLY_OVERHEAD + SCAN_RESULTS_COMPLETE_FLAG_LEN;
++
++	if (mem_needed > (int32)NLMSG_DEFAULT_SIZE) {
++		mem_needed = (int32)NLMSG_DEFAULT_SIZE;
++		complete = 0;
++	} else
++		complete = 1;
++
++	WL_TRACE(("complete %d mem_needed %d max_mem %d\n", complete, mem_needed,
++		  (int)NLMSG_DEFAULT_SIZE));
++	/* Alloc the SKB for vendor_event */
++	skb = rtw_cfg80211_vendor_cmd_alloc_reply_skb(wiphy, mem_needed);
++	if (unlikely(!skb)) {
++		WL_ERR(("skb alloc failed"));
++		dhd_dev_pno_unlock_access_batch_results(bcmcfg_to_prmry_ndev(cfg));
++		return -ENOMEM;
++	}
++	iter = results;
++
++	nla_put_u32(skb, GSCAN_ATTRIBUTE_SCAN_RESULTS_COMPLETE, complete);
++
++	mem_needed = mem_needed - (SCAN_RESULTS_COMPLETE_FLAG_LEN + VENDOR_REPLY_OVERHEAD);
++
++	while (iter && ((mem_needed - GSCAN_BATCH_RESULT_HDR_LEN)  > 0)) {
++		scan_hdr = nla_nest_start(skb, GSCAN_ATTRIBUTE_SCAN_RESULTS);
++		nla_put_u32(skb, GSCAN_ATTRIBUTE_SCAN_ID, iter->scan_id);
++		nla_put_u8(skb, GSCAN_ATTRIBUTE_SCAN_FLAGS, iter->flag);
++		num_results_iter =
++			(mem_needed - GSCAN_BATCH_RESULT_HDR_LEN) / sizeof(wifi_gscan_result_t);
++
++		if ((iter->tot_count - iter->tot_consumed) < num_results_iter)
++			num_results_iter = iter->tot_count - iter->tot_consumed;
++
++		nla_put_u32(skb, GSCAN_ATTRIBUTE_NUM_OF_RESULTS, num_results_iter);
++		if (num_results_iter) {
++			ptr = &iter->results[iter->tot_consumed];
++			iter->tot_consumed += num_results_iter;
++			nla_put(skb, GSCAN_ATTRIBUTE_SCAN_RESULTS,
++				num_results_iter * sizeof(wifi_gscan_result_t), ptr);
++		}
++		nla_nest_end(skb, scan_hdr);
++		mem_needed -= GSCAN_BATCH_RESULT_HDR_LEN +
++			      (num_results_iter * sizeof(wifi_gscan_result_t));
++		iter = iter->next;
++	}
++
++	dhd_dev_gscan_batch_cache_cleanup(bcmcfg_to_prmry_ndev(cfg));
++	dhd_dev_pno_unlock_access_batch_results(bcmcfg_to_prmry_ndev(cfg));
++
++	return rtw_cfg80211_vendor_cmd_reply(skb);
++}
++
++static int wl_cfgvendor_initiate_gscan(struct wiphy *wiphy,
++		       struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	int type, tmp = len;
++	int run = 0xFF;
++	int flush = 0;
++	const struct nlattr *iter;
++
++	nla_for_each_attr(iter, data, len, tmp) {
++		type = nla_type(iter);
++		if (type == GSCAN_ATTRIBUTE_ENABLE_FEATURE)
++			run = nla_get_u32(iter);
++		else if (type == GSCAN_ATTRIBUTE_FLUSH_FEATURE)
++			flush = nla_get_u32(iter);
++	}
++
++	if (run != 0xFF) {
++		err = dhd_dev_pno_run_gscan(bcmcfg_to_prmry_ndev(cfg), run, flush);
++
++		if (unlikely(err))
++			WL_ERR(("Could not run gscan:%d\n", err));
++		return err;
++	} else
++		return -1;
++
++
++}
++
++static int wl_cfgvendor_enable_full_scan_result(struct wiphy *wiphy,
++		struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	int type;
++	bool real_time = FALSE;
++
++	type = nla_type(data);
++
++	if (type == GSCAN_ATTRIBUTE_ENABLE_FULL_SCAN_RESULTS) {
++		real_time = nla_get_u32(data);
++
++		err = dhd_dev_pno_enable_full_scan_result(bcmcfg_to_prmry_ndev(cfg), real_time);
++
++		if (unlikely(err))
++			WL_ERR(("Could not run gscan:%d\n", err));
++
++	} else
++		err = -1;
++
++	return err;
++}
++
++static int wl_cfgvendor_set_scan_cfg(struct wiphy *wiphy,
++		     struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	gscan_scan_params_t *scan_param;
++	int j = 0;
++	int type, tmp, tmp1, tmp2, k = 0;
++	const struct nlattr *iter, *iter1, *iter2;
++	struct dhd_pno_gscan_channel_bucket  *ch_bucket;
++
++	scan_param = kzalloc(sizeof(gscan_scan_params_t), GFP_KERNEL);
++	if (!scan_param) {
++		WL_ERR(("Could not set GSCAN scan cfg, mem alloc failure\n"));
++		err = -EINVAL;
++		return err;
++
++	}
++
++	scan_param->scan_fr = PNO_SCAN_MIN_FW_SEC;
++	nla_for_each_attr(iter, data, len, tmp) {
++		type = nla_type(iter);
++
++		if (j >= GSCAN_MAX_CH_BUCKETS)
++			break;
++
++		switch (type) {
++		case GSCAN_ATTRIBUTE_BASE_PERIOD:
++			scan_param->scan_fr = nla_get_u32(iter) / 1000;
++			break;
++		case GSCAN_ATTRIBUTE_NUM_BUCKETS:
++			scan_param->nchannel_buckets = nla_get_u32(iter);
++			break;
++		case GSCAN_ATTRIBUTE_CH_BUCKET_1:
++		case GSCAN_ATTRIBUTE_CH_BUCKET_2:
++		case GSCAN_ATTRIBUTE_CH_BUCKET_3:
++		case GSCAN_ATTRIBUTE_CH_BUCKET_4:
++		case GSCAN_ATTRIBUTE_CH_BUCKET_5:
++		case GSCAN_ATTRIBUTE_CH_BUCKET_6:
++		case GSCAN_ATTRIBUTE_CH_BUCKET_7:
++			nla_for_each_nested(iter1, iter, tmp1) {
++				type = nla_type(iter1);
++				ch_bucket =
++					scan_param->channel_bucket;
++
++				switch (type) {
++				case GSCAN_ATTRIBUTE_BUCKET_ID:
++					break;
++				case GSCAN_ATTRIBUTE_BUCKET_PERIOD:
++					ch_bucket[j].bucket_freq_multiple =
++						nla_get_u32(iter1) / 1000;
++					break;
++				case GSCAN_ATTRIBUTE_BUCKET_NUM_CHANNELS:
++					ch_bucket[j].num_channels =
++						nla_get_u32(iter1);
++					break;
++				case GSCAN_ATTRIBUTE_BUCKET_CHANNELS:
++					nla_for_each_nested(iter2, iter1, tmp2) {
++						if (k >= PFN_SWC_RSSI_WINDOW_MAX)
++							break;
++						ch_bucket[j].chan_list[k] =
++							nla_get_u32(iter2);
++						k++;
++					}
++					k = 0;
++					break;
++				case GSCAN_ATTRIBUTE_BUCKETS_BAND:
++					ch_bucket[j].band = (uint16)
++							    nla_get_u32(iter1);
++					break;
++				case GSCAN_ATTRIBUTE_REPORT_EVENTS:
++					ch_bucket[j].report_flag = (uint8)
++							   nla_get_u32(iter1);
++					break;
++				}
++			}
++			j++;
++			break;
++		}
++	}
++
++	if (dhd_dev_pno_set_cfg_gscan(bcmcfg_to_prmry_ndev(cfg),
++				      DHD_PNO_SCAN_CFG_ID, scan_param, 0) < 0) {
++		WL_ERR(("Could not set GSCAN scan cfg\n"));
++		err = -EINVAL;
++	}
++
++	kfree(scan_param);
++	return err;
++
++}
++
++static int wl_cfgvendor_hotlist_cfg(struct wiphy *wiphy,
++		    struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	gscan_hotlist_scan_params_t *hotlist_params;
++	int tmp, tmp1, tmp2, type, j = 0, dummy;
++	const struct nlattr *outer, *inner, *iter;
++	uint8 flush = 0;
++	struct bssid_t *pbssid;
++
++	hotlist_params = (gscan_hotlist_scan_params_t *)kzalloc(len, GFP_KERNEL);
++	if (!hotlist_params) {
++		WL_ERR(("Cannot Malloc mem to parse config commands size - %d bytes\n", len));
++		return -1;
++	}
++
++	hotlist_params->lost_ap_window = GSCAN_LOST_AP_WINDOW_DEFAULT;
++
++	nla_for_each_attr(iter, data, len, tmp2) {
++		type = nla_type(iter);
++		switch (type) {
++		case GSCAN_ATTRIBUTE_HOTLIST_BSSIDS:
++			pbssid = hotlist_params->bssid;
++			nla_for_each_nested(outer, iter, tmp) {
++				nla_for_each_nested(inner, outer, tmp1) {
++					type = nla_type(inner);
++
++					switch (type) {
++					case GSCAN_ATTRIBUTE_BSSID:
++						memcpy(&(pbssid[j].macaddr),
++						       nla_data(inner), ETHER_ADDR_LEN);
++						break;
++					case GSCAN_ATTRIBUTE_RSSI_LOW:
++						pbssid[j].rssi_reporting_threshold =
++							(int8) nla_get_u8(inner);
++						break;
++					case GSCAN_ATTRIBUTE_RSSI_HIGH:
++						dummy = (int8) nla_get_u8(inner);
++						break;
++					}
++				}
++				j++;
++			}
++			hotlist_params->nbssid = j;
++			break;
++		case GSCAN_ATTRIBUTE_HOTLIST_FLUSH:
++			flush = nla_get_u8(iter);
++			break;
++		case GSCAN_ATTRIBUTE_LOST_AP_SAMPLE_SIZE:
++			hotlist_params->lost_ap_window = nla_get_u32(iter);
++			break;
++		}
++
++	}
++
++	if (dhd_dev_pno_set_cfg_gscan(bcmcfg_to_prmry_ndev(cfg),
++		DHD_PNO_GEOFENCE_SCAN_CFG_ID, hotlist_params, flush) < 0) {
++		WL_ERR(("Could not set GSCAN HOTLIST cfg\n"));
++		err = -EINVAL;
++		goto exit;
++	}
++exit:
++	kfree(hotlist_params);
++	return err;
++}
++static int wl_cfgvendor_set_batch_scan_cfg(struct wiphy *wiphy,
++		struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0, tmp, type;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	gscan_batch_params_t batch_param;
++	const struct nlattr *iter;
++
++	batch_param.mscan = batch_param.bestn = 0;
++	batch_param.buffer_threshold = GSCAN_BATCH_NO_THR_SET;
++
++	nla_for_each_attr(iter, data, len, tmp) {
++		type = nla_type(iter);
++
++		switch (type) {
++		case GSCAN_ATTRIBUTE_NUM_AP_PER_SCAN:
++			batch_param.bestn = nla_get_u32(iter);
++			break;
++		case GSCAN_ATTRIBUTE_NUM_SCANS_TO_CACHE:
++			batch_param.mscan = nla_get_u32(iter);
++			break;
++		case GSCAN_ATTRIBUTE_REPORT_THRESHOLD:
++			batch_param.buffer_threshold = nla_get_u32(iter);
++			break;
++		}
++	}
++
++	if (dhd_dev_pno_set_cfg_gscan(bcmcfg_to_prmry_ndev(cfg),
++			      DHD_PNO_BATCH_SCAN_CFG_ID, &batch_param, 0) < 0) {
++		WL_ERR(("Could not set batch cfg\n"));
++		err = -EINVAL;
++		return err;
++	}
++
++	return err;
++}
++
++static int wl_cfgvendor_significant_change_cfg(struct wiphy *wiphy,
++		struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	gscan_swc_params_t *significant_params;
++	int tmp, tmp1, tmp2, type, j = 0;
++	const struct nlattr *outer, *inner, *iter;
++	uint8 flush = 0;
++	wl_pfn_significant_bssid_t *pbssid;
++
++	significant_params = (gscan_swc_params_t *) kzalloc(len, GFP_KERNEL);
++	if (!significant_params) {
++		WL_ERR(("Cannot Malloc mem to parse config commands size - %d bytes\n", len));
++		return -1;
++	}
++
++
++	nla_for_each_attr(iter, data, len, tmp2) {
++		type = nla_type(iter);
++
++		switch (type) {
++		case GSCAN_ATTRIBUTE_SIGNIFICANT_CHANGE_FLUSH:
++			flush = nla_get_u8(iter);
++			break;
++		case GSCAN_ATTRIBUTE_RSSI_SAMPLE_SIZE:
++			significant_params->rssi_window = nla_get_u16(iter);
++			break;
++		case GSCAN_ATTRIBUTE_LOST_AP_SAMPLE_SIZE:
++			significant_params->lost_ap_window = nla_get_u16(iter);
++			break;
++		case GSCAN_ATTRIBUTE_MIN_BREACHING:
++			significant_params->swc_threshold = nla_get_u16(iter);
++			break;
++		case GSCAN_ATTRIBUTE_SIGNIFICANT_CHANGE_BSSIDS:
++			pbssid = significant_params->bssid_elem_list;
++			nla_for_each_nested(outer, iter, tmp) {
++				nla_for_each_nested(inner, outer, tmp1) {
++					switch (nla_type(inner)) {
++					case GSCAN_ATTRIBUTE_BSSID:
++						memcpy(&(pbssid[j].macaddr),
++						       nla_data(inner),
++						       ETHER_ADDR_LEN);
++						break;
++					case GSCAN_ATTRIBUTE_RSSI_HIGH:
++						pbssid[j].rssi_high_threshold =
++							(int8) nla_get_u8(inner);
++						break;
++					case GSCAN_ATTRIBUTE_RSSI_LOW:
++						pbssid[j].rssi_low_threshold =
++							(int8) nla_get_u8(inner);
++						break;
++					}
++				}
++				j++;
++			}
++			break;
++		}
++	}
++	significant_params->nbssid = j;
++
++	if (dhd_dev_pno_set_cfg_gscan(bcmcfg_to_prmry_ndev(cfg),
++		DHD_PNO_SIGNIFICANT_SCAN_CFG_ID, significant_params, flush) < 0) {
++		WL_ERR(("Could not set GSCAN significant cfg\n"));
++		err = -EINVAL;
++		goto exit;
++	}
++exit:
++	kfree(significant_params);
++	return err;
++}
++#endif /* GSCAN_SUPPORT */
++
++#if defined(RTT_SUPPORT) && 0
++void wl_cfgvendor_rtt_evt(void *ctx, void *rtt_data)
++{
++	struct wireless_dev *wdev = (struct wireless_dev *)ctx;
++	struct wiphy *wiphy;
++	struct sk_buff *skb;
++	uint32 tot_len = NLMSG_DEFAULT_SIZE, entry_len = 0;
++	gfp_t kflags;
++	rtt_report_t *rtt_report = NULL;
++	rtt_result_t *rtt_result = NULL;
++	struct list_head *rtt_list;
++	wiphy = wdev->wiphy;
++
++	WL_DBG(("In\n"));
++	/* Push the data to the skb */
++	if (!rtt_data) {
++		WL_ERR(("rtt_data is NULL\n"));
++		goto exit;
++	}
++	rtt_list = (struct list_head *)rtt_data;
++	kflags = in_atomic() ? GFP_ATOMIC : GFP_KERNEL;
++	/* Alloc the SKB for vendor_event */
++	skb = rtw_cfg80211_vendor_event_alloc(wiphy, tot_len, GOOGLE_RTT_COMPLETE_EVENT, kflags);
++	if (!skb) {
++		WL_ERR(("skb alloc failed"));
++		goto exit;
++	}
++	/* fill in the rtt results on each entry */
++	list_for_each_entry(rtt_result, rtt_list, list) {
++		entry_len = 0;
++		if (rtt_result->TOF_type == TOF_TYPE_ONE_WAY) {
++			entry_len = sizeof(rtt_report_t);
++			rtt_report = kzalloc(entry_len, kflags);
++			if (!rtt_report) {
++				WL_ERR(("rtt_report alloc failed"));
++				goto exit;
++			}
++			rtt_report->addr = rtt_result->peer_mac;
++			rtt_report->num_measurement = 1; /* ONE SHOT */
++			rtt_report->status = rtt_result->err_code;
++			rtt_report->type = (rtt_result->TOF_type == TOF_TYPE_ONE_WAY) ? RTT_ONE_WAY : RTT_TWO_WAY;
++			rtt_report->peer = rtt_result->target_info->peer;
++			rtt_report->channel = rtt_result->target_info->channel;
++			rtt_report->rssi = rtt_result->avg_rssi;
++			/* tx_rate */
++			rtt_report->tx_rate = rtt_result->tx_rate;
++			/* RTT */
++			rtt_report->rtt = rtt_result->meanrtt;
++			rtt_report->rtt_sd = rtt_result->sdrtt;
++			/* convert to centi meter */
++			if (rtt_result->distance != 0xffffffff)
++				rtt_report->distance = (rtt_result->distance >> 2) * 25;
++			else /* invalid distance */
++				rtt_report->distance = -1;
++
++			rtt_report->ts = rtt_result->ts;
++			nla_append(skb, entry_len, rtt_report);
++			kfree(rtt_report);
++		}
++	}
++	rtw_cfg80211_vendor_event(skb, kflags);
++exit:
++	return;
++}
++
++static int wl_cfgvendor_rtt_set_config(struct wiphy *wiphy, struct wireless_dev *wdev,
++				       const void *data, int len)
++{
++	int err = 0, rem, rem1, rem2, type;
++	rtt_config_params_t rtt_param;
++	rtt_target_info_t *rtt_target = NULL;
++	const struct nlattr *iter, *iter1, *iter2;
++	int8 eabuf[ETHER_ADDR_STR_LEN];
++	int8 chanbuf[CHANSPEC_STR_LEN];
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++
++	WL_DBG(("In\n"));
++	err = dhd_dev_rtt_register_noti_callback(wdev->netdev, wdev, wl_cfgvendor_rtt_evt);
++	if (err < 0) {
++		WL_ERR(("failed to register rtt_noti_callback\n"));
++		goto exit;
++	}
++	memset(&rtt_param, 0, sizeof(rtt_param));
++	nla_for_each_attr(iter, data, len, rem) {
++		type = nla_type(iter);
++		switch (type) {
++		case RTT_ATTRIBUTE_TARGET_CNT:
++			rtt_param.rtt_target_cnt = nla_get_u8(iter);
++			if (rtt_param.rtt_target_cnt > RTT_MAX_TARGET_CNT) {
++				WL_ERR(("exceed max target count : %d\n",
++					rtt_param.rtt_target_cnt));
++				err = BCME_RANGE;
++			}
++			break;
++		case RTT_ATTRIBUTE_TARGET_INFO:
++			rtt_target = rtt_param.target_info;
++			nla_for_each_nested(iter1, iter, rem1) {
++				nla_for_each_nested(iter2, iter1, rem2) {
++					type = nla_type(iter2);
++					switch (type) {
++					case RTT_ATTRIBUTE_TARGET_MAC:
++						memcpy(&rtt_target->addr, nla_data(iter2), ETHER_ADDR_LEN);
++						break;
++					case RTT_ATTRIBUTE_TARGET_TYPE:
++						rtt_target->type = nla_get_u8(iter2);
++						break;
++					case RTT_ATTRIBUTE_TARGET_PEER:
++						rtt_target->peer = nla_get_u8(iter2);
++						break;
++					case RTT_ATTRIBUTE_TARGET_CHAN:
++						memcpy(&rtt_target->channel, nla_data(iter2),
++						       sizeof(rtt_target->channel));
++						break;
++					case RTT_ATTRIBUTE_TARGET_MODE:
++						rtt_target->continuous = nla_get_u8(iter2);
++						break;
++					case RTT_ATTRIBUTE_TARGET_INTERVAL:
++						rtt_target->interval = nla_get_u32(iter2);
++						break;
++					case RTT_ATTRIBUTE_TARGET_NUM_MEASUREMENT:
++						rtt_target->measure_cnt = nla_get_u32(iter2);
++						break;
++					case RTT_ATTRIBUTE_TARGET_NUM_PKT:
++						rtt_target->ftm_cnt = nla_get_u32(iter2);
++						break;
++					case RTT_ATTRIBUTE_TARGET_NUM_RETRY:
++						rtt_target->retry_cnt = nla_get_u32(iter2);
++					}
++				}
++				/* convert to chanspec value */
++				rtt_target->chanspec = dhd_rtt_convert_to_chspec(rtt_target->channel);
++				if (rtt_target->chanspec == 0) {
++					WL_ERR(("Channel is not valid\n"));
++					goto exit;
++				}
++				WL_INFORM(("Target addr %s, Channel : %s for RTT\n",
++					bcm_ether_ntoa((const struct ether_addr *)&rtt_target->addr, eabuf),
++					wf_chspec_ntoa(rtt_target->chanspec, chanbuf)));
++				rtt_target++;
++			}
++			break;
++		}
++	}
++	WL_DBG(("leave :target_cnt : %d\n", rtt_param.rtt_target_cnt));
++	if (dhd_dev_rtt_set_cfg(bcmcfg_to_prmry_ndev(cfg), &rtt_param) < 0) {
++		WL_ERR(("Could not set RTT configuration\n"));
++		err = -EINVAL;
++	}
++exit:
++	return err;
++}
++
++static int wl_cfgvendor_rtt_cancel_config(struct wiphy *wiphy, struct wireless_dev *wdev,
++		const void *data, int len)
++{
++	int err = 0, rem, type, target_cnt = 0;
++	const struct nlattr *iter;
++	struct ether_addr *mac_list = NULL, *mac_addr = NULL;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++
++	nla_for_each_attr(iter, data, len, rem) {
++		type = nla_type(iter);
++		switch (type) {
++		case RTT_ATTRIBUTE_TARGET_CNT:
++			target_cnt = nla_get_u8(iter);
++			mac_list = (struct ether_addr *)kzalloc(target_cnt * ETHER_ADDR_LEN , GFP_KERNEL);
++			if (mac_list == NULL) {
++				WL_ERR(("failed to allocate mem for mac list\n"));
++				goto exit;
++			}
++			mac_addr = &mac_list[0];
++			break;
++		case RTT_ATTRIBUTE_TARGET_MAC:
++			if (mac_addr)
++				memcpy(mac_addr++, nla_data(iter), ETHER_ADDR_LEN);
++			else {
++				WL_ERR(("mac_list is NULL\n"));
++				goto exit;
++			}
++			break;
++		}
++		if (dhd_dev_rtt_cancel_cfg(bcmcfg_to_prmry_ndev(cfg), mac_list, target_cnt) < 0) {
++			WL_ERR(("Could not cancel RTT configuration\n"));
++			err = -EINVAL;
++			goto exit;
++		}
++	}
++exit:
++	if (mac_list)
++		kfree(mac_list);
++	return err;
++}
++static int wl_cfgvendor_rtt_get_capability(struct wiphy *wiphy, struct wireless_dev *wdev,
++		const void *data, int len)
++{
++	int err = 0;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	rtt_capabilities_t capability;
++
++	err = dhd_dev_rtt_capability(bcmcfg_to_prmry_ndev(cfg), &capability);
++	if (unlikely(err)) {
++		WL_ERR(("Vendor Command reply failed ret:%d\n", err));
++		goto exit;
++	}
++	err =  rtw_cfgvendor_send_cmd_reply(wiphy, bcmcfg_to_prmry_ndev(cfg),
++					    &capability, sizeof(capability));
++
++	if (unlikely(err))
++		WL_ERR(("Vendor Command reply failed ret:%d\n", err));
++exit:
++	return err;
++}
++
++#endif /* RTT_SUPPORT */
++static int wl_cfgvendor_priv_string_handler(struct wiphy *wiphy,
++		struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	u8 resp[1] = {'\0'};
++
++	RTW_PRINT(FUNC_NDEV_FMT" %s\n", FUNC_NDEV_ARG(wdev_to_ndev(wdev)), (char *)data);
++	err =  rtw_cfgvendor_send_cmd_reply(wiphy, wdev_to_ndev(wdev), resp, 1);
++	if (unlikely(err))
++		RTW_ERR(FUNC_NDEV_FMT"Vendor Command reply failed ret:%d\n"
++			, FUNC_NDEV_ARG(wdev_to_ndev(wdev)), err);
++
++	return err;
++#if 0
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	int err = 0;
++	int data_len = 0;
++
++	bzero(cfg->ioctl_buf, WLC_IOCTL_MAXLEN);
++
++	if (strncmp((char *)data, BRCM_VENDOR_SCMD_CAPA, strlen(BRCM_VENDOR_SCMD_CAPA)) == 0) {
++		err = wldev_iovar_getbuf(bcmcfg_to_prmry_ndev(cfg), "cap", NULL, 0,
++			cfg->ioctl_buf, WLC_IOCTL_MAXLEN, &cfg->ioctl_buf_sync);
++		if (unlikely(err)) {
++			WL_ERR(("error (%d)\n", err));
++			return err;
++		}
++		data_len = strlen(cfg->ioctl_buf);
++		cfg->ioctl_buf[data_len] = '\0';
++	}
++
++	err =  rtw_cfgvendor_send_cmd_reply(wiphy, bcmcfg_to_prmry_ndev(cfg),
++					    cfg->ioctl_buf, data_len + 1);
++	if (unlikely(err))
++		WL_ERR(("Vendor Command reply failed ret:%d\n", err));
++	else
++		WL_INFORM(("Vendor Command reply sent successfully!\n"));
++
++	return err;
++#endif
++}
++
++static const struct wiphy_vendor_command rtw_vendor_cmds[] = {
++	{
++		{
++			.vendor_id = OUI_BRCM,
++			.subcmd = BRCM_VENDOR_SCMD_PRIV_STR
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_priv_string_handler
++	},
++#if defined(GSCAN_SUPPORT) && 0
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = GSCAN_SUBCMD_GET_CAPABILITIES
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_gscan_get_capabilities
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = GSCAN_SUBCMD_SET_CONFIG
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_set_scan_cfg
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = GSCAN_SUBCMD_SET_SCAN_CONFIG
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_set_batch_scan_cfg
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = GSCAN_SUBCMD_ENABLE_GSCAN
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_initiate_gscan
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = GSCAN_SUBCMD_ENABLE_FULL_SCAN_RESULTS
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_enable_full_scan_result
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = GSCAN_SUBCMD_SET_HOTLIST
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_hotlist_cfg
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = GSCAN_SUBCMD_SET_SIGNIFICANT_CHANGE_CONFIG
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_significant_change_cfg
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = GSCAN_SUBCMD_GET_SCAN_RESULTS
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_gscan_get_batch_results
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = GSCAN_SUBCMD_GET_CHANNEL_LIST
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_gscan_get_channel_list
++	},
++#endif /* GSCAN_SUPPORT */
++#if defined(RTT_SUPPORT) && 0
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = RTT_SUBCMD_SET_CONFIG
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_rtt_set_config
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = RTT_SUBCMD_CANCEL_CONFIG
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_rtt_cancel_config
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = RTT_SUBCMD_GETCAPABILITY
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_rtt_get_capability
++	},
++#endif /* RTT_SUPPORT */
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = ANDR_WIFI_SUBCMD_GET_FEATURE_SET
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = rtw_cfgvendor_get_feature_set
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = ANDR_WIFI_SUBCMD_GET_FEATURE_SET_MATRIX
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = rtw_cfgvendor_get_feature_set_matrix
++	}
++};
++
++static const struct  nl80211_vendor_cmd_info rtw_vendor_events[] = {
++	{ OUI_BRCM, BRCM_VENDOR_EVENT_UNSPEC },
++	{ OUI_BRCM, BRCM_VENDOR_EVENT_PRIV_STR },
++#if defined(GSCAN_SUPPORT) && 0
++	{ OUI_GOOGLE, GOOGLE_GSCAN_SIGNIFICANT_EVENT },
++	{ OUI_GOOGLE, GOOGLE_GSCAN_GEOFENCE_FOUND_EVENT },
++	{ OUI_GOOGLE, GOOGLE_GSCAN_BATCH_SCAN_EVENT },
++	{ OUI_GOOGLE, GOOGLE_SCAN_FULL_RESULTS_EVENT },
++#endif /* GSCAN_SUPPORT */
++#if defined(RTT_SUPPORT) && 0
++	{ OUI_GOOGLE, GOOGLE_RTT_COMPLETE_EVENT },
++#endif /* RTT_SUPPORT */
++#if defined(GSCAN_SUPPORT) && 0
++	{ OUI_GOOGLE, GOOGLE_SCAN_COMPLETE_EVENT },
++	{ OUI_GOOGLE, GOOGLE_GSCAN_GEOFENCE_LOST_EVENT }
++#endif /* GSCAN_SUPPORT */
++};
++
++int rtw_cfgvendor_attach(struct wiphy *wiphy)
++{
++
++	RTW_INFO("Register RTW cfg80211 vendor cmd(0x%x) interface\n", NL80211_CMD_VENDOR);
++
++	wiphy->vendor_commands	= rtw_vendor_cmds;
++	wiphy->n_vendor_commands = ARRAY_SIZE(rtw_vendor_cmds);
++	wiphy->vendor_events	= rtw_vendor_events;
++	wiphy->n_vendor_events	= ARRAY_SIZE(rtw_vendor_events);
++
++	return 0;
++}
++
++int rtw_cfgvendor_detach(struct wiphy *wiphy)
++{
++	RTW_INFO("Vendor: Unregister RTW cfg80211 vendor interface\n");
++
++	wiphy->vendor_commands  = NULL;
++	wiphy->vendor_events    = NULL;
++	wiphy->n_vendor_commands = 0;
++	wiphy->n_vendor_events  = 0;
++
++	return 0;
++}
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 14, 0)) || defined(RTW_VENDOR_EXT_SUPPORT) */
++
++#endif /* CONFIG_IOCTL_CFG80211 */
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/rtw_cfgvendor.h b/drivers/net/wireless/rtl8723du/os_dep/linux/rtw_cfgvendor.h
+new file mode 100644
+index 0000000..2ed3a9e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/rtw_cfgvendor.h
+@@ -0,0 +1,245 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2014 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef _RTW_CFGVENDOR_H_
++#define _RTW_CFGVENDOR_H_
++
++#define OUI_BRCM    0x001018
++#define OUI_GOOGLE  0x001A11
++#define BRCM_VENDOR_SUBCMD_PRIV_STR	1
++#define ATTRIBUTE_U32_LEN                  (NLA_HDRLEN  + 4)
++#define VENDOR_ID_OVERHEAD                 ATTRIBUTE_U32_LEN
++#define VENDOR_SUBCMD_OVERHEAD             ATTRIBUTE_U32_LEN
++#define VENDOR_DATA_OVERHEAD               (NLA_HDRLEN)
++
++#define SCAN_RESULTS_COMPLETE_FLAG_LEN       ATTRIBUTE_U32_LEN
++#define SCAN_INDEX_HDR_LEN                   (NLA_HDRLEN)
++#define SCAN_ID_HDR_LEN                      ATTRIBUTE_U32_LEN
++#define SCAN_FLAGS_HDR_LEN                   ATTRIBUTE_U32_LEN
++#define GSCAN_NUM_RESULTS_HDR_LEN            ATTRIBUTE_U32_LEN
++#define GSCAN_RESULTS_HDR_LEN                (NLA_HDRLEN)
++#define GSCAN_BATCH_RESULT_HDR_LEN  (SCAN_INDEX_HDR_LEN + SCAN_ID_HDR_LEN + \
++				     SCAN_FLAGS_HDR_LEN + \
++				     GSCAN_NUM_RESULTS_HDR_LEN + \
++				     GSCAN_RESULTS_HDR_LEN)
++
++#define VENDOR_REPLY_OVERHEAD       (VENDOR_ID_OVERHEAD + \
++				     VENDOR_SUBCMD_OVERHEAD + \
++				     VENDOR_DATA_OVERHEAD)
++typedef enum {
++	/* don't use 0 as a valid subcommand */
++	VENDOR_NL80211_SUBCMD_UNSPECIFIED,
++
++	/* define all vendor startup commands between 0x0 and 0x0FFF */
++	VENDOR_NL80211_SUBCMD_RANGE_START = 0x0001,
++	VENDOR_NL80211_SUBCMD_RANGE_END   = 0x0FFF,
++
++	/* define all GScan related commands between 0x1000 and 0x10FF */
++	ANDROID_NL80211_SUBCMD_GSCAN_RANGE_START = 0x1000,
++	ANDROID_NL80211_SUBCMD_GSCAN_RANGE_END   = 0x10FF,
++
++	/* define all NearbyDiscovery related commands between 0x1100 and 0x11FF */
++	ANDROID_NL80211_SUBCMD_NBD_RANGE_START = 0x1100,
++	ANDROID_NL80211_SUBCMD_NBD_RANGE_END   = 0x11FF,
++
++	/* define all RTT related commands between 0x1100 and 0x11FF */
++	ANDROID_NL80211_SUBCMD_RTT_RANGE_START = 0x1100,
++	ANDROID_NL80211_SUBCMD_RTT_RANGE_END   = 0x11FF,
++
++	ANDROID_NL80211_SUBCMD_LSTATS_RANGE_START = 0x1200,
++	ANDROID_NL80211_SUBCMD_LSTATS_RANGE_END   = 0x12FF,
++
++	ANDROID_NL80211_SUBCMD_TDLS_RANGE_START = 0x1300,
++	ANDROID_NL80211_SUBCMD_TDLS_RANGE_END	= 0x13FF,
++	/* This is reserved for future usage */
++
++} ANDROID_VENDOR_SUB_COMMAND;
++
++enum wl_vendor_subcmd {
++	BRCM_VENDOR_SCMD_UNSPEC,
++	BRCM_VENDOR_SCMD_PRIV_STR,
++	GSCAN_SUBCMD_GET_CAPABILITIES = ANDROID_NL80211_SUBCMD_GSCAN_RANGE_START,
++	GSCAN_SUBCMD_SET_CONFIG,
++	GSCAN_SUBCMD_SET_SCAN_CONFIG,
++	GSCAN_SUBCMD_ENABLE_GSCAN,
++	GSCAN_SUBCMD_GET_SCAN_RESULTS,
++	GSCAN_SUBCMD_SCAN_RESULTS,
++	GSCAN_SUBCMD_SET_HOTLIST,
++	GSCAN_SUBCMD_SET_SIGNIFICANT_CHANGE_CONFIG,
++	GSCAN_SUBCMD_ENABLE_FULL_SCAN_RESULTS,
++	GSCAN_SUBCMD_GET_CHANNEL_LIST,
++	ANDR_WIFI_SUBCMD_GET_FEATURE_SET,
++	ANDR_WIFI_SUBCMD_GET_FEATURE_SET_MATRIX,
++	RTT_SUBCMD_SET_CONFIG = ANDROID_NL80211_SUBCMD_RTT_RANGE_START,
++	RTT_SUBCMD_CANCEL_CONFIG,
++	RTT_SUBCMD_GETCAPABILITY,
++	/* Add more sub commands here */
++	VENDOR_SUBCMD_MAX
++};
++
++enum gscan_attributes {
++	GSCAN_ATTRIBUTE_NUM_BUCKETS = 10,
++	GSCAN_ATTRIBUTE_BASE_PERIOD,
++	GSCAN_ATTRIBUTE_BUCKETS_BAND,
++	GSCAN_ATTRIBUTE_BUCKET_ID,
++	GSCAN_ATTRIBUTE_BUCKET_PERIOD,
++	GSCAN_ATTRIBUTE_BUCKET_NUM_CHANNELS,
++	GSCAN_ATTRIBUTE_BUCKET_CHANNELS,
++	GSCAN_ATTRIBUTE_NUM_AP_PER_SCAN,
++	GSCAN_ATTRIBUTE_REPORT_THRESHOLD,
++	GSCAN_ATTRIBUTE_NUM_SCANS_TO_CACHE,
++	GSCAN_ATTRIBUTE_BAND = GSCAN_ATTRIBUTE_BUCKETS_BAND,
++
++	GSCAN_ATTRIBUTE_ENABLE_FEATURE = 20,
++	GSCAN_ATTRIBUTE_SCAN_RESULTS_COMPLETE,
++	GSCAN_ATTRIBUTE_FLUSH_FEATURE,
++	GSCAN_ATTRIBUTE_ENABLE_FULL_SCAN_RESULTS,
++	GSCAN_ATTRIBUTE_REPORT_EVENTS,
++	/* remaining reserved for additional attributes */
++	GSCAN_ATTRIBUTE_NUM_OF_RESULTS = 30,
++	GSCAN_ATTRIBUTE_FLUSH_RESULTS,
++	GSCAN_ATTRIBUTE_SCAN_RESULTS,                       /* flat array of wifi_scan_result */
++	GSCAN_ATTRIBUTE_SCAN_ID,                            /* indicates scan number */
++	GSCAN_ATTRIBUTE_SCAN_FLAGS,                         /* indicates if scan was aborted */
++	GSCAN_ATTRIBUTE_AP_FLAGS,                           /* flags on significant change event */
++	GSCAN_ATTRIBUTE_NUM_CHANNELS,
++	GSCAN_ATTRIBUTE_CHANNEL_LIST,
++
++	/* remaining reserved for additional attributes */
++
++	GSCAN_ATTRIBUTE_SSID = 40,
++	GSCAN_ATTRIBUTE_BSSID,
++	GSCAN_ATTRIBUTE_CHANNEL,
++	GSCAN_ATTRIBUTE_RSSI,
++	GSCAN_ATTRIBUTE_TIMESTAMP,
++	GSCAN_ATTRIBUTE_RTT,
++	GSCAN_ATTRIBUTE_RTTSD,
++
++	/* remaining reserved for additional attributes */
++
++	GSCAN_ATTRIBUTE_HOTLIST_BSSIDS = 50,
++	GSCAN_ATTRIBUTE_RSSI_LOW,
++	GSCAN_ATTRIBUTE_RSSI_HIGH,
++	GSCAN_ATTRIBUTE_HOSTLIST_BSSID_ELEM,
++	GSCAN_ATTRIBUTE_HOTLIST_FLUSH,
++
++	/* remaining reserved for additional attributes */
++	GSCAN_ATTRIBUTE_RSSI_SAMPLE_SIZE = 60,
++	GSCAN_ATTRIBUTE_LOST_AP_SAMPLE_SIZE,
++	GSCAN_ATTRIBUTE_MIN_BREACHING,
++	GSCAN_ATTRIBUTE_SIGNIFICANT_CHANGE_BSSIDS,
++	GSCAN_ATTRIBUTE_SIGNIFICANT_CHANGE_FLUSH,
++	GSCAN_ATTRIBUTE_MAX
++};
++
++enum gscan_bucket_attributes {
++	GSCAN_ATTRIBUTE_CH_BUCKET_1,
++	GSCAN_ATTRIBUTE_CH_BUCKET_2,
++	GSCAN_ATTRIBUTE_CH_BUCKET_3,
++	GSCAN_ATTRIBUTE_CH_BUCKET_4,
++	GSCAN_ATTRIBUTE_CH_BUCKET_5,
++	GSCAN_ATTRIBUTE_CH_BUCKET_6,
++	GSCAN_ATTRIBUTE_CH_BUCKET_7
++};
++
++enum gscan_ch_attributes {
++	GSCAN_ATTRIBUTE_CH_ID_1,
++	GSCAN_ATTRIBUTE_CH_ID_2,
++	GSCAN_ATTRIBUTE_CH_ID_3,
++	GSCAN_ATTRIBUTE_CH_ID_4,
++	GSCAN_ATTRIBUTE_CH_ID_5,
++	GSCAN_ATTRIBUTE_CH_ID_6,
++	GSCAN_ATTRIBUTE_CH_ID_7
++};
++
++enum rtt_attributes {
++	RTT_ATTRIBUTE_TARGET_CNT,
++	RTT_ATTRIBUTE_TARGET_INFO,
++	RTT_ATTRIBUTE_TARGET_MAC,
++	RTT_ATTRIBUTE_TARGET_TYPE,
++	RTT_ATTRIBUTE_TARGET_PEER,
++	RTT_ATTRIBUTE_TARGET_CHAN,
++	RTT_ATTRIBUTE_TARGET_MODE,
++	RTT_ATTRIBUTE_TARGET_INTERVAL,
++	RTT_ATTRIBUTE_TARGET_NUM_MEASUREMENT,
++	RTT_ATTRIBUTE_TARGET_NUM_PKT,
++	RTT_ATTRIBUTE_TARGET_NUM_RETRY
++};
++
++typedef enum wl_vendor_event {
++	BRCM_VENDOR_EVENT_UNSPEC,
++	BRCM_VENDOR_EVENT_PRIV_STR,
++	GOOGLE_GSCAN_SIGNIFICANT_EVENT,
++	GOOGLE_GSCAN_GEOFENCE_FOUND_EVENT,
++	GOOGLE_GSCAN_BATCH_SCAN_EVENT,
++	GOOGLE_SCAN_FULL_RESULTS_EVENT,
++	GOOGLE_RTT_COMPLETE_EVENT,
++	GOOGLE_SCAN_COMPLETE_EVENT,
++	GOOGLE_GSCAN_GEOFENCE_LOST_EVENT
++} wl_vendor_event_t;
++
++enum andr_wifi_feature_set_attr {
++	ANDR_WIFI_ATTRIBUTE_NUM_FEATURE_SET,
++	ANDR_WIFI_ATTRIBUTE_FEATURE_SET
++};
++
++typedef enum wl_vendor_gscan_attribute {
++	ATTR_START_GSCAN,
++	ATTR_STOP_GSCAN,
++	ATTR_SET_SCAN_BATCH_CFG_ID, /* set batch scan params */
++	ATTR_SET_SCAN_GEOFENCE_CFG_ID, /* set list of bssids to track */
++	ATTR_SET_SCAN_SIGNIFICANT_CFG_ID, /* set list of bssids, rssi threshold etc.. */
++	ATTR_SET_SCAN_CFG_ID, /* set common scan config params here */
++	ATTR_GET_GSCAN_CAPABILITIES_ID,
++	/* Add more sub commands here */
++	ATTR_GSCAN_MAX
++} wl_vendor_gscan_attribute_t;
++
++typedef enum gscan_batch_attribute {
++	ATTR_GSCAN_BATCH_BESTN,
++	ATTR_GSCAN_BATCH_MSCAN,
++	ATTR_GSCAN_BATCH_BUFFER_THRESHOLD
++} gscan_batch_attribute_t;
++
++typedef enum gscan_geofence_attribute {
++	ATTR_GSCAN_NUM_HOTLIST_BSSID,
++	ATTR_GSCAN_HOTLIST_BSSID
++} gscan_geofence_attribute_t;
++
++typedef enum gscan_complete_event {
++	WIFI_SCAN_BUFFER_FULL,
++	WIFI_SCAN_COMPLETE
++} gscan_complete_event_t;
++
++/* Capture the BRCM_VENDOR_SUBCMD_PRIV_STRINGS* here */
++#define BRCM_VENDOR_SCMD_CAPA	"cap"
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 14, 0)) || defined(RTW_VENDOR_EXT_SUPPORT)
++extern int rtw_cfgvendor_attach(struct wiphy *wiphy);
++extern int rtw_cfgvendor_detach(struct wiphy *wiphy);
++extern int rtw_cfgvendor_send_async_event(struct wiphy *wiphy,
++	struct net_device *dev, int event_id, const void  *data, int len);
++#if defined(GSCAN_SUPPORT) && 0
++extern int wl_cfgvendor_send_hotlist_event(struct wiphy *wiphy,
++	struct net_device *dev, void  *data, int len, wl_vendor_event_t event);
++#endif
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 14, 0)) || defined(RTW_VENDOR_EXT_SUPPORT) */
++
++#endif /* _RTW_CFGVENDOR_H_ */
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/rtw_proc.c b/drivers/net/wireless/rtl8723du/os_dep/linux/rtw_proc.c
+new file mode 100644
+index 0000000..a7390dd
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/rtw_proc.c
+@@ -0,0 +1,2982 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include <linux/ctype.h>	/* tolower() */
++#include <drv_types.h>
++#include <hal_data.h>
++#include "rtw_proc.h"
++#ifdef CONFIG_BT_COEXIST
++#include <rtw_btcoex.h>
++#endif
++
++#ifdef CONFIG_PROC_DEBUG
++
++static struct proc_dir_entry *rtw_proc = NULL;
++
++inline struct proc_dir_entry *get_rtw_drv_proc(void)
++{
++	return rtw_proc;
++}
++
++#define RTW_PROC_NAME DRV_NAME
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 9, 0))
++#define file_inode(file) ((file)->f_dentry->d_inode)
++#endif
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 10, 0))
++#define PDE_DATA(inode) PDE((inode))->data
++#define proc_get_parent_data(inode) PDE((inode))->parent->data
++#endif
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 24))
++#define get_proc_net proc_net
++#else
++#define get_proc_net init_net.proc_net
++#endif
++
++inline struct proc_dir_entry *rtw_proc_create_dir(const char *name, struct proc_dir_entry *parent, void *data)
++{
++	struct proc_dir_entry *entry;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 10, 0))
++	entry = proc_mkdir_data(name, S_IRUGO | S_IXUGO, parent, data);
++#else
++	/* entry = proc_mkdir_mode(name, S_IRUGO|S_IXUGO, parent); */
++	entry = proc_mkdir(name, parent);
++	if (entry)
++		entry->data = data;
++#endif
++
++	return entry;
++}
++
++inline struct proc_dir_entry *rtw_proc_create_entry(const char *name, struct proc_dir_entry *parent,
++	const struct file_operations *fops, void * data)
++{
++	struct proc_dir_entry *entry;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 26))
++	entry = proc_create_data(name,  S_IFREG | S_IRUGO | S_IWUGO, parent, fops, data);
++#else
++	entry = create_proc_entry(name, S_IFREG | S_IRUGO | S_IWUGO, parent);
++	if (entry) {
++		entry->data = data;
++		entry->proc_fops = fops;
++	}
++#endif
++
++	return entry;
++}
++
++static int proc_get_dummy(struct seq_file *m, void *v)
++{
++	return 0;
++}
++
++static int proc_get_drv_version(struct seq_file *m, void *v)
++{
++	dump_drv_version(m);
++	return 0;
++}
++
++static int proc_get_log_level(struct seq_file *m, void *v)
++{
++	dump_log_level(m);
++	return 0;
++}
++
++static int proc_get_drv_cfg(struct seq_file *m, void *v)
++{
++	dump_drv_cfg(m);
++	return 0;
++}
++
++static ssize_t proc_set_log_level(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	char tmp[32];
++	int log_level;
++
++	if (count < 1)
++		return -EINVAL;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++#ifdef CONFIG_RTW_DEBUG
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &log_level);
++
++		if (log_level >= _DRV_NONE_ && log_level <= _DRV_MAX_) {
++			rtw_drv_log_level = log_level;
++			printk("rtw_drv_log_level:%d\n", rtw_drv_log_level);
++		}
++	} else
++		return -EFAULT;
++#else
++	printk("CONFIG_RTW_DEBUG is disabled\n");
++#endif
++
++	return count;
++}
++
++#ifdef DBG_MEM_ALLOC
++static int proc_get_mstat(struct seq_file *m, void *v)
++{
++	rtw_mstat_dump(m);
++	return 0;
++}
++#endif /* DBG_MEM_ALLOC */
++
++static int proc_get_country_chplan_map(struct seq_file *m, void *v)
++{
++	dump_country_chplan_map(m);
++	return 0;
++}
++
++static int proc_get_chplan_id_list(struct seq_file *m, void *v)
++{
++	dump_chplan_id_list(m);
++	return 0;
++}
++
++static int proc_get_chplan_test(struct seq_file *m, void *v)
++{
++	dump_chplan_test(m);
++	return 0;
++}
++
++/*
++* rtw_drv_proc:
++* init/deinit when register/unregister driver
++*/
++const struct rtw_proc_hdl drv_proc_hdls[] = {
++	RTW_PROC_HDL_SSEQ("ver_info", proc_get_drv_version, NULL),
++	RTW_PROC_HDL_SSEQ("log_level", proc_get_log_level, proc_set_log_level),
++	RTW_PROC_HDL_SSEQ("drv_cfg", proc_get_drv_cfg, NULL),
++#ifdef DBG_MEM_ALLOC
++	RTW_PROC_HDL_SSEQ("mstat", proc_get_mstat, NULL),
++#endif /* DBG_MEM_ALLOC */
++	RTW_PROC_HDL_SSEQ("country_chplan_map", proc_get_country_chplan_map, NULL),
++	RTW_PROC_HDL_SSEQ("chplan_id_list", proc_get_chplan_id_list, NULL),
++	RTW_PROC_HDL_SSEQ("chplan_test", proc_get_chplan_test, NULL),
++};
++
++const int drv_proc_hdls_num = sizeof(drv_proc_hdls) / sizeof(struct rtw_proc_hdl);
++
++static int rtw_drv_proc_open(struct inode *inode, struct file *file)
++{
++	/* struct net_device *dev = proc_get_parent_data(inode); */
++	ssize_t index = (ssize_t)PDE_DATA(inode);
++	const struct rtw_proc_hdl *hdl = drv_proc_hdls + index;
++	void *private = NULL;
++
++	if (hdl->type == RTW_PROC_HDL_TYPE_SEQ) {
++		int res = seq_open(file, hdl->u.seq_op);
++
++		if (res == 0)
++			((struct seq_file *)file->private_data)->private = private;
++
++		return res;
++	} else if (hdl->type == RTW_PROC_HDL_TYPE_SSEQ) {
++		int (*show)(struct seq_file *, void *) = hdl->u.show ? hdl->u.show : proc_get_dummy;
++
++		return single_open(file, show, private);
++	} else {
++		return -EROFS;
++	}
++}
++
++static ssize_t rtw_drv_proc_write(struct file *file, const char __user *buffer, size_t count, loff_t *pos)
++{
++	ssize_t index = (ssize_t)PDE_DATA(file_inode(file));
++	const struct rtw_proc_hdl *hdl = drv_proc_hdls + index;
++	ssize_t (*write)(struct file *, const char __user *, size_t, loff_t *, void *) = hdl->write;
++
++	if (write)
++		return write(file, buffer, count, pos, NULL);
++
++	return -EROFS;
++}
++
++static const struct file_operations rtw_drv_proc_seq_fops = {
++	.owner = THIS_MODULE,
++	.open = rtw_drv_proc_open,
++	.read = seq_read,
++	.llseek = seq_lseek,
++	.release = seq_release,
++	.write = rtw_drv_proc_write,
++};
++
++static const struct file_operations rtw_drv_proc_sseq_fops = {
++	.owner = THIS_MODULE,
++	.open = rtw_drv_proc_open,
++	.read = seq_read,
++	.llseek = seq_lseek,
++	.release = single_release,
++	.write = rtw_drv_proc_write,
++};
++
++int rtw_drv_proc_init(void)
++{
++	int ret = _FAIL;
++	ssize_t i;
++	struct proc_dir_entry *entry = NULL;
++
++	if (rtw_proc != NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	rtw_proc = rtw_proc_create_dir(RTW_PROC_NAME, get_proc_net, NULL);
++
++	if (rtw_proc == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	for (i = 0; i < drv_proc_hdls_num; i++) {
++		if (drv_proc_hdls[i].type == RTW_PROC_HDL_TYPE_SEQ)
++			entry = rtw_proc_create_entry(drv_proc_hdls[i].name, rtw_proc, &rtw_drv_proc_seq_fops, (void *)i);
++		else if (drv_proc_hdls[i].type == RTW_PROC_HDL_TYPE_SSEQ)
++			entry = rtw_proc_create_entry(drv_proc_hdls[i].name, rtw_proc, &rtw_drv_proc_sseq_fops, (void *)i);
++		else
++			entry = NULL;
++
++		if (!entry) {
++			rtw_warn_on(1);
++			goto exit;
++		}
++	}
++
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++void rtw_drv_proc_deinit(void)
++{
++	int i;
++
++	if (rtw_proc == NULL)
++		return;
++
++	for (i = 0; i < drv_proc_hdls_num; i++)
++		remove_proc_entry(drv_proc_hdls[i].name, rtw_proc);
++
++	remove_proc_entry(RTW_PROC_NAME, get_proc_net);
++	rtw_proc = NULL;
++}
++
++#ifndef RTW_SEQ_FILE_TEST
++#define RTW_SEQ_FILE_TEST 0
++#endif
++
++#if RTW_SEQ_FILE_TEST
++#define RTW_SEQ_FILE_TEST_SHOW_LIMIT 300
++static void *proc_start_seq_file_test(struct seq_file *m, loff_t *pos)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(adapter));
++	if (*pos >= RTW_SEQ_FILE_TEST_SHOW_LIMIT) {
++		RTW_PRINT(FUNC_ADPT_FMT" pos:%llu, out of range return\n", FUNC_ADPT_ARG(adapter), *pos);
++		return NULL;
++	}
++
++	RTW_PRINT(FUNC_ADPT_FMT" return pos:%lld\n", FUNC_ADPT_ARG(adapter), *pos);
++	return pos;
++}
++void proc_stop_seq_file_test(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(adapter));
++}
++
++void *proc_next_seq_file_test(struct seq_file *m, void *v, loff_t *pos)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	(*pos)++;
++	if (*pos >= RTW_SEQ_FILE_TEST_SHOW_LIMIT) {
++		RTW_PRINT(FUNC_ADPT_FMT" pos:%lld, out of range return\n", FUNC_ADPT_ARG(adapter), *pos);
++		return NULL;
++	}
++
++	RTW_PRINT(FUNC_ADPT_FMT" return pos:%lld\n", FUNC_ADPT_ARG(adapter), *pos);
++	return pos;
++}
++
++static int proc_get_seq_file_test(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	u32 pos = *((loff_t *)(v));
++	RTW_PRINT(FUNC_ADPT_FMT" pos:%d\n", FUNC_ADPT_ARG(adapter), pos);
++	RTW_PRINT_SEL(m, FUNC_ADPT_FMT" pos:%d\n", FUNC_ADPT_ARG(adapter), pos);
++	return 0;
++}
++
++struct seq_operations seq_file_test = {
++	.start = proc_start_seq_file_test,
++	.stop  = proc_stop_seq_file_test,
++	.next  = proc_next_seq_file_test,
++	.show  = proc_get_seq_file_test,
++};
++#endif /* RTW_SEQ_FILE_TEST */
++
++#ifdef CONFIG_SDIO_HCI
++static int proc_get_sd_f0_reg_dump(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	sd_f0_reg_dump(m, adapter);
++
++	return 0;
++}
++
++static int proc_get_sdio_local_reg_dump(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	sdio_local_reg_dump(m, adapter);
++
++	return 0;
++}
++#endif /* CONFIG_SDIO_HCI */
++
++static int proc_get_mac_reg_dump(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	mac_reg_dump(m, adapter);
++
++	return 0;
++}
++
++static int proc_get_bb_reg_dump(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	bb_reg_dump(m, adapter);
++
++	return 0;
++}
++
++static int proc_get_rf_reg_dump(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	rf_reg_dump(m, adapter);
++
++	return 0;
++}
++
++static int proc_get_dump_tx_rate_bmp(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_tx_rate_bmp(m, adapter_to_dvobj(adapter));
++
++	return 0;
++}
++
++static int proc_get_dump_adapters_status(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_adapters_status(m, adapter_to_dvobj(adapter));
++
++	return 0;
++}
++static int proc_get_dump_adapters_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_adapters_info(m, adapter_to_dvobj(adapter));
++
++	return 0;
++}
++
++/* gpio setting */
++#ifdef CONFIG_GPIO_API
++static ssize_t proc_set_config_gpio(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32] = {0};
++	int num = 0, gpio_pin = 0, gpio_mode = 0; /* gpio_mode:0 input  1:output; */
++
++	if (count < 2)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		num	= sscanf(tmp, "%d %d", &gpio_pin, &gpio_mode);
++		RTW_INFO("num=%d gpio_pin=%d mode=%d\n", num, gpio_pin, gpio_mode);
++		padapter->pre_gpio_pin = gpio_pin;
++
++		if (gpio_mode == 0 || gpio_mode == 1)
++			rtw_hal_config_gpio(padapter, gpio_pin, gpio_mode);
++	}
++	return count;
++
++}
++static ssize_t proc_set_gpio_output_value(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32] = {0};
++	int num = 0, gpio_pin = 0, pin_mode = 0; /* pin_mode: 1 high         0:low */
++
++	if (count < 2)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		num	= sscanf(tmp, "%d %d", &gpio_pin, &pin_mode);
++		RTW_INFO("num=%d gpio_pin=%d pin_high=%d\n", num, gpio_pin, pin_mode);
++		padapter->pre_gpio_pin = gpio_pin;
++
++		if (pin_mode == 0 || pin_mode == 1)
++			rtw_hal_set_gpio_output_value(padapter, gpio_pin, pin_mode);
++	}
++	return count;
++}
++static int proc_get_gpio(struct seq_file *m, void *v)
++{
++	u8 gpioreturnvalue = 0;
++	struct net_device *dev = m->private;
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	if (!padapter)
++		return -EFAULT;
++	gpioreturnvalue = rtw_hal_get_gpio(padapter, padapter->pre_gpio_pin);
++	RTW_PRINT_SEL(m, "get_gpio %d:%d\n", padapter->pre_gpio_pin, gpioreturnvalue);
++
++	return 0;
++
++}
++static ssize_t proc_set_gpio(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32] = {0};
++	int num = 0, gpio_pin = 0;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		num	= sscanf(tmp, "%d", &gpio_pin);
++		RTW_INFO("num=%d gpio_pin=%d\n", num, gpio_pin);
++		padapter->pre_gpio_pin = gpio_pin;
++
++	}
++	return count;
++}
++#endif
++static ssize_t proc_set_rx_info_msg(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct recv_priv *precvpriv = &(padapter->recvpriv);
++	char tmp[32] = {0};
++	int phy_info_flag = 0;
++
++	if (!padapter)
++		return -EFAULT;
++
++	if (count < 1) {
++		RTW_INFO("argument size is less than 1\n");
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%d", &phy_info_flag);
++
++		precvpriv->store_law_data_flag = (BOOLEAN) phy_info_flag;
++
++		/*RTW_INFO("precvpriv->store_law_data_flag = %d\n",( BOOLEAN )(precvpriv->store_law_data_flag));*/
++	}
++	return count;
++}
++static int proc_get_rx_info_msg(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	rtw_hal_set_odm_var(padapter, HAL_ODM_RX_Dframe_INFO, m, _FALSE);
++	return 0;
++}
++static int proc_get_tx_info_msg(struct seq_file *m, void *v)
++{
++	_irqL irqL;
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	struct sta_info *psta;
++	u8 bc_addr[6] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u8 null_addr[6] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	int i;
++	_list	*plist, *phead;
++	u8 current_rate_id = 0, current_sgi = 0;
++
++	char *BW, *status;
++
++	_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++	if (check_fwstate(&padapter->mlmepriv, WIFI_STATION_STATE))
++		status = "station mode";
++	else if (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE))
++		status = "AP mode";
++	else
++		status = " ";
++	_RTW_PRINT_SEL(m, "status=%s\n", status);
++	for (i = 0; i < NUM_STA; i++) {
++		phead = &(pstapriv->sta_hash[i]);
++		plist = get_next(phead);
++
++		while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++
++			psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++
++			plist = get_next(plist);
++
++			if ((_rtw_memcmp(psta->hwaddr, bc_addr, 6)  !=  _TRUE)
++				&& (_rtw_memcmp(psta->hwaddr, null_addr, 6) != _TRUE)
++				&& (_rtw_memcmp(psta->hwaddr, adapter_mac_addr(padapter), 6) != _TRUE)) {
++
++				switch (psta->bw_mode) {
++
++				case CHANNEL_WIDTH_20:
++					BW = "20M";
++					break;
++
++				case CHANNEL_WIDTH_40:
++					BW = "40M";
++					break;
++
++				case CHANNEL_WIDTH_80:
++					BW = "80M";
++					break;
++
++				case CHANNEL_WIDTH_160:
++					BW = "160M";
++					break;
++
++				default:
++					BW = "";
++					break;
++				}
++				current_rate_id = rtw_get_current_tx_rate(adapter, psta->mac_id);
++				current_sgi = rtw_get_current_tx_sgi(adapter, psta->mac_id);
++
++				RTW_PRINT_SEL(m, "==============================\n");
++				_RTW_PRINT_SEL(m, "macaddr=" MAC_FMT"\n", MAC_ARG(psta->hwaddr));
++				_RTW_PRINT_SEL(m, "Tx_Data_Rate=%s\n", HDATA_RATE(current_rate_id));
++				_RTW_PRINT_SEL(m, "BW=%s,sgi=%u\n", BW, current_sgi);
++
++			}
++		}
++	}
++
++	_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++	return 0;
++
++}
++
++
++static int proc_get_linked_info_dump(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	if (padapter)
++		RTW_PRINT_SEL(m, "linked_info_dump :%s\n", (padapter->bLinkInfoDump) ? "enable" : "disable");
++
++	return 0;
++}
++
++
++static ssize_t proc_set_linked_info_dump(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	char tmp[32] = {0};
++	int mode = 0, pre_mode = 0;
++	int num = 0;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	pre_mode = padapter->bLinkInfoDump;
++	RTW_INFO("pre_mode=%d\n", pre_mode);
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		num	= sscanf(tmp, "%d ", &mode);
++		RTW_INFO("num=%d mode=%d\n", num, mode);
++
++		if (num != 1) {
++			RTW_INFO("argument number is wrong\n");
++			return -EFAULT;
++		}
++
++		if (mode == 1 || (mode == 0 && pre_mode == 1)) /* not consider pwr_saving 0: */
++			padapter->bLinkInfoDump = mode;
++
++		else if ((mode == 2) || (mode == 0 && pre_mode == 2)) { /* consider power_saving */
++			/* RTW_INFO("linked_info_dump =%s\n", (padapter->bLinkInfoDump)?"enable":"disable") */
++			linked_info_dump(padapter, mode);
++		}
++	}
++	return count;
++}
++
++static int proc_get_mac_qinfo(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	rtw_hal_get_hwreg(adapter, HW_VAR_DUMP_MAC_QUEUE_INFO, (u8 *)m);
++
++	return 0;
++}
++
++int proc_get_wifi_spec(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++
++	RTW_PRINT_SEL(m, "wifi_spec=%d\n", pregpriv->wifi_spec);
++	return 0;
++}
++
++static int proc_get_chan_plan(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_cur_chset(m, adapter);
++
++	return 0;
++}
++
++static ssize_t proc_set_chan_plan(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u8 chan_plan = RTW_CHPLAN_MAX;
++
++	if (!padapter)
++		return -EFAULT;
++
++	if (count < 1) {
++		RTW_INFO("argument size is less than 1\n");
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%hhx", &chan_plan);
++		if (num !=  1)
++			return count;
++	}
++
++	rtw_set_channel_plan(padapter, chan_plan);
++
++	return count;
++}
++
++static int proc_get_country_code(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	if (adapter->mlmepriv.country_ent)
++		dump_country_chplan(m, adapter->mlmepriv.country_ent);
++	else
++		RTW_PRINT_SEL(m, "unspecified\n");
++
++	return 0;
++}
++
++static ssize_t proc_set_country_code(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	char alpha2[2];
++	int num;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (!buffer || copy_from_user(tmp, buffer, count))
++		goto exit;
++
++	num = sscanf(tmp, "%c%c", &alpha2[0], &alpha2[1]);
++	if (num !=	2)
++		return count;
++
++	rtw_set_country(padapter, alpha2);
++
++exit:
++	return count;
++}
++
++#if CONFIG_RTW_MACADDR_ACL
++static int proc_get_macaddr_acl(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_macaddr_acl(m, adapter);
++	return 0;
++}
++
++ssize_t proc_set_macaddr_acl(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++	char tmp[17 * NUM_ACL + 32] = {0};
++	u8 mode;
++	u8 addr[ETH_ALEN];
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		/* mode [<macaddr>] */
++		char *c, *next;
++
++		next = tmp;
++		c = strsep(&next, " \t");
++
++		if (sscanf(c, "%hhu", &mode) != 1)
++			return count;
++
++		if (mode >= RTW_ACL_MODE_MAX)
++			mode = RTW_ACL_MODE_DISABLED;
++
++		rtw_set_macaddr_acl(adapter, RTW_ACL_MODE_DISABLED); /* deinit first */
++		if (mode == RTW_ACL_MODE_DISABLED)
++			return count;
++
++		rtw_set_macaddr_acl(adapter, mode);
++
++		/* macaddr list */
++		c = strsep(&next, " \t");
++		while (c != NULL) {
++			if (sscanf(c, MAC_SFMT, MAC_SARG(addr)) != 6)
++				break;
++
++			if (rtw_check_invalid_mac_address(addr, 0) == _FALSE)
++				rtw_acl_add_sta(adapter, addr);
++
++			c = strsep(&next, " \t");
++		}
++
++	}
++
++exit:
++	return count;
++}
++#endif /* CONFIG_RTW_MACADDR_ACL */
++
++#ifdef CONFIG_DFS_MASTER
++ssize_t proc_set_update_non_ocp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++	char tmp[32];
++	u8 ch, bw = CHANNEL_WIDTH_20, offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	int ms = -1;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhu %hhu %hhu %d", &ch, &bw, &offset, &ms);
++
++		if (num < 1 || (bw != CHANNEL_WIDTH_20 && num < 3))
++			goto exit;
++
++		if (bw == CHANNEL_WIDTH_20)
++			rtw_chset_update_non_ocp_ms(mlmeext->channel_set
++				, ch, bw, HAL_PRIME_CHNL_OFFSET_DONT_CARE, ms);
++		else
++			rtw_chset_update_non_ocp_ms(mlmeext->channel_set
++				, ch, bw, offset, ms);
++	}
++
++exit:
++	return count;
++}
++
++ssize_t proc_set_radar_detect(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++	char tmp[32];
++	u8 fake_radar_detect_cnt = 0;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhu", &fake_radar_detect_cnt);
++
++		if (num < 1)
++			goto exit;
++
++		rfctl->dbg_dfs_master_fake_radar_detect_cnt = fake_radar_detect_cnt;
++	}
++
++exit:
++	return count;
++}
++
++static int proc_get_dfs_ch_sel_d_flags(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++
++	RTW_PRINT_SEL(m, "0x%02x\n", rfctl->dfs_ch_sel_d_flags);
++
++	return 0;
++}
++
++static ssize_t proc_set_dfs_ch_sel_d_flags(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++	char tmp[32];
++	u8 d_flags;
++	int num;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (!buffer || copy_from_user(tmp, buffer, count))
++		goto exit;
++
++	num = sscanf(tmp, "%hhx", &d_flags);
++	if (num !=	1)
++		goto exit;
++
++	rfctl->dfs_ch_sel_d_flags = d_flags;
++
++exit:
++	return count;
++}
++#endif /* CONFIG_DFS_MASTER */
++
++static int proc_get_udpport(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct recv_priv *precvpriv = &(padapter->recvpriv);
++
++	RTW_PRINT_SEL(m, "%d\n", precvpriv->sink_udpport);
++	return 0;
++}
++static ssize_t proc_set_udpport(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct recv_priv *precvpriv = &(padapter->recvpriv);
++	int sink_udpport = 0;
++	char tmp[32];
++
++
++	if (!padapter)
++		return -EFAULT;
++
++	if (count < 1) {
++		RTW_INFO("argument size is less than 1\n");
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d", &sink_udpport);
++
++		if (num !=  1) {
++			RTW_INFO("invalid input parameter number!\n");
++			return count;
++		}
++
++	}
++	precvpriv->sink_udpport = sink_udpport;
++
++	return count;
++
++}
++
++static int proc_get_mi_ap_bc_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	u8 i;
++
++	for (i = 0; i < dvobj->iface_nums; i++)
++		RTW_PRINT_SEL(m, "iface_id:%d, mac_id && sec_cam_id = %d\n", i, macid_ctl->iface_bmc[i]);
++
++	return 0;
++}
++static int proc_get_macid_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	u8 chip_type = rtw_get_chip_type(adapter);
++	u8 i;
++	u8 null_addr[ETH_ALEN] = {0};
++	u8 *macaddr;
++
++	RTW_PRINT_SEL(m, "max_num:%u\n", macid_ctl->num);
++	RTW_PRINT_SEL(m, "\n");
++
++	RTW_PRINT_SEL(m, "used:\n");
++	dump_macid_map(m, &macid_ctl->used, macid_ctl->num);
++	RTW_PRINT_SEL(m, "\n");
++
++	RTW_PRINT_SEL(m, "%-3s %-3s %-4s %-4s %-17s %-6s %-3s"
++		, "id", "bmc", "if_g", "ch_g", "macaddr", "bw", "vht");
++
++	if (chip_type == RTL8814A)
++		_RTW_PRINT_SEL(m, " %-10s", "rate_bmp1");
++
++	_RTW_PRINT_SEL(m, " %-10s %s\n", "rate_bmp0", "status");
++
++	for (i = 0; i < macid_ctl->num; i++) {
++		if (rtw_macid_is_used(macid_ctl, i)
++			|| macid_ctl->h2c_msr[i]
++		) {
++			if (macid_ctl->sta[i])
++				macaddr = macid_ctl->sta[i]->hwaddr;
++			else
++				macaddr = null_addr;
++
++			RTW_PRINT_SEL(m, "%3u %3u %4d %4d "MAC_FMT" %6s %3u"
++				, i
++				, rtw_macid_is_bmc(macid_ctl, i)
++				, rtw_macid_get_if_g(macid_ctl, i)
++				, rtw_macid_get_ch_g(macid_ctl, i)
++				, MAC_ARG(macaddr)
++				, ch_width_str(macid_ctl->bw[i])
++				, macid_ctl->vht_en[i]
++			);
++
++			if (chip_type == RTL8814A)
++				_RTW_PRINT_SEL(m, " 0x%08X", macid_ctl->rate_bmp1[i]);
++
++			_RTW_PRINT_SEL(m, " 0x%08X "H2C_MSR_FMT" %s\n"
++				, macid_ctl->rate_bmp0[i]
++				, H2C_MSR_ARG(&macid_ctl->h2c_msr[i])
++				, rtw_macid_is_used(macid_ctl, i) ? "" : "[unused]"
++			);
++		}
++	}
++
++	return 0;
++}
++
++static int proc_get_sec_cam(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++
++	RTW_PRINT_SEL(m, "sec_cap:0x%02x\n", cam_ctl->sec_cap);
++	RTW_PRINT_SEL(m, "flags:0x%08x\n", cam_ctl->flags);
++	RTW_PRINT_SEL(m, "\n");
++
++	RTW_PRINT_SEL(m, "max_num:%u\n", cam_ctl->num);
++	RTW_PRINT_SEL(m, "used:\n");
++	dump_sec_cam_map(m, &cam_ctl->used, cam_ctl->num);
++	RTW_PRINT_SEL(m, "\n");
++
++	RTW_PRINT_SEL(m, "reg_scr:0x%04x\n", rtw_read16(adapter, 0x680));
++	RTW_PRINT_SEL(m, "\n");
++
++	dump_sec_cam(m, adapter);
++
++	return 0;
++}
++
++static ssize_t proc_set_sec_cam(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	char tmp[32] = {0};
++	char cmd[4];
++	u8 id_1 = 0, id_2 = 0;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		/* c <id_1>: clear specific cam entry */
++		/* wfc <id_1>: write specific cam entry from cam cache */
++		/* sw <id_1> <id_2>: sec_cam 1/2 swap */
++
++		int num = sscanf(tmp, "%s %hhu %hhu", cmd, &id_1, &id_2);
++
++		if (num < 2)
++			return count;
++
++		if ((id_1 >= cam_ctl->num) || (id_2 >= cam_ctl->num)) {
++			RTW_ERR(FUNC_ADPT_FMT" invalid id_1:%u id_2:%u\n", FUNC_ADPT_ARG(adapter), id_1, id_2);
++			return count;
++		}
++
++		if (strcmp("c", cmd) == 0) {
++			_clear_cam_entry(adapter, id_1);
++			adapter->securitypriv.hw_decrypted = _FALSE; /* temporarily set this for TX path to use SW enc */
++		} else if (strcmp("wfc", cmd) == 0)
++			write_cam_from_cache(adapter, id_1);
++		else if (strcmp("sw", cmd) == 0)
++			rtw_sec_cam_swap(adapter, id_1, id_2);
++		else if (strcmp("cdk", cmd) == 0)
++			rtw_clean_dk_section(adapter);
++#ifdef DBG_SEC_CAM_MOVE
++		else if (strcmp("sgd", cmd) == 0)
++			rtw_hal_move_sta_gk_to_dk(adapter);
++		else if (strcmp("rsd", cmd) == 0)
++			rtw_hal_read_sta_dk_key(adapter, id_1);
++#endif
++	}
++
++	return count;
++}
++
++static int proc_get_sec_cam_cache(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_sec_cam_cache(m, adapter);
++	return 0;
++}
++
++static ssize_t proc_set_change_bss_chbw(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *mlme = &(adapter->mlmepriv);
++	struct mlme_ext_priv *mlmeext = &(adapter->mlmeextpriv);
++	char tmp[32];
++	s16 ch;
++	s8 bw = -1, offset = -1;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hd %hhd %hhd", &ch, &bw, &offset);
++
++		if (num < 1 || (bw != CHANNEL_WIDTH_20 && num < 3))
++			goto exit;
++
++		if (check_fwstate(mlme, WIFI_AP_STATE) && check_fwstate(mlme, WIFI_ASOC_STATE))
++			rtw_change_bss_chbw_cmd(adapter, RTW_CMDF_WAIT_ACK, ch, bw, offset);
++	}
++
++exit:
++	return count;
++}
++
++static int proc_get_tx_bw_mode(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT_SEL(m, "0x%02x\n", adapter->driver_tx_bw_mode);
++	RTW_PRINT_SEL(m, "2.4G:%s\n", ch_width_str(ADAPTER_TX_BW_2G(adapter)));
++	RTW_PRINT_SEL(m, "5G:%s\n", ch_width_str(ADAPTER_TX_BW_5G(adapter)));
++
++	return 0;
++}
++
++static ssize_t proc_set_tx_bw_mode(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct macid_ctl_t *macid_ctl = &adapter->dvobj->macid_ctl;
++	struct mlme_priv *mlme = &(adapter->mlmepriv);
++	struct mlme_ext_priv *mlmeext = &(adapter->mlmeextpriv);
++	char tmp[32];
++	u8 bw_mode;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		u8 update = _FALSE;
++		int num = sscanf(tmp, "%hhx", &bw_mode);
++
++		if (num < 1 || bw_mode == adapter->driver_tx_bw_mode)
++			goto exit;
++
++		if ((MLME_STATE(adapter) & WIFI_ASOC_STATE)
++			&& ((mlmeext->cur_channel <= 14 && BW_MODE_2G(bw_mode) != ADAPTER_TX_BW_2G(adapter))
++				|| (mlmeext->cur_channel >= 36 && BW_MODE_5G(bw_mode) != ADAPTER_TX_BW_5G(adapter)))
++		) {
++			/* RA mask update needed */
++			update = _TRUE;
++		}
++		adapter->driver_tx_bw_mode = bw_mode;
++
++		if (update == _TRUE) {
++			struct sta_info *sta;
++			int i;
++
++			for (i = 0; i < MACID_NUM_SW_LIMIT; i++) {
++				sta = macid_ctl->sta[i];
++				if (sta && !is_broadcast_mac_addr(sta->hwaddr))
++					rtw_dm_ra_mask_wk_cmd(adapter, (u8 *)sta);
++			}
++		}
++	}
++
++exit:
++	return count;
++}
++
++static int proc_get_hal_txpwr_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++
++	if (hal_is_band_support(adapter, BAND_ON_2_4G))
++		dump_hal_txpwr_info_2g(m, adapter, hal_spec->rfpath_num, hal_spec->max_tx_cnt);
++
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	if (hal_is_band_support(adapter, BAND_ON_5G))
++		dump_hal_txpwr_info_5g(m, adapter, hal_spec->rfpath_num, hal_spec->max_tx_cnt);
++#endif
++
++	return 0;
++}
++
++static int proc_get_target_tx_power(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_target_tx_power(m, adapter);
++
++	return 0;
++}
++
++static int proc_get_tx_power_by_rate(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_tx_power_by_rate(m, adapter);
++
++	return 0;
++}
++
++static int proc_get_tx_power_limit(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_tx_power_limit(m, adapter);
++
++	return 0;
++}
++
++static int proc_get_tx_power_ext_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_tx_power_ext_info(m, adapter);
++
++	return 0;
++}
++
++static ssize_t proc_set_tx_power_ext_info(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	char tmp[32] = {0};
++	char cmd[16] = {0};
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%s", cmd);
++
++		if (num < 1)
++			return count;
++
++		#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++		phy_free_filebuf_mask(adapter, LOAD_BB_PG_PARA_FILE | LOAD_RF_TXPWR_LMT_PARA_FILE);
++		#endif
++
++		rtw_ps_deny(adapter, PS_DENY_IOCTL);
++		LeaveAllPowerSaveModeDirect(adapter);
++
++		if (strcmp("default", cmd) == 0)
++			rtw_run_in_thread_cmd(adapter, ((void *)(phy_reload_default_tx_power_ext_info)), adapter);
++		else
++			rtw_run_in_thread_cmd(adapter, ((void *)(phy_reload_tx_power_ext_info)), adapter);
++
++		rtw_ps_deny_cancel(adapter, PS_DENY_IOCTL);
++	}
++
++	return count;
++}
++
++static void *proc_start_tx_power_idx(struct seq_file *m, loff_t *pos)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 path = ((*pos) & 0xFF00) >> 8;
++	u8 rs = *pos & 0xFF;
++
++	if (path >= RF_PATH_MAX)
++		return NULL;
++
++	return pos;
++}
++static void proc_stop_tx_power_idx(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++}
++
++static void *proc_next_tx_power_idx(struct seq_file *m, void *v, loff_t *pos)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 path = ((*pos) & 0xFF00) >> 8;
++	u8 rs = *pos & 0xFF;
++
++	rs++;
++	if (rs >= RATE_SECTION_NUM) {
++		rs = 0;
++		path++;
++	}
++
++	if (path >= RF_PATH_MAX)
++		return NULL;
++
++	*pos = (path << 8) | rs;
++
++	return pos;
++}
++
++static int proc_get_tx_power_idx(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	u32 pos = *((loff_t *)(v));
++	u8 path = (pos & 0xFF00) >> 8;
++	u8 rs = pos & 0xFF;
++
++	if (0)
++		RTW_INFO("%s path=%u, rs=%u\n", __func__, path, rs);
++
++	if (path == RF_PATH_A && rs == CCK)
++		dump_tx_power_idx_title(m, adapter);
++	dump_tx_power_idx_by_path_rs(m, adapter, path, rs);
++
++	return 0;
++}
++
++static struct seq_operations seq_ops_tx_power_idx = {
++	.start = proc_start_tx_power_idx,
++	.stop  = proc_stop_tx_power_idx,
++	.next  = proc_next_tx_power_idx,
++	.show  = proc_get_tx_power_idx,
++};
++
++#ifdef CONFIG_RF_POWER_TRIM
++static int proc_get_kfree_flag(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct kfree_data_t *kfree_data = GET_KFREE_DATA(adapter);
++
++	RTW_PRINT_SEL(m, "0x%02x\n", kfree_data->flag);
++
++	return 0;
++}
++
++static ssize_t proc_set_kfree_flag(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct kfree_data_t *kfree_data = GET_KFREE_DATA(adapter);
++	char tmp[32] = {0};
++	u8 flag;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhx", &flag);
++
++		if (num < 1)
++			return count;
++
++		kfree_data->flag = flag;
++	}
++
++	return count;
++}
++
++static int proc_get_kfree_bb_gain(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct kfree_data_t *kfree_data = GET_KFREE_DATA(adapter);
++	u8 i, j;
++
++	for (i = 0; i < BB_GAIN_NUM; i++) {
++		if (i == 0)
++			_RTW_PRINT_SEL(m, "2G: ");
++		else if (i == 1)
++			_RTW_PRINT_SEL(m, "5GLB1: ");
++		else if (i == 2)
++			_RTW_PRINT_SEL(m, "5GLB2: ");
++		else if (i == 3)
++			_RTW_PRINT_SEL(m, "5GMB1: ");
++		else if (i == 4)
++			_RTW_PRINT_SEL(m, "5GMB2: ");
++		else if (i == 5)
++			_RTW_PRINT_SEL(m, "5GHB: ");
++
++		for (j = 0; j < hal_data->NumTotalRFPath; j++)
++			_RTW_PRINT_SEL(m, "%d ", kfree_data->bb_gain[i][j]);
++		_RTW_PRINT_SEL(m, "\n");
++	}
++
++	return 0;
++}
++
++static ssize_t proc_set_kfree_bb_gain(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct kfree_data_t *kfree_data = GET_KFREE_DATA(adapter);
++	char tmp[BB_GAIN_NUM * RF_PATH_MAX] = {0};
++	u8 path, chidx;
++	s8 bb_gain[BB_GAIN_NUM];
++	char ch_band_Group[6];
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		char *c, *next;
++		int i = 0;
++
++		next = tmp;
++		c = strsep(&next, " \t");
++
++		if (sscanf(c, "%s", ch_band_Group) != 1) {
++			RTW_INFO("Error Head Format, channel Group select\n,Please input:\t 2G , 5GLB1 , 5GLB2 , 5GMB1 , 5GMB2 , 5GHB\n");
++			return count;
++		}
++		if (strcmp("2G", ch_band_Group) == 0)
++			chidx = BB_GAIN_2G;
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++		else if (strcmp("5GLB1", ch_band_Group) == 0)
++			chidx = BB_GAIN_5GLB1;
++		else if (strcmp("5GLB2", ch_band_Group) == 0)
++			chidx = BB_GAIN_5GLB2;
++		else if (strcmp("5GMB1", ch_band_Group) == 0)
++			chidx = BB_GAIN_5GMB1;
++		else if (strcmp("5GMB2", ch_band_Group) == 0)
++			chidx = BB_GAIN_5GMB2;
++		else if (strcmp("5GHB", ch_band_Group) == 0)
++			chidx = BB_GAIN_5GHB;
++#endif /*CONFIG_IEEE80211_BAND_5GHZ*/
++		else {
++			RTW_INFO("Error Head Format, channel Group select\n,Please input:\t 2G , 5GLB1 , 5GLB2 , 5GMB1 , 5GMB2 , 5GHB\n");
++			return count;
++		}
++		c = strsep(&next, " \t");
++
++		while (c != NULL) {
++			if (sscanf(c, "%hhx", &bb_gain[i]) != 1)
++				break;
++
++			kfree_data->bb_gain[chidx][i] = bb_gain[i];
++			RTW_INFO("%s,kfree_data->bb_gain[%d][%d]=%x\n", __func__, chidx, i, kfree_data->bb_gain[chidx][i]);
++
++			c = strsep(&next, " \t");
++			i++;
++		}
++
++	}
++
++	return count;
++
++}
++
++static int proc_get_kfree_thermal(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct kfree_data_t *kfree_data = GET_KFREE_DATA(adapter);
++
++	_RTW_PRINT_SEL(m, "%d\n", kfree_data->thermal);
++
++	return 0;
++}
++
++static ssize_t proc_set_kfree_thermal(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct kfree_data_t *kfree_data = GET_KFREE_DATA(adapter);
++	char tmp[32] = {0};
++	s8 thermal;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhd", &thermal);
++
++		if (num < 1)
++			return count;
++
++		kfree_data->thermal = thermal;
++	}
++
++	return count;
++}
++
++static ssize_t proc_set_tx_gain_offset(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter;
++	char tmp[32] = {0};
++	u8 rf_path;
++	s8 offset;
++
++	adapter = (_adapter *)rtw_netdev_priv(dev);
++	if (!adapter)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		u8 write_value;
++		int num = sscanf(tmp, "%hhu %hhd", &rf_path, &offset);
++
++		if (num < 2)
++			return count;
++
++		RTW_INFO("write rf_path:%u tx gain offset:%d\n", rf_path, offset);
++		rtw_rf_set_tx_gain_offset(adapter, rf_path, offset);
++	}
++
++	return count;
++}
++#endif /* CONFIG_RF_POWER_TRIM */
++
++#ifdef CONFIG_BT_COEXIST
++ssize_t proc_set_btinfo_evt(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u8 btinfo[8];
++
++	if (count < 6)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = 0;
++
++		_rtw_memset(btinfo, 0, 8);
++
++		num = sscanf(tmp, "%hhx %hhx %hhx %hhx %hhx %hhx %hhx %hhx"
++			, &btinfo[0], &btinfo[1], &btinfo[2], &btinfo[3]
++			, &btinfo[4], &btinfo[5], &btinfo[6], &btinfo[7]);
++
++		if (num < 6)
++			return -EINVAL;
++
++		btinfo[1] = num - 2;
++
++		rtw_btinfo_cmd(padapter, btinfo, btinfo[1] + 2);
++	}
++
++	return count;
++}
++
++static u8 btreg_read_type = 0;
++static u16 btreg_read_addr = 0;
++static int btreg_read_error = 0;
++static u8 btreg_write_type = 0;
++static u16 btreg_write_addr = 0;
++static int btreg_write_error = 0;
++
++static u8 *btreg_type[] = {
++	"rf",
++	"modem",
++	"bluewize",
++	"vendor",
++	"le"
++};
++
++static int btreg_parse_str(char const *input, u8 *type, u16 *addr, u16 *val)
++{
++	u32 num;
++	u8 str[80] = {0};
++	u8 t = 0;
++	u32 a, v;
++	u8 i, n;
++	u8 *p;
++
++
++	num = sscanf(input, "%s %x %x", str, &a, &v);
++	if (num < 2) {
++		RTW_INFO("%s: INVALID input!(%s)\n", __FUNCTION__, input);
++		return -EINVAL;
++	}
++	if ((num < 3) && val) {
++		RTW_INFO("%s: INVALID input!(%s)\n", __FUNCTION__, input);
++		return -EINVAL;
++	}
++
++	/* convert to lower case for following type compare */
++	p = str;
++	for (; *p; ++p)
++		*p = tolower(*p);
++	n = sizeof(btreg_type) / sizeof(btreg_type[0]);
++	for (i = 0; i < n; i++) {
++		if (!strcmp(str, btreg_type[i])) {
++			t = i;
++			break;
++		}
++	}
++	if (i == n) {
++		RTW_INFO("%s: unknown type(%s)!\n", __FUNCTION__, str);
++		return -EINVAL;
++	}
++
++	switch (t) {
++	case 0:
++		/* RF */
++		if (a & 0xFFFFFF80) {
++			RTW_INFO("%s: INVALID address(0x%X) for type %s(%d)!\n",
++				 __FUNCTION__, a, btreg_type[t], t);
++			return -EINVAL;
++		}
++		break;
++	case 1:
++		/* Modem */
++		if (a & 0xFFFFFE00) {
++			RTW_INFO("%s: INVALID address(0x%X) for type %s(%d)!\n",
++				 __FUNCTION__, a, btreg_type[t], t);
++			return -EINVAL;
++		}
++		break;
++	default:
++		/* Others(Bluewize, Vendor, LE) */
++		if (a & 0xFFFFF000) {
++			RTW_INFO("%s: INVALID address(0x%X) for type %s(%d)!\n",
++				 __FUNCTION__, a, btreg_type[t], t);
++			return -EINVAL;
++		}
++		break;
++	}
++
++	if (val) {
++		if (v & 0xFFFF0000) {
++			RTW_INFO("%s: INVALID value(0x%x)!\n", __FUNCTION__, v);
++			return -EINVAL;
++		}
++		*val = (u16)v;
++	}
++
++	*type = (u8)t;
++	*addr = (u16)a;
++
++	return 0;
++}
++
++int proc_get_btreg_read(struct seq_file *m, void *v)
++{
++	struct net_device *dev;
++	PADAPTER padapter;
++	u16 ret;
++	u32 data;
++
++
++	if (btreg_read_error)
++		return btreg_read_error;
++
++	dev = m->private;
++	padapter = (PADAPTER)rtw_netdev_priv(dev);
++
++	ret = rtw_btcoex_btreg_read(padapter, btreg_read_type, btreg_read_addr, &data);
++	if (CHECK_STATUS_CODE_FROM_BT_MP_OPER_RET(ret, BT_STATUS_BT_OP_SUCCESS))
++		RTW_PRINT_SEL(m, "BTREG read: (%s)0x%04X = 0x%08x\n", btreg_type[btreg_read_type], btreg_read_addr, data);
++	else
++		RTW_PRINT_SEL(m, "BTREG read: (%s)0x%04X read fail. error code = 0x%04x.\n", btreg_type[btreg_read_type], btreg_read_addr, ret);
++
++	return 0;
++}
++
++ssize_t proc_set_btreg_read(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	PADAPTER padapter;
++	u8 tmp[80] = {0};
++	u32 num;
++	int err;
++
++
++	padapter = (PADAPTER)rtw_netdev_priv(dev);
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n",
++			 FUNC_ADPT_ARG(padapter));
++		err = -EFAULT;
++		goto exit;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n",
++			 FUNC_ADPT_ARG(padapter));
++		err = -EFAULT;
++		goto exit;
++	}
++
++	num = count;
++	if (num > (sizeof(tmp) - 1))
++		num = (sizeof(tmp) - 1);
++
++	if (copy_from_user(tmp, buffer, num)) {
++		RTW_INFO(FUNC_ADPT_FMT ": copy buffer from user space FAIL!\n",
++			 FUNC_ADPT_ARG(padapter));
++		err = -EFAULT;
++		goto exit;
++	}
++	/* [Coverity] sure tmp end with '\0'(string terminal) */
++	tmp[sizeof(tmp) - 1] = 0;
++
++	err = btreg_parse_str(tmp, &btreg_read_type, &btreg_read_addr, NULL);
++	if (err)
++		goto exit;
++
++	RTW_INFO(FUNC_ADPT_FMT ": addr=(%s)0x%X\n",
++		FUNC_ADPT_ARG(padapter), btreg_type[btreg_read_type], btreg_read_addr);
++
++exit:
++	btreg_read_error = err;
++
++	return count;
++}
++
++int proc_get_btreg_write(struct seq_file *m, void *v)
++{
++	struct net_device *dev;
++	PADAPTER padapter;
++	u16 ret;
++	u32 data;
++
++
++	if (btreg_write_error < 0)
++		return btreg_write_error;
++	else if (btreg_write_error > 0) {
++		RTW_PRINT_SEL(m, "BTREG write: (%s)0x%04X write fail. error code = 0x%04x.\n", btreg_type[btreg_write_type], btreg_write_addr, btreg_write_error);
++		return 0;
++	}
++
++	dev = m->private;
++	padapter = (PADAPTER)rtw_netdev_priv(dev);
++
++	ret = rtw_btcoex_btreg_read(padapter, btreg_write_type, btreg_write_addr, &data);
++	if (CHECK_STATUS_CODE_FROM_BT_MP_OPER_RET(ret, BT_STATUS_BT_OP_SUCCESS))
++		RTW_PRINT_SEL(m, "BTREG read: (%s)0x%04X = 0x%08x\n", btreg_type[btreg_write_type], btreg_write_addr, data);
++	else
++		RTW_PRINT_SEL(m, "BTREG read: (%s)0x%04X read fail. error code = 0x%04x.\n", btreg_type[btreg_write_type], btreg_write_addr, ret);
++
++	return 0;
++}
++
++ssize_t proc_set_btreg_write(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	PADAPTER padapter;
++	u8 tmp[80] = {0};
++	u32 num;
++	u16 val;
++	u16 ret;
++	int err;
++
++
++	padapter = (PADAPTER)rtw_netdev_priv(dev);
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n",
++			 FUNC_ADPT_ARG(padapter));
++		err = -EFAULT;
++		goto exit;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n",
++			 FUNC_ADPT_ARG(padapter));
++		err = -EFAULT;
++		goto exit;
++	}
++
++	num = count;
++	if (num > (sizeof(tmp) - 1))
++		num = (sizeof(tmp) - 1);
++
++	if (copy_from_user(tmp, buffer, num)) {
++		RTW_INFO(FUNC_ADPT_FMT ": copy buffer from user space FAIL!\n",
++			 FUNC_ADPT_ARG(padapter));
++		err = -EFAULT;
++		goto exit;
++	}
++
++	err = btreg_parse_str(tmp, &btreg_write_type, &btreg_write_addr, &val);
++	if (err)
++		goto exit;
++
++	RTW_INFO(FUNC_ADPT_FMT ": Set (%s)0x%X = 0x%x\n",
++		FUNC_ADPT_ARG(padapter), btreg_type[btreg_write_type], btreg_write_addr, val);
++
++	ret = rtw_btcoex_btreg_write(padapter, btreg_write_type, btreg_write_addr, val);
++	if (!CHECK_STATUS_CODE_FROM_BT_MP_OPER_RET(ret, BT_STATUS_BT_OP_SUCCESS))
++		err = ret;
++
++exit:
++	btreg_write_error = err;
++
++	return count;
++}
++#endif /* CONFIG_BT_COEXIST */
++
++#ifdef CONFIG_MBSSID_CAM
++int proc_get_mbid_cam_cache(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	rtw_mbid_cam_cache_dump(m, __func__, adapter);
++	rtw_mbid_cam_dump(m, __func__, adapter);
++	return 0;
++}
++#endif /* CONFIG_MBSSID_CAM */
++
++int proc_get_mac_addr(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	rtw_hal_dump_macaddr(m, adapter);
++	return 0;
++}
++
++static int proc_get_skip_band(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	int bandskip;
++
++	bandskip = RTW_GET_SCAN_BAND_SKIP(adapter);
++	RTW_PRINT_SEL(m, "bandskip:0x%02x\n", bandskip);
++	return 0;
++}
++
++static ssize_t proc_set_skip_band(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[6];
++	u8 skip_band;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhu", &skip_band);
++
++		if (num < 1)
++			return -EINVAL;
++
++		if (1 == skip_band)
++			RTW_SET_SCAN_BAND_SKIP(padapter, BAND_24G);
++		else if (2 == skip_band)
++			RTW_SET_SCAN_BAND_SKIP(padapter, BAND_5G);
++		else if (3 == skip_band)
++			RTW_CLR_SCAN_BAND_SKIP(padapter, BAND_24G);
++		else if (4 == skip_band)
++			RTW_CLR_SCAN_BAND_SKIP(padapter, BAND_5G);
++	}
++	return count;
++
++}
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++static int proc_get_best_chan(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 best_24g_ch = 0, best_5g_ch = 0;
++
++	rtw_hal_get_odm_var(adapter, HAL_ODM_AUTO_CHNL_SEL, &(best_24g_ch), &(best_5g_ch));
++
++	RTW_PRINT_SEL(m, "Best 2.4G CH:%u\n", best_24g_ch);
++	RTW_PRINT_SEL(m, "Best 5G CH:%u\n", best_5g_ch);
++	return 0;
++}
++
++static ssize_t  proc_set_acs(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u8 acs_satae = 0;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhu", &acs_satae);
++
++		if (num < 1)
++			return -EINVAL;
++
++		if (1 == acs_satae)
++			rtw_acs_start(padapter, _TRUE);
++		else
++			rtw_acs_start(padapter, _FALSE);
++
++	}
++	return count;
++}
++#endif
++
++static int proc_get_hal_spec(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_hal_spec(m, adapter);
++	return 0;
++}
++
++#ifdef CONFIG_SUPPORT_TRX_SHARED
++#include "../../hal/hal_halmac.h"
++static int proc_get_trx_share_mode(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_trx_share_mode(m, adapter);
++	return 0;
++}
++#endif
++
++static int proc_get_napi_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregistrypriv = &adapter->registrypriv;
++	
++#ifdef CONFIG_RTW_NAPI
++	if(pregistrypriv->en_napi  == TRUE)
++		_RTW_PRINT_SEL(m, "NAPI enable, weight=%d\n", RTL_NAPI_WEIGHT);
++	else
++		_RTW_PRINT_SEL(m, "NAPI disable\n");
++#else
++	_RTW_PRINT_SEL(m, "NAPI disable\n");
++#endif
++#ifdef CONFIG_RTW_GRO
++	if(pregistrypriv->en_gro == TRUE)
++		_RTW_PRINT_SEL(m, "GRO enable\n");
++	else
++		_RTW_PRINT_SEL(m, "GRO disable\n");
++#else
++	_RTW_PRINT_SEL(m, "GRO disable\n");
++#endif
++
++
++	return 0;
++}
++
++/*
++* rtw_adapter_proc:
++* init/deinit when register/unregister net_device
++*/
++const struct rtw_proc_hdl adapter_proc_hdls[] = {
++#if RTW_SEQ_FILE_TEST
++	RTW_PROC_HDL_SEQ("seq_file_test", &seq_file_test, NULL),
++#endif
++	RTW_PROC_HDL_SSEQ("write_reg", NULL, proc_set_write_reg),
++	RTW_PROC_HDL_SSEQ("read_reg", proc_get_read_reg, proc_set_read_reg),
++	RTW_PROC_HDL_SSEQ("tx_rate_bmp", proc_get_dump_tx_rate_bmp, NULL),
++	RTW_PROC_HDL_SSEQ("adapters_status", proc_get_dump_adapters_status, NULL),
++	RTW_PROC_HDL_SSEQ("adapters_info", proc_get_dump_adapters_info, NULL),
++	RTW_PROC_HDL_SSEQ("fwstate", proc_get_fwstate, NULL),
++	RTW_PROC_HDL_SSEQ("sec_info", proc_get_sec_info, NULL),
++	RTW_PROC_HDL_SSEQ("mlmext_state", proc_get_mlmext_state, NULL),
++	RTW_PROC_HDL_SSEQ("qos_option", proc_get_qos_option, NULL),
++	RTW_PROC_HDL_SSEQ("ht_option", proc_get_ht_option, NULL),
++	RTW_PROC_HDL_SSEQ("rf_info", proc_get_rf_info, NULL),
++	RTW_PROC_HDL_SSEQ("scan_param", proc_get_scan_param, proc_set_scan_param),
++	RTW_PROC_HDL_SSEQ("scan_abort", proc_get_scan_abort, NULL),
++#ifdef CONFIG_SCAN_BACKOP
++	RTW_PROC_HDL_SSEQ("backop_flags_sta", proc_get_backop_flags_sta, proc_set_backop_flags_sta),
++	RTW_PROC_HDL_SSEQ("backop_flags_ap", proc_get_backop_flags_ap, proc_set_backop_flags_ap),
++#endif
++	RTW_PROC_HDL_SSEQ("survey_info", proc_get_survey_info, proc_set_survey_info),
++	RTW_PROC_HDL_SSEQ("ap_info", proc_get_ap_info, NULL),
++	RTW_PROC_HDL_SSEQ("trx_info", proc_get_trx_info, proc_reset_trx_info),
++	RTW_PROC_HDL_SSEQ("rate_ctl", proc_get_rate_ctl, proc_set_rate_ctl),
++	RTW_PROC_HDL_SSEQ("bw_ctl", proc_get_bw_ctl, proc_set_bw_ctl),
++	RTW_PROC_HDL_SSEQ("dis_pwt_ctl", proc_get_dis_pwt, proc_set_dis_pwt),
++	RTW_PROC_HDL_SSEQ("mac_qinfo", proc_get_mac_qinfo, NULL),
++	RTW_PROC_HDL_SSEQ("macid_info", proc_get_macid_info, NULL),
++	RTW_PROC_HDL_SSEQ("bcmc_info", proc_get_mi_ap_bc_info, NULL),
++	RTW_PROC_HDL_SSEQ("sec_cam", proc_get_sec_cam, proc_set_sec_cam),
++	RTW_PROC_HDL_SSEQ("sec_cam_cache", proc_get_sec_cam_cache, NULL),
++	RTW_PROC_HDL_SSEQ("suspend_info", proc_get_suspend_resume_info, NULL),
++	RTW_PROC_HDL_SSEQ("wifi_spec", proc_get_wifi_spec, NULL),
++#ifdef CONFIG_LAYER2_ROAMING
++	RTW_PROC_HDL_SSEQ("roam_flags", proc_get_roam_flags, proc_set_roam_flags),
++	RTW_PROC_HDL_SSEQ("roam_param", proc_get_roam_param, proc_set_roam_param),
++	RTW_PROC_HDL_SSEQ("roam_tgt_addr", NULL, proc_set_roam_tgt_addr),
++#endif /* CONFIG_LAYER2_ROAMING */
++
++#ifdef CONFIG_RTW_80211R
++	RTW_PROC_HDL_SSEQ("ft_flags", proc_get_ft_flags, proc_set_ft_flags),
++#endif
++
++#ifdef CONFIG_SDIO_HCI
++	RTW_PROC_HDL_SSEQ("sd_f0_reg_dump", proc_get_sd_f0_reg_dump, NULL),
++	RTW_PROC_HDL_SSEQ("sdio_local_reg_dump", proc_get_sdio_local_reg_dump, NULL),
++#endif /* CONFIG_SDIO_HCI */
++
++	RTW_PROC_HDL_SSEQ("fwdl_test_case", NULL, proc_set_fwdl_test_case),
++	RTW_PROC_HDL_SSEQ("del_rx_ampdu_test_case", NULL, proc_set_del_rx_ampdu_test_case),
++	RTW_PROC_HDL_SSEQ("wait_hiq_empty", NULL, proc_set_wait_hiq_empty),
++
++	RTW_PROC_HDL_SSEQ("mac_reg_dump", proc_get_mac_reg_dump, NULL),
++	RTW_PROC_HDL_SSEQ("bb_reg_dump", proc_get_bb_reg_dump, NULL),
++	RTW_PROC_HDL_SSEQ("rf_reg_dump", proc_get_rf_reg_dump, NULL),
++
++#ifdef CONFIG_AP_MODE
++	RTW_PROC_HDL_SSEQ("all_sta_info", proc_get_all_sta_info, NULL),
++#endif /* CONFIG_AP_MODE */
++
++#ifdef DBG_MEMORY_LEAK
++	RTW_PROC_HDL_SSEQ("_malloc_cnt", proc_get_malloc_cnt, NULL),
++#endif /* DBG_MEMORY_LEAK */
++
++#ifdef CONFIG_FIND_BEST_CHANNEL
++	RTW_PROC_HDL_SSEQ("best_channel", proc_get_best_channel, proc_set_best_channel),
++#endif
++
++	RTW_PROC_HDL_SSEQ("rx_signal", proc_get_rx_signal, proc_set_rx_signal),
++	RTW_PROC_HDL_SSEQ("hw_info", proc_get_hw_status, proc_set_hw_status),
++
++#ifdef CONFIG_80211N_HT
++	RTW_PROC_HDL_SSEQ("ht_enable", proc_get_ht_enable, proc_set_ht_enable),
++	RTW_PROC_HDL_SSEQ("bw_mode", proc_get_bw_mode, proc_set_bw_mode),
++	RTW_PROC_HDL_SSEQ("ampdu_enable", proc_get_ampdu_enable, proc_set_ampdu_enable),
++	RTW_PROC_HDL_SSEQ("rx_stbc", proc_get_rx_stbc, proc_set_rx_stbc),
++	RTW_PROC_HDL_SSEQ("rx_ampdu", proc_get_rx_ampdu, proc_set_rx_ampdu),
++	RTW_PROC_HDL_SSEQ("rx_ampdu_factor", proc_get_rx_ampdu_factor, proc_set_rx_ampdu_factor),
++	RTW_PROC_HDL_SSEQ("rx_ampdu_density", proc_get_rx_ampdu_density, proc_set_rx_ampdu_density),
++	RTW_PROC_HDL_SSEQ("tx_ampdu_density", proc_get_tx_ampdu_density, proc_set_tx_ampdu_density),
++#endif /* CONFIG_80211N_HT */
++
++	RTW_PROC_HDL_SSEQ("en_fwps", proc_get_en_fwps, proc_set_en_fwps),
++	RTW_PROC_HDL_SSEQ("mac_rptbuf", proc_get_mac_rptbuf, NULL),
++
++	/* RTW_PROC_HDL_SSEQ("path_rssi", proc_get_two_path_rssi, NULL),
++	* 	RTW_PROC_HDL_SSEQ("rssi_disp",proc_get_rssi_disp, proc_set_rssi_disp), */
++
++#ifdef CONFIG_BT_COEXIST
++	RTW_PROC_HDL_SSEQ("btcoex_dbg", proc_get_btcoex_dbg, proc_set_btcoex_dbg),
++	RTW_PROC_HDL_SSEQ("btcoex", proc_get_btcoex_info, NULL),
++	RTW_PROC_HDL_SSEQ("btinfo_evt", NULL, proc_set_btinfo_evt),
++	RTW_PROC_HDL_SSEQ("btreg_read", proc_get_btreg_read, proc_set_btreg_read),
++	RTW_PROC_HDL_SSEQ("btreg_write", proc_get_btreg_write, proc_set_btreg_write),
++#endif /* CONFIG_BT_COEXIST */
++
++#if defined(DBG_CONFIG_ERROR_DETECT)
++	RTW_PROC_HDL_SSEQ("sreset", proc_get_sreset, proc_set_sreset),
++#endif /* DBG_CONFIG_ERROR_DETECT */
++	RTW_PROC_HDL_SSEQ("trx_info_debug", proc_get_trx_info_debug, NULL),
++	RTW_PROC_HDL_SSEQ("linked_info_dump", proc_get_linked_info_dump, proc_set_linked_info_dump),
++	RTW_PROC_HDL_SSEQ("tx_info_msg", proc_get_tx_info_msg, NULL),
++	RTW_PROC_HDL_SSEQ("rx_info_msg", proc_get_rx_info_msg, proc_set_rx_info_msg),
++#ifdef CONFIG_GPIO_API
++	RTW_PROC_HDL_SSEQ("gpio_info", proc_get_gpio, proc_set_gpio),
++	RTW_PROC_HDL_SSEQ("gpio_set_output_value", NULL, proc_set_gpio_output_value),
++	RTW_PROC_HDL_SSEQ("gpio_set_direction", NULL, proc_set_config_gpio),
++#endif
++
++#ifdef CONFIG_DBG_COUNTER
++	RTW_PROC_HDL_SSEQ("rx_logs", proc_get_rx_logs, NULL),
++	RTW_PROC_HDL_SSEQ("tx_logs", proc_get_tx_logs, NULL),
++	RTW_PROC_HDL_SSEQ("int_logs", proc_get_int_logs, NULL),
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	RTW_PROC_HDL_SSEQ("rx_ring", proc_get_rx_ring, NULL),
++	RTW_PROC_HDL_SSEQ("tx_ring", proc_get_tx_ring, NULL),
++#endif
++
++#ifdef CONFIG_WOWLAN
++	RTW_PROC_HDL_SSEQ("wow_pattern_info", proc_get_pattern_info, proc_set_pattern_info),
++	RTW_PROC_HDL_SSEQ("wowlan_last_wake_reason", proc_get_wakeup_reason, NULL),
++#endif
++
++#ifdef CONFIG_GPIO_WAKEUP
++	RTW_PROC_HDL_SSEQ("wowlan_gpio_info", proc_get_wowlan_gpio_info, proc_set_wowlan_gpio_info),
++#endif
++#ifdef CONFIG_P2P_WOWLAN
++	RTW_PROC_HDL_SSEQ("p2p_wowlan_info", proc_get_p2p_wowlan_info, NULL),
++#endif
++	RTW_PROC_HDL_SSEQ("country_code", proc_get_country_code, proc_set_country_code),
++	RTW_PROC_HDL_SSEQ("chan_plan", proc_get_chan_plan, proc_set_chan_plan),
++#if CONFIG_RTW_MACADDR_ACL
++	RTW_PROC_HDL_SSEQ("macaddr_acl", proc_get_macaddr_acl, proc_set_macaddr_acl),
++#endif
++#ifdef CONFIG_DFS_MASTER
++	RTW_PROC_HDL_SSEQ("dfs_master_test_case", proc_get_dfs_master_test_case, proc_set_dfs_master_test_case),
++	RTW_PROC_HDL_SSEQ("update_non_ocp", NULL, proc_set_update_non_ocp),
++	RTW_PROC_HDL_SSEQ("radar_detect", NULL, proc_set_radar_detect),
++	RTW_PROC_HDL_SSEQ("dfs_ch_sel_d_flags", proc_get_dfs_ch_sel_d_flags, proc_set_dfs_ch_sel_d_flags),
++#endif
++	RTW_PROC_HDL_SSEQ("new_bcn_max", proc_get_new_bcn_max, proc_set_new_bcn_max),
++	RTW_PROC_HDL_SSEQ("sink_udpport", proc_get_udpport, proc_set_udpport),
++#ifdef DBG_RX_COUNTER_DUMP
++	RTW_PROC_HDL_SSEQ("dump_rx_cnt_mode", proc_get_rx_cnt_dump, proc_set_rx_cnt_dump),
++#endif
++	RTW_PROC_HDL_SSEQ("change_bss_chbw", NULL, proc_set_change_bss_chbw),
++	RTW_PROC_HDL_SSEQ("tx_bw_mode", proc_get_tx_bw_mode, proc_set_tx_bw_mode),
++	RTW_PROC_HDL_SSEQ("hal_txpwr_info", proc_get_hal_txpwr_info, NULL),
++	RTW_PROC_HDL_SSEQ("target_tx_power", proc_get_target_tx_power, NULL),
++	RTW_PROC_HDL_SSEQ("tx_power_by_rate", proc_get_tx_power_by_rate, NULL),
++	RTW_PROC_HDL_SSEQ("tx_power_limit", proc_get_tx_power_limit, NULL),
++	RTW_PROC_HDL_SSEQ("tx_power_ext_info", proc_get_tx_power_ext_info, proc_set_tx_power_ext_info),
++	RTW_PROC_HDL_SEQ("tx_power_idx", &seq_ops_tx_power_idx, NULL),
++#ifdef CONFIG_RF_POWER_TRIM
++	RTW_PROC_HDL_SSEQ("tx_gain_offset", NULL, proc_set_tx_gain_offset),
++	RTW_PROC_HDL_SSEQ("kfree_flag", proc_get_kfree_flag, proc_set_kfree_flag),
++	RTW_PROC_HDL_SSEQ("kfree_bb_gain", proc_get_kfree_bb_gain, proc_set_kfree_bb_gain),
++	RTW_PROC_HDL_SSEQ("kfree_thermal", proc_get_kfree_thermal, proc_set_kfree_thermal),
++#endif
++#ifdef CONFIG_POWER_SAVING
++	RTW_PROC_HDL_SSEQ("ps_info", proc_get_ps_info, NULL),
++#endif
++#ifdef CONFIG_TDLS
++	RTW_PROC_HDL_SSEQ("tdls_info", proc_get_tdls_info, NULL),
++#endif
++	RTW_PROC_HDL_SSEQ("monitor", proc_get_monitor, proc_set_monitor),
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	RTW_PROC_HDL_SSEQ("acs", proc_get_best_chan, proc_set_acs),
++#endif
++#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++	RTW_PROC_HDL_SSEQ("rtkm_info", proc_get_rtkm_info, NULL),
++#endif
++	RTW_PROC_HDL_SSEQ("efuse_map", proc_get_efuse_map, NULL),
++#ifdef CONFIG_IEEE80211W
++	RTW_PROC_HDL_SSEQ("11w_tx_sa_query", proc_get_tx_sa_query, proc_set_tx_sa_query),
++	RTW_PROC_HDL_SSEQ("11w_tx_deauth", proc_get_tx_deauth, proc_set_tx_deauth),
++	RTW_PROC_HDL_SSEQ("11w_tx_auth", proc_get_tx_auth, proc_set_tx_auth),
++#endif /* CONFIG_IEEE80211W */
++
++#ifdef CONFIG_MBSSID_CAM
++	RTW_PROC_HDL_SSEQ("mbid_cam", proc_get_mbid_cam_cache, NULL),
++#endif
++	RTW_PROC_HDL_SSEQ("mac_addr", proc_get_mac_addr, NULL),
++	RTW_PROC_HDL_SSEQ("skip_band", proc_get_skip_band, proc_set_skip_band),
++	RTW_PROC_HDL_SSEQ("hal_spec", proc_get_hal_spec, NULL),
++#ifdef CONFIG_SUPPORT_TRX_SHARED
++	RTW_PROC_HDL_SSEQ("trx_share_mode", proc_get_trx_share_mode, NULL),
++#endif
++	RTW_PROC_HDL_SSEQ("napi_info", proc_get_napi_info, NULL),
++};
++
++const int adapter_proc_hdls_num = sizeof(adapter_proc_hdls) / sizeof(struct rtw_proc_hdl);
++
++static int rtw_adapter_proc_open(struct inode *inode, struct file *file)
++{
++	ssize_t index = (ssize_t)PDE_DATA(inode);
++	const struct rtw_proc_hdl *hdl = adapter_proc_hdls + index;
++	void *private = proc_get_parent_data(inode);
++
++	if (hdl->type == RTW_PROC_HDL_TYPE_SEQ) {
++		int res = seq_open(file, hdl->u.seq_op);
++
++		if (res == 0)
++			((struct seq_file *)file->private_data)->private = private;
++
++		return res;
++	} else if (hdl->type == RTW_PROC_HDL_TYPE_SSEQ) {
++		int (*show)(struct seq_file *, void *) = hdl->u.show ? hdl->u.show : proc_get_dummy;
++
++		return single_open(file, show, private);
++	} else {
++		return -EROFS;
++	}
++}
++
++static ssize_t rtw_adapter_proc_write(struct file *file, const char __user *buffer, size_t count, loff_t *pos)
++{
++	ssize_t index = (ssize_t)PDE_DATA(file_inode(file));
++	const struct rtw_proc_hdl *hdl = adapter_proc_hdls + index;
++	ssize_t (*write)(struct file *, const char __user *, size_t, loff_t *, void *) = hdl->write;
++
++	if (write)
++		return write(file, buffer, count, pos, ((struct seq_file *)file->private_data)->private);
++
++	return -EROFS;
++}
++
++static const struct file_operations rtw_adapter_proc_seq_fops = {
++	.owner = THIS_MODULE,
++	.open = rtw_adapter_proc_open,
++	.read = seq_read,
++	.llseek = seq_lseek,
++	.release = seq_release,
++	.write = rtw_adapter_proc_write,
++};
++
++static const struct file_operations rtw_adapter_proc_sseq_fops = {
++	.owner = THIS_MODULE,
++	.open = rtw_adapter_proc_open,
++	.read = seq_read,
++	.llseek = seq_lseek,
++	.release = single_release,
++	.write = rtw_adapter_proc_write,
++};
++
++int proc_get_odm_dbg_comp(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	rtw_odm_dbg_comp_msg(m, adapter);
++
++	return 0;
++}
++
++ssize_t proc_set_odm_dbg_comp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++
++	u64 dbg_comp;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%llx", &dbg_comp);
++
++		if (num != 1)
++			return count;
++
++		rtw_odm_dbg_comp_set(adapter, dbg_comp);
++	}
++
++	return count;
++}
++
++int proc_get_odm_dbg_level(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	rtw_odm_dbg_level_msg(m, adapter);
++
++	return 0;
++}
++
++ssize_t proc_set_odm_dbg_level(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++
++	u32 dbg_level;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%u", &dbg_level);
++
++		if (num != 1)
++			return count;
++
++		rtw_odm_dbg_level_set(adapter, dbg_level);
++	}
++
++	return count;
++}
++
++int proc_get_odm_ability(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	rtw_odm_ability_msg(m, adapter);
++
++	return 0;
++}
++
++ssize_t proc_set_odm_ability(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++
++	u32 ability;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%x", &ability);
++
++		if (num != 1)
++			return count;
++
++		rtw_odm_ability_set(adapter, ability);
++	}
++
++	return count;
++}
++
++int proc_get_odm_force_igi_lb(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT_SEL(m, "force_igi_lb:0x%02x\n", rtw_odm_get_force_igi_lb(padapter));
++
++	return 0;
++}
++
++ssize_t proc_set_odm_force_igi_lb(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u8 force_igi_lb;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhx", &force_igi_lb);
++
++		if (num != 1)
++			return count;
++
++		rtw_odm_set_force_igi_lb(padapter, force_igi_lb);
++	}
++
++	return count;
++}
++
++int proc_get_odm_adaptivity(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	rtw_odm_adaptivity_parm_msg(m, padapter);
++
++	return 0;
++}
++
++ssize_t proc_set_odm_adaptivity(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u32 TH_L2H_ini;
++	u32 TH_L2H_ini_mode2;
++	s8 TH_EDCCA_HL_diff;
++	s8 TH_EDCCA_HL_diff_mode2;
++	u8 EDCCA_enable;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%x %hhd %x %hhd %hhu", &TH_L2H_ini, &TH_EDCCA_HL_diff, &TH_L2H_ini_mode2, &TH_EDCCA_HL_diff_mode2, &EDCCA_enable);
++
++		if (num != 5)
++			return count;
++
++		rtw_odm_adaptivity_parm_set(padapter, (s8)TH_L2H_ini, TH_EDCCA_HL_diff, (s8)TH_L2H_ini_mode2, TH_EDCCA_HL_diff_mode2, EDCCA_enable);
++	}
++
++	return count;
++}
++
++static char *phydm_msg = NULL;
++#define PHYDM_MSG_LEN	80*24
++
++int proc_get_phydm_cmd(struct seq_file *m, void *v)
++{
++	struct net_device *netdev;
++	PADAPTER padapter;
++	PHAL_DATA_TYPE pHalData;
++	PDM_ODM_T phydm;
++
++
++	netdev = m->private;
++	padapter = (PADAPTER)rtw_netdev_priv(netdev);
++	pHalData = GET_HAL_DATA(padapter);
++	phydm = &pHalData->odmpriv;
++
++	if (NULL == phydm_msg) {
++		phydm_msg = rtw_zmalloc(PHYDM_MSG_LEN);
++		if (NULL == phydm_msg)
++			return -ENOMEM;
++
++		phydm_cmd(phydm, NULL, 0, 0, phydm_msg, PHYDM_MSG_LEN);
++	}
++
++	_RTW_PRINT_SEL(m, "%s\n", phydm_msg);
++
++	rtw_mfree(phydm_msg, PHYDM_MSG_LEN);
++	phydm_msg = NULL;
++
++	return 0;
++}
++
++ssize_t proc_set_phydm_cmd(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *netdev;
++	PADAPTER padapter;
++	PHAL_DATA_TYPE pHalData;
++	PDM_ODM_T phydm;
++	char tmp[64] = {0};
++
++
++	netdev = (struct net_device *)data;
++	padapter = (PADAPTER)rtw_netdev_priv(netdev);
++	pHalData = GET_HAL_DATA(padapter);
++	phydm = &pHalData->odmpriv;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp))
++		return -EFAULT;
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		if (NULL == phydm_msg) {
++			phydm_msg = rtw_zmalloc(PHYDM_MSG_LEN);
++			if (NULL == phydm_msg)
++				return -ENOMEM;
++		} else
++			_rtw_memset(phydm_msg, 0, PHYDM_MSG_LEN);
++
++		phydm_cmd(phydm, tmp, count, 1, phydm_msg, PHYDM_MSG_LEN);
++
++		if (strlen(phydm_msg) == 0) {
++			rtw_mfree(phydm_msg, PHYDM_MSG_LEN);
++			phydm_msg = NULL;
++		}
++	}
++
++	return count;
++}
++
++/*
++* rtw_odm_proc:
++* init/deinit when register/unregister net_device, along with rtw_adapter_proc
++*/
++const struct rtw_proc_hdl odm_proc_hdls[] = {
++	RTW_PROC_HDL_SSEQ("dbg_comp", proc_get_odm_dbg_comp, proc_set_odm_dbg_comp),
++	RTW_PROC_HDL_SSEQ("dbg_level", proc_get_odm_dbg_level, proc_set_odm_dbg_level),
++	RTW_PROC_HDL_SSEQ("ability", proc_get_odm_ability, proc_set_odm_ability),
++	RTW_PROC_HDL_SSEQ("adaptivity", proc_get_odm_adaptivity, proc_set_odm_adaptivity),
++	RTW_PROC_HDL_SSEQ("force_igi_lb", proc_get_odm_force_igi_lb, proc_set_odm_force_igi_lb),
++	RTW_PROC_HDL_SSEQ("cmd", proc_get_phydm_cmd, proc_set_phydm_cmd),
++};
++
++const int odm_proc_hdls_num = sizeof(odm_proc_hdls) / sizeof(struct rtw_proc_hdl);
++
++static int rtw_odm_proc_open(struct inode *inode, struct file *file)
++{
++	ssize_t index = (ssize_t)PDE_DATA(inode);
++	const struct rtw_proc_hdl *hdl = odm_proc_hdls + index;
++	void *private = proc_get_parent_data(inode);
++
++	if (hdl->type == RTW_PROC_HDL_TYPE_SEQ) {
++		int res = seq_open(file, hdl->u.seq_op);
++
++		if (res == 0)
++			((struct seq_file *)file->private_data)->private = private;
++
++		return res;
++	} else if (hdl->type == RTW_PROC_HDL_TYPE_SSEQ) {
++		int (*show)(struct seq_file *, void *) = hdl->u.show ? hdl->u.show : proc_get_dummy;
++
++		return single_open(file, show, private);
++	} else {
++		return -EROFS;
++	}
++}
++
++static ssize_t rtw_odm_proc_write(struct file *file, const char __user *buffer, size_t count, loff_t *pos)
++{
++	ssize_t index = (ssize_t)PDE_DATA(file_inode(file));
++	const struct rtw_proc_hdl *hdl = odm_proc_hdls + index;
++	ssize_t (*write)(struct file *, const char __user *, size_t, loff_t *, void *) = hdl->write;
++
++	if (write)
++		return write(file, buffer, count, pos, ((struct seq_file *)file->private_data)->private);
++
++	return -EROFS;
++}
++
++static const struct file_operations rtw_odm_proc_seq_fops = {
++	.owner = THIS_MODULE,
++	.open = rtw_odm_proc_open,
++	.read = seq_read,
++	.llseek = seq_lseek,
++	.release = seq_release,
++	.write = rtw_odm_proc_write,
++};
++
++static const struct file_operations rtw_odm_proc_sseq_fops = {
++	.owner = THIS_MODULE,
++	.open = rtw_odm_proc_open,
++	.read = seq_read,
++	.llseek = seq_lseek,
++	.release = single_release,
++	.write = rtw_odm_proc_write,
++};
++
++struct proc_dir_entry *rtw_odm_proc_init(struct net_device *dev)
++{
++	struct proc_dir_entry *dir_odm = NULL;
++	struct proc_dir_entry *entry = NULL;
++	_adapter	*adapter = rtw_netdev_priv(dev);
++	ssize_t i;
++
++	if (adapter->dir_dev == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (adapter->dir_odm != NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	dir_odm = rtw_proc_create_dir("odm", adapter->dir_dev, dev);
++	if (dir_odm == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	adapter->dir_odm = dir_odm;
++
++	for (i = 0; i < odm_proc_hdls_num; i++) {
++		if (odm_proc_hdls[i].type == RTW_PROC_HDL_TYPE_SEQ)
++			entry = rtw_proc_create_entry(odm_proc_hdls[i].name, dir_odm, &rtw_odm_proc_seq_fops, (void *)i);
++		else if (odm_proc_hdls[i].type == RTW_PROC_HDL_TYPE_SSEQ)
++			entry = rtw_proc_create_entry(odm_proc_hdls[i].name, dir_odm, &rtw_odm_proc_sseq_fops, (void *)i);
++		else
++			entry = NULL;
++
++		if (!entry) {
++			rtw_warn_on(1);
++			goto exit;
++		}
++	}
++
++exit:
++	return dir_odm;
++}
++
++void rtw_odm_proc_deinit(_adapter	*adapter)
++{
++	struct proc_dir_entry *dir_odm = NULL;
++	int i;
++
++	dir_odm = adapter->dir_odm;
++
++	if (dir_odm == NULL) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	for (i = 0; i < odm_proc_hdls_num; i++)
++		remove_proc_entry(odm_proc_hdls[i].name, dir_odm);
++
++	remove_proc_entry("odm", adapter->dir_dev);
++
++	adapter->dir_odm = NULL;
++
++	if (phydm_msg) {
++		rtw_mfree(phydm_msg, PHYDM_MSG_LEN);
++		phydm_msg = NULL;
++	}
++}
++
++#ifdef CONFIG_MCC_MODE
++/*
++* rtw_mcc_proc:
++* init/deinit when register/unregister net_device, along with rtw_adapter_proc
++*/
++const struct rtw_proc_hdl mcc_proc_hdls[] = {
++	RTW_PROC_HDL_SSEQ("mcc_info", proc_get_mcc_info, NULL),
++	RTW_PROC_HDL_SSEQ("mcc_enable", proc_get_mcc_info, proc_set_mcc_enable),
++	RTW_PROC_HDL_SSEQ("mcc_single_tx_criteria", proc_get_mcc_info, proc_set_mcc_single_tx_criteria),
++	RTW_PROC_HDL_SSEQ("mcc_ap_bw20_target_tp", proc_get_mcc_info, proc_set_mcc_ap_bw20_target_tp),
++	RTW_PROC_HDL_SSEQ("mcc_ap_bw40_target_tp", proc_get_mcc_info, proc_set_mcc_ap_bw40_target_tp),
++	RTW_PROC_HDL_SSEQ("mcc_ap_bw80_target_tp", proc_get_mcc_info, proc_set_mcc_ap_bw80_target_tp),
++	RTW_PROC_HDL_SSEQ("mcc_sta_bw20_target_tp", proc_get_mcc_info, proc_set_mcc_sta_bw20_target_tp),
++	RTW_PROC_HDL_SSEQ("mcc_sta_bw40_target_tp", proc_get_mcc_info, proc_set_mcc_sta_bw40_target_tp),
++	RTW_PROC_HDL_SSEQ("mcc_sta_bw80_target_tp", proc_get_mcc_info, proc_set_mcc_sta_bw80_target_tp),
++};
++
++const int mcc_proc_hdls_num = sizeof(mcc_proc_hdls) / sizeof(struct rtw_proc_hdl);
++
++static int rtw_mcc_proc_open(struct inode *inode, struct file *file)
++{
++	ssize_t index = (ssize_t)PDE_DATA(inode);
++	const struct rtw_proc_hdl *hdl = mcc_proc_hdls + index;
++	void *private = proc_get_parent_data(inode);
++
++	if (hdl->type == RTW_PROC_HDL_TYPE_SEQ) {
++		int res = seq_open(file, hdl->u.seq_op);
++
++		if (res == 0)
++			((struct seq_file *)file->private_data)->private = private;
++
++		return res;
++	} else if (hdl->type == RTW_PROC_HDL_TYPE_SSEQ) {
++		int (*show)(struct seq_file *, void *) = hdl->u.show ? hdl->u.show : proc_get_dummy;
++
++		return single_open(file, show, private);
++	} else {
++		return -EROFS;
++	}
++}
++
++static ssize_t rtw_mcc_proc_write(struct file *file, const char __user *buffer, size_t count, loff_t *pos)
++{
++	ssize_t index = (ssize_t)PDE_DATA(file_inode(file));
++	const struct rtw_proc_hdl *hdl = mcc_proc_hdls + index;
++	ssize_t (*write)(struct file *, const char __user *, size_t, loff_t *, void *) = hdl->write;
++
++	if (write)
++		return write(file, buffer, count, pos, ((struct seq_file *)file->private_data)->private);
++
++	return -EROFS;
++}
++
++static const struct file_operations rtw_mcc_proc_seq_fops = {
++	.owner = THIS_MODULE,
++	.open = rtw_mcc_proc_open,
++	.read = seq_read,
++	.llseek = seq_lseek,
++	.release = seq_release,
++	.write = rtw_mcc_proc_write,
++};
++
++static const struct file_operations rtw_mcc_proc_sseq_fops = {
++	.owner = THIS_MODULE,
++	.open = rtw_mcc_proc_open,
++	.read = seq_read,
++	.llseek = seq_lseek,
++	.release = single_release,
++	.write = rtw_mcc_proc_write,
++};
++
++struct proc_dir_entry *rtw_mcc_proc_init(struct net_device *dev)
++{
++	struct proc_dir_entry *dir_mcc = NULL;
++	struct proc_dir_entry *entry = NULL;
++	_adapter	*adapter = rtw_netdev_priv(dev);
++	ssize_t i;
++
++	if (adapter->dir_dev == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (adapter->dir_mcc != NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	dir_mcc = rtw_proc_create_dir("mcc", adapter->dir_dev, dev);
++	if (dir_mcc == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	adapter->dir_mcc = dir_mcc;
++
++	for (i = 0; i < mcc_proc_hdls_num; i++) {
++		if (mcc_proc_hdls[i].type == RTW_PROC_HDL_TYPE_SEQ)
++			entry = rtw_proc_create_entry(mcc_proc_hdls[i].name, dir_mcc, &rtw_mcc_proc_seq_fops, (void *)i);
++		else if (mcc_proc_hdls[i].type == RTW_PROC_HDL_TYPE_SSEQ)
++			entry = rtw_proc_create_entry(mcc_proc_hdls[i].name, dir_mcc, &rtw_mcc_proc_sseq_fops, (void *)i);
++		else
++			entry = NULL;
++
++		if (!entry) {
++			rtw_warn_on(1);
++			goto exit;
++		}
++	}
++
++exit:
++	return dir_mcc;
++}
++
++void rtw_mcc_proc_deinit(_adapter	*adapter)
++{
++	struct proc_dir_entry *dir_mcc = NULL;
++	int i;
++
++	dir_mcc = adapter->dir_mcc;
++
++	if (dir_mcc == NULL) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	for (i = 0; i < mcc_proc_hdls_num; i++)
++		remove_proc_entry(mcc_proc_hdls[i].name, dir_mcc);
++
++	remove_proc_entry("mcc", adapter->dir_dev);
++
++	adapter->dir_mcc = NULL;
++}
++#endif /* CONFIG_MCC_MODE */
++
++struct proc_dir_entry *rtw_adapter_proc_init(struct net_device *dev)
++{
++	struct proc_dir_entry *drv_proc = get_rtw_drv_proc();
++	struct proc_dir_entry *dir_dev = NULL;
++	struct proc_dir_entry *entry = NULL;
++	_adapter *adapter = rtw_netdev_priv(dev);
++	u8 rf_type;
++	ssize_t i;
++
++	if (drv_proc == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (adapter->dir_dev != NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	dir_dev = rtw_proc_create_dir(dev->name, drv_proc, dev);
++	if (dir_dev == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	adapter->dir_dev = dir_dev;
++
++	for (i = 0; i < adapter_proc_hdls_num; i++) {
++		if (adapter_proc_hdls[i].type == RTW_PROC_HDL_TYPE_SEQ)
++			entry = rtw_proc_create_entry(adapter_proc_hdls[i].name, dir_dev, &rtw_adapter_proc_seq_fops, (void *)i);
++		else if (adapter_proc_hdls[i].type == RTW_PROC_HDL_TYPE_SSEQ)
++			entry = rtw_proc_create_entry(adapter_proc_hdls[i].name, dir_dev, &rtw_adapter_proc_sseq_fops, (void *)i);
++		else
++			entry = NULL;
++
++		if (!entry) {
++			rtw_warn_on(1);
++			goto exit;
++		}
++	}
++
++	rtw_odm_proc_init(dev);
++
++#ifdef CONFIG_MCC_MODE
++	rtw_mcc_proc_init(dev);
++#endif /* CONFIG_MCC_MODE */
++
++exit:
++	return dir_dev;
++}
++
++void rtw_adapter_proc_deinit(struct net_device *dev)
++{
++	struct proc_dir_entry *drv_proc = get_rtw_drv_proc();
++	struct proc_dir_entry *dir_dev = NULL;
++	_adapter *adapter = rtw_netdev_priv(dev);
++	int i;
++
++	dir_dev = adapter->dir_dev;
++
++	if (dir_dev == NULL) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	for (i = 0; i < adapter_proc_hdls_num; i++)
++		remove_proc_entry(adapter_proc_hdls[i].name, dir_dev);
++
++	rtw_odm_proc_deinit(adapter);
++
++#ifdef CONFIG_MCC_MODE
++	rtw_mcc_proc_deinit(adapter);
++#endif /* CONFIG_MCC_MODE */
++
++	remove_proc_entry(dev->name, drv_proc);
++
++	adapter->dir_dev = NULL;
++}
++
++void rtw_adapter_proc_replace(struct net_device *dev)
++{
++	struct proc_dir_entry *drv_proc = get_rtw_drv_proc();
++	struct proc_dir_entry *dir_dev = NULL;
++	_adapter *adapter = rtw_netdev_priv(dev);
++	int i;
++
++	dir_dev = adapter->dir_dev;
++
++	if (dir_dev == NULL) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	for (i = 0; i < adapter_proc_hdls_num; i++)
++		remove_proc_entry(adapter_proc_hdls[i].name, dir_dev);
++
++	rtw_odm_proc_deinit(adapter);
++
++#ifdef CONFIG_MCC_MODE
++	rtw_mcc_proc_deinit(adapter);
++#endif /* CONIG_MCC_MODE */
++
++	remove_proc_entry(adapter->old_ifname, drv_proc);
++
++	adapter->dir_dev = NULL;
++
++	rtw_adapter_proc_init(dev);
++
++}
++
++#endif /* CONFIG_PROC_DEBUG */
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/rtw_proc.h b/drivers/net/wireless/rtl8723du/os_dep/linux/rtw_proc.h
+new file mode 100644
+index 0000000..0ab929c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/rtw_proc.h
+@@ -0,0 +1,65 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_PROC_H__
++#define __RTW_PROC_H__
++
++#include <linux/proc_fs.h>
++#include <linux/seq_file.h>
++
++#define RTW_PROC_HDL_TYPE_SEQ	0
++#define RTW_PROC_HDL_TYPE_SSEQ	1
++
++struct rtw_proc_hdl {
++	char *name;
++	u8 type;
++	union {
++		int (*show)(struct seq_file *, void *);
++		struct seq_operations *seq_op;
++	} u;
++	ssize_t (*write)(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++};
++
++#define RTW_PROC_HDL_SEQ(_name, _seq_op, _write) \
++	{ .name = _name, .type = RTW_PROC_HDL_TYPE_SEQ, .u.seq_op = _seq_op, .write = _write}
++
++#define RTW_PROC_HDL_SSEQ(_name, _show, _write) \
++	{ .name = _name, .type = RTW_PROC_HDL_TYPE_SSEQ, .u.show = _show, .write = _write}
++
++#ifdef CONFIG_PROC_DEBUG
++
++struct proc_dir_entry *get_rtw_drv_proc(void);
++int rtw_drv_proc_init(void);
++void rtw_drv_proc_deinit(void);
++struct proc_dir_entry *rtw_adapter_proc_init(struct net_device *dev);
++void rtw_adapter_proc_deinit(struct net_device *dev);
++void rtw_adapter_proc_replace(struct net_device *dev);
++
++#else /* !CONFIG_PROC_DEBUG */
++
++#define get_rtw_drv_proc() NULL
++#define rtw_drv_proc_init() 0
++#define rtw_drv_proc_deinit() do {} while (0)
++#define rtw_adapter_proc_init(dev) NULL
++#define rtw_adapter_proc_deinit(dev) do {} while (0)
++#define rtw_adapter_proc_replace(dev) do {} while (0)
++
++#endif /* !CONFIG_PROC_DEBUG */
++
++#endif /* __RTW_PROC_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/usb_intf.c b/drivers/net/wireless/rtl8723du/os_dep/linux/usb_intf.c
+new file mode 100644
+index 0000000..fb13277
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/usb_intf.c
+@@ -0,0 +1,1617 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HCI_INTF_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#include <platform_ops.h>
++
++#ifdef CONFIG_RTL8821C
++#include <rtl8821cu_hal.h>	/* rtl8821cu_set_hal_ops() */
++#endif /* CONFIG_RTL8821C */
++
++#ifndef CONFIG_USB_HCI
++#error "CONFIG_USB_HCI shall be on!\n"
++#endif
++
++#if defined(PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++#error "Shall be Linux or Windows, but not both!\n"
++#endif
++
++#ifdef CONFIG_80211N_HT
++extern int rtw_ht_enable;
++extern int rtw_bw_mode;
++extern int rtw_ampdu_enable;/* for enable tx_ampdu */
++#endif
++
++#ifdef CONFIG_GLOBAL_UI_PID
++int ui_pid[3] = {0, 0, 0};
++#endif
++
++
++extern int pm_netdev_open(struct net_device *pnetdev, u8 bnormal);
++static int rtw_suspend(struct usb_interface *intf, pm_message_t message);
++static int rtw_resume(struct usb_interface *intf);
++
++
++static int rtw_drv_init(struct usb_interface *pusb_intf, const struct usb_device_id *pdid);
++static void rtw_dev_remove(struct usb_interface *pusb_intf);
++
++static void rtw_dev_shutdown(struct device *dev)
++{
++	struct usb_interface *usb_intf = container_of(dev, struct usb_interface, dev);
++	struct dvobj_priv *dvobj = NULL;
++	_adapter *adapter = NULL;
++	int i;
++
++	RTW_INFO("%s\n", __func__);
++
++	if (usb_intf) {
++		dvobj = usb_get_intfdata(usb_intf);
++		if (dvobj) {
++			rtw_set_surprise_removed(dvobj->padapters[IFACE_ID0]);
++			ATOMIC_SET(&dvobj->continual_io_error, MAX_CONTINUAL_IO_ERR + 1);
++		}
++	}
++}
++
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 23))
++/* Some useful macros to use to create struct usb_device_id */
++#define USB_DEVICE_ID_MATCH_VENDOR			 0x0001
++#define USB_DEVICE_ID_MATCH_PRODUCT			 0x0002
++#define USB_DEVICE_ID_MATCH_DEV_LO			 0x0004
++#define USB_DEVICE_ID_MATCH_DEV_HI			 0x0008
++#define USB_DEVICE_ID_MATCH_DEV_CLASS			 0x0010
++#define USB_DEVICE_ID_MATCH_DEV_SUBCLASS		 0x0020
++#define USB_DEVICE_ID_MATCH_DEV_PROTOCOL		 0x0040
++#define USB_DEVICE_ID_MATCH_INT_CLASS			 0x0080
++#define USB_DEVICE_ID_MATCH_INT_SUBCLASS		 0x0100
++#define USB_DEVICE_ID_MATCH_INT_PROTOCOL		 0x0200
++#define USB_DEVICE_ID_MATCH_INT_NUMBER		 0x0400
++
++
++#define USB_DEVICE_ID_MATCH_INT_INFO \
++	(USB_DEVICE_ID_MATCH_INT_CLASS | \
++	 USB_DEVICE_ID_MATCH_INT_SUBCLASS | \
++	 USB_DEVICE_ID_MATCH_INT_PROTOCOL)
++
++
++#define USB_DEVICE_AND_INTERFACE_INFO(vend, prod, cl, sc, pr) \
++	.match_flags = USB_DEVICE_ID_MATCH_INT_INFO \
++		       | USB_DEVICE_ID_MATCH_DEVICE, \
++		       .idVendor = (vend), \
++				   .idProduct = (prod), \
++						.bInterfaceClass = (cl), \
++						.bInterfaceSubClass = (sc), \
++						.bInterfaceProtocol = (pr)
++
++/**
++ * USB_VENDOR_AND_INTERFACE_INFO - describe a specific usb vendor with a class of usb interfaces
++ * @vend: the 16 bit USB Vendor ID
++ * @cl: bInterfaceClass value
++ * @sc: bInterfaceSubClass value
++ * @pr: bInterfaceProtocol value
++ *
++ * This macro is used to create a struct usb_device_id that matches a
++ * specific vendor with a specific class of interfaces.
++ *
++ * This is especially useful when explicitly matching devices that have
++ * vendor specific bDeviceClass values, but standards-compliant interfaces.
++ */
++#define USB_VENDOR_AND_INTERFACE_INFO(vend, cl, sc, pr) \
++	.match_flags = USB_DEVICE_ID_MATCH_INT_INFO \
++		       | USB_DEVICE_ID_MATCH_VENDOR, \
++		       .idVendor = (vend), \
++				   .bInterfaceClass = (cl), \
++						   .bInterfaceSubClass = (sc), \
++						   .bInterfaceProtocol = (pr)
++
++/* ----------------------------------------------------------------------- */
++#endif
++
++
++#define USB_VENDER_ID_REALTEK		0x0BDA
++
++
++/* DID_USB_v916_20130116 */
++static struct usb_device_id rtw_usb_id_tbl[] = {
++#ifdef CONFIG_RTL8188E
++	/*=== Realtek demoboard ===*/
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8179), .driver_info = RTL8188E}, /* 8188EUS */
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x0179), .driver_info = RTL8188E}, /* 8188ETV */
++	/*=== Customer ID ===*/
++	/****** 8188EUS ********/
++	{USB_DEVICE(0x07B8, 0x8179), .driver_info = RTL8188E}, /* Abocom - Abocom */
++#endif
++
++#ifdef CONFIG_RTL8812A
++	/*=== Realtek demoboard ===*/
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8812), .driver_info = RTL8812}, /* Default ID */
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x881A), .driver_info = RTL8812}, /* Default ID */
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x881B), .driver_info = RTL8812}, /* Default ID */
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x881C), .driver_info = RTL8812}, /* Default ID */
++	/*=== Customer ID ===*/
++	{USB_DEVICE(0x050D, 0x1106), .driver_info = RTL8812}, /* Belkin - sercomm */
++	{USB_DEVICE(0x2001, 0x330E), .driver_info = RTL8812}, /* D-Link - ALPHA */
++	{USB_DEVICE(0x7392, 0xA822), .driver_info = RTL8812}, /* Edimax - Edimax */
++	{USB_DEVICE(0x0DF6, 0x0074), .driver_info = RTL8812}, /* Sitecom - Edimax */
++	{USB_DEVICE(0x04BB, 0x0952), .driver_info = RTL8812}, /* I-O DATA - Edimax */
++	{USB_DEVICE(0x0789, 0x016E), .driver_info = RTL8812}, /* Logitec - Edimax */
++	{USB_DEVICE(0x0409, 0x0408), .driver_info = RTL8812}, /* NEC - */
++	{USB_DEVICE(0x0B05, 0x17D2), .driver_info = RTL8812}, /* ASUS - Edimax */
++	{USB_DEVICE(0x0E66, 0x0022), .driver_info = RTL8812}, /* HAWKING - Edimax */
++	{USB_DEVICE(0x0586, 0x3426), .driver_info = RTL8812}, /* ZyXEL - */
++	{USB_DEVICE(0x2001, 0x3313), .driver_info = RTL8812}, /* D-Link - ALPHA */
++	{USB_DEVICE(0x1058, 0x0632), .driver_info = RTL8812}, /* WD - Cybertan*/
++	{USB_DEVICE(0x1740, 0x0100), .driver_info = RTL8812}, /* EnGenius - EnGenius */
++	{USB_DEVICE(0x2019, 0xAB30), .driver_info = RTL8812}, /* Planex - Abocom */
++	{USB_DEVICE(0x07B8, 0x8812), .driver_info = RTL8812}, /* Abocom - Abocom */
++	{USB_DEVICE(0x2001, 0x3315), .driver_info = RTL8812}, /* D-Link - Cameo */
++	{USB_DEVICE(0x2001, 0x3316), .driver_info = RTL8812}, /* D-Link - Cameo */
++#endif
++
++#ifdef CONFIG_RTL8821A
++	/*=== Realtek demoboard ===*/
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x0811), .driver_info = RTL8821}, /* Default ID */
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x0821), .driver_info = RTL8821}, /* Default ID */
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8822), .driver_info = RTL8821}, /* Default ID */
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0xA811) , .driver_info = RTL8821},/* Default ID */
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0x0820, 0xff, 0xff, 0xff), .driver_info = RTL8821}, /* 8821AU */
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0x0823, 0xff, 0xff, 0xff), .driver_info = RTL8821}, /* 8821AU */
++	/*=== Customer ID ===*/
++	{USB_DEVICE(0x7392, 0xA811), .driver_info = RTL8821}, /* Edimax - Edimax */
++	{USB_DEVICE(0x04BB, 0x0953), .driver_info = RTL8821}, /* I-O DATA - Edimax */
++	{USB_DEVICE(0x2001, 0x3314), .driver_info = RTL8821}, /* D-Link - Cameo */
++	{USB_DEVICE(0x2001, 0x3318), .driver_info = RTL8821}, /* D-Link - Cameo */
++	{USB_DEVICE(0x0E66, 0x0023), .driver_info = RTL8821}, /* HAWKING - Edimax */
++	{USB_DEVICE(0x056E, 0x400E) , .driver_info = RTL8821}, /* ELECOM -  ELECOM */
++	{USB_DEVICE(0x056E, 0x400F) , .driver_info = RTL8821}, /* ELECOM -  ELECOM */
++#endif
++
++#ifdef CONFIG_RTL8192E
++	/*=== Realtek demoboard ===*/
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0x818B, 0xff, 0xff, 0xff), .driver_info = RTL8192E}, /* Default ID */
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0x818C, 0xff, 0xff, 0xff), .driver_info = RTL8192E}, /* Default ID */
++#endif
++
++#ifdef CONFIG_RTL8723B
++	/* === Realtek demoboard === */
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0xB720, 0xff, 0xff, 0xff), .driver_info = RTL8723B}, /* 8723BU 1*1 */
++	/* {USB_DEVICE(USB_VENDER_ID_REALTEK, 0xB720),.driver_info = RTL8723B},  8723BU */
++#endif
++
++#ifdef CONFIG_RTL8703B
++	/*=== Realtek demoboard ===*/
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0xB703, 0xff, 0xff, 0xff), .driver_info = RTL8703B}, /* 8723CU 1*1 */
++	/* {USB_DEVICE(USB_VENDER_ID_REALTEK, 0xB703), .driver_info = RTL723C}, */ /* 8723CU 1*1 */
++#endif /* CONFIG_RTL8703B */
++
++#ifdef CONFIG_RTL8814A
++
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8813), .driver_info = RTL8814A},
++	{USB_DEVICE(0x2001, 0x331a), .driver_info = RTL8814A}, /* D-Link - D-Link */
++	{USB_DEVICE(0x0b05, 0x1817), .driver_info = RTL8814A}, /* ASUS - ASUSTeK */
++	{USB_DEVICE(0x056E, 0x400B), .driver_info = RTL8814A}, /* ELECOM - ELECOM */
++	{USB_DEVICE(0x056E, 0x400D), .driver_info = RTL8814A}, /* ELECOM - ELECOM */
++	{USB_DEVICE(0x7392, 0xA834), .driver_info = RTL8814A}, /* Edimax - Edimax */
++#endif /* CONFIG_RTL8814A */
++
++#ifdef CONFIG_RTL8188F
++	/*=== Realtek demoboard ===*/
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0xF179, 0xff, 0xff, 0xff), .driver_info = RTL8188F}, /* 8188FU 1*1 */
++#endif
++
++#ifdef CONFIG_RTL8822B
++	/*=== Realtek demoboard ===*/
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0xB82C, 0xff, 0xff, 0xff), .driver_info = RTL8822B}, /* Default ID */
++#endif /* CONFIG_RTL8822B */
++
++#ifdef CONFIG_RTL8723D
++	/*=== Realtek demoboard ===*/
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0xD723, 0xff, 0xff, 0xff), .driver_info = RTL8723D}, /* 8723DU 1*1 */
++#endif
++
++#ifdef CONFIG_RTL8821C
++	/*=== Realtek demoboard ===*/
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0xb82b, 0xff, 0xff, 0xff), .driver_info = RTL8821C}, /* 8821CU */
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0xb820, 0xff, 0xff, 0xff), .driver_info = RTL8821C}, /* 8821CU */
++	/*=== Customer ID ===*/
++#endif
++
++	{}	/* Terminating entry */
++};
++
++MODULE_DEVICE_TABLE(usb, rtw_usb_id_tbl);
++
++int const rtw_usb_id_len = sizeof(rtw_usb_id_tbl) / sizeof(struct usb_device_id);
++
++static struct specific_device_id specific_device_id_tbl[] = {
++	{.idVendor = USB_VENDER_ID_REALTEK, .idProduct = 0x8177, .flags = SPEC_DEV_ID_DISABLE_HT}, /* 8188cu 1*1 dongole, (b/g mode only) */
++	{.idVendor = USB_VENDER_ID_REALTEK, .idProduct = 0x817E, .flags = SPEC_DEV_ID_DISABLE_HT}, /* 8188CE-VAU USB minCard (b/g mode only) */
++	{.idVendor = 0x0b05, .idProduct = 0x1791, .flags = SPEC_DEV_ID_DISABLE_HT},
++	{.idVendor = 0x13D3, .idProduct = 0x3311, .flags = SPEC_DEV_ID_DISABLE_HT},
++	{.idVendor = 0x13D3, .idProduct = 0x3359, .flags = SPEC_DEV_ID_DISABLE_HT}, /* Russian customer -Azwave (8188CE-VAU  g mode) */
++#ifdef RTK_DMP_PLATFORM
++	{.idVendor = USB_VENDER_ID_REALTEK, .idProduct = 0x8111, .flags = SPEC_DEV_ID_ASSIGN_IFNAME}, /* Realtek 5G dongle for WiFi Display */
++	{.idVendor = 0x2019, .idProduct = 0xAB2D, .flags = SPEC_DEV_ID_ASSIGN_IFNAME}, /* PCI-Abocom 5G dongle for WiFi Display */
++#endif /* RTK_DMP_PLATFORM */
++	{}
++};
++
++struct rtw_usb_drv {
++	struct usb_driver usbdrv;
++	int drv_registered;
++	u8 hw_type;
++};
++
++struct rtw_usb_drv usb_drv = {
++	.usbdrv.name = (char *)DRV_NAME,
++	.usbdrv.probe = rtw_drv_init,
++	.usbdrv.disconnect = rtw_dev_remove,
++	.usbdrv.id_table = rtw_usb_id_tbl,
++	.usbdrv.suspend =  rtw_suspend,
++	.usbdrv.resume = rtw_resume,
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 22))
++	.usbdrv.reset_resume   = rtw_resume,
++#endif
++#ifdef CONFIG_AUTOSUSPEND
++	.usbdrv.supports_autosuspend = 1,
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 19))
++	.usbdrv.drvwrap.driver.shutdown = rtw_dev_shutdown,
++#else
++	.usbdrv.driver.shutdown = rtw_dev_shutdown,
++#endif
++};
++
++static inline int RT_usb_endpoint_dir_in(const struct usb_endpoint_descriptor *epd)
++{
++	return (epd->bEndpointAddress & USB_ENDPOINT_DIR_MASK) == USB_DIR_IN;
++}
++
++static inline int RT_usb_endpoint_dir_out(const struct usb_endpoint_descriptor *epd)
++{
++	return (epd->bEndpointAddress & USB_ENDPOINT_DIR_MASK) == USB_DIR_OUT;
++}
++
++static inline int RT_usb_endpoint_xfer_int(const struct usb_endpoint_descriptor *epd)
++{
++	return (epd->bmAttributes & USB_ENDPOINT_XFERTYPE_MASK) == USB_ENDPOINT_XFER_INT;
++}
++
++static inline int RT_usb_endpoint_xfer_bulk(const struct usb_endpoint_descriptor *epd)
++{
++	return (epd->bmAttributes & USB_ENDPOINT_XFERTYPE_MASK) == USB_ENDPOINT_XFER_BULK;
++}
++
++static inline int RT_usb_endpoint_is_bulk_in(const struct usb_endpoint_descriptor *epd)
++{
++	return RT_usb_endpoint_xfer_bulk(epd) && RT_usb_endpoint_dir_in(epd);
++}
++
++static inline int RT_usb_endpoint_is_bulk_out(const struct usb_endpoint_descriptor *epd)
++{
++	return RT_usb_endpoint_xfer_bulk(epd) && RT_usb_endpoint_dir_out(epd);
++}
++
++static inline int RT_usb_endpoint_is_int_in(const struct usb_endpoint_descriptor *epd)
++{
++	return RT_usb_endpoint_xfer_int(epd) && RT_usb_endpoint_dir_in(epd);
++}
++
++static inline int RT_usb_endpoint_num(const struct usb_endpoint_descriptor *epd)
++{
++	return epd->bEndpointAddress & USB_ENDPOINT_NUMBER_MASK;
++}
++
++static u8 rtw_init_intf_priv(struct dvobj_priv *dvobj)
++{
++	u8 rst = _SUCCESS;
++
++#ifdef CONFIG_USB_VENDOR_REQ_MUTEX
++	_rtw_mutex_init(&dvobj->usb_vendor_req_mutex);
++#endif
++
++
++#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC
++	dvobj->usb_alloc_vendor_req_buf = rtw_zmalloc(MAX_USB_IO_CTL_SIZE);
++	if (dvobj->usb_alloc_vendor_req_buf == NULL) {
++		RTW_INFO("alloc usb_vendor_req_buf failed... /n");
++		rst = _FAIL;
++		goto exit;
++	}
++	dvobj->usb_vendor_req_buf  =
++		(u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(dvobj->usb_alloc_vendor_req_buf), ALIGNMENT_UNIT);
++exit:
++#endif
++
++	return rst;
++
++}
++
++static u8 rtw_deinit_intf_priv(struct dvobj_priv *dvobj)
++{
++	u8 rst = _SUCCESS;
++
++#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC
++	if (dvobj->usb_vendor_req_buf)
++		rtw_mfree(dvobj->usb_alloc_vendor_req_buf, MAX_USB_IO_CTL_SIZE);
++#endif
++
++#ifdef CONFIG_USB_VENDOR_REQ_MUTEX
++	_rtw_mutex_free(&dvobj->usb_vendor_req_mutex);
++#endif
++
++	return rst;
++}
++static void rtw_decide_chip_type_by_usb_info(struct dvobj_priv *pdvobjpriv, const struct usb_device_id *pdid)
++{
++	pdvobjpriv->chip_type = pdid->driver_info;
++
++#ifdef CONFIG_RTL8188E
++	if (pdvobjpriv->chip_type == RTL8188E)
++		rtl8188eu_set_hw_type(pdvobjpriv);
++#endif
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++	if (pdvobjpriv->chip_type == RTL8812 || pdvobjpriv->chip_type == RTL8821)
++		rtl8812au_set_hw_type(pdvobjpriv);
++#endif
++
++#ifdef CONFIG_RTL8192E
++	if (pdvobjpriv->chip_type == RTL8192E)
++		rtl8192eu_set_hw_type(pdvobjpriv);
++#endif
++
++#ifdef CONFIG_RTL8723B
++	if (pdvobjpriv->chip_type == RTL8723B)
++		rtl8723bu_set_hw_type(pdvobjpriv);
++#endif
++
++#ifdef CONFIG_RTL8814A
++	if (pdvobjpriv->chip_type == RTL8814A)
++		rtl8814au_set_hw_type(pdvobjpriv);
++#endif /* CONFIG_RTL8814A */
++
++#ifdef CONFIG_RTL8188F
++	if (pdvobjpriv->chip_type == RTL8188F)
++		rtl8188fu_set_hw_type(pdvobjpriv);
++#endif
++
++#ifdef CONFIG_RTL8703B
++	if (pdvobjpriv->chip_type == RTL8703B)
++		rtl8703bu_set_hw_type(pdvobjpriv);
++#endif /* CONFIG_RTL8703B */
++
++#ifdef CONFIG_RTL8822B
++	if (pdvobjpriv->chip_type == RTL8822B)
++		rtl8822bu_set_hw_type(pdvobjpriv);
++#endif /* CONFIG_RTL8822B */
++
++#ifdef CONFIG_RTL8723D
++	if (pdvobjpriv->chip_type == RTL8723D)
++		rtl8723du_set_hw_type(pdvobjpriv);
++#endif /* CONFIG_RTL8723D */
++
++#ifdef CONFIG_RTL8821C
++	if (pdvobjpriv->chip_type == RTL8821C)
++		rtl8821cu_set_hw_type(pdvobjpriv);
++#endif /* CONFIG_RTL8821C */
++}
++
++static struct dvobj_priv *usb_dvobj_init(struct usb_interface *usb_intf, const struct usb_device_id *pdid)
++{
++	int	i;
++	u8	val8;
++	int	status = _FAIL;
++	struct dvobj_priv *pdvobjpriv;
++	struct usb_device_descriptor	*pdev_desc;
++	struct usb_host_config			*phost_conf;
++	struct usb_config_descriptor		*pconf_desc;
++	struct usb_host_interface		*phost_iface;
++	struct usb_interface_descriptor	*piface_desc;
++	struct usb_host_endpoint		*phost_endp;
++	struct usb_endpoint_descriptor	*pendp_desc;
++	struct usb_device				*pusbd;
++
++
++
++	pdvobjpriv = devobj_init();
++	if (pdvobjpriv == NULL)
++		goto exit;
++
++
++	pdvobjpriv->pusbintf = usb_intf ;
++	pusbd = pdvobjpriv->pusbdev = interface_to_usbdev(usb_intf);
++	usb_set_intfdata(usb_intf, pdvobjpriv);
++
++	pdvobjpriv->RtNumInPipes = 0;
++	pdvobjpriv->RtNumOutPipes = 0;
++
++	/* padapter->EepromAddressSize = 6; */
++	/* pdvobjpriv->nr_endpoint = 6; */
++
++	pdev_desc = &pusbd->descriptor;
++
++#if 0
++	RTW_INFO("\n8712_usb_device_descriptor:\n");
++	RTW_INFO("bLength=%x\n", pdev_desc->bLength);
++	RTW_INFO("bDescriptorType=%x\n", pdev_desc->bDescriptorType);
++	RTW_INFO("bcdUSB=%x\n", pdev_desc->bcdUSB);
++	RTW_INFO("bDeviceClass=%x\n", pdev_desc->bDeviceClass);
++	RTW_INFO("bDeviceSubClass=%x\n", pdev_desc->bDeviceSubClass);
++	RTW_INFO("bDeviceProtocol=%x\n", pdev_desc->bDeviceProtocol);
++	RTW_INFO("bMaxPacketSize0=%x\n", pdev_desc->bMaxPacketSize0);
++	RTW_INFO("idVendor=%x\n", pdev_desc->idVendor);
++	RTW_INFO("idProduct=%x\n", pdev_desc->idProduct);
++	RTW_INFO("bcdDevice=%x\n", pdev_desc->bcdDevice);
++	RTW_INFO("iManufacturer=%x\n", pdev_desc->iManufacturer);
++	RTW_INFO("iProduct=%x\n", pdev_desc->iProduct);
++	RTW_INFO("iSerialNumber=%x\n", pdev_desc->iSerialNumber);
++	RTW_INFO("bNumConfigurations=%x\n", pdev_desc->bNumConfigurations);
++#endif
++
++	phost_conf = pusbd->actconfig;
++	pconf_desc = &phost_conf->desc;
++
++#if 0
++	RTW_INFO("\n8712_usb_configuration_descriptor:\n");
++	RTW_INFO("bLength=%x\n", pconf_desc->bLength);
++	RTW_INFO("bDescriptorType=%x\n", pconf_desc->bDescriptorType);
++	RTW_INFO("wTotalLength=%x\n", pconf_desc->wTotalLength);
++	RTW_INFO("bNumInterfaces=%x\n", pconf_desc->bNumInterfaces);
++	RTW_INFO("bConfigurationValue=%x\n", pconf_desc->bConfigurationValue);
++	RTW_INFO("iConfiguration=%x\n", pconf_desc->iConfiguration);
++	RTW_INFO("bmAttributes=%x\n", pconf_desc->bmAttributes);
++	RTW_INFO("bMaxPower=%x\n", pconf_desc->bMaxPower);
++#endif
++
++	/* RTW_INFO("\n***** num of altsetting = (%d) *****\n", pusb_interface->num_altsetting); */
++
++	phost_iface = &usb_intf->altsetting[0];
++	piface_desc = &phost_iface->desc;
++
++#if 0
++	RTW_INFO("\n8712_usb_interface_descriptor:\n");
++	RTW_INFO("bLength=%x\n", piface_desc->bLength);
++	RTW_INFO("bDescriptorType=%x\n", piface_desc->bDescriptorType);
++	RTW_INFO("bInterfaceNumber=%x\n", piface_desc->bInterfaceNumber);
++	RTW_INFO("bAlternateSetting=%x\n", piface_desc->bAlternateSetting);
++	RTW_INFO("bNumEndpoints=%x\n", piface_desc->bNumEndpoints);
++	RTW_INFO("bInterfaceClass=%x\n", piface_desc->bInterfaceClass);
++	RTW_INFO("bInterfaceSubClass=%x\n", piface_desc->bInterfaceSubClass);
++	RTW_INFO("bInterfaceProtocol=%x\n", piface_desc->bInterfaceProtocol);
++	RTW_INFO("iInterface=%x\n", piface_desc->iInterface);
++#endif
++
++	pdvobjpriv->NumInterfaces = pconf_desc->bNumInterfaces;
++	pdvobjpriv->InterfaceNumber = piface_desc->bInterfaceNumber;
++	pdvobjpriv->nr_endpoint = piface_desc->bNumEndpoints;
++
++	/* RTW_INFO("\ndump usb_endpoint_descriptor:\n"); */
++
++	for (i = 0; i < pdvobjpriv->nr_endpoint; i++) {
++		phost_endp = phost_iface->endpoint + i;
++		if (phost_endp) {
++			pendp_desc = &phost_endp->desc;
++
++			RTW_INFO("\nusb_endpoint_descriptor(%d):\n", i);
++			RTW_INFO("bLength=%x\n", pendp_desc->bLength);
++			RTW_INFO("bDescriptorType=%x\n", pendp_desc->bDescriptorType);
++			RTW_INFO("bEndpointAddress=%x\n", pendp_desc->bEndpointAddress);
++			/* RTW_INFO("bmAttributes=%x\n",pendp_desc->bmAttributes); */
++			RTW_INFO("wMaxPacketSize=%d\n", le16_to_cpu(pendp_desc->wMaxPacketSize));
++			RTW_INFO("bInterval=%x\n", pendp_desc->bInterval);
++			/* RTW_INFO("bRefresh=%x\n",pendp_desc->bRefresh); */
++			/* RTW_INFO("bSynchAddress=%x\n",pendp_desc->bSynchAddress); */
++
++			if (RT_usb_endpoint_is_bulk_in(pendp_desc)) {
++				RTW_INFO("RT_usb_endpoint_is_bulk_in = %x\n", RT_usb_endpoint_num(pendp_desc));
++				pdvobjpriv->RtInPipe[pdvobjpriv->RtNumInPipes] = RT_usb_endpoint_num(pendp_desc);
++				pdvobjpriv->RtNumInPipes++;
++			} else if (RT_usb_endpoint_is_int_in(pendp_desc)) {
++				RTW_INFO("RT_usb_endpoint_is_int_in = %x, Interval = %x\n", RT_usb_endpoint_num(pendp_desc), pendp_desc->bInterval);
++				pdvobjpriv->RtInPipe[pdvobjpriv->RtNumInPipes] = RT_usb_endpoint_num(pendp_desc);
++				pdvobjpriv->RtNumInPipes++;
++			} else if (RT_usb_endpoint_is_bulk_out(pendp_desc)) {
++				RTW_INFO("RT_usb_endpoint_is_bulk_out = %x\n", RT_usb_endpoint_num(pendp_desc));
++				pdvobjpriv->RtOutPipe[pdvobjpriv->RtNumOutPipes] = RT_usb_endpoint_num(pendp_desc);
++				pdvobjpriv->RtNumOutPipes++;
++			}
++			pdvobjpriv->ep_num[i] = RT_usb_endpoint_num(pendp_desc);
++		}
++	}
++
++	RTW_INFO("nr_endpoint=%d, in_num=%d, out_num=%d\n\n", pdvobjpriv->nr_endpoint, pdvobjpriv->RtNumInPipes, pdvobjpriv->RtNumOutPipes);
++
++	switch (pusbd->speed) {
++	case USB_SPEED_LOW:
++		RTW_INFO("USB_SPEED_LOW\n");
++		pdvobjpriv->usb_speed = RTW_USB_SPEED_1_1;
++		break;
++	case USB_SPEED_FULL:
++		RTW_INFO("USB_SPEED_FULL\n");
++		pdvobjpriv->usb_speed = RTW_USB_SPEED_1_1;
++		break;
++	case USB_SPEED_HIGH:
++		RTW_INFO("USB_SPEED_HIGH\n");
++		pdvobjpriv->usb_speed = RTW_USB_SPEED_2;
++		break;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 31))
++	case USB_SPEED_SUPER:
++		RTW_INFO("USB_SPEED_SUPER\n");
++		pdvobjpriv->usb_speed = RTW_USB_SPEED_3;
++		break;
++#endif
++	default:
++		RTW_INFO("USB_SPEED_UNKNOWN(%x)\n", pusbd->speed);
++		pdvobjpriv->usb_speed = RTW_USB_SPEED_UNKNOWN;
++		break;
++	}
++
++	if (pdvobjpriv->usb_speed == RTW_USB_SPEED_UNKNOWN) {
++		RTW_INFO("UNKNOWN USB SPEED MODE, ERROR !!!\n");
++		goto free_dvobj;
++	}
++
++	if (rtw_init_intf_priv(pdvobjpriv) == _FAIL) {
++		goto free_dvobj;
++	}
++
++	/*step 1-1., decide the chip_type via driver_info*/
++	pdvobjpriv->interface_type = RTW_USB;
++	rtw_decide_chip_type_by_usb_info(pdvobjpriv, pdid);
++
++	/* .3 misc */
++	_rtw_init_sema(&(pdvobjpriv->usb_suspend_sema), 0);
++	rtw_reset_continual_io_error(pdvobjpriv);
++
++	usb_get_dev(pusbd);
++
++	status = _SUCCESS;
++
++free_dvobj:
++	if (status != _SUCCESS && pdvobjpriv) {
++		usb_set_intfdata(usb_intf, NULL);
++
++		devobj_deinit(pdvobjpriv);
++
++		pdvobjpriv = NULL;
++	}
++exit:
++	return pdvobjpriv;
++}
++
++static void usb_dvobj_deinit(struct usb_interface *usb_intf)
++{
++	struct dvobj_priv *dvobj = usb_get_intfdata(usb_intf);
++
++
++	usb_set_intfdata(usb_intf, NULL);
++	if (dvobj) {
++		/* Modify condition for 92DU DMDP 2010.11.18, by Thomas */
++		if ((dvobj->NumInterfaces != 2 && dvobj->NumInterfaces != 3)
++		    || (dvobj->InterfaceNumber == 1)) {
++			if (interface_to_usbdev(usb_intf)->state != USB_STATE_NOTATTACHED) {
++				/* If we didn't unplug usb dongle and remove/insert modlue, driver fails on sitesurvey for the first time when device is up . */
++				/* Reset usb port for sitesurvey fail issue. 2009.8.13, by Thomas */
++				RTW_INFO("usb attached..., try to reset usb device\n");
++				usb_reset_device(interface_to_usbdev(usb_intf));
++			}
++		}
++
++		rtw_deinit_intf_priv(dvobj);
++
++		devobj_deinit(dvobj);
++	}
++
++	/* RTW_INFO("%s %d\n", __func__, ATOMIC_READ(&usb_intf->dev.kobj.kref.refcount)); */
++	usb_put_dev(interface_to_usbdev(usb_intf));
++
++}
++
++static int usb_reprobe_switch_usb_mode(PADAPTER Adapter)
++{
++	struct registry_priv *registry_par = &Adapter->registrypriv;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	u8 ret = _FALSE;
++
++	/* efuse not allow driver to switch usb mode */
++	if (pHalData->EEPROMUsbSwitch == _FALSE)
++		goto exit;
++
++	/* registry not allow driver to switch usb mode */
++	if (registry_par->switch_usb_mode == 0)
++		goto exit;
++
++	rtw_hal_set_hwreg(Adapter, HW_VAR_USB_MODE, &ret);
++
++exit:
++	return ret;
++}
++
++u8 rtw_set_hal_ops(_adapter *padapter)
++{
++	/* alloc memory for HAL DATA */
++	if (rtw_hal_data_init(padapter) == _FAIL)
++		return _FAIL;
++
++#ifdef CONFIG_RTL8188E
++	if (rtw_get_chip_type(padapter) == RTL8188E)
++		rtl8188eu_set_hal_ops(padapter);
++#endif
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++	if (rtw_get_chip_type(padapter) == RTL8812 || rtw_get_chip_type(padapter) == RTL8821)
++		rtl8812au_set_hal_ops(padapter);
++#endif
++
++#ifdef CONFIG_RTL8192E
++	if (rtw_get_chip_type(padapter) == RTL8192E)
++		rtl8192eu_set_hal_ops(padapter);
++#endif
++#ifdef CONFIG_RTL8723B
++	if (rtw_get_chip_type(padapter) == RTL8723B)
++		rtl8723bu_set_hal_ops(padapter);
++#endif
++#ifdef CONFIG_RTL8814A
++	if (rtw_get_chip_type(padapter) == RTL8814A)
++		rtl8814au_set_hal_ops(padapter);
++#endif /* CONFIG_RTL8814A */
++
++#ifdef CONFIG_RTL8188F
++	if (rtw_get_chip_type(padapter) == RTL8188F)
++		rtl8188fu_set_hal_ops(padapter);
++#endif
++
++#ifdef CONFIG_RTL8703B
++	if (rtw_get_chip_type(padapter) == RTL8703B)
++		rtl8703bu_set_hal_ops(padapter);
++#endif /* CONFIG_RTL8703B */
++
++#ifdef CONFIG_RTL8822B
++	if (rtw_get_chip_type(padapter) == RTL8822B)
++		rtl8822bu_set_hal_ops(padapter);
++#endif /* CONFIG_RTL8822B */
++
++#ifdef CONFIG_RTL8723D
++	if (rtw_get_chip_type(padapter) == RTL8723D)
++		rtl8723du_set_hal_ops(padapter);
++#endif /* CONFIG_RTL8723D */
++
++
++#ifdef CONFIG_RTL8821C
++	if (rtw_get_chip_type(padapter) == RTL8821C)
++		rtl8821cu_set_hal_ops(padapter);
++#endif
++
++	if (_FAIL == rtw_hal_ops_check(padapter))
++		return _FAIL;
++
++	if (hal_spec_init(padapter) == _FAIL)
++		return _FAIL;
++
++	return _SUCCESS;
++}
++
++static void usb_intf_start(_adapter *padapter)
++{
++	PHAL_DATA_TYPE hal = GET_HAL_DATA(padapter);
++
++	rtw_hal_inirp_init(padapter);
++	hal->usb_intf_start = _TRUE;
++
++
++}
++
++static void usb_intf_stop(_adapter *padapter)
++{
++	PHAL_DATA_TYPE hal = GET_HAL_DATA(padapter);
++
++	/* disabel_hw_interrupt */
++	if (!rtw_is_surprise_removed(padapter)) {
++		/* device still exists, so driver can do i/o operation */
++		/* TODO: */
++	}
++
++	/* cancel in irp */
++	rtw_hal_inirp_deinit(padapter);
++
++	/* cancel out irp */
++	rtw_write_port_cancel(padapter);
++
++	/* todo:cancel other irps */
++
++	hal->usb_intf_start = _FALSE;
++
++}
++
++static void process_spec_devid(const struct usb_device_id *pdid)
++{
++	u16 vid, pid;
++	u32 flags;
++	int i;
++	int num = sizeof(specific_device_id_tbl) / sizeof(struct specific_device_id);
++
++	for (i = 0; i < num; i++) {
++		vid = specific_device_id_tbl[i].idVendor;
++		pid = specific_device_id_tbl[i].idProduct;
++		flags = specific_device_id_tbl[i].flags;
++
++#ifdef CONFIG_80211N_HT
++		if ((pdid->idVendor == vid) && (pdid->idProduct == pid) && (flags & SPEC_DEV_ID_DISABLE_HT)) {
++			rtw_ht_enable = 0;
++			rtw_bw_mode = 0;
++			rtw_ampdu_enable = 0;
++		}
++#endif
++
++#ifdef RTK_DMP_PLATFORM
++		/* Change the ifname to wlan10 when PC side WFD dongle plugin on DMP platform. */
++		/* It is used to distinguish between normal and PC-side wifi dongle/module. */
++		if ((pdid->idVendor == vid) && (pdid->idProduct == pid) && (flags & SPEC_DEV_ID_ASSIGN_IFNAME)) {
++			extern char *ifname;
++			strncpy(ifname, "wlan10", 6);
++			/* RTW_INFO("%s()-%d: ifname=%s, vid=%04X, pid=%04X\n", __FUNCTION__, __LINE__, ifname, vid, pid); */
++		}
++#endif /* RTK_DMP_PLATFORM */
++
++	}
++}
++
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++int rtw_hw_suspend(_adapter *padapter)
++{
++	struct pwrctrl_priv *pwrpriv;
++	struct usb_interface *pusb_intf;
++	struct net_device *pnetdev;
++
++	if (NULL == padapter)
++		goto error_exit;
++
++	if ((_FALSE == padapter->bup) || RTW_CANNOT_RUN(padapter)) {
++		RTW_INFO("padapter->bup=%d bDriverStopped=%s bSurpriseRemoved = %s\n"
++			 , padapter->bup
++			 , rtw_is_drv_stopped(padapter) ? "True" : "False"
++			, rtw_is_surprise_removed(padapter) ? "True" : "False");
++		goto error_exit;
++	}
++
++	pwrpriv = adapter_to_pwrctl(padapter);
++	pusb_intf = adapter_to_dvobj(padapter)->pusbintf;
++	pnetdev = padapter->pnetdev;
++
++	LeaveAllPowerSaveMode(padapter);
++
++	RTW_INFO("==> rtw_hw_suspend\n");
++	_enter_pwrlock(&pwrpriv->lock);
++	pwrpriv->bips_processing = _TRUE;
++	/* padapter->net_closed = _TRUE; */
++	/* s1. */
++	if (pnetdev) {
++		netif_carrier_off(pnetdev);
++		rtw_netif_stop_queue(pnetdev);
++	}
++
++	/* s2. */
++	rtw_disassoc_cmd(padapter, 500, _FALSE);
++
++	/* s2-2.  indicate disconnect to os */
++	/* rtw_indicate_disconnect(padapter); */
++	{
++		struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++		if (check_fwstate(pmlmepriv, _FW_LINKED)) {
++			_clr_fwstate_(pmlmepriv, _FW_LINKED);
++			rtw_led_control(padapter, LED_CTL_NO_LINK);
++
++			rtw_os_indicate_disconnect(padapter, 0, _FALSE);
++
++#ifdef CONFIG_LPS
++			/* donnot enqueue cmd */
++			rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_DISCONNECT, 0);
++#endif
++		}
++	}
++	/* s2-3. */
++	rtw_free_assoc_resources(padapter, 1);
++
++	/* s2-4. */
++	rtw_free_network_queue(padapter, _TRUE);
++#ifdef CONFIG_IPS
++	rtw_ips_dev_unload(padapter);
++#endif
++	pwrpriv->rf_pwrstate = rf_off;
++	pwrpriv->bips_processing = _FALSE;
++	_exit_pwrlock(&pwrpriv->lock);
++
++	return 0;
++
++error_exit:
++	RTW_INFO("%s, failed\n", __FUNCTION__);
++	return -1;
++
++}
++
++int rtw_hw_resume(_adapter *padapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct usb_interface *pusb_intf = adapter_to_dvobj(padapter)->pusbintf;
++	struct net_device *pnetdev = padapter->pnetdev;
++
++	RTW_INFO("==> rtw_hw_resume\n");
++	_enter_pwrlock(&pwrpriv->lock);
++	pwrpriv->bips_processing = _TRUE;
++	rtw_reset_drv_sw(padapter);
++
++	if (pm_netdev_open(pnetdev, _FALSE) != 0) {
++		_exit_pwrlock(&pwrpriv->lock);
++		goto error_exit;
++	}
++
++	rtw_netif_carrier_on(pnetdev);
++
++	rtw_netif_wake_queue(pnetdev);
++
++	pwrpriv->bkeepfwalive = _FALSE;
++	pwrpriv->brfoffbyhw = _FALSE;
++
++	pwrpriv->rf_pwrstate = rf_on;
++	pwrpriv->bips_processing = _FALSE;
++	_exit_pwrlock(&pwrpriv->lock);
++
++
++	return 0;
++error_exit:
++	RTW_INFO("%s, Open net dev failed\n", __FUNCTION__);
++	return -1;
++}
++#endif
++
++static int rtw_suspend(struct usb_interface *pusb_intf, pm_message_t message)
++{
++	struct dvobj_priv *dvobj;
++	struct pwrctrl_priv *pwrpriv;
++	struct debug_priv *pdbgpriv;
++	PADAPTER padapter;
++	int ret = 0;
++
++
++	dvobj = usb_get_intfdata(pusb_intf);
++	pwrpriv = dvobj_to_pwrctl(dvobj);
++	pdbgpriv = &dvobj->drv_dbg;
++	padapter = dvobj->padapters[IFACE_ID0];
++
++	if (pwrpriv->bInSuspend == _TRUE) {
++		RTW_INFO("%s bInSuspend = %d\n", __FUNCTION__, pwrpriv->bInSuspend);
++		pdbgpriv->dbg_suspend_error_cnt++;
++		goto exit;
++	}
++
++	if ((padapter->bup) || !rtw_is_drv_stopped(padapter) || !rtw_is_surprise_removed(padapter)) {
++#ifdef CONFIG_AUTOSUSPEND
++		if (pwrpriv->bInternalAutoSuspend) {
++
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++			/* The FW command register update must after MAC and FW init ready. */
++			if ((padapter->bFWReady) && (pwrpriv->bHWPwrPindetect) && (padapter->registrypriv.usbss_enable)) {
++				u8 bOpen = _TRUE;
++				rtw_interface_ps_func(padapter, HAL_USB_SELECT_SUSPEND, &bOpen);
++			}
++#endif/* SUPPORT_HW_RFOFF_DETECTED */
++		}
++#endif/* CONFIG_AUTOSUSPEND */
++	}
++
++	ret =  rtw_suspend_common(padapter);
++
++exit:
++	return ret;
++}
++
++int rtw_resume_process(_adapter *padapter)
++{
++	int ret, pm_cnt = 0;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct dvobj_priv *pdvobj = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &pdvobj->drv_dbg;
++
++
++	if (pwrpriv->bInSuspend == _FALSE) {
++		pdbgpriv->dbg_resume_error_cnt++;
++		RTW_INFO("%s bInSuspend = %d\n", __FUNCTION__, pwrpriv->bInSuspend);
++		return -1;
++	}
++
++#if defined(CONFIG_BT_COEXIST) && defined(CONFIG_AUTOSUSPEND) /* add by amy for 8723as-vau */
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 32))
++	RTW_INFO("%s...pm_usage_cnt(%d)  pwrpriv->bAutoResume=%x.  ....\n", __func__, atomic_read(&(adapter_to_dvobj(padapter)->pusbintf->pm_usage_cnt)), pwrpriv->bAutoResume);
++	pm_cnt = atomic_read(&(adapter_to_dvobj(padapter)->pusbintf->pm_usage_cnt));
++#else /* kernel < 2.6.32 */
++	RTW_INFO("...pm_usage_cnt(%d).....\n", adapter_to_dvobj(padapter)->pusbintf->pm_usage_cnt);
++	pm_cnt = adapter_to_dvobj(padapter)->pusbintf->pm_usage_cnt;
++#endif /* kernel < 2.6.32 */
++
++	RTW_INFO("pwrpriv->bAutoResume (%x)\n", pwrpriv->bAutoResume);
++	if (_TRUE == pwrpriv->bAutoResume) {
++		pwrpriv->bInternalAutoSuspend = _FALSE;
++		pwrpriv->bAutoResume = _FALSE;
++		RTW_INFO("pwrpriv->bAutoResume (%x)  pwrpriv->bInternalAutoSuspend(%x)\n", pwrpriv->bAutoResume, pwrpriv->bInternalAutoSuspend);
++
++	}
++#endif /* #ifdef CONFIG_BT_COEXIST &CONFIG_AUTOSUSPEND& */
++
++	/*
++	 * Due to usb wow suspend flow will cancel read/write port via intf_stop and
++	 * bReadPortCancel and bWritePortCancel are set _TRUE in intf_stop.
++	 * But they will not be clear in intf_start during wow resume flow.
++	 * It should move to os_intf in the feature.
++	 */
++	RTW_ENABLE_FUNC(padapter, DF_RX_BIT);
++	RTW_ENABLE_FUNC(padapter, DF_TX_BIT);
++
++	ret =  rtw_resume_common(padapter);
++
++#ifdef CONFIG_AUTOSUSPEND
++	if (pwrpriv->bInternalAutoSuspend) {
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++		/* The FW command register update must after MAC and FW init ready. */
++		if ((padapter->bFWReady) && (pwrpriv->bHWPwrPindetect) && (padapter->registrypriv.usbss_enable)) {
++			u8 bOpen = _FALSE;
++			rtw_interface_ps_func(padapter, HAL_USB_SELECT_SUSPEND, &bOpen);
++		}
++#endif
++#ifdef CONFIG_BT_COEXIST /* for 8723as-vau */
++		RTW_INFO("pwrpriv->bAutoResume (%x)\n", pwrpriv->bAutoResume);
++		if (_TRUE == pwrpriv->bAutoResume) {
++			pwrpriv->bInternalAutoSuspend = _FALSE;
++			pwrpriv->bAutoResume = _FALSE;
++			RTW_INFO("pwrpriv->bAutoResume (%x)  pwrpriv->bInternalAutoSuspend(%x)\n", pwrpriv->bAutoResume, pwrpriv->bInternalAutoSuspend);
++		}
++
++#else	/* #ifdef CONFIG_BT_COEXIST */
++		pwrpriv->bInternalAutoSuspend = _FALSE;
++#endif	/* #ifdef CONFIG_BT_COEXIST */
++		pwrpriv->brfoffbyhw = _FALSE;
++	}
++#endif/* CONFIG_AUTOSUSPEND */
++
++
++	return ret;
++}
++
++static int rtw_resume(struct usb_interface *pusb_intf)
++{
++	struct dvobj_priv *dvobj;
++	struct pwrctrl_priv *pwrpriv;
++	struct debug_priv *pdbgpriv;
++	PADAPTER padapter;
++	struct mlme_ext_priv *pmlmeext;
++	int ret = 0;
++
++
++	dvobj = usb_get_intfdata(pusb_intf);
++	pwrpriv = dvobj_to_pwrctl(dvobj);
++	pdbgpriv = &dvobj->drv_dbg;
++	padapter = dvobj->padapters[IFACE_ID0];
++	pmlmeext = &padapter->mlmeextpriv;
++
++	RTW_INFO("==> %s (%s:%d)\n", __FUNCTION__, current->comm, current->pid);
++	pdbgpriv->dbg_resume_cnt++;
++
++	if (pwrpriv->bInternalAutoSuspend)
++		ret = rtw_resume_process(padapter);
++	else {
++		if (pwrpriv->wowlan_mode || pwrpriv->wowlan_ap_mode) {
++			rtw_resume_lock_suspend();
++			ret = rtw_resume_process(padapter);
++			rtw_resume_unlock_suspend();
++		} else {
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++			rtw_resume_in_workqueue(pwrpriv);
++#else
++			if (rtw_is_earlysuspend_registered(pwrpriv)) {
++				/* jeff: bypass resume here, do in late_resume */
++				rtw_set_do_late_resume(pwrpriv, _TRUE);
++			} else {
++				rtw_resume_lock_suspend();
++				ret = rtw_resume_process(padapter);
++				rtw_resume_unlock_suspend();
++			}
++#endif
++		}
++	}
++
++	pmlmeext->last_scan_time = rtw_get_current_time();
++	RTW_INFO("<========  %s return %d\n", __FUNCTION__, ret);
++
++	return ret;
++}
++
++
++
++#ifdef CONFIG_AUTOSUSPEND
++void autosuspend_enter(_adapter *padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv *pwrpriv = dvobj_to_pwrctl(dvobj);
++
++	RTW_INFO("==>autosuspend_enter...........\n");
++
++	pwrpriv->bInternalAutoSuspend = _TRUE;
++	pwrpriv->bips_processing = _TRUE;
++
++	if (rf_off == pwrpriv->change_rfpwrstate) {
++#ifndef	CONFIG_BT_COEXIST
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++		usb_enable_autosuspend(dvobj->pusbdev);
++#else
++		dvobj->pusbdev->autosuspend_disabled = 0;/* autosuspend disabled by the user */
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 33))
++		usb_autopm_put_interface(dvobj->pusbintf);
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 20))
++		usb_autopm_enable(dvobj->pusbintf);
++#else
++		usb_autosuspend_device(dvobj->pusbdev, 1);
++#endif
++#else	/* #ifndef	CONFIG_BT_COEXIST */
++		if (1 == pwrpriv->autopm_cnt) {
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++			usb_enable_autosuspend(dvobj->pusbdev);
++#else
++			dvobj->pusbdev->autosuspend_disabled = 0;/* autosuspend disabled by the user */
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 33))
++			usb_autopm_put_interface(dvobj->pusbintf);
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 20))
++			usb_autopm_enable(dvobj->pusbintf);
++#else
++			usb_autosuspend_device(dvobj->pusbdev, 1);
++#endif
++			pwrpriv->autopm_cnt--;
++		} else
++			RTW_INFO("0!=pwrpriv->autopm_cnt[%d]   didn't usb_autopm_put_interface\n", pwrpriv->autopm_cnt);
++
++#endif	/* #ifndef	CONFIG_BT_COEXIST */
++	}
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 32))
++	RTW_INFO("...pm_usage_cnt(%d).....\n", atomic_read(&(dvobj->pusbintf->pm_usage_cnt)));
++#else
++	RTW_INFO("...pm_usage_cnt(%d).....\n", dvobj->pusbintf->pm_usage_cnt);
++#endif
++
++}
++
++int autoresume_enter(_adapter *padapter)
++{
++	int result = _SUCCESS;
++	struct security_priv *psecuritypriv = &(padapter->securitypriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv *pwrpriv = dvobj_to_pwrctl(dvobj);
++
++	RTW_INFO("====> autoresume_enter\n");
++
++	if (rf_off == pwrpriv->rf_pwrstate) {
++		pwrpriv->ps_flag = _FALSE;
++#ifndef	CONFIG_BT_COEXIST
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 33))
++		if (usb_autopm_get_interface(dvobj->pusbintf) < 0) {
++			RTW_INFO("can't get autopm: %d\n", result);
++			result = _FAIL;
++			goto error_exit;
++		}
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 20))
++		usb_autopm_disable(dvobj->pusbintf);
++#else
++		usb_autoresume_device(dvobj->pusbdev, 1);
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 32))
++		RTW_INFO("...pm_usage_cnt(%d).....\n", atomic_read(&(dvobj->pusbintf->pm_usage_cnt)));
++#else
++		RTW_INFO("...pm_usage_cnt(%d).....\n", dvobj->pusbintf->pm_usage_cnt);
++#endif
++#else	/* #ifndef	CONFIG_BT_COEXIST */
++		pwrpriv->bAutoResume = _TRUE;
++		if (0 == pwrpriv->autopm_cnt) {
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 33))
++			if (usb_autopm_get_interface(dvobj->pusbintf) < 0) {
++				RTW_INFO("can't get autopm: %d\n", result);
++				result = _FAIL;
++				goto error_exit;
++			}
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 20))
++			usb_autopm_disable(dvobj->pusbintf);
++#else
++			usb_autoresume_device(dvobj->pusbdev, 1);
++#endif
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 32))
++			RTW_INFO("...pm_usage_cnt(%d).....\n", atomic_read(&(dvobj->pusbintf->pm_usage_cnt)));
++#else
++			RTW_INFO("...pm_usage_cnt(%d).....\n", dvobj->pusbintf->pm_usage_cnt);
++#endif
++			pwrpriv->autopm_cnt++;
++		} else
++			RTW_INFO("0!=pwrpriv->autopm_cnt[%d]   didn't usb_autopm_get_interface\n", pwrpriv->autopm_cnt);
++#endif /* #ifndef	CONFIG_BT_COEXIST */
++	}
++	RTW_INFO("<==== autoresume_enter\n");
++error_exit:
++
++	return result;
++}
++#endif
++
++#ifdef CONFIG_PLATFORM_RTD2880B
++extern void rtd2885_wlan_netlink_sendMsg(char *action_string, char *name);
++#endif
++
++/*
++ * drv_init() - a device potentially for us
++ *
++ * notes: drv_init() is called when the bus driver has located a card for us to support.
++ *        We accept the new device by returning 0.
++*/
++
++_adapter  *rtw_sw_export = NULL;
++
++_adapter *rtw_usb_primary_adapter_init(struct dvobj_priv *dvobj,
++	struct usb_interface *pusb_intf)
++{
++	_adapter *padapter = NULL;
++	int status = _FAIL;
++
++	padapter = (_adapter *)rtw_zvmalloc(sizeof(*padapter));
++	if (padapter == NULL)
++		goto exit;
++
++	if (loadparam(padapter) != _SUCCESS)
++		goto free_adapter;
++
++	padapter->dvobj = dvobj;
++
++
++	rtw_set_drv_stopped(padapter);/*init*/
++
++	dvobj->padapters[dvobj->iface_nums++] = padapter;
++	padapter->iface_id = IFACE_ID0;
++
++	/* set adapter_type/iface type for primary padapter */
++	padapter->isprimary = _TRUE;
++	padapter->adapter_type = PRIMARY_ADAPTER;
++#ifdef CONFIG_MI_WITH_MBSSID_CAM/*Configure all IFACE to PORT0-MBSSID*/
++	padapter->hw_port = HW_PORT0;
++#else
++	padapter->hw_port = HW_PORT0;
++#endif
++
++	/* step init_io_priv */
++	if (rtw_init_io_priv(padapter, usb_set_intf_ops) == _FAIL)
++		goto free_adapter;
++
++	/* step 2. hook HalFunc, allocate HalData */
++	if (rtw_set_hal_ops(padapter) == _FAIL)
++		goto free_hal_data;
++
++
++	padapter->intf_start = &usb_intf_start;
++	padapter->intf_stop = &usb_intf_stop;
++
++	/* step read_chip_version */
++	rtw_hal_read_chip_version(padapter);
++
++	/* step usb endpoint mapping */
++	rtw_hal_chip_configure(padapter);
++
++	/* step read efuse/eeprom data and get mac_addr */
++	rtw_hal_read_chip_info(padapter);
++
++	/* step 5. */
++	if (rtw_init_drv_sw(padapter) == _FAIL) {
++		goto free_hal_data;
++	}
++
++#ifdef CONFIG_BT_COEXIST
++	rtw_btcoex_Initialize(padapter);
++#endif /* CONFIG_BT_COEXIST */
++
++#ifdef CONFIG_PM
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 18))
++	if (dvobj_to_pwrctl(dvobj)->bSupportRemoteWakeup) {
++		dvobj->pusbdev->do_remote_wakeup = 1;
++		pusb_intf->needs_remote_wakeup = 1;
++		device_init_wakeup(&pusb_intf->dev, 1);
++		RTW_INFO("pwrctrlpriv.bSupportRemoteWakeup~~~~~~\n");
++		RTW_INFO("pwrctrlpriv.bSupportRemoteWakeup~~~[%d]~~~\n", device_may_wakeup(&pusb_intf->dev));
++	}
++#endif
++#endif
++
++#ifdef CONFIG_AUTOSUSPEND
++	if (padapter->registrypriv.power_mgnt != PS_MODE_ACTIVE) {
++		if (padapter->registrypriv.usbss_enable) {	/* autosuspend (2s delay) */
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 38))
++			dvobj->pusbdev->dev.power.autosuspend_delay = 0 * HZ;/* 15 * HZ; idle-delay time */
++#else
++			dvobj->pusbdev->autosuspend_delay = 0 * HZ;/* 15 * HZ; idle-delay time */
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++			usb_enable_autosuspend(dvobj->pusbdev);
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 22) && LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 34))
++			padapter->bDisableAutosuspend = dvobj->pusbdev->autosuspend_disabled ;
++			dvobj->pusbdev->autosuspend_disabled = 0;/* autosuspend disabled by the user */
++#endif
++
++			/* usb_autopm_get_interface(adapter_to_dvobj(padapter)->pusbintf ); */ /* init pm_usage_cnt ,let it start from 1 */
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 32))
++			RTW_INFO("%s...pm_usage_cnt(%d).....\n", __FUNCTION__, atomic_read(&(dvobj->pusbintf->pm_usage_cnt)));
++#else
++			RTW_INFO("%s...pm_usage_cnt(%d).....\n", __FUNCTION__, dvobj->pusbintf->pm_usage_cnt);
++#endif
++		}
++	}
++#endif
++	/* 2012-07-11 Move here to prevent the 8723AS-VAU BT auto suspend influence */
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 33))
++	if (usb_autopm_get_interface(pusb_intf) < 0)
++		RTW_INFO("can't get autopm:\n");
++#endif
++#ifdef CONFIG_BT_COEXIST
++	dvobj_to_pwrctl(dvobj)->autopm_cnt = 1;
++#endif
++
++	/* set mac addr */
++	rtw_macaddr_cfg(adapter_mac_addr(padapter), get_hal_mac_addr(padapter));
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++	rtw_mbid_camid_alloc(padapter, adapter_mac_addr(padapter));
++#endif
++
++#ifdef CONFIG_P2P
++	rtw_init_wifidirect_addrs(padapter, adapter_mac_addr(padapter), adapter_mac_addr(padapter));
++#endif /* CONFIG_P2P */
++	RTW_INFO("bDriverStopped:%s, bSurpriseRemoved:%s, bup:%d, hw_init_completed:%d\n"
++		 , rtw_is_drv_stopped(padapter) ? "True" : "False"
++		 , rtw_is_surprise_removed(padapter) ? "True" : "False"
++		 , padapter->bup
++		 , rtw_get_hw_init_completed(padapter)
++		);
++
++	status = _SUCCESS;
++
++free_hal_data:
++	if (status != _SUCCESS && padapter->HalData)
++		rtw_hal_free_data(padapter);
++free_adapter:
++	if (status != _SUCCESS && padapter) {
++		rtw_vmfree((u8 *)padapter, sizeof(*padapter));
++		padapter = NULL;
++	}
++exit:
++	return padapter;
++}
++
++static void rtw_usb_primary_adapter_deinit(_adapter *padapter)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED))
++		rtw_disassoc_cmd(padapter, 0, _FALSE);
++
++#ifdef CONFIG_AP_MODE
++	if (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE) {
++		free_mlme_ap_info(padapter);
++		#ifdef CONFIG_HOSTAPD_MLME
++		hostapd_mode_unload(padapter);
++		#endif
++	}
++#endif
++
++	/*rtw_cancel_all_timer(if1);*/
++
++#ifdef CONFIG_WOWLAN
++	pwrctl->wowlan_mode = _FALSE;
++#endif /* CONFIG_WOWLAN */
++
++	rtw_dev_unload(padapter);
++
++	RTW_INFO("+r871xu_dev_remove, hw_init_completed=%d\n", rtw_get_hw_init_completed(padapter));
++
++#ifdef CONFIG_BT_COEXIST
++	if (1 == pwrctl->autopm_cnt) {
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 33))
++		usb_autopm_put_interface(adapter_to_dvobj(padapter)->pusbintf);
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 20))
++		usb_autopm_enable(adapter_to_dvobj(padapter)->pusbintf);
++#else
++		usb_autosuspend_device(adapter_to_dvobj(padapter)->pusbdev, 1);
++#endif
++		pwrctl->autopm_cnt--;
++	}
++#endif
++
++	rtw_free_drv_sw(padapter);
++
++	/* TODO: use rtw_os_ndevs_deinit instead at the first stage of driver's dev deinit function */
++	rtw_os_ndev_free(padapter);
++
++#ifdef RTW_HALMAC
++	rtw_halmac_deinit_adapter(adapter_to_dvobj(padapter));
++#endif /* RTW_HALMAC */
++
++	rtw_vmfree((u8 *)padapter, sizeof(_adapter));
++
++#ifdef CONFIG_PLATFORM_RTD2880B
++	RTW_INFO("wlan link down\n");
++	rtd2885_wlan_netlink_sendMsg("linkdown", "8712");
++#endif
++
++}
++
++static int rtw_drv_init(struct usb_interface *pusb_intf, const struct usb_device_id *pdid)
++{
++	_adapter *padapter = NULL;
++	int status = _FAIL;
++	struct dvobj_priv *dvobj;
++#ifdef CONFIG_CONCURRENT_MODE
++	int i;
++#endif
++
++	/* RTW_INFO("+rtw_drv_init\n"); */
++
++	/* step 0. */
++	process_spec_devid(pdid);
++
++	/* Initialize dvobj_priv */
++	dvobj = usb_dvobj_init(pusb_intf, pdid);
++	if (dvobj == NULL) {
++		goto exit;
++	}
++
++	padapter = rtw_usb_primary_adapter_init(dvobj, pusb_intf);
++	if (padapter == NULL) {
++		RTW_INFO("rtw_usb_primary_adapter_init Failed!\n");
++		goto free_dvobj;
++	}
++
++	if (usb_reprobe_switch_usb_mode(padapter) == _TRUE)
++		goto free_if_prim;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->registrypriv.virtual_iface_num > (CONFIG_IFACE_NUMBER - 1))
++		padapter->registrypriv.virtual_iface_num = (CONFIG_IFACE_NUMBER - 1);
++
++	for (i = 0; i < padapter->registrypriv.virtual_iface_num; i++) {
++		if (rtw_drv_add_vir_if(padapter, usb_set_intf_ops) == NULL) {
++			RTW_INFO("rtw_drv_add_iface failed! (%d)\n", i);
++			goto free_if_vir;
++		}
++	}
++#endif
++
++#ifdef CONFIG_INTEL_PROXIM
++	rtw_sw_export = padapter;
++#endif
++
++#ifdef CONFIG_GLOBAL_UI_PID
++	if (ui_pid[1] != 0) {
++		RTW_INFO("ui_pid[1]:%d\n", ui_pid[1]);
++		rtw_signal_process(ui_pid[1], SIGUSR2);
++	}
++#endif
++
++	/* dev_alloc_name && register_netdev */
++	if (rtw_os_ndevs_init(dvobj) != _SUCCESS)
++		goto free_if_vir;
++
++#ifdef CONFIG_HOSTAPD_MLME
++	hostapd_mode_init(padapter);
++#endif
++
++#ifdef CONFIG_PLATFORM_RTD2880B
++	RTW_INFO("wlan link up\n");
++	rtd2885_wlan_netlink_sendMsg("linkup", "8712");
++#endif
++
++
++	status = _SUCCESS;
++
++#if 0 /* not used now */
++os_ndevs_deinit:
++	if (status != _SUCCESS)
++		rtw_os_ndevs_deinit(dvobj);
++#endif
++free_if_vir:
++	if (status != _SUCCESS) {
++		#ifdef CONFIG_CONCURRENT_MODE
++		rtw_drv_stop_vir_ifaces(dvobj);
++		rtw_drv_free_vir_ifaces(dvobj);
++		#endif
++	}
++
++free_if_prim:
++	if (status != _SUCCESS && padapter)
++		rtw_usb_primary_adapter_deinit(padapter);
++
++free_dvobj:
++	if (status != _SUCCESS)
++		usb_dvobj_deinit(pusb_intf);
++exit:
++	return status == _SUCCESS ? 0 : -ENODEV;
++}
++
++/*
++ * dev_remove() - our device is being removed
++*/
++/* rmmod module & unplug(SurpriseRemoved) will call r871xu_dev_remove() => how to recognize both */
++static void rtw_dev_remove(struct usb_interface *pusb_intf)
++{
++	struct dvobj_priv *dvobj = usb_get_intfdata(pusb_intf);
++	struct pwrctrl_priv *pwrctl = dvobj_to_pwrctl(dvobj);
++	_adapter *padapter = dvobj->padapters[IFACE_ID0];
++	struct net_device *pnetdev = padapter->pnetdev;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++
++	RTW_INFO("+rtw_dev_remove\n");
++
++	dvobj->processing_dev_remove = _TRUE;
++
++	/* TODO: use rtw_os_ndevs_deinit instead at the first stage of driver's dev deinit function */
++	rtw_os_ndevs_unregister(dvobj);
++
++	if (usb_drv.drv_registered == _TRUE) {
++		/* RTW_INFO("r871xu_dev_remove():padapter->bSurpriseRemoved == _TRUE\n"); */
++		rtw_set_surprise_removed(padapter);
++	}
++	/*else
++	{
++
++		padapter->HalData->hw_init_completed = _FALSE;
++	}*/
++
++
++#if defined(CONFIG_HAS_EARLYSUSPEND) || defined(CONFIG_ANDROID_POWER)
++	rtw_unregister_early_suspend(pwrctl);
++#endif
++
++	if (padapter->bFWReady == _TRUE) {
++		rtw_pm_set_ips(padapter, IPS_NONE);
++		rtw_pm_set_lps(padapter, PS_MODE_ACTIVE);
++
++		LeaveAllPowerSaveMode(padapter);
++	}
++	rtw_set_drv_stopped(padapter);	/*for stop thread*/
++	rtw_stop_cmd_thread(padapter);
++#ifdef CONFIG_CONCURRENT_MODE
++	rtw_drv_stop_vir_ifaces(dvobj);
++#endif /* CONFIG_CONCURRENT_MODE */
++
++#ifdef CONFIG_BT_COEXIST
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	if (GET_HAL_DATA(padapter)->EEPROMBluetoothCoexist)
++		rtw_btcoex_close_socket(padapter);
++#endif
++	rtw_btcoex_HaltNotify(padapter);
++#endif
++
++	rtw_usb_primary_adapter_deinit(padapter);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	rtw_drv_free_vir_ifaces(dvobj);
++#endif /* CONFIG_CONCURRENT_MODE */
++
++	usb_dvobj_deinit(pusb_intf);
++
++	RTW_INFO("-r871xu_dev_remove, done\n");
++
++
++#ifdef CONFIG_INTEL_PROXIM
++	rtw_sw_export = NULL;
++#endif
++
++
++	return;
++
++}
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 24))
++extern int console_suspend_enabled;
++#endif
++
++static int __init rtw_drv_entry(void)
++{
++	int ret = 0;
++
++	RTW_PRINT("module init start\n");
++	dump_drv_version(RTW_DBGDUMP);
++#ifdef BTCOEXVERSION
++	RTW_PRINT(DRV_NAME" BT-Coex version = %s\n", BTCOEXVERSION);
++#endif /* BTCOEXVERSION */
++
++	ret = platform_wifi_power_on();
++	if (ret != 0) {
++		RTW_INFO("%s: power on failed!!(%d)\n", __FUNCTION__, ret);
++		ret = -1;
++		goto exit;
++	}
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 24))
++	/* console_suspend_enabled=0; */
++#endif
++
++	usb_drv.drv_registered = _TRUE;
++	rtw_suspend_lock_init();
++	rtw_drv_proc_init();
++	rtw_ndev_notifier_register();
++
++	ret = usb_register(&usb_drv.usbdrv);
++
++	if (ret != 0) {
++		usb_drv.drv_registered = _FALSE;
++		rtw_suspend_lock_uninit();
++		rtw_drv_proc_deinit();
++		rtw_ndev_notifier_unregister();
++		goto exit;
++	}
++
++exit:
++	RTW_PRINT("module init ret=%d\n", ret);
++	return ret;
++}
++
++static void __exit rtw_drv_halt(void)
++{
++	RTW_PRINT("module exit start\n");
++
++	usb_drv.drv_registered = _FALSE;
++
++	usb_deregister(&usb_drv.usbdrv);
++
++	platform_wifi_power_off();
++
++	rtw_suspend_lock_uninit();
++	rtw_drv_proc_deinit();
++	rtw_ndev_notifier_unregister();
++
++	RTW_PRINT("module exit success\n");
++
++	rtw_mstat_dump(RTW_DBGDUMP);
++}
++
++
++module_init(rtw_drv_entry);
++module_exit(rtw_drv_halt);
++
++#ifdef CONFIG_INTEL_PROXIM
++_adapter  *rtw_usb_get_sw_pointer(void)
++{
++	return rtw_sw_export;
++}
++EXPORT_SYMBOL(rtw_usb_get_sw_pointer);
++#endif /* CONFIG_INTEL_PROXIM */
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/usb_ops_linux.c b/drivers/net/wireless/rtl8723du/os_dep/linux/usb_ops_linux.c
+new file mode 100644
+index 0000000..4dfbfab
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/usb_ops_linux.c
+@@ -0,0 +1,1181 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#define _USB_OPS_LINUX_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++#include <rtw_sreset.h>
++
++struct rtw_async_write_data {
++	u8 data[VENDOR_CMD_MAX_DATA_LEN];
++	struct usb_ctrlrequest dr;
++};
++
++int usbctrl_vendorreq(struct intf_hdl *pintfhdl, u8 request, u16 value, u16 index, void *pdata, u16 len, u8 requesttype)
++{
++	_adapter	*padapter = pintfhdl->padapter;
++	struct dvobj_priv  *pdvobjpriv = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv *pwrctl = dvobj_to_pwrctl(pdvobjpriv);
++	struct usb_device *udev = pdvobjpriv->pusbdev;
++
++	unsigned int pipe;
++	int status = 0;
++	u32 tmp_buflen = 0;
++	u8 reqtype;
++	u8 *pIo_buf;
++	int vendorreq_times = 0;
++
++#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_DYNAMIC_ALLOCATE
++	u8 *tmp_buf;
++#else /* use stack memory */
++	u8 tmp_buf[MAX_USB_IO_CTL_SIZE];
++#endif
++
++	/* RTW_INFO("%s %s:%d\n",__FUNCTION__, current->comm, current->pid); */
++
++	if (RTW_CANNOT_IO(padapter)) {
++		status = -EPERM;
++		goto exit;
++	}
++
++	if (len > MAX_VENDOR_REQ_CMD_SIZE) {
++		RTW_INFO("[%s] Buffer len error ,vendor request failed\n", __FUNCTION__);
++		status = -EINVAL;
++		goto exit;
++	}
++
++#ifdef CONFIG_USB_VENDOR_REQ_MUTEX
++	_enter_critical_mutex(&pdvobjpriv->usb_vendor_req_mutex, NULL);
++#endif
++
++
++	/* Acquire IO memory for vendorreq */
++#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC
++	pIo_buf = pdvobjpriv->usb_vendor_req_buf;
++#else
++	#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_DYNAMIC_ALLOCATE
++	tmp_buf = rtw_malloc((u32) len + ALIGNMENT_UNIT);
++	tmp_buflen = (u32)len + ALIGNMENT_UNIT;
++	#else /* use stack memory */
++	tmp_buflen = MAX_USB_IO_CTL_SIZE;
++	#endif
++
++	/* Added by Albert 2010/02/09 */
++	/* For mstar platform, mstar suggests the address for USB IO should be 16 bytes alignment. */
++	/* Trying to fix it here. */
++	pIo_buf = (tmp_buf == NULL) ? NULL : tmp_buf + ALIGNMENT_UNIT - ((SIZE_PTR)(tmp_buf) & 0x0f);
++#endif
++
++	if (pIo_buf == NULL) {
++		RTW_INFO("[%s] pIo_buf == NULL\n", __FUNCTION__);
++		status = -ENOMEM;
++		goto release_mutex;
++	}
++
++	while (++vendorreq_times <= MAX_USBCTRL_VENDORREQ_TIMES) {
++		_rtw_memset(pIo_buf, 0, len);
++
++		if (requesttype == 0x01) {
++			pipe = usb_rcvctrlpipe(udev, 0);/* read_in */
++			reqtype =  REALTEK_USB_VENQT_READ;
++		} else {
++			pipe = usb_sndctrlpipe(udev, 0);/* write_out */
++			reqtype =  REALTEK_USB_VENQT_WRITE;
++			_rtw_memcpy(pIo_buf, pdata, len);
++		}
++
++		status = rtw_usb_control_msg(udev, pipe, request, reqtype, value, index, pIo_buf, len, RTW_USB_CONTROL_MSG_TIMEOUT);
++
++		if (status == len) {  /* Success this control transfer. */
++			rtw_reset_continual_io_error(pdvobjpriv);
++			if (requesttype == 0x01) {
++				/* For Control read transfer, we have to copy the read data from pIo_buf to pdata. */
++				_rtw_memcpy(pdata, pIo_buf,  len);
++			}
++		} else { /* error cases */
++			RTW_INFO("reg 0x%x, usb %s %u fail, status:%d value=0x%x, vendorreq_times:%d\n"
++				, value, (requesttype == 0x01) ? "read" : "write" , len, status, *(u32 *)pdata, vendorreq_times);
++
++			if (status < 0) {
++				if (status == (-ESHUTDOWN)	|| status == -ENODEV)
++					rtw_set_surprise_removed(padapter);
++				else {
++					#ifdef DBG_CONFIG_ERROR_DETECT
++					{
++						HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++						pHalData->srestpriv.Wifi_Error_Status = USB_VEN_REQ_CMD_FAIL;
++					}
++					#endif
++				}
++			} else { /* status != len && status >= 0 */
++				if (status > 0) {
++					if (requesttype == 0x01) {
++						/* For Control read transfer, we have to copy the read data from pIo_buf to pdata. */
++						_rtw_memcpy(pdata, pIo_buf,  len);
++					}
++				}
++			}
++
++			if (rtw_inc_and_chk_continual_io_error(pdvobjpriv) == _TRUE) {
++				rtw_set_surprise_removed(padapter);
++				break;
++			}
++
++		}
++
++		/* firmware download is checksumed, don't retry */
++		if ((value >= FW_START_ADDRESS) || status == len)
++			break;
++
++	}
++
++	/* release IO memory used by vendorreq */
++#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_DYNAMIC_ALLOCATE
++	rtw_mfree(tmp_buf, tmp_buflen);
++#endif
++
++release_mutex:
++#ifdef CONFIG_USB_VENDOR_REQ_MUTEX
++	_exit_critical_mutex(&pdvobjpriv->usb_vendor_req_mutex, NULL);
++#endif
++exit:
++	return status;
++
++}
++
++#ifdef CONFIG_USB_SUPPORT_ASYNC_VDN_REQ
++static void _usbctrl_vendorreq_async_callback(struct urb *urb, struct pt_regs *regs)
++{
++	if (urb) {
++		if (urb->context)
++			rtw_mfree(urb->context, sizeof(struct rtw_async_write_data));
++		usb_free_urb(urb);
++	}
++}
++
++int _usbctrl_vendorreq_async_write(struct usb_device *udev, u8 request,
++	u16 value, u16 index, void *pdata, u16 len, u8 requesttype)
++{
++	int rc;
++	unsigned int pipe;
++	u8 reqtype;
++	struct usb_ctrlrequest *dr;
++	struct urb *urb;
++	struct rtw_async_write_data *buf;
++
++
++	if (requesttype == VENDOR_READ) {
++		pipe = usb_rcvctrlpipe(udev, 0);/* read_in */
++		reqtype =  REALTEK_USB_VENQT_READ;
++	} else {
++		pipe = usb_sndctrlpipe(udev, 0);/* write_out */
++		reqtype =  REALTEK_USB_VENQT_WRITE;
++	}
++
++	buf = (struct rtl819x_async_write_data *)rtw_zmalloc(sizeof(*buf));
++	if (!buf) {
++		rc = -ENOMEM;
++		goto exit;
++	}
++
++	urb = usb_alloc_urb(0, GFP_ATOMIC);
++	if (!urb) {
++		rtw_mfree((u8 *)buf, sizeof(*buf));
++		rc = -ENOMEM;
++		goto exit;
++	}
++
++	dr = &buf->dr;
++
++	dr->bRequestType = reqtype;
++	dr->bRequest = request;
++	dr->wValue = cpu_to_le16(value);
++	dr->wIndex = cpu_to_le16(index);
++	dr->wLength = cpu_to_le16(len);
++
++	_rtw_memcpy(buf, pdata, len);
++
++	usb_fill_control_urb(urb, udev, pipe, (unsigned char *)dr, buf, len,
++		_usbctrl_vendorreq_async_callback, buf);
++
++	rc = usb_submit_urb(urb, GFP_ATOMIC);
++	if (rc < 0) {
++		rtw_mfree((u8 *)buf, sizeof(*buf));
++		usb_free_urb(urb);
++	}
++
++exit:
++	return rc;
++}
++
++
++#endif /* CONFIG_USB_SUPPORT_ASYNC_VDN_REQ */
++
++unsigned int ffaddr2pipehdl(struct dvobj_priv *pdvobj, u32 addr)
++{
++	unsigned int pipe = 0, ep_num = 0;
++	struct usb_device *pusbd = pdvobj->pusbdev;
++
++	if (addr == RECV_BULK_IN_ADDR)
++		pipe = usb_rcvbulkpipe(pusbd, pdvobj->RtInPipe[0]);
++
++	else if (addr == RECV_INT_IN_ADDR)
++		pipe = usb_rcvintpipe(pusbd, pdvobj->RtInPipe[1]);
++
++	else if (addr < HW_QUEUE_ENTRY) {
++#ifdef RTW_HALMAC
++		/* halmac already translate queue id to bulk out id */
++		ep_num = pdvobj->RtOutPipe[addr];
++#else
++		ep_num = pdvobj->Queue2Pipe[addr];
++#endif
++		pipe = usb_sndbulkpipe(pusbd, ep_num);
++	}
++
++	return pipe;
++}
++
++struct zero_bulkout_context {
++	void *pbuf;
++	void *purb;
++	void *pirp;
++	void *padapter;
++};
++
++static void usb_bulkout_zero_complete(struct urb *purb, struct pt_regs *regs)
++{
++	struct zero_bulkout_context *pcontext = (struct zero_bulkout_context *)purb->context;
++
++	/* RTW_INFO("+usb_bulkout_zero_complete\n"); */
++
++	if (pcontext) {
++		if (pcontext->pbuf)
++			rtw_mfree(pcontext->pbuf, sizeof(int));
++
++		if (pcontext->purb && (pcontext->purb == purb))
++			usb_free_urb(pcontext->purb);
++
++
++		rtw_mfree((u8 *)pcontext, sizeof(struct zero_bulkout_context));
++	}
++
++
++}
++
++static u32 usb_bulkout_zero(struct intf_hdl *pintfhdl, u32 addr)
++{
++	int pipe, status, len;
++	u32 ret;
++	unsigned char *pbuf;
++	struct zero_bulkout_context *pcontext;
++	PURB	purb = NULL;
++	_adapter *padapter = (_adapter *)pintfhdl->padapter;
++	struct dvobj_priv *pdvobj = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv *pwrctl = dvobj_to_pwrctl(pdvobj);
++	struct usb_device *pusbd = pdvobj->pusbdev;
++
++	/* RTW_INFO("%s\n", __func__); */
++
++
++	if (RTW_CANNOT_TX(padapter))
++		return _FAIL;
++
++
++	pcontext = (struct zero_bulkout_context *)rtw_zmalloc(sizeof(struct zero_bulkout_context));
++	if (pcontext == NULL)
++		return _FAIL;
++
++	pbuf = (unsigned char *)rtw_zmalloc(sizeof(int));
++	purb = usb_alloc_urb(0, GFP_ATOMIC);
++
++	/* translate DMA FIFO addr to pipehandle */
++	pipe = ffaddr2pipehdl(pdvobj, addr);
++
++	len = 0;
++	pcontext->pbuf = pbuf;
++	pcontext->purb = purb;
++	pcontext->pirp = NULL;
++	pcontext->padapter = padapter;
++
++
++	/* translate DMA FIFO addr to pipehandle */
++	/* pipe = ffaddr2pipehdl(pdvobj, addr);	 */
++
++	usb_fill_bulk_urb(purb, pusbd, pipe,
++			  pbuf,
++			  len,
++			  usb_bulkout_zero_complete,
++			  pcontext);/* context is pcontext */
++
++	status = usb_submit_urb(purb, GFP_ATOMIC);
++
++	if (!status)
++		ret = _SUCCESS;
++	else
++		ret = _FAIL;
++
++
++	return _SUCCESS;
++
++}
++
++void usb_read_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem)
++{
++
++}
++
++void usb_write_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *wmem)
++{
++
++}
++
++
++void usb_read_port_cancel(struct intf_hdl *pintfhdl)
++{
++	int i;
++	struct recv_buf *precvbuf;
++	_adapter	*padapter = pintfhdl->padapter;
++	precvbuf = (struct recv_buf *)padapter->recvpriv.precv_buf;
++
++	RTW_INFO("%s\n", __func__);
++
++	for (i = 0; i < NR_RECVBUFF ; i++) {
++
++		if (precvbuf->purb)	 {
++			/* RTW_INFO("usb_read_port_cancel : usb_kill_urb\n"); */
++			usb_kill_urb(precvbuf->purb);
++		}
++		precvbuf++;
++	}
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++	usb_kill_urb(padapter->recvpriv.int_in_urb);
++#endif
++}
++
++static void usb_write_port_complete(struct urb *purb, struct pt_regs *regs)
++{
++	_irqL irqL;
++	int i;
++	struct xmit_buf *pxmitbuf = (struct xmit_buf *)purb->context;
++	/* struct xmit_frame *pxmitframe = (struct xmit_frame *)pxmitbuf->priv_data; */
++	/* _adapter			*padapter = pxmitframe->padapter; */
++	_adapter	*padapter = pxmitbuf->padapter;
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	/* struct pkt_attrib *pattrib = &pxmitframe->attrib; */
++
++
++	switch (pxmitbuf->flags) {
++	case VO_QUEUE_INX:
++		pxmitpriv->voq_cnt--;
++		break;
++	case VI_QUEUE_INX:
++		pxmitpriv->viq_cnt--;
++		break;
++	case BE_QUEUE_INX:
++		pxmitpriv->beq_cnt--;
++		break;
++	case BK_QUEUE_INX:
++		pxmitpriv->bkq_cnt--;
++		break;
++	default:
++		break;
++	}
++
++
++	/*
++		_enter_critical(&pxmitpriv->lock, &irqL);
++
++		pxmitpriv->txirp_cnt--;
++
++		switch(pattrib->priority)
++		{
++			case 1:
++			case 2:
++				pxmitpriv->bkq_cnt--;
++
++				break;
++			case 4:
++			case 5:
++				pxmitpriv->viq_cnt--;
++
++				break;
++			case 6:
++			case 7:
++				pxmitpriv->voq_cnt--;
++
++				break;
++			case 0:
++			case 3:
++			default:
++				pxmitpriv->beq_cnt--;
++
++				break;
++
++		}
++
++		_exit_critical(&pxmitpriv->lock, &irqL);
++
++
++		if(pxmitpriv->txirp_cnt==0)
++		{
++			_rtw_up_sema(&(pxmitpriv->tx_retevt));
++		}
++	*/
++	/* rtw_free_xmitframe(pxmitpriv, pxmitframe); */
++
++	if (RTW_CANNOT_TX(padapter)) {
++		RTW_INFO("%s(): TX Warning! bDriverStopped(%s) OR bSurpriseRemoved(%s) pxmitbuf->buf_tag(%x)\n"
++			 , __func__
++			 , rtw_is_drv_stopped(padapter) ? "True" : "False"
++			 , rtw_is_surprise_removed(padapter) ? "True" : "False"
++			 , pxmitbuf->buf_tag);
++
++		goto check_completion;
++	}
++
++
++	if (purb->status == 0) {
++
++	} else {
++		RTW_INFO("###=> urb_write_port_complete status(%d)\n", purb->status);
++		if ((purb->status == -EPIPE) || (purb->status == -EPROTO)) {
++			/* usb_clear_halt(pusbdev, purb->pipe);	 */
++			/* msleep(10); */
++			sreset_set_wifi_error_status(padapter, USB_WRITE_PORT_FAIL);
++		} else if (purb->status == -EINPROGRESS) {
++			goto check_completion;
++
++		} else if (purb->status == -ENOENT) {
++			RTW_INFO("%s: -ENOENT\n", __func__);
++			goto check_completion;
++
++		} else if (purb->status == -ECONNRESET) {
++			RTW_INFO("%s: -ECONNRESET\n", __func__);
++			goto check_completion;
++
++		} else if (purb->status == -ESHUTDOWN) {
++			rtw_set_drv_stopped(padapter);
++
++			goto check_completion;
++		} else {
++			rtw_set_surprise_removed(padapter);
++			RTW_INFO("bSurpriseRemoved=TRUE\n");
++
++			goto check_completion;
++		}
++	}
++
++	#ifdef DBG_CONFIG_ERROR_DETECT
++	{
++		HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++		pHalData->srestpriv.last_tx_complete_time = rtw_get_current_time();
++	}
++	#endif
++
++check_completion:
++	_enter_critical(&pxmitpriv->lock_sctx, &irqL);
++	rtw_sctx_done_err(&pxmitbuf->sctx,
++		purb->status ? RTW_SCTX_DONE_WRITE_PORT_ERR : RTW_SCTX_DONE_SUCCESS);
++	_exit_critical(&pxmitpriv->lock_sctx, &irqL);
++
++	rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++
++	/* if(rtw_txframes_pending(padapter))	 */
++	{
++		tasklet_hi_schedule(&pxmitpriv->xmit_tasklet);
++	}
++
++
++}
++
++u32 usb_write_port(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *wmem)
++{
++	_irqL irqL;
++	unsigned int pipe;
++	int status;
++	u32 ret = _FAIL, bwritezero = _FALSE;
++	PURB	purb = NULL;
++	_adapter *padapter = (_adapter *)pintfhdl->padapter;
++	struct dvobj_priv	*pdvobj = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv *pwrctl = dvobj_to_pwrctl(pdvobj);
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	struct xmit_buf *pxmitbuf = (struct xmit_buf *)wmem;
++	struct xmit_frame *pxmitframe = (struct xmit_frame *)pxmitbuf->priv_data;
++	struct usb_device *pusbd = pdvobj->pusbdev;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++
++
++
++	if (RTW_CANNOT_TX(padapter)) {
++#ifdef DBG_TX
++		RTW_INFO(" DBG_TX %s:%d bDriverStopped%s, bSurpriseRemoved:%s\n", __func__, __LINE__
++			 , rtw_is_drv_stopped(padapter) ? "True" : "False"
++			, rtw_is_surprise_removed(padapter) ? "True" : "False");
++#endif
++		rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_TX_DENY);
++		goto exit;
++	}
++
++	_enter_critical(&pxmitpriv->lock, &irqL);
++
++	switch (addr) {
++	case VO_QUEUE_INX:
++		pxmitpriv->voq_cnt++;
++		pxmitbuf->flags = VO_QUEUE_INX;
++		break;
++	case VI_QUEUE_INX:
++		pxmitpriv->viq_cnt++;
++		pxmitbuf->flags = VI_QUEUE_INX;
++		break;
++	case BE_QUEUE_INX:
++		pxmitpriv->beq_cnt++;
++		pxmitbuf->flags = BE_QUEUE_INX;
++		break;
++	case BK_QUEUE_INX:
++		pxmitpriv->bkq_cnt++;
++		pxmitbuf->flags = BK_QUEUE_INX;
++		break;
++	case HIGH_QUEUE_INX:
++		pxmitbuf->flags = HIGH_QUEUE_INX;
++		break;
++	default:
++		pxmitbuf->flags = MGT_QUEUE_INX;
++		break;
++	}
++
++	_exit_critical(&pxmitpriv->lock, &irqL);
++
++	purb	= pxmitbuf->pxmit_urb[0];
++
++	/* translate DMA FIFO addr to pipehandle */
++#ifdef RTW_HALMAC
++	pipe = ffaddr2pipehdl(pdvobj, pxmitbuf->bulkout_id);
++#else
++	pipe = ffaddr2pipehdl(pdvobj, addr);
++#endif
++
++#ifdef CONFIG_REDUCE_USB_TX_INT
++	if ((pxmitpriv->free_xmitbuf_cnt % NR_XMITBUFF == 0)
++	    || (pxmitbuf->buf_tag > XMITBUF_DATA))
++		purb->transfer_flags  &= (~URB_NO_INTERRUPT);
++	else {
++		purb->transfer_flags  |=  URB_NO_INTERRUPT;
++		/* RTW_INFO("URB_NO_INTERRUPT "); */
++	}
++#endif
++
++
++	usb_fill_bulk_urb(purb, pusbd, pipe,
++			  pxmitframe->buf_addr, /* = pxmitbuf->pbuf */
++			  cnt,
++			  usb_write_port_complete,
++			  pxmitbuf);/* context is pxmitbuf */
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_TX
++	purb->transfer_dma = pxmitbuf->dma_transfer_addr;
++	purb->transfer_flags |= URB_NO_TRANSFER_DMA_MAP;
++	purb->transfer_flags |= URB_ZERO_PACKET;
++#endif /* CONFIG_USE_USB_BUFFER_ALLOC_TX */
++
++#ifdef USB_PACKET_OFFSET_SZ
++#if (USB_PACKET_OFFSET_SZ == 0)
++	purb->transfer_flags |= URB_ZERO_PACKET;
++#endif
++#endif
++
++#if 0
++	if (bwritezero)
++		purb->transfer_flags |= URB_ZERO_PACKET;
++#endif
++
++	status = usb_submit_urb(purb, GFP_ATOMIC);
++	if (!status) {
++		#ifdef DBG_CONFIG_ERROR_DETECT
++		{
++			HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++			pHalData->srestpriv.last_tx_time = rtw_get_current_time();
++		}
++		#endif
++	} else {
++		rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_WRITE_PORT_ERR);
++		RTW_INFO("usb_write_port, status=%d\n", status);
++
++		switch (status) {
++		case -ENODEV:
++			rtw_set_drv_stopped(padapter);
++			break;
++		default:
++			break;
++		}
++		goto exit;
++	}
++
++	ret = _SUCCESS;
++
++	/* Commented by Albert 2009/10/13
++	 * We add the URB_ZERO_PACKET flag to urb so that the host will send the zero packet automatically. */
++	/*
++		if(bwritezero == _TRUE)
++		{
++			usb_bulkout_zero(pintfhdl, addr);
++		}
++	*/
++
++
++exit:
++	if (ret != _SUCCESS)
++		rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++	return ret;
++
++}
++
++void usb_write_port_cancel(struct intf_hdl *pintfhdl)
++{
++	int i, j;
++	_adapter	*padapter = pintfhdl->padapter;
++	struct xmit_buf *pxmitbuf = (struct xmit_buf *)padapter->xmitpriv.pxmitbuf;
++
++	RTW_INFO("%s\n", __func__);
++
++	for (i = 0; i < NR_XMITBUFF; i++) {
++		for (j = 0; j < 8; j++) {
++			if (pxmitbuf->pxmit_urb[j])
++				usb_kill_urb(pxmitbuf->pxmit_urb[j]);
++		}
++		pxmitbuf++;
++	}
++
++	pxmitbuf = (struct xmit_buf *)padapter->xmitpriv.pxmit_extbuf;
++	for (i = 0; i < NR_XMIT_EXTBUFF ; i++) {
++		for (j = 0; j < 8; j++) {
++			if (pxmitbuf->pxmit_urb[j])
++				usb_kill_urb(pxmitbuf->pxmit_urb[j]);
++		}
++		pxmitbuf++;
++	}
++}
++
++void usb_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf)
++{
++
++	precvbuf->transfer_len = 0;
++
++	precvbuf->len = 0;
++
++	precvbuf->ref_cnt = 0;
++
++	if (precvbuf->pbuf) {
++		precvbuf->pdata = precvbuf->phead = precvbuf->ptail = precvbuf->pbuf;
++		precvbuf->pend = precvbuf->pdata + MAX_RECVBUF_SZ;
++	}
++
++}
++
++int recvbuf2recvframe(PADAPTER padapter, void *ptr);
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++void usb_recv_tasklet(void *priv)
++{
++	struct recv_buf *precvbuf = NULL;
++	_adapter	*padapter = (_adapter *)priv;
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++
++	while (NULL != (precvbuf = rtw_dequeue_recvbuf(&precvpriv->recv_buf_pending_queue))) {
++		if (RTW_CANNOT_RUN(padapter)) {
++			RTW_INFO("recv_tasklet => bDriverStopped(%s) OR bSurpriseRemoved(%s)\n"
++				, rtw_is_drv_stopped(padapter)? "True" : "False"
++				, rtw_is_surprise_removed(padapter)? "True" : "False");
++			break;
++		}
++
++		recvbuf2recvframe(padapter, precvbuf);
++
++		rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++	}
++}
++
++void usb_read_port_complete(struct urb *purb, struct pt_regs *regs)
++{
++	struct recv_buf	*precvbuf = (struct recv_buf *)purb->context;
++	_adapter			*padapter = (_adapter *)precvbuf->adapter;
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++
++	ATOMIC_DEC(&(precvpriv->rx_pending_cnt));
++
++	if (RTW_CANNOT_RX(padapter)) {
++		RTW_INFO("%s() RX Warning! bDriverStopped(%s) OR bSurpriseRemoved(%s)\n"
++			 , __func__
++			 , rtw_is_drv_stopped(padapter) ? "True" : "False"
++			, rtw_is_surprise_removed(padapter) ? "True" : "False");
++		goto exit;
++	}
++
++	if (purb->status == 0) {
++
++		if ((purb->actual_length > MAX_RECVBUF_SZ) || (purb->actual_length < RXDESC_SIZE)) {
++			RTW_INFO("%s()-%d: urb->actual_length:%u, MAX_RECVBUF_SZ:%u, RXDESC_SIZE:%u\n"
++				, __FUNCTION__, __LINE__, purb->actual_length, MAX_RECVBUF_SZ, RXDESC_SIZE);
++			rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++		} else {
++			rtw_reset_continual_io_error(adapter_to_dvobj(padapter));
++
++			precvbuf->transfer_len = purb->actual_length;
++
++			rtw_enqueue_recvbuf(precvbuf, &precvpriv->recv_buf_pending_queue);
++
++			tasklet_schedule(&precvpriv->recv_tasklet);
++		}
++	} else {
++
++		RTW_INFO("###=> usb_read_port_complete => urb.status(%d)\n", purb->status);
++
++		if (rtw_inc_and_chk_continual_io_error(adapter_to_dvobj(padapter)) == _TRUE)
++			rtw_set_surprise_removed(padapter);
++
++		switch (purb->status) {
++		case -EINVAL:
++		case -EPIPE:
++		case -ENODEV:
++		case -ESHUTDOWN:
++		case -ENOENT:
++			rtw_set_drv_stopped(padapter);
++			break;
++		case -EPROTO:
++		case -EILSEQ:
++		case -ETIME:
++		case -ECOMM:
++		case -EOVERFLOW:
++			#ifdef DBG_CONFIG_ERROR_DETECT
++			{
++				HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++				pHalData->srestpriv.Wifi_Error_Status = USB_READ_PORT_FAIL;
++			}
++			#endif
++			rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++			break;
++		case -EINPROGRESS:
++			RTW_INFO("ERROR: URB IS IN PROGRESS!/n");
++			break;
++		default:
++			break;
++		}
++	}
++
++exit:
++
++}
++
++u32 usb_read_port(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem)
++{
++	int err;
++	unsigned int pipe;
++	u32 ret = _SUCCESS;
++	PURB purb = NULL;
++	struct recv_buf	*precvbuf = (struct recv_buf *)rmem;
++	_adapter		*adapter = pintfhdl->padapter;
++	struct dvobj_priv	*pdvobj = adapter_to_dvobj(adapter);
++	struct pwrctrl_priv *pwrctl = dvobj_to_pwrctl(pdvobj);
++	struct recv_priv	*precvpriv = &adapter->recvpriv;
++	struct usb_device	*pusbd = pdvobj->pusbdev;
++
++
++	if (RTW_CANNOT_RX(adapter) || (precvbuf == NULL)) {
++		return _FAIL;
++	}
++
++	usb_init_recvbuf(adapter, precvbuf);
++
++	if (precvbuf->pbuf) {
++		ATOMIC_INC(&(precvpriv->rx_pending_cnt));
++		purb = precvbuf->purb;
++
++		/* translate DMA FIFO addr to pipehandle */
++		pipe = ffaddr2pipehdl(pdvobj, addr);
++
++		usb_fill_bulk_urb(purb, pusbd, pipe,
++			precvbuf->pbuf,
++			MAX_RECVBUF_SZ,
++			usb_read_port_complete,
++			precvbuf);/* context is precvbuf */
++
++		purb->transfer_dma = precvbuf->dma_transfer_addr;
++		purb->transfer_flags |= URB_NO_TRANSFER_DMA_MAP;
++
++		err = usb_submit_urb(purb, GFP_ATOMIC);
++		if ((err) && (err != (-EPERM))) {
++			RTW_INFO("cannot submit rx in-token(err = 0x%08x),urb_status = %d\n", err, purb->status);
++			ret = _FAIL;
++		}
++
++	}
++
++
++	return ret;
++}
++#else	/* CONFIG_USE_USB_BUFFER_ALLOC_RX */
++
++void usb_recv_tasklet(void *priv)
++{
++	_pkt			*pskb;
++	_adapter		*padapter = (_adapter *)priv;
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++	struct recv_buf	*precvbuf = NULL;
++
++	while (NULL != (pskb = skb_dequeue(&precvpriv->rx_skb_queue))) {
++
++		if (RTW_CANNOT_RUN(padapter)) {
++			RTW_INFO("recv_tasklet => bDriverStopped(%s) OR bSurpriseRemoved(%s)\n"
++				, rtw_is_drv_stopped(padapter) ? "True" : "False"
++				, rtw_is_surprise_removed(padapter) ? "True" : "False");
++			#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++			if (rtw_free_skb_premem(pskb) != 0)
++			#endif /* CONFIG_PREALLOC_RX_SKB_BUFFER */
++				rtw_skb_free(pskb);
++			break;
++		}
++
++		recvbuf2recvframe(padapter, pskb);
++
++		skb_reset_tail_pointer(pskb);
++		pskb->len = 0;
++
++		skb_queue_tail(&precvpriv->free_recv_skb_queue, pskb);
++
++		precvbuf = rtw_dequeue_recvbuf(&precvpriv->recv_buf_pending_queue);
++		if (NULL != precvbuf) {
++			precvbuf->pskb = NULL;
++			rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++		}
++	}
++}
++
++void usb_read_port_complete(struct urb *purb, struct pt_regs *regs)
++{
++	struct recv_buf	*precvbuf = (struct recv_buf *)purb->context;
++	_adapter			*padapter = (_adapter *)precvbuf->adapter;
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++
++	ATOMIC_DEC(&(precvpriv->rx_pending_cnt));
++
++	if (RTW_CANNOT_RX(padapter)) {
++		RTW_INFO("%s() RX Warning! bDriverStopped(%s) OR bSurpriseRemoved(%s)\n"
++			, __func__
++			, rtw_is_drv_stopped(padapter) ? "True" : "False"
++			, rtw_is_surprise_removed(padapter) ? "True" : "False");
++		goto exit;
++	}
++
++	if (purb->status == 0) {
++
++		if ((purb->actual_length > MAX_RECVBUF_SZ) || (purb->actual_length < RXDESC_SIZE)) {
++			RTW_INFO("%s()-%d: urb->actual_length:%u, MAX_RECVBUF_SZ:%u, RXDESC_SIZE:%u\n"
++				, __FUNCTION__, __LINE__, purb->actual_length, MAX_RECVBUF_SZ, RXDESC_SIZE);
++			rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++		} else {
++			rtw_reset_continual_io_error(adapter_to_dvobj(padapter));
++
++			precvbuf->transfer_len = purb->actual_length;
++			skb_put(precvbuf->pskb, purb->actual_length);
++			skb_queue_tail(&precvpriv->rx_skb_queue, precvbuf->pskb);
++
++			#ifndef CONFIG_FIX_NR_BULKIN_BUFFER
++			if (skb_queue_len(&precvpriv->rx_skb_queue) <= 1)
++			#endif
++				tasklet_schedule(&precvpriv->recv_tasklet);
++
++			precvbuf->pskb = NULL;
++			rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++		}
++	} else {
++
++		RTW_INFO("###=> usb_read_port_complete => urb.status(%d)\n", purb->status);
++
++		if (rtw_inc_and_chk_continual_io_error(adapter_to_dvobj(padapter)) == _TRUE)
++			rtw_set_surprise_removed(padapter);
++
++		switch (purb->status) {
++		case -EINVAL:
++		case -EPIPE:
++		case -ENODEV:
++		case -ESHUTDOWN:
++		case -ENOENT:
++			rtw_set_drv_stopped(padapter);
++			break;
++		case -EPROTO:
++		case -EILSEQ:
++		case -ETIME:
++		case -ECOMM:
++		case -EOVERFLOW:
++			#ifdef DBG_CONFIG_ERROR_DETECT
++			{
++				HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++				pHalData->srestpriv.Wifi_Error_Status = USB_READ_PORT_FAIL;
++			}
++			#endif
++			rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++			break;
++		case -EINPROGRESS:
++			RTW_INFO("ERROR: URB IS IN PROGRESS!/n");
++			break;
++		default:
++			break;
++		}
++	}
++
++exit:
++	return;
++}
++
++u32 usb_read_port(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem)
++{
++	int err;
++	unsigned int pipe;
++	u32 ret = _FAIL;
++	PURB purb = NULL;
++	struct recv_buf	*precvbuf = (struct recv_buf *)rmem;
++	_adapter		*adapter = pintfhdl->padapter;
++	struct dvobj_priv	*pdvobj = adapter_to_dvobj(adapter);
++	struct pwrctrl_priv *pwrctl = dvobj_to_pwrctl(pdvobj);
++	struct recv_priv	*precvpriv = &adapter->recvpriv;
++	struct usb_device	*pusbd = pdvobj->pusbdev;
++
++
++	if (RTW_CANNOT_RX(adapter) || (precvbuf == NULL)) {
++		goto exit;
++	}
++
++	usb_init_recvbuf(adapter, precvbuf);
++
++	if (precvbuf->pskb == NULL) {
++		SIZE_PTR tmpaddr = 0;
++		SIZE_PTR alignment = 0;
++
++		precvbuf->pskb = skb_dequeue(&precvpriv->free_recv_skb_queue);
++		if (NULL != precvbuf->pskb)
++			goto recv_buf_hook;
++
++		#ifndef CONFIG_FIX_NR_BULKIN_BUFFER
++		precvbuf->pskb = rtw_skb_alloc(MAX_RECVBUF_SZ + RECVBUFF_ALIGN_SZ);
++		#endif
++
++		if (precvbuf->pskb == NULL) {
++			if (0)
++				RTW_INFO("usb_read_port() enqueue precvbuf=%p\n", precvbuf);
++			/* enqueue precvbuf and wait for free skb */
++			rtw_enqueue_recvbuf(precvbuf, &precvpriv->recv_buf_pending_queue);
++			goto exit;
++		}
++
++		tmpaddr = (SIZE_PTR)precvbuf->pskb->data;
++		alignment = tmpaddr & (RECVBUFF_ALIGN_SZ - 1);
++		skb_reserve(precvbuf->pskb, (RECVBUFF_ALIGN_SZ - alignment));
++	}
++
++recv_buf_hook:
++	precvbuf->phead = precvbuf->pskb->head;
++	precvbuf->pdata = precvbuf->pskb->data;
++	precvbuf->ptail = skb_tail_pointer(precvbuf->pskb);
++	precvbuf->pend = skb_end_pointer(precvbuf->pskb);
++	precvbuf->pbuf = precvbuf->pskb->data;
++
++	purb = precvbuf->purb;
++
++	/* translate DMA FIFO addr to pipehandle */
++	pipe = ffaddr2pipehdl(pdvobj, addr);
++
++	usb_fill_bulk_urb(purb, pusbd, pipe,
++		precvbuf->pbuf,
++		MAX_RECVBUF_SZ,
++		usb_read_port_complete,
++		precvbuf);
++
++	err = usb_submit_urb(purb, GFP_ATOMIC);
++	if (err && err != (-EPERM)) {
++		RTW_INFO("cannot submit rx in-token(err = 0x%08x),urb_status = %d\n"
++			, err, purb->status);
++		goto exit;
++	}
++
++	ATOMIC_INC(&(precvpriv->rx_pending_cnt));
++	ret = _SUCCESS;
++
++exit:
++
++
++	return ret;
++}
++#endif /* CONFIG_USE_USB_BUFFER_ALLOC_RX */
++
++#ifdef CONFIG_RTW_NAPI
++int usb_napi_recv(_adapter *padapter, int budget)
++{
++
++	_pkt *pskb;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	struct recv_buf *precvbuf = NULL;
++	int work_done=0;
++	_pkt *pskb2;
++	int pktcnt;
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++
++	while ( (work_done < budget) && 
++		(!skb_queue_empty(&precvpriv->rx_napi_skb_queue))) {
++
++		pskb = skb_dequeue(&precvpriv->rx_napi_skb_queue);
++
++		if(!pskb)
++			break;
++
++		if (rtw_is_drv_stopped(padapter) || rtw_is_surprise_removed(padapter)) {
++			RTW_INFO("usb_napi_recv => bDriverStopped or bSurpriseRemoved \n");
++			rtw_skb_free(pskb);
++			goto exit;
++			break;
++		}
++
++#ifdef CONFIG_RTW_GRO	
++		if (pregistrypriv->en_gro == TRUE) {
++			if (napi_gro_receive(&padapter->napi, pskb) != GRO_DROP) {
++				work_done++;
++				DBG_COUNTER(padapter->rx_logs.os_netif_ok);
++			}else
++				DBG_COUNTER(padapter->rx_logs.os_netif_err);
++
++			continue;
++		} 
++#endif
++
++		if(netif_receive_skb(pskb) == NET_RX_SUCCESS) {
++			work_done++;
++			DBG_COUNTER(padapter->rx_logs.os_netif_ok);
++		}else
++			DBG_COUNTER(padapter->rx_logs.os_netif_err);
++
++	}
++
++exit:
++	return work_done;
++
++}
++
++
++
++int recv_napi_poll(struct napi_struct *napi, int budget)
++{
++	_adapter *padapter = container_of(napi, _adapter, napi);
++	int work_done = 0;
++	_pkt *pskb;
++	struct recv_priv *precvpriv = &padapter->recvpriv;	
++
++	work_done = usb_napi_recv(padapter, budget);
++
++	if (work_done < budget) {
++		napi_complete(napi);
++		if(!skb_queue_empty(&precvpriv->rx_napi_skb_queue) || 
++			!skb_queue_empty(&precvpriv->rx_skb_queue)) {     
++			napi_schedule(napi);
++		}
++	}
++
++	return work_done;
++}
++
++#endif /* CONFIG_RTW_NAPI */
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++void usb_read_interrupt_complete(struct urb *purb, struct pt_regs *regs)
++{
++	int	err;
++	_adapter	*padapter = (_adapter *)purb->context;
++
++	if (RTW_CANNOT_RX(padapter)) {
++		RTW_INFO("%s() RX Warning! bDriverStopped(%s) OR bSurpriseRemoved(%s)\n"
++			, __func__
++			, rtw_is_drv_stopped(padapter) ? "True" : "False"
++			, rtw_is_surprise_removed(padapter) ? "True" : "False");
++
++		return;
++	}
++
++	if (purb->status == 0) {/*SUCCESS*/
++		if (purb->actual_length > INTERRUPT_MSG_FORMAT_LEN)
++			RTW_INFO("usb_read_interrupt_complete: purb->actual_length > INTERRUPT_MSG_FORMAT_LEN(%d)\n", INTERRUPT_MSG_FORMAT_LEN);
++
++		rtw_hal_interrupt_handler(padapter, purb->actual_length, purb->transfer_buffer);
++
++		err = usb_submit_urb(purb, GFP_ATOMIC);
++		if ((err) && (err != (-EPERM)))
++			RTW_INFO("cannot submit interrupt in-token(err = 0x%08x),urb_status = %d\n", err, purb->status);
++	} else {
++		RTW_INFO("###=> usb_read_interrupt_complete => urb status(%d)\n", purb->status);
++
++		switch (purb->status) {
++		case -EINVAL:
++		case -EPIPE:
++		case -ENODEV:
++		case -ESHUTDOWN:
++		case -ENOENT:
++			rtw_set_drv_stopped(padapter);
++			break;
++		case -EPROTO:
++			break;
++		case -EINPROGRESS:
++			RTW_INFO("ERROR: URB IS IN PROGRESS!/n");
++			break;
++		default:
++			break;
++		}
++	}
++}
++
++u32 usb_read_interrupt(struct intf_hdl *pintfhdl, u32 addr)
++{
++	int	err;
++	unsigned int pipe;
++	u32	ret = _SUCCESS;
++	_adapter			*adapter = pintfhdl->padapter;
++	struct dvobj_priv	*pdvobj = adapter_to_dvobj(adapter);
++	struct recv_priv	*precvpriv = &adapter->recvpriv;
++	struct usb_device	*pusbd = pdvobj->pusbdev;
++
++
++	if (RTW_CANNOT_RX(adapter)) {
++		return _FAIL;
++	}
++
++	/*translate DMA FIFO addr to pipehandle*/
++	pipe = ffaddr2pipehdl(pdvobj, addr);
++
++	usb_fill_int_urb(precvpriv->int_in_urb, pusbd, pipe,
++			precvpriv->int_in_buf,
++			INTERRUPT_MSG_FORMAT_LEN,
++			usb_read_interrupt_complete,
++			adapter,
++			1);
++
++	err = usb_submit_urb(precvpriv->int_in_urb, GFP_ATOMIC);
++	if ((err) && (err != (-EPERM))) {
++		RTW_INFO("cannot submit interrupt in-token(err = 0x%08x), urb_status = %d\n", err, precvpriv->int_in_urb->status);
++		ret = _FAIL;
++	}
++
++	return ret;
++}
++#endif /* CONFIG_USB_INTERRUPT_IN_PIPE */
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/wifi_regd.c b/drivers/net/wireless/rtl8723du/os_dep/linux/wifi_regd.c
+new file mode 100755
+index 0000000..752419f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/wifi_regd.c
+@@ -0,0 +1,545 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2009-2010  Realtek Corporation.
++ *
++ *****************************************************************************/
++
++#include <drv_types.h>
++
++#ifdef CONFIG_IOCTL_CFG80211
++
++#include <rtw_wifi_regd.h>
++
++static struct country_code_to_enum_rd allCountries[] = {
++	{COUNTRY_CODE_USER, "RD"},
++};
++
++/*
++ * REG_RULE(freq start, freq end, bandwidth, max gain, eirp, reg_flags)
++ */
++
++/*
++ *Only these channels all allow active
++ *scan on all world regulatory domains
++ */
++
++/* 2G chan 01 - chan 11 */
++#define RTW_2GHZ_CH01_11	\
++	REG_RULE(2412-10, 2462+10, 40, 0, 20, 0)
++
++/*
++ *We enable active scan on these a case
++ *by case basis by regulatory domain
++ */
++
++/* 2G chan 12 - chan 13, PASSIV SCAN */
++#define RTW_2GHZ_CH12_13	\
++	REG_RULE(2467-10, 2472+10, 40, 0, 20,	\
++		 NL80211_RRF_PASSIVE_SCAN)
++
++/* 2G chan 14, PASSIVS SCAN, NO OFDM (B only) */
++#define RTW_2GHZ_CH14	\
++	REG_RULE(2484-10, 2484+10, 40, 0, 20,	\
++		 NL80211_RRF_PASSIVE_SCAN | NL80211_RRF_NO_OFDM)
++
++/* 5G chan 36 - chan 64 */
++#define RTW_5GHZ_5150_5350	\
++	REG_RULE(5150-10, 5350+10, 40, 0, 30,	\
++		 NL80211_RRF_PASSIVE_SCAN | NL80211_RRF_NO_IBSS)
++
++/* 5G chan 100 - chan 165 */
++#define RTW_5GHZ_5470_5850	\
++	REG_RULE(5470-10, 5850+10, 40, 0, 30, \
++		 NL80211_RRF_PASSIVE_SCAN | NL80211_RRF_NO_IBSS)
++
++/* 5G chan 149 - chan 165 */
++#define RTW_5GHZ_5725_5850	\
++	REG_RULE(5725-10, 5850+10, 40, 0, 30, \
++		 NL80211_RRF_PASSIVE_SCAN | NL80211_RRF_NO_IBSS)
++
++/* 5G chan 36 - chan 165 */
++#define RTW_5GHZ_5150_5850	\
++	REG_RULE(5150-10, 5850+10, 40, 0, 30,	\
++		 NL80211_RRF_PASSIVE_SCAN | NL80211_RRF_NO_IBSS)
++
++static const struct ieee80211_regdomain rtw_regdom_rd = {
++	.n_reg_rules = 3,
++	.alpha2 = "99",
++	.reg_rules = {
++		RTW_2GHZ_CH01_11,
++		RTW_2GHZ_CH12_13,
++		RTW_5GHZ_5150_5850,
++	}
++};
++
++static const struct ieee80211_regdomain rtw_regdom_11 = {
++	.n_reg_rules = 1,
++	.alpha2 = "99",
++	.reg_rules = {
++		RTW_2GHZ_CH01_11,
++	}
++};
++
++static const struct ieee80211_regdomain rtw_regdom_12_13 = {
++	.n_reg_rules = 2,
++	.alpha2 = "99",
++	.reg_rules = {
++		RTW_2GHZ_CH01_11,
++		RTW_2GHZ_CH12_13,
++	}
++};
++
++static const struct ieee80211_regdomain rtw_regdom_no_midband = {
++	.n_reg_rules = 3,
++	.alpha2 = "99",
++	.reg_rules = {
++		RTW_2GHZ_CH01_11,
++		RTW_5GHZ_5150_5350,
++		RTW_5GHZ_5725_5850,
++	}
++};
++
++static const struct ieee80211_regdomain rtw_regdom_60_64 = {
++	.n_reg_rules = 3,
++	.alpha2 = "99",
++	.reg_rules = {
++		RTW_2GHZ_CH01_11,
++		RTW_2GHZ_CH12_13,
++		RTW_5GHZ_5725_5850,
++	}
++};
++
++static const struct ieee80211_regdomain rtw_regdom_14_60_64 = {
++	.n_reg_rules = 4,
++	.alpha2 = "99",
++	.reg_rules = {
++		RTW_2GHZ_CH01_11,
++		RTW_2GHZ_CH12_13,
++		RTW_2GHZ_CH14,
++		RTW_5GHZ_5725_5850,
++	}
++};
++
++static const struct ieee80211_regdomain rtw_regdom_14 = {
++	.n_reg_rules = 3,
++	.alpha2 = "99",
++	.reg_rules = {
++		RTW_2GHZ_CH01_11,
++		RTW_2GHZ_CH12_13,
++		RTW_2GHZ_CH14,
++	}
++};
++
++#if 0
++static struct rtw_regulatory *rtw_regd;
++#endif
++
++static bool _rtw_is_radar_freq(u16 center_freq)
++{
++	return center_freq >= 5260 && center_freq <= 5700;
++}
++
++#if 0 /* not_yet */
++static void _rtw_reg_apply_beaconing_flags(struct wiphy *wiphy,
++		enum nl80211_reg_initiator initiator)
++{
++	enum ieee80211_band band;
++	struct ieee80211_supported_band *sband;
++	const struct ieee80211_reg_rule *reg_rule;
++	struct ieee80211_channel *ch;
++	unsigned int i;
++	u32 bandwidth = 0;
++	int r;
++
++	for (band = 0; band < IEEE80211_NUM_BANDS; band++) {
++
++		if (!wiphy->bands[band])
++			continue;
++
++		sband = wiphy->bands[band];
++
++		for (i = 0; i < sband->n_channels; i++) {
++			ch = &sband->channels[i];
++			if (_rtw_is_radar_freq(ch->center_freq) ||
++			    (ch->flags & IEEE80211_CHAN_RADAR))
++				continue;
++			if (initiator == NL80211_REGDOM_SET_BY_COUNTRY_IE) {
++				r = freq_reg_info(wiphy, ch->center_freq,
++						  bandwidth, &reg_rule);
++				if (r)
++					continue;
++
++				/*
++				 *If 11d had a rule for this channel ensure
++				 *we enable adhoc/beaconing if it allows us to
++				 *use it. Note that we would have disabled it
++				 *by applying our static world regdomain by
++				 *default during init, prior to calling our
++				 *regulatory_hint().
++				 */
++
++				if (!(reg_rule->flags & NL80211_RRF_NO_IBSS))
++					ch->flags &= ~IEEE80211_CHAN_NO_IBSS;
++				if (!
++				    (reg_rule->flags &
++				     NL80211_RRF_PASSIVE_SCAN))
++					ch->flags &=
++						~IEEE80211_CHAN_PASSIVE_SCAN;
++			} else {
++				if (ch->beacon_found)
++					ch->flags &= ~(IEEE80211_CHAN_NO_IBSS |
++						IEEE80211_CHAN_PASSIVE_SCAN);
++			}
++		}
++	}
++}
++
++/* Allows active scan scan on Ch 12 and 13 */
++static void _rtw_reg_apply_active_scan_flags(struct wiphy *wiphy,
++		enum nl80211_reg_initiator
++		initiator)
++{
++	struct ieee80211_supported_band *sband;
++	struct ieee80211_channel *ch;
++	const struct ieee80211_reg_rule *reg_rule;
++	u32 bandwidth = 0;
++	int r;
++
++	if (!wiphy->bands[NL80211_BAND_2GHZ])
++		return;
++	sband = wiphy->bands[NL80211_BAND_2GHZ];
++
++	/*
++	 * If no country IE has been received always enable active scan
++	 * on these channels. This is only done for specific regulatory SKUs
++	 */
++	if (initiator != NL80211_REGDOM_SET_BY_COUNTRY_IE) {
++		ch = &sband->channels[11];	/* CH 12 */
++		if (ch->flags & IEEE80211_CHAN_PASSIVE_SCAN)
++			ch->flags &= ~IEEE80211_CHAN_PASSIVE_SCAN;
++		ch = &sband->channels[12];	/* CH 13 */
++		if (ch->flags & IEEE80211_CHAN_PASSIVE_SCAN)
++			ch->flags &= ~IEEE80211_CHAN_PASSIVE_SCAN;
++		return;
++	}
++
++	/*
++	 * If a country IE has been received check its rule for this
++	 * channel first before enabling active scan. The passive scan
++	 * would have been enforced by the initial processing of our
++	 * custom regulatory domain.
++	 */
++
++	ch = &sband->channels[11];	/* CH 12 */
++	r = freq_reg_info(wiphy, ch->center_freq, bandwidth, &reg_rule);
++	if (!r) {
++		if (!(reg_rule->flags & NL80211_RRF_PASSIVE_SCAN))
++			if (ch->flags & IEEE80211_CHAN_PASSIVE_SCAN)
++				ch->flags &= ~IEEE80211_CHAN_PASSIVE_SCAN;
++	}
++
++	ch = &sband->channels[12];	/* CH 13 */
++	r = freq_reg_info(wiphy, ch->center_freq, bandwidth, &reg_rule);
++	if (!r) {
++		if (!(reg_rule->flags & NL80211_RRF_PASSIVE_SCAN))
++			if (ch->flags & IEEE80211_CHAN_PASSIVE_SCAN)
++				ch->flags &= ~IEEE80211_CHAN_PASSIVE_SCAN;
++	}
++}
++#endif
++
++/*
++ * Always apply Radar/DFS rules on
++ * freq range 5260 MHz - 5700 MHz
++ */
++static void _rtw_reg_apply_radar_flags(struct wiphy *wiphy)
++{
++	struct ieee80211_supported_band *sband;
++	struct ieee80211_channel *ch;
++	unsigned int i;
++
++	if (!wiphy->bands[NL80211_BAND_5GHZ])
++		return;
++
++	sband = wiphy->bands[NL80211_BAND_5GHZ];
++
++	for (i = 0; i < sband->n_channels; i++) {
++		ch = &sband->channels[i];
++		if (!_rtw_is_radar_freq(ch->center_freq))
++			continue;
++#ifdef CONFIG_DFS
++		#if !defined(CONFIG_DFS_MASTER)
++		if (!(ch->flags & IEEE80211_CHAN_DISABLED)) {
++			ch->flags |= IEEE80211_CHAN_RADAR;
++			#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 14, 0))
++			ch->flags |= (IEEE80211_CHAN_NO_IBSS | IEEE80211_CHAN_PASSIVE_SCAN);
++			#else
++			ch->flags |= IEEE80211_CHAN_NO_IR;
++			#endif
++		}
++		#endif
++#endif /* CONFIG_DFS */
++
++#if 0
++		/*
++		 * We always enable radar detection/DFS on this
++		 * frequency range. Additionally we also apply on
++		 * this frequency range:
++		 * - If STA mode does not yet have DFS supports disable
++		 *  active scanning
++		 * - If adhoc mode does not support DFS yet then disable
++		 *  adhoc in the frequency.
++		 * - If AP mode does not yet support radar detection/DFS
++		 *  do not allow AP mode
++		 */
++		if (!(ch->flags & IEEE80211_CHAN_DISABLED))
++			ch->flags |= IEEE80211_CHAN_RADAR |
++				     IEEE80211_CHAN_NO_IBSS |
++				     IEEE80211_CHAN_PASSIVE_SCAN;
++#endif
++	}
++}
++
++static void _rtw_reg_apply_flags(struct wiphy *wiphy)
++{
++#if 1				/* by channel plan */
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++	u8 channel_plan = padapter->mlmepriv.ChannelPlan;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	RT_CHANNEL_INFO *channel_set = pmlmeext->channel_set;
++	u8 max_chan_nums = pmlmeext->max_chan_nums;
++
++	struct ieee80211_supported_band *sband;
++	struct ieee80211_channel *ch;
++	unsigned int i, j;
++	u16 channel;
++	u32 freq;
++
++	/* all channels disable */
++	for (i = 0; i < NUM_NL80211_BANDS; i++) {
++		sband = wiphy->bands[i];
++
++		if (sband) {
++			for (j = 0; j < sband->n_channels; j++) {
++				ch = &sband->channels[j];
++
++				if (ch)
++					ch->flags = IEEE80211_CHAN_DISABLED;
++			}
++		}
++	}
++
++	/* channels apply by channel plans. */
++	for (i = 0; i < max_chan_nums; i++) {
++		channel = channel_set[i].ChannelNum;
++		freq = rtw_ch2freq(channel);
++
++		ch = ieee80211_get_channel(wiphy, freq);
++		if (ch) {
++			if (channel_set[i].ScanType == SCAN_PASSIVE) {
++				#if defined(CONFIG_DFS_MASTER)
++				ch->flags = 0;
++				#elif (LINUX_VERSION_CODE < KERNEL_VERSION(3, 14, 0))
++				ch->flags = (IEEE80211_CHAN_NO_IBSS | IEEE80211_CHAN_PASSIVE_SCAN);
++				#else
++				ch->flags = IEEE80211_CHAN_NO_IR;
++				#endif
++			} else
++				ch->flags = 0;
++		}
++	}
++
++#else
++	struct ieee80211_supported_band *sband;
++	struct ieee80211_channel *ch;
++	unsigned int i, j;
++	u16 channels[37] = {
++		1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 36, 40, 44, 48, 52, 56,
++		60, 64, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140,
++		149, 153,
++		157, 161, 165
++	};
++	u16 channel;
++	u32 freq;
++
++	for (i = 0; i < IEEE80211_NUM_BANDS; i++) {
++		sband = wiphy->bands[i];
++
++		if (sband)
++			for (j = 0; j < sband->n_channels; j++) {
++				ch = &sband->channels[j];
++
++				if (ch)
++					ch->flags = IEEE80211_CHAN_DISABLED;
++			}
++	}
++
++	for (i = 0; i < 37; i++) {
++		channel = channels[i];
++		freq = rtw_ch2freq(channel);
++
++		ch = ieee80211_get_channel(wiphy, freq);
++		if (ch) {
++			if (channel <= 11)
++				ch->flags = 0;
++			else
++				ch->flags = 0;	/* IEEE80211_CHAN_PASSIVE_SCAN; */
++		}
++		/* printk("%s: freq %d(%d) flag 0x%02X\n", __func__, freq, channel, ch->flags); */
++	}
++#endif
++}
++
++static void _rtw_reg_apply_world_flags(struct wiphy *wiphy,
++				       enum nl80211_reg_initiator initiator,
++				       struct rtw_regulatory *reg)
++{
++	/* _rtw_reg_apply_beaconing_flags(wiphy, initiator); */
++	/* _rtw_reg_apply_active_scan_flags(wiphy, initiator); */
++	return;
++}
++
++static int _rtw_reg_notifier_apply(struct wiphy *wiphy,
++				   struct regulatory_request *request,
++				   struct rtw_regulatory *reg)
++{
++
++	/* Hard code flags */
++	_rtw_reg_apply_flags(wiphy);
++
++	/* We always apply this */
++	_rtw_reg_apply_radar_flags(wiphy);
++
++	switch (request->initiator) {
++	case NL80211_REGDOM_SET_BY_DRIVER:
++		RTW_INFO("%s: %s\n", __func__, "NL80211_REGDOM_SET_BY_DRIVER");
++		_rtw_reg_apply_world_flags(wiphy, NL80211_REGDOM_SET_BY_DRIVER,
++					   reg);
++		break;
++	case NL80211_REGDOM_SET_BY_CORE:
++		RTW_INFO("%s: %s\n", __func__,
++			 "NL80211_REGDOM_SET_BY_CORE to DRV");
++		_rtw_reg_apply_world_flags(wiphy, NL80211_REGDOM_SET_BY_DRIVER,
++					   reg);
++		break;
++	case NL80211_REGDOM_SET_BY_USER:
++		RTW_INFO("%s: %s\n", __func__,
++			 "NL80211_REGDOM_SET_BY_USER to DRV");
++		_rtw_reg_apply_world_flags(wiphy, NL80211_REGDOM_SET_BY_DRIVER,
++					   reg);
++		break;
++	case NL80211_REGDOM_SET_BY_COUNTRY_IE:
++		RTW_INFO("%s: %s\n", __func__,
++			 "NL80211_REGDOM_SET_BY_COUNTRY_IE");
++		_rtw_reg_apply_world_flags(wiphy, request->initiator, reg);
++		break;
++	}
++
++	return 0;
++}
++
++static const struct ieee80211_regdomain *_rtw_regdomain_select(struct
++		rtw_regulatory
++		*reg)
++{
++#if 0
++	switch (reg->country_code) {
++	case COUNTRY_CODE_USER:
++	default:
++		return &rtw_regdom_rd;
++	}
++#else
++	return &rtw_regdom_rd;
++#endif
++}
++
++void _rtw_reg_notifier(struct wiphy *wiphy, struct regulatory_request *request)
++{
++	struct rtw_regulatory *reg = NULL;
++
++	RTW_INFO("%s\n", __func__);
++
++	_rtw_reg_notifier_apply(wiphy, request, reg);
++}
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 9, 0))
++int rtw_reg_notifier(struct wiphy *wiphy, struct regulatory_request *request)
++#else
++void rtw_reg_notifier(struct wiphy *wiphy, struct regulatory_request *request)
++#endif
++{
++	_rtw_reg_notifier(wiphy, request);
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 9, 0))
++	return 0;
++#endif
++}
++
++void rtw_reg_notify_by_driver(_adapter *adapter)
++{
++	if ((adapter->rtw_wdev != NULL) && (adapter->rtw_wdev->wiphy)) {
++		struct regulatory_request request;
++		request.initiator = NL80211_REGDOM_SET_BY_DRIVER;
++		rtw_reg_notifier(adapter->rtw_wdev->wiphy, &request);
++	}
++}
++
++static void _rtw_regd_init_wiphy(struct rtw_regulatory *reg, struct wiphy *wiphy)
++{
++	const struct ieee80211_regdomain *regd;
++
++	wiphy->reg_notifier = rtw_reg_notifier;
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 14, 0))
++	wiphy->flags |= WIPHY_FLAG_CUSTOM_REGULATORY;
++	wiphy->flags &= ~WIPHY_FLAG_STRICT_REGULATORY;
++	wiphy->flags &= ~WIPHY_FLAG_DISABLE_BEACON_HINTS;
++#else
++	wiphy->regulatory_flags |= REGULATORY_CUSTOM_REG;
++	wiphy->regulatory_flags &= ~REGULATORY_STRICT_REG;
++	wiphy->regulatory_flags &= ~REGULATORY_DISABLE_BEACON_HINTS;
++#endif
++
++	regd = _rtw_regdomain_select(reg);
++	wiphy_apply_custom_regulatory(wiphy, regd);
++
++	/* Hard code flags */
++	_rtw_reg_apply_flags(wiphy);
++	_rtw_reg_apply_radar_flags(wiphy);
++	_rtw_reg_apply_world_flags(wiphy, NL80211_REGDOM_SET_BY_DRIVER, reg);
++}
++
++static struct country_code_to_enum_rd *_rtw_regd_find_country(u16 countrycode)
++{
++	int i;
++
++	for (i = 0; i < ARRAY_SIZE(allCountries); i++) {
++		if (allCountries[i].countrycode == countrycode)
++			return &allCountries[i];
++	}
++	return NULL;
++}
++
++int rtw_regd_init(_adapter *padapter)
++{
++	struct wiphy *wiphy = padapter->rtw_wdev->wiphy;
++
++#if 0
++	if (rtw_regd == NULL) {
++		rtw_regd = (struct rtw_regulatory *)
++			   rtw_malloc(sizeof(struct rtw_regulatory));
++
++		rtw_regd->alpha2[0] = '9';
++		rtw_regd->alpha2[1] = '9';
++
++		rtw_regd->country_code = COUNTRY_CODE_USER;
++	}
++
++	RTW_INFO("%s: Country alpha2 being used: %c%c\n",
++		 __func__, rtw_regd->alpha2[0], rtw_regd->alpha2[1]);
++#endif
++
++	_rtw_regd_init_wiphy(NULL, wiphy);
++
++	return 0;
++}
++#endif /* CONFIG_IOCTL_CFG80211 */
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/xmit_linux.c b/drivers/net/wireless/rtl8723du/os_dep/linux/xmit_linux.c
+new file mode 100644
+index 0000000..dea9198
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/xmit_linux.c
+@@ -0,0 +1,525 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _XMIT_OSDEP_C_
++
++#include <drv_types.h>
++
++#define DBG_DUMP_OS_QUEUE_CTL 0
++
++uint rtw_remainder_len(struct pkt_file *pfile)
++{
++	return pfile->buf_len - ((SIZE_PTR)(pfile->cur_addr) - (SIZE_PTR)(pfile->buf_start));
++}
++
++void _rtw_open_pktfile(_pkt *pktptr, struct pkt_file *pfile)
++{
++
++	pfile->pkt = pktptr;
++	pfile->cur_addr = pfile->buf_start = pktptr->data;
++	pfile->pkt_len = pfile->buf_len = pktptr->len;
++
++	pfile->cur_buffer = pfile->buf_start ;
++
++}
++
++uint _rtw_pktfile_read(struct pkt_file *pfile, u8 *rmem, uint rlen)
++{
++	uint	len = 0;
++
++
++	len =  rtw_remainder_len(pfile);
++	len = (rlen > len) ? len : rlen;
++
++	if (rmem)
++		skb_copy_bits(pfile->pkt, pfile->buf_len - pfile->pkt_len, rmem, len);
++
++	pfile->cur_addr += len;
++	pfile->pkt_len -= len;
++
++
++	return len;
++}
++
++sint rtw_endofpktfile(struct pkt_file *pfile)
++{
++
++	if (pfile->pkt_len == 0) {
++		return _TRUE;
++	}
++
++
++	return _FALSE;
++}
++
++void rtw_set_tx_chksum_offload(_pkt *pkt, struct pkt_attrib *pattrib)
++{
++
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
++	struct sk_buff *skb = (struct sk_buff *)pkt;
++	pattrib->hw_tcp_csum = 0;
++
++	if (skb->ip_summed == CHECKSUM_PARTIAL) {
++		if (skb_shinfo(skb)->nr_frags == 0) {
++			const struct iphdr *ip = ip_hdr(skb);
++			if (ip->protocol == IPPROTO_TCP) {
++				/* TCP checksum offload by HW */
++				RTW_INFO("CHECKSUM_PARTIAL TCP\n");
++				pattrib->hw_tcp_csum = 1;
++				/* skb_checksum_help(skb); */
++			} else if (ip->protocol == IPPROTO_UDP) {
++				/* RTW_INFO("CHECKSUM_PARTIAL UDP\n"); */
++#if 1
++				skb_checksum_help(skb);
++#else
++				/* Set UDP checksum = 0 to skip checksum check */
++				struct udphdr *udp = skb_transport_header(skb);
++				udp->check = 0;
++#endif
++			} else {
++				RTW_INFO("%s-%d TCP CSUM offload Error!!\n", __FUNCTION__, __LINE__);
++				WARN_ON(1);     /* we need a WARN() */
++			}
++		} else { /* IP fragmentation case */
++			RTW_INFO("%s-%d nr_frags != 0, using skb_checksum_help(skb);!!\n", __FUNCTION__, __LINE__);
++			skb_checksum_help(skb);
++		}
++	}
++#endif
++
++}
++
++int rtw_os_xmit_resource_alloc(_adapter *padapter, struct xmit_buf *pxmitbuf, u32 alloc_sz, u8 flag)
++{
++	if (alloc_sz > 0) {
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_TX
++		struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++		struct usb_device	*pusbd = pdvobjpriv->pusbdev;
++
++		pxmitbuf->pallocated_buf = rtw_usb_buffer_alloc(pusbd, (size_t)alloc_sz, &pxmitbuf->dma_transfer_addr);
++		pxmitbuf->pbuf = pxmitbuf->pallocated_buf;
++		if (pxmitbuf->pallocated_buf == NULL)
++			return _FAIL;
++#else /* CONFIG_USE_USB_BUFFER_ALLOC_TX */
++
++		pxmitbuf->pallocated_buf = rtw_zmalloc(alloc_sz);
++		if (pxmitbuf->pallocated_buf == NULL)
++			return _FAIL;
++
++		pxmitbuf->pbuf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitbuf->pallocated_buf), XMITBUF_ALIGN_SZ);
++
++#endif /* CONFIG_USE_USB_BUFFER_ALLOC_TX */
++	}
++
++	if (flag) {
++#ifdef CONFIG_USB_HCI
++		int i;
++		for (i = 0; i < 8; i++) {
++			pxmitbuf->pxmit_urb[i] = usb_alloc_urb(0, GFP_KERNEL);
++			if (pxmitbuf->pxmit_urb[i] == NULL) {
++				RTW_INFO("pxmitbuf->pxmit_urb[i]==NULL");
++				return _FAIL;
++			}
++		}
++#endif
++	}
++
++	return _SUCCESS;
++}
++
++void rtw_os_xmit_resource_free(_adapter *padapter, struct xmit_buf *pxmitbuf, u32 free_sz, u8 flag)
++{
++	if (flag) {
++#ifdef CONFIG_USB_HCI
++		int i;
++
++		for (i = 0; i < 8; i++) {
++			if (pxmitbuf->pxmit_urb[i]) {
++				/* usb_kill_urb(pxmitbuf->pxmit_urb[i]); */
++				usb_free_urb(pxmitbuf->pxmit_urb[i]);
++			}
++		}
++#endif
++	}
++
++	if (free_sz > 0) {
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_TX
++		struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++		struct usb_device	*pusbd = pdvobjpriv->pusbdev;
++
++		rtw_usb_buffer_free(pusbd, (size_t)free_sz, pxmitbuf->pallocated_buf, pxmitbuf->dma_transfer_addr);
++		pxmitbuf->pallocated_buf =  NULL;
++		pxmitbuf->dma_transfer_addr = 0;
++#else	/* CONFIG_USE_USB_BUFFER_ALLOC_TX */
++		if (pxmitbuf->pallocated_buf)
++			rtw_mfree(pxmitbuf->pallocated_buf, free_sz);
++#endif /* CONFIG_USE_USB_BUFFER_ALLOC_TX */
++	}
++}
++
++void dump_os_queue(void *sel, _adapter *padapter)
++{
++	struct net_device *ndev = padapter->pnetdev;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	int i;
++
++	for (i = 0; i < 4; i++) {
++		RTW_PRINT_SEL(sel, "os_queue[%d]:%s\n"
++			, i, __netif_subqueue_stopped(ndev, i) ? "stopped" : "waked");
++	}
++#else
++	RTW_PRINT_SEL(sel, "os_queue:%s\n"
++		      , netif_queue_stopped(ndev) ? "stopped" : "waked");
++#endif
++}
++
++#define WMM_XMIT_THRESHOLD	(NR_XMITFRAME*2/5)
++
++static inline bool rtw_os_need_wake_queue(_adapter *padapter, u16 qidx)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	if (padapter->registrypriv.wifi_spec) {
++		if (pxmitpriv->hwxmits[qidx].accnt < WMM_XMIT_THRESHOLD)
++			return _TRUE;
++	} else {
++#ifdef CONFIG_MCC_MODE
++		if (MCC_EN(padapter)) {
++			if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)
++			    && MCC_STOP(padapter))
++				return _FALSE;
++		}
++#endif /* CONFIG_MCC_MODE */
++		return _TRUE;
++	}
++	return _FALSE;
++#else
++#ifdef CONFIG_MCC_MODE
++	if (MCC_EN(padapter)) {
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)
++		    && MCC_STOP(padapter))
++			return _FALSE;
++	}
++#endif /* CONFIG_MCC_MODE */
++	return _TRUE;
++#endif
++}
++
++static inline bool rtw_os_need_stop_queue(_adapter *padapter, u16 qidx)
++{
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	if (padapter->registrypriv.wifi_spec) {
++		/* No free space for Tx, tx_worker is too slow */
++		if (pxmitpriv->hwxmits[qidx].accnt > WMM_XMIT_THRESHOLD)
++			return _TRUE;
++	} else {
++		if (pxmitpriv->free_xmitframe_cnt <= 4)
++			return _TRUE;
++	}
++#else
++	if (pxmitpriv->free_xmitframe_cnt <= 4)
++		return _TRUE;
++#endif
++	return _FALSE;
++}
++
++void rtw_os_pkt_complete(_adapter *padapter, _pkt *pkt)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	u16	qidx;
++
++	qidx = skb_get_queue_mapping(pkt);
++	if (rtw_os_need_wake_queue(padapter, qidx)) {
++		if (DBG_DUMP_OS_QUEUE_CTL)
++			RTW_INFO(FUNC_ADPT_FMT": netif_wake_subqueue[%d]\n", FUNC_ADPT_ARG(padapter), qidx);
++		netif_wake_subqueue(padapter->pnetdev, qidx);
++	}
++#else
++	if (rtw_os_need_wake_queue(padapter, 0)) {
++		if (DBG_DUMP_OS_QUEUE_CTL)
++			RTW_INFO(FUNC_ADPT_FMT": netif_wake_queue\n", FUNC_ADPT_ARG(padapter));
++		netif_wake_queue(padapter->pnetdev);
++	}
++#endif
++
++	rtw_skb_free(pkt);
++}
++
++void rtw_os_xmit_complete(_adapter *padapter, struct xmit_frame *pxframe)
++{
++	if (pxframe->pkt)
++		rtw_os_pkt_complete(padapter, pxframe->pkt);
++
++	pxframe->pkt = NULL;
++}
++
++void rtw_os_xmit_schedule(_adapter *padapter)
++{
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	_adapter *pri_adapter = GET_PRIMARY_ADAPTER(padapter);
++
++	if (!padapter)
++		return;
++
++	if (_rtw_queue_empty(&padapter->xmitpriv.pending_xmitbuf_queue) == _FALSE)
++		_rtw_up_sema(&pri_adapter->xmitpriv.xmit_sema);
++
++
++#else
++	_irqL  irqL;
++	struct xmit_priv *pxmitpriv;
++
++	if (!padapter)
++		return;
++
++	pxmitpriv = &padapter->xmitpriv;
++
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++	if (rtw_txframes_pending(padapter))
++		tasklet_hi_schedule(&pxmitpriv->xmit_tasklet);
++
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++#endif
++}
++
++static bool rtw_check_xmit_resource(_adapter *padapter, _pkt *pkt)
++{
++	bool busy = _FALSE;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	u16	qidx;
++
++	qidx = skb_get_queue_mapping(pkt);
++	if (rtw_os_need_stop_queue(padapter, qidx)) {
++		if (DBG_DUMP_OS_QUEUE_CTL)
++			RTW_INFO(FUNC_ADPT_FMT": netif_stop_subqueue[%d]\n", FUNC_ADPT_ARG(padapter), qidx);
++		netif_stop_subqueue(padapter->pnetdev, qidx);
++		busy = _TRUE;
++	}
++#else
++	if (rtw_os_need_stop_queue(padapter, 0)) {
++		if (DBG_DUMP_OS_QUEUE_CTL)
++			RTW_INFO(FUNC_ADPT_FMT": netif_stop_queue\n", FUNC_ADPT_ARG(padapter));
++		rtw_netif_stop_queue(padapter->pnetdev);
++		busy = _TRUE;
++	}
++#endif
++	return busy;
++}
++
++void rtw_os_wake_queue_at_free_stainfo(_adapter *padapter, int *qcnt_freed)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	int i;
++
++	for (i = 0; i < 4; i++) {
++		if (qcnt_freed[i] == 0)
++			continue;
++
++		if (rtw_os_need_wake_queue(padapter, i)) {
++			if (DBG_DUMP_OS_QUEUE_CTL)
++				RTW_INFO(FUNC_ADPT_FMT": netif_wake_subqueue[%d]\n", FUNC_ADPT_ARG(padapter), i);
++			netif_wake_subqueue(padapter->pnetdev, i);
++		}
++	}
++#else
++	if (qcnt_freed[0] || qcnt_freed[1] || qcnt_freed[2] || qcnt_freed[3]) {
++		if (rtw_os_need_wake_queue(padapter, 0)) {
++			if (DBG_DUMP_OS_QUEUE_CTL)
++				RTW_INFO(FUNC_ADPT_FMT": netif_wake_queue\n", FUNC_ADPT_ARG(padapter));
++			netif_wake_queue(padapter->pnetdev);
++		}
++	}
++#endif
++}
++
++#ifdef CONFIG_TX_MCAST2UNI
++int rtw_mlcst2unicst(_adapter *padapter, struct sk_buff *skb)
++{
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	_irqL	irqL;
++	_list	*phead, *plist;
++	struct sk_buff *newskb;
++	struct sta_info *psta = NULL;
++	u8 chk_alive_num = 0;
++	char chk_alive_list[NUM_STA];
++	u8 bc_addr[6] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u8 null_addr[6] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
++
++	int i;
++	s32	res;
++
++	DBG_COUNTER(padapter->tx_logs.os_tx_m2u);
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++
++	/* free sta asoc_queue */
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		int stainfo_offset;
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		plist = get_next(plist);
++
++		stainfo_offset = rtw_stainfo_offset(pstapriv, psta);
++		if (stainfo_offset_valid(stainfo_offset))
++			chk_alive_list[chk_alive_num++] = stainfo_offset;
++	}
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	for (i = 0; i < chk_alive_num; i++) {
++		psta = rtw_get_stainfo_by_offset(pstapriv, chk_alive_list[i]);
++		if (!(psta->state & _FW_LINKED)) {
++			DBG_COUNTER(padapter->tx_logs.os_tx_m2u_ignore_fw_linked);
++			continue;
++		}
++
++		/* avoid come from STA1 and send back STA1 */
++		if (_rtw_memcmp(psta->hwaddr, &skb->data[6], 6) == _TRUE
++			|| _rtw_memcmp(psta->hwaddr, null_addr, 6) == _TRUE
++			|| _rtw_memcmp(psta->hwaddr, bc_addr, 6) == _TRUE
++		) {
++			DBG_COUNTER(padapter->tx_logs.os_tx_m2u_ignore_self);
++			continue;
++		}
++
++		DBG_COUNTER(padapter->tx_logs.os_tx_m2u_entry);
++
++		newskb = rtw_skb_copy(skb);
++
++		if (newskb) {
++			_rtw_memcpy(newskb->data, psta->hwaddr, 6);
++			res = rtw_xmit(padapter, &newskb);
++			if (res < 0) {
++				DBG_COUNTER(padapter->tx_logs.os_tx_m2u_entry_err_xmit);
++				RTW_INFO("%s()-%d: rtw_xmit() return error! res=%d\n", __FUNCTION__, __LINE__, res);
++				pxmitpriv->tx_drop++;
++				rtw_skb_free(newskb);
++			}
++		} else {
++			DBG_COUNTER(padapter->tx_logs.os_tx_m2u_entry_err_skb);
++			RTW_INFO("%s-%d: rtw_skb_copy() failed!\n", __FUNCTION__, __LINE__);
++			pxmitpriv->tx_drop++;
++			/* rtw_skb_free(skb); */
++			return _FALSE;	/* Caller shall tx this multicast frame via normal way. */
++		}
++	}
++
++	rtw_skb_free(skb);
++	return _TRUE;
++}
++#endif /* CONFIG_TX_MCAST2UNI */
++
++
++int _rtw_xmit_entry(_pkt *pkt, _nic_hdl pnetdev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++#ifdef CONFIG_TX_MCAST2UNI
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	extern int rtw_mc2u_disable;
++#endif /* CONFIG_TX_MCAST2UNI	 */
++	s32 res = 0;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	u16 queue;
++#endif
++
++
++	if (padapter->registrypriv.mp_mode) {
++		RTW_INFO("MP_TX_DROP_OS_FRAME\n");
++		goto drop_packet;
++	}
++	DBG_COUNTER(padapter->tx_logs.os_tx);
++
++	if (rtw_if_up(padapter) == _FALSE) {
++		DBG_COUNTER(padapter->tx_logs.os_tx_err_up);
++		#ifdef DBG_TX_DROP_FRAME
++		RTW_INFO("DBG_TX_DROP_FRAME %s if_up fail\n", __FUNCTION__);
++		#endif
++		goto drop_packet;
++	}
++
++	rtw_check_xmit_resource(padapter, pkt);
++
++#ifdef CONFIG_TX_MCAST2UNI
++	if (!rtw_mc2u_disable
++		&& check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE
++		&& (IP_MCAST_MAC(pkt->data)
++			|| ICMPV6_MCAST_MAC(pkt->data)
++			#ifdef CONFIG_TX_BCAST2UNI
++			|| is_broadcast_mac_addr(pkt->data)
++			#endif
++			)
++		&& (padapter->registrypriv.wifi_spec == 0)
++	) {
++		if (pxmitpriv->free_xmitframe_cnt > (NR_XMITFRAME / 4)) {
++			res = rtw_mlcst2unicst(padapter, pkt);
++			if (res == _TRUE)
++				goto exit;
++		} else {
++			/* RTW_INFO("Stop M2U(%d, %d)! ", pxmitpriv->free_xmitframe_cnt, pxmitpriv->free_xmitbuf_cnt); */
++			/* RTW_INFO("!m2u ); */
++			DBG_COUNTER(padapter->tx_logs.os_tx_m2u_stop);
++		}
++	}
++#endif /* CONFIG_TX_MCAST2UNI	 */
++
++	res = rtw_xmit(padapter, &pkt);
++	if (res < 0) {
++		#ifdef DBG_TX_DROP_FRAME
++		RTW_INFO("DBG_TX_DROP_FRAME %s rtw_xmit fail\n", __FUNCTION__);
++		#endif
++		goto drop_packet;
++	}
++
++	goto exit;
++
++drop_packet:
++	pxmitpriv->tx_drop++;
++	rtw_os_pkt_complete(padapter, pkt);
++
++exit:
++
++
++	return 0;
++}
++
++int rtw_xmit_entry(_pkt *pkt, _nic_hdl pnetdev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	int ret = 0;
++
++	if (pkt) {
++		if (check_fwstate(pmlmepriv, WIFI_MONITOR_STATE) == _TRUE)
++			rtw_monitor_xmit_entry((struct sk_buff *)pkt, pnetdev);
++		else {
++			rtw_mstat_update(MSTAT_TYPE_SKB, MSTAT_ALLOC_SUCCESS, pkt->truesize);
++			ret = _rtw_xmit_entry(pkt, pnetdev);
++		}
++
++	}
++
++	return ret;
++}
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/osdep_service.c b/drivers/net/wireless/rtl8723du/os_dep/osdep_service.c
+new file mode 100644
+index 0000000..32b694c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/os_dep/osdep_service.c
+@@ -0,0 +1,2702 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#define _OSDEP_SERVICE_C_
++
++#include <drv_types.h>
++
++#define RT_TAG	'1178'
++
++#ifdef DBG_MEMORY_LEAK
++#ifdef PLATFORM_LINUX
++atomic_t _malloc_cnt = ATOMIC_INIT(0);
++atomic_t _malloc_size = ATOMIC_INIT(0);
++#endif
++#endif /* DBG_MEMORY_LEAK */
++
++
++#if defined(PLATFORM_LINUX)
++/*
++* Translate the OS dependent @param error_code to OS independent RTW_STATUS_CODE
++* @return: one of RTW_STATUS_CODE
++*/
++inline int RTW_STATUS_CODE(int error_code)
++{
++	if (error_code >= 0)
++		return _SUCCESS;
++
++	switch (error_code) {
++	/* case -ETIMEDOUT: */
++	/*	return RTW_STATUS_TIMEDOUT; */
++	default:
++		return _FAIL;
++	}
++}
++#else
++inline int RTW_STATUS_CODE(int error_code)
++{
++	return error_code;
++}
++#endif
++
++u32 rtw_atoi(u8 *s)
++{
++
++	int num = 0, flag = 0;
++	int i;
++	for (i = 0; i <= strlen(s); i++) {
++		if (s[i] >= '0' && s[i] <= '9')
++			num = num * 10 + s[i] - '0';
++		else if (s[0] == '-' && i == 0)
++			flag = 1;
++		else
++			break;
++	}
++
++	if (flag == 1)
++		num = num * -1;
++
++	return num;
++
++}
++
++inline u8 *_rtw_vmalloc(u32 sz)
++{
++	u8	*pbuf;
++#ifdef PLATFORM_LINUX
++	pbuf = vmalloc(sz);
++#endif
++#ifdef PLATFORM_FREEBSD
++	pbuf = malloc(sz, M_DEVBUF, M_NOWAIT);
++#endif
++
++#ifdef PLATFORM_WINDOWS
++	NdisAllocateMemoryWithTag(&pbuf, sz, RT_TAG);
++#endif
++
++#ifdef DBG_MEMORY_LEAK
++#ifdef PLATFORM_LINUX
++	if (pbuf != NULL) {
++		atomic_inc(&_malloc_cnt);
++		atomic_add(sz, &_malloc_size);
++	}
++#endif
++#endif /* DBG_MEMORY_LEAK */
++
++	return pbuf;
++}
++
++inline u8 *_rtw_zvmalloc(u32 sz)
++{
++	u8	*pbuf;
++#ifdef PLATFORM_LINUX
++	pbuf = _rtw_vmalloc(sz);
++	if (pbuf != NULL)
++		memset(pbuf, 0, sz);
++#endif
++#ifdef PLATFORM_FREEBSD
++	pbuf = malloc(sz, M_DEVBUF, M_ZERO | M_NOWAIT);
++#endif
++#ifdef PLATFORM_WINDOWS
++	NdisAllocateMemoryWithTag(&pbuf, sz, RT_TAG);
++	if (pbuf != NULL)
++		NdisFillMemory(pbuf, sz, 0);
++#endif
++
++	return pbuf;
++}
++
++inline void _rtw_vmfree(u8 *pbuf, u32 sz)
++{
++#ifdef PLATFORM_LINUX
++	vfree(pbuf);
++#endif
++#ifdef PLATFORM_FREEBSD
++	free(pbuf, M_DEVBUF);
++#endif
++#ifdef PLATFORM_WINDOWS
++	NdisFreeMemory(pbuf, sz, 0);
++#endif
++
++#ifdef DBG_MEMORY_LEAK
++#ifdef PLATFORM_LINUX
++	atomic_dec(&_malloc_cnt);
++	atomic_sub(sz, &_malloc_size);
++#endif
++#endif /* DBG_MEMORY_LEAK */
++}
++
++u8 *_rtw_malloc(u32 sz)
++{
++
++	u8	*pbuf = NULL;
++
++#ifdef PLATFORM_LINUX
++#ifdef RTK_DMP_PLATFORM
++	if (sz > 0x4000)
++		pbuf = (u8 *)dvr_malloc(sz);
++	else
++#endif
++		pbuf = kmalloc(sz, in_interrupt() ? GFP_ATOMIC : GFP_KERNEL);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	pbuf = malloc(sz, M_DEVBUF, M_NOWAIT);
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisAllocateMemoryWithTag(&pbuf, sz, RT_TAG);
++
++#endif
++
++#ifdef DBG_MEMORY_LEAK
++#ifdef PLATFORM_LINUX
++	if (pbuf != NULL) {
++		atomic_inc(&_malloc_cnt);
++		atomic_add(sz, &_malloc_size);
++	}
++#endif
++#endif /* DBG_MEMORY_LEAK */
++
++	return pbuf;
++
++}
++
++
++u8 *_rtw_zmalloc(u32 sz)
++{
++#ifdef PLATFORM_FREEBSD
++	return malloc(sz, M_DEVBUF, M_ZERO | M_NOWAIT);
++#else /* PLATFORM_FREEBSD */
++	u8	*pbuf = _rtw_malloc(sz);
++
++	if (pbuf != NULL) {
++
++#ifdef PLATFORM_LINUX
++		memset(pbuf, 0, sz);
++#endif
++
++#ifdef PLATFORM_WINDOWS
++		NdisFillMemory(pbuf, sz, 0);
++#endif
++
++	}
++
++	return pbuf;
++#endif /* PLATFORM_FREEBSD */
++}
++
++void	_rtw_mfree(u8 *pbuf, u32 sz)
++{
++
++#ifdef PLATFORM_LINUX
++#ifdef RTK_DMP_PLATFORM
++	if (sz > 0x4000)
++		dvr_free(pbuf);
++	else
++#endif
++		kfree(pbuf);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	free(pbuf, M_DEVBUF);
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisFreeMemory(pbuf, sz, 0);
++
++#endif
++
++#ifdef DBG_MEMORY_LEAK
++#ifdef PLATFORM_LINUX
++	atomic_dec(&_malloc_cnt);
++	atomic_sub(sz, &_malloc_size);
++#endif
++#endif /* DBG_MEMORY_LEAK */
++
++}
++
++#ifdef PLATFORM_FREEBSD
++/* review again */
++struct sk_buff *dev_alloc_skb(unsigned int size)
++{
++	struct sk_buff *skb = NULL;
++	u8 *data = NULL;
++
++	/* skb = (struct sk_buff *)_rtw_zmalloc(sizeof(struct sk_buff)); */ /* for skb->len, etc. */
++	skb = (struct sk_buff *)_rtw_malloc(sizeof(struct sk_buff));
++	if (!skb)
++		goto out;
++	data = _rtw_malloc(size);
++	if (!data)
++		goto nodata;
++
++	skb->head = (unsigned char *)data;
++	skb->data = (unsigned char *)data;
++	skb->tail = (unsigned char *)data;
++	skb->end = (unsigned char *)data + size;
++	skb->len = 0;
++	/* printf("%s()-%d: skb=%p, skb->head = %p\n", __FUNCTION__, __LINE__, skb, skb->head); */
++
++out:
++	return skb;
++nodata:
++	_rtw_mfree((u8 *)skb, sizeof(struct sk_buff));
++	skb = NULL;
++	goto out;
++
++}
++
++void dev_kfree_skb_any(struct sk_buff *skb)
++{
++	/* printf("%s()-%d: skb->head = %p\n", __FUNCTION__, __LINE__, skb->head); */
++	if (skb->head)
++		_rtw_mfree(skb->head, 0);
++	/* printf("%s()-%d: skb = %p\n", __FUNCTION__, __LINE__, skb); */
++	if (skb)
++		_rtw_mfree((u8 *)skb, 0);
++}
++struct sk_buff *skb_clone(const struct sk_buff *skb)
++{
++	return NULL;
++}
++
++#endif /* PLATFORM_FREEBSD */
++
++inline struct sk_buff *_rtw_skb_alloc(u32 sz)
++{
++#ifdef PLATFORM_LINUX
++	return __dev_alloc_skb(sz, in_interrupt() ? GFP_ATOMIC : GFP_KERNEL);
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	return dev_alloc_skb(sz);
++#endif /* PLATFORM_FREEBSD */
++}
++
++inline void _rtw_skb_free(struct sk_buff *skb)
++{
++	dev_kfree_skb_any(skb);
++}
++
++inline struct sk_buff *_rtw_skb_copy(const struct sk_buff *skb)
++{
++#ifdef PLATFORM_LINUX
++	return skb_copy(skb, in_interrupt() ? GFP_ATOMIC : GFP_KERNEL);
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	return NULL;
++#endif /* PLATFORM_FREEBSD */
++}
++
++inline struct sk_buff *_rtw_skb_clone(struct sk_buff *skb)
++{
++#ifdef PLATFORM_LINUX
++	return skb_clone(skb, in_interrupt() ? GFP_ATOMIC : GFP_KERNEL);
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	return skb_clone(skb);
++#endif /* PLATFORM_FREEBSD */
++}
++inline struct sk_buff *_rtw_pskb_copy(struct sk_buff *skb)
++{
++#ifdef PLATFORM_LINUX
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 36))
++	return pskb_copy(skb, in_interrupt() ? GFP_ATOMIC : GFP_KERNEL);
++#else
++	return skb_clone(skb, in_interrupt() ? GFP_ATOMIC : GFP_KERNEL);
++#endif
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	return NULL;
++#endif /* PLATFORM_FREEBSD */
++}
++
++inline int _rtw_netif_rx(_nic_hdl ndev, struct sk_buff *skb)
++{
++#ifdef PLATFORM_LINUX
++	skb->dev = ndev;
++	return netif_rx(skb);
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	return (*ndev->if_input)(ndev, skb);
++#endif /* PLATFORM_FREEBSD */
++}
++
++void _rtw_skb_queue_purge(struct sk_buff_head *list)
++{
++	struct sk_buff *skb;
++
++	while ((skb = skb_dequeue(list)) != NULL)
++		_rtw_skb_free(skb);
++}
++
++#ifdef CONFIG_USB_HCI
++inline void *_rtw_usb_buffer_alloc(struct usb_device *dev, size_t size, dma_addr_t *dma)
++{
++#ifdef PLATFORM_LINUX
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	return usb_alloc_coherent(dev, size, (in_interrupt() ? GFP_ATOMIC : GFP_KERNEL), dma);
++#else
++	return usb_buffer_alloc(dev, size, (in_interrupt() ? GFP_ATOMIC : GFP_KERNEL), dma);
++#endif
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	return malloc(size, M_USBDEV, M_NOWAIT | M_ZERO);
++#endif /* PLATFORM_FREEBSD */
++}
++inline void _rtw_usb_buffer_free(struct usb_device *dev, size_t size, void *addr, dma_addr_t dma)
++{
++#ifdef PLATFORM_LINUX
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	usb_free_coherent(dev, size, addr, dma);
++#else
++	usb_buffer_free(dev, size, addr, dma);
++#endif
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	free(addr, M_USBDEV);
++#endif /* PLATFORM_FREEBSD */
++}
++#endif /* CONFIG_USB_HCI */
++
++#if defined(DBG_MEM_ALLOC)
++
++struct rtw_mem_stat {
++	ATOMIC_T alloc; /* the memory bytes we allocate currently */
++	ATOMIC_T peak; /* the peak memory bytes we allocate */
++	ATOMIC_T alloc_cnt; /* the alloc count for alloc currently */
++	ATOMIC_T alloc_err_cnt; /* the error times we fail to allocate memory */
++};
++
++struct rtw_mem_stat rtw_mem_type_stat[mstat_tf_idx(MSTAT_TYPE_MAX)];
++#ifdef RTW_MEM_FUNC_STAT
++struct rtw_mem_stat rtw_mem_func_stat[mstat_ff_idx(MSTAT_FUNC_MAX)];
++#endif
++
++char *MSTAT_TYPE_str[] = {
++	"VIR",
++	"PHY",
++	"SKB",
++	"USB",
++};
++
++#ifdef RTW_MEM_FUNC_STAT
++char *MSTAT_FUNC_str[] = {
++	"UNSP",
++	"IO",
++	"TXIO",
++	"RXIO",
++	"TX",
++	"RX",
++};
++#endif
++
++void rtw_mstat_dump(void *sel)
++{
++	int i;
++	int value_t[4][mstat_tf_idx(MSTAT_TYPE_MAX)];
++#ifdef RTW_MEM_FUNC_STAT
++	int value_f[4][mstat_ff_idx(MSTAT_FUNC_MAX)];
++#endif
++
++	int vir_alloc, vir_peak, vir_alloc_err, phy_alloc, phy_peak, phy_alloc_err;
++	int tx_alloc, tx_peak, tx_alloc_err, rx_alloc, rx_peak, rx_alloc_err;
++
++	for (i = 0; i < mstat_tf_idx(MSTAT_TYPE_MAX); i++) {
++		value_t[0][i] = ATOMIC_READ(&(rtw_mem_type_stat[i].alloc));
++		value_t[1][i] = ATOMIC_READ(&(rtw_mem_type_stat[i].peak));
++		value_t[2][i] = ATOMIC_READ(&(rtw_mem_type_stat[i].alloc_cnt));
++		value_t[3][i] = ATOMIC_READ(&(rtw_mem_type_stat[i].alloc_err_cnt));
++	}
++
++#ifdef RTW_MEM_FUNC_STAT
++	for (i = 0; i < mstat_ff_idx(MSTAT_FUNC_MAX); i++) {
++		value_f[0][i] = ATOMIC_READ(&(rtw_mem_func_stat[i].alloc));
++		value_f[1][i] = ATOMIC_READ(&(rtw_mem_func_stat[i].peak));
++		value_f[2][i] = ATOMIC_READ(&(rtw_mem_func_stat[i].alloc_cnt));
++		value_f[3][i] = ATOMIC_READ(&(rtw_mem_func_stat[i].alloc_err_cnt));
++	}
++#endif
++
++	RTW_PRINT_SEL(sel, "===================== MSTAT =====================\n");
++	RTW_PRINT_SEL(sel, "%4s %10s %10s %10s %10s\n", "TAG", "alloc", "peak", "aloc_cnt", "err_cnt");
++	RTW_PRINT_SEL(sel, "-------------------------------------------------\n");
++	for (i = 0; i < mstat_tf_idx(MSTAT_TYPE_MAX); i++)
++		RTW_PRINT_SEL(sel, "%4s %10d %10d %10d %10d\n", MSTAT_TYPE_str[i], value_t[0][i], value_t[1][i], value_t[2][i], value_t[3][i]);
++#ifdef RTW_MEM_FUNC_STAT
++	RTW_PRINT_SEL(sel, "-------------------------------------------------\n");
++	for (i = 0; i < mstat_ff_idx(MSTAT_FUNC_MAX); i++)
++		RTW_PRINT_SEL(sel, "%4s %10d %10d %10d %10d\n", MSTAT_FUNC_str[i], value_f[0][i], value_f[1][i], value_f[2][i], value_f[3][i]);
++#endif
++}
++
++void rtw_mstat_update(const enum mstat_f flags, const MSTAT_STATUS status, u32 sz)
++{
++	static u32 update_time = 0;
++	int peak, alloc;
++	int i;
++
++	/* initialization */
++	if (!update_time) {
++		for (i = 0; i < mstat_tf_idx(MSTAT_TYPE_MAX); i++) {
++			ATOMIC_SET(&(rtw_mem_type_stat[i].alloc), 0);
++			ATOMIC_SET(&(rtw_mem_type_stat[i].peak), 0);
++			ATOMIC_SET(&(rtw_mem_type_stat[i].alloc_cnt), 0);
++			ATOMIC_SET(&(rtw_mem_type_stat[i].alloc_err_cnt), 0);
++		}
++		#ifdef RTW_MEM_FUNC_STAT
++		for (i = 0; i < mstat_ff_idx(MSTAT_FUNC_MAX); i++) {
++			ATOMIC_SET(&(rtw_mem_func_stat[i].alloc), 0);
++			ATOMIC_SET(&(rtw_mem_func_stat[i].peak), 0);
++			ATOMIC_SET(&(rtw_mem_func_stat[i].alloc_cnt), 0);
++			ATOMIC_SET(&(rtw_mem_func_stat[i].alloc_err_cnt), 0);
++		}
++		#endif
++	}
++
++	switch (status) {
++	case MSTAT_ALLOC_SUCCESS:
++		ATOMIC_INC(&(rtw_mem_type_stat[mstat_tf_idx(flags)].alloc_cnt));
++		alloc = ATOMIC_ADD_RETURN(&(rtw_mem_type_stat[mstat_tf_idx(flags)].alloc), sz);
++		peak = ATOMIC_READ(&(rtw_mem_type_stat[mstat_tf_idx(flags)].peak));
++		if (peak < alloc)
++			ATOMIC_SET(&(rtw_mem_type_stat[mstat_tf_idx(flags)].peak), alloc);
++
++		#ifdef RTW_MEM_FUNC_STAT
++		ATOMIC_INC(&(rtw_mem_func_stat[mstat_ff_idx(flags)].alloc_cnt));
++		alloc = ATOMIC_ADD_RETURN(&(rtw_mem_func_stat[mstat_ff_idx(flags)].alloc), sz);
++		peak = ATOMIC_READ(&(rtw_mem_func_stat[mstat_ff_idx(flags)].peak));
++		if (peak < alloc)
++			ATOMIC_SET(&(rtw_mem_func_stat[mstat_ff_idx(flags)].peak), alloc);
++		#endif
++		break;
++
++	case MSTAT_ALLOC_FAIL:
++		ATOMIC_INC(&(rtw_mem_type_stat[mstat_tf_idx(flags)].alloc_err_cnt));
++		#ifdef RTW_MEM_FUNC_STAT
++		ATOMIC_INC(&(rtw_mem_func_stat[mstat_ff_idx(flags)].alloc_err_cnt));
++		#endif
++		break;
++
++	case MSTAT_FREE:
++		ATOMIC_DEC(&(rtw_mem_type_stat[mstat_tf_idx(flags)].alloc_cnt));
++		ATOMIC_SUB(&(rtw_mem_type_stat[mstat_tf_idx(flags)].alloc), sz);
++		#ifdef RTW_MEM_FUNC_STAT
++		ATOMIC_DEC(&(rtw_mem_func_stat[mstat_ff_idx(flags)].alloc_cnt));
++		ATOMIC_SUB(&(rtw_mem_func_stat[mstat_ff_idx(flags)].alloc), sz);
++		#endif
++		break;
++	};
++
++	/* if (rtw_get_passing_time_ms(update_time) > 5000) { */
++	/*	rtw_mstat_dump(RTW_DBGDUMP); */
++	update_time = rtw_get_current_time();
++	/* } */
++}
++
++#ifndef SIZE_MAX
++	#define SIZE_MAX (~(size_t)0)
++#endif
++
++struct mstat_sniff_rule {
++	enum mstat_f flags;
++	size_t lb;
++	size_t hb;
++};
++
++struct mstat_sniff_rule mstat_sniff_rules[] = {
++	{MSTAT_TYPE_PHY, 4097, SIZE_MAX},
++};
++
++int mstat_sniff_rule_num = sizeof(mstat_sniff_rules) / sizeof(struct mstat_sniff_rule);
++
++bool match_mstat_sniff_rules(const enum mstat_f flags, const size_t size)
++{
++	int i;
++	for (i = 0; i < mstat_sniff_rule_num; i++) {
++		if (mstat_sniff_rules[i].flags == flags
++			&& mstat_sniff_rules[i].lb <= size
++			&& mstat_sniff_rules[i].hb >= size)
++			return _TRUE;
++	}
++
++	return _FALSE;
++}
++
++inline u8 *dbg_rtw_vmalloc(u32 sz, const enum mstat_f flags, const char *func, const int line)
++{
++	u8  *p;
++
++	if (match_mstat_sniff_rules(flags, sz))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, (sz));
++
++	p = _rtw_vmalloc((sz));
++
++	rtw_mstat_update(
++		flags
++		, p ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, sz
++	);
++
++	return p;
++}
++
++inline u8 *dbg_rtw_zvmalloc(u32 sz, const enum mstat_f flags, const char *func, const int line)
++{
++	u8 *p;
++
++	if (match_mstat_sniff_rules(flags, sz))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, (sz));
++
++	p = _rtw_zvmalloc((sz));
++
++	rtw_mstat_update(
++		flags
++		, p ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, sz
++	);
++
++	return p;
++}
++
++inline void dbg_rtw_vmfree(u8 *pbuf, u32 sz, const enum mstat_f flags, const char *func, const int line)
++{
++
++	if (match_mstat_sniff_rules(flags, sz))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, (sz));
++
++	_rtw_vmfree((pbuf), (sz));
++
++	rtw_mstat_update(
++		flags
++		, MSTAT_FREE
++		, sz
++	);
++}
++
++inline u8 *dbg_rtw_malloc(u32 sz, const enum mstat_f flags, const char *func, const int line)
++{
++	u8 *p;
++
++	if (match_mstat_sniff_rules(flags, sz))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, (sz));
++
++	p = _rtw_malloc((sz));
++
++	rtw_mstat_update(
++		flags
++		, p ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, sz
++	);
++
++	return p;
++}
++
++inline u8 *dbg_rtw_zmalloc(u32 sz, const enum mstat_f flags, const char *func, const int line)
++{
++	u8 *p;
++
++	if (match_mstat_sniff_rules(flags, sz))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, (sz));
++
++	p = _rtw_zmalloc((sz));
++
++	rtw_mstat_update(
++		flags
++		, p ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, sz
++	);
++
++	return p;
++}
++
++inline void dbg_rtw_mfree(u8 *pbuf, u32 sz, const enum mstat_f flags, const char *func, const int line)
++{
++	if (match_mstat_sniff_rules(flags, sz))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, (sz));
++
++	_rtw_mfree((pbuf), (sz));
++
++	rtw_mstat_update(
++		flags
++		, MSTAT_FREE
++		, sz
++	);
++}
++
++inline struct sk_buff *dbg_rtw_skb_alloc(unsigned int size, const enum mstat_f flags, const char *func, int line)
++{
++	struct sk_buff *skb;
++	unsigned int truesize = 0;
++
++	skb = _rtw_skb_alloc(size);
++
++	if (skb)
++		truesize = skb->truesize;
++
++	if (!skb || truesize < size || match_mstat_sniff_rules(flags, truesize))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%d), skb:%p, truesize=%u\n", func, line, __FUNCTION__, size, skb, truesize);
++
++	rtw_mstat_update(
++		flags
++		, skb ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, truesize
++	);
++
++	return skb;
++}
++
++inline void dbg_rtw_skb_free(struct sk_buff *skb, const enum mstat_f flags, const char *func, int line)
++{
++	unsigned int truesize = skb->truesize;
++
++	if (match_mstat_sniff_rules(flags, truesize))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s, truesize=%u\n", func, line, __FUNCTION__, truesize);
++
++	_rtw_skb_free(skb);
++
++	rtw_mstat_update(
++		flags
++		, MSTAT_FREE
++		, truesize
++	);
++}
++
++inline struct sk_buff *dbg_rtw_skb_copy(const struct sk_buff *skb, const enum mstat_f flags, const char *func, const int line)
++{
++	struct sk_buff *skb_cp;
++	unsigned int truesize = skb->truesize;
++	unsigned int cp_truesize = 0;
++
++	skb_cp = _rtw_skb_copy(skb);
++	if (skb_cp)
++		cp_truesize = skb_cp->truesize;
++
++	if (!skb_cp || cp_truesize < truesize || match_mstat_sniff_rules(flags, cp_truesize))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%u), skb_cp:%p, cp_truesize=%u\n", func, line, __FUNCTION__, truesize, skb_cp, cp_truesize);
++
++	rtw_mstat_update(
++		flags
++		, skb_cp ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, truesize
++	);
++
++	return skb_cp;
++}
++
++inline struct sk_buff *dbg_rtw_skb_clone(struct sk_buff *skb, const enum mstat_f flags, const char *func, const int line)
++{
++	struct sk_buff *skb_cl;
++	unsigned int truesize = skb->truesize;
++	unsigned int cl_truesize = 0;
++
++	skb_cl = _rtw_skb_clone(skb);
++	if (skb_cl)
++		cl_truesize = skb_cl->truesize;
++
++	if (!skb_cl || cl_truesize < truesize || match_mstat_sniff_rules(flags, cl_truesize))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%u), skb_cl:%p, cl_truesize=%u\n", func, line, __FUNCTION__, truesize, skb_cl, cl_truesize);
++
++	rtw_mstat_update(
++		flags
++		, skb_cl ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, truesize
++	);
++
++	return skb_cl;
++}
++
++inline int dbg_rtw_netif_rx(_nic_hdl ndev, struct sk_buff *skb, const enum mstat_f flags, const char *func, int line)
++{
++	int ret;
++	unsigned int truesize = skb->truesize;
++
++	if (match_mstat_sniff_rules(flags, truesize))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s, truesize=%u\n", func, line, __FUNCTION__, truesize);
++
++	ret = _rtw_netif_rx(ndev, skb);
++
++	rtw_mstat_update(
++		flags
++		, MSTAT_FREE
++		, truesize
++	);
++
++	return ret;
++}
++
++inline void dbg_rtw_skb_queue_purge(struct sk_buff_head *list, enum mstat_f flags, const char *func, int line)
++{
++	struct sk_buff *skb;
++
++	while ((skb = skb_dequeue(list)) != NULL)
++		dbg_rtw_skb_free(skb, flags, func, line);
++}
++
++#ifdef CONFIG_USB_HCI
++inline void *dbg_rtw_usb_buffer_alloc(struct usb_device *dev, size_t size, dma_addr_t *dma, const enum mstat_f flags, const char *func, int line)
++{
++	void *p;
++
++	if (match_mstat_sniff_rules(flags, size))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%zu)\n", func, line, __FUNCTION__, size);
++
++	p = _rtw_usb_buffer_alloc(dev, size, dma);
++
++	rtw_mstat_update(
++		flags
++		, p ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, size
++	);
++
++	return p;
++}
++
++inline void dbg_rtw_usb_buffer_free(struct usb_device *dev, size_t size, void *addr, dma_addr_t dma, const enum mstat_f flags, const char *func, int line)
++{
++
++	if (match_mstat_sniff_rules(flags, size))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%zu)\n", func, line, __FUNCTION__, size);
++
++	_rtw_usb_buffer_free(dev, size, addr, dma);
++
++	rtw_mstat_update(
++		flags
++		, MSTAT_FREE
++		, size
++	);
++}
++#endif /* CONFIG_USB_HCI */
++
++#endif /* defined(DBG_MEM_ALLOC) */
++
++void *rtw_malloc2d(int h, int w, size_t size)
++{
++	int j;
++
++	void **a = (void **) rtw_zmalloc(h * sizeof(void *) + h * w * size);
++	if (a == NULL) {
++		RTW_INFO("%s: alloc memory fail!\n", __FUNCTION__);
++		return NULL;
++	}
++
++	for (j = 0; j < h; j++)
++		a[j] = ((char *)(a + h)) + j * w * size;
++
++	return a;
++}
++
++void rtw_mfree2d(void *pbuf, int h, int w, int size)
++{
++	rtw_mfree((u8 *)pbuf, h * sizeof(void *) + w * h * size);
++}
++
++void _rtw_memcpy(void *dst, const void *src, u32 sz)
++{
++
++#if defined(PLATFORM_LINUX) || defined (PLATFORM_FREEBSD)
++
++	memcpy(dst, src, sz);
++
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++	NdisMoveMemory(dst, src, sz);
++
++#endif
++
++}
++
++inline void _rtw_memmove(void *dst, const void *src, u32 sz)
++{
++#if defined(PLATFORM_LINUX)
++	memmove(dst, src, sz);
++#else
++	#warning "no implementation\n"
++#endif
++}
++
++int	_rtw_memcmp(const void *dst, const void *src, u32 sz)
++{
++
++#if defined(PLATFORM_LINUX) || defined (PLATFORM_FREEBSD)
++	/* under Linux/GNU/GLibc, the return value of memcmp for two same mem. chunk is 0 */
++
++	if (!(memcmp(dst, src, sz)))
++		return _TRUE;
++	else
++		return _FALSE;
++#endif
++
++
++#ifdef PLATFORM_WINDOWS
++	/* under Windows, the return value of NdisEqualMemory for two same mem. chunk is 1 */
++
++	if (NdisEqualMemory(dst, src, sz))
++		return _TRUE;
++	else
++		return _FALSE;
++
++#endif
++
++
++
++}
++
++void _rtw_memset(void *pbuf, int c, u32 sz)
++{
++
++#if defined(PLATFORM_LINUX) || defined (PLATFORM_FREEBSD)
++
++	memset(pbuf, c, sz);
++
++#endif
++
++#ifdef PLATFORM_WINDOWS
++#if 0
++	NdisZeroMemory(pbuf, sz);
++	if (c != 0)
++		memset(pbuf, c, sz);
++#else
++	NdisFillMemory(pbuf, sz, c);
++#endif
++#endif
++
++}
++
++#ifdef PLATFORM_FREEBSD
++static inline void __list_add(_list *pnew, _list *pprev, _list *pnext)
++{
++	pnext->prev = pnew;
++	pnew->next = pnext;
++	pnew->prev = pprev;
++	pprev->next = pnew;
++}
++#endif /* PLATFORM_FREEBSD */
++
++
++void _rtw_init_listhead(_list *list)
++{
++
++#ifdef PLATFORM_LINUX
++
++	INIT_LIST_HEAD(list);
++
++#endif
++
++#ifdef PLATFORM_FREEBSD
++	list->next = list;
++	list->prev = list;
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisInitializeListHead(list);
++
++#endif
++
++}
++
++
++/*
++For the following list_xxx operations,
++caller must guarantee the atomic context.
++Otherwise, there will be racing condition.
++*/
++u32	rtw_is_list_empty(_list *phead)
++{
++
++#ifdef PLATFORM_LINUX
++
++	if (list_empty(phead))
++		return _TRUE;
++	else
++		return _FALSE;
++
++#endif
++#ifdef PLATFORM_FREEBSD
++
++	if (phead->next == phead)
++		return _TRUE;
++	else
++		return _FALSE;
++
++#endif
++
++
++#ifdef PLATFORM_WINDOWS
++
++	if (IsListEmpty(phead))
++		return _TRUE;
++	else
++		return _FALSE;
++
++#endif
++
++
++}
++
++void rtw_list_insert_head(_list *plist, _list *phead)
++{
++
++#ifdef PLATFORM_LINUX
++	list_add(plist, phead);
++#endif
++
++#ifdef PLATFORM_FREEBSD
++	__list_add(plist, phead, phead->next);
++#endif
++
++#ifdef PLATFORM_WINDOWS
++	InsertHeadList(phead, plist);
++#endif
++}
++
++void rtw_list_insert_tail(_list *plist, _list *phead)
++{
++
++#ifdef PLATFORM_LINUX
++
++	list_add_tail(plist, phead);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++
++	__list_add(plist, phead->prev, phead);
++
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	InsertTailList(phead, plist);
++
++#endif
++
++}
++
++void rtw_init_timer(_timer *ptimer, void *padapter, void *pfunc)
++{
++	_adapter *adapter = (_adapter *)padapter;
++
++#ifdef PLATFORM_LINUX
++	_init_timer(ptimer, adapter->pnetdev, pfunc, adapter);
++#endif
++#ifdef PLATFORM_FREEBSD
++	_init_timer(ptimer, adapter->pifp, pfunc, adapter->mlmepriv.nic_hdl);
++#endif
++#ifdef PLATFORM_WINDOWS
++	_init_timer(ptimer, adapter->hndis_adapter, pfunc, adapter->mlmepriv.nic_hdl);
++#endif
++}
++
++/*
++
++Caller must check if the list is empty before calling rtw_list_delete
++
++*/
++
++
++void _rtw_init_sema(_sema	*sema, int init_val)
++{
++
++#ifdef PLATFORM_LINUX
++
++	sema_init(sema, init_val);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	sema_init(sema, init_val, "rtw_drv");
++#endif
++#ifdef PLATFORM_OS_XP
++
++	KeInitializeSemaphore(sema, init_val,  SEMA_UPBND); /* count=0; */
++
++#endif
++
++#ifdef PLATFORM_OS_CE
++	if (*sema == NULL)
++		*sema = CreateSemaphore(NULL, init_val, SEMA_UPBND, NULL);
++#endif
++
++}
++
++void _rtw_free_sema(_sema	*sema)
++{
++#ifdef PLATFORM_FREEBSD
++	sema_destroy(sema);
++#endif
++#ifdef PLATFORM_OS_CE
++	CloseHandle(*sema);
++#endif
++
++}
++
++void _rtw_up_sema(_sema	*sema)
++{
++
++#ifdef PLATFORM_LINUX
++
++	up(sema);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	sema_post(sema);
++#endif
++#ifdef PLATFORM_OS_XP
++
++	KeReleaseSemaphore(sema, IO_NETWORK_INCREMENT, 1,  FALSE);
++
++#endif
++
++#ifdef PLATFORM_OS_CE
++	ReleaseSemaphore(*sema,  1,  NULL);
++#endif
++}
++
++u32 _rtw_down_sema(_sema *sema)
++{
++
++#ifdef PLATFORM_LINUX
++
++	if (down_interruptible(sema))
++		return _FAIL;
++	else
++		return _SUCCESS;
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	sema_wait(sema);
++	return  _SUCCESS;
++#endif
++#ifdef PLATFORM_OS_XP
++
++	if (STATUS_SUCCESS == KeWaitForSingleObject(sema, Executive, KernelMode, TRUE, NULL))
++		return  _SUCCESS;
++	else
++		return _FAIL;
++#endif
++
++#ifdef PLATFORM_OS_CE
++	if (WAIT_OBJECT_0 == WaitForSingleObject(*sema, INFINITE))
++		return _SUCCESS;
++	else
++		return _FAIL;
++#endif
++}
++
++
++
++void	_rtw_mutex_init(_mutex *pmutex)
++{
++#ifdef PLATFORM_LINUX
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37))
++	mutex_init(pmutex);
++#else
++	init_MUTEX(pmutex);
++#endif
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	mtx_init(pmutex, "", NULL, MTX_DEF | MTX_RECURSE);
++#endif
++#ifdef PLATFORM_OS_XP
++
++	KeInitializeMutex(pmutex, 0);
++
++#endif
++
++#ifdef PLATFORM_OS_CE
++	*pmutex =  CreateMutex(NULL, _FALSE, NULL);
++#endif
++}
++
++void	_rtw_mutex_free(_mutex *pmutex);
++void	_rtw_mutex_free(_mutex *pmutex)
++{
++#ifdef PLATFORM_LINUX
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37))
++	mutex_destroy(pmutex);
++#else
++#endif
++
++#ifdef PLATFORM_FREEBSD
++	sema_destroy(pmutex);
++#endif
++
++#endif
++
++#ifdef PLATFORM_OS_XP
++
++#endif
++
++#ifdef PLATFORM_OS_CE
++
++#endif
++}
++
++void	_rtw_spinlock_init(_lock *plock)
++{
++
++#ifdef PLATFORM_LINUX
++
++	spin_lock_init(plock);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	mtx_init(plock, "", NULL, MTX_DEF | MTX_RECURSE);
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisAllocateSpinLock(plock);
++
++#endif
++
++}
++
++void	_rtw_spinlock_free(_lock *plock)
++{
++#ifdef PLATFORM_FREEBSD
++	mtx_destroy(plock);
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++	NdisFreeSpinLock(plock);
++
++#endif
++
++}
++#ifdef PLATFORM_FREEBSD
++extern PADAPTER prtw_lock;
++
++void rtw_mtx_lock(_lock *plock)
++{
++	if (prtw_lock)
++		mtx_lock(&prtw_lock->glock);
++	else
++		printf("%s prtw_lock==NULL", __FUNCTION__);
++}
++void rtw_mtx_unlock(_lock *plock)
++{
++	if (prtw_lock)
++		mtx_unlock(&prtw_lock->glock);
++	else
++		printf("%s prtw_lock==NULL", __FUNCTION__);
++
++}
++#endif /* PLATFORM_FREEBSD */
++
++
++void	_rtw_spinlock(_lock	*plock)
++{
++
++#ifdef PLATFORM_LINUX
++
++	spin_lock(plock);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	mtx_lock(plock);
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisAcquireSpinLock(plock);
++
++#endif
++
++}
++
++void	_rtw_spinunlock(_lock *plock)
++{
++
++#ifdef PLATFORM_LINUX
++
++	spin_unlock(plock);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	mtx_unlock(plock);
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisReleaseSpinLock(plock);
++
++#endif
++}
++
++
++void	_rtw_spinlock_ex(_lock	*plock)
++{
++
++#ifdef PLATFORM_LINUX
++
++	spin_lock(plock);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	mtx_lock(plock);
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisDprAcquireSpinLock(plock);
++
++#endif
++
++}
++
++void	_rtw_spinunlock_ex(_lock *plock)
++{
++
++#ifdef PLATFORM_LINUX
++
++	spin_unlock(plock);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	mtx_unlock(plock);
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisDprReleaseSpinLock(plock);
++
++#endif
++}
++
++
++
++void _rtw_init_queue(_queue *pqueue)
++{
++	_rtw_init_listhead(&(pqueue->queue));
++	_rtw_spinlock_init(&(pqueue->lock));
++}
++
++void _rtw_deinit_queue(_queue *pqueue)
++{
++	_rtw_spinlock_free(&(pqueue->lock));
++}
++
++u32	  _rtw_queue_empty(_queue	*pqueue)
++{
++	return rtw_is_list_empty(&(pqueue->queue));
++}
++
++
++u32 rtw_end_of_queue_search(_list *head, _list *plist)
++{
++	if (head == plist)
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++
++u32	rtw_get_current_time(void)
++{
++
++#ifdef PLATFORM_LINUX
++	return jiffies;
++#endif
++#ifdef PLATFORM_FREEBSD
++	struct timeval tvp;
++	getmicrotime(&tvp);
++	return tvp.tv_sec;
++#endif
++#ifdef PLATFORM_WINDOWS
++	LARGE_INTEGER	SystemTime;
++	NdisGetCurrentSystemTime(&SystemTime);
++	return (u32)(SystemTime.LowPart);/* count of 100-nanosecond intervals */
++#endif
++}
++
++inline u32 rtw_systime_to_ms(u32 systime)
++{
++#ifdef PLATFORM_LINUX
++	return systime * 1000 / HZ;
++#endif
++#ifdef PLATFORM_FREEBSD
++	return systime * 1000;
++#endif
++#ifdef PLATFORM_WINDOWS
++	return systime / 10000 ;
++#endif
++}
++
++inline u32 rtw_ms_to_systime(u32 ms)
++{
++#ifdef PLATFORM_LINUX
++	return ms * HZ / 1000;
++#endif
++#ifdef PLATFORM_FREEBSD
++	return ms / 1000;
++#endif
++#ifdef PLATFORM_WINDOWS
++	return ms * 10000 ;
++#endif
++}
++
++/* the input parameter start use the same unit as returned by rtw_get_current_time */
++inline s32 rtw_get_passing_time_ms(u32 start)
++{
++#ifdef PLATFORM_LINUX
++	return rtw_systime_to_ms(jiffies - start);
++#endif
++#ifdef PLATFORM_FREEBSD
++	return rtw_systime_to_ms(rtw_get_current_time());
++#endif
++#ifdef PLATFORM_WINDOWS
++	LARGE_INTEGER	SystemTime;
++	NdisGetCurrentSystemTime(&SystemTime);
++	return rtw_systime_to_ms((u32)(SystemTime.LowPart) - start) ;
++#endif
++}
++
++inline s32 rtw_get_time_interval_ms(u32 start, u32 end)
++{
++#ifdef PLATFORM_LINUX
++	return rtw_systime_to_ms(end - start);
++#endif
++#ifdef PLATFORM_FREEBSD
++	return rtw_systime_to_ms(rtw_get_current_time());
++#endif
++#ifdef PLATFORM_WINDOWS
++	return rtw_systime_to_ms(end - start);
++#endif
++}
++
++
++void rtw_sleep_schedulable(int ms)
++{
++
++#ifdef PLATFORM_LINUX
++
++	u32 delta;
++
++	delta = (ms * HZ) / 1000; /* (ms) */
++	if (delta == 0) {
++		delta = 1;/* 1 ms */
++	}
++	set_current_state(TASK_INTERRUPTIBLE);
++	if (schedule_timeout(delta) != 0)
++		return ;
++	return;
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	DELAY(ms * 1000);
++	return ;
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++	NdisMSleep(ms * 1000); /* (us)*1000=(ms) */
++
++#endif
++
++}
++
++
++void rtw_msleep_os(int ms)
++{
++
++#ifdef PLATFORM_LINUX
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 36))
++	if (ms < 20) {
++		unsigned long us = ms * 1000UL;
++		usleep_range(us, us + 1000UL);
++	} else
++#endif
++		msleep((unsigned int)ms);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	/* Delay for delay microseconds */
++	DELAY(ms * 1000);
++	return ;
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisMSleep(ms * 1000); /* (us)*1000=(ms) */
++
++#endif
++
++
++}
++void rtw_usleep_os(int us)
++{
++#ifdef PLATFORM_LINUX
++
++	/* msleep((unsigned int)us); */
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 36))
++	usleep_range(us, us + 1);
++#else
++	if (1 < (us / 1000))
++		msleep(1);
++	else
++		msleep((us / 1000) + 1);
++#endif
++#endif
++
++#ifdef PLATFORM_FREEBSD
++	/* Delay for delay microseconds */
++	DELAY(us);
++
++	return ;
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisMSleep(us); /* (us) */
++
++#endif
++
++
++}
++
++
++#ifdef DBG_DELAY_OS
++void _rtw_mdelay_os(int ms, const char *func, const int line)
++{
++#if 0
++	if (ms > 10)
++		RTW_INFO("%s:%d %s(%d)\n", func, line, __FUNCTION__, ms);
++	rtw_msleep_os(ms);
++	return;
++#endif
++
++
++	RTW_INFO("%s:%d %s(%d)\n", func, line, __FUNCTION__, ms);
++
++#if defined(PLATFORM_LINUX)
++
++	mdelay((unsigned long)ms);
++
++#elif defined(PLATFORM_WINDOWS)
++
++	NdisStallExecution(ms * 1000); /* (us)*1000=(ms) */
++
++#endif
++
++
++}
++void _rtw_udelay_os(int us, const char *func, const int line)
++{
++
++#if 0
++	if (us > 1000) {
++		RTW_INFO("%s:%d %s(%d)\n", func, line, __FUNCTION__, us);
++		rtw_usleep_os(us);
++		return;
++	}
++#endif
++
++
++	RTW_INFO("%s:%d %s(%d)\n", func, line, __FUNCTION__, us);
++
++
++#if defined(PLATFORM_LINUX)
++
++	udelay((unsigned long)us);
++
++#elif defined(PLATFORM_WINDOWS)
++
++	NdisStallExecution(us); /* (us) */
++
++#endif
++
++}
++#else
++void rtw_mdelay_os(int ms)
++{
++
++#ifdef PLATFORM_LINUX
++
++	mdelay((unsigned long)ms);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	DELAY(ms * 1000);
++	return ;
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisStallExecution(ms * 1000); /* (us)*1000=(ms) */
++
++#endif
++
++
++}
++void rtw_udelay_os(int us)
++{
++
++#ifdef PLATFORM_LINUX
++
++	udelay((unsigned long)us);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	/* Delay for delay microseconds */
++	DELAY(us);
++	return ;
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisStallExecution(us); /* (us) */
++
++#endif
++
++}
++#endif
++
++void rtw_yield_os(void)
++{
++#ifdef PLATFORM_LINUX
++	yield();
++#endif
++#ifdef PLATFORM_FREEBSD
++	yield();
++#endif
++#ifdef PLATFORM_WINDOWS
++	SwitchToThread();
++#endif
++}
++
++#define RTW_SUSPEND_LOCK_NAME "rtw_wifi"
++#define RTW_SUSPEND_EXT_LOCK_NAME "rtw_wifi_ext"
++#define RTW_SUSPEND_RX_LOCK_NAME "rtw_wifi_rx"
++#define RTW_SUSPEND_TRAFFIC_LOCK_NAME "rtw_wifi_traffic"
++#define RTW_SUSPEND_RESUME_LOCK_NAME "rtw_wifi_resume"
++#define RTW_RESUME_SCAN_LOCK_NAME "rtw_wifi_scan"
++#ifdef CONFIG_WAKELOCK
++static struct wake_lock rtw_suspend_lock;
++static struct wake_lock rtw_suspend_ext_lock;
++static struct wake_lock rtw_suspend_rx_lock;
++static struct wake_lock rtw_suspend_traffic_lock;
++static struct wake_lock rtw_suspend_resume_lock;
++static struct wake_lock rtw_resume_scan_lock;
++#elif defined(CONFIG_ANDROID_POWER)
++static android_suspend_lock_t rtw_suspend_lock = {
++	.name = RTW_SUSPEND_LOCK_NAME
++};
++static android_suspend_lock_t rtw_suspend_ext_lock = {
++	.name = RTW_SUSPEND_EXT_LOCK_NAME
++};
++static android_suspend_lock_t rtw_suspend_rx_lock = {
++	.name = RTW_SUSPEND_RX_LOCK_NAME
++};
++static android_suspend_lock_t rtw_suspend_traffic_lock = {
++	.name = RTW_SUSPEND_TRAFFIC_LOCK_NAME
++};
++static android_suspend_lock_t rtw_suspend_resume_lock = {
++	.name = RTW_SUSPEND_RESUME_LOCK_NAME
++};
++static android_suspend_lock_t rtw_resume_scan_lock = {
++	.name = RTW_RESUME_SCAN_LOCK_NAME
++};
++#endif
++
++inline void rtw_suspend_lock_init(void)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_lock_init(&rtw_suspend_lock, WAKE_LOCK_SUSPEND, RTW_SUSPEND_LOCK_NAME);
++	wake_lock_init(&rtw_suspend_ext_lock, WAKE_LOCK_SUSPEND, RTW_SUSPEND_EXT_LOCK_NAME);
++	wake_lock_init(&rtw_suspend_rx_lock, WAKE_LOCK_SUSPEND, RTW_SUSPEND_RX_LOCK_NAME);
++	wake_lock_init(&rtw_suspend_traffic_lock, WAKE_LOCK_SUSPEND, RTW_SUSPEND_TRAFFIC_LOCK_NAME);
++	wake_lock_init(&rtw_suspend_resume_lock, WAKE_LOCK_SUSPEND, RTW_SUSPEND_RESUME_LOCK_NAME);
++	wake_lock_init(&rtw_resume_scan_lock, WAKE_LOCK_SUSPEND, RTW_RESUME_SCAN_LOCK_NAME);
++#elif defined(CONFIG_ANDROID_POWER)
++	android_init_suspend_lock(&rtw_suspend_lock);
++	android_init_suspend_lock(&rtw_suspend_ext_lock);
++	android_init_suspend_lock(&rtw_suspend_rx_lock);
++	android_init_suspend_lock(&rtw_suspend_traffic_lock);
++	android_init_suspend_lock(&rtw_suspend_resume_lock);
++	android_init_suspend_lock(&rtw_resume_scan_lock);
++#endif
++}
++
++inline void rtw_suspend_lock_uninit(void)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_lock_destroy(&rtw_suspend_lock);
++	wake_lock_destroy(&rtw_suspend_ext_lock);
++	wake_lock_destroy(&rtw_suspend_rx_lock);
++	wake_lock_destroy(&rtw_suspend_traffic_lock);
++	wake_lock_destroy(&rtw_suspend_resume_lock);
++	wake_lock_destroy(&rtw_resume_scan_lock);
++#elif defined(CONFIG_ANDROID_POWER)
++	android_uninit_suspend_lock(&rtw_suspend_lock);
++	android_uninit_suspend_lock(&rtw_suspend_ext_lock);
++	android_uninit_suspend_lock(&rtw_suspend_rx_lock);
++	android_uninit_suspend_lock(&rtw_suspend_traffic_lock);
++	android_uninit_suspend_lock(&rtw_suspend_resume_lock);
++	android_uninit_suspend_lock(&rtw_resume_scan_lock);
++#endif
++}
++
++inline void rtw_lock_suspend(void)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_lock(&rtw_suspend_lock);
++#elif defined(CONFIG_ANDROID_POWER)
++	android_lock_suspend(&rtw_suspend_lock);
++#endif
++
++#if  defined(CONFIG_WAKELOCK) || defined(CONFIG_ANDROID_POWER)
++	/* RTW_INFO("####%s: suspend_lock_count:%d####\n", __FUNCTION__, rtw_suspend_lock.stat.count); */
++#endif
++}
++
++inline void rtw_unlock_suspend(void)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_unlock(&rtw_suspend_lock);
++#elif defined(CONFIG_ANDROID_POWER)
++	android_unlock_suspend(&rtw_suspend_lock);
++#endif
++
++#if  defined(CONFIG_WAKELOCK) || defined(CONFIG_ANDROID_POWER)
++	/* RTW_INFO("####%s: suspend_lock_count:%d####\n", __FUNCTION__, rtw_suspend_lock.stat.count); */
++#endif
++}
++
++inline void rtw_resume_lock_suspend(void)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_lock(&rtw_suspend_resume_lock);
++#elif defined(CONFIG_ANDROID_POWER)
++	android_lock_suspend(&rtw_suspend_resume_lock);
++#endif
++
++#if  defined(CONFIG_WAKELOCK) || defined(CONFIG_ANDROID_POWER)
++	/* RTW_INFO("####%s: suspend_lock_count:%d####\n", __FUNCTION__, rtw_suspend_lock.stat.count); */
++#endif
++}
++
++inline void rtw_resume_unlock_suspend(void)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_unlock(&rtw_suspend_resume_lock);
++#elif defined(CONFIG_ANDROID_POWER)
++	android_unlock_suspend(&rtw_suspend_resume_lock);
++#endif
++
++#if  defined(CONFIG_WAKELOCK) || defined(CONFIG_ANDROID_POWER)
++	/* RTW_INFO("####%s: suspend_lock_count:%d####\n", __FUNCTION__, rtw_suspend_lock.stat.count); */
++#endif
++}
++
++inline void rtw_lock_suspend_timeout(u32 timeout_ms)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_lock_timeout(&rtw_suspend_lock, rtw_ms_to_systime(timeout_ms));
++#elif defined(CONFIG_ANDROID_POWER)
++	android_lock_suspend_auto_expire(&rtw_suspend_lock, rtw_ms_to_systime(timeout_ms));
++#endif
++}
++
++inline void rtw_lock_ext_suspend_timeout(u32 timeout_ms)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_lock_timeout(&rtw_suspend_ext_lock, rtw_ms_to_systime(timeout_ms));
++#elif defined(CONFIG_ANDROID_POWER)
++	android_lock_suspend_auto_expire(&rtw_suspend_ext_lock, rtw_ms_to_systime(timeout_ms));
++#endif
++	/* RTW_INFO("EXT lock timeout:%d\n", timeout_ms); */
++}
++
++inline void rtw_lock_rx_suspend_timeout(u32 timeout_ms)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_lock_timeout(&rtw_suspend_rx_lock, rtw_ms_to_systime(timeout_ms));
++#elif defined(CONFIG_ANDROID_POWER)
++	android_lock_suspend_auto_expire(&rtw_suspend_rx_lock, rtw_ms_to_systime(timeout_ms));
++#endif
++	/* RTW_INFO("RX lock timeout:%d\n", timeout_ms); */
++}
++
++
++inline void rtw_lock_traffic_suspend_timeout(u32 timeout_ms)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_lock_timeout(&rtw_suspend_traffic_lock, rtw_ms_to_systime(timeout_ms));
++#elif defined(CONFIG_ANDROID_POWER)
++	android_lock_suspend_auto_expire(&rtw_suspend_traffic_lock, rtw_ms_to_systime(timeout_ms));
++#endif
++	/* RTW_INFO("traffic lock timeout:%d\n", timeout_ms); */
++}
++
++inline void rtw_lock_resume_scan_timeout(u32 timeout_ms)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_lock_timeout(&rtw_resume_scan_lock, rtw_ms_to_systime(timeout_ms));
++#elif defined(CONFIG_ANDROID_POWER)
++	android_lock_suspend_auto_expire(&rtw_resume_scan_lock, rtw_ms_to_systime(timeout_ms));
++#endif
++	/* RTW_INFO("resume scan lock:%d\n", timeout_ms); */
++}
++
++inline void ATOMIC_SET(ATOMIC_T *v, int i)
++{
++#ifdef PLATFORM_LINUX
++	atomic_set(v, i);
++#elif defined(PLATFORM_WINDOWS)
++	*v = i; /* other choice???? */
++#elif defined(PLATFORM_FREEBSD)
++	atomic_set_int(v, i);
++#endif
++}
++
++inline int ATOMIC_READ(ATOMIC_T *v)
++{
++#ifdef PLATFORM_LINUX
++	return atomic_read(v);
++#elif defined(PLATFORM_WINDOWS)
++	return *v; /* other choice???? */
++#elif defined(PLATFORM_FREEBSD)
++	return atomic_load_acq_32(v);
++#endif
++}
++
++inline void ATOMIC_ADD(ATOMIC_T *v, int i)
++{
++#ifdef PLATFORM_LINUX
++	atomic_add(i, v);
++#elif defined(PLATFORM_WINDOWS)
++	InterlockedAdd(v, i);
++#elif defined(PLATFORM_FREEBSD)
++	atomic_add_int(v, i);
++#endif
++}
++inline void ATOMIC_SUB(ATOMIC_T *v, int i)
++{
++#ifdef PLATFORM_LINUX
++	atomic_sub(i, v);
++#elif defined(PLATFORM_WINDOWS)
++	InterlockedAdd(v, -i);
++#elif defined(PLATFORM_FREEBSD)
++	atomic_subtract_int(v, i);
++#endif
++}
++
++inline void ATOMIC_INC(ATOMIC_T *v)
++{
++#ifdef PLATFORM_LINUX
++	atomic_inc(v);
++#elif defined(PLATFORM_WINDOWS)
++	InterlockedIncrement(v);
++#elif defined(PLATFORM_FREEBSD)
++	atomic_add_int(v, 1);
++#endif
++}
++
++inline void ATOMIC_DEC(ATOMIC_T *v)
++{
++#ifdef PLATFORM_LINUX
++	atomic_dec(v);
++#elif defined(PLATFORM_WINDOWS)
++	InterlockedDecrement(v);
++#elif defined(PLATFORM_FREEBSD)
++	atomic_subtract_int(v, 1);
++#endif
++}
++
++inline int ATOMIC_ADD_RETURN(ATOMIC_T *v, int i)
++{
++#ifdef PLATFORM_LINUX
++	return atomic_add_return(i, v);
++#elif defined(PLATFORM_WINDOWS)
++	return InterlockedAdd(v, i);
++#elif defined(PLATFORM_FREEBSD)
++	atomic_add_int(v, i);
++	return atomic_load_acq_32(v);
++#endif
++}
++
++inline int ATOMIC_SUB_RETURN(ATOMIC_T *v, int i)
++{
++#ifdef PLATFORM_LINUX
++	return atomic_sub_return(i, v);
++#elif defined(PLATFORM_WINDOWS)
++	return InterlockedAdd(v, -i);
++#elif defined(PLATFORM_FREEBSD)
++	atomic_subtract_int(v, i);
++	return atomic_load_acq_32(v);
++#endif
++}
++
++inline int ATOMIC_INC_RETURN(ATOMIC_T *v)
++{
++#ifdef PLATFORM_LINUX
++	return atomic_inc_return(v);
++#elif defined(PLATFORM_WINDOWS)
++	return InterlockedIncrement(v);
++#elif defined(PLATFORM_FREEBSD)
++	atomic_add_int(v, 1);
++	return atomic_load_acq_32(v);
++#endif
++}
++
++inline int ATOMIC_DEC_RETURN(ATOMIC_T *v)
++{
++#ifdef PLATFORM_LINUX
++	return atomic_dec_return(v);
++#elif defined(PLATFORM_WINDOWS)
++	return InterlockedDecrement(v);
++#elif defined(PLATFORM_FREEBSD)
++	atomic_subtract_int(v, 1);
++	return atomic_load_acq_32(v);
++#endif
++}
++
++
++#ifdef PLATFORM_LINUX
++/*
++* Open a file with the specific @param path, @param flag, @param mode
++* @param fpp the pointer of struct file pointer to get struct file pointer while file opening is success
++* @param path the path of the file to open
++* @param flag file operation flags, please refer to linux document
++* @param mode please refer to linux document
++* @return Linux specific error code
++*/
++static int openFile(struct file **fpp, const char *path, int flag, int mode)
++{
++	struct file *fp;
++
++	fp = filp_open(path, flag, mode);
++	if (IS_ERR(fp)) {
++		*fpp = NULL;
++		return PTR_ERR(fp);
++	} else {
++		*fpp = fp;
++		return 0;
++	}
++}
++
++/*
++* Close the file with the specific @param fp
++* @param fp the pointer of struct file to close
++* @return always 0
++*/
++static int closeFile(struct file *fp)
++{
++	filp_close(fp, NULL);
++	return 0;
++}
++
++static int readFile(struct file *fp, char *buf, int len)
++{
++	int rlen = 0, sum = 0;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 1, 0))
++	if (!(fp->f_mode & FMODE_CAN_READ))
++#else
++	if (!fp->f_op || !fp->f_op->read)
++#endif
++		return -EPERM;
++
++	while (sum < len) {
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 1, 0))
++		rlen = __vfs_read(fp, buf + sum, len - sum, &fp->f_pos);
++#else
++		rlen = fp->f_op->read(fp, buf + sum, len - sum, &fp->f_pos);
++#endif
++		if (rlen > 0)
++			sum += rlen;
++		else if (0 != rlen)
++			return rlen;
++		else
++			break;
++	}
++
++	return  sum;
++
++}
++
++static int writeFile(struct file *fp, char *buf, int len)
++{
++	int wlen = 0, sum = 0;
++
++	if (!fp->f_op || !fp->f_op->write)
++		return -EPERM;
++
++	while (sum < len) {
++		wlen = fp->f_op->write(fp, buf + sum, len - sum, &fp->f_pos);
++		if (wlen > 0)
++			sum += wlen;
++		else if (0 != wlen)
++			return wlen;
++		else
++			break;
++	}
++
++	return sum;
++
++}
++
++/*
++* Test if the specifi @param path is a file and readable
++* If readable, @param sz is got
++* @param path the path of the file to test
++* @return Linux specific error code
++*/
++static int isFileReadable(const char *path, u32 *sz)
++{
++	struct file *fp;
++	int ret = 0;
++	mm_segment_t oldfs;
++	char buf;
++
++	fp = filp_open(path, O_RDONLY, 0);
++	if (IS_ERR(fp))
++		ret = PTR_ERR(fp);
++	else {
++		oldfs = get_fs();
++		set_fs(get_ds());
++
++		if (1 != readFile(fp, &buf, 1))
++			ret = PTR_ERR(fp);
++
++		if (ret == 0 && sz) {
++			#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 19, 0))
++			*sz = i_size_read(fp->f_path.dentry->d_inode);
++			#else
++			*sz = i_size_read(fp->f_dentry->d_inode);
++			#endif
++		}
++
++		set_fs(oldfs);
++		filp_close(fp, NULL);
++	}
++	return ret;
++}
++
++/*
++* Open the file with @param path and retrive the file content into memory starting from @param buf for @param sz at most
++* @param path the path of the file to open and read
++* @param buf the starting address of the buffer to store file content
++* @param sz how many bytes to read at most
++* @return the byte we've read, or Linux specific error code
++*/
++static int retriveFromFile(const char *path, u8 *buf, u32 sz)
++{
++	int ret = -1;
++	mm_segment_t oldfs;
++	struct file *fp;
++
++	if (path && buf) {
++		ret = openFile(&fp, path, O_RDONLY, 0);
++		if (0 == ret) {
++			RTW_INFO("%s openFile path:%s fp=%p\n", __FUNCTION__, path , fp);
++
++			oldfs = get_fs();
++			set_fs(get_ds());
++			ret = readFile(fp, buf, sz);
++			set_fs(oldfs);
++			closeFile(fp);
++
++			RTW_INFO("%s readFile, ret:%d\n", __FUNCTION__, ret);
++
++		} else
++			RTW_INFO("%s openFile path:%s Fail, ret:%d\n", __FUNCTION__, path, ret);
++	} else {
++		RTW_INFO("%s NULL pointer\n", __FUNCTION__);
++		ret =  -EINVAL;
++	}
++	return ret;
++}
++
++/*
++* Open the file with @param path and wirte @param sz byte of data starting from @param buf into the file
++* @param path the path of the file to open and write
++* @param buf the starting address of the data to write into file
++* @param sz how many bytes to write at most
++* @return the byte we've written, or Linux specific error code
++*/
++static int storeToFile(const char *path, u8 *buf, u32 sz)
++{
++	int ret = 0;
++	mm_segment_t oldfs;
++	struct file *fp;
++
++	if (path && buf) {
++		ret = openFile(&fp, path, O_CREAT | O_WRONLY, 0666);
++		if (0 == ret) {
++			RTW_INFO("%s openFile path:%s fp=%p\n", __FUNCTION__, path , fp);
++
++			oldfs = get_fs();
++			set_fs(get_ds());
++			ret = writeFile(fp, buf, sz);
++			set_fs(oldfs);
++			closeFile(fp);
++
++			RTW_INFO("%s writeFile, ret:%d\n", __FUNCTION__, ret);
++
++		} else
++			RTW_INFO("%s openFile path:%s Fail, ret:%d\n", __FUNCTION__, path, ret);
++	} else {
++		RTW_INFO("%s NULL pointer\n", __FUNCTION__);
++		ret =  -EINVAL;
++	}
++	return ret;
++}
++#endif /* PLATFORM_LINUX */
++
++/*
++* Test if the specifi @param path is a file and readable
++* @param path the path of the file to test
++* @return _TRUE or _FALSE
++*/
++int rtw_is_file_readable(const char *path)
++{
++#ifdef PLATFORM_LINUX
++	if (isFileReadable(path, NULL) == 0)
++		return _TRUE;
++	else
++		return _FALSE;
++#else
++	/* Todo... */
++	return _FALSE;
++#endif
++}
++
++/*
++* Test if the specifi @param path is a file and readable.
++* If readable, @param sz is got
++* @param path the path of the file to test
++* @return _TRUE or _FALSE
++*/
++int rtw_is_file_readable_with_size(const char *path, u32 *sz)
++{
++#ifdef PLATFORM_LINUX
++	if (isFileReadable(path, sz) == 0)
++		return _TRUE;
++	else
++		return _FALSE;
++#else
++	/* Todo... */
++	return _FALSE;
++#endif
++}
++
++/*
++* Open the file with @param path and retrive the file content into memory starting from @param buf for @param sz at most
++* @param path the path of the file to open and read
++* @param buf the starting address of the buffer to store file content
++* @param sz how many bytes to read at most
++* @return the byte we've read
++*/
++int rtw_retrieve_from_file(const char *path, u8 *buf, u32 sz)
++{
++#ifdef PLATFORM_LINUX
++	int ret = retriveFromFile(path, buf, sz);
++	return ret >= 0 ? ret : 0;
++#else
++	/* Todo... */
++	return 0;
++#endif
++}
++
++/*
++* Open the file with @param path and wirte @param sz byte of data starting from @param buf into the file
++* @param path the path of the file to open and write
++* @param buf the starting address of the data to write into file
++* @param sz how many bytes to write at most
++* @return the byte we've written
++*/
++int rtw_store_to_file(const char *path, u8 *buf, u32 sz)
++{
++#ifdef PLATFORM_LINUX
++	int ret = storeToFile(path, buf, sz);
++	return ret >= 0 ? ret : 0;
++#else
++	/* Todo... */
++	return 0;
++#endif
++}
++
++#ifdef PLATFORM_LINUX
++struct net_device *rtw_alloc_etherdev_with_old_priv(int sizeof_priv, void *old_priv)
++{
++	struct net_device *pnetdev;
++	struct rtw_netdev_priv_indicator *pnpi;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	pnetdev = alloc_etherdev_mq(sizeof(struct rtw_netdev_priv_indicator), 4);
++#else
++	pnetdev = alloc_etherdev(sizeof(struct rtw_netdev_priv_indicator));
++#endif
++	if (!pnetdev)
++		goto RETURN;
++
++	pnpi = netdev_priv(pnetdev);
++	pnpi->priv = old_priv;
++	pnpi->sizeof_priv = sizeof_priv;
++
++RETURN:
++	return pnetdev;
++}
++
++struct net_device *rtw_alloc_etherdev(int sizeof_priv)
++{
++	struct net_device *pnetdev;
++	struct rtw_netdev_priv_indicator *pnpi;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	pnetdev = alloc_etherdev_mq(sizeof(struct rtw_netdev_priv_indicator), 4);
++#else
++	pnetdev = alloc_etherdev(sizeof(struct rtw_netdev_priv_indicator));
++#endif
++	if (!pnetdev)
++		goto RETURN;
++
++	pnpi = netdev_priv(pnetdev);
++
++	pnpi->priv = rtw_zvmalloc(sizeof_priv);
++	if (!pnpi->priv) {
++		free_netdev(pnetdev);
++		pnetdev = NULL;
++		goto RETURN;
++	}
++
++	pnpi->sizeof_priv = sizeof_priv;
++RETURN:
++	return pnetdev;
++}
++
++void rtw_free_netdev(struct net_device *netdev)
++{
++	struct rtw_netdev_priv_indicator *pnpi;
++
++	if (!netdev)
++		goto RETURN;
++
++	pnpi = netdev_priv(netdev);
++
++	if (!pnpi->priv)
++		goto RETURN;
++
++	free_netdev(netdev);
++
++RETURN:
++	return;
++}
++
++/*
++* Jeff: this function should be called under ioctl (rtnl_lock is accquired) while
++* LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 26)
++*/
++int rtw_change_ifname(_adapter *padapter, const char *ifname)
++{
++	struct net_device *pnetdev;
++	struct net_device *cur_pnetdev;
++	struct rereg_nd_name_data *rereg_priv;
++	int ret;
++
++	if (!padapter)
++		goto error;
++
++	cur_pnetdev = padapter->pnetdev;
++	rereg_priv = &padapter->rereg_nd_name_priv;
++
++	/* free the old_pnetdev */
++	if (rereg_priv->old_pnetdev) {
++		free_netdev(rereg_priv->old_pnetdev);
++		rereg_priv->old_pnetdev = NULL;
++	}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 26))
++	if (!rtnl_is_locked())
++		unregister_netdev(cur_pnetdev);
++	else
++#endif
++		unregister_netdevice(cur_pnetdev);
++
++	rereg_priv->old_pnetdev = cur_pnetdev;
++
++	pnetdev = rtw_init_netdev(padapter);
++	if (!pnetdev)  {
++		ret = -1;
++		goto error;
++	}
++
++	SET_NETDEV_DEV(pnetdev, dvobj_to_dev(adapter_to_dvobj(padapter)));
++
++	rtw_init_netdev_name(pnetdev, ifname);
++
++	_rtw_memcpy(pnetdev->dev_addr, adapter_mac_addr(padapter), ETH_ALEN);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 26))
++	if (!rtnl_is_locked())
++		ret = register_netdev(pnetdev);
++	else
++#endif
++		ret = register_netdevice(pnetdev);
++
++	if (ret != 0) {
++		goto error;
++	}
++
++	return 0;
++
++error:
++
++	return -1;
++
++}
++#endif
++
++#ifdef PLATFORM_FREEBSD
++/*
++ * Copy a buffer from userspace and write into kernel address
++ * space.
++ *
++ * This emulation just calls the FreeBSD copyin function (to
++ * copy data from user space buffer into a kernel space buffer)
++ * and is designed to be used with the above io_write_wrapper.
++ *
++ * This function should return the number of bytes not copied.
++ * I.e. success results in a zero value.
++ * Negative error values are not returned.
++ */
++unsigned long
++copy_from_user(void *to, const void *from, unsigned long n)
++{
++	if (copyin(from, to, n) != 0) {
++		/* Any errors will be treated as a failure
++		   to copy any of the requested bytes */
++		return n;
++	}
++
++	return 0;
++}
++
++unsigned long
++copy_to_user(void *to, const void *from, unsigned long n)
++{
++	if (copyout(from, to, n) != 0) {
++		/* Any errors will be treated as a failure
++		   to copy any of the requested bytes */
++		return n;
++	}
++
++	return 0;
++}
++
++
++/*
++ * The usb_register and usb_deregister functions are used to register
++ * usb drivers with the usb subsystem. In this compatibility layer
++ * emulation a list of drivers (struct usb_driver) is maintained
++ * and is used for probing/attaching etc.
++ *
++ * usb_register and usb_deregister simply call these functions.
++ */
++int
++usb_register(struct usb_driver *driver)
++{
++	rtw_usb_linux_register(driver);
++	return 0;
++}
++
++
++int
++usb_deregister(struct usb_driver *driver)
++{
++	rtw_usb_linux_deregister(driver);
++	return 0;
++}
++
++void module_init_exit_wrapper(void *arg)
++{
++	int (*func)(void) = arg;
++	func();
++	return;
++}
++
++#endif /* PLATFORM_FREEBSD */
++
++#ifdef CONFIG_PLATFORM_SPRD
++	#ifdef do_div
++		#undef do_div
++	#endif
++	#include <asm-generic/div64.h>
++#endif
++
++u64 rtw_modular64(u64 x, u64 y)
++{
++#ifdef PLATFORM_LINUX
++	return do_div(x, y);
++#elif defined(PLATFORM_WINDOWS)
++	return x % y;
++#elif defined(PLATFORM_FREEBSD)
++	return x % y;
++#endif
++}
++
++u64 rtw_division64(u64 x, u64 y)
++{
++#ifdef PLATFORM_LINUX
++	do_div(x, y);
++	return x;
++#elif defined(PLATFORM_WINDOWS)
++	return x / y;
++#elif defined(PLATFORM_FREEBSD)
++	return x / y;
++#endif
++}
++
++inline u32 rtw_random32(void)
++{
++#ifdef PLATFORM_LINUX
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 8, 0))
++	return prandom_u32();
++#elif (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 18))
++	u32 random_int;
++	get_random_bytes(&random_int , 4);
++	return random_int;
++#else
++	return random32();
++#endif
++#elif defined(PLATFORM_WINDOWS)
++#error "to be implemented\n"
++#elif defined(PLATFORM_FREEBSD)
++#error "to be implemented\n"
++#endif
++}
++
++void rtw_buf_free(u8 **buf, u32 *buf_len)
++{
++	u32 ori_len;
++
++	if (!buf || !buf_len)
++		return;
++
++	ori_len = *buf_len;
++
++	if (*buf) {
++		u32 tmp_buf_len = *buf_len;
++		*buf_len = 0;
++		rtw_mfree(*buf, tmp_buf_len);
++		*buf = NULL;
++	}
++}
++
++void rtw_buf_update(u8 **buf, u32 *buf_len, u8 *src, u32 src_len)
++{
++	u32 ori_len = 0, dup_len = 0;
++	u8 *ori = NULL;
++	u8 *dup = NULL;
++
++	if (!buf || !buf_len)
++		return;
++
++	if (!src || !src_len)
++		goto keep_ori;
++
++	/* duplicate src */
++	dup = rtw_malloc(src_len);
++	if (dup) {
++		dup_len = src_len;
++		_rtw_memcpy(dup, src, dup_len);
++	}
++
++keep_ori:
++	ori = *buf;
++	ori_len = *buf_len;
++
++	/* replace buf with dup */
++	*buf_len = 0;
++	*buf = dup;
++	*buf_len = dup_len;
++
++	/* free ori */
++	if (ori && ori_len > 0)
++		rtw_mfree(ori, ori_len);
++}
++
++
++/**
++ * rtw_cbuf_full - test if cbuf is full
++ * @cbuf: pointer of struct rtw_cbuf
++ *
++ * Returns: _TRUE if cbuf is full
++ */
++inline bool rtw_cbuf_full(struct rtw_cbuf *cbuf)
++{
++	return (cbuf->write == cbuf->read - 1) ? _TRUE : _FALSE;
++}
++
++/**
++ * rtw_cbuf_empty - test if cbuf is empty
++ * @cbuf: pointer of struct rtw_cbuf
++ *
++ * Returns: _TRUE if cbuf is empty
++ */
++inline bool rtw_cbuf_empty(struct rtw_cbuf *cbuf)
++{
++	return (cbuf->write == cbuf->read) ? _TRUE : _FALSE;
++}
++
++/**
++ * rtw_cbuf_push - push a pointer into cbuf
++ * @cbuf: pointer of struct rtw_cbuf
++ * @buf: pointer to push in
++ *
++ * Lock free operation, be careful of the use scheme
++ * Returns: _TRUE push success
++ */
++bool rtw_cbuf_push(struct rtw_cbuf *cbuf, void *buf)
++{
++	if (rtw_cbuf_full(cbuf))
++		return _FAIL;
++
++	if (0)
++		RTW_INFO("%s on %u\n", __func__, cbuf->write);
++	cbuf->bufs[cbuf->write] = buf;
++	cbuf->write = (cbuf->write + 1) % cbuf->size;
++
++	return _SUCCESS;
++}
++
++/**
++ * rtw_cbuf_pop - pop a pointer from cbuf
++ * @cbuf: pointer of struct rtw_cbuf
++ *
++ * Lock free operation, be careful of the use scheme
++ * Returns: pointer popped out
++ */
++void *rtw_cbuf_pop(struct rtw_cbuf *cbuf)
++{
++	void *buf;
++	if (rtw_cbuf_empty(cbuf))
++		return NULL;
++
++	if (0)
++		RTW_INFO("%s on %u\n", __func__, cbuf->read);
++	buf = cbuf->bufs[cbuf->read];
++	cbuf->read = (cbuf->read + 1) % cbuf->size;
++
++	return buf;
++}
++
++/**
++ * rtw_cbuf_alloc - allocte a rtw_cbuf with given size and do initialization
++ * @size: size of pointer
++ *
++ * Returns: pointer of srtuct rtw_cbuf, NULL for allocation failure
++ */
++struct rtw_cbuf *rtw_cbuf_alloc(u32 size)
++{
++	struct rtw_cbuf *cbuf;
++
++	cbuf = (struct rtw_cbuf *)rtw_malloc(sizeof(*cbuf) + sizeof(void *) * size);
++
++	if (cbuf) {
++		cbuf->write = cbuf->read = 0;
++		cbuf->size = size;
++	}
++
++	return cbuf;
++}
++
++/**
++ * rtw_cbuf_free - free the given rtw_cbuf
++ * @cbuf: pointer of struct rtw_cbuf to free
++ */
++void rtw_cbuf_free(struct rtw_cbuf *cbuf)
++{
++	rtw_mfree((u8 *)cbuf, sizeof(*cbuf) + sizeof(void *) * cbuf->size);
++}
++
++/**
++ * map_readN - read a range of map data
++ * @map: map to read
++ * @offset: start address to read
++ * @len: length to read
++ * @buf: pointer of buffer to store data read
++ *
++ * Returns: _SUCCESS or _FAIL
++ */
++int map_readN(const struct map_t *map, u16 offset, u16 len, u8 *buf)
++{
++	const struct map_seg_t *seg;
++	int ret = _FAIL;
++	int i;
++
++	if (len == 0) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (offset + len > map->len) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	_rtw_memset(buf, map->init_value, len);
++
++	for (i = 0; i < map->seg_num; i++) {
++		u8 *c_dst, *c_src;
++		u16 c_len;
++
++		seg = map->segs + i;
++		if (seg->sa + seg->len <= offset || seg->sa >= offset + len)
++			continue;
++
++		if (seg->sa >= offset) {
++			c_dst = buf + (seg->sa - offset);
++			c_src = seg->c;
++			if (seg->sa + seg->len <= offset + len)
++				c_len = seg->len;
++			else
++				c_len = offset + len - seg->sa;
++		} else {
++			c_dst = buf;
++			c_src = seg->c + (offset - seg->sa);
++			if (seg->sa + seg->len >= offset + len)
++				c_len = len;
++			else
++				c_len = seg->sa + seg->len - offset;
++		}
++			
++		_rtw_memcpy(c_dst, c_src, c_len);
++	}
++
++exit:
++	return ret;
++}
++
++/**
++ * map_read8 - read 1 byte of map data
++ * @map: map to read
++ * @offset: address to read
++ *
++ * Returns: value of data of specified offset. map.init_value if offset is out of range
++ */
++u8 map_read8(const struct map_t *map, u16 offset)
++{
++	const struct map_seg_t *seg;
++	u8 val = map->init_value;
++	int i;
++
++	if (offset + 1 > map->len) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	for (i = 0; i < map->seg_num; i++) {
++		seg = map->segs + i;
++		if (seg->sa + seg->len <= offset || seg->sa >= offset + 1)
++			continue;
++
++		val = *(seg->c + offset - seg->sa);
++		break;
++	}
++
++exit:
++	return val;
++}
++
++/**
++* is_null -
++*
++* Return	TRUE if c is null character
++*		FALSE otherwise.
++*/
++inline BOOLEAN is_null(char c)
++{
++	if (c == '\0')
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++/**
++* is_eol -
++*
++* Return	TRUE if c is represent for EOL (end of line)
++*		FALSE otherwise.
++*/
++inline BOOLEAN is_eol(char c)
++{
++	if (c == '\r' || c == '\n')
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++/**
++* is_space -
++*
++* Return	TRUE if c is represent for space
++*		FALSE otherwise.
++*/
++inline BOOLEAN is_space(char c)
++{
++	if (c == ' ' || c == '\t')
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++/**
++* IsHexDigit -
++*
++* Return	TRUE if chTmp is represent for hex digit
++*		FALSE otherwise.
++*/
++inline BOOLEAN IsHexDigit(char chTmp)
++{
++	if ((chTmp >= '0' && chTmp <= '9') ||
++		(chTmp >= 'a' && chTmp <= 'f') ||
++		(chTmp >= 'A' && chTmp <= 'F'))
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++/**
++* is_alpha -
++*
++* Return	TRUE if chTmp is represent for alphabet
++*		FALSE otherwise.
++*/
++inline BOOLEAN is_alpha(char chTmp)
++{
++	if ((chTmp >= 'a' && chTmp <= 'z') ||
++		(chTmp >= 'A' && chTmp <= 'Z'))
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++inline char alpha_to_upper(char c)
++{
++	if ((c >= 'a' && c <= 'z'))
++		c = 'A' + (c - 'a');
++	return c;
++}
+diff --git a/drivers/net/wireless/rtl8723du/platform/custom_country_chplan.h b/drivers/net/wireless/rtl8723du/platform/custom_country_chplan.h
+new file mode 100644
+index 0000000..9d26bf4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/platform/custom_country_chplan.h
+@@ -0,0 +1,28 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#error "You have defined CONFIG_CUSTOMIZED_COUNTRY_CHPLAN_MAP to use a customized map of your own instead of the default one"
++#error "Before removing these error notifications, please make sure regulatory certification requirements of your target markets"
++
++static const struct country_chplan CUSTOMIZED_country_chplan_map[] = {
++	COUNTRY_CHPLAN_ENT("TW", 0x39, 1, 0xFF), /* Taiwan */
++};
++
++static const u16 CUSTOMIZED_country_chplan_map_sz = sizeof(CUSTOMIZED_country_chplan_map) / sizeof(struct country_chplan);
+diff --git a/drivers/net/wireless/rtl8723du/platform/platform_ARM_SUN50IW1P1_sdio.c b/drivers/net/wireless/rtl8723du/platform/platform_ARM_SUN50IW1P1_sdio.c
+new file mode 100644
+index 0000000..44bd7de
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/platform/platform_ARM_SUN50IW1P1_sdio.c
+@@ -0,0 +1,91 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*
++ * Description:
++ *	This file can be applied to following platforms:
++ *	CONFIG_PLATFORM_ARM_SUN50IW1P1
++ */
++#include <drv_types.h>
++#ifdef CONFIG_GPIO_WAKEUP
++#include <linux/gpio.h>
++#endif
++
++#ifdef CONFIG_MMC
++#if defined(CONFIG_PLATFORM_ARM_SUN50IW1P1)
++extern void sunxi_mmc_rescan_card(unsigned ids);
++extern void sunxi_wlan_set_power(int on);
++extern int sunxi_wlan_get_bus_index(void);
++extern int sunxi_wlan_get_oob_irq(void);
++extern int sunxi_wlan_get_oob_irq_flags(void);
++#endif
++#ifdef CONFIG_GPIO_WAKEUP
++extern unsigned int oob_irq;
++#endif
++#endif /* CONFIG_MMC */
++
++/*
++ * Return:
++ *	0:	power on successfully
++ *	others: power on failed
++ */
++int platform_wifi_power_on(void)
++{
++	int ret = 0;
++
++#ifdef CONFIG_MMC
++	{
++
++#if defined(CONFIG_PLATFORM_ARM_SUN50IW1P1)
++		int wlan_bus_index = sunxi_wlan_get_bus_index();
++		if (wlan_bus_index < 0)
++			return wlan_bus_index;
++
++		sunxi_wlan_set_power(1);
++		mdelay(100);
++		sunxi_mmc_rescan_card(wlan_bus_index);
++#endif
++		RTW_INFO("%s: power up, rescan card.\n", __FUNCTION__);
++
++#ifdef CONFIG_GPIO_WAKEUP
++#if defined(CONFIG_PLATFORM_ARM_SUN50IW1P1)
++		oob_irq = sunxi_wlan_get_oob_irq();
++#endif
++#endif /* CONFIG_GPIO_WAKEUP */
++	}
++#endif /* CONFIG_MMC */
++
++	return ret;
++}
++
++void platform_wifi_power_off(void)
++{
++#ifdef CONFIG_MMC
++#if defined(CONFIG_PLATFORM_ARM_SUN50IW1P1)
++	int wlan_bus_index = sunxi_wlan_get_bus_index();
++	if (wlan_bus_index < 0)
++		return;
++
++	sunxi_mmc_rescan_card(wlan_bus_index);
++	mdelay(100);
++	sunxi_wlan_set_power(0);
++#endif
++	RTW_INFO("%s: remove card, power off.\n", __FUNCTION__);
++#endif /* CONFIG_MMC */
++}
+diff --git a/drivers/net/wireless/rtl8723du/platform/platform_ARM_SUNnI_sdio.c b/drivers/net/wireless/rtl8723du/platform/platform_ARM_SUNnI_sdio.c
+new file mode 100644
+index 0000000..612dfba
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/platform/platform_ARM_SUNnI_sdio.c
+@@ -0,0 +1,135 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*
++ * Description:
++ *	This file can be applied to following platforms:
++ *	CONFIG_PLATFORM_ARM_SUN6I
++ *	CONFIG_PLATFORM_ARM_SUN7I
++ *	CONFIG_PLATFORM_ARM_SUN8I
++ */
++#include <drv_types.h>
++#include <mach/sys_config.h>
++#ifdef CONFIG_GPIO_WAKEUP
++#include <linux/gpio.h>
++#endif
++
++#ifdef CONFIG_MMC
++static int sdc_id = -1;
++static signed int gpio_eint_wlan = -1;
++static u32 eint_wlan_handle = 0;
++
++#if defined(CONFIG_PLATFORM_ARM_SUN6I) || defined(CONFIG_PLATFORM_ARM_SUN7I)
++extern void sw_mci_rescan_card(unsigned id, unsigned insert);
++#elif defined(CONFIG_PLATFORM_ARM_SUN8I)
++extern void sunxi_mci_rescan_card(unsigned id, unsigned insert);
++#endif
++
++#ifdef CONFIG_PLATFORM_ARM_SUN8I_W5P1
++extern int get_rf_mod_type(void);
++#else
++extern int wifi_pm_get_mod_type(void);
++#endif
++
++extern void wifi_pm_power(int on);
++#ifdef CONFIG_GPIO_WAKEUP
++extern unsigned int oob_irq;
++#endif
++#endif /* CONFIG_MMC */
++
++/*
++ * Return:
++ *	0:	power on successfully
++ *	others: power on failed
++ */
++int platform_wifi_power_on(void)
++{
++	int ret = 0;
++
++#ifdef CONFIG_MMC
++	{
++		script_item_u val;
++		script_item_value_type_e type;
++
++#ifdef CONFIG_PLATFORM_ARM_SUN8I_W5P1
++		unsigned int mod_sel = get_rf_mod_type();
++#else
++		unsigned int mod_sel = wifi_pm_get_mod_type();
++#endif
++
++		type = script_get_item("wifi_para", "wifi_sdc_id", &val);
++		if (SCIRPT_ITEM_VALUE_TYPE_INT != type) {
++			RTW_INFO("get wifi_sdc_id failed\n");
++			ret = -1;
++		} else {
++			sdc_id = val.val;
++			RTW_INFO("----- %s sdc_id: %d, mod_sel: %d\n", __FUNCTION__, sdc_id, mod_sel);
++
++#if defined(CONFIG_PLATFORM_ARM_SUN6I) || defined(CONFIG_PLATFORM_ARM_SUN7I)
++			sw_mci_rescan_card(sdc_id, 1);
++#elif defined(CONFIG_PLATFORM_ARM_SUN8I)
++			sunxi_mci_rescan_card(sdc_id, 1);
++#endif
++			mdelay(100);
++			wifi_pm_power(1);
++
++			RTW_INFO("%s: power up, rescan card.\n", __FUNCTION__);
++		}
++
++#ifdef CONFIG_GPIO_WAKEUP
++#ifdef CONFIG_PLATFORM_ARM_SUN8I_W5P1
++		type = script_get_item("wifi_para", "wl_host_wake", &val);
++#else
++#ifdef CONFIG_RTL8723B
++		type = script_get_item("wifi_para", "rtl8723bs_wl_host_wake", &val);
++#endif
++#ifdef CONFIG_RTL8188E
++		type = script_get_item("wifi_para", "rtl8189es_host_wake", &val);
++#endif
++#endif /* CONFIG_PLATFORM_ARM_SUN8I_W5P1 */
++		if (SCIRPT_ITEM_VALUE_TYPE_PIO != type) {
++			RTW_INFO("No definition of wake up host PIN\n");
++			ret = -1;
++		} else {
++			gpio_eint_wlan = val.gpio.gpio;
++#ifdef CONFIG_PLATFORM_ARM_SUN8I
++			oob_irq = gpio_to_irq(gpio_eint_wlan);
++#endif
++		}
++#endif /* CONFIG_GPIO_WAKEUP */
++	}
++#endif /* CONFIG_MMC */
++
++	return ret;
++}
++
++void platform_wifi_power_off(void)
++{
++#ifdef CONFIG_MMC
++#if defined(CONFIG_PLATFORM_ARM_SUN6I) || defined(CONFIG_PLATFORM_ARM_SUN7I)
++	sw_mci_rescan_card(sdc_id, 0);
++#elif defined(CONFIG_PLATFORM_ARM_SUN8I)
++	sunxi_mci_rescan_card(sdc_id, 0);
++#endif
++	mdelay(100);
++	wifi_pm_power(0);
++
++	RTW_INFO("%s: remove card, power off.\n", __FUNCTION__);
++#endif /* CONFIG_MMC */
++}
+diff --git a/drivers/net/wireless/rtl8723du/platform/platform_ARM_SUNxI_sdio.c b/drivers/net/wireless/rtl8723du/platform/platform_ARM_SUNxI_sdio.c
+new file mode 100644
+index 0000000..6eed7b1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/platform/platform_ARM_SUNxI_sdio.c
+@@ -0,0 +1,95 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#include <drv_types.h>
++
++#ifdef CONFIG_MMC_SUNXI_POWER_CONTROL
++#ifdef CONFIG_WITS_EVB_V13
++	#define SDIOID	0
++#else /* !CONFIG_WITS_EVB_V13 */
++	#define SDIOID (CONFIG_CHIP_ID == 1123 ? 3 : 1)
++#endif /* !CONFIG_WITS_EVB_V13 */
++
++#define SUNXI_SDIO_WIFI_NUM_RTL8189ES  10
++extern void sunximmc_rescan_card(unsigned id, unsigned insert);
++extern int mmc_pm_get_mod_type(void);
++extern int mmc_pm_gpio_ctrl(char *name, int level);
++/*
++ *	rtl8189es_shdn	= port:PH09<1><default><default><0>
++ *	rtl8189es_wakeup	= port:PH10<1><default><default><1>
++ *	rtl8189es_vdd_en  = port:PH11<1><default><default><0>
++ *	rtl8189es_vcc_en  = port:PH12<1><default><default><0>
++ */
++
++int rtl8189es_sdio_powerup(void)
++{
++	mmc_pm_gpio_ctrl("rtl8189es_vdd_en", 1);
++	udelay(100);
++	mmc_pm_gpio_ctrl("rtl8189es_vcc_en", 1);
++	udelay(50);
++	mmc_pm_gpio_ctrl("rtl8189es_shdn", 1);
++	return 0;
++}
++
++int rtl8189es_sdio_poweroff(void)
++{
++	mmc_pm_gpio_ctrl("rtl8189es_shdn", 0);
++	mmc_pm_gpio_ctrl("rtl8189es_vcc_en", 0);
++	mmc_pm_gpio_ctrl("rtl8189es_vdd_en", 0);
++	return 0;
++}
++#endif /* CONFIG_MMC_SUNXI_POWER_CONTROL */
++
++/*
++ * Return:
++ *	0:	power on successfully
++ *	others:	power on failed
++ */
++int platform_wifi_power_on(void)
++{
++	int ret = 0;
++#ifdef CONFIG_MMC_SUNXI_POWER_CONTROL
++	unsigned int mod_sel = mmc_pm_get_mod_type();
++#endif /* CONFIG_MMC_SUNXI_POWER_CONTROL */
++
++
++#ifdef CONFIG_MMC_SUNXI_POWER_CONTROL
++	if (mod_sel == SUNXI_SDIO_WIFI_NUM_RTL8189ES) {
++		rtl8189es_sdio_powerup();
++		sunximmc_rescan_card(SDIOID, 1);
++		printk("[rtl8189es] %s: power up, rescan card.\n", __FUNCTION__);
++	} else {
++		ret = -1;
++		printk("[rtl8189es] %s: mod_sel = %d is incorrect.\n", __FUNCTION__, mod_sel);
++	}
++#endif /* CONFIG_MMC_SUNXI_POWER_CONTROL */
++
++	return ret;
++}
++
++void platform_wifi_power_off(void)
++{
++#ifdef CONFIG_MMC_SUNXI_POWER_CONTROL
++	sunximmc_rescan_card(SDIOID, 0);
++#ifdef CONFIG_RTL8188E
++	rtl8189es_sdio_poweroff();
++	printk("[rtl8189es] %s: remove card, power off.\n", __FUNCTION__);
++#endif /* CONFIG_RTL8188E */
++#endif /* CONFIG_MMC_SUNXI_POWER_CONTROL */
++}
+diff --git a/drivers/net/wireless/rtl8723du/platform/platform_ARM_SUNxI_usb.c b/drivers/net/wireless/rtl8723du/platform/platform_ARM_SUNxI_usb.c
+new file mode 100644
+index 0000000..b2c8a28
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/platform/platform_ARM_SUNxI_usb.c
+@@ -0,0 +1,141 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*
++ * Description:
++ *	This file can be applied to following platforms:
++ *	CONFIG_PLATFORM_ARM_SUNXI Series platform
++ *
++ */
++
++#include <drv_types.h>
++#include <mach/sys_config.h>
++
++#ifdef CONFIG_PLATFORM_ARM_SUNxI
++extern int sw_usb_disable_hcd(__u32 usbc_no);
++extern int sw_usb_enable_hcd(__u32 usbc_no);
++static int usb_wifi_host = 2;
++#endif
++
++#if defined(CONFIG_PLATFORM_ARM_SUN6I) || defined(CONFIG_PLATFORM_ARM_SUN7I)
++extern int sw_usb_disable_hcd(__u32 usbc_no);
++extern int sw_usb_enable_hcd(__u32 usbc_no);
++extern void wifi_pm_power(int on);
++static script_item_u item;
++#endif
++
++#ifdef CONFIG_PLATFORM_ARM_SUN8I
++extern int sunxi_usb_disable_hcd(__u32 usbc_no);
++extern int sunxi_usb_enable_hcd(__u32 usbc_no);
++extern void wifi_pm_power(int on);
++static script_item_u item;
++#endif
++
++
++int platform_wifi_power_on(void)
++{
++	int ret = 0;
++
++#ifdef CONFIG_PLATFORM_ARM_SUNxI
++#ifndef CONFIG_RTL8723A
++	{
++		/* ----------get usb_wifi_usbc_num------------- */
++		ret = script_parser_fetch("usb_wifi_para", "usb_wifi_usbc_num", (int *)&usb_wifi_host, 64);
++		if (ret != 0) {
++			RTW_INFO("ERR: script_parser_fetch usb_wifi_usbc_num failed\n");
++			ret = -ENOMEM;
++			goto exit;
++		}
++		RTW_INFO("sw_usb_enable_hcd: usbc_num = %d\n", usb_wifi_host);
++		sw_usb_enable_hcd(usb_wifi_host);
++	}
++#endif /* CONFIG_RTL8723A */
++#endif /* CONFIG_PLATFORM_ARM_SUNxI */
++
++#if defined(CONFIG_PLATFORM_ARM_SUN6I) || defined(CONFIG_PLATFORM_ARM_SUN7I)
++	{
++		script_item_value_type_e type;
++
++		type = script_get_item("wifi_para", "wifi_usbc_id", &item);
++		if (SCIRPT_ITEM_VALUE_TYPE_INT != type) {
++			printk("ERR: script_get_item wifi_usbc_id failed\n");
++			ret = -ENOMEM;
++			goto exit;
++		}
++
++		printk("sw_usb_enable_hcd: usbc_num = %d\n", item.val);
++		wifi_pm_power(1);
++		mdelay(10);
++
++#if !(defined(CONFIG_RTL8723A)) && !(defined(CONFIG_RTL8723B))
++		sw_usb_enable_hcd(item.val);
++#endif
++	}
++#endif /* defined(CONFIG_PLATFORM_ARM_SUN6I) || defined(CONFIG_PLATFORM_ARM_SUN7I) */
++
++#if defined(CONFIG_PLATFORM_ARM_SUN8I)
++	{
++		script_item_value_type_e type;
++
++		type = script_get_item("wifi_para", "wifi_usbc_id", &item);
++		if (SCIRPT_ITEM_VALUE_TYPE_INT != type) {
++			printk("ERR: script_get_item wifi_usbc_id failed\n");
++			ret = -ENOMEM;
++			goto exit;
++		}
++
++		printk("sw_usb_enable_hcd: usbc_num = %d\n", item.val);
++		wifi_pm_power(1);
++		mdelay(10);
++
++#if !(defined(CONFIG_RTL8723A)) && !(defined(CONFIG_RTL8723B))
++		sunxi_usb_enable_hcd(item.val);
++#endif
++	}
++#endif /* CONFIG_PLATFORM_ARM_SUN8I */
++
++exit:
++	return ret;
++}
++
++void platform_wifi_power_off(void)
++{
++
++#ifdef CONFIG_PLATFORM_ARM_SUNxI
++#ifndef CONFIG_RTL8723A
++	RTW_INFO("sw_usb_disable_hcd: usbc_num = %d\n", usb_wifi_host);
++	sw_usb_disable_hcd(usb_wifi_host);
++#endif /* ifndef CONFIG_RTL8723A */
++#endif /* CONFIG_PLATFORM_ARM_SUNxI */
++
++#if defined(CONFIG_PLATFORM_ARM_SUN6I) || defined(CONFIG_PLATFORM_ARM_SUN7I)
++	#if !(defined(CONFIG_RTL8723A)) && !(defined(CONFIG_RTL8723B))
++	sw_usb_disable_hcd(item.val);
++	#endif
++	wifi_pm_power(0);
++#endif /* defined(CONFIG_PLATFORM_ARM_SUN6I) || defined(CONFIG_PLATFORM_ARM_SUN7I) */
++
++#if defined(CONFIG_PLATFORM_ARM_SUN8I)
++	#if !(defined(CONFIG_RTL8723A)) && !(defined(CONFIG_RTL8723B))
++	sunxi_usb_disable_hcd(item.val);
++	#endif
++	wifi_pm_power(0);
++#endif /* defined(CONFIG_PLATFORM_ARM_SUN8I) */
++
++}
+diff --git a/drivers/net/wireless/rtl8723du/platform/platform_ARM_WMT_sdio.c b/drivers/net/wireless/rtl8723du/platform/platform_ARM_WMT_sdio.c
+new file mode 100644
+index 0000000..159a5ac
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/platform/platform_ARM_WMT_sdio.c
+@@ -0,0 +1,51 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#include <drv_types.h>
++#include <mach/wmt_iomux.h>
++#include <linux/gpio.h>
++
++extern void wmt_detect_sdio2(void);
++extern void force_remove_sdio2(void);
++
++int platform_wifi_power_on(void)
++{
++	int err = 0;
++	err = gpio_request(WMT_PIN_GP62_SUSGPIO1, "wifi_chip_en");
++	if (err < 0) {
++		printk("request gpio for rtl8188eu failed!\n");
++		return err;
++	}
++	gpio_direction_output(WMT_PIN_GP62_SUSGPIO1, 0);/* pull sus_gpio1 to 0 to open vcc_wifi. */
++	printk("power on rtl8189.\n");
++	msleep(500);
++	wmt_detect_sdio2();
++	printk("[rtl8189es] %s: new card, power on.\n", __FUNCTION__);
++	return err;
++}
++
++void platform_wifi_power_off(void)
++{
++	force_remove_sdio2();
++
++	gpio_direction_output(WMT_PIN_GP62_SUSGPIO1, 1);/* pull sus_gpio1 to 1 to close vcc_wifi. */
++	printk("power off rtl8189.\n");
++	gpio_free(WMT_PIN_GP62_SUSGPIO1);
++	printk("[rtl8189es] %s: remove card, power off.\n", __FUNCTION__);
++}
+diff --git a/drivers/net/wireless/rtl8723du/platform/platform_RTK_DMP_usb.c b/drivers/net/wireless/rtl8723du/platform/platform_RTK_DMP_usb.c
+new file mode 100644
+index 0000000..af845f7
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/platform/platform_RTK_DMP_usb.c
+@@ -0,0 +1,35 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#include <drv_types.h>
++
++int platform_wifi_power_on(void)
++{
++	int ret = 0;
++	u32 tmp;
++	tmp = readl((volatile unsigned int *)0xb801a608);
++	tmp &= 0xffffff00;
++	tmp |= 0x55;
++	writel(tmp, (volatile unsigned int *)0xb801a608); /* write dummy register for 1055 */
++	return ret;
++}
++
++void platform_wifi_power_off(void)
++{
++}
+diff --git a/drivers/net/wireless/rtl8723du/platform/platform_arm_act_sdio.c b/drivers/net/wireless/rtl8723du/platform/platform_arm_act_sdio.c
+new file mode 100644
+index 0000000..539bb17
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/platform/platform_arm_act_sdio.c
+@@ -0,0 +1,58 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*
++ * Description:
++ *	This file can be applied to following platforms:
++ *    CONFIG_PLATFORM_ACTIONS_ATM703X
++ */
++#include <drv_types.h>
++
++#ifdef CONFIG_PLATFORM_ACTIONS_ATM705X
++extern int acts_wifi_init(void);
++extern void acts_wifi_cleanup(void);
++#endif
++
++/*
++ * Return:
++ *	0:	power on successfully
++ *	others: power on failed
++ */
++int platform_wifi_power_on(void)
++{
++	int ret = 0;
++
++#ifdef CONFIG_PLATFORM_ACTIONS_ATM705X
++	ret = acts_wifi_init();
++	if (unlikely(ret < 0)) {
++		pr_err("%s Failed to register the power control driver.\n", __FUNCTION__);
++		goto exit;
++	}
++#endif
++
++exit:
++	return ret;
++}
++
++void platform_wifi_power_off(void)
++{
++#ifdef CONFIG_PLATFORM_ACTIONS_ATM705X
++	acts_wifi_cleanup();
++#endif
++}
+diff --git a/drivers/net/wireless/rtl8723du/platform/platform_ops.c b/drivers/net/wireless/rtl8723du/platform/platform_ops.c
+new file mode 100644
+index 0000000..95da669
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/platform/platform_ops.c
+@@ -0,0 +1,37 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef CONFIG_PLATFORM_OPS
++/*
++ * Return:
++ *	0:	power on successfully
++ *	others: power on failed
++ */
++int platform_wifi_power_on(void)
++{
++	int ret = 0;
++
++
++	return ret;
++}
++
++void platform_wifi_power_off(void)
++{
++}
++#endif /* !CONFIG_PLATFORM_OPS */
+diff --git a/drivers/net/wireless/rtl8723du/platform/platform_ops.h b/drivers/net/wireless/rtl8723du/platform/platform_ops.h
+new file mode 100644
+index 0000000..b8314bb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/platform/platform_ops.h
+@@ -0,0 +1,31 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __PLATFORM_OPS_H__
++#define __PLATFORM_OPS_H__
++
++/*
++ * Return:
++ *	0:	power on successfully
++ *	others: power on failed
++ */
++int platform_wifi_power_on(void);
++void platform_wifi_power_off(void);
++
++#endif /* __PLATFORM_OPS_H__ */
+diff --git a/drivers/net/wireless/rtl8723du/platform/platform_sprd_sdio.c b/drivers/net/wireless/rtl8723du/platform/platform_sprd_sdio.c
+new file mode 100644
+index 0000000..c5ffd14
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/platform/platform_sprd_sdio.c
+@@ -0,0 +1,89 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#include <drv_types.h>
++
++extern void sdhci_bus_scan(void);
++#ifndef ANDROID_2X
++extern int sdhci_device_attached(void);
++#endif
++
++/*
++ * Return:
++ *	0:	power on successfully
++ *	others:	power on failed
++ */
++int platform_wifi_power_on(void)
++{
++	int ret = 0;
++
++
++#ifdef CONFIG_RTL8188E
++	rtw_wifi_gpio_wlan_ctrl(WLAN_POWER_ON);
++#endif /* CONFIG_RTL8188E */
++
++	/* Pull up pwd pin, make wifi leave power down mode. */
++	rtw_wifi_gpio_init();
++	rtw_wifi_gpio_wlan_ctrl(WLAN_PWDN_ON);
++
++#if (MP_DRIVER == 1) && (defined(CONFIG_RTL8723A) || defined(CONFIG_RTL8723B))
++	/* Pull up BT reset pin. */
++	rtw_wifi_gpio_wlan_ctrl(WLAN_BT_PWDN_ON);
++#endif
++	rtw_mdelay_os(5);
++
++	sdhci_bus_scan();
++#ifdef CONFIG_RTL8723B
++	/* YJ,test,130305 */
++	rtw_mdelay_os(1000);
++#endif
++#ifdef ANDROID_2X
++	rtw_mdelay_os(200);
++#else /* !ANDROID_2X */
++	if (1) {
++		int i = 0;
++
++		for (i = 0; i <= 50; i++) {
++			msleep(10);
++			if (sdhci_device_attached())
++				break;
++			printk("%s delay times:%d\n", __func__, i);
++		}
++	}
++#endif /* !ANDROID_2X */
++
++	return ret;
++}
++
++void platform_wifi_power_off(void)
++{
++	/* Pull down pwd pin, make wifi enter power down mode. */
++	rtw_wifi_gpio_wlan_ctrl(WLAN_PWDN_OFF);
++	rtw_mdelay_os(5);
++	rtw_wifi_gpio_deinit();
++
++#ifdef CONFIG_RTL8188E
++	rtw_wifi_gpio_wlan_ctrl(WLAN_POWER_OFF);
++#endif /* CONFIG_RTL8188E */
++
++#ifdef CONFIG_WOWLAN
++	if (mmc_host)
++		mmc_host->pm_flags &= ~MMC_PM_KEEP_POWER;
++#endif /* CONFIG_WOWLAN */
++}
+diff --git a/drivers/net/wireless/rtl8723du/runwpa b/drivers/net/wireless/rtl8723du/runwpa
+new file mode 100644
+index 0000000..f825e8b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/runwpa
+@@ -0,0 +1,20 @@
++#!/bin/bash
++
++if [ "`which iwconfig`" = "" ] ; then 
++	echo "WARNING:Wireless tool not exist!"
++	echo "        Please install it!"
++	exit
++else
++	if [ `uname -r | cut -d. -f2` -eq 4 ]; then
++		wpa_supplicant -D ipw -c wpa1.conf -i wlan0	
++	else
++	if [ `iwconfig -v |awk '{print $4}' | head -n 1` -lt  18 ] ; then
++		wpa_supplicant -D ipw -c wpa1.conf -i wlan0  
++	else	  
++		wpa_supplicant -D wext -c wpa1.conf -i wlan0 
++	fi
++
++	fi
++fi
++
++
+diff --git a/drivers/net/wireless/rtl8723du/wlan0dhcp b/drivers/net/wireless/rtl8723du/wlan0dhcp
+new file mode 100644
+index 0000000..6043382
+--- /dev/null
++++ b/drivers/net/wireless/rtl8723du/wlan0dhcp
+@@ -0,0 +1,16 @@
++#!/bin/bash
++
++var0=`ps aux|awk '/dhclient wlan0/'|awk '$11!="awk"{print $2}'`
++
++kill $var0
++cp ifcfg-wlan0 /etc/sysconfig/network-scripts/
++
++dhclient wlan0
++
++var1=`ifconfig wlan0 |awk '/inet/{print $2}'|awk -F: '{print $2}'`
++
++
++rm -f /etc/sysconfig/network-scripts/ifcfg-wlan0
++
++echo "get ip: $var1"
++
+diff --git a/drivers/net/wireless/rtl8812au/Kconfig b/drivers/net/wireless/rtl8812au/Kconfig
+new file mode 100644
+index 0000000..f87653d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/Kconfig
+@@ -0,0 +1,6 @@
++config RTL8812AU
++	tristate "Realtek 8812A USB WiFi"
++	depends on USB
++	---help---
++	  Help message of RTL8812AU
++
+diff --git a/drivers/net/wireless/rtl8812au/Makefile b/drivers/net/wireless/rtl8812au/Makefile
+new file mode 100755
+index 0000000..c764203
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/Makefile
+@@ -0,0 +1,1873 @@
++EXTRA_CFLAGS += $(USER_EXTRA_CFLAGS)
++EXTRA_CFLAGS += -O1
++#EXTRA_CFLAGS += -O3
++#EXTRA_CFLAGS += -Wall
++#EXTRA_CFLAGS += -Wextra
++#EXTRA_CFLAGS += -Werror
++#EXTRA_CFLAGS += -pedantic
++#EXTRA_CFLAGS += -Wshadow -Wpointer-arith -Wcast-qual -Wstrict-prototypes -Wmissing-prototypes
++
++EXTRA_CFLAGS += -Wno-unused-variable
++EXTRA_CFLAGS += -Wno-unused-value
++EXTRA_CFLAGS += -Wno-unused-label
++EXTRA_CFLAGS += -Wno-unused-parameter
++EXTRA_CFLAGS += -Wno-unused-function
++EXTRA_CFLAGS += -Wno-unused
++#EXTRA_CFLAGS += -Wno-uninitialized
++#EXTRA_CFLAGS += -Wno-error=date-time	# Fix compile error on gcc 4.9 and later
++
++EXTRA_CFLAGS += -I$(src)/include
++EXTRA_CFLAGS += -I$(src)/hal/phydm
++
++EXTRA_LDFLAGS += --strip-debug
++
++CONFIG_AUTOCFG_CP = n
++
++########################## WIFI IC ############################
++CONFIG_MULTIDRV = n
++CONFIG_RTL8188E = n
++CONFIG_RTL8812A = y
++CONFIG_RTL8821A = n
++CONFIG_RTL8192E = n
++CONFIG_RTL8723B = n
++CONFIG_RTL8814A = n
++CONFIG_RTL8723C = n
++CONFIG_RTL8188F = n
++CONFIG_RTL8822B = n
++CONFIG_RTL8723D = n
++CONFIG_RTL8821C = n
++######################### Interface ###########################
++CONFIG_USB_HCI = y
++CONFIG_PCI_HCI = n
++CONFIG_SDIO_HCI = n
++CONFIG_GSPI_HCI = n
++########################## Features ###########################
++CONFIG_MP_INCLUDED = y
++CONFIG_POWER_SAVING = y
++CONFIG_USB_AUTOSUSPEND = n
++CONFIG_HW_PWRP_DETECTION = n
++CONFIG_WIFI_TEST = n
++CONFIG_BT_COEXIST = n
++CONFIG_INTEL_WIDI = n
++CONFIG_WAPI_SUPPORT = n
++CONFIG_EFUSE_CONFIG_FILE = y
++CONFIG_EXT_CLK = n
++CONFIG_TRAFFIC_PROTECT = y
++CONFIG_LOAD_PHY_PARA_FROM_FILE = y
++CONFIG_CALIBRATE_TX_POWER_BY_REGULATORY = n
++CONFIG_CALIBRATE_TX_POWER_TO_MAX = n
++CONFIG_RTW_ADAPTIVITY_EN = disable
++CONFIG_RTW_ADAPTIVITY_MODE = normal
++CONFIG_SIGNAL_SCALE_MAPPING = n
++CONFIG_80211W = n
++CONFIG_REDUCE_TX_CPU_LOADING = n
++CONFIG_BR_EXT = y
++CONFIG_TDLS = n
++CONFIG_WIFI_MONITOR = y
++CONFIG_MCC_MODE = n
++CONFIG_APPEND_VENDOR_IE_ENABLE = n
++########################## Debug ###########################
++CONFIG_RTW_DEBUG = n
++# default log level is _DRV_INFO_ = 4,
++# please refer to "How_to_set_driver_debug_log_level.doc" to set the available level.
++CONFIG_RTW_LOG_LEVEL = 4
++######################## Wake On Lan ##########################
++CONFIG_WOWLAN = n
++CONFIG_GPIO_WAKEUP = n
++CONFIG_DEFAULT_PATTERNS_EN = n
++CONFIG_WAKEUP_GPIO_IDX = default
++CONFIG_HIGH_ACTIVE = n
++CONFIG_PNO_SUPPORT = n
++CONFIG_PNO_SET_DEBUG = n
++CONFIG_AP_WOWLAN = n
++######### Notify SDIO Host Keep Power During Syspend ##########
++CONFIG_RTW_SDIO_PM_KEEP_POWER = y
++###################### MP HW TX MODE FOR VHT #######################
++CONFIG_MP_VHT_HW_TX_MODE = n
++###################### Platform Related #######################
++CONFIG_PLATFORM_I386_PC = y
++CONFIG_PLATFORM_ANDROID_X86 = n
++CONFIG_PLATFORM_ANDROID_INTEL_X86 = n
++CONFIG_PLATFORM_JB_X86 = n
++CONFIG_PLATFORM_ARM_S3C2K4 = n
++CONFIG_PLATFORM_ARM_PXA2XX = n
++CONFIG_PLATFORM_ARM_S3C6K4 = n
++CONFIG_PLATFORM_MIPS_RMI = n
++CONFIG_PLATFORM_RTD2880B = n
++CONFIG_PLATFORM_MIPS_AR9132 = n
++CONFIG_PLATFORM_RTK_DMP = n
++CONFIG_PLATFORM_MIPS_PLM = n
++CONFIG_PLATFORM_MSTAR389 = n
++CONFIG_PLATFORM_MT53XX = n
++CONFIG_PLATFORM_ARM_MX51_241H = n
++CONFIG_PLATFORM_FS_MX61 = n
++CONFIG_PLATFORM_ACTIONS_ATJ227X = n
++CONFIG_PLATFORM_TEGRA3_CARDHU = n
++CONFIG_PLATFORM_TEGRA4_DALMORE = n
++CONFIG_PLATFORM_ARM_TCC8900 = n
++CONFIG_PLATFORM_ARM_TCC8920 = n
++CONFIG_PLATFORM_ARM_TCC8920_JB42 = n
++CONFIG_PLATFORM_ARM_TCC8930_JB42 = n
++CONFIG_PLATFORM_ARM_RK2818 = n
++CONFIG_PLATFORM_ARM_RK3066 = n
++CONFIG_PLATFORM_ARM_RK3188 = n
++CONFIG_PLATFORM_ARM_URBETTER = n
++CONFIG_PLATFORM_ARM_TI_PANDA = n
++CONFIG_PLATFORM_MIPS_JZ4760 = n
++CONFIG_PLATFORM_DMP_PHILIPS = n
++CONFIG_PLATFORM_MSTAR_TITANIA12 = n
++CONFIG_PLATFORM_MSTAR = n
++CONFIG_PLATFORM_SZEBOOK = n
++CONFIG_PLATFORM_ARM_SUNxI = n
++CONFIG_PLATFORM_ARM_SUN6I = n
++CONFIG_PLATFORM_ARM_SUN7I = n
++CONFIG_PLATFORM_ARM_SUN8I_W3P1 = n
++CONFIG_PLATFORM_ARM_SUN8I_W5P1 = n
++CONFIG_PLATFORM_ACTIONS_ATM702X = n
++CONFIG_PLATFORM_ACTIONS_ATV5201 = n
++CONFIG_PLATFORM_ACTIONS_ATM705X = n
++CONFIG_PLATFORM_ARM_SUN50IW1P1 = n
++CONFIG_PLATFORM_ARM_RTD299X = n
++CONFIG_PLATFORM_ARM_SPREADTRUM_6820 = n
++CONFIG_PLATFORM_ARM_SPREADTRUM_8810 = n
++CONFIG_PLATFORM_ARM_WMT = n
++CONFIG_PLATFORM_TI_DM365 = n
++CONFIG_PLATFORM_MOZART = n
++CONFIG_PLATFORM_RTK119X = n
++CONFIG_PLATFORM_RTK129X = n
++CONFIG_PLATFORM_NOVATEK_NT72668 = n
++CONFIG_PLATFORM_HISILICON = n
++###############################################################
++
++CONFIG_DRVEXT_MODULE = n
++
++export TopDIR ?= $(shell pwd)
++
++########### COMMON  #################################
++ifeq ($(CONFIG_GSPI_HCI), y)
++HCI_NAME = gspi
++endif
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++HCI_NAME = sdio
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++HCI_NAME = usb
++endif
++
++ifeq ($(CONFIG_PCI_HCI), y)
++HCI_NAME = pci
++endif
++
++
++_OS_INTFS_FILES :=	os_dep/osdep_service.o \
++			os_dep/linux/os_intfs.o \
++			os_dep/linux/$(HCI_NAME)_intf.o \
++			os_dep/linux/$(HCI_NAME)_ops_linux.o \
++			os_dep/linux/ioctl_linux.o \
++			os_dep/linux/xmit_linux.o \
++			os_dep/linux/mlme_linux.o \
++			os_dep/linux/recv_linux.o \
++			os_dep/linux/ioctl_cfg80211.o \
++			os_dep/linux/rtw_cfgvendor.o \
++			os_dep/linux/wifi_regd.o \
++			os_dep/linux/rtw_android.o \
++			os_dep/linux/rtw_proc.o
++
++ifeq ($(CONFIG_MP_INCLUDED), y)
++_OS_INTFS_FILES += os_dep/linux/ioctl_mp.o
++endif
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++_OS_INTFS_FILES += os_dep/linux/custom_gpio_linux.o
++_OS_INTFS_FILES += os_dep/linux/$(HCI_NAME)_ops_linux.o
++endif
++
++ifeq ($(CONFIG_GSPI_HCI), y)
++_OS_INTFS_FILES += os_dep/linux/custom_gpio_linux.o
++_OS_INTFS_FILES += os_dep/linux/$(HCI_NAME)_ops_linux.o
++endif
++
++
++_HAL_INTFS_FILES :=	hal/hal_intf.o \
++			hal/hal_com.o \
++			hal/hal_com_phycfg.o \
++			hal/hal_phy.o \
++			hal/hal_dm.o \
++			hal/hal_btcoex.o \
++			hal/hal_mp.o \
++			hal/hal_mcc.o \
++			hal/hal_hci/hal_$(HCI_NAME).o \
++			hal/led/hal_$(HCI_NAME)_led.o
++
++			
++_OUTSRC_FILES := hal/phydm/phydm_debug.o	\
++		hal/phydm/phydm_antdiv.o\
++		hal/phydm/phydm_antdect.o\
++		hal/phydm/phydm_interface.o\
++		hal/phydm/phydm_hwconfig.o\
++		hal/phydm/phydm.o\
++		hal/phydm/halphyrf_ce.o\
++		hal/phydm/phydm_edcaturbocheck.o\
++		hal/phydm/phydm_dig.o\
++		hal/phydm/phydm_pathdiv.o\
++		hal/phydm/phydm_rainfo.o\
++		hal/phydm/phydm_dynamicbbpowersaving.o\
++		hal/phydm/phydm_powertracking_ce.o\
++		hal/phydm/phydm_dynamictxpower.o\
++		hal/phydm/phydm_adaptivity.o\
++		hal/phydm/phydm_cfotracking.o\
++		hal/phydm/phydm_noisemonitor.o\
++		hal/phydm/phydm_acs.o\
++		hal/phydm/phydm_beamforming.o\
++		hal/phydm/phydm_dfs.o\
++		hal/phydm/txbf/halcomtxbf.o\
++		hal/phydm/txbf/haltxbfinterface.o\
++		hal/phydm/txbf/phydm_hal_txbf_api.o\
++		hal/phydm/phydm_kfree.o\
++		hal/phydm/phydm_ccx.o
++
++
++EXTRA_CFLAGS += -I$(src)/platform
++_PLATFORM_FILES := platform/platform_ops.o
++
++ifeq ($(CONFIG_BT_COEXIST), y)
++EXTRA_CFLAGS += -I$(src)/hal/btc
++_OUTSRC_FILES += hal/btc/HalBtc8192e1Ant.o \
++				hal/btc/HalBtc8192e2Ant.o \
++				hal/btc/HalBtc8723b1Ant.o \
++				hal/btc/HalBtc8723b2Ant.o \
++				hal/btc/HalBtc8812a1Ant.o \
++				hal/btc/HalBtc8812a2Ant.o \
++				hal/btc/HalBtc8821a1Ant.o \
++				hal/btc/HalBtc8821a2Ant.o \
++				hal/btc/HalBtc8821aCsr2Ant.o \
++				hal/btc/HalBtc8703b1Ant.o \
++				hal/btc/halbtc8723d1ant.o \
++				hal/btc/halbtc8723d2ant.o \
++				hal/btc/HalBtc8822b1Ant.o \
++				hal/btc/halbtc8821c1ant.o \
++				hal/btc/halbtc8821c2ant.o
++endif
++
++
++########### HAL_RTL8188E #################################
++ifeq ($(CONFIG_RTL8188E), y)
++
++RTL871X = rtl8188e
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME = 8189es
++endif
++
++ifeq ($(CONFIG_GSPI_HCI), y)
++MODULE_NAME = 8189es
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME = 8188eu
++endif
++
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME = 8188ee
++endif
++EXTRA_CFLAGS += -DCONFIG_RTL8188E
++
++_HAL_INTFS_FILES +=	hal/HalPwrSeqCmd.o \
++					hal/$(RTL871X)/Hal8188EPwrSeq.o\
++ 					hal/$(RTL871X)/$(RTL871X)_xmit.o\
++					hal/$(RTL871X)/$(RTL871X)_sreset.o
++
++_HAL_INTFS_FILES +=	hal/$(RTL871X)/$(RTL871X)_hal_init.o \
++			hal/$(RTL871X)/$(RTL871X)_phycfg.o \
++			hal/$(RTL871X)/$(RTL871X)_rf6052.o \
++			hal/$(RTL871X)/$(RTL871X)_dm.o \
++			hal/$(RTL871X)/$(RTL871X)_rxdesc.o \
++			hal/$(RTL871X)/$(RTL871X)_cmd.o \
++			hal/$(RTL871X)/hal8188e_s_fw.o \
++			hal/$(RTL871X)/hal8188e_t_fw.o \
++			hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_halinit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_led.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_xmit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_recv.o
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++else
++ifeq ($(CONFIG_GSPI_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++else
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops_linux.o
++endif
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8188E_USB.o
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8188E_PCIE.o
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8188E_SDIO.o
++endif
++
++#hal/OUTSRC/$(RTL871X)/Hal8188EFWImg_CE.o
++_OUTSRC_FILES += hal/phydm/$(RTL871X)/halhwimg8188e_mac.o\
++		hal/phydm/$(RTL871X)/halhwimg8188e_bb.o\
++		hal/phydm/$(RTL871X)/halhwimg8188e_rf.o\
++		hal/phydm/$(RTL871X)/halhwimg8188e_t_fw.o\
++		hal/phydm/$(RTL871X)/halhwimg8188e_s_fw.o\
++		hal/phydm/$(RTL871X)/halphyrf_8188e_ce.o\
++		hal/phydm/$(RTL871X)/phydm_regconfig8188e.o\
++		hal/phydm/$(RTL871X)/hal8188erateadaptive.o\
++		hal/phydm/$(RTL871X)/phydm_rtl8188e.o
++
++endif
++
++########### HAL_RTL8192E #################################
++ifeq ($(CONFIG_RTL8192E), y)
++
++RTL871X = rtl8192e
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME = 8192es
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME = 8192eu
++endif
++
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME = 8192ee
++endif
++EXTRA_CFLAGS += -DCONFIG_RTL8192E
++_HAL_INTFS_FILES += hal/HalPwrSeqCmd.o \
++					hal/$(RTL871X)/Hal8192EPwrSeq.o\
++					hal/$(RTL871X)/$(RTL871X)_xmit.o\
++					hal/$(RTL871X)/$(RTL871X)_sreset.o
++
++_HAL_INTFS_FILES +=	hal/$(RTL871X)/$(RTL871X)_hal_init.o \
++			hal/$(RTL871X)/$(RTL871X)_phycfg.o \
++			hal/$(RTL871X)/$(RTL871X)_rf6052.o \
++			hal/$(RTL871X)/$(RTL871X)_dm.o \
++			hal/$(RTL871X)/$(RTL871X)_rxdesc.o \
++			hal/$(RTL871X)/$(RTL871X)_cmd.o \
++			hal/$(RTL871X)/hal8192e_fw.o \
++			hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_halinit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_led.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_xmit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_recv.o
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++else
++ifeq ($(CONFIG_GSPI_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++else
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops_linux.o
++endif
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8192E_USB.o
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8192E_PCIE.o
++endif
++
++#hal/OUTSRC/$(RTL871X)/HalHWImg8188E_FW.o
++_OUTSRC_FILES += hal/phydm/$(RTL871X)/halhwimg8192e_mac.o\
++		hal/phydm/$(RTL871X)/halhwimg8192e_bb.o\
++		hal/phydm/$(RTL871X)/halhwimg8192e_rf.o\
++		hal/phydm/$(RTL871X)/halhwimg8192e_fw.o\
++		hal/phydm/$(RTL871X)/halphyrf_8192e_ce.o\
++		hal/phydm/$(RTL871X)/phydm_regconfig8192e.o\
++		hal/phydm/$(RTL871X)/phydm_rtl8192e.o
++
++endif
++
++########### HAL_RTL8812A_RTL8821A #################################
++
++ifneq ($(CONFIG_RTL8812A)_$(CONFIG_RTL8821A), n_n)
++
++RTL871X = rtl8812a
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME = 8812au
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME = 8812ae
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME = 8812as
++endif
++
++_HAL_INTFS_FILES +=  hal/HalPwrSeqCmd.o \
++					hal/$(RTL871X)/Hal8812PwrSeq.o \
++					hal/$(RTL871X)/Hal8821APwrSeq.o\
++					hal/$(RTL871X)/$(RTL871X)_xmit.o\
++					hal/$(RTL871X)/$(RTL871X)_sreset.o
++
++_HAL_INTFS_FILES +=	hal/$(RTL871X)/$(RTL871X)_hal_init.o \
++			hal/$(RTL871X)/$(RTL871X)_phycfg.o \
++			hal/$(RTL871X)/$(RTL871X)_rf6052.o \
++			hal/$(RTL871X)/$(RTL871X)_dm.o \
++			hal/$(RTL871X)/$(RTL871X)_rxdesc.o \
++			hal/$(RTL871X)/$(RTL871X)_cmd.o \
++			hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_halinit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_led.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_xmit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_recv.o
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++else
++ifeq ($(CONFIG_GSPI_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++else
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops_linux.o
++endif
++endif
++
++ifeq ($(CONFIG_RTL8812A), y)
++ifeq ($(CONFIG_USB_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8812A_USB.o
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8812A_PCIE.o
++endif
++endif
++ifeq ($(CONFIG_RTL8821A), y)
++ifeq ($(CONFIG_USB_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8821A_USB.o
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8821A_PCIE.o
++endif
++endif
++
++ifeq ($(CONFIG_RTL8812A), y)
++EXTRA_CFLAGS += -DCONFIG_RTL8812A
++_HAL_INTFS_FILES +=	hal/rtl8812a/hal8812a_fw.o
++
++_OUTSRC_FILES += hal/phydm/$(RTL871X)/halhwimg8812a_fw.o\
++		hal/phydm/$(RTL871X)/halhwimg8812a_mac.o\
++		hal/phydm/$(RTL871X)/halhwimg8812a_bb.o\
++		hal/phydm/$(RTL871X)/halhwimg8812a_rf.o\
++		hal/phydm/$(RTL871X)/halphyrf_8812a_ce.o\
++		hal/phydm/$(RTL871X)/phydm_regconfig8812a.o\
++		hal/phydm/$(RTL871X)/phydm_rtl8812a.o\
++		hal/phydm/txbf/haltxbfjaguar.o
++endif
++
++ifeq ($(CONFIG_RTL8821A), y)
++
++ifeq ($(CONFIG_RTL8812A), n)
++
++RTL871X = rtl8821a
++ifeq ($(CONFIG_USB_HCI), y)
++ifeq ($(CONFIG_BT_COEXIST), y)
++MODULE_NAME := 8821au
++else
++MODULE_NAME := 8811au
++endif
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME := 8821ae
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME := 8821as
++endif
++
++endif
++
++EXTRA_CFLAGS += -DCONFIG_RTL8821A
++
++_HAL_INTFS_FILES +=	hal/rtl8812a/hal8821a_fw.o
++_OUTSRC_FILES += hal/phydm/rtl8821a/halhwimg8821a_fw.o\
++		hal/phydm/rtl8821a/halhwimg8821a_mac.o\
++		hal/phydm/rtl8821a/halhwimg8821a_bb.o\
++		hal/phydm/rtl8821a/halhwimg8821a_rf.o\
++		hal/phydm/rtl8812a/halphyrf_8812a_ce.o\
++		hal/phydm/rtl8821a/halphyrf_8821a_ce.o\
++		hal/phydm/rtl8821a/phydm_regconfig8821a.o\
++		hal/phydm/rtl8821a/phydm_rtl8821a.o\
++		hal/phydm/rtl8821a/phydm_iqk_8821a_ce.o\
++		hal/phydm/txbf/haltxbfjaguar.o
++		
++endif
++
++endif
++
++########### HAL_RTL8723B #################################
++ifeq ($(CONFIG_RTL8723B), y)
++
++RTL871X = rtl8723b
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME = 8723bu
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME = 8723be
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME = 8723bs
++endif
++
++EXTRA_CFLAGS += -DCONFIG_RTL8723B
++
++_HAL_INTFS_FILES += hal/HalPwrSeqCmd.o \
++					hal/$(RTL871X)/Hal8723BPwrSeq.o\
++					hal/$(RTL871X)/$(RTL871X)_sreset.o
++
++_HAL_INTFS_FILES +=	hal/$(RTL871X)/$(RTL871X)_hal_init.o \
++			hal/$(RTL871X)/$(RTL871X)_phycfg.o \
++			hal/$(RTL871X)/$(RTL871X)_rf6052.o \
++			hal/$(RTL871X)/$(RTL871X)_dm.o \
++			hal/$(RTL871X)/$(RTL871X)_rxdesc.o \
++			hal/$(RTL871X)/$(RTL871X)_cmd.o \
++			hal/$(RTL871X)/hal8723b_fw.o
++
++_HAL_INTFS_FILES +=	\
++			hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_halinit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_led.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_xmit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_recv.o
++
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops_linux.o
++else
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8723B_USB.o
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8723B_PCIE.o
++endif
++
++_OUTSRC_FILES += hal/phydm/$(RTL871X)/halhwimg8723b_bb.o\
++								hal/phydm/$(RTL871X)/halhwimg8723b_mac.o\
++								hal/phydm/$(RTL871X)/halhwimg8723b_rf.o\
++								hal/phydm/$(RTL871X)/halhwimg8723b_fw.o\
++								hal/phydm/$(RTL871X)/halhwimg8723b_mp.o\
++								hal/phydm/$(RTL871X)/phydm_regconfig8723b.o\
++								hal/phydm/$(RTL871X)/halphyrf_8723b_ce.o\
++								hal/phydm/$(RTL871X)/phydm_rtl8723b.o
++
++endif
++
++########### HAL_RTL8814A #################################
++ifeq ($(CONFIG_RTL8814A), y)
++## ADD NEW VHT MP HW TX MODE ##
++EXTRA_CFLAGS += -DCONFIG_MP_VHT_HW_TX_MODE
++CONFIG_MP_VHT_HW_TX_MODE = y
++##########################################
++RTL871X = rtl8814a
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME = 8814au
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME = 8814ae
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME = 8814as
++endif
++
++EXTRA_CFLAGS += -DCONFIG_RTL8814A
++
++_HAL_INTFS_FILES +=  hal/HalPwrSeqCmd.o \
++					hal/$(RTL871X)/Hal8814PwrSeq.o \
++					hal/$(RTL871X)/$(RTL871X)_xmit.o\
++					hal/$(RTL871X)/$(RTL871X)_sreset.o
++
++_HAL_INTFS_FILES +=	hal/$(RTL871X)/$(RTL871X)_hal_init.o \
++			hal/$(RTL871X)/$(RTL871X)_phycfg.o \
++			hal/$(RTL871X)/$(RTL871X)_rf6052.o \
++			hal/$(RTL871X)/$(RTL871X)_dm.o \
++			hal/$(RTL871X)/$(RTL871X)_rxdesc.o \
++			hal/$(RTL871X)/$(RTL871X)_cmd.o \
++			hal/$(RTL871X)/hal8814a_fw.o
++
++
++_HAL_INTFS_FILES +=	\
++			hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_halinit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_led.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_xmit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_recv.o
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++else
++ifeq ($(CONFIG_GSPI_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++else
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops_linux.o
++endif
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8814A_USB.o
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8814A_PCIE.o
++endif
++
++_OUTSRC_FILES += hal/phydm/$(RTL871X)/halhwimg8814a_bb.o\
++								hal/phydm/$(RTL871X)/halhwimg8814a_mac.o\
++								hal/phydm/$(RTL871X)/halhwimg8814a_rf.o\
++								hal/phydm/$(RTL871X)/halhwimg8814a_fw.o\
++								hal/phydm/$(RTL871X)/phydm_iqk_8814a.o\
++								hal/phydm/$(RTL871X)/phydm_regconfig8814a.o\
++								hal/phydm/$(RTL871X)/halphyrf_8814a_ce.o\
++								hal/phydm/$(RTL871X)/phydm_rtl8814a.o\
++								hal/phydm/txbf/haltxbf8814a.o
++
++endif
++
++########### HAL_RTL8723C #################################
++ifeq ($(CONFIG_RTL8723C), y)
++
++RTL871X = rtl8703b
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME = 8723cu
++MODULE_SUB_NAME = 8703bu
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME = 8723ce
++MODULE_SUB_NAME = 8703be
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME = 8723cs
++MODULE_SUB_NAME = 8703bs
++endif
++
++EXTRA_CFLAGS += -DCONFIG_RTL8703B
++
++_HAL_INTFS_FILES += hal/HalPwrSeqCmd.o \
++					hal/$(RTL871X)/Hal8703BPwrSeq.o\
++					hal/$(RTL871X)/$(RTL871X)_sreset.o
++
++_HAL_INTFS_FILES +=	hal/$(RTL871X)/$(RTL871X)_hal_init.o \
++			hal/$(RTL871X)/$(RTL871X)_phycfg.o \
++			hal/$(RTL871X)/$(RTL871X)_rf6052.o \
++			hal/$(RTL871X)/$(RTL871X)_dm.o \
++			hal/$(RTL871X)/$(RTL871X)_rxdesc.o \
++			hal/$(RTL871X)/$(RTL871X)_cmd.o \
++			hal/$(RTL871X)/hal8703b_fw.o
++
++_HAL_INTFS_FILES +=	\
++			hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_halinit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_SUB_NAME)_led.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_SUB_NAME)_xmit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_SUB_NAME)_recv.o
++
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops_linux.o
++else
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8703B_USB.o
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8703B_PCIE.o
++endif
++
++_OUTSRC_FILES += hal/phydm/$(RTL871X)/halhwimg8703b_bb.o\
++								hal/phydm/$(RTL871X)/halhwimg8703b_mac.o\
++								hal/phydm/$(RTL871X)/halhwimg8703b_rf.o\
++								hal/phydm/$(RTL871X)/halhwimg8703b_fw.o\
++								hal/phydm/$(RTL871X)/phydm_regconfig8703b.o\
++								hal/phydm/$(RTL871X)/halphyrf_8703b.o
++endif
++
++########### HAL_RTL8723D #################################
++ifeq ($(CONFIG_RTL8723D), y)
++
++RTL871X = rtl8723d
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME = 8723du
++MODULE_SUB_NAME = 8723du
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME = 8723de
++MODULE_SUB_NAME = 8723de
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME = 8723ds
++MODULE_SUB_NAME = 8723ds
++endif
++
++EXTRA_CFLAGS += -DCONFIG_RTL8723D
++
++_HAL_INTFS_FILES += hal/HalPwrSeqCmd.o \
++					hal/$(RTL871X)/Hal8723DPwrSeq.o\
++					hal/$(RTL871X)/$(RTL871X)_sreset.o
++
++_HAL_INTFS_FILES +=	hal/$(RTL871X)/$(RTL871X)_hal_init.o \
++			hal/$(RTL871X)/$(RTL871X)_phycfg.o \
++			hal/$(RTL871X)/$(RTL871X)_rf6052.o \
++			hal/$(RTL871X)/$(RTL871X)_dm.o \
++			hal/$(RTL871X)/$(RTL871X)_rxdesc.o \
++			hal/$(RTL871X)/$(RTL871X)_cmd.o \
++			hal/$(RTL871X)/hal8723d_fw.o \
++			hal/$(RTL871X)/$(RTL871X)_lps_poff.o
++
++
++_HAL_INTFS_FILES +=	\
++			hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_halinit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_SUB_NAME)_led.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_SUB_NAME)_xmit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_SUB_NAME)_recv.o
++
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops_linux.o
++else
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8723D_USB.o
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8723D_PCIE.o
++endif
++
++_OUTSRC_FILES += hal/phydm/$(RTL871X)/halhwimg8723d_bb.o\
++								hal/phydm/$(RTL871X)/halhwimg8723d_mac.o\
++								hal/phydm/$(RTL871X)/halhwimg8723d_rf.o\
++								hal/phydm/$(RTL871X)/halhwimg8723d_fw.o\
++								hal/phydm/$(RTL871X)/phydm_regconfig8723d.o\
++								hal/phydm/$(RTL871X)/phydm_rtl8723d.o\
++								hal/phydm/$(RTL871X)/halphyrf_8723d.o
++endif
++
++########### HAL_RTL8188F #################################
++ifeq ($(CONFIG_RTL8188F), y)
++
++RTL871X = rtl8188f
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME = 8188fu
++endif
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME = 8188fe
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME = 8189fs
++endif
++
++EXTRA_CFLAGS += -DCONFIG_RTL8188F
++
++_HAL_INTFS_FILES += hal/HalPwrSeqCmd.o \
++					hal/$(RTL871X)/Hal8188FPwrSeq.o\
++					hal/$(RTL871X)/$(RTL871X)_sreset.o
++
++_HAL_INTFS_FILES +=	hal/$(RTL871X)/$(RTL871X)_hal_init.o \
++			hal/$(RTL871X)/$(RTL871X)_phycfg.o \
++			hal/$(RTL871X)/$(RTL871X)_rf6052.o \
++			hal/$(RTL871X)/$(RTL871X)_dm.o \
++			hal/$(RTL871X)/$(RTL871X)_rxdesc.o \
++			hal/$(RTL871X)/$(RTL871X)_cmd.o \
++			hal/$(RTL871X)/hal8188f_fw.o
++
++_HAL_INTFS_FILES +=	\
++			hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_halinit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_led.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_xmit.o \
++			hal/$(RTL871X)/$(HCI_NAME)/rtl$(MODULE_NAME)_recv.o
++
++ifeq ($(CONFIG_PCI_HCI), y)
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops_linux.o
++else
++_HAL_INTFS_FILES += hal/$(RTL871X)/$(HCI_NAME)/$(HCI_NAME)_ops.o
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8188F_USB.o
++endif
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++_HAL_INTFS_FILES +=hal/efuse/$(RTL871X)/HalEfuseMask8188F_SDIO.o
++endif
++
++_OUTSRC_FILES += hal/phydm/$(RTL871X)/halhwimg8188f_bb.o\
++								hal/phydm/$(RTL871X)/halhwimg8188f_mac.o\
++								hal/phydm/$(RTL871X)/halhwimg8188f_rf.o\
++								hal/phydm/$(RTL871X)/halhwimg8188f_fw.o\
++								hal/phydm/$(RTL871X)/phydm_regconfig8188f.o\
++								hal/phydm/$(RTL871X)/halphyrf_8188f.o \
++								hal/phydm/$(RTL871X)/phydm_rtl8188f.o
++
++endif
++
++########### HAL_RTL8822B #################################
++ifeq ($(CONFIG_RTL8822B), y)
++include $(TopDIR)/rtl8822b.mk
++endif
++
++########### HAL_RTL8821C #################################
++ifeq ($(CONFIG_RTL8821C), y)
++include $(TopDIR)/rtl8821c.mk
++
++_OUTSRC_FILES +=	hal/phydm/rtl8821c/halhwimg8821c_testchip_bb.o \
++			hal/phydm/rtl8821c/halhwimg8821c_testchip_mac.o \
++			hal/phydm/rtl8821c/halhwimg8821c_testchip_rf.o \
++			hal/phydm/rtl8821c/phydm_hal_api8821c.o \
++			hal/phydm/rtl8821c/phydm_regconfig8821c.o\
++			hal/phydm/rtl8821c/phydm_iqk_8821c.o
++endif
++
++########### AUTO_CFG  #################################
++
++ifeq ($(CONFIG_AUTOCFG_CP), y)
++
++ifeq ($(CONFIG_MULTIDRV), y)
++$(shell cp $(TopDIR)/autoconf_multidrv_$(HCI_NAME)_linux.h $(TopDIR)/include/autoconf.h)
++else
++ifeq ($(CONFIG_RTL8188E)$(CONFIG_SDIO_HCI),yy)
++$(shell cp $(TopDIR)/autoconf_rtl8189e_$(HCI_NAME)_linux.h $(TopDIR)/include/autoconf.h)
++else ifeq ($(CONFIG_RTL8188F)$(CONFIG_SDIO_HCI),yy)
++$(shell cp $(TopDIR)/autoconf_rtl8189f_$(HCI_NAME)_linux.h $(TopDIR)/include/autoconf.h)
++else ifeq ($(CONFIG_RTL8723C),y)
++$(shell cp $(TopDIR)/autoconf_rtl8723c_$(HCI_NAME)_linux.h $(TopDIR)/include/autoconf.h)
++else
++$(shell cp $(TopDIR)/autoconf_$(RTL871X)_$(HCI_NAME)_linux.h $(TopDIR)/include/autoconf.h)
++endif
++endif
++
++endif
++
++########### END OF PATH  #################################
++
++ifeq ($(CONFIG_USB_HCI), y)
++ifeq ($(CONFIG_USB_AUTOSUSPEND), y)
++EXTRA_CFLAGS += -DCONFIG_USB_AUTOSUSPEND
++endif
++endif
++
++ifeq ($(CONFIG_MP_INCLUDED), y)
++#MODULE_NAME := $(MODULE_NAME)_mp
++EXTRA_CFLAGS += -DCONFIG_MP_INCLUDED
++endif
++
++ifeq ($(CONFIG_POWER_SAVING), y)
++EXTRA_CFLAGS += -DCONFIG_POWER_SAVING
++endif
++
++ifeq ($(CONFIG_HW_PWRP_DETECTION), y)
++EXTRA_CFLAGS += -DCONFIG_HW_PWRP_DETECTION
++endif
++
++ifeq ($(CONFIG_WIFI_TEST), y)
++EXTRA_CFLAGS += -DCONFIG_WIFI_TEST
++endif
++
++ifeq ($(CONFIG_BT_COEXIST), y)
++EXTRA_CFLAGS += -DCONFIG_BT_COEXIST
++endif
++
++ifeq ($(CONFIG_INTEL_WIDI), y)
++EXTRA_CFLAGS += -DCONFIG_INTEL_WIDI
++endif
++
++ifeq ($(CONFIG_WAPI_SUPPORT), y)
++EXTRA_CFLAGS += -DCONFIG_WAPI_SUPPORT
++endif
++
++
++ifeq ($(CONFIG_EFUSE_CONFIG_FILE), y)
++EXTRA_CFLAGS += -DCONFIG_EFUSE_CONFIG_FILE
++
++#EFUSE_MAP_PATH
++USER_EFUSE_MAP_PATH ?=
++ifneq ($(USER_EFUSE_MAP_PATH),)
++EXTRA_CFLAGS += -DEFUSE_MAP_PATH=\"$(USER_EFUSE_MAP_PATH)\"
++else ifeq ($(MODULE_NAME), 8189es)
++EXTRA_CFLAGS += -DEFUSE_MAP_PATH=\"/system/etc/wifi/wifi_efuse_8189e.map\"
++else ifeq ($(MODULE_NAME), 8723bs)
++EXTRA_CFLAGS += -DEFUSE_MAP_PATH=\"/system/etc/wifi/wifi_efuse_8723bs.map\"
++else
++EXTRA_CFLAGS += -DEFUSE_MAP_PATH=\"/system/etc/wifi/wifi_efuse_$(MODULE_NAME).map\"
++endif
++
++#WIFIMAC_PATH
++USER_WIFIMAC_PATH ?=
++ifneq ($(USER_WIFIMAC_PATH),)
++EXTRA_CFLAGS += -DWIFIMAC_PATH=\"$(USER_WIFIMAC_PATH)\"
++else
++EXTRA_CFLAGS += -DWIFIMAC_PATH=\"/data/wifimac.txt\"
++endif
++
++endif
++
++ifeq ($(CONFIG_EXT_CLK), y)
++EXTRA_CFLAGS += -DCONFIG_EXT_CLK
++endif
++
++ifeq ($(CONFIG_TRAFFIC_PROTECT), y)
++EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
++endif
++
++ifeq ($(CONFIG_LOAD_PHY_PARA_FROM_FILE), y)
++EXTRA_CFLAGS += -DCONFIG_LOAD_PHY_PARA_FROM_FILE
++#EXTRA_CFLAGS += -DREALTEK_CONFIG_PATH_WITH_IC_NAME_FOLDER
++#EXTRA_CFLAGS += -DREALTEK_CONFIG_PATH=\"/lib/firmware/\"
++EXTRA_CFLAGS += -DREALTEK_CONFIG_PATH=\"\"
++endif
++
++ifeq ($(CONFIG_CALIBRATE_TX_POWER_BY_REGULATORY), y)
++EXTRA_CFLAGS += -DCONFIG_CALIBRATE_TX_POWER_BY_REGULATORY
++endif
++
++ifeq ($(CONFIG_CALIBRATE_TX_POWER_TO_MAX), y)
++EXTRA_CFLAGS += -DCONFIG_CALIBRATE_TX_POWER_TO_MAX
++endif
++
++ifeq ($(CONFIG_RTW_ADAPTIVITY_EN), disable)
++EXTRA_CFLAGS += -DCONFIG_RTW_ADAPTIVITY_EN=0
++else ifeq ($(CONFIG_RTW_ADAPTIVITY_EN), enable)
++EXTRA_CFLAGS += -DCONFIG_RTW_ADAPTIVITY_EN=1
++endif
++
++ifeq ($(CONFIG_RTW_ADAPTIVITY_MODE), normal)
++EXTRA_CFLAGS += -DCONFIG_RTW_ADAPTIVITY_MODE=0
++else ifeq ($(CONFIG_RTW_ADAPTIVITY_MODE), carrier_sense)
++EXTRA_CFLAGS += -DCONFIG_RTW_ADAPTIVITY_MODE=1
++endif
++
++ifeq ($(CONFIG_SIGNAL_SCALE_MAPPING), y)
++EXTRA_CFLAGS += -DCONFIG_SIGNAL_SCALE_MAPPING
++endif
++
++ifeq ($(CONFIG_80211W), y)
++EXTRA_CFLAGS += -DCONFIG_IEEE80211W
++endif
++
++ifeq ($(CONFIG_WOWLAN), y)
++EXTRA_CFLAGS += -DCONFIG_WOWLAN
++ifeq ($(CONFIG_SDIO_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_RTW_SDIO_PM_KEEP_POWER
++endif
++ifeq ($(CONFIG_DEFAULT_PATTERNS_EN), y)
++EXTRA_CFLAGS += -DCONFIG_DEFAULT_PATTERNS_EN
++endif
++endif
++
++ifeq ($(CONFIG_AP_WOWLAN), y)
++EXTRA_CFLAGS += -DCONFIG_AP_WOWLAN
++ifeq ($(CONFIG_SDIO_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_RTW_SDIO_PM_KEEP_POWER
++endif
++endif
++
++ifeq ($(CONFIG_PNO_SUPPORT), y)
++EXTRA_CFLAGS += -DCONFIG_PNO_SUPPORT
++ifeq ($(CONFIG_PNO_SET_DEBUG), y)
++EXTRA_CFLAGS += -DCONFIG_PNO_SET_DEBUG
++endif
++endif
++
++ifeq ($(CONFIG_GPIO_WAKEUP), y)
++EXTRA_CFLAGS += -DCONFIG_GPIO_WAKEUP
++ifeq ($(CONFIG_HIGH_ACTIVE), y)
++EXTRA_CFLAGS += -DHIGH_ACTIVE=1
++else
++EXTRA_CFLAGS += -DHIGH_ACTIVE=0
++endif
++endif
++
++ifneq ($(CONFIG_WAKEUP_GPIO_IDX), default)
++EXTRA_CFLAGS += -DWAKEUP_GPIO_IDX=$(CONFIG_WAKEUP_GPIO_IDX)
++endif
++
++ifeq ($(CONFIG_RTW_SDIO_PM_KEEP_POWER), y)
++ifeq ($(CONFIG_SDIO_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_RTW_SDIO_PM_KEEP_POWER
++endif
++endif
++
++ifeq ($(CONFIG_REDUCE_TX_CPU_LOADING), y)
++EXTRA_CFLAGS += -DCONFIG_REDUCE_TX_CPU_LOADING
++endif
++
++ifeq ($(CONFIG_BR_EXT), y)
++BR_NAME = br0
++EXTRA_CFLAGS += -DCONFIG_BR_EXT
++EXTRA_CFLAGS += '-DCONFIG_BR_EXT_BRNAME="'$(BR_NAME)'"'
++endif
++
++ifeq ($(CONFIG_ANTENNA_DIVERSITY), y)
++EXTRA_CFLAGS += -DCONFIG_ANTENNA_DIVERSITY
++endif
++
++ifeq ($(CONFIG_TDLS), y)
++EXTRA_CFLAGS += -DCONFIG_TDLS
++endif
++
++ifeq ($(CONFIG_WIFI_MONITOR), y)
++EXTRA_CFLAGS += -DCONFIG_WIFI_MONITOR
++endif
++
++ifeq ($(CONFIG_MCC_MODE), y)
++EXTRA_CFLAGS += -DCONFIG_MCC_MODE
++endif
++
++ifeq ($(CONFIG_MP_VHT_HW_TX_MODE), y)
++EXTRA_CFLAGS += -DCONFIG_MP_VHT_HW_TX_MODE
++ifeq ($(CONFIG_PLATFORM_I386_PC), y)
++## For I386 X86 ToolChain use Hardware FLOATING
++EXTRA_CFLAGS += -mhard-float
++else
++## For ARM ToolChain use Hardware FLOATING
++EXTRA_CFLAGS += -mfloat-abi=hard
++endif
++endif
++
++ifeq ($(CONFIG_APPEND_VENDOR_IE_ENABLE), y)
++EXTRA_CFLAGS += -DCONFIG_APPEND_VENDOR_IE_ENABLE
++endif
++
++ifeq ($(CONFIG_RTW_DEBUG), y)
++EXTRA_CFLAGS += -DCONFIG_RTW_DEBUG
++EXTRA_CFLAGS += -DRTW_LOG_LEVEL=$(CONFIG_RTW_LOG_LEVEL)
++endif
++
++EXTRA_CFLAGS += -DDM_ODM_SUPPORT_TYPE=0x04
++
++ifeq ($(CONFIG_PLATFORM_I386_PC), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++SUBARCH := $(shell uname -m | sed -e s/i.86/i386/)
++ARCH ?= $(SUBARCH)
++CROSS_COMPILE ?=
++KVER  := $(shell uname -r)
++KSRC := /lib/modules/$(KVER)/build
++MODDESTDIR := /lib/modules/$(KVER)/kernel/drivers/net/wireless/
++INSTALL_PREFIX :=
++endif
++
++ifeq ($(CONFIG_PLATFORM_ACTIONS_ATM702X), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ANDROID -DCONFIG_PLATFORM_ACTIONS_ATM702X
++#ARCH := arm
++ARCH := $(R_ARCH)
++#CROSS_COMPILE := arm-none-linux-gnueabi-
++CROSS_COMPILE := $(R_CROSS_COMPILE)
++KVER:= 3.4.0
++#KSRC := ../../../../build/out/kernel
++KSRC := $(KERNEL_BUILD_PATH)
++MODULE_NAME :=wlan
++endif
++
++
++ifeq ($(CONFIG_PLATFORM_ACTIONS_ATM705X), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++#EXTRA_CFLAGS += -DRTW_ENABLE_WIFI_CONTROL_FUNC
++# default setting for Android 4.1, 4.2, 4.3, 4.4
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ACTIONS_ATM705X
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++
++# Enable this for Android 5.0
++EXTRA_CFLAGS += -DCONFIG_RADIO_WORK
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++_PLATFORM_FILES += platform/platform_arm_act_sdio.o
++endif
++
++ARCH := arm
++CROSS_COMPILE := /opt/arm-2011.09/bin/arm-none-linux-gnueabi-
++KSRC := /home/android_sdk/Action-semi/705a_android_L/android/kernel
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_SUN50IW1P1), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUN50IW1P1
++EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS += -DCONFIG_RESUME_IN_WORKQUEUE
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++
++# Enable this for Android 5.0
++EXTRA_CFLAGS += -DCONFIG_RADIO_WORK
++
++ifeq ($(CONFIG_USB_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
++_PLATFORM_FILES += platform/platform_ARM_SUNxI_usb.o
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++_PLATFORM_FILES += platform/platform_ARM_SUN50IW1P1_sdio.o
++endif
++
++ARCH := arm64
++# ===Cross compile setting for Android 5.1(64) SDK ===
++CROSS_COMPILE := /home/android_sdk/Allwinner/a64/android-51/lichee/out/sun50iw1p1/android/common/buildroot/external-toolchain/bin/aarch64-linux-gnu-
++KSRC :=/home/android_sdk/Allwinner/a64/android-51/lichee/linux-3.10/
++endif
++
++ifeq ($(CONFIG_PLATFORM_TI_AM3517), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ANDROID -DCONFIG_PLATFORM_SHUTTLE
++CROSS_COMPILE := arm-eabi-
++KSRC := $(shell pwd)/../../../Android/kernel
++ARCH := arm
++endif
++
++ifeq ($(CONFIG_PLATFORM_MSTAR_TITANIA12), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MSTAR -DCONFIG_PLATFORM_MSTAR_TITANIA12
++ARCH:=mips
++CROSS_COMPILE:= /usr/src/Mstar_kernel/mips-4.3/bin/mips-linux-gnu-
++KVER:= 2.6.28.9
++KSRC:= /usr/src/Mstar_kernel/2.6.28.9/
++endif
++
++ifeq ($(CONFIG_PLATFORM_MSTAR), y)
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MSTAR -DCONFIG_USE_USB_BUFFER_ALLOC_TX -DCONFIG_FIX_NR_BULKIN_BUFFER -DCONFIG_PREALLOC_RX_SKB_BUFFER
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_MSTAR_HIGH
++ARCH:=arm
++CROSS_COMPILE:= /usr/src/bin/arm-none-linux-gnueabi-
++KVER:= 3.1.10
++KSRC:= /usr/src/Mstar_kernel/3.1.10/
++endif
++
++ifeq ($(CONFIG_PLATFORM_ANDROID_X86), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++SUBARCH := $(shell uname -m | sed -e s/i.86/i386/)
++ARCH := $(SUBARCH)
++CROSS_COMPILE := /media/DATA-2/android-x86/ics-x86_20120130/prebuilt/linux-x86/toolchain/i686-unknown-linux-gnu-4.2.1/bin/i686-unknown-linux-gnu-
++KSRC := /media/DATA-2/android-x86/ics-x86_20120130/out/target/product/generic_x86/obj/kernel
++MODULE_NAME :=wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ANDROID_INTEL_X86), y)
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ANDROID_INTEL_X86
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_INTEL_BYT
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ANDROID
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS += -DCONFIG_SKIP_SIGNAL_SCALE_MAPPING
++ifeq ($(CONFIG_SDIO_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_RESUME_IN_WORKQUEUE
++endif
++endif
++
++ifeq ($(CONFIG_PLATFORM_JB_X86), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++SUBARCH := $(shell uname -m | sed -e s/i.86/i386/)
++ARCH := $(SUBARCH)
++CROSS_COMPILE := /home/android_sdk/android-x86_JB/prebuilts/gcc/linux-x86/x86/i686-linux-android-4.7/bin/i686-linux-android-
++KSRC := /home/android_sdk/android-x86_JB/out/target/product/x86/obj/kernel/
++MODULE_NAME :=wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_PXA2XX), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH := arm
++CROSS_COMPILE := arm-none-linux-gnueabi-
++KVER  := 2.6.34.1
++KSRC ?= /usr/src/linux-2.6.34.1
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_S3C2K4), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH := arm
++CROSS_COMPILE := arm-linux-
++KVER  := 2.6.24.7_$(ARCH)
++KSRC := /usr/src/kernels/linux-$(KVER)
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_S3C6K4), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH := arm
++CROSS_COMPILE := arm-none-linux-gnueabi-
++KVER  := 2.6.34.1
++KSRC ?= /usr/src/linux-2.6.34.1
++endif
++
++ifeq ($(CONFIG_PLATFORM_RTD2880B), y)
++EXTRA_CFLAGS += -DCONFIG_BIG_ENDIAN -DCONFIG_PLATFORM_RTD2880B
++ARCH:=
++CROSS_COMPILE:=
++KVER:=
++KSRC:=
++endif
++
++ifeq ($(CONFIG_PLATFORM_MIPS_RMI), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH:=mips
++CROSS_COMPILE:=mipsisa32r2-uclibc-
++KVER:=
++KSRC:= /root/work/kernel_realtek
++endif
++
++ifeq ($(CONFIG_PLATFORM_MIPS_PLM), y)
++EXTRA_CFLAGS += -DCONFIG_BIG_ENDIAN
++ARCH:=mips
++CROSS_COMPILE:=mipsisa32r2-uclibc-
++KVER:=
++KSRC:= /root/work/kernel_realtek
++endif
++
++ifeq ($(CONFIG_PLATFORM_MSTAR389), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MSTAR389
++ARCH:=mips
++CROSS_COMPILE:= mips-linux-gnu-
++KVER:= 2.6.28.10
++KSRC:= /home/mstar/mstar_linux/2.6.28.9/
++endif
++
++ifeq ($(CONFIG_PLATFORM_MIPS_AR9132), y)
++EXTRA_CFLAGS += -DCONFIG_BIG_ENDIAN
++ARCH := mips
++CROSS_COMPILE := mips-openwrt-linux-
++KSRC := /home/alex/test_openwrt/tmp/linux-2.6.30.9
++endif
++
++ifeq ($(CONFIG_PLATFORM_DMP_PHILIPS), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DRTK_DMP_PLATFORM
++ARCH := mips
++#CROSS_COMPILE:=/usr/local/msdk-4.3.6-mips-EL-2.6.12.6-0.9.30.3/bin/mipsel-linux-
++CROSS_COMPILE:=/usr/local/toolchain_mipsel/bin/mipsel-linux-
++KSRC ?=/usr/local/Jupiter/linux-2.6.12
++endif
++
++ifeq ($(CONFIG_PLATFORM_RTK_DMP), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DRTK_DMP_PLATFORM  -DCONFIG_WIRELESS_EXT
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++ifeq ($(CONFIG_USB_HCI), y)
++_PLATFORM_FILES += platform/platform_RTK_DMP_usb.o
++endif
++ARCH:=mips
++CROSS_COMPILE:=mipsel-linux-
++KVER:=
++KSRC ?= /usr/src/DMP_Kernel/jupiter/linux-2.6.12
++endif
++
++ifeq ($(CONFIG_PLATFORM_MT53XX), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MT53XX
++ARCH:= arm
++CROSS_COMPILE:= arm11_mtk_le-
++KVER:= 2.6.27
++KSRC?= /proj/mtk00802/BD_Compare/BDP/Dev/BDP_V301/BDP_Linux/linux-2.6.27
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_MX51_241H), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_WISTRON_PLATFORM
++ARCH := arm
++CROSS_COMPILE := /opt/freescale/usr/local/gcc-4.1.2-glibc-2.5-nptl-3/arm-none-linux-gnueabi/bin/arm-none-linux-gnueabi-
++KVER  := 2.6.31
++KSRC ?= /lib/modules/2.6.31-770-g0e46b52/source
++endif
++
++ifeq ($(CONFIG_PLATFORM_FS_MX61), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH := arm
++CROSS_COMPILE := /home/share/CusEnv/FreeScale/arm-eabi-4.4.3/bin/arm-eabi-
++KSRC ?= /home/share/CusEnv/FreeScale/FS_kernel_env
++endif
++
++
++
++ifeq ($(CONFIG_PLATFORM_ACTIONS_ATJ227X), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ACTIONS_ATJ227X
++ARCH := mips
++CROSS_COMPILE := /home/cnsd4/project/actions/tools-2.6.27/bin/mipsel-linux-gnu-
++KVER  := 2.6.27
++KSRC := /home/cnsd4/project/actions/linux-2.6.27.28
++endif
++
++ifeq ($(CONFIG_PLATFORM_TI_DM365), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_TI_DM365
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_RX
++EXTRA_CFLAGS += -DCONFIG_SINGLE_XMIT_BUF -DCONFIG_SINGLE_RECV_BUF
++ARCH := arm
++#CROSS_COMPILE := /home/cnsd4/Appro/mv_pro_5.0/montavista/pro/devkit/arm/v5t_le/bin/arm_v5t_le-
++#KSRC := /home/cnsd4/Appro/mv_pro_5.0/montavista/pro/devkit/lsp/ti-davinci/linux-dm365
++CROSS_COMPILE := /opt/montavista/pro5.0/devkit/arm/v5t_le/bin/arm-linux-
++KSRC:= /home/vivotek/lsp/DM365/kernel_platform/kernel/linux-2.6.18
++KERNELOUTPUT := ${PRODUCTDIR}/tmp
++KVER  := 2.6.18
++endif
++
++ifeq ($(CONFIG_PLATFORM_MOZART), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MOZART
++ARCH := arm
++CROSS_COMPILE := /home/vivotek/lsp/mozart3v2/Mozart3e_Toolchain/build_arm_nofpu/usr/bin/arm-linux-
++KVER  := $(shell uname -r)
++KSRC:= /opt/Vivotek/lsp/mozart3v2/kernel_platform/kernel/mozart_kernel-1.17
++KERNELOUTPUT := /home/pink/sample/ODM/IP8136W-VINT/tmp/kernel
++endif
++
++ifeq ($(CONFIG_PLATFORM_TEGRA3_CARDHU), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DRTW_ENABLE_WIFI_CONTROL_FUNC
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/nvidia/tegra-16r3-partner-android-4.1_20120723/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
++KSRC := /home/android_sdk/nvidia/tegra-16r3-partner-android-4.1_20120723/out/target/product/cardhu/obj/KERNEL
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_TEGRA4_DALMORE), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DRTW_ENABLE_WIFI_CONTROL_FUNC
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/nvidia/tegra-17r9-partner-android-4.2-dalmore_20130131/prebuilts/gcc/linux-x86/arm/arm-eabi-4.6/bin/arm-eabi-
++KSRC := /home/android_sdk/nvidia/tegra-17r9-partner-android-4.2-dalmore_20130131/out/target/product/dalmore/obj/KERNEL
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_TCC8900), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/Telechips/SDK_2304_20110613/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
++KSRC := /home/android_sdk/Telechips/SDK_2304_20110613/kernel
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_TCC8920), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/Telechips/v12.06_r1-tcc-android-4.0.4/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
++KSRC := /home/android_sdk/Telechips/v12.06_r1-tcc-android-4.0.4/kernel
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_TCC8920_JB42), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/Telechips/v13.03_r1-tcc-android-4.2.2_ds_patched/prebuilts/gcc/linux-x86/arm/arm-eabi-4.6/bin/arm-eabi-
++KSRC := /home/android_sdk/Telechips/v13.03_r1-tcc-android-4.2.2_ds_patched/kernel
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_RK2818), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ANDROID -DCONFIG_PLATFORM_ROCKCHIPS
++ARCH := arm
++CROSS_COMPILE := /usr/src/release_fae_version/toolchain/arm-eabi-4.4.0/bin/arm-eabi-
++KSRC := /usr/src/release_fae_version/kernel25_A7_281x
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_RK3188), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ANDROID -DCONFIG_PLATFORM_ROCKCHIPS
++# default setting for Android 4.1, 4.2, 4.3, 4.4
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++# default setting for Power control
++EXTRA_CFLAGS += -DRTW_ENABLE_WIFI_CONTROL_FUNC
++EXTRA_CFLAGS += -DRTW_SUPPORT_PLATFORM_SHUTDOWN
++# default setting for Special function
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/Rockchip/Rk3188/prebuilts/gcc/linux-x86/arm/arm-eabi-4.6/bin/arm-eabi-
++KSRC := /home/android_sdk/Rockchip/Rk3188/kernel
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_RK3066), y)
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_RK3066
++EXTRA_CFLAGS += -DRTW_ENABLE_WIFI_CONTROL_FUNC
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211
++ifeq ($(CONFIG_SDIO_HCI), y)
++EXTRA_CFLAGS += -DRTW_SUPPORT_PLATFORM_SHUTDOWN
++endif
++EXTRA_CFLAGS += -fno-pic
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/Rockchip/rk3066_20130607/prebuilts/gcc/linux-x86/arm/arm-linux-androideabi-4.6/bin/arm-linux-androideabi-
++#CROSS_COMPILE := /home/android_sdk/Rockchip/Rk3066sdk/prebuilts/gcc/linux-x86/arm/arm-linux-androideabi-4.6/bin/arm-linux-androideabi-
++KSRC := /home/android_sdk/Rockchip/Rk3066sdk/kernel
++MODULE_NAME :=wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_URBETTER), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN #-DCONFIG_MINIMAL_MEMORY_USAGE
++ARCH := arm
++CROSS_COMPILE := /media/DATA-1/urbetter/arm-2009q3/bin/arm-none-linux-gnueabi-
++KSRC := /media/DATA-1/urbetter/ics-urbetter/kernel
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_TI_PANDA), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN #-DCONFIG_MINIMAL_MEMORY_USAGE
++ARCH := arm
++#CROSS_COMPILE := /media/DATA-1/aosp/ics-aosp_20111227/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
++#KSRC := /media/DATA-1/aosp/android-omap-panda-3.0_20120104
++CROSS_COMPILE := /media/DATA-1/android-4.0/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi-
++KSRC := /media/DATA-1/android-4.0/panda_kernel/omap
++MODULE_NAME := wlan
++endif
++
++ifeq ($(CONFIG_PLATFORM_MIPS_JZ4760), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_MINIMAL_MEMORY_USAGE
++ARCH ?= mips
++CROSS_COMPILE ?= /mnt/sdb5/Ingenic/Umido/mips-4.3/bin/mips-linux-gnu-
++KSRC ?= /mnt/sdb5/Ingenic/Umido/kernel
++endif
++
++ifeq ($(CONFIG_PLATFORM_SZEBOOK), y)
++EXTRA_CFLAGS += -DCONFIG_BIG_ENDIAN
++ARCH:=arm
++CROSS_COMPILE:=/opt/crosstool2/bin/armeb-unknown-linux-gnueabi-
++KVER:= 2.6.31.6
++KSRC:= ../code/linux-2.6.31.6-2020/
++endif
++
++#Add setting for MN10300
++ifeq ($(CONFIG_PLATFORM_MN10300), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_MN10300
++ARCH := mn10300
++CROSS_COMPILE := mn10300-linux-
++KVER := 2.6.32.2
++KSRC := /home/winuser/work/Plat_sLD2T_V3010/usr/src/linux-2.6.32.2
++INSTALL_PREFIX :=
++endif
++
++
++ifeq ($(CONFIG_PLATFORM_ARM_SUNxI), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUNxI
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++ifeq ($(CONFIG_USB_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
++_PLATFORM_FILES += platform/platform_ARM_SUNxI_usb.o
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++# default setting for A10-EVB mmc0
++#EXTRA_CFLAGS += -DCONFIG_WITS_EVB_V13
++_PLATFORM_FILES += platform/platform_ARM_SUNxI_sdio.o
++endif
++
++ARCH := arm
++#CROSS_COMPILE := arm-none-linux-gnueabi-
++CROSS_COMPILE=/home/android_sdk/Allwinner/a10/android-jb42/lichee-jb42/buildroot/output/external-toolchain/bin/arm-none-linux-gnueabi-
++KVER  := 3.0.8
++#KSRC:= ../lichee/linux-3.0/
++KSRC=/home/android_sdk/Allwinner/a10/android-jb42/lichee-jb42/linux-3.0
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_SUN6I), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUN6I
++EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
++# default setting for Android 4.1, 4.2, 4.3, 4.4
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS +=  -DCONFIG_QOS_OPTIMIZATION
++
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++ifeq ($(CONFIG_USB_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
++_PLATFORM_FILES += platform/platform_ARM_SUNxI_usb.o
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++# default setting for A31-EVB mmc0
++EXTRA_CFLAGS += -DCONFIG_A31_EVB
++_PLATFORM_FILES += platform/platform_ARM_SUNnI_sdio.o
++endif
++
++ARCH := arm
++#Android-JB42
++#CROSS_COMPILE := /home/android_sdk/Allwinner/a31/android-jb42/lichee/buildroot/output/external-toolchain/bin/arm-linux-gnueabi-
++#KSRC :=/home/android_sdk/Allwinner/a31/android-jb42/lichee/linux-3.3
++#ifeq ($(CONFIG_USB_HCI), y)
++#MODULE_NAME := 8188eu_sw
++#endif
++# ==== Cross compile setting for kitkat-a3x_v4.5 =====
++CROSS_COMPILE := /home/android_sdk/Allwinner/a31/kitkat-a3x_v4.5/lichee/buildroot/output/external-toolchain/bin/arm-linux-gnueabi-
++KSRC :=/home/android_sdk/Allwinner/a31/kitkat-a3x_v4.5/lichee/linux-3.3
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_SUN7I), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUN7I
++EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
++# default setting for Android 4.1, 4.2, 4.3, 4.4
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS +=  -DCONFIG_QOS_OPTIMIZATION
++
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++ifeq ($(CONFIG_USB_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
++_PLATFORM_FILES += platform/platform_ARM_SUNxI_usb.o
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++_PLATFORM_FILES += platform/platform_ARM_SUNnI_sdio.o
++endif
++
++ARCH := arm
++# ===Cross compile setting for Android 4.2 SDK ===
++#CROSS_COMPILE := /home/android_sdk/Allwinner/a20_evb/lichee/out/android/common/buildroot/external-toolchain/bin/arm-linux-gnueabi-
++#KSRC := /home/android_sdk/Allwinner/a20_evb/lichee/linux-3.3
++# ==== Cross compile setting for Android 4.3 SDK =====
++#CROSS_COMPILE := /home/android_sdk/Allwinner/a20/android-jb43/lichee/out/android/common/buildroot/external-toolchain/bin/arm-linux-gnueabi-
++#KSRC := /home/android_sdk/Allwinner/a20/android-jb43/lichee/linux-3.4
++# ==== Cross compile setting for kitkat-a20_v4.4 =====
++CROSS_COMPILE := /home/android_sdk/Allwinner/a20/kitkat-a20_v4.4/lichee/out/android/common/buildroot/external-toolchain/bin/arm-linux-gnueabi-
++KSRC := /home/android_sdk/Allwinner/a20/kitkat-a20_v4.4/lichee/linux-3.4
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_SUN8I_W3P1), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUN8I
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUN8I_W3P1
++EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++ifeq ($(CONFIG_USB_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
++_PLATFORM_FILES += platform/platform_ARM_SUNxI_usb.o
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++_PLATFORM_FILES += platform/platform_ARM_SUNnI_sdio.o
++endif
++
++ARCH := arm
++# ===Cross compile setting for Android 4.2 SDK ===
++#CROSS_COMPILE := /home/android_sdk/Allwinner/a23/android-jb42/lichee/out/android/common/buildroot/external-toolchain/bin/arm-linux-gnueabi-
++#KSRC :=/home/android_sdk/Allwinner/a23/android-jb42/lichee/linux-3.4
++# ===Cross compile setting for Android 4.4 SDK ===
++CROSS_COMPILE := /home/android_sdk/Allwinner/a23/android-kk44/lichee/out/android/common/buildroot/external-toolchain/bin/arm-linux-gnueabi-
++KSRC :=/home/android_sdk/Allwinner/a23/android-kk44/lichee/linux-3.4
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_SUN8I_W5P1), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUN8I
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUN8I_W5P1
++EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++
++# Enable this for Android 5.0
++EXTRA_CFLAGS += -DCONFIG_RADIO_WORK
++
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++ifeq ($(CONFIG_USB_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
++_PLATFORM_FILES += platform/platform_ARM_SUNxI_usb.o
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++_PLATFORM_FILES += platform/platform_ARM_SUNnI_sdio.o
++endif
++
++ARCH := arm
++# ===Cross compile setting for Android L SDK ===
++CROSS_COMPILE := /home/android_sdk/Allwinner/a33/android-L/lichee/out/sun8iw5p1/android/common/buildroot/external-toolchain/bin/arm-linux-gnueabi-
++KSRC :=/home/android_sdk/Allwinner/a33/android-L/lichee/linux-3.4
++endif
++
++ifeq ($(CONFIG_PLATFORM_ACTIONS_ATV5201), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_ACTIONS_ATV5201
++EXTRA_CFLAGS += -DCONFIG_SDIO_DISABLE_RXFIFO_POLLING_LOOP
++ARCH := mips
++CROSS_COMPILE := mipsel-linux-gnu-
++KVER  := $(KERNEL_VER)
++KSRC:= $(CFGDIR)/../../kernel/linux-$(KERNEL_VER)
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_RTD299X), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DUSB_XMITBUF_ALIGN_SZ=1024 -DUSB_PACKET_OFFSET_SZ=0
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++ifeq ($(CONFIG_ANDROID), y)
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++# Enable this for Android 5.0
++EXTRA_CFLAGS += -DCONFIG_RADIO_WORK
++endif
++#ARCH, CROSS_COMPILE, KSRC,and  MODDESTDIR are provided by external makefile
++INSTALL_PREFIX :=
++endif
++
++ifeq ($(CONFIG_PLATFORM_HISILICON), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN -DCONFIG_PLATFORM_HISILICON
++ifeq ($(SUPPORT_CONCURRENT),y)
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++endif
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++ARCH := arm
++ifeq ($(CROSS_COMPILE),)
++       CROSS_COMPILE = arm-hisiv200-linux-
++endif
++MODULE_NAME := rtl8192eu
++ifeq ($(KSRC),)
++       KSRC := ../../../../../../kernel/linux-3.4.y
++endif
++endif
++
++# Platform setting
++ifeq ($(CONFIG_PLATFORM_ARM_SPREADTRUM_6820), y)
++ifeq ($(CONFIG_ANDROID_2X), y)
++EXTRA_CFLAGS += -DANDROID_2X
++endif
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_SPRD
++EXTRA_CFLAGS += -DPLATFORM_SPREADTRUM_6820
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ifeq ($(RTL871X), rtl8188e)
++EXTRA_CFLAGS += -DSOFTAP_PS_DURATION=50
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++_PLATFORM_FILES += platform/platform_sprd_sdio.o
++endif
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_SPREADTRUM_8810), y)
++ifeq ($(CONFIG_ANDROID_2X), y)
++EXTRA_CFLAGS += -DANDROID_2X
++endif
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_SPRD
++EXTRA_CFLAGS += -DPLATFORM_SPREADTRUM_8810
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++ifeq ($(RTL871X), rtl8188e)
++EXTRA_CFLAGS += -DSOFTAP_PS_DURATION=50
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++_PLATFORM_FILES += platform/platform_sprd_sdio.o
++endif
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_WMT), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_OPS
++ifeq ($(CONFIG_SDIO_HCI), y)
++_PLATFORM_FILES += platform/platform_ARM_WMT_sdio.o
++endif
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/WonderMedia/wm8880-android4.4/toolchain/arm_201103_gcc4.5.2/mybin/arm_1103_le-
++KSRC := /home/android_sdk/WonderMedia/wm8880-android4.4/kernel4.4/
++MODULE_NAME :=8189es_kk
++endif
++
++ifeq ($(CONFIG_PLATFORM_RTK119X), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++#EXTRA_CFLAGS += -DCONFIG_PLATFORM_ARM_SUN7I
++EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IFACE_NUMBER=3
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++#EXTRA_CFLAGS +=  -DCONFIG_QOS_OPTIMIZATION
++EXTRA_CFLAGS += -DCONFIG_QOS_OPTIMIZATION
++
++#EXTRA_CFLAGS += -DCONFIG_#PLATFORM_OPS
++ifeq ($(CONFIG_USB_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
++#_PLATFORM_FILES += platform/platform_ARM_SUNxI_usb.o
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++_PLATFORM_FILES += platform/platform_ARM_SUNnI_sdio.o
++endif
++
++ARCH := arm
++
++# ==== Cross compile setting for Android 4.4 SDK =====
++#CROSS_COMPILE := arm-linux-gnueabihf-
++KVER  := 3.10.24
++#KSRC :=/home/android_sdk/Allwinner/a20/android-kitkat44/lichee/linux-3.4
++CROSS_COMPILE := /home/realtek/software_phoenix/phoenix/toolchain/usr/local/arm-2013.11/bin/arm-linux-gnueabihf-
++KSRC := /home/realtek/software_phoenix/linux-kernel
++MODULE_NAME := 8192eu
++
++endif
++
++ifeq ($(CONFIG_PLATFORM_RTK129X), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DRTK_129X_PLATFORM
++EXTRA_CFLAGS += -DCONFIG_TRAFFIC_PROTECT
++# default setting for Android 4.1, 4.2
++#EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++#EXTRA_CFLAGS += -DCONFIG_P2P_IPS -DCONFIG_QOS_OPTIMIZATION
++EXTRA_CFLAGS += -DCONFIG_QOS_OPTIMIZATION
++EXTRA_CFLAGS += -Wno-error=date-time
++
++#EXTRA_CFLAGS += -DCONFIG_#PLATFORM_OPS
++ifeq ($(CONFIG_USB_HCI), y)
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
++#_PLATFORM_FILES += platform/platform_ARM_SUNxI_usb.o
++endif
++ifeq ($(CONFIG_SDIO_HCI), y)
++_PLATFORM_FILES += platform/platform_ARM_SUNnI_sdio.o
++endif
++
++ARCH := arm64
++
++# ==== Cross compile setting for Android 4.4 SDK =====
++#CROSS_COMPILE := arm-linux-gnueabihf-
++KVER  := 4.1.10
++CROSS_COMPILE := $(CROSS)
++KSRC := $(LINUX_KERNEL_PATH)
++MODULE_NAME := 8822be
++endif
++
++ifeq ($(CONFIG_PLATFORM_NOVATEK_NT72668), y)
++EXTRA_CFLAGS += -DCONFIG_PLATFORM_NOVATEK_NT72668
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_RX
++EXTRA_CFLAGS += -DCONFIG_USE_USB_BUFFER_ALLOC_TX
++ARCH ?= arm
++CROSS_COMPILE := arm-linux-gnueabihf-
++KVER := 3.8.0
++KSRC := /Custom/Novatek/TCL/linux-3.8_header
++#KSRC := $(KERNELDIR)
++endif
++
++ifeq ($(CONFIG_PLATFORM_ARM_TCC8930_JB42), y)
++EXTRA_CFLAGS += -DCONFIG_LITTLE_ENDIAN
++# default setting for Android 4.1, 4.2
++EXTRA_CFLAGS += -DCONFIG_CONCURRENT_MODE
++EXTRA_CFLAGS += -DCONFIG_IOCTL_CFG80211 -DRTW_USE_CFG80211_STA_EVENT
++ARCH := arm
++CROSS_COMPILE := /home/android_sdk/Telechips/v13.05_r1-tcc-android-4.2.2_tcc893x-evm_build/prebuilts/gcc/linux-x86/arm/arm-eabi-4.6/bin/arm-eabi-
++KSRC := /home/android_sdk/Telechips/v13.05_r1-tcc-android-4.2.2_tcc893x-evm_build/kernel
++MODULE_NAME := wlan
++endif 
++
++ifeq ($(CONFIG_MULTIDRV), y)
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++MODULE_NAME := rtw_sdio
++endif
++
++ifeq ($(CONFIG_USB_HCI), y)
++MODULE_NAME := rtw_usb
++endif
++
++ifeq ($(CONFIG_PCI_HCI), y)
++MODULE_NAME := rtw_pci
++endif
++
++
++endif
++
++USER_MODULE_NAME ?=
++ifneq ($(USER_MODULE_NAME),)
++MODULE_NAME := $(USER_MODULE_NAME)
++endif
++
++ifneq ($(KERNELRELEASE),)
++
++rtk_core :=	core/rtw_cmd.o \
++		core/rtw_security.o \
++		core/rtw_debug.o \
++		core/rtw_io.o \
++		core/rtw_ioctl_query.o \
++		core/rtw_ioctl_set.o \
++		core/rtw_ieee80211.o \
++		core/rtw_mlme.o \
++		core/rtw_mlme_ext.o \
++		core/rtw_mi.o \
++		core/rtw_wlan_util.o \
++		core/rtw_vht.o \
++		core/rtw_pwrctrl.o \
++		core/rtw_rf.o \
++		core/rtw_recv.o \
++		core/rtw_sta_mgt.o \
++		core/rtw_ap.o \
++		core/rtw_xmit.o	\
++		core/rtw_p2p.o \
++		core/rtw_tdls.o \
++		core/rtw_br_ext.o \
++		core/rtw_iol.o \
++		core/rtw_sreset.o \
++		core/rtw_btcoex.o \
++		core/rtw_beamforming.o \
++		core/rtw_odm.o \
++		core/efuse/rtw_efuse.o 
++
++ifeq ($(CONFIG_SDIO_HCI), y)
++rtk_core += core/rtw_sdio.o
++endif
++
++$(MODULE_NAME)-y += $(rtk_core)
++
++$(MODULE_NAME)-$(CONFIG_INTEL_WIDI) += core/rtw_intel_widi.o
++
++$(MODULE_NAME)-$(CONFIG_WAPI_SUPPORT) += core/rtw_wapi.o	\
++					core/rtw_wapi_sms4.o
++
++$(MODULE_NAME)-y += $(_OS_INTFS_FILES)
++$(MODULE_NAME)-y += $(_HAL_INTFS_FILES)
++$(MODULE_NAME)-y += $(_OUTSRC_FILES)
++$(MODULE_NAME)-y += $(_PLATFORM_FILES)
++
++$(MODULE_NAME)-$(CONFIG_MP_INCLUDED) += core/rtw_mp.o
++
++ifeq ($(CONFIG_RTL8723B), y)
++$(MODULE_NAME)-$(CONFIG_MP_INCLUDED)+= core/rtw_bt_mp.o
++endif
++
++obj-$(CONFIG_RTL8812AU) := $(MODULE_NAME).o
++
++else
++
++export CONFIG_RTL8812AU = m
++
++all: modules
++
++modules:
++	$(MAKE) ARCH=$(ARCH) CROSS_COMPILE=$(CROSS_COMPILE) -C $(KSRC) M=$(shell pwd)  modules
++
++strip:
++	$(CROSS_COMPILE)strip $(MODULE_NAME).ko --strip-unneeded
++
++install:
++	install -p -m 644 $(MODULE_NAME).ko  $(MODDESTDIR)
++	/sbin/depmod -a ${KVER}
++
++uninstall:
++	rm -f $(MODDESTDIR)/$(MODULE_NAME).ko
++	/sbin/depmod -a ${KVER}
++
++config_r:
++	@echo "make config"
++	/bin/bash script/Configure script/config.in
++
++
++.PHONY: modules clean
++
++clean:
++	#$(MAKE) -C $(KSRC) M=$(shell pwd) clean
++	cd hal ; rm -fr */*/*/*.mod.c */*/*/*.mod */*/*/*.o */*/*/.*.cmd */*/*/*.ko
++	cd hal ; rm -fr */*/*.mod.c */*/*.mod */*/*.o */*/.*.cmd */*/*.ko
++	cd hal ; rm -fr */*.mod.c */*.mod */*.o */.*.cmd */*.ko
++	cd hal ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
++	cd core/efuse ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
++	cd core ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
++	cd os_dep/linux ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
++	cd os_dep ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
++	cd platform ; rm -fr *.mod.c *.mod *.o .*.cmd *.ko
++	rm -fr Module.symvers ; rm -fr Module.markers ; rm -fr modules.order
++	rm -fr *.mod.c *.mod *.o .*.cmd *.ko *~
++	rm -fr .tmp_versions
++endif
++
+diff --git a/drivers/net/wireless/rtl8812au/clean b/drivers/net/wireless/rtl8812au/clean
+new file mode 100644
+index 0000000..8766421
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/clean
+@@ -0,0 +1,5 @@
++#!/bin/bash
++rmmod 8192cu
++rmmod 8192ce
++rmmod 8192du
++rmmod 8192de
+diff --git a/drivers/net/wireless/rtl8812au/core/efuse/rtw_efuse.c b/drivers/net/wireless/rtl8812au/core/efuse/rtw_efuse.c
+new file mode 100644
+index 0000000..1bb5105
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/efuse/rtw_efuse.c
+@@ -0,0 +1,2674 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_EFUSE_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#include "../hal/efuse/efuse_mask.h"
++
++/*------------------------Define local variable------------------------------*/
++u8	fakeEfuseBank = {0};
++u32	fakeEfuseUsedBytes = {0};
++u8	fakeEfuseContent[EFUSE_MAX_HW_SIZE] = {0};
++u8	fakeEfuseInitMap[EFUSE_MAX_MAP_LEN] = {0};
++u8	fakeEfuseModifiedMap[EFUSE_MAX_MAP_LEN] = {0};
++
++u32	BTEfuseUsedBytes = {0};
++u8	BTEfuseContent[EFUSE_MAX_BT_BANK][EFUSE_MAX_HW_SIZE];
++u8	BTEfuseInitMap[EFUSE_BT_MAX_MAP_LEN] = {0};
++u8	BTEfuseModifiedMap[EFUSE_BT_MAX_MAP_LEN] = {0};
++
++u32	fakeBTEfuseUsedBytes = {0};
++u8	fakeBTEfuseContent[EFUSE_MAX_BT_BANK][EFUSE_MAX_HW_SIZE];
++u8	fakeBTEfuseInitMap[EFUSE_BT_MAX_MAP_LEN] = {0};
++u8	fakeBTEfuseModifiedMap[EFUSE_BT_MAX_MAP_LEN] = {0};
++
++u8	maskfileBuffer[32];
++/*------------------------Define local variable------------------------------*/
++BOOLEAN rtw_file_efuse_IsMasked(PADAPTER pAdapter, u16 Offset)
++{
++	int r = Offset / 16;
++	int c = (Offset % 16) / 2;
++	int result = 0;
++
++	if (pAdapter->registrypriv.boffefusemask)
++		return FALSE;
++
++	if (c < 4) /* Upper double word */
++		result = (maskfileBuffer[r] & (0x10 << c));
++	else
++		result = (maskfileBuffer[r] & (0x01 << (c - 4)));
++
++	return (result > 0) ? 0 : 1;
++}
++
++BOOLEAN efuse_IsMasked(PADAPTER pAdapter, u16 Offset)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++
++	if (pAdapter->registrypriv.boffefusemask)
++		return FALSE;
++
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(pAdapter))
++		return (IS_MASKED(8188E, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8812A)
++	if (IS_HARDWARE_TYPE_8812(pAdapter))
++		return (IS_MASKED(8812A, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8821A)
++#if 0
++	if (IS_HARDWARE_TYPE_8811AU(pAdapter))
++		return (IS_MASKED(8811A, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++	if (IS_HARDWARE_TYPE_8821(pAdapter))
++		return (IS_MASKED(8821A, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8192E)
++	if (IS_HARDWARE_TYPE_8192E(pAdapter))
++		return (IS_MASKED(8192E, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8723B)
++	if (IS_HARDWARE_TYPE_8723B(pAdapter))
++		return (IS_MASKED(8723B, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8703B)
++	if (IS_HARDWARE_TYPE_8703B(pAdapter))
++		return (IS_MASKED(8703B, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8814A)
++	if (IS_HARDWARE_TYPE_8814A(pAdapter))
++		return (IS_MASKED(8814A, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8188F)
++	if (IS_HARDWARE_TYPE_8188F(pAdapter))
++		return (IS_MASKED(8188F, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8822B)
++	if (IS_HARDWARE_TYPE_8822B(pAdapter))
++		return (IS_MASKED(8822B, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8723D)
++	if (IS_HARDWARE_TYPE_8723D(pAdapter))
++		return (IS_MASKED(8723D, _MUSB, Offset)) ? TRUE : FALSE;
++#endif
++
++	/*#if defined(CONFIG_RTL8821C)
++		if (IS_HARDWARE_TYPE_8821C(pAdapter))
++			return (IS_MASKED(8821C,_MUSB,Offset)) ? TRUE : FALSE;
++	#endif*/
++
++#elif DEV_BUS_TYPE == RT_PCI_INTERFACE
++#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(pAdapter))
++		return (IS_MASKED(8188E, _MPCIE, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8192E)
++	if (IS_HARDWARE_TYPE_8192E(pAdapter))
++		return (IS_MASKED(8192E, _MPCIE, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8812A)
++	if (IS_HARDWARE_TYPE_8812(pAdapter))
++		return (IS_MASKED(8812A, _MPCIE, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8821A)
++	if (IS_HARDWARE_TYPE_8821(pAdapter))
++		return (IS_MASKED(8821A, _MPCIE, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8723B)
++	if (IS_HARDWARE_TYPE_8723B(pAdapter))
++		return (IS_MASKED(8723B, _MPCIE, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8814A)
++	if (IS_HARDWARE_TYPE_8814A(pAdapter))
++		return (IS_MASKED(8814A, _MPCIE, Offset)) ? TRUE : FALSE;
++#endif
++#if defined(CONFIG_RTL8822B)
++	if (IS_HARDWARE_TYPE_8822B(pAdapter))
++		return (IS_MASKED(8822B, _MPCIE, Offset)) ? TRUE : FALSE;
++#endif
++
++#elif DEV_BUS_TYPE == RT_SDIO_INTERFACE
++#ifdef CONFIG_RTL8188E_SDIO
++	if (IS_HARDWARE_TYPE_8188E(pAdapter))
++		return (IS_MASKED(8188E, _MSDIO, Offset)) ? TRUE : FALSE;
++#endif
++#ifdef CONFIG_RTL8188F_SDIO
++	if (IS_HARDWARE_TYPE_8188F(pAdapter))
++		return (IS_MASKED(8188F, _MSDIO, Offset)) ? TRUE : FALSE;
++#endif
++#endif
++
++	return FALSE;
++}
++
++void rtw_efuse_mask_array(PADAPTER pAdapter, u8 *pArray)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(pAdapter))
++		GET_MASK_ARRAY(8188E, _MUSB, pArray);
++#endif
++#if defined(CONFIG_RTL8812A)
++	if (IS_HARDWARE_TYPE_8812(pAdapter))
++		GET_MASK_ARRAY(8812A, _MUSB, pArray);
++#endif
++#if defined(CONFIG_RTL8821A)
++	if (IS_HARDWARE_TYPE_8821(pAdapter))
++		GET_MASK_ARRAY(8821A, _MUSB, pArray);
++#endif
++#if defined(CONFIG_RTL8192E)
++	if (IS_HARDWARE_TYPE_8192E(pAdapter))
++		GET_MASK_ARRAY(8192E, _MUSB, pArray);
++#endif
++#if defined(CONFIG_RTL8723B)
++	if (IS_HARDWARE_TYPE_8723B(pAdapter))
++		GET_MASK_ARRAY(8723B, _MUSB, pArray);
++#endif
++#if defined(CONFIG_RTL8703B)
++	if (IS_HARDWARE_TYPE_8703B(pAdapter))
++		GET_MASK_ARRAY(8703B, _MUSB, pArray);
++#endif
++#if defined(CONFIG_RTL8188F)
++	if (IS_HARDWARE_TYPE_8188F(pAdapter))
++		GET_MASK_ARRAY(8188F, _MUSB, pArray);
++#endif
++#if defined(CONFIG_RTL8814A)
++	if (IS_HARDWARE_TYPE_8814A(pAdapter))
++		GET_MASK_ARRAY(8814A, _MUSB, pArray);
++#endif
++#if defined(CONFIG_RTL8822B)
++	if (IS_HARDWARE_TYPE_8822B(pAdapter))
++		GET_MASK_ARRAY(8822B, _MUSB, pArray);
++#endif
++	/*#if defined(CONFIG_RTL8821C)
++		if (IS_HARDWARE_TYPE_8821C(pAdapter))
++			GET_MASK_ARRAY(8821C,_MUSB,pArray);
++	#endif*/
++#elif DEV_BUS_TYPE == RT_PCI_INTERFACE
++#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(pAdapter))
++		GET_MASK_ARRAY(8188E, _MPCIE, pArray);
++#endif
++#if defined(CONFIG_RTL8192E)
++	if (IS_HARDWARE_TYPE_8192E(pAdapter))
++		GET_MASK_ARRAY(8192E, _MPCIE, pArray);
++#endif
++#if defined(CONFIG_RTL8812A)
++	if (IS_HARDWARE_TYPE_8812(pAdapter))
++		GET_MASK_ARRAY(8812A, _MPCIE, pArray);
++#endif
++#if defined(CONFIG_RTL8821A)
++	if (IS_HARDWARE_TYPE_8821(pAdapter))
++		GET_MASK_ARRAY(8821A, _MPCIE, pArray);
++#endif
++#if defined(CONFIG_RTL8723B)
++	if (IS_HARDWARE_TYPE_8723B(pAdapter))
++		GET_MASK_ARRAY(8723B, _MPCIE, pArray);
++#endif
++#if defined(CONFIG_RTL8814A)
++	if (IS_HARDWARE_TYPE_8814A(pAdapter))
++		GET_MASK_ARRAY(8814A, _MPCIE, pArray);
++#endif
++#if defined(CONFIG_RTL8822B)
++	if (IS_HARDWARE_TYPE_8822B(pAdapter))
++		GET_MASK_ARRAY(8822B, _MPCIE, pArray);
++#endif
++#elif DEV_BUS_TYPE == RT_SDIO_INTERFACE
++#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(pAdapter))
++		GET_MASK_ARRAY(8188E, _MSDIO, pArray);
++#endif
++#if defined(CONFIG_RTL8188F)
++	if (IS_HARDWARE_TYPE_8188F(pAdapter))
++		GET_MASK_ARRAY(8188F, _MSDIO, pArray);
++#endif
++#endif /*#elif DEV_BUS_TYPE == RT_SDIO_INTERFACE*/
++}
++
++u16 rtw_get_efuse_mask_arraylen(PADAPTER pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(pAdapter))
++		return GET_MASK_ARRAY_LEN(8188E, _MUSB);
++#endif
++#if defined(CONFIG_RTL8812A)
++	if (IS_HARDWARE_TYPE_8812(pAdapter))
++		return GET_MASK_ARRAY_LEN(8812A, _MUSB);
++#endif
++#if defined(CONFIG_RTL8821A)
++	if (IS_HARDWARE_TYPE_8821(pAdapter))
++		return GET_MASK_ARRAY_LEN(8821A, _MUSB);
++#endif
++#if defined(CONFIG_RTL8192E)
++	if (IS_HARDWARE_TYPE_8192E(pAdapter))
++		return GET_MASK_ARRAY_LEN(8192E, _MUSB);
++#endif
++#if defined(CONFIG_RTL8723B)
++	if (IS_HARDWARE_TYPE_8723B(pAdapter))
++		return GET_MASK_ARRAY_LEN(8723B, _MUSB);
++#endif
++#if defined(CONFIG_RTL8703B)
++	if (IS_HARDWARE_TYPE_8703B(pAdapter))
++		return GET_MASK_ARRAY_LEN(8703B, _MUSB);
++#endif
++#if defined(CONFIG_RTL8188F)
++	if (IS_HARDWARE_TYPE_8188F(pAdapter))
++		return GET_MASK_ARRAY_LEN(8188F, _MUSB);
++#endif
++#if defined(CONFIG_RTL8814A)
++	if (IS_HARDWARE_TYPE_8814A(pAdapter))
++		return GET_MASK_ARRAY_LEN(8814A, _MUSB);
++#endif
++#if defined(CONFIG_RTL8822B)
++	if (IS_HARDWARE_TYPE_8822B(pAdapter))
++		return GET_MASK_ARRAY_LEN(8822B, _MUSB);
++#endif
++	/*#if defined(CONFIG_RTL8821C)
++		if (IS_HARDWARE_TYPE_8821C(pAdapter))
++			return GET_MASK_ARRAY_LEN(8821C,_MUSB);
++	#endif*/
++#elif DEV_BUS_TYPE == RT_PCI_INTERFACE
++#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(pAdapter))
++		return GET_MASK_ARRAY_LEN(8188E, _MPCIE);
++#endif
++#if defined(CONFIG_RTL8192E)
++	if (IS_HARDWARE_TYPE_8192E(pAdapter))
++		return GET_MASK_ARRAY_LEN(8192E, _MPCIE);
++#endif
++#if defined(CONFIG_RTL8812A)
++	if (IS_HARDWARE_TYPE_8812(pAdapter))
++		return GET_MASK_ARRAY_LEN(8812A, _MPCIE);
++#endif
++#if defined(CONFIG_RTL8821A)
++	if (IS_HARDWARE_TYPE_8821(pAdapter))
++		return GET_MASK_ARRAY_LEN(8821A, _MPCIE);
++#endif
++#if defined(CONFIG_RTL8723B)
++	if (IS_HARDWARE_TYPE_8723B(pAdapter))
++		return GET_MASK_ARRAY_LEN(8723B, _MPCIE);
++#endif
++#if defined(CONFIG_RTL8814A)
++	if (IS_HARDWARE_TYPE_8814A(pAdapter))
++		return GET_MASK_ARRAY_LEN(8814A, _MPCIE);
++#endif
++#if defined(CONFIG_RTL8822B)
++	if (IS_HARDWARE_TYPE_8822B(pAdapter))
++		return GET_MASK_ARRAY_LEN(8822B, _MPCIE);
++#endif
++#elif DEV_BUS_TYPE == RT_SDIO_INTERFACE
++#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(pAdapter))
++		return GET_MASK_ARRAY_LEN(8188E, _MSDIO);
++#endif
++#if defined(CONFIG_RTL8188F)
++	if (IS_HARDWARE_TYPE_8188F(pAdapter))
++		return GET_MASK_ARRAY_LEN(8188F, _MSDIO);
++#endif
++
++#endif
++	return 0;
++}
++
++
++#ifdef RTW_HALMAC
++#include "../../hal/hal_halmac.h"
++
++void Efuse_PowerSwitch(PADAPTER adapter, u8 write, u8 pwrstate)
++{
++}
++
++void BTEfuse_PowerSwitch(PADAPTER adapter, u8 write, u8 pwrstate)
++{
++}
++
++u8 efuse_GetCurrentSize(PADAPTER adapter, u16 *size)
++{
++	*size = 0;
++
++	return _FAIL;
++}
++
++u16 efuse_GetMaxSize(PADAPTER adapter)
++{
++	struct dvobj_priv *d;
++	u32 size = 0;
++	int err;
++
++	d = adapter_to_dvobj(adapter);
++	err = rtw_halmac_get_physical_efuse_size(d, &size);
++	if (err)
++		return 0;
++
++	return size;
++}
++
++u8 efuse_bt_GetCurrentSize(PADAPTER adapter, u16 *size)
++{
++	*size = 0;
++
++	return _FAIL;
++}
++
++u16 efuse_bt_GetMaxSize(PADAPTER adapter)
++{
++	return 0;
++}
++
++void EFUSE_GetEfuseDefinition(PADAPTER adapter, u8 efusetype, u8 type, void *out, BOOLEAN test)
++{
++	struct dvobj_priv *d;
++	u32 v32 = 0;
++
++
++	d = adapter_to_dvobj(adapter);
++
++	if (adapter->HalFunc.EFUSEGetEfuseDefinition) {
++		adapter->HalFunc.EFUSEGetEfuseDefinition(adapter, efusetype, type, out, test);
++		return;
++	}
++
++	if (EFUSE_WIFI == efusetype) {
++		switch (type) {
++		case TYPE_EFUSE_MAP_LEN:
++			rtw_halmac_get_logical_efuse_size(d, &v32);
++			*(u16 *)out = (u16)v32;
++			return;
++		}
++	}
++}
++
++/*
++ * read/write raw efuse data
++ */
++u8 rtw_efuse_access(PADAPTER adapter, u8 write, u16 addr, u16 cnts, u8 *data)
++{
++	struct dvobj_priv *d;
++	u8 *efuse = NULL;
++	u32 size, i;
++	int err;
++
++
++	d = adapter_to_dvobj(adapter);
++	err = rtw_halmac_get_physical_efuse_size(d, &size);
++	if (err)
++		size = EFUSE_MAX_SIZE;
++
++	if ((addr + cnts) > size)
++		return _FAIL;
++
++	if (_TRUE == write) {
++		err = rtw_halmac_write_physical_efuse(d, addr, cnts, data);
++		if (err)
++			return _FAIL;
++	} else {
++		if (cnts > 16)
++			efuse = rtw_zmalloc(size);
++
++		if (efuse) {
++			err = rtw_halmac_read_physical_efuse_map(d, efuse, size);
++			if (err) {
++				rtw_mfree(efuse, size);
++				return _FAIL;
++			}
++
++			_rtw_memcpy(data, efuse + addr, cnts);
++			rtw_mfree(efuse, size);
++		} else {
++			err = rtw_halmac_read_physical_efuse(d, addr, cnts, data);
++			if (err)
++				return _FAIL;
++		}
++	}
++
++	return _SUCCESS;
++}
++
++static inline void dump_buf(u8 *buf, u32 len)
++{
++	u32 i;
++
++	RTW_INFO("-----------------Len %d----------------\n", len);
++	for (i = 0; i < len; i++)
++		printk("%2.2x-", *(buf + i));
++	printk("\n");
++}
++
++/*
++ * read/write raw efuse data
++ */
++u8 rtw_efuse_bt_access(PADAPTER adapter, u8 write, u16 addr, u16 cnts, u8 *data)
++{
++	struct dvobj_priv *d;
++	u8 *efuse = NULL;
++	u32 size, i;
++	int err = _FAIL;
++
++
++	d = adapter_to_dvobj(adapter);
++
++	size = EFUSE_BT_REAL_BANK_CONTENT_LEN;
++
++	if ((addr + cnts) > size)
++		return _FAIL;
++
++	if (_TRUE == write) {
++		err = rtw_halmac_write_bt_physical_efuse(d, addr, cnts, data);
++		if (err == -1) {
++			RTW_ERR("%s: rtw_halmac_write_bt_physical_efuse fail!\n", __FUNCTION__);
++			return _FAIL;
++		}
++		RTW_INFO("%s: rtw_halmac_write_bt_physical_efuse OK! data 0x%x\n", __FUNCTION__, *data);
++	} else {
++		efuse = rtw_zmalloc(size);
++
++		if (efuse) {
++			err = rtw_halmac_read_bt_physical_efuse_map(d, efuse, size);
++			
++			if (err == -1) {
++				RTW_ERR("%s: rtw_halmac_read_bt_physical_efuse_map fail!\n", __FUNCTION__);
++				rtw_mfree(efuse, size);
++				return _FAIL;
++			}
++			dump_buf(efuse + addr, cnts);
++
++			RTW_INFO("%s: rtw_halmac_read_bt_physical_efuse_map ok!\n", __FUNCTION__);
++			_rtw_memcpy(data, efuse + addr, cnts);
++			rtw_mfree(efuse, size);
++		}
++	}
++
++	return _SUCCESS;
++}
++
++u8 rtw_efuse_map_read(PADAPTER adapter, u16 addr, u16 cnts, u8 *data)
++{
++	struct dvobj_priv *d;
++	u8 *efuse = NULL;
++	u32 size, i;
++	int err;
++
++
++	d = adapter_to_dvobj(adapter);
++	err = rtw_halmac_get_logical_efuse_size(d, &size);
++	if (err)
++		return _FAIL;
++
++	/* size error handle */
++	if ((addr + cnts) > size) {
++		if (addr < size)
++			cnts = size - addr;
++		else
++			return _FAIL;
++	}
++
++	if (cnts > 16)
++		efuse = rtw_zmalloc(size);
++
++	if (efuse) {
++		err = rtw_halmac_read_logical_efuse_map(d, efuse, size);
++		if (err) {
++			rtw_mfree(efuse, size);
++			return _FAIL;
++		}
++
++		_rtw_memcpy(data, efuse + addr, cnts);
++		rtw_mfree(efuse, size);
++	} else {
++		err = rtw_halmac_read_logical_efuse(d, addr, cnts, data);
++		if (err)
++			return _FAIL;
++	}
++
++	return _SUCCESS;
++}
++
++u8 rtw_efuse_mask_map_read(PADAPTER adapter, u16 addr, u16 cnts, u8 *data)
++{
++	return rtw_efuse_map_read(adapter, addr, cnts, data);
++}
++
++u8 rtw_efuse_map_write(PADAPTER adapter, u16 addr, u16 cnts, u8 *data)
++{
++	struct dvobj_priv *d;
++	u8 *efuse = NULL;
++	u32 size, i;
++	int err;
++	u8 mask_buf[64] = "";
++	u16 mask_len = sizeof(u8) * rtw_get_efuse_mask_arraylen(adapter);
++
++	d = adapter_to_dvobj(adapter);
++	err = rtw_halmac_get_logical_efuse_size(d, &size);
++	if (err)
++		return _FAIL;
++
++	if ((addr + cnts) > size)
++		return _FAIL;
++
++	efuse = rtw_zmalloc(size);
++	if (!efuse)
++		return _FAIL;
++
++	err = rtw_halmac_read_logical_efuse_map(d, efuse, size);
++	if (err) {
++		rtw_mfree(efuse, size);
++		return _FAIL;
++	}
++
++	_rtw_memcpy(efuse + addr, data, cnts);
++
++	if (adapter->registrypriv.boffefusemask == 0) {
++		RTW_INFO("Use mask Array Len: %d\n", mask_len);
++
++		if (mask_len != 0) {
++			rtw_efuse_mask_array(adapter, mask_buf);
++			err = rtw_halmac_write_logical_efuse_map(d, efuse, size, mask_buf, mask_len);
++		} else
++			err = rtw_halmac_write_logical_efuse_map(d, efuse, size, NULL, 0);
++	} else {
++		_rtw_memset(mask_buf, 0xFF, sizeof(mask_buf));
++		RTW_INFO("Efuse mask off\n");
++		err = rtw_halmac_write_logical_efuse_map(d, efuse, size, mask_buf, size/16);
++	}
++
++	if (err) {
++		rtw_mfree(efuse, size);
++		return _FAIL;
++	}
++
++	rtw_mfree(efuse, size);
++
++	return _SUCCESS;
++}
++
++int Efuse_PgPacketRead(PADAPTER adapter, u8 offset, u8 *data, BOOLEAN test)
++{
++	return _FALSE;
++}
++
++int Efuse_PgPacketWrite(PADAPTER adapter, u8 offset, u8 word_en, u8 *data, BOOLEAN test)
++{
++	return _FALSE;
++}
++
++u8 rtw_BT_efuse_map_read(PADAPTER adapter, u16 addr, u16 cnts, u8 *data)
++{
++	hal_ReadEFuse_BT_logic_map(adapter,addr, cnts, data);
++
++	return _SUCCESS;
++}
++
++u8 rtw_BT_efuse_map_write(PADAPTER adapter, u16 addr, u16 cnts, u8 *data)
++{
++#define RT_ASSERT_RET(expr)									\
++	if (!(expr)) {										\
++		printk("Assertion failed! %s at ......\n", #expr);				\
++		printk("	  ......%s,%s, line=%d\n",__FILE__, __FUNCTION__, __LINE__);	\
++		return _FAIL;	\
++	}
++
++	u8	offset, word_en;
++	u8	*map;
++	u8	newdata[PGPKT_DATA_SIZE];
++	s32 i = 0, j = 0, idx;
++	u8	ret = _SUCCESS;
++	u16 mapLen = 1024;
++
++	if ((addr + cnts) > mapLen)
++		return _FAIL;
++
++	RT_ASSERT_RET(PGPKT_DATA_SIZE == 8); /* have to be 8 byte alignment */
++	RT_ASSERT_RET((mapLen & 0x7) == 0); /* have to be PGPKT_DATA_SIZE alignment for memcpy */
++
++	map = rtw_zmalloc(mapLen);
++	if (map == NULL)
++		return _FAIL;
++
++	ret = rtw_BT_efuse_map_read(adapter, 0, mapLen, map);
++	if (ret == _FAIL)
++		goto exit;
++	RTW_INFO("OFFSET\tVALUE(hex)\n");
++	for (i = 0; i < 1024; i += 16) { /* set 512 because the iwpriv's extra size have limit 0x7FF */
++		RTW_INFO("0x%03x\t", i);
++		for (j = 0; j < 8; j++)
++			RTW_INFO("%02X ", map[i + j]);
++		RTW_INFO("\t");
++		for (; j < 16; j++)
++			RTW_INFO("%02X ", map[i + j]);
++		RTW_INFO("\n");
++	}
++	RTW_INFO("\n");
++
++	idx = 0;
++	offset = (addr >> 3);
++	while (idx < cnts) {
++		word_en = 0xF;
++		j = (addr + idx) & 0x7;
++		_rtw_memcpy(newdata, &map[offset << 3], PGPKT_DATA_SIZE);
++		for (i = j; i < PGPKT_DATA_SIZE && idx < cnts; i++, idx++) {
++			if (data[idx] != map[addr + idx]) {
++				word_en &= ~BIT(i >> 1);
++				newdata[i] = data[idx];
++			}
++		}
++
++		if (word_en != 0xF) {
++			RTW_INFO("offset=%x\n", offset);
++			RTW_INFO("word_en=%x\n", word_en);
++			RTW_INFO("%s: data=", __FUNCTION__);
++			for (i = 0; i < PGPKT_DATA_SIZE; i++)
++				RTW_INFO("0x%02X ", newdata[i]);
++			RTW_INFO("\n");
++			ret = EfusePgPacketWrite_BT(adapter, offset, word_en, newdata, _FALSE);
++			if (ret == _FAIL)
++				break;
++		}
++		offset++;
++	}
++exit:
++	rtw_mfree(map, mapLen);
++	return _SUCCESS;
++}
++
++VOID hal_ReadEFuse_BT_logic_map(
++	PADAPTER	padapter,
++	u16			_offset,
++	u16			_size_byte,
++	u8			*pbuf
++)
++{
++
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	PEFUSE_HAL		pEfuseHal = &pHalData->EfuseHal;
++
++	u8	*efuseTbl, *phyefuse;
++	u8	bank;
++	u16	eFuse_Addr = 0;
++	u8	efuseHeader, efuseExtHdr, efuseData;
++	u8	offset, wden;
++	u16	i, total, used;
++	u8	efuse_usage;
++
++
++	/* */
++	/* Do NOT excess total size of EFuse table. Added by Roger, 2008.11.10. */
++	/* */
++	if ((_offset + _size_byte) > EFUSE_BT_MAP_LEN) {
++		RTW_INFO("%s: Invalid offset(%#x) with read bytes(%#x)!!\n", __FUNCTION__, _offset, _size_byte);
++		return;
++	}
++
++	efuseTbl = rtw_malloc(EFUSE_BT_MAP_LEN);
++	phyefuse = rtw_malloc(EFUSE_BT_REAL_BANK_CONTENT_LEN);
++
++	if (efuseTbl == NULL || phyefuse == NULL) {
++		RTW_INFO("%s: efuseTbl malloc fail!\n", __FUNCTION__);
++		return;
++	}
++	/* 0xff will be efuse default value instead of 0x00. */
++	_rtw_memset(efuseTbl, 0xFF, EFUSE_BT_MAP_LEN);
++	_rtw_memset(phyefuse, 0xFF, EFUSE_BT_REAL_BANK_CONTENT_LEN);
++
++	if(rtw_efuse_bt_access(padapter, _FALSE, 0, EFUSE_BT_REAL_BANK_CONTENT_LEN, phyefuse))
++		dump_buf(phyefuse, EFUSE_BT_REAL_BANK_CONTENT_LEN);
++	
++	total = BANK_NUM;
++	for (bank = 1; bank <= total; bank++) { /* 8723d Max bake 0~2 */
++		eFuse_Addr = 0;
++
++		while (AVAILABLE_EFUSE_ADDR(eFuse_Addr)) {
++			/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseHeader, bPseudoTest); */
++			efuseHeader = phyefuse[eFuse_Addr++];
++
++			if (efuseHeader == 0xFF)
++				break;
++			RTW_INFO("%s: efuse[%#X]=0x%02x (header)\n", __FUNCTION__, (((bank - 1) * EFUSE_BT_REAL_CONTENT_LEN) + eFuse_Addr - 1), efuseHeader);
++
++			/* Check PG header for section num. */
++			if (EXT_HEADER(efuseHeader)) {	/* extended header */
++				offset = GET_HDR_OFFSET_2_0(efuseHeader);
++				RTW_INFO("%s: extended header offset_2_0=0x%X\n", __FUNCTION__, offset);
++
++				/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseExtHdr, bPseudoTest); */
++				efuseExtHdr = phyefuse[eFuse_Addr++];
++
++				RTW_INFO("%s: efuse[%#X]=0x%02x (ext header)\n", __FUNCTION__, (((bank - 1) * EFUSE_BT_REAL_CONTENT_LEN) + eFuse_Addr - 1), efuseExtHdr);
++				if (ALL_WORDS_DISABLED(efuseExtHdr))
++					continue;
++
++				offset |= ((efuseExtHdr & 0xF0) >> 1);
++				wden = (efuseExtHdr & 0x0F);
++			} else {
++				offset = ((efuseHeader >> 4) & 0x0f);
++				wden = (efuseHeader & 0x0f);
++			}
++
++			if (offset < EFUSE_BT_MAX_SECTION) {
++				u16 addr;
++
++				/* Get word enable value from PG header */
++				RTW_INFO("%s: Offset=%d Worden=%#X\n", __FUNCTION__, offset, wden);
++
++				addr = offset * PGPKT_DATA_SIZE;
++				for (i = 0; i < EFUSE_MAX_WORD_UNIT; i++) {
++					/* Check word enable condition in the section */
++					if (!(wden & (0x01 << i))) {
++						efuseData = 0;
++						/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseData, bPseudoTest); */
++						efuseData = phyefuse[eFuse_Addr++];
++
++						RTW_INFO("%s: efuse[%#X]=0x%02X\n", __FUNCTION__, eFuse_Addr - 1, efuseData);
++						efuseTbl[addr] = efuseData;
++
++						efuseData = 0;
++						/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseData, bPseudoTest); */
++						efuseData = phyefuse[eFuse_Addr++];
++
++						RTW_INFO("%s: efuse[%#X]=0x%02X\n", __FUNCTION__, eFuse_Addr - 1, efuseData);
++						efuseTbl[addr + 1] = efuseData;
++					}
++					addr += 2;
++				}
++			} else {
++				RTW_INFO("%s: offset(%d) is illegal!!\n", __FUNCTION__, offset);
++				eFuse_Addr += Efuse_CalculateWordCnts(wden) * 2;
++			}
++		}
++
++		if ((eFuse_Addr - 1) < total) {
++			RTW_INFO("%s: bank(%d) data end at %#x\n", __FUNCTION__, bank, eFuse_Addr - 1);
++			break;
++		}
++	}
++
++	/* switch bank back to bank 0 for later BT and wifi use. */
++	//hal_EfuseSwitchToBank(padapter, 0, bPseudoTest);
++
++	/* Copy from Efuse map to output pointer memory!!! */
++	for (i = 0; i < _size_byte; i++)
++		pbuf[i] = efuseTbl[_offset + i];
++	/* Calculate Efuse utilization */
++	total = EFUSE_BT_REAL_BANK_CONTENT_LEN;
++
++	used = eFuse_Addr - 1;
++
++	if (total)
++		efuse_usage = (u8)((used * 100) / total);
++	else
++		efuse_usage = 100;
++
++	fakeBTEfuseUsedBytes = used;
++
++exit:
++	if (efuseTbl)
++		rtw_mfree(efuseTbl, EFUSE_BT_MAP_LEN);
++}
++
++
++static u8 hal_EfusePartialWriteCheck(
++	PADAPTER		padapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	PEFUSE_HAL		pEfuseHal = &pHalData->EfuseHal;
++	u8	bRet = _FALSE;
++	u16	startAddr = 0, efuse_max_available_len = EFUSE_BT_REAL_BANK_CONTENT_LEN, efuse_max = EFUSE_BT_REAL_BANK_CONTENT_LEN;
++	u8	efuse_data = 0;
++
++	startAddr = (u16)fakeBTEfuseUsedBytes;
++
++	startAddr %= efuse_max;
++	RTW_INFO("%s: startAddr=%#X\n", __FUNCTION__, startAddr);
++
++	while (1) {
++		if (startAddr >= efuse_max_available_len) {
++			bRet = _FALSE;
++			RTW_INFO("%s: startAddr(%d) >= efuse_max_available_len(%d)\n",
++				__FUNCTION__, startAddr, efuse_max_available_len);
++			break;
++		}
++		if (rtw_efuse_bt_access(padapter, _FALSE, startAddr, 1, &efuse_data)&& (efuse_data != 0xFF)) {
++			bRet = _FALSE;
++			RTW_INFO("%s: Something Wrong! last bytes(%#X=0x%02X) is not 0xFF\n",
++				 __FUNCTION__, startAddr, efuse_data);
++			break;
++		} else {
++			/* not used header, 0xff */
++			*pAddr = startAddr;
++			/*			RTW_INFO("%s: Started from unused header offset=%d\n", __FUNCTION__, startAddr)); */
++			bRet = _TRUE;
++			break;
++		}
++	}
++
++	return bRet;
++}
++
++
++static u8 hal_EfusePgPacketWrite2ByteHeader(
++	PADAPTER		padapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	u16	efuse_addr, efuse_max_available_len = EFUSE_BT_REAL_BANK_CONTENT_LEN;
++	u8	pg_header = 0, tmp_header = 0;
++	u8	repeatcnt = 0;
++
++	/*	RTW_INFO("%s\n", __FUNCTION__); */
++
++	efuse_addr = *pAddr;
++	if (efuse_addr >= efuse_max_available_len) {
++		RTW_INFO("%s: addr(%d) over avaliable(%d)!!\n", __FUNCTION__, efuse_addr, efuse_max_available_len);
++		return _FALSE;
++	}
++
++	pg_header = ((pTargetPkt->offset & 0x07) << 5) | 0x0F;
++	/*	RTW_INFO("%s: pg_header=0x%x\n", __FUNCTION__, pg_header); */
++
++	do {
++		
++		rtw_efuse_bt_access(padapter, _TRUE, efuse_addr, 1, &pg_header);
++		rtw_efuse_bt_access(padapter, _FALSE, efuse_addr, 1, &tmp_header);
++
++		if (tmp_header != 0xFF)
++			break;
++		if (repeatcnt++ > EFUSE_REPEAT_THRESHOLD_) {
++			RTW_INFO("%s: Repeat over limit for pg_header!!\n", __FUNCTION__);
++			return _FALSE;
++		}
++	} while (1);
++
++	if (tmp_header != pg_header) {
++		RTW_ERR("%s: PG Header Fail!!(pg=0x%02X read=0x%02X)\n", __FUNCTION__, pg_header, tmp_header);
++		return _FALSE;
++	}
++
++	/* to write ext_header */
++	efuse_addr++;
++	pg_header = ((pTargetPkt->offset & 0x78) << 1) | pTargetPkt->word_en;
++
++	do {
++		rtw_efuse_bt_access(padapter, _TRUE, efuse_addr, 1, &pg_header);
++		rtw_efuse_bt_access(padapter, _FALSE, efuse_addr, 1, &tmp_header);
++
++		if (tmp_header != 0xFF)
++			break;
++		if (repeatcnt++ > EFUSE_REPEAT_THRESHOLD_) {
++			RTW_INFO("%s: Repeat over limit for ext_header!!\n", __FUNCTION__);
++			return _FALSE;
++		}
++	} while (1);
++
++	if (tmp_header != pg_header) {	/* offset PG fail */
++		RTW_ERR("%s: PG EXT Header Fail!!(pg=0x%02X read=0x%02X)\n", __FUNCTION__, pg_header, tmp_header);
++		return _FALSE;
++	}
++
++	*pAddr = efuse_addr;
++
++	return _TRUE;
++}
++
++
++static u8 hal_EfusePgPacketWrite1ByteHeader(
++	PADAPTER		pAdapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	u8	bRet = _FALSE;
++	u8	pg_header = 0, tmp_header = 0;
++	u16	efuse_addr = *pAddr;
++	u8	repeatcnt = 0;
++
++
++	/*	RTW_INFO("%s\n", __FUNCTION__); */
++	pg_header = ((pTargetPkt->offset << 4) & 0xf0) | pTargetPkt->word_en;
++
++	do {
++		rtw_efuse_bt_access(pAdapter, _TRUE, efuse_addr, 1, &pg_header);
++		rtw_efuse_bt_access(pAdapter, _FALSE, efuse_addr, 1, &tmp_header);
++
++		if (tmp_header != 0xFF)
++			break;
++		if (repeatcnt++ > EFUSE_REPEAT_THRESHOLD_) {
++			RTW_INFO("%s: Repeat over limit for pg_header!!\n", __FUNCTION__);
++			return _FALSE;
++		}
++	} while (1);
++
++	if (tmp_header != pg_header) {
++		RTW_ERR("%s: PG Header Fail!!(pg=0x%02X read=0x%02X)\n", __FUNCTION__, pg_header, tmp_header);
++		return _FALSE;
++	}
++
++	*pAddr = efuse_addr;
++
++	return _TRUE;
++}
++
++static u8 hal_EfusePgPacketWriteHeader(
++	PADAPTER		padapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	u8 bRet = _FALSE;
++
++	if (pTargetPkt->offset >= EFUSE_MAX_SECTION_BASE)
++		bRet = hal_EfusePgPacketWrite2ByteHeader(padapter, efuseType, pAddr, pTargetPkt, bPseudoTest);
++	else
++		bRet = hal_EfusePgPacketWrite1ByteHeader(padapter, efuseType, pAddr, pTargetPkt, bPseudoTest);
++
++	return bRet;
++}
++
++
++static u8
++Hal_EfuseWordEnableDataWrite(
++	PADAPTER	padapter,
++	u16			efuse_addr,
++	u8			word_en,
++	u8			*data,
++	u8			bPseudoTest)
++{
++	u16	tmpaddr = 0;
++	u16	start_addr = efuse_addr;
++	u8	badworden = 0x0F;
++	u8	tmpdata[PGPKT_DATA_SIZE];
++
++
++	/*	RTW_INFO("%s: efuse_addr=%#x word_en=%#x\n", __FUNCTION__, efuse_addr, word_en); */
++	_rtw_memset(tmpdata, 0xFF, PGPKT_DATA_SIZE);
++
++	if (!(word_en & BIT(0))) {
++		tmpaddr = start_addr;
++		rtw_efuse_bt_access(padapter, _TRUE, start_addr++, 1, &data[0]);
++		rtw_efuse_bt_access(padapter, _TRUE, start_addr++, 1, &data[1]);
++		rtw_efuse_bt_access(padapter, _FALSE, tmpaddr, 1, &tmpdata[0]);
++		rtw_efuse_bt_access(padapter, _FALSE, tmpaddr + 1, 1, &tmpdata[1]);
++		if ((data[0] != tmpdata[0]) || (data[1] != tmpdata[1]))
++			badworden &= (~BIT(0));
++	}
++	if (!(word_en & BIT(1))) {
++		tmpaddr = start_addr;
++		rtw_efuse_bt_access(padapter, _TRUE, start_addr++, 1, &data[2]);
++		rtw_efuse_bt_access(padapter, _TRUE, start_addr++, 1, &data[3]);
++		rtw_efuse_bt_access(padapter, _FALSE, tmpaddr, 1, &tmpdata[2]);
++		rtw_efuse_bt_access(padapter, _FALSE, tmpaddr + 1, 1, &tmpdata[3]);
++		if ((data[2] != tmpdata[2]) || (data[3] != tmpdata[3]))
++			badworden &= (~BIT(1));
++	}
++	if (!(word_en & BIT(2))) {
++		tmpaddr = start_addr;
++		rtw_efuse_bt_access(padapter, _TRUE, start_addr++, 1, &data[4]);
++		rtw_efuse_bt_access(padapter, _TRUE, start_addr++, 1, &data[5]);
++		rtw_efuse_bt_access(padapter, _FALSE, tmpaddr, 1, &tmpdata[4]);
++		rtw_efuse_bt_access(padapter, _FALSE, tmpaddr + 1, 1, &tmpdata[5]);
++		if ((data[4] != tmpdata[4]) || (data[5] != tmpdata[5]))
++			badworden &= (~BIT(2));
++	}
++	if (!(word_en & BIT(3))) {
++		tmpaddr = start_addr;
++		rtw_efuse_bt_access(padapter, _TRUE, start_addr++, 1, &data[6]);
++		rtw_efuse_bt_access(padapter, _TRUE, start_addr++, 1, &data[7]);
++		rtw_efuse_bt_access(padapter, _FALSE, tmpaddr, 1, &tmpdata[6]);
++		rtw_efuse_bt_access(padapter, _FALSE, tmpaddr + 1, 1, &tmpdata[7]);
++
++		if ((data[6] != tmpdata[6]) || (data[7] != tmpdata[7]))
++			badworden &= (~BIT(3));
++	}
++
++	return badworden;
++}
++
++static void
++hal_EfuseConstructPGPkt(
++	u8				offset,
++	u8				word_en,
++	u8				*pData,
++	PPGPKT_STRUCT	pTargetPkt)
++{
++	_rtw_memset(pTargetPkt->data, 0xFF, PGPKT_DATA_SIZE);
++	pTargetPkt->offset = offset;
++	pTargetPkt->word_en = word_en;
++	efuse_WordEnableDataRead(word_en, pData, pTargetPkt->data);
++	pTargetPkt->word_cnts = Efuse_CalculateWordCnts(pTargetPkt->word_en);
++}
++
++static u8
++hal_EfusePgPacketWriteData(
++	PADAPTER		pAdapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	u16	efuse_addr;
++	u8	badworden;
++
++	efuse_addr = *pAddr;
++	badworden = Hal_EfuseWordEnableDataWrite(pAdapter, efuse_addr + 1, pTargetPkt->word_en, pTargetPkt->data, bPseudoTest);
++	if (badworden != 0x0F) {
++		RTW_INFO("%s: Fail!!\n", __FUNCTION__);
++		return _FALSE;
++	}
++
++	/*	RTW_INFO("%s: ok\n", __FUNCTION__); */
++	return _TRUE;
++}
++
++u8 EfusePgPacketWrite_BT(
++	PADAPTER	pAdapter,
++	u8			offset,
++	u8			word_en,
++	u8			*pData,
++	u8			bPseudoTest)
++{
++	PGPKT_STRUCT targetPkt;
++	u16 startAddr = 0;
++	u8 efuseType = EFUSE_BT;
++
++	hal_EfuseConstructPGPkt(offset, word_en, pData, &targetPkt);
++
++	if (!hal_EfusePartialWriteCheck(pAdapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	if (!hal_EfusePgPacketWriteHeader(pAdapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	if (!hal_EfusePgPacketWriteData(pAdapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	return _TRUE;
++}
++
++
++#else /* !RTW_HALMAC */
++/* ------------------------------------------------------------------------------ */
++#define REG_EFUSE_CTRL		0x0030
++#define EFUSE_CTRL			REG_EFUSE_CTRL		/* E-Fuse Control. */
++/* ------------------------------------------------------------------------------ */
++
++BOOLEAN
++Efuse_Read1ByteFromFakeContent(
++	IN		PADAPTER	pAdapter,
++	IN		u16		Offset,
++	IN OUT	u8		*Value);
++BOOLEAN
++Efuse_Read1ByteFromFakeContent(
++	IN		PADAPTER	pAdapter,
++	IN		u16		Offset,
++	IN OUT	u8		*Value)
++{
++	if (Offset >= EFUSE_MAX_HW_SIZE)
++		return _FALSE;
++	/* DbgPrint("Read fake content, offset = %d\n", Offset); */
++	if (fakeEfuseBank == 0)
++		*Value = fakeEfuseContent[Offset];
++	else
++		*Value = fakeBTEfuseContent[fakeEfuseBank - 1][Offset];
++	return _TRUE;
++}
++
++BOOLEAN
++Efuse_Write1ByteToFakeContent(
++	IN		PADAPTER	pAdapter,
++	IN		u16		Offset,
++	IN		u8		Value);
++BOOLEAN
++Efuse_Write1ByteToFakeContent(
++	IN		PADAPTER	pAdapter,
++	IN		u16		Offset,
++	IN		u8		Value)
++{
++	if (Offset >= EFUSE_MAX_HW_SIZE)
++		return _FALSE;
++	if (fakeEfuseBank == 0)
++		fakeEfuseContent[Offset] = Value;
++	else
++		fakeBTEfuseContent[fakeEfuseBank - 1][Offset] = Value;
++	return _TRUE;
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	Efuse_PowerSwitch
++ *
++ * Overview:	When we want to enable write operation, we should change to
++ *				pwr on state. When we stop write, we should switch to 500k mode
++ *				and disable LDO 2.5V.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/17/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++Efuse_PowerSwitch(
++	IN	PADAPTER	pAdapter,
++	IN	u8		bWrite,
++	IN	u8		PwrState)
++{
++	pAdapter->HalFunc.EfusePowerSwitch(pAdapter, bWrite, PwrState);
++}
++
++VOID
++BTEfuse_PowerSwitch(
++	IN	PADAPTER	pAdapter,
++	IN	u8		bWrite,
++	IN	u8		PwrState)
++{
++	if (pAdapter->HalFunc.BTEfusePowerSwitch)
++		pAdapter->HalFunc.BTEfusePowerSwitch(pAdapter, bWrite, PwrState);
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	efuse_GetCurrentSize
++ *
++ * Overview:	Get current efuse size!!!
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/16/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++u16
++Efuse_GetCurrentSize(
++	IN PADAPTER		pAdapter,
++	IN u8			efuseType,
++	IN BOOLEAN		bPseudoTest)
++{
++	u16 ret = 0;
++
++	ret = pAdapter->HalFunc.EfuseGetCurrentSize(pAdapter, efuseType, bPseudoTest);
++
++	return ret;
++}
++
++/*
++ *	Description:
++ *		Execute E-Fuse read byte operation.
++ *		Refered from SD1 Richard.
++ *
++ *	Assumption:
++ *		1. Boot from E-Fuse and successfully auto-load.
++ *		2. PASSIVE_LEVEL (USB interface)
++ *
++ *	Created by Roger, 2008.10.21.
++ *   */
++VOID
++ReadEFuseByte(
++	PADAPTER	Adapter,
++	u16			_offset,
++	u8			*pbuf,
++	IN BOOLEAN	bPseudoTest)
++{
++	u32	value32;
++	u8	readbyte;
++	u16	retry;
++	/* u32 start=rtw_get_current_time(); */
++
++	if (bPseudoTest) {
++		Efuse_Read1ByteFromFakeContent(Adapter, _offset, pbuf);
++		return;
++	}
++	if (IS_HARDWARE_TYPE_8723B(Adapter)) {
++		/* <20130121, Kordan> For SMIC S55 EFUSE specificatoin. */
++		/* 0x34[11]: SW force PGMEN input of efuse to high. (for the bank selected by 0x34[9:8]) */
++		PHY_SetMacReg(Adapter, EFUSE_TEST, BIT11, 0);
++	}
++	/* Write Address */
++	rtw_write8(Adapter, EFUSE_CTRL + 1, (_offset & 0xff));
++	readbyte = rtw_read8(Adapter, EFUSE_CTRL + 2);
++	rtw_write8(Adapter, EFUSE_CTRL + 2, ((_offset >> 8) & 0x03) | (readbyte & 0xfc));
++
++	/* Write bit 32 0 */
++	readbyte = rtw_read8(Adapter, EFUSE_CTRL + 3);
++	rtw_write8(Adapter, EFUSE_CTRL + 3, (readbyte & 0x7f));
++
++	/* Check bit 32 read-ready */
++	retry = 0;
++	value32 = rtw_read32(Adapter, EFUSE_CTRL);
++	/* while(!(((value32 >> 24) & 0xff) & 0x80)  && (retry<10)) */
++	while (!(((value32 >> 24) & 0xff) & 0x80)  && (retry < 10000)) {
++		value32 = rtw_read32(Adapter, EFUSE_CTRL);
++		retry++;
++	}
++
++	/* 20100205 Joseph: Add delay suggested by SD1 Victor. */
++	/* This fix the problem that Efuse read error in high temperature condition. */
++	/* Designer says that there shall be some delay after ready bit is set, or the */
++	/* result will always stay on last data we read. */
++	rtw_udelay_os(50);
++	value32 = rtw_read32(Adapter, EFUSE_CTRL);
++
++	*pbuf = (u8)(value32 & 0xff);
++	/* RTW_INFO("ReadEFuseByte _offset:%08u, in %d ms\n",_offset ,rtw_get_passing_time_ms(start)); */
++
++}
++
++/*
++ *	Description:
++ *		1. Execute E-Fuse read byte operation according as map offset and
++ *		    save to E-Fuse table.
++ *		2. Refered from SD1 Richard.
++ *
++ *	Assumption:
++ *		1. Boot from E-Fuse and successfully auto-load.
++ *		2. PASSIVE_LEVEL (USB interface)
++ *
++ *	Created by Roger, 2008.10.21.
++ *
++ *	2008/12/12 MH	1. Reorganize code flow and reserve bytes. and add description.
++ *					2. Add efuse utilization collect.
++ *	2008/12/22 MH	Read Efuse must check if we write section 1 data again!!! Sec1
++ *					write addr must be after sec5.
++ *   */
++
++VOID
++efuse_ReadEFuse(
++	PADAPTER	Adapter,
++	u8		efuseType,
++	u16		_offset,
++	u16		_size_byte,
++	u8	*pbuf,
++	IN	BOOLEAN	bPseudoTest
++);
++VOID
++efuse_ReadEFuse(
++	PADAPTER	Adapter,
++	u8		efuseType,
++	u16		_offset,
++	u16		_size_byte,
++	u8	*pbuf,
++	IN	BOOLEAN	bPseudoTest
++)
++{
++	Adapter->HalFunc.ReadEFuse(Adapter, efuseType, _offset, _size_byte, pbuf, bPseudoTest);
++}
++
++VOID
++EFUSE_GetEfuseDefinition(
++	IN		PADAPTER	pAdapter,
++	IN		u8		efuseType,
++	IN		u8		type,
++	OUT		void		*pOut,
++	IN		BOOLEAN		bPseudoTest
++)
++{
++	pAdapter->HalFunc.EFUSEGetEfuseDefinition(pAdapter, efuseType, type, pOut, bPseudoTest);
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	EFUSE_Read1Byte
++ *
++ * Overview:	Copy from WMAC fot EFUSE read 1 byte.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 09/23/2008	MHC		Copy from WMAC.
++ *
++ *---------------------------------------------------------------------------*/
++u8
++EFUSE_Read1Byte(
++	IN	PADAPTER	Adapter,
++	IN	u16		Address)
++{
++	u8	data;
++	u8	Bytetemp = {0x00};
++	u8	temp = {0x00};
++	u32	k = 0;
++	u16	contentLen = 0;
++
++	EFUSE_GetEfuseDefinition(Adapter, EFUSE_WIFI , TYPE_EFUSE_REAL_CONTENT_LEN, (PVOID)&contentLen, _FALSE);
++
++	if (Address < contentLen) {	/* E-fuse 512Byte */
++		/* Write E-fuse Register address bit0~7 */
++		temp = Address & 0xFF;
++		rtw_write8(Adapter, EFUSE_CTRL + 1, temp);
++		Bytetemp = rtw_read8(Adapter, EFUSE_CTRL + 2);
++		/* Write E-fuse Register address bit8~9 */
++		temp = ((Address >> 8) & 0x03) | (Bytetemp & 0xFC);
++		rtw_write8(Adapter, EFUSE_CTRL + 2, temp);
++
++		/* Write 0x30[31]=0 */
++		Bytetemp = rtw_read8(Adapter, EFUSE_CTRL + 3);
++		temp = Bytetemp & 0x7F;
++		rtw_write8(Adapter, EFUSE_CTRL + 3, temp);
++
++		/* Wait Write-ready (0x30[31]=1) */
++		Bytetemp = rtw_read8(Adapter, EFUSE_CTRL + 3);
++		while (!(Bytetemp & 0x80)) {
++			Bytetemp = rtw_read8(Adapter, EFUSE_CTRL + 3);
++			k++;
++			if (k == 1000) {
++				k = 0;
++				break;
++			}
++		}
++		data = rtw_read8(Adapter, EFUSE_CTRL);
++		return data;
++	} else
++		return 0xFF;
++
++} /* EFUSE_Read1Byte */
++
++/*-----------------------------------------------------------------------------
++ * Function:	EFUSE_Write1Byte
++ *
++ * Overview:	Copy from WMAC fot EFUSE write 1 byte.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 09/23/2008	MHC		Copy from WMAC.
++ *
++ *---------------------------------------------------------------------------*/
++
++void
++EFUSE_Write1Byte(
++	IN	PADAPTER	Adapter,
++	IN	u16		Address,
++	IN	u8		Value);
++void
++EFUSE_Write1Byte(
++	IN	PADAPTER	Adapter,
++	IN	u16		Address,
++	IN	u8		Value)
++{
++	u8	Bytetemp = {0x00};
++	u8	temp = {0x00};
++	u32	k = 0;
++	u16	contentLen = 0;
++
++	EFUSE_GetEfuseDefinition(Adapter, EFUSE_WIFI , TYPE_EFUSE_REAL_CONTENT_LEN, (PVOID)&contentLen, _FALSE);
++
++	if (Address < contentLen) {	/* E-fuse 512Byte */
++		rtw_write8(Adapter, EFUSE_CTRL, Value);
++
++		/* Write E-fuse Register address bit0~7 */
++		temp = Address & 0xFF;
++		rtw_write8(Adapter, EFUSE_CTRL + 1, temp);
++		Bytetemp = rtw_read8(Adapter, EFUSE_CTRL + 2);
++
++		/* Write E-fuse Register address bit8~9 */
++		temp = ((Address >> 8) & 0x03) | (Bytetemp & 0xFC);
++		rtw_write8(Adapter, EFUSE_CTRL + 2, temp);
++
++		/* Write 0x30[31]=1 */
++		Bytetemp = rtw_read8(Adapter, EFUSE_CTRL + 3);
++		temp = Bytetemp | 0x80;
++		rtw_write8(Adapter, EFUSE_CTRL + 3, temp);
++
++		/* Wait Write-ready (0x30[31]=0) */
++		Bytetemp = rtw_read8(Adapter, EFUSE_CTRL + 3);
++		while (Bytetemp & 0x80) {
++			Bytetemp = rtw_read8(Adapter, EFUSE_CTRL + 3);
++			k++;
++			if (k == 100) {
++				k = 0;
++				break;
++			}
++		}
++	}
++} /* EFUSE_Write1Byte */
++
++
++/*  11/16/2008 MH Read one byte from real Efuse. */
++u8
++efuse_OneByteRead(
++	IN	PADAPTER	pAdapter,
++	IN	u16			addr,
++	IN	u8			*data,
++	IN	BOOLEAN		bPseudoTest)
++{
++	u32	tmpidx = 0;
++	u8	bResult;
++	u8	readbyte;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	/* RTW_INFO("===> EFUSE_OneByteRead(), addr = %x\n", addr); */
++	/* RTW_INFO("===> EFUSE_OneByteRead() start, 0x34 = 0x%X\n", rtw_read32(pAdapter, EFUSE_TEST)); */
++
++	if (bPseudoTest) {
++		bResult = Efuse_Read1ByteFromFakeContent(pAdapter, addr, data);
++		return bResult;
++	}
++
++	if (IS_HARDWARE_TYPE_8723B(pAdapter) ||
++	    (IS_HARDWARE_TYPE_8192E(pAdapter) && (!IS_A_CUT(pHalData->VersionID))) ||
++	    (IS_VENDOR_8188E_I_CUT_SERIES(pAdapter)) || (IS_CHIP_VENDOR_SMIC(pHalData->VersionID))
++	   ) {
++		/* <20130121, Kordan> For SMIC EFUSE specificatoin. */
++		/* 0x34[11]: SW force PGMEN input of efuse to high. (for the bank selected by 0x34[9:8])	 */
++		/* PHY_SetMacReg(pAdapter, 0x34, BIT11, 0); */
++		rtw_write16(pAdapter, 0x34, rtw_read16(pAdapter, 0x34) & (~BIT11));
++	}
++
++	/* -----------------e-fuse reg ctrl --------------------------------- */
++	/* address			 */
++	rtw_write8(pAdapter, EFUSE_CTRL + 1, (u8)(addr & 0xff));
++	rtw_write8(pAdapter, EFUSE_CTRL + 2, ((u8)((addr >> 8) & 0x03)) |
++		   (rtw_read8(pAdapter, EFUSE_CTRL + 2) & 0xFC));
++
++	/* rtw_write8(pAdapter, EFUSE_CTRL+3,  0x72); */ /* read cmd	 */
++	/* Write bit 32 0 */
++	readbyte = rtw_read8(pAdapter, EFUSE_CTRL + 3);
++	rtw_write8(pAdapter, EFUSE_CTRL + 3, (readbyte & 0x7f));
++
++	while (!(0x80 & rtw_read8(pAdapter, EFUSE_CTRL + 3)) && (tmpidx < 1000)) {
++		rtw_mdelay_os(1);
++		tmpidx++;
++	}
++	if (tmpidx < 100) {
++		*data = rtw_read8(pAdapter, EFUSE_CTRL);
++		bResult = _TRUE;
++	} else {
++		*data = 0xff;
++		bResult = _FALSE;
++		RTW_INFO("%s: [ERROR] addr=0x%x bResult=%d time out 1s !!!\n", __FUNCTION__, addr, bResult);
++		RTW_INFO("%s: [ERROR] EFUSE_CTRL =0x%08x !!!\n", __FUNCTION__, rtw_read32(pAdapter, EFUSE_CTRL));
++	}
++
++	return bResult;
++}
++
++/*  11/16/2008 MH Write one byte to reald Efuse. */
++u8
++efuse_OneByteWrite(
++	IN	PADAPTER	pAdapter,
++	IN	u16			addr,
++	IN	u8			data,
++	IN	BOOLEAN		bPseudoTest)
++{
++	u8	tmpidx = 0;
++	u8	bResult = _FALSE;
++	u32 efuseValue = 0;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	/* RTW_INFO("===> EFUSE_OneByteWrite(), addr = %x data=%x\n", addr, data); */
++	/* RTW_INFO("===> EFUSE_OneByteWrite() start, 0x34 = 0x%X\n", rtw_read32(pAdapter, EFUSE_TEST)); */
++
++	if (bPseudoTest) {
++		bResult = Efuse_Write1ByteToFakeContent(pAdapter, addr, data);
++		return bResult;
++	}
++
++	Efuse_PowerSwitch(pAdapter, _TRUE, _TRUE);
++
++	/* -----------------e-fuse reg ctrl ---------------------------------	 */
++	/* address			 */
++
++
++	efuseValue = rtw_read32(pAdapter, EFUSE_CTRL);
++	efuseValue |= (BIT21 | BIT31);
++	efuseValue &= ~(0x3FFFF);
++	efuseValue |= ((addr << 8 | data) & 0x3FFFF);
++
++	/* <20130227, Kordan> 8192E MP chip A-cut had better not set 0x34[11] until B-Cut. */
++	if (IS_HARDWARE_TYPE_8723B(pAdapter) ||
++	    (IS_HARDWARE_TYPE_8192E(pAdapter) && (!IS_A_CUT(pHalData->VersionID))) ||
++	    (IS_VENDOR_8188E_I_CUT_SERIES(pAdapter)) || (IS_CHIP_VENDOR_SMIC(pHalData->VersionID))
++	   ) {
++		/* <20130121, Kordan> For SMIC EFUSE specificatoin. */
++		/* 0x34[11]: SW force PGMEN input of efuse to high. (for the bank selected by 0x34[9:8]) */
++		/* PHY_SetMacReg(pAdapter, 0x34, BIT11, 1); */
++		rtw_write16(pAdapter, 0x34, rtw_read16(pAdapter, 0x34) | (BIT11));
++		rtw_write32(pAdapter, EFUSE_CTRL, 0x90600000 | ((addr << 8 | data)));
++	} else
++		rtw_write32(pAdapter, EFUSE_CTRL, efuseValue);
++
++	while ((0x80 &  rtw_read8(pAdapter, EFUSE_CTRL + 3)) && (tmpidx < 100)) {
++		rtw_mdelay_os(1);
++		tmpidx++;
++	}
++
++	if (tmpidx < 100)
++		bResult = _TRUE;
++	else {
++		bResult = _FALSE;
++		RTW_INFO("%s: [ERROR] addr=0x%x ,efuseValue=0x%x ,bResult=%d time out 1s !!!\n",
++			 __FUNCTION__, addr, efuseValue, bResult);
++		RTW_INFO("%s: [ERROR] EFUSE_CTRL =0x%08x !!!\n", __FUNCTION__, rtw_read32(pAdapter, EFUSE_CTRL));
++	}
++
++	/* disable Efuse program enable */
++	if (IS_HARDWARE_TYPE_8723B(pAdapter) ||
++	    (IS_HARDWARE_TYPE_8192E(pAdapter) && (!IS_A_CUT(pHalData->VersionID))) ||
++	    (IS_VENDOR_8188E_I_CUT_SERIES(pAdapter)) || (IS_CHIP_VENDOR_SMIC(pHalData->VersionID))
++	   )
++		PHY_SetMacReg(pAdapter, EFUSE_TEST, BIT(11), 0);
++
++	Efuse_PowerSwitch(pAdapter, _TRUE, _FALSE);
++
++	return bResult;
++}
++
++int
++Efuse_PgPacketRead(IN	PADAPTER	pAdapter,
++		   IN	u8			offset,
++		   IN	u8			*data,
++		   IN	BOOLEAN		bPseudoTest)
++{
++	int	ret = 0;
++
++	ret =  pAdapter->HalFunc.Efuse_PgPacketRead(pAdapter, offset, data, bPseudoTest);
++
++	return ret;
++}
++
++int
++Efuse_PgPacketWrite(IN	PADAPTER	pAdapter,
++		    IN	u8			offset,
++		    IN	u8			word_en,
++		    IN	u8			*data,
++		    IN	BOOLEAN		bPseudoTest)
++{
++	int ret;
++
++	ret =  pAdapter->HalFunc.Efuse_PgPacketWrite(pAdapter, offset, word_en, data, bPseudoTest);
++
++	return ret;
++}
++
++
++int
++Efuse_PgPacketWrite_BT(IN	PADAPTER	pAdapter,
++		       IN	u8			offset,
++		       IN	u8			word_en,
++		       IN	u8			*data,
++		       IN	BOOLEAN		bPseudoTest)
++{
++	int ret;
++
++	ret =  pAdapter->HalFunc.Efuse_PgPacketWrite_BT(pAdapter, offset, word_en, data, bPseudoTest);
++
++	return ret;
++}
++
++
++u8
++Efuse_WordEnableDataWrite(IN	PADAPTER	pAdapter,
++			  IN	u16		efuse_addr,
++			  IN	u8		word_en,
++			  IN	u8		*data,
++			  IN	BOOLEAN		bPseudoTest)
++{
++	u8	ret = 0;
++
++	ret =  pAdapter->HalFunc.Efuse_WordEnableDataWrite(pAdapter, efuse_addr, word_en, data, bPseudoTest);
++
++	return ret;
++}
++
++static u8 efuse_read8(PADAPTER padapter, u16 address, u8 *value)
++{
++	return efuse_OneByteRead(padapter, address, value, _FALSE);
++}
++
++static u8 efuse_write8(PADAPTER padapter, u16 address, u8 *value)
++{
++	return efuse_OneByteWrite(padapter, address, *value, _FALSE);
++}
++
++/*
++ * read/wirte raw efuse data
++ */
++u8 rtw_efuse_access(PADAPTER padapter, u8 bWrite, u16 start_addr, u16 cnts, u8 *data)
++{
++	int i = 0;
++	u16	real_content_len = 0, max_available_size = 0;
++	u8 res = _FAIL ;
++	u8(*rw8)(PADAPTER, u16, u8 *);
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_REAL_CONTENT_LEN, (PVOID)&real_content_len, _FALSE);
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_available_size, _FALSE);
++
++	if (start_addr > real_content_len)
++		return _FAIL;
++
++	if (_TRUE == bWrite) {
++		if ((start_addr + cnts) > max_available_size)
++			return _FAIL;
++		rw8 = &efuse_write8;
++	} else
++		rw8 = &efuse_read8;
++
++	Efuse_PowerSwitch(padapter, bWrite, _TRUE);
++
++	/* e-fuse one byte read / write */
++	for (i = 0; i < cnts; i++) {
++		if (start_addr >= real_content_len) {
++			res = _FAIL;
++			break;
++		}
++
++		res = rw8(padapter, start_addr++, data++);
++		if (_FAIL == res)
++			break;
++	}
++
++	Efuse_PowerSwitch(padapter, bWrite, _FALSE);
++
++	return res;
++}
++/* ------------------------------------------------------------------------------ */
++u16 efuse_GetMaxSize(PADAPTER padapter)
++{
++	u16	max_size;
++
++	max_size = 0;
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI , TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_size, _FALSE);
++	return max_size;
++}
++/* ------------------------------------------------------------------------------ */
++u8 efuse_GetCurrentSize(PADAPTER padapter, u16 *size)
++{
++	Efuse_PowerSwitch(padapter, _FALSE, _TRUE);
++	*size = Efuse_GetCurrentSize(padapter, EFUSE_WIFI, _FALSE);
++	Efuse_PowerSwitch(padapter, _FALSE, _FALSE);
++
++	return _SUCCESS;
++}
++/* ------------------------------------------------------------------------------ */
++u16 efuse_bt_GetMaxSize(PADAPTER padapter)
++{
++	u16	max_size;
++
++	max_size = 0;
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_BT , TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_size, _FALSE);
++	return max_size;
++}
++
++u8 efuse_bt_GetCurrentSize(PADAPTER padapter, u16 *size)
++{
++	Efuse_PowerSwitch(padapter, _FALSE, _TRUE);
++	*size = Efuse_GetCurrentSize(padapter, EFUSE_BT, _FALSE);
++	Efuse_PowerSwitch(padapter, _FALSE, _FALSE);
++
++	return _SUCCESS;
++}
++
++u8 rtw_efuse_map_read(PADAPTER padapter, u16 addr, u16 cnts, u8 *data)
++{
++	u16	mapLen = 0;
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
++
++	if ((addr + cnts) > mapLen)
++		return _FAIL;
++
++	Efuse_PowerSwitch(padapter, _FALSE, _TRUE);
++
++	efuse_ReadEFuse(padapter, EFUSE_WIFI, addr, cnts, data, _FALSE);
++
++	Efuse_PowerSwitch(padapter, _FALSE, _FALSE);
++
++	return _SUCCESS;
++}
++
++u8 rtw_BT_efuse_map_read(PADAPTER padapter, u16 addr, u16 cnts, u8 *data)
++{
++	u16	mapLen = 0;
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_BT, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
++
++	if ((addr + cnts) > mapLen)
++		return _FAIL;
++
++	Efuse_PowerSwitch(padapter, _FALSE, _TRUE);
++
++	efuse_ReadEFuse(padapter, EFUSE_BT, addr, cnts, data, _FALSE);
++
++	Efuse_PowerSwitch(padapter, _FALSE, _FALSE);
++
++	return _SUCCESS;
++}
++
++/* ------------------------------------------------------------------------------ */
++u8 rtw_efuse_map_write(PADAPTER padapter, u16 addr, u16 cnts, u8 *data)
++{
++#define RT_ASSERT_RET(expr)												\
++	if (!(expr)) {															\
++		printk("Assertion failed! %s at ......\n", #expr);							\
++		printk("      ......%s,%s, line=%d\n",__FILE__, __FUNCTION__, __LINE__);	\
++		return _FAIL;	\
++	}
++
++	u8	offset, word_en;
++	u8	*map;
++	u8	newdata[PGPKT_DATA_SIZE];
++	s32	i, j, idx;
++	u8	ret = _SUCCESS;
++	u16	mapLen = 0;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
++
++	if ((addr + cnts) > mapLen)
++		return _FAIL;
++
++	RT_ASSERT_RET(PGPKT_DATA_SIZE == 8); /* have to be 8 byte alignment */
++	RT_ASSERT_RET((mapLen & 0x7) == 0); /* have to be PGPKT_DATA_SIZE alignment for memcpy */
++
++	map = rtw_zmalloc(mapLen);
++	if (map == NULL)
++		return _FAIL;
++
++	_rtw_memset(map, 0xFF, mapLen);
++
++	ret = rtw_efuse_map_read(padapter, 0, mapLen, map);
++	if (ret == _FAIL)
++		goto exit;
++
++	if (padapter->registrypriv.boffefusemask == 0) {
++		for (i = 0; i < cnts; i++) {
++			if (padapter->registrypriv.bFileMaskEfuse == _TRUE) {
++				if (rtw_file_efuse_IsMasked(padapter, addr + i))	/*use file efuse mask. */
++					data[i] = map[addr + i];
++			} else {
++				if (efuse_IsMasked(padapter, addr + i))
++					data[i] = map[addr + i];
++			}
++			RTW_INFO("%s , data[%d] = %x, map[addr+i]= %x\n", __func__, i, data[i], map[addr + i]);
++		}
++	}
++	/*Efuse_PowerSwitch(padapter, _TRUE, _TRUE);*/
++
++	idx = 0;
++	offset = (addr >> 3);
++	while (idx < cnts) {
++		word_en = 0xF;
++		j = (addr + idx) & 0x7;
++		_rtw_memcpy(newdata, &map[offset << 3], PGPKT_DATA_SIZE);
++		for (i = j; i < PGPKT_DATA_SIZE && idx < cnts; i++, idx++) {
++			if (data[idx] != map[addr + idx]) {
++				word_en &= ~BIT(i >> 1);
++				newdata[i] = data[idx];
++#ifdef CONFIG_RTL8723B
++				if (addr + idx == 0x8) {
++					if (IS_C_CUT(pHalData->VersionID) || IS_B_CUT(pHalData->VersionID)) {
++						if (pHalData->adjuseVoltageVal == 6) {
++							newdata[i] = map[addr + idx];
++							RTW_INFO(" %s ,\n adjuseVoltageVal = %d ,newdata[%d] = %x\n", __func__, pHalData->adjuseVoltageVal, i, newdata[i]);
++						}
++					}
++				}
++#endif
++			}
++		}
++
++		if (word_en != 0xF) {
++			ret = Efuse_PgPacketWrite(padapter, offset, word_en, newdata, _FALSE);
++			RTW_INFO("offset=%x\n", offset);
++			RTW_INFO("word_en=%x\n", word_en);
++
++			for (i = 0; i < PGPKT_DATA_SIZE; i++)
++				RTW_INFO("data=%x \t", newdata[i]);
++			if (ret == _FAIL)
++				break;
++		}
++
++		offset++;
++	}
++
++	/*Efuse_PowerSwitch(padapter, _TRUE, _FALSE);*/
++
++exit:
++
++	rtw_mfree(map, mapLen);
++
++	return ret;
++}
++
++u8 rtw_efuse_mask_map_read(PADAPTER padapter, u16 addr, u16 cnts, u8 *data)
++{
++	u8	ret = _SUCCESS;
++	u16	mapLen = 0, i = 0;
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
++
++	ret = rtw_efuse_map_read(padapter, addr, cnts , data);
++
++	if (padapter->registrypriv.boffefusemask == 0) {
++
++		for (i = 0; i < cnts; i++) {
++			if (padapter->registrypriv.bFileMaskEfuse == _TRUE) {
++				if (rtw_file_efuse_IsMasked(padapter, addr + i)) /*use file efuse mask.*/
++					data[i] = 0xff;
++			} else {
++				/*RTW_INFO(" %s , data[%d] = %x\n", __func__, i, data[i]);*/
++				if (efuse_IsMasked(padapter, addr + i)) {
++					data[i] = 0xff;
++					/*RTW_INFO(" %s ,mask data[%d] = %x\n", __func__, i, data[i]);*/
++				}
++			}
++		}
++
++	}
++	return ret;
++
++}
++
++u8 rtw_BT_efuse_map_write(PADAPTER padapter, u16 addr, u16 cnts, u8 *data)
++{
++#define RT_ASSERT_RET(expr)												\
++	if (!(expr)) {															\
++		printk("Assertion failed! %s at ......\n", #expr);							\
++		printk("      ......%s,%s, line=%d\n",__FILE__, __FUNCTION__, __LINE__);	\
++		return _FAIL;	\
++	}
++
++	u8	offset, word_en;
++	u8	*map;
++	u8	newdata[PGPKT_DATA_SIZE];
++	s32	i = 0, j = 0, idx;
++	u8	ret = _SUCCESS;
++	u16	mapLen = 0;
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_BT, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
++
++	if ((addr + cnts) > mapLen)
++		return _FAIL;
++
++	RT_ASSERT_RET(PGPKT_DATA_SIZE == 8); /* have to be 8 byte alignment */
++	RT_ASSERT_RET((mapLen & 0x7) == 0); /* have to be PGPKT_DATA_SIZE alignment for memcpy */
++
++	map = rtw_zmalloc(mapLen);
++	if (map == NULL)
++		return _FAIL;
++
++	ret = rtw_BT_efuse_map_read(padapter, 0, mapLen, map);
++	if (ret == _FAIL)
++		goto exit;
++	RTW_INFO("OFFSET\tVALUE(hex)\n");
++	for (i = 0; i < 1024; i += 16) { /* set 512 because the iwpriv's extra size have limit 0x7FF */
++		RTW_INFO("0x%03x\t", i);
++		for (j = 0; j < 8; j++)
++			RTW_INFO("%02X ", map[i + j]);
++		RTW_INFO("\t");
++		for (; j < 16; j++)
++			RTW_INFO("%02X ", map[i + j]);
++		RTW_INFO("\n");
++	}
++	RTW_INFO("\n");
++	Efuse_PowerSwitch(padapter, _TRUE, _TRUE);
++
++	idx = 0;
++	offset = (addr >> 3);
++	while (idx < cnts) {
++		word_en = 0xF;
++		j = (addr + idx) & 0x7;
++		_rtw_memcpy(newdata, &map[offset << 3], PGPKT_DATA_SIZE);
++		for (i = j; i < PGPKT_DATA_SIZE && idx < cnts; i++, idx++) {
++			if (data[idx] != map[addr + idx]) {
++				word_en &= ~BIT(i >> 1);
++				newdata[i] = data[idx];
++			}
++		}
++
++		if (word_en != 0xF) {
++			RTW_INFO("offset=%x\n", offset);
++			RTW_INFO("word_en=%x\n", word_en);
++			RTW_INFO("%s: data=", __FUNCTION__);
++			for (i = 0; i < PGPKT_DATA_SIZE; i++)
++				RTW_INFO("0x%02X ", newdata[i]);
++			RTW_INFO("\n");
++			ret = Efuse_PgPacketWrite_BT(padapter, offset, word_en, newdata, _FALSE);
++			if (ret == _FAIL)
++				break;
++		}
++
++		offset++;
++	}
++
++	Efuse_PowerSwitch(padapter, _TRUE, _FALSE);
++
++exit:
++
++	rtw_mfree(map, mapLen);
++
++	return ret;
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	Efuse_ReadAllMap
++ *
++ * Overview:	Read All Efuse content
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/11/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++Efuse_ReadAllMap(
++	IN		PADAPTER	pAdapter,
++	IN		u8		efuseType,
++	IN OUT	u8		*Efuse,
++	IN		BOOLEAN		bPseudoTest);
++VOID
++Efuse_ReadAllMap(
++	IN		PADAPTER	pAdapter,
++	IN		u8		efuseType,
++	IN OUT	u8		*Efuse,
++	IN		BOOLEAN		bPseudoTest)
++{
++	u16	mapLen = 0;
++
++	Efuse_PowerSwitch(pAdapter, _FALSE, _TRUE);
++
++	EFUSE_GetEfuseDefinition(pAdapter, efuseType, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, bPseudoTest);
++
++	efuse_ReadEFuse(pAdapter, efuseType, 0, mapLen, Efuse, bPseudoTest);
++
++	Efuse_PowerSwitch(pAdapter, _FALSE, _FALSE);
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	efuse_ShadowRead1Byte
++ *			efuse_ShadowRead2Byte
++ *			efuse_ShadowRead4Byte
++ *
++ * Overview:	Read from efuse init map by one/two/four bytes !!!!!
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/12/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++static VOID
++efuse_ShadowRead1Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN OUT	u8		*Value)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++
++	*Value = pHalData->efuse_eeprom_data[Offset];
++
++}	/* EFUSE_ShadowRead1Byte */
++
++/* ---------------Read Two Bytes */
++static VOID
++efuse_ShadowRead2Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN OUT	u16		*Value)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++
++	*Value = pHalData->efuse_eeprom_data[Offset];
++	*Value |= pHalData->efuse_eeprom_data[Offset + 1] << 8;
++
++}	/* EFUSE_ShadowRead2Byte */
++
++/* ---------------Read Four Bytes */
++static VOID
++efuse_ShadowRead4Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN OUT	u32		*Value)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++
++	*Value = pHalData->efuse_eeprom_data[Offset];
++	*Value |= pHalData->efuse_eeprom_data[Offset + 1] << 8;
++	*Value |= pHalData->efuse_eeprom_data[Offset + 2] << 16;
++	*Value |= pHalData->efuse_eeprom_data[Offset + 3] << 24;
++
++}	/* efuse_ShadowRead4Byte */
++
++
++/*-----------------------------------------------------------------------------
++ * Function:	efuse_ShadowWrite1Byte
++ *			efuse_ShadowWrite2Byte
++ *			efuse_ShadowWrite4Byte
++ *
++ * Overview:	Write efuse modify map by one/two/four byte.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/12/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++#ifdef PLATFORM
++static VOID
++efuse_ShadowWrite1Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN	u8		Value);
++#endif /* PLATFORM */
++static VOID
++efuse_ShadowWrite1Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN	u8		Value)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++
++	pHalData->efuse_eeprom_data[Offset] = Value;
++
++}	/* efuse_ShadowWrite1Byte */
++
++/* ---------------Write Two Bytes */
++static VOID
++efuse_ShadowWrite2Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN	u16		Value)
++{
++
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++
++
++	pHalData->efuse_eeprom_data[Offset] = Value & 0x00FF;
++	pHalData->efuse_eeprom_data[Offset + 1] = Value >> 8;
++
++}	/* efuse_ShadowWrite1Byte */
++
++/* ---------------Write Four Bytes */
++static VOID
++efuse_ShadowWrite4Byte(
++	IN	PADAPTER	pAdapter,
++	IN	u16		Offset,
++	IN	u32		Value)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++
++	pHalData->efuse_eeprom_data[Offset] = (u8)(Value & 0x000000FF);
++	pHalData->efuse_eeprom_data[Offset + 1] = (u8)((Value >> 8) & 0x0000FF);
++	pHalData->efuse_eeprom_data[Offset + 2] = (u8)((Value >> 16) & 0x00FF);
++	pHalData->efuse_eeprom_data[Offset + 3] = (u8)((Value >> 24) & 0xFF);
++
++}	/* efuse_ShadowWrite1Byte */
++
++
++/*-----------------------------------------------------------------------------
++ * Function:	EFUSE_ShadowRead
++ *
++ * Overview:	Read from efuse init map !!!!!
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/12/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++void
++EFUSE_ShadowRead(
++	IN		PADAPTER	pAdapter,
++	IN		u8		Type,
++	IN		u16		Offset,
++	IN OUT	u32		*Value)
++{
++	if (Type == 1)
++		efuse_ShadowRead1Byte(pAdapter, Offset, (u8 *)Value);
++	else if (Type == 2)
++		efuse_ShadowRead2Byte(pAdapter, Offset, (u16 *)Value);
++	else if (Type == 4)
++		efuse_ShadowRead4Byte(pAdapter, Offset, (u32 *)Value);
++
++}	/* EFUSE_ShadowRead */
++
++/*-----------------------------------------------------------------------------
++ * Function:	EFUSE_ShadowWrite
++ *
++ * Overview:	Write efuse modify map for later update operation to use!!!!!
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/12/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++EFUSE_ShadowWrite(
++	IN	PADAPTER	pAdapter,
++	IN	u8		Type,
++	IN	u16		Offset,
++	IN OUT	u32		Value);
++VOID
++EFUSE_ShadowWrite(
++	IN	PADAPTER	pAdapter,
++	IN	u8		Type,
++	IN	u16		Offset,
++	IN OUT	u32		Value)
++{
++#if (MP_DRIVER == 0)
++	return;
++#endif
++	if (pAdapter->registrypriv.mp_mode == 0)
++		return;
++
++
++	if (Type == 1)
++		efuse_ShadowWrite1Byte(pAdapter, Offset, (u8)Value);
++	else if (Type == 2)
++		efuse_ShadowWrite2Byte(pAdapter, Offset, (u16)Value);
++	else if (Type == 4)
++		efuse_ShadowWrite4Byte(pAdapter, Offset, (u32)Value);
++
++}	/* EFUSE_ShadowWrite */
++
++VOID
++Efuse_InitSomeVar(
++	IN		PADAPTER	pAdapter
++);
++VOID
++Efuse_InitSomeVar(
++	IN		PADAPTER	pAdapter
++)
++{
++	u8 i;
++
++	_rtw_memset((PVOID)&fakeEfuseContent[0], 0xff, EFUSE_MAX_HW_SIZE);
++	_rtw_memset((PVOID)&fakeEfuseInitMap[0], 0xff, EFUSE_MAX_MAP_LEN);
++	_rtw_memset((PVOID)&fakeEfuseModifiedMap[0], 0xff, EFUSE_MAX_MAP_LEN);
++
++	for (i = 0; i < EFUSE_MAX_BT_BANK; i++)
++		_rtw_memset((PVOID)&BTEfuseContent[i][0], EFUSE_MAX_HW_SIZE, 0xff);
++	_rtw_memset((PVOID)&BTEfuseInitMap[0], 0xff, EFUSE_BT_MAX_MAP_LEN);
++	_rtw_memset((PVOID)&BTEfuseModifiedMap[0], 0xff, EFUSE_BT_MAX_MAP_LEN);
++
++	for (i = 0; i < EFUSE_MAX_BT_BANK; i++)
++		_rtw_memset((PVOID)&fakeBTEfuseContent[i][0], 0xff, EFUSE_MAX_HW_SIZE);
++	_rtw_memset((PVOID)&fakeBTEfuseInitMap[0], 0xff, EFUSE_BT_MAX_MAP_LEN);
++	_rtw_memset((PVOID)&fakeBTEfuseModifiedMap[0], 0xff, EFUSE_BT_MAX_MAP_LEN);
++}
++#endif /* !RTW_HALMAC */
++/*  11/16/2008 MH Add description. Get current efuse area enabled word!!. */
++u8
++Efuse_CalculateWordCnts(IN u8	word_en)
++{
++	u8 word_cnts = 0;
++	if (!(word_en & BIT(0)))
++		word_cnts++; /* 0 : write enable */
++	if (!(word_en & BIT(1)))
++		word_cnts++;
++	if (!(word_en & BIT(2)))
++		word_cnts++;
++	if (!(word_en & BIT(3)))
++		word_cnts++;
++	return word_cnts;
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	efuse_WordEnableDataRead
++ *
++ * Overview:	Read allowed word in current efuse section data.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/16/2008	MHC		Create Version 0.
++ * 11/21/2008	MHC		Fix Write bug when we only enable late word.
++ *
++ *---------------------------------------------------------------------------*/
++void
++efuse_WordEnableDataRead(IN	u8	word_en,
++			 IN	u8	*sourdata,
++			 IN	u8	*targetdata)
++{
++	if (!(word_en & BIT(0))) {
++		targetdata[0] = sourdata[0];
++		targetdata[1] = sourdata[1];
++	}
++	if (!(word_en & BIT(1))) {
++		targetdata[2] = sourdata[2];
++		targetdata[3] = sourdata[3];
++	}
++	if (!(word_en & BIT(2))) {
++		targetdata[4] = sourdata[4];
++		targetdata[5] = sourdata[5];
++	}
++	if (!(word_en & BIT(3))) {
++		targetdata[6] = sourdata[6];
++		targetdata[7] = sourdata[7];
++	}
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	EFUSE_ShadowMapUpdate
++ *
++ * Overview:	Transfer current EFUSE content to shadow init and modify map.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/13/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++void EFUSE_ShadowMapUpdate(
++	IN PADAPTER	pAdapter,
++	IN u8		efuseType,
++	IN BOOLEAN	bPseudoTest)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++	u16	mapLen = 0;
++#ifdef RTW_HALMAC
++	u8 *efuse_map = NULL;
++	int err;
++
++
++	mapLen = EEPROM_MAX_SIZE;
++	efuse_map = pHalData->efuse_eeprom_data;
++	/* efuse default content is 0xFF */
++	_rtw_memset(efuse_map, 0xFF, EEPROM_MAX_SIZE);
++
++	EFUSE_GetEfuseDefinition(pAdapter, efuseType, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, bPseudoTest);
++	if (!mapLen) {
++		RTW_WARN("%s: <ERROR> fail to get efuse size!\n", __FUNCTION__);
++		mapLen = EEPROM_MAX_SIZE;
++	}
++	if (mapLen > EEPROM_MAX_SIZE) {
++		RTW_WARN("%s: <ERROR> size of efuse data(%d) is large than expected(%d)!\n",
++			 __FUNCTION__, mapLen, EEPROM_MAX_SIZE);
++		mapLen = EEPROM_MAX_SIZE;
++	}
++
++	if (pHalData->bautoload_fail_flag == _FALSE) {
++		err = rtw_halmac_read_logical_efuse_map(adapter_to_dvobj(pAdapter), efuse_map, mapLen);
++		if (err)
++			RTW_ERR("%s: <ERROR> fail to get efuse map!\n", __FUNCTION__);
++	}
++#else /* !RTW_HALMAC */
++	EFUSE_GetEfuseDefinition(pAdapter, efuseType, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, bPseudoTest);
++
++	if (pHalData->bautoload_fail_flag == _TRUE)
++		_rtw_memset(pHalData->efuse_eeprom_data, 0xFF, mapLen);
++	else {
++#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++		if (_SUCCESS != retriveAdaptorInfoFile(pAdapter->registrypriv.adaptor_info_caching_file_path, pHalData->efuse_eeprom_data)) {
++#endif
++
++			Efuse_ReadAllMap(pAdapter, efuseType, pHalData->efuse_eeprom_data, bPseudoTest);
++
++#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++			storeAdaptorInfoFile(pAdapter->registrypriv.adaptor_info_caching_file_path, pHalData->efuse_eeprom_data);
++		}
++#endif
++	}
++
++	/* PlatformMoveMemory((PVOID)&pHalData->EfuseMap[EFUSE_MODIFY_MAP][0], */
++	/* (PVOID)&pHalData->EfuseMap[EFUSE_INIT_MAP][0], mapLen); */
++#endif /* !RTW_HALMAC */
++
++	rtw_dump_cur_efuse(pAdapter);
++} /* EFUSE_ShadowMapUpdate */
++
++const u8 _mac_hidden_max_bw_to_hal_bw_cap[MAC_HIDDEN_MAX_BW_NUM] = {
++	0,
++	0,
++	(BW_CAP_160M | BW_CAP_80M | BW_CAP_40M | BW_CAP_20M | BW_CAP_10M | BW_CAP_5M),
++	(BW_CAP_5M),
++	(BW_CAP_10M | BW_CAP_5M),
++	(BW_CAP_20M | BW_CAP_10M | BW_CAP_5M),
++	(BW_CAP_40M | BW_CAP_20M | BW_CAP_10M | BW_CAP_5M),
++	(BW_CAP_80M | BW_CAP_40M | BW_CAP_20M | BW_CAP_10M | BW_CAP_5M),
++};
++
++const u8 _mac_hidden_proto_to_hal_proto_cap[MAC_HIDDEN_PROTOCOL_NUM] = {
++	0,
++	0,
++	(PROTO_CAP_11N | PROTO_CAP_11G | PROTO_CAP_11B),
++	(PROTO_CAP_11AC | PROTO_CAP_11N | PROTO_CAP_11G | PROTO_CAP_11B),
++};
++
++u8 mac_hidden_wl_func_to_hal_wl_func(u8 func)
++{
++	u8 wl_func = 0;
++
++	if (func & BIT0)
++		wl_func |= WL_FUNC_MIRACAST;
++	if (func & BIT1)
++		wl_func |= WL_FUNC_P2P;
++	if (func & BIT2)
++		wl_func |= WL_FUNC_TDLS;
++	if (func & BIT3)
++		wl_func |= WL_FUNC_FTM;
++
++	return wl_func;
++}
++
++#ifdef PLATFORM_LINUX
++#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++/* #include <rtw_eeprom.h> */
++
++int isAdaptorInfoFileValid(void)
++{
++	return _TRUE;
++}
++
++int storeAdaptorInfoFile(char *path, u8 *efuse_data)
++{
++	int ret = _SUCCESS;
++
++	if (path && efuse_data) {
++		ret = rtw_store_to_file(path, efuse_data, EEPROM_MAX_SIZE_512);
++		if (ret == EEPROM_MAX_SIZE)
++			ret = _SUCCESS;
++		else
++			ret = _FAIL;
++	} else {
++		RTW_INFO("%s NULL pointer\n", __FUNCTION__);
++		ret =  _FAIL;
++	}
++	return ret;
++}
++
++int retriveAdaptorInfoFile(char *path, u8 *efuse_data)
++{
++	int ret = _SUCCESS;
++	mm_segment_t oldfs;
++	struct file *fp;
++
++	if (path && efuse_data) {
++
++		ret = rtw_retrieve_from_file(path, efuse_data, EEPROM_MAX_SIZE);
++
++		if (ret == EEPROM_MAX_SIZE)
++			ret = _SUCCESS;
++		else
++			ret = _FAIL;
++
++#if 0
++		if (isAdaptorInfoFileValid())
++			return 0;
++		else
++			return _FAIL;
++#endif
++
++	} else {
++		RTW_INFO("%s NULL pointer\n", __FUNCTION__);
++		ret = _FAIL;
++	}
++	return ret;
++}
++#endif /* CONFIG_ADAPTOR_INFO_CACHING_FILE */
++
++u8 rtw_efuse_file_read(PADAPTER padapter, u8 *filepatch, u8 *buf, u32 len)
++{
++	char *ptmpbuf = NULL, *ptr;
++	u8 val8;
++	u32 count, i, j;
++	int err;
++	u32 bufsize = 4096;
++
++	ptmpbuf = rtw_zmalloc(bufsize);
++	if (ptmpbuf == NULL)
++		return _FALSE;
++
++	count = rtw_retrieve_from_file(filepatch, ptmpbuf, bufsize);
++	if (count <= 100) {
++		rtw_mfree(ptmpbuf, bufsize);
++		RTW_ERR("%s, filepatch %s, size=%d, FAIL!!\n", __FUNCTION__, filepatch, count);
++		return _FALSE;
++	}
++
++	i = 0;
++	j = 0;
++	ptr = ptmpbuf;
++	while ((j < len) && (i < count)) {
++		if (ptmpbuf[i] == '\0')
++			break;
++	
++		ptr = strpbrk(&ptmpbuf[i], " \t\n\r");
++		if (ptr) {
++			if (ptr == &ptmpbuf[i]) {
++				i++;
++				continue;
++			}
++
++			/* Add string terminating null */
++			*ptr = 0;
++		} else {
++			ptr = &ptmpbuf[count-1];
++		}
++
++		err = sscanf(&ptmpbuf[i], "%hhx", &val8);
++		if (err != 1) {
++			RTW_WARN("Something wrong to parse efuse file, string=%s\n", &ptmpbuf[i]);
++		} else {
++			buf[j] = val8;
++			RTW_DBG("i=%d, j=%d, 0x%02x\n", i, j, buf[j]);
++			j++;
++		}
++
++		i = ptr - ptmpbuf + 1;
++	}
++
++	rtw_mfree(ptmpbuf, bufsize);
++	RTW_INFO("%s, filepatch %s, size=%d, done\n", __FUNCTION__, filepatch, count);
++	return _TRUE;
++}
++
++#ifdef CONFIG_EFUSE_CONFIG_FILE
++u32 rtw_read_efuse_from_file(const char *path, u8 *buf)
++{
++	u32 i;
++	u8 temp[3];
++	u32 ret = _FAIL;
++
++	struct file *fp;
++	mm_segment_t fs;
++	loff_t pos = 0;
++
++	fp = filp_open(path, O_RDONLY, 0);
++	if (fp == NULL || IS_ERR(fp)) {
++		if (fp != NULL)
++			RTW_PRINT("%s open %s fail, err:%ld\n"
++				  , __func__, path, PTR_ERR(fp));
++		else
++			RTW_PRINT("%s open %s fail, fp is NULL\n"
++				  , __func__, path);
++
++		goto exit;
++	}
++
++	temp[2] = 0; /* add end of string '\0' */
++
++	fs = get_fs();
++	set_fs(KERNEL_DS);
++
++	for (i = 0 ; i < HWSET_MAX_SIZE ; i++) {
++		vfs_read(fp, temp, 2, &pos);
++		if (sscanf(temp, "%hhx", &buf[i]) != 1) {
++			if (0)
++				RTW_ERR("%s sscanf fail\n", __func__);
++			buf[i] = 0xFF;
++		}
++		if ((i % EFUSE_FILE_COLUMN_NUM) == (EFUSE_FILE_COLUMN_NUM - 1)) {
++			/* Filter the lates space char. */
++			vfs_read(fp, temp, 1, &pos);
++			if (strchr(temp, ' ') == NULL) {
++				pos--;
++				vfs_read(fp, temp, 2, &pos);
++			}
++		} else {
++			pos += 1; /* Filter the space character */
++		}
++	}
++
++	set_fs(fs);
++
++	RTW_PRINT("efuse file: %s\n", path);
++#ifdef CONFIG_RTW_DEBUG
++	for (i = 0; i < HWSET_MAX_SIZE; i++) {
++		if (i % 16 == 0)
++			RTW_PRINT_SEL(RTW_DBGDUMP, "0x%03x: ", i);
++
++		_RTW_PRINT_SEL(RTW_DBGDUMP, "%02X%s"
++			       , buf[i]
++			, ((i + 1) % 16 == 0) ? "\n" : (((i + 1) % 8 == 0) ? "    " : " ")
++			      );
++	}
++	_RTW_PRINT_SEL(RTW_DBGDUMP, "\n");
++#endif
++
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++u32 rtw_read_macaddr_from_file(const char *path, u8 *buf)
++{
++	struct file *fp;
++	mm_segment_t fs;
++	loff_t pos = 0;
++
++	u8 source_addr[18];
++	u8 *head, *end;
++	int i;
++	u32 ret = _FAIL;
++
++	_rtw_memset(source_addr, 0, 18);
++
++	fp = filp_open(path, O_RDONLY, 0);
++	if (fp == NULL || IS_ERR(fp)) {
++		if (fp != NULL)
++			RTW_PRINT("%s open %s fail, err:%ld\n"
++				  , __func__, path, PTR_ERR(fp));
++		else
++			RTW_PRINT("%s open %s fail, fp is NULL\n"
++				  , __func__, path);
++
++		goto exit;
++	}
++
++	fs = get_fs();
++	set_fs(KERNEL_DS);
++
++	vfs_read(fp, source_addr, 18, &pos);
++	source_addr[17] = ':';
++
++	head = end = source_addr;
++	for (i = 0; i < ETH_ALEN; i++) {
++		while (end && (*end != ':'))
++			end++;
++
++		if (end && (*end == ':'))
++			*end = '\0';
++
++		if (sscanf(head, "%hhx", &buf[i]) != 1) {
++			if (0)
++				RTW_ERR("%s sscanf fail\n", __func__);
++			buf[i] = 0xFF;
++		}
++
++		if (end) {
++			end++;
++			head = end;
++		}
++	}
++
++	set_fs(fs);
++
++	RTW_PRINT("wifi_mac file: %s\n", path);
++#ifdef CONFIG_RTW_DEBUG
++	RTW_INFO(MAC_FMT"\n", MAC_ARG(buf));
++#endif
++
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++#endif /* CONFIG_EFUSE_CONFIG_FILE */
++
++#endif /* PLATFORM_LINUX */
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_ap.c b/drivers/net/wireless/rtl8812au/core/rtw_ap.c
+new file mode 100644
+index 0000000..1527834
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_ap.c
+@@ -0,0 +1,4108 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_AP_C_
++
++#include <drv_types.h>
++
++
++#ifdef CONFIG_AP_MODE
++
++extern unsigned char	RTW_WPA_OUI[];
++extern unsigned char	WMM_OUI[];
++extern unsigned char	WPS_OUI[];
++extern unsigned char	P2P_OUI[];
++extern unsigned char	WFD_OUI[];
++
++void init_mlme_ap_info(_adapter *padapter)
++{
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	_rtw_spinlock_init(&pmlmepriv->bcn_update_lock);
++
++	/* pmlmeext->bstart_bss = _FALSE; */
++
++}
++
++void free_mlme_ap_info(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	stop_ap_mode(padapter);
++	_rtw_spinlock_free(&pmlmepriv->bcn_update_lock);
++
++}
++
++static void update_BCNTIM(_adapter *padapter)
++{
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork_mlmeext = &(pmlmeinfo->network);
++	unsigned char *pie = pnetwork_mlmeext->IEs;
++
++#if 0
++
++
++	/* update TIM IE */
++	/* if(pstapriv->tim_bitmap) */
++#endif
++	if (_TRUE) {
++		u8 *p, *dst_ie, *premainder_ie = NULL, *pbackup_remainder_ie = NULL;
++		u16 tim_bitmap_le;
++		uint offset, tmp_len, tim_ielen, tim_ie_offset, remainder_ielen;
++
++		tim_bitmap_le = cpu_to_le16(pstapriv->tim_bitmap);
++
++		p = rtw_get_ie(pie + _FIXED_IE_LENGTH_, _TIM_IE_, &tim_ielen, pnetwork_mlmeext->IELength - _FIXED_IE_LENGTH_);
++		if (p != NULL && tim_ielen > 0) {
++			tim_ielen += 2;
++
++			premainder_ie = p + tim_ielen;
++
++			tim_ie_offset = (sint)(p - pie);
++
++			remainder_ielen = pnetwork_mlmeext->IELength - tim_ie_offset - tim_ielen;
++
++			/*append TIM IE from dst_ie offset*/
++			dst_ie = p;
++		} else {
++			tim_ielen = 0;
++
++			/*calculate head_len*/
++			offset = _FIXED_IE_LENGTH_;
++
++			/* get ssid_ie len */
++			p = rtw_get_ie(pie + _BEACON_IE_OFFSET_, _SSID_IE_, &tmp_len, (pnetwork_mlmeext->IELength - _BEACON_IE_OFFSET_));
++			if (p != NULL)
++				offset += tmp_len + 2;
++
++			/*get supported rates len*/
++			p = rtw_get_ie(pie + _BEACON_IE_OFFSET_, _SUPPORTEDRATES_IE_, &tmp_len, (pnetwork_mlmeext->IELength - _BEACON_IE_OFFSET_));
++			if (p !=  NULL)
++				offset += tmp_len + 2;
++
++			/*DS Parameter Set IE, len=3*/
++			offset += 3;
++
++			premainder_ie = pie + offset;
++
++			remainder_ielen = pnetwork_mlmeext->IELength - offset - tim_ielen;
++
++			/*append TIM IE from offset*/
++			dst_ie = pie + offset;
++
++		}
++
++		if (remainder_ielen > 0) {
++			pbackup_remainder_ie = rtw_malloc(remainder_ielen);
++			if (pbackup_remainder_ie && premainder_ie)
++				_rtw_memcpy(pbackup_remainder_ie, premainder_ie, remainder_ielen);
++		}
++
++		*dst_ie++ = _TIM_IE_;
++
++		if ((pstapriv->tim_bitmap & 0xff00) && (pstapriv->tim_bitmap & 0x00fe))
++			tim_ielen = 5;
++		else
++			tim_ielen = 4;
++
++		*dst_ie++ = tim_ielen;
++
++		*dst_ie++ = 0;/*DTIM count*/
++		*dst_ie++ = 1;/*DTIM period*/
++
++		if (pstapriv->tim_bitmap & BIT(0))/*for bc/mc frames*/
++			*dst_ie++ = BIT(0);/*bitmap ctrl */
++		else
++			*dst_ie++ = 0;
++
++		if (tim_ielen == 4) {
++			u8 pvb = 0;
++
++			if (pstapriv->tim_bitmap & 0x00fe)
++				pvb = (u8)tim_bitmap_le;
++			else if (pstapriv->tim_bitmap & 0xff00)
++				pvb = (u8)(tim_bitmap_le >> 8);
++			else
++				pvb = (u8)tim_bitmap_le;
++
++			*dst_ie++ = pvb;
++
++		} else if (tim_ielen == 5) {
++			_rtw_memcpy(dst_ie, &tim_bitmap_le, 2);
++			dst_ie += 2;
++		}
++
++		/*copy remainder IE*/
++		if (pbackup_remainder_ie) {
++			_rtw_memcpy(dst_ie, pbackup_remainder_ie, remainder_ielen);
++
++			rtw_mfree(pbackup_remainder_ie, remainder_ielen);
++		}
++
++		offset = (uint)(dst_ie - pie);
++		pnetwork_mlmeext->IELength = offset + remainder_ielen;
++
++	}
++}
++
++void rtw_add_bcn_ie(_adapter *padapter, WLAN_BSSID_EX *pnetwork, u8 index, u8 *data, u8 len)
++{
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8	bmatch = _FALSE;
++	u8	*pie = pnetwork->IEs;
++	u8	*p = NULL, *dst_ie = NULL, *premainder_ie = NULL, *pbackup_remainder_ie = NULL;
++	u32	i, offset, ielen, ie_offset, remainder_ielen = 0;
++
++	for (i = sizeof(NDIS_802_11_FIXED_IEs); i < pnetwork->IELength;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pnetwork->IEs + i);
++
++		if (pIE->ElementID > index)
++			break;
++		else if (pIE->ElementID == index) { /* already exist the same IE */
++			p = (u8 *)pIE;
++			ielen = pIE->Length;
++			bmatch = _TRUE;
++			break;
++		}
++
++		p = (u8 *)pIE;
++		ielen = pIE->Length;
++		i += (pIE->Length + 2);
++	}
++
++	if (p != NULL && ielen > 0) {
++		ielen += 2;
++
++		premainder_ie = p + ielen;
++
++		ie_offset = (sint)(p - pie);
++
++		remainder_ielen = pnetwork->IELength - ie_offset - ielen;
++
++		if (bmatch)
++			dst_ie = p;
++		else
++			dst_ie = (p + ielen);
++	}
++
++	if (dst_ie == NULL)
++		return;
++
++	if (remainder_ielen > 0) {
++		pbackup_remainder_ie = rtw_malloc(remainder_ielen);
++		if (pbackup_remainder_ie && premainder_ie)
++			_rtw_memcpy(pbackup_remainder_ie, premainder_ie, remainder_ielen);
++	}
++
++	*dst_ie++ = index;
++	*dst_ie++ = len;
++
++	_rtw_memcpy(dst_ie, data, len);
++	dst_ie += len;
++
++	/* copy remainder IE */
++	if (pbackup_remainder_ie) {
++		_rtw_memcpy(dst_ie, pbackup_remainder_ie, remainder_ielen);
++
++		rtw_mfree(pbackup_remainder_ie, remainder_ielen);
++	}
++
++	offset = (uint)(dst_ie - pie);
++	pnetwork->IELength = offset + remainder_ielen;
++}
++
++void rtw_remove_bcn_ie(_adapter *padapter, WLAN_BSSID_EX *pnetwork, u8 index)
++{
++	u8 *p, *dst_ie = NULL, *premainder_ie = NULL, *pbackup_remainder_ie = NULL;
++	uint offset, ielen, ie_offset, remainder_ielen = 0;
++	u8	*pie = pnetwork->IEs;
++
++	p = rtw_get_ie(pie + _FIXED_IE_LENGTH_, index, &ielen, pnetwork->IELength - _FIXED_IE_LENGTH_);
++	if (p != NULL && ielen > 0) {
++		ielen += 2;
++
++		premainder_ie = p + ielen;
++
++		ie_offset = (sint)(p - pie);
++
++		remainder_ielen = pnetwork->IELength - ie_offset - ielen;
++
++		dst_ie = p;
++	} else
++		return;
++
++	if (remainder_ielen > 0) {
++		pbackup_remainder_ie = rtw_malloc(remainder_ielen);
++		if (pbackup_remainder_ie && premainder_ie)
++			_rtw_memcpy(pbackup_remainder_ie, premainder_ie, remainder_ielen);
++	}
++
++	/* copy remainder IE */
++	if (pbackup_remainder_ie) {
++		_rtw_memcpy(dst_ie, pbackup_remainder_ie, remainder_ielen);
++
++		rtw_mfree(pbackup_remainder_ie, remainder_ielen);
++	}
++
++	offset = (uint)(dst_ie - pie);
++	pnetwork->IELength = offset + remainder_ielen;
++}
++
++
++u8 chk_sta_is_alive(struct sta_info *psta);
++u8 chk_sta_is_alive(struct sta_info *psta)
++{
++	u8 ret = _FALSE;
++#ifdef DBG_EXPIRATION_CHK
++	RTW_INFO("sta:"MAC_FMT", rssi:%d, rx:"STA_PKTS_FMT", expire_to:%u, %s%ssq_len:%u\n"
++		 , MAC_ARG(psta->hwaddr)
++		 , psta->rssi_stat.UndecoratedSmoothedPWDB
++		 /* , STA_RX_PKTS_ARG(psta) */
++		 , STA_RX_PKTS_DIFF_ARG(psta)
++		 , psta->expire_to
++		 , psta->state & WIFI_SLEEP_STATE ? "PS, " : ""
++		 , psta->state & WIFI_STA_ALIVE_CHK_STATE ? "SAC, " : ""
++		 , psta->sleepq_len
++		);
++#endif
++
++	/* if(sta_last_rx_pkts(psta) == sta_rx_pkts(psta)) */
++	if ((psta->sta_stats.last_rx_data_pkts + psta->sta_stats.last_rx_ctrl_pkts) == (psta->sta_stats.rx_data_pkts + psta->sta_stats.rx_ctrl_pkts)) {
++#if 0
++		if (psta->state & WIFI_SLEEP_STATE)
++			ret = _TRUE;
++#endif
++	} else
++		ret = _TRUE;
++
++	sta_update_last_rx_pkts(psta);
++
++	return ret;
++}
++
++void	expire_timeout_chk(_adapter *padapter)
++{
++	_irqL irqL;
++	_list	*phead, *plist;
++	u8 updated = _FALSE;
++	struct sta_info *psta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 chk_alive_num = 0;
++	char chk_alive_list[NUM_STA];
++	int i;
++
++
++#ifdef CONFIG_MCC_MODE
++	/*	then driver may check fail due to not recv client's frame under sitesurvey,
++	 *	don't expire timeout chk under MCC under sitesurvey */
++
++	if (rtw_hal_mcc_link_status_chk(padapter, __func__) == _FALSE)
++		return;
++#endif
++
++	_enter_critical_bh(&pstapriv->auth_list_lock, &irqL);
++
++	phead = &pstapriv->auth_list;
++	plist = get_next(phead);
++
++	/* check auth_queue */
++#ifdef DBG_EXPIRATION_CHK
++	if (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		RTW_INFO(FUNC_NDEV_FMT" auth_list, cnt:%u\n"
++			, FUNC_NDEV_ARG(padapter->pnetdev), pstapriv->auth_list_cnt);
++	}
++#endif
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		psta = LIST_CONTAINOR(plist, struct sta_info, auth_list);
++
++		plist = get_next(plist);
++
++
++#ifdef CONFIG_ATMEL_RC_PATCH
++		if (_TRUE == _rtw_memcmp((void *)(pstapriv->atmel_rc_pattern), (void *)(psta->hwaddr), ETH_ALEN))
++			continue;
++		if (psta->flag_atmel_rc)
++			continue;
++#endif
++		if (psta->expire_to > 0) {
++			psta->expire_to--;
++			if (psta->expire_to == 0) {
++				rtw_list_delete(&psta->auth_list);
++				pstapriv->auth_list_cnt--;
++
++				RTW_INFO("auth expire %02X%02X%02X%02X%02X%02X\n",
++					psta->hwaddr[0], psta->hwaddr[1], psta->hwaddr[2], psta->hwaddr[3], psta->hwaddr[4], psta->hwaddr[5]);
++
++				_exit_critical_bh(&pstapriv->auth_list_lock, &irqL);
++
++				/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);	 */
++				rtw_free_stainfo(padapter, psta);
++				/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);	 */
++
++				_enter_critical_bh(&pstapriv->auth_list_lock, &irqL);
++			}
++		}
++
++	}
++
++	_exit_critical_bh(&pstapriv->auth_list_lock, &irqL);
++	psta = NULL;
++
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++
++	/* check asoc_queue */
++#ifdef DBG_EXPIRATION_CHK
++	if (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		RTW_INFO(FUNC_NDEV_FMT" asoc_list, cnt:%u\n"
++			, FUNC_NDEV_ARG(padapter->pnetdev), pstapriv->asoc_list_cnt);
++	}
++#endif
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		plist = get_next(plist);
++#ifdef CONFIG_ATMEL_RC_PATCH
++		RTW_INFO("%s:%d  psta=%p, %02x,%02x||%02x,%02x  \n\n", __func__,  __LINE__,
++			psta, pstapriv->atmel_rc_pattern[0], pstapriv->atmel_rc_pattern[5], psta->hwaddr[0], psta->hwaddr[5]);
++		if (_TRUE == _rtw_memcmp((void *)pstapriv->atmel_rc_pattern, (void *)(psta->hwaddr), ETH_ALEN))
++			continue;
++		if (psta->flag_atmel_rc)
++			continue;
++		RTW_INFO("%s: debug line:%d\n", __func__, __LINE__);
++#endif
++#ifdef CONFIG_AUTO_AP_MODE
++		if (psta->isrc)
++			continue;
++#endif
++		if (chk_sta_is_alive(psta) || !psta->expire_to) {
++			psta->expire_to = pstapriv->expire_to;
++			psta->keep_alive_trycnt = 0;
++#ifdef CONFIG_TX_MCAST2UNI
++			psta->under_exist_checking = 0;
++#endif	/* CONFIG_TX_MCAST2UNI */
++		} else
++			psta->expire_to--;
++
++#ifndef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++#ifdef CONFIG_80211N_HT
++#ifdef CONFIG_TX_MCAST2UNI
++		if ((psta->flags & WLAN_STA_HT) && (psta->htpriv.agg_enable_bitmap || psta->under_exist_checking)) {
++			/* check sta by delba(addba) for 11n STA */
++			/* ToDo: use CCX report to check for all STAs */
++			/* RTW_INFO("asoc check by DELBA/ADDBA! (pstapriv->expire_to=%d s)(psta->expire_to=%d s), [%02x, %d]\n", pstapriv->expire_to*2, psta->expire_to*2, psta->htpriv.agg_enable_bitmap, psta->under_exist_checking); */
++
++			if (psta->expire_to <= (pstapriv->expire_to - 50)) {
++				RTW_INFO("asoc expire by DELBA/ADDBA! (%d s)\n", (pstapriv->expire_to - psta->expire_to) * 2);
++				psta->under_exist_checking = 0;
++				psta->expire_to = 0;
++			} else if (psta->expire_to <= (pstapriv->expire_to - 3) && (psta->under_exist_checking == 0)) {
++				RTW_INFO("asoc check by DELBA/ADDBA! (%d s)\n", (pstapriv->expire_to - psta->expire_to) * 2);
++				psta->under_exist_checking = 1;
++				/* tear down TX AMPDU */
++				send_delba(padapter, 1, psta->hwaddr);/*  */ /* originator */
++				psta->htpriv.agg_enable_bitmap = 0x0;/* reset */
++				psta->htpriv.candidate_tid_bitmap = 0x0;/* reset */
++			}
++		}
++#endif /* CONFIG_TX_MCAST2UNI */
++#endif /* CONFIG_80211N_HT */
++#endif /* CONFIG_ACTIVE_KEEP_ALIVE_CHECK */
++
++		if (psta->expire_to <= 0) {
++			struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++			if (padapter->registrypriv.wifi_spec == 1) {
++				psta->expire_to = pstapriv->expire_to;
++				continue;
++			}
++
++#ifndef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++#ifdef CONFIG_80211N_HT
++
++#define KEEP_ALIVE_TRYCNT (3)
++
++			if (psta->keep_alive_trycnt > 0 && psta->keep_alive_trycnt <= KEEP_ALIVE_TRYCNT) {
++				if (psta->state & WIFI_STA_ALIVE_CHK_STATE)
++					psta->state ^= WIFI_STA_ALIVE_CHK_STATE;
++				else
++					psta->keep_alive_trycnt = 0;
++
++			} else if ((psta->keep_alive_trycnt > KEEP_ALIVE_TRYCNT) && !(psta->state & WIFI_STA_ALIVE_CHK_STATE))
++				psta->keep_alive_trycnt = 0;
++			if ((psta->htpriv.ht_option == _TRUE) && (psta->htpriv.ampdu_enable == _TRUE)) {
++				uint priority = 1; /* test using BK */
++				u8 issued = 0;
++
++				/* issued = (psta->htpriv.agg_enable_bitmap>>priority)&0x1; */
++				issued |= (psta->htpriv.candidate_tid_bitmap >> priority) & 0x1;
++
++				if (0 == issued) {
++					if (!(psta->state & WIFI_STA_ALIVE_CHK_STATE)) {
++						psta->htpriv.candidate_tid_bitmap |= BIT((u8)priority);
++
++						if (psta->state & WIFI_SLEEP_STATE)
++							psta->expire_to = 2; /* 2x2=4 sec */
++						else
++							psta->expire_to = 1; /* 2 sec */
++
++						psta->state |= WIFI_STA_ALIVE_CHK_STATE;
++
++						/* add_ba_hdl(padapter, (u8*)paddbareq_parm); */
++
++						RTW_INFO("issue addba_req to check if sta alive, keep_alive_trycnt=%d\n", psta->keep_alive_trycnt);
++
++						issue_addba_req(padapter, psta->hwaddr, (u8)priority);
++
++						_set_timer(&psta->addba_retry_timer, ADDBA_TO);
++
++						psta->keep_alive_trycnt++;
++
++						continue;
++					}
++				}
++			}
++			if (psta->keep_alive_trycnt > 0 && psta->state & WIFI_STA_ALIVE_CHK_STATE) {
++				psta->keep_alive_trycnt = 0;
++				psta->state ^= WIFI_STA_ALIVE_CHK_STATE;
++				RTW_INFO("change to another methods to check alive if staion is at ps mode\n");
++			}
++
++#endif /* CONFIG_80211N_HT */
++#endif /* CONFIG_ACTIVE_KEEP_ALIVE_CHECK	 */
++			if (psta->state & WIFI_SLEEP_STATE) {
++				if (!(psta->state & WIFI_STA_ALIVE_CHK_STATE)) {
++					/* to check if alive by another methods if staion is at ps mode.					 */
++					psta->expire_to = pstapriv->expire_to;
++					psta->state |= WIFI_STA_ALIVE_CHK_STATE;
++
++					/* RTW_INFO("alive chk, sta:" MAC_FMT " is at ps mode!\n", MAC_ARG(psta->hwaddr)); */
++
++					/* to update bcn with tim_bitmap for this station */
++					pstapriv->tim_bitmap |= BIT(psta->aid);
++					update_beacon(padapter, _TIM_IE_, NULL, _TRUE);
++
++					if (!pmlmeext->active_keep_alive_check)
++						continue;
++				}
++			}
++#ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++			if (pmlmeext->active_keep_alive_check) {
++				int stainfo_offset;
++
++				stainfo_offset = rtw_stainfo_offset(pstapriv, psta);
++				if (stainfo_offset_valid(stainfo_offset))
++					chk_alive_list[chk_alive_num++] = stainfo_offset;
++
++				continue;
++			}
++#endif /* CONFIG_ACTIVE_KEEP_ALIVE_CHECK */
++			rtw_list_delete(&psta->asoc_list);
++			pstapriv->asoc_list_cnt--;
++			RTW_INFO("asoc expire "MAC_FMT", state=0x%x\n", MAC_ARG(psta->hwaddr), psta->state);
++			updated = ap_free_sta(padapter, psta, _FALSE, WLAN_REASON_DEAUTH_LEAVING, _TRUE);
++		} else {
++			/* TODO: Aging mechanism to digest frames in sleep_q to avoid running out of xmitframe */
++			if (psta->sleepq_len > (NR_XMITFRAME / pstapriv->asoc_list_cnt)
++			    && padapter->xmitpriv.free_xmitframe_cnt < ((NR_XMITFRAME / pstapriv->asoc_list_cnt) / 2)
++			   ) {
++				RTW_INFO("%s sta:"MAC_FMT", sleepq_len:%u, free_xmitframe_cnt:%u, asoc_list_cnt:%u, clear sleep_q\n", __func__
++					 , MAC_ARG(psta->hwaddr)
++					, psta->sleepq_len, padapter->xmitpriv.free_xmitframe_cnt, pstapriv->asoc_list_cnt);
++				wakeup_sta_to_xmit(padapter, psta);
++			}
++		}
++	}
++
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++#ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++	if (chk_alive_num) {
++
++		u8 backup_ch = 0, backup_bw, backup_offset;
++		u8 union_ch = 0, union_bw, union_offset;
++		u8 switch_channel = _TRUE;
++		struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++		if (!rtw_mi_get_ch_setting_union(padapter, &union_ch, &union_bw, &union_offset)
++			|| pmlmeext->cur_channel != union_ch)
++			goto bypass_active_keep_alive;
++
++#ifdef CONFIG_MCC_MODE
++		if (MCC_EN(padapter)) {
++			/* driver doesn't switch channel under MCC */
++			if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC))
++				switch_channel = _FALSE;
++		}
++#endif
++		/* switch to correct channel of current network  before issue keep-alive frames */
++		if (switch_channel == _TRUE && rtw_get_oper_ch(padapter) != pmlmeext->cur_channel) {
++			backup_ch = rtw_get_oper_ch(padapter);
++			backup_bw = rtw_get_oper_bw(padapter);
++			backup_offset = rtw_get_oper_choffset(padapter);
++			set_channel_bwmode(padapter, union_ch, union_offset, union_bw);
++		}
++
++		/* issue null data to check sta alive*/
++		for (i = 0; i < chk_alive_num; i++) {
++			int ret = _FAIL;
++
++			psta = rtw_get_stainfo_by_offset(pstapriv, chk_alive_list[i]);
++#ifdef CONFIG_ATMEL_RC_PATCH
++			if (_TRUE == _rtw_memcmp(pstapriv->atmel_rc_pattern, psta->hwaddr, ETH_ALEN))
++				continue;
++			if (psta->flag_atmel_rc)
++				continue;
++#endif
++			if (!(psta->state & _FW_LINKED))
++				continue;
++
++			if (psta->state & WIFI_SLEEP_STATE)
++				ret = issue_nulldata(padapter, psta->hwaddr, 0, 1, 50);
++			else
++				ret = issue_nulldata(padapter, psta->hwaddr, 0, 3, 50);
++
++			psta->keep_alive_trycnt++;
++			if (ret == _SUCCESS) {
++				RTW_INFO("asoc check, sta(" MAC_FMT ") is alive\n", MAC_ARG(psta->hwaddr));
++				psta->expire_to = pstapriv->expire_to;
++				psta->keep_alive_trycnt = 0;
++				continue;
++			} else if (psta->keep_alive_trycnt <= 3) {
++				RTW_INFO("ack check for asoc expire, keep_alive_trycnt=%d\n", psta->keep_alive_trycnt);
++				psta->expire_to = 1;
++				continue;
++			}
++
++			psta->keep_alive_trycnt = 0;
++			RTW_INFO("asoc expire "MAC_FMT", state=0x%x\n", MAC_ARG(psta->hwaddr), psta->state);
++			_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++			if (rtw_is_list_empty(&psta->asoc_list) == _FALSE) {
++				rtw_list_delete(&psta->asoc_list);
++				pstapriv->asoc_list_cnt--;
++				updated = ap_free_sta(padapter, psta, _FALSE, WLAN_REASON_DEAUTH_LEAVING, _TRUE);
++			}
++			_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++		}
++
++		/* back to the original operation channel */
++		if (switch_channel && backup_ch > 0)
++			set_channel_bwmode(padapter, backup_ch, backup_offset, backup_bw);
++
++bypass_active_keep_alive:
++		;
++	}
++#endif /* CONFIG_ACTIVE_KEEP_ALIVE_CHECK */
++
++	associated_clients_update(padapter, updated, STA_INFO_UPDATE_ALL);
++}
++
++void add_RATid(_adapter *padapter, struct sta_info *psta, u8 rssi_level)
++{
++	int i;
++	u8 rf_type;
++	unsigned char sta_band = 0;
++	u64 tx_ra_bitmap = 0;
++	struct ht_priv	*psta_ht = NULL;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX *pcur_network = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network;
++
++#ifdef CONFIG_80211N_HT
++	if (psta)
++		psta_ht = &psta->htpriv;
++	else
++		return;
++#endif /* CONFIG_80211N_HT */
++
++	if (!(psta->state & _FW_LINKED))
++		return;
++
++	rtw_hal_update_sta_rate_mask(padapter, psta);
++	tx_ra_bitmap = psta->ra_mask;
++
++	if (pcur_network->Configuration.DSConfig > 14) {
++
++		if (tx_ra_bitmap & 0xffff000)
++			sta_band |= WIRELESS_11_5N ;
++
++		if (tx_ra_bitmap & 0xff0)
++			sta_band |= WIRELESS_11A;
++
++		/* 5G band */
++#ifdef CONFIG_80211AC_VHT
++		if (psta->vhtpriv.vht_option)
++			sta_band = WIRELESS_11_5AC;
++#endif
++
++	} else {
++		if (tx_ra_bitmap & 0xffff000)
++			sta_band |= WIRELESS_11_24N;
++
++		if (tx_ra_bitmap & 0xff0)
++			sta_band |= WIRELESS_11G;
++
++		if (tx_ra_bitmap & 0x0f)
++			sta_band |= WIRELESS_11B;
++	}
++
++	psta->wireless_mode = sta_band;
++	psta->raid = rtw_hal_networktype_to_raid(padapter, psta);
++
++	if (psta->aid < NUM_STA) {
++		RTW_INFO("%s=> mac_id:%d , raid:%d, tx_ra_bitmap:0x%016llx, networkType:0x%02x\n",
++			__FUNCTION__, psta->mac_id, psta->raid, tx_ra_bitmap, psta->wireless_mode);
++
++		rtw_update_ramask(padapter, psta, psta->mac_id, rssi_level);
++	} else
++		RTW_INFO("station aid %d exceed the max number\n", psta->aid);
++
++}
++
++void update_bmc_sta(_adapter *padapter)
++{
++	_irqL	irqL;
++	unsigned char	network_type;
++	int supportRateNum = 0;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX *pcur_network = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network;
++	struct sta_info *psta = rtw_get_bcmc_stainfo(padapter);
++
++	if (psta) {
++		psta->aid = 0;/* default set to 0 */
++		psta->qos_option = 0;
++#ifdef CONFIG_80211N_HT
++		psta->htpriv.ht_option = _FALSE;
++#endif /* CONFIG_80211N_HT */
++
++		psta->ieee8021x_blocked = 0;
++
++		_rtw_memset((void *)&psta->sta_stats, 0, sizeof(struct stainfo_stats));
++
++		/* psta->dot118021XPrivacy = _NO_PRIVACY_; */ /* !!! remove it, because it has been set before this. */
++
++		/* prepare for add_RATid		 */
++		supportRateNum = rtw_get_rateset_len((u8 *)&pcur_network->SupportedRates);
++		network_type = rtw_check_network_type((u8 *)&pcur_network->SupportedRates, supportRateNum, pcur_network->Configuration.DSConfig);
++		if (IsSupportedTxCCK(network_type))
++			network_type = WIRELESS_11B;
++		else if (network_type == WIRELESS_INVALID) { /* error handling */
++			if (pcur_network->Configuration.DSConfig > 14)
++				network_type = WIRELESS_11A;
++			else
++				network_type = WIRELESS_11B;
++		}
++		update_sta_basic_rate(psta, network_type);
++		psta->wireless_mode = network_type;
++
++		rtw_hal_update_sta_rate_mask(padapter, psta);
++
++		psta->raid = rtw_hal_networktype_to_raid(padapter, psta);
++
++		_enter_critical_bh(&psta->lock, &irqL);
++		psta->state = _FW_LINKED;
++		_exit_critical_bh(&psta->lock, &irqL);
++
++		rtw_sta_media_status_rpt(padapter, psta, 1);
++		rtw_hal_update_ra_mask(psta, 0);
++	} else
++		RTW_INFO("add_RATid_bmc_sta error!\n");
++
++}
++
++/* notes:
++ * AID: 1~MAX for sta and 0 for bc/mc in ap/adhoc mode  */
++void update_sta_info_apmode(_adapter *padapter, struct sta_info *psta)
++{
++	_irqL	irqL;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++#ifdef CONFIG_80211N_HT
++	struct ht_priv	*phtpriv_ap = &pmlmepriv->htpriv;
++	struct ht_priv	*phtpriv_sta = &psta->htpriv;
++#endif /* CONFIG_80211N_HT */
++	u8	cur_ldpc_cap = 0, cur_stbc_cap = 0, cur_beamform_cap = 0;
++	/* set intf_tag to if1 */
++	/* psta->intf_tag = 0; */
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	/*alloc macid when call rtw_alloc_stainfo(),release macid when call rtw_free_stainfo()*/
++
++	/* ap mode */
++	rtw_hal_set_odm_var(padapter, HAL_ODM_STA_INFO, psta, _TRUE);
++
++	if (psecuritypriv->dot11AuthAlgrthm == dot11AuthAlgrthm_8021X)
++		psta->ieee8021x_blocked = _TRUE;
++	else
++		psta->ieee8021x_blocked = _FALSE;
++
++
++	/* update sta's cap */
++
++	/* ERP */
++	VCS_update(padapter, psta);
++#ifdef CONFIG_80211N_HT
++	/* HT related cap */
++	if (phtpriv_sta->ht_option) {
++		/* check if sta supports rx ampdu */
++		phtpriv_sta->ampdu_enable = phtpriv_ap->ampdu_enable;
++
++		phtpriv_sta->rx_ampdu_min_spacing = (phtpriv_sta->ht_cap.ampdu_params_info & IEEE80211_HT_CAP_AMPDU_DENSITY) >> 2;
++
++		/* bwmode */
++		if ((phtpriv_sta->ht_cap.cap_info & phtpriv_ap->ht_cap.cap_info) & cpu_to_le16(IEEE80211_HT_CAP_SUP_WIDTH))
++			psta->bw_mode = CHANNEL_WIDTH_40;
++		else
++			psta->bw_mode = CHANNEL_WIDTH_20;
++
++		if (psta->ht_40mhz_intolerant)
++			psta->bw_mode = CHANNEL_WIDTH_20;
++
++		if (pmlmeext->cur_bwmode < psta->bw_mode)
++			psta->bw_mode = pmlmeext->cur_bwmode;
++
++		phtpriv_sta->ch_offset = pmlmeext->cur_ch_offset;
++
++
++		/* check if sta support s Short GI 20M */
++		if ((phtpriv_sta->ht_cap.cap_info & phtpriv_ap->ht_cap.cap_info) & cpu_to_le16(IEEE80211_HT_CAP_SGI_20))
++			phtpriv_sta->sgi_20m = _TRUE;
++
++		/* check if sta support s Short GI 40M */
++		if ((phtpriv_sta->ht_cap.cap_info & phtpriv_ap->ht_cap.cap_info) & cpu_to_le16(IEEE80211_HT_CAP_SGI_40)) {
++			if (psta->bw_mode == CHANNEL_WIDTH_40) /* according to psta->bw_mode */
++				phtpriv_sta->sgi_40m = _TRUE;
++			else
++				phtpriv_sta->sgi_40m = _FALSE;
++		}
++
++		psta->qos_option = _TRUE;
++
++		/* B0 Config LDPC Coding Capability */
++		if (TEST_FLAG(phtpriv_ap->ldpc_cap, LDPC_HT_ENABLE_TX) &&
++		    GET_HT_CAP_ELE_LDPC_CAP((u8 *)(&phtpriv_sta->ht_cap))) {
++			SET_FLAG(cur_ldpc_cap, (LDPC_HT_ENABLE_TX | LDPC_HT_CAP_TX));
++			RTW_INFO("Enable HT Tx LDPC for STA(%d)\n", psta->aid);
++		}
++
++		/* B7 B8 B9 Config STBC setting */
++		if (TEST_FLAG(phtpriv_ap->stbc_cap, STBC_HT_ENABLE_TX) &&
++		    GET_HT_CAP_ELE_RX_STBC((u8 *)(&phtpriv_sta->ht_cap))) {
++			SET_FLAG(cur_stbc_cap, (STBC_HT_ENABLE_TX | STBC_HT_CAP_TX));
++			RTW_INFO("Enable HT Tx STBC for STA(%d)\n", psta->aid);
++		}
++
++#ifdef CONFIG_BEAMFORMING
++		/*Config Tx beamforming setting*/
++		if (TEST_FLAG(phtpriv_ap->beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE) &&
++		    GET_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP((u8 *)(&phtpriv_sta->ht_cap))) {
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE);
++			/*Shift to BEAMFORMING_HT_BEAMFORMEE_CHNL_EST_CAP*/
++			SET_FLAG(cur_beamform_cap, GET_HT_CAP_TXBF_CHNL_ESTIMATION_NUM_ANTENNAS((u8 *)(&phtpriv_sta->ht_cap)) << 6);
++		}
++
++		if (TEST_FLAG(phtpriv_ap->beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE) &&
++		    GET_HT_CAP_TXBF_EXPLICIT_COMP_FEEDBACK_CAP((u8 *)(&phtpriv_sta->ht_cap))) {
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE);
++			/*Shift to BEAMFORMING_HT_BEAMFORMER_STEER_NUM*/
++			SET_FLAG(cur_beamform_cap, GET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS((u8 *)(&phtpriv_sta->ht_cap)) << 4);
++		}
++		if (cur_beamform_cap)
++			RTW_INFO("Client STA(%d) HT Beamforming Cap = 0x%02X\n", psta->aid, cur_beamform_cap);
++#endif /*CONFIG_BEAMFORMING*/
++	} else {
++		phtpriv_sta->ampdu_enable = _FALSE;
++
++		phtpriv_sta->sgi_20m = _FALSE;
++		phtpriv_sta->sgi_40m = _FALSE;
++		psta->bw_mode = CHANNEL_WIDTH_20;
++		phtpriv_sta->ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	}
++
++	phtpriv_sta->ldpc_cap = cur_ldpc_cap;
++	phtpriv_sta->stbc_cap = cur_stbc_cap;
++	phtpriv_sta->beamform_cap = cur_beamform_cap;
++
++	/* Rx AMPDU */
++	send_delba(padapter, 0, psta->hwaddr);/* recipient */
++
++	/* TX AMPDU */
++	send_delba(padapter, 1, psta->hwaddr);/*  */ /* originator */
++	phtpriv_sta->agg_enable_bitmap = 0x0;/* reset */
++	phtpriv_sta->candidate_tid_bitmap = 0x0;/* reset */
++#endif /* CONFIG_80211N_HT */
++
++#ifdef CONFIG_80211AC_VHT
++	update_sta_vht_info_apmode(padapter, psta);
++#endif
++
++	update_ldpc_stbc_cap(psta);
++
++	/* todo: init other variables */
++
++	_rtw_memset((void *)&psta->sta_stats, 0, sizeof(struct stainfo_stats));
++
++
++	/* add ratid */
++	/* add_RATid(padapter, psta); */ /* move to ap_sta_info_defer_update() */
++
++
++	_enter_critical_bh(&psta->lock, &irqL);
++	psta->state |= _FW_LINKED;
++	_exit_critical_bh(&psta->lock, &irqL);
++
++
++}
++
++static void update_ap_info(_adapter *padapter, struct sta_info *psta)
++{
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX *pnetwork = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++#ifdef CONFIG_80211N_HT
++	struct ht_priv	*phtpriv_ap = &pmlmepriv->htpriv;
++#endif /* CONFIG_80211N_HT */
++
++	psta->wireless_mode = pmlmeext->cur_wireless_mode;
++
++	psta->bssratelen = rtw_get_rateset_len(pnetwork->SupportedRates);
++	_rtw_memcpy(psta->bssrateset, pnetwork->SupportedRates, psta->bssratelen);
++
++#ifdef CONFIG_80211N_HT
++	/* HT related cap */
++	if (phtpriv_ap->ht_option) {
++		/* check if sta supports rx ampdu */
++		/* phtpriv_ap->ampdu_enable = phtpriv_ap->ampdu_enable; */
++
++		/* check if sta support s Short GI 20M */
++		if ((phtpriv_ap->ht_cap.cap_info) & cpu_to_le16(IEEE80211_HT_CAP_SGI_20))
++			phtpriv_ap->sgi_20m = _TRUE;
++		/* check if sta support s Short GI 40M */
++		if ((phtpriv_ap->ht_cap.cap_info) & cpu_to_le16(IEEE80211_HT_CAP_SGI_40))
++			phtpriv_ap->sgi_40m = _TRUE;
++
++		psta->qos_option = _TRUE;
++	} else {
++		phtpriv_ap->ampdu_enable = _FALSE;
++
++		phtpriv_ap->sgi_20m = _FALSE;
++		phtpriv_ap->sgi_40m = _FALSE;
++	}
++
++	psta->bw_mode = pmlmeext->cur_bwmode;
++	phtpriv_ap->ch_offset = pmlmeext->cur_ch_offset;
++
++	phtpriv_ap->agg_enable_bitmap = 0x0;/* reset */
++	phtpriv_ap->candidate_tid_bitmap = 0x0;/* reset */
++
++	_rtw_memcpy(&psta->htpriv, &pmlmepriv->htpriv, sizeof(struct ht_priv));
++
++#ifdef CONFIG_80211AC_VHT
++	_rtw_memcpy(&psta->vhtpriv, &pmlmepriv->vhtpriv, sizeof(struct vht_priv));
++#endif /* CONFIG_80211AC_VHT */
++
++#endif /* CONFIG_80211N_HT */
++
++	psta->state |= WIFI_AP_STATE; /* Aries, add,fix bug of flush_cam_entry at STOP AP mode , 0724 */
++}
++
++static void rtw_set_hw_wmm_param(_adapter *padapter)
++{
++	u8	ACI, ACM, AIFS, ECWMin, ECWMax, aSifsTime;
++	u8	acm_mask;
++	u16	TXOP;
++	u32	acParm, i;
++	u32	edca[4], inx[4];
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct xmit_priv		*pxmitpriv = &padapter->xmitpriv;
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++
++	acm_mask = 0;
++
++	if (IsSupported5G(pmlmeext->cur_wireless_mode) ||
++	    (pmlmeext->cur_wireless_mode & WIRELESS_11_24N))
++		aSifsTime = 16;
++	else
++		aSifsTime = 10;
++
++	if (pmlmeinfo->WMM_enable == 0) {
++		padapter->mlmepriv.acm_mask = 0;
++
++		AIFS = aSifsTime + (2 * pmlmeinfo->slotTime);
++
++		if (pmlmeext->cur_wireless_mode & (WIRELESS_11G | WIRELESS_11A)) {
++			ECWMin = 4;
++			ECWMax = 10;
++		} else if (pmlmeext->cur_wireless_mode & WIRELESS_11B) {
++			ECWMin = 5;
++			ECWMax = 10;
++		} else {
++			ECWMin = 4;
++			ECWMax = 10;
++		}
++
++		TXOP = 0;
++		acParm = AIFS | (ECWMin << 8) | (ECWMax << 12) | (TXOP << 16);
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acParm));
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BK, (u8 *)(&acParm));
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VI, (u8 *)(&acParm));
++
++		ECWMin = 2;
++		ECWMax = 3;
++		TXOP = 0x2f;
++		acParm = AIFS | (ECWMin << 8) | (ECWMax << 12) | (TXOP << 16);
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VO, (u8 *)(&acParm));
++
++	} else {
++		edca[0] = edca[1] = edca[2] = edca[3] = 0;
++
++		/*TODO:*/
++		acm_mask = 0;
++		padapter->mlmepriv.acm_mask = acm_mask;
++
++#if 0
++		/* BK */
++		/* AIFS = AIFSN * slot time + SIFS - r2t phy delay */
++#endif
++		AIFS = (7 * pmlmeinfo->slotTime) + aSifsTime;
++		ECWMin = 4;
++		ECWMax = 10;
++		TXOP = 0;
++		acParm = AIFS | (ECWMin << 8) | (ECWMax << 12) | (TXOP << 16);
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BK, (u8 *)(&acParm));
++		edca[XMIT_BK_QUEUE] = acParm;
++		RTW_INFO("WMM(BK): %x\n", acParm);
++
++		/* BE */
++		AIFS = (3 * pmlmeinfo->slotTime) + aSifsTime;
++		ECWMin = 4;
++		ECWMax = 6;
++		TXOP = 0;
++		acParm = AIFS | (ECWMin << 8) | (ECWMax << 12) | (TXOP << 16);
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acParm));
++		edca[XMIT_BE_QUEUE] = acParm;
++		RTW_INFO("WMM(BE): %x\n", acParm);
++
++		/* VI */
++		AIFS = (1 * pmlmeinfo->slotTime) + aSifsTime;
++		ECWMin = 3;
++		ECWMax = 4;
++		TXOP = 94;
++		acParm = AIFS | (ECWMin << 8) | (ECWMax << 12) | (TXOP << 16);
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VI, (u8 *)(&acParm));
++		edca[XMIT_VI_QUEUE] = acParm;
++		RTW_INFO("WMM(VI): %x\n", acParm);
++
++		/* VO */
++		AIFS = (1 * pmlmeinfo->slotTime) + aSifsTime;
++		ECWMin = 2;
++		ECWMax = 3;
++		TXOP = 47;
++		acParm = AIFS | (ECWMin << 8) | (ECWMax << 12) | (TXOP << 16);
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VO, (u8 *)(&acParm));
++		edca[XMIT_VO_QUEUE] = acParm;
++		RTW_INFO("WMM(VO): %x\n", acParm);
++
++
++		if (padapter->registrypriv.acm_method == 1)
++			rtw_hal_set_hwreg(padapter, HW_VAR_ACM_CTRL, (u8 *)(&acm_mask));
++		else
++			padapter->mlmepriv.acm_mask = acm_mask;
++
++		inx[0] = 0;
++		inx[1] = 1;
++		inx[2] = 2;
++		inx[3] = 3;
++
++		if (pregpriv->wifi_spec == 1) {
++			u32	j, tmp, change_inx = _FALSE;
++
++			/* entry indx: 0->vo, 1->vi, 2->be, 3->bk. */
++			for (i = 0 ; i < 4 ; i++) {
++				for (j = i + 1 ; j < 4 ; j++) {
++					/* compare CW and AIFS */
++					if ((edca[j] & 0xFFFF) < (edca[i] & 0xFFFF))
++						change_inx = _TRUE;
++					else if ((edca[j] & 0xFFFF) == (edca[i] & 0xFFFF)) {
++						/* compare TXOP */
++						if ((edca[j] >> 16) > (edca[i] >> 16))
++							change_inx = _TRUE;
++					}
++
++					if (change_inx) {
++						tmp = edca[i];
++						edca[i] = edca[j];
++						edca[j] = tmp;
++
++						tmp = inx[i];
++						inx[i] = inx[j];
++						inx[j] = tmp;
++
++						change_inx = _FALSE;
++					}
++				}
++			}
++		}
++
++		for (i = 0 ; i < 4 ; i++) {
++			pxmitpriv->wmm_para_seq[i] = inx[i];
++			RTW_INFO("wmm_para_seq(%d): %d\n", i, pxmitpriv->wmm_para_seq[i]);
++		}
++
++	}
++
++}
++
++static void update_hw_ht_param(_adapter *padapter)
++{
++	unsigned char		max_AMPDU_len;
++	unsigned char		min_MPDU_spacing;
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++
++	/* handle A-MPDU parameter field */
++	/*
++		AMPDU_para [1:0]:Max AMPDU Len => 0:8k , 1:16k, 2:32k, 3:64k
++		AMPDU_para [4:2]:Min MPDU Start Spacing
++	*/
++	max_AMPDU_len = pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x03;
++
++	min_MPDU_spacing = (pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x1c) >> 2;
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_AMPDU_MIN_SPACE, (u8 *)(&min_MPDU_spacing));
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_AMPDU_FACTOR, (u8 *)(&max_AMPDU_len));
++
++	/*  */
++	/* Config SM Power Save setting */
++	/*  */
++	pmlmeinfo->SM_PS = (pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info & 0x0C) >> 2;
++	if (pmlmeinfo->SM_PS == WLAN_HT_CAP_SM_PS_STATIC) {
++#if 0
++		u8 i;
++		/* update the MCS rates */
++		for (i = 0; i < 16; i++)
++			pmlmeinfo->HT_caps.HT_cap_element.MCS_rate[i] &= MCS_rate_1R[i];
++#endif
++		RTW_INFO("%s(): WLAN_HT_CAP_SM_PS_STATIC\n", __FUNCTION__);
++	}
++
++	/*  */
++	/* Config current HT Protection mode. */
++	/*  */
++	/* pmlmeinfo->HT_protection = pmlmeinfo->HT_info.infos[1] & 0x3; */
++
++}
++
++static void rtw_ap_check_scan(_adapter *padapter)
++{
++	_irqL	irqL;
++	_list		*plist, *phead;
++	u32	delta_time, lifetime;
++	struct	wlan_network	*pnetwork = NULL;
++	WLAN_BSSID_EX *pbss = NULL;
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	_queue	*queue	= &(pmlmepriv->scanned_queue);
++	u8 do_scan = _FALSE;
++	u8 reason = RTW_AUTO_SCAN_REASON_UNSPECIFIED;
++
++	lifetime = SCANQUEUE_LIFETIME; /* 20 sec */
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++	phead = get_list_head(queue);
++	if (rtw_end_of_queue_search(phead, get_next(phead)) == _TRUE)
++		if (padapter->registrypriv.wifi_spec) {
++			do_scan = _TRUE;
++			reason |= RTW_AUTO_SCAN_REASON_2040_BSS;
++		}
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	if (padapter->registrypriv.acs_auto_scan) {
++		do_scan = _TRUE;
++		reason |= RTW_AUTO_SCAN_REASON_ACS;
++		rtw_acs_start(padapter, _TRUE);
++	}
++#endif
++
++	if (_TRUE == do_scan) {
++		RTW_INFO("%s : drv scans by itself and wait_completed\n", __func__);
++		rtw_drv_scan_by_self(padapter, reason);
++		rtw_scan_wait_completed(padapter);
++	}
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	if (padapter->registrypriv.acs_auto_scan)
++		rtw_acs_start(padapter, _FALSE);
++#endif
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		if (rtw_ch_set_search_ch(padapter->mlmeextpriv.channel_set, pnetwork->network.Configuration.DSConfig) >= 0
++		    && rtw_mlme_band_check(padapter, pnetwork->network.Configuration.DSConfig) == _TRUE
++		    && _TRUE == rtw_validate_ssid(&(pnetwork->network.Ssid))) {
++			delta_time = (u32) rtw_get_passing_time_ms(pnetwork->last_scanned);
++
++			if (delta_time < lifetime) {
++
++				uint ie_len = 0;
++				u8 *pbuf = NULL;
++				u8 *ie = NULL;
++
++				pbss = &pnetwork->network;
++				ie = pbss->IEs;
++
++				/*check if HT CAP INFO IE exists or not*/
++				pbuf = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _HT_CAPABILITY_IE_, &ie_len, (pbss->IELength - _BEACON_IE_OFFSET_));
++				if (pbuf == NULL) {
++					/* HT CAP INFO IE don't exist, it is b/g mode bss.*/
++
++					if (_FALSE == ATOMIC_READ(&pmlmepriv->olbc))
++						ATOMIC_SET(&pmlmepriv->olbc, _TRUE);
++
++					if (_FALSE == ATOMIC_READ(&pmlmepriv->olbc_ht))
++						ATOMIC_SET(&pmlmepriv->olbc_ht, _TRUE);
++					
++					if (padapter->registrypriv.wifi_spec)
++						RTW_INFO("%s: %s is a/b/g ap\n", __func__, pnetwork->network.Ssid.Ssid);
++				}
++			}
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	pmlmepriv->num_sta_no_ht = 0; /* reset to 0 after ap do scanning*/
++
++}
++
++void rtw_start_bss_hdl_after_chbw_decided(_adapter *adapter)
++{
++	WLAN_BSSID_EX *pnetwork = &(adapter->mlmepriv.cur_network.network);
++	struct sta_info *sta = NULL;
++
++	/* update cur_wireless_mode */
++	update_wireless_mode(adapter);
++
++	/* update RRSR and RTS_INIT_RATE register after set channel and bandwidth */
++	UpdateBrateTbl(adapter, pnetwork->SupportedRates);
++	rtw_hal_set_hwreg(adapter, HW_VAR_BASIC_RATE, pnetwork->SupportedRates);
++
++	/* update capability after cur_wireless_mode updated */
++	update_capinfo(adapter, rtw_get_capability(pnetwork));
++
++	/* update bc/mc sta_info */
++	update_bmc_sta(adapter);
++
++	/* update AP's sta info */
++	sta = rtw_get_stainfo(&adapter->stapriv, pnetwork->MacAddress);
++	if (!sta) {
++		RTW_INFO(FUNC_ADPT_FMT" !sta for macaddr="MAC_FMT"\n", FUNC_ADPT_ARG(adapter), MAC_ARG(pnetwork->MacAddress));
++		rtw_warn_on(1);
++		return;
++	}
++
++	update_ap_info(adapter, sta);
++}
++
++void start_bss_network(_adapter *padapter, struct createbss_parm *parm)
++{
++#define DUMP_ADAPTERS_STATUS 0
++
++	u8 val8;
++	u16 bcn_interval;
++	u32	acparm;
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct security_priv *psecuritypriv = &(padapter->securitypriv);
++	WLAN_BSSID_EX *pnetwork = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network; /* used as input */
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork_mlmeext = &(pmlmeinfo->network);
++	struct dvobj_priv *pdvobj = padapter->dvobj;
++	s16 req_ch = -1, req_bw = -1, req_offset = -1;
++	bool ch_setting_changed = _FALSE;
++	u8 ch_to_set = 0, bw_to_set, offset_to_set;
++	u8 doiqk = _FALSE;
++	/* use for check ch bw offset can be allowed or not */
++	u8 chbw_allow = _TRUE;
++
++	if (parm->req_ch != 0) {
++		/* bypass other setting, go checking ch, bw, offset */
++		req_ch = parm->req_ch;
++		req_bw = parm->req_bw;
++		req_offset = parm->req_offset;
++		goto chbw_decision;
++	}
++
++	bcn_interval = (u16)pnetwork->Configuration.BeaconPeriod;
++
++	/* check if there is wps ie, */
++	/* if there is wpsie in beacon, the hostapd will update beacon twice when stating hostapd, */
++	/* and at first time the security ie ( RSN/WPA IE) will not include in beacon. */
++	if (NULL == rtw_get_wps_ie(pnetwork->IEs + _FIXED_IE_LENGTH_, pnetwork->IELength - _FIXED_IE_LENGTH_, NULL, NULL))
++		pmlmeext->bstart_bss = _TRUE;
++
++	/* todo: update wmm, ht cap */
++	/* pmlmeinfo->WMM_enable; */
++	/* pmlmeinfo->HT_enable; */
++	if (pmlmepriv->qospriv.qos_option)
++		pmlmeinfo->WMM_enable = _TRUE;
++#ifdef CONFIG_80211N_HT
++	if (pmlmepriv->htpriv.ht_option) {
++		pmlmeinfo->WMM_enable = _TRUE;
++		pmlmeinfo->HT_enable = _TRUE;
++		/* pmlmeinfo->HT_info_enable = _TRUE; */
++		/* pmlmeinfo->HT_caps_enable = _TRUE; */
++
++		update_hw_ht_param(padapter);
++	}
++#endif /* #CONFIG_80211N_HT */
++
++#ifdef CONFIG_80211AC_VHT
++	if (pmlmepriv->vhtpriv.vht_option) {
++		pmlmeinfo->VHT_enable = _TRUE;
++		update_hw_vht_param(padapter);
++	}
++#endif /* CONFIG_80211AC_VHT */
++
++	if (pmlmepriv->cur_network.join_res != _TRUE) { /* setting only at  first time */
++		/* WEP Key will be set before this function, do not clear CAM. */
++		if ((psecuritypriv->dot11PrivacyAlgrthm != _WEP40_) && (psecuritypriv->dot11PrivacyAlgrthm != _WEP104_))
++			flush_all_cam_entry(padapter);	/* clear CAM */
++	}
++
++	/* set MSR to AP_Mode		 */
++	Set_MSR(padapter, _HW_STATE_AP_);
++
++	/* Set BSSID REG */
++	rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, pnetwork->MacAddress);
++
++	/* Set EDCA param reg */
++#ifdef CONFIG_CONCURRENT_MODE
++	acparm = 0x005ea42b;
++#else
++	acparm = 0x002F3217; /* VO */
++#endif
++	rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VO, (u8 *)(&acparm));
++	acparm = 0x005E4317; /* VI */
++	rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VI, (u8 *)(&acparm));
++	/* acparm = 0x00105320; */ /* BE */
++	acparm = 0x005ea42b;
++	rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acparm));
++	acparm = 0x0000A444; /* BK */
++	rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BK, (u8 *)(&acparm));
++
++	/* Set Security */
++	val8 = (psecuritypriv->dot11AuthAlgrthm == dot11AuthAlgrthm_8021X) ? 0xcc : 0xcf;
++	rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, (u8 *)(&val8));
++
++	/* Beacon Control related register */
++	rtw_hal_set_hwreg(padapter, HW_VAR_BEACON_INTERVAL, (u8 *)(&bcn_interval));
++
++chbw_decision:
++	ch_setting_changed = rtw_ap_chbw_decision(padapter, req_ch, req_bw, req_offset
++		     , &ch_to_set, &bw_to_set, &offset_to_set, &chbw_allow);
++
++	/* let pnetwork_mlmeext == pnetwork_mlme. */
++	_rtw_memcpy(pnetwork_mlmeext, pnetwork, pnetwork->Length);
++
++	rtw_start_bss_hdl_after_chbw_decided(padapter);
++
++#if defined(CONFIG_DFS_MASTER)
++	rtw_dfs_master_status_apply(padapter, MLME_AP_STARTED);
++#endif
++
++#ifdef CONFIG_MCC_MODE
++	/* issue null data to AP for all interface connecting to AP before switch channel setting for softap */
++	rtw_hal_mcc_issue_null_data(padapter, chbw_allow, 1);
++#endif /* CONFIG_MCC_MODE */
++
++	doiqk = _TRUE;
++	rtw_hal_set_hwreg(padapter , HW_VAR_DO_IQK , &doiqk);
++
++	if (ch_to_set != 0) {
++		set_channel_bwmode(padapter, ch_to_set, offset_to_set, bw_to_set);
++		rtw_mi_update_union_chan_inf(padapter, ch_to_set, offset_to_set, bw_to_set);
++	}
++
++	doiqk = _FALSE;
++	rtw_hal_set_hwreg(padapter , HW_VAR_DO_IQK , &doiqk);
++
++#ifdef CONFIG_MCC_MODE
++	/* after set_channel_bwmode for backup IQK */
++	rtw_hal_set_mcc_setting_start_bss_network(padapter, chbw_allow);
++#endif
++
++	if (DUMP_ADAPTERS_STATUS) {
++		RTW_INFO(FUNC_ADPT_FMT" done\n", FUNC_ADPT_ARG(padapter));
++		dump_adapters_status(RTW_DBGDUMP , adapter_to_dvobj(padapter));
++	}
++
++	/* update beacon content only if bstart_bss is _TRUE */
++	if (_TRUE == pmlmeext->bstart_bss) {
++
++		_irqL irqL;
++
++		if ((ATOMIC_READ(&pmlmepriv->olbc) == _TRUE) || (ATOMIC_READ(&pmlmepriv->olbc_ht) == _TRUE)) {
++			/* AP is not starting a 40 MHz BSS in presence of an 802.11g BSS. */
++
++			pmlmepriv->ht_op_mode &= (~HT_INFO_OPERATION_MODE_OP_MODE_MASK);
++			pmlmepriv->ht_op_mode |= OP_MODE_MAY_BE_LEGACY_STAS;
++			update_beacon(padapter, _HT_ADD_INFO_IE_, NULL, _FALSE);
++		}
++
++		update_beacon(padapter, _TIM_IE_, NULL, _FALSE);
++
++#ifdef CONFIG_SWTIMER_BASED_TXBCN
++		_enter_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++		if (rtw_is_list_empty(&padapter->list)) {
++			rtw_list_insert_tail(&padapter->list, get_list_head(&pdvobj->ap_if_q));
++			pdvobj->nr_ap_if++;
++			pdvobj->inter_bcn_space = DEFAULT_BCN_INTERVAL / pdvobj->nr_ap_if;
++		}
++		_exit_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++
++		rtw_hal_set_hwreg(padapter, HW_VAR_BEACON_INTERVAL, (u8 *)(&pdvobj->inter_bcn_space));
++
++#endif /*CONFIG_SWTIMER_BASED_TXBCN*/
++
++	}
++
++	rtw_scan_wait_completed(padapter);
++
++	/* send beacon */
++	if ((0 == rtw_mi_check_fwstate(padapter, _FW_UNDER_SURVEY))
++		&& (0 == rtw_mi_check_fwstate(padapter, WIFI_OP_CH_SWITCHING))
++	) {
++
++		/*update_beacon(padapter, _TIM_IE_, NULL, _TRUE);*/
++
++#if !defined(CONFIG_INTERRUPT_BASED_TXBCN)
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++#ifdef CONFIG_SWTIMER_BASED_TXBCN
++		if (pdvobj->nr_ap_if == 1) {
++			RTW_INFO("start SW BCN TIMER!\n");
++			_set_timer(&pdvobj->txbcn_timer, bcn_interval);
++		}
++#else
++		/* other case will  tx beacon when bcn interrupt coming in. */
++		if (send_beacon(padapter) == _FAIL)
++			RTW_INFO("issue_beacon, fail!\n");
++#endif
++#endif
++#endif /* !defined(CONFIG_INTERRUPT_BASED_TXBCN) */
++	}
++
++	/*Set EDCA param reg after update cur_wireless_mode & update_capinfo*/
++	if (pregpriv->wifi_spec == 1)
++		rtw_set_hw_wmm_param(padapter);
++
++	/*pmlmeext->bstart_bss = _TRUE;*/
++}
++
++int rtw_check_beacon_data(_adapter *padapter, u8 *pbuf,  int len)
++{
++	int ret = _SUCCESS;
++	u8 *p;
++	u8 *pHT_caps_ie = NULL;
++	u8 *pHT_info_ie = NULL;
++	u16 cap, ht_cap = _FALSE;
++	uint ie_len = 0;
++	int group_cipher, pairwise_cipher;
++	u8	channel, network_type, supportRate[NDIS_802_11_LENGTH_RATES_EX];
++	int supportRateNum = 0;
++	u8 OUI1[] = {0x00, 0x50, 0xf2, 0x01};
++	u8 wps_oui[4] = {0x0, 0x50, 0xf2, 0x04};
++	u8 WMM_PARA_IE[] = {0x00, 0x50, 0xf2, 0x02, 0x01, 0x01};
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX *pbss_network = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *ie = pbss_network->IEs;
++	u8 vht_cap = _FALSE;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 rf_num = 0;
++
++	/* SSID */
++	/* Supported rates */
++	/* DS Params */
++	/* WLAN_EID_COUNTRY */
++	/* ERP Information element */
++	/* Extended supported rates */
++	/* WPA/WPA2 */
++	/* Wi-Fi Wireless Multimedia Extensions */
++	/* ht_capab, ht_oper */
++	/* WPS IE */
++
++	RTW_INFO("%s, len=%d\n", __FUNCTION__, len);
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return _FAIL;
++
++
++	if (len > MAX_IE_SZ)
++		return _FAIL;
++
++	pbss_network->IELength = len;
++
++	_rtw_memset(ie, 0, MAX_IE_SZ);
++
++	_rtw_memcpy(ie, pbuf, pbss_network->IELength);
++
++
++	if (pbss_network->InfrastructureMode != Ndis802_11APMode)
++		return _FAIL;
++
++
++	rtw_ap_check_scan(padapter);
++
++
++	pbss_network->Rssi = 0;
++
++	_rtw_memcpy(pbss_network->MacAddress, adapter_mac_addr(padapter), ETH_ALEN);
++
++	/* beacon interval */
++	p = rtw_get_beacon_interval_from_ie(ie);/* ie + 8;	 */ /* 8: TimeStamp, 2: Beacon Interval 2:Capability */
++	/* pbss_network->Configuration.BeaconPeriod = le16_to_cpu(*(unsigned short*)p); */
++	pbss_network->Configuration.BeaconPeriod = RTW_GET_LE16(p);
++
++	/* capability */
++	/* cap = *(unsigned short *)rtw_get_capability_from_ie(ie); */
++	/* cap = le16_to_cpu(cap); */
++	cap = RTW_GET_LE16(ie);
++
++	/* SSID */
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _SSID_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if (p && ie_len > 0) {
++		_rtw_memset(&pbss_network->Ssid, 0, sizeof(NDIS_802_11_SSID));
++		_rtw_memcpy(pbss_network->Ssid.Ssid, (p + 2), ie_len);
++		pbss_network->Ssid.SsidLength = ie_len;
++#ifdef CONFIG_P2P
++		_rtw_memcpy(padapter->wdinfo.p2p_group_ssid, pbss_network->Ssid.Ssid, pbss_network->Ssid.SsidLength);
++		padapter->wdinfo.p2p_group_ssid_len = pbss_network->Ssid.SsidLength;
++#endif
++	}
++
++	/* chnnel */
++	channel = 0;
++	pbss_network->Configuration.Length = 0;
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _DSSET_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if (p && ie_len > 0)
++		channel = *(p + 2);
++
++	pbss_network->Configuration.DSConfig = channel;
++
++
++	_rtw_memset(supportRate, 0, NDIS_802_11_LENGTH_RATES_EX);
++	/* get supported rates */
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _SUPPORTEDRATES_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if (p !=  NULL) {
++		_rtw_memcpy(supportRate, p + 2, ie_len);
++		supportRateNum = ie_len;
++	}
++
++	/* get ext_supported rates */
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _EXT_SUPPORTEDRATES_IE_, &ie_len, pbss_network->IELength - _BEACON_IE_OFFSET_);
++	if (p !=  NULL) {
++		_rtw_memcpy(supportRate + supportRateNum, p + 2, ie_len);
++		supportRateNum += ie_len;
++
++	}
++
++	network_type = rtw_check_network_type(supportRate, supportRateNum, channel);
++
++	rtw_set_supported_rate(pbss_network->SupportedRates, network_type);
++
++
++	/* parsing ERP_IE */
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _ERPINFO_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if (p && ie_len > 0)
++		ERP_IE_handler(padapter, (PNDIS_802_11_VARIABLE_IEs)p);
++
++	/* update privacy/security */
++	if (cap & BIT(4))
++		pbss_network->Privacy = 1;
++	else
++		pbss_network->Privacy = 0;
++
++	psecuritypriv->wpa_psk = 0;
++
++	/* wpa2 */
++	group_cipher = 0;
++	pairwise_cipher = 0;
++	psecuritypriv->wpa2_group_cipher = _NO_PRIVACY_;
++	psecuritypriv->wpa2_pairwise_cipher = _NO_PRIVACY_;
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _RSN_IE_2_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if (p && ie_len > 0) {
++		if (rtw_parse_wpa2_ie(p, ie_len + 2, &group_cipher, &pairwise_cipher, NULL) == _SUCCESS) {
++			psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++
++			psecuritypriv->dot8021xalg = 1;/* psk,  todo:802.1x */
++			psecuritypriv->wpa_psk |= BIT(1);
++
++			psecuritypriv->wpa2_group_cipher = group_cipher;
++			psecuritypriv->wpa2_pairwise_cipher = pairwise_cipher;
++#if 0
++			switch (group_cipher) {
++			case WPA_CIPHER_NONE:
++				psecuritypriv->wpa2_group_cipher = _NO_PRIVACY_;
++				break;
++			case WPA_CIPHER_WEP40:
++				psecuritypriv->wpa2_group_cipher = _WEP40_;
++				break;
++			case WPA_CIPHER_TKIP:
++				psecuritypriv->wpa2_group_cipher = _TKIP_;
++				break;
++			case WPA_CIPHER_CCMP:
++				psecuritypriv->wpa2_group_cipher = _AES_;
++				break;
++			case WPA_CIPHER_WEP104:
++				psecuritypriv->wpa2_group_cipher = _WEP104_;
++				break;
++			}
++
++			switch (pairwise_cipher) {
++			case WPA_CIPHER_NONE:
++				psecuritypriv->wpa2_pairwise_cipher = _NO_PRIVACY_;
++				break;
++			case WPA_CIPHER_WEP40:
++				psecuritypriv->wpa2_pairwise_cipher = _WEP40_;
++				break;
++			case WPA_CIPHER_TKIP:
++				psecuritypriv->wpa2_pairwise_cipher = _TKIP_;
++				break;
++			case WPA_CIPHER_CCMP:
++				psecuritypriv->wpa2_pairwise_cipher = _AES_;
++				break;
++			case WPA_CIPHER_WEP104:
++				psecuritypriv->wpa2_pairwise_cipher = _WEP104_;
++				break;
++			}
++#endif
++		}
++
++	}
++
++	/* wpa */
++	ie_len = 0;
++	group_cipher = 0;
++	pairwise_cipher = 0;
++	psecuritypriv->wpa_group_cipher = _NO_PRIVACY_;
++	psecuritypriv->wpa_pairwise_cipher = _NO_PRIVACY_;
++	for (p = ie + _BEACON_IE_OFFSET_; ; p += (ie_len + 2)) {
++		p = rtw_get_ie(p, _SSN_IE_1_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_ - (ie_len + 2)));
++		if ((p) && (_rtw_memcmp(p + 2, OUI1, 4))) {
++			if (rtw_parse_wpa_ie(p, ie_len + 2, &group_cipher, &pairwise_cipher, NULL) == _SUCCESS) {
++				psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++
++				psecuritypriv->dot8021xalg = 1;/* psk,  todo:802.1x */
++
++				psecuritypriv->wpa_psk |= BIT(0);
++
++				psecuritypriv->wpa_group_cipher = group_cipher;
++				psecuritypriv->wpa_pairwise_cipher = pairwise_cipher;
++
++#if 0
++				switch (group_cipher) {
++				case WPA_CIPHER_NONE:
++					psecuritypriv->wpa_group_cipher = _NO_PRIVACY_;
++					break;
++				case WPA_CIPHER_WEP40:
++					psecuritypriv->wpa_group_cipher = _WEP40_;
++					break;
++				case WPA_CIPHER_TKIP:
++					psecuritypriv->wpa_group_cipher = _TKIP_;
++					break;
++				case WPA_CIPHER_CCMP:
++					psecuritypriv->wpa_group_cipher = _AES_;
++					break;
++				case WPA_CIPHER_WEP104:
++					psecuritypriv->wpa_group_cipher = _WEP104_;
++					break;
++				}
++
++				switch (pairwise_cipher) {
++				case WPA_CIPHER_NONE:
++					psecuritypriv->wpa_pairwise_cipher = _NO_PRIVACY_;
++					break;
++				case WPA_CIPHER_WEP40:
++					psecuritypriv->wpa_pairwise_cipher = _WEP40_;
++					break;
++				case WPA_CIPHER_TKIP:
++					psecuritypriv->wpa_pairwise_cipher = _TKIP_;
++					break;
++				case WPA_CIPHER_CCMP:
++					psecuritypriv->wpa_pairwise_cipher = _AES_;
++					break;
++				case WPA_CIPHER_WEP104:
++					psecuritypriv->wpa_pairwise_cipher = _WEP104_;
++					break;
++				}
++#endif
++			}
++
++			break;
++
++		}
++
++		if ((p == NULL) || (ie_len == 0))
++			break;
++
++	}
++
++	/* wmm */
++	ie_len = 0;
++	pmlmepriv->qospriv.qos_option = 0;
++	if (pregistrypriv->wmm_enable) {
++		for (p = ie + _BEACON_IE_OFFSET_; ; p += (ie_len + 2)) {
++			p = rtw_get_ie(p, _VENDOR_SPECIFIC_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_ - (ie_len + 2)));
++			if ((p) && _rtw_memcmp(p + 2, WMM_PARA_IE, 6)) {
++				pmlmepriv->qospriv.qos_option = 1;
++
++				*(p + 8) |= BIT(7); /* QoS Info, support U-APSD */
++
++				/* disable all ACM bits since the WMM admission control is not supported */
++				*(p + 10) &= ~BIT(4); /* BE */
++				*(p + 14) &= ~BIT(4); /* BK */
++				*(p + 18) &= ~BIT(4); /* VI */
++				*(p + 22) &= ~BIT(4); /* VO */
++
++				break;
++			}
++
++			if ((p == NULL) || (ie_len == 0))
++				break;
++		}
++	}
++#ifdef CONFIG_80211N_HT
++	/* parsing HT_CAP_IE */
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _HT_CAPABILITY_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if (p && ie_len > 0) {
++		u8 rf_type = 0;
++		HT_CAP_AMPDU_FACTOR max_rx_ampdu_factor = MAX_AMPDU_FACTOR_64K;
++		struct rtw_ieee80211_ht_cap *pht_cap = (struct rtw_ieee80211_ht_cap *)(p + 2);
++
++		if (0) {
++			RTW_INFO(FUNC_ADPT_FMT" HT_CAP_IE from upper layer:\n", FUNC_ADPT_ARG(padapter));
++			dump_ht_cap_ie_content(RTW_DBGDUMP, p + 2, ie_len);
++		}
++
++		pHT_caps_ie = p;
++
++		ht_cap = _TRUE;
++		network_type |= WIRELESS_11_24N;
++
++		rtw_ht_use_default_setting(padapter);
++
++		/* Update HT Capabilities Info field */
++		if (pmlmepriv->htpriv.sgi_20m == _FALSE)
++			pht_cap->cap_info &= ~(IEEE80211_HT_CAP_SGI_20);
++
++		if (pmlmepriv->htpriv.sgi_40m == _FALSE)
++			pht_cap->cap_info &= ~(IEEE80211_HT_CAP_SGI_40);
++
++		if (!TEST_FLAG(pmlmepriv->htpriv.ldpc_cap, LDPC_HT_ENABLE_RX))
++			pht_cap->cap_info &= ~(IEEE80211_HT_CAP_LDPC_CODING);
++
++		if (!TEST_FLAG(pmlmepriv->htpriv.stbc_cap, STBC_HT_ENABLE_TX))
++			pht_cap->cap_info &= ~(IEEE80211_HT_CAP_TX_STBC);
++
++		if (!TEST_FLAG(pmlmepriv->htpriv.stbc_cap, STBC_HT_ENABLE_RX))
++			pht_cap->cap_info &= ~(IEEE80211_HT_CAP_RX_STBC_3R);
++
++		/* Update A-MPDU Parameters field */
++		pht_cap->ampdu_params_info &= ~(IEEE80211_HT_CAP_AMPDU_FACTOR | IEEE80211_HT_CAP_AMPDU_DENSITY);
++
++		if ((psecuritypriv->wpa_pairwise_cipher & WPA_CIPHER_CCMP) ||
++		    (psecuritypriv->wpa2_pairwise_cipher & WPA_CIPHER_CCMP))
++			pht_cap->ampdu_params_info |= (IEEE80211_HT_CAP_AMPDU_DENSITY & (0x07 << 2));
++		else
++			pht_cap->ampdu_params_info |= (IEEE80211_HT_CAP_AMPDU_DENSITY & 0x00);
++
++		rtw_hal_get_def_var(padapter, HW_VAR_MAX_RX_AMPDU_FACTOR, &max_rx_ampdu_factor);
++		pht_cap->ampdu_params_info |= (IEEE80211_HT_CAP_AMPDU_FACTOR & max_rx_ampdu_factor); /* set  Max Rx AMPDU size  to 64K */
++
++		_rtw_memcpy(&(pmlmeinfo->HT_caps), pht_cap, sizeof(struct HT_caps_element));
++
++		/* Update Supported MCS Set field */
++		{
++			int i;
++
++			rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++			/* RX MCS Bitmask */
++			switch (rf_type) {
++			case RF_1T1R:
++			case RF_1T2R: /* ? */
++				set_mcs_rate_by_mask(HT_CAP_ELE_RX_MCS_MAP(pht_cap), MCS_RATE_1R);
++				break;
++			case RF_2T2R:
++				set_mcs_rate_by_mask(HT_CAP_ELE_RX_MCS_MAP(pht_cap), MCS_RATE_2R);
++				break;
++			case RF_3T3R:
++				set_mcs_rate_by_mask(HT_CAP_ELE_RX_MCS_MAP(pht_cap), MCS_RATE_3R);
++				break;
++			default:
++				RTW_INFO("[warning] rf_type %d is not expected\n", rf_type);
++			}
++			for (i = 0; i < 10; i++)
++				*(HT_CAP_ELE_RX_MCS_MAP(pht_cap) + i) &= padapter->mlmeextpriv.default_supported_mcs_set[i];
++		}
++
++#ifdef CONFIG_BEAMFORMING
++		/* Use registry value to enable HT Beamforming. */
++		/* ToDo: use configure file to set these capability. */
++		pht_cap->tx_BF_cap_info = 0;
++
++		/* HT Beamformer */
++		if (TEST_FLAG(pmlmepriv->htpriv.beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE)) {
++			/* Transmit NDP Capable */
++			SET_HT_CAP_TXBF_TRANSMIT_NDP_CAP(pht_cap, 1);
++			/* Explicit Compressed Steering Capable */
++			SET_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP(pht_cap, 1);
++			/* Compressed Steering Number Antennas */
++			SET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS(pht_cap, 1);
++			rtw_hal_get_def_var(padapter, HAL_DEF_BEAMFORMER_CAP, (u8 *)&rf_num);
++			SET_HT_CAP_TXBF_CHNL_ESTIMATION_NUM_ANTENNAS(pht_cap, rf_num);
++		}
++
++		/* HT Beamformee */
++		if (TEST_FLAG(pmlmepriv->htpriv.beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE)) {
++			/* Receive NDP Capable */
++			SET_HT_CAP_TXBF_RECEIVE_NDP_CAP(pht_cap, 1);
++			/* Explicit Compressed Beamforming Feedback Capable */
++			SET_HT_CAP_TXBF_EXPLICIT_COMP_FEEDBACK_CAP(pht_cap, 2);
++			rtw_hal_get_def_var(padapter, HAL_DEF_BEAMFORMEE_CAP, (u8 *)&rf_num);
++			SET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS(pht_cap, rf_num);
++		}
++#endif /* CONFIG_BEAMFORMING */
++
++		_rtw_memcpy(&pmlmepriv->htpriv.ht_cap, p + 2, ie_len);
++
++		if (0) {
++			RTW_INFO(FUNC_ADPT_FMT" HT_CAP_IE driver masked:\n", FUNC_ADPT_ARG(padapter));
++			dump_ht_cap_ie_content(RTW_DBGDUMP, p + 2, ie_len);
++		}
++	}
++
++	/* parsing HT_INFO_IE */
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _HT_ADD_INFO_IE_, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if (p && ie_len > 0)
++		pHT_info_ie = p;
++#endif /* CONFIG_80211N_HT */
++	switch (network_type) {
++	case WIRELESS_11B:
++		pbss_network->NetworkTypeInUse = Ndis802_11DS;
++		break;
++	case WIRELESS_11G:
++	case WIRELESS_11BG:
++	case WIRELESS_11G_24N:
++	case WIRELESS_11BG_24N:
++		pbss_network->NetworkTypeInUse = Ndis802_11OFDM24;
++		break;
++	case WIRELESS_11A:
++		pbss_network->NetworkTypeInUse = Ndis802_11OFDM5;
++		break;
++	default:
++		pbss_network->NetworkTypeInUse = Ndis802_11OFDM24;
++		break;
++	}
++
++	pmlmepriv->cur_network.network_type = network_type;
++
++#ifdef CONFIG_80211N_HT
++	pmlmepriv->htpriv.ht_option = _FALSE;
++
++	if ((psecuritypriv->wpa2_pairwise_cipher & WPA_CIPHER_TKIP) ||
++	    (psecuritypriv->wpa_pairwise_cipher & WPA_CIPHER_TKIP)) {
++		/* todo: */
++		/* ht_cap = _FALSE; */
++	}
++
++	/* ht_cap	 */
++	if (pregistrypriv->ht_enable && ht_cap == _TRUE) {
++		pmlmepriv->htpriv.ht_option = _TRUE;
++		pmlmepriv->qospriv.qos_option = 1;
++
++		pmlmepriv->htpriv.ampdu_enable = pregistrypriv->ampdu_enable ? _TRUE : _FALSE;
++
++		HT_caps_handler(padapter, (PNDIS_802_11_VARIABLE_IEs)pHT_caps_ie);
++
++		HT_info_handler(padapter, (PNDIS_802_11_VARIABLE_IEs)pHT_info_ie);
++	}
++#endif
++
++#ifdef CONFIG_80211AC_VHT
++
++	/* Parsing VHT CAP IE */
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, EID_VHTCapability, &ie_len, (pbss_network->IELength - _BEACON_IE_OFFSET_));
++	if (p && ie_len > 0)
++		vht_cap = _TRUE;
++	/* Parsing VHT OPERATION IE */
++
++
++	pmlmepriv->vhtpriv.vht_option = _FALSE;
++	/* if channel in 5G band, then add vht ie . */
++	if ((pbss_network->Configuration.DSConfig > 14)
++	    && (pmlmepriv->htpriv.ht_option == _TRUE)
++	    && REGSTY_IS_11AC_ENABLE(pregistrypriv)
++	    && hal_chk_proto_cap(padapter, PROTO_CAP_11AC)
++	    && (!pmlmepriv->country_ent || COUNTRY_CHPLAN_EN_11AC(pmlmepriv->country_ent))
++	   ) {
++		if (vht_cap == _TRUE)
++			pmlmepriv->vhtpriv.vht_option = _TRUE;
++		else if (REGSTY_IS_11AC_AUTO(pregistrypriv)) {
++			u8	cap_len, operation_len;
++
++			rtw_vht_use_default_setting(padapter);
++
++			{
++				/* VHT Operation mode notifiy bit in Extended IE (127) */
++				uint len = 0;
++
++				SET_EXT_CAPABILITY_ELE_OP_MODE_NOTIF(pmlmepriv->ext_capab_ie_data, 1);
++				pmlmepriv->ext_capab_ie_len = 10;
++				rtw_set_ie(pbss_network->IEs + pbss_network->IELength, EID_EXTCapability, 8, pmlmepriv->ext_capab_ie_data, &len);
++				pbss_network->IELength += pmlmepriv->ext_capab_ie_len;
++			}
++
++			/* VHT Capabilities element */
++			cap_len = rtw_build_vht_cap_ie(padapter, pbss_network->IEs + pbss_network->IELength);
++			pbss_network->IELength += cap_len;
++
++			/* VHT Operation element */
++			operation_len = rtw_build_vht_operation_ie(padapter, pbss_network->IEs + pbss_network->IELength, pbss_network->Configuration.DSConfig);
++			pbss_network->IELength += operation_len;
++
++			pmlmepriv->vhtpriv.vht_option = _TRUE;
++		}
++	}
++#endif /* CONFIG_80211AC_VHT */
++
++	if(pbss_network->Configuration.DSConfig <= 14 && padapter->registrypriv.wifi_spec == 1) {
++		uint len = 0;
++
++		SET_EXT_CAPABILITY_ELE_BSS_COEXIST(pmlmepriv->ext_capab_ie_data, 1);
++		pmlmepriv->ext_capab_ie_len = 10;
++		rtw_set_ie(pbss_network->IEs + pbss_network->IELength, EID_EXTCapability, 8, pmlmepriv->ext_capab_ie_data, &len);
++		pbss_network->IELength += pmlmepriv->ext_capab_ie_len;
++	}
++
++	pbss_network->Length = get_WLAN_BSSID_EX_sz((WLAN_BSSID_EX *)pbss_network);
++
++	rtw_ies_get_chbw(pbss_network->IEs + _BEACON_IE_OFFSET_, pbss_network->IELength - _BEACON_IE_OFFSET_
++		, &pmlmepriv->ori_ch, &pmlmepriv->ori_bw, &pmlmepriv->ori_offset);
++	rtw_warn_on(pmlmepriv->ori_ch == 0);
++
++	{
++		/* alloc sta_info for ap itself */
++
++		struct sta_info *sta;
++
++		sta = rtw_get_stainfo(&padapter->stapriv, pbss_network->MacAddress);
++		if (!sta) {
++			sta = rtw_alloc_stainfo(&padapter->stapriv, pbss_network->MacAddress);
++			if (sta == NULL)
++				return _FAIL;
++		}
++	}
++
++	rtw_startbss_cmd(padapter, RTW_CMDF_WAIT_ACK);
++	{
++		int sk_band = RTW_GET_SCAN_BAND_SKIP(padapter);
++
++		if (sk_band)
++			RTW_CLR_SCAN_BAND_SKIP(padapter, sk_band);
++	}
++
++	rtw_indicate_connect(padapter);
++
++	pmlmepriv->cur_network.join_res = _TRUE;/* for check if already set beacon */
++
++	/* update bc/mc sta_info */
++	/* update_bmc_sta(padapter); */
++
++	return ret;
++
++}
++
++#if CONFIG_RTW_MACADDR_ACL
++void rtw_macaddr_acl_init(_adapter *adapter)
++{
++	struct sta_priv *stapriv = &adapter->stapriv;
++	struct wlan_acl_pool *acl = &stapriv->acl_list;
++	_queue *acl_node_q = &acl->acl_node_q;
++	int i;
++	_irqL irqL;
++
++	_enter_critical_bh(&(acl_node_q->lock), &irqL);
++	_rtw_init_listhead(&(acl_node_q->queue));
++	acl->num = 0;
++	acl->mode = RTW_ACL_MODE_DISABLED;
++	for (i = 0; i < NUM_ACL; i++) {
++		_rtw_init_listhead(&acl->aclnode[i].list);
++		acl->aclnode[i].valid = _FALSE;
++	}
++	_exit_critical_bh(&(acl_node_q->lock), &irqL);
++}
++
++void rtw_macaddr_acl_deinit(_adapter *adapter)
++{
++	struct sta_priv *stapriv = &adapter->stapriv;
++	struct wlan_acl_pool *acl = &stapriv->acl_list;
++	_queue *acl_node_q = &acl->acl_node_q;
++	_irqL irqL;
++	_list *head, *list;
++	struct rtw_wlan_acl_node *acl_node;
++
++	_enter_critical_bh(&(acl_node_q->lock), &irqL);
++	head = get_list_head(acl_node_q);
++	list = get_next(head);
++	while (rtw_end_of_queue_search(head, list) == _FALSE) {
++		acl_node = LIST_CONTAINOR(list, struct rtw_wlan_acl_node, list);
++		list = get_next(list);
++
++		if (acl_node->valid == _TRUE) {
++			acl_node->valid = _FALSE;
++			rtw_list_delete(&acl_node->list);
++			acl->num--;
++		}
++	}
++	_exit_critical_bh(&(acl_node_q->lock), &irqL);
++
++	rtw_warn_on(acl->num);
++	acl->mode = RTW_ACL_MODE_DISABLED;
++}
++
++void rtw_set_macaddr_acl(_adapter *adapter, int mode)
++{
++	struct sta_priv *stapriv = &adapter->stapriv;
++	struct wlan_acl_pool *acl = &stapriv->acl_list;
++
++	RTW_INFO(FUNC_ADPT_FMT" mode=%d\n", FUNC_ADPT_ARG(adapter), mode);
++
++	acl->mode = mode;
++
++	if (mode == RTW_ACL_MODE_DISABLED)
++		rtw_macaddr_acl_deinit(adapter);
++}
++
++int rtw_acl_add_sta(_adapter *adapter, const u8 *addr)
++{
++	_irqL irqL;
++	_list *list, *head;
++	u8 existed = 0;
++	int i = -1, ret = 0;
++	struct rtw_wlan_acl_node *acl_node;
++	struct sta_priv *stapriv = &adapter->stapriv;
++	struct wlan_acl_pool *acl = &stapriv->acl_list;
++	_queue *acl_node_q = &acl->acl_node_q;
++
++	_enter_critical_bh(&(acl_node_q->lock), &irqL);
++
++	head = get_list_head(acl_node_q);
++	list = get_next(head);
++
++	/* search for existed entry */
++	while (rtw_end_of_queue_search(head, list) == _FALSE) {
++		acl_node = LIST_CONTAINOR(list, struct rtw_wlan_acl_node, list);
++		list = get_next(list);
++
++		if (_rtw_memcmp(acl_node->addr, addr, ETH_ALEN)) {
++			if (acl_node->valid == _TRUE) {
++				existed = 1;
++				break;
++			}
++		}
++	}
++	if (existed)
++		goto release_lock;
++
++	if (acl->num >= NUM_ACL)
++		goto release_lock;
++
++	/* find empty one and use */
++	for (i = 0; i < NUM_ACL; i++) {
++
++		acl_node = &acl->aclnode[i];
++		if (acl_node->valid == _FALSE) {
++
++			_rtw_init_listhead(&acl_node->list);
++			_rtw_memcpy(acl_node->addr, addr, ETH_ALEN);
++			acl_node->valid = _TRUE;
++
++			rtw_list_insert_tail(&acl_node->list, get_list_head(acl_node_q));
++			acl->num++;
++			break;
++		}
++	}
++
++release_lock:
++	_exit_critical_bh(&(acl_node_q->lock), &irqL);
++
++	if (!existed && (i < 0 || i >= NUM_ACL))
++		ret = -1;
++
++	RTW_INFO(FUNC_ADPT_FMT" "MAC_FMT" %s (acl_num=%d)\n"
++		 , FUNC_ADPT_ARG(adapter), MAC_ARG(addr)
++		, (existed ? "existed" : ((i < 0 || i >= NUM_ACL) ? "no room" : "added"))
++		 , acl->num);
++
++	return ret;
++}
++
++int rtw_acl_remove_sta(_adapter *adapter, const u8 *addr)
++{
++	_irqL irqL;
++	_list *list, *head;
++	int ret = 0;
++	struct rtw_wlan_acl_node *acl_node;
++	struct sta_priv *stapriv = &adapter->stapriv;
++	struct wlan_acl_pool *acl = &stapriv->acl_list;
++	_queue	*acl_node_q = &acl->acl_node_q;
++	u8 is_baddr = is_broadcast_mac_addr(addr);
++	u8 match = 0;
++
++	_enter_critical_bh(&(acl_node_q->lock), &irqL);
++
++	head = get_list_head(acl_node_q);
++	list = get_next(head);
++
++	while (rtw_end_of_queue_search(head, list) == _FALSE) {
++		acl_node = LIST_CONTAINOR(list, struct rtw_wlan_acl_node, list);
++		list = get_next(list);
++
++		if (is_baddr || _rtw_memcmp(acl_node->addr, addr, ETH_ALEN)) {
++			if (acl_node->valid == _TRUE) {
++				acl_node->valid = _FALSE;
++				rtw_list_delete(&acl_node->list);
++				acl->num--;
++				match = 1;
++			}
++		}
++	}
++
++	_exit_critical_bh(&(acl_node_q->lock), &irqL);
++
++	RTW_INFO(FUNC_ADPT_FMT" "MAC_FMT" %s (acl_num=%d)\n"
++		 , FUNC_ADPT_ARG(adapter), MAC_ARG(addr)
++		 , is_baddr ? "clear all" : (match ? "match" : "no found")
++		 , acl->num);
++
++	return ret;
++}
++#endif /* CONFIG_RTW_MACADDR_ACL */
++
++u8 rtw_ap_set_pairwise_key(_adapter *padapter, struct sta_info *psta)
++{
++	struct cmd_obj			*ph2c;
++	struct set_stakey_parm	*psetstakey_para;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	psetstakey_para = (struct set_stakey_parm *)rtw_zmalloc(sizeof(struct set_stakey_parm));
++	if (psetstakey_para == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psetstakey_para, _SetStaKey_CMD_);
++
++
++	psetstakey_para->algorithm = (u8)psta->dot118021XPrivacy;
++
++	_rtw_memcpy(psetstakey_para->addr, psta->hwaddr, ETH_ALEN);
++
++	_rtw_memcpy(psetstakey_para->key, &psta->dot118021x_UncstKey, 16);
++
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++	return res;
++
++}
++
++static int rtw_ap_set_key(_adapter *padapter, u8 *key, u8 alg, int keyid, u8 set_tx)
++{
++	u8 keylen;
++	struct cmd_obj *pcmd;
++	struct setkey_parm *psetkeyparm;
++	struct cmd_priv	*pcmdpriv = &(padapter->cmdpriv);
++	int res = _SUCCESS;
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	pcmd = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (pcmd == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	psetkeyparm = (struct setkey_parm *)rtw_zmalloc(sizeof(struct setkey_parm));
++	if (psetkeyparm == NULL) {
++		rtw_mfree((unsigned char *)pcmd, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	_rtw_memset(psetkeyparm, 0, sizeof(struct setkey_parm));
++
++	psetkeyparm->keyid = (u8)keyid;
++	if (is_wep_enc(alg))
++		padapter->securitypriv.key_mask |= BIT(psetkeyparm->keyid);
++
++	psetkeyparm->algorithm = alg;
++
++	psetkeyparm->set_tx = set_tx;
++
++	switch (alg) {
++	case _WEP40_:
++		keylen = 5;
++		break;
++	case _WEP104_:
++		keylen = 13;
++		break;
++	case _TKIP_:
++	case _TKIP_WTMIC_:
++	case _AES_:
++	default:
++		keylen = 16;
++	}
++
++	_rtw_memcpy(&(psetkeyparm->key[0]), key, keylen);
++
++	pcmd->cmdcode = _SetKey_CMD_;
++	pcmd->parmbuf = (u8 *)psetkeyparm;
++	pcmd->cmdsz = (sizeof(struct setkey_parm));
++	pcmd->rsp = NULL;
++	pcmd->rspsz = 0;
++
++
++	_rtw_init_listhead(&pcmd->list);
++
++	res = rtw_enqueue_cmd(pcmdpriv, pcmd);
++
++exit:
++
++	return res;
++}
++
++int rtw_ap_set_group_key(_adapter *padapter, u8 *key, u8 alg, int keyid)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	return rtw_ap_set_key(padapter, key, alg, keyid, 1);
++}
++
++int rtw_ap_set_wep_key(_adapter *padapter, u8 *key, u8 keylen, int keyid, u8 set_tx)
++{
++	u8 alg;
++
++	switch (keylen) {
++	case 5:
++		alg = _WEP40_;
++		break;
++	case 13:
++		alg = _WEP104_;
++		break;
++	default:
++		alg = _NO_PRIVACY_;
++	}
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	return rtw_ap_set_key(padapter, key, alg, keyid, set_tx);
++}
++
++u8 rtw_ap_bmc_frames_hdl(_adapter *padapter)
++{
++#define HIQ_XMIT_COUNTS (6)
++	_irqL irqL;
++	struct sta_info *psta_bmc;
++	_list	*xmitframe_plist, *xmitframe_phead;
++	struct xmit_frame *pxmitframe = NULL;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct sta_priv  *pstapriv = &padapter->stapriv;
++	bool update_tim = _FALSE;
++
++
++	if (padapter->registrypriv.wifi_spec != 1)
++		return H2C_SUCCESS;
++
++
++	psta_bmc = rtw_get_bcmc_stainfo(padapter);
++	if (!psta_bmc)
++		return H2C_SUCCESS;
++
++
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++	if ((pstapriv->tim_bitmap & BIT(0)) && (psta_bmc->sleepq_len > 0)) {
++		int tx_counts = 0;
++
++		_update_beacon(padapter, _TIM_IE_, NULL, _FALSE, "update TIM with TIB=1");
++
++		RTW_INFO("sleepq_len of bmc_sta = %d\n", psta_bmc->sleepq_len);
++
++		xmitframe_phead = get_list_head(&psta_bmc->sleep_q);
++		xmitframe_plist = get_next(xmitframe_phead);
++
++		while ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE) {
++			pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++			xmitframe_plist = get_next(xmitframe_plist);
++
++			rtw_list_delete(&pxmitframe->list);
++
++			psta_bmc->sleepq_len--;
++			tx_counts++;
++
++			if (psta_bmc->sleepq_len > 0)
++				pxmitframe->attrib.mdata = 1;
++			else
++				pxmitframe->attrib.mdata = 0;
++
++			if (tx_counts == HIQ_XMIT_COUNTS)
++				pxmitframe->attrib.mdata = 0;
++
++			pxmitframe->attrib.triggered = 1;
++
++			if (xmitframe_hiq_filter(pxmitframe) == _TRUE)
++				pxmitframe->attrib.qsel = QSLT_HIGH;/*HIQ*/
++
++			rtw_hal_xmitframe_enqueue(padapter, pxmitframe);
++
++			if (tx_counts == HIQ_XMIT_COUNTS)
++				break;
++
++		}
++
++	} else {
++		if (psta_bmc->sleepq_len == 0) {
++
++			/*RTW_INFO("sleepq_len of bmc_sta = %d\n", psta_bmc->sleepq_len);*/
++
++			if (pstapriv->tim_bitmap & BIT(0))
++				update_tim = _TRUE;
++
++			pstapriv->tim_bitmap &= ~BIT(0);
++			pstapriv->sta_dz_bitmap &= ~BIT(0);
++
++			if (update_tim == _TRUE) {
++				RTW_INFO("clear TIB\n");
++				_update_beacon(padapter, _TIM_IE_, NULL, _TRUE, "bmc sleepq and HIQ empty");
++			}
++		}
++	}
++
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++#if 0
++	/* HIQ Check */
++	rtw_hal_get_hwreg(padapter, HW_VAR_CHK_HI_QUEUE_EMPTY, &empty);
++
++	while (_FALSE == empty && rtw_get_passing_time_ms(start) < 3000) {
++		rtw_msleep_os(100);
++		rtw_hal_get_hwreg(padapter, HW_VAR_CHK_HI_QUEUE_EMPTY, &empty);
++	}
++
++
++	printk("check if hiq empty=%d\n", empty);
++#endif
++
++	return H2C_SUCCESS;
++}
++
++#ifdef CONFIG_NATIVEAP_MLME
++
++static void associated_stainfo_update(_adapter *padapter, struct sta_info *psta, u32 sta_info_type)
++{
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	RTW_INFO("%s: "MAC_FMT", updated_type=0x%x\n", __func__, MAC_ARG(psta->hwaddr), sta_info_type);
++
++	if (sta_info_type & STA_INFO_UPDATE_BW) {
++
++		if ((psta->flags & WLAN_STA_HT) && !psta->ht_20mhz_set) {
++			if (pmlmepriv->sw_to_20mhz) {
++				psta->bw_mode = CHANNEL_WIDTH_20;
++				/*psta->htpriv.ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;*/
++				psta->htpriv.sgi_40m = _FALSE;
++			} else {
++				/*TODO: Switch back to 40MHZ?80MHZ*/
++			}
++		}
++	}
++
++	/*
++		if (sta_info_type & STA_INFO_UPDATE_RATE) {
++
++		}
++	*/
++
++	if (sta_info_type & STA_INFO_UPDATE_PROTECTION_MODE)
++		VCS_update(padapter, psta);
++
++	/*
++		if (sta_info_type & STA_INFO_UPDATE_CAP) {
++
++		}
++
++		if (sta_info_type & STA_INFO_UPDATE_HT_CAP) {
++
++		}
++
++		if (sta_info_type & STA_INFO_UPDATE_VHT_CAP) {
++
++		}
++	*/
++
++}
++
++static void update_bcn_ext_capab_ie(_adapter *padapter)
++{
++	sint ie_len = 0;
++	unsigned char	*pbuf;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork = &(pmlmeinfo->network);
++	u8 *ie = pnetwork->IEs;
++	u8 null_extcap_data[8] = {0};
++
++	pbuf = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _EXT_CAP_IE_, &ie_len, (pnetwork->IELength - _BEACON_IE_OFFSET_));
++	if (pbuf && ie_len > 0)
++		rtw_remove_bcn_ie(padapter, pnetwork, _EXT_CAP_IE_);
++
++	if ((pmlmepriv->ext_capab_ie_len > 0) &&
++	    (_rtw_memcmp(pmlmepriv->ext_capab_ie_data, null_extcap_data, sizeof(null_extcap_data)) == _FALSE))
++		rtw_add_bcn_ie(padapter, pnetwork, _EXT_CAP_IE_, pmlmepriv->ext_capab_ie_data, pmlmepriv->ext_capab_ie_len);
++
++}
++
++static void update_bcn_fixed_ie(_adapter *padapter)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++}
++
++static void update_bcn_erpinfo_ie(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork = &(pmlmeinfo->network);
++	unsigned char *p, *ie = pnetwork->IEs;
++	u32 len = 0;
++
++	RTW_INFO("%s, ERP_enable=%d\n", __FUNCTION__, pmlmeinfo->ERP_enable);
++
++	if (!pmlmeinfo->ERP_enable)
++		return;
++
++	/* parsing ERP_IE */
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _ERPINFO_IE_, &len, (pnetwork->IELength - _BEACON_IE_OFFSET_));
++	if (p && len > 0) {
++		PNDIS_802_11_VARIABLE_IEs pIE = (PNDIS_802_11_VARIABLE_IEs)p;
++
++		if (pmlmepriv->num_sta_non_erp == 1)
++			pIE->data[0] |= RTW_ERP_INFO_NON_ERP_PRESENT | RTW_ERP_INFO_USE_PROTECTION;
++		else
++			pIE->data[0] &= ~(RTW_ERP_INFO_NON_ERP_PRESENT | RTW_ERP_INFO_USE_PROTECTION);
++
++		if (pmlmepriv->num_sta_no_short_preamble > 0)
++			pIE->data[0] |= RTW_ERP_INFO_BARKER_PREAMBLE_MODE;
++		else
++			pIE->data[0] &= ~(RTW_ERP_INFO_BARKER_PREAMBLE_MODE);
++
++		ERP_IE_handler(padapter, pIE);
++	}
++
++}
++
++static void update_bcn_htcap_ie(_adapter *padapter)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++}
++
++static void update_bcn_htinfo_ie(_adapter *padapter)
++{
++	/*
++	u8 beacon_updated = _FALSE;
++	u32 sta_info_update_type = STA_INFO_UPDATE_NONE;
++	*/
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork = &(pmlmeinfo->network);
++	unsigned char *p, *ie = pnetwork->IEs;
++	u32 len = 0;
++
++	if (pmlmepriv->htpriv.ht_option == _FALSE)
++		return;
++
++	if (pmlmeinfo->HT_info_enable != 1)
++		return;
++
++
++	RTW_INFO("%s current operation mode=0x%X\n",
++		 __FUNCTION__, pmlmepriv->ht_op_mode);
++
++	RTW_INFO("num_sta_40mhz_intolerant(%d), 20mhz_width_req(%d), intolerant_ch_rpt(%d), olbc(%d)\n",
++		pmlmepriv->num_sta_40mhz_intolerant, pmlmepriv->ht_20mhz_width_req, pmlmepriv->ht_intolerant_ch_reported, ATOMIC_READ(&pmlmepriv->olbc));
++
++	/*parsing HT_INFO_IE, currently only update ht_op_mode - pht_info->infos[1] & pht_info->infos[2] for wifi logo test*/
++	p = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _HT_ADD_INFO_IE_, &len, (pnetwork->IELength - _BEACON_IE_OFFSET_));
++	if (p && len > 0) {
++		struct HT_info_element *pht_info = NULL;
++
++		pht_info = (struct HT_info_element *)(p + 2);
++
++		/* for STA Channel Width/Secondary Channel Offset*/
++		if ((pmlmepriv->sw_to_20mhz == 0) && (pmlmeext->cur_channel <= 14)) {
++			if ((pmlmepriv->num_sta_40mhz_intolerant > 0) || (pmlmepriv->ht_20mhz_width_req == _TRUE)
++			    || (pmlmepriv->ht_intolerant_ch_reported == _TRUE) || (ATOMIC_READ(&pmlmepriv->olbc) == _TRUE)) {
++				SET_HT_OP_ELE_2ND_CHL_OFFSET(pht_info, 0);
++				SET_HT_OP_ELE_STA_CHL_WIDTH(pht_info, 0);
++
++				pmlmepriv->sw_to_20mhz = 1;
++				/*
++				sta_info_update_type |= STA_INFO_UPDATE_BW;
++				beacon_updated = _TRUE;
++				*/
++
++				RTW_INFO("%s:switching to 20Mhz\n", __FUNCTION__);
++
++				/*TODO : cur_bwmode/cur_ch_offset switches to 20Mhz*/
++			}
++		} else {
++
++			if ((pmlmepriv->num_sta_40mhz_intolerant == 0) && (pmlmepriv->ht_20mhz_width_req == _FALSE)
++			    && (pmlmepriv->ht_intolerant_ch_reported == _FALSE) && (ATOMIC_READ(&pmlmepriv->olbc) == _FALSE)) {
++
++				if (pmlmeext->cur_bwmode >= CHANNEL_WIDTH_40) {
++
++					SET_HT_OP_ELE_STA_CHL_WIDTH(pht_info, 1);
++
++					SET_HT_OP_ELE_2ND_CHL_OFFSET(pht_info,
++						(pmlmeext->cur_ch_offset == HAL_PRIME_CHNL_OFFSET_LOWER) ?
++						HT_INFO_HT_PARAM_SECONDARY_CHNL_ABOVE : HT_INFO_HT_PARAM_SECONDARY_CHNL_BELOW);
++
++					pmlmepriv->sw_to_20mhz = 0;
++					/*
++					sta_info_update_type |= STA_INFO_UPDATE_BW;
++					beacon_updated = _TRUE;
++					*/
++
++					RTW_INFO("%s:switching back to 40Mhz\n", __FUNCTION__);
++				}
++			}
++		}
++
++		/* to update  ht_op_mode*/
++		*(u16 *)(pht_info->infos + 1) = cpu_to_le16(pmlmepriv->ht_op_mode);
++
++	}
++
++	/*associated_clients_update(padapter, beacon_updated, sta_info_update_type);*/
++
++}
++
++static void update_bcn_rsn_ie(_adapter *padapter)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++}
++
++static void update_bcn_wpa_ie(_adapter *padapter)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++}
++
++static void update_bcn_wmm_ie(_adapter *padapter)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++}
++
++static void update_bcn_wps_ie(_adapter *padapter)
++{
++	u8 *pwps_ie = NULL, *pwps_ie_src, *premainder_ie, *pbackup_remainder_ie = NULL;
++	uint wps_ielen = 0, wps_offset, remainder_ielen;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork = &(pmlmeinfo->network);
++	unsigned char *ie = pnetwork->IEs;
++	u32 ielen = pnetwork->IELength;
++
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	pwps_ie = rtw_get_wps_ie(ie + _FIXED_IE_LENGTH_, ielen - _FIXED_IE_LENGTH_, NULL, &wps_ielen);
++
++	if (pwps_ie == NULL || wps_ielen == 0)
++		return;
++
++	pwps_ie_src = pmlmepriv->wps_beacon_ie;
++	if (pwps_ie_src == NULL)
++		return;
++
++	wps_offset = (uint)(pwps_ie - ie);
++
++	premainder_ie = pwps_ie + wps_ielen;
++
++	remainder_ielen = ielen - wps_offset - wps_ielen;
++
++	if (remainder_ielen > 0) {
++		pbackup_remainder_ie = rtw_malloc(remainder_ielen);
++		if (pbackup_remainder_ie)
++			_rtw_memcpy(pbackup_remainder_ie, premainder_ie, remainder_ielen);
++	}
++
++	wps_ielen = (uint)pwps_ie_src[1];/* to get ie data len */
++	if ((wps_offset + wps_ielen + 2 + remainder_ielen) <= MAX_IE_SZ) {
++		_rtw_memcpy(pwps_ie, pwps_ie_src, wps_ielen + 2);
++		pwps_ie += (wps_ielen + 2);
++
++		if (pbackup_remainder_ie)
++			_rtw_memcpy(pwps_ie, pbackup_remainder_ie, remainder_ielen);
++
++		/* update IELength */
++		pnetwork->IELength = wps_offset + (wps_ielen + 2) + remainder_ielen;
++	}
++
++	if (pbackup_remainder_ie)
++		rtw_mfree(pbackup_remainder_ie, remainder_ielen);
++
++	/* deal with the case without set_tx_beacon_cmd() in update_beacon() */
++#if defined(CONFIG_INTERRUPT_BASED_TXBCN) || defined(CONFIG_PCI_HCI)
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) {
++		u8 sr = 0;
++		rtw_get_wps_attr_content(pwps_ie_src,  wps_ielen, WPS_ATTR_SELECTED_REGISTRAR, (u8 *)(&sr), NULL);
++
++		if (sr) {
++			set_fwstate(pmlmepriv, WIFI_UNDER_WPS);
++			RTW_INFO("%s, set WIFI_UNDER_WPS\n", __func__);
++		}
++	}
++#endif
++}
++
++static void update_bcn_p2p_ie(_adapter *padapter)
++{
++
++}
++
++static void update_bcn_vendor_spec_ie(_adapter *padapter, u8 *oui)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	if (_rtw_memcmp(RTW_WPA_OUI, oui, 4))
++		update_bcn_wpa_ie(padapter);
++	else if (_rtw_memcmp(WMM_OUI, oui, 4))
++		update_bcn_wmm_ie(padapter);
++	else if (_rtw_memcmp(WPS_OUI, oui, 4))
++		update_bcn_wps_ie(padapter);
++	else if (_rtw_memcmp(P2P_OUI, oui, 4))
++		update_bcn_p2p_ie(padapter);
++	else
++		RTW_INFO("unknown OUI type!\n");
++
++
++}
++
++void _update_beacon(_adapter *padapter, u8 ie_id, u8 *oui, u8 tx, const char *tag)
++{
++	_irqL irqL;
++	struct mlme_priv *pmlmepriv;
++	struct mlme_ext_priv	*pmlmeext;
++	/* struct mlme_ext_info	*pmlmeinfo; */
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	if (!padapter)
++		return;
++
++	pmlmepriv = &(padapter->mlmepriv);
++	pmlmeext = &(padapter->mlmeextpriv);
++	/* pmlmeinfo = &(pmlmeext->mlmext_info); */
++
++	if (_FALSE == pmlmeext->bstart_bss)
++		return;
++
++	_enter_critical_bh(&pmlmepriv->bcn_update_lock, &irqL);
++
++	switch (ie_id) {
++	case 0xFF:
++
++		update_bcn_fixed_ie(padapter);/* 8: TimeStamp, 2: Beacon Interval 2:Capability */
++
++		break;
++
++	case _TIM_IE_:
++
++		update_BCNTIM(padapter);
++
++		break;
++
++	case _ERPINFO_IE_:
++
++		update_bcn_erpinfo_ie(padapter);
++
++		break;
++
++	case _HT_CAPABILITY_IE_:
++
++		update_bcn_htcap_ie(padapter);
++
++		break;
++
++	case _RSN_IE_2_:
++
++		update_bcn_rsn_ie(padapter);
++
++		break;
++
++	case _HT_ADD_INFO_IE_:
++
++		update_bcn_htinfo_ie(padapter);
++
++		break;
++
++	case _EXT_CAP_IE_:
++
++		update_bcn_ext_capab_ie(padapter);
++
++		break;
++
++	case _VENDOR_SPECIFIC_IE_:
++
++		update_bcn_vendor_spec_ie(padapter, oui);
++
++		break;
++
++	default:
++		break;
++	}
++
++	pmlmepriv->update_bcn = _TRUE;
++
++	_exit_critical_bh(&pmlmepriv->bcn_update_lock, &irqL);
++
++#ifndef CONFIG_INTERRUPT_BASED_TXBCN
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	if (tx) {
++		/* send_beacon(padapter); */ /* send_beacon must execute on TSR level */
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" ie_id:%u - %s\n", FUNC_ADPT_ARG(padapter), ie_id, tag);
++		set_tx_beacon_cmd(padapter);
++	}
++#else
++	{
++		/* PCI will issue beacon when BCN interrupt occurs.		 */
++	}
++#endif
++#endif /* !CONFIG_INTERRUPT_BASED_TXBCN */
++
++}
++
++#ifdef CONFIG_80211N_HT
++
++void rtw_process_public_act_bsscoex(_adapter *padapter, u8 *pframe, uint frame_len)
++{
++	struct sta_info *psta;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 beacon_updated = _FALSE;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	u8 *frame_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	uint frame_body_len = frame_len - sizeof(struct rtw_ieee80211_hdr_3addr);
++	u8 category, action;
++
++	psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++	if (psta == NULL)
++		return;
++
++
++	category = frame_body[0];
++	action = frame_body[1];
++
++	if (frame_body_len > 0) {
++		if ((frame_body[2] == EID_BSSCoexistence) && (frame_body[3] > 0)) {
++			u8 ie_data = frame_body[4];
++
++			if (ie_data & RTW_WLAN_20_40_BSS_COEX_40MHZ_INTOL) {
++				if (psta->ht_40mhz_intolerant == 0) {
++					psta->ht_40mhz_intolerant = 1;
++					pmlmepriv->num_sta_40mhz_intolerant++;
++					beacon_updated = _TRUE;
++				}
++			} else if (ie_data & RTW_WLAN_20_40_BSS_COEX_20MHZ_WIDTH_REQ)	{
++				if (pmlmepriv->ht_20mhz_width_req == _FALSE) {
++					pmlmepriv->ht_20mhz_width_req = _TRUE;
++					beacon_updated = _TRUE;
++				}
++			} else
++				beacon_updated = _FALSE;
++		}
++	}
++
++	if (frame_body_len > 8) {
++		/* if EID_BSSIntolerantChlReport ie exists */
++		if ((frame_body[5] == EID_BSSIntolerantChlReport) && (frame_body[6] > 0)) {
++			/*todo:*/
++			if (pmlmepriv->ht_intolerant_ch_reported == _FALSE) {
++				pmlmepriv->ht_intolerant_ch_reported = _TRUE;
++				beacon_updated = _TRUE;
++			}
++		}
++	}
++
++	if (beacon_updated) {
++
++		update_beacon(padapter, _HT_ADD_INFO_IE_, NULL, _TRUE);
++
++		associated_stainfo_update(padapter, psta, STA_INFO_UPDATE_BW);
++	}
++
++
++
++}
++
++void rtw_process_ht_action_smps(_adapter *padapter, u8 *ta, u8 ctrl_field)
++{
++	u8 e_field, m_field;
++	struct sta_info *psta;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	psta = rtw_get_stainfo(pstapriv, ta);
++	if (psta == NULL)
++		return;
++
++	e_field = (ctrl_field & BIT(0)) ? 1 : 0;
++	m_field = (ctrl_field & BIT(1)) ? 1 : 0;
++
++	if (e_field) {
++
++		/* enable */
++		/* 0:static SMPS, 1:dynamic SMPS, 3:SMPS disabled, 2:reserved*/
++
++		if (m_field) /*mode*/
++			psta->htpriv.smps_cap = 1;
++		else
++			psta->htpriv.smps_cap = 0;
++	} else {
++		/*disable*/
++		psta->htpriv.smps_cap = 3;
++	}
++
++	rtw_dm_ra_mask_wk_cmd(padapter, (u8 *)psta);
++
++}
++
++/*
++op_mode
++Set to 0 (HT pure) under the followign conditions
++	- all STAs in the BSS are 20/40 MHz HT in 20/40 MHz BSS or
++	- all STAs in the BSS are 20 MHz HT in 20 MHz BSS
++Set to 1 (HT non-member protection) if there may be non-HT STAs
++	in both the primary and the secondary channel
++Set to 2 if only HT STAs are associated in BSS,
++	however and at least one 20 MHz HT STA is associated
++Set to 3 (HT mixed mode) when one or more non-HT STAs are associated
++	(currently non-GF HT station is considered as non-HT STA also)
++*/
++int rtw_ht_operation_update(_adapter *padapter)
++{
++	u16 cur_op_mode, new_op_mode;
++	int op_mode_changes = 0;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct ht_priv	*phtpriv_ap = &pmlmepriv->htpriv;
++
++	if (pmlmepriv->htpriv.ht_option == _FALSE)
++		return 0;
++
++	/*if (!iface->conf->ieee80211n || iface->conf->ht_op_mode_fixed)
++		return 0;*/
++
++	RTW_INFO("%s current operation mode=0x%X\n",
++		 __FUNCTION__, pmlmepriv->ht_op_mode);
++
++	if (!(pmlmepriv->ht_op_mode & HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT)
++	    && pmlmepriv->num_sta_ht_no_gf) {
++		pmlmepriv->ht_op_mode |=
++			HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT;
++		op_mode_changes++;
++	} else if ((pmlmepriv->ht_op_mode &
++		    HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT) &&
++		   pmlmepriv->num_sta_ht_no_gf == 0) {
++		pmlmepriv->ht_op_mode &=
++			~HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT;
++		op_mode_changes++;
++	}
++
++	if (!(pmlmepriv->ht_op_mode & HT_INFO_OPERATION_MODE_NON_HT_STA_PRESENT) &&
++	    (pmlmepriv->num_sta_no_ht || ATOMIC_READ(&pmlmepriv->olbc_ht))) {
++		pmlmepriv->ht_op_mode |= HT_INFO_OPERATION_MODE_NON_HT_STA_PRESENT;
++		op_mode_changes++;
++	} else if ((pmlmepriv->ht_op_mode &
++		    HT_INFO_OPERATION_MODE_NON_HT_STA_PRESENT) &&
++		   (pmlmepriv->num_sta_no_ht == 0 && !ATOMIC_READ(&pmlmepriv->olbc_ht))) {
++		pmlmepriv->ht_op_mode &=
++			~HT_INFO_OPERATION_MODE_NON_HT_STA_PRESENT;
++		op_mode_changes++;
++	}
++
++	/* Note: currently we switch to the MIXED op mode if HT non-greenfield
++	 * station is associated. Probably it's a theoretical case, since
++	 * it looks like all known HT STAs support greenfield.
++	 */
++	new_op_mode = 0;
++	if (pmlmepriv->num_sta_no_ht /*||
++	    (pmlmepriv->ht_op_mode & HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT)*/)
++		new_op_mode = OP_MODE_MIXED;
++	else if ((phtpriv_ap->ht_cap.cap_info & IEEE80211_HT_CAP_SUP_WIDTH)
++		 && pmlmepriv->num_sta_ht_20mhz)
++		new_op_mode = OP_MODE_20MHZ_HT_STA_ASSOCED;
++	else if (ATOMIC_READ(&pmlmepriv->olbc_ht))
++		new_op_mode = OP_MODE_MAY_BE_LEGACY_STAS;
++	else
++		new_op_mode = OP_MODE_PURE;
++
++	cur_op_mode = pmlmepriv->ht_op_mode & HT_INFO_OPERATION_MODE_OP_MODE_MASK;
++	if (cur_op_mode != new_op_mode) {
++		pmlmepriv->ht_op_mode &= ~HT_INFO_OPERATION_MODE_OP_MODE_MASK;
++		pmlmepriv->ht_op_mode |= new_op_mode;
++		op_mode_changes++;
++	}
++
++	RTW_INFO("%s new operation mode=0x%X changes=%d\n",
++		 __FUNCTION__, pmlmepriv->ht_op_mode, op_mode_changes);
++
++	return op_mode_changes;
++
++}
++
++#endif /* CONFIG_80211N_HT */
++
++void associated_clients_update(_adapter *padapter, u8 updated, u32 sta_info_type)
++{
++	/* update associcated stations cap. */
++	if (updated == _TRUE) {
++		_irqL irqL;
++		_list	*phead, *plist;
++		struct sta_info *psta = NULL;
++		struct sta_priv *pstapriv = &padapter->stapriv;
++
++		_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++		phead = &pstapriv->asoc_list;
++		plist = get_next(phead);
++
++		/* check asoc_queue */
++		while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++			psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++
++			plist = get_next(plist);
++
++			associated_stainfo_update(padapter, psta, sta_info_type);
++		}
++
++		_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	}
++
++}
++
++/* called > TSR LEVEL for USB or SDIO Interface*/
++void bss_cap_update_on_sta_join(_adapter *padapter, struct sta_info *psta)
++{
++	u8 beacon_updated = _FALSE;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++
++
++#if 0
++	if (!(psta->capability & WLAN_CAPABILITY_SHORT_PREAMBLE) &&
++	    !psta->no_short_preamble_set) {
++		psta->no_short_preamble_set = 1;
++		pmlmepriv->num_sta_no_short_preamble++;
++		if ((pmlmeext->cur_wireless_mode > WIRELESS_11B) &&
++		    (pmlmepriv->num_sta_no_short_preamble == 1))
++			ieee802_11_set_beacons(hapd->iface);
++	}
++#endif
++
++
++	if (!(psta->flags & WLAN_STA_SHORT_PREAMBLE)) {
++		if (!psta->no_short_preamble_set) {
++			psta->no_short_preamble_set = 1;
++
++			pmlmepriv->num_sta_no_short_preamble++;
++
++			if ((pmlmeext->cur_wireless_mode > WIRELESS_11B) &&
++			    (pmlmepriv->num_sta_no_short_preamble == 1)) {
++				beacon_updated = _TRUE;
++				update_beacon(padapter, 0xFF, NULL, _TRUE);
++			}
++
++		}
++	} else {
++		if (psta->no_short_preamble_set) {
++			psta->no_short_preamble_set = 0;
++
++			pmlmepriv->num_sta_no_short_preamble--;
++
++			if ((pmlmeext->cur_wireless_mode > WIRELESS_11B) &&
++			    (pmlmepriv->num_sta_no_short_preamble == 0)) {
++				beacon_updated = _TRUE;
++				update_beacon(padapter, 0xFF, NULL, _TRUE);
++			}
++
++		}
++	}
++
++#if 0
++	if (psta->flags & WLAN_STA_NONERP && !psta->nonerp_set) {
++		psta->nonerp_set = 1;
++		pmlmepriv->num_sta_non_erp++;
++		if (pmlmepriv->num_sta_non_erp == 1)
++			ieee802_11_set_beacons(hapd->iface);
++	}
++#endif
++
++	if (psta->flags & WLAN_STA_NONERP) {
++		if (!psta->nonerp_set) {
++			psta->nonerp_set = 1;
++
++			pmlmepriv->num_sta_non_erp++;
++
++			if (pmlmepriv->num_sta_non_erp == 1) {
++				beacon_updated = _TRUE;
++				update_beacon(padapter, _ERPINFO_IE_, NULL, _TRUE);
++			}
++		}
++
++	} else {
++		if (psta->nonerp_set) {
++			psta->nonerp_set = 0;
++
++			pmlmepriv->num_sta_non_erp--;
++
++			if (pmlmepriv->num_sta_non_erp == 0) {
++				beacon_updated = _TRUE;
++				update_beacon(padapter, _ERPINFO_IE_, NULL, _TRUE);
++			}
++		}
++
++	}
++
++
++#if 0
++	if (!(psta->capability & WLAN_CAPABILITY_SHORT_SLOT) &&
++	    !psta->no_short_slot_time_set) {
++		psta->no_short_slot_time_set = 1;
++		pmlmepriv->num_sta_no_short_slot_time++;
++		if ((pmlmeext->cur_wireless_mode > WIRELESS_11B) &&
++		    (pmlmepriv->num_sta_no_short_slot_time == 1))
++			ieee802_11_set_beacons(hapd->iface);
++	}
++#endif
++
++	if (!(psta->capability & WLAN_CAPABILITY_SHORT_SLOT)) {
++		if (!psta->no_short_slot_time_set) {
++			psta->no_short_slot_time_set = 1;
++
++			pmlmepriv->num_sta_no_short_slot_time++;
++
++			if ((pmlmeext->cur_wireless_mode > WIRELESS_11B) &&
++			    (pmlmepriv->num_sta_no_short_slot_time == 1)) {
++				beacon_updated = _TRUE;
++				update_beacon(padapter, 0xFF, NULL, _TRUE);
++			}
++
++		}
++	} else {
++		if (psta->no_short_slot_time_set) {
++			psta->no_short_slot_time_set = 0;
++
++			pmlmepriv->num_sta_no_short_slot_time--;
++
++			if ((pmlmeext->cur_wireless_mode > WIRELESS_11B) &&
++			    (pmlmepriv->num_sta_no_short_slot_time == 0)) {
++				beacon_updated = _TRUE;
++				update_beacon(padapter, 0xFF, NULL, _TRUE);
++			}
++		}
++	}
++
++#ifdef CONFIG_80211N_HT
++
++	if (psta->flags & WLAN_STA_HT) {
++		u16 ht_capab = le16_to_cpu(psta->htpriv.ht_cap.cap_info);
++
++		RTW_INFO("HT: STA " MAC_FMT " HT Capabilities "
++			 "Info: 0x%04x\n", MAC_ARG(psta->hwaddr), ht_capab);
++
++		if (psta->no_ht_set) {
++			psta->no_ht_set = 0;
++			pmlmepriv->num_sta_no_ht--;
++		}
++
++		if ((ht_capab & IEEE80211_HT_CAP_GRN_FLD) == 0) {
++			if (!psta->no_ht_gf_set) {
++				psta->no_ht_gf_set = 1;
++				pmlmepriv->num_sta_ht_no_gf++;
++			}
++			RTW_INFO("%s STA " MAC_FMT " - no "
++				 "greenfield, num of non-gf stations %d\n",
++				 __FUNCTION__, MAC_ARG(psta->hwaddr),
++				 pmlmepriv->num_sta_ht_no_gf);
++		}
++
++		if ((ht_capab & IEEE80211_HT_CAP_SUP_WIDTH) == 0) {
++			if (!psta->ht_20mhz_set) {
++				psta->ht_20mhz_set = 1;
++				pmlmepriv->num_sta_ht_20mhz++;
++			}
++			RTW_INFO("%s STA " MAC_FMT " - 20 MHz HT, "
++				 "num of 20MHz HT STAs %d\n",
++				 __FUNCTION__, MAC_ARG(psta->hwaddr),
++				 pmlmepriv->num_sta_ht_20mhz);
++		}
++
++	} else {
++		if (!psta->no_ht_set) {
++			psta->no_ht_set = 1;
++			pmlmepriv->num_sta_no_ht++;
++		}
++		if (pmlmepriv->htpriv.ht_option == _TRUE) {
++			RTW_INFO("%s STA " MAC_FMT
++				 " - no HT, num of non-HT stations %d\n",
++				 __FUNCTION__, MAC_ARG(psta->hwaddr),
++				 pmlmepriv->num_sta_no_ht);
++		}
++	}
++
++	if (rtw_ht_operation_update(padapter) > 0) {
++		update_beacon(padapter, _HT_CAPABILITY_IE_, NULL, _FALSE);
++		update_beacon(padapter, _HT_ADD_INFO_IE_, NULL, _TRUE);
++		/*beacon_updated = _TRUE;*/
++	}
++
++#endif /* CONFIG_80211N_HT */
++
++	/* update associcated stations cap. */
++	associated_clients_update(padapter,  beacon_updated, STA_INFO_UPDATE_ALL);
++
++	RTW_INFO("%s, updated=%d\n", __func__, beacon_updated);
++
++}
++
++u8 bss_cap_update_on_sta_leave(_adapter *padapter, struct sta_info *psta)
++{
++	u8 beacon_updated = _FALSE;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++
++	if (!psta)
++		return beacon_updated;
++
++	if (psta->no_short_preamble_set) {
++		psta->no_short_preamble_set = 0;
++		pmlmepriv->num_sta_no_short_preamble--;
++		if (pmlmeext->cur_wireless_mode > WIRELESS_11B
++		    && pmlmepriv->num_sta_no_short_preamble == 0) {
++			beacon_updated = _TRUE;
++			update_beacon(padapter, 0xFF, NULL, _TRUE);
++		}
++	}
++
++	if (psta->nonerp_set) {
++		psta->nonerp_set = 0;
++		pmlmepriv->num_sta_non_erp--;
++		if (pmlmepriv->num_sta_non_erp == 0) {
++			beacon_updated = _TRUE;
++			update_beacon(padapter, _ERPINFO_IE_, NULL, _TRUE);
++		}
++	}
++
++	if (psta->no_short_slot_time_set) {
++		psta->no_short_slot_time_set = 0;
++		pmlmepriv->num_sta_no_short_slot_time--;
++		if (pmlmeext->cur_wireless_mode > WIRELESS_11B
++		    && pmlmepriv->num_sta_no_short_slot_time == 0) {
++			beacon_updated = _TRUE;
++			update_beacon(padapter, 0xFF, NULL, _TRUE);
++		}
++	}
++
++#ifdef CONFIG_80211N_HT
++
++	if (psta->no_ht_gf_set) {
++		psta->no_ht_gf_set = 0;
++		pmlmepriv->num_sta_ht_no_gf--;
++	}
++
++	if (psta->no_ht_set) {
++		psta->no_ht_set = 0;
++		pmlmepriv->num_sta_no_ht--;
++	}
++
++	if (psta->ht_20mhz_set) {
++		psta->ht_20mhz_set = 0;
++		pmlmepriv->num_sta_ht_20mhz--;
++	}
++
++
++
++	if (rtw_ht_operation_update(padapter) > 0) {
++		update_beacon(padapter, _HT_CAPABILITY_IE_, NULL, _FALSE);
++		update_beacon(padapter, _HT_ADD_INFO_IE_, NULL, _TRUE);
++	}
++
++#endif /* CONFIG_80211N_HT */
++
++#if 0
++	/* update associated stations cap. */
++	associated_clients_update(padapter,  beacon_updated, STA_INFO_UPDATE_ALL); /* move it to avoid deadlock */
++#endif
++
++	RTW_INFO("%s, updated=%d\n", __func__, beacon_updated);
++
++	return beacon_updated;
++
++}
++
++u8 ap_free_sta(_adapter *padapter, struct sta_info *psta, bool active, u16 reason, bool enqueue)
++{
++	_irqL irqL;
++	u8 beacon_updated = _FALSE;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	if (!psta)
++		return beacon_updated;
++
++	if (active == _TRUE) {
++#ifdef CONFIG_80211N_HT
++		/* tear down Rx AMPDU */
++		send_delba(padapter, 0, psta->hwaddr);/* recipient */
++
++		/* tear down TX AMPDU */
++		send_delba(padapter, 1, psta->hwaddr);/*  */ /* originator */
++
++#endif /* CONFIG_80211N_HT */
++
++		issue_deauth(padapter, psta->hwaddr, reason);
++	}
++
++#ifdef CONFIG_BEAMFORMING
++	beamforming_wk_cmd(padapter, BEAMFORMING_CTRL_LEAVE, psta->hwaddr, ETH_ALEN, 1);
++#endif
++
++	psta->htpriv.agg_enable_bitmap = 0x0;/* reset */
++	psta->htpriv.candidate_tid_bitmap = 0x0;/* reset */
++
++	/* clear cam entry / key */
++	rtw_clearstakey_cmd(padapter, psta, enqueue);
++
++
++	_enter_critical_bh(&psta->lock, &irqL);
++	psta->state &= ~_FW_LINKED;
++	_exit_critical_bh(&psta->lock, &irqL);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (1) {
++#ifdef COMPAT_KERNEL_RELEASE
++		rtw_cfg80211_indicate_sta_disassoc(padapter, psta->hwaddr, reason);
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) && !defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++		rtw_cfg80211_indicate_sta_disassoc(padapter, psta->hwaddr, reason);
++#else /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) && !defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER) */
++		/* will call rtw_cfg80211_indicate_sta_disassoc() in cmd_thread for old API context */
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) && !defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER) */
++	} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++	{
++		rtw_indicate_sta_disassoc_event(padapter, psta);
++	}
++
++	report_del_sta_event(padapter, psta->hwaddr, reason, enqueue, _FALSE);
++
++	beacon_updated = bss_cap_update_on_sta_leave(padapter, psta);
++
++	/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);					 */
++	rtw_free_stainfo(padapter, psta);
++	/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL); */
++
++
++	return beacon_updated;
++
++}
++
++int rtw_ap_inform_ch_switch(_adapter *padapter, u8 new_ch, u8 ch_offset)
++{
++	_irqL irqL;
++	_list	*phead, *plist;
++	int ret = 0;
++	struct sta_info *psta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++	if ((pmlmeinfo->state & 0x03) != WIFI_FW_AP_STATE)
++		return ret;
++
++	RTW_INFO(FUNC_NDEV_FMT" with ch:%u, offset:%u\n",
++		 FUNC_NDEV_ARG(padapter->pnetdev), new_ch, ch_offset);
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++
++	/* for each sta in asoc_queue */
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		plist = get_next(plist);
++
++		issue_action_spct_ch_switch(padapter, psta->hwaddr, new_ch, ch_offset);
++		psta->expire_to = ((pstapriv->expire_to * 2) > 5) ? 5 : (pstapriv->expire_to * 2);
++	}
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	issue_action_spct_ch_switch(padapter, bc_addr, new_ch, ch_offset);
++
++	return ret;
++}
++
++int rtw_sta_flush(_adapter *padapter, bool enqueue)
++{
++	_irqL irqL;
++	_list	*phead, *plist;
++	int ret = 0;
++	struct sta_info *psta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u8 flush_num = 0;
++	char flush_list[NUM_STA];
++	int i;
++
++	if ((pmlmeinfo->state & 0x03) != WIFI_FW_AP_STATE)
++		return ret;
++
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(padapter->pnetdev));
++
++	/* pick sta from sta asoc_queue */
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		int stainfo_offset;
++
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		plist = get_next(plist);
++
++		rtw_list_delete(&psta->asoc_list);
++		pstapriv->asoc_list_cnt--;
++
++		stainfo_offset = rtw_stainfo_offset(pstapriv, psta);
++		if (stainfo_offset_valid(stainfo_offset))
++			flush_list[flush_num++] = stainfo_offset;
++		else
++			rtw_warn_on(1);
++	}
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	/* call ap_free_sta() for each sta picked */
++	for (i = 0; i < flush_num; i++) {
++		psta = rtw_get_stainfo_by_offset(pstapriv, flush_list[i]);
++		ap_free_sta(padapter, psta, _TRUE, WLAN_REASON_DEAUTH_LEAVING, enqueue);
++	}
++
++	issue_deauth(padapter, bc_addr, WLAN_REASON_DEAUTH_LEAVING);
++
++	associated_clients_update(padapter, _TRUE, STA_INFO_UPDATE_ALL);
++
++	return ret;
++}
++
++/* called > TSR LEVEL for USB or SDIO Interface*/
++void sta_info_update(_adapter *padapter, struct sta_info *psta)
++{
++	int flags = psta->flags;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++
++	/* update wmm cap. */
++	if (WLAN_STA_WME & flags)
++		psta->qos_option = 1;
++	else
++		psta->qos_option = 0;
++
++	if (pmlmepriv->qospriv.qos_option == 0)
++		psta->qos_option = 0;
++
++
++#ifdef CONFIG_80211N_HT
++	/* update 802.11n ht cap. */
++	if (WLAN_STA_HT & flags) {
++		psta->htpriv.ht_option = _TRUE;
++		psta->qos_option = 1;
++
++		psta->htpriv.smps_cap = (psta->htpriv.ht_cap.cap_info & IEEE80211_HT_CAP_SM_PS) >> 2;
++	} else
++		psta->htpriv.ht_option = _FALSE;
++
++	if (pmlmepriv->htpriv.ht_option == _FALSE)
++		psta->htpriv.ht_option = _FALSE;
++#endif
++
++#ifdef CONFIG_80211AC_VHT
++	/* update 802.11AC vht cap. */
++	if (WLAN_STA_VHT & flags)
++		psta->vhtpriv.vht_option = _TRUE;
++	else
++		psta->vhtpriv.vht_option = _FALSE;
++
++	if (pmlmepriv->vhtpriv.vht_option == _FALSE)
++		psta->vhtpriv.vht_option = _FALSE;
++#endif
++
++	update_sta_info_apmode(padapter, psta);
++}
++
++/* called >= TSR LEVEL for USB or SDIO Interface*/
++void ap_sta_info_defer_update(_adapter *padapter, struct sta_info *psta)
++{
++	if (psta->state & _FW_LINKED)
++		rtw_hal_update_ra_mask(psta, 0); /* DM_RATR_STA_INIT */
++}
++/* restore hw setting from sw data structures */
++void rtw_ap_restore_network(_adapter *padapter)
++{
++	struct mlme_priv *mlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta;
++	struct security_priv *psecuritypriv = &(padapter->securitypriv);
++	_irqL irqL;
++	_list	*phead, *plist;
++	u8 chk_alive_num = 0;
++	char chk_alive_list[NUM_STA];
++	int i;
++
++	rtw_setopmode_cmd(padapter, Ndis802_11APMode, _FALSE);
++
++	set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++
++	rtw_startbss_cmd(padapter, RTW_CMDF_DIRECTLY);
++
++	if ((padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_) ||
++	    (padapter->securitypriv.dot11PrivacyAlgrthm == _AES_)) {
++		/* restore group key, WEP keys is restored in ips_leave() */
++		rtw_set_key(padapter, psecuritypriv, psecuritypriv->dot118021XGrpKeyid, 0, _FALSE);
++	}
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		int stainfo_offset;
++
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		plist = get_next(plist);
++
++		stainfo_offset = rtw_stainfo_offset(pstapriv, psta);
++		if (stainfo_offset_valid(stainfo_offset))
++			chk_alive_list[chk_alive_num++] = stainfo_offset;
++	}
++
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	for (i = 0; i < chk_alive_num; i++) {
++		psta = rtw_get_stainfo_by_offset(pstapriv, chk_alive_list[i]);
++
++		if (psta == NULL)
++			RTW_INFO(FUNC_ADPT_FMT" sta_info is null\n", FUNC_ADPT_ARG(padapter));
++		else if (psta->state & _FW_LINKED) {
++			rtw_sta_media_status_rpt(padapter, psta, 1);
++			Update_RA_Entry(padapter, psta);
++			/* pairwise key */
++			/* per sta pairwise key and settings */
++			if ((padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_) ||
++			    (padapter->securitypriv.dot11PrivacyAlgrthm == _AES_))
++				rtw_setstakey_cmd(padapter, psta, UNICAST_KEY, _FALSE);
++		}
++	}
++
++}
++
++void start_ap_mode(_adapter *padapter)
++{
++	int i;
++	struct sta_info *psta = NULL;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++
++	pmlmepriv->update_bcn = _FALSE;
++
++	/*init_mlme_ap_info(padapter);*/
++
++	pmlmeext->bstart_bss = _FALSE;
++
++	pmlmepriv->num_sta_non_erp = 0;
++
++	pmlmepriv->num_sta_no_short_slot_time = 0;
++
++	pmlmepriv->num_sta_no_short_preamble = 0;
++
++	pmlmepriv->num_sta_ht_no_gf = 0;
++#ifdef CONFIG_80211N_HT
++	pmlmepriv->num_sta_no_ht = 0;
++#endif /* CONFIG_80211N_HT */
++	pmlmeinfo->HT_info_enable = 0;
++	pmlmeinfo->HT_caps_enable = 0;
++	pmlmeinfo->HT_enable = 0;
++
++	pmlmepriv->num_sta_ht_20mhz = 0;
++	pmlmepriv->num_sta_40mhz_intolerant = 0;
++	ATOMIC_SET(&pmlmepriv->olbc, _FALSE);
++	ATOMIC_SET(&pmlmepriv->olbc_ht, _FALSE);
++
++#ifdef CONFIG_80211N_HT
++	pmlmepriv->ht_20mhz_width_req = _FALSE;
++	pmlmepriv->ht_intolerant_ch_reported = _FALSE;
++	pmlmepriv->ht_op_mode = 0;
++	pmlmepriv->sw_to_20mhz = 0;
++#endif
++
++	_rtw_memset(pmlmepriv->ext_capab_ie_data, 0, sizeof(pmlmepriv->ext_capab_ie_data));
++	pmlmepriv->ext_capab_ie_len = 0;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	psecuritypriv->dot118021x_bmc_cam_id = INVALID_SEC_MAC_CAM_ID;
++#endif
++
++	for (i = 0 ;  i < NUM_STA ; i++)
++		pstapriv->sta_aid[i] = NULL;
++
++#if CONFIG_RTW_MACADDR_ACL
++	rtw_macaddr_acl_init(padapter);
++#endif
++
++	psta = rtw_get_bcmc_stainfo(padapter);
++	/*_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);*/
++	if (psta)
++		rtw_free_stainfo(padapter, psta);
++	/*_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);*/
++
++	rtw_init_bcmc_stainfo(padapter);
++
++	if (rtw_mi_get_ap_num(padapter))
++		RTW_SET_SCAN_BAND_SKIP(padapter, BAND_5G);
++
++}
++
++void stop_ap_mode(_adapter *padapter)
++{
++	_irqL irqL;
++	struct sta_info *psta = NULL;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct dvobj_priv *pdvobj = padapter->dvobj;
++
++	RTW_INFO("%s -"ADPT_FMT"\n", __func__, ADPT_ARG(padapter));
++
++	pmlmepriv->update_bcn = _FALSE;
++	/*pmlmeext->bstart_bss = _FALSE;*/
++	padapter->netif_up = _FALSE;
++	/* _rtw_spinlock_free(&pmlmepriv->bcn_update_lock); */
++
++	/* reset and init security priv , this can refine with rtw_reset_securitypriv */
++	_rtw_memset((unsigned char *)&padapter->securitypriv, 0, sizeof(struct security_priv));
++	padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeOpen;
++	padapter->securitypriv.ndisencryptstatus = Ndis802_11WEPDisabled;
++
++#ifdef CONFIG_DFS_MASTER
++	rtw_dfs_master_status_apply(padapter, MLME_AP_STOPPED);
++#endif
++
++	/* free scan queue */
++	rtw_free_network_queue(padapter, _TRUE);
++
++#if CONFIG_RTW_MACADDR_ACL
++	rtw_macaddr_acl_deinit(padapter);
++#endif
++
++	rtw_sta_flush(padapter, _TRUE);
++
++	/* free_assoc_sta_resources	 */
++	rtw_free_all_stainfo(padapter);
++
++	psta = rtw_get_bcmc_stainfo(padapter);
++	/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		 */
++	rtw_free_stainfo(padapter, psta);
++	/*_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);*/
++
++	rtw_free_mlme_priv_ie_data(pmlmepriv);
++
++#ifdef CONFIG_SWTIMER_BASED_TXBCN
++	if (pmlmeext->bstart_bss == _TRUE) {
++		_enter_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++		pdvobj->nr_ap_if--;
++		if (pdvobj->nr_ap_if > 0)
++			pdvobj->inter_bcn_space = DEFAULT_BCN_INTERVAL / pdvobj->nr_ap_if;
++		else
++			pdvobj->inter_bcn_space = DEFAULT_BCN_INTERVAL;
++
++		rtw_list_delete(&padapter->list);
++		_exit_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++
++		rtw_hal_set_hwreg(padapter, HW_VAR_BEACON_INTERVAL, (u8 *)(&pdvobj->inter_bcn_space));
++
++		if (pdvobj->nr_ap_if == 0)
++			_cancel_timer_ex(&pdvobj->txbcn_timer);
++	}
++#endif
++
++	pmlmeext->bstart_bss = _FALSE;
++
++#ifdef CONFIG_BT_COEXIST
++	rtw_btcoex_MediaStatusNotify(padapter, 0); /* disconnect */
++#endif
++
++}
++
++#endif /* CONFIG_NATIVEAP_MLME */
++
++void rtw_ap_update_bss_chbw(_adapter *adapter, WLAN_BSSID_EX *bss, u8 ch, u8 bw, u8 offset)
++{
++#define UPDATE_VHT_CAP 1
++#define UPDATE_HT_CAP 1
++
++#ifdef CONFIG_80211AC_VHT
++	{
++		struct vht_priv	*vhtpriv = &adapter->mlmepriv.vhtpriv;
++		u8 *vht_cap_ie, *vht_op_ie;
++		int vht_cap_ielen, vht_op_ielen;
++		u8	center_freq;
++
++		vht_cap_ie = rtw_get_ie((bss->IEs + sizeof(NDIS_802_11_FIXED_IEs)), EID_VHTCapability, &vht_cap_ielen, (bss->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++		vht_op_ie = rtw_get_ie((bss->IEs + sizeof(NDIS_802_11_FIXED_IEs)), EID_VHTOperation, &vht_op_ielen, (bss->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++		center_freq = rtw_get_center_ch(ch, bw, offset);
++
++		/* update vht cap ie */
++		if (vht_cap_ie && vht_cap_ielen) {
++			#if UPDATE_VHT_CAP
++			/* if ((bw == CHANNEL_WIDTH_160 || bw == CHANNEL_WIDTH_80_80) && pvhtpriv->sgi_160m)
++				SET_VHT_CAPABILITY_ELE_SHORT_GI160M(pvht_cap_ie + 2, 1);
++			else */
++				SET_VHT_CAPABILITY_ELE_SHORT_GI160M(vht_cap_ie + 2, 0);
++
++			if (bw >= CHANNEL_WIDTH_80 && vhtpriv->sgi_80m)
++				SET_VHT_CAPABILITY_ELE_SHORT_GI80M(vht_cap_ie + 2, 1);
++			else
++				SET_VHT_CAPABILITY_ELE_SHORT_GI80M(vht_cap_ie + 2, 0);
++			#endif
++		}
++
++		/* update vht op ie */
++		if (vht_op_ie && vht_op_ielen) {
++			if (bw < CHANNEL_WIDTH_80) {
++				SET_VHT_OPERATION_ELE_CHL_WIDTH(vht_op_ie + 2, 0);
++				SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ1(vht_op_ie + 2, 0);
++				SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ2(vht_op_ie + 2, 0);
++			} else if (bw == CHANNEL_WIDTH_80) {
++				SET_VHT_OPERATION_ELE_CHL_WIDTH(vht_op_ie + 2, 1);
++				SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ1(vht_op_ie + 2, center_freq);
++				SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ2(vht_op_ie + 2, 0);
++			} else {
++				RTW_ERR(FUNC_ADPT_FMT" unsupported BW:%u\n", FUNC_ADPT_ARG(adapter), bw);
++				rtw_warn_on(1);
++			}
++		}
++	}
++#endif /* CONFIG_80211AC_VHT */
++#ifdef CONFIG_80211N_HT
++	{
++		struct ht_priv	*htpriv = &adapter->mlmepriv.htpriv;
++		u8 *ht_cap_ie, *ht_op_ie;
++		int ht_cap_ielen, ht_op_ielen;
++
++		ht_cap_ie = rtw_get_ie((bss->IEs + sizeof(NDIS_802_11_FIXED_IEs)), EID_HTCapability, &ht_cap_ielen, (bss->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++		ht_op_ie = rtw_get_ie((bss->IEs + sizeof(NDIS_802_11_FIXED_IEs)), EID_HTInfo, &ht_op_ielen, (bss->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++
++		/* update ht cap ie */
++		if (ht_cap_ie && ht_cap_ielen) {
++			#if UPDATE_HT_CAP
++			if (bw >= CHANNEL_WIDTH_40)
++				SET_HT_CAP_ELE_CHL_WIDTH(ht_cap_ie + 2, 1);
++			else
++				SET_HT_CAP_ELE_CHL_WIDTH(ht_cap_ie + 2, 0);
++
++			if (bw >= CHANNEL_WIDTH_40 && htpriv->sgi_40m)
++				SET_HT_CAP_ELE_SHORT_GI40M(ht_cap_ie + 2, 1);
++			else
++				SET_HT_CAP_ELE_SHORT_GI40M(ht_cap_ie + 2, 0);
++
++			if (htpriv->sgi_20m)
++				SET_HT_CAP_ELE_SHORT_GI20M(ht_cap_ie + 2, 1);
++			else
++				SET_HT_CAP_ELE_SHORT_GI20M(ht_cap_ie + 2, 0);
++			#endif
++		}
++
++		/* update ht op ie */
++		if (ht_op_ie && ht_op_ielen) {
++			SET_HT_OP_ELE_PRI_CHL(ht_op_ie + 2, ch);
++			switch (offset) {
++			case HAL_PRIME_CHNL_OFFSET_LOWER:
++				SET_HT_OP_ELE_2ND_CHL_OFFSET(ht_op_ie + 2, SCA);
++				break;
++			case HAL_PRIME_CHNL_OFFSET_UPPER:
++				SET_HT_OP_ELE_2ND_CHL_OFFSET(ht_op_ie + 2, SCB);
++				break;
++			case HAL_PRIME_CHNL_OFFSET_DONT_CARE:
++			default:
++				SET_HT_OP_ELE_2ND_CHL_OFFSET(ht_op_ie + 2, SCN);
++				break;
++			}
++
++			if (bw >= CHANNEL_WIDTH_40)
++				SET_HT_OP_ELE_STA_CHL_WIDTH(ht_op_ie + 2, 1);
++			else
++				SET_HT_OP_ELE_STA_CHL_WIDTH(ht_op_ie + 2, 0);
++		}
++	}
++#endif /* CONFIG_80211N_HT */
++
++	{
++		u8 *p;
++		int ie_len;
++		u8 old_ch = bss->Configuration.DSConfig;
++		bool change_band = _FALSE;
++
++		if ((ch <= 14 && old_ch >= 36) || (ch >= 36 && old_ch <= 14))
++			change_band = _TRUE;
++
++		/* update channel in IE */
++		p = rtw_get_ie((bss->IEs + sizeof(NDIS_802_11_FIXED_IEs)), _DSSET_IE_, &ie_len, (bss->IELength - sizeof(NDIS_802_11_FIXED_IEs)));
++		if (p && ie_len > 0)
++			*(p + 2) = ch;
++
++		bss->Configuration.DSConfig = ch;
++
++		/* band is changed, update ERP, support rate, ext support rate IE */
++		if (change_band == _TRUE)
++			change_band_update_ie(adapter, bss, ch);
++	}
++
++}
++
++bool rtw_ap_chbw_decision(_adapter *adapter, s16 req_ch, s8 req_bw, s8 req_offset
++			  , u8 *ch, u8 *bw, u8 *offset, u8 *chbw_allow)
++{
++	u8 cur_ie_ch, cur_ie_bw, cur_ie_offset;
++	u8 dec_ch, dec_bw, dec_offset;
++	u8 u_ch = 0, u_offset, u_bw;
++	bool changed = _FALSE;
++	struct mlme_ext_priv *mlmeext = &(adapter->mlmeextpriv);
++	WLAN_BSSID_EX *network = &(adapter->mlmepriv.cur_network.network);
++	u8 sta_num;
++	u8 ld_sta_num;
++	u8 lg_sta_num;
++	u8 ap_num;
++	u8 ld_ap_num;
++	bool set_u_ch = _FALSE, set_dec_ch = _FALSE;
++
++	rtw_ies_get_chbw(network->IEs + sizeof(NDIS_802_11_FIXED_IEs)
++			 , network->IELength - sizeof(NDIS_802_11_FIXED_IEs)
++			 , &cur_ie_ch, &cur_ie_bw, &cur_ie_offset);
++
++	/* use chbw of cur_ie updated with specifying req as temporary decision */
++	dec_ch = (req_ch <= 0) ? cur_ie_ch : req_ch;
++	dec_bw = (req_bw < 0) ? cur_ie_bw : req_bw;
++	dec_offset = (req_offset < 0) ? cur_ie_offset : req_offset;
++
++	rtw_mi_status_no_self(adapter, &sta_num, &ld_sta_num, &lg_sta_num, &ap_num, &ld_ap_num, NULL);
++	RTW_INFO(FUNC_ADPT_FMT" ld_sta_num:%u, lg_sta_num%u, ap_num:%u\n"
++		 , FUNC_ADPT_ARG(adapter), ld_sta_num, lg_sta_num, ap_num);
++
++	if (ld_sta_num || ap_num) {
++		/* has linked STA or AP mode, follow */
++
++		rtw_warn_on(!rtw_mi_get_ch_setting_union_no_self(adapter, &u_ch, &u_bw, &u_offset));
++
++		RTW_INFO(FUNC_ADPT_FMT" union no self: %u,%u,%u\n", FUNC_ADPT_ARG(adapter), u_ch, u_bw, u_offset);
++		RTW_INFO(FUNC_ADPT_FMT" req: %d,%d,%d\n", FUNC_ADPT_ARG(adapter), req_ch, req_bw, req_offset);
++
++		rtw_adjust_chbw(adapter, u_ch, &dec_bw, &dec_offset);
++#ifdef CONFIG_MCC_MODE
++		if (MCC_EN(adapter)) {
++			if (!rtw_is_chbw_grouped(u_ch, u_bw, u_offset, dec_ch, dec_bw, dec_offset)) {
++				mlmeext->cur_channel = *ch = dec_ch;
++				mlmeext->cur_bwmode = *bw = dec_bw;
++				mlmeext->cur_ch_offset = *offset = dec_offset;
++				/* channel bw offset can not be allowed, need MCC */
++				*chbw_allow = _FALSE;
++				RTW_INFO(FUNC_ADPT_FMT" enable mcc: %u,%u,%u\n", FUNC_ADPT_ARG(adapter)
++					 , *ch, *bw, *offset);
++				goto exit;
++			} else
++				/* channel bw offset can be allowed, not need MCC */
++				*chbw_allow = _TRUE;
++		}
++#endif /* CONFIG_MCC_MODE */
++		rtw_sync_chbw(&dec_ch, &dec_bw, &dec_offset
++			      , &u_ch, &u_bw, &u_offset);
++
++		rtw_ap_update_bss_chbw(adapter, &(adapter->mlmepriv.cur_network.network)
++				       , dec_ch, dec_bw, dec_offset);
++
++		set_u_ch = _TRUE;
++	} else if (lg_sta_num) {
++		/* has linking STA */
++
++		rtw_warn_on(!rtw_mi_get_ch_setting_union_no_self(adapter, &u_ch, &u_bw, &u_offset));
++
++		RTW_INFO(FUNC_ADPT_FMT" union no self: %u,%u,%u\n", FUNC_ADPT_ARG(adapter), u_ch, u_bw, u_offset);
++		RTW_INFO(FUNC_ADPT_FMT" req: %d,%d,%d\n", FUNC_ADPT_ARG(adapter), req_ch, req_bw, req_offset);
++
++		rtw_adjust_chbw(adapter, dec_ch, &dec_bw, &dec_offset);
++
++		if (rtw_is_chbw_grouped(u_ch, u_bw, u_offset, dec_ch, dec_bw, dec_offset)) {
++
++			rtw_sync_chbw(&dec_ch, &dec_bw, &dec_offset
++				      , &u_ch, &u_bw, &u_offset);
++
++			rtw_ap_update_bss_chbw(adapter, &(adapter->mlmepriv.cur_network.network)
++					       , dec_ch, dec_bw, dec_offset);
++
++			set_u_ch = _TRUE;
++
++			/* channel bw offset can be allowed, not need MCC */
++			*chbw_allow = _TRUE;
++		} else {
++#ifdef CONFIG_MCC_MODE
++			if (MCC_EN(adapter)) {
++				mlmeext->cur_channel = *ch = dec_ch;
++				mlmeext->cur_bwmode = *bw = dec_bw;
++				mlmeext->cur_ch_offset = *offset = dec_offset;
++
++				/* channel bw offset can not be allowed, need MCC */
++				*chbw_allow = _FALSE;
++				RTW_INFO(FUNC_ADPT_FMT" enable mcc: %u,%u,%u\n", FUNC_ADPT_ARG(adapter)
++					 , *ch, *bw, *offset);
++				goto exit;
++			}
++#endif /* CONFIG_MCC_MODE */
++			/* set this for possible ch change when join down*/
++			set_fwstate(&adapter->mlmepriv, WIFI_OP_CH_SWITCHING);
++		}
++	} else {
++		/* single AP mode */
++
++		RTW_INFO(FUNC_ADPT_FMT" req: %d,%d,%d\n", FUNC_ADPT_ARG(adapter), req_ch, req_bw, req_offset);
++
++		/* check temporary decision first */
++		rtw_adjust_chbw(adapter, dec_ch, &dec_bw, &dec_offset);
++		if (!rtw_get_offset_by_chbw(dec_ch, dec_bw, &dec_offset)) {
++#if defined(CONFIG_DFS_MASTER)
++			if (req_ch == -1 || req_bw == -1)
++				goto choose_chbw;
++#endif
++			RTW_WARN(FUNC_ADPT_FMT" req: %u,%u has no valid offset\n", FUNC_ADPT_ARG(adapter), dec_ch, dec_bw);
++			*chbw_allow = _FALSE;
++			goto exit;
++		}
++
++		if (!rtw_chset_is_chbw_valid(mlmeext->channel_set, dec_ch, dec_bw, dec_offset)) {
++#if defined(CONFIG_DFS_MASTER)
++			if (req_ch == -1 || req_bw == -1)
++				goto choose_chbw;
++#endif
++			RTW_WARN(FUNC_ADPT_FMT" req: %u,%u,%u doesn't fit in chplan\n", FUNC_ADPT_ARG(adapter), dec_ch, dec_bw, dec_offset);
++			*chbw_allow = _FALSE;
++			goto exit;
++		}
++
++		if (rtw_chset_is_ch_non_ocp(mlmeext->channel_set, dec_ch, dec_bw, dec_offset) == _FALSE)
++			goto update_bss_chbw;
++
++choose_chbw:
++		if (req_bw < 0)
++			req_bw = cur_ie_bw;
++
++#if defined(CONFIG_DFS_MASTER)
++		/* choose 5G DFS channel for debug */
++		if (adapter_to_rfctl(adapter)->dbg_dfs_master_choose_dfs_ch_first
++		    && rtw_choose_shortest_waiting_ch(adapter, req_bw, &dec_ch, &dec_bw, &dec_offset, RTW_CHF_2G | RTW_CHF_NON_DFS) == _TRUE)
++			RTW_INFO(FUNC_ADPT_FMT" choose 5G DFS channel for debug\n", FUNC_ADPT_ARG(adapter));
++		else if (adapter_to_rfctl(adapter)->dfs_ch_sel_d_flags
++			&& rtw_choose_shortest_waiting_ch(adapter, req_bw, &dec_ch, &dec_bw, &dec_offset, adapter_to_rfctl(adapter)->dfs_ch_sel_d_flags) == _TRUE)
++			RTW_INFO(FUNC_ADPT_FMT" choose with dfs_ch_sel_d_flags:0x%02x for debug\n", FUNC_ADPT_ARG(adapter), adapter_to_rfctl(adapter)->dfs_ch_sel_d_flags);
++		else if (rtw_choose_shortest_waiting_ch(adapter, req_bw, &dec_ch, &dec_bw, &dec_offset, 0) == _FALSE) {
++			RTW_WARN(FUNC_ADPT_FMT" no available channel\n", FUNC_ADPT_ARG(adapter));
++			*chbw_allow = _FALSE;
++			goto exit;
++		}
++#endif /* defined(CONFIG_DFS_MASTER) */
++
++update_bss_chbw:
++		rtw_ap_update_bss_chbw(adapter, &(adapter->mlmepriv.cur_network.network)
++				       , dec_ch, dec_bw, dec_offset);
++
++		/* channel bw offset can be allowed for single AP, not need MCC */
++		*chbw_allow = _TRUE;
++		set_dec_ch = _TRUE;
++	}
++
++	if (rtw_mi_check_fwstate(adapter, _FW_UNDER_SURVEY)) {
++		/* scanning, leave ch setting to scan state machine */
++		set_u_ch = set_dec_ch = _FALSE;
++	}
++
++	if (mlmeext->cur_channel != dec_ch
++	    || mlmeext->cur_bwmode != dec_bw
++	    || mlmeext->cur_ch_offset != dec_offset)
++		changed = _TRUE;
++
++	if (changed == _TRUE && rtw_linked_check(adapter) == _TRUE) {
++#ifdef CONFIG_SPCT_CH_SWITCH
++		if (1)
++			rtw_ap_inform_ch_switch(adapter, dec_ch, dec_offset);
++		else
++#endif
++			rtw_sta_flush(adapter, _FALSE);
++	}
++
++	mlmeext->cur_channel = dec_ch;
++	mlmeext->cur_bwmode = dec_bw;
++	mlmeext->cur_ch_offset = dec_offset;
++
++	if (u_ch != 0)
++		RTW_INFO(FUNC_ADPT_FMT" union: %u,%u,%u\n", FUNC_ADPT_ARG(adapter), u_ch, u_bw, u_offset);
++
++	RTW_INFO(FUNC_ADPT_FMT" dec: %u,%u,%u\n", FUNC_ADPT_ARG(adapter), dec_ch, dec_bw, dec_offset);
++
++	if (set_u_ch == _TRUE) {
++		*ch = u_ch;
++		*bw = u_bw;
++		*offset = u_offset;
++	} else if (set_dec_ch == _TRUE) {
++		*ch = dec_ch;
++		*bw = dec_bw;
++		*offset = dec_offset;
++	}
++exit:
++	return changed;
++}
++
++/*#define DBG_SWTIMER_BASED_TXBCN*/
++
++#ifdef CONFIG_SWTIMER_BASED_TXBCN
++void tx_beacon_handlder(struct dvobj_priv *pdvobj)
++{
++#define BEACON_EARLY_TIME		20	/* unit:TU*/
++	_irqL irqL;
++	_list	*plist, *phead;
++	u32 timestamp[2];
++	u32 bcn_interval_us; /* unit : usec */
++	u64 time;
++	u32 cur_tick, time_offset; /* unit : usec */
++	u32 inter_bcn_space_us; /* unit : usec */
++	int nr_vap, idx, bcn_idx;
++	int i;
++	u8 val8, late = 0;
++	_adapter *padapter = NULL;
++
++	i = 0;
++
++	/* get first ap mode interface */
++	_enter_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++	if (rtw_is_list_empty(&pdvobj->ap_if_q.queue) || (pdvobj->nr_ap_if == 0)) {
++		RTW_INFO("[%s] ERROR: ap_if_q is empty!or nr_ap = %d\n", __func__, pdvobj->nr_ap_if);
++		_exit_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++		return;
++	} else
++		padapter = LIST_CONTAINOR(get_next(&(pdvobj->ap_if_q.queue)), struct _ADAPTER, list);
++	_exit_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++
++	if (NULL == padapter) {
++		RTW_INFO("[%s] ERROR: no any ap interface!\n", __func__);
++		return;
++	}
++
++
++	bcn_interval_us = DEFAULT_BCN_INTERVAL * NET80211_TU_TO_US;
++	if (0 == bcn_interval_us) {
++		RTW_INFO("[%s] ERROR: beacon interval = 0\n", __func__);
++		return;
++	}
++
++	/* read TSF */
++	timestamp[1] = rtw_read32(padapter, 0x560 + 4);
++	timestamp[0] = rtw_read32(padapter, 0x560);
++	while (timestamp[1]) {
++		time = (0xFFFFFFFF % bcn_interval_us + 1) * timestamp[1] + timestamp[0];
++		timestamp[0] = (u32)time;
++		timestamp[1] = (u32)(time >> 32);
++	}
++	cur_tick = timestamp[0] % bcn_interval_us;
++
++
++	_enter_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++
++	nr_vap = (pdvobj->nr_ap_if - 1);
++	if (nr_vap > 0) {
++		inter_bcn_space_us = pdvobj->inter_bcn_space * NET80211_TU_TO_US; /* beacon_interval / (nr_vap+1); */
++		idx = cur_tick / inter_bcn_space_us;
++		if (idx < nr_vap)	/* if (idx < (nr_vap+1))*/
++			bcn_idx = idx + 1;	/* bcn_idx = (idx + 1) % (nr_vap+1);*/
++		else
++			bcn_idx = 0;
++
++		/* to get padapter based on bcn_idx */
++		padapter = NULL;
++		phead = get_list_head(&pdvobj->ap_if_q);
++		plist = get_next(phead);
++		while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++			padapter = LIST_CONTAINOR(plist, struct _ADAPTER, list);
++
++			plist = get_next(plist);
++
++			if (i == bcn_idx)
++				break;
++
++			i++;
++		}
++		if ((NULL == padapter) || (i > pdvobj->nr_ap_if)) {
++			RTW_INFO("[%s] ERROR: nr_ap_if = %d, padapter=%p, bcn_idx=%d, index=%d\n",
++				__func__, pdvobj->nr_ap_if, padapter, bcn_idx, i);
++			_exit_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++			return;
++		}
++#ifdef DBG_SWTIMER_BASED_TXBCN
++		RTW_INFO("BCN_IDX=%d, cur_tick=%d, padapter=%p\n", bcn_idx, cur_tick, padapter);
++#endif
++		if (((idx + 2 == nr_vap + 1) && (idx < nr_vap + 1)) || (0 == bcn_idx)) {
++			time_offset = bcn_interval_us - cur_tick - BEACON_EARLY_TIME * NET80211_TU_TO_US;
++			if ((s32)time_offset < 0)
++				time_offset += inter_bcn_space_us;
++
++		} else {
++			time_offset = (idx + 2) * inter_bcn_space_us - cur_tick - BEACON_EARLY_TIME * NET80211_TU_TO_US;
++			if (time_offset > (inter_bcn_space_us + (inter_bcn_space_us >> 1))) {
++				time_offset -= inter_bcn_space_us;
++				late = 1;
++			}
++		}
++	} else
++		/*#endif*/ { /* MBSSID */
++		time_offset = 2 * bcn_interval_us - cur_tick - BEACON_EARLY_TIME * NET80211_TU_TO_US;
++		if (time_offset > (bcn_interval_us + (bcn_interval_us >> 1))) {
++			time_offset -= bcn_interval_us;
++			late = 1;
++		}
++	}
++	_exit_critical_bh(&pdvobj->ap_if_q.lock, &irqL);
++
++#ifdef DBG_SWTIMER_BASED_TXBCN
++	RTW_INFO("set sw bcn timer %d us\n", time_offset);
++#endif
++	_set_timer(&pdvobj->txbcn_timer, time_offset / NET80211_TU_TO_US);
++
++	if (padapter) {
++#ifdef DBG_SWTIMER_BASED_TXBCN
++		RTW_INFO("padapter=%p, PORT=%d\n", padapter, padapter->hw_port);
++#endif
++		/*update_beacon(padapter, _TIM_IE_, NULL, _FALSE);*/
++		issue_beacon(padapter, 0);
++	}
++
++#if 0
++	/* handle any buffered BC/MC frames*/
++	/* Don't dynamically change DIS_ATIM due to HW will auto send ACQ after HIQ empty.*/
++	val8 = *((unsigned char *)priv->beaconbuf + priv->timoffset + 4);
++	if (val8 & 0x01) {
++		process_mcast_dzqueue(priv);
++		priv->pkt_in_dtimQ = 0;
++	}
++#endif
++
++}
++
++void tx_beacon_timer_handlder(struct dvobj_priv *pdvobj)
++{
++	_adapter *padapter = pdvobj->padapters[0];
++
++	if (padapter)
++		set_tx_beacon_cmd(padapter);
++}
++#endif
++
++#endif /* CONFIG_AP_MODE */
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_beamforming.c b/drivers/net/wireless/rtl8812au/core/rtw_beamforming.c
+new file mode 100644
+index 0000000..ca04a99
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_beamforming.c
+@@ -0,0 +1,1942 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_BEAMFORMING_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#ifdef CONFIG_BEAMFORMING
++
++#if (BEAMFORMING_SUPPORT == 0) /*for diver defined beamforming*/
++#ifdef RTW_BEAMFORMING_VERSION_2
++/*
++ * For phydm
++ */
++BEAMFORMING_CAP beamforming_get_entry_beam_cap_by_mac_id(void *mlme, u8 mac_id)
++{
++	PADAPTER adapter;
++	struct beamforming_info	*pBeamInfo;
++	struct beamformee_entry *bfee;
++	BEAMFORMING_CAP cap = BEAMFORMING_CAP_NONE;
++	u8 i = 0;
++
++
++	adapter = mlme_to_adapter((struct mlme_priv *)mlme);
++	pBeamInfo = GET_BEAMFORM_INFO(adapter);
++
++	for (i = 0; i < MAX_BEAMFORMER_ENTRY_NUM; i++) {
++		bfee = &pBeamInfo->bfee_entry[i];
++		if ((bfee->used == _TRUE)
++		    && (bfee->mac_id == mac_id)) {
++			cap =  bfee->cap;
++			break;
++		}
++	}
++
++	return cap;
++}
++
++struct beamformer_entry *beamforming_get_bfer_entry_by_addr(PADAPTER adapter, u8 *ra)
++{
++	u8 i = 0;
++	struct beamforming_info	*bf_info;
++	struct beamformer_entry *entry;
++
++
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	for (i = 0; i < MAX_BEAMFORMER_ENTRY_NUM; i++) {
++		entry = &bf_info->bfer_entry[i];
++		if (entry->used == _FALSE)
++			continue;
++		if (_rtw_memcmp(ra, entry->mac_addr, ETH_ALEN) == _TRUE) {
++			return entry;
++		}
++	}
++
++	return NULL;
++}
++
++struct beamformee_entry *beamforming_get_bfee_entry_by_addr(PADAPTER adapter, u8 *ra)
++{
++	u8 i = 0;
++	struct beamforming_info	*bf_info;
++	struct beamformee_entry *entry;
++
++
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	for (i = 0; i < MAX_BEAMFORMEE_ENTRY_NUM; i++) {
++		entry = &bf_info->bfee_entry[i];
++		if (entry->used == _FALSE)
++			continue;
++		if (_rtw_memcmp(ra, entry->mac_addr, ETH_ALEN) == _TRUE)
++			return entry;
++	}
++
++	return NULL;
++}
++
++static struct beamformer_entry *_get_bfer_free_entry(PADAPTER adapter)
++{
++	u8 i = 0;
++	struct beamforming_info	*bf_info;
++	struct beamformer_entry *entry;
++
++
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	for (i = 0; i < MAX_BEAMFORMER_ENTRY_NUM; i++) {
++		entry = &bf_info->bfer_entry[i];
++		if (entry->used == _FALSE)
++			return entry;
++	}
++
++	return NULL;
++}
++
++static struct beamformee_entry *_get_bfee_free_entry(PADAPTER adapter)
++{
++	u8 i = 0;
++	struct beamforming_info	*bf_info;
++	struct beamformee_entry *entry;
++
++
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	for (i = 0; i < MAX_BEAMFORMEE_ENTRY_NUM; i++) {
++		entry = &bf_info->bfee_entry[i];
++		if (entry->used == _FALSE)
++			return entry;
++	}
++
++	return NULL;
++}
++
++/*
++ * Description:
++ *	Get the first entry index of MU Beamformee.
++ *
++ * Return Value:
++ *	Index of the first MU sta.
++ *
++ * 2015.05.25. Created by tynli.
++ *
++ */
++static u8 _get_first_mu_bfee_entry_idx(PADAPTER adapter, struct beamformee_entry *ignore)
++{
++	struct beamforming_info *bf_info;
++	struct beamformee_entry *entry;
++	u8 idx = 0xFF;
++	u8 bFound = _FALSE;
++
++
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	for (idx = 0; idx < MAX_BEAMFORMEE_ENTRY_NUM; idx++) {
++		entry = &bf_info->bfee_entry[idx];
++		if (ignore && (entry == ignore))
++			continue;
++		if ((entry->used == _TRUE) &&
++		    TEST_FLAG(entry->cap, BEAMFORMEE_CAP_VHT_MU)) {
++			bFound = _TRUE;
++			break;
++		}
++	}
++
++	if (bFound == _FALSE)
++		idx = 0xFF;
++
++	return idx;
++}
++
++static void _update_min_sounding_period(PADAPTER adapter, u16 period, u8 leave)
++{
++	struct beamforming_info *bf_info;
++	struct beamformee_entry *entry;
++	u8 i = 0;
++	u16 min_val = 0xFFFF;
++
++
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	if (_TRUE == leave) {
++		/*
++		 * When a BFee left,
++		 * we need to find the latest min sounding period
++		 * from the remaining BFees
++		 */
++		for (i = 0; i < MAX_BEAMFORMEE_ENTRY_NUM; i++) {
++			entry = &bf_info->bfee_entry[i];
++			if ((entry->used == _TRUE)
++			    && (entry->sound_period < min_val))
++				min_val = entry->sound_period;
++		}
++
++		if (min_val == 0xFFFF)
++			bf_info->sounding_info.min_sounding_period = 0;
++		else
++			bf_info->sounding_info.min_sounding_period = min_val;
++	} else {
++		if ((bf_info->sounding_info.min_sounding_period == 0)
++		    || (period < bf_info->sounding_info.min_sounding_period))
++			bf_info->sounding_info.min_sounding_period = period;	
++	}
++}
++
++static struct beamformer_entry *_add_bfer_entry(PADAPTER adapter,
++	struct sta_info *sta, u8 bf_cap, u8 sounding_dim, u8 comp_steering)
++{
++	struct mlme_priv *mlme;
++	struct beamforming_info *bf_info;
++	struct beamformer_entry *entry;
++	u8 *bssid;
++	u16 val16;
++	u8 i;
++
++
++	mlme = &adapter->mlmepriv;
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	entry = beamforming_get_bfer_entry_by_addr(adapter, sta->hwaddr);
++	if (!entry) {
++		entry = _get_bfer_free_entry(adapter);
++		if (!entry)
++			return NULL;
++	}
++
++	entry->used = _TRUE;
++
++	if (check_fwstate(mlme, WIFI_AP_STATE)) {
++		bssid = adapter_mac_addr(adapter);
++		/* BSSID[44:47] xor BSSID[40:43] */
++		val16 = ((bssid[5] & 0xF0) >> 4) ^ (bssid[5] & 0xF);
++		/* (dec(A) + dec(B)*32) mod 512 */
++		entry->p_aid = (sta->aid + val16 * 32) & 0x1FF;
++		entry->g_id = 63;
++	} else if ((check_fwstate(mlme, WIFI_ADHOC_STATE) == _TRUE)
++		   || (check_fwstate(mlme, WIFI_ADHOC_MASTER_STATE) == _TRUE)) {
++		entry->p_aid = 0;
++		entry->g_id = 63;
++	} else {
++		bssid = sta->hwaddr;
++		/* BSSID[39:47] */
++		entry->p_aid = (bssid[5] << 1) | (bssid[4] >> 7);
++		entry->g_id = 0;
++	}
++	RTW_INFO("%s: p_aid=0x%04x g_id=0x%04x aid=0x%x\n",
++		 __FUNCTION__, entry->p_aid, entry->g_id, sta->aid);
++
++	_rtw_memcpy(entry->mac_addr, sta->hwaddr, ETH_ALEN);
++	entry->cap = bf_cap;
++	entry->state = BEAMFORM_ENTRY_HW_STATE_ADD_INIT;
++	entry->NumofSoundingDim = sounding_dim;
++
++	if (TEST_FLAG(bf_cap, BEAMFORMER_CAP_VHT_MU)) {
++		bf_info->beamformer_mu_cnt += 1;
++		entry->aid = sta->aid;
++	} else if (TEST_FLAG(bf_cap, BEAMFORMER_CAP_VHT_SU|BEAMFORMER_CAP_HT_EXPLICIT)) {
++		bf_info->beamformer_su_cnt += 1;
++
++		/* Record HW idx info */
++		for (i = 0; i < MAX_NUM_BEAMFORMER_SU; i++) {
++			if ((bf_info->beamformer_su_reg_maping & BIT(i)) == 0) {
++				bf_info->beamformer_su_reg_maping |= BIT(i);
++				entry->su_reg_index = i;
++				break;
++			}
++		}
++		RTW_INFO("%s: Add BFer entry beamformer_su_reg_maping=%#X, su_reg_index=%d\n",
++			 __FUNCTION__, bf_info->beamformer_su_reg_maping, entry->su_reg_index);
++	}
++
++	return entry;
++}
++
++static struct beamformee_entry *_add_bfee_entry(PADAPTER adapter,
++	struct sta_info *sta, u8 bf_cap, u8 sounding_dim, u8 comp_steering)
++{
++	struct mlme_priv *mlme;
++	struct beamforming_info *bf_info;
++	struct beamformee_entry *entry;
++	u8 *bssid;
++	u16 val16;
++	u8 i;
++
++
++	mlme = &adapter->mlmepriv;
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	entry = beamforming_get_bfee_entry_by_addr(adapter, sta->hwaddr);
++	if (!entry) {
++		entry = _get_bfee_free_entry(adapter);
++		if (!entry)
++			return NULL;
++	}
++
++	entry->used = _TRUE;
++	entry->aid = sta->aid;
++	entry->mac_id = sta->mac_id;
++	entry->sound_bw = sta->bw_mode;
++
++	if (check_fwstate(mlme, WIFI_AP_STATE)) {
++		bssid = adapter_mac_addr(adapter);
++		/* BSSID[44:47] xor BSSID[40:43] */
++		val16 = ((bssid[5] & 0xF0) >> 4) ^ (bssid[5] & 0xF);
++		/* (dec(A) + dec(B)*32) mod 512 */
++		entry->p_aid = (sta->aid + val16 * 32) & 0x1FF;
++		entry->g_id = 63;
++	} else if (check_fwstate(mlme, WIFI_ADHOC_STATE) || check_fwstate(mlme, WIFI_ADHOC_MASTER_STATE)) {
++		entry->p_aid = 0;
++		entry->g_id = 63;
++	} else {
++		bssid = sta->hwaddr;
++		/* BSSID[39:47] */
++		entry->p_aid = (bssid[5] << 1) | (bssid[4] >> 7);
++		entry->g_id = 0;
++	}
++
++	_rtw_memcpy(entry->mac_addr, sta->hwaddr, ETH_ALEN);
++	entry->txbf = _FALSE;
++	entry->sounding = _FALSE;
++	entry->sound_period = 40;
++	entry->cap = bf_cap;
++
++	_update_min_sounding_period(adapter, entry->sound_period, _FALSE);
++	entry->SoundCnt = GetInitSoundCnt(entry->sound_period, bf_info->sounding_info.min_sounding_period);
++
++	entry->LogStatusFailCnt = 0;
++
++	entry->NumofSoundingDim = sounding_dim;
++	entry->CompSteeringNumofBFer = comp_steering;
++	entry->state = BEAMFORM_ENTRY_HW_STATE_ADD_INIT;
++
++	if (TEST_FLAG(bf_cap, BEAMFORMEE_CAP_VHT_MU)) {
++		bf_info->beamformee_mu_cnt += 1;
++		bf_info->first_mu_bfee_index = _get_first_mu_bfee_entry_idx(adapter, NULL);
++
++		/* Record HW idx info */
++		for (i = 0; i < MAX_NUM_BEAMFORMEE_MU; i++) {
++			if ((bf_info->beamformee_mu_reg_maping & BIT(i)) == 0) {
++				bf_info->beamformee_mu_reg_maping |= BIT(i);
++				entry->mu_reg_index = i;				
++				break;
++			}
++		}
++		RTW_INFO("%s: Add BFee entry beamformee_mu_reg_maping=%#X, mu_reg_index=%d\n",
++			 __FUNCTION__, bf_info->beamformee_mu_reg_maping, entry->mu_reg_index);
++
++	} else if (TEST_FLAG(bf_cap, BEAMFORMEE_CAP_VHT_SU|BEAMFORMEE_CAP_HT_EXPLICIT)) {
++		bf_info->beamformee_su_cnt += 1;
++
++		/* Record HW idx info */
++		for (i = 0; i < MAX_NUM_BEAMFORMEE_SU; i++) {
++			if ((bf_info->beamformee_su_reg_maping & BIT(i)) == 0) {
++				bf_info->beamformee_su_reg_maping |= BIT(i);
++				entry->su_reg_index = i;
++				break;
++			}
++		}
++		RTW_INFO("%s: Add BFee entry beamformee_su_reg_maping=%#X, su_reg_index=%d\n",
++			 __FUNCTION__, bf_info->beamformee_su_reg_maping, entry->su_reg_index);
++	}
++
++	return entry;
++}
++
++static void _remove_bfer_entry(PADAPTER adapter, struct beamformer_entry *entry)
++{
++	struct beamforming_info *bf_info;
++
++
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	entry->state = BEAMFORM_ENTRY_HW_STATE_DELETE_INIT;
++
++	if (TEST_FLAG(entry->cap, BEAMFORMER_CAP_VHT_MU)) {
++		bf_info->beamformer_mu_cnt -= 1;
++		_rtw_memset(entry->gid_valid, 0, 8);
++		_rtw_memset(entry->user_position, 0, 16);
++	} else if (TEST_FLAG(entry->cap, BEAMFORMER_CAP_VHT_SU|BEAMFORMER_CAP_HT_EXPLICIT)) {
++		bf_info->beamformer_su_cnt -= 1;
++	}
++
++	if (bf_info->beamformer_mu_cnt == 0)
++		bf_info->beamforming_cap &= ~BEAMFORMEE_CAP_VHT_MU;
++	if (bf_info->beamformer_su_cnt == 0)
++		bf_info->beamforming_cap &= ~(BEAMFORMEE_CAP_VHT_SU|BEAMFORMEE_CAP_HT_EXPLICIT);
++}
++
++static void _remove_bfee_entry(PADAPTER adapter, struct beamformee_entry *entry)
++{
++	struct beamforming_info *bf_info;
++
++
++	bf_info = GET_BEAMFORM_INFO(adapter);
++
++	entry->state = BEAMFORM_ENTRY_HW_STATE_DELETE_INIT;
++
++	if (TEST_FLAG(entry->cap, BEAMFORMEE_CAP_VHT_MU)) {
++		bf_info->beamformee_mu_cnt -= 1;
++		bf_info->first_mu_bfee_index = _get_first_mu_bfee_entry_idx(adapter, entry);
++	} else if (TEST_FLAG(entry->cap, BEAMFORMEE_CAP_VHT_SU|BEAMFORMEE_CAP_HT_EXPLICIT)) {
++		bf_info->beamformee_su_cnt -= 1;
++	}
++
++	if (bf_info->beamformee_mu_cnt == 0)
++		bf_info->beamforming_cap &= ~BEAMFORMER_CAP_VHT_MU;
++	if (bf_info->beamformee_su_cnt == 0)
++		bf_info->beamforming_cap &= ~(BEAMFORMER_CAP_VHT_SU|BEAMFORMER_CAP_HT_EXPLICIT);
++
++	_update_min_sounding_period(adapter, 0, _TRUE);
++}
++
++/*
++ * Parameters
++ *	adapter		struct _adapter*
++ *	sta		struct sta_info*
++ *	sta_bf_cap	beamforming capabe of sta
++ *	sounding_dim	Number of Sounding Dimensions
++ *	comp_steering	Compressed Steering Number of Beamformer Antennas Supported
++ */
++static void _get_sta_beamform_cap(PADAPTER adapter, struct sta_info *sta,
++	u8 *sta_bf_cap, u8 *sounding_dim, u8 *comp_steering)
++{
++	struct ht_priv *ht;
++#ifdef CONFIG_80211AC_VHT
++	struct vht_priv *vht;
++#endif /* CONFIG_80211AC_VHT */
++	u16 bf_cap;
++
++
++	*sta_bf_cap = 0;
++	*sounding_dim = 0;
++	*comp_steering = 0;
++
++	ht = &adapter->mlmepriv.htpriv;
++#ifdef CONFIG_80211AC_VHT
++	vht = &adapter->mlmepriv.vhtpriv;
++#endif /* CONFIG_80211AC_VHT */
++
++	if (IsSupportedHT(sta->wireless_mode) == _TRUE) {
++		/* HT */
++		bf_cap = ht->beamform_cap;
++
++		if (TEST_FLAG(bf_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE)) {
++			*sta_bf_cap |= BEAMFORMER_CAP_HT_EXPLICIT;
++			*sounding_dim = (bf_cap & BEAMFORMING_HT_BEAMFORMEE_CHNL_EST_CAP) >> 6;
++		}
++		if (TEST_FLAG(bf_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE)) {
++			*sta_bf_cap |= BEAMFORMEE_CAP_HT_EXPLICIT;
++			*comp_steering = (bf_cap & BEAMFORMING_HT_BEAMFORMER_STEER_NUM) >> 4;
++		}
++	}
++
++#ifdef CONFIG_80211AC_VHT
++	if (IsSupportedVHT(sta->wireless_mode) == _TRUE) {
++		/* VHT */
++		bf_cap = vht->beamform_cap;
++
++		/* We are SU Beamformee because the STA is SU Beamformer */
++		if (TEST_FLAG(bf_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE)) {
++			*sta_bf_cap |= BEAMFORMER_CAP_VHT_SU;
++
++			/* We are MU Beamformee because the STA is MU Beamformer */
++			if (TEST_FLAG(bf_cap, BEAMFORMING_VHT_MU_MIMO_STA_ENABLE))
++				*sta_bf_cap |= BEAMFORMER_CAP_VHT_MU;
++
++			*sounding_dim = (bf_cap & BEAMFORMING_VHT_BEAMFORMEE_SOUND_DIM) >> 12;
++		}
++		/* We are SU Beamformer because the STA is SU Beamformee */
++		if (TEST_FLAG(bf_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE)) {
++			*sta_bf_cap |= BEAMFORMEE_CAP_VHT_SU;
++
++			/* We are MU Beamformer because the STA is MU Beamformee */
++			if (TEST_FLAG(bf_cap, BEAMFORMING_VHT_MU_MIMO_AP_ENABLE))
++				*sta_bf_cap |= BEAMFORMEE_CAP_VHT_MU;
++
++			*comp_steering = (bf_cap & BEAMFORMING_VHT_BEAMFORMER_STS_CAP) >> 8;
++		}
++	}
++#endif /* CONFIG_80211AC_VHT */
++}
++/*
++ * Return:
++ *	_TRUE	success
++ *	_FALSE	fail
++ */
++static u8 _init_entry(PADAPTER adapter, struct sta_info *sta)
++{
++	struct mlme_priv *mlme;
++	struct ht_priv *htpriv;
++#ifdef CONFIG_80211AC_VHT
++	struct vht_priv *vhtpriv;
++#endif
++	struct mlme_ext_priv *mlme_ext;
++	struct sta_info *sta_real;
++	struct beamformer_entry *bfer = NULL;
++	struct beamformee_entry *bfee = NULL;
++	u8 *ra;
++	u8 wireless_mode;
++	u8 sta_bf_cap;
++	u8 sounding_dim = 0; /* number of sounding dimensions */
++	u8 comp_steering_num = 0; /* compressed steering number */
++
++
++	mlme = &adapter->mlmepriv;
++	htpriv = &mlme->htpriv;
++#ifdef CONFIG_80211AC_VHT
++	vhtpriv = &mlme->vhtpriv;
++#endif
++	mlme_ext = &adapter->mlmeextpriv;
++	ra = sta->hwaddr;
++	wireless_mode = sta->wireless_mode;
++	sta_real = rtw_get_stainfo(&adapter->stapriv, ra);
++
++	/* The current setting does not support Beaforming */
++	if ((IsSupportedHT(wireless_mode) == _FALSE)
++	    && (IsSupportedVHT(wireless_mode) == _FALSE))
++		return _FALSE;
++
++	if ((0 == htpriv->beamform_cap)
++#ifdef CONFIG_80211AC_VHT
++	    && (0 == vhtpriv->beamform_cap)
++#endif
++	   ) {
++		RTW_INFO("The configuration disabled Beamforming! Skip...\n");
++		return _FALSE;
++	}
++
++	_get_sta_beamform_cap(adapter, sta,
++			      &sta_bf_cap, &sounding_dim, &comp_steering_num);
++	RTW_INFO("STA Beamforming Capability=0x%02X\n", sta_bf_cap);
++
++	if (sta_bf_cap == BEAMFORMING_CAP_NONE)
++		return _FALSE;
++
++	if ((sta_bf_cap & BEAMFORMEE_CAP_HT_EXPLICIT)
++	    || (sta_bf_cap & BEAMFORMEE_CAP_VHT_SU)
++	    || (sta_bf_cap & BEAMFORMEE_CAP_VHT_MU))
++		sta_bf_cap |= BEAMFORMEE_CAP;
++	else
++		sta_bf_cap |= BEAMFORMER_CAP;
++
++	if (sta_bf_cap & BEAMFORMER_CAP) {
++		/* The other side is beamformer */
++		bfer = _add_bfer_entry(adapter, sta, sta_bf_cap, sounding_dim, comp_steering_num);
++		if (bfer == NULL) {
++			RTW_ERR("%s: Fail to allocate bfer entry!\n", __FUNCTION__);
++			return _FALSE;
++		}
++
++		sta_real->txbf_paid = bfer->p_aid;
++		sta_real->txbf_gid = bfer->g_id;
++	} else {
++		/* The other side is beamformee */
++		bfee = _add_bfee_entry(adapter, sta, sta_bf_cap, sounding_dim, comp_steering_num);
++		if (bfee == NULL) {
++			RTW_ERR("%s: Fail to allocate bfee entry!\n", __FUNCTION__);
++			return _FALSE;
++		}
++
++		sta_real->txbf_paid = bfee->p_aid;
++		sta_real->txbf_gid = bfee->g_id;
++	}
++
++	return _TRUE;
++}
++
++static void _deinit_entry(PADAPTER adapter, u8 *ra)
++{
++	struct beamforming_info *bf_info;
++	struct beamformer_entry *bfer = NULL;
++	struct beamformee_entry *bfee = NULL;
++	u8 bHwStateAddInit = _FALSE;
++
++
++	RTW_INFO("+%s\n", __FUNCTION__);
++
++	bf_info = GET_BEAMFORM_INFO(adapter);
++	bfer = beamforming_get_bfer_entry_by_addr(adapter, ra);
++	bfee = beamforming_get_bfee_entry_by_addr(adapter, ra);
++
++	if (!bfer && !bfee) {
++		RTW_WARN("%s: " MAC_FMT " is neither beamforming ee or er!!\n",
++			__FUNCTION__, MAC_ARG(ra));
++		return;
++	}
++
++	if (bfer && bfee)
++		RTW_ERR("%s: " MAC_FMT " is both beamforming ee & er!!\n",
++			__FUNCTION__, MAC_ARG(ra));
++
++	if (bfer)
++		_remove_bfer_entry(adapter, bfer);
++
++	if (bfee)
++		_remove_bfee_entry(adapter, bfee);
++
++	rtw_hal_set_hwreg(adapter, HW_VAR_SOUNDING_LEAVE, ra);
++
++	RTW_DBG("-%s\n", __FUNCTION__);
++}
++
++void _beamforming_reset(PADAPTER adapter)
++{
++	RTW_ERR("%s: Not ready!!\n", __FUNCTION__);
++}
++
++void beamforming_enter(PADAPTER adapter, void *sta)
++{
++	u8 ret;
++
++	ret = _init_entry(adapter, (struct sta_info *)sta);
++	if (ret == _FALSE)
++		return;
++
++	rtw_hal_set_hwreg(adapter, HW_VAR_SOUNDING_ENTER, sta);
++}
++
++void beamforming_leave(PADAPTER adapter, u8 *ra)
++{
++	if (ra == NULL)
++		_beamforming_reset(adapter);
++	else
++		_deinit_entry(adapter, ra);
++}
++
++void beamforming_sounding_fail(PADAPTER adapter)
++{
++	RTW_ERR("+%s: not implemented yet!\n", __FUNCTION__);
++}
++
++u8 beamforming_send_vht_gid_mgnt_packet(PADAPTER adapter, struct beamformee_entry *entry)
++{
++	struct xmit_priv *xmitpriv;
++	struct mlme_priv *mlmepriv;
++	struct xmit_frame *pmgntframe;
++	struct pkt_attrib *attrib;
++	struct rtw_ieee80211_hdr *wlanhdr;
++	u8 *pframe;
++
++
++	xmitpriv = &adapter->xmitpriv;
++	mlmepriv = &adapter->mlmepriv;
++
++	pmgntframe = alloc_mgtxmitframe(xmitpriv);
++	if (!pmgntframe)
++		return _FALSE;
++
++	/* update attribute */
++	attrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(adapter, attrib);
++	attrib->rate = MGN_6M;
++	attrib->bwmode = CHANNEL_WIDTH_20;
++	attrib->subtype = WIFI_ACTION;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)pmgntframe->buf_addr + TXDESC_OFFSET;
++	wlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	wlanhdr->frame_ctl = 0;
++	SetFrameSubType(pframe, attrib->subtype);
++	SetDuration(pframe, 0);
++	SetFragNum(pframe, 0);
++	SetSeqNum(pframe, 0);
++
++	_rtw_memcpy(wlanhdr->addr1, entry->mac_addr, ETH_ALEN);
++	_rtw_memcpy(wlanhdr->addr2, adapter_mac_addr(adapter), ETH_ALEN);
++	_rtw_memcpy(wlanhdr->addr3, get_bssid(mlmepriv), ETH_ALEN);
++
++	pframe[24] = RTW_WLAN_CATEGORY_VHT;
++	pframe[25] = RTW_WLAN_ACTION_VHT_GROUPID_MANAGEMENT;
++	_rtw_memcpy(&pframe[26], entry->gid_valid, 8);
++	_rtw_memcpy(&pframe[34], entry->user_position, 16);
++
++	attrib->pktlen = 54;
++	attrib->last_txcmdsz = attrib->pktlen;
++
++	dump_mgntframe(adapter, pmgntframe);
++
++	return _TRUE;
++}
++
++void beamforming_watchdog(PADAPTER adapter)
++{
++}
++#else /* !RTW_BEAMFORMING_VERSION_2 */
++
++struct beamforming_entry	*beamforming_get_entry_by_addr(struct mlme_priv *pmlmepriv, u8 *ra, u8 *idx)
++{
++	u8	i = 0;
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++
++	for (i = 0; i < BEAMFORMING_ENTRY_NUM; i++) {
++		if (pBeamInfo->beamforming_entry[i].bUsed &&
++		    (_rtw_memcmp(ra, pBeamInfo->beamforming_entry[i].mac_addr, ETH_ALEN))) {
++			*idx = i;
++			return &(pBeamInfo->beamforming_entry[i]);
++		}
++	}
++
++	return NULL;
++}
++
++BEAMFORMING_CAP beamforming_get_entry_beam_cap_by_mac_id(PVOID pmlmepriv , u8 mac_id)
++{
++	u8	i = 0;
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO((struct mlme_priv *)pmlmepriv);
++	BEAMFORMING_CAP		BeamformEntryCap = BEAMFORMING_CAP_NONE;
++
++	for (i = 0; i < BEAMFORMING_ENTRY_NUM; i++) {
++		if (pBeamInfo->beamforming_entry[i].bUsed &&
++		    (mac_id == pBeamInfo->beamforming_entry[i].mac_id)) {
++			BeamformEntryCap =  pBeamInfo->beamforming_entry[i].beamforming_entry_cap;
++			i = BEAMFORMING_ENTRY_NUM;
++		}
++	}
++
++	return BeamformEntryCap;
++}
++
++struct beamforming_entry	*beamforming_get_free_entry(struct mlme_priv *pmlmepriv, u8 *idx)
++{
++	u8	i = 0;
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++
++	for (i = 0; i < BEAMFORMING_ENTRY_NUM; i++) {
++		if (pBeamInfo->beamforming_entry[i].bUsed == _FALSE) {
++			*idx = i;
++			return &(pBeamInfo->beamforming_entry[i]);
++		}
++	}
++	return NULL;
++}
++
++
++struct beamforming_entry	*beamforming_add_entry(PADAPTER adapter, u8 *ra, u16 aid,
++	u16 mac_id, CHANNEL_WIDTH bw, BEAMFORMING_CAP beamfrom_cap, u8 *idx)
++{
++	struct mlme_priv			*pmlmepriv = &(adapter->mlmepriv);
++	struct beamforming_entry	*pEntry = beamforming_get_free_entry(pmlmepriv, idx);
++
++	if (pEntry != NULL) {
++		pEntry->bUsed = _TRUE;
++		pEntry->aid = aid;
++		pEntry->mac_id = mac_id;
++		pEntry->sound_bw = bw;
++		if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++			u16	BSSID = ((*(adapter_mac_addr(adapter) + 5) & 0xf0) >> 4) ^
++				(*(adapter_mac_addr(adapter) + 5) & 0xf); /* BSSID[44:47] xor BSSID[40:43] */
++			pEntry->p_aid = (aid + BSSID * 32) & 0x1ff;		/* (dec(A) + dec(B)*32) mod 512 */
++			pEntry->g_id = 63;
++		} else if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) || check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE)) {
++			pEntry->p_aid = 0;
++			pEntry->g_id = 63;
++		} else {
++			pEntry->p_aid =  ra[5];						/* BSSID[39:47] */
++			pEntry->p_aid = (pEntry->p_aid << 1) | (ra[4] >> 7);
++			pEntry->g_id = 0;
++		}
++		_rtw_memcpy(pEntry->mac_addr, ra, ETH_ALEN);
++		pEntry->bSound = _FALSE;
++
++		/* 3 TODO SW/FW sound period */
++		pEntry->sound_period = 200;
++		pEntry->beamforming_entry_cap = beamfrom_cap;
++		pEntry->beamforming_entry_state = BEAMFORMING_ENTRY_STATE_UNINITIALIZE;
++
++
++		pEntry->PreLogSeq = 0;	/*Modified by Jeffery @2015-04-13*/
++		pEntry->LogSeq = 0;		/*Modified by Jeffery @2014-10-29*/
++		pEntry->LogRetryCnt = 0;	/*Modified by Jeffery @2014-10-29*/
++		pEntry->LogSuccess = 0;	/*LogSuccess is NOT needed to be accumulated, so  LogSuccessCnt->LogSuccess, 2015-04-13, Jeffery*/
++		pEntry->ClockResetTimes = 0;	/*Modified by Jeffery @2015-04-13*/
++		pEntry->LogStatusFailCnt = 0;
++
++		return pEntry;
++	} else
++		return NULL;
++}
++
++BOOLEAN	beamforming_remove_entry(struct mlme_priv *pmlmepriv, u8 *ra, u8 *idx)
++{
++	struct beamforming_entry	*pEntry = beamforming_get_entry_by_addr(pmlmepriv, ra, idx);
++
++	if (pEntry != NULL) {
++		pEntry->bUsed = _FALSE;
++		pEntry->beamforming_entry_cap = BEAMFORMING_CAP_NONE;
++		pEntry->beamforming_entry_state = BEAMFORMING_ENTRY_STATE_UNINITIALIZE;
++		return _TRUE;
++	} else
++		return _FALSE;
++}
++
++/* Used for BeamformingStart_V1 */
++void	beamforming_dym_ndpa_rate(PADAPTER adapter)
++{
++	u16	NDPARate = MGN_6M;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(adapter);
++
++	if (pHalData->MinUndecoratedPWDBForDM > 30) /* link RSSI > 30% */
++		NDPARate = MGN_24M;
++	else
++		NDPARate = MGN_6M;
++
++	/* BW = CHANNEL_WIDTH_20; */
++	NDPARate = NDPARate << 8;
++	rtw_hal_set_hwreg(adapter, HW_VAR_SOUNDING_RATE, (u8 *)&NDPARate);
++}
++
++void beamforming_dym_period(PADAPTER Adapter)
++{
++	u8	Idx;
++	BOOLEAN	bChangePeriod = _FALSE;
++	u16	SoundPeriod_SW, SoundPeriod_FW;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(Adapter);
++	struct beamforming_entry	*pBeamformEntry;
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO((&Adapter->mlmepriv));
++	struct sounding_info		*pSoundInfo = &(pBeamInfo->sounding_info);
++
++	/* 3 TODO  per-client throughput caculation. */
++
++	if (pdvobjpriv->traffic_stat.cur_tx_tp + pdvobjpriv->traffic_stat.cur_rx_tp > 2) {
++		SoundPeriod_SW = 32 * 20;
++		SoundPeriod_FW = 2;
++	} else {
++		SoundPeriod_SW = 32 * 2000;
++		SoundPeriod_FW = 200;
++	}
++
++	for (Idx = 0; Idx < BEAMFORMING_ENTRY_NUM; Idx++) {
++		pBeamformEntry = pBeamInfo->beamforming_entry + Idx;
++		if (pBeamformEntry->bDefaultCSI) {
++			SoundPeriod_SW = 32 * 2000;
++			SoundPeriod_FW = 200;
++		}
++
++		if (pBeamformEntry->beamforming_entry_cap & (BEAMFORMER_CAP_HT_EXPLICIT | BEAMFORMER_CAP_VHT_SU)) {
++			if (pSoundInfo->sound_mode == SOUNDING_FW_VHT_TIMER || pSoundInfo->sound_mode == SOUNDING_FW_HT_TIMER) {
++				if (pBeamformEntry->sound_period != SoundPeriod_FW) {
++					pBeamformEntry->sound_period = SoundPeriod_FW;
++					bChangePeriod = _TRUE;	/* Only FW sounding need to send H2C packet to change sound period. */
++				}
++			} else if (pBeamformEntry->sound_period != SoundPeriod_SW)
++				pBeamformEntry->sound_period = SoundPeriod_SW;
++		}
++	}
++
++	if (bChangePeriod)
++		rtw_hal_set_hwreg(Adapter, HW_VAR_SOUNDING_FW_NDPA, (u8 *)&Idx);
++}
++
++BOOLEAN	issue_ht_sw_ndpa_packet(PADAPTER Adapter, u8 *ra, CHANNEL_WIDTH bw, u8 qidx)
++{
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct xmit_priv		*pxmitpriv = &(Adapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8	ActionHdr[4] = {ACT_CAT_VENDOR, 0x00, 0xe0, 0x4c};
++	u8	*pframe;
++	u16	*fctrl;
++	u16	duration = 0;
++	u8	aSifsTime = 0;
++	u8	NDPTxRate = 0;
++
++	RTW_INFO("%s: issue_ht_sw_ndpa_packet!\n", __func__);
++
++	NDPTxRate = MGN_MCS8;
++	RTW_INFO("%s: NDPTxRate =%d\n", __func__, NDPTxRate);
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++
++	if (pmgntframe == NULL)
++		return _FALSE;
++
++	/*update attribute*/
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(Adapter, pattrib);
++	pattrib->qsel = QSLT_MGNT;
++	pattrib->rate = NDPTxRate;
++	pattrib->bwmode = bw;
++	pattrib->order = 1;
++	pattrib->subtype = WIFI_ACTION_NOACK;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	SetOrderBit(pframe);
++	SetFrameSubType(pframe, WIFI_ACTION_NOACK);
++
++	_rtw_memcpy(pwlanhdr->addr1, ra, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(Adapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	if (pmlmeext->cur_wireless_mode == WIRELESS_11B)
++		aSifsTime = 10;
++	else
++		aSifsTime = 16;
++
++	duration = 2 * aSifsTime + 40;
++
++	if (bw == CHANNEL_WIDTH_40)
++		duration += 87;
++	else
++		duration += 180;
++
++	SetDuration(pframe, duration);
++
++	/*HT control field*/
++	SET_HT_CTRL_CSI_STEERING(pframe + 24, 3);
++	SET_HT_CTRL_NDP_ANNOUNCEMENT(pframe + 24, 1);
++
++	_rtw_memcpy(pframe + 28, ActionHdr, 4);
++
++	pattrib->pktlen = 32;
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(Adapter, pmgntframe);
++
++	return _TRUE;
++
++
++}
++BOOLEAN	issue_ht_ndpa_packet(PADAPTER Adapter, u8 *ra, CHANNEL_WIDTH bw, u8 qidx)
++{
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct xmit_priv		*pxmitpriv = &(Adapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8	ActionHdr[4] = {ACT_CAT_VENDOR, 0x00, 0xe0, 0x4c};
++	u8	*pframe;
++	u16	*fctrl;
++	u16	duration = 0;
++	u8	aSifsTime = 0;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++
++	if (pmgntframe == NULL)
++		return _FALSE;
++
++	/*update attribute*/
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(Adapter, pattrib);
++
++	if (qidx == BCN_QUEUE_INX)
++		pattrib->qsel = QSLT_BEACON;
++	pattrib->rate = MGN_MCS8;
++	pattrib->bwmode = bw;
++	pattrib->order = 1;
++	pattrib->subtype = WIFI_ACTION_NOACK;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	SetOrderBit(pframe);
++	SetFrameSubType(pframe, WIFI_ACTION_NOACK);
++
++	_rtw_memcpy(pwlanhdr->addr1, ra, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(Adapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	if (pmlmeext->cur_wireless_mode == WIRELESS_11B)
++		aSifsTime = 10;
++	else
++		aSifsTime = 16;
++
++	duration = 2 * aSifsTime + 40;
++
++	if (bw == CHANNEL_WIDTH_40)
++		duration += 87;
++	else
++		duration += 180;
++
++	SetDuration(pframe, duration);
++
++	/* HT control field */
++	SET_HT_CTRL_CSI_STEERING(pframe + 24, 3);
++	SET_HT_CTRL_NDP_ANNOUNCEMENT(pframe + 24, 1);
++
++	_rtw_memcpy(pframe + 28, ActionHdr, 4);
++
++	pattrib->pktlen = 32;
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(Adapter, pmgntframe);
++
++	return _TRUE;
++}
++
++BOOLEAN	beamforming_send_ht_ndpa_packet(PADAPTER Adapter, u8 *ra, CHANNEL_WIDTH bw, u8 qidx)
++{
++	return issue_ht_ndpa_packet(Adapter, ra, bw, qidx);
++}
++BOOLEAN	issue_vht_sw_ndpa_packet(PADAPTER Adapter, u8 *ra, u16 aid, CHANNEL_WIDTH bw, u8 qidx)
++{
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct xmit_priv		*pxmitpriv = &(Adapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv		*pmlmepriv = &(Adapter->mlmepriv);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++	struct rtw_ndpa_sta_info	sta_info;
++	u8		 NDPTxRate = 0;
++
++	u8	*pframe;
++	u16	*fctrl;
++	u16	duration = 0;
++	u8	sequence = 0, aSifsTime = 0;
++
++	RTW_INFO("%s: issue_vht_sw_ndpa_packet!\n", __func__);
++
++
++	NDPTxRate = MGN_VHT2SS_MCS0;
++	RTW_INFO("%s: NDPTxRate =%d\n", __func__, NDPTxRate);
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++
++	if (pmgntframe == NULL) {
++		RTW_INFO("%s, alloc mgnt frame fail\n", __func__);
++		return _FALSE;
++	}
++
++	/*update attribute*/
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(Adapter, pattrib);
++	pattrib->qsel = QSLT_MGNT;
++	pattrib->rate = NDPTxRate;
++	pattrib->bwmode = bw;
++	pattrib->subtype = WIFI_NDPA;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	SetFrameSubType(pframe, WIFI_NDPA);
++
++	_rtw_memcpy(pwlanhdr->addr1, ra, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(Adapter), ETH_ALEN);
++
++	if (IsSupported5G(pmlmeext->cur_wireless_mode) || IsSupportedHT(pmlmeext->cur_wireless_mode))
++		aSifsTime = 16;
++	else
++		aSifsTime = 10;
++
++	duration = 2 * aSifsTime + 44;
++
++	if (bw == CHANNEL_WIDTH_80)
++		duration += 40;
++	else if (bw == CHANNEL_WIDTH_40)
++		duration += 87;
++	else
++		duration += 180;
++
++	SetDuration(pframe, duration);
++
++	sequence = pBeamInfo->sounding_sequence << 2;
++	if (pBeamInfo->sounding_sequence >= 0x3f)
++		pBeamInfo->sounding_sequence = 0;
++	else
++		pBeamInfo->sounding_sequence++;
++
++	_rtw_memcpy(pframe + 16, &sequence, 1);
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) || ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE))
++		aid = 0;
++
++	sta_info.aid = aid;
++	sta_info.feedback_type = 0;
++	sta_info.nc_index = 0;
++
++	_rtw_memcpy(pframe + 17, (u8 *)&sta_info, 2);
++
++	pattrib->pktlen = 19;
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(Adapter, pmgntframe);
++
++
++	return _TRUE;
++
++}
++BOOLEAN	issue_vht_ndpa_packet(PADAPTER Adapter, u8 *ra, u16 aid, CHANNEL_WIDTH bw, u8 qidx)
++{
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct xmit_priv		*pxmitpriv = &(Adapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv		*pmlmepriv = &(Adapter->mlmepriv);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++	struct rtw_ndpa_sta_info	sta_info;
++	u8	*pframe;
++	u16	*fctrl;
++	u16	duration = 0;
++	u8	sequence = 0, aSifsTime = 0;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return _FALSE;
++
++	/*update attribute*/
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(Adapter, pattrib);
++
++	if (qidx == BCN_QUEUE_INX)
++		pattrib->qsel = QSLT_BEACON;
++	pattrib->rate = MGN_VHT2SS_MCS0;
++	pattrib->bwmode = bw;
++	pattrib->subtype = WIFI_NDPA;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	SetFrameSubType(pframe, WIFI_NDPA);
++
++	_rtw_memcpy(pwlanhdr->addr1, ra, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(Adapter), ETH_ALEN);
++
++	if (IsSupported5G(pmlmeext->cur_wireless_mode) || IsSupportedHT(pmlmeext->cur_wireless_mode))
++		aSifsTime = 16;
++	else
++		aSifsTime = 10;
++
++	duration = 2 * aSifsTime + 44;
++
++	if (bw == CHANNEL_WIDTH_80)
++		duration += 40;
++	else if (bw == CHANNEL_WIDTH_40)
++		duration += 87;
++	else
++		duration += 180;
++
++	SetDuration(pframe, duration);
++
++	sequence = pBeamInfo->sounding_sequence << 2;
++	if (pBeamInfo->sounding_sequence >= 0x3f)
++		pBeamInfo->sounding_sequence = 0;
++	else
++		pBeamInfo->sounding_sequence++;
++
++	_rtw_memcpy(pframe + 16, &sequence, 1);
++
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) || ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE))
++		aid = 0;
++
++	sta_info.aid = aid;
++	sta_info.feedback_type = 0;
++	sta_info.nc_index = 0;
++
++	_rtw_memcpy(pframe + 17, (u8 *)&sta_info, 2);
++
++	pattrib->pktlen = 19;
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(Adapter, pmgntframe);
++
++	return _TRUE;
++}
++
++BOOLEAN	beamforming_send_vht_ndpa_packet(PADAPTER Adapter, u8 *ra, u16 aid, CHANNEL_WIDTH bw, u8 qidx)
++{
++	return issue_vht_ndpa_packet(Adapter, ra, aid, bw, qidx);
++}
++
++BOOLEAN	beamfomring_bSounding(struct beamforming_info *pBeamInfo)
++{
++	BOOLEAN		bSounding = _FALSE;
++
++	if ((beamforming_get_beamform_cap(pBeamInfo) & BEAMFORMER_CAP) == 0)
++		bSounding = _FALSE;
++	else
++		bSounding = _TRUE;
++
++	return bSounding;
++}
++
++u8	beamforming_sounding_idx(struct beamforming_info *pBeamInfo)
++{
++	u8	idx = 0;
++	u8	i;
++
++	for (i = 0; i < BEAMFORMING_ENTRY_NUM; i++) {
++		if (pBeamInfo->beamforming_entry[i].bUsed &&
++		    (_FALSE == pBeamInfo->beamforming_entry[i].bSound)) {
++			idx = i;
++			break;
++		}
++	}
++
++	return idx;
++}
++
++SOUNDING_MODE	beamforming_sounding_mode(struct beamforming_info *pBeamInfo, u8 idx)
++{
++	struct beamforming_entry	BeamEntry = pBeamInfo->beamforming_entry[idx];
++	SOUNDING_MODE	mode;
++
++	if (BeamEntry.beamforming_entry_cap & BEAMFORMER_CAP_VHT_SU)
++		mode = SOUNDING_FW_VHT_TIMER;
++	else if (BeamEntry.beamforming_entry_cap & BEAMFORMER_CAP_HT_EXPLICIT)
++		mode = SOUNDING_FW_HT_TIMER;
++	else
++		mode = SOUNDING_STOP_All_TIMER;
++
++	return mode;
++}
++
++u16	beamforming_sounding_time(struct beamforming_info *pBeamInfo, SOUNDING_MODE mode, u8 idx)
++{
++	u16						sounding_time = 0xffff;
++	struct beamforming_entry	BeamEntry = pBeamInfo->beamforming_entry[idx];
++
++	sounding_time = BeamEntry.sound_period;
++
++	return sounding_time;
++}
++
++CHANNEL_WIDTH	beamforming_sounding_bw(struct beamforming_info *pBeamInfo, SOUNDING_MODE mode, u8 idx)
++{
++	CHANNEL_WIDTH				sounding_bw = CHANNEL_WIDTH_20;
++	struct beamforming_entry		BeamEntry = pBeamInfo->beamforming_entry[idx];
++
++	sounding_bw = BeamEntry.sound_bw;
++
++	return sounding_bw;
++}
++
++BOOLEAN	beamforming_select_beam_entry(struct beamforming_info *pBeamInfo)
++{
++	struct sounding_info		*pSoundInfo = &(pBeamInfo->sounding_info);
++
++	pSoundInfo->sound_idx = beamforming_sounding_idx(pBeamInfo);
++
++	if (pSoundInfo->sound_idx < BEAMFORMING_ENTRY_NUM)
++		pSoundInfo->sound_mode = beamforming_sounding_mode(pBeamInfo, pSoundInfo->sound_idx);
++	else
++		pSoundInfo->sound_mode = SOUNDING_STOP_All_TIMER;
++
++	if (SOUNDING_STOP_All_TIMER == pSoundInfo->sound_mode)
++		return _FALSE;
++	else {
++		pSoundInfo->sound_bw = beamforming_sounding_bw(pBeamInfo, pSoundInfo->sound_mode, pSoundInfo->sound_idx);
++		pSoundInfo->sound_period = beamforming_sounding_time(pBeamInfo, pSoundInfo->sound_mode, pSoundInfo->sound_idx);
++		return _TRUE;
++	}
++}
++
++BOOLEAN	beamforming_start_fw(PADAPTER adapter, u8 idx)
++{
++	u8						*RA = NULL;
++	struct beamforming_entry	*pEntry;
++	BOOLEAN					ret = _TRUE;
++	struct mlme_priv			*pmlmepriv = &(adapter->mlmepriv);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++
++	pEntry = &(pBeamInfo->beamforming_entry[idx]);
++	if (pEntry->bUsed == _FALSE) {
++		RTW_INFO("Skip Beamforming, no entry for Idx =%d\n", idx);
++		return _FALSE;
++	}
++
++	pEntry->beamforming_entry_state = BEAMFORMING_ENTRY_STATE_PROGRESSING;
++	pEntry->bSound = _TRUE;
++	rtw_hal_set_hwreg(adapter, HW_VAR_SOUNDING_FW_NDPA, (u8 *)&idx);
++
++	return _TRUE;
++}
++
++void	beamforming_end_fw(PADAPTER adapter)
++{
++	u8	idx = 0;
++
++	rtw_hal_set_hwreg(adapter, HW_VAR_SOUNDING_FW_NDPA, (u8 *)&idx);
++
++	RTW_INFO("%s\n", __FUNCTION__);
++}
++
++BOOLEAN	beamforming_start_period(PADAPTER adapter)
++{
++	BOOLEAN	ret = _TRUE;
++	struct mlme_priv			*pmlmepriv = &(adapter->mlmepriv);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++	struct sounding_info		*pSoundInfo = &(pBeamInfo->sounding_info);
++
++	beamforming_dym_ndpa_rate(adapter);
++
++	beamforming_select_beam_entry(pBeamInfo);
++
++	if (pSoundInfo->sound_mode == SOUNDING_FW_VHT_TIMER || pSoundInfo->sound_mode == SOUNDING_FW_HT_TIMER)
++		ret = beamforming_start_fw(adapter, pSoundInfo->sound_idx);
++	else
++		ret = _FALSE;
++
++	RTW_INFO("%s Idx %d Mode %d BW %d Period %d\n", __FUNCTION__,
++		pSoundInfo->sound_idx, pSoundInfo->sound_mode, pSoundInfo->sound_bw, pSoundInfo->sound_period);
++
++	return ret;
++}
++
++void	beamforming_end_period(PADAPTER adapter)
++{
++	u8						idx = 0;
++	struct beamforming_entry	*pBeamformEntry;
++	struct mlme_priv			*pmlmepriv = &(adapter->mlmepriv);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++	struct sounding_info		*pSoundInfo = &(pBeamInfo->sounding_info);
++
++
++	if (pSoundInfo->sound_mode == SOUNDING_FW_VHT_TIMER || pSoundInfo->sound_mode == SOUNDING_FW_HT_TIMER)
++		beamforming_end_fw(adapter);
++}
++
++void	beamforming_notify(PADAPTER adapter)
++{
++	BOOLEAN		bSounding = _FALSE;
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(&(adapter->mlmepriv));
++
++	bSounding = beamfomring_bSounding(pBeamInfo);
++
++	if (pBeamInfo->beamforming_state == BEAMFORMING_STATE_IDLE) {
++		if (bSounding) {
++			if (beamforming_start_period(adapter) == _TRUE)
++				pBeamInfo->beamforming_state = BEAMFORMING_STATE_START;
++		}
++	} else if (pBeamInfo->beamforming_state == BEAMFORMING_STATE_START) {
++		if (bSounding) {
++			if (beamforming_start_period(adapter) == _FALSE)
++				pBeamInfo->beamforming_state = BEAMFORMING_STATE_END;
++		} else {
++			beamforming_end_period(adapter);
++			pBeamInfo->beamforming_state = BEAMFORMING_STATE_END;
++		}
++	} else if (pBeamInfo->beamforming_state == BEAMFORMING_STATE_END) {
++		if (bSounding) {
++			if (beamforming_start_period(adapter) == _TRUE)
++				pBeamInfo->beamforming_state = BEAMFORMING_STATE_START;
++		}
++	} else
++		RTW_INFO("%s BeamformState %d\n", __FUNCTION__, pBeamInfo->beamforming_state);
++
++	RTW_INFO("%s BeamformState %d bSounding %d\n", __FUNCTION__, pBeamInfo->beamforming_state, bSounding);
++}
++
++BOOLEAN	beamforming_init_entry(PADAPTER	adapter, struct sta_info *psta, u8 *idx)
++{
++	struct mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++	struct ht_priv		*phtpriv = &(pmlmepriv->htpriv);
++#ifdef CONFIG_80211AC_VHT
++	struct vht_priv		*pvhtpriv = &(pmlmepriv->vhtpriv);
++#endif
++	struct mlme_ext_priv	*pmlmeext = &(adapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct beamforming_entry	*pBeamformEntry = NULL;
++	u8	*ra;
++	u16	aid, mac_id;
++	u8	wireless_mode;
++	CHANNEL_WIDTH	bw = CHANNEL_WIDTH_20;
++	BEAMFORMING_CAP	beamform_cap = BEAMFORMING_CAP_NONE;
++
++	/* The current setting does not support Beaforming */
++	if (0 == phtpriv->beamform_cap
++#ifdef CONFIG_80211AC_VHT
++	    && 0 == pvhtpriv->beamform_cap
++#endif
++	   ) {
++		RTW_INFO("The configuration disabled Beamforming! Skip...\n");
++		return _FALSE;
++	}
++
++	aid = psta->aid;
++	ra = psta->hwaddr;
++	mac_id = psta->mac_id;
++	wireless_mode = psta->wireless_mode;
++	bw = psta->bw_mode;
++
++	if (IsSupportedHT(wireless_mode) || IsSupportedVHT(wireless_mode)) {
++		/* 3 */ /* HT */
++		u8	cur_beamform;
++
++		cur_beamform = psta->htpriv.beamform_cap;
++
++		/* We are Beamformee because the STA is Beamformer */
++		if (TEST_FLAG(cur_beamform, BEAMFORMING_HT_BEAMFORMER_ENABLE))
++			beamform_cap = (BEAMFORMING_CAP)(beamform_cap | BEAMFORMEE_CAP_HT_EXPLICIT);
++
++		/* We are Beamformer because the STA is Beamformee */
++		if (TEST_FLAG(cur_beamform, BEAMFORMING_HT_BEAMFORMEE_ENABLE))
++			beamform_cap = (BEAMFORMING_CAP)(beamform_cap | BEAMFORMER_CAP_HT_EXPLICIT);
++#ifdef CONFIG_80211AC_VHT
++		if (IsSupportedVHT(wireless_mode)) {
++			/* 3 */ /* VHT */
++			cur_beamform = psta->vhtpriv.beamform_cap;
++
++			/* We are Beamformee because the STA is Beamformer */
++			if (TEST_FLAG(cur_beamform, BEAMFORMING_VHT_BEAMFORMER_ENABLE))
++				beamform_cap = (BEAMFORMING_CAP)(beamform_cap | BEAMFORMEE_CAP_VHT_SU);
++			/* We are Beamformer because the STA is Beamformee */
++			if (TEST_FLAG(cur_beamform, BEAMFORMING_VHT_BEAMFORMEE_ENABLE))
++				beamform_cap = (BEAMFORMING_CAP)(beamform_cap | BEAMFORMER_CAP_VHT_SU);
++		}
++#endif /* CONFIG_80211AC_VHT */
++
++		if (beamform_cap == BEAMFORMING_CAP_NONE)
++			return _FALSE;
++
++		RTW_INFO("Beamforming Config Capability = 0x%02X\n", beamform_cap);
++
++		pBeamformEntry = beamforming_get_entry_by_addr(pmlmepriv, ra, idx);
++		if (pBeamformEntry == NULL) {
++			pBeamformEntry = beamforming_add_entry(adapter, ra, aid, mac_id, bw, beamform_cap, idx);
++			if (pBeamformEntry == NULL)
++				return _FALSE;
++			else
++				pBeamformEntry->beamforming_entry_state = BEAMFORMING_ENTRY_STATE_INITIALIZEING;
++		} else {
++			/* Entry has been created. If entry is initialing or progressing then errors occur. */
++			if (pBeamformEntry->beamforming_entry_state != BEAMFORMING_ENTRY_STATE_INITIALIZED &&
++			    pBeamformEntry->beamforming_entry_state != BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++				RTW_INFO("Error State of Beamforming");
++				return _FALSE;
++			} else
++				pBeamformEntry->beamforming_entry_state = BEAMFORMING_ENTRY_STATE_INITIALIZEING;
++		}
++
++		pBeamformEntry->beamforming_entry_state = BEAMFORMING_ENTRY_STATE_INITIALIZED;
++		psta->txbf_paid = pBeamformEntry->p_aid;
++		psta->txbf_gid = pBeamformEntry->g_id;
++
++		RTW_INFO("%s Idx %d\n", __FUNCTION__, *idx);
++	} else
++		return _FALSE;
++
++	return _SUCCESS;
++}
++
++void	beamforming_deinit_entry(PADAPTER adapter, u8 *ra)
++{
++	u8	idx = 0;
++	struct mlme_priv *pmlmepriv = &(adapter->mlmepriv);
++
++	if (beamforming_remove_entry(pmlmepriv, ra, &idx) == _TRUE)
++		rtw_hal_set_hwreg(adapter, HW_VAR_SOUNDING_LEAVE, (u8 *)&idx);
++
++	RTW_INFO("%s Idx %d\n", __FUNCTION__, idx);
++}
++
++void	beamforming_reset(PADAPTER adapter)
++{
++	u8	idx = 0;
++	struct mlme_priv			*pmlmepriv = &(adapter->mlmepriv);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++
++	for (idx = 0; idx < BEAMFORMING_ENTRY_NUM; idx++) {
++		if (pBeamInfo->beamforming_entry[idx].bUsed == _TRUE) {
++			pBeamInfo->beamforming_entry[idx].bUsed = _FALSE;
++			pBeamInfo->beamforming_entry[idx].beamforming_entry_cap = BEAMFORMING_CAP_NONE;
++			pBeamInfo->beamforming_entry[idx].beamforming_entry_state = BEAMFORMING_ENTRY_STATE_UNINITIALIZE;
++			rtw_hal_set_hwreg(adapter, HW_VAR_SOUNDING_LEAVE, (u8 *)&idx);
++		}
++	}
++
++	RTW_INFO("%s\n", __FUNCTION__);
++}
++
++void beamforming_sounding_fail(PADAPTER Adapter)
++{
++	struct mlme_priv			*pmlmepriv = &(Adapter->mlmepriv);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++	struct beamforming_entry	*pEntry = &(pBeamInfo->beamforming_entry[pBeamInfo->beamforming_cur_idx]);
++
++	pEntry->bSound = _FALSE;
++	rtw_hal_set_hwreg(Adapter, HW_VAR_SOUNDING_FW_NDPA, (u8 *)&pBeamInfo->beamforming_cur_idx);
++	beamforming_deinit_entry(Adapter, pEntry->mac_addr);
++}
++
++void	beamforming_check_sounding_success(PADAPTER Adapter, BOOLEAN status)
++{
++	struct mlme_priv			*pmlmepriv = &(Adapter->mlmepriv);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++	struct beamforming_entry	*pEntry = &(pBeamInfo->beamforming_entry[pBeamInfo->beamforming_cur_idx]);
++
++	if (status == 1)
++		pEntry->LogStatusFailCnt = 0;
++	else {
++		pEntry->LogStatusFailCnt++;
++		RTW_INFO("%s LogStatusFailCnt %d\n", __FUNCTION__, pEntry->LogStatusFailCnt);
++	}
++	if (pEntry->LogStatusFailCnt > 20) {
++		RTW_INFO("%s LogStatusFailCnt > 20, Stop SOUNDING\n", __FUNCTION__);
++		/* pEntry->bSound = _FALSE; */
++		/* rtw_hal_set_hwreg(Adapter, HW_VAR_SOUNDING_FW_NDPA, (u8 *)&pBeamInfo->beamforming_cur_idx); */
++		/* beamforming_deinit_entry(Adapter, pEntry->mac_addr); */
++		beamforming_wk_cmd(Adapter, BEAMFORMING_CTRL_SOUNDING_FAIL, NULL, 0, 1);
++	}
++}
++
++void	beamforming_enter(PADAPTER adapter, PVOID psta)
++{
++	u8	idx = 0xff;
++
++	if (beamforming_init_entry(adapter, (struct sta_info *)psta, &idx))
++		rtw_hal_set_hwreg(adapter, HW_VAR_SOUNDING_ENTER, (u8 *)&idx);
++
++	/* RTW_INFO("%s Idx %d\n", __FUNCTION__, idx); */
++}
++
++void	beamforming_leave(PADAPTER adapter, u8 *ra)
++{
++	if (ra == NULL)
++		beamforming_reset(adapter);
++	else
++		beamforming_deinit_entry(adapter, ra);
++
++	beamforming_notify(adapter);
++}
++
++BEAMFORMING_CAP beamforming_get_beamform_cap(struct beamforming_info	*pBeamInfo)
++{
++	u8	i;
++	BOOLEAN				bSelfBeamformer = _FALSE;
++	BOOLEAN				bSelfBeamformee = _FALSE;
++	struct beamforming_entry	beamforming_entry;
++	BEAMFORMING_CAP		beamform_cap = BEAMFORMING_CAP_NONE;
++
++	for (i = 0; i < BEAMFORMING_ENTRY_NUM; i++) {
++		beamforming_entry = pBeamInfo->beamforming_entry[i];
++
++		if (beamforming_entry.bUsed) {
++			if ((beamforming_entry.beamforming_entry_cap & BEAMFORMEE_CAP_VHT_SU) ||
++			    (beamforming_entry.beamforming_entry_cap & BEAMFORMEE_CAP_HT_EXPLICIT))
++				bSelfBeamformee = _TRUE;
++			if ((beamforming_entry.beamforming_entry_cap & BEAMFORMER_CAP_VHT_SU) ||
++			    (beamforming_entry.beamforming_entry_cap & BEAMFORMER_CAP_HT_EXPLICIT))
++				bSelfBeamformer = _TRUE;
++		}
++
++		if (bSelfBeamformer && bSelfBeamformee)
++			i = BEAMFORMING_ENTRY_NUM;
++	}
++
++	if (bSelfBeamformer)
++		beamform_cap |= BEAMFORMER_CAP;
++	if (bSelfBeamformee)
++		beamform_cap |= BEAMFORMEE_CAP;
++
++	return beamform_cap;
++}
++
++void	beamforming_watchdog(PADAPTER Adapter)
++{
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO((&(Adapter->mlmepriv)));
++
++	if (pBeamInfo->beamforming_state != BEAMFORMING_STATE_START)
++		return;
++
++	beamforming_dym_period(Adapter);
++	beamforming_dym_ndpa_rate(Adapter);
++}
++#endif /* !RTW_BEAMFORMING_VERSION_2 */
++#endif/* #if (BEAMFORMING_SUPPORT ==0) - for diver defined beamforming*/
++
++u32	beamforming_get_report_frame(PADAPTER	 Adapter, union recv_frame *precv_frame)
++{
++	u32	ret = _SUCCESS;
++#if (BEAMFORMING_SUPPORT == 1)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++
++	ret = Beamforming_GetReportFrame(pDM_Odm, precv_frame);
++
++#else /*(BEAMFORMING_SUPPORT == 0)- for drv beamfoming*/
++#ifdef RTW_BEAMFORMING_VERSION_2
++	struct beamformee_entry *pBeamformEntry = NULL;
++	struct mlme_priv *pmlmepriv = &Adapter->mlmepriv;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	u32 frame_len = precv_frame->u.hdr.len;
++	u8 *ta;
++	u8 *frame_body;
++	u8 category, action;
++	u8 *pMIMOCtrlField, *pCSIMatrix;
++	u8 Nc = 0, Nr = 0, CH_W = 0;
++	u16 CSIMatrixLen = 0;
++
++
++	RTW_DBG("+%s\n", __FUNCTION__);
++
++	/* Memory comparison to see if CSI report is the same with previous one */
++	ta = GetAddr2Ptr(pframe);
++	pBeamformEntry = beamforming_get_bfee_entry_by_addr(Adapter, ta);
++	if (!pBeamformEntry)
++		return _FAIL;
++
++	frame_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	category = frame_body[0];
++	action = frame_body[1];
++
++	if ((category == RTW_WLAN_CATEGORY_VHT)
++	    && (action == RTW_WLAN_ACTION_VHT_COMPRESSED_BEAMFORMING)) {
++		pMIMOCtrlField = pframe + 26; 
++		Nc = ((*pMIMOCtrlField) & 0x7) + 1;
++		Nr = (((*pMIMOCtrlField) & 0x38) >> 3) + 1;
++		CH_W =  (((*pMIMOCtrlField) & 0xC0) >> 6);
++		/*
++		 * 24+(1+1+3)+2
++		 * ==> MAC header+(Category+ActionCode+MIMOControlField)+SNR(Nc=2)
++		 */
++		pCSIMatrix = pMIMOCtrlField + 3 + Nc;
++		CSIMatrixLen = frame_len - 26 - 3 - Nc;
++	} else if ((category == RTW_WLAN_CATEGORY_HT)
++		   && (action == RTW_WLAN_ACTION_HT_COMPRESS_BEAMFORMING)) {
++		pMIMOCtrlField = pframe + 26; 
++		Nc = ((*pMIMOCtrlField) & 0x3) + 1;
++		Nr = (((*pMIMOCtrlField) & 0xC) >> 2) + 1;
++		CH_W = ((*pMIMOCtrlField) & 0x10) >> 4;
++		/*
++		 * 24+(1+1+6)+2
++		 * ==> MAC header+(Category+ActionCode+MIMOControlField)+SNR(Nc=2)
++		 */
++		pCSIMatrix = pMIMOCtrlField + 6 + Nr;
++		CSIMatrixLen = frame_len  - 26 - 6 - Nr;
++	}
++	
++	RTW_INFO("%s: pkt type=%d-%d, Nc=%d, Nr=%d, CH_W=%d\n",
++		 __FUNCTION__, category, action, Nc, Nr, CH_W);
++#else /* !RTW_BEAMFORMING_VERSION_2 */
++	struct beamforming_entry	*pBeamformEntry = NULL;
++	struct mlme_priv			*pmlmepriv = &(Adapter->mlmepriv);
++	u8	*pframe = precv_frame->u.hdr.rx_data;
++	u32	frame_len = precv_frame->u.hdr.len;
++	u8	*ta;
++	u8	idx, offset;
++
++	/*RTW_INFO("beamforming_get_report_frame\n");*/
++
++	/*Memory comparison to see if CSI report is the same with previous one*/
++	ta = GetAddr2Ptr(pframe);
++	pBeamformEntry = beamforming_get_entry_by_addr(pmlmepriv, ta, &idx);
++	if (pBeamformEntry->beamforming_entry_cap & BEAMFORMER_CAP_VHT_SU)
++		offset = 31;	/*24+(1+1+3)+2  MAC header+(Category+ActionCode+MIMOControlField)+SNR(Nc=2)*/
++	else if (pBeamformEntry->beamforming_entry_cap & BEAMFORMER_CAP_HT_EXPLICIT)
++		offset = 34;	/*24+(1+1+6)+2  MAC header+(Category+ActionCode+MIMOControlField)+SNR(Nc=2)*/
++	else
++		return ret;
++
++	/*RTW_INFO("%s MacId %d offset=%d\n", __FUNCTION__, pBeamformEntry->mac_id, offset);*/
++
++	if (_rtw_memcmp(pBeamformEntry->PreCsiReport + offset, pframe + offset, frame_len - offset) == _FALSE)
++		pBeamformEntry->DefaultCsiCnt = 0;
++	else
++		pBeamformEntry->DefaultCsiCnt++;
++
++	_rtw_memcpy(&pBeamformEntry->PreCsiReport, pframe, frame_len);
++
++	pBeamformEntry->bDefaultCSI = _FALSE;
++
++	if (pBeamformEntry->DefaultCsiCnt > 20)
++		pBeamformEntry->bDefaultCSI = _TRUE;
++	else
++		pBeamformEntry->bDefaultCSI = _FALSE;
++#endif /* !RTW_BEAMFORMING_VERSION_2 */
++#endif
++	return ret;
++}
++
++void	beamforming_get_ndpa_frame(PADAPTER	 Adapter, union recv_frame *precv_frame)
++{
++#if (BEAMFORMING_SUPPORT == 1)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++
++	Beamforming_GetNDPAFrame(pDM_Odm, precv_frame);
++
++#else /*(BEAMFORMING_SUPPORT == 0)- for drv beamfoming*/
++#ifdef RTW_BEAMFORMING_VERSION_2
++	RTW_DBG("+%s\n", __FUNCTION__);
++#else /* !RTW_BEAMFORMING_VERSION_2 */
++	u8	*ta;
++	u8	idx, Sequence;
++	u8	*pframe = precv_frame->u.hdr.rx_data;
++	struct mlme_priv			*pmlmepriv = &(Adapter->mlmepriv);
++	struct beamforming_entry	*pBeamformEntry = NULL;
++
++	/*RTW_INFO("beamforming_get_ndpa_frame\n");*/
++
++	if (IS_HARDWARE_TYPE_8812(Adapter) == _FALSE)
++		return;
++	else if (GetFrameSubType(pframe) != WIFI_NDPA)
++		return;
++
++	ta = GetAddr2Ptr(pframe);
++	/*Remove signaling TA. */
++	ta[0] = ta[0] & 0xFE;
++
++	pBeamformEntry = beamforming_get_entry_by_addr(pmlmepriv, ta, &idx);
++
++	if (pBeamformEntry == NULL)
++		return;
++	else if (!(pBeamformEntry->beamforming_entry_cap & BEAMFORMEE_CAP_VHT_SU))
++		return;
++	/*LogSuccess: As long as 8812A receive NDPA and feedback CSI succeed once, clock reset is NO LONGER needed !2015-04-10, Jeffery*/
++	/*ClockResetTimes: While BFer entry always doesn't receive our CSI, clock will reset again and again.So ClockResetTimes is limited to 5 times.2015-04-13, Jeffery*/
++	else if ((pBeamformEntry->LogSuccess == 1) || (pBeamformEntry->ClockResetTimes == 5)) {
++		RTW_INFO("[%s] LogSeq=%d, PreLogSeq=%d\n", __func__, pBeamformEntry->LogSeq, pBeamformEntry->PreLogSeq);
++		return;
++	}
++
++	Sequence = (pframe[16]) >> 2;
++	RTW_INFO("[%s] Start, Sequence=%d, LogSeq=%d, PreLogSeq=%d, LogRetryCnt=%d, ClockResetTimes=%d, LogSuccess=%d\n",
++		__func__, Sequence, pBeamformEntry->LogSeq, pBeamformEntry->PreLogSeq, pBeamformEntry->LogRetryCnt, pBeamformEntry->ClockResetTimes, pBeamformEntry->LogSuccess);
++
++	if ((pBeamformEntry->LogSeq != 0) && (pBeamformEntry->PreLogSeq != 0)) {
++		/*Success condition*/
++		if ((pBeamformEntry->LogSeq != Sequence) && (pBeamformEntry->PreLogSeq != pBeamformEntry->LogSeq)) {
++			/* break option for clcok reset, 2015-03-30, Jeffery */
++			pBeamformEntry->LogRetryCnt = 0;
++			/*As long as 8812A receive NDPA and feedback CSI succeed once, clock reset is no longer needed.*/
++			/*That is, LogSuccess is NOT needed to be reset to zero, 2015-04-13, Jeffery*/
++			pBeamformEntry->LogSuccess = 1;
++
++		} else {/*Fail condition*/
++
++			if (pBeamformEntry->LogRetryCnt == 5) {
++				pBeamformEntry->ClockResetTimes++;
++				pBeamformEntry->LogRetryCnt = 0;
++
++				RTW_INFO("[%s] Clock Reset!!! ClockResetTimes=%d\n",  __func__, pBeamformEntry->ClockResetTimes);
++				beamforming_wk_cmd(Adapter, BEAMFORMING_CTRL_SOUNDING_CLK, NULL, 0, 1);
++
++			} else
++				pBeamformEntry->LogRetryCnt++;
++		}
++	}
++
++	/*Update LogSeq & PreLogSeq*/
++	pBeamformEntry->PreLogSeq = pBeamformEntry->LogSeq;
++	pBeamformEntry->LogSeq = Sequence;
++#endif /* !RTW_BEAMFORMING_VERSION_2 */
++#endif
++
++}
++
++/* octets in data header, no WEP */
++#define sMacHdrLng						24
++/* VHT Group ID (GID) Management Frame */
++#define FRAME_OFFSET_VHT_GID_MGNT_MEMBERSHIP_STATUS_ARRAY	(sMacHdrLng + 2)
++#define FRAME_OFFSET_VHT_GID_MGNT_USER_POSITION_ARRAY		(sMacHdrLng + 10)
++/* VHT GID Management Frame Info */
++#define GET_VHT_GID_MGNT_INFO_MEMBERSHIP_STATUS(_pStart)	LE_BITS_TO_1BYTE((_pStart), 0, 8)
++#define GET_VHT_GID_MGNT_INFO_USER_POSITION(_pStart)		LE_BITS_TO_1BYTE((_pStart), 0, 8)
++/*
++ * Description:
++ *	On VHT GID management frame by an MU beamformee.
++ *
++ * 2015.05.20. Created by tynli.
++ */
++u32 beamforming_get_vht_gid_mgnt_frame(PADAPTER adapter, union recv_frame *precv_frame)
++{
++#ifdef RTW_BEAMFORMING_VERSION_2
++	u8 *ta;
++	u8 idx;
++	u8 *pframe;
++	u8 *pBuffer = NULL;
++	struct beamformer_entry *bfer = NULL;
++
++
++	RTW_DBG("+%s\n", __FUNCTION__);
++
++	pframe = precv_frame->u.hdr.rx_data;
++	/* Get BFer entry by Addr2 */
++	ta = GetAddr2Ptr(pframe);
++	/* Remove signaling TA */
++	ta[0] &= 0xFE;
++
++	bfer = beamforming_get_bfer_entry_by_addr(adapter, ta);
++	if (!bfer) {
++		RTW_INFO("%s: Cannot find BFer entry!!\n", __FUNCTION__);
++		return _FAIL;
++	}
++
++	/* Parsing Membership Status Array */
++	pBuffer = pframe + FRAME_OFFSET_VHT_GID_MGNT_MEMBERSHIP_STATUS_ARRAY;
++	for (idx = 0; idx < 8; idx++)
++		bfer->gid_valid[idx] = GET_VHT_GID_MGNT_INFO_MEMBERSHIP_STATUS(pBuffer+idx);
++
++	/* Parsing User Position Array */
++	pBuffer = pframe + FRAME_OFFSET_VHT_GID_MGNT_USER_POSITION_ARRAY;
++	for (idx = 0; idx < 16; idx++)
++		bfer->user_position[idx] = GET_VHT_GID_MGNT_INFO_USER_POSITION(pBuffer+idx);
++
++	/* Config HW GID table */
++	beamforming_wk_cmd(adapter, BEAMFORMING_CTRL_SET_GID_TABLE, (u8*)&bfer, sizeof(struct beamformer_entry *), 1);
++
++	return _SUCCESS;
++#else /* !RTW_BEAMFORMING_VERSION_2 */
++	return _FAIL;
++#endif /* !RTW_BEAMFORMING_VERSION_2 */
++}
++
++void	beamforming_wk_hdl(_adapter *padapter, u8 type, u8 *pbuf)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++
++#if (BEAMFORMING_SUPPORT == 1) /*(BEAMFORMING_SUPPORT == 1)- for PHYDM beamfoming*/
++	switch (type) {
++	case BEAMFORMING_CTRL_ENTER: {
++		struct sta_info	*psta = (PVOID)pbuf;
++		u16			staIdx = psta->mac_id;
++
++		Beamforming_Enter(pDM_Odm, staIdx);
++		break;
++	}
++	case BEAMFORMING_CTRL_LEAVE:
++		Beamforming_Leave(pDM_Odm, pbuf);
++		break;
++	default:
++		break;
++
++	}
++#else /*(BEAMFORMING_SUPPORT == 0)- for drv beamfoming*/
++	switch (type) {
++	case BEAMFORMING_CTRL_ENTER:
++		beamforming_enter(padapter, (PVOID)pbuf);
++		break;
++
++	case BEAMFORMING_CTRL_LEAVE:
++		beamforming_leave(padapter, pbuf);
++		break;
++
++	case BEAMFORMING_CTRL_SOUNDING_FAIL:
++		beamforming_sounding_fail(padapter);
++		break;
++
++	case BEAMFORMING_CTRL_SOUNDING_CLK:
++		rtw_hal_set_hwreg(padapter, HW_VAR_SOUNDING_CLK, NULL);
++		break;
++
++	case BEAMFORMING_CTRL_SET_GID_TABLE:
++		rtw_hal_set_hwreg(padapter, HW_VAR_SOUNDING_SET_GID_TABLE, *(void**)pbuf);
++		break;
++
++	default:
++		break;
++	}
++#endif
++}
++
++u8	beamforming_wk_cmd(_adapter *padapter, s32 type, u8 *pbuf, s32 size, u8 enqueue)
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	if (enqueue) {
++		u8	*wk_buf;
++
++		ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (ph2c == NULL) {
++			res = _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++		if (pdrvextra_cmd_parm == NULL) {
++			rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++			res = _FAIL;
++			goto exit;
++		}
++
++		if (pbuf != NULL) {
++			wk_buf = rtw_zmalloc(size);
++			if (wk_buf == NULL) {
++				rtw_mfree((u8 *)ph2c, sizeof(struct cmd_obj));
++				rtw_mfree((u8 *)pdrvextra_cmd_parm, sizeof(struct drvextra_cmd_parm));
++				res = _FAIL;
++				goto exit;
++			}
++
++			_rtw_memcpy(wk_buf, pbuf, size);
++		} else {
++			wk_buf = NULL;
++			size = 0;
++		}
++
++		pdrvextra_cmd_parm->ec_id = BEAMFORMING_WK_CID;
++		pdrvextra_cmd_parm->type = type;
++		pdrvextra_cmd_parm->size = size;
++		pdrvextra_cmd_parm->pbuf = wk_buf;
++
++		init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	} else
++		beamforming_wk_hdl(padapter, type, pbuf);
++
++exit:
++
++
++	return res;
++}
++
++void update_attrib_txbf_info(_adapter *padapter, struct pkt_attrib *pattrib, struct sta_info *psta)
++{
++	if (psta) {
++		pattrib->txbf_g_id = psta->txbf_gid;
++		pattrib->txbf_p_aid = psta->txbf_paid;
++	}
++}
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_br_ext.c b/drivers/net/wireless/rtl8812au/core/rtw_br_ext.c
+new file mode 100644
+index 0000000..b330edf
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_br_ext.c
+@@ -0,0 +1,1585 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_BR_EXT_C_
++
++#ifdef __KERNEL__
++	#include <linux/if_arp.h>
++	#include <net/ip.h>
++	#include <net/ipx.h>
++	#include <linux/atalk.h>
++	#include <linux/udp.h>
++	#include <linux/if_pppox.h>
++#endif
++
++#if 1	/* rtw_wifi_driver */
++	#include <drv_types.h>
++#else	/* rtw_wifi_driver */
++	#include "./8192cd_cfg.h"
++
++	#ifndef __KERNEL__
++		#include "./sys-support.h"
++	#endif
++
++	#include "./8192cd.h"
++	#include "./8192cd_headers.h"
++	#include "./8192cd_br_ext.h"
++	#include "./8192cd_debug.h"
++#endif /* rtw_wifi_driver */
++
++#ifdef CL_IPV6_PASS
++	#ifdef __KERNEL__
++		#include <linux/ipv6.h>
++		#include <linux/icmpv6.h>
++		#include <net/ndisc.h>
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 24))
++			#include <net/ip6_checksum.h>
++		#else
++			#include <net/checksum.h>
++		#endif
++	#endif
++#endif
++
++#ifdef CONFIG_BR_EXT
++
++/* #define BR_EXT_DEBUG */
++
++#define NAT25_IPV4		01
++#define NAT25_IPV6		02
++#define NAT25_IPX		03
++#define NAT25_APPLE		04
++#define NAT25_PPPOE		05
++
++#define RTL_RELAY_TAG_LEN (ETH_ALEN)
++#define TAG_HDR_LEN		4
++
++#define MAGIC_CODE		0x8186
++#define MAGIC_CODE_LEN	2
++#define WAIT_TIME_PPPOE	5	/* waiting time for pppoe server in sec */
++
++/*-----------------------------------------------------------------
++  How database records network address:
++           0    1    2    3    4    5    6    7    8    9   10
++        |----|----|----|----|----|----|----|----|----|----|----|
++  IPv4  |type|                             |      IP addr      |
++  IPX   |type|      Net addr     |          Node addr          |
++  IPX   |type|      Net addr     |Sckt addr|
++  Apple |type| Network |node|
++  PPPoE |type|   SID   |           AC MAC            |
++-----------------------------------------------------------------*/
++
++
++/* Find a tag in pppoe frame and return the pointer */
++static __inline__ unsigned char *__nat25_find_pppoe_tag(struct pppoe_hdr *ph, unsigned short type)
++{
++	unsigned char *cur_ptr, *start_ptr;
++	unsigned short tagLen, tagType;
++
++	start_ptr = cur_ptr = (unsigned char *)ph->tag;
++	while ((cur_ptr - start_ptr) < ntohs(ph->length)) {
++		/* prevent un-alignment access */
++		tagType = (unsigned short)((cur_ptr[0] << 8) + cur_ptr[1]);
++		tagLen  = (unsigned short)((cur_ptr[2] << 8) + cur_ptr[3]);
++		if (tagType == type)
++			return cur_ptr;
++		cur_ptr = cur_ptr + TAG_HDR_LEN + tagLen;
++	}
++	return 0;
++}
++
++
++static __inline__ int __nat25_add_pppoe_tag(struct sk_buff *skb, struct pppoe_tag *tag)
++{
++	struct pppoe_hdr *ph = (struct pppoe_hdr *)(skb->data + ETH_HLEN);
++	int data_len;
++
++	data_len = tag->tag_len + TAG_HDR_LEN;
++	if (skb_tailroom(skb) < data_len) {
++		_DEBUG_ERR("skb_tailroom() failed in add SID tag!\n");
++		return -1;
++	}
++
++	skb_put(skb, data_len);
++	/* have a room for new tag */
++	memmove(((unsigned char *)ph->tag + data_len), (unsigned char *)ph->tag, ntohs(ph->length));
++	ph->length = htons(ntohs(ph->length) + data_len);
++	memcpy((unsigned char *)ph->tag, tag, data_len);
++	return data_len;
++}
++
++static int skb_pull_and_merge(struct sk_buff *skb, unsigned char *src, int len)
++{
++	int tail_len;
++	unsigned long end, tail;
++
++	if ((src + len) > skb_tail_pointer(skb) || skb->len < len)
++		return -1;
++
++	tail = (unsigned long)skb_tail_pointer(skb);
++	end = (unsigned long)src + len;
++	if (tail < end)
++		return -1;
++
++	tail_len = (int)(tail - end);
++	if (tail_len > 0)
++		memmove(src, src + len, tail_len);
++
++	skb_trim(skb, skb->len - len);
++	return 0;
++}
++
++static __inline__ unsigned long __nat25_timeout(_adapter *priv)
++{
++	unsigned long timeout;
++
++	timeout = jiffies - NAT25_AGEING_TIME * HZ;
++
++	return timeout;
++}
++
++
++static __inline__ int  __nat25_has_expired(_adapter *priv,
++		struct nat25_network_db_entry *fdb)
++{
++	if (time_before_eq(fdb->ageing_timer, __nat25_timeout(priv)))
++		return 1;
++
++	return 0;
++}
++
++
++static __inline__ void __nat25_generate_ipv4_network_addr(unsigned char *networkAddr,
++		unsigned int *ipAddr)
++{
++	memset(networkAddr, 0, MAX_NETWORK_ADDR_LEN);
++
++	networkAddr[0] = NAT25_IPV4;
++	memcpy(networkAddr + 7, (unsigned char *)ipAddr, 4);
++}
++
++
++static __inline__ void __nat25_generate_ipx_network_addr_with_node(unsigned char *networkAddr,
++		unsigned int *ipxNetAddr, unsigned char *ipxNodeAddr)
++{
++	memset(networkAddr, 0, MAX_NETWORK_ADDR_LEN);
++
++	networkAddr[0] = NAT25_IPX;
++	memcpy(networkAddr + 1, (unsigned char *)ipxNetAddr, 4);
++	memcpy(networkAddr + 5, ipxNodeAddr, 6);
++}
++
++
++static __inline__ void __nat25_generate_ipx_network_addr_with_socket(unsigned char *networkAddr,
++		unsigned int *ipxNetAddr, unsigned short *ipxSocketAddr)
++{
++	memset(networkAddr, 0, MAX_NETWORK_ADDR_LEN);
++
++	networkAddr[0] = NAT25_IPX;
++	memcpy(networkAddr + 1, (unsigned char *)ipxNetAddr, 4);
++	memcpy(networkAddr + 5, (unsigned char *)ipxSocketAddr, 2);
++}
++
++
++static __inline__ void __nat25_generate_apple_network_addr(unsigned char *networkAddr,
++		unsigned short *network, unsigned char *node)
++{
++	memset(networkAddr, 0, MAX_NETWORK_ADDR_LEN);
++
++	networkAddr[0] = NAT25_APPLE;
++	memcpy(networkAddr + 1, (unsigned char *)network, 2);
++	networkAddr[3] = *node;
++}
++
++
++static __inline__ void __nat25_generate_pppoe_network_addr(unsigned char *networkAddr,
++		unsigned char *ac_mac, unsigned short *sid)
++{
++	memset(networkAddr, 0, MAX_NETWORK_ADDR_LEN);
++
++	networkAddr[0] = NAT25_PPPOE;
++	memcpy(networkAddr + 1, (unsigned char *)sid, 2);
++	memcpy(networkAddr + 3, (unsigned char *)ac_mac, 6);
++}
++
++
++#ifdef CL_IPV6_PASS
++static  void __nat25_generate_ipv6_network_addr(unsigned char *networkAddr,
++		unsigned int *ipAddr)
++{
++	memset(networkAddr, 0, MAX_NETWORK_ADDR_LEN);
++
++	networkAddr[0] = NAT25_IPV6;
++	memcpy(networkAddr + 1, (unsigned char *)ipAddr, 16);
++}
++
++
++static unsigned char *scan_tlv(unsigned char *data, int len, unsigned char tag, unsigned char len8b)
++{
++	while (len > 0) {
++		if (*data == tag && *(data + 1) == len8b && len >= len8b * 8)
++			return data + 2;
++
++		len -= (*(data + 1)) * 8;
++		data += (*(data + 1)) * 8;
++	}
++	return NULL;
++}
++
++
++static int update_nd_link_layer_addr(unsigned char *data, int len, unsigned char *replace_mac)
++{
++	struct icmp6hdr *icmphdr = (struct icmp6hdr *)data;
++	unsigned char *mac;
++
++	if (icmphdr->icmp6_type == NDISC_ROUTER_SOLICITATION) {
++		if (len >= 8) {
++			mac = scan_tlv(&data[8], len - 8, 1, 1);
++			if (mac) {
++				RTW_INFO("Router Solicitation, replace MAC From: %02x:%02x:%02x:%02x:%02x:%02x, To: %02x:%02x:%02x:%02x:%02x:%02x\n",
++					mac[0], mac[1], mac[2], mac[3], mac[4], mac[5],
++					replace_mac[0], replace_mac[1], replace_mac[2], replace_mac[3], replace_mac[4], replace_mac[5]);
++				memcpy(mac, replace_mac, 6);
++				return 1;
++			}
++		}
++	} else if (icmphdr->icmp6_type == NDISC_ROUTER_ADVERTISEMENT) {
++		if (len >= 16) {
++			mac = scan_tlv(&data[16], len - 16, 1, 1);
++			if (mac) {
++				RTW_INFO("Router Advertisement, replace MAC From: %02x:%02x:%02x:%02x:%02x:%02x, To: %02x:%02x:%02x:%02x:%02x:%02x\n",
++					mac[0], mac[1], mac[2], mac[3], mac[4], mac[5],
++					replace_mac[0], replace_mac[1], replace_mac[2], replace_mac[3], replace_mac[4], replace_mac[5]);
++				memcpy(mac, replace_mac, 6);
++				return 1;
++			}
++		}
++	} else if (icmphdr->icmp6_type == NDISC_NEIGHBOUR_SOLICITATION) {
++		if (len >= 24) {
++			mac = scan_tlv(&data[24], len - 24, 1, 1);
++			if (mac) {
++				RTW_INFO("Neighbor Solicitation, replace MAC From: %02x:%02x:%02x:%02x:%02x:%02x, To: %02x:%02x:%02x:%02x:%02x:%02x\n",
++					mac[0], mac[1], mac[2], mac[3], mac[4], mac[5],
++					replace_mac[0], replace_mac[1], replace_mac[2], replace_mac[3], replace_mac[4], replace_mac[5]);
++				memcpy(mac, replace_mac, 6);
++				return 1;
++			}
++		}
++	} else if (icmphdr->icmp6_type == NDISC_NEIGHBOUR_ADVERTISEMENT) {
++		if (len >= 24) {
++			mac = scan_tlv(&data[24], len - 24, 2, 1);
++			if (mac) {
++				RTW_INFO("Neighbor Advertisement, replace MAC From: %02x:%02x:%02x:%02x:%02x:%02x, To: %02x:%02x:%02x:%02x:%02x:%02x\n",
++					mac[0], mac[1], mac[2], mac[3], mac[4], mac[5],
++					replace_mac[0], replace_mac[1], replace_mac[2], replace_mac[3], replace_mac[4], replace_mac[5]);
++				memcpy(mac, replace_mac, 6);
++				return 1;
++			}
++		}
++	} else if (icmphdr->icmp6_type == NDISC_REDIRECT) {
++		if (len >= 40) {
++			mac = scan_tlv(&data[40], len - 40, 2, 1);
++			if (mac) {
++				RTW_INFO("Redirect,  replace MAC From: %02x:%02x:%02x:%02x:%02x:%02x, To: %02x:%02x:%02x:%02x:%02x:%02x\n",
++					mac[0], mac[1], mac[2], mac[3], mac[4], mac[5],
++					replace_mac[0], replace_mac[1], replace_mac[2], replace_mac[3], replace_mac[4], replace_mac[5]);
++				memcpy(mac, replace_mac, 6);
++				return 1;
++			}
++		}
++	}
++	return 0;
++}
++
++
++static void convert_ipv6_mac_to_mc(struct sk_buff *skb)
++{
++	struct ipv6hdr *iph = (struct ipv6hdr *)(skb->data + ETH_HLEN);
++	unsigned char *dst_mac = skb->data;
++
++	/* dst_mac[0] = 0xff; */
++	/* dst_mac[1] = 0xff; */
++	/*modified by qinjunjie,ipv6 multicast address ix 0x33-33-xx-xx-xx-xx*/
++	dst_mac[0] = 0x33;
++	dst_mac[1] = 0x33;
++	memcpy(&dst_mac[2], &iph->daddr.s6_addr32[3], 4);
++#if defined(__LINUX_2_6__)
++	/*modified by qinjunjie,warning:should not remove next line*/
++	skb->pkt_type = PACKET_MULTICAST;
++#endif
++}
++#endif /* CL_IPV6_PASS */
++
++
++static __inline__ int __nat25_network_hash(unsigned char *networkAddr)
++{
++	if (networkAddr[0] == NAT25_IPV4) {
++		unsigned long x;
++
++		x = networkAddr[7] ^ networkAddr[8] ^ networkAddr[9] ^ networkAddr[10];
++
++		return x & (NAT25_HASH_SIZE - 1);
++	} else if (networkAddr[0] == NAT25_IPX) {
++		unsigned long x;
++
++		x = networkAddr[1] ^ networkAddr[2] ^ networkAddr[3] ^ networkAddr[4] ^ networkAddr[5] ^
++		    networkAddr[6] ^ networkAddr[7] ^ networkAddr[8] ^ networkAddr[9] ^ networkAddr[10];
++
++		return x & (NAT25_HASH_SIZE - 1);
++	} else if (networkAddr[0] == NAT25_APPLE) {
++		unsigned long x;
++
++		x = networkAddr[1] ^ networkAddr[2] ^ networkAddr[3];
++
++		return x & (NAT25_HASH_SIZE - 1);
++	} else if (networkAddr[0] == NAT25_PPPOE) {
++		unsigned long x;
++
++		x = networkAddr[0] ^ networkAddr[1] ^ networkAddr[2] ^ networkAddr[3] ^ networkAddr[4] ^ networkAddr[5] ^ networkAddr[6] ^ networkAddr[7] ^ networkAddr[8];
++
++		return x & (NAT25_HASH_SIZE - 1);
++	}
++#ifdef CL_IPV6_PASS
++	else if (networkAddr[0] == NAT25_IPV6) {
++		unsigned long x;
++
++		x = networkAddr[1] ^ networkAddr[2] ^ networkAddr[3] ^ networkAddr[4] ^ networkAddr[5] ^
++		    networkAddr[6] ^ networkAddr[7] ^ networkAddr[8] ^ networkAddr[9] ^ networkAddr[10] ^
++		    networkAddr[11] ^ networkAddr[12] ^ networkAddr[13] ^ networkAddr[14] ^ networkAddr[15] ^
++		    networkAddr[16];
++
++		return x & (NAT25_HASH_SIZE - 1);
++	}
++#endif
++	else {
++		unsigned long x = 0;
++		int i;
++
++		for (i = 0; i < MAX_NETWORK_ADDR_LEN; i++)
++			x ^= networkAddr[i];
++
++		return x & (NAT25_HASH_SIZE - 1);
++	}
++}
++
++
++static __inline__ void __network_hash_link(_adapter *priv,
++		struct nat25_network_db_entry *ent, int hash)
++{
++	/* Caller must _enter_critical_bh already! */
++	/* _irqL irqL; */
++	/* _enter_critical_bh(&priv->br_ext_lock, &irqL); */
++
++	ent->next_hash = priv->nethash[hash];
++	if (ent->next_hash != NULL)
++		ent->next_hash->pprev_hash = &ent->next_hash;
++	priv->nethash[hash] = ent;
++	ent->pprev_hash = &priv->nethash[hash];
++
++	/* _exit_critical_bh(&priv->br_ext_lock, &irqL); */
++}
++
++
++static __inline__ void __network_hash_unlink(struct nat25_network_db_entry *ent)
++{
++	/* Caller must _enter_critical_bh already! */
++	/* _irqL irqL; */
++	/* _enter_critical_bh(&priv->br_ext_lock, &irqL); */
++
++	*(ent->pprev_hash) = ent->next_hash;
++	if (ent->next_hash != NULL)
++		ent->next_hash->pprev_hash = ent->pprev_hash;
++	ent->next_hash = NULL;
++	ent->pprev_hash = NULL;
++
++	/* _exit_critical_bh(&priv->br_ext_lock, &irqL); */
++}
++
++
++static int __nat25_db_network_lookup_and_replace(_adapter *priv,
++		struct sk_buff *skb, unsigned char *networkAddr)
++{
++	struct nat25_network_db_entry *db;
++	_irqL irqL;
++	_enter_critical_bh(&priv->br_ext_lock, &irqL);
++
++	db = priv->nethash[__nat25_network_hash(networkAddr)];
++	while (db != NULL) {
++		if (!memcmp(db->networkAddr, networkAddr, MAX_NETWORK_ADDR_LEN)) {
++			if (!__nat25_has_expired(priv, db)) {
++				/* replace the destination mac address */
++				memcpy(skb->data, db->macAddr, ETH_ALEN);
++				atomic_inc(&db->use_count);
++
++#ifdef CL_IPV6_PASS
++				RTW_INFO("NAT25: Lookup M:%02x%02x%02x%02x%02x%02x N:%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x"
++					 "%02x%02x%02x%02x%02x%02x\n",
++					 db->macAddr[0],
++					 db->macAddr[1],
++					 db->macAddr[2],
++					 db->macAddr[3],
++					 db->macAddr[4],
++					 db->macAddr[5],
++					 db->networkAddr[0],
++					 db->networkAddr[1],
++					 db->networkAddr[2],
++					 db->networkAddr[3],
++					 db->networkAddr[4],
++					 db->networkAddr[5],
++					 db->networkAddr[6],
++					 db->networkAddr[7],
++					 db->networkAddr[8],
++					 db->networkAddr[9],
++					 db->networkAddr[10],
++					 db->networkAddr[11],
++					 db->networkAddr[12],
++					 db->networkAddr[13],
++					 db->networkAddr[14],
++					 db->networkAddr[15],
++					 db->networkAddr[16]);
++#else
++				RTW_INFO("NAT25: Lookup M:%02x%02x%02x%02x%02x%02x N:%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x\n",
++					 db->macAddr[0],
++					 db->macAddr[1],
++					 db->macAddr[2],
++					 db->macAddr[3],
++					 db->macAddr[4],
++					 db->macAddr[5],
++					 db->networkAddr[0],
++					 db->networkAddr[1],
++					 db->networkAddr[2],
++					 db->networkAddr[3],
++					 db->networkAddr[4],
++					 db->networkAddr[5],
++					 db->networkAddr[6],
++					 db->networkAddr[7],
++					 db->networkAddr[8],
++					 db->networkAddr[9],
++					 db->networkAddr[10]);
++#endif
++			}
++			_exit_critical_bh(&priv->br_ext_lock, &irqL);
++			return 1;
++		}
++
++		db = db->next_hash;
++	}
++
++	_exit_critical_bh(&priv->br_ext_lock, &irqL);
++	return 0;
++}
++
++
++static void __nat25_db_network_insert(_adapter *priv,
++		      unsigned char *macAddr, unsigned char *networkAddr)
++{
++	struct nat25_network_db_entry *db;
++	int hash;
++	_irqL irqL;
++	_enter_critical_bh(&priv->br_ext_lock, &irqL);
++
++	hash = __nat25_network_hash(networkAddr);
++	db = priv->nethash[hash];
++	while (db != NULL) {
++		if (!memcmp(db->networkAddr, networkAddr, MAX_NETWORK_ADDR_LEN)) {
++			memcpy(db->macAddr, macAddr, ETH_ALEN);
++			db->ageing_timer = jiffies;
++			_exit_critical_bh(&priv->br_ext_lock, &irqL);
++			return;
++		}
++
++		db = db->next_hash;
++	}
++
++	db = (struct nat25_network_db_entry *) rtw_malloc(sizeof(*db));
++	if (db == NULL) {
++		_exit_critical_bh(&priv->br_ext_lock, &irqL);
++		return;
++	}
++
++	memcpy(db->networkAddr, networkAddr, MAX_NETWORK_ADDR_LEN);
++	memcpy(db->macAddr, macAddr, ETH_ALEN);
++	atomic_set(&db->use_count, 1);
++	db->ageing_timer = jiffies;
++
++	__network_hash_link(priv, db, hash);
++
++	_exit_critical_bh(&priv->br_ext_lock, &irqL);
++}
++
++
++static void __nat25_db_print(_adapter *priv)
++{
++	_irqL irqL;
++	_enter_critical_bh(&priv->br_ext_lock, &irqL);
++
++#ifdef BR_EXT_DEBUG
++	static int counter = 0;
++	int i, j;
++	struct nat25_network_db_entry *db;
++
++	counter++;
++	if ((counter % 16) != 0)
++		return;
++
++	for (i = 0, j = 0; i < NAT25_HASH_SIZE; i++) {
++		db = priv->nethash[i];
++
++		while (db != NULL) {
++#ifdef CL_IPV6_PASS
++			panic_printk("NAT25: DB(%d) H(%02d) C(%d) M:%02x%02x%02x%02x%02x%02x N:%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x"
++				     "%02x%02x%02x%02x%02x%02x\n",
++				     j,
++				     i,
++				     atomic_read(&db->use_count),
++				     db->macAddr[0],
++				     db->macAddr[1],
++				     db->macAddr[2],
++				     db->macAddr[3],
++				     db->macAddr[4],
++				     db->macAddr[5],
++				     db->networkAddr[0],
++				     db->networkAddr[1],
++				     db->networkAddr[2],
++				     db->networkAddr[3],
++				     db->networkAddr[4],
++				     db->networkAddr[5],
++				     db->networkAddr[6],
++				     db->networkAddr[7],
++				     db->networkAddr[8],
++				     db->networkAddr[9],
++				     db->networkAddr[10],
++				     db->networkAddr[11],
++				     db->networkAddr[12],
++				     db->networkAddr[13],
++				     db->networkAddr[14],
++				     db->networkAddr[15],
++				     db->networkAddr[16]);
++#else
++			panic_printk("NAT25: DB(%d) H(%02d) C(%d) M:%02x%02x%02x%02x%02x%02x N:%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x\n",
++				     j,
++				     i,
++				     atomic_read(&db->use_count),
++				     db->macAddr[0],
++				     db->macAddr[1],
++				     db->macAddr[2],
++				     db->macAddr[3],
++				     db->macAddr[4],
++				     db->macAddr[5],
++				     db->networkAddr[0],
++				     db->networkAddr[1],
++				     db->networkAddr[2],
++				     db->networkAddr[3],
++				     db->networkAddr[4],
++				     db->networkAddr[5],
++				     db->networkAddr[6],
++				     db->networkAddr[7],
++				     db->networkAddr[8],
++				     db->networkAddr[9],
++				     db->networkAddr[10]);
++#endif
++			j++;
++
++			db = db->next_hash;
++		}
++	}
++#endif
++
++	_exit_critical_bh(&priv->br_ext_lock, &irqL);
++}
++
++
++
++
++/*
++ *	NAT2.5 interface
++ */
++
++void nat25_db_cleanup(_adapter *priv)
++{
++	int i;
++	_irqL irqL;
++	_enter_critical_bh(&priv->br_ext_lock, &irqL);
++
++	for (i = 0; i < NAT25_HASH_SIZE; i++) {
++		struct nat25_network_db_entry *f;
++		f = priv->nethash[i];
++		while (f != NULL) {
++			struct nat25_network_db_entry *g;
++
++			g = f->next_hash;
++			if (priv->scdb_entry == f) {
++				memset(priv->scdb_mac, 0, ETH_ALEN);
++				memset(priv->scdb_ip, 0, 4);
++				priv->scdb_entry = NULL;
++			}
++			__network_hash_unlink(f);
++			rtw_mfree((u8 *) f, sizeof(struct nat25_network_db_entry));
++
++			f = g;
++		}
++	}
++
++	_exit_critical_bh(&priv->br_ext_lock, &irqL);
++}
++
++
++void nat25_db_expire(_adapter *priv)
++{
++	int i;
++	_irqL irqL;
++	_enter_critical_bh(&priv->br_ext_lock, &irqL);
++
++	/* if(!priv->ethBrExtInfo.nat25_disable) */
++	{
++		for (i = 0; i < NAT25_HASH_SIZE; i++) {
++			struct nat25_network_db_entry *f;
++			f = priv->nethash[i];
++
++			while (f != NULL) {
++				struct nat25_network_db_entry *g;
++				g = f->next_hash;
++
++				if (__nat25_has_expired(priv, f)) {
++					if (atomic_dec_and_test(&f->use_count)) {
++#ifdef BR_EXT_DEBUG
++#ifdef CL_IPV6_PASS
++						panic_printk("NAT25 Expire H(%02d) M:%02x%02x%02x%02x%02x%02x N:%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x"
++							"%02x%02x%02x%02x%02x%02x\n",
++							     i,
++							     f->macAddr[0],
++							     f->macAddr[1],
++							     f->macAddr[2],
++							     f->macAddr[3],
++							     f->macAddr[4],
++							     f->macAddr[5],
++							     f->networkAddr[0],
++							     f->networkAddr[1],
++							     f->networkAddr[2],
++							     f->networkAddr[3],
++							     f->networkAddr[4],
++							     f->networkAddr[5],
++							     f->networkAddr[6],
++							     f->networkAddr[7],
++							     f->networkAddr[8],
++							     f->networkAddr[9],
++							     f->networkAddr[10],
++							     f->networkAddr[11],
++							     f->networkAddr[12],
++							     f->networkAddr[13],
++							     f->networkAddr[14],
++							     f->networkAddr[15],
++							f->networkAddr[16]);
++#else
++
++						panic_printk("NAT25 Expire H(%02d) M:%02x%02x%02x%02x%02x%02x N:%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x\n",
++							     i,
++							     f->macAddr[0],
++							     f->macAddr[1],
++							     f->macAddr[2],
++							     f->macAddr[3],
++							     f->macAddr[4],
++							     f->macAddr[5],
++							     f->networkAddr[0],
++							     f->networkAddr[1],
++							     f->networkAddr[2],
++							     f->networkAddr[3],
++							     f->networkAddr[4],
++							     f->networkAddr[5],
++							     f->networkAddr[6],
++							     f->networkAddr[7],
++							     f->networkAddr[8],
++							     f->networkAddr[9],
++							f->networkAddr[10]);
++#endif
++#endif
++						if (priv->scdb_entry == f) {
++							memset(priv->scdb_mac, 0, ETH_ALEN);
++							memset(priv->scdb_ip, 0, 4);
++							priv->scdb_entry = NULL;
++						}
++						__network_hash_unlink(f);
++						rtw_mfree((u8 *) f, sizeof(struct nat25_network_db_entry));
++					}
++				}
++
++				f = g;
++			}
++		}
++	}
++
++	_exit_critical_bh(&priv->br_ext_lock, &irqL);
++}
++
++
++#ifdef SUPPORT_TX_MCAST2UNI
++static int checkIPMcAndReplace(_adapter *priv, struct sk_buff *skb, unsigned int *dst_ip)
++{
++	struct stat_info	*pstat;
++	struct list_head	*phead, *plist;
++	int i;
++
++	phead = &priv->asoc_list;
++	plist = phead->next;
++
++	while (plist != phead) {
++		pstat = list_entry(plist, struct stat_info, asoc_list);
++		plist = plist->next;
++
++		if (pstat->ipmc_num == 0)
++			continue;
++
++		for (i = 0; i < MAX_IP_MC_ENTRY; i++) {
++			if (pstat->ipmc[i].used && !memcmp(&pstat->ipmc[i].mcmac[3], ((unsigned char *)dst_ip) + 1, 3)) {
++				memcpy(skb->data, pstat->ipmc[i].mcmac, ETH_ALEN);
++				return 1;
++			}
++		}
++	}
++	return 0;
++}
++#endif
++
++int nat25_db_handle(_adapter *priv, struct sk_buff *skb, int method)
++{
++	unsigned short protocol;
++	unsigned char networkAddr[MAX_NETWORK_ADDR_LEN];
++
++	if (skb == NULL)
++		return -1;
++
++	if ((method <= NAT25_MIN) || (method >= NAT25_MAX))
++		return -1;
++
++	protocol = *((unsigned short *)(skb->data + 2 * ETH_ALEN));
++
++	/*---------------------------------------------------*/
++	/*                 Handle IP frame                  */
++	/*---------------------------------------------------*/
++	if (protocol == __constant_htons(ETH_P_IP)) {
++		struct iphdr *iph = (struct iphdr *)(skb->data + ETH_HLEN);
++
++		if (((unsigned char *)(iph) + (iph->ihl << 2)) >= (skb->data + ETH_HLEN + skb->len)) {
++			DEBUG_WARN("NAT25: malformed IP packet !\n");
++			return -1;
++		}
++
++		switch (method) {
++		case NAT25_CHECK:
++			return -1;
++
++		case NAT25_INSERT: {
++			/* some muticast with source IP is all zero, maybe other case is illegal */
++			/* in class A, B, C, host address is all zero or all one is illegal */
++			if (iph->saddr == 0)
++				return 0;
++			RTW_INFO("NAT25: Insert IP, SA=%08x, DA=%08x\n", iph->saddr, iph->daddr);
++			__nat25_generate_ipv4_network_addr(networkAddr, &iph->saddr);
++			/* record source IP address and , source mac address into db */
++			__nat25_db_network_insert(priv, skb->data + ETH_ALEN, networkAddr);
++
++			__nat25_db_print(priv);
++		}
++		return 0;
++
++		case NAT25_LOOKUP: {
++			RTW_INFO("NAT25: Lookup IP, SA=%08x, DA=%08x\n", iph->saddr, iph->daddr);
++#ifdef SUPPORT_TX_MCAST2UNI
++			if (priv->pshare->rf_ft_var.mc2u_disable ||
++			    ((((OPMODE & (WIFI_STATION_STATE | WIFI_ASOC_STATE))
++			       == (WIFI_STATION_STATE | WIFI_ASOC_STATE)) &&
++			      !checkIPMcAndReplace(priv, skb, &iph->daddr)) ||
++			     (OPMODE & WIFI_ADHOC_STATE)))
++#endif
++			{
++				__nat25_generate_ipv4_network_addr(networkAddr, &iph->daddr);
++
++				if (!__nat25_db_network_lookup_and_replace(priv, skb, networkAddr)) {
++					if (*((unsigned char *)&iph->daddr + 3) == 0xff) {
++						/* L2 is unicast but L3 is broadcast, make L2 bacome broadcast */
++						RTW_INFO("NAT25: Set DA as boardcast\n");
++						memset(skb->data, 0xff, ETH_ALEN);
++					} else {
++						/* forward unknow IP packet to upper TCP/IP */
++						RTW_INFO("NAT25: Replace DA with BR's MAC\n");
++						if ((*(u32 *)priv->br_mac) == 0 && (*(u16 *)(priv->br_mac + 4)) == 0) {
++							void netdev_br_init(struct net_device *netdev);
++							printk("Re-init netdev_br_init() due to br_mac==0!\n");
++							netdev_br_init(priv->pnetdev);
++						}
++						memcpy(skb->data, priv->br_mac, ETH_ALEN);
++					}
++				}
++			}
++		}
++		return 0;
++
++		default:
++			return -1;
++		}
++	}
++
++	/*---------------------------------------------------*/
++	/*                 Handle ARP frame                 */
++	/*---------------------------------------------------*/
++	else if (protocol == __constant_htons(ETH_P_ARP)) {
++		struct arphdr *arp = (struct arphdr *)(skb->data + ETH_HLEN);
++		unsigned char *arp_ptr = (unsigned char *)(arp + 1);
++		unsigned int *sender, *target;
++
++		if (arp->ar_pro != __constant_htons(ETH_P_IP)) {
++			DEBUG_WARN("NAT25: arp protocol unknown (%4x)!\n", htons(arp->ar_pro));
++			return -1;
++		}
++
++		switch (method) {
++		case NAT25_CHECK:
++			return 0;	/* skb_copy for all ARP frame */
++
++		case NAT25_INSERT: {
++			RTW_INFO("NAT25: Insert ARP, MAC=%02x%02x%02x%02x%02x%02x\n", arp_ptr[0],
++				arp_ptr[1], arp_ptr[2], arp_ptr[3], arp_ptr[4], arp_ptr[5]);
++
++			/* change to ARP sender mac address to wlan STA address */
++			memcpy(arp_ptr, GET_MY_HWADDR(priv), ETH_ALEN);
++
++			arp_ptr += arp->ar_hln;
++			sender = (unsigned int *)arp_ptr;
++
++			__nat25_generate_ipv4_network_addr(networkAddr, sender);
++
++			__nat25_db_network_insert(priv, skb->data + ETH_ALEN, networkAddr);
++
++			__nat25_db_print(priv);
++		}
++		return 0;
++
++		case NAT25_LOOKUP: {
++			RTW_INFO("NAT25: Lookup ARP\n");
++
++			arp_ptr += arp->ar_hln;
++			sender = (unsigned int *)arp_ptr;
++			arp_ptr += (arp->ar_hln + arp->ar_pln);
++			target = (unsigned int *)arp_ptr;
++
++			__nat25_generate_ipv4_network_addr(networkAddr, target);
++
++			__nat25_db_network_lookup_and_replace(priv, skb, networkAddr);
++
++			/* change to ARP target mac address to Lookup result */
++			arp_ptr = (unsigned char *)(arp + 1);
++			arp_ptr += (arp->ar_hln + arp->ar_pln);
++			memcpy(arp_ptr, skb->data, ETH_ALEN);
++		}
++		return 0;
++
++		default:
++			return -1;
++		}
++	}
++
++	/*---------------------------------------------------*/
++	/*         Handle IPX and Apple Talk frame          */
++	/*---------------------------------------------------*/
++	else if ((protocol == __constant_htons(ETH_P_IPX)) ||
++		 (protocol == __constant_htons(ETH_P_ATALK)) ||
++		 (protocol == __constant_htons(ETH_P_AARP))) {
++		unsigned char ipx_header[2] = {0xFF, 0xFF};
++		struct ipxhdr	*ipx = NULL;
++		struct elapaarp	*ea = NULL;
++		struct ddpehdr	*ddp = NULL;
++		unsigned char *framePtr = skb->data + ETH_HLEN;
++
++		if (protocol == __constant_htons(ETH_P_IPX)) {
++			RTW_INFO("NAT25: Protocol=IPX (Ethernet II)\n");
++			ipx = (struct ipxhdr *)framePtr;
++		} else { /* if(protocol <= __constant_htons(ETH_FRAME_LEN)) */
++			if (!memcmp(ipx_header, framePtr, 2)) {
++				RTW_INFO("NAT25: Protocol=IPX (Ethernet 802.3)\n");
++				ipx = (struct ipxhdr *)framePtr;
++			} else {
++				unsigned char ipx_8022_type =  0xE0;
++				unsigned char snap_8022_type = 0xAA;
++
++				if (*framePtr == snap_8022_type) {
++					unsigned char ipx_snap_id[5] = {0x0, 0x0, 0x0, 0x81, 0x37};		/* IPX SNAP ID */
++					unsigned char aarp_snap_id[5] = {0x00, 0x00, 0x00, 0x80, 0xF3};	/* Apple Talk AARP SNAP ID */
++					unsigned char ddp_snap_id[5] = {0x08, 0x00, 0x07, 0x80, 0x9B};	/* Apple Talk DDP SNAP ID */
++
++					framePtr += 3;	/* eliminate the 802.2 header */
++
++					if (!memcmp(ipx_snap_id, framePtr, 5)) {
++						framePtr += 5;	/* eliminate the SNAP header */
++
++						RTW_INFO("NAT25: Protocol=IPX (Ethernet SNAP)\n");
++						ipx = (struct ipxhdr *)framePtr;
++					} else if (!memcmp(aarp_snap_id, framePtr, 5)) {
++						framePtr += 5;	/* eliminate the SNAP header */
++
++						ea = (struct elapaarp *)framePtr;
++					} else if (!memcmp(ddp_snap_id, framePtr, 5)) {
++						framePtr += 5;	/* eliminate the SNAP header */
++
++						ddp = (struct ddpehdr *)framePtr;
++					} else {
++						DEBUG_WARN("NAT25: Protocol=Ethernet SNAP %02x%02x%02x%02x%02x\n", framePtr[0],
++							framePtr[1], framePtr[2], framePtr[3], framePtr[4]);
++						return -1;
++					}
++				} else if (*framePtr == ipx_8022_type) {
++					framePtr += 3;	/* eliminate the 802.2 header */
++
++					if (!memcmp(ipx_header, framePtr, 2)) {
++						RTW_INFO("NAT25: Protocol=IPX (Ethernet 802.2)\n");
++						ipx = (struct ipxhdr *)framePtr;
++					} else
++						return -1;
++				}
++			}
++		}
++
++		/*   IPX  */
++		if (ipx != NULL) {
++			switch (method) {
++			case NAT25_CHECK:
++				if (!memcmp(skb->data + ETH_ALEN, ipx->ipx_source.node, ETH_ALEN)) {
++					RTW_INFO("NAT25: Check IPX skb_copy\n");
++					return 0;
++				}
++				return -1;
++
++			case NAT25_INSERT: {
++				RTW_INFO("NAT25: Insert IPX, Dest=%08x,%02x%02x%02x%02x%02x%02x,%04x Source=%08x,%02x%02x%02x%02x%02x%02x,%04x\n",
++					 ipx->ipx_dest.net,
++					 ipx->ipx_dest.node[0],
++					 ipx->ipx_dest.node[1],
++					 ipx->ipx_dest.node[2],
++					 ipx->ipx_dest.node[3],
++					 ipx->ipx_dest.node[4],
++					 ipx->ipx_dest.node[5],
++					 ipx->ipx_dest.sock,
++					 ipx->ipx_source.net,
++					 ipx->ipx_source.node[0],
++					 ipx->ipx_source.node[1],
++					 ipx->ipx_source.node[2],
++					 ipx->ipx_source.node[3],
++					 ipx->ipx_source.node[4],
++					 ipx->ipx_source.node[5],
++					 ipx->ipx_source.sock);
++
++				if (!memcmp(skb->data + ETH_ALEN, ipx->ipx_source.node, ETH_ALEN)) {
++					RTW_INFO("NAT25: Use IPX Net, and Socket as network addr\n");
++
++					__nat25_generate_ipx_network_addr_with_socket(networkAddr, &ipx->ipx_source.net, &ipx->ipx_source.sock);
++
++					/* change IPX source node addr to wlan STA address */
++					memcpy(ipx->ipx_source.node, GET_MY_HWADDR(priv), ETH_ALEN);
++				} else
++					__nat25_generate_ipx_network_addr_with_node(networkAddr, &ipx->ipx_source.net, ipx->ipx_source.node);
++
++				__nat25_db_network_insert(priv, skb->data + ETH_ALEN, networkAddr);
++
++				__nat25_db_print(priv);
++			}
++			return 0;
++
++			case NAT25_LOOKUP: {
++				if (!memcmp(GET_MY_HWADDR(priv), ipx->ipx_dest.node, ETH_ALEN)) {
++					RTW_INFO("NAT25: Lookup IPX, Modify Destination IPX Node addr\n");
++
++					__nat25_generate_ipx_network_addr_with_socket(networkAddr, &ipx->ipx_dest.net, &ipx->ipx_dest.sock);
++
++					__nat25_db_network_lookup_and_replace(priv, skb, networkAddr);
++
++					/* replace IPX destination node addr with Lookup destination MAC addr */
++					memcpy(ipx->ipx_dest.node, skb->data, ETH_ALEN);
++				} else {
++					__nat25_generate_ipx_network_addr_with_node(networkAddr, &ipx->ipx_dest.net, ipx->ipx_dest.node);
++
++					__nat25_db_network_lookup_and_replace(priv, skb, networkAddr);
++				}
++			}
++			return 0;
++
++			default:
++				return -1;
++			}
++		}
++
++		/*   AARP  */
++		else if (ea != NULL) {
++			/* Sanity check fields. */
++			if (ea->hw_len != ETH_ALEN || ea->pa_len != AARP_PA_ALEN) {
++				DEBUG_WARN("NAT25: Appletalk AARP Sanity check fail!\n");
++				return -1;
++			}
++
++			switch (method) {
++			case NAT25_CHECK:
++				return 0;
++
++			case NAT25_INSERT: {
++				/* change to AARP source mac address to wlan STA address */
++				memcpy(ea->hw_src, GET_MY_HWADDR(priv), ETH_ALEN);
++
++				RTW_INFO("NAT25: Insert AARP, Source=%d,%d Destination=%d,%d\n",
++					 ea->pa_src_net,
++					 ea->pa_src_node,
++					 ea->pa_dst_net,
++					 ea->pa_dst_node);
++
++				__nat25_generate_apple_network_addr(networkAddr, &ea->pa_src_net, &ea->pa_src_node);
++
++				__nat25_db_network_insert(priv, skb->data + ETH_ALEN, networkAddr);
++
++				__nat25_db_print(priv);
++			}
++			return 0;
++
++			case NAT25_LOOKUP: {
++				RTW_INFO("NAT25: Lookup AARP, Source=%d,%d Destination=%d,%d\n",
++					 ea->pa_src_net,
++					 ea->pa_src_node,
++					 ea->pa_dst_net,
++					 ea->pa_dst_node);
++
++				__nat25_generate_apple_network_addr(networkAddr, &ea->pa_dst_net, &ea->pa_dst_node);
++
++				__nat25_db_network_lookup_and_replace(priv, skb, networkAddr);
++
++				/* change to AARP destination mac address to Lookup result */
++				memcpy(ea->hw_dst, skb->data, ETH_ALEN);
++			}
++			return 0;
++
++			default:
++				return -1;
++			}
++		}
++
++		/*   DDP  */
++		else if (ddp != NULL) {
++			switch (method) {
++			case NAT25_CHECK:
++				return -1;
++
++			case NAT25_INSERT: {
++				RTW_INFO("NAT25: Insert DDP, Source=%d,%d Destination=%d,%d\n",
++					 ddp->deh_snet,
++					 ddp->deh_snode,
++					 ddp->deh_dnet,
++					 ddp->deh_dnode);
++
++				__nat25_generate_apple_network_addr(networkAddr, &ddp->deh_snet, &ddp->deh_snode);
++
++				__nat25_db_network_insert(priv, skb->data + ETH_ALEN, networkAddr);
++
++				__nat25_db_print(priv);
++			}
++			return 0;
++
++			case NAT25_LOOKUP: {
++				RTW_INFO("NAT25: Lookup DDP, Source=%d,%d Destination=%d,%d\n",
++					 ddp->deh_snet,
++					 ddp->deh_snode,
++					 ddp->deh_dnet,
++					 ddp->deh_dnode);
++
++				__nat25_generate_apple_network_addr(networkAddr, &ddp->deh_dnet, &ddp->deh_dnode);
++
++				__nat25_db_network_lookup_and_replace(priv, skb, networkAddr);
++			}
++			return 0;
++
++			default:
++				return -1;
++			}
++		}
++
++		return -1;
++	}
++
++	/*---------------------------------------------------*/
++	/*                Handle PPPoE frame                */
++	/*---------------------------------------------------*/
++	else if ((protocol == __constant_htons(ETH_P_PPP_DISC)) ||
++		 (protocol == __constant_htons(ETH_P_PPP_SES))) {
++		struct pppoe_hdr *ph = (struct pppoe_hdr *)(skb->data + ETH_HLEN);
++		unsigned short *pMagic;
++
++		switch (method) {
++		case NAT25_CHECK:
++			if (ph->sid == 0)
++				return 0;
++			return 1;
++
++		case NAT25_INSERT:
++			if (ph->sid == 0) {	/* Discovery phase according to tag */
++				if (ph->code == PADI_CODE || ph->code == PADR_CODE) {
++					if (priv->ethBrExtInfo.addPPPoETag) {
++						struct pppoe_tag *tag, *pOldTag;
++						unsigned char tag_buf[40];
++						int old_tag_len = 0;
++
++						tag = (struct pppoe_tag *)tag_buf;
++						pOldTag = (struct pppoe_tag *)__nat25_find_pppoe_tag(ph, ntohs(PTT_RELAY_SID));
++						if (pOldTag) { /* if SID existed, copy old value and delete it */
++							old_tag_len = ntohs(pOldTag->tag_len);
++							if (old_tag_len + TAG_HDR_LEN + MAGIC_CODE_LEN + RTL_RELAY_TAG_LEN > sizeof(tag_buf)) {
++								DEBUG_ERR("SID tag length too long!\n");
++								return -1;
++							}
++
++							memcpy(tag->tag_data + MAGIC_CODE_LEN + RTL_RELAY_TAG_LEN,
++							       pOldTag->tag_data, old_tag_len);
++
++							if (skb_pull_and_merge(skb, (unsigned char *)pOldTag, TAG_HDR_LEN + old_tag_len) < 0) {
++								DEBUG_ERR("call skb_pull_and_merge() failed in PADI/R packet!\n");
++								return -1;
++							}
++							ph->length = htons(ntohs(ph->length) - TAG_HDR_LEN - old_tag_len);
++						}
++
++						tag->tag_type = PTT_RELAY_SID;
++						tag->tag_len = htons(MAGIC_CODE_LEN + RTL_RELAY_TAG_LEN + old_tag_len);
++
++						/* insert the magic_code+client mac in relay tag */
++						pMagic = (unsigned short *)tag->tag_data;
++						*pMagic = htons(MAGIC_CODE);
++						memcpy(tag->tag_data + MAGIC_CODE_LEN, skb->data + ETH_ALEN, ETH_ALEN);
++
++						/* Add relay tag */
++						if (__nat25_add_pppoe_tag(skb, tag) < 0)
++							return -1;
++
++						RTW_INFO("NAT25: Insert PPPoE, forward %s packet\n",
++							(ph->code == PADI_CODE ? "PADI" : "PADR"));
++					} else { /* not add relay tag */
++						if (priv->pppoe_connection_in_progress &&
++						    memcmp(skb->data + ETH_ALEN, priv->pppoe_addr, ETH_ALEN))	 {
++							DEBUG_ERR("Discard PPPoE packet due to another PPPoE connection is in progress!\n");
++							return -2;
++						}
++
++						if (priv->pppoe_connection_in_progress == 0)
++							memcpy(priv->pppoe_addr, skb->data + ETH_ALEN, ETH_ALEN);
++
++						priv->pppoe_connection_in_progress = WAIT_TIME_PPPOE;
++					}
++				} else
++					return -1;
++			} else {	/* session phase */
++				RTW_INFO("NAT25: Insert PPPoE, insert session packet to %s\n", skb->dev->name);
++
++				__nat25_generate_pppoe_network_addr(networkAddr, skb->data, &(ph->sid));
++
++				__nat25_db_network_insert(priv, skb->data + ETH_ALEN, networkAddr);
++
++				__nat25_db_print(priv);
++
++				if (!priv->ethBrExtInfo.addPPPoETag &&
++				    priv->pppoe_connection_in_progress &&
++				    !memcmp(skb->data + ETH_ALEN, priv->pppoe_addr, ETH_ALEN))
++					priv->pppoe_connection_in_progress = 0;
++			}
++			return 0;
++
++		case NAT25_LOOKUP:
++			if (ph->code == PADO_CODE || ph->code == PADS_CODE) {
++				if (priv->ethBrExtInfo.addPPPoETag) {
++					struct pppoe_tag *tag;
++					unsigned char *ptr;
++					unsigned short tagType, tagLen;
++					int offset = 0;
++
++					ptr = __nat25_find_pppoe_tag(ph, ntohs(PTT_RELAY_SID));
++					if (ptr == 0) {
++						DEBUG_ERR("Fail to find PTT_RELAY_SID in FADO!\n");
++						return -1;
++					}
++
++					tag = (struct pppoe_tag *)ptr;
++					tagType = (unsigned short)((ptr[0] << 8) + ptr[1]);
++					tagLen = (unsigned short)((ptr[2] << 8) + ptr[3]);
++
++					if ((tagType != ntohs(PTT_RELAY_SID)) || (tagLen < (MAGIC_CODE_LEN + RTL_RELAY_TAG_LEN))) {
++						DEBUG_ERR("Invalid PTT_RELAY_SID tag length [%d]!\n", tagLen);
++						return -1;
++					}
++
++					pMagic = (unsigned short *)tag->tag_data;
++					if (ntohs(*pMagic) != MAGIC_CODE) {
++						DEBUG_ERR("Can't find MAGIC_CODE in %s packet!\n",
++							(ph->code == PADO_CODE ? "PADO" : "PADS"));
++						return -1;
++					}
++
++					memcpy(skb->data, tag->tag_data + MAGIC_CODE_LEN, ETH_ALEN);
++
++					if (tagLen > MAGIC_CODE_LEN + RTL_RELAY_TAG_LEN)
++						offset = TAG_HDR_LEN;
++
++					if (skb_pull_and_merge(skb, ptr + offset, TAG_HDR_LEN + MAGIC_CODE_LEN + RTL_RELAY_TAG_LEN - offset) < 0) {
++						DEBUG_ERR("call skb_pull_and_merge() failed in PADO packet!\n");
++						return -1;
++					}
++					ph->length = htons(ntohs(ph->length) - (TAG_HDR_LEN + MAGIC_CODE_LEN + RTL_RELAY_TAG_LEN - offset));
++					if (offset > 0)
++						tag->tag_len = htons(tagLen - MAGIC_CODE_LEN - RTL_RELAY_TAG_LEN);
++
++					RTW_INFO("NAT25: Lookup PPPoE, forward %s Packet from %s\n",
++						(ph->code == PADO_CODE ? "PADO" : "PADS"),	skb->dev->name);
++				} else { /* not add relay tag */
++					if (!priv->pppoe_connection_in_progress) {
++						DEBUG_ERR("Discard PPPoE packet due to no connection in progresss!\n");
++						return -1;
++					}
++					memcpy(skb->data, priv->pppoe_addr, ETH_ALEN);
++					priv->pppoe_connection_in_progress = WAIT_TIME_PPPOE;
++				}
++			} else {
++				if (ph->sid != 0) {
++					RTW_INFO("NAT25: Lookup PPPoE, lookup session packet from %s\n", skb->dev->name);
++					__nat25_generate_pppoe_network_addr(networkAddr, skb->data + ETH_ALEN, &(ph->sid));
++
++					__nat25_db_network_lookup_and_replace(priv, skb, networkAddr);
++
++					__nat25_db_print(priv);
++				} else
++					return -1;
++
++			}
++			return 0;
++
++		default:
++			return -1;
++		}
++	}
++
++	/*---------------------------------------------------*/
++	/*                 Handle EAP frame                 */
++	/*---------------------------------------------------*/
++	else if (protocol == __constant_htons(0x888e)) {
++		switch (method) {
++		case NAT25_CHECK:
++			return -1;
++
++		case NAT25_INSERT:
++			return 0;
++
++		case NAT25_LOOKUP:
++			return 0;
++
++		default:
++			return -1;
++		}
++	}
++
++	/*---------------------------------------------------*/
++	/*         Handle C-Media proprietary frame         */
++	/*---------------------------------------------------*/
++	else if ((protocol == __constant_htons(0xe2ae)) ||
++		 (protocol == __constant_htons(0xe2af))) {
++		switch (method) {
++		case NAT25_CHECK:
++			return -1;
++
++		case NAT25_INSERT:
++			return 0;
++
++		case NAT25_LOOKUP:
++			return 0;
++
++		default:
++			return -1;
++		}
++	}
++
++	/*---------------------------------------------------*/
++	/*         Handle IPV6 frame      							 */
++	/*---------------------------------------------------*/
++#ifdef CL_IPV6_PASS
++	else if (protocol == __constant_htons(ETH_P_IPV6)) {
++		struct ipv6hdr *iph = (struct ipv6hdr *)(skb->data + ETH_HLEN);
++
++		if (sizeof(*iph) >= (skb->len - ETH_HLEN)) {
++			DEBUG_WARN("NAT25: malformed IPv6 packet !\n");
++			return -1;
++		}
++
++		switch (method) {
++		case NAT25_CHECK:
++			if (skb->data[0] & 1)
++				return 0;
++			return -1;
++
++		case NAT25_INSERT: {
++			RTW_INFO("NAT25: Insert IP, SA=%4x:%4x:%4x:%4x:%4x:%4x:%4x:%4x,"
++				" DA=%4x:%4x:%4x:%4x:%4x:%4x:%4x:%4x\n",
++				iph->saddr.s6_addr16[0], iph->saddr.s6_addr16[1], iph->saddr.s6_addr16[2], iph->saddr.s6_addr16[3],
++				iph->saddr.s6_addr16[4], iph->saddr.s6_addr16[5], iph->saddr.s6_addr16[6], iph->saddr.s6_addr16[7],
++				iph->daddr.s6_addr16[0], iph->daddr.s6_addr16[1], iph->daddr.s6_addr16[2], iph->daddr.s6_addr16[3],
++				iph->daddr.s6_addr16[4], iph->daddr.s6_addr16[5], iph->daddr.s6_addr16[6], iph->daddr.s6_addr16[7]);
++
++			if (memcmp(&iph->saddr, "\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0\x0", 16)) {
++				__nat25_generate_ipv6_network_addr(networkAddr, (unsigned int *)&iph->saddr);
++				__nat25_db_network_insert(priv, skb->data + ETH_ALEN, networkAddr);
++				__nat25_db_print(priv);
++
++				if (iph->nexthdr == IPPROTO_ICMPV6 &&
++				    skb->len > (ETH_HLEN +  sizeof(*iph) + 4)) {
++					if (update_nd_link_layer_addr(skb->data + ETH_HLEN + sizeof(*iph),
++						skb->len - ETH_HLEN - sizeof(*iph), GET_MY_HWADDR(priv))) {
++						struct icmp6hdr  *hdr = (struct icmp6hdr *)(skb->data + ETH_HLEN + sizeof(*iph));
++						hdr->icmp6_cksum = 0;
++						hdr->icmp6_cksum = csum_ipv6_magic(&iph->saddr, &iph->daddr,
++							iph->payload_len,
++							IPPROTO_ICMPV6,
++							csum_partial((__u8 *)hdr, iph->payload_len, 0));
++					}
++				}
++			}
++		}
++		return 0;
++
++		case NAT25_LOOKUP:
++			RTW_INFO("NAT25: Lookup IP, SA=%4x:%4x:%4x:%4x:%4x:%4x:%4x:%4x,"
++				 " DA=%4x:%4x:%4x:%4x:%4x:%4x:%4x:%4x\n",
++				iph->saddr.s6_addr16[0], iph->saddr.s6_addr16[1], iph->saddr.s6_addr16[2], iph->saddr.s6_addr16[3],
++				iph->saddr.s6_addr16[4], iph->saddr.s6_addr16[5], iph->saddr.s6_addr16[6], iph->saddr.s6_addr16[7],
++				iph->daddr.s6_addr16[0], iph->daddr.s6_addr16[1], iph->daddr.s6_addr16[2], iph->daddr.s6_addr16[3],
++				iph->daddr.s6_addr16[4], iph->daddr.s6_addr16[5], iph->daddr.s6_addr16[6], iph->daddr.s6_addr16[7]);
++
++
++			__nat25_generate_ipv6_network_addr(networkAddr, (unsigned int *)&iph->daddr);
++			if (!__nat25_db_network_lookup_and_replace(priv, skb, networkAddr)) {
++#ifdef SUPPORT_RX_UNI2MCAST
++				if (iph->daddr.s6_addr[0] == 0xff)
++					convert_ipv6_mac_to_mc(skb);
++#endif
++			}
++			return 0;
++
++		default:
++			return -1;
++		}
++	}
++#endif /* CL_IPV6_PASS */
++
++	return -1;
++}
++
++
++int nat25_handle_frame(_adapter *priv, struct sk_buff *skb)
++{
++#ifdef BR_EXT_DEBUG
++	if ((!priv->ethBrExtInfo.nat25_disable) && (!(skb->data[0] & 1))) {
++		panic_printk("NAT25: Input Frame: DA=%02x%02x%02x%02x%02x%02x SA=%02x%02x%02x%02x%02x%02x\n",
++			     skb->data[0],
++			     skb->data[1],
++			     skb->data[2],
++			     skb->data[3],
++			     skb->data[4],
++			     skb->data[5],
++			     skb->data[6],
++			     skb->data[7],
++			     skb->data[8],
++			     skb->data[9],
++			     skb->data[10],
++			     skb->data[11]);
++	}
++#endif
++
++	if (!(skb->data[0] & 1)) {
++		int is_vlan_tag = 0, i, retval = 0;
++		unsigned short vlan_hdr = 0;
++
++		if (*((unsigned short *)(skb->data + ETH_ALEN * 2)) == __constant_htons(ETH_P_8021Q)) {
++			is_vlan_tag = 1;
++			vlan_hdr = *((unsigned short *)(skb->data + ETH_ALEN * 2 + 2));
++			for (i = 0; i < 6; i++)
++				*((unsigned short *)(skb->data + ETH_ALEN * 2 + 2 - i * 2)) = *((unsigned short *)(skb->data + ETH_ALEN * 2 - 2 - i * 2));
++			skb_pull(skb, 4);
++		}
++
++		if (!priv->ethBrExtInfo.nat25_disable) {
++			_irqL irqL;
++			_enter_critical_bh(&priv->br_ext_lock, &irqL);
++			/*
++			 *	This function look up the destination network address from
++			 *	the NAT2.5 database. Return value = -1 means that the
++			 *	corresponding network protocol is NOT support.
++			 */
++			if (!priv->ethBrExtInfo.nat25sc_disable &&
++			    (*((unsigned short *)(skb->data + ETH_ALEN * 2)) == __constant_htons(ETH_P_IP)) &&
++			    !memcmp(priv->scdb_ip, skb->data + ETH_HLEN + 16, 4)) {
++				memcpy(skb->data, priv->scdb_mac, ETH_ALEN);
++
++				_exit_critical_bh(&priv->br_ext_lock, &irqL);
++			} else {
++				_exit_critical_bh(&priv->br_ext_lock, &irqL);
++
++				retval = nat25_db_handle(priv, skb, NAT25_LOOKUP);
++			}
++		} else {
++			if (((*((unsigned short *)(skb->data + ETH_ALEN * 2)) == __constant_htons(ETH_P_IP)) &&
++			     !memcmp(priv->br_ip, skb->data + ETH_HLEN + 16, 4)) ||
++			    ((*((unsigned short *)(skb->data + ETH_ALEN * 2)) == __constant_htons(ETH_P_ARP)) &&
++			     !memcmp(priv->br_ip, skb->data + ETH_HLEN + 24, 4))) {
++				/* for traffic to upper TCP/IP */
++				retval = nat25_db_handle(priv, skb, NAT25_LOOKUP);
++			}
++		}
++
++		if (is_vlan_tag) {
++			skb_push(skb, 4);
++			for (i = 0; i < 6; i++)
++				*((unsigned short *)(skb->data + i * 2)) = *((unsigned short *)(skb->data + 4 + i * 2));
++			*((unsigned short *)(skb->data + ETH_ALEN * 2)) = __constant_htons(ETH_P_8021Q);
++			*((unsigned short *)(skb->data + ETH_ALEN * 2 + 2)) = vlan_hdr;
++		}
++
++		if (retval == -1) {
++			/* DEBUG_ERR("NAT25: Lookup fail!\n"); */
++			return -1;
++		}
++	}
++
++	return 0;
++}
++
++#if 0
++void mac_clone(_adapter *priv, unsigned char *addr)
++{
++	struct sockaddr sa;
++
++	memcpy(sa.sa_data, addr, ETH_ALEN);
++	RTW_INFO("MAC Clone: Addr=%02x%02x%02x%02x%02x%02x\n",
++		 addr[0], addr[1], addr[2], addr[3], addr[4], addr[5]);
++	rtl8192cd_set_hwaddr(priv->dev, &sa);
++}
++
++
++int mac_clone_handle_frame(_adapter *priv, struct sk_buff *skb)
++{
++	if (priv->ethBrExtInfo.macclone_enable && !priv->macclone_completed) {
++		if (!(skb->data[ETH_ALEN] & 1)) {	/* check any other particular MAC add */
++			if (memcmp(skb->data + ETH_ALEN, GET_MY_HWADDR(priv), ETH_ALEN) &&
++			    ((priv->dev->br_port) &&
++			     memcmp(skb->data + ETH_ALEN, priv->br_mac, ETH_ALEN))) {
++				mac_clone(priv, skb->data + ETH_ALEN);
++				priv->macclone_completed = 1;
++			}
++		}
++	}
++
++	return 0;
++}
++#endif /* 0 */
++
++#define SERVER_PORT			67
++#define CLIENT_PORT			68
++#define DHCP_MAGIC			0x63825363
++#define BROADCAST_FLAG		0x8000
++
++struct dhcpMessage {
++	u_int8_t op;
++	u_int8_t htype;
++	u_int8_t hlen;
++	u_int8_t hops;
++	u_int32_t xid;
++	u_int16_t secs;
++	u_int16_t flags;
++	u_int32_t ciaddr;
++	u_int32_t yiaddr;
++	u_int32_t siaddr;
++	u_int32_t giaddr;
++	u_int8_t chaddr[16];
++	u_int8_t sname[64];
++	u_int8_t file[128];
++	u_int32_t cookie;
++	u_int8_t options[308]; /* 312 - cookie */
++};
++
++void dhcp_flag_bcast(_adapter *priv, struct sk_buff *skb)
++{
++	if (skb == NULL)
++		return;
++
++	if (!priv->ethBrExtInfo.dhcp_bcst_disable) {
++		unsigned short protocol = *((unsigned short *)(skb->data + 2 * ETH_ALEN));
++
++		if (protocol == __constant_htons(ETH_P_IP)) { /* IP */
++			struct iphdr *iph = (struct iphdr *)(skb->data + ETH_HLEN);
++
++			if (iph->protocol == IPPROTO_UDP) { /* UDP */
++				struct udphdr *udph = (struct udphdr *)((SIZE_PTR)iph + (iph->ihl << 2));
++
++				if ((udph->source == __constant_htons(CLIENT_PORT))
++				    && (udph->dest == __constant_htons(SERVER_PORT))) { /* DHCP request */
++					struct dhcpMessage *dhcph =
++						(struct dhcpMessage *)((SIZE_PTR)udph + sizeof(struct udphdr));
++
++					if (dhcph->cookie == __constant_htonl(DHCP_MAGIC)) { /* match magic word */
++						if (!(dhcph->flags & htons(BROADCAST_FLAG))) { /* if not broadcast */
++							register int sum = 0;
++
++							RTW_INFO("DHCP: change flag of DHCP request to broadcast.\n");
++							/* or BROADCAST flag */
++							dhcph->flags |= htons(BROADCAST_FLAG);
++							/* recalculate checksum */
++							sum = ~(udph->check) & 0xffff;
++							sum += dhcph->flags;
++							while (sum >> 16)
++								sum = (sum & 0xffff) + (sum >> 16);
++							udph->check = ~sum;
++						}
++					}
++				}
++			}
++		}
++	}
++}
++
++
++void *scdb_findEntry(_adapter *priv, unsigned char *macAddr,
++		     unsigned char *ipAddr)
++{
++	unsigned char networkAddr[MAX_NETWORK_ADDR_LEN];
++	struct nat25_network_db_entry *db;
++	int hash;
++	/* _irqL irqL; */
++	/* _enter_critical_bh(&priv->br_ext_lock, &irqL); */
++
++	__nat25_generate_ipv4_network_addr(networkAddr, (unsigned int *)ipAddr);
++	hash = __nat25_network_hash(networkAddr);
++	db = priv->nethash[hash];
++	while (db != NULL) {
++		if (!memcmp(db->networkAddr, networkAddr, MAX_NETWORK_ADDR_LEN)) {
++			/* _exit_critical_bh(&priv->br_ext_lock, &irqL); */
++			return (void *)db;
++		}
++
++		db = db->next_hash;
++	}
++
++	/* _exit_critical_bh(&priv->br_ext_lock, &irqL); */
++	return NULL;
++}
++
++#endif /* CONFIG_BR_EXT */
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_bt_mp.c b/drivers/net/wireless/rtl8812au/core/rtw_bt_mp.c
+new file mode 100644
+index 0000000..ee6f328
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_bt_mp.c
+@@ -0,0 +1,1580 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#include <drv_types.h>
++#include <rtw_bt_mp.h>
++
++#if defined(CONFIG_RTL8723B)
++	#include <rtl8723b_hal.h>
++#endif
++
++#if defined(CONFIG_RTL8723B) || defined(CONFIG_RTL8821A)
++void MPh2c_timeout_handle(void *FunctionContext)
++{
++	PADAPTER pAdapter;
++	PMPT_CONTEXT pMptCtx;
++
++
++	RTW_INFO("[MPT], MPh2c_timeout_handle\n");
++
++	pAdapter = (PADAPTER)FunctionContext;
++	pMptCtx = &pAdapter->mppriv.MptCtx;
++
++	pMptCtx->bMPh2c_timeout = _TRUE;
++
++	if ((_FALSE == pMptCtx->MptH2cRspEvent)
++	    || ((_TRUE == pMptCtx->MptH2cRspEvent)
++		&& (_FALSE == pMptCtx->MptBtC2hEvent)))
++		_rtw_up_sema(&pMptCtx->MPh2c_Sema);
++}
++
++u32 WaitC2Hevent(PADAPTER pAdapter, u8 *C2H_event, u32 delay_time)
++{
++	PMPT_CONTEXT		pMptCtx = &(pAdapter->mppriv.MptCtx);
++	pMptCtx->bMPh2c_timeout = _FALSE;
++
++	if (pAdapter->registrypriv.mp_mode == 0) {
++		RTW_INFO("[MPT], Error!! WaitC2Hevent mp_mode == 0!!\n");
++		return _FALSE;
++	}
++
++	_set_timer(&pMptCtx->MPh2c_timeout_timer, delay_time);
++
++	_rtw_down_sema(&pMptCtx->MPh2c_Sema);
++
++	if (pMptCtx->bMPh2c_timeout == _TRUE) {
++		*C2H_event = _FALSE;
++
++		return _FALSE;
++	}
++
++	/* for safty, cancel timer here again */
++	_cancel_timer_ex(&pMptCtx->MPh2c_timeout_timer);
++
++	return _TRUE;
++}
++
++BT_CTRL_STATUS
++mptbt_CheckC2hFrame(
++	PADAPTER		Adapter,
++	PBT_H2C			pH2c,
++	PBT_EXT_C2H		pExtC2h
++)
++{
++	BT_CTRL_STATUS	c2hStatus = BT_STATUS_C2H_SUCCESS;
++
++	/* RTW_INFO("[MPT], MPT rsp C2H hex: %x %x %x  %x %x %x\n"), pExtC2h , pExtC2h+1 ,pExtC2h+2 ,pExtC2h+3 ,pExtC2h+4 ,pExtC2h+5); */
++
++	RTW_INFO("[MPT], statusCode = 0x%x\n", pExtC2h->statusCode);
++	RTW_INFO("[MPT], retLen = %d\n", pExtC2h->retLen);
++	RTW_INFO("[MPT], opCodeVer : req/rsp=%d/%d\n", pH2c->opCodeVer, pExtC2h->opCodeVer);
++	RTW_INFO("[MPT], reqNum : req/rsp=%d/%d\n", pH2c->reqNum, pExtC2h->reqNum);
++	if (pExtC2h->reqNum != pH2c->reqNum) {
++		c2hStatus = BT_STATUS_C2H_REQNUM_MISMATCH;
++		RTW_INFO("[MPT], Error!! C2H reqNum Mismatch!!\n");
++	} else if (pExtC2h->opCodeVer != pH2c->opCodeVer) {
++		c2hStatus = BT_STATUS_OPCODE_L_VERSION_MISMATCH;
++		RTW_INFO("[MPT], Error!! OPCode version L mismatch!!\n");
++	}
++
++	return c2hStatus;
++}
++
++BT_CTRL_STATUS
++mptbt_SendH2c(
++	PADAPTER	Adapter,
++	PBT_H2C	pH2c,
++	u2Byte		h2cCmdLen
++)
++{
++	/* KIRQL				OldIrql = KeGetCurrentIrql(); */
++	BT_CTRL_STATUS	h2cStatus = BT_STATUS_H2C_SUCCESS;
++	PMPT_CONTEXT		pMptCtx = &(Adapter->mppriv.MptCtx);
++	u1Byte				i;
++
++	RTW_INFO("[MPT], mptbt_SendH2c()=========>\n");
++
++	/* PlatformResetEvent(&pMptCtx->MptH2cRspEvent); */
++	/* PlatformResetEvent(&pMptCtx->MptBtC2hEvent); */
++
++	/*	if(OldIrql == PASSIVE_LEVEL)
++	 *	{ */
++	/* RTPRINT_DATA(FMPBT, FMPBT_H2C_CONTENT, ("[MPT], MPT H2C hex:\n"), pH2c, h2cCmdLen); */
++
++	for (i = 0; i < BT_H2C_MAX_RETRY; i++) {
++		RTW_INFO("[MPT], Send H2C command to wifi!!!\n");
++
++		pMptCtx->MptH2cRspEvent = _FALSE;
++		pMptCtx->MptBtC2hEvent = _FALSE;
++
++#if defined(CONFIG_RTL8723B)
++		rtl8723b_set_FwBtMpOper_cmd(Adapter, pH2c->opCode, pH2c->opCodeVer, pH2c->reqNum, pH2c->buf);
++#endif
++		pMptCtx->h2cReqNum++;
++		pMptCtx->h2cReqNum %= 16;
++
++		if (WaitC2Hevent(Adapter, &pMptCtx->MptH2cRspEvent, 100)) {
++			RTW_INFO("[MPT], Received WiFi MptH2cRspEvent!!!\n");
++			if (WaitC2Hevent(Adapter, &pMptCtx->MptBtC2hEvent, 400)) {
++				RTW_INFO("[MPT], Received MptBtC2hEvent!!!\n");
++				break;
++			} else {
++				RTW_INFO("[MPT], Error!!BT MptBtC2hEvent timeout!!\n");
++				h2cStatus = BT_STATUS_H2C_BT_NO_RSP;
++			}
++		} else {
++			RTW_INFO("[MPT], Error!!WiFi  MptH2cRspEvent timeout!!\n");
++			h2cStatus = BT_STATUS_H2C_TIMTOUT;
++		}
++	}
++	/*	}
++	 *	else
++	 *	{
++	 * 		RT_ASSERT(FALSE, ("[MPT],  mptbt_SendH2c() can only run under PASSIVE_LEVEL!!\n"));
++	 *		h2cStatus = BT_STATUS_WRONG_LEVEL;
++	 *	} */
++
++	RTW_INFO("[MPT], mptbt_SendH2c()<=========\n");
++	return h2cStatus;
++}
++
++
++
++BT_CTRL_STATUS
++mptbt_CheckBtRspStatus(
++	PADAPTER			Adapter,
++	PBT_EXT_C2H			pExtC2h
++)
++{
++	BT_CTRL_STATUS	retStatus = BT_OP_STATUS_SUCCESS;
++
++	switch (pExtC2h->statusCode) {
++	case BT_OP_STATUS_SUCCESS:
++		retStatus = BT_STATUS_BT_OP_SUCCESS;
++		RTW_INFO("[MPT], BT status : BT_STATUS_SUCCESS\n");
++		break;
++	case BT_OP_STATUS_VERSION_MISMATCH:
++		retStatus = BT_STATUS_OPCODE_L_VERSION_MISMATCH;
++		RTW_INFO("[MPT], BT status : BT_STATUS_OPCODE_L_VERSION_MISMATCH\n");
++		break;
++	case BT_OP_STATUS_UNKNOWN_OPCODE:
++		retStatus = BT_STATUS_UNKNOWN_OPCODE_L;
++		RTW_INFO("[MPT], BT status : BT_STATUS_UNKNOWN_OPCODE_L\n");
++		break;
++	case BT_OP_STATUS_ERROR_PARAMETER:
++		retStatus = BT_STATUS_PARAMETER_FORMAT_ERROR_L;
++		RTW_INFO("[MPT], BT status : BT_STATUS_PARAMETER_FORMAT_ERROR_L\n");
++		break;
++	default:
++		retStatus = BT_STATUS_UNKNOWN_STATUS_L;
++		RTW_INFO("[MPT], BT status : BT_STATUS_UNKNOWN_STATUS_L\n");
++		break;
++	}
++
++	return retStatus;
++}
++
++
++
++BT_CTRL_STATUS
++mptbt_BtFwOpCodeProcess(
++	PADAPTER		Adapter,
++	u1Byte			btFwOpCode,
++	u1Byte			opCodeVer,
++	pu1Byte			pH2cPar,
++	u1Byte			h2cParaLen
++)
++{
++	u1Byte				H2C_Parameter[6] = {0};
++	PBT_H2C				pH2c = (PBT_H2C)&H2C_Parameter[0];
++	PMPT_CONTEXT		pMptCtx = &(Adapter->mppriv.MptCtx);
++	PBT_EXT_C2H			pExtC2h = (PBT_EXT_C2H)&pMptCtx->c2hBuf[0];
++	u2Byte				paraLen = 0, i;
++	BT_CTRL_STATUS	h2cStatus = BT_STATUS_H2C_SUCCESS, c2hStatus = BT_STATUS_C2H_SUCCESS;
++	BT_CTRL_STATUS	retStatus = BT_STATUS_H2C_BT_NO_RSP;
++
++	if (Adapter->registrypriv.mp_mode == 0) {
++		RTW_INFO("[MPT], Error!! mptbt_BtFwOpCodeProces mp_mode == 0!!\n");
++		return _FALSE;
++	}
++
++	pH2c->opCode = btFwOpCode;
++	pH2c->opCodeVer = opCodeVer;
++	pH2c->reqNum = pMptCtx->h2cReqNum;
++	/* PlatformMoveMemory(&pH2c->buf[0], pH2cPar, h2cParaLen); */
++	/* _rtw_memcpy(&pH2c->buf[0], pH2cPar, h2cParaLen); */
++	_rtw_memcpy(pH2c->buf, pH2cPar, h2cParaLen);
++
++	RTW_INFO("[MPT], pH2c->opCode=%d\n", pH2c->opCode);
++	RTW_INFO("[MPT], pH2c->opCodeVer=%d\n", pH2c->opCodeVer);
++	RTW_INFO("[MPT], pH2c->reqNum=%d\n", pH2c->reqNum);
++	RTW_INFO("[MPT], h2c parameter length=%d\n", h2cParaLen);
++	for (i = 0; i < h2cParaLen; i++)
++		RTW_INFO("[MPT], parameter[%d]=0x%02x\n", i, pH2c->buf[i]);
++
++	h2cStatus = mptbt_SendH2c(Adapter, pH2c, h2cParaLen + 2);
++	if (BT_STATUS_H2C_SUCCESS == h2cStatus) {
++		/* if reach here, it means H2C get the correct c2h response, */
++		c2hStatus = mptbt_CheckC2hFrame(Adapter, pH2c, pExtC2h);
++		if (BT_STATUS_C2H_SUCCESS == c2hStatus)
++			retStatus = mptbt_CheckBtRspStatus(Adapter, pExtC2h);
++		else {
++			RTW_INFO("[MPT], Error!! C2H failed for pH2c->opCode=%d\n", pH2c->opCode);
++			/* check c2h status error, return error status code to upper layer. */
++			retStatus = c2hStatus;
++		}
++	} else {
++		RTW_INFO("[MPT], Error!! H2C failed for pH2c->opCode=%d\n", pH2c->opCode);
++		/* check h2c status error, return error status code to upper layer. */
++		retStatus = h2cStatus;
++	}
++
++	return retStatus;
++}
++
++
++
++
++u2Byte
++mptbt_BtReady(
++	PADAPTER		Adapter,
++	PBT_REQ_CMD	pBtReq,
++	PBT_RSP_CMD	pBtRsp
++)
++{
++	u1Byte				h2cParaBuf[6] = {0};
++	u1Byte				h2cParaLen = 0;
++	u2Byte				paraLen = 0;
++	u1Byte				retStatus = BT_STATUS_BT_OP_SUCCESS;
++	u1Byte				btOpcode;
++	u1Byte				btOpcodeVer = 0;
++	PMPT_CONTEXT		pMptCtx = &(Adapter->mppriv.MptCtx);
++	PBT_EXT_C2H			pExtC2h = (PBT_EXT_C2H)&pMptCtx->c2hBuf[0];
++	u1Byte				i;
++	u1Byte				btFwVer = 0, bdAddr[6] = {0};
++	u2Byte				btRealFwVer = 0;
++	pu2Byte			pu2Tmp = NULL;
++
++	/*  */
++	/* check upper layer parameters */
++	/*  */
++
++	/* 1. check upper layer opcode version */
++	if (pBtReq->opCodeVer != 1) {
++		RTW_INFO("[MPT], Error!! Upper OP code version not match!!!\n");
++		pBtRsp->status = BT_STATUS_OPCODE_U_VERSION_MISMATCH;
++		return paraLen;
++	}
++
++	pBtRsp->pParamStart[0] = MP_BT_NOT_READY;
++	paraLen = 10;
++	/*  */
++	/* execute lower layer opcodes */
++	/*  */
++
++	/* Get BT FW version */
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_GET_BT_VERSION;
++	/* execute h2c and check respond c2h from bt fw is correct or not */
++	retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	} else {
++		pu2Tmp = (pu2Byte)&pExtC2h->buf[0];
++		btRealFwVer = *pu2Tmp;
++		btFwVer = pExtC2h->buf[1];
++		RTW_INFO("[MPT], btRealFwVer=0x%x, btFwVer=0x%x\n", btRealFwVer, btFwVer);
++	}
++
++	/* Get BD Address */
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_GET_BD_ADDR_L;
++	/* execute h2c and check respond c2h from bt fw is correct or not */
++	retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	} else {
++		bdAddr[5] = pExtC2h->buf[0];
++		bdAddr[4] = pExtC2h->buf[1];
++		bdAddr[3] = pExtC2h->buf[2];
++	}
++
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_GET_BD_ADDR_H;
++	/* execute h2c and check respond c2h from bt fw is correct or not */
++	retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	} else {
++		bdAddr[2] = pExtC2h->buf[0];
++		bdAddr[1] = pExtC2h->buf[1];
++		bdAddr[0] = pExtC2h->buf[2];
++	}
++	RTW_INFO("[MPT], Local BDAddr:");
++	for (i = 0; i < 6; i++)
++		RTW_INFO(" 0x%x ", bdAddr[i]);
++	pBtRsp->status = BT_STATUS_SUCCESS;
++	pBtRsp->pParamStart[0] = MP_BT_READY;
++	pu2Tmp = (pu2Byte)&pBtRsp->pParamStart[1];
++	*pu2Tmp = btRealFwVer;
++	pBtRsp->pParamStart[3] = btFwVer;
++	for (i = 0; i < 6; i++)
++		pBtRsp->pParamStart[4 + i] = bdAddr[5 - i];
++
++	return paraLen;
++}
++
++void mptbt_close_WiFiRF(PADAPTER Adapter)
++{
++	PHY_SetBBReg(Adapter, 0x824, 0xF, 0x0);
++	PHY_SetBBReg(Adapter, 0x824, 0x700000, 0x0);
++	PHY_SetRFReg(Adapter, RF_PATH_A, 0x0, 0xF0000, 0x0);
++}
++
++void mptbt_open_WiFiRF(PADAPTER	Adapter)
++{
++	PHY_SetBBReg(Adapter, 0x824, 0x700000, 0x3);
++	PHY_SetBBReg(Adapter, 0x824, 0xF, 0x2);
++	PHY_SetRFReg(Adapter, RF_PATH_A, 0x0, 0xF0000, 0x3);
++}
++
++u4Byte mptbt_switch_RF(PADAPTER	Adapter, u1Byte	Enter)
++{
++	u2Byte	tmp_2byte = 0;
++
++	/* Enter test mode */
++	if (Enter) {
++		/* 1>. close WiFi RF */
++		mptbt_close_WiFiRF(Adapter);
++
++		/* 2>. change ant switch to BT */
++		tmp_2byte = rtw_read16(Adapter, 0x860);
++		tmp_2byte = tmp_2byte | BIT(9);
++		tmp_2byte = tmp_2byte & (~BIT(8));
++		rtw_write16(Adapter, 0x860, tmp_2byte);
++		rtw_write16(Adapter, 0x870, 0x300);
++	} else {
++		/* 1>. Open WiFi RF */
++		mptbt_open_WiFiRF(Adapter);
++
++		/* 2>. change ant switch back */
++		tmp_2byte = rtw_read16(Adapter, 0x860);
++		tmp_2byte = tmp_2byte | BIT(8);
++		tmp_2byte = tmp_2byte & (~BIT(9));
++		rtw_write16(Adapter, 0x860, tmp_2byte);
++		rtw_write16(Adapter, 0x870, 0x300);
++	}
++
++	return 0;
++}
++
++u2Byte
++mptbt_BtSetMode(
++	PADAPTER		Adapter,
++	PBT_REQ_CMD	pBtReq,
++	PBT_RSP_CMD	pBtRsp
++)
++{
++	u1Byte				h2cParaBuf[6] = {0};
++	u1Byte				h2cParaLen = 0;
++	u2Byte				paraLen = 0;
++	u1Byte				retStatus = BT_STATUS_BT_OP_SUCCESS;
++	u1Byte				btOpcode;
++	u1Byte				btOpcodeVer = 0;
++	u1Byte				btModeToSet = 0;
++
++	/*  */
++	/* check upper layer parameters */
++	/*  */
++	/* 1. check upper layer opcode version */
++	if (pBtReq->opCodeVer != 1) {
++		RTW_INFO("[MPT], Error!! Upper OP code version not match!!!\n");
++		pBtRsp->status = BT_STATUS_OPCODE_U_VERSION_MISMATCH;
++		return paraLen;
++	}
++	/* 2. check upper layer parameter length */
++	if (1 == pBtReq->paraLength) {
++		btModeToSet = pBtReq->pParamStart[0];
++		RTW_INFO("[MPT], BtTestMode=%d\n", btModeToSet);
++	} else {
++		RTW_INFO("[MPT], Error!! wrong parameter length=%d (should be 1)\n", pBtReq->paraLength);
++		pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
++		return paraLen;
++	}
++
++	/*  */
++	/* execute lower layer opcodes */
++	/*  */
++
++	/* 1. fill h2c parameters	 */
++	/* check bt mode */
++	btOpcode = BT_LO_OP_SET_BT_MODE;
++	if (btModeToSet >= MP_BT_MODE_MAX) {
++		pBtRsp->status = BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	} else {
++		mptbt_switch_RF(Adapter, 1);
++
++		h2cParaBuf[0] = btModeToSet;
++		h2cParaLen = 1;
++		/* 2. execute h2c and check respond c2h from bt fw is correct or not */
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++
++	/* 3. construct respond status code and data. */
++	if (BT_STATUS_BT_OP_SUCCESS == retStatus)
++		pBtRsp->status = BT_STATUS_SUCCESS;
++	else {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++	}
++
++	return paraLen;
++}
++
++
++VOID
++MPTBT_FwC2hBtMpCtrl(
++	PADAPTER	Adapter,
++	pu1Byte	tmpBuf,
++	u1Byte		length
++)
++{
++	u32 i;
++	PMPT_CONTEXT	pMptCtx = &(Adapter->mppriv.MptCtx);
++	PBT_EXT_C2H pExtC2h = (PBT_EXT_C2H)tmpBuf;
++
++	if (Adapter->bBTFWReady == _FALSE || Adapter->registrypriv.mp_mode == 0) {
++		/* RTW_INFO("Ignore C2H BT MP Info since not in MP mode\n"); */
++		return;
++	}
++	if (length > 32 || length < 3) {
++		RTW_INFO("\n [MPT], pExtC2h->buf hex: length=%d > 32 || < 3\n", length);
++		return;
++	}
++
++	/* cancel_timeout for h2c handle */
++	_cancel_timer_ex(&pMptCtx->MPh2c_timeout_timer);
++
++	for (i = 0; i < length; i++)
++		RTW_INFO("[MPT], %s, buf[%d]=0x%02x ", __FUNCTION__, i, tmpBuf[i]);
++	RTW_INFO("[MPT], pExtC2h->extendId=0x%x\n", pExtC2h->extendId);
++
++	switch (pExtC2h->extendId) {
++	case EXT_C2H_WIFI_FW_ACTIVE_RSP:
++		RTW_INFO("[MPT], EXT_C2H_WIFI_FW_ACTIVE_RSP\n");
++#if 0
++		RTW_INFO("[MPT], pExtC2h->buf hex:\n");
++		for (i = 0; i < (length - 3); i++)
++			RTW_INFO(" 0x%x ", pExtC2h->buf[i]);
++#endif
++		if ((_FALSE == pMptCtx->bMPh2c_timeout)
++		    && (_FALSE == pMptCtx->MptH2cRspEvent)) {
++			pMptCtx->MptH2cRspEvent = _TRUE;
++			_rtw_up_sema(&pMptCtx->MPh2c_Sema);
++		}
++		break;
++
++	case EXT_C2H_TRIG_BY_BT_FW:
++		RTW_INFO("[MPT], EXT_C2H_TRIG_BY_BT_FW\n");
++		_rtw_memcpy(&pMptCtx->c2hBuf[0], tmpBuf, length);
++		RTW_INFO("[MPT], pExtC2h->statusCode=0x%x\n", pExtC2h->statusCode);
++		RTW_INFO("[MPT], pExtC2h->retLen=0x%x\n", pExtC2h->retLen);
++		RTW_INFO("[MPT], pExtC2h->opCodeVer=0x%x\n", pExtC2h->opCodeVer);
++		RTW_INFO("[MPT], pExtC2h->reqNum=0x%x\n", pExtC2h->reqNum);
++		for (i = 0; i < (length - 3); i++)
++			RTW_INFO("[MPT], pExtC2h->buf[%d]=0x%02x\n", i, pExtC2h->buf[i]);
++
++		if ((_FALSE == pMptCtx->bMPh2c_timeout)
++		    && (_TRUE == pMptCtx->MptH2cRspEvent)
++		    && (_FALSE == pMptCtx->MptBtC2hEvent)) {
++			pMptCtx->MptBtC2hEvent = _TRUE;
++			_rtw_up_sema(&pMptCtx->MPh2c_Sema);
++		}
++		break;
++
++	default:
++		RTW_INFO("[MPT], EXT_C2H Target not found,pExtC2h->extendId =%d ,pExtC2h->reqNum=%d\n", pExtC2h->extendId, pExtC2h->reqNum);
++		break;
++	}
++
++
++
++}
++
++
++u2Byte
++mptbt_BtGetGeneral(
++	IN	PADAPTER		Adapter,
++	IN	PBT_REQ_CMD	pBtReq,
++	IN	PBT_RSP_CMD	pBtRsp
++)
++{
++	PMPT_CONTEXT		pMptCtx = &(Adapter->mppriv.MptCtx);
++	PBT_EXT_C2H		pExtC2h = (PBT_EXT_C2H)&pMptCtx->c2hBuf[0];
++	u1Byte				h2cParaBuf[6] = {0};
++	u1Byte				h2cParaLen = 0;
++	u2Byte				paraLen = 0;
++	u1Byte				retStatus = BT_STATUS_BT_OP_SUCCESS;
++	u1Byte				btOpcode, bdAddr[6] = {0};
++	u1Byte				btOpcodeVer = 0;
++	u1Byte				getType = 0, i;
++	u2Byte				getParaLen = 0, validParaLen = 0;
++	u1Byte				regType = 0, reportType = 0;
++	u4Byte				regAddr = 0, regValue = 0;
++	pu4Byte			pu4Tmp;
++	pu2Byte			pu2Tmp;
++	pu1Byte			pu1Tmp;
++
++	/*  */
++	/* check upper layer parameters */
++	/*  */
++
++	/* check upper layer opcode version */
++	if (pBtReq->opCodeVer != 1) {
++		RTW_INFO("[MPT], Error!! Upper OP code version not match!!!\n");
++		pBtRsp->status = BT_STATUS_OPCODE_U_VERSION_MISMATCH;
++		return paraLen;
++	}
++	/* check upper layer parameter length */
++	if (pBtReq->paraLength < 1) {
++		RTW_INFO("[MPT], Error!! wrong parameter length=%d (should larger than 1)\n", pBtReq->paraLength);
++		pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
++		return paraLen;
++	}
++	getParaLen = pBtReq->paraLength - 1;
++	getType = pBtReq->pParamStart[0];
++
++	RTW_INFO("[MPT], getType=%d, getParaLen=%d\n", getType, getParaLen);
++
++	/* check parameter first */
++	switch (getType) {
++	case BT_GGET_REG:
++		RTW_INFO("[MPT], [BT_GGET_REG]\n");
++		validParaLen = 5;
++		if (getParaLen == validParaLen) {
++			btOpcode = BT_LO_OP_READ_REG;
++			regType = pBtReq->pParamStart[1];
++			pu4Tmp = (pu4Byte)&pBtReq->pParamStart[2];
++			regAddr = *pu4Tmp;
++			RTW_INFO("[MPT], BT_GGET_REG regType=0x%02x, regAddr=0x%08x!!\n",
++				 regType, regAddr);
++			if (regType >= BT_REG_MAX) {
++				pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++				return paraLen;
++			} else {
++				if (((BT_REG_RF == regType) && (regAddr > 0x7f)) ||
++				    ((BT_REG_MODEM == regType) && (regAddr > 0x1ff)) ||
++				    ((BT_REG_BLUEWIZE == regType) && (regAddr > 0xfff)) ||
++				    ((BT_REG_VENDOR == regType) && (regAddr > 0xfff)) ||
++				    ((BT_REG_LE == regType) && (regAddr > 0xfff))) {
++					pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++					return paraLen;
++				}
++			}
++		}
++		break;
++	case BT_GGET_STATUS:
++		RTW_INFO("[MPT], [BT_GGET_STATUS]\n");
++		validParaLen = 0;
++		break;
++	case BT_GGET_REPORT:
++		RTW_INFO("[MPT], [BT_GGET_REPORT]\n");
++		validParaLen = 1;
++		if (getParaLen == validParaLen) {
++			reportType = pBtReq->pParamStart[1];
++			RTW_INFO("[MPT], BT_GGET_REPORT reportType=0x%x!!\n", reportType);
++			if (reportType >= BT_REPORT_MAX) {
++				pBtRsp->status = BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++				return paraLen;
++			}
++		}
++		break;
++	default: {
++		RTW_INFO("[MPT], Error!! getType=%d, out of range\n", getType);
++		pBtRsp->status = BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	}
++	break;
++	}
++	if (getParaLen != validParaLen) {
++		RTW_INFO("[MPT], Error!! wrong parameter length=%d for BT_GET_GEN_CMD cmd id=0x%x, paraLen should=0x%x\n",
++			 getParaLen, getType, validParaLen);
++		pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
++		return paraLen;
++	}
++
++	/*  */
++	/* execute lower layer opcodes */
++	/*  */
++	if (BT_GGET_REG == getType) {
++		/* fill h2c parameters */
++		/* here we should write reg value first then write the address, adviced by Austin */
++		btOpcode = BT_LO_OP_READ_REG;
++		h2cParaBuf[0] = regType;
++		h2cParaBuf[1] = pBtReq->pParamStart[2];
++		h2cParaBuf[2] = pBtReq->pParamStart[3];
++		h2cParaLen = 3;
++		/* execute h2c and check respond c2h from bt fw is correct or not */
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* construct respond status code and data. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++
++		pu2Tmp = (pu2Byte)&pExtC2h->buf[0];
++		regValue = *pu2Tmp;
++		RTW_INFO("[MPT], read reg regType=0x%02x, regAddr=0x%08x, regValue=0x%04x\n",
++			 regType, regAddr, regValue);
++
++		pu4Tmp = (pu4Byte)&pBtRsp->pParamStart[0];
++		*pu4Tmp = regValue;
++		paraLen = 4;
++	} else if (BT_GGET_STATUS == getType) {
++		btOpcode = BT_LO_OP_GET_BT_STATUS;
++		h2cParaLen = 0;
++		/* execute h2c and check respond c2h from bt fw is correct or not */
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* construct respond status code and data. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++
++		pBtRsp->pParamStart[0] = pExtC2h->buf[0];
++		pBtRsp->pParamStart[1] = pExtC2h->buf[1];
++		RTW_INFO("[MPT], read bt status, testMode=0x%x, testStatus=0x%x\n",
++			 pBtRsp->pParamStart[0], pBtRsp->pParamStart[1]);
++		paraLen = 2;
++	} else if (BT_GGET_REPORT == getType) {
++		switch (reportType) {
++		case BT_REPORT_RX_PACKET_CNT: {
++			RTW_INFO("[MPT], [Rx Packet Counts]\n");
++			btOpcode = BT_LO_OP_GET_RX_PKT_CNT_L;
++			h2cParaLen = 0;
++			/* execute h2c and check respond c2h from bt fw is correct or not */
++			retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++			/* construct respond status code and data. */
++			if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++				pBtRsp->status = ((btOpcode << 8) | retStatus);
++				RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++				return paraLen;
++			}
++			pBtRsp->pParamStart[0] = pExtC2h->buf[0];
++			pBtRsp->pParamStart[1] = pExtC2h->buf[1];
++
++			btOpcode = BT_LO_OP_GET_RX_PKT_CNT_H;
++			h2cParaLen = 0;
++			/* execute h2c and check respond c2h from bt fw is correct or not */
++			retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++			/* construct respond status code and data. */
++			if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++				pBtRsp->status = ((btOpcode << 8) | retStatus);
++				RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++				return paraLen;
++			}
++			pBtRsp->pParamStart[2] = pExtC2h->buf[0];
++			pBtRsp->pParamStart[3] = pExtC2h->buf[1];
++			paraLen = 4;
++		}
++		break;
++		case BT_REPORT_RX_ERROR_BITS: {
++			RTW_INFO("[MPT], [Rx Error Bits]\n");
++			btOpcode = BT_LO_OP_GET_RX_ERROR_BITS_L;
++			h2cParaLen = 0;
++			/* execute h2c and check respond c2h from bt fw is correct or not */
++			retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++			/* construct respond status code and data. */
++			if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++				pBtRsp->status = ((btOpcode << 8) | retStatus);
++				RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++				return paraLen;
++			}
++			pBtRsp->pParamStart[0] = pExtC2h->buf[0];
++			pBtRsp->pParamStart[1] = pExtC2h->buf[1];
++
++			btOpcode = BT_LO_OP_GET_RX_ERROR_BITS_H;
++			h2cParaLen = 0;
++			/* execute h2c and check respond c2h from bt fw is correct or not */
++			retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++			/* construct respond status code and data. */
++			if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++				pBtRsp->status = ((btOpcode << 8) | retStatus);
++				RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++				return paraLen;
++			}
++			pBtRsp->pParamStart[2] = pExtC2h->buf[0];
++			pBtRsp->pParamStart[3] = pExtC2h->buf[1];
++			paraLen = 4;
++		}
++		break;
++		case BT_REPORT_RSSI: {
++			RTW_INFO("[MPT], [RSSI]\n");
++			btOpcode = BT_LO_OP_GET_RSSI;
++			h2cParaLen = 0;
++			/* execute h2c and check respond c2h from bt fw is correct or not */
++			retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++			/* construct respond status code and data. */
++			if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++				pBtRsp->status = ((btOpcode << 8) | retStatus);
++				RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++				return paraLen;
++			}
++			pBtRsp->pParamStart[0] = pExtC2h->buf[0];
++			pBtRsp->pParamStart[1] = pExtC2h->buf[1];
++			paraLen = 2;
++		}
++		break;
++		case BT_REPORT_CFO_HDR_QUALITY: {
++			RTW_INFO("[MPT], [CFO & Header Quality]\n");
++			btOpcode = BT_LO_OP_GET_CFO_HDR_QUALITY_L;
++			h2cParaLen = 0;
++			/* execute h2c and check respond c2h from bt fw is correct or not */
++			retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++			/* construct respond status code and data. */
++			if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++				pBtRsp->status = ((btOpcode << 8) | retStatus);
++				RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++				return paraLen;
++			}
++			pBtRsp->pParamStart[0] = pExtC2h->buf[0];
++			pBtRsp->pParamStart[1] = pExtC2h->buf[1];
++
++			btOpcode = BT_LO_OP_GET_CFO_HDR_QUALITY_H;
++			h2cParaLen = 0;
++			/* execute h2c and check respond c2h from bt fw is correct or not */
++			retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++			/* construct respond status code and data. */
++			if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++				pBtRsp->status = ((btOpcode << 8) | retStatus);
++				RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++				return paraLen;
++			}
++			pBtRsp->pParamStart[2] = pExtC2h->buf[0];
++			pBtRsp->pParamStart[3] = pExtC2h->buf[1];
++			paraLen = 4;
++		}
++		break;
++		case BT_REPORT_CONNECT_TARGET_BD_ADDR: {
++			RTW_INFO("[MPT], [Connected Target BD ADDR]\n");
++			btOpcode = BT_LO_OP_GET_TARGET_BD_ADDR_L;
++			h2cParaLen = 0;
++			/* execute h2c and check respond c2h from bt fw is correct or not */
++			retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++			/* construct respond status code and data. */
++			if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++				pBtRsp->status = ((btOpcode << 8) | retStatus);
++				RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++				return paraLen;
++			}
++			bdAddr[5] = pExtC2h->buf[0];
++			bdAddr[4] = pExtC2h->buf[1];
++			bdAddr[3] = pExtC2h->buf[2];
++
++			btOpcode = BT_LO_OP_GET_TARGET_BD_ADDR_H;
++			h2cParaLen = 0;
++			/* execute h2c and check respond c2h from bt fw is correct or not */
++			retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++			/* construct respond status code and data. */
++			if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++				pBtRsp->status = ((btOpcode << 8) | retStatus);
++				RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++				return paraLen;
++			}
++			bdAddr[2] = pExtC2h->buf[0];
++			bdAddr[1] = pExtC2h->buf[1];
++			bdAddr[0] = pExtC2h->buf[2];
++
++			RTW_INFO("[MPT], Connected Target BDAddr:%s", bdAddr);
++			for (i = 0; i < 6; i++)
++				pBtRsp->pParamStart[i] = bdAddr[5 - i];
++			paraLen = 6;
++		}
++		break;
++		default:
++			pBtRsp->status = BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++			return paraLen;
++			break;
++		}
++	}
++
++	pBtRsp->status = BT_STATUS_SUCCESS;
++	return paraLen;
++}
++
++
++
++u2Byte
++mptbt_BtSetGeneral(
++	IN	PADAPTER		Adapter,
++	IN	PBT_REQ_CMD	pBtReq,
++	IN	PBT_RSP_CMD	pBtRsp
++)
++{
++	u1Byte				h2cParaBuf[6] = {0};
++	u1Byte				h2cParaLen = 0;
++	u2Byte				paraLen = 0;
++	u1Byte				retStatus = BT_STATUS_BT_OP_SUCCESS;
++	u1Byte				btOpcode;
++	u1Byte				btOpcodeVer = 0;
++	u1Byte				setType = 0;
++	u2Byte				setParaLen = 0, validParaLen = 0;
++	u1Byte				regType = 0, bdAddr[6] = {0}, calVal = 0;
++	u4Byte				regAddr = 0, regValue = 0;
++	pu4Byte			pu4Tmp;
++	pu2Byte			pu2Tmp;
++	pu1Byte			pu1Tmp;
++
++	/*  */
++	/* check upper layer parameters */
++	/*  */
++
++	/* check upper layer opcode version */
++	if (pBtReq->opCodeVer != 1) {
++		RTW_INFO("[MPT], Error!! Upper OP code version not match!!!\n");
++		pBtRsp->status = BT_STATUS_OPCODE_U_VERSION_MISMATCH;
++		return paraLen;
++	}
++	/* check upper layer parameter length */
++	if (pBtReq->paraLength < 1) {
++		RTW_INFO("[MPT], Error!! wrong parameter length=%d (should larger than 1)\n", pBtReq->paraLength);
++		pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
++		return paraLen;
++	}
++	setParaLen = pBtReq->paraLength - 1;
++	setType = pBtReq->pParamStart[0];
++
++	RTW_INFO("[MPT], setType=%d, setParaLen=%d\n", setType, setParaLen);
++
++	/* check parameter first */
++	switch (setType) {
++	case BT_GSET_REG:
++		RTW_INFO("[MPT], [BT_GSET_REG]\n");
++		validParaLen = 9;
++		if (setParaLen == validParaLen) {
++			btOpcode = BT_LO_OP_WRITE_REG_VALUE;
++			regType = pBtReq->pParamStart[1];
++			pu4Tmp = (pu4Byte)&pBtReq->pParamStart[2];
++			regAddr = *pu4Tmp;
++			pu4Tmp = (pu4Byte)&pBtReq->pParamStart[6];
++			regValue = *pu4Tmp;
++			RTW_INFO("[MPT], BT_GSET_REG regType=0x%x, regAddr=0x%x, regValue=0x%x!!\n",
++				 regType, regAddr, regValue);
++			if (regType >= BT_REG_MAX) {
++				pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++				return paraLen;
++			} else {
++				if (((BT_REG_RF == regType) && (regAddr > 0x7f)) ||
++				    ((BT_REG_MODEM == regType) && (regAddr > 0x1ff)) ||
++				    ((BT_REG_BLUEWIZE == regType) && (regAddr > 0xfff)) ||
++				    ((BT_REG_VENDOR == regType) && (regAddr > 0xfff)) ||
++				    ((BT_REG_LE == regType) && (regAddr > 0xfff))) {
++					pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++					return paraLen;
++				}
++			}
++		}
++		break;
++	case BT_GSET_RESET:
++		RTW_INFO("[MPT], [BT_GSET_RESET]\n");
++		validParaLen = 0;
++		break;
++	case BT_GSET_TARGET_BD_ADDR:
++		RTW_INFO("[MPT], [BT_GSET_TARGET_BD_ADDR]\n");
++		validParaLen = 6;
++		if (setParaLen == validParaLen) {
++			btOpcode = BT_LO_OP_SET_TARGET_BD_ADDR_H;
++			if ((pBtReq->pParamStart[1] == 0) &&
++			    (pBtReq->pParamStart[2] == 0) &&
++			    (pBtReq->pParamStart[3] == 0) &&
++			    (pBtReq->pParamStart[4] == 0) &&
++			    (pBtReq->pParamStart[5] == 0) &&
++			    (pBtReq->pParamStart[6] == 0)) {
++				RTW_INFO("[MPT], Error!! targetBDAddr=all zero\n");
++				pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++				return paraLen;
++			}
++			if ((pBtReq->pParamStart[1] == 0xff) &&
++			    (pBtReq->pParamStart[2] == 0xff) &&
++			    (pBtReq->pParamStart[3] == 0xff) &&
++			    (pBtReq->pParamStart[4] == 0xff) &&
++			    (pBtReq->pParamStart[5] == 0xff) &&
++			    (pBtReq->pParamStart[6] == 0xff)) {
++				RTW_INFO("[MPT], Error!! targetBDAddr=all 0xf\n");
++				pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++				return paraLen;
++			}
++			bdAddr[0] = pBtReq->pParamStart[6];
++			bdAddr[1] = pBtReq->pParamStart[5];
++			bdAddr[2] = pBtReq->pParamStart[4];
++			bdAddr[3] = pBtReq->pParamStart[3];
++			bdAddr[4] = pBtReq->pParamStart[2];
++			bdAddr[5] = pBtReq->pParamStart[1];
++			RTW_INFO("[MPT], target BDAddr:%x,%x,%x,%x,%x,%x\n",
++				bdAddr[0], bdAddr[1], bdAddr[2], bdAddr[3], bdAddr[4], bdAddr[5]);
++		}
++		break;
++	case BT_GSET_TX_PWR_FINETUNE:
++		RTW_INFO("[MPT], [BT_GSET_TX_PWR_FINETUNE]\n");
++		validParaLen = 1;
++		if (setParaLen == validParaLen) {
++			btOpcode = BT_LO_OP_SET_TX_POWER_CALIBRATION;
++			calVal = pBtReq->pParamStart[1];
++			if ((calVal < 1) || (calVal > 9)) {
++				pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++				return paraLen;
++			}
++			RTW_INFO("[MPT], calVal=%d\n", calVal);
++		}
++		break;
++	case BT_SET_TRACKING_INTERVAL:
++		RTW_INFO("[MPT], [BT_SET_TRACKING_INTERVAL] setParaLen =%d\n", setParaLen);
++
++		validParaLen = 1;
++		if (setParaLen == validParaLen)
++			calVal = pBtReq->pParamStart[1];
++		break;
++	case BT_SET_THERMAL_METER:
++		RTW_INFO("[MPT], [BT_SET_THERMAL_METER] setParaLen =%d\n", setParaLen);
++		validParaLen = 1;
++		if (setParaLen == validParaLen)
++			calVal = pBtReq->pParamStart[1];
++		break;
++	case BT_ENABLE_CFO_TRACKING:
++		RTW_INFO("[MPT], [BT_ENABLE_CFO_TRACKING] setParaLen =%d\n", setParaLen);
++		validParaLen = 1;
++		if (setParaLen == validParaLen)
++			calVal = pBtReq->pParamStart[1];
++		break;
++	case BT_GSET_UPDATE_BT_PATCH:
++
++		break;
++	default: {
++		RTW_INFO("[MPT], Error!! setType=%d, out of range\n", setType);
++		pBtRsp->status = BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	}
++	break;
++	}
++	if (setParaLen != validParaLen) {
++		RTW_INFO("[MPT], Error!! wrong parameter length=%d for BT_SET_GEN_CMD cmd id=0x%x, paraLen should=0x%x\n",
++			 setParaLen, setType, validParaLen);
++		pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
++		return paraLen;
++	}
++
++	/*  */
++	/* execute lower layer opcodes */
++	/*  */
++	if (BT_GSET_REG == setType) {
++		/* fill h2c parameters */
++		/* here we should write reg value first then write the address, adviced by Austin */
++		btOpcode = BT_LO_OP_WRITE_REG_VALUE;
++		h2cParaBuf[0] = pBtReq->pParamStart[6];
++		h2cParaBuf[1] = pBtReq->pParamStart[7];
++		h2cParaBuf[2] = pBtReq->pParamStart[8];
++		h2cParaLen = 3;
++		/* execute h2c and check respond c2h from bt fw is correct or not */
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* construct respond status code and data. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++
++		/* write reg address */
++		btOpcode = BT_LO_OP_WRITE_REG_ADDR;
++		h2cParaBuf[0] = regType;
++		h2cParaBuf[1] = pBtReq->pParamStart[2];
++		h2cParaBuf[2] = pBtReq->pParamStart[3];
++		h2cParaLen = 3;
++		/* execute h2c and check respond c2h from bt fw is correct or not */
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* construct respond status code and data. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++	} else if (BT_GSET_RESET == setType) {
++		btOpcode = BT_LO_OP_RESET;
++		h2cParaLen = 0;
++		/* execute h2c and check respond c2h from bt fw is correct or not */
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* construct respond status code and data. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++	} else if (BT_GSET_TARGET_BD_ADDR == setType) {
++		/* fill h2c parameters */
++		btOpcode = BT_LO_OP_SET_TARGET_BD_ADDR_L;
++		h2cParaBuf[0] = pBtReq->pParamStart[1];
++		h2cParaBuf[1] = pBtReq->pParamStart[2];
++		h2cParaBuf[2] = pBtReq->pParamStart[3];
++		h2cParaLen = 3;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* ckeck bt return status. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++
++		btOpcode = BT_LO_OP_SET_TARGET_BD_ADDR_H;
++		h2cParaBuf[0] = pBtReq->pParamStart[4];
++		h2cParaBuf[1] = pBtReq->pParamStart[5];
++		h2cParaBuf[2] = pBtReq->pParamStart[6];
++		h2cParaLen = 3;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* ckeck bt return status. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++	} else if (BT_GSET_TX_PWR_FINETUNE == setType) {
++		/* fill h2c parameters */
++		btOpcode = BT_LO_OP_SET_TX_POWER_CALIBRATION;
++		h2cParaBuf[0] = calVal;
++		h2cParaLen = 1;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* ckeck bt return status. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++	} else if (BT_SET_TRACKING_INTERVAL == setType) {
++		/*	BT_LO_OP_SET_TRACKING_INTERVAL								= 0x22, */
++		/*	BT_LO_OP_SET_THERMAL_METER									= 0x23, */
++		/*	BT_LO_OP_ENABLE_CFO_TRACKING									= 0x24, */
++		btOpcode = BT_LO_OP_SET_TRACKING_INTERVAL;
++		h2cParaBuf[0] = calVal;
++		h2cParaLen = 1;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* ckeck bt return status. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++	} else if (BT_SET_THERMAL_METER == setType) {
++		btOpcode = BT_LO_OP_SET_THERMAL_METER;
++		h2cParaBuf[0] = calVal;
++		h2cParaLen = 1;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* ckeck bt return status. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++	} else if (BT_ENABLE_CFO_TRACKING == setType) {
++		btOpcode = BT_LO_OP_ENABLE_CFO_TRACKING;
++		h2cParaBuf[0] = calVal;
++		h2cParaLen = 1;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++		/* ckeck bt return status. */
++		if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++			pBtRsp->status = ((btOpcode << 8) | retStatus);
++			RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++			return paraLen;
++		}
++	}
++
++	pBtRsp->status = BT_STATUS_SUCCESS;
++	return paraLen;
++}
++
++
++
++u2Byte
++mptbt_BtSetTxRxPars(
++	IN	PADAPTER		Adapter,
++	IN	PBT_REQ_CMD	pBtReq,
++	IN	PBT_RSP_CMD	pBtRsp
++)
++{
++	u1Byte				h2cParaBuf[6] = {0};
++	u1Byte				h2cParaLen = 0;
++	u2Byte				paraLen = 0;
++	u1Byte				retStatus = BT_STATUS_BT_OP_SUCCESS;
++	u1Byte				btOpcode;
++	u1Byte				btOpcodeVer = 0;
++	PBT_TXRX_PARAMETERS pTxRxPars = (PBT_TXRX_PARAMETERS)&pBtReq->pParamStart[0];
++	u2Byte				lenTxRx = sizeof(BT_TXRX_PARAMETERS);
++	u1Byte				i;
++	u1Byte				bdAddr[6] = {0};
++
++	/*  */
++	/* check upper layer parameters */
++	/*  */
++
++	/* 1. check upper layer opcode version */
++	if (pBtReq->opCodeVer != 1) {
++		RTW_INFO("[MPT], Error!! Upper OP code version not match!!!\n");
++		pBtRsp->status = BT_STATUS_OPCODE_U_VERSION_MISMATCH;
++		return paraLen;
++	}
++	/* 2. check upper layer parameter length */
++	if (pBtReq->paraLength == sizeof(BT_TXRX_PARAMETERS)) {
++		RTW_INFO("[MPT], pTxRxPars->txrxChannel=0x%x\n", pTxRxPars->txrxChannel);
++		RTW_INFO("[MPT], pTxRxPars->txrxTxPktCnt=0x%8x\n", pTxRxPars->txrxTxPktCnt);
++		RTW_INFO("[MPT], pTxRxPars->txrxTxPktInterval=0x%x\n", pTxRxPars->txrxTxPktInterval);
++		RTW_INFO("[MPT], pTxRxPars->txrxPayloadType=0x%x\n", pTxRxPars->txrxPayloadType);
++		RTW_INFO("[MPT], pTxRxPars->txrxPktType=0x%x\n", pTxRxPars->txrxPktType);
++		RTW_INFO("[MPT], pTxRxPars->txrxPayloadLen=0x%x\n", pTxRxPars->txrxPayloadLen);
++		RTW_INFO("[MPT], pTxRxPars->txrxPktHeader=0x%x\n", pTxRxPars->txrxPktHeader);
++		RTW_INFO("[MPT], pTxRxPars->txrxWhitenCoeff=0x%x\n", pTxRxPars->txrxWhitenCoeff);
++		bdAddr[0] = pTxRxPars->txrxBdaddr[5];
++		bdAddr[1] = pTxRxPars->txrxBdaddr[4];
++		bdAddr[2] = pTxRxPars->txrxBdaddr[3];
++		bdAddr[3] = pTxRxPars->txrxBdaddr[2];
++		bdAddr[4] = pTxRxPars->txrxBdaddr[1];
++		bdAddr[5] = pTxRxPars->txrxBdaddr[0];
++		RTW_INFO("[MPT], pTxRxPars->txrxBdaddr: %s", &bdAddr[0]);
++		RTW_INFO("[MPT], pTxRxPars->txrxTxGainIndex=0x%x\n", pTxRxPars->txrxTxGainIndex);
++	} else {
++		RTW_INFO("[MPT], Error!! pBtReq->paraLength=%d, correct Len=%d\n", pBtReq->paraLength, lenTxRx);
++		pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
++		return paraLen;
++	}
++
++	/*  */
++	/* execute lower layer opcodes */
++	/*  */
++
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_SET_PKT_HEADER;
++	if (pTxRxPars->txrxPktHeader > 0x3ffff) {
++		RTW_INFO("[MPT], Error!! pTxRxPars->txrxPktHeader=0x%x is out of range, (should be between 0x0~0x3ffff)\n", pTxRxPars->txrxPktHeader);
++		pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	} else {
++		h2cParaBuf[0] = (u1Byte)(pTxRxPars->txrxPktHeader & 0xff);
++		h2cParaBuf[1] = (u1Byte)((pTxRxPars->txrxPktHeader & 0xff00) >> 8);
++		h2cParaBuf[2] = (u1Byte)((pTxRxPars->txrxPktHeader & 0xff0000) >> 16);
++		h2cParaLen = 3;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_SET_PKT_TYPE_LEN;
++	{
++		u2Byte	payloadLenLimit = 0;
++		switch (pTxRxPars->txrxPktType) {
++		case MP_BT_PKT_DH1:
++			payloadLenLimit = 27 * 8;
++			break;
++		case MP_BT_PKT_DH3:
++			payloadLenLimit = 183 * 8;
++			break;
++		case MP_BT_PKT_DH5:
++			payloadLenLimit = 339 * 8;
++			break;
++		case MP_BT_PKT_2DH1:
++			payloadLenLimit = 54 * 8;
++			break;
++		case MP_BT_PKT_2DH3:
++			payloadLenLimit = 367 * 8;
++			break;
++		case MP_BT_PKT_2DH5:
++			payloadLenLimit = 679 * 8;
++			break;
++		case MP_BT_PKT_3DH1:
++			payloadLenLimit = 83 * 8;
++			break;
++		case MP_BT_PKT_3DH3:
++			payloadLenLimit = 552 * 8;
++			break;
++		case MP_BT_PKT_3DH5:
++			payloadLenLimit = 1021 * 8;
++			break;
++		case MP_BT_PKT_LE:
++			payloadLenLimit = 39 * 8;
++			break;
++		default: {
++			RTW_INFO("[MPT], Error!! Unknown pTxRxPars->txrxPktType=0x%x\n", pTxRxPars->txrxPktType);
++			pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++			return paraLen;
++		}
++		break;
++		}
++
++		if (pTxRxPars->txrxPayloadLen > payloadLenLimit) {
++			RTW_INFO("[MPT], Error!! pTxRxPars->txrxPayloadLen=0x%x, (should smaller than %d)\n",
++				 pTxRxPars->txrxPayloadLen, payloadLenLimit);
++			pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++			return paraLen;
++		}
++
++		h2cParaBuf[0] = pTxRxPars->txrxPktType;
++		h2cParaBuf[1] = (u1Byte)((pTxRxPars->txrxPayloadLen & 0xff));
++		h2cParaBuf[2] = (u1Byte)((pTxRxPars->txrxPayloadLen & 0xff00) >> 8);
++		h2cParaLen = 3;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_SET_PKT_CNT_L_PL_TYPE;
++	if (pTxRxPars->txrxPayloadType > MP_BT_PAYLOAD_MAX) {
++		RTW_INFO("[MPT], Error!! pTxRxPars->txrxPayloadType=0x%x, (should be between 0~4)\n", pTxRxPars->txrxPayloadType);
++		pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	} else {
++		h2cParaBuf[0] = (u1Byte)((pTxRxPars->txrxTxPktCnt & 0xff));
++		h2cParaBuf[1] = (u1Byte)((pTxRxPars->txrxTxPktCnt & 0xff00) >> 8);
++		h2cParaBuf[2] = pTxRxPars->txrxPayloadType;
++		h2cParaLen = 3;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_SET_PKT_CNT_H_PKT_INTV;
++	if (pTxRxPars->txrxTxPktInterval > 15) {
++		RTW_INFO("[MPT], Error!! pTxRxPars->txrxTxPktInterval=0x%x, (should be between 0~15)\n", pTxRxPars->txrxTxPktInterval);
++		pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	} else {
++		h2cParaBuf[0] = (u1Byte)((pTxRxPars->txrxTxPktCnt & 0xff0000) >> 16);
++		h2cParaBuf[1] = (u1Byte)((pTxRxPars->txrxTxPktCnt & 0xff000000) >> 24);
++		h2cParaBuf[2] = pTxRxPars->txrxTxPktInterval;
++		h2cParaLen = 3;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_SET_WHITENCOEFF;
++	{
++		h2cParaBuf[0] = pTxRxPars->txrxWhitenCoeff;
++		h2cParaLen = 1;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_SET_CHNL_TX_GAIN;
++	if ((pTxRxPars->txrxChannel > 78) ||
++	    (pTxRxPars->txrxTxGainIndex > 7)) {
++		RTW_INFO("[MPT], Error!! pTxRxPars->txrxChannel=0x%x, (should be between 0~78)\n", pTxRxPars->txrxChannel);
++		RTW_INFO("[MPT], Error!! pTxRxPars->txrxTxGainIndex=0x%x, (should be between 0~7)\n", pTxRxPars->txrxTxGainIndex);
++		pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	} else {
++		h2cParaBuf[0] = pTxRxPars->txrxChannel;
++		h2cParaBuf[1] = pTxRxPars->txrxTxGainIndex;
++		h2cParaLen = 2;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++	/* fill h2c parameters */
++	btOpcode = BT_LO_OP_SET_BD_ADDR_L;
++	if ((pTxRxPars->txrxBdaddr[0] == 0) &&
++	    (pTxRxPars->txrxBdaddr[1] == 0) &&
++	    (pTxRxPars->txrxBdaddr[2] == 0) &&
++	    (pTxRxPars->txrxBdaddr[3] == 0) &&
++	    (pTxRxPars->txrxBdaddr[4] == 0) &&
++	    (pTxRxPars->txrxBdaddr[5] == 0)) {
++		RTW_INFO("[MPT], Error!! pTxRxPars->txrxBdaddr=all zero\n");
++		pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	}
++	if ((pTxRxPars->txrxBdaddr[0] == 0xff) &&
++	    (pTxRxPars->txrxBdaddr[1] == 0xff) &&
++	    (pTxRxPars->txrxBdaddr[2] == 0xff) &&
++	    (pTxRxPars->txrxBdaddr[3] == 0xff) &&
++	    (pTxRxPars->txrxBdaddr[4] == 0xff) &&
++	    (pTxRxPars->txrxBdaddr[5] == 0xff)) {
++		RTW_INFO("[MPT], Error!! pTxRxPars->txrxBdaddr=all 0xf\n");
++		pBtRsp->status = (btOpcode << 8) | BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	}
++
++	{
++		h2cParaBuf[0] = pTxRxPars->txrxBdaddr[0];
++		h2cParaBuf[1] = pTxRxPars->txrxBdaddr[1];
++		h2cParaBuf[2] = pTxRxPars->txrxBdaddr[2];
++		h2cParaLen = 3;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++	btOpcode = BT_LO_OP_SET_BD_ADDR_H;
++	{
++		h2cParaBuf[0] = pTxRxPars->txrxBdaddr[3];
++		h2cParaBuf[1] = pTxRxPars->txrxBdaddr[4];
++		h2cParaBuf[2] = pTxRxPars->txrxBdaddr[5];
++		h2cParaLen = 3;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++	/* ckeck bt return status. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++	pBtRsp->status = BT_STATUS_SUCCESS;
++	return paraLen;
++}
++
++
++
++u2Byte
++mptbt_BtTestCtrl(
++	IN	PADAPTER		Adapter,
++	IN	PBT_REQ_CMD	pBtReq,
++	IN	PBT_RSP_CMD	pBtRsp
++)
++{
++	u1Byte				h2cParaBuf[6] = {0};
++	u1Byte				h2cParaLen = 0;
++	u2Byte				paraLen = 0;
++	u1Byte				retStatus = BT_STATUS_BT_OP_SUCCESS;
++	u1Byte				btOpcode;
++	u1Byte				btOpcodeVer = 0;
++	u1Byte				testCtrl = 0;
++
++	/*  */
++	/* check upper layer parameters */
++	/*  */
++
++	/* 1. check upper layer opcode version */
++	if (pBtReq->opCodeVer != 1) {
++		RTW_INFO("[MPT], Error!! Upper OP code version not match!!!\n");
++		pBtRsp->status = BT_STATUS_OPCODE_U_VERSION_MISMATCH;
++		return paraLen;
++	}
++	/* 2. check upper layer parameter length */
++	if (1 == pBtReq->paraLength) {
++		testCtrl = pBtReq->pParamStart[0];
++		RTW_INFO("[MPT], testCtrl=%d\n", testCtrl);
++	} else {
++		RTW_INFO("[MPT], Error!! wrong parameter length=%d (should be 1)\n", pBtReq->paraLength);
++		pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
++		return paraLen;
++	}
++
++	/*  */
++	/* execute lower layer opcodes */
++	/*  */
++
++	/* 1. fill h2c parameters	 */
++	/* check bt mode */
++	btOpcode = BT_LO_OP_TEST_CTRL;
++	if (testCtrl >= MP_BT_TEST_MAX) {
++		RTW_INFO("[MPT], Error!! testCtrl=0x%x, (should be between smaller or equal to 0x%x)\n",
++			 testCtrl, MP_BT_TEST_MAX - 1);
++		pBtRsp->status = BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
++		return paraLen;
++	} else {
++		h2cParaBuf[0] = testCtrl;
++		h2cParaLen = 1;
++		retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
++	}
++
++	/* 3. construct respond status code and data. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++	pBtRsp->status = BT_STATUS_SUCCESS;
++	return paraLen;
++}
++
++
++u2Byte
++mptbt_TestBT(
++	IN	PADAPTER		Adapter,
++	IN	PBT_REQ_CMD	pBtReq,
++	IN	PBT_RSP_CMD	pBtRsp
++)
++{
++
++	u1Byte				h2cParaBuf[6] = {0};
++	u1Byte				h2cParaLen = 0;
++	u2Byte				paraLen = 0;
++	u1Byte				retStatus = BT_STATUS_BT_OP_SUCCESS;
++	u1Byte				btOpcode;
++	u1Byte				btOpcodeVer = 0;
++	u1Byte				testCtrl = 0;
++
++	/* 1. fill h2c parameters	 */
++	btOpcode =  0x11;
++	h2cParaBuf[0] = 0x11;
++	h2cParaBuf[1] = 0x0;
++	h2cParaBuf[2] = 0x0;
++	h2cParaBuf[3] = 0x0;
++	h2cParaBuf[4] = 0x0;
++	h2cParaLen = 1;
++	/*	retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen); */
++	retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, h2cParaBuf, h2cParaLen);
++
++
++	/* 3. construct respond status code and data. */
++	if (BT_STATUS_BT_OP_SUCCESS != retStatus) {
++		pBtRsp->status = ((btOpcode << 8) | retStatus);
++		RTW_INFO("[MPT], Error!! status code=0x%x\n", pBtRsp->status);
++		return paraLen;
++	}
++
++	pBtRsp->status = BT_STATUS_SUCCESS;
++	return paraLen;
++}
++
++VOID
++mptbt_BtControlProcess(
++	PADAPTER	Adapter,
++	PVOID		pInBuf
++)
++{
++	u1Byte			H2C_Parameter[6] = {0};
++	PBT_H2C		pH2c = (PBT_H2C)&H2C_Parameter[0];
++	PMPT_CONTEXT	pMptCtx = &(Adapter->mppriv.MptCtx);
++	PBT_REQ_CMD	pBtReq = (PBT_REQ_CMD)pInBuf;
++	PBT_RSP_CMD	pBtRsp;
++	u1Byte			i;
++
++
++	RTW_INFO("[MPT], mptbt_BtControlProcess()=========>\n");
++
++	RTW_INFO("[MPT], input opCodeVer=%d\n", pBtReq->opCodeVer);
++	RTW_INFO("[MPT], input OpCode=%d\n", pBtReq->OpCode);
++	RTW_INFO("[MPT], paraLength=%d\n", pBtReq->paraLength);
++	if (pBtReq->paraLength) {
++		/* RTW_INFO("[MPT], parameters(hex):0x%x %d\n",&pBtReq->pParamStart[0], pBtReq->paraLength); */
++	}
++
++	_rtw_memset((void *)pMptCtx->mptOutBuf, 0, 100);
++	pMptCtx->mptOutLen = 4; /* length of (BT_RSP_CMD.status+BT_RSP_CMD.paraLength) */
++
++	pBtRsp = (PBT_RSP_CMD)pMptCtx->mptOutBuf;
++	pBtRsp->status = BT_STATUS_SUCCESS;
++	pBtRsp->paraLength = 0x0;
++
++	/* The following we should maintain the User OP codes sent by upper layer */
++	switch (pBtReq->OpCode) {
++	case BT_UP_OP_BT_READY:
++		RTW_INFO("[MPT], OPcode : [BT_READY]\n");
++		pBtRsp->paraLength = mptbt_BtReady(Adapter, pBtReq, pBtRsp);
++		break;
++	case BT_UP_OP_BT_SET_MODE:
++		RTW_INFO("[MPT], OPcode : [BT_SET_MODE]\n");
++		pBtRsp->paraLength = mptbt_BtSetMode(Adapter, pBtReq, pBtRsp);
++		break;
++	case BT_UP_OP_BT_SET_TX_RX_PARAMETER:
++		RTW_INFO("[MPT], OPcode : [BT_SET_TXRX_PARAMETER]\n");
++		pBtRsp->paraLength = mptbt_BtSetTxRxPars(Adapter, pBtReq, pBtRsp);
++		break;
++	case BT_UP_OP_BT_SET_GENERAL:
++		RTW_INFO("[MPT], OPcode : [BT_SET_GENERAL]\n");
++		pBtRsp->paraLength = mptbt_BtSetGeneral(Adapter, pBtReq, pBtRsp);
++		break;
++	case BT_UP_OP_BT_GET_GENERAL:
++		RTW_INFO("[MPT], OPcode : [BT_GET_GENERAL]\n");
++		pBtRsp->paraLength = mptbt_BtGetGeneral(Adapter, pBtReq, pBtRsp);
++		break;
++	case BT_UP_OP_BT_TEST_CTRL:
++		RTW_INFO("[MPT], OPcode : [BT_TEST_CTRL]\n");
++		pBtRsp->paraLength = mptbt_BtTestCtrl(Adapter, pBtReq, pBtRsp);
++		break;
++	case BT_UP_OP_TEST_BT:
++		RTW_INFO("[MPT], OPcode : [TEST_BT]\n");
++		pBtRsp->paraLength = mptbt_TestBT(Adapter, pBtReq, pBtRsp);
++		break;
++	default:
++		RTW_INFO("[MPT], Error!! OPcode : UNDEFINED!!!!\n");
++		pBtRsp->status = BT_STATUS_UNKNOWN_OPCODE_U;
++		pBtRsp->paraLength = 0x0;
++		break;
++	}
++
++	pMptCtx->mptOutLen += pBtRsp->paraLength;
++
++	RTW_INFO("[MPT], pMptCtx->mptOutLen=%d, pBtRsp->paraLength=%d\n", pMptCtx->mptOutLen, pBtRsp->paraLength);
++	RTW_INFO("[MPT], mptbt_BtControlProcess()<=========\n");
++}
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_btcoex.c b/drivers/net/wireless/rtl8812au/core/rtw_btcoex.c
+new file mode 100644
+index 0000000..75211f0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_btcoex.c
+@@ -0,0 +1,1725 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifdef CONFIG_BT_COEXIST
++
++#include <drv_types.h>
++#include <hal_btcoex.h>
++#include <hal_data.h>
++
++
++void rtw_btcoex_Initialize(PADAPTER padapter)
++{
++	hal_btcoex_Initialize(padapter);
++}
++
++void rtw_btcoex_PowerOnSetting(PADAPTER padapter)
++{
++	hal_btcoex_PowerOnSetting(padapter);
++}
++
++void rtw_btcoex_PreLoadFirmware(PADAPTER padapter)
++{
++	hal_btcoex_PreLoadFirmware(padapter);
++}
++
++void rtw_btcoex_HAL_Initialize(PADAPTER padapter, u8 bWifiOnly)
++{
++	hal_btcoex_InitHwConfig(padapter, bWifiOnly);
++}
++
++void rtw_btcoex_IpsNotify(PADAPTER padapter, u8 type)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++	hal_btcoex_IpsNotify(padapter, type);
++}
++
++void rtw_btcoex_LpsNotify(PADAPTER padapter, u8 type)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++	hal_btcoex_LpsNotify(padapter, type);
++}
++
++void rtw_btcoex_ScanNotify(PADAPTER padapter, u8 type)
++{
++	PHAL_DATA_TYPE	pHalData;
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++	PBT_MGNT	pBtMgnt = &pcoex_info->BtMgnt;
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (_FALSE == type) {
++		if (rtw_mi_buddy_check_fwstate(padapter, WIFI_SITE_MONITOR))
++			return;
++	}
++#endif
++
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	if (pBtMgnt->ExtConfig.bEnableWifiScanNotify)
++		rtw_btcoex_SendScanNotify(padapter, type);
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX	 */
++
++	hal_btcoex_ScanNotify(padapter, type);
++}
++
++void rtw_btcoex_ConnectNotify(PADAPTER padapter, u8 action)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++#ifdef DBG_CONFIG_ERROR_RESET
++	if (_TRUE == rtw_hal_sreset_inprogress(padapter)) {
++		RTW_INFO(FUNC_ADPT_FMT ": [BTCoex] under reset, skip notify!\n",
++			 FUNC_ADPT_ARG(padapter));
++		return;
++	}
++#endif /* DBG_CONFIG_ERROR_RESET */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (_FALSE == action) {
++		if (rtw_mi_buddy_check_fwstate(padapter, WIFI_UNDER_LINKING))
++			return;
++	}
++#endif
++
++	hal_btcoex_ConnectNotify(padapter, action);
++}
++
++void rtw_btcoex_MediaStatusNotify(PADAPTER padapter, u8 mediaStatus)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++#ifdef DBG_CONFIG_ERROR_RESET
++	if (_TRUE == rtw_hal_sreset_inprogress(padapter)) {
++		RTW_INFO(FUNC_ADPT_FMT ": [BTCoex] under reset, skip notify!\n",
++			 FUNC_ADPT_ARG(padapter));
++		return;
++	}
++#endif /* DBG_CONFIG_ERROR_RESET */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (RT_MEDIA_DISCONNECT == mediaStatus) {
++		if (rtw_mi_buddy_check_fwstate(padapter, WIFI_ASOC_STATE))
++			return;
++	}
++#endif /* CONFIG_CONCURRENT_MODE */
++
++	if ((RT_MEDIA_CONNECT == mediaStatus)
++	    && (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE))
++		rtw_hal_set_hwreg(padapter, HW_VAR_DL_RSVD_PAGE, NULL);
++
++	hal_btcoex_MediaStatusNotify(padapter, mediaStatus);
++}
++
++void rtw_btcoex_SpecialPacketNotify(PADAPTER padapter, u8 pktType)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++	hal_btcoex_SpecialPacketNotify(padapter, pktType);
++}
++
++void rtw_btcoex_IQKNotify(PADAPTER padapter, u8 state)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++	hal_btcoex_IQKNotify(padapter, state);
++}
++
++void rtw_btcoex_BtInfoNotify(PADAPTER padapter, u8 length, u8 *tmpBuf)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++	hal_btcoex_BtInfoNotify(padapter, length, tmpBuf);
++}
++
++void rtw_btcoex_BtMpRptNotify(PADAPTER padapter, u8 length, u8 *tmpBuf)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++	if (padapter->registrypriv.mp_mode == 1)
++		return;
++
++	hal_btcoex_BtMpRptNotify(padapter, length, tmpBuf);
++}
++
++void rtw_btcoex_SuspendNotify(PADAPTER padapter, u8 state)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++	hal_btcoex_SuspendNotify(padapter, state);
++}
++
++void rtw_btcoex_HaltNotify(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++	if (_FALSE == padapter->bup) {
++		RTW_INFO(FUNC_ADPT_FMT ": bup=%d Skip!\n",
++			 FUNC_ADPT_ARG(padapter), padapter->bup);
++
++		return;
++	}
++
++	if (rtw_is_surprise_removed(padapter)) {
++		RTW_INFO(FUNC_ADPT_FMT ": bSurpriseRemoved=%s Skip!\n",
++			FUNC_ADPT_ARG(padapter), rtw_is_surprise_removed(padapter) ? "True" : "False");
++
++		return;
++	}
++
++	hal_btcoex_HaltNotify(padapter);
++}
++
++void rtw_btcoex_ScoreBoardStatusNotify(PADAPTER padapter, u8 length, u8 *tmpBuf)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++	hal_btcoex_ScoreBoardStatusNotify(padapter, length, tmpBuf);
++}
++
++void rtw_btcoex_switchband_notify(u8 under_scan, u8 band_type)
++{
++	hal_btcoex_switchband_notify(under_scan, band_type);
++}
++
++void rtw_btcoex_SwitchBtTRxMask(PADAPTER padapter)
++{
++	hal_btcoex_SwitchBtTRxMask(padapter);
++}
++
++void rtw_btcoex_Switch(PADAPTER padapter, u8 enable)
++{
++	hal_btcoex_SetBTCoexist(padapter, enable);
++}
++
++u8 rtw_btcoex_IsBtDisabled(PADAPTER padapter)
++{
++	return hal_btcoex_IsBtDisabled(padapter);
++}
++
++void rtw_btcoex_Handler(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++
++	if (_FALSE == pHalData->EEPROMBluetoothCoexist)
++		return;
++
++	hal_btcoex_Hanlder(padapter);
++}
++
++s32 rtw_btcoex_IsBTCoexRejectAMPDU(PADAPTER padapter)
++{
++	s32 coexctrl;
++
++	coexctrl = hal_btcoex_IsBTCoexRejectAMPDU(padapter);
++
++	return coexctrl;
++}
++
++s32 rtw_btcoex_IsBTCoexCtrlAMPDUSize(PADAPTER padapter)
++{
++	s32 coexctrl;
++
++	coexctrl = hal_btcoex_IsBTCoexCtrlAMPDUSize(padapter);
++
++	return coexctrl;
++}
++
++u32 rtw_btcoex_GetAMPDUSize(PADAPTER padapter)
++{
++	u32 size;
++
++	size = hal_btcoex_GetAMPDUSize(padapter);
++
++	return size;
++}
++
++void rtw_btcoex_SetManualControl(PADAPTER padapter, u8 manual)
++{
++	if (_TRUE == manual)
++		hal_btcoex_SetManualControl(padapter, _TRUE);
++	else
++		hal_btcoex_SetManualControl(padapter, _FALSE);
++}
++
++u8 rtw_btcoex_1Ant(PADAPTER padapter)
++{
++	return hal_btcoex_1Ant(padapter);
++}
++
++u8 rtw_btcoex_IsBtControlLps(PADAPTER padapter)
++{
++	return hal_btcoex_IsBtControlLps(padapter);
++}
++
++u8 rtw_btcoex_IsLpsOn(PADAPTER padapter)
++{
++	return hal_btcoex_IsLpsOn(padapter);
++}
++
++u8 rtw_btcoex_RpwmVal(PADAPTER padapter)
++{
++	return hal_btcoex_RpwmVal(padapter);
++}
++
++u8 rtw_btcoex_LpsVal(PADAPTER padapter)
++{
++	return hal_btcoex_LpsVal(padapter);
++}
++
++u32 rtw_btcoex_GetRaMask(PADAPTER padapter)
++{
++	return hal_btcoex_GetRaMask(padapter);
++}
++
++void rtw_btcoex_RecordPwrMode(PADAPTER padapter, u8 *pCmdBuf, u8 cmdLen)
++{
++	hal_btcoex_RecordPwrMode(padapter, pCmdBuf, cmdLen);
++}
++
++void rtw_btcoex_DisplayBtCoexInfo(PADAPTER padapter, u8 *pbuf, u32 bufsize)
++{
++	hal_btcoex_DisplayBtCoexInfo(padapter, pbuf, bufsize);
++}
++
++void rtw_btcoex_SetDBG(PADAPTER padapter, u32 *pDbgModule)
++{
++	hal_btcoex_SetDBG(padapter, pDbgModule);
++}
++
++u32 rtw_btcoex_GetDBG(PADAPTER padapter, u8 *pStrBuf, u32 bufSize)
++{
++	return hal_btcoex_GetDBG(padapter, pStrBuf, bufSize);
++}
++
++u8 rtw_btcoex_IncreaseScanDeviceNum(PADAPTER padapter)
++{
++	return hal_btcoex_IncreaseScanDeviceNum(padapter);
++}
++
++u8 rtw_btcoex_IsBtLinkExist(PADAPTER padapter)
++{
++	return hal_btcoex_IsBtLinkExist(padapter);
++}
++
++void rtw_btcoex_SetBtPatchVersion(PADAPTER padapter, u16 btHciVer, u16 btPatchVer)
++{
++	hal_btcoex_SetBtPatchVersion(padapter, btHciVer, btPatchVer);
++}
++
++void rtw_btcoex_SetHciVersion(PADAPTER  padapter, u16 hciVersion)
++{
++	hal_btcoex_SetHciVersion(padapter, hciVersion);
++}
++
++void rtw_btcoex_StackUpdateProfileInfo(void)
++{
++	hal_btcoex_StackUpdateProfileInfo();
++}
++
++void rtw_btcoex_pta_off_on_notify(PADAPTER padapter, u8 bBTON)
++{
++	hal_btcoex_pta_off_on_notify(padapter, bBTON);
++}
++
++/* ==================================================
++ * Below Functions are called by BT-Coex
++ * ================================================== */
++void rtw_btcoex_rx_ampdu_apply(PADAPTER padapter)
++{
++	rtw_rx_ampdu_apply(padapter);
++}
++
++void rtw_btcoex_LPS_Enter(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrpriv;
++	u8 lpsVal;
++
++
++	pwrpriv = adapter_to_pwrctl(padapter);
++
++	pwrpriv->bpower_saving = _TRUE;
++	lpsVal = rtw_btcoex_LpsVal(padapter);
++	rtw_set_ps_mode(padapter, PS_MODE_MIN, 0, lpsVal, "BTCOEX");
++}
++
++void rtw_btcoex_LPS_Leave(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrpriv;
++
++
++	pwrpriv = adapter_to_pwrctl(padapter);
++
++	if (pwrpriv->pwr_mode != PS_MODE_ACTIVE) {
++		rtw_set_ps_mode(padapter, PS_MODE_ACTIVE, 0, 0, "BTCOEX");
++		LPS_RF_ON_check(padapter, 100);
++		pwrpriv->bpower_saving = _FALSE;
++	}
++}
++
++u16 rtw_btcoex_btreg_read(PADAPTER padapter, u8 type, u16 addr, u32 *data)
++{
++	return hal_btcoex_btreg_read(padapter, type, addr, data);
++}
++
++u16 rtw_btcoex_btreg_write(PADAPTER padapter, u8 type, u16 addr, u16 val)
++{
++	return hal_btcoex_btreg_write(padapter, type, addr, val);
++}
++
++u8 rtw_btcoex_get_bt_coexist(PADAPTER padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	return pHalData->EEPROMBluetoothCoexist;
++}
++
++u8 rtw_btcoex_get_chip_type(PADAPTER padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	return pHalData->EEPROMBluetoothType;
++}
++
++u8 rtw_btcoex_get_pg_ant_num(PADAPTER padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	return pHalData->EEPROMBluetoothAntNum == Ant_x2 ? 2 : 1;
++}
++
++u8 rtw_btcoex_get_pg_single_ant_path(PADAPTER padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	return pHalData->ant_path;
++}
++
++u8 rtw_btcoex_get_pg_rfe_type(PADAPTER padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	return pHalData->RFEType;
++}
++
++u8 rtw_btcoex_is_tfbga_package_type(PADAPTER padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++#ifdef CONFIG_RTL8723B
++	if ((pHalData->PackageType == PACKAGE_TFBGA79) || (pHalData->PackageType == PACKAGE_TFBGA80)
++	    || (pHalData->PackageType == PACKAGE_TFBGA90))
++		return _TRUE;
++#endif
++
++	return _FALSE;
++}
++
++u8 rtw_btcoex_get_ant_div_cfg(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	
++	return (pHalData->AntDivCfg == 0) ? _FALSE : _TRUE;
++}
++
++/* ==================================================
++ * Below Functions are BT-Coex socket related function
++ * ================================================== */
++
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++_adapter *pbtcoexadapter; /* = NULL; */ /* do not initialise globals to 0 or NULL */
++u8 rtw_btcoex_btinfo_cmd(_adapter *adapter, u8 *buf, u16 len)
++{
++	struct cmd_obj *ph2c;
++	struct drvextra_cmd_parm *pdrvextra_cmd_parm;
++	u8 *btinfo;
++	struct cmd_priv *pcmdpriv = &adapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((u8 *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	btinfo = rtw_zmalloc(len);
++	if (btinfo == NULL) {
++		rtw_mfree((u8 *)ph2c, sizeof(struct cmd_obj));
++		rtw_mfree((u8 *)pdrvextra_cmd_parm, sizeof(struct drvextra_cmd_parm));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = BTINFO_WK_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = len;
++	pdrvextra_cmd_parm->pbuf = btinfo;
++
++	_rtw_memcpy(btinfo, buf, len);
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++	return res;
++}
++
++u8 rtw_btcoex_send_event_to_BT(_adapter *padapter, u8 status,  u8 event_code, u8 opcode_low, u8 opcode_high, u8 *dbg_msg)
++{
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++
++	pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++	pEvent->EventCode = event_code;
++	pEvent->Data[0] = 0x1;	/* packet # */
++	pEvent->Data[1] = opcode_low;
++	pEvent->Data[2] = opcode_high;
++	len = len + 3;
++
++	/* Return parameters starts from here */
++	pRetPar = &pEvent->Data[len];
++	pRetPar[0] = status;		/* status */
++
++	len++;
++	pEvent->Length = len;
++
++	/* total tx event length + EventCode length + sizeof(length) */
++	tx_event_length = pEvent->Length + 2;
++#if 0
++	rtw_btcoex_dump_tx_msg((u8 *)pEvent, tx_event_length, dbg_msg);
++#endif
++	status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++
++	return status;
++}
++
++/*
++Ref:
++Realtek Wi-Fi Driver
++Host Controller Interface for
++Bluetooth 3.0 + HS V1.4 2013/02/07
++
++Window team code & BT team code
++ */
++
++
++u8 rtw_btcoex_parse_BT_info_notify_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++#define BT_INFO_LENGTH 8
++
++	u8 curPollEnable = pcmd[0];
++	u8 curPollTime = pcmd[1];
++	u8 btInfoReason = pcmd[2];
++	u8 btInfoLen = pcmd[3];
++	u8 btinfo[BT_INFO_LENGTH];
++
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	RTW_HCI_STATUS status = HCI_STATUS_SUCCESS;
++	rtw_HCI_event *pEvent;
++
++	/* RTW_INFO("%s\n",__func__);
++	RTW_INFO("current Poll Enable: %d, currrent Poll Time: %d\n",curPollEnable,curPollTime);
++	RTW_INFO("BT Info reason: %d, BT Info length: %d\n",btInfoReason,btInfoLen);
++	RTW_INFO("%02x:%02x:%02x:%02x:%02x:%02x:%02x:%02x\n"
++		,pcmd[4],pcmd[5],pcmd[6],pcmd[7],pcmd[8],pcmd[9],pcmd[10],pcmd[11]);*/
++
++	_rtw_memset(btinfo, 0, BT_INFO_LENGTH);
++
++#if 1
++	if (BT_INFO_LENGTH != btInfoLen) {
++		status = HCI_STATUS_INVALID_HCI_CMD_PARA_VALUE;
++		RTW_INFO("Error BT Info Length: %d\n", btInfoLen);
++		/* return _FAIL; */
++	} else
++#endif
++	{
++		if (0x1 == btInfoReason || 0x2 == btInfoReason) {
++			_rtw_memcpy(btinfo, &pcmd[4], btInfoLen);
++			btinfo[0] = btInfoReason;
++			rtw_btcoex_btinfo_cmd(padapter, btinfo, btInfoLen);
++		} else
++			RTW_INFO("Other BT info reason\n");
++	}
++
++	/* send complete event to BT */
++	{
++
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_BT_INFO_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_BT_INFO_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++#if 0
++		rtw_btcoex_dump_tx_msg((u8 *)pEvent, tx_event_length, "BT_info_event");
++#endif
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++}
++
++u8 rtw_btcoex_parse_BT_patch_ver_info_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++	RTW_HCI_STATUS status = HCI_STATUS_SUCCESS;
++	u16		btPatchVer = 0x0, btHciVer = 0x0;
++	/* u16		*pU2tmp; */
++
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++
++	btHciVer = pcmd[0] | pcmd[1] << 8;
++	btPatchVer = pcmd[2] | pcmd[3] << 8;
++
++
++	RTW_INFO("%s, cmd:%02x %02x %02x %02x\n", __func__, pcmd[0] , pcmd[1] , pcmd[2] , pcmd[3]);
++	RTW_INFO("%s, HCI Ver:%d, Patch Ver:%d\n", __func__, btHciVer, btPatchVer);
++
++	rtw_btcoex_SetBtPatchVersion(padapter, btHciVer, btPatchVer);
++
++
++	/* send complete event to BT */
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_BT_PATCH_VERSION_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_BT_PATCH_VERSION_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++#if 0
++		rtw_btcoex_dump_tx_msg((u8 *)pEvent, tx_event_length, "BT_patch_event");
++#endif
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++}
++
++u8 rtw_btcoex_parse_HCI_Ver_notify_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++	RTW_HCI_STATUS status = HCI_STATUS_SUCCESS;
++	u16 hciver = pcmd[0] | pcmd[1] << 8;
++
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++	PBT_MGNT	pBtMgnt = &pcoex_info->BtMgnt;
++	pBtMgnt->ExtConfig.HCIExtensionVer = hciver;
++	RTW_INFO("%s, HCI Version: %d\n", __func__, pBtMgnt->ExtConfig.HCIExtensionVer);
++	if (pBtMgnt->ExtConfig.HCIExtensionVer  < 4) {
++		status = HCI_STATUS_INVALID_HCI_CMD_PARA_VALUE;
++		RTW_INFO("%s, Version = %d, HCI Version < 4\n", __func__, pBtMgnt->ExtConfig.HCIExtensionVer);
++	} else
++		rtw_btcoex_SetHciVersion(padapter, hciver);
++	/* send complete event to BT */
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_EXTENSION_VERSION_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_EXTENSION_VERSION_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++
++}
++
++u8 rtw_btcoex_parse_WIFI_scan_notify_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++	RTW_HCI_STATUS status = HCI_STATUS_SUCCESS;
++
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++	PBT_MGNT	pBtMgnt = &pcoex_info->BtMgnt;
++	pBtMgnt->ExtConfig.bEnableWifiScanNotify = pcmd[0];
++	RTW_INFO("%s, bEnableWifiScanNotify: %d\n", __func__, pBtMgnt->ExtConfig.bEnableWifiScanNotify);
++
++	/* send complete event to BT */
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_ENABLE_WIFI_SCAN_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_ENABLE_WIFI_SCAN_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++}
++
++u8 rtw_btcoex_parse_HCI_link_status_notify_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++	RTW_HCI_STATUS	status = HCI_STATUS_SUCCESS;
++	struct bt_coex_info	*pcoex_info = &padapter->coex_info;
++	PBT_MGNT	pBtMgnt = &pcoex_info->BtMgnt;
++	/* PBT_DBG		pBtDbg=&padapter->MgntInfo.BtInfo.BtDbg; */
++	u8		i, numOfHandle = 0, numOfAcl = 0;
++	u16		conHandle;
++	u8		btProfile, btCoreSpec, linkRole;
++	u8		*pTriple;
++
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++
++	/* pBtDbg->dbgHciInfo.hciCmdCntLinkStatusNotify++; */
++	/* RT_DISP_DATA(FIOCTL, IOCTL_BT_HCICMD_EXT, "LinkStatusNotify, Hex Data :\n",  */
++	/*		&pHciCmd->Data[0], pHciCmd->Length); */
++
++	RTW_INFO("BTLinkStatusNotify\n");
++
++	/* Current only RTL8723 support this command. */
++	/* pBtMgnt->bSupportProfile = TRUE; */
++	pBtMgnt->bSupportProfile = _FALSE;
++
++	pBtMgnt->ExtConfig.NumberOfACL = 0;
++	pBtMgnt->ExtConfig.NumberOfSCO = 0;
++
++	numOfHandle = pcmd[0];
++	/* RT_DISP(FIOCTL, IOCTL_BT_HCICMD_EXT, ("numOfHandle = 0x%x\n", numOfHandle)); */
++	/* RT_DISP(FIOCTL, IOCTL_BT_HCICMD_EXT, ("HCIExtensionVer = %d\n", pBtMgnt->ExtConfig.HCIExtensionVer)); */
++	RTW_INFO("numOfHandle = 0x%x\n", numOfHandle);
++	RTW_INFO("HCIExtensionVer = %d\n", pBtMgnt->ExtConfig.HCIExtensionVer);
++
++	pTriple = &pcmd[1];
++	for (i = 0; i < numOfHandle; i++) {
++		if (pBtMgnt->ExtConfig.HCIExtensionVer < 1) {
++			conHandle = *((u8 *)&pTriple[0]);
++			btProfile = pTriple[2];
++			btCoreSpec = pTriple[3];
++			if (BT_PROFILE_SCO == btProfile)
++				pBtMgnt->ExtConfig.NumberOfSCO++;
++			else {
++				pBtMgnt->ExtConfig.NumberOfACL++;
++				pBtMgnt->ExtConfig.aclLink[i].ConnectHandle = conHandle;
++				pBtMgnt->ExtConfig.aclLink[i].BTProfile = btProfile;
++				pBtMgnt->ExtConfig.aclLink[i].BTCoreSpec = btCoreSpec;
++			}
++			/* RT_DISP(FIOCTL, IOCTL_BT_HCICMD_EXT, */
++			/*	("Connection_Handle=0x%x, BTProfile=%d, BTSpec=%d\n", */
++			/*		conHandle, btProfile, btCoreSpec)); */
++			RTW_INFO("Connection_Handle=0x%x, BTProfile=%d, BTSpec=%d\n", conHandle, btProfile, btCoreSpec);
++			pTriple += 4;
++		} else if (pBtMgnt->ExtConfig.HCIExtensionVer >= 1) {
++			conHandle = *((pu2Byte)&pTriple[0]);
++			btProfile = pTriple[2];
++			btCoreSpec = pTriple[3];
++			linkRole = pTriple[4];
++			if (BT_PROFILE_SCO == btProfile)
++				pBtMgnt->ExtConfig.NumberOfSCO++;
++			else {
++				pBtMgnt->ExtConfig.NumberOfACL++;
++				pBtMgnt->ExtConfig.aclLink[i].ConnectHandle = conHandle;
++				pBtMgnt->ExtConfig.aclLink[i].BTProfile = btProfile;
++				pBtMgnt->ExtConfig.aclLink[i].BTCoreSpec = btCoreSpec;
++				pBtMgnt->ExtConfig.aclLink[i].linkRole = linkRole;
++			}
++			/* RT_DISP(FIOCTL, IOCTL_BT_HCICMD_EXT, */
++			RTW_INFO("Connection_Handle=0x%x, BTProfile=%d, BTSpec=%d, LinkRole=%d\n",
++				 conHandle, btProfile, btCoreSpec, linkRole);
++			pTriple += 5;
++		}
++	}
++	rtw_btcoex_StackUpdateProfileInfo();
++
++	/* send complete event to BT */
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_LINK_STATUS_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_LINK_STATUS_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++
++
++}
++
++u8 rtw_btcoex_parse_HCI_BT_coex_notify_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++	RTW_HCI_STATUS	status = HCI_STATUS_SUCCESS;
++
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_BT_COEX_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_BT_COEX_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++}
++
++u8 rtw_btcoex_parse_HCI_BT_operation_notify_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++	RTW_HCI_STATUS	status = HCI_STATUS_SUCCESS;
++
++	RTW_INFO("%s, OP code: %d\n", __func__, pcmd[0]);
++
++	switch (pcmd[0]) {
++	case HCI_BT_OP_NONE:
++		RTW_INFO("[bt operation] : Operation None!!\n");
++		break;
++	case HCI_BT_OP_INQUIRY_START:
++		RTW_INFO("[bt operation] : Inquiry start!!\n");
++		break;
++	case HCI_BT_OP_INQUIRY_FINISH:
++		RTW_INFO("[bt operation] : Inquiry finished!!\n");
++		break;
++	case HCI_BT_OP_PAGING_START:
++		RTW_INFO("[bt operation] : Paging is started!!\n");
++		break;
++	case HCI_BT_OP_PAGING_SUCCESS:
++		RTW_INFO("[bt operation] : Paging complete successfully!!\n");
++		break;
++	case HCI_BT_OP_PAGING_UNSUCCESS:
++		RTW_INFO("[bt operation] : Paging complete unsuccessfully!!\n");
++		break;
++	case HCI_BT_OP_PAIRING_START:
++		RTW_INFO("[bt operation] : Pairing start!!\n");
++		break;
++	case HCI_BT_OP_PAIRING_FINISH:
++		RTW_INFO("[bt operation] : Pairing finished!!\n");
++		break;
++	case HCI_BT_OP_BT_DEV_ENABLE:
++		RTW_INFO("[bt operation] : BT Device is enabled!!\n");
++		break;
++	case HCI_BT_OP_BT_DEV_DISABLE:
++		RTW_INFO("[bt operation] : BT Device is disabled!!\n");
++		break;
++	default:
++		RTW_INFO("[bt operation] : Unknown, error!!\n");
++		break;
++	}
++
++	/* send complete event to BT */
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_BT_OPERATION_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_BT_OPERATION_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++}
++
++u8 rtw_btcoex_parse_BT_AFH_MAP_notify_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++	RTW_HCI_STATUS	status = HCI_STATUS_SUCCESS;
++
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_BT_AFH_MAP_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_BT_AFH_MAP_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++}
++
++u8 rtw_btcoex_parse_BT_register_val_notify_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++	RTW_HCI_STATUS	status = HCI_STATUS_SUCCESS;
++
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_BT_REGISTER_VALUE_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_BT_REGISTER_VALUE_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++}
++
++u8 rtw_btcoex_parse_HCI_BT_abnormal_notify_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++	RTW_HCI_STATUS	status = HCI_STATUS_SUCCESS;
++
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_BT_ABNORMAL_NOTIFY, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_BT_ABNORMAL_NOTIFY, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++}
++
++u8 rtw_btcoex_parse_HCI_query_RF_status_cmd(_adapter *padapter, u8 *pcmd, u16 cmdlen)
++{
++	u8 localBuf[6] = "";
++	u8 *pRetPar;
++	u8	len = 0, tx_event_length = 0;
++	rtw_HCI_event *pEvent;
++	RTW_HCI_STATUS	status = HCI_STATUS_SUCCESS;
++
++	{
++		pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++
++		pEvent->EventCode = HCI_EVENT_COMMAND_COMPLETE;
++		pEvent->Data[0] = 0x1;	/* packet # */
++		pEvent->Data[1] = HCIOPCODELOW(HCI_QUERY_RF_STATUS, OGF_EXTENSION);
++		pEvent->Data[2] = HCIOPCODEHIGHT(HCI_QUERY_RF_STATUS, OGF_EXTENSION);
++		len = len + 3;
++
++		/* Return parameters starts from here */
++		pRetPar = &pEvent->Data[len];
++		pRetPar[0] = status;		/* status */
++
++		len++;
++		pEvent->Length = len;
++
++		/* total tx event length + EventCode length + sizeof(length) */
++		tx_event_length = pEvent->Length + 2;
++
++		status = rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++		return status;
++		/* bthci_IndicateEvent(Adapter, PPacketIrpEvent, len+2); */
++	}
++}
++
++/*****************************************
++* HCI cmd format :
++*| 15 - 0						|
++*| OPcode (OCF|OGF<<10)		|
++*| 15 - 8		|7 - 0			|
++*|Cmd para	|Cmd para Length	|
++*|Cmd para......				|
++******************************************/
++
++/* bit 0  1  2  3  4  5  6  7  8  9 10 11 12 13 14 15
++ *	 |	OCF			             |	   OGF       | */
++void rtw_btcoex_parse_hci_extend_cmd(_adapter *padapter, u8 *pcmd, u16 len, const u16 hci_OCF)
++{
++
++	RTW_INFO("%s: OCF: %x\n", __func__, hci_OCF);
++	switch (hci_OCF) {
++	case HCI_EXTENSION_VERSION_NOTIFY:
++		RTW_INFO("HCI_EXTENSION_VERSION_NOTIFY\n");
++		rtw_btcoex_parse_HCI_Ver_notify_cmd(padapter, pcmd, len);
++		break;
++	case HCI_LINK_STATUS_NOTIFY:
++		RTW_INFO("HCI_LINK_STATUS_NOTIFY\n");
++		rtw_btcoex_parse_HCI_link_status_notify_cmd(padapter, pcmd, len);
++		break;
++	case HCI_BT_OPERATION_NOTIFY:
++		/* only for 8723a 2ant */
++		RTW_INFO("HCI_BT_OPERATION_NOTIFY\n");
++		rtw_btcoex_parse_HCI_BT_operation_notify_cmd(padapter, pcmd, len);
++		/*  */
++		break;
++	case HCI_ENABLE_WIFI_SCAN_NOTIFY:
++		RTW_INFO("HCI_ENABLE_WIFI_SCAN_NOTIFY\n");
++		rtw_btcoex_parse_WIFI_scan_notify_cmd(padapter, pcmd, len);
++		break;
++	case HCI_QUERY_RF_STATUS:
++		/* only for 8723b 2ant */
++		RTW_INFO("HCI_QUERY_RF_STATUS\n");
++		rtw_btcoex_parse_HCI_query_RF_status_cmd(padapter, pcmd, len);
++		break;
++	case HCI_BT_ABNORMAL_NOTIFY:
++		RTW_INFO("HCI_BT_ABNORMAL_NOTIFY\n");
++		rtw_btcoex_parse_HCI_BT_abnormal_notify_cmd(padapter, pcmd, len);
++		break;
++	case HCI_BT_INFO_NOTIFY:
++		RTW_INFO("HCI_BT_INFO_NOTIFY\n");
++		rtw_btcoex_parse_BT_info_notify_cmd(padapter, pcmd, len);
++		break;
++	case HCI_BT_COEX_NOTIFY:
++		RTW_INFO("HCI_BT_COEX_NOTIFY\n");
++		rtw_btcoex_parse_HCI_BT_coex_notify_cmd(padapter, pcmd, len);
++		break;
++	case HCI_BT_PATCH_VERSION_NOTIFY:
++		RTW_INFO("HCI_BT_PATCH_VERSION_NOTIFY\n");
++		rtw_btcoex_parse_BT_patch_ver_info_cmd(padapter, pcmd, len);
++		break;
++	case HCI_BT_AFH_MAP_NOTIFY:
++		RTW_INFO("HCI_BT_AFH_MAP_NOTIFY\n");
++		rtw_btcoex_parse_BT_AFH_MAP_notify_cmd(padapter, pcmd, len);
++		break;
++	case HCI_BT_REGISTER_VALUE_NOTIFY:
++		RTW_INFO("HCI_BT_REGISTER_VALUE_NOTIFY\n");
++		rtw_btcoex_parse_BT_register_val_notify_cmd(padapter, pcmd, len);
++		break;
++	default:
++		RTW_INFO("ERROR!!! Unknown OCF: %x\n", hci_OCF);
++		break;
++
++	}
++}
++
++void rtw_btcoex_parse_hci_cmd(_adapter *padapter, u8 *pcmd, u16 len)
++{
++	u16 opcode = pcmd[0] | pcmd[1] << 8;
++	u16 hci_OGF = HCI_OGF(opcode);
++	u16 hci_OCF = HCI_OCF(opcode);
++	u8 cmdlen = len - 3;
++	u8 pare_len = pcmd[2];
++
++	RTW_INFO("%s OGF: %x,OCF: %x\n", __func__, hci_OGF, hci_OCF);
++	switch (hci_OGF) {
++	case OGF_EXTENSION:
++		RTW_INFO("HCI_EXTENSION_CMD_OGF\n");
++		rtw_btcoex_parse_hci_extend_cmd(padapter, &pcmd[3], cmdlen, hci_OCF);
++		break;
++	default:
++		RTW_INFO("Other OGF: %x\n", hci_OGF);
++		break;
++	}
++}
++
++u16 rtw_btcoex_parse_recv_data(u8 *msg, u8 msg_size)
++{
++	u8 cmp_msg1[32] = attend_ack;
++	u8 cmp_msg2[32] = leave_ack;
++	u8 cmp_msg3[32] = bt_leave;
++	u8 cmp_msg4[32] = invite_req;
++	u8 cmp_msg5[32] = attend_req;
++	u8 cmp_msg6[32] = invite_rsp;
++	u8 res = OTHER;
++
++	if (_rtw_memcmp(cmp_msg1, msg, msg_size) == _TRUE) {
++		/*RTW_INFO("%s, msg:%s\n",__func__,msg);*/
++		res = RX_ATTEND_ACK;
++	} else if (_rtw_memcmp(cmp_msg2, msg, msg_size) == _TRUE) {
++		/*RTW_INFO("%s, msg:%s\n",__func__,msg);*/
++		res = RX_LEAVE_ACK;
++	} else if (_rtw_memcmp(cmp_msg3, msg, msg_size) == _TRUE) {
++		/*RTW_INFO("%s, msg:%s\n",__func__,msg);*/
++		res = RX_BT_LEAVE;
++	} else if (_rtw_memcmp(cmp_msg4, msg, msg_size) == _TRUE) {
++		/*RTW_INFO("%s, msg:%s\n",__func__,msg);*/
++		res = RX_INVITE_REQ;
++	} else if (_rtw_memcmp(cmp_msg5, msg, msg_size) == _TRUE)
++		res = RX_ATTEND_REQ;
++	else if (_rtw_memcmp(cmp_msg6, msg, msg_size) == _TRUE)
++		res = RX_INVITE_RSP;
++	else {
++		/*RTW_INFO("%s, %s\n", __func__, msg);*/
++		res = OTHER;
++	}
++
++	/*RTW_INFO("%s, res:%d\n", __func__, res);*/
++
++	return res;
++}
++
++void rtw_btcoex_recvmsgbysocket(void *data)
++{
++	u8 recv_data[255];
++	u8 tx_msg[255] = leave_ack;
++	u32 len = 0;
++	u16 recv_length = 0;
++	u16 parse_res = 0;
++#if 0
++	u8 para_len = 0, polling_enable = 0, poling_interval = 0, reason = 0, btinfo_len = 0;
++	u8 btinfo[BT_INFO_LEN] = {0};
++#endif
++
++	struct bt_coex_info *pcoex_info = NULL;
++	struct sock *sk = NULL;
++	struct sk_buff *skb = NULL;
++
++	/*RTW_INFO("%s\n",__func__);*/
++
++	if (pbtcoexadapter == NULL) {
++		RTW_INFO("%s: btcoexadapter NULL!\n", __func__);
++		return;
++	}
++
++	pcoex_info = &pbtcoexadapter->coex_info;
++	sk = pcoex_info->sk_store;
++
++	if (sk == NULL) {
++		RTW_INFO("%s: critical error when receive socket data!\n", __func__);
++		return;
++	}
++
++	len = skb_queue_len(&sk->sk_receive_queue);
++	while (len > 0) {
++		skb = skb_dequeue(&sk->sk_receive_queue);
++
++		/*important: cut the udp header from skb->data! header length is 8 byte*/
++		recv_length = skb->len - 8;
++		_rtw_memset(recv_data, 0, sizeof(recv_data));
++		_rtw_memcpy(recv_data, skb->data + 8, recv_length);
++
++		parse_res = rtw_btcoex_parse_recv_data(recv_data, recv_length);
++#if 0
++		if (RX_ATTEND_ACK == parse_res) {
++			/* attend ack */
++			pcoex_info->BT_attend = _TRUE;
++			RTW_INFO("RX_ATTEND_ACK!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++		} else if (RX_ATTEND_REQ == parse_res) {
++			/* attend req from BT */
++			pcoex_info->BT_attend = _TRUE;
++			RTW_INFO("RX_BT_ATTEND_REQ!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++			rtw_btcoex_sendmsgbysocket(pbtcoexadapter, attend_ack, sizeof(attend_ack), _FALSE);
++		} else if (RX_INVITE_REQ == parse_res) {
++			/* invite req from BT */
++			pcoex_info->BT_attend = _TRUE;
++			RTW_INFO("RX_INVITE_REQ!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++			rtw_btcoex_sendmsgbysocket(pbtcoexadapter, invite_rsp, sizeof(invite_rsp), _FALSE);
++		} else if (RX_INVITE_RSP == parse_res) {
++			/* invite rsp */
++			pcoex_info->BT_attend = _TRUE;
++			RTW_INFO("RX_INVITE_RSP!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++		} else if (RX_LEAVE_ACK == parse_res) {
++			/* mean BT know wifi  will leave */
++			pcoex_info->BT_attend = _FALSE;
++			RTW_INFO("RX_LEAVE_ACK!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++		} else if (RX_BT_LEAVE == parse_res) {
++			/* BT leave */
++			rtw_btcoex_sendmsgbysocket(pbtcoexadapter, leave_ack, sizeof(leave_ack), _FALSE); /*  no ack */
++			pcoex_info->BT_attend = _FALSE;
++			RTW_INFO("RX_BT_LEAVE!sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++		} else {
++			/* todo: check if recv data are really hci cmds */
++			if (_TRUE == pcoex_info->BT_attend)
++				rtw_btcoex_parse_hci_cmd(pbtcoexadapter, recv_data, recv_length);
++		}
++#endif
++		switch (parse_res) {
++		case RX_ATTEND_ACK:
++			/* attend ack */
++			pcoex_info->BT_attend = _TRUE;
++			RTW_INFO("RX_ATTEND_ACK!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++			rtw_btcoex_pta_off_on_notify(pbtcoexadapter, pcoex_info->BT_attend);
++			break;
++
++		case RX_ATTEND_REQ:
++			pcoex_info->BT_attend = _TRUE;
++			RTW_INFO("RX_BT_ATTEND_REQ!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++			rtw_btcoex_sendmsgbysocket(pbtcoexadapter, attend_ack, sizeof(attend_ack), _FALSE);
++			rtw_btcoex_pta_off_on_notify(pbtcoexadapter, pcoex_info->BT_attend);
++			break;
++
++		case RX_INVITE_REQ:
++			/* invite req from BT */
++			pcoex_info->BT_attend = _TRUE;
++			RTW_INFO("RX_INVITE_REQ!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++			rtw_btcoex_sendmsgbysocket(pbtcoexadapter, invite_rsp, sizeof(invite_rsp), _FALSE);
++			rtw_btcoex_pta_off_on_notify(pbtcoexadapter, pcoex_info->BT_attend);
++			break;
++
++		case RX_INVITE_RSP:
++			/*invite rsp*/
++			pcoex_info->BT_attend = _TRUE;
++			RTW_INFO("RX_INVITE_RSP!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++			rtw_btcoex_pta_off_on_notify(pbtcoexadapter, pcoex_info->BT_attend);
++			break;
++
++		case RX_LEAVE_ACK:
++			/* mean BT know wifi  will leave */
++			pcoex_info->BT_attend = _FALSE;
++			RTW_INFO("RX_LEAVE_ACK!,sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++			rtw_btcoex_pta_off_on_notify(pbtcoexadapter, pcoex_info->BT_attend);
++			break;
++
++		case RX_BT_LEAVE:
++			/* BT leave */
++			rtw_btcoex_sendmsgbysocket(pbtcoexadapter, leave_ack, sizeof(leave_ack), _FALSE); /* no ack */
++			pcoex_info->BT_attend = _FALSE;
++			RTW_INFO("RX_BT_LEAVE!sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++			rtw_btcoex_pta_off_on_notify(pbtcoexadapter, pcoex_info->BT_attend);
++			break;
++
++		default:
++			if (_TRUE == pcoex_info->BT_attend)
++				rtw_btcoex_parse_hci_cmd(pbtcoexadapter, recv_data, recv_length);
++			else
++				RTW_INFO("ERROR!! BT is UP\n");
++			break;
++
++		}
++
++		len--;
++		kfree_skb(skb);
++	}
++}
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 15, 0))
++	void rtw_btcoex_recvmsg_init(struct sock *sk_in, s32 bytes)
++#else
++	void rtw_btcoex_recvmsg_init(struct sock *sk_in)
++#endif
++{
++	struct bt_coex_info *pcoex_info = NULL;
++
++	if (pbtcoexadapter == NULL) {
++		RTW_INFO("%s: btcoexadapter NULL\n", __func__);
++		return;
++	}
++	pcoex_info = &pbtcoexadapter->coex_info;
++	pcoex_info->sk_store = sk_in;
++	if (pcoex_info->btcoex_wq != NULL)
++		queue_delayed_work(pcoex_info->btcoex_wq, &pcoex_info->recvmsg_work, 0);
++	else
++		RTW_INFO("%s: BTCOEX workqueue NULL\n", __func__);
++}
++
++u8 rtw_btcoex_sendmsgbysocket(_adapter *padapter, u8 *msg, u8 msg_size, bool force)
++{
++	u8 error;
++	struct msghdr	udpmsg;
++	mm_segment_t	oldfs;
++	struct iovec	iov;
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++
++	/* RTW_INFO("%s: msg:%s, force:%s\n", __func__, msg, force == _TRUE?"TRUE":"FALSE"); */
++	if (_FALSE == force) {
++		if (_FALSE == pcoex_info->BT_attend) {
++			RTW_INFO("TX Blocked: WiFi-BT disconnected\n");
++			return _FAIL;
++		}
++	}
++
++	iov.iov_base	 = (void *)msg;
++	iov.iov_len	 = msg_size;
++	udpmsg.msg_name	 = &pcoex_info->bt_sockaddr;
++	udpmsg.msg_namelen	= sizeof(struct sockaddr_in);
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 19, 0))
++	/* referece:sock_xmit in kernel code
++	 * WRITE for sock_sendmsg, READ for sock_recvmsg
++	 * third parameter for msg_iovlen
++	 * last parameter for iov_len
++	 */
++	iov_iter_init(&udpmsg.msg_iter, WRITE, &iov, 1, msg_size);
++#else
++	udpmsg.msg_iov	 = &iov;
++	udpmsg.msg_iovlen	= 1;
++#endif
++	udpmsg.msg_control	= NULL;
++	udpmsg.msg_controllen = 0;
++	udpmsg.msg_flags	= MSG_DONTWAIT | MSG_NOSIGNAL;
++	oldfs = get_fs();
++	set_fs(KERNEL_DS);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 1, 0))
++	error = sock_sendmsg(pcoex_info->udpsock, &udpmsg);
++#else
++	error = sock_sendmsg(pcoex_info->udpsock, &udpmsg, msg_size);
++#endif
++	set_fs(oldfs);
++	if (error < 0) {
++		RTW_INFO("Error when sendimg msg, error:%d\n", error);
++		return _FAIL;
++	} else
++		return _SUCCESS;
++}
++
++u8 rtw_btcoex_create_kernel_socket(_adapter *padapter)
++{
++	s8 kernel_socket_err;
++	u8 tx_msg[255] = attend_req;
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++	s32 sock_reuse = 1;
++	u8 status = _FAIL;
++
++	RTW_INFO("%s CONNECT_PORT %d\n", __func__, CONNECT_PORT);
++
++	if (NULL == pcoex_info) {
++		RTW_INFO("coex_info: NULL\n");
++		status =  _FAIL;
++	}
++
++	kernel_socket_err = sock_create(PF_INET, SOCK_DGRAM, 0, &pcoex_info->udpsock);
++
++	if (kernel_socket_err < 0) {
++		RTW_INFO("Error during creation of socket error:%d\n", kernel_socket_err);
++		status = _FAIL;
++	} else {
++		_rtw_memset(&(pcoex_info->wifi_sockaddr), 0, sizeof(pcoex_info->wifi_sockaddr));
++		pcoex_info->wifi_sockaddr.sin_family = AF_INET;
++		pcoex_info->wifi_sockaddr.sin_port = htons(CONNECT_PORT);
++		pcoex_info->wifi_sockaddr.sin_addr.s_addr = htonl(INADDR_LOOPBACK);
++
++		_rtw_memset(&(pcoex_info->bt_sockaddr), 0, sizeof(pcoex_info->bt_sockaddr));
++		pcoex_info->bt_sockaddr.sin_family = AF_INET;
++		pcoex_info->bt_sockaddr.sin_port = htons(CONNECT_PORT_BT);
++		pcoex_info->bt_sockaddr.sin_addr.s_addr = htonl(INADDR_LOOPBACK);
++
++		pcoex_info->sk_store = NULL;
++		kernel_socket_err = pcoex_info->udpsock->ops->bind(pcoex_info->udpsock, (struct sockaddr *)&pcoex_info->wifi_sockaddr,
++				    sizeof(pcoex_info->wifi_sockaddr));
++		if (kernel_socket_err == 0) {
++			RTW_INFO("binding socket success\n");
++			pcoex_info->udpsock->sk->sk_data_ready = rtw_btcoex_recvmsg_init;
++			pcoex_info->sock_open |=  KERNEL_SOCKET_OK;
++			pcoex_info->BT_attend = _FALSE;
++			RTW_INFO("WIFI sending attend_req\n");
++			rtw_btcoex_sendmsgbysocket(padapter, attend_req, sizeof(attend_req), _TRUE);
++			status = _SUCCESS;
++		} else {
++			pcoex_info->BT_attend = _FALSE;
++			sock_release(pcoex_info->udpsock); /* bind fail release socket */
++			RTW_INFO("Error binding socket: %d\n", kernel_socket_err);
++			status = _FAIL;
++		}
++
++	}
++
++	return status;
++}
++
++void rtw_btcoex_close_kernel_socket(_adapter *padapter)
++{
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++	if (pcoex_info->sock_open & KERNEL_SOCKET_OK) {
++		RTW_INFO("release kernel socket\n");
++		sock_release(pcoex_info->udpsock);
++		pcoex_info->sock_open &= ~(KERNEL_SOCKET_OK);
++		if (_TRUE == pcoex_info->BT_attend)
++			pcoex_info->BT_attend = _FALSE;
++
++		RTW_INFO("sock_open:%d, BT_attend:%d\n", pcoex_info->sock_open, pcoex_info->BT_attend);
++	}
++}
++
++void rtw_btcoex_init_socket(_adapter *padapter)
++{
++
++	u8 is_invite = _FALSE;
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++	RTW_INFO("%s\n", __func__);
++	if (_FALSE == pcoex_info->is_exist) {
++		_rtw_memset(pcoex_info, 0, sizeof(struct bt_coex_info));
++		pcoex_info->btcoex_wq = create_workqueue("BTCOEX");
++		INIT_DELAYED_WORK(&pcoex_info->recvmsg_work,
++				  (void *)rtw_btcoex_recvmsgbysocket);
++		pbtcoexadapter = padapter;
++		/* We expect BT is off if BT don't send ack to wifi */
++		RTW_INFO("We expect BT is off if BT send ack to wifi\n");
++		rtw_btcoex_pta_off_on_notify(pbtcoexadapter, _FALSE);
++		if (rtw_btcoex_create_kernel_socket(padapter) == _SUCCESS)
++			pcoex_info->is_exist = _TRUE;
++		else {
++			pcoex_info->is_exist = _FALSE;
++			pbtcoexadapter = NULL;
++		}
++
++		RTW_INFO("%s: pbtcoexadapter:%p, coex_info->is_exist: %s\n"
++			, __func__, pbtcoexadapter, pcoex_info->is_exist == _TRUE ? "TRUE" : "FALSE");
++	}
++}
++
++void rtw_btcoex_close_socket(_adapter *padapter)
++{
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++
++	RTW_INFO("%s--coex_info->is_exist: %s, pcoex_info->BT_attend:%s\n"
++		, __func__, pcoex_info->is_exist == _TRUE ? "TRUE" : "FALSE", pcoex_info->BT_attend == _TRUE ? "TRUE" : "FALSE");
++
++	if (_TRUE == pcoex_info->is_exist) {
++		if (_TRUE == pcoex_info->BT_attend) {
++			/*inform BT wifi leave*/
++			rtw_btcoex_sendmsgbysocket(padapter, wifi_leave, sizeof(wifi_leave), _FALSE);
++			msleep(50);
++		}
++
++		if (pcoex_info->btcoex_wq != NULL) {
++			flush_workqueue(pcoex_info->btcoex_wq);
++			destroy_workqueue(pcoex_info->btcoex_wq);
++		}
++
++		rtw_btcoex_close_kernel_socket(padapter);
++		pbtcoexadapter = NULL;
++		pcoex_info->is_exist = _FALSE;
++	}
++}
++
++void rtw_btcoex_dump_tx_msg(u8 *tx_msg, u8 len, u8 *msg_name)
++{
++	u8	i = 0;
++	RTW_INFO("======> Msg name: %s\n", msg_name);
++	for (i = 0; i < len; i++)
++		printk("%02x ", tx_msg[i]);
++	printk("\n");
++	RTW_INFO("Msg name: %s <======\n", msg_name);
++}
++
++/* Porting from Windows team */
++void rtw_btcoex_SendEventExtBtCoexControl(PADAPTER padapter, u8 bNeedDbgRsp, u8 dataLen, void *pData)
++{
++	u8			len = 0, tx_event_length = 0;
++	u8 			localBuf[32] = "";
++	u8			*pRetPar;
++	u8			opCode = 0;
++	u8			*pInBuf = (pu1Byte)pData;
++	u8			*pOpCodeContent;
++	rtw_HCI_event *pEvent;
++
++	opCode = pInBuf[0];
++
++	RTW_INFO("%s, OPCode:%02x\n", __func__, opCode);
++
++	pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++	/* len += bthci_ExtensionEventHeaderRtk(&localBuf[0], */
++	/*	HCI_EVENT_EXT_BT_COEX_CONTROL); */
++	pEvent->EventCode = HCI_EVENT_EXTENSION_RTK;
++	pEvent->Data[0] = HCI_EVENT_EXT_BT_COEX_CONTROL;	/* extension event code */
++	len++;
++
++	/* Return parameters starts from here */
++	pRetPar = &pEvent->Data[len];
++	_rtw_memcpy(&pRetPar[0], pData, dataLen);
++
++	len += dataLen;
++
++	pEvent->Length = len;
++
++	/* total tx event length + EventCode length + sizeof(length) */
++	tx_event_length = pEvent->Length + 2;
++#if 0
++	rtw_btcoex_dump_tx_msg((u8 *)pEvent, tx_event_length, "BT COEX CONTROL", _FALSE);
++#endif
++	rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++
++}
++
++/* Porting from Windows team */
++void rtw_btcoex_SendEventExtBtInfoControl(PADAPTER padapter, u8 dataLen, void *pData)
++{
++	rtw_HCI_event *pEvent;
++	u8			*pRetPar;
++	u8			len = 0, tx_event_length = 0;
++	u8 			localBuf[32] = "";
++
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++	PBT_MGNT		pBtMgnt = &pcoex_info->BtMgnt;
++
++	/* RTW_INFO("%s\n",__func__);*/
++	if (pBtMgnt->ExtConfig.HCIExtensionVer < 4) { /* not support */
++		RTW_INFO("ERROR: HCIExtensionVer = %d, HCIExtensionVer<4 !!!!\n", pBtMgnt->ExtConfig.HCIExtensionVer);
++		return;
++	}
++
++	pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++	/* len += bthci_ExtensionEventHeaderRtk(&localBuf[0], */
++	/*		HCI_EVENT_EXT_BT_INFO_CONTROL); */
++	pEvent->EventCode = HCI_EVENT_EXTENSION_RTK;
++	pEvent->Data[0] = HCI_EVENT_EXT_BT_INFO_CONTROL;		/* extension event code */
++	len++;
++
++	/* Return parameters starts from here */
++	pRetPar = &pEvent->Data[len];
++	_rtw_memcpy(&pRetPar[0], pData, dataLen);
++
++	len += dataLen;
++
++	pEvent->Length = len;
++
++	/* total tx event length + EventCode length + sizeof(length) */
++	tx_event_length = pEvent->Length + 2;
++#if 0
++	rtw_btcoex_dump_tx_msg((u8 *)pEvent, tx_event_length, "BT INFO CONTROL");
++#endif
++	rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++
++}
++
++void rtw_btcoex_SendScanNotify(PADAPTER padapter, u8 scanType)
++{
++	u8	len = 0, tx_event_length = 0;
++	u8 	localBuf[7] = "";
++	u8	*pRetPar;
++	u8	*pu1Temp;
++	rtw_HCI_event *pEvent;
++	struct bt_coex_info *pcoex_info = &padapter->coex_info;
++	PBT_MGNT		pBtMgnt = &pcoex_info->BtMgnt;
++
++	/*	if(!pBtMgnt->BtOperationOn)
++	 *		return; */
++
++	pEvent = (rtw_HCI_event *)(&localBuf[0]);
++
++	/*	len += bthci_ExtensionEventHeaderRtk(&localBuf[0],
++	 *			HCI_EVENT_EXT_WIFI_SCAN_NOTIFY); */
++
++	pEvent->EventCode = HCI_EVENT_EXTENSION_RTK;
++	pEvent->Data[0] = HCI_EVENT_EXT_WIFI_SCAN_NOTIFY;		/* extension event code */
++	len++;
++
++	/* Return parameters starts from here */
++	/* pRetPar = &PPacketIrpEvent->Data[len]; */
++	/* pu1Temp = (u8 *)&pRetPar[0]; */
++	/* *pu1Temp = scanType; */
++	pEvent->Data[len] = scanType;
++	len += 1;
++
++	pEvent->Length = len;
++
++	/* total tx event length + EventCode length + sizeof(length) */
++	tx_event_length = pEvent->Length + 2;
++#if 0
++	rtw_btcoex_dump_tx_msg((u8 *)pEvent, tx_event_length, "WIFI SCAN OPERATION");
++#endif
++	rtw_btcoex_sendmsgbysocket(padapter, (u8 *)pEvent, tx_event_length, _FALSE);
++}
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++#endif /* CONFIG_BT_COEXIST */
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_cmd.c b/drivers/net/wireless/rtl8812au/core/rtw_cmd.c
+new file mode 100644
+index 0000000..8bff0d0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_cmd.c
+@@ -0,0 +1,4445 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_CMD_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#ifndef DBG_CMD_EXECUTE
++	#define DBG_CMD_EXECUTE 0
++#endif
++
++/*
++Caller and the rtw_cmd_thread can protect cmd_q by spin_lock.
++No irqsave is necessary.
++*/
++
++sint	_rtw_init_cmd_priv(struct	cmd_priv *pcmdpriv)
++{
++	sint res = _SUCCESS;
++
++
++	_rtw_init_sema(&(pcmdpriv->cmd_queue_sema), 0);
++	/* _rtw_init_sema(&(pcmdpriv->cmd_done_sema), 0); */
++	_rtw_init_sema(&(pcmdpriv->terminate_cmdthread_sema), 0);
++
++
++	_rtw_init_queue(&(pcmdpriv->cmd_queue));
++
++	/* allocate DMA-able/Non-Page memory for cmd_buf and rsp_buf */
++
++	pcmdpriv->cmd_seq = 1;
++
++	pcmdpriv->cmd_allocated_buf = rtw_zmalloc(MAX_CMDSZ + CMDBUFF_ALIGN_SZ);
++
++	if (pcmdpriv->cmd_allocated_buf == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pcmdpriv->cmd_buf = pcmdpriv->cmd_allocated_buf  +  CMDBUFF_ALIGN_SZ - ((SIZE_PTR)(pcmdpriv->cmd_allocated_buf) & (CMDBUFF_ALIGN_SZ - 1));
++
++	pcmdpriv->rsp_allocated_buf = rtw_zmalloc(MAX_RSPSZ + 4);
++
++	if (pcmdpriv->rsp_allocated_buf == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pcmdpriv->rsp_buf = pcmdpriv->rsp_allocated_buf  +  4 - ((SIZE_PTR)(pcmdpriv->rsp_allocated_buf) & 3);
++
++	pcmdpriv->cmd_issued_cnt = pcmdpriv->cmd_done_cnt = pcmdpriv->rsp_cnt = 0;
++
++	_rtw_mutex_init(&pcmdpriv->sctx_mutex);
++exit:
++
++
++	return res;
++
++}
++
++#ifdef CONFIG_C2H_WK
++static void c2h_wk_callback(_workitem *work);
++#endif
++sint _rtw_init_evt_priv(struct evt_priv *pevtpriv)
++{
++	sint res = _SUCCESS;
++
++
++#ifdef CONFIG_H2CLBK
++	_rtw_init_sema(&(pevtpriv->lbkevt_done), 0);
++	pevtpriv->lbkevt_limit = 0;
++	pevtpriv->lbkevt_num = 0;
++	pevtpriv->cmdevt_parm = NULL;
++#endif
++
++	/* allocate DMA-able/Non-Page memory for cmd_buf and rsp_buf */
++	ATOMIC_SET(&pevtpriv->event_seq, 0);
++	pevtpriv->evt_done_cnt = 0;
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++
++	_rtw_init_sema(&(pevtpriv->evt_notify), 0);
++	_rtw_init_sema(&(pevtpriv->terminate_evtthread_sema), 0);
++
++	pevtpriv->evt_allocated_buf = rtw_zmalloc(MAX_EVTSZ + 4);
++	if (pevtpriv->evt_allocated_buf == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	pevtpriv->evt_buf = pevtpriv->evt_allocated_buf  +  4 - ((unsigned int)(pevtpriv->evt_allocated_buf) & 3);
++
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	pevtpriv->allocated_c2h_mem = rtw_zmalloc(C2H_MEM_SZ + 4);
++
++	if (pevtpriv->allocated_c2h_mem == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pevtpriv->c2h_mem = pevtpriv->allocated_c2h_mem +  4\
++			    - ((u32)(pevtpriv->allocated_c2h_mem) & 3);
++#ifdef PLATFORM_OS_XP
++	pevtpriv->pc2h_mdl = IoAllocateMdl((u8 *)pevtpriv->c2h_mem, C2H_MEM_SZ , FALSE, FALSE, NULL);
++
++	if (pevtpriv->pc2h_mdl == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	MmBuildMdlForNonPagedPool(pevtpriv->pc2h_mdl);
++#endif
++#endif /* end of CONFIG_SDIO_HCI */
++
++	_rtw_init_queue(&(pevtpriv->evt_queue));
++
++exit:
++
++#endif /* end of CONFIG_EVENT_THREAD_MODE */
++
++#ifdef CONFIG_C2H_WK
++	_init_workitem(&pevtpriv->c2h_wk, c2h_wk_callback, NULL);
++	pevtpriv->c2h_wk_alive = _FALSE;
++	pevtpriv->c2h_queue = rtw_cbuf_alloc(C2H_QUEUE_MAX_LEN + 1);
++#endif
++
++
++	return res;
++}
++
++void _rtw_free_evt_priv(struct	evt_priv *pevtpriv)
++{
++
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++	_rtw_free_sema(&(pevtpriv->evt_notify));
++	_rtw_free_sema(&(pevtpriv->terminate_evtthread_sema));
++
++
++	if (pevtpriv->evt_allocated_buf)
++		rtw_mfree(pevtpriv->evt_allocated_buf, MAX_EVTSZ + 4);
++#endif
++
++#ifdef CONFIG_C2H_WK
++	_cancel_workitem_sync(&pevtpriv->c2h_wk);
++	while (pevtpriv->c2h_wk_alive)
++		rtw_msleep_os(10);
++
++	while (!rtw_cbuf_empty(pevtpriv->c2h_queue)) {
++		void *c2h;
++		c2h = rtw_cbuf_pop(pevtpriv->c2h_queue);
++		if (c2h != NULL && c2h != (void *)pevtpriv)
++			rtw_mfree(c2h, 16);
++	}
++	rtw_cbuf_free(pevtpriv->c2h_queue);
++#endif
++
++
++
++}
++
++void _rtw_free_cmd_priv(struct	cmd_priv *pcmdpriv)
++{
++
++	if (pcmdpriv) {
++		_rtw_spinlock_free(&(pcmdpriv->cmd_queue.lock));
++		_rtw_free_sema(&(pcmdpriv->cmd_queue_sema));
++		/* _rtw_free_sema(&(pcmdpriv->cmd_done_sema)); */
++		_rtw_free_sema(&(pcmdpriv->terminate_cmdthread_sema));
++
++		if (pcmdpriv->cmd_allocated_buf)
++			rtw_mfree(pcmdpriv->cmd_allocated_buf, MAX_CMDSZ + CMDBUFF_ALIGN_SZ);
++
++		if (pcmdpriv->rsp_allocated_buf)
++			rtw_mfree(pcmdpriv->rsp_allocated_buf, MAX_RSPSZ + 4);
++
++		_rtw_mutex_free(&pcmdpriv->sctx_mutex);
++	}
++}
++
++/*
++Calling Context:
++
++rtw_enqueue_cmd can only be called between kernel thread,
++since only spin_lock is used.
++
++ISR/Call-Back functions can't call this sub-function.
++
++*/
++#ifdef DBG_CMD_QUEUE
++extern u8 dump_cmd_id;
++#endif
++
++sint _rtw_enqueue_cmd(_queue *queue, struct cmd_obj *obj, bool to_head)
++{
++	_irqL irqL;
++
++
++	if (obj == NULL)
++		goto exit;
++
++	/* _enter_critical_bh(&queue->lock, &irqL); */
++	_enter_critical(&queue->lock, &irqL);
++
++	if (to_head)
++		rtw_list_insert_head(&obj->list, &queue->queue);
++	else
++		rtw_list_insert_tail(&obj->list, &queue->queue);
++
++#ifdef DBG_CMD_QUEUE
++	if (dump_cmd_id) {
++		printk("%s===> cmdcode:0x%02x\n", __FUNCTION__, obj->cmdcode);
++		if (obj->cmdcode == GEN_CMD_CODE(_Set_MLME_EVT)) {
++			if (obj->parmbuf) {
++				struct C2HEvent_Header *pc2h_evt_hdr = (struct C2HEvent_Header *)(obj->parmbuf);
++				printk("pc2h_evt_hdr->ID:0x%02x(%d)\n", pc2h_evt_hdr->ID, pc2h_evt_hdr->ID);
++			}
++		}
++		if (obj->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra)) {
++			if (obj->parmbuf) {
++				struct drvextra_cmd_parm *pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)(obj->parmbuf);
++				printk("pdrvextra_cmd_parm->ec_id:0x%02x\n", pdrvextra_cmd_parm->ec_id);
++			}
++		}
++	}
++
++	if (queue->queue.prev->next != &queue->queue) {
++		RTW_INFO("[%d] head %p, tail %p, tail->prev->next %p[tail], tail->next %p[head]\n", __LINE__,
++			&queue->queue, queue->queue.prev, queue->queue.prev->prev->next, queue->queue.prev->next);
++
++		RTW_INFO("==========%s============\n", __FUNCTION__);
++		RTW_INFO("head:%p,obj_addr:%p\n", &queue->queue, obj);
++		RTW_INFO("padapter: %p\n", obj->padapter);
++		RTW_INFO("cmdcode: 0x%02x\n", obj->cmdcode);
++		RTW_INFO("res: %d\n", obj->res);
++		RTW_INFO("parmbuf: %p\n", obj->parmbuf);
++		RTW_INFO("cmdsz: %d\n", obj->cmdsz);
++		RTW_INFO("rsp: %p\n", obj->rsp);
++		RTW_INFO("rspsz: %d\n", obj->rspsz);
++		RTW_INFO("sctx: %p\n", obj->sctx);
++		RTW_INFO("list->next: %p\n", obj->list.next);
++		RTW_INFO("list->prev: %p\n", obj->list.prev);
++	}
++#endif /* DBG_CMD_QUEUE */
++
++	/* _exit_critical_bh(&queue->lock, &irqL);	 */
++	_exit_critical(&queue->lock, &irqL);
++
++exit:
++
++
++	return _SUCCESS;
++}
++
++struct	cmd_obj	*_rtw_dequeue_cmd(_queue *queue)
++{
++	_irqL irqL;
++	struct cmd_obj *obj;
++
++
++	/* _enter_critical_bh(&(queue->lock), &irqL); */
++	_enter_critical(&queue->lock, &irqL);
++
++#ifdef DBG_CMD_QUEUE
++	if (queue->queue.prev->next != &queue->queue) {
++		RTW_INFO("[%d] head %p, tail %p, tail->prev->next %p[tail], tail->next %p[head]\n", __LINE__,
++			&queue->queue, queue->queue.prev, queue->queue.prev->prev->next, queue->queue.prev->next);
++	}
++#endif /* DBG_CMD_QUEUE */
++
++
++	if (rtw_is_list_empty(&(queue->queue)))
++		obj = NULL;
++	else {
++		obj = LIST_CONTAINOR(get_next(&(queue->queue)), struct cmd_obj, list);
++
++#ifdef DBG_CMD_QUEUE
++		if (queue->queue.prev->next != &queue->queue) {
++			RTW_INFO("==========%s============\n", __FUNCTION__);
++			RTW_INFO("head:%p,obj_addr:%p\n", &queue->queue, obj);
++			RTW_INFO("padapter: %p\n", obj->padapter);
++			RTW_INFO("cmdcode: 0x%02x\n", obj->cmdcode);
++			RTW_INFO("res: %d\n", obj->res);
++			RTW_INFO("parmbuf: %p\n", obj->parmbuf);
++			RTW_INFO("cmdsz: %d\n", obj->cmdsz);
++			RTW_INFO("rsp: %p\n", obj->rsp);
++			RTW_INFO("rspsz: %d\n", obj->rspsz);
++			RTW_INFO("sctx: %p\n", obj->sctx);
++			RTW_INFO("list->next: %p\n", obj->list.next);
++			RTW_INFO("list->prev: %p\n", obj->list.prev);
++		}
++
++		if (dump_cmd_id) {
++			RTW_INFO("%s===> cmdcode:0x%02x\n", __FUNCTION__, obj->cmdcode);
++			if (obj->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra)) {
++				if (obj->parmbuf) {
++					struct drvextra_cmd_parm *pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)(obj->parmbuf);
++					printk("pdrvextra_cmd_parm->ec_id:0x%02x\n", pdrvextra_cmd_parm->ec_id);
++				}
++			}
++
++		}
++#endif /* DBG_CMD_QUEUE */
++
++		rtw_list_delete(&obj->list);
++	}
++
++	/* _exit_critical_bh(&(queue->lock), &irqL); */
++	_exit_critical(&queue->lock, &irqL);
++
++
++	return obj;
++}
++
++u32	rtw_init_cmd_priv(struct cmd_priv *pcmdpriv)
++{
++	u32	res;
++	res = _rtw_init_cmd_priv(pcmdpriv);
++	return res;
++}
++
++u32	rtw_init_evt_priv(struct	evt_priv *pevtpriv)
++{
++	int	res;
++	res = _rtw_init_evt_priv(pevtpriv);
++	return res;
++}
++
++void rtw_free_evt_priv(struct	evt_priv *pevtpriv)
++{
++	_rtw_free_evt_priv(pevtpriv);
++}
++
++void rtw_free_cmd_priv(struct	cmd_priv *pcmdpriv)
++{
++	_rtw_free_cmd_priv(pcmdpriv);
++}
++
++int rtw_cmd_filter(struct cmd_priv *pcmdpriv, struct cmd_obj *cmd_obj);
++int rtw_cmd_filter(struct cmd_priv *pcmdpriv, struct cmd_obj *cmd_obj)
++{
++	u8 bAllow = _FALSE; /* set to _TRUE to allow enqueuing cmd when hw_init_completed is _FALSE */
++
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++	/* To decide allow or not */
++	if ((adapter_to_pwrctl(pcmdpriv->padapter)->bHWPwrPindetect)
++	    && (!pcmdpriv->padapter->registrypriv.usbss_enable)
++	   ) {
++		if (cmd_obj->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra)) {
++			struct drvextra_cmd_parm	*pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)cmd_obj->parmbuf;
++			if (pdrvextra_cmd_parm->ec_id == POWER_SAVING_CTRL_WK_CID) {
++				/* RTW_INFO("==>enqueue POWER_SAVING_CTRL_WK_CID\n"); */
++				bAllow = _TRUE;
++			}
++		}
++	}
++#endif
++
++#ifndef CONFIG_C2H_PACKET_EN
++	/* C2H should be always allowed */
++	if (cmd_obj->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra)) {
++		struct drvextra_cmd_parm *pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)cmd_obj->parmbuf;
++		if (pdrvextra_cmd_parm->ec_id == C2H_WK_CID)
++			bAllow = _TRUE;
++	}
++#endif
++
++	if (cmd_obj->cmdcode == GEN_CMD_CODE(_SetChannelPlan))
++		bAllow = _TRUE;
++
++	if (cmd_obj->no_io)
++		bAllow = _TRUE;
++
++	if ((!rtw_is_hw_init_completed(pcmdpriv->padapter) && (bAllow == _FALSE))
++	    || ATOMIC_READ(&(pcmdpriv->cmdthd_running)) == _FALSE	/* com_thread not running */
++	   ) {
++		if (DBG_CMD_EXECUTE)
++			RTW_INFO(ADPT_FMT" drop "CMD_FMT" hw_init_completed:%u, cmdthd_running:%u\n", ADPT_ARG(cmd_obj->padapter)
++				, CMD_ARG(cmd_obj), rtw_get_hw_init_completed(cmd_obj->padapter), ATOMIC_READ(&pcmdpriv->cmdthd_running));
++		if (0)
++			rtw_warn_on(1);
++
++		return _FAIL;
++	}
++	return _SUCCESS;
++}
++
++
++
++u32 rtw_enqueue_cmd(struct cmd_priv *pcmdpriv, struct cmd_obj *cmd_obj)
++{
++	int res = _FAIL;
++	PADAPTER padapter = pcmdpriv->padapter;
++
++
++	if (cmd_obj == NULL)
++		goto exit;
++
++	cmd_obj->padapter = padapter;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	/* change pcmdpriv to primary's pcmdpriv */
++	if (padapter->adapter_type != PRIMARY_ADAPTER)
++		pcmdpriv = &(GET_PRIMARY_ADAPTER(padapter)->cmdpriv);
++#endif
++
++	res = rtw_cmd_filter(pcmdpriv, cmd_obj);
++	if ((_FAIL == res) || (cmd_obj->cmdsz > MAX_CMDSZ)) {
++		if (cmd_obj->cmdsz > MAX_CMDSZ) {
++			RTW_INFO("%s failed due to obj->cmdsz(%d) > MAX_CMDSZ(%d)\n", __func__, cmd_obj->cmdsz, MAX_CMDSZ);
++			rtw_warn_on(1);
++		}
++
++		if (cmd_obj->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra)) {
++			struct drvextra_cmd_parm *extra_parm = (struct drvextra_cmd_parm *)cmd_obj->parmbuf;
++
++			if (extra_parm->pbuf && extra_parm->size > 0)
++				rtw_mfree(extra_parm->pbuf, extra_parm->size);
++		}
++		rtw_free_cmd_obj(cmd_obj);
++		goto exit;
++	}
++
++	res = _rtw_enqueue_cmd(&pcmdpriv->cmd_queue, cmd_obj, 0);
++
++	if (res == _SUCCESS)
++		_rtw_up_sema(&pcmdpriv->cmd_queue_sema);
++
++exit:
++
++
++	return res;
++}
++
++struct	cmd_obj	*rtw_dequeue_cmd(struct cmd_priv *pcmdpriv)
++{
++	struct cmd_obj *cmd_obj;
++
++
++	cmd_obj = _rtw_dequeue_cmd(&pcmdpriv->cmd_queue);
++
++	return cmd_obj;
++}
++
++void rtw_cmd_clr_isr(struct	cmd_priv *pcmdpriv)
++{
++	pcmdpriv->cmd_done_cnt++;
++	/* _rtw_up_sema(&(pcmdpriv->cmd_done_sema)); */
++}
++
++void rtw_free_cmd_obj(struct cmd_obj *pcmd)
++{
++	struct drvextra_cmd_parm *extra_parm = NULL;
++
++	if (pcmd->parmbuf != NULL) {
++		/* free parmbuf in cmd_obj */
++		rtw_mfree((unsigned char *)pcmd->parmbuf, pcmd->cmdsz);
++	}
++	if (pcmd->rsp != NULL) {
++		if (pcmd->rspsz != 0) {
++			/* free rsp in cmd_obj */
++			rtw_mfree((unsigned char *)pcmd->rsp, pcmd->rspsz);
++		}
++	}
++
++	/* free cmd_obj */
++	rtw_mfree((unsigned char *)pcmd, sizeof(struct cmd_obj));
++
++}
++
++
++void rtw_stop_cmd_thread(_adapter *adapter)
++{
++	if (adapter->cmdThread &&
++	    ATOMIC_READ(&(adapter->cmdpriv.cmdthd_running)) == _TRUE &&
++	    adapter->cmdpriv.stop_req == 0) {
++		adapter->cmdpriv.stop_req = 1;
++		_rtw_up_sema(&adapter->cmdpriv.cmd_queue_sema);
++		_rtw_down_sema(&adapter->cmdpriv.terminate_cmdthread_sema);
++	}
++}
++
++thread_return rtw_cmd_thread(thread_context context)
++{
++	u8 ret;
++	struct cmd_obj *pcmd;
++	u8 *pcmdbuf, *prspbuf;
++	u32 cmd_start_time;
++	u32 cmd_process_time;
++	u8(*cmd_hdl)(_adapter *padapter, u8 *pbuf);
++	void (*pcmd_callback)(_adapter *dev, struct cmd_obj *pcmd);
++	PADAPTER padapter = (PADAPTER)context;
++	struct cmd_priv *pcmdpriv = &(padapter->cmdpriv);
++	struct drvextra_cmd_parm *extra_parm = NULL;
++	_irqL irqL;
++
++	thread_enter("RTW_CMD_THREAD");
++
++	pcmdbuf = pcmdpriv->cmd_buf;
++	prspbuf = pcmdpriv->rsp_buf;
++
++	pcmdpriv->stop_req = 0;
++	ATOMIC_SET(&(pcmdpriv->cmdthd_running), _TRUE);
++	_rtw_up_sema(&pcmdpriv->terminate_cmdthread_sema);
++
++
++	while (1) {
++		if (_rtw_down_sema(&pcmdpriv->cmd_queue_sema) == _FAIL) {
++			RTW_PRINT(FUNC_ADPT_FMT" _rtw_down_sema(&pcmdpriv->cmd_queue_sema) return _FAIL, break\n", FUNC_ADPT_ARG(padapter));
++			break;
++		}
++
++		if (RTW_CANNOT_RUN(padapter)) {
++			RTW_PRINT("%s: DriverStopped(%s) SurpriseRemoved(%s) break at line %d\n",
++				  __func__
++				, rtw_is_drv_stopped(padapter) ? "True" : "False"
++				, rtw_is_surprise_removed(padapter) ? "True" : "False"
++				  , __LINE__);
++			break;
++		}
++
++		if (pcmdpriv->stop_req) {
++			RTW_PRINT(FUNC_ADPT_FMT" stop_req:%u, break\n", FUNC_ADPT_ARG(padapter), pcmdpriv->stop_req);
++			break;
++		}
++
++		_enter_critical(&pcmdpriv->cmd_queue.lock, &irqL);
++		if (rtw_is_list_empty(&(pcmdpriv->cmd_queue.queue))) {
++			/* RTW_INFO("%s: cmd queue is empty!\n", __func__); */
++			_exit_critical(&pcmdpriv->cmd_queue.lock, &irqL);
++			continue;
++		}
++		_exit_critical(&pcmdpriv->cmd_queue.lock, &irqL);
++
++_next:
++		if (RTW_CANNOT_RUN(padapter)) {
++			RTW_PRINT("%s: DriverStopped(%s) SurpriseRemoved(%s) break at line %d\n",
++				  __func__
++				, rtw_is_drv_stopped(padapter) ? "True" : "False"
++				, rtw_is_surprise_removed(padapter) ? "True" : "False"
++				  , __LINE__);
++			break;
++		}
++
++		pcmd = rtw_dequeue_cmd(pcmdpriv);
++		if (!pcmd) {
++#ifdef CONFIG_LPS_LCLK
++			rtw_unregister_cmd_alive(padapter);
++#endif
++			continue;
++		}
++
++		cmd_start_time = rtw_get_current_time();
++		pcmdpriv->cmd_issued_cnt++;
++
++		if (pcmd->cmdsz > MAX_CMDSZ) {
++			RTW_ERR("%s cmdsz:%d > MAX_CMDSZ:%d\n", __func__, pcmd->cmdsz, MAX_CMDSZ);
++			pcmd->res = H2C_PARAMETERS_ERROR;
++			goto post_process;
++		}
++
++		if (pcmd->cmdcode >= (sizeof(wlancmds) / sizeof(struct cmd_hdl))) {
++			RTW_ERR("%s undefined cmdcode:%d\n", __func__, pcmd->cmdcode);
++			pcmd->res = H2C_PARAMETERS_ERROR;
++			goto post_process;
++		}
++
++		cmd_hdl = wlancmds[pcmd->cmdcode].h2cfuns;
++		if (!cmd_hdl) {
++			RTW_ERR("%s no cmd_hdl for cmdcode:%d\n", __func__, pcmd->cmdcode);
++			pcmd->res = H2C_PARAMETERS_ERROR;
++			goto post_process;
++		}
++
++		if (_FAIL == rtw_cmd_filter(pcmdpriv, pcmd)) {
++			pcmd->res = H2C_DROPPED;
++			if (pcmd->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra)) {
++				extra_parm = (struct drvextra_cmd_parm *)pcmd->parmbuf;
++				if (extra_parm && extra_parm->pbuf && extra_parm->size > 0)
++					rtw_mfree(extra_parm->pbuf, extra_parm->size);
++			}
++			goto post_process;
++		}
++
++#ifdef CONFIG_LPS_LCLK
++		if (pcmd->no_io)
++			rtw_unregister_cmd_alive(padapter);
++		else {
++			if (rtw_register_cmd_alive(padapter) != _SUCCESS) {
++				if (DBG_CMD_EXECUTE)
++					RTW_PRINT("%s: wait to leave LPS_LCLK\n", __func__);
++
++				pcmd->res = H2C_ENQ_HEAD;
++				ret = _rtw_enqueue_cmd(&pcmdpriv->cmd_queue, pcmd, 1);
++				if (ret == _SUCCESS) {
++					if (DBG_CMD_EXECUTE)
++						RTW_INFO(ADPT_FMT" "CMD_FMT" ENQ_HEAD\n", ADPT_ARG(pcmd->padapter), CMD_ARG(pcmd));
++					continue;
++				}
++
++				RTW_INFO(ADPT_FMT" "CMD_FMT" ENQ_HEAD_FAIL\n", ADPT_ARG(pcmd->padapter), CMD_ARG(pcmd));
++				pcmd->res = H2C_ENQ_HEAD_FAIL;
++				rtw_warn_on(1);
++			}
++		}
++#endif /* CONFIG_LPS_LCLK */
++
++		if (DBG_CMD_EXECUTE)
++			RTW_INFO(ADPT_FMT" "CMD_FMT" %sexecute\n", ADPT_ARG(pcmd->padapter), CMD_ARG(pcmd)
++				, pcmd->res == H2C_ENQ_HEAD ? "ENQ_HEAD " : (pcmd->res == H2C_ENQ_HEAD_FAIL ? "ENQ_HEAD_FAIL " : ""));
++
++		_rtw_memcpy(pcmdbuf, pcmd->parmbuf, pcmd->cmdsz);
++		ret = cmd_hdl(pcmd->padapter, pcmdbuf);
++		pcmd->res = ret;
++
++		pcmdpriv->cmd_seq++;
++
++post_process:
++
++		_enter_critical_mutex(&(pcmd->padapter->cmdpriv.sctx_mutex), NULL);
++		if (pcmd->sctx) {
++			if (0)
++				RTW_PRINT(FUNC_ADPT_FMT" pcmd->sctx\n",
++					  FUNC_ADPT_ARG(pcmd->padapter));
++			if (pcmd->res == H2C_SUCCESS)
++				rtw_sctx_done(&pcmd->sctx);
++			else
++				rtw_sctx_done_err(&pcmd->sctx, RTW_SCTX_DONE_CMD_ERROR);
++		}
++		_exit_critical_mutex(&(pcmd->padapter->cmdpriv.sctx_mutex), NULL);
++
++		cmd_process_time = rtw_get_passing_time_ms(cmd_start_time);
++		if (cmd_process_time > 1000) {
++			RTW_INFO(ADPT_FMT" "CMD_FMT" process_time=%d\n", ADPT_ARG(pcmd->padapter), CMD_ARG(pcmd), cmd_process_time);
++			if (0)
++				rtw_warn_on(1);
++		}
++
++		/* call callback function for post-processed */
++		if (pcmd->cmdcode < (sizeof(rtw_cmd_callback) / sizeof(struct _cmd_callback))) {
++			pcmd_callback = rtw_cmd_callback[pcmd->cmdcode].callback;
++			if (pcmd_callback == NULL) {
++				rtw_free_cmd_obj(pcmd);
++			} else {
++				/* todo: !!! fill rsp_buf to pcmd->rsp if (pcmd->rsp!=NULL) */
++				pcmd_callback(pcmd->padapter, pcmd);/* need conider that free cmd_obj in rtw_cmd_callback */
++			}
++		} else {
++			rtw_free_cmd_obj(pcmd);
++		}
++
++		flush_signals_thread();
++
++		goto _next;
++
++	}
++
++#ifdef CONFIG_LPS_LCLK
++	rtw_unregister_cmd_alive(padapter);
++#endif
++
++	/* to avoid enqueue cmd after free all cmd_obj */
++	ATOMIC_SET(&(pcmdpriv->cmdthd_running), _FALSE);
++
++	/* free all cmd_obj resources */
++	do {
++		pcmd = rtw_dequeue_cmd(pcmdpriv);
++		if (pcmd == NULL)
++			break;
++
++		if (0)
++			RTW_INFO("%s: leaving... drop "CMD_FMT"\n", __func__, CMD_ARG(pcmd));
++
++		if (pcmd->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra)) {
++			extra_parm = (struct drvextra_cmd_parm *)pcmd->parmbuf;
++			if (extra_parm->pbuf && extra_parm->size > 0)
++				rtw_mfree(extra_parm->pbuf, extra_parm->size);
++		}
++
++		rtw_free_cmd_obj(pcmd);
++	} while (1);
++
++	_rtw_up_sema(&pcmdpriv->terminate_cmdthread_sema);
++
++
++	thread_exit();
++
++}
++
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++u32 rtw_enqueue_evt(struct evt_priv *pevtpriv, struct evt_obj *obj)
++{
++	_irqL irqL;
++	int	res;
++	_queue *queue = &pevtpriv->evt_queue;
++
++
++	res = _SUCCESS;
++
++	if (obj == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	rtw_list_insert_tail(&obj->list, &queue->queue);
++
++	_exit_critical_bh(&queue->lock, &irqL);
++
++	/* rtw_evt_notify_isr(pevtpriv); */
++
++exit:
++
++
++	return res;
++}
++
++struct evt_obj *rtw_dequeue_evt(_queue *queue)
++{
++	_irqL irqL;
++	struct	evt_obj	*pevtobj;
++
++
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	if (rtw_is_list_empty(&(queue->queue)))
++		pevtobj = NULL;
++	else {
++		pevtobj = LIST_CONTAINOR(get_next(&(queue->queue)), struct evt_obj, list);
++		rtw_list_delete(&pevtobj->list);
++	}
++
++	_exit_critical_bh(&queue->lock, &irqL);
++
++
++	return pevtobj;
++}
++
++void rtw_free_evt_obj(struct evt_obj *pevtobj)
++{
++
++	if (pevtobj->parmbuf)
++		rtw_mfree((unsigned char *)pevtobj->parmbuf, pevtobj->evtsz);
++
++	rtw_mfree((unsigned char *)pevtobj, sizeof(struct evt_obj));
++
++}
++
++void rtw_evt_notify_isr(struct evt_priv *pevtpriv)
++{
++	pevtpriv->evt_done_cnt++;
++	_rtw_up_sema(&(pevtpriv->evt_notify));
++}
++#endif
++
++
++/*
++u8 rtw_setstandby_cmd(unsigned char  *adapter)
++*/
++u8 rtw_setstandby_cmd(_adapter *padapter, uint action)
++{
++	struct cmd_obj			*ph2c;
++	struct usb_suspend_parm	*psetusbsuspend;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++
++	u8 ret = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		ret = _FAIL;
++		goto exit;
++	}
++
++	psetusbsuspend = (struct usb_suspend_parm *)rtw_zmalloc(sizeof(struct usb_suspend_parm));
++	if (psetusbsuspend == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		ret = _FAIL;
++		goto exit;
++	}
++
++	psetusbsuspend->action = action;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psetusbsuspend, GEN_CMD_CODE(_SetUsbSuspend));
++
++	ret = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return ret;
++}
++
++/*
++rtw_sitesurvey_cmd(~)
++	### NOTE:#### (!!!!)
++	MUST TAKE CARE THAT BEFORE CALLING THIS FUNC, YOU SHOULD HAVE LOCKED pmlmepriv->lock
++*/
++u8 rtw_sitesurvey_cmd(_adapter  *padapter, NDIS_802_11_SSID *ssid, int ssid_num,
++		      struct rtw_ieee80211_channel *ch, int ch_num)
++{
++	u8 res = _FAIL;
++	struct cmd_obj		*ph2c;
++	struct sitesurvey_parm	*psurveyPara;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++
++
++#ifdef CONFIG_LPS
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_SCAN, 1);
++#endif
++
++#ifdef CONFIG_P2P_PS
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		p2p_ps_wk_cmd(padapter, P2P_PS_SCAN, 1);
++#endif /* CONFIG_P2P_PS */
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL)
++		return _FAIL;
++
++	psurveyPara = (struct sitesurvey_parm *)rtw_zmalloc(sizeof(struct sitesurvey_parm));
++	if (psurveyPara == NULL) {
++		rtw_mfree((unsigned char *) ph2c, sizeof(struct cmd_obj));
++		return _FAIL;
++	}
++
++	rtw_free_network_queue(padapter, _FALSE);
++
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psurveyPara, GEN_CMD_CODE(_SiteSurvey));
++
++	/* psurveyPara->bsslimit = 48; */
++	psurveyPara->scan_mode = pmlmepriv->scan_mode;
++
++	/* prepare ssid list */
++	if (ssid) {
++		int i;
++		for (i = 0; i < ssid_num && i < RTW_SSID_SCAN_AMOUNT; i++) {
++			if (ssid[i].SsidLength) {
++				_rtw_memcpy(&psurveyPara->ssid[i], &ssid[i], sizeof(NDIS_802_11_SSID));
++				psurveyPara->ssid_num++;
++				if (0)
++					RTW_INFO(FUNC_ADPT_FMT" ssid:(%s, %d)\n", FUNC_ADPT_ARG(padapter),
++						psurveyPara->ssid[i].Ssid, psurveyPara->ssid[i].SsidLength);
++			}
++		}
++	}
++
++	/* prepare channel list */
++	if (ch) {
++		int i;
++		for (i = 0; i < ch_num && i < RTW_CHANNEL_SCAN_AMOUNT; i++) {
++			if (ch[i].hw_value && !(ch[i].flags & RTW_IEEE80211_CHAN_DISABLED)) {
++				_rtw_memcpy(&psurveyPara->ch[i], &ch[i], sizeof(struct rtw_ieee80211_channel));
++				psurveyPara->ch_num++;
++				if (0)
++					RTW_INFO(FUNC_ADPT_FMT" ch:%u\n", FUNC_ADPT_ARG(padapter),
++						 psurveyPara->ch[i].hw_value);
++			}
++		}
++	}
++
++	set_fwstate(pmlmepriv, _FW_UNDER_SURVEY);
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++	if (res == _SUCCESS) {
++
++		pmlmepriv->scan_start_time = rtw_get_current_time();
++
++#ifdef CONFIG_SCAN_BACKOP
++		if (rtw_mi_buddy_check_mlmeinfo_state(padapter, WIFI_FW_AP_STATE)) {
++			if (IsSupported5G(padapter->registrypriv.wireless_mode)
++			    && IsSupported24G(padapter->registrypriv.wireless_mode)) /* dual band */
++				mlme_set_scan_to_timer(pmlmepriv, CONC_SCANNING_TIMEOUT_DUAL_BAND);
++			else /* single band */
++				mlme_set_scan_to_timer(pmlmepriv, CONC_SCANNING_TIMEOUT_SINGLE_BAND);
++		} else
++#endif /* CONFIG_SCAN_BACKOP */
++			mlme_set_scan_to_timer(pmlmepriv, SCANNING_TIMEOUT);
++
++		rtw_led_control(padapter, LED_CTL_SITE_SURVEY);
++	} else
++		_clr_fwstate_(pmlmepriv, _FW_UNDER_SURVEY);
++
++
++	return res;
++}
++
++u8 rtw_setdatarate_cmd(_adapter *padapter, u8 *rateset)
++{
++	struct cmd_obj			*ph2c;
++	struct setdatarate_parm	*pbsetdataratepara;
++	struct cmd_priv		*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pbsetdataratepara = (struct setdatarate_parm *)rtw_zmalloc(sizeof(struct setdatarate_parm));
++	if (pbsetdataratepara == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pbsetdataratepara, GEN_CMD_CODE(_SetDataRate));
++#ifdef MP_FIRMWARE_OFFLOAD
++	pbsetdataratepara->curr_rateidx = *(u32 *)rateset;
++	/*	_rtw_memcpy(pbsetdataratepara, rateset, sizeof(u32)); */
++#else
++	pbsetdataratepara->mac_id = 5;
++	_rtw_memcpy(pbsetdataratepara->datarates, rateset, NumRates);
++#endif
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++
++
++	return res;
++}
++
++u8 rtw_setbasicrate_cmd(_adapter *padapter, u8 *rateset)
++{
++	struct cmd_obj			*ph2c;
++	struct setbasicrate_parm	*pssetbasicratepara;
++	struct cmd_priv		*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	pssetbasicratepara = (struct setbasicrate_parm *)rtw_zmalloc(sizeof(struct setbasicrate_parm));
++
++	if (pssetbasicratepara == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pssetbasicratepara, _SetBasicRate_CMD_);
++
++	_rtw_memcpy(pssetbasicratepara->basicrates, rateset, NumRates);
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++
++
++	return res;
++}
++
++
++/*
++unsigned char rtw_setphy_cmd(unsigned char  *adapter)
++
++1.  be called only after rtw_update_registrypriv_dev_network( ~) or mp testing program
++2.  for AdHoc/Ap mode or mp mode?
++
++*/
++u8 rtw_setphy_cmd(_adapter *padapter, u8 modem, u8 ch)
++{
++	struct cmd_obj			*ph2c;
++	struct setphy_parm		*psetphypara;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	/*	struct mlme_priv			*pmlmepriv = &padapter->mlmepriv;
++	 *	struct registry_priv*		pregistry_priv = &padapter->registrypriv; */
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	psetphypara = (struct setphy_parm *)rtw_zmalloc(sizeof(struct setphy_parm));
++
++	if (psetphypara == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psetphypara, _SetPhy_CMD_);
++
++
++	psetphypara->modem = modem;
++	psetphypara->rfchannel = ch;
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++	return res;
++}
++
++u8 rtw_getmacreg_cmd(_adapter *padapter, u8 len, u32 addr)
++{
++	struct cmd_obj *ph2c;
++	struct readMAC_parm *preadmacparm;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	preadmacparm = (struct readMAC_parm *)rtw_zmalloc(sizeof(struct readMAC_parm));
++
++	if (preadmacparm == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, preadmacparm, GEN_CMD_CODE(_GetMACReg));
++
++	preadmacparm->len = len;
++	preadmacparm->addr = addr;
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++	return res;
++}
++
++void rtw_usb_catc_trigger_cmd(_adapter *padapter, const char *caller)
++{
++	RTW_INFO("%s caller:%s\n", __func__, caller);
++	rtw_getmacreg_cmd(padapter, 1, 0x1c4);
++}
++
++u8 rtw_setbbreg_cmd(_adapter *padapter, u8 offset, u8 val)
++{
++	struct cmd_obj			*ph2c;
++	struct writeBB_parm		*pwritebbparm;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	pwritebbparm = (struct writeBB_parm *)rtw_zmalloc(sizeof(struct writeBB_parm));
++
++	if (pwritebbparm == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pwritebbparm, GEN_CMD_CODE(_SetBBReg));
++
++	pwritebbparm->offset = offset;
++	pwritebbparm->value = val;
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++	return res;
++}
++
++u8 rtw_getbbreg_cmd(_adapter  *padapter, u8 offset, u8 *pval)
++{
++	struct cmd_obj			*ph2c;
++	struct readBB_parm		*prdbbparm;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	prdbbparm = (struct readBB_parm *)rtw_zmalloc(sizeof(struct readBB_parm));
++
++	if (prdbbparm == NULL) {
++		rtw_mfree((unsigned char *) ph2c, sizeof(struct	cmd_obj));
++		return _FAIL;
++	}
++
++	_rtw_init_listhead(&ph2c->list);
++	ph2c->cmdcode = GEN_CMD_CODE(_GetBBReg);
++	ph2c->parmbuf = (unsigned char *)prdbbparm;
++	ph2c->cmdsz =  sizeof(struct readBB_parm);
++	ph2c->rsp = pval;
++	ph2c->rspsz = sizeof(struct readBB_rsp);
++
++	prdbbparm->offset = offset;
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++	return res;
++}
++
++u8 rtw_setrfreg_cmd(_adapter  *padapter, u8 offset, u32 val)
++{
++	struct cmd_obj			*ph2c;
++	struct writeRF_parm		*pwriterfparm;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	pwriterfparm = (struct writeRF_parm *)rtw_zmalloc(sizeof(struct writeRF_parm));
++
++	if (pwriterfparm == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pwriterfparm, GEN_CMD_CODE(_SetRFReg));
++
++	pwriterfparm->offset = offset;
++	pwriterfparm->value = val;
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++	return res;
++}
++
++u8 rtw_getrfreg_cmd(_adapter  *padapter, u8 offset, u8 *pval)
++{
++	struct cmd_obj			*ph2c;
++	struct readRF_parm		*prdrfparm;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	prdrfparm = (struct readRF_parm *)rtw_zmalloc(sizeof(struct readRF_parm));
++	if (prdrfparm == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	_rtw_init_listhead(&ph2c->list);
++	ph2c->cmdcode = GEN_CMD_CODE(_GetRFReg);
++	ph2c->parmbuf = (unsigned char *)prdrfparm;
++	ph2c->cmdsz =  sizeof(struct readRF_parm);
++	ph2c->rsp = pval;
++	ph2c->rspsz = sizeof(struct readRF_rsp);
++
++	prdrfparm->offset = offset;
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return res;
++}
++
++void rtw_getbbrfreg_cmdrsp_callback(_adapter	*padapter,  struct cmd_obj *pcmd)
++{
++
++	/* rtw_free_cmd_obj(pcmd); */
++	rtw_mfree((unsigned char *) pcmd->parmbuf, pcmd->cmdsz);
++	rtw_mfree((unsigned char *) pcmd, sizeof(struct cmd_obj));
++
++#ifdef CONFIG_MP_INCLUDED
++	if (padapter->registrypriv.mp_mode == 1)
++		padapter->mppriv.workparam.bcompleted = _TRUE;
++#endif
++}
++
++void rtw_readtssi_cmdrsp_callback(_adapter	*padapter,  struct cmd_obj *pcmd)
++{
++
++	rtw_mfree((unsigned char *) pcmd->parmbuf, pcmd->cmdsz);
++	rtw_mfree((unsigned char *) pcmd, sizeof(struct cmd_obj));
++
++#ifdef CONFIG_MP_INCLUDED
++	if (padapter->registrypriv.mp_mode == 1)
++		padapter->mppriv.workparam.bcompleted = _TRUE;
++#endif
++
++}
++
++static u8 rtw_createbss_cmd(_adapter  *adapter, int flags, bool adhoc
++			    , s16 req_ch, s8 req_bw, s8 req_offset)
++{
++	struct cmd_obj *cmdobj;
++	struct createbss_parm *parm;
++	struct cmd_priv *pcmdpriv = &adapter->cmdpriv;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct submit_ctx sctx;
++	u8 res = _SUCCESS;
++
++	if (req_ch > 0 && req_bw >= 0 && req_offset >= 0) {
++		if (!rtw_chset_is_chbw_valid(adapter->mlmeextpriv.channel_set, req_ch, req_bw, req_offset)) {
++			res = _FAIL;
++			goto exit;
++		}
++	}
++
++	/* prepare cmd parameter */
++	parm = (struct createbss_parm *)rtw_zmalloc(sizeof(*parm));
++	if (parm == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	if (adhoc) {
++		/* for now, adhoc doesn't support ch,bw,offset request */
++		parm->adhoc = 1;
++	} else {
++		parm->adhoc = 0;
++		parm->req_ch = req_ch;
++		parm->req_bw = req_bw;
++		parm->req_offset = req_offset;
++	}
++
++	if (flags & RTW_CMDF_DIRECTLY) {
++		/* no need to enqueue, do the cmd hdl directly and free cmd parameter */
++		if (H2C_SUCCESS != createbss_hdl(adapter, (u8 *)parm))
++			res = _FAIL;
++		rtw_mfree((u8 *)parm, sizeof(*parm));
++	} else {
++		/* need enqueue, prepare cmd_obj and enqueue */
++		cmdobj = (struct cmd_obj *)rtw_zmalloc(sizeof(*cmdobj));
++		if (cmdobj == NULL) {
++			res = _FAIL;
++			rtw_mfree((u8 *)parm, sizeof(*parm));
++			goto exit;
++		}
++
++		init_h2fwcmd_w_parm_no_rsp(cmdobj, parm, GEN_CMD_CODE(_CreateBss));
++
++		if (flags & RTW_CMDF_WAIT_ACK) {
++			cmdobj->sctx = &sctx;
++			rtw_sctx_init(&sctx, 2000);
++		}
++
++		res = rtw_enqueue_cmd(pcmdpriv, cmdobj);
++
++		if (res == _SUCCESS && (flags & RTW_CMDF_WAIT_ACK)) {
++			rtw_sctx_wait(&sctx, __func__);
++			_enter_critical_mutex(&pcmdpriv->sctx_mutex, NULL);
++			if (sctx.status == RTW_SCTX_SUBMITTED)
++				cmdobj->sctx = NULL;
++			_exit_critical_mutex(&pcmdpriv->sctx_mutex, NULL);
++		}
++	}
++
++exit:
++	return res;
++}
++
++inline u8 rtw_create_ibss_cmd(_adapter *adapter, int flags)
++{
++	return rtw_createbss_cmd(adapter, flags
++		, 1
++		, 0, -1, -1 /* for now, adhoc doesn't support ch,bw,offset request */
++	);
++}
++
++inline u8 rtw_startbss_cmd(_adapter *adapter, int flags)
++{
++	return rtw_createbss_cmd(adapter, flags
++		, 0
++		, 0, -1, -1 /* excute entire AP setup cmd */
++	);
++}
++
++inline u8 rtw_change_bss_chbw_cmd(_adapter *adapter, int flags, s16 req_ch, s8 req_bw, s8 req_offset)
++{
++	return rtw_createbss_cmd(adapter, flags
++		, 0
++		, req_ch, req_bw, req_offset
++	);
++}
++
++u8 rtw_joinbss_cmd(_adapter  *padapter, struct wlan_network *pnetwork)
++{
++	u8	*auth, res = _SUCCESS;
++	uint	t_len = 0;
++	WLAN_BSSID_EX		*psecnetwork;
++	struct cmd_obj		*pcmd;
++	struct cmd_priv		*pcmdpriv = &padapter->cmdpriv;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct qos_priv		*pqospriv = &pmlmepriv->qospriv;
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++#ifdef CONFIG_80211N_HT
++	struct ht_priv			*phtpriv = &pmlmepriv->htpriv;
++#endif /* CONFIG_80211N_HT */
++#ifdef CONFIG_80211AC_VHT
++	struct vht_priv		*pvhtpriv = &pmlmepriv->vhtpriv;
++#endif /* CONFIG_80211AC_VHT */
++	NDIS_802_11_NETWORK_INFRASTRUCTURE ndis_network_mode = pnetwork->network.InfrastructureMode;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u32 tmp_len;
++	u8 *ptmp = NULL;
++
++	rtw_led_control(padapter, LED_CTL_START_TO_LINK);
++
++	pcmd = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (pcmd == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++#if 0
++	/*  for IEs is pointer */
++	t_len = sizeof(ULONG) + sizeof(NDIS_802_11_MAC_ADDRESS) + 2 +
++		sizeof(NDIS_802_11_SSID) + sizeof(ULONG) +
++		sizeof(NDIS_802_11_RSSI) + sizeof(NDIS_802_11_NETWORK_TYPE) +
++		sizeof(NDIS_802_11_CONFIGURATION) +
++		sizeof(NDIS_802_11_NETWORK_INFRASTRUCTURE) +
++		sizeof(NDIS_802_11_RATES_EX) + sizeof(WLAN_PHY_INFO) + sizeof(ULONG) + MAX_IE_SZ;
++#endif
++	/* for IEs is fix buf size */
++	t_len = sizeof(WLAN_BSSID_EX);
++
++
++	/* for hidden ap to set fw_state here */
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE | WIFI_ADHOC_STATE) != _TRUE) {
++		switch (ndis_network_mode) {
++		case Ndis802_11IBSS:
++			set_fwstate(pmlmepriv, WIFI_ADHOC_STATE);
++			break;
++
++		case Ndis802_11Infrastructure:
++			set_fwstate(pmlmepriv, WIFI_STATION_STATE);
++			break;
++
++		case Ndis802_11APMode:
++		case Ndis802_11AutoUnknown:
++		case Ndis802_11InfrastructureMax:
++		case Ndis802_11Monitor:
++			break;
++
++		}
++	}
++
++	pmlmeinfo->assoc_AP_vendor = check_assoc_AP(pnetwork->network.IEs, pnetwork->network.IELength);
++
++	/*
++		Modified by Arvin 2015/05/13
++		Solution for allocating a new WLAN_BSSID_EX to avoid race condition issue between disconnect and joinbss
++	*/
++	psecnetwork = (WLAN_BSSID_EX *)rtw_zmalloc(sizeof(WLAN_BSSID_EX));
++	if (psecnetwork == NULL) {
++		if (pcmd != NULL)
++			rtw_mfree((unsigned char *)pcmd, sizeof(struct	cmd_obj));
++
++		res = _FAIL;
++
++
++		goto exit;
++	}
++
++	_rtw_memset(psecnetwork, 0, t_len);
++
++	_rtw_memcpy(psecnetwork, &pnetwork->network, get_WLAN_BSSID_EX_sz(&pnetwork->network));
++
++	auth = &psecuritypriv->authenticator_ie[0];
++	psecuritypriv->authenticator_ie[0] = (unsigned char)psecnetwork->IELength;
++
++	if ((psecnetwork->IELength - 12) < (256 - 1))
++		_rtw_memcpy(&psecuritypriv->authenticator_ie[1], &psecnetwork->IEs[12], psecnetwork->IELength - 12);
++	else
++		_rtw_memcpy(&psecuritypriv->authenticator_ie[1], &psecnetwork->IEs[12], (256 - 1));
++
++	psecnetwork->IELength = 0;
++	/* Added by Albert 2009/02/18 */
++	/* If the the driver wants to use the bssid to create the connection. */
++	/* If not,  we have to copy the connecting AP's MAC address to it so that */
++	/* the driver just has the bssid information for PMKIDList searching. */
++
++	if (pmlmepriv->assoc_by_bssid == _FALSE)
++		_rtw_memcpy(&pmlmepriv->assoc_bssid[0], &pnetwork->network.MacAddress[0], ETH_ALEN);
++
++	psecnetwork->IELength = rtw_restruct_sec_ie(padapter, &pnetwork->network.IEs[0], &psecnetwork->IEs[0], pnetwork->network.IELength);
++
++
++	pqospriv->qos_option = 0;
++
++	if (pregistrypriv->wmm_enable) {
++		tmp_len = rtw_restruct_wmm_ie(padapter, &pnetwork->network.IEs[0], &psecnetwork->IEs[0], pnetwork->network.IELength, psecnetwork->IELength);
++
++		if (psecnetwork->IELength != tmp_len) {
++			psecnetwork->IELength = tmp_len;
++			pqospriv->qos_option = 1; /* There is WMM IE in this corresp. beacon */
++		} else {
++			pqospriv->qos_option = 0;/* There is no WMM IE in this corresp. beacon */
++		}
++	}
++
++#ifdef CONFIG_80211N_HT
++	phtpriv->ht_option = _FALSE;
++	ptmp = rtw_get_ie(&pnetwork->network.IEs[12], _HT_CAPABILITY_IE_, &tmp_len, pnetwork->network.IELength - 12);
++	if (pregistrypriv->ht_enable && ptmp && tmp_len > 0) {
++		/*	Added by Albert 2010/06/23 */
++		/*	For the WEP mode, we will use the bg mode to do the connection to avoid some IOT issue. */
++		/*	Especially for Realtek 8192u SoftAP. */
++		if ((padapter->securitypriv.dot11PrivacyAlgrthm != _WEP40_) &&
++		    (padapter->securitypriv.dot11PrivacyAlgrthm != _WEP104_) &&
++		    (padapter->securitypriv.dot11PrivacyAlgrthm != _TKIP_)) {
++			rtw_ht_use_default_setting(padapter);
++
++			rtw_build_wmm_ie_ht(padapter, &psecnetwork->IEs[0], &psecnetwork->IELength);
++
++			/* rtw_restructure_ht_ie */
++			rtw_restructure_ht_ie(padapter, &pnetwork->network.IEs[12], &psecnetwork->IEs[0],
++				pnetwork->network.IELength - 12, &psecnetwork->IELength,
++				pnetwork->network.Configuration.DSConfig);
++		}
++	}
++
++#ifdef CONFIG_80211AC_VHT
++	pvhtpriv->vht_option = _FALSE;
++	if (phtpriv->ht_option
++	    && REGSTY_IS_11AC_ENABLE(pregistrypriv)
++	    && hal_chk_proto_cap(padapter, PROTO_CAP_11AC)
++	    && (!pmlmepriv->country_ent || COUNTRY_CHPLAN_EN_11AC(pmlmepriv->country_ent))
++	   ) {
++		rtw_restructure_vht_ie(padapter, &pnetwork->network.IEs[0], &psecnetwork->IEs[0],
++			pnetwork->network.IELength, &psecnetwork->IELength);
++	}
++#endif
++
++	rtw_append_exented_cap(padapter, &psecnetwork->IEs[0], &psecnetwork->IELength);
++
++#endif /* CONFIG_80211N_HT */
++
++#if 0
++	psecuritypriv->supplicant_ie[0] = (u8)psecnetwork->IELength;
++
++	if (psecnetwork->IELength < (256 - 1))
++		_rtw_memcpy(&psecuritypriv->supplicant_ie[1], &psecnetwork->IEs[0], psecnetwork->IELength);
++	else
++		_rtw_memcpy(&psecuritypriv->supplicant_ie[1], &psecnetwork->IEs[0], (256 - 1));
++#endif
++
++	pcmd->cmdsz = sizeof(WLAN_BSSID_EX);
++
++#ifdef CONFIG_RTL8712
++	/* wlan_network endian conversion	 */
++	psecnetwork->Length = cpu_to_le32(psecnetwork->Length);
++	psecnetwork->Ssid.SsidLength = cpu_to_le32(psecnetwork->Ssid.SsidLength);
++	psecnetwork->Privacy = cpu_to_le32(psecnetwork->Privacy);
++	psecnetwork->Rssi = cpu_to_le32(psecnetwork->Rssi);
++	psecnetwork->NetworkTypeInUse = cpu_to_le32(psecnetwork->NetworkTypeInUse);
++	psecnetwork->Configuration.ATIMWindow = cpu_to_le32(psecnetwork->Configuration.ATIMWindow);
++	psecnetwork->Configuration.BeaconPeriod = cpu_to_le32(psecnetwork->Configuration.BeaconPeriod);
++	psecnetwork->Configuration.DSConfig = cpu_to_le32(psecnetwork->Configuration.DSConfig);
++	psecnetwork->Configuration.FHConfig.DwellTime = cpu_to_le32(psecnetwork->Configuration.FHConfig.DwellTime);
++	psecnetwork->Configuration.FHConfig.HopPattern = cpu_to_le32(psecnetwork->Configuration.FHConfig.HopPattern);
++	psecnetwork->Configuration.FHConfig.HopSet = cpu_to_le32(psecnetwork->Configuration.FHConfig.HopSet);
++	psecnetwork->Configuration.FHConfig.Length = cpu_to_le32(psecnetwork->Configuration.FHConfig.Length);
++	psecnetwork->Configuration.Length = cpu_to_le32(psecnetwork->Configuration.Length);
++	psecnetwork->InfrastructureMode = cpu_to_le32(psecnetwork->InfrastructureMode);
++	psecnetwork->IELength = cpu_to_le32(psecnetwork->IELength);
++#endif
++
++	_rtw_init_listhead(&pcmd->list);
++	pcmd->cmdcode = _JoinBss_CMD_;/* GEN_CMD_CODE(_JoinBss) */
++	pcmd->parmbuf = (unsigned char *)psecnetwork;
++	pcmd->rsp = NULL;
++	pcmd->rspsz = 0;
++
++	res = rtw_enqueue_cmd(pcmdpriv, pcmd);
++
++exit:
++
++
++	return res;
++}
++
++u8 rtw_disassoc_cmd(_adapter *padapter, u32 deauth_timeout_ms, bool enqueue) /* for sta_mode */
++{
++	struct cmd_obj *cmdobj = NULL;
++	struct disconnect_parm *param = NULL;
++	struct cmd_priv *cmdpriv = &padapter->cmdpriv;
++	u8 res = _SUCCESS;
++
++
++
++	/* prepare cmd parameter */
++	param = (struct disconnect_parm *)rtw_zmalloc(sizeof(*param));
++	if (param == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	param->deauth_timeout_ms = deauth_timeout_ms;
++
++	if (enqueue) {
++		/* need enqueue, prepare cmd_obj and enqueue */
++		cmdobj = (struct cmd_obj *)rtw_zmalloc(sizeof(*cmdobj));
++		if (cmdobj == NULL) {
++			res = _FAIL;
++			rtw_mfree((u8 *)param, sizeof(*param));
++			goto exit;
++		}
++		init_h2fwcmd_w_parm_no_rsp(cmdobj, param, _DisConnect_CMD_);
++		res = rtw_enqueue_cmd(cmdpriv, cmdobj);
++	} else {
++		/* no need to enqueue, do the cmd hdl directly and free cmd parameter */
++		if (H2C_SUCCESS != disconnect_hdl(padapter, (u8 *)param))
++			res = _FAIL;
++		rtw_mfree((u8 *)param, sizeof(*param));
++	}
++
++exit:
++
++
++	return res;
++}
++
++u8 rtw_setopmode_cmd(_adapter  *padapter, NDIS_802_11_NETWORK_INFRASTRUCTURE networktype, bool enqueue)
++{
++	struct	cmd_obj	*ph2c;
++	struct	setopmode_parm *psetop;
++
++	struct	cmd_priv   *pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	psetop = (struct setopmode_parm *)rtw_zmalloc(sizeof(struct setopmode_parm));
++
++	if (psetop == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	psetop->mode = (u8)networktype;
++
++	if (enqueue) {
++		ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (ph2c == NULL) {
++			rtw_mfree((u8 *)psetop, sizeof(*psetop));
++			res = _FAIL;
++			goto exit;
++		}
++
++		init_h2fwcmd_w_parm_no_rsp(ph2c, psetop, _SetOpMode_CMD_);
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	} else {
++		setopmode_hdl(padapter, (u8 *)psetop);
++		rtw_mfree((u8 *)psetop, sizeof(*psetop));
++	}
++exit:
++
++
++	return res;
++}
++
++u8 rtw_setstakey_cmd(_adapter *padapter, struct sta_info *sta, u8 key_type, bool enqueue)
++{
++	struct cmd_obj			*ph2c;
++	struct set_stakey_parm	*psetstakey_para;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	struct set_stakey_rsp		*psetstakey_rsp = NULL;
++
++	struct mlme_priv			*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv		*psecuritypriv = &padapter->securitypriv;
++	u8	res = _SUCCESS;
++
++
++	psetstakey_para = (struct set_stakey_parm *)rtw_zmalloc(sizeof(struct set_stakey_parm));
++	if (psetstakey_para == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	_rtw_memcpy(psetstakey_para->addr, sta->hwaddr, ETH_ALEN);
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE))
++		psetstakey_para->algorithm = (unsigned char) psecuritypriv->dot11PrivacyAlgrthm;
++	else
++		GET_ENCRY_ALGO(psecuritypriv, sta, psetstakey_para->algorithm, _FALSE);
++
++	if (key_type == GROUP_KEY)
++		_rtw_memcpy(&psetstakey_para->key, &psecuritypriv->dot118021XGrpKey[psecuritypriv->dot118021XGrpKeyid].skey, 16);
++	else if (key_type == UNICAST_KEY)
++		_rtw_memcpy(&psetstakey_para->key, &sta->dot118021x_UncstKey, 16);
++#ifdef CONFIG_TDLS
++	else if (key_type == TDLS_KEY) {
++		_rtw_memcpy(&psetstakey_para->key, sta->tpk.tk, 16);
++		psetstakey_para->algorithm = (u8)sta->dot118021XPrivacy;
++	}
++#endif /* CONFIG_TDLS */
++
++	/* jeff: set this becasue at least sw key is ready */
++	padapter->securitypriv.busetkipkey = _TRUE;
++
++	if (enqueue) {
++		ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (ph2c == NULL) {
++			rtw_mfree((u8 *) psetstakey_para, sizeof(struct set_stakey_parm));
++			res = _FAIL;
++			goto exit;
++		}
++
++		psetstakey_rsp = (struct set_stakey_rsp *)rtw_zmalloc(sizeof(struct set_stakey_rsp));
++		if (psetstakey_rsp == NULL) {
++			rtw_mfree((u8 *) ph2c, sizeof(struct cmd_obj));
++			rtw_mfree((u8 *) psetstakey_para, sizeof(struct set_stakey_parm));
++			res = _FAIL;
++			goto exit;
++		}
++
++		init_h2fwcmd_w_parm_no_rsp(ph2c, psetstakey_para, _SetStaKey_CMD_);
++		ph2c->rsp = (u8 *) psetstakey_rsp;
++		ph2c->rspsz = sizeof(struct set_stakey_rsp);
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	} else {
++		set_stakey_hdl(padapter, (u8 *)psetstakey_para);
++		rtw_mfree((u8 *) psetstakey_para, sizeof(struct set_stakey_parm));
++	}
++exit:
++
++
++	return res;
++}
++
++u8 rtw_clearstakey_cmd(_adapter *padapter, struct sta_info *sta, u8 enqueue)
++{
++	struct cmd_obj			*ph2c;
++	struct set_stakey_parm	*psetstakey_para;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	struct set_stakey_rsp		*psetstakey_rsp = NULL;
++	struct mlme_priv			*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv		*psecuritypriv = &padapter->securitypriv;
++	s16 cam_id = 0;
++	u8	res = _SUCCESS;
++
++
++	if (!enqueue) {
++		while ((cam_id = rtw_camid_search(padapter, sta->hwaddr, -1, -1)) >= 0) {
++			RTW_PRINT("clear key for addr:"MAC_FMT", camid:%d\n", MAC_ARG(sta->hwaddr), cam_id);
++			clear_cam_entry(padapter, cam_id);
++			rtw_camid_free(padapter, cam_id);
++		}
++	} else {
++		ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (ph2c == NULL) {
++			res = _FAIL;
++			goto exit;
++		}
++
++		psetstakey_para = (struct set_stakey_parm *)rtw_zmalloc(sizeof(struct set_stakey_parm));
++		if (psetstakey_para == NULL) {
++			rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++			res = _FAIL;
++			goto exit;
++		}
++
++		psetstakey_rsp = (struct set_stakey_rsp *)rtw_zmalloc(sizeof(struct set_stakey_rsp));
++		if (psetstakey_rsp == NULL) {
++			rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++			rtw_mfree((u8 *) psetstakey_para, sizeof(struct set_stakey_parm));
++			res = _FAIL;
++			goto exit;
++		}
++
++		init_h2fwcmd_w_parm_no_rsp(ph2c, psetstakey_para, _SetStaKey_CMD_);
++		ph2c->rsp = (u8 *) psetstakey_rsp;
++		ph2c->rspsz = sizeof(struct set_stakey_rsp);
++
++		_rtw_memcpy(psetstakey_para->addr, sta->hwaddr, ETH_ALEN);
++
++		psetstakey_para->algorithm = _NO_PRIVACY_;
++
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++	}
++
++exit:
++
++
++	return res;
++}
++
++u8 rtw_setrttbl_cmd(_adapter  *padapter, struct setratable_parm *prate_table)
++{
++	struct cmd_obj			*ph2c;
++	struct setratable_parm	*psetrttblparm;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	psetrttblparm = (struct setratable_parm *)rtw_zmalloc(sizeof(struct setratable_parm));
++
++	if (psetrttblparm == NULL) {
++		rtw_mfree((unsigned char *) ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psetrttblparm, GEN_CMD_CODE(_SetRaTable));
++
++	_rtw_memcpy(psetrttblparm, prate_table, sizeof(struct setratable_parm));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++	return res;
++
++}
++
++u8 rtw_getrttbl_cmd(_adapter  *padapter, struct getratable_rsp *pval)
++{
++	struct cmd_obj			*ph2c;
++	struct getratable_parm	*pgetrttblparm;
++	struct cmd_priv			*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	pgetrttblparm = (struct getratable_parm *)rtw_zmalloc(sizeof(struct getratable_parm));
++
++	if (pgetrttblparm == NULL) {
++		rtw_mfree((unsigned char *) ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	/*	init_h2fwcmd_w_parm_no_rsp(ph2c, psetrttblparm, GEN_CMD_CODE(_SetRaTable)); */
++
++	_rtw_init_listhead(&ph2c->list);
++	ph2c->cmdcode = GEN_CMD_CODE(_GetRaTable);
++	ph2c->parmbuf = (unsigned char *)pgetrttblparm;
++	ph2c->cmdsz =  sizeof(struct getratable_parm);
++	ph2c->rsp = (u8 *)pval;
++	ph2c->rspsz = sizeof(struct getratable_rsp);
++
++	pgetrttblparm->rsvd = 0x0;
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++	return res;
++
++}
++
++u8 rtw_setassocsta_cmd(_adapter  *padapter, u8 *mac_addr)
++{
++	struct cmd_priv		*pcmdpriv = &padapter->cmdpriv;
++	struct cmd_obj			*ph2c;
++	struct set_assocsta_parm	*psetassocsta_para;
++	struct set_stakey_rsp		*psetassocsta_rsp = NULL;
++
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	psetassocsta_para = (struct set_assocsta_parm *)rtw_zmalloc(sizeof(struct set_assocsta_parm));
++	if (psetassocsta_para == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	psetassocsta_rsp = (struct set_stakey_rsp *)rtw_zmalloc(sizeof(struct set_assocsta_rsp));
++	if (psetassocsta_rsp == NULL) {
++		rtw_mfree((u8 *) ph2c, sizeof(struct	cmd_obj));
++		rtw_mfree((u8 *) psetassocsta_para, sizeof(struct set_assocsta_parm));
++		return _FAIL;
++	}
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, psetassocsta_para, _SetAssocSta_CMD_);
++	ph2c->rsp = (u8 *) psetassocsta_rsp;
++	ph2c->rspsz = sizeof(struct set_assocsta_rsp);
++
++	_rtw_memcpy(psetassocsta_para->addr, mac_addr, ETH_ALEN);
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return res;
++}
++
++u8 rtw_addbareq_cmd(_adapter *padapter, u8 tid, u8 *addr)
++{
++	struct cmd_priv		*pcmdpriv = &padapter->cmdpriv;
++	struct cmd_obj		*ph2c;
++	struct addBaReq_parm	*paddbareq_parm;
++
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	paddbareq_parm = (struct addBaReq_parm *)rtw_zmalloc(sizeof(struct addBaReq_parm));
++	if (paddbareq_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	paddbareq_parm->tid = tid;
++	_rtw_memcpy(paddbareq_parm->addr, addr, ETH_ALEN);
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, paddbareq_parm, GEN_CMD_CODE(_AddBAReq));
++
++	/* RTW_INFO("rtw_addbareq_cmd, tid=%d\n", tid); */
++
++	/* rtw_enqueue_cmd(pcmdpriv, ph2c);	 */
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return res;
++}
++
++u8 rtw_addbarsp_cmd(_adapter *padapter, u8 *addr, u16 tid, u8 status, u8 size, u16 start_seq)
++{
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++	struct cmd_obj *ph2c;
++	struct addBaRsp_parm *paddBaRsp_parm;
++	u8 res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	paddBaRsp_parm = (struct addBaRsp_parm *)rtw_zmalloc(sizeof(struct addBaRsp_parm));
++
++	if (paddBaRsp_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	_rtw_memcpy(paddBaRsp_parm->addr, addr, ETH_ALEN);
++	paddBaRsp_parm->tid = tid;
++	paddBaRsp_parm->status = status;
++	paddBaRsp_parm->size = size;
++	paddBaRsp_parm->start_seq = start_seq;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, paddBaRsp_parm, GEN_CMD_CODE(_AddBARsp));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return res;
++}
++/* add for CONFIG_IEEE80211W, none 11w can use it */
++u8 rtw_reset_securitypriv_cmd(_adapter *padapter)
++{
++	struct cmd_obj		*ph2c;
++	struct drvextra_cmd_parm  *pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = RESET_SECURITYPRIV;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = NULL;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++
++	/* rtw_enqueue_cmd(pcmdpriv, ph2c);	 */
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return res;
++
++}
++
++u8 rtw_free_assoc_resources_cmd(_adapter *padapter)
++{
++	struct cmd_obj		*ph2c;
++	struct drvextra_cmd_parm  *pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = FREE_ASSOC_RESOURCES;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = NULL;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++
++	/* rtw_enqueue_cmd(pcmdpriv, ph2c);	 */
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return res;
++
++}
++
++u8 rtw_dynamic_chk_wk_cmd(_adapter *padapter)
++{
++	struct cmd_obj		*ph2c;
++	struct drvextra_cmd_parm  *pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	/* only  primary padapter does this cmd */
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = DYNAMIC_CHK_WK_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = NULL;
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++
++	/* rtw_enqueue_cmd(pcmdpriv, ph2c);	 */
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return res;
++
++}
++
++u8 rtw_set_ch_cmd(_adapter *padapter, u8 ch, u8 bw, u8 ch_offset, u8 enqueue)
++{
++	struct cmd_obj *pcmdobj;
++	struct set_ch_parm *set_ch_parm;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++
++	u8 res = _SUCCESS;
++
++
++	RTW_INFO(FUNC_NDEV_FMT" ch:%u, bw:%u, ch_offset:%u\n",
++		 FUNC_NDEV_ARG(padapter->pnetdev), ch, bw, ch_offset);
++
++	/* check input parameter */
++
++	/* prepare cmd parameter */
++	set_ch_parm = (struct set_ch_parm *)rtw_zmalloc(sizeof(*set_ch_parm));
++	if (set_ch_parm == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	set_ch_parm->ch = ch;
++	set_ch_parm->bw = bw;
++	set_ch_parm->ch_offset = ch_offset;
++
++	if (enqueue) {
++		/* need enqueue, prepare cmd_obj and enqueue */
++		pcmdobj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct	cmd_obj));
++		if (pcmdobj == NULL) {
++			rtw_mfree((u8 *)set_ch_parm, sizeof(*set_ch_parm));
++			res = _FAIL;
++			goto exit;
++		}
++
++		init_h2fwcmd_w_parm_no_rsp(pcmdobj, set_ch_parm, GEN_CMD_CODE(_SetChannel));
++		res = rtw_enqueue_cmd(pcmdpriv, pcmdobj);
++	} else {
++		/* no need to enqueue, do the cmd hdl directly and free cmd parameter */
++		if (H2C_SUCCESS != set_ch_hdl(padapter, (u8 *)set_ch_parm))
++			res = _FAIL;
++
++		rtw_mfree((u8 *)set_ch_parm, sizeof(*set_ch_parm));
++	}
++
++	/* do something based on res... */
++
++exit:
++
++	RTW_INFO(FUNC_NDEV_FMT" res:%u\n", FUNC_NDEV_ARG(padapter->pnetdev), res);
++
++
++	return res;
++}
++
++u8 _rtw_set_chplan_cmd(_adapter *adapter, int flags, u8 chplan, const struct country_chplan *country_ent, u8 swconfig)
++{
++	struct cmd_obj *cmdobj;
++	struct	SetChannelPlan_param *parm;
++	struct cmd_priv *pcmdpriv = &adapter->cmdpriv;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct submit_ctx sctx;
++	u8 res = _SUCCESS;
++
++
++	/* check if allow software config */
++	if (swconfig && rtw_hal_is_disable_sw_channel_plan(adapter) == _TRUE) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	/* if country_entry is provided, replace chplan */
++	if (country_ent)
++		chplan = country_ent->chplan;
++
++	/* check input parameter */
++	if (!rtw_is_channel_plan_valid(chplan)) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	/* prepare cmd parameter */
++	parm = (struct SetChannelPlan_param *)rtw_zmalloc(sizeof(*parm));
++	if (parm == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	parm->country_ent = country_ent;
++	parm->channel_plan = chplan;
++
++	if (flags & RTW_CMDF_DIRECTLY) {
++		/* no need to enqueue, do the cmd hdl directly and free cmd parameter */
++		if (H2C_SUCCESS != set_chplan_hdl(adapter, (u8 *)parm))
++			res = _FAIL;
++		rtw_mfree((u8 *)parm, sizeof(*parm));
++	} else {
++		/* need enqueue, prepare cmd_obj and enqueue */
++		cmdobj = (struct cmd_obj *)rtw_zmalloc(sizeof(*cmdobj));
++		if (cmdobj == NULL) {
++			res = _FAIL;
++			rtw_mfree((u8 *)parm, sizeof(*parm));
++			goto exit;
++		}
++
++		init_h2fwcmd_w_parm_no_rsp(cmdobj, parm, GEN_CMD_CODE(_SetChannelPlan));
++
++		if (flags & RTW_CMDF_WAIT_ACK) {
++			cmdobj->sctx = &sctx;
++			rtw_sctx_init(&sctx, 2000);
++		}
++
++		res = rtw_enqueue_cmd(pcmdpriv, cmdobj);
++
++		if (res == _SUCCESS && (flags & RTW_CMDF_WAIT_ACK)) {
++			rtw_sctx_wait(&sctx, __func__);
++			_enter_critical_mutex(&pcmdpriv->sctx_mutex, NULL);
++			if (sctx.status == RTW_SCTX_SUBMITTED)
++				cmdobj->sctx = NULL;
++			_exit_critical_mutex(&pcmdpriv->sctx_mutex, NULL);
++		}
++	}
++
++exit:
++
++
++	return res;
++}
++
++inline u8 rtw_set_chplan_cmd(_adapter *adapter, int flags, u8 chplan, u8 swconfig)
++{
++	return _rtw_set_chplan_cmd(adapter, flags, chplan, NULL, swconfig);
++}
++
++inline u8 rtw_set_country_cmd(_adapter *adapter, int flags, const char *country_code, u8 swconfig)
++{
++	const struct country_chplan *ent;
++
++	if (is_alpha(country_code[0]) == _FALSE
++	    || is_alpha(country_code[1]) == _FALSE
++	   ) {
++		RTW_PRINT("%s input country_code is not alpha2\n", __func__);
++		return _FAIL;
++	}
++
++	ent = rtw_get_chplan_from_country(country_code);
++
++	if (ent == NULL) {
++		RTW_PRINT("%s unsupported country_code:\"%c%c\"\n", __func__, country_code[0], country_code[1]);
++		return _FAIL;
++	}
++
++	RTW_PRINT("%s country_code:\"%c%c\" mapping to chplan:0x%02x\n", __func__, country_code[0], country_code[1], ent->chplan);
++
++	return _rtw_set_chplan_cmd(adapter, flags, RTW_CHPLAN_MAX, ent, swconfig);
++}
++
++u8 rtw_led_blink_cmd(_adapter *padapter, PVOID pLed)
++{
++	struct	cmd_obj	*pcmdobj;
++	struct	LedBlink_param *ledBlink_param;
++	struct	cmd_priv   *pcmdpriv = &padapter->cmdpriv;
++
++	u8	res = _SUCCESS;
++
++
++
++	pcmdobj = (struct	cmd_obj *)rtw_zmalloc(sizeof(struct	cmd_obj));
++	if (pcmdobj == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	ledBlink_param = (struct	LedBlink_param *)rtw_zmalloc(sizeof(struct	LedBlink_param));
++	if (ledBlink_param == NULL) {
++		rtw_mfree((u8 *)pcmdobj, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	ledBlink_param->pLed = pLed;
++
++	init_h2fwcmd_w_parm_no_rsp(pcmdobj, ledBlink_param, GEN_CMD_CODE(_LedBlink));
++	res = rtw_enqueue_cmd(pcmdpriv, pcmdobj);
++
++exit:
++
++
++	return res;
++}
++
++u8 rtw_set_csa_cmd(_adapter *padapter, u8 new_ch_no)
++{
++	struct	cmd_obj	*pcmdobj;
++	struct	SetChannelSwitch_param *setChannelSwitch_param;
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct	cmd_priv   *pcmdpriv = &padapter->cmdpriv;
++
++	u8	res = _SUCCESS;
++
++
++
++	pcmdobj = (struct	cmd_obj *)rtw_zmalloc(sizeof(struct	cmd_obj));
++	if (pcmdobj == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	setChannelSwitch_param = (struct SetChannelSwitch_param *)rtw_zmalloc(sizeof(struct	SetChannelSwitch_param));
++	if (setChannelSwitch_param == NULL) {
++		rtw_mfree((u8 *)pcmdobj, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	setChannelSwitch_param->new_ch_no = new_ch_no;
++
++	init_h2fwcmd_w_parm_no_rsp(pcmdobj, setChannelSwitch_param, GEN_CMD_CODE(_SetChannelSwitch));
++	res = rtw_enqueue_cmd(pcmdpriv, pcmdobj);
++
++exit:
++
++
++	return res;
++}
++
++u8 rtw_tdls_cmd(_adapter *padapter, u8 *addr, u8 option)
++{
++	struct	cmd_obj	*pcmdobj;
++	struct	TDLSoption_param	*TDLSoption;
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct	cmd_priv   *pcmdpriv = &padapter->cmdpriv;
++
++	u8	res = _SUCCESS;
++
++
++#ifdef CONFIG_TDLS
++
++
++	pcmdobj = (struct	cmd_obj *)rtw_zmalloc(sizeof(struct	cmd_obj));
++	if (pcmdobj == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	TDLSoption = (struct TDLSoption_param *)rtw_zmalloc(sizeof(struct TDLSoption_param));
++	if (TDLSoption == NULL) {
++		rtw_mfree((u8 *)pcmdobj, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	_rtw_spinlock(&(padapter->tdlsinfo.cmd_lock));
++	if (addr != NULL)
++		_rtw_memcpy(TDLSoption->addr, addr, 6);
++	TDLSoption->option = option;
++	_rtw_spinunlock(&(padapter->tdlsinfo.cmd_lock));
++	init_h2fwcmd_w_parm_no_rsp(pcmdobj, TDLSoption, GEN_CMD_CODE(_TDLS));
++	res = rtw_enqueue_cmd(pcmdpriv, pcmdobj);
++
++#endif /* CONFIG_TDLS */
++
++exit:
++
++
++
++	return res;
++}
++
++u8 rtw_enable_hw_update_tsf_cmd(_adapter *padapter)
++{
++	struct cmd_obj *ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = EN_HW_UPDATE_TSF_WK_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = NULL;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++	return res;
++}
++
++/* from_timer == 1 means driver is in LPS */
++u8 traffic_status_watchdog(_adapter *padapter, u8 from_timer)
++{
++	u8	bEnterPS = _FALSE;
++	u16 BusyThresholdHigh;
++	u16	BusyThresholdLow;
++	u16	BusyThreshold;
++	u8	bBusyTraffic = _FALSE, bTxBusyTraffic = _FALSE, bRxBusyTraffic = _FALSE;
++	u8	bHigherBusyTraffic = _FALSE, bHigherBusyRxTraffic = _FALSE, bHigherBusyTxTraffic = _FALSE;
++
++	struct mlme_priv		*pmlmepriv = &(padapter->mlmepriv);
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &(padapter->tdlsinfo);
++	struct tdls_txmgmt txmgmt;
++	u8 baddr[ETH_ALEN] = { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff };
++#endif /* CONFIG_TDLS */
++
++	RT_LINK_DETECT_T *link_detect = &pmlmepriv->LinkDetectInfo;
++
++#ifdef CONFIG_BT_COEXIST
++	if (padapter->registrypriv.wifi_spec != 1) {
++		BusyThresholdHigh = 25;
++		BusyThresholdLow = 10;
++	} else
++#endif /* CONFIG_BT_COEXIST */
++	{
++		BusyThresholdHigh = 100;
++		BusyThresholdLow = 75;
++	}
++	BusyThreshold = BusyThresholdHigh;
++
++
++	/*  */
++	/* Determine if our traffic is busy now */
++	/*  */
++	if ((check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++	    /*&& !MgntInitAdapterInProgress(pMgntInfo)*/) {
++		/* if we raise bBusyTraffic in last watchdog, using lower threshold. */
++		if (pmlmepriv->LinkDetectInfo.bBusyTraffic)
++			BusyThreshold = BusyThresholdLow;
++
++		if (pmlmepriv->LinkDetectInfo.NumRxOkInPeriod > BusyThreshold ||
++		    pmlmepriv->LinkDetectInfo.NumTxOkInPeriod > BusyThreshold) {
++			bBusyTraffic = _TRUE;
++
++			if (pmlmepriv->LinkDetectInfo.NumRxOkInPeriod > pmlmepriv->LinkDetectInfo.NumTxOkInPeriod)
++				bRxBusyTraffic = _TRUE;
++			else
++				bTxBusyTraffic = _TRUE;
++		}
++
++		/* Higher Tx/Rx data. */
++		if (pmlmepriv->LinkDetectInfo.NumRxOkInPeriod > 4000 ||
++		    pmlmepriv->LinkDetectInfo.NumTxOkInPeriod > 4000) {
++			bHigherBusyTraffic = _TRUE;
++
++			if (pmlmepriv->LinkDetectInfo.NumRxOkInPeriod > pmlmepriv->LinkDetectInfo.NumTxOkInPeriod)
++				bHigherBusyRxTraffic = _TRUE;
++			else
++				bHigherBusyTxTraffic = _TRUE;
++		}
++
++#ifdef CONFIG_TRAFFIC_PROTECT
++#define TX_ACTIVE_TH 10
++#define RX_ACTIVE_TH 20
++#define TRAFFIC_PROTECT_PERIOD_MS 4500
++
++		if (link_detect->NumTxOkInPeriod > TX_ACTIVE_TH
++		    || link_detect->NumRxUnicastOkInPeriod > RX_ACTIVE_TH) {
++
++			RTW_INFO(FUNC_ADPT_FMT" acqiure wake_lock for %u ms(tx:%d,rx_unicast:%d)\n",
++				 FUNC_ADPT_ARG(padapter),
++				 TRAFFIC_PROTECT_PERIOD_MS,
++				 link_detect->NumTxOkInPeriod,
++				 link_detect->NumRxUnicastOkInPeriod);
++
++			rtw_lock_traffic_suspend_timeout(TRAFFIC_PROTECT_PERIOD_MS);
++		}
++#endif
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_AUTOSETUP
++		/* TDLS_WATCHDOG_PERIOD * 2sec, periodically send */
++		if (hal_chk_wl_func(padapter, WL_FUNC_TDLS) == _TRUE) {
++			if ((ptdlsinfo->watchdog_count % TDLS_WATCHDOG_PERIOD) == 0) {
++				_rtw_memcpy(txmgmt.peer, baddr, ETH_ALEN);
++				issue_tdls_dis_req(padapter, &txmgmt);
++			}
++			ptdlsinfo->watchdog_count++;
++		}
++#endif /* CONFIG_TDLS_AUTOSETUP */
++#endif /* CONFIG_TDLS */
++
++#ifdef CONFIG_LPS
++		/* check traffic for  powersaving. */
++		if (((pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod + pmlmepriv->LinkDetectInfo.NumTxOkInPeriod) > 8) ||
++#ifdef CONFIG_LPS_SLOW_TRANSITION
++		    (pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod > 2)
++#else /* CONFIG_LPS_SLOW_TRANSITION */
++		    (pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod > 4)
++#endif /* CONFIG_LPS_SLOW_TRANSITION */
++		   ) {
++#ifdef DBG_RX_COUNTER_DUMP
++			if (padapter->dump_rx_cnt_mode & DUMP_DRV_TRX_COUNTER_DATA)
++				RTW_INFO("(-)Tx = %d, Rx = %d\n", pmlmepriv->LinkDetectInfo.NumTxOkInPeriod, pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod);
++#endif
++			bEnterPS = _FALSE;
++#ifdef CONFIG_LPS_SLOW_TRANSITION
++			if (bBusyTraffic == _TRUE) {
++				if (pmlmepriv->LinkDetectInfo.TrafficTransitionCount <= 4)
++					pmlmepriv->LinkDetectInfo.TrafficTransitionCount = 4;
++
++				pmlmepriv->LinkDetectInfo.TrafficTransitionCount++;
++
++				/* RTW_INFO("Set TrafficTransitionCount to %d\n", pmlmepriv->LinkDetectInfo.TrafficTransitionCount); */
++
++				if (pmlmepriv->LinkDetectInfo.TrafficTransitionCount > 30/*TrafficTransitionLevel*/)
++					pmlmepriv->LinkDetectInfo.TrafficTransitionCount = 30;
++			}
++#endif /* CONFIG_LPS_SLOW_TRANSITION */
++
++		} else {
++#ifdef DBG_RX_COUNTER_DUMP
++			if (padapter->dump_rx_cnt_mode & DUMP_DRV_TRX_COUNTER_DATA)
++				RTW_INFO("(+)Tx = %d, Rx = %d\n", pmlmepriv->LinkDetectInfo.NumTxOkInPeriod, pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod);
++#endif
++#ifdef CONFIG_LPS_SLOW_TRANSITION
++			if (pmlmepriv->LinkDetectInfo.TrafficTransitionCount >= 2)
++				pmlmepriv->LinkDetectInfo.TrafficTransitionCount -= 2;
++			else
++				pmlmepriv->LinkDetectInfo.TrafficTransitionCount = 0;
++
++			if (pmlmepriv->LinkDetectInfo.TrafficTransitionCount == 0)
++				bEnterPS = _TRUE;
++#else /* CONFIG_LPS_SLOW_TRANSITION */
++			bEnterPS = _TRUE;
++#endif /* CONFIG_LPS_SLOW_TRANSITION */
++		}
++
++#ifdef CONFIG_DYNAMIC_DTIM
++		if (pmlmepriv->LinkDetectInfo.LowPowerTransitionCount == 8)
++			bEnterPS = _FALSE;
++
++		RTW_INFO("LowPowerTransitionCount=%d\n", pmlmepriv->LinkDetectInfo.LowPowerTransitionCount);
++#endif /* CONFIG_DYNAMIC_DTIM */
++
++		/* LeisurePS only work in infra mode. */
++		if (bEnterPS) {
++			if (!from_timer) {
++#ifdef CONFIG_DYNAMIC_DTIM
++				if (pmlmepriv->LinkDetectInfo.LowPowerTransitionCount < 8)
++					adapter_to_pwrctl(padapter)->dtim = 1;
++				else
++					adapter_to_pwrctl(padapter)->dtim = 3;
++#endif /* CONFIG_DYNAMIC_DTIM */
++				LPS_Enter(padapter, "TRAFFIC_IDLE");
++			} else {
++				/* do this at caller */
++				/* rtw_lps_ctrl_wk_cmd(adapter, LPS_CTRL_ENTER, 1); */
++				/* rtw_hal_dm_watchdog_in_lps(padapter); */
++			}
++#ifdef CONFIG_DYNAMIC_DTIM
++			if (adapter_to_pwrctl(padapter)->bFwCurrentInPSMode == _TRUE)
++				pmlmepriv->LinkDetectInfo.LowPowerTransitionCount++;
++#endif /* CONFIG_DYNAMIC_DTIM */
++		} else {
++#ifdef CONFIG_DYNAMIC_DTIM
++			if (pmlmepriv->LinkDetectInfo.LowPowerTransitionCount != 8)
++				pmlmepriv->LinkDetectInfo.LowPowerTransitionCount = 0;
++			else
++				pmlmepriv->LinkDetectInfo.LowPowerTransitionCount++;
++#endif /* CONFIG_DYNAMIC_DTIM			 */
++			if (!from_timer)
++				LPS_Leave(padapter, "TRAFFIC_BUSY");
++			else {
++#ifdef CONFIG_CONCURRENT_MODE
++				if (padapter->hw_port == HW_PORT0)
++#endif
++					rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_TRAFFIC_BUSY, 1);
++			}
++		}
++
++#endif /* CONFIG_LPS */
++	} else {
++#ifdef CONFIG_LPS
++		struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++		int n_assoc_iface = 0;
++		int i;
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			if (check_fwstate(&(dvobj->padapters[i]->mlmepriv), WIFI_ASOC_STATE))
++				n_assoc_iface++;
++		}
++
++		if (!from_timer && n_assoc_iface == 0)
++			LPS_Leave(padapter, "NON_LINKED");
++#endif
++	}
++
++	session_tracker_chk_cmd(padapter, NULL);
++
++	pmlmepriv->LinkDetectInfo.NumRxOkInPeriod = 0;
++	pmlmepriv->LinkDetectInfo.NumTxOkInPeriod = 0;
++	pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod = 0;
++	pmlmepriv->LinkDetectInfo.bBusyTraffic = bBusyTraffic;
++	pmlmepriv->LinkDetectInfo.bTxBusyTraffic = bTxBusyTraffic;
++	pmlmepriv->LinkDetectInfo.bRxBusyTraffic = bRxBusyTraffic;
++	pmlmepriv->LinkDetectInfo.bHigherBusyTraffic = bHigherBusyTraffic;
++	pmlmepriv->LinkDetectInfo.bHigherBusyRxTraffic = bHigherBusyRxTraffic;
++	pmlmepriv->LinkDetectInfo.bHigherBusyTxTraffic = bHigherBusyTxTraffic;
++
++	return bEnterPS;
++
++}
++
++
++/* for 11n Logo 4.2.31/4.2.32 */
++static void dynamic_update_bcn_check(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	if (!padapter->registrypriv.wifi_spec)
++		return;
++
++	if (!MLME_IS_AP(padapter))
++		return;
++
++	if (pmlmeext->bstart_bss) {
++		/* In 10 * 2 = 20s, there are no legacy AP, update HT info  */
++		static u8 count = 1;
++
++		if (count % 10 == 0) {
++			count = 1;
++
++			if (_FALSE == ATOMIC_READ(&pmlmepriv->olbc)
++				&& _FALSE == ATOMIC_READ(&pmlmepriv->olbc_ht)) {
++
++				if (rtw_ht_operation_update(padapter) > 0) {
++					update_beacon(padapter, _HT_CAPABILITY_IE_, NULL, _FALSE);
++					update_beacon(padapter, _HT_ADD_INFO_IE_, NULL, _TRUE);
++				}
++			}
++		}
++
++		/* In 2s, there are any legacy AP, update HT info, and then reset count  */
++
++		if (_FALSE != ATOMIC_READ(&pmlmepriv->olbc)
++			&& _FALSE != ATOMIC_READ(&pmlmepriv->olbc_ht)) {
++					
++			if (rtw_ht_operation_update(padapter) > 0) {
++				update_beacon(padapter, _HT_CAPABILITY_IE_, NULL, _FALSE);
++				update_beacon(padapter, _HT_ADD_INFO_IE_, NULL, _TRUE);
++
++			}
++			ATOMIC_SET(&pmlmepriv->olbc, _FALSE);
++			ATOMIC_SET(&pmlmepriv->olbc_ht, _FALSE);
++			count = 0;
++		}
++
++		count ++;
++	}
++}
++void rtw_iface_dynamic_chk_wk_hdl(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	#ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++	#ifdef CONFIG_AP_MODE
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		expire_timeout_chk(padapter);
++	#endif
++	#endif /* CONFIG_ACTIVE_KEEP_ALIVE_CHECK */
++	dynamic_update_bcn_check(padapter);
++
++	linked_status_chk(padapter, 0);
++	traffic_status_watchdog(padapter, 0);
++
++	/* for debug purpose */
++	_linked_info_dump(padapter);
++
++	#ifdef CONFIG_BEAMFORMING
++	#ifndef RTW_BEAMFORMING_VERSION_2
++	#if (BEAMFORMING_SUPPORT == 0) /*for diver defined beamforming*/
++	beamforming_watchdog(padapter);
++	#endif
++	#endif /* !RTW_BEAMFORMING_VERSION_2 */
++	#endif
++
++}
++void rtw_dynamic_chk_wk_hdl(_adapter *padapter)
++{
++	rtw_mi_dynamic_chk_wk_hdl(padapter);
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	rtw_hal_sreset_xmit_status_check(padapter);
++	rtw_hal_sreset_linked_status_check(padapter);
++#endif
++
++	/* if(check_fwstate(pmlmepriv, _FW_UNDER_LINKING|_FW_UNDER_SURVEY)==_FALSE) */
++	{
++#ifdef DBG_RX_COUNTER_DUMP
++		rtw_dump_rx_counters(padapter);
++#endif
++		dm_DynamicUsbTxAgg(padapter, 0);
++	}
++	rtw_hal_dm_watchdog(padapter);
++
++	/* check_hw_pbc(padapter, pdrvextra_cmd->pbuf, pdrvextra_cmd->type); */
++
++#ifdef CONFIG_BT_COEXIST
++	/* BT-Coexist */
++	rtw_btcoex_Handler(padapter);
++#endif
++
++#ifdef CONFIG_IPS_CHECK_IN_WD
++	/* always call rtw_ps_processor() at last one. */
++	rtw_ps_processor(padapter);
++#endif
++
++#ifdef CONFIG_MCC_MODE
++	rtw_hal_mcc_sw_status_check(padapter);
++#endif /* CONFIG_MCC_MODE */
++
++}
++
++#ifdef CONFIG_LPS
++
++void lps_ctrl_wk_hdl(_adapter *padapter, u8 lps_ctrl_type);
++void lps_ctrl_wk_hdl(_adapter *padapter, u8 lps_ctrl_type)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	u8	mstatus;
++
++
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE)
++	    || (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE))
++		return;
++
++	switch (lps_ctrl_type) {
++	case LPS_CTRL_SCAN:
++		/* RTW_INFO("LPS_CTRL_SCAN\n"); */
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_ScanNotify(padapter, _TRUE);
++#endif /* CONFIG_BT_COEXIST */
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++			/* connect */
++			LPS_Leave(padapter, "LPS_CTRL_SCAN");
++		}
++		break;
++	case LPS_CTRL_JOINBSS:
++		/* RTW_INFO("LPS_CTRL_JOINBSS\n"); */
++		LPS_Leave(padapter, "LPS_CTRL_JOINBSS");
++		break;
++	case LPS_CTRL_CONNECT:
++		/* RTW_INFO("LPS_CTRL_CONNECT\n"); */
++		mstatus = 1;/* connect */
++		/* Reset LPS Setting */
++		pwrpriv->LpsIdleCount = 0;
++		rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_JOINBSSRPT, (u8 *)(&mstatus));
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_MediaStatusNotify(padapter, mstatus);
++#endif /* CONFIG_BT_COEXIST */
++		break;
++	case LPS_CTRL_DISCONNECT:
++		/* RTW_INFO("LPS_CTRL_DISCONNECT\n"); */
++		mstatus = 0;/* disconnect */
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_MediaStatusNotify(padapter, mstatus);
++#endif /* CONFIG_BT_COEXIST */
++		LPS_Leave(padapter, "LPS_CTRL_DISCONNECT");
++		rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_JOINBSSRPT, (u8 *)(&mstatus));
++		break;
++	case LPS_CTRL_SPECIAL_PACKET:
++		/* RTW_INFO("LPS_CTRL_SPECIAL_PACKET\n"); */
++		pwrpriv->DelayLPSLastTimeStamp = rtw_get_current_time();
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_SpecialPacketNotify(padapter, PACKET_DHCP);
++#endif /* CONFIG_BT_COEXIST */
++		LPS_Leave(padapter, "LPS_CTRL_SPECIAL_PACKET");
++		break;
++	case LPS_CTRL_LEAVE:
++		LPS_Leave(padapter, "LPS_CTRL_LEAVE");
++		break;
++	case LPS_CTRL_LEAVE_CFG80211_PWRMGMT:
++		LPS_Leave(padapter, "CFG80211_PWRMGMT");
++		break;
++	case LPS_CTRL_TRAFFIC_BUSY:
++		LPS_Leave(padapter, "LPS_CTRL_TRAFFIC_BUSY");
++		break;
++	case LPS_CTRL_TX_TRAFFIC_LEAVE:
++		LPS_Leave(padapter, "LPS_CTRL_TX_TRAFFIC_LEAVE");
++		break;
++	case LPS_CTRL_RX_TRAFFIC_LEAVE:
++		LPS_Leave(padapter, "LPS_CTRL_RX_TRAFFIC_LEAVE");
++		break;
++	case LPS_CTRL_ENTER:
++		LPS_Enter(padapter, "TRAFFIC_IDLE_1");
++		break;
++	default:
++		break;
++	}
++
++}
++
++u8 rtw_lps_ctrl_wk_cmd(_adapter *padapter, u8 lps_ctrl_type, u8 enqueue)
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	/* struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter); */
++	u8	res = _SUCCESS;
++
++
++	/* if(!pwrctrlpriv->bLeisurePs) */
++	/*	return res; */
++
++	if (enqueue) {
++		ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (ph2c == NULL) {
++			res = _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++		if (pdrvextra_cmd_parm == NULL) {
++			rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++			res = _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm->ec_id = LPS_CTRL_WK_CID;
++		pdrvextra_cmd_parm->type = lps_ctrl_type;
++		pdrvextra_cmd_parm->size = 0;
++		pdrvextra_cmd_parm->pbuf = NULL;
++
++		init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	} else
++		lps_ctrl_wk_hdl(padapter, lps_ctrl_type);
++
++exit:
++
++
++	return res;
++
++}
++
++void rtw_dm_in_lps_hdl(_adapter *padapter)
++{
++	rtw_hal_set_hwreg(padapter, HW_VAR_DM_IN_LPS, NULL);
++}
++
++u8 rtw_dm_in_lps_wk_cmd(_adapter *padapter)
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = DM_IN_LPS_WK_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = NULL;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++	return res;
++
++}
++
++void rtw_lps_change_dtim_hdl(_adapter *padapter, u8 dtim)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++
++	if (dtim <= 0 || dtim > 16)
++		return;
++
++#ifdef CONFIG_BT_COEXIST
++	if (rtw_btcoex_IsBtControlLps(padapter) == _TRUE)
++		return;
++#endif
++
++#ifdef CONFIG_LPS_LCLK
++	_enter_pwrlock(&pwrpriv->lock);
++#endif
++
++	if (pwrpriv->dtim != dtim) {
++		RTW_INFO("change DTIM from %d to %d, bFwCurrentInPSMode=%d, ps_mode=%d\n", pwrpriv->dtim, dtim,
++			 pwrpriv->bFwCurrentInPSMode, pwrpriv->pwr_mode);
++
++		pwrpriv->dtim = dtim;
++	}
++
++	if ((pwrpriv->bFwCurrentInPSMode == _TRUE) && (pwrpriv->pwr_mode > PS_MODE_ACTIVE)) {
++		u8 ps_mode = pwrpriv->pwr_mode;
++
++		/* RTW_INFO("change DTIM from %d to %d, ps_mode=%d\n", pwrpriv->dtim, dtim, ps_mode); */
++
++		rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_PWRMODE, (u8 *)(&ps_mode));
++	}
++
++#ifdef CONFIG_LPS_LCLK
++	_exit_pwrlock(&pwrpriv->lock);
++#endif
++
++}
++
++#endif
++
++u8 rtw_lps_change_dtim_cmd(_adapter *padapter, u8 dtim)
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++	/*
++	#ifdef CONFIG_CONCURRENT_MODE
++		if (padapter->hw_port != HW_PORT0)
++			return res;
++	#endif
++	*/
++	{
++		ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (ph2c == NULL) {
++			res = _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++		if (pdrvextra_cmd_parm == NULL) {
++			rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++			res = _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm->ec_id = LPS_CHANGE_DTIM_CID;
++		pdrvextra_cmd_parm->type = dtim;
++		pdrvextra_cmd_parm->size = 0;
++		pdrvextra_cmd_parm->pbuf = NULL;
++
++		init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	}
++
++exit:
++
++	return res;
++
++}
++
++#if (RATE_ADAPTIVE_SUPPORT == 1)
++void rpt_timer_setting_wk_hdl(_adapter *padapter, u16 minRptTime)
++{
++	rtw_hal_set_hwreg(padapter, HW_VAR_RPT_TIMER_SETTING, (u8 *)(&minRptTime));
++}
++
++u8 rtw_rpt_timer_cfg_cmd(_adapter *padapter, u16 minRptTime)
++{
++	struct cmd_obj		*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = RTP_TIMER_CFG_WK_CID;
++	pdrvextra_cmd_parm->type = minRptTime;
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = NULL;
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++
++
++	return res;
++
++}
++
++#endif
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++void antenna_select_wk_hdl(_adapter *padapter, u8 antenna)
++{
++	rtw_hal_set_odm_var(padapter, HAL_ODM_ANTDIV_SELECT, &antenna, _TRUE);
++}
++
++u8 rtw_antenna_select_cmd(_adapter *padapter, u8 antenna, u8 enqueue)
++{
++	struct cmd_obj		*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	u8	bSupportAntDiv = _FALSE;
++	u8	res = _SUCCESS;
++	int	i;
++
++	rtw_hal_get_def_var(padapter, HAL_DEF_IS_SUPPORT_ANT_DIV, &(bSupportAntDiv));
++	if (_FALSE == bSupportAntDiv)
++		return _FAIL;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		if (rtw_linked_check(dvobj->padapters[i]))
++			return _FAIL;
++	}
++
++	if (_TRUE == enqueue) {
++		ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (ph2c == NULL) {
++			res = _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++		if (pdrvextra_cmd_parm == NULL) {
++			rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++			res = _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm->ec_id = ANT_SELECT_WK_CID;
++		pdrvextra_cmd_parm->type = antenna;
++		pdrvextra_cmd_parm->size = 0;
++		pdrvextra_cmd_parm->pbuf = NULL;
++		init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	} else
++		antenna_select_wk_hdl(padapter, antenna);
++exit:
++
++
++	return res;
++
++}
++#endif
++
++void rtw_dm_ra_mask_hdl(_adapter *padapter, struct sta_info *psta)
++{
++	if (psta)
++		set_sta_rate(padapter, psta);
++}
++
++u8 rtw_dm_ra_mask_wk_cmd(_adapter *padapter, u8 *psta)
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = DM_RA_MSK_WK_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = psta;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++	return res;
++
++}
++
++void power_saving_wk_hdl(_adapter *padapter)
++{
++	rtw_ps_processor(padapter);
++}
++
++/* add for CONFIG_IEEE80211W, none 11w can use it */
++void reset_securitypriv_hdl(_adapter *padapter)
++{
++	rtw_reset_securitypriv(padapter);
++}
++
++void free_assoc_resources_hdl(_adapter *padapter)
++{
++	rtw_free_assoc_resources(padapter, 1);
++}
++
++#ifdef CONFIG_P2P
++u8 p2p_protocol_wk_cmd(_adapter *padapter, int intCmdType)
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return res;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = P2P_PROTO_WK_CID;
++	pdrvextra_cmd_parm->type = intCmdType;	/*	As the command tppe. */
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = NULL;		/*	Must be NULL here */
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return res;
++
++}
++#endif /* CONFIG_P2P */
++
++u8 rtw_ps_cmd(_adapter *padapter)
++{
++	struct cmd_obj		*ppscmd;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++
++	u8	res = _SUCCESS;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->adapter_type != PRIMARY_ADAPTER)
++		goto exit;
++#endif
++
++	ppscmd = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ppscmd == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ppscmd, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = POWER_SAVING_CTRL_WK_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = NULL;
++	init_h2fwcmd_w_parm_no_rsp(ppscmd, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ppscmd);
++
++exit:
++
++
++	return res;
++
++}
++
++#ifdef CONFIG_AP_MODE
++
++static void rtw_chk_hi_queue_hdl(_adapter *padapter)
++{
++	struct sta_info *psta_bmc;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u32 start = rtw_get_current_time();
++	u8 empty = _FALSE;
++
++	psta_bmc = rtw_get_bcmc_stainfo(padapter);
++	if (!psta_bmc)
++		return;
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_CHK_HI_QUEUE_EMPTY, &empty);
++
++	while (_FALSE == empty && rtw_get_passing_time_ms(start) < rtw_get_wait_hiq_empty_ms()) {
++		rtw_msleep_os(100);
++		rtw_hal_get_hwreg(padapter, HW_VAR_CHK_HI_QUEUE_EMPTY, &empty);
++	}
++
++	if (psta_bmc->sleepq_len == 0) {
++		if (empty == _SUCCESS) {
++			bool update_tim = _FALSE;
++
++			if (pstapriv->tim_bitmap & BIT(0))
++				update_tim = _TRUE;
++
++			pstapriv->tim_bitmap &= ~BIT(0);
++			pstapriv->sta_dz_bitmap &= ~BIT(0);
++
++			if (update_tim == _TRUE)
++				_update_beacon(padapter, _TIM_IE_, NULL, _TRUE, "bmc sleepq and HIQ empty");
++		} else /* re check again */
++			rtw_chk_hi_queue_cmd(padapter);
++
++	}
++
++}
++
++u8 rtw_chk_hi_queue_cmd(_adapter *padapter)
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = CHECK_HIQ_WK_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = 0;
++	pdrvextra_cmd_parm->pbuf = NULL;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++	return res;
++
++}
++
++#ifdef CONFIG_DFS_MASTER
++u8 rtw_dfs_master_hdl(_adapter *adapter)
++{
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++
++	if (!rfctl->dfs_master_enabled)
++		goto exit;
++
++	if (rtw_get_on_cur_ch_time(adapter) == 0
++		|| rtw_get_passing_time_ms(rtw_get_on_cur_ch_time(adapter)) < 300
++	) {
++		/* offchannel , bypass radar detect */
++		goto cac_status_chk;
++	}
++
++	if (IS_CH_WAITING(rfctl) && !IS_UNDER_CAC(rfctl)) {
++		/* non_ocp, bypass radar detect */
++		goto cac_status_chk;
++	}
++
++	if (!rfctl->dbg_dfs_master_fake_radar_detect_cnt
++		&& rtw_odm_radar_detect(adapter) != _TRUE)
++		goto cac_status_chk;
++
++	if (rfctl->dbg_dfs_master_fake_radar_detect_cnt != 0) {
++		RTW_INFO(FUNC_ADPT_FMT" fake radar detect, cnt:%d\n", FUNC_ADPT_ARG(adapter)
++			, rfctl->dbg_dfs_master_fake_radar_detect_cnt);
++		rfctl->dbg_dfs_master_fake_radar_detect_cnt--;
++	}
++
++	if (rfctl->dbg_dfs_master_radar_detect_trigger_non) {
++		/* radar detect debug mode, trigger no mlme flow */
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" radar detected, trigger no mlme flow for debug\n", FUNC_ADPT_ARG(adapter));
++	} else {
++		/* TODO: move timer to rfctl */
++		struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++		int i;
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			if (!dvobj->padapters[i])
++				continue;
++			if (check_fwstate(&dvobj->padapters[i]->mlmepriv, WIFI_AP_STATE)
++				&& check_fwstate(&dvobj->padapters[i]->mlmepriv, WIFI_ASOC_STATE))
++				break;
++		}
++
++		if (i >= dvobj->iface_nums) {
++			/* what? */
++			rtw_warn_on(1);
++		} else {
++			rtw_chset_update_non_ocp(dvobj->padapters[i]->mlmeextpriv.channel_set
++				, rfctl->radar_detect_ch, rfctl->radar_detect_bw, rfctl->radar_detect_offset);
++			rfctl->radar_detected = 1;
++
++			/* trigger channel selection */
++			rtw_change_bss_chbw_cmd(dvobj->padapters[i], RTW_CMDF_DIRECTLY, -1, dvobj->padapters[i]->mlmepriv.ori_bw, -1);
++		}
++
++		if (rfctl->dfs_master_enabled)
++			goto set_timer;
++		goto exit;
++	}
++
++cac_status_chk:
++
++	if (!IS_CH_WAITING(rfctl) && !IS_CAC_STOPPED(rfctl)) {
++		u8 pause = 0x00;
++
++		rtw_hal_set_hwreg(adapter, HW_VAR_TXPAUSE, &pause);
++		rfctl->cac_start_time = rfctl->cac_end_time = RTW_CAC_STOPPED;
++	}
++
++set_timer:
++	_set_timer(&mlme->dfs_master_timer, DFS_MASTER_TIMER_MS);
++
++exit:
++	return H2C_SUCCESS;
++}
++
++u8 rtw_dfs_master_cmd(_adapter *adapter, bool enqueue)
++{
++	struct cmd_obj *cmdobj;
++	struct drvextra_cmd_parm *pdrvextra_cmd_parm;
++	struct cmd_priv *pcmdpriv = &adapter->cmdpriv;
++	u8 res = _FAIL;
++
++	if (enqueue) {
++		cmdobj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (cmdobj == NULL)
++			goto exit;
++
++		pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++		if (pdrvextra_cmd_parm == NULL) {
++			rtw_mfree((u8 *)cmdobj, sizeof(struct cmd_obj));
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm->ec_id = DFS_MASTER_WK_CID;
++		pdrvextra_cmd_parm->type = 0;
++		pdrvextra_cmd_parm->size = 0;
++		pdrvextra_cmd_parm->pbuf = NULL;
++
++		init_h2fwcmd_w_parm_no_rsp(cmdobj, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++		res = rtw_enqueue_cmd(pcmdpriv, cmdobj);
++	} else {
++		rtw_dfs_master_hdl(adapter);
++		res = _SUCCESS;
++	}
++
++exit:
++	return res;
++}
++
++void rtw_dfs_master_timer_hdl(RTW_TIMER_HDL_ARGS)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++
++	rtw_dfs_master_cmd(adapter, _TRUE);
++}
++
++void rtw_dfs_master_enable(_adapter *adapter, u8 ch, u8 bw, u8 offset)
++{
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++
++	/* TODO: move timer to rfctl */
++	adapter = GET_PRIMARY_ADAPTER(adapter);
++
++	RTW_INFO(FUNC_ADPT_FMT" on %u,%u,%u\n", FUNC_ADPT_ARG(adapter), ch, bw, offset);
++
++	if (rtw_is_cac_reset_needed(adapter, ch, bw, offset) == _TRUE)
++		rtw_reset_cac(adapter, ch, bw, offset);
++
++	rfctl->radar_detect_by_others = _FALSE;
++	rfctl->radar_detect_ch = ch;
++	rfctl->radar_detect_bw = bw;
++	rfctl->radar_detect_offset = offset;
++
++	rfctl->radar_detected = 0;
++
++	if (!rfctl->dfs_master_enabled) {
++		RTW_INFO(FUNC_ADPT_FMT" set dfs_master_enabled\n", FUNC_ADPT_ARG(adapter));
++		rfctl->dfs_master_enabled = 1;
++		_set_timer(&adapter->mlmepriv.dfs_master_timer, DFS_MASTER_TIMER_MS);
++
++		if (rtw_rfctl_overlap_radar_detect_ch(rfctl)) {
++			if (IS_CH_WAITING(rfctl)) {
++				u8 pause = 0xFF;
++
++				rtw_hal_set_hwreg(adapter, HW_VAR_TXPAUSE, &pause);
++			}
++			rtw_odm_radar_detect_enable(adapter);
++		}
++	}
++}
++
++void rtw_dfs_master_disable(_adapter *adapter, u8 ch, u8 bw, u8 offset, bool by_others)
++{
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++
++	/* TODO: move timer to rfctl */
++	adapter = GET_PRIMARY_ADAPTER(adapter);
++
++	rfctl->radar_detect_by_others = by_others;
++
++	if (rfctl->dfs_master_enabled) {
++		bool overlap_radar_detect_ch = rtw_rfctl_overlap_radar_detect_ch(rfctl);
++
++		RTW_INFO(FUNC_ADPT_FMT" clear dfs_master_enabled\n", FUNC_ADPT_ARG(adapter));
++
++		rfctl->dfs_master_enabled = 0;
++		rfctl->radar_detected = 0;
++		rfctl->radar_detect_ch = 0;
++		rfctl->radar_detect_bw = 0;
++		rfctl->radar_detect_offset = 0;
++		rfctl->cac_start_time = rfctl->cac_end_time = RTW_CAC_STOPPED;
++		_cancel_timer_ex(&adapter->mlmepriv.dfs_master_timer);
++
++		if (overlap_radar_detect_ch) {
++			u8 pause = 0x00;
++
++			rtw_hal_set_hwreg(adapter, HW_VAR_TXPAUSE, &pause);
++			rtw_odm_radar_detect_disable(adapter);
++		}
++	}
++
++	if (by_others) {
++		rfctl->radar_detect_ch = ch;
++		rfctl->radar_detect_bw = bw;
++		rfctl->radar_detect_offset = offset;
++	}
++}
++
++void rtw_dfs_master_status_apply(_adapter *adapter, u8 self_action)
++{
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++	u8 ld_sta_num, lg_sta_num, ap_num;
++	u8 u_ch, u_bw, u_offset;
++	bool ld_sta_in_dfs = _FALSE;
++	bool sync_ch = _FALSE; /* _FALSE: asign channel directly */
++	bool needed = _FALSE;
++
++	rtw_mi_status_no_self(adapter, NULL, &ld_sta_num, &lg_sta_num, &ap_num, NULL, NULL);
++	rtw_mi_get_ch_setting_union_no_self(adapter, &u_ch, &u_bw, &u_offset);
++	if (u_ch != 0)
++		sync_ch = _TRUE;
++
++	switch (self_action) {
++	case MLME_STA_CONNECTING:
++		lg_sta_num++;
++		break;
++	case MLME_STA_CONNECTED:
++		ld_sta_num++;
++		break;
++	case MLME_AP_STARTED:
++		ap_num++;
++		break;
++	case MLME_AP_STOPPED:
++	case MLME_STA_DISCONNECTED:
++	default:
++		break;
++	}
++
++	if (sync_ch == _TRUE) {
++		if (!rtw_is_chbw_grouped(mlmeext->cur_channel, mlmeext->cur_bwmode, mlmeext->cur_ch_offset, u_ch, u_bw, u_offset)) {
++			RTW_INFO(FUNC_ADPT_FMT" can't sync %u,%u,%u with %u,%u,%u\n", FUNC_ADPT_ARG(adapter)
++				, mlmeext->cur_channel, mlmeext->cur_bwmode, mlmeext->cur_ch_offset, u_ch, u_bw, u_offset);
++			goto apply;
++		}
++
++		rtw_sync_chbw(&mlmeext->cur_channel, &mlmeext->cur_bwmode, &mlmeext->cur_ch_offset
++			, &u_ch, &u_bw, &u_offset);
++	} else {
++		u_ch = mlmeext->cur_channel;
++		u_bw = mlmeext->cur_bwmode;
++		u_offset = mlmeext->cur_ch_offset;
++	}
++
++	if (ld_sta_num > 0) {
++		/* rely on AP on which STA mode connects */
++		if (rtw_is_dfs_ch(u_ch, u_bw, u_offset))
++			ld_sta_in_dfs = _TRUE;
++		goto apply;
++	}
++
++	if (lg_sta_num > 0) {
++		/* STA mode is linking */
++		goto apply;
++	}
++
++	if (ap_num == 0) {
++		/* No working AP mode */
++		goto apply;
++	}
++
++	if (rtw_is_dfs_ch(u_ch, u_bw, u_offset))
++		needed = _TRUE;
++
++apply:
++
++	RTW_INFO(FUNC_ADPT_FMT" needed:%d, self_action:%u\n"
++		, FUNC_ADPT_ARG(adapter), needed, self_action);
++	RTW_INFO(FUNC_ADPT_FMT" ld_sta_num:%u, lg_sta_num:%u, ap_num:%u, %u,%u,%u\n"
++		, FUNC_ADPT_ARG(adapter), ld_sta_num, lg_sta_num, ap_num, u_ch, u_bw, u_offset);
++
++	if (needed == _TRUE)
++		rtw_dfs_master_enable(adapter, u_ch, u_bw, u_offset);
++	else
++		rtw_dfs_master_disable(adapter, u_ch, u_bw, u_offset, ld_sta_in_dfs);
++}
++#endif /* CONFIG_DFS_MASTER */
++
++#endif /* CONFIG_AP_MODE */
++
++#ifdef CONFIG_BT_COEXIST
++struct btinfo {
++	u8 cid;
++	u8 len;
++
++	u8 bConnection:1;
++	u8 bSCOeSCO:1;
++	u8 bInQPage:1;
++	u8 bACLBusy:1;
++	u8 bSCOBusy:1;
++	u8 bHID:1;
++	u8 bA2DP:1;
++	u8 bFTP:1;
++
++	u8 retry_cnt:4;
++	u8 rsvd_34:1;
++	u8 rsvd_35:1;
++	u8 rsvd_36:1;
++	u8 rsvd_37:1;
++
++	u8 rssi;
++
++	u8 rsvd_50:1;
++	u8 rsvd_51:1;
++	u8 rsvd_52:1;
++	u8 rsvd_53:1;
++	u8 rsvd_54:1;
++	u8 rsvd_55:1;
++	u8 eSCO_SCO:1;
++	u8 Master_Slave:1;
++
++	u8 rsvd_6;
++	u8 rsvd_7;
++};
++
++void btinfo_evt_dump(void *sel, void *buf)
++{
++	struct btinfo *info = (struct btinfo *)buf;
++
++	RTW_PRINT_SEL(sel, "cid:0x%02x, len:%u\n", info->cid, info->len);
++
++	if (info->len > 2)
++		RTW_PRINT_SEL(sel, "byte2:%s%s%s%s%s%s%s%s\n"
++			      , info->bConnection ? "bConnection " : ""
++			      , info->bSCOeSCO ? "bSCOeSCO " : ""
++			      , info->bInQPage ? "bInQPage " : ""
++			      , info->bACLBusy ? "bACLBusy " : ""
++			      , info->bSCOBusy ? "bSCOBusy " : ""
++			      , info->bHID ? "bHID " : ""
++			      , info->bA2DP ? "bA2DP " : ""
++			      , info->bFTP ? "bFTP" : ""
++			     );
++
++	if (info->len > 3)
++		RTW_PRINT_SEL(sel, "retry_cnt:%u\n", info->retry_cnt);
++
++	if (info->len > 4)
++		RTW_PRINT_SEL(sel, "rssi:%u\n", info->rssi);
++
++	if (info->len > 5)
++		RTW_PRINT_SEL(sel, "byte5:%s%s\n"
++			      , info->eSCO_SCO ? "eSCO_SCO " : ""
++			      , info->Master_Slave ? "Master_Slave " : ""
++			     );
++}
++
++static void rtw_btinfo_hdl(_adapter *adapter, u8 *buf, u16 buf_len)
++{
++#define BTINFO_WIFI_FETCH 0x23
++#define BTINFO_BT_AUTO_RPT 0x27
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	struct btinfo_8761ATV *info = (struct btinfo_8761ATV *)buf;
++#else /* !CONFIG_BT_COEXIST_SOCKET_TRX */
++	struct btinfo *info = (struct btinfo *)buf;
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++	u8 cmd_idx;
++	u8 len;
++
++	cmd_idx = info->cid;
++
++	if (info->len > buf_len - 2) {
++		rtw_warn_on(1);
++		len = buf_len - 2;
++	} else
++		len = info->len;
++
++	/* #define DBG_PROC_SET_BTINFO_EVT */
++#ifdef DBG_PROC_SET_BTINFO_EVT
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	RTW_INFO("%s: btinfo[0]=%x,btinfo[1]=%x,btinfo[2]=%x,btinfo[3]=%x btinfo[4]=%x,btinfo[5]=%x,btinfo[6]=%x,btinfo[7]=%x\n"
++		, __func__, buf[0], buf[1], buf[2], buf[3], buf[4], buf[5], buf[6], buf[7]);
++#else/* !CONFIG_BT_COEXIST_SOCKET_TRX */
++	btinfo_evt_dump(RTW_DBGDUMP, info);
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++#endif /* DBG_PROC_SET_BTINFO_EVT */
++
++	/* transform BT-FW btinfo to WiFI-FW C2H format and notify */
++	if (cmd_idx == BTINFO_WIFI_FETCH)
++		buf[1] = 0;
++	else if (cmd_idx == BTINFO_BT_AUTO_RPT)
++		buf[1] = 2;
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	else if (0x01 == cmd_idx || 0x02 == cmd_idx)
++		buf[1] = buf[0];
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++	rtw_btcoex_BtInfoNotify(adapter , len + 1, &buf[1]);
++}
++
++u8 rtw_btinfo_cmd(_adapter *adapter, u8 *buf, u16 len)
++{
++	struct cmd_obj *ph2c;
++	struct drvextra_cmd_parm *pdrvextra_cmd_parm;
++	u8 *btinfo;
++	struct cmd_priv *pcmdpriv = &adapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((u8 *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	btinfo = rtw_zmalloc(len);
++	if (btinfo == NULL) {
++		rtw_mfree((u8 *)ph2c, sizeof(struct cmd_obj));
++		rtw_mfree((u8 *)pdrvextra_cmd_parm, sizeof(struct drvextra_cmd_parm));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = BTINFO_WK_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = len;
++	pdrvextra_cmd_parm->pbuf = btinfo;
++
++	_rtw_memcpy(btinfo, buf, len);
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++	return res;
++}
++#endif /* CONFIG_BT_COEXIST */
++
++u8 rtw_test_h2c_cmd(_adapter *adapter, u8 *buf, u8 len)
++{
++	struct cmd_obj *pcmdobj;
++	struct drvextra_cmd_parm *pdrvextra_cmd_parm;
++	u8 *ph2c_content;
++	struct cmd_priv *pcmdpriv = &adapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	pcmdobj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (pcmdobj == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((u8 *)pcmdobj, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	ph2c_content = rtw_zmalloc(len);
++	if (ph2c_content == NULL) {
++		rtw_mfree((u8 *)pcmdobj, sizeof(struct cmd_obj));
++		rtw_mfree((u8 *)pdrvextra_cmd_parm, sizeof(struct drvextra_cmd_parm));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = TEST_H2C_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = len;
++	pdrvextra_cmd_parm->pbuf = ph2c_content;
++
++	_rtw_memcpy(ph2c_content, buf, len);
++
++	init_h2fwcmd_w_parm_no_rsp(pcmdobj, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, pcmdobj);
++
++exit:
++	return res;
++}
++
++/* #ifdef CONFIG_C2H_PACKET_EN */
++u8 rtw_c2h_packet_wk_cmd(PADAPTER padapter, u8 *pbuf, u16 length)
++{
++	struct cmd_obj *ph2c;
++	struct drvextra_cmd_parm *pdrvextra_cmd_parm;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++	u8	*extra_cmd_buf;
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((u8 *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	extra_cmd_buf = rtw_zmalloc(length);
++	if (extra_cmd_buf == NULL) {
++		rtw_mfree((u8 *)ph2c, sizeof(struct cmd_obj));
++		rtw_mfree((u8 *)pdrvextra_cmd_parm, sizeof(struct drvextra_cmd_parm));
++		res = _FAIL;
++		goto exit;
++	}
++
++	_rtw_memcpy(extra_cmd_buf, pbuf, length);
++	pdrvextra_cmd_parm->ec_id = C2H_WK_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size = length;
++	pdrvextra_cmd_parm->pbuf = extra_cmd_buf;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++	return res;
++}
++
++/* #else */ /* CONFIG_C2H_PACKET_EN */
++/* dont call R/W in this function, beucase SDIO interrupt have claim host
++ * or deadlock will happen and cause special-systemserver-died in android */
++
++u8 rtw_c2h_wk_cmd(PADAPTER padapter, u8 *c2h_evt)
++{
++	struct cmd_obj *ph2c;
++	struct drvextra_cmd_parm *pdrvextra_cmd_parm;
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (pdrvextra_cmd_parm == NULL) {
++		rtw_mfree((u8 *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	pdrvextra_cmd_parm->ec_id = C2H_WK_CID;
++	pdrvextra_cmd_parm->type = 0;
++	pdrvextra_cmd_parm->size =  c2h_evt ? 16 : 0;
++	pdrvextra_cmd_parm->pbuf = c2h_evt;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++	return res;
++}
++/* #endif */ /* CONFIG_C2H_PACKET_EN */
++
++u8 rtw_run_in_thread_cmd(PADAPTER padapter, void (*func)(void *), void *context)
++{
++	struct cmd_priv *pcmdpriv;
++	struct cmd_obj *ph2c;
++	struct RunInThread_param *parm;
++	s32 res = _SUCCESS;
++
++
++	pcmdpriv = &padapter->cmdpriv;
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (NULL == ph2c) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	parm = (struct RunInThread_param *)rtw_zmalloc(sizeof(struct RunInThread_param));
++	if (NULL == parm) {
++		rtw_mfree((u8 *)ph2c, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	parm->func = func;
++	parm->context = context;
++	init_h2fwcmd_w_parm_no_rsp(ph2c, parm, GEN_CMD_CODE(_RunInThreadCMD));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++exit:
++
++
++	return res;
++}
++
++s32 c2h_evt_hdl(_adapter *adapter, u8 *c2h_evt, c2h_id_filter filter)
++{
++	s32 ret = _FAIL;
++	u8 buf[16];
++
++	if (!c2h_evt) {
++		/* No c2h event in cmd_obj, read c2h event before handling*/
++		if (rtw_hal_c2h_evt_read(adapter, buf) == _SUCCESS) {
++			c2h_evt = buf;
++
++			if (filter && filter(c2h_evt) == _FALSE)
++				goto exit;
++
++			ret = rtw_hal_c2h_handler(adapter, c2h_evt);
++		}
++	} else {
++
++		if (filter && filter(c2h_evt) == _FALSE)
++			goto exit;
++
++		ret = rtw_hal_c2h_handler(adapter, c2h_evt);
++	}
++exit:
++	return ret;
++}
++
++#ifdef CONFIG_C2H_WK
++static void c2h_wk_callback(_workitem *work)
++{
++	struct evt_priv *evtpriv = container_of(work, struct evt_priv, c2h_wk);
++	_adapter *adapter = container_of(evtpriv, _adapter, evtpriv);
++	u8 *c2h_evt;
++	c2h_id_filter ccx_id_filter = rtw_hal_c2h_id_filter_ccx(adapter);
++
++	evtpriv->c2h_wk_alive = _TRUE;
++
++	while (!rtw_cbuf_empty(evtpriv->c2h_queue)) {
++		c2h_evt = (u8 *)rtw_cbuf_pop(evtpriv->c2h_queue);
++		if (c2h_evt != NULL) {
++			/* This C2H event is read, clear it */
++			c2h_evt_clear(adapter);
++		} else {
++			c2h_evt = (u8 *)rtw_malloc(16);
++			if (c2h_evt == NULL) {
++				rtw_warn_on(1);
++				continue;
++			}
++
++			/* This C2H event is not read, read & clear now */
++			if (rtw_hal_c2h_evt_read(adapter, c2h_evt) != _SUCCESS) {
++				rtw_mfree(c2h_evt, 16);
++				continue;
++			}
++		}
++
++		/* Special pointer to trigger c2h_evt_clear only */
++		if ((void *)c2h_evt == (void *)evtpriv)
++			continue;
++
++		if (!rtw_hal_c2h_valid(adapter, c2h_evt)) {
++			rtw_mfree(c2h_evt, 16);
++			continue;
++		}
++
++		if (ccx_id_filter(c2h_evt) == _TRUE) {
++			/* Handle CCX report here */
++			rtw_hal_c2h_handler(adapter, c2h_evt);
++			rtw_mfree(c2h_evt, 16);
++		} else {
++			/* Enqueue into cmd_thread for others */
++			rtw_c2h_wk_cmd(adapter, c2h_evt);
++		}
++	}
++
++	evtpriv->c2h_wk_alive = _FALSE;
++}
++#endif
++
++u8 session_tracker_cmd(_adapter *adapter, u8 cmd, struct sta_info *sta, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port)
++{
++	struct cmd_priv	*cmdpriv = &adapter->cmdpriv;
++	struct cmd_obj *cmdobj;
++	struct drvextra_cmd_parm *cmd_parm;
++	struct st_cmd_parm *st_parm;
++	u8	res = _SUCCESS;
++
++	cmdobj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (cmdobj == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (cmd_parm == NULL) {
++		rtw_mfree((u8 *)cmdobj, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	st_parm = (struct st_cmd_parm *)rtw_zmalloc(sizeof(struct st_cmd_parm));
++	if (st_parm == NULL) {
++		rtw_mfree((u8 *)cmdobj, sizeof(struct cmd_obj));
++		rtw_mfree((u8 *)cmd_parm, sizeof(struct drvextra_cmd_parm));
++		res = _FAIL;
++		goto exit;
++	}
++
++	st_parm->cmd = cmd;
++	st_parm->sta = sta;
++	if (cmd != ST_CMD_CHK) {
++		_rtw_memcpy(&st_parm->local_naddr, local_naddr, 4);
++		_rtw_memcpy(&st_parm->local_port, local_port, 2);
++		_rtw_memcpy(&st_parm->remote_naddr, remote_naddr, 4);
++		_rtw_memcpy(&st_parm->remote_port, remote_port, 2);
++	}
++
++	cmd_parm->ec_id = SESSION_TRACKER_WK_CID;
++	cmd_parm->type = 0;
++	cmd_parm->size = sizeof(struct st_cmd_parm);
++	cmd_parm->pbuf = (u8 *)st_parm;
++	init_h2fwcmd_w_parm_no_rsp(cmdobj, cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++	cmdobj->no_io = 1;
++
++	res = rtw_enqueue_cmd(cmdpriv, cmdobj);
++
++exit:
++	return res;
++}
++
++inline u8 session_tracker_chk_cmd(_adapter *adapter, struct sta_info *sta)
++{
++	return session_tracker_cmd(adapter, ST_CMD_CHK, sta, NULL, NULL, NULL, NULL);
++}
++
++inline u8 session_tracker_add_cmd(_adapter *adapter, struct sta_info *sta, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port)
++{
++	return session_tracker_cmd(adapter, ST_CMD_ADD, sta, local_naddr, local_port, remote_naddr, remote_port);
++}
++
++inline u8 session_tracker_del_cmd(_adapter *adapter, struct sta_info *sta, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port)
++{
++	return session_tracker_cmd(adapter, ST_CMD_DEL, sta, local_naddr, local_port, remote_naddr, remote_port);
++}
++
++void session_tracker_chk_for_sta(_adapter *adapter, struct sta_info *sta)
++{
++	struct st_ctl_t *st_ctl = &sta->st_ctl;
++	int i;
++	_irqL irqL;
++	_list *plist, *phead, *pnext;
++	_list dlist;
++	struct session_tracker *st = NULL;
++	u8 op_wfd_mode = MIRACAST_DISABLED;
++
++	if (DBG_SESSION_TRACKER)
++		RTW_INFO(FUNC_ADPT_FMT" sta:%p\n", FUNC_ADPT_ARG(adapter), sta);
++
++	if (!(sta->state & _FW_LINKED))
++		goto exit;
++
++	for (i = 0; i < SESSION_TRACKER_REG_ID_NUM; i++) {
++		if (st_ctl->reg[i].s_proto != 0)
++			break;
++	}
++	if (i >= SESSION_TRACKER_REG_ID_NUM)
++		goto chk_sta;
++
++	_rtw_init_listhead(&dlist);
++
++	_enter_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++
++	phead = &st_ctl->tracker_q.queue;
++	plist = get_next(phead);
++	pnext = get_next(plist);
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		st = LIST_CONTAINOR(plist, struct session_tracker, list);
++		plist = pnext;
++		pnext = get_next(pnext);
++
++		if (st->status != ST_STATUS_ESTABLISH
++			&& rtw_get_passing_time_ms(st->set_time) > ST_EXPIRE_MS
++		) {
++			rtw_list_delete(&st->list);
++			rtw_list_insert_tail(&st->list, &dlist);
++		}
++
++		/* TODO: check OS for status update */
++		if (st->status == ST_STATUS_CHECK)
++			st->status = ST_STATUS_ESTABLISH;
++
++		if (st->status != ST_STATUS_ESTABLISH)
++			continue;
++
++		#ifdef CONFIG_WFD
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" local:%u, remote:%u, rtsp:%u, %u, %u\n", FUNC_ADPT_ARG(adapter)
++				, ntohs(st->local_port), ntohs(st->remote_port), adapter->wfd_info.rtsp_ctrlport, adapter->wfd_info.tdls_rtsp_ctrlport
++				, adapter->wfd_info.peer_rtsp_ctrlport);
++		if (ntohs(st->local_port) == adapter->wfd_info.rtsp_ctrlport)
++			op_wfd_mode |= MIRACAST_SINK;
++		if (ntohs(st->local_port) == adapter->wfd_info.tdls_rtsp_ctrlport)
++			op_wfd_mode |= MIRACAST_SINK;
++		if (ntohs(st->remote_port) == adapter->wfd_info.peer_rtsp_ctrlport)
++			op_wfd_mode |= MIRACAST_SOURCE;
++		#endif
++	}
++
++	_exit_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++
++	plist = get_next(&dlist);
++	while (rtw_end_of_queue_search(&dlist, plist) == _FALSE) {
++		st = LIST_CONTAINOR(plist, struct session_tracker, list);
++		plist = get_next(plist);
++		rtw_mfree((u8 *)st, sizeof(struct session_tracker));
++	}
++
++chk_sta:
++	if (STA_OP_WFD_MODE(sta) != op_wfd_mode) {
++		STA_SET_OP_WFD_MODE(sta, op_wfd_mode);
++		rtw_sta_media_status_rpt_cmd(adapter, sta, 1);
++	}
++
++exit:
++	return;
++}
++
++void session_tracker_chk_for_adapter(_adapter *adapter)
++{
++	struct sta_priv *stapriv = &adapter->stapriv;
++	struct sta_info *sta;
++	int i;
++	_irqL irqL;
++	_list *plist, *phead;
++	u8 op_wfd_mode = MIRACAST_DISABLED;
++
++	_enter_critical_bh(&stapriv->sta_hash_lock, &irqL);
++
++	for (i = 0; i < NUM_STA; i++) {
++		phead = &(stapriv->sta_hash[i]);
++		plist = get_next(phead);
++
++		while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++			sta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++			plist = get_next(plist);
++
++			session_tracker_chk_for_sta(adapter, sta);
++
++			op_wfd_mode |= STA_OP_WFD_MODE(sta);
++		}
++	}
++
++	_exit_critical_bh(&stapriv->sta_hash_lock, &irqL);
++
++#ifdef CONFIG_WFD
++	adapter->wfd_info.op_wfd_mode = MIRACAST_MODE_REVERSE(op_wfd_mode);
++#endif
++}
++
++void session_tracker_cmd_hdl(_adapter *adapter, struct st_cmd_parm *parm)
++{
++	u8 cmd = parm->cmd;
++	struct sta_info *sta = parm->sta;
++
++	if (cmd == ST_CMD_CHK) {
++		if (sta)
++			session_tracker_chk_for_sta(adapter, sta);
++		else
++			session_tracker_chk_for_adapter(adapter);
++
++		goto exit;
++
++	} else if (cmd == ST_CMD_ADD || cmd == ST_CMD_DEL) {
++		struct st_ctl_t *st_ctl;
++		u32 local_naddr = parm->local_naddr;
++		u16 local_port = parm->local_port;
++		u32 remote_naddr = parm->remote_naddr;
++		u16 remote_port = parm->remote_port;
++		struct session_tracker *st = NULL;
++		_irqL irqL;
++		_list *plist, *phead;
++		u8 free_st = 0;
++		u8 alloc_st = 0;
++
++		if (DBG_SESSION_TRACKER)
++			RTW_INFO(FUNC_ADPT_FMT" cmd:%u, sta:%p, local:"IP_FMT":"PORT_FMT", remote:"IP_FMT":"PORT_FMT"\n"
++				, FUNC_ADPT_ARG(adapter), cmd, sta
++				, IP_ARG(&local_naddr), PORT_ARG(&local_port)
++				, IP_ARG(&remote_naddr), PORT_ARG(&remote_port)
++			);
++
++		if (!(sta->state & _FW_LINKED))
++			goto exit;
++
++		st_ctl = &sta->st_ctl;
++
++		_enter_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++
++		phead = &st_ctl->tracker_q.queue;
++		plist = get_next(phead);
++		while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++			st = LIST_CONTAINOR(plist, struct session_tracker, list);
++
++			if (st->local_naddr == local_naddr
++				&& st->local_port == local_port
++				&& st->remote_naddr == remote_naddr
++				&& st->remote_port == remote_port)
++				break;
++
++			plist = get_next(plist);
++		}
++
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			st = NULL;
++
++		switch (cmd) {
++		case ST_CMD_DEL:
++			if (st) {
++				rtw_list_delete(plist);
++				free_st = 1;
++			}
++			goto unlock;
++		case ST_CMD_ADD:
++			if (!st)
++				alloc_st = 1;
++		}
++
++unlock:
++		_exit_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++
++		if (free_st) {
++			rtw_mfree((u8 *)st, sizeof(struct session_tracker));
++			goto exit;
++		}
++
++		if (alloc_st) {
++			st = (struct session_tracker *)rtw_zmalloc(sizeof(struct session_tracker));
++			if (!st)
++				goto exit;
++
++			st->local_naddr = local_naddr;
++			st->local_port = local_port;
++			st->remote_naddr = remote_naddr;
++			st->remote_port = remote_port;
++			st->set_time = rtw_get_current_time();
++			st->status = ST_STATUS_CHECK;
++
++			_enter_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++			rtw_list_insert_tail(&st->list, phead);
++			_exit_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++		}
++	}
++
++exit:
++	return;
++}
++
++u8 rtw_drvextra_cmd_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct drvextra_cmd_parm *pdrvextra_cmd;
++
++	if (!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	pdrvextra_cmd = (struct drvextra_cmd_parm *)pbuf;
++
++	switch (pdrvextra_cmd->ec_id) {
++	case STA_MSTATUS_RPT_WK_CID:
++		rtw_sta_media_status_rpt_cmd_hdl(padapter, (struct sta_media_status_rpt_cmd_parm *)pdrvextra_cmd->pbuf);
++		break;
++
++	case DYNAMIC_CHK_WK_CID:/*only  primary padapter go to this cmd, but execute dynamic_chk_wk_hdl() for two interfaces */
++		rtw_dynamic_chk_wk_hdl(padapter);
++		break;
++	case POWER_SAVING_CTRL_WK_CID:
++		power_saving_wk_hdl(padapter);
++		break;
++#ifdef CONFIG_LPS
++	case LPS_CTRL_WK_CID:
++		lps_ctrl_wk_hdl(padapter, (u8)pdrvextra_cmd->type);
++		break;
++	case DM_IN_LPS_WK_CID:
++		rtw_dm_in_lps_hdl(padapter);
++		break;
++	case LPS_CHANGE_DTIM_CID:
++		rtw_lps_change_dtim_hdl(padapter, (u8)pdrvextra_cmd->type);
++		break;
++#endif
++#if (RATE_ADAPTIVE_SUPPORT == 1)
++	case RTP_TIMER_CFG_WK_CID:
++		rpt_timer_setting_wk_hdl(padapter, pdrvextra_cmd->type);
++		break;
++#endif
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	case ANT_SELECT_WK_CID:
++		antenna_select_wk_hdl(padapter, pdrvextra_cmd->type);
++		break;
++#endif
++#ifdef CONFIG_P2P_PS
++	case P2P_PS_WK_CID:
++		p2p_ps_wk_hdl(padapter, pdrvextra_cmd->type);
++		break;
++#endif
++#ifdef CONFIG_P2P
++	case P2P_PROTO_WK_CID:
++		/*
++		* Commented by Albert 2011/07/01
++		* I used the type_size as the type command
++		*/
++		p2p_protocol_wk_hdl(padapter, pdrvextra_cmd->type);
++		break;
++#endif
++#ifdef CONFIG_AP_MODE
++	case CHECK_HIQ_WK_CID:
++		rtw_chk_hi_queue_hdl(padapter);
++		break;
++#endif
++#ifdef CONFIG_INTEL_WIDI
++	case INTEl_WIDI_WK_CID:
++		intel_widi_wk_hdl(padapter, pdrvextra_cmd->type, pdrvextra_cmd->pbuf);
++		break;
++#endif
++	/* add for CONFIG_IEEE80211W, none 11w can use it */
++	case RESET_SECURITYPRIV:
++		reset_securitypriv_hdl(padapter);
++		break;
++	case FREE_ASSOC_RESOURCES:
++		free_assoc_resources_hdl(padapter);
++		break;
++	case C2H_WK_CID:
++#ifdef CONFIG_C2H_PACKET_EN
++		rtw_hal_set_hwreg_with_buf(padapter, HW_VAR_C2H_HANDLE, pdrvextra_cmd->pbuf, pdrvextra_cmd->size);
++#else
++		c2h_evt_hdl(padapter, pdrvextra_cmd->pbuf, NULL);
++#endif
++		break;
++#ifdef CONFIG_BEAMFORMING
++	case BEAMFORMING_WK_CID:
++		beamforming_wk_hdl(padapter, pdrvextra_cmd->type, pdrvextra_cmd->pbuf);
++		break;
++#endif
++	case DM_RA_MSK_WK_CID:
++		rtw_dm_ra_mask_hdl(padapter, (struct sta_info *)pdrvextra_cmd->pbuf);
++		break;
++#ifdef CONFIG_BT_COEXIST
++	case BTINFO_WK_CID:
++		rtw_btinfo_hdl(padapter, pdrvextra_cmd->pbuf, pdrvextra_cmd->size);
++		break;
++#endif
++#ifdef CONFIG_DFS_MASTER
++	case DFS_MASTER_WK_CID:
++		rtw_dfs_master_hdl(padapter);
++		break;
++#endif
++	case SESSION_TRACKER_WK_CID:
++		session_tracker_cmd_hdl(padapter, (struct st_cmd_parm *)pdrvextra_cmd->pbuf);
++		break;
++	case EN_HW_UPDATE_TSF_WK_CID:
++		rtw_hal_set_hwreg(padapter, HW_VAR_EN_HW_UPDATE_TSF, NULL);
++		break;
++	case TEST_H2C_CID:
++		rtw_hal_fill_h2c_cmd(padapter, pdrvextra_cmd->pbuf[0], pdrvextra_cmd->size - 1, &pdrvextra_cmd->pbuf[1]);
++		break;
++	default:
++		break;
++	}
++
++	if (pdrvextra_cmd->pbuf && pdrvextra_cmd->size > 0)
++		rtw_mfree(pdrvextra_cmd->pbuf, pdrvextra_cmd->size);
++
++	return H2C_SUCCESS;
++}
++
++void rtw_survey_cmd_callback(_adapter	*padapter ,  struct cmd_obj *pcmd)
++{
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++
++	if (pcmd->res == H2C_DROPPED) {
++		/* TODO: cancel timer and do timeout handler directly... */
++		/* need to make timeout handlerOS independent */
++		mlme_set_scan_to_timer(pmlmepriv, 1);
++	} else if (pcmd->res != H2C_SUCCESS) {
++		mlme_set_scan_to_timer(pmlmepriv, 1);
++	}
++
++	/* free cmd */
++	rtw_free_cmd_obj(pcmd);
++
++}
++void rtw_disassoc_cmd_callback(_adapter	*padapter,  struct cmd_obj *pcmd)
++{
++	_irqL	irqL;
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++
++	if (pcmd->res != H2C_SUCCESS) {
++		_enter_critical_bh(&pmlmepriv->lock, &irqL);
++		set_fwstate(pmlmepriv, _FW_LINKED);
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++		goto exit;
++	}
++#ifdef CONFIG_BR_EXT
++	else /* clear bridge database */
++		nat25_db_cleanup(padapter);
++#endif /* CONFIG_BR_EXT */
++
++	/* free cmd */
++	rtw_free_cmd_obj(pcmd);
++
++exit:
++	return;
++}
++
++
++void rtw_getmacreg_cmdrsp_callback(_adapter *padapter,  struct cmd_obj *pcmd)
++{
++
++
++	rtw_free_cmd_obj(pcmd);
++
++}
++
++void rtw_joinbss_cmd_callback(_adapter	*padapter,  struct cmd_obj *pcmd)
++{
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++
++	if (pcmd->res == H2C_DROPPED) {
++		/* TODO: cancel timer and do timeout handler directly... */
++		/* need to make timeout handlerOS independent */
++		_set_timer(&pmlmepriv->assoc_timer, 1);
++	} else if (pcmd->res != H2C_SUCCESS)
++		_set_timer(&pmlmepriv->assoc_timer, 1);
++
++	rtw_free_cmd_obj(pcmd);
++
++}
++
++void rtw_create_ibss_post_hdl(_adapter *padapter, int status)
++{
++	_irqL irqL;
++	u8 timer_cancelled;
++	struct sta_info *psta = NULL;
++	struct wlan_network *pwlan = NULL;
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	WLAN_BSSID_EX *pdev_network = &padapter->registrypriv.dev_network;
++	struct wlan_network *mlme_cur_network = &(pmlmepriv->cur_network);
++
++	if (status != H2C_SUCCESS)
++		_set_timer(&pmlmepriv->assoc_timer, 1);
++
++	_cancel_timer(&pmlmepriv->assoc_timer, &timer_cancelled);
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	{
++		_irqL irqL;
++
++		pwlan = _rtw_alloc_network(pmlmepriv);
++		_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		if (pwlan == NULL) {
++			pwlan = rtw_get_oldest_wlan_network(&pmlmepriv->scanned_queue);
++			if (pwlan == NULL) {
++				_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++				goto createbss_cmd_fail;
++			}
++			pwlan->last_scanned = rtw_get_current_time();
++		} else
++			rtw_list_insert_tail(&(pwlan->list), &pmlmepriv->scanned_queue.queue);
++
++		pdev_network->Length = get_WLAN_BSSID_EX_sz(pdev_network);
++		_rtw_memcpy(&(pwlan->network), pdev_network, pdev_network->Length);
++		/* pwlan->fixed = _TRUE; */
++
++		/* copy pdev_network information to pmlmepriv->cur_network */
++		_rtw_memcpy(&mlme_cur_network->network, pdev_network, (get_WLAN_BSSID_EX_sz(pdev_network)));
++
++#if 0
++		/* reset DSConfig */
++		mlme_cur_network->network.Configuration.DSConfig = (u32)rtw_ch2freq(pdev_network->Configuration.DSConfig);
++#endif
++
++		_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		/* we will set _FW_LINKED when there is one more sat to join us (rtw_stassoc_event_callback) */
++	}
++
++createbss_cmd_fail:
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++exit:
++	return;
++}
++
++
++
++void rtw_setstaKey_cmdrsp_callback(_adapter	*padapter ,  struct cmd_obj *pcmd)
++{
++
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct set_stakey_rsp *psetstakey_rsp = (struct set_stakey_rsp *)(pcmd->rsp);
++	struct sta_info	*psta = rtw_get_stainfo(pstapriv, psetstakey_rsp->addr);
++
++
++	if (psta == NULL) {
++		goto exit;
++	}
++
++	/* psta->aid = psta->mac_id = psetstakey_rsp->keyid; */ /* CAM_ID(CAM_ENTRY) */
++
++exit:
++
++	rtw_free_cmd_obj(pcmd);
++
++
++}
++void rtw_setassocsta_cmdrsp_callback(_adapter	*padapter,  struct cmd_obj *pcmd)
++{
++	_irqL	irqL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct set_assocsta_parm *passocsta_parm = (struct set_assocsta_parm *)(pcmd->parmbuf);
++	struct set_assocsta_rsp *passocsta_rsp = (struct set_assocsta_rsp *)(pcmd->rsp);
++	struct sta_info	*psta = rtw_get_stainfo(pstapriv, passocsta_parm->addr);
++
++
++	if (psta == NULL) {
++		goto exit;
++	}
++
++	psta->aid = psta->mac_id = passocsta_rsp->cam_id;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	if ((check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE) && (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE))
++		_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++
++	set_fwstate(pmlmepriv, _FW_LINKED);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++exit:
++	rtw_free_cmd_obj(pcmd);
++
++}
++
++void rtw_getrttbl_cmd_cmdrsp_callback(_adapter	*padapter,  struct cmd_obj *pcmd);
++void rtw_getrttbl_cmd_cmdrsp_callback(_adapter	*padapter,  struct cmd_obj *pcmd)
++{
++
++	rtw_free_cmd_obj(pcmd);
++#ifdef CONFIG_MP_INCLUDED
++	if (padapter->registrypriv.mp_mode == 1)
++		padapter->mppriv.workparam.bcompleted = _TRUE;
++#endif
++
++
++}
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_debug.c b/drivers/net/wireless/rtl8812au/core/rtw_debug.c
+new file mode 100644
+index 0000000..166f6ca
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_debug.c
+@@ -0,0 +1,4712 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_DEBUG_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#ifdef CONFIG_RTW_DEBUG
++const char *rtw_log_level_str[] = {
++	"_DRV_NONE_ = 0",
++	"_DRV_ALWAYS_ = 1",
++	"_DRV_ERR_ = 2",
++	"_DRV_WARNING_ = 3",
++	"_DRV_INFO_ = 4",
++	"_DRV_DEBUG_ = 5",
++	"_DRV_MAX_ = 6",
++};
++#endif
++
++#ifdef CONFIG_DEBUG_RTL871X
++	u64 GlobalDebugComponents = 0;
++#endif /* CONFIG_DEBUG_RTL871X */
++
++#include <rtw_version.h>
++
++#ifdef CONFIG_TDLS
++	#define TDLS_DBG_INFO_SPACE_BTWN_ITEM_AND_VALUE	41
++#endif
++
++void dump_drv_version(void *sel)
++{
++	RTW_PRINT_SEL(sel, "%s %s\n", DRV_NAME, DRIVERVERSION);
++}
++
++void dump_drv_cfg(void *sel)
++{
++	char *kernel_version = utsname()->release;
++
++	RTW_PRINT_SEL(sel, "\nKernel Version: %s\n", kernel_version);
++	RTW_PRINT_SEL(sel, "Driver Version: %s\n", DRIVERVERSION);
++	RTW_PRINT_SEL(sel, "------------------------------------------------\n");
++#ifdef CONFIG_IOCTL_CFG80211
++	RTW_PRINT_SEL(sel, "CFG80211\n");
++#ifdef RTW_USE_CFG80211_STA_EVENT
++	RTW_PRINT_SEL(sel, "RTW_USE_CFG80211_STA_EVENT\n");
++#endif
++#else
++	RTW_PRINT_SEL(sel, "WEXT\n");
++#endif
++
++	RTW_PRINT_SEL(sel, "DBG:%d\n", DBG);
++#ifdef CONFIG_RTW_DEBUG
++	RTW_PRINT_SEL(sel, "CONFIG_RTW_DEBUG\n");
++#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++	RTW_PRINT_SEL(sel, "CONFIG_CONCURRENT_MODE\n");
++#endif
++
++#ifdef CONFIG_POWER_SAVING
++	RTW_PRINT_SEL(sel, "CONFIG_POWER_SAVING\n");
++#endif
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	RTW_PRINT_SEL(sel, "LOAD_PHY_PARA_FROM_FILE - REALTEK_CONFIG_PATH=%s\n", REALTEK_CONFIG_PATH);
++	#if defined(CONFIG_MULTIDRV) || defined(REALTEK_CONFIG_PATH_WITH_IC_NAME_FOLDER)
++	RTW_PRINT_SEL(sel, "LOAD_PHY_PARA_FROM_FILE - REALTEK_CONFIG_PATH_WITH_IC_NAME_FOLDER\n");
++	#endif
++#ifdef CONFIG_CALIBRATE_TX_POWER_BY_REGULATORY
++	RTW_PRINT_SEL(sel, "CONFIG_CALIBRATE_TX_POWER_BY_REGULATORY\n");
++#endif
++#ifdef CONFIG_CALIBRATE_TX_POWER_TO_MAX
++	RTW_PRINT_SEL(sel, "CONFIG_CALIBRATE_TX_POWER_TO_MAX\n");
++#endif
++#endif
++
++#ifdef CONFIG_DISABLE_ODM
++	RTW_PRINT_SEL(sel, "CONFIG_DISABLE_ODM\n");
++#endif
++
++#ifdef CONFIG_MINIMAL_MEMORY_USAGE
++	RTW_PRINT_SEL(sel, "CONFIG_MINIMAL_MEMORY_USAGE\n");
++#endif
++
++	RTW_PRINT_SEL(sel, "CONFIG_RTW_ADAPTIVITY_EN = %d\n", CONFIG_RTW_ADAPTIVITY_EN);
++#if (CONFIG_RTW_ADAPTIVITY_EN)
++	RTW_PRINT_SEL(sel, "ADAPTIVITY_MODE = %s\n", (CONFIG_RTW_ADAPTIVITY_MODE) ? "carrier_sense" : "normal");
++#endif
++
++#ifdef CONFIG_WOWLAN
++	RTW_PRINT_SEL(sel, "CONFIG_WOWLAN - ");
++
++#ifdef CONFIG_GPIO_WAKEUP
++	RTW_PRINT_SEL(sel, "CONFIG_GPIO_WAKEUP - WAKEUP_GPIO_IDX:%d\n", WAKEUP_GPIO_IDX);
++#endif
++#endif
++
++#ifdef CONFIG_TDLS
++	RTW_PRINT_SEL(sel, "CONFIG_TDLS\n");
++#endif
++
++#ifdef CONFIG_USB_HCI
++#ifdef CONFIG_SUPPORT_USB_INT
++	RTW_PRINT_SEL(sel, "CONFIG_SUPPORT_USB_INT\n");
++#endif
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++	RTW_PRINT_SEL(sel, "CONFIG_USB_INTERRUPT_IN_PIPE\n");
++#endif
++#ifdef CONFIG_USB_TX_AGGREGATION
++	RTW_PRINT_SEL(sel, "CONFIG_USB_TX_AGGREGATION\n");
++#endif
++#ifdef CONFIG_USB_RX_AGGREGATION
++	RTW_PRINT_SEL(sel, "CONFIG_USB_RX_AGGREGATION\n");
++#endif
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_TX
++	RTW_PRINT_SEL(sel, "CONFIG_USE_USB_BUFFER_ALLOC_TX\n");
++#endif
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++	RTW_PRINT_SEL(sel, "CONFIG_USE_USB_BUFFER_ALLOC_RX\n");
++#endif
++#ifdef CONFIG_PREALLOC_RECV_SKB
++	RTW_PRINT_SEL(sel, "CONFIG_PREALLOC_RECV_SKB\n");
++#endif
++#ifdef CONFIG_FIX_NR_BULKIN_BUFFER
++	RTW_PRINT_SEL(sel, "CONFIG_FIX_NR_BULKIN_BUFFER\n");
++#endif
++#endif /*CONFIG_USB_HCI*/
++
++#ifdef CONFIG_SDIO_HCI
++#ifdef CONFIG_TX_AGGREGATION
++	RTW_PRINT_SEL(sel, "CONFIG_TX_AGGREGATION\n");
++#endif
++#ifdef CONFIG_RX_AGGREGATION
++	RTW_PRINT_SEL(sel, "CONFIG_RX_AGGREGATION\n");
++#endif
++#endif /*CONFIG_SDIO_HCI*/
++
++#ifdef CONFIG_PCI_HCI
++#endif
++
++	RTW_PRINT_SEL(sel, "MAX_XMITBUF_SZ = %d\n", MAX_XMITBUF_SZ);
++	RTW_PRINT_SEL(sel, "MAX_RECVBUF_SZ = %d\n", MAX_RECVBUF_SZ);
++
++}
++
++void dump_log_level(void *sel)
++{
++#ifdef CONFIG_RTW_DEBUG
++	int i;
++
++	RTW_PRINT_SEL(sel, "drv_log_level:%d\n", rtw_drv_log_level);
++	for (i = 0; i <= _DRV_MAX_; i++) {
++		if (rtw_log_level_str[i])
++			RTW_PRINT_SEL(sel, "%c %s = %d\n",
++				(rtw_drv_log_level == i) ? '+' : ' ', rtw_log_level_str[i], i);
++	}
++#else
++	RTW_PRINT_SEL(sel, "CONFIG_RTW_DEBUG is disabled\n");
++#endif
++}
++
++#ifdef CONFIG_SDIO_HCI
++void sd_f0_reg_dump(void *sel, _adapter *adapter)
++{
++	int i;
++
++	for (i = 0x0; i <= 0xff; i++) {
++		if (i % 16 == 0)
++			RTW_PRINT_SEL(sel, "0x%02x ", i);
++
++		_RTW_PRINT_SEL(sel, "%02x ", rtw_sd_f0_read8(adapter, i));
++
++		if (i % 16 == 15)
++			_RTW_PRINT_SEL(sel, "\n");
++		else if (i % 8 == 7)
++			_RTW_PRINT_SEL(sel, "\t");
++	}
++}
++
++void sdio_local_reg_dump(void *sel, _adapter *adapter)
++{
++	int i, j = 1;
++
++	for (i = 0x0; i < 0x100; i += 4) {
++		if (j % 4 == 1)
++			RTW_PRINT_SEL(sel, "0x%02x", i);
++		_RTW_PRINT_SEL(sel, " 0x%08x ", rtw_read32(adapter, (0x1025 << 16) | i));
++		if ((j++) % 4 == 0)
++			_RTW_PRINT_SEL(sel, "\n");
++	}
++}
++#endif /* CONFIG_SDIO_HCI */
++
++void mac_reg_dump(void *sel, _adapter *adapter)
++{
++	int i, j = 1;
++
++	RTW_PRINT_SEL(sel, "======= MAC REG =======\n");
++
++	for (i = 0x0; i < 0x800; i += 4) {
++		if (j % 4 == 1)
++			RTW_PRINT_SEL(sel, "0x%03x", i);
++		_RTW_PRINT_SEL(sel, " 0x%08x ", rtw_read32(adapter, i));
++		if ((j++) % 4 == 0)
++			_RTW_PRINT_SEL(sel, "\n");
++	}
++
++#ifdef CONFIG_RTL8814A
++	{
++		for (i = 0x1000; i < 0x1650; i += 4) {
++			if (j % 4 == 1)
++				RTW_PRINT_SEL(sel, "0x%03x", i);
++			_RTW_PRINT_SEL(sel, " 0x%08x ", rtw_read32(adapter, i));
++			if ((j++) % 4 == 0)
++				_RTW_PRINT_SEL(sel, "\n");
++		}
++	}
++#endif /* CONFIG_RTL8814A */
++
++#ifdef CONFIG_RTL8822B
++	for (i = 0x1000; i < 0x1800; i += 4) {
++		if (j % 4 == 1)
++			RTW_PRINT_SEL(sel, "0x%03x", i);
++		_RTW_PRINT_SEL(sel, " 0x%08x ", rtw_read32(adapter, i));
++		if ((j++) % 4 == 0)
++			_RTW_PRINT_SEL(sel, "\n");
++	}
++#endif /* CONFIG_RTL8822B */
++}
++
++void bb_reg_dump(void *sel, _adapter *adapter)
++{
++	int i, j = 1;
++
++	RTW_PRINT_SEL(sel, "======= BB REG =======\n");
++	for (i = 0x800; i < 0x1000; i += 4) {
++		if (j % 4 == 1)
++			RTW_PRINT_SEL(sel, "0x%03x", i);
++		_RTW_PRINT_SEL(sel, " 0x%08x ", rtw_read32(adapter, i));
++		if ((j++) % 4 == 0)
++			_RTW_PRINT_SEL(sel, "\n");
++	}
++
++#ifdef CONFIG_RTL8822B
++	for (i = 0x1800; i < 0x2000; i += 4) {
++		if (j % 4 == 1)
++			RTW_PRINT_SEL(sel, "0x%03x", i);
++		_RTW_PRINT_SEL(sel, " 0x%08x ", rtw_read32(adapter, i));
++		if ((j++) % 4 == 0)
++			_RTW_PRINT_SEL(sel, "\n");
++	}
++#endif /* CONFIG_RTL8822B */
++}
++
++void rf_reg_dump(void *sel, _adapter *adapter)
++{
++	int i, j = 1, path;
++	u32 value;
++	u8 rf_type = 0;
++	u8 path_nums = 0;
++
++	rtw_hal_get_hwreg(adapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++	if ((RF_1T2R == rf_type) || (RF_1T1R == rf_type))
++		path_nums = 1;
++	else
++		path_nums = 2;
++
++	RTW_PRINT_SEL(sel, "======= RF REG =======\n");
++
++	for (path = 0; path < path_nums; path++) {
++		RTW_PRINT_SEL(sel, "RF_Path(%x)\n", path);
++		for (i = 0; i < 0x100; i++) {
++			value = rtw_hal_read_rfreg(adapter, path, i, 0xffffffff);
++			if (j % 4 == 1)
++				RTW_PRINT_SEL(sel, "0x%02x ", i);
++			_RTW_PRINT_SEL(sel, " 0x%08x ", value);
++			if ((j++) % 4 == 0)
++				_RTW_PRINT_SEL(sel, "\n");
++		}
++	}
++}
++
++static u8 fwdl_test_chksum_fail = 0;
++static u8 fwdl_test_wintint_rdy_fail = 0;
++
++bool rtw_fwdl_test_trigger_chksum_fail(void)
++{
++	if (fwdl_test_chksum_fail) {
++		RTW_PRINT("fwdl test case: trigger chksum_fail\n");
++		fwdl_test_chksum_fail--;
++		return _TRUE;
++	}
++	return _FALSE;
++}
++
++bool rtw_fwdl_test_trigger_wintint_rdy_fail(void)
++{
++	if (fwdl_test_wintint_rdy_fail) {
++		RTW_PRINT("fwdl test case: trigger wintint_rdy_fail\n");
++		fwdl_test_wintint_rdy_fail--;
++		return _TRUE;
++	}
++	return _FALSE;
++}
++
++static u32 g_wait_hiq_empty_ms = 0;
++
++u32 rtw_get_wait_hiq_empty_ms(void)
++{
++	return g_wait_hiq_empty_ms;
++}
++
++static u8 del_rx_ampdu_test_no_tx_fail = 0;
++
++bool rtw_del_rx_ampdu_test_trigger_no_tx_fail(void)
++{
++	if (del_rx_ampdu_test_no_tx_fail) {
++		RTW_PRINT("del_rx_ampdu test case: trigger no_tx_fail\n");
++		del_rx_ampdu_test_no_tx_fail--;
++		return _TRUE;
++	}
++	return _FALSE;
++}
++
++void rtw_sink_rtp_seq_dbg(_adapter *adapter, _pkt *pkt)
++{
++	struct recv_priv *precvpriv = &(adapter->recvpriv);
++	if (precvpriv->sink_udpport > 0) {
++		if (*((u16 *)((pkt->data) + 0x24)) == cpu_to_be16(precvpriv->sink_udpport)) {
++			precvpriv->pre_rtp_rxseq = precvpriv->cur_rtp_rxseq;
++			precvpriv->cur_rtp_rxseq = be16_to_cpu(*((u16 *)((pkt->data) + 0x2C)));
++			if (precvpriv->pre_rtp_rxseq + 1 != precvpriv->cur_rtp_rxseq)
++				RTW_INFO("%s : RTP Seq num from %d to %d\n", __FUNCTION__, precvpriv->pre_rtp_rxseq, precvpriv->cur_rtp_rxseq);
++		}
++	}
++}
++
++void sta_rx_reorder_ctl_dump(void *sel, struct sta_info *sta)
++{
++	struct recv_reorder_ctrl *reorder_ctl;
++	int i;
++
++	for (i = 0; i < 16; i++) {
++		reorder_ctl = &sta->recvreorder_ctrl[i];
++		if (reorder_ctl->ampdu_size != RX_AMPDU_SIZE_INVALID || reorder_ctl->indicate_seq != 0xFFFF) {
++			RTW_PRINT_SEL(sel, "tid=%d, enable=%d, ampdu_size=%u, indicate_seq=%u\n"
++				, i, reorder_ctl->enable, reorder_ctl->ampdu_size, reorder_ctl->indicate_seq
++				     );
++		}
++	}
++}
++
++void dump_tx_rate_bmp(void *sel, struct dvobj_priv *dvobj)
++{
++	_adapter *adapter = dvobj_get_primary_adapter(dvobj);
++	struct rf_ctl_t *rfctl = dvobj_to_rfctl(dvobj);
++	u8 bw;
++
++	RTW_PRINT_SEL(sel, "%-6s", "bw");
++	if (hal_chk_proto_cap(adapter, PROTO_CAP_11AC))
++		_RTW_PRINT_SEL(sel, " %-11s", "vht");
++
++	_RTW_PRINT_SEL(sel, " %-11s %-4s %-3s\n", "ht", "ofdm", "cck");
++
++	for (bw = CHANNEL_WIDTH_20; bw <= CHANNEL_WIDTH_160; bw++) {
++		if (!hal_is_bw_support(adapter, bw))
++			continue;
++
++		RTW_PRINT_SEL(sel, "%6s", ch_width_str(bw));
++		if (hal_chk_proto_cap(adapter, PROTO_CAP_11AC)) {
++			_RTW_PRINT_SEL(sel, " %03x %03x %03x"
++				, RATE_BMP_GET_VHT_3SS(rfctl->rate_bmp_vht_by_bw[bw])
++				, RATE_BMP_GET_VHT_2SS(rfctl->rate_bmp_vht_by_bw[bw])
++				, RATE_BMP_GET_VHT_1SS(rfctl->rate_bmp_vht_by_bw[bw])
++			);
++		}
++
++		_RTW_PRINT_SEL(sel, " %02x %02x %02x %02x"
++			, bw <= CHANNEL_WIDTH_40 ? RATE_BMP_GET_HT_4SS(rfctl->rate_bmp_ht_by_bw[bw]) : 0
++			, bw <= CHANNEL_WIDTH_40 ? RATE_BMP_GET_HT_3SS(rfctl->rate_bmp_ht_by_bw[bw]) : 0
++			, bw <= CHANNEL_WIDTH_40 ? RATE_BMP_GET_HT_2SS(rfctl->rate_bmp_ht_by_bw[bw]) : 0
++			, bw <= CHANNEL_WIDTH_40 ? RATE_BMP_GET_HT_1SS(rfctl->rate_bmp_ht_by_bw[bw]) : 0
++		);
++
++		_RTW_PRINT_SEL(sel, "  %03x   %01x\n"
++			, bw <= CHANNEL_WIDTH_20 ? RATE_BMP_GET_OFDM(rfctl->rate_bmp_cck_ofdm) : 0
++			, bw <= CHANNEL_WIDTH_20 ? RATE_BMP_GET_CCK(rfctl->rate_bmp_cck_ofdm) : 0
++		);
++	}
++}
++
++void dump_adapters_status(void *sel, struct dvobj_priv *dvobj)
++{
++	struct rf_ctl_t *rfctl = dvobj_to_rfctl(dvobj);
++	int i;
++	_adapter *iface;
++	u8 u_ch, u_bw, u_offset;
++
++	dump_mi_status(sel, dvobj);
++
++	RTW_PRINT_SEL(sel, "%-2s %-8s %-17s %-4s %-7s %s\n"
++		, "id", "ifname", "macaddr", "port", "ch", "status");
++
++	RTW_PRINT_SEL(sel, "------------------------------------------\n");
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface) {
++			RTW_PRINT_SEL(sel, "%2d %-8s "MAC_FMT" %4hhu %3u,%u,%u "MLME_STATE_FMT" %s%s\n"
++				, i, ADPT_ARG(iface)
++				, MAC_ARG(adapter_mac_addr(iface))
++				, get_hw_port(iface)
++				, iface->mlmeextpriv.cur_channel
++				, iface->mlmeextpriv.cur_bwmode
++				, iface->mlmeextpriv.cur_ch_offset
++				, MLME_STATE_ARG(iface)
++				, rtw_is_surprise_removed(iface) ? " SR" : ""
++				, rtw_is_drv_stopped(iface) ? " DS" : ""
++			);
++		}
++	}
++
++	RTW_PRINT_SEL(sel, "------------------------------------------\n");
++
++	rtw_mi_get_ch_setting_union(dvobj_get_primary_adapter(dvobj), &u_ch, &u_bw, &u_offset);
++	RTW_PRINT_SEL(sel, "%34s %3u,%u,%u\n"
++		, "union:"
++		, u_ch, u_bw, u_offset
++	);
++
++	RTW_PRINT_SEL(sel, "%34s %3u,%u,%u\n"
++		, "oper:"
++		, dvobj->oper_channel
++		, dvobj->oper_bwmode
++		, dvobj->oper_ch_offset
++	);
++
++#ifdef CONFIG_DFS_MASTER
++	if (rfctl->radar_detect_ch != 0) {
++		u32 non_ocp_ms;
++		u32 cac_ms;
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			if (!dvobj->padapters[i])
++				continue;
++			if (check_fwstate(&dvobj->padapters[i]->mlmepriv, WIFI_AP_STATE)
++				&& check_fwstate(&dvobj->padapters[i]->mlmepriv, WIFI_ASOC_STATE))
++				break;
++		}
++
++		if (i >= dvobj->iface_nums) {
++			RTW_PRINT_SEL(sel, "DFS master enable without AP mode???");
++			goto end_dfs_master;
++		}
++
++		RTW_PRINT_SEL(sel, "%34s %3u,%u,%u"
++			, "radar_detect:"
++			, rfctl->radar_detect_ch
++			, rfctl->radar_detect_bw
++			, rfctl->radar_detect_offset
++		);
++
++		_RTW_PRINT_SEL(sel, ", domain:%u", rtw_odm_get_dfs_domain(dvobj->padapters[IFACE_ID0]));
++
++		rtw_get_ch_waiting_ms(dvobj->padapters[i]
++			, rfctl->radar_detect_ch
++			, rfctl->radar_detect_bw
++			, rfctl->radar_detect_offset
++			, &non_ocp_ms
++			, &cac_ms
++		);
++
++		if (non_ocp_ms)
++			_RTW_PRINT_SEL(sel, ", non_ocp:%d", non_ocp_ms);
++		if (cac_ms)
++			_RTW_PRINT_SEL(sel, ", cac:%d", cac_ms);
++end_dfs_master:
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++#endif /* CONFIG_DFS_MASTER */
++}
++
++void dump_adapters_info(void *sel, struct dvobj_priv *dvobj)
++{
++	int i;
++	_adapter *iface;
++	u8 u_ch, u_bw, u_offset;
++
++	RTW_PRINT_SEL(sel, "%-8s %-8s %-4s %-4s %-8s %-8s\n"
++		, "iface_id", "ifname", "port", "bup ", "netif_up", "net_closed");
++
++	RTW_PRINT_SEL(sel, "------------------------\n");
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface) {
++			RTW_PRINT_SEL(sel, "%2d %-8s %u %s,%s,%s %s%s\n"
++				      , iface->iface_id
++				      , ADPT_ARG(iface)
++				      , get_hw_port(iface)
++				      , (iface->bup) ? " TRUE" : " FALSE"
++				      , (iface->netif_up) ? " TRUE" : " FALSE"
++				      , (iface->net_closed) ? " TRUE" : " FALSE"
++				, rtw_is_surprise_removed(iface) ? " SR" : ""
++				      , rtw_is_drv_stopped(iface) ? " DS" : ""
++				     );
++		}
++	}
++
++	RTW_PRINT_SEL(sel, "------------------------\n");
++}
++
++#define SEC_CAM_ENT_ID_TITLE_FMT "%-2s"
++#define SEC_CAM_ENT_ID_TITLE_ARG "id"
++#define SEC_CAM_ENT_ID_VALUE_FMT "%2u"
++#define SEC_CAM_ENT_ID_VALUE_ARG(id) (id)
++
++#define SEC_CAM_ENT_TITLE_FMT "%-6s %-17s %-32s %-3s %-7s %-2s %-2s %-5s"
++#define SEC_CAM_ENT_TITLE_ARG "ctrl", "addr", "key", "kid", "type", "MK", "GK", "valid"
++#define SEC_CAM_ENT_VALUE_FMT "0x%04x "MAC_FMT" "KEY_FMT" %3u %-7s %2u %2u %5u"
++#define SEC_CAM_ENT_VALUE_ARG(ent) \
++	(ent)->ctrl \
++	, MAC_ARG((ent)->mac) \
++	, KEY_ARG((ent)->key) \
++	, ((ent)->ctrl) & 0x03 \
++	, security_type_str((((ent)->ctrl) >> 2) & 0x07) \
++	, (((ent)->ctrl) >> 5) & 0x01 \
++	, (((ent)->ctrl) >> 6) & 0x01 \
++	, (((ent)->ctrl) >> 15) & 0x01
++
++void dump_sec_cam_ent(void *sel, struct sec_cam_ent *ent, int id)
++{
++	if (id >= 0) {
++		RTW_PRINT_SEL(sel, SEC_CAM_ENT_ID_VALUE_FMT " " SEC_CAM_ENT_VALUE_FMT"\n"
++			, SEC_CAM_ENT_ID_VALUE_ARG(id), SEC_CAM_ENT_VALUE_ARG(ent));
++	} else
++		RTW_PRINT_SEL(sel, SEC_CAM_ENT_VALUE_FMT"\n", SEC_CAM_ENT_VALUE_ARG(ent));
++}
++
++void dump_sec_cam_ent_title(void *sel, u8 has_id)
++{
++	if (has_id) {
++		RTW_PRINT_SEL(sel, SEC_CAM_ENT_ID_TITLE_FMT " " SEC_CAM_ENT_TITLE_FMT"\n"
++			, SEC_CAM_ENT_ID_TITLE_ARG, SEC_CAM_ENT_TITLE_ARG);
++	} else
++		RTW_PRINT_SEL(sel, SEC_CAM_ENT_TITLE_FMT"\n", SEC_CAM_ENT_TITLE_ARG);
++}
++
++void dump_sec_cam(void *sel, _adapter *adapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	struct sec_cam_ent ent;
++	int i;
++
++	RTW_PRINT_SEL(sel, "HW sec cam:\n");
++	dump_sec_cam_ent_title(sel, 1);
++	for (i = 0; i < cam_ctl->num; i++) {
++		rtw_sec_read_cam_ent(adapter, i, (u8 *)(&ent.ctrl), ent.mac, ent.key);
++		dump_sec_cam_ent(sel , &ent, i);
++	}
++}
++
++void dump_sec_cam_cache(void *sel, _adapter *adapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	int i;
++
++	RTW_PRINT_SEL(sel, "SW sec cam cache:\n");
++	dump_sec_cam_ent_title(sel, 1);
++	for (i = 0; i < cam_ctl->num; i++) {
++		if (dvobj->cam_cache[i].ctrl != 0)
++			dump_sec_cam_ent(sel, &dvobj->cam_cache[i], i);
++	}
++
++}
++
++#ifdef CONFIG_PROC_DEBUG
++ssize_t proc_set_write_reg(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u32 addr, val, len;
++
++	if (count < 3) {
++		RTW_INFO("argument size is less than 3\n");
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%x %x %x", &addr, &val, &len);
++
++		if (num !=  3) {
++			RTW_INFO("invalid write_reg parameter!\n");
++			return count;
++		}
++
++		switch (len) {
++		case 1:
++			rtw_write8(padapter, addr, (u8)val);
++			break;
++		case 2:
++			rtw_write16(padapter, addr, (u16)val);
++			break;
++		case 4:
++			rtw_write32(padapter, addr, val);
++			break;
++		default:
++			RTW_INFO("error write length=%d", len);
++			break;
++		}
++
++	}
++
++	return count;
++
++}
++
++static u32 proc_get_read_addr = 0xeeeeeeee;
++static u32 proc_get_read_len = 0x4;
++
++int proc_get_read_reg(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	if (proc_get_read_addr == 0xeeeeeeee) {
++		RTW_PRINT_SEL(m, "address not initialized\n");
++		return 0;
++	}
++
++	switch (proc_get_read_len) {
++	case 1:
++		RTW_PRINT_SEL(m, "rtw_read8(0x%x)=0x%x\n", proc_get_read_addr, rtw_read8(padapter, proc_get_read_addr));
++		break;
++	case 2:
++		RTW_PRINT_SEL(m, "rtw_read16(0x%x)=0x%x\n", proc_get_read_addr, rtw_read16(padapter, proc_get_read_addr));
++		break;
++	case 4:
++		RTW_PRINT_SEL(m, "rtw_read32(0x%x)=0x%x\n", proc_get_read_addr, rtw_read32(padapter, proc_get_read_addr));
++		break;
++	default:
++		RTW_PRINT_SEL(m, "error read length=%d\n", proc_get_read_len);
++		break;
++	}
++
++	return 0;
++}
++
++ssize_t proc_set_read_reg(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	char tmp[16];
++	u32 addr, len;
++
++	if (count < 2) {
++		RTW_INFO("argument size is less than 2\n");
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%x %x", &addr, &len);
++
++		if (num !=  2) {
++			RTW_INFO("invalid read_reg parameter!\n");
++			return count;
++		}
++
++		proc_get_read_addr = addr;
++
++		proc_get_read_len = len;
++	}
++
++	return count;
++
++}
++
++int proc_get_fwstate(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	RTW_PRINT_SEL(m, "fwstate=0x%x\n", get_fwstate(pmlmepriv));
++
++	return 0;
++}
++
++int proc_get_sec_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct security_priv *sec = &padapter->securitypriv;
++
++	RTW_PRINT_SEL(m, "auth_alg=0x%x, enc_alg=0x%x, auth_type=0x%x, enc_type=0x%x\n",
++		sec->dot11AuthAlgrthm, sec->dot11PrivacyAlgrthm,
++		sec->ndisauthtype, sec->ndisencryptstatus);
++
++	RTW_PRINT_SEL(m, "hw_decrypted=%d\n", sec->hw_decrypted);
++
++#ifdef DBG_SW_SEC_CNT
++	RTW_PRINT_SEL(m, "wep_sw_enc_cnt=%llu, %llu, %llu\n"
++		, sec->wep_sw_enc_cnt_bc , sec->wep_sw_enc_cnt_mc, sec->wep_sw_enc_cnt_uc);
++	RTW_PRINT_SEL(m, "wep_sw_dec_cnt=%llu, %llu, %llu\n"
++		, sec->wep_sw_dec_cnt_bc , sec->wep_sw_dec_cnt_mc, sec->wep_sw_dec_cnt_uc);
++
++	RTW_PRINT_SEL(m, "tkip_sw_enc_cnt=%llu, %llu, %llu\n"
++		, sec->tkip_sw_enc_cnt_bc , sec->tkip_sw_enc_cnt_mc, sec->tkip_sw_enc_cnt_uc);
++	RTW_PRINT_SEL(m, "tkip_sw_dec_cnt=%llu, %llu, %llu\n"
++		, sec->tkip_sw_dec_cnt_bc , sec->tkip_sw_dec_cnt_mc, sec->tkip_sw_dec_cnt_uc);
++
++	RTW_PRINT_SEL(m, "aes_sw_enc_cnt=%llu, %llu, %llu\n"
++		, sec->aes_sw_enc_cnt_bc , sec->aes_sw_enc_cnt_mc, sec->aes_sw_enc_cnt_uc);
++	RTW_PRINT_SEL(m, "aes_sw_dec_cnt=%llu, %llu, %llu\n"
++		, sec->aes_sw_dec_cnt_bc , sec->aes_sw_dec_cnt_mc, sec->aes_sw_dec_cnt_uc);
++#endif /* DBG_SW_SEC_CNT */
++
++	return 0;
++}
++
++int proc_get_mlmext_state(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	RTW_PRINT_SEL(m, "pmlmeinfo->state=0x%x\n", pmlmeinfo->state);
++
++	return 0;
++}
++
++#ifdef CONFIG_LAYER2_ROAMING
++int proc_get_roam_flags(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT_SEL(m, "0x%02x\n", rtw_roam_flags(adapter));
++
++	return 0;
++}
++
++ssize_t proc_set_roam_flags(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	char tmp[32];
++	u8 flags;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhx", &flags);
++
++		if (num == 1)
++			rtw_assign_roam_flags(adapter, flags);
++	}
++
++	return count;
++
++}
++
++int proc_get_roam_param(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++
++	RTW_PRINT_SEL(m, "%12s %12s %11s\n", "rssi_diff_th", "scanr_exp_ms", "scan_int_ms");
++	RTW_PRINT_SEL(m, "%-12u %-12u %-11u\n"
++		, mlme->roam_rssi_diff_th
++		, mlme->roam_scanr_exp_ms
++		, mlme->roam_scan_int_ms
++	);
++
++	return 0;
++}
++
++ssize_t proc_set_roam_param(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++
++	char tmp[32];
++	u8 rssi_diff_th;
++	u32 scanr_exp_ms;
++	u32 scan_int_ms;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhu %u %u", &rssi_diff_th, &scanr_exp_ms, &scan_int_ms);
++
++		if (num >= 1)
++			mlme->roam_rssi_diff_th = rssi_diff_th;
++		if (num >= 2)
++			mlme->roam_scanr_exp_ms = scanr_exp_ms;
++		if (num >= 3)
++			mlme->roam_scan_int_ms = scan_int_ms;
++	}
++
++	return count;
++
++}
++
++ssize_t proc_set_roam_tgt_addr(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	char tmp[32];
++	u8 addr[ETH_ALEN];
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhx:%hhx:%hhx:%hhx:%hhx:%hhx", addr, addr + 1, addr + 2, addr + 3, addr + 4, addr + 5);
++		if (num == 6)
++			_rtw_memcpy(adapter->mlmepriv.roam_tgt_addr, addr, ETH_ALEN);
++
++		RTW_INFO("set roam_tgt_addr to "MAC_FMT"\n", MAC_ARG(adapter->mlmepriv.roam_tgt_addr));
++	}
++
++	return count;
++}
++#endif /* CONFIG_LAYER2_ROAMING */
++
++int proc_get_qos_option(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	RTW_PRINT_SEL(m, "qos_option=%d\n", pmlmepriv->qospriv.qos_option);
++
++	return 0;
++}
++
++int proc_get_ht_option(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++#ifdef CONFIG_80211N_HT
++	RTW_PRINT_SEL(m, "ht_option=%d\n", pmlmepriv->htpriv.ht_option);
++#endif /* CONFIG_80211N_HT */
++
++	return 0;
++}
++
++int proc_get_rf_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	RTW_PRINT_SEL(m, "cur_ch=%d, cur_bw=%d, cur_ch_offet=%d\n",
++		pmlmeext->cur_channel, pmlmeext->cur_bwmode, pmlmeext->cur_ch_offset);
++
++	RTW_PRINT_SEL(m, "oper_ch=%d, oper_bw=%d, oper_ch_offet=%d\n",
++		rtw_get_oper_ch(padapter), rtw_get_oper_bw(padapter),  rtw_get_oper_choffset(padapter));
++
++	return 0;
++}
++
++int proc_get_scan_param(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++	struct ss_res *ss = &mlmeext->sitesurvey_res;
++
++#define SCAN_PARAM_TITLE_FMT "%10s"
++#define SCAN_PARAM_VALUE_FMT "%-10u"
++#define SCAN_PARAM_TITLE_ARG , "scan_ch_ms"
++#define SCAN_PARAM_VALUE_ARG , ss->scan_ch_ms
++#ifdef CONFIG_80211N_HT
++#define SCAN_PARAM_TITLE_FMT_HT " %15s %13s"
++#define SCAN_PARAM_VALUE_FMT_HT " %-15u %-13u"
++#define SCAN_PARAM_TITLE_ARG_HT , "rx_ampdu_accept", "rx_ampdu_size"
++#define SCAN_PARAM_VALUE_ARG_HT , ss->rx_ampdu_accept, ss->rx_ampdu_size
++#else
++#define SCAN_PARAM_TITLE_FMT_HT ""
++#define SCAN_PARAM_VALUE_FMT_HT ""
++#define SCAN_PARAM_TITLE_ARG_HT
++#define SCAN_PARAM_VALUE_ARG_HT
++#endif
++#ifdef CONFIG_SCAN_BACKOP
++#define SCAN_PARAM_TITLE_FMT_BACKOP " %9s %12s"
++#define SCAN_PARAM_VALUE_FMT_BACKOP " %-9u %-12u"
++#define SCAN_PARAM_TITLE_ARG_BACKOP , "backop_ms", "scan_cnt_max"
++#define SCAN_PARAM_VALUE_ARG_BACKOP , ss->backop_ms, ss->scan_cnt_max
++#else
++#define SCAN_PARAM_TITLE_FMT_BACKOP ""
++#define SCAN_PARAM_VALUE_FMT_BACKOP ""
++#define SCAN_PARAM_TITLE_ARG_BACKOP
++#define SCAN_PARAM_VALUE_ARG_BACKOP
++#endif
++
++	RTW_PRINT_SEL(m,
++		SCAN_PARAM_TITLE_FMT
++		SCAN_PARAM_TITLE_FMT_HT
++		SCAN_PARAM_TITLE_FMT_BACKOP
++		"\n"
++		SCAN_PARAM_TITLE_ARG
++		SCAN_PARAM_TITLE_ARG_HT
++		SCAN_PARAM_TITLE_ARG_BACKOP
++	);
++
++	RTW_PRINT_SEL(m,
++		SCAN_PARAM_VALUE_FMT
++		SCAN_PARAM_VALUE_FMT_HT
++		SCAN_PARAM_VALUE_FMT_BACKOP
++		"\n"
++		SCAN_PARAM_VALUE_ARG
++		SCAN_PARAM_VALUE_ARG_HT
++		SCAN_PARAM_VALUE_ARG_BACKOP
++	);
++
++	return 0;
++}
++
++ssize_t proc_set_scan_param(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++	struct ss_res *ss = &mlmeext->sitesurvey_res;
++
++	char tmp[32] = {0};
++
++	u16 scan_ch_ms;
++#define SCAN_PARAM_INPUT_FMT "%hu"
++#define SCAN_PARAM_INPUT_ARG , &scan_ch_ms
++#ifdef CONFIG_80211N_HT
++	u8 rx_ampdu_accept;
++	u8 rx_ampdu_size;
++#define SCAN_PARAM_INPUT_FMT_HT " %hhu %hhu"
++#define SCAN_PARAM_INPUT_ARG_HT , &rx_ampdu_accept, &rx_ampdu_size
++#else
++#define SCAN_PARAM_INPUT_FMT_HT ""
++#define SCAN_PARAM_INPUT_ARG_HT
++#endif
++#ifdef CONFIG_SCAN_BACKOP
++	u16 backop_ms;
++	u8 scan_cnt_max;
++#define SCAN_PARAM_INPUT_FMT_BACKOP " %hu %hhu"
++#define SCAN_PARAM_INPUT_ARG_BACKOP , &backop_ms, &scan_cnt_max
++#else
++#define SCAN_PARAM_INPUT_FMT_BACKOP ""
++#define SCAN_PARAM_INPUT_ARG_BACKOP
++#endif
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp,
++			SCAN_PARAM_INPUT_FMT
++			SCAN_PARAM_INPUT_FMT_HT
++			SCAN_PARAM_INPUT_FMT_BACKOP
++			SCAN_PARAM_INPUT_ARG
++			SCAN_PARAM_INPUT_ARG_HT
++			SCAN_PARAM_INPUT_ARG_BACKOP
++		);
++
++		if (num-- > 0)
++			ss->scan_ch_ms = scan_ch_ms;
++#ifdef CONFIG_80211N_HT
++		if (num-- > 0)
++			ss->rx_ampdu_accept = rx_ampdu_accept;
++		if (num-- > 0)
++			ss->rx_ampdu_size = rx_ampdu_size;
++#endif
++#ifdef CONFIG_SCAN_BACKOP
++		if (num-- > 0)
++			ss->backop_ms = backop_ms;
++		if (num-- > 0)
++			ss->scan_cnt_max = scan_cnt_max;
++#endif
++	}
++
++	return count;
++}
++
++int proc_get_scan_abort(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	u32 pass_ms;
++
++	pass_ms = rtw_scan_abort_timeout(adapter, 10000);
++
++	RTW_PRINT_SEL(m, "%u\n", pass_ms);
++
++	return 0;
++}
++
++#ifdef CONFIG_SCAN_BACKOP
++int proc_get_backop_flags_sta(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++
++	RTW_PRINT_SEL(m, "0x%02x\n", mlmeext_scan_backop_flags_sta(mlmeext));
++
++	return 0;
++}
++
++ssize_t proc_set_backop_flags_sta(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++
++	char tmp[32];
++	u8 flags;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhx", &flags);
++
++		if (num == 1)
++			mlmeext_assign_scan_backop_flags_sta(mlmeext, flags);
++	}
++
++	return count;
++}
++
++int proc_get_backop_flags_ap(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++
++	RTW_PRINT_SEL(m, "0x%02x\n", mlmeext_scan_backop_flags_ap(mlmeext));
++
++	return 0;
++}
++
++ssize_t proc_set_backop_flags_ap(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++
++	char tmp[32];
++	u8 flags;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhx", &flags);
++
++		if (num == 1)
++			mlmeext_assign_scan_backop_flags_ap(mlmeext, flags);
++	}
++
++	return count;
++}
++
++#endif /* CONFIG_SCAN_BACKOP */
++
++int proc_get_survey_info(struct seq_file *m, void *v)
++{
++	_irqL irqL;
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	_queue	*queue	= &(pmlmepriv->scanned_queue);
++	struct wlan_network	*pnetwork = NULL;
++	_list	*plist, *phead;
++	s32 notify_signal;
++	s16 notify_noise = 0;
++	u16  index = 0, ie_cap = 0;
++	unsigned char *ie_wpa = NULL, *ie_wpa2 = NULL, *ie_wps = NULL;
++	unsigned char *ie_p2p = NULL, *ssid = NULL;
++	char flag_str[64];
++	int ielen = 0;
++	u32 wpsielen = 0;
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++	phead = get_list_head(queue);
++	if (!phead)
++		return 0;
++	plist = get_next(phead);
++	if (!plist)
++		return 0;
++
++	RTW_PRINT_SEL(m, "%5s  %-17s  %3s  %-3s  %-4s  %-4s  %5s  %32s  %32s\n", "index", "bssid", "ch", "RSSI", "SdBm", "Noise", "age", "flag", "ssid");
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if (!pnetwork)
++			break;
++
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE &&
++		    is_same_network(&pmlmepriv->cur_network.network, &pnetwork->network, 0)) {
++			notify_signal = translate_percentage_to_dbm(padapter->recvpriv.signal_strength);/* dbm */
++		} else {
++			notify_signal = translate_percentage_to_dbm(pnetwork->network.PhyInfo.SignalStrength);/* dbm */
++		}
++
++#if defined(CONFIG_SIGNAL_DISPLAY_DBM) && defined(CONFIG_BACKGROUND_NOISE_MONITOR)
++		rtw_hal_get_odm_var(padapter, HAL_ODM_NOISE_MONITOR, &(pnetwork->network.Configuration.DSConfig), &(notify_noise));
++#endif
++
++		ie_wpa = rtw_get_wpa_ie(&pnetwork->network.IEs[12], &ielen, pnetwork->network.IELength - 12);
++		ie_wpa2 = rtw_get_wpa2_ie(&pnetwork->network.IEs[12], &ielen, pnetwork->network.IELength - 12);
++		ie_cap = rtw_get_capability(&pnetwork->network);
++		ie_wps = rtw_get_wps_ie(&pnetwork->network.IEs[12], pnetwork->network.IELength - 12, NULL, &wpsielen);
++		ie_p2p = rtw_get_p2p_ie(&pnetwork->network.IEs[12], pnetwork->network.IELength - 12, NULL, &ielen);
++		ssid = pnetwork->network.Ssid.Ssid;
++		sprintf(flag_str, "%s%s%s%s%s%s%s",
++			(ie_wpa) ? "[WPA]" : "",
++			(ie_wpa2) ? "[WPA2]" : "",
++			(!ie_wpa && !ie_wpa && ie_cap & BIT(4)) ? "[WEP]" : "",
++			(ie_wps) ? "[WPS]" : "",
++			(pnetwork->network.InfrastructureMode == Ndis802_11IBSS) ? "[IBSS]" : "",
++			(ie_cap & BIT(0)) ? "[ESS]" : "",
++			(ie_p2p) ? "[P2P]" : "");
++		RTW_PRINT_SEL(m, "%5d  "MAC_FMT"  %3d  %3d  %4d  %4d    %5d  %32s  %32s\n",
++			      ++index,
++			      MAC_ARG(pnetwork->network.MacAddress),
++			      pnetwork->network.Configuration.DSConfig,
++			      (int)pnetwork->network.Rssi,
++			      notify_signal,
++			      notify_noise,
++			rtw_get_passing_time_ms((u32)pnetwork->last_scanned),
++			      flag_str,
++			      pnetwork->network.Ssid.Ssid);
++		plist = get_next(plist);
++	}
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	return 0;
++}
++
++ssize_t proc_set_survey_info(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	_irqL irqL;
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	bool need_indicate_scan_done = _FALSE;
++	u8 _status = _FALSE;
++	NDIS_802_11_SSID ssid[RTW_SSID_SCAN_AMOUNT];
++
++	if (count < 1)
++		return -EFAULT;
++
++#ifdef CONFIG_MP_INCLUDED
++	if (rtw_mi_mp_mode_check(padapter)) {
++		RTW_INFO("MP mode block Scan request\n");
++		goto exit;
++	}
++#endif
++	if (rtw_is_scan_deny(padapter)) {
++		RTW_INFO(FUNC_ADPT_FMT  ": scan deny\n", FUNC_ADPT_ARG(padapter));
++		goto exit;
++	}
++
++	rtw_ps_deny(padapter, PS_DENY_SCAN);
++	if (_FAIL == rtw_pwr_wakeup(padapter))
++		goto cancel_ps_deny;
++
++	if (!rtw_is_adapter_up(padapter)) {
++		RTW_INFO("scan abort!! adapter cannot use\n");
++		goto cancel_ps_deny;
++	}
++
++	if (rtw_mi_busy_traffic_check(padapter, _FALSE)) {
++		RTW_INFO("scan abort!! BusyTraffic == _TRUE\n");
++		goto cancel_ps_deny;
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) && check_fwstate(pmlmepriv, WIFI_UNDER_WPS)) {
++		RTW_INFO("scan abort!! AP mode process WPS\n");
++		goto cancel_ps_deny;
++	}
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY | _FW_UNDER_LINKING) == _TRUE) {
++		RTW_INFO("scan abort!! fwstate=0x%x\n", pmlmepriv->fw_state);
++		goto cancel_ps_deny;
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_buddy_check_fwstate(padapter,
++		       _FW_UNDER_SURVEY | _FW_UNDER_LINKING | WIFI_UNDER_WPS)) {
++		RTW_INFO("scan abort!! buddy_fwstate check failed\n");
++		goto cancel_ps_deny;
++	}
++#endif
++	_status = rtw_set_802_11_bssid_list_scan(padapter, NULL, 0, NULL, 0);
++
++cancel_ps_deny:
++	rtw_ps_deny_cancel(padapter, PS_DENY_SCAN);
++exit:
++	return count;
++}
++
++int proc_get_ap_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	struct sta_info *psta;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct wlan_network *cur_network = &(pmlmepriv->cur_network);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	psta = rtw_get_stainfo(pstapriv, cur_network->network.MacAddress);
++	if (psta) {
++		int i;
++		struct recv_reorder_ctrl *preorder_ctrl;
++
++		RTW_PRINT_SEL(m, "SSID=%s\n", cur_network->network.Ssid.Ssid);
++		RTW_PRINT_SEL(m, "sta's macaddr:" MAC_FMT "\n", MAC_ARG(psta->hwaddr));
++		RTW_PRINT_SEL(m, "cur_channel=%d, cur_bwmode=%d, cur_ch_offset=%d\n", pmlmeext->cur_channel, pmlmeext->cur_bwmode, pmlmeext->cur_ch_offset);
++		RTW_PRINT_SEL(m, "wireless_mode=0x%x, rtsen=%d, cts2slef=%d\n", psta->wireless_mode, psta->rtsen, psta->cts2self);
++		RTW_PRINT_SEL(m, "state=0x%x, aid=%d, macid=%d, raid=%d\n", psta->state, psta->aid, psta->mac_id, psta->raid);
++#ifdef CONFIG_80211N_HT
++		RTW_PRINT_SEL(m, "qos_en=%d, ht_en=%d, init_rate=%d\n", psta->qos_option, psta->htpriv.ht_option, psta->init_rate);
++		RTW_PRINT_SEL(m, "bwmode=%d, ch_offset=%d, sgi_20m=%d,sgi_40m=%d\n", psta->bw_mode, psta->htpriv.ch_offset, psta->htpriv.sgi_20m, psta->htpriv.sgi_40m);
++		RTW_PRINT_SEL(m, "ampdu_enable = %d\n", psta->htpriv.ampdu_enable);
++		RTW_PRINT_SEL(m, "agg_enable_bitmap=%x, candidate_tid_bitmap=%x\n", psta->htpriv.agg_enable_bitmap, psta->htpriv.candidate_tid_bitmap);
++		RTW_PRINT_SEL(m, "ldpc_cap=0x%x, stbc_cap=0x%x, beamform_cap=0x%x\n", psta->htpriv.ldpc_cap, psta->htpriv.stbc_cap, psta->htpriv.beamform_cap);
++#endif /* CONFIG_80211N_HT */
++#ifdef CONFIG_80211AC_VHT
++		RTW_PRINT_SEL(m, "vht_en=%d, vht_sgi_80m=%d\n", psta->vhtpriv.vht_option, psta->vhtpriv.sgi_80m);
++		RTW_PRINT_SEL(m, "vht_ldpc_cap=0x%x, vht_stbc_cap=0x%x, vht_beamform_cap=0x%x\n", psta->vhtpriv.ldpc_cap, psta->vhtpriv.stbc_cap, psta->vhtpriv.beamform_cap);
++		RTW_PRINT_SEL(m, "vht_mcs_map=0x%x, vht_highest_rate=0x%x, vht_ampdu_len=%d\n", *(u16 *)psta->vhtpriv.vht_mcs_map, psta->vhtpriv.vht_highest_rate, psta->vhtpriv.ampdu_len);
++#endif
++
++		sta_rx_reorder_ctl_dump(m, psta);
++	} else
++		RTW_PRINT_SEL(m, "can't get sta's macaddr, cur_network's macaddr:" MAC_FMT "\n", MAC_ARG(cur_network->network.MacAddress));
++
++	return 0;
++}
++
++ssize_t proc_reset_trx_info(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	char cmd[32] = {0};
++	u8 cnt = 0;
++
++	if (count > sizeof(cmd)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(cmd, buffer, count)) {
++		int num = sscanf(cmd, "%hhx", &cnt);
++
++		if (0 == cnt) {
++			pdbgpriv->dbg_rx_ampdu_drop_count = 0;
++			pdbgpriv->dbg_rx_ampdu_forced_indicate_count = 0;
++			pdbgpriv->dbg_rx_ampdu_loss_count = 0;
++			pdbgpriv->dbg_rx_dup_mgt_frame_drop_count = 0;
++			pdbgpriv->dbg_rx_ampdu_window_shift_cnt = 0;
++			pdbgpriv->dbg_rx_conflic_mac_addr_cnt = 0;
++		}
++	}
++
++	return count;
++}
++
++int proc_get_trx_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	int i;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct recv_priv  *precvpriv = &padapter->recvpriv;
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	struct hw_xmit *phwxmit;
++
++	dump_os_queue(m, padapter);
++
++	RTW_PRINT_SEL(m, "free_xmitbuf_cnt=%d, free_xmitframe_cnt=%d\n"
++		, pxmitpriv->free_xmitbuf_cnt, pxmitpriv->free_xmitframe_cnt);
++	RTW_PRINT_SEL(m, "free_ext_xmitbuf_cnt=%d, free_xframe_ext_cnt=%d\n"
++		, pxmitpriv->free_xmit_extbuf_cnt, pxmitpriv->free_xframe_ext_cnt);
++	RTW_PRINT_SEL(m, "free_recvframe_cnt=%d\n"
++		      , precvpriv->free_recvframe_cnt);
++
++	for (i = 0; i < 4; i++) {
++		phwxmit = pxmitpriv->hwxmits + i;
++		RTW_PRINT_SEL(m, "%d, hwq.accnt=%d\n", i, phwxmit->accnt);
++	}
++
++#ifdef CONFIG_USB_HCI
++	RTW_PRINT_SEL(m, "rx_urb_pending_cn=%d\n", ATOMIC_READ(&(precvpriv->rx_pending_cnt)));
++#endif
++
++	/* Folowing are RX info */
++	/* Counts of packets whose seq_num is less than preorder_ctrl->indicate_seq, Ex delay, retransmission, redundant packets and so on */
++	RTW_PRINT_SEL(m, "Rx: Counts of Packets Whose Seq_Num Less Than Reorder Control Seq_Num: %llu\n", (unsigned long long)pdbgpriv->dbg_rx_ampdu_drop_count);
++	/* How many times the Rx Reorder Timer is triggered. */
++	RTW_PRINT_SEL(m, "Rx: Reorder Time-out Trigger Counts: %llu\n", (unsigned long long)pdbgpriv->dbg_rx_ampdu_forced_indicate_count);
++	/* Total counts of packets loss */
++	RTW_PRINT_SEL(m, "Rx: Packet Loss Counts: %llu\n", (unsigned long long)pdbgpriv->dbg_rx_ampdu_loss_count);
++	RTW_PRINT_SEL(m, "Rx: Duplicate Management Frame Drop Count: %llu\n", (unsigned long long)pdbgpriv->dbg_rx_dup_mgt_frame_drop_count);
++	RTW_PRINT_SEL(m, "Rx: AMPDU BA window shift Count: %llu\n", (unsigned long long)pdbgpriv->dbg_rx_ampdu_window_shift_cnt);
++	/*The same mac addr counts*/
++	RTW_PRINT_SEL(m, "Rx: Conflict MAC Address Frames Count: %llu\n", (unsigned long long)pdbgpriv->dbg_rx_conflic_mac_addr_cnt);
++	return 0;
++}
++
++int proc_get_dis_pwt(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 dis_pwt = 0;
++	rtw_hal_get_def_var(padapter, HAL_DEF_DBG_DIS_PWT, &(dis_pwt));
++	RTW_PRINT_SEL(m, " Tx Power training mode:%s\n", (dis_pwt == _TRUE) ? "Disable" : "Enable");
++	return 0;
++}
++ssize_t proc_set_dis_pwt(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[4] = {0};
++	u8 dis_pwt = 0;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhx", &dis_pwt);
++		RTW_INFO("Set Tx Power training mode:%s\n", (dis_pwt == _TRUE) ? "Disable" : "Enable");
++
++		if (num >= 1)
++			rtw_hal_set_def_var(padapter, HAL_DEF_DBG_DIS_PWT, &(dis_pwt));
++	}
++
++	return count;
++
++}
++
++int proc_get_rate_ctl(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	int i;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 data_rate = 0, sgi = 0, data_fb = 0;
++
++	if (adapter->fix_rate != 0xff) {
++		data_rate = adapter->fix_rate & 0x7F;
++		sgi = adapter->fix_rate >> 7;
++		data_fb = adapter->data_fb ? 1 : 0;
++		RTW_PRINT_SEL(m, "FIXED %s%s%s\n"
++			, HDATA_RATE(data_rate)
++			, data_rate > DESC_RATE54M ? (sgi ? " SGI" : " LGI") : ""
++			, data_fb ? " FB" : ""
++		);
++		RTW_PRINT_SEL(m, "0x%02x %u\n", adapter->fix_rate, adapter->data_fb);
++	} else
++		RTW_PRINT_SEL(m, "RA\n");
++
++	return 0;
++}
++
++ssize_t proc_set_rate_ctl(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u8 fix_rate;
++	u8 data_fb;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhx %hhu", &fix_rate, &data_fb);
++
++		if (num >= 1) {
++			u8 fix_rate_ori = adapter->fix_rate;
++
++			adapter->fix_rate = fix_rate;
++			if (adapter->fix_bw != 0xFF && fix_rate_ori != fix_rate)
++				rtw_update_tx_rate_bmp(adapter_to_dvobj(adapter));
++		}
++		if (num >= 2)
++			adapter->data_fb = data_fb ? 1 : 0;
++	}
++
++	return count;
++}
++int proc_get_bw_ctl(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 data_bw = 0;
++
++	if (adapter->fix_bw != 0xff) {
++		data_bw = adapter->fix_bw;
++		RTW_PRINT_SEL(m, "FIXED %s\n", HDATA_BW(data_bw));
++	} else
++		RTW_PRINT_SEL(m, "Auto\n");
++
++	return 0;
++}
++
++ssize_t proc_set_bw_ctl(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u8 fix_bw;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%hhu", &fix_bw);
++
++		if (num >= 1) {
++			u8 fix_bw_ori = adapter->fix_bw;
++
++			adapter->fix_bw = fix_bw;
++
++			if (adapter->fix_rate != 0xFF && fix_bw_ori != fix_bw)
++				rtw_update_tx_rate_bmp(adapter_to_dvobj(adapter));
++		}
++	}
++
++	return count;
++}
++
++#ifdef DBG_RX_COUNTER_DUMP
++int proc_get_rx_cnt_dump(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	int i;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT_SEL(m, "BIT0- Dump RX counters of DRV\n");
++	RTW_PRINT_SEL(m, "BIT1- Dump RX counters of MAC\n");
++	RTW_PRINT_SEL(m, "BIT2- Dump RX counters of PHY\n");
++	RTW_PRINT_SEL(m, "BIT3- Dump TRX data frame of DRV\n");
++	RTW_PRINT_SEL(m, "dump_rx_cnt_mode = 0x%02x\n", adapter->dump_rx_cnt_mode);
++
++	return 0;
++}
++ssize_t proc_set_rx_cnt_dump(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u8 dump_rx_cnt_mode;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhx", &dump_rx_cnt_mode);
++
++		rtw_dump_phy_rxcnts_preprocess(adapter, dump_rx_cnt_mode);
++		adapter->dump_rx_cnt_mode = dump_rx_cnt_mode;
++
++	}
++
++	return count;
++}
++#endif
++ssize_t proc_set_fwdl_test_case(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	int num;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count))
++		num = sscanf(tmp, "%hhu %hhu", &fwdl_test_chksum_fail, &fwdl_test_wintint_rdy_fail);
++
++	return count;
++}
++
++ssize_t proc_set_del_rx_ampdu_test_case(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	int num;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count))
++		num = sscanf(tmp, "%hhu", &del_rx_ampdu_test_no_tx_fail);
++
++	return count;
++}
++
++#ifdef CONFIG_DFS_MASTER
++int proc_get_dfs_master_test_case(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++
++	RTW_PRINT_SEL(m, "%-24s %-19s\n", "radar_detect_trigger_non", "choose_dfs_ch_first");
++	RTW_PRINT_SEL(m, "%24hhu %19hhu\n"
++		, rfctl->dbg_dfs_master_radar_detect_trigger_non
++		, rfctl->dbg_dfs_master_choose_dfs_ch_first
++	);
++
++	return 0;
++}
++
++ssize_t proc_set_dfs_master_test_case(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++	char tmp[32];
++	u8 radar_detect_trigger_non;
++	u8 choose_dfs_ch_first;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%hhu %hhu", &radar_detect_trigger_non, &choose_dfs_ch_first);
++
++		if (num >= 1)
++			rfctl->dbg_dfs_master_radar_detect_trigger_non = radar_detect_trigger_non;
++		if (num >= 2)
++			rfctl->dbg_dfs_master_choose_dfs_ch_first = choose_dfs_ch_first;
++	}
++
++	return count;
++}
++#endif /* CONFIG_DFS_MASTER */
++
++ssize_t proc_set_wait_hiq_empty(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	int num;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count))
++		num = sscanf(tmp, "%u", &g_wait_hiq_empty_ms);
++
++	return count;
++}
++
++int proc_get_suspend_resume_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct dvobj_priv *dvobj = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &dvobj->drv_dbg;
++
++	RTW_PRINT_SEL(m, "dbg_sdio_alloc_irq_cnt=%d\n", pdbgpriv->dbg_sdio_alloc_irq_cnt);
++	RTW_PRINT_SEL(m, "dbg_sdio_free_irq_cnt=%d\n", pdbgpriv->dbg_sdio_free_irq_cnt);
++	RTW_PRINT_SEL(m, "dbg_sdio_alloc_irq_error_cnt=%d\n", pdbgpriv->dbg_sdio_alloc_irq_error_cnt);
++	RTW_PRINT_SEL(m, "dbg_sdio_free_irq_error_cnt=%d\n", pdbgpriv->dbg_sdio_free_irq_error_cnt);
++	RTW_PRINT_SEL(m, "dbg_sdio_init_error_cnt=%d\n", pdbgpriv->dbg_sdio_init_error_cnt);
++	RTW_PRINT_SEL(m, "dbg_sdio_deinit_error_cnt=%d\n", pdbgpriv->dbg_sdio_deinit_error_cnt);
++	RTW_PRINT_SEL(m, "dbg_suspend_error_cnt=%d\n", pdbgpriv->dbg_suspend_error_cnt);
++	RTW_PRINT_SEL(m, "dbg_suspend_cnt=%d\n", pdbgpriv->dbg_suspend_cnt);
++	RTW_PRINT_SEL(m, "dbg_resume_cnt=%d\n", pdbgpriv->dbg_resume_cnt);
++	RTW_PRINT_SEL(m, "dbg_resume_error_cnt=%d\n", pdbgpriv->dbg_resume_error_cnt);
++	RTW_PRINT_SEL(m, "dbg_deinit_fail_cnt=%d\n", pdbgpriv->dbg_deinit_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_carddisable_cnt=%d\n", pdbgpriv->dbg_carddisable_cnt);
++	RTW_PRINT_SEL(m, "dbg_ps_insuspend_cnt=%d\n", pdbgpriv->dbg_ps_insuspend_cnt);
++	RTW_PRINT_SEL(m, "dbg_dev_unload_inIPS_cnt=%d\n", pdbgpriv->dbg_dev_unload_inIPS_cnt);
++	RTW_PRINT_SEL(m, "dbg_scan_pwr_state_cnt=%d\n", pdbgpriv->dbg_scan_pwr_state_cnt);
++	RTW_PRINT_SEL(m, "dbg_downloadfw_pwr_state_cnt=%d\n", pdbgpriv->dbg_downloadfw_pwr_state_cnt);
++	RTW_PRINT_SEL(m, "dbg_carddisable_error_cnt=%d\n", pdbgpriv->dbg_carddisable_error_cnt);
++	RTW_PRINT_SEL(m, "dbg_fw_read_ps_state_fail_cnt=%d\n", pdbgpriv->dbg_fw_read_ps_state_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_leave_ips_fail_cnt=%d\n", pdbgpriv->dbg_leave_ips_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_leave_lps_fail_cnt=%d\n", pdbgpriv->dbg_leave_lps_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_h2c_leave32k_fail_cnt=%d\n", pdbgpriv->dbg_h2c_leave32k_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_diswow_dload_fw_fail_cnt=%d\n", pdbgpriv->dbg_diswow_dload_fw_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_enwow_dload_fw_fail_cnt=%d\n", pdbgpriv->dbg_enwow_dload_fw_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_ips_drvopen_fail_cnt=%d\n", pdbgpriv->dbg_ips_drvopen_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_poll_fail_cnt=%d\n", pdbgpriv->dbg_poll_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_rpwm_toogle_cnt=%d\n", pdbgpriv->dbg_rpwm_toogle_cnt);
++	RTW_PRINT_SEL(m, "dbg_rpwm_timeout_fail_cnt=%d\n", pdbgpriv->dbg_rpwm_timeout_fail_cnt);
++	RTW_PRINT_SEL(m, "dbg_sreset_cnt=%d\n", pdbgpriv->dbg_sreset_cnt);
++
++	return 0;
++}
++
++#ifdef CONFIG_DBG_COUNTER
++
++int proc_get_rx_logs(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct rx_logs *rx_logs = &padapter->rx_logs;
++
++	RTW_PRINT_SEL(m,
++		      "intf_rx=%d\n"
++		      "intf_rx_err_recvframe=%d\n"
++		      "intf_rx_err_skb=%d\n"
++		      "intf_rx_report=%d\n"
++		      "core_rx=%d\n"
++		      "core_rx_pre=%d\n"
++		      "core_rx_pre_ver_err=%d\n"
++		      "core_rx_pre_mgmt=%d\n"
++		      "core_rx_pre_mgmt_err_80211w=%d\n"
++		      "core_rx_pre_mgmt_err=%d\n"
++		      "core_rx_pre_ctrl=%d\n"
++		      "core_rx_pre_ctrl_err=%d\n"
++		      "core_rx_pre_data=%d\n"
++		      "core_rx_pre_data_wapi_seq_err=%d\n"
++		      "core_rx_pre_data_wapi_key_err=%d\n"
++		      "core_rx_pre_data_handled=%d\n"
++		      "core_rx_pre_data_err=%d\n"
++		      "core_rx_pre_data_unknown=%d\n"
++		      "core_rx_pre_unknown=%d\n"
++		      "core_rx_enqueue=%d\n"
++		      "core_rx_dequeue=%d\n"
++		      "core_rx_post=%d\n"
++		      "core_rx_post_decrypt=%d\n"
++		      "core_rx_post_decrypt_wep=%d\n"
++		      "core_rx_post_decrypt_tkip=%d\n"
++		      "core_rx_post_decrypt_aes=%d\n"
++		      "core_rx_post_decrypt_wapi=%d\n"
++		      "core_rx_post_decrypt_hw=%d\n"
++		      "core_rx_post_decrypt_unknown=%d\n"
++		      "core_rx_post_decrypt_err=%d\n"
++		      "core_rx_post_defrag_err=%d\n"
++		      "core_rx_post_portctrl_err=%d\n"
++		      "core_rx_post_indicate=%d\n"
++		      "core_rx_post_indicate_in_oder=%d\n"
++		      "core_rx_post_indicate_reoder=%d\n"
++		      "core_rx_post_indicate_err=%d\n"
++		      "os_indicate=%d\n"
++		      "os_indicate_ap_mcast=%d\n"
++		      "os_indicate_ap_forward=%d\n"
++		      "os_indicate_ap_self=%d\n"
++		      "os_indicate_err=%d\n"
++		      "os_netif_ok=%d\n"
++		      "os_netif_err=%d\n",
++		      rx_logs->intf_rx,
++		      rx_logs->intf_rx_err_recvframe,
++		      rx_logs->intf_rx_err_skb,
++		      rx_logs->intf_rx_report,
++		      rx_logs->core_rx,
++		      rx_logs->core_rx_pre,
++		      rx_logs->core_rx_pre_ver_err,
++		      rx_logs->core_rx_pre_mgmt,
++		      rx_logs->core_rx_pre_mgmt_err_80211w,
++		      rx_logs->core_rx_pre_mgmt_err,
++		      rx_logs->core_rx_pre_ctrl,
++		      rx_logs->core_rx_pre_ctrl_err,
++		      rx_logs->core_rx_pre_data,
++		      rx_logs->core_rx_pre_data_wapi_seq_err,
++		      rx_logs->core_rx_pre_data_wapi_key_err,
++		      rx_logs->core_rx_pre_data_handled,
++		      rx_logs->core_rx_pre_data_err,
++		      rx_logs->core_rx_pre_data_unknown,
++		      rx_logs->core_rx_pre_unknown,
++		      rx_logs->core_rx_enqueue,
++		      rx_logs->core_rx_dequeue,
++		      rx_logs->core_rx_post,
++		      rx_logs->core_rx_post_decrypt,
++		      rx_logs->core_rx_post_decrypt_wep,
++		      rx_logs->core_rx_post_decrypt_tkip,
++		      rx_logs->core_rx_post_decrypt_aes,
++		      rx_logs->core_rx_post_decrypt_wapi,
++		      rx_logs->core_rx_post_decrypt_hw,
++		      rx_logs->core_rx_post_decrypt_unknown,
++		      rx_logs->core_rx_post_decrypt_err,
++		      rx_logs->core_rx_post_defrag_err,
++		      rx_logs->core_rx_post_portctrl_err,
++		      rx_logs->core_rx_post_indicate,
++		      rx_logs->core_rx_post_indicate_in_oder,
++		      rx_logs->core_rx_post_indicate_reoder,
++		      rx_logs->core_rx_post_indicate_err,
++		      rx_logs->os_indicate,
++		      rx_logs->os_indicate_ap_mcast,
++		      rx_logs->os_indicate_ap_forward,
++		      rx_logs->os_indicate_ap_self,
++		      rx_logs->os_indicate_err,
++		      rx_logs->os_netif_ok,
++		      rx_logs->os_netif_err
++		     );
++
++	return 0;
++}
++
++int proc_get_tx_logs(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tx_logs *tx_logs = &padapter->tx_logs;
++
++	RTW_PRINT_SEL(m,
++		      "os_tx=%d\n"
++		      "os_tx_err_up=%d\n"
++		      "os_tx_err_xmit=%d\n"
++		      "os_tx_m2u=%d\n"
++		      "os_tx_m2u_ignore_fw_linked=%d\n"
++		      "os_tx_m2u_ignore_self=%d\n"
++		      "os_tx_m2u_entry=%d\n"
++		      "os_tx_m2u_entry_err_xmit=%d\n"
++		      "os_tx_m2u_entry_err_skb=%d\n"
++		      "os_tx_m2u_stop=%d\n"
++		      "core_tx=%d\n"
++		      "core_tx_err_pxmitframe=%d\n"
++		      "core_tx_err_brtx=%d\n"
++		      "core_tx_upd_attrib=%d\n"
++		      "core_tx_upd_attrib_adhoc=%d\n"
++		      "core_tx_upd_attrib_sta=%d\n"
++		      "core_tx_upd_attrib_ap=%d\n"
++		      "core_tx_upd_attrib_unknown=%d\n"
++		      "core_tx_upd_attrib_dhcp=%d\n"
++		      "core_tx_upd_attrib_icmp=%d\n"
++		      "core_tx_upd_attrib_active=%d\n"
++		      "core_tx_upd_attrib_err_ucast_sta=%d\n"
++		      "core_tx_upd_attrib_err_ucast_ap_link=%d\n"
++		      "core_tx_upd_attrib_err_sta=%d\n"
++		      "core_tx_upd_attrib_err_link=%d\n"
++		      "core_tx_upd_attrib_err_sec=%d\n"
++		      "core_tx_ap_enqueue_warn_fwstate=%d\n"
++		      "core_tx_ap_enqueue_warn_sta=%d\n"
++		      "core_tx_ap_enqueue_warn_nosta=%d\n"
++		      "core_tx_ap_enqueue_warn_link=%d\n"
++		      "core_tx_ap_enqueue_warn_trigger=%d\n"
++		      "core_tx_ap_enqueue_mcast=%d\n"
++		      "core_tx_ap_enqueue_ucast=%d\n"
++		      "core_tx_ap_enqueue=%d\n"
++		      "intf_tx=%d\n"
++		      "intf_tx_pending_ac=%d\n"
++		      "intf_tx_pending_fw_under_survey=%d\n"
++		      "intf_tx_pending_fw_under_linking=%d\n"
++		      "intf_tx_pending_xmitbuf=%d\n"
++		      "intf_tx_enqueue=%d\n"
++		      "core_tx_enqueue=%d\n"
++		      "core_tx_enqueue_class=%d\n"
++		      "core_tx_enqueue_class_err_sta=%d\n"
++		      "core_tx_enqueue_class_err_nosta=%d\n"
++		      "core_tx_enqueue_class_err_fwlink=%d\n"
++		      "intf_tx_direct=%d\n"
++		      "intf_tx_direct_err_coalesce=%d\n"
++		      "intf_tx_dequeue=%d\n"
++		      "intf_tx_dequeue_err_coalesce=%d\n"
++		      "intf_tx_dump_xframe=%d\n"
++		      "intf_tx_dump_xframe_err_txdesc=%d\n"
++		      "intf_tx_dump_xframe_err_port=%d\n",
++		      tx_logs->os_tx,
++		      tx_logs->os_tx_err_up,
++		      tx_logs->os_tx_err_xmit,
++		      tx_logs->os_tx_m2u,
++		      tx_logs->os_tx_m2u_ignore_fw_linked,
++		      tx_logs->os_tx_m2u_ignore_self,
++		      tx_logs->os_tx_m2u_entry,
++		      tx_logs->os_tx_m2u_entry_err_xmit,
++		      tx_logs->os_tx_m2u_entry_err_skb,
++		      tx_logs->os_tx_m2u_stop,
++		      tx_logs->core_tx,
++		      tx_logs->core_tx_err_pxmitframe,
++		      tx_logs->core_tx_err_brtx,
++		      tx_logs->core_tx_upd_attrib,
++		      tx_logs->core_tx_upd_attrib_adhoc,
++		      tx_logs->core_tx_upd_attrib_sta,
++		      tx_logs->core_tx_upd_attrib_ap,
++		      tx_logs->core_tx_upd_attrib_unknown,
++		      tx_logs->core_tx_upd_attrib_dhcp,
++		      tx_logs->core_tx_upd_attrib_icmp,
++		      tx_logs->core_tx_upd_attrib_active,
++		      tx_logs->core_tx_upd_attrib_err_ucast_sta,
++		      tx_logs->core_tx_upd_attrib_err_ucast_ap_link,
++		      tx_logs->core_tx_upd_attrib_err_sta,
++		      tx_logs->core_tx_upd_attrib_err_link,
++		      tx_logs->core_tx_upd_attrib_err_sec,
++		      tx_logs->core_tx_ap_enqueue_warn_fwstate,
++		      tx_logs->core_tx_ap_enqueue_warn_sta,
++		      tx_logs->core_tx_ap_enqueue_warn_nosta,
++		      tx_logs->core_tx_ap_enqueue_warn_link,
++		      tx_logs->core_tx_ap_enqueue_warn_trigger,
++		      tx_logs->core_tx_ap_enqueue_mcast,
++		      tx_logs->core_tx_ap_enqueue_ucast,
++		      tx_logs->core_tx_ap_enqueue,
++		      tx_logs->intf_tx,
++		      tx_logs->intf_tx_pending_ac,
++		      tx_logs->intf_tx_pending_fw_under_survey,
++		      tx_logs->intf_tx_pending_fw_under_linking,
++		      tx_logs->intf_tx_pending_xmitbuf,
++		      tx_logs->intf_tx_enqueue,
++		      tx_logs->core_tx_enqueue,
++		      tx_logs->core_tx_enqueue_class,
++		      tx_logs->core_tx_enqueue_class_err_sta,
++		      tx_logs->core_tx_enqueue_class_err_nosta,
++		      tx_logs->core_tx_enqueue_class_err_fwlink,
++		      tx_logs->intf_tx_direct,
++		      tx_logs->intf_tx_direct_err_coalesce,
++		      tx_logs->intf_tx_dequeue,
++		      tx_logs->intf_tx_dequeue_err_coalesce,
++		      tx_logs->intf_tx_dump_xframe,
++		      tx_logs->intf_tx_dump_xframe_err_txdesc,
++		      tx_logs->intf_tx_dump_xframe_err_port
++		     );
++
++	return 0;
++}
++
++int proc_get_int_logs(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT_SEL(m,
++		      "all=%d\n"
++		      "err=%d\n"
++		      "tbdok=%d\n"
++		      "tbder=%d\n"
++		      "bcnderr=%d\n"
++		      "bcndma=%d\n"
++		      "bcndma_e=%d\n"
++		      "rx=%d\n"
++		      "rx_rdu=%d\n"
++		      "rx_fovw=%d\n"
++		      "txfovw=%d\n"
++		      "mgntok=%d\n"
++		      "highdok=%d\n"
++		      "bkdok=%d\n"
++		      "bedok=%d\n"
++		      "vidok=%d\n"
++		      "vodok=%d\n",
++		      padapter->int_logs.all,
++		      padapter->int_logs.err,
++		      padapter->int_logs.tbdok,
++		      padapter->int_logs.tbder,
++		      padapter->int_logs.bcnderr,
++		      padapter->int_logs.bcndma,
++		      padapter->int_logs.bcndma_e,
++		      padapter->int_logs.rx,
++		      padapter->int_logs.rx_rdu,
++		      padapter->int_logs.rx_fovw,
++		      padapter->int_logs.txfovw,
++		      padapter->int_logs.mgntok,
++		      padapter->int_logs.highdok,
++		      padapter->int_logs.bkdok,
++		      padapter->int_logs.bedok,
++		      padapter->int_logs.vidok,
++		      padapter->int_logs.vodok
++		     );
++
++	return 0;
++}
++
++#endif /* CONFIG_DBG_COUNTER */
++
++int proc_get_hw_status(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct dvobj_priv *dvobj = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &dvobj->drv_dbg;
++	struct registry_priv *regsty = dvobj_to_regsty(dvobj);
++
++	if (regsty->check_hw_status == 0)
++		RTW_PRINT_SEL(m, "RX FIFO full count: not check in watch dog\n");
++	else if (pdbgpriv->dbg_rx_fifo_last_overflow == 1
++	    && pdbgpriv->dbg_rx_fifo_curr_overflow == 1
++	    && pdbgpriv->dbg_rx_fifo_diff_overflow == 1
++	   )
++		RTW_PRINT_SEL(m, "RX FIFO full count: no implementation\n");
++	else {
++		RTW_PRINT_SEL(m, "RX FIFO full count: last_time=%llu, current_time=%llu, differential=%llu\n"
++			, pdbgpriv->dbg_rx_fifo_last_overflow, pdbgpriv->dbg_rx_fifo_curr_overflow, pdbgpriv->dbg_rx_fifo_diff_overflow);
++	}
++
++	return 0;
++}
++
++ssize_t proc_set_hw_status(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct dvobj_priv *dvobj = padapter->dvobj;
++	struct registry_priv *regsty = dvobj_to_regsty(dvobj);
++	char tmp[32];
++	u32 enable;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &enable);
++
++		if (regsty && enable <= 1) {
++			regsty->check_hw_status = enable;
++			RTW_INFO("check_hw_status=%d\n", regsty->check_hw_status);
++		}
++	}
++
++	return count;
++}
++
++int proc_get_trx_info_debug(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	int i;
++
++
++	/*============  tx info ============	*/
++	rtw_hal_get_def_var(padapter, HW_DEF_RA_INFO_DUMP, m);
++
++	/*============  rx info ============	*/
++	rtw_hal_set_odm_var(padapter, HAL_ODM_RX_INFO_DUMP, m, _FALSE);
++
++
++	return 0;
++}
++
++int proc_get_rx_signal(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	RTW_PRINT_SEL(m, "rssi:%d\n", padapter->recvpriv.rssi);
++	/* RTW_PRINT_SEL(m, "rxpwdb:%d\n", padapter->recvpriv.rxpwdb); */
++	RTW_PRINT_SEL(m, "signal_strength:%u\n", padapter->recvpriv.signal_strength);
++	RTW_PRINT_SEL(m, "signal_qual:%u\n", padapter->recvpriv.signal_qual);
++	if (padapter->registrypriv.mp_mode == 1) {
++		if (padapter->mppriv.antenna_rx == ANTENNA_A)
++			RTW_PRINT_SEL(m, "Antenna: A\n");
++		else if (padapter->mppriv.antenna_rx == ANTENNA_B)
++			RTW_PRINT_SEL(m, "Antenna: B\n");
++		else if (padapter->mppriv.antenna_rx == ANTENNA_C)
++			RTW_PRINT_SEL(m, "Antenna: C\n");
++		else if (padapter->mppriv.antenna_rx == ANTENNA_D)
++			RTW_PRINT_SEL(m, "Antenna: D\n");
++		else if (padapter->mppriv.antenna_rx == ANTENNA_AB)
++			RTW_PRINT_SEL(m, "Antenna: AB\n");
++		else if (padapter->mppriv.antenna_rx == ANTENNA_BC)
++			RTW_PRINT_SEL(m, "Antenna: BC\n");
++		else if (padapter->mppriv.antenna_rx == ANTENNA_CD)
++			RTW_PRINT_SEL(m, "Antenna: CD\n");
++		else
++			RTW_PRINT_SEL(m, "Antenna: __\n");
++		return 0;
++	}
++
++	rtw_get_noise(padapter);
++	RTW_PRINT_SEL(m, "noise:%d\n", padapter->recvpriv.noise);
++#ifdef DBG_RX_SIGNAL_DISPLAY_RAW_DATA
++	rtw_odm_get_perpkt_rssi(m, padapter);
++	rtw_get_raw_rssi_info(m, padapter);
++#endif
++	return 0;
++}
++
++ssize_t proc_set_rx_signal(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u32 is_signal_dbg, signal_strength;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%u %u", &is_signal_dbg, &signal_strength);
++
++		is_signal_dbg = is_signal_dbg == 0 ? 0 : 1;
++
++		if (is_signal_dbg && num != 2)
++			return count;
++
++		signal_strength = signal_strength > 100 ? 100 : signal_strength;
++
++		padapter->recvpriv.is_signal_dbg = is_signal_dbg;
++		padapter->recvpriv.signal_strength_dbg = signal_strength;
++
++		if (is_signal_dbg)
++			RTW_INFO("set %s %u\n", "DBG_SIGNAL_STRENGTH", signal_strength);
++		else
++			RTW_INFO("set %s\n", "HW_SIGNAL_STRENGTH");
++
++	}
++
++	return count;
++
++}
++#ifdef CONFIG_80211N_HT
++
++int proc_get_ht_enable(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++
++	if (pregpriv)
++		RTW_PRINT_SEL(m, "%d\n", pregpriv->ht_enable);
++
++	return 0;
++}
++
++ssize_t proc_set_ht_enable(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	char tmp[32];
++	u32 mode;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &mode);
++
++		if (pregpriv && mode < 2) {
++			pregpriv->ht_enable = mode;
++			RTW_INFO("ht_enable=%d\n", pregpriv->ht_enable);
++		}
++	}
++
++	return count;
++
++}
++
++int proc_get_bw_mode(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++
++	if (pregpriv)
++		RTW_PRINT_SEL(m, "0x%02x\n", pregpriv->bw_mode);
++
++	return 0;
++}
++
++ssize_t proc_set_bw_mode(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	char tmp[32];
++	u32 mode;
++	u8 bw_2g;
++	u8 bw_5g;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%x ", &mode);
++		bw_5g = mode >> 4;
++		bw_2g = mode & 0x0f;
++
++		if (pregpriv && bw_2g <= 4 && bw_5g <= 4) {
++
++			pregpriv->bw_mode = mode;
++			printk("bw_mode=0x%x\n", mode);
++
++		}
++	}
++
++	return count;
++
++}
++
++int proc_get_ampdu_enable(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++
++	if (pregpriv)
++		RTW_PRINT_SEL(m, "%d\n", pregpriv->ampdu_enable);
++
++	return 0;
++}
++
++ssize_t proc_set_ampdu_enable(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	char tmp[32];
++	u32 mode;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &mode);
++
++		if (pregpriv && mode < 2) {
++			pregpriv->ampdu_enable = mode;
++			printk("ampdu_enable=%d\n", mode);
++		}
++
++	}
++
++	return count;
++
++}
++
++int proc_get_mac_rptbuf(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u16 i;
++	u16 mac_id;
++	u32 shcut_addr = 0;
++	u32 read_addr = 0;
++#ifdef CONFIG_RTL8814A
++	RTW_PRINT_SEL(m, "TX ShortCut:\n");
++	for (mac_id = 0; mac_id < 64; mac_id++) {
++		rtw_write16(padapter, 0x140, 0x662 | ((mac_id & BIT5) >> 5));
++		shcut_addr = 0x8000;
++		shcut_addr = shcut_addr | ((mac_id & 0x1f) << 7);
++		RTW_PRINT_SEL(m, "mac_id=%d, 0x140=%x =>\n", mac_id, 0x662 | ((mac_id & BIT5) >> 5));
++		for (i = 0; i < 30; i++) {
++			read_addr = 0;
++			read_addr = shcut_addr | (i << 2);
++			RTW_PRINT_SEL(m, "i=%02d: MAC_%04x= %08x ", i, read_addr, rtw_read32(padapter, read_addr));
++			if (!((i + 1) % 4))
++				RTW_PRINT_SEL(m, "\n");
++			if (i == 29)
++				RTW_PRINT_SEL(m, "\n");
++		}
++	}
++#endif /* CONFIG_RTL8814A */
++	return 0;
++}
++
++
++int proc_get_rx_ampdu(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	_RTW_PRINT_SEL(m, "accept: ");
++	if (padapter->fix_rx_ampdu_accept == RX_AMPDU_ACCEPT_INVALID)
++		RTW_PRINT_SEL(m, "%u%s\n", rtw_rx_ampdu_is_accept(padapter), "(auto)");
++	else
++		RTW_PRINT_SEL(m, "%u%s\n", padapter->fix_rx_ampdu_accept, "(fixed)");
++
++	_RTW_PRINT_SEL(m, "size: ");
++	if (padapter->fix_rx_ampdu_size == RX_AMPDU_SIZE_INVALID)
++		RTW_PRINT_SEL(m, "%u%s\n", rtw_rx_ampdu_size(padapter), "(auto)");
++	else
++		RTW_PRINT_SEL(m, "%u%s\n", padapter->fix_rx_ampdu_size, "(fixed)");
++
++	RTW_PRINT_SEL(m, "%19s %17s\n", "fix_rx_ampdu_accept", "fix_rx_ampdu_size");
++
++	_RTW_PRINT_SEL(m, "%-19d %-17u\n"
++		, padapter->fix_rx_ampdu_accept
++		, padapter->fix_rx_ampdu_size);
++
++	return 0;
++}
++
++ssize_t proc_set_rx_ampdu(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	char tmp[32];
++	u8 accept;
++	u8 size;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhu %hhu", &accept, &size);
++
++		if (num >= 1)
++			rtw_rx_ampdu_set_accept(padapter, accept, RX_AMPDU_DRV_FIXED);
++		if (num >= 2)
++			rtw_rx_ampdu_set_size(padapter, size, RX_AMPDU_DRV_FIXED);
++
++		rtw_rx_ampdu_apply(padapter);
++	}
++
++exit:
++	return count;
++}
++int proc_get_rx_ampdu_factor(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++
++	if (padapter)
++		RTW_PRINT_SEL(m, "rx ampdu factor = %x\n", padapter->driver_rx_ampdu_factor);
++
++	return 0;
++}
++
++ssize_t proc_set_rx_ampdu_factor(struct file *file, const char __user *buffer
++				 , size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u32 factor;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &factor);
++
++		if (padapter && (num == 1)) {
++			RTW_INFO("padapter->driver_rx_ampdu_factor = %x\n", factor);
++
++			if (factor  > 0x03)
++				padapter->driver_rx_ampdu_factor = 0xFF;
++			else
++				padapter->driver_rx_ampdu_factor = factor;
++		}
++	}
++
++	return count;
++}
++
++int proc_get_rx_ampdu_density(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++
++	if (padapter)
++		RTW_PRINT_SEL(m, "rx ampdu densityg = %x\n", padapter->driver_rx_ampdu_spacing);
++
++	return 0;
++}
++
++ssize_t proc_set_rx_ampdu_density(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u32 density;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &density);
++
++		if (padapter && (num == 1)) {
++			RTW_INFO("padapter->driver_rx_ampdu_spacing = %x\n", density);
++
++			if (density > 0x07)
++				padapter->driver_rx_ampdu_spacing = 0xFF;
++			else
++				padapter->driver_rx_ampdu_spacing = density;
++		}
++	}
++
++	return count;
++}
++
++int proc_get_tx_ampdu_density(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++
++	if (padapter)
++		RTW_PRINT_SEL(m, "tx ampdu density = %x\n", padapter->driver_ampdu_spacing);
++
++	return 0;
++}
++
++ssize_t proc_set_tx_ampdu_density(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u32 density;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &density);
++
++		if (padapter && (num == 1)) {
++			RTW_INFO("padapter->driver_ampdu_spacing = %x\n", density);
++
++			if (density > 0x07)
++				padapter->driver_ampdu_spacing = 0xFF;
++			else
++				padapter->driver_ampdu_spacing = density;
++		}
++	}
++
++	return count;
++}
++#endif /* CONFIG_80211N_HT */
++
++int proc_get_en_fwps(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (pregpriv)
++		RTW_PRINT_SEL(m, "check_fw_ps = %d , 1:enable get FW PS state , 0: disable get FW PS state\n"
++			      , pregpriv->check_fw_ps);
++
++	return 0;
++}
++
++ssize_t proc_set_en_fwps(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	char tmp[32];
++	u32 mode;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &mode);
++
++		if (pregpriv &&  mode < 2) {
++			pregpriv->check_fw_ps = mode;
++			RTW_INFO("pregpriv->check_fw_ps=%d\n", pregpriv->check_fw_ps);
++		}
++
++	}
++
++	return count;
++}
++
++/*
++int proc_get_two_path_rssi(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	if(padapter)
++		RTW_PRINT_SEL(m, "%d %d\n",
++			padapter->recvpriv.RxRssi[0], padapter->recvpriv.RxRssi[1]);
++
++	return 0;
++}
++*/
++#ifdef CONFIG_80211N_HT
++void rtw_dump_dft_phy_cap(void *sel, _adapter *adapter)
++{
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct ht_priv	*phtpriv = &pmlmepriv->htpriv;
++	#ifdef CONFIG_80211AC_VHT
++	struct vht_priv *pvhtpriv = &pmlmepriv->vhtpriv;
++	#endif
++
++	#ifdef CONFIG_80211AC_VHT
++	RTW_PRINT_SEL(sel, "[DFT CAP] VHT STBC Tx : %s\n", (TEST_FLAG(pvhtpriv->stbc_cap, STBC_VHT_ENABLE_TX)) ? "V" : "X");
++	RTW_PRINT_SEL(sel, "[DFT CAP] VHT STBC Rx : %s\n", (TEST_FLAG(pvhtpriv->stbc_cap, STBC_VHT_ENABLE_RX)) ? "V" : "X");
++	#endif
++	RTW_PRINT_SEL(sel, "[DFT CAP] HT STBC Tx : %s\n", (TEST_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_TX)) ? "V" : "X");
++	RTW_PRINT_SEL(sel, "[DFT CAP] HT STBC Rx : %s\n\n", (TEST_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_RX)) ? "V" : "X");
++
++	#ifdef CONFIG_80211AC_VHT
++	RTW_PRINT_SEL(sel, "[DFT CAP] VHT LDPC Tx : %s\n", (TEST_FLAG(pvhtpriv->ldpc_cap, LDPC_VHT_ENABLE_TX)) ? "V" : "X");
++	RTW_PRINT_SEL(sel, "[DFT CAP] VHT LDPC Rx : %s\n", (TEST_FLAG(pvhtpriv->ldpc_cap, LDPC_VHT_ENABLE_RX)) ? "V" : "X");
++	#endif
++	RTW_PRINT_SEL(sel, "[DFT CAP] HT LDPC Tx : %s\n", (TEST_FLAG(phtpriv->ldpc_cap, LDPC_HT_ENABLE_TX)) ? "V" : "X");
++	RTW_PRINT_SEL(sel, "[DFT CAP] HT LDPC Rx : %s\n\n", (TEST_FLAG(phtpriv->ldpc_cap, LDPC_HT_ENABLE_RX)) ? "V" : "X");
++
++	#ifdef CONFIG_BEAMFORMING
++	#ifdef CONFIG_80211AC_VHT
++	RTW_PRINT_SEL(sel, "[DFT CAP] VHT MU Bfer : %s\n", (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_MU_MIMO_AP_ENABLE)) ? "V" : "X");
++	RTW_PRINT_SEL(sel, "[DFT CAP] VHT MU Bfee : %s\n", (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_MU_MIMO_STA_ENABLE)) ? "V" : "X");
++	RTW_PRINT_SEL(sel, "[DFT CAP] VHT SU Bfer : %s\n", (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE)) ? "V" : "X");
++	RTW_PRINT_SEL(sel, "[DFT CAP] VHT SU Bfee : %s\n", (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE)) ? "V" : "X");
++	#endif
++	RTW_PRINT_SEL(sel, "[DFT CAP] HT Bfer : %s\n", (TEST_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE))  ? "V" : "X");
++	RTW_PRINT_SEL(sel, "[DFT CAP] HT Bfee : %s\n", (TEST_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE)) ? "V" : "X");
++	#endif
++}
++
++void rtw_get_dft_phy_cap(void *sel, _adapter *adapter)
++{
++	rtw_ht_use_default_setting(adapter);
++	#ifdef CONFIG_80211AC_VHT
++	rtw_vht_use_default_setting(adapter);
++	#endif
++	rtw_dump_dft_phy_cap(sel, adapter);
++}
++
++void rtw_dump_drv_phy_cap(void *sel, _adapter *adapter)
++{
++	struct registry_priv	*pregistry_priv = &adapter->registrypriv;
++
++	#if 0
++	RTW_PRINT_SEL(sel, "[DRV CAP] TRx Capability : 0x%08x\n", phy_spec->trx_cap);
++	RTW_PRINT_SEL(sel, "[DRV CAP] Tx Stream Num Index : %d\n", (phy_spec->trx_cap >> 24) & 0xFF); /*Tx Stream Num Index [31:24]*/
++	RTW_PRINT_SEL(sel, "[DRV CAP] Rx Stream Num Index : %d\n", (phy_spec->trx_cap >> 16) & 0xFF); /*Rx Stream Num Index [23:16]*/
++	RTW_PRINT_SEL(sel, "[DRV CAP] Tx Path Num Index : %d\n", (phy_spec->trx_cap >> 8) & 0xFF);/*Tx Path Num Index	[15:8]*/
++	RTW_PRINT_SEL(sel, "[DRV CAP] Rx Path Num Index : %d\n", (phy_spec->trx_cap & 0xFF));/*Rx Path Num Index	[7:0]*/
++	#endif
++
++	RTW_PRINT_SEL(sel, "[DRV CAP] STBC Capability : 0x%02x\n", pregistry_priv->stbc_cap);
++	RTW_PRINT_SEL(sel, "[DRV CAP] VHT STBC Tx : %s\n", (TEST_FLAG(pregistry_priv->stbc_cap, BIT1)) ? "V" : "X"); /*BIT1: Enable VHT STBC Tx*/
++	RTW_PRINT_SEL(sel, "[DRV CAP] VHT STBC Rx : %s\n", (TEST_FLAG(pregistry_priv->stbc_cap, BIT0)) ? "V" : "X"); /*BIT0: Enable VHT STBC Rx*/
++	RTW_PRINT_SEL(sel, "[DRV CAP] HT STBC Tx : %s\n", (TEST_FLAG(pregistry_priv->stbc_cap, BIT5)) ? "V" : "X"); /*BIT5: Enable HT STBC Tx*/
++	RTW_PRINT_SEL(sel, "[DRV CAP] HT STBC Rx : %s\n\n", (TEST_FLAG(pregistry_priv->stbc_cap, BIT4)) ? "V" : "X"); /*BIT4: Enable HT STBC Rx*/
++
++	RTW_PRINT_SEL(sel, "[DRV CAP] LDPC Capability : 0x%02x\n", pregistry_priv->ldpc_cap);
++	RTW_PRINT_SEL(sel, "[DRV CAP] VHT LDPC Tx : %s\n", (TEST_FLAG(pregistry_priv->ldpc_cap, BIT1)) ? "V" : "X"); /*BIT1: Enable VHT LDPC Tx*/
++	RTW_PRINT_SEL(sel, "[DRV CAP] VHT LDPC Rx : %s\n", (TEST_FLAG(pregistry_priv->ldpc_cap, BIT0)) ? "V" : "X"); /*BIT0: Enable VHT LDPC Rx*/
++	RTW_PRINT_SEL(sel, "[DRV CAP] HT LDPC Tx : %s\n", (TEST_FLAG(pregistry_priv->ldpc_cap, BIT5)) ? "V" : "X"); /*BIT5: Enable HT LDPC Tx*/
++	RTW_PRINT_SEL(sel, "[DRV CAP] HT LDPC Rx : %s\n\n", (TEST_FLAG(pregistry_priv->ldpc_cap, BIT4)) ? "V" : "X"); /*BIT4: Enable HT LDPC Rx*/
++
++	#if 0
++	RTW_PRINT_SEL(sel, "[DRV CAP] TxBF parameter : 0x%08x\n", phy_spec->txbf_param);
++	RTW_PRINT_SEL(sel, "[DRV CAP] VHT Sounding Dim : %d\n", (phy_spec->txbf_param >> 24) & 0xFF); /*VHT Sounding Dim [31:24]*/
++	RTW_PRINT_SEL(sel, "[DRV CAP] VHT Steering Ant : %d\n", (phy_spec->txbf_param >> 16) & 0xFF); /*VHT Steering Ant [23:16]*/
++	RTW_PRINT_SEL(sel, "[DRV CAP] HT Sounding Dim : %d\n", (phy_spec->txbf_param >> 8) & 0xFF); /*HT Sounding Dim [15:8]*/
++	RTW_PRINT_SEL(sel, "[DRV CAP] HT Steering Ant : %d\n", phy_spec->txbf_param & 0xFF); /*HT Steering Ant [7:0]*/
++	#endif
++
++	/*
++	 * BIT0: Enable VHT SU Beamformer
++	 * BIT1: Enable VHT SU Beamformee
++	 * BIT2: Enable VHT MU Beamformer, depend on VHT SU Beamformer
++	 * BIT3: Enable VHT MU Beamformee, depend on VHT SU Beamformee
++	 * BIT4: Enable HT Beamformer
++	 * BIT5: Enable HT Beamformee
++	 */
++	RTW_PRINT_SEL(sel, "[DRV CAP] TxBF Capability : 0x%02x\n", pregistry_priv->beamform_cap);
++	RTW_PRINT_SEL(sel, "[DRV CAP] VHT MU Bfer : %s\n", (TEST_FLAG(pregistry_priv->beamform_cap, BIT2)) ? "V" : "X");
++	RTW_PRINT_SEL(sel, "[DRV CAP] VHT MU Bfee : %s\n", (TEST_FLAG(pregistry_priv->beamform_cap, BIT3)) ? "V" : "X");
++	RTW_PRINT_SEL(sel, "[DRV CAP] VHT SU Bfer : %s\n", (TEST_FLAG(pregistry_priv->beamform_cap, BIT0)) ? "V" : "X");
++	RTW_PRINT_SEL(sel, "[DRV CAP] VHT SU Bfee : %s\n", (TEST_FLAG(pregistry_priv->beamform_cap, BIT1)) ? "V" : "X");
++	RTW_PRINT_SEL(sel, "[DRV CAP] HT Bfer : %s\n", (TEST_FLAG(pregistry_priv->beamform_cap, BIT4))  ? "V" : "X");
++	RTW_PRINT_SEL(sel, "[DRV CAP] HT Bfee : %s\n", (TEST_FLAG(pregistry_priv->beamform_cap, BIT5)) ? "V" : "X");
++
++	RTW_PRINT_SEL(sel, "[DRV CAP] Tx Bfer rf_num : %d\n", pregistry_priv->beamformer_rf_num);
++	RTW_PRINT_SEL(sel, "[DRV CAP] Tx Bfee rf_num : %d\n", pregistry_priv->beamformee_rf_num);
++}
++
++int proc_get_stbc_cap(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++
++	if (pregpriv)
++		RTW_PRINT_SEL(m, "0x%02x\n", pregpriv->stbc_cap);
++
++	return 0;
++}
++
++ssize_t proc_set_stbc_cap(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	char tmp[32];
++	u32 mode;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &mode);
++
++		if (pregpriv) {
++			pregpriv->stbc_cap = mode;
++			RTW_INFO("stbc_cap = 0x%02x\n", mode);
++		}
++	}
++
++	return count;
++}
++int proc_get_rx_stbc(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++
++	if (pregpriv)
++		RTW_PRINT_SEL(m, "%d\n", pregpriv->rx_stbc);
++
++	return 0;
++}
++
++ssize_t proc_set_rx_stbc(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	char tmp[32];
++	u32 mode;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &mode);
++
++		if (pregpriv && (mode == 0 || mode == 1 || mode == 2 || mode == 3)) {
++			pregpriv->rx_stbc = mode;
++			printk("rx_stbc=%d\n", mode);
++		}
++	}
++
++	return count;
++
++}
++int proc_get_ldpc_cap(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++
++	if (pregpriv)
++		RTW_PRINT_SEL(m, "0x%02x\n", pregpriv->ldpc_cap);
++
++	return 0;
++}
++
++ssize_t proc_set_ldpc_cap(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	char tmp[32];
++	u32 mode;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &mode);
++
++		if (pregpriv) {
++			pregpriv->ldpc_cap = mode;
++			RTW_INFO("ldpc_cap = 0x%02x\n", mode);
++		}
++	}
++
++	return count;
++}
++#ifdef CONFIG_BEAMFORMING
++int proc_get_txbf_cap(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++
++	if (pregpriv)
++		RTW_PRINT_SEL(m, "0x%02x\n", pregpriv->beamform_cap);
++
++	return 0;
++}
++
++ssize_t proc_set_txbf_cap(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	char tmp[32];
++	u32 mode;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &mode);
++
++		if (pregpriv) {
++			pregpriv->beamform_cap = mode;
++			RTW_INFO("beamform_cap = 0x%02x\n", mode);
++		}
++	}
++
++	return count;
++}
++#endif
++#endif /* CONFIG_80211N_HT */
++
++/*int proc_get_rssi_disp(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	return 0;
++}
++*/
++
++/*ssize_t proc_set_rssi_disp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u32 enable=0;
++
++	if (count < 1)
++	{
++		RTW_INFO("argument size is less than 1\n");
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%x", &enable);
++
++		if (num !=  1) {
++			RTW_INFO("invalid set_rssi_disp parameter!\n");
++			return count;
++		}
++
++		if(enable)
++		{
++			RTW_INFO("Linked info Function Enable\n");
++			padapter->bLinkInfoDump = enable ;
++		}
++		else
++		{
++			RTW_INFO("Linked info Function Disable\n");
++			padapter->bLinkInfoDump = 0 ;
++		}
++
++	}
++
++	return count;
++
++}
++
++*/
++#ifdef CONFIG_AP_MODE
++
++int proc_get_all_sta_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_irqL irqL;
++	struct sta_info *psta;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	int i;
++	_list	*plist, *phead;
++
++	RTW_PRINT_SEL(m, "sta_dz_bitmap=0x%x, tim_bitmap=0x%x\n", pstapriv->sta_dz_bitmap, pstapriv->tim_bitmap);
++
++	_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++	for (i = 0; i < NUM_STA; i++) {
++		phead = &(pstapriv->sta_hash[i]);
++		plist = get_next(phead);
++
++		while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++			psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++
++			plist = get_next(plist);
++
++			/* if(extra_arg == psta->aid) */
++			{
++				RTW_PRINT_SEL(m, "==============================\n");
++				RTW_PRINT_SEL(m, "sta's macaddr:" MAC_FMT "\n", MAC_ARG(psta->hwaddr));
++				RTW_PRINT_SEL(m, "rtsen=%d, cts2slef=%d\n", psta->rtsen, psta->cts2self);
++				RTW_PRINT_SEL(m, "state=0x%x, aid=%d, macid=%d, raid=%d\n", psta->state, psta->aid, psta->mac_id, psta->raid);
++#ifdef CONFIG_80211N_HT
++				RTW_PRINT_SEL(m, "qos_en=%d, ht_en=%d, init_rate=%d\n", psta->qos_option, psta->htpriv.ht_option, psta->init_rate);
++				RTW_PRINT_SEL(m, "bwmode=%d, ch_offset=%d, sgi_20m=%d,sgi_40m=%d\n", psta->bw_mode, psta->htpriv.ch_offset, psta->htpriv.sgi_20m, psta->htpriv.sgi_40m);
++				RTW_PRINT_SEL(m, "ampdu_enable = %d\n", psta->htpriv.ampdu_enable);
++				RTW_PRINT_SEL(m, "agg_enable_bitmap=%x, candidate_tid_bitmap=%x\n", psta->htpriv.agg_enable_bitmap, psta->htpriv.candidate_tid_bitmap);
++#endif /* CONFIG_80211N_HT */
++				RTW_PRINT_SEL(m, "sleepq_len=%d\n", psta->sleepq_len);
++				RTW_PRINT_SEL(m, "sta_xmitpriv.vo_q_qcnt=%d\n", psta->sta_xmitpriv.vo_q.qcnt);
++				RTW_PRINT_SEL(m, "sta_xmitpriv.vi_q_qcnt=%d\n", psta->sta_xmitpriv.vi_q.qcnt);
++				RTW_PRINT_SEL(m, "sta_xmitpriv.be_q_qcnt=%d\n", psta->sta_xmitpriv.be_q.qcnt);
++				RTW_PRINT_SEL(m, "sta_xmitpriv.bk_q_qcnt=%d\n", psta->sta_xmitpriv.bk_q.qcnt);
++
++				RTW_PRINT_SEL(m, "capability=0x%x\n", psta->capability);
++				RTW_PRINT_SEL(m, "flags=0x%x\n", psta->flags);
++				RTW_PRINT_SEL(m, "wpa_psk=0x%x\n", psta->wpa_psk);
++				RTW_PRINT_SEL(m, "wpa2_group_cipher=0x%x\n", psta->wpa2_group_cipher);
++				RTW_PRINT_SEL(m, "wpa2_pairwise_cipher=0x%x\n", psta->wpa2_pairwise_cipher);
++				RTW_PRINT_SEL(m, "qos_info=0x%x\n", psta->qos_info);
++				RTW_PRINT_SEL(m, "dot118021XPrivacy=0x%x\n", psta->dot118021XPrivacy);
++
++				sta_rx_reorder_ctl_dump(m, psta);
++
++#ifdef CONFIG_TDLS
++				RTW_PRINT_SEL(m, "tdls_sta_state=0x%08x\n", psta->tdls_sta_state);
++				RTW_PRINT_SEL(m, "PeerKey_Lifetime=%d\n", psta->TDLS_PeerKey_Lifetime);
++				RTW_PRINT_SEL(m, "rx_data_pkts=%llu\n", psta->sta_stats.rx_data_pkts);
++				RTW_PRINT_SEL(m, "rx_bytes=%llu\n", psta->sta_stats.rx_bytes);
++				RTW_PRINT_SEL(m, "tx_data_pkts=%llu\n", psta->sta_stats.tx_pkts);
++				RTW_PRINT_SEL(m, "tx_bytes=%llu\n", psta->sta_stats.tx_bytes);
++#endif /* CONFIG_TDLS */
++
++				dump_st_ctl(m, &psta->st_ctl);
++
++				if (STA_OP_WFD_MODE(psta))
++					RTW_PRINT_SEL(m, "op_wfd_mode:0x%02x\n", STA_OP_WFD_MODE(psta));
++
++				RTW_PRINT_SEL(m, "==============================\n");
++			}
++
++		}
++
++	}
++
++	_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++	return 0;
++}
++
++#endif
++
++#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++int proc_get_rtkm_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++	struct recv_buf *precvbuf;
++
++	precvbuf = (struct recv_buf *)precvpriv->precv_buf;
++
++	RTW_PRINT_SEL(m, "============[RTKM Info]============\n");
++	RTW_PRINT_SEL(m, "MAX_RTKM_NR_PREALLOC_RECV_SKB: %d\n", rtw_rtkm_get_nr_recv_skb());
++	RTW_PRINT_SEL(m, "MAX_RTKM_RECVBUF_SZ: %d\n", rtw_rtkm_get_buff_size());
++
++	RTW_PRINT_SEL(m, "============[Driver Info]============\n");
++	RTW_PRINT_SEL(m, "NR_PREALLOC_RECV_SKB: %d\n", NR_PREALLOC_RECV_SKB);
++	RTW_PRINT_SEL(m, "MAX_RECVBUF_SZ: %d\n", precvbuf->alloc_sz);
++
++	return 0;
++}
++#endif /* CONFIG_PREALLOC_RX_SKB_BUFFER */
++
++#ifdef DBG_MEMORY_LEAK
++#include <asm/atomic.h>
++extern atomic_t _malloc_cnt;;
++extern atomic_t _malloc_size;;
++
++int proc_get_malloc_cnt(struct seq_file *m, void *v)
++{
++	RTW_PRINT_SEL(m, "_malloc_cnt=%d\n", atomic_read(&_malloc_cnt));
++	RTW_PRINT_SEL(m, "_malloc_size=%d\n", atomic_read(&_malloc_size));
++
++	return 0;
++}
++#endif /* DBG_MEMORY_LEAK */
++
++#ifdef CONFIG_FIND_BEST_CHANNEL
++int proc_get_best_channel(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	u32 i, best_channel_24G = 1, best_channel_5G = 36, index_24G = 0, index_5G = 0;
++
++	for (i = 0; pmlmeext->channel_set[i].ChannelNum != 0; i++) {
++		if (pmlmeext->channel_set[i].ChannelNum == 1)
++			index_24G = i;
++		if (pmlmeext->channel_set[i].ChannelNum == 36)
++			index_5G = i;
++	}
++
++	for (i = 0; (i < MAX_CHANNEL_NUM) && (pmlmeext->channel_set[i].ChannelNum != 0) ; i++) {
++		/* 2.4G */
++		if (pmlmeext->channel_set[i].ChannelNum == 6) {
++			if (pmlmeext->channel_set[i].rx_count < pmlmeext->channel_set[index_24G].rx_count) {
++				index_24G = i;
++				best_channel_24G = pmlmeext->channel_set[i].ChannelNum;
++			}
++		}
++
++		/* 5G */
++		if (pmlmeext->channel_set[i].ChannelNum >= 36
++		    && pmlmeext->channel_set[i].ChannelNum < 140) {
++			/* Find primary channel */
++			if (((pmlmeext->channel_set[i].ChannelNum - 36) % 8 == 0)
++			    && (pmlmeext->channel_set[i].rx_count < pmlmeext->channel_set[index_5G].rx_count)) {
++				index_5G = i;
++				best_channel_5G = pmlmeext->channel_set[i].ChannelNum;
++			}
++		}
++
++		if (pmlmeext->channel_set[i].ChannelNum >= 149
++		    && pmlmeext->channel_set[i].ChannelNum < 165) {
++			/* find primary channel */
++			if (((pmlmeext->channel_set[i].ChannelNum - 149) % 8 == 0)
++			    && (pmlmeext->channel_set[i].rx_count < pmlmeext->channel_set[index_5G].rx_count)) {
++				index_5G = i;
++				best_channel_5G = pmlmeext->channel_set[i].ChannelNum;
++			}
++		}
++#if 1 /* debug */
++		RTW_PRINT_SEL(m, "The rx cnt of channel %3d = %d\n",
++			pmlmeext->channel_set[i].ChannelNum, pmlmeext->channel_set[i].rx_count);
++#endif
++	}
++
++	RTW_PRINT_SEL(m, "best_channel_5G = %d\n", best_channel_5G);
++	RTW_PRINT_SEL(m, "best_channel_24G = %d\n", best_channel_24G);
++
++	return 0;
++}
++
++ssize_t proc_set_best_channel(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	char tmp[32];
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int i;
++		for (i = 0; pmlmeext->channel_set[i].ChannelNum != 0; i++)
++			pmlmeext->channel_set[i].rx_count = 0;
++
++		RTW_INFO("set %s\n", "Clean Best Channel Count");
++	}
++
++	return count;
++}
++#endif /* CONFIG_FIND_BEST_CHANNEL */
++
++#ifdef CONFIG_BT_COEXIST
++int proc_get_btcoex_dbg(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	PADAPTER padapter;
++	char buf[512] = {0};
++	padapter = (PADAPTER)rtw_netdev_priv(dev);
++
++	rtw_btcoex_GetDBG(padapter, buf, 512);
++
++	_RTW_PRINT_SEL(m, "%s", buf);
++
++	return 0;
++}
++
++ssize_t proc_set_btcoex_dbg(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	PADAPTER padapter;
++	u8 tmp[80] = {0};
++	u32 module[2] = {0};
++	u32 num;
++
++	padapter = (PADAPTER)rtw_netdev_priv(dev);
++
++	/*	RTW_INFO("+" FUNC_ADPT_FMT "\n", FUNC_ADPT_ARG(padapter)); */
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n",
++			 FUNC_ADPT_ARG(padapter));
++
++		return -EFAULT;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n",
++			 FUNC_ADPT_ARG(padapter));
++
++		return -EFAULT;
++	}
++
++	num = count;
++	if (num > (sizeof(tmp) - 1))
++		num = (sizeof(tmp) - 1);
++
++	if (copy_from_user(tmp, buffer, num)) {
++		RTW_INFO(FUNC_ADPT_FMT ": copy buffer from user space FAIL!\n",
++			 FUNC_ADPT_ARG(padapter));
++
++		return -EFAULT;
++	}
++
++	num = sscanf(tmp, "%x %x", module, module + 1);
++	if (1 == num) {
++		if (0 == module[0])
++			_rtw_memset(module, 0, sizeof(module));
++		else
++			_rtw_memset(module, 0xFF, sizeof(module));
++	} else if (2 != num) {
++		RTW_INFO(FUNC_ADPT_FMT ": input(\"%s\") format incorrect!\n",
++			 FUNC_ADPT_ARG(padapter), tmp);
++
++		if (0 == num)
++			return -EFAULT;
++	}
++
++	RTW_INFO(FUNC_ADPT_FMT ": input 0x%08X 0x%08X\n",
++		 FUNC_ADPT_ARG(padapter), module[0], module[1]);
++	rtw_btcoex_SetDBG(padapter, module);
++
++	return count;
++}
++
++int proc_get_btcoex_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	PADAPTER padapter;
++	const u32 bufsize = 30 * 100;
++	u8 *pbuf = NULL;
++
++	padapter = (PADAPTER)rtw_netdev_priv(dev);
++
++	pbuf = rtw_zmalloc(bufsize);
++	if (NULL == pbuf)
++		return -ENOMEM;
++
++	rtw_btcoex_DisplayBtCoexInfo(padapter, pbuf, bufsize);
++
++	_RTW_PRINT_SEL(m, "%s\n", pbuf);
++
++	rtw_mfree(pbuf, bufsize);
++
++	return 0;
++}
++#endif /* CONFIG_BT_COEXIST */
++
++#if defined(DBG_CONFIG_ERROR_DETECT)
++int proc_get_sreset(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	return 0;
++}
++
++ssize_t proc_set_sreset(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	s32 trigger_point;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d", &trigger_point);
++
++		if (trigger_point == SRESET_TGP_NULL)
++			rtw_hal_sreset_reset(padapter);
++		else
++			sreset_set_trigger_point(padapter, trigger_point);
++	}
++
++	return count;
++
++}
++#endif /* DBG_CONFIG_ERROR_DETECT */
++
++#ifdef CONFIG_PCI_HCI
++
++int proc_get_rx_ring(struct seq_file *m, void *v)
++{
++	_irqL irqL;
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *) rtw_netdev_priv(dev);
++	struct dvobj_priv *pdvobjpriv = adapter_to_dvobj(padapter);
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	struct rtw_rx_ring *rx_ring = &precvpriv->rx_ring[RX_MPDU_QUEUE];
++	int i, j;
++
++	RTW_PRINT_SEL(m, "rx ring (%p)\n", rx_ring);
++	RTW_PRINT_SEL(m, "  dma: 0x%08x\n", (int) rx_ring->dma);
++	RTW_PRINT_SEL(m, "  idx: %d\n", rx_ring->idx);
++
++	_enter_critical(&pdvobjpriv->irq_th_lock, &irqL);
++	for (i = 0; i < precvpriv->rxringcount; i++) {
++#ifdef CONFIG_TRX_BD_ARCH
++		struct rx_buf_desc *entry = &rx_ring->buf_desc[i];
++#else
++		struct recv_stat *entry = &rx_ring->desc[i];
++#endif
++		struct sk_buff *skb = rx_ring->rx_buf[i];
++
++		RTW_PRINT_SEL(m, "  desc[%03d]: %p, rx_buf[%03d]: 0x%08x\n",
++			i, entry, i, cpu_to_le32(*((dma_addr_t *)skb->cb)));
++
++		for (j = 0; j < sizeof(*entry) / 4; j++) {
++			if ((j % 4) == 0)
++				RTW_PRINT_SEL(m, "  0x%03x", j);
++
++			RTW_PRINT_SEL(m, " 0x%08x ", ((int *) entry)[j]);
++
++			if ((j % 4) == 3)
++				RTW_PRINT_SEL(m, "\n");
++		}
++	}
++	_exit_critical(&pdvobjpriv->irq_th_lock, &irqL);
++
++	return 0;
++}
++
++int proc_get_tx_ring(struct seq_file *m, void *v)
++{
++	_irqL irqL;
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *) rtw_netdev_priv(dev);
++	struct dvobj_priv *pdvobjpriv = adapter_to_dvobj(padapter);
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	int i, j, k;
++
++	_enter_critical(&pdvobjpriv->irq_th_lock, &irqL);
++	for (i = 0; i < PCI_MAX_TX_QUEUE_COUNT; i++) {
++		struct rtw_tx_ring *tx_ring = &pxmitpriv->tx_ring[i];
++
++		RTW_PRINT_SEL(m, "tx ring[%d] (%p)\n", i, tx_ring);
++		RTW_PRINT_SEL(m, "  dma: 0x%08x\n", (int) tx_ring->dma);
++		RTW_PRINT_SEL(m, "  idx: %d\n", tx_ring->idx);
++		RTW_PRINT_SEL(m, "  entries: %d\n", tx_ring->entries);
++		/*		RTW_PRINT_SEL(m, "  queue: %d\n", tx_ring->queue); */
++		RTW_PRINT_SEL(m, "  qlen: %d\n", tx_ring->qlen);
++
++		for (j = 0; j < pxmitpriv->txringcount[i]; j++) {
++#ifdef CONFIG_TRX_BD_ARCH
++			struct tx_buf_desc *entry = &tx_ring->buf_desc[j];
++#else
++			struct tx_desc *entry = &tx_ring->desc[j];
++#endif
++
++			RTW_PRINT_SEL(m, "  desc[%03d]: %p\n", j, entry);
++			for (k = 0; k < sizeof(*entry) / 4; k++) {
++				if ((k % 4) == 0)
++					RTW_PRINT_SEL(m, "  0x%03x", k);
++
++				RTW_PRINT_SEL(m, " 0x%08x ", ((int *) entry)[k]);
++
++				if ((k % 4) == 3)
++					RTW_PRINT_SEL(m, "\n");
++			}
++		}
++	}
++	_exit_critical(&pdvobjpriv->irq_th_lock, &irqL);
++
++	return 0;
++}
++#endif
++
++#ifdef CONFIG_WOWLAN
++int proc_get_pattern_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	u8 pattern_num = 0, val8;
++	char str_1[128];
++	char *p_str;
++	int i = 0 , j = 0, k = 0;
++	int len = 0, max_len = 0, total = 0;
++
++	p_str = str_1;
++	max_len = sizeof(str_1);
++
++	total = pwrpriv->wowlan_pattern_idx;
++
++	rtw_set_default_pattern(padapter);
++
++	/*show pattern*/
++	RTW_PRINT_SEL(m, "\n======[Pattern Info.]======\n");
++	RTW_PRINT_SEL(m, "pattern number: %d\n", total);
++	RTW_PRINT_SEL(m, "support default patterns: %c\n",
++		      (pregistrypriv->default_patterns_en) ? 'Y' : 'N');
++
++	for (k = 0; k < total ; k++) {
++		RTW_PRINT_SEL(m, "\npattern idx: %d\n", k);
++		RTW_PRINT_SEL(m, "pattern content:\n");
++
++		p_str = str_1;
++		max_len = sizeof(str_1);
++		for (i = 0 ; i < MAX_WKFM_PATTERN_SIZE / 8 ; i++) {
++			_rtw_memset(p_str, 0, max_len);
++			len = 0;
++			for (j = 0 ; j < 8 ; j++) {
++				val8 = pwrpriv->patterns[k].content[i * 8 + j];
++				len += snprintf(p_str + len, max_len - len,
++						"%02x ", val8);
++			}
++			RTW_PRINT_SEL(m, "%s\n", p_str);
++		}
++		RTW_PRINT_SEL(m, "\npattern mask:\n");
++		for (i = 0 ; i < MAX_WKFM_SIZE / 8 ; i++) {
++			_rtw_memset(p_str, 0, max_len);
++			len = 0;
++			for (j = 0 ; j < 8 ; j++) {
++				val8 = pwrpriv->patterns[k].mask[i * 8 + j];
++				len += snprintf(p_str + len, max_len - len,
++						"%02x ", val8);
++			}
++			RTW_PRINT_SEL(m, "%s\n", p_str);
++		}
++
++		RTW_PRINT_SEL(m, "\npriv_pattern_len:\n");
++		RTW_PRINT_SEL(m, "pattern_len: %d\n", pwrpriv->patterns[k].len);
++		RTW_PRINT_SEL(m, "*****************\n");
++	}
++
++	return 0;
++}
++ssize_t proc_set_pattern_info(struct file *file, const char __user *buffer,
++			      size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct wowlan_ioctl_param poidparam;
++	u8 tmp[MAX_WKFM_PATTERN_SIZE] = {0};
++	int ret = 0, num = 0;
++	u8 index = 0;
++
++	poidparam.subcode = 0;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (pwrpriv->wowlan_pattern_idx >= MAX_WKFM_CAM_NUM) {
++		RTW_INFO("WARNING: priv-pattern is full(idx: %d)\n",
++			 pwrpriv->wowlan_pattern_idx);
++		RTW_INFO("WARNING: please clean priv-pattern first\n");
++		return -ENOMEM;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		if (strncmp(tmp, "clean", 5) == 0) {
++			poidparam.subcode = WOWLAN_PATTERN_CLEAN;
++			rtw_hal_set_hwreg(padapter,
++					  HW_VAR_WOWLAN, (u8 *)&poidparam);
++		} else {
++			index = pwrpriv->wowlan_pattern_idx;
++			ret = rtw_wowlan_parser_pattern_cmd(tmp,
++					    pwrpriv->patterns[index].content,
++					    &pwrpriv->patterns[index].len,
++					    pwrpriv->patterns[index].mask);
++			if (ret == _TRUE)
++				pwrpriv->wowlan_pattern_idx++;
++		}
++	}
++
++	return count;
++}
++
++int proc_get_wakeup_reason(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	u8 val = pwrpriv->wowlan_last_wake_reason;
++
++	RTW_PRINT_SEL(m, "last wake reason: %#02x\n", val);
++	return 0;
++}
++#endif /*CONFIG_WOWLAN*/
++
++#ifdef CONFIG_GPIO_WAKEUP
++int proc_get_wowlan_gpio_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	u8 val = pwrpriv->is_high_active;
++
++	RTW_PRINT_SEL(m, "wakeup_gpio_idx: %d\n", WAKEUP_GPIO_IDX);
++	RTW_PRINT_SEL(m, "high_active: %d\n", val);
++
++	return 0;
++}
++
++ssize_t proc_set_wowlan_gpio_info(struct file *file, const char __user *buffer,
++				  size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	char tmp[32] = {0};
++	int num = 0;
++	u32 is_high_active = 0;
++	u8 val8 = 0;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		num = sscanf(tmp, "%u", &is_high_active);
++
++		is_high_active = is_high_active == 0 ? 0 : 1;
++
++		pwrpriv->is_high_active = is_high_active;
++
++		rtw_ps_deny(padapter, PS_DENY_IOCTL);
++		LeaveAllPowerSaveModeDirect(padapter);
++		val8 = (pwrpriv->is_high_active == 0) ? 1 : 0;
++		rtw_hal_set_output_gpio(padapter, WAKEUP_GPIO_IDX, val8);
++		rtw_ps_deny_cancel(padapter, PS_DENY_IOCTL);
++
++		RTW_INFO("set %s %d\n", "gpio_high_active",
++			 pwrpriv->is_high_active);
++		RTW_INFO("%s: set GPIO_%d %d as default.\n",
++			 __func__, WAKEUP_GPIO_IDX, val8);
++	}
++
++	return count;
++}
++#endif /* CONFIG_GPIO_WAKEUP */
++
++#ifdef CONFIG_P2P_WOWLAN
++int proc_get_p2p_wowlan_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	struct p2p_wowlan_info	 peerinfo = pwdinfo->p2p_wow_info;
++	if (_TRUE == peerinfo.is_trigger) {
++		RTW_PRINT_SEL(m, "is_trigger: TRUE\n");
++		switch (peerinfo.wowlan_recv_frame_type) {
++		case P2P_WOWLAN_RECV_NEGO_REQ:
++			RTW_PRINT_SEL(m, "Frame Type: Nego Request\n");
++			break;
++		case P2P_WOWLAN_RECV_INVITE_REQ:
++			RTW_PRINT_SEL(m, "Frame Type: Invitation Request\n");
++			break;
++		case P2P_WOWLAN_RECV_PROVISION_REQ:
++			RTW_PRINT_SEL(m, "Frame Type: Provision Request\n");
++			break;
++		default:
++			break;
++		}
++		RTW_PRINT_SEL(m, "Peer Addr: "MAC_FMT"\n", MAC_ARG(peerinfo.wowlan_peer_addr));
++		RTW_PRINT_SEL(m, "Peer WPS Config: %x\n", peerinfo.wowlan_peer_wpsconfig);
++		RTW_PRINT_SEL(m, "Persistent Group: %d\n", peerinfo.wowlan_peer_is_persistent);
++		RTW_PRINT_SEL(m, "Intivation Type: %d\n", peerinfo.wowlan_peer_invitation_type);
++	} else
++		RTW_PRINT_SEL(m, "is_trigger: False\n");
++	return 0;
++}
++#endif /* CONFIG_P2P_WOWLAN */
++
++int proc_get_new_bcn_max(struct seq_file *m, void *v)
++{
++	extern int new_bcn_max;
++
++	RTW_PRINT_SEL(m, "%d", new_bcn_max);
++	return 0;
++}
++
++ssize_t proc_set_new_bcn_max(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	char tmp[32];
++	extern int new_bcn_max;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count))
++		sscanf(tmp, "%d ", &new_bcn_max);
++
++	return count;
++}
++
++#ifdef CONFIG_POWER_SAVING
++int proc_get_ps_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	u8 ips_mode = pwrpriv->ips_mode;
++	u8 lps_mode = pwrpriv->power_mgnt;
++	char *str = "";
++
++	RTW_PRINT_SEL(m, "======Power Saving Info:======\n");
++	RTW_PRINT_SEL(m, "*IPS:\n");
++
++	if (ips_mode == IPS_NORMAL) {
++#ifdef CONFIG_FWLPS_IN_IPS
++		str = "FW_LPS_IN_IPS";
++#else
++		str = "Card Disable";
++#endif
++	} else if (ips_mode == IPS_NONE)
++		str = "NO IPS";
++	else if (ips_mode == IPS_LEVEL_2)
++		str = "IPS_LEVEL_2";
++	else
++		str = "invalid ips_mode";
++
++	RTW_PRINT_SEL(m, " IPS mode: %s\n", str);
++	RTW_PRINT_SEL(m, " IPS enter count:%d, IPS leave count:%d\n",
++		      pwrpriv->ips_enter_cnts, pwrpriv->ips_leave_cnts);
++	RTW_PRINT_SEL(m, "------------------------------\n");
++	RTW_PRINT_SEL(m, "*LPS:\n");
++
++	if (lps_mode == PS_MODE_ACTIVE)
++		str = "NO LPS";
++	else if (lps_mode == PS_MODE_MIN)
++		str = "MIN";
++	else if (lps_mode == PS_MODE_MAX)
++		str = "MAX";
++	else if (lps_mode == PS_MODE_DTIM)
++		str = "DTIM";
++	else
++		sprintf(str, "%d", lps_mode);
++
++	RTW_PRINT_SEL(m, " LPS mode: %s\n", str);
++
++	if (pwrpriv->dtim != 0)
++		RTW_PRINT_SEL(m, " DTIM: %d\n", pwrpriv->dtim);
++	RTW_PRINT_SEL(m, " LPS enter count:%d, LPS leave count:%d\n",
++		      pwrpriv->lps_enter_cnts, pwrpriv->lps_leave_cnts);
++	RTW_PRINT_SEL(m, "=============================\n");
++	return 0;
++}
++#endif /* CONFIG_POWER_SAVING */
++
++#ifdef CONFIG_TDLS
++static int proc_tdls_display_tdls_function_info(struct seq_file *m)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	u8 SpaceBtwnItemAndValue = TDLS_DBG_INFO_SPACE_BTWN_ITEM_AND_VALUE;
++	u8 SpaceBtwnItemAndValueTmp = 0;
++	BOOLEAN FirstMatchFound = _FALSE;
++	int j = 0;
++
++	RTW_PRINT_SEL(m, "============[TDLS Function Info]============\n");
++	RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "TDLS Prohibited", (ptdlsinfo->ap_prohibited == _TRUE) ? "_TRUE" : "_FALSE");
++	RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "TDLS Channel Switch Prohibited", (ptdlsinfo->ch_switch_prohibited == _TRUE) ? "_TRUE" : "_FALSE");
++	RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "TDLS Link Established", (ptdlsinfo->link_established == _TRUE) ? "_TRUE" : "_FALSE");
++	RTW_PRINT_SEL(m, "%-*s = %d/%d\n", SpaceBtwnItemAndValue, "TDLS STA Num (Linked/Allowed)", ptdlsinfo->sta_cnt, MAX_ALLOWED_TDLS_STA_NUM);
++	RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "TDLS Allowed STA Num Reached", (ptdlsinfo->sta_maximum == _TRUE) ? "_TRUE" : "_FALSE");
++
++#ifdef CONFIG_TDLS_CH_SW
++	RTW_PRINT_SEL(m, "%-*s =", SpaceBtwnItemAndValue, "TDLS CH SW State");
++	if (ptdlsinfo->chsw_info.ch_sw_state == TDLS_STATE_NONE)
++		RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_STATE_NONE");
++	else {
++		for (j = 0; j < 32; j++) {
++			if (ptdlsinfo->chsw_info.ch_sw_state & BIT(j)) {
++				if (FirstMatchFound ==  _FALSE) {
++					SpaceBtwnItemAndValueTmp = 1;
++					FirstMatchFound = _TRUE;
++				} else
++					SpaceBtwnItemAndValueTmp = SpaceBtwnItemAndValue + 3;
++				switch (BIT(j)) {
++				case TDLS_INITIATOR_STATE:
++					RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_INITIATOR_STATE");
++					break;
++				case TDLS_RESPONDER_STATE:
++					RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_RESPONDER_STATE");
++					break;
++				case TDLS_LINKED_STATE:
++					RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_LINKED_STATE");
++					break;
++				case TDLS_WAIT_PTR_STATE:
++					RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_WAIT_PTR_STATE");
++					break;
++				case TDLS_ALIVE_STATE:
++					RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_ALIVE_STATE");
++					break;
++				case TDLS_CH_SWITCH_ON_STATE:
++					RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_CH_SWITCH_ON_STATE");
++					break;
++				case TDLS_PEER_AT_OFF_STATE:
++					RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_PEER_AT_OFF_STATE");
++					break;
++				case TDLS_CH_SW_INITIATOR_STATE:
++					RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_CH_SW_INITIATOR_STATE");
++					break;
++				case TDLS_WAIT_CH_RSP_STATE:
++					RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValue, " ", "TDLS_WAIT_CH_RSP_STATE");
++					break;
++				default:
++					RTW_PRINT_SEL(m, "%-*sBIT(%d)\n", SpaceBtwnItemAndValueTmp, " ", j);
++					break;
++				}
++			}
++		}
++	}
++
++	RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "TDLS CH SW On", (ATOMIC_READ(&ptdlsinfo->chsw_info.chsw_on) == _TRUE) ? "_TRUE" : "_FALSE");
++	RTW_PRINT_SEL(m, "%-*s = %d\n", SpaceBtwnItemAndValue, "TDLS CH SW Off-Channel Num", ptdlsinfo->chsw_info.off_ch_num);
++	RTW_PRINT_SEL(m, "%-*s = %d\n", SpaceBtwnItemAndValue, "TDLS CH SW Channel Offset", ptdlsinfo->chsw_info.ch_offset);
++	RTW_PRINT_SEL(m, "%-*s = %d\n", SpaceBtwnItemAndValue, "TDLS CH SW Current Time", ptdlsinfo->chsw_info.cur_time);
++	RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "TDLS CH SW Delay Switch Back", (ptdlsinfo->chsw_info.delay_switch_back == _TRUE) ? "_TRUE" : "_FALSE");
++	RTW_PRINT_SEL(m, "%-*s = %d\n", SpaceBtwnItemAndValue, "TDLS CH SW Dump Back", ptdlsinfo->chsw_info.dump_stack);
++#endif
++
++	RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "TDLS Device Discovered", (ptdlsinfo->dev_discovered == _TRUE) ? "_TRUE" : "_FALSE");
++	RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "TDLS Enable", (ptdlsinfo->tdls_enable == _TRUE) ? "_TRUE" : "_FALSE");
++	RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "TDLS Driver Setup", (ptdlsinfo->driver_setup == _TRUE) ? "_TRUE" : "_FALSE");
++
++	return 0;
++}
++
++static int proc_tdls_display_network_info(struct seq_file *m)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct wlan_network *cur_network = &(pmlmepriv->cur_network);
++	int i = 0;
++	u8 SpaceBtwnItemAndValue = TDLS_DBG_INFO_SPACE_BTWN_ITEM_AND_VALUE;
++
++	/* Display the linked AP/GO info */
++	RTW_PRINT_SEL(m, "============[Associated AP/GO Info]============\n");
++
++	if ((pmlmepriv->fw_state & WIFI_STATION_STATE) && (pmlmepriv->fw_state & _FW_LINKED)) {
++		RTW_PRINT_SEL(m, "%-*s = %s\n", SpaceBtwnItemAndValue, "BSSID", cur_network->network.Ssid.Ssid);
++		RTW_PRINT_SEL(m, "%-*s = "MAC_FMT"\n", SpaceBtwnItemAndValue, "Mac Address", MAC_ARG(cur_network->network.MacAddress));
++
++		RTW_PRINT_SEL(m, "%-*s = ", SpaceBtwnItemAndValue, "Wireless Mode");
++		for (i = 0; i < 8; i++) {
++			if (pmlmeext->cur_wireless_mode & BIT(i)) {
++				switch (BIT(i)) {
++				case WIRELESS_11B:
++					RTW_PRINT_SEL(m, "%4s", "11B ");
++					break;
++				case WIRELESS_11G:
++					RTW_PRINT_SEL(m, "%4s", "11G ");
++					break;
++				case WIRELESS_11A:
++					RTW_PRINT_SEL(m, "%4s", "11A ");
++					break;
++				case WIRELESS_11_24N:
++					RTW_PRINT_SEL(m, "%7s", "11_24N ");
++					break;
++				case WIRELESS_11_5N:
++					RTW_PRINT_SEL(m, "%6s", "11_5N ");
++					break;
++				case WIRELESS_AUTO:
++					RTW_PRINT_SEL(m, "%5s", "AUTO ");
++					break;
++				case WIRELESS_11AC:
++					RTW_PRINT_SEL(m, "%5s", "11AC ");
++					break;
++				}
++			}
++		}
++		RTW_PRINT_SEL(m, "\n");
++
++		RTW_PRINT_SEL(m, "%-*s = ", SpaceBtwnItemAndValue, "Privacy");
++		switch (padapter->securitypriv.dot11PrivacyAlgrthm) {
++		case _NO_PRIVACY_:
++			RTW_PRINT_SEL(m, "%s\n", "NO PRIVACY");
++			break;
++		case _WEP40_:
++			RTW_PRINT_SEL(m, "%s\n", "WEP 40");
++			break;
++		case _TKIP_:
++			RTW_PRINT_SEL(m, "%s\n", "TKIP");
++			break;
++		case _TKIP_WTMIC_:
++			RTW_PRINT_SEL(m, "%s\n", "TKIP WTMIC");
++			break;
++		case _AES_:
++			RTW_PRINT_SEL(m, "%s\n", "AES");
++			break;
++		case _WEP104_:
++			RTW_PRINT_SEL(m, "%s\n", "WEP 104");
++			break;
++		case _WEP_WPA_MIXED_:
++			RTW_PRINT_SEL(m, "%s\n", "WEP/WPA Mixed");
++			break;
++		case _SMS4_:
++			RTW_PRINT_SEL(m, "%s\n", "SMS4");
++			break;
++#ifdef CONFIG_IEEE80211W
++		case _BIP_:
++			RTW_PRINT_SEL(m, "%s\n", "BIP");
++			break;
++#endif /* CONFIG_IEEE80211W */
++		}
++
++		RTW_PRINT_SEL(m, "%-*s = %d\n", SpaceBtwnItemAndValue, "Channel", pmlmeext->cur_channel);
++		RTW_PRINT_SEL(m, "%-*s = ", SpaceBtwnItemAndValue, "Channel Offset");
++		switch (pmlmeext->cur_ch_offset) {
++		case HAL_PRIME_CHNL_OFFSET_DONT_CARE:
++			RTW_PRINT_SEL(m, "%s\n", "N/A");
++			break;
++		case HAL_PRIME_CHNL_OFFSET_LOWER:
++			RTW_PRINT_SEL(m, "%s\n", "Lower");
++			break;
++		case HAL_PRIME_CHNL_OFFSET_UPPER:
++			RTW_PRINT_SEL(m, "%s\n", "Upper");
++			break;
++		}
++
++		RTW_PRINT_SEL(m, "%-*s = ", SpaceBtwnItemAndValue, "Bandwidth Mode");
++		switch (pmlmeext->cur_bwmode) {
++		case CHANNEL_WIDTH_20:
++			RTW_PRINT_SEL(m, "%s\n", "20MHz");
++			break;
++		case CHANNEL_WIDTH_40:
++			RTW_PRINT_SEL(m, "%s\n", "40MHz");
++			break;
++		case CHANNEL_WIDTH_80:
++			RTW_PRINT_SEL(m, "%s\n", "80MHz");
++			break;
++		case CHANNEL_WIDTH_160:
++			RTW_PRINT_SEL(m, "%s\n", "160MHz");
++			break;
++		case CHANNEL_WIDTH_80_80:
++			RTW_PRINT_SEL(m, "%s\n", "80MHz + 80MHz");
++			break;
++		}
++	} else
++		RTW_PRINT_SEL(m, "No association with AP/GO exists!\n");
++
++	return 0;
++}
++
++static int proc_tdls_display_tdls_sta_info(struct seq_file *m)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct sta_info *psta;
++	int i = 0, j = 0;
++	_irqL irqL;
++	_list	*plist, *phead;
++	u8 SpaceBtwnItemAndValue = TDLS_DBG_INFO_SPACE_BTWN_ITEM_AND_VALUE;
++	u8 SpaceBtwnItemAndValueTmp = 0;
++	u8 NumOfTdlsStaToShow = 0;
++	BOOLEAN FirstMatchFound = _FALSE;
++
++	/* Search for TDLS sta info to display */
++	_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++	for (i = 0; i < NUM_STA; i++) {
++		phead = &(pstapriv->sta_hash[i]);
++		plist = get_next(phead);
++		while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++			psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++			plist = get_next(plist);
++			if (psta->tdls_sta_state != TDLS_STATE_NONE) {
++				/* We got one TDLS sta info to show */
++				RTW_PRINT_SEL(m, "============[TDLS Peer STA Info: STA %d]============\n", ++NumOfTdlsStaToShow);
++				RTW_PRINT_SEL(m, "%-*s = "MAC_FMT"\n", SpaceBtwnItemAndValue, "Mac Address", MAC_ARG(psta->hwaddr));
++				RTW_PRINT_SEL(m, "%-*s =", SpaceBtwnItemAndValue, "TDLS STA State");
++				SpaceBtwnItemAndValueTmp = 0;
++				FirstMatchFound = _FALSE;
++				for (j = 0; j < 32; j++) {
++					if (psta->tdls_sta_state & BIT(j)) {
++						if (FirstMatchFound ==  _FALSE) {
++							SpaceBtwnItemAndValueTmp = 1;
++							FirstMatchFound = _TRUE;
++						} else
++							SpaceBtwnItemAndValueTmp = SpaceBtwnItemAndValue + 3;
++						switch (BIT(j)) {
++						case TDLS_INITIATOR_STATE:
++							RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_INITIATOR_STATE");
++							break;
++						case TDLS_RESPONDER_STATE:
++							RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_RESPONDER_STATE");
++							break;
++						case TDLS_LINKED_STATE:
++							RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_LINKED_STATE");
++							break;
++						case TDLS_WAIT_PTR_STATE:
++							RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_WAIT_PTR_STATE");
++							break;
++						case TDLS_ALIVE_STATE:
++							RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_ALIVE_STATE");
++							break;
++						case TDLS_CH_SWITCH_ON_STATE:
++							RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_CH_SWITCH_ON_STATE");
++							break;
++						case TDLS_PEER_AT_OFF_STATE:
++							RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_PEER_AT_OFF_STATE");
++							break;
++						case TDLS_CH_SW_INITIATOR_STATE:
++							RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValueTmp, " ", "TDLS_CH_SW_INITIATOR_STATE");
++							break;
++						case TDLS_WAIT_CH_RSP_STATE:
++							RTW_PRINT_SEL(m, "%-*s%s\n", SpaceBtwnItemAndValue, " ", "TDLS_WAIT_CH_RSP_STATE");
++							break;
++						default:
++							RTW_PRINT_SEL(m, "%-*sBIT(%d)\n", SpaceBtwnItemAndValueTmp, " ", j);
++							break;
++						}
++					}
++				}
++
++				RTW_PRINT_SEL(m, "%-*s = ", SpaceBtwnItemAndValue, "Wireless Mode");
++				for (j = 0; j < 8; j++) {
++					if (psta->wireless_mode & BIT(j)) {
++						switch (BIT(j)) {
++						case WIRELESS_11B:
++							RTW_PRINT_SEL(m, "%4s", "11B ");
++							break;
++						case WIRELESS_11G:
++							RTW_PRINT_SEL(m, "%4s", "11G ");
++							break;
++						case WIRELESS_11A:
++							RTW_PRINT_SEL(m, "%4s", "11A ");
++							break;
++						case WIRELESS_11_24N:
++							RTW_PRINT_SEL(m, "%7s", "11_24N ");
++							break;
++						case WIRELESS_11_5N:
++							RTW_PRINT_SEL(m, "%6s", "11_5N ");
++							break;
++						case WIRELESS_AUTO:
++							RTW_PRINT_SEL(m, "%5s", "AUTO ");
++							break;
++						case WIRELESS_11AC:
++							RTW_PRINT_SEL(m, "%5s", "11AC ");
++							break;
++						}
++					}
++				}
++				RTW_PRINT_SEL(m, "\n");
++
++				RTW_PRINT_SEL(m, "%-*s = ", SpaceBtwnItemAndValue, "Bandwidth Mode");
++				switch (psta->bw_mode) {
++				case CHANNEL_WIDTH_20:
++					RTW_PRINT_SEL(m, "%s\n", "20MHz");
++					break;
++				case CHANNEL_WIDTH_40:
++					RTW_PRINT_SEL(m, "%s\n", "40MHz");
++					break;
++				case CHANNEL_WIDTH_80:
++					RTW_PRINT_SEL(m, "%s\n", "80MHz");
++					break;
++				case CHANNEL_WIDTH_160:
++					RTW_PRINT_SEL(m, "%s\n", "160MHz");
++					break;
++				case CHANNEL_WIDTH_80_80:
++					RTW_PRINT_SEL(m, "%s\n", "80MHz + 80MHz");
++					break;
++				}
++
++				RTW_PRINT_SEL(m, "%-*s = ", SpaceBtwnItemAndValue, "Privacy");
++				switch (psta->dot118021XPrivacy) {
++				case _NO_PRIVACY_:
++					RTW_PRINT_SEL(m, "%s\n", "NO PRIVACY");
++					break;
++				case _WEP40_:
++					RTW_PRINT_SEL(m, "%s\n", "WEP 40");
++					break;
++				case _TKIP_:
++					RTW_PRINT_SEL(m, "%s\n", "TKIP");
++					break;
++				case _TKIP_WTMIC_:
++					RTW_PRINT_SEL(m, "%s\n", "TKIP WTMIC");
++					break;
++				case _AES_:
++					RTW_PRINT_SEL(m, "%s\n", "AES");
++					break;
++				case _WEP104_:
++					RTW_PRINT_SEL(m, "%s\n", "WEP 104");
++					break;
++				case _WEP_WPA_MIXED_:
++					RTW_PRINT_SEL(m, "%s\n", "WEP/WPA Mixed");
++					break;
++				case _SMS4_:
++					RTW_PRINT_SEL(m, "%s\n", "SMS4");
++					break;
++#ifdef CONFIG_IEEE80211W
++				case _BIP_:
++					RTW_PRINT_SEL(m, "%s\n", "BIP");
++					break;
++#endif /* CONFIG_IEEE80211W */
++				}
++
++				RTW_PRINT_SEL(m, "%-*s = %d sec/%d sec\n", SpaceBtwnItemAndValue, "TPK Lifetime (Current/Expire)", psta->TPK_count, psta->TDLS_PeerKey_Lifetime);
++				RTW_PRINT_SEL(m, "%-*s = %llu\n", SpaceBtwnItemAndValue, "Tx Packets Over Direct Link", psta->sta_stats.tx_pkts);
++				RTW_PRINT_SEL(m, "%-*s = %llu\n", SpaceBtwnItemAndValue, "Rx Packets Over Direct Link", psta->sta_stats.rx_data_pkts);
++			}
++		}
++	}
++	_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++	if (NumOfTdlsStaToShow == 0) {
++		RTW_PRINT_SEL(m, "============[TDLS Peer STA Info]============\n");
++		RTW_PRINT_SEL(m, "No TDLS direct link exists!\n");
++	}
++
++	return 0;
++}
++
++int proc_get_tdls_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct wlan_network *cur_network = &(pmlmepriv->cur_network);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct sta_info *psta;
++	int i = 0, j = 0;
++	_irqL irqL;
++	_list	*plist, *phead;
++	u8 SpaceBtwnItemAndValue = 41;
++	u8 SpaceBtwnItemAndValueTmp = 0;
++	u8 NumOfTdlsStaToShow = 0;
++	BOOLEAN FirstMatchFound = _FALSE;
++
++	if (hal_chk_wl_func(padapter, WL_FUNC_TDLS) == _FALSE) {
++		RTW_PRINT_SEL(m, "No tdls info can be shown since hal doesn't support tdls\n");
++		return 0;
++	}
++
++	proc_tdls_display_tdls_function_info(m);
++	proc_tdls_display_network_info(m);
++	proc_tdls_display_tdls_sta_info(m);
++
++	return 0;
++}
++#endif
++
++int proc_get_monitor(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	if (WIFI_MONITOR_STATE == get_fwstate(pmlmepriv)) {
++		RTW_PRINT_SEL(m, "Monitor mode : Enable\n");
++
++		RTW_PRINT_SEL(m, "ch=%d, ch_offset=%d, bw=%d\n",
++			rtw_get_oper_ch(padapter), rtw_get_oper_choffset(padapter), rtw_get_oper_bw(padapter));
++	} else
++		RTW_PRINT_SEL(m, "Monitor mode : Disable\n");
++
++	return 0;
++}
++
++ssize_t proc_set_monitor(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	char tmp[32];
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 target_chan, target_offset, target_bw;
++
++	if (count < 3) {
++		RTW_INFO("argument size is less than 3\n");
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%hhu %hhu %hhu", &target_chan, &target_offset, &target_bw);
++
++		if (num != 3) {
++			RTW_INFO("invalid write_reg parameter!\n");
++			return count;
++		}
++
++		padapter->mlmeextpriv.cur_channel  = target_chan;
++		set_channel_bwmode(padapter, target_chan, target_offset, target_bw);
++	}
++
++	return count;
++}
++
++#include <hal_data.h>
++int proc_get_efuse_map(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++	struct pwrctrl_priv *pwrctrlpriv  = adapter_to_pwrctl(padapter);
++	PEFUSE_HAL pEfuseHal = &pHalData->EfuseHal;
++	int i, j;
++	u8 ips_mode = IPS_NUM;
++	u16 mapLen;
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (void *)&mapLen, _FALSE);
++	if (mapLen > EFUSE_MAX_MAP_LEN)
++		mapLen = EFUSE_MAX_MAP_LEN;
++
++	ips_mode = pwrctrlpriv->ips_mode;
++	rtw_pm_set_ips(padapter, IPS_NONE);
++	if (rtw_efuse_map_read(padapter, 0, mapLen, pEfuseHal->fakeEfuseInitMap) == _FAIL)
++		RTW_PRINT_SEL(m, "WARN - Read Realmap Failed\n");
++
++	RTW_PRINT_SEL(m, "\n");
++	for (i = 0; i < mapLen; i += 16) {
++		RTW_PRINT_SEL(m, "0x%02x\t", i);
++		for (j = 0; j < 8; j++)
++			RTW_PRINT_SEL(m, "%02X ", pEfuseHal->fakeEfuseInitMap[i + j]);
++
++		RTW_PRINT_SEL(m, "\t");
++
++		for (; j < 16; j++)
++			RTW_PRINT_SEL(m, "%02X ", pEfuseHal->fakeEfuseInitMap[i + j]);
++
++		RTW_PRINT_SEL(m, "\n");
++
++	}
++	rtw_pm_set_ips(padapter, ips_mode);
++	return 0;
++}
++
++ssize_t proc_set_efuse_map(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++#if 0
++	char tmp[256] = {0};
++	u32 addr, cnts;
++	u8 efuse_data;
++
++	int jj, kk;
++
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrctrlpriv  = adapter_to_pwrctl(padapter);
++	u8 ips_mode = IPS_NUM;
++
++	if (count < 3) {
++		RTW_INFO("argument size is less than 3\n");
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%x %d %x", &addr, &cnts, &efuse_data);
++
++		if (num != 3) {
++			RTW_INFO("invalid write_reg parameter!\n");
++			return count;
++		}
++	}
++	ips_mode = pwrctrlpriv->ips_mode;
++	rtw_pm_set_ips(padapter, IPS_NONE);
++	if (rtw_efuse_map_write(padapter, addr, cnts, &efuse_data) == _FAIL)
++		RTW_INFO("WARN - rtw_efuse_map_write error!!\n");
++	rtw_pm_set_ips(padapter, ips_mode);
++#endif
++	return count;
++}
++
++#ifdef CONFIG_IEEE80211W
++ssize_t proc_set_tx_sa_query(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	struct sta_info *psta;
++	_list	*plist, *phead;
++	_irqL	 irqL;
++	char tmp[16];
++	u8	mac_addr[NUM_STA][ETH_ALEN];
++	u32 key_type;
++	u8 index;
++
++	if (count > 2) {
++		RTW_INFO("argument size is more than 2\n");
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, sizeof(tmp))) {
++
++		int num = sscanf(tmp, "%x", &key_type);
++
++		if (num !=  1) {
++			RTW_INFO("invalid read_reg parameter!\n");
++			return count;
++		}
++		RTW_INFO("0: set sa query request , key_type=%d\n", key_type);
++	}
++
++	if ((check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++	    && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) && padapter->securitypriv.binstallBIPkey == _TRUE) {
++		RTW_INFO("STA:"MAC_FMT"\n", MAC_ARG(get_my_bssid(&(pmlmeinfo->network))));
++		/* TX unicast sa_query to AP */
++		issue_action_SA_Query(padapter, get_my_bssid(&(pmlmeinfo->network)), 0, 0, (u8)key_type);
++	} else if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE && padapter->securitypriv.binstallBIPkey == _TRUE) {
++		/* TX unicast sa_query to every client STA */
++		_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++		for (index = 0; index < NUM_STA; index++) {
++			psta = NULL;
++
++			phead = &(pstapriv->sta_hash[index]);
++			plist = get_next(phead);
++
++			while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++				psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++				plist = get_next(plist);
++				_rtw_memcpy(&mac_addr[psta->mac_id][0], psta->hwaddr, ETH_ALEN);
++			}
++		}
++		_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++		for (index = 0; index < macid_ctl->num && index < NUM_STA; index++) {
++			if (rtw_macid_is_used(macid_ctl, index) && !rtw_macid_is_bmc(macid_ctl, index)) {
++				if (!_rtw_memcmp(get_my_bssid(&(pmlmeinfo->network)), &mac_addr[index][0], ETH_ALEN)
++				    && !IS_MCAST(&mac_addr[index][0])) {
++					issue_action_SA_Query(padapter, &mac_addr[index][0], 0, 0, (u8)key_type);
++					RTW_INFO("STA[%u]:"MAC_FMT"\n", index , MAC_ARG(&mac_addr[index][0]));
++				}
++			}
++		}
++	}
++
++	return count;
++}
++
++int proc_get_tx_sa_query(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT_SEL(m, "%s\n", __func__);
++	return 0;
++}
++
++ssize_t proc_set_tx_deauth(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	struct sta_info *psta;
++	_list	*plist, *phead;
++	_irqL	 irqL;
++	char tmp[16];
++	u8	mac_addr[NUM_STA][ETH_ALEN];
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u32 key_type;
++	u8 index;
++
++
++	if (count > 2) {
++		RTW_INFO("argument size is more than 2\n");
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, sizeof(tmp))) {
++
++		int num = sscanf(tmp, "%x", &key_type);
++
++		if (num !=  1) {
++			RTW_INFO("invalid read_reg parameter!\n");
++			return count;
++		}
++		RTW_INFO("key_type=%d\n", key_type);
++	}
++	if (key_type < 0 || key_type > 4)
++		return count;
++
++	if ((check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++	    && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)) {
++		if (key_type == 3) /* key_type 3 only for AP mode */
++			return count;
++		/* TX unicast deauth to AP */
++		issue_deauth_11w(padapter, get_my_bssid(&(pmlmeinfo->network)), 0, (u8)key_type);
++	} else if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++
++		if (key_type == 3)
++			issue_deauth_11w(padapter, bc_addr, 0, IEEE80211W_RIGHT_KEY);
++
++		/* TX unicast deauth to every client STA */
++		_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++		for (index = 0; index < NUM_STA; index++) {
++			psta = NULL;
++
++			phead = &(pstapriv->sta_hash[index]);
++			plist = get_next(phead);
++
++			while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++				psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++				plist = get_next(plist);
++				_rtw_memcpy(&mac_addr[psta->mac_id][0], psta->hwaddr, ETH_ALEN);
++			}
++		}
++		_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++		for (index = 0; index < macid_ctl->num && index < NUM_STA; index++) {
++			if (rtw_macid_is_used(macid_ctl, index) && !rtw_macid_is_bmc(macid_ctl, index)) {
++				if (!_rtw_memcmp(get_my_bssid(&(pmlmeinfo->network)), &mac_addr[index][0], ETH_ALEN)) {
++					if (key_type != 3)
++						issue_deauth_11w(padapter, &mac_addr[index][0], 0, (u8)key_type);
++
++					psta = rtw_get_stainfo(pstapriv, &mac_addr[index][0]);
++					if (psta && key_type != IEEE80211W_WRONG_KEY && key_type != IEEE80211W_NO_KEY) {
++						u8 updated = _FALSE;
++
++						_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++						if (rtw_is_list_empty(&psta->asoc_list) == _FALSE) {
++							rtw_list_delete(&psta->asoc_list);
++							pstapriv->asoc_list_cnt--;
++							updated = ap_free_sta(padapter, psta, _FALSE, WLAN_REASON_PREV_AUTH_NOT_VALID, _TRUE);
++
++						}
++						_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++						associated_clients_update(padapter, updated, STA_INFO_UPDATE_ALL);
++					}
++
++					RTW_INFO("STA[%u]:"MAC_FMT"\n", index , MAC_ARG(&mac_addr[index][0]));
++				}
++			}
++		}
++	}
++
++	return count;
++}
++
++int proc_get_tx_deauth(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT_SEL(m, "%s\n", __func__);
++	return 0;
++}
++
++ssize_t proc_set_tx_auth(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	struct sta_info *psta;
++	_list	*plist, *phead;
++	_irqL	 irqL;
++	char tmp[16];
++	u8	mac_addr[NUM_STA][ETH_ALEN];
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u32 tx_auth;
++	u8 index;
++
++
++	if (count > 2) {
++		RTW_INFO("argument size is more than 2\n");
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, sizeof(tmp))) {
++
++		int num = sscanf(tmp, "%x", &tx_auth);
++
++		if (num !=  1) {
++			RTW_INFO("invalid read_reg parameter!\n");
++			return count;
++		}
++		RTW_INFO("1: setnd auth, 2: send assoc request. tx_auth=%d\n", tx_auth);
++	}
++
++	if ((check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++	    && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)) {
++		if (tx_auth == 1) {
++			/* TX unicast auth to AP */
++			issue_auth(padapter, NULL, 0);
++		} else if (tx_auth == 2) {
++			/* TX unicast auth to AP */
++			issue_assocreq(padapter);
++		}
++	}
++
++	return count;
++}
++
++int proc_get_tx_auth(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT_SEL(m, "%s\n", __func__);
++	return 0;
++}
++#endif /* CONFIG_IEEE80211W */
++
++#ifdef CONFIG_MCC_MODE
++int proc_get_mcc_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_adapters_status(m, adapter_to_dvobj(adapter));
++	rtw_hal_dump_mcc_info(m, adapter_to_dvobj(adapter));
++	return 0;
++}
++
++ssize_t proc_set_mcc_enable(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[255];
++	u32 en_mcc = 0;
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is too large\n", FUNC_ADPT_ARG(padapter));
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++		_adapter *iface = NULL;
++		u8 i = 0;
++		int num = sscanf(tmp, "%u", &en_mcc);
++
++		if (num < 1) {
++			RTW_INFO(FUNC_ADPT_FMT ": input parameters < 1\n", FUNC_ADPT_ARG(padapter));
++			return -EINVAL;
++		}
++
++		RTW_INFO("%s: en_mcc = %d\n", __func__, en_mcc);
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if (!iface)
++				continue;
++			iface->registrypriv.en_mcc = en_mcc;
++		}
++	}
++
++	return count;
++}
++
++ssize_t proc_set_mcc_single_tx_criteria(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[255];
++	u32 mcc_single_tx_criteria = 0;
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is too large\n", FUNC_ADPT_ARG(padapter));
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++		_adapter *iface = NULL;
++		u8 i = 0;
++		int num = sscanf(tmp, "%u", &mcc_single_tx_criteria);
++
++		if (num < 1) {
++			RTW_INFO(FUNC_ADPT_FMT ": input parameters < 1\n", FUNC_ADPT_ARG(padapter));
++			return -EINVAL;
++		}
++
++		RTW_INFO("%s: mcc_single_tx_criteria = %d\n", __func__, mcc_single_tx_criteria);
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if (!iface)
++				continue;
++			iface->registrypriv.rtw_mcc_single_tx_cri = mcc_single_tx_criteria;
++		}
++
++
++	}
++
++	return count;
++}
++
++
++ssize_t proc_set_mcc_ap_bw20_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[255];
++	u32 mcc_ap_bw20_target_tp = 0;
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is too large\n", FUNC_ADPT_ARG(padapter));
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%u", &mcc_ap_bw20_target_tp);
++
++		if (num < 1) {
++			RTW_INFO(FUNC_ADPT_FMT ": input parameters < 1\n", FUNC_ADPT_ARG(padapter));
++			return -EINVAL;
++		}
++
++		RTW_INFO("%s: mcc_ap_bw20_target_tp = %d\n", __func__, mcc_ap_bw20_target_tp);
++
++		padapter->registrypriv.rtw_mcc_ap_bw20_target_tx_tp = mcc_ap_bw20_target_tp;
++
++
++	}
++
++	return count;
++}
++
++ssize_t proc_set_mcc_ap_bw40_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[255];
++	u32 mcc_ap_bw40_target_tp = 0;
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is too large\n", FUNC_ADPT_ARG(padapter));
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%u", &mcc_ap_bw40_target_tp);
++
++		if (num < 1) {
++			RTW_INFO(FUNC_ADPT_FMT ": input parameters < 1\n", FUNC_ADPT_ARG(padapter));
++			return -EINVAL;
++		}
++
++		RTW_INFO("%s: mcc_ap_bw40_target_tp = %d\n", __func__, mcc_ap_bw40_target_tp);
++
++		padapter->registrypriv.rtw_mcc_ap_bw40_target_tx_tp = mcc_ap_bw40_target_tp;
++
++
++	}
++
++	return count;
++}
++
++ssize_t proc_set_mcc_ap_bw80_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[255];
++	u32 mcc_ap_bw80_target_tp = 0;
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is too large\n", FUNC_ADPT_ARG(padapter));
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%u", &mcc_ap_bw80_target_tp);
++
++		if (num < 1) {
++			RTW_INFO(FUNC_ADPT_FMT ": input parameters < 1\n", FUNC_ADPT_ARG(padapter));
++			return -EINVAL;
++		}
++
++		RTW_INFO("%s: mcc_ap_bw80_target_tp = %d\n", __func__, mcc_ap_bw80_target_tp);
++
++		padapter->registrypriv.rtw_mcc_ap_bw80_target_tx_tp = mcc_ap_bw80_target_tp;
++
++
++	}
++
++	return count;
++}
++
++ssize_t proc_set_mcc_sta_bw20_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[255];
++	u32 mcc_sta_bw20_target_tp = 0;
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is too large\n", FUNC_ADPT_ARG(padapter));
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%u", &mcc_sta_bw20_target_tp);
++
++		if (num < 1) {
++			RTW_INFO(FUNC_ADPT_FMT ": input parameters < 1\n", FUNC_ADPT_ARG(padapter));
++			return -EINVAL;
++		}
++
++		RTW_INFO("%s: mcc_sta_bw20_target_tp = %d\n", __func__, mcc_sta_bw20_target_tp);
++
++		padapter->registrypriv.rtw_mcc_sta_bw20_target_tx_tp = mcc_sta_bw20_target_tp;
++
++
++	}
++
++	return count;
++}
++
++ssize_t proc_set_mcc_sta_bw40_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[255];
++	u32 mcc_sta_bw40_target_tp = 0;
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is too large\n", FUNC_ADPT_ARG(padapter));
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%u", &mcc_sta_bw40_target_tp);
++
++		if (num < 1) {
++			RTW_INFO(FUNC_ADPT_FMT ": input parameters < 1\n", FUNC_ADPT_ARG(padapter));
++			return -EINVAL;
++		}
++
++		RTW_INFO("%s: mcc_sta_bw40_target_tp = %d\n", __func__, mcc_sta_bw40_target_tp);
++
++		padapter->registrypriv.rtw_mcc_sta_bw40_target_tx_tp = mcc_sta_bw40_target_tp;
++
++
++	}
++
++	return count;
++}
++
++ssize_t proc_set_mcc_sta_bw80_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[255];
++	u32 mcc_sta_bw80_target_tp = 0;
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n", FUNC_ADPT_ARG(padapter));
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is too large\n", FUNC_ADPT_ARG(padapter));
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%u", &mcc_sta_bw80_target_tp);
++
++		if (num < 1) {
++			RTW_INFO(FUNC_ADPT_FMT ": input parameters < 1\n", FUNC_ADPT_ARG(padapter));
++			return -EINVAL;
++		}
++
++		RTW_INFO("%s: mcc_sta_bw80_target_tp = %d\n", __func__, mcc_sta_bw80_target_tp);
++
++		padapter->registrypriv.rtw_mcc_sta_bw80_target_tx_tp = mcc_sta_bw80_target_tp;
++
++
++	}
++
++	return count;
++}
++#endif /* CONFIG_MCC_MODE */
++
++#endif /* CONFIG_PROC_DEBUG */
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_eeprom.c b/drivers/net/wireless/rtl8812au/core/rtw_eeprom.c
+new file mode 100644
+index 0000000..d7bca03
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_eeprom.c
+@@ -0,0 +1,374 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_EEPROM_C_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++void up_clk(_adapter	*padapter,	 u16 *x)
++{
++	*x = *x | _EESK;
++	rtw_write8(padapter, EE_9346CR, (u8)*x);
++	rtw_udelay_os(CLOCK_RATE);
++
++
++}
++
++void down_clk(_adapter	*padapter, u16 *x)
++{
++	*x = *x & ~_EESK;
++	rtw_write8(padapter, EE_9346CR, (u8)*x);
++	rtw_udelay_os(CLOCK_RATE);
++}
++
++void shift_out_bits(_adapter *padapter, u16 data, u16 count)
++{
++	u16 x, mask;
++
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++	mask = 0x01 << (count - 1);
++	x = rtw_read8(padapter, EE_9346CR);
++
++	x &= ~(_EEDO | _EEDI);
++
++	do {
++		x &= ~_EEDI;
++		if (data & mask)
++			x |= _EEDI;
++		if (rtw_is_surprise_removed(padapter)) {
++			goto out;
++		}
++		rtw_write8(padapter, EE_9346CR, (u8)x);
++		rtw_udelay_os(CLOCK_RATE);
++		up_clk(padapter, &x);
++		down_clk(padapter, &x);
++		mask = mask >> 1;
++	} while (mask);
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++	x &= ~_EEDI;
++	rtw_write8(padapter, EE_9346CR, (u8)x);
++out:
++	return;
++}
++
++u16 shift_in_bits(_adapter *padapter)
++{
++	u16 x, d = 0, i;
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++	x = rtw_read8(padapter, EE_9346CR);
++
++	x &= ~(_EEDO | _EEDI);
++	d = 0;
++
++	for (i = 0; i < 16; i++) {
++		d = d << 1;
++		up_clk(padapter, &x);
++		if (rtw_is_surprise_removed(padapter)) {
++			goto out;
++		}
++		x = rtw_read8(padapter, EE_9346CR);
++
++		x &= ~(_EEDI);
++		if (x & _EEDO)
++			d |= 1;
++
++		down_clk(padapter, &x);
++	}
++out:
++
++	return d;
++}
++
++void standby(_adapter	*padapter)
++{
++	u8   x;
++	x = rtw_read8(padapter, EE_9346CR);
++
++	x &= ~(_EECS | _EESK);
++	rtw_write8(padapter, EE_9346CR, x);
++
++	rtw_udelay_os(CLOCK_RATE);
++	x |= _EECS;
++	rtw_write8(padapter, EE_9346CR, x);
++	rtw_udelay_os(CLOCK_RATE);
++}
++
++u16 wait_eeprom_cmd_done(_adapter *padapter)
++{
++	u8	x;
++	u16	i, res = _FALSE;
++	standby(padapter);
++	for (i = 0; i < 200; i++) {
++		x = rtw_read8(padapter, EE_9346CR);
++		if (x & _EEDO) {
++			res = _TRUE;
++			goto exit;
++		}
++		rtw_udelay_os(CLOCK_RATE);
++	}
++exit:
++	return res;
++}
++
++void eeprom_clean(_adapter *padapter)
++{
++	u16 x;
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++	x = rtw_read8(padapter, EE_9346CR);
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++	x &= ~(_EECS | _EEDI);
++	rtw_write8(padapter, EE_9346CR, (u8)x);
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++	up_clk(padapter, &x);
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++	down_clk(padapter, &x);
++out:
++	return;
++}
++
++void eeprom_write16(_adapter *padapter, u16 reg, u16 data)
++{
++	u8 x;
++#ifdef CONFIG_RTL8712
++	u8	tmp8_ori, tmp8_new, tmp8_clk_ori, tmp8_clk_new;
++	tmp8_ori = rtw_read8(padapter, 0x102502f1);
++	tmp8_new = tmp8_ori & 0xf7;
++	if (tmp8_ori != tmp8_new) {
++		rtw_write8(padapter, 0x102502f1, tmp8_new);
++	}
++	tmp8_clk_ori = rtw_read8(padapter, 0x10250003);
++	tmp8_clk_new = tmp8_clk_ori | 0x20;
++	if (tmp8_clk_new != tmp8_clk_ori) {
++		rtw_write8(padapter, 0x10250003, tmp8_clk_new);
++	}
++#endif
++
++	x = rtw_read8(padapter, EE_9346CR);
++
++	x &= ~(_EEDI | _EEDO | _EESK | _EEM0);
++	x |= _EEM1 | _EECS;
++	rtw_write8(padapter, EE_9346CR, x);
++
++	shift_out_bits(padapter, EEPROM_EWEN_OPCODE, 5);
++
++	if (padapter->EepromAddressSize == 8)	/* CF+ and SDIO */
++		shift_out_bits(padapter, 0, 6);
++	else									/* USB */
++		shift_out_bits(padapter, 0, 4);
++
++	standby(padapter);
++
++	/* Commented out by rcnjko, 2004.0
++	 * 	  Erase this particular word.  Write the erase opcode and register
++	 *    number in that order. The opcode is 3bits in length; reg is 6 bits long. */
++/*	shift_out_bits(Adapter, EEPROM_ERASE_OPCODE, 3);
++ *	shift_out_bits(Adapter, reg, Adapter->EepromAddressSize);
++ *
++ *	if (wait_eeprom_cmd_done(Adapter ) == FALSE)
++ *	{
++ *		return;
++ *	} */
++
++
++	standby(padapter);
++
++	/* write the new word to the EEPROM */
++
++	/* send the write opcode the EEPORM */
++	shift_out_bits(padapter, EEPROM_WRITE_OPCODE, 3);
++
++	/* select which word in the EEPROM that we are writing to. */
++	shift_out_bits(padapter, reg, padapter->EepromAddressSize);
++
++	/* write the data to the selected EEPROM word. */
++	shift_out_bits(padapter, data, 16);
++
++	if (wait_eeprom_cmd_done(padapter) == _FALSE)
++
++		goto exit;
++
++	standby(padapter);
++
++	shift_out_bits(padapter, EEPROM_EWDS_OPCODE, 5);
++	shift_out_bits(padapter, reg, 4);
++
++	eeprom_clean(padapter);
++exit:
++#ifdef CONFIG_RTL8712
++	if (tmp8_clk_new != tmp8_clk_ori)
++		rtw_write8(padapter, 0x10250003, tmp8_clk_ori);
++	if (tmp8_new != tmp8_ori)
++		rtw_write8(padapter, 0x102502f1, tmp8_ori);
++
++#endif
++	return;
++}
++
++u16 eeprom_read16(_adapter *padapter, u16 reg)  /* ReadEEprom */
++{
++
++	u16 x;
++	u16 data = 0;
++#ifdef CONFIG_RTL8712
++	u8	tmp8_ori, tmp8_new, tmp8_clk_ori, tmp8_clk_new;
++	tmp8_ori = rtw_read8(padapter, 0x102502f1);
++	tmp8_new = tmp8_ori & 0xf7;
++	if (tmp8_ori != tmp8_new) {
++		rtw_write8(padapter, 0x102502f1, tmp8_new);
++	}
++	tmp8_clk_ori = rtw_read8(padapter, 0x10250003);
++	tmp8_clk_new = tmp8_clk_ori | 0x20;
++	if (tmp8_clk_new != tmp8_clk_ori) {
++		rtw_write8(padapter, 0x10250003, tmp8_clk_new);
++	}
++#endif
++
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++	/* select EEPROM, reset bits, set _EECS */
++	x = rtw_read8(padapter, EE_9346CR);
++
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++
++	x &= ~(_EEDI | _EEDO | _EESK | _EEM0);
++	x |= _EEM1 | _EECS;
++	rtw_write8(padapter, EE_9346CR, (unsigned char)x);
++
++	/* write the read opcode and register number in that order */
++	/* The opcode is 3bits in length, reg is 6 bits long */
++	shift_out_bits(padapter, EEPROM_READ_OPCODE, 3);
++	shift_out_bits(padapter, reg, padapter->EepromAddressSize);
++
++	/* Now read the data (16 bits) in from the selected EEPROM word */
++	data = shift_in_bits(padapter);
++
++	eeprom_clean(padapter);
++out:
++#ifdef CONFIG_RTL8712
++	if (tmp8_clk_new != tmp8_clk_ori)
++		rtw_write8(padapter, 0x10250003, tmp8_clk_ori);
++	if (tmp8_new != tmp8_ori)
++		rtw_write8(padapter, 0x102502f1, tmp8_ori);
++
++#endif
++	return data;
++
++
++}
++
++
++
++
++/* From even offset */
++void eeprom_read_sz(_adapter *padapter, u16 reg, u8 *data, u32 sz)
++{
++
++	u16 x, data16;
++	u32 i;
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++	/* select EEPROM, reset bits, set _EECS */
++	x = rtw_read8(padapter, EE_9346CR);
++
++	if (rtw_is_surprise_removed(padapter)) {
++		goto out;
++	}
++
++	x &= ~(_EEDI | _EEDO | _EESK | _EEM0);
++	x |= _EEM1 | _EECS;
++	rtw_write8(padapter, EE_9346CR, (unsigned char)x);
++
++	/* write the read opcode and register number in that order */
++	/* The opcode is 3bits in length, reg is 6 bits long */
++	shift_out_bits(padapter, EEPROM_READ_OPCODE, 3);
++	shift_out_bits(padapter, reg, padapter->EepromAddressSize);
++
++
++	for (i = 0; i < sz; i += 2) {
++		data16 = shift_in_bits(padapter);
++		data[i] = data16 & 0xff;
++		data[i + 1] = data16 >> 8;
++	}
++
++	eeprom_clean(padapter);
++out:
++	return;
++}
++
++
++/* addr_off : address offset of the entry in eeprom (not the tuple number of eeprom (reg); that is addr_off !=reg) */
++u8 eeprom_read(_adapter *padapter, u32 addr_off, u8 sz, u8 *rbuf)
++{
++	u8 quotient, remainder, addr_2align_odd;
++	u16 reg, stmp , i = 0, idx = 0;
++	reg = (u16)(addr_off >> 1);
++	addr_2align_odd = (u8)(addr_off & 0x1);
++
++	if (addr_2align_odd) { /* read that start at high part: e.g  1,3,5,7,9,... */
++		stmp = eeprom_read16(padapter, reg);
++		rbuf[idx++] = (u8)((stmp >> 8) & 0xff); /* return hogh-part of the short */
++		reg++;
++		sz--;
++	}
++
++	quotient = sz >> 1;
++	remainder = sz & 0x1;
++
++	for (i = 0 ; i < quotient; i++) {
++		stmp = eeprom_read16(padapter, reg + i);
++		rbuf[idx++] = (u8)(stmp & 0xff);
++		rbuf[idx++] = (u8)((stmp >> 8) & 0xff);
++	}
++
++	reg = reg + i;
++	if (remainder) { /* end of read at lower part of short : 0,2,4,6,... */
++		stmp = eeprom_read16(padapter, reg);
++		rbuf[idx] = (u8)(stmp & 0xff);
++	}
++	return _TRUE;
++}
++
++
++
++VOID read_eeprom_content(_adapter	*padapter)
++{
++
++
++
++}
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_ieee80211.c b/drivers/net/wireless/rtl8812au/core/rtw_ieee80211.c
+new file mode 100644
+index 0000000..e443945
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_ieee80211.c
+@@ -0,0 +1,2705 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _IEEE80211_C
++
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++	#include <linux/fs.h>
++#endif
++#include <drv_types.h>
++
++
++u8 RTW_WPA_OUI_TYPE[] = { 0x00, 0x50, 0xf2, 1 };
++u16 RTW_WPA_VERSION = 1;
++u8 WPA_AUTH_KEY_MGMT_NONE[] = { 0x00, 0x50, 0xf2, 0 };
++u8 WPA_AUTH_KEY_MGMT_UNSPEC_802_1X[] = { 0x00, 0x50, 0xf2, 1 };
++u8 WPA_AUTH_KEY_MGMT_PSK_OVER_802_1X[] = { 0x00, 0x50, 0xf2, 2 };
++u8 WPA_CIPHER_SUITE_NONE[] = { 0x00, 0x50, 0xf2, 0 };
++u8 WPA_CIPHER_SUITE_WEP40[] = { 0x00, 0x50, 0xf2, 1 };
++u8 WPA_CIPHER_SUITE_TKIP[] = { 0x00, 0x50, 0xf2, 2 };
++u8 WPA_CIPHER_SUITE_WRAP[] = { 0x00, 0x50, 0xf2, 3 };
++u8 WPA_CIPHER_SUITE_CCMP[] = { 0x00, 0x50, 0xf2, 4 };
++u8 WPA_CIPHER_SUITE_WEP104[] = { 0x00, 0x50, 0xf2, 5 };
++
++u16 RSN_VERSION_BSD = 1;
++u8 RSN_AUTH_KEY_MGMT_UNSPEC_802_1X[] = { 0x00, 0x0f, 0xac, 1 };
++u8 RSN_AUTH_KEY_MGMT_PSK_OVER_802_1X[] = { 0x00, 0x0f, 0xac, 2 };
++u8 RSN_CIPHER_SUITE_NONE[] = { 0x00, 0x0f, 0xac, 0 };
++u8 RSN_CIPHER_SUITE_WEP40[] = { 0x00, 0x0f, 0xac, 1 };
++u8 RSN_CIPHER_SUITE_TKIP[] = { 0x00, 0x0f, 0xac, 2 };
++u8 RSN_CIPHER_SUITE_WRAP[] = { 0x00, 0x0f, 0xac, 3 };
++u8 RSN_CIPHER_SUITE_CCMP[] = { 0x00, 0x0f, 0xac, 4 };
++u8 RSN_CIPHER_SUITE_WEP104[] = { 0x00, 0x0f, 0xac, 5 };
++/* -----------------------------------------------------------
++ * for adhoc-master to generate ie and provide supported-rate to fw
++ * ----------------------------------------------------------- */
++
++static u8	WIFI_CCKRATES[] = {
++	(IEEE80211_CCK_RATE_1MB | IEEE80211_BASIC_RATE_MASK),
++	(IEEE80211_CCK_RATE_2MB | IEEE80211_BASIC_RATE_MASK),
++	(IEEE80211_CCK_RATE_5MB | IEEE80211_BASIC_RATE_MASK),
++	(IEEE80211_CCK_RATE_11MB | IEEE80211_BASIC_RATE_MASK)
++};
++
++static u8	WIFI_OFDMRATES[] = {
++	(IEEE80211_OFDM_RATE_6MB),
++	(IEEE80211_OFDM_RATE_9MB),
++	(IEEE80211_OFDM_RATE_12MB),
++	(IEEE80211_OFDM_RATE_18MB),
++	(IEEE80211_OFDM_RATE_24MB),
++	IEEE80211_OFDM_RATE_36MB,
++	IEEE80211_OFDM_RATE_48MB,
++	IEEE80211_OFDM_RATE_54MB
++};
++
++u8 mgn_rates_cck[4] = {MGN_1M, MGN_2M, MGN_5_5M, MGN_11M};
++u8 mgn_rates_ofdm[8] = {MGN_6M, MGN_9M, MGN_12M, MGN_18M, MGN_24M, MGN_36M, MGN_48M, MGN_54M};
++u8 mgn_rates_mcs0_7[8] = {MGN_MCS0, MGN_MCS1, MGN_MCS2, MGN_MCS3, MGN_MCS4, MGN_MCS5, MGN_MCS6, MGN_MCS7};
++u8 mgn_rates_mcs8_15[8] = {MGN_MCS8, MGN_MCS9, MGN_MCS10, MGN_MCS11, MGN_MCS12, MGN_MCS13, MGN_MCS14, MGN_MCS15};
++u8 mgn_rates_mcs16_23[8] = {MGN_MCS16, MGN_MCS17, MGN_MCS18, MGN_MCS19, MGN_MCS20, MGN_MCS21, MGN_MCS22, MGN_MCS23};
++u8 mgn_rates_mcs24_31[8] = {MGN_MCS24, MGN_MCS25, MGN_MCS26, MGN_MCS27, MGN_MCS28, MGN_MCS29, MGN_MCS30, MGN_MCS31};
++u8 mgn_rates_vht1ss[10] = {MGN_VHT1SS_MCS0, MGN_VHT1SS_MCS1, MGN_VHT1SS_MCS2, MGN_VHT1SS_MCS3, MGN_VHT1SS_MCS4
++	, MGN_VHT1SS_MCS5, MGN_VHT1SS_MCS6, MGN_VHT1SS_MCS7, MGN_VHT1SS_MCS8, MGN_VHT1SS_MCS9
++			  };
++u8 mgn_rates_vht2ss[10] = {MGN_VHT2SS_MCS0, MGN_VHT2SS_MCS1, MGN_VHT2SS_MCS2, MGN_VHT2SS_MCS3, MGN_VHT2SS_MCS4
++	, MGN_VHT2SS_MCS5, MGN_VHT2SS_MCS6, MGN_VHT2SS_MCS7, MGN_VHT2SS_MCS8, MGN_VHT2SS_MCS9
++			  };
++u8 mgn_rates_vht3ss[10] = {MGN_VHT3SS_MCS0, MGN_VHT3SS_MCS1, MGN_VHT3SS_MCS2, MGN_VHT3SS_MCS3, MGN_VHT3SS_MCS4
++	, MGN_VHT3SS_MCS5, MGN_VHT3SS_MCS6, MGN_VHT3SS_MCS7, MGN_VHT3SS_MCS8, MGN_VHT3SS_MCS9
++			  };
++u8 mgn_rates_vht4ss[10] = {MGN_VHT4SS_MCS0, MGN_VHT4SS_MCS1, MGN_VHT4SS_MCS2, MGN_VHT4SS_MCS3, MGN_VHT4SS_MCS4
++	, MGN_VHT4SS_MCS5, MGN_VHT4SS_MCS6, MGN_VHT4SS_MCS7, MGN_VHT4SS_MCS8, MGN_VHT4SS_MCS9
++			  };
++
++static const char *const _rate_section_str[] = {
++	"CCK",
++	"OFDM",
++	"HT_1SS",
++	"HT_2SS",
++	"HT_3SS",
++	"HT_4SS",
++	"VHT_1SS",
++	"VHT_2SS",
++	"VHT_3SS",
++	"VHT_4SS",
++	"RATE_SECTION_UNKNOWN",
++};
++
++const char *rate_section_str(u8 section)
++{
++	section = (section >= RATE_SECTION_NUM) ? RATE_SECTION_NUM : section;
++	return _rate_section_str[section];
++}
++
++struct rate_section_ent rates_by_sections[RATE_SECTION_NUM] = {
++	{RF_1TX, 4, mgn_rates_cck},
++	{RF_1TX, 8, mgn_rates_ofdm},
++	{RF_1TX, 8, mgn_rates_mcs0_7},
++	{RF_2TX, 8, mgn_rates_mcs8_15},
++	{RF_3TX, 8, mgn_rates_mcs16_23},
++	{RF_4TX, 8, mgn_rates_mcs24_31},
++	{RF_1TX, 10, mgn_rates_vht1ss},
++	{RF_2TX, 10, mgn_rates_vht2ss},
++	{RF_3TX, 10, mgn_rates_vht3ss},
++	{RF_4TX, 10, mgn_rates_vht4ss},
++};
++
++int rtw_get_bit_value_from_ieee_value(u8 val)
++{
++	unsigned char dot11_rate_table[] = {2, 4, 11, 22, 12, 18, 24, 36, 48, 72, 96, 108, 0}; /* last element must be zero!! */
++
++	int i = 0;
++	while (dot11_rate_table[i] != 0) {
++		if (dot11_rate_table[i] == val)
++			return BIT(i);
++		i++;
++	}
++	return 0;
++}
++
++uint	rtw_is_cckrates_included(u8 *rate)
++{
++	u32	i = 0;
++
++	while (rate[i] != 0) {
++		if ((((rate[i]) & 0x7f) == 2)	|| (((rate[i]) & 0x7f) == 4) ||
++		    (((rate[i]) & 0x7f) == 11)  || (((rate[i]) & 0x7f) == 22))
++			return _TRUE;
++		i++;
++	}
++
++	return _FALSE;
++}
++
++uint	rtw_is_cckratesonly_included(u8 *rate)
++{
++	u32 i = 0;
++
++
++	while (rate[i] != 0) {
++		if ((((rate[i]) & 0x7f) != 2) && (((rate[i]) & 0x7f) != 4) &&
++		    (((rate[i]) & 0x7f) != 11)  && (((rate[i]) & 0x7f) != 22))
++			return _FALSE;
++
++		i++;
++	}
++
++	return _TRUE;
++
++}
++
++int rtw_check_network_type(unsigned char *rate, int ratelen, int channel)
++{
++	if (channel > 14) {
++		if ((rtw_is_cckrates_included(rate)) == _TRUE)
++			return WIRELESS_INVALID;
++		else
++			return WIRELESS_11A;
++	} else { /* could be pure B, pure G, or B/G */
++		if ((rtw_is_cckratesonly_included(rate)) == _TRUE)
++			return WIRELESS_11B;
++		else if ((rtw_is_cckrates_included(rate)) == _TRUE)
++			return	WIRELESS_11BG;
++		else
++			return WIRELESS_11G;
++	}
++
++}
++
++u8 *rtw_set_fixed_ie(unsigned char *pbuf, unsigned int len, unsigned char *source,
++		     unsigned int *frlen)
++{
++	_rtw_memcpy((void *)pbuf, (void *)source, len);
++	*frlen = *frlen + len;
++	return pbuf + len;
++}
++
++/* rtw_set_ie will update frame length */
++u8 *rtw_set_ie
++(
++	u8 *pbuf,
++	sint index,
++	uint len,
++	u8 *source,
++	uint *frlen /* frame length */
++)
++{
++	*pbuf = (u8)index;
++
++	*(pbuf + 1) = (u8)len;
++
++	if (len > 0)
++		_rtw_memcpy((void *)(pbuf + 2), (void *)source, len);
++
++	*frlen = *frlen + (len + 2);
++
++	return pbuf + len + 2;
++}
++
++inline u8 *rtw_set_ie_ch_switch(u8 *buf, u32 *buf_len, u8 ch_switch_mode,
++				u8 new_ch, u8 ch_switch_cnt)
++{
++	u8 ie_data[3];
++
++	ie_data[0] = ch_switch_mode;
++	ie_data[1] = new_ch;
++	ie_data[2] = ch_switch_cnt;
++	return rtw_set_ie(buf, WLAN_EID_CHANNEL_SWITCH,  3, ie_data, buf_len);
++}
++
++inline u8 secondary_ch_offset_to_hal_ch_offset(u8 ch_offset)
++{
++	if (ch_offset == SCN)
++		return HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	else if (ch_offset == SCA)
++		return HAL_PRIME_CHNL_OFFSET_UPPER;
++	else if (ch_offset == SCB)
++		return HAL_PRIME_CHNL_OFFSET_LOWER;
++
++	return HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++}
++
++inline u8 hal_ch_offset_to_secondary_ch_offset(u8 ch_offset)
++{
++	if (ch_offset == HAL_PRIME_CHNL_OFFSET_DONT_CARE)
++		return SCN;
++	else if (ch_offset == HAL_PRIME_CHNL_OFFSET_LOWER)
++		return SCB;
++	else if (ch_offset == HAL_PRIME_CHNL_OFFSET_UPPER)
++		return SCA;
++
++	return SCN;
++}
++
++inline u8 *rtw_set_ie_secondary_ch_offset(u8 *buf, u32 *buf_len, u8 secondary_ch_offset)
++{
++	return rtw_set_ie(buf, WLAN_EID_SECONDARY_CHANNEL_OFFSET,  1, &secondary_ch_offset, buf_len);
++}
++
++inline u8 *rtw_set_ie_mesh_ch_switch_parm(u8 *buf, u32 *buf_len, u8 ttl,
++		u8 flags, u16 reason, u16 precedence)
++{
++	u8 ie_data[6];
++
++	ie_data[0] = ttl;
++	ie_data[1] = flags;
++	RTW_PUT_LE16((u8 *)&ie_data[2], reason);
++	RTW_PUT_LE16((u8 *)&ie_data[4], precedence);
++
++	return rtw_set_ie(buf, 0x118,  6, ie_data, buf_len);
++}
++
++/*----------------------------------------------------------------------------
++index: the information element id index, limit is the limit for search
++-----------------------------------------------------------------------------*/
++u8 *rtw_get_ie(u8 *pbuf, sint index, sint *len, sint limit)
++{
++	sint tmp, i;
++	u8 *p;
++	if (limit < 1) {
++		return NULL;
++	}
++
++	p = pbuf;
++	i = 0;
++	*len = 0;
++	while (1) {
++		if (*p == index) {
++			*len = *(p + 1);
++			return p;
++		} else {
++			tmp = *(p + 1);
++			p += (tmp + 2);
++			i += (tmp + 2);
++		}
++		if (i >= limit)
++			break;
++	}
++	return NULL;
++}
++
++/**
++ * rtw_get_ie_ex - Search specific IE from a series of IEs
++ * @in_ie: Address of IEs to search
++ * @in_len: Length limit from in_ie
++ * @eid: Element ID to match
++ * @oui: OUI to match
++ * @oui_len: OUI length
++ * @ie: If not NULL and the specific IE is found, the IE will be copied to the buf starting from the specific IE
++ * @ielen: If not NULL and the specific IE is found, will set to the length of the entire IE
++ *
++ * Returns: The address of the specific IE found, or NULL
++ */
++u8 *rtw_get_ie_ex(u8 *in_ie, uint in_len, u8 eid, u8 *oui, u8 oui_len, u8 *ie, uint *ielen)
++{
++	uint cnt;
++	u8 *target_ie = NULL;
++
++
++	if (ielen)
++		*ielen = 0;
++
++	if (!in_ie || in_len <= 0)
++		return target_ie;
++
++	cnt = 0;
++
++	while (cnt < in_len) {
++		if (eid == in_ie[cnt]
++		    && (!oui || _rtw_memcmp(&in_ie[cnt + 2], oui, oui_len) == _TRUE)) {
++			target_ie = &in_ie[cnt];
++
++			if (ie)
++				_rtw_memcpy(ie, &in_ie[cnt], in_ie[cnt + 1] + 2);
++
++			if (ielen)
++				*ielen = in_ie[cnt + 1] + 2;
++
++			break;
++		} else {
++			cnt += in_ie[cnt + 1] + 2; /* goto next	 */
++		}
++
++	}
++
++	return target_ie;
++}
++
++/**
++ * rtw_ies_remove_ie - Find matching IEs and remove
++ * @ies: Address of IEs to search
++ * @ies_len: Pointer of length of ies, will update to new length
++ * @offset: The offset to start scarch
++ * @eid: Element ID to match
++ * @oui: OUI to match
++ * @oui_len: OUI length
++ *
++ * Returns: _SUCCESS: ies is updated, _FAIL: not updated
++ */
++int rtw_ies_remove_ie(u8 *ies, uint *ies_len, uint offset, u8 eid, u8 *oui, u8 oui_len)
++{
++	int ret = _FAIL;
++	u8 *target_ie;
++	u32 target_ielen;
++	u8 *start;
++	uint search_len;
++
++	if (!ies || !ies_len || *ies_len <= offset)
++		goto exit;
++
++	start = ies + offset;
++	search_len = *ies_len - offset;
++
++	while (1) {
++		target_ie = rtw_get_ie_ex(start, search_len, eid, oui, oui_len, NULL, &target_ielen);
++		if (target_ie && target_ielen) {
++			u8 *remain_ies = target_ie + target_ielen;
++			uint remain_len = search_len - (remain_ies - start);
++
++			_rtw_memmove(target_ie, remain_ies, remain_len);
++			*ies_len = *ies_len - target_ielen;
++			ret = _SUCCESS;
++
++			start = target_ie;
++			search_len = remain_len;
++		} else
++			break;
++	}
++exit:
++	return ret;
++}
++
++void rtw_set_supported_rate(u8 *SupportedRates, uint mode)
++{
++
++	_rtw_memset(SupportedRates, 0, NDIS_802_11_LENGTH_RATES_EX);
++
++	switch (mode) {
++	case WIRELESS_11B:
++		_rtw_memcpy(SupportedRates, WIFI_CCKRATES, IEEE80211_CCK_RATE_LEN);
++		break;
++
++	case WIRELESS_11G:
++	case WIRELESS_11A:
++	case WIRELESS_11_5N:
++	case WIRELESS_11A_5N: /* Todo: no basic rate for ofdm ? */
++	case WIRELESS_11_5AC:
++		_rtw_memcpy(SupportedRates, WIFI_OFDMRATES, IEEE80211_NUM_OFDM_RATESLEN);
++		break;
++
++	case WIRELESS_11BG:
++	case WIRELESS_11G_24N:
++	case WIRELESS_11_24N:
++	case WIRELESS_11BG_24N:
++		_rtw_memcpy(SupportedRates, WIFI_CCKRATES, IEEE80211_CCK_RATE_LEN);
++		_rtw_memcpy(SupportedRates + IEEE80211_CCK_RATE_LEN, WIFI_OFDMRATES, IEEE80211_NUM_OFDM_RATESLEN);
++		break;
++
++	}
++}
++
++uint	rtw_get_rateset_len(u8	*rateset)
++{
++	uint i = 0;
++	while (1) {
++		if ((rateset[i]) == 0)
++			break;
++
++		if (i > 12)
++			break;
++
++		i++;
++	}
++	return i;
++}
++
++int rtw_generate_ie(struct registry_priv *pregistrypriv)
++{
++	u8	wireless_mode;
++	int	sz = 0, rateLen;
++	WLAN_BSSID_EX	*pdev_network = &pregistrypriv->dev_network;
++	u8	*ie = pdev_network->IEs;
++
++
++	/* timestamp will be inserted by hardware */
++	sz += 8;
++	ie += sz;
++
++	/* beacon interval : 2bytes */
++	*(u16 *)ie = cpu_to_le16((u16)pdev_network->Configuration.BeaconPeriod); /* BCN_INTERVAL; */
++	sz += 2;
++	ie += 2;
++
++	/* capability info */
++	*(u16 *)ie = 0;
++
++	*(u16 *)ie |= cpu_to_le16(cap_IBSS);
++
++	if (pregistrypriv->preamble == PREAMBLE_SHORT)
++		*(u16 *)ie |= cpu_to_le16(cap_ShortPremble);
++
++	if (pdev_network->Privacy)
++		*(u16 *)ie |= cpu_to_le16(cap_Privacy);
++
++	sz += 2;
++	ie += 2;
++
++	/* SSID */
++	ie = rtw_set_ie(ie, _SSID_IE_, pdev_network->Ssid.SsidLength, pdev_network->Ssid.Ssid, &sz);
++
++	/* supported rates */
++	if (pregistrypriv->wireless_mode == WIRELESS_11ABGN) {
++		if (pdev_network->Configuration.DSConfig > 14)
++			wireless_mode = WIRELESS_11A_5N;
++		else
++			wireless_mode = WIRELESS_11BG_24N;
++	} else if (pregistrypriv->wireless_mode == WIRELESS_MODE_MAX) { /* WIRELESS_11ABGN | WIRELESS_11AC */
++		if (pdev_network->Configuration.DSConfig > 14)
++			wireless_mode = WIRELESS_11_5AC;
++		else
++			wireless_mode = WIRELESS_11BG_24N;
++	} else
++		wireless_mode = pregistrypriv->wireless_mode;
++
++	rtw_set_supported_rate(pdev_network->SupportedRates, wireless_mode) ;
++
++	rateLen = rtw_get_rateset_len(pdev_network->SupportedRates);
++
++	if (rateLen > 8) {
++		ie = rtw_set_ie(ie, _SUPPORTEDRATES_IE_, 8, pdev_network->SupportedRates, &sz);
++		/* ie = rtw_set_ie(ie, _EXT_SUPPORTEDRATES_IE_, (rateLen - 8), (pdev_network->SupportedRates + 8), &sz); */
++	} else
++		ie = rtw_set_ie(ie, _SUPPORTEDRATES_IE_, rateLen, pdev_network->SupportedRates, &sz);
++
++	/* DS parameter set */
++	ie = rtw_set_ie(ie, _DSSET_IE_, 1, (u8 *)&(pdev_network->Configuration.DSConfig), &sz);
++
++
++	/* IBSS Parameter Set */
++
++	ie = rtw_set_ie(ie, _IBSS_PARA_IE_, 2, (u8 *)&(pdev_network->Configuration.ATIMWindow), &sz);
++
++	if (rateLen > 8)
++		ie = rtw_set_ie(ie, _EXT_SUPPORTEDRATES_IE_, (rateLen - 8), (pdev_network->SupportedRates + 8), &sz);
++
++#ifdef CONFIG_80211N_HT
++	/* HT Cap. */
++	if (((pregistrypriv->wireless_mode & WIRELESS_11_5N) || (pregistrypriv->wireless_mode & WIRELESS_11_24N))
++	    && (pregistrypriv->ht_enable == _TRUE)) {
++		/* todo: */
++	}
++#endif /* CONFIG_80211N_HT */
++
++	/* pdev_network->IELength =  sz; */ /* update IELength */
++
++
++	/* return _SUCCESS; */
++
++	return sz;
++
++}
++
++unsigned char *rtw_get_wpa_ie(unsigned char *pie, int *wpa_ie_len, int limit)
++{
++	int len;
++	u16 val16;
++	unsigned char wpa_oui_type[] = {0x00, 0x50, 0xf2, 0x01};
++	u8 *pbuf = pie;
++	int limit_new = limit;
++
++	while (1) {
++		pbuf = rtw_get_ie(pbuf, _WPA_IE_ID_, &len, limit_new);
++
++		if (pbuf) {
++
++			/* check if oui matches... */
++			if (_rtw_memcmp((pbuf + 2), wpa_oui_type, sizeof(wpa_oui_type)) == _FALSE)
++
++				goto check_next_ie;
++
++			/* check version... */
++			_rtw_memcpy((u8 *)&val16, (pbuf + 6), sizeof(val16));
++
++			val16 = le16_to_cpu(val16);
++			if (val16 != 0x0001)
++				goto check_next_ie;
++
++			*wpa_ie_len = *(pbuf + 1);
++
++			return pbuf;
++
++		} else {
++
++			*wpa_ie_len = 0;
++			return NULL;
++		}
++
++check_next_ie:
++
++		limit_new = limit - (pbuf - pie) - 2 - len;
++
++		if (limit_new <= 0)
++			break;
++
++		pbuf += (2 + len);
++
++	}
++
++	*wpa_ie_len = 0;
++
++	return NULL;
++
++}
++
++unsigned char *rtw_get_wpa2_ie(unsigned char *pie, int *rsn_ie_len, int limit)
++{
++
++	return rtw_get_ie(pie, _WPA2_IE_ID_, rsn_ie_len, limit);
++
++}
++
++int rtw_get_wpa_cipher_suite(u8 *s)
++{
++	if (_rtw_memcmp(s, WPA_CIPHER_SUITE_NONE, WPA_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_NONE;
++	if (_rtw_memcmp(s, WPA_CIPHER_SUITE_WEP40, WPA_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_WEP40;
++	if (_rtw_memcmp(s, WPA_CIPHER_SUITE_TKIP, WPA_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_TKIP;
++	if (_rtw_memcmp(s, WPA_CIPHER_SUITE_CCMP, WPA_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_CCMP;
++	if (_rtw_memcmp(s, WPA_CIPHER_SUITE_WEP104, WPA_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_WEP104;
++
++	return 0;
++}
++
++int rtw_get_wpa2_cipher_suite(u8 *s)
++{
++	if (_rtw_memcmp(s, RSN_CIPHER_SUITE_NONE, RSN_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_NONE;
++	if (_rtw_memcmp(s, RSN_CIPHER_SUITE_WEP40, RSN_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_WEP40;
++	if (_rtw_memcmp(s, RSN_CIPHER_SUITE_TKIP, RSN_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_TKIP;
++	if (_rtw_memcmp(s, RSN_CIPHER_SUITE_CCMP, RSN_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_CCMP;
++	if (_rtw_memcmp(s, RSN_CIPHER_SUITE_WEP104, RSN_SELECTOR_LEN) == _TRUE)
++		return WPA_CIPHER_WEP104;
++
++	return 0;
++}
++
++
++int rtw_parse_wpa_ie(u8 *wpa_ie, int wpa_ie_len, int *group_cipher, int *pairwise_cipher, int *is_8021x)
++{
++	int i, ret = _SUCCESS;
++	int left, count;
++	u8 *pos;
++	u8 SUITE_1X[4] = {0x00, 0x50, 0xf2, 1};
++
++	if (wpa_ie_len <= 0) {
++		/* No WPA IE - fail silently */
++		return _FAIL;
++	}
++
++
++	if ((*wpa_ie != _WPA_IE_ID_) || (*(wpa_ie + 1) != (u8)(wpa_ie_len - 2)) ||
++	    (_rtw_memcmp(wpa_ie + 2, RTW_WPA_OUI_TYPE, WPA_SELECTOR_LEN) != _TRUE))
++		return _FAIL;
++
++	pos = wpa_ie;
++
++	pos += 8;
++	left = wpa_ie_len - 8;
++
++
++	/* group_cipher */
++	if (left >= WPA_SELECTOR_LEN) {
++
++		*group_cipher = rtw_get_wpa_cipher_suite(pos);
++
++		pos += WPA_SELECTOR_LEN;
++		left -= WPA_SELECTOR_LEN;
++
++	} else if (left > 0) {
++
++		return _FAIL;
++	}
++
++
++	/* pairwise_cipher */
++	if (left >= 2) {
++		/* count = le16_to_cpu(*(u16*)pos);	 */
++		count = RTW_GET_LE16(pos);
++		pos += 2;
++		left -= 2;
++
++		if (count == 0 || left < count * WPA_SELECTOR_LEN) {
++			return _FAIL;
++		}
++
++		for (i = 0; i < count; i++) {
++			*pairwise_cipher |= rtw_get_wpa_cipher_suite(pos);
++
++			pos += WPA_SELECTOR_LEN;
++			left -= WPA_SELECTOR_LEN;
++		}
++
++	} else if (left == 1) {
++		return _FAIL;
++	}
++
++	if (is_8021x) {
++		if (left >= 6) {
++			pos += 2;
++			if (_rtw_memcmp(pos, SUITE_1X, 4) == 1) {
++				*is_8021x = 1;
++			}
++		}
++	}
++
++	return ret;
++
++}
++
++int rtw_parse_wpa2_ie(u8 *rsn_ie, int rsn_ie_len, int *group_cipher, int *pairwise_cipher, int *is_8021x)
++{
++	int i, ret = _SUCCESS;
++	int left, count;
++	u8 *pos;
++	u8 SUITE_1X[4] = {0x00, 0x0f, 0xac, 0x01};
++
++	if (rsn_ie_len <= 0) {
++		/* No RSN IE - fail silently */
++		return _FAIL;
++	}
++
++
++	if ((*rsn_ie != _WPA2_IE_ID_) || (*(rsn_ie + 1) != (u8)(rsn_ie_len - 2)))
++		return _FAIL;
++
++	pos = rsn_ie;
++	pos += 4;
++	left = rsn_ie_len - 4;
++
++	/* group_cipher */
++	if (left >= RSN_SELECTOR_LEN) {
++
++		*group_cipher = rtw_get_wpa2_cipher_suite(pos);
++
++		pos += RSN_SELECTOR_LEN;
++		left -= RSN_SELECTOR_LEN;
++
++	} else if (left > 0) {
++		return _FAIL;
++	}
++
++	/* pairwise_cipher */
++	if (left >= 2) {
++		/* count = le16_to_cpu(*(u16*)pos); */
++		count = RTW_GET_LE16(pos);
++		pos += 2;
++		left -= 2;
++
++		if (count == 0 || left < count * RSN_SELECTOR_LEN) {
++			return _FAIL;
++		}
++
++		for (i = 0; i < count; i++) {
++			*pairwise_cipher |= rtw_get_wpa2_cipher_suite(pos);
++
++			pos += RSN_SELECTOR_LEN;
++			left -= RSN_SELECTOR_LEN;
++		}
++
++	} else if (left == 1) {
++
++		return _FAIL;
++	}
++
++	if (is_8021x) {
++		if (left >= 6) {
++			pos += 2;
++			if (_rtw_memcmp(pos, SUITE_1X, 4) == 1) {
++				*is_8021x = 1;
++			}
++		}
++	}
++
++	return ret;
++
++}
++
++/* #ifdef CONFIG_WAPI_SUPPORT */
++int rtw_get_wapi_ie(u8 *in_ie, uint in_len, u8 *wapi_ie, u16 *wapi_len)
++{
++	int len = 0;
++	u8 authmode, i;
++	uint	cnt;
++	u8 wapi_oui1[4] = {0x0, 0x14, 0x72, 0x01};
++	u8 wapi_oui2[4] = {0x0, 0x14, 0x72, 0x02};
++
++
++	if (wapi_len)
++		*wapi_len = 0;
++
++	if (!in_ie || in_len <= 0)
++		return len;
++
++	cnt = (_TIMESTAMP_ + _BEACON_ITERVAL_ + _CAPABILITY_);
++
++	while (cnt < in_len) {
++		authmode = in_ie[cnt];
++
++		/* if(authmode==_WAPI_IE_) */
++		if (authmode == _WAPI_IE_ && (_rtw_memcmp(&in_ie[cnt + 6], wapi_oui1, 4) == _TRUE ||
++			_rtw_memcmp(&in_ie[cnt + 6], wapi_oui2, 4) == _TRUE)) {
++			if (wapi_ie)
++				_rtw_memcpy(wapi_ie, &in_ie[cnt], in_ie[cnt + 1] + 2);
++
++			if (wapi_len)
++				*wapi_len = in_ie[cnt + 1] + 2;
++
++			cnt += in_ie[cnt + 1] + 2; /* get next */
++		} else {
++			cnt += in_ie[cnt + 1] + 2; /* get next */
++		}
++	}
++
++	if (wapi_len)
++		len = *wapi_len;
++
++
++	return len;
++
++}
++/* #endif */
++
++int rtw_get_sec_ie(u8 *in_ie, uint in_len, u8 *rsn_ie, u16 *rsn_len, u8 *wpa_ie, u16 *wpa_len)
++{
++	u8 authmode, sec_idx, i;
++	u8 wpa_oui[4] = {0x0, 0x50, 0xf2, 0x01};
++	uint	cnt;
++
++
++	/* Search required WPA or WPA2 IE and copy to sec_ie[ ] */
++
++	cnt = (_TIMESTAMP_ + _BEACON_ITERVAL_ + _CAPABILITY_);
++
++	sec_idx = 0;
++
++	while (cnt < in_len) {
++		authmode = in_ie[cnt];
++
++		if ((authmode == _WPA_IE_ID_) && (_rtw_memcmp(&in_ie[cnt + 2], &wpa_oui[0], 4) == _TRUE)) {
++
++			if (wpa_ie)
++				_rtw_memcpy(wpa_ie, &in_ie[cnt], in_ie[cnt + 1] + 2);
++
++			*wpa_len = in_ie[cnt + 1] + 2;
++			cnt += in_ie[cnt + 1] + 2; /* get next */
++		} else {
++			if (authmode == _WPA2_IE_ID_) {
++
++				if (rsn_ie)
++					_rtw_memcpy(rsn_ie, &in_ie[cnt], in_ie[cnt + 1] + 2);
++
++				*rsn_len = in_ie[cnt + 1] + 2;
++				cnt += in_ie[cnt + 1] + 2; /* get next */
++			} else {
++				cnt += in_ie[cnt + 1] + 2; /* get next */
++			}
++		}
++
++	}
++
++
++	return *rsn_len + *wpa_len;
++
++}
++
++u8 rtw_is_wps_ie(u8 *ie_ptr, uint *wps_ielen)
++{
++	u8 match = _FALSE;
++	u8 eid, wps_oui[4] = {0x0, 0x50, 0xf2, 0x04};
++
++	if (ie_ptr == NULL)
++		return match;
++
++	eid = ie_ptr[0];
++
++	if ((eid == _WPA_IE_ID_) && (_rtw_memcmp(&ie_ptr[2], wps_oui, 4) == _TRUE)) {
++		/* RTW_INFO("==> found WPS_IE.....\n"); */
++		*wps_ielen = ie_ptr[1] + 2;
++		match = _TRUE;
++	}
++	return match;
++}
++
++u8 *rtw_get_wps_ie_from_scan_queue(u8 *in_ie, uint in_len, u8 *wps_ie, uint *wps_ielen, u8 frame_type)
++{
++	u8	*wps = NULL;
++
++	RTW_INFO("[%s] frame_type = %d\n", __FUNCTION__, frame_type);
++	switch (frame_type) {
++	case 1:
++	case 3: {
++		/*	Beacon or Probe Response */
++		wps = rtw_get_wps_ie(in_ie + _PROBERSP_IE_OFFSET_, in_len - _PROBERSP_IE_OFFSET_, wps_ie, wps_ielen);
++		break;
++	}
++	case 2: {
++		/*	Probe Request */
++		wps = rtw_get_wps_ie(in_ie + _PROBEREQ_IE_OFFSET_ , in_len - _PROBEREQ_IE_OFFSET_ , wps_ie, wps_ielen);
++		break;
++	}
++	}
++	return wps;
++}
++
++/**
++ * rtw_get_wps_ie - Search WPS IE from a series of IEs
++ * @in_ie: Address of IEs to search
++ * @in_len: Length limit from in_ie
++ * @wps_ie: If not NULL and WPS IE is found, WPS IE will be copied to the buf starting from wps_ie
++ * @wps_ielen: If not NULL and WPS IE is found, will set to the length of the entire WPS IE
++ *
++ * Returns: The address of the WPS IE found, or NULL
++ */
++u8 *rtw_get_wps_ie(u8 *in_ie, uint in_len, u8 *wps_ie, uint *wps_ielen)
++{
++	uint cnt;
++	u8 *wpsie_ptr = NULL;
++	u8 eid, wps_oui[4] = {0x00, 0x50, 0xf2, 0x04};
++
++	if (wps_ielen)
++		*wps_ielen = 0;
++
++	if (!in_ie) {
++		rtw_warn_on(1);
++		return wpsie_ptr;
++	}
++
++	if (in_len <= 0)
++		return wpsie_ptr;
++
++	cnt = 0;
++
++	while (cnt + 1 + 4 < in_len) {
++		eid = in_ie[cnt];
++
++		if (cnt + 1 + 4 >= MAX_IE_SZ) {
++			rtw_warn_on(1);
++			return NULL;
++		}
++
++		if (eid == WLAN_EID_VENDOR_SPECIFIC && _rtw_memcmp(&in_ie[cnt + 2], wps_oui, 4) == _TRUE) {
++			wpsie_ptr = in_ie + cnt;
++
++			if (wps_ie)
++				_rtw_memcpy(wps_ie, &in_ie[cnt], in_ie[cnt + 1] + 2);
++
++			if (wps_ielen)
++				*wps_ielen = in_ie[cnt + 1] + 2;
++
++			break;
++		} else
++			cnt += in_ie[cnt + 1] + 2;
++
++	}
++
++	return wpsie_ptr;
++}
++
++/**
++ * rtw_get_wps_attr - Search a specific WPS attribute from a given WPS IE
++ * @wps_ie: Address of WPS IE to search
++ * @wps_ielen: Length limit from wps_ie
++ * @target_attr_id: The attribute ID of WPS attribute to search
++ * @buf_attr: If not NULL and the WPS attribute is found, WPS attribute will be copied to the buf starting from buf_attr
++ * @len_attr: If not NULL and the WPS attribute is found, will set to the length of the entire WPS attribute
++ *
++ * Returns: the address of the specific WPS attribute found, or NULL
++ */
++u8 *rtw_get_wps_attr(u8 *wps_ie, uint wps_ielen, u16 target_attr_id , u8 *buf_attr, u32 *len_attr)
++{
++	u8 *attr_ptr = NULL;
++	u8 *target_attr_ptr = NULL;
++	u8 wps_oui[4] = {0x00, 0x50, 0xF2, 0x04};
++
++	if (len_attr)
++		*len_attr = 0;
++
++	if ((wps_ie[0] != _VENDOR_SPECIFIC_IE_) ||
++	    (_rtw_memcmp(wps_ie + 2, wps_oui , 4) != _TRUE))
++		return attr_ptr;
++
++	/* 6 = 1(Element ID) + 1(Length) + 4(WPS OUI) */
++	attr_ptr = wps_ie + 6; /* goto first attr */
++
++	while (attr_ptr - wps_ie < wps_ielen) {
++		/* 4 = 2(Attribute ID) + 2(Length) */
++		u16 attr_id = RTW_GET_BE16(attr_ptr);
++		u16 attr_data_len = RTW_GET_BE16(attr_ptr + 2);
++		u16 attr_len = attr_data_len + 4;
++
++		/* RTW_INFO("%s attr_ptr:%p, id:%u, length:%u\n", __FUNCTION__, attr_ptr, attr_id, attr_data_len); */
++		if (attr_id == target_attr_id) {
++			target_attr_ptr = attr_ptr;
++
++			if (buf_attr)
++				_rtw_memcpy(buf_attr, attr_ptr, attr_len);
++
++			if (len_attr)
++				*len_attr = attr_len;
++
++			break;
++		} else {
++			attr_ptr += attr_len; /* goto next */
++		}
++
++	}
++
++	return target_attr_ptr;
++}
++
++/**
++ * rtw_get_wps_attr_content - Search a specific WPS attribute content from a given WPS IE
++ * @wps_ie: Address of WPS IE to search
++ * @wps_ielen: Length limit from wps_ie
++ * @target_attr_id: The attribute ID of WPS attribute to search
++ * @buf_content: If not NULL and the WPS attribute is found, WPS attribute content will be copied to the buf starting from buf_content
++ * @len_content: If not NULL and the WPS attribute is found, will set to the length of the WPS attribute content
++ *
++ * Returns: the address of the specific WPS attribute content found, or NULL
++ */
++u8 *rtw_get_wps_attr_content(u8 *wps_ie, uint wps_ielen, u16 target_attr_id , u8 *buf_content, uint *len_content)
++{
++	u8 *attr_ptr;
++	u32 attr_len;
++
++	if (len_content)
++		*len_content = 0;
++
++	attr_ptr = rtw_get_wps_attr(wps_ie, wps_ielen, target_attr_id, NULL, &attr_len);
++
++	if (attr_ptr && attr_len) {
++		if (buf_content)
++			_rtw_memcpy(buf_content, attr_ptr + 4, attr_len - 4);
++
++		if (len_content)
++			*len_content = attr_len - 4;
++
++		return attr_ptr + 4;
++	}
++
++	return NULL;
++}
++
++static int rtw_ieee802_11_parse_vendor_specific(u8 *pos, uint elen,
++		struct rtw_ieee802_11_elems *elems,
++		int show_errors)
++{
++	unsigned int oui;
++
++	/* first 3 bytes in vendor specific information element are the IEEE
++	 * OUI of the vendor. The following byte is used a vendor specific
++	 * sub-type. */
++	if (elen < 4) {
++		if (show_errors) {
++			RTW_INFO("short vendor specific "
++				 "information element ignored (len=%lu)\n",
++				 (unsigned long) elen);
++		}
++		return -1;
++	}
++
++	oui = RTW_GET_BE24(pos);
++	switch (oui) {
++	case OUI_MICROSOFT:
++		/* Microsoft/Wi-Fi information elements are further typed and
++		 * subtyped */
++		switch (pos[3]) {
++		case 1:
++			/* Microsoft OUI (00:50:F2) with OUI Type 1:
++			 * real WPA information element */
++			elems->wpa_ie = pos;
++			elems->wpa_ie_len = elen;
++			break;
++		case WME_OUI_TYPE: /* this is a Wi-Fi WME info. element */
++			if (elen < 5) {
++				RTW_DBG("short WME "
++					"information element ignored "
++					"(len=%lu)\n",
++					(unsigned long) elen);
++				return -1;
++			}
++			switch (pos[4]) {
++			case WME_OUI_SUBTYPE_INFORMATION_ELEMENT:
++			case WME_OUI_SUBTYPE_PARAMETER_ELEMENT:
++				elems->wme = pos;
++				elems->wme_len = elen;
++				break;
++			case WME_OUI_SUBTYPE_TSPEC_ELEMENT:
++				elems->wme_tspec = pos;
++				elems->wme_tspec_len = elen;
++				break;
++			default:
++				RTW_DBG("unknown WME "
++					"information element ignored "
++					"(subtype=%d len=%lu)\n",
++					pos[4], (unsigned long) elen);
++				return -1;
++			}
++			break;
++		case 4:
++			/* Wi-Fi Protected Setup (WPS) IE */
++			elems->wps_ie = pos;
++			elems->wps_ie_len = elen;
++			break;
++		default:
++			RTW_DBG("Unknown Microsoft "
++				"information element ignored "
++				"(type=%d len=%lu)\n",
++				pos[3], (unsigned long) elen);
++			return -1;
++		}
++		break;
++
++	case OUI_BROADCOM:
++		switch (pos[3]) {
++		case VENDOR_HT_CAPAB_OUI_TYPE:
++			elems->vendor_ht_cap = pos;
++			elems->vendor_ht_cap_len = elen;
++			break;
++		default:
++			RTW_DBG("Unknown Broadcom "
++				"information element ignored "
++				"(type=%d len=%lu)\n",
++				pos[3], (unsigned long) elen);
++			return -1;
++		}
++		break;
++
++	default:
++		RTW_DBG("unknown vendor specific information "
++			"element ignored (vendor OUI %02x:%02x:%02x "
++			"len=%lu)\n",
++			pos[0], pos[1], pos[2], (unsigned long) elen);
++		return -1;
++	}
++
++	return 0;
++
++}
++
++/**
++ * ieee802_11_parse_elems - Parse information elements in management frames
++ * @start: Pointer to the start of IEs
++ * @len: Length of IE buffer in octets
++ * @elems: Data structure for parsed elements
++ * @show_errors: Whether to show parsing errors in debug log
++ * Returns: Parsing result
++ */
++ParseRes rtw_ieee802_11_parse_elems(u8 *start, uint len,
++				    struct rtw_ieee802_11_elems *elems,
++				    int show_errors)
++{
++	uint left = len;
++	u8 *pos = start;
++	int unknown = 0;
++
++	_rtw_memset(elems, 0, sizeof(*elems));
++
++	while (left >= 2) {
++		u8 id, elen;
++
++		id = *pos++;
++		elen = *pos++;
++		left -= 2;
++
++		if (elen > left) {
++			if (show_errors) {
++				RTW_INFO("IEEE 802.11 element "
++					 "parse failed (id=%d elen=%d "
++					 "left=%lu)\n",
++					 id, elen, (unsigned long) left);
++			}
++			return ParseFailed;
++		}
++
++		switch (id) {
++		case WLAN_EID_SSID:
++			elems->ssid = pos;
++			elems->ssid_len = elen;
++			break;
++		case WLAN_EID_SUPP_RATES:
++			elems->supp_rates = pos;
++			elems->supp_rates_len = elen;
++			break;
++		case WLAN_EID_FH_PARAMS:
++			elems->fh_params = pos;
++			elems->fh_params_len = elen;
++			break;
++		case WLAN_EID_DS_PARAMS:
++			elems->ds_params = pos;
++			elems->ds_params_len = elen;
++			break;
++		case WLAN_EID_CF_PARAMS:
++			elems->cf_params = pos;
++			elems->cf_params_len = elen;
++			break;
++		case WLAN_EID_TIM:
++			elems->tim = pos;
++			elems->tim_len = elen;
++			break;
++		case WLAN_EID_IBSS_PARAMS:
++			elems->ibss_params = pos;
++			elems->ibss_params_len = elen;
++			break;
++		case WLAN_EID_CHALLENGE:
++			elems->challenge = pos;
++			elems->challenge_len = elen;
++			break;
++		case WLAN_EID_ERP_INFO:
++			elems->erp_info = pos;
++			elems->erp_info_len = elen;
++			break;
++		case WLAN_EID_EXT_SUPP_RATES:
++			elems->ext_supp_rates = pos;
++			elems->ext_supp_rates_len = elen;
++			break;
++		case WLAN_EID_VENDOR_SPECIFIC:
++			if (rtw_ieee802_11_parse_vendor_specific(pos, elen,
++					elems,
++					show_errors))
++				unknown++;
++			break;
++		case WLAN_EID_RSN:
++			elems->rsn_ie = pos;
++			elems->rsn_ie_len = elen;
++			break;
++		case WLAN_EID_PWR_CAPABILITY:
++			elems->power_cap = pos;
++			elems->power_cap_len = elen;
++			break;
++		case WLAN_EID_SUPPORTED_CHANNELS:
++			elems->supp_channels = pos;
++			elems->supp_channels_len = elen;
++			break;
++		case WLAN_EID_MOBILITY_DOMAIN:
++			elems->mdie = pos;
++			elems->mdie_len = elen;
++			break;
++		case WLAN_EID_FAST_BSS_TRANSITION:
++			elems->ftie = pos;
++			elems->ftie_len = elen;
++			break;
++		case WLAN_EID_TIMEOUT_INTERVAL:
++			elems->timeout_int = pos;
++			elems->timeout_int_len = elen;
++			break;
++		case WLAN_EID_HT_CAP:
++			elems->ht_capabilities = pos;
++			elems->ht_capabilities_len = elen;
++			break;
++		case WLAN_EID_HT_OPERATION:
++			elems->ht_operation = pos;
++			elems->ht_operation_len = elen;
++			break;
++		case WLAN_EID_VHT_CAPABILITY:
++			elems->vht_capabilities = pos;
++			elems->vht_capabilities_len = elen;
++			break;
++		case WLAN_EID_VHT_OPERATION:
++			elems->vht_operation = pos;
++			elems->vht_operation_len = elen;
++			break;
++		case WLAN_EID_VHT_OP_MODE_NOTIFY:
++			elems->vht_op_mode_notify = pos;
++			elems->vht_op_mode_notify_len = elen;
++			break;
++		default:
++			unknown++;
++			if (!show_errors)
++				break;
++			RTW_DBG("IEEE 802.11 element parse "
++				"ignored unknown element (id=%d elen=%d)\n",
++				id, elen);
++			break;
++		}
++
++		left -= elen;
++		pos += elen;
++	}
++
++	if (left)
++		return ParseFailed;
++
++	return unknown ? ParseUnknown : ParseOK;
++
++}
++
++static u8 key_char2num(u8 ch);
++static u8 key_char2num(u8 ch)
++{
++	if ((ch >= '0') && (ch <= '9'))
++		return ch - '0';
++	else if ((ch >= 'a') && (ch <= 'f'))
++		return ch - 'a' + 10;
++	else if ((ch >= 'A') && (ch <= 'F'))
++		return ch - 'A' + 10;
++	else
++		return 0xff;
++}
++
++u8 str_2char2num(u8 hch, u8 lch);
++u8 str_2char2num(u8 hch, u8 lch)
++{
++	return (key_char2num(hch) * 10) + key_char2num(lch);
++}
++
++u8 key_2char2num(u8 hch, u8 lch);
++u8 key_2char2num(u8 hch, u8 lch)
++{
++	return (key_char2num(hch) << 4) | key_char2num(lch);
++}
++
++void macstr2num(u8 *dst, u8 *src);
++void macstr2num(u8 *dst, u8 *src)
++{
++	int	jj, kk;
++	for (jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3)
++		dst[jj] = key_2char2num(src[kk], src[kk + 1]);
++}
++
++u8 convert_ip_addr(u8 hch, u8 mch, u8 lch)
++{
++	return (key_char2num(hch) * 100) + (key_char2num(mch) * 10) + key_char2num(lch);
++}
++
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++#define MAC_ADDRESS_LEN 12
++
++int rtw_get_mac_addr_intel(unsigned char *buf)
++{
++	int ret = 0;
++	int i;
++	struct file *fp = NULL;
++	mm_segment_t oldfs;
++	unsigned char c_mac[MAC_ADDRESS_LEN];
++	char fname[] = "/config/wifi/mac.txt";
++	int jj, kk;
++
++	RTW_INFO("%s Enter\n", __FUNCTION__);
++
++	ret = rtw_retrieve_from_file(fname, c_mac, MAC_ADDRESS_LEN);
++	if (ret < MAC_ADDRESS_LEN)
++		return -1;
++
++	for (jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 2)
++		buf[jj] = key_2char2num(c_mac[kk], c_mac[kk + 1]);
++
++	RTW_INFO("%s: read from file mac address: "MAC_FMT"\n",
++		 __FUNCTION__, MAC_ARG(buf));
++
++	return 0;
++}
++#endif /* CONFIG_PLATFORM_INTEL_BYT */
++
++/*
++ * Description:
++ * rtw_check_invalid_mac_address:
++ * This is only used for checking mac address valid or not.
++ *
++ * Input:
++ * adapter: mac_address pointer.
++ * check_local_bit: check locally bit or not.
++ *
++ * Output:
++ * _TRUE: The mac address is invalid.
++ * _FALSE: The mac address is valid.
++ *
++ * Auther: Isaac.Li
++ */
++u8 rtw_check_invalid_mac_address(u8 *mac_addr, u8 check_local_bit)
++{
++	u8 null_mac_addr[ETH_ALEN] = {0, 0, 0, 0, 0, 0};
++	u8 multi_mac_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u8 res = _FALSE;
++
++	if (_rtw_memcmp(mac_addr, null_mac_addr, ETH_ALEN)) {
++		res = _TRUE;
++		goto func_exit;
++	}
++
++	if (_rtw_memcmp(mac_addr, multi_mac_addr, ETH_ALEN)) {
++		res = _TRUE;
++		goto func_exit;
++	}
++
++	if (mac_addr[0] & BIT0) {
++		res = _TRUE;
++		goto func_exit;
++	}
++
++	if (check_local_bit == _TRUE) {
++		if (mac_addr[0] & BIT1) {
++			res = _TRUE;
++			goto func_exit;
++		}
++	}
++
++func_exit:
++	return res;
++}
++
++extern char *rtw_initmac;
++/**
++ * rtw_macaddr_cfg - Decide the mac address used
++ * @out: buf to store mac address decided
++ * @hw_mac_addr: mac address from efuse/epprom
++ */
++void rtw_macaddr_cfg(u8 *out, const u8 *hw_mac_addr)
++{
++#define DEFAULT_RANDOM_MACADDR 1
++	u8 mac[ETH_ALEN];
++
++	if (out == NULL) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	/* Users specify the mac address */
++	if (rtw_initmac) {
++		int jj, kk;
++
++		for (jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3)
++			mac[jj] = key_2char2num(rtw_initmac[kk], rtw_initmac[kk + 1]);
++
++		goto err_chk;
++	}
++
++	/* platform specified */
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++	if (rtw_get_mac_addr_intel(mac) == 0)
++		goto err_chk;
++#endif
++
++	/* Use the mac address stored in the Efuse */
++	if (hw_mac_addr) {
++		_rtw_memcpy(mac, hw_mac_addr, ETH_ALEN);
++		goto err_chk;
++	}
++
++err_chk:
++	if (rtw_check_invalid_mac_address(mac, _TRUE) == _TRUE) {
++#if DEFAULT_RANDOM_MACADDR
++		RTW_ERR("invalid mac addr:"MAC_FMT", assign random MAC\n", MAC_ARG(mac));
++		*((u32 *)(&mac[2])) = rtw_random32();
++		mac[0] = 0x00;
++		mac[1] = 0xe0;
++		mac[2] = 0x4c;
++#else
++		RTW_ERR("invalid mac addr:"MAC_FMT", assign default one\n", MAC_ARG(mac));
++		mac[0] = 0x00;
++		mac[1] = 0xe0;
++		mac[2] = 0x4c;
++		mac[3] = 0x87;
++		mac[4] = 0x00;
++		mac[5] = 0x00;
++#endif
++	}
++
++	_rtw_memcpy(out, mac, ETH_ALEN);
++	RTW_INFO("%s mac addr:"MAC_FMT"\n", __func__, MAC_ARG(out));
++}
++
++#ifdef CONFIG_80211N_HT
++void dump_ht_cap_ie_content(void *sel, u8 *buf, u32 buf_len)
++{
++	if (buf_len != 26) {
++		RTW_PRINT_SEL(sel, "Invalid HT capability IE len:%d != %d\n", buf_len, 26);
++		return;
++	}
++
++	RTW_PRINT_SEL(sel, "HT Capabilities Info:%02x%02x\n", *(buf), *(buf + 1));
++	RTW_PRINT_SEL(sel, "A-MPDU Parameters:"HT_AMPDU_PARA_FMT"\n"
++		      , HT_AMPDU_PARA_ARG(HT_CAP_ELE_AMPDU_PARA(buf)));
++	RTW_PRINT_SEL(sel, "Supported MCS Set:"HT_SUP_MCS_SET_FMT"\n"
++		      , HT_SUP_MCS_SET_ARG(HT_CAP_ELE_SUP_MCS_SET(buf)));
++}
++
++void dump_ht_cap_ie(void *sel, u8 *ie, u32 ie_len)
++{
++	u8 *pos = (u8 *)ie;
++	u16 id;
++	u16 len;
++
++	u8 *ht_cap_ie;
++	sint ht_cap_ielen;
++
++	ht_cap_ie = rtw_get_ie(ie, _HT_CAPABILITY_IE_, &ht_cap_ielen, ie_len);
++	if (!ie || ht_cap_ie != ie)
++		return;
++
++	dump_ht_cap_ie_content(sel, ht_cap_ie + 2, ht_cap_ielen);
++}
++#endif /* CONFIG_80211N_HT */
++
++void dump_ies(void *sel, u8 *buf, u32 buf_len)
++{
++	u8 *pos = (u8 *)buf;
++	u8 id, len;
++
++	while (pos - buf + 1 < buf_len) {
++		id = *pos;
++		len = *(pos + 1);
++
++		RTW_PRINT_SEL(sel, "%s ID:%u, LEN:%u\n", __FUNCTION__, id, len);
++#ifdef CONFIG_80211N_HT
++		dump_ht_cap_ie(sel, pos, len + 2);
++#endif
++		dump_wps_ie(sel, pos, len + 2);
++#ifdef CONFIG_P2P
++		dump_p2p_ie(sel, pos, len + 2);
++#ifdef CONFIG_WFD
++		dump_wfd_ie(sel, pos, len + 2);
++#endif
++#endif
++
++		pos += (2 + len);
++	}
++}
++
++void dump_wps_ie(void *sel, u8 *ie, u32 ie_len)
++{
++	u8 *pos = (u8 *)ie;
++	u16 id;
++	u16 len;
++
++	u8 *wps_ie;
++	uint wps_ielen;
++
++	wps_ie = rtw_get_wps_ie(ie, ie_len, NULL, &wps_ielen);
++	if (wps_ie != ie || wps_ielen == 0)
++		return;
++
++	pos += 6;
++	while (pos - ie + 4 <= ie_len) {
++		id = RTW_GET_BE16(pos);
++		len = RTW_GET_BE16(pos + 2);
++
++		RTW_PRINT_SEL(sel, "%s ID:0x%04x, LEN:%u%s\n", __func__, id, len
++			, ((pos - ie + 4 + len) <= ie_len) ? "" : "(exceed ie_len)");
++
++		pos += (4 + len);
++	}
++}
++
++/**
++ * rtw_ies_get_chbw - get operation ch, bw, offset from IEs of BSS.
++ * @ies: pointer of the first tlv IE
++ * @ies_len: length of @ies
++ * @ch: pointer of ch, used as output
++ * @bw: pointer of bw, used as output
++ * @offset: pointer of offset, used as output
++ */
++void rtw_ies_get_chbw(u8 *ies, int ies_len, u8 *ch, u8 *bw, u8 *offset)
++{
++	u8 *p;
++	int	ie_len;
++
++	*ch = 0;
++	*bw = CHANNEL_WIDTH_20;
++	*offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++	p = rtw_get_ie(ies, _DSSET_IE_, &ie_len, ies_len);
++	if (p && ie_len > 0)
++		*ch = *(p + 2);
++
++#ifdef CONFIG_80211N_HT
++	{
++		u8 *ht_cap_ie, *ht_op_ie;
++		int ht_cap_ielen, ht_op_ielen;
++
++		ht_cap_ie = rtw_get_ie(ies, EID_HTCapability, &ht_cap_ielen, ies_len);
++		if (ht_cap_ie && ht_cap_ielen) {
++			if (GET_HT_CAP_ELE_CHL_WIDTH(ht_cap_ie + 2))
++				*bw = CHANNEL_WIDTH_40;
++		}
++
++		ht_op_ie = rtw_get_ie(ies, EID_HTInfo, &ht_op_ielen, ies_len);
++		if (ht_op_ie && ht_op_ielen) {
++			if (*ch == 0)
++				*ch = GET_HT_OP_ELE_PRI_CHL(ht_op_ie + 2);
++			else if (*ch != 0 && *ch != GET_HT_OP_ELE_PRI_CHL(ht_op_ie + 2)) {
++				RTW_INFO("%s ch inconsistent, DSSS:%u, HT primary:%u\n"
++					, __func__, *ch, GET_HT_OP_ELE_PRI_CHL(ht_op_ie + 2));
++			}
++
++			if (!GET_HT_OP_ELE_STA_CHL_WIDTH(ht_op_ie + 2))
++				*bw = CHANNEL_WIDTH_20;
++
++			if (*bw == CHANNEL_WIDTH_40) {
++				switch (GET_HT_OP_ELE_2ND_CHL_OFFSET(ht_op_ie + 2)) {
++				case SCA:
++					*offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++					break;
++				case SCB:
++					*offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++					break;
++				}
++			}
++		}
++	}
++#endif /* CONFIG_80211N_HT */
++#ifdef CONFIG_80211AC_VHT
++	{
++		u8 *vht_op_ie;
++		int vht_op_ielen;
++
++		vht_op_ie = rtw_get_ie(ies, EID_VHTOperation, &vht_op_ielen, ies_len);
++		if (vht_op_ie && vht_op_ielen) {
++			/* enable VHT 80 before check enable HT40 or not */
++			if (GET_VHT_OPERATION_ELE_CHL_WIDTH(vht_op_ie + 2)  >=  1) {
++				/* for HT40, enable VHT80 */
++				if (*bw == CHANNEL_WIDTH_40)
++					*bw = CHANNEL_WIDTH_80;
++				/* for HT20, enable VHT20 */
++				else if (*bw == CHANNEL_WIDTH_20) {
++					/* modify VHT OP IE */
++					SET_VHT_OPERATION_ELE_CHL_WIDTH(vht_op_ie + 2, 0);
++					/* reset to 0 for VHT20 */
++					SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ1(vht_op_ie + 2, 0);
++					SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ2(vht_op_ie + 2, 0);
++				}
++			} else {
++				/*
++				  VHT OP WIDTH = 0  under HT20/HT40
++				  if REGSTY_BW_5G(pregistrypriv) < CHANNEL_WIDTH_80 in rtw_build_vht_operation_ie
++				*/
++			}
++		}
++	}
++#endif
++}
++
++void rtw_bss_get_chbw(WLAN_BSSID_EX *bss, u8 *ch, u8 *bw, u8 *offset)
++{
++	rtw_ies_get_chbw(bss->IEs + sizeof(NDIS_802_11_FIXED_IEs)
++		, bss->IELength - sizeof(NDIS_802_11_FIXED_IEs)
++		, ch, bw, offset);
++
++	if (*ch == 0)
++		*ch = bss->Configuration.DSConfig;
++	else if (*ch != bss->Configuration.DSConfig) {
++		RTW_INFO("inconsistent ch - ies:%u bss->Configuration.DSConfig:%u\n"
++			 , *ch, bss->Configuration.DSConfig);
++		*ch = bss->Configuration.DSConfig;
++		rtw_warn_on(1);
++	}
++}
++
++/**
++ * rtw_is_chbw_grouped - test if the two ch settings can be grouped together
++ * @ch_a: ch of set a
++ * @bw_a: bw of set a
++ * @offset_a: offset of set a
++ * @ch_b: ch of set b
++ * @bw_b: bw of set b
++ * @offset_b: offset of set b
++ */
++bool rtw_is_chbw_grouped(u8 ch_a, u8 bw_a, u8 offset_a
++			 , u8 ch_b, u8 bw_b, u8 offset_b)
++{
++	bool is_grouped = _FALSE;
++
++	if (ch_a != ch_b) {
++		/* ch is different */
++		goto exit;
++	} else if ((bw_a == CHANNEL_WIDTH_40 || bw_a == CHANNEL_WIDTH_80)
++		   && (bw_b == CHANNEL_WIDTH_40 || bw_b == CHANNEL_WIDTH_80)
++		  ) {
++		if (offset_a != offset_b)
++			goto exit;
++	}
++
++	is_grouped = _TRUE;
++
++exit:
++	return is_grouped;
++}
++
++/**
++ * rtw_sync_chbw - obey g_ch, adjust g_bw, g_offset, bw, offset
++ * @req_ch: pointer of the request ch, may be modified further
++ * @req_bw: pointer of the request bw, may be modified further
++ * @req_offset: pointer of the request offset, may be modified further
++ * @g_ch: pointer of the ongoing group ch
++ * @g_bw: pointer of the ongoing group bw, may be modified further
++ * @g_offset: pointer of the ongoing group offset, may be modified further
++ */
++void rtw_sync_chbw(u8 *req_ch, u8 *req_bw, u8 *req_offset
++		   , u8 *g_ch, u8 *g_bw, u8 *g_offset)
++{
++
++	*req_ch = *g_ch;
++
++	if (*req_bw == CHANNEL_WIDTH_80 && *g_ch <= 14) {
++		/*2.4G ch, downgrade to 40Mhz */
++		*req_bw = CHANNEL_WIDTH_40;
++	}
++
++	switch (*req_bw) {
++	case CHANNEL_WIDTH_80:
++		if (*g_bw == CHANNEL_WIDTH_40 || *g_bw == CHANNEL_WIDTH_80)
++			*req_offset = *g_offset;
++		else if (*g_bw == CHANNEL_WIDTH_20)
++			*req_offset = rtw_get_offset_by_ch(*req_ch);
++
++		if (*req_offset == HAL_PRIME_CHNL_OFFSET_DONT_CARE) {
++			RTW_ERR("%s req 80MHz BW without offset, down to 20MHz\n", __func__);
++			rtw_warn_on(1);
++			*req_bw = CHANNEL_WIDTH_20;
++		}
++		break;
++	case CHANNEL_WIDTH_40:
++		if (*g_bw == CHANNEL_WIDTH_40 || *g_bw == CHANNEL_WIDTH_80)
++			*req_offset = *g_offset;
++		else if (*g_bw == CHANNEL_WIDTH_20)
++			*req_offset = rtw_get_offset_by_ch(*req_ch);
++
++		if (*req_offset == HAL_PRIME_CHNL_OFFSET_DONT_CARE) {
++			RTW_ERR("%s req 40MHz BW without offset, down to 20MHz\n", __func__);
++			rtw_warn_on(1);
++			*req_bw = CHANNEL_WIDTH_20;
++		}
++		break;
++	case CHANNEL_WIDTH_20:
++		*req_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	default:
++		RTW_ERR("%s req unsupported BW:%u\n", __func__, *req_bw);
++		rtw_warn_on(1);
++	}
++
++	if (*req_bw > *g_bw) {
++		*g_bw = *req_bw;
++		*g_offset = *req_offset;
++	}
++}
++
++/**
++ * rtw_get_p2p_merged_len - Get merged ie length from muitiple p2p ies.
++ * @in_ie: Pointer of the first p2p ie
++ * @in_len: Total len of muiltiple p2p ies
++ * Returns: Length of merged p2p ie length
++ */
++u32 rtw_get_p2p_merged_ies_len(u8 *in_ie, u32 in_len)
++{
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 OUI[4] = { 0x50, 0x6f, 0x9a, 0x09 };
++	int i = 0;
++	int j = 0, len = 0;
++
++	while (i < in_len) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(in_ie + i);
++
++		if (pIE->ElementID == _VENDOR_SPECIFIC_IE_ && _rtw_memcmp(pIE->data, OUI, 4)) {
++			len += pIE->Length - 4; /* 4 is P2P OUI length, don't count it in this loop */
++		}
++
++		i += (pIE->Length + 2);
++	}
++
++	return len + 4;	/* Append P2P OUI length at last. */
++}
++
++/**
++ * rtw_p2p_merge_ies - Merge muitiple p2p ies into one
++ * @in_ie: Pointer of the first p2p ie
++ * @in_len: Total len of muiltiple p2p ies
++ * @merge_ie: Pointer of merged ie
++ * Returns: Length of merged p2p ie
++ */
++int rtw_p2p_merge_ies(u8 *in_ie, u32 in_len, u8 *merge_ie)
++{
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 len = 0;
++	u8 OUI[4] = { 0x50, 0x6f, 0x9a, 0x09 };
++	u8 ELOUI[6] = { 0xDD, 0x00, 0x50, 0x6f, 0x9a, 0x09 };	/* EID;Len;OUI, Len would copy at the end of function */
++	int i = 0;
++
++	if (merge_ie != NULL) {
++		/* Set first P2P OUI */
++		_rtw_memcpy(merge_ie, ELOUI, 6);
++		merge_ie += 6;
++
++		while (i < in_len) {
++			pIE = (PNDIS_802_11_VARIABLE_IEs)(in_ie + i);
++
++			/* Take out the rest of P2P OUIs */
++			if (pIE->ElementID == _VENDOR_SPECIFIC_IE_ && _rtw_memcmp(pIE->data, OUI, 4)) {
++				_rtw_memcpy(merge_ie, pIE->data + 4, pIE->Length - 4);
++				len += pIE->Length - 4;
++				merge_ie += pIE->Length - 4;
++			}
++
++			i += (pIE->Length + 2);
++		}
++
++		return len + 4;	/* 4 is for P2P OUI */
++
++	}
++
++	return 0;
++}
++
++void dump_p2p_ie(void *sel, u8 *ie, u32 ie_len)
++{
++	u8 *pos = (u8 *)ie;
++	u8 id;
++	u16 len;
++
++	u8 *p2p_ie;
++	uint p2p_ielen;
++
++	p2p_ie = rtw_get_p2p_ie(ie, ie_len, NULL, &p2p_ielen);
++	if (p2p_ie != ie || p2p_ielen == 0)
++		return;
++
++	pos += 6;
++	while (pos - ie + 3 <= ie_len) {
++		id = *pos;
++		len = RTW_GET_LE16(pos + 1);
++
++		RTW_PRINT_SEL(sel, "%s ID:%u, LEN:%u%s\n", __func__, id, len
++			, ((pos - ie + 3 + len) <= ie_len) ? "" : "(exceed ie_len)");
++
++		pos += (3 + len);
++	}
++}
++
++/**
++ * rtw_get_p2p_ie - Search P2P IE from a series of IEs
++ * @in_ie: Address of IEs to search
++ * @in_len: Length limit from in_ie
++ * @p2p_ie: If not NULL and P2P IE is found, P2P IE will be copied to the buf starting from p2p_ie
++ * @p2p_ielen: If not NULL and P2P IE is found, will set to the length of the entire P2P IE
++ *
++ * Returns: The address of the P2P IE found, or NULL
++ */
++u8 *rtw_get_p2p_ie(u8 *in_ie, int in_len, u8 *p2p_ie, uint *p2p_ielen)
++{
++	uint cnt;
++	u8 *p2p_ie_ptr = NULL;
++	u8 eid, p2p_oui[4] = {0x50, 0x6F, 0x9A, 0x09};
++
++	if (p2p_ielen)
++		*p2p_ielen = 0;
++
++	if (!in_ie || in_len < 0) {
++		rtw_warn_on(1);
++		return p2p_ie_ptr;
++	}
++
++	if (in_len <= 0)
++		return p2p_ie_ptr;
++
++	cnt = 0;
++
++	while (cnt + 1 + 4 < in_len) {
++		eid = in_ie[cnt];
++
++		if (cnt + 1 + 4 >= MAX_IE_SZ) {
++			rtw_warn_on(1);
++			return NULL;
++		}
++
++		if (eid == WLAN_EID_VENDOR_SPECIFIC && _rtw_memcmp(&in_ie[cnt + 2], p2p_oui, 4) == _TRUE) {
++			p2p_ie_ptr = in_ie + cnt;
++
++			if (p2p_ie)
++				_rtw_memcpy(p2p_ie, &in_ie[cnt], in_ie[cnt + 1] + 2);
++
++			if (p2p_ielen)
++				*p2p_ielen = in_ie[cnt + 1] + 2;
++
++			break;
++		} else
++			cnt += in_ie[cnt + 1] + 2;
++
++	}
++
++	return p2p_ie_ptr;
++}
++
++/**
++ * rtw_get_p2p_attr - Search a specific P2P attribute from a given P2P IE
++ * @p2p_ie: Address of P2P IE to search
++ * @p2p_ielen: Length limit from p2p_ie
++ * @target_attr_id: The attribute ID of P2P attribute to search
++ * @buf_attr: If not NULL and the P2P attribute is found, P2P attribute will be copied to the buf starting from buf_attr
++ * @len_attr: If not NULL and the P2P attribute is found, will set to the length of the entire P2P attribute
++ *
++ * Returns: the address of the specific WPS attribute found, or NULL
++ */
++u8 *rtw_get_p2p_attr(u8 *p2p_ie, uint p2p_ielen, u8 target_attr_id , u8 *buf_attr, u32 *len_attr)
++{
++	u8 *attr_ptr = NULL;
++	u8 *target_attr_ptr = NULL;
++	u8 p2p_oui[4] = {0x50, 0x6F, 0x9A, 0x09};
++
++	if (len_attr)
++		*len_attr = 0;
++
++	if (!p2p_ie
++	    || p2p_ielen <= 6
++	    || (p2p_ie[0] != WLAN_EID_VENDOR_SPECIFIC)
++	    || (_rtw_memcmp(p2p_ie + 2, p2p_oui, 4) != _TRUE))
++		return attr_ptr;
++
++	/* 6 = 1(Element ID) + 1(Length) + 3 (OUI) + 1(OUI Type) */
++	attr_ptr = p2p_ie + 6; /* goto first attr */
++
++	while ((attr_ptr - p2p_ie + 3) <= p2p_ielen) {
++		/* 3 = 1(Attribute ID) + 2(Length) */
++		u8 attr_id = *attr_ptr;
++		u16 attr_data_len = RTW_GET_LE16(attr_ptr + 1);
++		u16 attr_len = attr_data_len + 3;
++
++		if (0)
++			RTW_INFO("%s attr_ptr:%p, id:%u, length:%u\n", __func__, attr_ptr, attr_id, attr_data_len);
++
++		if ((attr_ptr - p2p_ie + attr_len) > p2p_ielen)
++			break;
++
++		if (attr_id == target_attr_id) {
++			target_attr_ptr = attr_ptr;
++
++			if (buf_attr)
++				_rtw_memcpy(buf_attr, attr_ptr, attr_len);
++
++			if (len_attr)
++				*len_attr = attr_len;
++
++			break;
++		} else
++			attr_ptr += attr_len;
++	}
++
++	return target_attr_ptr;
++}
++
++/**
++ * rtw_get_p2p_attr_content - Search a specific P2P attribute content from a given P2P IE
++ * @p2p_ie: Address of P2P IE to search
++ * @p2p_ielen: Length limit from p2p_ie
++ * @target_attr_id: The attribute ID of P2P attribute to search
++ * @buf_content: If not NULL and the P2P attribute is found, P2P attribute content will be copied to the buf starting from buf_content
++ * @len_content: If not NULL and the P2P attribute is found, will set to the length of the P2P attribute content
++ *
++ * Returns: the address of the specific P2P attribute content found, or NULL
++ */
++u8 *rtw_get_p2p_attr_content(u8 *p2p_ie, uint p2p_ielen, u8 target_attr_id , u8 *buf_content, uint *len_content)
++{
++	u8 *attr_ptr;
++	u32 attr_len;
++
++	if (len_content)
++		*len_content = 0;
++
++	attr_ptr = rtw_get_p2p_attr(p2p_ie, p2p_ielen, target_attr_id, NULL, &attr_len);
++
++	if (attr_ptr && attr_len) {
++		if (buf_content)
++			_rtw_memcpy(buf_content, attr_ptr + 3, attr_len - 3);
++
++		if (len_content)
++			*len_content = attr_len - 3;
++
++		return attr_ptr + 3;
++	}
++
++	return NULL;
++}
++
++u32 rtw_set_p2p_attr_content(u8 *pbuf, u8 attr_id, u16 attr_len, u8 *pdata_attr)
++{
++	u32 a_len;
++
++	*pbuf = attr_id;
++
++	/* *(u16*)(pbuf + 1) = cpu_to_le16(attr_len); */
++	RTW_PUT_LE16(pbuf + 1, attr_len);
++
++	if (pdata_attr)
++		_rtw_memcpy(pbuf + 3, pdata_attr, attr_len);
++
++	a_len = attr_len + 3;
++
++	return a_len;
++}
++
++uint rtw_del_p2p_ie(u8 *ies, uint ies_len_ori, const char *msg)
++{
++#define DBG_DEL_P2P_IE 0
++
++	u8 *target_ie;
++	u32 target_ie_len;
++	uint ies_len = ies_len_ori;
++	int index = 0;
++
++	while (1) {
++		target_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &target_ie_len);
++		if (target_ie && target_ie_len) {
++			u8 *next_ie = target_ie + target_ie_len;
++			uint remain_len = ies_len - (next_ie - ies);
++
++			if (DBG_DEL_P2P_IE && msg) {
++				RTW_INFO("%s %d before\n", __func__, index);
++				dump_ies(RTW_DBGDUMP, ies, ies_len);
++
++				RTW_INFO("ies:%p, ies_len:%u\n", ies, ies_len);
++				RTW_INFO("target_ie:%p, target_ie_len:%u\n", target_ie, target_ie_len);
++				RTW_INFO("next_ie:%p, remain_len:%u\n", next_ie, remain_len);
++			}
++
++			_rtw_memmove(target_ie, next_ie, remain_len);
++			_rtw_memset(target_ie + remain_len, 0, target_ie_len);
++			ies_len -= target_ie_len;
++
++			if (DBG_DEL_P2P_IE && msg) {
++				RTW_INFO("%s %d after\n", __func__, index);
++				dump_ies(RTW_DBGDUMP, ies, ies_len);
++			}
++
++			index++;
++		} else
++			break;
++	}
++
++	return ies_len;
++}
++
++uint rtw_del_p2p_attr(u8 *ie, uint ielen_ori, u8 attr_id)
++{
++#define DBG_DEL_P2P_ATTR 0
++
++	u8 *target_attr;
++	u32 target_attr_len;
++	uint ielen = ielen_ori;
++	int index = 0;
++
++	while (1) {
++		target_attr = rtw_get_p2p_attr(ie, ielen, attr_id, NULL, &target_attr_len);
++		if (target_attr && target_attr_len) {
++			u8 *next_attr = target_attr + target_attr_len;
++			uint remain_len = ielen - (next_attr - ie);
++
++			if (DBG_DEL_P2P_ATTR) {
++				RTW_INFO("%s %d before\n", __func__, index);
++				dump_ies(RTW_DBGDUMP, ie, ielen);
++
++				RTW_INFO("ie:%p, ielen:%u\n", ie, ielen);
++				RTW_INFO("target_attr:%p, target_attr_len:%u\n", target_attr, target_attr_len);
++				RTW_INFO("next_attr:%p, remain_len:%u\n", next_attr, remain_len);
++			}
++
++			_rtw_memmove(target_attr, next_attr, remain_len);
++			_rtw_memset(target_attr + remain_len, 0, target_attr_len);
++			*(ie + 1) -= target_attr_len;
++			ielen -= target_attr_len;
++
++			if (DBG_DEL_P2P_ATTR) {
++				RTW_INFO("%s %d after\n", __func__, index);
++				dump_ies(RTW_DBGDUMP, ie, ielen);
++			}
++
++			index++;
++		} else
++			break;
++	}
++
++	return ielen;
++}
++
++inline u8 *rtw_bss_ex_get_p2p_ie(WLAN_BSSID_EX *bss_ex, u8 *p2p_ie, uint *p2p_ielen)
++{
++	return rtw_get_p2p_ie(BSS_EX_TLV_IES(bss_ex), BSS_EX_TLV_IES_LEN(bss_ex), p2p_ie, p2p_ielen);
++}
++
++void rtw_bss_ex_del_p2p_ie(WLAN_BSSID_EX *bss_ex)
++{
++#define DBG_BSS_EX_DEL_P2P_IE 0
++
++	u8 *ies = BSS_EX_TLV_IES(bss_ex);
++	uint ies_len_ori = BSS_EX_TLV_IES_LEN(bss_ex);
++	uint ies_len;
++
++	ies_len = rtw_del_p2p_ie(ies, ies_len_ori, DBG_BSS_EX_DEL_P2P_IE ? __func__ : NULL);
++	bss_ex->IELength -= ies_len_ori - ies_len;
++}
++
++void rtw_bss_ex_del_p2p_attr(WLAN_BSSID_EX *bss_ex, u8 attr_id)
++{
++#define DBG_BSS_EX_DEL_P2P_ATTR 0
++
++	u8 *ies = BSS_EX_TLV_IES(bss_ex);
++	uint ies_len = BSS_EX_TLV_IES_LEN(bss_ex);
++
++	u8 *ie;
++	uint ie_len, ie_len_ori;
++
++	int index = 0;
++
++	while (1) {
++		ie = rtw_get_p2p_ie(ies, ies_len, NULL, &ie_len_ori);
++		if (ie) {
++			u8 *next_ie_ori = ie + ie_len_ori;
++			uint remain_len = bss_ex->IELength - (next_ie_ori - bss_ex->IEs);
++			u8 has_target_attr = 0;
++
++			if (DBG_BSS_EX_DEL_P2P_ATTR) {
++				if (rtw_get_p2p_attr(ie, ie_len_ori, attr_id, NULL, NULL)) {
++					RTW_INFO("%s %d before\n", __func__, index);
++					dump_ies(RTW_DBGDUMP, BSS_EX_TLV_IES(bss_ex), BSS_EX_TLV_IES_LEN(bss_ex));
++
++					RTW_INFO("ies:%p, ies_len:%u\n", ies, ies_len);
++					RTW_INFO("ie:%p, ie_len_ori:%u\n", ie, ie_len_ori);
++					RTW_INFO("next_ie_ori:%p, remain_len:%u\n", next_ie_ori, remain_len);
++					has_target_attr = 1;
++				}
++			}
++
++			ie_len = rtw_del_p2p_attr(ie, ie_len_ori, attr_id);
++			if (ie_len != ie_len_ori) {
++				u8 *next_ie = ie + ie_len;
++
++				_rtw_memmove(next_ie, next_ie_ori, remain_len);
++				_rtw_memset(next_ie + remain_len, 0, ie_len_ori - ie_len);
++				bss_ex->IELength -= ie_len_ori - ie_len;
++
++				ies = next_ie;
++			} else
++				ies = next_ie_ori;
++
++			if (DBG_BSS_EX_DEL_P2P_ATTR) {
++				if (has_target_attr) {
++					RTW_INFO("%s %d after\n", __func__, index);
++					dump_ies(RTW_DBGDUMP, BSS_EX_TLV_IES(bss_ex), BSS_EX_TLV_IES_LEN(bss_ex));
++				}
++			}
++
++			ies_len = remain_len;
++
++			index++;
++		} else
++			break;
++	}
++}
++
++void dump_wfd_ie(void *sel, u8 *ie, u32 ie_len)
++{
++	u8 *pos = (u8 *)ie;
++	u8 id;
++	u16 len;
++
++	u8 *wfd_ie;
++	uint wfd_ielen;
++
++	wfd_ie = rtw_get_wfd_ie(ie, ie_len, NULL, &wfd_ielen);
++	if (wfd_ie != ie || wfd_ielen == 0)
++		return;
++
++	pos += 6;
++	while (pos - ie + 3 <= ie_len) {
++		id = *pos;
++		len = RTW_GET_BE16(pos + 1);
++
++		RTW_PRINT_SEL(sel, "%s ID:%u, LEN:%u%s\n", __func__, id, len
++			, ((pos - ie + 3 + len) <= ie_len) ? "" : "(exceed ie_len)");
++
++		pos += (3 + len);
++	}
++}
++
++/**
++ * rtw_get_wfd_ie - Search WFD IE from a series of IEs
++ * @in_ie: Address of IEs to search
++ * @in_len: Length limit from in_ie
++ * @wfd_ie: If not NULL and WFD IE is found, WFD IE will be copied to the buf starting from wfd_ie
++ * @wfd_ielen: If not NULL and WFD IE is found, will set to the length of the entire WFD IE
++ *
++ * Returns: The address of the P2P IE found, or NULL
++ */
++u8 *rtw_get_wfd_ie(u8 *in_ie, int in_len, u8 *wfd_ie, uint *wfd_ielen)
++{
++	uint cnt;
++	u8 *wfd_ie_ptr = NULL;
++	u8 eid, wfd_oui[4] = {0x50, 0x6F, 0x9A, 0x0A};
++
++	if (wfd_ielen)
++		*wfd_ielen = 0;
++
++	if (!in_ie || in_len < 0) {
++		rtw_warn_on(1);
++		return wfd_ie_ptr;
++	}
++
++	if (in_len <= 0)
++		return wfd_ie_ptr;
++
++	cnt = 0;
++
++	while (cnt + 1 + 4 < in_len) {
++		eid = in_ie[cnt];
++
++		if (cnt + 1 + 4 >= MAX_IE_SZ) {
++			rtw_warn_on(1);
++			return NULL;
++		}
++
++		if (eid == WLAN_EID_VENDOR_SPECIFIC && _rtw_memcmp(&in_ie[cnt + 2], wfd_oui, 4) == _TRUE) {
++			wfd_ie_ptr = in_ie + cnt;
++
++			if (wfd_ie)
++				_rtw_memcpy(wfd_ie, &in_ie[cnt], in_ie[cnt + 1] + 2);
++
++			if (wfd_ielen)
++				*wfd_ielen = in_ie[cnt + 1] + 2;
++
++			break;
++		} else
++			cnt += in_ie[cnt + 1] + 2;
++
++	}
++
++	return wfd_ie_ptr;
++}
++
++/**
++ * rtw_get_wfd_attr - Search a specific WFD attribute from a given WFD IE
++ * @wfd_ie: Address of WFD IE to search
++ * @wfd_ielen: Length limit from wfd_ie
++ * @target_attr_id: The attribute ID of WFD attribute to search
++ * @buf_attr: If not NULL and the WFD attribute is found, WFD attribute will be copied to the buf starting from buf_attr
++ * @len_attr: If not NULL and the WFD attribute is found, will set to the length of the entire WFD attribute
++ *
++ * Returns: the address of the specific WPS attribute found, or NULL
++ */
++u8 *rtw_get_wfd_attr(u8 *wfd_ie, uint wfd_ielen, u8 target_attr_id, u8 *buf_attr, u32 *len_attr)
++{
++	u8 *attr_ptr = NULL;
++	u8 *target_attr_ptr = NULL;
++	u8 wfd_oui[4] = {0x50, 0x6F, 0x9A, 0x0A};
++
++	if (len_attr)
++		*len_attr = 0;
++
++	if (!wfd_ie
++	    || wfd_ielen <= 6
++	    || (wfd_ie[0] != WLAN_EID_VENDOR_SPECIFIC)
++	    || (_rtw_memcmp(wfd_ie + 2, wfd_oui, 4) != _TRUE))
++		return attr_ptr;
++
++	/* 6 = 1(Element ID) + 1(Length) + 3 (OUI) + 1(OUI Type) */
++	attr_ptr = wfd_ie + 6; /* goto first attr */
++
++	while ((attr_ptr - wfd_ie + 3) <= wfd_ielen) {
++		/* 3 = 1(Attribute ID) + 2(Length) */
++		u8 attr_id = *attr_ptr;
++		u16 attr_data_len = RTW_GET_BE16(attr_ptr + 1);
++		u16 attr_len = attr_data_len + 3;
++
++		if (0)
++			RTW_INFO("%s attr_ptr:%p, id:%u, length:%u\n", __func__, attr_ptr, attr_id, attr_data_len);
++
++		if ((attr_ptr - wfd_ie + attr_len) > wfd_ielen)
++			break;
++
++		if (attr_id == target_attr_id) {
++			target_attr_ptr = attr_ptr;
++
++			if (buf_attr)
++				_rtw_memcpy(buf_attr, attr_ptr, attr_len);
++
++			if (len_attr)
++				*len_attr = attr_len;
++
++			break;
++		} else
++			attr_ptr += attr_len;
++	}
++
++	return target_attr_ptr;
++}
++
++/**
++ * rtw_get_wfd_attr_content - Search a specific WFD attribute content from a given WFD IE
++ * @wfd_ie: Address of WFD IE to search
++ * @wfd_ielen: Length limit from wfd_ie
++ * @target_attr_id: The attribute ID of WFD attribute to search
++ * @buf_content: If not NULL and the WFD attribute is found, WFD attribute content will be copied to the buf starting from buf_content
++ * @len_content: If not NULL and the WFD attribute is found, will set to the length of the WFD attribute content
++ *
++ * Returns: the address of the specific WFD attribute content found, or NULL
++ */
++u8 *rtw_get_wfd_attr_content(u8 *wfd_ie, uint wfd_ielen, u8 target_attr_id, u8 *buf_content, uint *len_content)
++{
++	u8 *attr_ptr;
++	u32 attr_len;
++
++	if (len_content)
++		*len_content = 0;
++
++	attr_ptr = rtw_get_wfd_attr(wfd_ie, wfd_ielen, target_attr_id, NULL, &attr_len);
++
++	if (attr_ptr && attr_len) {
++		if (buf_content)
++			_rtw_memcpy(buf_content, attr_ptr + 3, attr_len - 3);
++
++		if (len_content)
++			*len_content = attr_len - 3;
++
++		return attr_ptr + 3;
++	}
++
++	return NULL;
++}
++
++uint rtw_del_wfd_ie(u8 *ies, uint ies_len_ori, const char *msg)
++{
++#define DBG_DEL_WFD_IE 0
++
++	u8 *target_ie;
++	u32 target_ie_len;
++	uint ies_len = ies_len_ori;
++	int index = 0;
++
++	while (1) {
++		target_ie = rtw_get_wfd_ie(ies, ies_len, NULL, &target_ie_len);
++		if (target_ie && target_ie_len) {
++			u8 *next_ie = target_ie + target_ie_len;
++			uint remain_len = ies_len - (next_ie - ies);
++
++			if (DBG_DEL_WFD_IE && msg) {
++				RTW_INFO("%s %d before\n", __func__, index);
++				dump_ies(RTW_DBGDUMP, ies, ies_len);
++
++				RTW_INFO("ies:%p, ies_len:%u\n", ies, ies_len);
++				RTW_INFO("target_ie:%p, target_ie_len:%u\n", target_ie, target_ie_len);
++				RTW_INFO("next_ie:%p, remain_len:%u\n", next_ie, remain_len);
++			}
++
++			_rtw_memmove(target_ie, next_ie, remain_len);
++			_rtw_memset(target_ie + remain_len, 0, target_ie_len);
++			ies_len -= target_ie_len;
++
++			if (DBG_DEL_WFD_IE && msg) {
++				RTW_INFO("%s %d after\n", __func__, index);
++				dump_ies(RTW_DBGDUMP, ies, ies_len);
++			}
++
++			index++;
++		} else
++			break;
++	}
++
++	return ies_len;
++}
++
++uint rtw_del_wfd_attr(u8 *ie, uint ielen_ori, u8 attr_id)
++{
++#define DBG_DEL_WFD_ATTR 0
++
++	u8 *target_attr;
++	u32 target_attr_len;
++	uint ielen = ielen_ori;
++	int index = 0;
++
++	while (1) {
++		target_attr = rtw_get_wfd_attr(ie, ielen, attr_id, NULL, &target_attr_len);
++		if (target_attr && target_attr_len) {
++			u8 *next_attr = target_attr + target_attr_len;
++			uint remain_len = ielen - (next_attr - ie);
++
++			if (DBG_DEL_WFD_ATTR) {
++				RTW_INFO("%s %d before\n", __func__, index);
++				dump_ies(RTW_DBGDUMP, ie, ielen);
++
++				RTW_INFO("ie:%p, ielen:%u\n", ie, ielen);
++				RTW_INFO("target_attr:%p, target_attr_len:%u\n", target_attr, target_attr_len);
++				RTW_INFO("next_attr:%p, remain_len:%u\n", next_attr, remain_len);
++			}
++
++			_rtw_memmove(target_attr, next_attr, remain_len);
++			_rtw_memset(target_attr + remain_len, 0, target_attr_len);
++			*(ie + 1) -= target_attr_len;
++			ielen -= target_attr_len;
++
++			if (DBG_DEL_WFD_ATTR) {
++				RTW_INFO("%s %d after\n", __func__, index);
++				dump_ies(RTW_DBGDUMP, ie, ielen);
++			}
++
++			index++;
++		} else
++			break;
++	}
++
++	return ielen;
++}
++
++inline u8 *rtw_bss_ex_get_wfd_ie(WLAN_BSSID_EX *bss_ex, u8 *wfd_ie, uint *wfd_ielen)
++{
++	return rtw_get_wfd_ie(BSS_EX_TLV_IES(bss_ex), BSS_EX_TLV_IES_LEN(bss_ex), wfd_ie, wfd_ielen);
++}
++
++void rtw_bss_ex_del_wfd_ie(WLAN_BSSID_EX *bss_ex)
++{
++#define DBG_BSS_EX_DEL_WFD_IE 0
++	u8 *ies = BSS_EX_TLV_IES(bss_ex);
++	uint ies_len_ori = BSS_EX_TLV_IES_LEN(bss_ex);
++	uint ies_len;
++
++	ies_len = rtw_del_wfd_ie(ies, ies_len_ori, DBG_BSS_EX_DEL_WFD_IE ? __func__ : NULL);
++	bss_ex->IELength -= ies_len_ori - ies_len;
++}
++
++void rtw_bss_ex_del_wfd_attr(WLAN_BSSID_EX *bss_ex, u8 attr_id)
++{
++#define DBG_BSS_EX_DEL_WFD_ATTR 0
++
++	u8 *ies = BSS_EX_TLV_IES(bss_ex);
++	uint ies_len = BSS_EX_TLV_IES_LEN(bss_ex);
++
++	u8 *ie;
++	uint ie_len, ie_len_ori;
++
++	int index = 0;
++
++	while (1) {
++		ie = rtw_get_wfd_ie(ies, ies_len, NULL, &ie_len_ori);
++		if (ie) {
++			u8 *next_ie_ori = ie + ie_len_ori;
++			uint remain_len = bss_ex->IELength - (next_ie_ori - bss_ex->IEs);
++			u8 has_target_attr = 0;
++
++			if (DBG_BSS_EX_DEL_WFD_ATTR) {
++				if (rtw_get_wfd_attr(ie, ie_len_ori, attr_id, NULL, NULL)) {
++					RTW_INFO("%s %d before\n", __func__, index);
++					dump_ies(RTW_DBGDUMP, BSS_EX_TLV_IES(bss_ex), BSS_EX_TLV_IES_LEN(bss_ex));
++
++					RTW_INFO("ies:%p, ies_len:%u\n", ies, ies_len);
++					RTW_INFO("ie:%p, ie_len_ori:%u\n", ie, ie_len_ori);
++					RTW_INFO("next_ie_ori:%p, remain_len:%u\n", next_ie_ori, remain_len);
++					has_target_attr = 1;
++				}
++			}
++
++			ie_len = rtw_del_wfd_attr(ie, ie_len_ori, attr_id);
++			if (ie_len != ie_len_ori) {
++				u8 *next_ie = ie + ie_len;
++
++				_rtw_memmove(next_ie, next_ie_ori, remain_len);
++				_rtw_memset(next_ie + remain_len, 0, ie_len_ori - ie_len);
++				bss_ex->IELength -= ie_len_ori - ie_len;
++
++				ies = next_ie;
++			} else
++				ies = next_ie_ori;
++
++			if (DBG_BSS_EX_DEL_WFD_ATTR) {
++				if (has_target_attr) {
++					RTW_INFO("%s %d after\n", __func__, index);
++					dump_ies(RTW_DBGDUMP, BSS_EX_TLV_IES(bss_ex), BSS_EX_TLV_IES_LEN(bss_ex));
++				}
++			}
++
++			ies_len = remain_len;
++
++			index++;
++		} else
++			break;
++	}
++}
++
++/* Baron adds to avoid FreeBSD warning */
++int ieee80211_is_empty_essid(const char *essid, int essid_len)
++{
++	/* Single white space is for Linksys APs */
++	if (essid_len == 1 && essid[0] == ' ')
++		return 1;
++
++	/* Otherwise, if the entire essid is 0, we assume it is hidden */
++	while (essid_len) {
++		essid_len--;
++		if (essid[essid_len] != '\0')
++			return 0;
++	}
++
++	return 1;
++}
++
++int ieee80211_get_hdrlen(u16 fc)
++{
++	int hdrlen = 24;
++
++	switch (WLAN_FC_GET_TYPE(fc)) {
++	case RTW_IEEE80211_FTYPE_DATA:
++		if (fc & RTW_IEEE80211_STYPE_QOS_DATA)
++			hdrlen += 2;
++		if ((fc & RTW_IEEE80211_FCTL_FROMDS) && (fc & RTW_IEEE80211_FCTL_TODS))
++			hdrlen += 6; /* Addr4 */
++		break;
++	case RTW_IEEE80211_FTYPE_CTL:
++		switch (WLAN_FC_GET_STYPE(fc)) {
++		case RTW_IEEE80211_STYPE_CTS:
++		case RTW_IEEE80211_STYPE_ACK:
++			hdrlen = 10;
++			break;
++		default:
++			hdrlen = 16;
++			break;
++		}
++		break;
++	}
++
++	return hdrlen;
++}
++
++int rtw_get_cipher_info(struct wlan_network *pnetwork)
++{
++	u32 wpa_ielen;
++	unsigned char *pbuf;
++	int group_cipher = 0, pairwise_cipher = 0, is8021x = 0;
++	int ret = _FAIL;
++	pbuf = rtw_get_wpa_ie(&pnetwork->network.IEs[12], &wpa_ielen, pnetwork->network.IELength - 12);
++
++	if (pbuf && (wpa_ielen > 0)) {
++		if (_SUCCESS == rtw_parse_wpa_ie(pbuf, wpa_ielen + 2, &group_cipher, &pairwise_cipher, &is8021x)) {
++
++			pnetwork->BcnInfo.pairwise_cipher = pairwise_cipher;
++			pnetwork->BcnInfo.group_cipher = group_cipher;
++			pnetwork->BcnInfo.is_8021x = is8021x;
++			ret = _SUCCESS;
++		}
++	} else {
++
++		pbuf = rtw_get_wpa2_ie(&pnetwork->network.IEs[12], &wpa_ielen, pnetwork->network.IELength - 12);
++
++		if (pbuf && (wpa_ielen > 0)) {
++			if (_SUCCESS == rtw_parse_wpa2_ie(pbuf, wpa_ielen + 2, &group_cipher, &pairwise_cipher, &is8021x)) {
++				pnetwork->BcnInfo.pairwise_cipher = pairwise_cipher;
++				pnetwork->BcnInfo.group_cipher = group_cipher;
++				pnetwork->BcnInfo.is_8021x = is8021x;
++				ret = _SUCCESS;
++			}
++		}
++	}
++
++	return ret;
++}
++
++void rtw_get_bcn_info(struct wlan_network *pnetwork)
++{
++	unsigned short cap = 0;
++	u8 bencrypt = 0;
++	/* u8 wpa_ie[255],rsn_ie[255]; */
++	u16 wpa_len = 0, rsn_len = 0;
++	struct HT_info_element *pht_info = NULL;
++	struct rtw_ieee80211_ht_cap *pht_cap = NULL;
++	unsigned int		len;
++	unsigned char		*p;
++
++	_rtw_memcpy((u8 *)&cap, rtw_get_capability_from_ie(pnetwork->network.IEs), 2);
++	cap = le16_to_cpu(cap);
++	if (cap & WLAN_CAPABILITY_PRIVACY) {
++		bencrypt = 1;
++		pnetwork->network.Privacy = 1;
++	} else
++		pnetwork->BcnInfo.encryp_protocol = ENCRYP_PROTOCOL_OPENSYS;
++	rtw_get_sec_ie(pnetwork->network.IEs , pnetwork->network.IELength, NULL, &rsn_len, NULL, &wpa_len);
++
++	if (rsn_len > 0)
++		pnetwork->BcnInfo.encryp_protocol = ENCRYP_PROTOCOL_WPA2;
++	else if (wpa_len > 0)
++		pnetwork->BcnInfo.encryp_protocol = ENCRYP_PROTOCOL_WPA;
++	else {
++		if (bencrypt)
++			pnetwork->BcnInfo.encryp_protocol = ENCRYP_PROTOCOL_WEP;
++	}
++	rtw_get_cipher_info(pnetwork);
++
++	/* get bwmode and ch_offset */
++	/* parsing HT_CAP_IE */
++	p = rtw_get_ie(pnetwork->network.IEs + _FIXED_IE_LENGTH_, _HT_CAPABILITY_IE_, &len, pnetwork->network.IELength - _FIXED_IE_LENGTH_);
++	if (p && len > 0) {
++		pht_cap = (struct rtw_ieee80211_ht_cap *)(p + 2);
++		pnetwork->BcnInfo.ht_cap_info = pht_cap->cap_info;
++	} else
++		pnetwork->BcnInfo.ht_cap_info = 0;
++	/* parsing HT_INFO_IE */
++	p = rtw_get_ie(pnetwork->network.IEs + _FIXED_IE_LENGTH_, _HT_ADD_INFO_IE_, &len, pnetwork->network.IELength - _FIXED_IE_LENGTH_);
++	if (p && len > 0) {
++		pht_info = (struct HT_info_element *)(p + 2);
++		pnetwork->BcnInfo.ht_info_infos_0 = pht_info->infos[0];
++	} else
++		pnetwork->BcnInfo.ht_info_infos_0 = 0;
++}
++
++u8	rtw_ht_mcsset_to_nss(u8 *supp_mcs_set)
++{
++	u8 nss = 1;
++
++	if (supp_mcs_set[3])
++		nss = 4;
++	else if (supp_mcs_set[2])
++		nss = 3;
++	else if (supp_mcs_set[1])
++		nss = 2;
++	else if (supp_mcs_set[0])
++		nss = 1;
++	else
++		RTW_INFO("%s,%d, warning! supp_mcs_set is zero\n", __func__, __LINE__);
++	/* RTW_INFO("%s HT: %dSS\n", __FUNCTION__, nss); */
++	return nss;
++}
++
++/* show MCS rate, unit: 100Kbps */
++u16 rtw_mcs_rate(u8 rf_type, u8 bw_40MHz, u8 short_GI, unsigned char *MCS_rate)
++{
++	u16 max_rate = 0;
++
++	/*MCS_rate[2] = 3T3R , MCS_rate[1] = 2T2R , MCS_rate[0] = 1T1R*/
++	if (MCS_rate[2]) {
++		if (MCS_rate[2] & BIT(7))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 4500 : 4050) : ((short_GI) ? 2167 : 1950);
++		else if (MCS_rate[2] & BIT(6))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 4050 : 3645) : ((short_GI) ? 1950 : 1750);
++		else if (MCS_rate[2] & BIT(5))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 3600 : 3240) : ((short_GI) ? 1733 : 1560);
++		else if (MCS_rate[2] & BIT(4))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 2700 : 2430) : ((short_GI) ? 1300 : 1170);
++		else if (MCS_rate[2] & BIT(3))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 1800 : 1620) : ((short_GI) ? 867 : 780);
++		else if (MCS_rate[2] & BIT(2))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 1350 : 1215) : ((short_GI) ? 650 : 585);
++		else if (MCS_rate[2] & BIT(1))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 900 : 810) : ((short_GI) ? 433 : 390);
++		else if (MCS_rate[2] & BIT(0))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 450 : 405) : ((short_GI) ? 217 : 195);
++	} else if (MCS_rate[1]) {
++		if (MCS_rate[1] & BIT(7))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 3000 : 2700) : ((short_GI) ? 1444 : 1300);
++		else if (MCS_rate[1] & BIT(6))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 2700 : 2430) : ((short_GI) ? 1300 : 1170);
++		else if (MCS_rate[1] & BIT(5))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 2400 : 2160) : ((short_GI) ? 1156 : 1040);
++		else if (MCS_rate[1] & BIT(4))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 1800 : 1620) : ((short_GI) ? 867 : 780);
++		else if (MCS_rate[1] & BIT(3))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 1200 : 1080) : ((short_GI) ? 578 : 520);
++		else if (MCS_rate[1] & BIT(2))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 900 : 810) : ((short_GI) ? 433 : 390);
++		else if (MCS_rate[1] & BIT(1))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 600 : 540) : ((short_GI) ? 289 : 260);
++		else if (MCS_rate[1] & BIT(0))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 300 : 270) : ((short_GI) ? 144 : 130);
++	} else {
++		if (MCS_rate[0] & BIT(7))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 1500 : 1350) : ((short_GI) ? 722 : 650);
++		else if (MCS_rate[0] & BIT(6))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 1350 : 1215) : ((short_GI) ? 650 : 585);
++		else if (MCS_rate[0] & BIT(5))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 1200 : 1080) : ((short_GI) ? 578 : 520);
++		else if (MCS_rate[0] & BIT(4))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 900 : 810) : ((short_GI) ? 433 : 390);
++		else if (MCS_rate[0] & BIT(3))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 600 : 540) : ((short_GI) ? 289 : 260);
++		else if (MCS_rate[0] & BIT(2))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 450 : 405) : ((short_GI) ? 217 : 195);
++		else if (MCS_rate[0] & BIT(1))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 300 : 270) : ((short_GI) ? 144 : 130);
++		else if (MCS_rate[0] & BIT(0))
++			max_rate = (bw_40MHz) ? ((short_GI) ? 150 : 135) : ((short_GI) ? 72 : 65);
++	}
++
++	return max_rate;
++}
++
++int rtw_action_frame_parse(const u8 *frame, u32 frame_len, u8 *category, u8 *action)
++{
++	const u8 *frame_body = frame + sizeof(struct rtw_ieee80211_hdr_3addr);
++	u16 fc;
++	u8 c;
++	u8 a = ACT_PUBLIC_MAX;
++
++	fc = le16_to_cpu(((struct rtw_ieee80211_hdr_3addr *)frame)->frame_ctl);
++
++	if ((fc & (RTW_IEEE80211_FCTL_FTYPE | RTW_IEEE80211_FCTL_STYPE))
++	    != (RTW_IEEE80211_FTYPE_MGMT | RTW_IEEE80211_STYPE_ACTION)
++	   )
++		return _FALSE;
++
++	c = frame_body[0];
++
++	switch (c) {
++	case RTW_WLAN_CATEGORY_P2P: /* vendor-specific */
++		break;
++	default:
++		a = frame_body[1];
++	}
++
++	if (category)
++		*category = c;
++	if (action)
++		*action = a;
++
++	return _TRUE;
++}
++
++static const char *_action_public_str[] = {
++	"ACT_PUB_BSSCOEXIST",
++	"ACT_PUB_DSE_ENABLE",
++	"ACT_PUB_DSE_DEENABLE",
++	"ACT_PUB_DSE_REG_LOCATION",
++	"ACT_PUB_EXT_CHL_SWITCH",
++	"ACT_PUB_DSE_MSR_REQ",
++	"ACT_PUB_DSE_MSR_RPRT",
++	"ACT_PUB_MP",
++	"ACT_PUB_DSE_PWR_CONSTRAINT",
++	"ACT_PUB_VENDOR",
++	"ACT_PUB_GAS_INITIAL_REQ",
++	"ACT_PUB_GAS_INITIAL_RSP",
++	"ACT_PUB_GAS_COMEBACK_REQ",
++	"ACT_PUB_GAS_COMEBACK_RSP",
++	"ACT_PUB_TDLS_DISCOVERY_RSP",
++	"ACT_PUB_LOCATION_TRACK",
++	"ACT_PUB_RSVD",
++};
++
++const char *action_public_str(u8 action)
++{
++	action = (action >= ACT_PUBLIC_MAX) ? ACT_PUBLIC_MAX : action;
++	return _action_public_str[action];
++}
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_io.c b/drivers/net/wireless/rtl8812au/core/rtw_io.c
+new file mode 100644
+index 0000000..683da16
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_io.c
+@@ -0,0 +1,701 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*
++
++The purpose of rtw_io.c
++
++a. provides the API
++
++b. provides the protocol engine
++
++c. provides the software interface between caller and the hardware interface
++
++
++Compiler Flag Option:
++
++1. CONFIG_SDIO_HCI:
++    a. USE_SYNC_IRP:  Only sync operations are provided.
++    b. USE_ASYNC_IRP:Both sync/async operations are provided.
++
++2. CONFIG_USB_HCI:
++   a. USE_ASYNC_IRP: Both sync/async operations are provided.
++
++3. CONFIG_CFIO_HCI:
++   b. USE_SYNC_IRP: Only sync operations are provided.
++
++
++Only sync read/rtw_write_mem operations are provided.
++
++jackson@realtek.com.tw
++
++*/
++
++#define _RTW_IO_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#if defined(PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++	#error "Shall be Linux or Windows, but not both!\n"
++#endif
++
++#ifdef CONFIG_SDIO_HCI
++	#define rtw_le16_to_cpu(val)		val
++	#define rtw_le32_to_cpu(val)		val
++	#define rtw_cpu_to_le16(val)		val
++	#define rtw_cpu_to_le32(val)		val
++#else
++	#define rtw_le16_to_cpu(val)		le16_to_cpu(val)
++	#define rtw_le32_to_cpu(val)		le32_to_cpu(val)
++	#define rtw_cpu_to_le16(val)		cpu_to_le16(val)
++	#define rtw_cpu_to_le32(val)		cpu_to_le32(val)
++#endif
++
++
++u8 _rtw_read8(_adapter *adapter, u32 addr)
++{
++	u8 r_val;
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	u8(*_read8)(struct intf_hdl *pintfhdl, u32 addr);
++	_read8 = pintfhdl->io_ops._read8;
++
++	r_val = _read8(pintfhdl, addr);
++	return r_val;
++}
++
++u16 _rtw_read16(_adapter *adapter, u32 addr)
++{
++	u16 r_val;
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	u16(*_read16)(struct intf_hdl *pintfhdl, u32 addr);
++	_read16 = pintfhdl->io_ops._read16;
++
++	r_val = _read16(pintfhdl, addr);
++	return rtw_le16_to_cpu(r_val);
++}
++
++u32 _rtw_read32(_adapter *adapter, u32 addr)
++{
++	u32 r_val;
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	u32(*_read32)(struct intf_hdl *pintfhdl, u32 addr);
++	_read32 = pintfhdl->io_ops._read32;
++
++	r_val = _read32(pintfhdl, addr);
++	return rtw_le32_to_cpu(r_val);
++
++}
++
++int _rtw_write8(_adapter *adapter, u32 addr, u8 val)
++{
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	int (*_write8)(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++	int ret;
++	_write8 = pintfhdl->io_ops._write8;
++
++	ret = _write8(pintfhdl, addr, val);
++
++	return RTW_STATUS_CODE(ret);
++}
++int _rtw_write16(_adapter *adapter, u32 addr, u16 val)
++{
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	int (*_write16)(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++	int ret;
++	_write16 = pintfhdl->io_ops._write16;
++
++	val = rtw_cpu_to_le16(val);
++	ret = _write16(pintfhdl, addr, val);
++
++	return RTW_STATUS_CODE(ret);
++}
++int _rtw_write32(_adapter *adapter, u32 addr, u32 val)
++{
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	int (*_write32)(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++	int ret;
++	_write32 = pintfhdl->io_ops._write32;
++
++	val = rtw_cpu_to_le32(val);
++	ret = _write32(pintfhdl, addr, val);
++
++	return RTW_STATUS_CODE(ret);
++}
++
++int _rtw_writeN(_adapter *adapter, u32 addr , u32 length , u8 *pdata)
++{
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl	*pintfhdl = (struct intf_hdl *)(&(pio_priv->intf));
++	int (*_writeN)(struct intf_hdl *pintfhdl, u32 addr, u32 length, u8 *pdata);
++	int ret;
++	_writeN = pintfhdl->io_ops._writeN;
++
++	ret = _writeN(pintfhdl, addr, length, pdata);
++
++	return RTW_STATUS_CODE(ret);
++}
++
++#ifdef CONFIG_SDIO_HCI
++u8 _rtw_sd_f0_read8(_adapter *adapter, u32 addr)
++{
++	u8 r_val = 0x00;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++	u8(*_sd_f0_read8)(struct intf_hdl *pintfhdl, u32 addr);
++
++	_sd_f0_read8 = pintfhdl->io_ops._sd_f0_read8;
++
++	if (_sd_f0_read8)
++		r_val = _sd_f0_read8(pintfhdl, addr);
++	else
++		RTW_WARN(FUNC_ADPT_FMT" _sd_f0_read8 callback is NULL\n", FUNC_ADPT_ARG(adapter));
++
++	return r_val;
++}
++
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++u8 _rtw_sd_iread8(_adapter *adapter, u32 addr)
++{
++	u8 r_val = 0x00;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++	u8(*_sd_iread8)(struct intf_hdl *pintfhdl, u32 addr);
++
++	_sd_iread8 = pintfhdl->io_ops._sd_iread8;
++
++	if (_sd_iread8)
++		r_val = _sd_iread8(pintfhdl, addr);
++	else
++		RTW_ERR(FUNC_ADPT_FMT" _sd_iread8 callback is NULL\n", FUNC_ADPT_ARG(adapter));
++
++	return r_val;
++}
++
++u16 _rtw_sd_iread16(_adapter *adapter, u32 addr)
++{
++	u16 r_val = 0x00;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++	u16(*_sd_iread16)(struct intf_hdl *pintfhdl, u32 addr);
++
++	_sd_iread16 = pintfhdl->io_ops._sd_iread16;
++
++	if (_sd_iread16)
++		r_val = _sd_iread16(pintfhdl, addr);
++	else
++		RTW_ERR(FUNC_ADPT_FMT" _sd_iread16 callback is NULL\n", FUNC_ADPT_ARG(adapter));
++
++	return r_val;
++}
++
++u32 _rtw_sd_iread32(_adapter *adapter, u32 addr)
++{
++	u32 r_val = 0x00;
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++	u32(*_sd_iread32)(struct intf_hdl *pintfhdl, u32 addr);
++
++	_sd_iread32 = pintfhdl->io_ops._sd_iread32;
++
++	if (_sd_iread32)
++		r_val = _sd_iread32(pintfhdl, addr);
++	else
++		RTW_ERR(FUNC_ADPT_FMT" _sd_iread32 callback is NULL\n", FUNC_ADPT_ARG(adapter));
++
++	return r_val;
++}
++
++int _rtw_sd_iwrite8(_adapter *adapter, u32 addr, u8 val)
++{
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++	int (*_sd_iwrite8)(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++	int ret = -1;
++
++	_sd_iwrite8 = pintfhdl->io_ops._sd_iwrite8;
++
++	if (_sd_iwrite8)
++		ret = _sd_iwrite8(pintfhdl, addr, val);
++	else
++		RTW_ERR(FUNC_ADPT_FMT" _sd_iwrite8 callback is NULL\n", FUNC_ADPT_ARG(adapter));
++
++	return RTW_STATUS_CODE(ret);
++}
++
++int _rtw_sd_iwrite16(_adapter *adapter, u32 addr, u16 val)
++{
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++	int (*_sd_iwrite16)(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++	int ret = -1;
++
++	_sd_iwrite16 = pintfhdl->io_ops._sd_iwrite16;
++
++	if (_sd_iwrite16)
++		ret = _sd_iwrite16(pintfhdl, addr, val);
++	else
++		RTW_ERR(FUNC_ADPT_FMT" _sd_iwrite16 callback is NULL\n", FUNC_ADPT_ARG(adapter));
++
++	return RTW_STATUS_CODE(ret);
++}
++int _rtw_sd_iwrite32(_adapter *adapter, u32 addr, u32 val)
++{
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++	int (*_sd_iwrite32)(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++	int ret = -1;
++
++	_sd_iwrite32 = pintfhdl->io_ops._sd_iwrite32;
++
++	if (_sd_iwrite32)
++		ret = _sd_iwrite32(pintfhdl, addr, val);
++	else
++		RTW_ERR(FUNC_ADPT_FMT" _sd_iwrite32 callback is NULL\n", FUNC_ADPT_ARG(adapter));
++
++	return RTW_STATUS_CODE(ret);
++}
++
++#endif /* CONFIG_SDIO_INDIRECT_ACCESS */
++
++#endif /* CONFIG_SDIO_HCI */
++
++int _rtw_write8_async(_adapter *adapter, u32 addr, u8 val)
++{
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	int (*_write8_async)(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++	int ret;
++	_write8_async = pintfhdl->io_ops._write8_async;
++
++	ret = _write8_async(pintfhdl, addr, val);
++
++	return RTW_STATUS_CODE(ret);
++}
++int _rtw_write16_async(_adapter *adapter, u32 addr, u16 val)
++{
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	int (*_write16_async)(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++	int ret;
++	_write16_async = pintfhdl->io_ops._write16_async;
++	val = rtw_cpu_to_le16(val);
++	ret = _write16_async(pintfhdl, addr, val);
++
++	return RTW_STATUS_CODE(ret);
++}
++int _rtw_write32_async(_adapter *adapter, u32 addr, u32 val)
++{
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	int (*_write32_async)(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++	int ret;
++	_write32_async = pintfhdl->io_ops._write32_async;
++	val = rtw_cpu_to_le32(val);
++	ret = _write32_async(pintfhdl, addr, val);
++
++	return RTW_STATUS_CODE(ret);
++}
++
++void _rtw_read_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
++{
++	void (*_read_mem)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++
++
++	if (RTW_CANNOT_RUN(adapter)) {
++		return;
++	}
++
++	_read_mem = pintfhdl->io_ops._read_mem;
++
++	_read_mem(pintfhdl, addr, cnt, pmem);
++
++
++}
++
++void _rtw_write_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
++{
++	void (*_write_mem)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++
++
++	_write_mem = pintfhdl->io_ops._write_mem;
++
++	_write_mem(pintfhdl, addr, cnt, pmem);
++
++
++}
++
++void _rtw_read_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
++{
++	u32(*_read_port)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++
++
++	if (RTW_CANNOT_RUN(adapter)) {
++		return;
++	}
++
++	_read_port = pintfhdl->io_ops._read_port;
++
++	_read_port(pintfhdl, addr, cnt, pmem);
++
++
++}
++
++void _rtw_read_port_cancel(_adapter *adapter)
++{
++	void (*_read_port_cancel)(struct intf_hdl *pintfhdl);
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++
++	_read_port_cancel = pintfhdl->io_ops._read_port_cancel;
++
++	RTW_DISABLE_FUNC(adapter, DF_RX_BIT);
++
++	if (_read_port_cancel)
++		_read_port_cancel(pintfhdl);
++}
++
++u32 _rtw_write_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem)
++{
++	u32(*_write_port)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++	/* struct	io_queue  	*pio_queue = (struct io_queue *)adapter->pio_queue; */
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct	intf_hdl		*pintfhdl = &(pio_priv->intf);
++	u32 ret = _SUCCESS;
++
++
++	_write_port = pintfhdl->io_ops._write_port;
++
++	ret = _write_port(pintfhdl, addr, cnt, pmem);
++
++
++	return ret;
++}
++
++u32 _rtw_write_port_and_wait(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem, int timeout_ms)
++{
++	int ret = _SUCCESS;
++	struct xmit_buf *pxmitbuf = (struct xmit_buf *)pmem;
++	struct submit_ctx sctx;
++
++	rtw_sctx_init(&sctx, timeout_ms);
++	pxmitbuf->sctx = &sctx;
++
++	ret = _rtw_write_port(adapter, addr, cnt, pmem);
++
++	if (ret == _SUCCESS)
++		ret = rtw_sctx_wait(&sctx, __func__);
++
++	return ret;
++}
++
++void _rtw_write_port_cancel(_adapter *adapter)
++{
++	void (*_write_port_cancel)(struct intf_hdl *pintfhdl);
++	struct io_priv *pio_priv = &adapter->iopriv;
++	struct intf_hdl *pintfhdl = &(pio_priv->intf);
++
++	_write_port_cancel = pintfhdl->io_ops._write_port_cancel;
++
++	RTW_DISABLE_FUNC(adapter, DF_TX_BIT);
++
++	if (_write_port_cancel)
++		_write_port_cancel(pintfhdl);
++}
++int rtw_init_io_priv(_adapter *padapter, void (*set_intf_ops)(_adapter *padapter, struct _io_ops *pops))
++{
++	struct io_priv	*piopriv = &padapter->iopriv;
++	struct intf_hdl *pintf = &piopriv->intf;
++
++	if (set_intf_ops == NULL)
++		return _FAIL;
++
++	piopriv->padapter = padapter;
++	pintf->padapter = padapter;
++	pintf->pintf_dev = adapter_to_dvobj(padapter);
++
++	set_intf_ops(padapter, &pintf->io_ops);
++
++	return _SUCCESS;
++}
++
++/*
++* Increase and check if the continual_io_error of this @param dvobjprive is larger than MAX_CONTINUAL_IO_ERR
++* @return _TRUE:
++* @return _FALSE:
++*/
++int rtw_inc_and_chk_continual_io_error(struct dvobj_priv *dvobj)
++{
++	int ret = _FALSE;
++	int value;
++
++	value = ATOMIC_INC_RETURN(&dvobj->continual_io_error);
++	if (value > MAX_CONTINUAL_IO_ERR) {
++		RTW_INFO("[dvobj:%p][ERROR] continual_io_error:%d > %d\n", dvobj, value, MAX_CONTINUAL_IO_ERR);
++		ret = _TRUE;
++	} else {
++		/* RTW_INFO("[dvobj:%p] continual_io_error:%d\n", dvobj, value); */
++	}
++	return ret;
++}
++
++/*
++* Set the continual_io_error of this @param dvobjprive to 0
++*/
++void rtw_reset_continual_io_error(struct dvobj_priv *dvobj)
++{
++	ATOMIC_SET(&dvobj->continual_io_error, 0);
++}
++
++#ifdef DBG_IO
++
++u32 read_sniff_ranges[][2] = {
++	/* {0x520, 0x523}, */
++};
++
++u32 write_sniff_ranges[][2] = {
++	/* {0x520, 0x523}, */
++	/* {0x4c, 0x4c}, */
++};
++
++int read_sniff_num = sizeof(read_sniff_ranges) / sizeof(u32) / 2;
++int write_sniff_num = sizeof(write_sniff_ranges) / sizeof(u32) / 2;
++
++bool match_read_sniff_ranges(u32 addr, u16 len)
++{
++	int i;
++	for (i = 0; i < read_sniff_num; i++) {
++		if (addr + len > read_sniff_ranges[i][0] && addr <= read_sniff_ranges[i][1])
++			return _TRUE;
++	}
++
++	return _FALSE;
++}
++
++bool match_write_sniff_ranges(u32 addr, u16 len)
++{
++	int i;
++	for (i = 0; i < write_sniff_num; i++) {
++		if (addr + len > write_sniff_ranges[i][0] && addr <= write_sniff_ranges[i][1])
++			return _TRUE;
++	}
++
++	return _FALSE;
++}
++
++struct rf_sniff_ent {
++	u8 path;
++	u16 reg;
++	u32 mask;
++};
++
++struct rf_sniff_ent rf_read_sniff_ranges[] = {
++	/* example for all path addr 0x55 with all RF Reg mask */
++	/* {MAX_RF_PATH, 0x55, bRFRegOffsetMask}, */
++};
++
++struct rf_sniff_ent rf_write_sniff_ranges[] = {
++	/* example for all path addr 0x55 with all RF Reg mask */
++	/* {MAX_RF_PATH, 0x55, bRFRegOffsetMask}, */
++};
++
++int rf_read_sniff_num = sizeof(rf_read_sniff_ranges) / sizeof(struct rf_sniff_ent);
++int rf_write_sniff_num = sizeof(rf_write_sniff_ranges) / sizeof(struct rf_sniff_ent);
++
++bool match_rf_read_sniff_ranges(u8 path, u32 addr, u32 mask)
++{
++	int i;
++
++	for (i = 0; i < rf_read_sniff_num; i++) {
++		if (rf_read_sniff_ranges[i].path == MAX_RF_PATH || rf_read_sniff_ranges[i].path == path)
++			if (addr == rf_read_sniff_ranges[i].reg && (mask & rf_read_sniff_ranges[i].mask))
++				return _TRUE;
++	}
++
++	return _FALSE;
++}
++
++bool match_rf_write_sniff_ranges(u8 path, u32 addr, u32 mask)
++{
++	int i;
++
++	for (i = 0; i < rf_write_sniff_num; i++) {
++		if (rf_write_sniff_ranges[i].path == MAX_RF_PATH || rf_write_sniff_ranges[i].path == path)
++			if (addr == rf_write_sniff_ranges[i].reg && (mask & rf_write_sniff_ranges[i].mask))
++				return _TRUE;
++	}
++
++	return _FALSE;
++}
++
++u8 dbg_rtw_read8(_adapter *adapter, u32 addr, const char *caller, const int line)
++{
++	u8 val = _rtw_read8(adapter, addr);
++
++	if (match_read_sniff_ranges(addr, 1))
++		RTW_INFO("DBG_IO %s:%d rtw_read8(0x%04x) return 0x%02x\n", caller, line, addr, val);
++
++	return val;
++}
++
++u16 dbg_rtw_read16(_adapter *adapter, u32 addr, const char *caller, const int line)
++{
++	u16 val = _rtw_read16(adapter, addr);
++
++	if (match_read_sniff_ranges(addr, 2))
++		RTW_INFO("DBG_IO %s:%d rtw_read16(0x%04x) return 0x%04x\n", caller, line, addr, val);
++
++	return val;
++}
++
++u32 dbg_rtw_read32(_adapter *adapter, u32 addr, const char *caller, const int line)
++{
++	u32 val = _rtw_read32(adapter, addr);
++
++	if (match_read_sniff_ranges(addr, 4))
++		RTW_INFO("DBG_IO %s:%d rtw_read32(0x%04x) return 0x%08x\n", caller, line, addr, val);
++
++	return val;
++}
++
++int dbg_rtw_write8(_adapter *adapter, u32 addr, u8 val, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 1))
++		RTW_INFO("DBG_IO %s:%d rtw_write8(0x%04x, 0x%02x)\n", caller, line, addr, val);
++
++	return _rtw_write8(adapter, addr, val);
++}
++int dbg_rtw_write16(_adapter *adapter, u32 addr, u16 val, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 2))
++		RTW_INFO("DBG_IO %s:%d rtw_write16(0x%04x, 0x%04x)\n", caller, line, addr, val);
++
++	return _rtw_write16(adapter, addr, val);
++}
++int dbg_rtw_write32(_adapter *adapter, u32 addr, u32 val, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 4))
++		RTW_INFO("DBG_IO %s:%d rtw_write32(0x%04x, 0x%08x)\n", caller, line, addr, val);
++
++	return _rtw_write32(adapter, addr, val);
++}
++int dbg_rtw_writeN(_adapter *adapter, u32 addr , u32 length , u8 *data, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, length))
++		RTW_INFO("DBG_IO %s:%d rtw_writeN(0x%04x, %u)\n", caller, line, addr, length);
++
++	return _rtw_writeN(adapter, addr, length, data);
++}
++
++#ifdef CONFIG_SDIO_HCI
++u8 dbg_rtw_sd_f0_read8(_adapter *adapter, u32 addr, const char *caller, const int line)
++{
++	u8 val = _rtw_sd_f0_read8(adapter, addr);
++
++#if 0
++	if (match_read_sniff_ranges(addr, 1))
++		RTW_INFO("DBG_IO %s:%d rtw_sd_f0_read8(0x%04x) return 0x%02x\n", caller, line, addr, val);
++#endif
++
++	return val;
++}
++
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++u8 dbg_rtw_sd_iread8(_adapter *adapter, u32 addr, const char *caller, const int line)
++{
++	u8 val = rtw_sd_iread8(adapter, addr);
++
++	if (match_read_sniff_ranges(addr, 1))
++		RTW_INFO("DBG_IO %s:%d rtw_sd_iread8(0x%04x) return 0x%02x\n", caller, line, addr, val);
++
++	return val;
++}
++
++u16 dbg_rtw_sd_iread16(_adapter *adapter, u32 addr, const char *caller, const int line)
++{
++	u16 val = _rtw_sd_iread16(adapter, addr);
++
++	if (match_read_sniff_ranges(addr, 2))
++		RTW_INFO("DBG_IO %s:%d rtw_sd_iread16(0x%04x) return 0x%04x\n", caller, line, addr, val);
++
++	return val;
++}
++
++u32 dbg_rtw_sd_iread32(_adapter *adapter, u32 addr, const char *caller, const int line)
++{
++	u32 val = _rtw_sd_iread32(adapter, addr);
++
++	if (match_read_sniff_ranges(addr, 4))
++		RTW_INFO("DBG_IO %s:%d rtw_sd_iread32(0x%04x) return 0x%08x\n", caller, line, addr, val);
++
++	return val;
++}
++
++int dbg_rtw_sd_iwrite8(_adapter *adapter, u32 addr, u8 val, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 1))
++		RTW_INFO("DBG_IO %s:%d rtw_sd_iwrite8(0x%04x, 0x%02x)\n", caller, line, addr, val);
++
++	return _rtw_sd_iwrite8(adapter, addr, val);
++}
++int dbg_rtw_sd_iwrite16(_adapter *adapter, u32 addr, u16 val, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 2))
++		RTW_INFO("DBG_IO %s:%d rtw_sd_iwrite16(0x%04x, 0x%04x)\n", caller, line, addr, val);
++
++	return _rtw_sd_iwrite16(adapter, addr, val);
++}
++int dbg_rtw_sd_iwrite32(_adapter *adapter, u32 addr, u32 val, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 4))
++		RTW_INFO("DBG_IO %s:%d rtw_sd_iwrite32(0x%04x, 0x%08x)\n", caller, line, addr, val);
++
++	return _rtw_sd_iwrite32(adapter, addr, val);
++}
++
++#endif /* CONFIG_SDIO_INDIRECT_ACCESS */
++
++#endif /* CONFIG_SDIO_HCI */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_ioctl_query.c b/drivers/net/wireless/rtl8812au/core/rtw_ioctl_query.c
+new file mode 100644
+index 0000000..4f8232d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_ioctl_query.c
+@@ -0,0 +1,171 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_IOCTL_QUERY_C_
++
++#include <drv_types.h>
++
++
++#ifdef PLATFORM_WINDOWS
++/*
++ * Added for WPA2-PSK, by Annie, 2005-09-20.
++ *   */
++u8
++query_802_11_capability(
++	_adapter		*Adapter,
++	u8			*pucBuf,
++	u32		*pulOutLen
++)
++{
++	static NDIS_802_11_AUTHENTICATION_ENCRYPTION szAuthEnc[] = {
++		{Ndis802_11AuthModeOpen, Ndis802_11EncryptionDisabled},
++		{Ndis802_11AuthModeOpen, Ndis802_11Encryption1Enabled},
++		{Ndis802_11AuthModeShared, Ndis802_11EncryptionDisabled},
++		{Ndis802_11AuthModeShared, Ndis802_11Encryption1Enabled},
++		{Ndis802_11AuthModeWPA, Ndis802_11Encryption2Enabled},
++		{Ndis802_11AuthModeWPA, Ndis802_11Encryption3Enabled},
++		{Ndis802_11AuthModeWPAPSK, Ndis802_11Encryption2Enabled},
++		{Ndis802_11AuthModeWPAPSK, Ndis802_11Encryption3Enabled},
++		{Ndis802_11AuthModeWPANone, Ndis802_11Encryption2Enabled},
++		{Ndis802_11AuthModeWPANone, Ndis802_11Encryption3Enabled},
++		{Ndis802_11AuthModeWPA2, Ndis802_11Encryption2Enabled},
++		{Ndis802_11AuthModeWPA2, Ndis802_11Encryption3Enabled},
++		{Ndis802_11AuthModeWPA2PSK, Ndis802_11Encryption2Enabled},
++		{Ndis802_11AuthModeWPA2PSK, Ndis802_11Encryption3Enabled}
++	};
++	static ULONG	ulNumOfPairSupported = sizeof(szAuthEnc) / sizeof(NDIS_802_11_AUTHENTICATION_ENCRYPTION);
++	NDIS_802_11_CAPABILITY *pCap = (NDIS_802_11_CAPABILITY *)pucBuf;
++	u8	*pucAuthEncryptionSupported = (u8 *) pCap->AuthenticationEncryptionSupported;
++
++
++	pCap->Length = sizeof(NDIS_802_11_CAPABILITY);
++	if (ulNumOfPairSupported > 1)
++		pCap->Length +=	(ulNumOfPairSupported - 1) * sizeof(NDIS_802_11_AUTHENTICATION_ENCRYPTION);
++
++	pCap->Version = 2;
++	pCap->NoOfPMKIDs = NUM_PMKID_CACHE;
++	pCap->NoOfAuthEncryptPairsSupported = ulNumOfPairSupported;
++
++	if (sizeof(szAuthEnc) <= 240)		/* 240 = 256 - 4*4	 */ { /* SecurityInfo.szCapability: only 256 bytes in size. */
++		_rtw_memcpy(pucAuthEncryptionSupported, (u8 *)szAuthEnc,  sizeof(szAuthEnc));
++		*pulOutLen = pCap->Length;
++		return _TRUE;
++	} else {
++		*pulOutLen = 0;
++		return _FALSE;
++	}
++}
++
++u8 query_802_11_association_information(_adapter *padapter, PNDIS_802_11_ASSOCIATION_INFORMATION	pAssocInfo)
++{
++	struct wlan_network *tgt_network;
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct	security_priv  *psecuritypriv = &(padapter->securitypriv);
++	WLAN_BSSID_EX	*psecnetwork = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network;
++	u8	*pDest = (u8 *)pAssocInfo + sizeof(NDIS_802_11_ASSOCIATION_INFORMATION);
++	unsigned char i, *auth_ie, *supp_ie;
++
++	/* NdisZeroMemory(pAssocInfo, sizeof(NDIS_802_11_ASSOCIATION_INFORMATION)); */
++	_rtw_memset(pAssocInfo, 0, sizeof(NDIS_802_11_ASSOCIATION_INFORMATION));
++	/* pAssocInfo->Length = sizeof(NDIS_802_11_ASSOCIATION_INFORMATION); */
++
++	/* ------------------------------------------------------ */
++	/* Association Request related information */
++	/* ------------------------------------------------------ */
++	/* Req_1. AvailableRequestFixedIEs */
++	if (psecnetwork != NULL) {
++
++		pAssocInfo->AvailableRequestFixedIEs |= NDIS_802_11_AI_REQFI_CAPABILITIES | NDIS_802_11_AI_REQFI_CURRENTAPADDRESS;
++		pAssocInfo->RequestFixedIEs.Capabilities = (unsigned short) *&psecnetwork->IEs[10];
++		_rtw_memcpy(pAssocInfo->RequestFixedIEs.CurrentAPAddress,
++			    &psecnetwork->MacAddress, 6);
++
++		pAssocInfo->OffsetRequestIEs = sizeof(NDIS_802_11_ASSOCIATION_INFORMATION);
++
++		if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING | _FW_LINKED) == _TRUE) {
++
++			if (psecuritypriv->ndisauthtype >= Ndis802_11AuthModeWPA2)
++				pDest[0] = 48;		/* RSN Information Element */
++			else
++				pDest[0] = 221;	/* WPA(SSN) Information Element */
++
++			supp_ie = &psecuritypriv->supplicant_ie[0];
++
++			i = 13;	/* 0~11 is fixed information element		 */
++			while ((i < supp_ie[0]) && (i < 256)) {
++				if ((unsigned char)supp_ie[i] == pDest[0]) {
++					_rtw_memcpy((u8 *)(pDest),
++						    &supp_ie[i],
++						    supp_ie[1 + i] + 2);
++
++					break;
++				}
++
++				i = i + supp_ie[i + 1] + 2;
++				if (supp_ie[1 + i] == 0)
++					i = i + 1;
++
++			}
++
++
++			pAssocInfo->RequestIELength += (2 + supp_ie[1 + i]); /* (2 + psecnetwork->IEs[1+i]+4); */
++
++		}
++
++
++
++	}
++
++
++	/* ------------------------------------------------------ */
++	/* Association Response related information */
++	/* ------------------------------------------------------ */
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++		tgt_network = &(pmlmepriv->cur_network);
++		if (tgt_network != NULL) {
++			pAssocInfo->AvailableResponseFixedIEs =
++				NDIS_802_11_AI_RESFI_CAPABILITIES
++				| NDIS_802_11_AI_RESFI_ASSOCIATIONID
++				;
++
++			pAssocInfo->ResponseFixedIEs.Capabilities = (unsigned short) *&tgt_network->network.IEs[10];
++			pAssocInfo->ResponseFixedIEs.StatusCode = 0;
++			pAssocInfo->ResponseFixedIEs.AssociationId = (unsigned short) tgt_network->aid;
++
++			pDest = (u8 *)pAssocInfo + sizeof(NDIS_802_11_ASSOCIATION_INFORMATION) + pAssocInfo->RequestIELength;
++			auth_ie = &psecuritypriv->authenticator_ie[0];
++
++
++			i = auth_ie[0] - 12;
++			if (i > 0) {
++				_rtw_memcpy((u8 *)&pDest[0], &auth_ie[1], i);
++				pAssocInfo->ResponseIELength = i;
++			}
++
++
++			pAssocInfo->OffsetResponseIEs = sizeof(NDIS_802_11_ASSOCIATION_INFORMATION) + pAssocInfo->RequestIELength;
++
++
++		}
++	}
++
++	return _TRUE;
++}
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_ioctl_rtl.c b/drivers/net/wireless/rtl8812au/core/rtw_ioctl_rtl.c
+new file mode 100644
+index 0000000..ab4a387
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_ioctl_rtl.c
+@@ -0,0 +1,904 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define  _RTW_IOCTL_RTL_C_
++
++#include <drv_types.h>
++
++#ifdef CONFIG_MP_INCLUDED
++	#include <rtw_mp_ioctl.h>
++#endif
++
++struct oid_obj_priv oid_rtl_seg_01_01[] = {
++	{1, &oid_null_function},										/* 0x80 */
++	{1, &oid_null_function},										/* 0x81 */
++	{1, &oid_null_function},										/* 0x82 */
++	{1, &oid_null_function},										/* 0x83 */ /* OID_RT_SET_SNIFFER_MODE */
++	{1, &oid_rt_get_signal_quality_hdl},							/* 0x84 */
++	{1, &oid_rt_get_small_packet_crc_hdl},						/* 0x85 */
++	{1, &oid_rt_get_middle_packet_crc_hdl},						/* 0x86 */
++	{1, &oid_rt_get_large_packet_crc_hdl},						/* 0x87 */
++	{1, &oid_rt_get_tx_retry_hdl},								/* 0x88 */
++	{1, &oid_rt_get_rx_retry_hdl},								/* 0x89 */
++	{1, &oid_rt_pro_set_fw_dig_state_hdl},						/* 0x8A */
++	{1, &oid_rt_pro_set_fw_ra_state_hdl}	,						/* 0x8B */
++	{1, &oid_null_function},										/* 0x8C */
++	{1, &oid_null_function},										/* 0x8D */
++	{1, &oid_null_function},										/* 0x8E */
++	{1, &oid_null_function},										/* 0x8F */
++	{1, &oid_rt_get_rx_total_packet_hdl},							/* 0x90 */
++	{1, &oid_rt_get_tx_beacon_ok_hdl},							/* 0x91 */
++	{1, &oid_rt_get_tx_beacon_err_hdl},							/* 0x92 */
++	{1, &oid_rt_get_rx_icv_err_hdl},								/* 0x93 */
++	{1, &oid_rt_set_encryption_algorithm_hdl},					/* 0x94 */
++	{1, &oid_null_function},										/* 0x95 */
++	{1, &oid_rt_get_preamble_mode_hdl},							/* 0x96 */
++	{1, &oid_null_function},										/* 0x97 */
++	{1, &oid_rt_get_ap_ip_hdl},									/* 0x98 */
++	{1, &oid_rt_get_channelplan_hdl},							/* 0x99	 */
++	{1, &oid_rt_set_preamble_mode_hdl},	 						/* 0x9A */
++	{1, &oid_rt_set_bcn_intvl_hdl},								/* 0x9B */
++	{1, &oid_null_function},										/* 0x9C */
++	{1, &oid_rt_dedicate_probe_hdl},								/* 0x9D */
++	{1, &oid_null_function},										/* 0x9E */
++	{1, &oid_null_function},										/* 0x9F */
++	{1, &oid_null_function},										/* 0xA0 */
++	{1, &oid_null_function},										/* 0xA1 */
++	{1, &oid_null_function},										/* 0xA2 */
++	{1, &oid_null_function},										/* 0xA3 */
++	{1, &oid_null_function},										/* 0xA4 */
++	{1, &oid_null_function},										/* 0xA5 */
++	{1, &oid_null_function},										/* 0xA6 */
++	{1, &oid_rt_get_total_tx_bytes_hdl},							/* 0xA7 */
++	{1, &oid_rt_get_total_rx_bytes_hdl},							/* 0xA8 */
++	{1, &oid_rt_current_tx_power_level_hdl},						/* 0xA9	 */
++	{1, &oid_rt_get_enc_key_mismatch_count_hdl},	 			/* 0xAA */
++	{1, &oid_rt_get_enc_key_match_count_hdl},					/* 0xAB */
++	{1, &oid_rt_get_channel_hdl},								/* 0xAC */
++	{1, &oid_rt_set_channelplan_hdl},								/* 0xAD */
++	{1, &oid_rt_get_hardware_radio_off_hdl},						/* 0xAE */
++	{1, &oid_null_function},										/* 0xAF */
++	{1, &oid_null_function},										/* 0xB0 */
++	{1, &oid_null_function},										/* 0xB1 */
++	{1, &oid_null_function},										/* 0xB2 */
++	{1, &oid_null_function},										/* 0xB3 */
++	{1, &oid_rt_get_key_mismatch_hdl},							/* 0xB4 */
++	{1, &oid_null_function},										/* 0xB5 */
++	{1, &oid_null_function},										/* 0xB6 */
++	{1, &oid_null_function},										/* 0xB7 */
++	{1, &oid_null_function},										/* 0xB8 */
++	{1, &oid_null_function},										/* 0xB9	 */
++	{1, &oid_null_function},	 									/* 0xBA */
++	{1, &oid_rt_supported_wireless_mode_hdl},					/* 0xBB */
++	{1, &oid_rt_get_channel_list_hdl},							/* 0xBC */
++	{1, &oid_rt_get_scan_in_progress_hdl},						/* 0xBD */
++	{1, &oid_null_function},										/* 0xBE */
++	{1, &oid_null_function},										/* 0xBF */
++	{1, &oid_null_function},										/* 0xC0 */
++	{1, &oid_rt_forced_data_rate_hdl},							/* 0xC1 */
++	{1, &oid_rt_wireless_mode_for_scan_list_hdl},					/* 0xC2 */
++	{1, &oid_rt_get_bss_wireless_mode_hdl},						/* 0xC3 */
++	{1, &oid_rt_scan_with_magic_packet_hdl},					/* 0xC4 */
++	{1, &oid_null_function},										/* 0xC5 */
++	{1, &oid_null_function},										/* 0xC6 */
++	{1, &oid_null_function},										/* 0xC7 */
++	{1, &oid_null_function},										/* 0xC8 */
++	{1, &oid_null_function},										/* 0xC9	 */
++	{1, &oid_null_function},	 									/* 0xCA */
++	{1, &oid_null_function},										/* 0xCB */
++	{1, &oid_null_function},										/* 0xCC */
++	{1, &oid_null_function},										/* 0xCD */
++	{1, &oid_null_function},										/* 0xCE */
++	{1, &oid_null_function},										/* 0xCF */
++
++};
++
++struct oid_obj_priv oid_rtl_seg_01_03[] = {
++	{1, &oid_rt_ap_get_associated_station_list_hdl},				/* 0x00 */
++	{1, &oid_null_function},										/* 0x01 */
++	{1, &oid_rt_ap_switch_into_ap_mode_hdl},					/* 0x02 */
++	{1, &oid_null_function},										/* 0x03 */
++	{1, &oid_rt_ap_supported_hdl},								/* 0x04 */
++	{1, &oid_rt_ap_set_passphrase_hdl},							/* 0x05 */
++
++};
++
++struct oid_obj_priv oid_rtl_seg_01_11[] = {
++	{1, &oid_null_function},					/* 0xC0	OID_RT_PRO_RX_FILTER	 */
++	{1, &oid_null_function},					/* 0xC1	OID_CE_USB_WRITE_REGISTRY */
++	{1, &oid_null_function},					/* 0xC2	OID_CE_USB_READ_REGISTRY */
++	{1, &oid_null_function},					/* 0xC3	OID_RT_PRO_SET_INITIAL_GAIN */
++	{1, &oid_null_function},					/* 0xC4	OID_RT_PRO_SET_BB_RF_STANDBY_MODE */
++	{1, &oid_null_function},					/* 0xC5	OID_RT_PRO_SET_BB_RF_SHUTDOWN_MODE */
++	{1, &oid_null_function},					/* 0xC6	OID_RT_PRO_SET_TX_CHARGE_PUMP */
++	{1, &oid_null_function},					/* 0xC7	OID_RT_PRO_SET_RX_CHARGE_PUMP */
++	{1, &oid_rt_pro_rf_write_registry_hdl},	/* 0xC8	 */
++	{1, &oid_rt_pro_rf_read_registry_hdl},	/* 0xC9	 */
++	{1, &oid_null_function}					/* 0xCA	OID_RT_PRO_QUERY_RF_TYPE */
++
++};
++
++struct oid_obj_priv oid_rtl_seg_03_00[] = {
++	{1, &oid_null_function},										/* 0x00 */
++	{1, &oid_rt_get_connect_state_hdl},							/* 0x01 */
++	{1, &oid_null_function},										/* 0x02 */
++	{1, &oid_null_function},										/* 0x03 */
++	{1, &oid_rt_set_default_key_id_hdl},							/* 0x04 */
++
++
++};
++
++
++/* **************  oid_rtl_seg_01_01 section start ************** */
++
++NDIS_STATUS oid_rt_pro_set_fw_dig_state_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++#if 0
++	PADAPTER		Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	_irqL			oldirql;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	if (poid_par_priv->information_buf_len >= sizeof(struct setdig_parm)) {
++		/* DEBUG_ERR(("===> oid_rt_pro_set_fw_dig_state_hdl. type:0x%02x.\n",*((unsigned char*)poid_par_priv->information_buf )));	 */
++		if (!rtw_setfwdig_cmd(Adapter, *((unsigned char *)poid_par_priv->information_buf)))
++			status = NDIS_STATUS_NOT_ACCEPTED;
++
++	} else
++		status = NDIS_STATUS_NOT_ACCEPTED;
++	_irqlevel_changed_(&oldirql, RAISE);
++#endif
++	return status;
++}
++/* ----------------------------------------------------------------------------- */
++NDIS_STATUS oid_rt_pro_set_fw_ra_state_hdl(struct oid_par_priv *poid_par_priv)
++{
++
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++#if 0
++	PADAPTER		Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	_irqL			oldirql;
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (poid_par_priv->information_buf_len >= sizeof(struct setra_parm)) {
++		/* DEBUG_ERR(("===> oid_rt_pro_set_fw_ra_state_hdl. type:0x%02x.\n",*((unsigned char*)poid_par_priv->information_buf )));	 */
++		if (!rtw_setfwra_cmd(Adapter, *((unsigned char *)poid_par_priv->information_buf)))
++			status = NDIS_STATUS_NOT_ACCEPTED;
++
++	} else
++		status = NDIS_STATUS_NOT_ACCEPTED;
++	_irqlevel_changed_(&oldirql, RAISE);
++#endif
++	return status;
++}
++/* ----------------------------------------------------------------------------- */
++NDIS_STATUS oid_rt_get_signal_quality_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	/* DEBUG_ERR(("<**********************oid_rt_get_signal_quality_hdl\n")); */
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++#if 0
++	if (pMgntInfo->mAssoc || pMgntInfo->mIbss) {
++		ulInfo = pAdapter->RxStats.SignalQuality;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else {
++		ulInfo = 0xffffffff; /* It stands for -1 in 4-byte integer. */
++	}
++	break;
++#endif
++
++	return status;
++}
++
++/* ------------------------------------------------------------------------------ */
++
++NDIS_STATUS oid_rt_get_small_packet_crc_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	if (poid_par_priv->information_buf_len >=  sizeof(ULONG)) {
++		*(ULONG *)poid_par_priv->information_buf = padapter->recvpriv.rx_smallpacket_crcerr;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_middle_packet_crc_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	if (poid_par_priv->information_buf_len >=  sizeof(ULONG)) {
++		*(ULONG *)poid_par_priv->information_buf = padapter->recvpriv.rx_middlepacket_crcerr;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_large_packet_crc_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	if (poid_par_priv->information_buf_len >=  sizeof(ULONG)) {
++		*(ULONG *)poid_par_priv->information_buf = padapter->recvpriv.rx_largepacket_crcerr;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++
++
++	return status;
++}
++
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_tx_retry_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_rx_retry_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_rx_total_packet_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if (poid_par_priv->information_buf_len >=  sizeof(ULONG)) {
++		*(u64 *)poid_par_priv->information_buf = padapter->recvpriv.rx_pkts + padapter->recvpriv.rx_drop;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_tx_beacon_ok_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_tx_beacon_err_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_rx_icv_err_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if (poid_par_priv->information_buf_len >= sizeof(u32)) {
++		/* _rtw_memcpy(*(uint *)poid_par_priv->information_buf,padapter->recvpriv.rx_icv_err,sizeof(u32)); */
++		*(uint *)poid_par_priv->information_buf = padapter->recvpriv.rx_icv_err;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH ;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_set_encryption_algorithm_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_preamble_mode_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++	ULONG			preamblemode = 0 ;
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if (poid_par_priv->information_buf_len >= sizeof(ULONG)) {
++		if (padapter->registrypriv.preamble == PREAMBLE_LONG)
++			preamblemode = 0;
++		else if (padapter->registrypriv.preamble == PREAMBLE_AUTO)
++			preamblemode = 1;
++		else if (padapter->registrypriv.preamble == PREAMBLE_SHORT)
++			preamblemode = 2;
++
++
++		*(ULONG *)poid_par_priv->information_buf = preamblemode ;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH ;
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_ap_ip_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_get_channelplan_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	*(u16 *)poid_par_priv->information_buf = padapter->mlmepriv.ChannelPlan ;
++
++	return status;
++}
++NDIS_STATUS oid_rt_set_channelplan_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	padapter->mlmepriv.ChannelPlan  = *(u16 *)poid_par_priv->information_buf ;
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_set_preamble_mode_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++	ULONG			preamblemode = 0;
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	if (poid_par_priv->information_buf_len >= sizeof(ULONG)) {
++		preamblemode = *(ULONG *)poid_par_priv->information_buf ;
++		if (preamblemode == 0)
++			padapter->registrypriv.preamble = PREAMBLE_LONG;
++		else if (preamblemode == 1)
++			padapter->registrypriv.preamble = PREAMBLE_AUTO;
++		else if (preamblemode == 2)
++			padapter->registrypriv.preamble = PREAMBLE_SHORT;
++
++		*(ULONG *)poid_par_priv->information_buf = preamblemode ;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH ;
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_set_bcn_intvl_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++NDIS_STATUS oid_rt_dedicate_probe_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_total_tx_bytes_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if (poid_par_priv->information_buf_len >= sizeof(ULONG)) {
++		*(u64 *)poid_par_priv->information_buf = padapter->xmitpriv.tx_bytes;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH ;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_total_rx_bytes_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if (poid_par_priv->information_buf_len >= sizeof(ULONG)) {
++		/* _rtw_memcpy(*(uint *)poid_par_priv->information_buf,padapter->recvpriv.rx_icv_err,sizeof(u32)); */
++		*(u64 *)poid_par_priv->information_buf = padapter->recvpriv.rx_bytes;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH ;
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_current_tx_power_level_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_enc_key_mismatch_count_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_enc_key_match_count_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_channel_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++	struct	mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	NDIS_802_11_CONFIGURATION		*pnic_Config;
++
++	ULONG   channelnum;
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	if ((check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) ||
++	    (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE))
++		pnic_Config = &pmlmepriv->cur_network.network.Configuration;
++	else
++		pnic_Config = &padapter->registrypriv.dev_network.Configuration;
++
++	channelnum = pnic_Config->DSConfig;
++	*(ULONG *)poid_par_priv->information_buf = channelnum;
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_hardware_radio_off_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_key_mismatch_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++NDIS_STATUS oid_rt_supported_wireless_mode_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++	ULONG			ulInfo = 0 ;
++	/* DEBUG_ERR(("<**********************oid_rt_supported_wireless_mode_hdl\n"));	 */
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if (poid_par_priv->information_buf_len >= sizeof(ULONG)) {
++		ulInfo |= 0x0100; /* WIRELESS_MODE_B */
++		ulInfo |= 0x0200; /* WIRELESS_MODE_G */
++		ulInfo |= 0x0400; /* WIRELESS_MODE_A */
++
++		*(ULONG *) poid_par_priv->information_buf = ulInfo;
++		/* DEBUG_ERR(("<===oid_rt_supported_wireless_mode %x\n",ulInfo));	 */
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_channel_list_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_scan_in_progress_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++
++
++NDIS_STATUS oid_rt_forced_data_rate_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++NDIS_STATUS oid_rt_wireless_mode_for_scan_list_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++NDIS_STATUS oid_rt_get_bss_wireless_mode_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_scan_with_magic_packet_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++/* **************  oid_rtl_seg_01_01 section end ************** */
++
++/* **************  oid_rtl_seg_01_03 section start ************** */
++NDIS_STATUS oid_rt_ap_get_associated_station_list_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++NDIS_STATUS oid_rt_ap_switch_into_ap_mode_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++NDIS_STATUS oid_rt_ap_supported_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	return status;
++}
++NDIS_STATUS oid_rt_ap_set_passphrase_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++
++/* **************  oid_rtl_seg_01_03 section end ************** */
++
++/* ****************  oid_rtl_seg_01_11   section start **************** */
++NDIS_STATUS oid_rt_pro_rf_write_registry_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	_irqL			oldirql;
++	/* DEBUG_ERR(("<**********************oid_rt_pro_rf_write_registry_hdl\n")); */
++	if (poid_par_priv->type_of_oid != SET_OID) { /* QUERY_OID */
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	if (poid_par_priv->information_buf_len == (sizeof(unsigned long) * 3)) {
++		/* RegOffsetValue	- The offset of RF register to write. */
++		/* RegDataWidth	- The data width of RF register to write. */
++		/* RegDataValue	- The value to write. */
++		/* RegOffsetValue = *((unsigned long*)InformationBuffer); */
++		/* RegDataWidth = *((unsigned long*)InformationBuffer+1);	   */
++		/* RegDataValue =  *((unsigned long*)InformationBuffer+2);	 */
++		if (!rtw_setrfreg_cmd(Adapter,
++			      *(unsigned char *)poid_par_priv->information_buf,
++			(unsigned long)(*((unsigned long *)poid_par_priv->information_buf + 2))))
++			status = NDIS_STATUS_NOT_ACCEPTED;
++
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	return status;
++}
++
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_rf_read_registry_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++#if 0
++	PADAPTER		Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	_irqL	oldirql;
++
++	/* DEBUG_ERR(("<**********************oid_rt_pro_rf_read_registry_hdl\n")); */
++	if (poid_par_priv->type_of_oid != SET_OID) { /* QUERY_OID */
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	if (poid_par_priv->information_buf_len == (sizeof(unsigned long) * 3)) {
++		if (Adapter->mppriv.act_in_progress == _TRUE)
++			status = NDIS_STATUS_NOT_ACCEPTED;
++		else {
++			/* init workparam */
++			Adapter->mppriv.act_in_progress = _TRUE;
++			Adapter->mppriv.workparam.bcompleted = _FALSE;
++			Adapter->mppriv.workparam.act_type = MPT_READ_RF;
++			Adapter->mppriv.workparam.io_offset = *(unsigned long *)poid_par_priv->information_buf;
++			Adapter->mppriv.workparam.io_value = 0xcccccccc;
++
++			/* RegOffsetValue	- The offset of RF register to read. */
++			/* RegDataWidth	- The data width of RF register to read. */
++			/* RegDataValue	- The value to read. */
++			/* RegOffsetValue = *((unsigned long*)InformationBuffer); */
++			/* RegDataWidth = *((unsigned long*)InformationBuffer+1);	   */
++			/* RegDataValue =  *((unsigned long*)InformationBuffer+2);	   	 	                   */
++			if (!rtw_getrfreg_cmd(Adapter,
++				*(unsigned char *)poid_par_priv->information_buf,
++				(unsigned char *)&Adapter->mppriv.workparam.io_value))
++				status = NDIS_STATUS_NOT_ACCEPTED;
++		}
++
++
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++	_irqlevel_changed_(&oldirql, RAISE);
++#endif
++	return status;
++}
++
++/* ****************  oid_rtl_seg_01_11   section end****************	 */
++
++
++/* **************  oid_rtl_seg_03_00 section start **************  */
++enum _CONNECT_STATE_ {
++	CHECKINGSTATUS,
++	ASSOCIATED,
++	ADHOCMODE,
++	NOTASSOCIATED
++};
++
++NDIS_STATUS oid_rt_get_connect_state_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++
++	ULONG ulInfo;
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	/* nStatus==0	CheckingStatus */
++	/* nStatus==1	Associated */
++	/* nStatus==2	AdHocMode */
++	/* nStatus==3	NotAssociated */
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE)
++		ulInfo = CHECKINGSTATUS;
++	else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		ulInfo = ASSOCIATED;
++	else if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE)
++		ulInfo = ADHOCMODE;
++	else
++		ulInfo = NOTASSOCIATED ;
++
++	*(ULONG *)poid_par_priv->information_buf = ulInfo;
++	*poid_par_priv->bytes_rw =  poid_par_priv->information_buf_len;
++
++#if 0
++	/* Rearrange the order to let the UI still shows connection when scan is in progress */
++	if (pMgntInfo->mAssoc)
++		ulInfo = 1;
++	else if (pMgntInfo->mIbss)
++		ulInfo = 2;
++	else if (pMgntInfo->bScanInProgress)
++		ulInfo = 0;
++	else
++		ulInfo = 3;
++	ulInfoLen = sizeof(ULONG);
++#endif
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_set_default_key_id_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++	PADAPTER		padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	return status;
++}
++/* **************  oid_rtl_seg_03_00 section end **************  */
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_ioctl_set.c b/drivers/net/wireless/rtl8812au/core/rtw_ioctl_set.c
+new file mode 100644
+index 0000000..934dc95
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_ioctl_set.c
+@@ -0,0 +1,1252 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_IOCTL_SET_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++
++extern void indicate_wx_scan_complete_event(_adapter *padapter);
++
++#define IS_MAC_ADDRESS_BROADCAST(addr) \
++	(\
++	 ((addr[0] == 0xff) && (addr[1] == 0xff) && \
++	  (addr[2] == 0xff) && (addr[3] == 0xff) && \
++	  (addr[4] == 0xff) && (addr[5] == 0xff)) ? _TRUE : _FALSE \
++	)
++
++u8 rtw_validate_bssid(u8 *bssid)
++{
++	u8 ret = _TRUE;
++
++	if (is_zero_mac_addr(bssid)
++	    || is_broadcast_mac_addr(bssid)
++	    || is_multicast_mac_addr(bssid)
++	   )
++		ret = _FALSE;
++
++	return ret;
++}
++
++u8 rtw_validate_ssid(NDIS_802_11_SSID *ssid)
++{
++	u8	 i;
++	u8	ret = _TRUE;
++
++
++	if (ssid->SsidLength > 32) {
++		ret = _FALSE;
++		goto exit;
++	}
++
++#ifdef CONFIG_VALIDATE_SSID
++	for (i = 0; i < ssid->SsidLength; i++) {
++		/* wifi, printable ascii code must be supported */
++		if (!((ssid->Ssid[i] >= 0x20) && (ssid->Ssid[i] <= 0x7e))) {
++			ret = _FALSE;
++			break;
++		}
++	}
++#endif /* CONFIG_VALIDATE_SSID */
++
++exit:
++
++
++	return ret;
++}
++
++u8 rtw_do_join(_adapter *padapter);
++u8 rtw_do_join(_adapter *padapter)
++{
++	_irqL	irqL;
++	_list	*plist, *phead;
++	u8 *pibss = NULL;
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	_queue	*queue	= &(pmlmepriv->scanned_queue);
++	u8 ret = _SUCCESS;
++
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++
++	pmlmepriv->cur_network.join_res = -2;
++
++	set_fwstate(pmlmepriv, _FW_UNDER_LINKING);
++
++	pmlmepriv->pscanned = plist;
++
++	pmlmepriv->to_join = _TRUE;
++
++	if (_rtw_queue_empty(queue) == _TRUE) {
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++
++		/* when set_ssid/set_bssid for rtw_do_join(), but scanning queue is empty */
++		/* we try to issue sitesurvey firstly	 */
++
++		if (pmlmepriv->LinkDetectInfo.bBusyTraffic == _FALSE
++		    || rtw_to_roam(padapter) > 0
++		   ) {
++			/* submit site_survey_cmd */
++			ret = rtw_sitesurvey_cmd(padapter, &pmlmepriv->assoc_ssid, 1, NULL, 0);
++			if (_SUCCESS != ret) {
++				pmlmepriv->to_join = _FALSE;
++			}
++		} else {
++			pmlmepriv->to_join = _FALSE;
++			ret = _FAIL;
++		}
++
++		goto exit;
++	} else {
++		int select_ret;
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		select_ret = rtw_select_and_join_from_scanned_queue(pmlmepriv);
++		if (select_ret == _SUCCESS) {
++			pmlmepriv->to_join = _FALSE;
++			_set_timer(&pmlmepriv->assoc_timer, MAX_JOIN_TIMEOUT);
++		} else {
++			if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) {
++				/* submit createbss_cmd to change to a ADHOC_MASTER */
++
++				/* pmlmepriv->lock has been acquired by caller... */
++				WLAN_BSSID_EX    *pdev_network = &(padapter->registrypriv.dev_network);
++
++				/*pmlmepriv->fw_state = WIFI_ADHOC_MASTER_STATE;*/
++				init_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++
++				pibss = padapter->registrypriv.dev_network.MacAddress;
++
++				_rtw_memset(&pdev_network->Ssid, 0, sizeof(NDIS_802_11_SSID));
++				_rtw_memcpy(&pdev_network->Ssid, &pmlmepriv->assoc_ssid, sizeof(NDIS_802_11_SSID));
++
++				rtw_update_registrypriv_dev_network(padapter);
++
++				rtw_generate_random_ibss(pibss);
++
++				if (rtw_create_ibss_cmd(padapter, 0) != _SUCCESS) {
++					ret =  _FALSE;
++					goto exit;
++				}
++
++				pmlmepriv->to_join = _FALSE;
++
++
++			} else {
++				/* can't associate ; reset under-linking			 */
++				_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++
++#if 0
++				if ((check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)) {
++					if (_rtw_memcmp(pmlmepriv->cur_network.network.Ssid.Ssid, pmlmepriv->assoc_ssid.Ssid, pmlmepriv->assoc_ssid.SsidLength)) {
++						/* for funk to do roaming */
++						/* funk will reconnect, but funk will not sitesurvey before reconnect */
++						if (pmlmepriv->sitesurveyctrl.traffic_busy == _FALSE)
++							rtw_sitesurvey_cmd(padapter, &pmlmepriv->assoc_ssid, 1, NULL, 0);
++					}
++
++				}
++#endif
++
++				/* when set_ssid/set_bssid for rtw_do_join(), but there are no desired bss in scanning queue */
++				/* we try to issue sitesurvey firstly			 */
++				if (pmlmepriv->LinkDetectInfo.bBusyTraffic == _FALSE
++				    || rtw_to_roam(padapter) > 0
++				   ) {
++					/* RTW_INFO("rtw_do_join() when   no desired bss in scanning queue\n"); */
++					ret = rtw_sitesurvey_cmd(padapter, &pmlmepriv->assoc_ssid, 1, NULL, 0);
++					if (_SUCCESS != ret) {
++						pmlmepriv->to_join = _FALSE;
++					}
++				} else {
++					ret = _FAIL;
++					pmlmepriv->to_join = _FALSE;
++				}
++			}
++
++		}
++
++	}
++
++exit:
++
++	return ret;
++}
++
++#ifdef PLATFORM_WINDOWS
++u8 rtw_pnp_set_power_wakeup(_adapter *padapter)
++{
++	u8 res = _SUCCESS;
++
++
++
++	res = rtw_setstandby_cmd(padapter, 0);
++
++
++
++	return res;
++}
++
++u8 rtw_pnp_set_power_sleep(_adapter *padapter)
++{
++	u8 res = _SUCCESS;
++
++
++	/* DbgPrint("+rtw_pnp_set_power_sleep\n"); */
++
++	res = rtw_setstandby_cmd(padapter, 1);
++
++
++
++	return res;
++}
++
++u8 rtw_set_802_11_reload_defaults(_adapter *padapter, NDIS_802_11_RELOAD_DEFAULTS reloadDefaults)
++{
++
++
++
++	/* SecClearAllKeys(Adapter); */
++	/* 8711 CAM was not for En/Decrypt only */
++	/* so, we can't clear all keys. */
++	/* should we disable WPAcfg (ox0088) bit 1-2, instead of clear all CAM */
++
++	/* TO DO... */
++
++
++	return _TRUE;
++}
++
++u8 set_802_11_test(_adapter *padapter, NDIS_802_11_TEST *test)
++{
++	u8 ret = _TRUE;
++
++
++	switch (test->Type) {
++	case 1:
++		NdisMIndicateStatus(padapter->hndis_adapter, NDIS_STATUS_MEDIA_SPECIFIC_INDICATION, (PVOID)&test->AuthenticationEvent, test->Length - 8);
++		NdisMIndicateStatusComplete(padapter->hndis_adapter);
++		break;
++
++	case 2:
++		NdisMIndicateStatus(padapter->hndis_adapter, NDIS_STATUS_MEDIA_SPECIFIC_INDICATION, (PVOID)&test->RssiTrigger, sizeof(NDIS_802_11_RSSI));
++		NdisMIndicateStatusComplete(padapter->hndis_adapter);
++		break;
++
++	default:
++		ret = _FALSE;
++		break;
++	}
++
++
++	return ret;
++}
++
++u8	rtw_set_802_11_pmkid(_adapter	*padapter, NDIS_802_11_PMKID *pmkid)
++{
++	u8	ret = _SUCCESS;
++
++	return ret;
++}
++
++#endif
++
++u8 rtw_set_802_11_bssid(_adapter *padapter, u8 *bssid)
++{
++	_irqL irqL;
++	u8 status = _SUCCESS;
++
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++
++	RTW_PRINT("set bssid:%pM\n", bssid);
++
++	if ((bssid[0] == 0x00 && bssid[1] == 0x00 && bssid[2] == 0x00 && bssid[3] == 0x00 && bssid[4] == 0x00 && bssid[5] == 0x00) ||
++	    (bssid[0] == 0xFF && bssid[1] == 0xFF && bssid[2] == 0xFF && bssid[3] == 0xFF && bssid[4] == 0xFF && bssid[5] == 0xFF)) {
++		status = _FAIL;
++		goto exit;
++	}
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++	RTW_INFO("Set BSSID under fw_state=0x%08x\n", get_fwstate(pmlmepriv));
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE)
++		goto handle_tkip_countermeasure;
++	else if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE)
++		goto release_mlme_lock;
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED | WIFI_ADHOC_MASTER_STATE) == _TRUE) {
++
++		if (_rtw_memcmp(&pmlmepriv->cur_network.network.MacAddress, bssid, ETH_ALEN) == _TRUE) {
++			if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _FALSE)
++				goto release_mlme_lock;/* it means driver is in WIFI_ADHOC_MASTER_STATE, we needn't create bss again. */
++		} else {
++
++			rtw_disassoc_cmd(padapter, 0, _TRUE);
++
++			if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++				rtw_indicate_disconnect(padapter, 0, _FALSE);
++
++			rtw_free_assoc_resources(padapter, 1);
++
++			if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE)) {
++				_clr_fwstate_(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++				set_fwstate(pmlmepriv, WIFI_ADHOC_STATE);
++			}
++		}
++	}
++
++handle_tkip_countermeasure:
++	if (rtw_handle_tkip_countermeasure(padapter, __func__) == _FAIL) {
++		status = _FAIL;
++		goto release_mlme_lock;
++	}
++
++	_rtw_memset(&pmlmepriv->assoc_ssid, 0, sizeof(NDIS_802_11_SSID));
++	_rtw_memcpy(&pmlmepriv->assoc_bssid, bssid, ETH_ALEN);
++	pmlmepriv->assoc_by_bssid = _TRUE;
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE)
++		pmlmepriv->to_join = _TRUE;
++	else
++		status = rtw_do_join(padapter);
++
++release_mlme_lock:
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++exit:
++
++
++	return status;
++}
++
++u8 rtw_set_802_11_ssid(_adapter *padapter, NDIS_802_11_SSID *ssid)
++{
++	_irqL irqL;
++	u8 status = _SUCCESS;
++	u32 cur_time = 0;
++
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network *pnetwork = &pmlmepriv->cur_network;
++
++
++	RTW_PRINT("set ssid [%s] fw_state=0x%08x\n",
++		  ssid->Ssid, get_fwstate(pmlmepriv));
++
++	if (!rtw_is_hw_init_completed(padapter)) {
++		status = _FAIL;
++		goto exit;
++	}
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	RTW_INFO("Set SSID under fw_state=0x%08x\n", get_fwstate(pmlmepriv));
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE)
++		goto handle_tkip_countermeasure;
++	else if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE)
++		goto release_mlme_lock;
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED | WIFI_ADHOC_MASTER_STATE) == _TRUE) {
++
++		if ((pmlmepriv->assoc_ssid.SsidLength == ssid->SsidLength) &&
++		    (_rtw_memcmp(&pmlmepriv->assoc_ssid.Ssid, ssid->Ssid, ssid->SsidLength) == _TRUE)) {
++			if ((check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _FALSE)) {
++
++				if (rtw_is_same_ibss(padapter, pnetwork) == _FALSE) {
++					/* if in WIFI_ADHOC_MASTER_STATE | WIFI_ADHOC_STATE, create bss or rejoin again */
++					rtw_disassoc_cmd(padapter, 0, _TRUE);
++
++					if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++						rtw_indicate_disconnect(padapter, 0, _FALSE);
++
++					rtw_free_assoc_resources(padapter, 1);
++
++					if (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) {
++						_clr_fwstate_(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++						set_fwstate(pmlmepriv, WIFI_ADHOC_STATE);
++					}
++				} else {
++					goto release_mlme_lock;/* it means driver is in WIFI_ADHOC_MASTER_STATE, we needn't create bss again. */
++				}
++			}
++#ifdef CONFIG_LPS
++			else
++				rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_JOINBSS, 1);
++#endif
++		} else {
++
++			rtw_disassoc_cmd(padapter, 0, _TRUE);
++
++			if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++				rtw_indicate_disconnect(padapter, 0, _FALSE);
++
++			rtw_free_assoc_resources(padapter, 1);
++
++			if (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) {
++				_clr_fwstate_(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++				set_fwstate(pmlmepriv, WIFI_ADHOC_STATE);
++			}
++		}
++	}
++
++handle_tkip_countermeasure:
++	if (rtw_handle_tkip_countermeasure(padapter, __func__) == _FAIL) {
++		status = _FAIL;
++		goto release_mlme_lock;
++	}
++
++	if (rtw_validate_ssid(ssid) == _FALSE) {
++		status = _FAIL;
++		goto release_mlme_lock;
++	}
++
++	_rtw_memcpy(&pmlmepriv->assoc_ssid, ssid, sizeof(NDIS_802_11_SSID));
++	pmlmepriv->assoc_by_bssid = _FALSE;
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE)
++		pmlmepriv->to_join = _TRUE;
++	else
++		status = rtw_do_join(padapter);
++
++release_mlme_lock:
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++exit:
++
++
++	return status;
++
++}
++
++u8 rtw_set_802_11_connect(_adapter *padapter, u8 *bssid, NDIS_802_11_SSID *ssid)
++{
++	_irqL irqL;
++	u8 status = _SUCCESS;
++	u32 cur_time = 0;
++	bool bssid_valid = _TRUE;
++	bool ssid_valid = _TRUE;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++
++	if (!ssid || rtw_validate_ssid(ssid) == _FALSE)
++		ssid_valid = _FALSE;
++
++	if (!bssid || rtw_validate_bssid(bssid) == _FALSE)
++		bssid_valid = _FALSE;
++
++	if (ssid_valid == _FALSE && bssid_valid == _FALSE) {
++		RTW_INFO(FUNC_ADPT_FMT" ssid:%p, ssid_valid:%d, bssid:%p, bssid_valid:%d\n",
++			FUNC_ADPT_ARG(padapter), ssid, ssid_valid, bssid, bssid_valid);
++		status = _FAIL;
++		goto exit;
++	}
++
++	if (!rtw_is_hw_init_completed(padapter)) {
++		status = _FAIL;
++		goto exit;
++	}
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	RTW_PRINT(FUNC_ADPT_FMT"  fw_state=0x%08x\n",
++		  FUNC_ADPT_ARG(padapter), get_fwstate(pmlmepriv));
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE)
++		goto handle_tkip_countermeasure;
++	else if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE)
++		goto release_mlme_lock;
++
++handle_tkip_countermeasure:
++	if (rtw_handle_tkip_countermeasure(padapter, __func__) == _FAIL) {
++		status = _FAIL;
++		goto release_mlme_lock;
++	}
++
++	if (ssid && ssid_valid)
++		_rtw_memcpy(&pmlmepriv->assoc_ssid, ssid, sizeof(NDIS_802_11_SSID));
++	else
++		_rtw_memset(&pmlmepriv->assoc_ssid, 0, sizeof(NDIS_802_11_SSID));
++
++	if (bssid && bssid_valid) {
++		_rtw_memcpy(&pmlmepriv->assoc_bssid, bssid, ETH_ALEN);
++		pmlmepriv->assoc_by_bssid = _TRUE;
++	} else
++		pmlmepriv->assoc_by_bssid = _FALSE;
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE)
++		pmlmepriv->to_join = _TRUE;
++	else
++		status = rtw_do_join(padapter);
++
++release_mlme_lock:
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++exit:
++
++
++	return status;
++}
++
++u8 rtw_set_802_11_infrastructure_mode(_adapter *padapter,
++			      NDIS_802_11_NETWORK_INFRASTRUCTURE networktype)
++{
++	_irqL irqL;
++	struct	mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct	wlan_network	*cur_network = &pmlmepriv->cur_network;
++	NDIS_802_11_NETWORK_INFRASTRUCTURE *pold_state = &(cur_network->network.InfrastructureMode);
++
++
++
++	if (*pold_state != networktype) {
++		/* RTW_INFO("change mode, old_mode=%d, new_mode=%d, fw_state=0x%x\n", *pold_state, networktype, get_fwstate(pmlmepriv)); */
++
++		if (*pold_state == Ndis802_11APMode) {
++			/* change to other mode from Ndis802_11APMode			 */
++			cur_network->join_res = -1;
++
++#ifdef CONFIG_NATIVEAP_MLME
++			stop_ap_mode(padapter);
++#endif
++		}
++
++		_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++		if ((check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) || (*pold_state == Ndis802_11IBSS))
++			rtw_disassoc_cmd(padapter, 0, _TRUE);
++
++		if ((check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) ||
++		    (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE))
++			rtw_free_assoc_resources(padapter, 1);
++
++		if ((*pold_state == Ndis802_11Infrastructure) || (*pold_state == Ndis802_11IBSS)) {
++			if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				rtw_indicate_disconnect(padapter, 0, _FALSE); /*will clr Linked_state; before this function, we must have checked whether issue dis-assoc_cmd or not*/
++			}
++		}
++
++		*pold_state = networktype;
++
++		_clr_fwstate_(pmlmepriv, ~WIFI_NULL_STATE);
++
++		switch (networktype) {
++		case Ndis802_11IBSS:
++			set_fwstate(pmlmepriv, WIFI_ADHOC_STATE);
++			break;
++
++		case Ndis802_11Infrastructure:
++			set_fwstate(pmlmepriv, WIFI_STATION_STATE);
++			break;
++
++		case Ndis802_11APMode:
++			set_fwstate(pmlmepriv, WIFI_AP_STATE);
++#ifdef CONFIG_NATIVEAP_MLME
++			start_ap_mode(padapter);
++			/* rtw_indicate_connect(padapter); */
++#endif
++
++			break;
++
++		case Ndis802_11AutoUnknown:
++		case Ndis802_11InfrastructureMax:
++			break;
++		case Ndis802_11Monitor:
++			set_fwstate(pmlmepriv, WIFI_MONITOR_STATE);
++			break;
++		}
++
++		/* SecClearAllKeys(adapter); */
++
++
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++	}
++
++
++	return _TRUE;
++}
++
++
++u8 rtw_set_802_11_disassociate(_adapter *padapter)
++{
++	_irqL irqL;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++
++		rtw_disassoc_cmd(padapter, 0, _TRUE);
++		rtw_indicate_disconnect(padapter, 0, _FALSE);
++		/* modify for CONFIG_IEEE80211W, none 11w can use it */
++		rtw_free_assoc_resources_cmd(padapter);
++		if (_FAIL == rtw_pwr_wakeup(padapter))
++			RTW_INFO("%s(): rtw_pwr_wakeup fail !!!\n", __FUNCTION__);
++	}
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++	return _TRUE;
++}
++
++#if 1
++u8 rtw_set_802_11_bssid_list_scan(_adapter *padapter, NDIS_802_11_SSID *pssid, int ssid_max_num, struct rtw_ieee80211_channel *ch, int ch_num)
++{
++	_irqL	irqL;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	u8	res = _TRUE;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	res = rtw_sitesurvey_cmd(padapter, pssid, ssid_max_num, ch, ch_num);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++	return res;
++}
++
++#else
++u8 rtw_set_802_11_bssid_list_scan(_adapter *padapter, NDIS_802_11_SSID *pssid, int ssid_max_num, struct rtw_ieee80211_channel *ch, int ch_num)
++{
++	_irqL	irqL;
++	struct	mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	u8	res = _TRUE;
++
++
++
++	if (padapter == NULL) {
++		res = _FALSE;
++		goto exit;
++	}
++	if (!rtw_is_hw_init_completed(padapter)) {
++		res = _FALSE;
++		goto exit;
++	}
++
++	if ((check_fwstate(pmlmepriv, _FW_UNDER_SURVEY | _FW_UNDER_LINKING) == _TRUE) ||
++	    (pmlmepriv->LinkDetectInfo.bBusyTraffic == _TRUE)) {
++		/* Scan or linking is in progress, do nothing. */
++		res = _TRUE;
++
++
++	} else {
++		if (rtw_is_scan_deny(padapter)) {
++			RTW_INFO(FUNC_ADPT_FMT": scan deny\n", FUNC_ADPT_ARG(padapter));
++			indicate_wx_scan_complete_event(padapter);
++			return _SUCCESS;
++		}
++
++		_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++		res = rtw_sitesurvey_cmd(padapter, pssid, ssid_max_num, NULL, 0, ch, ch_num);
++
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++	}
++exit:
++
++
++	return res;
++}
++#endif
++u8 rtw_set_802_11_authentication_mode(_adapter *padapter, NDIS_802_11_AUTHENTICATION_MODE authmode)
++{
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	int res;
++	u8 ret;
++
++
++
++	psecuritypriv->ndisauthtype = authmode;
++
++
++	if (psecuritypriv->ndisauthtype > 3)
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (psecuritypriv->ndisauthtype == 6)
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_WAPI;
++#endif
++
++	res = rtw_set_auth(padapter, psecuritypriv);
++
++	if (res == _SUCCESS)
++		ret = _TRUE;
++	else
++		ret = _FALSE;
++
++
++	return ret;
++}
++
++u8 rtw_set_802_11_add_wep(_adapter *padapter, NDIS_802_11_WEP *wep)
++{
++
++	u8		bdefaultkey;
++	u8		btransmitkey;
++	sint		keyid, res;
++	struct security_priv *psecuritypriv = &(padapter->securitypriv);
++	u8		ret = _SUCCESS;
++
++
++	bdefaultkey = (wep->KeyIndex & 0x40000000) > 0 ? _FALSE : _TRUE; /* for ??? */
++	btransmitkey = (wep->KeyIndex & 0x80000000) > 0 ? _TRUE  : _FALSE;	/* for ??? */
++	keyid = wep->KeyIndex & 0x3fffffff;
++
++	if (keyid >= 4) {
++		ret = _FALSE;
++		goto exit;
++	}
++
++	switch (wep->KeyLength) {
++	case 5:
++		psecuritypriv->dot11PrivacyAlgrthm = _WEP40_;
++		break;
++	case 13:
++		psecuritypriv->dot11PrivacyAlgrthm = _WEP104_;
++		break;
++	default:
++		psecuritypriv->dot11PrivacyAlgrthm = _NO_PRIVACY_;
++		break;
++	}
++
++
++	_rtw_memcpy(&(psecuritypriv->dot11DefKey[keyid].skey[0]), &(wep->KeyMaterial), wep->KeyLength);
++
++	psecuritypriv->dot11DefKeylen[keyid] = wep->KeyLength;
++
++	psecuritypriv->dot11PrivacyKeyIndex = keyid;
++
++
++	res = rtw_set_key(padapter, psecuritypriv, keyid, 1, _TRUE);
++
++	if (res == _FAIL)
++		ret = _FALSE;
++exit:
++
++
++	return ret;
++
++}
++
++u8 rtw_set_802_11_remove_wep(_adapter *padapter, u32 keyindex)
++{
++
++	u8 ret = _SUCCESS;
++
++
++	if (keyindex >= 0x80000000 || padapter == NULL) {
++
++		ret = _FALSE;
++		goto exit;
++
++	} else {
++		int res;
++		struct security_priv *psecuritypriv = &(padapter->securitypriv);
++		if (keyindex < 4) {
++
++			_rtw_memset(&psecuritypriv->dot11DefKey[keyindex], 0, 16);
++
++			res = rtw_set_key(padapter, psecuritypriv, keyindex, 0, _TRUE);
++
++			psecuritypriv->dot11DefKeylen[keyindex] = 0;
++
++			if (res == _FAIL)
++				ret = _FAIL;
++
++		} else
++			ret = _FAIL;
++
++	}
++
++exit:
++
++
++	return ret;
++
++}
++
++u8 rtw_set_802_11_add_key(_adapter *padapter, NDIS_802_11_KEY *key)
++{
++
++	uint	encryptionalgo;
++	u8 *pbssid;
++	struct sta_info *stainfo;
++	u8	bgroup = _FALSE;
++	u8	bgrouptkey = _FALSE;/* can be remove later */
++	u8	ret = _SUCCESS;
++
++
++	if (((key->KeyIndex & 0x80000000) == 0) && ((key->KeyIndex & 0x40000000) > 0)) {
++
++		/* It is invalid to clear bit 31 and set bit 30. If the miniport driver encounters this combination, */
++		/* it must fail the request and return NDIS_STATUS_INVALID_DATA. */
++		ret = _FAIL;
++		goto exit;
++	}
++
++	if (key->KeyIndex & 0x40000000) {
++		/* Pairwise key */
++
++
++		pbssid = get_bssid(&padapter->mlmepriv);
++		stainfo = rtw_get_stainfo(&padapter->stapriv, pbssid);
++
++		if ((stainfo != NULL) && (padapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X)) {
++			encryptionalgo = stainfo->dot118021XPrivacy;
++		} else {
++			encryptionalgo = padapter->securitypriv.dot11PrivacyAlgrthm;
++		}
++
++
++
++
++		if (key->KeyIndex & 0x000000FF) {
++			/* The key index is specified in the lower 8 bits by values of zero to 255. */
++			/* The key index should be set to zero for a Pairwise key, and the driver should fail with */
++			/* NDIS_STATUS_INVALID_DATA if the lower 8 bits is not zero */
++			ret = _FAIL;
++			goto exit;
++		}
++
++		/* check BSSID */
++		if (IS_MAC_ADDRESS_BROADCAST(key->BSSID) == _TRUE) {
++
++			ret = _FALSE;
++			goto exit;
++		}
++
++		/* Check key length for TKIP. */
++		/* if(encryptionAlgorithm == RT_ENC_TKIP_ENCRYPTION && key->KeyLength != 32) */
++		if ((encryptionalgo == _TKIP_) && (key->KeyLength != 32)) {
++			ret = _FAIL;
++			goto exit;
++
++		}
++
++		/* Check key length for AES. */
++		if ((encryptionalgo == _AES_) && (key->KeyLength != 16)) {
++			/* For our supplicant, EAPPkt9x.vxd, cannot differentiate TKIP and AES case. */
++			if (key->KeyLength == 32)
++				key->KeyLength = 16;
++			else {
++				ret = _FAIL;
++				goto exit;
++			}
++		}
++
++		/* Check key length for WEP. For NDTEST, 2005.01.27, by rcnjko. -> modify checking condition*/
++		if (((encryptionalgo == _WEP40_) && (key->KeyLength != 5)) || ((encryptionalgo == _WEP104_) && (key->KeyLength != 13))) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		bgroup = _FALSE;
++
++		/* Check the pairwise key. Added by Annie, 2005-07-06. */
++
++	} else {
++		/* Group key - KeyIndex(BIT30==0) */
++
++
++		/* when add wep key through add key and didn't assigned encryption type before */
++		if ((padapter->securitypriv.ndisauthtype <= 3) && (padapter->securitypriv.dot118021XGrpPrivacy == 0)) {
++
++			switch (key->KeyLength) {
++			case 5:
++				padapter->securitypriv.dot11PrivacyAlgrthm = _WEP40_;
++				break;
++			case 13:
++				padapter->securitypriv.dot11PrivacyAlgrthm = _WEP104_;
++				break;
++			default:
++				padapter->securitypriv.dot11PrivacyAlgrthm = _NO_PRIVACY_;
++				break;
++			}
++
++			encryptionalgo = padapter->securitypriv.dot11PrivacyAlgrthm;
++
++
++		} else {
++			encryptionalgo = padapter->securitypriv.dot118021XGrpPrivacy;
++
++		}
++
++		if ((check_fwstate(&padapter->mlmepriv, WIFI_ADHOC_STATE) == _TRUE) && (IS_MAC_ADDRESS_BROADCAST(key->BSSID) == _FALSE)) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		/* Check key length for TKIP */
++		if ((encryptionalgo == _TKIP_) && (key->KeyLength != 32)) {
++
++			ret = _FAIL;
++			goto exit;
++
++		} else if (encryptionalgo == _AES_ && (key->KeyLength != 16 && key->KeyLength != 32)) {
++
++			/* Check key length for AES */
++			/* For NDTEST, we allow keylen=32 in this case. 2005.01.27, by rcnjko. */
++			ret = _FAIL;
++			goto exit;
++		}
++
++		/* Change the key length for EAPPkt9x.vxd. Added by Annie, 2005-11-03. */
++		if ((encryptionalgo ==  _AES_) && (key->KeyLength == 32)) {
++			key->KeyLength = 16;
++		}
++
++		if (key->KeyIndex & 0x8000000) /* error ??? 0x8000_0000 */
++			bgrouptkey = _TRUE;
++
++		if ((check_fwstate(&padapter->mlmepriv, WIFI_ADHOC_STATE) == _TRUE) && (check_fwstate(&padapter->mlmepriv, _FW_LINKED) == _TRUE))
++			bgrouptkey = _TRUE;
++
++		bgroup = _TRUE;
++
++
++	}
++
++	/* If WEP encryption algorithm, just call rtw_set_802_11_add_wep(). */
++	if ((padapter->securitypriv.dot11AuthAlgrthm != dot11AuthAlgrthm_8021X) && (encryptionalgo == _WEP40_  || encryptionalgo == _WEP104_)) {
++		u8 ret;
++		u32 keyindex;
++		u32 len = FIELD_OFFSET(NDIS_802_11_KEY, KeyMaterial) + key->KeyLength;
++		NDIS_802_11_WEP *wep = &padapter->securitypriv.ndiswep;
++
++
++		wep->Length = len;
++		keyindex = key->KeyIndex & 0x7fffffff;
++		wep->KeyIndex = keyindex ;
++		wep->KeyLength = key->KeyLength;
++
++
++		_rtw_memcpy(wep->KeyMaterial, key->KeyMaterial, key->KeyLength);
++		_rtw_memcpy(&(padapter->securitypriv.dot11DefKey[keyindex].skey[0]), key->KeyMaterial, key->KeyLength);
++
++		padapter->securitypriv.dot11DefKeylen[keyindex] = key->KeyLength;
++		padapter->securitypriv.dot11PrivacyKeyIndex = keyindex;
++
++		ret = rtw_set_802_11_add_wep(padapter, wep);
++
++		goto exit;
++
++	}
++
++	if (key->KeyIndex & 0x20000000) {
++		/* SetRSC */
++		if (bgroup == _TRUE) {
++			NDIS_802_11_KEY_RSC keysrc = key->KeyRSC & 0x00FFFFFFFFFFFFULL;
++			_rtw_memcpy(&padapter->securitypriv.dot11Grprxpn, &keysrc, 8);
++		} else {
++			NDIS_802_11_KEY_RSC keysrc = key->KeyRSC & 0x00FFFFFFFFFFFFULL;
++			_rtw_memcpy(&padapter->securitypriv.dot11Grptxpn, &keysrc, 8);
++		}
++
++	}
++
++	/* Indicate this key idx is used for TX */
++	/* Save the key in KeyMaterial */
++	if (bgroup == _TRUE) { /* Group transmit key */
++		int res;
++
++		if (bgrouptkey == _TRUE)
++			padapter->securitypriv.dot118021XGrpKeyid = (u8)key->KeyIndex;
++
++		if ((key->KeyIndex & 0x3) == 0) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		_rtw_memset(&padapter->securitypriv.dot118021XGrpKey[(u8)((key->KeyIndex) & 0x03)], 0, 16);
++		_rtw_memset(&padapter->securitypriv.dot118021XGrptxmickey[(u8)((key->KeyIndex) & 0x03)], 0, 16);
++		_rtw_memset(&padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex) & 0x03)], 0, 16);
++
++		if ((key->KeyIndex & 0x10000000)) {
++			_rtw_memcpy(&padapter->securitypriv.dot118021XGrptxmickey[(u8)((key->KeyIndex) & 0x03)], key->KeyMaterial + 16, 8);
++			_rtw_memcpy(&padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex) & 0x03)], key->KeyMaterial + 24, 8);
++
++
++		} else {
++			_rtw_memcpy(&padapter->securitypriv.dot118021XGrptxmickey[(u8)((key->KeyIndex) & 0x03)], key->KeyMaterial + 24, 8);
++			_rtw_memcpy(&padapter->securitypriv.dot118021XGrprxmickey[(u8)((key->KeyIndex) & 0x03)], key->KeyMaterial + 16, 8);
++
++
++		}
++
++		/* set group key by index */
++		_rtw_memcpy(&padapter->securitypriv.dot118021XGrpKey[(u8)((key->KeyIndex) & 0x03)], key->KeyMaterial, key->KeyLength);
++
++		key->KeyIndex = key->KeyIndex & 0x03;
++
++		padapter->securitypriv.binstallGrpkey = _TRUE;
++
++		padapter->securitypriv.bcheck_grpkey = _FALSE;
++
++
++		res = rtw_set_key(padapter, &padapter->securitypriv, key->KeyIndex, 1, _TRUE);
++
++		if (res == _FAIL)
++			ret = _FAIL;
++
++		goto exit;
++
++	} else { /* Pairwise Key */
++		u8 res;
++
++		pbssid = get_bssid(&padapter->mlmepriv);
++		stainfo = rtw_get_stainfo(&padapter->stapriv , pbssid);
++
++		if (stainfo != NULL) {
++			_rtw_memset(&stainfo->dot118021x_UncstKey, 0, 16); /* clear keybuffer */
++
++			_rtw_memcpy(&stainfo->dot118021x_UncstKey, key->KeyMaterial, 16);
++
++			if (encryptionalgo == _TKIP_) {
++				padapter->securitypriv.busetkipkey = _FALSE;
++
++				/* _set_timer(&padapter->securitypriv.tkip_timer, 50); */
++
++
++				/* if TKIP, save the Receive/Transmit MIC key in KeyMaterial[128-255] */
++				if ((key->KeyIndex & 0x10000000)) {
++					_rtw_memcpy(&stainfo->dot11tkiptxmickey, key->KeyMaterial + 16, 8);
++					_rtw_memcpy(&stainfo->dot11tkiprxmickey, key->KeyMaterial + 24, 8);
++
++				} else {
++					_rtw_memcpy(&stainfo->dot11tkiptxmickey, key->KeyMaterial + 24, 8);
++					_rtw_memcpy(&stainfo->dot11tkiprxmickey, key->KeyMaterial + 16, 8);
++
++				}
++
++			} else if (encryptionalgo == _AES_) {
++
++			}
++
++
++			/* Set key to CAM through H2C command */
++#if 0
++			if (bgrouptkey) { /* never go to here */
++				res = rtw_setstakey_cmd(padapter, stainfo, GROUP_KEY, _TRUE);
++			} else {
++				res = rtw_setstakey_cmd(padapter, stainfo, UNICAST_KEY, _TRUE);
++			}
++#else
++
++			res = rtw_setstakey_cmd(padapter, stainfo, UNICAST_KEY, _TRUE);
++#endif
++
++			if (res == _FALSE)
++				ret = _FAIL;
++
++		}
++
++	}
++
++exit:
++
++
++	return ret;
++}
++
++u8 rtw_set_802_11_remove_key(_adapter	*padapter, NDIS_802_11_REMOVE_KEY *key)
++{
++
++	uint				encryptionalgo;
++	u8 *pbssid;
++	struct sta_info *stainfo;
++	u8	bgroup = (key->KeyIndex & 0x4000000) > 0 ? _FALSE : _TRUE;
++	u8	keyIndex = (u8)key->KeyIndex & 0x03;
++	u8	ret = _SUCCESS;
++
++
++	if ((key->KeyIndex & 0xbffffffc) > 0) {
++		ret = _FAIL;
++		goto exit;
++	}
++
++	if (bgroup == _TRUE) {
++		encryptionalgo = padapter->securitypriv.dot118021XGrpPrivacy;
++		/* clear group key by index */
++		/* NdisZeroMemory(Adapter->MgntInfo.SecurityInfo.KeyBuf[keyIndex], MAX_WEP_KEY_LEN); */
++		/* Adapter->MgntInfo.SecurityInfo.KeyLen[keyIndex] = 0; */
++
++		_rtw_memset(&padapter->securitypriv.dot118021XGrpKey[keyIndex], 0, 16);
++
++		/* ! \todo Send a H2C Command to Firmware for removing this Key in CAM Entry. */
++
++	} else {
++
++		pbssid = get_bssid(&padapter->mlmepriv);
++		stainfo = rtw_get_stainfo(&padapter->stapriv , pbssid);
++		if (stainfo != NULL) {
++			encryptionalgo = stainfo->dot118021XPrivacy;
++
++			/* clear key by BSSID */
++			_rtw_memset(&stainfo->dot118021x_UncstKey, 0, 16);
++
++			/* ! \todo Send a H2C Command to Firmware for disable this Key in CAM Entry. */
++
++		} else {
++			ret = _FAIL;
++			goto exit;
++		}
++	}
++
++exit:
++
++
++	return _TRUE;
++
++}
++
++/*
++* rtw_get_cur_max_rate -
++* @adapter: pointer to _adapter structure
++*
++* Return 0 or 100Kbps
++*/
++u16 rtw_get_cur_max_rate(_adapter *adapter)
++{
++	int	i = 0;
++	u16	rate = 0, max_rate = 0;
++	struct mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++	WLAN_BSSID_EX	*pcur_bss = &pmlmepriv->cur_network.network;
++	struct sta_info *psta = NULL;
++	u8	short_GI = 0;
++#ifdef CONFIG_80211N_HT
++	u8	rf_type = 0;
++#endif
++
++#ifdef CONFIG_MP_INCLUDED
++	if (adapter->registrypriv.mp_mode == 1) {
++		if (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE)
++			return 0;
++	}
++#endif
++
++	if ((check_fwstate(pmlmepriv, _FW_LINKED) != _TRUE)
++	    && (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) != _TRUE))
++		return 0;
++
++	psta = rtw_get_stainfo(&adapter->stapriv, get_bssid(pmlmepriv));
++	if (psta == NULL)
++		return 0;
++
++	short_GI = query_ra_short_GI(psta, psta->bw_mode);
++
++#ifdef CONFIG_80211N_HT
++	if (IsSupportedHT(psta->wireless_mode)) {
++		rtw_hal_get_hwreg(adapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++		max_rate = rtw_mcs_rate(
++				   rf_type,
++			   ((psta->bw_mode == CHANNEL_WIDTH_40) ? 1 : 0),
++				   short_GI,
++				   psta->htpriv.ht_cap.supp_mcs_set
++			   );
++	}
++#ifdef CONFIG_80211AC_VHT
++	else if (IsSupportedVHT(psta->wireless_mode))
++		max_rate = ((rtw_vht_mcs_to_data_rate(psta->bw_mode, short_GI, pmlmepriv->vhtpriv.vht_highest_rate) + 1) >> 1) * 10;
++#endif /* CONFIG_80211AC_VHT */
++	else
++#endif /* CONFIG_80211N_HT */
++	{
++		while ((pcur_bss->SupportedRates[i] != 0) && (pcur_bss->SupportedRates[i] != 0xFF)) {
++			rate = pcur_bss->SupportedRates[i] & 0x7F;
++			if (rate > max_rate)
++				max_rate = rate;
++			i++;
++		}
++
++		max_rate = max_rate * 10 / 2;
++	}
++
++	return max_rate;
++}
++
++/*
++* rtw_set_scan_mode -
++* @adapter: pointer to _adapter structure
++* @scan_mode:
++*
++* Return _SUCCESS or _FAIL
++*/
++int rtw_set_scan_mode(_adapter *adapter, RT_SCAN_TYPE scan_mode)
++{
++	if (scan_mode != SCAN_ACTIVE && scan_mode != SCAN_PASSIVE)
++		return _FAIL;
++
++	adapter->mlmepriv.scan_mode = scan_mode;
++
++	return _SUCCESS;
++}
++
++/*
++* rtw_set_channel_plan -
++* @adapter: pointer to _adapter structure
++* @channel_plan:
++*
++* Return _SUCCESS or _FAIL
++*/
++int rtw_set_channel_plan(_adapter *adapter, u8 channel_plan)
++{
++	struct registry_priv *pregistrypriv = &adapter->registrypriv;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++
++	/* handle by cmd_thread to sync with scan operation */
++	return rtw_set_chplan_cmd(adapter, RTW_CMDF_WAIT_ACK, channel_plan, 1);
++}
++
++/*
++* rtw_set_country -
++* @adapter: pointer to _adapter structure
++* @country_code: string of country code
++*
++* Return _SUCCESS or _FAIL
++*/
++int rtw_set_country(_adapter *adapter, const char *country_code)
++{
++#ifdef CONFIG_RTW_IOCTL_SET_COUNTRY
++	return rtw_set_country_cmd(adapter, RTW_CMDF_WAIT_ACK, country_code, 1);
++#else
++	return _FAIL;
++#endif
++}
++
++/*
++* rtw_set_band -
++* @adapter: pointer to _adapter structure
++* @band: band to set
++*
++* Return _SUCCESS or _FAIL
++*/
++int rtw_set_band(_adapter *adapter, u8 band)
++{
++	if (rtw_band_valid(band)) {
++		RTW_INFO(FUNC_ADPT_FMT" band:%d\n", FUNC_ADPT_ARG(adapter), band);
++		adapter->setband = band;
++		return _SUCCESS;
++	}
++
++	RTW_PRINT(FUNC_ADPT_FMT" band:%d fail\n", FUNC_ADPT_ARG(adapter), band);
++	return _FAIL;
++}
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_iol.c b/drivers/net/wireless/rtl8812au/core/rtw_iol.c
+new file mode 100644
+index 0000000..42d0b6b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_iol.c
+@@ -0,0 +1,387 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include <drv_types.h>
++
++#ifdef CONFIG_IOL
++struct xmit_frame	*rtw_IOL_accquire_xmit_frame(ADAPTER *adapter)
++{
++	struct xmit_frame	*xmit_frame;
++	struct xmit_buf	*xmitbuf;
++	struct pkt_attrib	*pattrib;
++	struct xmit_priv	*pxmitpriv = &(adapter->xmitpriv);
++
++#if 1
++	xmit_frame = rtw_alloc_xmitframe(pxmitpriv);
++	if (xmit_frame == NULL) {
++		RTW_INFO("%s rtw_alloc_xmitframe return null\n", __FUNCTION__);
++		goto exit;
++	}
++
++	xmitbuf = rtw_alloc_xmitbuf(pxmitpriv);
++	if (xmitbuf == NULL) {
++		RTW_INFO("%s rtw_alloc_xmitbuf return null\n", __FUNCTION__);
++		rtw_free_xmitframe(pxmitpriv, xmit_frame);
++		xmit_frame = NULL;
++		goto exit;
++	}
++
++	xmit_frame->frame_tag = MGNT_FRAMETAG;
++	xmit_frame->pxmitbuf = xmitbuf;
++	xmit_frame->buf_addr = xmitbuf->pbuf;
++	xmitbuf->priv_data = xmit_frame;
++
++	pattrib = &xmit_frame->attrib;
++	update_mgntframe_attrib(adapter, pattrib);
++	pattrib->qsel = QSLT_BEACON;/* Beacon	 */
++	pattrib->subtype = WIFI_BEACON;
++	pattrib->pktlen = pattrib->last_txcmdsz = 0;
++
++#else
++	xmit_frame = alloc_mgtxmitframe(pxmitpriv);
++	if (xmit_frame == NULL)
++		RTW_INFO("%s alloc_mgtxmitframe return null\n", __FUNCTION__);
++	else {
++		pattrib = &xmit_frame->attrib;
++		update_mgntframe_attrib(adapter, pattrib);
++		pattrib->qsel = QSLT_BEACON;
++		pattrib->pktlen = pattrib->last_txcmdsz = 0;
++	}
++#endif
++
++exit:
++	return xmit_frame;
++}
++
++
++int rtw_IOL_append_cmds(struct xmit_frame *xmit_frame, u8 *IOL_cmds, u32 cmd_len)
++{
++	struct pkt_attrib	*pattrib = &xmit_frame->attrib;
++	u16 buf_offset;
++	u32 ori_len;
++
++	buf_offset = TXDESC_OFFSET;
++	ori_len = buf_offset + pattrib->pktlen;
++
++	/* check if the io_buf can accommodate new cmds */
++	if (ori_len + cmd_len + 8 > MAX_XMITBUF_SZ) {
++		RTW_INFO("%s %u is large than MAX_XMITBUF_SZ:%u, can't accommodate new cmds\n", __FUNCTION__
++			 , ori_len + cmd_len + 8, MAX_XMITBUF_SZ);
++		return _FAIL;
++	}
++
++	_rtw_memcpy(xmit_frame->buf_addr + buf_offset + pattrib->pktlen, IOL_cmds, cmd_len);
++	pattrib->pktlen += cmd_len;
++	pattrib->last_txcmdsz += cmd_len;
++
++	/* RTW_INFO("%s ori:%u + cmd_len:%u = %u\n", __FUNCTION__, ori_len, cmd_len, buf_offset+pattrib->pktlen); */
++
++	return _SUCCESS;
++}
++
++bool rtw_IOL_applied(ADAPTER *adapter)
++{
++	if (1 == adapter->registrypriv.fw_iol)
++		return _TRUE;
++
++#ifdef CONFIG_USB_HCI
++	if ((2 == adapter->registrypriv.fw_iol) && (IS_FULL_SPEED_USB(adapter)))
++		return _TRUE;
++#endif
++
++	return _FALSE;
++}
++
++int rtw_IOL_exec_cmds_sync(ADAPTER *adapter, struct xmit_frame *xmit_frame, u32 max_wating_ms, u32 bndy_cnt)
++{
++	return rtw_hal_iol_cmd(adapter, xmit_frame, max_wating_ms, bndy_cnt);
++}
++
++#ifdef CONFIG_IOL_NEW_GENERATION
++int rtw_IOL_append_LLT_cmd(struct xmit_frame *xmit_frame, u8 page_boundary)
++{
++	return _SUCCESS;
++}
++int _rtw_IOL_append_WB_cmd(struct xmit_frame *xmit_frame, u16 addr, u8 value, u8 mask)
++{
++	struct ioreg_cfg cmd = {8, IOREG_CMD_WB_REG, 0x0, 0x0, 0x0};
++
++	/* RTW_PUT_LE16((u8*)&cmd.address, addr);	 */
++	/* RTW_PUT_LE32((u8*)&cmd.value, (u32)value);	 */
++	cmd.address = cpu_to_le16(addr);
++	cmd.data = cpu_to_le32(value);
++
++	if (mask != 0xFF) {
++		cmd.length = 12;
++		/* RTW_PUT_LE32((u8*)&cmd.mask, (u32)mask);	 */
++		cmd.mask = cpu_to_le32(mask);
++	}
++
++	/* RTW_INFO("%s addr:0x%04x,value:0x%08x,mask:0x%08x\n", __FUNCTION__, addr,value,mask); */
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, cmd.length);
++
++}
++int _rtw_IOL_append_WW_cmd(struct xmit_frame *xmit_frame, u16 addr, u16 value, u16 mask)
++{
++	struct ioreg_cfg cmd = {8, IOREG_CMD_WW_REG, 0x0, 0x0, 0x0};
++
++	/* RTW_PUT_LE16((u8*)&cmd.address, addr);	 */
++	/* RTW_PUT_LE32((u8*)&cmd.value, (u32)value);	 */
++	cmd.address = cpu_to_le16(addr);
++	cmd.data = cpu_to_le32(value);
++
++	if (mask != 0xFFFF) {
++		cmd.length = 12;
++		/* RTW_PUT_LE32((u8*)&cmd.mask, (u32)mask);	 */
++		cmd.mask =  cpu_to_le32(mask);
++	}
++
++	/* RTW_INFO("%s addr:0x%04x,value:0x%08x,mask:0x%08x\n", __FUNCTION__, addr,value,mask); */
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, cmd.length);
++
++}
++int _rtw_IOL_append_WD_cmd(struct xmit_frame *xmit_frame, u16 addr, u32 value, u32 mask)
++{
++	struct ioreg_cfg cmd = {8, IOREG_CMD_WD_REG, 0x0, 0x0, 0x0};
++
++	/* RTW_PUT_LE16((u8*)&cmd.address, addr);	 */
++	/* RTW_PUT_LE32((u8*)&cmd.value, (u32)value);	 */
++	cmd.address = cpu_to_le16(addr);
++	cmd.data = cpu_to_le32(value);
++
++	if (mask != 0xFFFFFFFF) {
++		cmd.length = 12;
++		/* RTW_PUT_LE32((u8*)&cmd.mask, (u32)mask);	 */
++		cmd.mask =  cpu_to_le32(mask);
++	}
++
++	/* RTW_INFO("%s addr:0x%04x,value:0x%08x,mask:0x%08x\n", __FU2NCTION__, addr,value,mask); */
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, cmd.length);
++
++}
++
++int _rtw_IOL_append_WRF_cmd(struct xmit_frame *xmit_frame, u8 rf_path, u16 addr, u32 value, u32 mask)
++{
++	struct ioreg_cfg cmd = {8, IOREG_CMD_W_RF, 0x0, 0x0, 0x0};
++
++	/* RTW_PUT_LE16((u8*)&cmd.address, addr);	 */
++	/* RTW_PUT_LE32((u8*)&cmd.value, (u32)value);	 */
++	cmd.address = (rf_path << 8) | ((addr) & 0xFF);
++	cmd.data = cpu_to_le32(value);
++
++	if (mask != 0x000FFFFF) {
++		cmd.length = 12;
++		/* RTW_PUT_LE32((u8*)&cmd.mask, (u32)mask);	 */
++		cmd.mask =  cpu_to_le32(mask);
++	}
++
++	/* RTW_INFO("%s rf_path:0x%02x addr:0x%04x,value:0x%08x,mask:0x%08x\n", __FU2NCTION__,rf_path, addr,value,mask); */
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, cmd.length);
++
++}
++
++
++
++int rtw_IOL_append_DELAY_US_cmd(struct xmit_frame *xmit_frame, u16 us)
++{
++	struct ioreg_cfg cmd = {4, IOREG_CMD_DELAY_US, 0x0, 0x0, 0x0};
++	/* RTW_PUT_LE16((u8*)&cmd.address, us);	 */
++	cmd.address = cpu_to_le16(us);
++
++	/* RTW_INFO("%s %u\n", __FUNCTION__, us); */
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 4);
++}
++
++int rtw_IOL_append_DELAY_MS_cmd(struct xmit_frame *xmit_frame, u16 ms)
++{
++	struct ioreg_cfg cmd = {4, IOREG_CMD_DELAY_US, 0x0, 0x0, 0x0};
++
++	/* RTW_PUT_LE16((u8*)&cmd.address, ms);	 */
++	cmd.address = cpu_to_le16(ms);
++
++	/* RTW_INFO("%s %u\n", __FUNCTION__, ms); */
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 4);
++}
++int rtw_IOL_append_END_cmd(struct xmit_frame *xmit_frame)
++{
++	struct ioreg_cfg cmd = {4, IOREG_CMD_END, 0xFFFF, 0xFF, 0x0};
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 4);
++
++}
++
++u8 rtw_IOL_cmd_boundary_handle(struct xmit_frame *pxmit_frame)
++{
++	u8 is_cmd_bndy = _FALSE;
++	if (((pxmit_frame->attrib.pktlen + 32) % 256) + 8 >= 256) {
++		rtw_IOL_append_END_cmd(pxmit_frame);
++		pxmit_frame->attrib.pktlen = ((((pxmit_frame->attrib.pktlen + 32) / 256) + 1) * 256);
++
++		/* printk("==> %s, pktlen(%d)\n",__FUNCTION__,pxmit_frame->attrib.pktlen); */
++		pxmit_frame->attrib.last_txcmdsz = pxmit_frame->attrib.pktlen;
++		is_cmd_bndy = _TRUE;
++	}
++	return is_cmd_bndy;
++}
++
++void rtw_IOL_cmd_buf_dump(ADAPTER *Adapter, int buf_len, u8 *pbuf)
++{
++	int i;
++	int j = 1;
++
++	printk("###### %s ######\n", __FUNCTION__);
++	for (i = 0; i < buf_len; i++) {
++		printk("%02x-", *(pbuf + i));
++
++		if (j % 32 == 0)
++			printk("\n");
++		j++;
++	}
++	printk("\n");
++	printk("============= ioreg_cmd len = %d ===============\n", buf_len);
++}
++
++
++#else /* CONFIG_IOL_NEW_GENERATION */
++int rtw_IOL_append_LLT_cmd(struct xmit_frame *xmit_frame, u8 page_boundary)
++{
++	IOL_CMD cmd = {0x0, IOL_CMD_LLT, 0x0, 0x0};
++
++	RTW_PUT_BE32((u8 *)&cmd.value, (u32)page_boundary);
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 8);
++}
++
++int _rtw_IOL_append_WB_cmd(struct xmit_frame *xmit_frame, u16 addr, u8 value)
++{
++	IOL_CMD cmd = {0x0, IOL_CMD_WB_REG, 0x0, 0x0};
++
++	RTW_PUT_BE16((u8 *)&cmd.address, (u16)addr);
++	RTW_PUT_BE32((u8 *)&cmd.value, (u32)value);
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 8);
++}
++
++int _rtw_IOL_append_WW_cmd(struct xmit_frame *xmit_frame, u16 addr, u16 value)
++{
++	IOL_CMD cmd = {0x0, IOL_CMD_WW_REG, 0x0, 0x0};
++
++	RTW_PUT_BE16((u8 *)&cmd.address, (u16)addr);
++	RTW_PUT_BE32((u8 *)&cmd.value, (u32)value);
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 8);
++}
++
++int _rtw_IOL_append_WD_cmd(struct xmit_frame *xmit_frame, u16 addr, u32 value)
++{
++	IOL_CMD cmd = {0x0, IOL_CMD_WD_REG, 0x0, 0x0};
++	u8 *pos = (u8 *)&cmd;
++
++	RTW_PUT_BE16((u8 *)&cmd.address, (u16)addr);
++	RTW_PUT_BE32((u8 *)&cmd.value, (u32)value);
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 8);
++}
++
++#ifdef DBG_IO
++int dbg_rtw_IOL_append_WB_cmd(struct xmit_frame *xmit_frame, u16 addr, u8 value, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 1))
++		RTW_INFO("DBG_IO %s:%d IOL_WB(0x%04x, 0x%02x)\n", caller, line, addr, value);
++
++	return _rtw_IOL_append_WB_cmd(xmit_frame, addr, value);
++}
++
++int dbg_rtw_IOL_append_WW_cmd(struct xmit_frame *xmit_frame, u16 addr, u16 value, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 2))
++		RTW_INFO("DBG_IO %s:%d IOL_WW(0x%04x, 0x%04x)\n", caller, line, addr, value);
++
++	return _rtw_IOL_append_WW_cmd(xmit_frame, addr, value);
++}
++
++int dbg_rtw_IOL_append_WD_cmd(struct xmit_frame *xmit_frame, u16 addr, u32 value, const char *caller, const int line)
++{
++	if (match_write_sniff_ranges(addr, 4))
++		RTW_INFO("DBG_IO %s:%d IOL_WD(0x%04x, 0x%08x)\n", caller, line, addr, value);
++
++	return _rtw_IOL_append_WD_cmd(xmit_frame, addr, value);
++}
++#endif
++
++int rtw_IOL_append_DELAY_US_cmd(struct xmit_frame *xmit_frame, u16 us)
++{
++	IOL_CMD cmd = {0x0, IOL_CMD_DELAY_US, 0x0, 0x0};
++
++	RTW_PUT_BE32((u8 *)&cmd.value, (u32)us);
++
++	/* RTW_INFO("%s %u\n", __FUNCTION__, us); */
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 8);
++}
++
++int rtw_IOL_append_DELAY_MS_cmd(struct xmit_frame *xmit_frame, u16 ms)
++{
++	IOL_CMD cmd = {0x0, IOL_CMD_DELAY_MS, 0x0, 0x0};
++
++	RTW_PUT_BE32((u8 *)&cmd.value, (u32)ms);
++
++	/* RTW_INFO("%s %u\n", __FUNCTION__, ms); */
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&cmd, 8);
++}
++
++int rtw_IOL_append_END_cmd(struct xmit_frame *xmit_frame)
++{
++	IOL_CMD end_cmd = {0x0, IOL_CMD_END, 0x0, 0x0};
++
++
++	return rtw_IOL_append_cmds(xmit_frame, (u8 *)&end_cmd, 8);
++
++}
++
++int rtw_IOL_exec_cmd_array_sync(PADAPTER adapter, u8 *IOL_cmds, u32 cmd_num, u32 max_wating_ms)
++{
++	struct xmit_frame	*xmit_frame;
++
++	xmit_frame = rtw_IOL_accquire_xmit_frame(adapter);
++	if (xmit_frame == NULL)
++		return _FAIL;
++
++	if (rtw_IOL_append_cmds(xmit_frame, IOL_cmds, cmd_num << 3) == _FAIL)
++		return _FAIL;
++
++	return rtw_IOL_exec_cmds_sync(adapter, xmit_frame, max_wating_ms, 0);
++}
++
++int rtw_IOL_exec_empty_cmds_sync(ADAPTER *adapter, u32 max_wating_ms)
++{
++	IOL_CMD end_cmd = {0x0, IOL_CMD_END, 0x0, 0x0};
++	return rtw_IOL_exec_cmd_array_sync(adapter, (u8 *)&end_cmd, 1, max_wating_ms);
++}
++#endif /* CONFIG_IOL_NEW_GENERATION */
++
++
++
++
++#endif /* CONFIG_IOL */
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_mem.c b/drivers/net/wireless/rtl8812au/core/rtw_mem.c
+new file mode 100644
+index 0000000..b68a456
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_mem.c
+@@ -0,0 +1,114 @@
++
++#include <drv_types.h>
++#include <rtw_mem.h>
++
++MODULE_LICENSE("GPL");
++MODULE_DESCRIPTION("Realtek Wireless Lan Driver");
++MODULE_AUTHOR("Realtek Semiconductor Corp.");
++MODULE_VERSION("DRIVERVERSION");
++
++struct sk_buff_head rtk_skb_mem_q;
++struct u8 *rtk_buf_mem[NR_RECVBUFF];
++
++struct u8	*rtw_get_buf_premem(int index)
++{
++	printk("%s, rtk_buf_mem index : %d\n", __func__, index);
++	return rtk_buf_mem[index];
++}
++
++u16 rtw_rtkm_get_buff_size(void)
++{
++	return MAX_RTKM_RECVBUF_SZ;
++}
++EXPORT_SYMBOL(rtw_rtkm_get_buff_size);
++
++u8 rtw_rtkm_get_nr_recv_skb(void)
++{
++	return MAX_RTKM_NR_PREALLOC_RECV_SKB;
++}
++EXPORT_SYMBOL(rtw_rtkm_get_nr_recv_skb);
++
++struct sk_buff *rtw_alloc_skb_premem(u16 in_size)
++{
++	struct sk_buff *skb = NULL;
++
++	if (in_size > MAX_RTKM_RECVBUF_SZ) {
++		pr_info("warning %s: driver buffer size(%d) > rtkm buffer size(%d)\n", __func__, in_size, MAX_RTKM_RECVBUF_SZ);
++		WARN_ON(1);
++		return skb;
++	}
++
++	skb = skb_dequeue(&rtk_skb_mem_q);
++
++	printk("%s, rtk_skb_mem_q len : %d\n", __func__, skb_queue_len(&rtk_skb_mem_q));
++
++	return skb;
++}
++EXPORT_SYMBOL(rtw_alloc_skb_premem);
++
++int rtw_free_skb_premem(struct sk_buff *pskb)
++{
++	if (!pskb)
++		return -1;
++
++	if (skb_queue_len(&rtk_skb_mem_q) >= MAX_RTKM_NR_PREALLOC_RECV_SKB)
++		return -1;
++
++	skb_queue_tail(&rtk_skb_mem_q, pskb);
++
++	printk("%s, rtk_skb_mem_q len : %d\n", __func__, skb_queue_len(&rtk_skb_mem_q));
++
++	return 0;
++}
++EXPORT_SYMBOL(rtw_free_skb_premem);
++
++static int __init rtw_mem_init(void)
++{
++	int i;
++	SIZE_PTR tmpaddr = 0;
++	SIZE_PTR alignment = 0;
++	struct sk_buff *pskb = NULL;
++
++	printk("%s\n", __func__);
++	pr_info("MAX_RTKM_NR_PREALLOC_RECV_SKB: %d\n", MAX_RTKM_NR_PREALLOC_RECV_SKB);
++	pr_info("MAX_RTKM_RECVBUF_SZ: %d\n", MAX_RTKM_RECVBUF_SZ);
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++	for (i = 0; i < NR_RECVBUFF; i++)
++		rtk_buf_mem[i] = usb_buffer_alloc(dev, size, (in_interrupt() ? GFP_ATOMIC : GFP_KERNEL), dma);
++#endif /* CONFIG_USE_USB_BUFFER_ALLOC_RX */
++
++	skb_queue_head_init(&rtk_skb_mem_q);
++
++	for (i = 0; i < MAX_RTKM_NR_PREALLOC_RECV_SKB; i++) {
++		pskb = __dev_alloc_skb(MAX_RTKM_RECVBUF_SZ + RECVBUFF_ALIGN_SZ, in_interrupt() ? GFP_ATOMIC : GFP_KERNEL);
++		if (pskb) {
++			tmpaddr = (SIZE_PTR)pskb->data;
++			alignment = tmpaddr & (RECVBUFF_ALIGN_SZ - 1);
++			skb_reserve(pskb, (RECVBUFF_ALIGN_SZ - alignment));
++
++			skb_queue_tail(&rtk_skb_mem_q, pskb);
++		} else
++			printk("%s, alloc skb memory fail!\n", __func__);
++
++		pskb = NULL;
++	}
++
++	printk("%s, rtk_skb_mem_q len : %d\n", __func__, skb_queue_len(&rtk_skb_mem_q));
++
++	return 0;
++
++}
++
++static void __exit rtw_mem_exit(void)
++{
++	if (skb_queue_len(&rtk_skb_mem_q))
++		printk("%s, rtk_skb_mem_q len : %d\n", __func__, skb_queue_len(&rtk_skb_mem_q));
++
++	skb_queue_purge(&rtk_skb_mem_q);
++
++	printk("%s\n", __func__);
++}
++
++module_init(rtw_mem_init);
++module_exit(rtw_mem_exit);
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_mi.c b/drivers/net/wireless/rtl8812au/core/rtw_mi.c
+new file mode 100644
+index 0000000..eb3c8d1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_mi.c
+@@ -0,0 +1,1464 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2015 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_MI_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++void rtw_mi_update_union_chan_inf(_adapter *adapter, u8 ch, u8 offset , u8 bw)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mi_state *iface_state = &dvobj->iface_state;
++
++	iface_state->union_ch = ch;
++	iface_state->union_bw = bw;
++	iface_state->union_offset = offset;
++}
++
++/* Find union about ch, bw, ch_offset of all linked/linking interfaces */
++int _rtw_mi_get_ch_setting_union(_adapter *adapter, u8 *ch, u8 *bw, u8 *offset, bool include_self)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	_adapter *iface;
++	struct mlme_ext_priv *mlmeext;
++	int i;
++	u8 ch_ret = 0;
++	u8 bw_ret = CHANNEL_WIDTH_20;
++	u8 offset_ret = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	int num = 0;
++
++	if (ch)
++		*ch = 0;
++	if (bw)
++		*bw = CHANNEL_WIDTH_20;
++	if (offset)
++		*offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		mlmeext = &iface->mlmeextpriv;
++
++		if (!check_fwstate(&iface->mlmepriv, _FW_LINKED | _FW_UNDER_LINKING))
++			continue;
++
++		if (check_fwstate(&iface->mlmepriv, WIFI_OP_CH_SWITCHING))
++			continue;
++
++		if (include_self == _FALSE && adapter == iface)
++			continue;
++
++		if (num == 0) {
++			ch_ret = mlmeext->cur_channel;
++			bw_ret = mlmeext->cur_bwmode;
++			offset_ret = mlmeext->cur_ch_offset;
++			num++;
++			continue;
++		}
++
++		if (ch_ret != mlmeext->cur_channel) {
++			num = 0;
++			break;
++		}
++
++		if (bw_ret < mlmeext->cur_bwmode) {
++			bw_ret = mlmeext->cur_bwmode;
++			offset_ret = mlmeext->cur_ch_offset;
++		} else if (bw_ret == mlmeext->cur_bwmode && offset_ret != mlmeext->cur_ch_offset) {
++			num = 0;
++			break;
++		}
++
++		num++;
++	}
++
++	if (num) {
++		if (ch)
++			*ch = ch_ret;
++		if (bw)
++			*bw = bw_ret;
++		if (offset)
++			*offset = offset_ret;
++	}
++
++	return num;
++}
++
++inline int rtw_mi_get_ch_setting_union(_adapter *adapter, u8 *ch, u8 *bw, u8 *offset)
++{
++	return _rtw_mi_get_ch_setting_union(adapter, ch, bw, offset, 1);
++}
++
++inline int rtw_mi_get_ch_setting_union_no_self(_adapter *adapter, u8 *ch, u8 *bw, u8 *offset)
++{
++	return _rtw_mi_get_ch_setting_union(adapter, ch, bw, offset, 0);
++}
++
++void _rtw_mi_status(_adapter *adapter, u8 *sta_num, u8 *ld_sta_num, u8 *lg_sta_num
++		    , u8 *ap_num, u8 *ld_ap_num, u8 *uw_num, bool include_self)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	_adapter *iface;
++	struct mlme_ext_priv *mlmeext;
++
++	int i;
++	u8 sta_num_ret = 0;
++	u8 ld_sta_num_ret = 0;
++	u8 lg_sta_num_ret = 0;
++	u8 ap_num_ret = 0;
++	u8 ld_ap_num_ret = 0;
++	u8 uw_num_ret = 0;
++
++	if (sta_num)
++		*sta_num = 0;
++	if (ld_sta_num)
++		*ld_sta_num = 0;
++	if (lg_sta_num)
++		*lg_sta_num = 0;
++	if (ap_num)
++		*ap_num = 0;
++	if (ld_ap_num)
++		*ld_ap_num = 0;
++	if (uw_num)
++		*uw_num = 0;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++
++		if (include_self == _FALSE && iface == adapter)
++			continue;
++
++		/*mlmeext = &iface->mlmeextpriv;
++
++		if (mlmeext_msr(mlmeext) == WIFI_FW_STATION_STATE) {*/
++		if (check_fwstate(&iface->mlmepriv, WIFI_STATION_STATE)) {
++			sta_num_ret++;
++			if (check_fwstate(&iface->mlmepriv, _FW_LINKED) == _TRUE)
++				ld_sta_num_ret++;
++			if (check_fwstate(&iface->mlmepriv, _FW_UNDER_LINKING) == _TRUE)
++				lg_sta_num_ret++;
++		}
++
++		/*if (mlmeext_msr(mlmeext) == WIFI_FW_AP_STATE*/
++		if (check_fwstate(&iface->mlmepriv, WIFI_AP_STATE)
++		    && check_fwstate(&iface->mlmepriv, _FW_LINKED) == _TRUE
++		   ) {
++			ap_num_ret++;
++			if (iface->stapriv.asoc_sta_count > 2)
++				ld_ap_num_ret++;
++		}
++
++		if (check_fwstate(&iface->mlmepriv, WIFI_UNDER_WPS) == _TRUE)
++			uw_num_ret++;
++
++	}
++
++	if (sta_num)
++		*sta_num = sta_num_ret;
++	if (ld_sta_num)
++		*ld_sta_num = ld_sta_num_ret;
++	if (lg_sta_num)
++		*lg_sta_num = lg_sta_num_ret;
++	if (ap_num)
++		*ap_num = ap_num_ret;
++	if (ld_ap_num)
++		*ld_ap_num = ld_ap_num_ret;
++	if (uw_num)
++		*uw_num = uw_num_ret;
++}
++
++inline void rtw_mi_status(_adapter *adapter, u8 *sta_num, u8 *ld_sta_num, u8 *lg_sta_num
++			  , u8 *ap_num, u8 *ld_ap_num, u8 *uw_num)
++{
++	return _rtw_mi_status(adapter, sta_num, ld_sta_num, lg_sta_num, ap_num, ld_ap_num, uw_num, 1);
++}
++inline void rtw_mi_status_no_self(_adapter *adapter, u8 *sta_num, u8 *ld_sta_num, u8 *lg_sta_num
++				  , u8 *ap_num, u8 *ld_ap_num, u8 *uw_num)
++{
++	return _rtw_mi_status(adapter, sta_num, ld_sta_num, lg_sta_num, ap_num, ld_ap_num, uw_num, 0);
++}
++void dump_mi_status(void *sel, struct dvobj_priv *dvobj)
++{
++	RTW_PRINT_SEL(sel, "== dvobj-iface_state ==\n");
++	RTW_PRINT_SEL(sel, "sta_num:%d\n", dvobj->iface_state.sta_num);
++	RTW_PRINT_SEL(sel, "linking_sta_num:%d\n", dvobj->iface_state.lg_sta_num);
++	RTW_PRINT_SEL(sel, "linked_sta_num:%d\n", dvobj->iface_state.ld_sta_num);
++	RTW_PRINT_SEL(sel, "ap_num:%d\n", dvobj->iface_state.ap_num);
++	RTW_PRINT_SEL(sel, "linked_ap_num:%d\n", dvobj->iface_state.ld_ap_num);
++	RTW_PRINT_SEL(sel, "adhoc_num:%d\n", dvobj->iface_state.adhoc_num);
++	RTW_PRINT_SEL(sel, "linked_adhoc_num:%d\n", dvobj->iface_state.ld_adhoc_num);
++#ifdef CONFIG_P2P
++	RTW_PRINT_SEL(sel, "p2p_device_num:%d\n", rtw_mi_stay_in_p2p_mode(dvobj->padapters[IFACE_ID0]));
++#endif
++	RTW_PRINT_SEL(sel, "under_wps_num:%d\n", dvobj->iface_state.uwps_num);
++	RTW_PRINT_SEL(sel, "union_ch:%d\n", dvobj->iface_state.union_ch);
++	RTW_PRINT_SEL(sel, "union_bw:%d\n", dvobj->iface_state.union_bw);
++	RTW_PRINT_SEL(sel, "union_offset:%d\n", dvobj->iface_state.union_offset);
++	RTW_PRINT_SEL(sel, "================\n\n");
++}
++
++void dump_dvobj_mi_status(void *sel, const char *fun_name, _adapter *adapter)
++{
++	RTW_INFO("\n[ %s ] call %s\n", fun_name, __func__);
++	dump_mi_status(sel, adapter_to_dvobj(adapter));
++}
++
++inline void rtw_mi_update_iface_status(struct mlme_priv *pmlmepriv, sint state)
++{
++	_adapter *adapter = container_of(pmlmepriv, _adapter, mlmepriv);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mi_state *iface_state = &dvobj->iface_state;
++	u8 i;
++	u8 u_ch, u_offset, u_bw;
++	_adapter *iface;
++	struct mlme_ext_priv *mlmeext;
++
++	if ((state == WIFI_MONITOR_STATE) || /* (state == WIFI_OP_CH_SWITCHING) || */
++	    (state == WIFI_ADHOC_MASTER_STATE) || (state == WIFI_ADHOC_STATE) ||
++	    (state == WIFI_SITE_MONITOR) || (state == 0xFFFFFFFF) ||
++	    (state == WIFI_UNDER_WPS)
++	   )
++		return;
++
++	if (0)
++		RTW_INFO("%s => will change or clean state to 0x%08x\n", __func__, state);
++	_rtw_memset(iface_state, 0, sizeof(struct mi_state));
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		mlmeext = &iface->mlmeextpriv;
++
++		if (check_fwstate(&iface->mlmepriv, WIFI_STATION_STATE) == _TRUE) {
++			iface_state->sta_num++;
++			if (check_fwstate(&iface->mlmepriv, _FW_LINKED) == _TRUE)
++				iface_state->ld_sta_num++;
++
++			if (check_fwstate(&iface->mlmepriv, _FW_UNDER_LINKING) == _TRUE)
++				iface_state->lg_sta_num++;
++		} else if (check_fwstate(&iface->mlmepriv, WIFI_AP_STATE) == _TRUE
++			&& check_fwstate(&iface->mlmepriv, _FW_LINKED) == _TRUE
++			  ) {
++			iface_state->ap_num++;
++			if (iface->stapriv.asoc_sta_count > 2)
++				iface_state->ld_ap_num++;
++		} else if (check_fwstate(&iface->mlmepriv, WIFI_ADHOC_STATE | WIFI_ADHOC_MASTER_STATE) == _TRUE
++			&& check_fwstate(&iface->mlmepriv, _FW_LINKED) == _TRUE
++			  ) {
++			iface_state->adhoc_num++;
++			if (iface->stapriv.asoc_sta_count > 2)
++				iface_state->ld_adhoc_num++;
++		}
++
++		if (check_fwstate(&iface->mlmepriv, WIFI_UNDER_WPS) == _TRUE)
++			iface_state->uwps_num++;
++
++	}
++
++	if (rtw_mi_get_ch_setting_union(adapter, &u_ch, &u_bw, &u_offset))
++		rtw_mi_update_union_chan_inf(adapter , u_ch, u_offset , u_bw);
++	else {
++		if (0) {
++			dump_adapters_status(RTW_DBGDUMP , dvobj);
++			RTW_INFO("%s-[ERROR] cannot get union channel\n", __func__);
++			rtw_warn_on(1);
++		}
++	}
++
++#ifdef DBG_IFACE_STATUS
++	DBG_IFACE_STATUS_DUMP(adapter);
++#endif
++}
++u8 rtw_mi_check_status(_adapter *adapter, u8 type)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mi_state *iface_state = &dvobj->iface_state;
++	u8 ret = _FALSE;
++
++#ifdef DBG_IFACE_STATUS
++	DBG_IFACE_STATUS_DUMP(adapter);
++	RTW_INFO("%s-"ADPT_FMT" check type:%d\n", __func__, ADPT_ARG(adapter), type);
++#endif
++
++	switch (type) {
++	case MI_LINKED:
++		if (iface_state->ld_sta_num || iface_state->ap_num || iface_state->adhoc_num) /*check_fwstate(&iface->mlmepriv, _FW_LINKED)*/
++			ret = _TRUE;
++		break;
++	case MI_ASSOC:
++		if (iface_state->ld_sta_num || iface_state->ld_ap_num || iface_state->ld_adhoc_num)
++			ret = _TRUE;
++		break;
++	case MI_UNDER_WPS:
++		if (iface_state->uwps_num)
++			ret = _TRUE;
++		break;
++
++	case MI_AP_MODE:
++		if (iface_state->ap_num)
++			ret = _TRUE;
++		break;
++	case MI_AP_ASSOC:
++		if (iface_state->ld_ap_num)
++			ret = _TRUE;
++		break;
++
++	case MI_ADHOC:
++		if (iface_state->adhoc_num)
++			ret = _TRUE;
++		break;
++	case MI_ADHOC_ASSOC:
++		if (iface_state->ld_adhoc_num)
++			ret = _TRUE;
++		break;
++
++	case MI_STA_NOLINK: /* this is misleading, but not used now */
++		if (iface_state->sta_num && (!(iface_state->ld_sta_num || iface_state->lg_sta_num)))
++			ret = _TRUE;
++		break;
++	case MI_STA_LINKED:
++		if (iface_state->ld_sta_num)
++			ret = _TRUE;
++		break;
++	case MI_STA_LINKING:
++		if (iface_state->lg_sta_num)
++			ret = _TRUE;
++		break;
++
++	default:
++		break;
++	}
++	return ret;
++}
++
++#if 0
++inline void rtw_mi_update_fwstate(struct mlme_priv *pmlmepriv, sint state, u8 bset)
++{
++	_adapter *adapter = container_of(pmlmepriv, _adapter, mlmepriv);
++
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mi_state *iface_state = &dvobj->iface_state;
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++
++	if (!(state & (_FW_LINKED | _FW_UNDER_LINKING | WIFI_UNDER_WPS)))
++		return;
++
++	if (mlmeext_msr(mlmeext) == WIFI_FW_STATION_STATE) {
++		/*ATOMIC_INC(&(iface_state->sta_num_ret));*/
++
++		if (state & _FW_LINKED)
++			(bset)	? ATOMIC_INC(&(iface_state->ld_sta_num_ret))
++			: ATOMIC_DEC(&(iface_state->ld_sta_num_ret));
++
++		if (state & _FW_UNDER_LINKING)
++			(bset)	? ATOMIC_INC(&(iface_state->lg_sta_num_ret))
++			: ATOMIC_DEC(&(iface_state->lg_sta_num_ret));
++	}
++
++	if (mlmeext_msr(mlmeext) == WIFI_FW_AP_STATE
++	    && check_fwstate(&adapter->mlmepriv, _FW_LINKED) == _TRUE
++	   ) {
++		/*ATOMIC_INC(&(iface_state->ap_num_ret));*/
++		if (adapter->stapriv.asoc_sta_count > 2)
++			ld_ap_num_ret++;
++	}
++
++	if (state & WIFI_UNDER_WPS)
++		(bset)	? ATOMIC_INC(&(iface_state->uw_num_ret))
++		: ATOMIC_DEC(&(iface_state->uw_num_ret));
++
++	_rtw_mi_status(adapter, &iface_state->sta_num, &iface_state->ld_sta_num, &iface_state->lg_sta_num
++		, &iface_state->ap_num, &iface_state->ld_ap_num, &iface_state->uwps_num, 1);
++}
++#endif
++
++u8 rtw_mi_mp_mode_check(_adapter *padapter)
++{
++#ifdef CONFIG_MP_INCLUDED
++#ifdef CONFIG_CONCURRENT_MODE
++	int i;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	_adapter *iface = NULL;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++
++		if ((iface) && (iface->registrypriv.mp_mode == 1))
++			return _TRUE;
++	}
++#else
++	if (padapter->registrypriv.mp_mode == 1)
++		return _TRUE;
++#endif
++#endif /* CONFIG_MP_INCLUDED */
++	return _FALSE;
++}
++
++#ifdef CONFIG_CONCURRENT_MODE
++u8 rtw_mi_buddy_under_survey(_adapter *padapter)
++{
++	int i;
++	u8 ret = 0;
++	_adapter *iface = NULL;
++	_irqL	irqL;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(padapter);
++#endif
++
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	struct mlme_priv *buddy_mlmepriv;
++	struct rtw_wdev_priv *buddy_wdev_priv;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++
++			if (iface == padapter)
++				continue;
++
++			buddy_mlmepriv = &iface->mlmepriv;
++			if (check_fwstate(buddy_mlmepriv, _FW_UNDER_SURVEY)) {
++				ret = UNDER_SURVEY_T1;
++
++#ifdef CONFIG_IOCTL_CFG80211
++				buddy_wdev_priv = adapter_wdev_data(iface);
++				_enter_critical_bh(&pwdev_priv->scan_req_lock, &irqL);
++				_enter_critical_bh(&buddy_wdev_priv->scan_req_lock, &irqL);
++				if (buddy_wdev_priv->scan_request) {
++					pmlmepriv->scanning_via_buddy_intf = _TRUE;
++					_enter_critical_bh(&pmlmepriv->lock, &irqL);
++					set_fwstate(pmlmepriv, _FW_UNDER_SURVEY);
++					_exit_critical_bh(&pmlmepriv->lock, &irqL);
++					ret = UNDER_SURVEY_T2;
++				}
++				_exit_critical_bh(&buddy_wdev_priv->scan_req_lock, &irqL);
++				_exit_critical_bh(&pwdev_priv->scan_req_lock, &irqL);
++#endif
++
++				RTW_INFO(ADPT_FMT"_FW_UNDER_SURVEY\n", ADPT_ARG(iface));
++				return ret;
++			}
++		}
++	}
++	return ret;
++}
++void rtw_mi_buddy_indicate_scan_done(_adapter *padapter, bool bscan_aborted)
++{
++#if defined(CONFIG_IOCTL_CFG80211)
++	int i;
++	u8 ret = 0;
++	_adapter *iface = NULL;
++	_irqL	irqL;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct mlme_priv *mlmepriv;
++	struct rtw_wdev_priv *wdev_priv;
++	bool indicate_buddy_scan = _FALSE;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++
++			if (iface == padapter)
++				continue;
++
++			mlmepriv = &(iface->mlmepriv);
++			wdev_priv = adapter_wdev_data(iface);
++
++			_enter_critical_bh(&wdev_priv->scan_req_lock, &irqL);
++			if (wdev_priv->scan_request && mlmepriv->scanning_via_buddy_intf == _TRUE) {
++				mlmepriv->scanning_via_buddy_intf = _FALSE;
++				clr_fwstate(mlmepriv, _FW_UNDER_SURVEY);
++				indicate_buddy_scan = _TRUE;
++			}
++			_exit_critical_bh(&wdev_priv->scan_req_lock, &irqL);
++
++			if (indicate_buddy_scan == _TRUE) {
++				rtw_cfg80211_surveydone_event_callback(iface);
++				rtw_indicate_scan_done(iface, bscan_aborted);
++			}
++
++		}
++	}
++#endif
++
++}
++#endif
++
++/*
++* return value : 0 is failed or have not interface meet condition
++* return value : !0 is success or interface numbers which meet condition
++* return value of ops_func must be _TRUE or _FALSE
++*/
++static u8 _rtw_mi_process(_adapter *padapter, bool exclude_self,
++		  void *data, u8(*ops_func)(_adapter *padapter, void *data))
++{
++	int i;
++	_adapter *iface;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++	u8 ret = 0;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++
++			if ((exclude_self) && (iface == padapter))
++				continue;
++
++			if (ops_func)
++				if (_TRUE == ops_func(iface, data))
++					ret++;
++		}
++	}
++	return ret;
++}
++static u8 _rtw_mi_netif_stop_queue(_adapter *padapter, void *data)
++{
++	bool carrier_off = *(bool *)data;
++	struct net_device *pnetdev = padapter->pnetdev;
++
++	if (carrier_off)
++		netif_carrier_off(pnetdev);
++	rtw_netif_stop_queue(pnetdev);
++	return _TRUE;
++}
++u8 rtw_mi_netif_stop_queue(_adapter *padapter, bool carrier_off)
++{
++	bool in_data = carrier_off;
++
++	return _rtw_mi_process(padapter, _FALSE, &in_data, _rtw_mi_netif_stop_queue);
++}
++u8 rtw_mi_buddy_netif_stop_queue(_adapter *padapter, bool carrier_off)
++{
++	bool in_data = carrier_off;
++
++	return _rtw_mi_process(padapter, _TRUE, &in_data, _rtw_mi_netif_stop_queue);
++}
++
++static u8 _rtw_mi_netif_wake_queue(_adapter *padapter, void *data)
++{
++	struct net_device *pnetdev = padapter->pnetdev;
++
++	if (pnetdev)
++		rtw_netif_wake_queue(pnetdev);
++	return _TRUE;
++}
++u8 rtw_mi_netif_wake_queue(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_netif_wake_queue);
++}
++u8 rtw_mi_buddy_netif_wake_queue(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_netif_wake_queue);
++}
++
++static u8 _rtw_mi_netif_carrier_on(_adapter *padapter, void *data)
++{
++	struct net_device *pnetdev = padapter->pnetdev;
++
++	if (pnetdev)
++		rtw_netif_carrier_on(pnetdev);
++	return _TRUE;
++}
++u8 rtw_mi_netif_carrier_on(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_netif_carrier_on);
++}
++u8 rtw_mi_buddy_netif_carrier_on(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_netif_carrier_on);
++}
++
++static u8 _rtw_mi_scan_abort(_adapter *adapter, void *data)
++{
++	bool bwait = *(bool *)data;
++
++	if (bwait)
++		rtw_scan_abort(adapter);
++	else
++		rtw_scan_abort_no_wait(adapter);
++
++	return _TRUE;
++}
++void rtw_mi_scan_abort(_adapter *adapter, bool bwait)
++{
++	bool in_data = bwait;
++
++	_rtw_mi_process(adapter, _FALSE, &in_data, _rtw_mi_scan_abort);
++
++}
++void rtw_mi_buddy_scan_abort(_adapter *adapter, bool bwait)
++{
++	bool in_data = bwait;
++
++	_rtw_mi_process(adapter, _TRUE, &in_data, _rtw_mi_scan_abort);
++}
++
++static u8 _rtw_mi_start_drv_threads(_adapter *adapter, void *data)
++{
++	rtw_start_drv_threads(adapter);
++	return _TRUE;
++}
++void rtw_mi_start_drv_threads(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _FALSE, NULL, _rtw_mi_start_drv_threads);
++}
++void rtw_mi_buddy_start_drv_threads(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _TRUE, NULL, _rtw_mi_start_drv_threads);
++}
++
++static u8 _rtw_mi_stop_drv_threads(_adapter *adapter, void *data)
++{
++	rtw_stop_drv_threads(adapter);
++	return _TRUE;
++}
++void rtw_mi_stop_drv_threads(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _FALSE, NULL, _rtw_mi_stop_drv_threads);
++}
++void rtw_mi_buddy_stop_drv_threads(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _TRUE, NULL, _rtw_mi_stop_drv_threads);
++}
++
++static u8 _rtw_mi_cancel_all_timer(_adapter *adapter, void *data)
++{
++	rtw_cancel_all_timer(adapter);
++	return _TRUE;
++}
++void rtw_mi_cancel_all_timer(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _FALSE, NULL, _rtw_mi_cancel_all_timer);
++}
++void rtw_mi_buddy_cancel_all_timer(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _TRUE, NULL, _rtw_mi_cancel_all_timer);
++}
++
++static u8 _rtw_mi_reset_drv_sw(_adapter *adapter, void *data)
++{
++	rtw_reset_drv_sw(adapter);
++	return _TRUE;
++}
++void rtw_mi_reset_drv_sw(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _FALSE, NULL, _rtw_mi_reset_drv_sw);
++}
++void rtw_mi_buddy_reset_drv_sw(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _TRUE, NULL, _rtw_mi_reset_drv_sw);
++}
++
++static u8 _rtw_mi_intf_start(_adapter *adapter, void *data)
++{
++	rtw_intf_start(adapter);
++	return _TRUE;
++}
++void rtw_mi_intf_start(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _FALSE, NULL, _rtw_mi_intf_start);
++}
++void rtw_mi_buddy_intf_start(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _TRUE, NULL, _rtw_mi_intf_start);
++}
++
++static u8 _rtw_mi_intf_stop(_adapter *adapter, void *data)
++{
++	rtw_intf_stop(adapter);
++	return _TRUE;
++}
++void rtw_mi_intf_stop(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _FALSE, NULL, _rtw_mi_intf_stop);
++}
++void rtw_mi_buddy_intf_stop(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _TRUE, NULL, _rtw_mi_intf_stop);
++}
++
++static u8 _rtw_mi_suspend_free_assoc_resource(_adapter *padapter, void *data)
++{
++	return rtw_suspend_free_assoc_resource(padapter);
++}
++void rtw_mi_suspend_free_assoc_resource(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _FALSE, NULL, _rtw_mi_suspend_free_assoc_resource);
++}
++void rtw_mi_buddy_suspend_free_assoc_resource(_adapter *adapter)
++{
++	_rtw_mi_process(adapter, _TRUE, NULL, _rtw_mi_suspend_free_assoc_resource);
++}
++
++static u8 _rtw_mi_is_scan_deny(_adapter *adapter, void *data)
++{
++	return rtw_is_scan_deny(adapter);
++}
++
++u8 rtw_mi_is_scan_deny(_adapter *adapter)
++{
++	return _rtw_mi_process(adapter, _FALSE, NULL, _rtw_mi_is_scan_deny);
++
++}
++u8 rtw_mi_buddy_is_scan_deny(_adapter *adapter)
++{
++	return _rtw_mi_process(adapter, _TRUE, NULL, _rtw_mi_is_scan_deny);
++}
++
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++static u8 _rtw_mi_set_scan_deny(_adapter *adapter, void *data)
++{
++	u32 ms = *(u32 *)data;
++
++	rtw_set_scan_deny(adapter, ms);
++	return _TRUE;
++}
++void rtw_mi_set_scan_deny(_adapter *adapter, u32 ms)
++{
++	u32 in_data = ms;
++
++	_rtw_mi_process(adapter, _FALSE, &in_data, _rtw_mi_set_scan_deny);
++}
++void rtw_mi_buddy_set_scan_deny(_adapter *adapter, u32 ms)
++{
++	u32 in_data = ms;
++
++	_rtw_mi_process(adapter, _TRUE, &in_data, _rtw_mi_set_scan_deny);
++}
++#endif
++
++struct nulldata_param {
++	unsigned char *da;
++	unsigned int power_mode;
++	int try_cnt;
++	int wait_ms;
++};
++
++static u8 _rtw_mi_issue_nulldata(_adapter *padapter, void *data)
++{
++	struct nulldata_param *pnulldata_param = (struct nulldata_param *)data;
++
++	if (is_client_associated_to_ap(padapter) == _TRUE) {
++		/* TODO: TDLS peers */
++		issue_nulldata(padapter, pnulldata_param->da, pnulldata_param->power_mode, pnulldata_param->try_cnt, pnulldata_param->wait_ms);
++		return _TRUE;
++	}
++	return _FALSE;
++}
++
++u8 rtw_mi_issue_nulldata(_adapter *padapter, unsigned char *da, unsigned int power_mode, int try_cnt, int wait_ms)
++{
++	struct nulldata_param nparam;
++
++	nparam.da = da;
++	nparam.power_mode = power_mode;/*0 or 1*/
++	nparam.try_cnt = try_cnt;
++	nparam.wait_ms = wait_ms;
++
++	return _rtw_mi_process(padapter, _FALSE, &nparam, _rtw_mi_issue_nulldata);
++}
++u8 rtw_mi_buddy_issue_nulldata(_adapter *padapter, unsigned char *da, unsigned int power_mode, int try_cnt, int wait_ms)
++{
++	struct nulldata_param nparam;
++
++	nparam.da = da;
++	nparam.power_mode = power_mode;
++	nparam.try_cnt = try_cnt;
++	nparam.wait_ms = wait_ms;
++
++	return _rtw_mi_process(padapter, _TRUE, &nparam, _rtw_mi_issue_nulldata);
++}
++
++static u8 _rtw_mi_beacon_update(_adapter *padapter, void *data)
++{
++	struct mlme_ext_priv *mlmeext = &padapter->mlmeextpriv;
++
++	if (mlmeext_msr(mlmeext) == WIFI_FW_AP_STATE
++	    && check_fwstate(&padapter->mlmepriv, _FW_LINKED) == _TRUE) {
++		RTW_INFO(ADPT_FMT"-WIFI_FW_AP_STATE - update_beacon\n", ADPT_ARG(padapter));
++		update_beacon(padapter, 0, NULL, _TRUE);
++	}
++	return _TRUE;
++}
++
++void rtw_mi_beacon_update(_adapter *padapter)
++{
++	_rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_beacon_update);
++}
++
++void rtw_mi_buddy_beacon_update(_adapter *padapter)
++{
++	_rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_beacon_update);
++}
++
++static u8 _rtw_mi_hal_dump_macaddr(_adapter *padapter, void *data)
++{
++	u8 mac_addr[ETH_ALEN] = {0};
++
++	rtw_hal_get_macaddr_port(padapter, mac_addr);
++	RTW_INFO(ADPT_FMT"MAC Address ="MAC_FMT"\n", ADPT_ARG(padapter), MAC_ARG(mac_addr));
++	return _TRUE;
++}
++void rtw_mi_hal_dump_macaddr(_adapter *padapter)
++{
++	_rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_hal_dump_macaddr);
++}
++void rtw_mi_buddy_hal_dump_macaddr(_adapter *padapter)
++{
++	_rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_hal_dump_macaddr);
++}
++
++#ifdef CONFIG_PCI_HCI
++static u8 _rtw_mi_xmit_tasklet_schedule(_adapter *padapter, void *data)
++{
++	if (rtw_txframes_pending(padapter)) {
++		/* try to deal with the pending packets */
++		tasklet_hi_schedule(&(padapter->xmitpriv.xmit_tasklet));
++	}
++	return _TRUE;
++}
++void rtw_mi_xmit_tasklet_schedule(_adapter *padapter)
++{
++	_rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_xmit_tasklet_schedule);
++}
++void rtw_mi_buddy_xmit_tasklet_schedule(_adapter *padapter)
++{
++	_rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_xmit_tasklet_schedule);
++}
++#endif
++
++u8 _rtw_mi_busy_traffic_check(_adapter *padapter, void *data)
++{
++	u32 passtime;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	bool check_sc_interval = *(bool *)data;
++
++	if (pmlmepriv->LinkDetectInfo.bBusyTraffic == _TRUE) {
++		if (check_sc_interval) {
++			/* Miracast can't do AP scan*/
++			passtime = rtw_get_passing_time_ms(pmlmepriv->lastscantime);
++			pmlmepriv->lastscantime = rtw_get_current_time();
++			if (passtime > BUSY_TRAFFIC_SCAN_DENY_PERIOD) {
++				RTW_INFO(ADPT_FMT" bBusyTraffic == _TRUE\n", ADPT_ARG(padapter));
++				return _TRUE;
++			}
++		} else
++			return _TRUE;
++	}
++
++	return _FALSE;
++}
++
++u8 rtw_mi_busy_traffic_check(_adapter *padapter, bool check_sc_interval)
++{
++	bool in_data = check_sc_interval;
++
++	return _rtw_mi_process(padapter, _FALSE, &in_data, _rtw_mi_busy_traffic_check);
++}
++u8 rtw_mi_buddy_busy_traffic_check(_adapter *padapter, bool check_sc_interval)
++{
++	bool in_data = check_sc_interval;
++
++	return _rtw_mi_process(padapter, _TRUE, &in_data, _rtw_mi_busy_traffic_check);
++}
++static u8 _rtw_mi_check_mlmeinfo_state(_adapter *padapter, void *data)
++{
++	u32 state = *(u32 *)data;
++	struct mlme_ext_priv *mlmeext = &padapter->mlmeextpriv;
++
++	/*if (mlmeext_msr(mlmeext) == state)*/
++	if (check_mlmeinfo_state(mlmeext, state))
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++u8 rtw_mi_check_mlmeinfo_state(_adapter *padapter, u32 state)
++{
++	u32 in_data = state;
++
++	return _rtw_mi_process(padapter, _FALSE, &in_data, _rtw_mi_check_mlmeinfo_state);
++}
++
++u8 rtw_mi_buddy_check_mlmeinfo_state(_adapter *padapter, u32 state)
++{
++	u32 in_data = state;
++
++	return _rtw_mi_process(padapter, _TRUE, &in_data, _rtw_mi_check_mlmeinfo_state);
++}
++
++/*#define DBG_DUMP_FW_STATE*/
++#ifdef DBG_DUMP_FW_STATE
++static void rtw_dbg_dump_fwstate(_adapter *padapter, sint state)
++{
++	u8 buf[32] = {0};
++
++	if (state & WIFI_FW_NULL_STATE) {
++		_rtw_memset(buf, 0, 32);
++		sprintf(buf, "WIFI_FW_NULL_STATE");
++		RTW_INFO(FUNC_ADPT_FMT"fwstate-%s\n", FUNC_ADPT_ARG(padapter), buf);
++	}
++
++	if (state & _FW_LINKED) {
++		_rtw_memset(buf, 0, 32);
++		sprintf(buf, "_FW_LINKED");
++		RTW_INFO(FUNC_ADPT_FMT"fwstate-%s\n", FUNC_ADPT_ARG(padapter), buf);
++	}
++
++	if (state & _FW_UNDER_LINKING) {
++		_rtw_memset(buf, 0, 32);
++		sprintf(buf, "_FW_UNDER_LINKING");
++		RTW_INFO(FUNC_ADPT_FMT"fwstate-%s\n", FUNC_ADPT_ARG(padapter), buf);
++	}
++
++	if (state & _FW_UNDER_SURVEY) {
++		_rtw_memset(buf, 0, 32);
++		sprintf(buf, "_FW_UNDER_SURVEY");
++		RTW_INFO(FUNC_ADPT_FMT"fwstate-%s\n", FUNC_ADPT_ARG(padapter), buf);
++	}
++}
++#endif
++
++static u8 _rtw_mi_check_fwstate(_adapter *padapter, void *data)
++{
++	u8 ret = _FALSE;
++
++	sint state = *(sint *)data;
++
++	if ((state == WIFI_FW_NULL_STATE) &&
++	    (padapter->mlmepriv.fw_state == WIFI_FW_NULL_STATE))
++		ret = _TRUE;
++	else if (_TRUE == check_fwstate(&padapter->mlmepriv, state))
++		ret = _TRUE;
++#ifdef DBG_DUMP_FW_STATE
++	if (ret)
++		rtw_dbg_dump_fwstate(padapter, state);
++#endif
++	return ret;
++}
++u8 rtw_mi_check_fwstate(_adapter *padapter, sint state)
++{
++	sint in_data = state;
++
++	return _rtw_mi_process(padapter, _FALSE, &in_data, _rtw_mi_check_fwstate);
++}
++u8 rtw_mi_buddy_check_fwstate(_adapter *padapter, sint state)
++{
++	sint in_data = state;
++
++	return _rtw_mi_process(padapter, _TRUE, &in_data, _rtw_mi_check_fwstate);
++}
++
++static u8 _rtw_mi_traffic_statistics(_adapter *padapter , void *data)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++
++	/* Tx */
++	pdvobjpriv->traffic_stat.tx_bytes += padapter->xmitpriv.tx_bytes;
++	pdvobjpriv->traffic_stat.tx_pkts += padapter->xmitpriv.tx_pkts;
++	pdvobjpriv->traffic_stat.tx_drop += padapter->xmitpriv.tx_drop;
++
++	/* Rx */
++	pdvobjpriv->traffic_stat.rx_bytes += padapter->recvpriv.rx_bytes;
++	pdvobjpriv->traffic_stat.rx_pkts += padapter->recvpriv.rx_pkts;
++	pdvobjpriv->traffic_stat.rx_drop += padapter->recvpriv.rx_drop;
++	return _TRUE;
++}
++u8 rtw_mi_traffic_statistics(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_traffic_statistics);
++}
++
++static u8 _rtw_mi_check_miracast_enabled(_adapter *padapter , void *data)
++{
++	return is_miracast_enabled(padapter);
++}
++u8 rtw_mi_check_miracast_enabled(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_check_miracast_enabled);
++}
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++static u8 _rtw_mi_check_pending_xmitbuf(_adapter *padapter , void *data)
++{
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	return check_pending_xmitbuf(pxmitpriv);
++}
++u8 rtw_mi_check_pending_xmitbuf(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_check_pending_xmitbuf);
++}
++u8 rtw_mi_buddy_check_pending_xmitbuf(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_check_pending_xmitbuf);
++}
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++static u8 _rtw_mi_dequeue_writeport(_adapter *padapter , bool exclude_self)
++{
++	int i;
++	u8	queue_empty = _TRUE;
++	_adapter *iface;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++
++			if ((exclude_self) && (iface == padapter))
++				continue;
++
++			queue_empty &= _dequeue_writeport(iface);
++		}
++	}
++	return queue_empty;
++}
++u8 rtw_mi_dequeue_writeport(_adapter *padapter)
++{
++	return _rtw_mi_dequeue_writeport(padapter, _FALSE);
++}
++u8 rtw_mi_buddy_dequeue_writeport(_adapter *padapter)
++{
++	return _rtw_mi_dequeue_writeport(padapter, _TRUE);
++}
++#endif
++static void _rtw_mi_adapter_reset(_adapter *padapter , u8 exclude_self)
++{
++	int i;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		if (dvobj->padapters[i]) {
++			if ((exclude_self) && (dvobj->padapters[i] == padapter))
++				continue;
++			dvobj->padapters[i] = NULL;
++		}
++	}
++}
++
++void rtw_mi_adapter_reset(_adapter *padapter)
++{
++	_rtw_mi_adapter_reset(padapter, _FALSE);
++}
++
++void rtw_mi_buddy_adapter_reset(_adapter *padapter)
++{
++	_rtw_mi_adapter_reset(padapter, _TRUE);
++}
++
++static u8 _rtw_mi_dynamic_check_timer_handlder(_adapter *adapter, void *data)
++{
++	rtw_iface_dynamic_check_timer_handlder(adapter);
++	return _TRUE;
++}
++u8 rtw_mi_dynamic_check_timer_handlder(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_dynamic_check_timer_handlder);
++}
++u8 rtw_mi_buddy_dynamic_check_timer_handlder(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_dynamic_check_timer_handlder);
++}
++
++static u8 _rtw_mi_dev_unload(_adapter *adapter, void *data)
++{
++	rtw_dev_unload(adapter);
++	return _TRUE;
++}
++u8 rtw_mi_dev_unload(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_dev_unload);
++}
++u8 rtw_mi_buddy_dev_unload(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_dev_unload);
++}
++
++static u8 _rtw_mi_dynamic_chk_wk_hdl(_adapter *adapter, void *data)
++{
++	rtw_iface_dynamic_chk_wk_hdl(adapter);
++	return _TRUE;
++}
++u8 rtw_mi_dynamic_chk_wk_hdl(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_dynamic_chk_wk_hdl);
++}
++u8 rtw_mi_buddy_dynamic_chk_wk_hdl(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_dynamic_chk_wk_hdl);
++}
++
++static u8 _rtw_mi_os_xmit_schedule(_adapter *adapter, void *data)
++{
++	rtw_os_xmit_schedule(adapter);
++	return _TRUE;
++}
++u8 rtw_mi_os_xmit_schedule(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_os_xmit_schedule);
++}
++u8 rtw_mi_buddy_os_xmit_schedule(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_os_xmit_schedule);
++}
++
++static u8 _rtw_mi_report_survey_event(_adapter *adapter, void *data)
++{
++	union recv_frame *precv_frame = (union recv_frame *)data;
++
++	report_survey_event(adapter, precv_frame);
++	return _TRUE;
++}
++u8 rtw_mi_report_survey_event(_adapter *padapter, union recv_frame *precv_frame)
++{
++	return _rtw_mi_process(padapter, _FALSE, precv_frame, _rtw_mi_report_survey_event);
++}
++u8 rtw_mi_buddy_report_survey_event(_adapter *padapter, union recv_frame *precv_frame)
++{
++	return _rtw_mi_process(padapter, _TRUE, precv_frame, _rtw_mi_report_survey_event);
++}
++
++static u8 _rtw_mi_sreset_adapter_hdl(_adapter *adapter, void *data)
++{
++	u8 bstart = *(u8 *)data;
++
++	if (bstart)
++		sreset_start_adapter(adapter);
++	else
++		sreset_stop_adapter(adapter);
++	return _TRUE;
++}
++u8 rtw_mi_sreset_adapter_hdl(_adapter *padapter, u8 bstart)
++{
++	u8 in_data = bstart;
++
++	return _rtw_mi_process(padapter, _FALSE, &in_data, _rtw_mi_sreset_adapter_hdl);
++}
++u8 rtw_mi_buddy_sreset_adapter_hdl(_adapter *padapter, u8 bstart)
++{
++	u8 in_data = bstart;
++
++	return _rtw_mi_process(padapter, _TRUE, &in_data, _rtw_mi_sreset_adapter_hdl);
++}
++static u8 _rtw_mi_tx_beacon_hdl(_adapter *adapter, void *data)
++{
++	if (check_fwstate(&adapter->mlmepriv, WIFI_AP_STATE) == _TRUE
++	    && check_fwstate(&adapter->mlmepriv, WIFI_ASOC_STATE) == _TRUE
++	   ) {
++		adapter->mlmepriv.update_bcn = _TRUE;
++#ifndef CONFIG_INTERRUPT_BASED_TXBCN
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		tx_beacon_hdl(adapter, NULL);
++#endif
++#endif
++	}
++	return _TRUE;
++}
++u8 rtw_mi_tx_beacon_hdl(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_tx_beacon_hdl);
++}
++u8 rtw_mi_buddy_tx_beacon_hdl(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_sreset_adapter_hdl);
++}
++
++static u8 _rtw_mi_set_tx_beacon_cmd(_adapter *adapter, void *data)
++{
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++		if (pmlmepriv->update_bcn == _TRUE)
++			set_tx_beacon_cmd(adapter);
++	}
++	return _TRUE;
++}
++u8 rtw_mi_set_tx_beacon_cmd(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_set_tx_beacon_cmd);
++}
++u8 rtw_mi_buddy_set_tx_beacon_cmd(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_set_tx_beacon_cmd);
++}
++
++#ifdef CONFIG_P2P
++static u8 _rtw_mi_p2p_chk_state(_adapter *adapter, void *data)
++{
++	struct wifidirect_info *pwdinfo = &(adapter->wdinfo);
++	enum P2P_STATE state = *(enum P2P_STATE *)data;
++
++	return rtw_p2p_chk_state(pwdinfo, state);
++}
++u8 rtw_mi_p2p_chk_state(_adapter *padapter, enum P2P_STATE p2p_state)
++{
++	u8 in_data = p2p_state;
++
++	return _rtw_mi_process(padapter, _FALSE, &in_data, _rtw_mi_p2p_chk_state);
++}
++u8 rtw_mi_buddy_p2p_chk_state(_adapter *padapter, enum P2P_STATE p2p_state)
++{
++	u8 in_data  = p2p_state;
++
++	return _rtw_mi_process(padapter, _TRUE, &in_data, _rtw_mi_p2p_chk_state);
++}
++static u8 _rtw_mi_stay_in_p2p_mode(_adapter *adapter, void *data)
++{
++	struct wifidirect_info *pwdinfo = &(adapter->wdinfo);
++
++	if (rtw_p2p_role(pwdinfo) != P2P_ROLE_DISABLE)
++		return _TRUE;
++	return _FALSE;
++}
++u8 rtw_mi_stay_in_p2p_mode(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _FALSE, NULL, _rtw_mi_stay_in_p2p_mode);
++}
++u8 rtw_mi_buddy_stay_in_p2p_mode(_adapter *padapter)
++{
++	return _rtw_mi_process(padapter, _TRUE, NULL, _rtw_mi_stay_in_p2p_mode);
++}
++#endif /*CONFIG_P2P*/
++
++_adapter *rtw_get_iface_by_id(_adapter *padapter, u8 iface_id)
++{
++	_adapter *iface = NULL;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++	if ((padapter == NULL) || (iface_id >= CONFIG_IFACE_NUMBER)) {
++		rtw_warn_on(1);
++		return iface;
++	}
++
++	return  dvobj->padapters[iface_id];
++}
++
++_adapter *rtw_get_iface_by_macddr(_adapter *padapter, u8 *mac_addr)
++{
++	int i;
++	_adapter *iface = NULL;
++	u8 bmatch = _FALSE;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && (_rtw_memcmp(mac_addr, adapter_mac_addr(iface), ETH_ALEN))) {
++			bmatch = _TRUE;
++			break;
++		}
++	}
++	if (bmatch)
++		return iface;
++	else
++		return NULL;
++}
++
++_adapter *rtw_get_iface_by_hwport(_adapter *padapter, u8 hw_port)
++{
++	int i;
++	_adapter *iface = NULL;
++	u8 bmatch = _FALSE;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && (hw_port == iface->hw_port)) {
++			bmatch = _TRUE;
++			break;
++		}
++	}
++	if (bmatch)
++		return iface;
++	else
++		return NULL;
++}
++
++/*#define CONFIG_SKB_ALLOCATED*/
++#define DBG_SKB_PROCESS
++#ifdef DBG_SKB_PROCESS
++void rtw_dbg_skb_process(_adapter *padapter, union recv_frame *precvframe, union recv_frame *pcloneframe)
++{
++	_pkt *pkt_copy, *pkt_org;
++
++	pkt_org = precvframe->u.hdr.pkt;
++	pkt_copy = pcloneframe->u.hdr.pkt;
++	/*
++		RTW_INFO("%s ===== ORG SKB =====\n", __func__);
++		RTW_INFO(" SKB head(%p)\n", pkt_org->head);
++		RTW_INFO(" SKB data(%p)\n", pkt_org->data);
++		RTW_INFO(" SKB tail(%p)\n", pkt_org->tail);
++		RTW_INFO(" SKB end(%p)\n", pkt_org->end);
++
++		RTW_INFO(" recv frame head(%p)\n", precvframe->u.hdr.rx_head);
++		RTW_INFO(" recv frame data(%p)\n", precvframe->u.hdr.rx_data);
++		RTW_INFO(" recv frame tail(%p)\n", precvframe->u.hdr.rx_tail);
++		RTW_INFO(" recv frame end(%p)\n", precvframe->u.hdr.rx_end);
++
++		RTW_INFO("%s ===== COPY SKB =====\n", __func__);
++		RTW_INFO(" SKB head(%p)\n", pkt_copy->head);
++		RTW_INFO(" SKB data(%p)\n", pkt_copy->data);
++		RTW_INFO(" SKB tail(%p)\n", pkt_copy->tail);
++		RTW_INFO(" SKB end(%p)\n", pkt_copy->end);
++
++		RTW_INFO(" recv frame head(%p)\n", pcloneframe->u.hdr.rx_head);
++		RTW_INFO(" recv frame data(%p)\n", pcloneframe->u.hdr.rx_data);
++		RTW_INFO(" recv frame tail(%p)\n", pcloneframe->u.hdr.rx_tail);
++		RTW_INFO(" recv frame end(%p)\n", pcloneframe->u.hdr.rx_end);
++	*/
++	/*
++		RTW_INFO("%s => recv_frame adapter(%p,%p)\n", __func__, precvframe->u.hdr.adapter, pcloneframe->u.hdr.adapter);
++		RTW_INFO("%s => recv_frame dev(%p,%p)\n", __func__, pkt_org->dev , pkt_copy->dev);
++		RTW_INFO("%s => recv_frame len(%d,%d)\n", __func__, precvframe->u.hdr.len, pcloneframe->u.hdr.len);
++	*/
++	if (precvframe->u.hdr.len != pcloneframe->u.hdr.len)
++		RTW_INFO("%s [WARN]  recv_frame length(%d:%d) compare failed\n", __func__, precvframe->u.hdr.len, pcloneframe->u.hdr.len);
++
++	if (_rtw_memcmp(&precvframe->u.hdr.attrib, &pcloneframe->u.hdr.attrib, sizeof(struct rx_pkt_attrib)) == _FALSE)
++		RTW_INFO("%s [WARN]  recv_frame attrib compare failed\n", __func__);
++
++	if (_rtw_memcmp(precvframe->u.hdr.rx_data, pcloneframe->u.hdr.rx_data, precvframe->u.hdr.len) == _FALSE)
++		RTW_INFO("%s [WARN]  recv_frame rx_data compare failed\n", __func__);
++
++}
++#endif
++
++static s32 _rtw_mi_buddy_clone_bcmc_packet(_adapter *adapter, union recv_frame *precvframe, u8 *pphy_status, union recv_frame *pcloneframe)
++{
++	s32 ret = _SUCCESS;
++	u8 *pbuf = precvframe->u.hdr.rx_data;
++	struct rx_pkt_attrib *pattrib = NULL;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(adapter);
++
++	if (pcloneframe) {
++		pcloneframe->u.hdr.adapter = adapter;
++
++		_rtw_init_listhead(&pcloneframe->u.hdr.list);
++		pcloneframe->u.hdr.precvbuf = NULL;	/*can't access the precvbuf for new arch.*/
++		pcloneframe->u.hdr.len = 0;
++
++		_rtw_memcpy(&pcloneframe->u.hdr.attrib, &precvframe->u.hdr.attrib, sizeof(struct rx_pkt_attrib));
++
++		pattrib = &pcloneframe->u.hdr.attrib;
++#ifdef CONFIG_SKB_ALLOCATED
++		if (rtw_os_alloc_recvframe(adapter, pcloneframe, pbuf, NULL) == _SUCCESS)
++#else
++		if (rtw_os_recvframe_duplicate_skb(adapter, pcloneframe, precvframe->u.hdr.pkt) == _SUCCESS)
++#endif
++		{
++#ifdef CONFIG_SKB_ALLOCATED
++			recvframe_put(pcloneframe, pattrib->pkt_len);
++#endif
++
++#ifdef DBG_SKB_PROCESS
++			rtw_dbg_skb_process(adapter, precvframe, pcloneframe);
++#endif
++
++			if (pattrib->physt && pphy_status)
++				rx_query_phy_status(pcloneframe, pphy_status);
++
++			ret = rtw_recv_entry(pcloneframe);
++		} else {
++			ret = -1;
++			RTW_INFO("%s()-%d: rtw_os_alloc_recvframe() failed!\n", __func__, __LINE__);
++		}
++
++	}
++	return ret;
++}
++
++void rtw_mi_buddy_clone_bcmc_packet(_adapter *padapter, union recv_frame *precvframe, u8 *pphy_status)
++{
++	int i;
++	s32 ret = _SUCCESS;
++	_adapter *iface = NULL;
++	union recv_frame *pcloneframe = NULL;
++	struct recv_priv *precvpriv = &padapter->recvpriv;/*primary_padapter*/
++	_queue *pfree_recv_queue = &precvpriv->free_recv_queue;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++			if (iface == padapter)
++				continue;
++			pcloneframe = rtw_alloc_recvframe(pfree_recv_queue);
++			if (pcloneframe) {
++				ret = _rtw_mi_buddy_clone_bcmc_packet(iface, precvframe, pphy_status, pcloneframe);
++				if (_SUCCESS != ret) {
++					if (ret == -1)
++						rtw_free_recvframe(pcloneframe, pfree_recv_queue);
++					/*RTW_INFO(ADPT_FMT"-clone BC/MC frame failed\n", ADPT_ARG(iface));*/
++				}
++			}
++		}
++	}
++
++}
++
++#ifdef CONFIG_PCI_HCI
++/*API be created temporary for MI, caller is interrupt-handler, PCIE's interrupt handler cannot apply to multi-AP*/
++_adapter *rtw_mi_get_ap_adapter(_adapter *padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	int i;
++	_adapter *iface = NULL;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (!iface)
++			continue;
++
++		if (check_fwstate(&iface->mlmepriv, WIFI_AP_STATE) == _TRUE
++		    && check_fwstate(&iface->mlmepriv, WIFI_ASOC_STATE) == _TRUE)
++			break;
++
++	}
++	return iface;
++}
++#endif
++
++void rtw_mi_update_ap_bmc_camid(_adapter *padapter, u8 camid_a, u8 camid_b)
++{
++#ifdef CONFIG_CONCURRENT_MODE
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++
++	int i;
++	_adapter *iface = NULL;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (!iface)
++			continue;
++
++		if (macid_ctl->iface_bmc[iface->iface_id] != INVALID_SEC_MAC_CAM_ID) {
++			if (macid_ctl->iface_bmc[iface->iface_id] == camid_a)
++				macid_ctl->iface_bmc[iface->iface_id] = camid_b;
++			else if (macid_ctl->iface_bmc[iface->iface_id] == camid_b)
++				macid_ctl->iface_bmc[iface->iface_id] = camid_a;
++			iface->securitypriv.dot118021x_bmc_cam_id  = macid_ctl->iface_bmc[iface->iface_id];
++		}
++	}
++#endif
++}
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_mlme.c b/drivers/net/wireless/rtl8812au/core/rtw_mlme.c
+new file mode 100644
+index 0000000..71ffc2a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_mlme.c
+@@ -0,0 +1,4515 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_MLME_C_
++
++#include <hal_data.h>
++
++extern void indicate_wx_scan_complete_event(_adapter *padapter);
++extern u8 rtw_do_join(_adapter *padapter);
++
++
++sint	_rtw_init_mlme_priv(_adapter *padapter)
++{
++	sint	i;
++	u8	*pbuf;
++	struct wlan_network	*pnetwork;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	sint	res = _SUCCESS;
++
++
++	/* We don't need to memset padapter->XXX to zero, because adapter is allocated by rtw_zvmalloc(). */
++	/* _rtw_memset((u8 *)pmlmepriv, 0, sizeof(struct mlme_priv)); */
++
++
++	/*qos_priv*/
++	/*pmlmepriv->qospriv.qos_option = pregistrypriv->wmm_enable;*/
++
++	/*ht_priv*/
++#ifdef CONFIG_80211N_HT
++	pmlmepriv->htpriv.ampdu_enable = _FALSE;/*set to disabled*/
++#endif
++
++	pmlmepriv->nic_hdl = (u8 *)padapter;
++
++	pmlmepriv->pscanned = NULL;
++	/*pmlmepriv->fw_state = WIFI_STATION_STATE; */ /*Must sync with rtw_wdev_alloc()*/
++	/*init_fwstate(pmlmepriv, WIFI_STATION_STATE);*/
++	init_fwstate(pmlmepriv, WIFI_NULL_STATE);/*assigned interface role(STA/AP) must after execute set_opmode*/
++
++	/* wdev->iftype = NL80211_IFTYPE_STATION*/
++	pmlmepriv->cur_network.network.InfrastructureMode = Ndis802_11AutoUnknown;
++	pmlmepriv->scan_mode = SCAN_ACTIVE; /* 1: active, 0: pasive. Maybe someday we should rename this varable to "active_mode" (Jeff) */
++
++	_rtw_spinlock_init(&(pmlmepriv->lock));
++	_rtw_init_queue(&(pmlmepriv->free_bss_pool));
++	_rtw_init_queue(&(pmlmepriv->scanned_queue));
++
++	set_scanned_network_val(pmlmepriv, 0);
++
++	_rtw_memset(&pmlmepriv->assoc_ssid, 0, sizeof(NDIS_802_11_SSID));
++
++	pbuf = rtw_zvmalloc(MAX_BSS_CNT * (sizeof(struct wlan_network)));
++
++	if (pbuf == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	pmlmepriv->free_bss_buf = pbuf;
++
++	pnetwork = (struct wlan_network *)pbuf;
++
++	for (i = 0; i < MAX_BSS_CNT; i++) {
++		_rtw_init_listhead(&(pnetwork->list));
++
++		rtw_list_insert_tail(&(pnetwork->list), &(pmlmepriv->free_bss_pool.queue));
++
++		pnetwork++;
++	}
++
++	/* allocate DMA-able/Non-Page memory for cmd_buf and rsp_buf */
++
++	rtw_clear_scan_deny(padapter);
++#ifdef CONFIG_ARP_KEEP_ALIVE
++	pmlmepriv->bGetGateway = 0;
++#endif
++
++#ifdef CONFIG_LAYER2_ROAMING
++#define RTW_ROAM_SCAN_RESULT_EXP_MS (5*1000)
++#define RTW_ROAM_RSSI_DIFF_TH 10
++#define RTW_ROAM_SCAN_INTERVAL_MS (10*1000)
++
++	pmlmepriv->roam_flags = 0
++				| RTW_ROAM_ON_EXPIRED
++#ifdef CONFIG_LAYER2_ROAMING_RESUME
++				| RTW_ROAM_ON_RESUME
++#endif
++#ifdef CONFIG_LAYER2_ROAMING_ACTIVE
++				| RTW_ROAM_ACTIVE
++#endif
++				;
++
++	pmlmepriv->roam_scanr_exp_ms = RTW_ROAM_SCAN_RESULT_EXP_MS;
++	pmlmepriv->roam_rssi_diff_th = RTW_ROAM_RSSI_DIFF_TH;
++	pmlmepriv->roam_scan_int_ms = RTW_ROAM_SCAN_INTERVAL_MS;
++#endif /* CONFIG_LAYER2_ROAMING */
++
++	rtw_init_mlme_timer(padapter);
++
++exit:
++
++
++	return res;
++}
++
++void rtw_mfree_mlme_priv_lock(struct mlme_priv *pmlmepriv);
++void rtw_mfree_mlme_priv_lock(struct mlme_priv *pmlmepriv)
++{
++	_rtw_spinlock_free(&pmlmepriv->lock);
++	_rtw_spinlock_free(&(pmlmepriv->free_bss_pool.lock));
++	_rtw_spinlock_free(&(pmlmepriv->scanned_queue.lock));
++}
++
++static void rtw_free_mlme_ie_data(u8 **ppie, u32 *plen)
++{
++	if (*ppie) {
++		rtw_mfree(*ppie, *plen);
++		*plen = 0;
++		*ppie = NULL;
++	}
++}
++
++void rtw_free_mlme_priv_ie_data(struct mlme_priv *pmlmepriv)
++{
++#if defined(CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	rtw_buf_free(&pmlmepriv->assoc_req, &pmlmepriv->assoc_req_len);
++	rtw_buf_free(&pmlmepriv->assoc_rsp, &pmlmepriv->assoc_rsp_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wps_beacon_ie, &pmlmepriv->wps_beacon_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wps_probe_req_ie, &pmlmepriv->wps_probe_req_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wps_probe_resp_ie, &pmlmepriv->wps_probe_resp_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wps_assoc_resp_ie, &pmlmepriv->wps_assoc_resp_ie_len);
++
++	rtw_free_mlme_ie_data(&pmlmepriv->p2p_beacon_ie, &pmlmepriv->p2p_beacon_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->p2p_probe_req_ie, &pmlmepriv->p2p_probe_req_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->p2p_probe_resp_ie, &pmlmepriv->p2p_probe_resp_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->p2p_go_probe_resp_ie, &pmlmepriv->p2p_go_probe_resp_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->p2p_assoc_req_ie, &pmlmepriv->p2p_assoc_req_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->p2p_assoc_resp_ie, &pmlmepriv->p2p_assoc_resp_ie_len);
++#endif
++
++#if defined(CONFIG_WFD) && defined(CONFIG_IOCTL_CFG80211)
++	rtw_free_mlme_ie_data(&pmlmepriv->wfd_beacon_ie, &pmlmepriv->wfd_beacon_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wfd_probe_req_ie, &pmlmepriv->wfd_probe_req_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wfd_probe_resp_ie, &pmlmepriv->wfd_probe_resp_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wfd_go_probe_resp_ie, &pmlmepriv->wfd_go_probe_resp_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wfd_assoc_req_ie, &pmlmepriv->wfd_assoc_req_ie_len);
++	rtw_free_mlme_ie_data(&pmlmepriv->wfd_assoc_resp_ie, &pmlmepriv->wfd_assoc_resp_ie_len);
++#endif
++
++}
++
++#if defined(CONFIG_WFD) && defined(CONFIG_IOCTL_CFG80211)
++int rtw_mlme_update_wfd_ie_data(struct mlme_priv *mlme, u8 type, u8 *ie, u32 ie_len)
++{
++	_adapter *adapter = mlme_to_adapter(mlme);
++	struct wifi_display_info *wfd_info = &adapter->wfd_info;
++	u8 clear = 0;
++	u8 **t_ie = NULL;
++	u32 *t_ie_len = NULL;
++	int ret = _FAIL;
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		goto success;
++
++	if (wfd_info->wfd_enable == _TRUE)
++		goto success; /* WFD IE is build by self */
++
++	if (!ie && !ie_len)
++		clear = 1;
++	else if (!ie || !ie_len) {
++		RTW_PRINT(FUNC_ADPT_FMT" type:%u, ie:%p, ie_len:%u"
++			  , FUNC_ADPT_ARG(adapter), type, ie, ie_len);
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	switch (type) {
++	case MLME_BEACON_IE:
++		t_ie = &mlme->wfd_beacon_ie;
++		t_ie_len = &mlme->wfd_beacon_ie_len;
++		break;
++	case MLME_PROBE_REQ_IE:
++		t_ie = &mlme->wfd_probe_req_ie;
++		t_ie_len = &mlme->wfd_probe_req_ie_len;
++		break;
++	case MLME_PROBE_RESP_IE:
++		t_ie = &mlme->wfd_probe_resp_ie;
++		t_ie_len = &mlme->wfd_probe_resp_ie_len;
++		break;
++	case MLME_GO_PROBE_RESP_IE:
++		t_ie = &mlme->wfd_go_probe_resp_ie;
++		t_ie_len = &mlme->wfd_go_probe_resp_ie_len;
++		break;
++	case MLME_ASSOC_REQ_IE:
++		t_ie = &mlme->wfd_assoc_req_ie;
++		t_ie_len = &mlme->wfd_assoc_req_ie_len;
++		break;
++	case MLME_ASSOC_RESP_IE:
++		t_ie = &mlme->wfd_assoc_resp_ie;
++		t_ie_len = &mlme->wfd_assoc_resp_ie_len;
++		break;
++	default:
++		RTW_PRINT(FUNC_ADPT_FMT" unsupported type:%u"
++			  , FUNC_ADPT_ARG(adapter), type);
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (*t_ie) {
++		u32 free_len = *t_ie_len;
++		*t_ie_len = 0;
++		rtw_mfree(*t_ie, free_len);
++		*t_ie = NULL;
++	}
++
++	if (!clear) {
++		*t_ie = rtw_malloc(ie_len);
++		if (*t_ie == NULL) {
++			RTW_ERR(FUNC_ADPT_FMT" type:%u, rtw_malloc() fail\n"
++				, FUNC_ADPT_ARG(adapter), type);
++			goto exit;
++		}
++		_rtw_memcpy(*t_ie, ie, ie_len);
++		*t_ie_len = ie_len;
++	}
++
++	if (*t_ie && *t_ie_len) {
++		u8 *attr_content;
++		u32 attr_contentlen = 0;
++
++		attr_content = rtw_get_wfd_attr_content(*t_ie, *t_ie_len, WFD_ATTR_DEVICE_INFO, NULL, &attr_contentlen);
++		if (attr_content && attr_contentlen) {
++			if (RTW_GET_BE16(attr_content + 2) != wfd_info->rtsp_ctrlport) {
++				wfd_info->rtsp_ctrlport = RTW_GET_BE16(attr_content + 2);
++				RTW_INFO(FUNC_ADPT_FMT" type:%u, RTSP CTRL port = %u\n"
++					, FUNC_ADPT_ARG(adapter), type, wfd_info->rtsp_ctrlport);
++			}
++		}
++	}
++
++success:
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++#endif /* defined(CONFIG_WFD) && defined(CONFIG_IOCTL_CFG80211) */
++
++void _rtw_free_mlme_priv(struct mlme_priv *pmlmepriv)
++{
++	if (NULL == pmlmepriv) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++	rtw_free_mlme_priv_ie_data(pmlmepriv);
++
++	if (pmlmepriv) {
++		rtw_mfree_mlme_priv_lock(pmlmepriv);
++
++		if (pmlmepriv->free_bss_buf)
++			rtw_vmfree(pmlmepriv->free_bss_buf, MAX_BSS_CNT * sizeof(struct wlan_network));
++	}
++exit:
++	return;
++}
++
++sint	_rtw_enqueue_network(_queue *queue, struct wlan_network *pnetwork)
++{
++	_irqL irqL;
++
++
++	if (pnetwork == NULL)
++		goto exit;
++
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	rtw_list_insert_tail(&pnetwork->list, &queue->queue);
++
++	_exit_critical_bh(&queue->lock, &irqL);
++
++exit:
++
++
++	return _SUCCESS;
++}
++
++/*
++struct	wlan_network *_rtw_dequeue_network(_queue *queue)
++{
++	_irqL irqL;
++
++	struct wlan_network *pnetwork;
++
++
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	if (_rtw_queue_empty(queue) == _TRUE)
++
++		pnetwork = NULL;
++
++	else
++	{
++		pnetwork = LIST_CONTAINOR(get_next(&queue->queue), struct wlan_network, list);
++
++		rtw_list_delete(&(pnetwork->list));
++	}
++
++	_exit_critical_bh(&queue->lock, &irqL);
++
++
++	return pnetwork;
++}
++*/
++
++struct	wlan_network *_rtw_alloc_network(struct	mlme_priv *pmlmepriv) /* (_queue *free_queue) */
++{
++	_irqL	irqL;
++	struct	wlan_network	*pnetwork;
++	_queue *free_queue = &pmlmepriv->free_bss_pool;
++	_list *plist = NULL;
++
++
++	_enter_critical_bh(&free_queue->lock, &irqL);
++
++	if (_rtw_queue_empty(free_queue) == _TRUE) {
++		pnetwork = NULL;
++		goto exit;
++	}
++	plist = get_next(&(free_queue->queue));
++
++	pnetwork = LIST_CONTAINOR(plist , struct wlan_network, list);
++
++	rtw_list_delete(&pnetwork->list);
++
++	pnetwork->network_type = 0;
++	pnetwork->fixed = _FALSE;
++	pnetwork->last_scanned = rtw_get_current_time();
++	pnetwork->aid = 0;
++	pnetwork->join_res = 0;
++
++	pmlmepriv->num_of_scanned++;
++
++exit:
++	_exit_critical_bh(&free_queue->lock, &irqL);
++
++
++	return pnetwork;
++}
++
++void _rtw_free_network(struct	mlme_priv *pmlmepriv , struct wlan_network *pnetwork, u8 isfreeall)
++{
++	u32 delta_time;
++	u32 lifetime = SCANQUEUE_LIFETIME;
++	_irqL irqL;
++	_queue *free_queue = &(pmlmepriv->free_bss_pool);
++
++
++	if (pnetwork == NULL)
++		goto exit;
++
++	if (pnetwork->fixed == _TRUE)
++		goto exit;
++
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) ||
++	    (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE))
++		lifetime = 1;
++
++	if (!isfreeall) {
++		delta_time = (u32) rtw_get_passing_time_ms(pnetwork->last_scanned);
++		if (delta_time < lifetime) /* unit:msec */
++			goto exit;
++	}
++
++	_enter_critical_bh(&free_queue->lock, &irqL);
++
++	rtw_list_delete(&(pnetwork->list));
++
++	rtw_list_insert_tail(&(pnetwork->list), &(free_queue->queue));
++
++	pmlmepriv->num_of_scanned--;
++
++
++	/* RTW_INFO("_rtw_free_network:SSID=%s\n", pnetwork->network.Ssid.Ssid); */
++
++	_exit_critical_bh(&free_queue->lock, &irqL);
++
++exit:
++	return;
++}
++
++void _rtw_free_network_nolock(struct	mlme_priv *pmlmepriv, struct wlan_network *pnetwork)
++{
++
++	_queue *free_queue = &(pmlmepriv->free_bss_pool);
++
++
++	if (pnetwork == NULL)
++		goto exit;
++
++	if (pnetwork->fixed == _TRUE)
++		goto exit;
++
++	/* _enter_critical(&free_queue->lock, &irqL); */
++
++	rtw_list_delete(&(pnetwork->list));
++
++	rtw_list_insert_tail(&(pnetwork->list), get_list_head(free_queue));
++
++	pmlmepriv->num_of_scanned--;
++
++	/* _exit_critical(&free_queue->lock, &irqL); */
++
++exit:
++	return;
++}
++
++
++/*
++	return the wlan_network with the matching addr
++
++	Shall be calle under atomic context... to avoid possible racing condition...
++*/
++struct wlan_network *_rtw_find_network(_queue *scanned_queue, u8 *addr)
++{
++
++	/* _irqL irqL; */
++	_list	*phead, *plist;
++	struct	wlan_network *pnetwork = NULL;
++	u8 zero_addr[ETH_ALEN] = {0, 0, 0, 0, 0, 0};
++
++
++	if (_rtw_memcmp(zero_addr, addr, ETH_ALEN)) {
++		pnetwork = NULL;
++		goto exit;
++	}
++
++	/* _enter_critical_bh(&scanned_queue->lock, &irqL); */
++
++	phead = get_list_head(scanned_queue);
++	plist = get_next(phead);
++
++	while (plist != phead) {
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network , list);
++
++		if (_rtw_memcmp(addr, pnetwork->network.MacAddress, ETH_ALEN) == _TRUE)
++			break;
++
++		plist = get_next(plist);
++	}
++
++	if (plist == phead)
++		pnetwork = NULL;
++
++	/* _exit_critical_bh(&scanned_queue->lock, &irqL); */
++
++exit:
++
++
++	return pnetwork;
++
++}
++
++
++void _rtw_free_network_queue(_adapter *padapter, u8 isfreeall)
++{
++	_irqL irqL;
++	_list *phead, *plist;
++	struct wlan_network *pnetwork;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_queue *scanned_queue = &pmlmepriv->scanned_queue;
++
++
++
++	_enter_critical_bh(&scanned_queue->lock, &irqL);
++
++	phead = get_list_head(scanned_queue);
++	plist = get_next(phead);
++
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		plist = get_next(plist);
++
++		_rtw_free_network(pmlmepriv, pnetwork, isfreeall);
++
++	}
++
++	_exit_critical_bh(&scanned_queue->lock, &irqL);
++
++
++}
++
++
++
++
++sint rtw_if_up(_adapter *padapter)
++{
++
++	sint res;
++
++	if (RTW_CANNOT_RUN(padapter) ||
++	    (check_fwstate(&padapter->mlmepriv, _FW_LINKED) == _FALSE)) {
++		res = _FALSE;
++	} else
++		res =  _TRUE;
++
++	return res;
++}
++
++
++void rtw_generate_random_ibss(u8 *pibss)
++{
++	*((u32 *)(&pibss[2])) = rtw_random32();
++	pibss[0] = 0x02; /* in ad-hoc mode local bit must set to 1 */
++	pibss[1] = 0x11;
++	pibss[2] = 0x87;
++}
++
++u8 *rtw_get_capability_from_ie(u8 *ie)
++{
++	return ie + 8 + 2;
++}
++
++
++u16 rtw_get_capability(WLAN_BSSID_EX *bss)
++{
++	u16	val;
++
++	_rtw_memcpy((u8 *)&val, rtw_get_capability_from_ie(bss->IEs), 2);
++
++	return le16_to_cpu(val);
++}
++
++u8 *rtw_get_timestampe_from_ie(u8 *ie)
++{
++	return ie + 0;
++}
++
++u8 *rtw_get_beacon_interval_from_ie(u8 *ie)
++{
++	return ie + 8;
++}
++
++
++int	rtw_init_mlme_priv(_adapter *padapter) /* (struct	mlme_priv *pmlmepriv) */
++{
++	int	res;
++	res = _rtw_init_mlme_priv(padapter);/* (pmlmepriv); */
++	return res;
++}
++
++void rtw_free_mlme_priv(struct mlme_priv *pmlmepriv)
++{
++	_rtw_free_mlme_priv(pmlmepriv);
++}
++
++int	rtw_enqueue_network(_queue *queue, struct wlan_network *pnetwork);
++int	rtw_enqueue_network(_queue *queue, struct wlan_network *pnetwork)
++{
++	int	res;
++	res = _rtw_enqueue_network(queue, pnetwork);
++	return res;
++}
++
++/*
++static struct	wlan_network *rtw_dequeue_network(_queue *queue)
++{
++	struct wlan_network *pnetwork;
++	pnetwork = _rtw_dequeue_network(queue);
++	return pnetwork;
++}
++*/
++
++struct	wlan_network *rtw_alloc_network(struct	mlme_priv *pmlmepriv);
++struct	wlan_network *rtw_alloc_network(struct	mlme_priv *pmlmepriv) /* (_queue	*free_queue) */
++{
++	struct	wlan_network	*pnetwork;
++	pnetwork = _rtw_alloc_network(pmlmepriv);
++	return pnetwork;
++}
++
++void rtw_free_network(struct mlme_priv *pmlmepriv, struct	wlan_network *pnetwork, u8 is_freeall);
++void rtw_free_network(struct mlme_priv *pmlmepriv, struct	wlan_network *pnetwork, u8 is_freeall)/* (struct	wlan_network *pnetwork, _queue	*free_queue) */
++{
++	_rtw_free_network(pmlmepriv, pnetwork, is_freeall);
++}
++
++void rtw_free_network_nolock(_adapter *padapter, struct wlan_network *pnetwork);
++void rtw_free_network_nolock(_adapter *padapter, struct wlan_network *pnetwork)
++{
++	_rtw_free_network_nolock(&(padapter->mlmepriv), pnetwork);
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_cfg80211_unlink_bss(padapter, pnetwork);
++#endif /* CONFIG_IOCTL_CFG80211 */
++}
++
++
++void rtw_free_network_queue(_adapter *dev, u8 isfreeall)
++{
++	_rtw_free_network_queue(dev, isfreeall);
++}
++
++/*
++	return the wlan_network with the matching addr
++
++	Shall be calle under atomic context... to avoid possible racing condition...
++*/
++struct	wlan_network *rtw_find_network(_queue *scanned_queue, u8 *addr)
++{
++	struct	wlan_network *pnetwork = _rtw_find_network(scanned_queue, addr);
++
++	return pnetwork;
++}
++
++int rtw_is_same_ibss(_adapter *adapter, struct wlan_network *pnetwork)
++{
++	int ret = _TRUE;
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++
++	if ((psecuritypriv->dot11PrivacyAlgrthm != _NO_PRIVACY_) &&
++	    (pnetwork->network.Privacy == 0))
++		ret = _FALSE;
++	else if ((psecuritypriv->dot11PrivacyAlgrthm == _NO_PRIVACY_) &&
++		 (pnetwork->network.Privacy == 1))
++		ret = _FALSE;
++	else
++		ret = _TRUE;
++
++	return ret;
++
++}
++
++inline int is_same_ess(WLAN_BSSID_EX *a, WLAN_BSSID_EX *b)
++{
++	return (a->Ssid.SsidLength == b->Ssid.SsidLength)
++	       &&  _rtw_memcmp(a->Ssid.Ssid, b->Ssid.Ssid, a->Ssid.SsidLength) == _TRUE;
++}
++
++int is_same_network(WLAN_BSSID_EX *src, WLAN_BSSID_EX *dst, u8 feature)
++{
++	u16 s_cap, d_cap;
++
++
++	if (rtw_bug_check(dst, src, &s_cap, &d_cap) == _FALSE)
++		return _FALSE;
++
++	_rtw_memcpy((u8 *)&s_cap, rtw_get_capability_from_ie(src->IEs), 2);
++	_rtw_memcpy((u8 *)&d_cap, rtw_get_capability_from_ie(dst->IEs), 2);
++
++
++	s_cap = le16_to_cpu(s_cap);
++	d_cap = le16_to_cpu(d_cap);
++
++
++#ifdef CONFIG_P2P
++	if ((feature == 1) && /* 1: P2P supported */
++	    (_rtw_memcmp(src->MacAddress, dst->MacAddress, ETH_ALEN) == _TRUE)
++	   )
++		return _TRUE;
++#endif
++
++	return ((src->Ssid.SsidLength == dst->Ssid.SsidLength) &&
++		/*	(src->Configuration.DSConfig == dst->Configuration.DSConfig) && */
++		((_rtw_memcmp(src->MacAddress, dst->MacAddress, ETH_ALEN)) == _TRUE) &&
++		((_rtw_memcmp(src->Ssid.Ssid, dst->Ssid.Ssid, src->Ssid.SsidLength)) == _TRUE) &&
++		((s_cap & WLAN_CAPABILITY_IBSS) ==
++		 (d_cap & WLAN_CAPABILITY_IBSS)) &&
++		((s_cap & WLAN_CAPABILITY_BSS) ==
++		 (d_cap & WLAN_CAPABILITY_BSS)));
++
++}
++
++struct wlan_network *_rtw_find_same_network(_queue *scanned_queue, struct wlan_network *network)
++{
++	_list *phead, *plist;
++	struct wlan_network *found = NULL;
++
++	phead = get_list_head(scanned_queue);
++	plist = get_next(phead);
++
++	while (plist != phead) {
++		found = LIST_CONTAINOR(plist, struct wlan_network , list);
++
++		if (is_same_network(&network->network, &found->network, 0))
++			break;
++
++		plist = get_next(plist);
++	}
++
++	if (plist == phead)
++		found = NULL;
++exit:
++	return found;
++}
++
++struct wlan_network *rtw_find_same_network(_queue *scanned_queue, struct wlan_network *network)
++{
++	_irqL irqL;
++	struct wlan_network *found = NULL;
++
++	if (scanned_queue == NULL || network == NULL)
++		goto exit;
++
++	_enter_critical_bh(&scanned_queue->lock, &irqL);
++	found = _rtw_find_same_network(scanned_queue, network);
++	_exit_critical_bh(&scanned_queue->lock, &irqL);
++
++exit:
++	return found;
++}
++
++struct	wlan_network	*rtw_get_oldest_wlan_network(_queue *scanned_queue)
++{
++	_list	*plist, *phead;
++
++
++	struct	wlan_network	*pwlan = NULL;
++	struct	wlan_network	*oldest = NULL;
++	phead = get_list_head(scanned_queue);
++
++	plist = get_next(phead);
++
++	while (1) {
++
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pwlan = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		if (pwlan->fixed != _TRUE) {
++			if (oldest == NULL || time_after(oldest->last_scanned, pwlan->last_scanned))
++				oldest = pwlan;
++		}
++
++		plist = get_next(plist);
++	}
++	return oldest;
++
++}
++
++void update_network(WLAN_BSSID_EX *dst, WLAN_BSSID_EX *src,
++		    _adapter *padapter, bool update_ie)
++{
++	u8 ss_ori = dst->PhyInfo.SignalStrength;
++	u8 sq_ori = dst->PhyInfo.SignalQuality;
++	long rssi_ori = dst->Rssi;
++
++	u8 ss_smp = src->PhyInfo.SignalStrength;
++	u8 sq_smp = src->PhyInfo.SignalQuality;
++	long rssi_smp = src->Rssi;
++
++	u8 ss_final;
++	u8 sq_final;
++	long rssi_final;
++
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	rtw_hal_antdiv_rssi_compared(padapter, dst, src); /* this will update src.Rssi, need consider again */
++#endif
++
++#if defined(DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED) && 1
++	if (strcmp(dst->Ssid.Ssid, DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED) == 0) {
++		RTW_INFO(FUNC_ADPT_FMT" %s("MAC_FMT", ch%u) ss_ori:%3u, sq_ori:%3u, rssi_ori:%3ld, ss_smp:%3u, sq_smp:%3u, rssi_smp:%3ld\n"
++			 , FUNC_ADPT_ARG(padapter)
++			, src->Ssid.Ssid, MAC_ARG(src->MacAddress), src->Configuration.DSConfig
++			 , ss_ori, sq_ori, rssi_ori
++			 , ss_smp, sq_smp, rssi_smp
++			);
++	}
++#endif
++
++	/* The rule below is 1/5 for sample value, 4/5 for history value */
++	if (check_fwstate(&padapter->mlmepriv, _FW_LINKED) && is_same_network(&(padapter->mlmepriv.cur_network.network), src, 0)) {
++		/* Take the recvpriv's value for the connected AP*/
++		ss_final = padapter->recvpriv.signal_strength;
++		sq_final = padapter->recvpriv.signal_qual;
++		/* the rssi value here is undecorated, and will be used for antenna diversity */
++		if (sq_smp != 101) /* from the right channel */
++			rssi_final = (src->Rssi + dst->Rssi * 4) / 5;
++		else
++			rssi_final = rssi_ori;
++	} else {
++		if (sq_smp != 101) { /* from the right channel */
++			ss_final = ((u32)(src->PhyInfo.SignalStrength) + (u32)(dst->PhyInfo.SignalStrength) * 4) / 5;
++			sq_final = ((u32)(src->PhyInfo.SignalQuality) + (u32)(dst->PhyInfo.SignalQuality) * 4) / 5;
++			rssi_final = (src->Rssi + dst->Rssi * 4) / 5;
++		} else {
++			/* bss info not receving from the right channel, use the original RX signal infos */
++			ss_final = dst->PhyInfo.SignalStrength;
++			sq_final = dst->PhyInfo.SignalQuality;
++			rssi_final = dst->Rssi;
++		}
++
++	}
++
++	if (update_ie) {
++		dst->Reserved[0] = src->Reserved[0];
++		dst->Reserved[1] = src->Reserved[1];
++		_rtw_memcpy((u8 *)dst, (u8 *)src, get_WLAN_BSSID_EX_sz(src));
++	}
++
++	dst->PhyInfo.SignalStrength = ss_final;
++	dst->PhyInfo.SignalQuality = sq_final;
++	dst->Rssi = rssi_final;
++
++#if defined(DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED) && 1
++	if (strcmp(dst->Ssid.Ssid, DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED) == 0) {
++		RTW_INFO(FUNC_ADPT_FMT" %s("MAC_FMT"), SignalStrength:%u, SignalQuality:%u, RawRSSI:%ld\n"
++			 , FUNC_ADPT_ARG(padapter)
++			, dst->Ssid.Ssid, MAC_ARG(dst->MacAddress), dst->PhyInfo.SignalStrength, dst->PhyInfo.SignalQuality, dst->Rssi);
++	}
++#endif
++
++#if 0 /* old codes, may be useful one day...
++ * 	RTW_INFO("update_network: rssi=0x%lx dst->Rssi=%d ,dst->Rssi=0x%lx , src->Rssi=0x%lx",(dst->Rssi+src->Rssi)/2,dst->Rssi,dst->Rssi,src->Rssi); */
++	if (check_fwstate(&padapter->mlmepriv, _FW_LINKED) && is_same_network(&(padapter->mlmepriv.cur_network.network), src)) {
++
++		/* RTW_INFO("b:ssid=%s update_network: src->rssi=0x%d padapter->recvpriv.ui_rssi=%d\n",src->Ssid.Ssid,src->Rssi,padapter->recvpriv.signal); */
++		if (padapter->recvpriv.signal_qual_data.total_num++ >= PHY_LINKQUALITY_SLID_WIN_MAX) {
++			padapter->recvpriv.signal_qual_data.total_num = PHY_LINKQUALITY_SLID_WIN_MAX;
++			last_evm = padapter->recvpriv.signal_qual_data.elements[padapter->recvpriv.signal_qual_data.index];
++			padapter->recvpriv.signal_qual_data.total_val -= last_evm;
++		}
++		padapter->recvpriv.signal_qual_data.total_val += query_rx_pwr_percentage(src->Rssi);
++
++		padapter->recvpriv.signal_qual_data.elements[padapter->recvpriv.signal_qual_data.index++] = query_rx_pwr_percentage(src->Rssi);
++		if (padapter->recvpriv.signal_qual_data.index >= PHY_LINKQUALITY_SLID_WIN_MAX)
++			padapter->recvpriv.signal_qual_data.index = 0;
++
++		/* RTW_INFO("Total SQ=%d  pattrib->signal_qual= %d\n", padapter->recvpriv.signal_qual_data.total_val, src->Rssi); */
++
++		/* <1> Showed on UI for user,in percentage. */
++		tmpVal = padapter->recvpriv.signal_qual_data.total_val / padapter->recvpriv.signal_qual_data.total_num;
++		padapter->recvpriv.signal = (u8)tmpVal; /* Link quality */
++
++		src->Rssi = translate_percentage_to_dbm(padapter->recvpriv.signal) ;
++	} else {
++		/*	RTW_INFO("ELSE:ssid=%s update_network: src->rssi=0x%d dst->rssi=%d\n",src->Ssid.Ssid,src->Rssi,dst->Rssi); */
++		src->Rssi = (src->Rssi + dst->Rssi) / 2; /* dBM */
++	}
++
++	/*	RTW_INFO("a:update_network: src->rssi=0x%d padapter->recvpriv.ui_rssi=%d\n",src->Rssi,padapter->recvpriv.signal); */
++
++#endif
++
++}
++
++static void update_current_network(_adapter *adapter, WLAN_BSSID_EX *pnetwork)
++{
++	struct	mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++
++
++	rtw_bug_check(&(pmlmepriv->cur_network.network),
++		      &(pmlmepriv->cur_network.network),
++		      &(pmlmepriv->cur_network.network),
++		      &(pmlmepriv->cur_network.network));
++
++	if ((check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) && (is_same_network(&(pmlmepriv->cur_network.network), pnetwork, 0))) {
++
++		/* if(pmlmepriv->cur_network.network.IELength<= pnetwork->IELength) */
++		{
++			update_network(&(pmlmepriv->cur_network.network), pnetwork, adapter, _TRUE);
++			rtw_update_protection(adapter, (pmlmepriv->cur_network.network.IEs) + sizeof(NDIS_802_11_FIXED_IEs),
++				      pmlmepriv->cur_network.network.IELength);
++		}
++	}
++
++
++}
++
++
++/*
++
++Caller must hold pmlmepriv->lock first.
++
++
++*/
++void rtw_update_scanned_network(_adapter *adapter, WLAN_BSSID_EX *target)
++{
++	_irqL irqL;
++	_list	*plist, *phead;
++	ULONG	bssid_ex_sz;
++	struct mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(adapter->mlmeextpriv);
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(adapter->wdinfo);
++#endif /* CONFIG_P2P */
++	_queue	*queue	= &(pmlmepriv->scanned_queue);
++	struct wlan_network	*pnetwork = NULL;
++	struct wlan_network	*oldest = NULL;
++	int target_find = 0;
++	u8 feature = 0;
++
++
++	_enter_critical_bh(&queue->lock, &irqL);
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++#ifdef CONFIG_P2P
++	if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		feature = 1; /* p2p enable */
++#endif
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		rtw_bug_check(pnetwork, pnetwork, pnetwork, pnetwork);
++
++#ifdef CONFIG_P2P
++		if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE) &&
++		    (_rtw_memcmp(pnetwork->network.MacAddress, target->MacAddress, ETH_ALEN) == _TRUE)) {
++			target_find = 1;
++			break;
++		}
++#endif
++
++		if (is_same_network(&(pnetwork->network), target, feature)) {
++			target_find = 1;
++			break;
++		}
++
++		if (rtw_roam_flags(adapter)) {
++			/* TODO: don't  select netowrk in the same ess as oldest if it's new enough*/
++		}
++
++		if (oldest == NULL || time_after(oldest->last_scanned, pnetwork->last_scanned))
++			oldest = pnetwork;
++
++		plist = get_next(plist);
++
++	}
++
++
++	/* If we didn't find a match, then get a new network slot to initialize
++	 * with this beacon's information */
++	/* if (rtw_end_of_queue_search(phead,plist)== _TRUE) { */
++	if (!target_find) {
++		if (_rtw_queue_empty(&(pmlmepriv->free_bss_pool)) == _TRUE) {
++			/* If there are no more slots, expire the oldest */
++			/* list_del_init(&oldest->list); */
++			pnetwork = oldest;
++			if (pnetwork == NULL) {
++				goto exit;
++			}
++#ifdef CONFIG_ANTENNA_DIVERSITY
++			rtw_hal_get_odm_var(adapter, HAL_ODM_ANTDIV_SELECT, &(target->PhyInfo.Optimum_antenna), NULL);
++#endif
++			_rtw_memcpy(&(pnetwork->network), target,  get_WLAN_BSSID_EX_sz(target));
++			/* pnetwork->last_scanned = rtw_get_current_time(); */
++			/* variable initialize */
++			pnetwork->fixed = _FALSE;
++			pnetwork->last_scanned = rtw_get_current_time();
++
++			pnetwork->network_type = 0;
++			pnetwork->aid = 0;
++			pnetwork->join_res = 0;
++
++			/* bss info not receving from the right channel */
++			if (pnetwork->network.PhyInfo.SignalQuality == 101)
++				pnetwork->network.PhyInfo.SignalQuality = 0;
++		} else {
++			/* Otherwise just pull from the free list */
++
++			pnetwork = rtw_alloc_network(pmlmepriv); /* will update scan_time */
++
++			if (pnetwork == NULL) {
++				goto exit;
++			}
++
++			bssid_ex_sz = get_WLAN_BSSID_EX_sz(target);
++			target->Length = bssid_ex_sz;
++#ifdef CONFIG_ANTENNA_DIVERSITY
++			rtw_hal_get_odm_var(adapter, HAL_ODM_ANTDIV_SELECT, &(target->PhyInfo.Optimum_antenna), NULL);
++#endif
++			_rtw_memcpy(&(pnetwork->network), target, bssid_ex_sz);
++
++			pnetwork->last_scanned = rtw_get_current_time();
++
++			/* bss info not receving from the right channel */
++			if (pnetwork->network.PhyInfo.SignalQuality == 101)
++				pnetwork->network.PhyInfo.SignalQuality = 0;
++
++			rtw_list_insert_tail(&(pnetwork->list), &(queue->queue));
++
++		}
++	} else {
++		/* we have an entry and we are going to update it. But this entry may
++		 * be already expired. In this case we do the same as we found a new
++		 * net and call the new_net handler
++		 */
++		bool update_ie = _TRUE;
++
++		pnetwork->last_scanned = rtw_get_current_time();
++
++		/* target.Reserved[0]==1, means that scaned network is a bcn frame. */
++		if ((pnetwork->network.IELength > target->IELength) && (target->Reserved[0] == 1))
++			update_ie = _FALSE;
++
++		/* probe resp(3) > beacon(1) > probe req(2) */
++		if ((target->Reserved[0] != 2) &&
++		    (target->Reserved[0] >= pnetwork->network.Reserved[0])
++		   )
++			update_ie = _TRUE;
++		else
++			update_ie = _FALSE;
++
++		update_network(&(pnetwork->network), target, adapter, update_ie);
++	}
++
++exit:
++	_exit_critical_bh(&queue->lock, &irqL);
++
++}
++
++void rtw_add_network(_adapter *adapter, WLAN_BSSID_EX *pnetwork);
++void rtw_add_network(_adapter *adapter, WLAN_BSSID_EX *pnetwork)
++{
++	_irqL irqL;
++	struct	mlme_priv	*pmlmepriv = &(((_adapter *)adapter)->mlmepriv);
++	/* _queue	*queue	= &(pmlmepriv->scanned_queue); */
++
++
++	/* _enter_critical_bh(&queue->lock, &irqL); */
++
++#if defined(CONFIG_P2P) && defined(CONFIG_P2P_REMOVE_GROUP_INFO)
++	if (adapter->registrypriv.wifi_spec == 0)
++		rtw_bss_ex_del_p2p_attr(pnetwork, P2P_ATTR_GROUP_INFO);
++#endif
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		rtw_bss_ex_del_wfd_ie(pnetwork);
++
++	update_current_network(adapter, pnetwork);
++
++	rtw_update_scanned_network(adapter, pnetwork);
++
++	/* _exit_critical_bh(&queue->lock, &irqL); */
++
++}
++
++/* select the desired network based on the capability of the (i)bss.
++ * check items: (1) security
++ *			   (2) network_type
++ *			   (3) WMM
++ *			   (4) HT
++ * (5) others */
++int rtw_is_desired_network(_adapter *adapter, struct wlan_network *pnetwork);
++int rtw_is_desired_network(_adapter *adapter, struct wlan_network *pnetwork)
++{
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	u32 desired_encmode;
++	u32 privacy;
++
++	/* u8 wps_ie[512]; */
++	uint wps_ielen;
++
++	int bselected = _TRUE;
++
++	desired_encmode = psecuritypriv->ndisencryptstatus;
++	privacy = pnetwork->network.Privacy;
++
++	if (check_fwstate(pmlmepriv, WIFI_UNDER_WPS)) {
++		if (rtw_get_wps_ie(pnetwork->network.IEs + _FIXED_IE_LENGTH_, pnetwork->network.IELength - _FIXED_IE_LENGTH_, NULL, &wps_ielen) != NULL)
++			return _TRUE;
++		else
++			return _FALSE;
++	}
++	if (adapter->registrypriv.wifi_spec == 1) { /* for  correct flow of 8021X  to do.... */
++		u8 *p = NULL;
++		uint ie_len = 0;
++
++		if ((desired_encmode == Ndis802_11EncryptionDisabled) && (privacy != 0))
++			bselected = _FALSE;
++
++		if (psecuritypriv->ndisauthtype == Ndis802_11AuthModeWPA2PSK) {
++			p = rtw_get_ie(pnetwork->network.IEs + _BEACON_IE_OFFSET_, _RSN_IE_2_, &ie_len, (pnetwork->network.IELength - _BEACON_IE_OFFSET_));
++			if (p && ie_len > 0)
++				bselected = _TRUE;
++			else
++				bselected = _FALSE;
++		}
++	}
++
++
++	if ((desired_encmode != Ndis802_11EncryptionDisabled) && (privacy == 0)) {
++		RTW_INFO("desired_encmode: %d, privacy: %d\n", desired_encmode, privacy);
++		bselected = _FALSE;
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) {
++		if (pnetwork->network.InfrastructureMode != pmlmepriv->cur_network.network.InfrastructureMode)
++			bselected = _FALSE;
++	}
++
++
++	return bselected;
++}
++
++/* TODO: Perry : For Power Management */
++void rtw_atimdone_event_callback(_adapter	*adapter , u8 *pbuf)
++{
++
++	return;
++}
++
++
++void rtw_survey_event_callback(_adapter	*adapter, u8 *pbuf)
++{
++	_irqL  irqL;
++	u32 len;
++	WLAN_BSSID_EX *pnetwork;
++	struct	mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++
++
++	pnetwork = (WLAN_BSSID_EX *)pbuf;
++
++
++#ifdef CONFIG_RTL8712
++	/* endian_convert */
++	pnetwork->Length = le32_to_cpu(pnetwork->Length);
++	pnetwork->Ssid.SsidLength = le32_to_cpu(pnetwork->Ssid.SsidLength);
++	pnetwork->Privacy = le32_to_cpu(pnetwork->Privacy);
++	pnetwork->Rssi = le32_to_cpu(pnetwork->Rssi);
++	pnetwork->NetworkTypeInUse = le32_to_cpu(pnetwork->NetworkTypeInUse);
++	pnetwork->Configuration.ATIMWindow = le32_to_cpu(pnetwork->Configuration.ATIMWindow);
++	pnetwork->Configuration.BeaconPeriod = le32_to_cpu(pnetwork->Configuration.BeaconPeriod);
++	pnetwork->Configuration.DSConfig = le32_to_cpu(pnetwork->Configuration.DSConfig);
++	pnetwork->Configuration.FHConfig.DwellTime = le32_to_cpu(pnetwork->Configuration.FHConfig.DwellTime);
++	pnetwork->Configuration.FHConfig.HopPattern = le32_to_cpu(pnetwork->Configuration.FHConfig.HopPattern);
++	pnetwork->Configuration.FHConfig.HopSet = le32_to_cpu(pnetwork->Configuration.FHConfig.HopSet);
++	pnetwork->Configuration.FHConfig.Length = le32_to_cpu(pnetwork->Configuration.FHConfig.Length);
++	pnetwork->Configuration.Length = le32_to_cpu(pnetwork->Configuration.Length);
++	pnetwork->InfrastructureMode = le32_to_cpu(pnetwork->InfrastructureMode);
++	pnetwork->IELength = le32_to_cpu(pnetwork->IELength);
++#endif
++
++	len = get_WLAN_BSSID_EX_sz(pnetwork);
++	if (len > (sizeof(WLAN_BSSID_EX))) {
++		return;
++	}
++
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	/* update IBSS_network 's timestamp */
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE)) == _TRUE) {
++		if (_rtw_memcmp(&(pmlmepriv->cur_network.network.MacAddress), pnetwork->MacAddress, ETH_ALEN)) {
++			struct wlan_network *ibss_wlan = NULL;
++			_irqL	irqL;
++
++			_rtw_memcpy(pmlmepriv->cur_network.network.IEs, pnetwork->IEs, 8);
++			_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			ibss_wlan = rtw_find_network(&pmlmepriv->scanned_queue,  pnetwork->MacAddress);
++			if (ibss_wlan) {
++				_rtw_memcpy(ibss_wlan->network.IEs , pnetwork->IEs, 8);
++				_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++				goto exit;
++			}
++			_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		}
++	}
++
++	/* lock pmlmepriv->lock when you accessing network_q */
++	if ((check_fwstate(pmlmepriv, _FW_UNDER_LINKING)) == _FALSE) {
++		if (pnetwork->Ssid.Ssid[0] == 0)
++			pnetwork->Ssid.SsidLength = 0;
++		rtw_add_network(adapter, pnetwork);
++	}
++
++exit:
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++	return;
++}
++
++void rtw_surveydone_event_callback(_adapter	*adapter, u8 *pbuf)
++{
++	_irqL  irqL;
++	u8 timer_cancelled;
++	struct	mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++
++#ifdef CONFIG_MLME_EXT
++	mlmeext_surveydone_event_callback(adapter);
++#endif
++
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	if (pmlmepriv->wps_probe_req_ie) {
++		u32 free_len = pmlmepriv->wps_probe_req_ie_len;
++		pmlmepriv->wps_probe_req_ie_len = 0;
++		rtw_mfree(pmlmepriv->wps_probe_req_ie, free_len);
++		pmlmepriv->wps_probe_req_ie = NULL;
++	}
++
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _FALSE) {
++		RTW_INFO(FUNC_ADPT_FMT" fw_state:0x%x\n", FUNC_ADPT_ARG(adapter), get_fwstate(pmlmepriv));
++		/* rtw_warn_on(1); */
++	}
++
++	_clr_fwstate_(pmlmepriv, _FW_UNDER_SURVEY);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++	_cancel_timer(&pmlmepriv->scan_to_timer, &timer_cancelled);
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	rtw_set_signal_stat_timer(&adapter->recvpriv);
++#endif
++
++	if (pmlmepriv->to_join == _TRUE) {
++		if ((check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE)) {
++			if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				set_fwstate(pmlmepriv, _FW_UNDER_LINKING);
++
++				if (rtw_select_and_join_from_scanned_queue(pmlmepriv) == _SUCCESS)
++					_set_timer(&pmlmepriv->assoc_timer, MAX_JOIN_TIMEOUT);
++				else {
++					WLAN_BSSID_EX    *pdev_network = &(adapter->registrypriv.dev_network);
++					u8 *pibss = adapter->registrypriv.dev_network.MacAddress;
++
++					/* pmlmepriv->fw_state ^= _FW_UNDER_SURVEY; */ /* because don't set assoc_timer */
++					_clr_fwstate_(pmlmepriv, _FW_UNDER_SURVEY);
++
++
++					_rtw_memset(&pdev_network->Ssid, 0, sizeof(NDIS_802_11_SSID));
++					_rtw_memcpy(&pdev_network->Ssid, &pmlmepriv->assoc_ssid, sizeof(NDIS_802_11_SSID));
++
++					rtw_update_registrypriv_dev_network(adapter);
++					rtw_generate_random_ibss(pibss);
++
++					/*pmlmepriv->fw_state = WIFI_ADHOC_MASTER_STATE;*/
++					init_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++
++					if (rtw_create_ibss_cmd(adapter, 0) != _SUCCESS)
++						RTW_ERR("rtw_create_ibss_cmd FAIL\n");
++
++					pmlmepriv->to_join = _FALSE;
++				}
++			}
++		} else {
++			int s_ret;
++			set_fwstate(pmlmepriv, _FW_UNDER_LINKING);
++			pmlmepriv->to_join = _FALSE;
++			s_ret = rtw_select_and_join_from_scanned_queue(pmlmepriv);
++			if (_SUCCESS == s_ret)
++				_set_timer(&pmlmepriv->assoc_timer, MAX_JOIN_TIMEOUT);
++			else if (s_ret == 2) { /* there is no need to wait for join */
++				_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++				rtw_indicate_connect(adapter);
++			} else {
++				RTW_INFO("try_to_join, but select scanning queue fail, to_roam:%d\n", rtw_to_roam(adapter));
++
++				if (rtw_to_roam(adapter) != 0) {
++					if (rtw_dec_to_roam(adapter) == 0
++					    || _SUCCESS != rtw_sitesurvey_cmd(adapter, &pmlmepriv->assoc_ssid, 1, NULL, 0)
++					   ) {
++						rtw_set_to_roam(adapter, 0);
++#ifdef CONFIG_INTEL_WIDI
++						if (adapter->mlmepriv.widi_state == INTEL_WIDI_STATE_ROAMING) {
++							_rtw_memset(pmlmepriv->sa_ext, 0x00, L2SDTA_SERVICE_VE_LEN);
++							intel_widi_wk_cmd(adapter, INTEL_WIDI_LISTEN_WK, NULL, 0);
++							RTW_INFO("change to widi listen\n");
++						}
++#endif /* CONFIG_INTEL_WIDI */
++						rtw_free_assoc_resources(adapter, 1);
++						rtw_indicate_disconnect(adapter, 0, _FALSE);
++					} else
++						pmlmepriv->to_join = _TRUE;
++				} else
++					rtw_indicate_disconnect(adapter, 0, _FALSE);
++				_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++			}
++		}
++	} else {
++		if (rtw_chk_roam_flags(adapter, RTW_ROAM_ACTIVE)) {
++			if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)
++			    && check_fwstate(pmlmepriv, _FW_LINKED)) {
++				if (rtw_select_roaming_candidate(pmlmepriv) == _SUCCESS) {
++					receive_disconnect(adapter, pmlmepriv->cur_network.network.MacAddress
++						, WLAN_REASON_ACTIVE_ROAM, _FALSE);
++				}
++			}
++		}
++	}
++
++	/* RTW_INFO("scan complete in %dms\n",rtw_get_passing_time_ms(pmlmepriv->scan_start_time)); */
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++#ifdef CONFIG_P2P_PS
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		p2p_ps_wk_cmd(adapter, P2P_PS_SCAN_DONE, 0);
++#endif /* CONFIG_P2P_PS */
++
++	rtw_mi_os_xmit_schedule(adapter);
++
++#ifdef CONFIG_DRVEXT_MODULE_WSC
++	drvext_surveydone_callback(&adapter->drvextpriv);
++#endif
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	{
++		struct mlme_ext_priv *pmlmeext = &adapter->mlmeextpriv;
++		if (pmlmeext->sitesurvey_res.bss_cnt == 0) {
++			/* rtw_hal_sreset_reset(adapter); */
++		}
++	}
++#endif
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_cfg80211_surveydone_event_callback(adapter);
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	rtw_indicate_scan_done(adapter, _FALSE);
++#ifdef CONFIG_CONCURRENT_MODE
++	rtw_mi_buddy_indicate_scan_done(adapter, _FALSE);/*scanning_via_buddy_intf*/
++#endif
++
++}
++
++void rtw_dummy_event_callback(_adapter *adapter , u8 *pbuf)
++{
++
++}
++
++void rtw_fwdbg_event_callback(_adapter *adapter , u8 *pbuf)
++{
++
++}
++
++static void free_scanqueue(struct	mlme_priv *pmlmepriv)
++{
++	_irqL irqL, irqL0;
++	_queue *free_queue = &pmlmepriv->free_bss_pool;
++	_queue *scan_queue = &pmlmepriv->scanned_queue;
++	_list	*plist, *phead, *ptemp;
++
++
++	_enter_critical_bh(&scan_queue->lock, &irqL0);
++	_enter_critical_bh(&free_queue->lock, &irqL);
++
++	phead = get_list_head(scan_queue);
++	plist = get_next(phead);
++
++	while (plist != phead) {
++		ptemp = get_next(plist);
++		rtw_list_delete(plist);
++		rtw_list_insert_tail(plist, &free_queue->queue);
++		plist = ptemp;
++		pmlmepriv->num_of_scanned--;
++	}
++
++	_exit_critical_bh(&free_queue->lock, &irqL);
++	_exit_critical_bh(&scan_queue->lock, &irqL0);
++
++}
++
++void rtw_reset_rx_info(struct debug_priv *pdbgpriv)
++{
++	pdbgpriv->dbg_rx_ampdu_drop_count = 0;
++	pdbgpriv->dbg_rx_ampdu_forced_indicate_count = 0;
++	pdbgpriv->dbg_rx_ampdu_loss_count = 0;
++	pdbgpriv->dbg_rx_dup_mgt_frame_drop_count = 0;
++	pdbgpriv->dbg_rx_ampdu_window_shift_cnt = 0;
++}
++
++/*
++*rtw_free_assoc_resources: the caller has to lock pmlmepriv->lock
++*/
++void rtw_free_assoc_resources(_adapter *adapter, int lock_scanned_queue)
++{
++	_irqL irqL;
++	struct wlan_network *pwlan = NULL;
++	struct	mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct	sta_priv *pstapriv = &adapter->stapriv;
++	struct wlan_network *tgt_network = &pmlmepriv->cur_network;
++	struct dvobj_priv *psdpriv = adapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++
++
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &adapter->tdlsinfo;
++#endif /* CONFIG_TDLS */
++
++
++	RTW_INFO("%s-"ADPT_FMT" tgt_network MacAddress=" MAC_FMT"ssid=%s\n",
++		__func__, ADPT_ARG(adapter), MAC_ARG(tgt_network->network.MacAddress), tgt_network->network.Ssid.Ssid);
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++		struct sta_info *psta;
++
++		psta = rtw_get_stainfo(&adapter->stapriv, tgt_network->network.MacAddress);
++
++#ifdef CONFIG_TDLS
++		if (ptdlsinfo->link_established == _TRUE) {
++			rtw_tdls_cmd(adapter, NULL, TDLS_RS_RCR);
++			rtw_reset_tdls_info(adapter);
++			rtw_free_all_stainfo(adapter);
++			/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL); */
++		} else
++#endif /* CONFIG_TDLS */
++		{
++			/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL); */
++			rtw_free_stainfo(adapter,  psta);
++		}
++
++		/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL); */
++
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE | WIFI_ADHOC_MASTER_STATE)) {
++		struct sta_info *psta;
++
++		rtw_free_all_stainfo(adapter);
++
++		psta = rtw_get_bcmc_stainfo(adapter);
++		/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		 */
++		rtw_free_stainfo(adapter, psta);
++		/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		 */
++
++		rtw_init_bcmc_stainfo(adapter);
++	}
++
++	if (lock_scanned_queue)
++		_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	pwlan = _rtw_find_same_network(&pmlmepriv->scanned_queue, tgt_network);
++	if ((pwlan)  && (!check_fwstate(pmlmepriv, WIFI_UNDER_WPS))) {
++		pwlan->fixed = _FALSE;
++
++		RTW_INFO("free disconnecting network of scanned_queue\n");
++		rtw_free_network_nolock(adapter, pwlan);
++#ifdef CONFIG_P2P
++		if (!rtw_p2p_chk_state(&adapter->wdinfo, P2P_STATE_NONE)) {
++			rtw_mi_set_scan_deny(adapter, 2000);
++			/* rtw_clear_scan_deny(adapter);			 */
++		}
++#endif /* CONFIG_P2P */
++	} else {
++		if (pwlan == NULL)
++			RTW_INFO("free disconnecting network of scanned_queue failed due to pwlan== NULL\n\n");
++		if (check_fwstate(pmlmepriv, WIFI_UNDER_WPS))
++			RTW_INFO("donot free disconnecting network of scanned_queue when WIFI_UNDER_WPS\n\n");
++	}
++
++
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) && (adapter->stapriv.asoc_sta_count == 1))
++	    /*||check_fwstate(pmlmepriv, WIFI_STATION_STATE)*/) {
++		if (pwlan)
++			rtw_free_network_nolock(adapter, pwlan);
++	}
++
++	if (lock_scanned_queue)
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	adapter->securitypriv.key_mask = 0;
++
++	rtw_reset_rx_info(pdbgpriv);
++
++
++}
++
++/*
++*rtw_indicate_connect: the caller has to lock pmlmepriv->lock
++*/
++void rtw_indicate_connect(_adapter *padapter)
++{
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++
++
++
++	pmlmepriv->to_join = _FALSE;
++
++	if (!check_fwstate(&padapter->mlmepriv, _FW_LINKED)) {
++
++		set_fwstate(pmlmepriv, _FW_LINKED);
++
++		rtw_led_control(padapter, LED_CTL_LINK);
++
++
++#ifdef CONFIG_DRVEXT_MODULE
++		if (padapter->drvextpriv.enable_wpa)
++			indicate_l2_connect(padapter);
++		else
++#endif
++		{
++			rtw_os_indicate_connect(padapter);
++		}
++
++	}
++
++	rtw_set_to_roam(padapter, 0);
++#ifdef CONFIG_INTEL_WIDI
++	if (padapter->mlmepriv.widi_state == INTEL_WIDI_STATE_ROAMING) {
++		_rtw_memset(pmlmepriv->sa_ext, 0x00, L2SDTA_SERVICE_VE_LEN);
++		intel_widi_wk_cmd(padapter, INTEL_WIDI_LISTEN_WK, NULL, 0);
++		RTW_INFO("change to widi listen\n");
++	}
++#endif /* CONFIG_INTEL_WIDI */
++	if (!check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE))
++		rtw_mi_set_scan_deny(padapter, 3000);
++
++
++}
++
++
++/*
++*rtw_indicate_disconnect: the caller has to lock pmlmepriv->lock
++*/
++void rtw_indicate_disconnect(_adapter *padapter, u16 reason, u8 locally_generated)
++{
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX	*cur_network = &(pmlmeinfo->network);
++	struct sta_info *psta;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *wps_ie = NULL;
++	uint wpsie_len = 0;
++
++
++
++	_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING | WIFI_UNDER_WPS);
++
++	/* force to clear cur_network_scanned's SELECTED REGISTRAR */
++	if (pmlmepriv->cur_network_scanned) {
++		WLAN_BSSID_EX	*current_joined_bss = &(pmlmepriv->cur_network_scanned->network);
++		if (current_joined_bss) {
++			wps_ie = rtw_get_wps_ie(current_joined_bss->IEs + _FIXED_IE_LENGTH_,
++				current_joined_bss->IELength - _FIXED_IE_LENGTH_, NULL, &wpsie_len);
++			if (wps_ie && wpsie_len > 0) {
++				u8 *attr = NULL;
++				u32 attr_len;
++				attr = rtw_get_wps_attr(wps_ie, wpsie_len, WPS_ATTR_SELECTED_REGISTRAR,
++							NULL, &attr_len);
++				if (attr)
++					*(attr + 4) = 0;
++			}
++		}
++	}
++	/* RTW_INFO("clear wps when %s\n", __func__); */
++
++	if (rtw_to_roam(padapter) > 0)
++		_clr_fwstate_(pmlmepriv, _FW_LINKED);
++
++#ifdef CONFIG_WAPI_SUPPORT
++	psta = rtw_get_stainfo(pstapriv, cur_network->MacAddress);
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE))
++		rtw_wapi_return_one_sta_info(padapter, psta->hwaddr);
++	else if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) ||
++		 check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE))
++		rtw_wapi_return_all_sta_info(padapter);
++#endif
++
++	if (check_fwstate(&padapter->mlmepriv, _FW_LINKED)
++	    || (rtw_to_roam(padapter) <= 0)
++	   ) {
++
++		rtw_os_indicate_disconnect(padapter, reason, locally_generated);
++
++		/* set ips_deny_time to avoid enter IPS before LPS leave */
++		rtw_set_ips_deny(padapter, 3000);
++
++		_clr_fwstate_(pmlmepriv, _FW_LINKED);
++
++		rtw_led_control(padapter, LED_CTL_NO_LINK);
++
++		rtw_clear_scan_deny(padapter);
++	}
++
++#ifdef CONFIG_P2P_PS
++	p2p_ps_wk_cmd(padapter, P2P_PS_DISABLE, 1);
++#endif /* CONFIG_P2P_PS */
++
++#ifdef CONFIG_LPS
++	rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_DISCONNECT, 1);
++#endif
++
++#ifdef CONFIG_BEAMFORMING
++	beamforming_wk_cmd(padapter, BEAMFORMING_CTRL_LEAVE, cur_network->MacAddress, ETH_ALEN, 1);
++#endif /*CONFIG_BEAMFORMING*/
++
++}
++
++inline void rtw_indicate_scan_done(_adapter *padapter, bool aborted)
++{
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++	rtw_os_indicate_scan_done(padapter, aborted);
++
++#ifdef CONFIG_IPS
++	if (is_primary_adapter(padapter)
++	    && (_FALSE == adapter_to_pwrctl(padapter)->bInSuspend)
++	    && (check_fwstate(&padapter->mlmepriv, WIFI_ASOC_STATE | WIFI_UNDER_LINKING) == _FALSE)) {
++		struct pwrctrl_priv *pwrpriv;
++
++		pwrpriv = adapter_to_pwrctl(padapter);
++		rtw_set_ips_deny(padapter, 0);
++#ifdef CONFIG_IPS_CHECK_IN_WD
++		_set_timer(&adapter_to_dvobj(padapter)->dynamic_chk_timer, 1);
++#else /* !CONFIG_IPS_CHECK_IN_WD */
++		_rtw_set_pwr_state_check_timer(pwrpriv, 1);
++#endif /* !CONFIG_IPS_CHECK_IN_WD */
++	}
++#endif /* CONFIG_IPS */
++}
++
++static u32 _rtw_wait_scan_done(_adapter *adapter, u8 abort, u32 timeout_ms)
++{
++	u32 start;
++	u32 pass_ms;
++	struct mlme_priv *pmlmepriv = &(adapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &(adapter->mlmeextpriv);
++
++	start = rtw_get_current_time();
++
++	pmlmeext->scan_abort = abort;
++
++	while (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY)
++	       && rtw_get_passing_time_ms(start) <= timeout_ms) {
++
++		if (RTW_CANNOT_RUN(adapter))
++			break;
++
++		RTW_INFO(FUNC_NDEV_FMT"fw_state=_FW_UNDER_SURVEY!\n", FUNC_NDEV_ARG(adapter->pnetdev));
++		rtw_msleep_os(20);
++	}
++
++	if (_TRUE == abort) {
++		if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY)) {
++			if (!RTW_CANNOT_RUN(adapter))
++				RTW_INFO(FUNC_NDEV_FMT"waiting for scan_abort time out!\n", FUNC_NDEV_ARG(adapter->pnetdev));
++#ifdef CONFIG_PLATFORM_MSTAR
++			/*_clr_fwstate_(pmlmepriv, _FW_UNDER_SURVEY);*/
++			set_survey_timer(pmlmeext, 0);
++			mlme_set_scan_to_timer(pmlmepriv, 50);
++#endif
++			rtw_indicate_scan_done(adapter, _TRUE);
++		}
++	}
++
++	pmlmeext->scan_abort = _FALSE;
++	pass_ms = rtw_get_passing_time_ms(start);
++
++	return pass_ms;
++
++}
++
++void rtw_scan_wait_completed(_adapter *adapter)
++{
++	u32 scan_to = SCANNING_TIMEOUT;
++
++#ifdef CONFIG_SCAN_BACKOP
++	if (IsSupported5G(adapter->registrypriv.wireless_mode)
++	    && IsSupported24G(adapter->registrypriv.wireless_mode)) /*dual band*/
++		scan_to = CONC_SCANNING_TIMEOUT_DUAL_BAND;
++	else /*single band*/
++		scan_to = CONC_SCANNING_TIMEOUT_SINGLE_BAND;
++#endif /* CONFIG_SCAN_BACKOP */
++
++	_rtw_wait_scan_done(adapter, _FALSE, scan_to);
++}
++
++u32 rtw_scan_abort_timeout(_adapter *adapter, u32 timeout_ms)
++{
++	return _rtw_wait_scan_done(adapter, _TRUE, timeout_ms);
++}
++
++void rtw_scan_abort_no_wait(_adapter *adapter)
++{
++	struct mlme_priv *pmlmepriv = &(adapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &(adapter->mlmeextpriv);
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY))
++		pmlmeext->scan_abort = _TRUE;
++}
++
++void rtw_scan_abort(_adapter *adapter)
++{
++	rtw_scan_abort_timeout(adapter, 200);
++}
++
++static struct sta_info *rtw_joinbss_update_stainfo(_adapter *padapter, struct wlan_network *pnetwork)
++{
++	int i;
++	struct sta_info *bmc_sta, *psta = NULL;
++	struct recv_reorder_ctrl *preorder_ctrl;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	psta = rtw_get_stainfo(pstapriv, pnetwork->network.MacAddress);
++	if (psta == NULL)
++		psta = rtw_alloc_stainfo(pstapriv, pnetwork->network.MacAddress);
++
++	if (psta) { /* update ptarget_sta */
++		RTW_INFO("%s\n", __FUNCTION__);
++
++		psta->aid  = pnetwork->join_res;
++
++#if 0 /* alloc macid when call rtw_alloc_stainfo(), and release macid when call rtw_free_stainfo() */
++#ifdef CONFIG_CONCURRENT_MODE
++
++		if (PRIMARY_ADAPTER == padapter->adapter_type)
++			psta->mac_id = 0;
++		else
++			psta->mac_id = 2;
++#else
++		psta->mac_id = 0;
++#endif
++#endif /* removed */
++
++		update_sta_info(padapter, psta);
++
++		/* update station supportRate */
++		psta->bssratelen = rtw_get_rateset_len(pnetwork->network.SupportedRates);
++		_rtw_memcpy(psta->bssrateset, pnetwork->network.SupportedRates, psta->bssratelen);
++		rtw_hal_update_sta_rate_mask(padapter, psta);
++
++		psta->wireless_mode = pmlmeext->cur_wireless_mode;
++		psta->raid = rtw_hal_networktype_to_raid(padapter, psta);
++
++
++		/* sta mode */
++		rtw_hal_set_odm_var(padapter, HAL_ODM_STA_INFO, psta, _TRUE);
++
++		/* security related */
++		if (padapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X) {
++			padapter->securitypriv.binstallGrpkey = _FALSE;
++			padapter->securitypriv.busetkipkey = _FALSE;
++			padapter->securitypriv.bgrpkey_handshake = _FALSE;
++
++			psta->ieee8021x_blocked = _TRUE;
++			psta->dot118021XPrivacy = padapter->securitypriv.dot11PrivacyAlgrthm;
++
++			_rtw_memset((u8 *)&psta->dot118021x_UncstKey, 0, sizeof(union Keytype));
++
++			_rtw_memset((u8 *)&psta->dot11tkiprxmickey, 0, sizeof(union Keytype));
++			_rtw_memset((u8 *)&psta->dot11tkiptxmickey, 0, sizeof(union Keytype));
++
++			_rtw_memset((u8 *)&psta->dot11txpn, 0, sizeof(union pn48));
++			psta->dot11txpn.val = psta->dot11txpn.val + 1;
++#ifdef CONFIG_IEEE80211W
++			_rtw_memset((u8 *)&psta->dot11wtxpn, 0, sizeof(union pn48));
++#endif /* CONFIG_IEEE80211W */
++			_rtw_memset((u8 *)&psta->dot11rxpn, 0, sizeof(union pn48));
++		}
++
++		/*	Commented by Albert 2012/07/21 */
++		/*	When doing the WPS, the wps_ie_len won't equal to 0 */
++		/*	And the Wi-Fi driver shouldn't allow the data packet to be tramsmitted. */
++		if (padapter->securitypriv.wps_ie_len != 0) {
++			psta->ieee8021x_blocked = _TRUE;
++			padapter->securitypriv.wps_ie_len = 0;
++		}
++
++
++		/* for A-MPDU Rx reordering buffer control for bmc_sta & sta_info */
++		/* if A-MPDU Rx is enabled, reseting  rx_ordering_ctrl wstart_b(indicate_seq) to default value=0xffff */
++		/* todo: check if AP can send A-MPDU packets */
++		for (i = 0; i < 16 ; i++) {
++			/* preorder_ctrl = &precvpriv->recvreorder_ctrl[i]; */
++			preorder_ctrl = &psta->recvreorder_ctrl[i];
++			preorder_ctrl->enable = _FALSE;
++			preorder_ctrl->indicate_seq = 0xffff;
++#ifdef DBG_RX_SEQ
++			RTW_INFO("DBG_RX_SEQ %s:%d indicate_seq:%u\n", __FUNCTION__, __LINE__,
++				 preorder_ctrl->indicate_seq);
++#endif
++			preorder_ctrl->wend_b = 0xffff;
++			preorder_ctrl->wsize_b = 64;/* max_ampdu_sz; */ /* ex. 32(kbytes) -> wsize_b=32 */
++			preorder_ctrl->ampdu_size = RX_AMPDU_SIZE_INVALID;
++		}
++
++
++		bmc_sta = rtw_get_bcmc_stainfo(padapter);
++		if (bmc_sta) {
++			for (i = 0; i < 16 ; i++) {
++				/* preorder_ctrl = &precvpriv->recvreorder_ctrl[i]; */
++				preorder_ctrl = &bmc_sta->recvreorder_ctrl[i];
++				preorder_ctrl->enable = _FALSE;
++				preorder_ctrl->indicate_seq = 0xffff;
++#ifdef DBG_RX_SEQ
++				RTW_INFO("DBG_RX_SEQ %s:%d indicate_seq:%u\n", __FUNCTION__, __LINE__,
++					 preorder_ctrl->indicate_seq);
++#endif
++				preorder_ctrl->wend_b = 0xffff;
++				preorder_ctrl->wsize_b = 64;/* max_ampdu_sz; */ /* ex. 32(kbytes) -> wsize_b=32 */
++				preorder_ctrl->ampdu_size = RX_AMPDU_SIZE_INVALID;
++			}
++		}
++	}
++
++	return psta;
++
++}
++
++/* pnetwork : returns from rtw_joinbss_event_callback
++ * ptarget_wlan: found from scanned_queue */
++static void rtw_joinbss_update_network(_adapter *padapter, struct wlan_network *ptarget_wlan, struct wlan_network  *pnetwork)
++{
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct wlan_network  *cur_network = &(pmlmepriv->cur_network);
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++
++
++	/* why not use ptarget_wlan?? */
++	_rtw_memcpy(&cur_network->network, &pnetwork->network, pnetwork->network.Length);
++	/* some IEs in pnetwork is wrong, so we should use ptarget_wlan IEs */
++	cur_network->network.IELength = ptarget_wlan->network.IELength;
++	_rtw_memcpy(&cur_network->network.IEs[0], &ptarget_wlan->network.IEs[0], MAX_IE_SZ);
++
++	cur_network->aid = pnetwork->join_res;
++
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	rtw_set_signal_stat_timer(&padapter->recvpriv);
++#endif
++	padapter->recvpriv.signal_strength = ptarget_wlan->network.PhyInfo.SignalStrength;
++	padapter->recvpriv.signal_qual = ptarget_wlan->network.PhyInfo.SignalQuality;
++	/* the ptarget_wlan->network.Rssi is raw data, we use ptarget_wlan->network.PhyInfo.SignalStrength instead (has scaled) */
++	padapter->recvpriv.rssi = translate_percentage_to_dbm(ptarget_wlan->network.PhyInfo.SignalStrength);
++#if defined(DBG_RX_SIGNAL_DISPLAY_PROCESSING) && 1
++	RTW_INFO(FUNC_ADPT_FMT" signal_strength:%3u, rssi:%3d, signal_qual:%3u"
++		 "\n"
++		 , FUNC_ADPT_ARG(padapter)
++		 , padapter->recvpriv.signal_strength
++		 , padapter->recvpriv.rssi
++		 , padapter->recvpriv.signal_qual
++		);
++#endif
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	rtw_set_signal_stat_timer(&padapter->recvpriv);
++#endif
++
++	/* update fw_state */ /* will clr _FW_UNDER_LINKING here indirectly */
++
++	switch (pnetwork->network.InfrastructureMode) {
++	case Ndis802_11Infrastructure:
++
++		if (pmlmepriv->fw_state & WIFI_UNDER_WPS)
++			/*pmlmepriv->fw_state = WIFI_STATION_STATE|WIFI_UNDER_WPS;*/
++			init_fwstate(pmlmepriv, WIFI_STATION_STATE | WIFI_UNDER_WPS);
++		else
++			/*pmlmepriv->fw_state = WIFI_STATION_STATE;*/
++			init_fwstate(pmlmepriv, WIFI_STATION_STATE);
++		break;
++	case Ndis802_11IBSS:
++		/*pmlmepriv->fw_state = WIFI_ADHOC_STATE;*/
++		init_fwstate(pmlmepriv, WIFI_ADHOC_STATE);
++		break;
++	default:
++		/*pmlmepriv->fw_state = WIFI_NULL_STATE;*/
++		init_fwstate(pmlmepriv, WIFI_NULL_STATE);
++		break;
++	}
++
++	rtw_update_protection(padapter, (cur_network->network.IEs) + sizeof(NDIS_802_11_FIXED_IEs),
++			      (cur_network->network.IELength));
++
++#ifdef CONFIG_80211N_HT
++	rtw_update_ht_cap(padapter, cur_network->network.IEs, cur_network->network.IELength, (u8) cur_network->network.Configuration.DSConfig);
++#endif
++}
++
++/* Notes: the fucntion could be > passive_level (the same context as Rx tasklet)
++ * pnetwork : returns from rtw_joinbss_event_callback
++ * ptarget_wlan: found from scanned_queue
++ * if join_res > 0, for (fw_state==WIFI_STATION_STATE), we check if  "ptarget_sta" & "ptarget_wlan" exist.
++ * if join_res > 0, for (fw_state==WIFI_ADHOC_STATE), we only check if "ptarget_wlan" exist.
++ * if join_res > 0, update "cur_network->network" from "pnetwork->network" if (ptarget_wlan !=NULL).
++ */
++/* #define REJOIN */
++void rtw_joinbss_event_prehandle(_adapter *adapter, u8 *pbuf)
++{
++	_irqL irqL, irqL2;
++	static u8 retry = 0;
++	u8 timer_cancelled;
++	struct sta_info *ptarget_sta = NULL, *pcur_sta = NULL;
++	struct	sta_priv *pstapriv = &adapter->stapriv;
++	struct	mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++	struct wlan_network	*pnetwork	= (struct wlan_network *)pbuf;
++	struct wlan_network	*cur_network = &(pmlmepriv->cur_network);
++	struct wlan_network	*pcur_wlan = NULL, *ptarget_wlan = NULL;
++	unsigned int		the_same_macaddr = _FALSE;
++
++
++#ifdef CONFIG_RTL8712
++	/* endian_convert */
++	pnetwork->join_res = le32_to_cpu(pnetwork->join_res);
++	pnetwork->network_type = le32_to_cpu(pnetwork->network_type);
++	pnetwork->network.Length = le32_to_cpu(pnetwork->network.Length);
++	pnetwork->network.Ssid.SsidLength = le32_to_cpu(pnetwork->network.Ssid.SsidLength);
++	pnetwork->network.Privacy = le32_to_cpu(pnetwork->network.Privacy);
++	pnetwork->network.Rssi = le32_to_cpu(pnetwork->network.Rssi);
++	pnetwork->network.NetworkTypeInUse = le32_to_cpu(pnetwork->network.NetworkTypeInUse) ;
++	pnetwork->network.Configuration.ATIMWindow = le32_to_cpu(pnetwork->network.Configuration.ATIMWindow);
++	pnetwork->network.Configuration.BeaconPeriod = le32_to_cpu(pnetwork->network.Configuration.BeaconPeriod);
++	pnetwork->network.Configuration.DSConfig = le32_to_cpu(pnetwork->network.Configuration.DSConfig);
++	pnetwork->network.Configuration.FHConfig.DwellTime = le32_to_cpu(pnetwork->network.Configuration.FHConfig.DwellTime);
++	pnetwork->network.Configuration.FHConfig.HopPattern = le32_to_cpu(pnetwork->network.Configuration.FHConfig.HopPattern);
++	pnetwork->network.Configuration.FHConfig.HopSet = le32_to_cpu(pnetwork->network.Configuration.FHConfig.HopSet);
++	pnetwork->network.Configuration.FHConfig.Length = le32_to_cpu(pnetwork->network.Configuration.FHConfig.Length);
++	pnetwork->network.Configuration.Length = le32_to_cpu(pnetwork->network.Configuration.Length);
++	pnetwork->network.InfrastructureMode = le32_to_cpu(pnetwork->network.InfrastructureMode);
++	pnetwork->network.IELength = le32_to_cpu(pnetwork->network.IELength);
++#endif
++
++
++	rtw_get_encrypt_decrypt_from_registrypriv(adapter);
++
++
++
++	the_same_macaddr = _rtw_memcmp(pnetwork->network.MacAddress, cur_network->network.MacAddress, ETH_ALEN);
++
++	pnetwork->network.Length = get_WLAN_BSSID_EX_sz(&pnetwork->network);
++	if (pnetwork->network.Length > sizeof(WLAN_BSSID_EX)) {
++		goto ignore_joinbss_callback;
++	}
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	pmlmepriv->LinkDetectInfo.TrafficTransitionCount = 0;
++	pmlmepriv->LinkDetectInfo.LowPowerTransitionCount = 0;
++
++
++	if (pnetwork->join_res > 0) {
++		_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		retry = 0;
++		if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING)) {
++			/* s1. find ptarget_wlan */
++			if (check_fwstate(pmlmepriv, _FW_LINKED)) {
++				if (the_same_macaddr == _TRUE)
++					ptarget_wlan = rtw_find_network(&pmlmepriv->scanned_queue, cur_network->network.MacAddress);
++				else {
++					pcur_wlan = rtw_find_network(&pmlmepriv->scanned_queue, cur_network->network.MacAddress);
++					if (pcur_wlan)
++						pcur_wlan->fixed = _FALSE;
++
++					pcur_sta = rtw_get_stainfo(pstapriv, cur_network->network.MacAddress);
++					if (pcur_sta) {
++						/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL2); */
++						rtw_free_stainfo(adapter,  pcur_sta);
++						/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL2); */
++					}
++
++					ptarget_wlan = rtw_find_network(&pmlmepriv->scanned_queue, pnetwork->network.MacAddress);
++					if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE) {
++						if (ptarget_wlan)
++							ptarget_wlan->fixed = _TRUE;
++					}
++				}
++
++			} else {
++				ptarget_wlan = _rtw_find_same_network(&pmlmepriv->scanned_queue, pnetwork);
++				if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE) {
++					if (ptarget_wlan)
++						ptarget_wlan->fixed = _TRUE;
++				}
++			}
++
++			/* s2. update cur_network */
++			if (ptarget_wlan)
++				rtw_joinbss_update_network(adapter, ptarget_wlan, pnetwork);
++			else {
++				RTW_PRINT("Can't find ptarget_wlan when joinbss_event callback\n");
++				_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++				goto ignore_joinbss_callback;
++			}
++
++
++			/* s3. find ptarget_sta & update ptarget_sta after update cur_network only for station mode */
++			if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE) {
++				ptarget_sta = rtw_joinbss_update_stainfo(adapter, pnetwork);
++				if (ptarget_sta == NULL) {
++					RTW_ERR("Can't update stainfo when joinbss_event callback\n");
++					_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++					goto ignore_joinbss_callback;
++				}
++			}
++
++			/* s4. indicate connect			 */
++			if (MLME_IS_STA(adapter) || MLME_IS_ADHOC(adapter)) {
++				pmlmepriv->cur_network_scanned = ptarget_wlan;
++				rtw_indicate_connect(adapter);
++			}
++
++			/* s5. Cancle assoc_timer					 */
++			_cancel_timer(&pmlmepriv->assoc_timer, &timer_cancelled);
++
++
++		} else {
++			_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			goto ignore_joinbss_callback;
++		}
++
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	} else if (pnetwork->join_res == -4) {
++		rtw_reset_securitypriv(adapter);
++		_set_timer(&pmlmepriv->assoc_timer, 1);
++
++		/* rtw_free_assoc_resources(adapter, 1); */
++
++		if ((check_fwstate(pmlmepriv, _FW_UNDER_LINKING)) == _TRUE) {
++			_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++		}
++
++	} else { /* if join_res < 0 (join fails), then try again */
++
++#ifdef REJOIN
++		res = _FAIL;
++		if (retry < 2) {
++			res = rtw_select_and_join_from_scanned_queue(pmlmepriv);
++		}
++
++		if (res == _SUCCESS) {
++			/* extend time of assoc_timer */
++			_set_timer(&pmlmepriv->assoc_timer, MAX_JOIN_TIMEOUT);
++			retry++;
++		} else if (res == 2) { /* there is no need to wait for join */
++			_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++			rtw_indicate_connect(adapter);
++		} else {
++#endif
++
++			_set_timer(&pmlmepriv->assoc_timer, 1);
++			/* rtw_free_assoc_resources(adapter, 1); */
++			_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++
++#ifdef REJOIN
++			retry = 0;
++		}
++#endif
++	}
++
++ignore_joinbss_callback:
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++
++void rtw_joinbss_event_callback(_adapter *adapter, u8 *pbuf)
++{
++	struct wlan_network	*pnetwork	= (struct wlan_network *)pbuf;
++
++
++	mlmeext_joinbss_event_callback(adapter, pnetwork->join_res);
++
++	rtw_mi_os_xmit_schedule(adapter);
++
++}
++
++void rtw_sta_media_status_rpt(_adapter *adapter, struct sta_info *sta, bool connected)
++{
++	struct macid_ctl_t *macid_ctl = &adapter->dvobj->macid_ctl;
++	bool miracast_enabled = 0;
++	bool miracast_sink = 0;
++	u8 role = H2C_MSR_ROLE_RSVD;
++
++	if (sta == NULL) {
++		RTW_PRINT(FUNC_ADPT_FMT" sta is NULL\n"
++			  , FUNC_ADPT_ARG(adapter));
++		rtw_warn_on(1);
++		return;
++	}
++
++	if (sta->mac_id >= macid_ctl->num) {
++		RTW_PRINT(FUNC_ADPT_FMT" invalid macid:%u\n"
++			  , FUNC_ADPT_ARG(adapter), sta->mac_id);
++		rtw_warn_on(1);
++		return;
++	}
++
++	if (!rtw_macid_is_used(macid_ctl, sta->mac_id)) {
++		RTW_PRINT(FUNC_ADPT_FMT" macid:%u not is used, set connected to 0\n"
++			  , FUNC_ADPT_ARG(adapter), sta->mac_id);
++		connected = 0;
++		rtw_warn_on(1);
++	}
++
++	if (connected && !rtw_macid_is_bmc(macid_ctl, sta->mac_id)) {
++		miracast_enabled = STA_OP_WFD_MODE(sta) != 0 && is_miracast_enabled(adapter);
++		miracast_sink = miracast_enabled && (STA_OP_WFD_MODE(sta) & MIRACAST_SINK);
++
++#ifdef CONFIG_TDLS
++		if (sta->tdls_sta_state & TDLS_LINKED_STATE)
++			role = H2C_MSR_ROLE_TDLS;
++		else
++#endif
++			if (MLME_IS_STA(adapter)) {
++				if (MLME_IS_GC(adapter))
++					role = H2C_MSR_ROLE_GO;
++				else
++					role = H2C_MSR_ROLE_AP;
++			} else if (MLME_IS_AP(adapter)) {
++				if (MLME_IS_GO(adapter))
++					role = H2C_MSR_ROLE_GC;
++				else
++					role = H2C_MSR_ROLE_STA;
++			} else if (MLME_IS_ADHOC(adapter) || MLME_IS_ADHOC_MASTER(adapter))
++				role = H2C_MSR_ROLE_ADHOC;
++
++#ifdef CONFIG_WFD
++		if (role == H2C_MSR_ROLE_GC
++		    || role == H2C_MSR_ROLE_GO
++		    || role == H2C_MSR_ROLE_TDLS
++		   ) {
++			if (adapter->wfd_info.rtsp_ctrlport
++			    || adapter->wfd_info.tdls_rtsp_ctrlport
++			    || adapter->wfd_info.peer_rtsp_ctrlport)
++				rtw_wfd_st_switch(sta, 1);
++		}
++#endif
++	}
++
++	rtw_hal_set_FwMediaStatusRpt_single_cmd(adapter
++						, connected
++						, miracast_enabled
++						, miracast_sink
++						, role
++						, sta->mac_id
++					       );
++}
++
++u8 rtw_sta_media_status_rpt_cmd(_adapter *adapter, struct sta_info *sta, bool connected)
++{
++	struct cmd_priv	*cmdpriv = &adapter->cmdpriv;
++	struct cmd_obj *cmdobj;
++	struct drvextra_cmd_parm *cmd_parm;
++	struct sta_media_status_rpt_cmd_parm *rpt_parm;
++	u8	res = _SUCCESS;
++
++	cmdobj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (cmdobj == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++	if (cmd_parm == NULL) {
++		rtw_mfree((u8 *)cmdobj, sizeof(struct cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	rpt_parm = (struct sta_media_status_rpt_cmd_parm *)rtw_zmalloc(sizeof(struct sta_media_status_rpt_cmd_parm));
++	if (rpt_parm == NULL) {
++		rtw_mfree((u8 *)cmdobj, sizeof(struct cmd_obj));
++		rtw_mfree((u8 *)cmd_parm, sizeof(struct drvextra_cmd_parm));
++		res = _FAIL;
++		goto exit;
++	}
++
++	rpt_parm->sta = sta;
++	rpt_parm->connected = connected;
++
++	cmd_parm->ec_id = STA_MSTATUS_RPT_WK_CID;
++	cmd_parm->type = 0;
++	cmd_parm->size = sizeof(struct sta_media_status_rpt_cmd_parm);
++	cmd_parm->pbuf = (u8 *)rpt_parm;
++	init_h2fwcmd_w_parm_no_rsp(cmdobj, cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++	res = rtw_enqueue_cmd(cmdpriv, cmdobj);
++
++exit:
++	return res;
++}
++
++inline void rtw_sta_media_status_rpt_cmd_hdl(_adapter *adapter, struct sta_media_status_rpt_cmd_parm *parm)
++{
++	rtw_sta_media_status_rpt(adapter, parm->sta, parm->connected);
++}
++
++void rtw_stassoc_event_callback(_adapter *adapter, u8 *pbuf)
++{
++	_irqL irqL;
++	struct sta_info *psta;
++	struct mlme_priv *pmlmepriv = &(adapter->mlmepriv);
++	struct stassoc_event	*pstassoc	= (struct stassoc_event *)pbuf;
++	struct wlan_network	*cur_network = &(pmlmepriv->cur_network);
++	struct wlan_network	*ptarget_wlan = NULL;
++
++
++#if CONFIG_RTW_MACADDR_ACL
++	if (rtw_access_ctrl(adapter, pstassoc->macaddr) == _FALSE)
++		return;
++#endif
++
++#if defined(CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++		psta = rtw_get_stainfo(&adapter->stapriv, pstassoc->macaddr);
++		if (psta) {
++			u8 *passoc_req = NULL;
++			u32 assoc_req_len = 0;
++
++			rtw_sta_media_status_rpt(adapter, psta, 1);
++
++#ifndef CONFIG_AUTO_AP_MODE
++
++			ap_sta_info_defer_update(adapter, psta);
++
++			/* report to upper layer */
++			RTW_INFO("indicate_sta_assoc_event to upper layer - hostapd\n");
++#ifdef CONFIG_IOCTL_CFG80211
++			_enter_critical_bh(&psta->lock, &irqL);
++			if (psta->passoc_req && psta->assoc_req_len > 0) {
++				passoc_req = rtw_zmalloc(psta->assoc_req_len);
++				if (passoc_req) {
++					assoc_req_len = psta->assoc_req_len;
++					_rtw_memcpy(passoc_req, psta->passoc_req, assoc_req_len);
++
++					rtw_mfree(psta->passoc_req , psta->assoc_req_len);
++					psta->passoc_req = NULL;
++					psta->assoc_req_len = 0;
++				}
++			}
++			_exit_critical_bh(&psta->lock, &irqL);
++
++			if (passoc_req && assoc_req_len > 0) {
++				rtw_cfg80211_indicate_sta_assoc(adapter, passoc_req, assoc_req_len);
++
++				rtw_mfree(passoc_req, assoc_req_len);
++			}
++#else /* !CONFIG_IOCTL_CFG80211	 */
++			rtw_indicate_sta_assoc_event(adapter, psta);
++#endif /* !CONFIG_IOCTL_CFG80211 */
++#endif /* !CONFIG_AUTO_AP_MODE */
++
++#ifdef CONFIG_BEAMFORMING
++			beamforming_wk_cmd(adapter, BEAMFORMING_CTRL_ENTER, (u8 *)psta, sizeof(struct sta_info), 0);
++#endif/*CONFIG_BEAMFORMING*/
++			if (is_wep_enc(adapter->securitypriv.dot11PrivacyAlgrthm))
++				rtw_ap_wep_pk_setting(adapter, psta);
++
++			rtw_mi_update_iface_status(pmlmepriv, WIFI_AP_STATE);
++		}
++		goto exit;
++	}
++#endif /* defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++
++	/* for AD-HOC mode */
++	psta = rtw_get_stainfo(&adapter->stapriv, pstassoc->macaddr);
++	if (psta == NULL) {
++		RTW_ERR(FUNC_ADPT_FMT" get no sta_info with "MAC_FMT"\n"
++			, FUNC_ADPT_ARG(adapter), MAC_ARG(pstassoc->macaddr));
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	rtw_hal_set_odm_var(adapter, HAL_ODM_STA_INFO, psta, _TRUE);
++
++	rtw_sta_media_status_rpt(adapter, psta, 1);
++
++	if (adapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X)
++		psta->dot118021XPrivacy = adapter->securitypriv.dot11PrivacyAlgrthm;
++
++
++	psta->ieee8021x_blocked = _FALSE;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) ||
++	    (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE)) {
++		if (adapter->stapriv.asoc_sta_count == 2) {
++			_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			ptarget_wlan = rtw_find_network(&pmlmepriv->scanned_queue, cur_network->network.MacAddress);
++			pmlmepriv->cur_network_scanned = ptarget_wlan;
++			if (ptarget_wlan)
++				ptarget_wlan->fixed = _TRUE;
++			_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			/* a sta + bc/mc_stainfo (not Ibss_stainfo) */
++			rtw_indicate_connect(adapter);
++		}
++	}
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++	mlmeext_sta_add_event_callback(adapter, psta);
++
++#ifdef CONFIG_RTL8711
++	/* submit SetStaKey_cmd to tell fw, fw will allocate an CAM entry for this sta	 */
++	rtw_setstakey_cmd(adapter, psta, GROUP_KEY, _TRUE);
++#endif
++
++exit:
++	return;
++}
++
++#ifdef CONFIG_IEEE80211W
++void rtw_sta_timeout_event_callback(_adapter *adapter, u8 *pbuf)
++{
++	_irqL irqL;
++	struct sta_info *psta;
++	struct stadel_event *pstadel = (struct stadel_event *)pbuf;
++	struct sta_priv *pstapriv = &adapter->stapriv;
++
++
++	psta = rtw_get_stainfo(&adapter->stapriv, pstadel->macaddr);
++
++	if (psta) {
++		u8 updated = _FALSE;
++
++		_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++		if (rtw_is_list_empty(&psta->asoc_list) == _FALSE) {
++			rtw_list_delete(&psta->asoc_list);
++			pstapriv->asoc_list_cnt--;
++			updated = ap_free_sta(adapter, psta, _TRUE, WLAN_REASON_PREV_AUTH_NOT_VALID, _TRUE);
++		}
++		_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++		associated_clients_update(adapter, updated, STA_INFO_UPDATE_ALL);
++	}
++
++
++
++}
++#endif /* CONFIG_IEEE80211W */
++
++void rtw_sta_mstatus_disc_rpt(_adapter *adapter, u8 mac_id)
++{
++	struct macid_ctl_t *macid_ctl = &adapter->dvobj->macid_ctl;
++
++	RTW_INFO("%s "ADPT_FMT" - mac_id=%d\n", __func__, ADPT_ARG(adapter), mac_id);
++
++	if (mac_id >= 0 && mac_id < macid_ctl->num) {
++		rtw_hal_set_FwMediaStatusRpt_single_cmd(adapter, 0, 0, 0, 0, mac_id);
++		/*
++		 * For safety, prevent from keeping macid sleep.
++		 * If we can sure all power mode enter/leave are paired,
++		 * this check can be removed.
++		 * Lucas@20131113
++		 */
++		/* wakeup macid after disconnect. */
++		/*if (MLME_IS_STA(adapter))*/
++		rtw_hal_macid_wakeup(adapter, mac_id);
++	} else {
++		RTW_PRINT(FUNC_ADPT_FMT" invalid macid:%u\n"
++			  , FUNC_ADPT_ARG(adapter), mac_id);
++		rtw_warn_on(1);
++	}
++}
++void rtw_sta_mstatus_report(_adapter *adapter)
++{
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct wlan_network *tgt_network = &pmlmepriv->cur_network;
++	struct sta_info *psta = NULL;
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++		psta = rtw_get_stainfo(&adapter->stapriv, tgt_network->network.MacAddress);
++		if (psta)
++			rtw_sta_mstatus_disc_rpt(adapter, psta->mac_id);
++		else {
++			RTW_INFO("%s "ADPT_FMT" - mac_addr: "MAC_FMT" psta == NULL\n", __func__, ADPT_ARG(adapter), MAC_ARG(tgt_network->network.MacAddress));
++			rtw_warn_on(1);
++		}
++	}
++}
++
++void rtw_stadel_event_callback(_adapter *adapter, u8 *pbuf)
++{
++	_irqL irqL, irqL2;
++
++	struct sta_info *psta;
++	struct wlan_network *pwlan = NULL;
++	WLAN_BSSID_EX    *pdev_network = NULL;
++	u8 *pibss = NULL;
++	struct	mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++	struct	stadel_event *pstadel	= (struct stadel_event *)pbuf;
++	struct	sta_priv *pstapriv = &adapter->stapriv;
++	struct wlan_network *tgt_network = &(pmlmepriv->cur_network);
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++
++	RTW_INFO("%s(mac_id=%d)=" MAC_FMT "\n", __func__, pstadel->mac_id, MAC_ARG(pstadel->macaddr));
++	rtw_sta_mstatus_disc_rpt(adapter, pstadel->mac_id);
++
++	psta = rtw_get_stainfo(&adapter->stapriv, pstadel->macaddr);
++
++	if (psta == NULL) {
++		RTW_INFO("%s(mac_id=%d)=" MAC_FMT " psta == NULL\n", __func__, pstadel->mac_id, MAC_ARG(pstadel->macaddr));
++		/*rtw_warn_on(1);*/
++	}
++
++	if (psta)
++		rtw_wfd_st_switch(psta, 0);
++
++	/* if(check_fwstate(pmlmepriv, WIFI_AP_STATE)) */
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) {
++#ifdef CONFIG_IOCTL_CFG80211
++#ifdef COMPAT_KERNEL_RELEASE
++
++#elif (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 37)) || defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++		rtw_cfg80211_indicate_sta_disassoc(adapter, pstadel->macaddr, *(u16 *)pstadel->rsvd);
++#endif /* (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 37)) || defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER) */
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++		return;
++	}
++
++	mlmeext_sta_del_event_callback(adapter);
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL2);
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++		u16 reason = *((unsigned short *)(pstadel->rsvd));
++		bool roam = _FALSE;
++		struct wlan_network *roam_target = NULL;
++
++#ifdef CONFIG_LAYER2_ROAMING
++		if (adapter->registrypriv.wifi_spec == 1)
++			roam = _FALSE;
++		else if (reason == WLAN_REASON_EXPIRATION_CHK && rtw_chk_roam_flags(adapter, RTW_ROAM_ON_EXPIRED))
++			roam = _TRUE;
++		else if (reason == WLAN_REASON_ACTIVE_ROAM && rtw_chk_roam_flags(adapter, RTW_ROAM_ACTIVE)) {
++			roam = _TRUE;
++			roam_target = pmlmepriv->roam_network;
++		}
++#ifdef CONFIG_INTEL_WIDI
++		else if (adapter->mlmepriv.widi_state == INTEL_WIDI_STATE_CONNECTED)
++			roam = _TRUE;
++#endif /* CONFIG_INTEL_WIDI */
++
++		if (roam == _TRUE) {
++			if (rtw_to_roam(adapter) > 0)
++				rtw_dec_to_roam(adapter); /* this stadel_event is caused by roaming, decrease to_roam */
++			else if (rtw_to_roam(adapter) == 0)
++				rtw_set_to_roam(adapter, adapter->registrypriv.max_roaming_times);
++		} else
++			rtw_set_to_roam(adapter, 0);
++#endif /* CONFIG_LAYER2_ROAMING */
++
++		rtw_free_uc_swdec_pending_queue(adapter);
++
++		rtw_free_assoc_resources(adapter, 1);
++		rtw_free_mlme_priv_ie_data(pmlmepriv);
++
++		_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++		/* remove the network entry in scanned_queue */
++		pwlan = rtw_find_network(&pmlmepriv->scanned_queue, tgt_network->network.MacAddress);
++		if ((pwlan)  && (!check_fwstate(pmlmepriv, WIFI_UNDER_WPS))) {
++			pwlan->fixed = _FALSE;
++			rtw_free_network_nolock(adapter, pwlan);
++		}
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++		rtw_indicate_disconnect(adapter, *(u16 *)pstadel->rsvd, pstadel->locally_generated);
++#ifdef CONFIG_INTEL_WIDI
++		if (!rtw_to_roam(adapter))
++			process_intel_widi_disconnect(adapter, 1);
++#endif /* CONFIG_INTEL_WIDI */
++
++		_rtw_roaming(adapter, roam_target);
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) ||
++	    check_fwstate(pmlmepriv, WIFI_ADHOC_STATE)) {
++
++		/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL); */
++		rtw_free_stainfo(adapter,  psta);
++		/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL); */
++
++		if (adapter->stapriv.asoc_sta_count == 1) { /* a sta + bc/mc_stainfo (not Ibss_stainfo) */
++			/* rtw_indicate_disconnect(adapter); */ /* removed@20091105 */
++			_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			/* free old ibss network */
++			/* pwlan = rtw_find_network(&pmlmepriv->scanned_queue, pstadel->macaddr); */
++			pwlan = rtw_find_network(&pmlmepriv->scanned_queue, tgt_network->network.MacAddress);
++			if (pwlan) {
++				pwlan->fixed = _FALSE;
++				rtw_free_network_nolock(adapter, pwlan);
++			}
++			_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			/* re-create ibss */
++			pdev_network = &(adapter->registrypriv.dev_network);
++			pibss = adapter->registrypriv.dev_network.MacAddress;
++
++			_rtw_memcpy(pdev_network, &tgt_network->network, get_WLAN_BSSID_EX_sz(&tgt_network->network));
++
++			_rtw_memset(&pdev_network->Ssid, 0, sizeof(NDIS_802_11_SSID));
++			_rtw_memcpy(&pdev_network->Ssid, &pmlmepriv->assoc_ssid, sizeof(NDIS_802_11_SSID));
++
++			rtw_update_registrypriv_dev_network(adapter);
++
++			rtw_generate_random_ibss(pibss);
++
++			if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE)) {
++				set_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++				_clr_fwstate_(pmlmepriv, WIFI_ADHOC_STATE);
++			}
++
++			if (rtw_create_ibss_cmd(adapter, 0) != _SUCCESS)
++				RTW_ERR("rtw_create_ibss_cmd FAIL\n");
++
++		}
++
++	}
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL2);
++
++
++}
++
++
++void rtw_cpwm_event_callback(PADAPTER padapter, u8 *pbuf)
++{
++#ifdef CONFIG_LPS_LCLK
++	struct reportpwrstate_parm *preportpwrstate;
++#endif
++
++
++#ifdef CONFIG_LPS_LCLK
++	preportpwrstate = (struct reportpwrstate_parm *)pbuf;
++	preportpwrstate->state |= (u8)(adapter_to_pwrctl(padapter)->cpwm_tog + 0x80);
++	cpwm_int_hdl(padapter, preportpwrstate);
++#endif
++
++
++}
++
++
++void rtw_wmm_event_callback(PADAPTER padapter, u8 *pbuf)
++{
++
++	WMMOnAssocRsp(padapter);
++
++
++}
++
++/*
++* _rtw_join_timeout_handler - Timeout/faliure handler for CMD JoinBss
++* @adapter: pointer to _adapter structure
++*/
++void _rtw_join_timeout_handler(_adapter *adapter)
++{
++	_irqL irqL;
++	struct	mlme_priv *pmlmepriv = &adapter->mlmepriv;
++
++#if 0
++	if (rtw_is_drv_stopped(adapter)) {
++		_rtw_up_sema(&pmlmepriv->assoc_terminate);
++		return;
++	}
++#endif
++
++
++
++	RTW_INFO("%s, fw_state=%x\n", __FUNCTION__, get_fwstate(pmlmepriv));
++
++	if (RTW_CANNOT_RUN(adapter))
++		return;
++
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++#ifdef CONFIG_LAYER2_ROAMING
++	if (rtw_to_roam(adapter) > 0) { /* join timeout caused by roaming */
++		while (1) {
++			rtw_dec_to_roam(adapter);
++			if (rtw_to_roam(adapter) != 0) { /* try another */
++				int do_join_r;
++				RTW_INFO("%s try another roaming\n", __FUNCTION__);
++				do_join_r = rtw_do_join(adapter);
++				if (_SUCCESS != do_join_r) {
++					RTW_INFO("%s roaming do_join return %d\n", __FUNCTION__ , do_join_r);
++					continue;
++				}
++				break;
++			} else {
++#ifdef CONFIG_INTEL_WIDI
++				if (adapter->mlmepriv.widi_state == INTEL_WIDI_STATE_ROAMING) {
++					_rtw_memset(pmlmepriv->sa_ext, 0x00, L2SDTA_SERVICE_VE_LEN);
++					intel_widi_wk_cmd(adapter, INTEL_WIDI_LISTEN_WK, NULL, 0);
++					RTW_INFO("change to widi listen\n");
++				}
++#endif /* CONFIG_INTEL_WIDI */
++				RTW_INFO("%s We've try roaming but fail\n", __FUNCTION__);
++				rtw_indicate_disconnect(adapter, 0, _FALSE);
++				break;
++			}
++		}
++
++	} else
++#endif
++	{
++		rtw_indicate_disconnect(adapter, 0, _FALSE);
++		free_scanqueue(pmlmepriv);/* ??? */
++
++#ifdef CONFIG_IOCTL_CFG80211
++		/* indicate disconnect for the case that join_timeout and check_fwstate != FW_LINKED */
++		rtw_cfg80211_indicate_disconnect(adapter, 0, _FALSE);
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	}
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++#ifdef CONFIG_DRVEXT_MODULE_WSC
++	drvext_assoc_fail_indicate(&adapter->drvextpriv);
++#endif
++
++
++
++}
++
++/*
++* rtw_scan_timeout_handler - Timeout/Faliure handler for CMD SiteSurvey
++* @adapter: pointer to _adapter structure
++*/
++void rtw_scan_timeout_handler(_adapter *adapter)
++{
++	_irqL irqL;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	RTW_INFO(FUNC_ADPT_FMT" fw_state=%x\n", FUNC_ADPT_ARG(adapter), get_fwstate(pmlmepriv));
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	_clr_fwstate_(pmlmepriv, _FW_UNDER_SURVEY);
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_cfg80211_surveydone_event_callback(adapter);
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	rtw_indicate_scan_done(adapter, _TRUE);
++#ifdef CONFIG_CONCURRENT_MODE
++	rtw_mi_buddy_indicate_scan_done(adapter, _TRUE);/*scanning_via_buddy_intf */
++#endif
++}
++
++void rtw_mlme_reset_auto_scan_int(_adapter *adapter, u8 *reason)
++{
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 u_ch;
++	u32 interval_ms = 0xffffffff; /* 0xffffffff: special value to make min() works well, also means no auto scan */
++
++	*reason = RTW_AUTO_SCAN_REASON_UNSPECIFIED;
++	rtw_mi_get_ch_setting_union(adapter, &u_ch, NULL, NULL);
++
++	if (hal_chk_bw_cap(adapter, BW_CAP_40M)
++	    && is_client_associated_to_ap(adapter) == _TRUE
++	    && u_ch >= 1 && u_ch <= 14
++	    && adapter->registrypriv.wifi_spec
++	    /* TODO: AP Connected is 40MHz capability? */
++	   ) {
++		interval_ms = rtw_min(interval_ms, 60 * 1000);
++		*reason |= RTW_AUTO_SCAN_REASON_2040_BSS;
++	}
++#ifdef CONFIG_LAYER2_ROAMING
++	if (rtw_chk_roam_flags(adapter, RTW_ROAM_ACTIVE)
++	    && is_client_associated_to_ap(adapter) == _TRUE
++	   ) {
++		interval_ms = rtw_min(interval_ms, mlme->roam_scan_int_ms);
++		*reason |= RTW_AUTO_SCAN_REASON_ROAM;
++	}
++#endif
++
++exit:
++	if (interval_ms == 0xffffffff)
++		interval_ms = 0;
++
++	rtw_mlme_set_auto_scan_int(adapter, interval_ms);
++	return;
++}
++
++void rtw_drv_scan_by_self(_adapter *padapter, u8 reason)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct rtw_ieee80211_channel ch_for_2040_bss[14] = {
++		{1, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{2, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{3, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{4, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{5, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{6, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{7, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{8, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{9, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{10, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{11, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{12, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{13, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++		{14, RTW_IEEE80211_CHAN_PASSIVE_SCAN},
++	};
++	struct rtw_ieee80211_channel *ch_sel = NULL;
++	int ch_num = 0;
++
++	if (rtw_is_scan_deny(padapter))
++		goto exit;
++
++	if (!rtw_is_adapter_up(padapter))
++		goto exit;
++
++	if (rtw_mi_busy_traffic_check(padapter, _FALSE)) {
++		RTW_INFO(FUNC_ADPT_FMT" exit due to BusyTraffic\n", FUNC_ADPT_ARG(padapter));
++		goto exit;
++	}
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) && check_fwstate(pmlmepriv, WIFI_UNDER_WPS)) {
++		RTW_INFO(FUNC_ADPT_FMT" WIFI_AP_STATE && WIFI_UNDER_WPS\n", FUNC_ADPT_ARG(padapter));
++		goto exit;
++	}
++	if (check_fwstate(pmlmepriv, (_FW_UNDER_SURVEY | _FW_UNDER_LINKING)) == _TRUE) {
++		RTW_INFO(FUNC_ADPT_FMT" _FW_UNDER_SURVEY|_FW_UNDER_LINKING\n", FUNC_ADPT_ARG(padapter));
++		goto exit;
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_buddy_check_fwstate(padapter, (_FW_UNDER_SURVEY | _FW_UNDER_LINKING | WIFI_UNDER_WPS))) {
++		RTW_INFO(FUNC_ADPT_FMT", but buddy_intf is under scanning or linking or wps_phase\n", FUNC_ADPT_ARG(padapter));
++		goto exit;
++	}
++#endif
++
++	RTW_INFO(FUNC_ADPT_FMT" reason:0x%02x\n", FUNC_ADPT_ARG(padapter), reason);
++
++	/* only for 20/40 BSS */
++	if (reason == RTW_AUTO_SCAN_REASON_2040_BSS) {
++		ch_sel = ch_for_2040_bss;
++		ch_num = 14;
++	}
++
++	rtw_set_802_11_bssid_list_scan(padapter, NULL, 0, ch_sel, ch_num);
++exit:
++	return;
++}
++
++static void rtw_auto_scan_handler(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	u8 reason = RTW_AUTO_SCAN_REASON_UNSPECIFIED;
++
++	rtw_mlme_reset_auto_scan_int(padapter, &reason);
++
++#ifdef CONFIG_P2P
++	if (!rtw_p2p_chk_state(&padapter->wdinfo, P2P_STATE_NONE))
++		goto exit;
++#endif
++
++#ifdef CONFIG_TDLS
++	if (padapter->tdlsinfo.link_established == _TRUE)
++		goto exit;
++#endif
++
++	if (pmlmepriv->auto_scan_int_ms == 0
++	    || rtw_get_passing_time_ms(pmlmepriv->scan_start_time) < pmlmepriv->auto_scan_int_ms)
++		goto exit;
++
++	rtw_drv_scan_by_self(padapter, reason);
++
++exit:
++	return;
++}
++static u8 is_drv_in_lps(_adapter *adapter)
++{
++	u8 is_in_lps = _FALSE;
++
++	#ifdef CONFIG_LPS_LCLK_WD_TIMER /* to avoid leaving lps 32k frequently*/
++	if ((adapter_to_pwrctl(adapter)->bFwCurrentInPSMode == _TRUE)
++	#ifdef CONFIG_BT_COEXIST
++		&& (rtw_btcoex_IsBtControlLps(adapter) == _FALSE)
++	#endif
++		)
++		is_in_lps = _TRUE;
++	#endif /* CONFIG_LPS_LCLK_WD_TIMER*/
++	return is_in_lps;
++}
++void rtw_iface_dynamic_check_timer_handlder(_adapter *adapter)
++{
++#ifdef CONFIG_AP_MODE
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++#endif /* CONFIG_AP_MODE */
++
++	if (adapter->net_closed == _TRUE)
++		return;
++	#ifdef CONFIG_LPS_LCLK_WD_TIMER /* to avoid leaving lps 32k frequently*/
++	if (is_drv_in_lps(adapter)) {
++		u8 bEnterPS;
++
++		linked_status_chk(adapter, 1);
++
++		bEnterPS = traffic_status_watchdog(adapter, 1);
++		if (bEnterPS) {
++			/* rtw_lps_ctrl_wk_cmd(adapter, LPS_CTRL_ENTER, 1); */
++			rtw_hal_dm_watchdog_in_lps(adapter);
++		} else {
++			/* call rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_LEAVE, 1) in traffic_status_watchdog() */
++		}
++	}
++	#endif /* CONFIG_LPS_LCLK_WD_TIMER	*/
++
++	/* auto site survey */
++	rtw_auto_scan_handler(adapter);
++
++#ifndef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++#ifdef CONFIG_AP_MODE
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		expire_timeout_chk(adapter);
++#endif
++#endif /* !CONFIG_ACTIVE_KEEP_ALIVE_CHECK */
++
++#ifdef CONFIG_BR_EXT
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
++	rcu_read_lock();
++#endif /* (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35)) */
++
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++	if (adapter->pnetdev->br_port
++#else	/* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++	if (rcu_dereference(adapter->pnetdev->rx_handler_data)
++#endif /* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++		&& (check_fwstate(pmlmepriv, WIFI_STATION_STATE | WIFI_ADHOC_STATE) == _TRUE)) {
++		/* expire NAT2.5 entry */
++		void nat25_db_expire(_adapter *priv);
++		nat25_db_expire(adapter);
++
++		if (adapter->pppoe_connection_in_progress > 0)
++			adapter->pppoe_connection_in_progress--;
++		/* due to rtw_dynamic_check_timer_handlder() is called every 2 seconds */
++		if (adapter->pppoe_connection_in_progress > 0)
++			adapter->pppoe_connection_in_progress--;
++	}
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
++	rcu_read_unlock();
++#endif /* (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35)) */
++
++#endif /* CONFIG_BR_EXT */
++
++}
++
++/*#define DBG_TRAFFIC_STATISTIC*/
++static void collect_traffic_statistics(_adapter *padapter)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++
++	/*_rtw_memset(&pdvobjpriv->traffic_stat, 0, sizeof(struct rtw_traffic_statistics));*/
++
++	/* Tx bytes reset*/
++	pdvobjpriv->traffic_stat.tx_bytes = 0;
++	pdvobjpriv->traffic_stat.tx_pkts = 0;
++	pdvobjpriv->traffic_stat.tx_drop = 0;
++
++	/* Rx bytes reset*/
++	pdvobjpriv->traffic_stat.rx_bytes = 0;
++	pdvobjpriv->traffic_stat.rx_pkts = 0;
++	pdvobjpriv->traffic_stat.rx_drop = 0;
++
++	rtw_mi_traffic_statistics(padapter);
++
++	/* Calculate throughput in last interval */
++	pdvobjpriv->traffic_stat.cur_tx_bytes = pdvobjpriv->traffic_stat.tx_bytes - pdvobjpriv->traffic_stat.last_tx_bytes;
++	pdvobjpriv->traffic_stat.cur_rx_bytes = pdvobjpriv->traffic_stat.rx_bytes - pdvobjpriv->traffic_stat.last_rx_bytes;
++	pdvobjpriv->traffic_stat.last_tx_bytes = pdvobjpriv->traffic_stat.tx_bytes;
++	pdvobjpriv->traffic_stat.last_rx_bytes = pdvobjpriv->traffic_stat.rx_bytes;
++
++	pdvobjpriv->traffic_stat.cur_tx_tp = (u32)(pdvobjpriv->traffic_stat.cur_tx_bytes * 8 / 2 / 1024 / 1024);
++	pdvobjpriv->traffic_stat.cur_rx_tp = (u32)(pdvobjpriv->traffic_stat.cur_rx_bytes * 8 / 2 / 1024 / 1024);
++
++	#ifdef DBG_TRAFFIC_STATISTIC
++	RTW_INFO("\n========================\n");
++	RTW_INFO("cur_tx_bytes:%lld\n", pdvobjpriv->traffic_stat.cur_tx_bytes);
++	RTW_INFO("cur_rx_bytes:%lld\n", pdvobjpriv->traffic_stat.cur_rx_bytes);
++
++	RTW_INFO("last_tx_bytes:%lld\n", pdvobjpriv->traffic_stat.last_tx_bytes);
++	RTW_INFO("last_rx_bytes:%lld\n", pdvobjpriv->traffic_stat.last_rx_bytes);
++
++	RTW_INFO("cur_tx_tp:%d\n", pdvobjpriv->traffic_stat.cur_tx_tp);
++	RTW_INFO("cur_rx_tp:%d\n", pdvobjpriv->traffic_stat.cur_rx_tp);
++	#endif
++}
++
++void rtw_dynamic_check_timer_handlder(_adapter *adapter)
++{
++	if (!adapter)
++		return;
++
++	if (!rtw_is_hw_init_completed(adapter))
++		return;
++
++	if (RTW_CANNOT_RUN(adapter))
++		return;
++
++	collect_traffic_statistics(adapter);
++
++	rtw_mi_dynamic_check_timer_handlder(adapter);
++
++	if (!is_drv_in_lps(adapter))
++		rtw_dynamic_chk_wk_cmd(adapter);
++}
++
++
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++inline bool rtw_is_scan_deny(_adapter *adapter)
++{
++	struct mlme_priv *mlmepriv = &adapter->mlmepriv;
++	return (ATOMIC_READ(&mlmepriv->set_scan_deny) != 0) ? _TRUE : _FALSE;
++}
++
++inline void rtw_clear_scan_deny(_adapter *adapter)
++{
++	struct mlme_priv *mlmepriv = &adapter->mlmepriv;
++	ATOMIC_SET(&mlmepriv->set_scan_deny, 0);
++	if (0)
++		RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(adapter));
++}
++
++void rtw_set_scan_deny_timer_hdl(_adapter *adapter)
++{
++	rtw_clear_scan_deny(adapter);
++}
++void rtw_set_scan_deny(_adapter *adapter, u32 ms)
++{
++	struct mlme_priv *mlmepriv = &adapter->mlmepriv;
++	if (0)
++		RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(adapter));
++	ATOMIC_SET(&mlmepriv->set_scan_deny, 1);
++	_set_timer(&mlmepriv->set_scan_deny_timer, ms);
++}
++#endif
++
++#ifdef CONFIG_LAYER2_ROAMING
++/*
++* Select a new roaming candidate from the original @param candidate and @param competitor
++* @return _TRUE: candidate is updated
++* @return _FALSE: candidate is not updated
++*/
++static int rtw_check_roaming_candidate(struct mlme_priv *mlme
++	, struct wlan_network **candidate, struct wlan_network *competitor)
++{
++	int updated = _FALSE;
++	_adapter *adapter = container_of(mlme, _adapter, mlmepriv);
++
++	if (is_same_ess(&competitor->network, &mlme->cur_network.network) == _FALSE)
++		goto exit;
++
++	if (rtw_is_desired_network(adapter, competitor) == _FALSE)
++		goto exit;
++
++	RTW_INFO("roam candidate:%s %s("MAC_FMT", ch%3u) rssi:%d, age:%5d\n",
++		 (competitor == mlme->cur_network_scanned) ? "*" : " " ,
++		 competitor->network.Ssid.Ssid,
++		 MAC_ARG(competitor->network.MacAddress),
++		 competitor->network.Configuration.DSConfig,
++		 (int)competitor->network.Rssi,
++		 rtw_get_passing_time_ms(competitor->last_scanned)
++		);
++
++	/* got specific addr to roam */
++	if (!is_zero_mac_addr(mlme->roam_tgt_addr)) {
++		if (_rtw_memcmp(mlme->roam_tgt_addr, competitor->network.MacAddress, ETH_ALEN) == _TRUE)
++			goto update;
++		else
++			goto exit;
++	}
++#if 1
++	if (rtw_get_passing_time_ms((u32)competitor->last_scanned) >= mlme->roam_scanr_exp_ms)
++		goto exit;
++
++	if (competitor->network.Rssi - mlme->cur_network_scanned->network.Rssi < mlme->roam_rssi_diff_th)
++		goto exit;
++
++	if (*candidate != NULL && (*candidate)->network.Rssi >= competitor->network.Rssi)
++		goto exit;
++#else
++	goto exit;
++#endif
++
++update:
++	*candidate = competitor;
++	updated = _TRUE;
++
++exit:
++	return updated;
++}
++
++int rtw_select_roaming_candidate(struct mlme_priv *mlme)
++{
++	_irqL	irqL;
++	int ret = _FAIL;
++	_list	*phead;
++	_adapter *adapter;
++	_queue	*queue	= &(mlme->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	struct	wlan_network	*candidate = NULL;
++	u8		bSupportAntDiv = _FALSE;
++
++
++	if (mlme->cur_network_scanned == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	_enter_critical_bh(&(mlme->scanned_queue.lock), &irqL);
++	phead = get_list_head(queue);
++	adapter = (_adapter *)mlme->nic_hdl;
++
++	mlme->pscanned = get_next(phead);
++
++	while (!rtw_end_of_queue_search(phead, mlme->pscanned)) {
++
++		pnetwork = LIST_CONTAINOR(mlme->pscanned, struct wlan_network, list);
++		if (pnetwork == NULL) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		mlme->pscanned = get_next(mlme->pscanned);
++
++		if (0)
++			RTW_INFO("%s("MAC_FMT", ch%u) rssi:%d\n"
++				 , pnetwork->network.Ssid.Ssid
++				 , MAC_ARG(pnetwork->network.MacAddress)
++				 , pnetwork->network.Configuration.DSConfig
++				 , (int)pnetwork->network.Rssi);
++
++		rtw_check_roaming_candidate(mlme, &candidate, pnetwork);
++
++	}
++
++	if (candidate == NULL) {
++		RTW_INFO("%s: return _FAIL(candidate == NULL)\n", __FUNCTION__);
++		ret = _FAIL;
++		goto exit;
++	} else {
++		RTW_INFO("%s: candidate: %s("MAC_FMT", ch:%u)\n", __FUNCTION__,
++			candidate->network.Ssid.Ssid, MAC_ARG(candidate->network.MacAddress),
++			 candidate->network.Configuration.DSConfig);
++
++		mlme->roam_network = candidate;
++
++		if (_rtw_memcmp(candidate->network.MacAddress, mlme->roam_tgt_addr, ETH_ALEN) == _TRUE)
++			_rtw_memset(mlme->roam_tgt_addr, 0, ETH_ALEN);
++	}
++
++	ret = _SUCCESS;
++exit:
++	_exit_critical_bh(&(mlme->scanned_queue.lock), &irqL);
++
++	return ret;
++}
++#endif /* CONFIG_LAYER2_ROAMING */
++
++/*
++* Select a new join candidate from the original @param candidate and @param competitor
++* @return _TRUE: candidate is updated
++* @return _FALSE: candidate is not updated
++*/
++static int rtw_check_join_candidate(struct mlme_priv *mlme
++	    , struct wlan_network **candidate, struct wlan_network *competitor)
++{
++	int updated = _FALSE;
++	_adapter *adapter = container_of(mlme, _adapter, mlmepriv);
++
++
++	/* check bssid, if needed */
++	if (mlme->assoc_by_bssid == _TRUE) {
++		if (_rtw_memcmp(competitor->network.MacAddress, mlme->assoc_bssid, ETH_ALEN) == _FALSE)
++			goto exit;
++	}
++
++	/* check ssid, if needed */
++	if (mlme->assoc_ssid.Ssid[0] && mlme->assoc_ssid.SsidLength) {
++		if (competitor->network.Ssid.SsidLength != mlme->assoc_ssid.SsidLength
++		    || _rtw_memcmp(competitor->network.Ssid.Ssid, mlme->assoc_ssid.Ssid, mlme->assoc_ssid.SsidLength) == _FALSE
++		   )
++			goto exit;
++	}
++
++	if (rtw_is_desired_network(adapter, competitor)  == _FALSE)
++		goto exit;
++
++#ifdef CONFIG_LAYER2_ROAMING
++	if (rtw_to_roam(adapter) > 0) {
++		if (rtw_get_passing_time_ms((u32)competitor->last_scanned) >= mlme->roam_scanr_exp_ms
++		    || is_same_ess(&competitor->network, &mlme->cur_network.network) == _FALSE
++		   )
++			goto exit;
++	}
++#endif
++
++	if (*candidate == NULL || (*candidate)->network.Rssi < competitor->network.Rssi) {
++		*candidate = competitor;
++		updated = _TRUE;
++	}
++
++	if (updated) {
++		RTW_INFO("[by_bssid:%u][assoc_ssid:%s][to_roam:%u] "
++			 "new candidate: %s("MAC_FMT", ch%u) rssi:%d\n",
++			 mlme->assoc_by_bssid,
++			 mlme->assoc_ssid.Ssid,
++			 rtw_to_roam(adapter),
++			 (*candidate)->network.Ssid.Ssid,
++			 MAC_ARG((*candidate)->network.MacAddress),
++			 (*candidate)->network.Configuration.DSConfig,
++			 (int)(*candidate)->network.Rssi
++			);
++	}
++
++exit:
++	return updated;
++}
++
++/*
++Calling context:
++The caller of the sub-routine will be in critical section...
++
++The caller must hold the following spinlock
++
++pmlmepriv->lock
++
++
++*/
++
++int rtw_select_and_join_from_scanned_queue(struct mlme_priv *pmlmepriv)
++{
++	_irqL	irqL;
++	int ret;
++	_list	*phead;
++	_adapter *adapter;
++	_queue	*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	struct	wlan_network	*candidate = NULL;
++	u8		bSupportAntDiv = _FALSE;
++
++
++	adapter = (_adapter *)pmlmepriv->nic_hdl;
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++#ifdef CONFIG_LAYER2_ROAMING
++	if (pmlmepriv->roam_network) {
++		candidate = pmlmepriv->roam_network;
++		pmlmepriv->roam_network = NULL;
++		goto candidate_exist;
++	}
++#endif
++
++	phead = get_list_head(queue);
++	pmlmepriv->pscanned = get_next(phead);
++
++	while (!rtw_end_of_queue_search(phead, pmlmepriv->pscanned)) {
++
++		pnetwork = LIST_CONTAINOR(pmlmepriv->pscanned, struct wlan_network, list);
++		if (pnetwork == NULL) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		pmlmepriv->pscanned = get_next(pmlmepriv->pscanned);
++
++		if (0)
++			RTW_INFO("%s("MAC_FMT", ch%u) rssi:%d\n"
++				 , pnetwork->network.Ssid.Ssid
++				 , MAC_ARG(pnetwork->network.MacAddress)
++				 , pnetwork->network.Configuration.DSConfig
++				 , (int)pnetwork->network.Rssi);
++
++		rtw_check_join_candidate(pmlmepriv, &candidate, pnetwork);
++
++	}
++
++	if (candidate == NULL) {
++		RTW_INFO("%s: return _FAIL(candidate == NULL)\n", __FUNCTION__);
++#ifdef CONFIG_WOWLAN
++		_clr_fwstate_(pmlmepriv, _FW_LINKED | _FW_UNDER_LINKING);
++#endif
++		ret = _FAIL;
++		goto exit;
++	} else {
++		RTW_INFO("%s: candidate: %s("MAC_FMT", ch:%u)\n", __FUNCTION__,
++			candidate->network.Ssid.Ssid, MAC_ARG(candidate->network.MacAddress),
++			 candidate->network.Configuration.DSConfig);
++		goto candidate_exist;
++	}
++
++candidate_exist:
++
++	/* check for situation of  _FW_LINKED */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++		RTW_INFO("%s: _FW_LINKED while ask_for_joinbss!!!\n", __FUNCTION__);
++
++#if 0 /* for WPA/WPA2 authentication, wpa_supplicant will expect authentication from AP, it is needed to reconnect AP... */
++		if (is_same_network(&pmlmepriv->cur_network.network, &candidate->network)) {
++			RTW_INFO("%s: _FW_LINKED and is same network, it needn't join again\n", __FUNCTION__);
++
++			rtw_indicate_connect(adapter);/* rtw_indicate_connect again */
++
++			ret = 2;
++			goto exit;
++		} else
++#endif
++		{
++			rtw_disassoc_cmd(adapter, 0, _TRUE);
++			rtw_indicate_disconnect(adapter, 0, _FALSE);
++			rtw_free_assoc_resources(adapter, 0);
++		}
++	}
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	rtw_hal_get_def_var(adapter, HAL_DEF_IS_SUPPORT_ANT_DIV, &(bSupportAntDiv));
++	if (_TRUE == bSupportAntDiv) {
++		u8 CurrentAntenna;
++		rtw_hal_get_odm_var(adapter, HAL_ODM_ANTDIV_SELECT, &(CurrentAntenna), NULL);
++		RTW_INFO("#### Opt_Ant_(%s) , cur_Ant(%s)\n",
++			(MAIN_ANT == candidate->network.PhyInfo.Optimum_antenna) ? "MAIN_ANT" : "AUX_ANT",
++			 (MAIN_ANT == CurrentAntenna) ? "MAIN_ANT" : "AUX_ANT"
++			);
++	}
++#endif
++	set_fwstate(pmlmepriv, _FW_UNDER_LINKING);
++	ret = rtw_joinbss_cmd(adapter, candidate);
++
++exit:
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++
++	return ret;
++}
++
++sint rtw_set_auth(_adapter *adapter, struct security_priv *psecuritypriv)
++{
++	struct	cmd_obj *pcmd;
++	struct	setauth_parm *psetauthparm;
++	struct	cmd_priv	*pcmdpriv = &(adapter->cmdpriv);
++	sint		res = _SUCCESS;
++
++
++	pcmd = (struct	cmd_obj *)rtw_zmalloc(sizeof(struct	cmd_obj));
++	if (pcmd == NULL) {
++		res = _FAIL; /* try again */
++		goto exit;
++	}
++
++	psetauthparm = (struct setauth_parm *)rtw_zmalloc(sizeof(struct setauth_parm));
++	if (psetauthparm == NULL) {
++		rtw_mfree((unsigned char *)pcmd, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	_rtw_memset(psetauthparm, 0, sizeof(struct setauth_parm));
++	psetauthparm->mode = (unsigned char)psecuritypriv->dot11AuthAlgrthm;
++
++	pcmd->cmdcode = _SetAuth_CMD_;
++	pcmd->parmbuf = (unsigned char *)psetauthparm;
++	pcmd->cmdsz = (sizeof(struct setauth_parm));
++	pcmd->rsp = NULL;
++	pcmd->rspsz = 0;
++
++
++	_rtw_init_listhead(&pcmd->list);
++
++
++	res = rtw_enqueue_cmd(pcmdpriv, pcmd);
++
++exit:
++
++
++	return res;
++
++}
++
++
++sint rtw_set_key(_adapter *adapter, struct security_priv *psecuritypriv, sint keyid, u8 set_tx, bool enqueue)
++{
++	u8	keylen;
++	struct cmd_obj		*pcmd;
++	struct setkey_parm	*psetkeyparm;
++	struct cmd_priv		*pcmdpriv = &(adapter->cmdpriv);
++	struct mlme_priv		*pmlmepriv = &(adapter->mlmepriv);
++	sint	res = _SUCCESS;
++
++
++	psetkeyparm = (struct setkey_parm *)rtw_zmalloc(sizeof(struct setkey_parm));
++	if (psetkeyparm == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	_rtw_memset(psetkeyparm, 0, sizeof(struct setkey_parm));
++
++	if (psecuritypriv->dot11AuthAlgrthm == dot11AuthAlgrthm_8021X) {
++		psetkeyparm->algorithm = (unsigned char)psecuritypriv->dot118021XGrpPrivacy;
++	} else {
++		psetkeyparm->algorithm = (u8)psecuritypriv->dot11PrivacyAlgrthm;
++
++	}
++	psetkeyparm->keyid = (u8)keyid;/* 0~3 */
++	psetkeyparm->set_tx = set_tx;
++	if (is_wep_enc(psetkeyparm->algorithm))
++		adapter->securitypriv.key_mask |= BIT(psetkeyparm->keyid);
++
++	RTW_INFO("==> rtw_set_key algorithm(%x),keyid(%x),key_mask(%x)\n", psetkeyparm->algorithm, psetkeyparm->keyid, adapter->securitypriv.key_mask);
++
++	switch (psetkeyparm->algorithm) {
++
++	case _WEP40_:
++		keylen = 5;
++		_rtw_memcpy(&(psetkeyparm->key[0]), &(psecuritypriv->dot11DefKey[keyid].skey[0]), keylen);
++		break;
++	case _WEP104_:
++		keylen = 13;
++		_rtw_memcpy(&(psetkeyparm->key[0]), &(psecuritypriv->dot11DefKey[keyid].skey[0]), keylen);
++		break;
++	case _TKIP_:
++		keylen = 16;
++		_rtw_memcpy(&psetkeyparm->key, &psecuritypriv->dot118021XGrpKey[keyid], keylen);
++		psetkeyparm->grpkey = 1;
++		break;
++	case _AES_:
++		keylen = 16;
++		_rtw_memcpy(&psetkeyparm->key, &psecuritypriv->dot118021XGrpKey[keyid], keylen);
++		psetkeyparm->grpkey = 1;
++		break;
++	default:
++		res = _FAIL;
++		rtw_mfree((unsigned char *)psetkeyparm, sizeof(struct setkey_parm));
++		goto exit;
++	}
++
++
++	if (enqueue) {
++		pcmd = (struct	cmd_obj *)rtw_zmalloc(sizeof(struct	cmd_obj));
++		if (pcmd == NULL) {
++			rtw_mfree((unsigned char *)psetkeyparm, sizeof(struct setkey_parm));
++			res = _FAIL; /* try again */
++			goto exit;
++		}
++
++		pcmd->cmdcode = _SetKey_CMD_;
++		pcmd->parmbuf = (u8 *)psetkeyparm;
++		pcmd->cmdsz = (sizeof(struct setkey_parm));
++		pcmd->rsp = NULL;
++		pcmd->rspsz = 0;
++
++		_rtw_init_listhead(&pcmd->list);
++
++		/* _rtw_init_sema(&(pcmd->cmd_sem), 0); */
++
++		res = rtw_enqueue_cmd(pcmdpriv, pcmd);
++	} else {
++		setkey_hdl(adapter, (u8 *)psetkeyparm);
++		rtw_mfree((u8 *) psetkeyparm, sizeof(struct setkey_parm));
++	}
++exit:
++	return res;
++
++}
++
++
++/* adjust IEs for rtw_joinbss_cmd in WMM */
++int rtw_restruct_wmm_ie(_adapter *adapter, u8 *in_ie, u8 *out_ie, uint in_len, uint initial_out_len)
++{
++	unsigned	int ielength = 0;
++	unsigned int i, j;
++
++	i = 12; /* after the fixed IE */
++	while (i < in_len) {
++		ielength = initial_out_len;
++
++		if (in_ie[i] == 0xDD && in_ie[i + 2] == 0x00 && in_ie[i + 3] == 0x50  && in_ie[i + 4] == 0xF2 && in_ie[i + 5] == 0x02 && i + 5 < in_len) { /* WMM element ID and OUI */
++
++			/* Append WMM IE to the last index of out_ie */
++#if 0
++			for (j = i; j < i + (in_ie[i + 1] + 2); j++) {
++				out_ie[ielength] = in_ie[j];
++				ielength++;
++			}
++			out_ie[initial_out_len + 8] = 0x00; /* force the QoS Info Field to be zero */
++#endif
++
++			for (j = i; j < i + 9; j++) {
++				out_ie[ielength] = in_ie[j];
++				ielength++;
++			}
++			out_ie[initial_out_len + 1] = 0x07;
++			out_ie[initial_out_len + 6] = 0x00;
++			out_ie[initial_out_len + 8] = 0x00;
++
++			break;
++		}
++
++		i += (in_ie[i + 1] + 2); /* to the next IE element */
++	}
++
++	return ielength;
++
++}
++
++
++/*
++ * Ported from 8185: IsInPreAuthKeyList(). (Renamed from SecIsInPreAuthKeyList(), 2006-10-13.)
++ * Added by Annie, 2006-05-07.
++ *
++ * Search by BSSID,
++ * Return Value:
++ *		-1		:if there is no pre-auth key in the  table
++ *		>=0		:if there is pre-auth key, and   return the entry id
++ *
++ *   */
++
++static int SecIsInPMKIDList(_adapter *Adapter, u8 *bssid)
++{
++	struct security_priv *psecuritypriv = &Adapter->securitypriv;
++	int i = 0;
++
++	do {
++		if ((psecuritypriv->PMKIDList[i].bUsed) &&
++		    (_rtw_memcmp(psecuritypriv->PMKIDList[i].Bssid, bssid, ETH_ALEN) == _TRUE))
++			break;
++		else {
++			i++;
++			/* continue; */
++		}
++
++	} while (i < NUM_PMKID_CACHE);
++
++	if (i == NUM_PMKID_CACHE) {
++		i = -1;/* Could not find. */
++	} else {
++		/* There is one Pre-Authentication Key for the specific BSSID. */
++	}
++
++	return i;
++
++}
++
++/*
++ * Check the RSN IE length
++ * If the RSN IE length <= 20, the RSN IE didn't include the PMKID information
++ * 0-11th element in the array are the fixed IE
++ * 12th element in the array is the IE
++ * 13th element in the array is the IE length
++ *   */
++
++static int rtw_append_pmkid(_adapter *adapter, int iEntry, u8 *ie, uint ie_len)
++{
++	struct security_priv *sec = &adapter->securitypriv;
++
++	if (ie[13] > 20) {
++		int i;
++		u16 pmkid_cnt = RTW_GET_LE16(ie + 14 + 20);
++		if (pmkid_cnt == 1 && _rtw_memcmp(ie + 14 + 20 + 2, &sec->PMKIDList[iEntry].PMKID, 16)) {
++			RTW_INFO(FUNC_ADPT_FMT" has carried the same PMKID:"KEY_FMT"\n"
++				, FUNC_ADPT_ARG(adapter), KEY_ARG(&sec->PMKIDList[iEntry].PMKID));
++			goto exit;
++		}
++
++		RTW_INFO(FUNC_ADPT_FMT" remove original PMKID, count:%u\n"
++			 , FUNC_ADPT_ARG(adapter), pmkid_cnt);
++
++		for (i = 0; i < pmkid_cnt; i++)
++			RTW_INFO("    "KEY_FMT"\n", KEY_ARG(ie + 14 + 20 + 2 + i * 16));
++
++		ie_len -= 2 + pmkid_cnt * 16;
++		ie[13] = 20;
++	}
++
++	if (ie[13] <= 20) {
++		/* The RSN IE didn't include the PMK ID, append the PMK information */
++
++		RTW_INFO(FUNC_ADPT_FMT" append PMKID:"KEY_FMT"\n"
++			, FUNC_ADPT_ARG(adapter), KEY_ARG(&sec->PMKIDList[iEntry].PMKID));
++
++		RTW_PUT_LE16(&ie[ie_len], 1);
++		ie_len += 2;
++
++		_rtw_memcpy(&ie[ie_len], &sec->PMKIDList[iEntry].PMKID, 16);
++		ie_len += 16;
++
++		ie[13] += 18;/* PMKID length = 2+16 */
++	}
++
++exit:
++	return ie_len;
++}
++
++static int rtw_remove_pmkid(_adapter *adapter, u8 *ie, uint ie_len)
++{
++	struct security_priv *sec = &adapter->securitypriv;
++	int i;
++	u16 pmkid_cnt = RTW_GET_LE16(ie + 14 + 20);
++
++	if (ie[13] <= 20)
++		goto exit;
++
++	RTW_INFO(FUNC_ADPT_FMT" remove original PMKID, count:%u\n"
++		 , FUNC_ADPT_ARG(adapter), pmkid_cnt);
++
++	for (i = 0; i < pmkid_cnt; i++)
++		RTW_INFO("    "KEY_FMT"\n", KEY_ARG(ie + 14 + 20 + 2 + i * 16));
++
++	ie_len -= 2 + pmkid_cnt * 16;
++	ie[13] = 20;
++
++exit:
++	return ie_len;
++}
++
++sint rtw_restruct_sec_ie(_adapter *adapter, u8 *in_ie, u8 *out_ie, uint in_len)
++{
++	u8 authmode = 0x0, securitytype, match;
++	u8 sec_ie[255], uncst_oui[4], bkup_ie[255];
++	u8 wpa_oui[4] = {0x0, 0x50, 0xf2, 0x01};
++	uint	ielength, cnt, remove_cnt;
++	int iEntry;
++
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++	uint	ndisauthmode = psecuritypriv->ndisauthtype;
++	uint ndissecuritytype = psecuritypriv->ndisencryptstatus;
++
++
++
++	/* copy fixed ie only */
++	_rtw_memcpy(out_ie, in_ie, 12);
++	ielength = 12;
++	if ((ndisauthmode == Ndis802_11AuthModeWPA) || (ndisauthmode == Ndis802_11AuthModeWPAPSK))
++		authmode = _WPA_IE_ID_;
++	if ((ndisauthmode == Ndis802_11AuthModeWPA2) || (ndisauthmode == Ndis802_11AuthModeWPA2PSK))
++		authmode = _WPA2_IE_ID_;
++
++	if (check_fwstate(pmlmepriv, WIFI_UNDER_WPS)) {
++		_rtw_memcpy(out_ie + ielength, psecuritypriv->wps_ie, psecuritypriv->wps_ie_len);
++
++		ielength += psecuritypriv->wps_ie_len;
++	} else if ((authmode == _WPA_IE_ID_) || (authmode == _WPA2_IE_ID_)) {
++		/* copy RSN or SSN		 */
++		_rtw_memcpy(&out_ie[ielength], &psecuritypriv->supplicant_ie[0], psecuritypriv->supplicant_ie[1] + 2);
++		/* debug for CONFIG_IEEE80211W
++		{
++			int jj;
++			printk("supplicant_ie_length=%d &&&&&&&&&&&&&&&&&&&\n", psecuritypriv->supplicant_ie[1]+2);
++			for(jj=0; jj < psecuritypriv->supplicant_ie[1]+2; jj++)
++				printk(" %02x ", psecuritypriv->supplicant_ie[jj]);
++			printk("\n");
++		}*/
++		ielength += psecuritypriv->supplicant_ie[1] + 2;
++		rtw_report_sec_ie(adapter, authmode, psecuritypriv->supplicant_ie);
++
++#ifdef CONFIG_DRVEXT_MODULE
++		drvext_report_sec_ie(&adapter->drvextpriv, authmode, sec_ie);
++#endif
++	}
++
++	iEntry = SecIsInPMKIDList(adapter, pmlmepriv->assoc_bssid);
++	if (iEntry < 0) {
++		if (authmode == _WPA2_IE_ID_)
++			ielength = rtw_remove_pmkid(adapter, out_ie, ielength);
++	} else {
++		if (authmode == _WPA2_IE_ID_)
++			ielength = rtw_append_pmkid(adapter, iEntry, out_ie, ielength);
++	}
++
++
++	return ielength;
++}
++
++void rtw_init_registrypriv_dev_network(_adapter *adapter)
++{
++	struct registry_priv *pregistrypriv = &adapter->registrypriv;
++	WLAN_BSSID_EX    *pdev_network = &pregistrypriv->dev_network;
++	u8 *myhwaddr = adapter_mac_addr(adapter);
++
++
++	_rtw_memcpy(pdev_network->MacAddress, myhwaddr, ETH_ALEN);
++
++	_rtw_memcpy(&pdev_network->Ssid, &pregistrypriv->ssid, sizeof(NDIS_802_11_SSID));
++
++	pdev_network->Configuration.Length = sizeof(NDIS_802_11_CONFIGURATION);
++	pdev_network->Configuration.BeaconPeriod = 100;
++	pdev_network->Configuration.FHConfig.Length = 0;
++	pdev_network->Configuration.FHConfig.HopPattern = 0;
++	pdev_network->Configuration.FHConfig.HopSet = 0;
++	pdev_network->Configuration.FHConfig.DwellTime = 0;
++
++
++
++}
++
++void rtw_update_registrypriv_dev_network(_adapter *adapter)
++{
++	int sz = 0;
++	struct registry_priv *pregistrypriv = &adapter->registrypriv;
++	WLAN_BSSID_EX    *pdev_network = &pregistrypriv->dev_network;
++	struct	security_priv	*psecuritypriv = &adapter->securitypriv;
++	struct	wlan_network	*cur_network = &adapter->mlmepriv.cur_network;
++	/* struct	xmit_priv	*pxmitpriv = &adapter->xmitpriv; */
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++
++
++#if 0
++	pxmitpriv->vcs_setting = pregistrypriv->vrtl_carrier_sense;
++	pxmitpriv->vcs = pregistrypriv->vcs_type;
++	pxmitpriv->vcs_type = pregistrypriv->vcs_type;
++	/* pxmitpriv->rts_thresh = pregistrypriv->rts_thresh; */
++	pxmitpriv->frag_len = pregistrypriv->frag_thresh;
++
++	adapter->qospriv.qos_option = pregistrypriv->wmm_enable;
++#endif
++
++	pdev_network->Privacy = (psecuritypriv->dot11PrivacyAlgrthm > 0 ? 1 : 0) ; /* adhoc no 802.1x */
++
++	pdev_network->Rssi = 0;
++
++	switch (pregistrypriv->wireless_mode) {
++	case WIRELESS_11B:
++		pdev_network->NetworkTypeInUse = (Ndis802_11DS);
++		break;
++	case WIRELESS_11G:
++	case WIRELESS_11BG:
++	case WIRELESS_11_24N:
++	case WIRELESS_11G_24N:
++	case WIRELESS_11BG_24N:
++		pdev_network->NetworkTypeInUse = (Ndis802_11OFDM24);
++		break;
++	case WIRELESS_11A:
++	case WIRELESS_11A_5N:
++		pdev_network->NetworkTypeInUse = (Ndis802_11OFDM5);
++		break;
++	case WIRELESS_11ABGN:
++		if (pregistrypriv->channel > 14)
++			pdev_network->NetworkTypeInUse = (Ndis802_11OFDM5);
++		else
++			pdev_network->NetworkTypeInUse = (Ndis802_11OFDM24);
++		break;
++	default:
++		/* TODO */
++		break;
++	}
++
++	pdev_network->Configuration.DSConfig = (pregistrypriv->channel);
++
++	if (cur_network->network.InfrastructureMode == Ndis802_11IBSS) {
++		pdev_network->Configuration.ATIMWindow = (0);
++
++		if (pmlmeext->cur_channel != 0)
++			pdev_network->Configuration.DSConfig = pmlmeext->cur_channel;
++		else
++			pdev_network->Configuration.DSConfig = 1;
++	}
++
++	pdev_network->InfrastructureMode = (cur_network->network.InfrastructureMode);
++
++	/* 1. Supported rates */
++	/* 2. IE */
++
++	/* rtw_set_supported_rate(pdev_network->SupportedRates, pregistrypriv->wireless_mode) ; */ /* will be called in rtw_generate_ie */
++	sz = rtw_generate_ie(pregistrypriv);
++
++	pdev_network->IELength = sz;
++
++	pdev_network->Length = get_WLAN_BSSID_EX_sz((WLAN_BSSID_EX *)pdev_network);
++
++	/* notes: translate IELength & Length after assign the Length to cmdsz in createbss_cmd(); */
++	/* pdev_network->IELength = cpu_to_le32(sz); */
++
++
++}
++
++void rtw_get_encrypt_decrypt_from_registrypriv(_adapter *adapter)
++{
++
++
++
++}
++
++/* the fucntion is at passive_level */
++void rtw_joinbss_reset(_adapter *padapter)
++{
++	u8	threshold;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	/* todo: if you want to do something io/reg/hw setting before join_bss, please add code here */
++
++#ifdef CONFIG_80211N_HT
++	struct ht_priv		*phtpriv = &pmlmepriv->htpriv;
++
++	pmlmepriv->num_FortyMHzIntolerant = 0;
++
++	pmlmepriv->num_sta_no_ht = 0;
++
++	phtpriv->ampdu_enable = _FALSE;/* reset to disabled */
++
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI)
++	/* TH=1 => means that invalidate usb rx aggregation */
++	/* TH=0 => means that validate usb rx aggregation, use init value. */
++	if (phtpriv->ht_option) {
++		if (padapter->registrypriv.wifi_spec == 1)
++			threshold = 1;
++		else
++			threshold = 0;
++		rtw_hal_set_hwreg(padapter, HW_VAR_RXDMA_AGG_PG_TH, (u8 *)(&threshold));
++	} else {
++		threshold = 1;
++		rtw_hal_set_hwreg(padapter, HW_VAR_RXDMA_AGG_PG_TH, (u8 *)(&threshold));
++	}
++#endif/* #if defined( CONFIG_USB_HCI) || defined (CONFIG_SDIO_HCI) */
++
++#endif/* #ifdef CONFIG_80211N_HT */
++
++}
++
++
++#ifdef CONFIG_80211N_HT
++void	rtw_ht_use_default_setting(_adapter *padapter)
++{
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct ht_priv		*phtpriv = &pmlmepriv->htpriv;
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	BOOLEAN		bHwLDPCSupport = _FALSE, bHwSTBCSupport = _FALSE;
++#ifdef CONFIG_BEAMFORMING
++	BOOLEAN		bHwSupportBeamformer = _FALSE, bHwSupportBeamformee = _FALSE;
++#endif /* CONFIG_BEAMFORMING */
++
++	if (pregistrypriv->wifi_spec)
++		phtpriv->bss_coexist = 1;
++	else
++		phtpriv->bss_coexist = 0;
++
++	phtpriv->sgi_40m = TEST_FLAG(pregistrypriv->short_gi, BIT1) ? _TRUE : _FALSE;
++	phtpriv->sgi_20m = TEST_FLAG(pregistrypriv->short_gi, BIT0) ? _TRUE : _FALSE;
++
++	/* LDPC support */
++	rtw_hal_get_def_var(padapter, HAL_DEF_RX_LDPC, (u8 *)&bHwLDPCSupport);
++	CLEAR_FLAGS(phtpriv->ldpc_cap);
++	if (bHwLDPCSupport) {
++		if (TEST_FLAG(pregistrypriv->ldpc_cap, BIT4))
++			SET_FLAG(phtpriv->ldpc_cap, LDPC_HT_ENABLE_RX);
++	}
++	rtw_hal_get_def_var(padapter, HAL_DEF_TX_LDPC, (u8 *)&bHwLDPCSupport);
++	if (bHwLDPCSupport) {
++		if (TEST_FLAG(pregistrypriv->ldpc_cap, BIT5))
++			SET_FLAG(phtpriv->ldpc_cap, LDPC_HT_ENABLE_TX);
++	}
++	if (phtpriv->ldpc_cap)
++		RTW_INFO("[HT] HAL Support LDPC = 0x%02X\n", phtpriv->ldpc_cap);
++
++	/* STBC */
++	rtw_hal_get_def_var(padapter, HAL_DEF_TX_STBC, (u8 *)&bHwSTBCSupport);
++	CLEAR_FLAGS(phtpriv->stbc_cap);
++	if (bHwSTBCSupport) {
++		if (TEST_FLAG(pregistrypriv->stbc_cap, BIT5))
++			SET_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_TX);
++	}
++	rtw_hal_get_def_var(padapter, HAL_DEF_RX_STBC, (u8 *)&bHwSTBCSupport);
++	if (bHwSTBCSupport) {
++		if (TEST_FLAG(pregistrypriv->stbc_cap, BIT4))
++			SET_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_RX);
++	}
++	if (phtpriv->stbc_cap)
++		RTW_INFO("[HT] HAL Support STBC = 0x%02X\n", phtpriv->stbc_cap);
++
++	/* Beamforming setting */
++	CLEAR_FLAGS(phtpriv->beamform_cap);
++#ifdef CONFIG_BEAMFORMING
++	rtw_hal_get_def_var(padapter, HAL_DEF_EXPLICIT_BEAMFORMER, (u8 *)&bHwSupportBeamformer);
++	rtw_hal_get_def_var(padapter, HAL_DEF_EXPLICIT_BEAMFORMEE, (u8 *)&bHwSupportBeamformee);
++	if (TEST_FLAG(pregistrypriv->beamform_cap, BIT4) && bHwSupportBeamformer) {
++		SET_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE);
++		RTW_INFO("[HT] HAL Support Beamformer\n");
++	}
++	if (TEST_FLAG(pregistrypriv->beamform_cap, BIT5) && bHwSupportBeamformee) {
++		SET_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE);
++		RTW_INFO("[HT] HAL Support Beamformee\n");
++	}
++#endif /* CONFIG_BEAMFORMING */
++}
++void rtw_build_wmm_ie_ht(_adapter *padapter, u8 *out_ie, uint *pout_len)
++{
++	unsigned char WMM_IE[] = {0x00, 0x50, 0xf2, 0x02, 0x00, 0x01, 0x00};
++	int out_len;
++	u8 *pframe;
++
++	if (padapter->mlmepriv.qospriv.qos_option == 0) {
++		out_len = *pout_len;
++		pframe = rtw_set_ie(out_ie + out_len, _VENDOR_SPECIFIC_IE_,
++				    _WMM_IE_Length_, WMM_IE, pout_len);
++
++		padapter->mlmepriv.qospriv.qos_option = 1;
++	}
++}
++
++/* the fucntion is >= passive_level */
++unsigned int rtw_restructure_ht_ie(_adapter *padapter, u8 *in_ie, u8 *out_ie, uint in_len, uint *pout_len, u8 channel)
++{
++	u32 ielen, out_len;
++	u32 rx_packet_offset, max_recvbuf_sz;
++	HT_CAP_AMPDU_FACTOR max_rx_ampdu_factor;
++	HT_CAP_AMPDU_DENSITY best_ampdu_density;
++	unsigned char *p, *pframe;
++	struct rtw_ieee80211_ht_cap ht_capie;
++	u8	cbw40_enable = 0, rf_type = 0, operation_bw = 0, rf_num = 0, rx_stbc_nss = 0;
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct ht_priv		*phtpriv = &pmlmepriv->htpriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	phtpriv->ht_option = _FALSE;
++
++	out_len = *pout_len;
++
++	_rtw_memset(&ht_capie, 0, sizeof(struct rtw_ieee80211_ht_cap));
++
++	ht_capie.cap_info = IEEE80211_HT_CAP_DSSSCCK40;
++
++	if (phtpriv->sgi_20m)
++		ht_capie.cap_info |= IEEE80211_HT_CAP_SGI_20;
++
++	/* Get HT BW */
++	if (in_ie == NULL) {
++		/* TDLS: TODO 20/40 issue */
++		if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++			operation_bw = padapter->mlmeextpriv.cur_bwmode;
++			if (operation_bw > CHANNEL_WIDTH_40)
++				operation_bw = CHANNEL_WIDTH_40;
++		} else
++			/* TDLS: TODO 40? */
++			operation_bw = CHANNEL_WIDTH_40;
++	} else {
++		p = rtw_get_ie(in_ie, _HT_ADD_INFO_IE_, &ielen, in_len);
++		if (p && (ielen == sizeof(struct ieee80211_ht_addt_info))) {
++			struct HT_info_element *pht_info = (struct HT_info_element *)(p + 2);
++			if (pht_info->infos[0] & BIT(2)) {
++				switch (pht_info->infos[0] & 0x3) {
++				case 1:
++				case 3:
++					operation_bw = CHANNEL_WIDTH_40;
++					break;
++				default:
++					operation_bw = CHANNEL_WIDTH_20;
++					break;
++				}
++			} else
++				operation_bw = CHANNEL_WIDTH_20;
++		}
++	}
++
++	/* to disable 40M Hz support while gd_bw_40MHz_en = 0 */
++	if (hal_chk_bw_cap(padapter, BW_CAP_40M)) {
++		if (channel > 14) {
++			if (REGSTY_IS_BW_5G_SUPPORT(pregistrypriv, CHANNEL_WIDTH_40))
++				cbw40_enable = 1;
++		} else {
++			if (REGSTY_IS_BW_2G_SUPPORT(pregistrypriv, CHANNEL_WIDTH_40))
++				cbw40_enable = 1;
++		}
++	}
++
++	if ((cbw40_enable == 1) && (operation_bw == CHANNEL_WIDTH_40)) {
++		ht_capie.cap_info |= IEEE80211_HT_CAP_SUP_WIDTH;
++		if (phtpriv->sgi_40m)
++			ht_capie.cap_info |= IEEE80211_HT_CAP_SGI_40;
++	}
++
++	/* todo: disable SM power save mode */
++	ht_capie.cap_info |= IEEE80211_HT_CAP_SM_PS;
++
++	/* RX LDPC */
++	if (TEST_FLAG(phtpriv->ldpc_cap, LDPC_HT_ENABLE_RX)) {
++		ht_capie.cap_info |= IEEE80211_HT_CAP_LDPC_CODING;
++		RTW_INFO("[HT] Declare supporting RX LDPC\n");
++	}
++
++	/* TX STBC */
++	if (TEST_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_TX)) {
++		ht_capie.cap_info |= IEEE80211_HT_CAP_TX_STBC;
++		RTW_INFO("[HT] Declare supporting TX STBC\n");
++	}
++
++	/* RX STBC */
++	if (TEST_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_RX)) {
++		if ((pregistrypriv->rx_stbc == 0x3) ||							/* enable for 2.4/5 GHz */
++		    ((channel <= 14) && (pregistrypriv->rx_stbc == 0x1)) ||		/* enable for 2.4GHz */
++		    ((channel > 14) && (pregistrypriv->rx_stbc == 0x2)) ||		/* enable for 5GHz */
++		    (pregistrypriv->wifi_spec == 1)) {
++			/* HAL_DEF_RX_STBC means STBC RX spatial stream, todo: VHT 4 streams */
++			rtw_hal_get_def_var(padapter, HAL_DEF_RX_STBC, (u8 *)(&rx_stbc_nss));
++			SET_HT_CAP_ELE_RX_STBC(&ht_capie, rx_stbc_nss);
++			RTW_INFO("[HT] Declare supporting RX STBC = %d\n", rx_stbc_nss);
++		}
++	}
++
++	/* fill default supported_mcs_set */
++	_rtw_memcpy(ht_capie.supp_mcs_set, pmlmeext->default_supported_mcs_set, 16);
++
++	/* update default supported_mcs_set */
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++	switch (rf_type) {
++	case RF_1T1R:
++		set_mcs_rate_by_mask(ht_capie.supp_mcs_set, MCS_RATE_1R);
++		break;
++
++	case RF_2T2R:
++	case RF_1T2R:
++#ifdef CONFIG_DISABLE_MCS13TO15
++		if (((cbw40_enable == 1) && (operation_bw == CHANNEL_WIDTH_40)) && (pregistrypriv->wifi_spec != 1))
++			set_mcs_rate_by_mask(ht_capie.supp_mcs_set, MCS_RATE_2R_13TO15_OFF);
++		else
++			set_mcs_rate_by_mask(ht_capie.supp_mcs_set, MCS_RATE_2R);
++#else /* CONFIG_DISABLE_MCS13TO15 */
++		set_mcs_rate_by_mask(ht_capie.supp_mcs_set, MCS_RATE_2R);
++#endif /* CONFIG_DISABLE_MCS13TO15 */
++		break;
++	case RF_3T3R:
++		set_mcs_rate_by_mask(ht_capie.supp_mcs_set, MCS_RATE_3R);
++		break;
++	default:
++		RTW_INFO("[warning] rf_type %d is not expected\n", rf_type);
++	}
++
++	{
++		rtw_hal_get_def_var(padapter, HAL_DEF_RX_PACKET_OFFSET, &rx_packet_offset);
++		rtw_hal_get_def_var(padapter, HAL_DEF_MAX_RECVBUF_SZ, &max_recvbuf_sz);
++		if (max_recvbuf_sz - rx_packet_offset >= (8191 - 256)) {
++			RTW_INFO("%s IEEE80211_HT_CAP_MAX_AMSDU is set\n", __FUNCTION__);
++			ht_capie.cap_info = ht_capie.cap_info | IEEE80211_HT_CAP_MAX_AMSDU;
++		}
++	}
++	/*
++	AMPDU_para [1:0]:Max AMPDU Len => 0:8k , 1:16k, 2:32k, 3:64k
++	AMPDU_para [4:2]:Min MPDU Start Spacing
++	*/
++
++	/*
++	#if defined(CONFIG_RTL8188E) && defined(CONFIG_SDIO_HCI)
++	ht_capie.ampdu_params_info = 2;
++	#else
++	ht_capie.ampdu_params_info = (IEEE80211_HT_CAP_AMPDU_FACTOR&0x03);
++	#endif
++	*/
++
++	if (padapter->driver_rx_ampdu_factor != 0xFF)
++		max_rx_ampdu_factor = (HT_CAP_AMPDU_FACTOR)padapter->driver_rx_ampdu_factor;
++	else
++		rtw_hal_get_def_var(padapter, HW_VAR_MAX_RX_AMPDU_FACTOR, &max_rx_ampdu_factor);
++
++	/* rtw_hal_get_def_var(padapter, HW_VAR_MAX_RX_AMPDU_FACTOR, &max_rx_ampdu_factor); */
++	ht_capie.ampdu_params_info = (max_rx_ampdu_factor & 0x03);
++
++	if (padapter->driver_rx_ampdu_spacing != 0xFF)
++		ht_capie.ampdu_params_info |= ((padapter->driver_rx_ampdu_spacing & 0x07) << 2);
++	else {
++		if (padapter->securitypriv.dot11PrivacyAlgrthm == _AES_) {
++			/*
++			*	Todo : Each chip must to ask DD , this chip best ampdu_density setting
++			*	By yiwei.sun
++			*/
++			rtw_hal_get_def_var(padapter, HW_VAR_BEST_AMPDU_DENSITY, &best_ampdu_density);
++
++			ht_capie.ampdu_params_info |= (IEEE80211_HT_CAP_AMPDU_DENSITY & (best_ampdu_density << 2));
++
++		} else
++			ht_capie.ampdu_params_info |= (IEEE80211_HT_CAP_AMPDU_DENSITY & 0x00);
++	}
++#ifdef CONFIG_BEAMFORMING
++	ht_capie.tx_BF_cap_info = 0;
++
++	/* HT Beamformer*/
++	if (TEST_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE)) {
++		/* Transmit NDP Capable */
++		SET_HT_CAP_TXBF_TRANSMIT_NDP_CAP(&ht_capie, 1);
++		/* Explicit Compressed Steering Capable */
++		SET_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP(&ht_capie, 1);
++		/* Compressed Steering Number Antennas */
++		SET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS(&ht_capie, 1);
++		rtw_hal_get_def_var(padapter, HAL_DEF_BEAMFORMER_CAP, (u8 *)&rf_num);
++		SET_HT_CAP_TXBF_CHNL_ESTIMATION_NUM_ANTENNAS(&ht_capie, rf_num);
++	}
++
++	/* HT Beamformee */
++	if (TEST_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE)) {
++		/* Receive NDP Capable */
++		SET_HT_CAP_TXBF_RECEIVE_NDP_CAP(&ht_capie, 1);
++		/* Explicit Compressed Beamforming Feedback Capable */
++		SET_HT_CAP_TXBF_EXPLICIT_COMP_FEEDBACK_CAP(&ht_capie, 2);
++		rtw_hal_get_def_var(padapter, HAL_DEF_BEAMFORMEE_CAP, (u8 *)&rf_num);
++		SET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS(&ht_capie, rf_num);
++	}
++#endif/*CONFIG_BEAMFORMING*/
++
++	pframe = rtw_set_ie(out_ie + out_len, _HT_CAPABILITY_IE_,
++		sizeof(struct rtw_ieee80211_ht_cap), (unsigned char *)&ht_capie, pout_len);
++
++	phtpriv->ht_option = _TRUE;
++
++	if (in_ie != NULL) {
++		p = rtw_get_ie(in_ie, _HT_ADD_INFO_IE_, &ielen, in_len);
++		if (p && (ielen == sizeof(struct ieee80211_ht_addt_info))) {
++			out_len = *pout_len;
++			pframe = rtw_set_ie(out_ie + out_len, _HT_ADD_INFO_IE_, ielen, p + 2 , pout_len);
++		}
++	}
++
++	return phtpriv->ht_option;
++
++}
++
++/* the fucntion is > passive_level (in critical_section) */
++void rtw_update_ht_cap(_adapter *padapter, u8 *pie, uint ie_len, u8 channel)
++{
++	u8 *p, max_ampdu_sz;
++	int len;
++	/* struct sta_info *bmc_sta, *psta; */
++	struct rtw_ieee80211_ht_cap *pht_capie;
++	struct ieee80211_ht_addt_info *pht_addtinfo;
++	/* struct recv_reorder_ctrl *preorder_ctrl; */
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct ht_priv		*phtpriv = &pmlmepriv->htpriv;
++	/* struct recv_priv *precvpriv = &padapter->recvpriv; */
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	/* struct wlan_network *pcur_network = &(pmlmepriv->cur_network);; */
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 cbw40_enable = 0;
++
++
++	if (!phtpriv->ht_option)
++		return;
++
++	if ((!pmlmeinfo->HT_info_enable) || (!pmlmeinfo->HT_caps_enable))
++		return;
++
++	RTW_INFO("+rtw_update_ht_cap()\n");
++
++	/* maybe needs check if ap supports rx ampdu. */
++	if ((phtpriv->ampdu_enable == _FALSE) && (pregistrypriv->ampdu_enable == 1)) {
++		if (pregistrypriv->wifi_spec == 1) {
++			/* remove this part because testbed AP should disable RX AMPDU */
++			/* phtpriv->ampdu_enable = _FALSE; */
++			phtpriv->ampdu_enable = _TRUE;
++		} else
++			phtpriv->ampdu_enable = _TRUE;
++	} 
++
++
++	/* check Max Rx A-MPDU Size */
++	len = 0;
++	p = rtw_get_ie(pie + sizeof(NDIS_802_11_FIXED_IEs), _HT_CAPABILITY_IE_, &len, ie_len - sizeof(NDIS_802_11_FIXED_IEs));
++	if (p && len > 0) {
++		pht_capie = (struct rtw_ieee80211_ht_cap *)(p + 2);
++		max_ampdu_sz = (pht_capie->ampdu_params_info & IEEE80211_HT_CAP_AMPDU_FACTOR);
++		max_ampdu_sz = 1 << (max_ampdu_sz + 3); /* max_ampdu_sz (kbytes); */
++
++		/* RTW_INFO("rtw_update_ht_cap(): max_ampdu_sz=%d\n", max_ampdu_sz); */
++		phtpriv->rx_ampdu_maxlen = max_ampdu_sz;
++
++	}
++
++
++	len = 0;
++	p = rtw_get_ie(pie + sizeof(NDIS_802_11_FIXED_IEs), _HT_ADD_INFO_IE_, &len, ie_len - sizeof(NDIS_802_11_FIXED_IEs));
++	if (p && len > 0) {
++		pht_addtinfo = (struct ieee80211_ht_addt_info *)(p + 2);
++		/* todo: */
++	}
++
++	if (hal_chk_bw_cap(padapter, BW_CAP_40M)) {
++		if (channel > 14) {
++			if (REGSTY_IS_BW_5G_SUPPORT(pregistrypriv, CHANNEL_WIDTH_40))
++				cbw40_enable = 1;
++		} else {
++			if (REGSTY_IS_BW_2G_SUPPORT(pregistrypriv, CHANNEL_WIDTH_40))
++				cbw40_enable = 1;
++		}
++	}
++
++	/* update cur_bwmode & cur_ch_offset */
++	if ((cbw40_enable) &&
++	    (pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info & BIT(1)) &&
++	    (pmlmeinfo->HT_info.infos[0] & BIT(2))) {
++		int i;
++		u8	rf_type = RF_1T1R;
++
++		rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++		/* update the MCS set */
++		for (i = 0; i < 16; i++)
++			pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate[i] &= pmlmeext->default_supported_mcs_set[i];
++
++		/* update the MCS rates */
++		switch (rf_type) {
++		case RF_1T1R:
++		case RF_1T2R:
++			set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_1R);
++			break;
++		case RF_2T2R:
++#ifdef CONFIG_DISABLE_MCS13TO15
++			if (pmlmeext->cur_bwmode == CHANNEL_WIDTH_40 && pregistrypriv->wifi_spec != 1)
++				set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_2R_13TO15_OFF);
++			else
++				set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_2R);
++#else /* CONFIG_DISABLE_MCS13TO15 */
++			set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_2R);
++#endif /* CONFIG_DISABLE_MCS13TO15 */
++			break;
++		case RF_3T3R:
++			set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_3R);
++			break;
++		default:
++			RTW_INFO("[warning] rf_type %d is not expected\n", rf_type);
++		}
++
++		/* switch to the 40M Hz mode accoring to the AP */
++		/* pmlmeext->cur_bwmode = CHANNEL_WIDTH_40; */
++		switch ((pmlmeinfo->HT_info.infos[0] & 0x3)) {
++		case EXTCHNL_OFFSET_UPPER:
++			pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++			break;
++
++		case EXTCHNL_OFFSET_LOWER:
++			pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++			break;
++
++		default:
++			pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++			break;
++		}
++	}
++
++	/*  */
++	/* Config SM Power Save setting */
++	/*  */
++	pmlmeinfo->SM_PS = (pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info & 0x0C) >> 2;
++	if (pmlmeinfo->SM_PS == WLAN_HT_CAP_SM_PS_STATIC) {
++#if 0
++		u8 i;
++		/* update the MCS rates */
++		for (i = 0; i < 16; i++)
++			pmlmeinfo->HT_caps.HT_cap_element.MCS_rate[i] &= MCS_rate_1R[i];
++#endif
++		RTW_INFO("%s(): WLAN_HT_CAP_SM_PS_STATIC\n", __FUNCTION__);
++	}
++
++	/*  */
++	/* Config current HT Protection mode. */
++	/*  */
++	pmlmeinfo->HT_protection = pmlmeinfo->HT_info.infos[1] & 0x3;
++
++
++
++#if 0 /* move to rtw_update_sta_info_client() */
++	/* for A-MPDU Rx reordering buffer control for bmc_sta & sta_info */
++	/* if A-MPDU Rx is enabled, reseting  rx_ordering_ctrl wstart_b(indicate_seq) to default value=0xffff */
++	/* todo: check if AP can send A-MPDU packets */
++	bmc_sta = rtw_get_bcmc_stainfo(padapter);
++	if (bmc_sta) {
++		for (i = 0; i < 16 ; i++) {
++			/* preorder_ctrl = &precvpriv->recvreorder_ctrl[i]; */
++			preorder_ctrl = &bmc_sta->recvreorder_ctrl[i];
++			preorder_ctrl->enable = _FALSE;
++			preorder_ctrl->indicate_seq = 0xffff;
++#ifdef DBG_RX_SEQ
++			RTW_INFO("DBG_RX_SEQ %s:%d indicate_seq:%u\n", __FUNCTION__, __LINE__,
++				 preorder_ctrl->indicate_seq);
++#endif
++			preorder_ctrl->wend_b = 0xffff;
++			preorder_ctrl->wsize_b = 64;/* max_ampdu_sz; */ /* ex. 32(kbytes) -> wsize_b=32 */
++		}
++	}
++
++	psta = rtw_get_stainfo(&padapter->stapriv, pcur_network->network.MacAddress);
++	if (psta) {
++		for (i = 0; i < 16 ; i++) {
++			/* preorder_ctrl = &precvpriv->recvreorder_ctrl[i]; */
++			preorder_ctrl = &psta->recvreorder_ctrl[i];
++			preorder_ctrl->enable = _FALSE;
++			preorder_ctrl->indicate_seq = 0xffff;
++#ifdef DBG_RX_SEQ
++			RTW_INFO("DBG_RX_SEQ %s:%d indicate_seq:%u\n", __FUNCTION__, __LINE__,
++				 preorder_ctrl->indicate_seq);
++#endif
++			preorder_ctrl->wend_b = 0xffff;
++			preorder_ctrl->wsize_b = 64;/* max_ampdu_sz; */ /* ex. 32(kbytes) -> wsize_b=32 */
++		}
++	}
++#endif
++
++}
++
++#ifdef CONFIG_TDLS
++void rtw_issue_addbareq_cmd_tdls(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	struct sta_info *ptdls_sta = NULL;
++	u8 issued;
++	int priority;
++	struct ht_priv	*phtpriv;
++
++	priority = pattrib->priority;
++
++	if (pattrib->direct_link == _TRUE) {
++		ptdls_sta = rtw_get_stainfo(&padapter->stapriv, pattrib->dst);
++		if ((ptdls_sta != NULL) && (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE)) {
++			phtpriv = &ptdls_sta->htpriv;
++
++			if ((phtpriv->ht_option == _TRUE) && (phtpriv->ampdu_enable == _TRUE)) {
++				issued = (phtpriv->agg_enable_bitmap >> priority) & 0x1;
++				issued |= (phtpriv->candidate_tid_bitmap >> priority) & 0x1;
++
++				if (0 == issued) {
++					RTW_INFO("[%s], p=%d\n", __FUNCTION__, priority);
++					ptdls_sta->htpriv.candidate_tid_bitmap |= BIT((u8)priority);
++					rtw_addbareq_cmd(padapter, (u8)priority, pattrib->dst);
++				}
++			}
++		}
++	}
++}
++#endif /* CONFIG_TDLS */
++
++void rtw_issue_addbareq_cmd(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	u8 issued;
++	int priority;
++	struct sta_info *psta = NULL;
++	struct ht_priv	*phtpriv;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	s32 bmcst = IS_MCAST(pattrib->ra);
++
++	/* if(bmcst || (padapter->mlmepriv.LinkDetectInfo.bTxBusyTraffic == _FALSE)) */
++	if (bmcst || (padapter->mlmepriv.LinkDetectInfo.NumTxOkInPeriod < 100))
++		return;
++
++	priority = pattrib->priority;
++
++#ifdef CONFIG_TDLS
++	rtw_issue_addbareq_cmd_tdls(padapter, pxmitframe);
++#endif /* CONFIG_TDLS */
++
++	psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++	if (pattrib->psta != psta) {
++		RTW_INFO("%s, pattrib->psta(%p) != psta(%p)\n", __func__, pattrib->psta, psta);
++		return;
++	}
++
++	if (psta == NULL) {
++		RTW_INFO("%s, psta==NUL\n", __func__);
++		return;
++	}
++
++	if (!(psta->state & _FW_LINKED)) {
++		RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++		return;
++	}
++
++
++	phtpriv = &psta->htpriv;
++
++	if ((phtpriv->ht_option == _TRUE) && (phtpriv->ampdu_enable == _TRUE)) {
++		issued = (phtpriv->agg_enable_bitmap >> priority) & 0x1;
++		issued |= (phtpriv->candidate_tid_bitmap >> priority) & 0x1;
++
++		if (0 == issued) {
++			RTW_INFO("rtw_issue_addbareq_cmd, p=%d\n", priority);
++			psta->htpriv.candidate_tid_bitmap |= BIT((u8)priority);
++			rtw_addbareq_cmd(padapter, (u8) priority, pattrib->ra);
++		}
++	}
++
++}
++
++void rtw_append_exented_cap(_adapter *padapter, u8 *out_ie, uint *pout_len)
++{
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct ht_priv		*phtpriv = &pmlmepriv->htpriv;
++#ifdef CONFIG_80211AC_VHT
++	struct vht_priv	*pvhtpriv = &pmlmepriv->vhtpriv;
++#endif /* CONFIG_80211AC_VHT */
++	u8	cap_content[8] = { 0 };
++	u8	*pframe;
++	u8   null_content[8] = {0};
++
++	if (phtpriv->bss_coexist)
++		SET_EXT_CAPABILITY_ELE_BSS_COEXIST(cap_content, 1);
++
++#ifdef CONFIG_80211AC_VHT
++	if (pvhtpriv->vht_option)
++		SET_EXT_CAPABILITY_ELE_OP_MODE_NOTIF(cap_content, 1);
++#endif /* CONFIG_80211AC_VHT */
++	/*
++		From 802.11 specification,if a STA does not support any of capabilities defined
++		in the Extended Capabilities element, then the STA is not required to
++		transmit the Extended Capabilities element.
++	*/
++	if (_FALSE == _rtw_memcmp(cap_content, null_content, 8))
++		pframe = rtw_set_ie(out_ie + *pout_len, EID_EXTCapability, 8, cap_content , pout_len);
++}
++#endif
++
++#ifdef CONFIG_LAYER2_ROAMING
++inline void rtw_set_to_roam(_adapter *adapter, u8 to_roam)
++{
++	if (to_roam == 0)
++		adapter->mlmepriv.to_join = _FALSE;
++	adapter->mlmepriv.to_roam = to_roam;
++}
++
++inline u8 rtw_dec_to_roam(_adapter *adapter)
++{
++	adapter->mlmepriv.to_roam--;
++	return adapter->mlmepriv.to_roam;
++}
++
++inline u8 rtw_to_roam(_adapter *adapter)
++{
++	return adapter->mlmepriv.to_roam;
++}
++
++void rtw_roaming(_adapter *padapter, struct wlan_network *tgt_network)
++{
++	_irqL irqL;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	_rtw_roaming(padapter, tgt_network);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++void _rtw_roaming(_adapter *padapter, struct wlan_network *tgt_network)
++{
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network *cur_network = &pmlmepriv->cur_network;
++	int do_join_r;
++
++	if (0 < rtw_to_roam(padapter)) {
++		RTW_INFO("roaming from %s("MAC_FMT"), length:%d\n",
++			cur_network->network.Ssid.Ssid, MAC_ARG(cur_network->network.MacAddress),
++			 cur_network->network.Ssid.SsidLength);
++		_rtw_memcpy(&pmlmepriv->assoc_ssid, &cur_network->network.Ssid, sizeof(NDIS_802_11_SSID));
++
++		pmlmepriv->assoc_by_bssid = _FALSE;
++
++#ifdef CONFIG_WAPI_SUPPORT
++		rtw_wapi_return_all_sta_info(padapter);
++#endif
++
++		while (1) {
++			do_join_r = rtw_do_join(padapter);
++			if (_SUCCESS == do_join_r)
++				break;
++			else {
++				RTW_INFO("roaming do_join return %d\n", do_join_r);
++				rtw_dec_to_roam(padapter);
++
++				if (rtw_to_roam(padapter) > 0)
++					continue;
++				else {
++					RTW_INFO("%s(%d) -to roaming fail, indicate_disconnect\n", __FUNCTION__, __LINE__);
++					rtw_indicate_disconnect(padapter, 0, _FALSE);
++					break;
++				}
++			}
++		}
++	}
++
++}
++#endif /* CONFIG_LAYER2_ROAMING */
++
++bool rtw_adjust_chbw(_adapter *adapter, u8 req_ch, u8 *req_bw, u8 *req_offset)
++{
++	struct registry_priv *regsty = adapter_to_regsty(adapter);
++	u8 allowed_bw;
++
++	if (req_ch <= 14)
++		allowed_bw = REGSTY_BW_2G(regsty);
++	else
++		allowed_bw = REGSTY_BW_5G(regsty);
++
++	allowed_bw = hal_largest_bw(adapter, allowed_bw);
++
++	if (allowed_bw == CHANNEL_WIDTH_80 && *req_bw > CHANNEL_WIDTH_80)
++		*req_bw = CHANNEL_WIDTH_80;
++	else if (allowed_bw == CHANNEL_WIDTH_40 && *req_bw > CHANNEL_WIDTH_40)
++		*req_bw = CHANNEL_WIDTH_40;
++	else if (allowed_bw == CHANNEL_WIDTH_20 && *req_bw > CHANNEL_WIDTH_20) {
++		*req_bw = CHANNEL_WIDTH_20;
++		*req_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	} else
++		return _FALSE;
++
++	return _TRUE;
++}
++
++sint rtw_linked_check(_adapter *padapter)
++{
++	if ((check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE) ||
++	    (check_fwstate(&padapter->mlmepriv, WIFI_ADHOC_STATE | WIFI_ADHOC_MASTER_STATE) == _TRUE)) {
++		if (padapter->stapriv.asoc_sta_count > 2)
++			return _TRUE;
++	} else {
++		/* Station mode */
++		if (check_fwstate(&padapter->mlmepriv, _FW_LINKED) == _TRUE)
++			return _TRUE;
++	}
++	return _FALSE;
++}
++u8 rtw_is_adapter_up(_adapter *padapter)
++{
++	if (padapter == NULL)
++		return _FALSE;
++
++	if (RTW_CANNOT_RUN(padapter)) {
++		RTW_INFO(FUNC_ADPT_FMT "-(bSurpriseRemoved == _TRUE) || ( bDriverStopped == _TRUE)\n", FUNC_ADPT_ARG(padapter));
++		return _FALSE;
++	}
++
++	if (!rtw_is_hw_init_completed(padapter)) {
++		/*RTW_INFO(FUNC_ADPT_FMT "-(hw_init_completed == _FALSE)\n", FUNC_ADPT_ARG(padapter));*/
++		return _FALSE;
++	}
++
++	if (padapter->bup == _FALSE) {
++		/*RTW_INFO(FUNC_ADPT_FMT "-(bup == _FALSE)\n", FUNC_ADPT_ARG(padapter));*/
++		return _FALSE;
++	}
++
++	return _TRUE;
++}
++
++bool is_miracast_enabled(_adapter *adapter)
++{
++	bool enabled = 0;
++#ifdef CONFIG_WFD
++	struct wifi_display_info *wfdinfo = &adapter->wfd_info;
++
++	enabled = (wfdinfo->stack_wfd_mode & (MIRACAST_SOURCE | MIRACAST_SINK))
++		  || (wfdinfo->op_wfd_mode & (MIRACAST_SOURCE | MIRACAST_SINK));
++#endif
++
++	return enabled;
++}
++
++bool rtw_chk_miracast_mode(_adapter *adapter, u8 mode)
++{
++	bool ret = 0;
++#ifdef CONFIG_WFD
++	struct wifi_display_info *wfdinfo = &adapter->wfd_info;
++
++	ret = (wfdinfo->stack_wfd_mode & mode) || (wfdinfo->op_wfd_mode & mode);
++#endif
++
++	return ret;
++}
++
++const char *get_miracast_mode_str(int mode)
++{
++	if (mode == MIRACAST_SOURCE)
++		return "SOURCE";
++	else if (mode == MIRACAST_SINK)
++		return "SINK";
++	else if (mode == (MIRACAST_SOURCE | MIRACAST_SINK))
++		return "SOURCE&SINK";
++	else if (mode == MIRACAST_DISABLED)
++		return "DISABLED";
++	else
++		return "INVALID";
++}
++
++#ifdef CONFIG_WFD
++static bool wfd_st_match_rule(_adapter *adapter, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port)
++{
++	struct wifi_display_info *wfdinfo = &adapter->wfd_info;
++
++	if (ntohs(*((u16 *)local_port)) == wfdinfo->rtsp_ctrlport
++	    || ntohs(*((u16 *)local_port)) == wfdinfo->tdls_rtsp_ctrlport
++	    || ntohs(*((u16 *)remote_port)) == wfdinfo->peer_rtsp_ctrlport)
++		return _TRUE;
++	return _FALSE;
++}
++
++static struct st_register wfd_st_reg = {
++	.s_proto = 0x06,
++	.rule = wfd_st_match_rule,
++};
++#endif /* CONFIG_WFD */
++
++inline void rtw_wfd_st_switch(struct sta_info *sta, bool on)
++{
++#ifdef CONFIG_WFD
++	if (on)
++		rtw_st_ctl_register(&sta->st_ctl, SESSION_TRACKER_REG_ID_WFD, &wfd_st_reg);
++	else
++		rtw_st_ctl_unregister(&sta->st_ctl, SESSION_TRACKER_REG_ID_WFD);
++#endif
++}
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_mlme_ext.c b/drivers/net/wireless/rtl8812au/core/rtw_mlme_ext.c
+new file mode 100755
+index 0000000..5a39673
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_mlme_ext.c
+@@ -0,0 +1,15142 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_MLME_EXT_C_
++
++#include <drv_types.h>
++#ifdef CONFIG_IOCTL_CFG80211
++	#include <rtw_wifi_regd.h>
++#endif /* CONFIG_IOCTL_CFG80211 */
++#include <hal_data.h>
++
++
++struct mlme_handler mlme_sta_tbl[] = {
++	{WIFI_ASSOCREQ,		"OnAssocReq",	&OnAssocReq},
++	{WIFI_ASSOCRSP,		"OnAssocRsp",	&OnAssocRsp},
++	{WIFI_REASSOCREQ,	"OnReAssocReq",	&OnAssocReq},
++	{WIFI_REASSOCRSP,	"OnReAssocRsp",	&OnAssocRsp},
++	{WIFI_PROBEREQ,		"OnProbeReq",	&OnProbeReq},
++	{WIFI_PROBERSP,		"OnProbeRsp",		&OnProbeRsp},
++
++	/*----------------------------------------------------------
++					below 2 are reserved
++	-----------------------------------------------------------*/
++	{0,					"DoReserved",		&DoReserved},
++	{0,					"DoReserved",		&DoReserved},
++	{WIFI_BEACON,		"OnBeacon",		&OnBeacon},
++	{WIFI_ATIM,			"OnATIM",		&OnAtim},
++	{WIFI_DISASSOC,		"OnDisassoc",		&OnDisassoc},
++	{WIFI_AUTH,			"OnAuth",		&OnAuthClient},
++	{WIFI_DEAUTH,		"OnDeAuth",		&OnDeAuth},
++	{WIFI_ACTION,		"OnAction",		&OnAction},
++	{WIFI_ACTION_NOACK, "OnActionNoAck",	&OnAction},
++};
++
++#ifdef _CONFIG_NATIVEAP_MLME_
++struct mlme_handler mlme_ap_tbl[] = {
++	{WIFI_ASSOCREQ,		"OnAssocReq",	&OnAssocReq},
++	{WIFI_ASSOCRSP,		"OnAssocRsp",	&OnAssocRsp},
++	{WIFI_REASSOCREQ,	"OnReAssocReq",	&OnAssocReq},
++	{WIFI_REASSOCRSP,	"OnReAssocRsp",	&OnAssocRsp},
++	{WIFI_PROBEREQ,		"OnProbeReq",	&OnProbeReq},
++	{WIFI_PROBERSP,		"OnProbeRsp",		&OnProbeRsp},
++
++	/*----------------------------------------------------------
++					below 2 are reserved
++	-----------------------------------------------------------*/
++	{0,					"DoReserved",		&DoReserved},
++	{0,					"DoReserved",		&DoReserved},
++	{WIFI_BEACON,		"OnBeacon",		&OnBeacon},
++	{WIFI_ATIM,			"OnATIM",		&OnAtim},
++	{WIFI_DISASSOC,		"OnDisassoc",		&OnDisassoc},
++	{WIFI_AUTH,			"OnAuth",		&OnAuth},
++	{WIFI_DEAUTH,		"OnDeAuth",		&OnDeAuth},
++	{WIFI_ACTION,		"OnAction",		&OnAction},
++	{WIFI_ACTION_NOACK, "OnActionNoAck",	&OnAction},
++};
++#endif
++
++struct action_handler OnAction_tbl[] = {
++	{RTW_WLAN_CATEGORY_SPECTRUM_MGMT,	 "ACTION_SPECTRUM_MGMT", on_action_spct},
++	{RTW_WLAN_CATEGORY_QOS, "ACTION_QOS", &OnAction_qos},
++	{RTW_WLAN_CATEGORY_DLS, "ACTION_DLS", &OnAction_dls},
++	{RTW_WLAN_CATEGORY_BACK, "ACTION_BACK", &OnAction_back},
++	{RTW_WLAN_CATEGORY_PUBLIC, "ACTION_PUBLIC", on_action_public},
++	{RTW_WLAN_CATEGORY_RADIO_MEASUREMENT, "ACTION_RADIO_MEASUREMENT", &DoReserved},
++	{RTW_WLAN_CATEGORY_FT, "ACTION_FT",	&DoReserved},
++	{RTW_WLAN_CATEGORY_HT,	"ACTION_HT",	&OnAction_ht},
++#ifdef CONFIG_IEEE80211W
++	{RTW_WLAN_CATEGORY_SA_QUERY, "ACTION_SA_QUERY", &OnAction_sa_query},
++#else
++	{RTW_WLAN_CATEGORY_SA_QUERY, "ACTION_SA_QUERY", &DoReserved},
++#endif /* CONFIG_IEEE80211W */
++	/* add for CONFIG_IEEE80211W */
++	{RTW_WLAN_CATEGORY_UNPROTECTED_WNM, "ACTION_UNPROTECTED_WNM", &DoReserved},
++	{RTW_WLAN_CATEGORY_SELF_PROTECTED, "ACTION_SELF_PROTECTED", &DoReserved},
++	{RTW_WLAN_CATEGORY_WMM, "ACTION_WMM", &OnAction_wmm},
++	{RTW_WLAN_CATEGORY_VHT, "ACTION_VHT", &OnAction_vht},
++	{RTW_WLAN_CATEGORY_P2P, "ACTION_P2P", &OnAction_p2p},
++};
++
++
++u8	null_addr[ETH_ALEN] = {0, 0, 0, 0, 0, 0};
++
++/**************************************************
++OUI definitions for the vendor specific IE
++***************************************************/
++unsigned char	RTW_WPA_OUI[] = {0x00, 0x50, 0xf2, 0x01};
++unsigned char WMM_OUI[] = {0x00, 0x50, 0xf2, 0x02};
++unsigned char	WPS_OUI[] = {0x00, 0x50, 0xf2, 0x04};
++unsigned char	P2P_OUI[] = {0x50, 0x6F, 0x9A, 0x09};
++unsigned char	WFD_OUI[] = {0x50, 0x6F, 0x9A, 0x0A};
++
++unsigned char	WMM_INFO_OUI[] = {0x00, 0x50, 0xf2, 0x02, 0x00, 0x01};
++unsigned char	WMM_PARA_OUI[] = {0x00, 0x50, 0xf2, 0x02, 0x01, 0x01};
++
++unsigned char WPA_TKIP_CIPHER[4] = {0x00, 0x50, 0xf2, 0x02};
++unsigned char RSN_TKIP_CIPHER[4] = {0x00, 0x0f, 0xac, 0x02};
++
++extern unsigned char REALTEK_96B_IE[];
++
++#ifdef LEGACY_CHANNEL_PLAN_REF
++/********************************************************
++ChannelPlan definitions
++*********************************************************/
++static RT_CHANNEL_PLAN legacy_channel_plan[] = {
++	/* 0x00, RTW_CHPLAN_FCC */						{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 132, 136, 140, 149, 153, 157, 161, 165}, 32},
++	/* 0x01, RTW_CHPLAN_IC */						{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 136, 140, 149, 153, 157, 161, 165}, 31},
++	/* 0x02, RTW_CHPLAN_ETSI */						{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140}, 32},
++	/* 0x03, RTW_CHPLAN_SPAIN */						{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13}, 13},
++	/* 0x04, RTW_CHPLAN_FRANCE */					{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13}, 13},
++	/* 0x05, RTW_CHPLAN_MKK */						{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13}, 13},
++	/* 0x06, RTW_CHPLAN_MKK1 */						{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13}, 13},
++	/* 0x07, RTW_CHPLAN_ISRAEL */					{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 36, 40, 44, 48, 52, 56, 60, 64}, 21},
++	/* 0x08, RTW_CHPLAN_TELEC */						{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 36, 40, 44, 48, 52, 56, 60, 64}, 22},
++	/* 0x09, RTW_CHPLAN_GLOBAL_DOAMIN */			{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14}, 14},
++	/* 0x0A, RTW_CHPLAN_WORLD_WIDE_13 */			{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13}, 13},
++	/* 0x0B, RTW_CHPLAN_TAIWAN */					{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 56, 60, 64, 100, 104, 108, 112, 116, 136, 140, 149, 153, 157, 161, 165}, 26},
++	/* 0x0C, RTW_CHPLAN_CHINA */					{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 149, 153, 157, 161, 165}, 18},
++	/* 0x0D, RTW_CHPLAN_SINGAPORE_INDIA_MEXICO */	{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 36, 40, 44, 48, 52, 56, 60, 64, 149, 153, 157, 161, 165}, 24},
++	/* 0x0E, RTW_CHPLAN_KOREA */					{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 149, 153, 157, 161, 165}, 31},
++	/* 0x0F, RTW_CHPLAN_TURKEY */					{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 36, 40, 44, 48, 52, 56, 60, 64}, 19},
++	/* 0x10, RTW_CHPLAN_JAPAN */						{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140}, 32},
++	/* 0x11, RTW_CHPLAN_FCC_NO_DFS */				{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 36, 40, 44, 48, 149, 153, 157, 161, 165}, 20},
++	/* 0x12, RTW_CHPLAN_JAPAN_NO_DFS */				{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 36, 40, 44, 48}, 17},
++	/* 0x13, RTW_CHPLAN_WORLD_WIDE_5G */			{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140, 149, 153, 157, 161, 165}, 37},
++	/* 0x14, RTW_CHPLAN_TAIWAN_NO_DFS */			{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 56, 60, 64, 149, 153, 157, 161, 165}, 19},
++};
++#endif
++
++static RT_CHANNEL_PLAN_2G RTW_ChannelPlan2G[] = {
++	/* 0, RTW_RD_2G_NULL */		{{}, 0},
++	/* 1, RTW_RD_2G_WORLD */	{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13}, 13},
++	/* 2, RTW_RD_2G_ETSI1 */		{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13}, 13},
++	/* 3, RTW_RD_2G_FCC1 */		{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11}, 11},
++	/* 4, RTW_RD_2G_MKK1 */		{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14}, 14},
++	/* 5, RTW_RD_2G_ETSI2 */		{{10, 11, 12, 13}, 4},
++	/* 6, RTW_RD_2G_GLOBAL */	{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14}, 14},
++	/* 7, RTW_RD_2G_MKK2 */		{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13}, 13},
++	/* 8, RTW_RD_2G_FCC2 */		{{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13}, 13},
++};
++
++static RT_CHANNEL_PLAN_5G RTW_ChannelPlan5G[] = {
++	/* 0, RTW_RD_5G_NULL */		{{}, 0},
++	/* 1, RTW_RD_5G_ETSI1 */		{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140}, 19},
++	/* 2, RTW_RD_5G_ETSI2 */		{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140, 149, 153, 157, 161, 165}, 24},
++	/* 3, RTW_RD_5G_ETSI3 */		{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 128, 132, 149, 153, 157, 161, 165}, 22},
++	/* 4, RTW_RD_5G_FCC1 */		{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140, 149, 153, 157, 161, 165}, 24},
++	/* 5, RTW_RD_5G_FCC2 */		{{36, 40, 44, 48, 149, 153, 157, 161, 165}, 9},
++	/* 6, RTW_RD_5G_FCC3 */		{{36, 40, 44, 48, 52, 56, 60, 64, 149, 153, 157, 161, 165}, 13},
++	/* 7, RTW_RD_5G_FCC4 */		{{36, 40, 44, 48, 52, 56, 60, 64, 149, 153, 157, 161}, 12},
++	/* 8, RTW_RD_5G_FCC5 */		{{149, 153, 157, 161, 165}, 5},
++	/* 9, RTW_RD_5G_FCC6 */		{{36, 40, 44, 48, 52, 56, 60, 64}, 8},
++	/* 10, RTW_RD_5G_FCC7 */	{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 132, 136, 140, 149, 153, 157, 161, 165}, 21},
++	/* 11, RTW_RD_5G_KCC1 */	{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 149, 153, 157, 161}, 19},
++	/* 12, RTW_RD_5G_MKK1 */	{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140}, 19},
++	/* 13, RTW_RD_5G_MKK2 */	{{36, 40, 44, 48, 52, 56, 60, 64}, 8},
++	/* 14, RTW_RD_5G_MKK3 */	{{100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140}, 11},
++	/* 15, RTW_RD_5G_NCC1 */	{{56, 60, 64, 100, 104, 108, 112, 116, 132, 136, 140, 149, 153, 157, 161, 165}, 16},
++	/* 16, RTW_RD_5G_NCC2 */	{{56, 60, 64, 149, 153, 157, 161, 165}, 8},
++	/* 17, RTW_RD_5G_NCC3 */	{{149, 153, 157, 161, 165}, 5},
++	/* 18, RTW_RD_5G_ETSI4 */	{{36, 40, 44, 48}, 4},
++	/* 19, RTW_RD_5G_ETSI5 */	{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 132, 136, 140, 149, 153, 157, 161, 165}, 21},
++	/* 20, RTW_RD_5G_FCC8 */	{{149, 153, 157, 161}, 4},
++	/* 21, RTW_RD_5G_ETSI6 */	{{36, 40, 44, 48, 52, 56, 60, 64}, 8},
++	/* 22, RTW_RD_5G_ETSI7 */	{{36, 40, 44, 48, 52, 56, 60, 64, 149, 153, 157, 161, 165}, 13},
++	/* 23, RTW_RD_5G_ETSI8 */	{{36, 40, 44, 48, 149, 153, 157, 161, 165}, 9},
++	/* 24, RTW_RD_5G_ETSI9 */	{{100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140}, 11},
++	/* 25, RTW_RD_5G_ETSI10 */	{{149, 153, 157, 161, 165}, 5},
++	/* 26, RTW_RD_5G_ETSI11 */	{{36, 40, 44, 48, 52, 56, 60, 64, 132, 136, 140, 149, 153, 157, 161, 165}, 16},
++	/* 27, RTW_RD_5G_NCC4 */	{{52, 56, 60, 64, 100, 104, 108, 112, 116, 132, 136, 140, 149, 153, 157, 161, 165}, 17},
++	/* 28, RTW_RD_5G_ETSI12 */	{{149, 153, 157, 161}, 4},
++	/* 29, RTW_RD_5G_FCC9 */	{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 132, 136, 140, 149, 153, 157, 161, 165}, 21},
++	/* 30, RTW_RD_5G_ETSI13 */	{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 132, 136, 140}, 16},
++	/* 31, RTW_RD_5G_FCC10 */	{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 132, 136, 140, 149, 153, 157, 161}, 20},
++	/* 32, RTW_RD_5G_MKK4 */	{{36, 40, 44, 48}, 4},
++	/* 33, RTW_RD_5G_ETSI14 */	{{36, 40, 44, 48, 52, 56, 60, 64, 132, 136, 140}, 11},
++
++	/* === Below are driver defined for legacy channel plan compatible, NO static index assigned ==== */
++	/* RTW_RD_5G_OLD_FCC1 */	{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 136, 140, 149, 153, 157, 161, 165}, 20},
++	/* RTW_RD_5G_OLD_NCC1 */	{{56, 60, 64, 100, 104, 108, 112, 116, 136, 140, 149, 153, 157, 161, 165}, 15},
++	/* RTW_RD_5G_OLD_KCC1 */	{{36, 40, 44, 48, 52, 56, 60, 64, 100, 104, 108, 112, 116, 120, 124, 149, 153, 157, 161, 165}, 20},
++};
++
++static RT_CHANNEL_PLAN_MAP	RTW_ChannelPlanMap[] = {
++	/* ===== 0x00 ~ 0x1F, legacy channel plan ===== */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_KCC1,		TXPWR_LMT_FCC},		/* 0x00, RTW_CHPLAN_FCC */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_OLD_FCC1,	TXPWR_LMT_FCC},		/* 0x01, RTW_CHPLAN_IC */
++	{RTW_RD_2G_ETSI1,	RTW_RD_5G_ETSI1,	TXPWR_LMT_ETSI},	/* 0x02, RTW_CHPLAN_ETSI */
++	{RTW_RD_2G_ETSI1,	RTW_RD_5G_NULL,		TXPWR_LMT_ETSI},	/* 0x03, RTW_CHPLAN_SPAIN */
++	{RTW_RD_2G_ETSI1,	RTW_RD_5G_NULL,		TXPWR_LMT_ETSI},	/* 0x04, RTW_CHPLAN_FRANCE */
++	{RTW_RD_2G_MKK1,	RTW_RD_5G_NULL,		TXPWR_LMT_MKK},		/* 0x05, RTW_CHPLAN_MKK */
++	{RTW_RD_2G_MKK1,	RTW_RD_5G_NULL,		TXPWR_LMT_MKK},		/* 0x06, RTW_CHPLAN_MKK1 */
++	{RTW_RD_2G_ETSI1,	RTW_RD_5G_FCC6,		TXPWR_LMT_ETSI},	/* 0x07, RTW_CHPLAN_ISRAEL */
++	{RTW_RD_2G_MKK1,	RTW_RD_5G_FCC6,		TXPWR_LMT_MKK},		/* 0x08, RTW_CHPLAN_TELEC */
++	{RTW_RD_2G_MKK1,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x09, RTW_CHPLAN_GLOBAL_DOAMIN */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x0A, RTW_CHPLAN_WORLD_WIDE_13 */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_OLD_NCC1,	TXPWR_LMT_FCC},		/* 0x0B, RTW_CHPLAN_TAIWAN */
++	{RTW_RD_2G_ETSI1,	RTW_RD_5G_FCC5,		TXPWR_LMT_ETSI},	/* 0x0C, RTW_CHPLAN_CHINA */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC3,		TXPWR_LMT_WW},		/* 0x0D, RTW_CHPLAN_SINGAPORE_INDIA_MEXICO */ /* ETSI:Singapore, India. FCC:Mexico => WW */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_OLD_KCC1,	TXPWR_LMT_ETSI},	/* 0x0E, RTW_CHPLAN_KOREA */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC6,		TXPWR_LMT_ETSI},	/* 0x0F, RTW_CHPLAN_TURKEY */
++	{RTW_RD_2G_ETSI1,	RTW_RD_5G_ETSI1,	TXPWR_LMT_MKK},		/* 0x10, RTW_CHPLAN_JAPAN */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC2,		TXPWR_LMT_FCC},		/* 0x11, RTW_CHPLAN_FCC_NO_DFS */
++	{RTW_RD_2G_ETSI1,	RTW_RD_5G_FCC7,		TXPWR_LMT_MKK},		/* 0x12, RTW_CHPLAN_JAPAN_NO_DFS */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_FCC1,		TXPWR_LMT_WW},		/* 0x13, RTW_CHPLAN_WORLD_WIDE_5G */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_NCC2,		TXPWR_LMT_FCC},		/* 0x14, RTW_CHPLAN_TAIWAN_NO_DFS */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_FCC7,		TXPWR_LMT_ETSI},	/* 0x15, RTW_CHPLAN_ETSI_NO_DFS */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_NCC1,		TXPWR_LMT_ETSI},	/* 0x16, RTW_CHPLAN_KOREA_NO_DFS */
++	{RTW_RD_2G_MKK1,	RTW_RD_5G_FCC7,		TXPWR_LMT_MKK},		/* 0x17, RTW_CHPLAN_JAPAN_NO_DFS */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_FCC5,		TXPWR_LMT_ETSI},	/* 0x18, RTW_CHPLAN_PAKISTAN_NO_DFS */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC5,		TXPWR_LMT_FCC},		/* 0x19, RTW_CHPLAN_TAIWAN2_NO_DFS */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x1A, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x1B, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x1C, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x1D, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x1E, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_FCC1,		TXPWR_LMT_WW},		/* 0x1F, RTW_CHPLAN_WORLD_WIDE_ONLY_5G */
++
++	/* ===== 0x20 ~ 0x7F, new channel plan ===== */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x20, RTW_CHPLAN_WORLD_NULL */
++	{RTW_RD_2G_ETSI1,	RTW_RD_5G_NULL,		TXPWR_LMT_ETSI},	/* 0x21, RTW_CHPLAN_ETSI1_NULL */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_NULL,		TXPWR_LMT_FCC},		/* 0x22, RTW_CHPLAN_FCC1_NULL */
++	{RTW_RD_2G_MKK1,	RTW_RD_5G_NULL,		TXPWR_LMT_MKK},		/* 0x23, RTW_CHPLAN_MKK1_NULL */
++	{RTW_RD_2G_ETSI2,	RTW_RD_5G_NULL,		TXPWR_LMT_ETSI},	/* 0x24, RTW_CHPLAN_ETSI2_NULL */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC1,		TXPWR_LMT_FCC},		/* 0x25, RTW_CHPLAN_FCC1_FCC1 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI1,	TXPWR_LMT_ETSI},	/* 0x26, RTW_CHPLAN_WORLD_ETSI1 */
++	{RTW_RD_2G_MKK1,	RTW_RD_5G_MKK1,		TXPWR_LMT_MKK},		/* 0x27, RTW_CHPLAN_MKK1_MKK1 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_KCC1,		TXPWR_LMT_ETSI},	/* 0x28, RTW_CHPLAN_WORLD_KCC1 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_FCC2,		TXPWR_LMT_FCC},		/* 0x29, RTW_CHPLAN_WORLD_FCC2 */
++	{RTW_RD_2G_FCC2,	RTW_RD_5G_NULL,		TXPWR_LMT_FCC},		/* 0x2A, RTW_CHPLAN_FCC2_NULL */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x2B, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x2C, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x2D, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x2E, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x2F, */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_FCC3,		TXPWR_LMT_FCC},		/* 0x30, RTW_CHPLAN_WORLD_FCC3 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_FCC4,		TXPWR_LMT_FCC},		/* 0x31, RTW_CHPLAN_WORLD_FCC4 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_FCC5,		TXPWR_LMT_FCC},		/* 0x32, RTW_CHPLAN_WORLD_FCC5 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_FCC6,		TXPWR_LMT_FCC},		/* 0x33, RTW_CHPLAN_WORLD_FCC6 */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC7,		TXPWR_LMT_FCC},		/* 0x34, RTW_CHPLAN_FCC1_FCC7 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI2,	TXPWR_LMT_ETSI},	/* 0x35, RTW_CHPLAN_WORLD_ETSI2 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI3,	TXPWR_LMT_ETSI},	/* 0x36, RTW_CHPLAN_WORLD_ETSI3 */
++	{RTW_RD_2G_MKK1,	RTW_RD_5G_MKK2,		TXPWR_LMT_MKK},		/* 0x37, RTW_CHPLAN_MKK1_MKK2 */
++	{RTW_RD_2G_MKK1,	RTW_RD_5G_MKK3,		TXPWR_LMT_MKK},		/* 0x38, RTW_CHPLAN_MKK1_MKK3 */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_NCC1,		TXPWR_LMT_FCC},		/* 0x39, RTW_CHPLAN_FCC1_NCC1 */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x3A, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x3B, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x3C, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x3D, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x3E, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x3F, */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_NCC2,		TXPWR_LMT_FCC},		/* 0x40, RTW_CHPLAN_FCC1_NCC2 */
++	{RTW_RD_2G_GLOBAL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x41, RTW_CHPLAN_GLOBAL_NULL */
++	{RTW_RD_2G_ETSI1,	RTW_RD_5G_ETSI4,	TXPWR_LMT_ETSI},	/* 0x42, RTW_CHPLAN_ETSI1_ETSI4 */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC2,		TXPWR_LMT_FCC},		/* 0x43, RTW_CHPLAN_FCC1_FCC2 */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_NCC3,		TXPWR_LMT_FCC},		/* 0x44, RTW_CHPLAN_FCC1_NCC3 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI5,	TXPWR_LMT_ETSI},	/* 0x45, RTW_CHPLAN_WORLD_ETSI5 */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC8,		TXPWR_LMT_FCC},		/* 0x46, RTW_CHPLAN_FCC1_FCC8 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI6,	TXPWR_LMT_ETSI},	/* 0x47, RTW_CHPLAN_WORLD_ETSI6 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI7,	TXPWR_LMT_ETSI},	/* 0x48, RTW_CHPLAN_WORLD_ETSI7 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI8,	TXPWR_LMT_ETSI},	/* 0x49, RTW_CHPLAN_WORLD_ETSI8 */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x4A, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x4B, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x4C, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x4D, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x4E, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x4F, */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI9,	TXPWR_LMT_ETSI},	/* 0x50, RTW_CHPLAN_WORLD_ETSI9 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI10,	TXPWR_LMT_ETSI},	/* 0x51, RTW_CHPLAN_WORLD_ETSI10 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI11,	TXPWR_LMT_ETSI},	/* 0x52, RTW_CHPLAN_WORLD_ETSI11 */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_NCC4,		TXPWR_LMT_FCC},		/* 0x53, RTW_CHPLAN_FCC1_NCC4 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI12,	TXPWR_LMT_ETSI},	/* 0x54, RTW_CHPLAN_WORLD_ETSI12 */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC9,		TXPWR_LMT_FCC},		/* 0x55, RTW_CHPLAN_FCC1_FCC9 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI13,	TXPWR_LMT_ETSI},	/* 0x56, RTW_CHPLAN_WORLD_ETSI13 */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC10,	TXPWR_LMT_FCC},		/* 0x57, RTW_CHPLAN_FCC1_FCC10 */
++	{RTW_RD_2G_MKK2,	RTW_RD_5G_MKK4,		TXPWR_LMT_MKK},		/* 0x58, RTW_CHPLAN_MKK2_MKK4 */
++	{RTW_RD_2G_WORLD,	RTW_RD_5G_ETSI14,	TXPWR_LMT_ETSI},	/* 0x59, RTW_CHPLAN_WORLD_ETSI14 */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x5A, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x5B, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x5C, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x5D, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x5E, */
++	{RTW_RD_2G_NULL,	RTW_RD_5G_NULL,		TXPWR_LMT_WW},		/* 0x5F, */
++	{RTW_RD_2G_FCC1,	RTW_RD_5G_FCC5,		TXPWR_LMT_FCC},		/* 0x60, RTW_CHPLAN_FCC1_FCC5 */
++};
++
++static RT_CHANNEL_PLAN_MAP RTW_CHANNEL_PLAN_MAP_REALTEK_DEFINE = {
++	RTW_RD_2G_WORLD,	RTW_RD_5G_FCC1,		TXPWR_LMT_FCC		/* 0x7F, Realtek Define */
++};
++
++bool rtw_chplan_is_empty(u8 id)
++{
++	RT_CHANNEL_PLAN_MAP *chplan_map;
++
++	if (id == RTW_CHPLAN_REALTEK_DEFINE)
++		chplan_map = &RTW_CHANNEL_PLAN_MAP_REALTEK_DEFINE;
++	else
++		chplan_map = &RTW_ChannelPlanMap[id];
++
++	if (chplan_map->Index2G == RTW_RD_2G_NULL
++		&& chplan_map->Index5G == RTW_RD_5G_NULL)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++void rtw_rfctl_init(_adapter *adapter)
++{
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++
++	_rtw_memset(rfctl, 0, sizeof(*rfctl));
++
++#ifdef CONFIG_DFS_MASTER
++	rfctl->cac_start_time = rfctl->cac_end_time = RTW_CAC_STOPPED;
++
++	/* TODO: dfs_master_timer */
++#endif
++}
++
++#ifdef CONFIG_DFS_MASTER
++/*
++* called in rtw_dfs_master_enable()
++* assume the request channel coverage is DFS range
++* base on the current status and the request channel coverage to check if need to reset complete CAC time
++*/
++bool rtw_is_cac_reset_needed(_adapter *adapter, u8 ch, u8 bw, u8 offset)
++{
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++	bool needed = _FALSE;
++	u32 cur_hi, cur_lo, hi, lo;
++
++	if (rfctl->radar_detected == 1) {
++		needed = _TRUE;
++		goto exit;
++	}
++
++	if (rfctl->radar_detect_ch == 0) {
++		needed = _TRUE;
++		goto exit;
++	}
++
++	if (rtw_chbw_to_freq_range(ch, bw, offset, &hi, &lo) == _FALSE) {
++		RTW_ERR("request detection range ch:%u, bw:%u, offset:%u\n", ch, bw, offset);
++		rtw_warn_on(1);
++	}
++
++	if (rtw_chbw_to_freq_range(rfctl->radar_detect_ch, rfctl->radar_detect_bw, rfctl->radar_detect_offset, &cur_hi, &cur_lo) == _FALSE) {
++		RTW_ERR("cur detection range ch:%u, bw:%u, offset:%u\n", rfctl->radar_detect_ch, rfctl->radar_detect_bw, rfctl->radar_detect_offset);
++		rtw_warn_on(1);
++	}
++
++	if (hi <= lo || cur_hi <= cur_lo) {
++		RTW_ERR("hi:%u, lo:%u, cur_hi:%u, cur_lo:%u\n", hi, lo, cur_hi, cur_lo);
++		rtw_warn_on(1);
++	}
++
++	if (rtw_is_range_a_in_b(hi, lo, cur_hi, cur_lo)) {
++		/* request is in current detect range */
++		goto exit;
++	}
++
++	/* check if request channel coverage has new range and the new range is in DFS range */
++	if (!rtw_is_range_overlap(hi, lo, cur_hi, cur_lo)) {
++		/* request has no overlap with current */
++		needed = _TRUE;
++	} else if (rtw_is_range_a_in_b(cur_hi, cur_lo, hi, lo)) {
++		/* request is supper set of current */
++		if ((hi != cur_hi && rtw_is_dfs_range(hi, cur_hi)) || (lo != cur_lo && rtw_is_dfs_range(cur_lo, lo)))
++			needed = _TRUE;
++	} else {
++		/* request is not supper set of current, but has overlap */
++		if ((lo < cur_lo && rtw_is_dfs_range(cur_lo, lo)) || (hi > cur_hi && rtw_is_dfs_range(hi, cur_hi)))
++			needed = _TRUE;
++	}
++
++exit:
++	return needed;
++}
++
++bool _rtw_rfctl_overlap_radar_detect_ch(struct rf_ctl_t *rfctl, u8 ch, u8 bw, u8 offset)
++{
++	bool ret = _FALSE;
++	u32 hi = 0, lo = 0;
++	u32 r_hi = 0, r_lo = 0;
++	int i;
++
++	if (rfctl->radar_detect_by_others)
++		goto exit;
++
++	if (rfctl->radar_detect_ch == 0)
++		goto exit;
++
++	if (rtw_chbw_to_freq_range(ch, bw, offset, &hi, &lo) == _FALSE) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (rtw_chbw_to_freq_range(rfctl->radar_detect_ch
++			, rfctl->radar_detect_bw, rfctl->radar_detect_offset
++			, &r_hi, &r_lo) == _FALSE) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (rtw_is_range_overlap(hi, lo, r_hi, r_lo))
++		ret = _TRUE;
++
++exit:
++	return ret;
++}
++
++bool rtw_rfctl_overlap_radar_detect_ch(struct rf_ctl_t *rfctl)
++{
++	return _rtw_rfctl_overlap_radar_detect_ch(rfctl
++				, rfctl_to_dvobj(rfctl)->oper_channel
++				, rfctl_to_dvobj(rfctl)->oper_bwmode
++				, rfctl_to_dvobj(rfctl)->oper_ch_offset);
++}
++
++bool rtw_rfctl_is_tx_blocked_by_ch_waiting(struct rf_ctl_t *rfctl)
++{
++	return rtw_rfctl_overlap_radar_detect_ch(rfctl) && IS_CH_WAITING(rfctl);
++}
++
++bool rtw_chset_is_ch_non_ocp(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset)
++{
++	bool ret = _FALSE;
++	u32 hi = 0, lo = 0;
++	int i;
++
++	if (rtw_chbw_to_freq_range(ch, bw, offset, &hi, &lo) == _FALSE)
++		goto exit;
++
++	for (i = 0; ch_set[i].ChannelNum != 0; i++) {
++		if (!rtw_ch2freq(ch_set[i].ChannelNum)) {
++			rtw_warn_on(1);
++			continue;
++		}
++
++		if (!CH_IS_NON_OCP(&ch_set[i]))
++			continue;
++
++		if (lo <= rtw_ch2freq(ch_set[i].ChannelNum)
++			&& rtw_ch2freq(ch_set[i].ChannelNum) <= hi
++		) {
++			ret = _TRUE;
++			break;
++		}
++	}
++
++exit:
++	return ret;
++}
++
++u32 rtw_chset_get_ch_non_ocp_ms(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset)
++{
++	int ms = 0;
++	u32 current_time;
++	u32 hi = 0, lo = 0;
++	int i;
++
++	if (rtw_chbw_to_freq_range(ch, bw, offset, &hi, &lo) == _FALSE)
++		goto exit;
++
++	current_time = rtw_get_current_time();
++
++	for (i = 0; ch_set[i].ChannelNum != 0; i++) {
++		if (!rtw_ch2freq(ch_set[i].ChannelNum)) {
++			rtw_warn_on(1);
++			continue;
++		}
++
++		if (!CH_IS_NON_OCP(&ch_set[i]))
++			continue;
++
++		if (lo <= rtw_ch2freq(ch_set[i].ChannelNum)
++			&& rtw_ch2freq(ch_set[i].ChannelNum) <= hi
++		) {
++			if (rtw_systime_to_ms(ch_set[i].non_ocp_end_time - current_time) > ms)
++				ms = rtw_systime_to_ms(ch_set[i].non_ocp_end_time - current_time);
++		}
++	}
++
++exit:
++	return ms;
++}
++
++/**
++ * rtw_chset_update_non_ocp - update non_ocp_end_time according to the given @ch, @bw, @offset into @ch_set
++ * @ch_set: the given channel set
++ * @ch: channel number on which radar is detected
++ * @bw: bandwidth on which radar is detected
++ * @offset: bandwidth offset on which radar is detected
++ * @ms: ms to add from now to update non_ocp_end_time, ms < 0 means use NON_OCP_TIME_MS
++ */
++static void _rtw_chset_update_non_ocp(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset, int ms)
++{
++	u32 hi = 0, lo = 0;
++	int i;
++
++	if (rtw_chbw_to_freq_range(ch, bw, offset, &hi, &lo) == _FALSE)
++		goto exit;
++
++	for (i = 0; ch_set[i].ChannelNum != 0; i++) {
++		if (!rtw_ch2freq(ch_set[i].ChannelNum)) {
++			rtw_warn_on(1);
++			continue;
++		}
++
++		if (lo <= rtw_ch2freq(ch_set[i].ChannelNum)
++			&& rtw_ch2freq(ch_set[i].ChannelNum) <= hi
++		) {
++			if (ms >= 0)
++				ch_set[i].non_ocp_end_time = rtw_get_current_time() + rtw_ms_to_systime(ms);
++			else
++				ch_set[i].non_ocp_end_time = rtw_get_current_time() + rtw_ms_to_systime(NON_OCP_TIME_MS);
++		}
++	}
++
++exit:
++	return;
++}
++
++inline void rtw_chset_update_non_ocp(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset)
++{
++	_rtw_chset_update_non_ocp(ch_set, ch, bw, offset, -1);
++}
++
++inline void rtw_chset_update_non_ocp_ms(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset, int ms)
++{
++	_rtw_chset_update_non_ocp(ch_set, ch, bw, offset, ms);
++}
++
++u32 rtw_get_ch_waiting_ms(_adapter *adapter, u8 ch, u8 bw, u8 offset, u32 *r_non_ocp_ms, u32 *r_cac_ms)
++{
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++	u32 non_ocp_ms;
++	u32 cac_ms;
++	u8 in_rd_range = 0; /* if in current radar detection range*/
++
++	if (rtw_chset_is_ch_non_ocp(mlmeext->channel_set, ch, bw, offset))
++		non_ocp_ms = rtw_chset_get_ch_non_ocp_ms(mlmeext->channel_set, ch, bw, offset);
++	else
++		non_ocp_ms = 0;
++
++	if (rfctl->dfs_master_enabled) {
++		u32 cur_hi, cur_lo, hi, lo;
++
++		if (rtw_chbw_to_freq_range(ch, bw, offset, &hi, &lo) == _FALSE) {
++			RTW_ERR("input range ch:%u, bw:%u, offset:%u\n", ch, bw, offset);
++			rtw_warn_on(1);
++		}
++
++		if (rtw_chbw_to_freq_range(rfctl->radar_detect_ch, rfctl->radar_detect_bw, rfctl->radar_detect_offset, &cur_hi, &cur_lo) == _FALSE) {
++			RTW_ERR("cur detection range ch:%u, bw:%u, offset:%u\n", rfctl->radar_detect_ch, rfctl->radar_detect_bw, rfctl->radar_detect_offset);
++			rtw_warn_on(1);
++		}
++
++		if (rtw_is_range_a_in_b(hi, lo, cur_hi, cur_lo))
++			in_rd_range = 1;
++	}
++
++	if (!rtw_is_dfs_ch(ch, bw, offset))
++		cac_ms = 0;
++	else if (in_rd_range && !non_ocp_ms) {
++		if (IS_CH_WAITING(rfctl))
++			cac_ms = rtw_systime_to_ms(rfctl->cac_end_time - rtw_get_current_time());
++		else
++			cac_ms = 0;
++	} else if (rtw_is_long_cac_ch(ch, bw, offset, rtw_odm_get_dfs_domain(adapter)))
++		cac_ms = CAC_TIME_CE_MS;
++	else
++		cac_ms = CAC_TIME_MS;
++
++	if (r_non_ocp_ms)
++		*r_non_ocp_ms = non_ocp_ms;
++	if (r_cac_ms)
++		*r_cac_ms = cac_ms;
++
++	return non_ocp_ms + cac_ms;
++}
++
++void rtw_reset_cac(_adapter *adapter, u8 ch, u8 bw, u8 offset)
++{
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++	u32 non_ocp_ms;
++	u32 cac_ms;
++
++	rtw_get_ch_waiting_ms(adapter
++		, ch
++		, bw
++		, offset
++		, &non_ocp_ms
++		, &cac_ms
++	);
++
++	rfctl->cac_start_time = rtw_get_current_time() + rtw_ms_to_systime(non_ocp_ms);
++	rfctl->cac_end_time = rfctl->cac_start_time + rtw_ms_to_systime(cac_ms);
++
++	/* skip special value */
++	if (rfctl->cac_start_time == RTW_CAC_STOPPED) {
++		rfctl->cac_start_time++;
++		rfctl->cac_end_time++;
++	}
++	if (rfctl->cac_end_time == RTW_CAC_STOPPED)
++		rfctl->cac_end_time++;
++}
++
++/* choose channel with shortest waiting (non ocp + cac) time */
++bool rtw_choose_shortest_waiting_ch(_adapter *adapter, u8 req_bw, u8 *dec_ch, u8 *dec_bw, u8 *dec_offset, u8 d_flags)
++{
++#ifndef DBG_CHOOSE_SHORTEST_WAITING_CH
++#define DBG_CHOOSE_SHORTEST_WAITING_CH 0
++#endif
++
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++	struct registry_priv *regsty = adapter_to_regsty(adapter);
++	u8 ch, bw, offset;
++	u8 ch_c = 0, bw_c = 0, offset_c = 0;
++	int i;
++	u32 min_waiting_ms = 0;
++
++	if (!dec_ch || !dec_bw || !dec_offset) {
++		rtw_warn_on(1);
++		return _FALSE;
++	}
++
++	/* full search and narrow bw judegement first to avoid potetial judegement timing issue */
++	for (bw = CHANNEL_WIDTH_20; bw <= req_bw; bw++) {
++		if (!hal_is_bw_support(adapter, bw))
++			continue;
++
++		for (i = 0; i < mlmeext->max_chan_nums; i++) {
++			u32 non_ocp_ms;
++			u32 cac_ms;
++			u32 waiting_ms;
++
++			ch = mlmeext->channel_set[i].ChannelNum;
++
++			if ((d_flags & RTW_CHF_2G) && ch <= 14)
++				continue;
++
++			if ((d_flags & RTW_CHF_5G) && ch > 14)
++				continue;
++
++			if (ch > 14) {
++				if (bw > REGSTY_BW_5G(regsty))
++					continue;
++			} else {
++				if (bw > REGSTY_BW_2G(regsty))
++					continue;
++			}
++
++			if (!rtw_get_offset_by_chbw(ch, bw, &offset))
++				continue;
++
++			if (!rtw_chset_is_chbw_valid(mlmeext->channel_set, ch, bw, offset))
++				continue;
++
++			if ((d_flags & RTW_CHF_NON_OCP) && rtw_chset_is_ch_non_ocp(mlmeext->channel_set, ch, bw, offset))
++				continue;
++
++			if ((d_flags & RTW_CHF_DFS) && rtw_is_dfs_ch(ch, bw, offset))
++				continue;
++
++			if ((d_flags & RTW_CHF_LONG_CAC) && rtw_is_long_cac_ch(ch, bw, offset, rtw_odm_get_dfs_domain(adapter)))
++				continue;
++
++			if ((d_flags & RTW_CHF_NON_DFS) && !rtw_is_dfs_ch(ch, bw, offset))
++				continue;
++
++			if ((d_flags & RTW_CHF_NON_LONG_CAC) && !rtw_is_long_cac_ch(ch, bw, offset, rtw_odm_get_dfs_domain(adapter)))
++				continue;
++
++			waiting_ms = rtw_get_ch_waiting_ms(adapter, ch, bw, offset, &non_ocp_ms, &cac_ms);
++
++			if (DBG_CHOOSE_SHORTEST_WAITING_CH)
++				RTW_INFO(FUNC_ADPT_FMT":%u,%u,%u %u(non_ocp:%u, cac:%u)\n"
++					, FUNC_ADPT_ARG(adapter), ch, bw, offset, waiting_ms, non_ocp_ms, cac_ms);
++
++			if (ch_c == 0
++				|| min_waiting_ms > waiting_ms
++				|| (min_waiting_ms == waiting_ms && bw > bw_c) /* wider bw first */
++			) {
++				ch_c = ch;
++				bw_c = bw;
++				offset_c = offset;
++				min_waiting_ms = waiting_ms;
++			}
++		}
++	}
++
++	if (ch_c != 0) {
++		RTW_INFO(FUNC_ADPT_FMT": d_flags:0x%02x %u,%u,%u waiting_ms:%u\n"
++			, FUNC_ADPT_ARG(adapter), d_flags, ch_c, bw_c, offset_c, min_waiting_ms);
++
++		*dec_ch = ch_c;
++		*dec_bw = bw_c;
++		*dec_offset = offset_c;
++		return _TRUE;
++	}
++
++	if (d_flags == 0)
++		rtw_warn_on(1);
++
++	return _FALSE;
++}
++#endif /* CONFIG_DFS_MASTER */
++
++void dump_country_chplan(void *sel, const struct country_chplan *ent)
++{
++	_RTW_PRINT_SEL(sel, "\"%c%c\", 0x%02X%s\n"
++		, ent->alpha2[0], ent->alpha2[1], ent->chplan
++		, COUNTRY_CHPLAN_EN_11AC(ent) ? " ac" : ""
++	);
++}
++
++void dump_country_chplan_map(void *sel)
++{
++	const struct country_chplan *ent;
++	u8 code[2];
++
++#if RTW_DEF_MODULE_REGULATORY_CERT
++	_RTW_PRINT_SEL(sel, "RTW_DEF_MODULE_REGULATORY_CERT:0x%x\n", RTW_DEF_MODULE_REGULATORY_CERT);
++#endif
++#ifdef CONFIG_CUSTOMIZED_COUNTRY_CHPLAN_MAP
++	_RTW_PRINT_SEL(sel, "CONFIG_CUSTOMIZED_COUNTRY_CHPLAN_MAP\n");
++#endif
++
++	for (code[0] = 'A'; code[0] <= 'Z'; code[0]++) {
++		for (code[1] = 'A'; code[1] <= 'Z'; code[1]++) {
++			ent = rtw_get_chplan_from_country(code);
++			if (!ent)
++				continue;
++
++			dump_country_chplan(sel, ent);
++		}
++	}
++}
++
++void dump_chplan_id_list(void *sel)
++{
++	int i;
++
++	for (i = 0; i < RTW_CHPLAN_MAX; i++) {
++		if (!rtw_is_channel_plan_valid(i))
++			continue;
++
++		_RTW_PRINT_SEL(sel, "0x%02X ", i);
++	}
++
++	RTW_PRINT_SEL(sel, "0x7F\n");
++}
++
++void dump_chplan_test(void *sel)
++{
++	int i, j;
++
++	/* check invalid channel */
++	for (i = 0; i < RTW_RD_2G_MAX; i++) {
++		for (j = 0; j < RTW_ChannelPlan2G[i].Len; j++) {
++			if (rtw_ch2freq(RTW_ChannelPlan2G[i].Channel[j]) == 0)
++				RTW_PRINT_SEL(sel, "invalid ch:%u at (%d,%d)\n", RTW_ChannelPlan2G[i].Channel[j], i, j);
++		}
++	}
++
++	for (i = 0; i < RTW_RD_5G_MAX; i++) {
++		for (j = 0; j < RTW_ChannelPlan5G[i].Len; j++) {
++			if (rtw_ch2freq(RTW_ChannelPlan5G[i].Channel[j]) == 0)
++				RTW_PRINT_SEL(sel, "invalid ch:%u at (%d,%d)\n", RTW_ChannelPlan5G[i].Channel[j], i, j);
++		}
++	}
++}
++
++void dump_chset(void *sel, RT_CHANNEL_INFO *ch_set)
++{
++	u8	i;
++
++	for (i = 0; ch_set[i].ChannelNum != 0; i++) {
++		RTW_PRINT_SEL(sel, "ch:%3u, freq:%u, scan_type:%d"
++			, ch_set[i].ChannelNum, rtw_ch2freq(ch_set[i].ChannelNum), ch_set[i].ScanType);
++
++#ifdef CONFIG_FIND_BEST_CHANNEL
++		_RTW_PRINT_SEL(sel, ", rx_count:%u", ch_set[i].rx_count);
++#endif
++
++#ifdef CONFIG_DFS_MASTER
++		if (rtw_is_dfs_ch(ch_set[i].ChannelNum, CHANNEL_WIDTH_20, HAL_PRIME_CHNL_OFFSET_DONT_CARE)) {
++			if (CH_IS_NON_OCP(&ch_set[i]))
++				_RTW_PRINT_SEL(sel, ", non_ocp:%d"
++					, rtw_systime_to_ms(ch_set[i].non_ocp_end_time - rtw_get_current_time()));
++			else
++				_RTW_PRINT_SEL(sel, ", non_ocp:N/A");
++		}
++#endif
++
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++
++	RTW_PRINT_SEL(sel, "total ch number:%d\n", i);
++}
++
++void dump_cur_chset(void *sel, _adapter *adapter)
++{
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++	struct registry_priv *regsty = adapter_to_regsty(adapter);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	int i;
++
++	if (mlme->country_ent)
++		dump_country_chplan(sel, mlme->country_ent);
++	else
++		RTW_PRINT_SEL(sel, "chplan:0x%02X\n", mlme->ChannelPlan);
++
++	RTW_PRINT_SEL(sel, "2G_PLS:%u, 5G_PLS:%u\n"
++		, hal_data->Regulation2_4G, hal_data->Regulation5G);
++
++	for (i = 0; i < MAX_CHANNEL_NUM; i++)
++		if (regsty->excl_chs[i] != 0)
++			break;
++
++	if (i < MAX_CHANNEL_NUM) {
++		_RTW_PRINT_SEL(sel, "excl_chs:");
++		for (i = 0; i < MAX_CHANNEL_NUM; i++) {
++			if (regsty->excl_chs[i] == 0)
++				break;
++			_RTW_PRINT_SEL(sel, "%u ", regsty->excl_chs[i]);
++		}
++		RTW_PRINT_SEL(sel, "\n");
++	}
++
++	dump_chset(sel, mlmeext->channel_set);
++}
++
++/*
++ * Search the @param ch in given @param ch_set
++ * @ch_set: the given channel set
++ * @ch: the given channel number
++ *
++ * return the index of channel_num in channel_set, -1 if not found
++ */
++int rtw_ch_set_search_ch(RT_CHANNEL_INFO *ch_set, const u32 ch)
++{
++	int i;
++	for (i = 0; ch_set[i].ChannelNum != 0; i++) {
++		if (ch == ch_set[i].ChannelNum)
++			break;
++	}
++
++	if (i >= ch_set[i].ChannelNum)
++		return -1;
++	return i;
++}
++
++/*
++ * Check if the @param ch, bw, offset is valid for the given @param ch_set
++ * @ch_set: the given channel set
++ * @ch: the given channel number
++ * @bw: the given bandwidth
++ * @offset: the given channel offset
++ *
++ * return valid (1) or not (0)
++ */
++u8 rtw_chset_is_chbw_valid(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset)
++{
++	u8 cch;
++	u8 *op_chs;
++	u8 op_ch_num;
++	u8 valid = 0;
++	int i;
++
++	cch = rtw_get_center_ch(ch, bw, offset);
++
++	if (!rtw_get_op_chs_by_cch_bw(cch, bw, &op_chs, &op_ch_num))
++		goto exit;
++
++	for (i = 0; i < op_ch_num; i++) {
++		if (0)
++			RTW_INFO("%u,%u,%u - cch:%u, bw:%u, op_ch:%u\n", ch, bw, offset, cch, bw, *(op_chs + i));
++		if (rtw_ch_set_search_ch(ch_set, *(op_chs + i)) == -1)
++			break;
++	}
++
++	if (op_ch_num != 0 && i == op_ch_num)
++		valid = 1;
++
++exit:
++	return valid;
++}
++
++/*
++ * Check the @param ch is fit with setband setting of @param adapter
++ * @adapter: the given adapter
++ * @ch: the given channel number
++ *
++ * return _TRUE when check valid, _FALSE not valid
++ */
++bool rtw_mlme_band_check(_adapter *adapter, const u32 ch)
++{
++	if (adapter->setband == WIFI_FREQUENCY_BAND_AUTO /* 2.4G and 5G */
++		|| (adapter->setband == WIFI_FREQUENCY_BAND_2GHZ && ch < 35) /* 2.4G only */
++		|| (adapter->setband == WIFI_FREQUENCY_BAND_5GHZ && ch > 35) /* 5G only */
++	)
++		return _TRUE;
++	return _FALSE;
++}
++inline void RTW_SET_SCAN_BAND_SKIP(_adapter *padapter, int skip_band)
++{
++	int bs = ATOMIC_READ(&padapter->bandskip);
++
++	bs |= skip_band;
++	ATOMIC_SET(&padapter->bandskip, bs);
++}
++
++inline void RTW_CLR_SCAN_BAND_SKIP(_adapter *padapter, int skip_band)
++{
++	int bs = ATOMIC_READ(&padapter->bandskip);
++
++	bs &= ~(skip_band);
++	ATOMIC_SET(&padapter->bandskip, bs);
++}
++inline int RTW_GET_SCAN_BAND_SKIP(_adapter *padapter)
++{
++	return ATOMIC_READ(&padapter->bandskip);
++}
++
++#define RTW_IS_SCAN_BAND_SKIP(padapter, skip_band) (ATOMIC_READ(&padapter->bandskip) & (skip_band))
++
++bool rtw_mlme_ignore_chan(_adapter *adapter, const u32 ch)
++{
++	if (RTW_IS_SCAN_BAND_SKIP(adapter, BAND_24G) && ch < 35) /* SKIP 2.4G Band channel */
++		return _TRUE;
++	if (RTW_IS_SCAN_BAND_SKIP(adapter, BAND_5G)  && ch > 35) /* SKIP 5G Band channel */
++		return _TRUE;
++
++	return _FALSE;
++}
++
++
++/****************************************************************************
++
++Following are the initialization functions for WiFi MLME
++
++*****************************************************************************/
++
++int init_hw_mlme_ext(_adapter *padapter)
++{
++	struct	mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	/* set_opmode_cmd(padapter, infra_client_with_mlme); */ /* removed */
++
++	set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++
++	return _SUCCESS;
++}
++
++void init_mlme_default_rate_set(_adapter *padapter)
++{
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	unsigned char	mixed_datarate[NumRates] = {_1M_RATE_, _2M_RATE_, _5M_RATE_, _11M_RATE_, _6M_RATE_, _9M_RATE_, _12M_RATE_, _18M_RATE_, _24M_RATE_, _36M_RATE_, _48M_RATE_, _54M_RATE_, 0xff};
++	unsigned char	mixed_basicrate[NumRates] = {_1M_RATE_, _2M_RATE_, _5M_RATE_, _11M_RATE_, _6M_RATE_, _12M_RATE_, _24M_RATE_, 0xff,};
++	unsigned char	supported_mcs_set[16] = {0xff, 0xff, 0xff, 0x00, 0x00, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0};
++
++	_rtw_memcpy(pmlmeext->datarate, mixed_datarate, NumRates);
++	_rtw_memcpy(pmlmeext->basicrate, mixed_basicrate, NumRates);
++
++	_rtw_memcpy(pmlmeext->default_supported_mcs_set, supported_mcs_set, sizeof(pmlmeext->default_supported_mcs_set));
++}
++
++static void init_mlme_ext_priv_value(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	ATOMIC_SET(&pmlmeext->event_seq, 0);
++	pmlmeext->mgnt_seq = 0;/* reset to zero when disconnect at client mode */
++#ifdef CONFIG_IEEE80211W
++	pmlmeext->sa_query_seq = 0;
++	pmlmeext->mgnt_80211w_IPN = 0;
++	pmlmeext->mgnt_80211w_IPN_rx = 0;
++#endif /* CONFIG_IEEE80211W */
++	pmlmeext->cur_channel = padapter->registrypriv.channel;
++	pmlmeext->cur_bwmode = CHANNEL_WIDTH_20;
++	pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++	pmlmeext->retry = 0;
++
++	pmlmeext->cur_wireless_mode = padapter->registrypriv.wireless_mode;
++
++	init_mlme_default_rate_set(padapter);
++
++	if (pmlmeext->cur_channel > 14)
++		pmlmeext->tx_rate = IEEE80211_OFDM_RATE_6MB;
++	else
++		pmlmeext->tx_rate = IEEE80211_CCK_RATE_1MB;
++
++	mlmeext_set_scan_state(pmlmeext, SCAN_DISABLE);
++	pmlmeext->sitesurvey_res.channel_idx = 0;
++	pmlmeext->sitesurvey_res.bss_cnt = 0;
++	pmlmeext->sitesurvey_res.scan_ch_ms = SURVEY_TO;
++	pmlmeext->sitesurvey_res.rx_ampdu_accept = RX_AMPDU_ACCEPT_INVALID;
++	pmlmeext->sitesurvey_res.rx_ampdu_size = RX_AMPDU_SIZE_INVALID;
++#ifdef CONFIG_SCAN_BACKOP
++	mlmeext_assign_scan_backop_flags_sta(pmlmeext, /*SS_BACKOP_EN|*/SS_BACKOP_PS_ANNC | SS_BACKOP_TX_RESUME);
++	mlmeext_assign_scan_backop_flags_ap(pmlmeext, SS_BACKOP_EN | SS_BACKOP_PS_ANNC | SS_BACKOP_TX_RESUME);
++	pmlmeext->sitesurvey_res.scan_cnt = 0;
++	pmlmeext->sitesurvey_res.scan_cnt_max = RTW_SCAN_NUM_OF_CH;
++	pmlmeext->sitesurvey_res.backop_ms = RTW_BACK_OP_CH_MS;
++#endif
++#if defined(CONFIG_ANTENNA_DIVERSITY) || defined(DBG_SCAN_SW_ANTDIV_BL)
++	pmlmeext->sitesurvey_res.is_sw_antdiv_bl_scan = 0;
++#endif
++	pmlmeext->scan_abort = _FALSE;
++
++	pmlmeinfo->state = WIFI_FW_NULL_STATE;
++	pmlmeinfo->reauth_count = 0;
++	pmlmeinfo->reassoc_count = 0;
++	pmlmeinfo->link_count = 0;
++	pmlmeinfo->auth_seq = 0;
++	pmlmeinfo->auth_algo = dot11AuthAlgrthm_Open;
++	pmlmeinfo->key_index = 0;
++	pmlmeinfo->iv = 0;
++
++	pmlmeinfo->enc_algo = _NO_PRIVACY_;
++	pmlmeinfo->authModeToggle = 0;
++
++	_rtw_memset(pmlmeinfo->chg_txt, 0, 128);
++
++	pmlmeinfo->slotTime = SHORT_SLOT_TIME;
++	pmlmeinfo->preamble_mode = PREAMBLE_AUTO;
++
++	pmlmeinfo->dialogToken = 0;
++
++	pmlmeext->action_public_rxseq = 0xffff;
++	pmlmeext->action_public_dialog_token = 0xff;
++}
++
++static int has_channel(RT_CHANNEL_INFO *channel_set,
++		       u8 chanset_size,
++		       u8 chan)
++{
++	int i;
++
++	for (i = 0; i < chanset_size; i++) {
++		if (channel_set[i].ChannelNum == chan)
++			return 1;
++	}
++
++	return 0;
++}
++
++static void init_channel_list(_adapter *padapter, RT_CHANNEL_INFO *channel_set,
++			      u8 chanset_size,
++			      struct p2p_channels *channel_list)
++{
++	struct registry_priv *regsty = adapter_to_regsty(padapter);
++
++	struct p2p_oper_class_map op_class[] = {
++		{ IEEE80211G,  81,   1,  13,  1, BW20 },
++		{ IEEE80211G,  82,  14,  14,  1, BW20 },
++#if 0 /* Do not enable HT40 on 2 GHz */
++		{ IEEE80211G,  83,   1,   9,  1, BW40PLUS },
++		{ IEEE80211G,  84,   5,  13,  1, BW40MINUS },
++#endif
++		{ IEEE80211A, 115,  36,  48,  4, BW20 },
++		{ IEEE80211A, 116,  36,  44,  8, BW40PLUS },
++		{ IEEE80211A, 117,  40,  48,  8, BW40MINUS },
++		{ IEEE80211A, 124, 149, 161,  4, BW20 },
++		{ IEEE80211A, 125, 149, 169,  4, BW20 },
++		{ IEEE80211A, 126, 149, 157,  8, BW40PLUS },
++		{ IEEE80211A, 127, 153, 161,  8, BW40MINUS },
++		{ -1, 0, 0, 0, 0, BW20 }
++	};
++
++	int cla, op;
++
++	cla = 0;
++
++	for (op = 0; op_class[op].op_class; op++) {
++		u8 ch;
++		struct p2p_oper_class_map *o = &op_class[op];
++		struct p2p_reg_class *reg = NULL;
++
++		for (ch = o->min_chan; ch <= o->max_chan; ch += o->inc) {
++			if (!has_channel(channel_set, chanset_size, ch))
++				continue;
++
++			if ((0 == padapter->registrypriv.ht_enable) && (8 == o->inc))
++				continue;
++
++			if ((REGSTY_IS_BW_5G_SUPPORT(regsty, CHANNEL_WIDTH_40)) &&
++			    ((BW40MINUS == o->bw) || (BW40PLUS == o->bw)))
++				continue;
++
++			if (reg == NULL) {
++				reg = &channel_list->reg_class[cla];
++				cla++;
++				reg->reg_class = o->op_class;
++				reg->channels = 0;
++			}
++			reg->channel[reg->channels] = ch;
++			reg->channels++;
++		}
++	}
++	channel_list->reg_classes = cla;
++
++}
++
++bool rtw_regsty_is_excl_chs(struct registry_priv *regsty, u8 ch)
++{
++	int i;
++
++	for (i = 0; i < MAX_CHANNEL_NUM; i++) {
++		if (regsty->excl_chs[i] == 0)
++			break;
++		if (regsty->excl_chs[i] == ch)
++			return _TRUE;
++	}
++	return _FALSE;
++}
++
++static u8 init_channel_set(_adapter *padapter, u8 ChannelPlan, RT_CHANNEL_INFO *channel_set)
++{
++	struct registry_priv *regsty = adapter_to_regsty(padapter);
++	u8	index, chanset_size = 0;
++	u8	b5GBand = _FALSE, b2_4GBand = _FALSE;
++	u8	Index2G = 0, Index5G = 0;
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(padapter);
++	int i;
++
++	if (!rtw_is_channel_plan_valid(ChannelPlan)) {
++		RTW_ERR("ChannelPlan ID 0x%02X error !!!!!\n", ChannelPlan);
++		return chanset_size;
++	}
++
++	_rtw_memset(channel_set, 0, sizeof(RT_CHANNEL_INFO) * MAX_CHANNEL_NUM);
++
++	if (IsSupported24G(padapter->registrypriv.wireless_mode))
++		b2_4GBand = _TRUE;
++
++	if (IsSupported5G(padapter->registrypriv.wireless_mode))
++		b5GBand = _TRUE;
++
++	if (b2_4GBand) {
++		if (RTW_CHPLAN_REALTEK_DEFINE == ChannelPlan)
++			Index2G = RTW_CHANNEL_PLAN_MAP_REALTEK_DEFINE.Index2G;
++		else
++			Index2G = RTW_ChannelPlanMap[ChannelPlan].Index2G;
++
++		for (index = 0; index < RTW_ChannelPlan2G[Index2G].Len; index++) {
++			if (rtw_regsty_is_excl_chs(regsty, RTW_ChannelPlan2G[Index2G].Channel[index]) == _TRUE)
++				continue;
++
++			channel_set[chanset_size].ChannelNum = RTW_ChannelPlan2G[Index2G].Channel[index];
++
++			if (RTW_CHPLAN_GLOBAL_DOAMIN == ChannelPlan
++				|| RTW_CHPLAN_GLOBAL_NULL == ChannelPlan
++			) {
++				/* Channel 1~11 is active, and 12~14 is passive */
++				if (channel_set[chanset_size].ChannelNum >= 1 && channel_set[chanset_size].ChannelNum <= 11)
++					channel_set[chanset_size].ScanType = SCAN_ACTIVE;
++				else if ((channel_set[chanset_size].ChannelNum  >= 12 && channel_set[chanset_size].ChannelNum  <= 14))
++					channel_set[chanset_size].ScanType  = SCAN_PASSIVE;
++			} else if (RTW_CHPLAN_WORLD_WIDE_13 == ChannelPlan
++				|| RTW_CHPLAN_WORLD_WIDE_5G == ChannelPlan
++				|| RTW_RD_2G_WORLD == Index2G
++			) {
++				/* channel 12~13, passive scan */
++				if (channel_set[chanset_size].ChannelNum <= 11)
++					channel_set[chanset_size].ScanType = SCAN_ACTIVE;
++				else
++					channel_set[chanset_size].ScanType = SCAN_PASSIVE;
++			} else
++				channel_set[chanset_size].ScanType = SCAN_ACTIVE;
++
++			chanset_size++;
++		}
++	}
++
++	if (b5GBand) {
++		if (RTW_CHPLAN_REALTEK_DEFINE == ChannelPlan)
++			Index5G = RTW_CHANNEL_PLAN_MAP_REALTEK_DEFINE.Index5G;
++		else
++			Index5G = RTW_ChannelPlanMap[ChannelPlan].Index5G;
++
++		for (index = 0; index < RTW_ChannelPlan5G[Index5G].Len; index++) {
++			if (rtw_regsty_is_excl_chs(regsty, RTW_ChannelPlan5G[Index5G].Channel[index]) == _TRUE)
++				continue;
++#ifdef CONFIG_DFS
++			channel_set[chanset_size].ChannelNum = RTW_ChannelPlan5G[Index5G].Channel[index];
++			if (channel_set[chanset_size].ChannelNum <= 48
++				|| channel_set[chanset_size].ChannelNum >= 149
++			) {
++				if (RTW_CHPLAN_WORLD_WIDE_5G == ChannelPlan) /* passive scan for all 5G channels */
++					channel_set[chanset_size].ScanType = SCAN_PASSIVE;
++				else
++					channel_set[chanset_size].ScanType = SCAN_ACTIVE;
++			} else
++				channel_set[chanset_size].ScanType = SCAN_PASSIVE;
++			chanset_size++;
++#else /* CONFIG_DFS */
++			if (RTW_ChannelPlan5G[Index5G].Channel[index] <= 48
++				|| RTW_ChannelPlan5G[Index5G].Channel[index] >= 149
++			) {
++				channel_set[chanset_size].ChannelNum = RTW_ChannelPlan5G[Index5G].Channel[index];
++				if (RTW_CHPLAN_WORLD_WIDE_5G == ChannelPlan) /* passive scan for all 5G channels */
++					channel_set[chanset_size].ScanType = SCAN_PASSIVE;
++				else
++					channel_set[chanset_size].ScanType = SCAN_ACTIVE;
++				RTW_INFO("%s(): channel_set[%d].ChannelNum = %d\n", __FUNCTION__, chanset_size, channel_set[chanset_size].ChannelNum);
++				chanset_size++;
++			}
++#endif /* CONFIG_DFS */
++		}
++	}
++
++	if (RTW_CHPLAN_REALTEK_DEFINE == ChannelPlan) {
++		hal_data->Regulation2_4G = RTW_CHANNEL_PLAN_MAP_REALTEK_DEFINE.regd;
++		hal_data->Regulation5G = RTW_CHANNEL_PLAN_MAP_REALTEK_DEFINE.regd;
++	} else {
++		hal_data->Regulation2_4G = RTW_ChannelPlanMap[ChannelPlan].regd;
++		hal_data->Regulation5G = RTW_ChannelPlanMap[ChannelPlan].regd;
++	}
++
++#ifdef CONFIG_DFS_MASTER
++	for (i = 0; i < chanset_size; i++)
++		channel_set[i].non_ocp_end_time = rtw_get_current_time();
++#endif
++
++	RTW_INFO(FUNC_ADPT_FMT" ChannelPlan ID:0x%02x, ch num:%d\n"
++		, FUNC_ADPT_ARG(padapter), ChannelPlan, chanset_size);
++
++	return chanset_size;
++}
++
++int	init_mlme_ext_priv(_adapter *padapter)
++{
++	int	res = _SUCCESS;
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	/* We don't need to memset padapter->XXX to zero, because adapter is allocated by rtw_zvmalloc(). */
++	/* _rtw_memset((u8 *)pmlmeext, 0, sizeof(struct mlme_ext_priv)); */
++
++	pmlmeext->padapter = padapter;
++
++	/* fill_fwpriv(padapter, &(pmlmeext->fwpriv)); */
++
++	init_mlme_ext_priv_value(padapter);
++	pmlmeinfo->bAcceptAddbaReq = pregistrypriv->bAcceptAddbaReq;
++
++	init_mlme_ext_timer(padapter);
++
++#ifdef CONFIG_AP_MODE
++	init_mlme_ap_info(padapter);
++#endif
++
++	pmlmeext->max_chan_nums = init_channel_set(padapter, pmlmepriv->ChannelPlan, pmlmeext->channel_set);
++	init_channel_list(padapter, pmlmeext->channel_set, pmlmeext->max_chan_nums, &pmlmeext->channel_list);
++	pmlmeext->last_scan_time = 0;
++	pmlmeext->mlmeext_init = _TRUE;
++
++
++#ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++	pmlmeext->active_keep_alive_check = _TRUE;
++#else
++	pmlmeext->active_keep_alive_check = _FALSE;
++#endif
++
++#ifdef DBG_FIXED_CHAN
++	pmlmeext->fixed_chan = 0xFF;
++#endif
++
++	return res;
++
++}
++
++void free_mlme_ext_priv(struct mlme_ext_priv *pmlmeext)
++{
++	_adapter *padapter = pmlmeext->padapter;
++
++	if (!padapter)
++		return;
++
++	if (rtw_is_drv_stopped(padapter)) {
++		_cancel_timer_ex(&pmlmeext->survey_timer);
++		_cancel_timer_ex(&pmlmeext->link_timer);
++		/* _cancel_timer_ex(&pmlmeext->ADDBA_timer); */
++	}
++}
++
++static u8 cmp_pkt_chnl_diff(_adapter *padapter, u8 *pframe, uint packet_len)
++{
++	/* if the channel is same, return 0. else return channel differential	 */
++	uint len;
++	u8 channel;
++	u8 *p;
++	p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + _BEACON_IE_OFFSET_, _DSSET_IE_, &len, packet_len - _BEACON_IE_OFFSET_);
++	if (p) {
++		channel = *(p + 2);
++		if (padapter->mlmeextpriv.cur_channel >= channel)
++			return padapter->mlmeextpriv.cur_channel - channel;
++		else
++			return channel - padapter->mlmeextpriv.cur_channel;
++	} else
++		return 0;
++}
++
++static void _mgt_dispatcher(_adapter *padapter, struct mlme_handler *ptable, union recv_frame *precv_frame)
++{
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++
++	if (ptable->func) {
++		/* receive the frames that ra(a1) is my address or ra(a1) is bc address. */
++		if (!_rtw_memcmp(GetAddr1Ptr(pframe), adapter_mac_addr(padapter), ETH_ALEN) &&
++		    !_rtw_memcmp(GetAddr1Ptr(pframe), bc_addr, ETH_ALEN))
++			return;
++
++		ptable->func(padapter, precv_frame);
++	}
++
++}
++
++void mgt_dispatcher(_adapter *padapter, union recv_frame *precv_frame)
++{
++	int index;
++	struct mlme_handler *ptable;
++#ifdef CONFIG_AP_MODE
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++#endif /* CONFIG_AP_MODE */
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	struct sta_info *psta = rtw_get_stainfo(&padapter->stapriv, GetAddr2Ptr(pframe));
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++
++
++#if 0
++	{
++		u8 *pbuf;
++		pbuf = GetAddr1Ptr(pframe);
++		RTW_INFO("A1-%x:%x:%x:%x:%x:%x\n", *pbuf, *(pbuf + 1), *(pbuf + 2), *(pbuf + 3), *(pbuf + 4), *(pbuf + 5));
++		pbuf = GetAddr2Ptr(pframe);
++		RTW_INFO("A2-%x:%x:%x:%x:%x:%x\n", *pbuf, *(pbuf + 1), *(pbuf + 2), *(pbuf + 3), *(pbuf + 4), *(pbuf + 5));
++		pbuf = GetAddr3Ptr(pframe);
++		RTW_INFO("A3-%x:%x:%x:%x:%x:%x\n", *pbuf, *(pbuf + 1), *(pbuf + 2), *(pbuf + 3), *(pbuf + 4), *(pbuf + 5));
++	}
++#endif
++
++	if (GetFrameType(pframe) != WIFI_MGT_TYPE) {
++		return;
++	}
++
++	/* receive the frames that ra(a1) is my address or ra(a1) is bc address. */
++	if (!_rtw_memcmp(GetAddr1Ptr(pframe), adapter_mac_addr(padapter), ETH_ALEN) &&
++	    !_rtw_memcmp(GetAddr1Ptr(pframe), bc_addr, ETH_ALEN))
++		return;
++
++	ptable = mlme_sta_tbl;
++
++	index = GetFrameSubType(pframe) >> 4;
++
++#ifdef CONFIG_TDLS
++	if ((index << 4) == WIFI_ACTION) {
++		/* category==public (4), action==TDLS_DISCOVERY_RESPONSE */
++		if (*(pframe + 24) == RTW_WLAN_CATEGORY_PUBLIC && *(pframe + 25) == TDLS_DISCOVERY_RESPONSE) {
++			RTW_INFO("[TDLS] Recv %s from "MAC_FMT"\n", rtw_tdls_action_txt(TDLS_DISCOVERY_RESPONSE), MAC_ARG(GetAddr2Ptr(pframe)));
++			On_TDLS_Dis_Rsp(padapter, precv_frame);
++		}
++	}
++#endif /* CONFIG_TDLS */
++
++	if (index >= (sizeof(mlme_sta_tbl) / sizeof(struct mlme_handler))) {
++		return;
++	}
++	ptable += index;
++
++#if 1
++	if (psta != NULL) {
++		if (GetRetry(pframe)) {
++			if (precv_frame->u.hdr.attrib.seq_num == psta->RxMgmtFrameSeqNum) {
++				/* drop the duplicate management frame */
++				pdbgpriv->dbg_rx_dup_mgt_frame_drop_count++;
++				RTW_INFO("Drop duplicate management frame with seq_num = %d.\n", precv_frame->u.hdr.attrib.seq_num);
++				return;
++			}
++		}
++		psta->RxMgmtFrameSeqNum = precv_frame->u.hdr.attrib.seq_num;
++	}
++#else
++
++	if (GetRetry(pframe)) {
++		/* return; */
++	}
++#endif
++
++#ifdef CONFIG_AP_MODE
++	switch (GetFrameSubType(pframe)) {
++	case WIFI_AUTH:
++		if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++			ptable->func = &OnAuth;
++		else
++			ptable->func = &OnAuthClient;
++	/* pass through */
++	case WIFI_ASSOCREQ:
++	case WIFI_REASSOCREQ:
++		_mgt_dispatcher(padapter, ptable, precv_frame);
++#ifdef CONFIG_HOSTAPD_MLME
++		if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++			rtw_hostapd_mlme_rx(padapter, precv_frame);
++#endif
++		break;
++	case WIFI_PROBEREQ:
++		if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++#ifdef CONFIG_HOSTAPD_MLME
++			rtw_hostapd_mlme_rx(padapter, precv_frame);
++#else
++			_mgt_dispatcher(padapter, ptable, precv_frame);
++#endif
++		} else
++			_mgt_dispatcher(padapter, ptable, precv_frame);
++		break;
++	case WIFI_BEACON:
++		_mgt_dispatcher(padapter, ptable, precv_frame);
++		break;
++	case WIFI_ACTION:
++		/* if(check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) */
++		_mgt_dispatcher(padapter, ptable, precv_frame);
++		break;
++	default:
++		_mgt_dispatcher(padapter, ptable, precv_frame);
++		if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++			rtw_hostapd_mlme_rx(padapter, precv_frame);
++		break;
++	}
++#else
++
++	_mgt_dispatcher(padapter, ptable, precv_frame);
++
++#endif
++
++}
++
++#ifdef CONFIG_P2P
++u32 p2p_listen_state_process(_adapter *padapter, unsigned char *da)
++{
++	bool response = _TRUE;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (padapter->wdinfo.driver_interface == DRIVER_CFG80211) {
++		if (padapter->cfg80211_wdinfo.is_ro_ch == _FALSE
++		    || rtw_get_oper_ch(padapter) != padapter->wdinfo.listen_channel
++		    || adapter_wdev_data(padapter)->p2p_enabled == _FALSE
++		    || padapter->mlmepriv.wps_probe_resp_ie == NULL
++		    || padapter->mlmepriv.p2p_probe_resp_ie == NULL
++		   ) {
++#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("DON'T issue_probersp_p2p: p2p_enabled:%d, wps_probe_resp_ie:%p, p2p_probe_resp_ie:%p, ",
++				 adapter_wdev_data(padapter)->p2p_enabled,
++				 padapter->mlmepriv.wps_probe_resp_ie,
++				 padapter->mlmepriv.p2p_probe_resp_ie);
++			RTW_INFO("is_ro_ch:%d, op_ch:%d, p2p_listen_channel:%d\n",
++				 padapter->cfg80211_wdinfo.is_ro_ch,
++				 rtw_get_oper_ch(padapter),
++				 padapter->wdinfo.listen_channel);
++#endif
++			response = _FALSE;
++		}
++	} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++		if (padapter->wdinfo.driver_interface == DRIVER_WEXT) {
++			/*	do nothing if the device name is empty */
++			if (!padapter->wdinfo.device_name_len)
++				response	= _FALSE;
++		}
++
++	if (response == _TRUE)
++		issue_probersp_p2p(padapter, da);
++
++	return _SUCCESS;
++}
++#endif /* CONFIG_P2P */
++
++
++/****************************************************************************
++
++Following are the callback functions for each subtype of the management frames
++
++*****************************************************************************/
++
++unsigned int OnProbeReq(_adapter *padapter, union recv_frame *precv_frame)
++{
++	unsigned int	ielen;
++	unsigned char	*p;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX	*cur = &(pmlmeinfo->network);
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint len = precv_frame->u.hdr.len;
++	u8 is_valid_p2p_probereq = _FALSE;
++
++#ifdef CONFIG_ATMEL_RC_PATCH
++	u8 *target_ie = NULL, *wps_ie = NULL;
++	u8 *start;
++	uint search_len = 0, wps_ielen = 0, target_ielen = 0;
++	struct sta_info	*psta;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++#endif
++
++
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	struct rx_pkt_attrib	*pattrib = &precv_frame->u.hdr.attrib;
++	u8 wifi_test_chk_rate = 1;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if ((pwdinfo->driver_interface == DRIVER_CFG80211)
++	    && !rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)
++	    && (GET_CFG80211_REPORT_MGMT(adapter_wdev_data(padapter), IEEE80211_STYPE_PROBE_REQ) == _TRUE)
++	   ) {
++		rtw_cfg80211_rx_probe_request(padapter, pframe, len);
++		return _SUCCESS;
++	}
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE) &&
++	    !rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE) &&
++	    !rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT) &&
++	    !rtw_p2p_chk_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH) &&
++	    !rtw_p2p_chk_state(pwdinfo, P2P_STATE_SCAN)
++	   ) {
++		/*	Commented by Albert 2011/03/17 */
++		/*	mcs_rate = 0->CCK 1M rate */
++		/*	mcs_rate = 1->CCK 2M rate */
++		/*	mcs_rate = 2->CCK 5.5M rate */
++		/*	mcs_rate = 3->CCK 11M rate */
++		/*	In the P2P mode, the driver should not support the CCK rate */
++
++		/*	Commented by Kurt 2012/10/16 */
++		/*	IOT issue: Google Nexus7 use 1M rate to send p2p_probe_req after GO nego completed and Nexus7 is client */
++		if (padapter->registrypriv.wifi_spec == 1) {
++			if (pattrib->data_rate <= 3)
++				wifi_test_chk_rate = 0;
++		}
++
++		if (wifi_test_chk_rate == 1) {
++			is_valid_p2p_probereq = process_probe_req_p2p_ie(pwdinfo, pframe, len);
++			if (is_valid_p2p_probereq == _TRUE) {
++				if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_DEVICE)) {
++					/* FIXME */
++					if (padapter->wdinfo.driver_interface == DRIVER_WEXT)
++						report_survey_event(padapter, precv_frame);
++
++					p2p_listen_state_process(padapter,  get_sa(pframe));
++
++					return _SUCCESS;
++				}
++
++				if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++					goto _continue;
++			}
++		}
++	}
++
++_continue:
++#endif /* CONFIG_P2P */
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE))
++		return _SUCCESS;
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE &&
++	    check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE | WIFI_AP_STATE) == _FALSE)
++		return _SUCCESS;
++
++
++	/* RTW_INFO("+OnProbeReq\n"); */
++
++
++#ifdef CONFIG_ATMEL_RC_PATCH
++	wps_ie = rtw_get_wps_ie(
++			      pframe + WLAN_HDR_A3_LEN + _PROBEREQ_IE_OFFSET_,
++			      len - WLAN_HDR_A3_LEN - _PROBEREQ_IE_OFFSET_,
++			      NULL, &wps_ielen);
++	if (wps_ie)
++		target_ie = rtw_get_wps_attr_content(wps_ie, wps_ielen, WPS_ATTR_MANUFACTURER, NULL, &target_ielen);
++	if ((target_ie && (target_ielen == 4)) && (_TRUE == _rtw_memcmp((void *)target_ie, "Ozmo", 4))) {
++		/* psta->flag_atmel_rc = 1; */
++		unsigned char *sa_addr = get_sa(pframe);
++		printk("%s: Find Ozmo RC -- %02x:%02x:%02x:%02x:%02x:%02x  \n\n",
++		       __func__, *sa_addr, *(sa_addr + 1), *(sa_addr + 2), *(sa_addr + 3), *(sa_addr + 4), *(sa_addr + 5));
++		_rtw_memcpy(pstapriv->atmel_rc_pattern, get_sa(pframe), ETH_ALEN);
++	}
++#endif
++
++
++#ifdef CONFIG_AUTO_AP_MODE
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE &&
++	    pmlmepriv->cur_network.join_res == _TRUE) {
++		_irqL	irqL;
++		struct sta_info	*psta;
++		u8 *mac_addr, *peer_addr;
++		struct sta_priv *pstapriv = &padapter->stapriv;
++		u8 RC_OUI[4] = {0x00, 0xE0, 0x4C, 0x0A};
++		/* EID[1] + EID_LEN[1] + RC_OUI[4] + MAC[6] + PairingID[2] + ChannelNum[2] */
++
++		p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + _PROBEREQ_IE_OFFSET_, _VENDOR_SPECIFIC_IE_, (int *)&ielen,
++			       len - WLAN_HDR_A3_LEN - _PROBEREQ_IE_OFFSET_);
++
++		if (!p || ielen != 14)
++			goto _non_rc_device;
++
++		if (!_rtw_memcmp(p + 2, RC_OUI, sizeof(RC_OUI)))
++			goto _non_rc_device;
++
++		if (!_rtw_memcmp(p + 6, get_sa(pframe), ETH_ALEN)) {
++			RTW_INFO("%s, do rc pairing ("MAC_FMT"), but mac addr mismatch!("MAC_FMT")\n", __FUNCTION__,
++				 MAC_ARG(get_sa(pframe)), MAC_ARG(p + 6));
++
++			goto _non_rc_device;
++		}
++
++		RTW_INFO("%s, got the pairing device("MAC_FMT")\n", __FUNCTION__,  MAC_ARG(get_sa(pframe)));
++
++		/* new a station */
++		psta = rtw_get_stainfo(pstapriv, get_sa(pframe));
++		if (psta == NULL) {
++			/* allocate a new one */
++			RTW_INFO("going to alloc stainfo for rc="MAC_FMT"\n",  MAC_ARG(get_sa(pframe)));
++			psta = rtw_alloc_stainfo(pstapriv, get_sa(pframe));
++			if (psta == NULL) {
++				/* TODO: */
++				RTW_INFO(" Exceed the upper limit of supported clients...\n");
++				return _SUCCESS;
++			}
++
++			_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++			if (rtw_is_list_empty(&psta->asoc_list)) {
++				psta->expire_to = pstapriv->expire_to;
++				rtw_list_insert_tail(&psta->asoc_list, &pstapriv->asoc_list);
++				pstapriv->asoc_list_cnt++;
++			}
++			_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++			/* generate pairing ID */
++			mac_addr = adapter_mac_addr(padapter);
++			peer_addr = psta->hwaddr;
++			psta->pid = (u16)(((mac_addr[4] << 8) + mac_addr[5]) + ((peer_addr[4] << 8) + peer_addr[5]));
++
++			/* update peer stainfo */
++			psta->isrc = _TRUE;
++
++			/* get a unique AID */
++			if (psta->aid > 0)
++				RTW_INFO("old AID %d\n", psta->aid);
++			else {
++				for (psta->aid = 1; psta->aid <= NUM_STA; psta->aid++)
++					if (pstapriv->sta_aid[psta->aid - 1] == NULL)
++						break;
++
++				if (psta->aid > pstapriv->max_num_sta) {
++					psta->aid = 0;
++					RTW_INFO("no room for more AIDs\n");
++					return _SUCCESS;
++				} else {
++					pstapriv->sta_aid[psta->aid - 1] = psta;
++					RTW_INFO("allocate new AID = (%d)\n", psta->aid);
++				}
++			}
++
++			psta->qos_option = 1;
++			psta->bw_mode = CHANNEL_WIDTH_20;
++			psta->ieee8021x_blocked = _FALSE;
++#ifdef CONFIG_80211N_HT
++			psta->htpriv.ht_option = _TRUE;
++			psta->htpriv.ampdu_enable = _FALSE;
++			psta->htpriv.sgi_20m = _FALSE;
++			psta->htpriv.sgi_40m = _FALSE;
++			psta->htpriv.ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++			psta->htpriv.agg_enable_bitmap = 0x0;/* reset */
++			psta->htpriv.candidate_tid_bitmap = 0x0;/* reset */
++#endif
++
++			rtw_hal_set_odm_var(padapter, HAL_ODM_STA_INFO, psta, _TRUE);
++
++			_rtw_memset((void *)&psta->sta_stats, 0, sizeof(struct stainfo_stats));
++
++			_enter_critical_bh(&psta->lock, &irqL);
++			psta->state |= _FW_LINKED;
++			_exit_critical_bh(&psta->lock, &irqL);
++
++			report_add_sta_event(padapter, psta->hwaddr);
++
++		}
++
++		issue_probersp(padapter, get_sa(pframe), _FALSE);
++
++		return _SUCCESS;
++
++	}
++
++_non_rc_device:
++
++	return _SUCCESS;
++
++#endif /* CONFIG_AUTO_AP_MODE */
++
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) &&
++	    rtw_mi_buddy_check_fwstate(padapter, _FW_UNDER_LINKING | _FW_UNDER_SURVEY)) {
++		/* don't process probe req */
++		return _SUCCESS;
++	}
++#endif
++
++	p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + _PROBEREQ_IE_OFFSET_, _SSID_IE_, (int *)&ielen,
++		       len - WLAN_HDR_A3_LEN - _PROBEREQ_IE_OFFSET_);
++
++
++	/* check (wildcard) SSID */
++	if (p != NULL) {
++		if (is_valid_p2p_probereq == _TRUE)
++			goto _issue_probersp;
++
++		if ((ielen != 0 && _FALSE == _rtw_memcmp((void *)(p + 2), (void *)cur->Ssid.Ssid, cur->Ssid.SsidLength))
++		    || (ielen == 0 && pmlmeinfo->hidden_ssid_mode)
++		   )
++			return _SUCCESS;
++
++_issue_probersp:
++		if (((check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE &&
++		      pmlmepriv->cur_network.join_res == _TRUE)) || check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE)) {
++			/* RTW_INFO("+issue_probersp during ap mode\n"); */
++			issue_probersp(padapter, get_sa(pframe), is_valid_p2p_probereq);
++		}
++
++	}
++
++	return _SUCCESS;
++
++}
++
++unsigned int OnProbeRsp(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct sta_info		*psta;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	u8	*pframe = precv_frame->u.hdr.rx_data;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &padapter->wdinfo;
++#endif
++
++
++#ifdef CONFIG_P2P
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_PROVISION_DIS_REQ)) {
++		if (_TRUE == pwdinfo->tx_prov_disc_info.benable) {
++			if (_rtw_memcmp(pwdinfo->tx_prov_disc_info.peerIFAddr, GetAddr2Ptr(pframe), ETH_ALEN)) {
++				if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT)) {
++					pwdinfo->tx_prov_disc_info.benable = _FALSE;
++					issue_p2p_provision_request(padapter,
++						pwdinfo->tx_prov_disc_info.ssid.Ssid,
++						pwdinfo->tx_prov_disc_info.ssid.SsidLength,
++						pwdinfo->tx_prov_disc_info.peerDevAddr);
++				} else if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_DEVICE) || rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++					pwdinfo->tx_prov_disc_info.benable = _FALSE;
++					issue_p2p_provision_request(padapter,
++								    NULL,
++								    0,
++						pwdinfo->tx_prov_disc_info.peerDevAddr);
++				}
++			}
++		}
++		return _SUCCESS;
++	} else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING)) {
++		if (_TRUE == pwdinfo->nego_req_info.benable) {
++			RTW_INFO("[%s] P2P State is GONEGO ING!\n", __FUNCTION__);
++			if (_rtw_memcmp(pwdinfo->nego_req_info.peerDevAddr, GetAddr2Ptr(pframe), ETH_ALEN)) {
++				pwdinfo->nego_req_info.benable = _FALSE;
++				issue_p2p_GO_request(padapter, pwdinfo->nego_req_info.peerDevAddr);
++			}
++		}
++	} else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_INVITE_REQ)) {
++		if (_TRUE == pwdinfo->invitereq_info.benable) {
++			RTW_INFO("[%s] P2P_STATE_TX_INVITE_REQ!\n", __FUNCTION__);
++			if (_rtw_memcmp(pwdinfo->invitereq_info.peer_macaddr, GetAddr2Ptr(pframe), ETH_ALEN)) {
++				pwdinfo->invitereq_info.benable = _FALSE;
++				issue_p2p_invitation_request(padapter, pwdinfo->invitereq_info.peer_macaddr);
++			}
++		}
++	}
++#endif
++
++
++	if (mlmeext_chk_scan_state(pmlmeext, SCAN_PROCESS)) {
++		rtw_mi_report_survey_event(padapter, precv_frame);
++		return _SUCCESS;
++	}
++
++#if 0 /* move to validate_recv_mgnt_frame */
++	if (_rtw_memcmp(GetAddr3Ptr(pframe), get_my_bssid(&pmlmeinfo->network), ETH_ALEN)) {
++		if (pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS) {
++			psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++			if (psta != NULL)
++				psta->sta_stats.rx_mgnt_pkts++;
++		}
++	}
++#endif
++
++	return _SUCCESS;
++
++}
++
++/* for 11n Logo 4.2.31/4.2.32 */
++static void rtw_check_legacy_ap(_adapter *padapter, u8 *pframe, u32 len)
++{
++
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	if (!padapter->registrypriv.wifi_spec)
++		return;
++	
++	if(!MLME_IS_AP(padapter))
++		return;
++	
++
++	if (pmlmeext->bstart_bss == _TRUE) {
++		int left;
++		u16 capability;
++		unsigned char *pos;
++		struct rtw_ieee802_11_elems elems;
++		struct HT_info_element *pht_info = NULL;
++		u16 cur_op_mode; 
++
++		/* checking IEs */
++		left = len - sizeof(struct rtw_ieee80211_hdr_3addr) - _BEACON_IE_OFFSET_;
++		pos = pframe + sizeof(struct rtw_ieee80211_hdr_3addr) + _BEACON_IE_OFFSET_;
++		if (rtw_ieee802_11_parse_elems(pos, left, &elems, 1) == ParseFailed) {
++			RTW_INFO("%s: parse fail for "MAC_FMT"\n", __func__, MAC_ARG(GetAddr3Ptr(pframe)));
++			return;
++		}
++
++		cur_op_mode = pmlmepriv->ht_op_mode & HT_INFO_OPERATION_MODE_OP_MODE_MASK;
++
++		/* for legacy ap */
++		if (elems.ht_capabilities == NULL && elems.ht_capabilities_len == 0) {
++
++			if (0)
++				RTW_INFO("%s: "MAC_FMT" is legacy ap\n", __func__, MAC_ARG(GetAddr3Ptr(pframe)));
++
++			ATOMIC_SET(&pmlmepriv->olbc, _TRUE);
++			ATOMIC_SET(&pmlmepriv->olbc_ht, _TRUE);
++		}
++			
++	}
++}
++
++unsigned int OnBeacon(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct sta_info	*psta;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct sta_priv	*pstapriv = &padapter->stapriv;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint len = precv_frame->u.hdr.len;
++	WLAN_BSSID_EX *pbss;
++	int ret = _SUCCESS;
++	u8 *p = NULL;
++	u32 ielen = 0;
++#ifdef CONFIG_TDLS
++	struct sta_info *ptdls_sta;
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++#ifdef CONFIG_TDLS_CH_SW
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++#endif
++#endif /* CONFIG_TDLS */
++
++#ifdef CONFIG_ATTEMPT_TO_FIX_AP_BEACON_ERROR
++	p = rtw_get_ie(pframe + sizeof(struct rtw_ieee80211_hdr_3addr) + _BEACON_IE_OFFSET_, _EXT_SUPPORTEDRATES_IE_, &ielen,
++		precv_frame->u.hdr.len - sizeof(struct rtw_ieee80211_hdr_3addr) - _BEACON_IE_OFFSET_);
++	if ((p != NULL) && (ielen > 0)) {
++		if ((*(p + 1 + ielen) == 0x2D) && (*(p + 2 + ielen) != 0x2D)) {
++			/* Invalid value 0x2D is detected in Extended Supported Rates (ESR) IE. Try to fix the IE length to avoid failed Beacon parsing. */
++			RTW_INFO("[WIFIDBG] Error in ESR IE is detected in Beacon of BSSID:"MAC_FMT". Fix the length of ESR IE to avoid failed Beacon parsing.\n", MAC_ARG(GetAddr3Ptr(pframe)));
++			*(p + 1) = ielen - 1;
++		}
++	}
++#endif
++
++	if (mlmeext_chk_scan_state(pmlmeext, SCAN_PROCESS)) {
++		rtw_mi_report_survey_event(padapter, precv_frame);
++		return _SUCCESS;
++	}
++
++
++	rtw_check_legacy_ap(padapter, pframe, len);
++
++	if (_rtw_memcmp(GetAddr3Ptr(pframe), get_my_bssid(&pmlmeinfo->network), ETH_ALEN)) {
++		if (pmlmeinfo->state & WIFI_FW_AUTH_NULL) {
++			/* we should update current network before auth, or some IE is wrong */
++			pbss = (WLAN_BSSID_EX *)rtw_malloc(sizeof(WLAN_BSSID_EX));
++			if (pbss) {
++				if (collect_bss_info(padapter, precv_frame, pbss) == _SUCCESS) {
++					struct beacon_keys recv_beacon;
++
++					update_network(&(pmlmepriv->cur_network.network), pbss, padapter, _TRUE);
++					rtw_get_bcn_info(&(pmlmepriv->cur_network));
++
++					/* update bcn keys */
++					if (rtw_get_bcn_keys(padapter, pframe, len, &recv_beacon) == _TRUE) {
++						RTW_INFO("%s: beacon keys ready\n", __func__);
++						_rtw_memcpy(&pmlmepriv->cur_beacon_keys,
++							&recv_beacon, sizeof(recv_beacon));
++						pmlmepriv->new_beacon_cnts = 0;
++					} else {
++						RTW_ERR("%s: get beacon keys failed\n", __func__);
++						_rtw_memset(&pmlmepriv->cur_beacon_keys, 0, sizeof(recv_beacon));
++						pmlmepriv->new_beacon_cnts = 0;
++					}
++				}
++				rtw_mfree((u8 *)pbss, sizeof(WLAN_BSSID_EX));
++			}
++
++			/* check the vendor of the assoc AP */
++			pmlmeinfo->assoc_AP_vendor = check_assoc_AP(pframe + sizeof(struct rtw_ieee80211_hdr_3addr), len - sizeof(struct rtw_ieee80211_hdr_3addr));
++
++			/* update TSF Value */
++			update_TSF(pmlmeext, pframe, len);
++
++			/* reset for adaptive_early_32k */
++			pmlmeext->adaptive_tsf_done = _FALSE;
++			pmlmeext->DrvBcnEarly = 0xff;
++			pmlmeext->DrvBcnTimeOut = 0xff;
++			pmlmeext->bcn_cnt = 0;
++			_rtw_memset(pmlmeext->bcn_delay_cnt, 0, sizeof(pmlmeext->bcn_delay_cnt));
++			_rtw_memset(pmlmeext->bcn_delay_ratio, 0, sizeof(pmlmeext->bcn_delay_ratio));
++
++#ifdef CONFIG_P2P_PS
++			process_p2p_ps_ie(padapter, (pframe + WLAN_HDR_A3_LEN), (len - WLAN_HDR_A3_LEN));
++#endif /* CONFIG_P2P_PS */
++
++#if defined(CONFIG_P2P) && defined(CONFIG_CONCURRENT_MODE)
++			if (padapter->registrypriv.wifi_spec) {
++				if (process_p2p_cross_connect_ie(padapter, (pframe + WLAN_HDR_A3_LEN), (len - WLAN_HDR_A3_LEN)) == _FALSE) {
++					if (rtw_mi_buddy_check_mlmeinfo_state(padapter, WIFI_FW_AP_STATE)) {
++						RTW_PRINT("no issue auth, P2P cross-connect does not permit\n ");
++						return _SUCCESS;
++					}
++				}
++			}
++#endif /* CONFIG_P2P CONFIG_P2P and CONFIG_CONCURRENT_MODE */
++
++			/* start auth */
++			start_clnt_auth(padapter);
++
++			return _SUCCESS;
++		}
++
++		if (((pmlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE) && (pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)) {
++			psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++			if (psta != NULL) {
++#ifdef CONFIG_PATCH_JOIN_WRONG_CHANNEL
++				/* Merge from 8712 FW code */
++				if (cmp_pkt_chnl_diff(padapter, pframe, len) != 0) {
++					/* join wrong channel, deauth and reconnect           */
++					issue_deauth(padapter, (&(pmlmeinfo->network))->MacAddress, WLAN_REASON_DEAUTH_LEAVING);
++
++					report_del_sta_event(padapter, (&(pmlmeinfo->network))->MacAddress, WLAN_REASON_JOIN_WRONG_CHANNEL, _TRUE, _FALSE);
++					pmlmeinfo->state &= (~WIFI_FW_ASSOC_SUCCESS);
++					return _SUCCESS;
++				}
++#endif /* CONFIG_PATCH_JOIN_WRONG_CHANNEL */
++
++				ret = rtw_check_bcn_info(padapter, pframe, len);
++				if (!ret) {
++					RTW_PRINT("ap has changed, disconnect now\n ");
++					receive_disconnect(padapter, pmlmeinfo->network.MacAddress , 0, _FALSE);
++					return _SUCCESS;
++				}
++				/* update WMM, ERP in the beacon */
++				/* todo: the timer is used instead of the number of the beacon received */
++				if ((sta_rx_pkts(psta) & 0xf) == 0) {
++					/* RTW_INFO("update_bcn_info\n"); */
++					update_beacon_info(padapter, pframe, len, psta);
++				}
++
++				adaptive_early_32k(pmlmeext, pframe, len);
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++				if (rtw_tdls_is_chsw_allowed(padapter) == _TRUE) {
++					/* Send TDLS Channel Switch Request when receiving Beacon */
++					if ((padapter->tdlsinfo.chsw_info.ch_sw_state & TDLS_CH_SW_INITIATOR_STATE) && (ATOMIC_READ(&pchsw_info->chsw_on) == _TRUE)
++					    && (pmlmeext->cur_channel == rtw_get_oper_ch(padapter))) {
++						ptdls_sta = rtw_get_stainfo(&padapter->stapriv, padapter->tdlsinfo.chsw_info.addr);
++						if (ptdls_sta != NULL) {
++							if (ptdls_sta->tdls_sta_state | TDLS_LINKED_STATE)
++								_set_timer(&ptdls_sta->stay_on_base_chnl_timer, TDLS_CH_SW_STAY_ON_BASE_CHNL_TIMEOUT);
++						}
++					}
++				}
++#endif
++#endif /* CONFIG_TDLS */
++
++#ifdef CONFIG_DFS
++				process_csa_ie(padapter, pframe, len);	/* channel switch announcement */
++#endif /* CONFIG_DFS */
++
++#ifdef CONFIG_P2P_PS
++				process_p2p_ps_ie(padapter, (pframe + WLAN_HDR_A3_LEN), (len - WLAN_HDR_A3_LEN));
++#endif /* CONFIG_P2P_PS */
++
++				if (pmlmeext->en_hw_update_tsf)
++					rtw_enable_hw_update_tsf_cmd(padapter);
++
++#if 0 /* move to validate_recv_mgnt_frame */
++				psta->sta_stats.rx_mgnt_pkts++;
++#endif
++			}
++
++		} else if ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) {
++			_irqL irqL;
++			u8 rate_set[16];
++			u8 rate_num = 0;
++
++			psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++			if (psta != NULL) {
++				/*
++				* update WMM, ERP in the beacon
++				* todo: the timer is used instead of the number of the beacon received
++				*/
++				if ((sta_rx_pkts(psta) & 0xf) == 0)
++					update_beacon_info(padapter, pframe, len, psta);
++
++				if (pmlmeext->en_hw_update_tsf)
++					rtw_enable_hw_update_tsf_cmd(padapter);
++			} else {
++				rtw_ies_get_supported_rate(pframe + WLAN_HDR_A3_LEN + _BEACON_IE_OFFSET_, len - WLAN_HDR_A3_LEN - _BEACON_IE_OFFSET_, rate_set, &rate_num);
++				if (rate_num == 0) {
++					RTW_INFO(FUNC_ADPT_FMT" RX beacon with no supported rate\n", FUNC_ADPT_ARG(padapter));
++					goto _END_ONBEACON_;
++				}
++
++				psta = rtw_alloc_stainfo(pstapriv, GetAddr2Ptr(pframe));
++				if (psta == NULL) {
++					RTW_INFO(FUNC_ADPT_FMT" Exceed the upper limit of supported clients\n", FUNC_ADPT_ARG(padapter));
++					goto _END_ONBEACON_;
++				}
++
++				psta->expire_to = pstapriv->adhoc_expire_to;
++
++				_rtw_memcpy(psta->bssrateset, rate_set, rate_num);
++				psta->bssratelen = rate_num;
++
++				/* update TSF Value */
++				update_TSF(pmlmeext, pframe, len);
++
++				/* report sta add event */
++				report_add_sta_event(padapter, GetAddr2Ptr(pframe));
++			}
++		}
++	}
++
++_END_ONBEACON_:
++
++	return _SUCCESS;
++
++}
++
++unsigned int OnAuth(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_AP_MODE
++	_irqL irqL;
++	unsigned int	auth_mode, seq, ie_len;
++	unsigned char	*sa, *p;
++	u16	algorithm;
++	int	status;
++	static struct sta_info stat;
++	struct	sta_info	*pstat = NULL;
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint len = precv_frame->u.hdr.len;
++	u8	offset = 0;
++
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) &&
++	    rtw_mi_buddy_check_fwstate(padapter, _FW_UNDER_LINKING | _FW_UNDER_SURVEY)) {
++		/* don't process auth request; */
++		return _SUCCESS;
++	}
++#endif /* CONFIG_CONCURRENT_MODE */
++
++	if ((pmlmeinfo->state & 0x03) != WIFI_FW_AP_STATE)
++		return _FAIL;
++
++	RTW_INFO("+OnAuth\n");
++
++	sa = GetAddr2Ptr(pframe);
++
++	auth_mode = psecuritypriv->dot11AuthAlgrthm;
++
++	if (GetPrivacy(pframe)) {
++		u8	*iv;
++		struct rx_pkt_attrib	*prxattrib = &(precv_frame->u.hdr.attrib);
++
++		prxattrib->hdrlen = WLAN_HDR_A3_LEN;
++		prxattrib->encrypt = _WEP40_;
++
++		iv = pframe + prxattrib->hdrlen;
++		prxattrib->key_index = ((iv[3] >> 6) & 0x3);
++
++		prxattrib->iv_len = 4;
++		prxattrib->icv_len = 4;
++
++		rtw_wep_decrypt(padapter, (u8 *)precv_frame);
++
++		offset = 4;
++	}
++
++	algorithm = le16_to_cpu(*(u16 *)((SIZE_PTR)pframe + WLAN_HDR_A3_LEN + offset));
++	seq	= le16_to_cpu(*(u16 *)((SIZE_PTR)pframe + WLAN_HDR_A3_LEN + offset + 2));
++
++	RTW_INFO("auth alg=%x, seq=%X\n", algorithm, seq);
++
++	if (auth_mode == 2 &&
++	    psecuritypriv->dot11PrivacyAlgrthm != _WEP40_ &&
++	    psecuritypriv->dot11PrivacyAlgrthm != _WEP104_)
++		auth_mode = 0;
++
++	if ((algorithm > 0 && auth_mode == 0) ||	/* rx a shared-key auth but shared not enabled */
++	    (algorithm == 0 && auth_mode == 1)) {	/* rx a open-system auth but shared-key is enabled */
++		RTW_INFO("auth rejected due to bad alg [alg=%d, auth_mib=%d] %02X%02X%02X%02X%02X%02X\n",
++			algorithm, auth_mode, sa[0], sa[1], sa[2], sa[3], sa[4], sa[5]);
++
++		status = _STATS_NO_SUPP_ALG_;
++
++		goto auth_fail;
++	}
++
++#if CONFIG_RTW_MACADDR_ACL
++	if (rtw_access_ctrl(padapter, sa) == _FALSE) {
++		status = _STATS_UNABLE_HANDLE_STA_;
++		goto auth_fail;
++	}
++#endif
++
++	pstat = rtw_get_stainfo(pstapriv, sa);
++	if (pstat == NULL) {
++
++		/* allocate a new one */
++		RTW_INFO("going to alloc stainfo for sa="MAC_FMT"\n",  MAC_ARG(sa));
++		pstat = rtw_alloc_stainfo(pstapriv, sa);
++		if (pstat == NULL) {
++			RTW_INFO(" Exceed the upper limit of supported clients...\n");
++			status = _STATS_UNABLE_HANDLE_STA_;
++			goto auth_fail;
++		}
++
++		pstat->state = WIFI_FW_AUTH_NULL;
++		pstat->auth_seq = 0;
++
++		/* pstat->flags = 0; */
++		/* pstat->capability = 0; */
++	} else {
++#ifdef CONFIG_IEEE80211W
++		if (pstat->bpairwise_key_installed != _TRUE && !(pstat->state & WIFI_FW_ASSOC_SUCCESS))
++#endif /* CONFIG_IEEE80211W */
++		{
++
++			_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++			if (rtw_is_list_empty(&pstat->asoc_list) == _FALSE) {
++				rtw_list_delete(&pstat->asoc_list);
++				pstapriv->asoc_list_cnt--;
++				if (pstat->expire_to > 0)
++					;/* TODO: STA re_auth within expire_to */
++			}
++			_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++			if (seq == 1)
++				; /* TODO: STA re_auth and auth timeout */
++
++		}
++	}
++
++#ifdef CONFIG_IEEE80211W
++	if (pstat->bpairwise_key_installed != _TRUE && !(pstat->state & WIFI_FW_ASSOC_SUCCESS))
++#endif /* CONFIG_IEEE80211W */
++	{
++		_enter_critical_bh(&pstapriv->auth_list_lock, &irqL);
++		if (rtw_is_list_empty(&pstat->auth_list)) {
++
++			rtw_list_insert_tail(&pstat->auth_list, &pstapriv->auth_list);
++			pstapriv->auth_list_cnt++;
++		}
++		_exit_critical_bh(&pstapriv->auth_list_lock, &irqL);
++	}
++
++	if (pstat->auth_seq == 0)
++		pstat->expire_to = pstapriv->auth_to;
++
++
++	if ((pstat->auth_seq + 1) != seq) {
++		RTW_INFO("(1)auth rejected because out of seq [rx_seq=%d, exp_seq=%d]!\n",
++			 seq, pstat->auth_seq + 1);
++		status = _STATS_OUT_OF_AUTH_SEQ_;
++		goto auth_fail;
++	}
++
++	if (algorithm == 0 && (auth_mode == 0 || auth_mode == 2 || auth_mode == 3)) {
++		if (seq == 1) {
++#ifdef CONFIG_IEEE80211W
++			if (pstat->bpairwise_key_installed != _TRUE && !(pstat->state & WIFI_FW_ASSOC_SUCCESS))
++#endif /* CONFIG_IEEE80211W */
++			{
++				pstat->state &= ~WIFI_FW_AUTH_NULL;
++				pstat->state |= WIFI_FW_AUTH_SUCCESS;
++				pstat->expire_to = pstapriv->assoc_to;
++			}
++			pstat->authalg = algorithm;
++		} else {
++			RTW_INFO("(2)auth rejected because out of seq [rx_seq=%d, exp_seq=%d]!\n",
++				 seq, pstat->auth_seq + 1);
++			status = _STATS_OUT_OF_AUTH_SEQ_;
++			goto auth_fail;
++		}
++	} else { /* shared system or auto authentication */
++		if (seq == 1) {
++			/* prepare for the challenging txt... */
++
++			/* get_random_bytes((void *)pstat->chg_txt, 128); */ /* TODO: */
++			_rtw_memset((void *)pstat->chg_txt, 78, 128);
++#ifdef CONFIG_IEEE80211W
++			if (pstat->bpairwise_key_installed != _TRUE && !(pstat->state & WIFI_FW_ASSOC_SUCCESS))
++#endif /* CONFIG_IEEE80211W */
++			{
++				pstat->state &= ~WIFI_FW_AUTH_NULL;
++				pstat->state |= WIFI_FW_AUTH_STATE;
++			}
++			pstat->authalg = algorithm;
++			pstat->auth_seq = 2;
++		} else if (seq == 3) {
++			/* checking for challenging txt... */
++			RTW_INFO("checking for challenging txt...\n");
++
++			p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + 4 + _AUTH_IE_OFFSET_ , _CHLGETXT_IE_, (int *)&ie_len,
++				len - WLAN_HDR_A3_LEN - _AUTH_IE_OFFSET_ - 4);
++
++			if ((p == NULL) || (ie_len <= 0)) {
++				RTW_INFO("auth rejected because challenge failure!(1)\n");
++				status = _STATS_CHALLENGE_FAIL_;
++				goto auth_fail;
++			}
++
++			if (_rtw_memcmp((void *)(p + 2), pstat->chg_txt, 128)) {
++#ifdef CONFIG_IEEE80211W
++				if (pstat->bpairwise_key_installed != _TRUE && !(pstat->state & WIFI_FW_ASSOC_SUCCESS))
++#endif /* CONFIG_IEEE80211W */
++				{
++					pstat->state &= (~WIFI_FW_AUTH_STATE);
++					pstat->state |= WIFI_FW_AUTH_SUCCESS;
++					/* challenging txt is correct... */
++					pstat->expire_to =  pstapriv->assoc_to;
++				}
++			} else {
++				RTW_INFO("auth rejected because challenge failure!\n");
++				status = _STATS_CHALLENGE_FAIL_;
++				goto auth_fail;
++			}
++		} else {
++			RTW_INFO("(3)auth rejected because out of seq [rx_seq=%d, exp_seq=%d]!\n",
++				 seq, pstat->auth_seq + 1);
++			status = _STATS_OUT_OF_AUTH_SEQ_;
++			goto auth_fail;
++		}
++	}
++
++
++	/* Now, we are going to issue_auth... */
++	pstat->auth_seq = seq + 1;
++
++#ifdef CONFIG_NATIVEAP_MLME
++	issue_auth(padapter, pstat, (unsigned short)(_STATS_SUCCESSFUL_));
++#endif
++
++	if ((pstat->state & WIFI_FW_AUTH_SUCCESS) || (pstat->state & WIFI_FW_ASSOC_SUCCESS))
++		pstat->auth_seq = 0;
++
++
++	return _SUCCESS;
++
++auth_fail:
++
++	if (pstat)
++		rtw_free_stainfo(padapter , pstat);
++
++	pstat = &stat;
++	_rtw_memset((char *)pstat, '\0', sizeof(stat));
++	pstat->auth_seq = 2;
++	_rtw_memcpy(pstat->hwaddr, sa, 6);
++
++#ifdef CONFIG_NATIVEAP_MLME
++	issue_auth(padapter, pstat, (unsigned short)status);
++#endif
++
++#endif
++	return _FAIL;
++
++}
++
++unsigned int OnAuthClient(_adapter *padapter, union recv_frame *precv_frame)
++{
++	unsigned int	seq, len, status, algthm, offset;
++	unsigned char	*p;
++	unsigned int	go2asoc = 0;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint pkt_len = precv_frame->u.hdr.len;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	/* check A1 matches or not */
++	if (!_rtw_memcmp(adapter_mac_addr(padapter), get_da(pframe), ETH_ALEN))
++		return _SUCCESS;
++
++	if (!(pmlmeinfo->state & WIFI_FW_AUTH_STATE))
++		return _SUCCESS;
++
++	offset = (GetPrivacy(pframe)) ? 4 : 0;
++
++	algthm	= le16_to_cpu(*(unsigned short *)((SIZE_PTR)pframe + WLAN_HDR_A3_LEN + offset));
++	seq	= le16_to_cpu(*(unsigned short *)((SIZE_PTR)pframe + WLAN_HDR_A3_LEN + offset + 2));
++	status	= le16_to_cpu(*(unsigned short *)((SIZE_PTR)pframe + WLAN_HDR_A3_LEN + offset + 4));
++
++	if (status != 0) {
++		RTW_INFO("clnt auth fail, status: %d\n", status);
++		if (status == 13) { /* && pmlmeinfo->auth_algo == dot11AuthAlgrthm_Auto) */
++			if (pmlmeinfo->auth_algo == dot11AuthAlgrthm_Shared)
++				pmlmeinfo->auth_algo = dot11AuthAlgrthm_Open;
++			else
++				pmlmeinfo->auth_algo = dot11AuthAlgrthm_Shared;
++			/* pmlmeinfo->reauth_count = 0; */
++		}
++
++		set_link_timer(pmlmeext, 1);
++		goto authclnt_fail;
++	}
++
++	if (seq == 2) {
++		if (pmlmeinfo->auth_algo == dot11AuthAlgrthm_Shared) {
++			/* legendary shared system */
++			p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + _AUTH_IE_OFFSET_, _CHLGETXT_IE_, (int *)&len,
++				pkt_len - WLAN_HDR_A3_LEN - _AUTH_IE_OFFSET_);
++
++			if (p == NULL) {
++				/* RTW_INFO("marc: no challenge text?\n"); */
++				goto authclnt_fail;
++			}
++
++			_rtw_memcpy((void *)(pmlmeinfo->chg_txt), (void *)(p + 2), len);
++			pmlmeinfo->auth_seq = 3;
++			issue_auth(padapter, NULL, 0);
++			set_link_timer(pmlmeext, REAUTH_TO);
++
++			return _SUCCESS;
++		} else {
++			/* open system */
++			go2asoc = 1;
++		}
++	} else if (seq == 4) {
++		if (pmlmeinfo->auth_algo == dot11AuthAlgrthm_Shared)
++			go2asoc = 1;
++		else
++			goto authclnt_fail;
++	} else {
++		/* this is also illegal */
++		/* RTW_INFO("marc: clnt auth failed due to illegal seq=%x\n", seq); */
++		goto authclnt_fail;
++	}
++
++	if (go2asoc) {
++		RTW_PRINT("auth success, start assoc\n");
++		start_clnt_assoc(padapter);
++		return _SUCCESS;
++	}
++
++authclnt_fail:
++
++	/* pmlmeinfo->state &= ~(WIFI_FW_AUTH_STATE); */
++
++	return _FAIL;
++
++}
++
++unsigned int OnAssocReq(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_AP_MODE
++	_irqL irqL;
++	u16 capab_info, listen_interval;
++	struct rtw_ieee802_11_elems elems;
++	struct sta_info	*pstat;
++	unsigned char		reassoc, *p, *pos, *wpa_ie;
++	unsigned char WMM_IE[] = {0x00, 0x50, 0xf2, 0x02, 0x00, 0x01};
++	int		i, ie_len, wpa_ie_len, left;
++	u8 rate_set[16];
++	u8 rate_num;
++	unsigned short		status = _STATS_SUCCESSFUL_;
++	unsigned short		frame_type, ie_offset = 0;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX	*cur = &(pmlmeinfo->network);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint pkt_len = precv_frame->u.hdr.len;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8 p2p_status_code = P2P_STATUS_SUCCESS;
++	u8 *p2pie;
++	u32 p2pielen = 0;
++#endif /* CONFIG_P2P */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) &&
++	    rtw_mi_buddy_check_fwstate(padapter, _FW_UNDER_LINKING | _FW_UNDER_SURVEY)) {
++		/* don't process assoc request; */
++		return _SUCCESS;
++	}
++#endif /* CONFIG_CONCURRENT_MODE */
++
++	if ((pmlmeinfo->state & 0x03) != WIFI_FW_AP_STATE)
++		return _FAIL;
++
++	frame_type = GetFrameSubType(pframe);
++	if (frame_type == WIFI_ASSOCREQ) {
++		reassoc = 0;
++		ie_offset = _ASOCREQ_IE_OFFSET_;
++	} else { /* WIFI_REASSOCREQ */
++		reassoc = 1;
++		ie_offset = _REASOCREQ_IE_OFFSET_;
++	}
++
++
++	if (pkt_len < IEEE80211_3ADDR_LEN + ie_offset) {
++		RTW_INFO("handle_assoc(reassoc=%d) - too short payload (len=%lu)"
++			 "\n", reassoc, (unsigned long)pkt_len);
++		return _FAIL;
++	}
++
++	pstat = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++	if (pstat == (struct sta_info *)NULL) {
++		status = _RSON_CLS2_;
++		goto asoc_class2_error;
++	}
++
++	capab_info = RTW_GET_LE16(pframe + WLAN_HDR_A3_LEN);
++	/* capab_info = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN));	 */
++	/* listen_interval = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN+2)); */
++	listen_interval = RTW_GET_LE16(pframe + WLAN_HDR_A3_LEN + 2);
++
++	left = pkt_len - (IEEE80211_3ADDR_LEN + ie_offset);
++	pos = pframe + (IEEE80211_3ADDR_LEN + ie_offset);
++
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	/* check if this stat has been successfully authenticated/assocated */
++	if (!((pstat->state) & WIFI_FW_AUTH_SUCCESS)) {
++		if (!((pstat->state) & WIFI_FW_ASSOC_SUCCESS)) {
++			status = _RSON_CLS2_;
++			goto asoc_class2_error;
++		} else {
++			pstat->state &= (~WIFI_FW_ASSOC_SUCCESS);
++			pstat->state |= WIFI_FW_ASSOC_STATE;
++		}
++	} else {
++		pstat->state &= (~WIFI_FW_AUTH_SUCCESS);
++		pstat->state |= WIFI_FW_ASSOC_STATE;
++	}
++
++
++#if 0/* todo:tkip_countermeasures */
++	if (hapd->tkip_countermeasures) {
++		resp = WLAN_REASON_MICHAEL_MIC_FAILURE;
++		goto fail;
++	}
++#endif
++
++	pstat->capability = capab_info;
++
++#if 0/* todo: */
++	/* check listen_interval */
++	if (listen_interval > hapd->conf->max_listen_interval) {
++		hostapd_logger(hapd, mgmt->sa, HOSTAPD_MODULE_IEEE80211,
++			       HOSTAPD_LEVEL_DEBUG,
++			       "Too large Listen Interval (%d)",
++			       listen_interval);
++		resp = WLAN_STATUS_ASSOC_DENIED_LISTEN_INT_TOO_LARGE;
++		goto fail;
++	}
++
++	pstat->listen_interval = listen_interval;
++#endif
++
++	/* now parse all ieee802_11 ie to point to elems */
++	if (rtw_ieee802_11_parse_elems(pos, left, &elems, 1) == ParseFailed ||
++	    !elems.ssid) {
++		RTW_INFO("STA " MAC_FMT " sent invalid association request\n",
++			 MAC_ARG(pstat->hwaddr));
++		status = _STATS_FAILURE_;
++		goto OnAssocReqFail;
++	}
++
++
++	/* now we should check all the fields... */
++	/* checking SSID */
++	p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + ie_offset, _SSID_IE_, &ie_len,
++		       pkt_len - WLAN_HDR_A3_LEN - ie_offset);
++	if (p == NULL)
++		status = _STATS_FAILURE_;
++
++	if (ie_len == 0) /* broadcast ssid, however it is not allowed in assocreq */
++		status = _STATS_FAILURE_;
++	else {
++		/* check if ssid match */
++		if (!_rtw_memcmp((void *)(p + 2), cur->Ssid.Ssid, cur->Ssid.SsidLength))
++			status = _STATS_FAILURE_;
++
++		if (ie_len != cur->Ssid.SsidLength)
++			status = _STATS_FAILURE_;
++	}
++
++	if (_STATS_SUCCESSFUL_ != status)
++		goto OnAssocReqFail;
++
++	rtw_ies_get_supported_rate(pframe + WLAN_HDR_A3_LEN + ie_offset, pkt_len - WLAN_HDR_A3_LEN - ie_offset, rate_set, &rate_num);
++	if (rate_num == 0) {
++		RTW_INFO(FUNC_ADPT_FMT" RX assoc-req with no supported rate\n", FUNC_ADPT_ARG(padapter));
++		status = _STATS_FAILURE_;
++		goto OnAssocReqFail;
++	}
++	_rtw_memcpy(pstat->bssrateset, rate_set, rate_num);
++	pstat->bssratelen = rate_num;
++	UpdateBrateTblForSoftAP(pstat->bssrateset, pstat->bssratelen);
++
++	/* check RSN/WPA/WPS */
++	pstat->dot8021xalg = 0;
++	pstat->wpa_psk = 0;
++	pstat->wpa_group_cipher = 0;
++	pstat->wpa2_group_cipher = 0;
++	pstat->wpa_pairwise_cipher = 0;
++	pstat->wpa2_pairwise_cipher = 0;
++	_rtw_memset(pstat->wpa_ie, 0, sizeof(pstat->wpa_ie));
++	if ((psecuritypriv->wpa_psk & BIT(1)) && elems.rsn_ie) {
++
++		int group_cipher = 0, pairwise_cipher = 0;
++
++		wpa_ie = elems.rsn_ie;
++		wpa_ie_len = elems.rsn_ie_len;
++
++		if (rtw_parse_wpa2_ie(wpa_ie - 2, wpa_ie_len + 2, &group_cipher, &pairwise_cipher, NULL) == _SUCCESS) {
++			pstat->dot8021xalg = 1;/* psk,  todo:802.1x						 */
++			pstat->wpa_psk |= BIT(1);
++
++			pstat->wpa2_group_cipher = group_cipher & psecuritypriv->wpa2_group_cipher;
++			pstat->wpa2_pairwise_cipher = pairwise_cipher & psecuritypriv->wpa2_pairwise_cipher;
++
++			if (!pstat->wpa2_group_cipher)
++				status = WLAN_STATUS_GROUP_CIPHER_NOT_VALID;
++
++			if (!pstat->wpa2_pairwise_cipher)
++				status = WLAN_STATUS_PAIRWISE_CIPHER_NOT_VALID;
++		} else
++			status = WLAN_STATUS_INVALID_IE;
++
++	} else if ((psecuritypriv->wpa_psk & BIT(0)) && elems.wpa_ie) {
++
++		int group_cipher = 0, pairwise_cipher = 0;
++
++		wpa_ie = elems.wpa_ie;
++		wpa_ie_len = elems.wpa_ie_len;
++
++		if (rtw_parse_wpa_ie(wpa_ie - 2, wpa_ie_len + 2, &group_cipher, &pairwise_cipher, NULL) == _SUCCESS) {
++			pstat->dot8021xalg = 1;/* psk,  todo:802.1x						 */
++			pstat->wpa_psk |= BIT(0);
++
++			pstat->wpa_group_cipher = group_cipher & psecuritypriv->wpa_group_cipher;
++			pstat->wpa_pairwise_cipher = pairwise_cipher & psecuritypriv->wpa_pairwise_cipher;
++
++			if (!pstat->wpa_group_cipher)
++				status = WLAN_STATUS_GROUP_CIPHER_NOT_VALID;
++
++			if (!pstat->wpa_pairwise_cipher)
++				status = WLAN_STATUS_PAIRWISE_CIPHER_NOT_VALID;
++
++		} else
++			status = WLAN_STATUS_INVALID_IE;
++
++	} else {
++		wpa_ie = NULL;
++		wpa_ie_len = 0;
++	}
++
++	if (_STATS_SUCCESSFUL_ != status)
++		goto OnAssocReqFail;
++
++	pstat->flags &= ~(WLAN_STA_WPS | WLAN_STA_MAYBE_WPS);
++	/* if (hapd->conf->wps_state && wpa_ie == NULL) { */ /* todo: to check ap if supporting WPS */
++	if (wpa_ie == NULL) {
++		if (elems.wps_ie) {
++			RTW_INFO("STA included WPS IE in "
++				 "(Re)Association Request - assume WPS is "
++				 "used\n");
++			pstat->flags |= WLAN_STA_WPS;
++			/* wpabuf_free(sta->wps_ie); */
++			/* sta->wps_ie = wpabuf_alloc_copy(elems.wps_ie + 4, */
++			/*				elems.wps_ie_len - 4); */
++		} else {
++			RTW_INFO("STA did not include WPA/RSN IE "
++				 "in (Re)Association Request - possible WPS "
++				 "use\n");
++			pstat->flags |= WLAN_STA_MAYBE_WPS;
++		}
++
++
++		/* AP support WPA/RSN, and sta is going to do WPS, but AP is not ready */
++		/* that the selected registrar of AP is _FLASE */
++		if ((psecuritypriv->wpa_psk > 0)
++		    && (pstat->flags & (WLAN_STA_WPS | WLAN_STA_MAYBE_WPS))) {
++			if (pmlmepriv->wps_beacon_ie) {
++				u8 selected_registrar = 0;
++
++				rtw_get_wps_attr_content(pmlmepriv->wps_beacon_ie, pmlmepriv->wps_beacon_ie_len, WPS_ATTR_SELECTED_REGISTRAR , &selected_registrar, NULL);
++
++				if (!selected_registrar) {
++					RTW_INFO("selected_registrar is _FALSE , or AP is not ready to do WPS\n");
++
++					status = _STATS_UNABLE_HANDLE_STA_;
++
++					goto OnAssocReqFail;
++				}
++			}
++		}
++
++	} else {
++		int copy_len;
++
++		if (psecuritypriv->wpa_psk == 0) {
++			RTW_INFO("STA " MAC_FMT ": WPA/RSN IE in association "
++				"request, but AP don't support WPA/RSN\n", MAC_ARG(pstat->hwaddr));
++
++			status = WLAN_STATUS_INVALID_IE;
++
++			goto OnAssocReqFail;
++
++		}
++
++		if (elems.wps_ie) {
++			RTW_INFO("STA included WPS IE in "
++				 "(Re)Association Request - WPS is "
++				 "used\n");
++			pstat->flags |= WLAN_STA_WPS;
++			copy_len = 0;
++		} else
++			copy_len = ((wpa_ie_len + 2) > sizeof(pstat->wpa_ie)) ? (sizeof(pstat->wpa_ie)) : (wpa_ie_len + 2);
++
++
++		if (copy_len > 0)
++			_rtw_memcpy(pstat->wpa_ie, wpa_ie - 2, copy_len);
++
++	}
++
++
++	/* check if there is WMM IE & support WWM-PS */
++	pstat->flags &= ~WLAN_STA_WME;
++	pstat->qos_option = 0;
++	pstat->qos_info = 0;
++	pstat->has_legacy_ac = _TRUE;
++	pstat->uapsd_vo = 0;
++	pstat->uapsd_vi = 0;
++	pstat->uapsd_be = 0;
++	pstat->uapsd_bk = 0;
++	if (pmlmepriv->qospriv.qos_option) {
++		p = pframe + WLAN_HDR_A3_LEN + ie_offset;
++		ie_len = 0;
++		for (;;) {
++			p = rtw_get_ie(p, _VENDOR_SPECIFIC_IE_, &ie_len, pkt_len - WLAN_HDR_A3_LEN - ie_offset);
++			if (p != NULL) {
++				if (_rtw_memcmp(p + 2, WMM_IE, 6)) {
++
++					pstat->flags |= WLAN_STA_WME;
++
++					pstat->qos_option = 1;
++					pstat->qos_info = *(p + 8);
++
++					pstat->max_sp_len = (pstat->qos_info >> 5) & 0x3;
++
++					if ((pstat->qos_info & 0xf) != 0xf)
++						pstat->has_legacy_ac = _TRUE;
++					else
++						pstat->has_legacy_ac = _FALSE;
++
++					if (pstat->qos_info & 0xf) {
++						if (pstat->qos_info & BIT(0))
++							pstat->uapsd_vo = BIT(0) | BIT(1);
++						else
++							pstat->uapsd_vo = 0;
++
++						if (pstat->qos_info & BIT(1))
++							pstat->uapsd_vi = BIT(0) | BIT(1);
++						else
++							pstat->uapsd_vi = 0;
++
++						if (pstat->qos_info & BIT(2))
++							pstat->uapsd_bk = BIT(0) | BIT(1);
++						else
++							pstat->uapsd_bk = 0;
++
++						if (pstat->qos_info & BIT(3))
++							pstat->uapsd_be = BIT(0) | BIT(1);
++						else
++							pstat->uapsd_be = 0;
++
++					}
++
++					break;
++				}
++			} else
++				break;
++			p = p + ie_len + 2;
++		}
++	}
++
++
++#ifdef CONFIG_80211N_HT
++	if (pmlmepriv->htpriv.ht_option == _FALSE)
++		goto bypass_ht_chk;
++
++	/* save HT capabilities in the sta object */
++	_rtw_memset(&pstat->htpriv.ht_cap, 0, sizeof(struct rtw_ieee80211_ht_cap));
++	if (elems.ht_capabilities && elems.ht_capabilities_len >= sizeof(struct rtw_ieee80211_ht_cap)) {
++		pstat->flags |= WLAN_STA_HT;
++
++		pstat->flags |= WLAN_STA_WME;
++
++		_rtw_memcpy(&pstat->htpriv.ht_cap, elems.ht_capabilities, sizeof(struct rtw_ieee80211_ht_cap));
++
++	} else
++		pstat->flags &= ~WLAN_STA_HT;
++bypass_ht_chk:
++
++	if ((pmlmepriv->htpriv.ht_option == _FALSE) && (pstat->flags & WLAN_STA_HT)) {
++		rtw_warn_on(1);
++		status = _STATS_FAILURE_;
++		goto OnAssocReqFail;
++	}
++#endif /* CONFIG_80211N_HT */
++
++#ifdef CONFIG_80211AC_VHT
++	if (pmlmepriv->vhtpriv.vht_option == _FALSE)
++		goto bypass_vht_chk;
++
++	_rtw_memset(&pstat->vhtpriv, 0, sizeof(struct vht_priv));
++	if (elems.vht_capabilities && elems.vht_capabilities_len == 12) {
++		pstat->flags |= WLAN_STA_VHT;
++
++		_rtw_memcpy(pstat->vhtpriv.vht_cap, elems.vht_capabilities, 12);
++
++		if (elems.vht_op_mode_notify && elems.vht_op_mode_notify_len == 1)
++			_rtw_memcpy(&pstat->vhtpriv.vht_op_mode_notify, elems.vht_op_mode_notify, 1);
++		else /* for Frame without Operating Mode notify ie; default: 80M */
++			pstat->vhtpriv.vht_op_mode_notify = CHANNEL_WIDTH_80;
++	} else
++		pstat->flags &= ~WLAN_STA_VHT;
++bypass_vht_chk:
++
++	if ((pmlmepriv->vhtpriv.vht_option == _FALSE) && (pstat->flags & WLAN_STA_VHT)) {
++		rtw_warn_on(1);
++		status = _STATS_FAILURE_;
++		goto OnAssocReqFail;
++	}
++#endif /* CONFIG_80211AC_VHT */
++
++	if (((pstat->flags & WLAN_STA_HT) || (pstat->flags & WLAN_STA_VHT)) &&
++	    ((pstat->wpa2_pairwise_cipher & WPA_CIPHER_TKIP) ||
++	     (pstat->wpa_pairwise_cipher & WPA_CIPHER_TKIP))) {
++
++		RTW_INFO("(V)HT: " MAC_FMT " tried to use TKIP with (V)HT association\n", MAC_ARG(pstat->hwaddr));
++
++		pstat->flags &= ~WLAN_STA_HT;
++		pstat->flags &= ~WLAN_STA_VHT;
++		/*status = WLAN_STATUS_CIPHER_REJECTED_PER_POLICY;
++		  * goto OnAssocReqFail;
++		*/
++	}
++
++
++	/*
++	 * if (hapd->iface->current_mode->mode == HOSTAPD_MODE_IEEE80211G) */ /* ? */
++	pstat->flags |= WLAN_STA_NONERP;
++	for (i = 0; i < pstat->bssratelen; i++) {
++		if ((pstat->bssrateset[i] & 0x7f) > 22) {
++			pstat->flags &= ~WLAN_STA_NONERP;
++			break;
++		}
++	}
++
++	if (pstat->capability & WLAN_CAPABILITY_SHORT_PREAMBLE)
++		pstat->flags |= WLAN_STA_SHORT_PREAMBLE;
++	else
++		pstat->flags &= ~WLAN_STA_SHORT_PREAMBLE;
++
++
++
++	if (status != _STATS_SUCCESSFUL_)
++		goto OnAssocReqFail;
++
++#ifdef CONFIG_P2P
++	pstat->is_p2p_device = _FALSE;
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		p2pie = rtw_get_p2p_ie(pframe + WLAN_HDR_A3_LEN + ie_offset , pkt_len - WLAN_HDR_A3_LEN - ie_offset , NULL, &p2pielen);
++		if (p2pie) {
++			pstat->is_p2p_device = _TRUE;
++			p2p_status_code = (u8)process_assoc_req_p2p_ie(pwdinfo, pframe, pkt_len, pstat);
++			if (p2p_status_code > 0) {
++				pstat->p2p_status_code = p2p_status_code;
++				status = _STATS_CAP_FAIL_;
++				goto OnAssocReqFail;
++			}
++		}
++#ifdef CONFIG_WFD
++		rtw_process_wfd_ies(padapter, pframe + WLAN_HDR_A3_LEN + ie_offset, pkt_len - WLAN_HDR_A3_LEN - ie_offset, __func__);
++#endif
++	}
++	pstat->p2p_status_code = p2p_status_code;
++#endif /* CONFIG_P2P */
++
++	/* TODO: identify_proprietary_vendor_ie(); */
++	/* Realtek proprietary IE */
++	/* identify if this is Broadcom sta */
++	/* identify if this is ralink sta */
++	/* Customer proprietary IE */
++
++
++
++	/* get a unique AID */
++	if (pstat->aid > 0)
++		RTW_INFO("  old AID %d\n", pstat->aid);
++	else {
++		for (pstat->aid = 1; pstat->aid <= NUM_STA; pstat->aid++) {
++			if (pstapriv->sta_aid[pstat->aid - 1] == NULL) {
++				if (pstat->aid > pstapriv->max_num_sta) {
++					pstat->aid = 0;
++
++					RTW_INFO("  no room for more AIDs\n");
++
++					status = WLAN_STATUS_AP_UNABLE_TO_HANDLE_NEW_STA;
++
++					goto OnAssocReqFail;
++
++
++				} else {
++					pstapriv->sta_aid[pstat->aid - 1] = pstat;
++					RTW_INFO("allocate new AID = (%d)\n", pstat->aid);
++					break;
++				}
++			}
++		}
++	}
++
++
++	pstat->state &= (~WIFI_FW_ASSOC_STATE);
++	pstat->state |= WIFI_FW_ASSOC_SUCCESS;
++	/* RTW_INFO("==================%s, %d,  (%x), bpairwise_key_installed=%d, MAC:"MAC_FMT"\n"
++	, __func__, __LINE__, pstat->state, pstat->bpairwise_key_installed, MAC_ARG(pstat->hwaddr)); */
++#ifdef CONFIG_IEEE80211W
++	if (pstat->bpairwise_key_installed != _TRUE)
++#endif /* CONFIG_IEEE80211W */
++	{
++		_enter_critical_bh(&pstapriv->auth_list_lock, &irqL);
++		if (!rtw_is_list_empty(&pstat->auth_list)) {
++			rtw_list_delete(&pstat->auth_list);
++			pstapriv->auth_list_cnt--;
++		}
++		_exit_critical_bh(&pstapriv->auth_list_lock, &irqL);
++
++		_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++		if (rtw_is_list_empty(&pstat->asoc_list)) {
++			pstat->expire_to = pstapriv->expire_to;
++			rtw_list_insert_tail(&pstat->asoc_list, &pstapriv->asoc_list);
++			pstapriv->asoc_list_cnt++;
++		}
++		_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	}
++
++	/* now the station is qualified to join our BSS...	 */
++	if (pstat && (pstat->state & WIFI_FW_ASSOC_SUCCESS) && (_STATS_SUCCESSFUL_ == status)) {
++#ifdef CONFIG_NATIVEAP_MLME
++#ifdef CONFIG_IEEE80211W
++		if (pstat->bpairwise_key_installed != _TRUE)
++#endif /* CONFIG_IEEE80211W */
++		{
++			/* .1 bss_cap_update & sta_info_update */
++			bss_cap_update_on_sta_join(padapter, pstat);
++			sta_info_update(padapter, pstat);
++		}
++#ifdef CONFIG_IEEE80211W
++		if (pstat->bpairwise_key_installed == _TRUE)
++			status = _STATS_REFUSED_TEMPORARILY_;
++#endif /* CONFIG_IEEE80211W */
++		/* .2 issue assoc rsp before notify station join event. */
++		if (frame_type == WIFI_ASSOCREQ)
++			issue_asocrsp(padapter, status, pstat, WIFI_ASSOCRSP);
++		else
++			issue_asocrsp(padapter, status, pstat, WIFI_REASSOCRSP);
++
++#ifdef CONFIG_IOCTL_CFG80211
++		_enter_critical_bh(&pstat->lock, &irqL);
++		if (pstat->passoc_req) {
++			rtw_mfree(pstat->passoc_req, pstat->assoc_req_len);
++			pstat->passoc_req = NULL;
++			pstat->assoc_req_len = 0;
++		}
++
++		pstat->passoc_req =  rtw_zmalloc(pkt_len);
++		if (pstat->passoc_req) {
++			_rtw_memcpy(pstat->passoc_req, pframe, pkt_len);
++			pstat->assoc_req_len = pkt_len;
++		}
++		_exit_critical_bh(&pstat->lock, &irqL);
++#endif /* CONFIG_IOCTL_CFG80211 */
++#ifdef CONFIG_IEEE80211W
++		if (pstat->bpairwise_key_installed != _TRUE)
++#endif /* CONFIG_IEEE80211W */
++		{
++			/* .3-(1) report sta add event */
++			report_add_sta_event(padapter, pstat->hwaddr);
++		}
++#ifdef CONFIG_IEEE80211W
++		if (pstat->bpairwise_key_installed == _TRUE && padapter->securitypriv.binstallBIPkey == _TRUE) {
++			RTW_INFO(MAC_FMT"\n", MAC_ARG(pstat->hwaddr));
++			issue_action_SA_Query(padapter, pstat->hwaddr, 0, 0, IEEE80211W_RIGHT_KEY);
++		}
++#endif /* CONFIG_IEEE80211W */
++#endif /* CONFIG_NATIVEAP_MLME */
++	}
++
++	return _SUCCESS;
++
++asoc_class2_error:
++
++#ifdef CONFIG_NATIVEAP_MLME
++	issue_deauth(padapter, (void *)GetAddr2Ptr(pframe), status);
++#endif
++
++	return _FAIL;
++
++OnAssocReqFail:
++
++
++#ifdef CONFIG_NATIVEAP_MLME
++	pstat->aid = 0;
++	if (frame_type == WIFI_ASSOCREQ)
++		issue_asocrsp(padapter, status, pstat, WIFI_ASSOCRSP);
++	else
++		issue_asocrsp(padapter, status, pstat, WIFI_REASSOCRSP);
++#endif
++
++
++#endif /* CONFIG_AP_MODE */
++
++	return _FAIL;
++
++}
++
++unsigned int OnAssocRsp(_adapter *padapter, union recv_frame *precv_frame)
++{
++	uint i;
++	int res;
++	unsigned short	status;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	/* WLAN_BSSID_EX 		*cur_network = &(pmlmeinfo->network); */
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint pkt_len = precv_frame->u.hdr.len;
++	PNDIS_802_11_VARIABLE_IEs	pWapiIE = NULL;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	/* check A1 matches or not */
++	if (!_rtw_memcmp(adapter_mac_addr(padapter), get_da(pframe), ETH_ALEN))
++		return _SUCCESS;
++
++	if (!(pmlmeinfo->state & (WIFI_FW_AUTH_SUCCESS | WIFI_FW_ASSOC_STATE)))
++		return _SUCCESS;
++
++	if (pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)
++		return _SUCCESS;
++
++	_cancel_timer_ex(&pmlmeext->link_timer);
++
++	/* status */
++	status = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN + 2));
++	if (status > 0) {
++		RTW_INFO("assoc reject, status code: %d\n", status);
++		pmlmeinfo->state = WIFI_FW_NULL_STATE;
++		res = -4;
++		goto report_assoc_result;
++	}
++
++	/* get capabilities */
++	pmlmeinfo->capability = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN));
++
++	/* set slot time */
++	pmlmeinfo->slotTime = (pmlmeinfo->capability & BIT(10)) ? 9 : 20;
++
++	/* AID */
++	res = pmlmeinfo->aid = (int)(le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN + 4)) & 0x3fff);
++
++	/* following are moved to join event callback function */
++	/* to handle HT, WMM, rate adaptive, update MAC reg */
++	/* for not to handle the synchronous IO in the tasklet */
++	for (i = (6 + WLAN_HDR_A3_LEN); i < pkt_len;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pframe + i);
++
++		switch (pIE->ElementID) {
++		case _VENDOR_SPECIFIC_IE_:
++			if (_rtw_memcmp(pIE->data, WMM_PARA_OUI, 6))	/* WMM */
++				WMM_param_handler(padapter, pIE);
++#if defined(CONFIG_P2P) && defined(CONFIG_WFD)
++			else if (_rtw_memcmp(pIE->data, WFD_OUI, 4))		/* WFD */
++				rtw_process_wfd_ie(padapter, (u8 *)pIE, pIE->Length, __func__);
++#endif
++			break;
++
++#ifdef CONFIG_WAPI_SUPPORT
++		case _WAPI_IE_:
++			pWapiIE = pIE;
++			break;
++#endif
++
++		case _HT_CAPABILITY_IE_:	/* HT caps */
++			HT_caps_handler(padapter, pIE);
++			break;
++
++		case _HT_EXTRA_INFO_IE_:	/* HT info */
++			HT_info_handler(padapter, pIE);
++			break;
++
++#ifdef CONFIG_80211AC_VHT
++		case EID_VHTCapability:
++			VHT_caps_handler(padapter, pIE);
++			break;
++
++		case EID_VHTOperation:
++			VHT_operation_handler(padapter, pIE);
++			break;
++#endif
++
++		case _ERPINFO_IE_:
++			ERP_IE_handler(padapter, pIE);
++			break;
++#ifdef CONFIG_TDLS
++		case _EXT_CAP_IE_:
++			if (check_ap_tdls_prohibited(pIE->data, pIE->Length) == _TRUE)
++				padapter->tdlsinfo.ap_prohibited = _TRUE;
++			if (check_ap_tdls_ch_switching_prohibited(pIE->data, pIE->Length) == _TRUE)
++				padapter->tdlsinfo.ch_switch_prohibited = _TRUE;
++			break;
++#endif /* CONFIG_TDLS */
++		default:
++			break;
++		}
++
++		i += (pIE->Length + 2);
++	}
++
++#ifdef CONFIG_WAPI_SUPPORT
++	rtw_wapi_on_assoc_ok(padapter, pIE);
++#endif
++
++	pmlmeinfo->state &= (~WIFI_FW_ASSOC_STATE);
++	pmlmeinfo->state |= WIFI_FW_ASSOC_SUCCESS;
++
++	/* Update Basic Rate Table for spec, 2010-12-28 , by thomas */
++	UpdateBrateTbl(padapter, pmlmeinfo->network.SupportedRates);
++
++report_assoc_result:
++	if (res > 0)
++		rtw_buf_update(&pmlmepriv->assoc_rsp, &pmlmepriv->assoc_rsp_len, pframe, pkt_len);
++	else
++		rtw_buf_free(&pmlmepriv->assoc_rsp, &pmlmepriv->assoc_rsp_len);
++
++	report_join_res(padapter, res);
++
++	return _SUCCESS;
++}
++
++unsigned int OnDeAuth(_adapter *padapter, union recv_frame *precv_frame)
++{
++	unsigned short	reason;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++
++	/* check A3 */
++	if (!(_rtw_memcmp(GetAddr3Ptr(pframe), get_my_bssid(&pmlmeinfo->network), ETH_ALEN)))
++		return _SUCCESS;
++
++	RTW_INFO(FUNC_ADPT_FMT" - Start to Disconnect\n", FUNC_ADPT_ARG(padapter));
++
++#ifdef CONFIG_P2P
++	if (pwdinfo->rx_invitereq_info.scan_op_ch_only) {
++		_cancel_timer_ex(&pwdinfo->reset_ch_sitesurvey);
++		_set_timer(&pwdinfo->reset_ch_sitesurvey, 10);
++	}
++#endif /* CONFIG_P2P */
++
++	reason = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN));
++
++	rtw_lock_rx_suspend_timeout(8000);
++
++#ifdef CONFIG_AP_MODE
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++		_irqL irqL;
++		struct sta_info *psta;
++		struct sta_priv *pstapriv = &padapter->stapriv;
++
++		/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		 */
++		/* rtw_free_stainfo(padapter, psta); */
++		/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		 */
++
++		RTW_PRINT(FUNC_ADPT_FMT" reason=%u, ta=%pM\n"
++			, FUNC_ADPT_ARG(padapter), reason, GetAddr2Ptr(pframe));
++
++		psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++		if (psta) {
++			u8 updated = _FALSE;
++
++			_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++			if (rtw_is_list_empty(&psta->asoc_list) == _FALSE) {
++				rtw_list_delete(&psta->asoc_list);
++				pstapriv->asoc_list_cnt--;
++				updated = ap_free_sta(padapter, psta, _FALSE, reason, _TRUE);
++
++			}
++			_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++			associated_clients_update(padapter, updated, STA_INFO_UPDATE_ALL);
++		}
++
++
++		return _SUCCESS;
++	} else
++#endif
++	{
++		int	ignore_received_deauth = 0;
++
++		/*	Commented by Albert 20130604 */
++		/*	Before sending the auth frame to start the STA/GC mode connection with AP/GO,  */
++		/*	we will send the deauth first. */
++		/*	However, the Win8.1 with BRCM Wi-Fi will send the deauth with reason code 6 to us after receieving our deauth. */
++		/*	Added the following code to avoid this case. */
++		if ((pmlmeinfo->state & WIFI_FW_AUTH_STATE) ||
++		    (pmlmeinfo->state & WIFI_FW_ASSOC_STATE)) {
++			if (reason == WLAN_REASON_CLASS2_FRAME_FROM_NONAUTH_STA)
++				ignore_received_deauth = 1;
++			else if (WLAN_REASON_PREV_AUTH_NOT_VALID == reason) {
++				/* TODO: 802.11r */
++				ignore_received_deauth = 1;
++			}
++		}
++
++		RTW_PRINT(FUNC_ADPT_FMT" reason=%u, ta=%pM, ignore=%d\n"
++			, FUNC_ADPT_ARG(padapter), reason, GetAddr2Ptr(pframe), ignore_received_deauth);
++
++		if (0 == ignore_received_deauth)
++			receive_disconnect(padapter, GetAddr2Ptr(pframe), reason, _FALSE);
++	}
++	pmlmepriv->LinkDetectInfo.bBusyTraffic = _FALSE;
++	return _SUCCESS;
++
++}
++
++unsigned int OnDisassoc(_adapter *padapter, union recv_frame *precv_frame)
++{
++	unsigned short	reason;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++
++	/* check A3 */
++	if (!(_rtw_memcmp(GetAddr3Ptr(pframe), get_my_bssid(&pmlmeinfo->network), ETH_ALEN)))
++		return _SUCCESS;
++
++	RTW_INFO(FUNC_ADPT_FMT" - Start to Disconnect\n", FUNC_ADPT_ARG(padapter));
++
++#ifdef CONFIG_P2P
++	if (pwdinfo->rx_invitereq_info.scan_op_ch_only) {
++		_cancel_timer_ex(&pwdinfo->reset_ch_sitesurvey);
++		_set_timer(&pwdinfo->reset_ch_sitesurvey, 10);
++	}
++#endif /* CONFIG_P2P */
++
++	reason = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN));
++
++	rtw_lock_rx_suspend_timeout(8000);
++
++#ifdef CONFIG_AP_MODE
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++		_irqL irqL;
++		struct sta_info *psta;
++		struct sta_priv *pstapriv = &padapter->stapriv;
++
++		/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);	 */
++		/* rtw_free_stainfo(padapter, psta); */
++		/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		 */
++
++		RTW_PRINT(FUNC_ADPT_FMT" reason=%u, ta=%pM\n"
++			, FUNC_ADPT_ARG(padapter), reason, GetAddr2Ptr(pframe));
++
++		psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++		if (psta) {
++			u8 updated = _FALSE;
++
++			_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++			if (rtw_is_list_empty(&psta->asoc_list) == _FALSE) {
++				rtw_list_delete(&psta->asoc_list);
++				pstapriv->asoc_list_cnt--;
++				updated = ap_free_sta(padapter, psta, _FALSE, reason, _TRUE);
++
++			}
++			_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++			associated_clients_update(padapter, updated, STA_INFO_UPDATE_ALL);
++		}
++
++		return _SUCCESS;
++	} else
++#endif
++	{
++		RTW_PRINT(FUNC_ADPT_FMT" reason=%u, ta=%pM\n"
++			, FUNC_ADPT_ARG(padapter), reason, GetAddr2Ptr(pframe));
++
++		receive_disconnect(padapter, GetAddr2Ptr(pframe), reason, _FALSE);
++	}
++	pmlmepriv->LinkDetectInfo.bBusyTraffic = _FALSE;
++	return _SUCCESS;
++
++}
++
++unsigned int OnAtim(_adapter *padapter, union recv_frame *precv_frame)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++	return _SUCCESS;
++}
++
++unsigned int on_action_spct_ch_switch(_adapter *padapter, struct sta_info *psta, u8 *ies, uint ies_len)
++{
++	unsigned int ret = _FAIL;
++	struct mlme_ext_priv *mlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(mlmeext->mlmext_info);
++
++	if (!(pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)) {
++		ret = _SUCCESS;
++		goto exit;
++	}
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE) {
++
++		int ch_switch_mode = -1, ch = -1, ch_switch_cnt = -1;
++		int ch_offset = -1;
++		u8 bwmode;
++		struct ieee80211_info_element *ie;
++
++		RTW_INFO(FUNC_NDEV_FMT" from "MAC_FMT"\n",
++			FUNC_NDEV_ARG(padapter->pnetdev), MAC_ARG(psta->hwaddr));
++
++		for_each_ie(ie, ies, ies_len) {
++			if (ie->id == WLAN_EID_CHANNEL_SWITCH) {
++				ch_switch_mode = ie->data[0];
++				ch = ie->data[1];
++				ch_switch_cnt = ie->data[2];
++				RTW_INFO("ch_switch_mode:%d, ch:%d, ch_switch_cnt:%d\n",
++					 ch_switch_mode, ch, ch_switch_cnt);
++			} else if (ie->id == WLAN_EID_SECONDARY_CHANNEL_OFFSET) {
++				ch_offset = secondary_ch_offset_to_hal_ch_offset(ie->data[0]);
++				RTW_INFO("ch_offset:%d\n", ch_offset);
++			}
++		}
++
++		if (ch == -1)
++			return _SUCCESS;
++
++		if (ch_offset == -1)
++			bwmode = mlmeext->cur_bwmode;
++		else
++			bwmode = (ch_offset == HAL_PRIME_CHNL_OFFSET_DONT_CARE) ?
++				 CHANNEL_WIDTH_20 : CHANNEL_WIDTH_40;
++
++		ch_offset = (ch_offset == -1) ? mlmeext->cur_ch_offset : ch_offset;
++
++		/* todo:
++		 * 1. the decision of channel switching
++		 * 2. things after channel switching
++		 */
++
++		ret = rtw_set_ch_cmd(padapter, ch, bwmode, ch_offset, _TRUE);
++	}
++
++exit:
++	return ret;
++}
++
++unsigned int on_action_spct(_adapter *padapter, union recv_frame *precv_frame)
++{
++	unsigned int ret = _FAIL;
++	struct sta_info *psta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint frame_len = precv_frame->u.hdr.len;
++	u8 *frame_body = (u8 *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++	u8 category;
++	u8 action;
++
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(padapter->pnetdev));
++
++	psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++
++	if (!psta)
++		goto exit;
++
++	category = frame_body[0];
++	if (category != RTW_WLAN_CATEGORY_SPECTRUM_MGMT)
++		goto exit;
++
++	action = frame_body[1];
++	switch (action) {
++	case RTW_WLAN_ACTION_SPCT_MSR_REQ:
++	case RTW_WLAN_ACTION_SPCT_MSR_RPRT:
++	case RTW_WLAN_ACTION_SPCT_TPC_REQ:
++	case RTW_WLAN_ACTION_SPCT_TPC_RPRT:
++		break;
++	case RTW_WLAN_ACTION_SPCT_CHL_SWITCH:
++#ifdef CONFIG_SPCT_CH_SWITCH
++		ret = on_action_spct_ch_switch(padapter, psta, &frame_body[2],
++				       frame_len - (frame_body - pframe) - 2);
++#endif
++		break;
++	default:
++		break;
++	}
++
++exit:
++	return ret;
++}
++
++unsigned int OnAction_qos(_adapter *padapter, union recv_frame *precv_frame)
++{
++	return _SUCCESS;
++}
++
++unsigned int OnAction_dls(_adapter *padapter, union recv_frame *precv_frame)
++{
++	return _SUCCESS;
++}
++
++/**
++ * rtw_rx_ampdu_size - Get the target RX AMPDU buffer size for the specific @adapter
++ * @adapter: the adapter to get target RX AMPDU buffer size
++ *
++ * Returns: the target RX AMPDU buffer size
++ */
++u8 rtw_rx_ampdu_size(_adapter *adapter)
++{
++	u8 size;
++	HT_CAP_AMPDU_FACTOR max_rx_ampdu_factor;
++
++	if (adapter->fix_rx_ampdu_size != RX_AMPDU_SIZE_INVALID) {
++		size = adapter->fix_rx_ampdu_size;
++		goto exit;
++	}
++
++#ifdef CONFIG_BT_COEXIST
++	if (rtw_btcoex_IsBTCoexCtrlAMPDUSize(adapter) == _TRUE) {
++		size = rtw_btcoex_GetAMPDUSize(adapter);
++		goto exit;
++	}
++#endif
++
++	/* for scan */
++	if (!mlmeext_chk_scan_state(&adapter->mlmeextpriv, SCAN_DISABLE)
++	    && !mlmeext_chk_scan_state(&adapter->mlmeextpriv, SCAN_COMPLETE)
++	    && adapter->mlmeextpriv.sitesurvey_res.rx_ampdu_size != RX_AMPDU_SIZE_INVALID
++	   ) {
++		size = adapter->mlmeextpriv.sitesurvey_res.rx_ampdu_size;
++		goto exit;
++	}
++
++	/* default value based on max_rx_ampdu_factor */
++	if (adapter->driver_rx_ampdu_factor != 0xFF)
++		max_rx_ampdu_factor = (HT_CAP_AMPDU_FACTOR)adapter->driver_rx_ampdu_factor;
++	else
++		rtw_hal_get_def_var(adapter, HW_VAR_MAX_RX_AMPDU_FACTOR, &max_rx_ampdu_factor);
++	
++	/* In Maximum A-MPDU Length Exponent subfield of A-MPDU Parameters field of HT Capabilities element,
++		the unit of max_rx_ampdu_factor are octets. 8K, 16K, 32K, 64K is right.
++		But the buffer size subfield of Block Ack Parameter Set field in ADDBA action frame indicates
++		the number of buffers available for this particular TID. Each buffer is equal to max. size of 
++		MSDU or AMSDU. 
++		The size variable means how many MSDUs or AMSDUs, it's not Kbytes.
++	*/
++	if (MAX_AMPDU_FACTOR_64K == max_rx_ampdu_factor)
++		size = 64;
++	else if (MAX_AMPDU_FACTOR_32K == max_rx_ampdu_factor)
++		size = 32;
++	else if (MAX_AMPDU_FACTOR_16K == max_rx_ampdu_factor)
++		size = 16;
++	else if (MAX_AMPDU_FACTOR_8K == max_rx_ampdu_factor)
++		size = 8;
++	else
++		size = 64;
++
++exit:
++
++	if (size > 127)
++		size = 127;
++
++	return size;
++}
++
++/**
++ * rtw_rx_ampdu_is_accept - Get the permission if RX AMPDU should be set up for the specific @adapter
++ * @adapter: the adapter to get the permission if RX AMPDU should be set up
++ *
++ * Returns: accept or not
++ */
++bool rtw_rx_ampdu_is_accept(_adapter *adapter)
++{
++	bool accept;
++
++	if (adapter->fix_rx_ampdu_accept != RX_AMPDU_ACCEPT_INVALID) {
++		accept = adapter->fix_rx_ampdu_accept;
++		goto exit;
++	}
++
++#ifdef CONFIG_BT_COEXIST
++	if (rtw_btcoex_IsBTCoexRejectAMPDU(adapter) == _TRUE) {
++		accept = _FALSE;
++		goto exit;
++	}
++#endif
++
++	/* for scan */
++	if (!mlmeext_chk_scan_state(&adapter->mlmeextpriv, SCAN_DISABLE)
++	    && !mlmeext_chk_scan_state(&adapter->mlmeextpriv, SCAN_COMPLETE)
++	    && adapter->mlmeextpriv.sitesurvey_res.rx_ampdu_accept != RX_AMPDU_ACCEPT_INVALID
++	   ) {
++		accept = adapter->mlmeextpriv.sitesurvey_res.rx_ampdu_accept;
++		goto exit;
++	}
++
++	/* default value for other cases */
++	accept = adapter->mlmeextpriv.mlmext_info.bAcceptAddbaReq;
++
++exit:
++	return accept;
++}
++
++/**
++ * rtw_rx_ampdu_set_size - Set the target RX AMPDU buffer size for the specific @adapter and specific @reason
++ * @adapter: the adapter to set target RX AMPDU buffer size
++ * @size: the target RX AMPDU buffer size to set
++ * @reason: reason for the target RX AMPDU buffer size setting
++ *
++ * Returns: whether the target RX AMPDU buffer size is changed
++ */
++bool rtw_rx_ampdu_set_size(_adapter *adapter, u8 size, u8 reason)
++{
++	bool is_adj = _FALSE;
++	struct mlme_ext_priv *mlmeext;
++	struct mlme_ext_info *mlmeinfo;
++
++	mlmeext = &adapter->mlmeextpriv;
++	mlmeinfo = &mlmeext->mlmext_info;
++
++	if (reason == RX_AMPDU_DRV_FIXED) {
++		if (adapter->fix_rx_ampdu_size != size) {
++			adapter->fix_rx_ampdu_size = size;
++			is_adj = _TRUE;
++			RTW_INFO(FUNC_ADPT_FMT" fix_rx_ampdu_size:%u\n", FUNC_ADPT_ARG(adapter), size);
++		}
++	} else if (reason == RX_AMPDU_DRV_SCAN) {
++		struct ss_res *ss = &adapter->mlmeextpriv.sitesurvey_res;
++
++		if (ss->rx_ampdu_size != size) {
++			ss->rx_ampdu_size = size;
++			is_adj = _TRUE;
++			RTW_INFO(FUNC_ADPT_FMT" ss.rx_ampdu_size:%u\n", FUNC_ADPT_ARG(adapter), size);
++		}
++	}
++
++	return is_adj;
++}
++
++/**
++ * rtw_rx_ampdu_set_accept - Set the permission if RX AMPDU should be set up for the specific @adapter and specific @reason
++ * @adapter: the adapter to set if RX AMPDU should be set up
++ * @accept: if RX AMPDU should be set up
++ * @reason: reason for the permission if RX AMPDU should be set up
++ *
++ * Returns: whether the permission if RX AMPDU should be set up is changed
++ */
++bool rtw_rx_ampdu_set_accept(_adapter *adapter, u8 accept, u8 reason)
++{
++	bool is_adj = _FALSE;
++	struct mlme_ext_priv *mlmeext;
++	struct mlme_ext_info *mlmeinfo;
++
++	mlmeext = &adapter->mlmeextpriv;
++	mlmeinfo = &mlmeext->mlmext_info;
++
++	if (reason == RX_AMPDU_DRV_FIXED) {
++		if (adapter->fix_rx_ampdu_accept != accept) {
++			adapter->fix_rx_ampdu_accept = accept;
++			is_adj = _TRUE;
++			RTW_INFO(FUNC_ADPT_FMT" fix_rx_ampdu_accept:%u\n", FUNC_ADPT_ARG(adapter), accept);
++		}
++	} else if (reason == RX_AMPDU_DRV_SCAN) {
++		if (adapter->mlmeextpriv.sitesurvey_res.rx_ampdu_accept != accept) {
++			adapter->mlmeextpriv.sitesurvey_res.rx_ampdu_accept = accept;
++			is_adj = _TRUE;
++			RTW_INFO(FUNC_ADPT_FMT" ss.rx_ampdu_accept:%u\n", FUNC_ADPT_ARG(adapter), accept);
++		}
++	}
++
++	return is_adj;
++}
++
++/**
++ * rx_ampdu_apply_sta_tid - Apply RX AMPDU setting to the specific @sta and @tid
++ * @adapter: the adapter to which @sta belongs
++ * @sta: the sta to be checked
++ * @tid: the tid to be checked
++ * @accept: the target permission if RX AMPDU should be set up
++ * @size: the target RX AMPDU buffer size
++ *
++ * Returns:
++ * 0: no canceled
++ * 1: canceled by no permission
++ * 2: canceled by different buffer size
++ * 3: canceled by potential mismatched status
++ *
++ * Blocking function, may sleep
++ */
++u8 rx_ampdu_apply_sta_tid(_adapter *adapter, struct sta_info *sta, u8 tid, u8 accept, u8 size)
++{
++	u8 ret = 0;
++	struct recv_reorder_ctrl *reorder_ctl = &sta->recvreorder_ctrl[tid];
++
++	if (reorder_ctl->enable == _FALSE) {
++		if (reorder_ctl->ampdu_size != RX_AMPDU_SIZE_INVALID) {
++			send_delba_sta_tid_wait_ack(adapter, 0, sta, tid, 1);
++			ret = 3;
++		}
++		goto exit;
++	}
++
++	if (accept == _FALSE) {
++		send_delba_sta_tid_wait_ack(adapter, 0, sta, tid, 0);
++		ret = 1;
++	} else if (reorder_ctl->ampdu_size != size) {
++		send_delba_sta_tid_wait_ack(adapter, 0, sta, tid, 0);
++		ret = 2;
++	}
++
++exit:
++	return ret;
++}
++
++/**
++ * rx_ampdu_apply_sta - Apply RX AMPDU setting to the specific @sta
++ * @adapter: the adapter to which @sta belongs
++ * @sta: the sta to be checked
++ * @accept: the target permission if RX AMPDU should be set up
++ * @size: the target RX AMPDU buffer size
++ *
++ * Returns: number of the RX AMPDU assciation canceled for applying current target setting
++ *
++ * Blocking function, may sleep
++ */
++u8 rx_ampdu_apply_sta(_adapter *adapter, struct sta_info *sta, u8 accept, u8 size)
++{
++	u8 change_cnt = 0;
++	int i;
++
++	for (i = 0; i < TID_NUM; i++) {
++		if (rx_ampdu_apply_sta_tid(adapter, sta, i, accept, size) != 0)
++			change_cnt++;
++	}
++
++	return change_cnt;
++}
++
++/**
++ * rtw_rx_ampdu_apply - Apply the current target RX AMPDU setting for the specific @adapter
++ * @adapter: the adapter to be applied
++ *
++ * Returns: number of the RX AMPDU assciation canceled for applying current target setting
++ */
++u16 rtw_rx_ampdu_apply(_adapter *adapter)
++{
++	u16 adj_cnt = 0;
++	struct mlme_ext_priv *mlmeext;
++	struct sta_info *sta;
++	u8 accept = rtw_rx_ampdu_is_accept(adapter);
++	u8 size = rtw_rx_ampdu_size(adapter);
++
++	mlmeext = &adapter->mlmeextpriv;
++
++	if (mlmeext_msr(mlmeext) == WIFI_FW_STATION_STATE) {
++		sta = rtw_get_stainfo(&adapter->stapriv, get_bssid(&adapter->mlmepriv));
++		if (sta)
++			adj_cnt += rx_ampdu_apply_sta(adapter, sta, accept, size);
++
++	} else if (mlmeext_msr(mlmeext) == WIFI_FW_AP_STATE) {
++		_irqL irqL;
++		_list *phead, *plist;
++		u8 peer_num = 0;
++		char peers[NUM_STA];
++		struct sta_priv *pstapriv = &adapter->stapriv;
++		int i;
++
++		_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++		phead = &pstapriv->asoc_list;
++		plist = get_next(phead);
++
++		while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++			int stainfo_offset;
++
++			sta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++			plist = get_next(plist);
++
++			stainfo_offset = rtw_stainfo_offset(pstapriv, sta);
++			if (stainfo_offset_valid(stainfo_offset))
++				peers[peer_num++] = stainfo_offset;
++		}
++
++		_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++		for (i = 0; i < peer_num; i++) {
++			sta = rtw_get_stainfo_by_offset(pstapriv, peers[i]);
++			if (sta)
++				adj_cnt += rx_ampdu_apply_sta(adapter, sta, accept, size);
++		}
++	}
++
++	return adj_cnt;
++}
++
++unsigned int OnAction_back(_adapter *padapter, union recv_frame *precv_frame)
++{
++	u8 *addr;
++	struct sta_info *psta = NULL;
++	struct recv_reorder_ctrl *preorder_ctrl;
++	unsigned char		*frame_body;
++	unsigned char		category, action;
++	unsigned short	tid, status, reason_code = 0;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++#ifdef CONFIG_80211N_HT
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	/* check RA matches or not	 */
++	if (!_rtw_memcmp(adapter_mac_addr(padapter), GetAddr1Ptr(pframe), ETH_ALEN))
++		return _SUCCESS;
++
++#if 0
++	/* check A1 matches or not */
++	if (!_rtw_memcmp(adapter_mac_addr(padapter), get_da(pframe), ETH_ALEN))
++		return _SUCCESS;
++#endif
++
++	if ((pmlmeinfo->state & 0x03) != WIFI_FW_AP_STATE)
++		if (!(pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS))
++			return _SUCCESS;
++
++	addr = GetAddr2Ptr(pframe);
++	psta = rtw_get_stainfo(pstapriv, addr);
++
++	if (psta == NULL)
++		return _SUCCESS;
++
++	frame_body = (unsigned char *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++	category = frame_body[0];
++	if (category == RTW_WLAN_CATEGORY_BACK) { /* representing Block Ack */
++#ifdef CONFIG_TDLS
++		if ((psta->tdls_sta_state & TDLS_LINKED_STATE) &&
++		    (psta->htpriv.ht_option == _TRUE) &&
++		    (psta->htpriv.ampdu_enable == _TRUE))
++			RTW_INFO("Recv [%s] from direc link\n", __FUNCTION__);
++		else
++#endif /* CONFIG_TDLS */
++			if (!pmlmeinfo->HT_enable)
++				return _SUCCESS;
++
++		action = frame_body[1];
++		RTW_INFO("%s, action=%d\n", __FUNCTION__, action);
++		switch (action) {
++		case RTW_WLAN_ACTION_ADDBA_REQ: /* ADDBA request */
++
++			_rtw_memcpy(&(pmlmeinfo->ADDBA_req), &(frame_body[2]), sizeof(struct ADDBA_request));
++			/* process_addba_req(padapter, (u8*)&(pmlmeinfo->ADDBA_req), GetAddr3Ptr(pframe)); */
++			process_addba_req(padapter, (u8 *)&(pmlmeinfo->ADDBA_req), addr);
++
++			break;
++
++		case RTW_WLAN_ACTION_ADDBA_RESP: /* ADDBA response */
++
++			/* status = frame_body[3] | (frame_body[4] << 8); */ /* endian issue */
++			status = RTW_GET_LE16(&frame_body[3]);
++			tid = ((frame_body[5] >> 2) & 0x7);
++
++			if (status == 0) {
++				/* successful					 */
++				RTW_INFO("agg_enable for TID=%d\n", tid);
++				psta->htpriv.agg_enable_bitmap |= 1 << tid;
++				psta->htpriv.candidate_tid_bitmap &= ~BIT(tid);
++			} else
++				psta->htpriv.agg_enable_bitmap &= ~BIT(tid);
++
++			if (psta->state & WIFI_STA_ALIVE_CHK_STATE) {
++				RTW_INFO("%s alive check - rx ADDBA response\n", __func__);
++				psta->htpriv.agg_enable_bitmap &= ~BIT(tid);
++				psta->expire_to = pstapriv->expire_to;
++				psta->state ^= WIFI_STA_ALIVE_CHK_STATE;
++			}
++
++			/* RTW_INFO("marc: ADDBA RSP: %x\n", pmlmeinfo->agg_enable_bitmap); */
++			break;
++
++		case RTW_WLAN_ACTION_DELBA: /* DELBA */
++			if ((frame_body[3] & BIT(3)) == 0) {
++				psta->htpriv.agg_enable_bitmap &= ~(1 << ((frame_body[3] >> 4) & 0xf));
++				psta->htpriv.candidate_tid_bitmap &= ~(1 << ((frame_body[3] >> 4) & 0xf));
++
++				/* reason_code = frame_body[4] | (frame_body[5] << 8); */
++				reason_code = RTW_GET_LE16(&frame_body[4]);
++			} else if ((frame_body[3] & BIT(3)) == BIT(3)) {
++				tid = (frame_body[3] >> 4) & 0x0F;
++
++				preorder_ctrl = &psta->recvreorder_ctrl[tid];
++				preorder_ctrl->enable = _FALSE;
++				preorder_ctrl->ampdu_size = RX_AMPDU_SIZE_INVALID;
++			}
++
++			RTW_INFO("%s(): DELBA: %x(%x)\n", __FUNCTION__, pmlmeinfo->agg_enable_bitmap, reason_code);
++			/* todo: how to notify the host while receiving DELETE BA */
++			break;
++
++		default:
++			break;
++		}
++	}
++#endif /* CONFIG_80211N_HT */
++	return _SUCCESS;
++}
++
++#ifdef CONFIG_P2P
++
++static int get_reg_classes_full_count(struct p2p_channels channel_list)
++{
++	int cnt = 0;
++	int i;
++
++	for (i = 0; i < channel_list.reg_classes; i++)
++		cnt += channel_list.reg_class[i].channels;
++
++	return cnt;
++}
++
++static void get_channel_cnt_24g_5gl_5gh(struct mlme_ext_priv *pmlmeext, u8 *p24g_cnt, u8 *p5gl_cnt, u8 *p5gh_cnt)
++{
++	int	i = 0;
++
++	*p24g_cnt = 0;
++	*p5gl_cnt = 0;
++	*p5gh_cnt = 0;
++
++	for (i = 0; i < pmlmeext->max_chan_nums; i++) {
++		if (pmlmeext->channel_set[i].ChannelNum <= 14)
++			(*p24g_cnt)++;
++		else if ((pmlmeext->channel_set[i].ChannelNum > 14) && (pmlmeext->channel_set[i].ChannelNum <= 48)) {
++			/*	Just include the channel 36, 40, 44, 48 channels for 5G low */
++			(*p5gl_cnt)++;
++		} else if ((pmlmeext->channel_set[i].ChannelNum >= 149) && (pmlmeext->channel_set[i].ChannelNum <= 161)) {
++			/*	Just include the channel 149, 153, 157, 161 channels for 5G high */
++			(*p5gh_cnt)++;
++		}
++	}
++}
++
++void issue_p2p_GO_request(_adapter *padapter, u8 *raddr)
++{
++
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_GO_NEGO_REQ;
++	u8			wpsie[255] = { 0x00 }, p2pie[255] = { 0x00 };
++	u8			wpsielen = 0, p2pielen = 0, i;
++	u8			channel_cnt_24g = 0, channel_cnt_5gl = 0, channel_cnt_5gh = 0;
++	u16			len_channellist_attr = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	RTW_INFO("[%s] In\n", __FUNCTION__);
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pwdinfo->negotiation_dialog_token = 1;	/*	Initialize the dialog value */
++	pframe = rtw_set_fixed_ie(pframe, 1, &pwdinfo->negotiation_dialog_token, &(pattrib->pktlen));
++
++
++
++	/*	WPS Section */
++	wpsielen = 0;
++	/*	WPS OUI */
++	*(u32 *)(wpsie) = cpu_to_be32(WPSOUI);
++	wpsielen += 4;
++
++	/*	WPS version */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++	wpsielen += 2;
++
++	/*	Value: */
++	wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++
++	/*	Device Password ID */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_DEVICE_PWID);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0002);
++	wpsielen += 2;
++
++	/*	Value: */
++
++	if (pwdinfo->ui_got_wps_info == P2P_GOT_WPSINFO_PEER_DISPLAY_PIN)
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_USER_SPEC);
++	else if (pwdinfo->ui_got_wps_info == P2P_GOT_WPSINFO_SELF_DISPLAY_PIN)
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_REGISTRAR_SPEC);
++	else if (pwdinfo->ui_got_wps_info == P2P_GOT_WPSINFO_PBC)
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_PBC);
++
++	wpsielen += 2;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen);
++
++
++	/*	P2P IE Section. */
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20110306 */
++	/*	According to the P2P Specification, the group negoitation request frame should contain 9 P2P attributes */
++	/*	1. P2P Capability */
++	/*	2. Group Owner Intent */
++	/*	3. Configuration Timeout */
++	/*	4. Listen Channel */
++	/*	5. Extended Listen Timing */
++	/*	6. Intended P2P Interface Address */
++	/*	7. Channel List */
++	/*	8. P2P Device Info */
++	/*	9. Operating Channel */
++
++
++	/*	P2P Capability */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CAPABILITY;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Device Capability Bitmap, 1 byte */
++	p2pie[p2pielen++] = DMP_P2P_DEVCAP_SUPPORT;
++
++	/*	Group Capability Bitmap, 1 byte */
++	if (pwdinfo->persistent_supported)
++		p2pie[p2pielen++] = P2P_GRPCAP_CROSS_CONN | P2P_GRPCAP_PERSISTENT_GROUP;
++	else
++		p2pie[p2pielen++] = P2P_GRPCAP_CROSS_CONN;
++
++
++	/*	Group Owner Intent */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_GO_INTENT;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0001);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Todo the tie breaker bit. */
++	p2pie[p2pielen++] = ((pwdinfo->intent << 1) &  0xFE);
++
++	/*	Configuration Timeout */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CONF_TIMEOUT;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P GO */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P Client */
++
++
++	/*	Listen Channel */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_LISTEN_CH;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Operating Class */
++	p2pie[p2pielen++] = 0x51;	/*	Copy from SD7 */
++
++	/*	Channel Number */
++	p2pie[p2pielen++] = pwdinfo->listen_channel;	/*	listening channel number */
++
++
++	/*	Extended Listen Timing ATTR */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_EX_LISTEN_TIMING;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0004);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Availability Period */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0xFFFF);
++	p2pielen += 2;
++
++	/*	Availability Interval */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0xFFFF);
++	p2pielen += 2;
++
++
++	/*	Intended P2P Interface Address */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_INTENTED_IF_ADDR;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(ETH_ALEN);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++
++	/*	Channel List */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CH_LIST;
++
++	/* Length: */
++	/* Country String(3) */
++	/* + ( Operating Class (1) + Number of Channels(1) ) * Operation Classes (?) */
++	/* + number of channels in all classes */
++	len_channellist_attr = 3
++		       + (1 + 1) * (u16)(pmlmeext->channel_list.reg_classes)
++		       + get_reg_classes_full_count(pmlmeext->channel_list);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(5 + 1);
++	else
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++#else
++
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++
++#endif
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Channel Entry List */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++		u8 union_ch = rtw_mi_get_union_chan(padapter);
++
++		/*	Operating Class */
++		if (union_ch > 14) {
++			if (union_ch >= 149)
++				p2pie[p2pielen++] = 0x7c;
++			else
++				p2pie[p2pielen++] = 0x73;
++		} else
++			p2pie[p2pielen++] = 0x51;
++
++
++		/*	Number of Channels */
++		/*	Just support 1 channel and this channel is AP's channel */
++		p2pie[p2pielen++] = 1;
++
++		/*	Channel List */
++		p2pie[p2pielen++] = union_ch;
++	} else {
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			/*	Number of Channels */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			/*	Channel List */
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++		}
++	}
++#else /* CONFIG_CONCURRENT_MODE */
++	{
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			/*	Number of Channels */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			/*	Channel List */
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++		}
++	}
++#endif /* CONFIG_CONCURRENT_MODE */
++
++	/*	Device Info */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	21->P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes)  */
++	/*	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes) */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(21 + pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	P2P Device Address */
++	_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++	/*	Config Method */
++	/*	This field should be big endian. Noted by P2P specification. */
++
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(pwdinfo->supported_wps_cm);
++
++	p2pielen += 2;
++
++	/*	Primary Device Type */
++	/*	Category ID */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_CID_MULIT_MEDIA);
++	p2pielen += 2;
++
++	/*	OUI */
++	*(u32 *)(p2pie + p2pielen) = cpu_to_be32(WPSOUI);
++	p2pielen += 4;
++
++	/*	Sub Category ID */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_SCID_MEDIA_SERVER);
++	p2pielen += 2;
++
++	/*	Number of Secondary Device Types */
++	p2pie[p2pielen++] = 0x00;	/*	No Secondary Device Type List */
++
++	/*	Device Name */
++	/*	Type: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++	p2pielen += 2;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_name , pwdinfo->device_name_len);
++	p2pielen += pwdinfo->device_name_len;
++
++
++	/*	Operating Channel */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_OPERATING_CH;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Operating Class */
++	if (pwdinfo->operating_channel <= 14) {
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x51;
++	} else if ((pwdinfo->operating_channel >= 36) && (pwdinfo->operating_channel <= 48)) {
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x73;
++	} else {
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x7c;
++	}
++
++	/*	Channel Number */
++	p2pie[p2pielen++] = pwdinfo->operating_channel;	/*	operating channel number */
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen);
++
++#ifdef CONFIG_WFD
++	wfdielen = build_nego_req_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++
++void issue_p2p_GO_response(_adapter *padapter, u8 *raddr, u8 *frame_body, uint len, u8 result)
++{
++
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_GO_NEGO_RESP;
++	u8			wpsie[255] = { 0x00 }, p2pie[255] = { 0x00 };
++	u8			p2pielen = 0, i;
++	uint			wpsielen = 0;
++	u16			wps_devicepassword_id = 0x0000;
++	uint			wps_devicepassword_id_len = 0;
++	u8			channel_cnt_24g = 0, channel_cnt_5gl = 0, channel_cnt_5gh;
++	u16			len_channellist_attr = 0;
++
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	RTW_INFO("[%s] In, result = %d\n", __FUNCTION__,  result);
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pwdinfo->negotiation_dialog_token = frame_body[7];	/*	The Dialog Token of provisioning discovery request frame. */
++	pframe = rtw_set_fixed_ie(pframe, 1, &(pwdinfo->negotiation_dialog_token), &(pattrib->pktlen));
++
++	/*	Commented by Albert 20110328 */
++	/*	Try to get the device password ID from the WPS IE of group negotiation request frame */
++	/*	WiFi Direct test plan 5.1.15 */
++	rtw_get_wps_ie(frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, wpsie, &wpsielen);
++	rtw_get_wps_attr_content(wpsie, wpsielen, WPS_ATTR_DEVICE_PWID, (u8 *) &wps_devicepassword_id, &wps_devicepassword_id_len);
++	wps_devicepassword_id = be16_to_cpu(wps_devicepassword_id);
++
++	_rtw_memset(wpsie, 0x00, 255);
++	wpsielen = 0;
++
++	/*	WPS Section */
++	wpsielen = 0;
++	/*	WPS OUI */
++	*(u32 *)(wpsie) = cpu_to_be32(WPSOUI);
++	wpsielen += 4;
++
++	/*	WPS version */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++	wpsielen += 2;
++
++	/*	Value: */
++	wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++
++	/*	Device Password ID */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_DEVICE_PWID);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0002);
++	wpsielen += 2;
++
++	/*	Value: */
++	if (wps_devicepassword_id == WPS_DPID_USER_SPEC)
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_REGISTRAR_SPEC);
++	else if (wps_devicepassword_id == WPS_DPID_REGISTRAR_SPEC)
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_USER_SPEC);
++	else
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_PBC);
++	wpsielen += 2;
++
++	/*	Commented by Kurt 20120113 */
++	/*	If some device wants to do p2p handshake without sending prov_disc_req */
++	/*	We have to get peer_req_cm from here. */
++	if (_rtw_memcmp(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "000", 3)) {
++		if (wps_devicepassword_id == WPS_DPID_USER_SPEC)
++			_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "dis", 3);
++		else if (wps_devicepassword_id == WPS_DPID_REGISTRAR_SPEC)
++			_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "pad", 3);
++		else
++			_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "pbc", 3);
++	}
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen);
++
++
++	/*	P2P IE Section. */
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20100908 */
++	/*	According to the P2P Specification, the group negoitation response frame should contain 9 P2P attributes */
++	/*	1. Status */
++	/*	2. P2P Capability */
++	/*	3. Group Owner Intent */
++	/*	4. Configuration Timeout */
++	/*	5. Operating Channel */
++	/*	6. Intended P2P Interface Address */
++	/*	7. Channel List */
++	/*	8. Device Info */
++	/*	9. Group ID	( Only GO ) */
++
++
++	/*	ToDo: */
++
++	/*	P2P Status */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_STATUS;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0001);
++	p2pielen += 2;
++
++	/*	Value: */
++	p2pie[p2pielen++] = result;
++
++	/*	P2P Capability */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CAPABILITY;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Device Capability Bitmap, 1 byte */
++
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT)) {
++		/*	Commented by Albert 2011/03/08 */
++		/*	According to the P2P specification */
++		/*	if the sending device will be client, the P2P Capability should be reserved of group negotation response frame */
++		p2pie[p2pielen++] = 0;
++	} else {
++		/*	Be group owner or meet the error case */
++		p2pie[p2pielen++] = DMP_P2P_DEVCAP_SUPPORT;
++	}
++
++	/*	Group Capability Bitmap, 1 byte */
++	if (pwdinfo->persistent_supported)
++		p2pie[p2pielen++] = P2P_GRPCAP_CROSS_CONN | P2P_GRPCAP_PERSISTENT_GROUP;
++	else
++		p2pie[p2pielen++] = P2P_GRPCAP_CROSS_CONN;
++
++	/*	Group Owner Intent */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_GO_INTENT;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0001);
++	p2pielen += 2;
++
++	/*	Value: */
++	if (pwdinfo->peer_intent & 0x01) {
++		/*	Peer's tie breaker bit is 1, our tie breaker bit should be 0 */
++		p2pie[p2pielen++] = (pwdinfo->intent << 1);
++	} else {
++		/*	Peer's tie breaker bit is 0, our tie breaker bit should be 1 */
++		p2pie[p2pielen++] = ((pwdinfo->intent << 1) | BIT(0));
++	}
++
++
++	/*	Configuration Timeout */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CONF_TIMEOUT;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P GO */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P Client */
++
++	/*	Operating Channel */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_OPERATING_CH;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Operating Class */
++	if (pwdinfo->operating_channel <= 14) {
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x51;
++	} else if ((pwdinfo->operating_channel >= 36) && (pwdinfo->operating_channel <= 48)) {
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x73;
++	} else {
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x7c;
++	}
++
++	/*	Channel Number */
++	p2pie[p2pielen++] = pwdinfo->operating_channel;	/*	operating channel number */
++
++	/*	Intended P2P Interface Address	 */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_INTENTED_IF_ADDR;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(ETH_ALEN);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++	/*	Channel List */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CH_LIST;
++
++	/* Country String(3) */
++	/* + ( Operating Class (1) + Number of Channels(1) ) * Operation Classes (?) */
++	/* + number of channels in all classes */
++	len_channellist_attr = 3
++		       + (1 + 1) * (u16)pmlmeext->channel_list.reg_classes
++		       + get_reg_classes_full_count(pmlmeext->channel_list);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(5 + 1);
++	else
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++#else
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++
++#endif
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Channel Entry List */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++
++		u8 union_chan = rtw_mi_get_union_chan(padapter);
++
++		/*Operating Class*/
++		if (union_chan > 14) {
++			if (union_chan >= 149)
++				p2pie[p2pielen++] = 0x7c;
++			else
++				p2pie[p2pielen++] = 0x73;
++
++		} else
++			p2pie[p2pielen++] = 0x51;
++
++		/*	Number of Channels
++			Just support 1 channel and this channel is AP's channel*/
++		p2pie[p2pielen++] = 1;
++
++		/*Channel List*/
++		p2pie[p2pielen++] = union_chan;
++	} else {
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			/*	Number of Channels */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			/*	Channel List */
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++		}
++	}
++#else /* CONFIG_CONCURRENT_MODE */
++	{
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			/*	Number of Channels */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			/*	Channel List */
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++		}
++	}
++#endif /* CONFIG_CONCURRENT_MODE */
++
++
++	/*	Device Info */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	21->P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes)  */
++	/*	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes) */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(21 + pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	P2P Device Address */
++	_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++	/*	Config Method */
++	/*	This field should be big endian. Noted by P2P specification. */
++
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(pwdinfo->supported_wps_cm);
++
++	p2pielen += 2;
++
++	/*	Primary Device Type */
++	/*	Category ID */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_CID_MULIT_MEDIA);
++	p2pielen += 2;
++
++	/*	OUI */
++	*(u32 *)(p2pie + p2pielen) = cpu_to_be32(WPSOUI);
++	p2pielen += 4;
++
++	/*	Sub Category ID */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_SCID_MEDIA_SERVER);
++	p2pielen += 2;
++
++	/*	Number of Secondary Device Types */
++	p2pie[p2pielen++] = 0x00;	/*	No Secondary Device Type List */
++
++	/*	Device Name */
++	/*	Type: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++	p2pielen += 2;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_name , pwdinfo->device_name_len);
++	p2pielen += pwdinfo->device_name_len;
++
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		/*	Group ID Attribute */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_GROUP_ID;
++
++		/*	Length: */
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(ETH_ALEN + pwdinfo->nego_ssidlen);
++		p2pielen += 2;
++
++		/*	Value: */
++		/*	p2P Device Address */
++		_rtw_memcpy(p2pie + p2pielen , pwdinfo->device_addr, ETH_ALEN);
++		p2pielen += ETH_ALEN;
++
++		/*	SSID */
++		_rtw_memcpy(p2pie + p2pielen, pwdinfo->nego_ssid, pwdinfo->nego_ssidlen);
++		p2pielen += pwdinfo->nego_ssidlen;
++
++	}
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen);
++
++#ifdef CONFIG_WFD
++	wfdielen = build_nego_resp_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++void issue_p2p_GO_confirm(_adapter *padapter, u8 *raddr, u8 result)
++{
++
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_GO_NEGO_CONF;
++	u8			wpsie[255] = { 0x00 }, p2pie[255] = { 0x00 };
++	u8			wpsielen = 0, p2pielen = 0;
++
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	RTW_INFO("[%s] In\n", __FUNCTION__);
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(pwdinfo->negotiation_dialog_token), &(pattrib->pktlen));
++
++
++
++	/*	P2P IE Section. */
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20110306 */
++	/*	According to the P2P Specification, the group negoitation request frame should contain 5 P2P attributes */
++	/*	1. Status */
++	/*	2. P2P Capability */
++	/*	3. Operating Channel */
++	/*	4. Channel List */
++	/*	5. Group ID	( if this WiFi is GO ) */
++
++	/*	P2P Status */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_STATUS;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0001);
++	p2pielen += 2;
++
++	/*	Value: */
++	p2pie[p2pielen++] = result;
++
++	/*	P2P Capability */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CAPABILITY;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Device Capability Bitmap, 1 byte */
++	p2pie[p2pielen++] = DMP_P2P_DEVCAP_SUPPORT;
++
++	/*	Group Capability Bitmap, 1 byte */
++	if (pwdinfo->persistent_supported)
++		p2pie[p2pielen++] = P2P_GRPCAP_CROSS_CONN | P2P_GRPCAP_PERSISTENT_GROUP;
++	else
++		p2pie[p2pielen++] = P2P_GRPCAP_CROSS_CONN;
++
++
++	/*	Operating Channel */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_OPERATING_CH;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT)) {
++		if (pwdinfo->peer_operating_ch <= 14) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x51;
++		} else if ((pwdinfo->peer_operating_ch >= 36) && (pwdinfo->peer_operating_ch <= 48)) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x73;
++		} else {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x7c;
++		}
++
++		p2pie[p2pielen++] = pwdinfo->peer_operating_ch;
++	} else {
++		if (pwdinfo->operating_channel <= 14) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x51;
++		} else if ((pwdinfo->operating_channel >= 36) && (pwdinfo->operating_channel <= 48)) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x73;
++		} else {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x7c;
++		}
++
++		/*	Channel Number */
++		p2pie[p2pielen++] = pwdinfo->operating_channel;		/*	Use the listen channel as the operating channel */
++	}
++
++
++	/*	Channel List */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CH_LIST;
++
++	*(u16 *)(p2pie + p2pielen) = 6;
++	p2pielen += 2;
++
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Value: */
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT)) {
++		if (pwdinfo->peer_operating_ch <= 14) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x51;
++		} else if ((pwdinfo->peer_operating_ch >= 36) && (pwdinfo->peer_operating_ch <= 48)) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x73;
++		} else {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x7c;
++		}
++		p2pie[p2pielen++] = 1;
++		p2pie[p2pielen++] = pwdinfo->peer_operating_ch;
++	} else {
++		if (pwdinfo->operating_channel <= 14) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x51;
++		} else if ((pwdinfo->operating_channel >= 36) && (pwdinfo->operating_channel <= 48)) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x73;
++		} else {
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x7c;
++		}
++
++		/*	Channel Number */
++		p2pie[p2pielen++] = 1;
++		p2pie[p2pielen++] = pwdinfo->operating_channel;		/*	Use the listen channel as the operating channel */
++	}
++
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		/*	Group ID Attribute */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_GROUP_ID;
++
++		/*	Length: */
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(ETH_ALEN + pwdinfo->nego_ssidlen);
++		p2pielen += 2;
++
++		/*	Value: */
++		/*	p2P Device Address */
++		_rtw_memcpy(p2pie + p2pielen , pwdinfo->device_addr, ETH_ALEN);
++		p2pielen += ETH_ALEN;
++
++		/*	SSID */
++		_rtw_memcpy(p2pie + p2pielen, pwdinfo->nego_ssid, pwdinfo->nego_ssidlen);
++		p2pielen += pwdinfo->nego_ssidlen;
++	}
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen);
++
++#ifdef CONFIG_WFD
++	wfdielen = build_nego_confirm_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++void issue_p2p_invitation_request(_adapter *padapter, u8 *raddr)
++{
++
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_INVIT_REQ;
++	u8			p2pie[255] = { 0x00 };
++	u8			p2pielen = 0, i;
++	u8			dialogToken = 3;
++	u8			channel_cnt_24g = 0, channel_cnt_5gl = 0, channel_cnt_5gh = 0;
++	u16			len_channellist_attr = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, raddr,  ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));
++
++	/*	P2P IE Section. */
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20101011 */
++	/*	According to the P2P Specification, the P2P Invitation request frame should contain 7 P2P attributes */
++	/*	1. Configuration Timeout */
++	/*	2. Invitation Flags */
++	/*	3. Operating Channel	( Only GO ) */
++	/*	4. P2P Group BSSID	( Should be included if I am the GO ) */
++	/*	5. Channel List */
++	/*	6. P2P Group ID */
++	/*	7. P2P Device Info */
++
++	/*	Configuration Timeout */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CONF_TIMEOUT;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P GO */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P Client */
++
++	/*	Invitation Flags */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_INVITATION_FLAGS;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0001);
++	p2pielen += 2;
++
++	/*	Value: */
++	p2pie[p2pielen++] = P2P_INVITATION_FLAGS_PERSISTENT;
++
++
++	/*	Operating Channel */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_OPERATING_CH;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Operating Class */
++	if (pwdinfo->invitereq_info.operating_ch <= 14)
++		p2pie[p2pielen++] = 0x51;
++	else if ((pwdinfo->invitereq_info.operating_ch >= 36) && (pwdinfo->invitereq_info.operating_ch <= 48))
++		p2pie[p2pielen++] = 0x73;
++	else
++		p2pie[p2pielen++] = 0x7c;
++
++	/*	Channel Number */
++	p2pie[p2pielen++] = pwdinfo->invitereq_info.operating_ch;	/*	operating channel number */
++
++	if (_rtw_memcmp(adapter_mac_addr(padapter), pwdinfo->invitereq_info.go_bssid, ETH_ALEN)) {
++		/*	P2P Group BSSID */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_GROUP_BSSID;
++
++		/*	Length: */
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(ETH_ALEN);
++		p2pielen += 2;
++
++		/*	Value: */
++		/*	P2P Device Address for GO */
++		_rtw_memcpy(p2pie + p2pielen, pwdinfo->invitereq_info.go_bssid, ETH_ALEN);
++		p2pielen += ETH_ALEN;
++	}
++
++	/*	Channel List */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CH_LIST;
++
++
++	/*	Length: */
++	/* Country String(3) */
++	/* + ( Operating Class (1) + Number of Channels(1) ) * Operation Classes (?) */
++	/* + number of channels in all classes */
++	len_channellist_attr = 3
++		       + (1 + 1) * (u16)pmlmeext->channel_list.reg_classes
++		       + get_reg_classes_full_count(pmlmeext->channel_list);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(5 + 1);
++	else
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++#else
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++#endif
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Channel Entry List */
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++		u8 union_ch =  rtw_mi_get_union_chan(padapter);
++
++		/*	Operating Class */
++		if (union_ch > 14) {
++			if (union_ch >= 149)
++				p2pie[p2pielen++] = 0x7c;
++			else
++				p2pie[p2pielen++] = 0x73;
++		} else
++			p2pie[p2pielen++] = 0x51;
++
++
++		/*	Number of Channels */
++		/*	Just support 1 channel and this channel is AP's channel */
++		p2pie[p2pielen++] = 1;
++
++		/*	Channel List */
++		p2pie[p2pielen++] = union_ch;
++	} else {
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			/*	Number of Channels */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			/*	Channel List */
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++		}
++	}
++#else /* CONFIG_CONCURRENT_MODE */
++	{
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			/*	Number of Channels */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			/*	Channel List */
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++		}
++	}
++#endif /* CONFIG_CONCURRENT_MODE */
++
++
++	/*	P2P Group ID */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_GROUP_ID;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(6 + pwdinfo->invitereq_info.ssidlen);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	P2P Device Address for GO */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->invitereq_info.go_bssid, ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++	/*	SSID */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->invitereq_info.go_ssid, pwdinfo->invitereq_info.ssidlen);
++	p2pielen += pwdinfo->invitereq_info.ssidlen;
++
++
++	/*	Device Info */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	21->P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes)  */
++	/*	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes) */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(21 + pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	P2P Device Address */
++	_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++	/*	Config Method */
++	/*	This field should be big endian. Noted by P2P specification. */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_CONFIG_METHOD_DISPLAY);
++	p2pielen += 2;
++
++	/*	Primary Device Type */
++	/*	Category ID */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_CID_MULIT_MEDIA);
++	p2pielen += 2;
++
++	/*	OUI */
++	*(u32 *)(p2pie + p2pielen) = cpu_to_be32(WPSOUI);
++	p2pielen += 4;
++
++	/*	Sub Category ID */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_SCID_MEDIA_SERVER);
++	p2pielen += 2;
++
++	/*	Number of Secondary Device Types */
++	p2pie[p2pielen++] = 0x00;	/*	No Secondary Device Type List */
++
++	/*	Device Name */
++	/*	Type: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++	p2pielen += 2;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_name, pwdinfo->device_name_len);
++	p2pielen += pwdinfo->device_name_len;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen);
++
++#ifdef CONFIG_WFD
++	wfdielen = build_invitation_req_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++void issue_p2p_invitation_response(_adapter *padapter, u8 *raddr, u8 dialogToken, u8 status_code)
++{
++
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_INVIT_RESP;
++	u8			p2pie[255] = { 0x00 };
++	u8			p2pielen = 0, i;
++	u8			channel_cnt_24g = 0, channel_cnt_5gl = 0, channel_cnt_5gh = 0;
++	u16			len_channellist_attr = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, raddr,  ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));
++
++	/*	P2P IE Section. */
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20101005 */
++	/*	According to the P2P Specification, the P2P Invitation response frame should contain 5 P2P attributes */
++	/*	1. Status */
++	/*	2. Configuration Timeout */
++	/*	3. Operating Channel	( Only GO ) */
++	/*	4. P2P Group BSSID	( Only GO ) */
++	/*	5. Channel List */
++
++	/*	P2P Status */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_STATUS;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0001);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	When status code is P2P_STATUS_FAIL_INFO_UNAVAILABLE. */
++	/*	Sent the event receiving the P2P Invitation Req frame to DMP UI. */
++	/*	DMP had to compare the MAC address to find out the profile. */
++	/*	So, the WiFi driver will send the P2P_STATUS_FAIL_INFO_UNAVAILABLE to NB. */
++	/*	If the UI found the corresponding profile, the WiFi driver sends the P2P Invitation Req */
++	/*	to NB to rebuild the persistent group. */
++	p2pie[p2pielen++] = status_code;
++
++	/*	Configuration Timeout */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CONF_TIMEOUT;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P GO */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P Client */
++
++	if (status_code == P2P_STATUS_SUCCESS) {
++		if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++			/*	The P2P Invitation request frame asks this Wi-Fi device to be the P2P GO */
++			/*	In this case, the P2P Invitation response frame should carry the two more P2P attributes. */
++			/*	First one is operating channel attribute. */
++			/*	Second one is P2P Group BSSID attribute. */
++
++			/*	Operating Channel */
++			/*	Type: */
++			p2pie[p2pielen++] = P2P_ATTR_OPERATING_CH;
++
++			/*	Length: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++			p2pielen += 2;
++
++			/*	Value: */
++			/*	Country String */
++			p2pie[p2pielen++] = 'X';
++			p2pie[p2pielen++] = 'X';
++
++			/*	The third byte should be set to 0x04. */
++			/*	Described in the "Operating Channel Attribute" section. */
++			p2pie[p2pielen++] = 0x04;
++
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x51;	/*	Copy from SD7 */
++
++			/*	Channel Number */
++			p2pie[p2pielen++] = pwdinfo->operating_channel;	/*	operating channel number */
++
++
++			/*	P2P Group BSSID */
++			/*	Type: */
++			p2pie[p2pielen++] = P2P_ATTR_GROUP_BSSID;
++
++			/*	Length: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(ETH_ALEN);
++			p2pielen += 2;
++
++			/*	Value: */
++			/*	P2P Device Address for GO */
++			_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++			p2pielen += ETH_ALEN;
++
++		}
++
++		/*	Channel List */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_CH_LIST;
++
++		/*	Length: */
++		/* Country String(3) */
++		/* + ( Operating Class (1) + Number of Channels(1) ) * Operation Classes (?) */
++		/* + number of channels in all classes */
++		len_channellist_attr = 3
++			+ (1 + 1) * (u16)pmlmeext->channel_list.reg_classes
++			+ get_reg_classes_full_count(pmlmeext->channel_list);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(5 + 1);
++		else
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++#else
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++#endif
++		p2pielen += 2;
++
++		/*	Value: */
++		/*	Country String */
++		p2pie[p2pielen++] = 'X';
++		p2pie[p2pielen++] = 'X';
++
++		/*	The third byte should be set to 0x04. */
++		/*	Described in the "Operating Channel Attribute" section. */
++		p2pie[p2pielen++] = 0x04;
++
++		/*	Channel Entry List */
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++			u8 union_ch = rtw_mi_get_union_chan(padapter);
++
++			/*	Operating Class */
++			if (union_ch > 14) {
++				if (union_ch >= 149)
++					p2pie[p2pielen++]  = 0x7c;
++				else
++					p2pie[p2pielen++] = 0x73;
++			} else
++				p2pie[p2pielen++] = 0x51;
++
++
++			/*	Number of Channels */
++			/*	Just support 1 channel and this channel is AP's channel */
++			p2pie[p2pielen++] = 1;
++
++			/*	Channel List */
++			p2pie[p2pielen++] = union_ch;
++		} else {
++			int i, j;
++			for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++				/*	Operating Class */
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++				/*	Number of Channels */
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++				/*	Channel List */
++				for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++					p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++			}
++		}
++#else /* CONFIG_CONCURRENT_MODE */
++		{
++			int i, j;
++			for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++				/*	Operating Class */
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++				/*	Number of Channels */
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++				/*	Channel List */
++				for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++					p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++			}
++		}
++#endif /* CONFIG_CONCURRENT_MODE */
++	}
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen);
++
++#ifdef CONFIG_WFD
++	wfdielen = build_invitation_resp_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++void issue_p2p_provision_request(_adapter *padapter, u8 *pssid, u8 ussidlen, u8 *pdev_raddr)
++{
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u8			dialogToken = 1;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_PROVISION_DISC_REQ;
++	u8			wpsie[100] = { 0x00 };
++	u8			wpsielen = 0;
++	u32			p2pielen = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	RTW_INFO("[%s] In\n", __FUNCTION__);
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, pdev_raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, pdev_raddr, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));
++
++	p2pielen = build_prov_disc_request_p2p_ie(pwdinfo, pframe, pssid, ussidlen, pdev_raddr);
++
++	pframe += p2pielen;
++	pattrib->pktlen += p2pielen;
++
++	wpsielen = 0;
++	/*	WPS OUI */
++	*(u32 *)(wpsie) = cpu_to_be32(WPSOUI);
++	wpsielen += 4;
++
++	/*	WPS version */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++	wpsielen += 2;
++
++	/*	Value: */
++	wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++
++	/*	Config Method */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_CONF_METHOD);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0002);
++	wpsielen += 2;
++
++	/*	Value: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(pwdinfo->tx_prov_disc_info.wps_config_method_request);
++	wpsielen += 2;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen);
++
++
++#ifdef CONFIG_WFD
++	wfdielen = build_provdisc_req_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++
++u8 is_matched_in_profilelist(u8 *peermacaddr, struct profile_info *profileinfo)
++{
++	u8 i, match_result = 0;
++
++	RTW_INFO("[%s] peermac = %.2X %.2X %.2X %.2X %.2X %.2X\n", __FUNCTION__,
++		peermacaddr[0], peermacaddr[1], peermacaddr[2], peermacaddr[3], peermacaddr[4], peermacaddr[5]);
++
++	for (i = 0; i < P2P_MAX_PERSISTENT_GROUP_NUM; i++, profileinfo++) {
++		RTW_INFO("[%s] profileinfo_mac = %.2X %.2X %.2X %.2X %.2X %.2X\n", __FUNCTION__,
++			profileinfo->peermac[0], profileinfo->peermac[1], profileinfo->peermac[2], profileinfo->peermac[3], profileinfo->peermac[4], profileinfo->peermac[5]);
++		if (_rtw_memcmp(peermacaddr, profileinfo->peermac, ETH_ALEN)) {
++			match_result = 1;
++			RTW_INFO("[%s] Match!\n", __FUNCTION__);
++			break;
++		}
++	}
++
++	return match_result ;
++}
++
++void issue_probersp_p2p(_adapter *padapter, unsigned char *da)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	unsigned char					*mac;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	/* WLAN_BSSID_EX 		*cur_network = &(pmlmeinfo->network); */
++	u16					beacon_interval = 100;
++	u16					capInfo = 0;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8					wpsie[255] = { 0x00 };
++	u32					wpsielen = 0, p2pielen = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++#ifdef CONFIG_INTEL_WIDI
++	u8 zero_array_check[L2SDTA_SERVICE_VE_LEN] = { 0x00 };
++#endif /* CONFIG_INTEL_WIDI */
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	mac = adapter_mac_addr(padapter);
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, mac, ETH_ALEN);
++
++	/*	Use the device address for BSSID field.	 */
++	_rtw_memcpy(pwlanhdr->addr3, mac, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(fctrl, WIFI_PROBERSP);
++
++	pattrib->hdrlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = pattrib->hdrlen;
++	pframe += pattrib->hdrlen;
++
++	/* timestamp will be inserted by hardware */
++	pframe += 8;
++	pattrib->pktlen += 8;
++
++	/* beacon interval: 2 bytes */
++	_rtw_memcpy(pframe, (unsigned char *) &beacon_interval, 2);
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++	/*	capability info: 2 bytes */
++	/*	ESS and IBSS bits must be 0 (defined in the 3.1.2.1.1 of WiFi Direct Spec) */
++	capInfo |= cap_ShortPremble;
++	capInfo |= cap_ShortSlot;
++
++	_rtw_memcpy(pframe, (unsigned char *) &capInfo, 2);
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++
++	/* SSID */
++	pframe = rtw_set_ie(pframe, _SSID_IE_, 7, pwdinfo->p2p_wildcard_ssid, &pattrib->pktlen);
++
++	/* supported rates... */
++	/*	Use the OFDM rate in the P2P probe response frame. ( 6(B), 9(B), 12, 18, 24, 36, 48, 54 ) */
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, 8, pwdinfo->support_rate, &pattrib->pktlen);
++
++	/* DS parameter set */
++	pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&pwdinfo->listen_channel, &pattrib->pktlen);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (adapter_wdev_data(padapter)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211) {
++		if (pmlmepriv->wps_probe_resp_ie != NULL && pmlmepriv->p2p_probe_resp_ie != NULL) {
++			/* WPS IE */
++			_rtw_memcpy(pframe, pmlmepriv->wps_probe_resp_ie, pmlmepriv->wps_probe_resp_ie_len);
++			pattrib->pktlen += pmlmepriv->wps_probe_resp_ie_len;
++			pframe += pmlmepriv->wps_probe_resp_ie_len;
++
++			/* P2P IE */
++			_rtw_memcpy(pframe, pmlmepriv->p2p_probe_resp_ie, pmlmepriv->p2p_probe_resp_ie_len);
++			pattrib->pktlen += pmlmepriv->p2p_probe_resp_ie_len;
++			pframe += pmlmepriv->p2p_probe_resp_ie_len;
++		}
++	} else
++#endif /* CONFIG_IOCTL_CFG80211		 */
++	{
++
++		/*	Todo: WPS IE */
++		/*	Noted by Albert 20100907 */
++		/*	According to the WPS specification, all the WPS attribute is presented by Big Endian. */
++
++		wpsielen = 0;
++		/*	WPS OUI */
++		*(u32 *)(wpsie) = cpu_to_be32(WPSOUI);
++		wpsielen += 4;
++
++		/*	WPS version */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++		wpsielen += 2;
++
++		/*	Value: */
++		wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++
++#ifdef CONFIG_INTEL_WIDI
++		/*	Commented by Kurt */
++		/*	Appended WiDi info. only if we did issued_probereq_widi(), and then we saved ven. ext. in pmlmepriv->sa_ext. */
++		if (_rtw_memcmp(pmlmepriv->sa_ext, zero_array_check, L2SDTA_SERVICE_VE_LEN) == _FALSE
++		    || pmlmepriv->num_p2p_sdt != 0) {
++			/* Sec dev type */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_SEC_DEV_TYPE_LIST);
++			wpsielen += 2;
++
++			/*	Length: */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0008);
++			wpsielen += 2;
++
++			/*	Value: */
++			/*	Category ID */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_CID_DISPLAYS);
++			wpsielen += 2;
++
++			/*	OUI */
++			*(u32 *)(wpsie + wpsielen) = cpu_to_be32(INTEL_DEV_TYPE_OUI);
++			wpsielen += 4;
++
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_SCID_WIDI_CONSUMER_SINK);
++			wpsielen += 2;
++
++			if (_rtw_memcmp(pmlmepriv->sa_ext, zero_array_check, L2SDTA_SERVICE_VE_LEN) == _FALSE) {
++				/*	Vendor Extension */
++				_rtw_memcpy(wpsie + wpsielen, pmlmepriv->sa_ext, L2SDTA_SERVICE_VE_LEN);
++				wpsielen += L2SDTA_SERVICE_VE_LEN;
++			}
++		}
++#endif /* CONFIG_INTEL_WIDI */
++
++		/*	WiFi Simple Config State */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_SIMPLE_CONF_STATE);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++		wpsielen += 2;
++
++		/*	Value: */
++		wpsie[wpsielen++] = WPS_WSC_STATE_NOT_CONFIG;	/*	Not Configured. */
++
++		/*	Response Type */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_RESP_TYPE);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++		wpsielen += 2;
++
++		/*	Value: */
++		wpsie[wpsielen++] = WPS_RESPONSE_TYPE_8021X;
++
++		/*	UUID-E */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_UUID_E);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0010);
++		wpsielen += 2;
++
++		/*	Value: */
++		if (pwdinfo->external_uuid == 0) {
++			_rtw_memset(wpsie + wpsielen, 0x0, 16);
++			_rtw_memcpy(wpsie + wpsielen, mac, ETH_ALEN);
++		} else
++			_rtw_memcpy(wpsie + wpsielen, pwdinfo->uuid, 0x10);
++		wpsielen += 0x10;
++
++		/*	Manufacturer */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_MANUFACTURER);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0007);
++		wpsielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(wpsie + wpsielen, "Realtek", 7);
++		wpsielen += 7;
++
++		/*	Model Name */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_MODEL_NAME);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0006);
++		wpsielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(wpsie + wpsielen, "8192CU", 6);
++		wpsielen += 6;
++
++		/*	Model Number */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_MODEL_NUMBER);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++		wpsielen += 2;
++
++		/*	Value: */
++		wpsie[wpsielen++] = 0x31;		/*	character 1 */
++
++		/*	Serial Number */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_SERIAL_NUMBER);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(ETH_ALEN);
++		wpsielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(wpsie + wpsielen, "123456" , ETH_ALEN);
++		wpsielen += ETH_ALEN;
++
++		/*	Primary Device Type */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_PRIMARY_DEV_TYPE);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0008);
++		wpsielen += 2;
++
++		/*	Value: */
++		/*	Category ID */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_CID_MULIT_MEDIA);
++		wpsielen += 2;
++
++		/*	OUI */
++		*(u32 *)(wpsie + wpsielen) = cpu_to_be32(WPSOUI);
++		wpsielen += 4;
++
++		/*	Sub Category ID */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_SCID_MEDIA_SERVER);
++		wpsielen += 2;
++
++		/*	Device Name */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(pwdinfo->device_name_len);
++		wpsielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(wpsie + wpsielen, pwdinfo->device_name, pwdinfo->device_name_len);
++		wpsielen += pwdinfo->device_name_len;
++
++		/*	Config Method */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_CONF_METHOD);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0002);
++		wpsielen += 2;
++
++		/*	Value: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(pwdinfo->supported_wps_cm);
++		wpsielen += 2;
++
++
++		pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen);
++
++
++		p2pielen = build_probe_resp_p2p_ie(pwdinfo, pframe);
++		pframe += p2pielen;
++		pattrib->pktlen += p2pielen;
++	}
++
++#ifdef CONFIG_WFD
++	wfdielen = rtw_append_probe_resp_wfd_ie(padapter, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++int _issue_probereq_p2p(_adapter *padapter, u8 *da, int wait_ack)
++{
++	int ret = _FAIL;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	unsigned char			*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short		*fctrl;
++	unsigned char			*mac;
++	unsigned char			bssrate[NumRates];
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	int	bssrate_len = 0;
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8					wpsie[255] = { 0x00 }, p2pie[255] = { 0x00 };
++	u16					wpsielen = 0, p2pielen = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	mac = adapter_mac_addr(padapter);
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	if (da) {
++		_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, da, ETH_ALEN);
++	} else {
++		if ((pwdinfo->p2p_info.scan_op_ch_only) || (pwdinfo->rx_invitereq_info.scan_op_ch_only)) {
++			/*	This two flags will be set when this is only the P2P client mode. */
++			_rtw_memcpy(pwlanhdr->addr1, pwdinfo->p2p_peer_interface_addr, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, pwdinfo->p2p_peer_interface_addr, ETH_ALEN);
++		} else {
++			/*	broadcast probe request frame */
++			_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, bc_addr, ETH_ALEN);
++		}
++	}
++	_rtw_memcpy(pwlanhdr->addr2, mac, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_PROBEREQ);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_PROVISION_DIS_REQ))
++		pframe = rtw_set_ie(pframe, _SSID_IE_, pwdinfo->tx_prov_disc_info.ssid.SsidLength, pwdinfo->tx_prov_disc_info.ssid.Ssid, &(pattrib->pktlen));
++	else
++		pframe = rtw_set_ie(pframe, _SSID_IE_, P2P_WILDCARD_SSID_LEN, pwdinfo->p2p_wildcard_ssid, &(pattrib->pktlen));
++	/*	Use the OFDM rate in the P2P probe request frame. ( 6(B), 9(B), 12(B), 24(B), 36, 48, 54 ) */
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, 8, pwdinfo->support_rate, &pattrib->pktlen);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (adapter_wdev_data(padapter)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211) {
++		if (pmlmepriv->wps_probe_req_ie != NULL && pmlmepriv->p2p_probe_req_ie != NULL) {
++			/* WPS IE */
++			_rtw_memcpy(pframe, pmlmepriv->wps_probe_req_ie, pmlmepriv->wps_probe_req_ie_len);
++			pattrib->pktlen += pmlmepriv->wps_probe_req_ie_len;
++			pframe += pmlmepriv->wps_probe_req_ie_len;
++
++			/* P2P IE */
++			_rtw_memcpy(pframe, pmlmepriv->p2p_probe_req_ie, pmlmepriv->p2p_probe_req_ie_len);
++			pattrib->pktlen += pmlmepriv->p2p_probe_req_ie_len;
++			pframe += pmlmepriv->p2p_probe_req_ie_len;
++		}
++	} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++	{
++
++		/*	WPS IE */
++		/*	Noted by Albert 20110221 */
++		/*	According to the WPS specification, all the WPS attribute is presented by Big Endian. */
++
++		wpsielen = 0;
++		/*	WPS OUI */
++		*(u32 *)(wpsie) = cpu_to_be32(WPSOUI);
++		wpsielen += 4;
++
++		/*	WPS version */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++		wpsielen += 2;
++
++		/*	Value: */
++		wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++
++		if (pmlmepriv->wps_probe_req_ie == NULL) {
++			/*	UUID-E */
++			/*	Type: */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_UUID_E);
++			wpsielen += 2;
++
++			/*	Length: */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0010);
++			wpsielen += 2;
++
++			/*	Value: */
++			if (pwdinfo->external_uuid == 0) {
++				_rtw_memset(wpsie + wpsielen, 0x0, 16);
++				_rtw_memcpy(wpsie + wpsielen, mac, ETH_ALEN);
++			} else
++				_rtw_memcpy(wpsie + wpsielen, pwdinfo->uuid, 0x10);
++			wpsielen += 0x10;
++
++			/*	Config Method */
++			/*	Type: */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_CONF_METHOD);
++			wpsielen += 2;
++
++			/*	Length: */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0002);
++			wpsielen += 2;
++
++			/*	Value: */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(pwdinfo->supported_wps_cm);
++			wpsielen += 2;
++		}
++
++		/*	Device Name */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(pwdinfo->device_name_len);
++		wpsielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(wpsie + wpsielen, pwdinfo->device_name, pwdinfo->device_name_len);
++		wpsielen += pwdinfo->device_name_len;
++
++		/*	Primary Device Type */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_PRIMARY_DEV_TYPE);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0008);
++		wpsielen += 2;
++
++		/*	Value: */
++		/*	Category ID */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_CID_RTK_WIDI);
++		wpsielen += 2;
++
++		/*	OUI */
++		*(u32 *)(wpsie + wpsielen) = cpu_to_be32(WPSOUI);
++		wpsielen += 4;
++
++		/*	Sub Category ID */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_SCID_RTK_DMP);
++		wpsielen += 2;
++
++		/*	Device Password ID */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_DEVICE_PWID);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0002);
++		wpsielen += 2;
++
++		/*	Value: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_REGISTRAR_SPEC);	/*	Registrar-specified */
++		wpsielen += 2;
++
++		pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen);
++
++		/*	P2P OUI */
++		p2pielen = 0;
++		p2pie[p2pielen++] = 0x50;
++		p2pie[p2pielen++] = 0x6F;
++		p2pie[p2pielen++] = 0x9A;
++		p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++		/*	Commented by Albert 20110221 */
++		/*	According to the P2P Specification, the probe request frame should contain 5 P2P attributes */
++		/*	1. P2P Capability */
++		/*	2. P2P Device ID if this probe request wants to find the specific P2P device */
++		/*	3. Listen Channel */
++		/*	4. Extended Listen Timing */
++		/*	5. Operating Channel if this WiFi is working as the group owner now */
++
++		/*	P2P Capability */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_CAPABILITY;
++
++		/*	Length: */
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++		p2pielen += 2;
++
++		/*	Value: */
++		/*	Device Capability Bitmap, 1 byte */
++		p2pie[p2pielen++] = DMP_P2P_DEVCAP_SUPPORT;
++
++		/*	Group Capability Bitmap, 1 byte */
++		if (pwdinfo->persistent_supported)
++			p2pie[p2pielen++] = P2P_GRPCAP_PERSISTENT_GROUP | DMP_P2P_GRPCAP_SUPPORT;
++		else
++			p2pie[p2pielen++] = DMP_P2P_GRPCAP_SUPPORT;
++
++		/*	Listen Channel */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_LISTEN_CH;
++
++		/*	Length: */
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++		p2pielen += 2;
++
++		/*	Value: */
++		/*	Country String */
++		p2pie[p2pielen++] = 'X';
++		p2pie[p2pielen++] = 'X';
++
++		/*	The third byte should be set to 0x04. */
++		/*	Described in the "Operating Channel Attribute" section. */
++		p2pie[p2pielen++] = 0x04;
++
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x51;	/*	Copy from SD7 */
++
++		/*	Channel Number */
++		p2pie[p2pielen++] = pwdinfo->listen_channel;	/*	listen channel */
++
++
++		/*	Extended Listen Timing */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_EX_LISTEN_TIMING;
++
++		/*	Length: */
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0004);
++		p2pielen += 2;
++
++		/*	Value: */
++		/*	Availability Period */
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0xFFFF);
++		p2pielen += 2;
++
++		/*	Availability Interval */
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0xFFFF);
++		p2pielen += 2;
++
++		if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++			/*	Operating Channel (if this WiFi is working as the group owner now) */
++			/*	Type: */
++			p2pie[p2pielen++] = P2P_ATTR_OPERATING_CH;
++
++			/*	Length: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++			p2pielen += 2;
++
++			/*	Value: */
++			/*	Country String */
++			p2pie[p2pielen++] = 'X';
++			p2pie[p2pielen++] = 'X';
++
++			/*	The third byte should be set to 0x04. */
++			/*	Described in the "Operating Channel Attribute" section. */
++			p2pie[p2pielen++] = 0x04;
++
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x51;	/*	Copy from SD7 */
++
++			/*	Channel Number */
++			p2pie[p2pielen++] = pwdinfo->operating_channel;	/*	operating channel number */
++
++		}
++
++		pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen);
++
++	}
++
++#ifdef CONFIG_WFD
++	wfdielen = rtw_append_probe_req_wfd_ie(padapter, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++	return ret;
++}
++
++inline void issue_probereq_p2p(_adapter *adapter, u8 *da)
++{
++	_issue_probereq_p2p(adapter, da, _FALSE);
++}
++
++/*
++ * wait_ms == 0 means that there is no need to wait ack through C2H_CCX_TX_RPT
++ * wait_ms > 0 means you want to wait ack through C2H_CCX_TX_RPT, and the value of wait_ms means the interval between each TX
++ * try_cnt means the maximal TX count to try
++ */
++int issue_probereq_p2p_ex(_adapter *adapter, u8 *da, int try_cnt, int wait_ms)
++{
++	int ret;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++
++	do {
++		ret = _issue_probereq_p2p(adapter, da, wait_ms > 0 ? _TRUE : _FALSE);
++
++		i++;
++
++		if (RTW_CANNOT_RUN(adapter))
++			break;
++
++		if (i < try_cnt && wait_ms > 0 && ret == _FAIL)
++			rtw_msleep_os(wait_ms);
++
++	} while ((i < try_cnt) && ((ret == _FAIL) || (wait_ms == 0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++#ifndef DBG_XMIT_ACK
++		goto exit;
++#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		if (da)
++			RTW_INFO(FUNC_ADPT_FMT" to "MAC_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(adapter), MAC_ARG(da), rtw_get_oper_ch(adapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++		else
++			RTW_INFO(FUNC_ADPT_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(adapter), rtw_get_oper_ch(adapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++	return ret;
++}
++
++#endif /* CONFIG_P2P */
++
++s32 rtw_action_public_decache(union recv_frame *rframe, u8 token_offset)
++{
++	_adapter *adapter = rframe->u.hdr.adapter;
++	struct mlme_ext_priv *mlmeext = &(adapter->mlmeextpriv);
++	u8 *frame = rframe->u.hdr.rx_data;
++	u16 seq_ctrl = ((rframe->u.hdr.attrib.seq_num & 0xffff) << 4) | (rframe->u.hdr.attrib.frag_num & 0xf);
++	u8 token = *(rframe->u.hdr.rx_data + sizeof(struct rtw_ieee80211_hdr_3addr) + token_offset);
++
++	if (GetRetry(frame)) {
++		if ((seq_ctrl == mlmeext->action_public_rxseq)
++		    && (token == mlmeext->action_public_dialog_token)
++		   ) {
++			RTW_INFO(FUNC_ADPT_FMT" seq_ctrl=0x%x, rxseq=0x%x, token:%d\n",
++				FUNC_ADPT_ARG(adapter), seq_ctrl, mlmeext->action_public_rxseq, token);
++			return _FAIL;
++		}
++	}
++
++	/* TODO: per sta seq & token */
++	mlmeext->action_public_rxseq = seq_ctrl;
++	mlmeext->action_public_dialog_token = token;
++
++	return _SUCCESS;
++}
++
++unsigned int on_action_public_p2p(union recv_frame *precv_frame)
++{
++	_adapter *padapter = precv_frame->u.hdr.adapter;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint len = precv_frame->u.hdr.len;
++	u8 *frame_body;
++#ifdef CONFIG_P2P
++	u8 *p2p_ie;
++	u32	p2p_ielen, wps_ielen;
++	struct	wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8	result = P2P_STATUS_SUCCESS;
++	u8	empty_addr[ETH_ALEN] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 };
++	u8 *merged_p2pie = NULL;
++	u32 merged_p2p_ielen = 0;
++#endif /* CONFIG_P2P */
++
++	frame_body = (unsigned char *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++#ifdef CONFIG_P2P
++	_cancel_timer_ex(&pwdinfo->reset_ch_sitesurvey);
++#ifdef CONFIG_IOCTL_CFG80211
++	if (adapter_wdev_data(padapter)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211)
++		rtw_cfg80211_rx_p2p_action_public(padapter, pframe, len);
++	else
++#endif /* CONFIG_IOCTL_CFG80211 */
++	{
++		/*	Do nothing if the driver doesn't enable the P2P function. */
++		if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE) || rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE))
++			return _SUCCESS;
++
++		len -= sizeof(struct rtw_ieee80211_hdr_3addr);
++
++		switch (frame_body[6]) { /* OUI Subtype */
++		case P2P_GO_NEGO_REQ: {
++			RTW_INFO("[%s] Got GO Nego Req Frame\n", __FUNCTION__);
++			_rtw_memset(&pwdinfo->groupid_info, 0x00, sizeof(struct group_id_info));
++
++			if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_RX_PROVISION_DIS_REQ))
++				rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++
++			if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_FAIL)) {
++				/*	Commented by Albert 20110526 */
++				/*	In this case, this means the previous nego fail doesn't be reset yet. */
++				_cancel_timer_ex(&pwdinfo->restore_p2p_state_timer);
++				/*	Restore the previous p2p state */
++				rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++				RTW_INFO("[%s] Restore the previous p2p state to %d\n", __FUNCTION__, rtw_p2p_state(pwdinfo));
++			}
++#ifdef CONFIG_CONCURRENT_MODE
++			if (rtw_mi_buddy_check_fwstate(padapter, _FW_LINKED))
++				_cancel_timer_ex(&pwdinfo->ap_p2p_switch_timer);
++#endif /* CONFIG_CONCURRENT_MODE */
++
++			/*	Commented by Kurt 20110902 */
++			/* Add if statement to avoid receiving duplicate prov disc req. such that pre_p2p_state would be covered. */
++			if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING))
++				rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++
++			/*	Commented by Kurt 20120113 */
++			/*	Get peer_dev_addr here if peer doesn't issue prov_disc frame. */
++			if (_rtw_memcmp(pwdinfo->rx_prov_disc_info.peerDevAddr, empty_addr, ETH_ALEN))
++				_rtw_memcpy(pwdinfo->rx_prov_disc_info.peerDevAddr, GetAddr2Ptr(pframe), ETH_ALEN);
++
++			result = process_p2p_group_negotation_req(pwdinfo, frame_body, len);
++			issue_p2p_GO_response(padapter, GetAddr2Ptr(pframe), frame_body, len, result);
++#ifdef CONFIG_INTEL_WIDI
++			if (padapter->mlmepriv.widi_state == INTEL_WIDI_STATE_LISTEN) {
++				padapter->mlmepriv.widi_state = INTEL_WIDI_STATE_WFD_CONNECTION;
++				_cancel_timer_ex(&(padapter->mlmepriv.listen_timer));
++				intel_widi_wk_cmd(padapter, INTEL_WIDI_LISTEN_STOP_WK, NULL, 0);
++			}
++#endif /* CONFIG_INTEL_WIDI */
++
++			/*	Commented by Albert 20110718 */
++			/*	No matter negotiating or negotiation failure, the driver should set up the restore P2P state timer. */
++#ifdef CONFIG_CONCURRENT_MODE
++			/*	Commented by Albert 20120107 */
++			_set_timer(&pwdinfo->restore_p2p_state_timer, 3000);
++#else /* CONFIG_CONCURRENT_MODE */
++			_set_timer(&pwdinfo->restore_p2p_state_timer, 5000);
++#endif /* CONFIG_CONCURRENT_MODE */
++			break;
++		}
++		case P2P_GO_NEGO_RESP: {
++			RTW_INFO("[%s] Got GO Nego Resp Frame\n", __FUNCTION__);
++
++			if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING)) {
++				/*	Commented by Albert 20110425 */
++				/*	The restore timer is enabled when issuing the nego request frame of rtw_p2p_connect function. */
++				_cancel_timer_ex(&pwdinfo->restore_p2p_state_timer);
++				pwdinfo->nego_req_info.benable = _FALSE;
++				result = process_p2p_group_negotation_resp(pwdinfo, frame_body, len);
++				issue_p2p_GO_confirm(pwdinfo->padapter, GetAddr2Ptr(pframe), result);
++				if (P2P_STATUS_SUCCESS == result) {
++					if (rtw_p2p_role(pwdinfo) == P2P_ROLE_CLIENT) {
++						pwdinfo->p2p_info.operation_ch[0] = pwdinfo->peer_operating_ch;
++#ifdef CONFIG_P2P_OP_CHK_SOCIAL_CH
++						pwdinfo->p2p_info.operation_ch[1] = 1;	/* Check whether GO is operating in channel 1; */
++						pwdinfo->p2p_info.operation_ch[2] = 6;	/* Check whether GO is operating in channel 6; */
++						pwdinfo->p2p_info.operation_ch[3] = 11;	/* Check whether GO is operating in channel 11; */
++#endif /* CONFIG_P2P_OP_CHK_SOCIAL_CH */
++						pwdinfo->p2p_info.scan_op_ch_only = 1;
++						_set_timer(&pwdinfo->reset_ch_sitesurvey2, P2P_RESET_SCAN_CH);
++					}
++				}
++
++				/*	Reset the dialog token for group negotiation frames. */
++				pwdinfo->negotiation_dialog_token = 1;
++
++				if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_FAIL))
++					_set_timer(&pwdinfo->restore_p2p_state_timer, 5000);
++			} else
++				RTW_INFO("[%s] Skipped GO Nego Resp Frame (p2p_state != P2P_STATE_GONEGO_ING)\n", __FUNCTION__);
++
++			break;
++		}
++		case P2P_GO_NEGO_CONF: {
++			RTW_INFO("[%s] Got GO Nego Confirm Frame\n", __FUNCTION__);
++			result = process_p2p_group_negotation_confirm(pwdinfo, frame_body, len);
++			if (P2P_STATUS_SUCCESS == result) {
++				if (rtw_p2p_role(pwdinfo) == P2P_ROLE_CLIENT) {
++					pwdinfo->p2p_info.operation_ch[0] = pwdinfo->peer_operating_ch;
++#ifdef CONFIG_P2P_OP_CHK_SOCIAL_CH
++					pwdinfo->p2p_info.operation_ch[1] = 1;	/* Check whether GO is operating in channel 1; */
++					pwdinfo->p2p_info.operation_ch[2] = 6;	/* Check whether GO is operating in channel 6; */
++					pwdinfo->p2p_info.operation_ch[3] = 11;	/* Check whether GO is operating in channel 11; */
++#endif /* CONFIG_P2P_OP_CHK_SOCIAL_CH */
++					pwdinfo->p2p_info.scan_op_ch_only = 1;
++					_set_timer(&pwdinfo->reset_ch_sitesurvey2, P2P_RESET_SCAN_CH);
++				}
++			}
++			break;
++		}
++		case P2P_INVIT_REQ: {
++			/*	Added by Albert 2010/10/05 */
++			/*	Received the P2P Invite Request frame. */
++
++			RTW_INFO("[%s] Got invite request frame!\n", __FUNCTION__);
++			p2p_ie = rtw_get_p2p_ie(frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, NULL, &p2p_ielen);
++			if (p2p_ie) {
++				/*	Parse the necessary information from the P2P Invitation Request frame. */
++				/*	For example: The MAC address of sending this P2P Invitation Request frame. */
++				u32	attr_contentlen = 0;
++				u8	status_code = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++				struct group_id_info group_id;
++				u8	invitation_flag = 0;
++				int j = 0;
++
++				merged_p2p_ielen = rtw_get_p2p_merged_ies_len(frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_);
++
++				merged_p2pie = rtw_zmalloc(merged_p2p_ielen + 2);	/* 2 is for EID and Length */
++				if (merged_p2pie == NULL) {
++					RTW_INFO("[%s] Malloc p2p ie fail\n", __FUNCTION__);
++					goto exit;
++				}
++				_rtw_memset(merged_p2pie, 0x00, merged_p2p_ielen);
++
++				merged_p2p_ielen = rtw_p2p_merge_ies(frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, merged_p2pie);
++
++				rtw_get_p2p_attr_content(merged_p2pie, merged_p2p_ielen, P2P_ATTR_INVITATION_FLAGS, &invitation_flag, &attr_contentlen);
++				if (attr_contentlen) {
++
++					rtw_get_p2p_attr_content(merged_p2pie, merged_p2p_ielen, P2P_ATTR_GROUP_BSSID, pwdinfo->p2p_peer_interface_addr, &attr_contentlen);
++					/*	Commented by Albert 20120510 */
++					/*	Copy to the pwdinfo->p2p_peer_interface_addr. */
++					/*	So that the WFD UI ( or Sigma ) can get the peer interface address by using the following command. */
++					/*	#> iwpriv wlan0 p2p_get peer_ifa */
++					/*	After having the peer interface address, the sigma can find the correct conf file for wpa_supplicant. */
++
++					if (attr_contentlen) {
++						RTW_INFO("[%s] GO's BSSID = %.2X %.2X %.2X %.2X %.2X %.2X\n", __FUNCTION__,
++							pwdinfo->p2p_peer_interface_addr[0], pwdinfo->p2p_peer_interface_addr[1],
++							pwdinfo->p2p_peer_interface_addr[2], pwdinfo->p2p_peer_interface_addr[3],
++							pwdinfo->p2p_peer_interface_addr[4], pwdinfo->p2p_peer_interface_addr[5]);
++					}
++
++					if (invitation_flag & P2P_INVITATION_FLAGS_PERSISTENT) {
++						/*	Re-invoke the persistent group. */
++
++						_rtw_memset(&group_id, 0x00, sizeof(struct group_id_info));
++						rtw_get_p2p_attr_content(merged_p2pie, merged_p2p_ielen, P2P_ATTR_GROUP_ID, (u8 *) &group_id, &attr_contentlen);
++						if (attr_contentlen) {
++							if (_rtw_memcmp(group_id.go_device_addr, adapter_mac_addr(padapter), ETH_ALEN)) {
++								/*	The p2p device sending this p2p invitation request wants this Wi-Fi device to be the persistent GO. */
++								rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_GO);
++								rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++								status_code = P2P_STATUS_SUCCESS;
++							} else {
++								/*	The p2p device sending this p2p invitation request wants to be the persistent GO. */
++								if (is_matched_in_profilelist(pwdinfo->p2p_peer_interface_addr, &pwdinfo->profileinfo[0])) {
++									u8 operatingch_info[5] = { 0x00 };
++									if (rtw_get_p2p_attr_content(merged_p2pie, merged_p2p_ielen, P2P_ATTR_OPERATING_CH, operatingch_info,
++										&attr_contentlen)) {
++										if (rtw_ch_set_search_ch(padapter->mlmeextpriv.channel_set, (u32)operatingch_info[4]) >= 0) {
++											/*	The operating channel is acceptable for this device. */
++											pwdinfo->rx_invitereq_info.operation_ch[0] = operatingch_info[4];
++#ifdef CONFIG_P2P_OP_CHK_SOCIAL_CH
++											pwdinfo->rx_invitereq_info.operation_ch[1] = 1;		/* Check whether GO is operating in channel 1; */
++											pwdinfo->rx_invitereq_info.operation_ch[2] = 6;		/* Check whether GO is operating in channel 6; */
++											pwdinfo->rx_invitereq_info.operation_ch[3] = 11;		/* Check whether GO is operating in channel 11; */
++#endif /* CONFIG_P2P_OP_CHK_SOCIAL_CH */
++											pwdinfo->rx_invitereq_info.scan_op_ch_only = 1;
++											_set_timer(&pwdinfo->reset_ch_sitesurvey, P2P_RESET_SCAN_CH);
++											rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_MATCH);
++											rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++											status_code = P2P_STATUS_SUCCESS;
++										} else {
++											/*	The operating channel isn't supported by this device. */
++											rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_DISMATCH);
++											rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++											status_code = P2P_STATUS_FAIL_NO_COMMON_CH;
++											_set_timer(&pwdinfo->restore_p2p_state_timer, 3000);
++										}
++									} else {
++										/*	Commented by Albert 20121130 */
++										/*	Intel will use the different P2P IE to store the operating channel information */
++										/*	Workaround for Intel WiDi 3.5 */
++										rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_MATCH);
++										rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++										status_code = P2P_STATUS_SUCCESS;
++									}
++								} else {
++									rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_DISMATCH);
++#ifdef CONFIG_INTEL_WIDI
++									_rtw_memcpy(pwdinfo->p2p_peer_device_addr, group_id.go_device_addr , ETH_ALEN);
++									rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++#endif /* CONFIG_INTEL_WIDI */
++
++									status_code = P2P_STATUS_FAIL_UNKNOWN_P2PGROUP;
++								}
++							}
++						} else {
++							RTW_INFO("[%s] P2P Group ID Attribute NOT FOUND!\n", __FUNCTION__);
++							status_code = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++						}
++					} else {
++						/*	Received the invitation to join a P2P group. */
++
++						_rtw_memset(&group_id, 0x00, sizeof(struct group_id_info));
++						rtw_get_p2p_attr_content(merged_p2pie, merged_p2p_ielen, P2P_ATTR_GROUP_ID, (u8 *) &group_id, &attr_contentlen);
++						if (attr_contentlen) {
++							if (_rtw_memcmp(group_id.go_device_addr, adapter_mac_addr(padapter), ETH_ALEN)) {
++								/*	In this case, the GO can't be myself. */
++								rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_DISMATCH);
++								status_code = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++							} else {
++								/*	The p2p device sending this p2p invitation request wants to join an existing P2P group */
++								/*	Commented by Albert 2012/06/28 */
++								/*	In this case, this Wi-Fi device should use the iwpriv command to get the peer device address. */
++								/*	The peer device address should be the destination address for the provisioning discovery request. */
++								/*	Then, this Wi-Fi device should use the iwpriv command to get the peer interface address. */
++								/*	The peer interface address should be the address for WPS mac address */
++								_rtw_memcpy(pwdinfo->p2p_peer_device_addr, group_id.go_device_addr , ETH_ALEN);
++								rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++								rtw_p2p_set_state(pwdinfo, P2P_STATE_RECV_INVITE_REQ_JOIN);
++								status_code = P2P_STATUS_SUCCESS;
++							}
++						} else {
++							RTW_INFO("[%s] P2P Group ID Attribute NOT FOUND!\n", __FUNCTION__);
++							status_code = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++						}
++					}
++				} else {
++					RTW_INFO("[%s] P2P Invitation Flags Attribute NOT FOUND!\n", __FUNCTION__);
++					status_code = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++				}
++
++				RTW_INFO("[%s] status_code = %d\n", __FUNCTION__, status_code);
++
++				pwdinfo->inviteresp_info.token = frame_body[7];
++				issue_p2p_invitation_response(padapter, GetAddr2Ptr(pframe), pwdinfo->inviteresp_info.token, status_code);
++				_set_timer(&pwdinfo->restore_p2p_state_timer, 3000);
++			}
++#ifdef CONFIG_INTEL_WIDI
++			if (padapter->mlmepriv.widi_state == INTEL_WIDI_STATE_LISTEN) {
++				padapter->mlmepriv.widi_state = INTEL_WIDI_STATE_WFD_CONNECTION;
++				_cancel_timer_ex(&(padapter->mlmepriv.listen_timer));
++				intel_widi_wk_cmd(padapter, INTEL_WIDI_LISTEN_STOP_WK, NULL, 0);
++			}
++#endif /* CONFIG_INTEL_WIDI */
++			break;
++		}
++		case P2P_INVIT_RESP: {
++			u8	attr_content = 0x00;
++			u32	attr_contentlen = 0;
++
++			RTW_INFO("[%s] Got invite response frame!\n", __FUNCTION__);
++			_cancel_timer_ex(&pwdinfo->restore_p2p_state_timer);
++			p2p_ie = rtw_get_p2p_ie(frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, NULL, &p2p_ielen);
++			if (p2p_ie) {
++				rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, &attr_content, &attr_contentlen);
++
++				if (attr_contentlen == 1) {
++					RTW_INFO("[%s] Status = %d\n", __FUNCTION__, attr_content);
++					pwdinfo->invitereq_info.benable = _FALSE;
++
++					if (attr_content == P2P_STATUS_SUCCESS) {
++						if (_rtw_memcmp(pwdinfo->invitereq_info.go_bssid, adapter_mac_addr(padapter), ETH_ALEN))
++							rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++						else
++							rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_RX_INVITE_RESP_OK);
++					} else {
++						rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_RX_INVITE_RESP_FAIL);
++					}
++				} else {
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++					rtw_p2p_set_state(pwdinfo, P2P_STATE_RX_INVITE_RESP_FAIL);
++				}
++			} else {
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++				rtw_p2p_set_state(pwdinfo, P2P_STATE_RX_INVITE_RESP_FAIL);
++			}
++
++			if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_RX_INVITE_RESP_FAIL))
++				_set_timer(&pwdinfo->restore_p2p_state_timer, 5000);
++			break;
++		}
++		case P2P_DEVDISC_REQ:
++
++			process_p2p_devdisc_req(pwdinfo, pframe, len);
++
++			break;
++
++		case P2P_DEVDISC_RESP:
++
++			process_p2p_devdisc_resp(pwdinfo, pframe, len);
++
++			break;
++
++		case P2P_PROVISION_DISC_REQ:
++			RTW_INFO("[%s] Got Provisioning Discovery Request Frame\n", __FUNCTION__);
++			process_p2p_provdisc_req(pwdinfo, pframe, len);
++			_rtw_memcpy(pwdinfo->rx_prov_disc_info.peerDevAddr, GetAddr2Ptr(pframe), ETH_ALEN);
++
++			/* 20110902 Kurt */
++			/* Add the following statement to avoid receiving duplicate prov disc req. such that pre_p2p_state would be covered. */
++			if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_RX_PROVISION_DIS_REQ))
++				rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_RX_PROVISION_DIS_REQ);
++			_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_PROVISION_TIMEOUT);
++#ifdef CONFIG_INTEL_WIDI
++			if (padapter->mlmepriv.widi_state == INTEL_WIDI_STATE_LISTEN) {
++				padapter->mlmepriv.widi_state = INTEL_WIDI_STATE_WFD_CONNECTION;
++				_cancel_timer_ex(&(padapter->mlmepriv.listen_timer));
++				intel_widi_wk_cmd(padapter, INTEL_WIDI_LISTEN_STOP_WK, NULL, 0);
++			}
++#endif /* CONFIG_INTEL_WIDI */
++			break;
++
++		case P2P_PROVISION_DISC_RESP:
++			/*	Commented by Albert 20110707 */
++			/*	Should we check the pwdinfo->tx_prov_disc_info.bsent flag here?? */
++			RTW_INFO("[%s] Got Provisioning Discovery Response Frame\n", __FUNCTION__);
++			/*	Commented by Albert 20110426 */
++			/*	The restore timer is enabled when issuing the provisioing request frame in rtw_p2p_prov_disc function. */
++			_cancel_timer_ex(&pwdinfo->restore_p2p_state_timer);
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_RX_PROVISION_DIS_RSP);
++			process_p2p_provdisc_resp(pwdinfo, pframe);
++			_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_PROVISION_TIMEOUT);
++			break;
++
++		}
++	}
++
++
++exit:
++
++	if (merged_p2pie)
++		rtw_mfree(merged_p2pie, merged_p2p_ielen + 2);
++#endif /* CONFIG_P2P */
++	return _SUCCESS;
++}
++
++unsigned int on_action_public_vendor(union recv_frame *precv_frame)
++{
++	unsigned int ret = _FAIL;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint frame_len = precv_frame->u.hdr.len;
++	u8 *frame_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	if (_rtw_memcmp(frame_body + 2, P2P_OUI, 4) == _TRUE) {
++		if (rtw_action_public_decache(precv_frame, 7) == _FAIL)
++			goto exit;
++
++		if (!hal_chk_wl_func(precv_frame->u.hdr.adapter, WL_FUNC_MIRACAST))
++			rtw_rframe_del_wfd_ie(precv_frame, 8);
++
++		ret = on_action_public_p2p(precv_frame);
++	}
++
++exit:
++	return ret;
++}
++
++unsigned int on_action_public_default(union recv_frame *precv_frame, u8 action)
++{
++	unsigned int ret = _FAIL;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint frame_len = precv_frame->u.hdr.len;
++	u8 *frame_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	u8 token;
++	_adapter *adapter = precv_frame->u.hdr.adapter;
++	int cnt = 0;
++	char msg[64];
++
++	token = frame_body[2];
++
++	if (rtw_action_public_decache(precv_frame, 2) == _FAIL)
++		goto exit;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	cnt += sprintf((msg + cnt), "%s(token:%u)", action_public_str(action), token);
++	rtw_cfg80211_rx_action(adapter, pframe, frame_len, msg);
++#endif
++
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++unsigned int on_action_public(_adapter *padapter, union recv_frame *precv_frame)
++{
++	unsigned int ret = _FAIL;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint frame_len = precv_frame->u.hdr.len;
++	u8 *frame_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	u8 category, action;
++
++	/* check RA matches or not */
++	if (!_rtw_memcmp(adapter_mac_addr(padapter), GetAddr1Ptr(pframe), ETH_ALEN))
++		goto exit;
++
++	category = frame_body[0];
++	if (category != RTW_WLAN_CATEGORY_PUBLIC)
++		goto exit;
++
++	action = frame_body[1];
++	switch (action) {
++	case ACT_PUBLIC_BSSCOEXIST:
++#ifdef CONFIG_80211N_HT
++#ifdef CONFIG_AP_MODE
++		/*20/40 BSS Coexistence Management frame is a Public Action frame*/
++		if (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE)
++			rtw_process_public_act_bsscoex(padapter, pframe, frame_len);
++#endif /*CONFIG_AP_MODE*/
++#endif /*CONFIG_80211N_HT*/
++		break;
++	case ACT_PUBLIC_VENDOR:
++		ret = on_action_public_vendor(precv_frame);
++		break;
++	default:
++		ret = on_action_public_default(precv_frame, action);
++		break;
++	}
++
++exit:
++	return ret;
++}
++
++unsigned int OnAction_ht(_adapter *padapter, union recv_frame *precv_frame)
++{
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint frame_len = precv_frame->u.hdr.len;
++	u8 *frame_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	u8 category, action;
++
++	/* check RA matches or not */
++	if (!_rtw_memcmp(adapter_mac_addr(padapter), GetAddr1Ptr(pframe), ETH_ALEN))
++		goto exit;
++
++	category = frame_body[0];
++	if (category != RTW_WLAN_CATEGORY_HT)
++		goto exit;
++
++	action = frame_body[1];
++	switch (action) {
++	case RTW_WLAN_ACTION_HT_SM_PS:
++#ifdef CONFIG_80211N_HT
++#ifdef CONFIG_AP_MODE
++		if (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE)
++			rtw_process_ht_action_smps(padapter, GetAddr2Ptr(pframe), frame_body[2]);
++#endif /*CONFIG_AP_MODE*/
++#endif /*CONFIG_80211N_HT*/
++		break;
++	case RTW_WLAN_ACTION_HT_COMPRESS_BEAMFORMING:
++#ifdef CONFIG_BEAMFORMING
++		/*RTW_INFO("RTW_WLAN_ACTION_HT_COMPRESS_BEAMFORMING\n");*/
++		beamforming_get_report_frame(padapter, precv_frame);
++#endif /*CONFIG_BEAMFORMING*/
++		break;
++	default:
++		break;
++	}
++
++exit:
++
++	return _SUCCESS;
++}
++
++#ifdef CONFIG_IEEE80211W
++unsigned int OnAction_sa_query(_adapter *padapter, union recv_frame *precv_frame)
++{
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct sta_info		*psta;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	u16 tid;
++	/* Baron */
++
++	RTW_INFO("OnAction_sa_query\n");
++
++	switch (pframe[WLAN_HDR_A3_LEN + 1]) {
++	case 0: /* SA Query req */
++		_rtw_memcpy(&tid, &pframe[WLAN_HDR_A3_LEN + 2], sizeof(u16));
++		RTW_INFO("OnAction_sa_query request,action=%d, tid=%04x, pframe=%02x-%02x\n"
++			, pframe[WLAN_HDR_A3_LEN + 1], tid, pframe[WLAN_HDR_A3_LEN + 2], pframe[WLAN_HDR_A3_LEN + 3]);
++		issue_action_SA_Query(padapter, GetAddr2Ptr(pframe), 1, tid, IEEE80211W_RIGHT_KEY);
++		break;
++
++	case 1: /* SA Query rsp */
++		psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++		if (psta != NULL)
++			_cancel_timer_ex(&psta->dot11w_expire_timer);
++
++		_rtw_memcpy(&tid, &pframe[WLAN_HDR_A3_LEN + 2], sizeof(u16));
++		RTW_INFO("OnAction_sa_query response,action=%d, tid=%04x, cancel timer\n", pframe[WLAN_HDR_A3_LEN + 1], tid);
++		break;
++	default:
++		break;
++	}
++	if (0) {
++		int pp;
++		printk("pattrib->pktlen = %d =>", pattrib->pkt_len);
++		for (pp = 0; pp < pattrib->pkt_len; pp++)
++			printk(" %02x ", pframe[pp]);
++		printk("\n");
++	}
++
++	return _SUCCESS;
++}
++#endif /* CONFIG_IEEE80211W */
++
++unsigned int OnAction_wmm(_adapter *padapter, union recv_frame *precv_frame)
++{
++	return _SUCCESS;
++}
++
++unsigned int OnAction_vht(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_80211AC_VHT
++	struct rx_pkt_attrib *prxattrib = &precv_frame->u.hdr.attrib;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint frame_len = precv_frame->u.hdr.len;
++	struct rtw_ieee80211_hdr_3addr *whdr = (struct rtw_ieee80211_hdr_3addr *)pframe;
++	u8 *frame_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	u8 category, action;
++	struct sta_info *psta = NULL;
++
++	/* check RA matches or not */
++	if (!_rtw_memcmp(adapter_mac_addr(padapter), GetAddr1Ptr(pframe), ETH_ALEN))
++		goto exit;
++
++	category = frame_body[0];
++	if (category != RTW_WLAN_CATEGORY_VHT)
++		goto exit;
++
++	action = frame_body[1];
++	switch (action) {
++	case RTW_WLAN_ACTION_VHT_COMPRESSED_BEAMFORMING:
++#ifdef CONFIG_BEAMFORMING
++		/*RTW_INFO("RTW_WLAN_ACTION_VHT_COMPRESSED_BEAMFORMING\n");*/
++		beamforming_get_report_frame(padapter, precv_frame);
++#endif /*CONFIG_BEAMFORMING*/
++		break;
++	case RTW_WLAN_ACTION_VHT_OPMODE_NOTIFICATION:
++		/* CategoryCode(1) + ActionCode(1) + OpModeNotification(1) */
++		/* RTW_INFO("RTW_WLAN_ACTION_VHT_OPMODE_NOTIFICATION\n"); */
++		psta = rtw_get_stainfo(&padapter->stapriv, whdr->addr2);
++		if (psta)
++			rtw_process_vht_op_mode_notify(padapter, &frame_body[2], psta);
++		break;
++	case RTW_WLAN_ACTION_VHT_GROUPID_MANAGEMENT:
++#ifdef CONFIG_BEAMFORMING
++		beamforming_get_vht_gid_mgnt_frame(padapter, precv_frame);
++#endif /* CONFIG_BEAMFORMING */
++		break;
++	default:
++		break;
++	}
++
++exit:
++#endif /* CONFIG_80211AC_VHT */
++
++	return _SUCCESS;
++}
++
++unsigned int OnAction_p2p(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_P2P
++	u8 *frame_body;
++	u8 category, OUI_Subtype, dialogToken = 0;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	uint len = precv_frame->u.hdr.len;
++	struct	wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	/* check RA matches or not */
++	if (!_rtw_memcmp(adapter_mac_addr(padapter), GetAddr1Ptr(pframe), ETH_ALEN))
++		return _SUCCESS;
++
++	frame_body = (unsigned char *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++	category = frame_body[0];
++	if (category != RTW_WLAN_CATEGORY_P2P)
++		return _SUCCESS;
++
++	if (cpu_to_be32(*((u32 *)(frame_body + 1))) != P2POUI)
++		return _SUCCESS;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (adapter_wdev_data(padapter)->p2p_enabled
++	    && pwdinfo->driver_interface == DRIVER_CFG80211
++	   ) {
++		rtw_cfg80211_rx_action_p2p(padapter, pframe, len);
++		return _SUCCESS;
++	} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++	{
++		len -= sizeof(struct rtw_ieee80211_hdr_3addr);
++		OUI_Subtype = frame_body[5];
++		dialogToken = frame_body[6];
++
++		switch (OUI_Subtype) {
++		case P2P_NOTICE_OF_ABSENCE:
++
++			break;
++
++		case P2P_PRESENCE_REQUEST:
++
++			process_p2p_presence_req(pwdinfo, pframe, len);
++
++			break;
++
++		case P2P_PRESENCE_RESPONSE:
++
++			break;
++
++		case P2P_GO_DISC_REQUEST:
++
++			break;
++
++		default:
++			break;
++
++		}
++	}
++#endif /* CONFIG_P2P */
++
++	return _SUCCESS;
++
++}
++
++unsigned int OnAction(_adapter *padapter, union recv_frame *precv_frame)
++{
++	int i;
++	unsigned char	category;
++	struct action_handler *ptable;
++	unsigned char	*frame_body;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++
++	frame_body = (unsigned char *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++	category = frame_body[0];
++
++	for (i = 0; i < sizeof(OnAction_tbl) / sizeof(struct action_handler); i++) {
++		ptable = &OnAction_tbl[i];
++
++		if (category == ptable->num)
++			ptable->func(padapter, precv_frame);
++
++	}
++
++	return _SUCCESS;
++
++}
++
++unsigned int DoReserved(_adapter *padapter, union recv_frame *precv_frame)
++{
++
++	/* RTW_INFO("rcvd mgt frame(%x, %x)\n", (GetFrameSubType(pframe) >> 4), *(unsigned int *)GetAddr1Ptr(pframe)); */
++	return _SUCCESS;
++}
++
++struct xmit_frame *_alloc_mgtxmitframe(struct xmit_priv *pxmitpriv, bool once)
++{
++	struct xmit_frame *pmgntframe;
++	struct xmit_buf *pxmitbuf;
++
++	if (once)
++		pmgntframe = rtw_alloc_xmitframe_once(pxmitpriv);
++	else
++		pmgntframe = rtw_alloc_xmitframe_ext(pxmitpriv);
++
++	if (pmgntframe == NULL) {
++		RTW_INFO(FUNC_ADPT_FMT" alloc xmitframe fail, once:%d\n", FUNC_ADPT_ARG(pxmitpriv->adapter), once);
++		goto exit;
++	}
++
++	pxmitbuf = rtw_alloc_xmitbuf_ext(pxmitpriv);
++	if (pxmitbuf == NULL) {
++		RTW_INFO(FUNC_ADPT_FMT" alloc xmitbuf fail\n", FUNC_ADPT_ARG(pxmitpriv->adapter));
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		pmgntframe = NULL;
++		goto exit;
++	}
++
++	pmgntframe->frame_tag = MGNT_FRAMETAG;
++	pmgntframe->pxmitbuf = pxmitbuf;
++	pmgntframe->buf_addr = pxmitbuf->pbuf;
++	pxmitbuf->priv_data = pmgntframe;
++
++exit:
++	return pmgntframe;
++
++}
++
++inline struct xmit_frame *alloc_mgtxmitframe(struct xmit_priv *pxmitpriv)
++{
++	return _alloc_mgtxmitframe(pxmitpriv, _FALSE);
++}
++
++inline struct xmit_frame *alloc_mgtxmitframe_once(struct xmit_priv *pxmitpriv)
++{
++	return _alloc_mgtxmitframe(pxmitpriv, _TRUE);
++}
++
++
++/****************************************************************************
++
++Following are some TX fuctions for WiFi MLME
++
++*****************************************************************************/
++
++void update_mgnt_tx_rate(_adapter *padapter, u8 rate)
++{
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++
++	pmlmeext->tx_rate = rate;
++	/* RTW_INFO("%s(): rate = %x\n",__FUNCTION__, rate); */
++}
++
++
++void update_monitor_frame_attrib(_adapter *padapter, struct pkt_attrib *pattrib)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	u8	wireless_mode;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct xmit_priv		*pxmitpriv = &padapter->xmitpriv;
++	struct sta_info		*psta = NULL;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct sta_info *pbcmc_sta = NULL;
++
++	psta = rtw_get_stainfo(pstapriv, pattrib->ra);
++	pbcmc_sta = rtw_get_bcmc_stainfo(padapter);
++
++	pattrib->hdrlen = 24;
++	pattrib->nr_frags = 1;
++	pattrib->priority = 7;
++
++	if (pbcmc_sta)
++		pattrib->mac_id = pbcmc_sta->mac_id;
++	else {
++		pattrib->mac_id = 0;
++		RTW_INFO("mgmt use mac_id 0 will affect RA\n");
++	}
++	pattrib->qsel = QSLT_MGNT;
++
++	pattrib->pktlen = 0;
++
++	if (pmlmeext->tx_rate == IEEE80211_CCK_RATE_1MB)
++		wireless_mode = WIRELESS_11B;
++	else
++		wireless_mode = WIRELESS_11G;
++
++	pattrib->raid = rtw_get_mgntframe_raid(padapter, wireless_mode);
++#ifdef CONFIG_80211AC_VHT
++	if (pHalData->rf_type == RF_1T1R)
++		pattrib->raid = RATEID_IDX_VHT_1SS;
++	else if (pHalData->rf_type == RF_2T2R || pHalData->rf_type == RF_2T4R)
++		pattrib->raid = RATEID_IDX_VHT_2SS;
++	else if (pHalData->rf_type == RF_3T3R)
++		pattrib->raid = RATEID_IDX_VHT_3SS;
++	else
++		pattrib->raid = RATEID_IDX_BGN_40M_1SS;
++#endif
++
++#ifdef CONFIG_80211AC_VHT
++	pattrib->rate = MGN_VHT1SS_MCS9;
++#else
++	pattrib->rate = MGN_MCS7;
++#endif
++
++	pattrib->encrypt = _NO_PRIVACY_;
++	pattrib->bswenc = _FALSE;
++
++	pattrib->qos_en = _FALSE;
++	pattrib->ht_en = 1;
++	pattrib->bwmode = CHANNEL_WIDTH_20;
++	pattrib->ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	pattrib->sgi = _FALSE;
++
++	pattrib->seqnum = pmlmeext->mgnt_seq;
++
++	pattrib->retry_ctrl = _TRUE;
++
++	pattrib->mbssid = 0;
++	pattrib->hw_ssn_sel = pxmitpriv->hw_ssn_seq_no;
++
++}
++
++
++void update_mgntframe_attrib(_adapter *padapter, struct pkt_attrib *pattrib)
++{
++	u8	wireless_mode;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct xmit_priv		*pxmitpriv = &padapter->xmitpriv;
++	struct sta_info *pbcmc_sta = NULL;
++	/* _rtw_memset((u8 *)(pattrib), 0, sizeof(struct pkt_attrib)); */
++
++	pbcmc_sta = rtw_get_bcmc_stainfo(padapter);
++
++	pattrib->hdrlen = 24;
++	pattrib->nr_frags = 1;
++	pattrib->priority = 7;
++
++	if (pbcmc_sta)
++		pattrib->mac_id = pbcmc_sta->mac_id;
++	else {
++		pattrib->mac_id = 1; /* use STA's BCMC sta-info macid */
++
++		if (MLME_IS_AP(padapter) || MLME_IS_GO(padapter))
++			RTW_INFO("%s-"ADPT_FMT" get bcmc sta_info fail,use MACID=1\n", __func__, ADPT_ARG(padapter));
++	}
++	pattrib->qsel = QSLT_MGNT;
++
++#ifdef CONFIG_MCC_MODE
++	update_mcc_mgntframe_attrib(padapter, pattrib);
++#endif
++
++	pattrib->pktlen = 0;
++
++	if (pmlmeext->tx_rate == IEEE80211_CCK_RATE_1MB)
++		wireless_mode = WIRELESS_11B;
++	else
++		wireless_mode = WIRELESS_11G;
++	pattrib->raid =  rtw_get_mgntframe_raid(padapter, wireless_mode);
++	pattrib->rate = pmlmeext->tx_rate;
++
++	pattrib->encrypt = _NO_PRIVACY_;
++	pattrib->bswenc = _FALSE;
++
++	pattrib->qos_en = _FALSE;
++	pattrib->ht_en = _FALSE;
++	pattrib->bwmode = CHANNEL_WIDTH_20;
++	pattrib->ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	pattrib->sgi = _FALSE;
++
++	pattrib->seqnum = pmlmeext->mgnt_seq;
++
++	pattrib->retry_ctrl = _TRUE;
++
++	pattrib->mbssid = 0;
++	pattrib->hw_ssn_sel = pxmitpriv->hw_ssn_seq_no;
++}
++
++void update_mgntframe_attrib_addr(_adapter *padapter, struct xmit_frame *pmgntframe)
++{
++	u8	*pframe;
++	struct pkt_attrib	*pattrib = &pmgntframe->attrib;
++#ifdef CONFIG_BEAMFORMING
++	struct sta_info		*sta = NULL;
++#endif /* CONFIG_BEAMFORMING */
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	_rtw_memcpy(pattrib->ra, GetAddr1Ptr(pframe), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, GetAddr2Ptr(pframe), ETH_ALEN);
++
++#ifdef CONFIG_BEAMFORMING
++	sta = pattrib->psta;
++	if (!sta) {
++		sta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++		pattrib->psta = sta;
++	}
++	if (sta)
++		update_attrib_txbf_info(padapter, pattrib, sta);
++#endif /* CONFIG_BEAMFORMING */
++}
++
++void dump_mgntframe(_adapter *padapter, struct xmit_frame *pmgntframe)
++{
++	if (RTW_CANNOT_RUN(padapter)) {
++		rtw_free_xmitbuf(&padapter->xmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(&padapter->xmitpriv, pmgntframe);
++		return;
++	}
++
++	rtw_hal_mgnt_xmit(padapter, pmgntframe);
++}
++
++s32 dump_mgntframe_and_wait(_adapter *padapter, struct xmit_frame *pmgntframe, int timeout_ms)
++{
++	s32 ret = _FAIL;
++	_irqL irqL;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct xmit_buf *pxmitbuf = pmgntframe->pxmitbuf;
++	struct submit_ctx sctx;
++
++	if (RTW_CANNOT_RUN(padapter)) {
++		rtw_free_xmitbuf(&padapter->xmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(&padapter->xmitpriv, pmgntframe);
++		return ret;
++	}
++
++	rtw_sctx_init(&sctx, timeout_ms);
++	pxmitbuf->sctx = &sctx;
++
++	ret = rtw_hal_mgnt_xmit(padapter, pmgntframe);
++
++	if (ret == _SUCCESS)
++		ret = rtw_sctx_wait(&sctx, __func__);
++
++	_enter_critical(&pxmitpriv->lock_sctx, &irqL);
++	pxmitbuf->sctx = NULL;
++	_exit_critical(&pxmitpriv->lock_sctx, &irqL);
++
++	return ret;
++}
++
++s32 dump_mgntframe_and_wait_ack_timeout(_adapter *padapter, struct xmit_frame *pmgntframe, int timeout_ms)
++{
++#ifdef CONFIG_XMIT_ACK
++	static u8 seq_no = 0;
++	s32 ret = _FAIL;
++	struct xmit_priv	*pxmitpriv = &(GET_PRIMARY_ADAPTER(padapter))->xmitpriv;
++
++	if (RTW_CANNOT_RUN(padapter)) {
++		rtw_free_xmitbuf(&padapter->xmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(&padapter->xmitpriv, pmgntframe);
++		return -1;
++	}
++
++	_enter_critical_mutex(&pxmitpriv->ack_tx_mutex, NULL);
++	pxmitpriv->ack_tx = _TRUE;
++	pxmitpriv->seq_no = seq_no++;
++	pmgntframe->ack_report = 1;
++	rtw_sctx_init(&(pxmitpriv->ack_tx_ops), timeout_ms);
++	if (rtw_hal_mgnt_xmit(padapter, pmgntframe) == _SUCCESS) {
++#ifdef CONFIG_XMIT_ACK_POLLING
++		ret = rtw_ack_tx_polling(pxmitpriv, timeout_ms);
++#else
++		ret = rtw_sctx_wait(&(pxmitpriv->ack_tx_ops), __func__);
++#endif
++	}
++
++	pxmitpriv->ack_tx = _FALSE;
++	_exit_critical_mutex(&pxmitpriv->ack_tx_mutex, NULL);
++
++	return ret;
++#else /* !CONFIG_XMIT_ACK */
++	dump_mgntframe(padapter, pmgntframe);
++	rtw_msleep_os(50);
++	return _SUCCESS;
++#endif /* !CONFIG_XMIT_ACK */
++}
++
++s32 dump_mgntframe_and_wait_ack(_adapter *padapter, struct xmit_frame *pmgntframe)
++{
++	/* In this case, use 500 ms as the default wait_ack timeout */
++	return dump_mgntframe_and_wait_ack_timeout(padapter, pmgntframe, 500);
++}
++
++
++int update_hidden_ssid(u8 *ies, u32 ies_len, u8 hidden_ssid_mode)
++{
++	u8 *ssid_ie;
++	sint ssid_len_ori;
++	int len_diff = 0;
++
++	ssid_ie = rtw_get_ie(ies,  WLAN_EID_SSID, &ssid_len_ori, ies_len);
++
++	/* RTW_INFO("%s hidden_ssid_mode:%u, ssid_ie:%p, ssid_len_ori:%d\n", __FUNCTION__, hidden_ssid_mode, ssid_ie, ssid_len_ori); */
++
++	if (ssid_ie && ssid_len_ori > 0) {
++		switch (hidden_ssid_mode) {
++		case 1: {
++			u8 *next_ie = ssid_ie + 2 + ssid_len_ori;
++			u32 remain_len = 0;
++
++			remain_len = ies_len - (next_ie - ies);
++
++			ssid_ie[1] = 0;
++			_rtw_memcpy(ssid_ie + 2, next_ie, remain_len);
++			len_diff -= ssid_len_ori;
++
++			break;
++		}
++		case 2:
++			_rtw_memset(&ssid_ie[2], 0, ssid_len_ori);
++			break;
++		default:
++			break;
++		}
++	}
++
++	return len_diff;
++}
++
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++u32 rtw_build_vendor_ie(_adapter *padapter , unsigned char *pframe , u8 mgmt_frame_tyte)
++{
++	int vendor_ie_num = 0;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	u32 len = 0;
++
++	for (vendor_ie_num = 0 ; vendor_ie_num < WLAN_MAX_VENDOR_IE_NUM ; vendor_ie_num++) {
++		if (pmlmepriv->vendor_ielen[vendor_ie_num] > 0 && pmlmepriv->vendor_ie_mask[vendor_ie_num] & mgmt_frame_tyte) {
++			_rtw_memcpy(pframe , pmlmepriv->vendor_ie[vendor_ie_num] , pmlmepriv->vendor_ielen[vendor_ie_num]);
++			pframe +=  pmlmepriv->vendor_ielen[vendor_ie_num];
++			len += pmlmepriv->vendor_ielen[vendor_ie_num];
++		}
++	}
++
++	return len;
++}
++#endif
++
++void issue_beacon(_adapter *padapter, int timeout_ms)
++{
++	struct xmit_frame	*pmgntframe;
++	struct pkt_attrib	*pattrib;
++	unsigned char	*pframe;
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	unsigned short *fctrl;
++	unsigned int	rate_len;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++#if defined(CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	_irqL irqL;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++#endif /* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++#ifdef CONFIG_BCN_ICF
++	pmgntframe = rtw_alloc_bcnxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++#else
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++#endif
++	{
++		RTW_INFO("%s, alloc mgnt frame fail\n", __FUNCTION__);
++		return;
++	}
++#if defined(CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	_enter_critical_bh(&pmlmepriv->bcn_update_lock, &irqL);
++#endif /* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++	pattrib->qsel = QSLT_BEACON;
++
++#if defined(CONFIG_CONCURRENT_MODE) && (!defined(CONFIG_SWTIMER_BASED_TXBCN))
++	if (padapter->hw_port == HW_PORT1)
++		pattrib->mbssid = 1;
++#endif
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(cur_network), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0/*pmlmeext->mgnt_seq*/);
++	/* pmlmeext->mgnt_seq++; */
++	SetFrameSubType(pframe, WIFI_BEACON);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) {
++		/* RTW_INFO("ie len=%d\n", cur_network->IELength); */
++#ifdef CONFIG_P2P
++		/* for P2P : Primary Device Type & Device Name */
++		u32 wpsielen = 0, insert_len = 0;
++		u8 *wpsie = NULL;
++		wpsie = rtw_get_wps_ie(cur_network->IEs + _FIXED_IE_LENGTH_, cur_network->IELength - _FIXED_IE_LENGTH_, NULL, &wpsielen);
++
++		if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO) && wpsie && wpsielen > 0) {
++			uint wps_offset, remainder_ielen;
++			u8 *premainder_ie, *pframe_wscie;
++
++			wps_offset = (uint)(wpsie - cur_network->IEs);
++
++			premainder_ie = wpsie + wpsielen;
++
++			remainder_ielen = cur_network->IELength - wps_offset - wpsielen;
++
++#ifdef CONFIG_IOCTL_CFG80211
++			if (adapter_wdev_data(padapter)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211) {
++				if (pmlmepriv->wps_beacon_ie && pmlmepriv->wps_beacon_ie_len > 0) {
++					_rtw_memcpy(pframe, cur_network->IEs, wps_offset);
++					pframe += wps_offset;
++					pattrib->pktlen += wps_offset;
++
++					_rtw_memcpy(pframe, pmlmepriv->wps_beacon_ie, pmlmepriv->wps_beacon_ie_len);
++					pframe += pmlmepriv->wps_beacon_ie_len;
++					pattrib->pktlen += pmlmepriv->wps_beacon_ie_len;
++
++					/* copy remainder_ie to pframe */
++					_rtw_memcpy(pframe, premainder_ie, remainder_ielen);
++					pframe += remainder_ielen;
++					pattrib->pktlen += remainder_ielen;
++				} else {
++					_rtw_memcpy(pframe, cur_network->IEs, cur_network->IELength);
++					pframe += cur_network->IELength;
++					pattrib->pktlen += cur_network->IELength;
++				}
++			} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++			{
++				pframe_wscie = pframe + wps_offset;
++				_rtw_memcpy(pframe, cur_network->IEs, wps_offset + wpsielen);
++				pframe += (wps_offset + wpsielen);
++				pattrib->pktlen += (wps_offset + wpsielen);
++
++				/* now pframe is end of wsc ie, insert Primary Device Type & Device Name */
++				/*	Primary Device Type */
++				/*	Type: */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(WPS_ATTR_PRIMARY_DEV_TYPE);
++				insert_len += 2;
++
++				/*	Length: */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(0x0008);
++				insert_len += 2;
++
++				/*	Value: */
++				/*	Category ID */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(WPS_PDT_CID_MULIT_MEDIA);
++				insert_len += 2;
++
++				/*	OUI */
++				*(u32 *)(pframe + insert_len) = cpu_to_be32(WPSOUI);
++				insert_len += 4;
++
++				/*	Sub Category ID */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(WPS_PDT_SCID_MEDIA_SERVER);
++				insert_len += 2;
++
++
++				/*	Device Name */
++				/*	Type: */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++				insert_len += 2;
++
++				/*	Length: */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(pwdinfo->device_name_len);
++				insert_len += 2;
++
++				/*	Value: */
++				_rtw_memcpy(pframe + insert_len, pwdinfo->device_name, pwdinfo->device_name_len);
++				insert_len += pwdinfo->device_name_len;
++
++
++				/* update wsc ie length */
++				*(pframe_wscie + 1) = (wpsielen - 2) + insert_len;
++
++				/* pframe move to end */
++				pframe += insert_len;
++				pattrib->pktlen += insert_len;
++
++				/* copy remainder_ie to pframe */
++				_rtw_memcpy(pframe, premainder_ie, remainder_ielen);
++				pframe += remainder_ielen;
++				pattrib->pktlen += remainder_ielen;
++			}
++		} else
++#endif /* CONFIG_P2P */
++		{
++			int len_diff;
++			_rtw_memcpy(pframe, cur_network->IEs, cur_network->IELength);
++			len_diff = update_hidden_ssid(
++					   pframe + _BEACON_IE_OFFSET_
++				   , cur_network->IELength - _BEACON_IE_OFFSET_
++					   , pmlmeinfo->hidden_ssid_mode
++				   );
++			pframe += (cur_network->IELength + len_diff);
++			pattrib->pktlen += (cur_network->IELength + len_diff);
++		}
++
++		{
++			u8 *wps_ie;
++			uint wps_ielen;
++			u8 sr = 0;
++			wps_ie = rtw_get_wps_ie(pmgntframe->buf_addr + TXDESC_OFFSET + sizeof(struct rtw_ieee80211_hdr_3addr) + _BEACON_IE_OFFSET_,
++				pattrib->pktlen - sizeof(struct rtw_ieee80211_hdr_3addr) - _BEACON_IE_OFFSET_, NULL, &wps_ielen);
++			if (wps_ie && wps_ielen > 0)
++				rtw_get_wps_attr_content(wps_ie,  wps_ielen, WPS_ATTR_SELECTED_REGISTRAR, (u8 *)(&sr), NULL);
++			if (sr != 0)
++				set_fwstate(pmlmepriv, WIFI_UNDER_WPS);
++			else
++				_clr_fwstate_(pmlmepriv, WIFI_UNDER_WPS);
++		}
++
++#ifdef CONFIG_P2P
++		if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++			u32 len;
++#ifdef CONFIG_IOCTL_CFG80211
++			if (adapter_wdev_data(padapter)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211) {
++				len = pmlmepriv->p2p_beacon_ie_len;
++				if (pmlmepriv->p2p_beacon_ie && len > 0)
++					_rtw_memcpy(pframe, pmlmepriv->p2p_beacon_ie, len);
++			} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++			{
++				len = build_beacon_p2p_ie(pwdinfo, pframe);
++			}
++
++			pframe += len;
++			pattrib->pktlen += len;
++
++#ifdef CONFIG_WFD
++			len = rtw_append_beacon_wfd_ie(padapter, pframe);
++			pframe += len;
++			pattrib->pktlen += len;
++#endif
++		}
++#endif /* CONFIG_P2P */
++
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++		pattrib->pktlen += rtw_build_vendor_ie(padapter , pframe , WIFI_BEACON_VENDOR_IE_BIT);
++#endif
++		goto _issue_bcn;
++
++	}
++
++	/* below for ad-hoc mode */
++
++	/* timestamp will be inserted by hardware */
++	pframe += 8;
++	pattrib->pktlen += 8;
++
++	/* beacon interval: 2 bytes */
++
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_beacon_interval_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++	/* capability info: 2 bytes */
++
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_capability_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++	/* SSID */
++	pframe = rtw_set_ie(pframe, _SSID_IE_, cur_network->Ssid.SsidLength, cur_network->Ssid.Ssid, &pattrib->pktlen);
++
++	/* supported rates... */
++	rate_len = rtw_get_rateset_len(cur_network->SupportedRates);
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, ((rate_len > 8) ? 8 : rate_len), cur_network->SupportedRates, &pattrib->pktlen);
++
++	/* DS parameter set */
++	pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&(cur_network->Configuration.DSConfig), &pattrib->pktlen);
++
++	/* if( (pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE) */
++	{
++		u8 erpinfo = 0;
++		u32 ATIMWindow;
++		/* IBSS Parameter Set... */
++		/* ATIMWindow = cur->Configuration.ATIMWindow; */
++		ATIMWindow = 0;
++		pframe = rtw_set_ie(pframe, _IBSS_PARA_IE_, 2, (unsigned char *)(&ATIMWindow), &pattrib->pktlen);
++
++		/* ERP IE */
++		pframe = rtw_set_ie(pframe, _ERPINFO_IE_, 1, &erpinfo, &pattrib->pktlen);
++	}
++
++
++	/* EXTERNDED SUPPORTED RATE */
++	if (rate_len > 8)
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_, (rate_len - 8), (cur_network->SupportedRates + 8), &pattrib->pktlen);
++
++
++	/* todo:HT for adhoc */
++
++_issue_bcn:
++
++#if defined(CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	pmlmepriv->update_bcn = _FALSE;
++
++	_exit_critical_bh(&pmlmepriv->bcn_update_lock, &irqL);
++#endif /* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++
++	if ((pattrib->pktlen + TXDESC_SIZE) > 512) {
++		RTW_INFO("beacon frame too large\n");
++		return;
++	}
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	/* RTW_INFO("issue bcn_sz=%d\n", pattrib->last_txcmdsz); */
++	if (timeout_ms > 0)
++		dump_mgntframe_and_wait(padapter, pmgntframe, timeout_ms);
++	else
++		dump_mgntframe(padapter, pmgntframe);
++
++}
++
++void issue_probersp(_adapter *padapter, unsigned char *da, u8 is_valid_p2p_probereq)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	unsigned char					*mac, *bssid;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++#if defined(CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	u8 *pwps_ie;
++	uint wps_ielen;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++#endif /* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++	unsigned int	rate_len;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++#endif /* CONFIG_P2P */
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	if (da == NULL)
++		return;
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		return;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL) {
++		RTW_INFO("%s, alloc mgnt frame fail\n", __FUNCTION__);
++		return;
++	}
++
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	mac = adapter_mac_addr(padapter);
++	bssid = cur_network->MacAddress;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, mac, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, bssid, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(fctrl, WIFI_PROBERSP);
++
++	pattrib->hdrlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = pattrib->hdrlen;
++	pframe += pattrib->hdrlen;
++
++
++	if (cur_network->IELength > MAX_IE_SZ)
++		return;
++
++#if defined(CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) {
++		pwps_ie = rtw_get_wps_ie(cur_network->IEs + _FIXED_IE_LENGTH_, cur_network->IELength - _FIXED_IE_LENGTH_, NULL, &wps_ielen);
++
++		/* inerset & update wps_probe_resp_ie */
++		if ((pmlmepriv->wps_probe_resp_ie != NULL) && pwps_ie && (wps_ielen > 0)) {
++			uint wps_offset, remainder_ielen;
++			u8 *premainder_ie;
++
++			wps_offset = (uint)(pwps_ie - cur_network->IEs);
++
++			premainder_ie = pwps_ie + wps_ielen;
++
++			remainder_ielen = cur_network->IELength - wps_offset - wps_ielen;
++
++			_rtw_memcpy(pframe, cur_network->IEs, wps_offset);
++			pframe += wps_offset;
++			pattrib->pktlen += wps_offset;
++
++			wps_ielen = (uint)pmlmepriv->wps_probe_resp_ie[1];/* to get ie data len */
++			if ((wps_offset + wps_ielen + 2) <= MAX_IE_SZ) {
++				_rtw_memcpy(pframe, pmlmepriv->wps_probe_resp_ie, wps_ielen + 2);
++				pframe += wps_ielen + 2;
++				pattrib->pktlen += wps_ielen + 2;
++			}
++
++			if ((wps_offset + wps_ielen + 2 + remainder_ielen) <= MAX_IE_SZ) {
++				_rtw_memcpy(pframe, premainder_ie, remainder_ielen);
++				pframe += remainder_ielen;
++				pattrib->pktlen += remainder_ielen;
++			}
++		} else {
++			_rtw_memcpy(pframe, cur_network->IEs, cur_network->IELength);
++			pframe += cur_network->IELength;
++			pattrib->pktlen += cur_network->IELength;
++		}
++
++		/* retrieve SSID IE from cur_network->Ssid */
++		{
++			u8 *ssid_ie;
++			sint ssid_ielen;
++			sint ssid_ielen_diff;
++			u8 buf[MAX_IE_SZ];
++			u8 *ies = pmgntframe->buf_addr + TXDESC_OFFSET + sizeof(struct rtw_ieee80211_hdr_3addr);
++
++			ssid_ie = rtw_get_ie(ies + _FIXED_IE_LENGTH_, _SSID_IE_, &ssid_ielen,
++				     (pframe - ies) - _FIXED_IE_LENGTH_);
++
++			ssid_ielen_diff = cur_network->Ssid.SsidLength - ssid_ielen;
++
++			if (ssid_ie &&  cur_network->Ssid.SsidLength) {
++				uint remainder_ielen;
++				u8 *remainder_ie;
++				remainder_ie = ssid_ie + 2;
++				remainder_ielen = (pframe - remainder_ie);
++
++				if (remainder_ielen > MAX_IE_SZ) {
++					RTW_WARN(FUNC_ADPT_FMT" remainder_ielen > MAX_IE_SZ\n", FUNC_ADPT_ARG(padapter));
++					remainder_ielen = MAX_IE_SZ;
++				}
++
++				_rtw_memcpy(buf, remainder_ie, remainder_ielen);
++				_rtw_memcpy(remainder_ie + ssid_ielen_diff, buf, remainder_ielen);
++				*(ssid_ie + 1) = cur_network->Ssid.SsidLength;
++				_rtw_memcpy(ssid_ie + 2, cur_network->Ssid.Ssid, cur_network->Ssid.SsidLength);
++
++				pframe += ssid_ielen_diff;
++				pattrib->pktlen += ssid_ielen_diff;
++			}
++		}
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++		pattrib->pktlen += rtw_build_vendor_ie(padapter , pframe , WIFI_PROBERESP_VENDOR_IE_BIT);
++#endif
++	} else
++#endif
++	{
++
++		/* timestamp will be inserted by hardware */
++		pframe += 8;
++		pattrib->pktlen += 8;
++
++		/* beacon interval: 2 bytes */
++
++		_rtw_memcpy(pframe, (unsigned char *)(rtw_get_beacon_interval_from_ie(cur_network->IEs)), 2);
++
++		pframe += 2;
++		pattrib->pktlen += 2;
++
++		/* capability info: 2 bytes */
++
++		_rtw_memcpy(pframe, (unsigned char *)(rtw_get_capability_from_ie(cur_network->IEs)), 2);
++
++		pframe += 2;
++		pattrib->pktlen += 2;
++
++		/* below for ad-hoc mode */
++
++		/* SSID */
++		pframe = rtw_set_ie(pframe, _SSID_IE_, cur_network->Ssid.SsidLength, cur_network->Ssid.Ssid, &pattrib->pktlen);
++
++		/* supported rates... */
++		rate_len = rtw_get_rateset_len(cur_network->SupportedRates);
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, ((rate_len > 8) ? 8 : rate_len), cur_network->SupportedRates, &pattrib->pktlen);
++
++		/* DS parameter set */
++		pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&(cur_network->Configuration.DSConfig), &pattrib->pktlen);
++
++		if ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) {
++			u8 erpinfo = 0;
++			u32 ATIMWindow;
++			/* IBSS Parameter Set... */
++			/* ATIMWindow = cur->Configuration.ATIMWindow; */
++			ATIMWindow = 0;
++			pframe = rtw_set_ie(pframe, _IBSS_PARA_IE_, 2, (unsigned char *)(&ATIMWindow), &pattrib->pktlen);
++
++			/* ERP IE */
++			pframe = rtw_set_ie(pframe, _ERPINFO_IE_, 1, &erpinfo, &pattrib->pktlen);
++		}
++
++
++		/* EXTERNDED SUPPORTED RATE */
++		if (rate_len > 8)
++			pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_, (rate_len - 8), (cur_network->SupportedRates + 8), &pattrib->pktlen);
++
++
++		/* todo:HT for adhoc */
++
++	}
++
++#ifdef CONFIG_P2P
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)
++	    /* IOT issue, When wifi_spec is not set, send probe_resp with P2P IE even if probe_req has no P2P IE */
++	    && (is_valid_p2p_probereq || !padapter->registrypriv.wifi_spec)) {
++		u32 len;
++#ifdef CONFIG_IOCTL_CFG80211
++		if (adapter_wdev_data(padapter)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211) {
++			/* if pwdinfo->role == P2P_ROLE_DEVICE will call issue_probersp_p2p() */
++			len = pmlmepriv->p2p_go_probe_resp_ie_len;
++			if (pmlmepriv->p2p_go_probe_resp_ie && len > 0)
++				_rtw_memcpy(pframe, pmlmepriv->p2p_go_probe_resp_ie, len);
++		} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++		{
++			len = build_probe_resp_p2p_ie(pwdinfo, pframe);
++		}
++
++		pframe += len;
++		pattrib->pktlen += len;
++
++#ifdef CONFIG_WFD
++		len = rtw_append_probe_resp_wfd_ie(padapter, pframe);
++		pframe += len;
++		pattrib->pktlen += len;
++#endif
++	}
++#endif /* CONFIG_P2P */
++
++
++#ifdef CONFIG_AUTO_AP_MODE
++	{
++		struct sta_info	*psta;
++		struct sta_priv *pstapriv = &padapter->stapriv;
++
++		RTW_INFO("(%s)\n", __FUNCTION__);
++
++		/* check rc station */
++		psta = rtw_get_stainfo(pstapriv, da);
++		if (psta && psta->isrc && psta->pid > 0) {
++			u8 RC_OUI[4] = {0x00, 0xE0, 0x4C, 0x0A};
++			u8 RC_INFO[14] = {0};
++			/* EID[1] + EID_LEN[1] + RC_OUI[4] + MAC[6] + PairingID[2] + ChannelNum[2] */
++			u16 cu_ch = (u16)cur_network->Configuration.DSConfig;
++
++			RTW_INFO("%s, reply rc(pid=0x%x) device "MAC_FMT" in ch=%d\n", __FUNCTION__,
++				 psta->pid, MAC_ARG(psta->hwaddr), cu_ch);
++
++			/* append vendor specific ie */
++			_rtw_memcpy(RC_INFO, RC_OUI, sizeof(RC_OUI));
++			_rtw_memcpy(&RC_INFO[4], mac, ETH_ALEN);
++			_rtw_memcpy(&RC_INFO[10], (u8 *)&psta->pid, 2);
++			_rtw_memcpy(&RC_INFO[12], (u8 *)&cu_ch, 2);
++
++			pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, sizeof(RC_INFO), RC_INFO, &pattrib->pktlen);
++		}
++	}
++#endif /* CONFIG_AUTO_AP_MODE */
++
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++int _issue_probereq(_adapter *padapter, NDIS_802_11_SSID *pssid, u8 *da, u8 ch, bool append_wps, int wait_ack)
++{
++	int ret = _FAIL;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	unsigned char			*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short		*fctrl;
++	unsigned char			*mac;
++	unsigned char			bssrate[NumRates];
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	int	bssrate_len = 0;
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	mac = adapter_mac_addr(padapter);
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	if (da) {
++		/*	unicast probe request frame */
++		_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, da, ETH_ALEN);
++	} else {
++		/*	broadcast probe request frame */
++		_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, bc_addr, ETH_ALEN);
++	}
++
++	_rtw_memcpy(pwlanhdr->addr2, mac, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_PROBEREQ);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	if (pssid)
++		pframe = rtw_set_ie(pframe, _SSID_IE_, pssid->SsidLength, pssid->Ssid, &(pattrib->pktlen));
++	else
++		pframe = rtw_set_ie(pframe, _SSID_IE_, 0, NULL, &(pattrib->pktlen));
++
++	get_rate_set(padapter, bssrate, &bssrate_len);
++
++	if (bssrate_len > 8) {
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , 8, bssrate, &(pattrib->pktlen));
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_ , (bssrate_len - 8), (bssrate + 8), &(pattrib->pktlen));
++	} else
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , bssrate_len , bssrate, &(pattrib->pktlen));
++
++	if (ch)
++		pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, &ch, &pattrib->pktlen);
++
++	if (append_wps) {
++		/* add wps_ie for wps2.0 */
++		if (pmlmepriv->wps_probe_req_ie_len > 0 && pmlmepriv->wps_probe_req_ie) {
++			_rtw_memcpy(pframe, pmlmepriv->wps_probe_req_ie, pmlmepriv->wps_probe_req_ie_len);
++			pframe += pmlmepriv->wps_probe_req_ie_len;
++			pattrib->pktlen += pmlmepriv->wps_probe_req_ie_len;
++			/* pmlmepriv->wps_probe_req_ie_len = 0 ; */ /* reset to zero */
++		}
++	}
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++	pattrib->pktlen += rtw_build_vendor_ie(padapter , pframe , WIFI_PROBEREQ_VENDOR_IE_BIT);
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++	return ret;
++}
++
++inline void issue_probereq(_adapter *padapter, NDIS_802_11_SSID *pssid, u8 *da)
++{
++	_issue_probereq(padapter, pssid, da, 0, 1, _FALSE);
++}
++
++/*
++ * wait_ms == 0 means that there is no need to wait ack through C2H_CCX_TX_RPT
++ * wait_ms > 0 means you want to wait ack through C2H_CCX_TX_RPT, and the value of wait_ms means the interval between each TX
++ * try_cnt means the maximal TX count to try
++ */
++int issue_probereq_ex(_adapter *padapter, NDIS_802_11_SSID *pssid, u8 *da, u8 ch, bool append_wps,
++		      int try_cnt, int wait_ms)
++{
++	int ret = _FAIL;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	do {
++		ret = _issue_probereq(padapter, pssid, da, ch, append_wps, wait_ms > 0 ? _TRUE : _FALSE);
++
++		i++;
++
++		if (RTW_CANNOT_RUN(padapter))
++			break;
++
++		if (i < try_cnt && wait_ms > 0 && ret == _FAIL)
++			rtw_msleep_os(wait_ms);
++
++	} while ((i < try_cnt) && ((ret == _FAIL) || (wait_ms == 0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++#ifndef DBG_XMIT_ACK
++		goto exit;
++#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		if (da)
++			RTW_INFO(FUNC_ADPT_FMT" to "MAC_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), MAC_ARG(da), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++		else
++			RTW_INFO(FUNC_ADPT_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++	return ret;
++}
++
++/* if psta == NULL, indiate we are station(client) now... */
++void issue_auth(_adapter *padapter, struct sta_info *psta, unsigned short status)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	unsigned int					val32;
++	unsigned short				val16;
++	int use_shared_key = 0;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		return;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_AUTH);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++
++	if (psta) { /* for AP mode */
++#ifdef CONFIG_NATIVEAP_MLME
++
++		_rtw_memcpy(pwlanhdr->addr1, psta->hwaddr, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++
++
++		/* setting auth algo number */
++		val16 = (u16)psta->authalg;
++
++		if (status != _STATS_SUCCESSFUL_)
++			val16 = 0;
++
++		if (val16)	{
++			val16 = cpu_to_le16(val16);
++			use_shared_key = 1;
++		}
++
++		pframe = rtw_set_fixed_ie(pframe, _AUTH_ALGM_NUM_, (unsigned char *)&val16, &(pattrib->pktlen));
++
++		/* setting auth seq number */
++		val16 = (u16)psta->auth_seq;
++		val16 = cpu_to_le16(val16);
++		pframe = rtw_set_fixed_ie(pframe, _AUTH_SEQ_NUM_, (unsigned char *)&val16, &(pattrib->pktlen));
++
++		/* setting status code... */
++		val16 = status;
++		val16 = cpu_to_le16(val16);
++		pframe = rtw_set_fixed_ie(pframe, _STATUS_CODE_, (unsigned char *)&val16, &(pattrib->pktlen));
++
++		/* added challenging text... */
++		if ((psta->auth_seq == 2) && (psta->state & WIFI_FW_AUTH_STATE) && (use_shared_key == 1))
++			pframe = rtw_set_ie(pframe, _CHLGETXT_IE_, 128, psta->chg_txt, &(pattrib->pktlen));
++#endif
++	} else {
++		_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&pmlmeinfo->network), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&pmlmeinfo->network), ETH_ALEN);
++
++		/* setting auth algo number		 */
++		val16 = (pmlmeinfo->auth_algo == dot11AuthAlgrthm_Shared) ? 1 : 0; /* 0:OPEN System, 1:Shared key */
++		if (val16)	{
++			val16 = cpu_to_le16(val16);
++			use_shared_key = 1;
++		}
++		/* RTW_INFO("%s auth_algo= %s auth_seq=%d\n",__FUNCTION__,(pmlmeinfo->auth_algo==0)?"OPEN":"SHARED",pmlmeinfo->auth_seq); */
++
++		/* setting IV for auth seq #3 */
++		if ((pmlmeinfo->auth_seq == 3) && (pmlmeinfo->state & WIFI_FW_AUTH_STATE) && (use_shared_key == 1)) {
++			/* RTW_INFO("==> iv(%d),key_index(%d)\n",pmlmeinfo->iv,pmlmeinfo->key_index); */
++			val32 = ((pmlmeinfo->iv++) | (pmlmeinfo->key_index << 30));
++			val32 = cpu_to_le32(val32);
++			pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *)&val32, &(pattrib->pktlen));
++
++			pattrib->iv_len = 4;
++		}
++
++		pframe = rtw_set_fixed_ie(pframe, _AUTH_ALGM_NUM_, (unsigned char *)&val16, &(pattrib->pktlen));
++
++		/* setting auth seq number */
++		val16 = pmlmeinfo->auth_seq;
++		val16 = cpu_to_le16(val16);
++		pframe = rtw_set_fixed_ie(pframe, _AUTH_SEQ_NUM_, (unsigned char *)&val16, &(pattrib->pktlen));
++
++
++		/* setting status code... */
++		val16 = status;
++		val16 = cpu_to_le16(val16);
++		pframe = rtw_set_fixed_ie(pframe, _STATUS_CODE_, (unsigned char *)&val16, &(pattrib->pktlen));
++
++		/* then checking to see if sending challenging text... */
++		if ((pmlmeinfo->auth_seq == 3) && (pmlmeinfo->state & WIFI_FW_AUTH_STATE) && (use_shared_key == 1)) {
++			pframe = rtw_set_ie(pframe, _CHLGETXT_IE_, 128, pmlmeinfo->chg_txt, &(pattrib->pktlen));
++
++			SetPrivacy(fctrl);
++
++			pattrib->hdrlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++			pattrib->encrypt = _WEP40_;
++
++			pattrib->icv_len = 4;
++
++			pattrib->pktlen += pattrib->icv_len;
++
++		}
++
++	}
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	rtw_wep_encrypt(padapter, (u8 *)pmgntframe);
++	RTW_INFO("%s\n", __FUNCTION__);
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++}
++
++
++void issue_asocrsp(_adapter *padapter, unsigned short status, struct sta_info *pstat, int pkt_type)
++{
++#ifdef CONFIG_AP_MODE
++	struct xmit_frame	*pmgntframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct pkt_attrib *pattrib;
++	unsigned char	*pbuf, *pframe;
++	unsigned short val, ie_status;
++	unsigned short *fctrl;
++	struct xmit_priv *pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork = &(pmlmeinfo->network);
++	u8 *ie = pnetwork->IEs;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++#endif /* CONFIG_P2P */
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		return;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy((void *)GetAddr1Ptr(pwlanhdr), pstat->hwaddr, ETH_ALEN);
++	_rtw_memcpy((void *)GetAddr2Ptr(pwlanhdr), adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy((void *)GetAddr3Ptr(pwlanhdr), get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	if ((pkt_type == WIFI_ASSOCRSP) || (pkt_type == WIFI_REASSOCRSP))
++		SetFrameSubType(pwlanhdr, pkt_type);
++	else
++		return;
++
++	pattrib->hdrlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen += pattrib->hdrlen;
++	pframe += pattrib->hdrlen;
++
++	/* capability */
++	val = *(unsigned short *)rtw_get_capability_from_ie(ie);
++
++	pframe = rtw_set_fixed_ie(pframe, _CAPABILITY_ , (unsigned char *)&val, &(pattrib->pktlen));
++
++	ie_status = cpu_to_le16(status);
++	pframe = rtw_set_fixed_ie(pframe , _STATUS_CODE_ , (unsigned char *)&ie_status, &(pattrib->pktlen));
++
++	val = cpu_to_le16(pstat->aid | BIT(14) | BIT(15));
++	pframe = rtw_set_fixed_ie(pframe, _ASOC_ID_ , (unsigned char *)&val, &(pattrib->pktlen));
++
++	if (pstat->bssratelen <= 8)
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, pstat->bssratelen, pstat->bssrateset, &(pattrib->pktlen));
++	else {
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, 8, pstat->bssrateset, &(pattrib->pktlen));
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_, (pstat->bssratelen - 8), pstat->bssrateset + 8, &(pattrib->pktlen));
++	}
++
++#ifdef CONFIG_IEEE80211W
++	if (status == _STATS_REFUSED_TEMPORARILY_) {
++		u8 timeout_itvl[5];
++		u32 timeout_interval = 3000;
++		/* Association Comeback time */
++		timeout_itvl[0] = 0x03;
++		timeout_interval = cpu_to_le32(timeout_interval);
++		_rtw_memcpy(timeout_itvl + 1, &timeout_interval, 4);
++		pframe = rtw_set_ie(pframe, _TIMEOUT_ITVL_IE_, 5, timeout_itvl, &(pattrib->pktlen));
++	}
++#endif /* CONFIG_IEEE80211W */
++
++#ifdef CONFIG_80211N_HT
++	if ((pstat->flags & WLAN_STA_HT) && (pmlmepriv->htpriv.ht_option)) {
++		uint ie_len = 0;
++
++		/* FILL HT CAP INFO IE */
++		/* p = hostapd_eid_ht_capabilities_info(hapd, p); */
++		pbuf = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _HT_CAPABILITY_IE_, &ie_len, (pnetwork->IELength - _BEACON_IE_OFFSET_));
++		if (pbuf && ie_len > 0) {
++			_rtw_memcpy(pframe, pbuf, ie_len + 2);
++			pframe += (ie_len + 2);
++			pattrib->pktlen += (ie_len + 2);
++		}
++
++		/* FILL HT ADD INFO IE */
++		/* p = hostapd_eid_ht_operation(hapd, p); */
++		pbuf = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _HT_ADD_INFO_IE_, &ie_len, (pnetwork->IELength - _BEACON_IE_OFFSET_));
++		if (pbuf && ie_len > 0) {
++			_rtw_memcpy(pframe, pbuf, ie_len + 2);
++			pframe += (ie_len + 2);
++			pattrib->pktlen += (ie_len + 2);
++		}
++
++	}
++#endif
++
++	/*adding EXT_CAPAB_IE */
++	if (pmlmepriv->ext_capab_ie_len > 0) {
++		uint ie_len = 0;
++
++		pbuf = rtw_get_ie(ie + _BEACON_IE_OFFSET_, _EXT_CAP_IE_, &ie_len, (pnetwork->IELength - _BEACON_IE_OFFSET_));
++		if (pbuf && ie_len > 0) {
++			_rtw_memcpy(pframe, pbuf, ie_len + 2);
++			pframe += (ie_len + 2);
++			pattrib->pktlen += (ie_len + 2);
++		}
++	}
++
++#ifdef CONFIG_80211AC_VHT
++	if ((pstat->flags & WLAN_STA_VHT) && (pmlmepriv->vhtpriv.vht_option)
++	    && (pstat->wpa_pairwise_cipher != WPA_CIPHER_TKIP)
++	    && (pstat->wpa2_pairwise_cipher != WPA_CIPHER_TKIP)) {
++		u32 ie_len = 0;
++
++		/* FILL VHT CAP IE */
++		pbuf = rtw_get_ie(ie + _BEACON_IE_OFFSET_, EID_VHTCapability, &ie_len, (pnetwork->IELength - _BEACON_IE_OFFSET_));
++		if (pbuf && ie_len > 0) {
++			_rtw_memcpy(pframe, pbuf, ie_len + 2);
++			pframe += (ie_len + 2);
++			pattrib->pktlen += (ie_len + 2);
++		}
++
++		/* FILL VHT OPERATION IE */
++		pbuf = rtw_get_ie(ie + _BEACON_IE_OFFSET_, EID_VHTOperation, &ie_len, (pnetwork->IELength - _BEACON_IE_OFFSET_));
++		if (pbuf && ie_len > 0) {
++			_rtw_memcpy(pframe, pbuf, ie_len + 2);
++			pframe += (ie_len + 2);
++			pattrib->pktlen += (ie_len + 2);
++		}
++	}
++#endif /* CONFIG_80211AC_VHT */
++
++	/* FILL WMM IE */
++	if ((pstat->flags & WLAN_STA_WME) && (pmlmepriv->qospriv.qos_option)) {
++		uint ie_len = 0;
++		unsigned char WMM_PARA_IE[] = {0x00, 0x50, 0xf2, 0x02, 0x01, 0x01};
++
++		for (pbuf = ie + _BEACON_IE_OFFSET_; ; pbuf += (ie_len + 2)) {
++			pbuf = rtw_get_ie(pbuf, _VENDOR_SPECIFIC_IE_, &ie_len, (pnetwork->IELength - _BEACON_IE_OFFSET_ - (ie_len + 2)));
++			if (pbuf && _rtw_memcmp(pbuf + 2, WMM_PARA_IE, 6)) {
++				_rtw_memcpy(pframe, pbuf, ie_len + 2);
++				pframe += (ie_len + 2);
++				pattrib->pktlen += (ie_len + 2);
++
++				break;
++			}
++
++			if ((pbuf == NULL) || (ie_len == 0))
++				break;
++		}
++
++	}
++
++
++	if (pmlmeinfo->assoc_AP_vendor == HT_IOT_PEER_REALTEK)
++		pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, 6 , REALTEK_96B_IE, &(pattrib->pktlen));
++
++	/* add WPS IE ie for wps 2.0 */
++	if (pmlmepriv->wps_assoc_resp_ie && pmlmepriv->wps_assoc_resp_ie_len > 0) {
++		_rtw_memcpy(pframe, pmlmepriv->wps_assoc_resp_ie, pmlmepriv->wps_assoc_resp_ie_len);
++
++		pframe += pmlmepriv->wps_assoc_resp_ie_len;
++		pattrib->pktlen += pmlmepriv->wps_assoc_resp_ie_len;
++	}
++
++#ifdef CONFIG_P2P
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO) && (pstat->is_p2p_device == _TRUE)) {
++		u32 len;
++
++		if (padapter->wdinfo.driver_interface == DRIVER_CFG80211) {
++			len = 0;
++			if (pmlmepriv->p2p_assoc_resp_ie && pmlmepriv->p2p_assoc_resp_ie_len > 0) {
++				len = pmlmepriv->p2p_assoc_resp_ie_len;
++				_rtw_memcpy(pframe, pmlmepriv->p2p_assoc_resp_ie, len);
++			}
++		} else
++			len = build_assoc_resp_p2p_ie(pwdinfo, pframe, pstat->p2p_status_code);
++		pframe += len;
++		pattrib->pktlen += len;
++	}
++
++#ifdef CONFIG_WFD
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		wfdielen = rtw_append_assoc_resp_wfd_ie(padapter, pframe);
++		pframe += wfdielen;
++		pattrib->pktlen += wfdielen;
++	}
++#endif
++
++#endif /* CONFIG_P2P */
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++	pattrib->pktlen += rtw_build_vendor_ie(padapter , pframe , WIFI_ASSOCRESP_VENDOR_IE_BIT);
++#endif
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++#endif
++}
++
++void issue_assocreq(_adapter *padapter)
++{
++	int ret = _FAIL;
++	struct xmit_frame				*pmgntframe;
++	struct pkt_attrib				*pattrib;
++	unsigned char					*pframe, *p;
++	struct rtw_ieee80211_hdr			*pwlanhdr;
++	unsigned short				*fctrl;
++	unsigned short				val16;
++	unsigned int					i, j, ie_len, index = 0;
++	unsigned char					rf_type, bssrate[NumRates], sta_bssrate[NumRates];
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	int	bssrate_len = 0, sta_bssrate_len = 0;
++	u8	vs_ie_length = 0;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8					p2pie[255] = { 0x00 };
++	u16					p2pielen = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++#endif /* CONFIG_P2P */
++
++#ifdef CONFIG_DFS
++	u16	cap;
++
++	/* Dot H */
++	u8 pow_cap_ele[2] = { 0x00 };
++	u8 sup_ch[30 * 2] = {0x00 }, sup_ch_idx = 0, idx_5g = 2;	/* For supported channel */
++#endif /* CONFIG_DFS */
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ASSOCREQ);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	/* caps */
++
++#ifdef CONFIG_DFS
++	_rtw_memcpy(&cap, rtw_get_capability_from_ie(pmlmeinfo->network.IEs), 2);
++	cap |= cap_SpecMgmt;
++	_rtw_memcpy(pframe, &cap, 2);
++#else
++	_rtw_memcpy(pframe, rtw_get_capability_from_ie(pmlmeinfo->network.IEs), 2);
++#endif /* CONFIG_DFS */
++
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++	/* listen interval */
++	/* todo: listen interval for power saving */
++	val16 = cpu_to_le16(3);
++	_rtw_memcpy(pframe , (unsigned char *)&val16, 2);
++	pframe += 2;
++	pattrib->pktlen += 2;
++
++	/* SSID */
++	pframe = rtw_set_ie(pframe, _SSID_IE_,  pmlmeinfo->network.Ssid.SsidLength, pmlmeinfo->network.Ssid.Ssid, &(pattrib->pktlen));
++
++#ifdef CONFIG_DFS
++	/* Dot H */
++	if (pmlmeext->cur_channel > 14) {
++		pow_cap_ele[0] = 13;	/* Minimum transmit power capability */
++		pow_cap_ele[1] = 21;	/* Maximum transmit power capability */
++		pframe = rtw_set_ie(pframe, EID_PowerCap, 2, pow_cap_ele, &(pattrib->pktlen));
++
++		/* supported channels */
++		do {
++			if (pmlmeext->channel_set[sup_ch_idx].ChannelNum <= 14) {
++				sup_ch[0] = 1;	/* First channel number */
++				sup_ch[1] = pmlmeext->channel_set[sup_ch_idx].ChannelNum;	/* Number of channel */
++			} else {
++				sup_ch[idx_5g++] = pmlmeext->channel_set[sup_ch_idx].ChannelNum;
++				sup_ch[idx_5g++] = 1;
++			}
++			sup_ch_idx++;
++		} while (pmlmeext->channel_set[sup_ch_idx].ChannelNum != 0);
++		pframe = rtw_set_ie(pframe, EID_SupportedChannels, idx_5g, sup_ch, &(pattrib->pktlen));
++	}
++#endif /* CONFIG_DFS */
++
++	/* supported rate & extended supported rate */
++
++#if 1	/* Check if the AP's supported rates are also supported by STA. */
++	get_rate_set(padapter, sta_bssrate, &sta_bssrate_len);
++	/* RTW_INFO("sta_bssrate_len=%d\n", sta_bssrate_len); */
++
++	if (pmlmeext->cur_channel == 14) /* for JAPAN, channel 14 can only uses B Mode(CCK) */
++		sta_bssrate_len = 4;
++
++
++	/* for (i = 0; i < sta_bssrate_len; i++) { */
++	/*	RTW_INFO("sta_bssrate[%d]=%02X\n", i, sta_bssrate[i]); */
++	/* } */
++
++	for (i = 0; i < NDIS_802_11_LENGTH_RATES_EX; i++) {
++		if (pmlmeinfo->network.SupportedRates[i] == 0)
++			break;
++		RTW_INFO("network.SupportedRates[%d]=%02X\n", i, pmlmeinfo->network.SupportedRates[i]);
++	}
++
++
++	for (i = 0; i < NDIS_802_11_LENGTH_RATES_EX; i++) {
++		if (pmlmeinfo->network.SupportedRates[i] == 0)
++			break;
++
++
++		/* Check if the AP's supported rates are also supported by STA. */
++		for (j = 0; j < sta_bssrate_len; j++) {
++			/* Avoid the proprietary data rate (22Mbps) of Handlink WSG-4000 AP */
++			if ((pmlmeinfo->network.SupportedRates[i] | IEEE80211_BASIC_RATE_MASK)
++			    == (sta_bssrate[j] | IEEE80211_BASIC_RATE_MASK)) {
++				/* RTW_INFO("match i = %d, j=%d\n", i, j); */
++				break;
++			} else {
++				/* RTW_INFO("not match: %02X != %02X\n", (pmlmeinfo->network.SupportedRates[i]|IEEE80211_BASIC_RATE_MASK), (sta_bssrate[j]|IEEE80211_BASIC_RATE_MASK)); */
++			}
++		}
++
++		if (j == sta_bssrate_len) {
++			/* the rate is not supported by STA */
++			RTW_INFO("%s(): the rate[%d]=%02X is not supported by STA!\n", __FUNCTION__, i, pmlmeinfo->network.SupportedRates[i]);
++		} else {
++			/* the rate is supported by STA */
++			bssrate[index++] = pmlmeinfo->network.SupportedRates[i];
++		}
++	}
++
++	bssrate_len = index;
++	RTW_INFO("bssrate_len = %d\n", bssrate_len);
++
++#else	/* Check if the AP's supported rates are also supported by STA. */
++#if 0
++	get_rate_set(padapter, bssrate, &bssrate_len);
++#else
++	for (bssrate_len = 0; bssrate_len < NumRates; bssrate_len++) {
++		if (pmlmeinfo->network.SupportedRates[bssrate_len] == 0)
++			break;
++
++		if (pmlmeinfo->network.SupportedRates[bssrate_len] == 0x2C) /* Avoid the proprietary data rate (22Mbps) of Handlink WSG-4000 AP */
++			break;
++
++		bssrate[bssrate_len] = pmlmeinfo->network.SupportedRates[bssrate_len];
++	}
++#endif
++#endif /* Check if the AP's supported rates are also supported by STA. */
++
++	if ((bssrate_len == 0) && (pmlmeinfo->network.SupportedRates[0] != 0)) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit; /* don't connect to AP if no joint supported rate */
++	}
++
++
++	if (bssrate_len > 8) {
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , 8, bssrate, &(pattrib->pktlen));
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_ , (bssrate_len - 8), (bssrate + 8), &(pattrib->pktlen));
++	} else if (bssrate_len > 0)
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , bssrate_len , bssrate, &(pattrib->pktlen));
++	else
++		RTW_INFO("%s: Connect to AP without 11b and 11g data rate!\n", __FUNCTION__);
++
++	/* vendor specific IE, such as WPA, WMM, WPS */
++	for (i = sizeof(NDIS_802_11_FIXED_IEs); i < pmlmeinfo->network.IELength;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pmlmeinfo->network.IEs + i);
++
++		switch (pIE->ElementID) {
++		case _VENDOR_SPECIFIC_IE_:
++			if ((_rtw_memcmp(pIE->data, RTW_WPA_OUI, 4)) ||
++			    (_rtw_memcmp(pIE->data, WMM_OUI, 4)) ||
++			    (_rtw_memcmp(pIE->data, WPS_OUI, 4))) {
++				vs_ie_length = pIE->Length;
++				if ((!padapter->registrypriv.wifi_spec) && (_rtw_memcmp(pIE->data, WPS_OUI, 4))) {
++					/* Commented by Kurt 20110629 */
++					/* In some older APs, WPS handshake */
++					/* would be fail if we append vender extensions informations to AP */
++
++					vs_ie_length = 14;
++				}
++
++				pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, vs_ie_length, pIE->data, &(pattrib->pktlen));
++			}
++			break;
++
++		case EID_WPA2:
++			pframe = rtw_set_ie(pframe, EID_WPA2, pIE->Length, pIE->data, &(pattrib->pktlen));
++			break;
++#ifdef CONFIG_80211N_HT
++		case EID_HTCapability:
++			if (padapter->mlmepriv.htpriv.ht_option == _TRUE) {
++				if (!(is_ap_in_tkip(padapter))) {
++					_rtw_memcpy(&(pmlmeinfo->HT_caps), pIE->data, sizeof(struct HT_caps_element));
++
++					pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info = cpu_to_le16(pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info);
++
++					pframe = rtw_set_ie(pframe, EID_HTCapability, pIE->Length , (u8 *)(&(pmlmeinfo->HT_caps)), &(pattrib->pktlen));
++				}
++			}
++			break;
++
++		case EID_EXTCapability:
++			if (padapter->mlmepriv.htpriv.ht_option == _TRUE)
++				pframe = rtw_set_ie(pframe, EID_EXTCapability, pIE->Length, pIE->data, &(pattrib->pktlen));
++			break;
++#endif /* CONFIG_80211N_HT */
++#ifdef CONFIG_80211AC_VHT
++		case EID_VHTCapability:
++			if (padapter->mlmepriv.vhtpriv.vht_option == _TRUE)
++				pframe = rtw_set_ie(pframe, EID_VHTCapability, pIE->Length, pIE->data, &(pattrib->pktlen));
++			break;
++
++		case EID_OpModeNotification:
++			if (padapter->mlmepriv.vhtpriv.vht_option == _TRUE)
++				pframe = rtw_set_ie(pframe, EID_OpModeNotification, pIE->Length, pIE->data, &(pattrib->pktlen));
++			break;
++#endif /* CONFIG_80211AC_VHT */
++		default:
++			break;
++		}
++
++		i += (pIE->Length + 2);
++	}
++
++	if (pmlmeinfo->assoc_AP_vendor == HT_IOT_PEER_REALTEK)
++		pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, 6 , REALTEK_96B_IE, &(pattrib->pktlen));
++
++
++#ifdef CONFIG_WAPI_SUPPORT
++	rtw_build_assoc_req_wapi_ie(padapter, pframe, pattrib);
++#endif
++
++
++#ifdef CONFIG_P2P
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (adapter_wdev_data(padapter)->p2p_enabled && pwdinfo->driver_interface == DRIVER_CFG80211) {
++		if (pmlmepriv->p2p_assoc_req_ie && pmlmepriv->p2p_assoc_req_ie_len > 0) {
++			_rtw_memcpy(pframe, pmlmepriv->p2p_assoc_req_ie, pmlmepriv->p2p_assoc_req_ie_len);
++			pframe += pmlmepriv->p2p_assoc_req_ie_len;
++			pattrib->pktlen += pmlmepriv->p2p_assoc_req_ie_len;
++		}
++	} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++	{
++		if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE) && !rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE)) {
++			/*	Should add the P2P IE in the association request frame.	 */
++			/*	P2P OUI */
++
++			p2pielen = 0;
++			p2pie[p2pielen++] = 0x50;
++			p2pie[p2pielen++] = 0x6F;
++			p2pie[p2pielen++] = 0x9A;
++			p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++			/*	Commented by Albert 20101109 */
++			/*	According to the P2P Specification, the association request frame should contain 3 P2P attributes */
++			/*	1. P2P Capability */
++			/*	2. Extended Listen Timing */
++			/*	3. Device Info */
++			/*	Commented by Albert 20110516 */
++			/*	4. P2P Interface */
++
++			/*	P2P Capability */
++			/*	Type: */
++			p2pie[p2pielen++] = P2P_ATTR_CAPABILITY;
++
++			/*	Length: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++			p2pielen += 2;
++
++			/*	Value: */
++			/*	Device Capability Bitmap, 1 byte */
++			p2pie[p2pielen++] = DMP_P2P_DEVCAP_SUPPORT;
++
++			/*	Group Capability Bitmap, 1 byte */
++			if (pwdinfo->persistent_supported)
++				p2pie[p2pielen++] = P2P_GRPCAP_PERSISTENT_GROUP | DMP_P2P_GRPCAP_SUPPORT;
++			else
++				p2pie[p2pielen++] = DMP_P2P_GRPCAP_SUPPORT;
++
++			/*	Extended Listen Timing */
++			/*	Type: */
++			p2pie[p2pielen++] = P2P_ATTR_EX_LISTEN_TIMING;
++
++			/*	Length: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0004);
++			p2pielen += 2;
++
++			/*	Value: */
++			/*	Availability Period */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0xFFFF);
++			p2pielen += 2;
++
++			/*	Availability Interval */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0xFFFF);
++			p2pielen += 2;
++
++			/*	Device Info */
++			/*	Type: */
++			p2pie[p2pielen++] = P2P_ATTR_DEVICE_INFO;
++
++			/*	Length: */
++			/*	21->P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes)  */
++			/*	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes) */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(21 + pwdinfo->device_name_len);
++			p2pielen += 2;
++
++			/*	Value: */
++			/*	P2P Device Address */
++			_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++			p2pielen += ETH_ALEN;
++
++			/*	Config Method */
++			/*	This field should be big endian. Noted by P2P specification. */
++			if ((pwdinfo->ui_got_wps_info == P2P_GOT_WPSINFO_PEER_DISPLAY_PIN) ||
++			    (pwdinfo->ui_got_wps_info == P2P_GOT_WPSINFO_SELF_DISPLAY_PIN))
++				*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_CONFIG_METHOD_DISPLAY);
++			else
++				*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_CONFIG_METHOD_PBC);
++
++			p2pielen += 2;
++
++			/*	Primary Device Type */
++			/*	Category ID */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_CID_MULIT_MEDIA);
++			p2pielen += 2;
++
++			/*	OUI */
++			*(u32 *)(p2pie + p2pielen) = cpu_to_be32(WPSOUI);
++			p2pielen += 4;
++
++			/*	Sub Category ID */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_SCID_MEDIA_SERVER);
++			p2pielen += 2;
++
++			/*	Number of Secondary Device Types */
++			p2pie[p2pielen++] = 0x00;	/*	No Secondary Device Type List */
++
++			/*	Device Name */
++			/*	Type: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++			p2pielen += 2;
++
++			/*	Length: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_be16(pwdinfo->device_name_len);
++			p2pielen += 2;
++
++			/*	Value: */
++			_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_name, pwdinfo->device_name_len);
++			p2pielen += pwdinfo->device_name_len;
++
++			/*	P2P Interface */
++			/*	Type: */
++			p2pie[p2pielen++] = P2P_ATTR_INTERFACE;
++
++			/*	Length: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x000D);
++			p2pielen += 2;
++
++			/*	Value: */
++			_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_addr, ETH_ALEN);	/*	P2P Device Address */
++			p2pielen += ETH_ALEN;
++
++			p2pie[p2pielen++] = 1;	/*	P2P Interface Address Count */
++
++			_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_addr, ETH_ALEN);	/*	P2P Interface Address List */
++			p2pielen += ETH_ALEN;
++
++			pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pattrib->pktlen);
++		}
++	}
++
++#endif /* CONFIG_P2P */
++
++#ifdef CONFIG_WFD
++	wfdielen = rtw_append_assoc_req_wfd_ie(padapter, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++	pattrib->pktlen += rtw_build_vendor_ie(padapter , pframe , WIFI_ASSOCREQ_VENDOR_IE_BIT);
++#endif
++	pattrib->last_txcmdsz = pattrib->pktlen;
++	dump_mgntframe(padapter, pmgntframe);
++
++	ret = _SUCCESS;
++
++exit:
++	if (ret == _SUCCESS)
++		rtw_buf_update(&pmlmepriv->assoc_req, &pmlmepriv->assoc_req_len, (u8 *)pwlanhdr, pattrib->pktlen);
++	else
++		rtw_buf_free(&pmlmepriv->assoc_req, &pmlmepriv->assoc_req_len);
++
++	return;
++}
++
++/* when wait_ack is ture, this function shoule be called at process context */
++static int _issue_nulldata(_adapter *padapter, unsigned char *da, unsigned int power_mode, int wait_ack)
++{
++	int ret = _FAIL;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv	*pxmitpriv;
++	struct mlme_ext_priv	*pmlmeext;
++	struct mlme_ext_info	*pmlmeinfo;
++
++	/* RTW_INFO("%s:%d\n", __FUNCTION__, power_mode); */
++
++	if (!padapter)
++		goto exit;
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	pxmitpriv = &(padapter->xmitpriv);
++	pmlmeext = &(padapter->mlmeextpriv);
++	pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++	pattrib->retry_ctrl = _FALSE;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE)
++		SetFrDs(fctrl);
++	else if ((pmlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE)
++		SetToDs(fctrl);
++
++	if (power_mode)
++		SetPwrMgt(fctrl);
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_DATA_NULL);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++	return ret;
++}
++
++/*
++ * [IMPORTANT] Don't call this function in interrupt context
++ *
++ * When wait_ms > 0, this function should be called at process context
++ * wait_ms == 0 means that there is no need to wait ack through C2H_CCX_TX_RPT
++ * wait_ms > 0 means you want to wait ack through C2H_CCX_TX_RPT, and the value of wait_ms means the interval between each TX
++ * try_cnt means the maximal TX count to try
++ * da == NULL for station mode
++ */
++int issue_nulldata(_adapter *padapter, unsigned char *da, unsigned int power_mode, int try_cnt, int wait_ms)
++{
++	int ret = _FAIL;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_info *psta;
++	u8 macid_sleep_reg_access = _TRUE;
++
++#ifdef CONFIG_MCC_MODE
++	if (MCC_EN(padapter)) {
++		/* driver doesn't access macid sleep reg under MCC */
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)) {
++			macid_sleep_reg_access = _FALSE;
++
++			if (da == NULL) {
++				RTW_INFO("Warning: Do not tx null data to AP under MCC mode\n");
++				rtw_warn_on(1);
++			}
++
++		}
++	}
++#endif
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	/* da == NULL, assum it's null data for sta to ap*/
++	if (da == NULL)
++		da = get_my_bssid(&(pmlmeinfo->network));
++
++	psta = rtw_get_stainfo(&padapter->stapriv, da);
++	if (psta) {
++		if (macid_sleep_reg_access) {
++			if (power_mode)
++				rtw_hal_macid_sleep(padapter, psta->mac_id);
++			else
++				rtw_hal_macid_wakeup(padapter, psta->mac_id);
++		}
++	} else {
++		RTW_INFO(FUNC_ADPT_FMT ": Can't find sta info for " MAC_FMT ", skip macid %s!!\n",
++			FUNC_ADPT_ARG(padapter), MAC_ARG(da), power_mode ? "sleep" : "wakeup");
++		rtw_warn_on(1);
++	}
++
++	do {
++		ret = _issue_nulldata(padapter, da, power_mode, wait_ms > 0 ? _TRUE : _FALSE);
++
++		i++;
++
++		if (RTW_CANNOT_RUN(padapter))
++			break;
++
++		if (i < try_cnt && wait_ms > 0 && ret == _FAIL)
++			rtw_msleep_os(wait_ms);
++
++	} while ((i < try_cnt) && ((ret == _FAIL) || (wait_ms == 0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++#ifndef DBG_XMIT_ACK
++		goto exit;
++#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		if (da)
++			RTW_INFO(FUNC_ADPT_FMT" to "MAC_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), MAC_ARG(da), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++		else
++			RTW_INFO(FUNC_ADPT_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++	return ret;
++}
++
++/*
++ * [IMPORTANT] This function run in interrupt context
++ *
++ * The null data packet would be sent without power bit,
++ * and not guarantee success.
++ */
++s32 issue_nulldata_in_interrupt(PADAPTER padapter, u8 *da, unsigned int power_mode)
++{
++	int ret;
++	struct mlme_ext_priv *pmlmeext;
++	struct mlme_ext_info *pmlmeinfo;
++
++
++	pmlmeext = &padapter->mlmeextpriv;
++	pmlmeinfo = &pmlmeext->mlmext_info;
++
++	/* da == NULL, assum it's null data for sta to ap*/
++	if (da == NULL)
++		da = get_my_bssid(&(pmlmeinfo->network));
++
++	ret = _issue_nulldata(padapter, da, power_mode, _FALSE);
++
++	return ret;
++}
++
++/* when wait_ack is ture, this function shoule be called at process context */
++static int _issue_qos_nulldata(_adapter *padapter, unsigned char *da, u16 tid, int wait_ack)
++{
++	int ret = _FAIL;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl, *qc;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	pattrib->hdrlen += 2;
++	pattrib->qos_en = _TRUE;
++	pattrib->eosp = 1;
++	pattrib->ack_policy = 0;
++	pattrib->mdata = 0;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE)
++		SetFrDs(fctrl);
++	else if ((pmlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE)
++		SetToDs(fctrl);
++
++	if (pattrib->mdata)
++		SetMData(fctrl);
++
++	qc = (unsigned short *)(pframe + pattrib->hdrlen - 2);
++
++	SetPriority(qc, tid);
++
++	SetEOSP(qc, pattrib->eosp);
++
++	SetAckpolicy(qc, pattrib->ack_policy);
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_QOS_DATA_NULL);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr_qos);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr_qos);
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++	return ret;
++}
++
++/*
++ * when wait_ms >0 , this function should be called at process context
++ * wait_ms == 0 means that there is no need to wait ack through C2H_CCX_TX_RPT
++ * wait_ms > 0 means you want to wait ack through C2H_CCX_TX_RPT, and the value of wait_ms means the interval between each TX
++ * try_cnt means the maximal TX count to try
++ * da == NULL for station mode
++ */
++int issue_qos_nulldata(_adapter *padapter, unsigned char *da, u16 tid, int try_cnt, int wait_ms)
++{
++	int ret = _FAIL;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	/* da == NULL, assum it's null data for sta to ap*/
++	if (da == NULL)
++		da = get_my_bssid(&(pmlmeinfo->network));
++
++	do {
++		ret = _issue_qos_nulldata(padapter, da, tid, wait_ms > 0 ? _TRUE : _FALSE);
++
++		i++;
++
++		if (RTW_CANNOT_RUN(padapter))
++			break;
++
++		if (i < try_cnt && wait_ms > 0 && ret == _FAIL)
++			rtw_msleep_os(wait_ms);
++
++	} while ((i < try_cnt) && ((ret == _FAIL) || (wait_ms == 0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++#ifndef DBG_XMIT_ACK
++		goto exit;
++#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		if (da)
++			RTW_INFO(FUNC_ADPT_FMT" to "MAC_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), MAC_ARG(da), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++		else
++			RTW_INFO(FUNC_ADPT_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++	return ret;
++}
++
++static int _issue_deauth(_adapter *padapter, unsigned char *da, unsigned short reason, u8 wait_ack, u8 key_type)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	int ret = _FAIL;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P	 */
++
++	/* RTW_INFO("%s to "MAC_FMT"\n", __func__, MAC_ARG(da)); */
++
++#ifdef CONFIG_P2P
++	if (!(rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) && (pwdinfo->rx_invitereq_info.scan_op_ch_only)) {
++		_cancel_timer_ex(&pwdinfo->reset_ch_sitesurvey);
++		_set_timer(&pwdinfo->reset_ch_sitesurvey, 10);
++	}
++#endif /* CONFIG_P2P */
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++	pattrib->retry_ctrl = _FALSE;
++	pattrib->key_type = key_type;
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_DEAUTH);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	reason = cpu_to_le16(reason);
++	pframe = rtw_set_fixed_ie(pframe, _RSON_CODE_ , (unsigned char *)&reason, &(pattrib->pktlen));
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++	return ret;
++}
++
++int issue_deauth(_adapter *padapter, unsigned char *da, unsigned short reason)
++{
++	RTW_INFO("%s to "MAC_FMT"\n", __func__, MAC_ARG(da));
++	return _issue_deauth(padapter, da, reason, _FALSE, IEEE80211W_RIGHT_KEY);
++}
++
++#ifdef CONFIG_IEEE80211W
++int issue_deauth_11w(_adapter *padapter, unsigned char *da, unsigned short reason, u8 key_type)
++{
++	RTW_INFO("%s to "MAC_FMT"\n", __func__, MAC_ARG(da));
++	return _issue_deauth(padapter, da, reason, _FALSE, key_type);
++}
++#endif /* CONFIG_IEEE80211W */
++
++/*
++ * wait_ms == 0 means that there is no need to wait ack through C2H_CCX_TX_RPT
++ * wait_ms > 0 means you want to wait ack through C2H_CCX_TX_RPT, and the value of wait_ms means the interval between each TX
++ * try_cnt means the maximal TX count to try
++ */
++int issue_deauth_ex(_adapter *padapter, u8 *da, unsigned short reason, int try_cnt,
++		    int wait_ms)
++{
++	int ret = _FAIL;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	do {
++		ret = _issue_deauth(padapter, da, reason, wait_ms > 0 ? _TRUE : _FALSE, IEEE80211W_RIGHT_KEY);
++
++		i++;
++
++		if (RTW_CANNOT_RUN(padapter))
++			break;
++
++		if (i < try_cnt && wait_ms > 0 && ret == _FAIL)
++			rtw_msleep_os(wait_ms);
++
++	} while ((i < try_cnt) && ((ret == _FAIL) || (wait_ms == 0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++#ifndef DBG_XMIT_ACK
++		goto exit;
++#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		if (da)
++			RTW_INFO(FUNC_ADPT_FMT" to "MAC_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), MAC_ARG(da), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++		else
++			RTW_INFO(FUNC_ADPT_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++	return ret;
++}
++
++void issue_action_spct_ch_switch(_adapter *padapter, u8 *ra, u8 new_ch, u8 ch_offset)
++{
++	_irqL	irqL;
++	_list		*plist, *phead;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char				*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short			*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		return;
++
++	RTW_INFO(FUNC_NDEV_FMT" ra="MAC_FMT", ch:%u, offset:%u\n",
++		FUNC_NDEV_ARG(padapter->pnetdev), MAC_ARG(ra), new_ch, ch_offset);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, ra, ETH_ALEN); /* RA */
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN); /* TA */
++	_rtw_memcpy(pwlanhdr->addr3, ra, ETH_ALEN); /* DA = RA */
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	/* category, action */
++	{
++		u8 category, action;
++		category = RTW_WLAN_CATEGORY_SPECTRUM_MGMT;
++		action = RTW_WLAN_ACTION_SPCT_CHL_SWITCH;
++
++		pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++		pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	}
++
++	pframe = rtw_set_ie_ch_switch(pframe, &(pattrib->pktlen), 0, new_ch, 0);
++	pframe = rtw_set_ie_secondary_ch_offset(pframe, &(pattrib->pktlen),
++			hal_ch_offset_to_secondary_ch_offset(ch_offset));
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++}
++
++#ifdef CONFIG_IEEE80211W
++void issue_action_SA_Query(_adapter *padapter, unsigned char *raddr, unsigned char action, unsigned short tid, u8 key_type)
++{
++	u8	category = RTW_WLAN_CATEGORY_SA_QUERY;
++	u16	reason_code;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	u8					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_info		*psta;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct registry_priv		*pregpriv = &padapter->registrypriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		return;
++
++	RTW_INFO("%s, %04x\n", __FUNCTION__, tid);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL) {
++		RTW_INFO("%s: alloc_mgtxmitframe fail\n", __FUNCTION__);
++		return;
++	}
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++	pattrib->key_type = key_type;
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	if (raddr)
++		_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	else
++		_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &category, &pattrib->pktlen);
++	pframe = rtw_set_fixed_ie(pframe, 1, &action, &pattrib->pktlen);
++
++	switch (action) {
++	case 0: /* SA Query req */
++		pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)&pmlmeext->sa_query_seq, &pattrib->pktlen);
++		pmlmeext->sa_query_seq++;
++		/* send sa query request to AP, AP should reply sa query response in 1 second */
++		if (pattrib->key_type == IEEE80211W_RIGHT_KEY) {
++			psta = rtw_get_stainfo(pstapriv, raddr);
++			if (psta != NULL) {
++				/* RTW_INFO("%s, %d, set dot11w_expire_timer\n", __func__, __LINE__); */
++				_set_timer(&psta->dot11w_expire_timer, 1000);
++			}
++		}
++		break;
++
++	case 1: /* SA Query rsp */
++		tid = cpu_to_le16(tid);
++		/* RTW_INFO("rtw_set_fixed_ie, %04x\n", tid); */
++		pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)&tid, &pattrib->pktlen);
++		break;
++	default:
++		break;
++	}
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++}
++#endif /* CONFIG_IEEE80211W */
++
++/**
++ * issue_action_ba - internal function to TX Block Ack action frame
++ * @padapter: the adapter to TX
++ * @raddr: receiver address
++ * @action: Block Ack Action
++ * @tid: tid
++ * @size: the announced AMPDU buffer size. used by ADDBA_RESP
++ * @status: status/reason code. used by ADDBA_RESP, DELBA
++ * @initiator: if we are the initiator of AMPDU association. used by DELBA
++ * @wait_ack: used xmit ack
++ *
++ * Returns:
++ * _SUCCESS: No xmit ack is used or acked
++ * _FAIL: not acked when using xmit ack
++ */
++static int issue_action_ba(_adapter *padapter, unsigned char *raddr, unsigned char action
++		   , u8 tid, u8 size, u16 status, u8 initiator, int wait_ack)
++{
++	int ret = _FAIL;
++	u8	category = RTW_WLAN_CATEGORY_BACK;
++	u16	start_seq;
++	u16	BA_para_set;
++	u16	BA_timeout_value;
++	u16	BA_starting_seqctrl;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	u8					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_info		*psta;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct registry_priv		*pregpriv = &padapter->registrypriv;
++
++#ifdef CONFIG_80211N_HT
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	/* _rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN); */
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++
++	if (category == 3) {
++		switch (action) {
++		case RTW_WLAN_ACTION_ADDBA_REQ:
++			do {
++				pmlmeinfo->dialogToken++;
++			} while (pmlmeinfo->dialogToken == 0);
++			pframe = rtw_set_fixed_ie(pframe, 1, &(pmlmeinfo->dialogToken), &(pattrib->pktlen));
++
++#if defined(CONFIG_RTL8188E) && defined(CONFIG_SDIO_HCI)
++			BA_para_set = (0x0802 | ((tid & 0xf) << 2)); /* immediate ack & 16 buffer size */
++#else
++			BA_para_set = (0x1002 | ((tid & 0xf) << 2)); /* immediate ack & 64 buffer size */
++#endif
++
++			BA_para_set = cpu_to_le16(BA_para_set);
++			pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(BA_para_set)), &(pattrib->pktlen));
++
++			/* BA_timeout_value = 0xffff; */ /* max: 65535 TUs(~ 65 ms) */
++			BA_timeout_value = 5000;/* ~ 5ms */
++			BA_timeout_value = cpu_to_le16(BA_timeout_value);
++			pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(BA_timeout_value)), &(pattrib->pktlen));
++
++			/* if ((psta = rtw_get_stainfo(pstapriv, pmlmeinfo->network.MacAddress)) != NULL) */
++			psta = rtw_get_stainfo(pstapriv, raddr);
++			if (psta != NULL) {
++				start_seq = (psta->sta_xmitpriv.txseq_tid[tid & 0x07] & 0xfff) + 1;
++
++				RTW_INFO("BA_starting_seqctrl = %d for TID=%d\n", start_seq, tid & 0x07);
++
++				psta->BA_starting_seqctrl[tid & 0x07] = start_seq;
++
++				BA_starting_seqctrl = start_seq << 4;
++			}
++
++			BA_starting_seqctrl = cpu_to_le16(BA_starting_seqctrl);
++			pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(BA_starting_seqctrl)), &(pattrib->pktlen));
++			break;
++
++		case RTW_WLAN_ACTION_ADDBA_RESP:
++			pframe = rtw_set_fixed_ie(pframe, 1, &(pmlmeinfo->ADDBA_req.dialog_token), &(pattrib->pktlen));
++			status = cpu_to_le16(status);
++			pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&status), &(pattrib->pktlen));
++
++			BA_para_set = le16_to_cpu(pmlmeinfo->ADDBA_req.BA_para_set);
++
++			BA_para_set &= ~IEEE80211_ADDBA_PARAM_TID_MASK;
++			BA_para_set |= (tid << 2) & IEEE80211_ADDBA_PARAM_TID_MASK;
++
++			BA_para_set &= ~RTW_IEEE80211_ADDBA_PARAM_BUF_SIZE_MASK;
++			BA_para_set |= (size << 6) & RTW_IEEE80211_ADDBA_PARAM_BUF_SIZE_MASK;
++
++			if (!padapter->registrypriv.wifi_spec) {
++				if (pregpriv->ampdu_amsdu == 0) /* disabled */
++					BA_para_set &= ~BIT(0);
++				else if (pregpriv->ampdu_amsdu == 1) /* enabled */
++					BA_para_set |= BIT(0);
++			}
++
++			BA_para_set = cpu_to_le16(BA_para_set);
++
++			pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(BA_para_set)), &(pattrib->pktlen));
++			pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(pmlmeinfo->ADDBA_req.BA_timeout_value)), &(pattrib->pktlen));
++			break;
++
++		case RTW_WLAN_ACTION_DELBA:
++			BA_para_set = 0;
++			BA_para_set |= (tid << 12) & IEEE80211_DELBA_PARAM_TID_MASK;
++			BA_para_set |= (initiator << 11) & IEEE80211_DELBA_PARAM_INITIATOR_MASK;
++
++			BA_para_set = cpu_to_le16(BA_para_set);
++			pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(BA_para_set)), &(pattrib->pktlen));
++			status = cpu_to_le16(status);
++			pframe = rtw_set_fixed_ie(pframe, 2, (unsigned char *)(&(status)), &(pattrib->pktlen));
++			break;
++		default:
++			break;
++		}
++	}
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++#endif /* CONFIG_80211N_HT */
++	return ret;
++}
++
++/**
++ * issue_addba_req - TX ADDBA_REQ
++ * @adapter: the adapter to TX
++ * @ra: receiver address
++ * @tid: tid
++ */
++inline void issue_addba_req(_adapter *adapter, unsigned char *ra, u8 tid)
++{
++	issue_action_ba(adapter, ra, RTW_WLAN_ACTION_ADDBA_REQ
++			, tid
++			, 0 /* unused */
++			, 0 /* unused */
++			, 0 /* unused */
++			, _FALSE
++		       );
++	RTW_INFO(FUNC_ADPT_FMT" ra="MAC_FMT" tid=%u\n"
++		 , FUNC_ADPT_ARG(adapter), MAC_ARG(ra), tid);
++
++}
++
++/**
++ * issue_addba_rsp - TX ADDBA_RESP
++ * @adapter: the adapter to TX
++ * @ra: receiver address
++ * @tid: tid
++ * @status: status code
++ * @size: the announced AMPDU buffer size
++ */
++inline void issue_addba_rsp(_adapter *adapter, unsigned char *ra, u8 tid, u16 status, u8 size)
++{
++	issue_action_ba(adapter, ra, RTW_WLAN_ACTION_ADDBA_RESP
++			, tid
++			, size
++			, status
++			, 0 /* unused */
++			, _FALSE
++		       );
++	RTW_INFO(FUNC_ADPT_FMT" ra="MAC_FMT" status=%u, tid=%u, size=%u\n"
++		 , FUNC_ADPT_ARG(adapter), MAC_ARG(ra), status, tid, size);
++}
++
++/**
++ * issue_addba_rsp_wait_ack - TX ADDBA_RESP and wait ack
++ * @adapter: the adapter to TX
++ * @ra: receiver address
++ * @tid: tid
++ * @status: status code
++ * @size: the announced AMPDU buffer size
++ * @try_cnt: the maximal TX count to try
++ * @wait_ms: == 0 means that there is no need to wait ack through C2H_CCX_TX_RPT
++ *           > 0 means you want to wait ack through C2H_CCX_TX_RPT, and the value of wait_ms means the interval between each TX
++ */
++inline u8 issue_addba_rsp_wait_ack(_adapter *adapter, unsigned char *ra, u8 tid, u16 status, u8 size, int try_cnt, int wait_ms)
++{
++	int ret = _FAIL;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(adapter)))
++		goto exit;
++
++	do {
++		ret = issue_action_ba(adapter, ra, RTW_WLAN_ACTION_ADDBA_RESP
++				      , tid
++				      , size
++				      , status
++				      , 0 /* unused */
++				      , _TRUE
++				     );
++
++		i++;
++
++		if (RTW_CANNOT_RUN(adapter))
++			break;
++
++		if (i < try_cnt && wait_ms > 0 && ret == _FAIL)
++			rtw_msleep_os(wait_ms);
++
++	} while ((i < try_cnt) && ((ret == _FAIL) || (wait_ms == 0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++#ifndef DBG_XMIT_ACK
++		/* goto exit; */
++#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		RTW_INFO(FUNC_ADPT_FMT" ra="MAC_FMT" tid=%u%s, %d/%d in %u ms\n"
++			, FUNC_ADPT_ARG(adapter), MAC_ARG(ra), tid
++			, ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++
++exit:
++	return ret;
++}
++
++/**
++ * issue_del_ba - TX DELBA
++ * @adapter: the adapter to TX
++ * @ra: receiver address
++ * @tid: tid
++ * @reason: reason code
++ * @initiator: if we are the initiator of AMPDU association. used by DELBA
++ */
++inline void issue_del_ba(_adapter *adapter, unsigned char *ra, u8 tid, u16 reason, u8 initiator)
++{
++	issue_action_ba(adapter, ra, RTW_WLAN_ACTION_DELBA
++			, tid
++			, 0 /* unused */
++			, reason
++			, initiator
++			, _FALSE
++		       );
++	RTW_INFO(FUNC_ADPT_FMT" ra="MAC_FMT" reason=%u, tid=%u, initiator=%u\n"
++		 , FUNC_ADPT_ARG(adapter), MAC_ARG(ra), reason, tid, initiator);
++}
++
++/**
++ * issue_del_ba_ex - TX DELBA with xmit ack options
++ * @adapter: the adapter to TX
++ * @ra: receiver address
++ * @tid: tid
++ * @reason: reason code
++ * @initiator: if we are the initiator of AMPDU association. used by DELBA
++ * @try_cnt: the maximal TX count to try
++ * @wait_ms: == 0 means that there is no need to wait ack through C2H_CCX_TX_RPT
++ *           > 0 means you want to wait ack through C2H_CCX_TX_RPT, and the value of wait_ms means the interval between each TX
++ */
++int issue_del_ba_ex(_adapter *adapter, unsigned char *ra, u8 tid, u16 reason, u8 initiator
++		    , int try_cnt, int wait_ms)
++{
++	int ret = _FAIL;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(adapter)))
++		goto exit;
++
++	do {
++		ret = issue_action_ba(adapter, ra, RTW_WLAN_ACTION_DELBA
++				      , tid
++				      , 0 /* unused */
++				      , reason
++				      , initiator
++				      , wait_ms > 0 ? _TRUE : _FALSE
++				     );
++
++		i++;
++
++		if (RTW_CANNOT_RUN(adapter))
++			break;
++
++		if (i < try_cnt && wait_ms > 0 && ret == _FAIL)
++			rtw_msleep_os(wait_ms);
++
++	} while ((i < try_cnt) && ((ret == _FAIL) || (wait_ms == 0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++#ifndef DBG_XMIT_ACK
++		/* goto exit; */
++#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		RTW_INFO(FUNC_ADPT_FMT" ra="MAC_FMT" reason=%u, tid=%u, initiator=%u%s, %d/%d in %u ms\n"
++			, FUNC_ADPT_ARG(adapter), MAC_ARG(ra), reason, tid, initiator
++			, ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++	return ret;
++}
++
++static void issue_action_BSSCoexistPacket(_adapter *padapter)
++{
++	_irqL	irqL;
++	_list		*plist, *phead;
++	unsigned char category, action;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char				*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short			*fctrl;
++	struct	wlan_network	*pnetwork = NULL;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	_queue		*queue	= &(pmlmepriv->scanned_queue);
++	u8 InfoContent[16] = {0};
++	u8 ICS[8][15];
++#ifdef CONFIG_80211N_HT
++	if ((pmlmepriv->num_FortyMHzIntolerant == 0) || (pmlmepriv->num_sta_no_ht == 0))
++		return;
++
++	if (_TRUE == pmlmeinfo->bwmode_updated)
++		return;
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		return;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++
++	category = RTW_WLAN_CATEGORY_PUBLIC;
++	action = ACT_PUBLIC_BSSCOEXIST;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++
++
++	/*  */
++	if (pmlmepriv->num_FortyMHzIntolerant > 0) {
++		u8 iedata = 0;
++
++		iedata |= BIT(2);/* 20 MHz BSS Width Request */
++
++		pframe = rtw_set_ie(pframe, EID_BSSCoexistence,  1, &iedata, &(pattrib->pktlen));
++
++	}
++
++
++	/*  */
++	_rtw_memset(ICS, 0, sizeof(ICS));
++	if (pmlmepriv->num_sta_no_ht > 0) {
++		int i;
++
++		_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++		phead = get_list_head(queue);
++		plist = get_next(phead);
++
++		while (1) {
++			int len;
++			u8 *p;
++			WLAN_BSSID_EX *pbss_network;
++
++			if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++				break;
++
++			pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++			plist = get_next(plist);
++
++			pbss_network = (WLAN_BSSID_EX *)&pnetwork->network;
++
++			p = rtw_get_ie(pbss_network->IEs + _FIXED_IE_LENGTH_, _HT_CAPABILITY_IE_, &len, pbss_network->IELength - _FIXED_IE_LENGTH_);
++			if ((p == NULL) || (len == 0)) { /* non-HT */
++				if ((pbss_network->Configuration.DSConfig <= 0) || (pbss_network->Configuration.DSConfig > 14))
++					continue;
++
++				ICS[0][pbss_network->Configuration.DSConfig] = 1;
++
++				if (ICS[0][0] == 0)
++					ICS[0][0] = 1;
++			}
++
++		}
++
++		_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++
++		for (i = 0; i < 8; i++) {
++			if (ICS[i][0] == 1) {
++				int j, k = 0;
++
++				InfoContent[k] = i;
++				/* SET_BSS_INTOLERANT_ELE_REG_CLASS(InfoContent,i); */
++				k++;
++
++				for (j = 1; j <= 14; j++) {
++					if (ICS[i][j] == 1) {
++						if (k < 16) {
++							InfoContent[k] = j; /* channel number */
++							/* SET_BSS_INTOLERANT_ELE_CHANNEL(InfoContent+k, j); */
++							k++;
++						}
++					}
++				}
++
++				pframe = rtw_set_ie(pframe, EID_BSSIntolerantChlReport, k, InfoContent, &(pattrib->pktlen));
++
++			}
++
++		}
++
++
++	}
++
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++#endif /* CONFIG_80211N_HT */
++}
++
++/* Spatial Multiplexing Powersave (SMPS) action frame */
++int _issue_action_SM_PS(_adapter *padapter ,  unsigned char *raddr , u8 NewMimoPsMode ,  u8 wait_ack)
++{
++
++	int ret = _FAIL;
++	unsigned char category = RTW_WLAN_CATEGORY_HT;
++	u8 action = RTW_WLAN_ACTION_HT_SM_PS;
++	u8 sm_power_control = 0;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++
++	if (NewMimoPsMode == WLAN_HT_CAP_SM_PS_DISABLED) {
++		sm_power_control = sm_power_control  & ~(BIT(0)); /* SM Power Save Enable = 0 SM Power Save Disable */
++	} else if (NewMimoPsMode == WLAN_HT_CAP_SM_PS_STATIC) {
++		sm_power_control = sm_power_control | BIT(0);    /* SM Power Save Enable = 1 SM Power Save Enable  */
++		sm_power_control = sm_power_control & ~(BIT(1)); /* SM Mode = 0 Static Mode */
++	} else if (NewMimoPsMode == WLAN_HT_CAP_SM_PS_DYNAMIC) {
++		sm_power_control = sm_power_control | BIT(0); /* SM Power Save Enable = 1 SM Power Save Enable  */
++		sm_power_control = sm_power_control | BIT(1); /* SM Mode = 1 Dynamic Mode */
++	} else
++		return ret;
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		return ret;
++
++	RTW_INFO("%s, sm_power_control=%u, NewMimoPsMode=%u\n", __FUNCTION__ , sm_power_control , NewMimoPsMode);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return ret;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN); /* RA */
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN); /* TA */
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN); /* DA = RA */
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	/* category, action */
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(sm_power_control), &(pattrib->pktlen));
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++	if (ret != _SUCCESS)
++		RTW_INFO("%s, ack to\n", __func__);
++
++	return ret;
++}
++
++/*
++ * wait_ms == 0 means that there is no need to wait ack through C2H_CCX_TX_RPT
++ * wait_ms > 0 means you want to wait ack through C2H_CCX_TX_RPT, and the value of wait_ms means the interval between each TX
++ * try_cnt means the maximal TX count to try
++ */
++int issue_action_SM_PS_wait_ack(_adapter *padapter, unsigned char *raddr, u8 NewMimoPsMode, int try_cnt, int wait_ms)
++{
++	int ret = _FAIL;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++
++	if (rtw_rfctl_is_tx_blocked_by_ch_waiting(adapter_to_rfctl(padapter)))
++		goto exit;
++
++	do {
++		ret = _issue_action_SM_PS(padapter, raddr, NewMimoPsMode , wait_ms > 0 ? _TRUE : _FALSE);
++
++		i++;
++
++		if (RTW_CANNOT_RUN(padapter))
++			break;
++
++		if (i < try_cnt && wait_ms > 0 && ret == _FAIL)
++			rtw_msleep_os(wait_ms);
++
++	} while ((i < try_cnt) && ((ret == _FAIL) || (wait_ms == 0)));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++#ifndef DBG_XMIT_ACK
++		goto exit;
++#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		if (raddr)
++			RTW_INFO(FUNC_ADPT_FMT" to "MAC_FMT", %s , %d/%d in %u ms\n",
++				 FUNC_ADPT_ARG(padapter), MAC_ARG(raddr),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++		else
++			RTW_INFO(FUNC_ADPT_FMT", %s , %d/%d in %u ms\n",
++				 FUNC_ADPT_ARG(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++
++	return ret;
++}
++
++int issue_action_SM_PS(_adapter *padapter ,  unsigned char *raddr , u8 NewMimoPsMode)
++{
++	RTW_INFO("%s to "MAC_FMT"\n", __func__, MAC_ARG(raddr));
++	return _issue_action_SM_PS(padapter, raddr, NewMimoPsMode , _FALSE);
++}
++
++/**
++ * _send_delba_sta_tid - Cancel the AMPDU association for the specific @sta, @tid
++ * @adapter: the adapter to which @sta belongs
++ * @initiator: if we are the initiator of AMPDU association
++ * @sta: the sta to be checked
++ * @tid: the tid to be checked
++ * @force: cancel and send DELBA even when no AMPDU association is setup
++ * @wait_ack: send delba with xmit ack (valid when initiator == 0)
++ *
++ * Returns:
++ * _FAIL if sta is NULL
++ * when initiator is 1, always _SUCCESS
++ * when initiator is 0, _SUCCESS if DELBA is acked
++ */
++static unsigned int _send_delba_sta_tid(_adapter *adapter, u8 initiator, struct sta_info *sta, u8 tid
++					, u8 force, int wait_ack)
++{
++	int ret = _SUCCESS;
++
++	if (sta == NULL) {
++		ret = _FAIL;
++		goto exit;
++	}
++
++	if (initiator == 0) {
++		/* recipient */
++		if (force || sta->recvreorder_ctrl[tid].enable == _TRUE) {
++			u8 ampdu_size_bak = sta->recvreorder_ctrl[tid].ampdu_size;
++
++			sta->recvreorder_ctrl[tid].enable = _FALSE;
++			sta->recvreorder_ctrl[tid].ampdu_size = RX_AMPDU_SIZE_INVALID;
++
++			if (rtw_del_rx_ampdu_test_trigger_no_tx_fail())
++				ret = _FAIL;
++			else if (wait_ack)
++				ret = issue_del_ba_ex(adapter, sta->hwaddr, tid, 37, initiator, 3, 1);
++			else
++				issue_del_ba(adapter, sta->hwaddr, tid, 37, initiator);
++
++			if (ret == _FAIL && sta->recvreorder_ctrl[tid].enable == _FALSE)
++				sta->recvreorder_ctrl[tid].ampdu_size = ampdu_size_bak;
++		}
++	} else if (initiator == 1) {
++		/* originator */
++#ifdef CONFIG_80211N_HT
++		if (force || sta->htpriv.agg_enable_bitmap & BIT(tid)) {
++			sta->htpriv.agg_enable_bitmap &= ~BIT(tid);
++			sta->htpriv.candidate_tid_bitmap &= ~BIT(tid);
++			issue_del_ba(adapter, sta->hwaddr, tid, 37, initiator);
++		}
++#endif
++	}
++
++exit:
++	return ret;
++}
++
++inline unsigned int send_delba_sta_tid(_adapter *adapter, u8 initiator, struct sta_info *sta, u8 tid
++				       , u8 force)
++{
++	return _send_delba_sta_tid(adapter, initiator, sta, tid, force, 0);
++}
++
++inline unsigned int send_delba_sta_tid_wait_ack(_adapter *adapter, u8 initiator, struct sta_info *sta, u8 tid
++		, u8 force)
++{
++	return _send_delba_sta_tid(adapter, initiator, sta, tid, force, 1);
++}
++
++unsigned int send_delba(_adapter *padapter, u8 initiator, u8 *addr)
++{
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta = NULL;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u16 tid;
++
++	if ((pmlmeinfo->state & 0x03) != WIFI_FW_AP_STATE)
++		if (!(pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS))
++			return _SUCCESS;
++
++	psta = rtw_get_stainfo(pstapriv, addr);
++	if (psta == NULL)
++		return _SUCCESS;
++
++#if 0
++	RTW_INFO("%s:%s\n", __func__, (initiator == 0) ? "RX_DIR" : "TX_DIR");
++	if (initiator == 1) /* originator */
++		RTW_INFO("tx agg_enable_bitmap(0x%08x)\n", psta->htpriv.agg_enable_bitmap);
++#endif
++
++	for (tid = 0; tid < TID_NUM; tid++)
++		send_delba_sta_tid(padapter, initiator, psta, tid, 0);
++
++	return _SUCCESS;
++}
++
++unsigned int send_beacon(_adapter *padapter)
++{
++	u8	bxmitok = _FALSE;
++	int	issue = 0;
++	int poll = 0;
++#if defined(CONFIG_PCI_HCI) && defined(RTL8814AE_SW_BCN)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_BCN_VALID, NULL);
++
++	/* 8192EE Port select for Beacon DL */
++	rtw_hal_set_hwreg(padapter, HW_VAR_DL_BCN_SEL, NULL);
++
++	issue_beacon(padapter, 0);
++
++#ifdef RTL8814AE_SW_BCN
++	if (pHalData->bCorrectBCN != 0)
++		RTW_INFO("%s, line%d, Warnning, pHalData->bCorrectBCN != 0\n", __func__, __LINE__);
++	pHalData->bCorrectBCN = 1;
++#endif
++
++	return _SUCCESS;
++#endif
++
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	u32 start = rtw_get_current_time();
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_BCN_VALID, NULL);
++	rtw_hal_set_hwreg(padapter, HW_VAR_DL_BCN_SEL, NULL);
++	do {
++		issue_beacon(padapter, 100);
++		issue++;
++		do {
++			rtw_yield_os();
++			rtw_hal_get_hwreg(padapter, HW_VAR_BCN_VALID, (u8 *)(&bxmitok));
++			poll++;
++		} while ((poll % 10) != 0 && _FALSE == bxmitok && !RTW_CANNOT_RUN(padapter));
++
++	} while (_FALSE == bxmitok && issue < 100 && !RTW_CANNOT_RUN(padapter));
++
++	if (RTW_CANNOT_RUN(padapter))
++		return _FAIL;
++
++
++	if (_FALSE == bxmitok) {
++		RTW_INFO("%s fail! %u ms\n", __FUNCTION__, rtw_get_passing_time_ms(start));
++		return _FAIL;
++	} else {
++		u32 passing_time = rtw_get_passing_time_ms(start);
++
++		if (passing_time > 100 || issue > 3)
++			RTW_INFO("%s success, issue:%d, poll:%d, %u ms\n", __FUNCTION__, issue, poll, rtw_get_passing_time_ms(start));
++		else if (0)
++			RTW_INFO("%s success, issue:%d, poll:%d, %u ms\n", __FUNCTION__, issue, poll, rtw_get_passing_time_ms(start));
++
++		rtw_hal_fw_correct_bcn(padapter);
++
++		return _SUCCESS;
++	}
++
++#endif
++
++}
++
++/****************************************************************************
++
++Following are some utitity fuctions for WiFi MLME
++
++*****************************************************************************/
++
++BOOLEAN IsLegal5GChannel(
++	IN PADAPTER			Adapter,
++	IN u8			channel)
++{
++
++	int i = 0;
++	u8 Channel_5G[45] = {36, 38, 40, 42, 44, 46, 48, 50, 52, 54, 56, 58,
++		60, 62, 64, 100, 102, 104, 106, 108, 110, 112, 114, 116, 118, 120, 122,
++		124, 126, 128, 130, 132, 134, 136, 138, 140, 149, 151, 153, 155, 157, 159,
++			     161, 163, 165
++			    };
++	for (i = 0; i < sizeof(Channel_5G); i++)
++		if (channel == Channel_5G[i])
++			return _TRUE;
++	return _FALSE;
++}
++
++/* collect bss info from Beacon and Probe request/response frames. */
++u8 collect_bss_info(_adapter *padapter, union recv_frame *precv_frame, WLAN_BSSID_EX *bssid)
++{
++	int	i;
++	u32	len;
++	u8	*p;
++	u16	val16, subtype;
++	u8	*pframe = precv_frame->u.hdr.rx_data;
++	u32	packet_len = precv_frame->u.hdr.len;
++	u8 ie_offset;
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	len = packet_len - sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	if (len > MAX_IE_SZ) {
++		/* RTW_INFO("IE too long for survey event\n"); */
++		return _FAIL;
++	}
++
++	_rtw_memset(bssid, 0, sizeof(WLAN_BSSID_EX));
++
++	subtype = GetFrameSubType(pframe);
++
++	if (subtype == WIFI_BEACON) {
++		bssid->Reserved[0] = 1;
++		ie_offset = _BEACON_IE_OFFSET_;
++	} else {
++		/* FIXME : more type */
++		if (subtype == WIFI_PROBERSP) {
++			ie_offset = _PROBERSP_IE_OFFSET_;
++			bssid->Reserved[0] = 3;
++		} else if (subtype == WIFI_PROBEREQ) {
++			ie_offset = _PROBEREQ_IE_OFFSET_;
++			bssid->Reserved[0] = 2;
++		} else {
++			bssid->Reserved[0] = 0;
++			ie_offset = _FIXED_IE_LENGTH_;
++		}
++	}
++
++	bssid->Length = sizeof(WLAN_BSSID_EX) - MAX_IE_SZ + len;
++
++	/* below is to copy the information element */
++	bssid->IELength = len;
++	_rtw_memcpy(bssid->IEs, (pframe + sizeof(struct rtw_ieee80211_hdr_3addr)), bssid->IELength);
++
++	/* get the signal strength */
++	/* bssid->Rssi = precv_frame->u.hdr.attrib.SignalStrength; */ /* 0-100 index. */
++	bssid->Rssi = precv_frame->u.hdr.attrib.phy_info.RecvSignalPower; /* in dBM.raw data	 */
++	bssid->PhyInfo.SignalQuality = precv_frame->u.hdr.attrib.phy_info.SignalQuality;/* in percentage */
++	bssid->PhyInfo.SignalStrength = precv_frame->u.hdr.attrib.phy_info.SignalStrength;/* in percentage */
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	rtw_hal_get_odm_var(padapter, HAL_ODM_ANTDIV_SELECT, &(bssid->PhyInfo.Optimum_antenna), NULL);
++#endif
++
++	/* checking SSID */
++	p = rtw_get_ie(bssid->IEs + ie_offset, _SSID_IE_, &len, bssid->IELength - ie_offset);
++	if (p == NULL) {
++		RTW_INFO("marc: cannot find SSID for survey event\n");
++		return _FAIL;
++	}
++
++	if (*(p + 1)) {
++		if (len > NDIS_802_11_LENGTH_SSID) {
++			RTW_INFO("%s()-%d: IE too long (%d) for survey event\n", __FUNCTION__, __LINE__, len);
++			return _FAIL;
++		}
++		_rtw_memcpy(bssid->Ssid.Ssid, (p + 2), *(p + 1));
++		bssid->Ssid.SsidLength = *(p + 1);
++	} else
++		bssid->Ssid.SsidLength = 0;
++
++	_rtw_memset(bssid->SupportedRates, 0, NDIS_802_11_LENGTH_RATES_EX);
++
++	/* checking rate info... */
++	i = 0;
++	p = rtw_get_ie(bssid->IEs + ie_offset, _SUPPORTEDRATES_IE_, &len, bssid->IELength - ie_offset);
++	if (p != NULL) {
++		if (len > NDIS_802_11_LENGTH_RATES_EX) {
++			RTW_INFO("%s()-%d: IE too long (%d) for survey event\n", __FUNCTION__, __LINE__, len);
++			return _FAIL;
++		}
++		_rtw_memcpy(bssid->SupportedRates, (p + 2), len);
++		i = len;
++	}
++
++	p = rtw_get_ie(bssid->IEs + ie_offset, _EXT_SUPPORTEDRATES_IE_, &len, bssid->IELength - ie_offset);
++	if (p != NULL) {
++		if (len > (NDIS_802_11_LENGTH_RATES_EX - i)) {
++			RTW_INFO("%s()-%d: IE too long (%d) for survey event\n", __FUNCTION__, __LINE__, len);
++			return _FAIL;
++		}
++		_rtw_memcpy(bssid->SupportedRates + i, (p + 2), len);
++	}
++
++	/* todo: */
++#if 0
++	if (judge_network_type(bssid->SupportedRates, (len + i)) == WIRELESS_11B)
++		bssid->NetworkTypeInUse = Ndis802_11DS;
++	else
++#endif
++	{
++		bssid->NetworkTypeInUse = Ndis802_11OFDM24;
++	}
++
++#ifdef CONFIG_P2P
++	if (subtype == WIFI_PROBEREQ) {
++		u8 *p2p_ie;
++		u32	p2p_ielen;
++		/* Set Listion Channel */
++		p2p_ie = rtw_get_p2p_ie(bssid->IEs, bssid->IELength, NULL, &p2p_ielen);
++		if (p2p_ie) {
++			u32	attr_contentlen = 0;
++			u8 listen_ch[5] = { 0x00 };
++
++			rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_LISTEN_CH, listen_ch, &attr_contentlen);
++			bssid->Configuration.DSConfig = listen_ch[4];
++		} else {
++			/* use current channel */
++			bssid->Configuration.DSConfig = padapter->mlmeextpriv.cur_channel;
++			RTW_INFO("%s()-%d: Cannot get p2p_ie. set DSconfig to op_ch(%d)\n", __FUNCTION__, __LINE__, bssid->Configuration.DSConfig);
++		}
++
++		/* FIXME */
++		bssid->InfrastructureMode = Ndis802_11Infrastructure;
++		_rtw_memcpy(bssid->MacAddress, GetAddr2Ptr(pframe), ETH_ALEN);
++		bssid->Privacy = 1;
++		return _SUCCESS;
++	}
++#endif /* CONFIG_P2P */
++
++	if (bssid->IELength < 12)
++		return _FAIL;
++
++	/* Checking for DSConfig */
++	p = rtw_get_ie(bssid->IEs + ie_offset, _DSSET_IE_, &len, bssid->IELength - ie_offset);
++
++	bssid->Configuration.DSConfig = 0;
++	bssid->Configuration.Length = 0;
++
++	if (p)
++		bssid->Configuration.DSConfig = *(p + 2);
++	else {
++		/* In 5G, some ap do not have DSSET IE */
++		/* checking HT info for channel */
++		p = rtw_get_ie(bssid->IEs + ie_offset, _HT_ADD_INFO_IE_, &len, bssid->IELength - ie_offset);
++		if (p) {
++			struct HT_info_element *HT_info = (struct HT_info_element *)(p + 2);
++			bssid->Configuration.DSConfig = HT_info->primary_channel;
++		} else {
++			/* use current channel */
++			bssid->Configuration.DSConfig = rtw_get_oper_ch(padapter);
++		}
++	}
++
++	_rtw_memcpy(&bssid->Configuration.BeaconPeriod, rtw_get_beacon_interval_from_ie(bssid->IEs), 2);
++	bssid->Configuration.BeaconPeriod = le32_to_cpu(bssid->Configuration.BeaconPeriod);
++
++	val16 = rtw_get_capability((WLAN_BSSID_EX *)bssid);
++
++	if (val16 & BIT(0)) {
++		bssid->InfrastructureMode = Ndis802_11Infrastructure;
++		_rtw_memcpy(bssid->MacAddress, GetAddr2Ptr(pframe), ETH_ALEN);
++	} else {
++		bssid->InfrastructureMode = Ndis802_11IBSS;
++		_rtw_memcpy(bssid->MacAddress, GetAddr3Ptr(pframe), ETH_ALEN);
++	}
++
++	if (val16 & BIT(4))
++		bssid->Privacy = 1;
++	else
++		bssid->Privacy = 0;
++
++	bssid->Configuration.ATIMWindow = 0;
++
++	/* 20/40 BSS Coexistence check */
++	if ((pregistrypriv->wifi_spec == 1) && (_FALSE == pmlmeinfo->bwmode_updated)) {
++		struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++#ifdef CONFIG_80211N_HT
++		p = rtw_get_ie(bssid->IEs + ie_offset, _HT_CAPABILITY_IE_, &len, bssid->IELength - ie_offset);
++		if (p && len > 0) {
++			struct HT_caps_element	*pHT_caps;
++			pHT_caps = (struct HT_caps_element *)(p + 2);
++
++			if (pHT_caps->u.HT_cap_element.HT_caps_info & BIT(14))
++				pmlmepriv->num_FortyMHzIntolerant++;
++		} else
++			pmlmepriv->num_sta_no_ht++;
++#endif /* CONFIG_80211N_HT */
++
++	}
++
++#ifdef CONFIG_INTEL_WIDI
++	/* process_intel_widi_query_or_tigger(padapter, bssid); */
++	if (process_intel_widi_query_or_tigger(padapter, bssid))
++		return _FAIL;
++#endif /* CONFIG_INTEL_WIDI */
++
++#if defined(DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED) & 1
++	if (strcmp(bssid->Ssid.Ssid, DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED) == 0) {
++		RTW_INFO("Receiving %s("MAC_FMT", DSConfig:%u) from ch%u with ss:%3u, sq:%3u, RawRSSI:%3ld\n"
++			, bssid->Ssid.Ssid, MAC_ARG(bssid->MacAddress), bssid->Configuration.DSConfig
++			 , rtw_get_oper_ch(padapter)
++			, bssid->PhyInfo.SignalStrength, bssid->PhyInfo.SignalQuality, bssid->Rssi
++			);
++	}
++#endif
++
++	/* mark bss info receving from nearby channel as SignalQuality 101 */
++	if (bssid->Configuration.DSConfig != rtw_get_oper_ch(padapter))
++		bssid->PhyInfo.SignalQuality = 101;
++
++	return _SUCCESS;
++}
++
++void start_create_ibss(_adapter *padapter)
++{
++	unsigned short	caps;
++	u8	val8;
++	u8	join_type;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++	u8 doiqk = _FALSE;
++	pmlmeext->cur_channel = (u8)pnetwork->Configuration.DSConfig;
++	pmlmeinfo->bcn_interval = get_beacon_interval(pnetwork);
++
++	/* update wireless mode */
++	update_wireless_mode(padapter);
++
++	/* udpate capability */
++	caps = rtw_get_capability((WLAN_BSSID_EX *)pnetwork);
++	update_capinfo(padapter, caps);
++	if (caps & cap_IBSS) { /* adhoc master */
++		/* set_opmode_cmd(padapter, adhoc); */ /* removed */
++
++		val8 = 0xcf;
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, (u8 *)(&val8));
++
++		doiqk = _TRUE;
++		rtw_hal_set_hwreg(padapter , HW_VAR_DO_IQK , &doiqk);
++
++		/* switch channel */
++		set_channel_bwmode(padapter, pmlmeext->cur_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++
++		doiqk = _FALSE;
++		rtw_hal_set_hwreg(padapter , HW_VAR_DO_IQK , &doiqk);
++
++		beacon_timing_control(padapter);
++
++		/* set msr to WIFI_FW_ADHOC_STATE */
++		pmlmeinfo->state = WIFI_FW_ADHOC_STATE;
++		Set_MSR(padapter, (pmlmeinfo->state & 0x3));
++
++		/* issue beacon */
++		if (send_beacon(padapter) == _FAIL) {
++
++			report_join_res(padapter, -1);
++			pmlmeinfo->state = WIFI_FW_NULL_STATE;
++		} else {
++			rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, padapter->registrypriv.dev_network.MacAddress);
++			join_type = 0;
++			rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
++
++			report_join_res(padapter, 1);
++			pmlmeinfo->state |= WIFI_FW_ASSOC_SUCCESS;
++			rtw_indicate_connect(padapter);
++		}
++	} else {
++		RTW_INFO("start_create_ibss, invalid cap:%x\n", caps);
++		return;
++	}
++	/* update bc/mc sta_info */
++	update_bmc_sta(padapter);
++
++}
++
++void start_clnt_join(_adapter *padapter)
++{
++	unsigned short	caps;
++	u8	val8;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++	int beacon_timeout;
++	u8 ASIX_ID[] = {0x00, 0x0E, 0xC6};
++
++	/* update wireless mode */
++	update_wireless_mode(padapter);
++
++	/* udpate capability */
++	caps = rtw_get_capability((WLAN_BSSID_EX *)pnetwork);
++	update_capinfo(padapter, caps);
++
++	/* check if sta is ASIX peer and fix IOT issue if it is. */
++	if (_rtw_memcmp(get_my_bssid(&pmlmeinfo->network) , ASIX_ID , 3)) {
++		u8 iot_flag = _TRUE;
++		rtw_hal_set_hwreg(padapter, HW_VAR_ASIX_IOT, (u8 *)(&iot_flag));
++	}
++
++	if (caps & cap_ESS) {
++		Set_MSR(padapter, WIFI_FW_STATION_STATE);
++
++		val8 = (pmlmeinfo->auth_algo == dot11AuthAlgrthm_8021X) ? 0xcc : 0xcf;
++
++#ifdef CONFIG_WAPI_SUPPORT
++		if (padapter->wapiInfo.bWapiEnable && pmlmeinfo->auth_algo == dot11AuthAlgrthm_WAPI) {
++			/* Disable TxUseDefaultKey, RxUseDefaultKey, RxBroadcastUseDefaultKey. */
++			val8 = 0x4c;
++		}
++#endif
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, (u8 *)(&val8));
++
++#ifdef CONFIG_DEAUTH_BEFORE_CONNECT
++		/* Because of AP's not receiving deauth before */
++		/* AP may: 1)not response auth or 2)deauth us after link is complete */
++		/* issue deauth before issuing auth to deal with the situation */
++
++		/*	Commented by Albert 2012/07/21 */
++		/*	For the Win8 P2P connection, it will be hard to have a successful connection if this Wi-Fi doesn't connect to it. */
++		{
++#ifdef CONFIG_P2P
++			_queue *queue = &(padapter->mlmepriv.scanned_queue);
++			_list	*head = get_list_head(queue);
++			_list *pos = get_next(head);
++			struct wlan_network *scanned = NULL;
++			u8 ie_offset = 0;
++			_irqL irqL;
++			bool has_p2p_ie = _FALSE;
++
++			_enter_critical_bh(&(padapter->mlmepriv.scanned_queue.lock), &irqL);
++
++			for (pos = get_next(head); !rtw_end_of_queue_search(head, pos); pos = get_next(pos)) {
++
++				scanned = LIST_CONTAINOR(pos, struct wlan_network, list);
++
++				if (_rtw_memcmp(&(scanned->network.Ssid), &(pnetwork->Ssid), sizeof(NDIS_802_11_SSID)) == _TRUE
++				    && _rtw_memcmp(scanned->network.MacAddress, pnetwork->MacAddress, sizeof(NDIS_802_11_MAC_ADDRESS)) == _TRUE
++				   ) {
++					ie_offset = (scanned->network.Reserved[0] == 2 ? 0 : 12);
++					if (rtw_get_p2p_ie(scanned->network.IEs + ie_offset, scanned->network.IELength - ie_offset, NULL, NULL))
++						has_p2p_ie = _TRUE;
++					break;
++				}
++			}
++
++			_exit_critical_bh(&(padapter->mlmepriv.scanned_queue.lock), &irqL);
++
++			if (scanned == NULL || rtw_end_of_queue_search(head, pos) || has_p2p_ie == _FALSE)
++#endif /* CONFIG_P2P */
++				/* To avoid connecting to AP fail during resume process, change retry count from 5 to 1 */
++				issue_deauth_ex(padapter, pnetwork->MacAddress, WLAN_REASON_DEAUTH_LEAVING, 1, 100);
++		}
++#endif /* CONFIG_DEAUTH_BEFORE_CONNECT */
++
++		/* here wait for receiving the beacon to start auth */
++		/* and enable a timer */
++		beacon_timeout = decide_wait_for_beacon_timeout(pmlmeinfo->bcn_interval);
++		set_link_timer(pmlmeext, beacon_timeout);
++		_set_timer(&padapter->mlmepriv.assoc_timer,
++			(REAUTH_TO * REAUTH_LIMIT) + (REASSOC_TO * REASSOC_LIMIT) + beacon_timeout);
++
++		pmlmeinfo->state = WIFI_FW_AUTH_NULL | WIFI_FW_STATION_STATE;
++	} else if (caps & cap_IBSS) { /* adhoc client */
++		Set_MSR(padapter, WIFI_FW_ADHOC_STATE);
++
++		val8 = 0xcf;
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, (u8 *)(&val8));
++
++		beacon_timing_control(padapter);
++
++		pmlmeinfo->state = WIFI_FW_ADHOC_STATE;
++
++		report_join_res(padapter, 1);
++	} else {
++		/* RTW_INFO("marc: invalid cap:%x\n", caps); */
++		return;
++	}
++
++}
++
++void start_clnt_auth(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	_cancel_timer_ex(&pmlmeext->link_timer);
++
++	pmlmeinfo->state &= (~WIFI_FW_AUTH_NULL);
++	pmlmeinfo->state |= WIFI_FW_AUTH_STATE;
++
++	pmlmeinfo->auth_seq = 1;
++	pmlmeinfo->reauth_count = 0;
++	pmlmeinfo->reassoc_count = 0;
++	pmlmeinfo->link_count = 0;
++	pmlmeext->retry = 0;
++
++
++	RTW_PRINT("start auth\n");
++	issue_auth(padapter, NULL, 0);
++
++	set_link_timer(pmlmeext, REAUTH_TO);
++
++}
++
++
++void start_clnt_assoc(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	_cancel_timer_ex(&pmlmeext->link_timer);
++
++	pmlmeinfo->state &= (~(WIFI_FW_AUTH_NULL | WIFI_FW_AUTH_STATE));
++	pmlmeinfo->state |= (WIFI_FW_AUTH_SUCCESS | WIFI_FW_ASSOC_STATE);
++
++	issue_assocreq(padapter);
++
++	set_link_timer(pmlmeext, REASSOC_TO);
++}
++
++unsigned int receive_disconnect(_adapter *padapter, unsigned char *MacAddr, unsigned short reason, u8 locally_generated)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (!(_rtw_memcmp(MacAddr, get_my_bssid(&pmlmeinfo->network), ETH_ALEN)))
++		return _SUCCESS;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE) {
++		if (pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS) {
++			if (report_del_sta_event(padapter, MacAddr, reason, _TRUE, locally_generated) != _FAIL)
++				pmlmeinfo->state = WIFI_FW_NULL_STATE;
++		} else if (pmlmeinfo->state & WIFI_FW_LINKING_STATE) {
++			if (report_join_res(padapter, -2) != _FAIL)
++				pmlmeinfo->state = WIFI_FW_NULL_STATE;
++		} else
++			RTW_INFO(FUNC_ADPT_FMT" - End to Disconnect\n", FUNC_ADPT_ARG(padapter));
++	}
++
++	return _SUCCESS;
++}
++
++#ifdef CONFIG_80211D
++static void process_80211d(PADAPTER padapter, WLAN_BSSID_EX *bssid)
++{
++	struct registry_priv *pregistrypriv;
++	struct mlme_ext_priv *pmlmeext;
++	RT_CHANNEL_INFO *chplan_new;
++	u8 channel;
++	u8 i;
++
++
++	pregistrypriv = &padapter->registrypriv;
++	pmlmeext = &padapter->mlmeextpriv;
++
++	/* Adjust channel plan by AP Country IE */
++	if (pregistrypriv->enable80211d
++	    && (!pmlmeext->update_channel_plan_by_ap_done)) {
++		u8 *ie, *p;
++		u32 len;
++		RT_CHANNEL_PLAN chplan_ap;
++		RT_CHANNEL_INFO chplan_sta[MAX_CHANNEL_NUM];
++		u8 country[4];
++		u8 fcn; /* first channel number */
++		u8 noc; /* number of channel */
++		u8 j, k;
++
++		ie = rtw_get_ie(bssid->IEs + _FIXED_IE_LENGTH_, _COUNTRY_IE_, &len, bssid->IELength - _FIXED_IE_LENGTH_);
++		if (!ie)
++			return;
++		if (len < 6)
++			return;
++
++		ie += 2;
++		p = ie;
++		ie += len;
++
++		_rtw_memset(country, 0, 4);
++		_rtw_memcpy(country, p, 3);
++		p += 3;
++		RTW_INFO("%s: 802.11d country=%s\n", __FUNCTION__, country);
++
++		i = 0;
++		while ((ie - p) >= 3) {
++			fcn = *(p++);
++			noc = *(p++);
++			p++;
++
++			for (j = 0; j < noc; j++) {
++				if (fcn <= 14)
++					channel = fcn + j; /* 2.4 GHz */
++				else
++					channel = fcn + j * 4; /* 5 GHz */
++
++				chplan_ap.Channel[i++] = channel;
++			}
++		}
++		chplan_ap.Len = i;
++
++#ifdef CONFIG_RTW_DEBUG
++		i = 0;
++		RTW_INFO("%s: AP[%s] channel plan {", __FUNCTION__, bssid->Ssid.Ssid);
++		while ((i < chplan_ap.Len) && (chplan_ap.Channel[i] != 0)) {
++			_RTW_INFO("%02d,", chplan_ap.Channel[i]);
++			i++;
++		}
++		_RTW_INFO("}\n");
++#endif
++
++		_rtw_memcpy(chplan_sta, pmlmeext->channel_set, sizeof(chplan_sta));
++#ifdef CONFIG_RTW_DEBUG
++		i = 0;
++		RTW_INFO("%s: STA channel plan {", __FUNCTION__);
++		while ((i < MAX_CHANNEL_NUM) && (chplan_sta[i].ChannelNum != 0)) {
++			_RTW_INFO("%02d(%c),", chplan_sta[i].ChannelNum, chplan_sta[i].ScanType == SCAN_PASSIVE ? 'p' : 'a');
++			i++;
++		}
++		_RTW_INFO("}\n");
++#endif
++
++		_rtw_memset(pmlmeext->channel_set, 0, sizeof(pmlmeext->channel_set));
++		chplan_new = pmlmeext->channel_set;
++
++		i = j = k = 0;
++		if (pregistrypriv->wireless_mode & WIRELESS_11G) {
++			do {
++				if ((i == MAX_CHANNEL_NUM)
++				    || (chplan_sta[i].ChannelNum == 0)
++				    || (chplan_sta[i].ChannelNum > 14))
++					break;
++
++				if ((j == chplan_ap.Len) || (chplan_ap.Channel[j] > 14))
++					break;
++
++				if (chplan_sta[i].ChannelNum == chplan_ap.Channel[j]) {
++					chplan_new[k].ChannelNum = chplan_ap.Channel[j];
++					chplan_new[k].ScanType = SCAN_ACTIVE;
++					i++;
++					j++;
++					k++;
++				} else if (chplan_sta[i].ChannelNum < chplan_ap.Channel[j]) {
++					chplan_new[k].ChannelNum = chplan_sta[i].ChannelNum;
++#if 0
++					chplan_new[k].ScanType = chplan_sta[i].ScanType;
++#else
++					chplan_new[k].ScanType = SCAN_PASSIVE;
++#endif
++					i++;
++					k++;
++				} else if (chplan_sta[i].ChannelNum > chplan_ap.Channel[j]) {
++					chplan_new[k].ChannelNum = chplan_ap.Channel[j];
++					chplan_new[k].ScanType = SCAN_ACTIVE;
++					j++;
++					k++;
++				}
++			} while (1);
++
++			/* change AP not support channel to Passive scan */
++			while ((i < MAX_CHANNEL_NUM)
++			       && (chplan_sta[i].ChannelNum != 0)
++			       && (chplan_sta[i].ChannelNum <= 14)) {
++				chplan_new[k].ChannelNum = chplan_sta[i].ChannelNum;
++#if 0
++				chplan_new[k].ScanType = chplan_sta[i].ScanType;
++#else
++				chplan_new[k].ScanType = SCAN_PASSIVE;
++#endif
++				i++;
++				k++;
++			}
++
++			/* add channel AP supported */
++			while ((j < chplan_ap.Len) && (chplan_ap.Channel[j] <= 14)) {
++				chplan_new[k].ChannelNum = chplan_ap.Channel[j];
++				chplan_new[k].ScanType = SCAN_ACTIVE;
++				j++;
++				k++;
++			}
++		} else {
++			/* keep original STA 2.4G channel plan */
++			while ((i < MAX_CHANNEL_NUM)
++			       && (chplan_sta[i].ChannelNum != 0)
++			       && (chplan_sta[i].ChannelNum <= 14)) {
++				chplan_new[k].ChannelNum = chplan_sta[i].ChannelNum;
++				chplan_new[k].ScanType = chplan_sta[i].ScanType;
++				i++;
++				k++;
++			}
++
++			/* skip AP 2.4G channel plan */
++			while ((j < chplan_ap.Len) && (chplan_ap.Channel[j] <= 14))
++				j++;
++		}
++
++		if (pregistrypriv->wireless_mode & WIRELESS_11A) {
++			do {
++				if ((i >= MAX_CHANNEL_NUM)
++				    || (chplan_sta[i].ChannelNum == 0))
++					break;
++
++				if ((j == chplan_ap.Len) || (chplan_ap.Channel[j] == 0))
++					break;
++
++				if (chplan_sta[i].ChannelNum == chplan_ap.Channel[j]) {
++					chplan_new[k].ChannelNum = chplan_ap.Channel[j];
++					chplan_new[k].ScanType = SCAN_ACTIVE;
++					i++;
++					j++;
++					k++;
++				} else if (chplan_sta[i].ChannelNum < chplan_ap.Channel[j]) {
++					chplan_new[k].ChannelNum = chplan_sta[i].ChannelNum;
++#if 0
++					chplan_new[k].ScanType = chplan_sta[i].ScanType;
++#else
++					chplan_new[k].ScanType = SCAN_PASSIVE;
++#endif
++					i++;
++					k++;
++				} else if (chplan_sta[i].ChannelNum > chplan_ap.Channel[j]) {
++					chplan_new[k].ChannelNum = chplan_ap.Channel[j];
++					chplan_new[k].ScanType = SCAN_ACTIVE;
++					j++;
++					k++;
++				}
++			} while (1);
++
++			/* change AP not support channel to Passive scan */
++			while ((i < MAX_CHANNEL_NUM) && (chplan_sta[i].ChannelNum != 0)) {
++				chplan_new[k].ChannelNum = chplan_sta[i].ChannelNum;
++#if 0
++				chplan_new[k].ScanType = chplan_sta[i].ScanType;
++#else
++				chplan_new[k].ScanType = SCAN_PASSIVE;
++#endif
++				i++;
++				k++;
++			}
++
++			/* add channel AP supported */
++			while ((j < chplan_ap.Len) && (chplan_ap.Channel[j] != 0)) {
++				chplan_new[k].ChannelNum = chplan_ap.Channel[j];
++				chplan_new[k].ScanType = SCAN_ACTIVE;
++				j++;
++				k++;
++			}
++		} else {
++			/* keep original STA 5G channel plan */
++			while ((i < MAX_CHANNEL_NUM) && (chplan_sta[i].ChannelNum != 0)) {
++				chplan_new[k].ChannelNum = chplan_sta[i].ChannelNum;
++				chplan_new[k].ScanType = chplan_sta[i].ScanType;
++				i++;
++				k++;
++			}
++		}
++
++		pmlmeext->update_channel_plan_by_ap_done = 1;
++
++#ifdef CONFIG_RTW_DEBUG
++		k = 0;
++		RTW_INFO("%s: new STA channel plan {", __FUNCTION__);
++		while ((k < MAX_CHANNEL_NUM) && (chplan_new[k].ChannelNum != 0)) {
++			_RTW_INFO("%02d(%c),", chplan_new[k].ChannelNum, chplan_new[k].ScanType == SCAN_PASSIVE ? 'p' : 'c');
++			k++;
++		}
++		_RTW_INFO("}\n");
++#endif
++
++#if 0
++		/* recover the right channel index */
++		channel = chplan_sta[pmlmeext->sitesurvey_res.channel_idx].ChannelNum;
++		k = 0;
++		while ((k < MAX_CHANNEL_NUM) && (chplan_new[k].ChannelNum != 0)) {
++			if (chplan_new[k].ChannelNum == channel) {
++				RTW_INFO("%s: change mlme_ext sitesurvey channel index from %d to %d\n",
++					__FUNCTION__, pmlmeext->sitesurvey_res.channel_idx, k);
++				pmlmeext->sitesurvey_res.channel_idx = k;
++				break;
++			}
++			k++;
++		}
++#endif
++	}
++
++	/* If channel is used by AP, set channel scan type to active */
++	channel = bssid->Configuration.DSConfig;
++	chplan_new = pmlmeext->channel_set;
++	i = 0;
++	while ((i < MAX_CHANNEL_NUM) && (chplan_new[i].ChannelNum != 0)) {
++		if (chplan_new[i].ChannelNum == channel) {
++			if (chplan_new[i].ScanType == SCAN_PASSIVE) {
++				/* 5G Bnad 2, 3 (DFS) doesn't change to active scan */
++				if (channel >= 52 && channel <= 144)
++					break;
++
++				chplan_new[i].ScanType = SCAN_ACTIVE;
++				RTW_INFO("%s: change channel %d scan type from passive to active\n",
++					 __FUNCTION__, channel);
++			}
++			break;
++		}
++		i++;
++	}
++}
++#endif
++
++/****************************************************************************
++
++Following are the functions to report events
++
++*****************************************************************************/
++
++void report_survey_event(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct cmd_obj *pcmd_obj;
++	u8	*pevtcmd;
++	u32 cmdsz;
++	struct survey_event	*psurvey_evt;
++	struct C2HEvent_Header *pc2h_evt_hdr;
++	struct mlme_ext_priv *pmlmeext;
++	struct cmd_priv *pcmdpriv;
++	/* u8 *pframe = precv_frame->u.hdr.rx_data; */
++	/* uint len = precv_frame->u.hdr.len; */
++
++	if (!padapter)
++		return;
++
++	pmlmeext = &padapter->mlmeextpriv;
++	pcmdpriv = &padapter->cmdpriv;
++
++
++	pcmd_obj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (pcmd_obj == NULL)
++		return;
++
++	cmdsz = (sizeof(struct survey_event) + sizeof(struct C2HEvent_Header));
++	pevtcmd = (u8 *)rtw_zmalloc(cmdsz);
++	if (pevtcmd == NULL) {
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		return;
++	}
++
++	_rtw_init_listhead(&pcmd_obj->list);
++
++	pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++	pcmd_obj->cmdsz = cmdsz;
++	pcmd_obj->parmbuf = pevtcmd;
++
++	pcmd_obj->rsp = NULL;
++	pcmd_obj->rspsz  = 0;
++
++	pc2h_evt_hdr = (struct C2HEvent_Header *)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct survey_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_Survey);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	psurvey_evt = (struct survey_event *)(pevtcmd + sizeof(struct C2HEvent_Header));
++
++	if (collect_bss_info(padapter, precv_frame, (WLAN_BSSID_EX *)&psurvey_evt->bss) == _FAIL) {
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		rtw_mfree((u8 *)pevtcmd, cmdsz);
++		return;
++	}
++
++#ifdef CONFIG_80211D
++	process_80211d(padapter, &psurvey_evt->bss);
++#endif
++
++	rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++
++	pmlmeext->sitesurvey_res.bss_cnt++;
++
++	return;
++
++}
++
++void report_surveydone_event(_adapter *padapter)
++{
++	struct cmd_obj *pcmd_obj;
++	u8	*pevtcmd;
++	u32 cmdsz;
++	struct surveydone_event *psurveydone_evt;
++	struct C2HEvent_Header	*pc2h_evt_hdr;
++	struct mlme_ext_priv		*pmlmeext = &padapter->mlmeextpriv;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++
++	pcmd_obj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (pcmd_obj == NULL)
++		return;
++
++	cmdsz = (sizeof(struct surveydone_event) + sizeof(struct C2HEvent_Header));
++	pevtcmd = (u8 *)rtw_zmalloc(cmdsz);
++	if (pevtcmd == NULL) {
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		return;
++	}
++
++	_rtw_init_listhead(&pcmd_obj->list);
++
++	pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++	pcmd_obj->cmdsz = cmdsz;
++	pcmd_obj->parmbuf = pevtcmd;
++
++	pcmd_obj->rsp = NULL;
++	pcmd_obj->rspsz  = 0;
++
++	pc2h_evt_hdr = (struct C2HEvent_Header *)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct surveydone_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_SurveyDone);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	psurveydone_evt = (struct surveydone_event *)(pevtcmd + sizeof(struct C2HEvent_Header));
++	psurveydone_evt->bss_cnt = pmlmeext->sitesurvey_res.bss_cnt;
++
++	RTW_INFO("survey done event(%x) band:%d for "ADPT_FMT"\n", psurveydone_evt->bss_cnt, padapter->setband, ADPT_ARG(padapter));
++
++	rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++
++	return;
++
++}
++
++u32 report_join_res(_adapter *padapter, int res)
++{
++	struct cmd_obj *pcmd_obj;
++	u8	*pevtcmd;
++	u32 cmdsz;
++	struct joinbss_event		*pjoinbss_evt;
++	struct C2HEvent_Header	*pc2h_evt_hdr;
++	struct mlme_ext_priv		*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++	u32 ret = _FAIL;
++
++	pcmd_obj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (pcmd_obj == NULL)
++		goto exit;
++
++	cmdsz = (sizeof(struct joinbss_event) + sizeof(struct C2HEvent_Header));
++	pevtcmd = (u8 *)rtw_zmalloc(cmdsz);
++	if (pevtcmd == NULL) {
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		goto exit;
++	}
++
++	_rtw_init_listhead(&pcmd_obj->list);
++
++	pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++	pcmd_obj->cmdsz = cmdsz;
++	pcmd_obj->parmbuf = pevtcmd;
++
++	pcmd_obj->rsp = NULL;
++	pcmd_obj->rspsz  = 0;
++
++	pc2h_evt_hdr = (struct C2HEvent_Header *)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct joinbss_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_JoinBss);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	pjoinbss_evt = (struct joinbss_event *)(pevtcmd + sizeof(struct C2HEvent_Header));
++	_rtw_memcpy((unsigned char *)(&(pjoinbss_evt->network.network)), &(pmlmeinfo->network), sizeof(WLAN_BSSID_EX));
++	pjoinbss_evt->network.join_res	= pjoinbss_evt->network.aid = res;
++
++	RTW_INFO("report_join_res(%d)\n", res);
++
++
++	rtw_joinbss_event_prehandle(padapter, (u8 *)&pjoinbss_evt->network);
++
++
++	ret = rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++
++exit:
++	return ret;
++}
++
++void report_wmm_edca_update(_adapter *padapter)
++{
++	struct cmd_obj *pcmd_obj;
++	u8	*pevtcmd;
++	u32 cmdsz;
++	struct wmm_event		*pwmm_event;
++	struct C2HEvent_Header	*pc2h_evt_hdr;
++	struct mlme_ext_priv		*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++
++	pcmd_obj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (pcmd_obj == NULL)
++		return;
++
++	cmdsz = (sizeof(struct wmm_event) + sizeof(struct C2HEvent_Header));
++	pevtcmd = (u8 *)rtw_zmalloc(cmdsz);
++	if (pevtcmd == NULL) {
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		return;
++	}
++
++	_rtw_init_listhead(&pcmd_obj->list);
++
++	pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++	pcmd_obj->cmdsz = cmdsz;
++	pcmd_obj->parmbuf = pevtcmd;
++
++	pcmd_obj->rsp = NULL;
++	pcmd_obj->rspsz  = 0;
++
++	pc2h_evt_hdr = (struct C2HEvent_Header *)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct wmm_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_WMM);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	pwmm_event = (struct wmm_event *)(pevtcmd + sizeof(struct C2HEvent_Header));
++	pwmm_event->wmm = 0;
++
++	rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++
++	return;
++
++}
++
++u32 report_del_sta_event(_adapter *padapter, unsigned char *MacAddr, unsigned short reason, bool enqueue, u8 locally_generated)
++{
++	struct cmd_obj *pcmd_obj;
++	u8	*pevtcmd;
++	u32 cmdsz;
++	struct sta_info *psta;
++	int	mac_id = -1;
++	struct stadel_event			*pdel_sta_evt;
++	struct C2HEvent_Header	*pc2h_evt_hdr;
++	struct mlme_ext_priv		*pmlmeext = &padapter->mlmeextpriv;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++	u8 res = _SUCCESS;
++
++	/* prepare cmd parameter */
++	cmdsz = (sizeof(struct stadel_event) + sizeof(struct C2HEvent_Header));
++	pevtcmd = (u8 *)rtw_zmalloc(cmdsz);
++	if (pevtcmd == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pc2h_evt_hdr = (struct C2HEvent_Header *)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct stadel_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_DelSTA);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	pdel_sta_evt = (struct stadel_event *)(pevtcmd + sizeof(struct C2HEvent_Header));
++	_rtw_memcpy((unsigned char *)(&(pdel_sta_evt->macaddr)), MacAddr, ETH_ALEN);
++	_rtw_memcpy((unsigned char *)(pdel_sta_evt->rsvd), (unsigned char *)(&reason), 2);
++	psta = rtw_get_stainfo(&padapter->stapriv, MacAddr);
++	if (psta)
++		mac_id = (int)psta->mac_id;
++	else
++		mac_id = (-1);
++	pdel_sta_evt->mac_id = mac_id;
++	pdel_sta_evt->locally_generated = locally_generated;
++
++	if (!enqueue) {
++		/* do directly */
++		rtw_stadel_event_callback(padapter, (u8 *)pdel_sta_evt);
++		rtw_mfree(pevtcmd, cmdsz);
++	} else {
++		pcmd_obj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (pcmd_obj == NULL) {
++			rtw_mfree(pevtcmd, cmdsz);
++			res = _FAIL;
++			goto exit;
++		}
++
++		_rtw_init_listhead(&pcmd_obj->list);
++		pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++		pcmd_obj->cmdsz = cmdsz;
++		pcmd_obj->parmbuf = pevtcmd;
++
++		pcmd_obj->rsp = NULL;
++		pcmd_obj->rspsz  = 0;
++
++		res = rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++	}
++
++exit:
++
++	RTW_INFO(FUNC_ADPT_FMT" "MAC_FMT" mac_id=%d, enqueue:%d, res:%u\n"
++		, FUNC_ADPT_ARG(padapter), MAC_ARG(MacAddr), mac_id, enqueue, res);
++
++	return res;
++}
++
++void report_add_sta_event(_adapter *padapter, unsigned char *MacAddr)
++{
++	struct cmd_obj *pcmd_obj;
++	u8	*pevtcmd;
++	u32 cmdsz;
++	struct stassoc_event		*padd_sta_evt;
++	struct C2HEvent_Header	*pc2h_evt_hdr;
++	struct mlme_ext_priv		*pmlmeext = &padapter->mlmeextpriv;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++
++	pcmd_obj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (pcmd_obj == NULL)
++		return;
++
++	cmdsz = (sizeof(struct stassoc_event) + sizeof(struct C2HEvent_Header));
++	pevtcmd = (u8 *)rtw_zmalloc(cmdsz);
++	if (pevtcmd == NULL) {
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		return;
++	}
++
++	_rtw_init_listhead(&pcmd_obj->list);
++
++	pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++	pcmd_obj->cmdsz = cmdsz;
++	pcmd_obj->parmbuf = pevtcmd;
++
++	pcmd_obj->rsp = NULL;
++	pcmd_obj->rspsz  = 0;
++
++	pc2h_evt_hdr = (struct C2HEvent_Header *)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct stassoc_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_AddSTA);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	padd_sta_evt = (struct stassoc_event *)(pevtcmd + sizeof(struct C2HEvent_Header));
++	_rtw_memcpy((unsigned char *)(&(padd_sta_evt->macaddr)), MacAddr, ETH_ALEN);
++
++	RTW_INFO("report_add_sta_event: add STA\n");
++
++	rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++
++	return;
++}
++
++
++bool rtw_port_switch_chk(_adapter *adapter)
++{
++	bool switch_needed = _FALSE;
++#ifdef CONFIG_CONCURRENT_MODE
++#ifdef CONFIG_RUNTIME_PORT_SWITCH
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct pwrctrl_priv *pwrctl = dvobj_to_pwrctl(dvobj);
++	_adapter *if_port0 = NULL;
++	_adapter *if_port1 = NULL;
++	struct mlme_ext_info *if_port0_mlmeinfo = NULL;
++	struct mlme_ext_info *if_port1_mlmeinfo = NULL;
++	int i;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		if (get_hw_port(dvobj->padapters[i]) == HW_PORT0) {
++			if_port0 = dvobj->padapters[i];
++			if_port0_mlmeinfo = &(if_port0->mlmeextpriv.mlmext_info);
++		} else if (get_hw_port(dvobj->padapters[i]) == HW_PORT1) {
++			if_port1 = dvobj->padapters[i];
++			if_port1_mlmeinfo = &(if_port1->mlmeextpriv.mlmext_info);
++		}
++	}
++
++	if (if_port0 == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (if_port1 == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++#ifdef DBG_RUNTIME_PORT_SWITCH
++	RTW_INFO(FUNC_ADPT_FMT" wowlan_mode:%u\n"
++		 ADPT_FMT", port0, mlmeinfo->state:0x%08x, p2p_state:%d, %d\n"
++		 ADPT_FMT", port1, mlmeinfo->state:0x%08x, p2p_state:%d, %d\n",
++		 FUNC_ADPT_ARG(adapter), pwrctl->wowlan_mode,
++		ADPT_ARG(if_port0), if_port0_mlmeinfo->state, rtw_p2p_state(&if_port0->wdinfo), rtw_p2p_chk_state(&if_port0->wdinfo, P2P_STATE_NONE),
++		ADPT_ARG(if_port1), if_port1_mlmeinfo->state, rtw_p2p_state(&if_port1->wdinfo), rtw_p2p_chk_state(&if_port1->wdinfo, P2P_STATE_NONE));
++#endif /* DBG_RUNTIME_PORT_SWITCH */
++
++#ifdef CONFIG_WOWLAN
++	/* WOWLAN interface(primary, for now) should be port0 */
++	if (pwrctl->wowlan_mode == _TRUE) {
++		if (!is_primary_adapter(if_port0)) {
++			RTW_INFO("%s "ADPT_FMT" enable WOWLAN\n", __func__, ADPT_ARG(if_port1));
++			switch_needed = _TRUE;
++		}
++		goto exit;
++	}
++#endif /* CONFIG_WOWLAN */
++
++	/* AP should use port0 for ctl frame's ack */
++	if ((if_port1_mlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) {
++		RTW_INFO("%s "ADPT_FMT" is AP/GO\n", __func__, ADPT_ARG(if_port1));
++		switch_needed = _TRUE;
++		goto exit;
++	}
++
++	/* GC should use port0 for p2p ps */
++	if (((if_port1_mlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE)
++	    && (if_port1_mlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)
++#ifdef CONFIG_P2P
++	    && !rtw_p2p_chk_state(&if_port1->wdinfo, P2P_STATE_NONE)
++#endif
++	    && !check_fwstate(&if_port1->mlmepriv, WIFI_UNDER_WPS)
++	   ) {
++		RTW_INFO("%s "ADPT_FMT" is GC\n", __func__, ADPT_ARG(if_port1));
++		switch_needed = _TRUE;
++		goto exit;
++	}
++
++	/* port1 linked, but port0 not linked */
++	if ((if_port1_mlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)
++	    && !(if_port0_mlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)
++	    && ((if_port0_mlmeinfo->state & 0x03) != WIFI_FW_AP_STATE)
++	   ) {
++		RTW_INFO("%s "ADPT_FMT" is SINGLE_LINK\n", __func__, ADPT_ARG(if_port1));
++		switch_needed = _TRUE;
++		goto exit;
++	}
++
++exit:
++#ifdef DBG_RUNTIME_PORT_SWITCH
++	RTW_INFO(FUNC_ADPT_FMT" ret:%d\n", FUNC_ADPT_ARG(adapter), switch_needed);
++#endif /* DBG_RUNTIME_PORT_SWITCH */
++#endif /* CONFIG_RUNTIME_PORT_SWITCH */
++#endif /* CONFIG_CONCURRENT_MODE */
++	return switch_needed;
++}
++
++/****************************************************************************
++
++Following are the event callback functions
++
++*****************************************************************************/
++
++/* for sta/adhoc mode */
++void update_sta_info(_adapter *padapter, struct sta_info *psta)
++{
++	_irqL	irqL;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	/* ERP */
++	VCS_update(padapter, psta);
++
++#ifdef CONFIG_80211N_HT
++	/* HT */
++	if (pmlmepriv->htpriv.ht_option) {
++		psta->htpriv.ht_option = _TRUE;
++
++		psta->htpriv.ampdu_enable = pmlmepriv->htpriv.ampdu_enable;
++
++		psta->htpriv.rx_ampdu_min_spacing = (pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & IEEE80211_HT_CAP_AMPDU_DENSITY) >> 2;
++
++		if (support_short_GI(padapter, &(pmlmeinfo->HT_caps), CHANNEL_WIDTH_20))
++			psta->htpriv.sgi_20m = _TRUE;
++
++		if (support_short_GI(padapter, &(pmlmeinfo->HT_caps), CHANNEL_WIDTH_40))
++			psta->htpriv.sgi_40m = _TRUE;
++
++		psta->qos_option = _TRUE;
++
++		psta->htpriv.ldpc_cap = pmlmepriv->htpriv.ldpc_cap;
++		psta->htpriv.stbc_cap = pmlmepriv->htpriv.stbc_cap;
++		psta->htpriv.beamform_cap = pmlmepriv->htpriv.beamform_cap;
++
++		_rtw_memcpy(&psta->htpriv.ht_cap, &pmlmeinfo->HT_caps, sizeof(struct rtw_ieee80211_ht_cap));
++	} else
++#endif /* CONFIG_80211N_HT */
++	{
++#ifdef CONFIG_80211N_HT
++		psta->htpriv.ht_option = _FALSE;
++
++		psta->htpriv.ampdu_enable = _FALSE;
++
++		psta->htpriv.sgi_20m = _FALSE;
++		psta->htpriv.sgi_40m = _FALSE;
++#endif /* CONFIG_80211N_HT */
++		psta->qos_option = _FALSE;
++
++	}
++
++#ifdef CONFIG_80211N_HT
++	psta->htpriv.ch_offset = pmlmeext->cur_ch_offset;
++
++	psta->htpriv.agg_enable_bitmap = 0x0;/* reset */
++	psta->htpriv.candidate_tid_bitmap = 0x0;/* reset */
++#endif /* CONFIG_80211N_HT */
++
++	psta->bw_mode = pmlmeext->cur_bwmode;
++
++	/* QoS */
++	if (pmlmepriv->qospriv.qos_option)
++		psta->qos_option = _TRUE;
++
++#ifdef CONFIG_80211AC_VHT
++	_rtw_memcpy(&psta->vhtpriv, &pmlmepriv->vhtpriv, sizeof(struct vht_priv));
++#endif /* CONFIG_80211AC_VHT */
++
++	update_ldpc_stbc_cap(psta);
++
++	_enter_critical_bh(&psta->lock, &irqL);
++	psta->state = _FW_LINKED;
++	_exit_critical_bh(&psta->lock, &irqL);
++
++}
++
++static void rtw_mlmeext_disconnect(_adapter *padapter)
++{
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++	u8 state_backup = (pmlmeinfo->state & 0x03);
++	u8 ASIX_ID[] = {0x00, 0x0E, 0xC6};
++
++	/* set_opmode_cmd(padapter, infra_client_with_mlme); */
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_MLME_DISCONNECT, 0);
++	rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, null_addr);
++
++	/* set MSR to no link state->infra. mode */
++	Set_MSR(padapter, _HW_STATE_STATION_);
++
++	/* check if sta is ASIX peer and fix IOT issue if it is. */
++	if (_rtw_memcmp(get_my_bssid(&pmlmeinfo->network) , ASIX_ID , 3)) {
++		u8 iot_flag = _FALSE;
++		rtw_hal_set_hwreg(padapter, HW_VAR_ASIX_IOT, (u8 *)(&iot_flag));
++	}
++	pmlmeinfo->state = WIFI_FW_NULL_STATE;
++
++#ifdef CONFIG_MCC_MODE
++	/* mcc disconnect setting before download LPS rsvd page */
++	rtw_hal_set_mcc_setting_disconnect(padapter);
++#endif /* CONFIG_MCC_MODE */
++
++	if (state_backup == WIFI_FW_STATION_STATE) {
++		if (rtw_port_switch_chk(padapter) == _TRUE) {
++			rtw_hal_set_hwreg(padapter, HW_VAR_PORT_SWITCH, NULL);
++#ifdef CONFIG_LPS
++			{
++				_adapter *port0_iface = dvobj_get_port0_adapter(adapter_to_dvobj(padapter));
++				if (port0_iface)
++					rtw_lps_ctrl_wk_cmd(port0_iface, LPS_CTRL_CONNECT, 0);
++			}
++#endif
++		}
++	}
++
++	/* switch to the 20M Hz mode after disconnect */
++	pmlmeext->cur_bwmode = CHANNEL_WIDTH_20;
++	pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++#ifdef CONFIG_FCS_MODE
++	if (EN_FCS(padapter))
++		rtw_hal_set_hwreg(padapter, HW_VAR_STOP_FCS_MODE, NULL);
++#endif
++
++#ifdef CONFIG_DFS_MASTER
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE))
++		rtw_dfs_master_status_apply(padapter, MLME_AP_STOPPED);
++	else if (check_fwstate(pmlmepriv, WIFI_STATION_STATE))
++		rtw_dfs_master_status_apply(padapter, MLME_STA_DISCONNECTED);
++#endif
++
++	{
++		u8 ch, bw, offset;
++
++		if (rtw_mi_get_ch_setting_union_no_self(padapter, &ch, &bw, &offset) != 0) {
++			set_channel_bwmode(padapter, ch, offset, bw);
++			rtw_mi_update_union_chan_inf(padapter, ch, offset, bw);
++		}
++	}
++
++	flush_all_cam_entry(padapter);
++
++	_cancel_timer_ex(&pmlmeext->link_timer);
++
++	/* pmlmepriv->LinkDetectInfo.TrafficBusyState = _FALSE; */
++	pmlmepriv->LinkDetectInfo.TrafficTransitionCount = 0;
++	pmlmepriv->LinkDetectInfo.LowPowerTransitionCount = 0;
++
++#ifdef CONFIG_TDLS
++	padapter->tdlsinfo.ap_prohibited = _FALSE;
++
++	/* For TDLS channel switch, currently we only allow it to work in wifi logo test mode */
++	if (padapter->registrypriv.wifi_spec == 1)
++		padapter->tdlsinfo.ch_switch_prohibited = _FALSE;
++#endif /* CONFIG_TDLS */
++
++}
++
++void mlmeext_joinbss_event_callback(_adapter *padapter, int join_res)
++{
++	struct sta_info		*psta, *psta_bmc;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	u8	join_type;
++#ifdef CONFIG_ARP_KEEP_ALIVE
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++#endif
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++
++	if (join_res < 0) {
++		join_type = 1;
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
++		rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, null_addr);
++
++		goto exit_mlmeext_joinbss_event_callback;
++	}
++#ifdef CONFIG_ARP_KEEP_ALIVE
++	pmlmepriv->bGetGateway = 1;
++#endif
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) {
++		/* update bc/mc sta_info */
++		update_bmc_sta(padapter);
++	}
++
++
++	/* turn on dynamic functions */
++	/* Switch_DM_Func(padapter, DYNAMIC_ALL_FUNC_ENABLE, _TRUE); */
++
++	/* update IOT-releated issue */
++	update_IOT_info(padapter);
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_BASIC_RATE, cur_network->SupportedRates);
++
++	/* BCN interval */
++	rtw_hal_set_hwreg(padapter, HW_VAR_BEACON_INTERVAL, (u8 *)(&pmlmeinfo->bcn_interval));
++
++	/* udpate capability */
++	update_capinfo(padapter, pmlmeinfo->capability);
++
++	/* WMM, Update EDCA param */
++	WMMOnAssocRsp(padapter);
++
++	/* HT */
++	HTOnAssocRsp(padapter);
++
++#ifdef CONFIG_80211AC_VHT
++	/* VHT */
++	VHTOnAssocRsp(padapter);
++#endif
++
++	psta = rtw_get_stainfo(pstapriv, cur_network->MacAddress);
++	if (psta) { /* only for infra. mode */
++		/* RTW_INFO("set_sta_rate\n"); */
++
++		psta->wireless_mode = pmlmeext->cur_wireless_mode;
++
++		/* set per sta rate after updating HT cap. */
++		set_sta_rate(padapter, psta);
++
++		rtw_sta_media_status_rpt(padapter, psta, 1);
++
++		/* wakeup macid after join bss successfully to ensure
++			the subsequent data frames can be sent out normally */
++		rtw_hal_macid_wakeup(padapter, psta->mac_id);
++	}
++
++#ifndef CONFIG_IOCTL_CFG80211
++	if (is_wep_enc(psecuritypriv->dot11PrivacyAlgrthm))
++		rtw_sec_restore_wep_key(padapter);
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	if (rtw_port_switch_chk(padapter) == _TRUE)
++		rtw_hal_set_hwreg(padapter, HW_VAR_PORT_SWITCH, NULL);
++
++	join_type = 2;
++	rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE) {
++		/* correcting TSF */
++		correct_TSF(padapter, pmlmeext);
++
++		/* set_link_timer(pmlmeext, DISCONNECT_TO); */
++	}
++
++#ifdef CONFIG_LPS
++	if (get_hw_port(padapter) == HW_PORT0)
++		rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_CONNECT, 0);
++#endif
++
++#ifdef CONFIG_BEAMFORMING
++	if (psta)
++		beamforming_wk_cmd(padapter, BEAMFORMING_CTRL_ENTER, (u8 *)psta, sizeof(struct sta_info), 0);
++#endif/*CONFIG_BEAMFORMING*/
++
++exit_mlmeext_joinbss_event_callback:
++
++	rtw_join_done_chk_ch(padapter, join_res);
++
++	RTW_INFO("=>%s - End to Connection without 4-way\n", __FUNCTION__);
++}
++
++/* currently only adhoc mode will go here */
++void mlmeext_sta_add_event_callback(_adapter *padapter, struct sta_info *psta)
++{
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8	join_type;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) {
++		if (pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS) { /* adhoc master or sta_count>1 */
++			/* nothing to do */
++		} else { /* adhoc client */
++			/* update TSF Value */
++			/* update_TSF(pmlmeext, pframe, len);			 */
++
++			/* correcting TSF */
++			correct_TSF(padapter, pmlmeext);
++
++			/* start beacon */
++			if (send_beacon(padapter) == _FAIL)
++				rtw_warn_on(1);
++
++			pmlmeinfo->state |= WIFI_FW_ASSOC_SUCCESS;
++		}
++
++		join_type = 2;
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
++	}
++
++	/* update adhoc sta_info */
++	update_sta_info(padapter, psta);
++
++	rtw_hal_update_sta_rate_mask(padapter, psta);
++
++	/* ToDo: HT for Ad-hoc */
++	psta->wireless_mode = rtw_check_network_type(psta->bssrateset, psta->bssratelen, pmlmeext->cur_channel);
++	psta->raid = rtw_hal_networktype_to_raid(padapter, psta);
++
++	/* rate radaptive */
++	Update_RA_Entry(padapter, psta);
++}
++
++void mlmeext_sta_del_event_callback(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (is_client_associated_to_ap(padapter) || is_IBSS_empty(padapter))
++		rtw_mlmeext_disconnect(padapter);
++
++}
++
++/****************************************************************************
++
++Following are the functions for the timer handlers
++
++*****************************************************************************/
++void _linked_info_dump(_adapter *padapter)
++{
++	int i;
++	struct mlme_ext_priv    *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info    *pmlmeinfo = &(pmlmeext->mlmext_info);
++	HAL_DATA_TYPE *HalData = GET_HAL_DATA(padapter);
++	int UndecoratedSmoothedPWDB = 0;
++
++	if (padapter->bLinkInfoDump) {
++
++		RTW_INFO("\n============["ADPT_FMT"] linked status check ===================\n", ADPT_ARG(padapter));
++
++		if ((pmlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE) {
++			rtw_hal_get_def_var(padapter, HAL_DEF_UNDERCORATEDSMOOTHEDPWDB, &UndecoratedSmoothedPWDB);
++
++			RTW_INFO("AP[" MAC_FMT "] - UndecoratedSmoothedPWDB:%d\n",
++				MAC_ARG(padapter->mlmepriv.cur_network.network.MacAddress), UndecoratedSmoothedPWDB);
++		} else if ((pmlmeinfo->state & 0x03) == _HW_STATE_AP_) {
++			_irqL irqL;
++			_list	*phead, *plist;
++
++			struct sta_info *psta = NULL;
++			struct sta_priv *pstapriv = &padapter->stapriv;
++
++			_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++			phead = &pstapriv->asoc_list;
++			plist = get_next(phead);
++			while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++				psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++				plist = get_next(plist);
++
++				RTW_INFO("STA[" MAC_FMT "]:UndecoratedSmoothedPWDB:%d\n",
++					MAC_ARG(psta->hwaddr), psta->rssi_stat.UndecoratedSmoothedPWDB);
++			}
++			_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++		}
++
++		/*============  tx info ============	*/
++		rtw_hal_get_def_var(padapter, HW_DEF_RA_INFO_DUMP, RTW_DBGDUMP);
++
++		rtw_hal_set_odm_var(padapter, HAL_ODM_RX_INFO_DUMP, RTW_DBGDUMP, _FALSE);
++
++	}
++
++
++}
++/********************************************************************
++
++When station does not receive any packet in MAX_CONTINUAL_NORXPACKET_COUNT*2 seconds,
++recipient station will teardown the block ack by issuing DELBA frame.
++
++*********************************************************************/
++void rtw_delba_check(_adapter *padapter, struct sta_info *psta, u8 from_timer)
++{
++	int	i = 0;
++	int ret = _SUCCESS;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	/*
++		IOT issue,occur Broadcom ap(Buffalo WZR-D1800H,Netgear R6300).
++		AP is originator.AP does not transmit unicast packets when STA response its BAR.
++		This case probably occur ap issue BAR after AP builds BA.
++
++		Follow 802.11 spec, STA shall maintain an inactivity timer for every negotiated Block Ack setup.
++		The inactivity timer is not reset when MPDUs corresponding to other TIDs are received.
++	*/
++	if (pmlmeinfo->assoc_AP_vendor == HT_IOT_PEER_BROADCOM) {
++		for (i = 0; i < TID_NUM ; i++) {
++			if ((psta->recvreorder_ctrl[i].enable) && 
++                        (sta_rx_data_qos_pkts(psta, i) == sta_last_rx_data_qos_pkts(psta, i)) ) {			
++					if (_TRUE == rtw_inc_and_chk_continual_no_rx_packet(psta, i)) {					
++						/* send a DELBA frame to the peer STA with the Reason Code field set to TIMEOUT */
++						if (!from_timer)
++							ret = issue_del_ba_ex(padapter, psta->hwaddr, i, 39, 0, 3, 1);
++						else
++							issue_del_ba(padapter,  psta->hwaddr, i, 39, 0);
++						psta->recvreorder_ctrl[i].enable = _FALSE;
++						if (ret != _FAIL)
++							psta->recvreorder_ctrl[i].ampdu_size = RX_AMPDU_SIZE_INVALID;
++						rtw_reset_continual_no_rx_packet(psta, i);
++					}				
++			} else {
++				/* The inactivity timer is reset when MPDUs to the TID is received. */
++				rtw_reset_continual_no_rx_packet(psta, i);
++			}
++		}
++	}
++}
++
++u8 chk_ap_is_alive(_adapter *padapter, struct sta_info *psta)
++{
++	u8 ret = _FALSE;
++	int i = 0;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++#ifdef DBG_EXPIRATION_CHK
++	RTW_INFO(FUNC_ADPT_FMT" rx:"STA_PKTS_FMT", beacon:%llu, probersp_to_self:%llu"
++		/*", probersp_bm:%llu, probersp_uo:%llu, probereq:%llu, BI:%u"*/
++		 ", retry:%u\n"
++		 , FUNC_ADPT_ARG(padapter)
++		 , STA_RX_PKTS_DIFF_ARG(psta)
++		, psta->sta_stats.rx_beacon_pkts - psta->sta_stats.last_rx_beacon_pkts
++		, psta->sta_stats.rx_probersp_pkts - psta->sta_stats.last_rx_probersp_pkts
++		/*, psta->sta_stats.rx_probersp_bm_pkts - psta->sta_stats.last_rx_probersp_bm_pkts
++		, psta->sta_stats.rx_probersp_uo_pkts - psta->sta_stats.last_rx_probersp_uo_pkts
++		, psta->sta_stats.rx_probereq_pkts - psta->sta_stats.last_rx_probereq_pkts
++		 , pmlmeinfo->bcn_interval*/
++		 , pmlmeext->retry
++		);
++
++	RTW_INFO(FUNC_ADPT_FMT" tx_pkts:%llu, link_count:%u\n", FUNC_ADPT_ARG(padapter)
++		 , padapter->xmitpriv.tx_pkts
++		 , pmlmeinfo->link_count
++		);
++#endif
++
++	if ((sta_rx_data_pkts(psta) == sta_last_rx_data_pkts(psta))
++	    && sta_rx_beacon_pkts(psta) == sta_last_rx_beacon_pkts(psta)
++	    && sta_rx_probersp_pkts(psta) == sta_last_rx_probersp_pkts(psta)
++	   )
++		ret = _FALSE;
++	else
++		ret = _TRUE;
++
++	sta_update_last_rx_pkts(psta);
++
++	/*
++		record last rx data packets for every tid.
++	*/
++	for (i = 0; i < TID_NUM; i++)
++		psta->sta_stats.last_rx_data_qos_pkts[i] = psta->sta_stats.rx_data_qos_pkts[i];
++
++	return ret;
++}
++
++u8 chk_adhoc_peer_is_alive(struct sta_info *psta)
++{
++	u8 ret = _TRUE;
++
++#ifdef DBG_EXPIRATION_CHK
++	RTW_INFO("sta:"MAC_FMT", rssi:%d, rx:"STA_PKTS_FMT", beacon:%llu, probersp_to_self:%llu"
++		/*", probersp_bm:%llu, probersp_uo:%llu, probereq:%llu, BI:%u"*/
++		 ", expire_to:%u\n"
++		 , MAC_ARG(psta->hwaddr)
++		 , psta->rssi_stat.UndecoratedSmoothedPWDB
++		 , STA_RX_PKTS_DIFF_ARG(psta)
++		, psta->sta_stats.rx_beacon_pkts - psta->sta_stats.last_rx_beacon_pkts
++		, psta->sta_stats.rx_probersp_pkts - psta->sta_stats.last_rx_probersp_pkts
++		/*, psta->sta_stats.rx_probersp_bm_pkts - psta->sta_stats.last_rx_probersp_bm_pkts
++		, psta->sta_stats.rx_probersp_uo_pkts - psta->sta_stats.last_rx_probersp_uo_pkts
++		, psta->sta_stats.rx_probereq_pkts - psta->sta_stats.last_rx_probereq_pkts
++		 , pmlmeinfo->bcn_interval*/
++		 , psta->expire_to
++		);
++#endif
++
++	if (sta_rx_data_pkts(psta) == sta_last_rx_data_pkts(psta)
++	    && sta_rx_beacon_pkts(psta) == sta_last_rx_beacon_pkts(psta)
++	    && sta_rx_probersp_pkts(psta) == sta_last_rx_probersp_pkts(psta))
++		ret = _FALSE;
++
++	sta_update_last_rx_pkts(psta);
++
++	return ret;
++}
++
++#ifdef CONFIG_TDLS
++u8 chk_tdls_peer_sta_is_alive(_adapter *padapter, struct sta_info *psta)
++{
++	if ((psta->sta_stats.rx_data_pkts == psta->sta_stats.last_rx_data_pkts)
++	    && (psta->sta_stats.rx_tdls_disc_rsp_pkts == psta->sta_stats.last_rx_tdls_disc_rsp_pkts))
++		return _FALSE;
++
++	return _TRUE;
++}
++
++void linked_status_chk_tdls(_adapter *padapter)
++{
++	struct candidate_pool {
++		struct sta_info *psta;
++		u8 addr[ETH_ALEN];
++	};
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	_irqL irqL;
++	u8 ack_chk;
++	struct sta_info *psta;
++	int i, num_teardown = 0, num_checkalive = 0;
++	_list	*plist, *phead;
++	struct tdls_txmgmt txmgmt;
++	struct candidate_pool checkalive[MAX_ALLOWED_TDLS_STA_NUM];
++	struct candidate_pool teardown[MAX_ALLOWED_TDLS_STA_NUM];
++	u8 tdls_sta_max = _FALSE;
++
++#define ALIVE_MIN 2
++#define ALIVE_MAX 5
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	_rtw_memset(checkalive, 0x00, sizeof(checkalive));
++	_rtw_memset(teardown, 0x00, sizeof(teardown));
++
++	if ((padapter->tdlsinfo.link_established == _TRUE)) {
++		_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++		for (i = 0; i < NUM_STA; i++) {
++			phead = &(pstapriv->sta_hash[i]);
++			plist = get_next(phead);
++
++			while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++				psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++				plist = get_next(plist);
++
++				if (psta->tdls_sta_state & TDLS_LINKED_STATE) {
++					psta->alive_count++;
++					if (psta->alive_count >= ALIVE_MIN) {
++						if (chk_tdls_peer_sta_is_alive(padapter, psta) == _FALSE) {
++							if (psta->alive_count < ALIVE_MAX) {
++								_rtw_memcpy(checkalive[num_checkalive].addr, psta->hwaddr, ETH_ALEN);
++								checkalive[num_checkalive].psta = psta;
++								num_checkalive++;
++							} else {
++								_rtw_memcpy(teardown[num_teardown].addr, psta->hwaddr, ETH_ALEN);
++								teardown[num_teardown].psta = psta;
++								num_teardown++;
++							}
++						} else
++							psta->alive_count = 0;
++					}
++					psta->sta_stats.last_rx_data_pkts = psta->sta_stats.rx_data_pkts;
++					psta->sta_stats.last_rx_tdls_disc_rsp_pkts = psta->sta_stats.rx_tdls_disc_rsp_pkts;
++
++					if ((num_checkalive >= MAX_ALLOWED_TDLS_STA_NUM) || (num_teardown >= MAX_ALLOWED_TDLS_STA_NUM)) {
++						tdls_sta_max = _TRUE;
++						break;
++					}
++				}
++			}
++
++			if (tdls_sta_max == _TRUE)
++				break;
++		}
++		_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++		if (num_checkalive > 0) {
++			for (i = 0; i < num_checkalive; i++) {
++				_rtw_memcpy(txmgmt.peer, checkalive[i].addr, ETH_ALEN);
++				issue_tdls_dis_req(padapter, &txmgmt);
++				issue_tdls_dis_req(padapter, &txmgmt);
++				issue_tdls_dis_req(padapter, &txmgmt);
++			}
++		}
++
++		if (num_teardown > 0) {
++			for (i = 0; i < num_teardown; i++) {
++				RTW_INFO("[%s %d] Send teardown to "MAC_FMT"\n", __FUNCTION__, __LINE__, MAC_ARG(teardown[i].addr));
++				txmgmt.status_code = _RSON_TDLS_TEAR_TOOFAR_;
++				_rtw_memcpy(txmgmt.peer, teardown[i].addr, ETH_ALEN);
++				issue_tdls_teardown(padapter, &txmgmt, _FALSE);
++			}
++		}
++	}
++
++}
++#endif /* CONFIG_TDLS */
++
++/* from_timer == 1 means driver is in LPS */
++void linked_status_chk(_adapter *padapter, u8 from_timer)
++{
++	u32	i;
++	struct sta_info		*psta;
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++#ifdef CONFIG_ARP_KEEP_ALIVE
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++#endif
++
++
++	if (is_client_associated_to_ap(padapter)) {
++		/* linked infrastructure client mode */
++
++		int tx_chk = _SUCCESS, rx_chk = _SUCCESS;
++		int rx_chk_limit;
++		int link_count_limit;
++
++#ifdef CONFIG_MCC_MODE
++		/*
++		 * due to tx ps null date to ao, so ap doest not tx pkt to driver
++		 * we may check chk_ap_is_alive fail, and may issue_probereq to wrong channel under sitesurvey
++		 * don't keep alive check under MCC
++		 */
++		if (rtw_hal_mcc_link_status_chk(padapter, __func__) == _FALSE)
++			return;
++#endif
++
++#if defined(DBG_ROAMING_TEST)
++		rx_chk_limit = 1;
++#elif defined(CONFIG_ACTIVE_KEEP_ALIVE_CHECK) && !defined(CONFIG_LPS_LCLK_WD_TIMER)
++		rx_chk_limit = 4;
++#else
++		rx_chk_limit = 8;
++#endif
++#ifdef CONFIG_ARP_KEEP_ALIVE
++		if (!from_timer && pmlmepriv->bGetGateway == 1) {
++			RTW_INFO("do rtw_gw_addr_query()");
++			if (rtw_gw_addr_query(padapter) == 0)
++				pmlmepriv->bGetGateway = 0;
++			else {
++				_rtw_memset(pmlmepriv->gw_ip, 0, 4);
++				_rtw_memset(pmlmepriv->gw_mac_addr, 0, 6);
++			}
++		}
++#endif
++#ifdef CONFIG_P2P
++		if (!rtw_p2p_chk_state(&padapter->wdinfo, P2P_STATE_NONE)) {
++			if (!from_timer)
++				link_count_limit = 3; /* 8 sec */
++			else
++				link_count_limit = 15; /* 32 sec */
++		} else
++#endif /* CONFIG_P2P */
++		{
++			if (!from_timer)
++				link_count_limit = 7; /* 16 sec */
++			else
++				link_count_limit = 29; /* 60 sec */
++		}
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++		if (ATOMIC_READ(&padapter->tdlsinfo.chsw_info.chsw_on) == _TRUE)
++			return;
++#endif /* CONFIG_TDLS_CH_SW */
++
++#ifdef CONFIG_TDLS_AUTOCHECKALIVE
++		linked_status_chk_tdls(padapter);
++#endif /* CONFIG_TDLS_AUTOCHECKALIVE */
++#endif /* CONFIG_TDLS */
++
++		psta = rtw_get_stainfo(pstapriv, pmlmeinfo->network.MacAddress);
++		if (psta != NULL) {
++			bool is_p2p_enable = _FALSE;
++#ifdef CONFIG_P2P
++			is_p2p_enable = !rtw_p2p_chk_state(&padapter->wdinfo, P2P_STATE_NONE);
++#endif
++
++#ifdef CONFIG_ISSUE_DELBA_WHEN_NO_TRAFFIC 
++			/*issue delba when ap does not tx data packet that is Broadcom ap */
++			rtw_delba_check(padapter, psta, from_timer);
++#endif
++			if (chk_ap_is_alive(padapter, psta) == _FALSE)
++				rx_chk = _FAIL;
++
++			if (pxmitpriv->last_tx_pkts == pxmitpriv->tx_pkts)
++				tx_chk = _FAIL;
++
++#if defined(CONFIG_ACTIVE_KEEP_ALIVE_CHECK) && !defined(CONFIG_LPS_LCLK_WD_TIMER)
++			if (pmlmeext->active_keep_alive_check && (rx_chk == _FAIL || tx_chk == _FAIL)
++				#ifdef CONFIG_MCC_MODE
++				/* Driver don't know operation channel under MCC*/
++				/* So driver don't  do KEEP_ALIVE_CHECK */
++				&& (!rtw_hal_check_mcc_status(padapter, MCC_STATUS_NEED_MCC))
++				#endif
++			) {
++				u8 backup_ch = 0, backup_bw, backup_offset;
++				u8 union_ch = 0, union_bw, union_offset;
++
++				if (!rtw_mi_get_ch_setting_union(padapter, &union_ch, &union_bw, &union_offset)
++					|| pmlmeext->cur_channel != union_ch)
++						goto bypass_active_keep_alive;
++
++				/* switch to correct channel of current network  before issue keep-alive frames */
++				if (rtw_get_oper_ch(padapter) != pmlmeext->cur_channel) {
++					backup_ch = rtw_get_oper_ch(padapter);
++					backup_bw = rtw_get_oper_bw(padapter);
++					backup_offset = rtw_get_oper_choffset(padapter);
++					set_channel_bwmode(padapter, union_ch, union_offset, union_bw);
++				}
++
++				if (rx_chk != _SUCCESS)
++					issue_probereq_ex(padapter, &pmlmeinfo->network.Ssid, psta->hwaddr, 0, 0, 3, 1);
++
++				if ((tx_chk != _SUCCESS && pmlmeinfo->link_count++ == link_count_limit) || rx_chk != _SUCCESS) {
++					tx_chk = issue_nulldata(padapter, psta->hwaddr, 0, 3, 1);
++					/* if tx acked and p2p disabled, set rx_chk _SUCCESS to reset retry count */
++					if (tx_chk == _SUCCESS && !is_p2p_enable)
++						rx_chk = _SUCCESS;
++				}
++
++				/* back to the original operation channel */
++				if (backup_ch > 0)
++					set_channel_bwmode(padapter, backup_ch, backup_offset, backup_bw);
++
++bypass_active_keep_alive:
++				;
++			} else
++#endif /* CONFIG_ACTIVE_KEEP_ALIVE_CHECK */
++			{
++				if (rx_chk != _SUCCESS) {
++					if (pmlmeext->retry == 0) {
++#ifdef DBG_EXPIRATION_CHK
++						RTW_INFO("issue_probereq to trigger probersp, retry=%d\n", pmlmeext->retry);
++#endif
++						issue_probereq_ex(padapter, &pmlmeinfo->network.Ssid, pmlmeinfo->network.MacAddress, 0, 0, 0, 0);
++						issue_probereq_ex(padapter, &pmlmeinfo->network.Ssid, pmlmeinfo->network.MacAddress, 0, 0, 0, 0);
++						issue_probereq_ex(padapter, &pmlmeinfo->network.Ssid, pmlmeinfo->network.MacAddress, 0, 0, 0, 0);
++					}
++				}
++
++				if (tx_chk != _SUCCESS && pmlmeinfo->link_count++ == link_count_limit
++#ifdef CONFIG_MCC_MODE
++				    /* FW tx nulldata under MCC mode, we just check  ap is alive */
++				    && (!rtw_hal_check_mcc_status(padapter, MCC_STATUS_NEED_MCC))
++#endif /* CONFIG_MCC_MODE */
++				   ) {
++#ifdef DBG_EXPIRATION_CHK
++					RTW_INFO("%s issue_nulldata(%d)\n", __FUNCTION__, from_timer ? 1 : 0);
++#endif
++					tx_chk = issue_nulldata_in_interrupt(padapter, NULL, from_timer ? 1 : 0);
++				}
++			}
++
++			if (rx_chk == _FAIL) {
++				pmlmeext->retry++;
++				if (pmlmeext->retry > rx_chk_limit) {
++					RTW_PRINT(FUNC_ADPT_FMT" disconnect or roaming\n",
++						  FUNC_ADPT_ARG(padapter));
++					receive_disconnect(padapter, pmlmeinfo->network.MacAddress
++						, WLAN_REASON_EXPIRATION_CHK, _FALSE);
++					return;
++				}
++			} else
++				pmlmeext->retry = 0;
++
++			if (tx_chk == _FAIL)
++				pmlmeinfo->link_count %= (link_count_limit + 1);
++			else {
++				pxmitpriv->last_tx_pkts = pxmitpriv->tx_pkts;
++				pmlmeinfo->link_count = 0;
++			}
++
++		} /* end of if ((psta = rtw_get_stainfo(pstapriv, passoc_res->network.MacAddress)) != NULL) */
++
++	} else if (is_client_associated_to_ibss(padapter)) {
++		_irqL irqL;
++		_list *phead, *plist, dlist;
++
++		_rtw_init_listhead(&dlist);
++
++		_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++		for (i = 0; i < NUM_STA; i++) {
++
++			phead = &(pstapriv->sta_hash[i]);
++			plist = get_next(phead);
++			while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++				psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++				plist = get_next(plist);
++
++				if (is_broadcast_mac_addr(psta->hwaddr))
++					continue;
++
++				if (chk_adhoc_peer_is_alive(psta) || !psta->expire_to)
++					psta->expire_to = pstapriv->adhoc_expire_to;
++				else
++					psta->expire_to--;
++
++				if (psta->expire_to <= 0) {
++					rtw_list_delete(&psta->list);
++					rtw_list_insert_tail(&psta->list, &dlist);
++				}
++			}
++		}
++
++		_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++		plist = get_next(&dlist);
++		while (rtw_end_of_queue_search(&dlist, plist) == _FALSE) {
++			psta = LIST_CONTAINOR(plist, struct sta_info, list);
++			plist = get_next(plist);
++			rtw_list_delete(&psta->list);
++			RTW_INFO(FUNC_ADPT_FMT" ibss expire "MAC_FMT"\n"
++				, FUNC_ADPT_ARG(padapter), MAC_ARG(psta->hwaddr));
++			report_del_sta_event(padapter, psta->hwaddr, WLAN_REASON_EXPIRATION_CHK, from_timer ? _TRUE : _FALSE, _FALSE);
++		}
++	}
++
++}
++
++void survey_timer_hdl(_adapter *padapter)
++{
++	struct cmd_obj *cmd;
++	struct sitesurvey_parm *psurveyPara;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif
++
++	if (mlmeext_scan_state(pmlmeext) > SCAN_DISABLE) {
++		cmd = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (cmd == NULL) {
++			rtw_warn_on(1);
++			goto exit;
++		}
++
++		psurveyPara = (struct sitesurvey_parm *)rtw_zmalloc(sizeof(struct sitesurvey_parm));
++		if (psurveyPara == NULL) {
++			rtw_warn_on(1);
++			rtw_mfree((unsigned char *)cmd, sizeof(struct cmd_obj));
++			goto exit;
++		}
++
++		init_h2fwcmd_w_parm_no_rsp(cmd, psurveyPara, GEN_CMD_CODE(_SiteSurvey));
++		rtw_enqueue_cmd(pcmdpriv, cmd);
++	}
++
++exit:
++	return;
++}
++
++void link_timer_hdl(_adapter *padapter)
++{
++	/* static unsigned int		rx_pkt = 0; */
++	/* static u64				tx_cnt = 0; */
++	/* struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv); */
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	/* struct sta_priv		*pstapriv = &padapter->stapriv; */
++
++
++	if (pmlmeinfo->state & WIFI_FW_AUTH_NULL) {
++		RTW_INFO("link_timer_hdl:no beacon while connecting\n");
++		pmlmeinfo->state = WIFI_FW_NULL_STATE;
++		report_join_res(padapter, -3);
++	} else if (pmlmeinfo->state & WIFI_FW_AUTH_STATE) {
++		/* re-auth timer */
++		if (++pmlmeinfo->reauth_count > REAUTH_LIMIT) {
++			/* if (pmlmeinfo->auth_algo != dot11AuthAlgrthm_Auto) */
++			/* { */
++			pmlmeinfo->state = 0;
++			report_join_res(padapter, -1);
++			return;
++			/* } */
++			/* else */
++			/* { */
++			/*	pmlmeinfo->auth_algo = dot11AuthAlgrthm_Shared; */
++			/*	pmlmeinfo->reauth_count = 0; */
++			/* } */
++		}
++
++		RTW_INFO("link_timer_hdl: auth timeout and try again\n");
++		pmlmeinfo->auth_seq = 1;
++		issue_auth(padapter, NULL, 0);
++		set_link_timer(pmlmeext, REAUTH_TO);
++	} else if (pmlmeinfo->state & WIFI_FW_ASSOC_STATE) {
++		/* re-assoc timer */
++		if (++pmlmeinfo->reassoc_count > REASSOC_LIMIT) {
++			pmlmeinfo->state = WIFI_FW_NULL_STATE;
++			report_join_res(padapter, -2);
++			return;
++		}
++
++		RTW_INFO("link_timer_hdl: assoc timeout and try again\n");
++		issue_assocreq(padapter);
++		set_link_timer(pmlmeext, REASSOC_TO);
++	}
++
++	return;
++}
++
++void addba_timer_hdl(struct sta_info *psta)
++{
++#ifdef CONFIG_80211N_HT
++	struct ht_priv	*phtpriv;
++
++	if (!psta)
++		return;
++
++	phtpriv = &psta->htpriv;
++
++	if ((phtpriv->ht_option == _TRUE) && (phtpriv->ampdu_enable == _TRUE)) {
++		if (phtpriv->candidate_tid_bitmap)
++			phtpriv->candidate_tid_bitmap = 0x0;
++
++	}
++#endif /* CONFIG_80211N_HT */
++}
++
++#ifdef CONFIG_IEEE80211W
++void report_sta_timeout_event(_adapter *padapter, u8 *MacAddr, unsigned short reason)
++{
++	struct cmd_obj *pcmd_obj;
++	u8	*pevtcmd;
++	u32 cmdsz;
++	struct sta_info *psta;
++	int	mac_id;
++	struct stadel_event			*pdel_sta_evt;
++	struct C2HEvent_Header	*pc2h_evt_hdr;
++	struct mlme_ext_priv		*pmlmeext = &padapter->mlmeextpriv;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++
++	pcmd_obj = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (pcmd_obj == NULL)
++		return;
++
++	cmdsz = (sizeof(struct stadel_event) + sizeof(struct C2HEvent_Header));
++	pevtcmd = (u8 *)rtw_zmalloc(cmdsz);
++	if (pevtcmd == NULL) {
++		rtw_mfree((u8 *)pcmd_obj, sizeof(struct cmd_obj));
++		return;
++	}
++
++	_rtw_init_listhead(&pcmd_obj->list);
++
++	pcmd_obj->cmdcode = GEN_CMD_CODE(_Set_MLME_EVT);
++	pcmd_obj->cmdsz = cmdsz;
++	pcmd_obj->parmbuf = pevtcmd;
++
++	pcmd_obj->rsp = NULL;
++	pcmd_obj->rspsz  = 0;
++
++	pc2h_evt_hdr = (struct C2HEvent_Header *)(pevtcmd);
++	pc2h_evt_hdr->len = sizeof(struct stadel_event);
++	pc2h_evt_hdr->ID = GEN_EVT_CODE(_TimeoutSTA);
++	pc2h_evt_hdr->seq = ATOMIC_INC_RETURN(&pmlmeext->event_seq);
++
++	pdel_sta_evt = (struct stadel_event *)(pevtcmd + sizeof(struct C2HEvent_Header));
++	_rtw_memcpy((unsigned char *)(&(pdel_sta_evt->macaddr)), MacAddr, ETH_ALEN);
++	_rtw_memcpy((unsigned char *)(pdel_sta_evt->rsvd), (unsigned char *)(&reason), 2);
++
++
++	psta = rtw_get_stainfo(&padapter->stapriv, MacAddr);
++	if (psta)
++		mac_id = (int)psta->mac_id;
++	else
++		mac_id = (-1);
++
++	pdel_sta_evt->mac_id = mac_id;
++
++	RTW_INFO("report_del_sta_event: delete STA, mac_id=%d\n", mac_id);
++
++	rtw_enqueue_cmd(pcmdpriv, pcmd_obj);
++
++	return;
++}
++
++void clnt_sa_query_timeout(_adapter *padapter)
++{
++
++	rtw_disassoc_cmd(padapter, 0, _TRUE);
++	rtw_indicate_disconnect(padapter, 0, _FALSE);
++	rtw_free_assoc_resources(padapter, 1);
++
++	RTW_INFO("SA query timeout client disconnect\n");
++}
++
++void sa_query_timer_hdl(struct sta_info *psta)
++{
++	_adapter *padapter = psta->padapter;
++	_irqL irqL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE &&
++	    check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		clnt_sa_query_timeout(padapter);
++	else if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		report_sta_timeout_event(padapter, psta->hwaddr, WLAN_REASON_PREV_AUTH_NOT_VALID);
++}
++
++#endif /* CONFIG_IEEE80211W */
++
++u8 NULL_hdl(_adapter *padapter, u8 *pbuf)
++{
++	return H2C_SUCCESS;
++}
++
++#ifdef CONFIG_AUTO_AP_MODE
++void rtw_start_auto_ap(_adapter *adapter)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	rtw_set_802_11_infrastructure_mode(adapter, Ndis802_11APMode);
++
++	rtw_setopmode_cmd(adapter, Ndis802_11APMode, _TRUE);
++}
++
++static int rtw_auto_ap_start_beacon(_adapter *adapter)
++{
++	int ret = 0;
++	u8 *pbuf = NULL;
++	uint len;
++	u8	supportRate[16];
++	int	sz = 0, rateLen;
++	u8	*ie;
++	u8	wireless_mode, oper_channel;
++	u8 ssid[3] = {0}; /* hidden ssid */
++	u32 ssid_len = sizeof(ssid);
++	struct mlme_priv *pmlmepriv = &(adapter->mlmepriv);
++
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++
++	len = 128;
++	pbuf = rtw_zmalloc(len);
++	if (!pbuf)
++		return -ENOMEM;
++
++
++	/* generate beacon */
++	ie = pbuf;
++
++	/* timestamp will be inserted by hardware */
++	sz += 8;
++	ie += sz;
++
++	/* beacon interval : 2bytes */
++	*(u16 *)ie = cpu_to_le16((u16)100); /* BCN_INTERVAL=100; */
++	sz += 2;
++	ie += 2;
++
++	/* capability info */
++	*(u16 *)ie = 0;
++	*(u16 *)ie |= cpu_to_le16(cap_ESS);
++	*(u16 *)ie |= cpu_to_le16(cap_ShortPremble);
++	/* *(u16*)ie |= cpu_to_le16(cap_Privacy); */
++	sz += 2;
++	ie += 2;
++
++	/* SSID */
++	ie = rtw_set_ie(ie, _SSID_IE_, ssid_len, ssid, &sz);
++
++	/* supported rates */
++	wireless_mode = WIRELESS_11BG_24N;
++	rtw_set_supported_rate(supportRate, wireless_mode) ;
++	rateLen = rtw_get_rateset_len(supportRate);
++	if (rateLen > 8)
++		ie = rtw_set_ie(ie, _SUPPORTEDRATES_IE_, 8, supportRate, &sz);
++	else
++		ie = rtw_set_ie(ie, _SUPPORTEDRATES_IE_, rateLen, supportRate, &sz);
++
++
++	/* DS parameter set */
++	if (rtw_mi_check_status(adapter, MI_LINKED))
++		oper_channel = rtw_mi_get_union_chan(adapter);
++	else
++		oper_channel = adapter_to_dvobj(adapter)->oper_channel;
++
++	ie = rtw_set_ie(ie, _DSSET_IE_, 1, &oper_channel, &sz);
++
++	/* ext supported rates */
++	if (rateLen > 8)
++		ie = rtw_set_ie(ie, _EXT_SUPPORTEDRATES_IE_, (rateLen - 8), (supportRate + 8), &sz);
++
++	RTW_INFO("%s, start auto ap beacon sz=%d\n", __FUNCTION__, sz);
++
++	/* lunch ap mode & start to issue beacon */
++	if (rtw_check_beacon_data(adapter, pbuf,  sz) == _SUCCESS) {
++
++	} else
++		ret = -EINVAL;
++
++
++	rtw_mfree(pbuf, len);
++
++	return ret;
++
++}
++#endif/* CONFIG_AUTO_AP_MODE */
++
++u8 setopmode_hdl(_adapter *padapter, u8 *pbuf)
++{
++	u8	type;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct setopmode_parm *psetop = (struct setopmode_parm *)pbuf;
++
++	if (psetop->mode == Ndis802_11APMode) {
++		pmlmeinfo->state = WIFI_FW_AP_STATE;
++		type = _HW_STATE_AP_;
++#ifdef CONFIG_NATIVEAP_MLME
++		/* start_ap_mode(padapter); */
++#endif
++	} else if (psetop->mode == Ndis802_11Infrastructure) {
++		pmlmeinfo->state &= ~(BIT(0) | BIT(1)); /* clear state */
++		pmlmeinfo->state |= WIFI_FW_STATION_STATE;/* set to 	STATION_STATE */
++		type = _HW_STATE_STATION_;
++	} else if (psetop->mode == Ndis802_11IBSS)
++		type = _HW_STATE_ADHOC_;
++	else if (psetop->mode == Ndis802_11Monitor)
++		type = _HW_STATE_MONITOR_;
++	else
++		type = _HW_STATE_NOLINK_;
++
++#ifdef CONFIG_SUPPORT_FW_MULTI_PORT
++	rtw_hal_set_hwreg(padapter, HW_VAR_PORT_SWITCH, (u8 *)(&type));
++#endif
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_SET_OPMODE, (u8 *)(&type));
++
++#ifdef CONFIG_AUTO_AP_MODE
++	if (psetop->mode == Ndis802_11APMode)
++		rtw_auto_ap_start_beacon(padapter);
++#endif
++
++	if (rtw_port_switch_chk(padapter) == _TRUE) {
++		rtw_hal_set_hwreg(padapter, HW_VAR_PORT_SWITCH, NULL);
++
++		if (psetop->mode == Ndis802_11APMode)
++			adapter_to_pwrctl(padapter)->fw_psmode_iface_id = 0xff; /* ap mode won't dowload rsvd pages */
++		else if (psetop->mode == Ndis802_11Infrastructure) {
++#ifdef CONFIG_LPS
++			_adapter *port0_iface = dvobj_get_port0_adapter(adapter_to_dvobj(padapter));
++			if (port0_iface)
++				rtw_lps_ctrl_wk_cmd(port0_iface, LPS_CTRL_CONNECT, 0);
++#endif
++		}
++	}
++
++#ifdef CONFIG_BT_COEXIST
++	if (psetop->mode == Ndis802_11APMode) {
++		/* Do this after port switch to */
++		/* prevent from downloading rsvd page to wrong port */
++		rtw_btcoex_MediaStatusNotify(padapter, 1); /* connect */
++	}
++#endif /* CONFIG_BT_COEXIST */
++
++	return H2C_SUCCESS;
++
++}
++
++u8 createbss_hdl(_adapter *padapter, u8 *pbuf)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX	*pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++	WLAN_BSSID_EX	*pdev_network = &padapter->registrypriv.dev_network;
++	struct createbss_parm *parm = (struct createbss_parm *)pbuf;
++	u8 ret = H2C_SUCCESS;
++	/* u8	initialgain; */
++
++#ifdef CONFIG_AP_MODE
++	if (pmlmeinfo->state == WIFI_FW_AP_STATE) {
++		start_bss_network(padapter, parm);
++		goto exit;
++	}
++#endif
++
++	/* below is for ad-hoc master */
++	if (parm->adhoc) {
++		rtw_warn_on(pdev_network->InfrastructureMode != Ndis802_11IBSS);
++		rtw_joinbss_reset(padapter);
++
++		pmlmeext->cur_bwmode = CHANNEL_WIDTH_20;
++		pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		pmlmeinfo->ERP_enable = 0;
++		pmlmeinfo->WMM_enable = 0;
++		pmlmeinfo->HT_enable = 0;
++		pmlmeinfo->HT_caps_enable = 0;
++		pmlmeinfo->HT_info_enable = 0;
++		pmlmeinfo->agg_enable_bitmap = 0;
++		pmlmeinfo->candidate_tid_bitmap = 0;
++
++		/* config the initial gain under linking, need to write the BB registers */
++		/* initialgain = 0x1E; */
++		/*rtw_hal_set_odm_var(padapter, HAL_ODM_INITIAL_GAIN, &initialgain, _FALSE);*/
++
++		/* disable dynamic functions, such as high power, DIG */
++		rtw_phydm_ability_backup(padapter);
++		rtw_phydm_func_disable_all(padapter);
++
++		/* cancel link timer */
++		_cancel_timer_ex(&pmlmeext->link_timer);
++
++		/* clear CAM */
++		flush_all_cam_entry(padapter);
++
++		pdev_network->Length = get_WLAN_BSSID_EX_sz(pdev_network);
++		_rtw_memcpy(pnetwork, pdev_network, FIELD_OFFSET(WLAN_BSSID_EX, IELength));
++		pnetwork->IELength = pdev_network->IELength;
++
++		if (pnetwork->IELength > MAX_IE_SZ) {
++			ret = H2C_PARAMETERS_ERROR;
++			goto ibss_post_hdl;
++		}
++
++		_rtw_memcpy(pnetwork->IEs, pdev_network->IEs, pnetwork->IELength);
++		start_create_ibss(padapter);
++	} else {
++		rtw_warn_on(1);
++		ret = H2C_PARAMETERS_ERROR;
++	}
++
++ibss_post_hdl:
++	rtw_create_ibss_post_hdl(padapter, ret);
++
++exit:
++	return ret;
++}
++
++u8 join_cmd_hdl(_adapter *padapter, u8 *pbuf)
++{
++	u8	join_type;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	struct joinbss_parm	*pparm = (struct joinbss_parm *)pbuf;
++#endif /* CONFIG_ANTENNA_DIVERSITY */
++	u32 i;
++	/* u8	initialgain; */
++	/* u32	acparm; */
++	u8 u_ch, u_bw, u_offset;
++	u8 doiqk = _FALSE;
++
++	/* check already connecting to AP or not */
++	if (pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS) {
++		if (pmlmeinfo->state & WIFI_FW_STATION_STATE)
++			issue_deauth_ex(padapter, pnetwork->MacAddress, WLAN_REASON_DEAUTH_LEAVING, 1, 100);
++		pmlmeinfo->state = WIFI_FW_NULL_STATE;
++
++		/* clear CAM */
++		flush_all_cam_entry(padapter);
++
++		_cancel_timer_ex(&pmlmeext->link_timer);
++
++		/* set MSR to nolink->infra. mode		 */
++		/* Set_MSR(padapter, _HW_STATE_NOLINK_); */
++		Set_MSR(padapter, _HW_STATE_STATION_);
++
++
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_DISCONNECT, 0);
++	}
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	rtw_antenna_select_cmd(padapter, pparm->network.PhyInfo.Optimum_antenna, _FALSE);
++#endif
++
++#ifdef CONFIG_WAPI_SUPPORT
++	rtw_wapi_clear_all_cam_entry(padapter);
++#endif
++
++	rtw_joinbss_reset(padapter);
++
++	pmlmeinfo->ERP_enable = 0;
++	pmlmeinfo->WMM_enable = 0;
++	pmlmeinfo->HT_enable = 0;
++	pmlmeinfo->HT_caps_enable = 0;
++	pmlmeinfo->HT_info_enable = 0;
++	pmlmeinfo->agg_enable_bitmap = 0;
++	pmlmeinfo->candidate_tid_bitmap = 0;
++	pmlmeinfo->bwmode_updated = _FALSE;
++	/* pmlmeinfo->assoc_AP_vendor = HT_IOT_PEER_MAX; */
++	pmlmeinfo->VHT_enable = 0;
++
++	_rtw_memcpy(pnetwork, pbuf, FIELD_OFFSET(WLAN_BSSID_EX, IELength));
++	pnetwork->IELength = ((WLAN_BSSID_EX *)pbuf)->IELength;
++
++	if (pnetwork->IELength > MAX_IE_SZ) /* Check pbuf->IELength */
++		return H2C_PARAMETERS_ERROR;
++
++	if (pnetwork->IELength < 2) {
++		report_join_res(padapter, (-4));
++		return H2C_SUCCESS;
++	}
++	_rtw_memcpy(pnetwork->IEs, ((WLAN_BSSID_EX *)pbuf)->IEs, pnetwork->IELength);
++
++	pmlmeinfo->bcn_interval = get_beacon_interval(pnetwork);
++
++	/* Check AP vendor to move rtw_joinbss_cmd() */
++	/* pmlmeinfo->assoc_AP_vendor = check_assoc_AP(pnetwork->IEs, pnetwork->IELength); */
++
++	/* sizeof(NDIS_802_11_FIXED_IEs)	 */
++	for (i = _FIXED_IE_LENGTH_ ; i < pnetwork->IELength - 2 ;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pnetwork->IEs + i);
++
++		switch (pIE->ElementID) {
++		case _VENDOR_SPECIFIC_IE_: /* Get WMM IE. */
++			if (_rtw_memcmp(pIE->data, WMM_OUI, 4))
++				WMM_param_handler(padapter, pIE);
++			break;
++
++#ifdef CONFIG_80211N_HT
++		case _HT_CAPABILITY_IE_:	/* Get HT Cap IE. */
++			pmlmeinfo->HT_caps_enable = 1;
++			break;
++
++		case _HT_EXTRA_INFO_IE_:	/* Get HT Info IE. */
++			pmlmeinfo->HT_info_enable = 1;
++			break;
++#endif /* CONFIG_80211N_HT */
++
++#ifdef CONFIG_80211AC_VHT
++		case EID_VHTCapability: /* Get VHT Cap IE. */
++			pmlmeinfo->VHT_enable = 1;
++			break;
++
++		case EID_VHTOperation: /* Get VHT Operation IE. */
++			break;
++#endif /* CONFIG_80211AC_VHT */
++		default:
++			break;
++		}
++
++		i += (pIE->Length + 2);
++	}
++
++	rtw_bss_get_chbw(pnetwork
++		, &pmlmeext->cur_channel, &pmlmeext->cur_bwmode, &pmlmeext->cur_ch_offset);
++
++	rtw_adjust_chbw(padapter, pmlmeext->cur_channel, &pmlmeext->cur_bwmode, &pmlmeext->cur_ch_offset);
++
++#if 0
++	if (padapter->registrypriv.wifi_spec) {
++		/* for WiFi test, follow WMM test plan spec */
++		acparm = 0x002F431C; /* VO */
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VO, (u8 *)(&acparm));
++		acparm = 0x005E541C; /* VI */
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VI, (u8 *)(&acparm));
++		acparm = 0x0000A525; /* BE */
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acparm));
++		acparm = 0x0000A549; /* BK */
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BK, (u8 *)(&acparm));
++
++		/* for WiFi test, mixed mode with intel STA under bg mode throughput issue */
++		if (padapter->mlmepriv.htpriv.ht_option == _FALSE) {
++			acparm = 0x00004320;
++			rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acparm));
++		}
++	} else {
++		acparm = 0x002F3217; /* VO */
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VO, (u8 *)(&acparm));
++		acparm = 0x005E4317; /* VI */
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VI, (u8 *)(&acparm));
++		acparm = 0x00105320; /* BE */
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acparm));
++		acparm = 0x0000A444; /* BK */
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BK, (u8 *)(&acparm));
++	}
++#endif
++
++	/* check channel, bandwidth, offset and switch */
++	if (rtw_chk_start_clnt_join(padapter, &u_ch, &u_bw, &u_offset) == _FAIL) {
++		report_join_res(padapter, (-4));
++		return H2C_SUCCESS;
++	}
++
++	/* disable dynamic functions, such as high power, DIG */
++	/*rtw_phydm_func_disable_all(padapter);*/
++
++	/* config the initial gain under linking, need to write the BB registers */
++	/* initialgain = 0x1E; */
++	/*rtw_hal_set_odm_var(padapter, HAL_ODM_INITIAL_GAIN, &initialgain, _FALSE);*/
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, pmlmeinfo->network.MacAddress);
++	join_type = 0;
++	rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
++	doiqk = _TRUE;
++	rtw_hal_set_hwreg(padapter , HW_VAR_DO_IQK , &doiqk);
++
++	set_channel_bwmode(padapter, u_ch, u_offset, u_bw);
++	rtw_mi_update_union_chan_inf(padapter, u_ch, u_offset, u_bw);
++
++	doiqk = _FALSE;
++	rtw_hal_set_hwreg(padapter , HW_VAR_DO_IQK , &doiqk);
++
++	/* cancel link timer */
++	_cancel_timer_ex(&pmlmeext->link_timer);
++
++	start_clnt_join(padapter);
++
++	return H2C_SUCCESS;
++
++}
++
++u8 disconnect_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct disconnect_parm *param = (struct disconnect_parm *)pbuf;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++	u8 val8;
++
++	if (is_client_associated_to_ap(padapter)) {
++#ifdef CONFIG_DFS
++		if (padapter->mlmepriv.handle_dfs == _FALSE)
++#endif /* CONFIG_DFS */
++#ifdef CONFIG_PLATFORM_ROCKCHIPS
++			/* To avoid connecting to AP fail during resume process, change retry count from 5 to 1 */
++			issue_deauth_ex(padapter, pnetwork->MacAddress, WLAN_REASON_DEAUTH_LEAVING, 1, 100);
++#else
++			issue_deauth_ex(padapter, pnetwork->MacAddress, WLAN_REASON_DEAUTH_LEAVING, param->deauth_timeout_ms / 100, 100);
++#endif /* CONFIG_PLATFORM_ROCKCHIPS */
++	}
++
++#ifdef CONFIG_DFS
++	if (padapter->mlmepriv.handle_dfs == _TRUE)
++		padapter->mlmepriv.handle_dfs = _FALSE;
++#endif /* CONFIG_DFS */
++
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) || ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE)) {
++		/* Stop BCN */
++		val8 = 0;
++		rtw_hal_set_hwreg(padapter, HW_VAR_BCN_FUNC, (u8 *)(&val8));
++	}
++
++	rtw_mlmeext_disconnect(padapter);
++
++	rtw_free_uc_swdec_pending_queue(padapter);
++
++	return	H2C_SUCCESS;
++}
++
++static const char *const _scan_state_str[] = {
++	"SCAN_DISABLE",
++	"SCAN_START",
++	"SCAN_PS_ANNC_WAIT",
++	"SCAN_ENTER",
++	"SCAN_PROCESS",
++	"SCAN_BACKING_OP",
++	"SCAN_BACK_OP",
++	"SCAN_LEAVING_OP",
++	"SCAN_LEAVE_OP",
++	"SCAN_SW_ANTDIV_BL",
++	"SCAN_TO_P2P_LISTEN",
++	"SCAN_P2P_LISTEN",
++	"SCAN_COMPLETE",
++	"SCAN_STATE_MAX",
++};
++
++const char *scan_state_str(u8 state)
++{
++	state = (state >= SCAN_STATE_MAX) ? SCAN_STATE_MAX : state;
++	return _scan_state_str[state];
++}
++
++static bool scan_abort_hdl(_adapter *adapter)
++{
++	struct mlme_ext_priv *pmlmeext = &adapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct ss_res *ss = &pmlmeext->sitesurvey_res;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &adapter->wdinfo;
++#endif
++	bool ret = _FALSE;
++
++	if (pmlmeext->scan_abort == _TRUE) {
++#ifdef CONFIG_P2P
++		if (!rtw_p2p_chk_state(&adapter->wdinfo, P2P_STATE_NONE)) {
++			rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_MAX);
++			ss->channel_idx = 3;
++			RTW_INFO("%s idx:%d, cnt:%u\n", __FUNCTION__
++				 , ss->channel_idx
++				 , pwdinfo->find_phase_state_exchange_cnt
++				);
++		} else
++#endif
++		{
++			ss->channel_idx = ss->ch_num;
++			RTW_INFO("%s idx:%d\n", __FUNCTION__
++				 , ss->channel_idx
++				);
++		}
++		pmlmeext->scan_abort = _FALSE;
++		ret = _TRUE;
++	}
++
++	return ret;
++}
++
++u8 rtw_scan_sparse(_adapter *adapter, struct rtw_ieee80211_channel *ch, u8 ch_num)
++{
++	/* interval larger than this is treated as backgroud scan */
++#ifndef RTW_SCAN_SPARSE_BG_INTERVAL_MS
++#define RTW_SCAN_SPARSE_BG_INTERVAL_MS 12000
++#endif
++
++#ifndef RTW_SCAN_SPARSE_CH_NUM_MIRACAST
++#define RTW_SCAN_SPARSE_CH_NUM_MIRACAST 1
++#endif
++#ifndef RTW_SCAN_SPARSE_CH_NUM_BG
++#define RTW_SCAN_SPARSE_CH_NUM_BG 4
++#endif
++
++#define SCAN_SPARSE_CH_NUM_INVALID 255
++
++	static u8 token = 255;
++	u32 interval;
++	bool busy_traffic = _FALSE;
++	bool miracast_enabled = _FALSE;
++	bool bg_scan = _FALSE;
++	u8 max_allow_ch = SCAN_SPARSE_CH_NUM_INVALID;
++	u8 scan_division_num;
++	u8 ret_num = ch_num;
++	struct registry_priv *regsty = dvobj_to_regsty(adapter_to_dvobj(adapter));
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++
++	if (regsty->wifi_spec)
++		goto exit;
++
++	/* assume ch_num > 6 is normal scan */
++	if (ch_num <= 6)
++		goto exit;
++
++	if (mlmeext->last_scan_time == 0)
++		mlmeext->last_scan_time = rtw_get_current_time();
++
++	interval = rtw_get_passing_time_ms(mlmeext->last_scan_time);
++
++
++	if (rtw_mi_busy_traffic_check(adapter, _FALSE))
++		busy_traffic = _TRUE;
++
++	if (rtw_mi_check_miracast_enabled(adapter))
++		miracast_enabled = _TRUE;
++
++	if (interval > RTW_SCAN_SPARSE_BG_INTERVAL_MS)
++		bg_scan = _TRUE;
++
++	/* max_allow_ch by conditions*/
++
++#if RTW_SCAN_SPARSE_MIRACAST
++	if (miracast_enabled == _TRUE && busy_traffic == _TRUE)
++		max_allow_ch = rtw_min(max_allow_ch, RTW_SCAN_SPARSE_CH_NUM_MIRACAST);
++#endif
++
++#if RTW_SCAN_SPARSE_BG
++	if (bg_scan == _TRUE)
++		max_allow_ch = rtw_min(max_allow_ch, RTW_SCAN_SPARSE_CH_NUM_BG);
++#endif
++
++
++	if (max_allow_ch != SCAN_SPARSE_CH_NUM_INVALID) {
++		int i;
++		int k = 0;
++
++		scan_division_num = (ch_num / max_allow_ch) + ((ch_num % max_allow_ch) ? 1 : 0);
++		token = (token + 1) % scan_division_num;
++
++		if (0)
++			RTW_INFO("scan_division_num:%u, token:%u\n", scan_division_num, token);
++
++		for (i = 0; i < ch_num; i++) {
++			if (ch[i].hw_value && (i % scan_division_num) == token
++			   ) {
++				if (i != k)
++					_rtw_memcpy(&ch[k], &ch[i], sizeof(struct rtw_ieee80211_channel));
++				k++;
++			}
++		}
++
++		_rtw_memset(&ch[k], 0, sizeof(struct rtw_ieee80211_channel));
++
++		ret_num = k;
++		mlmeext->last_scan_time = rtw_get_current_time();
++	}
++
++exit:
++	return ret_num;
++}
++
++static int rtw_scan_ch_decision(_adapter *padapter, struct rtw_ieee80211_channel *out,
++		u32 out_num, struct rtw_ieee80211_channel *in, u32 in_num)
++{
++	int i, j;
++	int scan_ch_num = 0;
++	int set_idx;
++	u8 chan;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	/* clear first */
++	_rtw_memset(out, 0, sizeof(struct rtw_ieee80211_channel) * out_num);
++
++	/* acquire channels from in */
++	j = 0;
++	for (i = 0; i < in_num; i++) {
++
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" "CHAN_FMT"\n", FUNC_ADPT_ARG(padapter), CHAN_ARG(&in[i]));
++
++		if (!in[i].hw_value || (in[i].flags & RTW_IEEE80211_CHAN_DISABLED))
++			continue;
++		if (rtw_mlme_band_check(padapter, in[i].hw_value) == _FALSE)
++			continue;
++
++		set_idx = rtw_ch_set_search_ch(pmlmeext->channel_set, in[i].hw_value);
++		if (set_idx >= 0) {
++			if (j >= out_num) {
++				RTW_PRINT(FUNC_ADPT_FMT" out_num:%u not enough\n",
++					  FUNC_ADPT_ARG(padapter), out_num);
++				break;
++			}
++
++			_rtw_memcpy(&out[j], &in[i], sizeof(struct rtw_ieee80211_channel));
++
++			if (pmlmeext->channel_set[set_idx].ScanType == SCAN_PASSIVE)
++				out[j].flags |= RTW_IEEE80211_CHAN_PASSIVE_SCAN;
++
++			j++;
++		}
++		if (j >= out_num)
++			break;
++	}
++
++	/* if out is empty, use channel_set as default */
++	if (j == 0) {
++		for (i = 0; i < pmlmeext->max_chan_nums; i++) {
++			chan = pmlmeext->channel_set[i].ChannelNum;
++			if (rtw_mlme_band_check(padapter, chan) == _TRUE) {
++				if (rtw_mlme_ignore_chan(padapter, chan) == _TRUE)
++					continue;
++
++				if (0)
++					RTW_INFO(FUNC_ADPT_FMT" ch:%u\n", FUNC_ADPT_ARG(padapter), chan);
++
++				if (j >= out_num) {
++					RTW_PRINT(FUNC_ADPT_FMT" out_num:%u not enough\n",
++						FUNC_ADPT_ARG(padapter), out_num);
++					break;
++				}
++
++				out[j].hw_value = chan;
++
++				if (pmlmeext->channel_set[i].ScanType == SCAN_PASSIVE)
++					out[j].flags |= RTW_IEEE80211_CHAN_PASSIVE_SCAN;
++
++				j++;
++			}
++		}
++	}
++
++	/* scan_sparse */
++	j = rtw_scan_sparse(padapter, out, j);
++
++	return j;
++}
++
++static void sitesurvey_res_reset(_adapter *adapter, struct sitesurvey_parm *parm)
++{
++	struct ss_res *ss = &adapter->mlmeextpriv.sitesurvey_res;
++	int i;
++
++	ss->bss_cnt = 0;
++	ss->channel_idx = 0;
++	ss->igi_scan = 0;
++	ss->igi_before_scan = 0;
++#ifdef CONFIG_SCAN_BACKOP
++	ss->scan_cnt = 0;
++#endif
++#if defined(CONFIG_ANTENNA_DIVERSITY) || defined(DBG_SCAN_SW_ANTDIV_BL)
++	ss->is_sw_antdiv_bl_scan = 0;
++#endif
++
++	for (i = 0; i < RTW_SSID_SCAN_AMOUNT; i++) {
++		if (parm->ssid[i].SsidLength) {
++			_rtw_memcpy(ss->ssid[i].Ssid, parm->ssid[i].Ssid, IW_ESSID_MAX_SIZE);
++			ss->ssid[i].SsidLength = parm->ssid[i].SsidLength;
++		} else
++			ss->ssid[i].SsidLength = 0;
++	}
++
++	ss->ch_num = rtw_scan_ch_decision(adapter
++					  , ss->ch, RTW_CHANNEL_SCAN_AMOUNT
++					  , parm->ch, parm->ch_num
++					 );
++
++	ss->scan_mode = parm->scan_mode;
++}
++
++static u8 sitesurvey_pick_ch_behavior(_adapter *padapter, u8 *ch, RT_SCAN_TYPE *type)
++{
++	u8 next_state;
++	u8 scan_ch = 0;
++	RT_SCAN_TYPE scan_type = SCAN_PASSIVE;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &pmlmeext->mlmext_info;
++	struct ss_res *ss = &pmlmeext->sitesurvey_res;
++
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++#endif
++
++	/* handle scan abort request */
++	scan_abort_hdl(padapter);
++
++#ifdef CONFIG_P2P
++	if (pwdinfo->rx_invitereq_info.scan_op_ch_only || pwdinfo->p2p_info.scan_op_ch_only) {
++		if (pwdinfo->rx_invitereq_info.scan_op_ch_only)
++			scan_ch = pwdinfo->rx_invitereq_info.operation_ch[ss->channel_idx];
++		else
++			scan_ch = pwdinfo->p2p_info.operation_ch[ss->channel_idx];
++		scan_type = SCAN_ACTIVE;
++	} else if (rtw_p2p_findphase_ex_is_social(pwdinfo)) {
++		/*
++		* Commented by Albert 2011/06/03
++		* The driver is in the find phase, it should go through the social channel.
++		*/
++		int ch_set_idx;
++
++		scan_ch = pwdinfo->social_chan[ss->channel_idx];
++		ch_set_idx = rtw_ch_set_search_ch(pmlmeext->channel_set, scan_ch);
++		if (ch_set_idx >= 0)
++			scan_type = pmlmeext->channel_set[ch_set_idx].ScanType;
++		else
++			scan_type = SCAN_ACTIVE;
++	} else
++#endif /* CONFIG_P2P */
++	{
++		struct rtw_ieee80211_channel *ch;
++
++		if (ss->channel_idx < ss->ch_num) {
++			ch = &ss->ch[ss->channel_idx];
++			scan_ch = ch->hw_value;
++			scan_type = (ch->flags & RTW_IEEE80211_CHAN_PASSIVE_SCAN) ? SCAN_PASSIVE : SCAN_ACTIVE;
++		}
++	}
++
++	if (scan_ch != 0) {
++		next_state = SCAN_PROCESS;
++#ifdef CONFIG_SCAN_BACKOP
++		{
++			u8 sta_num;
++			u8 ld_sta_num;
++			u8 ap_num;
++			u8 ld_ap_num;
++			u8 backop_flags = 0;
++
++			rtw_mi_status(padapter, &sta_num, &ld_sta_num, NULL, &ap_num, &ld_ap_num, NULL);
++
++			if ((ld_sta_num > 0 && mlmeext_chk_scan_backop_flags_sta(pmlmeext, SS_BACKOP_EN))
++				|| (sta_num > 0 && mlmeext_chk_scan_backop_flags_sta(pmlmeext, SS_BACKOP_EN_NL)))
++				backop_flags |= mlmeext_scan_backop_flags_sta(pmlmeext);
++
++			if ((ld_ap_num > 0 && mlmeext_chk_scan_backop_flags_ap(pmlmeext, SS_BACKOP_EN))
++				|| (ap_num > 0 && mlmeext_chk_scan_backop_flags_ap(pmlmeext, SS_BACKOP_EN_NL)))
++				backop_flags |= mlmeext_scan_backop_flags_ap(pmlmeext);
++
++			if (backop_flags) {
++				if (ss->scan_cnt < ss->scan_cnt_max)
++					ss->scan_cnt++;
++				else {
++					mlmeext_assign_scan_backop_flags(pmlmeext, backop_flags);
++					next_state = SCAN_BACKING_OP;
++				}
++			}
++		}
++#endif /* CONFIG_SCAN_BACKOP */
++	} else if (rtw_p2p_findphase_ex_is_needed(pwdinfo)) {
++		/* go p2p listen */
++		next_state = SCAN_TO_P2P_LISTEN;
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	} else if (rtw_hal_antdiv_before_linked(padapter)) {
++		/* go sw antdiv before link */
++		next_state = SCAN_SW_ANTDIV_BL;
++#endif
++	} else {
++		next_state = SCAN_COMPLETE;
++
++#if defined(DBG_SCAN_SW_ANTDIV_BL)
++		{
++			/* for SCAN_SW_ANTDIV_BL state testing */
++			struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++			int i;
++			bool is_linked = _FALSE;
++
++			for (i = 0; i < dvobj->iface_nums; i++) {
++				if (rtw_linked_check(dvobj->padapters[i]))
++					is_linked = _TRUE;
++			}
++
++			if (!is_linked) {
++				static bool fake_sw_antdiv_bl_state = 0;
++
++				if (fake_sw_antdiv_bl_state == 0) {
++					next_state = SCAN_SW_ANTDIV_BL;
++					fake_sw_antdiv_bl_state = 1;
++				} else
++					fake_sw_antdiv_bl_state = 0;
++			}
++		}
++#endif /* defined(DBG_SCAN_SW_ANTDIV_BL) */
++	}
++
++#ifdef CONFIG_SCAN_BACKOP
++	if (next_state != SCAN_PROCESS)
++		ss->scan_cnt = 0;
++#endif
++
++
++#ifdef DBG_FIXED_CHAN
++	if (pmlmeext->fixed_chan != 0xff && next_state == SCAN_PROCESS)
++		scan_ch = pmlmeext->fixed_chan;
++#endif
++
++	if (ch)
++		*ch = scan_ch;
++	if (type)
++		*type = scan_type;
++
++	return next_state;
++}
++
++void site_survey(_adapter *padapter, u8 survey_channel, RT_SCAN_TYPE ScanType)
++{
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif
++
++	if (survey_channel != 0) {
++		set_channel_bwmode(padapter, survey_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++		if (ACS_ENABLE == GET_ACS_STATE(padapter)) {
++			ACS_OP acs_op = ACS_RESET;
++
++			rtw_hal_set_odm_var(padapter, HAL_ODM_AUTO_CHNL_SEL, &acs_op, _TRUE);
++			rtw_set_acs_channel(padapter, survey_channel);
++#ifdef DBG_AUTO_CHNL_SEL_NHM
++			RTW_INFO("[ACS-"ADPT_FMT"]-set ch:%u\n",
++				ADPT_ARG(padapter), rtw_get_acs_channel(padapter));
++#endif
++		}
++#endif
++
++		if (ScanType == SCAN_ACTIVE) {
++#ifdef CONFIG_P2P
++			if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_SCAN) ||
++			    rtw_p2p_chk_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH)
++			   ) {
++				issue_probereq_p2p(padapter, NULL);
++				issue_probereq_p2p(padapter, NULL);
++				issue_probereq_p2p(padapter, NULL);
++			} else
++#endif /* CONFIG_P2P */
++			{
++				int i;
++
++				for (i = 0; i < RTW_SSID_SCAN_AMOUNT; i++) {
++					if (pmlmeext->sitesurvey_res.ssid[i].SsidLength) {
++						/* IOT issue, When wifi_spec is not set, send one probe req without WPS IE. */
++						if (padapter->registrypriv.wifi_spec)
++							issue_probereq(padapter, &(pmlmeext->sitesurvey_res.ssid[i]), NULL);
++						else
++							issue_probereq_ex(padapter, &(pmlmeext->sitesurvey_res.ssid[i]), NULL, 0, 0, 0, 0);
++						issue_probereq(padapter, &(pmlmeext->sitesurvey_res.ssid[i]), NULL);
++					}
++				}
++
++				if (pmlmeext->sitesurvey_res.scan_mode == SCAN_ACTIVE) {
++					/* IOT issue, When wifi_spec is not set, send one probe req without WPS IE. */
++					if (padapter->registrypriv.wifi_spec)
++						issue_probereq(padapter, NULL, NULL);
++					else
++						issue_probereq_ex(padapter, NULL, NULL, 0, 0, 0, 0);
++					issue_probereq(padapter, NULL, NULL);
++				}
++			}
++		}
++	} else {
++		/* channel number is 0 or this channel is not valid. */
++		rtw_warn_on(1);
++	}
++
++	return;
++}
++
++void survey_done_set_ch_bw(_adapter *padapter)
++{
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	u8 cur_channel = 0;
++	u8 cur_bwmode;
++	u8 cur_ch_offset;
++
++#ifdef CONFIG_MCC_MODE
++	if (!rtw_hal_mcc_change_scan_flag(padapter, &cur_channel, &cur_bwmode, &cur_ch_offset)) {
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" back to AP channel - ch:%u, bw:%u, offset:%u\n",
++				FUNC_ADPT_ARG(padapter), cur_channel, cur_bwmode, cur_ch_offset);
++		goto exit;
++	}
++#endif
++
++	if (rtw_mi_get_ch_setting_union(padapter, &cur_channel, &cur_bwmode, &cur_ch_offset) != 0) {
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" back to linked/linking union - ch:%u, bw:%u, offset:%u\n",
++				FUNC_ADPT_ARG(padapter), cur_channel, cur_bwmode, cur_ch_offset);
++	} else {
++#ifdef CONFIG_P2P
++		struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++		_adapter *iface;
++		int i;
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if (!iface)
++				continue;
++
++#ifdef CONFIG_IOCTL_CFG80211
++			if (iface->wdinfo.driver_interface == DRIVER_CFG80211 && !adapter_wdev_data(iface)->p2p_enabled)
++				continue;
++#endif
++
++			if (rtw_p2p_chk_state(&iface->wdinfo, P2P_STATE_LISTEN)) {
++				cur_channel = iface->wdinfo.listen_channel;
++				cur_bwmode = CHANNEL_WIDTH_20;
++				cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++				if (0)
++					RTW_INFO(FUNC_ADPT_FMT" back to "ADPT_FMT"'s listen ch - ch:%u, bw:%u, offset:%u\n",
++						FUNC_ADPT_ARG(padapter), ADPT_ARG(iface), cur_channel, cur_bwmode, cur_ch_offset);
++				break;
++			}
++		}
++#endif /* CONFIG_P2P */
++
++		if (cur_channel == 0) {
++			cur_channel = pmlmeext->cur_channel;
++			cur_bwmode = pmlmeext->cur_bwmode;
++			cur_ch_offset = pmlmeext->cur_ch_offset;
++			if (0)
++				RTW_INFO(FUNC_ADPT_FMT" back to ch:%u, bw:%u, offset:%u\n",
++					FUNC_ADPT_ARG(padapter), cur_channel, cur_bwmode, cur_ch_offset);
++		}
++	}
++exit:
++	set_channel_bwmode(padapter, cur_channel, cur_ch_offset, cur_bwmode);
++}
++
++#if 1
++/**
++ * sitesurvey_ps_annc - check and doing ps announcement for all the adapters of given @dvobj
++ * @padapter
++ * @ps: power saving or not
++ *
++ * Returns: 0: no ps announcement is doing. 1: ps announcement is doing
++ */
++
++u8 sitesurvey_ps_annc(_adapter *padapter, bool ps)
++{
++	u8 ps_anc = 0;
++
++	if (rtw_mi_issue_nulldata(padapter, NULL, ps, 3, 500))
++		ps_anc = 1;
++	return ps_anc;
++}
++#else
++/**
++ * sitesurvey_ps_annc - check and doing ps announcement for all the adapters of given @dvobj
++ * @dvobj: the dvobj to check
++ * @ps: power saving or not
++ *
++ * Returns: 0: no ps announcement is doing. 1: ps announcement is doing
++ */
++
++u8 sitesurvey_ps_annc(struct dvobj_priv *dvobj, bool ps)
++{
++	_adapter *adapter;
++	int i;
++	u8 ps_anc = 0;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		adapter = dvobj->padapters[i];
++		if (!adapter)
++			continue;
++
++		if (ps) {
++			if (is_client_associated_to_ap(adapter) == _TRUE) {
++				/* TODO: TDLS peers */
++				issue_nulldata(adapter, NULL, 1, 3, 500);
++				ps_anc = 1;
++			}
++		} else {
++			if (is_client_associated_to_ap(adapter) == _TRUE) {
++				/* TODO: TDLS peers */
++				issue_nulldata(adapter, NULL, 0, 3, 500);
++				ps_anc = 1;
++			}
++		}
++	}
++	return ps_anc;
++}
++#endif
++
++void sitesurvey_set_igi(_adapter *adapter)
++{
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++	struct ss_res *ss = &mlmeext->sitesurvey_res;
++	u8 igi;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &adapter->wdinfo;
++#endif
++
++	switch (mlmeext_scan_state(mlmeext)) {
++	case SCAN_ENTER:
++		#ifdef CONFIG_P2P
++		#ifdef CONFIG_IOCTL_CFG80211
++		if (adapter_wdev_data(adapter)->p2p_enabled == _TRUE && pwdinfo->driver_interface == DRIVER_CFG80211)
++			igi = 0x30;
++		else
++		#endif /* CONFIG_IOCTL_CFG80211 */
++		if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++			igi = 0x28;
++		else
++		#endif /* CONFIG_P2P */
++			igi = 0x1e;
++
++		/* record IGI status */
++		ss->igi_scan = igi;
++		rtw_hal_get_odm_var(adapter, HAL_ODM_INITIAL_GAIN, &ss->igi_before_scan, NULL);
++
++		/* disable DIG and set IGI for scan */
++		rtw_hal_set_odm_var(adapter, HAL_ODM_INITIAL_GAIN, &igi, _FALSE);
++		break;
++	case SCAN_COMPLETE:
++	case SCAN_TO_P2P_LISTEN:
++		/* enable DIG and restore IGI */
++		igi = 0xff;
++		rtw_hal_set_odm_var(adapter, HAL_ODM_INITIAL_GAIN, &igi, _FALSE);
++		break;
++#ifdef CONFIG_SCAN_BACKOP
++	case SCAN_BACKING_OP:
++		/* write IGI for op channel when DIG is not enabled */
++		ODM_Write_DIG(GET_ODM(adapter), ss->igi_before_scan);
++		break;
++	case SCAN_LEAVE_OP:
++		/* write IGI for scan when DIG is not enabled */
++		ODM_Write_DIG(GET_ODM(adapter), ss->igi_scan);
++		break;
++#endif /* CONFIG_SCAN_BACKOP */
++	default:
++		rtw_warn_on(1);
++		break;
++	}
++}
++void sitesurvey_set_msr(_adapter *adapter, bool enter)
++{
++	u8 network_type;
++	struct mlme_ext_priv *pmlmeext = &adapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (enter) {
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		rtw_hal_get_hwreg(adapter, HW_VAR_MEDIA_STATUS, (u8 *)(&pmlmeinfo->hw_media_state));
++#endif
++		/* set MSR to no link state */
++		network_type = _HW_STATE_NOLINK_;
++	} else {
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		network_type = pmlmeinfo->hw_media_state;
++#else
++		network_type = pmlmeinfo->state & 0x3;
++#endif
++	}
++	Set_MSR(adapter, network_type);
++}
++u8 sitesurvey_cmd_hdl(_adapter *padapter, u8 *pbuf)
++{
++	struct sitesurvey_parm	*pparm = (struct sitesurvey_parm *)pbuf;
++	struct dvobj_priv *dvobj = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &dvobj->drv_dbg;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct ss_res *ss = &pmlmeext->sitesurvey_res;
++	u8 val8;
++
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++#endif
++
++#ifdef DBG_CHECK_FW_PS_STATE
++	if (rtw_fw_ps_state(padapter) == _FAIL) {
++		RTW_INFO("scan without leave 32k\n");
++		pdbgpriv->dbg_scan_pwr_state_cnt++;
++	}
++#endif /* DBG_CHECK_FW_PS_STATE */
++
++	/* increase channel idx */
++	if (mlmeext_chk_scan_state(pmlmeext, SCAN_PROCESS))
++		ss->channel_idx++;
++
++	/* update scan state to next state (assigned by previous cmd hdl) */
++	if (mlmeext_scan_state(pmlmeext) != mlmeext_scan_next_state(pmlmeext))
++		mlmeext_set_scan_state(pmlmeext, mlmeext_scan_next_state(pmlmeext));
++
++operation_by_state:
++	switch (mlmeext_scan_state(pmlmeext)) {
++
++	case SCAN_DISABLE:
++		/*
++		* SW parameter initialization
++		*/
++
++		sitesurvey_res_reset(padapter, pparm);
++		mlmeext_set_scan_state(pmlmeext, SCAN_START);
++		goto operation_by_state;
++
++	case SCAN_START:
++		/*
++		* prepare to leave operating channel
++		*/
++
++#ifdef CONFIG_MCC_MODE
++		rtw_hal_set_mcc_setting_scan_start(padapter);
++#endif /* CONFIG_MCC_MODE */
++
++		/* apply rx ampdu setting */
++		if (ss->rx_ampdu_accept != RX_AMPDU_ACCEPT_INVALID
++			|| ss->rx_ampdu_size != RX_AMPDU_SIZE_INVALID)
++			rtw_rx_ampdu_apply(padapter);
++
++		/* clear HW TX queue before scan */
++		rtw_hal_set_hwreg(padapter, HW_VAR_CHECK_TXBUF, 0);
++
++		/* power save state announcement */
++		if (sitesurvey_ps_annc(padapter, 1)) {
++			mlmeext_set_scan_state(pmlmeext, SCAN_PS_ANNC_WAIT);
++			mlmeext_set_scan_next_state(pmlmeext, SCAN_ENTER);
++			set_survey_timer(pmlmeext, 50); /* delay 50ms to protect nulldata(1) */
++		} else {
++			mlmeext_set_scan_state(pmlmeext, SCAN_ENTER);
++			goto operation_by_state;
++		}
++
++		break;
++
++	case SCAN_ENTER:
++		/*
++		* HW register and DM setting for enter scan
++		*/
++
++		rtw_phydm_ability_backup(padapter);
++
++		sitesurvey_set_igi(padapter);
++
++		/* config dynamic functions for off channel */
++		rtw_phydm_func_for_offchannel(padapter);
++		/* set MSR to no link state */
++		sitesurvey_set_msr(padapter, _TRUE);
++
++		val8 = 1; /* under site survey */
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++
++		mlmeext_set_scan_state(pmlmeext, SCAN_PROCESS);
++		goto operation_by_state;
++
++	case SCAN_PROCESS: {
++		u8 scan_ch;
++		RT_SCAN_TYPE scan_type;
++		u8 next_state;
++		u32 scan_ms;
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++		if ((ACS_ENABLE == GET_ACS_STATE(padapter)) && (0 != rtw_get_acs_channel(padapter))) {
++			ACS_OP acs_op = ACS_SELECT;
++
++			rtw_hal_set_odm_var(padapter, HAL_ODM_AUTO_CHNL_SEL, &acs_op, _TRUE);
++		}
++#endif
++
++		next_state = sitesurvey_pick_ch_behavior(padapter, &scan_ch, &scan_type);
++		if (next_state != SCAN_PROCESS) {
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++			if (ACS_ENABLE == GET_ACS_STATE(padapter)) {
++				rtw_set_acs_channel(padapter, 0);
++#ifdef DBG_AUTO_CHNL_SEL_NHM
++				RTW_INFO("[ACS-"ADPT_FMT"]-set ch:%u\n", ADPT_ARG(padapter), rtw_get_acs_channel(padapter));
++#endif
++			}
++#endif
++
++			mlmeext_set_scan_state(pmlmeext, next_state);
++			goto operation_by_state;
++		}
++
++		/* still SCAN_PROCESS state */
++		if (0)
++#ifdef CONFIG_P2P
++			RTW_INFO(FUNC_ADPT_FMT" %s ch:%u (cnt:%u,idx:%d) at %dms, %c%c%c\n"
++				 , FUNC_ADPT_ARG(padapter)
++				 , mlmeext_scan_state_str(pmlmeext)
++				 , scan_ch
++				, pwdinfo->find_phase_state_exchange_cnt, ss->channel_idx
++				, rtw_get_passing_time_ms(padapter->mlmepriv.scan_start_time)
++				, scan_type ? 'A' : 'P', ss->scan_mode ? 'A' : 'P'
++				 , ss->ssid[0].SsidLength ? 'S' : ' '
++				);
++#else
++			RTW_INFO(FUNC_ADPT_FMT" %s ch:%u (idx:%d) at %dms, %c%c%c\n"
++				 , FUNC_ADPT_ARG(padapter)
++				 , mlmeext_scan_state_str(pmlmeext)
++				 , scan_ch
++				 , ss->channel_idx
++				, rtw_get_passing_time_ms(padapter->mlmepriv.scan_start_time)
++				, scan_type ? 'A' : 'P', ss->scan_mode ? 'A' : 'P'
++				 , ss->ssid[0].SsidLength ? 'S' : ' '
++				);
++#endif /* CONFIG_P2P */
++
++#ifdef DBG_FIXED_CHAN
++		if (pmlmeext->fixed_chan != 0xff)
++			RTW_INFO(FUNC_ADPT_FMT" fixed_chan:%u\n", pmlmeext->fixed_chan);
++#endif
++
++		site_survey(padapter, scan_ch, scan_type);
++
++#if defined(CONFIG_ATMEL_RC_PATCH)
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++			scan_ms = 20;
++		else
++			scan_ms = 40;
++#else
++		scan_ms = ss->scan_ch_ms;
++#endif
++
++#if defined(CONFIG_ANTENNA_DIVERSITY) || defined(DBG_SCAN_SW_ANTDIV_BL)
++		if (ss->is_sw_antdiv_bl_scan)
++			scan_ms = scan_ms / 2;
++#endif
++
++#if defined(CONFIG_SIGNAL_DISPLAY_DBM) && defined(CONFIG_BACKGROUND_NOISE_MONITOR)
++		{
++			struct noise_info info;
++
++			info.bPauseDIG = _FALSE;
++			info.IGIValue = 0;
++			info.max_time = scan_ms / 2;
++			info.chan = scan_ch;
++			rtw_hal_set_odm_var(padapter, HAL_ODM_NOISE_MONITOR, &info, _FALSE);
++		}
++#endif
++
++		set_survey_timer(pmlmeext, scan_ms);
++		break;
++	}
++
++#ifdef CONFIG_SCAN_BACKOP
++	case SCAN_BACKING_OP: {
++		u8 back_ch, back_bw, back_ch_offset;
++		u8 need_ch_setting_union = _TRUE;
++
++#ifdef CONFIG_MCC_MODE
++		need_ch_setting_union = rtw_hal_mcc_change_scan_flag(padapter,
++				&back_ch, &back_bw, &back_ch_offset);
++#endif /* CONFIG_MCC_MODE */
++
++		if (need_ch_setting_union) {
++			if (rtw_mi_get_ch_setting_union(padapter, &back_ch, &back_bw, &back_ch_offset) == 0)
++				rtw_warn_on(1);
++		}
++
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" %s ch:%u, bw:%u, offset:%u at %dms\n"
++				 , FUNC_ADPT_ARG(padapter)
++				 , mlmeext_scan_state_str(pmlmeext)
++				 , back_ch, back_bw, back_ch_offset
++				, rtw_get_passing_time_ms(padapter->mlmepriv.scan_start_time)
++				);
++
++		set_channel_bwmode(padapter, back_ch, back_ch_offset, back_bw);
++
++		sitesurvey_set_msr(padapter, _FALSE);
++
++		val8 = 0; /* survey done */
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++
++		if (mlmeext_chk_scan_backop_flags(pmlmeext, SS_BACKOP_PS_ANNC)) {
++			sitesurvey_set_igi(padapter);
++			sitesurvey_ps_annc(padapter, 0);
++		}
++
++		mlmeext_set_scan_state(pmlmeext, SCAN_BACK_OP);
++		ss->backop_time = rtw_get_current_time();
++
++		if (mlmeext_chk_scan_backop_flags(pmlmeext, SS_BACKOP_TX_RESUME))
++			rtw_mi_os_xmit_schedule(padapter);
++
++
++		goto operation_by_state;
++	}
++
++	case SCAN_BACK_OP:
++		if (rtw_get_passing_time_ms(ss->backop_time) >= ss->backop_ms
++		    || pmlmeext->scan_abort
++		   ) {
++			mlmeext_set_scan_state(pmlmeext, SCAN_LEAVING_OP);
++			goto operation_by_state;
++		}
++		set_survey_timer(pmlmeext, 50);
++		break;
++
++	case SCAN_LEAVING_OP:
++		/*
++		* prepare to leave operating channel
++		*/
++
++		/* clear HW TX queue before scan */
++		rtw_hal_set_hwreg(padapter, HW_VAR_CHECK_TXBUF, 0);
++
++		if (mlmeext_chk_scan_backop_flags(pmlmeext, SS_BACKOP_PS_ANNC)
++		    && sitesurvey_ps_annc(padapter, 1)
++		   ) {
++			mlmeext_set_scan_state(pmlmeext, SCAN_PS_ANNC_WAIT);
++			mlmeext_set_scan_next_state(pmlmeext, SCAN_LEAVE_OP);
++			set_survey_timer(pmlmeext, 50); /* delay 50ms to protect nulldata(1) */
++		} else {
++			mlmeext_set_scan_state(pmlmeext, SCAN_LEAVE_OP);
++			goto operation_by_state;
++		}
++
++		break;
++
++	case SCAN_LEAVE_OP:
++		/*
++		* HW register and DM setting for enter scan
++		*/
++
++		if (mlmeext_chk_scan_backop_flags(pmlmeext, SS_BACKOP_PS_ANNC))
++			sitesurvey_set_igi(padapter);
++
++		sitesurvey_set_msr(padapter, _TRUE);
++
++		val8 = 1; /* under site survey */
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++
++		mlmeext_set_scan_state(pmlmeext, SCAN_PROCESS);
++		goto operation_by_state;
++
++#endif /* CONFIG_SCAN_BACKOP */
++
++#if defined(CONFIG_ANTENNA_DIVERSITY) || defined(DBG_SCAN_SW_ANTDIV_BL)
++	case SCAN_SW_ANTDIV_BL:
++		/*
++		* 20100721
++		* For SW antenna diversity before link, it needs to switch to another antenna and scan again.
++		* It compares the scan result and select better one to do connection.
++		*/
++		ss->bss_cnt = 0;
++		ss->channel_idx = 0;
++		ss->is_sw_antdiv_bl_scan = 1;
++
++		mlmeext_set_scan_next_state(pmlmeext, SCAN_PROCESS);
++		set_survey_timer(pmlmeext, ss->scan_ch_ms);
++		break;
++#endif
++
++#ifdef CONFIG_P2P
++	case SCAN_TO_P2P_LISTEN:
++		/*
++		* Set the P2P State to the listen state of find phase
++		* and set the current channel to the listen channel
++		*/
++		set_channel_bwmode(padapter, pwdinfo->listen_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_FIND_PHASE_LISTEN);
++
++		/* turn on phy-dynamic functions */
++		rtw_phydm_ability_restore(padapter);
++
++		sitesurvey_set_igi(padapter);
++
++		mlmeext_set_scan_state(pmlmeext, SCAN_P2P_LISTEN);
++		_set_timer(&pwdinfo->find_phase_timer, (u32)((u32)pwdinfo->listen_dwell * 100));
++		break;
++
++	case SCAN_P2P_LISTEN:
++		mlmeext_set_scan_state(pmlmeext, SCAN_PROCESS);
++		ss->channel_idx = 0;
++		goto operation_by_state;
++#endif /* CONFIG_P2P */
++
++	case SCAN_COMPLETE:
++#ifdef CONFIG_P2P
++		if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_SCAN)
++		    || rtw_p2p_chk_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH)
++		   ) {
++#ifdef CONFIG_CONCURRENT_MODE
++			if (pwdinfo->driver_interface == DRIVER_WEXT) {
++				if (rtw_mi_check_status(padapter, MI_LINKED))
++					_set_timer(&pwdinfo->ap_p2p_switch_timer, 500);
++			}
++#endif
++
++			rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++		}
++		rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_NONE);
++#endif /* CONFIG_P2P */
++
++		/* switch channel */
++		survey_done_set_ch_bw(padapter);
++
++		sitesurvey_set_msr(padapter, _FALSE);
++
++		val8 = 0; /* survey done */
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++
++		/* turn on phy-dynamic functions */
++		rtw_phydm_ability_restore(padapter);
++
++		sitesurvey_set_igi(padapter);
++
++#ifdef CONFIG_MCC_MODE
++		/* start MCC fail, then tx null data */
++		if (!rtw_hal_set_mcc_setting_scan_complete(padapter))
++#endif /* CONFIG_MCC_MODE */
++			sitesurvey_ps_annc(padapter, 0);
++
++		/* apply rx ampdu setting */
++		rtw_rx_ampdu_apply(padapter);
++
++		mlmeext_set_scan_state(pmlmeext, SCAN_DISABLE);
++
++		report_surveydone_event(padapter);
++
++		issue_action_BSSCoexistPacket(padapter);
++		issue_action_BSSCoexistPacket(padapter);
++		issue_action_BSSCoexistPacket(padapter);
++	}
++
++	return H2C_SUCCESS;
++}
++
++u8 setauth_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct setauth_parm		*pparm = (struct setauth_parm *)pbuf;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (pparm->mode < 4)
++		pmlmeinfo->auth_algo = pparm->mode;
++
++	return	H2C_SUCCESS;
++}
++
++/*
++SEC CAM Entry format (32 bytes)
++DW0 - MAC_ADDR[15:0] | Valid[15] | MFB[14:8] | RSVD[7]  | GK[6] | MIC_KEY[5] | SEC_TYPE[4:2] | KID[1:0]
++DW0 - MAC_ADDR[15:0] | Valid[15] |RSVD[14:9] | RPT_MODE[8] | SPP_MODE[7]  | GK[6] | MIC_KEY[5] | SEC_TYPE[4:2] | KID[1:0] (92E/8812A/8814A)
++DW1 - MAC_ADDR[47:16]
++DW2 - KEY[31:0]
++DW3 - KEY[63:32]
++DW4 - KEY[95:64]
++DW5 - KEY[127:96]
++DW6 - RSVD
++DW7 - RSVD
++*/
++
++/*Set WEP key or Group Key*/
++u8 setkey_hdl(_adapter *padapter, u8 *pbuf)
++{
++	u16	ctrl = 0;
++	s16 cam_id = 0;
++	struct setkey_parm		*pparm = (struct setkey_parm *)pbuf;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	unsigned char null_addr[] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
++	u8 *addr;
++	bool used = _FALSE;
++
++	/* main tx key for wep. */
++	if (pparm->set_tx)
++		pmlmeinfo->key_index = pparm->keyid;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) || ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE))
++		cam_id = rtw_iface_bcmc_id_get(padapter);
++	else
++#endif
++		cam_id = rtw_camid_alloc(padapter, NULL, pparm->keyid, &used);
++
++	if (cam_id < 0)
++		goto enable_mc;
++
++#ifndef CONFIG_CONCURRENT_MODE
++	if (cam_id >= 0 && cam_id <= 3)
++		addr = null_addr;
++	else
++#endif
++	{
++		if (((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) || ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE))
++			/* for AP mode ,we will force sec cam entry_id so hw dont search cam when tx*/
++			addr = adapter_mac_addr(padapter);
++		else
++			/* not default key, searched by A2 */
++			addr = get_bssid(&padapter->mlmepriv);
++	}
++
++	/* cam entry searched is pairwise key */
++	if (used == _TRUE && rtw_camid_is_gk(padapter, cam_id) == _FALSE) {
++		s16 camid_clr;
++
++		RTW_PRINT(FUNC_ADPT_FMT" group key with "MAC_FMT" id:%u the same key id as pairwise key\n"
++			, FUNC_ADPT_ARG(padapter), MAC_ARG(addr), pparm->keyid);
++
++		/* HW has problem to distinguish this group key with existing pairwise key, stop HW enc and dec for BMC */
++		rtw_camctl_set_flags(padapter, SEC_STATUS_STA_PK_GK_CONFLICT_DIS_BMC_SEARCH);
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, NULL);
++
++		/* clear group key */
++		while ((camid_clr = rtw_camid_search(padapter, addr, -1, 1)) >= 0) {
++			RTW_PRINT("clear group key for addr:"MAC_FMT", camid:%d\n", MAC_ARG(addr), camid_clr);
++			clear_cam_entry(padapter, camid_clr);
++			rtw_camid_free(padapter, camid_clr);
++		}
++
++		goto enable_mc;
++	}
++
++	ctrl = BIT(15) | BIT(6) | ((pparm->algorithm) << 2) | pparm->keyid;
++
++	RTW_PRINT("set group key camid:%d, addr:"MAC_FMT", kid:%d, type:%s\n"
++		, cam_id, MAC_ARG(addr), pparm->keyid, security_type_str(pparm->algorithm));
++
++	write_cam(padapter, cam_id, ctrl, addr, pparm->key);
++
++	/* if ((cam_id > 3) && (((pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE) || ((pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE)))*/
++#ifdef CONFIG_CONCURRENT_MODE
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) || ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE)) {
++		if (is_wep_enc(pparm->algorithm)) {
++			padapter->securitypriv.dot11Def_camid[pparm->keyid] = cam_id;
++			padapter->securitypriv.dot118021x_bmc_cam_id =
++				padapter->securitypriv.dot11Def_camid[padapter->securitypriv.dot11PrivacyKeyIndex];
++			RTW_PRINT("wep group key - force camid:%d\n", padapter->securitypriv.dot118021x_bmc_cam_id);
++		} else {
++			/*u8 org_cam_id = padapter->securitypriv.dot118021x_bmc_cam_id;*/
++
++			/*force GK's cam id*/
++			padapter->securitypriv.dot118021x_bmc_cam_id = cam_id;
++
++			/* for GTK rekey
++			if ((org_cam_id != INVALID_SEC_MAC_CAM_ID) &&
++				(org_cam_id != cam_id)) {
++				RTW_PRINT("clear group key for addr:"MAC_FMT", org_camid:%d new_camid:%d\n", MAC_ARG(addr), org_cam_id, cam_id);
++				clear_cam_entry(padapter, org_cam_id);
++				rtw_camid_free(padapter, org_cam_id);
++			}*/
++		}
++	}
++#endif
++
++
++#ifndef CONFIG_CONCURRENT_MODE
++	if (cam_id >= 0 && cam_id <= 3)
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_DK_CFG, (u8 *)_TRUE);
++#endif
++
++	/* 8814au should set both broadcast and unicast CAM entry for WEP key in STA mode */
++	if (is_wep_enc(pparm->algorithm) && check_mlmeinfo_state(pmlmeext, WIFI_FW_STATION_STATE) &&
++	    _rtw_camctl_chk_cap(padapter, SEC_CAP_CHK_BMC)) {
++		struct set_stakey_parm	sta_pparm;
++
++		sta_pparm.algorithm = pparm->algorithm;
++		sta_pparm.keyid = pparm->keyid;
++		_rtw_memcpy(sta_pparm.key, pparm->key, 16);
++		_rtw_memcpy(sta_pparm.addr, get_bssid(&padapter->mlmepriv), ETH_ALEN);
++		set_stakey_hdl(padapter, (u8 *)&sta_pparm);
++	}
++
++enable_mc:
++	/* allow multicast packets to driver */
++	rtw_hal_set_hwreg(padapter, HW_VAR_ON_RCR_AM, null_addr);
++
++	return H2C_SUCCESS;
++}
++
++void rtw_ap_wep_pk_setting(_adapter *adapter, struct sta_info *psta)
++{
++	struct security_priv *psecuritypriv = &(adapter->securitypriv);
++	struct set_stakey_parm	sta_pparm;
++	sint keyid;
++
++	if (!is_wep_enc(psecuritypriv->dot11PrivacyAlgrthm))
++		return;
++
++	for (keyid = 0; keyid < 4; keyid++) {
++		if ((psecuritypriv->key_mask & BIT(keyid)) && (keyid == psecuritypriv->dot11PrivacyKeyIndex)) {
++			sta_pparm.algorithm = psecuritypriv->dot11PrivacyAlgrthm;
++			sta_pparm.keyid = keyid;
++			_rtw_memcpy(sta_pparm.key, &(psecuritypriv->dot11DefKey[keyid].skey[0]), 16);
++			_rtw_memcpy(sta_pparm.addr, psta->hwaddr, ETH_ALEN);
++
++			RTW_PRINT(FUNC_ADPT_FMT"set WEP - PK with "MAC_FMT" keyid:%u\n"
++				, FUNC_ADPT_ARG(adapter), MAC_ARG(psta->hwaddr), keyid);
++
++			set_stakey_hdl(adapter, (u8 *)&sta_pparm);
++		}
++	}
++}
++
++u8 set_stakey_hdl(_adapter *padapter, u8 *pbuf)
++{
++	u16 ctrl = 0;
++	s16 cam_id = 0;
++	bool used;
++	u8 kid = 0;
++	u8 ret = H2C_SUCCESS;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct set_stakey_parm	*pparm = (struct set_stakey_parm *)pbuf;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta;
++
++	if (pparm->algorithm == _NO_PRIVACY_)
++		goto write_to_cam;
++
++	psta = rtw_get_stainfo(pstapriv, pparm->addr);
++	if (!psta) {
++		RTW_PRINT("%s sta:"MAC_FMT" not found\n", __func__, MAC_ARG(pparm->addr));
++		ret = H2C_REJECTED;
++		goto exit;
++	}
++
++	pmlmeinfo->enc_algo = pparm->algorithm;
++	if (is_wep_enc(pparm->algorithm))
++		kid = pparm->keyid;
++	cam_id = rtw_camid_alloc(padapter, psta, kid, &used);
++	if (cam_id < 0)
++		goto exit;
++
++	/* cam entry searched is group key */
++	if (used == _TRUE && rtw_camid_is_gk(padapter, cam_id) == _TRUE) {
++		s16 camid_clr;
++
++		RTW_PRINT(FUNC_ADPT_FMT" pairwise key with "MAC_FMT" id:%u the same key id as group key\n"
++			, FUNC_ADPT_ARG(padapter), MAC_ARG(pparm->addr), pparm->keyid);
++
++		/* HW has problem to distinguish this pairwise key with existing group key, stop HW enc and dec for BMC */
++		rtw_camctl_set_flags(padapter, SEC_STATUS_STA_PK_GK_CONFLICT_DIS_BMC_SEARCH);
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, NULL);
++
++		/* clear group key */
++		while ((camid_clr = rtw_camid_search(padapter, pparm->addr, -1, 1)) >= 0) {
++			RTW_PRINT("clear group key for addr:"MAC_FMT", camid:%d\n", MAC_ARG(pparm->addr), camid_clr);
++			clear_cam_entry(padapter, camid_clr);
++			rtw_camid_free(padapter, camid_clr);
++		}
++	}
++
++write_to_cam:
++	if (pparm->algorithm == _NO_PRIVACY_) {
++		while ((cam_id = rtw_camid_search(padapter, pparm->addr, -1, -1)) >= 0) {
++			RTW_PRINT("clear key for addr:"MAC_FMT", camid:%d\n", MAC_ARG(pparm->addr), cam_id);
++			clear_cam_entry(padapter, cam_id);
++			rtw_camid_free(padapter, cam_id);
++		}
++	} else {
++		RTW_PRINT("set pairwise key camid:%d, addr:"MAC_FMT", kid:%d, type:%s\n",
++			cam_id, MAC_ARG(pparm->addr), pparm->keyid, security_type_str(pparm->algorithm));
++		ctrl = BIT(15) | ((pparm->algorithm) << 2) | pparm->keyid;
++		write_cam(padapter, cam_id, ctrl, pparm->addr, pparm->key);
++	}
++	ret = H2C_SUCCESS_RSP;
++
++exit:
++	return ret;
++}
++
++u8 add_ba_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct addBaReq_parm	*pparm = (struct addBaReq_parm *)pbuf;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	struct sta_info *psta = rtw_get_stainfo(&padapter->stapriv, pparm->addr);
++
++	if (!psta)
++		return	H2C_SUCCESS;
++
++#ifdef CONFIG_80211N_HT
++	if (((pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS) && (pmlmeinfo->HT_enable)) ||
++	    ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE)) {
++		/* pmlmeinfo->ADDBA_retry_count = 0; */
++		/* pmlmeinfo->candidate_tid_bitmap |= (0x1 << pparm->tid);		 */
++		/* psta->htpriv.candidate_tid_bitmap |= BIT(pparm->tid); */
++		issue_addba_req(padapter, pparm->addr, (u8)pparm->tid);
++		/* _set_timer(&pmlmeext->ADDBA_timer, ADDBA_TO); */
++		_set_timer(&psta->addba_retry_timer, ADDBA_TO);
++	}
++#ifdef CONFIG_TDLS
++	else if ((psta->tdls_sta_state & TDLS_LINKED_STATE) &&
++		 (psta->htpriv.ht_option == _TRUE) &&
++		 (psta->htpriv.ampdu_enable == _TRUE)) {
++		issue_addba_req(padapter, pparm->addr, (u8)pparm->tid);
++		_set_timer(&psta->addba_retry_timer, ADDBA_TO);
++	}
++#endif /* CONFIG */
++	else
++		psta->htpriv.candidate_tid_bitmap &= ~BIT(pparm->tid);
++#endif /* CONFIG_80211N_HT */
++	return	H2C_SUCCESS;
++}
++
++
++u8 add_ba_rsp_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct addBaRsp_parm *pparm = (struct addBaRsp_parm *)pbuf;
++	u8 ret = _TRUE, i = 0, try_cnt = 3, wait_ms = 50;
++	struct recv_reorder_ctrl *preorder_ctrl;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta;
++
++	psta = rtw_get_stainfo(pstapriv, pparm->addr);
++	if (!psta)
++		goto exit;
++
++	preorder_ctrl = &psta->recvreorder_ctrl[pparm->tid];
++	ret = issue_addba_rsp_wait_ack(padapter, pparm->addr, pparm->tid, pparm->status, pparm->size, 3, 50);
++
++#ifdef CONFIG_UPDATE_INDICATE_SEQ_WHILE_PROCESS_ADDBA_REQ
++	/* status = 0 means accept this addba req, so update indicate seq = start_seq under this compile flag */
++	if (pparm->status == 0) {
++		preorder_ctrl->indicate_seq = pparm->start_seq;
++#ifdef DBG_RX_SEQ
++		RTW_INFO("DBG_RX_SEQ %s:%d IndicateSeq: %d, start_seq: %d\n", __func__, __LINE__,
++			 preorder_ctrl->indicate_seq, pparm->start_seq);
++#endif
++	}
++#else
++	preorder_ctrl->indicate_seq = 0xffff;
++#endif
++
++	/*
++	  * status = 0 means accept this addba req
++	  * status = 37 means reject this addba req
++	  */
++	if (pparm->status == 0) {
++		preorder_ctrl->enable = _TRUE;
++		preorder_ctrl->ampdu_size = pparm->size;
++	} else if (pparm->status == 37)
++		preorder_ctrl->enable = _FALSE;
++
++exit:
++	return H2C_SUCCESS;
++}
++
++u8 chk_bmc_sleepq_cmd(_adapter *padapter)
++{
++	struct cmd_obj *ph2c;
++	struct cmd_priv *pcmdpriv = &(padapter->cmdpriv);
++	u8 res = _SUCCESS;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	init_h2fwcmd_w_parm_no_parm_rsp(ph2c, GEN_CMD_CODE(_ChkBMCSleepq));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++exit:
++
++
++	return res;
++}
++
++u8 set_tx_beacon_cmd(_adapter *padapter)
++{
++	struct cmd_obj	*ph2c;
++	struct Tx_Beacon_param	*ptxBeacon_parm;
++	struct cmd_priv	*pcmdpriv = &(padapter->cmdpriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8	res = _SUCCESS;
++	int len_diff = 0;
++
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	ptxBeacon_parm = (struct Tx_Beacon_param *)rtw_zmalloc(sizeof(struct Tx_Beacon_param));
++	if (ptxBeacon_parm == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct	cmd_obj));
++		res = _FAIL;
++		goto exit;
++	}
++
++	_rtw_memcpy(&(ptxBeacon_parm->network), &(pmlmeinfo->network), sizeof(WLAN_BSSID_EX));
++
++	len_diff = update_hidden_ssid(
++			   ptxBeacon_parm->network.IEs + _BEACON_IE_OFFSET_
++		   , ptxBeacon_parm->network.IELength - _BEACON_IE_OFFSET_
++			   , pmlmeinfo->hidden_ssid_mode
++		   );
++	ptxBeacon_parm->network.IELength += len_diff;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, ptxBeacon_parm, GEN_CMD_CODE(_TX_Beacon));
++
++	res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++
++
++exit:
++
++
++	return res;
++}
++
++
++u8 mlme_evt_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	u8 evt_code, evt_seq;
++	u16 evt_sz;
++	uint	*peventbuf;
++	void (*event_callback)(_adapter *dev, u8 *pbuf);
++	struct evt_priv *pevt_priv = &(padapter->evtpriv);
++
++	if (pbuf == NULL)
++		goto _abort_event_;
++
++	peventbuf = (uint *)pbuf;
++	evt_sz = (u16)(*peventbuf & 0xffff);
++	evt_seq = (u8)((*peventbuf >> 24) & 0x7f);
++	evt_code = (u8)((*peventbuf >> 16) & 0xff);
++
++
++#ifdef CHECK_EVENT_SEQ
++	/* checking event sequence...		 */
++	if (evt_seq != (ATOMIC_READ(&pevt_priv->event_seq) & 0x7f)) {
++
++		pevt_priv->event_seq = (evt_seq + 1) & 0x7f;
++
++		goto _abort_event_;
++	}
++#endif
++
++	/* checking if event code is valid */
++	if (evt_code >= MAX_C2HEVT) {
++		goto _abort_event_;
++	}
++
++	/* checking if event size match the event parm size	 */
++	if ((wlanevents[evt_code].parmsize != 0) &&
++	    (wlanevents[evt_code].parmsize != evt_sz)) {
++
++		goto _abort_event_;
++
++	}
++
++	ATOMIC_INC(&pevt_priv->event_seq);
++
++	peventbuf += 2;
++
++	if (peventbuf) {
++		event_callback = wlanevents[evt_code].event_callback;
++		event_callback(padapter, (u8 *)peventbuf);
++
++		pevt_priv->evt_done_cnt++;
++	}
++
++
++_abort_event_:
++
++
++	return H2C_SUCCESS;
++
++}
++
++u8 h2c_msg_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	if (!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	return H2C_SUCCESS;
++}
++
++u8 chk_bmc_sleepq_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++#ifdef CONFIG_AP_MODE
++	_irqL irqL;
++	struct sta_info *psta_bmc;
++	_list	*xmitframe_plist, *xmitframe_phead;
++	struct xmit_frame *pxmitframe = NULL;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct sta_priv  *pstapriv = &padapter->stapriv;
++
++	/* for BC/MC Frames */
++	psta_bmc = rtw_get_bcmc_stainfo(padapter);
++	if (!psta_bmc)
++		return H2C_SUCCESS;
++
++	if ((pstapriv->tim_bitmap & BIT(0)) && (psta_bmc->sleepq_len > 0)) {
++#ifndef CONFIG_PCI_HCI
++		rtw_msleep_os(10);/* 10ms, ATIM(HIQ) Windows */
++#endif
++		/* _enter_critical_bh(&psta_bmc->sleep_q.lock, &irqL); */
++		_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++		xmitframe_phead = get_list_head(&psta_bmc->sleep_q);
++		xmitframe_plist = get_next(xmitframe_phead);
++
++		while ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE) {
++			pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++			xmitframe_plist = get_next(xmitframe_plist);
++
++			rtw_list_delete(&pxmitframe->list);
++
++			psta_bmc->sleepq_len--;
++			if (psta_bmc->sleepq_len > 0)
++				pxmitframe->attrib.mdata = 1;
++			else
++				pxmitframe->attrib.mdata = 0;
++
++			pxmitframe->attrib.triggered = 1;
++
++			if (xmitframe_hiq_filter(pxmitframe) == _TRUE)
++				pxmitframe->attrib.qsel = QSLT_HIGH;/* HIQ */
++
++#if 0
++			_exit_critical_bh(&psta_bmc->sleep_q.lock, &irqL);
++			if (rtw_hal_xmit(padapter, pxmitframe) == _TRUE)
++				rtw_os_xmit_complete(padapter, pxmitframe);
++			_enter_critical_bh(&psta_bmc->sleep_q.lock, &irqL);
++#endif
++			rtw_hal_xmitframe_enqueue(padapter, pxmitframe);
++		}
++
++		/* _exit_critical_bh(&psta_bmc->sleep_q.lock, &irqL); */
++		_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++		if (rtw_get_intf_type(padapter) != RTW_PCIE) {
++			/* check hi queue and bmc_sleepq */
++			rtw_chk_hi_queue_cmd(padapter);
++		}
++	}
++#endif
++
++	return H2C_SUCCESS;
++}
++
++u8 tx_beacon_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++
++#ifdef CONFIG_SWTIMER_BASED_TXBCN
++
++	tx_beacon_handlder(padapter->dvobj);
++
++#else
++
++	if (send_beacon(padapter) == _FAIL) {
++		RTW_INFO("issue_beacon, fail!\n");
++		return H2C_PARAMETERS_ERROR;
++	}
++
++	/* tx bc/mc frames after update TIM */
++	chk_bmc_sleepq_hdl(padapter, NULL);
++#endif
++
++	return H2C_SUCCESS;
++}
++
++/*
++* according to channel
++* add/remove WLAN_BSSID_EX.IEs's ERP ie
++* set WLAN_BSSID_EX.SupportedRates
++* update WLAN_BSSID_EX.IEs's Supported Rate and Extended Supported Rate ie
++*/
++void change_band_update_ie(_adapter *padapter, WLAN_BSSID_EX *pnetwork, u8 ch)
++{
++	u8	network_type, rate_len, total_rate_len, remainder_rate_len;
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8	erpinfo = 0x4;
++
++	if (ch >= 36) {
++		network_type = WIRELESS_11A;
++		total_rate_len = IEEE80211_NUM_OFDM_RATESLEN;
++		rtw_remove_bcn_ie(padapter, pnetwork, _ERPINFO_IE_);
++	} else {
++		network_type = WIRELESS_11BG;
++		total_rate_len = IEEE80211_CCK_RATE_LEN + IEEE80211_NUM_OFDM_RATESLEN;
++		rtw_add_bcn_ie(padapter, pnetwork, _ERPINFO_IE_, &erpinfo, 1);
++	}
++
++	rtw_set_supported_rate(pnetwork->SupportedRates, network_type);
++
++	UpdateBrateTbl(padapter, pnetwork->SupportedRates);
++
++	if (total_rate_len > 8) {
++		rate_len = 8;
++		remainder_rate_len = total_rate_len - 8;
++	} else {
++		rate_len = total_rate_len;
++		remainder_rate_len = 0;
++	}
++
++	rtw_add_bcn_ie(padapter, pnetwork, _SUPPORTEDRATES_IE_, pnetwork->SupportedRates, rate_len);
++
++	if (remainder_rate_len)
++		rtw_add_bcn_ie(padapter, pnetwork, _EXT_SUPPORTEDRATES_IE_, (pnetwork->SupportedRates + 8), remainder_rate_len);
++	else
++		rtw_remove_bcn_ie(padapter, pnetwork, _EXT_SUPPORTEDRATES_IE_);
++
++	pnetwork->Length = get_WLAN_BSSID_EX_sz(pnetwork);
++}
++
++void rtw_join_done_chk_ch(_adapter *adapter, int join_res)
++{
++#define DUMP_ADAPTERS_STATUS 0
++
++	struct dvobj_priv *dvobj;
++	_adapter *iface;
++	struct mlme_priv *mlme;
++	struct mlme_ext_priv *mlmeext;
++	u8 u_ch, u_offset, u_bw;
++	int i;
++
++	dvobj = adapter_to_dvobj(adapter);
++
++	if (DUMP_ADAPTERS_STATUS) {
++		RTW_INFO(FUNC_ADPT_FMT" enter\n", FUNC_ADPT_ARG(adapter));
++		dump_adapters_status(RTW_DBGDUMP , dvobj);
++	}
++
++	if (join_res >= 0) {
++
++#ifdef CONFIG_MCC_MODE
++		/* MCC setting success, don't go to ch union process */
++		if (rtw_hal_set_mcc_setting_join_done_chk_ch(adapter))
++			return;
++#endif /* CONFIG_MCC_MODE */
++
++		if (rtw_mi_get_ch_setting_union(adapter, &u_ch, &u_bw, &u_offset) <= 0) {
++			dump_adapters_status(RTW_DBGDUMP , dvobj);
++			rtw_warn_on(1);
++		}
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			mlme = &iface->mlmepriv;
++			mlmeext = &iface->mlmeextpriv;
++
++			if (!iface || iface == adapter)
++				continue;
++
++			if (check_fwstate(mlme, WIFI_AP_STATE)
++			    && check_fwstate(mlme, WIFI_ASOC_STATE)
++			   ) {
++				bool is_grouped = rtw_is_chbw_grouped(u_ch, u_bw, u_offset
++					, mlmeext->cur_channel, mlmeext->cur_bwmode, mlmeext->cur_ch_offset);
++
++				if (is_grouped == _FALSE) {
++					/* handle AP which need to switch ch setting */
++
++					/* restore original bw, adjust bw by registry setting on target ch */
++					mlmeext->cur_bwmode = mlme->ori_bw;
++					mlmeext->cur_channel = u_ch;
++					rtw_adjust_chbw(iface
++						, mlmeext->cur_channel, &mlmeext->cur_bwmode, &mlmeext->cur_ch_offset);
++
++					rtw_sync_chbw(&mlmeext->cur_channel, &mlmeext->cur_bwmode, &mlmeext->cur_ch_offset
++						, &u_ch, &u_bw, &u_offset);
++
++					rtw_ap_update_bss_chbw(iface, &(mlmeext->mlmext_info.network)
++						, mlmeext->cur_channel, mlmeext->cur_bwmode, mlmeext->cur_ch_offset);
++
++					_rtw_memcpy(&(mlme->cur_network.network), &(mlmeext->mlmext_info.network), sizeof(WLAN_BSSID_EX));
++
++					rtw_start_bss_hdl_after_chbw_decided(iface);
++				}
++
++				update_beacon(iface, 0, NULL, _TRUE);
++			}
++
++			clr_fwstate(mlme, WIFI_OP_CH_SWITCHING);
++		}
++
++#ifdef CONFIG_DFS_MASTER
++		rtw_dfs_master_status_apply(adapter, MLME_STA_CONNECTED);
++#endif
++	} else {
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			mlme = &iface->mlmepriv;
++			mlmeext = &iface->mlmeextpriv;
++
++			if (!iface || iface == adapter)
++				continue;
++
++			if (check_fwstate(mlme, WIFI_AP_STATE)
++			    && check_fwstate(mlme, WIFI_ASOC_STATE))
++				update_beacon(iface, 0, NULL, _TRUE);
++
++			clr_fwstate(mlme, WIFI_OP_CH_SWITCHING);
++		}
++#ifdef CONFIG_DFS_MASTER
++		rtw_dfs_master_status_apply(adapter, MLME_STA_DISCONNECTED);
++#endif
++	}
++
++	if (rtw_mi_get_ch_setting_union(adapter, &u_ch, &u_bw, &u_offset)) {
++		set_channel_bwmode(adapter, u_ch, u_offset, u_bw);
++		rtw_mi_update_union_chan_inf(adapter, u_ch, u_offset, u_bw);
++	}
++
++	if (DUMP_ADAPTERS_STATUS) {
++		RTW_INFO(FUNC_ADPT_FMT" exit\n", FUNC_ADPT_ARG(adapter));
++		dump_adapters_status(RTW_DBGDUMP , dvobj);
++	}
++}
++
++int rtw_chk_start_clnt_join(_adapter *adapter, u8 *ch, u8 *bw, u8 *offset)
++{
++	bool chbw_allow = _TRUE;
++	bool connect_allow = _TRUE;
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++	u8 cur_ch, cur_bw, cur_ch_offset;
++	u8 u_ch, u_offset, u_bw;
++
++	u_ch = cur_ch = pmlmeext->cur_channel;
++	u_bw = cur_bw = pmlmeext->cur_bwmode;
++	u_offset = cur_ch_offset = pmlmeext->cur_ch_offset;
++
++	if (!ch || !bw || !offset) {
++		connect_allow = _FALSE;
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (cur_ch == 0) {
++		connect_allow = _FALSE;
++		RTW_ERR(FUNC_ADPT_FMT" cur_ch:%u\n"
++			, FUNC_ADPT_ARG(adapter), cur_ch);
++		rtw_warn_on(1);
++		goto exit;
++	}
++	RTW_INFO(FUNC_ADPT_FMT" req: %u,%u,%u\n", FUNC_ADPT_ARG(adapter), u_ch, u_bw, u_offset);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	{
++		struct dvobj_priv *dvobj;
++		_adapter *iface;
++		struct mlme_priv *mlme;
++		struct mlme_ext_priv *mlmeext;
++		u8 sta_num;
++		u8 ld_sta_num;
++		u8 lg_sta_num;
++		u8 ap_num;
++		u8 ld_ap_num;
++		int i;
++
++		dvobj = adapter_to_dvobj(adapter);
++
++		rtw_mi_status_no_self(adapter, &sta_num, &ld_sta_num, &lg_sta_num, &ap_num, &ld_ap_num, NULL);
++		RTW_INFO(FUNC_ADPT_FMT" ld_sta_num:%u, ap_num:%u\n"
++			 , FUNC_ADPT_ARG(adapter), ld_sta_num, ap_num);
++
++		if (!ld_sta_num && !ap_num) {
++			/* consider linking STA? */
++			goto connect_allow_hdl;
++		}
++
++		if (rtw_mi_get_ch_setting_union_no_self(adapter, &u_ch, &u_bw, &u_offset) <= 0) {
++			dump_adapters_status(RTW_DBGDUMP , dvobj);
++			rtw_warn_on(1);
++		}
++		RTW_INFO(FUNC_ADPT_FMT" union no self: %u,%u,%u\n"
++			 , FUNC_ADPT_ARG(adapter), u_ch, u_bw, u_offset);
++
++		/* chbw_allow? */
++		chbw_allow = rtw_is_chbw_grouped(pmlmeext->cur_channel, pmlmeext->cur_bwmode, pmlmeext->cur_ch_offset
++						 , u_ch, u_bw, u_offset);
++
++		RTW_INFO(FUNC_ADPT_FMT" chbw_allow:%d\n"
++			 , FUNC_ADPT_ARG(adapter), chbw_allow);
++
++#ifdef CONFIG_MCC_MODE
++		/* check setting success, don't go to ch union process */
++		if (rtw_hal_set_mcc_setting_chk_start_clnt_join(adapter, &u_ch, &u_bw, &u_offset, chbw_allow))
++			goto exit;
++#endif
++
++		if (chbw_allow == _TRUE) {
++			rtw_sync_chbw(&cur_ch, &cur_bw, &cur_ch_offset, &u_ch, &u_bw, &u_offset);
++			rtw_warn_on(cur_ch != pmlmeext->cur_channel);
++			rtw_warn_on(cur_bw != pmlmeext->cur_bwmode);
++			rtw_warn_on(cur_ch_offset != pmlmeext->cur_ch_offset);
++			goto connect_allow_hdl;
++		}
++
++#ifdef CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT
++		/* chbw_allow is _FALSE, connect allow? */
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			mlme = &iface->mlmepriv;
++			mlmeext = &iface->mlmeextpriv;
++
++			if (check_fwstate(mlme, WIFI_STATION_STATE)
++			    && check_fwstate(mlme, WIFI_ASOC_STATE)
++#if defined(CONFIG_P2P)
++			    && rtw_p2p_chk_state(&(iface->wdinfo), P2P_STATE_NONE)
++#endif
++			   ) {
++				connect_allow = _FALSE;
++				break;
++			}
++		}
++#endif /* CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT */
++
++		if ((ld_sta_num + ld_ap_num) >= 2)
++			connect_allow = _FALSE;
++
++		RTW_INFO(FUNC_ADPT_FMT" connect_allow:%d\n"
++			 , FUNC_ADPT_ARG(adapter), connect_allow);
++
++		if (connect_allow == _FALSE)
++			goto exit;
++
++connect_allow_hdl:
++		/* connect_allow == _TRUE */
++
++#ifdef CONFIG_DFS_MASTER
++		rtw_dfs_master_status_apply(adapter, MLME_STA_CONNECTING);
++#endif
++
++		if (chbw_allow == _FALSE) {
++			u_ch = cur_ch;
++			u_bw = cur_bw;
++			u_offset = cur_ch_offset;
++
++			for (i = 0; i < dvobj->iface_nums; i++) {
++				iface = dvobj->padapters[i];
++				mlme = &iface->mlmepriv;
++				mlmeext = &iface->mlmeextpriv;
++
++				if (!iface || iface == adapter)
++					continue;
++
++				if (check_fwstate(mlme, WIFI_AP_STATE)
++				    && check_fwstate(mlme, WIFI_ASOC_STATE)
++				   ) {
++#ifdef CONFIG_SPCT_CH_SWITCH
++					if (1)
++						rtw_ap_inform_ch_switch(iface, pmlmeext->cur_channel , pmlmeext->cur_ch_offset);
++					else
++#endif
++						rtw_sta_flush(iface, _FALSE);
++
++					rtw_hal_set_hwreg(iface, HW_VAR_CHECK_TXBUF, 0);
++					set_fwstate(mlme, WIFI_OP_CH_SWITCHING);
++				} else if (check_fwstate(mlme, WIFI_STATION_STATE)
++					&& check_fwstate(mlme, WIFI_ASOC_STATE)
++					  ) {
++					rtw_disassoc_cmd(iface, 500, _FALSE);
++					rtw_indicate_disconnect(iface, 0, _FALSE);
++					rtw_free_assoc_resources(iface, 1);
++				}
++			}
++		}
++	}
++#endif /* CONFIG_CONCURRENT_MODE */
++
++exit:
++
++	if (connect_allow == _TRUE) {
++		RTW_INFO(FUNC_ADPT_FMT" union: %u,%u,%u\n", FUNC_ADPT_ARG(adapter), u_ch, u_bw, u_offset);
++		*ch = u_ch;
++		*bw = u_bw;
++		*offset = u_offset;
++	}
++
++	return connect_allow == _TRUE ? _SUCCESS : _FAIL;
++}
++
++
++u8 set_ch_hdl(_adapter *padapter, u8 *pbuf)
++{
++	struct set_ch_parm *set_ch_parm;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	if (!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	set_ch_parm = (struct set_ch_parm *)pbuf;
++
++	RTW_INFO(FUNC_NDEV_FMT" ch:%u, bw:%u, ch_offset:%u\n",
++		 FUNC_NDEV_ARG(padapter->pnetdev),
++		 set_ch_parm->ch, set_ch_parm->bw, set_ch_parm->ch_offset);
++
++	pmlmeext->cur_channel = set_ch_parm->ch;
++	pmlmeext->cur_ch_offset = set_ch_parm->ch_offset;
++	pmlmeext->cur_bwmode = set_ch_parm->bw;
++
++	set_channel_bwmode(padapter, set_ch_parm->ch, set_ch_parm->ch_offset, set_ch_parm->bw);
++
++	return	H2C_SUCCESS;
++}
++
++u8 set_chplan_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct SetChannelPlan_param *setChannelPlan_param;
++	struct mlme_priv *mlme = &padapter->mlmepriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	if (!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	setChannelPlan_param = (struct SetChannelPlan_param *)pbuf;
++
++	if (!rtw_is_channel_plan_valid(setChannelPlan_param->channel_plan))
++		return H2C_PARAMETERS_ERROR;
++
++	mlme->country_ent = setChannelPlan_param->country_ent;
++	mlme->ChannelPlan = setChannelPlan_param->channel_plan;
++
++	pmlmeext->max_chan_nums = init_channel_set(padapter, setChannelPlan_param->channel_plan, pmlmeext->channel_set);
++	init_channel_list(padapter, pmlmeext->channel_set, pmlmeext->max_chan_nums, &pmlmeext->channel_list);
++
++	rtw_hal_set_odm_var(padapter, HAL_ODM_REGULATION, NULL, _TRUE);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_reg_notify_by_driver(padapter);
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	return	H2C_SUCCESS;
++}
++
++u8 led_blink_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++	struct LedBlink_param *ledBlink_param;
++
++	if (!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	ledBlink_param = (struct LedBlink_param *)pbuf;
++
++#ifdef CONFIG_LED_HANDLED_BY_CMD_THREAD
++	BlinkHandler((PLED_DATA)ledBlink_param->pLed);
++#endif
++
++	return	H2C_SUCCESS;
++}
++
++u8 set_csa_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++#ifdef CONFIG_DFS
++	struct SetChannelSwitch_param *setChannelSwitch_param;
++	u8 new_ch_no;
++	u8 gval8 = 0x00, sval8 = 0xff;
++
++	if (!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	setChannelSwitch_param = (struct SetChannelSwitch_param *)pbuf;
++	new_ch_no = setChannelSwitch_param->new_ch_no;
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_TXPAUSE, &gval8);
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_TXPAUSE, &sval8);
++
++	RTW_INFO("DFS detected! Swiching channel to %d!\n", new_ch_no);
++	set_channel_bwmode(padapter, new_ch_no, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_TXPAUSE, &gval8);
++
++	rtw_disassoc_cmd(padapter, 0, _FALSE);
++	rtw_indicate_disconnect(padapter, 0, _FALSE);
++	rtw_free_assoc_resources(padapter, 1);
++	rtw_free_network_queue(padapter, _TRUE);
++
++	if (((new_ch_no >= 52) && (new_ch_no <= 64)) || ((new_ch_no >= 100) && (new_ch_no <= 140)))
++		RTW_INFO("Switched to DFS band (ch %02x) again!!\n", new_ch_no);
++
++	return	H2C_SUCCESS;
++#else
++	return	H2C_REJECTED;
++#endif /* CONFIG_DFS */
++
++}
++
++u8 tdls_hdl(_adapter *padapter, unsigned char *pbuf)
++{
++#ifdef CONFIG_TDLS
++	_irqL irqL;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++#ifdef CONFIG_TDLS_CH_SW
++	struct tdls_ch_switch *pchsw_info = &ptdlsinfo->chsw_info;
++#endif
++	struct TDLSoption_param *TDLSoption;
++	struct sta_info *ptdls_sta = NULL;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &pmlmeext->mlmext_info;
++	u8 survey_channel, i, min, option;
++	struct tdls_txmgmt txmgmt;
++	u32 setchtime, resp_sleep = 0, wait_time;
++	u8 zaddr[ETH_ALEN] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
++	u8 ret;
++	u8 doiqk;
++
++	if (!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	TDLSoption = (struct TDLSoption_param *)pbuf;
++	option = TDLSoption->option;
++
++	if (!_rtw_memcmp(TDLSoption->addr, zaddr, ETH_ALEN)) {
++		ptdls_sta = rtw_get_stainfo(&(padapter->stapriv), TDLSoption->addr);
++		if (ptdls_sta == NULL)
++			return H2C_REJECTED;
++	} else {
++		if (!(option == TDLS_RS_RCR))
++			return H2C_REJECTED;
++	}
++
++	/* _enter_critical_bh(&(ptdlsinfo->hdl_lock), &irqL); */
++	/* RTW_INFO("[%s] option:%d\n", __FUNCTION__, option); */
++
++	switch (option) {
++	case TDLS_ESTABLISHED: {
++		/* As long as TDLS handshake success, we should set RCR_CBSSID_DATA bit to 0 */
++		/* So we can receive all kinds of data frames. */
++		u8 sta_band = 0;
++
++		/* leave ALL PS when TDLS is established */
++		rtw_pwr_wakeup(padapter);
++
++		rtw_hal_set_hwreg(padapter, HW_VAR_TDLS_WRCR, 0);
++		RTW_INFO("Created Direct Link with "MAC_FMT"\n", MAC_ARG(ptdls_sta->hwaddr));
++
++		/* Set TDLS sta rate. */
++		/* Update station supportRate */
++		rtw_hal_update_sta_rate_mask(padapter, ptdls_sta);
++		if (pmlmeext->cur_channel > 14) {
++			if (ptdls_sta->ra_mask & 0xffff000)
++				sta_band |= WIRELESS_11_5N ;
++
++			if (ptdls_sta->ra_mask & 0xff0)
++				sta_band |= WIRELESS_11A;
++
++			/* 5G band */
++#ifdef CONFIG_80211AC_VHT
++			if (ptdls_sta->vhtpriv.vht_option)
++				sta_band = WIRELESS_11_5AC;
++#endif
++
++		} else {
++			if (ptdls_sta->ra_mask & 0xffff000)
++				sta_band |= WIRELESS_11_24N;
++
++			if (ptdls_sta->ra_mask & 0xff0)
++				sta_band |= WIRELESS_11G;
++
++			if (ptdls_sta->ra_mask & 0x0f)
++				sta_band |= WIRELESS_11B;
++		}
++		ptdls_sta->wireless_mode = sta_band;
++		ptdls_sta->raid = rtw_hal_networktype_to_raid(padapter, ptdls_sta);
++		set_sta_rate(padapter, ptdls_sta);
++		rtw_sta_media_status_rpt(padapter, ptdls_sta, 1);
++		/* Sta mode */
++		rtw_hal_set_odm_var(padapter, HAL_ODM_STA_INFO, ptdls_sta, _TRUE);
++		break;
++	}
++	case TDLS_ISSUE_PTI:
++		ptdls_sta->tdls_sta_state |= TDLS_WAIT_PTR_STATE;
++		issue_tdls_peer_traffic_indication(padapter, ptdls_sta);
++		_set_timer(&ptdls_sta->pti_timer, TDLS_PTI_TIME);
++		break;
++#ifdef CONFIG_TDLS_CH_SW
++	case TDLS_CH_SW_RESP:
++		_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++		txmgmt.status_code = 0;
++		_rtw_memcpy(txmgmt.peer, ptdls_sta->hwaddr, ETH_ALEN);
++
++		issue_nulldata(padapter, NULL, 1, 3, 3);
++
++		RTW_INFO("[TDLS ] issue tdls channel switch response\n");
++		ret = issue_tdls_ch_switch_rsp(padapter, &txmgmt, _TRUE);
++
++		/* If we receive TDLS_CH_SW_REQ at off channel which it's target is AP's channel */
++		/* then we just switch to AP's channel*/
++		if (padapter->mlmeextpriv.cur_channel == pchsw_info->off_ch_num) {
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_END_TO_BASE_CHNL);
++			break;
++		}
++
++		if (ret == _SUCCESS)
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_TO_OFF_CHNL);
++		else
++			RTW_INFO("[TDLS] issue_tdls_ch_switch_rsp wait ack fail !!!!!!!!!!\n");
++
++		break;
++	case TDLS_CH_SW_PREPARE:
++		pchsw_info->ch_sw_state |= TDLS_CH_SWITCH_PREPARE_STATE;
++
++		/* to collect IQK info of off-chnl */
++		doiqk = _TRUE;
++		rtw_hal_set_hwreg(padapter, HW_VAR_DO_IQK, &doiqk);
++		set_channel_bwmode(padapter, pchsw_info->off_ch_num, pchsw_info->ch_offset, (pchsw_info->ch_offset) ? CHANNEL_WIDTH_40 : CHANNEL_WIDTH_20);
++		doiqk = _FALSE;
++		rtw_hal_set_hwreg(padapter, HW_VAR_DO_IQK, &doiqk);
++
++		/* switch back to base-chnl */
++		set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++
++		rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_START);
++
++		pchsw_info->ch_sw_state &= ~(TDLS_CH_SWITCH_PREPARE_STATE);
++
++		break;
++	case TDLS_CH_SW_START:
++		rtw_tdls_set_ch_sw_oper_control(padapter, _TRUE);
++		break;
++	case TDLS_CH_SW_TO_OFF_CHNL:
++		issue_nulldata(padapter, NULL, 1, 3, 3);
++
++		if (!(pchsw_info->ch_sw_state & TDLS_CH_SW_INITIATOR_STATE))
++			_set_timer(&ptdls_sta->ch_sw_timer, (u32)(ptdls_sta->ch_switch_timeout) / 1000);
++
++		if (rtw_tdls_do_ch_sw(padapter, ptdls_sta, TDLS_CH_SW_OFF_CHNL, pchsw_info->off_ch_num,
++			pchsw_info->ch_offset, (pchsw_info->ch_offset) ? CHANNEL_WIDTH_40 : CHANNEL_WIDTH_20, ptdls_sta->ch_switch_time) == _SUCCESS) {
++			pchsw_info->ch_sw_state &= ~(TDLS_PEER_AT_OFF_STATE);
++			if (pchsw_info->ch_sw_state & TDLS_CH_SW_INITIATOR_STATE) {
++				if (issue_nulldata_to_TDLS_peer_STA(ptdls_sta->padapter, ptdls_sta->hwaddr, 0, 1, 3) == _FAIL)
++					rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_TO_BASE_CHNL);
++			}
++		} else {
++			u8 bcancelled;
++
++			if (!(pchsw_info->ch_sw_state & TDLS_CH_SW_INITIATOR_STATE))
++				_cancel_timer(&ptdls_sta->ch_sw_timer, &bcancelled);
++		}
++
++
++		break;
++	case TDLS_CH_SW_END:
++	case TDLS_CH_SW_END_TO_BASE_CHNL:
++		rtw_tdls_set_ch_sw_oper_control(padapter, _FALSE);
++		_cancel_timer_ex(&ptdls_sta->ch_sw_timer);
++		_cancel_timer_ex(&ptdls_sta->stay_on_base_chnl_timer);
++		_cancel_timer_ex(&ptdls_sta->ch_sw_monitor_timer);
++#if 0
++		_rtw_memset(pHalData->tdls_ch_sw_iqk_info_base_chnl, 0x00, sizeof(pHalData->tdls_ch_sw_iqk_info_base_chnl));
++		_rtw_memset(pHalData->tdls_ch_sw_iqk_info_off_chnl, 0x00, sizeof(pHalData->tdls_ch_sw_iqk_info_off_chnl));
++#endif
++
++		if (option == TDLS_CH_SW_END_TO_BASE_CHNL)
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_TO_BASE_CHNL);
++
++		break;
++	case TDLS_CH_SW_TO_BASE_CHNL_UNSOLICITED:
++	case TDLS_CH_SW_TO_BASE_CHNL:
++		pchsw_info->ch_sw_state &= ~(TDLS_PEER_AT_OFF_STATE | TDLS_WAIT_CH_RSP_STATE);
++
++		if (option == TDLS_CH_SW_TO_BASE_CHNL_UNSOLICITED) {
++			if (ptdls_sta != NULL) {
++				/* Send unsolicited channel switch rsp. to peer */
++				_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++				txmgmt.status_code = 0;
++				_rtw_memcpy(txmgmt.peer, ptdls_sta->hwaddr, ETH_ALEN);
++				issue_tdls_ch_switch_rsp(padapter, &txmgmt, _FALSE);
++			}
++		}
++
++		if (rtw_tdls_do_ch_sw(padapter, ptdls_sta, TDLS_CH_SW_BASE_CHNL, pmlmeext->cur_channel,
++			pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode, ptdls_sta->ch_switch_time) == _SUCCESS) {
++			issue_nulldata(padapter, NULL, 0, 3, 3);
++			/* set ch sw monitor timer for responder */
++			if (!(pchsw_info->ch_sw_state & TDLS_CH_SW_INITIATOR_STATE))
++				_set_timer(&ptdls_sta->ch_sw_monitor_timer, TDLS_CH_SW_MONITOR_TIMEOUT);
++		}
++
++		break;
++#endif
++	case TDLS_RS_RCR:
++		rtw_hal_set_hwreg(padapter, HW_VAR_TDLS_RS_RCR, 0);
++		RTW_INFO("[TDLS] write REG_RCR, set bit6 on\n");
++		break;
++	case TDLS_TEARDOWN_STA:
++		_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++		txmgmt.status_code = 0;
++		_rtw_memcpy(txmgmt.peer, ptdls_sta->hwaddr, ETH_ALEN);
++
++		issue_tdls_teardown(padapter, &txmgmt, _TRUE);
++		break;
++	case TDLS_TEARDOWN_STA_LOCALLY:
++#ifdef CONFIG_TDLS_CH_SW
++		if (_rtw_memcmp(TDLSoption->addr, pchsw_info->addr, ETH_ALEN) == _TRUE) {
++			pchsw_info->ch_sw_state &= ~(TDLS_CH_SW_INITIATOR_STATE |
++						     TDLS_CH_SWITCH_ON_STATE |
++						     TDLS_PEER_AT_OFF_STATE);
++			rtw_tdls_set_ch_sw_oper_control(padapter, _FALSE);
++			_rtw_memset(pchsw_info->addr, 0x00, ETH_ALEN);
++		}
++#endif
++		rtw_sta_media_status_rpt(padapter, ptdls_sta, 0);
++		free_tdls_sta(padapter, ptdls_sta);
++		break;
++	}
++
++	/* _exit_critical_bh(&(ptdlsinfo->hdl_lock), &irqL); */
++
++	return H2C_SUCCESS;
++#else
++	return H2C_REJECTED;
++#endif /* CONFIG_TDLS */
++
++}
++
++u8 run_in_thread_hdl(_adapter *padapter, u8 *pbuf)
++{
++	struct RunInThread_param *p;
++
++
++	if (NULL == pbuf)
++		return H2C_PARAMETERS_ERROR;
++	p = (struct RunInThread_param *)pbuf;
++
++	if (p->func)
++		p->func(p->context);
++
++	return H2C_SUCCESS;
++}
++
++u8 rtw_getmacreg_hdl(_adapter *padapter, u8 *pbuf)
++{
++
++	struct readMAC_parm *preadmacparm = NULL;
++	u8 sz = 0;
++	u32	addr = 0;
++	u32	value = 0;
++
++	if (!pbuf)
++		return H2C_PARAMETERS_ERROR;
++
++	preadmacparm = (struct readMAC_parm *) pbuf;
++	sz = preadmacparm->len;
++	addr = preadmacparm->addr;
++	value = 0;
++
++	switch (sz) {
++	case 1:
++		value = rtw_read8(padapter, addr);
++		break;
++	case 2:
++		value = rtw_read16(padapter, addr);
++		break;
++	case 4:
++		value = rtw_read32(padapter, addr);
++		break;
++	default:
++		RTW_INFO("%s: Unknown size\n", __func__);
++		break;
++	}
++	RTW_INFO("%s: addr:0x%02x valeu:0x%02x\n", __func__, addr, value);
++
++	return H2C_SUCCESS;
++}
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_mp.c b/drivers/net/wireless/rtl8812au/core/rtw_mp.c
+new file mode 100644
+index 0000000..ecd48a3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_mp.c
+@@ -0,0 +1,3532 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_MP_C_
++#include <drv_types.h>
++#ifdef PLATFORM_FREEBSD
++	#include <sys/unistd.h>		/* for RFHIGHPID */
++#endif
++
++#include "../hal/phydm/phydm_precomp.h"
++#if defined(CONFIG_RTL8723B) || defined(CONFIG_RTL8821A)
++	#include <rtw_bt_mp.h>
++#endif
++
++#ifdef CONFIG_MP_VHT_HW_TX_MODE
++#define CEILING_POS(X) ((X - (int)(X)) > 0 ? (int)(X + 1) : (int)(X))
++#define CEILING_NEG(X) ((X - (int)(X)) < 0 ? (int)(X - 1) : (int)(X))
++#define ceil(X) (((X) > 0) ? CEILING_POS(X) : CEILING_NEG(X))
++
++int rtfloor(float x)
++{
++	int i = x - 2;
++	while
++	(++i <= x - 1)
++		;
++	return i;
++}
++#endif
++
++#ifdef CONFIG_MP_INCLUDED
++u32 read_macreg(_adapter *padapter, u32 addr, u32 sz)
++{
++	u32 val = 0;
++
++	switch (sz) {
++	case 1:
++		val = rtw_read8(padapter, addr);
++		break;
++	case 2:
++		val = rtw_read16(padapter, addr);
++		break;
++	case 4:
++		val = rtw_read32(padapter, addr);
++		break;
++	default:
++		val = 0xffffffff;
++		break;
++	}
++
++	return val;
++
++}
++
++void write_macreg(_adapter *padapter, u32 addr, u32 val, u32 sz)
++{
++	switch (sz) {
++	case 1:
++		rtw_write8(padapter, addr, (u8)val);
++		break;
++	case 2:
++		rtw_write16(padapter, addr, (u16)val);
++		break;
++	case 4:
++		rtw_write32(padapter, addr, val);
++		break;
++	default:
++		break;
++	}
++
++}
++
++u32 read_bbreg(_adapter *padapter, u32 addr, u32 bitmask)
++{
++	return rtw_hal_read_bbreg(padapter, addr, bitmask);
++}
++
++void write_bbreg(_adapter *padapter, u32 addr, u32 bitmask, u32 val)
++{
++	rtw_hal_write_bbreg(padapter, addr, bitmask, val);
++}
++
++u32 _read_rfreg(PADAPTER padapter, u8 rfpath, u32 addr, u32 bitmask)
++{
++	return rtw_hal_read_rfreg(padapter, rfpath, addr, bitmask);
++}
++
++void _write_rfreg(PADAPTER padapter, u8 rfpath, u32 addr, u32 bitmask, u32 val)
++{
++	rtw_hal_write_rfreg(padapter, rfpath, addr, bitmask, val);
++}
++
++u32 read_rfreg(PADAPTER padapter, u8 rfpath, u32 addr)
++{
++	return _read_rfreg(padapter, rfpath, addr, bRFRegOffsetMask);
++}
++
++void write_rfreg(PADAPTER padapter, u8 rfpath, u32 addr, u32 val)
++{
++	_write_rfreg(padapter, rfpath, addr, bRFRegOffsetMask, val);
++}
++
++static void _init_mp_priv_(struct mp_priv *pmp_priv)
++{
++	WLAN_BSSID_EX *pnetwork;
++
++	_rtw_memset(pmp_priv, 0, sizeof(struct mp_priv));
++
++	pmp_priv->mode = MP_OFF;
++
++	pmp_priv->channel = 1;
++	pmp_priv->bandwidth = CHANNEL_WIDTH_20;
++	pmp_priv->prime_channel_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	pmp_priv->rateidx = RATE_1M;
++	pmp_priv->txpoweridx = 0x2A;
++
++	pmp_priv->antenna_tx = ANTENNA_A;
++	pmp_priv->antenna_rx = ANTENNA_AB;
++
++	pmp_priv->check_mp_pkt = 0;
++
++	pmp_priv->tx_pktcount = 0;
++
++	pmp_priv->rx_bssidpktcount = 0;
++	pmp_priv->rx_pktcount = 0;
++	pmp_priv->rx_crcerrpktcount = 0;
++
++	pmp_priv->network_macaddr[0] = 0x00;
++	pmp_priv->network_macaddr[1] = 0xE0;
++	pmp_priv->network_macaddr[2] = 0x4C;
++	pmp_priv->network_macaddr[3] = 0x87;
++	pmp_priv->network_macaddr[4] = 0x66;
++	pmp_priv->network_macaddr[5] = 0x55;
++
++	pmp_priv->bSetRxBssid = _FALSE;
++	pmp_priv->bRTWSmbCfg = _FALSE;
++	pmp_priv->bloopback = _FALSE;
++
++	pnetwork = &pmp_priv->mp_network.network;
++	_rtw_memcpy(pnetwork->MacAddress, pmp_priv->network_macaddr, ETH_ALEN);
++
++	pnetwork->Ssid.SsidLength = 8;
++	_rtw_memcpy(pnetwork->Ssid.Ssid, "mp_871x", pnetwork->Ssid.SsidLength);
++
++	pmp_priv->tx.payload = 2;
++#ifdef CONFIG_80211N_HT
++	pmp_priv->tx.attrib.ht_en = 1;
++#endif
++
++}
++
++#ifdef PLATFORM_WINDOWS
++#if 0
++void mp_wi_callback(
++	IN NDIS_WORK_ITEM	*pwk_item,
++	IN PVOID			cntx
++)
++{
++	_adapter *padapter = (_adapter *)cntx;
++	struct mp_priv *pmppriv = &padapter->mppriv;
++	struct mp_wi_cntx	*pmp_wi_cntx = &pmppriv->wi_cntx;
++
++	/*  Execute specified action. */
++	if (pmp_wi_cntx->curractfunc != NULL) {
++		LARGE_INTEGER	cur_time;
++		ULONGLONG start_time, end_time;
++		NdisGetCurrentSystemTime(&cur_time);	/*  driver version */
++		start_time = cur_time.QuadPart / 10; /*  The return value is in microsecond */
++
++		pmp_wi_cntx->curractfunc(padapter);
++
++		NdisGetCurrentSystemTime(&cur_time);	/*  driver version */
++		end_time = cur_time.QuadPart / 10; /*  The return value is in microsecond */
++
++	}
++
++	NdisAcquireSpinLock(&(pmp_wi_cntx->mp_wi_lock));
++	pmp_wi_cntx->bmp_wi_progress = _FALSE;
++	NdisReleaseSpinLock(&(pmp_wi_cntx->mp_wi_lock));
++
++	if (pmp_wi_cntx->bmpdrv_unload)
++		NdisSetEvent(&(pmp_wi_cntx->mp_wi_evt));
++
++}
++#endif
++
++static int init_mp_priv_by_os(struct mp_priv *pmp_priv)
++{
++	struct mp_wi_cntx *pmp_wi_cntx;
++
++	if (pmp_priv == NULL)
++		return _FAIL;
++
++	pmp_priv->rx_testcnt = 0;
++	pmp_priv->rx_testcnt1 = 0;
++	pmp_priv->rx_testcnt2 = 0;
++
++	pmp_priv->tx_testcnt = 0;
++	pmp_priv->tx_testcnt1 = 0;
++
++	pmp_wi_cntx = &pmp_priv->wi_cntx
++		      pmp_wi_cntx->bmpdrv_unload = _FALSE;
++	pmp_wi_cntx->bmp_wi_progress = _FALSE;
++	pmp_wi_cntx->curractfunc = NULL;
++
++	return _SUCCESS;
++}
++#endif
++
++#ifdef PLATFORM_LINUX
++static int init_mp_priv_by_os(struct mp_priv *pmp_priv)
++{
++	int i, res;
++	struct mp_xmit_frame *pmp_xmitframe;
++
++	if (pmp_priv == NULL)
++		return _FAIL;
++
++	_rtw_init_queue(&pmp_priv->free_mp_xmitqueue);
++
++	pmp_priv->pallocated_mp_xmitframe_buf = NULL;
++	pmp_priv->pallocated_mp_xmitframe_buf = rtw_zmalloc(NR_MP_XMITFRAME * sizeof(struct mp_xmit_frame) + 4);
++	if (pmp_priv->pallocated_mp_xmitframe_buf == NULL) {
++		res = _FAIL;
++		goto _exit_init_mp_priv;
++	}
++
++	pmp_priv->pmp_xmtframe_buf = pmp_priv->pallocated_mp_xmitframe_buf + 4 - ((SIZE_PTR)(pmp_priv->pallocated_mp_xmitframe_buf) & 3);
++
++	pmp_xmitframe = (struct mp_xmit_frame *)pmp_priv->pmp_xmtframe_buf;
++
++	for (i = 0; i < NR_MP_XMITFRAME; i++) {
++		_rtw_init_listhead(&pmp_xmitframe->list);
++		rtw_list_insert_tail(&pmp_xmitframe->list, &pmp_priv->free_mp_xmitqueue.queue);
++
++		pmp_xmitframe->pkt = NULL;
++		pmp_xmitframe->frame_tag = MP_FRAMETAG;
++		pmp_xmitframe->padapter = pmp_priv->papdater;
++
++		pmp_xmitframe++;
++	}
++
++	pmp_priv->free_mp_xmitframe_cnt = NR_MP_XMITFRAME;
++
++	res = _SUCCESS;
++
++_exit_init_mp_priv:
++
++	return res;
++}
++#endif
++
++static void mp_init_xmit_attrib(struct mp_tx *pmptx, PADAPTER padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	struct pkt_attrib *pattrib;
++
++	/* init xmitframe attribute */
++	pattrib = &pmptx->attrib;
++	_rtw_memset(pattrib, 0, sizeof(struct pkt_attrib));
++	_rtw_memset(pmptx->desc, 0, TXDESC_SIZE);
++
++	pattrib->ether_type = 0x8712;
++#if 0
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++#endif
++	_rtw_memset(pattrib->dst, 0xFF, ETH_ALEN);
++
++	/*	pattrib->dhcp_pkt = 0;
++	 *	pattrib->pktlen = 0; */
++	pattrib->ack_policy = 0;
++	/*	pattrib->pkt_hdrlen = ETH_HLEN; */
++	pattrib->hdrlen = WLAN_HDR_A3_LEN;
++	pattrib->subtype = WIFI_DATA;
++	pattrib->priority = 0;
++	pattrib->qsel = pattrib->priority;
++	/*	do_queue_select(padapter, pattrib); */
++	pattrib->nr_frags = 1;
++	pattrib->encrypt = 0;
++	pattrib->bswenc = _FALSE;
++	pattrib->qos_en = _FALSE;
++
++	pattrib->pktlen = 1500;
++
++#ifdef CONFIG_80211AC_VHT
++	if (pHalData->rf_type == RF_1T1R)
++		pattrib->raid = RATEID_IDX_VHT_1SS;
++	else if (pHalData->rf_type == RF_2T2R || pHalData->rf_type == RF_2T4R)
++		pattrib->raid = RATEID_IDX_VHT_2SS;
++	else if (pHalData->rf_type == RF_3T3R)
++		pattrib->raid = RATEID_IDX_VHT_3SS;
++	else
++		pattrib->raid = RATEID_IDX_BGN_40M_1SS;
++#endif
++}
++
++s32 init_mp_priv(PADAPTER padapter)
++{
++	struct mp_priv *pmppriv = &padapter->mppriv;
++	PHAL_DATA_TYPE pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++
++	_init_mp_priv_(pmppriv);
++	pmppriv->papdater = padapter;
++	pmppriv->mp_dm = 0;
++	pmppriv->tx.stop = 1;
++	pmppriv->bSetTxPower = 0;		/*for  manually set tx power*/
++	pmppriv->bTxBufCkFail = _FALSE;
++	pmppriv->pktInterval = 0;
++	pmppriv->pktLength = 1000;
++
++	mp_init_xmit_attrib(&pmppriv->tx, padapter);
++
++	switch (padapter->registrypriv.rf_config) {
++	case RF_1T1R:
++		pmppriv->antenna_tx = ANTENNA_A;
++		pmppriv->antenna_rx = ANTENNA_A;
++		break;
++	case RF_1T2R:
++	default:
++		pmppriv->antenna_tx = ANTENNA_A;
++		pmppriv->antenna_rx = ANTENNA_AB;
++		break;
++	case RF_2T2R:
++	case RF_2T2R_GREEN:
++		pmppriv->antenna_tx = ANTENNA_AB;
++		pmppriv->antenna_rx = ANTENNA_AB;
++		break;
++	case RF_2T4R:
++		pmppriv->antenna_tx = ANTENNA_BC;
++		pmppriv->antenna_rx = ANTENNA_ABCD;
++		break;
++	}
++
++	pHalData->AntennaRxPath = pmppriv->antenna_rx;
++	pHalData->AntennaTxPath = pmppriv->antenna_tx;
++
++	return _SUCCESS;
++}
++
++void free_mp_priv(struct mp_priv *pmp_priv)
++{
++	if (pmp_priv->pallocated_mp_xmitframe_buf) {
++		rtw_mfree(pmp_priv->pallocated_mp_xmitframe_buf, 0);
++		pmp_priv->pallocated_mp_xmitframe_buf = NULL;
++	}
++	pmp_priv->pmp_xmtframe_buf = NULL;
++}
++
++
++static VOID PHY_IQCalibrate_default(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN	bReCovery
++)
++{
++	RTW_INFO("%s\n", __func__);
++}
++
++static VOID PHY_LCCalibrate_default(
++	IN	PADAPTER	pAdapter
++)
++{
++	RTW_INFO("%s\n", __func__);
++}
++
++static VOID PHY_SetRFPathSwitch_default(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bMain
++)
++{
++	RTW_INFO("%s\n", __func__);
++}
++
++
++void mpt_InitHWConfig(PADAPTER Adapter)
++{
++	if (IS_HARDWARE_TYPE_8723B(Adapter)) {
++		/* TODO: <20130114, Kordan> The following setting is only for DPDT and Fixed board type. */
++		/* TODO:  A better solution is configure it according EFUSE during the run-time. */
++
++		PHY_SetMacReg(Adapter, 0x64, BIT20, 0x0);		   /* 0x66[4]=0		 */
++		PHY_SetMacReg(Adapter, 0x64, BIT24, 0x0);		   /* 0x66[8]=0 */
++		PHY_SetMacReg(Adapter, 0x40, BIT4, 0x0);		   /* 0x40[4]=0		 */
++		PHY_SetMacReg(Adapter, 0x40, BIT3, 0x1);		   /* 0x40[3]=1		 */
++		PHY_SetMacReg(Adapter, 0x4C, BIT24, 0x1);		   /* 0x4C[24:23]=10 */
++		PHY_SetMacReg(Adapter, 0x4C, BIT23, 0x0);		   /* 0x4C[24:23]=10 */
++		PHY_SetBBReg(Adapter, 0x944, BIT1 | BIT0, 0x3);	 /* 0x944[1:0]=11	 */
++		PHY_SetBBReg(Adapter, 0x930, bMaskByte0, 0x77);   /* 0x930[7:0]=77	  */
++		PHY_SetMacReg(Adapter, 0x38, BIT11, 0x1);		   /* 0x38[11]=1 */
++
++		/* TODO: <20130206, Kordan> The default setting is wrong, hard-coded here. */
++		PHY_SetMacReg(Adapter, 0x778, 0x3, 0x3);					/* Turn off hardware PTA control (Asked by Scott) */
++		PHY_SetMacReg(Adapter, 0x64, bMaskDWord, 0x36000000);	 /* Fix BT S0/S1 */
++		PHY_SetMacReg(Adapter, 0x948, bMaskDWord, 0x0); 		   /* Fix BT can't Tx */
++
++		/* <20130522, Kordan> Turn off equalizer to improve Rx sensitivity. (Asked by EEChou) */
++		PHY_SetBBReg(Adapter, 0xA00, BIT8, 0x0);			/*0xA01[0] = 0*/
++	} else if (IS_HARDWARE_TYPE_8821(Adapter)) {
++		/* <20131121, VincentL> Add for 8821AU DPDT setting and fix switching antenna issue (Asked by Rock)
++		<20131122, VincentL> Enable for all 8821A/8811AU  (Asked by Alex)*/
++		PHY_SetMacReg(Adapter, 0x4C, BIT23, 0x0);		   /*0x4C[23:22]=01*/
++		PHY_SetMacReg(Adapter, 0x4C, BIT22, 0x1);		   /*0x4C[23:22]=01*/
++	} else if (IS_HARDWARE_TYPE_8188ES(Adapter))
++		PHY_SetMacReg(Adapter, 0x4C , BIT23, 0);		/*select DPDT_P and DPDT_N as output pin*/
++#ifdef CONFIG_RTL8814A
++	else if (IS_HARDWARE_TYPE_8814A(Adapter))
++		PlatformEFIOWrite2Byte(Adapter, REG_RXFLTMAP1_8814A, 0x2000);
++#endif
++#ifdef CONFIG_RTL8822B
++	else if (IS_HARDWARE_TYPE_8822B(Adapter)) {
++		u32 tmp_reg = 0;
++
++		PlatformEFIOWrite2Byte(Adapter, REG_RXFLTMAP1_8822B, 0x2000);
++		/* fixed wifi can't 2.4g tx suggest by Szuyitasi 20160504 */
++		PHY_SetBBReg(Adapter, 0x70, bMaskByte3, 0x0e);
++		RTW_INFO(" 0x73 = 0x%x\n",PHY_QueryBBReg(Adapter, 0x70, bMaskByte3));
++		PHY_SetBBReg(Adapter, 0x1704, bMaskDWord, 0x0000ff00);
++		RTW_INFO(" 0x1704 = 0x%x\n",PHY_QueryBBReg(Adapter, 0x1704, bMaskDWord));
++		PHY_SetBBReg(Adapter, 0x1700, bMaskDWord, 0xc00f0038);
++		RTW_INFO(" 0x1700 = 0x%x\n",PHY_QueryBBReg(Adapter, 0x1700, bMaskDWord));
++	}
++#endif /* CONFIG_RTL8822B */
++#ifdef CONFIG_RTL8821C
++	else if (IS_HARDWARE_TYPE_8821C(Adapter))
++		PlatformEFIOWrite2Byte(Adapter, REG_RXFLTMAP1_8821C, 0x2000);
++#endif /* CONFIG_RTL8821C */
++}
++
++static void PHY_IQCalibrate(PADAPTER padapter, u8 bReCovery)
++{
++	PHAL_DATA_TYPE pHalData;
++	u8 b2ant;	/* false:1ant, true:2-ant */
++	u8 RF_Path;	/* 0:S1, 1:S0 */
++
++	if (IS_HARDWARE_TYPE_8723B(padapter)) {
++#ifdef CONFIG_RTL8723B
++		pHalData = GET_HAL_DATA(padapter);
++		b2ant = pHalData->EEPROMBluetoothAntNum == Ant_x2 ? _TRUE : _FALSE;
++		PHY_IQCalibrate_8723B(padapter, bReCovery, _FALSE, b2ant, pHalData->ant_path);
++#endif
++	} else if (IS_HARDWARE_TYPE_8188E(padapter)) {
++#ifdef CONFIG_RTL8188E
++		PHY_IQCalibrate_8188E(padapter, bReCovery);
++#endif
++	} else if (IS_HARDWARE_TYPE_8814A(padapter)) {	
++#ifdef CONFIG_RTL8814A
++		PHY_IQCalibrate_8814A(&(GET_HAL_DATA(padapter)->odmpriv), bReCovery);
++#endif
++	} else if (IS_HARDWARE_TYPE_8812(padapter)) {
++#ifdef CONFIG_RTL8812A
++		PHY_IQCalibrate_8812A(padapter, bReCovery);
++#endif
++	} else if (IS_HARDWARE_TYPE_8821(padapter)) {
++#ifdef CONFIG_RTL8821A
++		PHY_IQCalibrate_8821A(&(GET_HAL_DATA(padapter)->odmpriv), bReCovery);
++#endif
++	} else if (IS_HARDWARE_TYPE_8192E(padapter)) {
++#ifdef CONFIG_RTL8192E
++		PHY_IQCalibrate_8192E(padapter, bReCovery);
++#endif
++	} else if (IS_HARDWARE_TYPE_8703B(padapter)) {
++#ifdef CONFIG_RTL8703B
++		PHY_IQCalibrate_8703B(padapter, bReCovery);
++#endif
++	} else if (IS_HARDWARE_TYPE_8188F(padapter)) {
++#ifdef CONFIG_RTL8188F
++		PHY_IQCalibrate_8188F(padapter, bReCovery, _FALSE);
++#endif
++	} else if (IS_HARDWARE_TYPE_8822B(padapter)) {
++#ifdef CONFIG_RTL8822B
++		PHY_IQCalibrate_8822B(&(GET_HAL_DATA(padapter)->odmpriv), bReCovery);
++#endif
++	} else if (IS_HARDWARE_TYPE_8723D(padapter)) {
++#ifdef CONFIG_RTL8723D
++		PHY_IQCalibrate_8723D(padapter, bReCovery);
++#endif
++	} else if (IS_HARDWARE_TYPE_8821C(padapter)) {
++#ifdef CONFIG_RTL8821C
++		/*PHY_IQCalibrate_8821C(padapter, bReCovery);*/
++#endif
++	}
++
++}
++
++static void PHY_LCCalibrate(PADAPTER padapter)
++{
++	if (IS_HARDWARE_TYPE_8723B(padapter)) {
++#ifdef CONFIG_RTL8723B
++		PHY_LCCalibrate_8723B(&(GET_HAL_DATA(padapter)->odmpriv));
++#endif
++	} else if (IS_HARDWARE_TYPE_8188E(padapter)) {
++#ifdef CONFIG_RTL8188E
++		PHY_LCCalibrate_8188E(&(GET_HAL_DATA(padapter)->odmpriv));
++#endif
++	} else if (IS_HARDWARE_TYPE_8814A(padapter)) {	
++#ifdef CONFIG_RTL8814A
++		PHY_LCCalibrate_8814A(&(GET_HAL_DATA(padapter)->odmpriv));
++#endif
++	} else if (IS_HARDWARE_TYPE_8812(padapter)) {
++#ifdef CONFIG_RTL8812A
++		PHY_LCCalibrate_8812A(&(GET_HAL_DATA(padapter)->odmpriv));
++#endif
++	} else if (IS_HARDWARE_TYPE_8821(padapter)) {
++#ifdef CONFIG_RTL8821A
++		PHY_LCCalibrate_8821A(&(GET_HAL_DATA(padapter)->odmpriv));
++#endif
++	} else if (IS_HARDWARE_TYPE_8192E(padapter)) {
++#ifdef CONFIG_RTL8192E
++		PHY_LCCalibrate_8192E(&(GET_HAL_DATA(padapter)->odmpriv));
++#endif
++	} else if (IS_HARDWARE_TYPE_8703B(padapter)) {
++#ifdef CONFIG_RTL8703B
++		PHY_LCCalibrate_8703B(&(GET_HAL_DATA(padapter)->odmpriv));
++#endif
++	} else if (IS_HARDWARE_TYPE_8188F(padapter)) {
++#ifdef CONFIG_RTL8188F
++		PHY_LCCalibrate_8188F(&(GET_HAL_DATA(padapter)->odmpriv));
++#endif
++	} else if (IS_HARDWARE_TYPE_8822B(padapter)) {
++#ifdef CONFIG_RTL8822B
++		PHY_LCCalibrate_8822B(&(GET_HAL_DATA(padapter)->odmpriv));
++#endif
++	} else if (IS_HARDWARE_TYPE_8723D(padapter)) {
++#ifdef CONFIG_RTL8723D
++		PHY_LCCalibrate_8723D(&(GET_HAL_DATA(padapter)->odmpriv));
++#endif
++	} else if (IS_HARDWARE_TYPE_8821C(padapter)) {
++#ifdef CONFIG_RTL8821C
++		/*PHY_IQCalibrate_8821C(&(GET_HAL_DATA(padapter)->odmpriv));*/
++#endif
++	}
++
++}
++
++static void  PHY_SetRFPathSwitch(PADAPTER padapter , BOOLEAN bMain) {
++
++	if (IS_HARDWARE_TYPE_8723B(padapter)) {
++#ifdef CONFIG_RTL8723B
++		PHY_SetRFPathSwitch_8723B(padapter, bMain);
++#endif
++	} else if (IS_HARDWARE_TYPE_8188E(padapter)) {
++#ifdef CONFIG_RTL8188E
++		PHY_SetRFPathSwitch_8188E(padapter, bMain);
++#endif
++	} else if (IS_HARDWARE_TYPE_8814A(padapter)) {	
++#ifdef CONFIG_RTL8814A
++		PHY_SetRFPathSwitch_8814A(padapter, bMain);
++#endif
++	} else if (IS_HARDWARE_TYPE_8812(padapter) || IS_HARDWARE_TYPE_8821(padapter)) {
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++		PHY_SetRFPathSwitch_8812A(padapter, bMain);
++#endif
++	} else if (IS_HARDWARE_TYPE_8192E(padapter)) {
++#ifdef CONFIG_RTL8192E
++		PHY_SetRFPathSwitch_8192E(padapter, bMain);
++#endif
++	} else if (IS_HARDWARE_TYPE_8703B(padapter)) {
++#ifdef CONFIG_RTL8703B
++		PHY_SetRFPathSwitch_8703B(padapter, bMain);
++#endif
++	} else if (IS_HARDWARE_TYPE_8188F(padapter)) {
++#ifdef CONFIG_RTL8188F
++		PHY_SetRFPathSwitch_8188F(padapter, bMain);
++#endif
++	} else if (IS_HARDWARE_TYPE_8822B(padapter)) {
++#ifdef CONFIG_RTL8822B
++		PHY_SetRFPathSwitch_8822B(padapter, bMain);
++#endif
++	} else if (IS_HARDWARE_TYPE_8723D(padapter)) {
++#ifdef CONFIG_RTL8723D
++		PHY_SetRFPathSwitch_8723D(padapter, bMain);
++#endif
++	} else if (IS_HARDWARE_TYPE_8821C(padapter)) {
++#ifdef CONFIG_RTL8821C
++		/*PHY_SetRFPathSwitch_8821C(&(GET_HAL_DATA(padapter)->odmpriv));*/
++#endif
++	}
++}
++
++s32
++MPT_InitializeAdapter(
++	IN	PADAPTER			pAdapter,
++	IN	u8				Channel
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	s32		rtStatus = _SUCCESS;
++	PMPT_CONTEXT	pMptCtx = &pAdapter->mppriv.MptCtx;
++	u32		ledsetting;
++	struct mlme_priv *pmlmepriv = &pAdapter->mlmepriv;
++
++	pMptCtx->bMptDrvUnload = _FALSE;
++	pMptCtx->bMassProdTest = _FALSE;
++	pMptCtx->bMptIndexEven = _TRUE;	/* default gain index is -6.0db */
++	pMptCtx->h2cReqNum = 0x0;
++	/* init for BT MP */
++#if defined(CONFIG_RTL8723B)
++	pMptCtx->bMPh2c_timeout = _FALSE;
++	pMptCtx->MptH2cRspEvent = _FALSE;
++	pMptCtx->MptBtC2hEvent = _FALSE;
++	_rtw_init_sema(&pMptCtx->MPh2c_Sema, 0);
++	_init_timer(&pMptCtx->MPh2c_timeout_timer, pAdapter->pnetdev, MPh2c_timeout_handle, pAdapter);
++#endif
++
++	mpt_InitHWConfig(pAdapter);
++
++#ifdef CONFIG_RTL8723B
++	rtl8723b_InitAntenna_Selection(pAdapter);
++	if (IS_HARDWARE_TYPE_8723B(pAdapter)) {
++
++		/* <20130522, Kordan> Turn off equalizer to improve Rx sensitivity. (Asked by EEChou)*/
++		PHY_SetBBReg(pAdapter, 0xA00, BIT8, 0x0);
++		PHY_SetRFPathSwitch(pAdapter, 1/*pHalData->bDefaultAntenna*/); /*default use Main*/
++		/*<20130522, Kordan> 0x51 and 0x71 should be set immediately after path switched, or they might be overwritten. */
++		if ((pHalData->PackageType == PACKAGE_TFBGA79) || (pHalData->PackageType == PACKAGE_TFBGA90))
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51, bRFRegOffsetMask, 0x6B10E);
++		else
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51, bRFRegOffsetMask, 0x6B04E);
++	}
++	/*set ant to wifi side in mp mode*/
++	rtw_write16(pAdapter, 0x870, 0x300);
++	rtw_write16(pAdapter, 0x860, 0x110);
++#endif
++
++	pMptCtx->bMptWorkItemInProgress = _FALSE;
++	pMptCtx->CurrMptAct = NULL;
++	pMptCtx->MptRfPath = ODM_RF_PATH_A;
++	/* ------------------------------------------------------------------------- */
++	/* Don't accept any packets */
++	rtw_write32(pAdapter, REG_RCR, 0);
++
++	/* ledsetting = rtw_read32(pAdapter, REG_LEDCFG0); */
++	/* rtw_write32(pAdapter, REG_LEDCFG0, ledsetting & ~LED0DIS); */
++
++	/* rtw_write32(pAdapter, REG_LEDCFG0, 0x08080); */
++	ledsetting = rtw_read32(pAdapter, REG_LEDCFG0);
++
++
++	PHY_LCCalibrate(pAdapter);
++	PHY_IQCalibrate(pAdapter, _FALSE);
++	/* dm_CheckTXPowerTracking(&pHalData->odmpriv);	 */ /* trigger thermal meter */
++
++	PHY_SetRFPathSwitch(pAdapter, 1/*pHalData->bDefaultAntenna*/); /* default use Main */
++
++	pMptCtx->backup0xc50 = (u1Byte)PHY_QueryBBReg(pAdapter, rOFDM0_XAAGCCore1, bMaskByte0);
++	pMptCtx->backup0xc58 = (u1Byte)PHY_QueryBBReg(pAdapter, rOFDM0_XBAGCCore1, bMaskByte0);
++	pMptCtx->backup0xc30 = (u1Byte)PHY_QueryBBReg(pAdapter, rOFDM0_RxDetector1, bMaskByte0);
++	pMptCtx->backup0x52_RF_A = (u1Byte)PHY_QueryRFReg(pAdapter, RF_PATH_A, RF_0x52, 0x000F0);
++	pMptCtx->backup0x52_RF_B = (u1Byte)PHY_QueryRFReg(pAdapter, RF_PATH_B, RF_0x52, 0x000F0);
++#ifdef CONFIG_RTL8188E
++	rtw_write32(pAdapter, REG_MACID_NO_LINK_0, 0x0);
++	rtw_write32(pAdapter, REG_MACID_NO_LINK_1, 0x0);
++#endif
++#ifdef CONFIG_RTL8814A
++	if (IS_HARDWARE_TYPE_8814A(pAdapter)) {
++		pHalData->BackUp_IG_REG_4_Chnl_Section[0] = (u1Byte)PHY_QueryBBReg(pAdapter, rA_IGI_Jaguar, bMaskByte0);
++		pHalData->BackUp_IG_REG_4_Chnl_Section[1] = (u1Byte)PHY_QueryBBReg(pAdapter, rB_IGI_Jaguar, bMaskByte0);
++		pHalData->BackUp_IG_REG_4_Chnl_Section[2] = (u1Byte)PHY_QueryBBReg(pAdapter, rC_IGI_Jaguar2, bMaskByte0);
++		pHalData->BackUp_IG_REG_4_Chnl_Section[3] = (u1Byte)PHY_QueryBBReg(pAdapter, rD_IGI_Jaguar2, bMaskByte0);
++	}
++#endif
++	return	rtStatus;
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	MPT_DeInitAdapter()
++ *
++ * Overview:	Extra DeInitialization for Mass Production Test.
++ *
++ * Input:		PADAPTER	pAdapter
++ *
++ * Output:		NONE
++ *
++ * Return:		NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	05/08/2007	MHC		Create Version 0.
++ *	05/18/2007	MHC		Add normal driver MPHalt code.
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++MPT_DeInitAdapter(
++	IN	PADAPTER	pAdapter
++)
++{
++	PMPT_CONTEXT		pMptCtx = &pAdapter->mppriv.MptCtx;
++
++	pMptCtx->bMptDrvUnload = _TRUE;
++#if defined(CONFIG_RTL8723B)
++	_rtw_free_sema(&(pMptCtx->MPh2c_Sema));
++	_cancel_timer_ex(&pMptCtx->MPh2c_timeout_timer);
++#endif
++#if	defined(CONFIG_RTL8723B)
++	PHY_SetBBReg(pAdapter, 0xA01, BIT0, 1); /* /suggestion  by jerry for MP Rx. */
++#endif
++#if 0 /* for Windows */
++	PlatformFreeWorkItem(&(pMptCtx->MptWorkItem));
++
++	while (pMptCtx->bMptWorkItemInProgress) {
++		if (NdisWaitEvent(&(pMptCtx->MptWorkItemEvent), 50))
++			break;
++	}
++	NdisFreeSpinLock(&(pMptCtx->MptWorkItemSpinLock));
++#endif
++}
++
++static u8 mpt_ProStartTest(PADAPTER padapter)
++{
++	PMPT_CONTEXT pMptCtx = &padapter->mppriv.MptCtx;
++
++	pMptCtx->bMassProdTest = _TRUE;
++	pMptCtx->bStartContTx = _FALSE;
++	pMptCtx->bCckContTx = _FALSE;
++	pMptCtx->bOfdmContTx = _FALSE;
++	pMptCtx->bSingleCarrier = _FALSE;
++	pMptCtx->bCarrierSuppression = _FALSE;
++	pMptCtx->bSingleTone = _FALSE;
++	pMptCtx->HWTxmode = PACKETS_TX;
++
++	return _SUCCESS;
++}
++
++/*
++ * General use
++ */
++s32 SetPowerTracking(PADAPTER padapter, u8 enable)
++{
++
++	hal_mpt_SetPowerTracking(padapter, enable);
++	return 0;
++}
++
++void GetPowerTracking(PADAPTER padapter, u8 *enable)
++{
++	hal_mpt_GetPowerTracking(padapter, enable);
++}
++
++void rtw_mp_trigger_iqk(PADAPTER padapter)
++{
++	PHY_IQCalibrate(padapter, _FALSE);
++}
++
++void rtw_mp_trigger_lck(PADAPTER padapter)
++{
++	PHY_LCCalibrate(padapter);
++}
++
++static void disable_dm(PADAPTER padapter)
++{
++	u8 v8;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++
++	/* 3 1. disable firmware dynamic mechanism */
++	/* disable Power Training, Rate Adaptive */
++	v8 = rtw_read8(padapter, REG_BCN_CTRL);
++	v8 &= ~EN_BCN_FUNCTION;
++	rtw_write8(padapter, REG_BCN_CTRL, v8);
++
++	/* 3 2. disable driver dynamic mechanism */
++	rtw_phydm_func_disable_all(padapter);
++
++	/* enable APK, LCK and IQK but disable power tracking */
++	pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = _FALSE;
++	rtw_phydm_func_set(padapter, ODM_RF_CALIBRATION);
++
++	/* #ifdef CONFIG_BT_COEXIST */
++	/* rtw_btcoex_Switch(padapter, 0); */ /* remove for BT MP Down. */
++	/* #endif */
++}
++
++
++void MPT_PwrCtlDM(PADAPTER padapter, u32 bstart)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++
++	if (bstart == 1) {
++		RTW_INFO("in MPT_PwrCtlDM start\n");
++		rtw_phydm_func_set(padapter, ODM_RF_TX_PWR_TRACK | ODM_RF_CALIBRATION);
++
++		pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = _TRUE;
++		padapter->mppriv.mp_dm = 1;
++
++	} else {
++		RTW_INFO("in MPT_PwrCtlDM stop\n");
++		disable_dm(padapter);
++		pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = _FALSE;
++		padapter->mppriv.mp_dm = 0;
++		{
++			TXPWRTRACK_CFG	c;
++			u1Byte	chnl = 0 ;
++			_rtw_memset(&c, 0, sizeof(TXPWRTRACK_CFG));
++			ConfigureTxpowerTrack(pDM_Odm, &c);
++			ODM_ClearTxPowerTrackingState(pDM_Odm);
++			if (*c.ODM_TxPwrTrackSetPwr) {
++				if (pDM_Odm->SupportICType == ODM_RTL8188F)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, ODM_RF_PATH_A, chnl);
++				else if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, ODM_RF_PATH_A, chnl);
++					SetTxPower(padapter);
++				} else {
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, ODM_RF_PATH_A, chnl);
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, ODM_RF_PATH_B, chnl);
++				}
++			}
++		}
++	}
++
++}
++
++
++u32 mp_join(PADAPTER padapter, u8 mode)
++{
++	WLAN_BSSID_EX bssid;
++	struct sta_info *psta;
++	u32 length;
++	u8 val8;
++	_irqL irqL;
++	s32 res = _SUCCESS;
++
++	struct mp_priv *pmppriv = &padapter->mppriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network *tgt_network = &pmlmepriv->cur_network;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++
++#ifdef CONFIG_IOCTL_CFG80211
++	struct wireless_dev *pwdev = padapter->rtw_wdev;
++#endif /* #ifdef CONFIG_IOCTL_CFG80211 */
++	/* 1. initialize a new WLAN_BSSID_EX */
++	_rtw_memset(&bssid, 0, sizeof(WLAN_BSSID_EX));
++	RTW_INFO("%s ,pmppriv->network_macaddr=%x %x %x %x %x %x\n", __func__,
++		pmppriv->network_macaddr[0], pmppriv->network_macaddr[1], pmppriv->network_macaddr[2], pmppriv->network_macaddr[3], pmppriv->network_macaddr[4],
++		 pmppriv->network_macaddr[5]);
++	_rtw_memcpy(bssid.MacAddress, pmppriv->network_macaddr, ETH_ALEN);
++
++	if (mode == WIFI_FW_ADHOC_STATE) {
++		bssid.Ssid.SsidLength = strlen("mp_pseudo_adhoc");
++		_rtw_memcpy(bssid.Ssid.Ssid, (u8 *)"mp_pseudo_adhoc", bssid.Ssid.SsidLength);
++		bssid.InfrastructureMode = Ndis802_11IBSS;
++		bssid.NetworkTypeInUse = Ndis802_11DS;
++		bssid.IELength = 0;
++		bssid.Configuration.DSConfig = pmppriv->channel;
++
++	} else if (mode == WIFI_FW_STATION_STATE) {
++		bssid.Ssid.SsidLength = strlen("mp_pseudo_STATION");
++		_rtw_memcpy(bssid.Ssid.Ssid, (u8 *)"mp_pseudo_STATION", bssid.Ssid.SsidLength);
++		bssid.InfrastructureMode = Ndis802_11Infrastructure;
++		bssid.NetworkTypeInUse = Ndis802_11DS;
++		bssid.IELength = 0;
++	}
++
++	length = get_WLAN_BSSID_EX_sz(&bssid);
++	if (length % 4)
++		bssid.Length = ((length >> 2) + 1) << 2; /* round up to multiple of 4 bytes. */
++	else
++		bssid.Length = length;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++	if (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE)
++		goto end_of_mp_start_test;
++
++	/* init mp_start_test status */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++		rtw_disassoc_cmd(padapter, 500, _TRUE);
++		rtw_indicate_disconnect(padapter, 0, _FALSE);
++		rtw_free_assoc_resources(padapter, 1);
++	}
++	pmppriv->prev_fw_state = get_fwstate(pmlmepriv);
++	/*pmlmepriv->fw_state = WIFI_MP_STATE;*/
++	init_fwstate(pmlmepriv, WIFI_MP_STATE);
++
++	set_fwstate(pmlmepriv, _FW_UNDER_LINKING);
++
++	/* 3 2. create a new psta for mp driver */
++	/* clear psta in the cur_network, if any */
++	psta = rtw_get_stainfo(&padapter->stapriv, tgt_network->network.MacAddress);
++	if (psta)
++		rtw_free_stainfo(padapter, psta);
++
++	psta = rtw_alloc_stainfo(&padapter->stapriv, bssid.MacAddress);
++	if (psta == NULL) {
++		/*pmlmepriv->fw_state = pmppriv->prev_fw_state;*/
++		init_fwstate(pmlmepriv, pmppriv->prev_fw_state);
++		res = _FAIL;
++		goto end_of_mp_start_test;
++	}
++	set_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++	/* 3 3. join psudo AdHoc */
++	tgt_network->join_res = 1;
++	tgt_network->aid = psta->aid = 1;
++
++	_rtw_memcpy(&padapter->registrypriv.dev_network, &bssid, length);
++	rtw_update_registrypriv_dev_network(padapter);
++	_rtw_memcpy(&tgt_network->network, &padapter->registrypriv.dev_network, padapter->registrypriv.dev_network.Length);
++	_rtw_memcpy(pnetwork, &padapter->registrypriv.dev_network, padapter->registrypriv.dev_network.Length);
++
++	rtw_indicate_connect(padapter);
++	_clr_fwstate_(pmlmepriv, _FW_UNDER_LINKING);
++	set_fwstate(pmlmepriv, _FW_LINKED);
++
++end_of_mp_start_test:
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++	if (1) { /* (res == _SUCCESS) */
++		/* set MSR to WIFI_FW_ADHOC_STATE */
++		if (mode == WIFI_FW_ADHOC_STATE) {
++
++			val8 = rtw_read8(padapter, MSR) & 0xFC; /* 0x0102 */
++			val8 |= WIFI_FW_ADHOC_STATE;
++			rtw_write8(padapter, MSR, val8); /* Link in ad hoc network */
++		} else {
++			Set_MSR(padapter, WIFI_FW_STATION_STATE);
++
++			RTW_INFO("%s , pmppriv->network_macaddr =%x %x %x %x %x %x\n", __func__,
++				pmppriv->network_macaddr[0], pmppriv->network_macaddr[1], pmppriv->network_macaddr[2], pmppriv->network_macaddr[3], pmppriv->network_macaddr[4],
++				 pmppriv->network_macaddr[5]);
++
++			rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, pmppriv->network_macaddr);
++		}
++	}
++
++	return res;
++}
++/* This function initializes the DUT to the MP test mode */
++s32 mp_start_test(PADAPTER padapter)
++{
++	struct mp_priv *pmppriv = &padapter->mppriv;
++	s32 res = _SUCCESS;
++
++	padapter->registrypriv.mp_mode = 1;
++
++	/* 3 disable dynamic mechanism */
++	disable_dm(padapter);
++#ifdef CONFIG_RTL8814A
++	rtl8814_InitHalDm(padapter);
++#endif /* CONFIG_RTL8814A */
++#ifdef CONFIG_RTL8822B
++	rtl8822b_phy_init_haldm(padapter);
++#endif /* CONFIG_RTL8822B */
++#ifdef CONFIG_RTL8821C
++	rtl8821c_phy_init_haldm(padapter);
++#endif /* CONFIG_RTL8821C */
++#ifdef CONFIG_RTL8812A
++	rtl8812_InitHalDm(padapter);
++#endif /* CONFIG_RTL8812A */
++#ifdef CONFIG_RTL8723B
++	rtl8723b_InitHalDm(padapter);
++#endif /* CONFIG_RTL8723B */
++#ifdef CONFIG_RTL8703B
++	rtl8703b_InitHalDm(padapter);
++#endif /* CONFIG_RTL8703B */
++#ifdef CONFIG_RTL8192E
++	rtl8192e_InitHalDm(padapter);
++#endif
++#ifdef CONFIG_RTL8188F
++	rtl8188f_InitHalDm(padapter);
++#endif
++#ifdef CONFIG_RTL8188E
++	rtl8188e_InitHalDm(padapter);
++#endif
++#ifdef CONFIG_RTL8723D
++	rtl8723d_InitHalDm(padapter);
++#endif /* CONFIG_RTL8723D */
++
++	/* 3 0. update mp_priv */
++
++	if (padapter->registrypriv.rf_config == RF_MAX_TYPE) {
++		/*		switch (phal->rf_type) { */
++		switch (GET_RF_TYPE(padapter)) {
++		case RF_1T1R:
++			pmppriv->antenna_tx = ANTENNA_A;
++			pmppriv->antenna_rx = ANTENNA_A;
++			break;
++		case RF_1T2R:
++		default:
++			pmppriv->antenna_tx = ANTENNA_A;
++			pmppriv->antenna_rx = ANTENNA_AB;
++			break;
++		case RF_2T2R:
++		case RF_2T2R_GREEN:
++			pmppriv->antenna_tx = ANTENNA_AB;
++			pmppriv->antenna_rx = ANTENNA_AB;
++			break;
++		case RF_2T4R:
++			pmppriv->antenna_tx = ANTENNA_AB;
++			pmppriv->antenna_rx = ANTENNA_ABCD;
++			break;
++		}
++	}
++
++	mpt_ProStartTest(padapter);
++
++	mp_join(padapter, WIFI_FW_ADHOC_STATE);
++
++	return res;
++}
++/* ------------------------------------------------------------------------------
++ * This function change the DUT from the MP test mode into normal mode */
++void mp_stop_test(PADAPTER padapter)
++{
++	struct mp_priv *pmppriv = &padapter->mppriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network *tgt_network = &pmlmepriv->cur_network;
++	struct sta_info *psta;
++
++	_irqL irqL;
++
++	if (pmppriv->mode == MP_ON) {
++		pmppriv->bSetTxPower = 0;
++		_enter_critical_bh(&pmlmepriv->lock, &irqL);
++		if (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _FALSE)
++			goto end_of_mp_stop_test;
++
++		/* 3 1. disconnect psudo AdHoc */
++		rtw_indicate_disconnect(padapter, 0, _FALSE);
++
++		/* 3 2. clear psta used in mp test mode.
++		*	rtw_free_assoc_resources(padapter, 1); */
++		psta = rtw_get_stainfo(&padapter->stapriv, tgt_network->network.MacAddress);
++		if (psta)
++			rtw_free_stainfo(padapter, psta);
++
++		/* 3 3. return to normal state (default:station mode) */
++		/*pmlmepriv->fw_state = pmppriv->prev_fw_state; */ /* WIFI_STATION_STATE;*/
++		init_fwstate(pmlmepriv, pmppriv->prev_fw_state);
++
++		/* flush the cur_network */
++		_rtw_memset(tgt_network, 0, sizeof(struct wlan_network));
++
++		_clr_fwstate_(pmlmepriv, WIFI_MP_STATE);
++
++end_of_mp_stop_test:
++
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++#ifdef CONFIG_RTL8812A
++		rtl8812_InitHalDm(padapter);
++#endif
++#ifdef CONFIG_RTL8723B
++		rtl8723b_InitHalDm(padapter);
++#endif
++#ifdef CONFIG_RTL8703B
++		rtl8703b_InitHalDm(padapter);
++#endif
++#ifdef CONFIG_RTL8192E
++		rtl8192e_InitHalDm(padapter);
++#endif
++#ifdef CONFIG_RTL8188F
++		rtl8188f_InitHalDm(padapter);
++#endif
++#ifdef CONFIG_RTL8723D
++		rtl8723d_InitHalDm(padapter);
++#endif
++	}
++}
++/*---------------------------hal\rtl8192c\MPT_Phy.c---------------------------*/
++#if 0
++/* #ifdef CONFIG_USB_HCI */
++static VOID mpt_AdjustRFRegByRateByChan92CU(PADAPTER pAdapter, u8 RateIdx, u8 Channel, u8 BandWidthID)
++{
++	u8		eRFPath;
++	u32		rfReg0x26;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++
++	if (RateIdx < MPT_RATE_6M) 	/* CCK rate,for 88cu */
++		rfReg0x26 = 0xf400;
++	else if ((RateIdx >= MPT_RATE_6M) && (RateIdx <= MPT_RATE_54M)) {/* OFDM rate,for 88cu */
++		if ((4 == Channel) || (8 == Channel) || (12 == Channel))
++			rfReg0x26 = 0xf000;
++		else if ((5 == Channel) || (7 == Channel) || (13 == Channel) || (14 == Channel))
++			rfReg0x26 = 0xf400;
++		else
++			rfReg0x26 = 0x4f200;
++	} else if ((RateIdx >= MPT_RATE_MCS0) && (RateIdx <= MPT_RATE_MCS15)) {
++		/* MCS 20M ,for 88cu */ /* MCS40M rate,for 88cu */
++
++		if (CHANNEL_WIDTH_20 == BandWidthID) {
++			if ((4 == Channel) || (8 == Channel))
++				rfReg0x26 = 0xf000;
++			else if ((5 == Channel) || (7 == Channel) || (13 == Channel) || (14 == Channel))
++				rfReg0x26 = 0xf400;
++			else
++				rfReg0x26 = 0x4f200;
++		} else {
++			if ((4 == Channel) || (8 == Channel))
++				rfReg0x26 = 0xf000;
++			else if ((5 == Channel) || (7 == Channel))
++				rfReg0x26 = 0xf400;
++			else
++				rfReg0x26 = 0x4f200;
++		}
++	}
++
++	for (eRFPath = 0; eRFPath < pHalData->NumTotalRFPath; eRFPath++)
++		write_rfreg(pAdapter, eRFPath, RF_SYN_G2, rfReg0x26);
++}
++#endif
++/*-----------------------------------------------------------------------------
++ * Function:	mpt_SwitchRfSetting
++ *
++ * Overview:	Change RF Setting when we siwthc channel/rate/BW for MP.
++ *
++ * Input:       IN	PADAPTER				pAdapter
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 01/08/2009	MHC		Suggestion from SD3 Willis for 92S series.
++ * 01/09/2009	MHC		Add CCK modification for 40MHZ. Suggestion from SD3.
++ *
++ *---------------------------------------------------------------------------*/
++static void mpt_SwitchRfSetting(PADAPTER pAdapter)
++{
++	hal_mpt_SwitchRfSetting(pAdapter);
++}
++
++/*---------------------------hal\rtl8192c\MPT_Phy.c---------------------------*/
++/*---------------------------hal\rtl8192c\MPT_HelperFunc.c---------------------------*/
++static void MPT_CCKTxPowerAdjust(PADAPTER Adapter, BOOLEAN bInCH14)
++{
++	hal_mpt_CCKTxPowerAdjust(Adapter, bInCH14);
++}
++
++static void MPT_CCKTxPowerAdjustbyIndex(PADAPTER pAdapter, BOOLEAN beven)
++{
++	hal_mpt_CCKTxPowerAdjustbyIndex(pAdapter, beven);
++}
++
++/*---------------------------hal\rtl8192c\MPT_HelperFunc.c---------------------------*/
++
++/*
++ * SetChannel
++ * Description
++ *	Use H2C command to change channel,
++ *	not only modify rf register, but also other setting need to be done.
++ */
++void SetChannel(PADAPTER pAdapter)
++{
++	hal_mpt_SetChannel(pAdapter);
++}
++
++/*
++ * Notice
++ *	Switch bandwitdth may change center frequency(channel)
++ */
++void SetBandwidth(PADAPTER pAdapter)
++{
++	hal_mpt_SetBandwidth(pAdapter);
++
++}
++
++void SetAntenna(PADAPTER pAdapter)
++{
++	hal_mpt_SetAntenna(pAdapter);
++}
++
++int SetTxPower(PADAPTER pAdapter)
++{
++
++	hal_mpt_SetTxPower(pAdapter);
++	return _TRUE;
++}
++
++void SetTxAGCOffset(PADAPTER pAdapter, u32 ulTxAGCOffset)
++{
++	u32 TxAGCOffset_B, TxAGCOffset_C, TxAGCOffset_D, tmpAGC;
++
++	TxAGCOffset_B = (ulTxAGCOffset & 0x000000ff);
++	TxAGCOffset_C = ((ulTxAGCOffset & 0x0000ff00) >> 8);
++	TxAGCOffset_D = ((ulTxAGCOffset & 0x00ff0000) >> 16);
++
++	tmpAGC = (TxAGCOffset_D << 8 | TxAGCOffset_C << 4 | TxAGCOffset_B);
++	write_bbreg(pAdapter, rFPGA0_TxGainStage,
++		    (bXBTxAGC | bXCTxAGC | bXDTxAGC), tmpAGC);
++}
++
++void SetDataRate(PADAPTER pAdapter)
++{
++	hal_mpt_SetDataRate(pAdapter);
++}
++
++void MP_PHY_SetRFPathSwitch(PADAPTER pAdapter , BOOLEAN bMain)
++{
++
++	PHY_SetRFPathSwitch(pAdapter, bMain);
++
++}
++
++
++s32 SetThermalMeter(PADAPTER pAdapter, u8 target_ther)
++{
++	return hal_mpt_SetThermalMeter(pAdapter, target_ther);
++}
++
++static void TriggerRFThermalMeter(PADAPTER pAdapter)
++{
++	hal_mpt_TriggerRFThermalMeter(pAdapter);
++}
++
++static u8 ReadRFThermalMeter(PADAPTER pAdapter)
++{
++	return hal_mpt_ReadRFThermalMeter(pAdapter);
++}
++
++void GetThermalMeter(PADAPTER pAdapter, u8 *value)
++{
++	hal_mpt_GetThermalMeter(pAdapter, value);
++}
++
++void SetSingleCarrierTx(PADAPTER pAdapter, u8 bStart)
++{
++	PhySetTxPowerLevel(pAdapter);
++	hal_mpt_SetSingleCarrierTx(pAdapter, bStart);
++}
++
++void SetSingleToneTx(PADAPTER pAdapter, u8 bStart)
++{
++	PhySetTxPowerLevel(pAdapter);
++	hal_mpt_SetSingleToneTx(pAdapter, bStart);
++}
++
++void SetCarrierSuppressionTx(PADAPTER pAdapter, u8 bStart)
++{
++	PhySetTxPowerLevel(pAdapter);
++	hal_mpt_SetCarrierSuppressionTx(pAdapter, bStart);
++}
++
++void SetCCKContinuousTx(PADAPTER pAdapter, u8 bStart)
++{
++	PhySetTxPowerLevel(pAdapter);
++	hal_mpt_SetCCKContinuousTx(pAdapter, bStart);
++}
++
++void SetOFDMContinuousTx(PADAPTER pAdapter, u8 bStart)
++{
++	PhySetTxPowerLevel(pAdapter);
++	hal_mpt_SetOFDMContinuousTx(pAdapter, bStart);
++} /* mpt_StartOfdmContTx */
++
++void SetContinuousTx(PADAPTER pAdapter, u8 bStart)
++{
++	PhySetTxPowerLevel(pAdapter);
++	hal_mpt_SetContinuousTx(pAdapter, bStart);
++}
++
++
++void PhySetTxPowerLevel(PADAPTER pAdapter)
++{
++	struct mp_priv *pmp_priv = &pAdapter->mppriv;
++
++	if (pmp_priv->bSetTxPower == 0) { /* for NO manually set power index */
++#ifdef CONFIG_RTL8188E
++		PHY_SetTxPowerLevel8188E(pAdapter, pmp_priv->channel);
++#endif
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++		PHY_SetTxPowerLevel8812(pAdapter, pmp_priv->channel);
++#endif
++#if defined(CONFIG_RTL8192E)
++		PHY_SetTxPowerLevel8192E(pAdapter, pmp_priv->channel);
++#endif
++#if defined(CONFIG_RTL8723B)
++		PHY_SetTxPowerLevel8723B(pAdapter, pmp_priv->channel);
++#endif
++#if defined(CONFIG_RTL8188F)
++		PHY_SetTxPowerLevel8188F(pAdapter, pmp_priv->channel);
++#endif
++		mpt_ProQueryCalTxPower(pAdapter, pmp_priv->antenna_tx);
++
++	}
++}
++
++/* ------------------------------------------------------------------------------ */
++static void dump_mpframe(PADAPTER padapter, struct xmit_frame *pmpframe)
++{
++	rtw_hal_mgnt_xmit(padapter, pmpframe);
++}
++
++static struct xmit_frame *alloc_mp_xmitframe(struct xmit_priv *pxmitpriv)
++{
++	struct xmit_frame	*pmpframe;
++	struct xmit_buf	*pxmitbuf;
++
++	pmpframe = rtw_alloc_xmitframe(pxmitpriv);
++	if (pmpframe == NULL)
++		return NULL;
++
++	pxmitbuf = rtw_alloc_xmitbuf(pxmitpriv);
++	if (pxmitbuf == NULL) {
++		rtw_free_xmitframe(pxmitpriv, pmpframe);
++		return NULL;
++	}
++
++	pmpframe->frame_tag = MP_FRAMETAG;
++
++	pmpframe->pxmitbuf = pxmitbuf;
++
++	pmpframe->buf_addr = pxmitbuf->pbuf;
++
++	pxmitbuf->priv_data = pmpframe;
++
++	return pmpframe;
++
++}
++
++static thread_return mp_xmit_packet_thread(thread_context context)
++{
++	struct xmit_frame	*pxmitframe;
++	struct mp_tx		*pmptx;
++	struct mp_priv	*pmp_priv;
++	struct xmit_priv	*pxmitpriv;
++	PADAPTER padapter;
++
++	pmp_priv = (struct mp_priv *)context;
++	pmptx = &pmp_priv->tx;
++	padapter = pmp_priv->papdater;
++	pxmitpriv = &(padapter->xmitpriv);
++
++	thread_enter("RTW_MP_THREAD");
++
++	RTW_INFO("%s:pkTx Start\n", __func__);
++	while (1) {
++		pxmitframe = alloc_mp_xmitframe(pxmitpriv);
++		if (pxmitframe == NULL) {
++			if (pmptx->stop ||
++			    RTW_CANNOT_RUN(padapter))
++				goto exit;
++			else {
++				rtw_usleep_os(10);
++				continue;
++			}
++		}
++		_rtw_memcpy((u8 *)(pxmitframe->buf_addr + TXDESC_OFFSET), pmptx->buf, pmptx->write_size);
++		_rtw_memcpy(&(pxmitframe->attrib), &(pmptx->attrib), sizeof(struct pkt_attrib));
++
++
++		rtw_usleep_os(padapter->mppriv.pktInterval);
++		dump_mpframe(padapter, pxmitframe);
++
++		pmptx->sended++;
++		pmp_priv->tx_pktcount++;
++
++		if (pmptx->stop ||
++		    RTW_CANNOT_RUN(padapter))
++			goto exit;
++		if ((pmptx->count != 0) &&
++		    (pmptx->count == pmptx->sended))
++			goto exit;
++
++		flush_signals_thread();
++	}
++
++exit:
++	/* RTW_INFO("%s:pkTx Exit\n", __func__); */
++	rtw_mfree(pmptx->pallocated_buf, pmptx->buf_size);
++	pmptx->pallocated_buf = NULL;
++	pmptx->stop = 1;
++
++	thread_exit();
++}
++
++void fill_txdesc_for_mp(PADAPTER padapter, u8 *ptxdesc)
++{
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	_rtw_memcpy(ptxdesc, pmp_priv->tx.desc, TXDESC_SIZE);
++}
++
++#if defined(CONFIG_RTL8188E)
++void fill_tx_desc_8188e(PADAPTER padapter)
++{
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	struct tx_desc *desc   = (struct tx_desc *)&(pmp_priv->tx.desc);
++	struct pkt_attrib *pattrib = &(pmp_priv->tx.attrib);
++	u32	pkt_size = pattrib->last_txcmdsz;
++	s32 bmcast = IS_MCAST(pattrib->ra);
++	/* offset 0 */
++#if !defined(CONFIG_RTL8188E_SDIO) && !defined(CONFIG_PCI_HCI)
++	desc->txdw0 |= cpu_to_le32(OWN | FSG | LSG);
++	desc->txdw0 |= cpu_to_le32(pkt_size & 0x0000FFFF); /* packet size */
++	desc->txdw0 |= cpu_to_le32(((TXDESC_SIZE + OFFSET_SZ) << OFFSET_SHT) & 0x00FF0000); /* 32 bytes for TX Desc */
++	if (bmcast)
++		desc->txdw0 |= cpu_to_le32(BMC); /* broadcast packet */
++
++	desc->txdw1 |= cpu_to_le32((0x01 << 26) & 0xff000000);
++#endif
++
++	desc->txdw1 |= cpu_to_le32((pattrib->mac_id) & 0x3F); /* CAM_ID(MAC_ID) */
++	desc->txdw1 |= cpu_to_le32((pattrib->qsel << QSEL_SHT) & 0x00001F00); /* Queue Select, TID */
++	desc->txdw1 |= cpu_to_le32((pattrib->raid << RATE_ID_SHT) & 0x000F0000); /* Rate Adaptive ID */
++	/* offset 8 */
++	/* desc->txdw2 |= cpu_to_le32(AGG_BK); */ /* AGG BK */
++
++	desc->txdw3 |= cpu_to_le32((pattrib->seqnum << 16) & 0x0fff0000);
++	desc->txdw4 |= cpu_to_le32(HW_SSN);
++
++	desc->txdw4 |= cpu_to_le32(USERATE);
++	desc->txdw4 |= cpu_to_le32(DISDATAFB);
++
++	if (pmp_priv->preamble) {
++		if (HwRateToMPTRate(pmp_priv->rateidx) <=  MPT_RATE_54M)
++			desc->txdw4 |= cpu_to_le32(DATA_SHORT); /* CCK Short Preamble */
++	}
++
++	if (pmp_priv->bandwidth == CHANNEL_WIDTH_40)
++		desc->txdw4 |= cpu_to_le32(DATA_BW);
++
++	/* offset 20 */
++	desc->txdw5 |= cpu_to_le32(pmp_priv->rateidx & 0x0000001F);
++
++	if (pmp_priv->preamble) {
++		if (HwRateToMPTRate(pmp_priv->rateidx) > MPT_RATE_54M)
++			desc->txdw5 |= cpu_to_le32(SGI); /* MCS Short Guard Interval */
++	}
++
++	desc->txdw5 |= cpu_to_le32(RTY_LMT_EN); /* retry limit enable */
++	desc->txdw5 |= cpu_to_le32(0x00180000); /* DATA/RTS Rate Fallback Limit	 */
++
++
++}
++#endif
++
++#if defined(CONFIG_RTL8814A)
++void fill_tx_desc_8814a(PADAPTER padapter)
++{
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	u8 *pDesc   = (u8 *)&(pmp_priv->tx.desc);
++	struct pkt_attrib *pattrib = &(pmp_priv->tx.attrib);
++
++	u32	pkt_size = pattrib->last_txcmdsz;
++	s32 bmcast = IS_MCAST(pattrib->ra);
++	u8 data_rate, pwr_status, offset;
++
++	/* SET_TX_DESC_FIRST_SEG_8814A(pDesc, 1); */
++	SET_TX_DESC_LAST_SEG_8814A(pDesc, 1);
++	/* SET_TX_DESC_OWN_(pDesc, 1); */
++
++	SET_TX_DESC_PKT_SIZE_8814A(pDesc, pkt_size);
++
++	offset = TXDESC_SIZE + OFFSET_SZ;
++
++	SET_TX_DESC_OFFSET_8814A(pDesc, offset);
++#if defined(CONFIG_PCI_HCI)
++	SET_TX_DESC_PKT_OFFSET_8814A(pDesc, 0); /* 8814AE pkt_offset is 0 */
++#else
++	SET_TX_DESC_PKT_OFFSET_8814A(pDesc, 1);
++#endif
++
++	if (bmcast)
++		SET_TX_DESC_BMC_8814A(pDesc, 1);
++
++	SET_TX_DESC_MACID_8814A(pDesc, pattrib->mac_id);
++	SET_TX_DESC_RATE_ID_8814A(pDesc, pattrib->raid);
++
++	/* SET_TX_DESC_RATE_ID_8812(pDesc, RATEID_IDX_G); */
++	SET_TX_DESC_QUEUE_SEL_8814A(pDesc,  pattrib->qsel);
++	/* SET_TX_DESC_QUEUE_SEL_8812(pDesc,  QSLT_MGNT); */
++
++	if (pmp_priv->preamble)
++		SET_TX_DESC_DATA_SHORT_8814A(pDesc, 1);
++
++	if (!pattrib->qos_en) {
++		SET_TX_DESC_HWSEQ_EN_8814A(pDesc, 1); /* Hw set sequence number */
++	} else
++		SET_TX_DESC_SEQ_8814A(pDesc, pattrib->seqnum);
++
++	if (pmp_priv->bandwidth <= CHANNEL_WIDTH_160)
++		SET_TX_DESC_DATA_BW_8814A(pDesc, pmp_priv->bandwidth);
++	else {
++		RTW_INFO("%s:Err: unknown bandwidth %d, use 20M\n", __func__, pmp_priv->bandwidth);
++		SET_TX_DESC_DATA_BW_8814A(pDesc, CHANNEL_WIDTH_20);
++	}
++
++	SET_TX_DESC_DISABLE_FB_8814A(pDesc, 1);
++	SET_TX_DESC_USE_RATE_8814A(pDesc, 1);
++	SET_TX_DESC_TX_RATE_8814A(pDesc, pmp_priv->rateidx);
++
++}
++#endif
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++void fill_tx_desc_8812a(PADAPTER padapter)
++{
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	u8 *pDesc   = (u8 *)&(pmp_priv->tx.desc);
++	struct pkt_attrib *pattrib = &(pmp_priv->tx.attrib);
++
++	u32	pkt_size = pattrib->last_txcmdsz;
++	s32 bmcast = IS_MCAST(pattrib->ra);
++	u8 data_rate, pwr_status, offset;
++
++	SET_TX_DESC_FIRST_SEG_8812(pDesc, 1);
++	SET_TX_DESC_LAST_SEG_8812(pDesc, 1);
++	SET_TX_DESC_OWN_8812(pDesc, 1);
++
++	SET_TX_DESC_PKT_SIZE_8812(pDesc, pkt_size);
++
++	offset = TXDESC_SIZE + OFFSET_SZ;
++
++	SET_TX_DESC_OFFSET_8812(pDesc, offset);
++
++#if defined(CONFIG_PCI_HCI)
++	SET_TX_DESC_PKT_OFFSET_8812(pDesc, 0);
++#else
++	SET_TX_DESC_PKT_OFFSET_8812(pDesc, 1);
++#endif
++	if (bmcast)
++		SET_TX_DESC_BMC_8812(pDesc, 1);
++
++	SET_TX_DESC_MACID_8812(pDesc, pattrib->mac_id);
++	SET_TX_DESC_RATE_ID_8812(pDesc, pattrib->raid);
++
++	/* SET_TX_DESC_RATE_ID_8812(pDesc, RATEID_IDX_G); */
++	SET_TX_DESC_QUEUE_SEL_8812(pDesc,  pattrib->qsel);
++	/* SET_TX_DESC_QUEUE_SEL_8812(pDesc,  QSLT_MGNT); */
++
++	if (!pattrib->qos_en) {
++		SET_TX_DESC_HWSEQ_EN_8812(pDesc, 1); /* Hw set sequence number */
++	} else
++		SET_TX_DESC_SEQ_8812(pDesc, pattrib->seqnum);
++
++	if (pmp_priv->bandwidth <= CHANNEL_WIDTH_160)
++		SET_TX_DESC_DATA_BW_8812(pDesc, pmp_priv->bandwidth);
++	else {
++		RTW_INFO("%s:Err: unknown bandwidth %d, use 20M\n", __func__, pmp_priv->bandwidth);
++		SET_TX_DESC_DATA_BW_8812(pDesc, CHANNEL_WIDTH_20);
++	}
++
++	SET_TX_DESC_DISABLE_FB_8812(pDesc, 1);
++	SET_TX_DESC_USE_RATE_8812(pDesc, 1);
++	SET_TX_DESC_TX_RATE_8812(pDesc, pmp_priv->rateidx);
++
++}
++#endif
++#if defined(CONFIG_RTL8192E)
++void fill_tx_desc_8192e(PADAPTER padapter)
++{
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	u8 *pDesc	= (u8 *)&(pmp_priv->tx.desc);
++	struct pkt_attrib *pattrib = &(pmp_priv->tx.attrib);
++
++	u32 pkt_size = pattrib->last_txcmdsz;
++	s32 bmcast = IS_MCAST(pattrib->ra);
++	u8 data_rate, pwr_status, offset;
++
++
++	SET_TX_DESC_PKT_SIZE_92E(pDesc, pkt_size);
++
++	offset = TXDESC_SIZE + OFFSET_SZ;
++
++	SET_TX_DESC_OFFSET_92E(pDesc, offset);
++#if defined(CONFIG_PCI_HCI) /* 8192EE */
++
++	SET_TX_DESC_PKT_OFFSET_92E(pDesc, 0); /* 8192EE pkt_offset is 0 */
++#else /* 8192EU 8192ES */
++	SET_TX_DESC_PKT_OFFSET_92E(pDesc, 1);
++#endif
++
++	if (bmcast)
++		SET_TX_DESC_BMC_92E(pDesc, 1);
++
++	SET_TX_DESC_MACID_92E(pDesc, pattrib->mac_id);
++	SET_TX_DESC_RATE_ID_92E(pDesc, pattrib->raid);
++
++
++	SET_TX_DESC_QUEUE_SEL_92E(pDesc,  pattrib->qsel);
++	/* SET_TX_DESC_QUEUE_SEL_8812(pDesc,  QSLT_MGNT); */
++
++	if (!pattrib->qos_en) {
++		SET_TX_DESC_EN_HWSEQ_92E(pDesc, 1);/* Hw set sequence number */
++		SET_TX_DESC_HWSEQ_SEL_92E(pDesc, pattrib->hw_ssn_sel);
++	} else
++		SET_TX_DESC_SEQ_92E(pDesc, pattrib->seqnum);
++
++	if ((pmp_priv->bandwidth == CHANNEL_WIDTH_20) || (pmp_priv->bandwidth == CHANNEL_WIDTH_40))
++		SET_TX_DESC_DATA_BW_92E(pDesc, pmp_priv->bandwidth);
++	else {
++		RTW_INFO("%s:Err: unknown bandwidth %d, use 20M\n", __func__, pmp_priv->bandwidth);
++		SET_TX_DESC_DATA_BW_92E(pDesc, CHANNEL_WIDTH_20);
++	}
++
++	/* SET_TX_DESC_DATA_SC_92E(pDesc, SCMapping_92E(padapter,pattrib)); */
++
++	SET_TX_DESC_DISABLE_FB_92E(pDesc, 1);
++	SET_TX_DESC_USE_RATE_92E(pDesc, 1);
++	SET_TX_DESC_TX_RATE_92E(pDesc, pmp_priv->rateidx);
++
++}
++#endif
++
++#if defined(CONFIG_RTL8723B)
++void fill_tx_desc_8723b(PADAPTER padapter)
++{
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	struct pkt_attrib *pattrib = &(pmp_priv->tx.attrib);
++	u8 *ptxdesc = pmp_priv->tx.desc;
++
++	SET_TX_DESC_AGG_BREAK_8723B(ptxdesc, 1);
++	SET_TX_DESC_MACID_8723B(ptxdesc, pattrib->mac_id);
++	SET_TX_DESC_QUEUE_SEL_8723B(ptxdesc, pattrib->qsel);
++
++	SET_TX_DESC_RATE_ID_8723B(ptxdesc, pattrib->raid);
++	SET_TX_DESC_SEQ_8723B(ptxdesc, pattrib->seqnum);
++	SET_TX_DESC_HWSEQ_EN_8723B(ptxdesc, 1);
++	SET_TX_DESC_USE_RATE_8723B(ptxdesc, 1);
++	SET_TX_DESC_DISABLE_FB_8723B(ptxdesc, 1);
++
++	if (pmp_priv->preamble) {
++		if (HwRateToMPTRate(pmp_priv->rateidx) <=  MPT_RATE_54M)
++			SET_TX_DESC_DATA_SHORT_8723B(ptxdesc, 1);
++	}
++
++	if (pmp_priv->bandwidth == CHANNEL_WIDTH_40)
++		SET_TX_DESC_DATA_BW_8723B(ptxdesc, 1);
++
++	SET_TX_DESC_TX_RATE_8723B(ptxdesc, pmp_priv->rateidx);
++
++	SET_TX_DESC_DATA_RATE_FB_LIMIT_8723B(ptxdesc, 0x1F);
++	SET_TX_DESC_RTS_RATE_FB_LIMIT_8723B(ptxdesc, 0xF);
++}
++#endif
++
++#if defined(CONFIG_RTL8703B)
++void fill_tx_desc_8703b(PADAPTER padapter)
++{
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	struct pkt_attrib *pattrib = &(pmp_priv->tx.attrib);
++	u8 *ptxdesc = pmp_priv->tx.desc;
++
++	SET_TX_DESC_AGG_BREAK_8703B(ptxdesc, 1);
++	SET_TX_DESC_MACID_8703B(ptxdesc, pattrib->mac_id);
++	SET_TX_DESC_QUEUE_SEL_8703B(ptxdesc, pattrib->qsel);
++
++	SET_TX_DESC_RATE_ID_8703B(ptxdesc, pattrib->raid);
++	SET_TX_DESC_SEQ_8703B(ptxdesc, pattrib->seqnum);
++	SET_TX_DESC_HWSEQ_EN_8703B(ptxdesc, 1);
++	SET_TX_DESC_USE_RATE_8703B(ptxdesc, 1);
++	SET_TX_DESC_DISABLE_FB_8703B(ptxdesc, 1);
++
++	if (pmp_priv->preamble) {
++		if (HwRateToMPTRate(pmp_priv->rateidx) <=  MPT_RATE_54M)
++			SET_TX_DESC_DATA_SHORT_8703B(ptxdesc, 1);
++	}
++
++	if (pmp_priv->bandwidth == CHANNEL_WIDTH_40)
++		SET_TX_DESC_DATA_BW_8703B(ptxdesc, 1);
++
++	SET_TX_DESC_TX_RATE_8703B(ptxdesc, pmp_priv->rateidx);
++
++	SET_TX_DESC_DATA_RATE_FB_LIMIT_8703B(ptxdesc, 0x1F);
++	SET_TX_DESC_RTS_RATE_FB_LIMIT_8703B(ptxdesc, 0xF);
++}
++#endif
++
++#if defined(CONFIG_RTL8188F)
++void fill_tx_desc_8188f(PADAPTER padapter)
++{
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	struct pkt_attrib *pattrib = &(pmp_priv->tx.attrib);
++	u8 *ptxdesc = pmp_priv->tx.desc;
++
++	SET_TX_DESC_AGG_BREAK_8188F(ptxdesc, 1);
++	SET_TX_DESC_MACID_8188F(ptxdesc, pattrib->mac_id);
++	SET_TX_DESC_QUEUE_SEL_8188F(ptxdesc, pattrib->qsel);
++
++	SET_TX_DESC_RATE_ID_8188F(ptxdesc, pattrib->raid);
++	SET_TX_DESC_SEQ_8188F(ptxdesc, pattrib->seqnum);
++	SET_TX_DESC_HWSEQ_EN_8188F(ptxdesc, 1);
++	SET_TX_DESC_USE_RATE_8188F(ptxdesc, 1);
++	SET_TX_DESC_DISABLE_FB_8188F(ptxdesc, 1);
++
++	if (pmp_priv->preamble)
++		if (HwRateToMPTRate(pmp_priv->rateidx) <=  MPT_RATE_54M)
++			SET_TX_DESC_DATA_SHORT_8188F(ptxdesc, 1);
++
++	if (pmp_priv->bandwidth == CHANNEL_WIDTH_40)
++		SET_TX_DESC_DATA_BW_8188F(ptxdesc, 1);
++
++	SET_TX_DESC_TX_RATE_8188F(ptxdesc, pmp_priv->rateidx);
++
++	SET_TX_DESC_DATA_RATE_FB_LIMIT_8188F(ptxdesc, 0x1F);
++	SET_TX_DESC_RTS_RATE_FB_LIMIT_8188F(ptxdesc, 0xF);
++}
++#endif
++
++#if defined(CONFIG_RTL8723D)
++void fill_tx_desc_8723d(PADAPTER padapter)
++{
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	struct pkt_attrib *pattrib = &(pmp_priv->tx.attrib);
++	u8 *ptxdesc = pmp_priv->tx.desc;
++
++	SET_TX_DESC_BK_8723D(ptxdesc, 1);
++	SET_TX_DESC_MACID_8723D(ptxdesc, pattrib->mac_id);
++	SET_TX_DESC_QUEUE_SEL_8723D(ptxdesc, pattrib->qsel);
++
++	SET_TX_DESC_RATE_ID_8723D(ptxdesc, pattrib->raid);
++	SET_TX_DESC_SEQ_8723D(ptxdesc, pattrib->seqnum);
++	SET_TX_DESC_HWSEQ_EN_8723D(ptxdesc, 1);
++	SET_TX_DESC_USE_RATE_8723D(ptxdesc, 1);
++	SET_TX_DESC_DISABLE_FB_8723D(ptxdesc, 1);
++
++	if (pmp_priv->preamble) {
++		if (HwRateToMPTRate(pmp_priv->rateidx) <=  MPT_RATE_54M)
++			SET_TX_DESC_DATA_SHORT_8723D(ptxdesc, 1);
++	}
++
++	if (pmp_priv->bandwidth == CHANNEL_WIDTH_40)
++		SET_TX_DESC_DATA_BW_8723D(ptxdesc, 1);
++
++	SET_TX_DESC_TX_RATE_8723D(ptxdesc, pmp_priv->rateidx);
++
++	SET_TX_DESC_DATA_RATE_FB_LIMIT_8723D(ptxdesc, 0x1F);
++	SET_TX_DESC_RTS_RATE_FB_LIMIT_8723D(ptxdesc, 0xF);
++}
++#endif
++
++static void Rtw_MPSetMacTxEDCA(PADAPTER padapter)
++{
++
++	rtw_write32(padapter, 0x508 , 0x00a422); /* Disable EDCA BE Txop for MP pkt tx adjust Packet interval */
++	/* RTW_INFO("%s:write 0x508~~~~~~ 0x%x\n", __func__,rtw_read32(padapter, 0x508)); */
++	PHY_SetMacReg(padapter, 0x458 , bMaskDWord , 0x0);
++	/* RTW_INFO("%s()!!!!! 0x460 = 0x%x\n" ,__func__,PHY_QueryBBReg(padapter, 0x460, bMaskDWord)); */
++	PHY_SetMacReg(padapter, 0x460 , bMaskLWord , 0x0); /* fast EDCA queue packet interval & time out vaule */
++	/* PHY_SetMacReg(padapter, ODM_EDCA_VO_PARAM ,bMaskLWord , 0x431C); */
++	/* PHY_SetMacReg(padapter, ODM_EDCA_BE_PARAM ,bMaskLWord , 0x431C); */
++	/* PHY_SetMacReg(padapter, ODM_EDCA_BK_PARAM ,bMaskLWord , 0x431C); */
++	RTW_INFO("%s()!!!!! 0x460 = 0x%x\n" , __func__, PHY_QueryBBReg(padapter, 0x460, bMaskDWord));
++
++}
++
++void SetPacketTx(PADAPTER padapter)
++{
++	u8 *ptr, *pkt_start, *pkt_end, *fctrl;
++	u32 pkt_size, offset, startPlace, i;
++	struct rtw_ieee80211_hdr *hdr;
++	u8 payload;
++	s32 bmcast;
++	struct pkt_attrib *pattrib;
++	struct mp_priv *pmp_priv;
++
++	pmp_priv = &padapter->mppriv;
++
++	if (pmp_priv->tx.stop)
++		return;
++	pmp_priv->tx.sended = 0;
++	pmp_priv->tx.stop = 0;
++	pmp_priv->tx_pktcount = 0;
++
++	/* 3 1. update_attrib() */
++	pattrib = &pmp_priv->tx.attrib;
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++	bmcast = IS_MCAST(pattrib->ra);
++	if (bmcast) {
++		pattrib->mac_id = 1;
++		pattrib->psta = rtw_get_bcmc_stainfo(padapter);
++	} else {
++		pattrib->mac_id = 0;
++		pattrib->psta = rtw_get_stainfo(&padapter->stapriv, get_bssid(&padapter->mlmepriv));
++	}
++	pattrib->mbssid = 0;
++
++	pattrib->last_txcmdsz = pattrib->hdrlen + pattrib->pktlen;
++
++	/* 3 2. allocate xmit buffer */
++	pkt_size = pattrib->last_txcmdsz;
++
++	if (pmp_priv->tx.pallocated_buf)
++		rtw_mfree(pmp_priv->tx.pallocated_buf, pmp_priv->tx.buf_size);
++	pmp_priv->tx.write_size = pkt_size;
++	pmp_priv->tx.buf_size = pkt_size + XMITBUF_ALIGN_SZ;
++	pmp_priv->tx.pallocated_buf = rtw_zmalloc(pmp_priv->tx.buf_size);
++	if (pmp_priv->tx.pallocated_buf == NULL) {
++		RTW_INFO("%s: malloc(%d) fail!!\n", __func__, pmp_priv->tx.buf_size);
++		return;
++	}
++	pmp_priv->tx.buf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pmp_priv->tx.pallocated_buf), XMITBUF_ALIGN_SZ);
++	ptr = pmp_priv->tx.buf;
++
++	_rtw_memset(pmp_priv->tx.desc, 0, TXDESC_SIZE);
++	pkt_start = ptr;
++	pkt_end = pkt_start + pkt_size;
++
++	/* 3 3. init TX descriptor */
++#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(padapter))
++		fill_tx_desc_8188e(padapter);
++#endif
++
++#if defined(CONFIG_RTL8814A)
++	if (IS_HARDWARE_TYPE_8814A(padapter))
++		fill_tx_desc_8814a(padapter);
++#endif /* defined(CONFIG_RTL8814A) */
++
++#if defined(CONFIG_RTL8822B)
++	if (IS_HARDWARE_TYPE_8822B(padapter))
++		rtl8822b_prepare_mp_txdesc(padapter, pmp_priv);
++#endif /* CONFIG_RTL8822B */
++
++#if defined(CONFIG_RTL8821C)
++	if (IS_HARDWARE_TYPE_8821C(padapter))
++		rtl8821c_prepare_mp_txdesc(padapter, pmp_priv);
++#endif /* CONFIG_RTL8821C */
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++	if (IS_HARDWARE_TYPE_8812(padapter) || IS_HARDWARE_TYPE_8821(padapter))
++		fill_tx_desc_8812a(padapter);
++#endif
++
++#if defined(CONFIG_RTL8192E)
++	if (IS_HARDWARE_TYPE_8192E(padapter))
++		fill_tx_desc_8192e(padapter);
++#endif
++#if defined(CONFIG_RTL8723B)
++	if (IS_HARDWARE_TYPE_8723B(padapter))
++		fill_tx_desc_8723b(padapter);
++#endif
++#if defined(CONFIG_RTL8703B)
++	if (IS_HARDWARE_TYPE_8703B(padapter))
++		fill_tx_desc_8703b(padapter);
++#endif
++
++#if defined(CONFIG_RTL8188F)
++	if (IS_HARDWARE_TYPE_8188F(padapter))
++		fill_tx_desc_8188f(padapter);
++#endif
++
++#if defined(CONFIG_RTL8723D)
++	if (IS_HARDWARE_TYPE_8723D(padapter))
++		fill_tx_desc_8723d(padapter);
++#endif
++
++	/* 3 4. make wlan header, make_wlanhdr() */
++	hdr = (struct rtw_ieee80211_hdr *)pkt_start;
++	SetFrameSubType(&hdr->frame_ctl, pattrib->subtype);
++	/*  */
++	SetFrDs(&hdr->frame_ctl);
++	_rtw_memcpy(hdr->addr1, pattrib->dst, ETH_ALEN); /* DA */
++	_rtw_memcpy(hdr->addr2, pattrib->src, ETH_ALEN); /* SA */
++	_rtw_memcpy(hdr->addr3, get_bssid(&padapter->mlmepriv), ETH_ALEN); /* RA, BSSID */
++
++	/* 3 5. make payload */
++	ptr = pkt_start + pattrib->hdrlen;
++
++	switch (pmp_priv->tx.payload) {
++	case 0:
++		payload = 0x00;
++		break;
++	case 1:
++		payload = 0x5a;
++		break;
++	case 2:
++		payload = 0xa5;
++		break;
++	case 3:
++		payload = 0xff;
++		break;
++	default:
++		payload = 0x00;
++		break;
++	}
++	pmp_priv->TXradomBuffer = rtw_zmalloc(4096);
++	if (pmp_priv->TXradomBuffer == NULL) {
++		RTW_INFO("mp create random buffer fail!\n");
++		goto exit;
++	}
++
++
++	for (i = 0; i < 4096; i++)
++		pmp_priv->TXradomBuffer[i] = rtw_random32() % 0xFF;
++
++	/* startPlace = (u32)(rtw_random32() % 3450); */
++	_rtw_memcpy(ptr, pmp_priv->TXradomBuffer, pkt_end - ptr);
++	/* _rtw_memset(ptr, payload, pkt_end - ptr); */
++	rtw_mfree(pmp_priv->TXradomBuffer, 4096);
++
++	/* 3 6. start thread */
++#ifdef PLATFORM_LINUX
++	pmp_priv->tx.PktTxThread = kthread_run(mp_xmit_packet_thread, pmp_priv, "RTW_MP_THREAD");
++	if (IS_ERR(pmp_priv->tx.PktTxThread))
++		RTW_INFO("Create PktTx Thread Fail !!!!!\n");
++#endif
++#ifdef PLATFORM_FREEBSD
++	{
++		struct proc *p;
++		struct thread *td;
++		pmp_priv->tx.PktTxThread = kproc_kthread_add(mp_xmit_packet_thread, pmp_priv,
++			&p, &td, RFHIGHPID, 0, "MPXmitThread", "MPXmitThread");
++
++		if (pmp_priv->tx.PktTxThread < 0)
++			RTW_INFO("Create PktTx Thread Fail !!!!!\n");
++	}
++#endif
++
++	Rtw_MPSetMacTxEDCA(padapter);
++exit:
++	return;
++}
++
++void SetPacketRx(PADAPTER pAdapter, u8 bStartRx, u8 bAB)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++	struct mp_priv *pmppriv = &pAdapter->mppriv;
++
++
++	if (bStartRx) {
++#ifdef CONFIG_RTL8723B
++		PHY_SetMacReg(pAdapter, 0xe70, BIT23 | BIT22, 0x3); /* Power on adc  (in RX_WAIT_CCA state) */
++		write_bbreg(pAdapter, 0xa01, BIT0, bDisable);/* improve Rx performance by jerry	 */
++#endif
++		pHalData->ReceiveConfig = RCR_AAP | RCR_APM | RCR_AM | RCR_AMF | RCR_HTC_LOC_CTRL;
++		pHalData->ReceiveConfig |= RCR_ACRC32;
++		pHalData->ReceiveConfig |= RCR_APP_PHYST_RXFF | RCR_APP_ICV | RCR_APP_MIC;
++
++		if (pmppriv->bSetRxBssid == _TRUE) {
++			RTW_INFO("%s: pmppriv->network_macaddr=" MAC_FMT "\n", __func__,
++				 MAC_ARG(pmppriv->network_macaddr));
++
++			/* Set_MSR(pAdapter, WIFI_FW_AP_STATE); */
++			/* rtw_hal_set_hwreg(pAdapter, HW_VAR_BSSID, pmppriv->network_macaddr); */
++			/* rtw_hal_set_hwreg(pAdapter, HW_VAR_SET_OPMODE, (u8 *)(&type)); */
++		} else {
++			pHalData->ReceiveConfig |= RCR_ADF;
++
++			/* Accept all data frames */
++			rtw_write16(pAdapter, REG_RXFLTMAP2, 0xFFFF);
++		}
++
++		if (bAB)
++			pHalData->ReceiveConfig |= RCR_AB;
++	} else {
++#ifdef CONFIG_RTL8723B
++		PHY_SetMacReg(pAdapter, 0xe70, BIT23 | BIT22, 0x00); /* Power off adc  (in RX_WAIT_CCA state) */
++		write_bbreg(pAdapter, 0xa01, BIT0, bEnable);/* improve Rx performance by jerry	 */
++#endif
++		pHalData->ReceiveConfig = 0;
++	}
++
++	rtw_write32(pAdapter, REG_RCR, pHalData->ReceiveConfig);
++}
++
++void ResetPhyRxPktCount(PADAPTER pAdapter)
++{
++	u32 i, phyrx_set = 0;
++
++	for (i = 0; i <= 0xF; i++) {
++		phyrx_set = 0;
++		phyrx_set |= _RXERR_RPT_SEL(i);	/* select */
++		phyrx_set |= RXERR_RPT_RST;	/* set counter to zero */
++		rtw_write32(pAdapter, REG_RXERR_RPT, phyrx_set);
++	}
++}
++
++static u32 GetPhyRxPktCounts(PADAPTER pAdapter, u32 selbit)
++{
++	/* selection */
++	u32 phyrx_set = 0, count = 0;
++
++	phyrx_set = _RXERR_RPT_SEL(selbit & 0xF);
++	rtw_write32(pAdapter, REG_RXERR_RPT, phyrx_set);
++
++	/* Read packet count */
++	count = rtw_read32(pAdapter, REG_RXERR_RPT) & RXERR_COUNTER_MASK;
++
++	return count;
++}
++
++u32 GetPhyRxPktReceived(PADAPTER pAdapter)
++{
++	u32 OFDM_cnt = 0, CCK_cnt = 0, HT_cnt = 0;
++
++	OFDM_cnt = GetPhyRxPktCounts(pAdapter, RXERR_TYPE_OFDM_MPDU_OK);
++	CCK_cnt = GetPhyRxPktCounts(pAdapter, RXERR_TYPE_CCK_MPDU_OK);
++	HT_cnt = GetPhyRxPktCounts(pAdapter, RXERR_TYPE_HT_MPDU_OK);
++
++	return OFDM_cnt + CCK_cnt + HT_cnt;
++}
++
++u32 GetPhyRxPktCRC32Error(PADAPTER pAdapter)
++{
++	u32 OFDM_cnt = 0, CCK_cnt = 0, HT_cnt = 0;
++
++	OFDM_cnt = GetPhyRxPktCounts(pAdapter, RXERR_TYPE_OFDM_MPDU_FAIL);
++	CCK_cnt = GetPhyRxPktCounts(pAdapter, RXERR_TYPE_CCK_MPDU_FAIL);
++	HT_cnt = GetPhyRxPktCounts(pAdapter, RXERR_TYPE_HT_MPDU_FAIL);
++
++	return OFDM_cnt + CCK_cnt + HT_cnt;
++}
++
++/* reg 0x808[9:0]: FFT data x
++ * reg 0x808[22]:  0  -->  1  to get 1 FFT data y
++ * reg 0x8B4[15:0]: FFT data y report */
++static u32 rtw_GetPSDData(PADAPTER pAdapter, u32 point)
++{
++	u32 psd_val = 0;
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) || defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++	u16 psd_reg = 0x910;
++	u16 psd_regL = 0xF44;
++#else
++	u16 psd_reg = 0x808;
++	u16 psd_regL = 0x8B4;
++#endif
++
++	psd_val = rtw_read32(pAdapter, psd_reg);
++
++	psd_val &= 0xFFBFFC00;
++	psd_val |= point;
++
++	rtw_write32(pAdapter, psd_reg, psd_val);
++	rtw_mdelay_os(1);
++	psd_val |= 0x00400000;
++
++	rtw_write32(pAdapter, psd_reg, psd_val);
++	rtw_mdelay_os(1);
++
++	psd_val = rtw_read32(pAdapter, psd_regL);
++	psd_val &= 0x0000FFFF;
++
++	return psd_val;
++}
++
++/*
++ * pts	start_point_min		stop_point_max
++ * 128	64			64 + 128 = 192
++ * 256	128			128 + 256 = 384
++ * 512	256			256 + 512 = 768
++ * 1024	512			512 + 1024 = 1536
++ *
++ */
++u32 mp_query_psd(PADAPTER pAdapter, u8 *data)
++{
++	u32 i, psd_pts = 0, psd_start = 0, psd_stop = 0;
++	u32 psd_data = 0;
++
++
++#ifdef PLATFORM_LINUX
++	if (!netif_running(pAdapter->pnetdev)) {
++		return 0;
++	}
++#endif
++
++	if (check_fwstate(&pAdapter->mlmepriv, WIFI_MP_STATE) == _FALSE) {
++		return 0;
++	}
++
++	if (strlen(data) == 0) { /* default value */
++		psd_pts = 128;
++		psd_start = 64;
++		psd_stop = 128;
++	} else
++		sscanf(data, "pts=%d,start=%d,stop=%d", &psd_pts, &psd_start, &psd_stop);
++
++	data[0] = '\0';
++
++	i = psd_start;
++	while (i < psd_stop) {
++		if (i >= psd_pts)
++			psd_data = rtw_GetPSDData(pAdapter, i - psd_pts);
++		else
++			psd_data = rtw_GetPSDData(pAdapter, i);
++		sprintf(data, "%s%x ", data, psd_data);
++		i++;
++	}
++
++#ifdef CONFIG_LONG_DELAY_ISSUE
++	rtw_msleep_os(100);
++#else
++	rtw_mdelay_os(100);
++#endif
++
++	return strlen(data) + 1;
++}
++
++
++#if 0
++void _rtw_mp_xmit_priv(struct xmit_priv *pxmitpriv)
++{
++	int i, res;
++	_adapter *padapter = pxmitpriv->adapter;
++	struct xmit_frame	*pxmitframe = (struct xmit_frame *) pxmitpriv->pxmit_frame_buf;
++	struct xmit_buf *pxmitbuf = (struct xmit_buf *)pxmitpriv->pxmitbuf;
++
++	u32 max_xmit_extbuf_size = MAX_XMIT_EXTBUF_SZ;
++	u32 num_xmit_extbuf = NR_XMIT_EXTBUFF;
++	if (padapter->registrypriv.mp_mode == 0) {
++		max_xmit_extbuf_size = MAX_XMIT_EXTBUF_SZ;
++		num_xmit_extbuf = NR_XMIT_EXTBUFF;
++	} else {
++		max_xmit_extbuf_size = 6000;
++		num_xmit_extbuf = 8;
++	}
++
++	pxmitbuf = (struct xmit_buf *)pxmitpriv->pxmit_extbuf;
++	for (i = 0; i < num_xmit_extbuf; i++) {
++		rtw_os_xmit_resource_free(padapter, pxmitbuf, (max_xmit_extbuf_size + XMITBUF_ALIGN_SZ), _FALSE);
++
++		pxmitbuf++;
++	}
++
++	if (pxmitpriv->pallocated_xmit_extbuf)
++		rtw_vmfree(pxmitpriv->pallocated_xmit_extbuf, num_xmit_extbuf * sizeof(struct xmit_buf) + 4);
++
++	if (padapter->registrypriv.mp_mode == 0) {
++		max_xmit_extbuf_size = 6000;
++		num_xmit_extbuf = 8;
++	} else {
++		max_xmit_extbuf_size = MAX_XMIT_EXTBUF_SZ;
++		num_xmit_extbuf = NR_XMIT_EXTBUFF;
++	}
++
++	/* Init xmit extension buff */
++	_rtw_init_queue(&pxmitpriv->free_xmit_extbuf_queue);
++
++	pxmitpriv->pallocated_xmit_extbuf = rtw_zvmalloc(num_xmit_extbuf * sizeof(struct xmit_buf) + 4);
++
++	if (pxmitpriv->pallocated_xmit_extbuf  == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pxmitpriv->pxmit_extbuf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitpriv->pallocated_xmit_extbuf), 4);
++
++	pxmitbuf = (struct xmit_buf *)pxmitpriv->pxmit_extbuf;
++
++	for (i = 0; i < num_xmit_extbuf; i++) {
++		_rtw_init_listhead(&pxmitbuf->list);
++
++		pxmitbuf->priv_data = NULL;
++		pxmitbuf->padapter = padapter;
++		pxmitbuf->buf_tag = XMITBUF_MGNT;
++
++		res = rtw_os_xmit_resource_alloc(padapter, pxmitbuf, max_xmit_extbuf_size + XMITBUF_ALIGN_SZ, _TRUE);
++		if (res == _FAIL) {
++			res = _FAIL;
++			goto exit;
++		}
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		pxmitbuf->phead = pxmitbuf->pbuf;
++		pxmitbuf->pend = pxmitbuf->pbuf + max_xmit_extbuf_size;
++		pxmitbuf->len = 0;
++		pxmitbuf->pdata = pxmitbuf->ptail = pxmitbuf->phead;
++#endif
++
++		rtw_list_insert_tail(&pxmitbuf->list, &(pxmitpriv->free_xmit_extbuf_queue.queue));
++#ifdef DBG_XMIT_BUF_EXT
++		pxmitbuf->no = i;
++#endif
++		pxmitbuf++;
++
++	}
++
++	pxmitpriv->free_xmit_extbuf_cnt = num_xmit_extbuf;
++
++exit:
++	;
++}
++#endif
++
++u8
++MptToMgntRate(
++	IN	ULONG	MptRateIdx
++)
++{
++	/* Mapped to MGN_XXX defined in MgntGen.h */
++	switch (MptRateIdx) {
++	/* CCK rate. */
++	case	MPT_RATE_1M:
++		return MGN_1M;
++	case	MPT_RATE_2M:
++		return MGN_2M;
++	case	MPT_RATE_55M:
++		return MGN_5_5M;
++	case	MPT_RATE_11M:
++		return MGN_11M;
++
++	/* OFDM rate. */
++	case	MPT_RATE_6M:
++		return MGN_6M;
++	case	MPT_RATE_9M:
++		return MGN_9M;
++	case	MPT_RATE_12M:
++		return MGN_12M;
++	case	MPT_RATE_18M:
++		return MGN_18M;
++	case	MPT_RATE_24M:
++		return MGN_24M;
++	case	MPT_RATE_36M:
++		return MGN_36M;
++	case	MPT_RATE_48M:
++		return MGN_48M;
++	case	MPT_RATE_54M:
++		return MGN_54M;
++
++	/* HT rate. */
++	case	MPT_RATE_MCS0:
++		return MGN_MCS0;
++	case	MPT_RATE_MCS1:
++		return MGN_MCS1;
++	case	MPT_RATE_MCS2:
++		return MGN_MCS2;
++	case	MPT_RATE_MCS3:
++		return MGN_MCS3;
++	case	MPT_RATE_MCS4:
++		return MGN_MCS4;
++	case	MPT_RATE_MCS5:
++		return MGN_MCS5;
++	case	MPT_RATE_MCS6:
++		return MGN_MCS6;
++	case	MPT_RATE_MCS7:
++		return MGN_MCS7;
++	case	MPT_RATE_MCS8:
++		return MGN_MCS8;
++	case	MPT_RATE_MCS9:
++		return MGN_MCS9;
++	case	MPT_RATE_MCS10:
++		return MGN_MCS10;
++	case	MPT_RATE_MCS11:
++		return MGN_MCS11;
++	case	MPT_RATE_MCS12:
++		return MGN_MCS12;
++	case	MPT_RATE_MCS13:
++		return MGN_MCS13;
++	case	MPT_RATE_MCS14:
++		return MGN_MCS14;
++	case	MPT_RATE_MCS15:
++		return MGN_MCS15;
++	case	MPT_RATE_MCS16:
++		return MGN_MCS16;
++	case	MPT_RATE_MCS17:
++		return MGN_MCS17;
++	case	MPT_RATE_MCS18:
++		return MGN_MCS18;
++	case	MPT_RATE_MCS19:
++		return MGN_MCS19;
++	case	MPT_RATE_MCS20:
++		return MGN_MCS20;
++	case	MPT_RATE_MCS21:
++		return MGN_MCS21;
++	case	MPT_RATE_MCS22:
++		return MGN_MCS22;
++	case	MPT_RATE_MCS23:
++		return MGN_MCS23;
++	case	MPT_RATE_MCS24:
++		return MGN_MCS24;
++	case	MPT_RATE_MCS25:
++		return MGN_MCS25;
++	case	MPT_RATE_MCS26:
++		return MGN_MCS26;
++	case	MPT_RATE_MCS27:
++		return MGN_MCS27;
++	case	MPT_RATE_MCS28:
++		return MGN_MCS28;
++	case	MPT_RATE_MCS29:
++		return MGN_MCS29;
++	case	MPT_RATE_MCS30:
++		return MGN_MCS30;
++	case	MPT_RATE_MCS31:
++		return MGN_MCS31;
++
++	/* VHT rate. */
++	case	MPT_RATE_VHT1SS_MCS0:
++		return MGN_VHT1SS_MCS0;
++	case	MPT_RATE_VHT1SS_MCS1:
++		return MGN_VHT1SS_MCS1;
++	case	MPT_RATE_VHT1SS_MCS2:
++		return MGN_VHT1SS_MCS2;
++	case	MPT_RATE_VHT1SS_MCS3:
++		return MGN_VHT1SS_MCS3;
++	case	MPT_RATE_VHT1SS_MCS4:
++		return MGN_VHT1SS_MCS4;
++	case	MPT_RATE_VHT1SS_MCS5:
++		return MGN_VHT1SS_MCS5;
++	case	MPT_RATE_VHT1SS_MCS6:
++		return MGN_VHT1SS_MCS6;
++	case	MPT_RATE_VHT1SS_MCS7:
++		return MGN_VHT1SS_MCS7;
++	case	MPT_RATE_VHT1SS_MCS8:
++		return MGN_VHT1SS_MCS8;
++	case	MPT_RATE_VHT1SS_MCS9:
++		return MGN_VHT1SS_MCS9;
++	case	MPT_RATE_VHT2SS_MCS0:
++		return MGN_VHT2SS_MCS0;
++	case	MPT_RATE_VHT2SS_MCS1:
++		return MGN_VHT2SS_MCS1;
++	case	MPT_RATE_VHT2SS_MCS2:
++		return MGN_VHT2SS_MCS2;
++	case	MPT_RATE_VHT2SS_MCS3:
++		return MGN_VHT2SS_MCS3;
++	case	MPT_RATE_VHT2SS_MCS4:
++		return MGN_VHT2SS_MCS4;
++	case	MPT_RATE_VHT2SS_MCS5:
++		return MGN_VHT2SS_MCS5;
++	case	MPT_RATE_VHT2SS_MCS6:
++		return MGN_VHT2SS_MCS6;
++	case	MPT_RATE_VHT2SS_MCS7:
++		return MGN_VHT2SS_MCS7;
++	case	MPT_RATE_VHT2SS_MCS8:
++		return MGN_VHT2SS_MCS8;
++	case	MPT_RATE_VHT2SS_MCS9:
++		return MGN_VHT2SS_MCS9;
++	case	MPT_RATE_VHT3SS_MCS0:
++		return MGN_VHT3SS_MCS0;
++	case	MPT_RATE_VHT3SS_MCS1:
++		return MGN_VHT3SS_MCS1;
++	case	MPT_RATE_VHT3SS_MCS2:
++		return MGN_VHT3SS_MCS2;
++	case	MPT_RATE_VHT3SS_MCS3:
++		return MGN_VHT3SS_MCS3;
++	case	MPT_RATE_VHT3SS_MCS4:
++		return MGN_VHT3SS_MCS4;
++	case	MPT_RATE_VHT3SS_MCS5:
++		return MGN_VHT3SS_MCS5;
++	case	MPT_RATE_VHT3SS_MCS6:
++		return MGN_VHT3SS_MCS6;
++	case	MPT_RATE_VHT3SS_MCS7:
++		return MGN_VHT3SS_MCS7;
++	case	MPT_RATE_VHT3SS_MCS8:
++		return MGN_VHT3SS_MCS8;
++	case	MPT_RATE_VHT3SS_MCS9:
++		return MGN_VHT3SS_MCS9;
++	case	MPT_RATE_VHT4SS_MCS0:
++		return MGN_VHT4SS_MCS0;
++	case	MPT_RATE_VHT4SS_MCS1:
++		return MGN_VHT4SS_MCS1;
++	case	MPT_RATE_VHT4SS_MCS2:
++		return MGN_VHT4SS_MCS2;
++	case	MPT_RATE_VHT4SS_MCS3:
++		return MGN_VHT4SS_MCS3;
++	case	MPT_RATE_VHT4SS_MCS4:
++		return MGN_VHT4SS_MCS4;
++	case	MPT_RATE_VHT4SS_MCS5:
++		return MGN_VHT4SS_MCS5;
++	case	MPT_RATE_VHT4SS_MCS6:
++		return MGN_VHT4SS_MCS6;
++	case	MPT_RATE_VHT4SS_MCS7:
++		return MGN_VHT4SS_MCS7;
++	case	MPT_RATE_VHT4SS_MCS8:
++		return MGN_VHT4SS_MCS8;
++	case	MPT_RATE_VHT4SS_MCS9:
++		return MGN_VHT4SS_MCS9;
++
++	case	MPT_RATE_LAST:	/* fully automatiMGN_VHT2SS_MCS1;	 */
++	default:
++		RTW_INFO("<===MptToMgntRate(), Invalid Rate: %d!!\n", MptRateIdx);
++		return 0x0;
++	}
++}
++
++
++u8 HwRateToMPTRate(u8 rate)
++{
++	u8	ret_rate = MGN_1M;
++
++	switch (rate) {
++	case DESC_RATE1M:
++		ret_rate = MPT_RATE_1M;
++		break;
++	case DESC_RATE2M:
++		ret_rate = MPT_RATE_2M;
++		break;
++	case DESC_RATE5_5M:
++		ret_rate = MPT_RATE_55M;
++		break;
++	case DESC_RATE11M:
++		ret_rate = MPT_RATE_11M;
++		break;
++	case DESC_RATE6M:
++		ret_rate = MPT_RATE_6M;
++		break;
++	case DESC_RATE9M:
++		ret_rate = MPT_RATE_9M;
++		break;
++	case DESC_RATE12M:
++		ret_rate = MPT_RATE_12M;
++		break;
++	case DESC_RATE18M:
++		ret_rate = MPT_RATE_18M;
++		break;
++	case DESC_RATE24M:
++		ret_rate = MPT_RATE_24M;
++		break;
++	case DESC_RATE36M:
++		ret_rate = MPT_RATE_36M;
++		break;
++	case DESC_RATE48M:
++		ret_rate = MPT_RATE_48M;
++		break;
++	case DESC_RATE54M:
++		ret_rate = MPT_RATE_54M;
++		break;
++	case DESC_RATEMCS0:
++		ret_rate = MPT_RATE_MCS0;
++		break;
++	case DESC_RATEMCS1:
++		ret_rate = MPT_RATE_MCS1;
++		break;
++	case DESC_RATEMCS2:
++		ret_rate = MPT_RATE_MCS2;
++		break;
++	case DESC_RATEMCS3:
++		ret_rate = MPT_RATE_MCS3;
++		break;
++	case DESC_RATEMCS4:
++		ret_rate = MPT_RATE_MCS4;
++		break;
++	case DESC_RATEMCS5:
++		ret_rate = MPT_RATE_MCS5;
++		break;
++	case DESC_RATEMCS6:
++		ret_rate = MPT_RATE_MCS6;
++		break;
++	case DESC_RATEMCS7:
++		ret_rate = MPT_RATE_MCS7;
++		break;
++	case DESC_RATEMCS8:
++		ret_rate = MPT_RATE_MCS8;
++		break;
++	case DESC_RATEMCS9:
++		ret_rate = MPT_RATE_MCS9;
++		break;
++	case DESC_RATEMCS10:
++		ret_rate = MPT_RATE_MCS10;
++		break;
++	case DESC_RATEMCS11:
++		ret_rate = MPT_RATE_MCS11;
++		break;
++	case DESC_RATEMCS12:
++		ret_rate = MPT_RATE_MCS12;
++		break;
++	case DESC_RATEMCS13:
++		ret_rate = MPT_RATE_MCS13;
++		break;
++	case DESC_RATEMCS14:
++		ret_rate = MPT_RATE_MCS14;
++		break;
++	case DESC_RATEMCS15:
++		ret_rate = MPT_RATE_MCS15;
++		break;
++	case DESC_RATEMCS16:
++		ret_rate = MPT_RATE_MCS16;
++		break;
++	case DESC_RATEMCS17:
++		ret_rate = MPT_RATE_MCS17;
++		break;
++	case DESC_RATEMCS18:
++		ret_rate = MPT_RATE_MCS18;
++		break;
++	case DESC_RATEMCS19:
++		ret_rate = MPT_RATE_MCS19;
++		break;
++	case DESC_RATEMCS20:
++		ret_rate = MPT_RATE_MCS20;
++		break;
++	case DESC_RATEMCS21:
++		ret_rate = MPT_RATE_MCS21;
++		break;
++	case DESC_RATEMCS22:
++		ret_rate = MPT_RATE_MCS22;
++		break;
++	case DESC_RATEMCS23:
++		ret_rate = MPT_RATE_MCS23;
++		break;
++	case DESC_RATEMCS24:
++		ret_rate = MPT_RATE_MCS24;
++		break;
++	case DESC_RATEMCS25:
++		ret_rate = MPT_RATE_MCS25;
++		break;
++	case DESC_RATEMCS26:
++		ret_rate = MPT_RATE_MCS26;
++		break;
++	case DESC_RATEMCS27:
++		ret_rate = MPT_RATE_MCS27;
++		break;
++	case DESC_RATEMCS28:
++		ret_rate = MPT_RATE_MCS28;
++		break;
++	case DESC_RATEMCS29:
++		ret_rate = MPT_RATE_MCS29;
++		break;
++	case DESC_RATEMCS30:
++		ret_rate = MPT_RATE_MCS30;
++		break;
++	case DESC_RATEMCS31:
++		ret_rate = MPT_RATE_MCS31;
++		break;
++	case DESC_RATEVHTSS1MCS0:
++		ret_rate = MPT_RATE_VHT1SS_MCS0;
++		break;
++	case DESC_RATEVHTSS1MCS1:
++		ret_rate = MPT_RATE_VHT1SS_MCS1;
++		break;
++	case DESC_RATEVHTSS1MCS2:
++		ret_rate = MPT_RATE_VHT1SS_MCS2;
++		break;
++	case DESC_RATEVHTSS1MCS3:
++		ret_rate = MPT_RATE_VHT1SS_MCS3;
++		break;
++	case DESC_RATEVHTSS1MCS4:
++		ret_rate = MPT_RATE_VHT1SS_MCS4;
++		break;
++	case DESC_RATEVHTSS1MCS5:
++		ret_rate = MPT_RATE_VHT1SS_MCS5;
++		break;
++	case DESC_RATEVHTSS1MCS6:
++		ret_rate = MPT_RATE_VHT1SS_MCS6;
++		break;
++	case DESC_RATEVHTSS1MCS7:
++		ret_rate = MPT_RATE_VHT1SS_MCS7;
++		break;
++	case DESC_RATEVHTSS1MCS8:
++		ret_rate = MPT_RATE_VHT1SS_MCS8;
++		break;
++	case DESC_RATEVHTSS1MCS9:
++		ret_rate = MPT_RATE_VHT1SS_MCS9;
++		break;
++	case DESC_RATEVHTSS2MCS0:
++		ret_rate = MPT_RATE_VHT2SS_MCS0;
++		break;
++	case DESC_RATEVHTSS2MCS1:
++		ret_rate = MPT_RATE_VHT2SS_MCS1;
++		break;
++	case DESC_RATEVHTSS2MCS2:
++		ret_rate = MPT_RATE_VHT2SS_MCS2;
++		break;
++	case DESC_RATEVHTSS2MCS3:
++		ret_rate = MPT_RATE_VHT2SS_MCS3;
++		break;
++	case DESC_RATEVHTSS2MCS4:
++		ret_rate = MPT_RATE_VHT2SS_MCS4;
++		break;
++	case DESC_RATEVHTSS2MCS5:
++		ret_rate = MPT_RATE_VHT2SS_MCS5;
++		break;
++	case DESC_RATEVHTSS2MCS6:
++		ret_rate = MPT_RATE_VHT2SS_MCS6;
++		break;
++	case DESC_RATEVHTSS2MCS7:
++		ret_rate = MPT_RATE_VHT2SS_MCS7;
++		break;
++	case DESC_RATEVHTSS2MCS8:
++		ret_rate = MPT_RATE_VHT2SS_MCS8;
++		break;
++	case DESC_RATEVHTSS2MCS9:
++		ret_rate = MPT_RATE_VHT2SS_MCS9;
++		break;
++	case DESC_RATEVHTSS3MCS0:
++		ret_rate = MPT_RATE_VHT3SS_MCS0;
++		break;
++	case DESC_RATEVHTSS3MCS1:
++		ret_rate = MPT_RATE_VHT3SS_MCS1;
++		break;
++	case DESC_RATEVHTSS3MCS2:
++		ret_rate = MPT_RATE_VHT3SS_MCS2;
++		break;
++	case DESC_RATEVHTSS3MCS3:
++		ret_rate = MPT_RATE_VHT3SS_MCS3;
++		break;
++	case DESC_RATEVHTSS3MCS4:
++		ret_rate = MPT_RATE_VHT3SS_MCS4;
++		break;
++	case DESC_RATEVHTSS3MCS5:
++		ret_rate = MPT_RATE_VHT3SS_MCS5;
++		break;
++	case DESC_RATEVHTSS3MCS6:
++		ret_rate = MPT_RATE_VHT3SS_MCS6;
++		break;
++	case DESC_RATEVHTSS3MCS7:
++		ret_rate = MPT_RATE_VHT3SS_MCS7;
++		break;
++	case DESC_RATEVHTSS3MCS8:
++		ret_rate = MPT_RATE_VHT3SS_MCS8;
++		break;
++	case DESC_RATEVHTSS3MCS9:
++		ret_rate = MPT_RATE_VHT3SS_MCS9;
++		break;
++	case DESC_RATEVHTSS4MCS0:
++		ret_rate = MPT_RATE_VHT4SS_MCS0;
++		break;
++	case DESC_RATEVHTSS4MCS1:
++		ret_rate = MPT_RATE_VHT4SS_MCS1;
++		break;
++	case DESC_RATEVHTSS4MCS2:
++		ret_rate = MPT_RATE_VHT4SS_MCS2;
++		break;
++	case DESC_RATEVHTSS4MCS3:
++		ret_rate = MPT_RATE_VHT4SS_MCS3;
++		break;
++	case DESC_RATEVHTSS4MCS4:
++		ret_rate = MPT_RATE_VHT4SS_MCS4;
++		break;
++	case DESC_RATEVHTSS4MCS5:
++		ret_rate = MPT_RATE_VHT4SS_MCS5;
++		break;
++	case DESC_RATEVHTSS4MCS6:
++		ret_rate = MPT_RATE_VHT4SS_MCS6;
++		break;
++	case DESC_RATEVHTSS4MCS7:
++		ret_rate = MPT_RATE_VHT4SS_MCS7;
++		break;
++	case DESC_RATEVHTSS4MCS8:
++		ret_rate = MPT_RATE_VHT4SS_MCS8;
++		break;
++	case DESC_RATEVHTSS4MCS9:
++		ret_rate = MPT_RATE_VHT4SS_MCS9;
++		break;
++
++	default:
++		RTW_INFO("HwRateToMRate(): Non supported Rate [%x]!!!\n", rate);
++		break;
++	}
++	return ret_rate;
++}
++
++u8 rtw_mpRateParseFunc(PADAPTER pAdapter, u8 *targetStr)
++{
++	u16 i = 0;
++	u8 *rateindex_Array[] = { "1M", "2M", "5.5M", "11M", "6M", "9M", "12M", "18M", "24M", "36M", "48M", "54M",
++		"HTMCS0", "HTMCS1", "HTMCS2", "HTMCS3", "HTMCS4", "HTMCS5", "HTMCS6", "HTMCS7",
++		"HTMCS8", "HTMCS9", "HTMCS10", "HTMCS11", "HTMCS12", "HTMCS13", "HTMCS14", "HTMCS15",
++		"HTMCS16", "HTMCS17", "HTMCS18", "HTMCS19", "HTMCS20", "HTMCS21", "HTMCS22", "HTMCS23",
++		"HTMCS24", "HTMCS25", "HTMCS26", "HTMCS27", "HTMCS28", "HTMCS29", "HTMCS30", "HTMCS31",
++		"VHT1MCS0", "VHT1MCS1", "VHT1MCS2", "VHT1MCS3", "VHT1MCS4", "VHT1MCS5", "VHT1MCS6", "VHT1MCS7", "VHT1MCS8", "VHT1MCS9",
++		"VHT2MCS0", "VHT2MCS1", "VHT2MCS2", "VHT2MCS3", "VHT2MCS4", "VHT2MCS5", "VHT2MCS6", "VHT2MCS7", "VHT2MCS8", "VHT2MCS9",
++		"VHT3MCS0", "VHT3MCS1", "VHT3MCS2", "VHT3MCS3", "VHT3MCS4", "VHT3MCS5", "VHT3MCS6", "VHT3MCS7", "VHT3MCS8", "VHT3MCS9",
++		"VHT4MCS0", "VHT4MCS1", "VHT4MCS2", "VHT4MCS3", "VHT4MCS4", "VHT4MCS5", "VHT4MCS6", "VHT4MCS7", "VHT4MCS8", "VHT4MCS9"
++				};
++
++	for (i = 0; i <= 83; i++) {
++		if (strcmp(targetStr, rateindex_Array[i]) == 0) {
++			RTW_INFO("%s , index = %d\n", __func__ , i);
++			return i;
++		}
++	}
++
++	printk("%s ,please input a Data RATE String as:", __func__);
++	for (i = 0; i <= 83; i++) {
++		printk("%s ", rateindex_Array[i]);
++		if (i % 10 == 0)
++			printk("\n");
++	}
++	return _FAIL;
++}
++
++ULONG mpt_ProQueryCalTxPower(
++	PADAPTER	pAdapter,
++	u8		RfPath
++)
++{
++
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT		pMptCtx = &(pAdapter->mppriv.MptCtx);
++
++	ULONG			TxPower = 1;
++	u1Byte			rate = 0;
++	struct txpwr_idx_comp tic;
++	u8 mgn_rate = MptToMgntRate(pMptCtx->MptRateIndex);
++
++	TxPower = rtw_hal_get_tx_power_index(pAdapter, RfPath, mgn_rate, pHalData->CurrentChannelBW, pHalData->CurrentChannel, &tic);
++
++	RTW_INFO("bw=%d, ch=%d, rate=%d, txPower:%u = %u + (%d=%d:%d) + (%d) + (%d)\n",
++		pHalData->CurrentChannelBW, pHalData->CurrentChannel, mgn_rate
++		, TxPower, tic.base, (tic.by_rate > tic.limit ? tic.limit : tic.by_rate), tic.by_rate, tic.limit, tic.tpt, tic.ebias);
++
++	pAdapter->mppriv.txpoweridx = (u8)TxPower;
++	pMptCtx->TxPwrLevel[ODM_RF_PATH_A] = (u8)TxPower;
++	pMptCtx->TxPwrLevel[ODM_RF_PATH_B] = (u8)TxPower;
++	pMptCtx->TxPwrLevel[ODM_RF_PATH_C] = (u8)TxPower;
++	pMptCtx->TxPwrLevel[ODM_RF_PATH_D]  = (u8)TxPower;
++	hal_mpt_SetTxPower(pAdapter);
++
++	return TxPower;
++}
++
++#ifdef CONFIG_MP_VHT_HW_TX_MODE
++static inline void dump_buf(u8 *buf, u32 len)
++{
++	u32 i;
++
++	RTW_INFO("-----------------Len %d----------------\n", len);
++	for (i = 0; i < len; i++)
++		RTW_INFO("%2.2x-", *(buf + i));
++	RTW_INFO("\n");
++}
++
++void ByteToBit(
++	UCHAR	*out,
++	bool	*in,
++	UCHAR	in_size)
++{
++	UCHAR i = 0, j = 0;
++
++	for (i = 0; i < in_size; i++) {
++		for (j = 0; j < 8; j++) {
++			if (in[8 * i + j])
++				out[i] |= (1 << j);
++		}
++	}
++}
++
++
++void CRC16_generator(
++	bool *out,
++	bool *in,
++	UCHAR in_size
++)
++{
++	UCHAR i = 0;
++	bool temp = 0, reg[] = {1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1};
++
++	for (i = 0; i < in_size; i++) {/* take one's complement and bit reverse*/
++		temp = in[i] ^ reg[15];
++		reg[15]	= reg[14];
++		reg[14]	= reg[13];
++		reg[13]	= reg[12];
++		reg[12]	= reg[11];
++		reg[11]	= reg[10];
++		reg[10]	= reg[9];
++		reg[9]	= reg[8];
++		reg[8]	= reg[7];
++
++		reg[7]	= reg[6];
++		reg[6]	= reg[5];
++		reg[5]	= reg[4];
++		reg[4]	= reg[3];
++		reg[3]	= reg[2];
++		reg[2]	= reg[1];
++		reg[1]	= reg[0];
++		reg[12]	= reg[12] ^ temp;
++		reg[5]	= reg[5] ^ temp;
++		reg[0]	= temp;
++	}
++	for (i = 0; i < 16; i++)	/* take one's complement and bit reverse*/
++		out[i] = 1 - reg[15 - i];
++}
++
++
++
++/*========================================
++	SFD		SIGNAL	SERVICE	LENGTH	CRC
++	16 bit	8 bit	8 bit	16 bit	16 bit
++========================================*/
++void CCK_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo
++)
++{
++	double	ratio = 0;
++	bool	crc16_in[32] = {0}, crc16_out[16] = {0};
++	bool LengthExtBit;
++	double LengthExact;
++	double LengthPSDU;
++	UCHAR i;
++	UINT PacketLength = pPMacTxInfo->PacketLength;
++
++	if (pPMacTxInfo->bSPreamble)
++		pPMacTxInfo->SFD = 0x05CF;
++	else
++		pPMacTxInfo->SFD = 0xF3A0;
++
++	switch (pPMacPktInfo->MCS) {
++	case 0:
++		pPMacTxInfo->SignalField = 0xA;
++		ratio = 8;
++		/*CRC16_in(1,0:7)=[0 1 0 1 0 0 0 0]*/
++		crc16_in[1] = crc16_in[3] = 1;
++		break;
++	case 1:
++		pPMacTxInfo->SignalField = 0x14;
++		ratio = 4;
++		/*CRC16_in(1,0:7)=[0 0 1 0 1 0 0 0];*/
++		crc16_in[2] = crc16_in[4] = 1;
++		break;
++	case 2:
++		pPMacTxInfo->SignalField = 0x37;
++		ratio = 8.0 / 5.5;
++		/*CRC16_in(1,0:7)=[1 1 1 0 1 1 0 0];*/
++		crc16_in[0] = crc16_in[1] = crc16_in[2] = crc16_in[4] = crc16_in[5] = 1;
++		break;
++	case 3:
++		pPMacTxInfo->SignalField = 0x6E;
++		ratio = 8.0 / 11.0;
++		/*CRC16_in(1,0:7)=[0 1 1 1 0 1 1 0];*/
++		crc16_in[1] = crc16_in[2] = crc16_in[3] = crc16_in[5] = crc16_in[6] = 1;
++		break;
++	}
++
++	LengthExact = PacketLength * ratio;
++	LengthPSDU = ceil(LengthExact);
++
++	if ((pPMacPktInfo->MCS == 3) &&
++	    ((LengthPSDU - LengthExact) >= 0.727 || (LengthPSDU - LengthExact) <= -0.727))
++		LengthExtBit = 1;
++	else
++		LengthExtBit = 0;
++
++
++	pPMacTxInfo->LENGTH = (UINT)LengthPSDU;
++	/* CRC16_in(1,16:31) = LengthPSDU[0:15]*/
++	for (i = 0; i < 16; i++)
++		crc16_in[i + 16] = (pPMacTxInfo->LENGTH >> i) & 0x1;
++
++	if (LengthExtBit == 0) {
++		pPMacTxInfo->ServiceField = 0x0;
++		/* CRC16_in(1,8:15) = [0 0 0 0 0 0 0 0];*/
++	} else {
++		pPMacTxInfo->ServiceField = 0x80;
++		/*CRC16_in(1,8:15)=[0 0 0 0 0 0 0 1];*/
++		crc16_in[15] = 1;
++	}
++
++	CRC16_generator(crc16_out, crc16_in, 32);
++
++	_rtw_memset(pPMacTxInfo->CRC16, 0, 2);
++	ByteToBit(pPMacTxInfo->CRC16, crc16_out, 2);
++
++}
++
++
++void PMAC_Get_Pkt_Param(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo)
++{
++
++	UCHAR		TX_RATE_HEX = 0, MCS = 0;
++	UCHAR		TX_RATE = pPMacTxInfo->TX_RATE;
++
++	/*	TX_RATE & Nss	*/
++	if (MPT_IS_2SS_RATE(TX_RATE))
++		pPMacPktInfo->Nss = 2;
++	else if (MPT_IS_3SS_RATE(TX_RATE))
++		pPMacPktInfo->Nss = 3;
++	else if (MPT_IS_4SS_RATE(TX_RATE))
++		pPMacPktInfo->Nss = 4;
++	else
++		pPMacPktInfo->Nss = 1;
++
++	RTW_INFO("PMacTxInfo.Nss =%d\n", pPMacPktInfo->Nss);
++
++	/*	MCS & TX_RATE_HEX*/
++	if (MPT_IS_CCK_RATE(TX_RATE)) {
++		switch (TX_RATE) {
++		case MPT_RATE_1M:
++			TX_RATE_HEX = MCS = 0;
++			break;
++		case MPT_RATE_2M:
++			TX_RATE_HEX = MCS = 1;
++			break;
++		case MPT_RATE_55M:
++			TX_RATE_HEX = MCS = 2;
++			break;
++		case MPT_RATE_11M:
++			TX_RATE_HEX = MCS = 3;
++			break;
++		}
++	} else if (MPT_IS_OFDM_RATE(TX_RATE)) {
++		MCS = TX_RATE - MPT_RATE_6M;
++		TX_RATE_HEX = MCS + 4;
++	} else if (MPT_IS_HT_RATE(TX_RATE)) {
++		MCS = TX_RATE - MPT_RATE_MCS0;
++		TX_RATE_HEX = MCS + 12;
++	} else if (MPT_IS_VHT_RATE(TX_RATE)) {
++		TX_RATE_HEX = TX_RATE - MPT_RATE_VHT1SS_MCS0 + 44;
++
++		if (MPT_IS_VHT_2S_RATE(TX_RATE))
++			MCS = TX_RATE - MPT_RATE_VHT2SS_MCS0;
++		else if (MPT_IS_VHT_3S_RATE(TX_RATE))
++			MCS = TX_RATE - MPT_RATE_VHT3SS_MCS0;
++		else if (MPT_IS_VHT_4S_RATE(TX_RATE))
++			MCS = TX_RATE - MPT_RATE_VHT4SS_MCS0;
++		else
++			MCS = TX_RATE - MPT_RATE_VHT1SS_MCS0;
++	}
++
++	pPMacPktInfo->MCS = MCS;
++	pPMacTxInfo->TX_RATE_HEX = TX_RATE_HEX;
++
++	RTW_INFO(" MCS=%d, TX_RATE_HEX =0x%x\n", MCS, pPMacTxInfo->TX_RATE_HEX);
++	/*	mSTBC & Nsts*/
++	pPMacPktInfo->Nsts = pPMacPktInfo->Nss;
++	if (pPMacTxInfo->bSTBC) {
++		if (pPMacPktInfo->Nss == 1) {
++			pPMacTxInfo->m_STBC = 2;
++			pPMacPktInfo->Nsts = pPMacPktInfo->Nss * 2;
++		} else
++			pPMacTxInfo->m_STBC = 1;
++	} else
++		pPMacTxInfo->m_STBC = 1;
++}
++
++
++UINT LDPC_parameter_generator(
++	UINT N_pld_int,
++	UINT N_CBPSS,
++	UINT N_SS,
++	UINT R,
++	UINT m_STBC,
++	UINT N_TCB_int
++)
++{
++	double	CR = 0.;
++	double	N_pld = (double)N_pld_int;
++	double	N_TCB = (double)N_TCB_int;
++	double	N_CW = 0., N_shrt = 0., N_spcw = 0., N_fshrt = 0.;
++	double	L_LDPC = 0., K_LDPC = 0., L_LDPC_info = 0.;
++	double	N_punc = 0., N_ppcw = 0., N_fpunc = 0., N_rep = 0., N_rpcw = 0., N_frep = 0.;
++	double	R_eff = 0.;
++	UINT	VHTSIGA2B3  = 0;/* extra symbol from VHT-SIG-A2 Bit 3*/
++
++	if (R == 0)
++		CR	= 0.5;
++	else if (R == 1)
++		CR = 2. / 3.;
++	else if (R == 2)
++		CR = 3. / 4.;
++	else if (R == 3)
++		CR = 5. / 6.;
++
++	if (N_TCB <= 648.) {
++		N_CW	= 1.;
++		if (N_TCB >= N_pld + 912.*(1. - CR))
++			L_LDPC	= 1296.;
++		else
++			L_LDPC	= 648.;
++	} else if (N_TCB <= 1296.) {
++		N_CW	= 1.;
++		if (N_TCB >= (double)N_pld + 1464.*(1. - CR))
++			L_LDPC	= 1944.;
++		else
++			L_LDPC	= 1296.;
++	} else if	(N_TCB <= 1944.) {
++		N_CW	= 1.;
++		L_LDPC	= 1944.;
++	} else if (N_TCB <= 2592.) {
++		N_CW	= 2.;
++		if (N_TCB >= N_pld + 2916.*(1. - CR))
++			L_LDPC	= 1944.;
++		else
++			L_LDPC	= 1296.;
++	} else {
++		N_CW = ceil(N_pld / 1944. / CR);
++		L_LDPC	= 1944.;
++	}
++	/*	Number of information bits per CW*/
++	K_LDPC = L_LDPC * CR;
++	/*	Number of shortening bits					max(0, (N_CW * L_LDPC * R) - N_pld)*/
++	N_shrt = (N_CW * K_LDPC - N_pld) > 0. ? (N_CW * K_LDPC - N_pld) : 0.;
++	/*	Number of shortening bits per CW			N_spcw = rtfloor(N_shrt/N_CW)*/
++	N_spcw = rtfloor(N_shrt / N_CW);
++	/*	The first N_fshrt CWs shorten 1 bit more*/
++	N_fshrt = (double)((int)N_shrt % (int)N_CW);
++	/*	Number of data bits for the last N_CW-N_fshrt CWs*/
++	L_LDPC_info = K_LDPC - N_spcw;
++	/*	Number of puncturing bits*/
++	N_punc = (N_CW * L_LDPC - N_TCB - N_shrt) > 0. ? (N_CW * L_LDPC - N_TCB - N_shrt) : 0.;
++	if (((N_punc > .1 * N_CW * L_LDPC * (1. - CR)) && (N_shrt < 1.2 * N_punc * CR / (1. - CR))) ||
++	    (N_punc > 0.3 * N_CW * L_LDPC * (1. - CR))) {
++		/*cout << "*** N_TCB and N_punc are Recomputed ***" << endl;*/
++		VHTSIGA2B3 = 1;
++		N_TCB += (double)N_CBPSS * N_SS * m_STBC;
++		N_punc = (N_CW * L_LDPC - N_TCB - N_shrt) > 0. ? (N_CW * L_LDPC - N_TCB - N_shrt) : 0.;
++	} else
++		VHTSIGA2B3 = 0;
++
++	return VHTSIGA2B3;
++}	/* function end of LDPC_parameter_generator */
++
++/*========================================
++	Data field of PPDU
++	Get N_sym and SIGA2BB3
++========================================*/
++void PMAC_Nsym_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo)
++{
++	UINT	SIGA2B3 = 0;
++	UCHAR	TX_RATE = pPMacTxInfo->TX_RATE;
++
++	UINT R, R_list[10] = {0, 0, 2, 0, 2, 1, 2, 3, 2, 3};
++	double CR = 0;
++	UINT N_SD, N_BPSC_list[10] = {1, 2, 2, 4, 4, 6, 6, 6, 8, 8};
++	UINT N_BPSC = 0, N_CBPS = 0, N_DBPS = 0, N_ES = 0, N_SYM = 0, N_pld = 0, N_TCB = 0;
++	int D_R = 0;
++
++	RTW_INFO("TX_RATE = %d\n", TX_RATE);
++	/*	N_SD*/
++	if (pPMacTxInfo->BandWidth == 0)
++		N_SD = 52;
++	else if (pPMacTxInfo->BandWidth == 1)
++		N_SD = 108;
++	else
++		N_SD = 234;
++
++	if (MPT_IS_HT_RATE(TX_RATE)) {
++		UCHAR MCS_temp;
++
++		if (pPMacPktInfo->MCS > 23)
++			MCS_temp = pPMacPktInfo->MCS - 24;
++		else if (pPMacPktInfo->MCS > 15)
++			MCS_temp = pPMacPktInfo->MCS - 16;
++		else if (pPMacPktInfo->MCS > 7)
++			MCS_temp = pPMacPktInfo->MCS - 8;
++		else
++			MCS_temp = pPMacPktInfo->MCS;
++
++		R = R_list[MCS_temp];
++
++		switch (R) {
++		case 0:
++			CR = .5;
++			break;
++		case 1:
++			CR = 2. / 3.;
++			break;
++		case 2:
++			CR = 3. / 4.;
++			break;
++		case 3:
++			CR = 5. / 6.;
++			break;
++		}
++
++		N_BPSC = N_BPSC_list[MCS_temp];
++		N_CBPS = N_BPSC * N_SD * pPMacPktInfo->Nss;
++		N_DBPS = (UINT)((double)N_CBPS * CR);
++
++		if (pPMacTxInfo->bLDPC == FALSE) {
++			N_ES = (UINT)ceil((double)(N_DBPS * pPMacPktInfo->Nss) / 4. / 300.);
++			RTW_INFO("N_ES = %d\n", N_ES);
++
++			/*	N_SYM = m_STBC* (8*length+16+6*N_ES) / (m_STBC*N_DBPS)*/
++			N_SYM = pPMacTxInfo->m_STBC * (UINT)ceil((double)(pPMacTxInfo->PacketLength * 8 + 16 + N_ES * 6) /
++					(double)(N_DBPS * pPMacTxInfo->m_STBC));
++
++		} else {
++			N_ES = 1;
++			/*	N_pld = length * 8 + 16*/
++			N_pld = pPMacTxInfo->PacketLength * 8 + 16;
++			RTW_INFO("N_pld = %d\n", N_pld);
++			N_SYM = pPMacTxInfo->m_STBC * (UINT)ceil((double)(N_pld) /
++					(double)(N_DBPS * pPMacTxInfo->m_STBC));
++			RTW_INFO("N_SYM = %d\n", N_SYM);
++			/*	N_avbits = N_CBPS *m_STBC *(N_pld/N_CBPS*R*m_STBC)*/
++			N_TCB = N_CBPS * N_SYM;
++			RTW_INFO("N_TCB = %d\n", N_TCB);
++			SIGA2B3 = LDPC_parameter_generator(N_pld, N_CBPS, pPMacPktInfo->Nss, R, pPMacTxInfo->m_STBC, N_TCB);
++			RTW_INFO("SIGA2B3 = %d\n", SIGA2B3);
++			N_SYM = N_SYM + SIGA2B3 * pPMacTxInfo->m_STBC;
++			RTW_INFO("N_SYM = %d\n", N_SYM);
++		}
++	} else if (MPT_IS_VHT_RATE(TX_RATE)) {
++		R = R_list[pPMacPktInfo->MCS];
++
++		switch (R) {
++		case 0:
++			CR = .5;
++			break;
++		case 1:
++			CR = 2. / 3.;
++			break;
++		case 2:
++			CR = 3. / 4.;
++			break;
++		case 3:
++			CR = 5. / 6.;
++			break;
++		}
++		N_BPSC = N_BPSC_list[pPMacPktInfo->MCS];
++		N_CBPS = N_BPSC * N_SD * pPMacPktInfo->Nss;
++		N_DBPS = (UINT)((double)N_CBPS * CR);
++		if (pPMacTxInfo->bLDPC == FALSE) {
++			if (pPMacTxInfo->bSGI)
++				N_ES = (UINT)ceil((double)(N_DBPS) / 3.6 / 600.);
++			else
++				N_ES = (UINT)ceil((double)(N_DBPS) / 4. / 600.);
++			/*	N_SYM = m_STBC* (8*length+16+6*N_ES) / (m_STBC*N_DBPS)*/
++			N_SYM = pPMacTxInfo->m_STBC * (UINT)ceil((double)(pPMacTxInfo->PacketLength * 8 + 16 + N_ES * 6) / (double)(N_DBPS * pPMacTxInfo->m_STBC));
++			SIGA2B3 = 0;
++		} else {
++			N_ES = 1;
++			/*	N_SYM = m_STBC* (8*length+N_service) / (m_STBC*N_DBPS)*/
++			N_SYM = pPMacTxInfo->m_STBC * (UINT)ceil((double)(pPMacTxInfo->PacketLength * 8 + 16) / (double)(N_DBPS * pPMacTxInfo->m_STBC));
++			/*	N_avbits = N_sys_init * N_CBPS*/
++			N_TCB = N_CBPS * N_SYM;
++			/*	N_pld = N_sys_init * N_DBPS*/
++			N_pld = N_SYM * N_DBPS;
++			SIGA2B3 = LDPC_parameter_generator(N_pld, N_CBPS, pPMacPktInfo->Nss, R, pPMacTxInfo->m_STBC, N_TCB);
++			N_SYM = N_SYM + SIGA2B3 * pPMacTxInfo->m_STBC;
++		}
++
++		switch (R) {
++		case 0:
++			D_R = 2;
++			break;
++		case 1:
++			D_R = 3;
++			break;
++		case 2:
++			D_R = 4;
++			break;
++		case 3:
++			D_R = 6;
++			break;
++		}
++
++		if (((N_CBPS / N_ES) % D_R) != 0) {
++			RTW_INFO("MCS= %d is not supported when Nss=%d and BW= %d !!\n",  pPMacPktInfo->MCS, pPMacPktInfo->Nss, pPMacTxInfo->BandWidth);
++			return;
++		}
++
++		RTW_INFO("MCS= %d Nss=%d and BW= %d !!\n",  pPMacPktInfo->MCS, pPMacPktInfo->Nss, pPMacTxInfo->BandWidth);
++	}
++
++	pPMacPktInfo->N_sym = N_SYM;
++	pPMacPktInfo->SIGA2B3 = SIGA2B3;
++}
++
++/*========================================
++	L-SIG	Rate	R	Length	P	Tail
++			4b		1b	12b		1b	6b
++========================================*/
++
++void L_SIG_generator(
++	UINT	N_SYM,		/* Max: 750*/
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo)
++{
++	u8	sig_bi[24] = {0};	/* 24 BIT*/
++	UINT	mode, LENGTH;
++	int i;
++
++	if (MPT_IS_OFDM_RATE(pPMacTxInfo->TX_RATE)) {
++		mode = pPMacPktInfo->MCS;
++		LENGTH = pPMacTxInfo->PacketLength;
++	} else {
++		UCHAR	N_LTF;
++		double	T_data;
++		UINT	OFDM_symbol;
++
++		mode = 0;
++
++		/*	Table 20-13 Num of HT-DLTFs request*/
++		if (pPMacPktInfo->Nsts <= 2)
++			N_LTF = pPMacPktInfo->Nsts;
++		else
++			N_LTF = 4;
++
++		if (pPMacTxInfo->bSGI)
++			T_data = 3.6;
++		else
++			T_data = 4.0;
++
++		/*(L-SIG, HT-SIG, HT-STF, HT-LTF....HT-LTF, Data)*/
++		if (MPT_IS_VHT_RATE(pPMacTxInfo->TX_RATE))
++			OFDM_symbol = (UINT)ceil((double)(8 + 4 + N_LTF * 4 + N_SYM * T_data + 4) / 4.);
++		else
++			OFDM_symbol = (UINT)ceil((double)(8 + 4 + N_LTF * 4 + N_SYM * T_data) / 4.);
++
++		RTW_INFO("%s , OFDM_symbol =%d\n", __func__, OFDM_symbol);
++		LENGTH = OFDM_symbol * 3 - 3;
++		RTW_INFO("%s , LENGTH =%d\n", __func__, LENGTH);
++
++	}
++	/*	Rate Field*/
++	switch (mode) {
++	case	0:
++		sig_bi[0] = 1;
++		sig_bi[1] = 1;
++		sig_bi[2] = 0;
++		sig_bi[3] = 1;
++		break;
++	case	1:
++		sig_bi[0] = 1;
++		sig_bi[1] = 1;
++		sig_bi[2] = 1;
++		sig_bi[3] = 1;
++		break;
++	case	2:
++		sig_bi[0] = 0;
++		sig_bi[1] = 1;
++		sig_bi[2] = 0;
++		sig_bi[3] = 1;
++		break;
++	case	3:
++		sig_bi[0] = 0;
++		sig_bi[1] = 1;
++		sig_bi[2] = 1;
++		sig_bi[3] = 1;
++		break;
++	case	4:
++		sig_bi[0] = 1;
++		sig_bi[1] = 0;
++		sig_bi[2] = 0;
++		sig_bi[3] = 1;
++		break;
++	case	5:
++		sig_bi[0] = 1;
++		sig_bi[1] = 0;
++		sig_bi[2] = 1;
++		sig_bi[3] = 1;
++		break;
++	case	6:
++		sig_bi[0] = 0;
++		sig_bi[1] = 0;
++		sig_bi[2] = 0;
++		sig_bi[3] = 1;
++		break;
++	case	7:
++		sig_bi[0] = 0;
++		sig_bi[1] = 0;
++		sig_bi[2] = 1;
++		sig_bi[3] = 1;
++		break;
++	}
++	/*Reserved bit*/
++	sig_bi[4] = 0;
++
++	/*	Length Field*/
++	for (i = 0; i < 12; i++)
++		sig_bi[i + 5] = (LENGTH >> i) & 1;
++
++	/* Parity Bit*/
++	sig_bi[17] = 0;
++	for (i = 0; i < 17; i++)
++		sig_bi[17] = sig_bi[17] + sig_bi[i];
++
++	sig_bi[17] %= 2;
++
++	/*	Tail Field*/
++	for (i = 18; i < 24; i++)
++		sig_bi[i] = 0;
++
++	/* dump_buf(sig_bi,24);*/
++	_rtw_memset(pPMacTxInfo->LSIG, 0, 3);
++	ByteToBit(pPMacTxInfo->LSIG, (bool *)sig_bi, 3);
++}
++
++
++void CRC8_generator(
++	bool	*out,
++	bool	*in,
++	UCHAR	in_size
++)
++{
++	UCHAR i = 0;
++	bool temp = 0, reg[] = {1, 1, 1, 1, 1, 1, 1, 1};
++
++	for (i = 0; i < in_size; i++) { /* take one's complement and bit reverse*/
++		temp = in[i] ^ reg[7];
++		reg[7]	= reg[6];
++		reg[6]	= reg[5];
++		reg[5]	= reg[4];
++		reg[4]	= reg[3];
++		reg[3]	= reg[2];
++		reg[2]	= reg[1] ^ temp;
++		reg[1]	= reg[0] ^ temp;
++		reg[0]	= temp;
++	}
++	for (i = 0; i < 8; i++)/* take one's complement and bit reverse*/
++		out[i] = reg[7 - i] ^ 1;
++}
++
++/*/================================================================================
++	HT-SIG1	MCS	CW	Length		24BIT + 24BIT
++			7b	1b	16b
++	HT-SIG2	Smoothing	Not sounding	Rsvd		AGG	STBC	FEC	SGI	N_ELTF	CRC	Tail
++			1b			1b			1b		1b	2b		1b	1b	2b		8b	6b
++================================================================================*/
++void HT_SIG_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo
++)
++{
++	UINT i;
++	bool sig_bi[48] = {0}, crc8[8] = {0};
++	/*	MCS Field*/
++	for (i = 0; i < 7; i++)
++		sig_bi[i] = (pPMacPktInfo->MCS >> i) & 0x1;
++	/*	Packet BW Setting*/
++	sig_bi[7] = pPMacTxInfo->BandWidth;
++	/*	HT-Length Field*/
++	for (i = 0; i < 16; i++)
++		sig_bi[i + 8] = (pPMacTxInfo->PacketLength >> i) & 0x1;
++	/*	Smoothing;	1->allow smoothing*/
++	sig_bi[24] = 1;
++	/*Not Sounding*/
++	sig_bi[25] = 1 - pPMacTxInfo->NDP_sound;
++	/*Reserved bit*/
++	sig_bi[26] = 1;
++	/*/Aggregate*/
++	sig_bi[27] = 0;
++	/*STBC Field*/
++	if (pPMacTxInfo->bSTBC) {
++		sig_bi[28] = 1;
++		sig_bi[29] = 0;
++	} else {
++		sig_bi[28] = 0;
++		sig_bi[29] = 0;
++	}
++	/*Advance Coding,	0: BCC, 1: LDPC*/
++	sig_bi[30] = pPMacTxInfo->bLDPC;
++	/* Short GI*/
++	sig_bi[31] = pPMacTxInfo->bSGI;
++	/* N_ELTFs*/
++	if (pPMacTxInfo->NDP_sound == FALSE) {
++		sig_bi[32]	= 0;
++		sig_bi[33]	= 0;
++	} else {
++		int	N_ELTF = pPMacTxInfo->Ntx - pPMacPktInfo->Nss;
++
++		for (i = 0; i < 2; i++)
++			sig_bi[32 + i] = (N_ELTF >> i) % 2;
++	}
++	/*	CRC-8*/
++	CRC8_generator(crc8, sig_bi, 34);
++
++	for (i = 0; i < 8; i++)
++		sig_bi[34 + i] = crc8[i];
++
++	/*Tail*/
++	for (i = 42; i < 48; i++)
++		sig_bi[i] = 0;
++
++	_rtw_memset(pPMacTxInfo->HT_SIG, 0, 6);
++	ByteToBit(pPMacTxInfo->HT_SIG, sig_bi, 6);
++}
++
++
++/*======================================================================================
++	VHT-SIG-A1
++	BW	Reserved	STBC	G_ID	SU_Nsts	P_AID	TXOP_PS_NOT_ALLOW	Reserved
++	2b	1b			1b		6b	3b	9b		1b		2b					1b
++	VHT-SIG-A2
++	SGI	SGI_Nsym	SU/MU coding	LDPC_Extra	SU_NCS	Beamformed	Reserved	CRC	Tail
++	1b	1b			1b				1b			4b		1b			1b			8b	6b
++======================================================================================*/
++void VHT_SIG_A_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo)
++{
++	UINT i;
++	bool sig_bi[48], crc8[8];
++
++	_rtw_memset(sig_bi, 0, 48);
++	_rtw_memset(crc8, 0, 8);
++
++	/*	BW Setting*/
++	for (i = 0; i < 2; i++)
++		sig_bi[i] = (pPMacTxInfo->BandWidth >> i) & 0x1;
++	/* Reserved Bit*/
++	sig_bi[2] = 1;
++	/*STBC Field*/
++	sig_bi[3] = pPMacTxInfo->bSTBC;
++	/*Group ID: Single User->A value of 0 or 63 indicates an SU PPDU. */
++	for (i = 0; i < 6; i++)
++		sig_bi[4 + i] = 0;
++	/*	N_STS/Partial AID*/
++	for (i = 0; i < 12; i++) {
++		if (i < 3)
++			sig_bi[10 + i] = ((pPMacPktInfo->Nsts - 1) >> i) & 0x1;
++		else
++			sig_bi[10 + i] = 0;
++	}
++	/*TXOP_PS_NOT_ALLPWED*/
++	sig_bi[22]	= 0;
++	/*Reserved Bits*/
++	sig_bi[23]	= 1;
++	/*Short GI*/
++	sig_bi[24] = pPMacTxInfo->bSGI;
++	if (pPMacTxInfo->bSGI > 0 && (pPMacPktInfo->N_sym % 10) == 9)
++		sig_bi[25] = 1;
++	else
++		sig_bi[25] = 0;
++	/* SU/MU[0] Coding*/
++	sig_bi[26] = pPMacTxInfo->bLDPC;	/*	0:BCC, 1:LDPC		*/
++	sig_bi[27] = pPMacPktInfo->SIGA2B3;	/*/	Record Extra OFDM Symols is added or not when LDPC is used*/
++	/*SU MCS/MU[1-3] Coding*/
++	for (i = 0; i < 4; i++)
++		sig_bi[28 + i] = (pPMacPktInfo->MCS >> i) & 0x1;
++	/*SU Beamform */
++	sig_bi[32] = 0;	/*packet.TXBF_en;*/
++	/*Reserved Bit*/
++	sig_bi[33] = 1;
++	/*CRC-8*/
++	CRC8_generator(crc8, sig_bi, 34);
++	for (i = 0; i < 8; i++)
++		sig_bi[34 + i]	= crc8[i];
++	/*Tail*/
++	for (i = 42; i < 48; i++)
++		sig_bi[i] = 0;
++
++	_rtw_memset(pPMacTxInfo->VHT_SIG_A, 0, 6);
++	ByteToBit(pPMacTxInfo->VHT_SIG_A, sig_bi, 6);
++}
++
++/*======================================================================================
++	VHT-SIG-B
++	Length				Resesrved	Trail
++	17/19/21 BIT		3/2/2 BIT	6b
++======================================================================================*/
++void VHT_SIG_B_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo)
++{
++	bool sig_bi[32], crc8_bi[8];
++	UINT i, len, res, tail = 6, total_len, crc8_in_len;
++	UINT sigb_len;
++
++	_rtw_memset(sig_bi, 0, 32);
++	_rtw_memset(crc8_bi, 0, 8);
++
++	/*Sounding Packet*/
++	if (pPMacTxInfo->NDP_sound == 1) {
++		if (pPMacTxInfo->BandWidth == 0) {
++			bool sigb_temp[26] = {0, 0, 0, 0, 0, 1, 1, 1, 0, 1, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0};
++
++			_rtw_memcpy(sig_bi, sigb_temp, 26);
++		} else if (pPMacTxInfo->BandWidth == 1) {
++			bool sigb_temp[27] = {1, 0, 1, 0, 0, 1, 0, 1, 1, 0, 1, 0, 0, 0, 1, 0, 0, 0, 0, 1, 1, 0, 0, 0, 0, 0, 0};
++
++			_rtw_memcpy(sig_bi, sigb_temp, 27);
++		} else if (pPMacTxInfo->BandWidth == 2) {
++			bool sigb_temp[29] = {0, 1, 0, 1, 0, 0, 1, 1, 0, 0, 1, 0, 1, 1, 1, 1, 1, 1, 1, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0};
++
++			_rtw_memcpy(sig_bi, sigb_temp, 29);
++		}
++	} else {	/* Not NDP Sounding*/
++		bool *sigb_temp[29] = {0};
++
++		if (pPMacTxInfo->BandWidth == 0) {
++			len = 17;
++			res = 3;
++		} else if (pPMacTxInfo->BandWidth == 1) {
++			len = 19;
++			res = 2;
++		} else if (pPMacTxInfo->BandWidth == 2) {
++			len	= 21;
++			res	= 2;
++		} else {
++			len	= 21;
++			res	= 2;
++		}
++		total_len = len + res + tail;
++		crc8_in_len = len + res;
++
++		/*Length Field*/
++		sigb_len = (pPMacTxInfo->PacketLength + 3) >> 2;
++
++		for (i = 0; i < len; i++)
++			sig_bi[i] = (sigb_len >> i) & 0x1;
++		/*Reserved Field*/
++		for (i = 0; i < res; i++)
++			sig_bi[len + i] = 1;
++		/* CRC-8*/
++		CRC8_generator(crc8_bi, sig_bi, crc8_in_len);
++
++		/* Tail */
++		for (i = 0; i < tail; i++)
++			sig_bi[len + res + i] = 0;
++	}
++
++	_rtw_memset(pPMacTxInfo->VHT_SIG_B, 0, 4);
++	ByteToBit(pPMacTxInfo->VHT_SIG_B, sig_bi, 4);
++
++	pPMacTxInfo->VHT_SIG_B_CRC = 0;
++	ByteToBit(&(pPMacTxInfo->VHT_SIG_B_CRC), crc8_bi, 1);
++}
++
++/*=======================
++ VHT Delimiter
++=======================*/
++void VHT_Delimiter_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo
++)
++{
++	bool sig_bi[32] = {0}, crc8[8] = {0};
++	UINT crc8_in_len = 16;
++	UINT PacketLength = pPMacTxInfo->PacketLength;
++	int j;
++
++	/* Delimiter[0]: EOF*/
++	sig_bi[0] = 1;
++	/* Delimiter[1]: Reserved*/
++	sig_bi[1] = 0;
++	/* Delimiter[3:2]: MPDU Length High*/
++	sig_bi[2] = ((PacketLength - 4) >> 12) % 2;
++	sig_bi[3] = ((PacketLength - 4) >> 13) % 2;
++	/* Delimiter[15:4]: MPDU Length Low*/
++	for (j = 4; j < 16; j++)
++		sig_bi[j] = ((PacketLength - 4) >> (j - 4)) % 2;
++	CRC8_generator(crc8, sig_bi, crc8_in_len);
++	for (j = 16; j < 24; j++) /* Delimiter[23:16]: CRC 8*/
++		sig_bi[j] = crc8[j - 16];
++	for (j = 24; j < 32; j++) /* Delimiter[31:24]: Signature ('4E' in Hex, 78 in Dec)*/
++		sig_bi[j]	= (78 >> (j - 24)) % 2;
++
++	_rtw_memset(pPMacTxInfo->VHT_Delimiter, 0, 4);
++	ByteToBit(pPMacTxInfo->VHT_Delimiter, sig_bi, 4);
++}
++
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_mp_ioctl.c b/drivers/net/wireless/rtl8812au/core/rtw_mp_ioctl.c
+new file mode 100644
+index 0000000..ffeea1c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_mp_ioctl.c
+@@ -0,0 +1,2534 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_MP_IOCTL_C_
++
++#include <drv_types.h>
++#include <rtw_mp_ioctl.h>
++#include "../hal/phydm/phydm_precomp.h"
++
++/* ****************  oid_rtl_seg_81_85   section start **************** */
++NDIS_STATUS oid_rt_wireless_mode_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->information_buf_len < sizeof(u8))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	if (poid_par_priv->type_of_oid == SET_OID)
++		Adapter->registrypriv.wireless_mode = *(u8 *)poid_par_priv->information_buf;
++	else if (poid_par_priv->type_of_oid == QUERY_OID) {
++		*(u8 *)poid_par_priv->information_buf = Adapter->registrypriv.wireless_mode;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++
++	return status;
++}
++/* ****************  oid_rtl_seg_81_87_80   section start **************** */
++NDIS_STATUS oid_rt_pro_write_bb_reg_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL oldirql;
++#endif
++	struct bb_reg_param *pbbreg;
++	u16 offset;
++	u32 value;
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(struct bb_reg_param))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pbbreg = (struct bb_reg_param *)(poid_par_priv->information_buf);
++
++	offset = (u16)(pbbreg->offset) & 0xFFF; /* 0ffset :0x800~0xfff */
++	if (offset < BB_REG_BASE_ADDR)
++		offset |= BB_REG_BASE_ADDR;
++
++	value = pbbreg->value;
++
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	write_bbreg(Adapter, offset, 0xFFFFFFFF, value);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_read_bb_reg_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL oldirql;
++#endif
++	struct bb_reg_param *pbbreg;
++	u16 offset;
++	u32 value;
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(struct bb_reg_param))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pbbreg = (struct bb_reg_param *)(poid_par_priv->information_buf);
++
++	offset = (u16)(pbbreg->offset) & 0xFFF; /* 0ffset :0x800~0xfff */
++	if (offset < BB_REG_BASE_ADDR)
++		offset |= BB_REG_BASE_ADDR;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	value = read_bbreg(Adapter, offset, 0xFFFFFFFF);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	pbbreg->value = value;
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_write_rf_reg_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL oldirql;
++#endif
++	struct rf_reg_param *pbbreg;
++	u8 path;
++	u8 offset;
++	u32 value;
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(struct rf_reg_param))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pbbreg = (struct rf_reg_param *)(poid_par_priv->information_buf);
++
++	if (pbbreg->path >= MAX_RF_PATH_NUMS)
++		return NDIS_STATUS_NOT_ACCEPTED;
++	if (pbbreg->offset > 0xFF)
++		return NDIS_STATUS_NOT_ACCEPTED;
++	if (pbbreg->value > 0xFFFFF)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	path = (u8)pbbreg->path;
++	offset = (u8)pbbreg->offset;
++	value = pbbreg->value;
++
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	write_rfreg(Adapter, path, offset, value);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_read_rf_reg_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL oldirql;
++#endif
++	struct rf_reg_param *pbbreg;
++	u8 path;
++	u8 offset;
++	u32 value;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(struct rf_reg_param))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pbbreg = (struct rf_reg_param *)(poid_par_priv->information_buf);
++
++	if (pbbreg->path >= MAX_RF_PATH_NUMS)
++		return NDIS_STATUS_NOT_ACCEPTED;
++	if (pbbreg->offset > 0xFF)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	path = (u8)pbbreg->path;
++	offset = (u8)pbbreg->offset;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	value = read_rfreg(Adapter, path, offset);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	pbbreg->value = value;
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++
++	return status;
++}
++/* ****************  oid_rtl_seg_81_87_00   section end****************
++ * ------------------------------------------------------------------------------ */
++
++/* ****************  oid_rtl_seg_81_80_00   section start ****************
++ * ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_set_data_rate_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		ratevalue;/* 4 */
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len != sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	ratevalue = *((u32 *)poid_par_priv->information_buf); /* 4 */
++	if (ratevalue >= MPT_RATE_LAST)
++		return NDIS_STATUS_INVALID_DATA;
++
++	Adapter->mppriv.rateidx = ratevalue;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetDataRate(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_start_test_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		mode;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (Adapter->registrypriv.mp_mode == 0)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	/* IQCalibrateBcut(Adapter); */
++
++	mode = *((u32 *)poid_par_priv->information_buf);
++	Adapter->mppriv.mode = mode;/* 1 for loopback */
++
++	if (mp_start_test(Adapter) == _FAIL) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		goto exit;
++	}
++
++exit:
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_stop_test_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	mp_stop_test(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_set_channel_direct_call_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		Channel;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->information_buf_len != sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	if (poid_par_priv->type_of_oid == QUERY_OID) {
++		*((u32 *)poid_par_priv->information_buf) = Adapter->mppriv.channel;
++		return NDIS_STATUS_SUCCESS;
++	}
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	Channel = *((u32 *)poid_par_priv->information_buf);
++	if (Channel > 14)
++		return NDIS_STATUS_NOT_ACCEPTED;
++	Adapter->mppriv.channel = Channel;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetChannel(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_set_bandwidth_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u16		bandwidth;
++	u16		channel_offset;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	bandwidth = *((u32 *)poid_par_priv->information_buf); /* 4 */
++	channel_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++	if (bandwidth != CHANNEL_WIDTH_40)
++		bandwidth = CHANNEL_WIDTH_20;
++	padapter->mppriv.bandwidth = (u8)bandwidth;
++	padapter->mppriv.prime_channel_offset = (u8)channel_offset;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetBandwidth(padapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_set_antenna_bb_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		antenna;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->information_buf_len != sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	if (poid_par_priv->type_of_oid == SET_OID) {
++		antenna = *(u32 *)poid_par_priv->information_buf;
++
++		Adapter->mppriv.antenna_tx = (u16)((antenna & 0xFFFF0000) >> 16);
++		Adapter->mppriv.antenna_rx = (u16)(antenna & 0x0000FFFF);
++
++		_irqlevel_changed_(&oldirql, LOWER);
++		SetAntenna(Adapter);
++		_irqlevel_changed_(&oldirql, RAISE);
++	} else {
++		antenna = (Adapter->mppriv.antenna_tx << 16) | Adapter->mppriv.antenna_rx;
++		*(u32 *)poid_par_priv->information_buf = antenna;
++	}
++
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_pro_set_tx_power_control_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		tx_pwr_idx;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len != sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	tx_pwr_idx = *((u32 *)poid_par_priv->information_buf);
++	if (tx_pwr_idx > MAX_TX_PWR_INDEX_N_MODE)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	Adapter->mppriv.txpoweridx = (u8)tx_pwr_idx;
++
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetTxPower(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++
++/* ------------------------------------------------------------------------------
++ * ****************  oid_rtl_seg_81_80_20   section start ****************
++ * ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_query_tx_packet_sent_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	if (poid_par_priv->information_buf_len == sizeof(ULONG)) {
++		*(ULONG *)poid_par_priv->information_buf =  Adapter->mppriv.tx_pktcount;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_query_rx_packet_received_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if (poid_par_priv->information_buf_len == sizeof(ULONG)) {
++		*(ULONG *)poid_par_priv->information_buf =  Adapter->mppriv.rx_pktcount;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_query_rx_packet_crc32_error_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if (poid_par_priv->information_buf_len == sizeof(ULONG)) {
++		*(ULONG *)poid_par_priv->information_buf =  Adapter->mppriv.rx_crcerrpktcount;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++
++NDIS_STATUS oid_rt_pro_reset_tx_packet_sent_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	Adapter->mppriv.tx_pktcount = 0;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_reset_rx_packet_received_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	if (poid_par_priv->information_buf_len == sizeof(ULONG)) {
++		Adapter->mppriv.rx_pktcount = 0;
++		Adapter->mppriv.rx_crcerrpktcount = 0;
++	} else
++		status = NDIS_STATUS_INVALID_LENGTH;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_reset_phy_rx_packet_count_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	ResetPhyRxPktCount(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_phy_rx_packet_received_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len != sizeof(ULONG))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	*(ULONG *)poid_par_priv->information_buf = GetPhyRxPktReceived(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_phy_rx_packet_crc32_error_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++
++	if (poid_par_priv->information_buf_len != sizeof(ULONG))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	*(ULONG *)poid_par_priv->information_buf = GetPhyRxPktCRC32Error(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++
++	return status;
++}
++/* ****************  oid_rtl_seg_81_80_20   section end **************** */
++NDIS_STATUS oid_rt_pro_set_continuous_tx_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		bStartTest;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	bStartTest = *((u32 *)poid_par_priv->information_buf);
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetContinuousTx(Adapter, (u8)bStartTest);
++	if (bStartTest) {
++		struct mp_priv *pmp_priv = &Adapter->mppriv;
++		if (pmp_priv->tx.stop == 0) {
++			pmp_priv->tx.stop = 1;
++			RTW_INFO("%s: pkt tx is running...\n", __func__);
++			rtw_msleep_os(5);
++		}
++		pmp_priv->tx.stop = 0;
++		pmp_priv->tx.count = 1;
++		SetPacketTx(Adapter);
++	}
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_pro_set_single_carrier_tx_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		bStartTest;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	bStartTest = *((u32 *)poid_par_priv->information_buf);
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetSingleCarrierTx(Adapter, (u8)bStartTest);
++	if (bStartTest) {
++		struct mp_priv *pmp_priv = &Adapter->mppriv;
++		if (pmp_priv->tx.stop == 0) {
++			pmp_priv->tx.stop = 1;
++			RTW_INFO("%s: pkt tx is running...\n", __func__);
++			rtw_msleep_os(5);
++		}
++		pmp_priv->tx.stop = 0;
++		pmp_priv->tx.count = 1;
++		SetPacketTx(Adapter);
++	}
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_pro_set_carrier_suppression_tx_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		bStartTest;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	bStartTest = *((u32 *)poid_par_priv->information_buf);
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetCarrierSuppressionTx(Adapter, (u8)bStartTest);
++	if (bStartTest) {
++		struct mp_priv *pmp_priv = &Adapter->mppriv;
++		if (pmp_priv->tx.stop == 0) {
++			pmp_priv->tx.stop = 1;
++			RTW_INFO("%s: pkt tx is running...\n", __func__);
++			rtw_msleep_os(5);
++		}
++		pmp_priv->tx.stop = 0;
++		pmp_priv->tx.count = 1;
++		SetPacketTx(Adapter);
++	}
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_pro_set_single_tone_tx_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32		bStartTest;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	bStartTest = *((u32 *)poid_par_priv->information_buf);
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetSingleToneTx(Adapter, (u8)bStartTest);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_pro_set_modulation_hdl(struct oid_par_priv *poid_par_priv)
++{
++	return 0;
++}
++
++NDIS_STATUS oid_rt_pro_trigger_gpio_hdl(struct oid_par_priv *poid_par_priv)
++{
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	rtw_hal_set_hwreg(Adapter, HW_VAR_TRIGGER_GPIO_0, 0);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ****************  oid_rtl_seg_81_80_00   section end ****************
++ * ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro8711_join_bss_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	PNDIS_802_11_SSID pssid;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	*poid_par_priv->bytes_needed = (u32)sizeof(NDIS_802_11_SSID);
++	*poid_par_priv->bytes_rw = 0;
++	if (poid_par_priv->information_buf_len < *poid_par_priv->bytes_needed)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pssid = (PNDIS_802_11_SSID)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (mp_start_joinbss(Adapter, pssid) == _FAIL)
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = sizeof(NDIS_802_11_SSID);
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_read_register_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	pRW_Reg	RegRWStruct;
++	u32		offset, width;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	RegRWStruct = (pRW_Reg)poid_par_priv->information_buf;
++	offset = RegRWStruct->offset;
++	width = RegRWStruct->width;
++
++	if (offset > 0xFFF)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	switch (width) {
++	case 1:
++		RegRWStruct->value = rtw_read8(Adapter, offset);
++		break;
++	case 2:
++		RegRWStruct->value = rtw_read16(Adapter, offset);
++		break;
++	default:
++		width = 4;
++		RegRWStruct->value = rtw_read32(Adapter, offset);
++		break;
++	}
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = width;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_write_register_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	pRW_Reg	RegRWStruct;
++	u32		offset, width, value;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	RegRWStruct = (pRW_Reg)poid_par_priv->information_buf;
++	offset = RegRWStruct->offset;
++	width = RegRWStruct->width;
++	value = RegRWStruct->value;
++
++	if (offset > 0xFFF)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	switch (RegRWStruct->width) {
++	case 1:
++		if (value > 0xFF) {
++			status = NDIS_STATUS_NOT_ACCEPTED;
++			break;
++		}
++		rtw_write8(padapter, offset, (u8)value);
++		break;
++	case 2:
++		if (value > 0xFFFF) {
++			status = NDIS_STATUS_NOT_ACCEPTED;
++			break;
++		}
++		rtw_write16(padapter, offset, (u16)value);
++		break;
++	case 4:
++		rtw_write32(padapter, offset, value);
++		break;
++	default:
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		break;
++	}
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_burst_read_register_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	pBurst_RW_Reg	pBstRwReg;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	pBstRwReg = (pBurst_RW_Reg)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	rtw_read_mem(padapter, pBstRwReg->offset, (u32)pBstRwReg->len, pBstRwReg->Data);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_burst_write_register_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	pBurst_RW_Reg	pBstRwReg;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	pBstRwReg = (pBurst_RW_Reg)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	rtw_write_mem(padapter, pBstRwReg->offset, (u32)pBstRwReg->len, pBstRwReg->Data);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_write_txcmd_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++
++	TX_CMD_Desc	*TxCmd_Info;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++
++	TxCmd_Info = (TX_CMD_Desc *)poid_par_priv->information_buf;
++
++
++		 _irqlevel_changed_(&oldirql, LOWER);
++
++		rtw_write32(Adapter, TxCmd_Info->offset + 0, (unsigned int)TxCmd_Info->TxCMD.value[0]);
++		rtw_write32(Adapter, TxCmd_Info->offset + 4, (unsigned int)TxCmd_Info->TxCMD.value[1]);
++
++		 _irqlevel_changed_(&oldirql, RAISE);
++
++
++
++		 return status;
++#else
++	return 0;
++#endif
++}
++
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_read16_eeprom_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	pEEPROM_RWParam pEEPROM;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	pEEPROM = (pEEPROM_RWParam)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	pEEPROM->value = eeprom_read16(padapter, (u16)(pEEPROM->offset >> 1));
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_write16_eeprom_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	pEEPROM_RWParam pEEPROM;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	pEEPROM = (pEEPROM_RWParam)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	eeprom_write16(padapter, (u16)(pEEPROM->offset >> 1), pEEPROM->value);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro8711_wi_poll_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	struct mp_wiparam *pwi_param;
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(struct mp_wiparam))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	if (Adapter->mppriv.workparam.bcompleted == _FALSE)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	pwi_param = (struct mp_wiparam *)poid_par_priv->information_buf;
++
++	_rtw_memcpy(pwi_param, &Adapter->mppriv.workparam, sizeof(struct mp_wiparam));
++	Adapter->mppriv.act_in_progress = _FALSE;
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro8711_pkt_loss_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(uint) * 2) {
++		return NDIS_STATUS_INVALID_LENGTH;
++	}
++
++	if (*(uint *)poid_par_priv->information_buf == 1) /* init==1 */
++		Adapter->mppriv.rx_pktloss = 0;
++
++	*((uint *)poid_par_priv->information_buf + 1) = Adapter->mppriv.rx_pktloss;
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_rd_attrib_mem_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	struct io_queue *pio_queue = (struct io_queue *)Adapter->pio_queue;
++	struct intf_hdl	*pintfhdl = &pio_queue->intf;
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++#ifdef CONFIG_SDIO_HCI
++	void (*_attrib_read)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++#endif
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++#ifdef CONFIG_SDIO_HCI
++	_irqlevel_changed_(&oldirql, LOWER);
++	{
++		u32 *plmem = (u32 *)poid_par_priv->information_buf + 2;
++		_attrib_read = pintfhdl->io_ops._attrib_read;
++		_attrib_read(pintfhdl, *((u32 *)poid_par_priv->information_buf),
++			*((u32 *)poid_par_priv->information_buf + 1), (u8 *)plmem);
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	}
++	_irqlevel_changed_(&oldirql, RAISE);
++#endif
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_wr_attrib_mem_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	struct io_queue *pio_queue = (struct io_queue *)Adapter->pio_queue;
++	struct intf_hdl	*pintfhdl = &pio_queue->intf;
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++#ifdef CONFIG_SDIO_HCI
++	void (*_attrib_write)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++#endif
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++#ifdef CONFIG_SDIO_HCI
++	_irqlevel_changed_(&oldirql, LOWER);
++	{
++		u32 *plmem = (u32 *)poid_par_priv->information_buf + 2;
++		_attrib_write = pintfhdl->io_ops._attrib_write;
++		_attrib_write(pintfhdl, *(u32 *)poid_par_priv->information_buf,
++			*((u32 *)poid_par_priv->information_buf + 1), (u8 *)plmem);
++	}
++	_irqlevel_changed_(&oldirql, RAISE);
++#endif
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS  oid_rt_pro_set_rf_intfs_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (rtw_setrfintfs_cmd(Adapter, *(unsigned char *)poid_par_priv->information_buf) == _FAIL)
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_poll_rx_status_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_rtw_memcpy(poid_par_priv->information_buf, (unsigned char *)&Adapter->mppriv.rxstat, sizeof(struct recv_stat));
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_cfg_debug_message_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	PCFG_DBG_MSG_STRUCT pdbg_msg;
++
++
++
++#if 0/*#ifdef CONFIG_DEBUG_RTL871X*/
++
++	pdbg_msg = (PCFG_DBG_MSG_STRUCT)(poid_par_priv->information_buf);
++
++	if (poid_par_priv->type_of_oid == SET_OID) {
++
++		GlobalDebugLevel = pdbg_msg->DebugLevel;
++		GlobalDebugComponents = (pdbg_msg->DebugComponent_H32 << 32) | pdbg_msg->DebugComponent_L32;
++	} else {
++		pdbg_msg->DebugLevel = GlobalDebugLevel;
++		pdbg_msg->DebugComponent_H32 = (u32)(GlobalDebugComponents >> 32);
++		pdbg_msg->DebugComponent_L32 = (u32)GlobalDebugComponents;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++	}
++
++#endif
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_set_data_rate_ex_hdl(struct oid_par_priv *poid_par_priv)
++{
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (rtw_setdatarate_cmd(Adapter, poid_par_priv->information_buf) != _SUCCESS)
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ----------------------------------------------------------------------------- */
++NDIS_STATUS oid_rt_get_thermal_meter_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	u8 thermal = 0;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	GetThermalMeter(Adapter, &thermal);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*(u32 *)poid_par_priv->information_buf = (u32)thermal;
++	*poid_par_priv->bytes_rw = sizeof(u32);
++
++
++	return status;
++}
++/* ----------------------------------------------------------------------------- */
++NDIS_STATUS oid_rt_pro_read_tssi_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (Adapter->mppriv.act_in_progress == _TRUE)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u8))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	/* init workparam */
++	Adapter->mppriv.act_in_progress = _TRUE;
++	Adapter->mppriv.workparam.bcompleted = _FALSE;
++	Adapter->mppriv.workparam.act_type = MPT_READ_TSSI;
++	Adapter->mppriv.workparam.io_offset = 0;
++	Adapter->mppriv.workparam.io_value = 0xFFFFFFFF;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (!rtw_gettssi_cmd(Adapter, 0, (u8 *)&Adapter->mppriv.workparam.io_value))
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_set_power_tracking_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	/*	if (poid_par_priv->type_of_oid != SET_OID)
++	 *		return NDIS_STATUS_NOT_ACCEPTED; */
++
++	if (poid_par_priv->information_buf_len < sizeof(u8))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	if (poid_par_priv->type_of_oid == SET_OID) {
++		u8 enable;
++
++		enable = *(u8 *)poid_par_priv->information_buf;
++
++		SetPowerTracking(Adapter, enable);
++	} else
++		GetPowerTracking(Adapter, (u8 *)poid_par_priv->information_buf);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ----------------------------------------------------------------------------- */
++NDIS_STATUS oid_rt_pro_set_basic_rate_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u32 ratevalue;
++	u8 datarates[NumRates];
++	int i;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++#if 0
++	ratevalue = *((u32 *)poid_par_priv->information_buf);
++
++	for (i = 0; i < NumRates; i++) {
++		if (ratevalue == mpdatarate[i])
++			datarates[i] = mpdatarate[i];
++		else
++			datarates[i] = 0xff;
++	}
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (rtw_setbasicrate_cmd(padapter, datarates) != _SUCCESS)
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++	_irqlevel_changed_(&oldirql, RAISE);
++#endif
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_qry_pwrstate_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < 8)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	*poid_par_priv->bytes_rw = 8;
++	_rtw_memcpy(poid_par_priv->information_buf, &(adapter_to_pwrctl(Adapter)->pwr_mode), 8);
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_set_pwrstate_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	uint pwr_mode, smart_ps;
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	*poid_par_priv->bytes_rw = 0;
++	*poid_par_priv->bytes_needed = 8;
++
++	if (poid_par_priv->information_buf_len < 8)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pwr_mode = *(uint *)(poid_par_priv->information_buf);
++	smart_ps = *(uint *)((int)poid_par_priv->information_buf + 4);
++
++	*poid_par_priv->bytes_rw = 8;
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_h2c_set_rate_table_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	struct setratable_parm *prate_table;
++	u8		res;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	*poid_par_priv->bytes_needed  = sizeof(struct setratable_parm);
++	if (poid_par_priv->information_buf_len < sizeof(struct setratable_parm))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	prate_table = (struct setratable_parm *)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	res = rtw_setrttbl_cmd(Adapter, prate_table);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	if (res == _FAIL)
++		status = NDIS_STATUS_FAILURE;
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_h2c_get_rate_table_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++#if 0
++	struct mp_wi_cntx *pmp_wi_cntx = &(Adapter->mppriv.wi_cntx);
++	u8 res = _SUCCESS;
++	DEBUG_INFO(("===> Set OID_RT_PRO_H2C_GET_RATE_TABLE.\n"));
++
++	if (pmp_wi_cntx->bmp_wi_progress == _TRUE) {
++		DEBUG_ERR(("\n mp workitem is progressing, not allow to set another workitem right now!!!\n"));
++		Status = NDIS_STATUS_NOT_ACCEPTED;
++		break;
++	} else {
++		pmp_wi_cntx->bmp_wi_progress = _TRUE;
++		pmp_wi_cntx->param.bcompleted = _FALSE;
++		pmp_wi_cntx->param.act_type = MPT_GET_RATE_TABLE;
++		pmp_wi_cntx->param.io_offset = 0x0;
++		pmp_wi_cntx->param.bytes_cnt = sizeof(struct getratable_rsp);
++		pmp_wi_cntx->param.io_value = 0xffffffff;
++
++		res = rtw_getrttbl_cmd(Adapter, (struct getratable_rsp *)pmp_wi_cntx->param.data);
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++		if (res != _SUCCESS)
++			Status = NDIS_STATUS_NOT_ACCEPTED;
++	}
++	DEBUG_INFO(("\n <=== Set OID_RT_PRO_H2C_GET_RATE_TABLE.\n"));
++#endif
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++
++/* ****************  oid_rtl_seg_87_12_00   section start **************** */
++NDIS_STATUS oid_rt_pro_encryption_ctrl_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	struct security_priv *psecuritypriv = &Adapter->securitypriv;
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	ENCRY_CTRL_STATE encry_mode;
++
++
++	*poid_par_priv->bytes_needed = sizeof(u8);
++	if (poid_par_priv->information_buf_len < *poid_par_priv->bytes_needed)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	if (poid_par_priv->type_of_oid == SET_OID) {
++		encry_mode = *((u8 *)poid_par_priv->information_buf);
++		switch (encry_mode) {
++		case HW_CONTROL:
++#if 0
++			Adapter->registrypriv.software_decrypt = _FALSE;
++			Adapter->registrypriv.software_encrypt = _FALSE;
++#else
++			psecuritypriv->sw_decrypt = _FALSE;
++			psecuritypriv->sw_encrypt = _FALSE;
++#endif
++			break;
++		case SW_CONTROL:
++#if 0
++			Adapter->registrypriv.software_decrypt = _TRUE;
++			Adapter->registrypriv.software_encrypt = _TRUE;
++#else
++			psecuritypriv->sw_decrypt = _TRUE;
++			psecuritypriv->sw_encrypt = _TRUE;
++#endif
++			break;
++		case HW_ENCRY_SW_DECRY:
++#if 0
++			Adapter->registrypriv.software_decrypt = _TRUE;
++			Adapter->registrypriv.software_encrypt = _FALSE;
++#else
++			psecuritypriv->sw_decrypt = _TRUE;
++			psecuritypriv->sw_encrypt = _FALSE;
++#endif
++			break;
++		case SW_ENCRY_HW_DECRY:
++#if 0
++			Adapter->registrypriv.software_decrypt = _FALSE;
++			Adapter->registrypriv.software_encrypt = _TRUE;
++#else
++			psecuritypriv->sw_decrypt = _FALSE;
++			psecuritypriv->sw_encrypt = _TRUE;
++#endif
++			break;
++		}
++
++	} else {
++#if 0
++		if (Adapter->registrypriv.software_encrypt == _FALSE) {
++			if (Adapter->registrypriv.software_decrypt == _FALSE)
++				encry_mode = HW_CONTROL;
++			else
++				encry_mode = HW_ENCRY_SW_DECRY;
++		} else {
++			if (Adapter->registrypriv.software_decrypt == _FALSE)
++				encry_mode = SW_ENCRY_HW_DECRY;
++			else
++				encry_mode = SW_CONTROL;
++		}
++#else
++
++		if ((psecuritypriv->sw_encrypt == _FALSE) && (psecuritypriv->sw_decrypt == _FALSE))
++			encry_mode = HW_CONTROL;
++		else if ((psecuritypriv->sw_encrypt == _FALSE) && (psecuritypriv->sw_decrypt == _TRUE))
++			encry_mode = HW_ENCRY_SW_DECRY;
++		else if ((psecuritypriv->sw_encrypt == _TRUE) && (psecuritypriv->sw_decrypt == _FALSE))
++			encry_mode = SW_ENCRY_HW_DECRY;
++		else if ((psecuritypriv->sw_encrypt == _TRUE) && (psecuritypriv->sw_decrypt == _TRUE))
++			encry_mode = SW_CONTROL;
++
++#endif
++
++		*(u8 *)poid_par_priv->information_buf =  encry_mode;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++	}
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_add_sta_info_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	struct sta_info *psta = NULL;
++	UCHAR		*macaddr;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	*poid_par_priv->bytes_needed = ETH_ALEN;
++	if (poid_par_priv->information_buf_len < *poid_par_priv->bytes_needed)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	macaddr = (UCHAR *) poid_par_priv->information_buf ;
++
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	psta = rtw_get_stainfo(&Adapter->stapriv, macaddr);
++
++	if (psta == NULL) { /* the sta have been in sta_info_queue => do nothing */
++		psta = rtw_alloc_stainfo(&Adapter->stapriv, macaddr);
++
++		if (psta == NULL) {
++			status = NDIS_STATUS_FAILURE;
++		}
++	}
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_dele_sta_info_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	struct sta_info *psta = NULL;
++	UCHAR		*macaddr;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	*poid_par_priv->bytes_needed = ETH_ALEN;
++	if (poid_par_priv->information_buf_len < *poid_par_priv->bytes_needed)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	macaddr = (UCHAR *) poid_par_priv->information_buf ;
++
++	psta = rtw_get_stainfo(&Adapter->stapriv, macaddr);
++	if (psta != NULL) {
++		/* _enter_critical(&(Adapter->stapriv.sta_hash_lock), &irqL); */
++		rtw_free_stainfo(Adapter, psta);
++		/* _exit_critical(&(Adapter->stapriv.sta_hash_lock), &irqL); */
++	}
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++#if 0
++static u32 mp_query_drv_var(_adapter *padapter, u8 offset, u32 var)
++{
++#ifdef CONFIG_SDIO_HCI
++
++	if (offset == 1) {
++		u16 tmp_blk_num;
++		tmp_blk_num = rtw_read16(padapter, SDIO_RX0_RDYBLK_NUM);
++		if (adapter_to_dvobj(padapter)->rxblknum != tmp_blk_num) {
++			/*	sd_recv_rxfifo(padapter); */
++		}
++	}
++
++#if 0
++	if (offset <= 100) { /* For setting data rate and query data rate */
++		if (offset == 100) { /* For query data rate */
++			var = padapter->registrypriv.tx_rate;
++
++		} else if (offset < 0x1d) { /* For setting data rate */
++			padapter->registrypriv.tx_rate = offset;
++			var = padapter->registrypriv.tx_rate;
++			padapter->registrypriv.use_rate = _TRUE;
++		} else { /* not use the data rate */
++			padapter->registrypriv.use_rate = _FALSE;
++		}
++	} else if (offset <= 110) { /* for setting debug level */
++		if (offset == 110) { /* For query data rate */
++			padapter->registrypriv.dbg_level = GlobalDebugLevel;
++			var = padapter->registrypriv.dbg_level;
++		} else if (offset < 110 && offset > 100) {
++			padapter->registrypriv.dbg_level = GlobalDebugLevel = offset - 100;
++			var = padapter->registrypriv.dbg_level;
++
++		}
++	} else if (offset > 110 && offset < 116) {
++		if (115 == offset) {
++		} else {
++			switch (offset) {
++			case 111:
++				adapter_to_dvobj(padapter)->tx_block_mode = 1;
++				adapter_to_dvobj(padapter)->rx_block_mode = 1;
++				break;
++			case 112:
++				adapter_to_dvobj(padapter)->tx_block_mode = 1;
++				adapter_to_dvobj(padapter)->rx_block_mode = 0;
++				break;
++			case 113:
++				adapter_to_dvobj(padapter)->tx_block_mode = 0;
++				adapter_to_dvobj(padapter)->rx_block_mode = 1;
++				break;
++			case 114:
++				adapter_to_dvobj(padapter)->tx_block_mode = 0;
++				adapter_to_dvobj(padapter)->rx_block_mode = 0;
++				break;
++			default:
++				break;
++
++			}
++
++		}
++
++	} else if (offset >= 127) {
++		u64	prnt_dbg_comp;
++		u8   chg_idx;
++		u64	tmp_dbg_comp;
++		chg_idx = offset - 0x80;
++		tmp_dbg_comp = BIT(chg_idx);
++		prnt_dbg_comp = padapter->registrypriv.dbg_component = GlobalDebugComponents;
++		if (offset == 127) {
++			/*		prnt_dbg_comp=padapter->registrypriv.dbg_component= GlobalDebugComponents; */
++			var = (u32)(padapter->registrypriv.dbg_component);
++			prnt_dbg_comp = GlobalDebugComponents;
++			prnt_dbg_comp = GlobalDebugComponents = padapter->registrypriv.dbg_component;
++
++		} else {
++			prnt_dbg_comp = GlobalDebugComponents;
++			prnt_dbg_comp = GlobalDebugComponents = padapter->registrypriv.dbg_component;
++
++			if (GlobalDebugComponents & tmp_dbg_comp) {
++				/* this bit is already set, now clear it */
++				GlobalDebugComponents = GlobalDebugComponents & (~tmp_dbg_comp);
++			} else {
++				/* this bit is not set, now set it. */
++				GlobalDebugComponents = GlobalDebugComponents | tmp_dbg_comp;
++			}
++			prnt_dbg_comp = GlobalDebugComponents;
++
++			var = (u32)(GlobalDebugComponents);
++			/* GlobalDebugComponents=padapter->registrypriv.dbg_component; */
++
++		}
++	}
++#endif
++#endif
++
++	return var;
++}
++#endif
++
++NDIS_STATUS oid_rt_pro_query_dr_variable_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER		Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL			oldirql;
++#endif
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++
++	DR_VARIABLE_STRUCT	*pdrv_var;
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	*poid_par_priv->bytes_needed = sizeof(DR_VARIABLE_STRUCT);
++	if (poid_par_priv->information_buf_len < *poid_par_priv->bytes_needed)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++
++	pdrv_var = (struct _DR_VARIABLE_STRUCT_ *)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	pdrv_var->variable = mp_query_drv_var(Adapter, pdrv_var->offset, pdrv_var->variable);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_rx_packet_type_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++
++	if (poid_par_priv->information_buf_len < sizeof(UCHAR)) {
++		status = NDIS_STATUS_INVALID_LENGTH;
++		*poid_par_priv->bytes_needed = sizeof(UCHAR);
++		return status;
++	}
++
++	if (poid_par_priv->type_of_oid == SET_OID) {
++		Adapter->mppriv.rx_with_status = *(UCHAR *) poid_par_priv->information_buf;
++
++
++	} else {
++		*(UCHAR *) poid_par_priv->information_buf = Adapter->mppriv.rx_with_status;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++		/* *(u32 *)&Adapter->eeprompriv.mac_addr[0]=rtw_read32(Adapter, 0x10250050); */
++		/* *(u16 *)&Adapter->eeprompriv.mac_addr[4]=rtw_read16(Adapter, 0x10250054); */
++	}
++#endif
++
++	return NDIS_STATUS_SUCCESS;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_read_efuse_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL oldirql;
++#endif
++	PEFUSE_ACCESS_STRUCT pefuse;
++	u8 *data;
++	u16 addr = 0, cnts = 0, max_available_size = 0;
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(EFUSE_ACCESS_STRUCT))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	pefuse = (PEFUSE_ACCESS_STRUCT)poid_par_priv->information_buf;
++	addr = pefuse->start_addr;
++	cnts = pefuse->cnts;
++	data = pefuse->data;
++
++
++	EFUSE_GetEfuseDefinition(Adapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_available_size, _FALSE);
++
++	if ((addr + cnts) > max_available_size) {
++		return NDIS_STATUS_NOT_ACCEPTED;
++	}
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	if (rtw_efuse_access(Adapter, _FALSE, addr, cnts, data) == _FAIL) {
++		status = NDIS_STATUS_FAILURE;
++	} else
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_write_efuse_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL oldirql;
++#endif
++	PEFUSE_ACCESS_STRUCT pefuse;
++	u8 *data;
++	u16 addr = 0, cnts = 0, max_available_size = 0;
++	NDIS_STATUS status = NDIS_STATUS_SUCCESS;
++	PADAPTER Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	pefuse = (PEFUSE_ACCESS_STRUCT)poid_par_priv->information_buf;
++	addr = pefuse->start_addr;
++	cnts = pefuse->cnts;
++	data = pefuse->data;
++
++
++	EFUSE_GetEfuseDefinition(Adapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_available_size, _FALSE);
++
++	if ((addr + cnts) > max_available_size) {
++		return NDIS_STATUS_NOT_ACCEPTED;
++	}
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	if (rtw_efuse_access(Adapter, _TRUE, addr, cnts, data) == _FAIL)
++		status = NDIS_STATUS_FAILURE;
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_rw_efuse_pgpkt_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	PPGPKT_STRUCT	ppgpkt;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++
++	*poid_par_priv->bytes_rw = 0;
++
++	if (poid_par_priv->information_buf_len < sizeof(PGPKT_STRUCT))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	ppgpkt = (PPGPKT_STRUCT)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (poid_par_priv->type_of_oid == QUERY_OID) {
++
++		Efuse_PowerSwitch(Adapter, _FALSE, _TRUE);
++		if (Efuse_PgPacketRead(Adapter, ppgpkt->offset, ppgpkt->data, _FALSE) == _TRUE)
++			*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++		else
++			status = NDIS_STATUS_FAILURE;
++		Efuse_PowerSwitch(Adapter, _FALSE, _FALSE);
++	} else {
++
++		Efuse_PowerSwitch(Adapter, _TRUE, _TRUE);
++		if (Efuse_PgPacketWrite(Adapter, ppgpkt->offset, ppgpkt->word_en, ppgpkt->data, _FALSE) == _TRUE)
++			*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++		else
++			status = NDIS_STATUS_FAILURE;
++		Efuse_PowerSwitch(Adapter, _TRUE, _FALSE);
++	}
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_efuse_current_size_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u16 size;
++	u8 ret;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	ret = efuse_GetCurrentSize(Adapter, &size);
++	_irqlevel_changed_(&oldirql, RAISE);
++	if (ret == _SUCCESS) {
++		*(u32 *)poid_par_priv->information_buf = size;
++		*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	} else
++		status = NDIS_STATUS_FAILURE;
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_efuse_max_size_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	*(u32 *)poid_par_priv->information_buf = efuse_GetMaxSize(Adapter);
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_efuse_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status;
++
++
++
++	if (poid_par_priv->type_of_oid == QUERY_OID)
++		status = oid_rt_pro_read_efuse_hdl(poid_par_priv);
++	else
++		status = oid_rt_pro_write_efuse_hdl(poid_par_priv);
++
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_pro_efuse_map_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u8		*data;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	u16	mapLen = 0;
++
++
++
++	EFUSE_GetEfuseDefinition(Adapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
++
++	*poid_par_priv->bytes_rw = 0;
++
++	if (poid_par_priv->information_buf_len < mapLen)
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	data = (u8 *)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	if (poid_par_priv->type_of_oid == QUERY_OID) {
++
++		if (rtw_efuse_map_read(Adapter, 0, mapLen, data) == _SUCCESS)
++			*poid_par_priv->bytes_rw = mapLen;
++		else {
++			status = NDIS_STATUS_FAILURE;
++		}
++	} else {
++		/* SET_OID */
++
++		if (rtw_efuse_map_write(Adapter, 0, mapLen, data) == _SUCCESS)
++			*poid_par_priv->bytes_rw = mapLen;
++		else {
++			status = NDIS_STATUS_FAILURE;
++		}
++	}
++
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_set_crystal_cap_hdl(struct oid_par_priv *poid_par_priv)
++{
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++
++	u32		crystal_cap = 0;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	crystal_cap = *((u32 *)poid_par_priv->information_buf); /* 4 */
++	if (crystal_cap > 0xf)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	Adapter->mppriv.curr_crystalcap = crystal_cap;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetCrystalCap(Adapter);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++#endif
++	return status;
++}
++
++NDIS_STATUS oid_rt_set_rx_packet_type_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u8		rx_pkt_type;
++	/*	u32		rcr_val32; */
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	/*	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context); */
++
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u8))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	rx_pkt_type = *((u8 *)poid_par_priv->information_buf); /* 4 */
++
++#if 0
++	_irqlevel_changed_(&oldirql, LOWER);
++#if 0
++	rcr_val8 = rtw_read8(Adapter, 0x10250048);/* RCR */
++	rcr_val8 &= ~(RCR_AB | RCR_AM | RCR_APM | RCR_AAP);
++
++	if (rx_pkt_type == RX_PKT_BROADCAST)
++		rcr_val8 |= (RCR_AB | RCR_ACRC32);
++	else if (rx_pkt_type == RX_PKT_DEST_ADDR)
++		rcr_val8 |= (RCR_AAP | RCR_AM | RCR_ACRC32);
++	else if (rx_pkt_type == RX_PKT_PHY_MATCH)
++		rcr_val8 |= (RCR_APM | RCR_ACRC32);
++	else
++		rcr_val8 &= ~(RCR_AAP | RCR_APM | RCR_AM | RCR_AB | RCR_ACRC32);
++	rtw_write8(padapter, 0x10250048, rcr_val8);
++#else
++	rcr_val32 = rtw_read32(padapter, RCR);/* RCR = 0x10250048 */
++	rcr_val32 &= ~(RCR_CBSSID | RCR_AB | RCR_AM | RCR_APM | RCR_AAP);
++#if 0
++	if (rx_pkt_type == RX_PKT_BROADCAST)
++		rcr_val32 |= (RCR_AB | RCR_AM | RCR_APM | RCR_AAP | RCR_ACRC32);
++	else if (rx_pkt_type == RX_PKT_DEST_ADDR) {
++		/* rcr_val32 |= (RCR_CBSSID|RCR_AAP|RCR_AM|RCR_ACRC32); */
++		rcr_val32 |= (RCR_CBSSID | RCR_APM | RCR_ACRC32);
++	} else if (rx_pkt_type == RX_PKT_PHY_MATCH) {
++		rcr_val32 |= (RCR_APM | RCR_ACRC32);
++		/* rcr_val32 |= (RCR_AAP|RCR_ACRC32); */
++	} else
++		rcr_val32 &= ~(RCR_AAP | RCR_APM | RCR_AM | RCR_AB | RCR_ACRC32);
++#else
++	switch (rx_pkt_type) {
++	case RX_PKT_BROADCAST:
++		rcr_val32 |= (RCR_AB | RCR_AM | RCR_APM | RCR_AAP | RCR_ACRC32);
++		break;
++	case RX_PKT_DEST_ADDR:
++		rcr_val32 |= (RCR_AB | RCR_AM | RCR_APM | RCR_AAP | RCR_ACRC32);
++		break;
++	case RX_PKT_PHY_MATCH:
++		rcr_val32 |= (RCR_APM | RCR_ACRC32);
++		break;
++	default:
++		rcr_val32 &= ~(RCR_AAP | RCR_APM | RCR_AM | RCR_AB | RCR_ACRC32);
++		break;
++	}
++
++	if (rx_pkt_type == RX_PKT_DEST_ADDR)
++		padapter->mppriv.check_mp_pkt = 1;
++	else
++		padapter->mppriv.check_mp_pkt = 0;
++#endif
++	rtw_write32(padapter, RCR, rcr_val32);
++
++#endif
++	_irqlevel_changed_(&oldirql, RAISE);
++#endif
++
++	return status;
++}
++
++NDIS_STATUS oid_rt_pro_set_tx_agc_offset_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++
++	u32		txagc;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	txagc = *(u32 *)poid_par_priv->information_buf;
++
++	_irqlevel_changed_(&oldirql, LOWER);
++	SetTxAGCOffset(Adapter, txagc);
++	_irqlevel_changed_(&oldirql, RAISE);
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++
++NDIS_STATUS oid_rt_pro_set_pkt_test_mode_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	PADAPTER		Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++
++	NDIS_STATUS		status = NDIS_STATUS_SUCCESS;
++
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	struct mp_priv		*pmppriv = &Adapter->mppriv;
++	u32			type;
++
++
++	if (poid_par_priv->type_of_oid != SET_OID)
++		return NDIS_STATUS_NOT_ACCEPTED;
++
++	if (poid_par_priv->information_buf_len < sizeof(u32))
++		return NDIS_STATUS_INVALID_LENGTH;
++
++	type = *(u32 *)poid_par_priv->information_buf;
++
++	if (_LOOPBOOK_MODE_ == type) {
++		pmppriv->mode = type;
++		set_fwstate(pmlmepriv, WIFI_MP_LPBK_STATE); /* append txdesc */
++	} else if (_2MAC_MODE_ == type) {
++		pmppriv->mode = type;
++		_clr_fwstate_(pmlmepriv, WIFI_MP_LPBK_STATE);
++	} else
++		status = NDIS_STATUS_NOT_ACCEPTED;
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
++
++unsigned int mp_ioctl_xmit_packet_hdl(struct oid_par_priv *poid_par_priv)
++{
++	PMP_XMIT_PARM pparm;
++	PADAPTER padapter;
++	struct mp_priv *pmp_priv;
++	struct pkt_attrib *pattrib;
++
++
++	pparm = (PMP_XMIT_PARM)poid_par_priv->information_buf;
++	padapter = (PADAPTER)poid_par_priv->adapter_context;
++	pmp_priv = &padapter->mppriv;
++
++	if (poid_par_priv->type_of_oid == QUERY_OID) {
++		pparm->enable = !pmp_priv->tx.stop;
++		pparm->count = pmp_priv->tx.sended;
++	} else {
++		if (pparm->enable == 0)
++			pmp_priv->tx.stop = 1;
++		else if (pmp_priv->tx.stop == 1) {
++			pmp_priv->tx.stop = 0;
++			pmp_priv->tx.count = pparm->count;
++			pmp_priv->tx.payload = pparm->payload_type;
++			pattrib = &pmp_priv->tx.attrib;
++			pattrib->pktlen = pparm->length;
++			_rtw_memcpy(pattrib->dst, pparm->da, ETH_ALEN);
++			SetPacketTx(padapter);
++		} else
++			return NDIS_STATUS_FAILURE;
++	}
++
++	return NDIS_STATUS_SUCCESS;
++}
++
++#if 0
++unsigned int mp_ioctl_xmit_packet_hdl(struct oid_par_priv *poid_par_priv)
++{
++	unsigned char *pframe, *pmp_pkt;
++	struct ethhdr *pethhdr;
++	struct pkt_attrib *pattrib;
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	unsigned short *fctrl;
++	int llc_sz, payload_len;
++	struct mp_xmit_frame *pxframe =  NULL;
++	struct mp_xmit_packet *pmp_xmitpkt = (struct mp_xmit_packet *)param;
++	u8 addr3[] = {0x02, 0xE0, 0x4C, 0x87, 0x66, 0x55};
++
++	/*	RTW_INFO("+mp_ioctl_xmit_packet_hdl\n"); */
++
++	pxframe = alloc_mp_xmitframe(&padapter->mppriv);
++	if (pxframe == NULL) {
++		DEBUG_ERR(("Can't alloc pmpframe %d:%s\n", __LINE__, __FILE__));
++		return -1;
++	}
++
++	/* mp_xmit_pkt */
++	payload_len = pmp_xmitpkt->len - 14;
++	pmp_pkt = (unsigned char *)pmp_xmitpkt->mem;
++	pethhdr = (struct ethhdr *)pmp_pkt;
++
++	/* RTW_INFO("payload_len=%d, pkt_mem=0x%x\n", pmp_xmitpkt->len, (void*)pmp_xmitpkt->mem); */
++
++	/* RTW_INFO("pxframe=0x%x\n", (void*)pxframe); */
++	/* RTW_INFO("pxframe->mem=0x%x\n", (void*)pxframe->mem); */
++
++	/* update attribute */
++	pattrib = &pxframe->attrib;
++	memset((u8 *)(pattrib), 0, sizeof(struct pkt_attrib));
++	pattrib->pktlen = pmp_xmitpkt->len;
++	pattrib->ether_type = ntohs(pethhdr->h_proto);
++	pattrib->hdrlen = 24;
++	pattrib->nr_frags = 1;
++	pattrib->priority = 0;
++#ifndef CONFIG_MP_LINUX
++	if (IS_MCAST(pethhdr->h_dest))
++		pattrib->mac_id = 4;
++	else
++		pattrib->mac_id = 5;
++#else
++	pattrib->mac_id = 5;
++#endif
++
++	/*  */
++	memset(pxframe->mem, 0 , WLANHDR_OFFSET);
++	pframe = (u8 *)(pxframe->mem) + WLANHDR_OFFSET;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	SetFrameSubType(pframe, WIFI_DATA);
++
++	_rtw_memcpy(pwlanhdr->addr1, pethhdr->h_dest, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pethhdr->h_source, ETH_ALEN);
++
++	_rtw_memcpy(pwlanhdr->addr3, addr3, ETH_ALEN);
++
++	pwlanhdr->seq_ctl = 0;
++	pframe += pattrib->hdrlen;
++
++	llc_sz = rtw_put_snap(pframe, pattrib->ether_type);
++	pframe += llc_sz;
++
++	_rtw_memcpy(pframe, (void *)(pmp_pkt + 14),  payload_len);
++
++	pattrib->last_txcmdsz = pattrib->hdrlen + llc_sz + payload_len;
++
++	DEBUG_INFO(("issuing mp_xmit_frame, tx_len=%d, ether_type=0x%x\n", pattrib->last_txcmdsz, pattrib->ether_type));
++	xmit_mp_frame(padapter, pxframe);
++
++	return _SUCCESS;
++}
++#endif
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_set_power_down_hdl(struct oid_par_priv *poid_par_priv)
++{
++#ifdef PLATFORM_OS_XP
++	_irqL		oldirql;
++#endif
++	u8		bpwrup;
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++#ifdef PLATFORM_LINUX
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	PADAPTER	padapter = (PADAPTER)(poid_par_priv->adapter_context);
++#endif
++#endif
++
++
++	if (poid_par_priv->type_of_oid != SET_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++
++
++	_irqlevel_changed_(&oldirql, LOWER);
++
++	bpwrup = *(u8 *)poid_par_priv->information_buf;
++	/* CALL  the power_down function */
++#ifdef PLATFORM_LINUX
++#if defined(CONFIG_RTL8712) /* Linux MP insmod unknown symbol */
++	dev_power_down(padapter, bpwrup);
++#endif
++#endif
++	_irqlevel_changed_(&oldirql, RAISE);
++
++	/* DEBUG_ERR(("\n <=== Query OID_RT_PRO_READ_REGISTER. */
++	/*	Add:0x%08x Width:%d Value:0x%08x\n",RegRWStruct->offset,RegRWStruct->width,RegRWStruct->value)); */
++
++
++	return status;
++}
++/* ------------------------------------------------------------------------------ */
++NDIS_STATUS oid_rt_get_power_mode_hdl(struct oid_par_priv *poid_par_priv)
++{
++#if 0
++	NDIS_STATUS	status = NDIS_STATUS_SUCCESS;
++	PADAPTER	Adapter = (PADAPTER)(poid_par_priv->adapter_context);
++	/* #ifdef PLATFORM_OS_XP */
++	/*	_irqL		oldirql;
++	 * #endif */
++
++
++	if (poid_par_priv->type_of_oid != QUERY_OID) {
++		status = NDIS_STATUS_NOT_ACCEPTED;
++		return status;
++	}
++	if (poid_par_priv->information_buf_len < sizeof(u32)) {
++		status = NDIS_STATUS_INVALID_LENGTH;
++		return status;
++	}
++
++
++	/*	_irqlevel_changed_(&oldirql, LOWER); */
++	*(int *)poid_par_priv->information_buf = Adapter->registrypriv.low_power ? POWER_LOW : POWER_NORMAL;
++	*poid_par_priv->bytes_rw = poid_par_priv->information_buf_len;
++	/*	_irqlevel_changed_(&oldirql, RAISE); */
++
++
++	return status;
++#else
++	return 0;
++#endif
++}
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_odm.c b/drivers/net/wireless/rtl8812au/core/rtw_odm.c
+new file mode 100644
+index 0000000..c0a792c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_odm.c
+@@ -0,0 +1,240 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include <rtw_odm.h>
++#include <hal_data.h>
++
++
++
++/* set ODM_CMNINFO_IC_TYPE based on chip_type */
++void rtw_odm_init_ic_type(_adapter *adapter)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	DM_ODM_T *odm = &hal_data->odmpriv;
++	u4Byte ic_type = chip_type_to_odm_ic_type(rtw_get_chip_type(adapter));
++
++	rtw_warn_on(!ic_type);
++
++	ODM_CmnInfoInit(odm, ODM_CMNINFO_IC_TYPE, ic_type);
++}
++
++inline void rtw_odm_set_force_igi_lb(_adapter *adapter, u8 lb)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++
++	hal_data->u1ForcedIgiLb = lb;
++}
++
++inline u8 rtw_odm_get_force_igi_lb(_adapter *adapter)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++
++	return hal_data->u1ForcedIgiLb;
++}
++
++void rtw_odm_adaptivity_ver_msg(void *sel, _adapter *adapter)
++{
++	RTW_PRINT_SEL(sel, "ADAPTIVITY_VERSION "ADAPTIVITY_VERSION"\n");
++}
++
++#define RTW_ADAPTIVITY_EN_DISABLE 0
++#define RTW_ADAPTIVITY_EN_ENABLE 1
++
++void rtw_odm_adaptivity_en_msg(void *sel, _adapter *adapter)
++{
++	struct registry_priv *regsty = &adapter->registrypriv;
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	DM_ODM_T *odm = &hal_data->odmpriv;
++
++	RTW_PRINT_SEL(sel, "RTW_ADAPTIVITY_EN_");
++
++	if (regsty->adaptivity_en == RTW_ADAPTIVITY_EN_DISABLE)
++		_RTW_PRINT_SEL(sel, "DISABLE\n");
++	else if (regsty->adaptivity_en == RTW_ADAPTIVITY_EN_ENABLE)
++		_RTW_PRINT_SEL(sel, "ENABLE\n");
++	else
++		_RTW_PRINT_SEL(sel, "INVALID\n");
++}
++
++#define RTW_ADAPTIVITY_MODE_NORMAL 0
++#define RTW_ADAPTIVITY_MODE_CARRIER_SENSE 1
++
++void rtw_odm_adaptivity_mode_msg(void *sel, _adapter *adapter)
++{
++	struct registry_priv *regsty = &adapter->registrypriv;
++
++	RTW_PRINT_SEL(sel, "RTW_ADAPTIVITY_MODE_");
++
++	if (regsty->adaptivity_mode == RTW_ADAPTIVITY_MODE_NORMAL)
++		_RTW_PRINT_SEL(sel, "NORMAL\n");
++	else if (regsty->adaptivity_mode == RTW_ADAPTIVITY_MODE_CARRIER_SENSE)
++		_RTW_PRINT_SEL(sel, "CARRIER_SENSE\n");
++	else
++		_RTW_PRINT_SEL(sel, "INVALID\n");
++}
++
++#define RTW_ADAPTIVITY_DML_DISABLE 0
++#define RTW_ADAPTIVITY_DML_ENABLE 1
++
++void rtw_odm_adaptivity_dml_msg(void *sel, _adapter *adapter)
++{
++	struct registry_priv *regsty = &adapter->registrypriv;
++
++	RTW_PRINT_SEL(sel, "RTW_ADAPTIVITY_DML_");
++
++	if (regsty->adaptivity_dml == RTW_ADAPTIVITY_DML_DISABLE)
++		_RTW_PRINT_SEL(sel, "DISABLE\n");
++	else if (regsty->adaptivity_dml == RTW_ADAPTIVITY_DML_ENABLE)
++		_RTW_PRINT_SEL(sel, "ENABLE\n");
++	else
++		_RTW_PRINT_SEL(sel, "INVALID\n");
++}
++
++void rtw_odm_adaptivity_dc_backoff_msg(void *sel, _adapter *adapter)
++{
++	struct registry_priv *regsty = &adapter->registrypriv;
++
++	RTW_PRINT_SEL(sel, "RTW_ADAPTIVITY_DC_BACKOFF:%u\n", regsty->adaptivity_dc_backoff);
++}
++
++void rtw_odm_adaptivity_config_msg(void *sel, _adapter *adapter)
++{
++	rtw_odm_adaptivity_ver_msg(sel, adapter);
++	rtw_odm_adaptivity_en_msg(sel, adapter);
++	rtw_odm_adaptivity_mode_msg(sel, adapter);
++	rtw_odm_adaptivity_dml_msg(sel, adapter);
++	rtw_odm_adaptivity_dc_backoff_msg(sel, adapter);
++}
++
++bool rtw_odm_adaptivity_needed(_adapter *adapter)
++{
++	struct registry_priv *regsty = &adapter->registrypriv;
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	bool ret = _FALSE;
++
++	if (regsty->adaptivity_en == RTW_ADAPTIVITY_EN_ENABLE)
++		ret = _TRUE;
++
++	return ret;
++}
++
++void rtw_odm_adaptivity_parm_msg(void *sel, _adapter *adapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(adapter);
++	DM_ODM_T *odm = &pHalData->odmpriv;
++
++	rtw_odm_adaptivity_config_msg(sel, adapter);
++
++	RTW_PRINT_SEL(sel, "%10s %16s %16s %22s %12s\n"
++		, "TH_L2H_ini", "TH_EDCCA_HL_diff", "TH_L2H_ini_mode2", "TH_EDCCA_HL_diff_mode2", "EDCCA_enable");
++	RTW_PRINT_SEL(sel, "0x%-8x %-16d 0x%-14x %-22d %-12d\n"
++		, (u8)odm->TH_L2H_ini
++		, odm->TH_EDCCA_HL_diff
++		, (u8)odm->TH_L2H_ini_mode2
++		, odm->TH_EDCCA_HL_diff_mode2
++		, odm->EDCCA_enable
++	);
++
++	RTW_PRINT_SEL(sel, "%15s %9s\n", "AdapEnableState", "Adap_Flag");
++	RTW_PRINT_SEL(sel, "%-15x %-9x\n"
++		, odm->Adaptivity_enable
++		, odm->adaptivity_flag
++	);
++}
++
++void rtw_odm_adaptivity_parm_set(_adapter *adapter, s8 TH_L2H_ini, s8 TH_EDCCA_HL_diff, s8 TH_L2H_ini_mode2, s8 TH_EDCCA_HL_diff_mode2, u8 EDCCA_enable)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(adapter);
++	DM_ODM_T *odm = &pHalData->odmpriv;
++
++	odm->TH_L2H_ini = TH_L2H_ini;
++	odm->TH_EDCCA_HL_diff = TH_EDCCA_HL_diff;
++	odm->TH_L2H_ini_mode2 = TH_L2H_ini_mode2;
++	odm->TH_EDCCA_HL_diff_mode2 = TH_EDCCA_HL_diff_mode2;
++	odm->EDCCA_enable = EDCCA_enable;
++}
++
++void rtw_odm_get_perpkt_rssi(void *sel, _adapter *adapter)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	DM_ODM_T *odm = &(hal_data->odmpriv);
++
++	RTW_PRINT_SEL(sel, "RxRate = %s, RSSI_A = %d(%%), RSSI_B = %d(%%)\n",
++		      HDATA_RATE(odm->RxRate), odm->RSSI_A, odm->RSSI_B);
++}
++
++
++void rtw_odm_acquirespinlock(_adapter *adapter,	RT_SPINLOCK_TYPE type)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(adapter);
++	_irqL irqL;
++
++	switch (type) {
++	case RT_IQK_SPINLOCK:
++		_enter_critical_bh(&pHalData->IQKSpinLock, &irqL);
++	default:
++		break;
++	}
++}
++
++void rtw_odm_releasespinlock(_adapter *adapter,	RT_SPINLOCK_TYPE type)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(adapter);
++	_irqL irqL;
++
++	switch (type) {
++	case RT_IQK_SPINLOCK:
++		_exit_critical_bh(&pHalData->IQKSpinLock, &irqL);
++	default:
++		break;
++	}
++}
++
++#ifdef CONFIG_DFS_MASTER
++inline u8 rtw_odm_get_dfs_domain(_adapter *adapter)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	PDM_ODM_T pDM_Odm = &(hal_data->odmpriv);
++
++	return pDM_Odm->DFS_RegionDomain;
++}
++
++inline VOID rtw_odm_radar_detect_reset(_adapter *adapter)
++{
++	phydm_radar_detect_reset(GET_ODM(adapter));
++}
++
++inline VOID rtw_odm_radar_detect_disable(_adapter *adapter)
++{
++	phydm_radar_detect_disable(GET_ODM(adapter));
++}
++
++/* called after ch, bw is set */
++inline VOID rtw_odm_radar_detect_enable(_adapter *adapter)
++{
++	phydm_radar_detect_enable(GET_ODM(adapter));
++}
++
++inline BOOLEAN rtw_odm_radar_detect(_adapter *adapter)
++{
++	return phydm_radar_detect(GET_ODM(adapter));
++}
++#endif /* CONFIG_DFS_MASTER */
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_p2p.c b/drivers/net/wireless/rtl8812au/core/rtw_p2p.c
+new file mode 100644
+index 0000000..ca69e57
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_p2p.c
+@@ -0,0 +1,5200 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_P2P_C_
++
++#include <drv_types.h>
++
++#ifdef CONFIG_P2P
++
++int rtw_p2p_is_channel_list_ok(u8 desired_ch, u8 *ch_list, u8 ch_cnt)
++{
++	int found = 0, i = 0;
++
++	for (i = 0; i < ch_cnt; i++) {
++		if (ch_list[i] == desired_ch) {
++			found = 1;
++			break;
++		}
++	}
++	return found ;
++}
++
++int is_any_client_associated(_adapter *padapter)
++{
++	return padapter->stapriv.asoc_list_cnt ? _TRUE : _FALSE;
++}
++
++static u32 go_add_group_info_attr(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	_irqL irqL;
++	_list	*phead, *plist;
++	u32 len = 0;
++	u16 attr_len = 0;
++	u8 tmplen, *pdata_attr, *pstart, *pcur;
++	struct sta_info *psta = NULL;
++	_adapter *padapter = pwdinfo->padapter;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	pdata_attr = rtw_zmalloc(MAX_P2P_IE_LEN);
++
++	if (NULL == pdata_attr) {
++		RTW_INFO("%s pdata_attr malloc failed\n", __FUNCTION__);
++		goto _exit;
++	}
++
++	pstart = pdata_attr;
++	pcur = pdata_attr;
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++
++	/* look up sta asoc_queue */
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++
++		plist = get_next(plist);
++
++
++		if (psta->is_p2p_device) {
++			tmplen = 0;
++
++			pcur++;
++
++			/* P2P device address */
++			_rtw_memcpy(pcur, psta->dev_addr, ETH_ALEN);
++			pcur += ETH_ALEN;
++
++			/* P2P interface address */
++			_rtw_memcpy(pcur, psta->hwaddr, ETH_ALEN);
++			pcur += ETH_ALEN;
++
++			*pcur = psta->dev_cap;
++			pcur++;
++
++			/* *(u16*)(pcur) = cpu_to_be16(psta->config_methods); */
++			RTW_PUT_BE16(pcur, psta->config_methods);
++			pcur += 2;
++
++			_rtw_memcpy(pcur, psta->primary_dev_type, 8);
++			pcur += 8;
++
++			*pcur = psta->num_of_secdev_type;
++			pcur++;
++
++			_rtw_memcpy(pcur, psta->secdev_types_list, psta->num_of_secdev_type * 8);
++			pcur += psta->num_of_secdev_type * 8;
++
++			if (psta->dev_name_len > 0) {
++				/* *(u16*)(pcur) = cpu_to_be16( WPS_ATTR_DEVICE_NAME ); */
++				RTW_PUT_BE16(pcur, WPS_ATTR_DEVICE_NAME);
++				pcur += 2;
++
++				/* *(u16*)(pcur) = cpu_to_be16( psta->dev_name_len ); */
++				RTW_PUT_BE16(pcur, psta->dev_name_len);
++				pcur += 2;
++
++				_rtw_memcpy(pcur, psta->dev_name, psta->dev_name_len);
++				pcur += psta->dev_name_len;
++			}
++
++
++			tmplen = (u8)(pcur - pstart);
++
++			*pstart = (tmplen - 1);
++
++			attr_len += tmplen;
++
++			/* pstart += tmplen; */
++			pstart = pcur;
++
++		}
++
++
++	}
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	if (attr_len > 0)
++		len = rtw_set_p2p_attr_content(pbuf, P2P_ATTR_GROUP_INFO, attr_len, pdata_attr);
++
++	rtw_mfree(pdata_attr, MAX_P2P_IE_LEN);
++
++_exit:
++	return len;
++
++}
++
++static void issue_group_disc_req(struct wifidirect_info *pwdinfo, u8 *da)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	_adapter *padapter = pwdinfo->padapter;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	unsigned char category = RTW_WLAN_CATEGORY_P2P;/* P2P action frame	 */
++	u32	p2poui = cpu_to_be32(P2POUI);
++	u8	oui_subtype = P2P_GO_DISC_REQUEST;
++	u8	dialogToken = 0;
++
++	RTW_INFO("[%s]\n", __FUNCTION__);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pwdinfo->interface_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, pwdinfo->interface_addr, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	/* Build P2P action frame header */
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));
++
++	/* there is no IE in this P2P action frame */
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++}
++
++static void issue_p2p_devdisc_resp(struct wifidirect_info *pwdinfo, u8 *da, u8 status, u8 dialogToken)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	_adapter *padapter = pwdinfo->padapter;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_DEVDISC_RESP;
++	u8 p2pie[8] = { 0x00 };
++	u32 p2pielen = 0;
++
++	RTW_INFO("[%s]\n", __FUNCTION__);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pwdinfo->device_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, pwdinfo->device_addr, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	/* Build P2P public action frame header */
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));
++
++
++	/* Build P2P IE */
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/* P2P_ATTR_STATUS */
++	p2pielen += rtw_set_p2p_attr_content(&p2pie[p2pielen], P2P_ATTR_STATUS, 1, &status);
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, p2pie, &pattrib->pktlen);
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++}
++
++static void issue_p2p_provision_resp(struct wifidirect_info *pwdinfo, u8 *raddr, u8 *frame_body, u16 config_method)
++{
++	_adapter *padapter = pwdinfo->padapter;
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u8			dialogToken = frame_body[7];	/*	The Dialog Token of provisioning discovery request frame. */
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_PROVISION_DISC_RESP;
++	u8			wpsie[100] = { 0x00 };
++	u8			wpsielen = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, raddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));
++
++	wpsielen = 0;
++	/*	WPS OUI */
++	/* *(u32*) ( wpsie ) = cpu_to_be32( WPSOUI ); */
++	RTW_PUT_BE32(wpsie, WPSOUI);
++	wpsielen += 4;
++
++#if 0
++	/*	WPS version */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++	wpsielen += 2;
++
++	/*	Value: */
++	wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++#endif
++
++	/*	Config Method */
++	/*	Type: */
++	/* *(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_CONF_METHOD ); */
++	RTW_PUT_BE16(wpsie + wpsielen, WPS_ATTR_CONF_METHOD);
++	wpsielen += 2;
++
++	/*	Length: */
++	/* *(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0002 ); */
++	RTW_PUT_BE16(wpsie + wpsielen, 0x0002);
++	wpsielen += 2;
++
++	/*	Value: */
++	/* *(u16*) ( wpsie + wpsielen ) = cpu_to_be16( config_method ); */
++	RTW_PUT_BE16(wpsie + wpsielen, config_method);
++	wpsielen += 2;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen);
++
++#ifdef CONFIG_WFD
++	wfdielen = build_provdisc_resp_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	return;
++
++}
++
++static void issue_p2p_presence_resp(struct wifidirect_info *pwdinfo, u8 *da, u8 status, u8 dialogToken)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	_adapter *padapter = pwdinfo->padapter;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	unsigned char category = RTW_WLAN_CATEGORY_P2P;/* P2P action frame	 */
++	u32	p2poui = cpu_to_be32(P2POUI);
++	u8	oui_subtype = P2P_PRESENCE_RESPONSE;
++	u8 p2pie[MAX_P2P_IE_LEN] = { 0x00 };
++	u8 noa_attr_content[32] = { 0x00 };
++	u32 p2pielen = 0;
++
++	RTW_INFO("[%s]\n", __FUNCTION__);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pwdinfo->interface_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, pwdinfo->interface_addr, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	/* Build P2P action frame header */
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));
++
++
++	/* Add P2P IE header */
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/* Add Status attribute in P2P IE */
++	p2pielen += rtw_set_p2p_attr_content(&p2pie[p2pielen], P2P_ATTR_STATUS, 1, &status);
++
++	/* Add NoA attribute in P2P IE */
++	noa_attr_content[0] = 0x1;/* index */
++	noa_attr_content[1] = 0x0;/* CTWindow and OppPS Parameters */
++
++	/* todo: Notice of Absence Descriptor(s) */
++
++	p2pielen += rtw_set_p2p_attr_content(&p2pie[p2pielen], P2P_ATTR_NOA, 2, noa_attr_content);
++
++
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, p2pie, &(pattrib->pktlen));
++
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++
++}
++
++u32 build_beacon_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 p2pie[MAX_P2P_IE_LEN] = { 0x00 };
++	u16 capability = 0;
++	u32 len = 0, p2pielen = 0;
++
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++
++	/*	According to the P2P Specification, the beacon frame should contain 3 P2P attributes */
++	/*	1. P2P Capability */
++	/*	2. P2P Device ID */
++	/*	3. Notice of Absence ( NOA )	 */
++
++	/*	P2P Capability ATTR */
++	/*	Type: */
++	/*	Length: */
++	/*	Value: */
++	/*	Device Capability Bitmap, 1 byte */
++	/*	Be able to participate in additional P2P Groups and */
++	/*	support the P2P Invitation Procedure	 */
++	/*	Group Capability Bitmap, 1 byte	 */
++	capability = P2P_DEVCAP_INVITATION_PROC | P2P_DEVCAP_CLIENT_DISCOVERABILITY;
++	capability |= ((P2P_GRPCAP_GO | P2P_GRPCAP_INTRABSS) << 8);
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_PROVISIONING_ING))
++		capability |= (P2P_GRPCAP_GROUP_FORMATION << 8);
++
++	capability = cpu_to_le16(capability);
++
++	p2pielen += rtw_set_p2p_attr_content(&p2pie[p2pielen], P2P_ATTR_CAPABILITY, 2, (u8 *)&capability);
++
++
++	/* P2P Device ID ATTR */
++	p2pielen += rtw_set_p2p_attr_content(&p2pie[p2pielen], P2P_ATTR_DEVICE_ID, ETH_ALEN, pwdinfo->device_addr);
++
++
++	/* Notice of Absence ATTR */
++	/*	Type:  */
++	/*	Length: */
++	/*	Value: */
++
++	/* go_add_noa_attr(pwdinfo); */
++
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &len);
++
++
++	return len;
++
++}
++
++#ifdef CONFIG_WFD
++u32 build_beacon_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u16 val16 = 0;
++	u32 len = 0, wfdielen = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110812 */
++	/*	According to the WFD Specification, the beacon frame should contain 4 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID */
++	/*	3. Coupled Sink Information */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++
++	if (P2P_ROLE_GO == pwdinfo->role) {
++		if (is_any_client_associated(pwdinfo->padapter)) {
++			/*	WFD primary sink + WiFi Direct mode + WSD (WFD Service Discovery) */
++			val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_WSD;
++			RTW_PUT_BE16(wfdie + wfdielen, val16);
++		} else {
++			/*	WFD primary sink + available for WFD session + WiFi Direct mode + WSD (WFD Service Discovery) */
++			val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD;
++			RTW_PUT_BE16(wfdie + wfdielen, val16);
++		}
++
++	} else {
++		/*	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++		val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD;
++		RTW_PUT_BE16(wfdie + wfdielen, val16);
++	}
++
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_probe_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u16 val16 = 0;
++	u32 len = 0, wfdielen = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110812 */
++	/*	According to the WFD Specification, the probe request frame should contain 4 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID */
++	/*	3. Coupled Sink Information */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++
++	if (1 == pwdinfo->wfd_tdls_enable) {
++		/*	WFD primary sink + available for WFD session + WiFi TDLS mode + WSC ( WFD Service Discovery )	 */
++		val16 = pwfd_info->wfd_device_type |
++			WFD_DEVINFO_SESSION_AVAIL |
++			WFD_DEVINFO_WSD |
++			WFD_DEVINFO_PC_TDLS;
++		RTW_PUT_BE16(wfdie + wfdielen, val16);
++	} else {
++		/*	WFD primary sink + available for WFD session + WiFi Direct mode + WSC ( WFD Service Discovery )	 */
++		val16 = pwfd_info->wfd_device_type |
++			WFD_DEVINFO_SESSION_AVAIL |
++			WFD_DEVINFO_WSD;
++		RTW_PUT_BE16(wfdie + wfdielen, val16);
++	}
++
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_probe_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf, u8 tunneled)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len = 0, wfdielen = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110812 */
++	/*	According to the WFD Specification, the probe response frame should contain 4 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID */
++	/*	3. Coupled Sink Information */
++	/*	4. WFD Session Information */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + available for WFD session + WiFi Direct mode */
++
++	if (_TRUE == pwdinfo->session_available) {
++		if (P2P_ROLE_GO == pwdinfo->role) {
++			if (is_any_client_associated(pwdinfo->padapter)) {
++				if (pwdinfo->wfd_tdls_enable) {
++					/*	TDLS mode + WSD ( WFD Service Discovery ) */
++					RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_PC_TDLS | WFD_DEVINFO_HDCP_SUPPORT);
++				} else {
++					/*	WiFi Direct mode + WSD ( WFD Service Discovery ) */
++					RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_HDCP_SUPPORT);
++				}
++			} else {
++				if (pwdinfo->wfd_tdls_enable) {
++					/*	available for WFD session + TDLS mode + WSD ( WFD Service Discovery ) */
++					RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD | WFD_DEVINFO_PC_TDLS | WFD_DEVINFO_HDCP_SUPPORT);
++				} else {
++					/*	available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++					RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD | WFD_DEVINFO_HDCP_SUPPORT);
++				}
++			}
++		} else {
++			if (pwdinfo->wfd_tdls_enable) {
++				/*	available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++				RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD | WFD_DEVINFO_PC_TDLS | WFD_DEVINFO_HDCP_SUPPORT);
++			} else {
++
++				/*	available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++				RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD | WFD_DEVINFO_HDCP_SUPPORT);
++			}
++		}
++	} else {
++		if (pwdinfo->wfd_tdls_enable)
++			RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_PC_TDLS | WFD_DEVINFO_HDCP_SUPPORT);
++		else
++			RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_HDCP_SUPPORT);
++
++	}
++
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		/*	WFD Session Information ATTR */
++		/*	Type: */
++		wfdie[wfdielen++] = WFD_ATTR_SESSION_INFO;
++
++		/*	Length: */
++		/*	Note: In the WFD specification, the size of length field is 2. */
++		RTW_PUT_BE16(wfdie + wfdielen, 0x0000);
++		wfdielen += 2;
++
++		/*	Todo: to add the list of WFD device info descriptor in WFD group. */
++
++	}
++#ifdef CONFIG_CONCURRENT_MODE
++#ifdef CONFIG_TDLS
++	{
++		int i;
++		_adapter *iface = NULL;
++		struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if ((iface) && rtw_is_adapter_up(iface)) {
++				if (iface == padapter)
++					continue;
++
++				if ((tunneled == 0) && (iface->wdinfo.wfd_tdls_enable == 1)) {
++					/*	Alternative MAC Address ATTR
++						Type:					*/
++					wfdie[wfdielen++] = WFD_ATTR_ALTER_MAC;
++
++					/*	Length:
++						Note: In the WFD specification, the size of length field is 2.*/
++					RTW_PUT_BE16(wfdie + wfdielen,  ETH_ALEN);
++					wfdielen += 2;
++
++					/*	Value:
++						Alternative MAC Address*/
++					_rtw_memcpy(wfdie + wfdielen, adapter_mac_addr(iface), ETH_ALEN);
++					wfdielen += ETH_ALEN;
++				}
++			}
++		}
++	}
++
++#endif /* CONFIG_TDLS*/
++#endif /* CONFIG_CONCURRENT_MODE */
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_assoc_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u16 val16 = 0;
++	u32 len = 0, wfdielen = 0;
++	_adapter					*padapter = NULL;
++	struct mlme_priv			*pmlmepriv = NULL;
++	struct wifi_display_info		*pwfd_info = NULL;
++
++	padapter = pwdinfo->padapter;
++	pmlmepriv = &padapter->mlmepriv;
++	pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE) || rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE))
++		goto exit;
++
++	/* WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110812 */
++	/*	According to the WFD Specification, the probe request frame should contain 4 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID */
++	/*	3. Coupled Sink Information */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++	val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD;
++	RTW_PUT_BE16(wfdie + wfdielen, val16);
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_assoc_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len = 0, wfdielen = 0;
++	u16 val16 = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110812 */
++	/*	According to the WFD Specification, the probe request frame should contain 4 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID */
++	/*	3. Coupled Sink Information */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++	val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD;
++	RTW_PUT_BE16(wfdie + wfdielen, val16);
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_nego_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len = 0, wfdielen = 0;
++	u16 val16 = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110825 */
++	/*	According to the WFD Specification, the negotiation request frame should contain 3 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID ( Optional ) */
++	/*	3. Local IP Adress ( Optional ) */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + WiFi Direct mode + WSD ( WFD Service Discovery ) + WFD Session Available */
++	val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_SESSION_AVAIL;
++	RTW_PUT_BE16(wfdie + wfdielen, val16);
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_nego_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len = 0, wfdielen = 0;
++	u16 val16 = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110825 */
++	/*	According to the WFD Specification, the negotiation request frame should contain 3 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID ( Optional ) */
++	/*	3. Local IP Adress ( Optional ) */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + WiFi Direct mode + WSD ( WFD Service Discovery ) + WFD Session Available */
++	val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_SESSION_AVAIL;
++	RTW_PUT_BE16(wfdie + wfdielen, val16);
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_nego_confirm_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len = 0, wfdielen = 0;
++	u16 val16 = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110825 */
++	/*	According to the WFD Specification, the negotiation request frame should contain 3 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID ( Optional ) */
++	/*	3. Local IP Adress ( Optional ) */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + WiFi Direct mode + WSD ( WFD Service Discovery ) + WFD Session Available */
++	val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_WSD | WFD_DEVINFO_SESSION_AVAIL;
++	RTW_PUT_BE16(wfdie + wfdielen, val16);
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_invitation_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len = 0, wfdielen = 0;
++	u16 val16 = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110825 */
++	/*	According to the WFD Specification, the provision discovery request frame should contain 3 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID ( Optional ) */
++	/*	3. Local IP Adress ( Optional ) */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++	val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD;
++	RTW_PUT_BE16(wfdie + wfdielen, val16);
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++	if (P2P_ROLE_GO == pwdinfo->role) {
++		/*	WFD Session Information ATTR */
++		/*	Type: */
++		wfdie[wfdielen++] = WFD_ATTR_SESSION_INFO;
++
++		/*	Length: */
++		/*	Note: In the WFD specification, the size of length field is 2. */
++		RTW_PUT_BE16(wfdie + wfdielen, 0x0000);
++		wfdielen += 2;
++
++		/*	Todo: to add the list of WFD device info descriptor in WFD group. */
++
++	}
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_invitation_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u16 val16 = 0;
++	u32 len = 0, wfdielen = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110825 */
++	/*	According to the WFD Specification, the provision discovery request frame should contain 3 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID ( Optional ) */
++	/*	3. Local IP Adress ( Optional ) */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++	val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD;
++	RTW_PUT_BE16(wfdie + wfdielen, val16);
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++	if (P2P_ROLE_GO == pwdinfo->role) {
++		/*	WFD Session Information ATTR */
++		/*	Type: */
++		wfdie[wfdielen++] = WFD_ATTR_SESSION_INFO;
++
++		/*	Length: */
++		/*	Note: In the WFD specification, the size of length field is 2. */
++		RTW_PUT_BE16(wfdie + wfdielen, 0x0000);
++		wfdielen += 2;
++
++		/*	Todo: to add the list of WFD device info descriptor in WFD group. */
++
++	}
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_provdisc_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len = 0, wfdielen = 0;
++	u16 val16 = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110825 */
++	/*	According to the WFD Specification, the provision discovery request frame should contain 3 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID ( Optional ) */
++	/*	3. Local IP Adress ( Optional ) */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++	val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD;
++	RTW_PUT_BE16(wfdie + wfdielen, val16);
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++
++u32 build_provdisc_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u32 len = 0, wfdielen = 0;
++	u16 val16 = 0;
++	_adapter *padapter = pwdinfo->padapter;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->wdinfo.wfd_info;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++	/*	WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/*	WFA WFD v1.0 */
++
++	/*	Commented by Albert 20110825 */
++	/*	According to the WFD Specification, the provision discovery response frame should contain 3 WFD attributes */
++	/*	1. WFD Device Information */
++	/*	2. Associated BSSID ( Optional ) */
++	/*	3. Local IP Adress ( Optional ) */
++
++
++	/*	WFD Device Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value1: */
++	/*	WFD device information */
++	/*	WFD primary sink + available for WFD session + WiFi Direct mode + WSD ( WFD Service Discovery ) */
++	val16 = pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL | WFD_DEVINFO_WSD;
++	RTW_PUT_BE16(wfdie + wfdielen, val16);
++	wfdielen += 2;
++
++	/*	Value2: */
++	/*	Session Management Control Port */
++	/*	Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->rtsp_ctrlport);
++	wfdielen += 2;
++
++	/*	Value3: */
++	/*	WFD Device Maximum Throughput */
++	/*	300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/*	Associated BSSID ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	wfdielen += ETH_ALEN;
++
++	/*	Coupled Sink Information ATTR */
++	/*	Type: */
++	wfdie[wfdielen++] = WFD_ATTR_COUPLED_SINK_INFO;
++
++	/*	Length: */
++	/*	Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0007);
++	wfdielen += 2;
++
++	/*	Value: */
++	/*	Coupled Sink Status bitmap */
++	/*	Not coupled/available for Coupling */
++	wfdie[wfdielen++] = 0;
++	/* MAC Addr. */
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++	wfdie[wfdielen++] = 0;
++
++	rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, &len);
++
++exit:
++	return len;
++}
++#endif /* CONFIG_WFD */
++
++u32 build_probe_resp_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u8 p2pie[MAX_P2P_IE_LEN] = { 0x00 };
++	u32 len = 0, p2pielen = 0;
++#ifdef CONFIG_INTEL_WIDI
++	struct mlme_priv *pmlmepriv = &(pwdinfo->padapter->mlmepriv);
++	u8 zero_array_check[L2SDTA_SERVICE_VE_LEN] = { 0x00 };
++	u8 widi_version = 0, i = 0;
++
++	if (_rtw_memcmp(pmlmepriv->sa_ext, zero_array_check, L2SDTA_SERVICE_VE_LEN) == _FALSE)
++		widi_version = 35;
++	else if (pmlmepriv->num_p2p_sdt != 0)
++		widi_version = 40;
++#endif /* CONFIG_INTEL_WIDI */
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20100907 */
++	/*	According to the P2P Specification, the probe response frame should contain 5 P2P attributes */
++	/*	1. P2P Capability */
++	/*	2. Extended Listen Timing */
++	/*	3. Notice of Absence ( NOA )	( Only GO needs this ) */
++	/*	4. Device Info */
++	/*	5. Group Info	( Only GO need this ) */
++
++	/*	P2P Capability ATTR */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CAPABILITY;
++
++	/*	Length: */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0002 ); */
++	RTW_PUT_LE16(p2pie + p2pielen, 0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Device Capability Bitmap, 1 byte */
++	p2pie[p2pielen++] = DMP_P2P_DEVCAP_SUPPORT;
++
++	/*	Group Capability Bitmap, 1 byte */
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		p2pie[p2pielen] = (P2P_GRPCAP_GO | P2P_GRPCAP_INTRABSS);
++
++		if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_PROVISIONING_ING))
++			p2pie[p2pielen] |= P2P_GRPCAP_GROUP_FORMATION;
++
++		p2pielen++;
++	} else if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_DEVICE)) {
++		/*	Group Capability Bitmap, 1 byte */
++		if (pwdinfo->persistent_supported)
++			p2pie[p2pielen++] = P2P_GRPCAP_PERSISTENT_GROUP | DMP_P2P_GRPCAP_SUPPORT;
++		else
++			p2pie[p2pielen++] = DMP_P2P_GRPCAP_SUPPORT;
++	}
++
++	/*	Extended Listen Timing ATTR */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_EX_LISTEN_TIMING;
++
++	/*	Length: */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0004 ); */
++	RTW_PUT_LE16(p2pie + p2pielen, 0x0004);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Availability Period */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0xFFFF ); */
++	RTW_PUT_LE16(p2pie + p2pielen, 0xFFFF);
++	p2pielen += 2;
++
++	/*	Availability Interval */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0xFFFF ); */
++	RTW_PUT_LE16(p2pie + p2pielen, 0xFFFF);
++	p2pielen += 2;
++
++
++	/* Notice of Absence ATTR */
++	/*	Type:  */
++	/*	Length: */
++	/*	Value: */
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		/* go_add_noa_attr(pwdinfo); */
++	}
++
++	/*	Device Info ATTR */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	21->P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes)  */
++	/*	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes) */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 21 + pwdinfo->device_name_len ); */
++#ifdef CONFIG_INTEL_WIDI
++	if (widi_version == 35)
++		RTW_PUT_LE16(p2pie + p2pielen, 21 + 8 + pwdinfo->device_name_len);
++	else if (widi_version == 40)
++		RTW_PUT_LE16(p2pie + p2pielen, 21 + 8 * pmlmepriv->num_p2p_sdt + pwdinfo->device_name_len);
++	else
++#endif /* CONFIG_INTEL_WIDI */
++		RTW_PUT_LE16(p2pie + p2pielen, 21 + pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	P2P Device Address */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_addr, ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++	/*	Config Method */
++	/*	This field should be big endian. Noted by P2P specification. */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( pwdinfo->supported_wps_cm ); */
++	RTW_PUT_BE16(p2pie + p2pielen, pwdinfo->supported_wps_cm);
++	p2pielen += 2;
++
++#ifdef CONFIG_INTEL_WIDI
++	if (widi_version == 40) {
++		/*	Primary Device Type */
++		/*	Category ID */
++		/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_CID_MULIT_MEDIA ); */
++		RTW_PUT_BE16(p2pie + p2pielen, pmlmepriv->p2p_pdt_cid);
++		p2pielen += 2;
++
++		/*	OUI */
++		/* *(u32*) ( p2pie + p2pielen ) = cpu_to_be32( WPSOUI ); */
++		RTW_PUT_BE32(p2pie + p2pielen, WPSOUI);
++		p2pielen += 4;
++
++		/*	Sub Category ID */
++		/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_SCID_MEDIA_SERVER ); */
++		RTW_PUT_BE16(p2pie + p2pielen, pmlmepriv->p2p_pdt_scid);
++		p2pielen += 2;
++	} else
++#endif /* CONFIG_INTEL_WIDI */
++	{
++		/*	Primary Device Type */
++		/*	Category ID */
++		/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_CID_MULIT_MEDIA ); */
++		RTW_PUT_BE16(p2pie + p2pielen, WPS_PDT_CID_MULIT_MEDIA);
++		p2pielen += 2;
++
++		/*	OUI */
++		/* *(u32*) ( p2pie + p2pielen ) = cpu_to_be32( WPSOUI ); */
++		RTW_PUT_BE32(p2pie + p2pielen, WPSOUI);
++		p2pielen += 4;
++
++		/*	Sub Category ID */
++		/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_SCID_MEDIA_SERVER ); */
++		RTW_PUT_BE16(p2pie + p2pielen, WPS_PDT_SCID_MEDIA_SERVER);
++		p2pielen += 2;
++	}
++
++	/*	Number of Secondary Device Types */
++#ifdef CONFIG_INTEL_WIDI
++	if (widi_version == 35) {
++		p2pie[p2pielen++] = 0x01;
++
++		RTW_PUT_BE16(p2pie + p2pielen, WPS_PDT_CID_DISPLAYS);
++		p2pielen += 2;
++
++		RTW_PUT_BE32(p2pie + p2pielen, INTEL_DEV_TYPE_OUI);
++		p2pielen += 4;
++
++		RTW_PUT_BE16(p2pie + p2pielen, P2P_SCID_WIDI_CONSUMER_SINK);
++		p2pielen += 2;
++	} else if (widi_version == 40) {
++		p2pie[p2pielen++] = pmlmepriv->num_p2p_sdt;
++		for (; i < pmlmepriv->num_p2p_sdt; i++) {
++			RTW_PUT_BE16(p2pie + p2pielen, pmlmepriv->p2p_sdt_cid[i]);
++			p2pielen += 2;
++
++			RTW_PUT_BE32(p2pie + p2pielen, INTEL_DEV_TYPE_OUI);
++			p2pielen += 4;
++
++			RTW_PUT_BE16(p2pie + p2pielen, pmlmepriv->p2p_sdt_scid[i]);
++			p2pielen += 2;
++		}
++	} else
++#endif /* CONFIG_INTEL_WIDI */
++		p2pie[p2pielen++] = 0x00;	/*	No Secondary Device Type List */
++
++	/*	Device Name */
++	/*	Type: */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_ATTR_DEVICE_NAME ); */
++	RTW_PUT_BE16(p2pie + p2pielen, WPS_ATTR_DEVICE_NAME);
++	p2pielen += 2;
++
++	/*	Length: */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( pwdinfo->device_name_len ); */
++	RTW_PUT_BE16(p2pie + p2pielen, pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_name, pwdinfo->device_name_len);
++	p2pielen += pwdinfo->device_name_len;
++
++	/* Group Info ATTR */
++	/*	Type: */
++	/*	Length: */
++	/*	Value: */
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++		p2pielen += go_add_group_info_attr(pwdinfo, p2pie + p2pielen);
++
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &len);
++
++
++	return len;
++
++}
++
++u32 build_prov_disc_request_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf, u8 *pssid, u8 ussidlen, u8 *pdev_raddr)
++{
++	u8 p2pie[MAX_P2P_IE_LEN] = { 0x00 };
++	u32 len = 0, p2pielen = 0;
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20110301 */
++	/*	According to the P2P Specification, the provision discovery request frame should contain 3 P2P attributes */
++	/*	1. P2P Capability */
++	/*	2. Device Info */
++	/*	3. Group ID ( When joining an operating P2P Group ) */
++
++	/*	P2P Capability ATTR */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CAPABILITY;
++
++	/*	Length: */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0002 ); */
++	RTW_PUT_LE16(p2pie + p2pielen, 0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Device Capability Bitmap, 1 byte */
++	p2pie[p2pielen++] = DMP_P2P_DEVCAP_SUPPORT;
++
++	/*	Group Capability Bitmap, 1 byte */
++	if (pwdinfo->persistent_supported)
++		p2pie[p2pielen++] = P2P_GRPCAP_PERSISTENT_GROUP | DMP_P2P_GRPCAP_SUPPORT;
++	else
++		p2pie[p2pielen++] = DMP_P2P_GRPCAP_SUPPORT;
++
++
++	/*	Device Info ATTR */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	21->P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes)  */
++	/*	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes) */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 21 + pwdinfo->device_name_len ); */
++	RTW_PUT_LE16(p2pie + p2pielen, 21 + pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	P2P Device Address */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_addr, ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++	/*	Config Method */
++	/*	This field should be big endian. Noted by P2P specification. */
++	if (pwdinfo->ui_got_wps_info == P2P_GOT_WPSINFO_PBC) {
++		/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_CONFIG_METHOD_PBC ); */
++		RTW_PUT_BE16(p2pie + p2pielen, WPS_CONFIG_METHOD_PBC);
++	} else {
++		/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_CONFIG_METHOD_DISPLAY ); */
++		RTW_PUT_BE16(p2pie + p2pielen, WPS_CONFIG_METHOD_DISPLAY);
++	}
++
++	p2pielen += 2;
++
++	/*	Primary Device Type */
++	/*	Category ID */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_CID_MULIT_MEDIA ); */
++	RTW_PUT_BE16(p2pie + p2pielen, WPS_PDT_CID_MULIT_MEDIA);
++	p2pielen += 2;
++
++	/*	OUI */
++	/* *(u32*) ( p2pie + p2pielen ) = cpu_to_be32( WPSOUI ); */
++	RTW_PUT_BE32(p2pie + p2pielen, WPSOUI);
++	p2pielen += 4;
++
++	/*	Sub Category ID */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_PDT_SCID_MEDIA_SERVER ); */
++	RTW_PUT_BE16(p2pie + p2pielen, WPS_PDT_SCID_MEDIA_SERVER);
++	p2pielen += 2;
++
++	/*	Number of Secondary Device Types */
++	p2pie[p2pielen++] = 0x00;	/*	No Secondary Device Type List */
++
++	/*	Device Name */
++	/*	Type: */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( WPS_ATTR_DEVICE_NAME ); */
++	RTW_PUT_BE16(p2pie + p2pielen, WPS_ATTR_DEVICE_NAME);
++	p2pielen += 2;
++
++	/*	Length: */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_be16( pwdinfo->device_name_len ); */
++	RTW_PUT_BE16(p2pie + p2pielen, pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_name, pwdinfo->device_name_len);
++	p2pielen += pwdinfo->device_name_len;
++
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT)) {
++		/*	Added by Albert 2011/05/19 */
++		/*	In this case, the pdev_raddr is the device address of the group owner. */
++
++		/*	P2P Group ID ATTR */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_GROUP_ID;
++
++		/*	Length: */
++		/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( ETH_ALEN + ussidlen ); */
++		RTW_PUT_LE16(p2pie + p2pielen, ETH_ALEN + ussidlen);
++		p2pielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(p2pie + p2pielen, pdev_raddr, ETH_ALEN);
++		p2pielen += ETH_ALEN;
++
++		_rtw_memcpy(p2pie + p2pielen, pssid, ussidlen);
++		p2pielen += ussidlen;
++
++	}
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &len);
++
++
++	return len;
++
++}
++
++
++u32 build_assoc_resp_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf, u8 status_code)
++{
++	u8 p2pie[MAX_P2P_IE_LEN] = { 0x00 };
++	u32 len = 0, p2pielen = 0;
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/* According to the P2P Specification, the Association response frame should contain 2 P2P attributes */
++	/*	1. Status */
++	/*	2. Extended Listen Timing (optional) */
++
++
++	/*	Status ATTR */
++	p2pielen += rtw_set_p2p_attr_content(&p2pie[p2pielen], P2P_ATTR_STATUS, 1, &status_code);
++
++
++	/* Extended Listen Timing ATTR */
++	/*	Type: */
++	/*	Length: */
++	/*	Value: */
++
++
++	pbuf = rtw_set_ie(pbuf, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &len);
++
++	return len;
++
++}
++
++u32 build_deauth_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf)
++{
++	u32 len = 0;
++
++	return len;
++}
++
++u32 process_probe_req_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pframe, uint len)
++{
++	u8 *p;
++	u32 ret = _FALSE;
++	u8 *p2pie;
++	u32	p2pielen = 0;
++	int ssid_len = 0, rate_cnt = 0;
++
++	p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + _PROBEREQ_IE_OFFSET_, _SUPPORTEDRATES_IE_, (int *)&rate_cnt,
++		       len - WLAN_HDR_A3_LEN - _PROBEREQ_IE_OFFSET_);
++
++	if (rate_cnt <= 4) {
++		int i, g_rate = 0;
++
++		for (i = 0; i < rate_cnt; i++) {
++			if (((*(p + 2 + i) & 0xff) != 0x02) &&
++			    ((*(p + 2 + i) & 0xff) != 0x04) &&
++			    ((*(p + 2 + i) & 0xff) != 0x0B) &&
++			    ((*(p + 2 + i) & 0xff) != 0x16))
++				g_rate = 1;
++		}
++
++		if (g_rate == 0) {
++			/*	There is no OFDM rate included in SupportedRates IE of this probe request frame */
++			/*	The driver should response this probe request. */
++			return ret;
++		}
++	} else {
++		/*	rate_cnt > 4 means the SupportRates IE contains the OFDM rate because the count of CCK rates are 4. */
++		/*	We should proceed the following check for this probe request. */
++	}
++
++	/*	Added comments by Albert 20100906 */
++	/*	There are several items we should check here. */
++	/*	1. This probe request frame must contain the P2P IE. (Done) */
++	/*	2. This probe request frame must contain the wildcard SSID. (Done) */
++	/*	3. Wildcard BSSID. (Todo) */
++	/*	4. Destination Address. ( Done in mgt_dispatcher function ) */
++	/*	5. Requested Device Type in WSC IE. (Todo) */
++	/*	6. Device ID attribute in P2P IE. (Todo) */
++
++	p = rtw_get_ie(pframe + WLAN_HDR_A3_LEN + _PROBEREQ_IE_OFFSET_, _SSID_IE_, (int *)&ssid_len,
++		       len - WLAN_HDR_A3_LEN - _PROBEREQ_IE_OFFSET_);
++
++	ssid_len &= 0xff;	/*	Just last 1 byte is valid for ssid len of the probe request */
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_DEVICE) || rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		p2pie = rtw_get_p2p_ie(pframe + WLAN_HDR_A3_LEN + _PROBEREQ_IE_OFFSET_ , len - WLAN_HDR_A3_LEN - _PROBEREQ_IE_OFFSET_ , NULL, &p2pielen);
++		if (p2pie) {
++			if ((p != NULL) && _rtw_memcmp((void *)(p + 2), (void *) pwdinfo->p2p_wildcard_ssid , 7)) {
++				/* todo: */
++				/* Check Requested Device Type attributes in WSC IE. */
++				/* Check Device ID attribute in P2P IE */
++
++				ret = _TRUE;
++			} else if ((p != NULL) && (ssid_len == 0))
++				ret = _TRUE;
++		} else {
++			/* non -p2p device */
++		}
++
++	}
++
++
++	return ret;
++
++}
++
++u32 process_assoc_req_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pframe, uint len, struct sta_info *psta)
++{
++	u8 status_code = P2P_STATUS_SUCCESS;
++	u8 *pbuf, *pattr_content = NULL;
++	u32 attr_contentlen = 0;
++	u16 cap_attr = 0;
++	unsigned short	frame_type, ie_offset = 0;
++	u8 *ies;
++	u32 ies_len;
++	u8 *p2p_ie;
++	u32	p2p_ielen = 0;
++
++	if (!rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO))
++		return P2P_STATUS_FAIL_REQUEST_UNABLE;
++
++	frame_type = GetFrameSubType(pframe);
++	if (frame_type == WIFI_ASSOCREQ)
++		ie_offset = _ASOCREQ_IE_OFFSET_;
++	else /* WIFI_REASSOCREQ */
++		ie_offset = _REASOCREQ_IE_OFFSET_;
++
++	ies = pframe + WLAN_HDR_A3_LEN + ie_offset;
++	ies_len = len - WLAN_HDR_A3_LEN - ie_offset;
++
++	p2p_ie = rtw_get_p2p_ie(ies , ies_len , NULL, &p2p_ielen);
++
++	if (!p2p_ie) {
++		RTW_INFO("[%s] P2P IE not Found!!\n", __FUNCTION__);
++		status_code =  P2P_STATUS_FAIL_INVALID_PARAM;
++	} else
++		RTW_INFO("[%s] P2P IE Found!!\n", __FUNCTION__);
++
++	while (p2p_ie) {
++		/* Check P2P Capability ATTR */
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CAPABILITY, (u8 *)&cap_attr, (uint *) &attr_contentlen)) {
++			RTW_INFO("[%s] Got P2P Capability Attr!!\n", __FUNCTION__);
++			cap_attr = le16_to_cpu(cap_attr);
++			psta->dev_cap = cap_attr & 0xff;
++		}
++
++		/* Check Extended Listen Timing ATTR */
++
++
++		/* Check P2P Device Info ATTR */
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_DEVICE_INFO, NULL, (uint *)&attr_contentlen)) {
++			RTW_INFO("[%s] Got P2P DEVICE INFO Attr!!\n", __FUNCTION__);
++			pattr_content = pbuf = rtw_zmalloc(attr_contentlen);
++			if (pattr_content) {
++				u8 num_of_secdev_type;
++				u16 dev_name_len;
++
++
++				rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_DEVICE_INFO , pattr_content, (uint *)&attr_contentlen);
++
++				_rtw_memcpy(psta->dev_addr, 	pattr_content, ETH_ALEN);/* P2P Device Address */
++
++				pattr_content += ETH_ALEN;
++
++				_rtw_memcpy(&psta->config_methods, pattr_content, 2);/* Config Methods */
++				psta->config_methods = be16_to_cpu(psta->config_methods);
++
++				pattr_content += 2;
++
++				_rtw_memcpy(psta->primary_dev_type, pattr_content, 8);
++
++				pattr_content += 8;
++
++				num_of_secdev_type = *pattr_content;
++				pattr_content += 1;
++
++				if (num_of_secdev_type == 0)
++					psta->num_of_secdev_type = 0;
++				else {
++					u32 len;
++
++					psta->num_of_secdev_type = num_of_secdev_type;
++
++					len = (sizeof(psta->secdev_types_list) < (num_of_secdev_type * 8)) ? (sizeof(psta->secdev_types_list)) : (num_of_secdev_type * 8);
++
++					_rtw_memcpy(psta->secdev_types_list, pattr_content, len);
++
++					pattr_content += (num_of_secdev_type * 8);
++				}
++
++
++				/* dev_name_len = attr_contentlen - ETH_ALEN - 2 - 8 - 1 - (num_of_secdev_type*8); */
++				psta->dev_name_len = 0;
++				if (WPS_ATTR_DEVICE_NAME == be16_to_cpu(*(u16 *)pattr_content)) {
++					dev_name_len = be16_to_cpu(*(u16 *)(pattr_content + 2));
++
++					psta->dev_name_len = (sizeof(psta->dev_name) < dev_name_len) ? sizeof(psta->dev_name) : dev_name_len;
++
++					_rtw_memcpy(psta->dev_name, pattr_content + 4, psta->dev_name_len);
++				}
++
++				rtw_mfree(pbuf, attr_contentlen);
++
++			}
++
++		}
++
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++
++	}
++
++	return status_code;
++
++}
++
++u32 process_p2p_devdisc_req(struct wifidirect_info *pwdinfo, u8 *pframe, uint len)
++{
++	u8 *frame_body;
++	u8 status, dialogToken;
++	struct sta_info *psta = NULL;
++	_adapter *padapter = pwdinfo->padapter;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *p2p_ie;
++	u32	p2p_ielen = 0;
++
++	frame_body = (unsigned char *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++	dialogToken = frame_body[7];
++	status = P2P_STATUS_FAIL_UNKNOWN_P2PGROUP;
++
++	p2p_ie = rtw_get_p2p_ie(frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, NULL, &p2p_ielen);
++	if (p2p_ie) {
++		u8 groupid[38] = { 0x00 };
++		u8 dev_addr[ETH_ALEN] = { 0x00 };
++		u32	attr_contentlen = 0;
++
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GROUP_ID, groupid, &attr_contentlen)) {
++			if (_rtw_memcmp(pwdinfo->device_addr, groupid, ETH_ALEN) &&
++			    _rtw_memcmp(pwdinfo->p2p_group_ssid, groupid + ETH_ALEN, pwdinfo->p2p_group_ssid_len)) {
++				attr_contentlen = 0;
++				if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_DEVICE_ID, dev_addr, &attr_contentlen)) {
++					_irqL irqL;
++					_list	*phead, *plist;
++
++					_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++					phead = &pstapriv->asoc_list;
++					plist = get_next(phead);
++
++					/* look up sta asoc_queue */
++					while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++						psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++
++						plist = get_next(plist);
++
++						if (psta->is_p2p_device && (psta->dev_cap & P2P_DEVCAP_CLIENT_DISCOVERABILITY) &&
++						    _rtw_memcmp(psta->dev_addr, dev_addr, ETH_ALEN)) {
++
++							/* _exit_critical_bh(&pstapriv->asoc_list_lock, &irqL); */
++							/* issue GO Discoverability Request */
++							issue_group_disc_req(pwdinfo, psta->hwaddr);
++							/* _enter_critical_bh(&pstapriv->asoc_list_lock, &irqL); */
++
++							status = P2P_STATUS_SUCCESS;
++
++							break;
++						} else
++							status = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++
++					}
++					_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++				} else
++					status = P2P_STATUS_FAIL_INVALID_PARAM;
++
++			} else
++				status = P2P_STATUS_FAIL_INVALID_PARAM;
++
++		}
++
++	}
++
++
++	/* issue Device Discoverability Response */
++	issue_p2p_devdisc_resp(pwdinfo, GetAddr2Ptr(pframe), status, dialogToken);
++
++
++	return (status == P2P_STATUS_SUCCESS) ? _TRUE : _FALSE;
++
++}
++
++u32 process_p2p_devdisc_resp(struct wifidirect_info *pwdinfo, u8 *pframe, uint len)
++{
++	return _TRUE;
++}
++
++u8 process_p2p_provdisc_req(struct wifidirect_info *pwdinfo,  u8 *pframe, uint len)
++{
++	u8 *frame_body;
++	u8 *wpsie;
++	uint	wps_ielen = 0, attr_contentlen = 0;
++	u16	uconfig_method = 0;
++
++
++	frame_body = (pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++	wpsie = rtw_get_wps_ie(frame_body + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, NULL, &wps_ielen);
++	if (wpsie) {
++		if (rtw_get_wps_attr_content(wpsie, wps_ielen, WPS_ATTR_CONF_METHOD , (u8 *) &uconfig_method, &attr_contentlen)) {
++			uconfig_method = be16_to_cpu(uconfig_method);
++			switch (uconfig_method) {
++			case WPS_CM_DISPLYA: {
++				_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "dis", 3);
++				break;
++			}
++			case WPS_CM_LABEL: {
++				_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "lab", 3);
++				break;
++			}
++			case WPS_CM_PUSH_BUTTON: {
++				_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "pbc", 3);
++				break;
++			}
++			case WPS_CM_KEYPAD: {
++				_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "pad", 3);
++				break;
++			}
++			}
++			issue_p2p_provision_resp(pwdinfo, GetAddr2Ptr(pframe), frame_body, uconfig_method);
++		}
++	}
++	RTW_INFO("[%s] config method = %s\n", __FUNCTION__, pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req);
++	return _TRUE;
++
++}
++
++u8 process_p2p_provdisc_resp(struct wifidirect_info *pwdinfo,  u8 *pframe)
++{
++
++	return _TRUE;
++}
++
++u8 rtw_p2p_get_peer_ch_list(struct wifidirect_info *pwdinfo, u8 *ch_content, u8 ch_cnt, u8 *peer_ch_list)
++{
++	u8 i = 0, j = 0;
++	u8 temp = 0;
++	u8 ch_no = 0;
++	ch_content += 3;
++	ch_cnt -= 3;
++
++	while (ch_cnt > 0) {
++		ch_content += 1;
++		ch_cnt -= 1;
++		temp = *ch_content;
++		for (i = 0 ; i < temp ; i++, j++)
++			peer_ch_list[j] = *(ch_content + 1 + i);
++		ch_content += (temp + 1);
++		ch_cnt -= (temp + 1);
++		ch_no += temp ;
++	}
++
++	return ch_no;
++}
++
++u8 rtw_p2p_check_peer_oper_ch(struct mlme_ext_priv *pmlmeext, u8 ch)
++{
++	u8 i = 0;
++
++	for (i = 0; i < pmlmeext->max_chan_nums; i++) {
++		if (pmlmeext->channel_set[i].ChannelNum == ch)
++			return _SUCCESS;
++	}
++
++	return _FAIL;
++}
++
++u8 rtw_p2p_ch_inclusion(struct mlme_ext_priv *pmlmeext, u8 *peer_ch_list, u8 peer_ch_num, u8 *ch_list_inclusioned)
++{
++	int	i = 0, j = 0, temp = 0;
++	u8 ch_no = 0;
++
++	for (i = 0; i < peer_ch_num; i++) {
++		for (j = temp; j < pmlmeext->max_chan_nums; j++) {
++			if (*(peer_ch_list + i) == pmlmeext->channel_set[j].ChannelNum) {
++				ch_list_inclusioned[ch_no++] = *(peer_ch_list + i);
++				temp = j;
++				break;
++			}
++		}
++	}
++
++	return ch_no;
++}
++
++u8 process_p2p_group_negotation_req(struct wifidirect_info *pwdinfo, u8 *pframe, uint len)
++{
++	_adapter *padapter = pwdinfo->padapter;
++	u8	result = P2P_STATUS_SUCCESS;
++	u32	p2p_ielen = 0, wps_ielen = 0;
++	u8 *ies;
++	u32 ies_len;
++	u8 *p2p_ie;
++	u8 *wpsie;
++	u16		wps_devicepassword_id = 0x0000;
++	uint	wps_devicepassword_id_len = 0;
++#ifdef CONFIG_WFD
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++#endif /* CONFIG_TDLS	 */
++#endif /* CONFIG_WFD */
++	wpsie = rtw_get_wps_ie(pframe + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, NULL, &wps_ielen);
++	if (wpsie) {
++		/*	Commented by Kurt 20120113 */
++		/*	If some device wants to do p2p handshake without sending prov_disc_req */
++		/*	We have to get peer_req_cm from here. */
++		if (_rtw_memcmp(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "000", 3)) {
++			rtw_get_wps_attr_content(wpsie, wps_ielen, WPS_ATTR_DEVICE_PWID, (u8 *) &wps_devicepassword_id, &wps_devicepassword_id_len);
++			wps_devicepassword_id = be16_to_cpu(wps_devicepassword_id);
++
++			if (wps_devicepassword_id == WPS_DPID_USER_SPEC)
++				_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "dis", 3);
++			else if (wps_devicepassword_id == WPS_DPID_REGISTRAR_SPEC)
++				_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "pad", 3);
++			else
++				_rtw_memcpy(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, "pbc", 3);
++		}
++	} else {
++		RTW_INFO("[%s] WPS IE not Found!!\n", __FUNCTION__);
++		result = P2P_STATUS_FAIL_INCOMPATIBLE_PARAM;
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++		return result ;
++	}
++
++	ies = pframe + _PUBLIC_ACTION_IE_OFFSET_;
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++
++	if (!p2p_ie) {
++		RTW_INFO("[%s] P2P IE not Found!!\n", __FUNCTION__);
++		result = P2P_STATUS_FAIL_INCOMPATIBLE_PARAM;
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++	}
++
++	while (p2p_ie) {
++		u8	attr_content = 0x00;
++		u32	attr_contentlen = 0;
++		u8	ch_content[100] = { 0x00 };
++		uint	ch_cnt = 0;
++		u8	peer_ch_list[100] = { 0x00 };
++		u8	peer_ch_num = 0;
++		u8	ch_list_inclusioned[100] = { 0x00 };
++		u8	ch_num_inclusioned = 0;
++		u16	cap_attr;
++		u8 listen_ch_attr[5] = { 0x00 };
++
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_ING);
++
++		/* Check P2P Capability ATTR */
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CAPABILITY, (u8 *)&cap_attr, (uint *)&attr_contentlen)) {
++			cap_attr = le16_to_cpu(cap_attr);
++
++#if defined(CONFIG_WFD) && defined(CONFIG_TDLS)
++			if (!(cap_attr & P2P_GRPCAP_INTRABSS))
++				ptdlsinfo->ap_prohibited = _TRUE;
++#endif /* defined(CONFIG_WFD) && defined(CONFIG_TDLS) */
++		}
++
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GO_INTENT , &attr_content, &attr_contentlen)) {
++			RTW_INFO("[%s] GO Intent = %d, tie = %d\n", __FUNCTION__, attr_content >> 1, attr_content & 0x01);
++			pwdinfo->peer_intent = attr_content;	/*	include both intent and tie breaker values. */
++
++			if (pwdinfo->intent == (pwdinfo->peer_intent >> 1)) {
++				/*	Try to match the tie breaker value */
++				if (pwdinfo->intent == P2P_MAX_INTENT) {
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++					result = P2P_STATUS_FAIL_BOTH_GOINTENT_15;
++				} else {
++					if (attr_content & 0x01)
++						rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++					else
++						rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++				}
++			} else if (pwdinfo->intent > (pwdinfo->peer_intent >> 1))
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++			else
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++
++			if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++				/*	Store the group id information. */
++				_rtw_memcpy(pwdinfo->groupid_info.go_device_addr, pwdinfo->device_addr, ETH_ALEN);
++				_rtw_memcpy(pwdinfo->groupid_info.ssid, pwdinfo->nego_ssid, pwdinfo->nego_ssidlen);
++			}
++		}
++
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_LISTEN_CH, (u8 *)listen_ch_attr, (uint *) &attr_contentlen) && attr_contentlen == 5)
++			pwdinfo->nego_req_info.peer_ch = listen_ch_attr[4];
++
++		RTW_INFO(FUNC_ADPT_FMT" listen channel :%u\n", FUNC_ADPT_ARG(padapter), pwdinfo->nego_req_info.peer_ch);
++
++		attr_contentlen = 0;
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_INTENTED_IF_ADDR, pwdinfo->p2p_peer_interface_addr, &attr_contentlen)) {
++			if (attr_contentlen != ETH_ALEN)
++				_rtw_memset(pwdinfo->p2p_peer_interface_addr, 0x00, ETH_ALEN);
++		}
++
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CH_LIST, ch_content, &ch_cnt)) {
++			peer_ch_num = rtw_p2p_get_peer_ch_list(pwdinfo, ch_content, ch_cnt, peer_ch_list);
++			ch_num_inclusioned = rtw_p2p_ch_inclusion(&padapter->mlmeextpriv, peer_ch_list, peer_ch_num, ch_list_inclusioned);
++
++			if (ch_num_inclusioned == 0) {
++				RTW_INFO("[%s] No common channel in channel list!\n", __FUNCTION__);
++				result = P2P_STATUS_FAIL_NO_COMMON_CH;
++				rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++				break;
++			}
++
++			if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++				if (!rtw_p2p_is_channel_list_ok(pwdinfo->operating_channel,
++					ch_list_inclusioned, ch_num_inclusioned)) {
++#ifdef CONFIG_CONCURRENT_MODE
++					if (rtw_mi_check_status(padapter, MI_LINKED)
++					    && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++						RTW_INFO("[%s] desired channel NOT Found!\n", __FUNCTION__);
++						result = P2P_STATUS_FAIL_NO_COMMON_CH;
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++						break;
++					} else
++#endif /* CONFIG_CONCURRENT_MODE */
++					{
++						u8 operatingch_info[5] = { 0x00 }, peer_operating_ch = 0;
++						attr_contentlen = 0;
++
++						if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, operatingch_info, &attr_contentlen))
++							peer_operating_ch = operatingch_info[4];
++
++						if (rtw_p2p_is_channel_list_ok(peer_operating_ch,
++							ch_list_inclusioned, ch_num_inclusioned)) {
++							/**
++							 *	Change our operating channel as peer's for compatibility.
++							 */
++							pwdinfo->operating_channel = peer_operating_ch;
++							RTW_INFO("[%s] Change op ch to %02x as peer's\n", __FUNCTION__, pwdinfo->operating_channel);
++						} else {
++							/* Take first channel of ch_list_inclusioned as operating channel */
++							pwdinfo->operating_channel = ch_list_inclusioned[0];
++							RTW_INFO("[%s] Change op ch to %02x\n", __FUNCTION__, pwdinfo->operating_channel);
++						}
++					}
++
++				}
++			}
++		}
++
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++	}
++
++	if (pwdinfo->ui_got_wps_info == P2P_NO_WPSINFO) {
++		result = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_TX_INFOR_NOREADY);
++		return result;
++	}
++
++#ifdef CONFIG_WFD
++	rtw_process_wfd_ies(padapter, pframe + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, __func__);
++#endif
++
++	return result ;
++}
++
++u8 process_p2p_group_negotation_resp(struct wifidirect_info *pwdinfo, u8 *pframe, uint len)
++{
++	_adapter *padapter = pwdinfo->padapter;
++	u8	result = P2P_STATUS_SUCCESS;
++	u32	p2p_ielen, wps_ielen;
++	u8 *ies;
++	u32 ies_len;
++	u8 *p2p_ie;
++#ifdef CONFIG_WFD
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++#endif /* CONFIG_TDLS	 */
++#endif /* CONFIG_WFD */
++
++	ies = pframe + _PUBLIC_ACTION_IE_OFFSET_;
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	/*	Be able to know which one is the P2P GO and which one is P2P client. */
++
++	if (rtw_get_wps_ie(ies, ies_len, NULL, &wps_ielen)) {
++
++	} else {
++		RTW_INFO("[%s] WPS IE not Found!!\n", __FUNCTION__);
++		result = P2P_STATUS_FAIL_INCOMPATIBLE_PARAM;
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++	}
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++	if (!p2p_ie) {
++		rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++		result = P2P_STATUS_FAIL_INCOMPATIBLE_PARAM;
++	} else {
++
++		u8	attr_content = 0x00;
++		u32	attr_contentlen = 0;
++		u8	operatingch_info[5] = { 0x00 };
++		uint	ch_cnt = 0;
++		u8	ch_content[100] = { 0x00 };
++		u8	groupid[38];
++		u16	cap_attr;
++		u8	peer_ch_list[100] = { 0x00 };
++		u8	peer_ch_num = 0;
++		u8	ch_list_inclusioned[100] = { 0x00 };
++		u8	ch_num_inclusioned = 0;
++
++		while (p2p_ie) {	/*	Found the P2P IE. */
++
++			/* Check P2P Capability ATTR */
++			if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CAPABILITY, (u8 *)&cap_attr, (uint *)&attr_contentlen)) {
++				cap_attr = le16_to_cpu(cap_attr);
++#ifdef CONFIG_TDLS
++				if (!(cap_attr & P2P_GRPCAP_INTRABSS))
++					ptdlsinfo->ap_prohibited = _TRUE;
++#endif /* CONFIG_TDLS */
++			}
++
++			rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, &attr_content, &attr_contentlen);
++			if (attr_contentlen == 1) {
++				RTW_INFO("[%s] Status = %d\n", __FUNCTION__, attr_content);
++				if (attr_content == P2P_STATUS_SUCCESS) {
++					/*	Do nothing. */
++				} else {
++					if (P2P_STATUS_FAIL_INFO_UNAVAILABLE == attr_content)
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_RX_INFOR_NOREADY);
++					else
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++					result = attr_content;
++					break;
++				}
++			}
++
++			/*	Try to get the peer's interface address */
++			attr_contentlen = 0;
++			if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_INTENTED_IF_ADDR, pwdinfo->p2p_peer_interface_addr, &attr_contentlen)) {
++				if (attr_contentlen != ETH_ALEN)
++					_rtw_memset(pwdinfo->p2p_peer_interface_addr, 0x00, ETH_ALEN);
++			}
++
++			/*	Try to get the peer's intent and tie breaker value. */
++			attr_content = 0x00;
++			attr_contentlen = 0;
++			if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GO_INTENT , &attr_content, &attr_contentlen)) {
++				RTW_INFO("[%s] GO Intent = %d, tie = %d\n", __FUNCTION__, attr_content >> 1, attr_content & 0x01);
++				pwdinfo->peer_intent = attr_content;	/*	include both intent and tie breaker values. */
++
++				if (pwdinfo->intent == (pwdinfo->peer_intent >> 1)) {
++					/*	Try to match the tie breaker value */
++					if (pwdinfo->intent == P2P_MAX_INTENT) {
++						rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++						result = P2P_STATUS_FAIL_BOTH_GOINTENT_15;
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++					} else {
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++						rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_GONEGO_OK);
++						if (attr_content & 0x01)
++							rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++						else
++							rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++					}
++				} else if (pwdinfo->intent > (pwdinfo->peer_intent >> 1)) {
++					rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++					rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_GONEGO_OK);
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++				} else {
++					rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++					rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_GONEGO_OK);
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++				}
++
++				if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++					/*	Store the group id information. */
++					_rtw_memcpy(pwdinfo->groupid_info.go_device_addr, pwdinfo->device_addr, ETH_ALEN);
++					_rtw_memcpy(pwdinfo->groupid_info.ssid, pwdinfo->nego_ssid, pwdinfo->nego_ssidlen);
++
++				}
++			}
++
++			/*	Try to get the operation channel information */
++
++			attr_contentlen = 0;
++			if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, operatingch_info, &attr_contentlen)) {
++				RTW_INFO("[%s] Peer's operating channel = %d\n", __FUNCTION__, operatingch_info[4]);
++				pwdinfo->peer_operating_ch = operatingch_info[4];
++			}
++
++			/*	Try to get the channel list information */
++			if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CH_LIST, pwdinfo->channel_list_attr, &pwdinfo->channel_list_attr_len)) {
++				RTW_INFO("[%s] channel list attribute found, len = %d\n", __FUNCTION__,  pwdinfo->channel_list_attr_len);
++
++				peer_ch_num = rtw_p2p_get_peer_ch_list(pwdinfo, pwdinfo->channel_list_attr, pwdinfo->channel_list_attr_len, peer_ch_list);
++				ch_num_inclusioned = rtw_p2p_ch_inclusion(&padapter->mlmeextpriv, peer_ch_list, peer_ch_num, ch_list_inclusioned);
++
++				if (ch_num_inclusioned == 0) {
++					RTW_INFO("[%s] No common channel in channel list!\n", __FUNCTION__);
++					result = P2P_STATUS_FAIL_NO_COMMON_CH;
++					rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++					break;
++				}
++
++				if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++					if (!rtw_p2p_is_channel_list_ok(pwdinfo->operating_channel,
++						ch_list_inclusioned, ch_num_inclusioned)) {
++#ifdef CONFIG_CONCURRENT_MODE
++						if (rtw_mi_check_status(padapter, MI_LINKED)
++						    && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++							RTW_INFO("[%s] desired channel NOT Found!\n", __FUNCTION__);
++							result = P2P_STATUS_FAIL_NO_COMMON_CH;
++							rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++							break;
++						} else
++#endif /* CONFIG_CONCURRENT_MODE */
++						{
++							u8 operatingch_info[5] = { 0x00 }, peer_operating_ch = 0;
++							attr_contentlen = 0;
++
++							if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, operatingch_info, &attr_contentlen))
++								peer_operating_ch = operatingch_info[4];
++
++							if (rtw_p2p_is_channel_list_ok(peer_operating_ch,
++								ch_list_inclusioned, ch_num_inclusioned)) {
++								/**
++								 *	Change our operating channel as peer's for compatibility.
++								 */
++								pwdinfo->operating_channel = peer_operating_ch;
++								RTW_INFO("[%s] Change op ch to %02x as peer's\n", __FUNCTION__, pwdinfo->operating_channel);
++							} else {
++								/* Take first channel of ch_list_inclusioned as operating channel */
++								pwdinfo->operating_channel = ch_list_inclusioned[0];
++								RTW_INFO("[%s] Change op ch to %02x\n", __FUNCTION__, pwdinfo->operating_channel);
++							}
++						}
++
++					}
++				}
++
++			} else
++				RTW_INFO("[%s] channel list attribute not found!\n", __FUNCTION__);
++
++			/*	Try to get the group id information if peer is GO */
++			attr_contentlen = 0;
++			_rtw_memset(groupid, 0x00, 38);
++			if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GROUP_ID, groupid, &attr_contentlen)) {
++				_rtw_memcpy(pwdinfo->groupid_info.go_device_addr, &groupid[0], ETH_ALEN);
++				_rtw_memcpy(pwdinfo->groupid_info.ssid, &groupid[6], attr_contentlen - ETH_ALEN);
++			}
++
++			/* Get the next P2P IE */
++			p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++		}
++
++	}
++
++#ifdef CONFIG_WFD
++	rtw_process_wfd_ies(padapter, pframe + _PUBLIC_ACTION_IE_OFFSET_, len - _PUBLIC_ACTION_IE_OFFSET_, __func__);
++#endif
++
++	return result ;
++
++}
++
++u8 process_p2p_group_negotation_confirm(struct wifidirect_info *pwdinfo, u8 *pframe, uint len)
++{
++	_adapter *padapter = pwdinfo->padapter;
++	u8 *ies;
++	u32 ies_len;
++	u8 *p2p_ie;
++	u32	p2p_ielen = 0;
++	u8	result = P2P_STATUS_SUCCESS;
++	ies = pframe + _PUBLIC_ACTION_IE_OFFSET_;
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++	while (p2p_ie) {	/*	Found the P2P IE. */
++		u8	attr_content = 0x00, operatingch_info[5] = { 0x00 };
++		u8	groupid[38] = { 0x00 };
++		u32	attr_contentlen = 0;
++
++		pwdinfo->negotiation_dialog_token = 1;
++		rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, &attr_content, &attr_contentlen);
++		if (attr_contentlen == 1) {
++			RTW_INFO("[%s] Status = %d\n", __FUNCTION__, attr_content);
++			result = attr_content;
++
++			if (attr_content == P2P_STATUS_SUCCESS) {
++				u8	bcancelled = 0;
++
++				_cancel_timer(&pwdinfo->restore_p2p_state_timer, &bcancelled);
++
++				/*	Commented by Albert 20100911 */
++				/*	Todo: Need to handle the case which both Intents are the same. */
++				rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++				rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_GONEGO_OK);
++				if ((pwdinfo->intent) > (pwdinfo->peer_intent >> 1))
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++				else if ((pwdinfo->intent) < (pwdinfo->peer_intent >> 1))
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++				else {
++					/*	Have to compare the Tie Breaker */
++					if (pwdinfo->peer_intent & 0x01)
++						rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++					else
++						rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++				}
++
++#ifdef CONFIG_CONCURRENT_MODE
++				if (rtw_mi_check_status(padapter, MI_LINKED)
++				    && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++					/*	Switch back to the AP channel soon. */
++					_set_timer(&pwdinfo->ap_p2p_switch_timer, 100);
++				}
++#endif
++			} else {
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++				rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_FAIL);
++				break;
++			}
++		}
++
++		/*	Try to get the group id information */
++		attr_contentlen = 0;
++		_rtw_memset(groupid, 0x00, 38);
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GROUP_ID, groupid, &attr_contentlen)) {
++			RTW_INFO("[%s] Ssid = %s, ssidlen = %zu\n", __FUNCTION__, &groupid[ETH_ALEN], strlen(&groupid[ETH_ALEN]));
++			_rtw_memcpy(pwdinfo->groupid_info.go_device_addr, &groupid[0], ETH_ALEN);
++			_rtw_memcpy(pwdinfo->groupid_info.ssid, &groupid[6], attr_contentlen - ETH_ALEN);
++		}
++
++		attr_contentlen = 0;
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, operatingch_info, &attr_contentlen)) {
++			RTW_INFO("[%s] Peer's operating channel = %d\n", __FUNCTION__, operatingch_info[4]);
++			pwdinfo->peer_operating_ch = operatingch_info[4];
++		}
++
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++
++	}
++
++	return result ;
++}
++
++u8 process_p2p_presence_req(struct wifidirect_info *pwdinfo, u8 *pframe, uint len)
++{
++	u8 *frame_body;
++	u8 dialogToken = 0;
++	u8 status = P2P_STATUS_SUCCESS;
++
++	frame_body = (unsigned char *)(pframe + sizeof(struct rtw_ieee80211_hdr_3addr));
++
++	dialogToken = frame_body[6];
++
++	/* todo: check NoA attribute */
++
++	issue_p2p_presence_resp(pwdinfo, GetAddr2Ptr(pframe), status, dialogToken);
++
++	return _TRUE;
++}
++
++void find_phase_handler(_adapter	*padapter)
++{
++	struct wifidirect_info  *pwdinfo = &padapter->wdinfo;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	NDIS_802_11_SSID	ssid;
++	_irqL				irqL;
++	u8					_status = 0;
++
++
++	_rtw_memset((unsigned char *)&ssid, 0, sizeof(NDIS_802_11_SSID));
++	_rtw_memcpy(ssid.Ssid, pwdinfo->p2p_wildcard_ssid, P2P_WILDCARD_SSID_LEN);
++	ssid.SsidLength = P2P_WILDCARD_SSID_LEN;
++
++	rtw_p2p_set_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH);
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	_status = rtw_sitesurvey_cmd(padapter, &ssid, 1, NULL, 0);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++}
++
++void p2p_concurrent_handler(_adapter *padapter);
++
++void restore_p2p_state_handler(_adapter	*padapter)
++{
++	struct wifidirect_info  *pwdinfo = &padapter->wdinfo;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING) || rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_FAIL))
++		rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED)) {
++		u8 union_ch = rtw_mi_get_union_chan(padapter);
++		u8 union_bw = rtw_mi_get_union_bw(padapter);
++		u8 union_offset = rtw_mi_get_union_offset(padapter);
++
++		if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_PROVISION_DIS_REQ) || rtw_p2p_chk_state(pwdinfo, P2P_STATE_RX_PROVISION_DIS_RSP)) {
++			set_channel_bwmode(padapter, union_ch, union_offset, union_bw);
++			rtw_mi_buddy_issue_nulldata(padapter, NULL, 0, 3, 500);
++		}
++	}
++#endif
++
++	rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_DEVICE)) {
++#ifdef CONFIG_CONCURRENT_MODE
++		p2p_concurrent_handler(padapter);
++#else
++		/*	In the P2P client mode, the driver should not switch back to its listen channel */
++		/*	because this P2P client should stay at the operating channel of P2P GO. */
++		set_channel_bwmode(padapter, pwdinfo->listen_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++#endif
++	}
++}
++
++void pre_tx_invitereq_handler(_adapter	*padapter)
++{
++	struct wifidirect_info  *pwdinfo = &padapter->wdinfo;
++	u8	val8 = 1;
++
++	set_channel_bwmode(padapter, pwdinfo->invitereq_info.peer_ch, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++	rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++	issue_probereq_p2p(padapter, NULL);
++	_set_timer(&pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT);
++
++}
++
++void pre_tx_provdisc_handler(_adapter	*padapter)
++{
++	struct wifidirect_info  *pwdinfo = &padapter->wdinfo;
++	u8	val8 = 1;
++
++	set_channel_bwmode(padapter, pwdinfo->tx_prov_disc_info.peer_channel_num[0], HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++	rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++	issue_probereq_p2p(padapter, NULL);
++	_set_timer(&pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT);
++
++}
++
++void pre_tx_negoreq_handler(_adapter	*padapter)
++{
++	struct wifidirect_info  *pwdinfo = &padapter->wdinfo;
++	u8	val8 = 1;
++
++	set_channel_bwmode(padapter, pwdinfo->nego_req_info.peer_channel_num[0], HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++	rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++	issue_probereq_p2p(padapter , NULL);
++	/* WIN Phone only accept unicast probe request when nego back */
++	issue_probereq_p2p(padapter , pwdinfo->nego_req_info.peerDevAddr);
++	_set_timer(&pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT);
++
++}
++
++#ifdef CONFIG_CONCURRENT_MODE
++void p2p_concurrent_handler(_adapter	*padapter)
++{
++	struct wifidirect_info	*pwdinfo = &padapter->wdinfo;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8					val8;
++
++	if (rtw_mi_check_status(padapter, MI_LINKED)) {
++		u8 union_ch = rtw_mi_get_union_chan(padapter);
++		u8 union_bw = rtw_mi_get_union_bw(padapter);
++		u8 union_offset = rtw_mi_get_union_offset(padapter);
++
++		pwdinfo->operating_channel = union_ch;
++
++		if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++			RTW_INFO("%s, switch ch back to union_ch=%d\n", __func__, union_ch);
++			set_channel_bwmode(padapter, union_ch, union_offset, union_bw);
++
++			rtw_mi_buddy_issue_nulldata(padapter, NULL, 0, 3, 500);
++
++		} else if (pwdinfo->driver_interface == DRIVER_WEXT) {
++			if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE)) {
++				/*	Now, the driver stays on the AP's channel. */
++				/*	If the pwdinfo->ext_listen_period = 0, that means the P2P listen state is not available on listen channel. */
++				if (pwdinfo->ext_listen_period > 0) {
++					RTW_INFO("[%s] P2P_STATE_IDLE, ext_listen_period = %d\n", __FUNCTION__, pwdinfo->ext_listen_period);
++
++					if (union_ch != pwdinfo->listen_channel) {
++						/*	Will switch to listen channel so that need to send the NULL data with PW bit to AP. */
++						rtw_mi_buddy_issue_nulldata(padapter, NULL, 1, 3, 500);
++						set_channel_bwmode(padapter, pwdinfo->listen_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++					}
++
++					rtw_p2p_set_state(pwdinfo, P2P_STATE_LISTEN);
++
++					if (!rtw_mi_check_mlmeinfo_state(padapter, WIFI_FW_AP_STATE)) {
++						val8 = 1;
++						rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++					}
++					/*	Todo: To check the value of pwdinfo->ext_listen_period is equal to 0 or not. */
++					_set_timer(&pwdinfo->ap_p2p_switch_timer, pwdinfo->ext_listen_period);
++				}
++			} else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_LISTEN) ||
++				rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_FAIL) ||
++				(rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING) && pwdinfo->nego_req_info.benable == _FALSE) ||
++				rtw_p2p_chk_state(pwdinfo, P2P_STATE_RX_PROVISION_DIS_REQ)) {
++				/*	Now, the driver is in the listen state of P2P mode. */
++				RTW_INFO("[%s] P2P_STATE_IDLE, ext_listen_interval = %d\n", __FUNCTION__, pwdinfo->ext_listen_interval);
++
++				/*	Commented by Albert 2012/11/01 */
++				/*	If the AP's channel is the same as the listen channel, we should still be in the listen state */
++				/*	Other P2P device is still able to find this device out even this device is in the AP's channel. */
++				/*	So, configure this device to be able to receive the probe request frame and set it to listen state. */
++				if (union_ch != pwdinfo->listen_channel) {
++
++					set_channel_bwmode(padapter, union_ch, union_offset, union_bw);
++					if (!rtw_mi_check_status(padapter, MI_AP_MODE)) {
++						val8 = 0;
++						rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++					}
++					rtw_p2p_set_state(pwdinfo, P2P_STATE_IDLE);
++					rtw_mi_buddy_issue_nulldata(padapter, NULL, 0, 3, 500);
++				}
++
++				/*	Todo: To check the value of pwdinfo->ext_listen_interval is equal to 0 or not. */
++				_set_timer(&pwdinfo->ap_p2p_switch_timer, pwdinfo->ext_listen_interval);
++			} else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_OK)) {
++				/*	The driver had finished the P2P handshake successfully. */
++				val8 = 0;
++				rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++				set_channel_bwmode(padapter, union_ch, union_offset, union_bw);
++				rtw_mi_buddy_issue_nulldata(padapter, NULL, 0, 3, 500);
++			} else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_PROVISION_DIS_REQ)) {
++				val8 = 1;
++				set_channel_bwmode(padapter, pwdinfo->tx_prov_disc_info.peer_channel_num[0], HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++				rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++				issue_probereq_p2p(padapter, NULL);
++				_set_timer(&pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT);
++			} else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING) && pwdinfo->nego_req_info.benable == _TRUE) {
++				val8 = 1;
++				set_channel_bwmode(padapter, pwdinfo->nego_req_info.peer_channel_num[0], HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++				rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++				issue_probereq_p2p(padapter, NULL);
++				_set_timer(&pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT);
++			} else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_INVITE_REQ) && pwdinfo->invitereq_info.benable == _TRUE) {
++				/*
++				val8 = 1;
++				set_channel_bwmode(padapter, , HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++				rtw_hal_set_hwreg(padapter, HW_VAR_MLME_SITESURVEY, (u8 *)(&val8));
++				issue_probereq_p2p(padapter, NULL);
++				_set_timer( &pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT );
++				*/
++			}
++		}
++	} else {
++		/* In p2p+softap. When in P2P_STATE_GONEGO_OK, not back to listen channel.*/
++		if (!rtw_p2p_chk_state(pwdinfo , P2P_STATE_GONEGO_OK) || padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++			set_channel_bwmode(padapter, pwdinfo->listen_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++		else
++			RTW_INFO("%s, buddy not linked, go nego ok, not back to listen channel\n", __func__);
++	}
++
++}
++#endif
++
++#ifdef CONFIG_IOCTL_CFG80211
++static void ro_ch_handler(_adapter *padapter)
++{
++	struct cfg80211_wifidirect_info *pcfg80211_wdinfo = &padapter->cfg80211_wdinfo;
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	u8 ch, bw, offset;
++
++	if (rtw_mi_get_ch_setting_union(padapter, &ch, &bw, &offset) != 0) {
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" back to linked/linking union - ch:%u, bw:%u, offset:%u\n",
++				 FUNC_ADPT_ARG(padapter), ch, bw, offset);
++	} else if (adapter_wdev_data(padapter)->p2p_enabled && pwdinfo->listen_channel) {
++		ch = pwdinfo->listen_channel;
++		bw = CHANNEL_WIDTH_20;
++		offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" back to listen ch - ch:%u, bw:%u, offset:%u\n",
++				 FUNC_ADPT_ARG(padapter), ch, bw, offset);
++	} else {
++		ch = pcfg80211_wdinfo->restore_channel;
++		bw = CHANNEL_WIDTH_20;
++		offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" back to restore ch - ch:%u, bw:%u, offset:%u\n",
++				 FUNC_ADPT_ARG(padapter), ch, bw, offset);
++	}
++
++	set_channel_bwmode(padapter, ch, offset, bw);
++
++	rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO("%s, role=%d, p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo));
++#endif
++
++	pcfg80211_wdinfo->is_ro_ch = _FALSE;
++	pcfg80211_wdinfo->last_ro_ch_time = rtw_get_current_time();
++
++	RTW_INFO("cfg80211_remain_on_channel_expired cookie:0x%llx, ch=%d, bw=%d, offset=%d\n"
++		 , pcfg80211_wdinfo->remain_on_ch_cookie
++		, rtw_get_oper_ch(padapter), rtw_get_oper_bw(padapter), rtw_get_oper_choffset(padapter));
++
++	rtw_cfg80211_remain_on_channel_expired(padapter,
++				       pcfg80211_wdinfo->remain_on_ch_cookie,
++				       &pcfg80211_wdinfo->remain_on_ch_channel,
++			       pcfg80211_wdinfo->remain_on_ch_type, GFP_KERNEL);
++
++}
++
++static void ro_ch_timer_process(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(adapter);
++
++	/* printk("%s\n", __FUNCTION__); */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	ATOMIC_SET(&pwdev_priv->ro_ch_to, 1);
++#endif
++
++	p2p_protocol_wk_cmd(adapter, P2P_RO_CH_WK);
++}
++
++static void rtw_change_p2pie_op_ch(_adapter *padapter, const u8 *frame_body, u32 len, u8 ch)
++{
++	u8 *ies, *p2p_ie;
++	u32 ies_len, p2p_ielen;
++
++	ies = (u8 *)(frame_body + _PUBLIC_ACTION_IE_OFFSET_);
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++
++	while (p2p_ie) {
++		u32	attr_contentlen = 0;
++		u8 *pattr = NULL;
++
++		/* Check P2P_ATTR_OPERATING_CH */
++		attr_contentlen = 0;
++		pattr = NULL;
++		pattr = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, (uint *)&attr_contentlen);
++		if (pattr != NULL)
++			*(pattr + 4) = ch;
++
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++	}
++}
++
++static void rtw_change_p2pie_ch_list(_adapter *padapter, const u8 *frame_body, u32 len, u8 ch)
++{
++	u8 *ies, *p2p_ie;
++	u32 ies_len, p2p_ielen;
++
++	ies = (u8 *)(frame_body + _PUBLIC_ACTION_IE_OFFSET_);
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++
++	while (p2p_ie) {
++		u32	attr_contentlen = 0;
++		u8 *pattr = NULL;
++
++		/* Check P2P_ATTR_CH_LIST */
++		pattr = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CH_LIST, NULL, (uint *)&attr_contentlen);
++		if (pattr != NULL) {
++			int i;
++			u32 num_of_ch;
++			u8 *pattr_temp = pattr + 3 ;
++
++			attr_contentlen -= 3;
++
++			while (attr_contentlen > 0) {
++				num_of_ch = *(pattr_temp + 1);
++
++				for (i = 0; i < num_of_ch; i++)
++					*(pattr_temp + 2 + i) = ch;
++
++				pattr_temp += (2 + num_of_ch);
++				attr_contentlen -= (2 + num_of_ch);
++			}
++		}
++
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++	}
++}
++
++static bool rtw_chk_p2pie_ch_list_with_buddy(_adapter *padapter, const u8 *frame_body, u32 len)
++{
++	bool fit = _FALSE;
++#ifdef CONFIG_CONCURRENT_MODE
++	u8 *ies, *p2p_ie;
++	u32 ies_len, p2p_ielen;
++	u8 union_ch = rtw_mi_get_union_chan(padapter);
++
++	ies = (u8 *)(frame_body + _PUBLIC_ACTION_IE_OFFSET_);
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++
++	while (p2p_ie) {
++		u32	attr_contentlen = 0;
++		u8 *pattr = NULL;
++
++		/* Check P2P_ATTR_CH_LIST */
++		pattr = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CH_LIST, NULL, (uint *)&attr_contentlen);
++		if (pattr != NULL) {
++			int i;
++			u32 num_of_ch;
++			u8 *pattr_temp = pattr + 3 ;
++
++			attr_contentlen -= 3;
++
++			while (attr_contentlen > 0) {
++				num_of_ch = *(pattr_temp + 1);
++
++				for (i = 0; i < num_of_ch; i++) {
++					if (*(pattr_temp + 2 + i) == union_ch) {
++						RTW_INFO(FUNC_ADPT_FMT" ch_list fit buddy_ch:%u\n", FUNC_ADPT_ARG(padapter), union_ch);
++						fit = _TRUE;
++						break;
++					}
++				}
++
++				pattr_temp += (2 + num_of_ch);
++				attr_contentlen -= (2 + num_of_ch);
++			}
++		}
++
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++	}
++#endif
++	return fit;
++}
++
++static bool rtw_chk_p2pie_op_ch_with_buddy(_adapter *padapter, const u8 *frame_body, u32 len)
++{
++	bool fit = _FALSE;
++#ifdef CONFIG_CONCURRENT_MODE
++	u8 *ies, *p2p_ie;
++	u32 ies_len, p2p_ielen;
++	u8 union_ch = rtw_mi_get_union_chan(padapter);
++
++	ies = (u8 *)(frame_body + _PUBLIC_ACTION_IE_OFFSET_);
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++
++	while (p2p_ie) {
++		u32	attr_contentlen = 0;
++		u8 *pattr = NULL;
++
++		/* Check P2P_ATTR_OPERATING_CH */
++		attr_contentlen = 0;
++		pattr = NULL;
++		pattr = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, (uint *)&attr_contentlen);
++		if (pattr != NULL) {
++			if (*(pattr + 4) == union_ch) {
++				RTW_INFO(FUNC_ADPT_FMT" op_ch fit buddy_ch:%u\n", FUNC_ADPT_ARG(padapter), union_ch);
++				fit = _TRUE;
++				break;
++			}
++		}
++
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++	}
++#endif
++	return fit;
++}
++
++static void rtw_cfg80211_adjust_p2pie_channel(_adapter *padapter, const u8 *frame_body, u32 len)
++{
++#ifdef CONFIG_CONCURRENT_MODE
++	u8 *ies, *p2p_ie;
++	u32 ies_len, p2p_ielen;
++	u8 union_ch = rtw_mi_get_union_chan(padapter);
++
++	ies = (u8 *)(frame_body + _PUBLIC_ACTION_IE_OFFSET_);
++	ies_len = len - _PUBLIC_ACTION_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++
++	while (p2p_ie) {
++		u32	attr_contentlen = 0;
++		u8 *pattr = NULL;
++
++		/* Check P2P_ATTR_CH_LIST */
++		pattr = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CH_LIST, NULL, (uint *)&attr_contentlen);
++		if (pattr != NULL) {
++			int i;
++			u32 num_of_ch;
++			u8 *pattr_temp = pattr + 3 ;
++
++			attr_contentlen -= 3;
++
++			while (attr_contentlen > 0) {
++				num_of_ch = *(pattr_temp + 1);
++
++				for (i = 0; i < num_of_ch; i++)
++					*(pattr_temp + 2 + i) = union_ch; /*forcing to the same channel*/
++
++				pattr_temp += (2 + num_of_ch);
++				attr_contentlen -= (2 + num_of_ch);
++			}
++		}
++
++		/* Check P2P_ATTR_OPERATING_CH */
++		attr_contentlen = 0;
++		pattr = NULL;
++		pattr = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, (uint *)&attr_contentlen);
++		if (pattr != NULL) {
++			*(pattr + 4) = union_ch; /*forcing to the same channel	*/
++		}
++
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++
++	}
++
++#endif
++}
++
++#ifdef CONFIG_WFD
++u32 rtw_xframe_build_wfd_ie(struct xmit_frame *xframe)
++{
++	_adapter *adapter = xframe->padapter;
++	struct wifidirect_info *wdinfo = &adapter->wdinfo;
++	u8 *frame = xframe->buf_addr + TXDESC_OFFSET;
++	u8 *frame_body = frame + sizeof(struct rtw_ieee80211_hdr_3addr);
++	u8 *frame_tail = frame + xframe->attrib.pktlen;
++	u8 category, action, OUI_Subtype, dialogToken = 0;
++	u32	wfdielen = 0;
++
++	category = frame_body[0];
++	if (category == RTW_WLAN_CATEGORY_PUBLIC) {
++		action = frame_body[1];
++		if (action == ACT_PUBLIC_VENDOR
++		    && _rtw_memcmp(frame_body + 2, P2P_OUI, 4) == _TRUE
++		   ) {
++			OUI_Subtype = frame_body[6];
++			dialogToken = frame_body[7];
++
++			switch (OUI_Subtype) {
++			case P2P_GO_NEGO_REQ:
++				wfdielen = build_nego_req_wfd_ie(wdinfo, frame_tail);
++				break;
++			case P2P_GO_NEGO_RESP:
++				wfdielen = build_nego_resp_wfd_ie(wdinfo, frame_tail);
++				break;
++			case P2P_GO_NEGO_CONF:
++				wfdielen = build_nego_confirm_wfd_ie(wdinfo, frame_tail);
++				break;
++			case P2P_INVIT_REQ:
++				wfdielen = build_invitation_req_wfd_ie(wdinfo, frame_tail);
++				break;
++			case P2P_INVIT_RESP:
++				wfdielen = build_invitation_resp_wfd_ie(wdinfo, frame_tail);
++				break;
++			case P2P_PROVISION_DISC_REQ:
++				wfdielen = build_provdisc_req_wfd_ie(wdinfo, frame_tail);
++				break;
++			case P2P_PROVISION_DISC_RESP:
++				wfdielen = build_provdisc_resp_wfd_ie(wdinfo, frame_tail);
++				break;
++			case P2P_DEVDISC_REQ:
++			case P2P_DEVDISC_RESP:
++			default:
++				break;
++			}
++
++		}
++	} else if (category == RTW_WLAN_CATEGORY_P2P) {
++		OUI_Subtype = frame_body[5];
++		dialogToken = frame_body[6];
++
++#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO("ACTION_CATEGORY_P2P: OUI=0x%x, OUI_Subtype=%d, dialogToken=%d\n"
++			, cpu_to_be32(*((u32 *)(frame_body + 1))), OUI_Subtype, dialogToken);
++#endif
++
++		switch (OUI_Subtype) {
++		case P2P_NOTICE_OF_ABSENCE:
++			break;
++		case P2P_PRESENCE_REQUEST:
++			break;
++		case P2P_PRESENCE_RESPONSE:
++			break;
++		case P2P_GO_DISC_REQUEST:
++			break;
++		default:
++			break;
++		}
++	} else
++		RTW_INFO("%s, action frame category=%d\n", __func__, category);
++
++	xframe->attrib.pktlen += wfdielen;
++
++	return wfdielen;
++}
++#endif /* CONFIG_WFD */
++
++bool rtw_xframe_del_wfd_ie(struct xmit_frame *xframe)
++{
++#define DBG_XFRAME_DEL_WFD_IE 0
++
++	_adapter *adapter = xframe->padapter;
++	u8 *frame = xframe->buf_addr + TXDESC_OFFSET;
++	u8 *frame_body = frame + sizeof(struct rtw_ieee80211_hdr_3addr);
++	u8 *frame_tail = frame + xframe->attrib.pktlen;
++	u8 category, action, OUI_Subtype;
++	u8 *ies = NULL;
++	uint ies_len_ori = 0;
++	uint ies_len = 0;
++
++	category = frame_body[0];
++	if (category == RTW_WLAN_CATEGORY_PUBLIC) {
++		action = frame_body[1];
++		if (action == ACT_PUBLIC_VENDOR
++		    && _rtw_memcmp(frame_body + 2, P2P_OUI, 4) == _TRUE
++		   ) {
++			OUI_Subtype = frame_body[6];
++
++			switch (OUI_Subtype) {
++			case P2P_GO_NEGO_REQ:
++			case P2P_GO_NEGO_RESP:
++			case P2P_GO_NEGO_CONF:
++			case P2P_INVIT_REQ:
++			case P2P_INVIT_RESP:
++			case P2P_PROVISION_DISC_REQ:
++			case P2P_PROVISION_DISC_RESP:
++				ies = frame_body + 8;
++				ies_len_ori = frame_tail - (frame_body + 8);
++				break;
++			}
++		}
++	}
++
++	if (ies && ies_len_ori) {
++		ies_len = rtw_del_wfd_ie(ies, ies_len_ori, DBG_XFRAME_DEL_WFD_IE ? __func__ : NULL);
++		xframe->attrib.pktlen -= (ies_len_ori - ies_len);
++	}
++
++	return ies_len_ori != ies_len;
++}
++
++/*
++* rtw_xframe_chk_wfd_ie -
++*
++*/
++void rtw_xframe_chk_wfd_ie(struct xmit_frame *xframe)
++{
++	_adapter *adapter = xframe->padapter;
++	u8 *frame = xframe->buf_addr + TXDESC_OFFSET;
++	u8 *frame_body = frame + sizeof(struct rtw_ieee80211_hdr_3addr);
++	u8 *frame_tail = frame + xframe->attrib.pktlen;
++
++	struct wifidirect_info *wdinfo = &adapter->wdinfo;
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	u8 build = 0;
++	u8 del = 0;
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		del = 1;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (_TRUE == wdinfo->wfd_info->wfd_enable)
++#endif
++		del = build = 1;
++
++	if (del)
++		rtw_xframe_del_wfd_ie(xframe);
++
++#ifdef CONFIG_WFD
++	if (build)
++		rtw_xframe_build_wfd_ie(xframe);
++#endif
++}
++
++u8 *dump_p2p_attr_ch_list(u8 *p2p_ie, uint p2p_ielen, u8 *buf, u32 buf_len)
++{
++	uint attr_contentlen = 0;
++	u8 *pattr = NULL;
++	int w_sz = 0;
++	u8 ch_cnt = 0;
++	u8 ch_list[40];
++	bool continuous = _FALSE;
++
++	pattr = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CH_LIST, NULL, &attr_contentlen);
++	if (pattr != NULL) {
++		int i, j;
++		u32 num_of_ch;
++		u8 *pattr_temp = pattr + 3 ;
++
++		attr_contentlen -= 3;
++
++		_rtw_memset(ch_list, 0, 40);
++
++		while (attr_contentlen > 0) {
++			num_of_ch = *(pattr_temp + 1);
++
++			for (i = 0; i < num_of_ch; i++) {
++				for (j = 0; j < ch_cnt; j++) {
++					if (ch_list[j] == *(pattr_temp + 2 + i))
++						break;
++				}
++				if (j >= ch_cnt)
++					ch_list[ch_cnt++] = *(pattr_temp + 2 + i);
++
++			}
++
++			pattr_temp += (2 + num_of_ch);
++			attr_contentlen -= (2 + num_of_ch);
++		}
++
++		for (j = 0; j < ch_cnt; j++) {
++			if (j == 0)
++				w_sz += snprintf(buf + w_sz, buf_len - w_sz, "%u", ch_list[j]);
++			else if (ch_list[j] - ch_list[j - 1] != 1)
++				w_sz += snprintf(buf + w_sz, buf_len - w_sz, ", %u", ch_list[j]);
++			else if (j != ch_cnt - 1 && ch_list[j + 1] - ch_list[j] == 1) {
++				/* empty */
++			} else
++				w_sz += snprintf(buf + w_sz, buf_len - w_sz, "-%u", ch_list[j]);
++		}
++	}
++	return buf;
++}
++
++/*
++ * return _TRUE if requester is GO, _FALSE if responder is GO
++ */
++bool rtw_p2p_nego_intent_compare(u8 req, u8 resp)
++{
++	if (req >> 1 == resp >> 1)
++		return  req & 0x01 ? _TRUE : _FALSE;
++	else if (req >> 1 > resp >> 1)
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++int rtw_p2p_check_frames(_adapter *padapter, const u8 *buf, u32 len, u8 tx)
++{
++	int is_p2p_frame = (-1);
++	unsigned char	*frame_body;
++	u8 category, action, OUI_Subtype, dialogToken = 0;
++	u8 *p2p_ie = NULL;
++	uint p2p_ielen = 0;
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(padapter);
++	int status = -1;
++	u8 ch_list_buf[128] = {'\0'};
++	int op_ch = -1;
++	int listen_ch = -1;
++	u8 intent = 0;
++
++	frame_body = (unsigned char *)(buf + sizeof(struct rtw_ieee80211_hdr_3addr));
++	category = frame_body[0];
++	/* just for check */
++	if (category == RTW_WLAN_CATEGORY_PUBLIC) {
++		action = frame_body[1];
++		if (action == ACT_PUBLIC_VENDOR
++		    && _rtw_memcmp(frame_body + 2, P2P_OUI, 4) == _TRUE
++		   ) {
++			OUI_Subtype = frame_body[6];
++			dialogToken = frame_body[7];
++			is_p2p_frame = OUI_Subtype;
++#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("ACTION_CATEGORY_PUBLIC: ACT_PUBLIC_VENDOR, OUI=0x%x, OUI_Subtype=%d, dialogToken=%d\n",
++				cpu_to_be32(*((u32 *)(frame_body + 2))), OUI_Subtype, dialogToken);
++#endif
++
++			p2p_ie = rtw_get_p2p_ie(
++				(u8 *)buf + sizeof(struct rtw_ieee80211_hdr_3addr) + _PUBLIC_ACTION_IE_OFFSET_,
++				len - sizeof(struct rtw_ieee80211_hdr_3addr) - _PUBLIC_ACTION_IE_OFFSET_,
++					 NULL, &p2p_ielen);
++
++			switch (OUI_Subtype) { /* OUI Subtype */
++				u8 *cont;
++				uint cont_len;
++			case P2P_GO_NEGO_REQ: {
++				struct rtw_wdev_nego_info *nego_info = &pwdev_priv->nego_info;
++
++				if (tx) {
++#ifdef CONFIG_DRV_ISSUE_PROV_REQ /* IOT FOR S2 */
++					if (pwdev_priv->provdisc_req_issued == _FALSE)
++						rtw_cfg80211_issue_p2p_provision_request(padapter, buf, len);
++#endif /* CONFIG_DRV_ISSUE_PROV_REQ */
++
++					/* pwdev_priv->provdisc_req_issued = _FALSE; */
++
++#if defined(CONFIG_CONCURRENT_MODE) && defined(CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT)
++					if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++						rtw_cfg80211_adjust_p2pie_channel(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr));
++#endif
++				}
++
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, &cont_len);
++				if (cont)
++					op_ch = *(cont + 4);
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_LISTEN_CH, NULL, &cont_len);
++				if (cont)
++					listen_ch = *(cont + 4);
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GO_INTENT, NULL, &cont_len);
++				if (cont)
++					intent = *cont;
++
++				if (nego_info->token != dialogToken)
++					rtw_wdev_nego_info_init(nego_info);
++
++				_rtw_memcpy(nego_info->peer_mac, tx ? GetAddr1Ptr(buf) : GetAddr2Ptr(buf), ETH_ALEN);
++				nego_info->active = tx ? 1 : 0;
++				nego_info->token = dialogToken;
++				nego_info->req_op_ch = op_ch;
++				nego_info->req_listen_ch = listen_ch;
++				nego_info->req_intent = intent;
++				nego_info->state = 0;
++
++				dump_p2p_attr_ch_list(p2p_ie, p2p_ielen, ch_list_buf, 128);
++				RTW_INFO("RTW_%s:P2P_GO_NEGO_REQ, dialogToken=%d, intent:%u%s, listen_ch:%d, op_ch:%d, ch_list:%s, full_ch_in_p2p_handshake:%d\n" ,
++					(tx == _TRUE) ? "Tx" : "Rx" , dialogToken , (intent >> 1) , intent & 0x1 ? "+" : "-" , listen_ch , op_ch , ch_list_buf ,
++					padapter->registrypriv.full_ch_in_p2p_handshake);
++
++				if (!tx) {
++#if defined(CONFIG_CONCURRENT_MODE) && defined(CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT)
++					if (rtw_mi_check_status(padapter, MI_LINKED)
++					    && rtw_chk_p2pie_ch_list_with_buddy(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr)) == _FALSE
++					    && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++						RTW_INFO(FUNC_ADPT_FMT" ch_list has no intersect with buddy\n", FUNC_ADPT_ARG(padapter));
++						rtw_change_p2pie_ch_list(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr), 0);
++					}
++#endif
++				}
++
++				break;
++			}
++			case P2P_GO_NEGO_RESP: {
++				struct rtw_wdev_nego_info *nego_info = &pwdev_priv->nego_info;
++
++				if (tx) {
++#if defined(CONFIG_CONCURRENT_MODE) && defined(CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT)
++					if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++						rtw_cfg80211_adjust_p2pie_channel(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr));
++#endif
++				}
++
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, &cont_len);
++				if (cont)
++					op_ch = *(cont + 4);
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GO_INTENT, NULL, &cont_len);
++				if (cont)
++					intent = *cont;
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, NULL, &cont_len);
++				if (cont)
++					status = *cont;
++
++				if (nego_info->token == dialogToken && nego_info->state == 0
++				    && _rtw_memcmp(nego_info->peer_mac, tx ? GetAddr1Ptr(buf) : GetAddr2Ptr(buf), ETH_ALEN) == _TRUE
++				   ) {
++					nego_info->status = (status == -1) ? 0xff : status;
++					nego_info->rsp_op_ch = op_ch;
++					nego_info->rsp_intent = intent;
++					nego_info->state = 1;
++					if (status != 0)
++						nego_info->token = 0; /* init */
++				}
++
++				dump_p2p_attr_ch_list(p2p_ie, p2p_ielen, ch_list_buf, 128);
++				RTW_INFO("RTW_%s:P2P_GO_NEGO_RESP, dialogToken=%d, intent:%u%s, status:%d, op_ch:%d, ch_list:%s\n",
++					(tx == _TRUE) ? "Tx" : "Rx", dialogToken, (intent >> 1), intent & 0x1 ? "+" : "-", status, op_ch, ch_list_buf);
++
++				if (!tx) {
++					pwdev_priv->provdisc_req_issued = _FALSE;
++#if defined(CONFIG_CONCURRENT_MODE) && defined(CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT)
++					if (rtw_mi_check_status(padapter, MI_LINKED)
++					    && rtw_chk_p2pie_ch_list_with_buddy(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr)) == _FALSE
++					    && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++						RTW_INFO(FUNC_ADPT_FMT" ch_list has no intersect with buddy\n", FUNC_ADPT_ARG(padapter));
++						rtw_change_p2pie_ch_list(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr), 0);
++					}
++#endif
++				}
++
++				break;
++			}
++			case P2P_GO_NEGO_CONF: {
++				struct rtw_wdev_nego_info *nego_info = &pwdev_priv->nego_info;
++				bool is_go = _FALSE;
++
++				if (tx) {
++#if defined(CONFIG_CONCURRENT_MODE) && defined(CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT)
++					if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++						rtw_cfg80211_adjust_p2pie_channel(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr));
++#endif
++				}
++
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, &cont_len);
++				if (cont)
++					op_ch = *(cont + 4);
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, NULL, &cont_len);
++				if (cont)
++					status = *cont;
++
++				if (nego_info->token == dialogToken && nego_info->state == 1
++				    && _rtw_memcmp(nego_info->peer_mac, tx ? GetAddr1Ptr(buf) : GetAddr2Ptr(buf), ETH_ALEN) == _TRUE
++				   ) {
++					nego_info->status = (status == -1) ? 0xff : status;
++					nego_info->conf_op_ch = (op_ch == -1) ? 0 : op_ch;
++					nego_info->state = 2;
++
++					if (status == 0) {
++						if (rtw_p2p_nego_intent_compare(nego_info->req_intent, nego_info->rsp_intent) ^ !tx)
++							is_go = _TRUE;
++					}
++
++					nego_info->token = 0; /* init */
++				}
++
++				dump_p2p_attr_ch_list(p2p_ie, p2p_ielen, ch_list_buf, 128);
++				RTW_INFO("RTW_%s:P2P_GO_NEGO_CONF, dialogToken=%d, status:%d, op_ch:%d, ch_list:%s\n",
++					(tx == _TRUE) ? "Tx" : "Rx", dialogToken, status, op_ch, ch_list_buf);
++
++				if (!tx) {
++				}
++
++				break;
++			}
++			case P2P_INVIT_REQ: {
++				struct rtw_wdev_invit_info *invit_info = &pwdev_priv->invit_info;
++				int flags = -1;
++
++				if (tx) {
++#if defined(CONFIG_CONCURRENT_MODE) && defined(CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT)
++					if (rtw_mi_check_status(padapter, MI_LINKED)
++					    && padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++						rtw_cfg80211_adjust_p2pie_channel(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr));
++#endif
++				}
++
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_INVITATION_FLAGS, NULL, &cont_len);
++				if (cont)
++					flags = *cont;
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, &cont_len);
++				if (cont)
++					op_ch = *(cont + 4);
++
++				if (invit_info->token != dialogToken)
++					rtw_wdev_invit_info_init(invit_info);
++
++				_rtw_memcpy(invit_info->peer_mac, tx ? GetAddr1Ptr(buf) : GetAddr2Ptr(buf), ETH_ALEN);
++				invit_info->active = tx ? 1 : 0;
++				invit_info->token = dialogToken;
++				invit_info->flags = (flags == -1) ? 0x0 : flags;
++				invit_info->req_op_ch = op_ch;
++				invit_info->state = 0;
++
++				dump_p2p_attr_ch_list(p2p_ie, p2p_ielen, ch_list_buf, 128);
++				RTW_INFO("RTW_%s:P2P_INVIT_REQ, dialogToken=%d, flags:0x%02x, op_ch:%d, ch_list:%s\n",
++					(tx == _TRUE) ? "Tx" : "Rx", dialogToken, flags, op_ch, ch_list_buf);
++
++				if (!tx) {
++#if defined(CONFIG_CONCURRENT_MODE) && defined(CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT)
++					if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0) {
++						if (op_ch != -1 && rtw_chk_p2pie_op_ch_with_buddy(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr)) == _FALSE) {
++							RTW_INFO(FUNC_ADPT_FMT" op_ch:%u has no intersect with buddy\n", FUNC_ADPT_ARG(padapter), op_ch);
++							rtw_change_p2pie_ch_list(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr), 0);
++						} else if (rtw_chk_p2pie_ch_list_with_buddy(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr)) == _FALSE) {
++							RTW_INFO(FUNC_ADPT_FMT" ch_list has no intersect with buddy\n", FUNC_ADPT_ARG(padapter));
++							rtw_change_p2pie_ch_list(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr), 0);
++						}
++					}
++#endif
++				}
++
++				break;
++			}
++			case P2P_INVIT_RESP: {
++				struct rtw_wdev_invit_info *invit_info = &pwdev_priv->invit_info;
++
++				if (tx) {
++#if defined(CONFIG_CONCURRENT_MODE) && defined(CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT)
++					if (rtw_mi_check_status(padapter, MI_LINKED) && padapter->registrypriv.full_ch_in_p2p_handshake == 0)
++						rtw_cfg80211_adjust_p2pie_channel(padapter, frame_body, len - sizeof(struct rtw_ieee80211_hdr_3addr));
++#endif
++				}
++
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, NULL, &cont_len);
++				if (cont) {
++#ifdef CONFIG_P2P_INVITE_IOT
++					if (tx && *cont == 7) {
++						RTW_INFO("TX_P2P_INVITE_RESP, status is no common channel, change to unknown group\n");
++						*cont = 8; /* unknow group status */
++					}
++#endif /* CONFIG_P2P_INVITE_IOT */
++					status = *cont;
++				}
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_OPERATING_CH, NULL, &cont_len);
++				if (cont)
++					op_ch = *(cont + 4);
++
++				if (invit_info->token == dialogToken && invit_info->state == 0
++				    && _rtw_memcmp(invit_info->peer_mac, tx ? GetAddr1Ptr(buf) : GetAddr2Ptr(buf), ETH_ALEN) == _TRUE
++				   ) {
++					invit_info->status = (status == -1) ? 0xff : status;
++					invit_info->rsp_op_ch = op_ch;
++					invit_info->state = 1;
++					invit_info->token = 0; /* init */
++				}
++
++				dump_p2p_attr_ch_list(p2p_ie, p2p_ielen, ch_list_buf, 128);
++				RTW_INFO("RTW_%s:P2P_INVIT_RESP, dialogToken=%d, status:%d, op_ch:%d, ch_list:%s\n",
++					(tx == _TRUE) ? "Tx" : "Rx", dialogToken, status, op_ch, ch_list_buf);
++
++				if (!tx) {
++				}
++
++				break;
++			}
++			case P2P_DEVDISC_REQ:
++				RTW_INFO("RTW_%s:P2P_DEVDISC_REQ, dialogToken=%d\n", (tx == _TRUE) ? "Tx" : "Rx", dialogToken);
++				break;
++			case P2P_DEVDISC_RESP:
++				cont = rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_STATUS, NULL, &cont_len);
++				RTW_INFO("RTW_%s:P2P_DEVDISC_RESP, dialogToken=%d, status:%d\n", (tx == _TRUE) ? "Tx" : "Rx", dialogToken, cont ? *cont : -1);
++				break;
++			case P2P_PROVISION_DISC_REQ: {
++				size_t frame_body_len = len - sizeof(struct rtw_ieee80211_hdr_3addr);
++				u8 *p2p_ie;
++				uint p2p_ielen = 0;
++				uint contentlen = 0;
++
++				RTW_INFO("RTW_%s:P2P_PROVISION_DISC_REQ, dialogToken=%d\n", (tx == _TRUE) ? "Tx" : "Rx", dialogToken);
++
++				/* if(tx) */
++				{
++					pwdev_priv->provdisc_req_issued = _FALSE;
++
++					p2p_ie = rtw_get_p2p_ie(frame_body + _PUBLIC_ACTION_IE_OFFSET_, frame_body_len - _PUBLIC_ACTION_IE_OFFSET_, NULL, &p2p_ielen);
++					if (p2p_ie) {
++
++						if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_GROUP_ID, NULL, &contentlen)) {
++							pwdev_priv->provdisc_req_issued = _FALSE;/* case: p2p_client join p2p GO */
++						} else {
++#ifdef CONFIG_DEBUG_CFG80211
++							RTW_INFO("provdisc_req_issued is _TRUE\n");
++#endif /*CONFIG_DEBUG_CFG80211*/
++							pwdev_priv->provdisc_req_issued = _TRUE;/* case: p2p_devices connection before Nego req. */
++						}
++
++					}
++				}
++			}
++			break;
++			case P2P_PROVISION_DISC_RESP:
++				RTW_INFO("RTW_%s:P2P_PROVISION_DISC_RESP, dialogToken=%d\n", (tx == _TRUE) ? "Tx" : "Rx", dialogToken);
++				break;
++			default:
++				RTW_INFO("RTW_%s:OUI_Subtype=%d, dialogToken=%d\n", (tx == _TRUE) ? "Tx" : "Rx", OUI_Subtype, dialogToken);
++				break;
++			}
++
++		}
++
++	} else if (category == RTW_WLAN_CATEGORY_P2P) {
++		OUI_Subtype = frame_body[5];
++		dialogToken = frame_body[6];
++
++#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO("ACTION_CATEGORY_P2P: OUI=0x%x, OUI_Subtype=%d, dialogToken=%d\n",
++			cpu_to_be32(*((u32 *)(frame_body + 1))), OUI_Subtype, dialogToken);
++#endif
++
++		is_p2p_frame = OUI_Subtype;
++
++		switch (OUI_Subtype) {
++		case P2P_NOTICE_OF_ABSENCE:
++			RTW_INFO("RTW_%s:P2P_NOTICE_OF_ABSENCE, dialogToken=%d\n", (tx == _TRUE) ? "TX" : "RX", dialogToken);
++			break;
++		case P2P_PRESENCE_REQUEST:
++			RTW_INFO("RTW_%s:P2P_PRESENCE_REQUEST, dialogToken=%d\n", (tx == _TRUE) ? "TX" : "RX", dialogToken);
++			break;
++		case P2P_PRESENCE_RESPONSE:
++			RTW_INFO("RTW_%s:P2P_PRESENCE_RESPONSE, dialogToken=%d\n", (tx == _TRUE) ? "TX" : "RX", dialogToken);
++			break;
++		case P2P_GO_DISC_REQUEST:
++			RTW_INFO("RTW_%s:P2P_GO_DISC_REQUEST, dialogToken=%d\n", (tx == _TRUE) ? "TX" : "RX", dialogToken);
++			break;
++		default:
++			RTW_INFO("RTW_%s:OUI_Subtype=%d, dialogToken=%d\n", (tx == _TRUE) ? "TX" : "RX", OUI_Subtype, dialogToken);
++			break;
++		}
++
++	} else
++		RTW_INFO("RTW_%s:action frame category=%d\n", (tx == _TRUE) ? "TX" : "RX", category);
++
++	return is_p2p_frame;
++}
++
++void rtw_init_cfg80211_wifidirect_info(_adapter	*padapter)
++{
++	struct cfg80211_wifidirect_info *pcfg80211_wdinfo = &padapter->cfg80211_wdinfo;
++
++	_rtw_memset(pcfg80211_wdinfo, 0x00, sizeof(struct cfg80211_wifidirect_info));
++
++	_init_timer(&pcfg80211_wdinfo->remain_on_ch_timer, padapter->pnetdev, ro_ch_timer_process, padapter);
++}
++#endif /* CONFIG_IOCTL_CFG80211	 */
++
++void p2p_protocol_wk_hdl(_adapter *padapter, int intCmdType)
++{
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	switch (intCmdType) {
++	case P2P_FIND_PHASE_WK: {
++		find_phase_handler(padapter);
++		break;
++	}
++	case P2P_RESTORE_STATE_WK: {
++		restore_p2p_state_handler(padapter);
++		break;
++	}
++	case P2P_PRE_TX_PROVDISC_PROCESS_WK: {
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			p2p_concurrent_handler(padapter);
++		else
++			pre_tx_provdisc_handler(padapter);
++#else
++		pre_tx_provdisc_handler(padapter);
++#endif
++		break;
++	}
++	case P2P_PRE_TX_INVITEREQ_PROCESS_WK: {
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			p2p_concurrent_handler(padapter);
++		else
++			pre_tx_invitereq_handler(padapter);
++#else
++		pre_tx_invitereq_handler(padapter);
++#endif
++		break;
++	}
++	case P2P_PRE_TX_NEGOREQ_PROCESS_WK: {
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			p2p_concurrent_handler(padapter);
++		else
++			pre_tx_negoreq_handler(padapter);
++#else
++		pre_tx_negoreq_handler(padapter);
++#endif
++		break;
++	}
++#ifdef CONFIG_P2P
++#ifdef CONFIG_CONCURRENT_MODE
++	case P2P_AP_P2P_CH_SWITCH_PROCESS_WK: {
++		p2p_concurrent_handler(padapter);
++		break;
++	}
++#endif
++#endif
++#ifdef CONFIG_IOCTL_CFG80211
++	case P2P_RO_CH_WK: {
++		ro_ch_handler(padapter);
++		break;
++	}
++#endif /* CONFIG_IOCTL_CFG80211		 */
++
++	}
++
++}
++
++int process_p2p_cross_connect_ie(PADAPTER padapter, u8 *IEs, u32 IELength)
++{
++	int ret = _TRUE;
++	u8 *ies;
++	u32 ies_len;
++	u8 *p2p_ie;
++	u32	p2p_ielen = 0;
++	u8	p2p_attr[MAX_P2P_IE_LEN] = { 0x00 };/* NoA length should be n*(13) + 2 */
++	u32	attr_contentlen = 0;
++
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	if (IELength <= _BEACON_IE_OFFSET_)
++		return ret;
++
++	ies = IEs + _BEACON_IE_OFFSET_;
++	ies_len = IELength - _BEACON_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++
++	while (p2p_ie) {
++		/* Get P2P Manageability IE. */
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_MANAGEABILITY, p2p_attr, &attr_contentlen)) {
++			if ((p2p_attr[0] & (BIT(0) | BIT(1))) == 0x01)
++				ret = _FALSE;
++			break;
++		}
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++	}
++
++	return ret;
++}
++
++#ifdef CONFIG_P2P_PS
++void process_p2p_ps_ie(PADAPTER padapter, u8 *IEs, u32 IELength)
++{
++	u8 *ies;
++	u32 ies_len;
++	u8 *p2p_ie;
++	u32	p2p_ielen = 0;
++	u8	noa_attr[MAX_P2P_IE_LEN] = { 0x00 };/* NoA length should be n*(13) + 2 */
++	u32	attr_contentlen = 0;
++
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8	find_p2p = _FALSE, find_p2p_ps = _FALSE;
++	u8	noa_offset, noa_num, noa_index;
++
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->hw_port != HW_PORT0)
++		return;
++#endif
++	if (IELength <= _BEACON_IE_OFFSET_)
++		return;
++
++	ies = IEs + _BEACON_IE_OFFSET_;
++	ies_len = IELength - _BEACON_IE_OFFSET_;
++
++	p2p_ie = rtw_get_p2p_ie(ies, ies_len, NULL, &p2p_ielen);
++
++	while (p2p_ie) {
++		find_p2p = _TRUE;
++		/* Get Notice of Absence IE. */
++		if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_NOA, noa_attr, &attr_contentlen)) {
++			find_p2p_ps = _TRUE;
++			noa_index = noa_attr[0];
++
++			if ((pwdinfo->p2p_ps_mode == P2P_PS_NONE) ||
++			    (noa_index != pwdinfo->noa_index)) { /* if index change, driver should reconfigure related setting. */
++				pwdinfo->noa_index = noa_index;
++				pwdinfo->opp_ps = noa_attr[1] >> 7;
++				pwdinfo->ctwindow = noa_attr[1] & 0x7F;
++
++				noa_offset = 2;
++				noa_num = 0;
++				/* NoA length should be n*(13) + 2 */
++				if (attr_contentlen > 2) {
++					while (noa_offset < attr_contentlen) {
++						/* _rtw_memcpy(&wifidirect_info->noa_count[noa_num], &noa_attr[noa_offset], 1); */
++						pwdinfo->noa_count[noa_num] = noa_attr[noa_offset];
++						noa_offset += 1;
++
++						_rtw_memcpy(&pwdinfo->noa_duration[noa_num], &noa_attr[noa_offset], 4);
++						noa_offset += 4;
++
++						_rtw_memcpy(&pwdinfo->noa_interval[noa_num], &noa_attr[noa_offset], 4);
++						noa_offset += 4;
++
++						_rtw_memcpy(&pwdinfo->noa_start_time[noa_num], &noa_attr[noa_offset], 4);
++						noa_offset += 4;
++
++						noa_num++;
++					}
++				}
++				pwdinfo->noa_num = noa_num;
++
++				if (pwdinfo->opp_ps == 1) {
++					pwdinfo->p2p_ps_mode = P2P_PS_CTWINDOW;
++					/* driver should wait LPS for entering CTWindow */
++					if (adapter_to_pwrctl(padapter)->bFwCurrentInPSMode == _TRUE)
++						p2p_ps_wk_cmd(padapter, P2P_PS_ENABLE, 1);
++				} else if (pwdinfo->noa_num > 0) {
++					pwdinfo->p2p_ps_mode = P2P_PS_NOA;
++					p2p_ps_wk_cmd(padapter, P2P_PS_ENABLE, 1);
++				} else if (pwdinfo->p2p_ps_mode > P2P_PS_NONE)
++					p2p_ps_wk_cmd(padapter, P2P_PS_DISABLE, 1);
++			}
++
++			break; /* find target, just break. */
++		}
++
++		/* Get the next P2P IE */
++		p2p_ie = rtw_get_p2p_ie(p2p_ie + p2p_ielen, ies_len - (p2p_ie - ies + p2p_ielen), NULL, &p2p_ielen);
++
++	}
++
++	if (find_p2p == _TRUE) {
++		if ((pwdinfo->p2p_ps_mode > P2P_PS_NONE) && (find_p2p_ps == _FALSE))
++			p2p_ps_wk_cmd(padapter, P2P_PS_DISABLE, 1);
++	}
++
++}
++
++void p2p_ps_wk_hdl(_adapter *padapter, u8 p2p_ps_state)
++{
++	struct pwrctrl_priv		*pwrpriv = adapter_to_pwrctl(padapter);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	/* Pre action for p2p state */
++	switch (p2p_ps_state) {
++	case P2P_PS_DISABLE:
++		pwdinfo->p2p_ps_state = p2p_ps_state;
++
++		rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_P2P_PS_OFFLOAD, (u8 *)(&p2p_ps_state));
++
++		pwdinfo->noa_index = 0;
++		pwdinfo->ctwindow = 0;
++		pwdinfo->opp_ps = 0;
++		pwdinfo->noa_num = 0;
++		pwdinfo->p2p_ps_mode = P2P_PS_NONE;
++		if (pwrpriv->bFwCurrentInPSMode == _TRUE) {
++			if (pwrpriv->smart_ps == 0) {
++				pwrpriv->smart_ps = 2;
++				rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_PWRMODE, (u8 *)(&(pwrpriv->pwr_mode)));
++			}
++		}
++		break;
++	case P2P_PS_ENABLE:
++		if (pwdinfo->p2p_ps_mode > P2P_PS_NONE) {
++#ifdef CONFIG_MCC_MODE
++			if (MCC_EN(padapter)) {
++				if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)) {
++					RTW_INFO("P2P PS enble under MCC\n");
++					rtw_warn_on(1);
++				}
++
++			}
++#endif /* CONFIG_MCC_MODE */
++			pwdinfo->p2p_ps_state = p2p_ps_state;
++
++			if (pwdinfo->ctwindow > 0) {
++				if (pwrpriv->smart_ps != 0) {
++					pwrpriv->smart_ps = 0;
++					RTW_INFO("%s(): Enter CTW, change SmartPS\n", __FUNCTION__);
++					rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_PWRMODE, (u8 *)(&(pwrpriv->pwr_mode)));
++				}
++			}
++			rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_P2P_PS_OFFLOAD, (u8 *)(&p2p_ps_state));
++		}
++		break;
++	case P2P_PS_SCAN:
++	case P2P_PS_SCAN_DONE:
++	case P2P_PS_ALLSTASLEEP:
++		if (pwdinfo->p2p_ps_mode > P2P_PS_NONE) {
++			pwdinfo->p2p_ps_state = p2p_ps_state;
++			rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_P2P_PS_OFFLOAD, (u8 *)(&p2p_ps_state));
++		}
++		break;
++	default:
++		break;
++	}
++
++}
++
++u8 p2p_ps_wk_cmd(_adapter *padapter, u8 p2p_ps_state, u8 enqueue)
++{
++	struct cmd_obj	*ph2c;
++	struct drvextra_cmd_parm	*pdrvextra_cmd_parm;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	struct cmd_priv	*pcmdpriv = &padapter->cmdpriv;
++	u8	res = _SUCCESS;
++
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)
++#ifdef CONFIG_CONCURRENT_MODE
++	    || (padapter->hw_port != HW_PORT0)
++#endif
++	   )
++		return res;
++
++	if (enqueue) {
++		ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++		if (ph2c == NULL) {
++			res = _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm = (struct drvextra_cmd_parm *)rtw_zmalloc(sizeof(struct drvextra_cmd_parm));
++		if (pdrvextra_cmd_parm == NULL) {
++			rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++			res = _FAIL;
++			goto exit;
++		}
++
++		pdrvextra_cmd_parm->ec_id = P2P_PS_WK_CID;
++		pdrvextra_cmd_parm->type = p2p_ps_state;
++		pdrvextra_cmd_parm->size = 0;
++		pdrvextra_cmd_parm->pbuf = NULL;
++
++		init_h2fwcmd_w_parm_no_rsp(ph2c, pdrvextra_cmd_parm, GEN_CMD_CODE(_Set_Drv_Extra));
++
++		res = rtw_enqueue_cmd(pcmdpriv, ph2c);
++	} else
++		p2p_ps_wk_hdl(padapter, p2p_ps_state);
++
++exit:
++
++
++	return res;
++
++}
++#endif /* CONFIG_P2P_PS */
++
++static void reset_ch_sitesurvey_timer_process(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct	wifidirect_info		*pwdinfo = &adapter->wdinfo;
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++
++	RTW_INFO("[%s] In\n", __FUNCTION__);
++	/*	Reset the operation channel information */
++	pwdinfo->rx_invitereq_info.operation_ch[0] = 0;
++#ifdef CONFIG_P2P_OP_CHK_SOCIAL_CH
++	pwdinfo->rx_invitereq_info.operation_ch[1] = 0;
++	pwdinfo->rx_invitereq_info.operation_ch[2] = 0;
++	pwdinfo->rx_invitereq_info.operation_ch[3] = 0;
++#endif /* CONFIG_P2P_OP_CHK_SOCIAL_CH */
++	pwdinfo->rx_invitereq_info.scan_op_ch_only = 0;
++}
++
++static void reset_ch_sitesurvey_timer_process2(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct	wifidirect_info		*pwdinfo = &adapter->wdinfo;
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++
++	RTW_INFO("[%s] In\n", __FUNCTION__);
++	/*	Reset the operation channel information */
++	pwdinfo->p2p_info.operation_ch[0] = 0;
++#ifdef CONFIG_P2P_OP_CHK_SOCIAL_CH
++	pwdinfo->p2p_info.operation_ch[1] = 0;
++	pwdinfo->p2p_info.operation_ch[2] = 0;
++	pwdinfo->p2p_info.operation_ch[3] = 0;
++#endif /* CONFIG_P2P_OP_CHK_SOCIAL_CH */
++	pwdinfo->p2p_info.scan_op_ch_only = 0;
++}
++
++static void restore_p2p_state_timer_process(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct	wifidirect_info		*pwdinfo = &adapter->wdinfo;
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++
++	p2p_protocol_wk_cmd(adapter, P2P_RESTORE_STATE_WK);
++}
++
++static void pre_tx_scan_timer_process(void *FunctionContext)
++{
++	_adapter							*adapter = (_adapter *) FunctionContext;
++	struct	wifidirect_info				*pwdinfo = &adapter->wdinfo;
++	_irqL							irqL;
++	struct mlme_priv					*pmlmepriv = &adapter->mlmepriv;
++	u8								_status = 0;
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_PROVISION_DIS_REQ)) {
++		if (_TRUE == pwdinfo->tx_prov_disc_info.benable) {	/*	the provision discovery request frame is trigger to send or not */
++			p2p_protocol_wk_cmd(adapter, P2P_PRE_TX_PROVDISC_PROCESS_WK);
++			/* issue_probereq_p2p(adapter, NULL); */
++			/* _set_timer( &pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT ); */
++		}
++	} else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_ING)) {
++		if (_TRUE == pwdinfo->nego_req_info.benable)
++			p2p_protocol_wk_cmd(adapter, P2P_PRE_TX_NEGOREQ_PROCESS_WK);
++	} else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_TX_INVITE_REQ)) {
++		if (_TRUE == pwdinfo->invitereq_info.benable)
++			p2p_protocol_wk_cmd(adapter, P2P_PRE_TX_INVITEREQ_PROCESS_WK);
++	} else
++		RTW_INFO("[%s] p2p_state is %d, ignore!!\n", __FUNCTION__, rtw_p2p_state(pwdinfo));
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++
++static void find_phase_timer_process(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct	wifidirect_info		*pwdinfo = &adapter->wdinfo;
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++
++	adapter->wdinfo.find_phase_state_exchange_cnt++;
++
++	p2p_protocol_wk_cmd(adapter, P2P_FIND_PHASE_WK);
++}
++
++#ifdef CONFIG_CONCURRENT_MODE
++void ap_p2p_switch_timer_process(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct	wifidirect_info		*pwdinfo = &adapter->wdinfo;
++#ifdef CONFIG_IOCTL_CFG80211
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(adapter);
++#endif
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	ATOMIC_SET(&pwdev_priv->switch_ch_to, 1);
++#endif
++
++	p2p_protocol_wk_cmd(adapter, P2P_AP_P2P_CH_SWITCH_PROCESS_WK);
++}
++#endif
++
++void reset_global_wifidirect_info(_adapter *padapter)
++{
++	struct wifidirect_info	*pwdinfo;
++
++	pwdinfo = &padapter->wdinfo;
++	pwdinfo->persistent_supported = 0;
++	pwdinfo->session_available = _TRUE;
++	rtw_tdls_wfd_enable(padapter, 0);
++	pwdinfo->wfd_tdls_weaksec = _TRUE;
++}
++
++#ifdef CONFIG_WFD
++int rtw_init_wifi_display_info(_adapter *padapter)
++{
++	int	res = _SUCCESS;
++	struct wifi_display_info *pwfd_info = &padapter->wfd_info;
++
++	/* Used in P2P and TDLS */
++	pwfd_info->init_rtsp_ctrlport = 554;
++#ifdef CONFIG_IOCTL_CFG80211
++	pwfd_info->rtsp_ctrlport = 0;
++#else
++	pwfd_info->rtsp_ctrlport = pwfd_info->init_rtsp_ctrlport; /* set non-zero value for legacy wfd */
++#endif
++	pwfd_info->tdls_rtsp_ctrlport = 0;
++	pwfd_info->peer_rtsp_ctrlport = 0;	/*	Reset to 0 */
++	pwfd_info->wfd_enable = _FALSE;
++	pwfd_info->wfd_device_type = WFD_DEVINFO_PSINK;
++	pwfd_info->scan_result_type = SCAN_RESULT_P2P_ONLY;
++
++	/* Used in P2P */
++	pwfd_info->peer_session_avail = _TRUE;
++	pwfd_info->wfd_pc = _FALSE;
++
++	/* Used in TDLS */
++	_rtw_memset(pwfd_info->ip_address, 0x00, 4);
++	_rtw_memset(pwfd_info->peer_ip_address, 0x00, 4);
++	return res;
++
++}
++
++inline void rtw_wfd_enable(_adapter *adapter, bool on)
++{
++	struct wifi_display_info *wfdinfo = &adapter->wfd_info;
++
++	if (on) {
++		wfdinfo->rtsp_ctrlport = wfdinfo->init_rtsp_ctrlport;
++		wfdinfo->wfd_enable = _TRUE;
++
++	} else {
++		wfdinfo->wfd_enable = _FALSE;
++		wfdinfo->rtsp_ctrlport = 0;
++	}
++}
++
++inline void rtw_wfd_set_ctrl_port(_adapter *adapter, u16 port)
++{
++	struct wifi_display_info *wfdinfo = &adapter->wfd_info;
++
++	wfdinfo->init_rtsp_ctrlport = port;
++	if (wfdinfo->wfd_enable == _TRUE)
++		wfdinfo->rtsp_ctrlport = port;
++	if (adapter->wdinfo.wfd_tdls_enable == 1)
++		wfdinfo->tdls_rtsp_ctrlport = port;
++}
++
++inline void rtw_tdls_wfd_enable(_adapter *adapter, bool on)
++{
++	struct wifi_display_info *wfdinfo = &adapter->wfd_info;
++
++	if (on) {
++		wfdinfo->tdls_rtsp_ctrlport = wfdinfo->init_rtsp_ctrlport;
++		adapter->wdinfo.wfd_tdls_enable = 1;
++
++	} else {
++		adapter->wdinfo.wfd_tdls_enable = 0;
++		wfdinfo->tdls_rtsp_ctrlport = 0;
++	}
++}
++
++u32 rtw_append_beacon_wfd_ie(_adapter *adapter, u8 *pbuf)
++{
++	struct wifidirect_info *wdinfo = &adapter->wdinfo;
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	u8 build_ie_by_self = 0;
++	u32 len = 0;
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (_TRUE == wdinfo->wfd_info->wfd_enable)
++#endif
++		build_ie_by_self = 1;
++
++	if (build_ie_by_self)
++		len = build_beacon_wfd_ie(wdinfo, pbuf);
++#ifdef CONFIG_IOCTL_CFG80211
++	else if (mlme->wfd_beacon_ie && mlme->wfd_beacon_ie_len > 0) {
++		len = mlme->wfd_beacon_ie_len;
++		_rtw_memcpy(pbuf, mlme->wfd_beacon_ie, len);
++	}
++#endif
++
++exit:
++	return len;
++}
++
++u32 rtw_append_probe_req_wfd_ie(_adapter *adapter, u8 *pbuf)
++{
++	struct wifidirect_info *wdinfo = &adapter->wdinfo;
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	u8 build_ie_by_self = 0;
++	u32 len = 0;
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (_TRUE == wdinfo->wfd_info->wfd_enable)
++#endif
++		build_ie_by_self = 1;
++
++	if (build_ie_by_self)
++		len = build_probe_req_wfd_ie(wdinfo, pbuf);
++#ifdef CONFIG_IOCTL_CFG80211
++	else if (mlme->wfd_probe_req_ie && mlme->wfd_probe_req_ie_len > 0) {
++		len = mlme->wfd_probe_req_ie_len;
++		_rtw_memcpy(pbuf, mlme->wfd_probe_req_ie, len);
++	}
++#endif
++
++exit:
++	return len;
++}
++
++u32 rtw_append_probe_resp_wfd_ie(_adapter *adapter, u8 *pbuf)
++{
++	struct wifidirect_info *wdinfo = &adapter->wdinfo;
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	u8 build_ie_by_self = 0;
++	u32 len = 0;
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (_TRUE == wdinfo->wfd_info->wfd_enable)
++#endif
++		build_ie_by_self = 1;
++
++	if (build_ie_by_self)
++		len = build_probe_resp_wfd_ie(wdinfo, pbuf, 0);
++#ifdef CONFIG_IOCTL_CFG80211
++	else if (mlme->wfd_probe_resp_ie && mlme->wfd_probe_resp_ie_len > 0) {
++		len = mlme->wfd_probe_resp_ie_len;
++		_rtw_memcpy(pbuf, mlme->wfd_probe_resp_ie, len);
++	}
++#endif
++
++exit:
++	return len;
++}
++
++u32 rtw_append_assoc_req_wfd_ie(_adapter *adapter, u8 *pbuf)
++{
++	struct wifidirect_info *wdinfo = &adapter->wdinfo;
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	u8 build_ie_by_self = 0;
++	u32 len = 0;
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (_TRUE == wdinfo->wfd_info->wfd_enable)
++#endif
++		build_ie_by_self = 1;
++
++	if (build_ie_by_self)
++		len = build_assoc_req_wfd_ie(wdinfo, pbuf);
++#ifdef CONFIG_IOCTL_CFG80211
++	else if (mlme->wfd_assoc_req_ie && mlme->wfd_assoc_req_ie_len > 0) {
++		len = mlme->wfd_assoc_req_ie_len;
++		_rtw_memcpy(pbuf, mlme->wfd_assoc_req_ie, len);
++	}
++#endif
++
++exit:
++	return len;
++}
++
++u32 rtw_append_assoc_resp_wfd_ie(_adapter *adapter, u8 *pbuf)
++{
++	struct wifidirect_info *wdinfo = &adapter->wdinfo;
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	u8 build_ie_by_self = 0;
++	u32 len = 0;
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		goto exit;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (_TRUE == wdinfo->wfd_info->wfd_enable)
++#endif
++		build_ie_by_self = 1;
++
++	if (build_ie_by_self)
++		len = build_assoc_resp_wfd_ie(wdinfo, pbuf);
++#ifdef CONFIG_IOCTL_CFG80211
++	else if (mlme->wfd_assoc_resp_ie && mlme->wfd_assoc_resp_ie_len > 0) {
++		len = mlme->wfd_assoc_resp_ie_len;
++		_rtw_memcpy(pbuf, mlme->wfd_assoc_resp_ie, len);
++	}
++#endif
++
++exit:
++	return len;
++}
++
++#endif /* CONFIG_WFD */
++
++void rtw_init_wifidirect_timers(_adapter *padapter)
++{
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++
++	_init_timer(&pwdinfo->find_phase_timer, padapter->pnetdev, find_phase_timer_process, padapter);
++	_init_timer(&pwdinfo->restore_p2p_state_timer, padapter->pnetdev, restore_p2p_state_timer_process, padapter);
++	_init_timer(&pwdinfo->pre_tx_scan_timer, padapter->pnetdev, pre_tx_scan_timer_process, padapter);
++	_init_timer(&pwdinfo->reset_ch_sitesurvey, padapter->pnetdev, reset_ch_sitesurvey_timer_process, padapter);
++	_init_timer(&pwdinfo->reset_ch_sitesurvey2, padapter->pnetdev, reset_ch_sitesurvey_timer_process2, padapter);
++#ifdef CONFIG_CONCURRENT_MODE
++	_init_timer(&pwdinfo->ap_p2p_switch_timer, padapter->pnetdev, ap_p2p_switch_timer_process, padapter);
++#endif
++}
++
++void rtw_init_wifidirect_addrs(_adapter *padapter, u8 *dev_addr, u8 *iface_addr)
++{
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++
++	/*init device&interface address */
++	if (dev_addr)
++		_rtw_memcpy(pwdinfo->device_addr, dev_addr, ETH_ALEN);
++	if (iface_addr)
++		_rtw_memcpy(pwdinfo->interface_addr, iface_addr, ETH_ALEN);
++#endif
++}
++
++void init_wifidirect_info(_adapter *padapter, enum P2P_ROLE role)
++{
++	struct wifidirect_info	*pwdinfo;
++#ifdef CONFIG_WFD
++	struct wifi_display_info	*pwfd_info = &padapter->wfd_info;
++#endif
++	u8 union_ch = 0;
++	pwdinfo = &padapter->wdinfo;
++
++	pwdinfo->padapter = padapter;
++
++	/*	1, 6, 11 are the social channel defined in the WiFi Direct specification. */
++	pwdinfo->social_chan[0] = 1;
++	pwdinfo->social_chan[1] = 6;
++	pwdinfo->social_chan[2] = 11;
++	pwdinfo->social_chan[3] = 0;	/*	channel 0 for scanning ending in site survey function. */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED))
++		union_ch = rtw_mi_get_union_chan(padapter);
++
++	if ((union_ch != 0) &&
++	    ((union_ch == 1) || (union_ch == 6) || (union_ch == 11))
++	   ) {
++		/*	Use the AP's channel as the listen channel */
++		/*	This will avoid the channel switch between AP's channel and listen channel. */
++		pwdinfo->listen_channel = union_ch;
++	} else
++#endif /* CONFIG_CONCURRENT_MODE */
++	{
++		/*	Use the channel 11 as the listen channel */
++		pwdinfo->listen_channel = 11;
++	}
++
++	if (role == P2P_ROLE_DEVICE) {
++		rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_IDLE);
++		else
++#endif
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_LISTEN);
++
++		pwdinfo->intent = 1;
++		rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_LISTEN);
++	} else if (role == P2P_ROLE_CLIENT) {
++		rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++		pwdinfo->intent = 1;
++		rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_GONEGO_OK);
++	} else if (role == P2P_ROLE_GO) {
++		rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++		pwdinfo->intent = 15;
++		rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_GONEGO_OK);
++	}
++
++	/*	Use the OFDM rate in the P2P probe response frame. ( 6(B), 9(B), 12, 18, 24, 36, 48, 54 )	 */
++	pwdinfo->support_rate[0] = 0x8c;	/*	6(B) */
++	pwdinfo->support_rate[1] = 0x92;	/*	9(B) */
++	pwdinfo->support_rate[2] = 0x18;	/*	12 */
++	pwdinfo->support_rate[3] = 0x24;	/*	18 */
++	pwdinfo->support_rate[4] = 0x30;	/*	24 */
++	pwdinfo->support_rate[5] = 0x48;	/*	36 */
++	pwdinfo->support_rate[6] = 0x60;	/*	48 */
++	pwdinfo->support_rate[7] = 0x6c;	/*	54 */
++
++	_rtw_memcpy((void *) pwdinfo->p2p_wildcard_ssid, "DIRECT-", 7);
++
++	_rtw_memset(pwdinfo->device_name, 0x00, WPS_MAX_DEVICE_NAME_LEN);
++	pwdinfo->device_name_len = 0;
++
++	_rtw_memset(&pwdinfo->invitereq_info, 0x00, sizeof(struct tx_invite_req_info));
++	pwdinfo->invitereq_info.token = 3;	/*	Token used for P2P invitation request frame. */
++
++	_rtw_memset(&pwdinfo->inviteresp_info, 0x00, sizeof(struct tx_invite_resp_info));
++	pwdinfo->inviteresp_info.token = 0;
++
++	pwdinfo->profileindex = 0;
++	_rtw_memset(&pwdinfo->profileinfo[0], 0x00, sizeof(struct profile_info) * P2P_MAX_PERSISTENT_GROUP_NUM);
++
++	rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_NONE);
++
++	pwdinfo->listen_dwell = (u8)((rtw_get_current_time() % 3) + 1);
++	/* RTW_INFO( "[%s] listen_dwell time is %d00ms\n", __FUNCTION__, pwdinfo->listen_dwell ); */
++
++	_rtw_memset(&pwdinfo->tx_prov_disc_info, 0x00, sizeof(struct tx_provdisc_req_info));
++	pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_NONE;
++
++	_rtw_memset(&pwdinfo->nego_req_info, 0x00, sizeof(struct tx_nego_req_info));
++
++	pwdinfo->device_password_id_for_nego = WPS_DPID_PBC;
++	pwdinfo->negotiation_dialog_token = 1;
++
++	_rtw_memset(pwdinfo->nego_ssid, 0x00, WLAN_SSID_MAXLEN);
++	pwdinfo->nego_ssidlen = 0;
++
++	pwdinfo->ui_got_wps_info = P2P_NO_WPSINFO;
++#ifdef CONFIG_WFD
++	pwdinfo->supported_wps_cm = WPS_CONFIG_METHOD_DISPLAY  | WPS_CONFIG_METHOD_PBC;
++	pwdinfo->wfd_info = pwfd_info;
++#else
++	pwdinfo->supported_wps_cm = WPS_CONFIG_METHOD_DISPLAY | WPS_CONFIG_METHOD_PBC | WPS_CONFIG_METHOD_KEYPAD;
++#endif /* CONFIG_WFD */
++	pwdinfo->channel_list_attr_len = 0;
++	_rtw_memset(pwdinfo->channel_list_attr, 0x00, 100);
++
++	_rtw_memset(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, 0x00, 4);
++	_rtw_memset(pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req, '0', 3);
++	_rtw_memset(&pwdinfo->groupid_info, 0x00, sizeof(struct group_id_info));
++#ifdef CONFIG_CONCURRENT_MODE
++#ifdef CONFIG_IOCTL_CFG80211
++	pwdinfo->ext_listen_interval = 1000; /* The interval to be available with legacy AP during p2p0-find/scan */
++	pwdinfo->ext_listen_period = 3000; /* The time period to be available for P2P during nego */
++#else /* !CONFIG_IOCTL_CFG80211 */
++	/* pwdinfo->ext_listen_interval = 3000; */
++	/* pwdinfo->ext_listen_period = 400; */
++	pwdinfo->ext_listen_interval = 1000;
++	pwdinfo->ext_listen_period = 1000;
++#endif /* !CONFIG_IOCTL_CFG80211 */
++#endif
++
++	/* Commented by Kurt 20130319
++	 * For WiDi purpose: Use CFG80211 interface but controled WFD/RDS frame by driver itself. */
++#ifdef CONFIG_IOCTL_CFG80211
++	pwdinfo->driver_interface = DRIVER_CFG80211;
++#else
++	pwdinfo->driver_interface = DRIVER_WEXT;
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	pwdinfo->wfd_tdls_enable = 0;
++	_rtw_memset(pwdinfo->p2p_peer_interface_addr, 0x00, ETH_ALEN);
++	_rtw_memset(pwdinfo->p2p_peer_device_addr, 0x00, ETH_ALEN);
++
++	pwdinfo->rx_invitereq_info.operation_ch[0] = 0;
++	pwdinfo->rx_invitereq_info.operation_ch[1] = 0;	/*	Used to indicate the scan end in site survey function */
++#ifdef CONFIG_P2P_OP_CHK_SOCIAL_CH
++	pwdinfo->rx_invitereq_info.operation_ch[2] = 0;
++	pwdinfo->rx_invitereq_info.operation_ch[3] = 0;
++	pwdinfo->rx_invitereq_info.operation_ch[4] = 0;
++#endif /* CONFIG_P2P_OP_CHK_SOCIAL_CH */
++	pwdinfo->rx_invitereq_info.scan_op_ch_only = 0;
++	pwdinfo->p2p_info.operation_ch[0] = 0;
++	pwdinfo->p2p_info.operation_ch[1] = 0;			/*	Used to indicate the scan end in site survey function */
++#ifdef CONFIG_P2P_OP_CHK_SOCIAL_CH
++	pwdinfo->p2p_info.operation_ch[2] = 0;
++	pwdinfo->p2p_info.operation_ch[3] = 0;
++	pwdinfo->p2p_info.operation_ch[4] = 0;
++#endif /* CONFIG_P2P_OP_CHK_SOCIAL_CH */
++	pwdinfo->p2p_info.scan_op_ch_only = 0;
++}
++
++#ifdef CONFIG_DBG_P2P
++
++/**
++ * rtw_p2p_role_txt - Get the p2p role name as a text string
++ * @role: P2P role
++ * Returns: The state name as a printable text string
++ */
++const char *rtw_p2p_role_txt(enum P2P_ROLE role)
++{
++	switch (role) {
++	case P2P_ROLE_DISABLE:
++		return "P2P_ROLE_DISABLE";
++	case P2P_ROLE_DEVICE:
++		return "P2P_ROLE_DEVICE";
++	case P2P_ROLE_CLIENT:
++		return "P2P_ROLE_CLIENT";
++	case P2P_ROLE_GO:
++		return "P2P_ROLE_GO";
++	default:
++		return "UNKNOWN";
++	}
++}
++
++/**
++ * rtw_p2p_state_txt - Get the p2p state name as a text string
++ * @state: P2P state
++ * Returns: The state name as a printable text string
++ */
++const char *rtw_p2p_state_txt(enum P2P_STATE state)
++{
++	switch (state) {
++	case P2P_STATE_NONE:
++		return "P2P_STATE_NONE";
++	case P2P_STATE_IDLE:
++		return "P2P_STATE_IDLE";
++	case P2P_STATE_LISTEN:
++		return "P2P_STATE_LISTEN";
++	case P2P_STATE_SCAN:
++		return "P2P_STATE_SCAN";
++	case P2P_STATE_FIND_PHASE_LISTEN:
++		return "P2P_STATE_FIND_PHASE_LISTEN";
++	case P2P_STATE_FIND_PHASE_SEARCH:
++		return "P2P_STATE_FIND_PHASE_SEARCH";
++	case P2P_STATE_TX_PROVISION_DIS_REQ:
++		return "P2P_STATE_TX_PROVISION_DIS_REQ";
++	case P2P_STATE_RX_PROVISION_DIS_RSP:
++		return "P2P_STATE_RX_PROVISION_DIS_RSP";
++	case P2P_STATE_RX_PROVISION_DIS_REQ:
++		return "P2P_STATE_RX_PROVISION_DIS_REQ";
++	case P2P_STATE_GONEGO_ING:
++		return "P2P_STATE_GONEGO_ING";
++	case P2P_STATE_GONEGO_OK:
++		return "P2P_STATE_GONEGO_OK";
++	case P2P_STATE_GONEGO_FAIL:
++		return "P2P_STATE_GONEGO_FAIL";
++	case P2P_STATE_RECV_INVITE_REQ_MATCH:
++		return "P2P_STATE_RECV_INVITE_REQ_MATCH";
++	case P2P_STATE_PROVISIONING_ING:
++		return "P2P_STATE_PROVISIONING_ING";
++	case P2P_STATE_PROVISIONING_DONE:
++		return "P2P_STATE_PROVISIONING_DONE";
++	case P2P_STATE_TX_INVITE_REQ:
++		return "P2P_STATE_TX_INVITE_REQ";
++	case P2P_STATE_RX_INVITE_RESP_OK:
++		return "P2P_STATE_RX_INVITE_RESP_OK";
++	case P2P_STATE_RECV_INVITE_REQ_DISMATCH:
++		return "P2P_STATE_RECV_INVITE_REQ_DISMATCH";
++	case P2P_STATE_RECV_INVITE_REQ_GO:
++		return "P2P_STATE_RECV_INVITE_REQ_GO";
++	case P2P_STATE_RECV_INVITE_REQ_JOIN:
++		return "P2P_STATE_RECV_INVITE_REQ_JOIN";
++	case P2P_STATE_RX_INVITE_RESP_FAIL:
++		return "P2P_STATE_RX_INVITE_RESP_FAIL";
++	case P2P_STATE_RX_INFOR_NOREADY:
++		return "P2P_STATE_RX_INFOR_NOREADY";
++	case P2P_STATE_TX_INFOR_NOREADY:
++		return "P2P_STATE_TX_INFOR_NOREADY";
++	default:
++		return "UNKNOWN";
++	}
++}
++
++void dbg_rtw_p2p_set_state(struct wifidirect_info *wdinfo, enum P2P_STATE state, const char *caller, int line)
++{
++	if (!_rtw_p2p_chk_state(wdinfo, state)) {
++		enum P2P_STATE old_state = _rtw_p2p_state(wdinfo);
++		_rtw_p2p_set_state(wdinfo, state);
++		RTW_INFO("[CONFIG_DBG_P2P]%s:%d set_state from %s to %s\n", caller, line
++			, rtw_p2p_state_txt(old_state), rtw_p2p_state_txt(_rtw_p2p_state(wdinfo))
++			);
++	} else {
++		RTW_INFO("[CONFIG_DBG_P2P]%s:%d set_state to same state %s\n", caller, line
++			 , rtw_p2p_state_txt(_rtw_p2p_state(wdinfo))
++			);
++	}
++}
++void dbg_rtw_p2p_set_pre_state(struct wifidirect_info *wdinfo, enum P2P_STATE state, const char *caller, int line)
++{
++	if (_rtw_p2p_pre_state(wdinfo) != state) {
++		enum P2P_STATE old_state = _rtw_p2p_pre_state(wdinfo);
++		_rtw_p2p_set_pre_state(wdinfo, state);
++		RTW_INFO("[CONFIG_DBG_P2P]%s:%d set_pre_state from %s to %s\n", caller, line
++			, rtw_p2p_state_txt(old_state), rtw_p2p_state_txt(_rtw_p2p_pre_state(wdinfo))
++			);
++	} else {
++		RTW_INFO("[CONFIG_DBG_P2P]%s:%d set_pre_state to same state %s\n", caller, line
++			 , rtw_p2p_state_txt(_rtw_p2p_pre_state(wdinfo))
++			);
++	}
++}
++#if 0
++void dbg_rtw_p2p_restore_state(struct wifidirect_info *wdinfo, const char *caller, int line)
++{
++	if (wdinfo->pre_p2p_state != -1) {
++		RTW_INFO("[CONFIG_DBG_P2P]%s:%d restore from %s to %s\n", caller, line
++			, p2p_state_str[wdinfo->p2p_state], p2p_state_str[wdinfo->pre_p2p_state]
++			);
++		_rtw_p2p_restore_state(wdinfo);
++	} else {
++		RTW_INFO("[CONFIG_DBG_P2P]%s:%d restore no pre state, cur state %s\n", caller, line
++			 , p2p_state_str[wdinfo->p2p_state]
++			);
++	}
++}
++#endif
++void dbg_rtw_p2p_set_role(struct wifidirect_info *wdinfo, enum P2P_ROLE role, const char *caller, int line)
++{
++	if (wdinfo->role != role) {
++		enum P2P_ROLE old_role = wdinfo->role;
++		_rtw_p2p_set_role(wdinfo, role);
++		RTW_INFO("[CONFIG_DBG_P2P]%s:%d set_role from %s to %s\n", caller, line
++			, rtw_p2p_role_txt(old_role), rtw_p2p_role_txt(wdinfo->role)
++			);
++	} else {
++		RTW_INFO("[CONFIG_DBG_P2P]%s:%d set_role to same role %s\n", caller, line
++			 , rtw_p2p_role_txt(wdinfo->role)
++			);
++	}
++}
++#endif /* CONFIG_DBG_P2P */
++
++
++int rtw_p2p_enable(_adapter *padapter, enum P2P_ROLE role)
++{
++	int ret = _SUCCESS;
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++
++	if (role == P2P_ROLE_DEVICE || role == P2P_ROLE_CLIENT || role == P2P_ROLE_GO) {
++		u8 channel, ch_offset;
++		u16 bwmode;
++
++#ifdef CONFIG_CONCURRENT_MODE
++		/*	Commented by Albert 2011/12/30 */
++		/*	The driver just supports 1 P2P group operation. */
++		/*	So, this function will do nothing if the buddy adapter had enabled the P2P function. */
++		/*if(!rtw_p2p_chk_state(pbuddy_wdinfo, P2P_STATE_NONE))
++			return ret;*/
++		/*The buddy adapter had enabled the P2P function.*/
++		if (rtw_mi_buddy_stay_in_p2p_mode(padapter))
++			return ret;
++#endif /* CONFIG_CONCURRENT_MODE */
++
++		/* leave IPS/Autosuspend */
++		if (_FAIL == rtw_pwr_wakeup(padapter)) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		/*	Added by Albert 2011/03/22 */
++		/*	In the P2P mode, the driver should not support the b mode. */
++		/*	So, the Tx packet shouldn't use the CCK rate */
++		update_tx_basic_rate(padapter, WIRELESS_11AGN);
++
++		/* Enable P2P function */
++		init_wifidirect_info(padapter, role);
++
++		rtw_hal_set_odm_var(padapter, HAL_ODM_P2P_STATE, NULL, _TRUE);
++#ifdef CONFIG_WFD
++		if (hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++			rtw_hal_set_odm_var(padapter, HAL_ODM_WIFI_DISPLAY_STATE, NULL, _TRUE);
++#endif
++
++	} else if (role == P2P_ROLE_DISABLE) {
++#ifdef CONFIG_INTEL_WIDI
++		if (padapter->mlmepriv.p2p_reject_disable == _TRUE)
++			return ret;
++#endif /* CONFIG_INTEL_WIDI */
++
++#ifdef CONFIG_IOCTL_CFG80211
++		if (padapter->wdinfo.driver_interface == DRIVER_CFG80211)
++			adapter_wdev_data(padapter)->p2p_enabled = _FALSE;
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++
++		/* Disable P2P function */
++		if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++			_cancel_timer_ex(&pwdinfo->find_phase_timer);
++			_cancel_timer_ex(&pwdinfo->restore_p2p_state_timer);
++			_cancel_timer_ex(&pwdinfo->pre_tx_scan_timer);
++			_cancel_timer_ex(&pwdinfo->reset_ch_sitesurvey);
++			_cancel_timer_ex(&pwdinfo->reset_ch_sitesurvey2);
++			reset_ch_sitesurvey_timer_process(padapter);
++			reset_ch_sitesurvey_timer_process2(padapter);
++#ifdef CONFIG_CONCURRENT_MODE
++			_cancel_timer_ex(&pwdinfo->ap_p2p_switch_timer);
++#endif
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_NONE);
++			rtw_p2p_set_pre_state(pwdinfo, P2P_STATE_NONE);
++			rtw_p2p_set_role(pwdinfo, P2P_ROLE_DISABLE);
++			_rtw_memset(&pwdinfo->rx_prov_disc_info, 0x00, sizeof(struct rx_provdisc_req_info));
++
++			/* Remove profiles in wifidirect_info structure. */
++			_rtw_memset(&pwdinfo->profileinfo[0], 0x00, sizeof(struct profile_info) * P2P_MAX_PERSISTENT_GROUP_NUM);
++			pwdinfo->profileindex = 0;
++		}
++
++		rtw_hal_set_odm_var(padapter, HAL_ODM_P2P_STATE, NULL, _FALSE);
++#ifdef CONFIG_WFD
++		if (hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++			rtw_hal_set_odm_var(padapter, HAL_ODM_WIFI_DISPLAY_STATE, NULL, _FALSE);
++#endif
++
++		if (_FAIL == rtw_pwr_wakeup(padapter)) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		/* Restore to initial setting. */
++		update_tx_basic_rate(padapter, padapter->registrypriv.wireless_mode);
++
++#ifdef CONFIG_INTEL_WIDI
++		rtw_reset_widi_info(padapter);
++#endif /* CONFIG_INTEL_WIDI */
++
++		/* For WiDi purpose. */
++#ifdef CONFIG_IOCTL_CFG80211
++		pwdinfo->driver_interface = DRIVER_CFG80211;
++#else
++		pwdinfo->driver_interface = DRIVER_WEXT;
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	}
++
++exit:
++	return ret;
++}
++
++#endif /* CONFIG_P2P */
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_pwrctrl.c b/drivers/net/wireless/rtl8812au/core/rtw_pwrctrl.c
+new file mode 100644
+index 0000000..c510671
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_pwrctrl.c
+@@ -0,0 +1,2489 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_PWRCTRL_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++#include <hal_com_h2c.h>
++
++int rtw_fw_ps_state(PADAPTER padapter)
++{
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	int ret = _FAIL, dont_care = 0;
++	u16 fw_ps_state = 0;
++	u32 start_time;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct registry_priv  *registry_par = &padapter->registrypriv;
++
++	if (registry_par->check_fw_ps != 1)
++		return _SUCCESS;
++
++	_enter_pwrlock(&pwrpriv->check_32k_lock);
++
++	if (RTW_CANNOT_RUN(padapter)) {
++		RTW_INFO("%s: bSurpriseRemoved=%s , hw_init_completed=%d, bDriverStopped=%s\n", __func__
++			 , rtw_is_surprise_removed(padapter) ? "True" : "False"
++			 , rtw_get_hw_init_completed(padapter)
++			 , rtw_is_drv_stopped(padapter) ? "True" : "False");
++		goto exit_fw_ps_state;
++	}
++	rtw_hal_set_hwreg(padapter, HW_VAR_SET_REQ_FW_PS, (u8 *)&dont_care);
++	{
++		/* 4. if 0x88[7]=1, driver set cmd to leave LPS/IPS. */
++		/* Else, hw will keep in active mode. */
++		/* debug info: */
++		/* 0x88[7] = 32kpermission, */
++		/* 0x88[6:0] = current_ps_state */
++		/* 0x89[7:0] = last_rpwm */
++
++		rtw_hal_get_hwreg(padapter, HW_VAR_FW_PS_STATE, (u8 *)&fw_ps_state);
++
++		if ((fw_ps_state & 0x80) == 0)
++			ret = _SUCCESS;
++		else {
++			pdbgpriv->dbg_poll_fail_cnt++;
++			RTW_INFO("%s: fw_ps_state=%04x\n", __FUNCTION__, fw_ps_state);
++		}
++	}
++
++
++exit_fw_ps_state:
++	_exit_pwrlock(&pwrpriv->check_32k_lock);
++	return ret;
++}
++
++#ifdef CONFIG_IPS
++void _ips_enter(_adapter *padapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++
++	pwrpriv->bips_processing = _TRUE;
++
++	/* syn ips_mode with request */
++	pwrpriv->ips_mode = pwrpriv->ips_mode_req;
++
++	pwrpriv->ips_enter_cnts++;
++	RTW_INFO("==>ips_enter cnts:%d\n", pwrpriv->ips_enter_cnts);
++
++	if (rf_off == pwrpriv->change_rfpwrstate) {
++		pwrpriv->bpower_saving = _TRUE;
++		RTW_PRINT("nolinked power save enter\n");
++
++		if (pwrpriv->ips_mode == IPS_LEVEL_2)
++			pwrpriv->bkeepfwalive = _TRUE;
++
++		rtw_ips_pwr_down(padapter);
++		pwrpriv->rf_pwrstate = rf_off;
++	}
++	pwrpriv->bips_processing = _FALSE;
++
++}
++
++void ips_enter(_adapter *padapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++
++
++#ifdef CONFIG_BT_COEXIST
++	rtw_btcoex_IpsNotify(padapter, pwrpriv->ips_mode_req);
++#endif /* CONFIG_BT_COEXIST */
++
++	_enter_pwrlock(&pwrpriv->lock);
++	_ips_enter(padapter);
++	_exit_pwrlock(&pwrpriv->lock);
++}
++
++int _ips_leave(_adapter *padapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	int result = _SUCCESS;
++
++	if ((pwrpriv->rf_pwrstate == rf_off) && (!pwrpriv->bips_processing)) {
++		pwrpriv->bips_processing = _TRUE;
++		pwrpriv->change_rfpwrstate = rf_on;
++		pwrpriv->ips_leave_cnts++;
++		RTW_INFO("==>ips_leave cnts:%d\n", pwrpriv->ips_leave_cnts);
++
++		result = rtw_ips_pwr_up(padapter);
++		if (result == _SUCCESS)
++			pwrpriv->rf_pwrstate = rf_on;
++		RTW_PRINT("nolinked power save leave\n");
++
++		RTW_INFO("==> ips_leave.....LED(0x%08x)...\n", rtw_read32(padapter, 0x4c));
++		pwrpriv->bips_processing = _FALSE;
++
++		pwrpriv->bkeepfwalive = _FALSE;
++		pwrpriv->bpower_saving = _FALSE;
++	}
++
++	return result;
++}
++
++int ips_leave(_adapter *padapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	int ret;
++
++	if (!is_primary_adapter(padapter))
++		return _SUCCESS;
++
++	_enter_pwrlock(&pwrpriv->lock);
++	ret = _ips_leave(padapter);
++#ifdef DBG_CHECK_FW_PS_STATE
++	if (rtw_fw_ps_state(padapter) == _FAIL) {
++		RTW_INFO("ips leave doesn't leave 32k\n");
++		pdbgpriv->dbg_leave_ips_fail_cnt++;
++	}
++#endif /* DBG_CHECK_FW_PS_STATE */
++	_exit_pwrlock(&pwrpriv->lock);
++
++	if (_SUCCESS == ret)
++		ODM_DMReset(&GET_HAL_DATA(padapter)->odmpriv);
++
++#ifdef CONFIG_BT_COEXIST
++	if (_SUCCESS == ret)
++		rtw_btcoex_IpsNotify(padapter, IPS_NONE);
++#endif /* CONFIG_BT_COEXIST */
++
++	return ret;
++}
++#endif /* CONFIG_IPS */
++
++#ifdef CONFIG_AUTOSUSPEND
++	extern void autosuspend_enter(_adapter *padapter);
++	extern int autoresume_enter(_adapter *padapter);
++#endif
++
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++	int rtw_hw_suspend(_adapter *padapter);
++	int rtw_hw_resume(_adapter *padapter);
++#endif
++
++bool rtw_pwr_unassociated_idle(_adapter *adapter)
++{
++	u8 i;
++	_adapter *iface;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct xmit_priv *pxmit_priv = &adapter->xmitpriv;
++	struct mlme_priv *pmlmepriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo;
++#ifdef CONFIG_IOCTL_CFG80211
++	struct cfg80211_wifidirect_info *pcfg80211_wdinfo;
++#endif
++#endif
++
++	bool ret = _FALSE;
++
++	if (adapter_to_pwrctl(adapter)->bpower_saving == _TRUE) {
++		/* RTW_INFO("%s: already in LPS or IPS mode\n", __func__); */
++		goto exit;
++	}
++
++	if (adapter_to_pwrctl(adapter)->ips_deny_time >= rtw_get_current_time()) {
++		/* RTW_INFO("%s ips_deny_time\n", __func__); */
++		goto exit;
++	}
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++			pmlmepriv = &(iface->mlmepriv);
++#ifdef CONFIG_P2P
++			pwdinfo = &(iface->wdinfo);
++#ifdef CONFIG_IOCTL_CFG80211
++			pcfg80211_wdinfo = &iface->cfg80211_wdinfo;
++#endif
++#endif
++			if (check_fwstate(pmlmepriv, WIFI_ASOC_STATE | WIFI_SITE_MONITOR)
++			    || check_fwstate(pmlmepriv, WIFI_UNDER_LINKING | WIFI_UNDER_WPS)
++			    || check_fwstate(pmlmepriv, WIFI_AP_STATE)
++			    || check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE | WIFI_ADHOC_STATE)
++#if defined(CONFIG_P2P) && defined(CONFIG_IOCTL_CFG80211)
++			    || pcfg80211_wdinfo->is_ro_ch
++#elif defined(CONFIG_P2P)
++			    || rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE)
++			    || rtw_p2p_chk_state(pwdinfo, P2P_STATE_LISTEN)
++#endif
++#if defined(CONFIG_P2P) && defined(CONFIG_IOCTL_CFG80211)
++			    || rtw_get_passing_time_ms(pcfg80211_wdinfo->last_ro_ch_time) < 3000
++#endif
++			   )
++				goto exit;
++
++		}
++	}
++
++#if (MP_DRIVER == 1)
++	if (adapter->registrypriv.mp_mode == 1)
++		goto exit;
++#endif
++
++#ifdef CONFIG_INTEL_PROXIM
++	if (adapter->proximity.proxim_on == _TRUE)
++		return;
++#endif
++
++	if (pxmit_priv->free_xmitbuf_cnt != NR_XMITBUFF ||
++	    pxmit_priv->free_xmit_extbuf_cnt != NR_XMIT_EXTBUFF) {
++		RTW_PRINT("There are some pkts to transmit\n");
++		RTW_PRINT("free_xmitbuf_cnt: %d, free_xmit_extbuf_cnt: %d\n",
++			pxmit_priv->free_xmitbuf_cnt, pxmit_priv->free_xmit_extbuf_cnt);
++		goto exit;
++	}
++
++	ret = _TRUE;
++
++exit:
++	return ret;
++}
++
++
++/*
++ * ATTENTION:
++ *	rtw_ps_processor() doesn't handle LPS.
++ */
++void rtw_ps_processor(_adapter *padapter)
++{
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++	rt_rf_power_state rfpwrstate;
++#endif /* SUPPORT_HW_RFOFF_DETECTED */
++	u32 ps_deny = 0;
++
++	_enter_pwrlock(&adapter_to_pwrctl(padapter)->lock);
++	ps_deny = rtw_ps_deny_get(padapter);
++	_exit_pwrlock(&adapter_to_pwrctl(padapter)->lock);
++	if (ps_deny != 0) {
++		RTW_INFO(FUNC_ADPT_FMT ": ps_deny=0x%08X, skip power save!\n",
++			 FUNC_ADPT_ARG(padapter), ps_deny);
++		goto exit;
++	}
++
++	if (pwrpriv->bInSuspend == _TRUE) { /* system suspend or autosuspend */
++		pdbgpriv->dbg_ps_insuspend_cnt++;
++		RTW_INFO("%s, pwrpriv->bInSuspend == _TRUE ignore this process\n", __FUNCTION__);
++		return;
++	}
++
++	pwrpriv->ps_processing = _TRUE;
++
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++	if (pwrpriv->bips_processing == _TRUE)
++		goto exit;
++
++	/* RTW_INFO("==> fw report state(0x%x)\n",rtw_read8(padapter,0x1ca));	 */
++	if (pwrpriv->bHWPwrPindetect) {
++#ifdef CONFIG_AUTOSUSPEND
++		if (padapter->registrypriv.usbss_enable) {
++			if (pwrpriv->rf_pwrstate == rf_on) {
++				if (padapter->net_closed == _TRUE)
++					pwrpriv->ps_flag = _TRUE;
++
++				rfpwrstate = RfOnOffDetect(padapter);
++				RTW_INFO("@@@@- #1  %s==> rfstate:%s\n", __FUNCTION__, (rfpwrstate == rf_on) ? "rf_on" : "rf_off");
++				if (rfpwrstate != pwrpriv->rf_pwrstate) {
++					if (rfpwrstate == rf_off) {
++						pwrpriv->change_rfpwrstate = rf_off;
++
++						pwrpriv->bkeepfwalive = _TRUE;
++						pwrpriv->brfoffbyhw = _TRUE;
++
++						autosuspend_enter(padapter);
++					}
++				}
++			}
++		} else
++#endif /* CONFIG_AUTOSUSPEND */
++		{
++			rfpwrstate = RfOnOffDetect(padapter);
++			RTW_INFO("@@@@- #2  %s==> rfstate:%s\n", __FUNCTION__, (rfpwrstate == rf_on) ? "rf_on" : "rf_off");
++
++			if (rfpwrstate != pwrpriv->rf_pwrstate) {
++				if (rfpwrstate == rf_off) {
++					pwrpriv->change_rfpwrstate = rf_off;
++					pwrpriv->brfoffbyhw = _TRUE;
++					rtw_hw_suspend(padapter);
++				} else {
++					pwrpriv->change_rfpwrstate = rf_on;
++					rtw_hw_resume(padapter);
++				}
++				RTW_INFO("current rf_pwrstate(%s)\n", (pwrpriv->rf_pwrstate == rf_off) ? "rf_off" : "rf_on");
++			}
++		}
++		pwrpriv->pwr_state_check_cnts++;
++	}
++#endif /* SUPPORT_HW_RFOFF_DETECTED */
++
++	if (pwrpriv->ips_mode_req == IPS_NONE)
++		goto exit;
++
++	if (rtw_pwr_unassociated_idle(padapter) == _FALSE)
++		goto exit;
++
++	if ((pwrpriv->rf_pwrstate == rf_on) && ((pwrpriv->pwr_state_check_cnts % 4) == 0)) {
++		RTW_INFO("==>%s .fw_state(%x)\n", __FUNCTION__, get_fwstate(pmlmepriv));
++#if defined(CONFIG_BT_COEXIST) && defined (CONFIG_AUTOSUSPEND)
++#else
++		pwrpriv->change_rfpwrstate = rf_off;
++#endif
++#ifdef CONFIG_AUTOSUSPEND
++		if (padapter->registrypriv.usbss_enable) {
++			if (pwrpriv->bHWPwrPindetect)
++				pwrpriv->bkeepfwalive = _TRUE;
++
++			if (padapter->net_closed == _TRUE)
++				pwrpriv->ps_flag = _TRUE;
++
++#if defined(CONFIG_BT_COEXIST) && defined (CONFIG_AUTOSUSPEND)
++			if (_TRUE == pwrpriv->bInternalAutoSuspend)
++				RTW_INFO("<==%s .pwrpriv->bInternalAutoSuspend)(%x)\n", __FUNCTION__, pwrpriv->bInternalAutoSuspend);
++			else {
++				pwrpriv->change_rfpwrstate = rf_off;
++				RTW_INFO("<==%s .pwrpriv->bInternalAutoSuspend)(%x) call autosuspend_enter\n", __FUNCTION__, pwrpriv->bInternalAutoSuspend);
++				autosuspend_enter(padapter);
++			}
++#else
++			autosuspend_enter(padapter);
++#endif	/* if defined (CONFIG_BT_COEXIST)&& defined (CONFIG_AUTOSUSPEND) */
++		} else if (pwrpriv->bHWPwrPindetect) {
++		} else
++#endif /* CONFIG_AUTOSUSPEND */
++		{
++#if defined(CONFIG_BT_COEXIST) && defined (CONFIG_AUTOSUSPEND)
++			pwrpriv->change_rfpwrstate = rf_off;
++#endif	/* defined (CONFIG_BT_COEXIST)&& defined (CONFIG_AUTOSUSPEND) */
++
++#ifdef CONFIG_IPS
++			ips_enter(padapter);
++#endif
++		}
++	}
++exit:
++#ifndef CONFIG_IPS_CHECK_IN_WD
++	rtw_set_pwr_state_check_timer(pwrpriv);
++#endif
++	pwrpriv->ps_processing = _FALSE;
++	return;
++}
++
++void pwr_state_check_handler(RTW_TIMER_HDL_ARGS);
++void pwr_state_check_handler(RTW_TIMER_HDL_ARGS)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++	rtw_ps_cmd(padapter);
++}
++
++#ifdef CONFIG_LPS
++void	traffic_check_for_leave_lps(PADAPTER padapter, u8 tx, u32 tx_packets)
++{
++#ifdef CONFIG_CHECK_LEAVE_LPS
++	static u32 start_time = 0;
++	static u32 xmit_cnt = 0;
++	u8	bLeaveLPS = _FALSE;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++
++
++
++	if (tx) { /* from tx */
++		xmit_cnt += tx_packets;
++
++		if (start_time == 0)
++			start_time = rtw_get_current_time();
++
++		if (rtw_get_passing_time_ms(start_time) > 2000) { /* 2 sec == watch dog timer */
++			if (xmit_cnt > 8) {
++				if ((adapter_to_pwrctl(padapter)->bLeisurePs)
++				    && (adapter_to_pwrctl(padapter)->pwr_mode != PS_MODE_ACTIVE)
++#ifdef CONFIG_BT_COEXIST
++				    && (rtw_btcoex_IsBtControlLps(padapter) == _FALSE)
++#endif
++				   ) {
++					/* RTW_INFO("leave lps via Tx = %d\n", xmit_cnt);			 */
++					bLeaveLPS = _TRUE;
++				}
++			}
++
++			start_time = rtw_get_current_time();
++			xmit_cnt = 0;
++		}
++
++	} else { /* from rx path */
++		if (pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod > 4/*2*/) {
++			if ((adapter_to_pwrctl(padapter)->bLeisurePs)
++			    && (adapter_to_pwrctl(padapter)->pwr_mode != PS_MODE_ACTIVE)
++#ifdef CONFIG_BT_COEXIST
++			    && (rtw_btcoex_IsBtControlLps(padapter) == _FALSE)
++#endif
++			   ) {
++				/* RTW_INFO("leave lps via Rx = %d\n", pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod);	 */
++				bLeaveLPS = _TRUE;
++			}
++		}
++	}
++
++	if (bLeaveLPS) {
++		/* RTW_INFO("leave lps via %s, Tx = %d, Rx = %d\n", tx?"Tx":"Rx", pmlmepriv->LinkDetectInfo.NumTxOkInPeriod,pmlmepriv->LinkDetectInfo.NumRxUnicastOkInPeriod);	 */
++		/* rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_LEAVE, 1); */
++		rtw_lps_ctrl_wk_cmd(padapter, tx ? LPS_CTRL_TX_TRAFFIC_LEAVE : LPS_CTRL_RX_TRAFFIC_LEAVE, tx ? 0 : 1);
++	}
++#endif /* CONFIG_CHECK_LEAVE_LPS */
++}
++
++/*
++ * Description:
++ *	This function MUST be called under power lock protect
++ *
++ * Parameters
++ *	padapter
++ *	pslv			power state level, only could be PS_STATE_S0 ~ PS_STATE_S4
++ *
++ */
++void rtw_set_rpwm(PADAPTER padapter, u8 pslv)
++{
++	u8	rpwm;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++#ifdef CONFIG_DETECT_CPWM_BY_POLLING
++	u8 cpwm_orig;
++#endif /* CONFIG_DETECT_CPWM_BY_POLLING */
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++
++	pslv = PS_STATE(pslv);
++
++#ifdef CONFIG_LPS_RPWM_TIMER
++	if (pwrpriv->brpwmtimeout == _TRUE)
++		RTW_INFO("%s: RPWM timeout, force to set RPWM(0x%02X) again!\n", __FUNCTION__, pslv);
++	else
++#endif /* CONFIG_LPS_RPWM_TIMER */
++	{
++		if ((pwrpriv->rpwm == pslv)
++#ifdef CONFIG_LPS_LCLK
++		    || ((pwrpriv->rpwm >= PS_STATE_S2) && (pslv >= PS_STATE_S2))
++#endif
++		   ) {
++			return;
++		}
++	}
++
++	if (rtw_is_surprise_removed(padapter) ||
++	    (!rtw_is_hw_init_completed(padapter))) {
++
++		pwrpriv->cpwm = PS_STATE_S4;
++
++		return;
++	}
++
++	if (rtw_is_drv_stopped(padapter)) {
++
++		if (pslv < PS_STATE_S2) {
++			return;
++		}
++	}
++
++	rpwm = pslv | pwrpriv->tog;
++#ifdef CONFIG_LPS_LCLK
++	/* only when from PS_STATE S0/S1 to S2 and higher needs ACK */
++	if ((pwrpriv->cpwm < PS_STATE_S2) && (pslv >= PS_STATE_S2))
++		rpwm |= PS_ACK;
++#endif
++
++	pwrpriv->rpwm = pslv;
++
++#ifdef CONFIG_DETECT_CPWM_BY_POLLING
++	cpwm_orig = 0;
++	if (rpwm & PS_ACK)
++		rtw_hal_get_hwreg(padapter, HW_VAR_CPWM, &cpwm_orig);
++#endif
++
++#if defined(CONFIG_LPS_RPWM_TIMER) && !defined(CONFIG_DETECT_CPWM_BY_POLLING)
++	if (rpwm & PS_ACK)
++		_set_timer(&pwrpriv->pwr_rpwm_timer, LPS_RPWM_WAIT_MS);
++#endif /* CONFIG_LPS_RPWM_TIMER & !CONFIG_DETECT_CPWM_BY_POLLING */
++	rtw_hal_set_hwreg(padapter, HW_VAR_SET_RPWM, (u8 *)(&rpwm));
++
++	pwrpriv->tog += 0x80;
++
++#ifdef CONFIG_LPS_LCLK
++	/* No LPS 32K, No Ack */
++	if (rpwm & PS_ACK) {
++#ifdef CONFIG_DETECT_CPWM_BY_POLLING
++		u32 start_time;
++		u8 cpwm_now;
++		u8 poll_cnt = 0;
++
++		start_time = rtw_get_current_time();
++
++		/* polling cpwm */
++		do {
++			rtw_msleep_os(1);
++			poll_cnt++;
++			cpwm_now = 0;
++			rtw_hal_get_hwreg(padapter, HW_VAR_CPWM, &cpwm_now);
++			if ((cpwm_orig ^ cpwm_now) & 0x80) {
++				pwrpriv->cpwm = PS_STATE_S4;
++				pwrpriv->cpwm_tog = cpwm_now & PS_TOGGLE;
++#ifdef DBG_CHECK_FW_PS_STATE
++				RTW_INFO("%s: polling cpwm OK! poll_cnt=%d, cpwm_orig=%02x, cpwm_now=%02x , 0x100=0x%x\n"
++					, __FUNCTION__, poll_cnt, cpwm_orig, cpwm_now, rtw_read8(padapter, REG_CR));
++				if (rtw_fw_ps_state(padapter) == _FAIL) {
++					RTW_INFO("leave 32k but fw state in 32k\n");
++					pdbgpriv->dbg_rpwm_toogle_cnt++;
++				}
++#endif /* DBG_CHECK_FW_PS_STATE */
++				break;
++			}
++
++			if (rtw_get_passing_time_ms(start_time) > LPS_RPWM_WAIT_MS) {
++				RTW_INFO("%s: polling cpwm timeout! poll_cnt=%d, cpwm_orig=%02x, cpwm_now=%02x\n", __FUNCTION__, poll_cnt, cpwm_orig, cpwm_now);
++#ifdef DBG_CHECK_FW_PS_STATE
++				if (rtw_fw_ps_state(padapter) == _FAIL) {
++					RTW_INFO("rpwm timeout and fw ps state in 32k\n");
++					pdbgpriv->dbg_rpwm_timeout_fail_cnt++;
++				}
++#endif /* DBG_CHECK_FW_PS_STATE */
++#ifdef CONFIG_LPS_RPWM_TIMER
++				_set_timer(&pwrpriv->pwr_rpwm_timer, 1);
++#endif /* CONFIG_LPS_RPWM_TIMER */
++				break;
++			}
++		} while (1);
++#endif /* CONFIG_DETECT_CPWM_BY_POLLING */
++	} else
++#endif /* CONFIG_LPS_LCLK */
++	{
++		pwrpriv->cpwm = pslv;
++	}
++
++}
++
++u8 PS_RDY_CHECK(_adapter *padapter)
++{
++	u32 curr_time, delta_time;
++	struct pwrctrl_priv	*pwrpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#ifdef CONFIG_IOCTL_CFG80211
++	struct cfg80211_wifidirect_info *pcfg80211_wdinfo = &padapter->cfg80211_wdinfo;
++#endif /* CONFIG_IOCTL_CFG80211 */
++#endif /* CONFIG_P2P */
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	if (_TRUE == pwrpriv->bInSuspend && pwrpriv->wowlan_mode)
++		return _TRUE;
++	else if (_TRUE == pwrpriv->bInSuspend && pwrpriv->wowlan_ap_mode)
++		return _TRUE;
++	else if (_TRUE == pwrpriv->bInSuspend)
++		return _FALSE;
++#else
++	if (_TRUE == pwrpriv->bInSuspend)
++		return _FALSE;
++#endif
++
++	curr_time = rtw_get_current_time();
++
++	delta_time = curr_time - pwrpriv->DelayLPSLastTimeStamp;
++
++	if (delta_time < LPS_DELAY_TIME)
++		return _FALSE;
++
++	if (check_fwstate(pmlmepriv, WIFI_SITE_MONITOR)
++	    || check_fwstate(pmlmepriv, WIFI_UNDER_LINKING | WIFI_UNDER_WPS)
++	    || check_fwstate(pmlmepriv, WIFI_AP_STATE)
++	    || check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE | WIFI_ADHOC_STATE)
++#if defined(CONFIG_P2P) && defined(CONFIG_IOCTL_CFG80211)
++	    || pcfg80211_wdinfo->is_ro_ch
++#endif
++	    || rtw_is_scan_deny(padapter)
++#ifdef CONFIG_TDLS
++	    /* TDLS link is established. */
++	    || (padapter->tdlsinfo.link_established == _TRUE)
++#endif /* CONFIG_TDLS		 */
++	   )
++		return _FALSE;
++
++	if ((padapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X) && (padapter->securitypriv.binstallGrpkey == _FALSE)) {
++		RTW_INFO("Group handshake still in progress !!!\n");
++		return _FALSE;
++	}
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (!rtw_cfg80211_pwr_mgmt(padapter))
++		return _FALSE;
++#endif
++
++	return _TRUE;
++}
++
++#if defined(CONFIG_FWLPS_IN_IPS)
++void rtw_set_fw_in_ips_mode(PADAPTER padapter, u8 enable)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	int cnt = 0;
++	u32 start_time;
++	u8 val8 = 0;
++	u8 cpwm_orig = 0, cpwm_now = 0;
++	u8 parm[H2C_INACTIVE_PS_LEN] = {0};
++
++	if (padapter->netif_up == _FALSE) {
++		RTW_INFO("%s: ERROR, netif is down\n", __func__);
++		return;
++	}
++
++	/* u8 cmd_param; */ /* BIT0:enable, BIT1:NoConnect32k */
++	if (enable) {
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_IpsNotify(padapter, pwrpriv->ips_mode_req);
++#endif
++		/* Enter IPS */
++		RTW_INFO("%s: issue H2C to FW when entering IPS\n", __func__);
++
++		parm[0] = 0x1;/* suggest by Isaac.Hsu*/
++#ifdef CONFIG_PNO_SUPPORT
++		if (pwrpriv->pno_inited) {
++			parm[1] = pwrpriv->pnlo_info->fast_scan_iterations;
++			parm[2] = pwrpriv->pnlo_info->slow_scan_period;
++		}
++#endif
++
++		rtw_hal_fill_h2c_cmd(padapter, /* H2C_FWLPS_IN_IPS_, */
++				     H2C_INACTIVE_PS_,
++				     H2C_INACTIVE_PS_LEN, parm);
++		/* poll 0x1cc to make sure H2C command already finished by FW; MAC_0x1cc=0 means H2C done by FW. */
++		do {
++			val8 = rtw_read8(padapter, REG_HMETFR);
++			cnt++;
++			RTW_INFO("%s  polling REG_HMETFR=0x%x, cnt=%d\n",
++				 __func__, val8, cnt);
++			rtw_mdelay_os(10);
++		} while (cnt < 100 && (val8 != 0));
++
++#ifdef CONFIG_LPS_LCLK
++		/* H2C done, enter 32k */
++		if (val8 == 0) {
++			/* ser rpwm to enter 32k */
++			val8 = rtw_read8(padapter, SDIO_LOCAL_BASE | SDIO_REG_HRPWM1);
++			RTW_INFO("%s: read rpwm=%02x\n", __FUNCTION__, val8);
++			val8 += 0x80;
++			val8 |= BIT(0);
++			rtw_write8(padapter, SDIO_LOCAL_BASE | SDIO_REG_HRPWM1, val8);
++			RTW_INFO("%s: write rpwm=%02x\n", __FUNCTION__, val8);
++			adapter_to_pwrctl(padapter)->tog = (val8 + 0x80) & 0x80;
++			cnt = val8 = 0;
++			if (parm[1] == 0 || parm[2] == 0) {
++				do {
++					val8 = rtw_read8(padapter, REG_CR);
++					cnt++;
++					RTW_INFO("%s  polling 0x100=0x%x, cnt=%d\n",
++						 __func__, val8, cnt);
++					RTW_INFO("%s 0x08:%02x, 0x03:%02x\n",
++						 __func__,
++						 rtw_read8(padapter, 0x08),
++						 rtw_read8(padapter, 0x03));
++					rtw_mdelay_os(10);
++				} while (cnt < 20 && (val8 != 0xEA));
++			}
++		}
++#endif
++	} else {
++		/* Leave IPS */
++		RTW_INFO("%s: Leaving IPS in FWLPS state\n", __func__);
++
++#ifdef CONFIG_LPS_LCLK
++		/* for polling cpwm */
++		cpwm_orig = 0;
++		rtw_hal_get_hwreg(padapter, HW_VAR_CPWM, &cpwm_orig);
++
++		/* ser rpwm */
++		val8 = rtw_read8(padapter, SDIO_LOCAL_BASE | SDIO_REG_HRPWM1);
++		val8 &= 0x80;
++		val8 += 0x80;
++		val8 |= BIT(6);
++		rtw_write8(padapter, SDIO_LOCAL_BASE | SDIO_REG_HRPWM1, val8);
++		RTW_INFO("%s: write rpwm=%02x\n", __FUNCTION__, val8);
++		adapter_to_pwrctl(padapter)->tog = (val8 + 0x80) & 0x80;
++
++		/* do polling cpwm */
++		start_time = rtw_get_current_time();
++		do {
++
++			rtw_mdelay_os(1);
++
++			rtw_hal_get_hwreg(padapter, HW_VAR_CPWM, &cpwm_now);
++			if ((cpwm_orig ^ cpwm_now) & 0x80)
++				break;
++
++			if (rtw_get_passing_time_ms(start_time) > 100) {
++				RTW_INFO("%s: polling cpwm timeout when leaving IPS in FWLPS state\n", __FUNCTION__);
++				break;
++			}
++		} while (1);
++
++#endif
++		parm[0] = 0x0;
++		parm[1] = 0x0;
++		parm[2] = 0x0;
++		rtw_hal_fill_h2c_cmd(padapter, H2C_INACTIVE_PS_,
++				     H2C_INACTIVE_PS_LEN, parm);
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_IpsNotify(padapter, IPS_NONE);
++#endif
++	}
++}
++#endif /* CONFIG_PNO_SUPPORT */
++
++void rtw_set_ps_mode(PADAPTER padapter, u8 ps_mode, u8 smart_ps, u8 bcn_ant_mode, const char *msg)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++#ifdef CONFIG_TDLS
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	_irqL irqL;
++	int i, j;
++	_list	*plist, *phead;
++	struct sta_info *ptdls_sta;
++#endif /* CONFIG_TDLS */
++
++
++
++	if (ps_mode > PM_Card_Disable) {
++		return;
++	}
++
++	if (pwrpriv->pwr_mode == ps_mode) {
++		if (PS_MODE_ACTIVE == ps_mode)
++			return;
++
++#ifndef CONFIG_BT_COEXIST
++		if ((pwrpriv->smart_ps == smart_ps) &&
++		    (pwrpriv->bcn_ant_mode == bcn_ant_mode))
++			return;
++#endif /* !CONFIG_BT_COEXIST */
++	}
++
++#ifdef CONFIG_LPS_PG
++	if ((PS_MODE_ACTIVE != ps_mode) && (pwrpriv->blpspg_info_up))
++		rtw_hal_set_lps_pg_info(padapter);
++#endif
++
++#ifdef CONFIG_LPS_LCLK
++	_enter_pwrlock(&pwrpriv->lock);
++#endif
++
++	/* if(pwrpriv->pwr_mode == PS_MODE_ACTIVE) */
++	if (ps_mode == PS_MODE_ACTIVE) {
++		if (1
++#ifdef CONFIG_BT_COEXIST
++		    && (((rtw_btcoex_IsBtControlLps(padapter) == _FALSE)
++#ifdef CONFIG_P2P_PS
++			 && (pwdinfo->opp_ps == 0)
++#endif /* CONFIG_P2P_PS */
++			)
++			|| ((rtw_btcoex_IsBtControlLps(padapter) == _TRUE)
++			    && (rtw_btcoex_IsLpsOn(padapter) == _FALSE))
++		       )
++#else /* !CONFIG_BT_COEXIST */
++#ifdef CONFIG_P2P_PS
++		    && (pwdinfo->opp_ps == 0)
++#endif /* CONFIG_P2P_PS */
++#endif /* !CONFIG_BT_COEXIST */
++		   ) {
++			RTW_INFO(FUNC_ADPT_FMT" Leave 802.11 power save - %s\n",
++				 FUNC_ADPT_ARG(padapter), msg);
++
++			if (pwrpriv->lps_leave_cnts < UINT_MAX)
++				pwrpriv->lps_leave_cnts++;
++			else
++				pwrpriv->lps_leave_cnts = 0;
++#ifdef CONFIG_TDLS
++			for (i = 0; i < NUM_STA; i++) {
++				phead = &(pstapriv->sta_hash[i]);
++				plist = get_next(phead);
++
++				while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++					ptdls_sta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++
++					if (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE)
++						issue_nulldata_to_TDLS_peer_STA(padapter, ptdls_sta->hwaddr, 0, 0, 0);
++					plist = get_next(plist);
++				}
++			}
++#endif /* CONFIG_TDLS */
++
++			pwrpriv->pwr_mode = ps_mode;
++			rtw_set_rpwm(padapter, PS_STATE_S4);
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN) || defined(CONFIG_P2P_WOWLAN)
++			if (pwrpriv->wowlan_mode == _TRUE ||
++			    pwrpriv->wowlan_ap_mode == _TRUE ||
++			    pwrpriv->wowlan_p2p_mode == _TRUE) {
++				u32 start_time, delay_ms;
++				u8 val8;
++				delay_ms = 20;
++				start_time = rtw_get_current_time();
++				do {
++					rtw_hal_get_hwreg(padapter, HW_VAR_SYS_CLKR, &val8);
++					if (!(val8 & BIT(4))) { /* 0x08 bit4 =1 --> in 32k, bit4 = 0 --> leave 32k */
++						pwrpriv->cpwm = PS_STATE_S4;
++						break;
++					}
++					if (rtw_get_passing_time_ms(start_time) > delay_ms) {
++						RTW_INFO("%s: Wait for FW 32K leave more than %u ms!!!\n",
++							__FUNCTION__, delay_ms);
++						pdbgpriv->dbg_wow_leave_ps_fail_cnt++;
++						break;
++					}
++					rtw_usleep_os(100);
++				} while (1);
++			}
++#endif
++			rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_PWRMODE, (u8 *)(&ps_mode));
++#ifdef CONFIG_LPS_POFF
++			rtw_hal_set_hwreg(padapter, HW_VAR_LPS_POFF_SET_MODE,
++					  (u8 *)(&ps_mode));
++#endif /*CONFIG_LPS_POFF*/
++
++			pwrpriv->bFwCurrentInPSMode = _FALSE;
++
++#ifdef CONFIG_BT_COEXIST
++			rtw_btcoex_LpsNotify(padapter, ps_mode);
++#endif /* CONFIG_BT_COEXIST */
++		}
++	} else {
++		if ((PS_RDY_CHECK(padapter) && check_fwstate(&padapter->mlmepriv, WIFI_ASOC_STATE))
++#ifdef CONFIG_BT_COEXIST
++		    || ((rtw_btcoex_IsBtControlLps(padapter) == _TRUE)
++			&& (rtw_btcoex_IsLpsOn(padapter) == _TRUE))
++#endif
++#ifdef CONFIG_P2P_WOWLAN
++		    || (_TRUE == pwrpriv->wowlan_p2p_mode)
++#endif /* CONFIG_P2P_WOWLAN */
++		   ) {
++			u8 pslv;
++
++			RTW_INFO(FUNC_ADPT_FMT" Enter 802.11 power save - %s\n",
++				 FUNC_ADPT_ARG(padapter), msg);
++
++			if (pwrpriv->lps_enter_cnts < UINT_MAX)
++				pwrpriv->lps_enter_cnts++;
++			else
++				pwrpriv->lps_enter_cnts = 0;
++#ifdef CONFIG_TDLS
++			for (i = 0; i < NUM_STA; i++) {
++				phead = &(pstapriv->sta_hash[i]);
++				plist = get_next(phead);
++
++				while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++					ptdls_sta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++
++					if (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE)
++						issue_nulldata_to_TDLS_peer_STA(padapter, ptdls_sta->hwaddr, 1, 0, 0);
++					plist = get_next(plist);
++				}
++			}
++#endif /* CONFIG_TDLS */
++
++#ifdef CONFIG_BT_COEXIST
++			rtw_btcoex_LpsNotify(padapter, ps_mode);
++#endif /* CONFIG_BT_COEXIST */
++
++#ifdef CONFIG_LPS_POFF
++			rtw_hal_set_hwreg(padapter, HW_VAR_LPS_POFF_SET_MODE,
++					  (u8 *)(&ps_mode));
++#endif /*CONFIG_LPS_POFF*/
++
++			pwrpriv->bFwCurrentInPSMode = _TRUE;
++			pwrpriv->pwr_mode = ps_mode;
++			pwrpriv->smart_ps = smart_ps;
++			pwrpriv->bcn_ant_mode = bcn_ant_mode;
++			rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_PWRMODE, (u8 *)(&ps_mode));
++
++#ifdef CONFIG_P2P_PS
++			/* Set CTWindow after LPS */
++			if (pwdinfo->opp_ps == 1)
++				p2p_ps_wk_cmd(padapter, P2P_PS_ENABLE, 0);
++#endif /* CONFIG_P2P_PS */
++
++			pslv = PS_STATE_S2;
++#ifdef CONFIG_LPS_LCLK
++			if (pwrpriv->alives == 0)
++				pslv = PS_STATE_S0;
++#endif /* CONFIG_LPS_LCLK */
++
++#ifdef CONFIG_BT_COEXIST
++			if ((rtw_btcoex_IsBtDisabled(padapter) == _FALSE)
++			    && (rtw_btcoex_IsBtControlLps(padapter) == _TRUE)) {
++				u8 val8;
++
++				val8 = rtw_btcoex_LpsVal(padapter);
++				if (val8 & BIT(4))
++					pslv = PS_STATE_S2;
++
++			}
++#endif /* CONFIG_BT_COEXIST */
++
++			rtw_set_rpwm(padapter, pslv);
++		}
++	}
++
++#ifdef CONFIG_LPS_LCLK
++	_exit_pwrlock(&pwrpriv->lock);
++#endif
++
++}
++
++/*
++ * Return:
++ *	0:	Leave OK
++ *	-1:	Timeout
++ *	-2:	Other error
++ */
++s32 LPS_RF_ON_check(PADAPTER padapter, u32 delay_ms)
++{
++	u32 start_time;
++	u8 bAwake = _FALSE;
++	s32 err = 0;
++
++
++	start_time = rtw_get_current_time();
++	while (1) {
++		rtw_hal_get_hwreg(padapter, HW_VAR_FWLPS_RF_ON, &bAwake);
++		if (_TRUE == bAwake)
++			break;
++
++		if (rtw_is_surprise_removed(padapter)) {
++			err = -2;
++			RTW_INFO("%s: device surprise removed!!\n", __FUNCTION__);
++			break;
++		}
++
++		if (rtw_get_passing_time_ms(start_time) > delay_ms) {
++			err = -1;
++			RTW_INFO("%s: Wait for FW LPS leave more than %u ms!!!\n", __FUNCTION__, delay_ms);
++			break;
++		}
++		rtw_usleep_os(100);
++	}
++
++	return err;
++}
++
++/*
++ *	Description:
++ *		Enter the leisure power save mode.
++ *   */
++void LPS_Enter(PADAPTER padapter, const char *msg)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv	*pwrpriv = dvobj_to_pwrctl(dvobj);
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	int n_assoc_iface = 0;
++	int i;
++	char buf[32] = {0};
++
++
++	/*	RTW_INFO("+LeisurePSEnter\n"); */
++	if (_FALSE == padapter->bFWReady)
++		return;
++
++#ifdef CONFIG_BT_COEXIST
++	if (rtw_btcoex_IsBtControlLps(padapter) == _TRUE)
++		return;
++#endif
++
++	/* Skip lps enter request if number of assocated adapters is not 1 */
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		if (check_fwstate(&(dvobj->padapters[i]->mlmepriv), WIFI_ASOC_STATE))
++			n_assoc_iface++;
++	}
++	if (n_assoc_iface != 1)
++		return;
++
++#ifndef CONFIG_SUPPORT_FW_MULTI_PORT
++	/* Skip lps enter request for adapter not port0 */
++	if (get_hw_port(padapter) != HW_PORT0)
++		return;
++#endif
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		if (PS_RDY_CHECK(dvobj->padapters[i]) == _FALSE)
++			return;
++	}
++
++#ifdef CONFIG_P2P_PS
++	if (padapter->wdinfo.p2p_ps_mode == P2P_PS_NOA) {
++		return;/* supporting p2p client ps NOA via H2C_8723B_P2P_PS_OFFLOAD */
++	}
++#endif /* CONFIG_P2P_PS */
++
++	if (pwrpriv->bLeisurePs) {
++		/* Idle for a while if we connect to AP a while ago. */
++		if (pwrpriv->LpsIdleCount >= 2) { /* 4 Sec */
++			if (pwrpriv->pwr_mode == PS_MODE_ACTIVE) {
++				sprintf(buf, "WIFI-%s", msg);
++				pwrpriv->bpower_saving = _TRUE;
++				rtw_set_ps_mode(padapter, pwrpriv->power_mgnt, padapter->registrypriv.smart_ps, 0, buf);
++			}
++		} else
++			pwrpriv->LpsIdleCount++;
++	}
++
++	/*	RTW_INFO("-LeisurePSEnter\n"); */
++
++}
++
++/*
++ *	Description:
++ *		Leave the leisure power save mode.
++ *   */
++void LPS_Leave(PADAPTER padapter, const char *msg)
++{
++#define LPS_LEAVE_TIMEOUT_MS 100
++
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv	*pwrpriv = dvobj_to_pwrctl(dvobj);
++	u32 start_time;
++	u8 bAwake = _FALSE;
++	char buf[32] = {0};
++	struct debug_priv *pdbgpriv = &dvobj->drv_dbg;
++
++
++	/*	RTW_INFO("+LeisurePSLeave\n"); */
++
++#ifdef CONFIG_BT_COEXIST
++	if (rtw_btcoex_IsBtControlLps(padapter) == _TRUE)
++		return;
++#endif
++
++	if (pwrpriv->bLeisurePs) {
++		if (pwrpriv->pwr_mode != PS_MODE_ACTIVE) {
++			sprintf(buf, "WIFI-%s", msg);
++			rtw_set_ps_mode(padapter, PS_MODE_ACTIVE, 0, 0, buf);
++
++			if (pwrpriv->pwr_mode == PS_MODE_ACTIVE)
++				LPS_RF_ON_check(padapter, LPS_LEAVE_TIMEOUT_MS);
++		}
++	}
++
++	pwrpriv->bpower_saving = _FALSE;
++#ifdef DBG_CHECK_FW_PS_STATE
++	if (rtw_fw_ps_state(padapter) == _FAIL) {
++		RTW_INFO("leave lps, fw in 32k\n");
++		pdbgpriv->dbg_leave_lps_fail_cnt++;
++	}
++#endif /* DBG_CHECK_FW_PS_STATE
++ * 	RTW_INFO("-LeisurePSLeave\n"); */
++
++}
++#endif
++
++void LeaveAllPowerSaveModeDirect(PADAPTER Adapter)
++{
++	PADAPTER pri_padapter = GET_PRIMARY_ADAPTER(Adapter);
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(Adapter);
++	struct dvobj_priv *psdpriv = Adapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++#ifndef CONFIG_DETECT_CPWM_BY_POLLING
++	u8 cpwm_orig, cpwm_now;
++	u32 start_time;
++#endif /* CONFIG_DETECT_CPWM_BY_POLLING */
++
++
++	RTW_INFO("%s.....\n", __FUNCTION__);
++
++	if (rtw_is_surprise_removed(Adapter)) {
++		RTW_INFO(FUNC_ADPT_FMT ": bSurpriseRemoved=_TRUE Skip!\n", FUNC_ADPT_ARG(Adapter));
++		return;
++	}
++
++	if (rtw_mi_check_status(Adapter, MI_LINKED)) { /*connect*/
++
++		if (pwrpriv->pwr_mode == PS_MODE_ACTIVE) {
++			RTW_INFO("%s: Driver Already Leave LPS\n", __FUNCTION__);
++			return;
++		}
++
++#ifdef CONFIG_LPS_LCLK
++		_enter_pwrlock(&pwrpriv->lock);
++
++#ifndef CONFIG_DETECT_CPWM_BY_POLLING
++		cpwm_orig = 0;
++		rtw_hal_get_hwreg(Adapter, HW_VAR_CPWM, &cpwm_orig);
++#endif /* CONFIG_DETECT_CPWM_BY_POLLING */
++		rtw_set_rpwm(Adapter, PS_STATE_S4);
++
++#ifndef CONFIG_DETECT_CPWM_BY_POLLING
++
++		start_time = rtw_get_current_time();
++
++		/* polling cpwm */
++		do {
++			rtw_mdelay_os(1);
++
++			rtw_hal_get_hwreg(Adapter, HW_VAR_CPWM, &cpwm_now);
++			if ((cpwm_orig ^ cpwm_now) & 0x80) {
++				pwrpriv->cpwm = PS_STATE_S4;
++				pwrpriv->cpwm_tog = cpwm_now & PS_TOGGLE;
++#ifdef DBG_CHECK_FW_PS_STATE
++				RTW_INFO("%s: polling cpwm OK! cpwm_orig=%02x, cpwm_now=%02x, 0x100=0x%x\n"
++					, __FUNCTION__, cpwm_orig, cpwm_now, rtw_read8(Adapter, REG_CR));
++				if (rtw_fw_ps_state(Adapter) == _FAIL) {
++					RTW_INFO("%s: leave 32k but fw state in 32k\n", __FUNCTION__);
++					pdbgpriv->dbg_rpwm_toogle_cnt++;
++				}
++#endif /* DBG_CHECK_FW_PS_STATE */
++				break;
++			}
++
++			if (rtw_get_passing_time_ms(start_time) > LPS_RPWM_WAIT_MS) {
++				RTW_INFO("%s: polling cpwm timeout! cpwm_orig=%02x, cpwm_now=%02x\n", __FUNCTION__, cpwm_orig, cpwm_now);
++#ifdef DBG_CHECK_FW_PS_STATE
++				if (rtw_fw_ps_state(Adapter) == _FAIL) {
++					RTW_INFO("rpwm timeout and fw ps state in 32k\n");
++					pdbgpriv->dbg_rpwm_timeout_fail_cnt++;
++				}
++#endif /* DBG_CHECK_FW_PS_STATE */
++				break;
++			}
++		} while (1);
++#endif /* CONFIG_DETECT_CPWM_BY_POLLING */
++
++		_exit_pwrlock(&pwrpriv->lock);
++#endif
++
++#ifdef CONFIG_P2P_PS
++		p2p_ps_wk_cmd(pri_padapter, P2P_PS_DISABLE, 0);
++#endif /* CONFIG_P2P_PS */
++
++#ifdef CONFIG_LPS
++		rtw_lps_ctrl_wk_cmd(pri_padapter, LPS_CTRL_LEAVE, 0);
++#endif
++	} else {
++		if (pwrpriv->rf_pwrstate == rf_off) {
++#ifdef CONFIG_AUTOSUSPEND
++			if (Adapter->registrypriv.usbss_enable) {
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++				usb_disable_autosuspend(adapter_to_dvobj(Adapter)->pusbdev);
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 22) && LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 34))
++				adapter_to_dvobj(Adapter)->pusbdev->autosuspend_disabled = Adapter->bDisableAutosuspend;/* autosuspend disabled by the user */
++#endif
++			} else
++#endif
++			{
++#if defined(CONFIG_FWLPS_IN_IPS) || defined(CONFIG_SWLPS_IN_IPS) || defined(CONFIG_RTL8188E)
++#ifdef CONFIG_IPS
++				if (_FALSE == ips_leave(pri_padapter))
++					RTW_INFO("======> ips_leave fail.............\n");
++#endif
++#endif /* CONFIG_SWLPS_IN_IPS || (CONFIG_PLATFORM_SPRD && CONFIG_RTL8188E) */
++			}
++		}
++	}
++
++}
++
++/*
++ * Description: Leave all power save mode: LPS, FwLPS, IPS if needed.
++ * Move code to function by tynli. 2010.03.26.
++ *   */
++void LeaveAllPowerSaveMode(IN PADAPTER Adapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(Adapter);
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	u8	enqueue = 0;
++	int n_assoc_iface = 0;
++	int i;
++
++
++	/* RTW_INFO("%s.....\n",__FUNCTION__); */
++
++	if (_FALSE == Adapter->bup) {
++		RTW_INFO(FUNC_ADPT_FMT ": bup=%d Skip!\n",
++			 FUNC_ADPT_ARG(Adapter), Adapter->bup);
++		return;
++	}
++
++	if (rtw_is_surprise_removed(Adapter)) {
++		RTW_INFO(FUNC_ADPT_FMT ": bSurpriseRemoved=_TRUE Skip!\n", FUNC_ADPT_ARG(Adapter));
++		return;
++	}
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		if (check_fwstate(&(dvobj->padapters[i]->mlmepriv), WIFI_ASOC_STATE))
++			n_assoc_iface++;
++	}
++
++	if (n_assoc_iface) {
++		/* connect */
++#ifdef CONFIG_LPS_LCLK
++		enqueue = 1;
++#endif
++
++#ifdef CONFIG_P2P_PS
++		p2p_ps_wk_cmd(Adapter, P2P_PS_DISABLE, enqueue);
++#endif /* CONFIG_P2P_PS */
++
++#ifdef CONFIG_LPS
++		rtw_lps_ctrl_wk_cmd(Adapter, LPS_CTRL_LEAVE, enqueue);
++#endif
++
++#ifdef CONFIG_LPS_LCLK
++		LPS_Leave_check(Adapter);
++#endif
++	} else {
++		if (adapter_to_pwrctl(Adapter)->rf_pwrstate == rf_off) {
++#ifdef CONFIG_AUTOSUSPEND
++			if (Adapter->registrypriv.usbss_enable) {
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++				usb_disable_autosuspend(adapter_to_dvobj(Adapter)->pusbdev);
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 22) && LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 34))
++				adapter_to_dvobj(Adapter)->pusbdev->autosuspend_disabled = Adapter->bDisableAutosuspend;/* autosuspend disabled by the user */
++#endif
++			} else
++#endif
++			{
++#if defined(CONFIG_FWLPS_IN_IPS) || defined(CONFIG_SWLPS_IN_IPS) || (defined(CONFIG_PLATFORM_SPRD) && defined(CONFIG_RTL8188E))
++#ifdef CONFIG_IPS
++				if (_FALSE == ips_leave(Adapter))
++					RTW_INFO("======> ips_leave fail.............\n");
++#endif
++#endif /* CONFIG_SWLPS_IN_IPS || (CONFIG_PLATFORM_SPRD && CONFIG_RTL8188E) */
++			}
++		}
++	}
++
++}
++
++#ifdef CONFIG_LPS_LCLK
++void LPS_Leave_check(
++	PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrpriv;
++	u32	start_time;
++	u8	bReady;
++
++
++	pwrpriv = adapter_to_pwrctl(padapter);
++
++	bReady = _FALSE;
++	start_time = rtw_get_current_time();
++
++	rtw_yield_os();
++
++	while (1) {
++		_enter_pwrlock(&pwrpriv->lock);
++
++		if (rtw_is_surprise_removed(padapter)
++		    || (!rtw_is_hw_init_completed(padapter))
++#ifdef CONFIG_USB_HCI
++		    || rtw_is_drv_stopped(padapter)
++#endif
++		    || (pwrpriv->pwr_mode == PS_MODE_ACTIVE)
++		   )
++			bReady = _TRUE;
++
++		_exit_pwrlock(&pwrpriv->lock);
++
++		if (_TRUE == bReady)
++			break;
++
++		if (rtw_get_passing_time_ms(start_time) > 100) {
++			RTW_INFO("Wait for cpwm event  than 100 ms!!!\n");
++			break;
++		}
++		rtw_msleep_os(1);
++	}
++
++}
++
++/*
++ * Caller:ISR handler...
++ *
++ * This will be called when CPWM interrupt is up.
++ *
++ * using to update cpwn of drv; and drv willl make a decision to up or down pwr level
++ */
++void cpwm_int_hdl(
++	PADAPTER padapter,
++	struct reportpwrstate_parm *preportpwrstate)
++{
++	struct pwrctrl_priv *pwrpriv;
++
++
++	pwrpriv = adapter_to_pwrctl(padapter);
++#if 0
++	if (pwrpriv->cpwm_tog == (preportpwrstate->state & PS_TOGGLE)) {
++		goto exit;
++	}
++#endif
++
++	_enter_pwrlock(&pwrpriv->lock);
++
++#ifdef CONFIG_LPS_RPWM_TIMER
++	if (pwrpriv->rpwm < PS_STATE_S2) {
++		RTW_INFO("%s: Redundant CPWM Int. RPWM=0x%02X CPWM=0x%02x\n", __func__, pwrpriv->rpwm, pwrpriv->cpwm);
++		_exit_pwrlock(&pwrpriv->lock);
++		goto exit;
++	}
++#endif /* CONFIG_LPS_RPWM_TIMER */
++
++	pwrpriv->cpwm = PS_STATE(preportpwrstate->state);
++	pwrpriv->cpwm_tog = preportpwrstate->state & PS_TOGGLE;
++
++	if (pwrpriv->cpwm >= PS_STATE_S2) {
++		if (pwrpriv->alives & CMD_ALIVE)
++			_rtw_up_sema(&padapter->cmdpriv.cmd_queue_sema);
++
++		if (pwrpriv->alives & XMIT_ALIVE)
++			_rtw_up_sema(&padapter->xmitpriv.xmit_sema);
++	}
++
++	_exit_pwrlock(&pwrpriv->lock);
++
++exit:
++	return;
++}
++
++static void cpwm_event_callback(struct work_struct *work)
++{
++	struct pwrctrl_priv *pwrpriv = container_of(work, struct pwrctrl_priv, cpwm_event);
++	struct dvobj_priv *dvobj = pwrctl_to_dvobj(pwrpriv);
++	_adapter *adapter = dvobj_get_primary_adapter(dvobj);
++	struct reportpwrstate_parm report;
++
++	/* RTW_INFO("%s\n",__FUNCTION__); */
++
++	report.state = PS_STATE_S2;
++	cpwm_int_hdl(adapter, &report);
++}
++
++static void dma_event_callback(struct work_struct *work)
++{
++	struct pwrctrl_priv *pwrpriv = container_of(work, struct pwrctrl_priv, dma_event);
++	struct dvobj_priv *dvobj = pwrctl_to_dvobj(pwrpriv);
++	_adapter *adapter = dvobj_get_primary_adapter(dvobj);
++
++	rtw_unregister_tx_alive(adapter);
++}
++
++#ifdef CONFIG_LPS_RPWM_TIMER
++static void rpwmtimeout_workitem_callback(struct work_struct *work)
++{
++	PADAPTER padapter;
++	struct dvobj_priv *dvobj;
++	struct pwrctrl_priv *pwrpriv;
++
++
++	pwrpriv = container_of(work, struct pwrctrl_priv, rpwmtimeoutwi);
++	dvobj = pwrctl_to_dvobj(pwrpriv);
++	padapter = dvobj_get_primary_adapter(dvobj);
++	/*	RTW_INFO("+%s: rpwm=0x%02X cpwm=0x%02X\n", __func__, pwrpriv->rpwm, pwrpriv->cpwm); */
++
++	_enter_pwrlock(&pwrpriv->lock);
++	if ((pwrpriv->rpwm == pwrpriv->cpwm) || (pwrpriv->cpwm >= PS_STATE_S2)) {
++		RTW_INFO("%s: rpwm=0x%02X cpwm=0x%02X CPWM done!\n", __func__, pwrpriv->rpwm, pwrpriv->cpwm);
++		goto exit;
++	}
++	_exit_pwrlock(&pwrpriv->lock);
++
++	if (rtw_read8(padapter, 0x100) != 0xEA) {
++#if 1
++		struct reportpwrstate_parm report;
++
++		report.state = PS_STATE_S2;
++		RTW_INFO("\n%s: FW already leave 32K!\n\n", __func__);
++		cpwm_int_hdl(padapter, &report);
++#else
++		RTW_INFO("\n%s: FW already leave 32K!\n\n", __func__);
++		cpwm_event_callback(&pwrpriv->cpwm_event);
++#endif
++		return;
++	}
++
++	_enter_pwrlock(&pwrpriv->lock);
++
++	if ((pwrpriv->rpwm == pwrpriv->cpwm) || (pwrpriv->cpwm >= PS_STATE_S2)) {
++		RTW_INFO("%s: cpwm=%d, nothing to do!\n", __func__, pwrpriv->cpwm);
++		goto exit;
++	}
++	pwrpriv->brpwmtimeout = _TRUE;
++	rtw_set_rpwm(padapter, pwrpriv->rpwm);
++	pwrpriv->brpwmtimeout = _FALSE;
++
++exit:
++	_exit_pwrlock(&pwrpriv->lock);
++}
++
++/*
++ * This function is a timer handler, can't do any IO in it.
++ */
++static void pwr_rpwm_timeout_handler(void *FunctionContext)
++{
++	PADAPTER padapter;
++	struct pwrctrl_priv *pwrpriv;
++
++
++	padapter = (PADAPTER)FunctionContext;
++	pwrpriv = adapter_to_pwrctl(padapter);
++	RTW_INFO("+%s: rpwm=0x%02X cpwm=0x%02X\n", __func__, pwrpriv->rpwm, pwrpriv->cpwm);
++
++	if ((pwrpriv->rpwm == pwrpriv->cpwm) || (pwrpriv->cpwm >= PS_STATE_S2)) {
++		RTW_INFO("+%s: cpwm=%d, nothing to do!\n", __func__, pwrpriv->cpwm);
++		return;
++	}
++
++	_set_workitem(&pwrpriv->rpwmtimeoutwi);
++}
++#endif /* CONFIG_LPS_RPWM_TIMER */
++
++__inline static void register_task_alive(struct pwrctrl_priv *pwrctrl, u32 tag)
++{
++	pwrctrl->alives |= tag;
++}
++
++__inline static void unregister_task_alive(struct pwrctrl_priv *pwrctrl, u32 tag)
++{
++	pwrctrl->alives &= ~tag;
++}
++
++
++/*
++ * Description:
++ *	Check if the fw_pwrstate is okay for I/O.
++ *	If not (cpwm is less than S2), then the sub-routine
++ *	will raise the cpwm to be greater than or equal to S2.
++ *
++ *	Calling Context: Passive
++ *
++ *	Constraint:
++ *		1. this function will request pwrctrl->lock
++ *
++ * Return Value:
++ *	_SUCCESS	hardware is ready for I/O
++ *	_FAIL		can't I/O right now
++ */
++s32 rtw_register_task_alive(PADAPTER padapter, u32 task)
++{
++	s32 res;
++	struct pwrctrl_priv *pwrctrl;
++	u8 pslv;
++
++
++	res = _SUCCESS;
++	pwrctrl = adapter_to_pwrctl(padapter);
++	pslv = PS_STATE_S2;
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	register_task_alive(pwrctrl, task);
++
++	if (pwrctrl->bFwCurrentInPSMode == _TRUE) {
++
++		if (pwrctrl->cpwm < pslv) {
++			if (pwrctrl->cpwm < PS_STATE_S2)
++				res = _FAIL;
++			if (pwrctrl->rpwm < pslv)
++				rtw_set_rpwm(padapter, pslv);
++		}
++	}
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++#ifdef CONFIG_DETECT_CPWM_BY_POLLING
++	if (_FAIL == res) {
++		if (pwrctrl->cpwm >= PS_STATE_S2)
++			res = _SUCCESS;
++	}
++#endif /* CONFIG_DETECT_CPWM_BY_POLLING */
++
++
++	return res;
++}
++
++/*
++ * Description:
++ *	If task is done, call this func. to power down firmware again.
++ *
++ *	Constraint:
++ *		1. this function will request pwrctrl->lock
++ *
++ * Return Value:
++ *	none
++ */
++void rtw_unregister_task_alive(PADAPTER padapter, u32 task)
++{
++	struct pwrctrl_priv *pwrctrl;
++	u8 pslv;
++
++
++	pwrctrl = adapter_to_pwrctl(padapter);
++	pslv = PS_STATE_S0;
++
++#ifdef CONFIG_BT_COEXIST
++	if ((rtw_btcoex_IsBtDisabled(padapter) == _FALSE)
++	    && (rtw_btcoex_IsBtControlLps(padapter) == _TRUE)) {
++		u8 val8;
++
++		val8 = rtw_btcoex_LpsVal(padapter);
++		if (val8 & BIT(4))
++			pslv = PS_STATE_S2;
++
++	}
++#endif /* CONFIG_BT_COEXIST */
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	unregister_task_alive(pwrctrl, task);
++
++	if ((pwrctrl->pwr_mode != PS_MODE_ACTIVE)
++	    && (pwrctrl->bFwCurrentInPSMode == _TRUE)) {
++
++		if (pwrctrl->cpwm > pslv) {
++			if ((pslv >= PS_STATE_S2) || (pwrctrl->alives == 0))
++				rtw_set_rpwm(padapter, pslv);
++		}
++	}
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++}
++
++/*
++ * Caller: rtw_xmit_thread
++ *
++ * Check if the fw_pwrstate is okay for xmit.
++ * If not (cpwm is less than S3), then the sub-routine
++ * will raise the cpwm to be greater than or equal to S3.
++ *
++ * Calling Context: Passive
++ *
++ * Return Value:
++ *	 _SUCCESS	rtw_xmit_thread can write fifo/txcmd afterwards.
++ *	 _FAIL		rtw_xmit_thread can not do anything.
++ */
++s32 rtw_register_tx_alive(PADAPTER padapter)
++{
++	s32 res;
++	struct pwrctrl_priv *pwrctrl;
++	u8 pslv;
++
++
++	res = _SUCCESS;
++	pwrctrl = adapter_to_pwrctl(padapter);
++	pslv = PS_STATE_S2;
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	register_task_alive(pwrctrl, XMIT_ALIVE);
++
++	if (pwrctrl->bFwCurrentInPSMode == _TRUE) {
++
++		if (pwrctrl->cpwm < pslv) {
++			if (pwrctrl->cpwm < PS_STATE_S2)
++				res = _FAIL;
++			if (pwrctrl->rpwm < pslv)
++				rtw_set_rpwm(padapter, pslv);
++		}
++	}
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++#ifdef CONFIG_DETECT_CPWM_BY_POLLING
++	if (_FAIL == res) {
++		if (pwrctrl->cpwm >= PS_STATE_S2)
++			res = _SUCCESS;
++	}
++#endif /* CONFIG_DETECT_CPWM_BY_POLLING */
++
++
++	return res;
++}
++
++/*
++ * Caller: rtw_cmd_thread
++ *
++ * Check if the fw_pwrstate is okay for issuing cmd.
++ * If not (cpwm should be is less than S2), then the sub-routine
++ * will raise the cpwm to be greater than or equal to S2.
++ *
++ * Calling Context: Passive
++ *
++ * Return Value:
++ *	_SUCCESS	rtw_cmd_thread can issue cmds to firmware afterwards.
++ *	_FAIL		rtw_cmd_thread can not do anything.
++ */
++s32 rtw_register_cmd_alive(PADAPTER padapter)
++{
++	s32 res;
++	struct pwrctrl_priv *pwrctrl;
++	u8 pslv;
++
++
++	res = _SUCCESS;
++	pwrctrl = adapter_to_pwrctl(padapter);
++	pslv = PS_STATE_S2;
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	register_task_alive(pwrctrl, CMD_ALIVE);
++
++	if (pwrctrl->bFwCurrentInPSMode == _TRUE) {
++
++		if (pwrctrl->cpwm < pslv) {
++			if (pwrctrl->cpwm < PS_STATE_S2)
++				res = _FAIL;
++			if (pwrctrl->rpwm < pslv)
++				rtw_set_rpwm(padapter, pslv);
++		}
++	}
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++#ifdef CONFIG_DETECT_CPWM_BY_POLLING
++	if (_FAIL == res) {
++		if (pwrctrl->cpwm >= PS_STATE_S2)
++			res = _SUCCESS;
++	}
++#endif /* CONFIG_DETECT_CPWM_BY_POLLING */
++
++
++	return res;
++}
++
++/*
++ * Caller: rx_isr
++ *
++ * Calling Context: Dispatch/ISR
++ *
++ * Return Value:
++ *	_SUCCESS
++ *	_FAIL
++ */
++s32 rtw_register_rx_alive(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrctrl;
++
++
++	pwrctrl = adapter_to_pwrctl(padapter);
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	register_task_alive(pwrctrl, RECV_ALIVE);
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++
++	return _SUCCESS;
++}
++
++/*
++ * Caller: evt_isr or evt_thread
++ *
++ * Calling Context: Dispatch/ISR or Passive
++ *
++ * Return Value:
++ *	_SUCCESS
++ *	_FAIL
++ */
++s32 rtw_register_evt_alive(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrctrl;
++
++
++	pwrctrl = adapter_to_pwrctl(padapter);
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	register_task_alive(pwrctrl, EVT_ALIVE);
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++
++	return _SUCCESS;
++}
++
++/*
++ * Caller: ISR
++ *
++ * If ISR's txdone,
++ * No more pkts for TX,
++ * Then driver shall call this fun. to power down firmware again.
++ */
++void rtw_unregister_tx_alive(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrctrl;
++	_adapter *iface;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	u8 pslv, i;
++
++
++	pwrctrl = adapter_to_pwrctl(padapter);
++	pslv = PS_STATE_S0;
++
++#ifdef CONFIG_BT_COEXIST
++	if ((rtw_btcoex_IsBtDisabled(padapter) == _FALSE)
++	    && (rtw_btcoex_IsBtControlLps(padapter) == _TRUE)) {
++		u8 val8;
++
++		val8 = rtw_btcoex_LpsVal(padapter);
++		if (val8 & BIT(4))
++			pslv = PS_STATE_S2;
++
++	}
++#endif /* CONFIG_BT_COEXIST */
++
++#ifdef CONFIG_P2P_PS
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++			if (iface->wdinfo.p2p_ps_mode > P2P_PS_NONE) {
++				pslv = PS_STATE_S2;
++				break;
++			}
++		}
++	}
++#endif
++	_enter_pwrlock(&pwrctrl->lock);
++
++	unregister_task_alive(pwrctrl, XMIT_ALIVE);
++
++	if ((pwrctrl->pwr_mode != PS_MODE_ACTIVE)
++	    && (pwrctrl->bFwCurrentInPSMode == _TRUE)) {
++
++		if (pwrctrl->cpwm > pslv) {
++			if ((pslv >= PS_STATE_S2) || (pwrctrl->alives == 0))
++				rtw_set_rpwm(padapter, pslv);
++		}
++	}
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++}
++
++/*
++ * Caller: ISR
++ *
++ * If all commands have been done,
++ * and no more command to do,
++ * then driver shall call this fun. to power down firmware again.
++ */
++void rtw_unregister_cmd_alive(PADAPTER padapter)
++{
++	_adapter *iface;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv *pwrctrl;
++	u8 pslv, i;
++
++
++	pwrctrl = adapter_to_pwrctl(padapter);
++	pslv = PS_STATE_S0;
++
++#ifdef CONFIG_BT_COEXIST
++	if ((rtw_btcoex_IsBtDisabled(padapter) == _FALSE)
++	    && (rtw_btcoex_IsBtControlLps(padapter) == _TRUE)) {
++		u8 val8;
++
++		val8 = rtw_btcoex_LpsVal(padapter);
++		if (val8 & BIT(4))
++			pslv = PS_STATE_S2;
++
++	}
++#endif /* CONFIG_BT_COEXIST */
++
++#ifdef CONFIG_P2P_PS
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++			if (iface->wdinfo.p2p_ps_mode > P2P_PS_NONE) {
++				pslv = PS_STATE_S2;
++				break;
++			}
++		}
++	}
++#endif
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	unregister_task_alive(pwrctrl, CMD_ALIVE);
++
++	if ((pwrctrl->pwr_mode != PS_MODE_ACTIVE)
++	    && (pwrctrl->bFwCurrentInPSMode == _TRUE)) {
++
++		if (pwrctrl->cpwm > pslv) {
++			if ((pslv >= PS_STATE_S2) || (pwrctrl->alives == 0))
++				rtw_set_rpwm(padapter, pslv);
++		}
++	}
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++}
++
++/*
++ * Caller: ISR
++ */
++void rtw_unregister_rx_alive(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrctrl;
++
++
++	pwrctrl = adapter_to_pwrctl(padapter);
++
++	_enter_pwrlock(&pwrctrl->lock);
++
++	unregister_task_alive(pwrctrl, RECV_ALIVE);
++
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++}
++
++void rtw_unregister_evt_alive(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrctrl;
++
++
++	pwrctrl = adapter_to_pwrctl(padapter);
++
++	unregister_task_alive(pwrctrl, EVT_ALIVE);
++
++
++	_exit_pwrlock(&pwrctrl->lock);
++
++}
++#endif	/* CONFIG_LPS_LCLK */
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++	static void resume_workitem_callback(struct work_struct *work);
++#endif /* CONFIG_RESUME_IN_WORKQUEUE */
++
++void rtw_init_pwrctrl_priv(PADAPTER padapter)
++{
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++
++	u8 val8 = 0;
++
++#if defined(CONFIG_CONCURRENT_MODE)
++	if (padapter->adapter_type != PRIMARY_ADAPTER)
++		return;
++#endif
++
++
++#ifdef PLATFORM_WINDOWS
++	pwrctrlpriv->pnp_current_pwr_state = NdisDeviceStateD0;
++#endif
++
++	_init_pwrlock(&pwrctrlpriv->lock);
++	_init_pwrlock(&pwrctrlpriv->check_32k_lock);
++	pwrctrlpriv->rf_pwrstate = rf_on;
++	pwrctrlpriv->ips_enter_cnts = 0;
++	pwrctrlpriv->ips_leave_cnts = 0;
++	pwrctrlpriv->lps_enter_cnts = 0;
++	pwrctrlpriv->lps_leave_cnts = 0;
++	pwrctrlpriv->bips_processing = _FALSE;
++
++	pwrctrlpriv->ips_mode = padapter->registrypriv.ips_mode;
++	pwrctrlpriv->ips_mode_req = padapter->registrypriv.ips_mode;
++
++	pwrctrlpriv->pwr_state_check_interval = RTW_PWR_STATE_CHK_INTERVAL;
++	pwrctrlpriv->pwr_state_check_cnts = 0;
++	pwrctrlpriv->bInternalAutoSuspend = _FALSE;
++	pwrctrlpriv->bInSuspend = _FALSE;
++	pwrctrlpriv->bkeepfwalive = _FALSE;
++
++#ifdef CONFIG_AUTOSUSPEND
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++	pwrctrlpriv->pwr_state_check_interval = (pwrctrlpriv->bHWPwrPindetect) ? 1000 : 2000;
++#endif
++#endif
++
++	pwrctrlpriv->LpsIdleCount = 0;
++
++#ifdef CONFIG_LPS_PG
++	pwrctrlpriv->lpspg_rsvd_page_locate = 0;
++#endif
++
++	/* pwrctrlpriv->FWCtrlPSMode =padapter->registrypriv.power_mgnt; */ /* PS_MODE_MIN; */
++	if (padapter->registrypriv.mp_mode == 1)
++		pwrctrlpriv->power_mgnt = PS_MODE_ACTIVE ;
++	else
++		pwrctrlpriv->power_mgnt = padapter->registrypriv.power_mgnt; /* PS_MODE_MIN; */
++	pwrctrlpriv->bLeisurePs = (PS_MODE_ACTIVE != pwrctrlpriv->power_mgnt) ? _TRUE : _FALSE;
++
++	pwrctrlpriv->bFwCurrentInPSMode = _FALSE;
++
++	pwrctrlpriv->rpwm = 0;
++	pwrctrlpriv->cpwm = PS_STATE_S4;
++
++	pwrctrlpriv->pwr_mode = PS_MODE_ACTIVE;
++	pwrctrlpriv->smart_ps = padapter->registrypriv.smart_ps;
++	pwrctrlpriv->bcn_ant_mode = 0;
++	pwrctrlpriv->dtim = 0;
++
++	pwrctrlpriv->tog = 0x80;
++
++#ifdef CONFIG_LPS_LCLK
++	rtw_hal_set_hwreg(padapter, HW_VAR_SET_RPWM, (u8 *)(&pwrctrlpriv->rpwm));
++
++	_init_workitem(&pwrctrlpriv->cpwm_event, cpwm_event_callback, NULL);
++
++	_init_workitem(&pwrctrlpriv->dma_event, dma_event_callback, NULL);
++
++#ifdef CONFIG_LPS_RPWM_TIMER
++	pwrctrlpriv->brpwmtimeout = _FALSE;
++	_init_workitem(&pwrctrlpriv->rpwmtimeoutwi, rpwmtimeout_workitem_callback, NULL);
++	_init_timer(&pwrctrlpriv->pwr_rpwm_timer, padapter->pnetdev, pwr_rpwm_timeout_handler, padapter);
++#endif /* CONFIG_LPS_RPWM_TIMER */
++#endif /* CONFIG_LPS_LCLK */
++
++	rtw_init_timer(&pwrctrlpriv->pwr_state_check_timer, padapter, pwr_state_check_handler);
++
++	pwrctrlpriv->wowlan_mode = _FALSE;
++	pwrctrlpriv->wowlan_ap_mode = _FALSE;
++	pwrctrlpriv->wowlan_p2p_mode = _FALSE;
++	pwrctrlpriv->wowlan_last_wake_reason = 0;
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++	_init_workitem(&pwrctrlpriv->resume_work, resume_workitem_callback, NULL);
++	pwrctrlpriv->rtw_workqueue = create_singlethread_workqueue("rtw_workqueue");
++#endif /* CONFIG_RESUME_IN_WORKQUEUE */
++
++#if defined(CONFIG_HAS_EARLYSUSPEND) || defined(CONFIG_ANDROID_POWER)
++	pwrctrlpriv->early_suspend.suspend = NULL;
++	rtw_register_early_suspend(pwrctrlpriv);
++#endif /* CONFIG_HAS_EARLYSUSPEND || CONFIG_ANDROID_POWER */
++
++#ifdef CONFIG_GPIO_WAKEUP
++	/*default low active*/
++	pwrctrlpriv->is_high_active = HIGH_ACTIVE;
++	val8 = (pwrctrlpriv->is_high_active == 0) ? 1 : 0;
++	rtw_hal_switch_gpio_wl_ctrl(padapter, WAKEUP_GPIO_IDX, _TRUE);
++	rtw_hal_set_output_gpio(padapter, WAKEUP_GPIO_IDX, val8);
++	RTW_INFO("%s: set GPIO_%d %d as default.\n",
++		 __func__, WAKEUP_GPIO_IDX, val8);
++#endif /* CONFIG_GPIO_WAKEUP */
++
++#ifdef CONFIG_WOWLAN
++	rtw_wow_pattern_sw_reset(padapter);
++
++#ifdef CONFIG_PNO_SUPPORT
++	pwrctrlpriv->pno_inited = _FALSE;
++	pwrctrlpriv->pnlo_info = NULL;
++	pwrctrlpriv->pscan_info = NULL;
++	pwrctrlpriv->pno_ssid_list = NULL;
++	pwrctrlpriv->pno_in_resume = _TRUE;
++#endif /* CONFIG_PNO_SUPPORT */
++#ifdef CONFIG_WOW_PATTERN_HW_CAM
++	_rtw_mutex_init(&pwrctrlpriv->wowlan_pattern_cam_mutex);
++	pwrctrlpriv->wowlan_aoac_rpt_loc = 0;
++#endif
++#endif /* CONFIG_WOWLAN */
++
++#ifdef CONFIG_LPS_POFF
++	rtw_hal_set_hwreg(padapter, HW_VAR_LPS_POFF_INIT, 0);
++#endif
++
++
++}
++
++
++void rtw_free_pwrctrl_priv(PADAPTER adapter)
++{
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(adapter);
++
++#if defined(CONFIG_CONCURRENT_MODE)
++	if (adapter->adapter_type != PRIMARY_ADAPTER)
++		return;
++#endif
++
++
++	/* _rtw_memset((unsigned char *)pwrctrlpriv, 0, sizeof(struct pwrctrl_priv)); */
++
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++	if (pwrctrlpriv->rtw_workqueue) {
++		flush_workqueue(pwrctrlpriv->rtw_workqueue);
++		destroy_workqueue(pwrctrlpriv->rtw_workqueue);
++	}
++#endif
++
++#ifdef CONFIG_LPS_POFF
++	rtw_hal_set_hwreg(adapter, HW_VAR_LPS_POFF_DEINIT, 0);
++#endif
++
++#ifdef CONFIG_WOWLAN
++#ifdef CONFIG_PNO_SUPPORT
++	if (pwrctrlpriv->pnlo_info != NULL)
++		printk("****** pnlo_info memory leak********\n");
++
++	if (pwrctrlpriv->pscan_info != NULL)
++		printk("****** pscan_info memory leak********\n");
++
++	if (pwrctrlpriv->pno_ssid_list != NULL)
++		printk("****** pno_ssid_list memory leak********\n");
++#endif
++#ifdef CONFIG_WOW_PATTERN_HW_CAM
++	_rtw_mutex_free(&pwrctrlpriv->wowlan_pattern_cam_mutex);
++#endif
++
++#endif /* CONFIG_WOWLAN */
++
++#if defined(CONFIG_HAS_EARLYSUSPEND) || defined(CONFIG_ANDROID_POWER)
++	rtw_unregister_early_suspend(pwrctrlpriv);
++#endif /* CONFIG_HAS_EARLYSUSPEND || CONFIG_ANDROID_POWER */
++
++	_free_pwrlock(&pwrctrlpriv->lock);
++	_free_pwrlock(&pwrctrlpriv->check_32k_lock);
++
++}
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++extern int rtw_resume_process(_adapter *padapter);
++
++static void resume_workitem_callback(struct work_struct *work)
++{
++	struct pwrctrl_priv *pwrpriv = container_of(work, struct pwrctrl_priv, resume_work);
++	struct dvobj_priv *dvobj = pwrctl_to_dvobj(pwrpriv);
++	_adapter *adapter = dvobj_get_primary_adapter(dvobj);
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	rtw_resume_process(adapter);
++
++	rtw_resume_unlock_suspend();
++}
++
++void rtw_resume_in_workqueue(struct pwrctrl_priv *pwrpriv)
++{
++	/* accquire system's suspend lock preventing from falliing asleep while resume in workqueue */
++	/* rtw_lock_suspend(); */
++
++	rtw_resume_lock_suspend();
++
++#if 1
++	queue_work(pwrpriv->rtw_workqueue, &pwrpriv->resume_work);
++#else
++	_set_workitem(&pwrpriv->resume_work);
++#endif
++}
++#endif /* CONFIG_RESUME_IN_WORKQUEUE */
++
++#if defined(CONFIG_HAS_EARLYSUSPEND) || defined(CONFIG_ANDROID_POWER)
++inline bool rtw_is_earlysuspend_registered(struct pwrctrl_priv *pwrpriv)
++{
++	return (pwrpriv->early_suspend.suspend) ? _TRUE : _FALSE;
++}
++
++inline bool rtw_is_do_late_resume(struct pwrctrl_priv *pwrpriv)
++{
++	return (pwrpriv->do_late_resume) ? _TRUE : _FALSE;
++}
++
++inline void rtw_set_do_late_resume(struct pwrctrl_priv *pwrpriv, bool enable)
++{
++	pwrpriv->do_late_resume = enable;
++}
++#endif
++
++#ifdef CONFIG_HAS_EARLYSUSPEND
++extern int rtw_resume_process(_adapter *padapter);
++static void rtw_early_suspend(struct early_suspend *h)
++{
++	struct pwrctrl_priv *pwrpriv = container_of(h, struct pwrctrl_priv, early_suspend);
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	rtw_set_do_late_resume(pwrpriv, _FALSE);
++}
++
++static void rtw_late_resume(struct early_suspend *h)
++{
++	struct pwrctrl_priv *pwrpriv = container_of(h, struct pwrctrl_priv, early_suspend);
++	struct dvobj_priv *dvobj = pwrctl_to_dvobj(pwrpriv);
++	_adapter *adapter = dvobj_get_primary_adapter(dvobj);
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	if (pwrpriv->do_late_resume) {
++		rtw_set_do_late_resume(pwrpriv, _FALSE);
++		rtw_resume_process(adapter);
++	}
++}
++
++void rtw_register_early_suspend(struct pwrctrl_priv *pwrpriv)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	/* jeff: set the early suspend level before blank screen, so we wll do late resume after scree is lit */
++	pwrpriv->early_suspend.level = EARLY_SUSPEND_LEVEL_BLANK_SCREEN - 20;
++	pwrpriv->early_suspend.suspend = rtw_early_suspend;
++	pwrpriv->early_suspend.resume = rtw_late_resume;
++	register_early_suspend(&pwrpriv->early_suspend);
++
++
++}
++
++void rtw_unregister_early_suspend(struct pwrctrl_priv *pwrpriv)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	rtw_set_do_late_resume(pwrpriv, _FALSE);
++
++	if (pwrpriv->early_suspend.suspend)
++		unregister_early_suspend(&pwrpriv->early_suspend);
++
++	pwrpriv->early_suspend.suspend = NULL;
++	pwrpriv->early_suspend.resume = NULL;
++}
++#endif /* CONFIG_HAS_EARLYSUSPEND */
++
++#ifdef CONFIG_ANDROID_POWER
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	extern int rtw_resume_process(PADAPTER padapter);
++#endif
++static void rtw_early_suspend(android_early_suspend_t *h)
++{
++	struct pwrctrl_priv *pwrpriv = container_of(h, struct pwrctrl_priv, early_suspend);
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	rtw_set_do_late_resume(pwrpriv, _FALSE);
++}
++
++static void rtw_late_resume(android_early_suspend_t *h)
++{
++	struct pwrctrl_priv *pwrpriv = container_of(h, struct pwrctrl_priv, early_suspend);
++	struct dvobj_priv *dvobj = pwrctl_to_dvobj(pwrpriv);
++	_adapter *adapter = dvobj_get_primary_adapter(dvobj);
++
++	RTW_INFO("%s\n", __FUNCTION__);
++	if (pwrpriv->do_late_resume) {
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		rtw_set_do_late_resume(pwrpriv, _FALSE);
++		rtw_resume_process(adapter);
++#endif
++	}
++}
++
++void rtw_register_early_suspend(struct pwrctrl_priv *pwrpriv)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	/* jeff: set the early suspend level before blank screen, so we wll do late resume after scree is lit */
++	pwrpriv->early_suspend.level = ANDROID_EARLY_SUSPEND_LEVEL_BLANK_SCREEN - 20;
++	pwrpriv->early_suspend.suspend = rtw_early_suspend;
++	pwrpriv->early_suspend.resume = rtw_late_resume;
++	android_register_early_suspend(&pwrpriv->early_suspend);
++}
++
++void rtw_unregister_early_suspend(struct pwrctrl_priv *pwrpriv)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	rtw_set_do_late_resume(pwrpriv, _FALSE);
++
++	if (pwrpriv->early_suspend.suspend)
++		android_unregister_early_suspend(&pwrpriv->early_suspend);
++
++	pwrpriv->early_suspend.suspend = NULL;
++	pwrpriv->early_suspend.resume = NULL;
++}
++#endif /* CONFIG_ANDROID_POWER */
++
++u8 rtw_interface_ps_func(_adapter *padapter, HAL_INTF_PS_FUNC efunc_id, u8 *val)
++{
++	u8 bResult = _TRUE;
++	rtw_hal_intf_ps_func(padapter, efunc_id, val);
++
++	return bResult;
++}
++
++
++inline void rtw_set_ips_deny(_adapter *padapter, u32 ms)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	pwrpriv->ips_deny_time = rtw_get_current_time() + rtw_ms_to_systime(ms);
++}
++
++/*
++* rtw_pwr_wakeup - Wake the NIC up from: 1)IPS. 2)USB autosuspend
++* @adapter: pointer to _adapter structure
++* @ips_deffer_ms: the ms wiil prevent from falling into IPS after wakeup
++* Return _SUCCESS or _FAIL
++*/
++
++int _rtw_pwr_wakeup(_adapter *padapter, u32 ips_deffer_ms, const char *caller)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv *pwrpriv = dvobj_to_pwrctl(dvobj);
++	struct mlme_priv *pmlmepriv;
++	int ret = _SUCCESS;
++	int i;
++	u32 start = rtw_get_current_time();
++
++	/* for LPS */
++	LeaveAllPowerSaveMode(padapter);
++
++	/* IPS still bound with primary adapter */
++	padapter = GET_PRIMARY_ADAPTER(padapter);
++	pmlmepriv = &padapter->mlmepriv;
++
++	if (pwrpriv->ips_deny_time < rtw_get_current_time() + rtw_ms_to_systime(ips_deffer_ms))
++		pwrpriv->ips_deny_time = rtw_get_current_time() + rtw_ms_to_systime(ips_deffer_ms);
++
++
++	if (pwrpriv->ps_processing) {
++		RTW_INFO("%s wait ps_processing...\n", __func__);
++		while (pwrpriv->ps_processing && rtw_get_passing_time_ms(start) <= 3000)
++			rtw_msleep_os(10);
++		if (pwrpriv->ps_processing)
++			RTW_INFO("%s wait ps_processing timeout\n", __func__);
++		else
++			RTW_INFO("%s wait ps_processing done\n", __func__);
++	}
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	if (rtw_hal_sreset_inprogress(padapter)) {
++		RTW_INFO("%s wait sreset_inprogress...\n", __func__);
++		while (rtw_hal_sreset_inprogress(padapter) && rtw_get_passing_time_ms(start) <= 4000)
++			rtw_msleep_os(10);
++		if (rtw_hal_sreset_inprogress(padapter))
++			RTW_INFO("%s wait sreset_inprogress timeout\n", __func__);
++		else
++			RTW_INFO("%s wait sreset_inprogress done\n", __func__);
++	}
++#endif
++
++	if (pwrpriv->bInternalAutoSuspend == _FALSE && pwrpriv->bInSuspend) {
++		RTW_INFO("%s wait bInSuspend...\n", __func__);
++		while (pwrpriv->bInSuspend
++		       && ((rtw_get_passing_time_ms(start) <= 3000 && !rtw_is_do_late_resume(pwrpriv))
++			|| (rtw_get_passing_time_ms(start) <= 500 && rtw_is_do_late_resume(pwrpriv)))
++		      )
++			rtw_msleep_os(10);
++		if (pwrpriv->bInSuspend)
++			RTW_INFO("%s wait bInSuspend timeout\n", __func__);
++		else
++			RTW_INFO("%s wait bInSuspend done\n", __func__);
++	}
++
++	/* System suspend is not allowed to wakeup */
++	if ((pwrpriv->bInternalAutoSuspend == _FALSE) && (_TRUE == pwrpriv->bInSuspend)) {
++		ret = _FAIL;
++		goto exit;
++	}
++
++	/* block??? */
++	if ((pwrpriv->bInternalAutoSuspend == _TRUE)  && (padapter->net_closed == _TRUE)) {
++		ret = _FAIL;
++		goto exit;
++	}
++
++	/* I think this should be check in IPS, LPS, autosuspend functions... */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++#if defined(CONFIG_BT_COEXIST) && defined (CONFIG_AUTOSUSPEND)
++		if (_TRUE == pwrpriv->bInternalAutoSuspend) {
++			if (0 == pwrpriv->autopm_cnt) {
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 33))
++				if (usb_autopm_get_interface(adapter_to_dvobj(padapter)->pusbintf) < 0)
++					RTW_INFO("can't get autopm:\n");
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 20))
++				usb_autopm_disable(adapter_to_dvobj(padapter)->pusbintf);
++#else
++				usb_autoresume_device(adapter_to_dvobj(padapter)->pusbdev, 1);
++#endif
++				pwrpriv->autopm_cnt++;
++			}
++#endif	/* #if defined (CONFIG_BT_COEXIST) && defined (CONFIG_AUTOSUSPEND) */
++			ret = _SUCCESS;
++			goto exit;
++#if defined(CONFIG_BT_COEXIST) && defined (CONFIG_AUTOSUSPEND)
++		}
++#endif	/* #if defined (CONFIG_BT_COEXIST) && defined (CONFIG_AUTOSUSPEND) */
++	}
++
++	if (rf_off == pwrpriv->rf_pwrstate) {
++#ifdef CONFIG_USB_HCI
++#ifdef CONFIG_AUTOSUSPEND
++		if (pwrpriv->brfoffbyhw == _TRUE) {
++			RTW_INFO("hw still in rf_off state ...........\n");
++			ret = _FAIL;
++			goto exit;
++		} else if (padapter->registrypriv.usbss_enable) {
++			RTW_INFO("%s call autoresume_enter....\n", __FUNCTION__);
++			if (_FAIL ==  autoresume_enter(padapter)) {
++				RTW_INFO("======> autoresume fail.............\n");
++				ret = _FAIL;
++				goto exit;
++			}
++		} else
++#endif
++#endif
++		{
++#ifdef CONFIG_IPS
++			RTW_INFO("%s call ips_leave....\n", __FUNCTION__);
++			if (_FAIL ==  ips_leave(padapter)) {
++				RTW_INFO("======> ips_leave fail.............\n");
++				ret = _FAIL;
++				goto exit;
++			}
++#endif
++		}
++	}
++
++	/* TODO: the following checking need to be merged... */
++	if (rtw_is_drv_stopped(padapter)
++	    || !padapter->bup
++	    || !rtw_is_hw_init_completed(padapter)
++	   ) {
++		RTW_INFO("%s: bDriverStopped=%s, bup=%d, hw_init_completed=%u\n"
++			 , caller
++			 , rtw_is_drv_stopped(padapter) ? "True" : "False"
++			 , padapter->bup
++			 , rtw_get_hw_init_completed(padapter));
++		ret = _FALSE;
++		goto exit;
++	}
++
++exit:
++	if (pwrpriv->ips_deny_time < rtw_get_current_time() + rtw_ms_to_systime(ips_deffer_ms))
++		pwrpriv->ips_deny_time = rtw_get_current_time() + rtw_ms_to_systime(ips_deffer_ms);
++	return ret;
++
++}
++
++int rtw_pm_set_lps(_adapter *padapter, u8 mode)
++{
++	int	ret = 0;
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++
++	if (mode < PS_MODE_NUM) {
++		if (pwrctrlpriv->power_mgnt != mode) {
++			if (PS_MODE_ACTIVE == mode)
++				LeaveAllPowerSaveMode(padapter);
++			else
++				pwrctrlpriv->LpsIdleCount = 2;
++			pwrctrlpriv->power_mgnt = mode;
++			pwrctrlpriv->bLeisurePs = (PS_MODE_ACTIVE != pwrctrlpriv->power_mgnt) ? _TRUE : _FALSE;
++		}
++	} else
++		ret = -EINVAL;
++
++	return ret;
++}
++
++int rtw_pm_set_ips(_adapter *padapter, u8 mode)
++{
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++
++	if (mode == IPS_NORMAL || mode == IPS_LEVEL_2) {
++		rtw_ips_mode_req(pwrctrlpriv, mode);
++		RTW_INFO("%s %s\n", __FUNCTION__, mode == IPS_NORMAL ? "IPS_NORMAL" : "IPS_LEVEL_2");
++		return 0;
++	} else if (mode == IPS_NONE) {
++		rtw_ips_mode_req(pwrctrlpriv, mode);
++		RTW_INFO("%s %s\n", __FUNCTION__, "IPS_NONE");
++		if (!rtw_is_surprise_removed(padapter) && (_FAIL == rtw_pwr_wakeup(padapter)))
++			return -EFAULT;
++	} else
++		return -EINVAL;
++	return 0;
++}
++
++/*
++ * ATTENTION:
++ *	This function will request pwrctrl LOCK!
++ */
++void rtw_ps_deny(PADAPTER padapter, PS_DENY_REASON reason)
++{
++	struct pwrctrl_priv *pwrpriv;
++	s32 ret;
++
++
++	/* 	RTW_INFO("+" FUNC_ADPT_FMT ": Request PS deny for %d (0x%08X)\n",
++	 *		FUNC_ADPT_ARG(padapter), reason, BIT(reason)); */
++
++	pwrpriv = adapter_to_pwrctl(padapter);
++
++	_enter_pwrlock(&pwrpriv->lock);
++	if (pwrpriv->ps_deny & BIT(reason)) {
++		RTW_INFO(FUNC_ADPT_FMT ": [WARNING] Reason %d had been set before!!\n",
++			 FUNC_ADPT_ARG(padapter), reason);
++	}
++	pwrpriv->ps_deny |= BIT(reason);
++	_exit_pwrlock(&pwrpriv->lock);
++
++	/* 	RTW_INFO("-" FUNC_ADPT_FMT ": Now PS deny for 0x%08X\n",
++	 *		FUNC_ADPT_ARG(padapter), pwrpriv->ps_deny); */
++}
++
++/*
++ * ATTENTION:
++ *	This function will request pwrctrl LOCK!
++ */
++void rtw_ps_deny_cancel(PADAPTER padapter, PS_DENY_REASON reason)
++{
++	struct pwrctrl_priv *pwrpriv;
++
++
++	/* 	RTW_INFO("+" FUNC_ADPT_FMT ": Cancel PS deny for %d(0x%08X)\n",
++	 *		FUNC_ADPT_ARG(padapter), reason, BIT(reason)); */
++
++	pwrpriv = adapter_to_pwrctl(padapter);
++
++	_enter_pwrlock(&pwrpriv->lock);
++	if ((pwrpriv->ps_deny & BIT(reason)) == 0) {
++		RTW_INFO(FUNC_ADPT_FMT ": [ERROR] Reason %d had been canceled before!!\n",
++			 FUNC_ADPT_ARG(padapter), reason);
++	}
++	pwrpriv->ps_deny &= ~BIT(reason);
++	_exit_pwrlock(&pwrpriv->lock);
++
++	/* 	RTW_INFO("-" FUNC_ADPT_FMT ": Now PS deny for 0x%08X\n",
++	 *		FUNC_ADPT_ARG(padapter), pwrpriv->ps_deny); */
++}
++
++/*
++ * ATTENTION:
++ *	Before calling this function pwrctrl lock should be occupied already,
++ *	otherwise it may return incorrect value.
++ */
++u32 rtw_ps_deny_get(PADAPTER padapter)
++{
++	u32 deny;
++
++
++	deny = adapter_to_pwrctl(padapter)->ps_deny;
++
++	return deny;
++}
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_recv.c b/drivers/net/wireless/rtl8812au/core/rtw_recv.c
+new file mode 100755
+index 0000000..ad9c8fa
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_recv.c
+@@ -0,0 +1,4549 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_RECV_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#if defined(PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++
++	#error "Shall be Linux or Windows, but not both!\n"
++
++#endif
++
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++void rtw_signal_stat_timer_hdl(RTW_TIMER_HDL_ARGS);
++
++enum {
++	SIGNAL_STAT_CALC_PROFILE_0 = 0,
++	SIGNAL_STAT_CALC_PROFILE_1,
++	SIGNAL_STAT_CALC_PROFILE_MAX
++};
++
++u8 signal_stat_calc_profile[SIGNAL_STAT_CALC_PROFILE_MAX][2] = {
++	{4, 1},	/* Profile 0 => pre_stat : curr_stat = 4 : 1 */
++	{3, 7}	/* Profile 1 => pre_stat : curr_stat = 3 : 7 */
++};
++
++#ifndef RTW_SIGNAL_STATE_CALC_PROFILE
++	#define RTW_SIGNAL_STATE_CALC_PROFILE SIGNAL_STAT_CALC_PROFILE_1
++#endif
++
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++
++void _rtw_init_sta_recv_priv(struct sta_recv_priv *psta_recvpriv)
++{
++
++
++
++	_rtw_memset((u8 *)psta_recvpriv, 0, sizeof(struct sta_recv_priv));
++
++	_rtw_spinlock_init(&psta_recvpriv->lock);
++
++	/* for(i=0; i<MAX_RX_NUMBLKS; i++) */
++	/*	_rtw_init_queue(&psta_recvpriv->blk_strms[i]); */
++
++	_rtw_init_queue(&psta_recvpriv->defrag_q);
++
++
++}
++
++sint _rtw_init_recv_priv(struct recv_priv *precvpriv, _adapter *padapter)
++{
++	sint i;
++
++	union recv_frame *precvframe;
++	sint	res = _SUCCESS;
++
++
++	/* We don't need to memset padapter->XXX to zero, because adapter is allocated by rtw_zvmalloc(). */
++	/* _rtw_memset((unsigned char *)precvpriv, 0, sizeof (struct  recv_priv)); */
++
++	_rtw_spinlock_init(&precvpriv->lock);
++
++	_rtw_init_queue(&precvpriv->free_recv_queue);
++	_rtw_init_queue(&precvpriv->recv_pending_queue);
++	_rtw_init_queue(&precvpriv->uc_swdec_pending_queue);
++
++	precvpriv->adapter = padapter;
++
++	precvpriv->free_recvframe_cnt = NR_RECVFRAME;
++
++	precvpriv->sink_udpport = 0;
++	precvpriv->pre_rtp_rxseq = 0;
++	precvpriv->cur_rtp_rxseq = 0;
++
++#ifdef DBG_RX_SIGNAL_DISPLAY_RAW_DATA
++	precvpriv->store_law_data_flag = 1;
++#else
++	precvpriv->store_law_data_flag = 0;
++#endif
++
++	rtw_os_recv_resource_init(precvpriv, padapter);
++
++	precvpriv->pallocated_frame_buf = rtw_zvmalloc(NR_RECVFRAME * sizeof(union recv_frame) + RXFRAME_ALIGN_SZ);
++
++	if (precvpriv->pallocated_frame_buf == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++	/* _rtw_memset(precvpriv->pallocated_frame_buf, 0, NR_RECVFRAME * sizeof(union recv_frame) + RXFRAME_ALIGN_SZ); */
++
++	precvpriv->precv_frame_buf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(precvpriv->pallocated_frame_buf), RXFRAME_ALIGN_SZ);
++	/* precvpriv->precv_frame_buf = precvpriv->pallocated_frame_buf + RXFRAME_ALIGN_SZ - */
++	/*						((SIZE_PTR) (precvpriv->pallocated_frame_buf) &(RXFRAME_ALIGN_SZ-1)); */
++
++	precvframe = (union recv_frame *) precvpriv->precv_frame_buf;
++
++
++	for (i = 0; i < NR_RECVFRAME ; i++) {
++		_rtw_init_listhead(&(precvframe->u.list));
++
++		rtw_list_insert_tail(&(precvframe->u.list), &(precvpriv->free_recv_queue.queue));
++
++		res = rtw_os_recv_resource_alloc(padapter, precvframe);
++
++		precvframe->u.hdr.len = 0;
++
++		precvframe->u.hdr.adapter = padapter;
++		precvframe++;
++
++	}
++
++#ifdef CONFIG_USB_HCI
++
++	ATOMIC_SET(&(precvpriv->rx_pending_cnt), 1);
++
++	_rtw_init_sema(&precvpriv->allrxreturnevt, 0);
++
++#endif
++
++	res = rtw_hal_init_recv_priv(padapter);
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	rtw_init_timer(&precvpriv->signal_stat_timer, padapter, RTW_TIMER_HDL_NAME(signal_stat));
++
++	precvpriv->signal_stat_sampling_interval = 2000; /* ms */
++	/* precvpriv->signal_stat_converging_constant = 5000; */ /* ms */
++
++	rtw_set_signal_stat_timer(precvpriv);
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++
++exit:
++
++
++	return res;
++
++}
++
++void rtw_mfree_recv_priv_lock(struct recv_priv *precvpriv);
++void rtw_mfree_recv_priv_lock(struct recv_priv *precvpriv)
++{
++	_rtw_spinlock_free(&precvpriv->lock);
++#ifdef CONFIG_RECV_THREAD_MODE
++	_rtw_free_sema(&precvpriv->recv_sema);
++	_rtw_free_sema(&precvpriv->terminate_recvthread_sema);
++#endif
++
++	_rtw_spinlock_free(&precvpriv->free_recv_queue.lock);
++	_rtw_spinlock_free(&precvpriv->recv_pending_queue.lock);
++
++	_rtw_spinlock_free(&precvpriv->free_recv_buf_queue.lock);
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++	_rtw_spinlock_free(&precvpriv->recv_buf_pending_queue.lock);
++#endif /* CONFIG_USE_USB_BUFFER_ALLOC_RX */
++}
++
++void _rtw_free_recv_priv(struct recv_priv *precvpriv)
++{
++	_adapter	*padapter = precvpriv->adapter;
++
++
++	rtw_free_uc_swdec_pending_queue(padapter);
++
++	rtw_mfree_recv_priv_lock(precvpriv);
++
++	rtw_os_recv_resource_free(precvpriv);
++
++	if (precvpriv->pallocated_frame_buf)
++		rtw_vmfree(precvpriv->pallocated_frame_buf, NR_RECVFRAME * sizeof(union recv_frame) + RXFRAME_ALIGN_SZ);
++
++	rtw_hal_free_recv_priv(padapter);
++
++
++}
++
++bool rtw_rframe_del_wfd_ie(union recv_frame *rframe, u8 ies_offset)
++{
++#define DBG_RFRAME_DEL_WFD_IE 0
++	u8 *ies = rframe->u.hdr.rx_data + sizeof(struct rtw_ieee80211_hdr_3addr) + ies_offset;
++	uint ies_len_ori = rframe->u.hdr.len - (ies - rframe->u.hdr.rx_data);
++	uint ies_len;
++
++	ies_len = rtw_del_wfd_ie(ies, ies_len_ori, DBG_RFRAME_DEL_WFD_IE ? __func__ : NULL);
++	rframe->u.hdr.len -= ies_len_ori - ies_len;
++
++	return ies_len_ori != ies_len;
++}
++
++union recv_frame *_rtw_alloc_recvframe(_queue *pfree_recv_queue)
++{
++
++	union recv_frame  *precvframe;
++	_list	*plist, *phead;
++	_adapter *padapter;
++	struct recv_priv *precvpriv;
++
++	if (_rtw_queue_empty(pfree_recv_queue) == _TRUE)
++		precvframe = NULL;
++	else {
++		phead = get_list_head(pfree_recv_queue);
++
++		plist = get_next(phead);
++
++		precvframe = LIST_CONTAINOR(plist, union recv_frame, u);
++
++		rtw_list_delete(&precvframe->u.hdr.list);
++		padapter = precvframe->u.hdr.adapter;
++		if (padapter != NULL) {
++			precvpriv = &padapter->recvpriv;
++			if (pfree_recv_queue == &precvpriv->free_recv_queue)
++				precvpriv->free_recvframe_cnt--;
++		}
++	}
++
++
++	return precvframe;
++
++}
++
++union recv_frame *rtw_alloc_recvframe(_queue *pfree_recv_queue)
++{
++	_irqL irqL;
++	union recv_frame  *precvframe;
++
++	_enter_critical_bh(&pfree_recv_queue->lock, &irqL);
++
++	precvframe = _rtw_alloc_recvframe(pfree_recv_queue);
++
++	_exit_critical_bh(&pfree_recv_queue->lock, &irqL);
++
++	return precvframe;
++}
++
++void rtw_init_recvframe(union recv_frame *precvframe, struct recv_priv *precvpriv)
++{
++	/* Perry: This can be removed */
++	_rtw_init_listhead(&precvframe->u.hdr.list);
++
++	precvframe->u.hdr.len = 0;
++}
++
++int rtw_free_recvframe(union recv_frame *precvframe, _queue *pfree_recv_queue)
++{
++	_irqL irqL;
++	_adapter *padapter = precvframe->u.hdr.adapter;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++
++
++#ifdef CONFIG_CONCURRENT_MODE
++	padapter = GET_PRIMARY_ADAPTER(padapter);
++	precvpriv = &padapter->recvpriv;
++	pfree_recv_queue = &precvpriv->free_recv_queue;
++	precvframe->u.hdr.adapter = padapter;
++#endif
++
++
++	rtw_os_free_recvframe(precvframe);
++
++
++	_enter_critical_bh(&pfree_recv_queue->lock, &irqL);
++
++	rtw_list_delete(&(precvframe->u.hdr.list));
++
++	precvframe->u.hdr.len = 0;
++
++	rtw_list_insert_tail(&(precvframe->u.hdr.list), get_list_head(pfree_recv_queue));
++
++	if (padapter != NULL) {
++		if (pfree_recv_queue == &precvpriv->free_recv_queue)
++			precvpriv->free_recvframe_cnt++;
++	}
++
++	_exit_critical_bh(&pfree_recv_queue->lock, &irqL);
++
++
++	return _SUCCESS;
++
++}
++
++
++
++
++sint _rtw_enqueue_recvframe(union recv_frame *precvframe, _queue *queue)
++{
++
++	_adapter *padapter = precvframe->u.hdr.adapter;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++
++
++	/* _rtw_init_listhead(&(precvframe->u.hdr.list)); */
++	rtw_list_delete(&(precvframe->u.hdr.list));
++
++
++	rtw_list_insert_tail(&(precvframe->u.hdr.list), get_list_head(queue));
++
++	if (padapter != NULL) {
++		if (queue == &precvpriv->free_recv_queue)
++			precvpriv->free_recvframe_cnt++;
++	}
++
++
++	return _SUCCESS;
++}
++
++sint rtw_enqueue_recvframe(union recv_frame *precvframe, _queue *queue)
++{
++	sint ret;
++	_irqL irqL;
++
++	/* _spinlock(&pfree_recv_queue->lock); */
++	_enter_critical_bh(&queue->lock, &irqL);
++	ret = _rtw_enqueue_recvframe(precvframe, queue);
++	/* _rtw_spinunlock(&pfree_recv_queue->lock); */
++	_exit_critical_bh(&queue->lock, &irqL);
++
++	return ret;
++}
++
++/*
++sint	rtw_enqueue_recvframe(union recv_frame *precvframe, _queue *queue)
++{
++	return rtw_free_recvframe(precvframe, queue);
++}
++*/
++
++
++
++
++/*
++caller : defrag ; recvframe_chk_defrag in recv_thread  (passive)
++pframequeue: defrag_queue : will be accessed in recv_thread  (passive)
++
++using spinlock to protect
++
++*/
++
++void rtw_free_recvframe_queue(_queue *pframequeue,  _queue *pfree_recv_queue)
++{
++	union	recv_frame	*precvframe;
++	_list	*plist, *phead;
++
++	_rtw_spinlock(&pframequeue->lock);
++
++	phead = get_list_head(pframequeue);
++	plist = get_next(phead);
++
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		precvframe = LIST_CONTAINOR(plist, union recv_frame, u);
++
++		plist = get_next(plist);
++
++		/* rtw_list_delete(&precvframe->u.hdr.list); */ /* will do this in rtw_free_recvframe() */
++
++		rtw_free_recvframe(precvframe, pfree_recv_queue);
++	}
++
++	_rtw_spinunlock(&pframequeue->lock);
++
++
++}
++
++u32 rtw_free_uc_swdec_pending_queue(_adapter *adapter)
++{
++	u32 cnt = 0;
++	union recv_frame *pending_frame;
++	while ((pending_frame = rtw_alloc_recvframe(&adapter->recvpriv.uc_swdec_pending_queue))) {
++		rtw_free_recvframe(pending_frame, &adapter->recvpriv.free_recv_queue);
++		cnt++;
++	}
++
++	if (cnt)
++		RTW_INFO(FUNC_ADPT_FMT" dequeue %d\n", FUNC_ADPT_ARG(adapter), cnt);
++
++	return cnt;
++}
++
++
++sint rtw_enqueue_recvbuf_to_head(struct recv_buf *precvbuf, _queue *queue)
++{
++	_irqL irqL;
++
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	rtw_list_delete(&precvbuf->list);
++	rtw_list_insert_head(&precvbuf->list, get_list_head(queue));
++
++	_exit_critical_bh(&queue->lock, &irqL);
++
++	return _SUCCESS;
++}
++
++sint rtw_enqueue_recvbuf(struct recv_buf *precvbuf, _queue *queue)
++{
++	_irqL irqL;
++#ifdef CONFIG_SDIO_HCI
++	_enter_critical_bh(&queue->lock, &irqL);
++#else
++	_enter_critical_ex(&queue->lock, &irqL);
++#endif/*#ifdef CONFIG_SDIO_HCI*/
++
++	rtw_list_delete(&precvbuf->list);
++
++	rtw_list_insert_tail(&precvbuf->list, get_list_head(queue));
++#ifdef CONFIG_SDIO_HCI
++	_exit_critical_bh(&queue->lock, &irqL);
++#else
++	_exit_critical_ex(&queue->lock, &irqL);
++#endif/*#ifdef CONFIG_SDIO_HCI*/
++	return _SUCCESS;
++
++}
++
++struct recv_buf *rtw_dequeue_recvbuf(_queue *queue)
++{
++	_irqL irqL;
++	struct recv_buf *precvbuf;
++	_list	*plist, *phead;
++
++#ifdef CONFIG_SDIO_HCI
++	_enter_critical_bh(&queue->lock, &irqL);
++#else
++	_enter_critical_ex(&queue->lock, &irqL);
++#endif/*#ifdef CONFIG_SDIO_HCI*/
++
++	if (_rtw_queue_empty(queue) == _TRUE)
++		precvbuf = NULL;
++	else {
++		phead = get_list_head(queue);
++
++		plist = get_next(phead);
++
++		precvbuf = LIST_CONTAINOR(plist, struct recv_buf, list);
++
++		rtw_list_delete(&precvbuf->list);
++
++	}
++
++#ifdef CONFIG_SDIO_HCI
++	_exit_critical_bh(&queue->lock, &irqL);
++#else
++	_exit_critical_ex(&queue->lock, &irqL);
++#endif/*#ifdef CONFIG_SDIO_HCI*/
++
++	return precvbuf;
++
++}
++
++sint recvframe_chkmic(_adapter *adapter,  union recv_frame *precvframe);
++sint recvframe_chkmic(_adapter *adapter,  union recv_frame *precvframe)
++{
++
++	sint	i, res = _SUCCESS;
++	u32	datalen;
++	u8	miccode[8];
++	u8	bmic_err = _FALSE, brpt_micerror = _TRUE;
++	u8	*pframe, *payload, *pframemic;
++	u8	*mickey;
++	/* u8	*iv,rxdata_key_idx=0; */
++	struct	sta_info		*stainfo;
++	struct	rx_pkt_attrib	*prxattrib = &precvframe->u.hdr.attrib;
++	struct	security_priv	*psecuritypriv = &adapter->securitypriv;
++
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	stainfo = rtw_get_stainfo(&adapter->stapriv , &prxattrib->ta[0]);
++
++	if (prxattrib->encrypt == _TKIP_) {
++
++		/* calculate mic code */
++		if (stainfo != NULL) {
++			if (IS_MCAST(prxattrib->ra)) {
++				/* mickey=&psecuritypriv->dot118021XGrprxmickey.skey[0]; */
++				/* iv = precvframe->u.hdr.rx_data+prxattrib->hdrlen; */
++				/* rxdata_key_idx =( ((iv[3])>>6)&0x3) ; */
++				mickey = &psecuritypriv->dot118021XGrprxmickey[prxattrib->key_index].skey[0];
++
++				/* RTW_INFO("\n recvframe_chkmic: bcmc key psecuritypriv->dot118021XGrpKeyid(%d),pmlmeinfo->key_index(%d) ,recv key_id(%d)\n", */
++				/*								psecuritypriv->dot118021XGrpKeyid,pmlmeinfo->key_index,rxdata_key_idx); */
++
++				if (psecuritypriv->binstallGrpkey == _FALSE) {
++					res = _FAIL;
++					RTW_INFO("\n recvframe_chkmic:didn't install group key!!!!!!!!!!\n");
++					goto exit;
++				}
++			} else {
++				mickey = &stainfo->dot11tkiprxmickey.skey[0];
++			}
++
++			datalen = precvframe->u.hdr.len - prxattrib->hdrlen - prxattrib->iv_len - prxattrib->icv_len - 8; /* icv_len included the mic code */
++			pframe = precvframe->u.hdr.rx_data;
++			payload = pframe + prxattrib->hdrlen + prxattrib->iv_len;
++
++
++			/* rtw_seccalctkipmic(&stainfo->dot11tkiprxmickey.skey[0],pframe,payload, datalen ,&miccode[0],(unsigned char)prxattrib->priority); */ /* care the length of the data */
++
++			rtw_seccalctkipmic(mickey, pframe, payload, datalen , &miccode[0], (unsigned char)prxattrib->priority); /* care the length of the data */
++
++			pframemic = payload + datalen;
++
++			bmic_err = _FALSE;
++
++			for (i = 0; i < 8; i++) {
++				if (miccode[i] != *(pframemic + i)) {
++					bmic_err = _TRUE;
++				}
++			}
++
++
++			if (bmic_err == _TRUE) {
++
++
++
++				/* double check key_index for some timing issue , */
++				/* cannot compare with psecuritypriv->dot118021XGrpKeyid also cause timing issue */
++				if ((IS_MCAST(prxattrib->ra) == _TRUE)  && (prxattrib->key_index != pmlmeinfo->key_index))
++					brpt_micerror = _FALSE;
++
++				if ((prxattrib->bdecrypted == _TRUE) && (brpt_micerror == _TRUE)) {
++					rtw_handle_tkip_mic_err(adapter, stainfo, (u8)IS_MCAST(prxattrib->ra));
++					RTW_INFO(" mic error :prxattrib->bdecrypted=%d\n", prxattrib->bdecrypted);
++				} else {
++					RTW_INFO(" mic error :prxattrib->bdecrypted=%d\n", prxattrib->bdecrypted);
++				}
++
++				res = _FAIL;
++
++			} else {
++				/* mic checked ok */
++				if ((psecuritypriv->bcheck_grpkey == _FALSE) && (IS_MCAST(prxattrib->ra) == _TRUE)) {
++					psecuritypriv->bcheck_grpkey = _TRUE;
++				}
++			}
++
++		}
++
++		recvframe_pull_tail(precvframe, 8);
++
++	}
++
++exit:
++
++
++	return res;
++
++}
++
++/*#define DBG_RX_SW_DECRYPTOR*/
++
++/* decrypt and set the ivlen,icvlen of the recv_frame */
++union recv_frame *decryptor(_adapter *padapter, union recv_frame *precv_frame);
++union recv_frame *decryptor(_adapter *padapter, union recv_frame *precv_frame)
++{
++
++	struct rx_pkt_attrib *prxattrib = &precv_frame->u.hdr.attrib;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	union recv_frame *return_packet = precv_frame;
++	u32	 res = _SUCCESS;
++
++
++	DBG_COUNTER(padapter->rx_logs.core_rx_post_decrypt);
++
++
++	if (prxattrib->encrypt > 0) {
++		u8 *iv = precv_frame->u.hdr.rx_data + prxattrib->hdrlen;
++		prxattrib->key_index = (((iv[3]) >> 6) & 0x3) ;
++
++		if (prxattrib->key_index > WEP_KEYS) {
++			RTW_INFO("prxattrib->key_index(%d) > WEP_KEYS\n", prxattrib->key_index);
++
++			switch (prxattrib->encrypt) {
++			case _WEP40_:
++			case _WEP104_:
++				prxattrib->key_index = psecuritypriv->dot11PrivacyKeyIndex;
++				break;
++			case _TKIP_:
++			case _AES_:
++			default:
++				prxattrib->key_index = psecuritypriv->dot118021XGrpKeyid;
++				break;
++			}
++		}
++	}
++
++	if ((prxattrib->encrypt > 0) && ((prxattrib->bdecrypted == 0) || (psecuritypriv->sw_decrypt == _TRUE))) {
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (!IS_MCAST(prxattrib->ra)) /* bc/mc packets use sw decryption for concurrent mode */
++#endif
++			psecuritypriv->hw_decrypted = _FALSE;
++
++#ifdef DBG_RX_SW_DECRYPTOR
++		RTW_INFO(ADPT_FMT" - sec_type:%s DO SW decryption\n",
++			ADPT_ARG(padapter), security_type_str(prxattrib->encrypt));
++#endif
++
++#ifdef DBG_RX_DECRYPTOR
++		RTW_INFO("[%s] %d:prxstat->bdecrypted:%d,  prxattrib->encrypt:%d,  Setting psecuritypriv->hw_decrypted = %d\n",
++			 __FUNCTION__,
++			 __LINE__,
++			 prxattrib->bdecrypted,
++			 prxattrib->encrypt,
++			 psecuritypriv->hw_decrypted);
++#endif
++
++		switch (prxattrib->encrypt) {
++		case _WEP40_:
++		case _WEP104_:
++			DBG_COUNTER(padapter->rx_logs.core_rx_post_decrypt_wep);
++			rtw_wep_decrypt(padapter, (u8 *)precv_frame);
++			break;
++		case _TKIP_:
++			DBG_COUNTER(padapter->rx_logs.core_rx_post_decrypt_tkip);
++			res = rtw_tkip_decrypt(padapter, (u8 *)precv_frame);
++			break;
++		case _AES_:
++			DBG_COUNTER(padapter->rx_logs.core_rx_post_decrypt_aes);
++			res = rtw_aes_decrypt(padapter, (u8 *)precv_frame);
++			break;
++#ifdef CONFIG_WAPI_SUPPORT
++		case _SMS4_:
++			DBG_COUNTER(padapter->rx_logs.core_rx_post_decrypt_wapi);
++			rtw_sms4_decrypt(padapter, (u8 *)precv_frame);
++			break;
++#endif
++		default:
++			break;
++		}
++	} else if (prxattrib->bdecrypted == 1
++		   && prxattrib->encrypt > 0
++		&& (psecuritypriv->busetkipkey == 1 || prxattrib->encrypt != _TKIP_)
++		  ) {
++#if 0
++		if ((prxstat->icv == 1) && (prxattrib->encrypt != _AES_)) {
++			psecuritypriv->hw_decrypted = _FALSE;
++
++
++			rtw_free_recvframe(precv_frame, &padapter->recvpriv.free_recv_queue);
++
++			return_packet = NULL;
++
++		} else
++#endif
++		{
++			DBG_COUNTER(padapter->rx_logs.core_rx_post_decrypt_hw);
++
++			psecuritypriv->hw_decrypted = _TRUE;
++#ifdef DBG_RX_DECRYPTOR
++			RTW_INFO("[%s] %d:prxstat->bdecrypted:%d,  prxattrib->encrypt:%d,  Setting psecuritypriv->hw_decrypted = %d\n",
++				 __FUNCTION__,
++				 __LINE__,
++				 prxattrib->bdecrypted,
++				 prxattrib->encrypt,
++				 psecuritypriv->hw_decrypted);
++
++#endif
++		}
++	} else {
++		DBG_COUNTER(padapter->rx_logs.core_rx_post_decrypt_unknown);
++#ifdef DBG_RX_DECRYPTOR
++		RTW_INFO("[%s] %d:prxstat->bdecrypted:%d,  prxattrib->encrypt:%d,  Setting psecuritypriv->hw_decrypted = %d\n",
++			 __FUNCTION__,
++			 __LINE__,
++			 prxattrib->bdecrypted,
++			 prxattrib->encrypt,
++			 psecuritypriv->hw_decrypted);
++#endif
++	}
++
++	if (res == _FAIL) {
++		rtw_free_recvframe(return_packet, &padapter->recvpriv.free_recv_queue);
++		return_packet = NULL;
++	} else
++		prxattrib->bdecrypted = _TRUE;
++	/* recvframe_chkmic(adapter, precv_frame);   */ /* move to recvframme_defrag function */
++
++
++	return return_packet;
++
++}
++/* ###set the security information in the recv_frame */
++union recv_frame *portctrl(_adapter *adapter, union recv_frame *precv_frame);
++union recv_frame *portctrl(_adapter *adapter, union recv_frame *precv_frame)
++{
++	u8 *psta_addr = NULL;
++	u8 *ptr;
++	uint  auth_alg;
++	struct recv_frame_hdr *pfhdr;
++	struct sta_info *psta;
++	struct sta_priv *pstapriv ;
++	union recv_frame *prtnframe;
++	u16	ether_type = 0;
++	u16  eapol_type = 0x888e;/* for Funia BD's WPA issue  */
++	struct rx_pkt_attrib *pattrib;
++
++
++	pstapriv = &adapter->stapriv;
++
++	auth_alg = adapter->securitypriv.dot11AuthAlgrthm;
++
++	ptr = get_recvframe_data(precv_frame);
++	pfhdr = &precv_frame->u.hdr;
++	pattrib = &pfhdr->attrib;
++	psta_addr = pattrib->ta;
++
++	prtnframe = NULL;
++
++	psta = rtw_get_stainfo(pstapriv, psta_addr);
++
++
++	if (auth_alg == dot11AuthAlgrthm_8021X) {
++		if ((psta != NULL) && (psta->ieee8021x_blocked)) {
++			/* blocked */
++			/* only accept EAPOL frame */
++
++			prtnframe = precv_frame;
++
++			/* get ether_type */
++			ptr = ptr + pfhdr->attrib.hdrlen + pfhdr->attrib.iv_len + LLC_HEADER_SIZE;
++			_rtw_memcpy(&ether_type, ptr, 2);
++			ether_type = ntohs((unsigned short)ether_type);
++
++			if (ether_type == eapol_type)
++				prtnframe = precv_frame;
++			else {
++				/* free this frame */
++				rtw_free_recvframe(precv_frame, &adapter->recvpriv.free_recv_queue);
++				prtnframe = NULL;
++			}
++		} else {
++			/* allowed */
++			/* check decryption status, and decrypt the frame if needed */
++
++
++			prtnframe = precv_frame;
++			/* check is the EAPOL frame or not (Rekey) */
++			/* if(ether_type == eapol_type){ */
++			/* check Rekey */
++
++			/*	prtnframe=precv_frame; */
++			/* } */
++		}
++	} else
++		prtnframe = precv_frame;
++
++
++	return prtnframe;
++
++}
++
++sint recv_decache(union recv_frame *precv_frame, u8 bretry, struct stainfo_rxcache *prxcache);
++sint recv_decache(union recv_frame *precv_frame, u8 bretry, struct stainfo_rxcache *prxcache)
++{
++	sint tid = precv_frame->u.hdr.attrib.priority;
++
++	u16 seq_ctrl = ((precv_frame->u.hdr.attrib.seq_num & 0xffff) << 4) |
++		       (precv_frame->u.hdr.attrib.frag_num & 0xf);
++
++
++	if (tid > 15) {
++
++		return _FAIL;
++	}
++
++	if (1) { /* if(bretry) */
++		if (seq_ctrl == prxcache->tid_rxseq[tid]) {
++
++			return _FAIL;
++		}
++	}
++
++	prxcache->tid_rxseq[tid] = seq_ctrl;
++
++
++	return _SUCCESS;
++
++}
++
++void process_pwrbit_data(_adapter *padapter, union recv_frame *precv_frame);
++void process_pwrbit_data(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_AP_MODE
++	unsigned char pwrbit;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta = NULL;
++
++	psta = rtw_get_stainfo(pstapriv, pattrib->src);
++
++	pwrbit = GetPwrMgt(ptr);
++
++	if (psta) {
++		if (pwrbit) {
++			if (!(psta->state & WIFI_SLEEP_STATE)) {
++				/* psta->state |= WIFI_SLEEP_STATE; */
++				/* pstapriv->sta_dz_bitmap |= BIT(psta->aid); */
++
++				stop_sta_xmit(padapter, psta);
++
++				/* RTW_INFO("to sleep, sta_dz_bitmap=%x\n", pstapriv->sta_dz_bitmap); */
++			}
++		} else {
++			if (psta->state & WIFI_SLEEP_STATE) {
++				/* psta->state ^= WIFI_SLEEP_STATE; */
++				/* pstapriv->sta_dz_bitmap &= ~BIT(psta->aid); */
++
++				wakeup_sta_to_xmit(padapter, psta);
++
++				/* RTW_INFO("to wakeup, sta_dz_bitmap=%x\n", pstapriv->sta_dz_bitmap); */
++			}
++		}
++
++	}
++
++#endif
++}
++
++void process_wmmps_data(_adapter *padapter, union recv_frame *precv_frame);
++void process_wmmps_data(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_AP_MODE
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta = NULL;
++
++	psta = rtw_get_stainfo(pstapriv, pattrib->src);
++
++	if (!psta)
++		return;
++
++#ifdef CONFIG_TDLS
++	if (!(psta->tdls_sta_state & TDLS_LINKED_STATE)) {
++#endif /* CONFIG_TDLS */
++
++		if (!psta->qos_option)
++			return;
++
++		if (!(psta->qos_info & 0xf))
++			return;
++
++#ifdef CONFIG_TDLS
++	}
++#endif /* CONFIG_TDLS		 */
++
++	if (psta->state & WIFI_SLEEP_STATE) {
++		u8 wmmps_ac = 0;
++
++		switch (pattrib->priority) {
++		case 1:
++		case 2:
++			wmmps_ac = psta->uapsd_bk & BIT(1);
++			break;
++		case 4:
++		case 5:
++			wmmps_ac = psta->uapsd_vi & BIT(1);
++			break;
++		case 6:
++		case 7:
++			wmmps_ac = psta->uapsd_vo & BIT(1);
++			break;
++		case 0:
++		case 3:
++		default:
++			wmmps_ac = psta->uapsd_be & BIT(1);
++			break;
++		}
++
++		if (wmmps_ac) {
++			if (psta->sleepq_ac_len > 0) {
++				/* process received triggered frame */
++				xmit_delivery_enabled_frames(padapter, psta);
++			} else {
++				/* issue one qos null frame with More data bit = 0 and the EOSP bit set (=1) */
++				issue_qos_nulldata(padapter, psta->hwaddr, (u16)pattrib->priority, 0, 0);
++			}
++		}
++
++	}
++
++
++#endif
++
++}
++
++#ifdef CONFIG_TDLS
++sint OnTDLS(_adapter *adapter, union recv_frame *precv_frame)
++{
++	struct rx_pkt_attrib	*pattrib = &precv_frame->u.hdr.attrib;
++	sint ret = _SUCCESS;
++	u8 *paction = get_recvframe_data(precv_frame);
++	u8 category_field = 1;
++#ifdef CONFIG_WFD
++	u8 WFA_OUI[3] = { 0x50, 0x6f, 0x9a };
++#endif /* CONFIG_WFD */
++	struct tdls_info *ptdlsinfo = &(adapter->tdlsinfo);
++
++	/* point to action field */
++	paction += pattrib->hdrlen
++		   + pattrib->iv_len
++		   + SNAP_SIZE
++		   + ETH_TYPE_LEN
++		   + PAYLOAD_TYPE_LEN
++		   + category_field;
++
++	RTW_INFO("[TDLS] Recv %s from "MAC_FMT" with SeqNum = %d\n", rtw_tdls_action_txt(*paction), MAC_ARG(pattrib->src), GetSequence(get_recvframe_data(precv_frame)));
++
++	if (hal_chk_wl_func(adapter, WL_FUNC_TDLS) == _FALSE) {
++		RTW_INFO("Ignore tdls frame since hal doesn't support tdls\n");
++		ret = _FAIL;
++		return ret;
++	}
++
++	if (ptdlsinfo->tdls_enable == _FALSE) {
++		RTW_INFO("recv tdls frame, "
++			 "but tdls haven't enabled\n");
++		ret = _FAIL;
++		return ret;
++	}
++
++	switch (*paction) {
++	case TDLS_SETUP_REQUEST:
++		ret = On_TDLS_Setup_Req(adapter, precv_frame);
++		break;
++	case TDLS_SETUP_RESPONSE:
++		ret = On_TDLS_Setup_Rsp(adapter, precv_frame);
++		break;
++	case TDLS_SETUP_CONFIRM:
++		ret = On_TDLS_Setup_Cfm(adapter, precv_frame);
++		break;
++	case TDLS_TEARDOWN:
++		ret = On_TDLS_Teardown(adapter, precv_frame);
++		break;
++	case TDLS_DISCOVERY_REQUEST:
++		ret = On_TDLS_Dis_Req(adapter, precv_frame);
++		break;
++	case TDLS_PEER_TRAFFIC_INDICATION:
++		ret = On_TDLS_Peer_Traffic_Indication(adapter, precv_frame);
++		break;
++	case TDLS_PEER_TRAFFIC_RESPONSE:
++		ret = On_TDLS_Peer_Traffic_Rsp(adapter, precv_frame);
++		break;
++#ifdef CONFIG_TDLS_CH_SW
++	case TDLS_CHANNEL_SWITCH_REQUEST:
++		ret = On_TDLS_Ch_Switch_Req(adapter, precv_frame);
++		break;
++	case TDLS_CHANNEL_SWITCH_RESPONSE:
++		ret = On_TDLS_Ch_Switch_Rsp(adapter, precv_frame);
++		break;
++#endif
++#ifdef CONFIG_WFD
++	/* First byte of WFA OUI */
++	case 0x50:
++		if (_rtw_memcmp(WFA_OUI, paction, 3)) {
++			/* Probe request frame */
++			if (*(paction + 3) == 0x04) {
++				/* WFDTDLS: for sigma test, do not setup direct link automatically */
++				ptdlsinfo->dev_discovered = _TRUE;
++				RTW_INFO("recv tunneled probe request frame\n");
++				issue_tunneled_probe_rsp(adapter, precv_frame);
++			}
++			/* Probe response frame */
++			if (*(paction + 3) == 0x05) {
++				/* WFDTDLS: for sigma test, do not setup direct link automatically */
++				ptdlsinfo->dev_discovered = _TRUE;
++				RTW_INFO("recv tunneled probe response frame\n");
++			}
++		}
++		break;
++#endif /* CONFIG_WFD */
++	default:
++		RTW_INFO("receive TDLS frame %d but not support\n", *paction);
++		ret = _FAIL;
++		break;
++	}
++
++exit:
++	return ret;
++
++}
++#endif /* CONFIG_TDLS */
++
++void count_rx_stats(_adapter *padapter, union recv_frame *prframe, struct sta_info *sta);
++void count_rx_stats(_adapter *padapter, union recv_frame *prframe, struct sta_info *sta)
++{
++	int	sz;
++	struct sta_info		*psta = NULL;
++	struct stainfo_stats	*pstats = NULL;
++	struct rx_pkt_attrib	*pattrib = &prframe->u.hdr.attrib;
++	struct recv_priv		*precvpriv = &padapter->recvpriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	sz = get_recvframe_len(prframe);
++	precvpriv->rx_bytes += sz;
++
++	padapter->mlmepriv.LinkDetectInfo.NumRxOkInPeriod++;
++
++	if ((!MacAddr_isBcst(pattrib->dst)) && (!IS_MCAST(pattrib->dst)))
++		padapter->mlmepriv.LinkDetectInfo.NumRxUnicastOkInPeriod++;
++
++	if (sta)
++		psta = sta;
++	else
++		psta = prframe->u.hdr.psta;
++
++	if (psta) {
++		pstats = &psta->sta_stats;
++
++		pstats->rx_data_pkts++;
++		pstats->rx_bytes += sz;
++
++		/*record rx packets for every tid*/
++		pstats->rx_data_qos_pkts[pattrib->priority]++;
++
++#ifdef CONFIG_TDLS
++		if (psta->tdls_sta_state & TDLS_LINKED_STATE) {
++			struct sta_info *pap_sta = NULL;
++			pap_sta = rtw_get_stainfo(&padapter->stapriv, get_bssid(&padapter->mlmepriv));
++			if (pap_sta) {
++				pstats = &pap_sta->sta_stats;
++				pstats->rx_data_pkts++;
++				pstats->rx_bytes += sz;
++			}
++		}
++#endif /* CONFIG_TDLS */
++	}
++
++#ifdef CONFIG_CHECK_LEAVE_LPS
++	traffic_check_for_leave_lps(padapter, _FALSE, 0);
++#endif /* CONFIG_LPS */
++
++}
++
++sint sta2sta_data_frame(
++	_adapter *adapter,
++	union recv_frame *precv_frame,
++	struct sta_info **psta
++);
++sint sta2sta_data_frame(
++	_adapter *adapter,
++	union recv_frame *precv_frame,
++	struct sta_info **psta
++)
++{
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	sint ret = _SUCCESS;
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	struct	sta_priv		*pstapriv = &adapter->stapriv;
++	struct	mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++	u8 *mybssid  = get_bssid(pmlmepriv);
++	u8 *myhwaddr = adapter_mac_addr(adapter);
++	u8 *sta_addr = NULL;
++	sint bmcast = IS_MCAST(pattrib->dst);
++
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &adapter->tdlsinfo;
++#ifdef CONFIG_TDLS_CH_SW
++	struct tdls_ch_switch *pchsw_info = &ptdlsinfo->chsw_info;
++#endif
++	struct sta_info *ptdls_sta = NULL;
++	u8 *psnap_type = ptr + pattrib->hdrlen + pattrib->iv_len + SNAP_SIZE;
++	/* frame body located after [+2]: ether-type, [+1]: payload type */
++	u8 *pframe_body = psnap_type + 2 + 1;
++#endif
++
++
++	/* RTW_INFO("[%s] %d, seqnum:%d\n", __FUNCTION__, __LINE__, pattrib->seq_num); */
++
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) ||
++	    (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE)) {
++
++		/* filter packets that SA is myself or multicast or broadcast */
++		if (_rtw_memcmp(myhwaddr, pattrib->src, ETH_ALEN)) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		if ((!_rtw_memcmp(myhwaddr, pattrib->dst, ETH_ALEN))	&& (!bmcast)) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		if (_rtw_memcmp(pattrib->bssid, "\x0\x0\x0\x0\x0\x0", ETH_ALEN) ||
++		    _rtw_memcmp(mybssid, "\x0\x0\x0\x0\x0\x0", ETH_ALEN) ||
++		    (!_rtw_memcmp(pattrib->bssid, mybssid, ETH_ALEN))) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		sta_addr = pattrib->src;
++
++	} else if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE) {
++#ifdef CONFIG_TDLS
++
++		/* direct link data transfer */
++		if (ptdlsinfo->link_established == _TRUE) {
++			ptdls_sta = rtw_get_stainfo(pstapriv, pattrib->src);
++			if (ptdls_sta == NULL) {
++				ret = _FAIL;
++				goto exit;
++			} else if (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE) {
++				/* filter packets that SA is myself or multicast or broadcast */
++				if (_rtw_memcmp(myhwaddr, pattrib->src, ETH_ALEN)) {
++					ret = _FAIL;
++					goto exit;
++				}
++				/* da should be for me */
++				if ((!_rtw_memcmp(myhwaddr, pattrib->dst, ETH_ALEN)) && (!bmcast)) {
++					ret = _FAIL;
++					goto exit;
++				}
++				/* check BSSID */
++				if (_rtw_memcmp(pattrib->bssid, "\x0\x0\x0\x0\x0\x0", ETH_ALEN) ||
++				    _rtw_memcmp(mybssid, "\x0\x0\x0\x0\x0\x0", ETH_ALEN) ||
++				    (!_rtw_memcmp(pattrib->bssid, mybssid, ETH_ALEN))) {
++					ret = _FAIL;
++					goto exit;
++				}
++
++#ifdef CONFIG_TDLS_CH_SW
++				if (ATOMIC_READ(&pchsw_info->chsw_on) == _TRUE) {
++					if (adapter->mlmeextpriv.cur_channel != rtw_get_oper_ch(adapter)) {
++						pchsw_info->ch_sw_state |= TDLS_PEER_AT_OFF_STATE;
++						if (!(pchsw_info->ch_sw_state & TDLS_CH_SW_INITIATOR_STATE))
++							_cancel_timer_ex(&ptdls_sta->ch_sw_timer);
++						/* On_TDLS_Peer_Traffic_Rsp(adapter, precv_frame); */
++					}
++				}
++#endif
++
++				/* process UAPSD tdls sta */
++				process_pwrbit_data(adapter, precv_frame);
++
++				/* if NULL-frame, check pwrbit */
++				if ((GetFrameSubType(ptr) & WIFI_DATA_NULL) == WIFI_DATA_NULL) {
++					/* NULL-frame with pwrbit=1, buffer_STA should buffer frames for sleep_STA */
++					if (GetPwrMgt(ptr)) {
++						/* it would be triggered when we are off channel and receiving NULL DATA */
++						/* we can confirm that peer STA is at off channel */
++						RTW_INFO("TDLS: recv peer null frame with pwr bit 1\n");
++						/* ptdls_sta->tdls_sta_state|=TDLS_PEER_SLEEP_STATE; */
++					}
++
++					/* TODO: Updated BSSID's seq. */
++					/* RTW_INFO("drop Null Data\n"); */
++					ptdls_sta->tdls_sta_state &= ~(TDLS_WAIT_PTR_STATE);
++					ret = _FAIL;
++					goto exit;
++				}
++
++				/* receive some of all TDLS management frames, process it at ON_TDLS */
++				if (_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_TDLS, 2)) {
++					ret = OnTDLS(adapter, precv_frame);
++					goto exit;
++				}
++
++				if ((GetFrameSubType(ptr) & WIFI_QOS_DATA_TYPE) == WIFI_QOS_DATA_TYPE)
++					process_wmmps_data(adapter, precv_frame);
++
++				ptdls_sta->tdls_sta_state &= ~(TDLS_WAIT_PTR_STATE);
++
++			}
++
++			sta_addr = pattrib->src;
++
++		} else
++#endif /* CONFIG_TDLS */
++		{
++			/* For Station mode, sa and bssid should always be BSSID, and DA is my mac-address */
++			if (!_rtw_memcmp(pattrib->bssid, pattrib->src, ETH_ALEN)) {
++				ret = _FAIL;
++				goto exit;
++			}
++
++			sta_addr = pattrib->bssid;
++		}
++
++	} else if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++		if (bmcast) {
++			/* For AP mode, if DA == MCAST, then BSSID should be also MCAST */
++			if (!IS_MCAST(pattrib->bssid)) {
++				ret = _FAIL;
++				goto exit;
++			}
++		} else { /* not mc-frame */
++			/* For AP mode, if DA is non-MCAST, then it must be BSSID, and bssid == BSSID */
++			if (!_rtw_memcmp(pattrib->bssid, pattrib->dst, ETH_ALEN)) {
++				ret = _FAIL;
++				goto exit;
++			}
++
++			sta_addr = pattrib->src;
++		}
++
++	} else if (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE) {
++		_rtw_memcpy(pattrib->dst, GetAddr1Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->src, GetAddr2Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->bssid, GetAddr3Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++		sta_addr = mybssid;
++	} else
++		ret  = _FAIL;
++
++
++
++	if (bmcast)
++		*psta = rtw_get_bcmc_stainfo(adapter);
++	else
++		*psta = rtw_get_stainfo(pstapriv, sta_addr); /* get ap_info */
++
++#ifdef CONFIG_TDLS
++	if (ptdls_sta != NULL)
++		*psta = ptdls_sta;
++#endif /* CONFIG_TDLS */
++
++	if (*psta == NULL) {
++#ifdef CONFIG_MP_INCLUDED
++		if (adapter->registrypriv.mp_mode == 1) {
++			if (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE)
++				adapter->mppriv.rx_pktloss++;
++		}
++#endif
++		ret = _FAIL;
++		goto exit;
++	}
++
++exit:
++	return ret;
++
++}
++
++sint ap2sta_data_frame(
++	_adapter *adapter,
++	union recv_frame *precv_frame,
++	struct sta_info **psta);
++sint ap2sta_data_frame(
++	_adapter *adapter,
++	union recv_frame *precv_frame,
++	struct sta_info **psta)
++{
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	sint ret = _SUCCESS;
++	struct	sta_priv		*pstapriv = &adapter->stapriv;
++	struct	mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++	u8 *mybssid  = get_bssid(pmlmepriv);
++	u8 *myhwaddr = adapter_mac_addr(adapter);
++	sint bmcast = IS_MCAST(pattrib->dst);
++
++
++	if ((check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++	    && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE
++		|| check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE)
++	   ) {
++
++		/* filter packets that SA is myself or multicast or broadcast */
++		if (_rtw_memcmp(myhwaddr, pattrib->src, ETH_ALEN)) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s SA="MAC_FMT", myhwaddr="MAC_FMT"\n",
++				__FUNCTION__, MAC_ARG(pattrib->src), MAC_ARG(myhwaddr));
++#endif
++			ret = _FAIL;
++			goto exit;
++		}
++
++		/* da should be for me */
++		if ((!_rtw_memcmp(myhwaddr, pattrib->dst, ETH_ALEN)) && (!bmcast)) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s DA="MAC_FMT"\n", __func__, MAC_ARG(pattrib->dst));
++#endif
++			ret = _FAIL;
++			goto exit;
++		}
++
++
++		/* check BSSID */
++		if (_rtw_memcmp(pattrib->bssid, "\x0\x0\x0\x0\x0\x0", ETH_ALEN) ||
++		    _rtw_memcmp(mybssid, "\x0\x0\x0\x0\x0\x0", ETH_ALEN) ||
++		    (!_rtw_memcmp(pattrib->bssid, mybssid, ETH_ALEN))) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s BSSID="MAC_FMT", mybssid="MAC_FMT"\n",
++				__func__, MAC_ARG(pattrib->bssid), MAC_ARG(mybssid));
++#endif
++
++			if (!bmcast) {
++				RTW_INFO(ADPT_FMT" -issue_deauth to the nonassociated ap=" MAC_FMT " for the reason(7)\n", ADPT_ARG(adapter), MAC_ARG(pattrib->bssid));
++				issue_deauth(adapter, pattrib->bssid, WLAN_REASON_CLASS3_FRAME_FROM_NONASSOC_STA);
++			}
++
++			ret = _FAIL;
++			goto exit;
++		}
++
++		if (bmcast)
++			*psta = rtw_get_bcmc_stainfo(adapter);
++		else
++			*psta = rtw_get_stainfo(pstapriv, pattrib->bssid); /* get ap_info */
++
++		if (*psta == NULL) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s can't get psta under STATION_MODE ; drop pkt\n", __FUNCTION__);
++#endif
++			ret = _FAIL;
++			goto exit;
++		}
++
++		if ((GetFrameSubType(ptr) & WIFI_QOS_DATA_TYPE) == WIFI_QOS_DATA_TYPE) {
++		}
++
++		if (GetFrameSubType(ptr) & BIT(6)) {
++			/* No data, will not indicate to upper layer, temporily count it here */
++			count_rx_stats(adapter, precv_frame, *psta);
++			ret = RTW_RX_HANDLED;
++			goto exit;
++		}
++
++	} else if ((check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE) &&
++		   (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)) {
++		_rtw_memcpy(pattrib->dst, GetAddr1Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->src, GetAddr2Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->bssid, GetAddr3Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++
++		*psta = rtw_get_stainfo(pstapriv, pattrib->bssid); /* get sta_info */
++		if (*psta == NULL) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s can't get psta under WIFI_MP_STATE ; drop pkt\n", __FUNCTION__);
++#endif
++			ret = _FAIL;
++			goto exit;
++		}
++
++
++	} else if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++		/* Special case */
++		ret = RTW_RX_HANDLED;
++		goto exit;
++	} else {
++		if (_rtw_memcmp(myhwaddr, pattrib->dst, ETH_ALEN) && (!bmcast)) {
++			*psta = rtw_get_stainfo(pstapriv, pattrib->bssid); /* get sta_info */
++			if (*psta == NULL) {
++
++				/* for AP multicast issue , modify by yiwei */
++				static u32 send_issue_deauth_time = 0;
++
++				/* RTW_INFO("After send deauth , %u ms has elapsed.\n", rtw_get_passing_time_ms(send_issue_deauth_time)); */
++
++				if (rtw_get_passing_time_ms(send_issue_deauth_time) > 10000 || send_issue_deauth_time == 0) {
++					send_issue_deauth_time = rtw_get_current_time();
++
++					RTW_INFO("issue_deauth to the ap=" MAC_FMT " for the reason(7)\n", MAC_ARG(pattrib->bssid));
++
++					issue_deauth(adapter, pattrib->bssid, WLAN_REASON_CLASS3_FRAME_FROM_NONASSOC_STA);
++				}
++			}
++		}
++
++		ret = _FAIL;
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s fw_state:0x%x\n", __FUNCTION__, get_fwstate(pmlmepriv));
++#endif
++	}
++
++exit:
++
++
++	return ret;
++
++}
++
++sint sta2ap_data_frame(
++	_adapter *adapter,
++	union recv_frame *precv_frame,
++	struct sta_info **psta);
++sint sta2ap_data_frame(
++	_adapter *adapter,
++	union recv_frame *precv_frame,
++	struct sta_info **psta)
++{
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	struct	sta_priv		*pstapriv = &adapter->stapriv;
++	struct	mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++	unsigned char *mybssid  = get_bssid(pmlmepriv);
++	sint ret = _SUCCESS;
++
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++		/* For AP mode, RA=BSSID, TX=STA(SRC_ADDR), A3=DST_ADDR */
++		if (!_rtw_memcmp(pattrib->bssid, mybssid, ETH_ALEN)) {
++			ret = _FAIL;
++			goto exit;
++		}
++
++		*psta = rtw_get_stainfo(pstapriv, pattrib->src);
++		if (*psta == NULL) {
++			#ifdef CONFIG_DFS_MASTER
++			struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++
++			/* prevent RX tasklet blocks cmd_thread */
++			if (rfctl->radar_detected == 1)
++				goto bypass_deauth7;
++			#endif
++
++			RTW_INFO("issue_deauth to sta=" MAC_FMT " for the reason(7)\n", MAC_ARG(pattrib->src));
++
++			issue_deauth(adapter, pattrib->src, WLAN_REASON_CLASS3_FRAME_FROM_NONASSOC_STA);
++
++#ifdef CONFIG_DFS_MASTER
++bypass_deauth7:
++#endif
++			ret = RTW_RX_HANDLED;
++			goto exit;
++		}
++
++		process_pwrbit_data(adapter, precv_frame);
++
++		if ((GetFrameSubType(ptr) & WIFI_QOS_DATA_TYPE) == WIFI_QOS_DATA_TYPE)
++			process_wmmps_data(adapter, precv_frame);
++
++		if (GetFrameSubType(ptr) & BIT(6)) {
++			/* No data, will not indicate to upper layer, temporily count it here */
++			count_rx_stats(adapter, precv_frame, *psta);
++			ret = RTW_RX_HANDLED;
++			goto exit;
++		}
++	} else if ((check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE) &&
++		   (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)) {
++		/* RTW_INFO("%s ,in WIFI_MP_STATE\n",__func__); */
++		_rtw_memcpy(pattrib->dst, GetAddr1Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->src, GetAddr2Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->bssid, GetAddr3Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++
++		*psta = rtw_get_stainfo(pstapriv, pattrib->bssid); /* get sta_info */
++		if (*psta == NULL) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s can't get psta under WIFI_MP_STATE ; drop pkt\n", __FUNCTION__);
++#endif
++			ret = _FAIL;
++			goto exit;
++		}
++
++	} else {
++		u8 *myhwaddr = adapter_mac_addr(adapter);
++		if (!_rtw_memcmp(pattrib->ra, myhwaddr, ETH_ALEN)) {
++			ret = RTW_RX_HANDLED;
++			goto exit;
++		}
++		RTW_INFO("issue_deauth to sta=" MAC_FMT " for the reason(7)\n", MAC_ARG(pattrib->src));
++		issue_deauth(adapter, pattrib->src, WLAN_REASON_CLASS3_FRAME_FROM_NONASSOC_STA);
++		ret = RTW_RX_HANDLED;
++		goto exit;
++	}
++
++exit:
++
++
++	return ret;
++
++}
++
++sint validate_recv_ctrl_frame(_adapter *padapter, union recv_frame *precv_frame);
++sint validate_recv_ctrl_frame(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *pframe = precv_frame->u.hdr.rx_data;
++	struct sta_info *psta = NULL;
++	/* uint len = precv_frame->u.hdr.len; */
++
++	/* RTW_INFO("+validate_recv_ctrl_frame\n"); */
++
++	if (GetFrameType(pframe) != WIFI_CTRL_TYPE)
++		return _FAIL;
++
++	/* receive the frames that ra(a1) is my address */
++	if (!_rtw_memcmp(GetAddr1Ptr(pframe), adapter_mac_addr(padapter), ETH_ALEN))
++		return _FAIL;
++
++	psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(pframe));
++	if (psta == NULL)
++		return _FAIL;
++
++	/* for rx pkt statistics */
++	psta->sta_stats.rx_ctrl_pkts++;
++
++	/* only handle ps-poll */
++	if (GetFrameSubType(pframe) == WIFI_PSPOLL) {
++#ifdef CONFIG_AP_MODE
++		u16 aid;
++		u8 wmmps_ac = 0;
++
++		aid = GetAid(pframe);
++		if (psta->aid != aid)
++			return _FAIL;
++
++		switch (pattrib->priority) {
++		case 1:
++		case 2:
++			wmmps_ac = psta->uapsd_bk & BIT(0);
++			break;
++		case 4:
++		case 5:
++			wmmps_ac = psta->uapsd_vi & BIT(0);
++			break;
++		case 6:
++		case 7:
++			wmmps_ac = psta->uapsd_vo & BIT(0);
++			break;
++		case 0:
++		case 3:
++		default:
++			wmmps_ac = psta->uapsd_be & BIT(0);
++			break;
++		}
++
++		if (wmmps_ac)
++			return _FAIL;
++
++		if (psta->state & WIFI_STA_ALIVE_CHK_STATE) {
++			RTW_INFO("%s alive check-rx ps-poll\n", __func__);
++			psta->expire_to = pstapriv->expire_to;
++			psta->state ^= WIFI_STA_ALIVE_CHK_STATE;
++		}
++
++		if ((psta->state & WIFI_SLEEP_STATE) && (pstapriv->sta_dz_bitmap & BIT(psta->aid))) {
++			_irqL irqL;
++			_list	*xmitframe_plist, *xmitframe_phead;
++			struct xmit_frame *pxmitframe = NULL;
++			struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++			/* _enter_critical_bh(&psta->sleep_q.lock, &irqL); */
++			_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++			xmitframe_phead = get_list_head(&psta->sleep_q);
++			xmitframe_plist = get_next(xmitframe_phead);
++
++			if ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE) {
++				pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++				xmitframe_plist = get_next(xmitframe_plist);
++
++				rtw_list_delete(&pxmitframe->list);
++
++				psta->sleepq_len--;
++
++				if (psta->sleepq_len > 0)
++					pxmitframe->attrib.mdata = 1;
++				else
++					pxmitframe->attrib.mdata = 0;
++
++				pxmitframe->attrib.triggered = 1;
++
++				/* RTW_INFO("handling ps-poll, q_len=%d, tim=%x\n", psta->sleepq_len, pstapriv->tim_bitmap); */
++
++#if 0
++				_exit_critical_bh(&psta->sleep_q.lock, &irqL);
++				if (rtw_hal_xmit(padapter, pxmitframe) == _TRUE)
++					rtw_os_xmit_complete(padapter, pxmitframe);
++				_enter_critical_bh(&psta->sleep_q.lock, &irqL);
++#endif
++				rtw_hal_xmitframe_enqueue(padapter, pxmitframe);
++
++				if (psta->sleepq_len == 0) {
++					pstapriv->tim_bitmap &= ~BIT(psta->aid);
++
++					/* RTW_INFO("after handling ps-poll, tim=%x\n", pstapriv->tim_bitmap); */
++
++					/* upate BCN for TIM IE */
++					/* update_BCNTIM(padapter);		 */
++					update_beacon(padapter, _TIM_IE_, NULL, _TRUE);
++				}
++
++				/* _exit_critical_bh(&psta->sleep_q.lock, &irqL); */
++				_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++			} else {
++				/* _exit_critical_bh(&psta->sleep_q.lock, &irqL); */
++				_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++				/* RTW_INFO("no buffered packets to xmit\n"); */
++				if (pstapriv->tim_bitmap & BIT(psta->aid)) {
++					if (psta->sleepq_len == 0) {
++						RTW_INFO("no buffered packets to xmit\n");
++
++						/* issue nulldata with More data bit = 0 to indicate we have no buffered packets */
++						issue_nulldata_in_interrupt(padapter, psta->hwaddr, 0);
++					} else {
++						RTW_INFO("error!psta->sleepq_len=%d\n", psta->sleepq_len);
++						psta->sleepq_len = 0;
++					}
++
++					pstapriv->tim_bitmap &= ~BIT(psta->aid);
++
++					/* upate BCN for TIM IE */
++					/* update_BCNTIM(padapter); */
++					update_beacon(padapter, _TIM_IE_, NULL, _TRUE);
++				}
++			}
++		}
++#endif /* CONFIG_AP_MODE */
++	} else if (GetFrameSubType(pframe) == WIFI_NDPA) {
++#ifdef CONFIG_BEAMFORMING
++		beamforming_get_ndpa_frame(padapter, precv_frame);
++#endif/*CONFIG_BEAMFORMING*/
++	}
++
++	return _FAIL;
++
++}
++
++union recv_frame *recvframe_chk_defrag(PADAPTER padapter, union recv_frame *precv_frame);
++sint validate_recv_mgnt_frame(PADAPTER padapter, union recv_frame *precv_frame);
++sint validate_recv_mgnt_frame(PADAPTER padapter, union recv_frame *precv_frame)
++{
++	/* struct mlme_priv *pmlmepriv = &adapter->mlmepriv; */
++
++
++#if 0
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++#ifdef CONFIG_NATIVEAP_MLME
++		mgt_dispatcher(padapter, precv_frame);
++#else
++		rtw_hostapd_mlme_rx(padapter, precv_frame);
++#endif
++	} else
++		mgt_dispatcher(padapter, precv_frame);
++#endif
++
++	precv_frame = recvframe_chk_defrag(padapter, precv_frame);
++	if (precv_frame == NULL) {
++		return _SUCCESS;
++	}
++
++	{
++		/* for rx pkt statistics */
++		struct sta_info *psta = rtw_get_stainfo(&padapter->stapriv, GetAddr2Ptr(precv_frame->u.hdr.rx_data));
++		if (psta) {
++			psta->sta_stats.rx_mgnt_pkts++;
++			if (GetFrameSubType(precv_frame->u.hdr.rx_data) == WIFI_BEACON)
++				psta->sta_stats.rx_beacon_pkts++;
++			else if (GetFrameSubType(precv_frame->u.hdr.rx_data) == WIFI_PROBEREQ)
++				psta->sta_stats.rx_probereq_pkts++;
++			else if (GetFrameSubType(precv_frame->u.hdr.rx_data) == WIFI_PROBERSP) {
++				if (_rtw_memcmp(adapter_mac_addr(padapter), GetAddr1Ptr(precv_frame->u.hdr.rx_data), ETH_ALEN) == _TRUE)
++					psta->sta_stats.rx_probersp_pkts++;
++				else if (is_broadcast_mac_addr(GetAddr1Ptr(precv_frame->u.hdr.rx_data))
++					|| is_multicast_mac_addr(GetAddr1Ptr(precv_frame->u.hdr.rx_data)))
++					psta->sta_stats.rx_probersp_bm_pkts++;
++				else
++					psta->sta_stats.rx_probersp_uo_pkts++;
++			}
++		}
++	}
++
++#ifdef CONFIG_INTEL_PROXIM
++	if (padapter->proximity.proxim_on == _TRUE) {
++		struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++		struct recv_stat *prxstat = (struct recv_stat *)  precv_frame->u.hdr.rx_head ;
++		u8 *pda, *psa, *pbssid, *ptr;
++		ptr = precv_frame->u.hdr.rx_data;
++		pda = get_da(ptr);
++		psa = get_sa(ptr);
++		pbssid = get_hdr_bssid(ptr);
++
++
++		_rtw_memcpy(pattrib->dst, pda, ETH_ALEN);
++		_rtw_memcpy(pattrib->src, psa, ETH_ALEN);
++
++		_rtw_memcpy(pattrib->bssid, pbssid, ETH_ALEN);
++
++		switch (pattrib->to_fr_ds) {
++		case 0:
++			_rtw_memcpy(pattrib->ra, pda, ETH_ALEN);
++			_rtw_memcpy(pattrib->ta, psa, ETH_ALEN);
++			break;
++
++		case 1:
++			_rtw_memcpy(pattrib->ra, pda, ETH_ALEN);
++			_rtw_memcpy(pattrib->ta, pbssid, ETH_ALEN);
++			break;
++
++		case 2:
++			_rtw_memcpy(pattrib->ra, pbssid, ETH_ALEN);
++			_rtw_memcpy(pattrib->ta, psa, ETH_ALEN);
++			break;
++
++		case 3:
++			_rtw_memcpy(pattrib->ra, GetAddr1Ptr(ptr), ETH_ALEN);
++			_rtw_memcpy(pattrib->ta, GetAddr2Ptr(ptr), ETH_ALEN);
++			break;
++
++		default:
++			break;
++
++		}
++		pattrib->priority = 0;
++		pattrib->hdrlen = pattrib->to_fr_ds == 3 ? 30 : 24;
++
++		padapter->proximity.proxim_rx(padapter, precv_frame);
++	}
++#endif
++	mgt_dispatcher(padapter, precv_frame);
++
++	return _SUCCESS;
++
++}
++
++sint validate_recv_data_frame(_adapter *adapter, union recv_frame *precv_frame);
++sint validate_recv_data_frame(_adapter *adapter, union recv_frame *precv_frame)
++{
++	u8 bretry;
++	u8 *psa, *pda, *pbssid;
++	struct sta_info *psta = NULL;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib	*pattrib = &precv_frame->u.hdr.attrib;
++	struct sta_priv	*pstapriv = &adapter->stapriv;
++	struct security_priv	*psecuritypriv = &adapter->securitypriv;
++	sint ret = _SUCCESS;
++
++
++	bretry = GetRetry(ptr);
++	pda = get_da(ptr);
++	psa = get_sa(ptr);
++	pbssid = get_hdr_bssid(ptr);
++
++	if (pbssid == NULL) {
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s pbssid == NULL\n", __func__);
++#endif
++		ret = _FAIL;
++		goto exit;
++	}
++
++	_rtw_memcpy(pattrib->dst, pda, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, psa, ETH_ALEN);
++
++	_rtw_memcpy(pattrib->bssid, pbssid, ETH_ALEN);
++
++	switch (pattrib->to_fr_ds) {
++	case 0:
++		_rtw_memcpy(pattrib->ra, pda, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, psa, ETH_ALEN);
++		ret = sta2sta_data_frame(adapter, precv_frame, &psta);
++		break;
++
++	case 1:
++		_rtw_memcpy(pattrib->ra, pda, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, pbssid, ETH_ALEN);
++		ret = ap2sta_data_frame(adapter, precv_frame, &psta);
++		break;
++
++	case 2:
++		_rtw_memcpy(pattrib->ra, pbssid, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, psa, ETH_ALEN);
++		ret = sta2ap_data_frame(adapter, precv_frame, &psta);
++		break;
++
++	case 3:
++		_rtw_memcpy(pattrib->ra, GetAddr1Ptr(ptr), ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, GetAddr2Ptr(ptr), ETH_ALEN);
++		ret = _FAIL;
++		break;
++
++	default:
++		ret = _FAIL;
++		break;
++
++	}
++
++	if (ret == _FAIL) {
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s case:%d, res:%d\n", __FUNCTION__, pattrib->to_fr_ds, ret);
++#endif
++		goto exit;
++	} else if (ret == RTW_RX_HANDLED)
++		goto exit;
++
++
++	if (psta == NULL) {
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s psta == NULL\n", __func__);
++#endif
++		ret = _FAIL;
++		goto exit;
++	}
++
++	/* psta->rssi = prxcmd->rssi; */
++	/* psta->signal_quality= prxcmd->sq; */
++	precv_frame->u.hdr.psta = psta;
++
++
++	pattrib->amsdu = 0;
++	pattrib->ack_policy = 0;
++	/* parsing QC field */
++	if (pattrib->qos == 1) {
++		pattrib->priority = GetPriority((ptr + 24));
++		pattrib->ack_policy = GetAckpolicy((ptr + 24));
++		pattrib->amsdu = GetAMsdu((ptr + 24));
++		pattrib->hdrlen = pattrib->to_fr_ds == 3 ? 32 : 26;
++
++		if (pattrib->priority != 0 && pattrib->priority != 3)
++			adapter->recvpriv.bIsAnyNonBEPkts = _TRUE;
++		else
++			adapter->recvpriv.bIsAnyNonBEPkts = _FALSE;
++	} else {
++		pattrib->priority = 0;
++		pattrib->hdrlen = pattrib->to_fr_ds == 3 ? 30 : 24;
++	}
++
++
++	if (pattrib->order) /* HT-CTRL 11n */
++		pattrib->hdrlen += 4;
++
++	precv_frame->u.hdr.preorder_ctrl = &psta->recvreorder_ctrl[pattrib->priority];
++
++	/* decache, drop duplicate recv packets */
++	if (recv_decache(precv_frame, bretry, &psta->sta_recvpriv.rxcache) == _FAIL) {
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s recv_decache return _FAIL\n", __func__);
++#endif
++		ret = _FAIL;
++		goto exit;
++	}
++
++	if (pattrib->privacy) {
++
++
++#ifdef CONFIG_TDLS
++		if ((psta->tdls_sta_state & TDLS_LINKED_STATE) && (psta->dot118021XPrivacy == _AES_))
++			pattrib->encrypt = psta->dot118021XPrivacy;
++		else
++#endif /* CONFIG_TDLS */
++			GET_ENCRY_ALGO(psecuritypriv, psta, pattrib->encrypt, IS_MCAST(pattrib->ra));
++
++
++		SET_ICE_IV_LEN(pattrib->iv_len, pattrib->icv_len, pattrib->encrypt);
++	} else {
++		pattrib->encrypt = 0;
++		pattrib->iv_len = pattrib->icv_len = 0;
++	}
++
++exit:
++
++
++	return ret;
++}
++
++#ifdef CONFIG_IEEE80211W
++static sint validate_80211w_mgmt(_adapter *adapter, union recv_frame *precv_frame)
++{
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct sta_info	*psta;
++	struct sta_priv		*pstapriv = &adapter->stapriv;
++	u8 type;
++	u8 subtype;
++
++	type =  GetFrameType(ptr);
++	subtype = GetFrameSubType(ptr); /* bit(7)~bit(2) */
++
++	if (adapter->securitypriv.binstallBIPkey == _TRUE) {
++		/* unicast management frame decrypt */
++		if (pattrib->privacy && !(IS_MCAST(GetAddr1Ptr(ptr))) &&
++		    (subtype == WIFI_DEAUTH || subtype == WIFI_DISASSOC || subtype == WIFI_ACTION)) {
++			u8 *ppp, *mgmt_DATA;
++			u32 data_len = 0;
++			ppp = GetAddr2Ptr(ptr);
++
++			pattrib->bdecrypted = 0;
++			pattrib->encrypt = _AES_;
++			pattrib->hdrlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++			/* set iv and icv length */
++			SET_ICE_IV_LEN(pattrib->iv_len, pattrib->icv_len, pattrib->encrypt);
++			_rtw_memcpy(pattrib->ra, GetAddr1Ptr(ptr), ETH_ALEN);
++			_rtw_memcpy(pattrib->ta, GetAddr2Ptr(ptr), ETH_ALEN);
++			/* actual management data frame body */
++			data_len = pattrib->pkt_len - pattrib->hdrlen - pattrib->iv_len - pattrib->icv_len;
++			mgmt_DATA = rtw_zmalloc(data_len);
++			if (mgmt_DATA == NULL) {
++				RTW_INFO("%s mgmt allocate fail  !!!!!!!!!\n", __FUNCTION__);
++				goto validate_80211w_fail;
++			}
++#if 0
++			/* dump the packet content before decrypt */
++			{
++				int pp;
++				printk("pattrib->pktlen = %d =>", pattrib->pkt_len);
++				for (pp = 0; pp < pattrib->pkt_len; pp++)
++					printk(" %02x ", ptr[pp]);
++				printk("\n");
++			}
++#endif
++
++			precv_frame = decryptor(adapter, precv_frame);
++			/* save actual management data frame body */
++			_rtw_memcpy(mgmt_DATA, ptr + pattrib->hdrlen + pattrib->iv_len, data_len);
++			/* overwrite the iv field */
++			_rtw_memcpy(ptr + pattrib->hdrlen, mgmt_DATA, data_len);
++			/* remove the iv and icv length */
++			pattrib->pkt_len = pattrib->pkt_len - pattrib->iv_len - pattrib->icv_len;
++			rtw_mfree(mgmt_DATA, data_len);
++#if 0
++			/* print packet content after decryption */
++			{
++				int pp;
++				printk("after decryption pattrib->pktlen = %d @@=>", pattrib->pkt_len);
++				for (pp = 0; pp < pattrib->pkt_len; pp++)
++					printk(" %02x ", ptr[pp]);
++				printk("\n");
++			}
++#endif
++			if (!precv_frame) {
++				RTW_INFO("%s mgmt descrypt fail  !!!!!!!!!\n", __FUNCTION__);
++				goto validate_80211w_fail;
++			}
++		} else if (IS_MCAST(GetAddr1Ptr(ptr)) &&
++			(subtype == WIFI_DEAUTH || subtype == WIFI_DISASSOC)) {
++			sint BIP_ret = _SUCCESS;
++			/* verify BIP MME IE of broadcast/multicast de-auth/disassoc packet */
++			BIP_ret = rtw_BIP_verify(adapter, (u8 *)precv_frame);
++			if (BIP_ret == _FAIL) {
++				/* RTW_INFO("802.11w BIP verify fail\n"); */
++				goto validate_80211w_fail;
++			} else if (BIP_ret == RTW_RX_HANDLED) {
++				RTW_INFO("802.11w recv none protected packet\n");
++				/* drop pkt, don't issue sa query request */
++				/* issue_action_SA_Query(adapter, NULL, 0, 0, 0); */
++				goto validate_80211w_fail;
++			}
++		} /* 802.11w protect */
++		else {
++			psta = rtw_get_stainfo(pstapriv, GetAddr2Ptr(ptr));
++
++			if (subtype == WIFI_ACTION && psta && psta->bpairwise_key_installed == _TRUE) {
++				/* according 802.11-2012 standard, these five types are not robust types */
++				if (ptr[WLAN_HDR_A3_LEN] != RTW_WLAN_CATEGORY_PUBLIC          &&
++				    ptr[WLAN_HDR_A3_LEN] != RTW_WLAN_CATEGORY_HT              &&
++				    ptr[WLAN_HDR_A3_LEN] != RTW_WLAN_CATEGORY_UNPROTECTED_WNM &&
++				    ptr[WLAN_HDR_A3_LEN] != RTW_WLAN_CATEGORY_SELF_PROTECTED  &&
++				    ptr[WLAN_HDR_A3_LEN] != RTW_WLAN_CATEGORY_P2P) {
++					RTW_INFO("action frame category=%d should robust\n", ptr[WLAN_HDR_A3_LEN]);
++					goto validate_80211w_fail;
++				}
++			} else if (subtype == WIFI_DEAUTH || subtype == WIFI_DISASSOC) {
++				unsigned short	reason;
++				reason = le16_to_cpu(*(unsigned short *)(ptr + WLAN_HDR_A3_LEN));
++				RTW_INFO("802.11w recv none protected packet, reason=%d\n", reason);
++				if (reason == 6 || reason == 7) {
++					/* issue sa query request */
++					issue_action_SA_Query(adapter, NULL, 0, 0, IEEE80211W_RIGHT_KEY);
++				}
++				goto validate_80211w_fail;
++			}
++		}
++	}
++	return _SUCCESS;
++
++validate_80211w_fail:
++	return _FAIL;
++
++}
++#endif /* CONFIG_IEEE80211W */
++
++static inline void dump_rx_packet(u8 *ptr)
++{
++	int i;
++
++	RTW_INFO("#############################\n");
++	for (i = 0; i < 64; i = i + 8)
++		RTW_INFO("%02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X:\n", *(ptr + i),
++			*(ptr + i + 1), *(ptr + i + 2) , *(ptr + i + 3) , *(ptr + i + 4), *(ptr + i + 5), *(ptr + i + 6), *(ptr + i + 7));
++	RTW_INFO("#############################\n");
++}
++
++sint validate_recv_frame(_adapter *adapter, union recv_frame *precv_frame);
++sint validate_recv_frame(_adapter *adapter, union recv_frame *precv_frame)
++{
++	/* shall check frame subtype, to / from ds, da, bssid */
++
++	/* then call check if rx seq/frag. duplicated. */
++
++	u8 type;
++	u8 subtype;
++	sint retval = _SUCCESS;
++
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	u8  ver = (unsigned char)(*ptr) & 0x3 ;
++#ifdef CONFIG_FIND_BEST_CHANNEL
++	struct mlme_ext_priv *pmlmeext = &adapter->mlmeextpriv;
++#endif
++
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &adapter->tdlsinfo;
++#endif /* CONFIG_TDLS */
++#ifdef CONFIG_WAPI_SUPPORT
++	PRT_WAPI_T	pWapiInfo = &adapter->wapiInfo;
++	struct recv_frame_hdr *phdr = &precv_frame->u.hdr;
++	u8 wai_pkt = 0;
++	u16 sc;
++	u8	external_len = 0;
++#endif
++
++
++#ifdef CONFIG_FIND_BEST_CHANNEL
++	if (pmlmeext->sitesurvey_res.state == SCAN_PROCESS) {
++		int ch_set_idx = rtw_ch_set_search_ch(pmlmeext->channel_set, rtw_get_oper_ch(adapter));
++		if (ch_set_idx >= 0)
++			pmlmeext->channel_set[ch_set_idx].rx_count++;
++	}
++#endif
++
++#ifdef CONFIG_TDLS
++	if (ptdlsinfo->ch_sensing == 1 && ptdlsinfo->cur_channel != 0)
++		ptdlsinfo->collect_pkt_num[ptdlsinfo->cur_channel - 1]++;
++#endif /* CONFIG_TDLS */
++
++#ifdef RTK_DMP_PLATFORM
++	if (0) {
++		RTW_INFO("++\n");
++		{
++			int i;
++			for (i = 0; i < 64; i = i + 8)
++				RTW_INFO("%02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X:", *(ptr + i),
++					*(ptr + i + 1), *(ptr + i + 2) , *(ptr + i + 3) , *(ptr + i + 4), *(ptr + i + 5), *(ptr + i + 6), *(ptr + i + 7));
++
++		}
++		RTW_INFO("--\n");
++	}
++#endif /* RTK_DMP_PLATFORM */
++
++	/* add version chk */
++	if (ver != 0) {
++		retval = _FAIL;
++		DBG_COUNTER(adapter->rx_logs.core_rx_pre_ver_err);
++		goto exit;
++	}
++
++	type =  GetFrameType(ptr);
++	subtype = GetFrameSubType(ptr); /* bit(7)~bit(2) */
++
++	pattrib->to_fr_ds = get_tofr_ds(ptr);
++
++	pattrib->frag_num = GetFragNum(ptr);
++	pattrib->seq_num = GetSequence(ptr);
++
++	pattrib->pw_save = GetPwrMgt(ptr);
++	pattrib->mfrag = GetMFrag(ptr);
++	pattrib->mdata = GetMData(ptr);
++	pattrib->privacy = GetPrivacy(ptr);
++	pattrib->order = GetOrder(ptr);
++#ifdef CONFIG_WAPI_SUPPORT
++	sc = (pattrib->seq_num << 4) | pattrib->frag_num;
++#endif
++
++#if 1 /* Dump rx packets */
++	{
++		u8 bDumpRxPkt = 0;
++
++		rtw_hal_get_def_var(adapter, HAL_DEF_DBG_DUMP_RXPKT, &(bDumpRxPkt));
++		if (bDumpRxPkt == 1) /* dump all rx packets */
++			dump_rx_packet(ptr);
++		else if ((bDumpRxPkt == 2) && (type == WIFI_MGT_TYPE))
++			dump_rx_packet(ptr);
++		else if ((bDumpRxPkt == 3) && (type == WIFI_DATA_TYPE))
++			dump_rx_packet(ptr);
++	}
++#endif
++	switch (type) {
++	case WIFI_MGT_TYPE: /* mgnt */
++		DBG_COUNTER(adapter->rx_logs.core_rx_pre_mgmt);
++#ifdef CONFIG_IEEE80211W
++		if (validate_80211w_mgmt(adapter, precv_frame) == _FAIL) {
++			retval = _FAIL;
++			DBG_COUNTER(adapter->rx_logs.core_rx_pre_mgmt_err_80211w);
++			break;
++		}
++#endif /* CONFIG_IEEE80211W */
++
++		retval = validate_recv_mgnt_frame(adapter, precv_frame);
++		if (retval == _FAIL) {
++			DBG_COUNTER(adapter->rx_logs.core_rx_pre_mgmt_err);
++		}
++		retval = _FAIL; /* only data frame return _SUCCESS */
++		break;
++	case WIFI_CTRL_TYPE: /* ctrl */
++		DBG_COUNTER(adapter->rx_logs.core_rx_pre_ctrl);
++		retval = validate_recv_ctrl_frame(adapter, precv_frame);
++		if (retval == _FAIL) {
++			DBG_COUNTER(adapter->rx_logs.core_rx_pre_ctrl_err);
++		}
++		retval = _FAIL; /* only data frame return _SUCCESS */
++		break;
++	case WIFI_DATA_TYPE: /* data */
++		DBG_COUNTER(adapter->rx_logs.core_rx_pre_data);
++#ifdef CONFIG_WAPI_SUPPORT
++		if (pattrib->qos)
++			external_len = 2;
++		else
++			external_len = 0;
++
++		wai_pkt = rtw_wapi_is_wai_packet(adapter, ptr);
++
++		phdr->bIsWaiPacket = wai_pkt;
++
++		if (wai_pkt != 0) {
++			if (sc != adapter->wapiInfo.wapiSeqnumAndFragNum)
++				adapter->wapiInfo.wapiSeqnumAndFragNum = sc;
++			else {
++				retval = _FAIL;
++				DBG_COUNTER(adapter->rx_logs.core_rx_pre_data_wapi_seq_err);
++				break;
++			}
++		} else {
++
++			if (rtw_wapi_drop_for_key_absent(adapter, GetAddr2Ptr(ptr))) {
++				retval = _FAIL;
++				WAPI_TRACE(WAPI_RX, "drop for key absent for rx\n");
++				DBG_COUNTER(adapter->rx_logs.core_rx_pre_data_wapi_key_err);
++				break;
++			}
++		}
++
++#endif
++
++		pattrib->qos = (subtype & BIT(7)) ? 1 : 0;
++		retval = validate_recv_data_frame(adapter, precv_frame);
++		if (retval == _FAIL) {
++			struct recv_priv *precvpriv = &adapter->recvpriv;
++			precvpriv->rx_drop++;
++			DBG_COUNTER(adapter->rx_logs.core_rx_pre_data_err);
++		} else if (retval == _SUCCESS) {
++#ifdef DBG_RX_DUMP_EAP
++			u8 bDumpRxPkt;
++			u16 eth_type;
++
++			/* dump eapol */
++			rtw_hal_get_def_var(adapter, HAL_DEF_DBG_DUMP_RXPKT, &(bDumpRxPkt));
++			/* get ether_type */
++			_rtw_memcpy(&eth_type, ptr + pattrib->hdrlen + pattrib->iv_len + LLC_HEADER_SIZE, 2);
++			eth_type = ntohs((unsigned short) eth_type);
++			if ((bDumpRxPkt == 4) && (eth_type == 0x888e))
++				dump_rx_packet(ptr);
++#endif
++		} else
++			DBG_COUNTER(adapter->rx_logs.core_rx_pre_data_handled);
++		break;
++	default:
++		DBG_COUNTER(adapter->rx_logs.core_rx_pre_unknown);
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME validate_recv_data_frame fail! type=0x%x\n", type);
++#endif
++		retval = _FAIL;
++		break;
++	}
++
++exit:
++
++
++	return retval;
++}
++
++
++/* remove the wlanhdr and add the eth_hdr */
++#if 1
++
++sint wlanhdr_to_ethhdr(union recv_frame *precvframe);
++sint wlanhdr_to_ethhdr(union recv_frame *precvframe)
++{
++	sint	rmv_len;
++	u16	eth_type, len;
++	u8	bsnaphdr;
++	u8	*psnap_type;
++	struct ieee80211_snap_hdr	*psnap;
++
++	sint ret = _SUCCESS;
++	_adapter			*adapter = precvframe->u.hdr.adapter;
++	struct mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++
++	u8	*ptr = get_recvframe_data(precvframe) ; /* point to frame_ctrl field */
++	struct rx_pkt_attrib *pattrib = &precvframe->u.hdr.attrib;
++
++
++	if (pattrib->encrypt)
++		recvframe_pull_tail(precvframe, pattrib->icv_len);
++
++	psnap = (struct ieee80211_snap_hdr *)(ptr + pattrib->hdrlen + pattrib->iv_len);
++	psnap_type = ptr + pattrib->hdrlen + pattrib->iv_len + SNAP_SIZE;
++	/* convert hdr + possible LLC headers into Ethernet header */
++	/* eth_type = (psnap_type[0] << 8) | psnap_type[1]; */
++	if ((_rtw_memcmp(psnap, rtw_rfc1042_header, SNAP_SIZE) &&
++	     (_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_IPX, 2) == _FALSE) &&
++	     (_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_APPLETALK_AARP, 2) == _FALSE)) ||
++	    /* eth_type != ETH_P_AARP && eth_type != ETH_P_IPX) || */
++	    _rtw_memcmp(psnap, rtw_bridge_tunnel_header, SNAP_SIZE)) {
++		/* remove RFC1042 or Bridge-Tunnel encapsulation and replace EtherType */
++		bsnaphdr = _TRUE;
++	} else {
++		/* Leave Ethernet header part of hdr and full payload */
++		bsnaphdr = _FALSE;
++	}
++
++	rmv_len = pattrib->hdrlen + pattrib->iv_len + (bsnaphdr ? SNAP_SIZE : 0);
++	len = precvframe->u.hdr.len - rmv_len;
++
++
++	_rtw_memcpy(&eth_type, ptr + rmv_len, 2);
++	eth_type = ntohs((unsigned short)eth_type); /* pattrib->ether_type */
++	pattrib->eth_type = eth_type;
++
++#ifdef CONFIG_AUTO_AP_MODE
++	if (0x8899 == pattrib->eth_type) {
++		struct sta_info *psta = precvframe->u.hdr.psta;
++
++		RTW_INFO("wlan rx: got eth_type=0x%x\n", pattrib->eth_type);
++
++		if (psta && psta->isrc && psta->pid > 0) {
++			u16 rx_pid;
++
++			rx_pid = *(u16 *)(ptr + rmv_len + 2);
++
++			RTW_INFO("wlan rx(pid=0x%x): sta("MAC_FMT") pid=0x%x\n",
++				 rx_pid, MAC_ARG(psta->hwaddr), psta->pid);
++
++			if (rx_pid == psta->pid) {
++				int i;
++				u16 len = *(u16 *)(ptr + rmv_len + 4);
++				/* u16 ctrl_type = *(u16*)(ptr+rmv_len+6); */
++
++				/* RTW_INFO("RC: len=0x%x, ctrl_type=0x%x\n", len, ctrl_type);  */
++				RTW_INFO("RC: len=0x%x\n", len);
++
++				for (i = 0; i < len; i++)
++					RTW_INFO("0x%x\n", *(ptr + rmv_len + 6 + i));
++				/* RTW_INFO("0x%x\n", *(ptr+rmv_len+8+i)); */
++
++				RTW_INFO("RC-end\n");
++			}
++		}
++	}
++#endif /* CONFIG_AUTO_AP_MODE */
++
++	if ((check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE)) {
++		ptr += rmv_len ;
++		*ptr = 0x87;
++		*(ptr + 1) = 0x12;
++
++		eth_type = 0x8712;
++		/* append rx status for mp test packets */
++		ptr = recvframe_pull(precvframe, (rmv_len - sizeof(struct ethhdr) + 2) - 24);
++		if (!ptr) {
++			ret = _FAIL;
++			goto exiting;
++		}
++		_rtw_memcpy(ptr, get_rxmem(precvframe), 24);
++		ptr += 24;
++	} else {
++		ptr = recvframe_pull(precvframe, (rmv_len - sizeof(struct ethhdr) + (bsnaphdr ? 2 : 0)));
++		if (!ptr) {
++			ret = _FAIL;
++			goto exiting;
++		}
++	}
++
++	if (ptr) {
++		_rtw_memcpy(ptr, pattrib->dst, ETH_ALEN);
++		_rtw_memcpy(ptr + ETH_ALEN, pattrib->src, ETH_ALEN);
++
++		if (!bsnaphdr) {
++			len = htons(len);
++			_rtw_memcpy(ptr + 12, &len, 2);
++		}
++	}
++
++exiting:
++	return ret;
++
++}
++
++#else
++
++sint wlanhdr_to_ethhdr(union recv_frame *precvframe)
++{
++	sint rmv_len;
++	u16 eth_type;
++	u8	bsnaphdr;
++	u8	*psnap_type;
++	struct ieee80211_snap_hdr	*psnap;
++
++	sint ret = _SUCCESS;
++	_adapter	*adapter = precvframe->u.hdr.adapter;
++	struct	mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++
++	u8 *ptr = get_recvframe_data(precvframe) ; /* point to frame_ctrl field */
++	struct rx_pkt_attrib *pattrib = &precvframe->u.hdr.attrib;
++	struct _vlan *pvlan = NULL;
++
++
++	psnap = (struct ieee80211_snap_hdr *)(ptr + pattrib->hdrlen + pattrib->iv_len);
++	psnap_type = ptr + pattrib->hdrlen + pattrib->iv_len + SNAP_SIZE;
++	if (psnap->dsap == 0xaa && psnap->ssap == 0xaa && psnap->ctrl == 0x03) {
++		if (_rtw_memcmp(psnap->oui, oui_rfc1042, WLAN_IEEE_OUI_LEN))
++			bsnaphdr = _TRUE; /* wlan_pkt_format = WLAN_PKT_FORMAT_SNAP_RFC1042;	 */
++		else if (_rtw_memcmp(psnap->oui, SNAP_HDR_APPLETALK_DDP, WLAN_IEEE_OUI_LEN) &&
++			_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_APPLETALK_DDP, 2))
++			bsnaphdr = _TRUE;	/* wlan_pkt_format = WLAN_PKT_FORMAT_APPLETALK; */
++		else if (_rtw_memcmp(psnap->oui, oui_8021h, WLAN_IEEE_OUI_LEN))
++			bsnaphdr = _TRUE;	/* wlan_pkt_format = WLAN_PKT_FORMAT_SNAP_TUNNEL; */
++		else {
++			ret = _FAIL;
++			goto exit;
++		}
++
++	} else
++		bsnaphdr = _FALSE; /* wlan_pkt_format = WLAN_PKT_FORMAT_OTHERS; */
++
++	rmv_len = pattrib->hdrlen + pattrib->iv_len + (bsnaphdr ? SNAP_SIZE : 0);
++
++	if (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _TRUE) {
++		ptr += rmv_len ;
++		*ptr = 0x87;
++		*(ptr + 1) = 0x12;
++
++		/* back to original pointer */
++		ptr -= rmv_len;
++	}
++
++	ptr += rmv_len ;
++
++	_rtw_memcpy(&eth_type, ptr, 2);
++	eth_type = ntohs((unsigned short)eth_type); /* pattrib->ether_type */
++	ptr += 2;
++
++	if (pattrib->encrypt)
++		recvframe_pull_tail(precvframe, pattrib->icv_len);
++
++	if (eth_type == 0x8100) { /* vlan */
++		pvlan = (struct _vlan *) ptr;
++
++		/* eth_type = get_vlan_encap_proto(pvlan); */
++		/* eth_type = pvlan->h_vlan_encapsulated_proto; */ /* ? */
++		rmv_len += 4;
++		ptr += 4;
++	}
++
++	if (eth_type == 0x0800) { /* ip */
++		/* struct iphdr*  piphdr = (struct iphdr*) ptr; */
++		/* __u8 tos = (unsigned char)(pattrib->priority & 0xff); */
++
++		/* piphdr->tos = tos; */
++
++	} else if (eth_type == 0x8712) { /* append rx status for mp test packets */
++		/* ptr -= 16; */
++		/* _rtw_memcpy(ptr, get_rxmem(precvframe), 16); */
++	} else {
++#ifdef PLATFORM_OS_XP
++		NDIS_PACKET_8021Q_INFO VlanPriInfo;
++		UINT32 UserPriority = precvframe->u.hdr.attrib.priority;
++		UINT32 VlanID = (pvlan != NULL ? get_vlan_id(pvlan) : 0);
++
++		VlanPriInfo.Value =          /* Get current value. */
++			NDIS_PER_PACKET_INFO_FROM_PACKET(precvframe->u.hdr.pkt, Ieee8021QInfo);
++
++		VlanPriInfo.TagHeader.UserPriority = UserPriority;
++		VlanPriInfo.TagHeader.VlanId =  VlanID ;
++
++		VlanPriInfo.TagHeader.CanonicalFormatId = 0; /* Should be zero. */
++		VlanPriInfo.TagHeader.Reserved = 0; /* Should be zero. */
++		NDIS_PER_PACKET_INFO_FROM_PACKET(precvframe->u.hdr.pkt, Ieee8021QInfo) = VlanPriInfo.Value;
++#endif
++	}
++
++	if (eth_type == 0x8712) { /* append rx status for mp test packets */
++		ptr = recvframe_pull(precvframe, (rmv_len - sizeof(struct ethhdr) + 2) - 24);
++		_rtw_memcpy(ptr, get_rxmem(precvframe), 24);
++		ptr += 24;
++	} else
++		ptr = recvframe_pull(precvframe, (rmv_len - sizeof(struct ethhdr) + 2));
++
++	_rtw_memcpy(ptr, pattrib->dst, ETH_ALEN);
++	_rtw_memcpy(ptr + ETH_ALEN, pattrib->src, ETH_ALEN);
++
++	eth_type = htons((unsigned short)eth_type) ;
++	_rtw_memcpy(ptr + 12, &eth_type, 2);
++
++exit:
++
++
++	return ret;
++}
++#endif
++
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++#ifdef PLATFORM_LINUX
++static void recvframe_expand_pkt(
++	PADAPTER padapter,
++	union recv_frame *prframe)
++{
++	struct recv_frame_hdr *pfhdr;
++	_pkt *ppkt;
++	u8 shift_sz;
++	u32 alloc_sz;
++	u8 *ptr;
++
++
++	pfhdr = &prframe->u.hdr;
++
++	/*	6 is for IP header 8 bytes alignment in QoS packet case. */
++	if (pfhdr->attrib.qos)
++		shift_sz = 6;
++	else
++		shift_sz = 0;
++
++	/* for first fragment packet, need to allocate */
++	/* (1536 + RXDESC_SIZE + drvinfo_sz) to reassemble packet */
++	/*	8 is for skb->data 8 bytes alignment.
++	*	alloc_sz = _RND(1536 + RXDESC_SIZE + pfhdr->attrib.drvinfosize + shift_sz + 8, 128); */
++	alloc_sz = 1664; /* round (1536 + 24 + 32 + shift_sz + 8) to 128 bytes alignment */
++
++	/* 3 1. alloc new skb */
++	/* prepare extra space for 4 bytes alignment */
++	ppkt = rtw_skb_alloc(alloc_sz);
++
++	if (!ppkt)
++		return; /* no way to expand */
++
++	/* 3 2. Prepare new skb to replace & release old skb */
++	/* force ppkt->data at 8-byte alignment address */
++	skb_reserve(ppkt, 8 - ((SIZE_PTR)ppkt->data & 7));
++	/* force ip_hdr at 8-byte alignment address according to shift_sz */
++	skb_reserve(ppkt, shift_sz);
++
++	/* copy data to new pkt */
++	ptr = skb_put(ppkt, pfhdr->len);
++	if (ptr)
++		_rtw_memcpy(ptr, pfhdr->rx_data, pfhdr->len);
++
++	rtw_skb_free(pfhdr->pkt);
++
++	/* attach new pkt to recvframe */
++	pfhdr->pkt = ppkt;
++	pfhdr->rx_head = ppkt->head;
++	pfhdr->rx_data = ppkt->data;
++	pfhdr->rx_tail = skb_tail_pointer(ppkt);
++	pfhdr->rx_end = skb_end_pointer(ppkt);
++}
++#else
++#warning "recvframe_expand_pkt not implement, defrag may crash system"
++#endif
++#endif
++
++/* perform defrag */
++union recv_frame *recvframe_defrag(_adapter *adapter, _queue *defrag_q);
++union recv_frame *recvframe_defrag(_adapter *adapter, _queue *defrag_q)
++{
++	_list	*plist, *phead;
++	u8	*data, wlanhdr_offset;
++	u8	curfragnum;
++	struct recv_frame_hdr *pfhdr, *pnfhdr;
++	union recv_frame *prframe, *pnextrframe;
++	_queue	*pfree_recv_queue;
++
++
++	curfragnum = 0;
++	pfree_recv_queue = &adapter->recvpriv.free_recv_queue;
++
++	phead = get_list_head(defrag_q);
++	plist = get_next(phead);
++	prframe = LIST_CONTAINOR(plist, union recv_frame, u);
++	pfhdr = &prframe->u.hdr;
++	rtw_list_delete(&(prframe->u.list));
++
++	if (curfragnum != pfhdr->attrib.frag_num) {
++		/* the first fragment number must be 0 */
++		/* free the whole queue */
++		rtw_free_recvframe(prframe, pfree_recv_queue);
++		rtw_free_recvframe_queue(defrag_q, pfree_recv_queue);
++
++		return NULL;
++	}
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++#ifndef CONFIG_SDIO_RX_COPY
++	recvframe_expand_pkt(adapter, prframe);
++#endif
++#endif
++
++	curfragnum++;
++
++	plist = get_list_head(defrag_q);
++
++	plist = get_next(plist);
++
++	data = get_recvframe_data(prframe);
++
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		pnextrframe = LIST_CONTAINOR(plist, union recv_frame , u);
++		pnfhdr = &pnextrframe->u.hdr;
++
++
++		/* check the fragment sequence  (2nd ~n fragment frame) */
++
++		if (curfragnum != pnfhdr->attrib.frag_num) {
++			/* the fragment number must be increasing  (after decache) */
++			/* release the defrag_q & prframe */
++			rtw_free_recvframe(prframe, pfree_recv_queue);
++			rtw_free_recvframe_queue(defrag_q, pfree_recv_queue);
++			return NULL;
++		}
++
++		curfragnum++;
++
++		/* copy the 2nd~n fragment frame's payload to the first fragment */
++		/* get the 2nd~last fragment frame's payload */
++
++		wlanhdr_offset = pnfhdr->attrib.hdrlen + pnfhdr->attrib.iv_len;
++
++		recvframe_pull(pnextrframe, wlanhdr_offset);
++
++		/* append  to first fragment frame's tail (if privacy frame, pull the ICV) */
++		recvframe_pull_tail(prframe, pfhdr->attrib.icv_len);
++
++		/* memcpy */
++		_rtw_memcpy(pfhdr->rx_tail, pnfhdr->rx_data, pnfhdr->len);
++
++		recvframe_put(prframe, pnfhdr->len);
++
++		pfhdr->attrib.icv_len = pnfhdr->attrib.icv_len;
++		plist = get_next(plist);
++
++	};
++
++	/* free the defrag_q queue and return the prframe */
++	rtw_free_recvframe_queue(defrag_q, pfree_recv_queue);
++
++
++
++	return prframe;
++}
++
++/* check if need to defrag, if needed queue the frame to defrag_q */
++union recv_frame *recvframe_chk_defrag(PADAPTER padapter, union recv_frame *precv_frame)
++{
++	u8	ismfrag;
++	u8	fragnum;
++	u8	*psta_addr;
++	struct recv_frame_hdr *pfhdr;
++	struct sta_info *psta;
++	struct sta_priv *pstapriv;
++	_list *phead;
++	union recv_frame *prtnframe = NULL;
++	_queue *pfree_recv_queue, *pdefrag_q;
++
++
++	pstapriv = &padapter->stapriv;
++
++	pfhdr = &precv_frame->u.hdr;
++
++	pfree_recv_queue = &padapter->recvpriv.free_recv_queue;
++
++	/* need to define struct of wlan header frame ctrl */
++	ismfrag = pfhdr->attrib.mfrag;
++	fragnum = pfhdr->attrib.frag_num;
++
++	psta_addr = pfhdr->attrib.ta;
++	psta = rtw_get_stainfo(pstapriv, psta_addr);
++	if (psta == NULL) {
++		u8 type = GetFrameType(pfhdr->rx_data);
++		if (type != WIFI_DATA_TYPE) {
++			psta = rtw_get_bcmc_stainfo(padapter);
++			pdefrag_q = &psta->sta_recvpriv.defrag_q;
++		} else
++			pdefrag_q = NULL;
++	} else
++		pdefrag_q = &psta->sta_recvpriv.defrag_q;
++
++	if ((ismfrag == 0) && (fragnum == 0)) {
++		prtnframe = precv_frame;/* isn't a fragment frame */
++	}
++
++	if (ismfrag == 1) {
++		/* 0~(n-1) fragment frame */
++		/* enqueue to defraf_g */
++		if (pdefrag_q != NULL) {
++			if (fragnum == 0) {
++				/* the first fragment */
++				if (_rtw_queue_empty(pdefrag_q) == _FALSE) {
++					/* free current defrag_q */
++					rtw_free_recvframe_queue(pdefrag_q, pfree_recv_queue);
++				}
++			}
++
++
++			/* Then enqueue the 0~(n-1) fragment into the defrag_q */
++
++			/* _rtw_spinlock(&pdefrag_q->lock); */
++			phead = get_list_head(pdefrag_q);
++			rtw_list_insert_tail(&pfhdr->list, phead);
++			/* _rtw_spinunlock(&pdefrag_q->lock); */
++
++
++			prtnframe = NULL;
++
++		} else {
++			/* can't find this ta's defrag_queue, so free this recv_frame */
++			rtw_free_recvframe(precv_frame, pfree_recv_queue);
++			prtnframe = NULL;
++		}
++
++	}
++
++	if ((ismfrag == 0) && (fragnum != 0)) {
++		/* the last fragment frame */
++		/* enqueue the last fragment */
++		if (pdefrag_q != NULL) {
++			/* _rtw_spinlock(&pdefrag_q->lock); */
++			phead = get_list_head(pdefrag_q);
++			rtw_list_insert_tail(&pfhdr->list, phead);
++			/* _rtw_spinunlock(&pdefrag_q->lock); */
++
++			/* call recvframe_defrag to defrag */
++			precv_frame = recvframe_defrag(padapter, pdefrag_q);
++			prtnframe = precv_frame;
++
++		} else {
++			/* can't find this ta's defrag_queue, so free this recv_frame */
++			rtw_free_recvframe(precv_frame, pfree_recv_queue);
++			prtnframe = NULL;
++		}
++
++	}
++
++
++	if ((prtnframe != NULL) && (prtnframe->u.hdr.attrib.privacy)) {
++		/* after defrag we must check tkip mic code */
++		if (recvframe_chkmic(padapter,  prtnframe) == _FAIL) {
++			rtw_free_recvframe(prtnframe, pfree_recv_queue);
++			prtnframe = NULL;
++		}
++	}
++
++
++	return prtnframe;
++
++}
++
++int amsdu_to_msdu(_adapter *padapter, union recv_frame *prframe)
++{
++	int	a_len, padding_len;
++	u16	nSubframe_Length;
++	u8	nr_subframes, i;
++	u8	*pdata;
++	_pkt *sub_pkt, *subframes[MAX_SUBFRAME_COUNT];
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	_queue *pfree_recv_queue = &(precvpriv->free_recv_queue);
++	int	ret = _SUCCESS;
++
++	nr_subframes = 0;
++
++	recvframe_pull(prframe, prframe->u.hdr.attrib.hdrlen);
++
++	if (prframe->u.hdr.attrib.iv_len > 0)
++		recvframe_pull(prframe, prframe->u.hdr.attrib.iv_len);
++
++	a_len = prframe->u.hdr.len;
++
++	pdata = prframe->u.hdr.rx_data;
++
++	while (a_len > ETH_HLEN) {
++
++		/* Offset 12 denote 2 mac address */
++		nSubframe_Length = RTW_GET_BE16(pdata + 12);
++
++		if (a_len < (ETHERNET_HEADER_SIZE + nSubframe_Length)) {
++			RTW_INFO("nRemain_Length is %d and nSubframe_Length is : %d\n", a_len, nSubframe_Length);
++			break;
++		}
++
++		sub_pkt = rtw_os_alloc_msdu_pkt(prframe, nSubframe_Length, pdata);
++		if (sub_pkt == NULL) {
++			RTW_INFO("%s(): allocate sub packet fail !!!\n", __FUNCTION__);
++			break;
++		}
++
++		/* move the data point to data content */
++		pdata += ETH_HLEN;
++		a_len -= ETH_HLEN;
++
++		subframes[nr_subframes++] = sub_pkt;
++
++		if (nr_subframes >= MAX_SUBFRAME_COUNT) {
++			RTW_INFO("ParseSubframe(): Too many Subframes! Packets dropped!\n");
++			break;
++		}
++
++		pdata += nSubframe_Length;
++		a_len -= nSubframe_Length;
++		if (a_len != 0) {
++			padding_len = 4 - ((nSubframe_Length + ETH_HLEN) & (4 - 1));
++			if (padding_len == 4)
++				padding_len = 0;
++
++			if (a_len < padding_len) {
++				RTW_INFO("ParseSubframe(): a_len < padding_len !\n");
++				break;
++			}
++			pdata += padding_len;
++			a_len -= padding_len;
++		}
++	}
++
++	for (i = 0; i < nr_subframes; i++) {
++		sub_pkt = subframes[i];
++
++		/* Indicat the packets to upper layer */
++		if (sub_pkt)
++			rtw_os_recv_indicate_pkt(padapter, sub_pkt, &prframe->u.hdr.attrib);
++	}
++
++	prframe->u.hdr.len = 0;
++	rtw_free_recvframe(prframe, pfree_recv_queue);/* free this recv_frame */
++
++	return ret;
++}
++
++int check_indicate_seq(struct recv_reorder_ctrl *preorder_ctrl, u16 seq_num);
++int check_indicate_seq(struct recv_reorder_ctrl *preorder_ctrl, u16 seq_num)
++{
++	PADAPTER padapter = preorder_ctrl->padapter;
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	u8	wsize = preorder_ctrl->wsize_b;
++	u16	wend = (preorder_ctrl->indicate_seq + wsize - 1) & 0xFFF; /* % 4096; */
++
++	/* Rx Reorder initialize condition. */
++	if (preorder_ctrl->indicate_seq == 0xFFFF) {
++		preorder_ctrl->indicate_seq = seq_num;
++#ifdef DBG_RX_SEQ
++		RTW_INFO("DBG_RX_SEQ %s:%d init IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++			 preorder_ctrl->indicate_seq, seq_num);
++#endif
++
++		/* DbgPrint("check_indicate_seq, 1st->indicate_seq=%d\n", precvpriv->indicate_seq); */
++	}
++
++	/* DbgPrint("enter->check_indicate_seq(): IndicateSeq: %d, NewSeq: %d\n", precvpriv->indicate_seq, seq_num); */
++
++	/* Drop out the packet which SeqNum is smaller than WinStart */
++	if (SN_LESS(seq_num, preorder_ctrl->indicate_seq)) {
++		/* DbgPrint("CheckRxTsIndicateSeq(): Packet Drop! IndicateSeq: %d, NewSeq: %d\n", precvpriv->indicate_seq, seq_num); */
++
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("%s IndicateSeq: %d > NewSeq: %d\n", __FUNCTION__,
++			 preorder_ctrl->indicate_seq, seq_num);
++#endif
++
++
++		return _FALSE;
++	}
++
++	/*  */
++	/* Sliding window manipulation. Conditions includes: */
++	/* 1. Incoming SeqNum is equal to WinStart =>Window shift 1 */
++	/* 2. Incoming SeqNum is larger than the WinEnd => Window shift N */
++	/*  */
++	if (SN_EQUAL(seq_num, preorder_ctrl->indicate_seq)) {
++		preorder_ctrl->indicate_seq = (preorder_ctrl->indicate_seq + 1) & 0xFFF;
++
++#ifdef DBG_RX_SEQ
++		RTW_INFO("DBG_RX_SEQ %s:%d SN_EQUAL IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++			 preorder_ctrl->indicate_seq, seq_num);
++#endif
++	} else if (SN_LESS(wend, seq_num)) {
++		/* DbgPrint("CheckRxTsIndicateSeq(): Window Shift! IndicateSeq: %d, NewSeq: %d\n", precvpriv->indicate_seq, seq_num); */
++
++		/* boundary situation, when seq_num cross 0xFFF */
++		if (seq_num >= (wsize - 1))
++			preorder_ctrl->indicate_seq = seq_num + 1 - wsize;
++		else
++			preorder_ctrl->indicate_seq = 0xFFF - (wsize - (seq_num + 1)) + 1;
++		pdbgpriv->dbg_rx_ampdu_window_shift_cnt++;
++#ifdef DBG_RX_SEQ
++		RTW_INFO("DBG_RX_SEQ %s:%d SN_LESS(wend, seq_num) IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++			 preorder_ctrl->indicate_seq, seq_num);
++#endif
++	}
++
++	/* DbgPrint("exit->check_indicate_seq(): IndicateSeq: %d, NewSeq: %d\n", precvpriv->indicate_seq, seq_num); */
++
++	return _TRUE;
++}
++
++int enqueue_reorder_recvframe(struct recv_reorder_ctrl *preorder_ctrl, union recv_frame *prframe);
++int enqueue_reorder_recvframe(struct recv_reorder_ctrl *preorder_ctrl, union recv_frame *prframe)
++{
++	struct rx_pkt_attrib *pattrib = &prframe->u.hdr.attrib;
++	_queue *ppending_recvframe_queue = &preorder_ctrl->pending_recvframe_queue;
++	_list	*phead, *plist;
++	union recv_frame *pnextrframe;
++	struct rx_pkt_attrib *pnextattrib;
++
++	/* DbgPrint("+enqueue_reorder_recvframe()\n"); */
++
++	/* _enter_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++	/* _rtw_spinlock_ex(&ppending_recvframe_queue->lock); */
++
++
++	phead = get_list_head(ppending_recvframe_queue);
++	plist = get_next(phead);
++
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		pnextrframe = LIST_CONTAINOR(plist, union recv_frame, u);
++		pnextattrib = &pnextrframe->u.hdr.attrib;
++
++		if (SN_LESS(pnextattrib->seq_num, pattrib->seq_num))
++			plist = get_next(plist);
++		else if (SN_EQUAL(pnextattrib->seq_num, pattrib->seq_num)) {
++			/* Duplicate entry is found!! Do not insert current entry. */
++
++			/* _exit_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++
++			return _FALSE;
++		} else
++			break;
++
++		/* DbgPrint("enqueue_reorder_recvframe():while\n"); */
++
++	}
++
++
++	/* _enter_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++	/* _rtw_spinlock_ex(&ppending_recvframe_queue->lock); */
++
++	rtw_list_delete(&(prframe->u.hdr.list));
++
++	rtw_list_insert_tail(&(prframe->u.hdr.list), plist);
++
++	/* _rtw_spinunlock_ex(&ppending_recvframe_queue->lock); */
++	/* _exit_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++
++
++	return _TRUE;
++
++}
++
++void recv_indicatepkts_pkt_loss_cnt(struct debug_priv *pdbgpriv, u64 prev_seq, u64 current_seq);
++void recv_indicatepkts_pkt_loss_cnt(struct debug_priv *pdbgpriv, u64 prev_seq, u64 current_seq)
++{
++	if (current_seq < prev_seq)
++		pdbgpriv->dbg_rx_ampdu_loss_count += (4096 + current_seq - prev_seq);
++
++	else
++		pdbgpriv->dbg_rx_ampdu_loss_count += (current_seq - prev_seq);
++}
++int recv_indicatepkts_in_order(_adapter *padapter, struct recv_reorder_ctrl *preorder_ctrl, int bforced);
++int recv_indicatepkts_in_order(_adapter *padapter, struct recv_reorder_ctrl *preorder_ctrl, int bforced)
++{
++	/* _irqL irql; */
++	/* u8 bcancelled; */
++	_list	*phead, *plist;
++	union recv_frame *prframe;
++	struct rx_pkt_attrib *pattrib;
++	/* u8 index = 0; */
++	int bPktInBuf = _FALSE;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	_queue *ppending_recvframe_queue = &preorder_ctrl->pending_recvframe_queue;
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++
++	DBG_COUNTER(padapter->rx_logs.core_rx_post_indicate_in_oder);
++
++	/* DbgPrint("+recv_indicatepkts_in_order\n"); */
++
++	/* _enter_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++	/* _rtw_spinlock_ex(&ppending_recvframe_queue->lock); */
++
++	phead =	get_list_head(ppending_recvframe_queue);
++	plist = get_next(phead);
++
++#if 0
++	/* Check if there is any other indication thread running. */
++	if (pTS->RxIndicateState == RXTS_INDICATE_PROCESSING)
++		return;
++#endif
++
++	/* Handling some condition for forced indicate case. */
++	if (bforced == _TRUE) {
++		pdbgpriv->dbg_rx_ampdu_forced_indicate_count++;
++		if (rtw_is_list_empty(phead)) {
++			/* _exit_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++			/* _rtw_spinunlock_ex(&ppending_recvframe_queue->lock); */
++			return _TRUE;
++		}
++
++		prframe = LIST_CONTAINOR(plist, union recv_frame, u);
++		pattrib = &prframe->u.hdr.attrib;
++
++#ifdef DBG_RX_SEQ
++		RTW_INFO("DBG_RX_SEQ %s:%d IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++			 preorder_ctrl->indicate_seq, pattrib->seq_num);
++#endif
++		recv_indicatepkts_pkt_loss_cnt(pdbgpriv, preorder_ctrl->indicate_seq, pattrib->seq_num);
++		preorder_ctrl->indicate_seq = pattrib->seq_num;
++
++	}
++
++	/* Prepare indication list and indication. */
++	/* Check if there is any packet need indicate. */
++	while (!rtw_is_list_empty(phead)) {
++
++		prframe = LIST_CONTAINOR(plist, union recv_frame, u);
++		pattrib = &prframe->u.hdr.attrib;
++
++		if (!SN_LESS(preorder_ctrl->indicate_seq, pattrib->seq_num)) {
++
++#if 0
++			/* This protect buffer from overflow. */
++			if (index >= REORDER_WIN_SIZE) {
++				RT_ASSERT(FALSE, ("IndicateRxReorderList(): Buffer overflow!!\n"));
++				bPktInBuf = TRUE;
++				break;
++			}
++#endif
++
++			plist = get_next(plist);
++			rtw_list_delete(&(prframe->u.hdr.list));
++
++			if (SN_EQUAL(preorder_ctrl->indicate_seq, pattrib->seq_num)) {
++				preorder_ctrl->indicate_seq = (preorder_ctrl->indicate_seq + 1) & 0xFFF;
++#ifdef DBG_RX_SEQ
++				RTW_INFO("DBG_RX_SEQ %s:%d IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++					preorder_ctrl->indicate_seq, pattrib->seq_num);
++#endif
++			}
++
++#if 0
++			index++;
++			if (index == 1) {
++				/* Cancel previous pending timer. */
++				/* PlatformCancelTimer(Adapter, &pTS->RxPktPendingTimer); */
++				if (bforced != _TRUE) {
++					/* RTW_INFO("_cancel_timer(&preorder_ctrl->reordering_ctrl_timer, &bcancelled);\n"); */
++					_cancel_timer(&preorder_ctrl->reordering_ctrl_timer, &bcancelled);
++				}
++			}
++#endif
++
++			/* Set this as a lock to make sure that only one thread is indicating packet. */
++			/* pTS->RxIndicateState = RXTS_INDICATE_PROCESSING; */
++
++			/* Indicate packets */
++			/* RT_ASSERT((index<=REORDER_WIN_SIZE), ("RxReorderIndicatePacket(): Rx Reorder buffer full!!\n")); */
++
++
++			/* indicate this recv_frame */
++			/* DbgPrint("recv_indicatepkts_in_order, indicate_seq=%d, seq_num=%d\n", precvpriv->indicate_seq, pattrib->seq_num); */
++			if (!pattrib->amsdu) {
++				/* RTW_INFO("recv_indicatepkts_in_order, amsdu!=1, indicate_seq=%d, seq_num=%d\n", preorder_ctrl->indicate_seq, pattrib->seq_num); */
++
++				if (!RTW_CANNOT_RUN(padapter))
++					rtw_recv_indicatepkt(padapter, prframe);/*indicate this recv_frame*/
++
++			} else if (pattrib->amsdu == 1) {
++				if (amsdu_to_msdu(padapter, prframe) != _SUCCESS)
++					rtw_free_recvframe(prframe, &precvpriv->free_recv_queue);
++			} else {
++				/* error condition; */
++			}
++
++
++			/* Update local variables. */
++			bPktInBuf = _FALSE;
++
++		} else {
++			bPktInBuf = _TRUE;
++			break;
++		}
++
++		/* DbgPrint("recv_indicatepkts_in_order():while\n"); */
++
++	}
++
++	/* _rtw_spinunlock_ex(&ppending_recvframe_queue->lock); */
++	/* _exit_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++
++#if 0
++	/* Release the indication lock and set to new indication step. */
++	if (bPktInBuf) {
++		/*  Set new pending timer. */
++		/* pTS->RxIndicateState = RXTS_INDICATE_REORDER; */
++		/* PlatformSetTimer(Adapter, &pTS->RxPktPendingTimer, pHTInfo->RxReorderPendingTime); */
++
++		_set_timer(&preorder_ctrl->reordering_ctrl_timer, REORDER_WAIT_TIME);
++	} else {
++		/* pTS->RxIndicateState = RXTS_INDICATE_IDLE; */
++	}
++#endif
++	/* _exit_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++
++	/* return _TRUE; */
++	return bPktInBuf;
++
++}
++
++int recv_indicatepkt_reorder(_adapter *padapter, union recv_frame *prframe);
++int recv_indicatepkt_reorder(_adapter *padapter, union recv_frame *prframe)
++{
++	_irqL irql;
++	int retval = _SUCCESS;
++	struct rx_pkt_attrib *pattrib = &prframe->u.hdr.attrib;
++	struct recv_reorder_ctrl *preorder_ctrl = prframe->u.hdr.preorder_ctrl;
++	_queue *ppending_recvframe_queue = &preorder_ctrl->pending_recvframe_queue;
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++
++	DBG_COUNTER(padapter->rx_logs.core_rx_post_indicate_reoder);
++
++	if (!pattrib->amsdu) {
++		/* s1. */
++		retval = wlanhdr_to_ethhdr(prframe);
++		if (retval != _SUCCESS) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s wlanhdr_to_ethhdr error!\n", __FUNCTION__);
++#endif
++			return retval;
++		}
++
++		/* if ((pattrib->qos!=1) || pattrib->priority!=0 || IS_MCAST(pattrib->ra) */
++		/*	|| (pattrib->eth_type==0x0806) || (pattrib->ack_policy!=0)) */
++		if (pattrib->qos != 1) {
++			if (!RTW_CANNOT_RUN(padapter)) {
++
++				rtw_recv_indicatepkt(padapter, prframe);
++				return _SUCCESS;
++
++			}
++
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s pattrib->qos !=1\n", __FUNCTION__);
++#endif
++
++			return _FAIL;
++
++		}
++
++		if (preorder_ctrl->enable == _FALSE) {
++			/* indicate this recv_frame			 */
++			preorder_ctrl->indicate_seq = pattrib->seq_num;
++#ifdef DBG_RX_SEQ
++			RTW_INFO("DBG_RX_SEQ %s:%d IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++				 preorder_ctrl->indicate_seq, pattrib->seq_num);
++#endif
++
++			rtw_recv_indicatepkt(padapter, prframe);
++
++			preorder_ctrl->indicate_seq = (preorder_ctrl->indicate_seq + 1) % 4096;
++#ifdef DBG_RX_SEQ
++			RTW_INFO("DBG_RX_SEQ %s:%d IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++				 preorder_ctrl->indicate_seq, pattrib->seq_num);
++#endif
++
++			return _SUCCESS;
++		}
++
++#ifndef CONFIG_RECV_REORDERING_CTRL
++		/* indicate this recv_frame */
++		rtw_recv_indicatepkt(padapter, prframe);
++		return _SUCCESS;
++#endif
++
++	} else if (pattrib->amsdu == 1) { /* temp filter->means didn't support A-MSDUs in a A-MPDU */
++		if (preorder_ctrl->enable == _FALSE) {
++			preorder_ctrl->indicate_seq = pattrib->seq_num;
++#ifdef DBG_RX_SEQ
++			RTW_INFO("DBG_RX_SEQ %s:%d IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++				 preorder_ctrl->indicate_seq, pattrib->seq_num);
++#endif
++
++			retval = amsdu_to_msdu(padapter, prframe);
++
++			preorder_ctrl->indicate_seq = (preorder_ctrl->indicate_seq + 1) % 4096;
++#ifdef DBG_RX_SEQ
++			RTW_INFO("DBG_RX_SEQ %s:%d IndicateSeq: %d, NewSeq: %d\n", __FUNCTION__, __LINE__,
++				 preorder_ctrl->indicate_seq, pattrib->seq_num);
++#endif
++
++			if (retval != _SUCCESS) {
++#ifdef DBG_RX_DROP_FRAME
++				RTW_INFO("DBG_RX_DROP_FRAME %s amsdu_to_msdu fail\n", __FUNCTION__);
++#endif
++			}
++
++			return retval;
++		}
++	} else {
++
++	}
++
++	_enter_critical_bh(&ppending_recvframe_queue->lock, &irql);
++
++
++	/* s2. check if winstart_b(indicate_seq) needs to been updated */
++	if (!check_indicate_seq(preorder_ctrl, pattrib->seq_num)) {
++		pdbgpriv->dbg_rx_ampdu_drop_count++;
++		/* pHTInfo->RxReorderDropCounter++; */
++		/* ReturnRFDList(Adapter, pRfd); */
++		/* _exit_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++		/* return _FAIL; */
++
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s check_indicate_seq fail\n", __FUNCTION__);
++#endif
++#if 0
++		rtw_recv_indicatepkt(padapter, prframe);
++
++		_exit_critical_bh(&ppending_recvframe_queue->lock, &irql);
++
++		goto _success_exit;
++#else
++		goto _err_exit;
++#endif
++	}
++
++
++	/* s3. Insert all packet into Reorder Queue to maintain its ordering. */
++	if (!enqueue_reorder_recvframe(preorder_ctrl, prframe)) {
++		/* DbgPrint("recv_indicatepkt_reorder, enqueue_reorder_recvframe fail!\n"); */
++		/* _exit_critical_ex(&ppending_recvframe_queue->lock, &irql); */
++		/* return _FAIL; */
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s enqueue_reorder_recvframe fail\n", __FUNCTION__);
++#endif
++		goto _err_exit;
++	}
++
++
++	/* s4. */
++	/* Indication process. */
++	/* After Packet dropping and Sliding Window shifting as above, we can now just indicate the packets */
++	/* with the SeqNum smaller than latest WinStart and buffer other packets. */
++	/*  */
++	/* For Rx Reorder condition: */
++	/* 1. All packets with SeqNum smaller than WinStart => Indicate */
++	/* 2. All packets with SeqNum larger than or equal to WinStart => Buffer it. */
++	/*  */
++
++	/* recv_indicatepkts_in_order(padapter, preorder_ctrl, _TRUE); */
++	if (recv_indicatepkts_in_order(padapter, preorder_ctrl, _FALSE) == _TRUE) {
++		if (!preorder_ctrl->bReorderWaiting) {
++			preorder_ctrl->bReorderWaiting = _TRUE;
++			_set_timer(&preorder_ctrl->reordering_ctrl_timer, REORDER_WAIT_TIME);
++		}
++		_exit_critical_bh(&ppending_recvframe_queue->lock, &irql);
++	} else {
++		preorder_ctrl->bReorderWaiting = _FALSE;
++		_exit_critical_bh(&ppending_recvframe_queue->lock, &irql);
++		_cancel_timer_ex(&preorder_ctrl->reordering_ctrl_timer);
++	}
++
++
++_success_exit:
++
++	return _SUCCESS;
++
++_err_exit:
++
++	_exit_critical_bh(&ppending_recvframe_queue->lock, &irql);
++
++	return _FAIL;
++}
++
++
++void rtw_reordering_ctrl_timeout_handler(void *pcontext)
++{
++	_irqL irql;
++	struct recv_reorder_ctrl *preorder_ctrl = (struct recv_reorder_ctrl *)pcontext;
++	_adapter *padapter = preorder_ctrl->padapter;
++	_queue *ppending_recvframe_queue = &preorder_ctrl->pending_recvframe_queue;
++
++
++	if (RTW_CANNOT_RUN(padapter))
++		return;
++
++	/* RTW_INFO("+rtw_reordering_ctrl_timeout_handler()=>\n"); */
++
++	_enter_critical_bh(&ppending_recvframe_queue->lock, &irql);
++
++	if (preorder_ctrl)
++		preorder_ctrl->bReorderWaiting = _FALSE;
++
++	if (recv_indicatepkts_in_order(padapter, preorder_ctrl, _TRUE) == _TRUE)
++		_set_timer(&preorder_ctrl->reordering_ctrl_timer, REORDER_WAIT_TIME);
++
++	_exit_critical_bh(&ppending_recvframe_queue->lock, &irql);
++
++}
++
++int process_recv_indicatepkts(_adapter *padapter, union recv_frame *prframe);
++int process_recv_indicatepkts(_adapter *padapter, union recv_frame *prframe)
++{
++	int retval = _SUCCESS;
++	/* struct recv_priv *precvpriv = &padapter->recvpriv; */
++	/* struct rx_pkt_attrib *pattrib = &prframe->u.hdr.attrib; */
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++#ifdef CONFIG_TDLS
++	struct sta_info *psta = prframe->u.hdr.psta;
++#endif /* CONFIG_TDLS */
++
++#ifdef CONFIG_80211N_HT
++
++	struct ht_priv	*phtpriv = &pmlmepriv->htpriv;
++
++	DBG_COUNTER(padapter->rx_logs.core_rx_post_indicate);
++
++#ifdef CONFIG_TDLS
++	if ((phtpriv->ht_option == _TRUE) ||
++	    ((psta->tdls_sta_state & TDLS_LINKED_STATE) &&
++	     (psta->htpriv.ht_option == _TRUE) &&
++	     (psta->htpriv.ampdu_enable == _TRUE))) /* B/G/N Mode */
++#else
++	if (phtpriv->ht_option == _TRUE) /* B/G/N Mode */
++#endif /* CONFIG_TDLS */
++	{
++		/* prframe->u.hdr.preorder_ctrl = &precvpriv->recvreorder_ctrl[pattrib->priority]; */
++
++		if (recv_indicatepkt_reorder(padapter, prframe) != _SUCCESS) { /* including perform A-MPDU Rx Ordering Buffer Control */
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s recv_indicatepkt_reorder error!\n", __FUNCTION__);
++#endif
++
++			if (!RTW_CANNOT_RUN(padapter))	{
++				retval = _FAIL;
++				return retval;
++			}
++		}
++	} else /* B/G mode */
++#endif
++	{
++		retval = wlanhdr_to_ethhdr(prframe);
++		if (retval != _SUCCESS) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s wlanhdr_to_ethhdr error!\n", __FUNCTION__);
++#endif
++			return retval;
++		}
++
++		if (!RTW_CANNOT_RUN(padapter)) {
++			/* indicate this recv_frame */
++			rtw_recv_indicatepkt(padapter, prframe);
++		} else {
++
++			retval = _FAIL;
++			return retval;
++		}
++
++	}
++
++	return retval;
++
++}
++
++#ifdef CONFIG_MP_INCLUDED
++int validate_mp_recv_frame(_adapter *adapter, union recv_frame *precv_frame)
++{
++	int ret = _SUCCESS;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	u8 type, subtype;
++	struct mp_priv *pmppriv = &adapter->mppriv;
++	struct mp_tx		*pmptx;
++
++	pmptx = &pmppriv->tx;
++
++#if 0
++	if (1) {
++		u8 bDumpRxPkt;
++		type =  GetFrameType(ptr);
++		subtype = GetFrameSubType(ptr); /* bit(7)~bit(2)	 */
++
++		rtw_hal_get_def_var(adapter, HAL_DEF_DBG_DUMP_RXPKT, &(bDumpRxPkt));
++		if (bDumpRxPkt == 1) { /* dump all rx packets */
++			int i;
++			RTW_INFO("############ type:0x%02x subtype:0x%02x #################\n", type, subtype);
++
++			for (i = 0; i < 64; i = i + 8)
++				RTW_INFO("%02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X:\n", *(ptr + i),
++					*(ptr + i + 1), *(ptr + i + 2) , *(ptr + i + 3) , *(ptr + i + 4), *(ptr + i + 5), *(ptr + i + 6), *(ptr + i + 7));
++			RTW_INFO("#############################\n");
++		}
++	}
++#endif
++	if (pmppriv->bloopback) {
++		if (_rtw_memcmp(ptr + 24, pmptx->buf + 24, precv_frame->u.hdr.len - 24) == _FALSE) {
++			RTW_INFO("Compare payload content Fail !!!\n");
++			ret = _FAIL;
++		}
++	}
++
++	if (!adapter->mppriv.bmac_filter)
++		return ret;
++
++	if (_rtw_memcmp(GetAddr2Ptr(ptr), adapter->mppriv.mac_filter, ETH_ALEN) == _FALSE)
++		ret = _FAIL;
++
++	return ret;
++}
++
++static sint MPwlanhdr_to_ethhdr(union recv_frame *precvframe)
++{
++	sint	rmv_len;
++	u16 eth_type, len;
++	u8	bsnaphdr;
++	u8	*psnap_type;
++	u8 mcastheadermac[] = {0x01, 0x00, 0x5e};
++
++	struct ieee80211_snap_hdr	*psnap;
++
++	sint ret = _SUCCESS;
++	_adapter			*adapter = precvframe->u.hdr.adapter;
++	struct mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++
++	u8	*ptr = get_recvframe_data(precvframe) ; /* point to frame_ctrl field */
++	struct rx_pkt_attrib *pattrib = &precvframe->u.hdr.attrib;
++
++
++	if (pattrib->encrypt)
++		recvframe_pull_tail(precvframe, pattrib->icv_len);
++
++	psnap = (struct ieee80211_snap_hdr *)(ptr + pattrib->hdrlen + pattrib->iv_len);
++	psnap_type = ptr + pattrib->hdrlen + pattrib->iv_len + SNAP_SIZE;
++	/* convert hdr + possible LLC headers into Ethernet header */
++	/* eth_type = (psnap_type[0] << 8) | psnap_type[1]; */
++	if ((_rtw_memcmp(psnap, rtw_rfc1042_header, SNAP_SIZE) &&
++	     (_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_IPX, 2) == _FALSE) &&
++	     (_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_APPLETALK_AARP, 2) == _FALSE)) ||
++	    /* eth_type != ETH_P_AARP && eth_type != ETH_P_IPX) || */
++	    _rtw_memcmp(psnap, rtw_bridge_tunnel_header, SNAP_SIZE)) {
++		/* remove RFC1042 or Bridge-Tunnel encapsulation and replace EtherType */
++		bsnaphdr = _TRUE;
++	} else {
++		/* Leave Ethernet header part of hdr and full payload */
++		bsnaphdr = _FALSE;
++	}
++
++	rmv_len = pattrib->hdrlen + pattrib->iv_len + (bsnaphdr ? SNAP_SIZE : 0);
++	len = precvframe->u.hdr.len - rmv_len;
++
++
++	_rtw_memcpy(&eth_type, ptr + rmv_len, 2);
++	eth_type = ntohs((unsigned short)eth_type); /* pattrib->ether_type */
++	pattrib->eth_type = eth_type;
++
++	{
++		ptr = recvframe_pull(precvframe, (rmv_len - sizeof(struct ethhdr) + (bsnaphdr ? 2 : 0)));
++	}
++
++	_rtw_memcpy(ptr, pattrib->dst, ETH_ALEN);
++	_rtw_memcpy(ptr + ETH_ALEN, pattrib->src, ETH_ALEN);
++
++	if (!bsnaphdr) {
++		len = htons(len);
++		_rtw_memcpy(ptr + 12, &len, 2);
++	}
++
++
++	len = htons(pattrib->seq_num);
++	/* RTW_INFO("wlan seq = %d ,seq_num =%x\n",len,pattrib->seq_num); */
++	_rtw_memcpy(ptr + 12, &len, 2);
++	if (adapter->mppriv.bRTWSmbCfg == _TRUE) {
++		/* if(_rtw_memcmp(mcastheadermac, pattrib->dst, 3) == _TRUE) */ /* SimpleConfig Dest. */
++		/*			_rtw_memcpy(ptr+ETH_ALEN, pattrib->bssid, ETH_ALEN); */
++
++		if (_rtw_memcmp(mcastheadermac, pattrib->bssid, 3) == _TRUE) /* SimpleConfig Dest. */
++			_rtw_memcpy(ptr, pattrib->bssid, ETH_ALEN);
++
++	}
++
++
++	return ret;
++
++}
++
++
++int mp_recv_frame(_adapter *padapter, union recv_frame *rframe)
++{
++	int ret = _SUCCESS;
++	struct rx_pkt_attrib *pattrib = &rframe->u.hdr.attrib;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	_queue *pfree_recv_queue = &padapter->recvpriv.free_recv_queue;
++#ifdef CONFIG_MP_INCLUDED
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mp_priv *pmppriv = &padapter->mppriv;
++#endif /* CONFIG_MP_INCLUDED */
++	u8 type;
++	u8 *ptr = rframe->u.hdr.rx_data;
++	u8 *psa, *pda, *pbssid;
++	struct sta_info *psta = NULL;
++	DBG_COUNTER(padapter->rx_logs.core_rx_pre);
++
++	if ((check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)) { /* &&(padapter->mppriv.check_mp_pkt == 0)) */
++		if (pattrib->crc_err == 1)
++			padapter->mppriv.rx_crcerrpktcount++;
++		else {
++			if (_SUCCESS == validate_mp_recv_frame(padapter, rframe))
++				padapter->mppriv.rx_pktcount++;
++			else
++				padapter->mppriv.rx_pktcount_filter_out++;
++		}
++
++		if (pmppriv->rx_bindicatePkt == _FALSE) {
++			ret = _FAIL;
++			rtw_free_recvframe(rframe, pfree_recv_queue);/* free this recv_frame */
++			goto exit;
++		} else {
++			type =	GetFrameType(ptr);
++			pattrib->to_fr_ds = get_tofr_ds(ptr);
++			pattrib->frag_num = GetFragNum(ptr);
++			pattrib->seq_num = GetSequence(ptr);
++			pattrib->pw_save = GetPwrMgt(ptr);
++			pattrib->mfrag = GetMFrag(ptr);
++			pattrib->mdata = GetMData(ptr);
++			pattrib->privacy = GetPrivacy(ptr);
++			pattrib->order = GetOrder(ptr);
++
++			if (type == WIFI_DATA_TYPE) {
++				pda = get_da(ptr);
++				psa = get_sa(ptr);
++				pbssid = get_hdr_bssid(ptr);
++
++				_rtw_memcpy(pattrib->dst, pda, ETH_ALEN);
++				_rtw_memcpy(pattrib->src, psa, ETH_ALEN);
++				_rtw_memcpy(pattrib->bssid, pbssid, ETH_ALEN);
++
++				switch (pattrib->to_fr_ds) {
++				case 0:
++					_rtw_memcpy(pattrib->ra, pda, ETH_ALEN);
++					_rtw_memcpy(pattrib->ta, psa, ETH_ALEN);
++					ret = sta2sta_data_frame(padapter, rframe, &psta);
++					break;
++
++				case 1:
++
++					_rtw_memcpy(pattrib->ra, pda, ETH_ALEN);
++					_rtw_memcpy(pattrib->ta, pbssid, ETH_ALEN);
++					ret = ap2sta_data_frame(padapter, rframe, &psta);
++
++					break;
++
++				case 2:
++					_rtw_memcpy(pattrib->ra, pbssid, ETH_ALEN);
++					_rtw_memcpy(pattrib->ta, psa, ETH_ALEN);
++					ret = sta2ap_data_frame(padapter, rframe, &psta);
++					break;
++
++				case 3:
++					_rtw_memcpy(pattrib->ra, GetAddr1Ptr(ptr), ETH_ALEN);
++					_rtw_memcpy(pattrib->ta, GetAddr2Ptr(ptr), ETH_ALEN);
++					ret = _FAIL;
++					break;
++
++				default:
++					ret = _FAIL;
++					break;
++				}
++
++				ret = MPwlanhdr_to_ethhdr(rframe);
++
++				if (ret != _SUCCESS) {
++#ifdef DBG_RX_DROP_FRAME
++					RTW_INFO("DBG_RX_DROP_FRAME %s wlanhdr_to_ethhdr: drop pkt\n", __FUNCTION__);
++#endif
++					rtw_free_recvframe(rframe, pfree_recv_queue);/* free this recv_frame */
++					ret = _FAIL;
++					goto exit;
++				}
++				if (!RTW_CANNOT_RUN(padapter)) {
++					/* indicate this recv_frame */
++					ret = rtw_recv_indicatepkt(padapter, rframe);
++					if (ret != _SUCCESS) {
++#ifdef DBG_RX_DROP_FRAME
++						RTW_INFO("DBG_RX_DROP_FRAME %s rtw_recv_indicatepkt fail!\n", __FUNCTION__);
++#endif
++						rtw_free_recvframe(rframe, pfree_recv_queue);/* free this recv_frame */
++						ret = _FAIL;
++
++						goto exit;
++					}
++				} else {
++#ifdef DBG_RX_DROP_FRAME
++					RTW_INFO("DBG_RX_DROP_FRAME %s ecv_func:bDriverStopped(%s) OR bSurpriseRemoved(%s)\n", __func__,
++						rtw_is_drv_stopped(padapter) ? "True" : "False",
++						rtw_is_surprise_removed(padapter) ? "True" : "False");
++#endif
++					ret = _FAIL;
++					rtw_free_recvframe(rframe, pfree_recv_queue);/* free this recv_frame */
++					goto exit;
++				}
++
++			}
++		}
++
++	}
++
++	rtw_free_recvframe(rframe, pfree_recv_queue);/* free this recv_frame */
++	ret = _FAIL;
++
++exit:
++	return ret;
++
++}
++#endif
++
++static sint fill_radiotap_hdr(_adapter *padapter, union recv_frame *precvframe, u8 *buf)
++{
++#define CHAN2FREQ(a) ((a < 14) ? (2407+5*a) : (5000+5*a))
++
++#if 0
++#define RTW_RX_RADIOTAP_PRESENT (\
++				 (1 << IEEE80211_RADIOTAP_TSFT)              | \
++				 (1 << IEEE80211_RADIOTAP_FLAGS)             | \
++				 (1 << IEEE80211_RADIOTAP_RATE)              | \
++				 (1 << IEEE80211_RADIOTAP_CHANNEL)           | \
++				 (0 << IEEE80211_RADIOTAP_FHSS)              | \
++				 (1 << IEEE80211_RADIOTAP_DBM_ANTSIGNAL)     | \
++				 (1 << IEEE80211_RADIOTAP_DBM_ANTNOISE)      | \
++				 (0 << IEEE80211_RADIOTAP_LOCK_QUALITY)      | \
++				 (0 << IEEE80211_RADIOTAP_TX_ATTENUATION)    | \
++				 (0 << IEEE80211_RADIOTAP_DB_TX_ATTENUATION) | \
++				 (0 << IEEE80211_RADIOTAP_DBM_TX_POWER)      | \
++				 (1 << IEEE80211_RADIOTAP_ANTENNA)           | \
++				 (1 << IEEE80211_RADIOTAP_DB_ANTSIGNAL)      | \
++				 (0 << IEEE80211_RADIOTAP_DB_ANTNOISE)       | \
++				 (0 << IEEE80211_RADIOTAP_RX_FLAGS)          | \
++				 (0 << IEEE80211_RADIOTAP_TX_FLAGS)          | \
++				 (0 << IEEE80211_RADIOTAP_RTS_RETRIES)       | \
++				 (0 << IEEE80211_RADIOTAP_DATA_RETRIES)      | \
++				 (0 << IEEE80211_RADIOTAP_MCS)               | \
++				 (0 << IEEE80211_RADIOTAP_RADIOTAP_NAMESPACE)| \
++				 (0 << IEEE80211_RADIOTAP_VENDOR_NAMESPACE)  | \
++				 (0 << IEEE80211_RADIOTAP_EXT)               | \
++				 0)
++
++	/* (0 << IEEE80211_RADIOTAP_AMPDU_STATUS)      | \ */
++	/* (0 << IEEE80211_RADIOTAP_VHT)               | \ */
++#endif
++#ifndef IEEE80211_RADIOTAP_MCS
++#define IEEE80211_RADIOTAP_MCS 19
++#endif
++#ifndef IEEE80211_RADIOTAP_VHT
++#define IEEE80211_RADIOTAP_VHT 21
++#endif
++
++#ifndef IEEE80211_RADIOTAP_F_BADFCS
++#define IEEE80211_RADIOTAP_F_BADFCS 0x40 /* bad FCS */
++#endif
++
++	sint ret = _SUCCESS;
++	_adapter			*adapter = precvframe->u.hdr.adapter;
++	struct mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++	struct rx_pkt_attrib *pattrib = &precvframe->u.hdr.attrib;
++
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	u16 tmp_16bit = 0;
++
++	u8 data_rate[] = {
++		2, 4, 11, 22, /* CCK */
++		12, 18, 24, 36, 48, 72, 93, 108, /* OFDM */
++		0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, /* HT MCS index */
++		16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31,
++		0, 1, 2, 3, 4, 5, 6, 7, 8, 9, /* VHT Nss 1 */
++		0, 1, 2, 3, 4, 5, 6, 7, 8, 9, /* VHT Nss 2 */
++		0, 1, 2, 3, 4, 5, 6, 7, 8, 9, /* VHT Nss 3 */
++		0, 1, 2, 3, 4, 5, 6, 7, 8, 9, /* VHT Nss 4 */
++	};
++
++	_pkt *pskb = NULL;
++
++	struct ieee80211_radiotap_header *rtap_hdr = NULL;
++	u8 *ptr = NULL;
++
++	u8 hdr_buf[64] = {0};
++	u16 rt_len = 8;
++
++	/* create header */
++	rtap_hdr = (struct ieee80211_radiotap_header *)&hdr_buf[0];
++	rtap_hdr->it_version = PKTHDR_RADIOTAP_VERSION;
++
++	/* tsft */
++	if (pattrib->tsfl) {
++		u64 tmp_64bit;
++
++		rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_TSFT);
++		tmp_64bit = cpu_to_le64(pattrib->tsfl);
++		memcpy(&hdr_buf[rt_len], &tmp_64bit, 8);
++		rt_len += 8;
++	}
++
++	/* flags */
++	rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_FLAGS);
++	if (0)
++		hdr_buf[rt_len] |= IEEE80211_RADIOTAP_F_CFP;
++
++	if (0)
++		hdr_buf[rt_len] |= IEEE80211_RADIOTAP_F_SHORTPRE;
++
++	if ((pattrib->encrypt == 1) || (pattrib->encrypt == 5))
++		hdr_buf[rt_len] |= IEEE80211_RADIOTAP_F_WEP;
++
++	if (pattrib->mfrag)
++		hdr_buf[rt_len] |= IEEE80211_RADIOTAP_F_FRAG;
++
++	/* always append FCS */
++	hdr_buf[rt_len] |= IEEE80211_RADIOTAP_F_FCS;
++
++
++	if (0)
++		hdr_buf[rt_len] |= IEEE80211_RADIOTAP_F_DATAPAD;
++
++	if (pattrib->crc_err)
++		hdr_buf[rt_len] |= IEEE80211_RADIOTAP_F_BADFCS;
++
++	if (pattrib->sgi) {
++		/* Currently unspecified but used */
++		hdr_buf[rt_len] |= 0x80;
++	}
++	rt_len += 1;
++
++	/* rate */
++	if (pattrib->data_rate < 12) {
++		rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_RATE);
++		if (pattrib->data_rate < 4) {
++			/* CCK */
++			hdr_buf[rt_len] = data_rate[pattrib->data_rate];
++		} else {
++			/* OFDM */
++			hdr_buf[rt_len] = data_rate[pattrib->data_rate];
++		}
++	}
++	rt_len += 1; /* force padding 1 byte for aligned */
++
++	/* channel */
++	tmp_16bit = 0;
++	rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_CHANNEL);
++	tmp_16bit = CHAN2FREQ(rtw_get_oper_ch(padapter));
++	/*tmp_16bit = CHAN2FREQ(pHalData->CurrentChannel);*/
++	memcpy(&hdr_buf[rt_len], &tmp_16bit, 2);
++	rt_len += 2;
++
++	/* channel flags */
++	tmp_16bit = 0;
++	if (pHalData->CurrentBandType == 0)
++		tmp_16bit |= cpu_to_le16(IEEE80211_CHAN_2GHZ);
++	else
++		tmp_16bit |= cpu_to_le16(IEEE80211_CHAN_5GHZ);
++
++	if (pattrib->data_rate < 12) {
++		if (pattrib->data_rate < 4) {
++			/* CCK */
++			tmp_16bit |= cpu_to_le16(IEEE80211_CHAN_CCK);
++		} else {
++			/* OFDM */
++			tmp_16bit |= cpu_to_le16(IEEE80211_CHAN_OFDM);
++		}
++	} else
++		tmp_16bit |= cpu_to_le16(IEEE80211_CHAN_DYN);
++	memcpy(&hdr_buf[rt_len], &tmp_16bit, 2);
++	rt_len += 2;
++
++	/* dBm Antenna Signal */
++	rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_DBM_ANTSIGNAL);
++	hdr_buf[rt_len] = pattrib->phy_info.RecvSignalPower;
++	rt_len += 1;
++
++#if 0
++	/* dBm Antenna Noise */
++	rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_DBM_ANTNOISE);
++	hdr_buf[rt_len] = 0;
++	rt_len += 1;
++
++	/* Signal Quality */
++	rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_LOCK_QUALITY);
++	hdr_buf[rt_len] = pattrib->phy_info.SignalQuality;
++	rt_len += 1;
++#endif
++
++	/* Antenna */
++	rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_ANTENNA);
++	hdr_buf[rt_len] = 0; /* pHalData->rf_type; */
++	rt_len += 1;
++
++	/* RX flags */
++	rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_RX_FLAGS);
++#if 0
++	tmp_16bit = cpu_to_le16(0);
++	memcpy(ptr, &tmp_16bit, 1);
++#endif
++	rt_len += 2;
++
++	/* MCS information */
++	if (pattrib->data_rate >= 12 && pattrib->data_rate < 44) {
++		rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_MCS);
++		/* known, flag */
++		hdr_buf[rt_len] |= BIT1; /* MCS index known */
++
++		/* bandwidth */
++		hdr_buf[rt_len] |= BIT0;
++		hdr_buf[rt_len + 1] |= (pattrib->bw & 0x03);
++
++		/* guard interval */
++		hdr_buf[rt_len] |= BIT2;
++		hdr_buf[rt_len + 1] |= (pattrib->sgi & 0x01) << 2;
++
++		/* STBC */
++		hdr_buf[rt_len] |= BIT5;
++		hdr_buf[rt_len + 1] |= (pattrib->stbc & 0x03) << 5;
++
++		rt_len += 2;
++
++		/* MCS rate index */
++		hdr_buf[rt_len] = data_rate[pattrib->data_rate];
++		rt_len += 1;
++	}
++
++	/* VHT */
++	if (pattrib->data_rate >= 44 && pattrib->data_rate < 84) {
++		rtap_hdr->it_present |= (1 << IEEE80211_RADIOTAP_VHT);
++
++		/* known 16 bit, flag 8 bit */
++		tmp_16bit = 0;
++
++		/* Bandwidth */
++		tmp_16bit |= BIT6;
++
++		/* Group ID */
++		tmp_16bit |= BIT7;
++
++		/* Partial AID */
++		tmp_16bit |= BIT8;
++
++		/* STBC */
++		tmp_16bit |= BIT0;
++		hdr_buf[rt_len + 2] |= (pattrib->stbc & 0x01);
++
++		/* Guard interval */
++		tmp_16bit |= BIT2;
++		hdr_buf[rt_len + 2] |= (pattrib->sgi & 0x01) << 2;
++
++		/* LDPC extra OFDM symbol */
++		tmp_16bit |= BIT4;
++		hdr_buf[rt_len + 2] |= (pattrib->ldpc & 0x01) << 4;
++
++		memcpy(&hdr_buf[rt_len], &tmp_16bit, 2);
++		rt_len += 3;
++
++		/* bandwidth */
++		if (pattrib->bw == 0)
++			hdr_buf[rt_len] |= 0;
++		else if (pattrib->bw == 1)
++			hdr_buf[rt_len] |= 1;
++		else if (pattrib->bw == 2)
++			hdr_buf[rt_len] |= 4;
++		else if (pattrib->bw == 3)
++			hdr_buf[rt_len] |= 11;
++		rt_len += 1;
++
++		/* mcs_nss */
++		if (pattrib->data_rate >= 44 && pattrib->data_rate < 54) {
++			hdr_buf[rt_len] |= 1;
++			hdr_buf[rt_len] |= data_rate[pattrib->data_rate] << 4;
++		} else if (pattrib->data_rate >= 54 && pattrib->data_rate < 64) {
++			hdr_buf[rt_len + 1] |= 2;
++			hdr_buf[rt_len + 1] |= data_rate[pattrib->data_rate] << 4;
++		} else if (pattrib->data_rate >= 64 && pattrib->data_rate < 74) {
++			hdr_buf[rt_len + 2] |= 3;
++			hdr_buf[rt_len + 2] |= data_rate[pattrib->data_rate] << 4;
++		} else if (pattrib->data_rate >= 74 && pattrib->data_rate < 84) {
++			hdr_buf[rt_len + 3] |= 4;
++			hdr_buf[rt_len + 3] |= data_rate[pattrib->data_rate] << 4;
++		}
++		rt_len += 4;
++
++		/* coding */
++		hdr_buf[rt_len] = 0;
++		rt_len += 1;
++
++		/* group_id */
++		hdr_buf[rt_len] = 0;
++		rt_len += 1;
++
++		/* partial_aid */
++		tmp_16bit = 0;
++		memcpy(&hdr_buf[rt_len], &tmp_16bit, 2);
++		rt_len += 2;
++	}
++
++	/* push to skb */
++	pskb = (_pkt *)buf;
++	if (skb_headroom(pskb) < rt_len) {
++		RTW_INFO("%s:%d %s headroom is too small.\n", __FILE__, __LINE__, __func__);
++		ret = _FAIL;
++		return ret;
++	}
++
++	ptr = skb_push(pskb, rt_len);
++	if (ptr) {
++		rtap_hdr->it_len = cpu_to_le16(rt_len);
++		memcpy(ptr, rtap_hdr, rt_len);
++	} else
++		ret = _FAIL;
++
++	return ret;
++
++}
++
++int recv_frame_monitor(_adapter *padapter, union recv_frame *rframe)
++{
++	int ret = _SUCCESS;
++	struct rx_pkt_attrib *pattrib = &rframe->u.hdr.attrib;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	_queue *pfree_recv_queue = &padapter->recvpriv.free_recv_queue;
++	_pkt *pskb = NULL;
++
++	/* read skb information from recv frame */
++	pskb = rframe->u.hdr.pkt;
++	pskb->len = rframe->u.hdr.len;
++	pskb->data = rframe->u.hdr.rx_data;
++	skb_set_tail_pointer(pskb, rframe->u.hdr.len);
++
++	/* fill radiotap header */
++	if (fill_radiotap_hdr(padapter, rframe, (u8 *)pskb) == _FAIL) {
++		ret = _FAIL;
++		rtw_free_recvframe(rframe, pfree_recv_queue); /* free this recv_frame */
++		goto exit;
++	}
++
++	/* write skb information to recv frame */
++	skb_reset_mac_header(pskb);
++	rframe->u.hdr.len = pskb->len;
++	rframe->u.hdr.rx_data = pskb->data;
++	rframe->u.hdr.rx_head = pskb->head;
++	rframe->u.hdr.rx_tail = skb_tail_pointer(pskb);
++	rframe->u.hdr.rx_end = skb_end_pointer(pskb);
++
++	if (!RTW_CANNOT_RUN(padapter)) {
++		/* indicate this recv_frame */
++		ret = rtw_recv_monitor(padapter, rframe);
++		if (ret != _SUCCESS) {
++			ret = _FAIL;
++			rtw_free_recvframe(rframe, pfree_recv_queue); /* free this recv_frame */
++			goto exit;
++		}
++	} else {
++		ret = _FAIL;
++		rtw_free_recvframe(rframe, pfree_recv_queue); /* free this recv_frame */
++		goto exit;
++	}
++
++exit:
++	return ret;
++}
++
++int recv_func_prehandle(_adapter *padapter, union recv_frame *rframe)
++{
++	int ret = _SUCCESS;
++	struct rx_pkt_attrib *pattrib = &rframe->u.hdr.attrib;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	_queue *pfree_recv_queue = &padapter->recvpriv.free_recv_queue;
++
++#ifdef DBG_RX_COUNTER_DUMP
++	if (padapter->dump_rx_cnt_mode & DUMP_DRV_RX_COUNTER) {
++		if (pattrib->crc_err == 1)
++			padapter->drv_rx_cnt_crcerror++;
++		else
++			padapter->drv_rx_cnt_ok++;
++	}
++#endif
++
++#ifdef CONFIG_MP_INCLUDED
++	if (padapter->registrypriv.mp_mode == 1 || padapter->mppriv.bRTWSmbCfg == _TRUE) {
++		mp_recv_frame(padapter, rframe);
++		ret = _FAIL;
++		goto exit;
++	} else
++#endif
++	{
++		/* check the frame crtl field and decache */
++		ret = validate_recv_frame(padapter, rframe);
++		if (ret != _SUCCESS) {
++			rtw_free_recvframe(rframe, pfree_recv_queue);/* free this recv_frame */
++			goto exit;
++		}
++	}
++exit:
++	return ret;
++}
++
++/*#define DBG_RX_BMC_FRAME*/
++int recv_func_posthandle(_adapter *padapter, union recv_frame *prframe)
++{
++	int ret = _SUCCESS;
++	union recv_frame *orig_prframe = prframe;
++	struct rx_pkt_attrib *pattrib = &prframe->u.hdr.attrib;
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	_queue *pfree_recv_queue = &padapter->recvpriv.free_recv_queue;
++#ifdef CONFIG_TDLS
++	u8 *psnap_type, *pcategory;
++#endif /* CONFIG_TDLS */
++
++	DBG_COUNTER(padapter->rx_logs.core_rx_post);
++
++	/* DATA FRAME */
++	rtw_led_control(padapter, LED_CTL_RX);
++
++	prframe = decryptor(padapter, prframe);
++	if (prframe == NULL) {
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s decryptor: drop pkt\n", __FUNCTION__);
++#endif
++		ret = _FAIL;
++		DBG_COUNTER(padapter->rx_logs.core_rx_post_decrypt_err);
++		goto _recv_data_drop;
++	}
++
++#ifdef DBG_RX_BMC_FRAME
++	if (IS_MCAST(pattrib->ra)) {
++		u8 *pbuf = prframe->u.hdr.rx_data;
++		u8 *sa_addr = get_sa(pbuf);
++
++		RTW_INFO("%s =>"ADPT_FMT" Rx BC/MC from MAC: "MAC_FMT"\n", __func__, ADPT_ARG(padapter), MAC_ARG(sa_addr));
++	}
++#endif
++
++#if 0
++	if (padapter->adapter_type == PRIMARY_ADAPTER) {
++		RTW_INFO("+++\n");
++		{
++			int i;
++			u8	*ptr = get_recvframe_data(prframe);
++			for (i = 0; i < 140; i = i + 8)
++				RTW_INFO("%02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X:", *(ptr + i),
++					*(ptr + i + 1), *(ptr + i + 2) , *(ptr + i + 3) , *(ptr + i + 4), *(ptr + i + 5), *(ptr + i + 6), *(ptr + i + 7));
++
++		}
++		RTW_INFO("---\n");
++	}
++#endif
++
++#ifdef CONFIG_TDLS
++	/* check TDLS frame */
++	psnap_type = get_recvframe_data(orig_prframe) + pattrib->hdrlen + pattrib->iv_len + SNAP_SIZE;
++	pcategory = psnap_type + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN;
++
++	if ((_rtw_memcmp(psnap_type, SNAP_ETH_TYPE_TDLS, ETH_TYPE_LEN)) &&
++	    ((*pcategory == RTW_WLAN_CATEGORY_TDLS) || (*pcategory == RTW_WLAN_CATEGORY_P2P))) {
++		ret = OnTDLS(padapter, prframe);
++		if (ret == _FAIL)
++			goto _exit_recv_func;
++	}
++#endif /* CONFIG_TDLS */
++
++	prframe = recvframe_chk_defrag(padapter, prframe);
++	if (prframe == NULL)	{
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s recvframe_chk_defrag: drop pkt\n", __FUNCTION__);
++#endif
++		DBG_COUNTER(padapter->rx_logs.core_rx_post_defrag_err);
++		goto _recv_data_drop;
++	}
++
++	prframe = portctrl(padapter, prframe);
++	if (prframe == NULL) {
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s portctrl: drop pkt\n", __FUNCTION__);
++#endif
++		ret = _FAIL;
++		DBG_COUNTER(padapter->rx_logs.core_rx_post_portctrl_err);
++		goto _recv_data_drop;
++	}
++
++	count_rx_stats(padapter, prframe, NULL);
++
++#ifdef CONFIG_WAPI_SUPPORT
++	rtw_wapi_update_info(padapter, prframe);
++#endif
++
++#ifdef CONFIG_80211N_HT
++	ret = process_recv_indicatepkts(padapter, prframe);
++	if (ret != _SUCCESS) {
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s process_recv_indicatepkts fail!\n", __FUNCTION__);
++#endif
++		rtw_free_recvframe(orig_prframe, pfree_recv_queue);/* free this recv_frame */
++		DBG_COUNTER(padapter->rx_logs.core_rx_post_indicate_err);
++		goto _recv_data_drop;
++	}
++#else /* CONFIG_80211N_HT */
++	if (!pattrib->amsdu) {
++		ret = wlanhdr_to_ethhdr(prframe);
++		if (ret != _SUCCESS) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s wlanhdr_to_ethhdr: drop pkt\n", __FUNCTION__);
++#endif
++			rtw_free_recvframe(orig_prframe, pfree_recv_queue);/* free this recv_frame */
++			goto _recv_data_drop;
++		}
++
++		if (!RTW_CANNOT_RUN(padapter)) {
++			/* indicate this recv_frame */
++			ret = rtw_recv_indicatepkt(padapter, prframe);
++			if (ret != _SUCCESS) {
++#ifdef DBG_RX_DROP_FRAME
++				RTW_INFO("DBG_RX_DROP_FRAME %s rtw_recv_indicatepkt fail!\n", __FUNCTION__);
++#endif
++				goto _recv_data_drop;
++			}
++		} else {
++
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s recv_func:bDriverStopped(%s) OR bSurpriseRemoved(%s)\n", __func__
++				, rtw_is_drv_stopped(padapter) ? "True" : "False"
++				, rtw_is_surprise_removed(padapter) ? "True" : "False");
++#endif
++			ret = _FAIL;
++			rtw_free_recvframe(orig_prframe, pfree_recv_queue); /* free this recv_frame */
++		}
++
++	} else if (pattrib->amsdu == 1) {
++
++		ret = amsdu_to_msdu(padapter, prframe);
++		if (ret != _SUCCESS) {
++#ifdef DBG_RX_DROP_FRAME
++			RTW_INFO("DBG_RX_DROP_FRAME %s amsdu_to_msdu fail\n", __FUNCTION__);
++#endif
++			rtw_free_recvframe(orig_prframe, pfree_recv_queue);
++			goto _recv_data_drop;
++		}
++	} else {
++#ifdef DBG_RX_DROP_FRAME
++		RTW_INFO("DBG_RX_DROP_FRAME %s what is this condition??\n", __FUNCTION__);
++#endif
++		goto _recv_data_drop;
++	}
++#endif /* CONFIG_80211N_HT */
++
++_exit_recv_func:
++	return ret;
++
++_recv_data_drop:
++	precvpriv->rx_drop++;
++	return ret;
++}
++
++
++int recv_func(_adapter *padapter, union recv_frame *rframe);
++int recv_func(_adapter *padapter, union recv_frame *rframe)
++{
++	int ret;
++	struct rx_pkt_attrib *prxattrib = &rframe->u.hdr.attrib;
++	struct recv_priv *recvpriv = &padapter->recvpriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_priv *mlmepriv = &padapter->mlmepriv;
++
++	if (check_fwstate(mlmepriv, WIFI_MONITOR_STATE)) {
++		/* monitor mode */
++		recv_frame_monitor(padapter, rframe);
++		ret = _SUCCESS;
++		goto exit;
++	} else
++
++		/* check if need to handle uc_swdec_pending_queue*/
++		if (check_fwstate(mlmepriv, WIFI_STATION_STATE) && psecuritypriv->busetkipkey) {
++			union recv_frame *pending_frame;
++			int cnt = 0;
++
++			while ((pending_frame = rtw_alloc_recvframe(&padapter->recvpriv.uc_swdec_pending_queue))) {
++				cnt++;
++				DBG_COUNTER(padapter->rx_logs.core_rx_dequeue);
++				recv_func_posthandle(padapter, pending_frame);
++			}
++
++			if (cnt)
++				RTW_INFO(FUNC_ADPT_FMT" dequeue %d from uc_swdec_pending_queue\n",
++					 FUNC_ADPT_ARG(padapter), cnt);
++		}
++
++	DBG_COUNTER(padapter->rx_logs.core_rx);
++	ret = recv_func_prehandle(padapter, rframe);
++
++	if (ret == _SUCCESS) {
++
++		/* check if need to enqueue into uc_swdec_pending_queue*/
++		if (check_fwstate(mlmepriv, WIFI_STATION_STATE) &&
++		    !IS_MCAST(prxattrib->ra) && prxattrib->encrypt > 0 &&
++		    (prxattrib->bdecrypted == 0 || psecuritypriv->sw_decrypt == _TRUE) &&
++		    psecuritypriv->ndisauthtype == Ndis802_11AuthModeWPAPSK &&
++		    !psecuritypriv->busetkipkey) {
++			DBG_COUNTER(padapter->rx_logs.core_rx_enqueue);
++			rtw_enqueue_recvframe(rframe, &padapter->recvpriv.uc_swdec_pending_queue);
++			/* RTW_INFO("%s: no key, enqueue uc_swdec_pending_queue\n", __func__); */
++
++			if (recvpriv->free_recvframe_cnt < NR_RECVFRAME / 4) {
++				/* to prevent from recvframe starvation, get recvframe from uc_swdec_pending_queue to free_recvframe_cnt */
++				rframe = rtw_alloc_recvframe(&padapter->recvpriv.uc_swdec_pending_queue);
++				if (rframe)
++					goto do_posthandle;
++			}
++			goto exit;
++		}
++
++do_posthandle:
++		ret = recv_func_posthandle(padapter, rframe);
++	}
++
++exit:
++	return ret;
++}
++
++
++s32 rtw_recv_entry(union recv_frame *precvframe)
++{
++	_adapter *padapter;
++	struct recv_priv *precvpriv;
++	s32 ret = _SUCCESS;
++
++
++
++	padapter = precvframe->u.hdr.adapter;
++
++	precvpriv = &padapter->recvpriv;
++
++
++	ret = recv_func(padapter, precvframe);
++	if (ret == _FAIL) {
++		goto _recv_entry_drop;
++	}
++
++
++	precvpriv->rx_pkts++;
++
++
++	return ret;
++
++_recv_entry_drop:
++
++#ifdef CONFIG_MP_INCLUDED
++	if (padapter->registrypriv.mp_mode == 1)
++		padapter->mppriv.rx_pktloss = precvpriv->rx_drop;
++#endif
++
++
++
++	return ret;
++}
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++void rtw_signal_stat_timer_hdl(RTW_TIMER_HDL_ARGS)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	struct recv_priv *recvpriv = &adapter->recvpriv;
++
++	u32 tmp_s, tmp_q;
++	u8 avg_signal_strength = 0;
++	u8 avg_signal_qual = 0;
++	u32 num_signal_strength = 0;
++	u32 num_signal_qual = 0;
++	u8 ratio_pre_stat = 0, ratio_curr_stat = 0, ratio_total = 0, ratio_profile = SIGNAL_STAT_CALC_PROFILE_0;
++
++	if (adapter->recvpriv.is_signal_dbg) {
++		/* update the user specific value, signal_strength_dbg, to signal_strength, rssi */
++		adapter->recvpriv.signal_strength = adapter->recvpriv.signal_strength_dbg;
++		adapter->recvpriv.rssi = (s8)translate_percentage_to_dbm((u8)adapter->recvpriv.signal_strength_dbg);
++	} else {
++
++		if (recvpriv->signal_strength_data.update_req == 0) { /* update_req is clear, means we got rx */
++			avg_signal_strength = recvpriv->signal_strength_data.avg_val;
++			num_signal_strength = recvpriv->signal_strength_data.total_num;
++			/* after avg_vals are accquired, we can re-stat the signal values */
++			recvpriv->signal_strength_data.update_req = 1;
++		}
++
++		if (recvpriv->signal_qual_data.update_req == 0) { /* update_req is clear, means we got rx */
++			avg_signal_qual = recvpriv->signal_qual_data.avg_val;
++			num_signal_qual = recvpriv->signal_qual_data.total_num;
++			/* after avg_vals are accquired, we can re-stat the signal values */
++			recvpriv->signal_qual_data.update_req = 1;
++		}
++
++		if (num_signal_strength == 0) {
++			if (rtw_get_on_cur_ch_time(adapter) == 0
++			    || rtw_get_passing_time_ms(rtw_get_on_cur_ch_time(adapter)) < 2 * adapter->mlmeextpriv.mlmext_info.bcn_interval
++			   )
++				goto set_timer;
++		}
++
++		if (check_fwstate(&adapter->mlmepriv, _FW_UNDER_SURVEY) == _TRUE
++		    || check_fwstate(&adapter->mlmepriv, _FW_LINKED) == _FALSE
++		   )
++			goto set_timer;
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_buddy_check_fwstate(adapter, _FW_UNDER_SURVEY) == _TRUE)
++			goto set_timer;
++#endif
++
++		if (RTW_SIGNAL_STATE_CALC_PROFILE < SIGNAL_STAT_CALC_PROFILE_MAX)
++			ratio_profile = RTW_SIGNAL_STATE_CALC_PROFILE;
++
++		ratio_pre_stat = signal_stat_calc_profile[ratio_profile][0];
++		ratio_curr_stat = signal_stat_calc_profile[ratio_profile][1];
++		ratio_total = ratio_pre_stat + ratio_curr_stat;
++
++		/* update value of signal_strength, rssi, signal_qual */
++		tmp_s = (ratio_curr_stat * avg_signal_strength + ratio_pre_stat * recvpriv->signal_strength);
++		if (tmp_s % ratio_total)
++			tmp_s = tmp_s / ratio_total + 1;
++		else
++			tmp_s = tmp_s / ratio_total;
++		if (tmp_s > 100)
++			tmp_s = 100;
++
++		tmp_q = (ratio_curr_stat * avg_signal_qual + ratio_pre_stat * recvpriv->signal_qual);
++		if (tmp_q % ratio_total)
++			tmp_q = tmp_q / ratio_total + 1;
++		else
++			tmp_q = tmp_q / ratio_total;
++		if (tmp_q > 100)
++			tmp_q = 100;
++
++		recvpriv->signal_strength = tmp_s;
++		recvpriv->rssi = (s8)translate_percentage_to_dbm(tmp_s);
++		recvpriv->signal_qual = tmp_q;
++
++#if defined(DBG_RX_SIGNAL_DISPLAY_PROCESSING) && 1
++		RTW_INFO(FUNC_ADPT_FMT" signal_strength:%3u, rssi:%3d, signal_qual:%3u"
++			 ", num_signal_strength:%u, num_signal_qual:%u"
++			 ", on_cur_ch_ms:%d"
++			 "\n"
++			 , FUNC_ADPT_ARG(adapter)
++			 , recvpriv->signal_strength
++			 , recvpriv->rssi
++			 , recvpriv->signal_qual
++			 , num_signal_strength, num_signal_qual
++			, rtw_get_on_cur_ch_time(adapter) ? rtw_get_passing_time_ms(rtw_get_on_cur_ch_time(adapter)) : 0
++			);
++#endif
++	}
++
++set_timer:
++	rtw_set_signal_stat_timer(recvpriv);
++
++}
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++
++static void rx_process_rssi(_adapter *padapter, union recv_frame *prframe)
++{
++	u32	last_rssi, tmp_val;
++	struct rx_pkt_attrib *pattrib = &prframe->u.hdr.attrib;
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	struct signal_stat *signal_stat = &padapter->recvpriv.signal_strength_data;
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++
++	/* RTW_INFO("process_rssi=> pattrib->rssil(%d) signal_strength(%d)\n ",pattrib->RecvSignalPower,pattrib->signal_strength); */
++	/* if(pRfd->Status.bPacketToSelf || pRfd->Status.bPacketBeacon) */
++	{
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++		if (signal_stat->update_req) {
++			signal_stat->total_num = 0;
++			signal_stat->total_val = 0;
++			signal_stat->update_req = 0;
++		}
++
++		signal_stat->total_num++;
++		signal_stat->total_val  += pattrib->phy_info.SignalStrength;
++		signal_stat->avg_val = signal_stat->total_val / signal_stat->total_num;
++#else /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++
++		/* Adapter->RxStats.RssiCalculateCnt++;	 */ /* For antenna Test */
++		if (padapter->recvpriv.signal_strength_data.total_num++ >= PHY_RSSI_SLID_WIN_MAX) {
++			padapter->recvpriv.signal_strength_data.total_num = PHY_RSSI_SLID_WIN_MAX;
++			last_rssi = padapter->recvpriv.signal_strength_data.elements[padapter->recvpriv.signal_strength_data.index];
++			padapter->recvpriv.signal_strength_data.total_val -= last_rssi;
++		}
++		padapter->recvpriv.signal_strength_data.total_val  += pattrib->phy_info.SignalStrength;
++
++		padapter->recvpriv.signal_strength_data.elements[padapter->recvpriv.signal_strength_data.index++] = pattrib->phy_info.SignalStrength;
++		if (padapter->recvpriv.signal_strength_data.index >= PHY_RSSI_SLID_WIN_MAX)
++			padapter->recvpriv.signal_strength_data.index = 0;
++
++
++		tmp_val = padapter->recvpriv.signal_strength_data.total_val / padapter->recvpriv.signal_strength_data.total_num;
++
++		if (padapter->recvpriv.is_signal_dbg) {
++			padapter->recvpriv.signal_strength = padapter->recvpriv.signal_strength_dbg;
++			padapter->recvpriv.rssi = (s8)translate_percentage_to_dbm(padapter->recvpriv.signal_strength_dbg);
++		} else {
++			padapter->recvpriv.signal_strength = tmp_val;
++			padapter->recvpriv.rssi = (s8)translate_percentage_to_dbm(tmp_val);
++		}
++
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++	}
++}
++
++static void rx_process_link_qual(_adapter *padapter, union recv_frame *prframe)
++{
++	u32	last_evm = 0, tmpVal;
++	struct rx_pkt_attrib *pattrib;
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	struct signal_stat *signal_stat;
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++
++	if (prframe == NULL || padapter == NULL)
++		return;
++
++	pattrib = &prframe->u.hdr.attrib;
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	signal_stat = &padapter->recvpriv.signal_qual_data;
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++
++	/* RTW_INFO("process_link_qual=> pattrib->signal_qual(%d)\n ",pattrib->signal_qual); */
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	if (signal_stat->update_req) {
++		signal_stat->total_num = 0;
++		signal_stat->total_val = 0;
++		signal_stat->update_req = 0;
++	}
++
++	signal_stat->total_num++;
++	signal_stat->total_val  += pattrib->phy_info.SignalQuality;
++	signal_stat->avg_val = signal_stat->total_val / signal_stat->total_num;
++
++#else /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++	if (pattrib->phy_info.SignalQuality != 0) {
++		/*  */
++		/* 1. Record the general EVM to the sliding window. */
++		/*  */
++		if (padapter->recvpriv.signal_qual_data.total_num++ >= PHY_LINKQUALITY_SLID_WIN_MAX) {
++			padapter->recvpriv.signal_qual_data.total_num = PHY_LINKQUALITY_SLID_WIN_MAX;
++			last_evm = padapter->recvpriv.signal_qual_data.elements[padapter->recvpriv.signal_qual_data.index];
++			padapter->recvpriv.signal_qual_data.total_val -= last_evm;
++		}
++		padapter->recvpriv.signal_qual_data.total_val += pattrib->phy_info.SignalQuality;
++
++		padapter->recvpriv.signal_qual_data.elements[padapter->recvpriv.signal_qual_data.index++] = pattrib->phy_info.SignalQuality;
++		if (padapter->recvpriv.signal_qual_data.index >= PHY_LINKQUALITY_SLID_WIN_MAX)
++			padapter->recvpriv.signal_qual_data.index = 0;
++
++
++		/* <1> Showed on UI for user, in percentage. */
++		tmpVal = padapter->recvpriv.signal_qual_data.total_val / padapter->recvpriv.signal_qual_data.total_num;
++		padapter->recvpriv.signal_qual = (u8)tmpVal;
++
++	}
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++}
++
++void rx_process_phy_info(_adapter *padapter, union recv_frame *rframe)
++{
++	/* Check RSSI */
++	rx_process_rssi(padapter, rframe);
++
++	/* Check PWDB */
++	/* process_PWDB(padapter, rframe); */
++
++	/* UpdateRxSignalStatistics8192C(Adapter, pRfd); */
++
++	/* Check EVM */
++	rx_process_link_qual(padapter, rframe);
++	rtw_store_phy_info(padapter, rframe);
++}
++
++void rx_query_phy_status(
++	union recv_frame	*precvframe,
++	u8 *pphy_status)
++{
++	PADAPTER			padapter = precvframe->u.hdr.adapter;
++	struct rx_pkt_attrib	*pattrib = &precvframe->u.hdr.attrib;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(padapter);
++	PODM_PHY_INFO_T	pPHYInfo  = (PODM_PHY_INFO_T)(&pattrib->phy_info);
++	u8					*wlanhdr;
++	ODM_PACKET_INFO_T	pkt_info;
++	u8 *sa;
++	struct sta_priv *pstapriv;
++	struct sta_info *psta = NULL;
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	/* _irqL		irqL; */
++
++	pkt_info.bPacketMatchBSSID = _FALSE;
++	pkt_info.bPacketToSelf = _FALSE;
++	pkt_info.bPacketBeacon = _FALSE;
++
++	wlanhdr = get_recvframe_data(precvframe);
++
++	pkt_info.bPacketMatchBSSID = (!IsFrameTypeCtrl(wlanhdr))
++			     && (!pattrib->icv_err) && (!pattrib->crc_err)
++		&& _rtw_memcmp(get_hdr_bssid(wlanhdr), get_bssid(&padapter->mlmepriv), ETH_ALEN);
++
++	pkt_info.bToSelf = (!pattrib->icv_err) && (!pattrib->crc_err)
++		&& _rtw_memcmp(get_ra(wlanhdr), adapter_mac_addr(padapter), ETH_ALEN);
++
++	pkt_info.bPacketToSelf = pkt_info.bPacketMatchBSSID
++		&& _rtw_memcmp(get_ra(wlanhdr), adapter_mac_addr(padapter), ETH_ALEN);
++
++	pkt_info.bPacketBeacon = pkt_info.bPacketMatchBSSID
++				 && (GetFrameSubType(wlanhdr) == WIFI_BEACON);
++
++	sa = get_ta(wlanhdr);
++
++	pkt_info.StationID = 0xFF;
++
++	if (_rtw_memcmp(adapter_mac_addr(padapter), sa, ETH_ALEN) == _TRUE) {
++		static u32 start_time = 0;
++
++#if 0 /*For debug */
++		if (IsFrameTypeCtrl(wlanhdr)) {
++			RTW_INFO("-->Control frame: Y\n");
++			RTW_INFO("-->pkt_len: %d\n", pattrib->pkt_len);
++			RTW_INFO("-->Sub Type = 0x%X\n", GetFrameSubType(wlanhdr));
++		}
++
++		/* Dump first 40 bytes of header */
++		int i = 0;
++
++		for (i = 0; i < 40; i++)
++			RTW_INFO("%d: %X\n", i, *((u8 *)wlanhdr + i));
++
++		RTW_INFO("\n");
++#endif
++
++		if ((start_time == 0) || (rtw_get_passing_time_ms(start_time) > 5000)) {
++			RTW_PRINT("Warning!!! %s: Confilc mac addr!!\n", __func__);
++			start_time = rtw_get_current_time();
++		}
++		pdbgpriv->dbg_rx_conflic_mac_addr_cnt++;
++	} else {
++		pstapriv = &padapter->stapriv;
++		psta = rtw_get_stainfo(pstapriv, sa);
++		if (psta)
++			pkt_info.StationID = psta->mac_id;
++	}
++
++	pkt_info.DataRate = pattrib->data_rate;
++
++	/* _enter_critical_bh(&pHalData->odm_stainfo_lock, &irqL); */
++	ODM_PhyStatusQuery(&pHalData->odmpriv, pPHYInfo, pphy_status, &pkt_info);
++	if (psta)
++		psta->rssi = pattrib->phy_info.RecvSignalPower;
++	/* _exit_critical_bh(&pHalData->odm_stainfo_lock, &irqL); */
++
++	{
++		precvframe->u.hdr.psta = NULL;
++		if (pkt_info.bPacketMatchBSSID
++		    && (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE)
++		   ) {
++			if (psta) {
++				precvframe->u.hdr.psta = psta;
++				rx_process_phy_info(padapter, precvframe);
++			}
++		} else if (pkt_info.bPacketToSelf || pkt_info.bPacketBeacon) {
++
++			if (psta)
++				precvframe->u.hdr.psta = psta;
++			rx_process_phy_info(padapter, precvframe);
++		}
++	}
++}
++/*
++* Increase and check if the continual_no_rx_packet of this @param pmlmepriv is larger than MAX_CONTINUAL_NORXPACKET_COUNT
++* @return _TRUE:
++* @return _FALSE:
++*/
++int rtw_inc_and_chk_continual_no_rx_packet(struct sta_info *sta, int tid_index)
++{
++
++	int ret = _FALSE;
++	int value = ATOMIC_INC_RETURN(&sta->continual_no_rx_packet[tid_index]);
++
++	if (value >= MAX_CONTINUAL_NORXPACKET_COUNT)
++		ret = _TRUE;
++
++	return ret;
++}
++
++/*
++* Set the continual_no_rx_packet of this @param pmlmepriv to 0
++*/
++void rtw_reset_continual_no_rx_packet(struct sta_info *sta, int tid_index)
++{
++	ATOMIC_SET(&sta->continual_no_rx_packet[tid_index], 0);
++}
++
++
++s32 pre_recv_entry(union recv_frame *precvframe, u8 *pphy_status)
++{
++	s32 ret = _SUCCESS;
++#ifdef CONFIG_CONCURRENT_MODE
++	u8 *pda;
++	u8 *pbuf = precvframe->u.hdr.rx_data;
++	_adapter *iface = NULL;
++	_adapter *primary_padapter = precvframe->u.hdr.adapter;
++
++	pda = get_ra(pbuf);
++
++	if (IS_MCAST(pda) == _FALSE) { /*unicast packets*/
++		iface = rtw_get_iface_by_macddr(primary_padapter , pda);
++		if (NULL == iface) {
++			RTW_INFO("%s [WARN] Cannot find appropriate adapter - mac_addr : "MAC_FMT"\n", __func__, MAC_ARG(pda));
++			/*rtw_warn_on(1);*/
++		} else
++			precvframe->u.hdr.adapter = iface;
++	} else   /* Handle BC/MC Packets	*/
++		rtw_mi_buddy_clone_bcmc_packet(primary_padapter, precvframe, pphy_status);
++#endif
++
++	return ret;
++}
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_rf.c b/drivers/net/wireless/rtl8812au/core/rtw_rf.c
+new file mode 100644
+index 0000000..b78e5ab
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_rf.c
+@@ -0,0 +1,1106 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_RF_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++u8 center_ch_2g[CENTER_CH_2G_NUM] = {
++/* G00 */1, 2,
++/* G01 */3, 4, 5,
++/* G02 */6, 7, 8,
++/* G03 */9, 10, 11,
++/* G04 */12, 13,
++/* G05 */14
++};
++
++u8 center_ch_2g_40m[CENTER_CH_2G_40M_NUM] = {
++	3,
++	4,
++	5,
++	6,
++	7,
++	8,
++	9,
++	10,
++	11,
++};
++
++u8 op_chs_of_cch_2g_40m[CENTER_CH_2G_40M_NUM][2] = {
++	{1, 5}, /* 3 */
++	{2, 6}, /* 4 */
++	{3, 7}, /* 5 */
++	{4, 8}, /* 6 */
++	{5, 9}, /* 7 */
++	{6, 10}, /* 8 */
++	{7, 11}, /* 9 */
++	{8, 12}, /* 10 */
++	{9, 13}, /* 11 */
++};
++
++u8 center_ch_5g_all[CENTER_CH_5G_ALL_NUM] = {
++/* G00 */36, 38, 40,
++	42,
++/* G01 */44, 46, 48,
++	/* 50, */
++/* G02 */52, 54, 56,
++	58,
++/* G03 */60, 62, 64,
++/* G04 */100, 102, 104,
++	106,
++/* G05 */108, 110, 112,
++	/* 114, */
++/* G06 */116, 118, 120,
++	122,
++/* G07 */124, 126, 128,
++/* G08 */132, 134, 136,
++	138,
++/* G09 */140, 142, 144,
++/* G10 */149, 151, 153,
++	155,
++/* G11 */157, 159, 161,
++	/* 163, */
++/* G12 */165, 167, 169,
++	171,
++/* G13 */173, 175, 177
++};
++
++u8 center_ch_5g_20m[CENTER_CH_5G_20M_NUM] = {
++/* G00 */36, 40,
++/* G01 */44, 48,
++/* G02 */52, 56,
++/* G03 */60, 64,
++/* G04 */100, 104,
++/* G05 */108, 112,
++/* G06 */116, 120,
++/* G07 */124, 128,
++/* G08 */132, 136,
++/* G09 */140, 144,
++/* G10 */149, 153,
++/* G11 */157, 161,
++/* G12 */165, 169,
++/* G13 */173, 177
++};
++
++u8 center_ch_5g_40m[CENTER_CH_5G_40M_NUM] = {
++/* G00 */38,
++/* G01 */46,
++/* G02 */54,
++/* G03 */62,
++/* G04 */102,
++/* G05 */110,
++/* G06 */118,
++/* G07 */126,
++/* G08 */134,
++/* G09 */142,
++/* G10 */151,
++/* G11 */159,
++/* G12 */167,
++/* G13 */175
++};
++
++u8 center_ch_5g_20m_40m[CENTER_CH_5G_20M_NUM + CENTER_CH_5G_40M_NUM] = {
++/* G00 */36, 38, 40,
++/* G01 */44, 46, 48,
++/* G02 */52, 54, 56,
++/* G03 */60, 62, 64,
++/* G04 */100, 102, 104,
++/* G05 */108, 110, 112,
++/* G06 */116, 118, 120,
++/* G07 */124, 126, 128,
++/* G08 */132, 134, 136,
++/* G09 */140, 142, 144,
++/* G10 */149, 151, 153,
++/* G11 */157, 159, 161,
++/* G12 */165, 167, 169,
++/* G13 */173, 175, 177
++};
++
++u8 op_chs_of_cch_5g_40m[CENTER_CH_5G_40M_NUM][2] = {
++	{36, 40}, /* 38 */
++	{44, 48}, /* 46 */
++	{52, 56}, /* 54 */
++	{60, 64}, /* 62 */
++	{100, 104}, /* 102 */
++	{108, 112}, /* 110 */
++	{116, 120}, /* 118 */
++	{124, 128}, /* 126 */
++	{132, 136}, /* 134 */
++	{140, 144}, /* 142 */
++	{149, 153}, /* 151 */
++	{157, 161}, /* 159 */
++	{165, 169}, /* 167 */
++	{173, 177}, /* 175 */
++};
++
++u8 center_ch_5g_80m[CENTER_CH_5G_80M_NUM] = {
++/* G00 ~ G01*/42,
++/* G02 ~ G03*/58,
++/* G04 ~ G05*/106,
++/* G06 ~ G07*/122,
++/* G08 ~ G09*/138,
++/* G10 ~ G11*/155,
++/* G12 ~ G13*/171
++};
++
++u8 op_chs_of_cch_5g_80m[CENTER_CH_5G_80M_NUM][4] = {
++	{36, 40, 44, 48}, /* 42 */
++	{52, 56, 60, 64}, /* 58 */
++	{100, 104, 108, 112}, /* 106 */
++	{116, 120, 124, 128}, /* 122 */
++	{132, 136, 140, 144}, /* 138 */
++	{149, 153, 157, 161}, /* 155 */
++	{165, 169, 173, 177}, /* 171 */
++};
++
++u8 center_ch_5g_160m[CENTER_CH_5G_160M_NUM] = {
++/* G00 ~ G03*/50,
++/* G04 ~ G07*/114,
++/* G10 ~ G13*/163
++};
++
++u8 op_chs_of_cch_5g_160m[CENTER_CH_5G_160M_NUM][8] = {
++	{36, 40, 44, 48, 52, 56, 60, 64}, /* 50 */
++	{100, 104, 108, 112, 116, 120, 124, 128}, /* 114 */
++	{149, 153, 157, 161, 165, 169, 173, 177}, /* 163 */
++};
++
++struct center_chs_ent_t {
++	u8 ch_num;
++	u8 *chs;
++};
++
++struct center_chs_ent_t center_chs_2g_by_bw[] = {
++	{CENTER_CH_2G_NUM, center_ch_2g},
++	{CENTER_CH_2G_40M_NUM, center_ch_2g_40m},
++};
++
++struct center_chs_ent_t center_chs_5g_by_bw[] = {
++	{CENTER_CH_5G_20M_NUM, center_ch_5g_20m},
++	{CENTER_CH_5G_40M_NUM, center_ch_5g_40m},
++	{CENTER_CH_5G_80M_NUM, center_ch_5g_80m},
++	{CENTER_CH_5G_160M_NUM, center_ch_5g_160m},
++};
++
++/*
++ * Get center channel of smaller bandwidth by @param cch, @param bw, @param offset
++ * @cch: the given center channel
++ * @bw: the given bandwidth
++ * @offset: the given primary SC offset of the given bandwidth
++ *
++ * return center channel of smaller bandiwdth if valid, or 0
++ */
++u8 rtw_get_scch_by_cch_offset(u8 cch, u8 bw, u8 offset)
++{
++	int i;
++	u8 t_cch = 0;
++
++	if (bw == CHANNEL_WIDTH_20) {
++		t_cch = cch;
++		goto exit;
++	}
++
++	if (offset == HAL_PRIME_CHNL_OFFSET_DONT_CARE) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	/* 2.4G, 40MHz */
++	if (cch >= 3 && cch <= 11 && bw == CHANNEL_WIDTH_40) {
++		t_cch = (offset == HAL_PRIME_CHNL_OFFSET_UPPER) ? cch + 2 : cch - 2;
++		goto exit;
++	}
++
++	/* 5G, 160MHz */
++	if (cch >= 50 && cch <= 163 && bw == CHANNEL_WIDTH_160) {
++		t_cch = (offset == HAL_PRIME_CHNL_OFFSET_UPPER) ? cch + 8 : cch - 8;
++		goto exit;
++
++	/* 5G, 80MHz */
++	} else if (cch >= 42 && cch <= 171 && bw == CHANNEL_WIDTH_80) {
++		t_cch = (offset == HAL_PRIME_CHNL_OFFSET_UPPER) ? cch + 4 : cch - 4;
++		goto exit;
++
++	/* 5G, 40MHz */
++	} else if (cch >= 38 && cch <= 175 && bw == CHANNEL_WIDTH_40) {
++		t_cch = (offset == HAL_PRIME_CHNL_OFFSET_UPPER) ? cch + 2 : cch - 2;
++		goto exit;
++
++	} else {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++exit:
++	return t_cch;
++}
++
++struct op_chs_ent_t {
++	u8 ch_num;
++	u8 *chs;
++};
++
++struct op_chs_ent_t op_chs_of_cch_2g_by_bw[] = {
++	{1, center_ch_2g},
++	{2, (u8 *)op_chs_of_cch_2g_40m},
++};
++
++struct op_chs_ent_t op_chs_of_cch_5g_by_bw[] = {
++	{1, center_ch_5g_20m},
++	{2, (u8 *)op_chs_of_cch_5g_40m},
++	{4, (u8 *)op_chs_of_cch_5g_80m},
++	{8, (u8 *)op_chs_of_cch_5g_160m},
++};
++
++inline u8 center_chs_2g_num(u8 bw)
++{
++	if (bw > CHANNEL_WIDTH_40)
++		return 0;
++
++	return center_chs_2g_by_bw[bw].ch_num;
++}
++
++inline u8 center_chs_2g(u8 bw, u8 id)
++{
++	if (bw > CHANNEL_WIDTH_40)
++		return 0;
++
++	if (id >= center_chs_2g_num(bw))
++		return 0;
++
++	return center_chs_2g_by_bw[bw].chs[id];
++}
++
++inline u8 center_chs_5g_num(u8 bw)
++{
++	if (bw > CHANNEL_WIDTH_80)
++		return 0;
++
++	return center_chs_5g_by_bw[bw].ch_num;
++}
++
++inline u8 center_chs_5g(u8 bw, u8 id)
++{
++	if (bw > CHANNEL_WIDTH_80)
++		return 0;
++
++	if (id >= center_chs_5g_num(bw))
++		return 0;
++
++	return center_chs_5g_by_bw[bw].chs[id];
++}
++
++/*
++ * Get available op channels by @param cch, @param bw
++ * @cch: the given center channel
++ * @bw: the given bandwidth
++ * @op_chs: the pointer to return pointer of op channel array
++ * @op_ch_num: the pointer to return pointer of op channel number
++ *
++ * return valid (1) or not (0)
++ */
++u8 rtw_get_op_chs_by_cch_bw(u8 cch, u8 bw, u8 **op_chs, u8 *op_ch_num)
++{
++	int i;
++	struct center_chs_ent_t *c_chs_ent = NULL;
++	struct op_chs_ent_t *op_chs_ent = NULL;
++	u8 valid = 1;
++
++	if (cch <= 14
++		&& bw >= CHANNEL_WIDTH_20 && bw <= CHANNEL_WIDTH_40
++	) {
++		c_chs_ent = &center_chs_2g_by_bw[bw];
++		op_chs_ent = &op_chs_of_cch_2g_by_bw[bw];
++	} else if (cch >= 36 && cch <= 177
++		&& bw >= CHANNEL_WIDTH_20 && bw <= CHANNEL_WIDTH_160
++	) {
++		c_chs_ent = &center_chs_5g_by_bw[bw];
++		op_chs_ent = &op_chs_of_cch_5g_by_bw[bw];
++	} else {
++		valid = 0;
++		goto exit;
++	}
++
++	for (i = 0; i < c_chs_ent->ch_num; i++)
++		if (cch == *(c_chs_ent->chs + i))
++			break;
++
++	if (i == c_chs_ent->ch_num) {
++		valid = 0;
++		goto exit;
++	}
++
++	*op_chs = op_chs_ent->chs + op_chs_ent->ch_num * i;
++	*op_ch_num = op_chs_ent->ch_num;
++
++exit:
++	return valid;
++}
++
++u8 rtw_get_ch_group(u8 ch, u8 *group, u8 *cck_group)
++{
++	BAND_TYPE band = BAND_MAX;
++	s8 gp = -1, cck_gp = -1;
++
++	if (ch <= 14) {
++		band = BAND_ON_2_4G;
++
++		if (1 <= ch && ch <= 2)
++			gp = 0;
++		else if (3  <= ch && ch <= 5)
++			gp = 1;
++		else if (6  <= ch && ch <= 8)
++			gp = 2;
++		else if (9  <= ch && ch <= 11)
++			gp = 3;
++		else if (12 <= ch && ch <= 14)
++			gp = 4;
++		else
++			band = BAND_MAX;
++
++		if (ch == 14)
++			cck_gp = 5;
++		else
++			cck_gp = gp;
++	} else {
++		band = BAND_ON_5G;
++
++		if (36 <= ch && ch <= 42)
++			gp = 0;
++		else if (44   <= ch && ch <=  48)
++			gp = 1;
++		else if (50   <= ch && ch <=  58)
++			gp = 2;
++		else if (60   <= ch && ch <=  64)
++			gp = 3;
++		else if (100  <= ch && ch <= 106)
++			gp = 4;
++		else if (108  <= ch && ch <= 114)
++			gp = 5;
++		else if (116  <= ch && ch <= 122)
++			gp = 6;
++		else if (124  <= ch && ch <= 130)
++			gp = 7;
++		else if (132  <= ch && ch <= 138)
++			gp = 8;
++		else if (140  <= ch && ch <= 144)
++			gp = 9;
++		else if (149  <= ch && ch <= 155)
++			gp = 10;
++		else if (157  <= ch && ch <= 161)
++			gp = 11;
++		else if (165  <= ch && ch <= 171)
++			gp = 12;
++		else if (173  <= ch && ch <= 177)
++			gp = 13;
++		else
++			band = BAND_MAX;
++	}
++
++	if (band == BAND_MAX
++		|| (band == BAND_ON_2_4G && cck_gp == -1)
++		|| gp == -1
++	) {
++		RTW_WARN("%s invalid channel:%u", __func__, ch);
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (group)
++		*group = gp;
++	if (cck_group && band == BAND_ON_2_4G)
++		*cck_group = cck_gp;
++
++exit:
++	return band;
++}
++
++int rtw_ch2freq(int chan)
++{
++	/* see 802.11 17.3.8.3.2 and Annex J
++	* there are overlapping channel numbers in 5GHz and 2GHz bands */
++
++	/*
++	* RTK: don't consider the overlapping channel numbers: 5G channel <= 14,
++	* because we don't support it. simply judge from channel number
++	*/
++
++	if (chan >= 1 && chan <= 14) {
++		if (chan == 14)
++			return 2484;
++		else if (chan < 14)
++			return 2407 + chan * 5;
++	} else if (chan >= 36 && chan <= 177)
++		return 5000 + chan * 5;
++
++	return 0; /* not supported */
++}
++
++int rtw_freq2ch(int freq)
++{
++	/* see 802.11 17.3.8.3.2 and Annex J */
++	if (freq == 2484)
++		return 14;
++	else if (freq < 2484)
++		return (freq - 2407) / 5;
++	else if (freq >= 4910 && freq <= 4980)
++		return (freq - 4000) / 5;
++	else if (freq <= 45000) /* DMG band lower limit */
++		return (freq - 5000) / 5;
++	else if (freq >= 58320 && freq <= 64800)
++		return (freq - 56160) / 2160;
++	else
++		return 0;
++}
++
++bool rtw_chbw_to_freq_range(u8 ch, u8 bw, u8 offset, u32 *hi, u32 *lo)
++{
++	u8 c_ch;
++	u32 freq;
++	u32 hi_ret = 0, lo_ret = 0;
++	int i;
++	bool valid = _FALSE;
++
++	if (hi)
++		*hi = 0;
++	if (lo)
++		*lo = 0;
++
++	c_ch = rtw_get_center_ch(ch, bw, offset);
++	freq = rtw_ch2freq(c_ch);
++
++	if (!freq) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (bw == CHANNEL_WIDTH_80) {
++		hi_ret = freq + 40;
++		lo_ret = freq - 40;
++	} else if (bw == CHANNEL_WIDTH_40) {
++		hi_ret = freq + 20;
++		lo_ret = freq - 20;
++	} else if (bw == CHANNEL_WIDTH_20) {
++		hi_ret = freq + 10;
++		lo_ret = freq - 10;
++	} else
++		rtw_warn_on(1);
++
++	if (hi)
++		*hi = hi_ret;
++	if (lo)
++		*lo = lo_ret;
++
++	valid = _TRUE;
++
++exit:
++	return valid;
++}
++
++const char *const _ch_width_str[] = {
++	"20MHz",
++	"40MHz",
++	"80MHz",
++	"160MHz",
++	"80_80MHz",
++	"CHANNEL_WIDTH_MAX",
++};
++
++const u8 _ch_width_to_bw_cap[] = {
++	BW_CAP_20M,
++	BW_CAP_40M,
++	BW_CAP_80M,
++	BW_CAP_160M,
++	BW_CAP_80_80M,
++	0,
++};
++
++const char *const _band_str[] = {
++	"2.4G",
++	"5G",
++	"BOTH",
++	"BAND_MAX",
++};
++
++const u8 _band_to_band_cap[] = {
++	BAND_CAP_2G,
++	BAND_CAP_5G,
++	0,
++	0,
++};
++
++#ifdef CONFIG_80211AC_VHT
++#define COUNTRY_CHPLAN_ASSIGN_EN_11AC(_val) , .en_11ac = (_val)
++#else
++#define COUNTRY_CHPLAN_ASSIGN_EN_11AC(_val)
++#endif
++
++#if RTW_DEF_MODULE_REGULATORY_CERT
++#define COUNTRY_CHPLAN_ASSIGN_DEF_MODULE_FLAGS(_val) , .def_module_flags = (_val)
++#else
++#define COUNTRY_CHPLAN_ASSIGN_DEF_MODULE_FLAGS(_val)
++#endif
++
++/* has def_module_flags specified, used by common map and HAL dfference map */
++#define COUNTRY_CHPLAN_ENT(_alpha2, _chplan, _en_11ac, _def_module_flags) \
++	{.alpha2 = (_alpha2), .chplan = (_chplan) \
++		COUNTRY_CHPLAN_ASSIGN_EN_11AC(_en_11ac) \
++		COUNTRY_CHPLAN_ASSIGN_DEF_MODULE_FLAGS(_def_module_flags) \
++	}
++
++#ifdef CONFIG_CUSTOMIZED_COUNTRY_CHPLAN_MAP
++
++#include "../platform/custom_country_chplan.h"
++
++#elif RTW_DEF_MODULE_REGULATORY_CERT
++
++#if (RTW_DEF_MODULE_REGULATORY_CERT & RTW_MODULE_RTL8821AE_HMC_M2)
++static const struct country_chplan RTL8821AE_HMC_M2_country_chplan_map[] = {
++	COUNTRY_CHPLAN_ENT("CN", 0x51, 1, 0xFB), /* China */
++	COUNTRY_CHPLAN_ENT("RU", 0x59, 0, 0xFB), /* Russia(fac/gost), Kaliningrad */
++	COUNTRY_CHPLAN_ENT("UA", 0x26, 0, 0xFB), /* Ukraine */
++};
++static const u16 RTL8821AE_HMC_M2_country_chplan_map_sz = sizeof(RTL8821AE_HMC_M2_country_chplan_map) / sizeof(struct country_chplan);
++#endif
++
++#if (RTW_DEF_MODULE_REGULATORY_CERT & RTW_MODULE_RTL8821AU)
++static const struct country_chplan RTL8821AU_country_chplan_map[] = {
++	COUNTRY_CHPLAN_ENT("RU", 0x59, 0, 0xFB), /* Russia(fac/gost), Kaliningrad */
++	COUNTRY_CHPLAN_ENT("UA", 0x26, 0, 0xFB), /* Ukraine */
++};
++static const u16 RTL8821AU_country_chplan_map_sz = sizeof(RTL8821AU_country_chplan_map) / sizeof(struct country_chplan);
++#endif
++
++#if (RTW_DEF_MODULE_REGULATORY_CERT & RTW_MODULE_RTL8812AENF_NGFF)
++static const struct country_chplan RTL8812AENF_NGFF_country_chplan_map[] = {
++};
++static const u16 RTL8812AENF_NGFF_country_chplan_map_sz = sizeof(RTL8812AENF_NGFF_country_chplan_map) / sizeof(struct country_chplan);
++#endif
++
++#if (RTW_DEF_MODULE_REGULATORY_CERT & RTW_MODULE_RTL8812AEBT_HMC)
++static const struct country_chplan RTL8812AEBT_HMC_country_chplan_map[] = {
++};
++static const u16 RTL8812AEBT_HMC_country_chplan_map_sz = sizeof(RTL8812AEBT_HMC_country_chplan_map) / sizeof(struct country_chplan);
++#endif
++
++#if (RTW_DEF_MODULE_REGULATORY_CERT & RTW_MODULE_RTL8188EE_HMC_M2)
++static const struct country_chplan RTL8188EE_HMC_M2_country_chplan_map[] = {
++};
++static const u16 RTL8188EE_HMC_M2_country_chplan_map_sz = sizeof(RTL8188EE_HMC_M2_country_chplan_map) / sizeof(struct country_chplan);
++#endif
++
++#if (RTW_DEF_MODULE_REGULATORY_CERT & RTW_MODULE_RTL8723BE_HMC_M2)
++static const struct country_chplan RTL8723BE_HMC_M2_country_chplan_map[] = {
++};
++static const u16 RTL8723BE_HMC_M2_country_chplan_map_sz = sizeof(RTL8723BE_HMC_M2_country_chplan_map) / sizeof(struct country_chplan);
++#endif
++
++#if (RTW_DEF_MODULE_REGULATORY_CERT & RTW_MODULE_RTL8723BS_NGFF1216)
++static const struct country_chplan RTL8723BS_NGFF1216_country_chplan_map[] = {
++};
++static const u16 RTL8723BS_NGFF1216_country_chplan_map_sz = sizeof(RTL8723BS_NGFF1216_country_chplan_map) / sizeof(struct country_chplan);
++#endif
++
++#if (RTW_DEF_MODULE_REGULATORY_CERT & RTW_MODULE_RTL8192EEBT_HMC_M2)
++static const struct country_chplan RTL8192EEBT_HMC_M2_country_chplan_map[] = {
++};
++static const u16 RTL8192EEBT_HMC_M2_country_chplan_map_sz = sizeof(RTL8192EEBT_HMC_M2_country_chplan_map) / sizeof(struct country_chplan);
++#endif
++
++/**
++ * rtw_def_module_get_chplan_from_country -
++ * @country_code: string of country code
++ * @return:
++ * Return NULL for case referring to common map
++ */
++static const struct country_chplan *rtw_def_module_get_chplan_from_country(const char *country_code)
++{
++	const struct country_chplan *ent = NULL;
++	const struct country_chplan *hal_map = NULL;
++	u16 hal_map_sz = 0;
++	int i;
++
++	/* TODO: runtime selection for multi driver */
++#if (RTW_DEF_MODULE_REGULATORY_CERT == RTW_MODULE_RTL8821AE_HMC_M2)
++	hal_map = RTL8821AE_HMC_M2_country_chplan_map;
++	hal_map_sz = RTL8821AE_HMC_M2_country_chplan_map_sz;
++#elif (RTW_DEF_MODULE_REGULATORY_CERT == RTW_MODULE_RTL8821AU)
++	hal_map = RTL8821AU_country_chplan_map;
++	hal_map_sz = RTL8821AU_country_chplan_map_sz;
++#elif (RTW_DEF_MODULE_REGULATORY_CERT == RTW_MODULE_RTL8812AENF_NGFF)
++	hal_map = RTL8812AENF_NGFF_country_chplan_map;
++	hal_map_sz = RTL8812AENF_NGFF_country_chplan_map_sz;
++#elif (RTW_DEF_MODULE_REGULATORY_CERT == RTW_MODULE_RTL8812AEBT_HMC)
++	hal_map = RTL8812AEBT_HMC_country_chplan_map;
++	hal_map_sz = RTL8812AEBT_HMC_country_chplan_map_sz;
++#elif (RTW_DEF_MODULE_REGULATORY_CERT == RTW_MODULE_RTL8188EE_HMC_M2)
++	hal_map = RTL8188EE_HMC_M2_country_chplan_map;
++	hal_map_sz = RTL8188EE_HMC_M2_country_chplan_map_sz;
++#elif (RTW_DEF_MODULE_REGULATORY_CERT == RTW_MODULE_RTL8723BE_HMC_M2)
++	hal_map = RTL8723BE_HMC_M2_country_chplan_map;
++	hal_map_sz = RTL8723BE_HMC_M2_country_chplan_map_sz;
++#elif (RTW_DEF_MODULE_REGULATORY_CERT == RTW_MODULE_RTL8723BS_NGFF1216)
++	hal_map = RTL8723BS_NGFF1216_country_chplan_map;
++	hal_map_sz = RTL8723BS_NGFF1216_country_chplan_map_sz;
++#elif (RTW_DEF_MODULE_REGULATORY_CERT == RTW_MODULE_RTL8192EEBT_HMC_M2)
++	hal_map = RTL8192EEBT_HMC_M2_country_chplan_map;
++	hal_map_sz = RTL8192EEBT_HMC_M2_country_chplan_map_sz;
++#endif
++
++	if (hal_map == NULL || hal_map_sz == 0)
++		goto exit;
++
++	for (i = 0; i < hal_map_sz; i++) {
++		if (strncmp(country_code, hal_map[i].alpha2, 2) == 0) {
++			ent = &hal_map[i];
++			break;
++		}
++	}
++
++exit:
++	return ent;
++}
++#endif /* CONFIG_CUSTOMIZED_COUNTRY_CHPLAN_MAP or RTW_DEF_MODULE_REGULATORY_CERT */
++
++static const struct country_chplan country_chplan_map[] = {
++	COUNTRY_CHPLAN_ENT("AD", 0x26, 1, 0x00), /* Andorra */
++	COUNTRY_CHPLAN_ENT("AE", 0x26, 1, 0xFB), /* United Arab Emirates */
++	COUNTRY_CHPLAN_ENT("AF", 0x42, 1, 0x00), /* Afghanistan */
++	COUNTRY_CHPLAN_ENT("AG", 0x30, 1, 0x00), /* Antigua & Barbuda */
++	COUNTRY_CHPLAN_ENT("AI", 0x26, 1, 0x00), /* Anguilla(UK) */
++	COUNTRY_CHPLAN_ENT("AL", 0x26, 1, 0xF1), /* Albania */
++	COUNTRY_CHPLAN_ENT("AM", 0x26, 1, 0xB0), /* Armenia */
++	COUNTRY_CHPLAN_ENT("AO", 0x26, 1, 0xE0), /* Angola */
++	COUNTRY_CHPLAN_ENT("AQ", 0x26, 1, 0x00), /* Antarctica */
++	COUNTRY_CHPLAN_ENT("AR", 0x57, 1, 0xF3), /* Argentina */
++	COUNTRY_CHPLAN_ENT("AS", 0x34, 1, 0x00), /* American Samoa */
++	COUNTRY_CHPLAN_ENT("AT", 0x26, 1, 0xFB), /* Austria */
++	COUNTRY_CHPLAN_ENT("AU", 0x45, 1, 0xFB), /* Australia */
++	COUNTRY_CHPLAN_ENT("AW", 0x34, 1, 0xB0), /* Aruba */
++	COUNTRY_CHPLAN_ENT("AZ", 0x26, 1, 0xF1), /* Azerbaijan */
++	COUNTRY_CHPLAN_ENT("BA", 0x26, 1, 0xF1), /* Bosnia & Herzegovina */
++	COUNTRY_CHPLAN_ENT("BB", 0x34, 1, 0x50), /* Barbados */
++	COUNTRY_CHPLAN_ENT("BD", 0x26, 1, 0xF1), /* Bangladesh */
++	COUNTRY_CHPLAN_ENT("BE", 0x26, 1, 0xFB), /* Belgium */
++	COUNTRY_CHPLAN_ENT("BF", 0x26, 1, 0xB0), /* Burkina Faso */
++	COUNTRY_CHPLAN_ENT("BG", 0x26, 1, 0xF1), /* Bulgaria */
++	COUNTRY_CHPLAN_ENT("BH", 0x47, 1, 0xF1), /* Bahrain */
++	COUNTRY_CHPLAN_ENT("BI", 0x26, 1, 0xB0), /* Burundi */
++	COUNTRY_CHPLAN_ENT("BJ", 0x26, 1, 0xB0), /* Benin */
++	COUNTRY_CHPLAN_ENT("BN", 0x47, 1, 0x10), /* Brunei */
++	COUNTRY_CHPLAN_ENT("BO", 0x30, 1, 0xF1), /* Bolivia */
++	COUNTRY_CHPLAN_ENT("BR", 0x34, 1, 0xF1), /* Brazil */
++	COUNTRY_CHPLAN_ENT("BS", 0x34, 1, 0x20), /* Bahamas */
++	COUNTRY_CHPLAN_ENT("BW", 0x26, 1, 0xF1), /* Botswana */
++	COUNTRY_CHPLAN_ENT("BY", 0x26, 1, 0xF1), /* Belarus */
++	COUNTRY_CHPLAN_ENT("BZ", 0x34, 1, 0x00), /* Belize */
++	COUNTRY_CHPLAN_ENT("CA", 0x34, 1, 0xFB), /* Canada */
++	COUNTRY_CHPLAN_ENT("CC", 0x26, 1, 0x00), /* Cocos (Keeling) Islands (Australia) */
++	COUNTRY_CHPLAN_ENT("CD", 0x26, 1, 0xB0), /* Congo, Republic of the */
++	COUNTRY_CHPLAN_ENT("CF", 0x26, 1, 0xB0), /* Central African Republic */
++	COUNTRY_CHPLAN_ENT("CG", 0x26, 1, 0xB0), /* Congo, Democratic Republic of the. Zaire */
++	COUNTRY_CHPLAN_ENT("CH", 0x26, 1, 0xFB), /* Switzerland */
++	COUNTRY_CHPLAN_ENT("CI", 0x26, 1, 0xF1), /* Cote d'Ivoire */
++	COUNTRY_CHPLAN_ENT("CK", 0x26, 1, 0x00), /* Cook Islands */
++	COUNTRY_CHPLAN_ENT("CL", 0x30, 1, 0xF1), /* Chile */
++	COUNTRY_CHPLAN_ENT("CM", 0x26, 1, 0xB0), /* Cameroon */
++	COUNTRY_CHPLAN_ENT("CN", 0x48, 1, 0xFB), /* China */
++	COUNTRY_CHPLAN_ENT("CO", 0x34, 1, 0xF1), /* Colombia */
++	COUNTRY_CHPLAN_ENT("CR", 0x34, 1, 0xF1), /* Costa Rica */
++	COUNTRY_CHPLAN_ENT("CV", 0x26, 1, 0xB0), /* Cape Verde */
++	COUNTRY_CHPLAN_ENT("CX", 0x45, 1, 0x00), /* Christmas Island (Australia) */
++	COUNTRY_CHPLAN_ENT("CY", 0x26, 1, 0xFB), /* Cyprus */
++	COUNTRY_CHPLAN_ENT("CZ", 0x26, 1, 0xFB), /* Czech Republic */
++	COUNTRY_CHPLAN_ENT("DE", 0x26, 1, 0xFB), /* Germany */
++	COUNTRY_CHPLAN_ENT("DJ", 0x26, 1, 0x80), /* Djibouti */
++	COUNTRY_CHPLAN_ENT("DK", 0x26, 1, 0xFB), /* Denmark */
++	COUNTRY_CHPLAN_ENT("DM", 0x34, 1, 0x00), /* Dominica */
++	COUNTRY_CHPLAN_ENT("DO", 0x34, 1, 0xF1), /* Dominican Republic */
++	COUNTRY_CHPLAN_ENT("DZ", 0x26, 1, 0xF1), /* Algeria */
++	COUNTRY_CHPLAN_ENT("EC", 0x34, 1, 0xF1), /* Ecuador */
++	COUNTRY_CHPLAN_ENT("EE", 0x26, 1, 0xFB), /* Estonia */
++	COUNTRY_CHPLAN_ENT("EG", 0x47, 0, 0xF1), /* Egypt */
++	COUNTRY_CHPLAN_ENT("EH", 0x47, 1, 0x80), /* Western Sahara */
++	COUNTRY_CHPLAN_ENT("ER", 0x26, 1, 0x00), /* Eritrea */
++	COUNTRY_CHPLAN_ENT("ES", 0x26, 1, 0xFB), /* Spain, Canary Islands, Ceuta, Melilla */
++	COUNTRY_CHPLAN_ENT("ET", 0x26, 1, 0xB0), /* Ethiopia */
++	COUNTRY_CHPLAN_ENT("FI", 0x26, 1, 0xFB), /* Finland */
++	COUNTRY_CHPLAN_ENT("FJ", 0x34, 1, 0x00), /* Fiji */
++	COUNTRY_CHPLAN_ENT("FK", 0x26, 1, 0x00), /* Falkland Islands (Islas Malvinas) (UK) */
++	COUNTRY_CHPLAN_ENT("FM", 0x34, 1, 0x00), /* Micronesia, Federated States of (USA) */
++	COUNTRY_CHPLAN_ENT("FO", 0x26, 1, 0x00), /* Faroe Islands (Denmark) */
++	COUNTRY_CHPLAN_ENT("FR", 0x26, 1, 0xFB), /* France */
++	COUNTRY_CHPLAN_ENT("GA", 0x26, 1, 0xB0), /* Gabon */
++	COUNTRY_CHPLAN_ENT("GB", 0x26, 1, 0xFB), /* Great Britain (United Kingdom; England) */
++	COUNTRY_CHPLAN_ENT("GD", 0x34, 1, 0xB0), /* Grenada */
++	COUNTRY_CHPLAN_ENT("GE", 0x26, 1, 0x00), /* Georgia */
++	COUNTRY_CHPLAN_ENT("GF", 0x26, 1, 0x80), /* French Guiana */
++	COUNTRY_CHPLAN_ENT("GG", 0x26, 1, 0x00), /* Guernsey (UK) */
++	COUNTRY_CHPLAN_ENT("GH", 0x26, 1, 0xF1), /* Ghana */
++	COUNTRY_CHPLAN_ENT("GI", 0x26, 1, 0x00), /* Gibraltar (UK) */
++	COUNTRY_CHPLAN_ENT("GL", 0x26, 1, 0x00), /* Greenland (Denmark) */
++	COUNTRY_CHPLAN_ENT("GM", 0x26, 1, 0xB0), /* Gambia */
++	COUNTRY_CHPLAN_ENT("GN", 0x26, 1, 0x10), /* Guinea */
++	COUNTRY_CHPLAN_ENT("GP", 0x26, 1, 0x00), /* Guadeloupe (France) */
++	COUNTRY_CHPLAN_ENT("GQ", 0x26, 1, 0xB0), /* Equatorial Guinea */
++	COUNTRY_CHPLAN_ENT("GR", 0x26, 1, 0xFB), /* Greece */
++	COUNTRY_CHPLAN_ENT("GS", 0x26, 1, 0x00), /* South Georgia and the Sandwich Islands (UK) */
++	COUNTRY_CHPLAN_ENT("GT", 0x34, 1, 0xF1), /* Guatemala */
++	COUNTRY_CHPLAN_ENT("GU", 0x34, 1, 0x00), /* Guam (USA) */
++	COUNTRY_CHPLAN_ENT("GW", 0x26, 1, 0xB0), /* Guinea-Bissau */
++	COUNTRY_CHPLAN_ENT("GY", 0x44, 1, 0x00), /* Guyana */
++	COUNTRY_CHPLAN_ENT("HK", 0x26, 1, 0xFB), /* Hong Kong */
++	COUNTRY_CHPLAN_ENT("HM", 0x45, 1, 0x00), /* Heard and McDonald Islands (Australia) */
++	COUNTRY_CHPLAN_ENT("HN", 0x32, 1, 0xF1), /* Honduras */
++	COUNTRY_CHPLAN_ENT("HR", 0x26, 1, 0xF9), /* Croatia */
++	COUNTRY_CHPLAN_ENT("HT", 0x34, 1, 0x50), /* Haiti */
++	COUNTRY_CHPLAN_ENT("HU", 0x26, 1, 0xFB), /* Hungary */
++	COUNTRY_CHPLAN_ENT("ID", 0x54, 0, 0xF3), /* Indonesia */
++	COUNTRY_CHPLAN_ENT("IE", 0x26, 1, 0xFB), /* Ireland */
++	COUNTRY_CHPLAN_ENT("IL", 0x47, 1, 0xF1), /* Israel */
++	COUNTRY_CHPLAN_ENT("IM", 0x26, 1, 0x00), /* Isle of Man (UK) */
++	COUNTRY_CHPLAN_ENT("IN", 0x47, 1, 0xF1), /* India */
++	COUNTRY_CHPLAN_ENT("IQ", 0x26, 1, 0x00), /* Iraq */
++	COUNTRY_CHPLAN_ENT("IR", 0x26, 0, 0x00), /* Iran */
++	COUNTRY_CHPLAN_ENT("IS", 0x26, 1, 0xFB), /* Iceland */
++	COUNTRY_CHPLAN_ENT("IT", 0x26, 1, 0xFB), /* Italy */
++	COUNTRY_CHPLAN_ENT("JE", 0x26, 1, 0x00), /* Jersey (UK) */
++	COUNTRY_CHPLAN_ENT("JM", 0x51, 1, 0xF1), /* Jamaica */
++	COUNTRY_CHPLAN_ENT("JO", 0x49, 1, 0xFB), /* Jordan */
++	COUNTRY_CHPLAN_ENT("JP", 0x27, 1, 0xFF), /* Japan- Telec */
++	COUNTRY_CHPLAN_ENT("KE", 0x47, 1, 0xF9), /* Kenya */
++	COUNTRY_CHPLAN_ENT("KG", 0x26, 1, 0xF1), /* Kyrgyzstan */
++	COUNTRY_CHPLAN_ENT("KH", 0x26, 1, 0xF1), /* Cambodia */
++	COUNTRY_CHPLAN_ENT("KI", 0x26, 1, 0x00), /* Kiribati */
++	COUNTRY_CHPLAN_ENT("KN", 0x34, 1, 0x00), /* Saint Kitts and Nevis */
++	COUNTRY_CHPLAN_ENT("KR", 0x28, 1, 0xFB), /* South Korea */
++	COUNTRY_CHPLAN_ENT("KW", 0x47, 1, 0xFB), /* Kuwait */
++	COUNTRY_CHPLAN_ENT("KY", 0x34, 1, 0x00), /* Cayman Islands (UK) */
++	COUNTRY_CHPLAN_ENT("KZ", 0x26, 1, 0x00), /* Kazakhstan */
++	COUNTRY_CHPLAN_ENT("LA", 0x26, 1, 0x00), /* Laos */
++	COUNTRY_CHPLAN_ENT("LB", 0x26, 1, 0xF1), /* Lebanon */
++	COUNTRY_CHPLAN_ENT("LC", 0x34, 1, 0x00), /* Saint Lucia */
++	COUNTRY_CHPLAN_ENT("LI", 0x26, 1, 0xFB), /* Liechtenstein */
++	COUNTRY_CHPLAN_ENT("LK", 0x26, 1, 0xF1), /* Sri Lanka */
++	COUNTRY_CHPLAN_ENT("LR", 0x26, 1, 0xB0), /* Liberia */
++	COUNTRY_CHPLAN_ENT("LS", 0x26, 1, 0xF1), /* Lesotho */
++	COUNTRY_CHPLAN_ENT("LT", 0x26, 1, 0xFB), /* Lithuania */
++	COUNTRY_CHPLAN_ENT("LU", 0x26, 1, 0xFB), /* Luxembourg */
++	COUNTRY_CHPLAN_ENT("LV", 0x26, 1, 0xFB), /* Latvia */
++	COUNTRY_CHPLAN_ENT("LY", 0x26, 1, 0x00), /* Libya */
++	COUNTRY_CHPLAN_ENT("MA", 0x47, 1, 0xF1), /* Morocco */
++	COUNTRY_CHPLAN_ENT("MC", 0x26, 1, 0xFB), /* Monaco */
++	COUNTRY_CHPLAN_ENT("MD", 0x26, 1, 0xF1), /* Moldova */
++	COUNTRY_CHPLAN_ENT("ME", 0x26, 1, 0xF1), /* Montenegro */
++	COUNTRY_CHPLAN_ENT("MF", 0x34, 1, 0x00), /* Saint Martin */
++	COUNTRY_CHPLAN_ENT("MG", 0x26, 1, 0x20), /* Madagascar */
++	COUNTRY_CHPLAN_ENT("MH", 0x34, 1, 0x00), /* Marshall Islands (USA) */
++	COUNTRY_CHPLAN_ENT("MK", 0x26, 1, 0xF1), /* Republic of Macedonia (FYROM) */
++	COUNTRY_CHPLAN_ENT("ML", 0x26, 1, 0xB0), /* Mali */
++	COUNTRY_CHPLAN_ENT("MM", 0x26, 1, 0x00), /* Burma (Myanmar) */
++	COUNTRY_CHPLAN_ENT("MN", 0x26, 1, 0x00), /* Mongolia */
++	COUNTRY_CHPLAN_ENT("MO", 0x26, 1, 0x00), /* Macau */
++	COUNTRY_CHPLAN_ENT("MP", 0x34, 1, 0x00), /* Northern Mariana Islands (USA) */
++	COUNTRY_CHPLAN_ENT("MQ", 0x26, 1, 0x40), /* Martinique (France) */
++	COUNTRY_CHPLAN_ENT("MR", 0x26, 1, 0xA0), /* Mauritania */
++	COUNTRY_CHPLAN_ENT("MS", 0x26, 1, 0x00), /* Montserrat (UK) */
++	COUNTRY_CHPLAN_ENT("MT", 0x26, 1, 0xFB), /* Malta */
++	COUNTRY_CHPLAN_ENT("MU", 0x26, 1, 0xB0), /* Mauritius */
++	COUNTRY_CHPLAN_ENT("MV", 0x26, 1, 0x00), /* Maldives */
++	COUNTRY_CHPLAN_ENT("MW", 0x26, 1, 0xB0), /* Malawi */
++	COUNTRY_CHPLAN_ENT("MX", 0x34, 1, 0xF1), /* Mexico */
++	COUNTRY_CHPLAN_ENT("MY", 0x47, 1, 0xF1), /* Malaysia */
++	COUNTRY_CHPLAN_ENT("MZ", 0x26, 1, 0xF1), /* Mozambique */
++	COUNTRY_CHPLAN_ENT("NA", 0x26, 0, 0x00), /* Namibia */
++	COUNTRY_CHPLAN_ENT("NC", 0x26, 1, 0x00), /* New Caledonia */
++	COUNTRY_CHPLAN_ENT("NE", 0x26, 1, 0xB0), /* Niger */
++	COUNTRY_CHPLAN_ENT("NF", 0x45, 1, 0x00), /* Norfolk Island (Australia) */
++	COUNTRY_CHPLAN_ENT("NG", 0x50, 1, 0xF9), /* Nigeria */
++	COUNTRY_CHPLAN_ENT("NI", 0x34, 1, 0xF1), /* Nicaragua */
++	COUNTRY_CHPLAN_ENT("NL", 0x26, 1, 0xFB), /* Netherlands */
++	COUNTRY_CHPLAN_ENT("NO", 0x26, 1, 0xFB), /* Norway */
++	COUNTRY_CHPLAN_ENT("NP", 0x47, 1, 0xF0), /* Nepal */
++	COUNTRY_CHPLAN_ENT("NR", 0x26, 1, 0x00), /* Nauru */
++	COUNTRY_CHPLAN_ENT("NU", 0x45, 1, 0x00), /* Niue */
++	COUNTRY_CHPLAN_ENT("NZ", 0x45, 1, 0xFB), /* New Zealand */
++	COUNTRY_CHPLAN_ENT("OM", 0x26, 1, 0xF9), /* Oman */
++	COUNTRY_CHPLAN_ENT("PA", 0x34, 1, 0xF1), /* Panama */
++	COUNTRY_CHPLAN_ENT("PE", 0x34, 1, 0xF1), /* Peru */
++	COUNTRY_CHPLAN_ENT("PF", 0x26, 1, 0x00), /* French Polynesia (France) */
++	COUNTRY_CHPLAN_ENT("PG", 0x26, 1, 0xF1), /* Papua New Guinea */
++	COUNTRY_CHPLAN_ENT("PH", 0x26, 1, 0xF1), /* Philippines */
++	COUNTRY_CHPLAN_ENT("PK", 0x51, 1, 0xF1), /* Pakistan */
++	COUNTRY_CHPLAN_ENT("PL", 0x26, 1, 0xFB), /* Poland */
++	COUNTRY_CHPLAN_ENT("PM", 0x26, 1, 0x00), /* Saint Pierre and Miquelon (France) */
++	COUNTRY_CHPLAN_ENT("PR", 0x34, 1, 0xF1), /* Puerto Rico */
++	COUNTRY_CHPLAN_ENT("PT", 0x26, 1, 0xFB), /* Portugal */
++	COUNTRY_CHPLAN_ENT("PW", 0x34, 1, 0x00), /* Palau */
++	COUNTRY_CHPLAN_ENT("PY", 0x34, 1, 0xF1), /* Paraguay */
++	COUNTRY_CHPLAN_ENT("QA", 0x51, 1, 0xF9), /* Qatar */
++	COUNTRY_CHPLAN_ENT("RE", 0x26, 1, 0x00), /* Reunion (France) */
++	COUNTRY_CHPLAN_ENT("RO", 0x26, 1, 0xF1), /* Romania */
++	COUNTRY_CHPLAN_ENT("RS", 0x26, 1, 0xF1), /* Serbia, Kosovo */
++	COUNTRY_CHPLAN_ENT("RU", 0x59, 1, 0xFB), /* Russia(fac/gost), Kaliningrad */
++	COUNTRY_CHPLAN_ENT("RW", 0x26, 1, 0xB0), /* Rwanda */
++	COUNTRY_CHPLAN_ENT("SA", 0x26, 1, 0xFB), /* Saudi Arabia */
++	COUNTRY_CHPLAN_ENT("SB", 0x26, 1, 0x00), /* Solomon Islands */
++	COUNTRY_CHPLAN_ENT("SC", 0x34, 1, 0x90), /* Seychelles */
++	COUNTRY_CHPLAN_ENT("SE", 0x26, 1, 0xFB), /* Sweden */
++	COUNTRY_CHPLAN_ENT("SG", 0x47, 1, 0xFB), /* Singapore */
++	COUNTRY_CHPLAN_ENT("SH", 0x26, 1, 0x00), /* Saint Helena (UK) */
++	COUNTRY_CHPLAN_ENT("SI", 0x26, 1, 0xFB), /* Slovenia */
++	COUNTRY_CHPLAN_ENT("SJ", 0x26, 1, 0x00), /* Svalbard (Norway) */
++	COUNTRY_CHPLAN_ENT("SK", 0x26, 1, 0xFB), /* Slovakia */
++	COUNTRY_CHPLAN_ENT("SL", 0x26, 1, 0xB0), /* Sierra Leone */
++	COUNTRY_CHPLAN_ENT("SM", 0x26, 1, 0x00), /* San Marino */
++	COUNTRY_CHPLAN_ENT("SN", 0x26, 1, 0xF1), /* Senegal */
++	COUNTRY_CHPLAN_ENT("SO", 0x26, 1, 0x00), /* Somalia */
++	COUNTRY_CHPLAN_ENT("SR", 0x34, 1, 0x00), /* Suriname */
++	COUNTRY_CHPLAN_ENT("ST", 0x34, 1, 0x80), /* Sao Tome and Principe */
++	COUNTRY_CHPLAN_ENT("SV", 0x30, 1, 0xF1), /* El Salvador */
++	COUNTRY_CHPLAN_ENT("SX", 0x34, 1, 0x00), /* Sint Marteen */
++	COUNTRY_CHPLAN_ENT("SZ", 0x26, 1, 0x20), /* Swaziland */
++	COUNTRY_CHPLAN_ENT("TC", 0x26, 1, 0x00), /* Turks and Caicos Islands (UK) */
++	COUNTRY_CHPLAN_ENT("TD", 0x26, 1, 0xB0), /* Chad */
++	COUNTRY_CHPLAN_ENT("TF", 0x26, 1, 0x80), /* French Southern and Antarctic Lands (FR Southern Territories) */
++	COUNTRY_CHPLAN_ENT("TG", 0x26, 1, 0xB0), /* Togo */
++	COUNTRY_CHPLAN_ENT("TH", 0x26, 1, 0xF1), /* Thailand */
++	COUNTRY_CHPLAN_ENT("TJ", 0x26, 1, 0x40), /* Tajikistan */
++	COUNTRY_CHPLAN_ENT("TK", 0x45, 1, 0x00), /* Tokelau */
++	COUNTRY_CHPLAN_ENT("TM", 0x26, 1, 0x00), /* Turkmenistan */
++	COUNTRY_CHPLAN_ENT("TN", 0x47, 1, 0xF1), /* Tunisia */
++	COUNTRY_CHPLAN_ENT("TO", 0x26, 1, 0x00), /* Tonga */
++	COUNTRY_CHPLAN_ENT("TR", 0x26, 1, 0xF1), /* Turkey, Northern Cyprus */
++	COUNTRY_CHPLAN_ENT("TT", 0x42, 1, 0xF1), /* Trinidad & Tobago */
++	COUNTRY_CHPLAN_ENT("TW", 0x39, 1, 0xFF), /* Taiwan */
++	COUNTRY_CHPLAN_ENT("TZ", 0x26, 1, 0xF0), /* Tanzania */
++	COUNTRY_CHPLAN_ENT("UA", 0x26, 1, 0xFB), /* Ukraine */
++	COUNTRY_CHPLAN_ENT("UG", 0x26, 1, 0xF1), /* Uganda */
++	COUNTRY_CHPLAN_ENT("US", 0x34, 1, 0xFF), /* United States of America (USA) */
++	COUNTRY_CHPLAN_ENT("UY", 0x34, 1, 0xF1), /* Uruguay */
++	COUNTRY_CHPLAN_ENT("UZ", 0x47, 1, 0xF0), /* Uzbekistan */
++	COUNTRY_CHPLAN_ENT("VA", 0x26, 1, 0x00), /* Holy See (Vatican City) */
++	COUNTRY_CHPLAN_ENT("VC", 0x34, 1, 0x10), /* Saint Vincent and the Grenadines */
++	COUNTRY_CHPLAN_ENT("VE", 0x30, 1, 0xF1), /* Venezuela */
++	COUNTRY_CHPLAN_ENT("VI", 0x34, 1, 0x00), /* United States Virgin Islands (USA) */
++	COUNTRY_CHPLAN_ENT("VN", 0x26, 1, 0xF1), /* Vietnam */
++	COUNTRY_CHPLAN_ENT("VU", 0x26, 1, 0x00), /* Vanuatu */
++	COUNTRY_CHPLAN_ENT("WF", 0x26, 1, 0x00), /* Wallis and Futuna (France) */
++	COUNTRY_CHPLAN_ENT("WS", 0x34, 1, 0x00), /* Samoa */
++	COUNTRY_CHPLAN_ENT("YE", 0x26, 1, 0x40), /* Yemen */
++	COUNTRY_CHPLAN_ENT("YT", 0x26, 1, 0x80), /* Mayotte (France) */
++	COUNTRY_CHPLAN_ENT("ZA", 0x26, 1, 0xF1), /* South Africa */
++	COUNTRY_CHPLAN_ENT("ZM", 0x26, 1, 0xB0), /* Zambia */
++	COUNTRY_CHPLAN_ENT("ZW", 0x26, 1, 0xF1), /* Zimbabwe */
++};
++
++u16 const country_chplan_map_sz = sizeof(country_chplan_map) / sizeof(struct country_chplan);
++
++/*
++* rtw_get_chplan_from_country -
++* @country_code: string of country code
++*
++* Return pointer of struct country_chplan entry or NULL when unsupported country_code is given
++*/
++const struct country_chplan *rtw_get_chplan_from_country(const char *country_code)
++{
++	const struct country_chplan *ent = NULL;
++	const struct country_chplan *map = NULL;
++	u16 map_sz = 0;
++	char code[2];
++	int i;
++
++	code[0] = alpha_to_upper(country_code[0]);
++	code[1] = alpha_to_upper(country_code[1]);
++
++#if !defined(CONFIG_CUSTOMIZED_COUNTRY_CHPLAN_MAP) && RTW_DEF_MODULE_REGULATORY_CERT
++	ent = rtw_def_module_get_chplan_from_country(code);
++	if (ent != NULL)
++		goto exit;
++#endif
++
++#ifdef CONFIG_CUSTOMIZED_COUNTRY_CHPLAN_MAP
++	map = CUSTOMIZED_country_chplan_map;
++	map_sz = CUSTOMIZED_country_chplan_map_sz;
++#else
++	map = country_chplan_map;
++	map_sz = country_chplan_map_sz;
++#endif
++
++	for (i = 0; i < map_sz; i++) {
++		if (strncmp(code, map[i].alpha2, 2) == 0) {
++			ent = &map[i];
++			break;
++		}
++	}
++
++exit:
++	#if RTW_DEF_MODULE_REGULATORY_CERT
++	if (ent && !(COUNTRY_CHPLAN_DEF_MODULE_FALGS(ent) & RTW_DEF_MODULE_REGULATORY_CERT))
++		ent = NULL;
++	#endif
++
++	return ent;
++}
++
++int rtw_ch_to_bb_gain_sel(int ch)
++{
++	int sel = -1;
++
++	if (ch >= 1 && ch <= 14)
++		sel = BB_GAIN_2G;
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	else if (ch >= 36 && ch < 48)
++		sel = BB_GAIN_5GLB1;
++	else if (ch >= 52 && ch <= 64)
++		sel = BB_GAIN_5GLB2;
++	else if (ch >= 100 && ch <= 120)
++		sel = BB_GAIN_5GMB1;
++	else if (ch >= 124 && ch <= 144)
++		sel = BB_GAIN_5GMB2;
++	else if (ch >= 149 && ch <= 177)
++		sel = BB_GAIN_5GHB;
++#endif
++
++	return sel;
++}
++
++s8 rtw_rf_get_kfree_tx_gain_offset(_adapter *padapter, u8 path, u8 ch)
++{
++	s8 kfree_offset = 0;
++
++#ifdef CONFIG_RF_POWER_TRIM
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(padapter);
++	struct kfree_data_t *kfree_data = GET_KFREE_DATA(padapter);
++	s8 bb_gain_sel = rtw_ch_to_bb_gain_sel(ch);
++
++	if (bb_gain_sel < BB_GAIN_2G || bb_gain_sel >= BB_GAIN_NUM) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (kfree_data->flag & KFREE_FLAG_ON) {
++		kfree_offset = kfree_data->bb_gain[bb_gain_sel][path];
++		if (1)
++			RTW_INFO("%s path:%u, ch:%u, bb_gain_sel:%d, kfree_offset:%d\n"
++				, __func__, path, ch, bb_gain_sel, kfree_offset);
++	}
++exit:
++#endif /* CONFIG_RF_POWER_TRIM */
++	return kfree_offset;
++}
++
++void rtw_rf_set_tx_gain_offset(_adapter *adapter, u8 path, s8 offset)
++{
++	u8 write_value;
++
++	RTW_INFO("kfree gain_offset 0x55:0x%x ", rtw_hal_read_rfreg(adapter, path, 0x55, 0xffffffff));
++	switch (rtw_get_chip_type(adapter)) {
++#ifdef CONFIG_RTL8723D
++	case RTL8723D:
++		write_value = RF_TX_GAIN_OFFSET_8723D(offset);
++		rtw_hal_write_rfreg(adapter, path, 0x55, 0x0fc000, write_value);
++		break;
++#endif /* CONFIG_RTL8723D */
++#ifdef CONFIG_RTL8703B
++	case RTL8703B:
++		write_value = RF_TX_GAIN_OFFSET_8703B(offset);
++		rtw_hal_write_rfreg(adapter, path, 0x55, 0x0fc000, write_value);
++		break;
++#endif /* CONFIG_RTL8703B */
++#ifdef CONFIG_RTL8188F
++	case RTL8188F:
++		write_value = RF_TX_GAIN_OFFSET_8188F(offset);
++		rtw_hal_write_rfreg(adapter, path, 0x55, 0x0fc000, write_value);
++		break;
++#endif /* CONFIG_RTL8188F */
++#ifdef CONFIG_RTL8192E
++	case RTL8192E:
++		write_value = RF_TX_GAIN_OFFSET_8192E(offset);
++		rtw_hal_write_rfreg(adapter, path, 0x55, 0x0f8000, write_value);
++		break;
++#endif /* CONFIG_RTL8188F */
++
++#ifdef CONFIG_RTL8821A
++	case RTL8821:
++		write_value = RF_TX_GAIN_OFFSET_8821A(offset);
++		rtw_hal_write_rfreg(adapter, path, 0x55, 0x0f8000, write_value);
++		break;
++#endif /* CONFIG_RTL8821A */
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++	case RTL8814A:
++	case RTL8822B:
++	case RTL8821C:
++		RTW_INFO("\nkfree by PhyDM on the sw CH. path %d\n", path);
++		break;
++#endif /* CONFIG_RTL8814A || CONFIG_RTL8822B || CONFIG_RTL8821C */
++
++	default:
++		rtw_warn_on(1);
++		break;
++	}
++
++	RTW_INFO(" after :0x%x\n", rtw_hal_read_rfreg(adapter, path, 0x55, 0xffffffff));
++}
++
++void rtw_rf_apply_tx_gain_offset(_adapter *adapter, u8 ch)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	s8 kfree_offset = 0;
++	s8 tx_pwr_track_offset = 0; /* TODO: 8814A should consider tx pwr track when setting tx gain offset */
++	s8 total_offset;
++	int i;
++
++	for (i = 0; i < hal_data->NumTotalRFPath; i++) {
++		kfree_offset = rtw_rf_get_kfree_tx_gain_offset(adapter, i, ch);
++		total_offset = kfree_offset + tx_pwr_track_offset;
++		rtw_rf_set_tx_gain_offset(adapter, i, total_offset);
++	}
++}
++
++bool rtw_is_dfs_range(u32 hi, u32 lo)
++{
++	return rtw_is_range_overlap(hi, lo, 5720 + 10, 5260 - 10) ? _TRUE : _FALSE;
++}
++
++bool rtw_is_dfs_ch(u8 ch, u8 bw, u8 offset)
++{
++	u32 hi, lo;
++
++	if (rtw_chbw_to_freq_range(ch, bw, offset, &hi, &lo) == _FALSE)
++		return _FALSE;
++
++	return rtw_is_dfs_range(hi, lo) ? _TRUE : _FALSE;
++}
++
++bool rtw_is_long_cac_range(u32 hi, u32 lo, u8 dfs_region)
++{
++	return (dfs_region == PHYDM_DFS_DOMAIN_ETSI && rtw_is_range_overlap(hi, lo, 5660 + 10, 5600 - 10)) ? _TRUE : _FALSE;
++}
++
++bool rtw_is_long_cac_ch(u8 ch, u8 bw, u8 offset, u8 dfs_region)
++{
++	u32 hi, lo;
++
++	if (rtw_chbw_to_freq_range(ch, bw, offset, &hi, &lo) == _FALSE)
++		return _FALSE;
++
++	return rtw_is_long_cac_range(hi, lo, dfs_region) ? _TRUE : _FALSE;
++}
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_sdio.c b/drivers/net/wireless/rtl8812au/core/rtw_sdio.c
+new file mode 100644
+index 0000000..817d60b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_sdio.c
+@@ -0,0 +1,98 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ ******************************************************************************/
++#define _RTW_SDIO_C_
++
++#include <drv_types.h>		/* struct dvobj_priv and etc. */
++#include <drv_types_sdio.h>	/* RTW_SDIO_ADDR_CMD52_GEN */
++
++/*
++ * Description:
++ *	Use SDIO cmd52 or cmd53 to read/write data
++ *
++ * Parameters:
++ *	d	pointer of device object(struct dvobj_priv)
++ *	addr	SDIO address, 17 bits
++ *	buf	buffer for I/O
++ *	len	length
++ *	write	0:read, 1:write
++ *	cmd52	0:cmd52, 1:cmd53
++ *
++ * Return:
++ *	_SUCCESS	I/O ok.
++ *	_FAIL		I/O fail.
++ */
++static u8 sdio_io(struct dvobj_priv *d, u32 addr, void *buf, size_t len, u8 write, u8 cmd52)
++{
++	int err;
++
++
++	if (cmd52)
++		addr = RTW_SDIO_ADDR_CMD52_GEN(addr);
++
++	if (write)
++		err = d->intf_ops->write(d, addr, buf, len, 0);
++	else
++		err = d->intf_ops->read(d, addr, buf, len, 0);
++	if (err) {
++		RTW_INFO("%s: [ERROR] %s FAIL! error(%d)\n",
++			 __FUNCTION__, write ? "write" : "read", err);
++		return _FAIL;
++	}
++
++	return _SUCCESS;
++}
++
++u8 rtw_sdio_read_cmd52(struct dvobj_priv *d, u32 addr, void *buf, size_t len)
++{
++	return sdio_io(d, addr, buf, len, 0, 1);
++}
++
++u8 rtw_sdio_read_cmd53(struct dvobj_priv *d, u32 addr, void *buf, size_t len)
++{
++	return sdio_io(d, addr, buf, len, 0, 0);
++}
++
++u8 rtw_sdio_write_cmd52(struct dvobj_priv *d, u32 addr, void *buf, size_t len)
++{
++	return sdio_io(d, addr, buf, len, 1, 1);
++}
++
++u8 rtw_sdio_write_cmd53(struct dvobj_priv *d, u32 addr, void *buf, size_t len)
++{
++	return sdio_io(d, addr, buf, len, 1, 0);
++}
++
++u8 rtw_sdio_f0_read(struct dvobj_priv *d, u32 addr, void *buf, size_t len)
++{
++	int err;
++	u8 ret;
++
++
++	ret = _SUCCESS;
++	addr = RTW_SDIO_ADDR_F0_GEN(addr);
++
++	err = d->intf_ops->read(d, addr, buf, len, 0);
++	if (err) {
++		RTW_INFO("%s: [ERROR] Read f0 register FAIL!\n", __FUNCTION__);
++		ret = _FAIL;
++	}
++
++
++	return ret;
++}
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_security.c b/drivers/net/wireless/rtl8812au/core/rtw_security.c
+new file mode 100644
+index 0000000..ae43bfa
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_security.c
+@@ -0,0 +1,3197 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define  _RTW_SECURITY_C_
++
++#include <drv_types.h>
++
++static const char *_security_type_str[] = {
++	"N/A",
++	"WEP40",
++	"TKIP",
++	"TKIP_WM",
++	"AES",
++	"WEP104",
++	"SMS4",
++	"WEP_WPA",
++	"BIP",
++};
++
++const char *security_type_str(u8 value)
++{
++#ifdef CONFIG_IEEE80211W
++	if (value <= _BIP_)
++#else
++	if (value <= _WEP_WPA_MIXED_)
++#endif
++		return _security_type_str[value];
++	return NULL;
++}
++
++#ifdef DBG_SW_SEC_CNT
++#define WEP_SW_ENC_CNT_INC(sec, ra) do {\
++	if (is_broadcast_mac_addr(ra)) \
++		sec->wep_sw_enc_cnt_bc++; \
++	else if (is_multicast_mac_addr(ra)) \
++		sec->wep_sw_enc_cnt_mc++; \
++	else \
++		sec->wep_sw_enc_cnt_uc++; \
++	} while (0)
++
++#define WEP_SW_DEC_CNT_INC(sec, ra) do {\
++	if (is_broadcast_mac_addr(ra)) \
++		sec->wep_sw_dec_cnt_bc++; \
++	else if (is_multicast_mac_addr(ra)) \
++		sec->wep_sw_dec_cnt_mc++; \
++	else \
++		sec->wep_sw_dec_cnt_uc++; \
++	} while (0)
++
++#define TKIP_SW_ENC_CNT_INC(sec, ra) do {\
++	if (is_broadcast_mac_addr(ra)) \
++		sec->tkip_sw_enc_cnt_bc++; \
++	else if (is_multicast_mac_addr(ra)) \
++		sec->tkip_sw_enc_cnt_mc++; \
++	else \
++		sec->tkip_sw_enc_cnt_uc++; \
++	} while (0)
++
++#define TKIP_SW_DEC_CNT_INC(sec, ra) do {\
++	if (is_broadcast_mac_addr(ra)) \
++		sec->tkip_sw_dec_cnt_bc++; \
++	else if (is_multicast_mac_addr(ra)) \
++		sec->tkip_sw_dec_cnt_mc++; \
++	else \
++		sec->tkip_sw_dec_cnt_uc++; \
++	} while (0)
++
++#define AES_SW_ENC_CNT_INC(sec, ra) do {\
++	if (is_broadcast_mac_addr(ra)) \
++		sec->aes_sw_enc_cnt_bc++; \
++	else if (is_multicast_mac_addr(ra)) \
++		sec->aes_sw_enc_cnt_mc++; \
++	else \
++		sec->aes_sw_enc_cnt_uc++; \
++	} while (0)
++
++#define AES_SW_DEC_CNT_INC(sec, ra) do {\
++	if (is_broadcast_mac_addr(ra)) \
++		sec->aes_sw_dec_cnt_bc++; \
++	else if (is_multicast_mac_addr(ra)) \
++		sec->aes_sw_dec_cnt_mc++; \
++	else \
++		sec->aes_sw_dec_cnt_uc++; \
++	} while (0)
++#else
++#define WEP_SW_ENC_CNT_INC(sec, ra)
++#define WEP_SW_DEC_CNT_INC(sec, ra)
++#define TKIP_SW_ENC_CNT_INC(sec, ra)
++#define TKIP_SW_DEC_CNT_INC(sec, ra)
++#define AES_SW_ENC_CNT_INC(sec, ra)
++#define AES_SW_DEC_CNT_INC(sec, ra)
++#endif /* DBG_SW_SEC_CNT */
++
++/* *****WEP related***** */
++
++#define CRC32_POLY 0x04c11db7
++
++struct arc4context {
++	u32 x;
++	u32 y;
++	u8 state[256];
++};
++
++
++static void arcfour_init(struct arc4context	*parc4ctx, u8 *key, u32	key_len)
++{
++	u32	t, u;
++	u32	keyindex;
++	u32	stateindex;
++	u8 *state;
++	u32	counter;
++	state = parc4ctx->state;
++	parc4ctx->x = 0;
++	parc4ctx->y = 0;
++	for (counter = 0; counter < 256; counter++)
++		state[counter] = (u8)counter;
++	keyindex = 0;
++	stateindex = 0;
++	for (counter = 0; counter < 256; counter++) {
++		t = state[counter];
++		stateindex = (stateindex + key[keyindex] + t) & 0xff;
++		u = state[stateindex];
++		state[stateindex] = (u8)t;
++		state[counter] = (u8)u;
++		if (++keyindex >= key_len)
++			keyindex = 0;
++	}
++}
++static u32 arcfour_byte(struct arc4context	*parc4ctx)
++{
++	u32 x;
++	u32 y;
++	u32 sx, sy;
++	u8 *state;
++	state = parc4ctx->state;
++	x = (parc4ctx->x + 1) & 0xff;
++	sx = state[x];
++	y = (sx + parc4ctx->y) & 0xff;
++	sy = state[y];
++	parc4ctx->x = x;
++	parc4ctx->y = y;
++	state[y] = (u8)sx;
++	state[x] = (u8)sy;
++	return state[(sx + sy) & 0xff];
++}
++
++
++static void arcfour_encrypt(struct arc4context	*parc4ctx,
++			    u8 *dest,
++			    u8 *src,
++			    u32 len)
++{
++	u32	i;
++	for (i = 0; i < len; i++)
++		dest[i] = src[i] ^ (unsigned char)arcfour_byte(parc4ctx);
++}
++
++static sint bcrc32initialized = 0;
++static u32 crc32_table[256];
++
++
++static u8 crc32_reverseBit(u8 data)
++{
++	return (u8)((data << 7) & 0x80) | ((data << 5) & 0x40) | ((data << 3) & 0x20) | ((data << 1) & 0x10) | ((data >> 1) & 0x08) | ((data >> 3) & 0x04) | ((data >> 5) & 0x02) | ((
++				data >> 7) & 0x01) ;
++}
++
++static void crc32_init(void)
++{
++	if (bcrc32initialized == 1)
++		goto exit;
++	else {
++		sint i, j;
++		u32 c;
++		u8 *p = (u8 *)&c, *p1;
++		u8 k;
++
++		c = 0x12340000;
++
++		for (i = 0; i < 256; ++i) {
++			k = crc32_reverseBit((u8)i);
++			for (c = ((u32)k) << 24, j = 8; j > 0; --j)
++				c = c & 0x80000000 ? (c << 1) ^ CRC32_POLY : (c << 1);
++			p1 = (u8 *)&crc32_table[i];
++
++			p1[0] = crc32_reverseBit(p[3]);
++			p1[1] = crc32_reverseBit(p[2]);
++			p1[2] = crc32_reverseBit(p[1]);
++			p1[3] = crc32_reverseBit(p[0]);
++		}
++		bcrc32initialized = 1;
++	}
++exit:
++	return;
++}
++
++static u32 getcrc32(u8 *buf, sint len)
++{
++	u8 *p;
++	u32  crc;
++	if (bcrc32initialized == 0)
++		crc32_init();
++
++	crc = 0xffffffff;       /* preload shift register, per CRC-32 spec */
++
++	for (p = buf; len > 0; ++p, --len)
++		crc = crc32_table[(crc ^ *p) & 0xff] ^ (crc >> 8);
++	return ~crc;    /* transmit complement, per CRC-32 spec */
++}
++
++
++/*
++	Need to consider the fragment  situation
++*/
++void rtw_wep_encrypt(_adapter *padapter, u8 *pxmitframe)
++{
++	/* exclude ICV */
++
++	unsigned char	crc[4];
++	struct arc4context	 mycontext;
++
++	sint	curfragnum, length;
++	u32	keylength;
++
++	u8	*pframe, *payload, *iv;   /* ,*wepkey */
++	u8	wepkey[16];
++	u8   hw_hdr_offset = 0;
++	struct	pkt_attrib	*pattrib = &((struct xmit_frame *)pxmitframe)->attrib;
++	struct	security_priv	*psecuritypriv = &padapter->securitypriv;
++	struct	xmit_priv		*pxmitpriv = &padapter->xmitpriv;
++
++
++
++	if (((struct xmit_frame *)pxmitframe)->buf_addr == NULL)
++		return;
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	hw_hdr_offset = TXDESC_SIZE +
++		(((struct xmit_frame *)pxmitframe)->pkt_offset * PACKET_OFFSET_SZ);
++#else
++#ifdef CONFIG_TX_EARLY_MODE
++	hw_hdr_offset = TXDESC_OFFSET + EARLY_MODE_INFO_SIZE;
++#else
++	hw_hdr_offset = TXDESC_OFFSET;
++#endif
++#endif
++
++	pframe = ((struct xmit_frame *)pxmitframe)->buf_addr + hw_hdr_offset;
++
++	/* start to encrypt each fragment */
++	if ((pattrib->encrypt == _WEP40_) || (pattrib->encrypt == _WEP104_)) {
++		keylength = psecuritypriv->dot11DefKeylen[psecuritypriv->dot11PrivacyKeyIndex];
++
++		for (curfragnum = 0; curfragnum < pattrib->nr_frags; curfragnum++) {
++			iv = pframe + pattrib->hdrlen;
++			_rtw_memcpy(&wepkey[0], iv, 3);
++			_rtw_memcpy(&wepkey[3], &psecuritypriv->dot11DefKey[psecuritypriv->dot11PrivacyKeyIndex].skey[0], keylength);
++			payload = pframe + pattrib->iv_len + pattrib->hdrlen;
++
++			if ((curfragnum + 1) == pattrib->nr_frags) {
++				/* the last fragment */
++
++				length = pattrib->last_txcmdsz - pattrib->hdrlen - pattrib->iv_len - pattrib->icv_len;
++
++				*((u32 *)crc) = cpu_to_le32(getcrc32(payload, length));
++
++				arcfour_init(&mycontext, wepkey, 3 + keylength);
++				arcfour_encrypt(&mycontext, payload, payload, length);
++				arcfour_encrypt(&mycontext, payload + length, crc, 4);
++
++			} else {
++				length = pxmitpriv->frag_len - pattrib->hdrlen - pattrib->iv_len - pattrib->icv_len ;
++				*((u32 *)crc) = cpu_to_le32(getcrc32(payload, length));
++				arcfour_init(&mycontext, wepkey, 3 + keylength);
++				arcfour_encrypt(&mycontext, payload, payload, length);
++				arcfour_encrypt(&mycontext, payload + length, crc, 4);
++
++				pframe += pxmitpriv->frag_len;
++				pframe = (u8 *)RND4((SIZE_PTR)(pframe));
++
++			}
++
++		}
++
++		WEP_SW_ENC_CNT_INC(psecuritypriv, pattrib->ra);
++	}
++
++
++}
++
++void rtw_wep_decrypt(_adapter  *padapter, u8 *precvframe)
++{
++	/* exclude ICV */
++	u8	crc[4];
++	struct arc4context	 mycontext;
++	sint	length;
++	u32	keylength;
++	u8	*pframe, *payload, *iv, wepkey[16];
++	u8	 keyindex;
++	struct	rx_pkt_attrib	*prxattrib = &(((union recv_frame *)precvframe)->u.hdr.attrib);
++	struct	security_priv	*psecuritypriv = &padapter->securitypriv;
++
++
++	pframe = (unsigned char *)((union recv_frame *)precvframe)->u.hdr.rx_data;
++
++	/* start to decrypt recvframe */
++	if ((prxattrib->encrypt == _WEP40_) || (prxattrib->encrypt == _WEP104_)) {
++		iv = pframe + prxattrib->hdrlen;
++		/* keyindex=(iv[3]&0x3); */
++		keyindex = prxattrib->key_index;
++		keylength = psecuritypriv->dot11DefKeylen[keyindex];
++		_rtw_memcpy(&wepkey[0], iv, 3);
++		/* _rtw_memcpy(&wepkey[3], &psecuritypriv->dot11DefKey[psecuritypriv->dot11PrivacyKeyIndex].skey[0],keylength); */
++		_rtw_memcpy(&wepkey[3], &psecuritypriv->dot11DefKey[keyindex].skey[0], keylength);
++		length = ((union recv_frame *)precvframe)->u.hdr.len - prxattrib->hdrlen - prxattrib->iv_len;
++
++		payload = pframe + prxattrib->iv_len + prxattrib->hdrlen;
++
++		/* decrypt payload include icv */
++		arcfour_init(&mycontext, wepkey, 3 + keylength);
++		arcfour_encrypt(&mycontext, payload, payload,  length);
++
++		/* calculate icv and compare the icv */
++		*((u32 *)crc) = le32_to_cpu(getcrc32(payload, length - 4));
++
++
++		WEP_SW_DEC_CNT_INC(psecuritypriv, prxattrib->ra);
++	}
++
++
++	return;
++
++}
++
++/* 3		=====TKIP related===== */
++
++static u32 secmicgetuint32(u8 *p)
++/* Convert from Byte[] to Us4Byte32 in a portable way */
++{
++	s32 i;
++	u32 res = 0;
++	for (i = 0; i < 4; i++)
++		res |= ((u32)(*p++)) << (8 * i);
++	return res;
++}
++
++static void secmicputuint32(u8 *p, u32 val)
++/* Convert from Us4Byte32 to Byte[] in a portable way */
++{
++	long i;
++	for (i = 0; i < 4; i++) {
++		*p++ = (u8)(val & 0xff);
++		val >>= 8;
++	}
++}
++
++static void secmicclear(struct mic_data *pmicdata)
++{
++	/* Reset the state to the empty message. */
++	pmicdata->L = pmicdata->K0;
++	pmicdata->R = pmicdata->K1;
++	pmicdata->nBytesInM = 0;
++	pmicdata->M = 0;
++}
++
++void rtw_secmicsetkey(struct mic_data *pmicdata, u8 *key)
++{
++	/* Set the key */
++	pmicdata->K0 = secmicgetuint32(key);
++	pmicdata->K1 = secmicgetuint32(key + 4);
++	/* and reset the message */
++	secmicclear(pmicdata);
++}
++
++void rtw_secmicappendbyte(struct mic_data *pmicdata, u8 b)
++{
++	/* Append the byte to our word-sized buffer */
++	pmicdata->M |= ((unsigned long)b) << (8 * pmicdata->nBytesInM);
++	pmicdata->nBytesInM++;
++	/* Process the word if it is full. */
++	if (pmicdata->nBytesInM >= 4) {
++		pmicdata->L ^= pmicdata->M;
++		pmicdata->R ^= ROL32(pmicdata->L, 17);
++		pmicdata->L += pmicdata->R;
++		pmicdata->R ^= ((pmicdata->L & 0xff00ff00) >> 8) | ((pmicdata->L & 0x00ff00ff) << 8);
++		pmicdata->L += pmicdata->R;
++		pmicdata->R ^= ROL32(pmicdata->L, 3);
++		pmicdata->L += pmicdata->R;
++		pmicdata->R ^= ROR32(pmicdata->L, 2);
++		pmicdata->L += pmicdata->R;
++		/* Clear the buffer */
++		pmicdata->M = 0;
++		pmicdata->nBytesInM = 0;
++	}
++}
++
++void rtw_secmicappend(struct mic_data *pmicdata, u8 *src, u32 nbytes)
++{
++	/* This is simple */
++	while (nbytes > 0) {
++		rtw_secmicappendbyte(pmicdata, *src++);
++		nbytes--;
++	}
++}
++
++void rtw_secgetmic(struct mic_data *pmicdata, u8 *dst)
++{
++	/* Append the minimum padding */
++	rtw_secmicappendbyte(pmicdata, 0x5a);
++	rtw_secmicappendbyte(pmicdata, 0);
++	rtw_secmicappendbyte(pmicdata, 0);
++	rtw_secmicappendbyte(pmicdata, 0);
++	rtw_secmicappendbyte(pmicdata, 0);
++	/* and then zeroes until the length is a multiple of 4 */
++	while (pmicdata->nBytesInM != 0)
++		rtw_secmicappendbyte(pmicdata, 0);
++	/* The appendByte function has already computed the result. */
++	secmicputuint32(dst, pmicdata->L);
++	secmicputuint32(dst + 4, pmicdata->R);
++	/* Reset to the empty message. */
++	secmicclear(pmicdata);
++}
++
++
++void rtw_seccalctkipmic(u8 *key, u8 *header, u8 *data, u32 data_len, u8 *mic_code, u8 pri)
++{
++
++	struct mic_data	micdata;
++	u8 priority[4] = {0x0, 0x0, 0x0, 0x0};
++	rtw_secmicsetkey(&micdata, key);
++	priority[0] = pri;
++
++	/* Michael MIC pseudo header: DA, SA, 3 x 0, Priority */
++	if (header[1] & 1) { /* ToDS==1 */
++		rtw_secmicappend(&micdata, &header[16], 6);  /* DA */
++		if (header[1] & 2) /* From Ds==1 */
++			rtw_secmicappend(&micdata, &header[24], 6);
++		else
++			rtw_secmicappend(&micdata, &header[10], 6);
++	} else {	/* ToDS==0 */
++		rtw_secmicappend(&micdata, &header[4], 6);   /* DA */
++		if (header[1] & 2) /* From Ds==1 */
++			rtw_secmicappend(&micdata, &header[16], 6);
++		else
++			rtw_secmicappend(&micdata, &header[10], 6);
++
++	}
++	rtw_secmicappend(&micdata, &priority[0], 4);
++
++
++	rtw_secmicappend(&micdata, data, data_len);
++
++	rtw_secgetmic(&micdata, mic_code);
++}
++
++
++
++
++/* macros for extraction/creation of unsigned char/unsigned short values */
++#define RotR1(v16)   ((((v16) >> 1) & 0x7FFF) ^ (((v16) & 1) << 15))
++#define   Lo8(v16)   ((u8)((v16)       & 0x00FF))
++#define   Hi8(v16)   ((u8)(((v16) >> 8) & 0x00FF))
++#define  Lo16(v32)   ((u16)((v32)       & 0xFFFF))
++#define  Hi16(v32)   ((u16)(((v32) >> 16) & 0xFFFF))
++#define  Mk16(hi, lo) ((lo) ^ (((u16)(hi)) << 8))
++
++/* select the Nth 16-bit word of the temporal key unsigned char array TK[]  */
++#define  TK16(N)     Mk16(tk[2*(N)+1], tk[2*(N)])
++
++/* S-box lookup: 16 bits --> 16 bits */
++#define _S_(v16)     (Sbox1[0][Lo8(v16)] ^ Sbox1[1][Hi8(v16)])
++
++/* fixed algorithm "parameters" */
++#define PHASE1_LOOP_CNT   8    /* this needs to be "big enough"     */
++#define TA_SIZE           6    /*  48-bit transmitter address      */
++#define TK_SIZE          16    /* 128-bit temporal key             */
++#define P1K_SIZE         10    /*  80-bit Phase1 key               */
++#define RC4_KEY_SIZE     16    /* 128-bit RC4KEY (104 bits unknown) */
++
++
++/* 2-unsigned char by 2-unsigned char subset of the full AES S-box table */
++static const unsigned short Sbox1[2][256] =      /* Sbox for hash (can be in ROM)    */
++{ {
++		0xC6A5, 0xF884, 0xEE99, 0xF68D, 0xFF0D, 0xD6BD, 0xDEB1, 0x9154,
++		0x6050, 0x0203, 0xCEA9, 0x567D, 0xE719, 0xB562, 0x4DE6, 0xEC9A,
++		0x8F45, 0x1F9D, 0x8940, 0xFA87, 0xEF15, 0xB2EB, 0x8EC9, 0xFB0B,
++		0x41EC, 0xB367, 0x5FFD, 0x45EA, 0x23BF, 0x53F7, 0xE496, 0x9B5B,
++		0x75C2, 0xE11C, 0x3DAE, 0x4C6A, 0x6C5A, 0x7E41, 0xF502, 0x834F,
++		0x685C, 0x51F4, 0xD134, 0xF908, 0xE293, 0xAB73, 0x6253, 0x2A3F,
++		0x080C, 0x9552, 0x4665, 0x9D5E, 0x3028, 0x37A1, 0x0A0F, 0x2FB5,
++		0x0E09, 0x2436, 0x1B9B, 0xDF3D, 0xCD26, 0x4E69, 0x7FCD, 0xEA9F,
++		0x121B, 0x1D9E, 0x5874, 0x342E, 0x362D, 0xDCB2, 0xB4EE, 0x5BFB,
++		0xA4F6, 0x764D, 0xB761, 0x7DCE, 0x527B, 0xDD3E, 0x5E71, 0x1397,
++		0xA6F5, 0xB968, 0x0000, 0xC12C, 0x4060, 0xE31F, 0x79C8, 0xB6ED,
++		0xD4BE, 0x8D46, 0x67D9, 0x724B, 0x94DE, 0x98D4, 0xB0E8, 0x854A,
++		0xBB6B, 0xC52A, 0x4FE5, 0xED16, 0x86C5, 0x9AD7, 0x6655, 0x1194,
++		0x8ACF, 0xE910, 0x0406, 0xFE81, 0xA0F0, 0x7844, 0x25BA, 0x4BE3,
++		0xA2F3, 0x5DFE, 0x80C0, 0x058A, 0x3FAD, 0x21BC, 0x7048, 0xF104,
++		0x63DF, 0x77C1, 0xAF75, 0x4263, 0x2030, 0xE51A, 0xFD0E, 0xBF6D,
++		0x814C, 0x1814, 0x2635, 0xC32F, 0xBEE1, 0x35A2, 0x88CC, 0x2E39,
++		0x9357, 0x55F2, 0xFC82, 0x7A47, 0xC8AC, 0xBAE7, 0x322B, 0xE695,
++		0xC0A0, 0x1998, 0x9ED1, 0xA37F, 0x4466, 0x547E, 0x3BAB, 0x0B83,
++		0x8CCA, 0xC729, 0x6BD3, 0x283C, 0xA779, 0xBCE2, 0x161D, 0xAD76,
++		0xDB3B, 0x6456, 0x744E, 0x141E, 0x92DB, 0x0C0A, 0x486C, 0xB8E4,
++		0x9F5D, 0xBD6E, 0x43EF, 0xC4A6, 0x39A8, 0x31A4, 0xD337, 0xF28B,
++		0xD532, 0x8B43, 0x6E59, 0xDAB7, 0x018C, 0xB164, 0x9CD2, 0x49E0,
++		0xD8B4, 0xACFA, 0xF307, 0xCF25, 0xCAAF, 0xF48E, 0x47E9, 0x1018,
++		0x6FD5, 0xF088, 0x4A6F, 0x5C72, 0x3824, 0x57F1, 0x73C7, 0x9751,
++		0xCB23, 0xA17C, 0xE89C, 0x3E21, 0x96DD, 0x61DC, 0x0D86, 0x0F85,
++		0xE090, 0x7C42, 0x71C4, 0xCCAA, 0x90D8, 0x0605, 0xF701, 0x1C12,
++		0xC2A3, 0x6A5F, 0xAEF9, 0x69D0, 0x1791, 0x9958, 0x3A27, 0x27B9,
++		0xD938, 0xEB13, 0x2BB3, 0x2233, 0xD2BB, 0xA970, 0x0789, 0x33A7,
++		0x2DB6, 0x3C22, 0x1592, 0xC920, 0x8749, 0xAAFF, 0x5078, 0xA57A,
++		0x038F, 0x59F8, 0x0980, 0x1A17, 0x65DA, 0xD731, 0x84C6, 0xD0B8,
++		0x82C3, 0x29B0, 0x5A77, 0x1E11, 0x7BCB, 0xA8FC, 0x6DD6, 0x2C3A,
++	},
++
++
++	{  /* second half of table is unsigned char-reversed version of first! */
++		0xA5C6, 0x84F8, 0x99EE, 0x8DF6, 0x0DFF, 0xBDD6, 0xB1DE, 0x5491,
++		0x5060, 0x0302, 0xA9CE, 0x7D56, 0x19E7, 0x62B5, 0xE64D, 0x9AEC,
++		0x458F, 0x9D1F, 0x4089, 0x87FA, 0x15EF, 0xEBB2, 0xC98E, 0x0BFB,
++		0xEC41, 0x67B3, 0xFD5F, 0xEA45, 0xBF23, 0xF753, 0x96E4, 0x5B9B,
++		0xC275, 0x1CE1, 0xAE3D, 0x6A4C, 0x5A6C, 0x417E, 0x02F5, 0x4F83,
++		0x5C68, 0xF451, 0x34D1, 0x08F9, 0x93E2, 0x73AB, 0x5362, 0x3F2A,
++		0x0C08, 0x5295, 0x6546, 0x5E9D, 0x2830, 0xA137, 0x0F0A, 0xB52F,
++		0x090E, 0x3624, 0x9B1B, 0x3DDF, 0x26CD, 0x694E, 0xCD7F, 0x9FEA,
++		0x1B12, 0x9E1D, 0x7458, 0x2E34, 0x2D36, 0xB2DC, 0xEEB4, 0xFB5B,
++		0xF6A4, 0x4D76, 0x61B7, 0xCE7D, 0x7B52, 0x3EDD, 0x715E, 0x9713,
++		0xF5A6, 0x68B9, 0x0000, 0x2CC1, 0x6040, 0x1FE3, 0xC879, 0xEDB6,
++		0xBED4, 0x468D, 0xD967, 0x4B72, 0xDE94, 0xD498, 0xE8B0, 0x4A85,
++		0x6BBB, 0x2AC5, 0xE54F, 0x16ED, 0xC586, 0xD79A, 0x5566, 0x9411,
++		0xCF8A, 0x10E9, 0x0604, 0x81FE, 0xF0A0, 0x4478, 0xBA25, 0xE34B,
++		0xF3A2, 0xFE5D, 0xC080, 0x8A05, 0xAD3F, 0xBC21, 0x4870, 0x04F1,
++		0xDF63, 0xC177, 0x75AF, 0x6342, 0x3020, 0x1AE5, 0x0EFD, 0x6DBF,
++		0x4C81, 0x1418, 0x3526, 0x2FC3, 0xE1BE, 0xA235, 0xCC88, 0x392E,
++		0x5793, 0xF255, 0x82FC, 0x477A, 0xACC8, 0xE7BA, 0x2B32, 0x95E6,
++		0xA0C0, 0x9819, 0xD19E, 0x7FA3, 0x6644, 0x7E54, 0xAB3B, 0x830B,
++		0xCA8C, 0x29C7, 0xD36B, 0x3C28, 0x79A7, 0xE2BC, 0x1D16, 0x76AD,
++		0x3BDB, 0x5664, 0x4E74, 0x1E14, 0xDB92, 0x0A0C, 0x6C48, 0xE4B8,
++		0x5D9F, 0x6EBD, 0xEF43, 0xA6C4, 0xA839, 0xA431, 0x37D3, 0x8BF2,
++		0x32D5, 0x438B, 0x596E, 0xB7DA, 0x8C01, 0x64B1, 0xD29C, 0xE049,
++		0xB4D8, 0xFAAC, 0x07F3, 0x25CF, 0xAFCA, 0x8EF4, 0xE947, 0x1810,
++		0xD56F, 0x88F0, 0x6F4A, 0x725C, 0x2438, 0xF157, 0xC773, 0x5197,
++		0x23CB, 0x7CA1, 0x9CE8, 0x213E, 0xDD96, 0xDC61, 0x860D, 0x850F,
++		0x90E0, 0x427C, 0xC471, 0xAACC, 0xD890, 0x0506, 0x01F7, 0x121C,
++		0xA3C2, 0x5F6A, 0xF9AE, 0xD069, 0x9117, 0x5899, 0x273A, 0xB927,
++		0x38D9, 0x13EB, 0xB32B, 0x3322, 0xBBD2, 0x70A9, 0x8907, 0xA733,
++		0xB62D, 0x223C, 0x9215, 0x20C9, 0x4987, 0xFFAA, 0x7850, 0x7AA5,
++		0x8F03, 0xF859, 0x8009, 0x171A, 0xDA65, 0x31D7, 0xC684, 0xB8D0,
++		0xC382, 0xB029, 0x775A, 0x111E, 0xCB7B, 0xFCA8, 0xD66D, 0x3A2C,
++	}
++};
++
++/*
++**********************************************************************
++* Routine: Phase 1 -- generate P1K, given TA, TK, IV32
++*
++* Inputs:
++*     tk[]      = temporal key                         [128 bits]
++*     ta[]      = transmitter's MAC address            [ 48 bits]
++*     iv32      = upper 32 bits of IV                  [ 32 bits]
++* Output:
++*     p1k[]     = Phase 1 key                          [ 80 bits]
++*
++* Note:
++*     This function only needs to be called every 2**16 packets,
++*     although in theory it could be called every packet.
++*
++**********************************************************************
++*/
++static void phase1(u16 *p1k, const u8 *tk, const u8 *ta, u32 iv32)
++{
++	sint  i;
++	/* Initialize the 80 bits of P1K[] from IV32 and TA[0..5]    */
++	p1k[0]      = Lo16(iv32);
++	p1k[1]      = Hi16(iv32);
++	p1k[2]      = Mk16(ta[1], ta[0]); /* use TA[] as little-endian */
++	p1k[3]      = Mk16(ta[3], ta[2]);
++	p1k[4]      = Mk16(ta[5], ta[4]);
++
++	/* Now compute an unbalanced Feistel cipher with 80-bit block */
++	/* size on the 80-bit block P1K[], using the 128-bit key TK[] */
++	for (i = 0; i < PHASE1_LOOP_CNT ; i++) {
++		/* Each add operation here is mod 2**16 */
++		p1k[0] += _S_(p1k[4] ^ TK16((i & 1) + 0));
++		p1k[1] += _S_(p1k[0] ^ TK16((i & 1) + 2));
++		p1k[2] += _S_(p1k[1] ^ TK16((i & 1) + 4));
++		p1k[3] += _S_(p1k[2] ^ TK16((i & 1) + 6));
++		p1k[4] += _S_(p1k[3] ^ TK16((i & 1) + 0));
++		p1k[4] += (unsigned short)i;                     /* avoid "slide attacks" */
++	}
++}
++
++
++/*
++**********************************************************************
++* Routine: Phase 2 -- generate RC4KEY, given TK, P1K, IV16
++*
++* Inputs:
++*     tk[]      = Temporal key                         [128 bits]
++*     p1k[]     = Phase 1 output key                   [ 80 bits]
++*     iv16      = low 16 bits of IV counter            [ 16 bits]
++* Output:
++*     rc4key[]  = the key used to encrypt the packet   [128 bits]
++*
++* Note:
++*     The value {TA,IV32,IV16} for Phase1/Phase2 must be unique
++*     across all packets using the same key TK value. Then, for a
++*     given value of TK[], this TKIP48 construction guarantees that
++*     the final RC4KEY value is unique across all packets.
++*
++* Suggested implementation optimization: if PPK[] is "overlaid"
++*     appropriately on RC4KEY[], there is no need for the final
++*     for loop below that copies the PPK[] result into RC4KEY[].
++*
++**********************************************************************
++*/
++static void phase2(u8 *rc4key, const u8 *tk, const u16 *p1k, u16 iv16)
++{
++	sint  i;
++	u16 PPK[6];                          /* temporary key for mixing   */
++	/* Note: all adds in the PPK[] equations below are mod 2**16        */
++	for (i = 0; i < 5; i++)
++		PPK[i] = p1k[i];    /* first, copy P1K to PPK     */
++	PPK[5]  =  p1k[4] + iv16;            /* next,  add in IV16         */
++
++	/* Bijective non-linear mixing of the 96 bits of PPK[0..5]          */
++	PPK[0] +=    _S_(PPK[5] ^ TK16(0));   /* Mix key in each "round"     */
++	PPK[1] +=    _S_(PPK[0] ^ TK16(1));
++	PPK[2] +=    _S_(PPK[1] ^ TK16(2));
++	PPK[3] +=    _S_(PPK[2] ^ TK16(3));
++	PPK[4] +=    _S_(PPK[3] ^ TK16(4));
++	PPK[5] +=    _S_(PPK[4] ^ TK16(5));   /* Total # S-box lookups == 6 */
++
++	/* Final sweep: bijective, "linear". Rotates kill LSB correlations   */
++	PPK[0] +=  RotR1(PPK[5] ^ TK16(6));
++	PPK[1] +=  RotR1(PPK[0] ^ TK16(7));   /* Use all of TK[] in Phase2  */
++	PPK[2] +=  RotR1(PPK[1]);
++	PPK[3] +=  RotR1(PPK[2]);
++	PPK[4] +=  RotR1(PPK[3]);
++	PPK[5] +=  RotR1(PPK[4]);
++	/* Note: At this point, for a given key TK[0..15], the 96-bit output */
++	/*       value PPK[0..5] is guaranteed to be unique, as a function  */
++	/*       of the 96-bit "input" value   {TA,IV32,IV16}. That is, P1K  */
++	/*       is now a keyed permutation of {TA,IV32,IV16}.              */
++
++	/* Set RC4KEY[0..3], which includes "cleartext" portion of RC4 key   */
++	rc4key[0] = Hi8(iv16);                /* RC4KEY[0..2] is the WEP IV */
++	rc4key[1] = (Hi8(iv16) | 0x20) & 0x7F; /* Help avoid weak (FMS) keys */
++	rc4key[2] = Lo8(iv16);
++	rc4key[3] = Lo8((PPK[5] ^ TK16(0)) >> 1);
++
++
++	/* Copy 96 bits of PPK[0..5] to RC4KEY[4..15]  (little-endian)      */
++	for (i = 0; i < 6; i++) {
++		rc4key[4 + 2 * i] = Lo8(PPK[i]);
++		rc4key[5 + 2 * i] = Hi8(PPK[i]);
++	}
++}
++
++
++/* The hlen isn't include the IV */
++u32	rtw_tkip_encrypt(_adapter *padapter, u8 *pxmitframe)
++{
++	/* exclude ICV */
++	u16	pnl;
++	u32	pnh;
++	u8	rc4key[16];
++	u8   ttkey[16];
++	u8	crc[4];
++	u8   hw_hdr_offset = 0;
++	struct arc4context mycontext;
++	sint			curfragnum, length;
++	u32	prwskeylen;
++
++	u8	*pframe, *payload, *iv, *prwskey;
++	union pn48 dot11txpn;
++	/* struct	sta_info		*stainfo; */
++	struct	pkt_attrib	*pattrib = &((struct xmit_frame *)pxmitframe)->attrib;
++	struct	security_priv	*psecuritypriv = &padapter->securitypriv;
++	struct	xmit_priv		*pxmitpriv = &padapter->xmitpriv;
++	u32	res = _SUCCESS;
++
++	if (((struct xmit_frame *)pxmitframe)->buf_addr == NULL)
++		return _FAIL;
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	hw_hdr_offset = TXDESC_SIZE +
++		(((struct xmit_frame *)pxmitframe)->pkt_offset * PACKET_OFFSET_SZ);
++#else
++#ifdef CONFIG_TX_EARLY_MODE
++	hw_hdr_offset = TXDESC_OFFSET + EARLY_MODE_INFO_SIZE;
++#else
++	hw_hdr_offset = TXDESC_OFFSET;
++#endif
++#endif
++
++	pframe = ((struct xmit_frame *)pxmitframe)->buf_addr + hw_hdr_offset;
++	/* 4 start to encrypt each fragment */
++	if (pattrib->encrypt == _TKIP_) {
++
++		/*
++				if(pattrib->psta)
++				{
++					stainfo = pattrib->psta;
++				}
++				else
++				{
++					RTW_INFO("%s, call rtw_get_stainfo()\n", __func__);
++					stainfo=rtw_get_stainfo(&padapter->stapriv ,&pattrib->ra[0] );
++				}
++		*/
++		/* if (stainfo!=NULL) */
++		{
++			/*
++						if(!(stainfo->state &_FW_LINKED))
++						{
++							RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, stainfo->state);
++							return _FAIL;
++						}
++			*/
++
++			if (IS_MCAST(pattrib->ra))
++				prwskey = psecuritypriv->dot118021XGrpKey[psecuritypriv->dot118021XGrpKeyid].skey;
++			else {
++				/* prwskey=&stainfo->dot118021x_UncstKey.skey[0]; */
++				prwskey = pattrib->dot118021x_UncstKey.skey;
++			}
++
++			prwskeylen = 16;
++
++			for (curfragnum = 0; curfragnum < pattrib->nr_frags; curfragnum++) {
++				iv = pframe + pattrib->hdrlen;
++				payload = pframe + pattrib->iv_len + pattrib->hdrlen;
++
++				GET_TKIP_PN(iv, dot11txpn);
++
++				pnl = (u16)(dot11txpn.val);
++				pnh = (u32)(dot11txpn.val >> 16);
++
++				phase1((u16 *)&ttkey[0], prwskey, &pattrib->ta[0], pnh);
++
++				phase2(&rc4key[0], prwskey, (u16 *)&ttkey[0], pnl);
++
++				if ((curfragnum + 1) == pattrib->nr_frags) {	/* 4 the last fragment */
++					length = pattrib->last_txcmdsz - pattrib->hdrlen - pattrib->iv_len - pattrib->icv_len;
++					*((u32 *)crc) = cpu_to_le32(getcrc32(payload, length)); /* modified by Amy*/
++
++					arcfour_init(&mycontext, rc4key, 16);
++					arcfour_encrypt(&mycontext, payload, payload, length);
++					arcfour_encrypt(&mycontext, payload + length, crc, 4);
++
++				} else {
++					length = pxmitpriv->frag_len - pattrib->hdrlen - pattrib->iv_len - pattrib->icv_len ;
++					*((u32 *)crc) = cpu_to_le32(getcrc32(payload, length)); /* modified by Amy*/
++					arcfour_init(&mycontext, rc4key, 16);
++					arcfour_encrypt(&mycontext, payload, payload, length);
++					arcfour_encrypt(&mycontext, payload + length, crc, 4);
++
++					pframe += pxmitpriv->frag_len;
++					pframe = (u8 *)RND4((SIZE_PTR)(pframe));
++
++				}
++			}
++
++			TKIP_SW_ENC_CNT_INC(psecuritypriv, pattrib->ra);
++		}
++		/*
++				else{
++					RTW_INFO("%s, psta==NUL\n", __func__);
++					res=_FAIL;
++				}
++		*/
++
++	}
++	return res;
++
++}
++
++
++/* The hlen isn't include the IV */
++u32 rtw_tkip_decrypt(_adapter *padapter, u8 *precvframe)
++{
++	/* exclude ICV */
++	u16 pnl;
++	u32 pnh;
++	u8   rc4key[16];
++	u8   ttkey[16];
++	u8	crc[4];
++	struct arc4context mycontext;
++	sint			length;
++	u32	prwskeylen;
++
++	u8	*pframe, *payload, *iv, *prwskey;
++	union pn48 dot11txpn;
++	struct	sta_info		*stainfo;
++	struct	rx_pkt_attrib	*prxattrib = &((union recv_frame *)precvframe)->u.hdr.attrib;
++	struct	security_priv	*psecuritypriv = &padapter->securitypriv;
++	/*	struct	recv_priv		*precvpriv=&padapter->recvpriv; */
++	u32		res = _SUCCESS;
++
++
++	pframe = (unsigned char *)((union recv_frame *)precvframe)->u.hdr.rx_data;
++
++	/* 4 start to decrypt recvframe */
++	if (prxattrib->encrypt == _TKIP_) {
++
++		stainfo = rtw_get_stainfo(&padapter->stapriv , &prxattrib->ta[0]);
++		if (stainfo != NULL) {
++
++			if (IS_MCAST(prxattrib->ra)) {
++				static u32 start = 0;
++				static u32 no_gkey_bc_cnt = 0;
++				static u32 no_gkey_mc_cnt = 0;
++
++				if (psecuritypriv->binstallGrpkey == _FALSE) {
++					res = _FAIL;
++
++					if (start == 0)
++						start = rtw_get_current_time();
++
++					if (is_broadcast_mac_addr(prxattrib->ra))
++						no_gkey_bc_cnt++;
++					else
++						no_gkey_mc_cnt++;
++
++					if (rtw_get_passing_time_ms(start) > 1000) {
++						if (no_gkey_bc_cnt || no_gkey_mc_cnt) {
++							RTW_PRINT(FUNC_ADPT_FMT" no_gkey_bc_cnt:%u, no_gkey_mc_cnt:%u\n",
++								FUNC_ADPT_ARG(padapter), no_gkey_bc_cnt, no_gkey_mc_cnt);
++						}
++						start = rtw_get_current_time();
++						no_gkey_bc_cnt = 0;
++						no_gkey_mc_cnt = 0;
++					}
++					goto exit;
++				}
++
++				if (no_gkey_bc_cnt || no_gkey_mc_cnt) {
++					RTW_PRINT(FUNC_ADPT_FMT" gkey installed. no_gkey_bc_cnt:%u, no_gkey_mc_cnt:%u\n",
++						FUNC_ADPT_ARG(padapter), no_gkey_bc_cnt, no_gkey_mc_cnt);
++				}
++				start = 0;
++				no_gkey_bc_cnt = 0;
++				no_gkey_mc_cnt = 0;
++
++				/* RTW_INFO("rx bc/mc packets, to perform sw rtw_tkip_decrypt\n"); */
++				/* prwskey = psecuritypriv->dot118021XGrpKey[psecuritypriv->dot118021XGrpKeyid].skey; */
++				prwskey = psecuritypriv->dot118021XGrpKey[prxattrib->key_index].skey;
++				prwskeylen = 16;
++			} else {
++				prwskey = &stainfo->dot118021x_UncstKey.skey[0];
++				prwskeylen = 16;
++			}
++
++			iv = pframe + prxattrib->hdrlen;
++			payload = pframe + prxattrib->iv_len + prxattrib->hdrlen;
++			length = ((union recv_frame *)precvframe)->u.hdr.len - prxattrib->hdrlen - prxattrib->iv_len;
++
++			GET_TKIP_PN(iv, dot11txpn);
++
++			pnl = (u16)(dot11txpn.val);
++			pnh = (u32)(dot11txpn.val >> 16);
++
++			phase1((u16 *)&ttkey[0], prwskey, &prxattrib->ta[0], pnh);
++			phase2(&rc4key[0], prwskey, (unsigned short *)&ttkey[0], pnl);
++
++			/* 4 decrypt payload include icv */
++
++			arcfour_init(&mycontext, rc4key, 16);
++			arcfour_encrypt(&mycontext, payload, payload, length);
++
++			*((u32 *)crc) = le32_to_cpu(getcrc32(payload, length - 4));
++
++			if (crc[3] != payload[length - 1] || crc[2] != payload[length - 2] || crc[1] != payload[length - 3] || crc[0] != payload[length - 4]) {
++				res = _FAIL;
++			}
++
++			TKIP_SW_DEC_CNT_INC(psecuritypriv, prxattrib->ra);
++		} else {
++			res = _FAIL;
++		}
++
++	}
++exit:
++	return res;
++
++}
++
++
++/* 3			=====AES related===== */
++
++
++
++#define MAX_MSG_SIZE	2048
++/*****************************/
++/******** SBOX Table *********/
++/*****************************/
++
++static  u8 sbox_table[256] = {
++	0x63, 0x7c, 0x77, 0x7b, 0xf2, 0x6b, 0x6f, 0xc5,
++	0x30, 0x01, 0x67, 0x2b, 0xfe, 0xd7, 0xab, 0x76,
++	0xca, 0x82, 0xc9, 0x7d, 0xfa, 0x59, 0x47, 0xf0,
++	0xad, 0xd4, 0xa2, 0xaf, 0x9c, 0xa4, 0x72, 0xc0,
++	0xb7, 0xfd, 0x93, 0x26, 0x36, 0x3f, 0xf7, 0xcc,
++	0x34, 0xa5, 0xe5, 0xf1, 0x71, 0xd8, 0x31, 0x15,
++	0x04, 0xc7, 0x23, 0xc3, 0x18, 0x96, 0x05, 0x9a,
++	0x07, 0x12, 0x80, 0xe2, 0xeb, 0x27, 0xb2, 0x75,
++	0x09, 0x83, 0x2c, 0x1a, 0x1b, 0x6e, 0x5a, 0xa0,
++	0x52, 0x3b, 0xd6, 0xb3, 0x29, 0xe3, 0x2f, 0x84,
++	0x53, 0xd1, 0x00, 0xed, 0x20, 0xfc, 0xb1, 0x5b,
++	0x6a, 0xcb, 0xbe, 0x39, 0x4a, 0x4c, 0x58, 0xcf,
++	0xd0, 0xef, 0xaa, 0xfb, 0x43, 0x4d, 0x33, 0x85,
++	0x45, 0xf9, 0x02, 0x7f, 0x50, 0x3c, 0x9f, 0xa8,
++	0x51, 0xa3, 0x40, 0x8f, 0x92, 0x9d, 0x38, 0xf5,
++	0xbc, 0xb6, 0xda, 0x21, 0x10, 0xff, 0xf3, 0xd2,
++	0xcd, 0x0c, 0x13, 0xec, 0x5f, 0x97, 0x44, 0x17,
++	0xc4, 0xa7, 0x7e, 0x3d, 0x64, 0x5d, 0x19, 0x73,
++	0x60, 0x81, 0x4f, 0xdc, 0x22, 0x2a, 0x90, 0x88,
++	0x46, 0xee, 0xb8, 0x14, 0xde, 0x5e, 0x0b, 0xdb,
++	0xe0, 0x32, 0x3a, 0x0a, 0x49, 0x06, 0x24, 0x5c,
++	0xc2, 0xd3, 0xac, 0x62, 0x91, 0x95, 0xe4, 0x79,
++	0xe7, 0xc8, 0x37, 0x6d, 0x8d, 0xd5, 0x4e, 0xa9,
++	0x6c, 0x56, 0xf4, 0xea, 0x65, 0x7a, 0xae, 0x08,
++	0xba, 0x78, 0x25, 0x2e, 0x1c, 0xa6, 0xb4, 0xc6,
++	0xe8, 0xdd, 0x74, 0x1f, 0x4b, 0xbd, 0x8b, 0x8a,
++	0x70, 0x3e, 0xb5, 0x66, 0x48, 0x03, 0xf6, 0x0e,
++	0x61, 0x35, 0x57, 0xb9, 0x86, 0xc1, 0x1d, 0x9e,
++	0xe1, 0xf8, 0x98, 0x11, 0x69, 0xd9, 0x8e, 0x94,
++	0x9b, 0x1e, 0x87, 0xe9, 0xce, 0x55, 0x28, 0xdf,
++	0x8c, 0xa1, 0x89, 0x0d, 0xbf, 0xe6, 0x42, 0x68,
++	0x41, 0x99, 0x2d, 0x0f, 0xb0, 0x54, 0xbb, 0x16
++};
++
++/*****************************/
++/**** Function Prototypes ****/
++/*****************************/
++
++static void bitwise_xor(u8 *ina, u8 *inb, u8 *out);
++static void construct_mic_iv(
++	u8 *mic_header1,
++	sint qc_exists,
++	sint a4_exists,
++	u8 *mpdu,
++	uint payload_length,
++	u8 *pn_vector,
++	uint frtype);/* add for CONFIG_IEEE80211W, none 11w also can use */
++static void construct_mic_header1(
++	u8 *mic_header1,
++	sint header_length,
++	u8 *mpdu,
++	uint frtype);/* add for CONFIG_IEEE80211W, none 11w also can use */
++static void construct_mic_header2(
++	u8 *mic_header2,
++	u8 *mpdu,
++	sint a4_exists,
++	sint qc_exists);
++static void construct_ctr_preload(
++	u8 *ctr_preload,
++	sint a4_exists,
++	sint qc_exists,
++	u8 *mpdu,
++	u8 *pn_vector,
++	sint c,
++	uint frtype);/* add for CONFIG_IEEE80211W, none 11w also can use */
++static void xor_128(u8 *a, u8 *b, u8 *out);
++static void xor_32(u8 *a, u8 *b, u8 *out);
++static u8 sbox(u8 a);
++static void next_key(u8 *key, sint round);
++static void byte_sub(u8 *in, u8 *out);
++static void shift_row(u8 *in, u8 *out);
++static void mix_column(u8 *in, u8 *out);
++#ifndef PLATFORM_FREEBSD
++static void add_round_key(u8 *shiftrow_in,
++			  u8 *mcol_in,
++			  u8 *block_in,
++			  sint round,
++			  u8 *out);
++#endif /* PLATFORM_FREEBSD */
++static void aes128k128d(u8 *key, u8 *data, u8 *ciphertext);
++
++
++/****************************************/
++/* aes128k128d()                       */
++/* Performs a 128 bit AES encrypt with */
++/* 128 bit data.                       */
++/****************************************/
++static void xor_128(u8 *a, u8 *b, u8 *out)
++{
++	sint i;
++	for (i = 0; i < 16; i++)
++		out[i] = a[i] ^ b[i];
++}
++
++
++static void xor_32(u8 *a, u8 *b, u8 *out)
++{
++	sint i;
++	for (i = 0; i < 4; i++)
++		out[i] = a[i] ^ b[i];
++}
++
++
++static u8 sbox(u8 a)
++{
++	return sbox_table[(sint)a];
++}
++
++
++static void next_key(u8 *key, sint round)
++{
++	u8 rcon;
++	u8 sbox_key[4];
++	u8 rcon_table[12] = {
++		0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80,
++		0x1b, 0x36, 0x36, 0x36
++	};
++	sbox_key[0] = sbox(key[13]);
++	sbox_key[1] = sbox(key[14]);
++	sbox_key[2] = sbox(key[15]);
++	sbox_key[3] = sbox(key[12]);
++
++	rcon = rcon_table[round];
++
++	xor_32(&key[0], sbox_key, &key[0]);
++	key[0] = key[0] ^ rcon;
++
++	xor_32(&key[4], &key[0], &key[4]);
++	xor_32(&key[8], &key[4], &key[8]);
++	xor_32(&key[12], &key[8], &key[12]);
++}
++
++
++static void byte_sub(u8 *in, u8 *out)
++{
++	sint i;
++	for (i = 0; i < 16; i++)
++		out[i] = sbox(in[i]);
++}
++
++
++static void shift_row(u8 *in, u8 *out)
++{
++	out[0] =  in[0];
++	out[1] =  in[5];
++	out[2] =  in[10];
++	out[3] =  in[15];
++	out[4] =  in[4];
++	out[5] =  in[9];
++	out[6] =  in[14];
++	out[7] =  in[3];
++	out[8] =  in[8];
++	out[9] =  in[13];
++	out[10] = in[2];
++	out[11] = in[7];
++	out[12] = in[12];
++	out[13] = in[1];
++	out[14] = in[6];
++	out[15] = in[11];
++}
++
++
++static void mix_column(u8 *in, u8 *out)
++{
++	sint i;
++	u8 add1b[4];
++	u8 add1bf7[4];
++	u8 rotl[4];
++	u8 swap_halfs[4];
++	u8 andf7[4];
++	u8 rotr[4];
++	u8 temp[4];
++	u8 tempb[4];
++	for (i = 0 ; i < 4; i++) {
++		if ((in[i] & 0x80) == 0x80)
++			add1b[i] = 0x1b;
++		else
++			add1b[i] = 0x00;
++	}
++
++	swap_halfs[0] = in[2];    /* Swap halfs */
++	swap_halfs[1] = in[3];
++	swap_halfs[2] = in[0];
++	swap_halfs[3] = in[1];
++
++	rotl[0] = in[3];        /* Rotate left 8 bits */
++	rotl[1] = in[0];
++	rotl[2] = in[1];
++	rotl[3] = in[2];
++
++	andf7[0] = in[0] & 0x7f;
++	andf7[1] = in[1] & 0x7f;
++	andf7[2] = in[2] & 0x7f;
++	andf7[3] = in[3] & 0x7f;
++
++	for (i = 3; i > 0; i--) { /* logical shift left 1 bit */
++		andf7[i] = andf7[i] << 1;
++		if ((andf7[i - 1] & 0x80) == 0x80)
++			andf7[i] = (andf7[i] | 0x01);
++	}
++	andf7[0] = andf7[0] << 1;
++	andf7[0] = andf7[0] & 0xfe;
++
++	xor_32(add1b, andf7, add1bf7);
++
++	xor_32(in, add1bf7, rotr);
++
++	temp[0] = rotr[0];         /* Rotate right 8 bits */
++	rotr[0] = rotr[1];
++	rotr[1] = rotr[2];
++	rotr[2] = rotr[3];
++	rotr[3] = temp[0];
++
++	xor_32(add1bf7, rotr, temp);
++	xor_32(swap_halfs, rotl, tempb);
++	xor_32(temp, tempb, out);
++}
++
++
++static void aes128k128d(u8 *key, u8 *data, u8 *ciphertext)
++{
++	sint round;
++	sint i;
++	u8 intermediatea[16];
++	u8 intermediateb[16];
++	u8 round_key[16];
++	for (i = 0; i < 16; i++)
++		round_key[i] = key[i];
++
++	for (round = 0; round < 11; round++) {
++		if (round == 0) {
++			xor_128(round_key, data, ciphertext);
++			next_key(round_key, round);
++		} else if (round == 10) {
++			byte_sub(ciphertext, intermediatea);
++			shift_row(intermediatea, intermediateb);
++			xor_128(intermediateb, round_key, ciphertext);
++		} else { /* 1 - 9 */
++			byte_sub(ciphertext, intermediatea);
++			shift_row(intermediatea, intermediateb);
++			mix_column(&intermediateb[0], &intermediatea[0]);
++			mix_column(&intermediateb[4], &intermediatea[4]);
++			mix_column(&intermediateb[8], &intermediatea[8]);
++			mix_column(&intermediateb[12], &intermediatea[12]);
++			xor_128(intermediatea, round_key, ciphertext);
++			next_key(round_key, round);
++		}
++	}
++}
++
++
++/************************************************/
++/* construct_mic_iv()                          */
++/* Builds the MIC IV from header fields and PN */
++/* Baron think the function is construct CCM   */
++/* nonce                                       */
++/************************************************/
++static void construct_mic_iv(
++	u8 *mic_iv,
++	sint qc_exists,
++	sint a4_exists,
++	u8 *mpdu,
++	uint payload_length,
++	u8 *pn_vector,
++	uint frtype/* add for CONFIG_IEEE80211W, none 11w also can use */
++)
++{
++	sint i;
++	mic_iv[0] = 0x59;
++	if (qc_exists && a4_exists)
++		mic_iv[1] = mpdu[30] & 0x0f;    /* QoS_TC          */
++	if (qc_exists && !a4_exists)
++		mic_iv[1] = mpdu[24] & 0x0f;   /* mute bits 7-4   */
++	if (!qc_exists)
++		mic_iv[1] = 0x00;
++#ifdef CONFIG_IEEE80211W
++	/* 802.11w management frame should set management bit(4) */
++	if (frtype == WIFI_MGT_TYPE)
++		mic_iv[1] |= BIT(4);
++#endif /* CONFIG_IEEE80211W */
++	for (i = 2; i < 8; i++)
++		mic_iv[i] = mpdu[i + 8];                    /* mic_iv[2:7] = A2[0:5] = mpdu[10:15] */
++#ifdef CONSISTENT_PN_ORDER
++	for (i = 8; i < 14; i++)
++		mic_iv[i] = pn_vector[i - 8];           /* mic_iv[8:13] = PN[0:5] */
++#else
++	for (i = 8; i < 14; i++)
++		mic_iv[i] = pn_vector[13 - i];          /* mic_iv[8:13] = PN[5:0] */
++#endif
++	mic_iv[14] = (unsigned char)(payload_length / 256);
++	mic_iv[15] = (unsigned char)(payload_length % 256);
++}
++
++
++/************************************************/
++/* construct_mic_header1()                     */
++/* Builds the first MIC header block from      */
++/* header fields.                              */
++/* Build AAD SC,A1,A2                          */
++/************************************************/
++static void construct_mic_header1(
++	u8 *mic_header1,
++	sint header_length,
++	u8 *mpdu,
++	uint frtype/* add for CONFIG_IEEE80211W, none 11w also can use */
++)
++{
++	mic_header1[0] = (u8)((header_length - 2) / 256);
++	mic_header1[1] = (u8)((header_length - 2) % 256);
++#ifdef CONFIG_IEEE80211W
++	/* 802.11w management frame don't AND subtype bits 4,5,6 of frame control field */
++	if (frtype == WIFI_MGT_TYPE)
++		mic_header1[2] = mpdu[0];
++	else
++#endif /* CONFIG_IEEE80211W */
++		mic_header1[2] = mpdu[0] & 0xcf;    /* Mute CF poll & CF ack bits */
++
++	mic_header1[3] = mpdu[1] & 0xc7;    /* Mute retry, more data and pwr mgt bits */
++	mic_header1[4] = mpdu[4];       /* A1 */
++	mic_header1[5] = mpdu[5];
++	mic_header1[6] = mpdu[6];
++	mic_header1[7] = mpdu[7];
++	mic_header1[8] = mpdu[8];
++	mic_header1[9] = mpdu[9];
++	mic_header1[10] = mpdu[10];     /* A2 */
++	mic_header1[11] = mpdu[11];
++	mic_header1[12] = mpdu[12];
++	mic_header1[13] = mpdu[13];
++	mic_header1[14] = mpdu[14];
++	mic_header1[15] = mpdu[15];
++}
++
++
++/************************************************/
++/* construct_mic_header2()                     */
++/* Builds the last MIC header block from       */
++/* header fields.                              */
++/************************************************/
++static void construct_mic_header2(
++	u8 *mic_header2,
++	u8 *mpdu,
++	sint a4_exists,
++	sint qc_exists
++)
++{
++	sint i;
++	for (i = 0; i < 16; i++)
++		mic_header2[i] = 0x00;
++
++	mic_header2[0] = mpdu[16];    /* A3 */
++	mic_header2[1] = mpdu[17];
++	mic_header2[2] = mpdu[18];
++	mic_header2[3] = mpdu[19];
++	mic_header2[4] = mpdu[20];
++	mic_header2[5] = mpdu[21];
++
++	/* mic_header2[6] = mpdu[22] & 0xf0;    SC */
++	mic_header2[6] = 0x00;
++	mic_header2[7] = 0x00; /* mpdu[23]; */
++
++
++	if (!qc_exists && a4_exists) {
++		for (i = 0; i < 6; i++)
++			mic_header2[8 + i] = mpdu[24 + i]; /* A4 */
++
++	}
++
++	if (qc_exists && !a4_exists) {
++		mic_header2[8] = mpdu[24] & 0x0f; /* mute bits 15 - 4 */
++		mic_header2[9] = mpdu[25] & 0x00;
++	}
++
++	if (qc_exists && a4_exists) {
++		for (i = 0; i < 6; i++)
++			mic_header2[8 + i] = mpdu[24 + i]; /* A4 */
++
++		mic_header2[14] = mpdu[30] & 0x0f;
++		mic_header2[15] = mpdu[31] & 0x00;
++	}
++
++}
++
++
++/************************************************/
++/* construct_mic_header2()                     */
++/* Builds the last MIC header block from       */
++/* header fields.                              */
++/* Baron think the function is construct CCM   */
++/* nonce                                       */
++/************************************************/
++static void construct_ctr_preload(
++	u8 *ctr_preload,
++	sint a4_exists,
++	sint qc_exists,
++	u8 *mpdu,
++	u8 *pn_vector,
++	sint c,
++	uint frtype /* add for CONFIG_IEEE80211W, none 11w also can use */
++)
++{
++	sint i = 0;
++	for (i = 0; i < 16; i++)
++		ctr_preload[i] = 0x00;
++	i = 0;
++
++	ctr_preload[0] = 0x01;                                  /* flag */
++	if (qc_exists && a4_exists)
++		ctr_preload[1] = mpdu[30] & 0x0f;   /* QoC_Control */
++	if (qc_exists && !a4_exists)
++		ctr_preload[1] = mpdu[24] & 0x0f;
++#ifdef CONFIG_IEEE80211W
++	/* 802.11w management frame should set management bit(4) */
++	if (frtype == WIFI_MGT_TYPE)
++		ctr_preload[1] |= BIT(4);
++#endif /* CONFIG_IEEE80211W */
++	for (i = 2; i < 8; i++)
++		ctr_preload[i] = mpdu[i + 8];                       /* ctr_preload[2:7] = A2[0:5] = mpdu[10:15] */
++#ifdef CONSISTENT_PN_ORDER
++	for (i = 8; i < 14; i++)
++		ctr_preload[i] =    pn_vector[i - 8];           /* ctr_preload[8:13] = PN[0:5] */
++#else
++	for (i = 8; i < 14; i++)
++		ctr_preload[i] =    pn_vector[13 - i];          /* ctr_preload[8:13] = PN[5:0] */
++#endif
++	ctr_preload[14] = (unsigned char)(c / 256);   /* Ctr */
++	ctr_preload[15] = (unsigned char)(c % 256);
++}
++
++
++/************************************/
++/* bitwise_xor()                   */
++/* A 128 bit, bitwise exclusive or */
++/************************************/
++static void bitwise_xor(u8 *ina, u8 *inb, u8 *out)
++{
++	sint i;
++	for (i = 0; i < 16; i++)
++		out[i] = ina[i] ^ inb[i];
++}
++
++
++static sint aes_cipher(u8 *key, uint	hdrlen,
++		       u8 *pframe, uint plen)
++{
++	/*	static unsigned char	message[MAX_MSG_SIZE]; */
++	uint	qc_exists, a4_exists, i, j, payload_remainder,
++		num_blocks, payload_index;
++
++	u8 pn_vector[6];
++	u8 mic_iv[16];
++	u8 mic_header1[16];
++	u8 mic_header2[16];
++	u8 ctr_preload[16];
++
++	/* Intermediate Buffers */
++	u8 chain_buffer[16];
++	u8 aes_out[16];
++	u8 padded_buffer[16];
++	u8 mic[8];
++	/*	uint	offset = 0; */
++	uint	frtype  = GetFrameType(pframe);
++	uint	frsubtype  = GetFrameSubType(pframe);
++
++	frsubtype = frsubtype >> 4;
++
++
++	_rtw_memset((void *)mic_iv, 0, 16);
++	_rtw_memset((void *)mic_header1, 0, 16);
++	_rtw_memset((void *)mic_header2, 0, 16);
++	_rtw_memset((void *)ctr_preload, 0, 16);
++	_rtw_memset((void *)chain_buffer, 0, 16);
++	_rtw_memset((void *)aes_out, 0, 16);
++	_rtw_memset((void *)padded_buffer, 0, 16);
++
++	if ((hdrlen == WLAN_HDR_A3_LEN) || (hdrlen ==  WLAN_HDR_A3_QOS_LEN))
++		a4_exists = 0;
++	else
++		a4_exists = 1;
++
++	if (
++		((frtype | frsubtype) == WIFI_DATA_CFACK) ||
++		((frtype | frsubtype) == WIFI_DATA_CFPOLL) ||
++		((frtype | frsubtype) == WIFI_DATA_CFACKPOLL)) {
++		qc_exists = 1;
++		if (hdrlen !=  WLAN_HDR_A3_QOS_LEN)
++
++			hdrlen += 2;
++	}
++	/* add for CONFIG_IEEE80211W, none 11w also can use */
++	else if ((frtype == WIFI_DATA) &&
++		 ((frsubtype == 0x08) ||
++		  (frsubtype == 0x09) ||
++		  (frsubtype == 0x0a) ||
++		  (frsubtype == 0x0b))) {
++		if (hdrlen !=  WLAN_HDR_A3_QOS_LEN)
++
++			hdrlen += 2;
++		qc_exists = 1;
++	} else
++		qc_exists = 0;
++
++	pn_vector[0] = pframe[hdrlen];
++	pn_vector[1] = pframe[hdrlen + 1];
++	pn_vector[2] = pframe[hdrlen + 4];
++	pn_vector[3] = pframe[hdrlen + 5];
++	pn_vector[4] = pframe[hdrlen + 6];
++	pn_vector[5] = pframe[hdrlen + 7];
++
++	construct_mic_iv(
++		mic_iv,
++		qc_exists,
++		a4_exists,
++		pframe,	 /* message, */
++		plen,
++		pn_vector,
++		frtype /* add for CONFIG_IEEE80211W, none 11w also can use */
++	);
++
++	construct_mic_header1(
++		mic_header1,
++		hdrlen,
++		pframe,	/* message */
++		frtype /* add for CONFIG_IEEE80211W, none 11w also can use */
++	);
++	construct_mic_header2(
++		mic_header2,
++		pframe,	/* message, */
++		a4_exists,
++		qc_exists
++	);
++
++
++	payload_remainder = plen % 16;
++	num_blocks = plen / 16;
++
++	/* Find start of payload */
++	payload_index = (hdrlen + 8);
++
++	/* Calculate MIC */
++	aes128k128d(key, mic_iv, aes_out);
++	bitwise_xor(aes_out, mic_header1, chain_buffer);
++	aes128k128d(key, chain_buffer, aes_out);
++	bitwise_xor(aes_out, mic_header2, chain_buffer);
++	aes128k128d(key, chain_buffer, aes_out);
++
++	for (i = 0; i < num_blocks; i++) {
++		bitwise_xor(aes_out, &pframe[payload_index], chain_buffer);/* bitwise_xor(aes_out, &message[payload_index], chain_buffer); */
++
++		payload_index += 16;
++		aes128k128d(key, chain_buffer, aes_out);
++	}
++
++	/* Add on the final payload block if it needs padding */
++	if (payload_remainder > 0) {
++		for (j = 0; j < 16; j++)
++			padded_buffer[j] = 0x00;
++		for (j = 0; j < payload_remainder; j++) {
++			padded_buffer[j] = pframe[payload_index++];/* padded_buffer[j] = message[payload_index++]; */
++		}
++		bitwise_xor(aes_out, padded_buffer, chain_buffer);
++		aes128k128d(key, chain_buffer, aes_out);
++
++	}
++
++	for (j = 0 ; j < 8; j++)
++		mic[j] = aes_out[j];
++
++	/* Insert MIC into payload */
++	for (j = 0; j < 8; j++)
++		pframe[payload_index + j] = mic[j];	/* message[payload_index+j] = mic[j]; */
++
++	payload_index = hdrlen + 8;
++	for (i = 0; i < num_blocks; i++) {
++		construct_ctr_preload(
++			ctr_preload,
++			a4_exists,
++			qc_exists,
++			pframe,	/* message, */
++			pn_vector,
++			i + 1,
++			frtype); /* add for CONFIG_IEEE80211W, none 11w also can use */
++		aes128k128d(key, ctr_preload, aes_out);
++		bitwise_xor(aes_out, &pframe[payload_index], chain_buffer);/* bitwise_xor(aes_out, &message[payload_index], chain_buffer); */
++		for (j = 0; j < 16; j++)
++			pframe[payload_index++] = chain_buffer[j];/* for (j=0; j<16;j++) message[payload_index++] = chain_buffer[j]; */
++	}
++
++	if (payload_remainder > 0) {        /* If there is a short final block, then pad it,*/
++		/* encrypt it and copy the unpadded part back  */
++		construct_ctr_preload(
++			ctr_preload,
++			a4_exists,
++			qc_exists,
++			pframe,	/* message, */
++			pn_vector,
++			num_blocks + 1,
++			frtype); /* add for CONFIG_IEEE80211W, none 11w also can use */
++
++		for (j = 0; j < 16; j++)
++			padded_buffer[j] = 0x00;
++		for (j = 0; j < payload_remainder; j++) {
++			padded_buffer[j] = pframe[payload_index + j]; /* padded_buffer[j] = message[payload_index+j]; */
++		}
++		aes128k128d(key, ctr_preload, aes_out);
++		bitwise_xor(aes_out, padded_buffer, chain_buffer);
++		for (j = 0; j < payload_remainder; j++)
++			pframe[payload_index++] = chain_buffer[j];/* for (j=0; j<payload_remainder;j++) message[payload_index++] = chain_buffer[j]; */
++	}
++
++	/* Encrypt the MIC */
++	construct_ctr_preload(
++		ctr_preload,
++		a4_exists,
++		qc_exists,
++		pframe,	/* message, */
++		pn_vector,
++		0,
++		frtype); /* add for CONFIG_IEEE80211W, none 11w also can use */
++
++	for (j = 0; j < 16; j++)
++		padded_buffer[j] = 0x00;
++	for (j = 0; j < 8; j++) {
++		padded_buffer[j] = pframe[j + hdrlen + 8 + plen]; /* padded_buffer[j] = message[j+hdrlen+8+plen]; */
++	}
++
++	aes128k128d(key, ctr_preload, aes_out);
++	bitwise_xor(aes_out, padded_buffer, chain_buffer);
++	for (j = 0; j < 8; j++)
++		pframe[payload_index++] = chain_buffer[j];/* for (j=0; j<8;j++) message[payload_index++] = chain_buffer[j]; */
++	return _SUCCESS;
++}
++
++
++
++
++
++u32	rtw_aes_encrypt(_adapter *padapter, u8 *pxmitframe)
++{
++	/* exclude ICV */
++
++
++	/*static*/
++	/*	unsigned char	message[MAX_MSG_SIZE]; */
++
++	/* Intermediate Buffers */
++	sint	curfragnum, length;
++	u32	prwskeylen;
++	u8	*pframe, *prwskey;	/* , *payload,*iv */
++	u8   hw_hdr_offset = 0;
++	/* struct	sta_info		*stainfo=NULL; */
++	struct	pkt_attrib	*pattrib = &((struct xmit_frame *)pxmitframe)->attrib;
++	struct	security_priv	*psecuritypriv = &padapter->securitypriv;
++	struct	xmit_priv		*pxmitpriv = &padapter->xmitpriv;
++
++	/*	uint	offset = 0; */
++	u32 res = _SUCCESS;
++
++	if (((struct xmit_frame *)pxmitframe)->buf_addr == NULL)
++		return _FAIL;
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	hw_hdr_offset = TXDESC_SIZE +
++		(((struct xmit_frame *)pxmitframe)->pkt_offset * PACKET_OFFSET_SZ);
++#else
++#ifdef CONFIG_TX_EARLY_MODE
++	hw_hdr_offset = TXDESC_OFFSET + EARLY_MODE_INFO_SIZE;
++#else
++	hw_hdr_offset = TXDESC_OFFSET;
++#endif
++#endif
++
++	pframe = ((struct xmit_frame *)pxmitframe)->buf_addr + hw_hdr_offset;
++
++	/* 4 start to encrypt each fragment */
++	if ((pattrib->encrypt == _AES_)) {
++		/*
++				if(pattrib->psta)
++				{
++					stainfo = pattrib->psta;
++				}
++				else
++				{
++					RTW_INFO("%s, call rtw_get_stainfo()\n", __func__);
++					stainfo=rtw_get_stainfo(&padapter->stapriv ,&pattrib->ra[0] );
++				}
++		*/
++		/* if (stainfo!=NULL) */
++		{
++			/*
++						if(!(stainfo->state &_FW_LINKED))
++						{
++							RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, stainfo->state);
++							return _FAIL;
++						}
++			*/
++
++			if (IS_MCAST(pattrib->ra))
++				prwskey = psecuritypriv->dot118021XGrpKey[psecuritypriv->dot118021XGrpKeyid].skey;
++			else {
++				/* prwskey=&stainfo->dot118021x_UncstKey.skey[0]; */
++				prwskey = pattrib->dot118021x_UncstKey.skey;
++			}
++
++#ifdef CONFIG_TDLS
++			{
++				/* Swencryption */
++				struct	sta_info		*ptdls_sta;
++				ptdls_sta = rtw_get_stainfo(&padapter->stapriv , &pattrib->dst[0]);
++				if ((ptdls_sta != NULL) && (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE)) {
++					RTW_INFO("[%s] for tdls link\n", __FUNCTION__);
++					prwskey = &ptdls_sta->tpk.tk[0];
++				}
++			}
++#endif /* CONFIG_TDLS */
++
++			prwskeylen = 16;
++
++			for (curfragnum = 0; curfragnum < pattrib->nr_frags; curfragnum++) {
++
++				if ((curfragnum + 1) == pattrib->nr_frags) {	/* 4 the last fragment */
++					length = pattrib->last_txcmdsz - pattrib->hdrlen - pattrib->iv_len - pattrib->icv_len;
++
++					aes_cipher(prwskey, pattrib->hdrlen, pframe, length);
++				} else {
++					length = pxmitpriv->frag_len - pattrib->hdrlen - pattrib->iv_len - pattrib->icv_len ;
++
++					aes_cipher(prwskey, pattrib->hdrlen, pframe, length);
++					pframe += pxmitpriv->frag_len;
++					pframe = (u8 *)RND4((SIZE_PTR)(pframe));
++
++				}
++			}
++
++			AES_SW_ENC_CNT_INC(psecuritypriv, pattrib->ra);
++		}
++		/*
++				else{
++					RTW_INFO("%s, psta==NUL\n", __func__);
++					res=_FAIL;
++				}
++		*/
++	}
++
++
++
++	return res;
++}
++
++static sint aes_decipher(u8 *key, uint	hdrlen,
++			 u8 *pframe, uint plen)
++{
++	static u8	message[MAX_MSG_SIZE];
++	uint	qc_exists, a4_exists, i, j, payload_remainder,
++		num_blocks, payload_index;
++	sint res = _SUCCESS;
++	u8 pn_vector[6];
++	u8 mic_iv[16];
++	u8 mic_header1[16];
++	u8 mic_header2[16];
++	u8 ctr_preload[16];
++
++	/* Intermediate Buffers */
++	u8 chain_buffer[16];
++	u8 aes_out[16];
++	u8 padded_buffer[16];
++	u8 mic[8];
++
++
++	/*	uint	offset = 0; */
++	uint	frtype  = GetFrameType(pframe);
++	uint	frsubtype  = GetFrameSubType(pframe);
++	frsubtype = frsubtype >> 4;
++
++
++	_rtw_memset((void *)mic_iv, 0, 16);
++	_rtw_memset((void *)mic_header1, 0, 16);
++	_rtw_memset((void *)mic_header2, 0, 16);
++	_rtw_memset((void *)ctr_preload, 0, 16);
++	_rtw_memset((void *)chain_buffer, 0, 16);
++	_rtw_memset((void *)aes_out, 0, 16);
++	_rtw_memset((void *)padded_buffer, 0, 16);
++
++	/* start to decrypt the payload */
++
++	num_blocks = (plen - 8) / 16; /* (plen including LLC, payload_length and mic ) */
++
++	payload_remainder = (plen - 8) % 16;
++
++	pn_vector[0]  = pframe[hdrlen];
++	pn_vector[1]  = pframe[hdrlen + 1];
++	pn_vector[2]  = pframe[hdrlen + 4];
++	pn_vector[3]  = pframe[hdrlen + 5];
++	pn_vector[4]  = pframe[hdrlen + 6];
++	pn_vector[5]  = pframe[hdrlen + 7];
++
++	if ((hdrlen == WLAN_HDR_A3_LEN) || (hdrlen ==  WLAN_HDR_A3_QOS_LEN))
++		a4_exists = 0;
++	else
++		a4_exists = 1;
++
++	if (
++		((frtype | frsubtype) == WIFI_DATA_CFACK) ||
++		((frtype | frsubtype) == WIFI_DATA_CFPOLL) ||
++		((frtype | frsubtype) == WIFI_DATA_CFACKPOLL)) {
++		qc_exists = 1;
++		if (hdrlen !=  WLAN_HDR_A3_QOS_LEN)
++
++			hdrlen += 2;
++	} /* only for data packet . add for CONFIG_IEEE80211W, none 11w also can use */
++	else if ((frtype == WIFI_DATA) &&
++		 ((frsubtype == 0x08) ||
++		  (frsubtype == 0x09) ||
++		  (frsubtype == 0x0a) ||
++		  (frsubtype == 0x0b))) {
++		if (hdrlen !=  WLAN_HDR_A3_QOS_LEN)
++
++			hdrlen += 2;
++		qc_exists = 1;
++	} else
++		qc_exists = 0;
++
++
++	/* now, decrypt pframe with hdrlen offset and plen long */
++
++	payload_index = hdrlen + 8; /* 8 is for extiv */
++
++	for (i = 0; i < num_blocks; i++) {
++		construct_ctr_preload(
++			ctr_preload,
++			a4_exists,
++			qc_exists,
++			pframe,
++			pn_vector,
++			i + 1,
++			frtype /* add for CONFIG_IEEE80211W, none 11w also can use */
++		);
++
++		aes128k128d(key, ctr_preload, aes_out);
++		bitwise_xor(aes_out, &pframe[payload_index], chain_buffer);
++
++		for (j = 0; j < 16; j++)
++			pframe[payload_index++] = chain_buffer[j];
++	}
++
++	if (payload_remainder > 0) {        /* If there is a short final block, then pad it,*/
++		/* encrypt it and copy the unpadded part back  */
++		construct_ctr_preload(
++			ctr_preload,
++			a4_exists,
++			qc_exists,
++			pframe,
++			pn_vector,
++			num_blocks + 1,
++			frtype /* add for CONFIG_IEEE80211W, none 11w also can use */
++		);
++
++		for (j = 0; j < 16; j++)
++			padded_buffer[j] = 0x00;
++		for (j = 0; j < payload_remainder; j++)
++			padded_buffer[j] = pframe[payload_index + j];
++		aes128k128d(key, ctr_preload, aes_out);
++		bitwise_xor(aes_out, padded_buffer, chain_buffer);
++		for (j = 0; j < payload_remainder; j++)
++			pframe[payload_index++] = chain_buffer[j];
++	}
++
++	/* start to calculate the mic	 */
++	if ((hdrlen + plen + 8) <= MAX_MSG_SIZE)
++		_rtw_memcpy((void *)message, pframe, (hdrlen + plen + 8)); /* 8 is for ext iv len */
++
++
++	pn_vector[0] = pframe[hdrlen];
++	pn_vector[1] = pframe[hdrlen + 1];
++	pn_vector[2] = pframe[hdrlen + 4];
++	pn_vector[3] = pframe[hdrlen + 5];
++	pn_vector[4] = pframe[hdrlen + 6];
++	pn_vector[5] = pframe[hdrlen + 7];
++
++
++
++	construct_mic_iv(
++		mic_iv,
++		qc_exists,
++		a4_exists,
++		message,
++		plen - 8,
++		pn_vector,
++		frtype /* add for CONFIG_IEEE80211W, none 11w also can use */
++	);
++
++	construct_mic_header1(
++		mic_header1,
++		hdrlen,
++		message,
++		frtype /* add for CONFIG_IEEE80211W, none 11w also can use */
++	);
++	construct_mic_header2(
++		mic_header2,
++		message,
++		a4_exists,
++		qc_exists
++	);
++
++
++	payload_remainder = (plen - 8) % 16;
++	num_blocks = (plen - 8) / 16;
++
++	/* Find start of payload */
++	payload_index = (hdrlen + 8);
++
++	/* Calculate MIC */
++	aes128k128d(key, mic_iv, aes_out);
++	bitwise_xor(aes_out, mic_header1, chain_buffer);
++	aes128k128d(key, chain_buffer, aes_out);
++	bitwise_xor(aes_out, mic_header2, chain_buffer);
++	aes128k128d(key, chain_buffer, aes_out);
++
++	for (i = 0; i < num_blocks; i++) {
++		bitwise_xor(aes_out, &message[payload_index], chain_buffer);
++
++		payload_index += 16;
++		aes128k128d(key, chain_buffer, aes_out);
++	}
++
++	/* Add on the final payload block if it needs padding */
++	if (payload_remainder > 0) {
++		for (j = 0; j < 16; j++)
++			padded_buffer[j] = 0x00;
++		for (j = 0; j < payload_remainder; j++)
++			padded_buffer[j] = message[payload_index++];
++		bitwise_xor(aes_out, padded_buffer, chain_buffer);
++		aes128k128d(key, chain_buffer, aes_out);
++
++	}
++
++	for (j = 0 ; j < 8; j++)
++		mic[j] = aes_out[j];
++
++	/* Insert MIC into payload */
++	for (j = 0; j < 8; j++)
++		message[payload_index + j] = mic[j];
++
++	payload_index = hdrlen + 8;
++	for (i = 0; i < num_blocks; i++) {
++		construct_ctr_preload(
++			ctr_preload,
++			a4_exists,
++			qc_exists,
++			message,
++			pn_vector,
++			i + 1,
++			frtype); /* add for CONFIG_IEEE80211W, none 11w also can use */
++		aes128k128d(key, ctr_preload, aes_out);
++		bitwise_xor(aes_out, &message[payload_index], chain_buffer);
++		for (j = 0; j < 16; j++)
++			message[payload_index++] = chain_buffer[j];
++	}
++
++	if (payload_remainder > 0) {        /* If there is a short final block, then pad it,*/
++		/* encrypt it and copy the unpadded part back  */
++		construct_ctr_preload(
++			ctr_preload,
++			a4_exists,
++			qc_exists,
++			message,
++			pn_vector,
++			num_blocks + 1,
++			frtype); /* add for CONFIG_IEEE80211W, none 11w also can use */
++
++		for (j = 0; j < 16; j++)
++			padded_buffer[j] = 0x00;
++		for (j = 0; j < payload_remainder; j++)
++			padded_buffer[j] = message[payload_index + j];
++		aes128k128d(key, ctr_preload, aes_out);
++		bitwise_xor(aes_out, padded_buffer, chain_buffer);
++		for (j = 0; j < payload_remainder; j++)
++			message[payload_index++] = chain_buffer[j];
++	}
++
++	/* Encrypt the MIC */
++	construct_ctr_preload(
++		ctr_preload,
++		a4_exists,
++		qc_exists,
++		message,
++		pn_vector,
++		0,
++		frtype); /* add for CONFIG_IEEE80211W, none 11w also can use */
++
++	for (j = 0; j < 16; j++)
++		padded_buffer[j] = 0x00;
++	for (j = 0; j < 8; j++)
++		padded_buffer[j] = message[j + hdrlen + 8 + plen - 8];
++
++	aes128k128d(key, ctr_preload, aes_out);
++	bitwise_xor(aes_out, padded_buffer, chain_buffer);
++	for (j = 0; j < 8; j++)
++		message[payload_index++] = chain_buffer[j];
++
++	/* compare the mic */
++	for (i = 0; i < 8; i++) {
++		if (pframe[hdrlen + 8 + plen - 8 + i] != message[hdrlen + 8 + plen - 8 + i]) {
++			RTW_INFO("aes_decipher:mic check error mic[%d]: pframe(%x) != message(%x)\n",
++				i, pframe[hdrlen + 8 + plen - 8 + i], message[hdrlen + 8 + plen - 8 + i]);
++			res = _FAIL;
++		}
++	}
++	return res;
++}
++
++u32	rtw_aes_decrypt(_adapter *padapter, u8 *precvframe)
++{
++	/* exclude ICV */
++
++
++	/*static*/
++	/*	unsigned char	message[MAX_MSG_SIZE]; */
++
++
++	/* Intermediate Buffers */
++
++
++	sint		length;
++	u32	prwskeylen;
++	u8	*pframe, *prwskey;	/* , *payload,*iv */
++	struct	sta_info		*stainfo;
++	struct	rx_pkt_attrib	*prxattrib = &((union recv_frame *)precvframe)->u.hdr.attrib;
++	struct	security_priv	*psecuritypriv = &padapter->securitypriv;
++	/*	struct	recv_priv		*precvpriv=&padapter->recvpriv; */
++	u32	res = _SUCCESS;
++	pframe = (unsigned char *)((union recv_frame *)precvframe)->u.hdr.rx_data;
++	/* 4 start to encrypt each fragment */
++	if ((prxattrib->encrypt == _AES_)) {
++
++		stainfo = rtw_get_stainfo(&padapter->stapriv , &prxattrib->ta[0]);
++		if (stainfo != NULL) {
++
++			if (IS_MCAST(prxattrib->ra)) {
++				static u32 start = 0;
++				static u32 no_gkey_bc_cnt = 0;
++				static u32 no_gkey_mc_cnt = 0;
++
++				/* RTW_INFO("rx bc/mc packets, to perform sw rtw_aes_decrypt\n"); */
++				/* prwskey = psecuritypriv->dot118021XGrpKey[psecuritypriv->dot118021XGrpKeyid].skey; */
++				if (psecuritypriv->binstallGrpkey == _FALSE) {
++					res = _FAIL;
++
++					if (start == 0)
++						start = rtw_get_current_time();
++
++					if (is_broadcast_mac_addr(prxattrib->ra))
++						no_gkey_bc_cnt++;
++					else
++						no_gkey_mc_cnt++;
++
++					if (rtw_get_passing_time_ms(start) > 1000) {
++						if (no_gkey_bc_cnt || no_gkey_mc_cnt) {
++							RTW_PRINT(FUNC_ADPT_FMT" no_gkey_bc_cnt:%u, no_gkey_mc_cnt:%u\n",
++								FUNC_ADPT_ARG(padapter), no_gkey_bc_cnt, no_gkey_mc_cnt);
++						}
++						start = rtw_get_current_time();
++						no_gkey_bc_cnt = 0;
++						no_gkey_mc_cnt = 0;
++					}
++
++					goto exit;
++				}
++
++				if (no_gkey_bc_cnt || no_gkey_mc_cnt) {
++					RTW_PRINT(FUNC_ADPT_FMT" gkey installed. no_gkey_bc_cnt:%u, no_gkey_mc_cnt:%u\n",
++						FUNC_ADPT_ARG(padapter), no_gkey_bc_cnt, no_gkey_mc_cnt);
++				}
++				start = 0;
++				no_gkey_bc_cnt = 0;
++				no_gkey_mc_cnt = 0;
++
++				prwskey = psecuritypriv->dot118021XGrpKey[prxattrib->key_index].skey;
++				if (psecuritypriv->dot118021XGrpKeyid != prxattrib->key_index) {
++					RTW_DBG("not match packet_index=%d, install_index=%d\n"
++						, prxattrib->key_index, psecuritypriv->dot118021XGrpKeyid);
++					res = _FAIL;
++					goto exit;
++				}
++			} else
++				prwskey = &stainfo->dot118021x_UncstKey.skey[0];
++
++			length = ((union recv_frame *)precvframe)->u.hdr.len - prxattrib->hdrlen - prxattrib->iv_len;
++#if 0
++			/*  add for CONFIG_IEEE80211W, debug */
++			if (0)
++				printk("@@@@@@@@@@@@@@@@@@ length=%d, prxattrib->hdrlen=%d, prxattrib->pkt_len=%d\n"
++				       , length, prxattrib->hdrlen, prxattrib->pkt_len);
++			if (0) {
++				int no;
++				/* test print PSK */
++				printk("PSK key below:\n");
++				for (no = 0; no < 16; no++)
++					printk(" %02x ", prwskey[no]);
++				printk("\n");
++			}
++			if (0) {
++				int no;
++				/* test print PSK */
++				printk("frame:\n");
++				for (no = 0; no < prxattrib->pkt_len; no++)
++					printk(" %02x ", pframe[no]);
++				printk("\n");
++			}
++#endif
++
++			res = aes_decipher(prwskey, prxattrib->hdrlen, pframe, length);
++
++			AES_SW_DEC_CNT_INC(psecuritypriv, prxattrib->ra);
++		} else {
++			res = _FAIL;
++		}
++
++	}
++exit:
++	return res;
++}
++
++#ifdef CONFIG_IEEE80211W
++u32	rtw_BIP_verify(_adapter *padapter, u8 *precvframe)
++{
++	struct rx_pkt_attrib *pattrib = &((union recv_frame *)precvframe)->u.hdr.attrib;
++	u8 *pframe;
++	u8 *BIP_AAD, *p;
++	u32	res = _FAIL;
++	uint len, ori_len;
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	u8 mic[16];
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	ori_len = pattrib->pkt_len - WLAN_HDR_A3_LEN + BIP_AAD_SIZE;
++	BIP_AAD = rtw_zmalloc(ori_len);
++
++	if (BIP_AAD == NULL) {
++		RTW_INFO("BIP AAD allocate fail\n");
++		return _FAIL;
++	}
++	/* PKT start */
++	pframe = (unsigned char *)((union recv_frame *)precvframe)->u.hdr.rx_data;
++	/* mapping to wlan header */
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++	/* save the frame body + MME */
++	_rtw_memcpy(BIP_AAD + BIP_AAD_SIZE, pframe + WLAN_HDR_A3_LEN, pattrib->pkt_len - WLAN_HDR_A3_LEN);
++	/* find MME IE pointer */
++	p = rtw_get_ie(BIP_AAD + BIP_AAD_SIZE, _MME_IE_, &len, pattrib->pkt_len - WLAN_HDR_A3_LEN);
++	/* Baron */
++	if (p) {
++		u16 keyid = 0;
++		u64 temp_ipn = 0;
++		/* save packet number */
++		_rtw_memcpy(&temp_ipn, p + 4, 6);
++		temp_ipn = le64_to_cpu(temp_ipn);
++		/* BIP packet number should bigger than previous BIP packet */
++		if (temp_ipn < pmlmeext->mgnt_80211w_IPN_rx) {
++			RTW_INFO("replay BIP packet\n");
++			goto BIP_exit;
++		}
++		/* copy key index */
++		_rtw_memcpy(&keyid, p + 2, 2);
++		keyid = le16_to_cpu(keyid);
++		if (keyid != padapter->securitypriv.dot11wBIPKeyid) {
++			RTW_INFO("BIP key index error!\n");
++			goto BIP_exit;
++		}
++		/* clear the MIC field of MME to zero */
++		_rtw_memset(p + 2 + len - 8, 0, 8);
++
++		/* conscruct AAD, copy frame control field */
++		_rtw_memcpy(BIP_AAD, &pwlanhdr->frame_ctl, 2);
++		ClearRetry(BIP_AAD);
++		ClearPwrMgt(BIP_AAD);
++		ClearMData(BIP_AAD);
++		/* conscruct AAD, copy address 1 to address 3 */
++		_rtw_memcpy(BIP_AAD + 2, pwlanhdr->addr1, 18);
++
++		if (omac1_aes_128(padapter->securitypriv.dot11wBIPKey[padapter->securitypriv.dot11wBIPKeyid].skey
++				  , BIP_AAD, ori_len, mic))
++			goto BIP_exit;
++
++#if 0
++		/* management packet content */
++		{
++			int pp;
++			RTW_INFO("pkt: ");
++			for (pp = 0; pp < pattrib->pkt_len; pp++)
++				printk(" %02x ", pframe[pp]);
++			RTW_INFO("\n");
++			/* BIP AAD + management frame body + MME(MIC is zero) */
++			RTW_INFO("AAD+PKT: ");
++			for (pp = 0; pp < ori_len; pp++)
++				RTW_INFO(" %02x ", BIP_AAD[pp]);
++			RTW_INFO("\n");
++			/* show the MIC result */
++			RTW_INFO("mic: ");
++			for (pp = 0; pp < 16; pp++)
++				RTW_INFO(" %02x ", mic[pp]);
++			RTW_INFO("\n");
++		}
++#endif
++		/* MIC field should be last 8 bytes of packet (packet without FCS) */
++		if (_rtw_memcmp(mic, pframe + pattrib->pkt_len - 8, 8)) {
++			pmlmeext->mgnt_80211w_IPN_rx = temp_ipn;
++			res = _SUCCESS;
++		} else
++			RTW_INFO("BIP MIC error!\n");
++
++	} else
++		res = RTW_RX_HANDLED;
++BIP_exit:
++
++	rtw_mfree(BIP_AAD, ori_len);
++	return res;
++}
++#endif /* CONFIG_IEEE80211W */
++
++#ifndef PLATFORM_FREEBSD
++/* compress 512-bits */
++static int sha256_compress(struct sha256_state *md, unsigned char *buf)
++{
++	u32 S[8], W[64], t0, t1;
++	u32 t;
++	int i;
++
++	/* copy state into S */
++	for (i = 0; i < 8; i++)
++		S[i] = md->state[i];
++
++	/* copy the state into 512-bits into W[0..15] */
++	for (i = 0; i < 16; i++)
++		W[i] = WPA_GET_BE32(buf + (4 * i));
++
++	/* fill W[16..63] */
++	for (i = 16; i < 64; i++) {
++		W[i] = Gamma1(W[i - 2]) + W[i - 7] + Gamma0(W[i - 15]) +
++		       W[i - 16];
++	}
++
++	/* Compress */
++#define RND(a, b, c, d, e, f, g, h, i)                          do {\
++	t0 = h + Sigma1(e) + Ch(e, f, g) + K[i] + W[i];	\
++	t1 = Sigma0(a) + Maj(a, b, c);			\
++	d += t0;					\
++	h  = t0 + t1;	\
++	} while (0)
++
++	for (i = 0; i < 64; ++i) {
++		RND(S[0], S[1], S[2], S[3], S[4], S[5], S[6], S[7], i);
++		t = S[7];
++		S[7] = S[6];
++		S[6] = S[5];
++		S[5] = S[4];
++		S[4] = S[3];
++		S[3] = S[2];
++		S[2] = S[1];
++		S[1] = S[0];
++		S[0] = t;
++	}
++
++	/* feedback */
++	for (i = 0; i < 8; i++)
++		md->state[i] = md->state[i] + S[i];
++	return 0;
++}
++
++/* Initialize the hash state */
++static void sha256_init(struct sha256_state *md)
++{
++	md->curlen = 0;
++	md->length = 0;
++	md->state[0] = 0x6A09E667UL;
++	md->state[1] = 0xBB67AE85UL;
++	md->state[2] = 0x3C6EF372UL;
++	md->state[3] = 0xA54FF53AUL;
++	md->state[4] = 0x510E527FUL;
++	md->state[5] = 0x9B05688CUL;
++	md->state[6] = 0x1F83D9ABUL;
++	md->state[7] = 0x5BE0CD19UL;
++}
++
++/**
++   Process a block of memory though the hash
++   @param md     The hash state
++   @param in     The data to hash
++   @param inlen  The length of the data (octets)
++   @return CRYPT_OK if successful
++*/
++static int sha256_process(struct sha256_state *md, unsigned char *in,
++			  unsigned long inlen)
++{
++	unsigned long n;
++#define block_size 64
++
++	if (md->curlen > sizeof(md->buf))
++		return -1;
++
++	while (inlen > 0) {
++		if (md->curlen == 0 && inlen >= block_size) {
++			if (sha256_compress(md, (unsigned char *) in) < 0)
++				return -1;
++			md->length += block_size * 8;
++			in += block_size;
++			inlen -= block_size;
++		} else {
++			n = MIN(inlen, (block_size - md->curlen));
++			_rtw_memcpy(md->buf + md->curlen, in, n);
++			md->curlen += n;
++			in += n;
++			inlen -= n;
++			if (md->curlen == block_size) {
++				if (sha256_compress(md, md->buf) < 0)
++					return -1;
++				md->length += 8 * block_size;
++				md->curlen = 0;
++			}
++		}
++	}
++
++	return 0;
++}
++
++
++/**
++   Terminate the hash to get the digest
++   @param md  The hash state
++   @param out [out] The destination of the hash (32 bytes)
++   @return CRYPT_OK if successful
++*/
++static int sha256_done(struct sha256_state *md, unsigned char *out)
++{
++	int i;
++
++	if (md->curlen >= sizeof(md->buf))
++		return -1;
++
++	/* increase the length of the message */
++	md->length += md->curlen * 8;
++
++	/* append the '1' bit */
++	md->buf[md->curlen++] = (unsigned char) 0x80;
++
++	/* if the length is currently above 56 bytes we append zeros
++	 * then compress.  Then we can fall back to padding zeros and length
++	 * encoding like normal.
++	 */
++	if (md->curlen > 56) {
++		while (md->curlen < 64)
++			md->buf[md->curlen++] = (unsigned char) 0;
++		sha256_compress(md, md->buf);
++		md->curlen = 0;
++	}
++
++	/* pad upto 56 bytes of zeroes */
++	while (md->curlen < 56)
++		md->buf[md->curlen++] = (unsigned char) 0;
++
++	/* store length */
++	WPA_PUT_BE64(md->buf + 56, md->length);
++	sha256_compress(md, md->buf);
++
++	/* copy output */
++	for (i = 0; i < 8; i++)
++		WPA_PUT_BE32(out + (4 * i), md->state[i]);
++
++	return 0;
++}
++
++/**
++ * sha256_vector - SHA256 hash for data vector
++ * @num_elem: Number of elements in the data vector
++ * @addr: Pointers to the data areas
++ * @len: Lengths of the data blocks
++ * @mac: Buffer for the hash
++ * Returns: 0 on success, -1 of failure
++ */
++static int sha256_vector(size_t num_elem, u8 *addr[], size_t *len,
++			 u8 *mac)
++{
++	struct sha256_state ctx;
++	size_t i;
++
++	sha256_init(&ctx);
++	for (i = 0; i < num_elem; i++)
++		if (sha256_process(&ctx, addr[i], len[i]))
++			return -1;
++	if (sha256_done(&ctx, mac))
++		return -1;
++	return 0;
++}
++
++static u8 os_strlen(const char *s)
++{
++	const char *p = s;
++	while (*p)
++		p++;
++	return p - s;
++}
++
++static int os_memcmp(void *s1, void *s2, u8 n)
++{
++	unsigned char *p1 = s1, *p2 = s2;
++
++	if (n == 0)
++		return 0;
++
++	while (*p1 == *p2) {
++		p1++;
++		p2++;
++		n--;
++		if (n == 0)
++			return 0;
++	}
++
++	return *p1 - *p2;
++}
++
++/**
++ * hmac_sha256_vector - HMAC-SHA256 over data vector (RFC 2104)
++ * @key: Key for HMAC operations
++ * @key_len: Length of the key in bytes
++ * @num_elem: Number of elements in the data vector
++ * @addr: Pointers to the data areas
++ * @len: Lengths of the data blocks
++ * @mac: Buffer for the hash (32 bytes)
++ */
++static void hmac_sha256_vector(u8 *key, size_t key_len, size_t num_elem,
++			       u8 *addr[], size_t *len, u8 *mac)
++{
++	unsigned char k_pad[64]; /* padding - key XORd with ipad/opad */
++	unsigned char tk[32];
++	u8 *_addr[6];
++	size_t _len[6], i;
++
++	if (num_elem > 5) {
++		/*
++		 * Fixed limit on the number of fragments to avoid having to
++		 * allocate memory (which could fail).
++		 */
++		return;
++	}
++
++	/* if key is longer than 64 bytes reset it to key = SHA256(key) */
++	if (key_len > 64) {
++		sha256_vector(1, &key, &key_len, tk);
++		key = tk;
++		key_len = 32;
++	}
++
++	/* the HMAC_SHA256 transform looks like:
++	 *
++	 * SHA256(K XOR opad, SHA256(K XOR ipad, text))
++	 *
++	 * where K is an n byte key
++	 * ipad is the byte 0x36 repeated 64 times
++	 * opad is the byte 0x5c repeated 64 times
++	 * and text is the data being protected */
++
++	/* start out by storing key in ipad */
++	_rtw_memset(k_pad, 0, sizeof(k_pad));
++	_rtw_memcpy(k_pad, key, key_len);
++	/* XOR key with ipad values */
++	for (i = 0; i < 64; i++)
++		k_pad[i] ^= 0x36;
++
++	/* perform inner SHA256 */
++	_addr[0] = k_pad;
++	_len[0] = 64;
++	for (i = 0; i < num_elem; i++) {
++		_addr[i + 1] = addr[i];
++		_len[i + 1] = len[i];
++	}
++	sha256_vector(1 + num_elem, _addr, _len, mac);
++
++	_rtw_memset(k_pad, 0, sizeof(k_pad));
++	_rtw_memcpy(k_pad, key, key_len);
++	/* XOR key with opad values */
++	for (i = 0; i < 64; i++)
++		k_pad[i] ^= 0x5c;
++
++	/* perform outer SHA256 */
++	_addr[0] = k_pad;
++	_len[0] = 64;
++	_addr[1] = mac;
++	_len[1] = 32;
++	sha256_vector(2, _addr, _len, mac);
++}
++#endif /* PLATFORM_FREEBSD */
++/**
++ * sha256_prf - SHA256-based Pseudo-Random Function (IEEE 802.11r, 8.5.1.5.2)
++ * @key: Key for PRF
++ * @key_len: Length of the key in bytes
++ * @label: A unique label for each purpose of the PRF
++ * @data: Extra data to bind into the key
++ * @data_len: Length of the data
++ * @buf: Buffer for the generated pseudo-random key
++ * @buf_len: Number of bytes of key to generate
++ *
++ * This function is used to derive new, cryptographically separate keys from a
++ * given key.
++ */
++#ifndef PLATFORM_FREEBSD /* Baron */
++static void sha256_prf(u8 *key, size_t key_len, char *label,
++		       u8 *data, size_t data_len, u8 *buf, size_t buf_len)
++{
++	u16 counter = 1;
++	size_t pos, plen;
++	u8 hash[SHA256_MAC_LEN];
++	u8 *addr[4];
++	size_t len[4];
++	u8 counter_le[2], length_le[2];
++
++	addr[0] = counter_le;
++	len[0] = 2;
++	addr[1] = (u8 *) label;
++	len[1] = os_strlen(label);
++	addr[2] = data;
++	len[2] = data_len;
++	addr[3] = length_le;
++	len[3] = sizeof(length_le);
++
++	WPA_PUT_LE16(length_le, buf_len * 8);
++	pos = 0;
++	while (pos < buf_len) {
++		plen = buf_len - pos;
++		WPA_PUT_LE16(counter_le, counter);
++		if (plen >= SHA256_MAC_LEN) {
++			hmac_sha256_vector(key, key_len, 4, addr, len,
++					   &buf[pos]);
++			pos += SHA256_MAC_LEN;
++		} else {
++			hmac_sha256_vector(key, key_len, 4, addr, len, hash);
++			_rtw_memcpy(&buf[pos], hash, plen);
++			break;
++		}
++		counter++;
++	}
++}
++#endif /* PLATFORM_FREEBSD Baron */
++
++/* AES tables*/
++const u32 Te0[256] = {
++	0xc66363a5U, 0xf87c7c84U, 0xee777799U, 0xf67b7b8dU,
++	0xfff2f20dU, 0xd66b6bbdU, 0xde6f6fb1U, 0x91c5c554U,
++	0x60303050U, 0x02010103U, 0xce6767a9U, 0x562b2b7dU,
++	0xe7fefe19U, 0xb5d7d762U, 0x4dababe6U, 0xec76769aU,
++	0x8fcaca45U, 0x1f82829dU, 0x89c9c940U, 0xfa7d7d87U,
++	0xeffafa15U, 0xb25959ebU, 0x8e4747c9U, 0xfbf0f00bU,
++	0x41adadecU, 0xb3d4d467U, 0x5fa2a2fdU, 0x45afafeaU,
++	0x239c9cbfU, 0x53a4a4f7U, 0xe4727296U, 0x9bc0c05bU,
++	0x75b7b7c2U, 0xe1fdfd1cU, 0x3d9393aeU, 0x4c26266aU,
++	0x6c36365aU, 0x7e3f3f41U, 0xf5f7f702U, 0x83cccc4fU,
++	0x6834345cU, 0x51a5a5f4U, 0xd1e5e534U, 0xf9f1f108U,
++	0xe2717193U, 0xabd8d873U, 0x62313153U, 0x2a15153fU,
++	0x0804040cU, 0x95c7c752U, 0x46232365U, 0x9dc3c35eU,
++	0x30181828U, 0x379696a1U, 0x0a05050fU, 0x2f9a9ab5U,
++	0x0e070709U, 0x24121236U, 0x1b80809bU, 0xdfe2e23dU,
++	0xcdebeb26U, 0x4e272769U, 0x7fb2b2cdU, 0xea75759fU,
++	0x1209091bU, 0x1d83839eU, 0x582c2c74U, 0x341a1a2eU,
++	0x361b1b2dU, 0xdc6e6eb2U, 0xb45a5aeeU, 0x5ba0a0fbU,
++	0xa45252f6U, 0x763b3b4dU, 0xb7d6d661U, 0x7db3b3ceU,
++	0x5229297bU, 0xdde3e33eU, 0x5e2f2f71U, 0x13848497U,
++	0xa65353f5U, 0xb9d1d168U, 0x00000000U, 0xc1eded2cU,
++	0x40202060U, 0xe3fcfc1fU, 0x79b1b1c8U, 0xb65b5bedU,
++	0xd46a6abeU, 0x8dcbcb46U, 0x67bebed9U, 0x7239394bU,
++	0x944a4adeU, 0x984c4cd4U, 0xb05858e8U, 0x85cfcf4aU,
++	0xbbd0d06bU, 0xc5efef2aU, 0x4faaaae5U, 0xedfbfb16U,
++	0x864343c5U, 0x9a4d4dd7U, 0x66333355U, 0x11858594U,
++	0x8a4545cfU, 0xe9f9f910U, 0x04020206U, 0xfe7f7f81U,
++	0xa05050f0U, 0x783c3c44U, 0x259f9fbaU, 0x4ba8a8e3U,
++	0xa25151f3U, 0x5da3a3feU, 0x804040c0U, 0x058f8f8aU,
++	0x3f9292adU, 0x219d9dbcU, 0x70383848U, 0xf1f5f504U,
++	0x63bcbcdfU, 0x77b6b6c1U, 0xafdada75U, 0x42212163U,
++	0x20101030U, 0xe5ffff1aU, 0xfdf3f30eU, 0xbfd2d26dU,
++	0x81cdcd4cU, 0x180c0c14U, 0x26131335U, 0xc3ecec2fU,
++	0xbe5f5fe1U, 0x359797a2U, 0x884444ccU, 0x2e171739U,
++	0x93c4c457U, 0x55a7a7f2U, 0xfc7e7e82U, 0x7a3d3d47U,
++	0xc86464acU, 0xba5d5de7U, 0x3219192bU, 0xe6737395U,
++	0xc06060a0U, 0x19818198U, 0x9e4f4fd1U, 0xa3dcdc7fU,
++	0x44222266U, 0x542a2a7eU, 0x3b9090abU, 0x0b888883U,
++	0x8c4646caU, 0xc7eeee29U, 0x6bb8b8d3U, 0x2814143cU,
++	0xa7dede79U, 0xbc5e5ee2U, 0x160b0b1dU, 0xaddbdb76U,
++	0xdbe0e03bU, 0x64323256U, 0x743a3a4eU, 0x140a0a1eU,
++	0x924949dbU, 0x0c06060aU, 0x4824246cU, 0xb85c5ce4U,
++	0x9fc2c25dU, 0xbdd3d36eU, 0x43acacefU, 0xc46262a6U,
++	0x399191a8U, 0x319595a4U, 0xd3e4e437U, 0xf279798bU,
++	0xd5e7e732U, 0x8bc8c843U, 0x6e373759U, 0xda6d6db7U,
++	0x018d8d8cU, 0xb1d5d564U, 0x9c4e4ed2U, 0x49a9a9e0U,
++	0xd86c6cb4U, 0xac5656faU, 0xf3f4f407U, 0xcfeaea25U,
++	0xca6565afU, 0xf47a7a8eU, 0x47aeaee9U, 0x10080818U,
++	0x6fbabad5U, 0xf0787888U, 0x4a25256fU, 0x5c2e2e72U,
++	0x381c1c24U, 0x57a6a6f1U, 0x73b4b4c7U, 0x97c6c651U,
++	0xcbe8e823U, 0xa1dddd7cU, 0xe874749cU, 0x3e1f1f21U,
++	0x964b4bddU, 0x61bdbddcU, 0x0d8b8b86U, 0x0f8a8a85U,
++	0xe0707090U, 0x7c3e3e42U, 0x71b5b5c4U, 0xcc6666aaU,
++	0x904848d8U, 0x06030305U, 0xf7f6f601U, 0x1c0e0e12U,
++	0xc26161a3U, 0x6a35355fU, 0xae5757f9U, 0x69b9b9d0U,
++	0x17868691U, 0x99c1c158U, 0x3a1d1d27U, 0x279e9eb9U,
++	0xd9e1e138U, 0xebf8f813U, 0x2b9898b3U, 0x22111133U,
++	0xd26969bbU, 0xa9d9d970U, 0x078e8e89U, 0x339494a7U,
++	0x2d9b9bb6U, 0x3c1e1e22U, 0x15878792U, 0xc9e9e920U,
++	0x87cece49U, 0xaa5555ffU, 0x50282878U, 0xa5dfdf7aU,
++	0x038c8c8fU, 0x59a1a1f8U, 0x09898980U, 0x1a0d0d17U,
++	0x65bfbfdaU, 0xd7e6e631U, 0x844242c6U, 0xd06868b8U,
++	0x824141c3U, 0x299999b0U, 0x5a2d2d77U, 0x1e0f0f11U,
++	0x7bb0b0cbU, 0xa85454fcU, 0x6dbbbbd6U, 0x2c16163aU,
++};
++const u32 Td0[256] = {
++	0x51f4a750U, 0x7e416553U, 0x1a17a4c3U, 0x3a275e96U,
++	0x3bab6bcbU, 0x1f9d45f1U, 0xacfa58abU, 0x4be30393U,
++	0x2030fa55U, 0xad766df6U, 0x88cc7691U, 0xf5024c25U,
++	0x4fe5d7fcU, 0xc52acbd7U, 0x26354480U, 0xb562a38fU,
++	0xdeb15a49U, 0x25ba1b67U, 0x45ea0e98U, 0x5dfec0e1U,
++	0xc32f7502U, 0x814cf012U, 0x8d4697a3U, 0x6bd3f9c6U,
++	0x038f5fe7U, 0x15929c95U, 0xbf6d7aebU, 0x955259daU,
++	0xd4be832dU, 0x587421d3U, 0x49e06929U, 0x8ec9c844U,
++	0x75c2896aU, 0xf48e7978U, 0x99583e6bU, 0x27b971ddU,
++	0xbee14fb6U, 0xf088ad17U, 0xc920ac66U, 0x7dce3ab4U,
++	0x63df4a18U, 0xe51a3182U, 0x97513360U, 0x62537f45U,
++	0xb16477e0U, 0xbb6bae84U, 0xfe81a01cU, 0xf9082b94U,
++	0x70486858U, 0x8f45fd19U, 0x94de6c87U, 0x527bf8b7U,
++	0xab73d323U, 0x724b02e2U, 0xe31f8f57U, 0x6655ab2aU,
++	0xb2eb2807U, 0x2fb5c203U, 0x86c57b9aU, 0xd33708a5U,
++	0x302887f2U, 0x23bfa5b2U, 0x02036abaU, 0xed16825cU,
++	0x8acf1c2bU, 0xa779b492U, 0xf307f2f0U, 0x4e69e2a1U,
++	0x65daf4cdU, 0x0605bed5U, 0xd134621fU, 0xc4a6fe8aU,
++	0x342e539dU, 0xa2f355a0U, 0x058ae132U, 0xa4f6eb75U,
++	0x0b83ec39U, 0x4060efaaU, 0x5e719f06U, 0xbd6e1051U,
++	0x3e218af9U, 0x96dd063dU, 0xdd3e05aeU, 0x4de6bd46U,
++	0x91548db5U, 0x71c45d05U, 0x0406d46fU, 0x605015ffU,
++	0x1998fb24U, 0xd6bde997U, 0x894043ccU, 0x67d99e77U,
++	0xb0e842bdU, 0x07898b88U, 0xe7195b38U, 0x79c8eedbU,
++	0xa17c0a47U, 0x7c420fe9U, 0xf8841ec9U, 0x00000000U,
++	0x09808683U, 0x322bed48U, 0x1e1170acU, 0x6c5a724eU,
++	0xfd0efffbU, 0x0f853856U, 0x3daed51eU, 0x362d3927U,
++	0x0a0fd964U, 0x685ca621U, 0x9b5b54d1U, 0x24362e3aU,
++	0x0c0a67b1U, 0x9357e70fU, 0xb4ee96d2U, 0x1b9b919eU,
++	0x80c0c54fU, 0x61dc20a2U, 0x5a774b69U, 0x1c121a16U,
++	0xe293ba0aU, 0xc0a02ae5U, 0x3c22e043U, 0x121b171dU,
++	0x0e090d0bU, 0xf28bc7adU, 0x2db6a8b9U, 0x141ea9c8U,
++	0x57f11985U, 0xaf75074cU, 0xee99ddbbU, 0xa37f60fdU,
++	0xf701269fU, 0x5c72f5bcU, 0x44663bc5U, 0x5bfb7e34U,
++	0x8b432976U, 0xcb23c6dcU, 0xb6edfc68U, 0xb8e4f163U,
++	0xd731dccaU, 0x42638510U, 0x13972240U, 0x84c61120U,
++	0x854a247dU, 0xd2bb3df8U, 0xaef93211U, 0xc729a16dU,
++	0x1d9e2f4bU, 0xdcb230f3U, 0x0d8652ecU, 0x77c1e3d0U,
++	0x2bb3166cU, 0xa970b999U, 0x119448faU, 0x47e96422U,
++	0xa8fc8cc4U, 0xa0f03f1aU, 0x567d2cd8U, 0x223390efU,
++	0x87494ec7U, 0xd938d1c1U, 0x8ccaa2feU, 0x98d40b36U,
++	0xa6f581cfU, 0xa57ade28U, 0xdab78e26U, 0x3fadbfa4U,
++	0x2c3a9de4U, 0x5078920dU, 0x6a5fcc9bU, 0x547e4662U,
++	0xf68d13c2U, 0x90d8b8e8U, 0x2e39f75eU, 0x82c3aff5U,
++	0x9f5d80beU, 0x69d0937cU, 0x6fd52da9U, 0xcf2512b3U,
++	0xc8ac993bU, 0x10187da7U, 0xe89c636eU, 0xdb3bbb7bU,
++	0xcd267809U, 0x6e5918f4U, 0xec9ab701U, 0x834f9aa8U,
++	0xe6956e65U, 0xaaffe67eU, 0x21bccf08U, 0xef15e8e6U,
++	0xbae79bd9U, 0x4a6f36ceU, 0xea9f09d4U, 0x29b07cd6U,
++	0x31a4b2afU, 0x2a3f2331U, 0xc6a59430U, 0x35a266c0U,
++	0x744ebc37U, 0xfc82caa6U, 0xe090d0b0U, 0x33a7d815U,
++	0xf104984aU, 0x41ecdaf7U, 0x7fcd500eU, 0x1791f62fU,
++	0x764dd68dU, 0x43efb04dU, 0xccaa4d54U, 0xe49604dfU,
++	0x9ed1b5e3U, 0x4c6a881bU, 0xc12c1fb8U, 0x4665517fU,
++	0x9d5eea04U, 0x018c355dU, 0xfa877473U, 0xfb0b412eU,
++	0xb3671d5aU, 0x92dbd252U, 0xe9105633U, 0x6dd64713U,
++	0x9ad7618cU, 0x37a10c7aU, 0x59f8148eU, 0xeb133c89U,
++	0xcea927eeU, 0xb761c935U, 0xe11ce5edU, 0x7a47b13cU,
++	0x9cd2df59U, 0x55f2733fU, 0x1814ce79U, 0x73c737bfU,
++	0x53f7cdeaU, 0x5ffdaa5bU, 0xdf3d6f14U, 0x7844db86U,
++	0xcaaff381U, 0xb968c43eU, 0x3824342cU, 0xc2a3405fU,
++	0x161dc372U, 0xbce2250cU, 0x283c498bU, 0xff0d9541U,
++	0x39a80171U, 0x080cb3deU, 0xd8b4e49cU, 0x6456c190U,
++	0x7bcb8461U, 0xd532b670U, 0x486c5c74U, 0xd0b85742U,
++};
++const u8 Td4s[256] = {
++	0x52U, 0x09U, 0x6aU, 0xd5U, 0x30U, 0x36U, 0xa5U, 0x38U,
++	0xbfU, 0x40U, 0xa3U, 0x9eU, 0x81U, 0xf3U, 0xd7U, 0xfbU,
++	0x7cU, 0xe3U, 0x39U, 0x82U, 0x9bU, 0x2fU, 0xffU, 0x87U,
++	0x34U, 0x8eU, 0x43U, 0x44U, 0xc4U, 0xdeU, 0xe9U, 0xcbU,
++	0x54U, 0x7bU, 0x94U, 0x32U, 0xa6U, 0xc2U, 0x23U, 0x3dU,
++	0xeeU, 0x4cU, 0x95U, 0x0bU, 0x42U, 0xfaU, 0xc3U, 0x4eU,
++	0x08U, 0x2eU, 0xa1U, 0x66U, 0x28U, 0xd9U, 0x24U, 0xb2U,
++	0x76U, 0x5bU, 0xa2U, 0x49U, 0x6dU, 0x8bU, 0xd1U, 0x25U,
++	0x72U, 0xf8U, 0xf6U, 0x64U, 0x86U, 0x68U, 0x98U, 0x16U,
++	0xd4U, 0xa4U, 0x5cU, 0xccU, 0x5dU, 0x65U, 0xb6U, 0x92U,
++	0x6cU, 0x70U, 0x48U, 0x50U, 0xfdU, 0xedU, 0xb9U, 0xdaU,
++	0x5eU, 0x15U, 0x46U, 0x57U, 0xa7U, 0x8dU, 0x9dU, 0x84U,
++	0x90U, 0xd8U, 0xabU, 0x00U, 0x8cU, 0xbcU, 0xd3U, 0x0aU,
++	0xf7U, 0xe4U, 0x58U, 0x05U, 0xb8U, 0xb3U, 0x45U, 0x06U,
++	0xd0U, 0x2cU, 0x1eU, 0x8fU, 0xcaU, 0x3fU, 0x0fU, 0x02U,
++	0xc1U, 0xafU, 0xbdU, 0x03U, 0x01U, 0x13U, 0x8aU, 0x6bU,
++	0x3aU, 0x91U, 0x11U, 0x41U, 0x4fU, 0x67U, 0xdcU, 0xeaU,
++	0x97U, 0xf2U, 0xcfU, 0xceU, 0xf0U, 0xb4U, 0xe6U, 0x73U,
++	0x96U, 0xacU, 0x74U, 0x22U, 0xe7U, 0xadU, 0x35U, 0x85U,
++	0xe2U, 0xf9U, 0x37U, 0xe8U, 0x1cU, 0x75U, 0xdfU, 0x6eU,
++	0x47U, 0xf1U, 0x1aU, 0x71U, 0x1dU, 0x29U, 0xc5U, 0x89U,
++	0x6fU, 0xb7U, 0x62U, 0x0eU, 0xaaU, 0x18U, 0xbeU, 0x1bU,
++	0xfcU, 0x56U, 0x3eU, 0x4bU, 0xc6U, 0xd2U, 0x79U, 0x20U,
++	0x9aU, 0xdbU, 0xc0U, 0xfeU, 0x78U, 0xcdU, 0x5aU, 0xf4U,
++	0x1fU, 0xddU, 0xa8U, 0x33U, 0x88U, 0x07U, 0xc7U, 0x31U,
++	0xb1U, 0x12U, 0x10U, 0x59U, 0x27U, 0x80U, 0xecU, 0x5fU,
++	0x60U, 0x51U, 0x7fU, 0xa9U, 0x19U, 0xb5U, 0x4aU, 0x0dU,
++	0x2dU, 0xe5U, 0x7aU, 0x9fU, 0x93U, 0xc9U, 0x9cU, 0xefU,
++	0xa0U, 0xe0U, 0x3bU, 0x4dU, 0xaeU, 0x2aU, 0xf5U, 0xb0U,
++	0xc8U, 0xebU, 0xbbU, 0x3cU, 0x83U, 0x53U, 0x99U, 0x61U,
++	0x17U, 0x2bU, 0x04U, 0x7eU, 0xbaU, 0x77U, 0xd6U, 0x26U,
++	0xe1U, 0x69U, 0x14U, 0x63U, 0x55U, 0x21U, 0x0cU, 0x7dU,
++};
++const u8 rcons[] = {
++	0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0x1B, 0x36
++	/* for 128-bit blocks, Rijndael never uses more than 10 rcon values */
++};
++
++/**
++ * Expand the cipher key into the encryption key schedule.
++ *
++ * @return	the number of rounds for the given cipher key size.
++ */
++#ifndef PLATFORM_FREEBSD /* Baron */
++static void rijndaelKeySetupEnc(u32 rk[/*44*/], const u8 cipherKey[])
++{
++	int i;
++	u32 temp;
++
++	rk[0] = GETU32(cipherKey);
++	rk[1] = GETU32(cipherKey +  4);
++	rk[2] = GETU32(cipherKey +  8);
++	rk[3] = GETU32(cipherKey + 12);
++	for (i = 0; i < 10; i++) {
++		temp  = rk[3];
++		rk[4] = rk[0] ^
++			TE421(temp) ^ TE432(temp) ^ TE443(temp) ^ TE414(temp) ^
++			RCON(i);
++		rk[5] = rk[1] ^ rk[4];
++		rk[6] = rk[2] ^ rk[5];
++		rk[7] = rk[3] ^ rk[6];
++		rk += 4;
++	}
++}
++
++static void rijndaelEncrypt(u32 rk[/*44*/], u8 pt[16], u8 ct[16])
++{
++	u32 s0, s1, s2, s3, t0, t1, t2, t3;
++	int Nr = 10;
++#ifndef FULL_UNROLL
++	int r;
++#endif /* ?FULL_UNROLL */
++
++	/*
++	 * map byte array block to cipher state
++	 * and add initial round key:
++	 */
++	s0 = GETU32(pt) ^ rk[0];
++	s1 = GETU32(pt +  4) ^ rk[1];
++	s2 = GETU32(pt +  8) ^ rk[2];
++	s3 = GETU32(pt + 12) ^ rk[3];
++
++#define ROUND(i, d, s) do {\
++	d##0 = TE0(s##0) ^ TE1(s##1) ^ TE2(s##2) ^ TE3(s##3) ^ rk[4 * i]; \
++	d##1 = TE0(s##1) ^ TE1(s##2) ^ TE2(s##3) ^ TE3(s##0) ^ rk[4 * i + 1]; \
++	d##2 = TE0(s##2) ^ TE1(s##3) ^ TE2(s##0) ^ TE3(s##1) ^ rk[4 * i + 2]; \
++	d##3 = TE0(s##3) ^ TE1(s##0) ^ TE2(s##1) ^ TE3(s##2) ^ rk[4 * i + 3]; \
++	} while (0)
++
++#ifdef FULL_UNROLL
++
++	ROUND(1, t, s);
++	ROUND(2, s, t);
++	ROUND(3, t, s);
++	ROUND(4, s, t);
++	ROUND(5, t, s);
++	ROUND(6, s, t);
++	ROUND(7, t, s);
++	ROUND(8, s, t);
++	ROUND(9, t, s);
++
++	rk += Nr << 2;
++
++#else  /* !FULL_UNROLL */
++
++	/* Nr - 1 full rounds: */
++	r = Nr >> 1;
++	for (;;) {
++		ROUND(1, t, s);
++		rk += 8;
++		if (--r == 0)
++			break;
++		ROUND(0, s, t);
++	}
++
++#endif /* ?FULL_UNROLL */
++
++#undef ROUND
++
++	/*
++	 * apply last round and
++	 * map cipher state to byte array block:
++	 */
++	s0 = TE41(t0) ^ TE42(t1) ^ TE43(t2) ^ TE44(t3) ^ rk[0];
++	PUTU32(ct     , s0);
++	s1 = TE41(t1) ^ TE42(t2) ^ TE43(t3) ^ TE44(t0) ^ rk[1];
++	PUTU32(ct +  4, s1);
++	s2 = TE41(t2) ^ TE42(t3) ^ TE43(t0) ^ TE44(t1) ^ rk[2];
++	PUTU32(ct +  8, s2);
++	s3 = TE41(t3) ^ TE42(t0) ^ TE43(t1) ^ TE44(t2) ^ rk[3];
++	PUTU32(ct + 12, s3);
++}
++
++static void *aes_encrypt_init(u8 *key, size_t len)
++{
++	u32 *rk;
++	if (len != 16)
++		return NULL;
++	rk = (u32 *)rtw_malloc(AES_PRIV_SIZE);
++	if (rk == NULL)
++		return NULL;
++	rijndaelKeySetupEnc(rk, key);
++	return rk;
++}
++
++static void aes_128_encrypt(void *ctx, u8 *plain, u8 *crypt)
++{
++	rijndaelEncrypt(ctx, plain, crypt);
++}
++
++
++static void gf_mulx(u8 *pad)
++{
++	int i, carry;
++
++	carry = pad[0] & 0x80;
++	for (i = 0; i < AES_BLOCK_SIZE - 1; i++)
++		pad[i] = (pad[i] << 1) | (pad[i + 1] >> 7);
++	pad[AES_BLOCK_SIZE - 1] <<= 1;
++	if (carry)
++		pad[AES_BLOCK_SIZE - 1] ^= 0x87;
++}
++
++static void aes_encrypt_deinit(void *ctx)
++{
++	_rtw_memset(ctx, 0, AES_PRIV_SIZE);
++	rtw_mfree(ctx, AES_PRIV_SIZE);
++}
++
++
++/**
++ * omac1_aes_128_vector - One-Key CBC MAC (OMAC1) hash with AES-128
++ * @key: 128-bit key for the hash operation
++ * @num_elem: Number of elements in the data vector
++ * @addr: Pointers to the data areas
++ * @len: Lengths of the data blocks
++ * @mac: Buffer for MAC (128 bits, i.e., 16 bytes)
++ * Returns: 0 on success, -1 on failure
++ *
++ * This is a mode for using block cipher (AES in this case) for authentication.
++ * OMAC1 was standardized with the name CMAC by NIST in a Special Publication
++ * (SP) 800-38B.
++ */
++static int omac1_aes_128_vector(u8 *key, size_t num_elem,
++				u8 *addr[], size_t *len, u8 *mac)
++{
++	void *ctx;
++	u8 cbc[AES_BLOCK_SIZE], pad[AES_BLOCK_SIZE];
++	u8 *pos, *end;
++	size_t i, e, left, total_len;
++
++	ctx = aes_encrypt_init(key, 16);
++	if (ctx == NULL)
++		return -1;
++	_rtw_memset(cbc, 0, AES_BLOCK_SIZE);
++
++	total_len = 0;
++	for (e = 0; e < num_elem; e++)
++		total_len += len[e];
++	left = total_len;
++
++	e = 0;
++	pos = addr[0];
++	end = pos + len[0];
++
++	while (left >= AES_BLOCK_SIZE) {
++		for (i = 0; i < AES_BLOCK_SIZE; i++) {
++			cbc[i] ^= *pos++;
++			if (pos >= end) {
++				e++;
++				pos = addr[e];
++				end = pos + len[e];
++			}
++		}
++		if (left > AES_BLOCK_SIZE)
++			aes_128_encrypt(ctx, cbc, cbc);
++		left -= AES_BLOCK_SIZE;
++	}
++
++	_rtw_memset(pad, 0, AES_BLOCK_SIZE);
++	aes_128_encrypt(ctx, pad, pad);
++	gf_mulx(pad);
++
++	if (left || total_len == 0) {
++		for (i = 0; i < left; i++) {
++			cbc[i] ^= *pos++;
++			if (pos >= end) {
++				e++;
++				pos = addr[e];
++				end = pos + len[e];
++			}
++		}
++		cbc[left] ^= 0x80;
++		gf_mulx(pad);
++	}
++
++	for (i = 0; i < AES_BLOCK_SIZE; i++)
++		pad[i] ^= cbc[i];
++	aes_128_encrypt(ctx, pad, mac);
++	aes_encrypt_deinit(ctx);
++	return 0;
++}
++
++
++/**
++ * omac1_aes_128 - One-Key CBC MAC (OMAC1) hash with AES-128 (aka AES-CMAC)
++ * @key: 128-bit key for the hash operation
++ * @data: Data buffer for which a MAC is determined
++ * @data_len: Length of data buffer in bytes
++ * @mac: Buffer for MAC (128 bits, i.e., 16 bytes)
++ * Returns: 0 on success, -1 on failure
++ *
++ * This is a mode for using block cipher (AES in this case) for authentication.
++ * OMAC1 was standardized with the name CMAC by NIST in a Special Publication
++ * (SP) 800-38B.
++ */ /* modify for CONFIG_IEEE80211W */
++int omac1_aes_128(u8 *key, u8 *data, size_t data_len, u8 *mac)
++{
++	return omac1_aes_128_vector(key, 1, &data, &data_len, mac);
++}
++#endif /* PLATFORM_FREEBSD Baron */
++
++#ifdef CONFIG_TDLS
++void wpa_tdls_generate_tpk(_adapter *padapter, PVOID sta)
++{
++	struct sta_info *psta = (struct sta_info *)sta;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	u8 *SNonce = psta->SNonce;
++	u8 *ANonce = psta->ANonce;
++
++	u8 key_input[SHA256_MAC_LEN];
++	u8 *nonce[2];
++	size_t len[2];
++	u8 data[3 * ETH_ALEN];
++
++	/* IEEE Std 802.11z-2010 8.5.9.1:
++	 * TPK-Key-Input = SHA-256(min(SNonce, ANonce) || max(SNonce, ANonce))
++	 */
++	len[0] = 32;
++	len[1] = 32;
++	if (os_memcmp(SNonce, ANonce, 32) < 0) {
++		nonce[0] = SNonce;
++		nonce[1] = ANonce;
++	} else {
++		nonce[0] = ANonce;
++		nonce[1] = SNonce;
++	}
++
++	sha256_vector(2, nonce, len, key_input);
++
++	/*
++	 * TPK-Key-Data = KDF-N_KEY(TPK-Key-Input, "TDLS PMK",
++	 *	min(MAC_I, MAC_R) || max(MAC_I, MAC_R) || BSSID || N_KEY)
++	 * TODO: is N_KEY really included in KDF Context and if so, in which
++	 * presentation format (little endian 16-bit?) is it used? It gets
++	 * added by the KDF anyway..
++	 */
++
++	if (os_memcmp(adapter_mac_addr(padapter), psta->hwaddr, ETH_ALEN) < 0) {
++		_rtw_memcpy(data, adapter_mac_addr(padapter), ETH_ALEN);
++		_rtw_memcpy(data + ETH_ALEN, psta->hwaddr, ETH_ALEN);
++	} else {
++		_rtw_memcpy(data, psta->hwaddr, ETH_ALEN);
++		_rtw_memcpy(data + ETH_ALEN, adapter_mac_addr(padapter), ETH_ALEN);
++	}
++	_rtw_memcpy(data + 2 * ETH_ALEN, get_bssid(pmlmepriv), ETH_ALEN);
++
++	sha256_prf(key_input, SHA256_MAC_LEN, "TDLS PMK", data, sizeof(data), (u8 *) &psta->tpk, sizeof(psta->tpk));
++
++
++}
++
++/**
++ * wpa_tdls_ftie_mic - Calculate TDLS FTIE MIC
++ * @kck: TPK-KCK
++ * @lnkid: Pointer to the beginning of Link Identifier IE
++ * @rsnie: Pointer to the beginning of RSN IE used for handshake
++ * @timeoutie: Pointer to the beginning of Timeout IE used for handshake
++ * @ftie: Pointer to the beginning of FT IE
++ * @mic: Pointer for writing MIC
++ *
++ * Calculate MIC for TDLS frame.
++ */
++int wpa_tdls_ftie_mic(u8 *kck, u8 trans_seq,
++		      u8 *lnkid, u8 *rsnie, u8 *timeoutie, u8 *ftie,
++		      u8 *mic)
++{
++	u8 *buf, *pos;
++	struct wpa_tdls_ftie *_ftie;
++	struct wpa_tdls_lnkid *_lnkid;
++	int ret;
++	int len = 2 * ETH_ALEN + 1 + 2 + lnkid[1] + 2 + rsnie[1] +
++		  2 + timeoutie[1] + 2 + ftie[1];
++	buf = rtw_zmalloc(len);
++	if (!buf) {
++		RTW_INFO("TDLS: No memory for MIC calculation\n");
++		return -1;
++	}
++
++	pos = buf;
++	_lnkid = (struct wpa_tdls_lnkid *) lnkid;
++	/* 1) TDLS initiator STA MAC address */
++	_rtw_memcpy(pos, _lnkid->init_sta, ETH_ALEN);
++	pos += ETH_ALEN;
++	/* 2) TDLS responder STA MAC address */
++	_rtw_memcpy(pos, _lnkid->resp_sta, ETH_ALEN);
++	pos += ETH_ALEN;
++	/* 3) Transaction Sequence number */
++	*pos++ = trans_seq;
++	/* 4) Link Identifier IE */
++	_rtw_memcpy(pos, lnkid, 2 + lnkid[1]);
++	pos += 2 + lnkid[1];
++	/* 5) RSN IE */
++	_rtw_memcpy(pos, rsnie, 2 + rsnie[1]);
++	pos += 2 + rsnie[1];
++	/* 6) Timeout Interval IE */
++	_rtw_memcpy(pos, timeoutie, 2 + timeoutie[1]);
++	pos += 2 + timeoutie[1];
++	/* 7) FTIE, with the MIC field of the FTIE set to 0 */
++	_rtw_memcpy(pos, ftie, 2 + ftie[1]);
++	_ftie = (struct wpa_tdls_ftie *) pos;
++	_rtw_memset(_ftie->mic, 0, TDLS_MIC_LEN);
++	pos += 2 + ftie[1];
++
++	ret = omac1_aes_128(kck, buf, pos - buf, mic);
++	rtw_mfree(buf, len);
++	return ret;
++
++}
++
++/**
++ * wpa_tdls_teardown_ftie_mic - Calculate TDLS TEARDOWN FTIE MIC
++ * @kck: TPK-KCK
++ * @lnkid: Pointer to the beginning of Link Identifier IE
++ * @reason: Reason code of TDLS Teardown
++ * @dialog_token: Dialog token that was used in the MIC calculation for TPK Handshake Message 3
++ * @trans_seq: Transaction Sequence number (1 octet) which shall be set to the value 4
++ * @ftie: Pointer to the beginning of FT IE
++ * @mic: Pointer for writing MIC
++ *
++ * Calculate MIC for TDLS TEARDOWN frame according to Section 10.22.5 in IEEE 802.11 - 2012.
++ */
++int wpa_tdls_teardown_ftie_mic(u8 *kck, u8 *lnkid, u16 reason,
++			       u8 dialog_token, u8 trans_seq, u8 *ftie, u8 *mic)
++{
++	u8 *buf, *pos;
++	struct wpa_tdls_ftie *_ftie;
++	int ret;
++	int len = 2 + lnkid[1] + 2 + 1 + 1 + 2 + ftie[1];
++
++	buf = rtw_zmalloc(len);
++	if (!buf) {
++		RTW_INFO("TDLS: No memory for MIC calculation\n");
++		return -1;
++	}
++
++	pos = buf;
++	/* 1) Link Identifier IE */
++	_rtw_memcpy(pos, lnkid, 2 + lnkid[1]);
++	pos += 2 + lnkid[1];
++	/* 2) Reason Code */
++	_rtw_memcpy(pos, (u8 *)&reason, 2);
++	pos += 2;
++	/* 3) Dialog Token */
++	*pos++ = dialog_token;
++	/* 4) Transaction Sequence number */
++	*pos++ = trans_seq;
++	/* 5) FTIE, with the MIC field of the FTIE set to 0 */
++	_rtw_memcpy(pos, ftie, 2 + ftie[1]);
++	_ftie = (struct wpa_tdls_ftie *) pos;
++	_rtw_memset(_ftie->mic, 0, TDLS_MIC_LEN);
++	pos += 2 + ftie[1];
++
++	ret = omac1_aes_128(kck, buf, pos - buf, mic);
++	rtw_mfree(buf, len);
++	return ret;
++
++}
++
++int tdls_verify_mic(u8 *kck, u8 trans_seq,
++		    u8 *lnkid, u8 *rsnie, u8 *timeoutie, u8 *ftie)
++{
++	u8 *buf, *pos;
++	int len;
++	u8 mic[16];
++	int ret;
++	u8 *rx_ftie, *tmp_ftie;
++
++	if (lnkid == NULL || rsnie == NULL ||
++	    timeoutie == NULL || ftie == NULL)
++		return _FAIL;
++
++	len = 2 * ETH_ALEN + 1 + 2 + 18 + 2 + *(rsnie + 1) + 2 + *(timeoutie + 1) + 2 + *(ftie + 1);
++
++	buf = rtw_zmalloc(len);
++	if (buf == NULL)
++		return _FAIL;
++
++	pos = buf;
++	/* 1) TDLS initiator STA MAC address */
++	_rtw_memcpy(pos, lnkid + ETH_ALEN + 2, ETH_ALEN);
++	pos += ETH_ALEN;
++	/* 2) TDLS responder STA MAC address */
++	_rtw_memcpy(pos, lnkid + 2 * ETH_ALEN + 2, ETH_ALEN);
++	pos += ETH_ALEN;
++	/* 3) Transaction Sequence number */
++	*pos++ = trans_seq;
++	/* 4) Link Identifier IE */
++	_rtw_memcpy(pos, lnkid, 2 + 18);
++	pos += 2 + 18;
++	/* 5) RSN IE */
++	_rtw_memcpy(pos, rsnie, 2 + *(rsnie + 1));
++	pos += 2 + *(rsnie + 1);
++	/* 6) Timeout Interval IE */
++	_rtw_memcpy(pos, timeoutie, 2 + *(timeoutie + 1));
++	pos += 2 + *(timeoutie + 1);
++	/* 7) FTIE, with the MIC field of the FTIE set to 0 */
++	_rtw_memcpy(pos, ftie, 2 + *(ftie + 1));
++	pos += 2;
++	tmp_ftie = (u8 *)(pos + 2);
++	_rtw_memset(tmp_ftie, 0, 16);
++	pos += *(ftie + 1);
++
++	ret = omac1_aes_128(kck, buf, pos - buf, mic);
++	rtw_mfree(buf, len);
++	if (ret)
++		return _FAIL;
++	rx_ftie = ftie + 4;
++
++	if (os_memcmp(mic, rx_ftie, 16) == 0) {
++		/* Valid MIC */
++		return _SUCCESS;
++	}
++
++	/* Invalid MIC */
++	RTW_INFO("[%s] Invalid MIC\n", __FUNCTION__);
++	return _FAIL;
++
++}
++#endif /* CONFIG_TDLS */
++
++void rtw_use_tkipkey_handler(RTW_TIMER_HDL_ARGS)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++
++
++
++	/*
++		if (RTW_CANNOT_RUN(padapter)) {
++
++			return;
++		}
++		*/
++
++	padapter->securitypriv.busetkipkey = _TRUE;
++
++
++
++}
++
++/* Restore HW wep key setting according to key_mask */
++void rtw_sec_restore_wep_key(_adapter *adapter)
++{
++	struct security_priv *securitypriv = &(adapter->securitypriv);
++	sint keyid;
++
++	if ((_WEP40_ == securitypriv->dot11PrivacyAlgrthm) || (_WEP104_ == securitypriv->dot11PrivacyAlgrthm)) {
++		for (keyid = 0; keyid < 4; keyid++) {
++			if (securitypriv->key_mask & BIT(keyid)) {
++				if (keyid == securitypriv->dot11PrivacyKeyIndex)
++					rtw_set_key(adapter, securitypriv, keyid, 1, _FALSE);
++				else
++					rtw_set_key(adapter, securitypriv, keyid, 0, _FALSE);
++			}
++		}
++	}
++}
++
++u8 rtw_handle_tkip_countermeasure(_adapter *adapter, const char *caller)
++{
++	struct security_priv *securitypriv = &(adapter->securitypriv);
++	u8 status = _SUCCESS;
++
++	if (securitypriv->btkip_countermeasure == _TRUE) {
++		u32 passing_ms = rtw_get_passing_time_ms(securitypriv->btkip_countermeasure_time);
++		if (passing_ms > 60 * 1000) {
++			RTW_PRINT("%s("ADPT_FMT") countermeasure time:%ds > 60s\n",
++				  caller, ADPT_ARG(adapter), passing_ms / 1000);
++			securitypriv->btkip_countermeasure = _FALSE;
++			securitypriv->btkip_countermeasure_time = 0;
++		} else {
++			RTW_PRINT("%s("ADPT_FMT") countermeasure time:%ds < 60s\n",
++				  caller, ADPT_ARG(adapter), passing_ms / 1000);
++			status = _FAIL;
++		}
++	}
++
++	return status;
++}
++
++#ifdef CONFIG_WOWLAN
++u16 rtw_cal_crc16(u8 data, u16 crc)
++{
++	u8 shift_in, data_bit;
++	u8 crc_bit4, crc_bit11, crc_bit15;
++	u16 crc_result;
++	int index;
++
++	for (index = 0; index < 8; index++) {
++		crc_bit15 = ((crc & BIT15) ? 1 : 0);
++		data_bit = (data & (BIT0 << index) ? 1 : 0);
++		shift_in = crc_bit15 ^ data_bit;
++		/*printf("crc_bit15=%d, DataBit=%d, shift_in=%d\n",
++		 * crc_bit15, data_bit, shift_in);*/
++
++		crc_result = crc << 1;
++
++		if (shift_in == 0)
++			crc_result &= (~BIT0);
++		else
++			crc_result |= BIT0;
++		/*printf("CRC =%x\n",CRC_Result);*/
++
++		crc_bit11 = ((crc & BIT11) ? 1 : 0) ^ shift_in;
++
++		if (crc_bit11 == 0)
++			crc_result &= (~BIT12);
++		else
++			crc_result |= BIT12;
++
++		/*printf("bit12 CRC =%x\n",CRC_Result);*/
++
++		crc_bit4 = ((crc & BIT4) ? 1 : 0) ^ shift_in;
++
++		if (crc_bit4 == 0)
++			crc_result &= (~BIT5);
++		else
++			crc_result |= BIT5;
++
++		/* printf("bit5 CRC =%x\n",CRC_Result); */
++		/* repeat using the last result*/
++		crc = crc_result;
++	}
++	return crc;
++}
++
++/*
++ * function name :rtw_calc_crc
++ *
++ * input: char* pattern , pattern size
++ *
++ */
++u16 rtw_calc_crc(u8  *pdata, int length)
++{
++	u16 crc = 0xffff;
++	int i;
++
++	for (i = 0; i < length; i++)
++		crc = rtw_cal_crc16(pdata[i], crc);
++	/* get 1' complement */
++	crc = ~crc;
++
++	return crc;
++}
++#endif /*CONFIG_WOWLAN*/
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_sreset.c b/drivers/net/wireless/rtl8812au/core/rtw_sreset.c
+new file mode 100644
+index 0000000..6d241ca
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_sreset.c
+@@ -0,0 +1,346 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include <drv_types.h>
++#include <hal_data.h>
++#include <rtw_sreset.h>
++
++void sreset_init_value(_adapter *padapter)
++{
++#if defined(DBG_CONFIG_ERROR_DETECT)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++
++	_rtw_mutex_init(&psrtpriv->silentreset_mutex);
++	psrtpriv->silent_reset_inprogress = _FALSE;
++	psrtpriv->Wifi_Error_Status = WIFI_STATUS_SUCCESS;
++	psrtpriv->last_tx_time = 0;
++	psrtpriv->last_tx_complete_time = 0;
++#endif
++}
++void sreset_reset_value(_adapter *padapter)
++{
++#if defined(DBG_CONFIG_ERROR_DETECT)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++
++	psrtpriv->Wifi_Error_Status = WIFI_STATUS_SUCCESS;
++	psrtpriv->last_tx_time = 0;
++	psrtpriv->last_tx_complete_time = 0;
++#endif
++}
++
++u8 sreset_get_wifi_status(_adapter *padapter)
++{
++#if defined(DBG_CONFIG_ERROR_DETECT)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++
++	u8 status = WIFI_STATUS_SUCCESS;
++	u32 val32 = 0;
++	_irqL irqL;
++	if (psrtpriv->silent_reset_inprogress == _TRUE)
++		return status;
++	val32 = rtw_read32(padapter, REG_TXDMA_STATUS);
++	if (val32 == 0xeaeaeaea)
++		psrtpriv->Wifi_Error_Status = WIFI_IF_NOT_EXIST;
++	else if (val32 != 0) {
++		RTW_INFO("txdmastatu(%x)\n", val32);
++		psrtpriv->Wifi_Error_Status = WIFI_MAC_TXDMA_ERROR;
++	}
++
++	if (WIFI_STATUS_SUCCESS != psrtpriv->Wifi_Error_Status) {
++		RTW_INFO("==>%s error_status(0x%x)\n", __FUNCTION__, psrtpriv->Wifi_Error_Status);
++		status = (psrtpriv->Wifi_Error_Status & (~(USB_READ_PORT_FAIL | USB_WRITE_PORT_FAIL)));
++	}
++	RTW_INFO("==> %s wifi_status(0x%x)\n", __FUNCTION__, status);
++
++	/* status restore */
++	psrtpriv->Wifi_Error_Status = WIFI_STATUS_SUCCESS;
++
++	return status;
++#else
++	return WIFI_STATUS_SUCCESS;
++#endif
++}
++
++void sreset_set_wifi_error_status(_adapter *padapter, u32 status)
++{
++#if defined(DBG_CONFIG_ERROR_DETECT)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	pHalData->srestpriv.Wifi_Error_Status = status;
++#endif
++}
++
++void sreset_set_trigger_point(_adapter *padapter, s32 tgp)
++{
++#if defined(DBG_CONFIG_ERROR_DETECT)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	pHalData->srestpriv.dbg_trigger_point = tgp;
++#endif
++}
++
++bool sreset_inprogress(_adapter *padapter)
++{
++#if defined(DBG_CONFIG_ERROR_RESET)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	return pHalData->srestpriv.silent_reset_inprogress;
++#else
++	return _FALSE;
++#endif
++}
++
++void sreset_restore_security_station(_adapter *padapter)
++{
++	u8 EntryId = 0;
++	struct mlme_priv *mlmepriv = &padapter->mlmepriv;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta;
++	struct security_priv *psecuritypriv = &(padapter->securitypriv);
++	struct mlme_ext_info	*pmlmeinfo = &padapter->mlmeextpriv.mlmext_info;
++
++	{
++		u8 val8;
++
++		if (pmlmeinfo->auth_algo == dot11AuthAlgrthm_8021X) {
++			val8 = 0xcc;
++#ifdef CONFIG_WAPI_SUPPORT
++		} else if (padapter->wapiInfo.bWapiEnable && pmlmeinfo->auth_algo == dot11AuthAlgrthm_WAPI) {
++			/* Disable TxUseDefaultKey, RxUseDefaultKey, RxBroadcastUseDefaultKey. */
++			val8 = 0x4c;
++#endif
++		} else
++			val8 = 0xcf;
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_CFG, (u8 *)(&val8));
++	}
++
++#if 0
++	if ((padapter->securitypriv.dot11PrivacyAlgrthm == _WEP40_) ||
++	    (padapter->securitypriv.dot11PrivacyAlgrthm == _WEP104_)) {
++
++		for (EntryId = 0; EntryId < 4; EntryId++) {
++			if (EntryId == psecuritypriv->dot11PrivacyKeyIndex)
++				rtw_set_key(padapter, &padapter->securitypriv, EntryId, 1, _FALSE);
++			else
++				rtw_set_key(padapter, &padapter->securitypriv, EntryId, 0, _FALSE);
++		}
++
++	} else
++#endif
++		if ((padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_) ||
++		    (padapter->securitypriv.dot11PrivacyAlgrthm == _AES_)) {
++			psta = rtw_get_stainfo(pstapriv, get_bssid(mlmepriv));
++			if (psta == NULL) {
++				/* DEBUG_ERR( ("Set wpa_set_encryption: Obtain Sta_info fail\n")); */
++			} else {
++				/* pairwise key */
++				rtw_setstakey_cmd(padapter, psta, UNICAST_KEY, _FALSE);
++				/* group key */
++				rtw_set_key(padapter, &padapter->securitypriv, padapter->securitypriv.dot118021XGrpKeyid, 0, _FALSE);
++			}
++		}
++}
++
++void sreset_restore_network_station(_adapter *padapter)
++{
++	struct mlme_priv *mlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 doiqk = _FALSE;
++
++#if 0
++	{
++		/* ======================================================= */
++		/* reset related register of Beacon control */
++
++		/* set MSR to nolink */
++		Set_MSR(padapter, _HW_STATE_NOLINK_);
++		/* reject all data frame */
++		rtw_write16(padapter, REG_RXFLTMAP2, 0x00);
++		/* reset TSF */
++		rtw_write8(padapter, REG_DUAL_TSF_RST, (BIT(0) | BIT(1)));
++
++		/* disable update TSF */
++		SetBcnCtrlReg(padapter, BIT(4), 0);
++
++		/* ======================================================= */
++	}
++#endif
++
++	rtw_setopmode_cmd(padapter, Ndis802_11Infrastructure, _FALSE);
++
++	{
++		u8 threshold;
++#ifdef CONFIG_USB_HCI
++		/* TH=1 => means that invalidate usb rx aggregation */
++		/* TH=0 => means that validate usb rx aggregation, use init value. */
++		if (mlmepriv->htpriv.ht_option) {
++			if (padapter->registrypriv.wifi_spec == 1)
++				threshold = 1;
++			else
++				threshold = 0;
++			rtw_hal_set_hwreg(padapter, HW_VAR_RXDMA_AGG_PG_TH, (u8 *)(&threshold));
++		} else {
++			threshold = 1;
++			rtw_hal_set_hwreg(padapter, HW_VAR_RXDMA_AGG_PG_TH, (u8 *)(&threshold));
++		}
++#endif
++	}
++
++	doiqk = _TRUE;
++	rtw_hal_set_hwreg(padapter, HW_VAR_DO_IQK , &doiqk);
++
++	set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++
++	doiqk = _FALSE;
++	rtw_hal_set_hwreg(padapter , HW_VAR_DO_IQK , &doiqk);
++	/* disable dynamic functions, such as high power, DIG */
++	/*rtw_phydm_func_disable_all(padapter);*/
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_BSSID, pmlmeinfo->network.MacAddress);
++
++	{
++		u8	join_type = 0;
++		rtw_hal_set_hwreg(padapter, HW_VAR_MLME_JOIN, (u8 *)(&join_type));
++	}
++
++	Set_MSR(padapter, (pmlmeinfo->state & 0x3));
++
++	mlmeext_joinbss_event_callback(padapter, 1);
++	/* restore Sequence No. */
++	rtw_hal_set_hwreg(padapter, HW_VAR_RESTORE_HW_SEQ, 0);
++
++	sreset_restore_security_station(padapter);
++}
++
++
++void sreset_restore_network_status(_adapter *padapter)
++{
++	struct mlme_priv *mlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (check_fwstate(mlmepriv, WIFI_STATION_STATE)) {
++		RTW_INFO(FUNC_ADPT_FMT" fwstate:0x%08x - WIFI_STATION_STATE\n", FUNC_ADPT_ARG(padapter), get_fwstate(mlmepriv));
++		sreset_restore_network_station(padapter);
++	} else if (check_fwstate(mlmepriv, WIFI_AP_STATE)) {
++		RTW_INFO(FUNC_ADPT_FMT" fwstate:0x%08x - WIFI_AP_STATE\n", FUNC_ADPT_ARG(padapter), get_fwstate(mlmepriv));
++		rtw_ap_restore_network(padapter);
++	} else if (check_fwstate(mlmepriv, WIFI_ADHOC_STATE))
++		RTW_INFO(FUNC_ADPT_FMT" fwstate:0x%08x - WIFI_ADHOC_STATE\n", FUNC_ADPT_ARG(padapter), get_fwstate(mlmepriv));
++	else
++		RTW_INFO(FUNC_ADPT_FMT" fwstate:0x%08x - ???\n", FUNC_ADPT_ARG(padapter), get_fwstate(mlmepriv));
++}
++
++void sreset_stop_adapter(_adapter *padapter)
++{
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++
++	if (padapter == NULL)
++		return;
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++	rtw_netif_stop_queue(padapter->pnetdev);
++
++	rtw_cancel_all_timer(padapter);
++
++	/* TODO: OS and HCI independent */
++#if defined(PLATFORM_LINUX) && defined(CONFIG_USB_HCI)
++	tasklet_kill(&pxmitpriv->xmit_tasklet);
++#endif
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY))
++		rtw_scan_abort(padapter);
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING)) {
++		rtw_set_to_roam(padapter, 0);
++		_rtw_join_timeout_handler(padapter);
++	}
++
++}
++
++void sreset_start_adapter(_adapter *padapter)
++{
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++
++	if (padapter == NULL)
++		return;
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED))
++		sreset_restore_network_status(padapter);
++
++	/* TODO: OS and HCI independent */
++#if defined(PLATFORM_LINUX) && defined(CONFIG_USB_HCI)
++	tasklet_hi_schedule(&pxmitpriv->xmit_tasklet);
++#endif
++
++	if (is_primary_adapter(padapter))
++		_set_timer(&adapter_to_dvobj(padapter)->dynamic_chk_timer, 2000);
++
++	rtw_netif_wake_queue(padapter->pnetdev);
++}
++
++void sreset_reset(_adapter *padapter)
++{
++#ifdef DBG_CONFIG_ERROR_RESET
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	_irqL irqL;
++	u32 start = rtw_get_current_time();
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	psrtpriv->Wifi_Error_Status = WIFI_STATUS_SUCCESS;
++
++
++#ifdef CONFIG_LPS
++	rtw_set_ps_mode(padapter, PS_MODE_ACTIVE, 0, 0, "SRESET");
++#endif/* #ifdef CONFIG_LPS */
++
++	_enter_pwrlock(&pwrpriv->lock);
++
++	psrtpriv->silent_reset_inprogress = _TRUE;
++	pwrpriv->change_rfpwrstate = rf_off;
++
++	rtw_mi_sreset_adapter_hdl(padapter, _FALSE);/*sreset_stop_adapter*/
++#ifdef CONFIG_IPS
++	_ips_enter(padapter);
++	_ips_leave(padapter);
++#endif
++	rtw_mi_sreset_adapter_hdl(padapter, _TRUE);/*sreset_start_adapter*/
++
++	psrtpriv->silent_reset_inprogress = _FALSE;
++
++	_exit_pwrlock(&pwrpriv->lock);
++
++	RTW_INFO("%s done in %d ms\n", __FUNCTION__, rtw_get_passing_time_ms(start));
++	pdbgpriv->dbg_sreset_cnt++;
++#endif
++}
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_sta_mgt.c b/drivers/net/wireless/rtl8812au/core/rtw_sta_mgt.c
+new file mode 100644
+index 0000000..37f7953
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_sta_mgt.c
+@@ -0,0 +1,973 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_STA_MGT_C_
++
++#include <drv_types.h>
++
++#if defined(PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++
++	#error "Shall be Linux or Windows, but not both!\n"
++
++#endif
++
++
++bool test_st_match_rule(_adapter *adapter, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port)
++{
++	if (ntohs(*((u16 *)local_port)) == 5001 || ntohs(*((u16 *)remote_port)) == 5001)
++		return _TRUE;
++	return _FALSE;
++}
++
++struct st_register test_st_reg = {
++	.s_proto = 0x06,
++	.rule = test_st_match_rule,
++};
++
++inline void rtw_st_ctl_init(struct st_ctl_t *st_ctl)
++{
++	_rtw_memset(st_ctl->reg, 0 , sizeof(struct st_register) * SESSION_TRACKER_REG_ID_NUM);
++	_rtw_init_queue(&st_ctl->tracker_q);
++}
++
++inline void rtw_st_ctl_clear_tracker_q(struct st_ctl_t *st_ctl)
++{
++	_irqL irqL;
++	_list *plist, *phead;
++	struct session_tracker *st;
++
++	_enter_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++	phead = &st_ctl->tracker_q.queue;
++	plist = get_next(phead);
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		st = LIST_CONTAINOR(plist, struct session_tracker, list);
++		plist = get_next(plist);
++		rtw_list_delete(&st->list);
++		rtw_mfree((u8 *)st, sizeof(struct session_tracker));
++	}
++	_exit_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++}
++
++inline void rtw_st_ctl_deinit(struct st_ctl_t *st_ctl)
++{
++	rtw_st_ctl_clear_tracker_q(st_ctl);
++	_rtw_deinit_queue(&st_ctl->tracker_q);
++}
++
++inline void rtw_st_ctl_register(struct st_ctl_t *st_ctl, u8 st_reg_id, struct st_register *reg)
++{
++	if (st_reg_id >= SESSION_TRACKER_REG_ID_NUM) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	st_ctl->reg[st_reg_id].s_proto = reg->s_proto;
++	st_ctl->reg[st_reg_id].rule = reg->rule;
++}
++
++inline void rtw_st_ctl_unregister(struct st_ctl_t *st_ctl, u8 st_reg_id)
++{
++	int i;
++
++	if (st_reg_id >= SESSION_TRACKER_REG_ID_NUM) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	st_ctl->reg[st_reg_id].s_proto = 0;
++	st_ctl->reg[st_reg_id].rule = NULL;
++
++	/* clear tracker queue if no session trecker registered */
++	for (i = 0; i < SESSION_TRACKER_REG_ID_NUM; i++)
++		if (st_ctl->reg[i].s_proto != 0)
++			break;
++	if (i >= SESSION_TRACKER_REG_ID_NUM)
++		rtw_st_ctl_clear_tracker_q(st_ctl);
++}
++
++inline bool rtw_st_ctl_chk_reg_s_proto(struct st_ctl_t *st_ctl, u8 s_proto)
++{
++	bool ret = _FALSE;
++	int i;
++
++	for (i = 0; i < SESSION_TRACKER_REG_ID_NUM; i++) {
++		if (st_ctl->reg[i].s_proto == s_proto) {
++			ret = _TRUE;
++			break;
++		}
++	}
++
++	return ret;
++}
++
++inline bool rtw_st_ctl_chk_reg_rule(struct st_ctl_t *st_ctl, _adapter *adapter, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port)
++{
++	bool ret = _FALSE;
++	int i;
++	st_match_rule rule;
++
++	for (i = 0; i < SESSION_TRACKER_REG_ID_NUM; i++) {
++		rule = st_ctl->reg[i].rule;
++		if (rule && rule(adapter, local_naddr, local_port, remote_naddr, remote_port) == _TRUE) {
++			ret = _TRUE;
++			break;
++		}
++	}
++
++	return ret;
++}
++
++#define SESSION_TRACKER_FMT IP_FMT":"PORT_FMT" "IP_FMT":"PORT_FMT" %u %d"
++#define SESSION_TRACKER_ARG(st) IP_ARG(&(st)->local_naddr), PORT_ARG(&(st)->local_port), IP_ARG(&(st)->remote_naddr), PORT_ARG(&(st)->remote_port), (st)->status, rtw_get_passing_time_ms((st)->set_time)
++
++void dump_st_ctl(void *sel, struct st_ctl_t *st_ctl)
++{
++	int i;
++	_irqL irqL;
++	_list *plist, *phead;
++	struct session_tracker *st;
++
++	if (!DBG_SESSION_TRACKER)
++		return;
++
++	for (i = 0; i < SESSION_TRACKER_REG_ID_NUM; i++)
++		RTW_PRINT_SEL(sel, "reg%d: %u %p\n", i, st_ctl->reg[i].s_proto, st_ctl->reg[i].rule);
++
++	_enter_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++	phead = &st_ctl->tracker_q.queue;
++	plist = get_next(phead);
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		st = LIST_CONTAINOR(plist, struct session_tracker, list);
++		plist = get_next(plist);
++
++		RTW_PRINT_SEL(sel, SESSION_TRACKER_FMT"\n", SESSION_TRACKER_ARG(st));
++	}
++	_exit_critical_bh(&st_ctl->tracker_q.lock, &irqL);
++
++}
++
++void _rtw_init_stainfo(struct sta_info *psta);
++void _rtw_init_stainfo(struct sta_info *psta)
++{
++
++
++	_rtw_memset((u8 *)psta, 0, sizeof(struct sta_info));
++
++	_rtw_spinlock_init(&psta->lock);
++	_rtw_init_listhead(&psta->list);
++	_rtw_init_listhead(&psta->hash_list);
++	/* _rtw_init_listhead(&psta->asoc_list); */
++	/* _rtw_init_listhead(&psta->sleep_list); */
++	/* _rtw_init_listhead(&psta->wakeup_list);	 */
++
++	_rtw_init_queue(&psta->sleep_q);
++	psta->sleepq_len = 0;
++
++	_rtw_init_sta_xmit_priv(&psta->sta_xmitpriv);
++	_rtw_init_sta_recv_priv(&psta->sta_recvpriv);
++
++#ifdef CONFIG_AP_MODE
++
++	_rtw_init_listhead(&psta->asoc_list);
++
++	_rtw_init_listhead(&psta->auth_list);
++
++	psta->expire_to = 0;
++
++	psta->flags = 0;
++
++	psta->capability = 0;
++
++	psta->bpairwise_key_installed = _FALSE;
++
++
++#ifdef CONFIG_NATIVEAP_MLME
++	psta->nonerp_set = 0;
++	psta->no_short_slot_time_set = 0;
++	psta->no_short_preamble_set = 0;
++	psta->no_ht_gf_set = 0;
++	psta->no_ht_set = 0;
++	psta->ht_20mhz_set = 0;
++	psta->ht_40mhz_intolerant = 0;
++#endif
++
++#ifdef CONFIG_TX_MCAST2UNI
++	psta->under_exist_checking = 0;
++#endif /* CONFIG_TX_MCAST2UNI */
++
++	psta->keep_alive_trycnt = 0;
++
++#endif /* CONFIG_AP_MODE	 */
++
++	rtw_st_ctl_init(&psta->st_ctl);
++
++
++}
++
++u32	_rtw_init_sta_priv(struct	sta_priv *pstapriv)
++{
++	struct sta_info *psta;
++	s32 i;
++
++
++	pstapriv->pallocated_stainfo_buf = rtw_zvmalloc(sizeof(struct sta_info) * NUM_STA + 4);
++
++	if (!pstapriv->pallocated_stainfo_buf)
++		return _FAIL;
++
++	pstapriv->pstainfo_buf = pstapriv->pallocated_stainfo_buf + 4 -
++			 ((SIZE_PTR)(pstapriv->pallocated_stainfo_buf) & 3);
++
++	_rtw_init_queue(&pstapriv->free_sta_queue);
++
++	_rtw_spinlock_init(&pstapriv->sta_hash_lock);
++
++	/* _rtw_init_queue(&pstapriv->asoc_q); */
++	pstapriv->asoc_sta_count = 0;
++	_rtw_init_queue(&pstapriv->sleep_q);
++	_rtw_init_queue(&pstapriv->wakeup_q);
++
++	psta = (struct sta_info *)(pstapriv->pstainfo_buf);
++
++
++	for (i = 0; i < NUM_STA; i++) {
++		_rtw_init_stainfo(psta);
++
++		_rtw_init_listhead(&(pstapriv->sta_hash[i]));
++
++		rtw_list_insert_tail(&psta->list, get_list_head(&pstapriv->free_sta_queue));
++
++		psta++;
++	}
++
++	pstapriv->adhoc_expire_to = 4; /* 4 * 2 = 8 sec */
++
++#ifdef CONFIG_AP_MODE
++
++	pstapriv->sta_dz_bitmap = 0;
++	pstapriv->tim_bitmap = 0;
++
++	_rtw_init_listhead(&pstapriv->asoc_list);
++	_rtw_init_listhead(&pstapriv->auth_list);
++	_rtw_spinlock_init(&pstapriv->asoc_list_lock);
++	_rtw_spinlock_init(&pstapriv->auth_list_lock);
++	pstapriv->asoc_list_cnt = 0;
++	pstapriv->auth_list_cnt = 0;
++
++	pstapriv->auth_to = 3; /* 3*2 = 6 sec */
++	pstapriv->assoc_to = 3;
++	/* pstapriv->expire_to = 900; */ /* 900*2 = 1800 sec = 30 min, expire after no any traffic. */
++	/* pstapriv->expire_to = 30; */ /* 30*2 = 60 sec = 1 min, expire after no any traffic. */
++#ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++	pstapriv->expire_to = 3; /* 3*2 = 6 sec */
++#else
++	pstapriv->expire_to = 60;/* 60*2 = 120 sec = 2 min, expire after no any traffic. */
++#endif
++#ifdef CONFIG_ATMEL_RC_PATCH
++	_rtw_memset(pstapriv->atmel_rc_pattern, 0, ETH_ALEN);
++#endif
++	pstapriv->max_num_sta = NUM_STA;
++
++#endif
++
++#if CONFIG_RTW_MACADDR_ACL
++	_rtw_init_queue(&(pstapriv->acl_list.acl_node_q));
++#endif
++
++
++	return _SUCCESS;
++
++}
++
++inline int rtw_stainfo_offset(struct sta_priv *stapriv, struct sta_info *sta)
++{
++	int offset = (((u8 *)sta) - stapriv->pstainfo_buf) / sizeof(struct sta_info);
++
++	if (!stainfo_offset_valid(offset))
++		RTW_INFO("%s invalid offset(%d), out of range!!!", __func__, offset);
++
++	return offset;
++}
++
++inline struct sta_info *rtw_get_stainfo_by_offset(struct sta_priv *stapriv, int offset)
++{
++	if (!stainfo_offset_valid(offset))
++		RTW_INFO("%s invalid offset(%d), out of range!!!", __func__, offset);
++
++	return (struct sta_info *)(stapriv->pstainfo_buf + offset * sizeof(struct sta_info));
++}
++
++void	_rtw_free_sta_xmit_priv_lock(struct sta_xmit_priv *psta_xmitpriv);
++void	_rtw_free_sta_xmit_priv_lock(struct sta_xmit_priv *psta_xmitpriv)
++{
++
++	_rtw_spinlock_free(&psta_xmitpriv->lock);
++
++	_rtw_spinlock_free(&(psta_xmitpriv->be_q.sta_pending.lock));
++	_rtw_spinlock_free(&(psta_xmitpriv->bk_q.sta_pending.lock));
++	_rtw_spinlock_free(&(psta_xmitpriv->vi_q.sta_pending.lock));
++	_rtw_spinlock_free(&(psta_xmitpriv->vo_q.sta_pending.lock));
++}
++
++static void	_rtw_free_sta_recv_priv_lock(struct sta_recv_priv *psta_recvpriv)
++{
++
++	_rtw_spinlock_free(&psta_recvpriv->lock);
++
++	_rtw_spinlock_free(&(psta_recvpriv->defrag_q.lock));
++
++
++}
++
++void rtw_mfree_stainfo(struct sta_info *psta);
++void rtw_mfree_stainfo(struct sta_info *psta)
++{
++
++	if (&psta->lock != NULL)
++		_rtw_spinlock_free(&psta->lock);
++
++	_rtw_free_sta_xmit_priv_lock(&psta->sta_xmitpriv);
++	_rtw_free_sta_recv_priv_lock(&psta->sta_recvpriv);
++
++}
++
++
++/* this function is used to free the memory of lock || sema for all stainfos */
++void rtw_mfree_all_stainfo(struct sta_priv *pstapriv);
++void rtw_mfree_all_stainfo(struct sta_priv *pstapriv)
++{
++	_irqL	 irqL;
++	_list	*plist, *phead;
++	struct sta_info *psta = NULL;
++
++
++	_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++	phead = get_list_head(&pstapriv->free_sta_queue);
++	plist = get_next(phead);
++
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		psta = LIST_CONTAINOR(plist, struct sta_info , list);
++		plist = get_next(plist);
++
++		rtw_mfree_stainfo(psta);
++	}
++
++	_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++
++}
++
++void rtw_mfree_sta_priv_lock(struct	sta_priv *pstapriv);
++void rtw_mfree_sta_priv_lock(struct	sta_priv *pstapriv)
++{
++	rtw_mfree_all_stainfo(pstapriv); /* be done before free sta_hash_lock */
++
++	_rtw_spinlock_free(&pstapriv->free_sta_queue.lock);
++
++	_rtw_spinlock_free(&pstapriv->sta_hash_lock);
++	_rtw_spinlock_free(&pstapriv->wakeup_q.lock);
++	_rtw_spinlock_free(&pstapriv->sleep_q.lock);
++
++#ifdef CONFIG_AP_MODE
++	_rtw_spinlock_free(&pstapriv->asoc_list_lock);
++	_rtw_spinlock_free(&pstapriv->auth_list_lock);
++#endif
++
++}
++
++u32	_rtw_free_sta_priv(struct	sta_priv *pstapriv)
++{
++	_irqL	irqL;
++	_list	*phead, *plist;
++	struct sta_info *psta = NULL;
++	struct recv_reorder_ctrl *preorder_ctrl;
++	int	index;
++
++	if (pstapriv) {
++
++		/*	delete all reordering_ctrl_timer		*/
++		_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++		for (index = 0; index < NUM_STA; index++) {
++			phead = &(pstapriv->sta_hash[index]);
++			plist = get_next(phead);
++
++			while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++				int i;
++				psta = LIST_CONTAINOR(plist, struct sta_info , hash_list);
++				plist = get_next(plist);
++
++				for (i = 0; i < 16 ; i++) {
++					preorder_ctrl = &psta->recvreorder_ctrl[i];
++					_cancel_timer_ex(&preorder_ctrl->reordering_ctrl_timer);
++				}
++			}
++		}
++		_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++		/*===============================*/
++
++		rtw_mfree_sta_priv_lock(pstapriv);
++
++#if CONFIG_RTW_MACADDR_ACL
++		_rtw_deinit_queue(&(pstapriv->acl_list.acl_node_q));
++#endif
++
++		if (pstapriv->pallocated_stainfo_buf)
++			rtw_vmfree(pstapriv->pallocated_stainfo_buf, sizeof(struct sta_info) * NUM_STA + 4);
++	}
++
++	return _SUCCESS;
++}
++
++
++/* struct	sta_info *rtw_alloc_stainfo(_queue *pfree_sta_queue, unsigned char *hwaddr) */
++struct	sta_info *rtw_alloc_stainfo(struct	sta_priv *pstapriv, u8 *hwaddr)
++{
++	_irqL irqL, irqL2;
++	uint tmp_aid;
++	s32	index;
++	_list	*phash_list;
++	struct sta_info	*psta;
++	_queue *pfree_sta_queue;
++	struct recv_reorder_ctrl *preorder_ctrl;
++	int i = 0;
++	u16  wRxSeqInitialValue = 0xffff;
++
++
++	pfree_sta_queue = &pstapriv->free_sta_queue;
++
++	/* _enter_critical_bh(&(pfree_sta_queue->lock), &irqL); */
++	_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL2);
++	if (_rtw_queue_empty(pfree_sta_queue) == _TRUE) {
++		/* _exit_critical_bh(&(pfree_sta_queue->lock), &irqL); */
++		_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL2);
++		psta = NULL;
++	} else {
++		psta = LIST_CONTAINOR(get_next(&pfree_sta_queue->queue), struct sta_info, list);
++
++		rtw_list_delete(&(psta->list));
++
++		/* _exit_critical_bh(&(pfree_sta_queue->lock), &irqL); */
++
++		tmp_aid = psta->aid;
++
++		_rtw_init_stainfo(psta);
++
++		psta->padapter = pstapriv->padapter;
++
++		_rtw_memcpy(psta->hwaddr, hwaddr, ETH_ALEN);
++
++		index = wifi_mac_hash(hwaddr);
++
++
++		if (index >= NUM_STA) {
++			psta = NULL;
++			goto exit;
++		}
++		phash_list = &(pstapriv->sta_hash[index]);
++
++		/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL2); */
++
++		rtw_list_insert_tail(&psta->hash_list, phash_list);
++
++		pstapriv->asoc_sta_count++;
++
++		/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL2); */
++
++		/* Commented by Albert 2009/08/13
++		 * For the SMC router, the sequence number of first packet of WPS handshake will be 0.
++		 * In this case, this packet will be dropped by recv_decache function if we use the 0x00 as the default value for tid_rxseq variable.
++		 * So, we initialize the tid_rxseq variable as the 0xffff. */
++
++		for (i = 0; i < 16; i++)
++			_rtw_memcpy(&psta->sta_recvpriv.rxcache.tid_rxseq[i], &wRxSeqInitialValue, 2);
++
++
++		init_addba_retry_timer(pstapriv->padapter, psta);
++#ifdef CONFIG_IEEE80211W
++		init_dot11w_expire_timer(pstapriv->padapter, psta);
++#endif /* CONFIG_IEEE80211W */
++#ifdef CONFIG_TDLS
++		rtw_init_tdls_timer(pstapriv->padapter, psta);
++#endif /* CONFIG_TDLS */
++
++		/* for A-MPDU Rx reordering buffer control */
++		for (i = 0; i < 16 ; i++) {
++			preorder_ctrl = &psta->recvreorder_ctrl[i];
++
++			preorder_ctrl->padapter = pstapriv->padapter;
++
++			preorder_ctrl->enable = _FALSE;
++
++			preorder_ctrl->indicate_seq = 0xffff;
++#ifdef DBG_RX_SEQ
++			RTW_INFO("DBG_RX_SEQ %s:%d IndicateSeq: %d\n", __FUNCTION__, __LINE__,
++				 preorder_ctrl->indicate_seq);
++#endif
++			preorder_ctrl->wend_b = 0xffff;
++			/* preorder_ctrl->wsize_b = (NR_RECVBUFF-2); */
++			preorder_ctrl->wsize_b = 64;/* 64; */
++			preorder_ctrl->ampdu_size = RX_AMPDU_SIZE_INVALID;
++
++			_rtw_init_queue(&preorder_ctrl->pending_recvframe_queue);
++
++			rtw_init_recv_timer(preorder_ctrl);
++		}
++
++
++		/* init for DM */
++		psta->rssi_stat.UndecoratedSmoothedPWDB = (-1);
++		psta->rssi_stat.UndecoratedSmoothedCCK = (-1);
++#ifdef CONFIG_ATMEL_RC_PATCH
++		psta->flag_atmel_rc = 0;
++#endif
++		/* init for the sequence number of received management frame */
++		psta->RxMgmtFrameSeqNum = 0xffff;
++		psta->ra_rpt_linked = _FALSE;
++
++		rtw_alloc_macid(pstapriv->padapter, psta);
++
++	}
++
++exit:
++
++	_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL2);
++
++
++	return psta;
++
++
++}
++
++
++/* using pstapriv->sta_hash_lock to protect */
++u32	rtw_free_stainfo(_adapter *padapter , struct sta_info *psta)
++{
++	int i;
++	_irqL irqL0;
++	_queue *pfree_sta_queue;
++	struct recv_reorder_ctrl *preorder_ctrl;
++	struct	sta_xmit_priv	*pstaxmitpriv;
++	struct	xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	struct hw_xmit *phwxmit;
++	int pending_qcnt[4];
++
++
++	if (psta == NULL)
++		goto exit;
++
++	_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL0);
++	rtw_list_delete(&psta->hash_list);
++	pstapriv->asoc_sta_count--;
++	_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL0);
++
++
++	_enter_critical_bh(&psta->lock, &irqL0);
++	psta->state &= ~_FW_LINKED;
++	_exit_critical_bh(&psta->lock, &irqL0);
++
++	pfree_sta_queue = &pstapriv->free_sta_queue;
++
++
++	pstaxmitpriv = &psta->sta_xmitpriv;
++
++	/* rtw_list_delete(&psta->sleep_list); */
++
++	/* rtw_list_delete(&psta->wakeup_list); */
++
++	_enter_critical_bh(&pxmitpriv->lock, &irqL0);
++
++	rtw_free_xmitframe_queue(pxmitpriv, &psta->sleep_q);
++	psta->sleepq_len = 0;
++
++	/* vo */
++	/* _enter_critical_bh(&(pxmitpriv->vo_pending.lock), &irqL0); */
++	rtw_free_xmitframe_queue(pxmitpriv, &pstaxmitpriv->vo_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->vo_q.tx_pending));
++	phwxmit = pxmitpriv->hwxmits;
++	phwxmit->accnt -= pstaxmitpriv->vo_q.qcnt;
++	pending_qcnt[0] = pstaxmitpriv->vo_q.qcnt;
++	pstaxmitpriv->vo_q.qcnt = 0;
++	/* _exit_critical_bh(&(pxmitpriv->vo_pending.lock), &irqL0); */
++
++	/* vi */
++	/* _enter_critical_bh(&(pxmitpriv->vi_pending.lock), &irqL0); */
++	rtw_free_xmitframe_queue(pxmitpriv, &pstaxmitpriv->vi_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->vi_q.tx_pending));
++	phwxmit = pxmitpriv->hwxmits + 1;
++	phwxmit->accnt -= pstaxmitpriv->vi_q.qcnt;
++	pending_qcnt[1] = pstaxmitpriv->vi_q.qcnt;
++	pstaxmitpriv->vi_q.qcnt = 0;
++	/* _exit_critical_bh(&(pxmitpriv->vi_pending.lock), &irqL0); */
++
++	/* be */
++	/* _enter_critical_bh(&(pxmitpriv->be_pending.lock), &irqL0); */
++	rtw_free_xmitframe_queue(pxmitpriv, &pstaxmitpriv->be_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->be_q.tx_pending));
++	phwxmit = pxmitpriv->hwxmits + 2;
++	phwxmit->accnt -= pstaxmitpriv->be_q.qcnt;
++	pending_qcnt[2] = pstaxmitpriv->be_q.qcnt;
++	pstaxmitpriv->be_q.qcnt = 0;
++	/* _exit_critical_bh(&(pxmitpriv->be_pending.lock), &irqL0); */
++
++	/* bk */
++	/* _enter_critical_bh(&(pxmitpriv->bk_pending.lock), &irqL0); */
++	rtw_free_xmitframe_queue(pxmitpriv, &pstaxmitpriv->bk_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->bk_q.tx_pending));
++	phwxmit = pxmitpriv->hwxmits + 3;
++	phwxmit->accnt -= pstaxmitpriv->bk_q.qcnt;
++	pending_qcnt[3] = pstaxmitpriv->bk_q.qcnt;
++	pstaxmitpriv->bk_q.qcnt = 0;
++	/* _exit_critical_bh(&(pxmitpriv->bk_pending.lock), &irqL0); */
++
++	rtw_os_wake_queue_at_free_stainfo(padapter, pending_qcnt);
++
++	_exit_critical_bh(&pxmitpriv->lock, &irqL0);
++
++
++	/* re-init sta_info; 20061114 */ /* will be init in alloc_stainfo */
++	/* _rtw_init_sta_xmit_priv(&psta->sta_xmitpriv); */
++	/* _rtw_init_sta_recv_priv(&psta->sta_recvpriv); */
++#ifdef CONFIG_IEEE80211W
++	_cancel_timer_ex(&psta->dot11w_expire_timer);
++#endif /* CONFIG_IEEE80211W */
++	_cancel_timer_ex(&psta->addba_retry_timer);
++
++#ifdef CONFIG_TDLS
++	psta->tdls_sta_state = TDLS_STATE_NONE;
++	rtw_free_tdls_timer(psta);
++#endif /* CONFIG_TDLS */
++
++	/* for A-MPDU Rx reordering buffer control, cancel reordering_ctrl_timer */
++	for (i = 0; i < 16 ; i++) {
++		_irqL irqL;
++		_list	*phead, *plist;
++		union recv_frame *prframe;
++		_queue *ppending_recvframe_queue;
++		_queue *pfree_recv_queue = &padapter->recvpriv.free_recv_queue;
++
++		preorder_ctrl = &psta->recvreorder_ctrl[i];
++
++		_cancel_timer_ex(&preorder_ctrl->reordering_ctrl_timer);
++
++
++		ppending_recvframe_queue = &preorder_ctrl->pending_recvframe_queue;
++
++		_enter_critical_bh(&ppending_recvframe_queue->lock, &irqL);
++
++		phead =	get_list_head(ppending_recvframe_queue);
++		plist = get_next(phead);
++
++		while (!rtw_is_list_empty(phead)) {
++			prframe = LIST_CONTAINOR(plist, union recv_frame, u);
++
++			plist = get_next(plist);
++
++			rtw_list_delete(&(prframe->u.hdr.list));
++
++			rtw_free_recvframe(prframe, pfree_recv_queue);
++		}
++
++		_exit_critical_bh(&ppending_recvframe_queue->lock, &irqL);
++
++	}
++
++	if (!((psta->state & WIFI_AP_STATE) || MacAddr_isBcst(psta->hwaddr)))
++		rtw_hal_set_odm_var(padapter, HAL_ODM_STA_INFO, psta, _FALSE);
++
++
++	/* release mac id for non-bc/mc station, */
++	rtw_release_macid(pstapriv->padapter, psta);
++
++#ifdef CONFIG_AP_MODE
++
++	/*
++		_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL0);
++		rtw_list_delete(&psta->asoc_list);
++		_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL0);
++	*/
++	_enter_critical_bh(&pstapriv->auth_list_lock, &irqL0);
++	if (!rtw_is_list_empty(&psta->auth_list)) {
++		rtw_list_delete(&psta->auth_list);
++		pstapriv->auth_list_cnt--;
++	}
++	_exit_critical_bh(&pstapriv->auth_list_lock, &irqL0);
++
++	psta->expire_to = 0;
++#ifdef CONFIG_ATMEL_RC_PATCH
++	psta->flag_atmel_rc = 0;
++#endif
++	psta->sleepq_ac_len = 0;
++	psta->qos_info = 0;
++
++	psta->max_sp_len = 0;
++	psta->uapsd_bk = 0;
++	psta->uapsd_be = 0;
++	psta->uapsd_vi = 0;
++	psta->uapsd_vo = 0;
++
++	psta->has_legacy_ac = 0;
++
++#ifdef CONFIG_NATIVEAP_MLME
++
++	pstapriv->sta_dz_bitmap &= ~BIT(psta->aid);
++	pstapriv->tim_bitmap &= ~BIT(psta->aid);
++
++	/* rtw_indicate_sta_disassoc_event(padapter, psta); */
++
++	if ((psta->aid > 0) && (pstapriv->sta_aid[psta->aid - 1] == psta)) {
++		pstapriv->sta_aid[psta->aid - 1] = NULL;
++		psta->aid = 0;
++	}
++
++#endif /* CONFIG_NATIVEAP_MLME	 */
++
++#ifdef CONFIG_TX_MCAST2UNI
++	psta->under_exist_checking = 0;
++#endif /* CONFIG_TX_MCAST2UNI */
++
++#endif /* CONFIG_AP_MODE	 */
++
++	rtw_st_ctl_deinit(&psta->st_ctl);
++
++	_rtw_spinlock_free(&psta->lock);
++
++	/* _enter_critical_bh(&(pfree_sta_queue->lock), &irqL0); */
++	_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL0);
++	rtw_list_insert_tail(&psta->list, get_list_head(pfree_sta_queue));
++	_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL0);
++	/* _exit_critical_bh(&(pfree_sta_queue->lock), &irqL0); */
++
++exit:
++
++
++	return _SUCCESS;
++
++}
++
++/* free all stainfo which in sta_hash[all] */
++void rtw_free_all_stainfo(_adapter *padapter)
++{
++	_irqL	 irqL;
++	_list	*plist, *phead;
++	s32	index;
++	struct sta_info *psta = NULL;
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *pbcmc_stainfo = rtw_get_bcmc_stainfo(padapter);
++	u8 free_sta_num = 0;
++	char free_sta_list[NUM_STA];
++	int stainfo_offset;
++
++
++	if (pstapriv->asoc_sta_count == 1)
++		goto exit;
++
++	_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++	for (index = 0; index < NUM_STA; index++) {
++		phead = &(pstapriv->sta_hash[index]);
++		plist = get_next(phead);
++
++		while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++			psta = LIST_CONTAINOR(plist, struct sta_info , hash_list);
++
++			plist = get_next(plist);
++
++			if (pbcmc_stainfo != psta) {
++				rtw_list_delete(&psta->hash_list);
++				/* rtw_free_stainfo(padapter , psta); */
++				stainfo_offset = rtw_stainfo_offset(pstapriv, psta);
++				if (stainfo_offset_valid(stainfo_offset))
++					free_sta_list[free_sta_num++] = stainfo_offset;
++			}
++
++		}
++	}
++
++	_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++
++	for (index = 0; index < free_sta_num; index++) {
++		psta = rtw_get_stainfo_by_offset(pstapriv, free_sta_list[index]);
++		rtw_free_stainfo(padapter , psta);
++	}
++
++exit:
++	return;
++}
++
++/* any station allocated can be searched by hash list */
++struct sta_info *rtw_get_stainfo(struct sta_priv *pstapriv, u8 *hwaddr)
++{
++
++	_irqL	 irqL;
++
++	_list	*plist, *phead;
++
++	struct sta_info *psta = NULL;
++
++	u32	index;
++
++	u8 *addr;
++
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++
++	if (hwaddr == NULL)
++		return NULL;
++
++	if (IS_MCAST(hwaddr))
++		addr = bc_addr;
++	else
++		addr = hwaddr;
++
++	index = wifi_mac_hash(addr);
++
++	_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++	phead = &(pstapriv->sta_hash[index]);
++	plist = get_next(phead);
++
++
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++
++		psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++
++		if ((_rtw_memcmp(psta->hwaddr, addr, ETH_ALEN)) == _TRUE) {
++			/* if found the matched address */
++			break;
++		}
++		psta = NULL;
++		plist = get_next(plist);
++	}
++
++	_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++	return psta;
++
++}
++
++u32 rtw_init_bcmc_stainfo(_adapter *padapter)
++{
++
++	struct sta_info	*psta;
++	struct tx_servq	*ptxservq;
++	u32 res = _SUCCESS;
++	NDIS_802_11_MAC_ADDRESS	bcast_addr = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	/* _queue	*pstapending = &padapter->xmitpriv.bm_pending; */
++
++
++	psta = rtw_alloc_stainfo(pstapriv, bcast_addr);
++
++	if (psta == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++#ifdef CONFIG_BEAMFORMING
++	psta->txbf_gid = 63;
++	psta->txbf_paid = 0;
++#endif
++	ptxservq = &(psta->sta_xmitpriv.be_q);
++
++	/*
++		_enter_critical(&pstapending->lock, &irqL0);
++
++		if (rtw_is_list_empty(&ptxservq->tx_pending))
++			rtw_list_insert_tail(&ptxservq->tx_pending, get_list_head(pstapending));
++
++		_exit_critical(&pstapending->lock, &irqL0);
++	*/
++
++exit:
++	return _SUCCESS;
++
++}
++
++
++struct sta_info *rtw_get_bcmc_stainfo(_adapter *padapter)
++{
++	struct sta_info	*psta;
++	struct sta_priv	*pstapriv = &padapter->stapriv;
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	psta = rtw_get_stainfo(pstapriv, bc_addr);
++	return psta;
++
++}
++
++#if CONFIG_RTW_MACADDR_ACL
++const char *const _acl_mode_str[] = {
++	"DISABLED",
++	"ACCEPT_UNLESS_LISTED",
++	"DENY_UNLESS_LISTED",
++};
++
++u8 rtw_access_ctrl(_adapter *adapter, u8 *mac_addr)
++{
++	u8 res = _TRUE;
++	_irqL irqL;
++	_list *list, *head;
++	struct rtw_wlan_acl_node *acl_node;
++	u8 match = _FALSE;
++	struct sta_priv *stapriv = &adapter->stapriv;
++	struct wlan_acl_pool *acl = &stapriv->acl_list;
++	_queue	*acl_node_q = &acl->acl_node_q;
++
++	_enter_critical_bh(&(acl_node_q->lock), &irqL);
++	head = get_list_head(acl_node_q);
++	list = get_next(head);
++	while (rtw_end_of_queue_search(head, list) == _FALSE) {
++		acl_node = LIST_CONTAINOR(list, struct rtw_wlan_acl_node, list);
++		list = get_next(list);
++
++		if (_rtw_memcmp(acl_node->addr, mac_addr, ETH_ALEN)) {
++			if (acl_node->valid == _TRUE) {
++				match = _TRUE;
++				break;
++			}
++		}
++	}
++	_exit_critical_bh(&(acl_node_q->lock), &irqL);
++
++	if (acl->mode == RTW_ACL_MODE_ACCEPT_UNLESS_LISTED)
++		res = (match == _TRUE) ?  _FALSE : _TRUE;
++	else if (acl->mode == RTW_ACL_MODE_DENY_UNLESS_LISTED)
++		res = (match == _TRUE) ?  _TRUE : _FALSE;
++	else
++		res = _TRUE;
++
++	return res;
++}
++
++void dump_macaddr_acl(void *sel, _adapter *adapter)
++{
++	struct sta_priv *stapriv = &adapter->stapriv;
++	struct wlan_acl_pool *acl = &stapriv->acl_list;
++	int i;
++
++	RTW_PRINT_SEL(sel, "mode:%s(%d)\n", acl_mode_str(acl->mode), acl->mode);
++	RTW_PRINT_SEL(sel, "num:%d/%d\n", acl->num, NUM_ACL);
++	for (i = 0; i < NUM_ACL; i++) {
++		if (acl->aclnode[i].valid == _FALSE)
++			continue;
++		RTW_PRINT_SEL(sel, MAC_FMT"\n", MAC_ARG(acl->aclnode[i].addr));
++	}
++}
++#endif /* CONFIG_RTW_MACADDR_ACL */
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_tdls.c b/drivers/net/wireless/rtl8812au/core/rtw_tdls.c
+new file mode 100644
+index 0000000..be31530
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_tdls.c
+@@ -0,0 +1,3341 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_TDLS_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#ifdef CONFIG_TDLS
++#define ONE_SEC 	1000 /* 1000 ms */
++
++extern unsigned char MCS_rate_2R[16];
++extern unsigned char MCS_rate_1R[16];
++extern void process_wmmps_data(_adapter *padapter, union recv_frame *precv_frame);
++
++void rtw_reset_tdls_info(_adapter *padapter)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	ptdlsinfo->ap_prohibited = _FALSE;
++
++	/* For TDLS channel switch, currently we only allow it to work in wifi logo test mode */
++	if (padapter->registrypriv.wifi_spec == 1)
++		ptdlsinfo->ch_switch_prohibited = _FALSE;
++	else
++		ptdlsinfo->ch_switch_prohibited = _TRUE;
++
++	ptdlsinfo->link_established = _FALSE;
++	ptdlsinfo->sta_cnt = 0;
++	ptdlsinfo->sta_maximum = _FALSE;
++
++#ifdef CONFIG_TDLS_CH_SW
++	ptdlsinfo->chsw_info.ch_sw_state = TDLS_STATE_NONE;
++	ATOMIC_SET(&ptdlsinfo->chsw_info.chsw_on, _FALSE);
++	ptdlsinfo->chsw_info.off_ch_num = 0;
++	ptdlsinfo->chsw_info.ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	ptdlsinfo->chsw_info.cur_time = 0;
++	ptdlsinfo->chsw_info.delay_switch_back = _FALSE;
++	ptdlsinfo->chsw_info.dump_stack = _FALSE;
++#endif
++
++	ptdlsinfo->ch_sensing = 0;
++	ptdlsinfo->watchdog_count = 0;
++	ptdlsinfo->dev_discovered = _FALSE;
++
++#ifdef CONFIG_WFD
++	ptdlsinfo->wfd_info = &padapter->wfd_info;
++#endif
++}
++
++int rtw_init_tdls_info(_adapter *padapter)
++{
++	int	res = _SUCCESS;
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	rtw_reset_tdls_info(padapter);
++
++	ptdlsinfo->tdls_enable = _TRUE;
++#ifdef CONFIG_TDLS_DRIVER_SETUP
++	ptdlsinfo->driver_setup = _TRUE;
++#else
++	ptdlsinfo->driver_setup = _FALSE;
++#endif /* CONFIG_TDLS_DRIVER_SETUP */
++
++	_rtw_spinlock_init(&ptdlsinfo->cmd_lock);
++	_rtw_spinlock_init(&ptdlsinfo->hdl_lock);
++
++	return res;
++
++}
++
++void rtw_free_tdls_info(struct tdls_info *ptdlsinfo)
++{
++	_rtw_spinlock_free(&ptdlsinfo->cmd_lock);
++	_rtw_spinlock_free(&ptdlsinfo->hdl_lock);
++
++	_rtw_memset(ptdlsinfo, 0, sizeof(struct tdls_info));
++
++}
++
++int check_ap_tdls_prohibited(u8 *pframe, u8 pkt_len)
++{
++	u8 tdls_prohibited_bit = 0x40; /* bit(38); TDLS_prohibited */
++
++	if (pkt_len < 5)
++		return _FALSE;
++
++	pframe += 4;
++	if ((*pframe) & tdls_prohibited_bit)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++int check_ap_tdls_ch_switching_prohibited(u8 *pframe, u8 pkt_len)
++{
++	u8 tdls_ch_swithcing_prohibited_bit = 0x80; /* bit(39); TDLS_channel_switching prohibited */
++
++	if (pkt_len < 5)
++		return _FALSE;
++
++	pframe += 4;
++	if ((*pframe) & tdls_ch_swithcing_prohibited_bit)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++u8 rtw_tdls_is_setup_allowed(_adapter *padapter)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	if (ptdlsinfo->ap_prohibited == _TRUE)
++		return _FALSE;
++
++	return _TRUE;
++}
++
++#ifdef CONFIG_TDLS_CH_SW
++u8 rtw_tdls_is_chsw_allowed(_adapter *padapter)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	if (ptdlsinfo->ch_switch_prohibited == _TRUE)
++		return _FALSE;
++
++	if (padapter->registrypriv.wifi_spec == 0)
++		return _FALSE;
++
++	return _TRUE;
++}
++#endif
++
++int _issue_nulldata_to_TDLS_peer_STA(_adapter *padapter, unsigned char *da, unsigned int power_mode, int wait_ack)
++{
++	int ret = _FAIL;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl, *qc;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	pattrib->hdrlen += 2;
++	pattrib->qos_en = _TRUE;
++	pattrib->eosp = 1;
++	pattrib->ack_policy = 0;
++	pattrib->mdata = 0;
++	pattrib->retry_ctrl = _FALSE;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	if (power_mode)
++		SetPwrMgt(fctrl);
++
++	qc = (unsigned short *)(pframe + pattrib->hdrlen - 2);
++
++	SetPriority(qc, 7);	/* Set priority to VO */
++
++	SetEOSP(qc, pattrib->eosp);
++
++	SetAckpolicy(qc, pattrib->ack_policy);
++
++	_rtw_memcpy(pwlanhdr->addr1, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_QOS_DATA_NULL);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr_qos);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr_qos);
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++	return ret;
++
++}
++
++/*
++ *wait_ms == 0 means that there is no need to wait ack through C2H_CCX_TX_RPT
++ *wait_ms > 0 means you want to wait ack through C2H_CCX_TX_RPT, and the value of wait_ms means the interval between each TX
++ *try_cnt means the maximal TX count to try
++ */
++int issue_nulldata_to_TDLS_peer_STA(_adapter *padapter, unsigned char *da, unsigned int power_mode, int try_cnt, int wait_ms)
++{
++	int ret;
++	int i = 0;
++	u32 start = rtw_get_current_time();
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++#if 0
++	psta = rtw_get_stainfo(&padapter->stapriv, da);
++	if (psta) {
++		if (power_mode)
++			rtw_hal_macid_sleep(padapter, psta->mac_id);
++		else
++			rtw_hal_macid_wakeup(padapter, psta->mac_id);
++	} else {
++		RTW_INFO(FUNC_ADPT_FMT ": Can't find sta info for " MAC_FMT ", skip macid %s!!\n",
++			FUNC_ADPT_ARG(padapter), MAC_ARG(da), power_mode ? "sleep" : "wakeup");
++		rtw_warn_on(1);
++	}
++#endif
++
++	do {
++		ret = _issue_nulldata_to_TDLS_peer_STA(padapter, da, power_mode, wait_ms > 0 ? _TRUE : _FALSE);
++
++		i++;
++
++		if (RTW_CANNOT_RUN(padapter))
++			break;
++
++		if (i < try_cnt && wait_ms > 0 && ret == _FAIL)
++			rtw_msleep_os(wait_ms);
++
++	} while ((i < try_cnt) && (ret == _FAIL || wait_ms == 0));
++
++	if (ret != _FAIL) {
++		ret = _SUCCESS;
++#ifndef DBG_XMIT_ACK
++		goto exit;
++#endif
++	}
++
++	if (try_cnt && wait_ms) {
++		if (da)
++			RTW_INFO(FUNC_ADPT_FMT" to "MAC_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), MAC_ARG(da), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++		else
++			RTW_INFO(FUNC_ADPT_FMT", ch:%u%s, %d/%d in %u ms\n",
++				FUNC_ADPT_ARG(padapter), rtw_get_oper_ch(padapter),
++				ret == _SUCCESS ? ", acked" : "", i, try_cnt, rtw_get_passing_time_ms(start));
++	}
++exit:
++	return ret;
++}
++
++void free_tdls_sta(_adapter *padapter, struct sta_info *ptdls_sta)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	_irqL irqL;
++
++	/* free peer sta_info */
++	_enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);
++	if (ptdlsinfo->sta_cnt != 0)
++		ptdlsinfo->sta_cnt--;
++	_exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL);
++	/* -2: AP + BC/MC sta, -4: default key */
++	if (ptdlsinfo->sta_cnt < MAX_ALLOWED_TDLS_STA_NUM) {
++		ptdlsinfo->sta_maximum = _FALSE;
++		_rtw_memset(&ptdlsinfo->ss_record, 0x00, sizeof(struct tdls_ss_record));
++	}
++
++	/* clear cam */
++	rtw_clearstakey_cmd(padapter, ptdls_sta, _TRUE);
++
++	if (ptdlsinfo->sta_cnt == 0) {
++		rtw_tdls_cmd(padapter, NULL, TDLS_RS_RCR);
++		ptdlsinfo->link_established = _FALSE;
++	} else
++		RTW_INFO("Remain tdls sta:%02x\n", ptdlsinfo->sta_cnt);
++
++	rtw_free_stainfo(padapter,  ptdls_sta);
++
++}
++
++
++/* TDLS encryption(if needed) will always be CCMP */
++void rtw_tdls_set_key(_adapter *padapter, struct sta_info *ptdls_sta)
++{
++	ptdls_sta->dot118021XPrivacy = _AES_;
++	rtw_setstakey_cmd(padapter, ptdls_sta, TDLS_KEY, _TRUE);
++}
++
++#ifdef CONFIG_80211N_HT
++void rtw_tdls_process_ht_cap(_adapter *padapter, struct sta_info *ptdls_sta, u8 *data, u8 Length)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct ht_priv			*phtpriv = &pmlmepriv->htpriv;
++	u8	max_AMPDU_len, min_MPDU_spacing;
++	u8	cur_ldpc_cap = 0, cur_stbc_cap = 0, cur_beamform_cap = 0;
++
++	/* Save HT capabilities in the sta object */
++	_rtw_memset(&ptdls_sta->htpriv.ht_cap, 0, sizeof(struct rtw_ieee80211_ht_cap));
++	if (data && Length >= sizeof(struct rtw_ieee80211_ht_cap)) {
++		ptdls_sta->flags |= WLAN_STA_HT;
++		ptdls_sta->flags |= WLAN_STA_WME;
++
++		_rtw_memcpy(&ptdls_sta->htpriv.ht_cap, data, sizeof(struct rtw_ieee80211_ht_cap));
++	} else
++		ptdls_sta->flags &= ~WLAN_STA_HT;
++
++	if (ptdls_sta->flags & WLAN_STA_HT) {
++		if (padapter->registrypriv.ht_enable == _TRUE) {
++			ptdls_sta->htpriv.ht_option = _TRUE;
++			ptdls_sta->qos_option = _TRUE;
++		} else {
++			ptdls_sta->htpriv.ht_option = _FALSE;
++			ptdls_sta->qos_option = _FALSE;
++		}
++	}
++
++	/* HT related cap */
++	if (ptdls_sta->htpriv.ht_option) {
++		/* Check if sta supports rx ampdu */
++		if (padapter->registrypriv.ampdu_enable == 1)
++			ptdls_sta->htpriv.ampdu_enable = _TRUE;
++
++		/* AMPDU Parameters field */
++		/* Get MIN of MAX AMPDU Length Exp */
++		if ((pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x3) > (data[2] & 0x3))
++			max_AMPDU_len = (data[2] & 0x3);
++		else
++			max_AMPDU_len = (pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x3);
++		/* Get MAX of MIN MPDU Start Spacing */
++		if ((pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x1c) > (data[2] & 0x1c))
++			min_MPDU_spacing = (pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x1c);
++		else
++			min_MPDU_spacing = (data[2] & 0x1c);
++		ptdls_sta->htpriv.rx_ampdu_min_spacing = max_AMPDU_len | min_MPDU_spacing;
++
++		/* Check if sta support s Short GI 20M */
++		if (ptdls_sta->htpriv.ht_cap.cap_info & cpu_to_le16(IEEE80211_HT_CAP_SGI_20))
++			ptdls_sta->htpriv.sgi_20m = _TRUE;
++
++		/* Check if sta support s Short GI 40M */
++		if (ptdls_sta->htpriv.ht_cap.cap_info & cpu_to_le16(IEEE80211_HT_CAP_SGI_40))
++			ptdls_sta->htpriv.sgi_40m = _TRUE;
++
++		/* Bwmode would still followed AP's setting */
++		if (ptdls_sta->htpriv.ht_cap.cap_info & cpu_to_le16(IEEE80211_HT_CAP_SUP_WIDTH)) {
++			if (padapter->mlmeextpriv.cur_bwmode >= CHANNEL_WIDTH_40)
++				ptdls_sta->bw_mode = CHANNEL_WIDTH_40;
++			ptdls_sta->htpriv.ch_offset = padapter->mlmeextpriv.cur_ch_offset;
++		}
++
++		/* Config LDPC Coding Capability */
++		if (TEST_FLAG(phtpriv->ldpc_cap, LDPC_HT_ENABLE_TX) && GET_HT_CAP_ELE_LDPC_CAP(data)) {
++			SET_FLAG(cur_ldpc_cap, (LDPC_HT_ENABLE_TX | LDPC_HT_CAP_TX));
++			RTW_INFO("Enable HT Tx LDPC!\n");
++		}
++		ptdls_sta->htpriv.ldpc_cap = cur_ldpc_cap;
++
++		/* Config STBC setting */
++		if (TEST_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_TX) && GET_HT_CAP_ELE_RX_STBC(data)) {
++			SET_FLAG(cur_stbc_cap, (STBC_HT_ENABLE_TX | STBC_HT_CAP_TX));
++			RTW_INFO("Enable HT Tx STBC!\n");
++		}
++		ptdls_sta->htpriv.stbc_cap = cur_stbc_cap;
++
++#ifdef CONFIG_BEAMFORMING
++		/* Config Tx beamforming setting */
++		if (TEST_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE) &&
++		    GET_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP(data))
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE);
++
++		if (TEST_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE) &&
++		    GET_HT_CAP_TXBF_EXPLICIT_COMP_FEEDBACK_CAP(data))
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE);
++		ptdls_sta->htpriv.beamform_cap = cur_beamform_cap;
++		if (cur_beamform_cap)
++			RTW_INFO("Client HT Beamforming Cap = 0x%02X\n", cur_beamform_cap);
++#endif /* CONFIG_BEAMFORMING */
++	}
++
++}
++
++u8 *rtw_tdls_set_ht_cap(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	rtw_ht_use_default_setting(padapter);
++
++	rtw_restructure_ht_ie(padapter, NULL, pframe, 0, &(pattrib->pktlen), padapter->mlmeextpriv.cur_channel);
++
++	return pframe + pattrib->pktlen;
++}
++#endif
++
++#ifdef CONFIG_80211AC_VHT
++void rtw_tdls_process_vht_cap(_adapter *padapter, struct sta_info *ptdls_sta, u8 *data, u8 Length)
++{
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv			*pvhtpriv = &pmlmepriv->vhtpriv;
++	u8	cur_ldpc_cap = 0, cur_stbc_cap = 0, cur_beamform_cap = 0, rf_type = RF_1T1R;
++	u8	*pcap_mcs;
++	u8	vht_mcs[2];
++
++	_rtw_memset(&ptdls_sta->vhtpriv, 0, sizeof(struct vht_priv));
++	if (data && Length == 12) {
++		ptdls_sta->flags |= WLAN_STA_VHT;
++
++		_rtw_memcpy(ptdls_sta->vhtpriv.vht_cap, data, 12);
++
++#if 0
++		if (elems.vht_op_mode_notify && elems.vht_op_mode_notify_len == 1)
++			_rtw_memcpy(&pstat->vhtpriv.vht_op_mode_notify, elems.vht_op_mode_notify, 1);
++		else /* for Frame without Operating Mode notify ie; default: 80M */
++			pstat->vhtpriv.vht_op_mode_notify = CHANNEL_WIDTH_80;
++#else
++		ptdls_sta->vhtpriv.vht_op_mode_notify = CHANNEL_WIDTH_80;
++#endif
++	} else
++		ptdls_sta->flags &= ~WLAN_STA_VHT;
++
++	if (ptdls_sta->flags & WLAN_STA_VHT) {
++		if (REGSTY_IS_11AC_ENABLE(&padapter->registrypriv)
++		    && hal_chk_proto_cap(padapter, PROTO_CAP_11AC)
++		    && (!pmlmepriv->country_ent || COUNTRY_CHPLAN_EN_11AC(pmlmepriv->country_ent)))
++			ptdls_sta->vhtpriv.vht_option = _TRUE;
++		else
++			ptdls_sta->vhtpriv.vht_option = _FALSE;
++	}
++
++	/* B4 Rx LDPC */
++	if (TEST_FLAG(pvhtpriv->ldpc_cap, LDPC_VHT_ENABLE_TX) &&
++	    GET_VHT_CAPABILITY_ELE_RX_LDPC(data)) {
++		SET_FLAG(cur_ldpc_cap, (LDPC_VHT_ENABLE_TX | LDPC_VHT_CAP_TX));
++		RTW_INFO("Current VHT LDPC Setting = %02X\n", cur_ldpc_cap);
++	}
++	ptdls_sta->vhtpriv.ldpc_cap = cur_ldpc_cap;
++
++	/* B5 Short GI for 80 MHz */
++	ptdls_sta->vhtpriv.sgi_80m = (GET_VHT_CAPABILITY_ELE_SHORT_GI80M(data) & pvhtpriv->sgi_80m) ? _TRUE : _FALSE;
++
++	/* B8 B9 B10 Rx STBC */
++	if (TEST_FLAG(pvhtpriv->stbc_cap, STBC_VHT_ENABLE_TX) &&
++	    GET_VHT_CAPABILITY_ELE_RX_STBC(data)) {
++		SET_FLAG(cur_stbc_cap, (STBC_VHT_ENABLE_TX | STBC_VHT_CAP_TX));
++		RTW_INFO("Current VHT STBC Setting = %02X\n", cur_stbc_cap);
++	}
++	ptdls_sta->vhtpriv.stbc_cap = cur_stbc_cap;
++
++	/* B11 SU Beamformer Capable, the target supports Beamformer and we are Beamformee */
++	if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE) &&
++	    GET_VHT_CAPABILITY_ELE_SU_BFEE(data))
++		SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE);
++
++	/* B12 SU Beamformee Capable, the target supports Beamformee and we are Beamformer */
++	if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE) &&
++	    GET_VHT_CAPABILITY_ELE_SU_BFER(data))
++		SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE);
++	ptdls_sta->vhtpriv.beamform_cap = cur_beamform_cap;
++	if (cur_beamform_cap)
++		RTW_INFO("Current VHT Beamforming Setting = %02X\n", cur_beamform_cap);
++
++	/* B23 B24 B25 Maximum A-MPDU Length Exponent */
++	ptdls_sta->vhtpriv.ampdu_len = GET_VHT_CAPABILITY_ELE_MAX_RXAMPDU_FACTOR(data);
++
++	pcap_mcs = GET_VHT_CAPABILITY_ELE_RX_MCS(data);
++	_rtw_memcpy(vht_mcs, pcap_mcs, 2);
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++	if ((rf_type == RF_1T1R) || (rf_type == RF_1T2R))
++		vht_mcs[0] |= 0xfc;
++	else if (rf_type == RF_2T2R)
++		vht_mcs[0] |= 0xf0;
++	else if (rf_type == RF_3T3R)
++		vht_mcs[0] |= 0xc0;
++
++	_rtw_memcpy(ptdls_sta->vhtpriv.vht_mcs_map, vht_mcs, 2);
++
++	ptdls_sta->vhtpriv.vht_highest_rate = rtw_get_vht_highest_rate(ptdls_sta->vhtpriv.vht_mcs_map);
++}
++
++u8 *rtw_tdls_set_aid(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	return rtw_set_ie(pframe, EID_AID, 2, (u8 *)&(padapter->mlmepriv.cur_network.aid), &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_vht_cap(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	u32 ie_len = 0;
++
++	rtw_vht_use_default_setting(padapter);
++
++	ie_len = rtw_build_vht_cap_ie(padapter, pframe);
++	pattrib->pktlen += ie_len;
++
++	return pframe + ie_len;
++}
++
++u8 *rtw_tdls_set_vht_operation(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib, u8 channel)
++{
++	u32 ie_len = 0;
++
++	ie_len = rtw_build_vht_operation_ie(padapter, pframe, channel);
++	pattrib->pktlen += ie_len;
++
++	return pframe + ie_len;
++}
++
++u8 *rtw_tdls_set_vht_op_mode_notify(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib, u8 bw)
++{
++	u32 ie_len = 0;
++
++	ie_len = rtw_build_vht_op_mode_notify_ie(padapter, pframe, bw);
++	pattrib->pktlen += ie_len;
++
++	return pframe + ie_len;
++}
++#endif
++
++
++u8 *rtw_tdls_set_sup_ch(struct mlme_ext_priv *pmlmeext, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	u8 sup_ch[30 * 2] = {0x00}, ch_set_idx = 0, sup_ch_idx = 2;
++
++	do {
++		if (pmlmeext->channel_set[ch_set_idx].ChannelNum <= 14) {
++			sup_ch[0] = 1;	/* First channel number */
++			sup_ch[1] = pmlmeext->channel_set[ch_set_idx].ChannelNum;	/* Number of channel */
++		} else {
++			sup_ch[sup_ch_idx++] = pmlmeext->channel_set[ch_set_idx].ChannelNum;
++			sup_ch[sup_ch_idx++] = 1;
++		}
++		ch_set_idx++;
++	} while (pmlmeext->channel_set[ch_set_idx].ChannelNum != 0 && ch_set_idx < MAX_CHANNEL_NUM);
++
++	return rtw_set_ie(pframe, _SUPPORTED_CH_IE_, sup_ch_idx, sup_ch, &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_rsnie(struct tdls_txmgmt *ptxmgmt, u8 *pframe, struct pkt_attrib *pattrib,  int init, struct sta_info *ptdls_sta)
++{
++	u8 *p = NULL;
++	int len = 0;
++
++	if (ptxmgmt->len > 0)
++		p = rtw_get_ie(ptxmgmt->buf, _RSN_IE_2_, &len, ptxmgmt->len);
++
++	if (p != NULL)
++		return rtw_set_ie(pframe, _RSN_IE_2_, len, p + 2, &(pattrib->pktlen));
++	else if (init == _TRUE)
++		return rtw_set_ie(pframe, _RSN_IE_2_, sizeof(TDLS_RSNIE), TDLS_RSNIE, &(pattrib->pktlen));
++	else
++		return rtw_set_ie(pframe, _RSN_IE_2_, sizeof(ptdls_sta->TDLS_RSNIE), ptdls_sta->TDLS_RSNIE, &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_ext_cap(u8 *pframe, struct pkt_attrib *pattrib)
++{
++	return rtw_set_ie(pframe, _EXT_CAP_IE_ , sizeof(TDLS_EXT_CAPIE), TDLS_EXT_CAPIE, &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_qos_cap(u8 *pframe, struct pkt_attrib *pattrib)
++{
++	return rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, sizeof(TDLS_WMMIE), TDLS_WMMIE,  &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_ftie(struct tdls_txmgmt *ptxmgmt, u8 *pframe, struct pkt_attrib *pattrib, u8 *ANonce, u8 *SNonce)
++{
++	struct wpa_tdls_ftie FTIE = {0};
++	u8 *p = NULL;
++	int len = 0;
++
++	if (ptxmgmt->len > 0)
++		p = rtw_get_ie(ptxmgmt->buf, _FTIE_, &len, ptxmgmt->len);
++
++	if (p != NULL)
++		return rtw_set_ie(pframe, _FTIE_, len, p + 2, &(pattrib->pktlen));
++	else {
++		if (ANonce != NULL)
++			_rtw_memcpy(FTIE.Anonce, ANonce, WPA_NONCE_LEN);
++		if (SNonce != NULL)
++			_rtw_memcpy(FTIE.Snonce, SNonce, WPA_NONCE_LEN);
++		return rtw_set_ie(pframe, _FTIE_ , 82, (u8 *)FTIE.mic_ctrl, &(pattrib->pktlen));
++	}
++}
++
++u8 *rtw_tdls_set_timeout_interval(struct tdls_txmgmt *ptxmgmt, u8 *pframe, struct pkt_attrib *pattrib, int init, struct sta_info *ptdls_sta)
++{
++	u8 timeout_itvl[5];	/* set timeout interval to maximum value */
++	u32 timeout_interval = TDLS_TPK_RESEND_COUNT;
++	u8 *p = NULL;
++	int len = 0;
++
++	if (ptxmgmt->len > 0)
++		p = rtw_get_ie(ptxmgmt->buf, _TIMEOUT_ITVL_IE_, &len, ptxmgmt->len);
++
++	if (p != NULL)
++		return rtw_set_ie(pframe, _TIMEOUT_ITVL_IE_, len, p + 2, &(pattrib->pktlen));
++	else {
++		/* Timeout interval */
++		timeout_itvl[0] = 0x02;
++		if (init == _TRUE)
++			_rtw_memcpy(timeout_itvl + 1, &timeout_interval, 4);
++		else
++			_rtw_memcpy(timeout_itvl + 1, (u8 *)(&ptdls_sta->TDLS_PeerKey_Lifetime), 4);
++
++		return rtw_set_ie(pframe, _TIMEOUT_ITVL_IE_, 5, timeout_itvl, &(pattrib->pktlen));
++	}
++}
++
++u8 *rtw_tdls_set_bss_coexist(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	u8 iedata = 0;
++
++	if (padapter->mlmepriv.num_FortyMHzIntolerant > 0)
++		iedata |= BIT(2);	/* 20 MHz BSS Width Request */
++
++	/* Information Bit should be set by TDLS test plan 5.9 */
++	iedata |= BIT(0);
++	return rtw_set_ie(pframe, EID_BSSCoexistence, 1, &iedata, &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_payload_type(u8 *pframe, struct pkt_attrib *pattrib)
++{
++	u8 payload_type = 0x02;
++	return rtw_set_fixed_ie(pframe, 1, &(payload_type), &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_category(u8 *pframe, struct pkt_attrib *pattrib, u8 category)
++{
++	return rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_action(u8 *pframe, struct pkt_attrib *pattrib, struct tdls_txmgmt *ptxmgmt)
++{
++	return rtw_set_fixed_ie(pframe, 1, &(ptxmgmt->action_code), &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_status_code(u8 *pframe, struct pkt_attrib *pattrib, struct tdls_txmgmt *ptxmgmt)
++{
++	return rtw_set_fixed_ie(pframe, 2, (u8 *)&(ptxmgmt->status_code), &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_dialog(u8 *pframe, struct pkt_attrib *pattrib, struct tdls_txmgmt *ptxmgmt)
++{
++	u8 dialogtoken = 1;
++	if (ptxmgmt->dialog_token)
++		return rtw_set_fixed_ie(pframe, 1, &(ptxmgmt->dialog_token), &(pattrib->pktlen));
++	else
++		return rtw_set_fixed_ie(pframe, 1, &(dialogtoken), &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_reg_class(u8 *pframe, struct pkt_attrib *pattrib, struct sta_info *ptdls_sta)
++{
++	u8 reg_class = 22;
++	return rtw_set_fixed_ie(pframe, 1, &(reg_class), &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_second_channel_offset(u8 *pframe, struct pkt_attrib *pattrib, u8 ch_offset)
++{
++	return rtw_set_ie(pframe, EID_SecondaryChnlOffset , 1, &ch_offset, &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_capability(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &pmlmeext->mlmext_info;
++	u8 cap_from_ie[2] = {0};
++
++	_rtw_memcpy(cap_from_ie, rtw_get_capability_from_ie(pmlmeinfo->network.IEs), 2);
++
++	return rtw_set_fixed_ie(pframe, 2, cap_from_ie, &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_supported_rate(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	u8 bssrate[NDIS_802_11_LENGTH_RATES_EX];
++	int bssrate_len = 0;
++	u8 more_supportedrates = 0;
++
++	rtw_set_supported_rate(bssrate, (padapter->registrypriv.wireless_mode == WIRELESS_MODE_MAX) ? padapter->mlmeextpriv.cur_wireless_mode : padapter->registrypriv.wireless_mode);
++	bssrate_len = rtw_get_rateset_len(bssrate);
++
++	if (bssrate_len > 8) {
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , 8, bssrate, &(pattrib->pktlen));
++		more_supportedrates = 1;
++	} else
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , bssrate_len , bssrate, &(pattrib->pktlen));
++
++	/* extended supported rates */
++	if (more_supportedrates == 1)
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_ , (bssrate_len - 8), (bssrate + 8), &(pattrib->pktlen));
++
++	return pframe;
++}
++
++u8 *rtw_tdls_set_sup_reg_class(u8 *pframe, struct pkt_attrib *pattrib)
++{
++	return rtw_set_ie(pframe, _SRC_IE_ , sizeof(TDLS_SRC), TDLS_SRC, &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_linkid(u8 *pframe, struct pkt_attrib *pattrib, u8 init)
++{
++	u8 link_id_addr[18] = {0};
++	if (init == _TRUE) {
++		_rtw_memcpy(link_id_addr, pattrib->ra, 6);
++		_rtw_memcpy((link_id_addr + 6), pattrib->src, 6);
++		_rtw_memcpy((link_id_addr + 12), pattrib->dst, 6);
++	} else {
++		_rtw_memcpy(link_id_addr, pattrib->ra, 6);
++		_rtw_memcpy((link_id_addr + 6), pattrib->dst, 6);
++		_rtw_memcpy((link_id_addr + 12), pattrib->src, 6);
++	}
++	return rtw_set_ie(pframe, _LINK_ID_IE_, 18, link_id_addr, &(pattrib->pktlen));
++}
++
++#ifdef CONFIG_TDLS_CH_SW
++u8 *rtw_tdls_set_target_ch(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	u8 target_ch = 1;
++	if (padapter->tdlsinfo.chsw_info.off_ch_num)
++		return rtw_set_fixed_ie(pframe, 1, &(padapter->tdlsinfo.chsw_info.off_ch_num), &(pattrib->pktlen));
++	else
++		return rtw_set_fixed_ie(pframe, 1, &(target_ch), &(pattrib->pktlen));
++}
++
++u8 *rtw_tdls_set_ch_sw(u8 *pframe, struct pkt_attrib *pattrib, struct sta_info *ptdls_sta)
++{
++	u8 ch_switch_timing[4] = {0};
++	u16 switch_time = (ptdls_sta->ch_switch_time >= TDLS_CH_SWITCH_TIME * 1000) ?
++			  ptdls_sta->ch_switch_time : TDLS_CH_SWITCH_TIME;
++	u16 switch_timeout = (ptdls_sta->ch_switch_timeout >= TDLS_CH_SWITCH_TIMEOUT * 1000) ?
++		     ptdls_sta->ch_switch_timeout : TDLS_CH_SWITCH_TIMEOUT;
++
++	_rtw_memcpy(ch_switch_timing, &switch_time, 2);
++	_rtw_memcpy(ch_switch_timing + 2, &switch_timeout, 2);
++
++	return rtw_set_ie(pframe, _CH_SWITCH_TIMING_,  4, ch_switch_timing, &(pattrib->pktlen));
++}
++
++void rtw_tdls_set_ch_sw_oper_control(_adapter *padapter, u8 enable)
++{
++	if (ATOMIC_READ(&padapter->tdlsinfo.chsw_info.chsw_on) != enable)
++		ATOMIC_SET(&padapter->tdlsinfo.chsw_info.chsw_on, enable);
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_TDLS_BCN_EARLY_C2H_RPT, &enable);
++	RTW_INFO("[TDLS] %s Bcn Early C2H Report\n", (enable == _TRUE) ? "Start" : "Stop");
++}
++
++void rtw_tdls_ch_sw_back_to_base_chnl(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv;
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++
++	pmlmepriv = &padapter->mlmepriv;
++
++	if ((ATOMIC_READ(&pchsw_info->chsw_on) == _TRUE) &&
++	    (padapter->mlmeextpriv.cur_channel != rtw_get_oper_ch(padapter)))
++		rtw_tdls_cmd(padapter, pchsw_info->addr, TDLS_CH_SW_TO_BASE_CHNL_UNSOLICITED);
++}
++
++static void rtw_tdls_chsw_oper_init(_adapter *padapter, u32 timeout_ms)
++{
++	struct submit_ctx	*chsw_sctx = &padapter->tdlsinfo.chsw_info.chsw_sctx;
++
++	rtw_sctx_init(chsw_sctx, timeout_ms);
++}
++
++static int rtw_tdls_chsw_oper_wait(_adapter *padapter)
++{
++	struct submit_ctx	*chsw_sctx = &padapter->tdlsinfo.chsw_info.chsw_sctx;
++
++	return rtw_sctx_wait(chsw_sctx, __func__);
++}
++
++void rtw_tdls_chsw_oper_done(_adapter *padapter)
++{
++	struct submit_ctx	*chsw_sctx = &padapter->tdlsinfo.chsw_info.chsw_sctx;
++
++	rtw_sctx_done(&chsw_sctx);
++}
++
++s32 rtw_tdls_do_ch_sw(_adapter *padapter, struct sta_info *ptdls_sta, u8 chnl_type, u8 channel, u8 channel_offset, u16 bwmode, u16 ch_switch_time)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	u8 center_ch, chnl_offset80 = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	u32 ch_sw_time_start, ch_sw_time_spent, wait_time;
++	u8 take_care_iqk;
++	s32 ret = _FAIL;
++
++	ch_sw_time_start = rtw_systime_to_ms(rtw_get_current_time());
++
++	rtw_tdls_chsw_oper_init(padapter, TDLS_CH_SWITCH_OPER_OFFLOAD_TIMEOUT);
++
++	/* set mac_id sleep before channel switch */
++	rtw_hal_macid_sleep(padapter, ptdls_sta->mac_id);
++
++	/* channel switch IOs offload to FW */
++	if (rtw_hal_ch_sw_oper_offload(padapter, channel, channel_offset, bwmode) == _SUCCESS) {
++		if (rtw_tdls_chsw_oper_wait(padapter) == _SUCCESS) {
++			/* set channel and bw related variables in driver */
++			_enter_critical_mutex(&(adapter_to_dvobj(padapter)->setch_mutex), NULL);
++
++			rtw_set_oper_ch(padapter, channel);
++			rtw_set_oper_choffset(padapter, channel_offset);
++			rtw_set_oper_bw(padapter, bwmode);
++
++			center_ch = rtw_get_center_ch(channel, bwmode, channel_offset);
++			pHalData->CurrentChannel = center_ch;
++			pHalData->CurrentCenterFrequencyIndex1 = center_ch;
++			pHalData->CurrentChannelBW = bwmode;
++			pHalData->nCur40MhzPrimeSC = channel_offset;
++
++			if (bwmode == CHANNEL_WIDTH_80) {
++				if (center_ch > channel)
++					chnl_offset80 = HAL_PRIME_CHNL_OFFSET_LOWER;
++				else if (center_ch < channel)
++					chnl_offset80 = HAL_PRIME_CHNL_OFFSET_UPPER;
++				else
++					chnl_offset80 = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++			}
++			pHalData->nCur80MhzPrimeSC = chnl_offset80;
++
++			pHalData->CurrentCenterFrequencyIndex1 = center_ch;
++
++			_exit_critical_mutex(&(adapter_to_dvobj(padapter)->setch_mutex), NULL);
++
++			rtw_hal_get_hwreg(padapter, HW_VAR_CH_SW_NEED_TO_TAKE_CARE_IQK_INFO, &take_care_iqk);
++			if (take_care_iqk == _TRUE)
++				rtw_hal_ch_sw_iqk_info_restore(padapter, CH_SW_USE_CASE_TDLS);
++
++			ch_sw_time_spent = rtw_systime_to_ms(rtw_get_current_time()) - ch_sw_time_start;
++
++			if (chnl_type == TDLS_CH_SW_OFF_CHNL) {
++				if ((u32)ch_switch_time / 1000 > ch_sw_time_spent)
++					wait_time = (u32)ch_switch_time / 1000 - ch_sw_time_spent;
++				else
++					wait_time = 0;
++
++				if (wait_time > 0)
++					rtw_msleep_os(wait_time);
++			}
++
++			ret = _SUCCESS;
++		} else
++			RTW_INFO("[TDLS] chsw oper wait fail !!\n");
++	}
++
++	/* set mac_id wakeup after channel switch */
++	rtw_hal_macid_wakeup(padapter, ptdls_sta->mac_id);
++
++	return ret;
++}
++#endif
++
++u8 *rtw_tdls_set_wmm_params(_adapter *padapter, u8 *pframe, struct pkt_attrib *pattrib)
++{
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 wmm_param_ele[24] = {0};
++
++	if (&pmlmeinfo->WMM_param) {
++		_rtw_memcpy(wmm_param_ele, WMM_PARA_OUI, 6);
++		if (_rtw_memcmp(&pmlmeinfo->WMM_param, &wmm_param_ele[6], 18) == _TRUE)
++			/* Use default WMM Param */
++			_rtw_memcpy(wmm_param_ele + 6, (u8 *)&TDLS_WMM_PARAM_IE, sizeof(TDLS_WMM_PARAM_IE));
++		else
++			_rtw_memcpy(wmm_param_ele + 6, (u8 *)&pmlmeinfo->WMM_param, sizeof(pmlmeinfo->WMM_param));
++		return rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_,  24, wmm_param_ele, &(pattrib->pktlen));
++	} else
++		return pframe;
++}
++
++#ifdef CONFIG_WFD
++void rtw_tdls_process_wfd_ie(struct tdls_info *ptdlsinfo, u8 *ptr, u8 length)
++{
++	u8 *wfd_ie;
++	u32	wfd_ielen = 0;
++
++	if (!hal_chk_wl_func(tdls_info_to_adapter(ptdlsinfo), WL_FUNC_MIRACAST))
++		return;
++
++	/* Try to get the TCP port information when receiving the negotiation response. */
++
++	wfd_ie = rtw_get_wfd_ie(ptr, length, NULL, &wfd_ielen);
++	while (wfd_ie) {
++		u8 *attr_content;
++		u32	attr_contentlen = 0;
++		int	i;
++
++		RTW_INFO("[%s] WFD IE Found!!\n", __FUNCTION__);
++		attr_content = rtw_get_wfd_attr_content(wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, NULL, &attr_contentlen);
++		if (attr_content && attr_contentlen) {
++			ptdlsinfo->wfd_info->peer_rtsp_ctrlport = RTW_GET_BE16(attr_content + 2);
++			RTW_INFO("[%s] Peer PORT NUM = %d\n", __FUNCTION__, ptdlsinfo->wfd_info->peer_rtsp_ctrlport);
++		}
++
++		attr_content = rtw_get_wfd_attr_content(wfd_ie, wfd_ielen, WFD_ATTR_LOCAL_IP_ADDR, NULL, &attr_contentlen);
++		if (attr_content && attr_contentlen) {
++			_rtw_memcpy(ptdlsinfo->wfd_info->peer_ip_address, (attr_content + 1), 4);
++			RTW_INFO("[%s] Peer IP = %02u.%02u.%02u.%02u\n", __FUNCTION__,
++				ptdlsinfo->wfd_info->peer_ip_address[0], ptdlsinfo->wfd_info->peer_ip_address[1],
++				ptdlsinfo->wfd_info->peer_ip_address[2], ptdlsinfo->wfd_info->peer_ip_address[3]);
++		}
++
++		wfd_ie = rtw_get_wfd_ie(wfd_ie + wfd_ielen, (ptr + length) - (wfd_ie + wfd_ielen), NULL, &wfd_ielen);
++	}
++}
++
++int issue_tunneled_probe_req(_adapter *padapter)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	u8 baddr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	struct tdls_txmgmt txmgmt;
++	int ret = _FAIL;
++
++	RTW_INFO("[%s]\n", __FUNCTION__);
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	txmgmt.action_code = TUNNELED_PROBE_REQ;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, baddr, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, &txmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++	dump_mgntframe(padapter, pmgntframe);
++	ret = _SUCCESS;
++exit:
++
++	return ret;
++}
++
++int issue_tunneled_probe_rsp(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct tdls_txmgmt txmgmt;
++	int ret = _FAIL;
++
++	RTW_INFO("[%s]\n", __FUNCTION__);
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	txmgmt.action_code = TUNNELED_PROBE_RSP;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, precv_frame->u.hdr.attrib.src, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, &txmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++	dump_mgntframe(padapter, pmgntframe);
++	ret = _SUCCESS;
++exit:
++
++	return ret;
++}
++#endif /* CONFIG_WFD */
++
++int issue_tdls_setup_req(_adapter *padapter, struct tdls_txmgmt *ptxmgmt, int wait_ack)
++{
++	struct tdls_info	*ptdlsinfo = &padapter->tdlsinfo;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *ptdls_sta = NULL;
++	_irqL irqL;
++	int ret = _FAIL;
++	/* Retry timer should be set at least 301 sec, using TPK_count counting 301 times. */
++	u32 timeout_interval = TDLS_TPK_RESEND_COUNT;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	ptxmgmt->action_code = TDLS_SETUP_REQUEST;
++	if (rtw_tdls_is_setup_allowed(padapter) == _FALSE)
++		goto exit;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, ptxmgmt->peer, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++
++	/* init peer sta_info */
++	ptdls_sta = rtw_get_stainfo(pstapriv, ptxmgmt->peer);
++	if (ptdls_sta == NULL) {
++		ptdls_sta = rtw_alloc_stainfo(pstapriv, ptxmgmt->peer);
++		if (ptdls_sta == NULL) {
++			RTW_INFO("[%s] rtw_alloc_stainfo fail\n", __FUNCTION__);
++			rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++			rtw_free_xmitframe(pxmitpriv, pmgntframe);
++			goto exit;
++		}
++	}
++
++	if (!(ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE))
++		ptdlsinfo->sta_cnt++;
++
++	if (ptdlsinfo->sta_cnt == MAX_ALLOWED_TDLS_STA_NUM)
++		ptdlsinfo->sta_maximum  = _TRUE;
++
++	ptdls_sta->tdls_sta_state |= TDLS_RESPONDER_STATE;
++
++	if (rtw_tdls_is_driver_setup(padapter) == _TRUE) {
++		ptdls_sta->TDLS_PeerKey_Lifetime = timeout_interval;
++		_set_timer(&ptdls_sta->handshake_timer, TDLS_HANDSHAKE_TIME);
++	}
++
++	pattrib->qsel = pattrib->priority;
++
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, ptxmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++exit:
++
++	return ret;
++}
++
++int _issue_tdls_teardown(_adapter *padapter, struct tdls_txmgmt *ptxmgmt, u8 wait_ack)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info	*ptdls_sta = NULL;
++	_irqL irqL;
++	int ret = _FAIL;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	ptxmgmt->action_code = TDLS_TEARDOWN;
++	ptdls_sta = rtw_get_stainfo(pstapriv, ptxmgmt->peer);
++	if (ptdls_sta == NULL) {
++		RTW_INFO("Np tdls_sta for tearing down\n");
++		goto exit;
++	}
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	rtw_mi_set_scan_deny(padapter, 550);
++	rtw_mi_scan_abort(padapter, _TRUE);
++
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, ptxmgmt->peer, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, ptxmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++
++	if (rtw_tdls_is_driver_setup(padapter) == _TRUE)
++		if (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE)
++			if (pattrib->encrypt)
++				_cancel_timer_ex(&ptdls_sta->TPK_timer);
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack(padapter, pmgntframe);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++
++	if (rtw_tdls_is_driver_setup(padapter))
++		rtw_tdls_cmd(padapter, ptxmgmt->peer, TDLS_TEARDOWN_STA_LOCALLY);
++
++exit:
++
++	return ret;
++}
++
++int issue_tdls_teardown(_adapter *padapter, struct tdls_txmgmt *ptxmgmt, u8 wait_ack)
++{
++	int ret = _FAIL;
++
++	ret = _issue_tdls_teardown(padapter, ptxmgmt, wait_ack);
++	if ((ptxmgmt->status_code == _RSON_TDLS_TEAR_UN_RSN_) && (ret == _FAIL)) {
++		/* Change status code and send teardown again via AP */
++		ptxmgmt->status_code = _RSON_TDLS_TEAR_TOOFAR_;
++		ret = _issue_tdls_teardown(padapter, ptxmgmt, wait_ack);
++	}
++
++	return ret;
++}
++
++int issue_tdls_dis_req(_adapter *padapter, struct tdls_txmgmt *ptxmgmt)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	int ret = _FAIL;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	ptxmgmt->action_code = TDLS_DISCOVERY_REQUEST;
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, ptxmgmt->peer, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, ptxmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++	dump_mgntframe(padapter, pmgntframe);
++	RTW_INFO("issue tdls dis req\n");
++
++	ret = _SUCCESS;
++exit:
++
++	return ret;
++}
++
++int issue_tdls_setup_rsp(_adapter *padapter, struct tdls_txmgmt *ptxmgmt)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	int ret = _FAIL;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	ptxmgmt->action_code = TDLS_SETUP_RESPONSE;
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, ptxmgmt->peer, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(&(padapter->mlmepriv)), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, ptxmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	ret = _SUCCESS;
++exit:
++
++	return ret;
++
++}
++
++int issue_tdls_setup_cfm(_adapter *padapter, struct tdls_txmgmt *ptxmgmt)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	int ret = _FAIL;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	ptxmgmt->action_code = TDLS_SETUP_CONFIRM;
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, ptxmgmt->peer, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(&padapter->mlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, ptxmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++
++	dump_mgntframe(padapter, pmgntframe);
++
++	ret = _SUCCESS;
++exit:
++
++	return ret;
++
++}
++
++/* TDLS Discovery Response frame is a management action frame */
++int issue_tdls_dis_rsp(_adapter *padapter, struct tdls_txmgmt *ptxmgmt, u8 privacy)
++{
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	unsigned char			*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short		*fctrl;
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	int ret = _FAIL;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	/* unicast probe request frame */
++	_rtw_memcpy(pwlanhdr->addr1, ptxmgmt->peer, ETH_ALEN);
++	_rtw_memcpy(pattrib->dst, pwlanhdr->addr1, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->src, pwlanhdr->addr2, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_bssid(&padapter->mlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, pwlanhdr->addr3, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	rtw_build_tdls_dis_rsp_ies(padapter, pmgntframe, pframe, ptxmgmt, privacy);
++
++	pattrib->nr_frags = 1;
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(padapter, pmgntframe);
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++int issue_tdls_peer_traffic_rsp(_adapter *padapter, struct sta_info *ptdls_sta, struct tdls_txmgmt *ptxmgmt)
++{
++	struct xmit_frame	*pmgntframe;
++	struct pkt_attrib	*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++	int ret = _FAIL;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	ptxmgmt->action_code = TDLS_PEER_TRAFFIC_RESPONSE;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, ptdls_sta->hwaddr, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, ptxmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++
++	dump_mgntframe(padapter, pmgntframe);
++	ret = _SUCCESS;
++
++exit:
++
++	return ret;
++}
++
++int issue_tdls_peer_traffic_indication(_adapter *padapter, struct sta_info *ptdls_sta)
++{
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct tdls_txmgmt txmgmt;
++	int ret = _FAIL;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	txmgmt.action_code = TDLS_PEER_TRAFFIC_INDICATION;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, ptdls_sta->hwaddr, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	/* PTI frame's priority should be AC_VO */
++	pattrib->priority = 7;
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, &txmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++
++	dump_mgntframe(padapter, pmgntframe);
++	ret = _SUCCESS;
++
++exit:
++
++	return ret;
++}
++
++#ifdef CONFIG_TDLS_CH_SW
++int issue_tdls_ch_switch_req(_adapter *padapter, struct sta_info *ptdls_sta)
++{
++	struct xmit_frame	*pmgntframe;
++	struct pkt_attrib	*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++	struct tdls_txmgmt txmgmt;
++	int ret = _FAIL;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	if (rtw_tdls_is_chsw_allowed(padapter) == _FALSE) {
++		RTW_INFO("[TDLS] Ignore %s since channel switch is not allowed\n", __func__);
++		goto exit;
++	}
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	txmgmt.action_code = TDLS_CHANNEL_SWITCH_REQUEST;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, ptdls_sta->hwaddr, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, &txmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++
++	dump_mgntframe(padapter, pmgntframe);
++	ret = _SUCCESS;
++exit:
++
++	return ret;
++}
++
++int issue_tdls_ch_switch_rsp(_adapter *padapter, struct tdls_txmgmt *ptxmgmt, int wait_ack)
++{
++	struct xmit_frame	*pmgntframe;
++	struct pkt_attrib	*pattrib;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++	int ret = _FAIL;
++
++	RTW_INFO("[TDLS] %s\n", __FUNCTION__);
++
++	if (rtw_tdls_is_chsw_allowed(padapter) == _FALSE) {
++		RTW_INFO("[TDLS] Ignore %s since channel switch is not allowed\n", __func__);
++		goto exit;
++	}
++
++	ptxmgmt->action_code = TDLS_CHANNEL_SWITCH_RESPONSE;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		goto exit;
++
++	pattrib = &pmgntframe->attrib;
++
++	pmgntframe->frame_tag = DATA_FRAMETAG;
++	pattrib->ether_type = 0x890d;
++
++	_rtw_memcpy(pattrib->dst, ptxmgmt->peer, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, ptxmgmt->peer, ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++
++	update_tdls_attrib(padapter, pattrib);
++	pattrib->qsel = pattrib->priority;
++	/*
++		_enter_critical_bh(&pxmitpriv->lock, &irqL);
++		if(xmitframe_enqueue_for_tdls_sleeping_sta(padapter, pmgntframe)==_TRUE){
++			_exit_critical_bh(&pxmitpriv->lock, &irqL);
++			return _FALSE;
++		}
++	*/
++	if (rtw_xmit_tdls_coalesce(padapter, pmgntframe, ptxmgmt) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pmgntframe->pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pmgntframe);
++		goto exit;
++	}
++
++	if (wait_ack)
++		ret = dump_mgntframe_and_wait_ack_timeout(padapter, pmgntframe, 10);
++	else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++exit:
++
++	return ret;
++}
++#endif
++
++int On_TDLS_Dis_Rsp(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct sta_info *ptdls_sta = NULL, *psta = rtw_get_stainfo(&(padapter->stapriv), get_bssid(&(padapter->mlmepriv)));
++	struct recv_priv *precvpriv = &(padapter->recvpriv);
++	u8 *ptr = precv_frame->u.hdr.rx_data, *psa;
++	struct rx_pkt_attrib *pattrib = &(precv_frame->u.hdr.attrib);
++	struct tdls_info *ptdlsinfo = &(padapter->tdlsinfo);
++	u8 empty_addr[ETH_ALEN] = { 0x00 };
++	int UndecoratedSmoothedPWDB;
++	struct tdls_txmgmt txmgmt;
++	int ret = _SUCCESS;
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	/* WFDTDLS: for sigma test, not to setup direct link automatically */
++	ptdlsinfo->dev_discovered = _TRUE;
++
++	psa = get_sa(ptr);
++	ptdls_sta = rtw_get_stainfo(&(padapter->stapriv), psa);
++	if (ptdls_sta != NULL)
++		ptdls_sta->sta_stats.rx_tdls_disc_rsp_pkts++;
++
++#ifdef CONFIG_TDLS_AUTOSETUP
++	if (ptdls_sta != NULL) {
++		/* Record the tdls sta with lowest signal strength */
++		if (ptdlsinfo->sta_maximum == _TRUE && ptdls_sta->alive_count >= 1) {
++			if (_rtw_memcmp(ptdlsinfo->ss_record.macaddr, empty_addr, ETH_ALEN)) {
++				_rtw_memcpy(ptdlsinfo->ss_record.macaddr, psa, ETH_ALEN);
++				ptdlsinfo->ss_record.RxPWDBAll = pattrib->phy_info.RxPWDBAll;
++			} else {
++				if (ptdlsinfo->ss_record.RxPWDBAll < pattrib->phy_info.RxPWDBAll) {
++					_rtw_memcpy(ptdlsinfo->ss_record.macaddr, psa, ETH_ALEN);
++					ptdlsinfo->ss_record.RxPWDBAll = pattrib->phy_info.RxPWDBAll;
++				}
++			}
++		}
++	} else {
++		if (ptdlsinfo->sta_maximum == _TRUE) {
++			if (_rtw_memcmp(ptdlsinfo->ss_record.macaddr, empty_addr, ETH_ALEN)) {
++				/* All traffics are busy, do not set up another direct link. */
++				ret = _FAIL;
++				goto exit;
++			} else {
++				if (pattrib->phy_info.RxPWDBAll > ptdlsinfo->ss_record.RxPWDBAll) {
++					_rtw_memcpy(txmgmt.peer, ptdlsinfo->ss_record.macaddr, ETH_ALEN);
++					/* issue_tdls_teardown(padapter, ptdlsinfo->ss_record.macaddr, _FALSE); */
++				} else {
++					ret = _FAIL;
++					goto exit;
++				}
++			}
++		}
++
++		rtw_hal_get_def_var(padapter, HAL_DEF_UNDERCORATEDSMOOTHEDPWDB, &UndecoratedSmoothedPWDB);
++
++		if (pattrib->phy_info.RxPWDBAll + TDLS_SIGNAL_THRESH >= UndecoratedSmoothedPWDB) {
++			RTW_INFO("pattrib->RxPWDBAll=%d, pdmpriv->UndecoratedSmoothedPWDB=%d\n", pattrib->phy_info.RxPWDBAll, UndecoratedSmoothedPWDB);
++			_rtw_memcpy(txmgmt.peer, psa, ETH_ALEN);
++			issue_tdls_setup_req(padapter, &txmgmt, _FALSE);
++		}
++	}
++#endif /* CONFIG_TDLS_AUTOSETUP */
++
++exit:
++	return ret;
++
++}
++
++sint On_TDLS_Setup_Req(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	u8 *psa, *pmyid;
++	struct sta_info *ptdls_sta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	_irqL irqL;
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	u8 *prsnie, *ppairwise_cipher;
++	u8 i, k;
++	u8 ccmp_included = 0, rsnie_included = 0;
++	u16 j, pairwise_count;
++	u8 SNonce[32];
++	u32 timeout_interval = TDLS_TPK_RESEND_COUNT;
++	sint parsing_length;	/* Frame body length, without icv_len */
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 FIXED_IE = 5;
++	unsigned char		supportRate[16];
++	int				supportRateNum = 0;
++	struct tdls_txmgmt txmgmt;
++
++	if (rtw_tdls_is_setup_allowed(padapter) == _FALSE)
++		goto exit;
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	psa = get_sa(ptr);
++	ptdls_sta = rtw_get_stainfo(pstapriv, psa);
++
++	pmyid = adapter_mac_addr(padapter);
++	ptr += prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len + LLC_HEADER_SIZE + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN;
++	parsing_length = ((union recv_frame *)precv_frame)->u.hdr.len
++			 - prx_pkt_attrib->hdrlen
++			 - prx_pkt_attrib->iv_len
++			 - prx_pkt_attrib->icv_len
++			 - LLC_HEADER_SIZE
++			 - ETH_TYPE_LEN
++			 - PAYLOAD_TYPE_LEN
++			 - FIXED_IE;
++
++	if (ptdls_sta == NULL)
++		ptdls_sta = rtw_alloc_stainfo(pstapriv, psa);
++	else {
++		if (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE) {
++			/* If the direct link is already set up */
++			/* Process as re-setup after tear down */
++			RTW_INFO("re-setup a direct link\n");
++		}
++		/* Already receiving TDLS setup request */
++		else if (ptdls_sta->tdls_sta_state & TDLS_INITIATOR_STATE) {
++			RTW_INFO("receive duplicated TDLS setup request frame in handshaking\n");
++			goto exit;
++		}
++		/* When receiving and sending setup_req to the same link at the same time */
++		/* STA with higher MAC_addr would be initiator */
++		else if (ptdls_sta->tdls_sta_state & TDLS_RESPONDER_STATE) {
++			RTW_INFO("receive setup_req after sending setup_req\n");
++			for (i = 0; i < 6; i++) {
++				if (*(pmyid + i) == *(psa + i)) {
++				} else if (*(pmyid + i) > *(psa + i)) {
++					ptdls_sta->tdls_sta_state = TDLS_INITIATOR_STATE;
++					break;
++				} else if (*(pmyid + i) < *(psa + i))
++					goto exit;
++			}
++		}
++	}
++
++	if (ptdls_sta) {
++		txmgmt.dialog_token = *(ptr + 2);	/* Copy dialog token */
++		txmgmt.status_code = _STATS_SUCCESSFUL_;
++
++		/* Parsing information element */
++		for (j = FIXED_IE; j < parsing_length;) {
++
++			pIE = (PNDIS_802_11_VARIABLE_IEs)(ptr + j);
++
++			switch (pIE->ElementID) {
++			case _SUPPORTEDRATES_IE_:
++				_rtw_memcpy(supportRate, pIE->data, pIE->Length);
++				supportRateNum = pIE->Length;
++				break;
++			case _COUNTRY_IE_:
++				break;
++			case _EXT_SUPPORTEDRATES_IE_:
++				if (supportRateNum <= sizeof(supportRate)) {
++					_rtw_memcpy(supportRate + supportRateNum, pIE->data, pIE->Length);
++					supportRateNum += pIE->Length;
++				}
++				break;
++			case _SUPPORTED_CH_IE_:
++				break;
++			case _RSN_IE_2_:
++				rsnie_included = 1;
++				if (prx_pkt_attrib->encrypt) {
++					prsnie = (u8 *)pIE;
++					/* Check CCMP pairwise_cipher presence. */
++					ppairwise_cipher = prsnie + 10;
++					_rtw_memcpy(ptdls_sta->TDLS_RSNIE, pIE->data, pIE->Length);
++					pairwise_count = *(u16 *)(ppairwise_cipher - 2);
++					for (k = 0; k < pairwise_count; k++) {
++						if (_rtw_memcmp(ppairwise_cipher + 4 * k, RSN_CIPHER_SUITE_CCMP, 4) == _TRUE)
++							ccmp_included = 1;
++					}
++
++					if (ccmp_included == 0)
++						txmgmt.status_code = _STATS_INVALID_RSNIE_;
++				}
++				break;
++			case _EXT_CAP_IE_:
++				break;
++			case _VENDOR_SPECIFIC_IE_:
++				break;
++			case _FTIE_:
++				if (prx_pkt_attrib->encrypt)
++					_rtw_memcpy(SNonce, (ptr + j + 52), 32);
++				break;
++			case _TIMEOUT_ITVL_IE_:
++				if (prx_pkt_attrib->encrypt)
++					timeout_interval = cpu_to_le32(*(u32 *)(ptr + j + 3));
++				break;
++			case _RIC_Descriptor_IE_:
++				break;
++#ifdef CONFIG_80211N_HT
++			case _HT_CAPABILITY_IE_:
++				rtw_tdls_process_ht_cap(padapter, ptdls_sta, pIE->data, pIE->Length);
++				break;
++#endif
++#ifdef CONFIG_80211AC_VHT
++			case EID_AID:
++				break;
++			case EID_VHTCapability:
++				rtw_tdls_process_vht_cap(padapter, ptdls_sta, pIE->data, pIE->Length);
++				break;
++#endif
++			case EID_BSSCoexistence:
++				break;
++			case _LINK_ID_IE_:
++				if (_rtw_memcmp(get_bssid(pmlmepriv), pIE->data, 6) == _FALSE)
++					txmgmt.status_code = _STATS_NOT_IN_SAME_BSS_;
++				break;
++			default:
++				break;
++			}
++
++			j += (pIE->Length + 2);
++
++		}
++
++		/* Check status code */
++		/* If responder STA has/hasn't security on AP, but request hasn't/has RSNIE, it should reject */
++		if (txmgmt.status_code == _STATS_SUCCESSFUL_) {
++			if (rsnie_included && prx_pkt_attrib->encrypt == 0)
++				txmgmt.status_code = _STATS_SEC_DISABLED_;
++			else if (rsnie_included == 0 && prx_pkt_attrib->encrypt)
++				txmgmt.status_code = _STATS_INVALID_PARAMETERS_;
++
++#ifdef CONFIG_WFD
++			/* WFD test plan version 0.18.2 test item 5.1.5 */
++			/* SoUT does not use TDLS if AP uses weak security */
++			if (padapter->wdinfo.wfd_tdls_enable && (rsnie_included && prx_pkt_attrib->encrypt != _AES_))
++				txmgmt.status_code = _STATS_SEC_DISABLED_;
++#endif /* CONFIG_WFD */
++		}
++
++		ptdls_sta->tdls_sta_state |= TDLS_INITIATOR_STATE;
++		if (prx_pkt_attrib->encrypt) {
++			_rtw_memcpy(ptdls_sta->SNonce, SNonce, 32);
++
++			if (timeout_interval <= 300)
++				ptdls_sta->TDLS_PeerKey_Lifetime = TDLS_TPK_RESEND_COUNT;
++			else
++				ptdls_sta->TDLS_PeerKey_Lifetime = timeout_interval;
++		}
++
++		/* Update station supportRate */
++		ptdls_sta->bssratelen = supportRateNum;
++		_rtw_memcpy(ptdls_sta->bssrateset, supportRate, supportRateNum);
++
++		if (!(ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE))
++			ptdlsinfo->sta_cnt++;
++		/* -2: AP + BC/MC sta, -4: default key */
++		if (ptdlsinfo->sta_cnt == MAX_ALLOWED_TDLS_STA_NUM)
++			ptdlsinfo->sta_maximum = _TRUE;
++
++#ifdef CONFIG_WFD
++		rtw_tdls_process_wfd_ie(ptdlsinfo, ptr + FIXED_IE, parsing_length);
++#endif
++
++	} else
++		goto exit;
++
++	_rtw_memcpy(txmgmt.peer, prx_pkt_attrib->src, ETH_ALEN);
++
++	if (rtw_tdls_is_driver_setup(padapter)) {
++		issue_tdls_setup_rsp(padapter, &txmgmt);
++
++		if (txmgmt.status_code == _STATS_SUCCESSFUL_)
++			_set_timer(&ptdls_sta->handshake_timer, TDLS_HANDSHAKE_TIME);
++		else
++			free_tdls_sta(padapter, ptdls_sta);
++	}
++
++exit:
++
++	return _SUCCESS;
++}
++
++int On_TDLS_Setup_Rsp(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct sta_info *ptdls_sta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	_irqL irqL;
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	u8 *psa;
++	u16 status_code = 0;
++	sint parsing_length;	/* Frame body length, without icv_len */
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 FIXED_IE = 7;
++	u8 ANonce[32];
++	u8  *pftie = NULL, *ptimeout_ie = NULL, *plinkid_ie = NULL, *prsnie = NULL, *pftie_mic = NULL, *ppairwise_cipher = NULL;
++	u16 pairwise_count, j, k;
++	u8 verify_ccmp = 0;
++	unsigned char		supportRate[16];
++	int				supportRateNum = 0;
++	struct tdls_txmgmt txmgmt;
++	int ret = _SUCCESS;
++	u32 timeout_interval = TDLS_TPK_RESEND_COUNT;
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	psa = get_sa(ptr);
++	ptdls_sta = rtw_get_stainfo(pstapriv, psa);
++
++	if (ptdls_sta == NULL) {
++		RTW_INFO("[%s] Direct Link Peer = "MAC_FMT" not found\n", __func__, MAC_ARG(psa));
++		ret = _FAIL;
++		goto exit;
++	}
++
++	ptr += prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len + LLC_HEADER_SIZE + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN;
++	parsing_length = ((union recv_frame *)precv_frame)->u.hdr.len
++			 - prx_pkt_attrib->hdrlen
++			 - prx_pkt_attrib->iv_len
++			 - prx_pkt_attrib->icv_len
++			 - LLC_HEADER_SIZE
++			 - ETH_TYPE_LEN
++			 - PAYLOAD_TYPE_LEN
++			 - FIXED_IE;
++
++	_rtw_memcpy(&status_code, ptr + 2, 2);
++
++	if (status_code != 0) {
++		RTW_INFO("[TDLS] %s status_code = %d, free_tdls_sta\n", __FUNCTION__, status_code);
++		free_tdls_sta(padapter, ptdls_sta);
++		ret = _FAIL;
++		goto exit;
++	}
++
++	status_code = 0;
++
++	/* parsing information element */
++	for (j = FIXED_IE; j < parsing_length;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(ptr + j);
++
++		switch (pIE->ElementID) {
++		case _SUPPORTEDRATES_IE_:
++			_rtw_memcpy(supportRate, pIE->data, pIE->Length);
++			supportRateNum = pIE->Length;
++			break;
++		case _COUNTRY_IE_:
++			break;
++		case _EXT_SUPPORTEDRATES_IE_:
++			if (supportRateNum <= sizeof(supportRate)) {
++				_rtw_memcpy(supportRate + supportRateNum, pIE->data, pIE->Length);
++				supportRateNum += pIE->Length;
++			}
++			break;
++		case _SUPPORTED_CH_IE_:
++			break;
++		case _RSN_IE_2_:
++			prsnie = (u8 *)pIE;
++			/* Check CCMP pairwise_cipher presence. */
++			ppairwise_cipher = prsnie + 10;
++			_rtw_memcpy(&pairwise_count, (u16 *)(ppairwise_cipher - 2), 2);
++			for (k = 0; k < pairwise_count; k++) {
++				if (_rtw_memcmp(ppairwise_cipher + 4 * k, RSN_CIPHER_SUITE_CCMP, 4) == _TRUE)
++					verify_ccmp = 1;
++			}
++		case _EXT_CAP_IE_:
++			break;
++		case _VENDOR_SPECIFIC_IE_:
++			if (_rtw_memcmp((u8 *)pIE + 2, WMM_INFO_OUI, 6) == _TRUE) {
++				/* WMM Info ID and OUI */
++				if ((pregistrypriv->wmm_enable == _TRUE) || (padapter->mlmepriv.htpriv.ht_option == _TRUE))
++					ptdls_sta->qos_option = _TRUE;
++			}
++			break;
++		case _FTIE_:
++			pftie = (u8 *)pIE;
++			_rtw_memcpy(ANonce, (ptr + j + 20), 32);
++			break;
++		case _TIMEOUT_ITVL_IE_:
++			ptimeout_ie = (u8 *)pIE;
++			timeout_interval = cpu_to_le32(*(u32 *)(ptimeout_ie + 3));
++			break;
++		case _RIC_Descriptor_IE_:
++			break;
++#ifdef CONFIG_80211N_HT
++		case _HT_CAPABILITY_IE_:
++			rtw_tdls_process_ht_cap(padapter, ptdls_sta, pIE->data, pIE->Length);
++			break;
++#endif
++#ifdef CONFIG_80211AC_VHT
++		case EID_AID:
++			/* todo in the future if necessary */
++			break;
++		case EID_VHTCapability:
++			rtw_tdls_process_vht_cap(padapter, ptdls_sta, pIE->data, pIE->Length);
++			break;
++		case EID_OpModeNotification:
++			rtw_process_vht_op_mode_notify(padapter, pIE->data, ptdls_sta);
++			break;
++#endif
++		case EID_BSSCoexistence:
++			break;
++		case _LINK_ID_IE_:
++			plinkid_ie = (u8 *)pIE;
++			break;
++		default:
++			break;
++		}
++
++		j += (pIE->Length + 2);
++
++	}
++
++	ptdls_sta->bssratelen = supportRateNum;
++	_rtw_memcpy(ptdls_sta->bssrateset, supportRate, supportRateNum);
++	_rtw_memcpy(ptdls_sta->ANonce, ANonce, 32);
++
++#ifdef CONFIG_WFD
++	rtw_tdls_process_wfd_ie(ptdlsinfo, ptr + FIXED_IE, parsing_length);
++#endif
++
++	if (status_code != _STATS_SUCCESSFUL_)
++		txmgmt.status_code = status_code;
++	else {
++		if (prx_pkt_attrib->encrypt) {
++			if (verify_ccmp == 1) {
++				txmgmt.status_code = _STATS_SUCCESSFUL_;
++				if (rtw_tdls_is_driver_setup(padapter) == _TRUE) {
++					wpa_tdls_generate_tpk(padapter, ptdls_sta);
++					if (tdls_verify_mic(ptdls_sta->tpk.kck, 2, plinkid_ie, prsnie, ptimeout_ie, pftie) == _FAIL) {
++						RTW_INFO("[TDLS] %s tdls_verify_mic fail, free_tdls_sta\n", __FUNCTION__);
++						free_tdls_sta(padapter, ptdls_sta);
++						ret = _FAIL;
++						goto exit;
++					}
++					ptdls_sta->TDLS_PeerKey_Lifetime = timeout_interval;
++				}
++			} else
++				txmgmt.status_code = _STATS_INVALID_RSNIE_;
++
++		} else
++			txmgmt.status_code = _STATS_SUCCESSFUL_;
++	}
++
++	if (rtw_tdls_is_driver_setup(padapter) == _TRUE) {
++		_rtw_memcpy(txmgmt.peer, prx_pkt_attrib->src, ETH_ALEN);
++		issue_tdls_setup_cfm(padapter, &txmgmt);
++
++		if (txmgmt.status_code == _STATS_SUCCESSFUL_) {
++			ptdlsinfo->link_established = _TRUE;
++
++			if (ptdls_sta->tdls_sta_state & TDLS_RESPONDER_STATE) {
++				ptdls_sta->tdls_sta_state |= TDLS_LINKED_STATE;
++				ptdls_sta->state |= _FW_LINKED;
++				_cancel_timer_ex(&ptdls_sta->handshake_timer);
++			}
++
++			if (prx_pkt_attrib->encrypt)
++				rtw_tdls_set_key(padapter, ptdls_sta);
++
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_ESTABLISHED);
++
++		}
++	}
++
++exit:
++	if (rtw_tdls_is_driver_setup(padapter) == _TRUE)
++		return ret;
++	else
++		return _SUCCESS;
++
++}
++
++int On_TDLS_Setup_Cfm(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct sta_info *ptdls_sta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	_irqL irqL;
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	u8 *psa;
++	u16 status_code = 0;
++	sint parsing_length;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 FIXED_IE = 5;
++	u8  *pftie = NULL, *ptimeout_ie = NULL, *plinkid_ie = NULL, *prsnie = NULL, *pftie_mic = NULL, *ppairwise_cipher = NULL;
++	u16 j, pairwise_count;
++	int ret = _SUCCESS;
++
++	psa = get_sa(ptr);
++	ptdls_sta = rtw_get_stainfo(pstapriv, psa);
++
++	if (ptdls_sta == NULL) {
++		RTW_INFO("[%s] Direct Link Peer = "MAC_FMT" not found\n", __FUNCTION__, MAC_ARG(psa));
++		ret = _FAIL;
++		goto exit;
++	}
++
++	ptr += prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len + LLC_HEADER_SIZE + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN;
++	parsing_length = ((union recv_frame *)precv_frame)->u.hdr.len
++			 - prx_pkt_attrib->hdrlen
++			 - prx_pkt_attrib->iv_len
++			 - prx_pkt_attrib->icv_len
++			 - LLC_HEADER_SIZE
++			 - ETH_TYPE_LEN
++			 - PAYLOAD_TYPE_LEN
++			 - FIXED_IE;
++
++	_rtw_memcpy(&status_code, ptr + 2, 2);
++
++	if (status_code != 0) {
++		RTW_INFO("[%s] status_code = %d\n, free_tdls_sta", __FUNCTION__, status_code);
++		free_tdls_sta(padapter, ptdls_sta);
++		ret = _FAIL;
++		goto exit;
++	}
++
++	/* Parsing information element */
++	for (j = FIXED_IE; j < parsing_length;) {
++
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(ptr + j);
++
++		switch (pIE->ElementID) {
++		case _RSN_IE_2_:
++			prsnie = (u8 *)pIE;
++			break;
++		case _VENDOR_SPECIFIC_IE_:
++			if (_rtw_memcmp((u8 *)pIE + 2, WMM_PARA_OUI, 6) == _TRUE) {
++				/* WMM Parameter ID and OUI */
++				ptdls_sta->qos_option = _TRUE;
++			}
++			break;
++		case _FTIE_:
++			pftie = (u8 *)pIE;
++			break;
++		case _TIMEOUT_ITVL_IE_:
++			ptimeout_ie = (u8 *)pIE;
++			break;
++#ifdef CONFIG_80211N_HT
++		case _HT_EXTRA_INFO_IE_:
++			break;
++#endif
++#ifdef CONFIG_80211AC_VHT
++		case EID_VHTOperation:
++			break;
++		case EID_OpModeNotification:
++			rtw_process_vht_op_mode_notify(padapter, pIE->data, ptdls_sta);
++			break;
++#endif
++		case _LINK_ID_IE_:
++			plinkid_ie = (u8 *)pIE;
++			break;
++		default:
++			break;
++		}
++
++		j += (pIE->Length + 2);
++
++	}
++
++	if (prx_pkt_attrib->encrypt) {
++		/* Verify mic in FTIE MIC field */
++		if (rtw_tdls_is_driver_setup(padapter) &&
++		    (tdls_verify_mic(ptdls_sta->tpk.kck, 3, plinkid_ie, prsnie, ptimeout_ie, pftie) == _FAIL)) {
++			free_tdls_sta(padapter, ptdls_sta);
++			ret = _FAIL;
++			goto exit;
++		}
++	}
++
++	if (rtw_tdls_is_driver_setup(padapter)) {
++		ptdlsinfo->link_established = _TRUE;
++
++		if (ptdls_sta->tdls_sta_state & TDLS_INITIATOR_STATE) {
++			ptdls_sta->tdls_sta_state |= TDLS_LINKED_STATE;
++			ptdls_sta->state |= _FW_LINKED;
++			_cancel_timer_ex(&ptdls_sta->handshake_timer);
++		}
++
++		if (prx_pkt_attrib->encrypt) {
++			rtw_tdls_set_key(padapter, ptdls_sta);
++
++			/* Start  TPK timer */
++			ptdls_sta->TPK_count = 0;
++			_set_timer(&ptdls_sta->TPK_timer, ONE_SEC);
++		}
++
++		rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_ESTABLISHED);
++	}
++
++exit:
++	return ret;
++
++}
++
++int On_TDLS_Dis_Req(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta_ap;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	sint parsing_length;	/* Frame body length, without icv_len */
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 FIXED_IE = 3, *dst;
++	u16 j;
++	struct tdls_txmgmt txmgmt;
++	int ret = _SUCCESS;
++
++	if (rtw_tdls_is_driver_setup(padapter) == _FALSE)
++		goto exit;
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	ptr += prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len + LLC_HEADER_SIZE + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN;
++	txmgmt.dialog_token = *(ptr + 2);
++	_rtw_memcpy(&txmgmt.peer, precv_frame->u.hdr.attrib.src, ETH_ALEN);
++	txmgmt.action_code = TDLS_DISCOVERY_RESPONSE;
++	parsing_length = ((union recv_frame *)precv_frame)->u.hdr.len
++			 - prx_pkt_attrib->hdrlen
++			 - prx_pkt_attrib->iv_len
++			 - prx_pkt_attrib->icv_len
++			 - LLC_HEADER_SIZE
++			 - ETH_TYPE_LEN
++			 - PAYLOAD_TYPE_LEN
++			 - FIXED_IE;
++
++	/* Parsing information element */
++	for (j = FIXED_IE; j < parsing_length;) {
++
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(ptr + j);
++
++		switch (pIE->ElementID) {
++		case _LINK_ID_IE_:
++			psta_ap = rtw_get_stainfo(pstapriv, pIE->data);
++			if (psta_ap == NULL)
++				goto exit;
++			dst = pIE->data + 12;
++			if (MacAddr_isBcst(dst) == _FALSE && (_rtw_memcmp(adapter_mac_addr(padapter), dst, 6) == _FALSE))
++				goto exit;
++			break;
++		default:
++			break;
++		}
++
++		j += (pIE->Length + 2);
++
++	}
++
++	issue_tdls_dis_rsp(padapter, &txmgmt, prx_pkt_attrib->privacy);
++
++exit:
++	return ret;
++
++}
++
++int On_TDLS_Teardown(_adapter *padapter, union recv_frame *precv_frame)
++{
++	u8 *psa;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct sta_priv	*pstapriv = &padapter->stapriv;
++	struct sta_info *ptdls_sta = NULL;
++	_irqL irqL;
++	u8 reason;
++
++	reason = *(ptr + prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len + LLC_HEADER_SIZE + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN + 2);
++	RTW_INFO("[TDLS] %s Reason code(%d)\n", __FUNCTION__, reason);
++
++	psa = get_sa(ptr);
++
++	ptdls_sta = rtw_get_stainfo(pstapriv, psa);
++	if (ptdls_sta != NULL) {
++		if (rtw_tdls_is_driver_setup(padapter))
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_TEARDOWN_STA_LOCALLY);
++	}
++
++	return _SUCCESS;
++
++}
++
++#if 0
++u8 TDLS_check_ch_state(uint state)
++{
++	if (state & TDLS_CH_SWITCH_ON_STATE &&
++	    state & TDLS_PEER_AT_OFF_STATE) {
++		if (state & TDLS_PEER_SLEEP_STATE)
++			return 2;	/* U-APSD + ch. switch */
++		else
++			return 1;	/* ch. switch */
++	} else
++		return 0;
++}
++#endif
++
++int On_TDLS_Peer_Traffic_Indication(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct rx_pkt_attrib	*pattrib = &precv_frame->u.hdr.attrib;
++	struct sta_info *ptdls_sta = rtw_get_stainfo(&padapter->stapriv, pattrib->src);
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct tdls_txmgmt txmgmt;
++
++	ptr += pattrib->hdrlen + pattrib->iv_len + LLC_HEADER_SIZE + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN;
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++
++	if (ptdls_sta != NULL) {
++		txmgmt.dialog_token = *(ptr + 2);
++		issue_tdls_peer_traffic_rsp(padapter, ptdls_sta, &txmgmt);
++		/* issue_nulldata_to_TDLS_peer_STA(padapter, ptdls_sta->hwaddr, 0, 0, 0); */
++	} else {
++		RTW_INFO("from unknown sta:"MAC_FMT"\n", MAC_ARG(pattrib->src));
++		return _FAIL;
++	}
++
++	return _SUCCESS;
++}
++
++/* We process buffered data for 1. U-APSD, 2. ch. switch, 3. U-APSD + ch. switch here */
++int On_TDLS_Peer_Traffic_Rsp(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct rx_pkt_attrib	*pattrib = &precv_frame->u.hdr.attrib;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *ptdls_sta = rtw_get_stainfo(pstapriv, pattrib->src);
++	u8 wmmps_ac = 0;
++	/* u8 state=TDLS_check_ch_state(ptdls_sta->tdls_sta_state); */
++	int i;
++
++	ptdls_sta->sta_stats.rx_data_pkts++;
++
++	ptdls_sta->tdls_sta_state &= ~(TDLS_WAIT_PTR_STATE);
++
++	/* Check 4-AC queue bit */
++	if (ptdls_sta->uapsd_vo || ptdls_sta->uapsd_vi || ptdls_sta->uapsd_be || ptdls_sta->uapsd_bk)
++		wmmps_ac = 1;
++
++	/* If it's a direct link and have buffered frame */
++	if (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE) {
++		if (wmmps_ac) {
++			_irqL irqL;
++			_list	*xmitframe_plist, *xmitframe_phead;
++			struct xmit_frame *pxmitframe = NULL;
++
++			_enter_critical_bh(&ptdls_sta->sleep_q.lock, &irqL);
++
++			xmitframe_phead = get_list_head(&ptdls_sta->sleep_q);
++			xmitframe_plist = get_next(xmitframe_phead);
++
++			/* transmit buffered frames */
++			while (rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist) == _FALSE) {
++				pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++				xmitframe_plist = get_next(xmitframe_plist);
++				rtw_list_delete(&pxmitframe->list);
++
++				ptdls_sta->sleepq_len--;
++				ptdls_sta->sleepq_ac_len--;
++				if (ptdls_sta->sleepq_len > 0) {
++					pxmitframe->attrib.mdata = 1;
++					pxmitframe->attrib.eosp = 0;
++				} else {
++					pxmitframe->attrib.mdata = 0;
++					pxmitframe->attrib.eosp = 1;
++				}
++				pxmitframe->attrib.triggered = 1;
++
++				rtw_hal_xmitframe_enqueue(padapter, pxmitframe);
++			}
++
++			if (ptdls_sta->sleepq_len == 0)
++				RTW_INFO("no buffered packets for tdls to xmit\n");
++			else {
++				RTW_INFO("error!psta->sleepq_len=%d\n", ptdls_sta->sleepq_len);
++				ptdls_sta->sleepq_len = 0;
++			}
++
++			_exit_critical_bh(&ptdls_sta->sleep_q.lock, &irqL);
++
++		}
++
++	}
++
++	return _SUCCESS;
++}
++
++#ifdef CONFIG_TDLS_CH_SW
++sint On_TDLS_Ch_Switch_Req(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++	struct sta_info *ptdls_sta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	u8 *psa;
++	sint parsing_length;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 FIXED_IE = 4;
++	u16 j;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct tdls_txmgmt txmgmt;
++	u8 zaddr[ETH_ALEN] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
++	u16 switch_time = TDLS_CH_SWITCH_TIME * 1000, switch_timeout = TDLS_CH_SWITCH_TIMEOUT * 1000;
++	u8 take_care_iqk;
++
++	if (rtw_tdls_is_chsw_allowed(padapter) == _FALSE) {
++		RTW_INFO("[TDLS] Ignore %s since channel switch is not allowed\n", __func__);
++		return _FAIL;
++	}
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	psa = get_sa(ptr);
++	ptdls_sta = rtw_get_stainfo(pstapriv, psa);
++
++	if (ptdls_sta == NULL) {
++		RTW_INFO("[%s] Direct Link Peer = "MAC_FMT" not found\n", __func__, MAC_ARG(psa));
++		return _FAIL;
++	}
++
++	ptdls_sta->ch_switch_time = switch_time;
++	ptdls_sta->ch_switch_timeout = switch_timeout;
++
++	ptr += prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len + LLC_HEADER_SIZE + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN;
++	parsing_length = ((union recv_frame *)precv_frame)->u.hdr.len
++			 - prx_pkt_attrib->hdrlen
++			 - prx_pkt_attrib->iv_len
++			 - prx_pkt_attrib->icv_len
++			 - LLC_HEADER_SIZE
++			 - ETH_TYPE_LEN
++			 - PAYLOAD_TYPE_LEN
++			 - FIXED_IE;
++
++	pchsw_info->off_ch_num = *(ptr + 2);
++
++	if ((*(ptr + 2) == 2) && (hal_is_band_support(padapter, BAND_ON_5G)))
++		pchsw_info->off_ch_num = 44;
++
++	if (pchsw_info->off_ch_num != pmlmeext->cur_channel)
++		pchsw_info->delay_switch_back = _FALSE;
++
++	/* Parsing information element */
++	for (j = FIXED_IE; j < parsing_length;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(ptr + j);
++
++		switch (pIE->ElementID) {
++		case EID_SecondaryChnlOffset:
++			switch (*(pIE->data)) {
++			case EXTCHNL_OFFSET_UPPER:
++				pchsw_info->ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++				break;
++
++			case EXTCHNL_OFFSET_LOWER:
++				pchsw_info->ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++				break;
++
++			default:
++				pchsw_info->ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++				break;
++			}
++			break;
++		case _LINK_ID_IE_:
++			break;
++		case _CH_SWITCH_TIMING_:
++			ptdls_sta->ch_switch_time = (RTW_GET_LE16(pIE->data) >= TDLS_CH_SWITCH_TIME * 1000) ?
++				RTW_GET_LE16(pIE->data) : TDLS_CH_SWITCH_TIME * 1000;
++			ptdls_sta->ch_switch_timeout = (RTW_GET_LE16(pIE->data + 2) >= TDLS_CH_SWITCH_TIMEOUT * 1000) ?
++				RTW_GET_LE16(pIE->data + 2) : TDLS_CH_SWITCH_TIMEOUT * 1000;
++			RTW_INFO("[TDLS] %s ch_switch_time:%d, ch_switch_timeout:%d\n"
++				, __FUNCTION__, RTW_GET_LE16(pIE->data), RTW_GET_LE16(pIE->data + 2));
++		default:
++			break;
++		}
++
++		j += (pIE->Length + 2);
++	}
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_CH_SW_NEED_TO_TAKE_CARE_IQK_INFO, &take_care_iqk);
++	if (take_care_iqk == _TRUE) {
++		u8 central_chnl;
++		u8 bw_mode;
++
++		bw_mode = (pchsw_info->ch_offset) ? CHANNEL_WIDTH_40 : CHANNEL_WIDTH_20;
++		central_chnl = rtw_get_center_ch(pchsw_info->off_ch_num, bw_mode, pchsw_info->ch_offset);
++		if (rtw_hal_ch_sw_iqk_info_search(padapter, central_chnl, bw_mode) < 0) {
++			if (!(pchsw_info->ch_sw_state & TDLS_CH_SWITCH_PREPARE_STATE))
++				rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_PREPARE);
++
++			return _FAIL;
++		}
++	}
++
++	/* cancel ch sw monitor timer for responder */
++	if (!(pchsw_info->ch_sw_state & TDLS_CH_SW_INITIATOR_STATE))
++		_cancel_timer_ex(&ptdls_sta->ch_sw_monitor_timer);
++
++	/* Todo: check status */
++	txmgmt.status_code = 0;
++	_rtw_memcpy(txmgmt.peer, psa, ETH_ALEN);
++
++	if (_rtw_memcmp(pchsw_info->addr, zaddr, ETH_ALEN) == _TRUE)
++		_rtw_memcpy(pchsw_info->addr, ptdls_sta->hwaddr, ETH_ALEN);
++
++	if (ATOMIC_READ(&pchsw_info->chsw_on) == _FALSE)
++		rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_START);
++
++	rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_RESP);
++
++	return _SUCCESS;
++}
++
++sint On_TDLS_Ch_Switch_Rsp(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++	struct sta_info *ptdls_sta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	u8 *ptr = precv_frame->u.hdr.rx_data;
++	struct rx_pkt_attrib	*prx_pkt_attrib = &precv_frame->u.hdr.attrib;
++	u8 *psa;
++	sint parsing_length;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 FIXED_IE = 4;
++	u16 status_code, j, switch_time, switch_timeout;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	int ret = _SUCCESS;
++
++	if (rtw_tdls_is_chsw_allowed(padapter) == _FALSE) {
++		RTW_INFO("[TDLS] Ignore %s since channel switch is not allowed\n", __func__);
++		return _SUCCESS;
++	}
++
++	psa = get_sa(ptr);
++	ptdls_sta = rtw_get_stainfo(pstapriv, psa);
++
++	if (ptdls_sta == NULL) {
++		RTW_INFO("[%s] Direct Link Peer = "MAC_FMT" not found\n", __func__, MAC_ARG(psa));
++		return _FAIL;
++	}
++
++	/* If we receive Unsolicited TDLS Channel Switch Response when channel switch is running, */
++	/* we will go back to base channel and terminate this channel switch procedure */
++	if (ATOMIC_READ(&pchsw_info->chsw_on) == _TRUE) {
++		if (pmlmeext->cur_channel != rtw_get_oper_ch(padapter)) {
++			RTW_INFO("[TDLS] Rx unsolicited channel switch response\n");
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_TO_BASE_CHNL);
++			goto exit;
++		}
++	}
++
++	ptr += prx_pkt_attrib->hdrlen + prx_pkt_attrib->iv_len + LLC_HEADER_SIZE + ETH_TYPE_LEN + PAYLOAD_TYPE_LEN;
++	parsing_length = ((union recv_frame *)precv_frame)->u.hdr.len
++			 - prx_pkt_attrib->hdrlen
++			 - prx_pkt_attrib->iv_len
++			 - prx_pkt_attrib->icv_len
++			 - LLC_HEADER_SIZE
++			 - ETH_TYPE_LEN
++			 - PAYLOAD_TYPE_LEN
++			 - FIXED_IE;
++
++	_rtw_memcpy(&status_code, ptr + 2, 2);
++
++	if (status_code != 0) {
++		RTW_INFO("[TDLS] %s status_code:%d\n", __func__, status_code);
++		pchsw_info->ch_sw_state &= ~(TDLS_CH_SW_INITIATOR_STATE);
++		rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_END);
++		ret = _FAIL;
++		goto exit;
++	}
++
++	/* Parsing information element */
++	for (j = FIXED_IE; j < parsing_length;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(ptr + j);
++
++		switch (pIE->ElementID) {
++		case _LINK_ID_IE_:
++			break;
++		case _CH_SWITCH_TIMING_:
++			_rtw_memcpy(&switch_time, pIE->data, 2);
++			if (switch_time > ptdls_sta->ch_switch_time)
++				_rtw_memcpy(&ptdls_sta->ch_switch_time, &switch_time, 2);
++
++			_rtw_memcpy(&switch_timeout, pIE->data + 2, 2);
++			if (switch_timeout > ptdls_sta->ch_switch_timeout)
++				_rtw_memcpy(&ptdls_sta->ch_switch_timeout, &switch_timeout, 2);
++			break;
++		default:
++			break;
++		}
++
++		j += (pIE->Length + 2);
++	}
++
++	if ((pmlmeext->cur_channel == rtw_get_oper_ch(padapter)) &&
++	    (pchsw_info->ch_sw_state & TDLS_WAIT_CH_RSP_STATE)) {
++		if (ATOMIC_READ(&pchsw_info->chsw_on) == _TRUE)
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_TO_OFF_CHNL);
++	}
++
++exit:
++	return ret;
++}
++#endif /* CONFIG_TDLS_CH_SW */
++
++#ifdef CONFIG_WFD
++void wfd_ie_tdls(_adapter *padapter, u8 *pframe, u32 *pktlen)
++{
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wifi_display_info	*pwfd_info = padapter->tdlsinfo.wfd_info;
++	u8 wfdie[MAX_WFD_IE_LEN] = { 0x00 };
++	u32 wfdielen = 0;
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST))
++		return;
++
++	/* WFD OUI */
++	wfdielen = 0;
++	wfdie[wfdielen++] = 0x50;
++	wfdie[wfdielen++] = 0x6F;
++	wfdie[wfdielen++] = 0x9A;
++	wfdie[wfdielen++] = 0x0A;	/* WFA WFD v1.0 */
++
++	/*
++	 *	Commented by Albert 20110825
++	 *	According to the WFD Specification, the negotiation request frame should contain 3 WFD attributes
++	 *	1. WFD Device Information
++	 *	2. Associated BSSID ( Optional )
++	 *	3. Local IP Adress ( Optional )
++	 */
++
++	/* WFD Device Information ATTR */
++	/* Type: */
++	wfdie[wfdielen++] = WFD_ATTR_DEVICE_INFO;
++
++	/* Length: */
++	/* Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/* Value1: */
++	/* WFD device information */
++	/* available for WFD session + Preferred TDLS + WSD ( WFD Service Discovery ) */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->wfd_device_type | WFD_DEVINFO_SESSION_AVAIL
++		     | WFD_DEVINFO_PC_TDLS | WFD_DEVINFO_WSD);
++	wfdielen += 2;
++
++	/* Value2: */
++	/* Session Management Control Port */
++	/* Default TCP port for RTSP messages is 554 */
++	RTW_PUT_BE16(wfdie + wfdielen, pwfd_info->tdls_rtsp_ctrlport);
++	wfdielen += 2;
++
++	/* Value3: */
++	/* WFD Device Maximum Throughput */
++	/* 300Mbps is the maximum throughput */
++	RTW_PUT_BE16(wfdie + wfdielen, 300);
++	wfdielen += 2;
++
++	/* Associated BSSID ATTR */
++	/* Type: */
++	wfdie[wfdielen++] = WFD_ATTR_ASSOC_BSSID;
++
++	/* Length: */
++	/* Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0006);
++	wfdielen += 2;
++
++	/* Value: */
++	/* Associated BSSID */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++		_rtw_memcpy(wfdie + wfdielen, &pmlmepriv->assoc_bssid[0], ETH_ALEN);
++	else
++		_rtw_memset(wfdie + wfdielen, 0x00, ETH_ALEN);
++
++	/* Local IP Address ATTR */
++	wfdie[wfdielen++] = WFD_ATTR_LOCAL_IP_ADDR;
++
++	/* Length: */
++	/* Note: In the WFD specification, the size of length field is 2. */
++	RTW_PUT_BE16(wfdie + wfdielen, 0x0005);
++	wfdielen += 2;
++
++	/* Version: */
++	/* 0x01: Version1;IPv4 */
++	wfdie[wfdielen++] = 0x01;
++
++	/* IPv4 Address */
++	_rtw_memcpy(wfdie + wfdielen, pwfd_info->ip_address, 4);
++	wfdielen += 4;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wfdielen, (unsigned char *) wfdie, pktlen);
++
++}
++#endif /* CONFIG_WFD */
++
++void rtw_build_tdls_setup_req_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_info *ptdls_sta = rtw_get_stainfo((&padapter->stapriv) , pattrib->dst);
++
++	int i = 0 ;
++	u32 time;
++	u8 *pframe_head;
++
++	/* SNonce */
++	if (pattrib->encrypt) {
++		for (i = 0; i < 8; i++) {
++			time = rtw_get_current_time();
++			_rtw_memcpy(&ptdls_sta->SNonce[4 * i], (u8 *)&time, 4);
++		}
++	}
++
++	pframe_head = pframe;	/* For rtw_tdls_set_ht_cap() */
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_TDLS);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_dialog(pframe, pattrib, ptxmgmt);
++
++	pframe = rtw_tdls_set_capability(padapter, pframe, pattrib);
++	pframe = rtw_tdls_set_supported_rate(padapter, pframe, pattrib);
++	pframe = rtw_tdls_set_sup_ch(&(padapter->mlmeextpriv), pframe, pattrib);
++	pframe = rtw_tdls_set_sup_reg_class(pframe, pattrib);
++
++	if (pattrib->encrypt)
++		pframe = rtw_tdls_set_rsnie(ptxmgmt, pframe, pattrib,  _TRUE, ptdls_sta);
++
++	pframe = rtw_tdls_set_ext_cap(pframe, pattrib);
++
++	if (pattrib->encrypt) {
++		pframe = rtw_tdls_set_ftie(ptxmgmt
++					   , pframe
++					   , pattrib
++					   , NULL
++					   , ptdls_sta->SNonce);
++
++		pframe = rtw_tdls_set_timeout_interval(ptxmgmt, pframe, pattrib, _TRUE, ptdls_sta);
++	}
++
++#ifdef CONFIG_80211N_HT
++	/* Sup_reg_classes(optional) */
++	if (pregistrypriv->ht_enable == _TRUE)
++		pframe = rtw_tdls_set_ht_cap(padapter, pframe_head, pattrib);
++#endif
++
++	pframe = rtw_tdls_set_bss_coexist(padapter, pframe, pattrib);
++
++	pframe = rtw_tdls_set_linkid(pframe, pattrib, _TRUE);
++
++	if ((pregistrypriv->wmm_enable == _TRUE) || (padapter->mlmepriv.htpriv.ht_option == _TRUE))
++		pframe = rtw_tdls_set_qos_cap(pframe, pattrib);
++
++#ifdef CONFIG_80211AC_VHT
++	if ((padapter->mlmepriv.htpriv.ht_option == _TRUE) && (pmlmeext->cur_channel > 14)
++	    && REGSTY_IS_11AC_ENABLE(pregistrypriv)
++	    && hal_chk_proto_cap(padapter, PROTO_CAP_11AC)
++	    && (!padapter->mlmepriv.country_ent || COUNTRY_CHPLAN_EN_11AC(padapter->mlmepriv.country_ent))
++	   ) {
++		pframe = rtw_tdls_set_aid(padapter, pframe, pattrib);
++		pframe = rtw_tdls_set_vht_cap(padapter, pframe, pattrib);
++	}
++#endif
++
++#ifdef CONFIG_WFD
++	if (padapter->wdinfo.wfd_tdls_enable == 1)
++		wfd_ie_tdls(padapter, pframe, &(pattrib->pktlen));
++#endif
++
++}
++
++void rtw_build_tdls_setup_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_info *ptdls_sta;
++	u8 k; /* for random ANonce */
++	u8  *pftie = NULL, *ptimeout_ie = NULL, *plinkid_ie = NULL, *prsnie = NULL, *pftie_mic = NULL;
++	u32 time;
++	u8 *pframe_head;
++
++	ptdls_sta = rtw_get_stainfo(&(padapter->stapriv) , pattrib->dst);
++
++	if (ptdls_sta == NULL)
++		RTW_INFO("[%s] %d ptdls_sta is NULL\n", __FUNCTION__, __LINE__);
++
++	if (pattrib->encrypt && ptdls_sta != NULL) {
++		for (k = 0; k < 8; k++) {
++			time = rtw_get_current_time();
++			_rtw_memcpy(&ptdls_sta->ANonce[4 * k], (u8 *)&time, 4);
++		}
++	}
++
++	pframe_head = pframe;
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_TDLS);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_status_code(pframe, pattrib, ptxmgmt);
++
++	if (ptxmgmt->status_code != 0) {
++		RTW_INFO("[%s] status_code:%04x\n", __FUNCTION__, ptxmgmt->status_code);
++		return;
++	}
++
++	pframe = rtw_tdls_set_dialog(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_capability(padapter, pframe, pattrib);
++	pframe = rtw_tdls_set_supported_rate(padapter, pframe, pattrib);
++	pframe = rtw_tdls_set_sup_ch(&(padapter->mlmeextpriv), pframe, pattrib);
++	pframe = rtw_tdls_set_sup_reg_class(pframe, pattrib);
++
++	if (pattrib->encrypt) {
++		prsnie = pframe;
++		pframe = rtw_tdls_set_rsnie(ptxmgmt, pframe, pattrib,  _FALSE, ptdls_sta);
++	}
++
++	pframe = rtw_tdls_set_ext_cap(pframe, pattrib);
++
++	if (pattrib->encrypt) {
++		if (rtw_tdls_is_driver_setup(padapter) == _TRUE)
++			wpa_tdls_generate_tpk(padapter, ptdls_sta);
++
++		pftie = pframe;
++		pftie_mic = pframe + 4;
++		pframe = rtw_tdls_set_ftie(ptxmgmt
++					   , pframe
++					   , pattrib
++					   , ptdls_sta->ANonce
++					   , ptdls_sta->SNonce);
++
++		ptimeout_ie = pframe;
++		pframe = rtw_tdls_set_timeout_interval(ptxmgmt, pframe, pattrib, _FALSE, ptdls_sta);
++	}
++
++#ifdef CONFIG_80211N_HT
++	/* Sup_reg_classes(optional) */
++	if (pregistrypriv->ht_enable == _TRUE)
++		pframe = rtw_tdls_set_ht_cap(padapter, pframe_head, pattrib);
++#endif
++
++	pframe = rtw_tdls_set_bss_coexist(padapter, pframe, pattrib);
++
++	plinkid_ie = pframe;
++	pframe = rtw_tdls_set_linkid(pframe, pattrib, _FALSE);
++
++	/* Fill FTIE mic */
++	if (pattrib->encrypt && rtw_tdls_is_driver_setup(padapter) == _TRUE)
++		wpa_tdls_ftie_mic(ptdls_sta->tpk.kck, 2, plinkid_ie, prsnie, ptimeout_ie, pftie, pftie_mic);
++
++	if ((pregistrypriv->wmm_enable == _TRUE) || (padapter->mlmepriv.htpriv.ht_option == _TRUE))
++		pframe = rtw_tdls_set_qos_cap(pframe, pattrib);
++
++#ifdef CONFIG_80211AC_VHT
++	if ((padapter->mlmepriv.htpriv.ht_option == _TRUE) && (pmlmeext->cur_channel > 14)
++	    && REGSTY_IS_11AC_ENABLE(pregistrypriv)
++	    && hal_chk_proto_cap(padapter, PROTO_CAP_11AC)
++	    && (!padapter->mlmepriv.country_ent || COUNTRY_CHPLAN_EN_11AC(padapter->mlmepriv.country_ent))
++	   ) {
++		pframe = rtw_tdls_set_aid(padapter, pframe, pattrib);
++		pframe = rtw_tdls_set_vht_cap(padapter, pframe, pattrib);
++		pframe = rtw_tdls_set_vht_op_mode_notify(padapter, pframe, pattrib, pmlmeext->cur_bwmode);
++	}
++#endif
++
++#ifdef CONFIG_WFD
++	if (padapter->wdinfo.wfd_tdls_enable)
++		wfd_ie_tdls(padapter, pframe, &(pattrib->pktlen));
++#endif
++
++}
++
++void rtw_build_tdls_setup_cfm_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_info *ptdls_sta = rtw_get_stainfo((&padapter->stapriv) , pattrib->dst);
++
++	unsigned int ie_len;
++	unsigned char *p;
++	u8 wmm_param_ele[24] = {0};
++	u8  *pftie = NULL, *ptimeout_ie = NULL, *plinkid_ie = NULL, *prsnie = NULL, *pftie_mic = NULL;
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_TDLS);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_status_code(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_dialog(pframe, pattrib, ptxmgmt);
++
++	if (ptxmgmt->status_code != 0)
++		return;
++
++	if (pattrib->encrypt) {
++		prsnie = pframe;
++		pframe = rtw_tdls_set_rsnie(ptxmgmt, pframe, pattrib, _TRUE, ptdls_sta);
++	}
++
++	if (pattrib->encrypt) {
++		pftie = pframe;
++		pftie_mic = pframe + 4;
++		pframe = rtw_tdls_set_ftie(ptxmgmt
++					   , pframe
++					   , pattrib
++					   , ptdls_sta->ANonce
++					   , ptdls_sta->SNonce);
++
++		ptimeout_ie = pframe;
++		pframe = rtw_tdls_set_timeout_interval(ptxmgmt, pframe, pattrib, _TRUE, ptdls_sta);
++
++		if (rtw_tdls_is_driver_setup(padapter) == _TRUE) {
++			/* Start TPK timer */
++			ptdls_sta->TPK_count = 0;
++			_set_timer(&ptdls_sta->TPK_timer, ONE_SEC);
++		}
++	}
++
++	/* HT operation; todo */
++
++	plinkid_ie = pframe;
++	pframe = rtw_tdls_set_linkid(pframe, pattrib, _TRUE);
++
++	if (pattrib->encrypt && (rtw_tdls_is_driver_setup(padapter) == _TRUE))
++		wpa_tdls_ftie_mic(ptdls_sta->tpk.kck, 3, plinkid_ie, prsnie, ptimeout_ie, pftie, pftie_mic);
++
++	if (ptdls_sta->qos_option == _TRUE)
++		pframe = rtw_tdls_set_wmm_params(padapter, pframe, pattrib);
++
++#ifdef CONFIG_80211AC_VHT
++	if ((padapter->mlmepriv.htpriv.ht_option == _TRUE)
++	    && (ptdls_sta->vhtpriv.vht_option == _TRUE) && (pmlmeext->cur_channel > 14)
++	    && REGSTY_IS_11AC_ENABLE(pregistrypriv)
++	    && hal_chk_proto_cap(padapter, PROTO_CAP_11AC)
++	    && (!padapter->mlmepriv.country_ent || COUNTRY_CHPLAN_EN_11AC(padapter->mlmepriv.country_ent))
++	   ) {
++		pframe = rtw_tdls_set_vht_operation(padapter, pframe, pattrib, pmlmeext->cur_channel);
++		pframe = rtw_tdls_set_vht_op_mode_notify(padapter, pframe, pattrib, pmlmeext->cur_bwmode);
++	}
++#endif
++}
++
++void rtw_build_tdls_teardown_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_info *ptdls_sta = rtw_get_stainfo(&(padapter->stapriv) , pattrib->dst);
++	u8  *pftie = NULL, *pftie_mic = NULL, *plinkid_ie = NULL;
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_TDLS);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_status_code(pframe, pattrib, ptxmgmt);
++
++	if (pattrib->encrypt) {
++		pftie = pframe;
++		pftie_mic = pframe + 4;
++		pframe = rtw_tdls_set_ftie(ptxmgmt
++					   , pframe
++					   , pattrib
++					   , ptdls_sta->ANonce
++					   , ptdls_sta->SNonce);
++	}
++
++	plinkid_ie = pframe;
++	if (ptdls_sta->tdls_sta_state & TDLS_INITIATOR_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _FALSE);
++	else if (ptdls_sta->tdls_sta_state & TDLS_RESPONDER_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _TRUE);
++
++	if (pattrib->encrypt && (rtw_tdls_is_driver_setup(padapter) == _TRUE))
++		wpa_tdls_teardown_ftie_mic(ptdls_sta->tpk.kck, plinkid_ie, ptxmgmt->status_code, 1, 4, pftie, pftie_mic);
++}
++
++void rtw_build_tdls_dis_req_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_TDLS);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_dialog(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_linkid(pframe, pattrib, _TRUE);
++
++}
++
++void rtw_build_tdls_dis_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt, u8 privacy)
++{
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	u8 *pframe_head, pktlen_index;
++
++	pktlen_index = pattrib->pktlen;
++	pframe_head = pframe;
++
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_PUBLIC);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_dialog(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_capability(padapter, pframe, pattrib);
++
++	pframe = rtw_tdls_set_supported_rate(padapter, pframe, pattrib);
++
++	pframe = rtw_tdls_set_sup_ch(pmlmeext, pframe, pattrib);
++
++	if (privacy)
++		pframe = rtw_tdls_set_rsnie(ptxmgmt, pframe, pattrib, _TRUE, NULL);
++
++	pframe = rtw_tdls_set_ext_cap(pframe, pattrib);
++
++	if (privacy) {
++		pframe = rtw_tdls_set_ftie(ptxmgmt, pframe, pattrib, NULL, NULL);
++		pframe = rtw_tdls_set_timeout_interval(ptxmgmt, pframe, pattrib,  _TRUE, NULL);
++	}
++
++#ifdef CONFIG_80211N_HT
++	if (pregistrypriv->ht_enable == _TRUE)
++		pframe = rtw_tdls_set_ht_cap(padapter, pframe_head - pktlen_index, pattrib);
++#endif
++
++	pframe = rtw_tdls_set_bss_coexist(padapter, pframe, pattrib);
++	pframe = rtw_tdls_set_linkid(pframe, pattrib, _FALSE);
++
++}
++
++
++void rtw_build_tdls_peer_traffic_indication_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	u8 AC_queue = 0;
++	struct sta_info *ptdls_sta = rtw_get_stainfo(&padapter->stapriv, pattrib->dst);
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_TDLS);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_dialog(pframe, pattrib, ptxmgmt);
++
++	if (ptdls_sta->tdls_sta_state & TDLS_INITIATOR_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _FALSE);
++	else if (ptdls_sta->tdls_sta_state & TDLS_RESPONDER_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _TRUE);
++
++	/* PTI control */
++	/* PU buffer status */
++	if (ptdls_sta->uapsd_bk & BIT(1))
++		AC_queue = BIT(0);
++	if (ptdls_sta->uapsd_be & BIT(1))
++		AC_queue = BIT(1);
++	if (ptdls_sta->uapsd_vi & BIT(1))
++		AC_queue = BIT(2);
++	if (ptdls_sta->uapsd_vo & BIT(1))
++		AC_queue = BIT(3);
++	pframe = rtw_set_ie(pframe, _PTI_BUFFER_STATUS_, 1, &AC_queue, &(pattrib->pktlen));
++
++}
++
++void rtw_build_tdls_peer_traffic_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_info *ptdls_sta = rtw_get_stainfo(&padapter->stapriv, pattrib->dst);
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_TDLS);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_dialog(pframe, pattrib, ptxmgmt);
++
++	if (ptdls_sta->tdls_sta_state & TDLS_INITIATOR_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _FALSE);
++	else if (ptdls_sta->tdls_sta_state & TDLS_RESPONDER_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _TRUE);
++}
++
++#ifdef CONFIG_TDLS_CH_SW
++void rtw_build_tdls_ch_switch_req_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_priv	*pstapriv = &padapter->stapriv;
++	struct sta_info *ptdls_sta = rtw_get_stainfo(pstapriv, pattrib->dst);
++	u16 switch_time = TDLS_CH_SWITCH_TIME * 1000, switch_timeout = TDLS_CH_SWITCH_TIMEOUT * 1000;
++
++	ptdls_sta->ch_switch_time = switch_time;
++	ptdls_sta->ch_switch_timeout = switch_timeout;
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_TDLS);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_target_ch(padapter, pframe, pattrib);
++	pframe = rtw_tdls_set_reg_class(pframe, pattrib, ptdls_sta);
++
++	if (ptdlsinfo->chsw_info.ch_offset != HAL_PRIME_CHNL_OFFSET_DONT_CARE) {
++		switch (ptdlsinfo->chsw_info.ch_offset) {
++		case HAL_PRIME_CHNL_OFFSET_LOWER:
++			pframe = rtw_tdls_set_second_channel_offset(pframe, pattrib, SCA);
++			break;
++		case HAL_PRIME_CHNL_OFFSET_UPPER:
++			pframe = rtw_tdls_set_second_channel_offset(pframe, pattrib, SCB);
++			break;
++		}
++	}
++
++	if (ptdls_sta->tdls_sta_state & TDLS_INITIATOR_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _FALSE);
++	else if (ptdls_sta->tdls_sta_state & TDLS_RESPONDER_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _TRUE);
++
++	pframe = rtw_tdls_set_ch_sw(pframe, pattrib, ptdls_sta);
++
++}
++
++void rtw_build_tdls_ch_switch_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_priv	*pstapriv = &padapter->stapriv;
++	struct sta_info *ptdls_sta = rtw_get_stainfo(pstapriv, pattrib->dst);
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_tdls_set_category(pframe, pattrib, RTW_WLAN_CATEGORY_TDLS);
++	pframe = rtw_tdls_set_action(pframe, pattrib, ptxmgmt);
++	pframe = rtw_tdls_set_status_code(pframe, pattrib, ptxmgmt);
++
++	if (ptdls_sta->tdls_sta_state & TDLS_INITIATOR_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _FALSE);
++	else if (ptdls_sta->tdls_sta_state & TDLS_RESPONDER_STATE)
++		pframe = rtw_tdls_set_linkid(pframe, pattrib, _TRUE);
++
++	pframe = rtw_tdls_set_ch_sw(pframe, pattrib, ptdls_sta);
++}
++#endif
++
++#ifdef CONFIG_WFD
++void rtw_build_tunneled_probe_req_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe)
++{
++	u8 i;
++	_adapter *iface = NULL;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	struct wifidirect_info *pwdinfo;
++
++	u8 category = RTW_WLAN_CATEGORY_P2P;
++	u8 WFA_OUI[3] = { 0x50, 0x6f, 0x9a};
++	u8 probe_req = 4;
++	u8 wfdielen = 0;
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 3, WFA_OUI, &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(probe_req), &(pattrib->pktlen));
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++			pwdinfo = &iface->wdinfo;
++			if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++				wfdielen = build_probe_req_wfd_ie(pwdinfo, pframe);
++				pframe += wfdielen;
++				pattrib->pktlen += wfdielen;
++			}
++		}
++	}
++}
++
++void rtw_build_tunneled_probe_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe)
++{
++	u8 i;
++	_adapter *iface = NULL;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct wifidirect_info *pwdinfo;
++	u8 category = RTW_WLAN_CATEGORY_P2P;
++	u8 WFA_OUI[3] = { 0x50, 0x6f, 0x9a};
++	u8 probe_rsp = 5;
++	u8 wfdielen = 0;
++
++	pframe = rtw_tdls_set_payload_type(pframe, pattrib);
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 3, WFA_OUI, &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(probe_rsp), &(pattrib->pktlen));
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++			pwdinfo = &iface->wdinfo;
++			if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++				wfdielen = build_probe_resp_wfd_ie(pwdinfo, pframe, 1);
++				pframe += wfdielen;
++				pattrib->pktlen += wfdielen;
++			}
++		}
++	}
++}
++#endif /* CONFIG_WFD */
++
++void _tdls_tpk_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++	struct tdls_txmgmt txmgmt;
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	ptdls_sta->TPK_count++;
++	/* TPK_timer expired in a second */
++	/* Retry timer should set at least 301 sec. */
++	if (ptdls_sta->TPK_count >= (ptdls_sta->TDLS_PeerKey_Lifetime - 3)) {
++		RTW_INFO("[TDLS] %s, Re-Setup TDLS link with "MAC_FMT" since TPK lifetime expires!\n", __FUNCTION__, MAC_ARG(ptdls_sta->hwaddr));
++		ptdls_sta->TPK_count = 0;
++		_rtw_memcpy(txmgmt.peer, ptdls_sta->hwaddr, ETH_ALEN);
++		issue_tdls_setup_req(ptdls_sta->padapter, &txmgmt, _FALSE);
++	}
++
++	_set_timer(&ptdls_sta->TPK_timer, ONE_SEC);
++}
++
++#ifdef CONFIG_TDLS_CH_SW
++void _tdls_ch_switch_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++	_adapter *padapter = ptdls_sta->padapter;
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++
++	rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_END_TO_BASE_CHNL);
++	RTW_INFO("[TDLS] %s, can't get traffic from op_ch:%d\n", __func__, rtw_get_oper_ch(padapter));
++}
++
++void _tdls_delay_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++	_adapter *padapter = ptdls_sta->padapter;
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++
++	RTW_INFO("[TDLS] %s, op_ch:%d, tdls_state:0x%08x\n", __func__, rtw_get_oper_ch(padapter), ptdls_sta->tdls_sta_state);
++	pchsw_info->delay_switch_back = _TRUE;
++}
++
++void _tdls_stay_on_base_chnl_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++	_adapter *padapter = ptdls_sta->padapter;
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++
++	if (ptdls_sta != NULL) {
++		issue_tdls_ch_switch_req(padapter, ptdls_sta);
++		pchsw_info->ch_sw_state |= TDLS_WAIT_CH_RSP_STATE;
++	}
++}
++
++void _tdls_ch_switch_monitor_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++	_adapter *padapter = ptdls_sta->padapter;
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++
++	rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_END);
++	RTW_INFO("[TDLS] %s, does not receive ch sw req\n", __func__);
++}
++
++#endif
++
++void _tdls_handshake_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++	_adapter *padapter = ptdls_sta->padapter;
++	struct tdls_txmgmt txmgmt;
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	_rtw_memcpy(txmgmt.peer, ptdls_sta->hwaddr, ETH_ALEN);
++	txmgmt.status_code = _RSON_TDLS_TEAR_UN_RSN_;
++
++	if (ptdls_sta != NULL) {
++		RTW_INFO("[TDLS] Handshake time out\n");
++		if (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE)
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_TEARDOWN_STA);
++		else
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_TEARDOWN_STA_LOCALLY);
++	}
++}
++
++void _tdls_pti_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *ptdls_sta = (struct sta_info *)FunctionContext;
++	_adapter *padapter = ptdls_sta->padapter;
++	struct tdls_txmgmt txmgmt;
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	_rtw_memcpy(txmgmt.peer, ptdls_sta->hwaddr, ETH_ALEN);
++	txmgmt.status_code = _RSON_TDLS_TEAR_TOOFAR_;
++
++	if (ptdls_sta != NULL) {
++		if (ptdls_sta->tdls_sta_state & TDLS_WAIT_PTR_STATE) {
++			RTW_INFO("[TDLS] Doesn't receive PTR from peer dev:"MAC_FMT"; "
++				"Send TDLS Tear Down\n", MAC_ARG(ptdls_sta->hwaddr));
++			issue_tdls_teardown(padapter, &txmgmt, _FALSE);
++		}
++	}
++}
++
++void rtw_init_tdls_timer(_adapter *padapter, struct sta_info *psta)
++{
++	psta->padapter = padapter;
++	_init_timer(&psta->TPK_timer, padapter->pnetdev, _tdls_tpk_timer_hdl, psta);
++#ifdef CONFIG_TDLS_CH_SW
++	_init_timer(&psta->ch_sw_timer, padapter->pnetdev, _tdls_ch_switch_timer_hdl, psta);
++	_init_timer(&psta->delay_timer, padapter->pnetdev, _tdls_delay_timer_hdl, psta);
++	_init_timer(&psta->stay_on_base_chnl_timer, padapter->pnetdev, _tdls_stay_on_base_chnl_timer_hdl, psta);
++	_init_timer(&psta->ch_sw_monitor_timer, padapter->pnetdev, _tdls_ch_switch_monitor_timer_hdl, psta);
++#endif
++	_init_timer(&psta->handshake_timer, padapter->pnetdev, _tdls_handshake_timer_hdl, psta);
++	_init_timer(&psta->pti_timer, padapter->pnetdev, _tdls_pti_timer_hdl, psta);
++}
++
++void rtw_free_tdls_timer(struct sta_info *psta)
++{
++	_cancel_timer_ex(&psta->TPK_timer);
++#ifdef CONFIG_TDLS_CH_SW
++	_cancel_timer_ex(&psta->ch_sw_timer);
++	_cancel_timer_ex(&psta->delay_timer);
++	_cancel_timer_ex(&psta->stay_on_base_chnl_timer);
++	_cancel_timer_ex(&psta->ch_sw_monitor_timer);
++#endif
++	_cancel_timer_ex(&psta->handshake_timer);
++	_cancel_timer_ex(&psta->pti_timer);
++}
++
++u32 update_mask_tdls(_adapter *padapter, struct sta_info *psta)
++{
++	unsigned char sta_band = 0;
++	unsigned int tx_ra_bitmap = 0;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX *pcur_network = (WLAN_BSSID_EX *)&pmlmepriv->cur_network.network;
++
++	rtw_hal_update_sta_rate_mask(padapter, psta);
++	tx_ra_bitmap = psta->ra_mask;
++
++	if (pcur_network->Configuration.DSConfig > 14) {
++		if (tx_ra_bitmap & 0xffff000)
++			sta_band |= WIRELESS_11_5N | WIRELESS_11A;
++		else
++			sta_band |= WIRELESS_11A;
++	} else {
++		if (tx_ra_bitmap & 0xffff000)
++			sta_band |= WIRELESS_11_24N | WIRELESS_11G | WIRELESS_11B;
++		else if (tx_ra_bitmap & 0xff0)
++			sta_band |= WIRELESS_11G | WIRELESS_11B;
++		else
++			sta_band |= WIRELESS_11B;
++	}
++
++	psta->wireless_mode = sta_band;
++
++	psta->raid = rtw_hal_networktype_to_raid(padapter, psta);
++	tx_ra_bitmap |= ((psta->raid << 28) & 0xf0000000);
++	return tx_ra_bitmap;
++}
++
++int rtw_tdls_is_driver_setup(_adapter *padapter)
++{
++	return padapter->tdlsinfo.driver_setup;
++}
++
++const char *rtw_tdls_action_txt(enum TDLS_ACTION_FIELD action)
++{
++	switch (action) {
++	case TDLS_SETUP_REQUEST:
++		return "TDLS_SETUP_REQUEST";
++	case TDLS_SETUP_RESPONSE:
++		return "TDLS_SETUP_RESPONSE";
++	case TDLS_SETUP_CONFIRM:
++		return "TDLS_SETUP_CONFIRM";
++	case TDLS_TEARDOWN:
++		return "TDLS_TEARDOWN";
++	case TDLS_PEER_TRAFFIC_INDICATION:
++		return "TDLS_PEER_TRAFFIC_INDICATION";
++	case TDLS_CHANNEL_SWITCH_REQUEST:
++		return "TDLS_CHANNEL_SWITCH_REQUEST";
++	case TDLS_CHANNEL_SWITCH_RESPONSE:
++		return "TDLS_CHANNEL_SWITCH_RESPONSE";
++	case TDLS_PEER_PSM_REQUEST:
++		return "TDLS_PEER_PSM_REQUEST";
++	case TDLS_PEER_PSM_RESPONSE:
++		return "TDLS_PEER_PSM_RESPONSE";
++	case TDLS_PEER_TRAFFIC_RESPONSE:
++		return "TDLS_PEER_TRAFFIC_RESPONSE";
++	case TDLS_DISCOVERY_REQUEST:
++		return "TDLS_DISCOVERY_REQUEST";
++	case TDLS_DISCOVERY_RESPONSE:
++		return "TDLS_DISCOVERY_RESPONSE";
++	default:
++		return "UNKNOWN";
++	}
++}
++
++#endif /* CONFIG_TDLS */
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_vht.c b/drivers/net/wireless/rtl8812au/core/rtw_vht.c
+new file mode 100644
+index 0000000..b467bea
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_vht.c
+@@ -0,0 +1,870 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_VHT_C
++
++#include <drv_types.h>
++
++#ifdef CONFIG_80211AC_VHT
++/*				20/40/80,	ShortGI,	MCS Rate  */
++const u16 VHT_MCS_DATA_RATE[3][2][30] = {
++	{	{
++			13, 26, 39, 52, 78, 104, 117, 130, 156, 156,
++			26, 52, 78, 104, 156, 208, 234, 260, 312, 312,
++			39, 78, 117, 156, 234, 312, 351, 390, 468, 520
++		},			/* Long GI, 20MHz */
++		{
++			14, 29, 43, 58, 87, 116, 130, 144, 173, 173,
++			29, 58, 87, 116, 173, 231, 260, 289, 347, 347,
++			43,	87, 130, 173, 260, 347, 390,	433,	520, 578
++		}
++	},		/* Short GI, 20MHz */
++	{	{
++			27, 54, 81, 108, 162, 216, 243, 270, 324, 360,
++			54, 108, 162, 216, 324, 432, 486, 540, 648, 720,
++			81, 162, 243, 324, 486, 648, 729, 810, 972, 1080
++		}, 		/* Long GI, 40MHz */
++		{
++			30, 60, 90, 120, 180, 240, 270, 300, 360, 400,
++			60, 120, 180, 240, 360, 480, 540, 600, 720, 800,
++			90, 180, 270, 360, 540, 720, 810, 900, 1080, 1200
++		}
++	},		/* Short GI, 40MHz */
++	{	{
++			59, 117,  176, 234, 351, 468, 527, 585, 702, 780,
++			117, 234, 351, 468, 702, 936, 1053, 1170, 1404, 1560,
++			176, 351, 527, 702, 1053, 1404, 1580, 1755, 2106, 2340
++		},	/* Long GI, 80MHz */
++		{
++			65, 130, 195, 260, 390, 520, 585, 650, 780, 867,
++			130, 260, 390, 520, 780, 1040, 1170, 1300, 1560, 1734,
++			195, 390, 585, 780, 1170, 1560, 1755, 1950, 2340, 2600
++		}
++	}	/* Short GI, 80MHz */
++};
++
++u8	rtw_get_vht_highest_rate(u8 *pvht_mcs_map)
++{
++	u8	i, j;
++	u8	bit_map;
++	u8	vht_mcs_rate = 0;
++
++	for (i = 0; i < 2; i++) {
++		if (pvht_mcs_map[i] != 0xff) {
++			for (j = 0; j < 8; j += 2) {
++				bit_map = (pvht_mcs_map[i] >> j) & 3;
++
++				if (bit_map != 3)
++					vht_mcs_rate = MGN_VHT1SS_MCS7 + 10 * j / 2 + i * 40 + bit_map; /* VHT rate indications begin from 0x90 */
++			}
++		}
++	}
++
++	/* RTW_INFO("HighestVHTMCSRate is %x\n", vht_mcs_rate); */
++	return vht_mcs_rate;
++}
++
++u8	rtw_vht_mcsmap_to_nss(u8 *pvht_mcs_map)
++{
++	u8	i, j;
++	u8	bit_map;
++	u8	nss = 0;
++
++	for (i = 0; i < 2; i++) {
++		if (pvht_mcs_map[i] != 0xff) {
++			for (j = 0; j < 8; j += 2) {
++				bit_map = (pvht_mcs_map[i] >> j) & 3;
++
++				if (bit_map != 3)
++					nss++;
++			}
++		}
++	}
++
++	/* RTW_INFO("%s : %dSS\n", __FUNCTION__, nss); */
++	return nss;
++}
++
++void	rtw_vht_nss_to_mcsmap(u8 nss, u8 *target_mcs_map, u8 *cur_mcs_map)
++{
++	u8	i, j;
++	u8	cur_rate, target_rate;
++
++	for (i = 0; i < 2; i++) {
++		target_mcs_map[i] = 0;
++		for (j = 0; j < 8; j += 2) {
++			cur_rate = (cur_mcs_map[i] >> j) & 3;
++			if (cur_rate == 3) /* 0x3 indicates not supported that num of SS */
++				target_rate = 3;
++			else if (nss <= ((j / 2) + i * 4))
++				target_rate = 3;
++			else
++				target_rate = cur_rate;
++
++			target_mcs_map[i] |= (target_rate << j);
++		}
++	}
++
++	/* RTW_INFO("%s : %dSS\n", __FUNCTION__, nss); */
++}
++
++u16	rtw_vht_mcs_to_data_rate(u8 bw, u8 short_GI, u8 vht_mcs_rate)
++{
++	if (vht_mcs_rate > MGN_VHT3SS_MCS9)
++		vht_mcs_rate = MGN_VHT3SS_MCS9;
++	/* RTW_INFO("bw=%d, short_GI=%d, ((vht_mcs_rate - MGN_VHT1SS_MCS0)&0x3f)=%d\n", bw, short_GI, ((vht_mcs_rate - MGN_VHT1SS_MCS0)&0x3f)); */
++	return VHT_MCS_DATA_RATE[bw][short_GI][((vht_mcs_rate - MGN_VHT1SS_MCS0) & 0x3f)];
++}
++
++void	rtw_vht_use_default_setting(_adapter *padapter)
++{
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv		*pvhtpriv = &pmlmepriv->vhtpriv;
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	BOOLEAN		bHwLDPCSupport = _FALSE, bHwSTBCSupport = _FALSE;
++#ifdef CONFIG_BEAMFORMING
++	BOOLEAN		bHwSupportBeamformer = _FALSE, bHwSupportBeamformee = _FALSE;
++	u8	mu_bfer, mu_bfee;
++#endif /* CONFIG_BEAMFORMING */
++	u8	rf_type = 0;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	pvhtpriv->sgi_80m = TEST_FLAG(pregistrypriv->short_gi, BIT2) ? _TRUE : _FALSE;
++
++	/* LDPC support */
++	rtw_hal_get_def_var(padapter, HAL_DEF_RX_LDPC, (u8 *)&bHwLDPCSupport);
++	CLEAR_FLAGS(pvhtpriv->ldpc_cap);
++	if (bHwLDPCSupport) {
++		if (TEST_FLAG(pregistrypriv->ldpc_cap, BIT0))
++			SET_FLAG(pvhtpriv->ldpc_cap, LDPC_VHT_ENABLE_RX);
++	}
++	rtw_hal_get_def_var(padapter, HAL_DEF_TX_LDPC, (u8 *)&bHwLDPCSupport);
++	if (bHwLDPCSupport) {
++		if (TEST_FLAG(pregistrypriv->ldpc_cap, BIT1))
++			SET_FLAG(pvhtpriv->ldpc_cap, LDPC_VHT_ENABLE_TX);
++	}
++	if (pvhtpriv->ldpc_cap)
++		RTW_INFO("[VHT] Support LDPC = 0x%02X\n", pvhtpriv->ldpc_cap);
++
++	/* STBC */
++	rtw_hal_get_def_var(padapter, HAL_DEF_TX_STBC, (u8 *)&bHwSTBCSupport);
++	CLEAR_FLAGS(pvhtpriv->stbc_cap);
++	if (bHwSTBCSupport) {
++		if (TEST_FLAG(pregistrypriv->stbc_cap, BIT1))
++			SET_FLAG(pvhtpriv->stbc_cap, STBC_VHT_ENABLE_TX);
++	}
++	rtw_hal_get_def_var(padapter, HAL_DEF_RX_STBC, (u8 *)&bHwSTBCSupport);
++	if (bHwSTBCSupport) {
++		if (TEST_FLAG(pregistrypriv->stbc_cap, BIT0))
++			SET_FLAG(pvhtpriv->stbc_cap, STBC_VHT_ENABLE_RX);
++	}
++	if (pvhtpriv->stbc_cap)
++		RTW_INFO("[VHT] Support STBC = 0x%02X\n", pvhtpriv->stbc_cap);
++
++	/* Beamforming setting */
++	CLEAR_FLAGS(pvhtpriv->beamform_cap);
++#ifdef CONFIG_BEAMFORMING
++	rtw_hal_get_def_var(padapter, HAL_DEF_EXPLICIT_BEAMFORMER, (u8 *)&bHwSupportBeamformer);
++	rtw_hal_get_def_var(padapter, HAL_DEF_EXPLICIT_BEAMFORMEE, (u8 *)&bHwSupportBeamformee);
++	mu_bfer = _FALSE;
++	mu_bfee = _FALSE;
++	rtw_hal_get_def_var(padapter, HAL_DEF_VHT_MU_BEAMFORMER, &mu_bfer);
++	rtw_hal_get_def_var(padapter, HAL_DEF_VHT_MU_BEAMFORMEE, &mu_bfee);
++	if (TEST_FLAG(pregistrypriv->beamform_cap, BIT0) && bHwSupportBeamformer) {
++#ifdef CONFIG_CONCURRENT_MODE
++		if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) {
++			SET_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE);
++			RTW_INFO("[VHT] CONCURRENT AP Support Beamformer\n");
++			if (TEST_FLAG(pregistrypriv->beamform_cap, BIT(2))
++			    && (_TRUE == mu_bfer)) {
++				SET_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_MU_MIMO_AP_ENABLE);
++				RTW_INFO("[VHT] Support MU-MIMO AP\n");
++			}
++		} else
++			RTW_INFO("[VHT] CONCURRENT not AP ;not allow  Support Beamformer\n");
++#else
++		SET_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE);
++		RTW_INFO("[VHT] Support Beamformer\n");
++		if (TEST_FLAG(pregistrypriv->beamform_cap, BIT(2))
++		    && (_TRUE == mu_bfer)
++		    && ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE)) {
++			SET_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_MU_MIMO_AP_ENABLE);
++			RTW_INFO("[VHT] Support MU-MIMO AP\n");
++		}
++#endif
++	}
++	if (TEST_FLAG(pregistrypriv->beamform_cap, BIT1) && bHwSupportBeamformee) {
++		SET_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE);
++		RTW_INFO("[VHT] Support Beamformee\n");
++		if (TEST_FLAG(pregistrypriv->beamform_cap, BIT(3))
++		    && (_TRUE == mu_bfee)
++		    && ((pmlmeinfo->state & 0x03) != WIFI_FW_AP_STATE)) {
++			SET_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_MU_MIMO_STA_ENABLE);
++			RTW_INFO("[VHT] Support MU-MIMO STA\n");
++		}
++	}
++#endif /* CONFIG_BEAMFORMING */
++
++	pvhtpriv->ampdu_len = pregistrypriv->ampdu_factor;
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++	if (rf_type == RF_3T3R)
++		pvhtpriv->vht_mcs_map[0] = 0xea;	/* support 1SS MCS 0~9 2SS MCS 0~9 3SS MCS 0~9 */
++	else if (rf_type == RF_2T2R)
++		pvhtpriv->vht_mcs_map[0] = 0xfa;	/* support 1SS MCS 0~9 2SS MCS 0~9 */
++	else
++		pvhtpriv->vht_mcs_map[0] = 0xfe;	/* Only support 1SS MCS 0~9; */
++	pvhtpriv->vht_mcs_map[1] = 0xff;
++
++	if (pregistrypriv->vht_rate_sel == 1) {
++		pvhtpriv->vht_mcs_map[0] = 0xfc;	/* support 1SS MCS 0~7 */
++	} else if (pregistrypriv->vht_rate_sel == 2) {
++		pvhtpriv->vht_mcs_map[0] = 0xfd;	/* Support 1SS MCS 0~8 */
++	} else if (pregistrypriv->vht_rate_sel == 3) {
++		pvhtpriv->vht_mcs_map[0] = 0xfe;	/* Support 1SS MCS 0~9 */
++	} else if (pregistrypriv->vht_rate_sel == 4) {
++		pvhtpriv->vht_mcs_map[0] = 0xf0;	/* support 1SS MCS 0~7 2SS MCS 0~7 */
++	} else if (pregistrypriv->vht_rate_sel == 5) {
++		pvhtpriv->vht_mcs_map[0] = 0xf5;	/* support 1SS MCS 0~8 2SS MCS 0~8 */
++	} else if (pregistrypriv->vht_rate_sel == 6) {
++		pvhtpriv->vht_mcs_map[0] = 0xfa;	/* support 1SS MCS 0~9 2SS MCS 0~9 */
++	} else if (pregistrypriv->vht_rate_sel == 7) {
++		pvhtpriv->vht_mcs_map[0] = 0xf8;	/* support 1SS MCS 0-7 2SS MCS 0~9 */
++	} else if (pregistrypriv->vht_rate_sel == 8) {
++		pvhtpriv->vht_mcs_map[0] = 0xf9;	/* support 1SS MCS 0-8 2SS MCS 0~9 */
++	} else if (pregistrypriv->vht_rate_sel == 9) {
++		pvhtpriv->vht_mcs_map[0] = 0xf4;	/* support 1SS MCS 0-7 2SS MCS 0~8 */
++	}
++
++	pvhtpriv->vht_highest_rate = rtw_get_vht_highest_rate(pvhtpriv->vht_mcs_map);
++}
++
++u64	rtw_vht_rate_to_bitmap(u8 *pVHTRate)
++{
++
++	u8	i, j , tmpRate;
++	u64	RateBitmap = 0;
++	u8 Bits_3ss = 6;
++
++	for (i = j = 0; i < Bits_3ss; i += 2, j += 10) {
++		/* every two bits means single sptial stream */
++		tmpRate = (pVHTRate[0] >> i) & 3;
++
++		switch (tmpRate) {
++		case 2:
++			RateBitmap = RateBitmap | (0x03ff << j);
++			break;
++		case 1:
++			RateBitmap = RateBitmap | (0x01ff << j);
++			break;
++
++		case 0:
++			RateBitmap = RateBitmap | (0x00ff << j);
++			break;
++
++		default:
++			break;
++		}
++	}
++	RTW_INFO("RateBitmap=%016llx , pVHTRate[0]=%02x, pVHTRate[1]=%02x\n", RateBitmap, pVHTRate[0], pVHTRate[1]);
++	return RateBitmap;
++}
++
++void	update_sta_vht_info_apmode(_adapter *padapter, PVOID sta)
++{
++	struct sta_info	*psta = (struct sta_info *)sta;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct vht_priv	*pvhtpriv_ap = &pmlmepriv->vhtpriv;
++	struct vht_priv	*pvhtpriv_sta = &psta->vhtpriv;
++	struct ht_priv		*phtpriv_sta = &psta->htpriv;
++	u8	cur_ldpc_cap = 0, cur_stbc_cap = 0, bw_mode = 0;
++	u16	cur_beamform_cap = 0;
++	u8	*pcap_mcs;
++
++	if (pvhtpriv_sta->vht_option == _FALSE)
++		return;
++
++	bw_mode = GET_VHT_OPERATING_MODE_FIELD_CHNL_WIDTH(&pvhtpriv_sta->vht_op_mode_notify);
++
++	/* if (bw_mode > psta->bw_mode) */
++	psta->bw_mode = bw_mode;
++
++	/* B4 Rx LDPC */
++	if (TEST_FLAG(pvhtpriv_ap->ldpc_cap, LDPC_VHT_ENABLE_TX) &&
++	    GET_VHT_CAPABILITY_ELE_RX_LDPC(pvhtpriv_sta->vht_cap)) {
++		SET_FLAG(cur_ldpc_cap, (LDPC_VHT_ENABLE_TX | LDPC_VHT_CAP_TX));
++		RTW_INFO("Current STA(%d) VHT LDPC = %02X\n", psta->aid, cur_ldpc_cap);
++	}
++	pvhtpriv_sta->ldpc_cap = cur_ldpc_cap;
++
++	if (psta->bw_mode > pmlmeext->cur_bwmode)
++		psta->bw_mode = pmlmeext->cur_bwmode;
++
++	if (psta->bw_mode == CHANNEL_WIDTH_80) {
++		/* B5 Short GI for 80 MHz */
++		pvhtpriv_sta->sgi_80m = (GET_VHT_CAPABILITY_ELE_SHORT_GI80M(pvhtpriv_sta->vht_cap) & pvhtpriv_ap->sgi_80m) ? _TRUE : _FALSE;
++		/* RTW_INFO("Current STA ShortGI80MHz = %d\n", pvhtpriv_sta->sgi_80m); */
++	} else if (psta->bw_mode >= CHANNEL_WIDTH_160) {
++		/* B5 Short GI for 80 MHz */
++		pvhtpriv_sta->sgi_80m = (GET_VHT_CAPABILITY_ELE_SHORT_GI160M(pvhtpriv_sta->vht_cap) & pvhtpriv_ap->sgi_80m) ? _TRUE : _FALSE;
++		/* RTW_INFO("Current STA ShortGI160MHz = %d\n", pvhtpriv_sta->sgi_80m); */
++	}
++
++	/* B8 B9 B10 Rx STBC */
++	if (TEST_FLAG(pvhtpriv_ap->stbc_cap, STBC_VHT_ENABLE_TX) &&
++	    GET_VHT_CAPABILITY_ELE_RX_STBC(pvhtpriv_sta->vht_cap)) {
++		SET_FLAG(cur_stbc_cap, (STBC_VHT_ENABLE_TX | STBC_VHT_CAP_TX));
++		RTW_INFO("Current STA(%d) VHT STBC = %02X\n", psta->aid, cur_stbc_cap);
++	}
++	pvhtpriv_sta->stbc_cap = cur_stbc_cap;
++
++#ifdef CONFIG_BEAMFORMING
++	/* B11 SU Beamformer Capable, the target supports Beamformer and we are Beamformee */
++	if (TEST_FLAG(pvhtpriv_ap->beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE) &&
++	    GET_VHT_CAPABILITY_ELE_SU_BFEE(pvhtpriv_sta->vht_cap)) {
++		SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE);
++		/*Shift to BEAMFORMING_VHT_BEAMFORMER_STS_CAP*/
++		SET_FLAG(cur_beamform_cap, GET_VHT_CAPABILITY_ELE_SU_BFEE_STS_CAP(pvhtpriv_sta->vht_cap) << 8);
++	}
++
++	/* B12 SU Beamformee Capable, the target supports Beamformee and we are Beamformer */
++	if (TEST_FLAG(pvhtpriv_ap->beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE) &&
++	    GET_VHT_CAPABILITY_ELE_SU_BFER(pvhtpriv_sta->vht_cap)) {
++		SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE);
++		/*Shit to BEAMFORMING_VHT_BEAMFORMEE_SOUND_DIM*/
++		SET_FLAG(cur_beamform_cap, GET_VHT_CAPABILITY_ELE_SU_BFER_SOUND_DIM_NUM(pvhtpriv_sta->vht_cap) << 12);
++	}
++	pvhtpriv_sta->beamform_cap = cur_beamform_cap;
++	if (cur_beamform_cap)
++		RTW_INFO("Current STA(%d) VHT Beamforming Setting = %02X\n", psta->aid, cur_beamform_cap);
++#endif
++
++	/* B23 B24 B25 Maximum A-MPDU Length Exponent */
++	pvhtpriv_sta->ampdu_len = GET_VHT_CAPABILITY_ELE_MAX_RXAMPDU_FACTOR(pvhtpriv_sta->vht_cap);
++
++	pcap_mcs = GET_VHT_CAPABILITY_ELE_RX_MCS(pvhtpriv_sta->vht_cap);
++	_rtw_memcpy(pvhtpriv_sta->vht_mcs_map, pcap_mcs, 2);
++
++	pvhtpriv_sta->vht_highest_rate = rtw_get_vht_highest_rate(pvhtpriv_sta->vht_mcs_map);
++
++}
++
++void	update_hw_vht_param(_adapter *padapter)
++{
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv		*pvhtpriv = &pmlmepriv->vhtpriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8	ht_AMPDU_len;
++
++	ht_AMPDU_len = pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x03;
++
++	if (pvhtpriv->ampdu_len > ht_AMPDU_len)
++		rtw_hal_set_hwreg(padapter, HW_VAR_AMPDU_FACTOR, (u8 *)(&pvhtpriv->ampdu_len));
++}
++
++void VHT_caps_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE)
++{
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv		*pvhtpriv = &pmlmepriv->vhtpriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8	cur_ldpc_cap = 0, cur_stbc_cap = 0, rf_type = RF_1T1R;
++	u16	cur_beamform_cap = 0;
++	u8	*pcap_mcs;
++	u8	vht_mcs[2];
++
++	if (pIE == NULL)
++		return;
++
++	if (pvhtpriv->vht_option == _FALSE)
++		return;
++
++	pmlmeinfo->VHT_enable = 1;
++
++	/* B4 Rx LDPC */
++	if (TEST_FLAG(pvhtpriv->ldpc_cap, LDPC_VHT_ENABLE_TX) &&
++	    GET_VHT_CAPABILITY_ELE_RX_LDPC(pIE->data)) {
++		SET_FLAG(cur_ldpc_cap, (LDPC_VHT_ENABLE_TX | LDPC_VHT_CAP_TX));
++		RTW_INFO("Current VHT LDPC Setting = %02X\n", cur_ldpc_cap);
++	}
++	pvhtpriv->ldpc_cap = cur_ldpc_cap;
++
++	/* B5 Short GI for 80 MHz */
++	pvhtpriv->sgi_80m = (GET_VHT_CAPABILITY_ELE_SHORT_GI80M(pIE->data) & pvhtpriv->sgi_80m) ? _TRUE : _FALSE;
++	/* RTW_INFO("Current ShortGI80MHz = %d\n", pvhtpriv->sgi_80m); */
++
++	/* B8 B9 B10 Rx STBC */
++	if (TEST_FLAG(pvhtpriv->stbc_cap, STBC_VHT_ENABLE_TX) &&
++	    GET_VHT_CAPABILITY_ELE_RX_STBC(pIE->data)) {
++		SET_FLAG(cur_stbc_cap, (STBC_VHT_ENABLE_TX | STBC_VHT_CAP_TX));
++		RTW_INFO("Current VHT STBC Setting = %02X\n", cur_stbc_cap);
++	}
++	pvhtpriv->stbc_cap = cur_stbc_cap;
++#ifdef CONFIG_BEAMFORMING
++#ifdef RTW_BEAMFORMING_VERSION_2
++	/*
++	 * B11 SU Beamformer Capable,
++	 * the target supports Beamformer and we are Beamformee
++	 */
++	if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE)
++	    && GET_VHT_CAPABILITY_ELE_SU_BFER(pIE->data)) {
++		SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE);
++
++		/* Shift to BEAMFORMING_VHT_BEAMFORMEE_STS_CAP */
++		SET_FLAG(cur_beamform_cap, GET_VHT_CAPABILITY_ELE_SU_BFEE_STS_CAP(pIE->data) << 8);
++
++		/*
++		 * B19 MU Beamformer Capable,
++		 * the target supports Beamformer and we are Beamformee
++		 */
++		if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_MU_MIMO_STA_ENABLE)
++		    && GET_VHT_CAPABILITY_ELE_MU_BFER(pIE->data))
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_MU_MIMO_STA_ENABLE);
++	}
++
++	/*
++	 * B12 SU Beamformee Capable,
++	 * the target supports Beamformee and we are Beamformer
++	 */
++	if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE)
++	    && GET_VHT_CAPABILITY_ELE_SU_BFEE(pIE->data)) {
++		SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE);
++
++		/* Shit to BEAMFORMING_VHT_BEAMFORMER_SOUND_DIM */
++		SET_FLAG(cur_beamform_cap, GET_VHT_CAPABILITY_ELE_SU_BFER_SOUND_DIM_NUM(pIE->data) << 12);
++
++		/*
++		 * B20 MU Beamformee Capable,
++		 * the target supports Beamformee and we are Beamformer
++		 */
++		if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_MU_MIMO_AP_ENABLE)
++		    && GET_VHT_CAPABILITY_ELE_MU_BFEE(pIE->data))
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_MU_MIMO_AP_ENABLE);
++	}
++
++	pvhtpriv->beamform_cap = cur_beamform_cap;
++	RTW_INFO("Current VHT Beamforming Setting=0x%04X\n", cur_beamform_cap);
++#else /* !RTW_BEAMFORMING_VERSION_2 */
++	/* B11 SU Beamformer Capable, the target supports Beamformer and we are Beamformee */
++	if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE) &&
++	    GET_VHT_CAPABILITY_ELE_SU_BFEE(pIE->data)) {
++		SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE);
++		/*Shift to BEAMFORMING_VHT_BEAMFORMER_STS_CAP*/
++		SET_FLAG(cur_beamform_cap, GET_VHT_CAPABILITY_ELE_SU_BFEE_STS_CAP(pIE->data) << 8);
++	}
++
++	/* B12 SU Beamformee Capable, the target supports Beamformee and we are Beamformer */
++	if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE) &&
++	    GET_VHT_CAPABILITY_ELE_SU_BFER(pIE->data)) {
++		SET_FLAG(cur_beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE);
++		/*Shit to BEAMFORMING_VHT_BEAMFORMEE_SOUND_DIM*/
++		SET_FLAG(cur_beamform_cap, GET_VHT_CAPABILITY_ELE_SU_BFER_SOUND_DIM_NUM(pIE->data) << 12);
++
++	}
++	pvhtpriv->beamform_cap = cur_beamform_cap;
++	if (cur_beamform_cap)
++		RTW_INFO("Current VHT Beamforming Setting = %02X\n", cur_beamform_cap);
++#endif /* !RTW_BEAMFORMING_VERSION_2 */
++#endif /* CONFIG_BEAMFORMING */
++	/* B23 B24 B25 Maximum A-MPDU Length Exponent */
++	pvhtpriv->ampdu_len = GET_VHT_CAPABILITY_ELE_MAX_RXAMPDU_FACTOR(pIE->data);
++
++	pcap_mcs = GET_VHT_CAPABILITY_ELE_RX_MCS(pIE->data);
++	_rtw_memcpy(vht_mcs, pcap_mcs, 2);
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++	if ((rf_type == RF_1T1R) || (rf_type == RF_1T2R))
++		vht_mcs[0] |= 0xfc;
++	else if (rf_type == RF_2T2R)
++		vht_mcs[0] |= 0xf0;
++	else if (rf_type == RF_3T3R)
++		vht_mcs[0] |= 0xc0;
++
++	_rtw_memcpy(pvhtpriv->vht_mcs_map, vht_mcs, 2);
++
++	pvhtpriv->vht_highest_rate = rtw_get_vht_highest_rate(pvhtpriv->vht_mcs_map);
++}
++
++void VHT_operation_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE)
++{
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv		*pvhtpriv = &pmlmepriv->vhtpriv;
++
++	if (pIE == NULL)
++		return;
++
++	if (pvhtpriv->vht_option == _FALSE)
++		return;
++}
++
++void rtw_process_vht_op_mode_notify(_adapter *padapter, u8 *pframe, PVOID sta)
++{
++	struct sta_info		*psta = (struct sta_info *)sta;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv		*pvhtpriv = &pmlmepriv->vhtpriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct registry_priv *regsty = adapter_to_regsty(padapter);
++	u8	target_bw;
++	u8	target_rxss, current_rxss;
++	u8	update_ra = _FALSE;
++	u8	vht_mcs_map[2] = {};
++
++	if (pvhtpriv->vht_option == _FALSE)
++		return;
++
++	target_bw = GET_VHT_OPERATING_MODE_FIELD_CHNL_WIDTH(pframe);
++	target_rxss = (GET_VHT_OPERATING_MODE_FIELD_RX_NSS(pframe) + 1);
++
++	if (target_bw != psta->bw_mode) {
++		if (hal_is_bw_support(padapter, target_bw)
++		    && REGSTY_IS_BW_5G_SUPPORT(regsty, target_bw)
++		   ) {
++			update_ra = _TRUE;
++			psta->bw_mode = target_bw;
++		}
++	}
++
++	current_rxss = rtw_vht_mcsmap_to_nss(psta->vhtpriv.vht_mcs_map);
++	if (target_rxss != current_rxss) {
++		update_ra = _TRUE;
++
++		rtw_vht_nss_to_mcsmap(target_rxss, vht_mcs_map, psta->vhtpriv.vht_mcs_map);
++		_rtw_memcpy(psta->vhtpriv.vht_mcs_map, vht_mcs_map, 2);
++
++		rtw_hal_update_sta_rate_mask(padapter, psta);
++	}
++
++	if (update_ra)
++		rtw_dm_ra_mask_wk_cmd(padapter, (u8 *)psta);
++}
++
++u32	rtw_build_vht_operation_ie(_adapter *padapter, u8 *pbuf, u8 channel)
++{
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv		*pvhtpriv = &pmlmepriv->vhtpriv;
++	/* struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv; */
++	u8	ChnlWidth, center_freq, bw_mode, rf_type = 0;
++	u32	len = 0;
++	u8	operation[5];
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++	_rtw_memset(operation, 0, 5);
++
++	bw_mode = REGSTY_BW_5G(pregistrypriv); /* TODO: control op bw with other info */
++
++	if (hal_chk_bw_cap(padapter, BW_CAP_80M | BW_CAP_160M)
++	    && REGSTY_BW_5G(pregistrypriv) >= CHANNEL_WIDTH_80
++	   ) {
++		center_freq = rtw_get_center_ch(channel, bw_mode, HAL_PRIME_CHNL_OFFSET_LOWER);
++		ChnlWidth = 1;
++	} else {
++		center_freq = 0;
++		ChnlWidth = 0;
++	}
++
++
++	SET_VHT_OPERATION_ELE_CHL_WIDTH(operation, ChnlWidth);
++	/* center frequency */
++	SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ1(operation, center_freq);/* Todo: need to set correct center channel */
++	SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ2(operation, 0);
++
++	if (padapter->registrypriv.rf_config != RF_MAX_TYPE)
++		rf_type = padapter->registrypriv.rf_config;
++
++	switch (rf_type) {
++	case RF_1T1R:
++		operation[3] = 0xfe;
++		operation[4] = 0xff;
++		break;
++	case RF_1T2R:
++	case RF_2T2R:
++	case RF_2T2R_GREEN:
++		operation[3] = 0xfa;
++		operation[4] = 0xff;
++		break;
++	case RF_2T3R:
++	case RF_2T4R:
++	case RF_3T3R:
++	case RF_3T4R:
++		operation[3] = 0xea;
++		operation[4] = 0xff;
++		break;
++	case RF_4T4R:
++		operation[3] = 0xaa;
++		operation[4] = 0xff;
++		break;
++	default:
++		RTW_INFO("%s, %d, unknown rf type\n", __func__, __LINE__);
++	}
++
++	rtw_set_ie(pbuf, EID_VHTOperation, 5, operation, &len);
++
++	return len;
++}
++
++u32	rtw_build_vht_op_mode_notify_ie(_adapter *padapter, u8 *pbuf, u8 bw)
++{
++	/* struct registry_priv *pregistrypriv = &padapter->registrypriv; */
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv	*pvhtpriv = &pmlmepriv->vhtpriv;
++	u32	len = 0;
++	u8	opmode = 0, rf_type = 0;
++	u8	chnl_width, rx_nss;
++
++	chnl_width = bw;
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++	if (rf_type == RF_3T3R)
++		rx_nss = 3;
++	else if (rf_type == RF_2T2R)
++		rx_nss = 2;
++	else
++		rx_nss = 1;
++
++	SET_VHT_OPERATING_MODE_FIELD_CHNL_WIDTH(&opmode, chnl_width);
++	SET_VHT_OPERATING_MODE_FIELD_RX_NSS(&opmode, (rx_nss - 1));
++	SET_VHT_OPERATING_MODE_FIELD_RX_NSS_TYPE(&opmode, 0); /* Todo */
++
++	pvhtpriv->vht_op_mode_notify = opmode;
++
++	pbuf = rtw_set_ie(pbuf, EID_OpModeNotification, 1, &opmode, &len);
++
++	return len;
++}
++
++u32	rtw_build_vht_cap_ie(_adapter *padapter, u8 *pbuf)
++{
++	u8	bw, rf_type, rf_num, rx_stbc_nss = 0;
++	u16	HighestRate;
++	u8	*pcap, *pcap_mcs;
++	u32	len = 0;
++	u32 rx_packet_offset, max_recvbuf_sz;
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv	*pvhtpriv = &pmlmepriv->vhtpriv;
++
++	pcap = pvhtpriv->vht_cap;
++	_rtw_memset(pcap, 0, 32);
++
++	/* B0 B1 Maximum MPDU Length */
++	rtw_hal_get_def_var(padapter, HAL_DEF_RX_PACKET_OFFSET, &rx_packet_offset);
++	rtw_hal_get_def_var(padapter, HAL_DEF_MAX_RECVBUF_SZ, &max_recvbuf_sz);
++
++	RTW_DBG("%s, line%d, Available RX buf size = %d bytes\n.", __FUNCTION__, __LINE__, max_recvbuf_sz - rx_packet_offset);
++
++	if ((max_recvbuf_sz - rx_packet_offset) >= 11454) {
++		SET_VHT_CAPABILITY_ELE_MAX_MPDU_LENGTH(pcap, 2);
++		RTW_INFO("%s, line%d, Set MAX MPDU len = 11454 bytes\n.", __FUNCTION__, __LINE__);
++	} else if ((max_recvbuf_sz - rx_packet_offset) >= 7991) {
++		SET_VHT_CAPABILITY_ELE_MAX_MPDU_LENGTH(pcap, 1);
++		RTW_INFO("%s, line%d, Set MAX MPDU len = 7991 bytes\n.", __FUNCTION__, __LINE__);
++	} else if ((max_recvbuf_sz - rx_packet_offset) >= 3895) {
++		SET_VHT_CAPABILITY_ELE_MAX_MPDU_LENGTH(pcap, 0);
++		RTW_INFO("%s, line%d, Set MAX MPDU len = 3895 bytes\n.", __FUNCTION__, __LINE__);
++	} else
++		RTW_ERR("%s, line%d, Error!! Available RX buf size < 3895 bytes\n.", __FUNCTION__, __LINE__);
++
++	/* B2 B3 Supported Channel Width Set */
++	if (hal_chk_bw_cap(padapter, BW_CAP_160M) && REGSTY_IS_BW_5G_SUPPORT(pregistrypriv, CHANNEL_WIDTH_160)) {
++		if (hal_chk_bw_cap(padapter, BW_CAP_80_80M) && REGSTY_IS_BW_5G_SUPPORT(pregistrypriv, CHANNEL_WIDTH_80_80))
++			SET_VHT_CAPABILITY_ELE_CHL_WIDTH(pcap, 2);
++		else
++			SET_VHT_CAPABILITY_ELE_CHL_WIDTH(pcap, 1);
++	} else
++		SET_VHT_CAPABILITY_ELE_CHL_WIDTH(pcap, 0);
++
++	/* B4 Rx LDPC */
++	if (TEST_FLAG(pvhtpriv->ldpc_cap, LDPC_VHT_ENABLE_RX)) {
++		SET_VHT_CAPABILITY_ELE_RX_LDPC(pcap, 1);
++		RTW_INFO("[VHT] Declare supporting RX LDPC\n");
++	}
++
++	/* B5 ShortGI for 80MHz */
++	SET_VHT_CAPABILITY_ELE_SHORT_GI80M(pcap, pvhtpriv->sgi_80m ? 1 : 0); /* We can receive Short GI of 80M */
++	if (pvhtpriv->sgi_80m)
++		RTW_INFO("[VHT] Declare supporting SGI 80MHz\n");
++
++	/* B6 ShortGI for 160MHz */
++	/* SET_VHT_CAPABILITY_ELE_SHORT_GI160M(pcap, pvhtpriv->sgi_80m? 1 : 0); */
++
++	/* B7 Tx STBC */
++	if (TEST_FLAG(pvhtpriv->stbc_cap, STBC_VHT_ENABLE_TX)) {
++		SET_VHT_CAPABILITY_ELE_TX_STBC(pcap, 1);
++		RTW_INFO("[VHT] Declare supporting TX STBC\n");
++	}
++
++	/* B8 B9 B10 Rx STBC */
++	if (TEST_FLAG(pvhtpriv->stbc_cap, STBC_VHT_ENABLE_RX)) {
++		rtw_hal_get_def_var(padapter, HAL_DEF_RX_STBC, (u8 *)(&rx_stbc_nss));
++
++		SET_VHT_CAPABILITY_ELE_RX_STBC(pcap, rx_stbc_nss);
++		RTW_INFO("[VHT] Declare supporting RX STBC = %d\n", rx_stbc_nss);
++	}
++
++	/* B11 SU Beamformer Capable */
++	if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMER_ENABLE)) {
++		SET_VHT_CAPABILITY_ELE_SU_BFER(pcap, 1);
++		RTW_INFO("[VHT] Declare supporting SU Bfer\n");
++		/* B16 17 18 Number of Sounding Dimensions */
++		rtw_hal_get_def_var(padapter, HAL_DEF_BEAMFORMER_CAP, (u8 *)&rf_num);
++		SET_VHT_CAPABILITY_ELE_SOUNDING_DIMENSIONS(pcap, rf_num);
++		/* B19 MU Beamformer Capable */
++		if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_MU_MIMO_AP_ENABLE)) {
++			SET_VHT_CAPABILITY_ELE_MU_BFER(pcap, 1);
++			RTW_INFO("[VHT] Declare supporting MU Bfer\n");
++		}
++	}
++
++	/* B12 SU Beamformee Capable */
++	if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_BEAMFORMEE_ENABLE)) {
++		SET_VHT_CAPABILITY_ELE_SU_BFEE(pcap, 1);
++		RTW_INFO("[VHT] Declare supporting SU Bfee\n");
++		/* B13 14 15 Compressed Steering Number of Beamformer Antennas Supported */
++		rtw_hal_get_def_var(padapter, HAL_DEF_BEAMFORMEE_CAP, (u8 *)&rf_num);
++		SET_VHT_CAPABILITY_ELE_BFER_ANT_SUPP(pcap, rf_num);
++		/* B20 SU Beamformee Capable */
++		if (TEST_FLAG(pvhtpriv->beamform_cap, BEAMFORMING_VHT_MU_MIMO_STA_ENABLE)) {
++			SET_VHT_CAPABILITY_ELE_MU_BFEE(pcap, 1);
++			RTW_INFO("[VHT] Declare supporting MU Bfee\n");
++		}
++	}
++
++	/* B21 VHT TXOP PS */
++	SET_VHT_CAPABILITY_ELE_TXOP_PS(pcap, 0);
++	/* B22 +HTC-VHT Capable */
++	SET_VHT_CAPABILITY_ELE_HTC_VHT(pcap, 1);
++	/* B23 24 25 Maximum A-MPDU Length Exponent */
++	if (pregistrypriv->ampdu_factor != 0xFE)
++		SET_VHT_CAPABILITY_ELE_MAX_RXAMPDU_FACTOR(pcap, pregistrypriv->ampdu_factor);
++	else
++		SET_VHT_CAPABILITY_ELE_MAX_RXAMPDU_FACTOR(pcap, 7);
++	/* B26 27 VHT Link Adaptation Capable */
++	SET_VHT_CAPABILITY_ELE_LINK_ADAPTION(pcap, 0);
++
++	pcap_mcs = GET_VHT_CAPABILITY_ELE_RX_MCS(pcap);
++	_rtw_memcpy(pcap_mcs, pvhtpriv->vht_mcs_map, 2);
++
++	pcap_mcs = GET_VHT_CAPABILITY_ELE_TX_MCS(pcap);
++	_rtw_memcpy(pcap_mcs, pvhtpriv->vht_mcs_map, 2);
++
++	/* find the largest bw supported by both registry and hal */
++	bw = hal_largest_bw(padapter, REGSTY_BW_5G(pregistrypriv));
++
++	HighestRate = VHT_MCS_DATA_RATE[bw][pvhtpriv->sgi_80m][((pvhtpriv->vht_highest_rate - MGN_VHT1SS_MCS0) & 0x3f)];
++	HighestRate = (HighestRate + 1) >> 1;
++
++	SET_VHT_CAPABILITY_ELE_MCS_RX_HIGHEST_RATE(pcap, HighestRate); /* indicate we support highest rx rate is 600Mbps. */
++	SET_VHT_CAPABILITY_ELE_MCS_TX_HIGHEST_RATE(pcap, HighestRate); /* indicate we support highest tx rate is 600Mbps. */
++
++	pbuf = rtw_set_ie(pbuf, EID_VHTCapability, 12, pcap, &len);
++
++	return len;
++}
++
++u32 rtw_restructure_vht_ie(_adapter *padapter, u8 *in_ie, u8 *out_ie, uint in_len, uint *pout_len)
++{
++	u32	ielen = 0, out_len = 0;
++	u8	cap_len = 0, notify_len = 0, notify_bw = 0, operation_bw = 0, supported_chnl_width = 0;
++	u8	*p, *pframe;
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv	*pvhtpriv = &pmlmepriv->vhtpriv;
++
++	rtw_vht_use_default_setting(padapter);
++
++	p = rtw_get_ie(in_ie + 12, EID_VHTCapability, &ielen, in_len - 12);
++	if (p && ielen > 0) {
++		supported_chnl_width = GET_VHT_CAPABILITY_ELE_CHL_WIDTH(p + 2);
++
++		/* VHT Capabilities element */
++		cap_len = rtw_build_vht_cap_ie(padapter, out_ie + *pout_len);
++		*pout_len += cap_len;
++
++		/* Get HT BW */
++		p = rtw_get_ie(in_ie + 12, _HT_EXTRA_INFO_IE_, &ielen, in_len - 12);
++		if (p && ielen > 0) {
++			struct HT_info_element *pht_info = (struct HT_info_element *)(p + 2);
++			if (pht_info->infos[0] & BIT(2))
++				operation_bw = CHANNEL_WIDTH_40;
++			else
++				operation_bw = CHANNEL_WIDTH_20;
++		}
++
++		/* VHT Operation element */
++		p = rtw_get_ie(in_ie + 12, EID_VHTOperation, &ielen, in_len - 12);
++		if (p && ielen > 0) {
++			out_len = *pout_len;
++			if (GET_VHT_OPERATION_ELE_CHL_WIDTH(p + 2) >= 1) {
++				if (supported_chnl_width == 2)
++					operation_bw = CHANNEL_WIDTH_80_80;
++				else if (supported_chnl_width == 1)
++					operation_bw = CHANNEL_WIDTH_160;
++				else
++					operation_bw = CHANNEL_WIDTH_80;
++			}
++			pframe = rtw_set_ie(out_ie + out_len, EID_VHTOperation, ielen, p + 2 , pout_len);
++		}
++
++		/* find the largest bw supported by both registry and hal */
++		notify_bw = hal_largest_bw(padapter, REGSTY_BW_5G(pregistrypriv));
++
++		if (notify_bw > operation_bw)
++			notify_bw = operation_bw;
++
++		/* Operating Mode Notification element */
++		notify_len = rtw_build_vht_op_mode_notify_ie(padapter, out_ie + *pout_len, notify_bw);
++		*pout_len += notify_len;
++
++		pvhtpriv->vht_option = _TRUE;
++	}
++
++	return pvhtpriv->vht_option;
++
++}
++
++void VHTOnAssocRsp(_adapter *padapter)
++{
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct vht_priv		*pvhtpriv = &pmlmepriv->vhtpriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8	ht_AMPDU_len;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	if (!pmlmeinfo->HT_enable)
++		return;
++
++	if (!pmlmeinfo->VHT_enable)
++		return;
++
++	ht_AMPDU_len = pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x03;
++
++	if (pvhtpriv->ampdu_len > ht_AMPDU_len)
++		rtw_hal_set_hwreg(padapter, HW_VAR_AMPDU_FACTOR, (u8 *)(&pvhtpriv->ampdu_len));
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_AMPDU_MAX_TIME, (u8 *)(&pvhtpriv->vht_highest_rate));
++}
++
++#endif /* CONFIG_80211AC_VHT */
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_wapi.c b/drivers/net/wireless/rtl8812au/core/rtw_wapi.c
+new file mode 100644
+index 0000000..5b84f77
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_wapi.c
+@@ -0,0 +1,1240 @@
++#ifdef CONFIG_WAPI_SUPPORT
++
++#include <linux/unistd.h>
++#include <linux/etherdevice.h>
++#include <drv_types.h>
++#include <rtw_wapi.h>
++
++
++u32 wapi_debug_component =
++	/*				WAPI_INIT	|
++	 *				WAPI_API	|
++	 *				WAPI_TX	|
++	 *				WAPI_RX	| */
++	WAPI_ERR ; /* always open err flags on */
++
++void WapiFreeAllStaInfo(_adapter *padapter)
++{
++	PRT_WAPI_T				pWapiInfo;
++	PRT_WAPI_STA_INFO		pWapiStaInfo;
++	PRT_WAPI_BKID			pWapiBkid;
++
++	WAPI_TRACE(WAPI_INIT, "===========> %s\n", __FUNCTION__);
++	pWapiInfo = &padapter->wapiInfo;
++
++	/* Pust to Idle List */
++	rtw_wapi_return_all_sta_info(padapter);
++
++	/* Sta Info List */
++	while (!list_empty(&(pWapiInfo->wapiSTAIdleList))) {
++		pWapiStaInfo = (PRT_WAPI_STA_INFO)list_entry(pWapiInfo->wapiSTAIdleList.next, RT_WAPI_STA_INFO, list);
++		list_del_init(&pWapiStaInfo->list);
++	}
++
++	/* BKID List */
++	while (!list_empty(&(pWapiInfo->wapiBKIDIdleList))) {
++		pWapiBkid = (PRT_WAPI_BKID)list_entry(pWapiInfo->wapiBKIDIdleList.next, RT_WAPI_BKID, list);
++		list_del_init(&pWapiBkid->list);
++	}
++	WAPI_TRACE(WAPI_INIT, "<=========== %s\n", __FUNCTION__);
++	return;
++}
++
++void WapiSetIE(_adapter *padapter)
++{
++	PRT_WAPI_T		pWapiInfo = &(padapter->wapiInfo);
++	/* PRT_WAPI_BKID	pWapiBkid; */
++	u16		protocolVer = 1;
++	u16		akmCnt = 1;
++	u16		suiteCnt = 1;
++	u16		capability = 0;
++	u8		OUI[3];
++
++	OUI[0] = 0x00;
++	OUI[1] = 0x14;
++	OUI[2] = 0x72;
++
++	pWapiInfo->wapiIELength = 0;
++	/* protocol version */
++	memcpy(pWapiInfo->wapiIE + pWapiInfo->wapiIELength, &protocolVer, 2);
++	pWapiInfo->wapiIELength += 2;
++	/* akm */
++	memcpy(pWapiInfo->wapiIE + pWapiInfo->wapiIELength, &akmCnt, 2);
++	pWapiInfo->wapiIELength += 2;
++
++	if (pWapiInfo->bWapiPSK) {
++		memcpy(pWapiInfo->wapiIE + pWapiInfo->wapiIELength, OUI, 3);
++		pWapiInfo->wapiIELength += 3;
++		pWapiInfo->wapiIE[pWapiInfo->wapiIELength] = 0x2;
++		pWapiInfo->wapiIELength += 1;
++	} else {
++		memcpy(pWapiInfo->wapiIE + pWapiInfo->wapiIELength, OUI, 3);
++		pWapiInfo->wapiIELength += 3;
++		pWapiInfo->wapiIE[pWapiInfo->wapiIELength] = 0x1;
++		pWapiInfo->wapiIELength += 1;
++	}
++
++	/* usk */
++	memcpy(pWapiInfo->wapiIE + pWapiInfo->wapiIELength, &suiteCnt, 2);
++	pWapiInfo->wapiIELength += 2;
++	memcpy(pWapiInfo->wapiIE + pWapiInfo->wapiIELength, OUI, 3);
++	pWapiInfo->wapiIELength += 3;
++	pWapiInfo->wapiIE[pWapiInfo->wapiIELength] = 0x1;
++	pWapiInfo->wapiIELength += 1;
++
++	/* msk */
++	memcpy(pWapiInfo->wapiIE + pWapiInfo->wapiIELength, OUI, 3);
++	pWapiInfo->wapiIELength += 3;
++	pWapiInfo->wapiIE[pWapiInfo->wapiIELength] = 0x1;
++	pWapiInfo->wapiIELength += 1;
++
++	/* Capbility */
++	memcpy(pWapiInfo->wapiIE + pWapiInfo->wapiIELength, &capability, 2);
++	pWapiInfo->wapiIELength += 2;
++}
++
++
++/*  PN1 > PN2, return 1,
++ *  else return 0.
++ */
++u32 WapiComparePN(u8 *PN1, u8 *PN2)
++{
++	char i;
++
++	if ((NULL == PN1) || (NULL == PN2))
++		return 1;
++
++	/* overflow case */
++	if ((PN2[15] - PN1[15]) & 0x80)
++		return 1;
++
++	for (i = 16; i > 0; i--) {
++		if (PN1[i - 1] == PN2[i - 1])
++			continue;
++		else if (PN1[i - 1] > PN2[i - 1])
++			return 1;
++		else
++			return 0;
++	}
++
++	return 0;
++}
++
++u8
++WapiGetEntryForCamWrite(_adapter *padapter, u8 *pMacAddr, u8 KID, BOOLEAN IsMsk)
++{
++	PRT_WAPI_T		pWapiInfo = NULL;
++	/* PRT_WAPI_CAM_ENTRY	pEntry=NULL; */
++	u8 i = 0;
++	u8 ret = 0xff;
++
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++
++	pWapiInfo =  &padapter->wapiInfo;
++
++	/* exist? */
++	for (i = 0; i < WAPI_CAM_ENTRY_NUM; i++) {
++		if (pWapiInfo->wapiCamEntry[i].IsUsed
++		    && (_rtw_memcmp(pMacAddr, pWapiInfo->wapiCamEntry[i].PeerMacAddr, ETH_ALEN) == _TRUE)
++		    && pWapiInfo->wapiCamEntry[i].keyidx == KID
++		    && pWapiInfo->wapiCamEntry[i].type == IsMsk) {
++			ret = pWapiInfo->wapiCamEntry[i].entry_idx; /* cover it */
++			break;
++		}
++	}
++
++	if (i == WAPI_CAM_ENTRY_NUM) { /* not found */
++		for (i = 0; i < WAPI_CAM_ENTRY_NUM; i++) {
++			if (pWapiInfo->wapiCamEntry[i].IsUsed == 0) {
++				pWapiInfo->wapiCamEntry[i].IsUsed = 1;
++				pWapiInfo->wapiCamEntry[i].type = IsMsk;
++				pWapiInfo->wapiCamEntry[i].keyidx = KID;
++				_rtw_memcpy(pWapiInfo->wapiCamEntry[i].PeerMacAddr, pMacAddr, ETH_ALEN);
++				ret = pWapiInfo->wapiCamEntry[i].entry_idx;
++				break;
++			}
++		}
++	}
++
++	WAPI_TRACE(WAPI_API, "<========== %s\n", __FUNCTION__);
++	return ret;
++
++	/*
++		if(RTIsListEmpty(&pWapiInfo->wapiCamIdleList)) {
++			return 0;
++		}
++
++		pEntry = (PRT_WAPI_CAM_ENTRY)RTRemoveHeadList(&pWapiInfo->wapiCamIdleList);
++		RTInsertTailList(&pWapiInfo->wapiCamUsedList, &pEntry->list);
++
++
++		return pEntry->entry_idx;*/
++}
++
++u8 WapiGetEntryForCamClear(_adapter *padapter, u8 *pPeerMac, u8 keyid, u8 IsMsk)
++{
++	PRT_WAPI_T		pWapiInfo = NULL;
++	u8		i = 0;
++
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++
++	pWapiInfo =  &padapter->wapiInfo;
++
++	for (i = 0; i < WAPI_CAM_ENTRY_NUM; i++) {
++		if (pWapiInfo->wapiCamEntry[i].IsUsed
++		    && (_rtw_memcmp(pPeerMac, pWapiInfo->wapiCamEntry[i].PeerMacAddr, ETH_ALEN) == _TRUE)
++		    && pWapiInfo->wapiCamEntry[i].keyidx == keyid
++		    && pWapiInfo->wapiCamEntry[i].type == IsMsk) {
++			pWapiInfo->wapiCamEntry[i].IsUsed = 0;
++			pWapiInfo->wapiCamEntry[i].keyidx = 2;
++			_rtw_memset(pWapiInfo->wapiCamEntry[i].PeerMacAddr, 0, ETH_ALEN);
++
++			WAPI_TRACE(WAPI_API, "<========== %s\n", __FUNCTION__);
++			return pWapiInfo->wapiCamEntry[i].entry_idx;
++		}
++	}
++
++	WAPI_TRACE(WAPI_API, "<====WapiGetReturnCamEntry(), No this cam entry.\n");
++	return 0xff;
++	/*
++		if(RTIsListEmpty(&pWapiInfo->wapiCamUsedList)) {
++			return FALSE;
++		}
++
++		pList = &pWapiInfo->wapiCamUsedList;
++		while(pList->Flink != &pWapiInfo->wapiCamUsedList)
++		{
++			pEntry = (PRT_WAPI_CAM_ENTRY)pList->Flink;
++			if(PlatformCompareMemory(pPeerMac,pEntry->PeerMacAddr, ETHER_ADDRLEN)== 0
++				&& keyid == pEntry->keyidx)
++			{
++				RTRemoveEntryList(pList);
++				RTInsertHeadList(&pWapiInfo->wapiCamIdleList, pList);
++				return pEntry->entry_idx;
++			}
++			pList = pList->Flink;
++		}
++
++		return 0;
++	*/
++}
++
++void
++WapiResetAllCamEntry(_adapter *padapter)
++{
++	PRT_WAPI_T		pWapiInfo;
++	int				i;
++
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++
++	pWapiInfo =  &padapter->wapiInfo;
++
++	for (i = 0; i < WAPI_CAM_ENTRY_NUM; i++) {
++		_rtw_memset(pWapiInfo->wapiCamEntry[i].PeerMacAddr, 0, ETH_ALEN);
++		pWapiInfo->wapiCamEntry[i].IsUsed = 0;
++		pWapiInfo->wapiCamEntry[i].keyidx = 2; /* invalid */
++		pWapiInfo->wapiCamEntry[i].entry_idx = 4 + i * 2;
++	}
++
++	WAPI_TRACE(WAPI_API, "<========== %s\n", __FUNCTION__);
++
++	return;
++}
++
++u8 WapiWriteOneCamEntry(
++	_adapter	*padapter,
++	u8			*pMacAddr,
++	u8			KeyId,
++	u8			EntryId,
++	u8			EncAlg,
++	u8			bGroupKey,
++	u8			*pKey
++)
++{
++	u8 retVal = 0;
++	u16 usConfig = 0;
++
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++
++	if (EntryId >= 32) {
++		WAPI_TRACE(WAPI_ERR, "<=== CamAddOneEntry(): ulKeyId exceed!\n");
++		return retVal;
++	}
++
++	usConfig = usConfig | (0x01 << 15) | ((u16)(EncAlg) << 2) | (KeyId);
++
++	if (EncAlg == _SMS4_) {
++		if (bGroupKey == 1)
++			usConfig |= (0x01 << 6);
++		if ((EntryId % 2) == 1) /* ==0 sec key; == 1mic key */
++			usConfig |= (0x01 << 5);
++	}
++
++	write_cam(padapter, EntryId, usConfig, pMacAddr, pKey);
++
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++	return 1;
++}
++
++void rtw_wapi_init(_adapter *padapter)
++{
++	PRT_WAPI_T		pWapiInfo;
++	int				i;
++
++	WAPI_TRACE(WAPI_INIT, "===========> %s\n", __FUNCTION__);
++	RT_ASSERT_RET(padapter);
++
++	if (!padapter->WapiSupport) {
++		WAPI_TRACE(WAPI_INIT, "<========== %s, WAPI not supported!\n", __FUNCTION__);
++		return;
++	}
++
++	pWapiInfo =  &padapter->wapiInfo;
++	pWapiInfo->bWapiEnable = false;
++
++	/* Init BKID List */
++	INIT_LIST_HEAD(&pWapiInfo->wapiBKIDIdleList);
++	INIT_LIST_HEAD(&pWapiInfo->wapiBKIDStoreList);
++	for (i = 0; i < WAPI_MAX_BKID_NUM; i++)
++		list_add_tail(&pWapiInfo->wapiBKID[i].list, &pWapiInfo->wapiBKIDIdleList);
++
++	/* Init STA List */
++	INIT_LIST_HEAD(&pWapiInfo->wapiSTAIdleList);
++	INIT_LIST_HEAD(&pWapiInfo->wapiSTAUsedList);
++	for (i = 0; i < WAPI_MAX_STAINFO_NUM; i++)
++		list_add_tail(&pWapiInfo->wapiSta[i].list, &pWapiInfo->wapiSTAIdleList);
++
++	for (i = 0; i < WAPI_CAM_ENTRY_NUM; i++) {
++		pWapiInfo->wapiCamEntry[i].IsUsed = 0;
++		pWapiInfo->wapiCamEntry[i].keyidx = 2; /* invalid */
++		pWapiInfo->wapiCamEntry[i].entry_idx = 4 + i * 2;
++	}
++
++	WAPI_TRACE(WAPI_INIT, "<========== %s\n", __FUNCTION__);
++}
++
++void rtw_wapi_free(_adapter *padapter)
++{
++	WAPI_TRACE(WAPI_INIT, "===========> %s\n", __FUNCTION__);
++	RT_ASSERT_RET(padapter);
++
++	if (!padapter->WapiSupport) {
++		WAPI_TRACE(WAPI_INIT, "<========== %s, WAPI not supported!\n", __FUNCTION__);
++		return;
++	}
++
++	WapiFreeAllStaInfo(padapter);
++
++	WAPI_TRACE(WAPI_INIT, "<========== %s\n", __FUNCTION__);
++}
++
++void rtw_wapi_disable_tx(_adapter *padapter)
++{
++	WAPI_TRACE(WAPI_INIT, "===========> %s\n", __FUNCTION__);
++	RT_ASSERT_RET(padapter);
++
++	if (!padapter->WapiSupport) {
++		WAPI_TRACE(WAPI_INIT, "<========== %s, WAPI not supported!\n", __FUNCTION__);
++		return;
++	}
++
++	padapter->wapiInfo.wapiTxMsk.bTxEnable = false;
++	padapter->wapiInfo.wapiTxMsk.bSet = false;
++
++	WAPI_TRACE(WAPI_INIT, "<========== %s\n", __FUNCTION__);
++}
++
++u8 rtw_wapi_is_wai_packet(_adapter *padapter, u8 *pkt_data)
++{
++	PRT_WAPI_T pWapiInfo = &(padapter->wapiInfo);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv   *psecuritypriv = &padapter->securitypriv;
++	PRT_WAPI_STA_INFO pWapiSta = NULL;
++	u8 WaiPkt = 0, *pTaddr, bFind = false;
++	u8 Offset_TypeWAI = 0 ;	/* (mac header len + llc length) */
++
++	WAPI_TRACE(WAPI_TX | WAPI_RX, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!pWapiInfo->bWapiEnable)) {
++		WAPI_TRACE(WAPI_MLME, "<========== %s, WAPI not supported or not enabled!\n", __FUNCTION__);
++		return 0;
++	}
++
++	Offset_TypeWAI = 24 + 6 ;
++
++	/* YJ,add,091103. Data frame may also have skb->data[30]=0x88 and skb->data[31]=0xb4. */
++	if ((pkt_data[1] & 0x40) != 0) {
++		/* RTW_INFO("data is privacy\n"); */
++		return 0;
++	}
++
++	pTaddr = GetAddr2Ptr(pkt_data);
++	if (list_empty(&pWapiInfo->wapiSTAUsedList))
++		bFind = false;
++	else {
++		list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++			if (_rtw_memcmp(pTaddr, pWapiSta->PeerMacAddr, 6) == _TRUE) {
++				bFind = true;
++				break;
++			}
++		}
++	}
++
++	WAPI_TRACE(WAPI_TX | WAPI_RX, "%s: bFind=%d pTaddr="MAC_FMT"\n", __FUNCTION__, bFind, MAC_ARG(pTaddr));
++
++	if (pkt_data[0] == WIFI_QOS_DATA_TYPE)
++		Offset_TypeWAI += 2;
++
++	/* 88b4? */
++	if ((pkt_data[Offset_TypeWAI] == 0x88) && (pkt_data[Offset_TypeWAI + 1] == 0xb4)) {
++		WaiPkt = pkt_data[Offset_TypeWAI + 5];
++
++		psecuritypriv->hw_decrypted = _TRUE;
++	} else
++		WAPI_TRACE(WAPI_TX | WAPI_RX, "%s(): non wai packet\n", __FUNCTION__);
++
++	WAPI_TRACE(WAPI_TX | WAPI_RX, "%s(): Recvd WAI frame. IsWAIPkt(%d)\n", __FUNCTION__, WaiPkt);
++
++	return	WaiPkt;
++}
++
++
++void rtw_wapi_update_info(_adapter *padapter, union recv_frame *precv_frame)
++{
++	PRT_WAPI_T     pWapiInfo = &(padapter->wapiInfo);
++	struct recv_frame_hdr *precv_hdr;
++	u8	*ptr;
++	u8	*pTA;
++	u8	*pRecvPN;
++
++
++	WAPI_TRACE(WAPI_RX, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!pWapiInfo->bWapiEnable)) {
++		WAPI_TRACE(WAPI_RX, "<========== %s, WAPI not supported or not enabled!\n", __FUNCTION__);
++		return;
++	}
++
++	precv_hdr = &precv_frame->u.hdr;
++	ptr = precv_hdr->rx_data;
++
++	if (precv_hdr->attrib.qos == 1)
++		precv_hdr->UserPriority = GetTid(ptr);
++	else
++		precv_hdr->UserPriority = 0;
++
++	pTA = GetAddr2Ptr(ptr);
++	_rtw_memcpy((u8 *)precv_hdr->WapiSrcAddr, pTA, 6);
++	pRecvPN = ptr + precv_hdr->attrib.hdrlen + 2;
++	_rtw_memcpy((u8 *)precv_hdr->WapiTempPN, pRecvPN, 16);
++
++	WAPI_TRACE(WAPI_RX, "<========== %s\n", __FUNCTION__);
++}
++
++/****************************************************************************
++TRUE-----------------Drop
++FALSE---------------- handle
++add to support WAPI to N-mode
++*****************************************************************************/
++u8 rtw_wapi_check_for_drop(
++	_adapter *padapter,
++	union recv_frame *precv_frame
++)
++{
++	PRT_WAPI_T     pWapiInfo = &(padapter->wapiInfo);
++	u8			*pLastRecvPN = NULL;
++	u8			bFind = false;
++	PRT_WAPI_STA_INFO	pWapiSta = NULL;
++	u8			bDrop = false;
++	struct recv_frame_hdr *precv_hdr = &precv_frame->u.hdr;
++	u8					WapiAEPNInitialValueSrc[16] = {0x37, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++	u8					WapiAEMultiCastPNInitialValueSrc[16] = {0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++	u8					*ptr = precv_frame->u.hdr.rx_data;
++	int					i;
++
++	WAPI_TRACE(WAPI_RX, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!pWapiInfo->bWapiEnable)) {
++		WAPI_TRACE(WAPI_RX, "<========== %s, WAPI not supported or not enabled!\n", __FUNCTION__);
++		return false;
++	}
++
++	if (precv_hdr->bIsWaiPacket != 0) {
++		if (precv_hdr->bIsWaiPacket == 0x8) {
++
++			RTW_INFO("rtw_wapi_check_for_drop: dump packet\n");
++			for (i = 0; i < 50; i++) {
++				RTW_INFO("%02X  ", ptr[i]);
++				if ((i + 1) % 8 == 0)
++					RTW_INFO("\n");
++			}
++			RTW_INFO("\n rtw_wapi_check_for_drop: dump packet\n");
++
++			for (i = 0; i < 16; i++) {
++				if (ptr[i + 27] != 0)
++					break;
++			}
++
++			if (i == 16) {
++				WAPI_TRACE(WAPI_RX, "rtw_wapi_check_for_drop: drop with zero BKID\n");
++				return true;
++			} else
++				return false;
++		} else
++			return false;
++	}
++
++	if (list_empty(&pWapiInfo->wapiSTAUsedList))
++		bFind = false;
++	else {
++		list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++			if (_rtw_memcmp(precv_hdr->WapiSrcAddr, pWapiSta->PeerMacAddr, ETH_ALEN) == _TRUE) {
++				bFind = true;
++				break;
++			}
++		}
++	}
++	WAPI_TRACE(WAPI_RX, "%s: bFind=%d prxb->WapiSrcAddr="MAC_FMT"\n", __FUNCTION__, bFind, MAC_ARG(precv_hdr->WapiSrcAddr));
++
++	if (bFind) {
++		if (IS_MCAST(precv_hdr->attrib.ra)) {
++			WAPI_TRACE(WAPI_RX, "rtw_wapi_check_for_drop: multicast case\n");
++			pLastRecvPN = pWapiSta->lastRxMulticastPN;
++		} else {
++			WAPI_TRACE(WAPI_RX, "rtw_wapi_check_for_drop: unicast case\n");
++			switch (precv_hdr->UserPriority) {
++			case 0:
++			case 3:
++				pLastRecvPN = pWapiSta->lastRxUnicastPNBEQueue;
++				break;
++			case 1:
++			case 2:
++				pLastRecvPN = pWapiSta->lastRxUnicastPNBKQueue;
++				break;
++			case 4:
++			case 5:
++				pLastRecvPN = pWapiSta->lastRxUnicastPNVIQueue;
++				break;
++			case 6:
++			case 7:
++				pLastRecvPN = pWapiSta->lastRxUnicastPNVOQueue;
++				break;
++			default:
++				WAPI_TRACE(WAPI_ERR, "%s: Unknown TID\n", __FUNCTION__);
++				break;
++			}
++		}
++
++		if (!WapiComparePN(precv_hdr->WapiTempPN, pLastRecvPN)) {
++			WAPI_TRACE(WAPI_RX, "%s: Equal PN!!\n", __FUNCTION__);
++			if (IS_MCAST(precv_hdr->attrib.ra))
++				_rtw_memcpy(pLastRecvPN, WapiAEMultiCastPNInitialValueSrc, 16);
++			else
++				_rtw_memcpy(pLastRecvPN, WapiAEPNInitialValueSrc, 16);
++			bDrop = true;
++		} else
++			_rtw_memcpy(pLastRecvPN, precv_hdr->WapiTempPN, 16);
++	}
++
++	WAPI_TRACE(WAPI_RX, "<========== %s\n", __FUNCTION__);
++	return bDrop;
++}
++
++void rtw_build_probe_resp_wapi_ie(_adapter *padapter, unsigned char *pframe, struct pkt_attrib *pattrib)
++{
++	PRT_WAPI_T pWapiInfo = &(padapter->wapiInfo);
++	u8 WapiIELength = 0;
++
++	WAPI_TRACE(WAPI_MLME, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport)  || (!pWapiInfo->bWapiEnable)) {
++		WAPI_TRACE(WAPI_MLME, "<========== %s, WAPI not supported!\n", __FUNCTION__);
++		return;
++	}
++
++	WapiSetIE(padapter);
++	WapiIELength = pWapiInfo->wapiIELength;
++	pframe[0] = _WAPI_IE_;
++	pframe[1] = WapiIELength;
++	_rtw_memcpy(pframe + 2, pWapiInfo->wapiIE, WapiIELength);
++	pframe += WapiIELength + 2;
++	pattrib->pktlen += WapiIELength + 2;
++
++	WAPI_TRACE(WAPI_MLME, "<========== %s\n", __FUNCTION__);
++}
++
++void rtw_build_beacon_wapi_ie(_adapter *padapter, unsigned char *pframe, struct pkt_attrib *pattrib)
++{
++	PRT_WAPI_T pWapiInfo = &(padapter->wapiInfo);
++	u8 WapiIELength = 0;
++	WAPI_TRACE(WAPI_MLME, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport)  || (!pWapiInfo->bWapiEnable)) {
++		WAPI_TRACE(WAPI_MLME, "<========== %s, WAPI not supported!\n", __FUNCTION__);
++		return;
++	}
++
++	WapiSetIE(padapter);
++	WapiIELength = pWapiInfo->wapiIELength;
++	pframe[0] = _WAPI_IE_;
++	pframe[1] = WapiIELength;
++	_rtw_memcpy(pframe + 2, pWapiInfo->wapiIE, WapiIELength);
++	pframe += WapiIELength + 2;
++	pattrib->pktlen += WapiIELength + 2;
++
++	WAPI_TRACE(WAPI_MLME, "<========== %s\n", __FUNCTION__);
++}
++
++void rtw_build_assoc_req_wapi_ie(_adapter *padapter, unsigned char *pframe, struct pkt_attrib *pattrib)
++{
++	PRT_WAPI_BKID		pWapiBKID;
++	u16					bkidNum;
++	PRT_WAPI_T			pWapiInfo = &(padapter->wapiInfo);
++	u8					WapiIELength = 0;
++
++	WAPI_TRACE(WAPI_MLME, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!pWapiInfo->bWapiEnable)) {
++		WAPI_TRACE(WAPI_MLME, "<========== %s, WAPI not supported!\n", __FUNCTION__);
++		return;
++	}
++
++	WapiSetIE(padapter);
++	WapiIELength = pWapiInfo->wapiIELength;
++	bkidNum = 0;
++	if (!list_empty(&(pWapiInfo->wapiBKIDStoreList))) {
++		list_for_each_entry(pWapiBKID, &pWapiInfo->wapiBKIDStoreList, list) {
++			bkidNum++;
++			_rtw_memcpy(pWapiInfo->wapiIE + WapiIELength + 2, pWapiBKID->bkid, 16);
++			WapiIELength += 16;
++		}
++	}
++	_rtw_memcpy(pWapiInfo->wapiIE + WapiIELength, &bkidNum, 2);
++	WapiIELength += 2;
++
++	pframe[0] = _WAPI_IE_;
++	pframe[1] = WapiIELength;
++	_rtw_memcpy(pframe + 2, pWapiInfo->wapiIE, WapiIELength);
++	pframe += WapiIELength + 2;
++	pattrib->pktlen += WapiIELength + 2;
++	WAPI_TRACE(WAPI_MLME, "<========== %s\n", __FUNCTION__);
++}
++
++void rtw_wapi_on_assoc_ok(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE)
++{
++	PRT_WAPI_T pWapiInfo = &(padapter->wapiInfo);
++	PRT_WAPI_STA_INFO pWapiSta;
++	u8 WapiAEPNInitialValueSrc[16] = {0x37, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++	/* u8 WapiASUEPNInitialValueSrc[16] = {0x36,0x5C,0x36,0x5C,0x36,0x5C,0x36,0x5C,0x36,0x5C,0x36,0x5C,0x36,0x5C,0x36,0x5C} ; */
++	u8 WapiAEMultiCastPNInitialValueSrc[16] = {0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++
++	WAPI_TRACE(WAPI_MLME, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!pWapiInfo->bWapiEnable)) {
++		WAPI_TRACE(WAPI_MLME, "<========== %s, WAPI not supported or not enabled!\n", __FUNCTION__);
++		return;
++	}
++
++	pWapiSta = (PRT_WAPI_STA_INFO)list_entry(pWapiInfo->wapiSTAIdleList.next, RT_WAPI_STA_INFO, list);
++	list_del_init(&pWapiSta->list);
++	list_add_tail(&pWapiSta->list, &pWapiInfo->wapiSTAUsedList);
++	_rtw_memcpy(pWapiSta->PeerMacAddr, padapter->mlmeextpriv.mlmext_info.network.MacAddress, 6);
++	_rtw_memcpy(pWapiSta->lastRxMulticastPN, WapiAEMultiCastPNInitialValueSrc, 16);
++	_rtw_memcpy(pWapiSta->lastRxUnicastPN, WapiAEPNInitialValueSrc, 16);
++
++	/* For chenk PN error with Qos Data after s3: add by ylb 20111114 */
++	_rtw_memcpy(pWapiSta->lastRxUnicastPNBEQueue, WapiAEPNInitialValueSrc, 16);
++	_rtw_memcpy(pWapiSta->lastRxUnicastPNBKQueue, WapiAEPNInitialValueSrc, 16);
++	_rtw_memcpy(pWapiSta->lastRxUnicastPNVIQueue, WapiAEPNInitialValueSrc, 16);
++	_rtw_memcpy(pWapiSta->lastRxUnicastPNVOQueue, WapiAEPNInitialValueSrc, 16);
++
++	WAPI_TRACE(WAPI_MLME, "<========== %s\n", __FUNCTION__);
++}
++
++
++void rtw_wapi_return_one_sta_info(_adapter *padapter, u8 *MacAddr)
++{
++	PRT_WAPI_T				pWapiInfo;
++	PRT_WAPI_STA_INFO		pWapiStaInfo = NULL;
++	PRT_WAPI_BKID			pWapiBkid = NULL;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++
++	pWapiInfo = &padapter->wapiInfo;
++
++	WAPI_TRACE(WAPI_API, "==========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!pWapiInfo->bWapiEnable)) {
++		WAPI_TRACE(WAPI_MLME, "<========== %s, WAPI not supported or not enabled!\n", __FUNCTION__);
++		return;
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++		while (!list_empty(&(pWapiInfo->wapiBKIDStoreList))) {
++			pWapiBkid = (PRT_WAPI_BKID)list_entry(pWapiInfo->wapiBKIDStoreList.next, RT_WAPI_BKID, list);
++			list_del_init(&pWapiBkid->list);
++			_rtw_memset(pWapiBkid->bkid, 0, 16);
++			list_add_tail(&pWapiBkid->list, &pWapiInfo->wapiBKIDIdleList);
++		}
++	}
++
++
++	WAPI_TRACE(WAPI_API, " %s: after clear bkid\n", __FUNCTION__);
++
++
++	/* Remove STA info */
++	if (list_empty(&(pWapiInfo->wapiSTAUsedList))) {
++		WAPI_TRACE(WAPI_API, " %s: wapiSTAUsedList is null\n", __FUNCTION__);
++		return;
++	} else {
++
++		WAPI_TRACE(WAPI_API, " %s: wapiSTAUsedList is not null\n", __FUNCTION__);
++#if 0
++		pWapiStaInfo = (PRT_WAPI_STA_INFO)list_entry((pWapiInfo->wapiSTAUsedList.next), RT_WAPI_STA_INFO, list);
++
++		list_for_each_entry(pWapiStaInfo, &(pWapiInfo->wapiSTAUsedList), list) {
++
++			RTW_INFO("MAC Addr %02x-%02x-%02x-%02x-%02x-%02x\n", MacAddr[0], MacAddr[1], MacAddr[2], MacAddr[3], MacAddr[4], MacAddr[5]);
++
++
++			RTW_INFO("peer Addr %02x-%02x-%02x-%02x-%02x-%02x\n", pWapiStaInfo->PeerMacAddr[0], pWapiStaInfo->PeerMacAddr[1], pWapiStaInfo->PeerMacAddr[2], pWapiStaInfo->PeerMacAddr[3],
++				pWapiStaInfo->PeerMacAddr[4], pWapiStaInfo->PeerMacAddr[5]);
++
++			if (pWapiStaInfo == NULL) {
++				WAPI_TRACE(WAPI_API, " %s: pWapiStaInfo == NULL Case\n", __FUNCTION__);
++				return;
++			}
++
++			if (pWapiStaInfo->PeerMacAddr == NULL) {
++				WAPI_TRACE(WAPI_API, " %s: pWapiStaInfo->PeerMacAddr == NULL Case\n", __FUNCTION__);
++				return;
++			}
++
++			if (MacAddr == NULL) {
++				WAPI_TRACE(WAPI_API, " %s: MacAddr == NULL Case\n", __FUNCTION__);
++				return;
++			}
++
++			if (_rtw_memcmp(pWapiStaInfo->PeerMacAddr, MacAddr, ETH_ALEN) == _TRUE) {
++				pWapiStaInfo->bAuthenticateInProgress = false;
++				pWapiStaInfo->bSetkeyOk = false;
++				_rtw_memset(pWapiStaInfo->PeerMacAddr, 0, ETH_ALEN);
++				list_del_init(&pWapiStaInfo->list);
++				list_add_tail(&pWapiStaInfo->list, &pWapiInfo->wapiSTAIdleList);
++				break;
++			}
++
++		}
++#endif
++
++		while (!list_empty(&(pWapiInfo->wapiSTAUsedList))) {
++			pWapiStaInfo = (PRT_WAPI_STA_INFO)list_entry(pWapiInfo->wapiSTAUsedList.next, RT_WAPI_STA_INFO, list);
++
++			RTW_INFO("peer Addr %02x-%02x-%02x-%02x-%02x-%02x\n", pWapiStaInfo->PeerMacAddr[0], pWapiStaInfo->PeerMacAddr[1], pWapiStaInfo->PeerMacAddr[2], pWapiStaInfo->PeerMacAddr[3],
++				pWapiStaInfo->PeerMacAddr[4], pWapiStaInfo->PeerMacAddr[5]);
++
++			list_del_init(&pWapiStaInfo->list);
++			memset(pWapiStaInfo->PeerMacAddr, 0, ETH_ALEN);
++			pWapiStaInfo->bSetkeyOk = 0;
++			list_add_tail(&pWapiStaInfo->list, &pWapiInfo->wapiSTAIdleList);
++		}
++
++	}
++
++	WAPI_TRACE(WAPI_API, "<========== %s\n", __FUNCTION__);
++	return;
++}
++
++void rtw_wapi_return_all_sta_info(_adapter *padapter)
++{
++	PRT_WAPI_T				pWapiInfo;
++	PRT_WAPI_STA_INFO		pWapiStaInfo;
++	PRT_WAPI_BKID			pWapiBkid;
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++
++	pWapiInfo = &padapter->wapiInfo;
++
++	if ((!padapter->WapiSupport) || (!pWapiInfo->bWapiEnable)) {
++		WAPI_TRACE(WAPI_MLME, "<========== %s, WAPI not supported or not enabled!\n", __FUNCTION__);
++		return;
++	}
++
++	/* Sta Info List */
++	while (!list_empty(&(pWapiInfo->wapiSTAUsedList))) {
++		pWapiStaInfo = (PRT_WAPI_STA_INFO)list_entry(pWapiInfo->wapiSTAUsedList.next, RT_WAPI_STA_INFO, list);
++		list_del_init(&pWapiStaInfo->list);
++		memset(pWapiStaInfo->PeerMacAddr, 0, ETH_ALEN);
++		pWapiStaInfo->bSetkeyOk = 0;
++		list_add_tail(&pWapiStaInfo->list, &pWapiInfo->wapiSTAIdleList);
++	}
++
++	/* BKID List */
++	while (!list_empty(&(pWapiInfo->wapiBKIDStoreList))) {
++		pWapiBkid = (PRT_WAPI_BKID)list_entry(pWapiInfo->wapiBKIDStoreList.next, RT_WAPI_BKID, list);
++		list_del_init(&pWapiBkid->list);
++		memset(pWapiBkid->bkid, 0, 16);
++		list_add_tail(&pWapiBkid->list, &pWapiInfo->wapiBKIDIdleList);
++	}
++	WAPI_TRACE(WAPI_API, "<========== %s\n", __FUNCTION__);
++}
++
++void rtw_wapi_clear_cam_entry(_adapter *padapter, u8 *pMacAddr)
++{
++	u8 UcIndex = 0;
++
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!padapter->wapiInfo.bWapiEnable)) {
++		WAPI_TRACE(WAPI_MLME, "<========== %s, WAPI not supported or not enabled!\n", __FUNCTION__);
++		return;
++	}
++
++	UcIndex = WapiGetEntryForCamClear(padapter, pMacAddr, 0, 0);
++	if (UcIndex != 0xff) {
++		/* CAM_mark_invalid(Adapter, UcIndex); */
++		CAM_empty_entry(padapter, UcIndex);
++	}
++
++	UcIndex = WapiGetEntryForCamClear(padapter, pMacAddr, 1, 0);
++	if (UcIndex != 0xff) {
++		/* CAM_mark_invalid(Adapter, UcIndex); */
++		CAM_empty_entry(padapter, UcIndex);
++	}
++
++	UcIndex = WapiGetEntryForCamClear(padapter, pMacAddr, 0, 1);
++	if (UcIndex != 0xff) {
++		/* CAM_mark_invalid(Adapter, UcIndex); */
++		CAM_empty_entry(padapter, UcIndex);
++	}
++
++	UcIndex = WapiGetEntryForCamClear(padapter, pMacAddr, 1, 1);
++	if (UcIndex != 0xff) {
++		/* CAM_mark_invalid(padapter, UcIndex); */
++		CAM_empty_entry(padapter, UcIndex);
++	}
++
++	WAPI_TRACE(WAPI_API, "<========== %s\n", __FUNCTION__);
++}
++
++void rtw_wapi_clear_all_cam_entry(_adapter *padapter)
++{
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!padapter->wapiInfo.bWapiEnable)) {
++		WAPI_TRACE(WAPI_MLME, "<========== %s, WAPI not supported or not enabled!\n", __FUNCTION__);
++		return;
++	}
++
++	invalidate_cam_all(padapter); /* is this ok? */
++	WapiResetAllCamEntry(padapter);
++
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++}
++
++void rtw_wapi_set_key(_adapter *padapter, RT_WAPI_KEY *pWapiKey, RT_WAPI_STA_INFO *pWapiSta, u8 bGroupKey, u8 bUseDefaultKey)
++{
++	PRT_WAPI_T		pWapiInfo =  &padapter->wapiInfo;
++	u8				*pMacAddr = pWapiSta->PeerMacAddr;
++	u32 EntryId = 0;
++	BOOLEAN IsPairWise = false ;
++	u8 EncAlgo;
++
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!padapter->wapiInfo.bWapiEnable)) {
++		WAPI_TRACE(WAPI_API, "<========== %s, WAPI not supported or not enabled!\n", __FUNCTION__);
++		return;
++	}
++
++	EncAlgo = _SMS4_;
++
++	/* For Tx bc/mc pkt,use defualt key entry */
++	if (bUseDefaultKey) {
++		/* when WAPI update key, keyid will be 0 or 1 by turns. */
++		if (pWapiKey->keyId == 0)
++			EntryId = 0;
++		else
++			EntryId = 2;
++	} else {
++		/* tx/rx unicast pkt, or rx broadcast, find the key entry by peer's MacAddr */
++		EntryId = WapiGetEntryForCamWrite(padapter, pMacAddr, pWapiKey->keyId, bGroupKey);
++	}
++
++	if (EntryId == 0xff) {
++		WAPI_TRACE(WAPI_API, "===>No entry for WAPI setkey! !!\n");
++		return;
++	}
++
++	/* EntryId is also used to diff Sec key and Mic key */
++	/* Sec Key */
++	WapiWriteOneCamEntry(padapter,
++			     pMacAddr,
++			     pWapiKey->keyId, /* keyid */
++			     EntryId,	/* entry */
++			     EncAlgo, /* type */
++			     bGroupKey, /* pairwise or group key */
++			     pWapiKey->dataKey);
++	/* MIC key */
++	WapiWriteOneCamEntry(padapter,
++			     pMacAddr,
++			     pWapiKey->keyId, /* keyid */
++			     EntryId + 1,	/* entry */
++			     EncAlgo, /* type */
++			     bGroupKey, /* pairwise or group key */
++			     pWapiKey->micKey);
++
++	WAPI_TRACE(WAPI_API, "Set Wapi Key :KeyId:%d,EntryId:%d,PairwiseKey:%d.\n", pWapiKey->keyId, EntryId, !bGroupKey);
++	WAPI_TRACE(WAPI_API, "===========> %s\n", __FUNCTION__);
++
++}
++
++#if 0
++/* YJ,test,091013 */
++void wapi_test_set_key(struct _adapter *padapter, u8 *buf)
++{
++	/*Data: keyType(1) + bTxEnable(1) + bAuthenticator(1) + bUpdate(1) + PeerAddr(6) + DataKey(16) + MicKey(16) + KeyId(1)*/
++	PRT_WAPI_T			pWapiInfo = &padapter->wapiInfo;
++	PRT_WAPI_BKID		pWapiBkid;
++	PRT_WAPI_STA_INFO	pWapiSta;
++	u8					data[43];
++	bool					bTxEnable;
++	bool					bUpdate;
++	bool					bAuthenticator;
++	u8					PeerAddr[6];
++	u8					WapiAEPNInitialValueSrc[16] = {0x37, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++	u8					WapiASUEPNInitialValueSrc[16] = {0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++	u8					WapiAEMultiCastPNInitialValueSrc[16] = {0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++
++	WAPI_TRACE(WAPI_INIT, "===========>%s\n", __FUNCTION__);
++
++	if (!padapter->WapiSupport)
++		return;
++
++	copy_from_user(data, buf, 43);
++	bTxEnable = data[1];
++	bAuthenticator = data[2];
++	bUpdate = data[3];
++	memcpy(PeerAddr, data + 4, 6);
++
++	if (data[0] == 0x3) {
++		if (!list_empty(&(pWapiInfo->wapiBKIDIdleList))) {
++			pWapiBkid = (PRT_WAPI_BKID)list_entry(pWapiInfo->wapiBKIDIdleList.next, RT_WAPI_BKID, list);
++			list_del_init(&pWapiBkid->list);
++			memcpy(pWapiBkid->bkid, data + 10, 16);
++			WAPI_DATA(WAPI_INIT, "SetKey - BKID", pWapiBkid->bkid, 16);
++			list_add_tail(&pWapiBkid->list, &pWapiInfo->wapiBKIDStoreList);
++		}
++	} else {
++		list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++			if (!memcmp(pWapiSta->PeerMacAddr, PeerAddr, 6)) {
++				pWapiSta->bAuthenticatorInUpdata = false;
++				switch (data[0]) {
++				case 1:              /* usk */
++					if (bAuthenticator) {       /* authenticator */
++						memcpy(pWapiSta->lastTxUnicastPN, WapiAEPNInitialValueSrc, 16);
++						if (!bUpdate) {    /* first */
++							WAPI_TRACE(WAPI_INIT, "AE fisrt set usk\n");
++							pWapiSta->wapiUsk.bSet = true;
++							memcpy(pWapiSta->wapiUsk.dataKey, data + 10, 16);
++							memcpy(pWapiSta->wapiUsk.micKey, data + 26, 16);
++							pWapiSta->wapiUsk.keyId = *(data + 42);
++							pWapiSta->wapiUsk.bTxEnable = true;
++							WAPI_DATA(WAPI_INIT, "SetKey - AE USK Data Key", pWapiSta->wapiUsk.dataKey, 16);
++							WAPI_DATA(WAPI_INIT, "SetKey - AE USK Mic Key", pWapiSta->wapiUsk.micKey, 16);
++						} else {           /* update */
++							WAPI_TRACE(WAPI_INIT, "AE update usk\n");
++							pWapiSta->wapiUskUpdate.bSet = true;
++							pWapiSta->bAuthenticatorInUpdata = true;
++							memcpy(pWapiSta->wapiUskUpdate.dataKey, data + 10, 16);
++							memcpy(pWapiSta->wapiUskUpdate.micKey, data + 26, 16);
++							memcpy(pWapiSta->lastRxUnicastPNBEQueue, WapiASUEPNInitialValueSrc, 16);
++							memcpy(pWapiSta->lastRxUnicastPNBKQueue, WapiASUEPNInitialValueSrc, 16);
++							memcpy(pWapiSta->lastRxUnicastPNVIQueue, WapiASUEPNInitialValueSrc, 16);
++							memcpy(pWapiSta->lastRxUnicastPNVOQueue, WapiASUEPNInitialValueSrc, 16);
++							memcpy(pWapiSta->lastRxUnicastPN, WapiASUEPNInitialValueSrc, 16);
++							pWapiSta->wapiUskUpdate.keyId = *(data + 42);
++							pWapiSta->wapiUskUpdate.bTxEnable = true;
++						}
++					} else {
++						if (!bUpdate) {
++							WAPI_TRACE(WAPI_INIT, "ASUE fisrt set usk\n");
++							if (bTxEnable) {
++								pWapiSta->wapiUsk.bTxEnable = true;
++								memcpy(pWapiSta->lastTxUnicastPN, WapiASUEPNInitialValueSrc, 16);
++							} else {
++								pWapiSta->wapiUsk.bSet = true;
++								memcpy(pWapiSta->wapiUsk.dataKey, data + 10, 16);
++								memcpy(pWapiSta->wapiUsk.micKey, data + 26, 16);
++								pWapiSta->wapiUsk.keyId = *(data + 42);
++								pWapiSta->wapiUsk.bTxEnable = false;
++							}
++						} else {
++							WAPI_TRACE(WAPI_INIT, "ASUE update usk\n");
++							if (bTxEnable) {
++								pWapiSta->wapiUskUpdate.bTxEnable = true;
++								if (pWapiSta->wapiUskUpdate.bSet) {
++									memcpy(pWapiSta->wapiUsk.dataKey, pWapiSta->wapiUskUpdate.dataKey, 16);
++									memcpy(pWapiSta->wapiUsk.micKey, pWapiSta->wapiUskUpdate.micKey, 16);
++									pWapiSta->wapiUsk.keyId = pWapiSta->wapiUskUpdate.keyId;
++									memcpy(pWapiSta->lastRxUnicastPNBEQueue, WapiASUEPNInitialValueSrc, 16);
++									memcpy(pWapiSta->lastRxUnicastPNBKQueue, WapiASUEPNInitialValueSrc, 16);
++									memcpy(pWapiSta->lastRxUnicastPNVIQueue, WapiASUEPNInitialValueSrc, 16);
++									memcpy(pWapiSta->lastRxUnicastPNVOQueue, WapiASUEPNInitialValueSrc, 16);
++									memcpy(pWapiSta->lastRxUnicastPN, WapiASUEPNInitialValueSrc, 16);
++									pWapiSta->wapiUskUpdate.bTxEnable = false;
++									pWapiSta->wapiUskUpdate.bSet = false;
++								}
++								memcpy(pWapiSta->lastTxUnicastPN, WapiASUEPNInitialValueSrc, 16);
++							} else {
++								pWapiSta->wapiUskUpdate.bSet = true;
++								memcpy(pWapiSta->wapiUskUpdate.dataKey, data + 10, 16);
++								memcpy(pWapiSta->wapiUskUpdate.micKey, data + 26, 16);
++								pWapiSta->wapiUskUpdate.keyId = *(data + 42);
++								pWapiSta->wapiUskUpdate.bTxEnable = false;
++							}
++						}
++					}
++					break;
++				case 2:		/* msk */
++					if (bAuthenticator) {        /* authenticator */
++						pWapiInfo->wapiTxMsk.bSet = true;
++						memcpy(pWapiInfo->wapiTxMsk.dataKey, data + 10, 16);
++						memcpy(pWapiInfo->wapiTxMsk.micKey, data + 26, 16);
++						pWapiInfo->wapiTxMsk.keyId = *(data + 42);
++						pWapiInfo->wapiTxMsk.bTxEnable = true;
++						memcpy(pWapiInfo->lastTxMulticastPN, WapiAEMultiCastPNInitialValueSrc, 16);
++
++						if (!bUpdate) {    /* first */
++							WAPI_TRACE(WAPI_INIT, "AE fisrt set msk\n");
++							if (!pWapiSta->bSetkeyOk)
++								pWapiSta->bSetkeyOk = true;
++							pWapiInfo->bFirstAuthentiateInProgress = false;
++						} else                /* update */
++							WAPI_TRACE(WAPI_INIT, "AE update msk\n");
++
++						WAPI_DATA(WAPI_INIT, "SetKey - AE MSK Data Key", pWapiInfo->wapiTxMsk.dataKey, 16);
++						WAPI_DATA(WAPI_INIT, "SetKey - AE MSK Mic Key", pWapiInfo->wapiTxMsk.micKey, 16);
++					} else {
++						if (!bUpdate) {
++							WAPI_TRACE(WAPI_INIT, "ASUE fisrt set msk\n");
++							pWapiSta->wapiMsk.bSet = true;
++							memcpy(pWapiSta->wapiMsk.dataKey, data + 10, 16);
++							memcpy(pWapiSta->wapiMsk.micKey, data + 26, 16);
++							pWapiSta->wapiMsk.keyId = *(data + 42);
++							pWapiSta->wapiMsk.bTxEnable = false;
++							if (!pWapiSta->bSetkeyOk)
++								pWapiSta->bSetkeyOk = true;
++							pWapiInfo->bFirstAuthentiateInProgress = false;
++							WAPI_DATA(WAPI_INIT, "SetKey - ASUE MSK Data Key", pWapiSta->wapiMsk.dataKey, 16);
++							WAPI_DATA(WAPI_INIT, "SetKey - ASUE MSK Mic Key", pWapiSta->wapiMsk.micKey, 16);
++						} else {
++							WAPI_TRACE(WAPI_INIT, "ASUE update msk\n");
++							pWapiSta->wapiMskUpdate.bSet = true;
++							memcpy(pWapiSta->wapiMskUpdate.dataKey, data + 10, 16);
++							memcpy(pWapiSta->wapiMskUpdate.micKey, data + 26, 16);
++							pWapiSta->wapiMskUpdate.keyId = *(data + 42);
++							pWapiSta->wapiMskUpdate.bTxEnable = false;
++						}
++					}
++					break;
++				default:
++					WAPI_TRACE(WAPI_ERR, "Unknown Flag\n");
++					break;
++				}
++			}
++		}
++	}
++	WAPI_TRACE(WAPI_INIT, "<===========%s\n", __FUNCTION__);
++}
++
++
++void wapi_test_init(struct _adapter *padapter)
++{
++	u8 keybuf[100];
++	u8 mac_addr[6] = {0x00, 0xe0, 0x4c, 0x72, 0x04, 0x70};
++	u8 UskDataKey[16] = {0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f};
++	u8 UskMicKey[16] = {0x10, 0x11, 0x12, 0x13, 0x14, 0x15, 0x16, 0x17, 0x18, 0x19, 0x1a, 0x1b, 0x1c, 0x1d, 0x1e, 0x1f};
++	u8 UskId = 0;
++	u8 MskDataKey[16] = {0x20, 0x21, 0x22, 0x23, 0x24, 0x25, 0x26, 0x27, 0x28, 0x29, 0x2a, 0x2b, 0x2c, 0x2d, 0x2e, 0x2f};
++	u8 MskMicKey[16] = {0x30, 0x31, 0x32, 0x33, 0x34, 0x35, 0x36, 0x37, 0x38, 0x39, 0x3a, 0x3b, 0x3c, 0x3d, 0x3e, 0x3f};
++	u8 MskId = 0;
++
++	WAPI_TRACE(WAPI_INIT, "===========>%s\n", __FUNCTION__);
++
++	/* Enable Wapi */
++	WAPI_TRACE(WAPI_INIT, "%s: Enable wapi!!!!\n", __FUNCTION__);
++	padapter->wapiInfo.bWapiEnable = true;
++	padapter->pairwise_key_type = KEY_TYPE_SMS4;
++	ieee->group_key_type = KEY_TYPE_SMS4;
++	padapter->wapiInfo.extra_prefix_len = WAPI_EXT_LEN;
++	padapter->wapiInfo.extra_postfix_len = SMS4_MIC_LEN;
++
++	/* set usk */
++	WAPI_TRACE(WAPI_INIT, "%s: Set USK!!!!\n", __FUNCTION__);
++	memset(keybuf, 0, 100);
++	keybuf[0] = 1;                           /* set usk */
++	keybuf[1] = 1; 				/* enable tx */
++	keybuf[2] = 1; 				/* AE */
++	keybuf[3] = 0; 				/* not update */
++
++	memcpy(keybuf + 4, mac_addr, 6);
++	memcpy(keybuf + 10, UskDataKey, 16);
++	memcpy(keybuf + 26, UskMicKey, 16);
++	keybuf[42] = UskId;
++	wapi_test_set_key(padapter, keybuf);
++
++	memset(keybuf, 0, 100);
++	keybuf[0] = 1;                           /* set usk */
++	keybuf[1] = 1; 				/* enable tx */
++	keybuf[2] = 0; 				/* AE */
++	keybuf[3] = 0; 				/* not update */
++
++	memcpy(keybuf + 4, mac_addr, 6);
++	memcpy(keybuf + 10, UskDataKey, 16);
++	memcpy(keybuf + 26, UskMicKey, 16);
++	keybuf[42] = UskId;
++	wapi_test_set_key(padapter, keybuf);
++
++	/* set msk */
++	WAPI_TRACE(WAPI_INIT, "%s: Set MSK!!!!\n", __FUNCTION__);
++	memset(keybuf, 0, 100);
++	keybuf[0] = 2;                                /* set msk */
++	keybuf[1] = 1;                               /* Enable TX */
++	keybuf[2] = 1; 				/* AE */
++	keybuf[3] = 0;                              /* not update */
++	memcpy(keybuf + 4, mac_addr, 6);
++	memcpy(keybuf + 10, MskDataKey, 16);
++	memcpy(keybuf + 26, MskMicKey, 16);
++	keybuf[42] = MskId;
++	wapi_test_set_key(padapter, keybuf);
++
++	memset(keybuf, 0, 100);
++	keybuf[0] = 2;                                /* set msk */
++	keybuf[1] = 1;                               /* Enable TX */
++	keybuf[2] = 0; 				/* AE */
++	keybuf[3] = 0;                              /* not update */
++	memcpy(keybuf + 4, mac_addr, 6);
++	memcpy(keybuf + 10, MskDataKey, 16);
++	memcpy(keybuf + 26, MskMicKey, 16);
++	keybuf[42] = MskId;
++	wapi_test_set_key(padapter, keybuf);
++	WAPI_TRACE(WAPI_INIT, "<===========%s\n", __FUNCTION__);
++}
++#endif
++
++void rtw_wapi_get_iv(_adapter *padapter, u8 *pRA, u8 *IV)
++{
++	PWLAN_HEADER_WAPI_EXTENSION pWapiExt = NULL;
++	PRT_WAPI_T         pWapiInfo = &padapter->wapiInfo;
++	bool	bPNOverflow = false;
++	bool	bFindMatchPeer = false;
++	PRT_WAPI_STA_INFO  pWapiSta = NULL;
++
++	pWapiExt = (PWLAN_HEADER_WAPI_EXTENSION)IV;
++
++	WAPI_DATA(WAPI_RX, "wapi_get_iv: pra", pRA, 6);
++
++	if (IS_MCAST(pRA)) {
++		if (!pWapiInfo->wapiTxMsk.bTxEnable) {
++			WAPI_TRACE(WAPI_ERR, "%s: bTxEnable = 0!!\n", __FUNCTION__);
++			return;
++		}
++
++		if (pWapiInfo->wapiTxMsk.keyId <= 1) {
++			pWapiExt->KeyIdx = pWapiInfo->wapiTxMsk.keyId;
++			pWapiExt->Reserved = 0;
++			bPNOverflow = WapiIncreasePN(pWapiInfo->lastTxMulticastPN, 1);
++			memcpy(pWapiExt->PN, pWapiInfo->lastTxMulticastPN, 16);
++		}
++	} else {
++		if (list_empty(&pWapiInfo->wapiSTAUsedList)) {
++			WAPI_TRACE(WAPI_RX, "rtw_wapi_get_iv: list is empty\n");
++			_rtw_memset(IV, 10, 18);
++			return;
++		} else {
++			list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++				WAPI_DATA(WAPI_RX, "rtw_wapi_get_iv: peermacaddr ", pWapiSta->PeerMacAddr, 6);
++				if (_rtw_memcmp((u8 *)pWapiSta->PeerMacAddr, pRA, 6) == _TRUE) {
++					bFindMatchPeer = true;
++					break;
++				}
++			}
++
++			WAPI_TRACE(WAPI_RX, "bFindMatchPeer: %d\n", bFindMatchPeer);
++			WAPI_DATA(WAPI_RX, "Addr", pRA, 6);
++
++			if (bFindMatchPeer) {
++				if ((!pWapiSta->wapiUskUpdate.bTxEnable) && (!pWapiSta->wapiUsk.bTxEnable))
++					return;
++
++				if (pWapiSta->wapiUsk.keyId <= 1) {
++					if (pWapiSta->wapiUskUpdate.bTxEnable)
++						pWapiExt->KeyIdx = pWapiSta->wapiUskUpdate.keyId;
++					else
++						pWapiExt->KeyIdx = pWapiSta->wapiUsk.keyId;
++
++					pWapiExt->Reserved = 0;
++					bPNOverflow = WapiIncreasePN(pWapiSta->lastTxUnicastPN, 2);
++					_rtw_memcpy(pWapiExt->PN, pWapiSta->lastTxUnicastPN, 16);
++
++				}
++			}
++		}
++
++	}
++
++}
++
++bool rtw_wapi_drop_for_key_absent(_adapter *padapter, u8 *pRA)
++{
++	PRT_WAPI_T         pWapiInfo = &padapter->wapiInfo;
++	bool				bFindMatchPeer = false;
++	bool				bDrop = false;
++	PRT_WAPI_STA_INFO  pWapiSta = NULL;
++	struct security_priv		*psecuritypriv = &padapter->securitypriv;
++
++	WAPI_DATA(WAPI_RX, "rtw_wapi_drop_for_key_absent: ra ", pRA, 6);
++
++	if (psecuritypriv->dot11PrivacyAlgrthm == _SMS4_) {
++		if ((!padapter->WapiSupport) || (!pWapiInfo->bWapiEnable))
++			return true;
++
++		if (IS_MCAST(pRA)) {
++			if (!pWapiInfo->wapiTxMsk.bTxEnable) {
++				bDrop = true;
++				WAPI_TRACE(WAPI_RX, "rtw_wapi_drop_for_key_absent: multicast key is absent\n");
++				return bDrop;
++			}
++		} else {
++			if (!list_empty(&pWapiInfo->wapiSTAUsedList)) {
++				list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++					WAPI_DATA(WAPI_RX, "rtw_wapi_drop_for_key_absent: pWapiSta->PeerMacAddr ", pWapiSta->PeerMacAddr, 6);
++					if (_rtw_memcmp(pRA, pWapiSta->PeerMacAddr, 6) == _TRUE) {
++						bFindMatchPeer = true;
++						break;
++					}
++				}
++				if (bFindMatchPeer)	{
++					if (!pWapiSta->wapiUsk.bTxEnable) {
++						bDrop = true;
++						WAPI_TRACE(WAPI_RX, "rtw_wapi_drop_for_key_absent: unicast key is absent\n");
++						return bDrop;
++					}
++				} else {
++					bDrop = true;
++					WAPI_TRACE(WAPI_RX, "rtw_wapi_drop_for_key_absent: no peer find\n");
++					return bDrop;
++				}
++
++			} else {
++				bDrop = true;
++				WAPI_TRACE(WAPI_RX, "rtw_wapi_drop_for_key_absent: no sta  exist\n");
++				return bDrop;
++			}
++		}
++	} else
++		return bDrop;
++
++	return bDrop;
++}
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_wapi_sms4.c b/drivers/net/wireless/rtl8812au/core/rtw_wapi_sms4.c
+new file mode 100644
+index 0000000..fc01212
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_wapi_sms4.c
+@@ -0,0 +1,908 @@
++#ifdef CONFIG_WAPI_SUPPORT
++
++#include <linux/unistd.h>
++#include <linux/etherdevice.h>
++#include <drv_types.h>
++#include <rtw_wapi.h>
++
++
++#ifdef CONFIG_WAPI_SW_SMS4
++
++#define WAPI_LITTLE_ENDIAN
++/* #define BIG_ENDIAN */
++#define ENCRYPT  0
++#define DECRYPT  1
++
++
++/**********************************************************
++ **********************************************************/
++const u8 Sbox[256] = {
++	0xd6, 0x90, 0xe9, 0xfe, 0xcc, 0xe1, 0x3d, 0xb7, 0x16, 0xb6, 0x14, 0xc2, 0x28, 0xfb, 0x2c, 0x05,
++	0x2b, 0x67, 0x9a, 0x76, 0x2a, 0xbe, 0x04, 0xc3, 0xaa, 0x44, 0x13, 0x26, 0x49, 0x86, 0x06, 0x99,
++	0x9c, 0x42, 0x50, 0xf4, 0x91, 0xef, 0x98, 0x7a, 0x33, 0x54, 0x0b, 0x43, 0xed, 0xcf, 0xac, 0x62,
++	0xe4, 0xb3, 0x1c, 0xa9, 0xc9, 0x08, 0xe8, 0x95, 0x80, 0xdf, 0x94, 0xfa, 0x75, 0x8f, 0x3f, 0xa6,
++	0x47, 0x07, 0xa7, 0xfc, 0xf3, 0x73, 0x17, 0xba, 0x83, 0x59, 0x3c, 0x19, 0xe6, 0x85, 0x4f, 0xa8,
++	0x68, 0x6b, 0x81, 0xb2, 0x71, 0x64, 0xda, 0x8b, 0xf8, 0xeb, 0x0f, 0x4b, 0x70, 0x56, 0x9d, 0x35,
++	0x1e, 0x24, 0x0e, 0x5e, 0x63, 0x58, 0xd1, 0xa2, 0x25, 0x22, 0x7c, 0x3b, 0x01, 0x21, 0x78, 0x87,
++	0xd4, 0x00, 0x46, 0x57, 0x9f, 0xd3, 0x27, 0x52, 0x4c, 0x36, 0x02, 0xe7, 0xa0, 0xc4, 0xc8, 0x9e,
++	0xea, 0xbf, 0x8a, 0xd2, 0x40, 0xc7, 0x38, 0xb5, 0xa3, 0xf7, 0xf2, 0xce, 0xf9, 0x61, 0x15, 0xa1,
++	0xe0, 0xae, 0x5d, 0xa4, 0x9b, 0x34, 0x1a, 0x55, 0xad, 0x93, 0x32, 0x30, 0xf5, 0x8c, 0xb1, 0xe3,
++	0x1d, 0xf6, 0xe2, 0x2e, 0x82, 0x66, 0xca, 0x60, 0xc0, 0x29, 0x23, 0xab, 0x0d, 0x53, 0x4e, 0x6f,
++	0xd5, 0xdb, 0x37, 0x45, 0xde, 0xfd, 0x8e, 0x2f, 0x03, 0xff, 0x6a, 0x72, 0x6d, 0x6c, 0x5b, 0x51,
++	0x8d, 0x1b, 0xaf, 0x92, 0xbb, 0xdd, 0xbc, 0x7f, 0x11, 0xd9, 0x5c, 0x41, 0x1f, 0x10, 0x5a, 0xd8,
++	0x0a, 0xc1, 0x31, 0x88, 0xa5, 0xcd, 0x7b, 0xbd, 0x2d, 0x74, 0xd0, 0x12, 0xb8, 0xe5, 0xb4, 0xb0,
++	0x89, 0x69, 0x97, 0x4a, 0x0c, 0x96, 0x77, 0x7e, 0x65, 0xb9, 0xf1, 0x09, 0xc5, 0x6e, 0xc6, 0x84,
++	0x18, 0xf0, 0x7d, 0xec, 0x3a, 0xdc, 0x4d, 0x20, 0x79, 0xee, 0x5f, 0x3e, 0xd7, 0xcb, 0x39, 0x48
++};
++
++const u32 CK[32] = {
++	0x00070e15, 0x1c232a31, 0x383f464d, 0x545b6269,
++	0x70777e85, 0x8c939aa1, 0xa8afb6bd, 0xc4cbd2d9,
++	0xe0e7eef5, 0xfc030a11, 0x181f262d, 0x343b4249,
++	0x50575e65, 0x6c737a81, 0x888f969d, 0xa4abb2b9,
++	0xc0c7ced5, 0xdce3eaf1, 0xf8ff060d, 0x141b2229,
++	0x30373e45, 0x4c535a61, 0x686f767d, 0x848b9299,
++	0xa0a7aeb5, 0xbcc3cad1, 0xd8dfe6ed, 0xf4fb0209,
++	0x10171e25, 0x2c333a41, 0x484f565d, 0x646b7279
++};
++
++#define Rotl(_x, _y) (((_x) << (_y)) | ((_x) >> (32 - (_y))))
++
++#define ByteSub(_A) (Sbox[(_A) >> 24 & 0xFF] << 24 | \
++		     Sbox[(_A) >> 16 & 0xFF] << 16 | \
++		     Sbox[(_A) >>  8 & 0xFF] <<  8 | \
++		     Sbox[(_A) & 0xFF])
++
++#define L1(_B) ((_B) ^ Rotl(_B, 2) ^ Rotl(_B, 10) ^ Rotl(_B, 18) ^ Rotl(_B, 24))
++#define L2(_B) ((_B) ^ Rotl(_B, 13) ^ Rotl(_B, 23))
++
++static void
++xor_block(void *dst, void *src1, void *src2)
++/* 128-bit xor: *dst = *src1 xor *src2. Pointers must be 32-bit aligned */
++{
++	((u32 *)dst)[0] = ((u32 *)src1)[0] ^ ((u32 *)src2)[0];
++	((u32 *)dst)[1] = ((u32 *)src1)[1] ^ ((u32 *)src2)[1];
++	((u32 *)dst)[2] = ((u32 *)src1)[2] ^ ((u32 *)src2)[2];
++	((u32 *)dst)[3] = ((u32 *)src1)[3] ^ ((u32 *)src2)[3];
++}
++
++
++void SMS4Crypt(u8 *Input, u8 *Output, u32 *rk)
++{
++	u32 r, mid, x0, x1, x2, x3, *p;
++	p = (u32 *)Input;
++	x0 = p[0];
++	x1 = p[1];
++	x2 = p[2];
++	x3 = p[3];
++#ifdef WAPI_LITTLE_ENDIAN
++	x0 = Rotl(x0, 16);
++	x0 = ((x0 & 0x00FF00FF) << 8) | ((x0 & 0xFF00FF00) >> 8);
++	x1 = Rotl(x1, 16);
++	x1 = ((x1 & 0x00FF00FF) << 8) | ((x1 & 0xFF00FF00) >> 8);
++	x2 = Rotl(x2, 16);
++	x2 = ((x2 & 0x00FF00FF) << 8) | ((x2 & 0xFF00FF00) >> 8);
++	x3 = Rotl(x3, 16);
++	x3 = ((x3 & 0x00FF00FF) << 8) | ((x3 & 0xFF00FF00) >> 8);
++#endif
++	for (r = 0; r < 32; r += 4) {
++		mid = x1 ^ x2 ^ x3 ^ rk[r + 0];
++		mid = ByteSub(mid);
++		x0 ^= L1(mid);
++		mid = x2 ^ x3 ^ x0 ^ rk[r + 1];
++		mid = ByteSub(mid);
++		x1 ^= L1(mid);
++		mid = x3 ^ x0 ^ x1 ^ rk[r + 2];
++		mid = ByteSub(mid);
++		x2 ^= L1(mid);
++		mid = x0 ^ x1 ^ x2 ^ rk[r + 3];
++		mid = ByteSub(mid);
++		x3 ^= L1(mid);
++	}
++#ifdef WAPI_LITTLE_ENDIAN
++	x0 = Rotl(x0, 16);
++	x0 = ((x0 & 0x00FF00FF) << 8) | ((x0 & 0xFF00FF00) >> 8);
++	x1 = Rotl(x1, 16);
++	x1 = ((x1 & 0x00FF00FF) << 8) | ((x1 & 0xFF00FF00) >> 8);
++	x2 = Rotl(x2, 16);
++	x2 = ((x2 & 0x00FF00FF) << 8) | ((x2 & 0xFF00FF00) >> 8);
++	x3 = Rotl(x3, 16);
++	x3 = ((x3 & 0x00FF00FF) << 8) | ((x3 & 0xFF00FF00) >> 8);
++#endif
++	p = (u32 *)Output;
++	p[0] = x3;
++	p[1] = x2;
++	p[2] = x1;
++	p[3] = x0;
++}
++
++
++
++void SMS4KeyExt(u8 *Key, u32 *rk, u32 CryptFlag)
++{
++	u32 r, mid, x0, x1, x2, x3, *p;
++
++	p = (u32 *)Key;
++	x0 = p[0];
++	x1 = p[1];
++	x2 = p[2];
++	x3 = p[3];
++#ifdef WAPI_LITTLE_ENDIAN
++	x0 = Rotl(x0, 16);
++	x0 = ((x0 & 0xFF00FF) << 8) | ((x0 & 0xFF00FF00) >> 8);
++	x1 = Rotl(x1, 16);
++	x1 = ((x1 & 0xFF00FF) << 8) | ((x1 & 0xFF00FF00) >> 8);
++	x2 = Rotl(x2, 16);
++	x2 = ((x2 & 0xFF00FF) << 8) | ((x2 & 0xFF00FF00) >> 8);
++	x3 = Rotl(x3, 16);
++	x3 = ((x3 & 0xFF00FF) << 8) | ((x3 & 0xFF00FF00) >> 8);
++#endif
++
++	x0 ^= 0xa3b1bac6;
++	x1 ^= 0x56aa3350;
++	x2 ^= 0x677d9197;
++	x3 ^= 0xb27022dc;
++	for (r = 0; r < 32; r += 4) {
++		mid = x1 ^ x2 ^ x3 ^ CK[r + 0];
++		mid = ByteSub(mid);
++		rk[r + 0] = x0 ^= L2(mid);
++		mid = x2 ^ x3 ^ x0 ^ CK[r + 1];
++		mid = ByteSub(mid);
++		rk[r + 1] = x1 ^= L2(mid);
++		mid = x3 ^ x0 ^ x1 ^ CK[r + 2];
++		mid = ByteSub(mid);
++		rk[r + 2] = x2 ^= L2(mid);
++		mid = x0 ^ x1 ^ x2 ^ CK[r + 3];
++		mid = ByteSub(mid);
++		rk[r + 3] = x3 ^= L2(mid);
++	}
++	if (CryptFlag == DECRYPT) {
++		for (r = 0; r < 16; r++)
++			mid = rk[r], rk[r] = rk[31 - r], rk[31 - r] = mid;
++	}
++}
++
++
++void WapiSMS4Cryption(u8 *Key, u8 *IV, u8 *Input, u16 InputLength,
++		      u8 *Output, u16 *OutputLength, u32 CryptFlag)
++{
++	u32 blockNum, i, j, rk[32];
++	u16 remainder;
++	u8 blockIn[16], blockOut[16], tempIV[16], k;
++
++	*OutputLength = 0;
++	remainder = InputLength & 0x0F;
++	blockNum = InputLength >> 4;
++	if (remainder != 0)
++		blockNum++;
++	else
++		remainder = 16;
++
++	for (k = 0; k < 16; k++)
++		tempIV[k] = IV[15 - k];
++
++	memcpy(blockIn, tempIV, 16);
++
++	SMS4KeyExt((u8 *)Key, rk, CryptFlag);
++
++	for (i = 0; i < blockNum - 1; i++) {
++		SMS4Crypt((u8 *)blockIn, blockOut, rk);
++		xor_block(&Output[i * 16], &Input[i * 16], blockOut);
++		memcpy(blockIn, blockOut, 16);
++	}
++
++	*OutputLength = i * 16;
++
++	SMS4Crypt((u8 *)blockIn, blockOut, rk);
++
++	for (j = 0; j < remainder; j++)
++		Output[i * 16 + j] = Input[i * 16 + j] ^ blockOut[j];
++	*OutputLength += remainder;
++
++}
++
++void WapiSMS4Encryption(u8 *Key, u8 *IV, u8 *Input, u16 InputLength,
++			u8 *Output, u16 *OutputLength)
++{
++
++	WapiSMS4Cryption(Key, IV, Input, InputLength, Output, OutputLength, ENCRYPT);
++}
++
++void WapiSMS4Decryption(u8 *Key, u8 *IV, u8 *Input, u16 InputLength,
++			u8 *Output, u16 *OutputLength)
++{
++	/* OFB mode: is also ENCRYPT flag */
++	WapiSMS4Cryption(Key, IV, Input, InputLength, Output, OutputLength, ENCRYPT);
++}
++
++void WapiSMS4CalculateMic(u8 *Key, u8 *IV, u8 *Input1, u8 Input1Length,
++		  u8 *Input2, u16 Input2Length, u8 *Output, u8 *OutputLength)
++{
++	u32 blockNum, i, remainder, rk[32];
++	u8 BlockIn[16], BlockOut[16], TempBlock[16], tempIV[16], k;
++
++	*OutputLength = 0;
++	remainder = Input1Length & 0x0F;
++	blockNum = Input1Length >> 4;
++
++	for (k = 0; k < 16; k++)
++		tempIV[k] = IV[15 - k];
++
++	memcpy(BlockIn, tempIV, 16);
++
++	SMS4KeyExt((u8 *)Key, rk, ENCRYPT);
++
++	SMS4Crypt((u8 *)BlockIn, BlockOut, rk);
++
++	for (i = 0; i < blockNum; i++) {
++		xor_block(BlockIn, (Input1 + i * 16), BlockOut);
++		SMS4Crypt((u8 *)BlockIn, BlockOut, rk);
++	}
++
++	if (remainder != 0) {
++		memset(TempBlock, 0, 16);
++		memcpy(TempBlock, (Input1 + blockNum * 16), remainder);
++
++		xor_block(BlockIn, TempBlock, BlockOut);
++		SMS4Crypt((u8 *)BlockIn, BlockOut, rk);
++	}
++
++	remainder = Input2Length & 0x0F;
++	blockNum = Input2Length >> 4;
++
++	for (i = 0; i < blockNum; i++) {
++		xor_block(BlockIn, (Input2 + i * 16), BlockOut);
++		SMS4Crypt((u8 *)BlockIn, BlockOut, rk);
++	}
++
++	if (remainder != 0) {
++		memset(TempBlock, 0, 16);
++		memcpy(TempBlock, (Input2 + blockNum * 16), remainder);
++
++		xor_block(BlockIn, TempBlock, BlockOut);
++		SMS4Crypt((u8 *)BlockIn, BlockOut, rk);
++	}
++
++	memcpy(Output, BlockOut, 16);
++	*OutputLength = 16;
++}
++
++void SecCalculateMicSMS4(
++	u8		KeyIdx,
++	u8        *MicKey,
++	u8        *pHeader,
++	u8        *pData,
++	u16       DataLen,
++	u8        *MicBuffer
++)
++{
++#if 0
++	struct ieee80211_hdr_3addr_qos *header;
++	u8 TempBuf[34], TempLen = 32, MicLen, QosOffset, *IV;
++	u16 *pTemp, fc;
++
++	WAPI_TRACE(WAPI_TX | WAPI_RX, "=========>%s\n", __FUNCTION__);
++
++	header = (struct ieee80211_hdr_3addr_qos *)pHeader;
++	memset(TempBuf, 0, 34);
++	memcpy(TempBuf, pHeader, 2); /* FrameCtrl */
++	pTemp = (u16 *)TempBuf;
++	*pTemp &= 0xc78f;       /* bit4,5,6,11,12,13 */
++
++	memcpy((TempBuf + 2), (pHeader + 4), 12); /* Addr1, Addr2 */
++	memcpy((TempBuf + 14), (pHeader + 22), 2); /* SeqCtrl */
++	pTemp = (u16 *)(TempBuf + 14);
++	*pTemp &= 0x000f;
++
++	memcpy((TempBuf + 16), (pHeader + 16), 6); /* Addr3 */
++
++	fc = le16_to_cpu(header->frame_ctl);
++
++
++
++	if (GetFrDs((u16 *)&fc) && GetToDs((u16 *)&fc)) {
++		memcpy((TempBuf + 22), (pHeader + 24), 6);
++		QosOffset = 30;
++	} else {
++		memset((TempBuf + 22), 0, 6);
++		QosOffset = 24;
++	}
++
++	if ((fc & 0x0088) == 0x0088) {
++		memcpy((TempBuf + 28), (pHeader + QosOffset), 2);
++		TempLen += 2;
++		/* IV = pHeader + QosOffset + 2 + SNAP_SIZE + sizeof(u16) + 2; */
++		IV = pHeader + QosOffset + 2 + 2;
++	} else {
++		IV = pHeader + QosOffset + 2;
++		/* IV = pHeader + QosOffset + SNAP_SIZE + sizeof(u16) + 2; */
++	}
++
++	TempBuf[TempLen - 1] = (u8)(DataLen & 0xff);
++	TempBuf[TempLen - 2] = (u8)((DataLen & 0xff00) >> 8);
++	TempBuf[TempLen - 4] = KeyIdx;
++
++	WAPI_DATA(WAPI_TX, "CalculateMic - KEY", MicKey, 16);
++	WAPI_DATA(WAPI_TX, "CalculateMic - IV", IV, 16);
++	WAPI_DATA(WAPI_TX, "CalculateMic - TempBuf", TempBuf, TempLen);
++	WAPI_DATA(WAPI_TX, "CalculateMic - pData", pData, DataLen);
++
++	WapiSMS4CalculateMic(MicKey, IV, TempBuf, TempLen,
++			     pData, DataLen, MicBuffer, &MicLen);
++
++	if (MicLen != 16)
++		WAPI_TRACE(WAPI_ERR, "%s: MIC Length Error!!\n", __FUNCTION__);
++
++	WAPI_TRACE(WAPI_TX | WAPI_RX, "<=========%s\n", __FUNCTION__);
++#endif
++}
++
++/* AddCount: 1 or 2.
++ *  If overflow, return 1,
++ *  else return 0.
++ */
++u8 WapiIncreasePN(u8 *PN, u8 AddCount)
++{
++	u8  i;
++
++	if (NULL == PN)
++		return 1;
++	/* YJ,test,091102 */
++	/*
++	if(AddCount == 2){
++		RTW_INFO("############################%s(): PN[0]=0x%x\n", __FUNCTION__, PN[0]);
++		if(PN[0] == 0x48){
++			PN[0] += AddCount;
++			return 1;
++		}else{
++			PN[0] += AddCount;
++			return 0;
++		}
++	}
++	*/
++	/* YJ,test,091102,end */
++
++	for (i = 0; i < 16; i++) {
++		if (PN[i] + AddCount <= 0xff) {
++			PN[i] += AddCount;
++			return 0;
++		} else {
++			PN[i] += AddCount;
++			AddCount = 1;
++		}
++	}
++	return 1;
++}
++
++
++void WapiGetLastRxUnicastPNForQoSData(
++	u8			UserPriority,
++	PRT_WAPI_STA_INFO    pWapiStaInfo,
++	u8 *PNOut
++)
++{
++	WAPI_TRACE(WAPI_RX, "===========> %s\n", __FUNCTION__);
++	switch (UserPriority) {
++	case 0:
++	case 3:
++		memcpy(PNOut, pWapiStaInfo->lastRxUnicastPNBEQueue, 16);
++		break;
++	case 1:
++	case 2:
++		memcpy(PNOut, pWapiStaInfo->lastRxUnicastPNBKQueue, 16);
++		break;
++	case 4:
++	case 5:
++		memcpy(PNOut, pWapiStaInfo->lastRxUnicastPNVIQueue, 16);
++		break;
++	case 6:
++	case 7:
++		memcpy(PNOut, pWapiStaInfo->lastRxUnicastPNVOQueue, 16);
++		break;
++	default:
++		WAPI_TRACE(WAPI_ERR, "%s: Unknown TID\n", __FUNCTION__);
++		break;
++	}
++	WAPI_TRACE(WAPI_RX, "<=========== %s\n", __FUNCTION__);
++}
++
++
++void WapiSetLastRxUnicastPNForQoSData(
++	u8		UserPriority,
++	u8           *PNIn,
++	PRT_WAPI_STA_INFO    pWapiStaInfo
++)
++{
++	WAPI_TRACE(WAPI_RX, "===========> %s\n", __FUNCTION__);
++	switch (UserPriority) {
++	case 0:
++	case 3:
++		memcpy(pWapiStaInfo->lastRxUnicastPNBEQueue, PNIn, 16);
++		break;
++	case 1:
++	case 2:
++		memcpy(pWapiStaInfo->lastRxUnicastPNBKQueue, PNIn, 16);
++		break;
++	case 4:
++	case 5:
++		memcpy(pWapiStaInfo->lastRxUnicastPNVIQueue, PNIn, 16);
++		break;
++	case 6:
++	case 7:
++		memcpy(pWapiStaInfo->lastRxUnicastPNVOQueue, PNIn, 16);
++		break;
++	default:
++		WAPI_TRACE(WAPI_ERR, "%s: Unknown TID\n", __FUNCTION__);
++		break;
++	}
++	WAPI_TRACE(WAPI_RX, "<=========== %s\n", __FUNCTION__);
++}
++
++
++/****************************************************************************
++ FALSE not RX-Reorder
++ TRUE do RX Reorder
++add to support WAPI to N-mode
++*****************************************************************************/
++u8 WapiCheckPnInSwDecrypt(
++	_adapter *padapter,
++	struct sk_buff *pskb
++)
++{
++	u8				ret = false;
++
++#if 0
++	struct ieee80211_hdr_3addr_qos *header;
++	u16				fc;
++	u8				*pDaddr, *pTaddr, *pRaddr;
++
++	header = (struct ieee80211_hdr_3addr_qos *)pskb->data;
++	pTaddr = header->addr2;
++	pRaddr = header->addr1;
++	fc = le16_to_cpu(header->frame_ctl);
++
++	if (GetToDs(&fc))
++		pDaddr = header->addr3;
++	else
++		pDaddr = header->addr1;
++
++	if ((_rtw_memcmp(pRaddr, padapter->pnetdev->dev_addr, ETH_ALEN) == 0)
++	    &&	!(pDaddr)
++	    && (GetFrameType(&fc) == WIFI_QOS_DATA_TYPE))
++		/* && ieee->pHTInfo->bCurrentHTSupport && */
++		/* ieee->pHTInfo->bCurRxReorderEnable) */
++		ret = false;
++	else
++		ret = true;
++#endif
++	WAPI_TRACE(WAPI_RX, "%s: return %d\n", __FUNCTION__, ret);
++	return ret;
++}
++
++int SecSMS4HeaderFillIV(_adapter *padapter, u8 *pxmitframe)
++{
++	struct pkt_attrib *pattrib = &((struct xmit_frame *)pxmitframe)->attrib;
++	u8 *frame = ((struct xmit_frame *)pxmitframe)->buf_addr + TXDESC_OFFSET;
++	u8 *pSecHeader = NULL, *pos = NULL, *pRA = NULL;
++	u8 bPNOverflow = false, bFindMatchPeer = false, hdr_len = 0;
++	PWLAN_HEADER_WAPI_EXTENSION pWapiExt = NULL;
++	PRT_WAPI_T         pWapiInfo = &padapter->wapiInfo;
++	PRT_WAPI_STA_INFO  pWapiSta = NULL;
++	int ret = 0;
++
++	WAPI_TRACE(WAPI_TX, "=========>%s\n", __FUNCTION__);
++
++	return ret;
++#if 0
++	hdr_len = sMacHdrLng;
++	if (GetFrameType(pskb->data) == WIFI_QOS_DATA_TYPE)
++		hdr_len += 2;
++	/* hdr_len += SNAP_SIZE + sizeof(u16); */
++
++	pos = skb_push(pskb, padapter->wapiInfo.extra_prefix_len);
++	memmove(pos, pos + padapter->wapiInfo.extra_prefix_len, hdr_len);
++
++	pSecHeader = pskb->data + hdr_len;
++	pWapiExt = (PWLAN_HEADER_WAPI_EXTENSION)pSecHeader;
++	pRA = pskb->data + 4;
++
++	WAPI_DATA(WAPI_TX, "FillIV - Before Fill IV", pskb->data, pskb->len);
++
++	/* Address 1 is always receiver's address */
++	if (IS_MCAST(pRA)) {
++		if (!pWapiInfo->wapiTxMsk.bTxEnable) {
++			WAPI_TRACE(WAPI_ERR, "%s: bTxEnable = 0!!\n", __FUNCTION__);
++			return -2;
++		}
++		if (pWapiInfo->wapiTxMsk.keyId <= 1) {
++			pWapiExt->KeyIdx = pWapiInfo->wapiTxMsk.keyId;
++			pWapiExt->Reserved = 0;
++			bPNOverflow = WapiIncreasePN(pWapiInfo->lastTxMulticastPN, 1);
++			memcpy(pWapiExt->PN, pWapiInfo->lastTxMulticastPN, 16);
++			if (bPNOverflow) {
++				/* Update MSK Notification. */
++				WAPI_TRACE(WAPI_ERR, "===============>%s():multicast PN overflow\n", __FUNCTION__);
++				rtw_wapi_app_event_handler(padapter, NULL, 0, pRA, false, false, true, 0, false);
++			}
++		} else {
++			WAPI_TRACE(WAPI_ERR, "%s: Invalid Wapi Multicast KeyIdx!!\n", __FUNCTION__);
++			ret = -3;
++		}
++	} else {
++		list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++			if (!memcmp(pWapiSta->PeerMacAddr, pRA, 6)) {
++				bFindMatchPeer = true;
++				break;
++			}
++		}
++		if (bFindMatchPeer) {
++			if ((!pWapiSta->wapiUskUpdate.bTxEnable) && (!pWapiSta->wapiUsk.bTxEnable)) {
++				WAPI_TRACE(WAPI_ERR, "%s: bTxEnable = 0!!\n", __FUNCTION__);
++				return -4;
++			}
++			if (pWapiSta->wapiUsk.keyId <= 1) {
++				if (pWapiSta->wapiUskUpdate.bTxEnable)
++					pWapiExt->KeyIdx = pWapiSta->wapiUskUpdate.keyId;
++				else
++					pWapiExt->KeyIdx = pWapiSta->wapiUsk.keyId;
++
++				pWapiExt->Reserved = 0;
++				bPNOverflow = WapiIncreasePN(pWapiSta->lastTxUnicastPN, 2);
++				memcpy(pWapiExt->PN, pWapiSta->lastTxUnicastPN, 16);
++				if (bPNOverflow) {
++					/* Update USK Notification. */
++					WAPI_TRACE(WAPI_ERR, "===============>%s():unicast PN overflow\n", __FUNCTION__);
++					rtw_wapi_app_event_handler(padapter, NULL, 0, pWapiSta->PeerMacAddr, false, true, false, 0, false);
++				}
++			} else {
++				WAPI_TRACE(WAPI_ERR, "%s: Invalid Wapi Unicast KeyIdx!!\n", __FUNCTION__);
++				ret = -5;
++			}
++		} else {
++			WAPI_TRACE(WAPI_ERR, "%s: Can not find Peer Sta "MAC_FMT"!!\n", __FUNCTION__, MAC_ARG(pRA));
++			ret = -6;
++		}
++	}
++
++	WAPI_DATA(WAPI_TX, "FillIV - After Fill IV", pskb->data, pskb->len);
++	WAPI_TRACE(WAPI_TX, "<=========%s\n", __FUNCTION__);
++	return ret;
++#endif
++}
++
++/* WAPI SW Enc: must have done Coalesce! */
++void SecSWSMS4Encryption(
++	_adapter *padapter,
++	u8 *pxmitframe
++)
++{
++	PRT_WAPI_T		pWapiInfo = &padapter->wapiInfo;
++	PRT_WAPI_STA_INFO   pWapiSta = NULL;
++	u8 *pframe = ((struct xmit_frame *)pxmitframe)->buf_addr + TXDESC_SIZE;
++	struct pkt_attrib *pattrib = &((struct xmit_frame *)pxmitframe)->attrib;
++
++	u8 *SecPtr = NULL, *pRA, *pMicKey = NULL, *pDataKey = NULL, *pIV = NULL;
++	u8 IVOffset, DataOffset, bFindMatchPeer = false, KeyIdx = 0, MicBuffer[16];
++	u16 OutputLength;
++
++	WAPI_TRACE(WAPI_TX, "=========>%s\n", __FUNCTION__);
++
++	WAPI_TRACE(WAPI_TX, "hdrlen: %d\n", pattrib->hdrlen);
++
++	return;
++
++	DataOffset = pattrib->hdrlen + pattrib->iv_len;
++
++	pRA = pframe + 4;
++
++
++	if (IS_MCAST(pRA)) {
++		KeyIdx = pWapiInfo->wapiTxMsk.keyId;
++		pIV = pWapiInfo->lastTxMulticastPN;
++		pMicKey = pWapiInfo->wapiTxMsk.micKey;
++		pDataKey = pWapiInfo->wapiTxMsk.dataKey;
++	} else {
++		if (!list_empty(&(pWapiInfo->wapiSTAUsedList))) {
++			list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++				if (0 == memcmp(pWapiSta->PeerMacAddr, pRA, 6)) {
++					bFindMatchPeer = true;
++					break;
++				}
++			}
++
++			if (bFindMatchPeer) {
++				if (pWapiSta->wapiUskUpdate.bTxEnable) {
++					KeyIdx = pWapiSta->wapiUskUpdate.keyId;
++					WAPI_TRACE(WAPI_TX, "%s(): Use update USK!! KeyIdx=%d\n", __FUNCTION__, KeyIdx);
++					pIV = pWapiSta->lastTxUnicastPN;
++					pMicKey = pWapiSta->wapiUskUpdate.micKey;
++					pDataKey = pWapiSta->wapiUskUpdate.dataKey;
++				} else {
++					KeyIdx = pWapiSta->wapiUsk.keyId;
++					WAPI_TRACE(WAPI_TX, "%s(): Use USK!! KeyIdx=%d\n", __FUNCTION__, KeyIdx);
++					pIV = pWapiSta->lastTxUnicastPN;
++					pMicKey = pWapiSta->wapiUsk.micKey;
++					pDataKey = pWapiSta->wapiUsk.dataKey;
++				}
++			} else {
++				WAPI_TRACE(WAPI_ERR, "%s: Can not find Peer Sta!!\n", __FUNCTION__);
++				return;
++			}
++		} else {
++			WAPI_TRACE(WAPI_ERR, "%s: wapiSTAUsedList is empty!!\n", __FUNCTION__);
++			return;
++		}
++	}
++
++	SecPtr = pframe;
++	SecCalculateMicSMS4(KeyIdx, pMicKey, SecPtr, (SecPtr + DataOffset), pattrib->pktlen, MicBuffer);
++
++	WAPI_DATA(WAPI_TX, "Encryption - MIC", MicBuffer, padapter->wapiInfo.extra_postfix_len);
++
++	memcpy(pframe + pattrib->hdrlen + pattrib->iv_len + pattrib->pktlen - pattrib->icv_len,
++	       (u8 *)MicBuffer,
++	       padapter->wapiInfo.extra_postfix_len
++	      );
++
++
++	WapiSMS4Encryption(pDataKey, pIV, (SecPtr + DataOffset), pattrib->pktlen + pattrib->icv_len, (SecPtr + DataOffset), &OutputLength);
++
++	WAPI_DATA(WAPI_TX, "Encryption - After SMS4 encryption", pframe, pattrib->hdrlen + pattrib->iv_len + pattrib->pktlen);
++
++	WAPI_TRACE(WAPI_TX, "<=========%s\n", __FUNCTION__);
++}
++
++u8 SecSWSMS4Decryption(
++	_adapter *padapter,
++	u8		*precv_frame,
++	struct recv_priv *precv_priv
++)
++{
++	PRT_WAPI_T pWapiInfo = &padapter->wapiInfo;
++	struct recv_frame_hdr *precv_hdr;
++	PRT_WAPI_STA_INFO   pWapiSta = NULL;
++	u8 IVOffset, DataOffset, bFindMatchPeer = false, bUseUpdatedKey = false;
++	u8 KeyIdx, MicBuffer[16], lastRxPNforQoS[16];
++	u8 *pRA, *pTA, *pMicKey, *pDataKey, *pLastRxPN, *pRecvPN, *pSecData, *pRecvMic, *pos;
++	u8 TID = 0;
++	u16 OutputLength, DataLen;
++	u8   bQosData;
++	struct sk_buff	*pskb;
++
++	WAPI_TRACE(WAPI_RX, "=========>%s\n", __FUNCTION__);
++
++	return 0;
++
++	precv_hdr = &((union recv_frame *)precv_frame)->u.hdr;
++	pskb = (struct sk_buff *)(precv_hdr->rx_data);
++	precv_hdr->bWapiCheckPNInDecrypt = WapiCheckPnInSwDecrypt(padapter, pskb);
++	WAPI_TRACE(WAPI_RX, "=========>%s: check PN  %d\n", __FUNCTION__, precv_hdr->bWapiCheckPNInDecrypt);
++	WAPI_DATA(WAPI_RX, "Decryption - Before decryption", pskb->data, pskb->len);
++
++	IVOffset = sMacHdrLng;
++	bQosData = GetFrameType(pskb->data) == WIFI_QOS_DATA_TYPE;
++	if (bQosData)
++		IVOffset += 2;
++
++	/* if(GetHTC()) */
++	/*	IVOffset += 4; */
++
++	/* IVOffset += SNAP_SIZE + sizeof(u16); */
++
++	DataOffset = IVOffset + padapter->wapiInfo.extra_prefix_len;
++
++	pRA = pskb->data + 4;
++	pTA = pskb->data + 10;
++	KeyIdx = *(pskb->data + IVOffset);
++	pRecvPN = pskb->data + IVOffset + 2;
++	pSecData = pskb->data + DataOffset;
++	DataLen = pskb->len - DataOffset;
++	pRecvMic = pskb->data + pskb->len - padapter->wapiInfo.extra_postfix_len;
++	TID = GetTid(pskb->data);
++
++	if (!list_empty(&(pWapiInfo->wapiSTAUsedList))) {
++		list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++			if (0 == memcmp(pWapiSta->PeerMacAddr, pTA, 6)) {
++				bFindMatchPeer = true;
++				break;
++			}
++		}
++	}
++
++	if (!bFindMatchPeer) {
++		WAPI_TRACE(WAPI_ERR, "%s: Can not find Peer Sta "MAC_FMT" for Key Info!!!\n", __FUNCTION__, MAC_ARG(pTA));
++		return false;
++	}
++
++	if (IS_MCAST(pRA)) {
++		WAPI_TRACE(WAPI_RX, "%s: Multicast decryption !!!\n", __FUNCTION__);
++		if (pWapiSta->wapiMsk.keyId == KeyIdx && pWapiSta->wapiMsk.bSet) {
++			pLastRxPN = pWapiSta->lastRxMulticastPN;
++			if (!WapiComparePN(pRecvPN, pLastRxPN)) {
++				WAPI_TRACE(WAPI_ERR, "%s: MSK PN is not larger than last, Dropped!!!\n", __FUNCTION__);
++				WAPI_DATA(WAPI_ERR, "pRecvPN:", pRecvPN, 16);
++				WAPI_DATA(WAPI_ERR, "pLastRxPN:", pLastRxPN, 16);
++				return false;
++			}
++
++			memcpy(pLastRxPN, pRecvPN, 16);
++			pMicKey = pWapiSta->wapiMsk.micKey;
++			pDataKey = pWapiSta->wapiMsk.dataKey;
++		} else if (pWapiSta->wapiMskUpdate.keyId == KeyIdx && pWapiSta->wapiMskUpdate.bSet) {
++			WAPI_TRACE(WAPI_RX, "%s: Use Updated MSK for Decryption !!!\n", __FUNCTION__);
++			bUseUpdatedKey = true;
++			memcpy(pWapiSta->lastRxMulticastPN, pRecvPN, 16);
++			pMicKey = pWapiSta->wapiMskUpdate.micKey;
++			pDataKey = pWapiSta->wapiMskUpdate.dataKey;
++		} else {
++			WAPI_TRACE(WAPI_ERR, "%s: Can not find MSK with matched KeyIdx(%d), Dropped !!!\n", __FUNCTION__, KeyIdx);
++			return false;
++		}
++	} else {
++		WAPI_TRACE(WAPI_RX, "%s: Unicast decryption !!!\n", __FUNCTION__);
++		if (pWapiSta->wapiUsk.keyId == KeyIdx && pWapiSta->wapiUsk.bSet) {
++			WAPI_TRACE(WAPI_RX, "%s: Use USK for Decryption!!!\n", __FUNCTION__);
++			if (precv_hdr->bWapiCheckPNInDecrypt) {
++				if (GetFrameType(pskb->data) == WIFI_QOS_DATA_TYPE) {
++					WapiGetLastRxUnicastPNForQoSData(TID, pWapiSta, lastRxPNforQoS);
++					pLastRxPN = lastRxPNforQoS;
++				} else
++					pLastRxPN = pWapiSta->lastRxUnicastPN;
++				if (!WapiComparePN(pRecvPN, pLastRxPN))
++					return false;
++				if (bQosData)
++					WapiSetLastRxUnicastPNForQoSData(TID, pRecvPN, pWapiSta);
++				else
++					memcpy(pWapiSta->lastRxUnicastPN, pRecvPN, 16);
++			} else
++				memcpy(precv_hdr->WapiTempPN, pRecvPN, 16);
++
++			if (check_fwstate(&padapter->mlmepriv, WIFI_STATION_STATE)) {
++				if ((pRecvPN[0] & 0x1) == 0) {
++					WAPI_TRACE(WAPI_ERR, "%s: Rx USK PN is not odd when Infra STA mode, Dropped !!!\n", __FUNCTION__);
++					return false;
++				}
++			}
++
++			pMicKey = pWapiSta->wapiUsk.micKey;
++			pDataKey = pWapiSta->wapiUsk.dataKey;
++		} else if (pWapiSta->wapiUskUpdate.keyId == KeyIdx && pWapiSta->wapiUskUpdate.bSet) {
++			WAPI_TRACE(WAPI_RX, "%s: Use Updated USK for Decryption!!!\n", __FUNCTION__);
++			if (pWapiSta->bAuthenticatorInUpdata)
++				bUseUpdatedKey = true;
++			else
++				bUseUpdatedKey = false;
++
++			if (bQosData)
++				WapiSetLastRxUnicastPNForQoSData(TID, pRecvPN, pWapiSta);
++			else
++				memcpy(pWapiSta->lastRxUnicastPN, pRecvPN, 16);
++			pMicKey = pWapiSta->wapiUskUpdate.micKey;
++			pDataKey = pWapiSta->wapiUskUpdate.dataKey;
++		} else {
++			WAPI_TRACE(WAPI_ERR, "%s: No valid USK!!!KeyIdx=%d pWapiSta->wapiUsk.keyId=%d pWapiSta->wapiUskUpdate.keyId=%d\n", __FUNCTION__, KeyIdx, pWapiSta->wapiUsk.keyId,
++				   pWapiSta->wapiUskUpdate.keyId);
++			/* dump_buf(pskb->data,pskb->len); */
++			return false;
++		}
++	}
++
++	WAPI_DATA(WAPI_RX, "Decryption - DataKey", pDataKey, 16);
++	WAPI_DATA(WAPI_RX, "Decryption - IV", pRecvPN, 16);
++	WapiSMS4Decryption(pDataKey, pRecvPN, pSecData, DataLen, pSecData, &OutputLength);
++
++	if (OutputLength != DataLen)
++		WAPI_TRACE(WAPI_ERR, "%s:  Output Length Error!!!!\n", __FUNCTION__);
++
++	WAPI_DATA(WAPI_RX, "Decryption - After decryption", pskb->data, pskb->len);
++
++	DataLen -= padapter->wapiInfo.extra_postfix_len;
++
++	SecCalculateMicSMS4(KeyIdx, pMicKey, pskb->data, pSecData, DataLen, MicBuffer);
++
++	WAPI_DATA(WAPI_RX, "Decryption - MIC received", pRecvMic, SMS4_MIC_LEN);
++	WAPI_DATA(WAPI_RX, "Decryption - MIC calculated", MicBuffer, SMS4_MIC_LEN);
++
++	if (0 == memcmp(MicBuffer, pRecvMic, padapter->wapiInfo.extra_postfix_len)) {
++		WAPI_TRACE(WAPI_RX, "%s: Check MIC OK!!\n", __FUNCTION__);
++		if (bUseUpdatedKey) {
++			/* delete the old key */
++			if (IS_MCAST(pRA)) {
++				WAPI_TRACE(WAPI_API, "%s(): AE use new update MSK!!\n", __FUNCTION__);
++				pWapiSta->wapiMsk.keyId = pWapiSta->wapiMskUpdate.keyId;
++				memcpy(pWapiSta->wapiMsk.dataKey, pWapiSta->wapiMskUpdate.dataKey, 16);
++				memcpy(pWapiSta->wapiMsk.micKey, pWapiSta->wapiMskUpdate.micKey, 16);
++				pWapiSta->wapiMskUpdate.bTxEnable = pWapiSta->wapiMskUpdate.bSet = false;
++			} else {
++				WAPI_TRACE(WAPI_API, "%s(): AE use new update USK!!\n", __FUNCTION__);
++				pWapiSta->wapiUsk.keyId = pWapiSta->wapiUskUpdate.keyId;
++				memcpy(pWapiSta->wapiUsk.dataKey, pWapiSta->wapiUskUpdate.dataKey, 16);
++				memcpy(pWapiSta->wapiUsk.micKey, pWapiSta->wapiUskUpdate.micKey, 16);
++				pWapiSta->wapiUskUpdate.bTxEnable = pWapiSta->wapiUskUpdate.bSet = false;
++			}
++		}
++	} else {
++		WAPI_TRACE(WAPI_ERR, "%s:  Check MIC Error, Dropped !!!!\n", __FUNCTION__);
++		return false;
++	}
++
++	pos = pskb->data;
++	memmove(pos + padapter->wapiInfo.extra_prefix_len, pos, IVOffset);
++	skb_pull(pskb, padapter->wapiInfo.extra_prefix_len);
++
++	WAPI_TRACE(WAPI_RX, "<=========%s\n", __FUNCTION__);
++
++	return true;
++}
++
++u32	rtw_sms4_encrypt(_adapter *padapter, u8 *pxmitframe)
++{
++
++	u8	*pframe;
++	u32 res = _SUCCESS;
++
++	WAPI_TRACE(WAPI_TX, "=========>%s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!padapter->wapiInfo.bWapiEnable)) {
++		WAPI_TRACE(WAPI_TX, "<========== %s, WAPI not supported or enabled!\n", __FUNCTION__);
++		return _FAIL;
++	}
++
++	if (((struct xmit_frame *)pxmitframe)->buf_addr == NULL)
++		return _FAIL;
++
++	pframe = ((struct xmit_frame *)pxmitframe)->buf_addr + TXDESC_OFFSET;
++
++	SecSWSMS4Encryption(padapter, pxmitframe);
++
++	WAPI_TRACE(WAPI_TX, "<=========%s\n", __FUNCTION__);
++	return res;
++}
++
++u32	rtw_sms4_decrypt(_adapter *padapter, u8 *precvframe)
++{
++	u8	*pframe;
++	u32 res = _SUCCESS;
++
++	WAPI_TRACE(WAPI_RX, "=========>%s\n", __FUNCTION__);
++
++	if ((!padapter->WapiSupport) || (!padapter->wapiInfo.bWapiEnable)) {
++		WAPI_TRACE(WAPI_RX, "<========== %s, WAPI not supported or enabled!\n", __FUNCTION__);
++		return _FAIL;
++	}
++
++
++	/* drop packet when hw decrypt fail
++	* return tempraily */
++	return _FAIL;
++
++	/* pframe=(unsigned char *)((union recv_frame*)precvframe)->u.hdr.rx_data; */
++
++	if (false == SecSWSMS4Decryption(padapter, precvframe, &padapter->recvpriv)) {
++		WAPI_TRACE(WAPI_ERR, "%s():SMS4 decrypt frame error\n", __FUNCTION__);
++		return _FAIL;
++	}
++
++	WAPI_TRACE(WAPI_RX, "<=========%s\n", __FUNCTION__);
++	return res;
++}
++
++#else
++
++u32	rtw_sms4_encrypt(_adapter *padapter, u8 *pxmitframe)
++{
++	WAPI_TRACE(WAPI_TX, "=========>Dummy %s\n", __FUNCTION__);
++	WAPI_TRACE(WAPI_TX, "<=========Dummy %s\n", __FUNCTION__);
++	return _SUCCESS;
++}
++
++u32	rtw_sms4_decrypt(_adapter *padapter, u8 *precvframe)
++{
++	WAPI_TRACE(WAPI_RX, "=========>Dummy %s\n", __FUNCTION__);
++	WAPI_TRACE(WAPI_RX, "<=========Dummy %s\n", __FUNCTION__);
++	return _SUCCESS;
++}
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_wlan_util.c b/drivers/net/wireless/rtl8812au/core/rtw_wlan_util.c
+new file mode 100644
+index 0000000..6844da9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_wlan_util.c
+@@ -0,0 +1,4646 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_WLAN_UTIL_C_
++
++#include <drv_types.h>
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	#include <linux/inetdevice.h>
++	#define ETH_TYPE_OFFSET	12
++	#define PROTOCOL_OFFSET	23
++	#define IP_OFFSET	30
++#endif
++
++unsigned char ARTHEROS_OUI1[] = {0x00, 0x03, 0x7f};
++unsigned char ARTHEROS_OUI2[] = {0x00, 0x13, 0x74};
++
++unsigned char BROADCOM_OUI1[] = {0x00, 0x10, 0x18};
++unsigned char BROADCOM_OUI2[] = {0x00, 0x0a, 0xf7};
++unsigned char BROADCOM_OUI3[] = {0x00, 0x05, 0xb5};
++
++
++unsigned char CISCO_OUI[] = {0x00, 0x40, 0x96};
++unsigned char MARVELL_OUI[] = {0x00, 0x50, 0x43};
++unsigned char RALINK_OUI[] = {0x00, 0x0c, 0x43};
++unsigned char REALTEK_OUI[] = {0x00, 0xe0, 0x4c};
++unsigned char AIRGOCAP_OUI[] = {0x00, 0x0a, 0xf5};
++
++unsigned char REALTEK_96B_IE[] = {0x00, 0xe0, 0x4c, 0x02, 0x01, 0x20};
++
++extern unsigned char RTW_WPA_OUI[];
++extern unsigned char WPA_TKIP_CIPHER[4];
++extern unsigned char RSN_TKIP_CIPHER[4];
++
++#define R2T_PHY_DELAY	(0)
++
++/* #define WAIT_FOR_BCN_TO_MIN	(3000) */
++#define WAIT_FOR_BCN_TO_MIN	(6000)
++#define WAIT_FOR_BCN_TO_MAX	(20000)
++
++#define DISCONNECT_BY_CHK_BCN_FAIL_OBSERV_PERIOD_IN_MS 1000
++#define DISCONNECT_BY_CHK_BCN_FAIL_THRESHOLD 3
++
++static u8 rtw_basic_rate_cck[4] = {
++	IEEE80211_CCK_RATE_1MB | IEEE80211_BASIC_RATE_MASK, IEEE80211_CCK_RATE_2MB | IEEE80211_BASIC_RATE_MASK,
++	IEEE80211_CCK_RATE_5MB | IEEE80211_BASIC_RATE_MASK, IEEE80211_CCK_RATE_11MB | IEEE80211_BASIC_RATE_MASK
++};
++
++static u8 rtw_basic_rate_ofdm[3] = {
++	IEEE80211_OFDM_RATE_6MB | IEEE80211_BASIC_RATE_MASK, IEEE80211_OFDM_RATE_12MB | IEEE80211_BASIC_RATE_MASK,
++	IEEE80211_OFDM_RATE_24MB | IEEE80211_BASIC_RATE_MASK
++};
++
++static u8 rtw_basic_rate_mix[7] = {
++	IEEE80211_CCK_RATE_1MB | IEEE80211_BASIC_RATE_MASK, IEEE80211_CCK_RATE_2MB | IEEE80211_BASIC_RATE_MASK,
++	IEEE80211_CCK_RATE_5MB | IEEE80211_BASIC_RATE_MASK, IEEE80211_CCK_RATE_11MB | IEEE80211_BASIC_RATE_MASK,
++	IEEE80211_OFDM_RATE_6MB | IEEE80211_BASIC_RATE_MASK, IEEE80211_OFDM_RATE_12MB | IEEE80211_BASIC_RATE_MASK,
++	IEEE80211_OFDM_RATE_24MB | IEEE80211_BASIC_RATE_MASK
++};
++
++int new_bcn_max = 3;
++
++int cckrates_included(unsigned char *rate, int ratelen)
++{
++	int	i;
++
++	for (i = 0; i < ratelen; i++) {
++		if ((((rate[i]) & 0x7f) == 2)	|| (((rate[i]) & 0x7f) == 4) ||
++		    (((rate[i]) & 0x7f) == 11)  || (((rate[i]) & 0x7f) == 22))
++			return _TRUE;
++	}
++
++	return _FALSE;
++
++}
++
++int cckratesonly_included(unsigned char *rate, int ratelen)
++{
++	int	i;
++
++	for (i = 0; i < ratelen; i++) {
++		if ((((rate[i]) & 0x7f) != 2) && (((rate[i]) & 0x7f) != 4) &&
++		    (((rate[i]) & 0x7f) != 11)  && (((rate[i]) & 0x7f) != 22))
++			return _FALSE;
++	}
++
++	return _TRUE;
++}
++
++#ifdef CONFIG_GET_RAID_BY_DRV
++s8 rtw_get_tx_nss(_adapter *adapter, struct sta_info *psta)
++{
++	u8 rf_type = RF_1T1R, custom_rf_type, vht_mcs[2];
++	s8 nss = 1;
++
++	custom_rf_type = adapter->registrypriv.rf_config;
++	rtw_hal_get_hwreg(adapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++	if (!psta)
++		return nss;
++
++	/* rf_config is dependent on efuse or sw config */
++	if (custom_rf_type != RF_MAX_TYPE)
++		rf_type = custom_rf_type;
++
++#ifdef CONFIG_80211AC_VHT
++	if (psta->vhtpriv.vht_option) {
++		u8 vht_mcs[2];
++		struct mlme_priv	*pmlmepriv = &(adapter->mlmepriv);
++		struct vht_priv	*pvhtpriv_ap = &pmlmepriv->vhtpriv;
++
++		_rtw_memcpy(vht_mcs, psta->vhtpriv.vht_mcs_map, 2);
++		/* doesn't support 5~8 SS so far */
++		vht_mcs[1] = 0xff;
++		switch (rf_type) {
++		case RF_1T1R:
++		case RF_1T2R:
++			vht_mcs[0] |= 0xfc;
++			break;
++		case RF_2T2R:
++		case RF_2T4R:
++		case RF_2T2R_GREEN:
++		case RF_2T3R:
++			vht_mcs[0] |= 0xf0;
++			break;
++		case RF_3T3R:
++		case RF_3T4R:
++			vht_mcs[0] |= 0xc0;
++			break;
++		default:
++			RTW_INFO("%s,%d, unknown rf type\n", __func__, __LINE__);
++			break;
++		}
++		nss = rtw_vht_mcsmap_to_nss(vht_mcs);
++	} else
++#endif /* CONFIG_80211AC_VHT */
++		if (psta->htpriv.ht_option) {
++			u8 supp_mcs_set[4];
++
++			_rtw_memcpy(supp_mcs_set, psta->htpriv.ht_cap.supp_mcs_set, 4);
++
++			switch (rf_type) {
++			case RF_1T1R:
++			case RF_1T2R:
++				supp_mcs_set[1] = supp_mcs_set[2] = supp_mcs_set[3] = 0;
++				break;
++			case RF_2T2R:
++			case RF_2T4R:
++			case RF_2T2R_GREEN:
++			case RF_2T3R:
++				supp_mcs_set[2] = supp_mcs_set[3] = 0;
++				break;
++			case RF_3T3R:
++			case RF_3T4R:
++				supp_mcs_set[3] = 0;
++				break;
++			default:
++				RTW_INFO("%s,%d, unknown rf type\n", __func__, __LINE__);
++				break;
++			}
++			nss = rtw_ht_mcsset_to_nss(supp_mcs_set);
++		}
++
++	RTW_INFO("%s: %d SS, rf_type=%d\n", __func__, nss, rf_type);
++	return nss;
++}
++
++u8 networktype_to_raid(_adapter *adapter, struct sta_info *psta)
++{
++	unsigned char raid;
++	switch (psta->wireless_mode) {
++	case WIRELESS_11B:
++		raid = RATR_INX_WIRELESS_B;
++		break;
++	case WIRELESS_11A:
++	case WIRELESS_11G:
++		raid = RATR_INX_WIRELESS_G;
++		break;
++	case WIRELESS_11BG:
++		raid = RATR_INX_WIRELESS_GB;
++		break;
++	case WIRELESS_11_24N:
++	case WIRELESS_11_5N:
++		raid = RATR_INX_WIRELESS_N;
++		break;
++	case WIRELESS_11A_5N:
++	case WIRELESS_11G_24N:
++		raid = RATR_INX_WIRELESS_NG;
++		break;
++	case WIRELESS_11BG_24N:
++		raid = RATR_INX_WIRELESS_NGB;
++		break;
++	default:
++		raid = RATR_INX_WIRELESS_GB;
++		break;
++
++	}
++	return raid;
++
++}
++
++u8 networktype_to_raid_ex(_adapter *adapter, struct sta_info *psta)
++{
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++	u8 raid = RATEID_IDX_BGN_40M_1SS, cur_rf_type, rf_type, custom_rf_type;
++	s8 tx_nss;
++
++	tx_nss = rtw_get_tx_nss(adapter, psta);
++
++	switch (psta->wireless_mode) {
++	case WIRELESS_11B:
++		raid = RATEID_IDX_B;
++		break;
++	case WIRELESS_11A:
++	case WIRELESS_11G:
++		raid = RATEID_IDX_G;
++		break;
++	case WIRELESS_11BG:
++		raid = RATEID_IDX_BG;
++		break;
++	case WIRELESS_11_24N:
++	case WIRELESS_11_5N:
++	case WIRELESS_11A_5N:
++	case WIRELESS_11G_24N:
++		if (tx_nss == 1)
++			raid = RATEID_IDX_GN_N1SS;
++		else if (tx_nss == 2)
++			raid = RATEID_IDX_GN_N2SS;
++		else if (tx_nss == 3)
++			raid = RATEID_IDX_BGN_3SS;
++		else
++			RTW_INFO("tx_nss error!(tx_nss=%d)\n", tx_nss);
++		break;
++	case WIRELESS_11B_24N:
++	case WIRELESS_11BG_24N:
++		if (psta->bw_mode == CHANNEL_WIDTH_20) {
++			if (tx_nss == 1)
++				raid = RATEID_IDX_BGN_20M_1SS_BN;
++			else if (tx_nss == 2)
++				raid = RATEID_IDX_BGN_20M_2SS_BN;
++			else if (tx_nss == 3)
++				raid = RATEID_IDX_BGN_3SS;
++			else
++				RTW_INFO("tx_nss error!(tx_nss=%d)\n", tx_nss);
++		} else {
++			if (tx_nss == 1)
++				raid = RATEID_IDX_BGN_40M_1SS;
++			else if (tx_nss == 2)
++				raid = RATEID_IDX_BGN_40M_2SS;
++			else if (tx_nss == 3)
++				raid = RATEID_IDX_BGN_3SS;
++			else
++				RTW_INFO("tx_nss error!(tx_nss=%d)\n", tx_nss);
++		}
++		break;
++#ifdef CONFIG_80211AC_VHT
++	case WIRELESS_11_5AC:
++		if (tx_nss == 1)
++			raid = RATEID_IDX_VHT_1SS;
++		else if (tx_nss == 2)
++			raid = RATEID_IDX_VHT_2SS;
++		else if (tx_nss == 3)
++			raid = RATEID_IDX_VHT_3SS;
++		else
++			RTW_INFO("tx_nss error!(tx_nss=%d)\n", tx_nss);
++		break;
++	case WIRELESS_11_24AC:
++		if (psta->bw_mode >= CHANNEL_WIDTH_80) {
++			if (tx_nss == 1)
++				raid = RATEID_IDX_VHT_1SS;
++			else if (tx_nss == 2)
++				raid = RATEID_IDX_VHT_2SS;
++			else if (tx_nss == 3)
++				raid = RATEID_IDX_VHT_3SS;
++			else
++				RTW_INFO("tx_nss error!(tx_nss=%d)\n", tx_nss);
++		} else {
++			if (tx_nss == 1)
++				raid = RATEID_IDX_MIX1;
++			else if (tx_nss == 2)
++				raid = RATEID_IDX_MIX2;
++			else if (tx_nss == 3)
++				raid = RATEID_IDX_VHT_3SS;
++			else
++				RTW_INFO("tx_nss error!(tx_nss=%d)\n", tx_nss);
++		}
++		break;
++#endif
++	default:
++		RTW_INFO("unexpected wireless mode!(psta->wireless_mode=%x)\n", psta->wireless_mode);
++		break;
++
++	}
++
++	/* RTW_INFO("psta->wireless_mode=%x,  tx_nss=%d\n", psta->wireless_mode, tx_nss); */
++
++	return raid;
++
++}
++#endif
++u8 judge_network_type(_adapter *padapter, unsigned char *rate, int ratelen)
++{
++	u8 network_type = 0;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++
++	if (pmlmeext->cur_channel > 14) {
++		if (pmlmeinfo->VHT_enable)
++			network_type = WIRELESS_11AC;
++		else if (pmlmeinfo->HT_enable)
++			network_type = WIRELESS_11_5N;
++
++		network_type |= WIRELESS_11A;
++	} else {
++		if (pmlmeinfo->HT_enable)
++			network_type = WIRELESS_11_24N;
++
++		if ((cckratesonly_included(rate, ratelen)) == _TRUE)
++			network_type |= WIRELESS_11B;
++		else if ((cckrates_included(rate, ratelen)) == _TRUE)
++			network_type |= WIRELESS_11BG;
++		else
++			network_type |= WIRELESS_11G;
++	}
++
++	return	network_type;
++}
++
++unsigned char ratetbl_val_2wifirate(unsigned char rate);
++unsigned char ratetbl_val_2wifirate(unsigned char rate)
++{
++	unsigned char val = 0;
++
++	switch (rate & 0x7f) {
++	case 0:
++		val = IEEE80211_CCK_RATE_1MB;
++		break;
++
++	case 1:
++		val = IEEE80211_CCK_RATE_2MB;
++		break;
++
++	case 2:
++		val = IEEE80211_CCK_RATE_5MB;
++		break;
++
++	case 3:
++		val = IEEE80211_CCK_RATE_11MB;
++		break;
++
++	case 4:
++		val = IEEE80211_OFDM_RATE_6MB;
++		break;
++
++	case 5:
++		val = IEEE80211_OFDM_RATE_9MB;
++		break;
++
++	case 6:
++		val = IEEE80211_OFDM_RATE_12MB;
++		break;
++
++	case 7:
++		val = IEEE80211_OFDM_RATE_18MB;
++		break;
++
++	case 8:
++		val = IEEE80211_OFDM_RATE_24MB;
++		break;
++
++	case 9:
++		val = IEEE80211_OFDM_RATE_36MB;
++		break;
++
++	case 10:
++		val = IEEE80211_OFDM_RATE_48MB;
++		break;
++
++	case 11:
++		val = IEEE80211_OFDM_RATE_54MB;
++		break;
++
++	}
++
++	return val;
++
++}
++
++int is_basicrate(_adapter *padapter, unsigned char rate);
++int is_basicrate(_adapter *padapter, unsigned char rate)
++{
++	int i;
++	unsigned char val;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	for (i = 0; i < NumRates; i++) {
++		val = pmlmeext->basicrate[i];
++
++		if ((val != 0xff) && (val != 0xfe)) {
++			if (rate == ratetbl_val_2wifirate(val))
++				return _TRUE;
++		}
++	}
++
++	return _FALSE;
++}
++
++unsigned int ratetbl2rateset(_adapter *padapter, unsigned char *rateset);
++unsigned int ratetbl2rateset(_adapter *padapter, unsigned char *rateset)
++{
++	int i;
++	unsigned char rate;
++	unsigned int	len = 0;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	for (i = 0; i < NumRates; i++) {
++		rate = pmlmeext->datarate[i];
++
++		if (rtw_get_oper_ch(padapter) > 14 && rate < _6M_RATE_) /*5G no support CCK rate*/
++			continue;
++
++		switch (rate) {
++		case 0xff:
++			return len;
++
++		case 0xfe:
++			continue;
++
++		default:
++			rate = ratetbl_val_2wifirate(rate);
++
++			if (is_basicrate(padapter, rate) == _TRUE)
++				rate |= IEEE80211_BASIC_RATE_MASK;
++
++			rateset[len] = rate;
++			len++;
++			break;
++		}
++	}
++	return len;
++}
++
++void get_rate_set(_adapter *padapter, unsigned char *pbssrate, int *bssrate_len)
++{
++	unsigned char supportedrates[NumRates];
++
++	_rtw_memset(supportedrates, 0, NumRates);
++	*bssrate_len = ratetbl2rateset(padapter, supportedrates);
++	_rtw_memcpy(pbssrate, supportedrates, *bssrate_len);
++}
++
++void set_mcs_rate_by_mask(u8 *mcs_set, u32 mask)
++{
++	u8 mcs_rate_1r = (u8)(mask & 0xff);
++	u8 mcs_rate_2r = (u8)((mask >> 8) & 0xff);
++	u8 mcs_rate_3r = (u8)((mask >> 16) & 0xff);
++	u8 mcs_rate_4r = (u8)((mask >> 24) & 0xff);
++
++	mcs_set[0] &= mcs_rate_1r;
++	mcs_set[1] &= mcs_rate_2r;
++	mcs_set[2] &= mcs_rate_3r;
++	mcs_set[3] &= mcs_rate_4r;
++}
++
++void UpdateBrateTbl(
++	IN PADAPTER		Adapter,
++	IN u8			*mBratesOS
++)
++{
++	u8	i;
++	u8	rate;
++
++	/* 1M, 2M, 5.5M, 11M, 6M, 12M, 24M are mandatory. */
++	for (i = 0; i < NDIS_802_11_LENGTH_RATES_EX; i++) {
++		rate = mBratesOS[i] & 0x7f;
++		switch (rate) {
++		case IEEE80211_CCK_RATE_1MB:
++		case IEEE80211_CCK_RATE_2MB:
++		case IEEE80211_CCK_RATE_5MB:
++		case IEEE80211_CCK_RATE_11MB:
++		case IEEE80211_OFDM_RATE_6MB:
++		case IEEE80211_OFDM_RATE_12MB:
++		case IEEE80211_OFDM_RATE_24MB:
++			mBratesOS[i] |= IEEE80211_BASIC_RATE_MASK;
++			break;
++		}
++	}
++
++}
++
++void UpdateBrateTblForSoftAP(u8 *bssrateset, u32 bssratelen)
++{
++	u8	i;
++	u8	rate;
++
++	for (i = 0; i < bssratelen; i++) {
++		rate = bssrateset[i] & 0x7f;
++		switch (rate) {
++		case IEEE80211_CCK_RATE_1MB:
++		case IEEE80211_CCK_RATE_2MB:
++		case IEEE80211_CCK_RATE_5MB:
++		case IEEE80211_CCK_RATE_11MB:
++			bssrateset[i] |= IEEE80211_BASIC_RATE_MASK;
++			break;
++		}
++	}
++
++}
++void Set_MSR(_adapter *padapter, u8 type)
++{
++	rtw_hal_set_hwreg(padapter, HW_VAR_MEDIA_STATUS, (u8 *)(&type));
++}
++
++inline u8 rtw_get_oper_ch(_adapter *adapter)
++{
++	return adapter_to_dvobj(adapter)->oper_channel;
++}
++
++inline void rtw_set_oper_ch(_adapter *adapter, u8 ch)
++{
++#ifdef DBG_CH_SWITCH
++	const int len = 128;
++	char msg[128] = {0};
++	int cnt = 0;
++	int i = 0;
++#endif  /* DBG_CH_SWITCH */
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++
++	if (dvobj->oper_channel != ch) {
++		dvobj->on_oper_ch_time = rtw_get_current_time();
++
++#ifdef DBG_CH_SWITCH
++		cnt += snprintf(msg + cnt, len - cnt, "switch to ch %3u", ch);
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			_adapter *iface = dvobj->padapters[i];
++			cnt += snprintf(msg + cnt, len - cnt, " ["ADPT_FMT":", ADPT_ARG(iface));
++			if (iface->mlmeextpriv.cur_channel == ch)
++				cnt += snprintf(msg + cnt, len - cnt, "C");
++			else
++				cnt += snprintf(msg + cnt, len - cnt, "_");
++			if (iface->wdinfo.listen_channel == ch && !rtw_p2p_chk_state(&iface->wdinfo, P2P_STATE_NONE))
++				cnt += snprintf(msg + cnt, len - cnt, "L");
++			else
++				cnt += snprintf(msg + cnt, len - cnt, "_");
++			cnt += snprintf(msg + cnt, len - cnt, "]");
++		}
++
++		RTW_INFO(FUNC_ADPT_FMT" %s\n", FUNC_ADPT_ARG(adapter), msg);
++#endif /* DBG_CH_SWITCH */
++	}
++
++	dvobj->oper_channel = ch;
++}
++
++inline u8 rtw_get_oper_bw(_adapter *adapter)
++{
++	return adapter_to_dvobj(adapter)->oper_bwmode;
++}
++
++inline void rtw_set_oper_bw(_adapter *adapter, u8 bw)
++{
++	adapter_to_dvobj(adapter)->oper_bwmode = bw;
++}
++
++inline u8 rtw_get_oper_choffset(_adapter *adapter)
++{
++	return adapter_to_dvobj(adapter)->oper_ch_offset;
++}
++
++inline void rtw_set_oper_choffset(_adapter *adapter, u8 offset)
++{
++	adapter_to_dvobj(adapter)->oper_ch_offset = offset;
++}
++
++u8 rtw_get_offset_by_chbw(u8 ch, u8 bw, u8 *r_offset)
++{
++	u8 valid = 1;
++	u8 offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++	if (bw == CHANNEL_WIDTH_20)
++		goto exit;
++
++	if (bw >= CHANNEL_WIDTH_80 && ch <= 14) {
++		valid = 0;
++		goto exit;
++	}
++
++	if (ch >= 1 && ch <= 4)
++		offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++	else if (ch >= 5 && ch <= 9) {
++		if (*r_offset == HAL_PRIME_CHNL_OFFSET_LOWER || *r_offset == HAL_PRIME_CHNL_OFFSET_UPPER)
++			offset = *r_offset; /* both lower and upper is valid, obey input value */
++		else
++			offset = HAL_PRIME_CHNL_OFFSET_UPPER; /* default use upper */
++	} else if (ch >= 10 && ch <= 13)
++		offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++	else if (ch == 14) {
++		valid = 0; /* ch14 doesn't support 40MHz bandwidth */
++		goto exit;
++	} else if (ch >= 36 && ch <= 177) {
++		switch (ch) {
++		case 36:
++		case 44:
++		case 52:
++		case 60:
++		case 100:
++		case 108:
++		case 116:
++		case 124:
++		case 132:
++		case 140:
++		case 149:
++		case 157:
++		case 165:
++		case 173:
++			offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++			break;
++		case 40:
++		case 48:
++		case 56:
++		case 64:
++		case 104:
++		case 112:
++		case 120:
++		case 128:
++		case 136:
++		case 144:
++		case 153:
++		case 161:
++		case 169:
++		case 177:
++			offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++			break;
++		default:
++			valid = 0;
++			break;
++		}
++	} else
++		valid = 0;
++
++exit:
++	if (valid && r_offset)
++		*r_offset = offset;
++	return valid;
++}
++
++u8 rtw_get_offset_by_ch(u8 channel)
++{
++	u8 offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++	if (channel >= 1 && channel <= 4)
++		offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++	else if (channel >= 5 && channel <= 14)
++		offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++	else {
++		switch (channel) {
++		case 36:
++		case 44:
++		case 52:
++		case 60:
++		case 100:
++		case 108:
++		case 116:
++		case 124:
++		case 132:
++		case 149:
++		case 157:
++			offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++			break;
++		case 40:
++		case 48:
++		case 56:
++		case 64:
++		case 104:
++		case 112:
++		case 120:
++		case 128:
++		case 136:
++		case 153:
++		case 161:
++			offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++			break;
++		default:
++			offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++			break;
++		}
++
++	}
++
++	return offset;
++
++}
++
++u8 rtw_get_center_ch(u8 channel, u8 chnl_bw, u8 chnl_offset)
++{
++	u8 center_ch = channel;
++
++	if (chnl_bw == CHANNEL_WIDTH_80) {
++		if (channel == 36 || channel == 40 || channel == 44 || channel == 48)
++			center_ch = 42;
++		else if (channel == 52 || channel == 56 || channel == 60 || channel == 64)
++			center_ch = 58;
++		else if (channel == 100 || channel == 104 || channel == 108 || channel == 112)
++			center_ch = 106;
++		else if (channel == 116 || channel == 120 || channel == 124 || channel == 128)
++			center_ch = 122;
++		else if (channel == 132 || channel == 136 || channel == 140 || channel == 144)
++			center_ch = 138;
++		else if (channel == 149 || channel == 153 || channel == 157 || channel == 161)
++			center_ch = 155;
++		else if (channel == 165 || channel == 169 || channel == 173 || channel == 177)
++			center_ch = 171;
++		else if (channel <= 14)
++			center_ch = 7;
++	} else if (chnl_bw == CHANNEL_WIDTH_40) {
++		if (chnl_offset == HAL_PRIME_CHNL_OFFSET_LOWER)
++			center_ch = channel + 2;
++		else
++			center_ch = channel - 2;
++	} else if (chnl_bw == CHANNEL_WIDTH_20)
++		center_ch = channel;
++	else
++		rtw_warn_on(1);
++
++	return center_ch;
++}
++
++inline u32 rtw_get_on_oper_ch_time(_adapter *adapter)
++{
++	return adapter_to_dvobj(adapter)->on_oper_ch_time;
++}
++
++inline u32 rtw_get_on_cur_ch_time(_adapter *adapter)
++{
++	if (adapter->mlmeextpriv.cur_channel == adapter_to_dvobj(adapter)->oper_channel)
++		return adapter_to_dvobj(adapter)->on_oper_ch_time;
++	else
++		return 0;
++}
++
++void set_channel_bwmode(_adapter *padapter, unsigned char channel, unsigned char channel_offset, unsigned short bwmode)
++{
++	u8 center_ch, chnl_offset80 = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++#if (defined(CONFIG_TDLS) && defined(CONFIG_TDLS_CH_SW)) || defined(CONFIG_MCC_MODE)
++	u8 iqk_info_backup = _FALSE;
++#endif
++
++	if (padapter->bNotifyChannelChange)
++		RTW_INFO("[%s] ch = %d, offset = %d, bwmode = %d\n", __FUNCTION__, channel, channel_offset, bwmode);
++
++	center_ch = rtw_get_center_ch(channel, bwmode, channel_offset);
++
++	if (bwmode == CHANNEL_WIDTH_80) {
++		if (center_ch > channel)
++			chnl_offset80 = HAL_PRIME_CHNL_OFFSET_LOWER;
++		else if (center_ch < channel)
++			chnl_offset80 = HAL_PRIME_CHNL_OFFSET_UPPER;
++		else
++			chnl_offset80 = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	}
++	_enter_critical_mutex(&(adapter_to_dvobj(padapter)->setch_mutex), NULL);
++
++#ifdef CONFIG_MCC_MODE
++	if (MCC_EN(padapter)) {
++		/* driver doesn't set channel setting reg under MCC */
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)) {
++			RTW_INFO("Warning: Do not set channel setting reg MCC mode\n");
++			rtw_warn_on(1);
++		}
++	}
++#endif
++
++#ifdef CONFIG_DFS_MASTER
++	{
++		struct rf_ctl_t *rfctl = adapter_to_rfctl(padapter);
++		bool ori_overlap_radar_detect_ch = rtw_rfctl_overlap_radar_detect_ch(rfctl);
++		bool new_overlap_radar_detect_ch = _rtw_rfctl_overlap_radar_detect_ch(rfctl, channel, bwmode, channel_offset);
++
++		if (new_overlap_radar_detect_ch)
++			rtw_odm_radar_detect_enable(padapter);
++
++		if (new_overlap_radar_detect_ch && IS_CH_WAITING(rfctl)) {
++			u8 pause = 0xFF;
++
++			rtw_hal_set_hwreg(padapter, HW_VAR_TXPAUSE, &pause);
++		}
++#endif /* CONFIG_DFS_MASTER */
++
++		/* set Channel */
++		/* saved channel/bw info */
++		rtw_set_oper_ch(padapter, channel);
++		rtw_set_oper_bw(padapter, bwmode);
++		rtw_set_oper_choffset(padapter, channel_offset);
++
++#if (defined(CONFIG_TDLS) && defined(CONFIG_TDLS_CH_SW)) || defined(CONFIG_MCC_MODE)
++		/* To check if we need to backup iqk info after switch chnl & bw */
++		{
++			u8 take_care_iqk, do_iqk;
++
++			rtw_hal_get_hwreg(padapter, HW_VAR_CH_SW_NEED_TO_TAKE_CARE_IQK_INFO, &take_care_iqk);
++			rtw_hal_get_hwreg(padapter, HW_VAR_DO_IQK, &do_iqk);
++			if ((take_care_iqk == _TRUE) && (do_iqk == _TRUE))
++				iqk_info_backup = _TRUE;
++		}
++#endif
++
++		rtw_hal_set_chnl_bw(padapter, center_ch, bwmode, channel_offset, chnl_offset80); /* set center channel */
++
++#if (defined(CONFIG_TDLS) && defined(CONFIG_TDLS_CH_SW)) || defined(CONFIG_MCC_MODE)
++		if (iqk_info_backup == _TRUE)
++			rtw_hal_ch_sw_iqk_info_backup(padapter);
++#endif
++
++#ifdef CONFIG_DFS_MASTER
++		if (ori_overlap_radar_detect_ch && !new_overlap_radar_detect_ch) {
++			u8 pause = 0x00;
++
++			rtw_odm_radar_detect_disable(padapter);
++			rtw_hal_set_hwreg(padapter, HW_VAR_TXPAUSE, &pause);
++		}
++	}
++#endif /* CONFIG_DFS_MASTER */
++
++	_exit_critical_mutex(&(adapter_to_dvobj(padapter)->setch_mutex), NULL);
++}
++
++int get_bsstype(unsigned short capability)
++{
++	if (capability & BIT(0))
++		return WIFI_FW_AP_STATE;
++	else if (capability & BIT(1))
++		return WIFI_FW_ADHOC_STATE;
++	else
++		return 0;
++}
++
++__inline u8 *get_my_bssid(WLAN_BSSID_EX *pnetwork)
++{
++	return pnetwork->MacAddress;
++}
++
++u16 get_beacon_interval(WLAN_BSSID_EX *bss)
++{
++	unsigned short val;
++	_rtw_memcpy((unsigned char *)&val, rtw_get_beacon_interval_from_ie(bss->IEs), 2);
++
++	return le16_to_cpu(val);
++
++}
++
++int is_client_associated_to_ap(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext;
++	struct mlme_ext_info	*pmlmeinfo;
++
++	if (!padapter)
++		return _FAIL;
++
++	pmlmeext = &padapter->mlmeextpriv;
++	pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if ((pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS) && ((pmlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE))
++		return _TRUE;
++	else
++		return _FAIL;
++}
++
++int is_client_associated_to_ibss(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if ((pmlmeinfo->state & WIFI_FW_ASSOC_SUCCESS) && ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE))
++		return _TRUE;
++	else
++		return _FAIL;
++}
++
++int is_IBSS_empty(_adapter *padapter)
++{
++	int i;
++	struct macid_ctl_t *macid_ctl = &padapter->dvobj->macid_ctl;
++
++	for (i = 0; i < macid_ctl->num; i++) {
++		if (!rtw_macid_is_used(macid_ctl, i))
++			continue;
++		if (rtw_macid_get_if_g(macid_ctl, i) != padapter->iface_id)
++			continue;
++		if (!GET_H2CCMD_MSRRPT_PARM_OPMODE(&macid_ctl->h2c_msr[i]))
++			continue;
++		if (GET_H2CCMD_MSRRPT_PARM_ROLE(&macid_ctl->h2c_msr[i]) == H2C_MSR_ROLE_ADHOC)
++			return _FAIL;
++	}
++
++	return _TRUE;
++}
++
++unsigned int decide_wait_for_beacon_timeout(unsigned int bcn_interval)
++{
++	if ((bcn_interval << 2) < WAIT_FOR_BCN_TO_MIN)
++		return WAIT_FOR_BCN_TO_MIN;
++	else if ((bcn_interval << 2) > WAIT_FOR_BCN_TO_MAX)
++		return WAIT_FOR_BCN_TO_MAX;
++	else
++		return bcn_interval << 2;
++}
++
++void CAM_empty_entry(
++	PADAPTER	Adapter,
++	u8			ucIndex
++)
++{
++	rtw_hal_set_hwreg(Adapter, HW_VAR_CAM_EMPTY_ENTRY, (u8 *)(&ucIndex));
++}
++
++void invalidate_cam_all(_adapter *padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++	u8 val8 = 0;
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_CAM_INVALID_ALL, &val8);
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	rtw_sec_cam_map_clr_all(&cam_ctl->used);
++	_rtw_memset(dvobj->cam_cache, 0, sizeof(struct sec_cam_ent) * SEC_CAM_ENT_NUM_SW_LIMIT);
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++}
++
++void _clear_cam_entry(_adapter *padapter, u8 entry)
++{
++	unsigned char null_sta[] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
++	unsigned char null_key[] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
++
++	rtw_sec_write_cam_ent(padapter, entry, 0, null_sta, null_key);
++}
++
++inline void write_cam(_adapter *adapter, u8 id, u16 ctrl, u8 *mac, u8 *key)
++{
++#ifdef CONFIG_WRITE_CACHE_ONLY
++	write_cam_cache(adapter, id , ctrl, mac, key);
++#else
++	rtw_sec_write_cam_ent(adapter, id, ctrl, mac, key);
++	write_cam_cache(adapter, id , ctrl, mac, key);
++#endif
++}
++
++inline void clear_cam_entry(_adapter *adapter, u8 id)
++{
++	_clear_cam_entry(adapter, id);
++	clear_cam_cache(adapter, id);
++}
++
++inline void write_cam_from_cache(_adapter *adapter, u8 id)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++	struct sec_cam_ent cache;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	_rtw_memcpy(&cache, &dvobj->cam_cache[id], sizeof(struct sec_cam_ent));
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++
++	rtw_sec_write_cam_ent(adapter, id, cache.ctrl, cache.mac, cache.key);
++}
++void write_cam_cache(_adapter *adapter, u8 id, u16 ctrl, u8 *mac, u8 *key)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++
++	dvobj->cam_cache[id].ctrl = ctrl;
++	_rtw_memcpy(dvobj->cam_cache[id].mac, mac, ETH_ALEN);
++	_rtw_memcpy(dvobj->cam_cache[id].key, key, 16);
++
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++}
++
++void clear_cam_cache(_adapter *adapter, u8 id)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++
++	_rtw_memset(&(dvobj->cam_cache[id]), 0, sizeof(struct sec_cam_ent));
++
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++}
++
++inline bool _rtw_camctl_chk_cap(_adapter *adapter, u8 cap)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++
++	if (cam_ctl->sec_cap & cap)
++		return _TRUE;
++	return _FALSE;
++}
++
++inline void _rtw_camctl_set_flags(_adapter *adapter, u32 flags)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++
++	cam_ctl->flags |= flags;
++}
++
++inline void rtw_camctl_set_flags(_adapter *adapter, u32 flags)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	_rtw_camctl_set_flags(adapter, flags);
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++}
++
++inline void _rtw_camctl_clr_flags(_adapter *adapter, u32 flags)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++
++	cam_ctl->flags &= ~flags;
++}
++
++inline void rtw_camctl_clr_flags(_adapter *adapter, u32 flags)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	_rtw_camctl_clr_flags(adapter, flags);
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++}
++
++inline bool _rtw_camctl_chk_flags(_adapter *adapter, u32 flags)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++
++	if (cam_ctl->flags & flags)
++		return _TRUE;
++	return _FALSE;
++}
++
++void dump_sec_cam_map(void *sel, struct sec_cam_bmp *map, u8 max_num)
++{
++	RTW_PRINT_SEL(sel, "0x%08x\n", map->m0);
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
++	if (max_num && max_num > 32)
++		RTW_PRINT_SEL(sel, "0x%08x\n", map->m1);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
++	if (max_num && max_num > 64)
++		RTW_PRINT_SEL(sel, "0x%08x\n", map->m2);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
++	if (max_num && max_num > 96)
++		RTW_PRINT_SEL(sel, "0x%08x\n", map->m3);
++#endif
++}
++
++inline bool rtw_sec_camid_is_set(struct sec_cam_bmp *map, u8 id)
++{
++	if (id < 32)
++		return map->m0 & BIT(id);
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
++	else if (id < 64)
++		return map->m1 & BIT(id - 32);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
++	else if (id < 96)
++		return map->m2 & BIT(id - 64);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
++	else if (id < 128)
++		return map->m3 & BIT(id - 96);
++#endif
++	else
++		rtw_warn_on(1);
++
++	return 0;
++}
++
++inline void rtw_sec_cam_map_set(struct sec_cam_bmp *map, u8 id)
++{
++	if (id < 32)
++		map->m0 |= BIT(id);
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
++	else if (id < 64)
++		map->m1 |= BIT(id - 32);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
++	else if (id < 96)
++		map->m2 |= BIT(id - 64);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
++	else if (id < 128)
++		map->m3 |= BIT(id - 96);
++#endif
++	else
++		rtw_warn_on(1);
++}
++
++inline void rtw_sec_cam_map_clr(struct sec_cam_bmp *map, u8 id)
++{
++	if (id < 32)
++		map->m0 &= ~BIT(id);
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
++	else if (id < 64)
++		map->m1 &= ~BIT(id - 32);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
++	else if (id < 96)
++		map->m2 &= ~BIT(id - 64);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
++	else if (id < 128)
++		map->m3 &= ~BIT(id - 96);
++#endif
++	else
++		rtw_warn_on(1);
++}
++
++inline void rtw_sec_cam_map_clr_all(struct sec_cam_bmp *map)
++{
++	map->m0 = 0;
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
++	map->m1 = 0;
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
++	map->m2 = 0;
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
++	map->m3 = 0;
++#endif
++}
++
++inline bool rtw_sec_camid_is_drv_forbid(struct cam_ctl_t *cam_ctl, u8 id)
++{
++	struct sec_cam_bmp forbid_map;
++
++	forbid_map.m0 = 0x00000ff0;
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
++	forbid_map.m1 = 0x00000000;
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
++	forbid_map.m2 = 0x00000000;
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
++	forbid_map.m3 = 0x00000000;
++#endif
++
++	if (id < 32)
++		return forbid_map.m0 & BIT(id);
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
++	else if (id < 64)
++		return forbid_map.m1 & BIT(id - 32);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
++	else if (id < 96)
++		return forbid_map.m2 & BIT(id - 64);
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
++	else if (id < 128)
++		return forbid_map.m3 & BIT(id - 96);
++#endif
++	else
++		rtw_warn_on(1);
++
++	return 1;
++}
++
++bool _rtw_sec_camid_is_used(struct cam_ctl_t *cam_ctl, u8 id)
++{
++	bool ret = _FALSE;
++
++	if (id >= cam_ctl->num) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++#if 0 /* for testing */
++	if (rtw_sec_camid_is_drv_forbid(cam_ctl, id)) {
++		ret = _TRUE;
++		goto exit;
++	}
++#endif
++
++	ret = rtw_sec_camid_is_set(&cam_ctl->used, id);
++
++exit:
++	return ret;
++}
++
++inline bool rtw_sec_camid_is_used(struct cam_ctl_t *cam_ctl, u8 id)
++{
++	_irqL irqL;
++	bool ret;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	ret = _rtw_sec_camid_is_used(cam_ctl, id);
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++
++	return ret;
++}
++u8 rtw_get_sec_camid(_adapter *adapter, u8 max_bk_key_num, u8 *sec_key_id)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	int i;
++	_irqL irqL;
++	u8 sec_cam_num = 0;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	for (i = 0; i < cam_ctl->num; i++) {
++		if (_rtw_sec_camid_is_used(cam_ctl, i)) {
++			sec_key_id[sec_cam_num++] = i;
++			if (sec_cam_num == max_bk_key_num)
++				break;
++		}
++	}
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++
++	return sec_cam_num;
++}
++
++inline bool _rtw_camid_is_gk(_adapter *adapter, u8 cam_id)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	bool ret = _FALSE;
++
++	if (cam_id >= cam_ctl->num) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (_rtw_sec_camid_is_used(cam_ctl, cam_id) == _FALSE)
++		goto exit;
++
++	ret = (dvobj->cam_cache[cam_id].ctrl & BIT6) ? _TRUE : _FALSE;
++
++exit:
++	return ret;
++}
++
++inline bool rtw_camid_is_gk(_adapter *adapter, u8 cam_id)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++	bool ret;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	ret = _rtw_camid_is_gk(adapter, cam_id);
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++
++	return ret;
++}
++
++bool cam_cache_chk(_adapter *adapter, u8 id, u8 *addr, s16 kid, s8 gk)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	bool ret = _FALSE;
++
++	if (addr && _rtw_memcmp(dvobj->cam_cache[id].mac, addr, ETH_ALEN) == _FALSE)
++		goto exit;
++	if (kid >= 0 && kid != (dvobj->cam_cache[id].ctrl & 0x03))
++		goto exit;
++	if (gk != -1 && (gk ? _TRUE : _FALSE) != _rtw_camid_is_gk(adapter, id))
++		goto exit;
++
++	ret = _TRUE;
++
++exit:
++	return ret;
++}
++
++s16 _rtw_camid_search(_adapter *adapter, u8 *addr, s16 kid, s8 gk)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	int i;
++	s16 cam_id = -1;
++
++	for (i = 0; i < cam_ctl->num; i++) {
++		if (cam_cache_chk(adapter, i, addr, kid, gk)) {
++			cam_id = i;
++			break;
++		}
++	}
++
++	if (0) {
++		if (addr)
++			RTW_INFO(FUNC_ADPT_FMT" addr:"MAC_FMT" kid:%d, gk:%d, return cam_id:%d\n"
++				, FUNC_ADPT_ARG(adapter), MAC_ARG(addr), kid, gk, cam_id);
++		else
++			RTW_INFO(FUNC_ADPT_FMT" addr:%p kid:%d, gk:%d, return cam_id:%d\n"
++				, FUNC_ADPT_ARG(adapter), addr, kid, gk, cam_id);
++	}
++
++	return cam_id;
++}
++
++s16 rtw_camid_search(_adapter *adapter, u8 *addr, s16 kid, s8 gk)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++	s16 cam_id = -1;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	cam_id = _rtw_camid_search(adapter, addr, kid, gk);
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++
++	return cam_id;
++}
++
++s16 rtw_get_camid(_adapter *adapter, struct sta_info *sta, u8 *addr, s16 kid)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	int i;
++#if 0 /* for testing */
++	static u8 start_id = 0;
++#else
++	u8 start_id = 0;
++#endif
++	s16 cam_id = -1;
++
++	if (addr == NULL) {
++		RTW_PRINT(FUNC_ADPT_FMT" mac_address is NULL\n"
++			  , FUNC_ADPT_ARG(adapter));
++		rtw_warn_on(1);
++		goto _exit;
++	}
++
++	/* find cam entry which has the same addr, kid (, gk bit) */
++	if (_rtw_camctl_chk_cap(adapter, SEC_CAP_CHK_BMC) == _TRUE)
++		i = _rtw_camid_search(adapter, addr, kid, sta ? _FALSE : _TRUE);
++	else
++		i = _rtw_camid_search(adapter, addr, kid, -1);
++
++	if (i >= 0) {
++		cam_id = i;
++		goto _exit;
++	}
++
++	for (i = 0; i < cam_ctl->num; i++) {
++		/* bypass default key which is allocated statically */
++#ifndef CONFIG_CONCURRENT_MODE
++		if (((i + start_id) % cam_ctl->num) < 4)
++			continue;
++#endif
++		if (_rtw_sec_camid_is_used(cam_ctl, ((i + start_id) % cam_ctl->num)) == _FALSE)
++			break;
++	}
++
++	if (i == cam_ctl->num) {
++		if (sta)
++			RTW_PRINT(FUNC_ADPT_FMT" pairwise key with "MAC_FMT" id:%u no room\n"
++				  , FUNC_ADPT_ARG(adapter), MAC_ARG(addr), kid);
++		else
++			RTW_PRINT(FUNC_ADPT_FMT" group key with "MAC_FMT" id:%u no room\n"
++				  , FUNC_ADPT_ARG(adapter), MAC_ARG(addr), kid);
++		rtw_warn_on(1);
++		goto _exit;
++	}
++
++	cam_id = ((i + start_id) % cam_ctl->num);
++	start_id = ((i + start_id + 1) % cam_ctl->num);
++
++_exit:
++	return cam_id;
++}
++
++s16 rtw_camid_alloc(_adapter *adapter, struct sta_info *sta, u8 kid, bool *used)
++{
++	struct mlme_ext_info *mlmeinfo = &adapter->mlmeextpriv.mlmext_info;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++	s16 cam_id = -1;
++
++	*used = _FALSE;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++
++	if ((((mlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) || ((mlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE))
++	    && !sta) {
++#ifndef CONFIG_CONCURRENT_MODE
++		/* AP/Ad-hoc mode group key static alloction to default key by key ID on Non-concurrent*/
++		if (kid > 3) {
++			RTW_PRINT(FUNC_ADPT_FMT" group key with invalid key id:%u\n"
++				  , FUNC_ADPT_ARG(adapter), kid);
++			rtw_warn_on(1);
++			goto bitmap_handle;
++		}
++		cam_id = kid;
++#else
++		u8 *addr = adapter_mac_addr(adapter);
++
++		cam_id = rtw_get_camid(adapter, sta, addr, kid);
++		if (1)
++			RTW_PRINT(FUNC_ADPT_FMT" group key with "MAC_FMT" assigned cam_id:%u\n"
++				, FUNC_ADPT_ARG(adapter), MAC_ARG(addr), cam_id);
++#endif
++	} else {
++		u8 *addr = sta ? sta->hwaddr : NULL;
++
++		if (!sta) {
++			if (!(mlmeinfo->state & WIFI_FW_ASSOC_SUCCESS)) {
++				/* bypass STA mode group key setting before connected(ex:WEP) because bssid is not ready */
++				goto bitmap_handle;
++			}
++			addr = get_bssid(&adapter->mlmepriv);/*A2*/
++		}
++		cam_id = rtw_get_camid(adapter, sta, addr, kid);
++	}
++
++
++bitmap_handle:
++	if (cam_id >= 0) {
++		*used = _rtw_sec_camid_is_used(cam_ctl, cam_id);
++		rtw_sec_cam_map_set(&cam_ctl->used, cam_id);
++	}
++
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++
++	return cam_id;
++}
++
++void rtw_camid_set(_adapter *adapter, u8 cam_id)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++
++	if (cam_id < cam_ctl->num)
++		rtw_sec_cam_map_set(&cam_ctl->used, cam_id);
++
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++}
++
++void rtw_camid_free(_adapter *adapter, u8 cam_id)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++
++	if (cam_id < cam_ctl->num)
++		rtw_sec_cam_map_clr(&cam_ctl->used, cam_id);
++
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++}
++
++/*Must pause TX/RX before use this API*/
++inline void rtw_sec_cam_swap(_adapter *adapter, u8 cam_id_a, u8 cam_id_b)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	struct sec_cam_ent cache_a, cache_b;
++	_irqL irqL;
++	bool cam_a_used, cam_b_used;
++
++	if (1)
++		RTW_INFO(ADPT_FMT" - sec_cam %d,%d swap\n", ADPT_ARG(adapter), cam_id_a, cam_id_b);
++
++	if (cam_id_a == cam_id_b)
++		return;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	rtw_mi_update_ap_bmc_camid(adapter, cam_id_a, cam_id_b);
++#endif
++
++	/*setp-1. backup org cam_info*/
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++
++	cam_a_used = _rtw_sec_camid_is_used(cam_ctl, cam_id_a);
++	cam_b_used = _rtw_sec_camid_is_used(cam_ctl, cam_id_b);
++
++	if (cam_a_used)
++		_rtw_memcpy(&cache_a, &dvobj->cam_cache[cam_id_a], sizeof(struct sec_cam_ent));
++
++	if (cam_b_used)
++		_rtw_memcpy(&cache_b, &dvobj->cam_cache[cam_id_b], sizeof(struct sec_cam_ent));
++
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++
++	/*setp-2. clean cam_info*/
++	if (cam_a_used) {
++		rtw_camid_free(adapter, cam_id_a);
++		clear_cam_entry(adapter, cam_id_a);
++	}
++	if (cam_b_used) {
++		rtw_camid_free(adapter, cam_id_b);
++		clear_cam_entry(adapter, cam_id_b);
++	}
++
++	/*setp-3. set cam_info*/
++	if (cam_a_used) {
++		write_cam(adapter, cam_id_b, cache_a.ctrl, cache_a.mac, cache_a.key);
++		rtw_camid_set(adapter, cam_id_b);
++	}
++
++	if (cam_b_used) {
++		write_cam(adapter, cam_id_a, cache_b.ctrl, cache_b.mac, cache_b.key);
++		rtw_camid_set(adapter, cam_id_a);
++	}
++}
++
++s16 rtw_get_empty_cam_entry(_adapter *adapter, u8 start_camid)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++	int i;
++	s16 cam_id = -1;
++
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	for (i = start_camid; i < cam_ctl->num; i++) {
++		if (_FALSE == _rtw_sec_camid_is_used(cam_ctl, i)) {
++			cam_id = i;
++			break;
++		}
++	}
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++
++	return cam_id;
++}
++void rtw_clean_dk_section(_adapter *adapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = dvobj_to_sec_camctl(dvobj);
++	s16 ept_cam_id;
++	int i;
++
++	for (i = 0; i < 4; i++) {
++		if (rtw_sec_camid_is_used(cam_ctl, i)) {
++			ept_cam_id = rtw_get_empty_cam_entry(adapter, 4);
++			if (ept_cam_id > 0)
++				rtw_sec_cam_swap(adapter, i, ept_cam_id);
++		}
++	}
++}
++void rtw_clean_hw_dk_cam(_adapter *adapter)
++{
++	int i;
++
++	for (i = 0; i < 4; i++)
++		rtw_sec_clr_cam_ent(adapter, i);
++		/*_clear_cam_entry(adapter, i);*/
++}
++
++void flush_all_cam_entry(_adapter *padapter)
++{
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct security_priv *psecpriv = &padapter->securitypriv;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++		struct sta_priv	*pstapriv = &padapter->stapriv;
++		struct sta_info		*psta;
++
++		psta = rtw_get_stainfo(pstapriv, pmlmeinfo->network.MacAddress);
++		if (psta) {
++			if (psta->state & WIFI_AP_STATE) {
++				/*clear cam when ap free per sta_info*/
++			} else
++				rtw_clearstakey_cmd(padapter, psta, _FALSE);
++		}
++	} else if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++#if 1
++		int cam_id = -1;
++		u8 *addr = adapter_mac_addr(padapter);
++
++		while ((cam_id = rtw_camid_search(padapter, addr, -1, -1)) >= 0) {
++			RTW_PRINT("clear wep or group key for addr:"MAC_FMT", camid:%d\n", MAC_ARG(addr), cam_id);
++			clear_cam_entry(padapter, cam_id);
++			rtw_camid_free(padapter, cam_id);
++		}
++#else
++		/* clear default key */
++		int i, cam_id;
++		u8 null_addr[ETH_ALEN] = {0, 0, 0, 0, 0, 0};
++
++		for (i = 0; i < 4; i++) {
++			cam_id = rtw_camid_search(padapter, null_addr, i, -1);
++			if (cam_id >= 0) {
++				clear_cam_entry(padapter, cam_id);
++				rtw_camid_free(padapter, cam_id);
++			}
++		}
++		/* clear default key related key search setting */
++		rtw_hal_set_hwreg(padapter, HW_VAR_SEC_DK_CFG, (u8 *)_FALSE);
++#endif
++	}
++
++#else /*NON CONFIG_CONCURRENT_MODE*/
++
++	invalidate_cam_all(padapter);
++	/* clear default key related key search setting */
++	rtw_hal_set_hwreg(padapter, HW_VAR_SEC_DK_CFG, (u8 *)_FALSE);
++#endif
++}
++
++#if defined(CONFIG_P2P) && defined(CONFIG_WFD)
++void rtw_process_wfd_ie(_adapter *adapter, u8 *wfd_ie, u8 wfd_ielen, const char *tag)
++{
++	struct wifidirect_info *wdinfo = &adapter->wdinfo;
++
++	u8 *attr_content;
++	u32 attr_contentlen = 0;
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		return;
++
++	RTW_INFO("[%s] Found WFD IE\n", tag);
++	attr_content = rtw_get_wfd_attr_content(wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, NULL, &attr_contentlen);
++	if (attr_content && attr_contentlen) {
++		wdinfo->wfd_info->peer_rtsp_ctrlport = RTW_GET_BE16(attr_content + 2);
++		RTW_INFO("[%s] Peer PORT NUM = %d\n", tag, wdinfo->wfd_info->peer_rtsp_ctrlport);
++	}
++}
++
++void rtw_process_wfd_ies(_adapter *adapter, u8 *ies, u8 ies_len, const char *tag)
++{
++	u8 *wfd_ie;
++	u32	wfd_ielen;
++
++	if (!hal_chk_wl_func(adapter, WL_FUNC_MIRACAST))
++		return;
++
++	wfd_ie = rtw_get_wfd_ie(ies, ies_len, NULL, &wfd_ielen);
++	while (wfd_ie) {
++		rtw_process_wfd_ie(adapter, wfd_ie, wfd_ielen, tag);
++		wfd_ie = rtw_get_wfd_ie(wfd_ie + wfd_ielen, (ies + ies_len) - (wfd_ie + wfd_ielen), NULL, &wfd_ielen);
++	}
++}
++#endif /* defined(CONFIG_P2P) && defined(CONFIG_WFD) */
++
++int WMM_param_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs	pIE)
++{
++	/* struct registry_priv	*pregpriv = &padapter->registrypriv; */
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (pmlmepriv->qospriv.qos_option == 0) {
++		pmlmeinfo->WMM_enable = 0;
++		return _FALSE;
++	}
++
++	if (_rtw_memcmp(&(pmlmeinfo->WMM_param), (pIE->data + 6), sizeof(struct WMM_para_element)))
++		return _FALSE;
++	else
++		_rtw_memcpy(&(pmlmeinfo->WMM_param), (pIE->data + 6), sizeof(struct WMM_para_element));
++	pmlmeinfo->WMM_enable = 1;
++	return _TRUE;
++
++#if 0
++	if (pregpriv->wifi_spec == 1) {
++		if (pmlmeinfo->WMM_enable == 1) {
++			/* todo: compare the parameter set count & decide wheher to update or not */
++			return _FAIL;
++		} else {
++			pmlmeinfo->WMM_enable = 1;
++			_rtw_rtw_memcpy(&(pmlmeinfo->WMM_param), (pIE->data + 6), sizeof(struct WMM_para_element));
++			return _TRUE;
++		}
++	} else {
++		pmlmeinfo->WMM_enable = 0;
++		return _FAIL;
++	}
++#endif
++
++}
++
++void WMMOnAssocRsp(_adapter *padapter)
++{
++	u8	ACI, ACM, AIFS, ECWMin, ECWMax, aSifsTime;
++	u8	acm_mask;
++	u16	TXOP;
++	u32	acParm, i;
++	u32	edca[4], inx[4];
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct xmit_priv		*pxmitpriv = &padapter->xmitpriv;
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++
++	acm_mask = 0;
++
++	if (IsSupported5G(pmlmeext->cur_wireless_mode) ||
++	    (pmlmeext->cur_wireless_mode & WIRELESS_11_24N))
++		aSifsTime = 16;
++	else
++		aSifsTime = 10;
++
++	if (pmlmeinfo->WMM_enable == 0) {
++		padapter->mlmepriv.acm_mask = 0;
++
++		AIFS = aSifsTime + (2 * pmlmeinfo->slotTime);
++
++		if (pmlmeext->cur_wireless_mode & (WIRELESS_11G | WIRELESS_11A)) {
++			ECWMin = 4;
++			ECWMax = 10;
++		} else if (pmlmeext->cur_wireless_mode & WIRELESS_11B) {
++			ECWMin = 5;
++			ECWMax = 10;
++		} else {
++			ECWMin = 4;
++			ECWMax = 10;
++		}
++
++		TXOP = 0;
++		acParm = AIFS | (ECWMin << 8) | (ECWMax << 12) | (TXOP << 16);
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acParm));
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BK, (u8 *)(&acParm));
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VI, (u8 *)(&acParm));
++
++		ECWMin = 2;
++		ECWMax = 3;
++		TXOP = 0x2f;
++		acParm = AIFS | (ECWMin << 8) | (ECWMax << 12) | (TXOP << 16);
++		rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VO, (u8 *)(&acParm));
++	} else {
++		edca[0] = edca[1] = edca[2] = edca[3] = 0;
++
++		for (i = 0; i < 4; i++) {
++			ACI = (pmlmeinfo->WMM_param.ac_param[i].ACI_AIFSN >> 5) & 0x03;
++			ACM = (pmlmeinfo->WMM_param.ac_param[i].ACI_AIFSN >> 4) & 0x01;
++
++			/* AIFS = AIFSN * slot time + SIFS - r2t phy delay */
++			AIFS = (pmlmeinfo->WMM_param.ac_param[i].ACI_AIFSN & 0x0f) * pmlmeinfo->slotTime + aSifsTime;
++
++			ECWMin = (pmlmeinfo->WMM_param.ac_param[i].CW & 0x0f);
++			ECWMax = (pmlmeinfo->WMM_param.ac_param[i].CW & 0xf0) >> 4;
++			TXOP = le16_to_cpu(pmlmeinfo->WMM_param.ac_param[i].TXOP_limit);
++
++			acParm = AIFS | (ECWMin << 8) | (ECWMax << 12) | (TXOP << 16);
++
++			switch (ACI) {
++			case 0x0:
++				rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BE, (u8 *)(&acParm));
++				acm_mask |= (ACM ? BIT(1) : 0);
++				edca[XMIT_BE_QUEUE] = acParm;
++				break;
++
++			case 0x1:
++				rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_BK, (u8 *)(&acParm));
++				/* acm_mask |= (ACM? BIT(0):0); */
++				edca[XMIT_BK_QUEUE] = acParm;
++				break;
++
++			case 0x2:
++				rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VI, (u8 *)(&acParm));
++				acm_mask |= (ACM ? BIT(2) : 0);
++				edca[XMIT_VI_QUEUE] = acParm;
++				break;
++
++			case 0x3:
++				rtw_hal_set_hwreg(padapter, HW_VAR_AC_PARAM_VO, (u8 *)(&acParm));
++				acm_mask |= (ACM ? BIT(3) : 0);
++				edca[XMIT_VO_QUEUE] = acParm;
++				break;
++			}
++
++			RTW_INFO("WMM(%x): %x, %x\n", ACI, ACM, acParm);
++		}
++
++		if (padapter->registrypriv.acm_method == 1)
++			rtw_hal_set_hwreg(padapter, HW_VAR_ACM_CTRL, (u8 *)(&acm_mask));
++		else
++			padapter->mlmepriv.acm_mask = acm_mask;
++
++		inx[0] = 0;
++		inx[1] = 1;
++		inx[2] = 2;
++		inx[3] = 3;
++
++		if (pregpriv->wifi_spec == 1) {
++			u32	j, tmp, change_inx = _FALSE;
++
++			/* entry indx: 0->vo, 1->vi, 2->be, 3->bk. */
++			for (i = 0; i < 4; i++) {
++				for (j = i + 1; j < 4; j++) {
++					/* compare CW and AIFS */
++					if ((edca[j] & 0xFFFF) < (edca[i] & 0xFFFF))
++						change_inx = _TRUE;
++					else if ((edca[j] & 0xFFFF) == (edca[i] & 0xFFFF)) {
++						/* compare TXOP */
++						if ((edca[j] >> 16) > (edca[i] >> 16))
++							change_inx = _TRUE;
++					}
++
++					if (change_inx) {
++						tmp = edca[i];
++						edca[i] = edca[j];
++						edca[j] = tmp;
++
++						tmp = inx[i];
++						inx[i] = inx[j];
++						inx[j] = tmp;
++
++						change_inx = _FALSE;
++					}
++				}
++			}
++		}
++
++		for (i = 0; i < 4; i++) {
++			pxmitpriv->wmm_para_seq[i] = inx[i];
++			RTW_INFO("wmm_para_seq(%d): %d\n", i, pxmitpriv->wmm_para_seq[i]);
++		}
++	}
++}
++
++static void bwmode_update_check(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE)
++{
++#ifdef CONFIG_80211N_HT
++	unsigned char	 new_bwmode;
++	unsigned char  new_ch_offset;
++	struct HT_info_element	*pHT_info;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	struct ht_priv			*phtpriv = &pmlmepriv->htpriv;
++	u8	cbw40_enable = 0;
++
++	if (!pIE)
++		return;
++
++	if (phtpriv->ht_option == _FALSE)
++		return;
++
++	if (pmlmeext->cur_bwmode >= CHANNEL_WIDTH_80)
++		return;
++
++	if (pIE->Length > sizeof(struct HT_info_element))
++		return;
++
++	pHT_info = (struct HT_info_element *)pIE->data;
++
++	if (hal_chk_bw_cap(padapter, BW_CAP_40M)) {
++		if (pmlmeext->cur_channel > 14) {
++			if (REGSTY_IS_BW_5G_SUPPORT(pregistrypriv, CHANNEL_WIDTH_40))
++				cbw40_enable = 1;
++		} else {
++			if (REGSTY_IS_BW_2G_SUPPORT(pregistrypriv, CHANNEL_WIDTH_40))
++				cbw40_enable = 1;
++		}
++	}
++
++	if ((pHT_info->infos[0] & BIT(2)) && cbw40_enable) {
++		new_bwmode = CHANNEL_WIDTH_40;
++
++		switch (pHT_info->infos[0] & 0x3) {
++		case 1:
++			new_ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++			break;
++
++		case 3:
++			new_ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++			break;
++
++		default:
++			new_bwmode = CHANNEL_WIDTH_20;
++			new_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++			break;
++		}
++	} else {
++		new_bwmode = CHANNEL_WIDTH_20;
++		new_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	}
++
++
++	if ((new_bwmode != pmlmeext->cur_bwmode || new_ch_offset != pmlmeext->cur_ch_offset)
++	    && new_bwmode < pmlmeext->cur_bwmode
++	   ) {
++		pmlmeinfo->bwmode_updated = _TRUE;
++
++		pmlmeext->cur_bwmode = new_bwmode;
++		pmlmeext->cur_ch_offset = new_ch_offset;
++
++		/* update HT info also */
++		HT_info_handler(padapter, pIE);
++	} else
++		pmlmeinfo->bwmode_updated = _FALSE;
++
++
++	if (_TRUE == pmlmeinfo->bwmode_updated) {
++		struct sta_info *psta;
++		WLAN_BSSID_EX	*cur_network = &(pmlmeinfo->network);
++		struct sta_priv	*pstapriv = &padapter->stapriv;
++
++		/* set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode); */
++
++
++		/* update ap's stainfo */
++		psta = rtw_get_stainfo(pstapriv, cur_network->MacAddress);
++		if (psta) {
++			struct ht_priv	*phtpriv_sta = &psta->htpriv;
++
++			if (phtpriv_sta->ht_option) {
++				/* bwmode				 */
++				psta->bw_mode = pmlmeext->cur_bwmode;
++				phtpriv_sta->ch_offset = pmlmeext->cur_ch_offset;
++			} else {
++				psta->bw_mode = CHANNEL_WIDTH_20;
++				phtpriv_sta->ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++			}
++
++			rtw_dm_ra_mask_wk_cmd(padapter, (u8 *)psta);
++		}
++
++		/* pmlmeinfo->bwmode_updated = _FALSE; */ /* bwmode_updated done, reset it! */
++	}
++#endif /* CONFIG_80211N_HT */
++}
++
++void HT_caps_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE)
++{
++#ifdef CONFIG_80211N_HT
++	unsigned int	i;
++	u8	rf_type = RF_1T1R;
++	u8	max_AMPDU_len, min_MPDU_spacing;
++	u8	cur_ldpc_cap = 0, cur_stbc_cap = 0, cur_beamform_cap = 0;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct ht_priv			*phtpriv = &pmlmepriv->htpriv;
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++
++	if (pIE == NULL)
++		return;
++
++	if (phtpriv->ht_option == _FALSE)
++		return;
++
++	pmlmeinfo->HT_caps_enable = 1;
++
++	for (i = 0; i < (pIE->Length); i++) {
++		if (i != 2) {
++			/*	Commented by Albert 2010/07/12 */
++			/*	Got the endian issue here. */
++			pmlmeinfo->HT_caps.u.HT_cap[i] &= (pIE->data[i]);
++		} else {
++			/* AMPDU Parameters field */
++
++			/* Get MIN of MAX AMPDU Length Exp */
++			if ((pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x3) > (pIE->data[i] & 0x3))
++				max_AMPDU_len = (pIE->data[i] & 0x3);
++			else
++				max_AMPDU_len = (pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x3);
++
++			/* Get MAX of MIN MPDU Start Spacing */
++			if ((pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x1c) > (pIE->data[i] & 0x1c))
++				min_MPDU_spacing = (pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x1c);
++			else
++				min_MPDU_spacing = (pIE->data[i] & 0x1c);
++
++			pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para = max_AMPDU_len | min_MPDU_spacing;
++		}
++	}
++
++	/*	Commented by Albert 2010/07/12 */
++	/*	Have to handle the endian issue after copying. */
++	/*	HT_ext_caps didn't be used yet.	 */
++	pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info = le16_to_cpu(pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info);
++	pmlmeinfo->HT_caps.u.HT_cap_element.HT_ext_caps = le16_to_cpu(pmlmeinfo->HT_caps.u.HT_cap_element.HT_ext_caps);
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++
++	/* update the MCS set */
++	for (i = 0; i < 16; i++)
++		pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate[i] &= pmlmeext->default_supported_mcs_set[i];
++
++	/* update the MCS rates */
++	switch (rf_type) {
++	case RF_1T1R:
++	case RF_1T2R:
++		set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_1R);
++		break;
++	case RF_2T2R:
++#ifdef CONFIG_DISABLE_MCS13TO15
++		if (pmlmeext->cur_bwmode == CHANNEL_WIDTH_40 && pregistrypriv->wifi_spec != 1)
++			set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_2R_13TO15_OFF);
++		else
++			set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_2R);
++#else /* CONFIG_DISABLE_MCS13TO15 */
++		set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_2R);
++#endif /* CONFIG_DISABLE_MCS13TO15 */
++		break;
++	case RF_3T3R:
++		set_mcs_rate_by_mask(pmlmeinfo->HT_caps.u.HT_cap_element.MCS_rate, MCS_RATE_3R);
++		break;
++	default:
++		RTW_INFO("[warning] rf_type %d is not expected\n", rf_type);
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++		/* Config STBC setting */
++		if (TEST_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_TX) && GET_HT_CAP_ELE_RX_STBC(pIE->data)) {
++			SET_FLAG(cur_stbc_cap, STBC_HT_ENABLE_TX);
++			RTW_INFO("Enable HT Tx STBC !\n");
++		}
++		phtpriv->stbc_cap = cur_stbc_cap;
++
++#ifdef CONFIG_BEAMFORMING
++		/* Config Tx beamforming setting */
++		if (TEST_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE) &&
++		    GET_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP(pIE->data)) {
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE);
++			/* Shift to BEAMFORMING_HT_BEAMFORMEE_CHNL_EST_CAP*/
++			SET_FLAG(cur_beamform_cap, GET_HT_CAP_TXBF_CHNL_ESTIMATION_NUM_ANTENNAS(pIE->data) << 6);
++		}
++
++		if (TEST_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE) &&
++		    GET_HT_CAP_TXBF_EXPLICIT_COMP_FEEDBACK_CAP(pIE->data)) {
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE);
++			/* Shift to BEAMFORMING_HT_BEAMFORMER_STEER_NUM*/
++			SET_FLAG(cur_beamform_cap, GET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS(pIE->data) << 4);
++		}
++		phtpriv->beamform_cap = cur_beamform_cap;
++		if (cur_beamform_cap)
++			RTW_INFO("AP HT Beamforming Cap = 0x%02X\n", cur_beamform_cap);
++#endif /*CONFIG_BEAMFORMING*/
++	} else {
++		/*WIFI_STATION_STATEorI_ADHOC_STATE or WIFI_ADHOC_MASTER_STATE*/
++		/* Config LDPC Coding Capability */
++		if (TEST_FLAG(phtpriv->ldpc_cap, LDPC_HT_ENABLE_TX) && GET_HT_CAP_ELE_LDPC_CAP(pIE->data)) {
++			SET_FLAG(cur_ldpc_cap, (LDPC_HT_ENABLE_TX | LDPC_HT_CAP_TX));
++			RTW_INFO("Enable HT Tx LDPC!\n");
++		}
++		phtpriv->ldpc_cap = cur_ldpc_cap;
++
++		/* Config STBC setting */
++		if (TEST_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_TX) && GET_HT_CAP_ELE_RX_STBC(pIE->data)) {
++			SET_FLAG(cur_stbc_cap, (STBC_HT_ENABLE_TX | STBC_HT_CAP_TX));
++			RTW_INFO("Enable HT Tx STBC!\n");
++		}
++		phtpriv->stbc_cap = cur_stbc_cap;
++
++#ifdef CONFIG_BEAMFORMING
++		/* Config Tx beamforming setting */
++		if (TEST_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE) &&
++		    GET_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP(pIE->data)) {
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE);
++			/* Shift to BEAMFORMING_HT_BEAMFORMEE_CHNL_EST_CAP*/
++			SET_FLAG(cur_beamform_cap, GET_HT_CAP_TXBF_CHNL_ESTIMATION_NUM_ANTENNAS(pIE->data) << 6);
++		}
++
++		if (TEST_FLAG(phtpriv->beamform_cap, BEAMFORMING_HT_BEAMFORMER_ENABLE) &&
++		    GET_HT_CAP_TXBF_EXPLICIT_COMP_FEEDBACK_CAP(pIE->data)) {
++			SET_FLAG(cur_beamform_cap, BEAMFORMING_HT_BEAMFORMEE_ENABLE);
++			/* Shift to BEAMFORMING_HT_BEAMFORMER_STEER_NUM*/
++			SET_FLAG(cur_beamform_cap, GET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS(pIE->data) << 4);
++		}
++		phtpriv->beamform_cap = cur_beamform_cap;
++		if (cur_beamform_cap)
++			RTW_INFO("Client HT Beamforming Cap = 0x%02X\n", cur_beamform_cap);
++#endif /*CONFIG_BEAMFORMING*/
++	}
++
++#endif /* CONFIG_80211N_HT */
++}
++
++void HT_info_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE)
++{
++#ifdef CONFIG_80211N_HT
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct ht_priv			*phtpriv = &pmlmepriv->htpriv;
++
++	if (pIE == NULL)
++		return;
++
++	if (phtpriv->ht_option == _FALSE)
++		return;
++
++
++	if (pIE->Length > sizeof(struct HT_info_element))
++		return;
++
++	pmlmeinfo->HT_info_enable = 1;
++	_rtw_memcpy(&(pmlmeinfo->HT_info), pIE->data, pIE->Length);
++#endif /* CONFIG_80211N_HT */
++	return;
++}
++
++void HTOnAssocRsp(_adapter *padapter)
++{
++	unsigned char		max_AMPDU_len;
++	unsigned char		min_MPDU_spacing;
++	/* struct registry_priv	 *pregpriv = &padapter->registrypriv; */
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	if ((pmlmeinfo->HT_info_enable) && (pmlmeinfo->HT_caps_enable))
++		pmlmeinfo->HT_enable = 1;
++	else {
++		pmlmeinfo->HT_enable = 0;
++		/* set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode); */
++		return;
++	}
++
++	/* handle A-MPDU parameter field */
++	/*
++		AMPDU_para [1:0]:Max AMPDU Len => 0:8k , 1:16k, 2:32k, 3:64k
++		AMPDU_para [4:2]:Min MPDU Start Spacing
++	*/
++	max_AMPDU_len = pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x03;
++
++	min_MPDU_spacing = (pmlmeinfo->HT_caps.u.HT_cap_element.AMPDU_para & 0x1c) >> 2;
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_AMPDU_MIN_SPACE, (u8 *)(&min_MPDU_spacing));
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_AMPDU_FACTOR, (u8 *)(&max_AMPDU_len));
++
++#if 0 /* move to rtw_update_ht_cap() */
++	if ((pregpriv->bw_mode > 0) &&
++	    (pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info & BIT(1)) &&
++	    (pmlmeinfo->HT_info.infos[0] & BIT(2))) {
++		/* switch to the 40M Hz mode accoring to the AP */
++		pmlmeext->cur_bwmode = CHANNEL_WIDTH_40;
++		switch ((pmlmeinfo->HT_info.infos[0] & 0x3)) {
++		case EXTCHNL_OFFSET_UPPER:
++			pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++			break;
++
++		case EXTCHNL_OFFSET_LOWER:
++			pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++			break;
++
++		default:
++			pmlmeext->cur_ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++			break;
++		}
++	}
++#endif
++
++	/* set_channel_bwmode(padapter, pmlmeext->cur_channel, pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode); */
++
++#if 0 /* move to rtw_update_ht_cap() */
++	/*  */
++	/* Config SM Power Save setting */
++	/*  */
++	pmlmeinfo->SM_PS = (pmlmeinfo->HT_caps.u.HT_cap_element.HT_caps_info & 0x0C) >> 2;
++	if (pmlmeinfo->SM_PS == WLAN_HT_CAP_SM_PS_STATIC) {
++#if 0
++		u8 i;
++		/* update the MCS rates */
++		for (i = 0; i < 16; i++)
++			pmlmeinfo->HT_caps.HT_cap_element.MCS_rate[i] &= MCS_rate_1R[i];
++#endif
++		RTW_INFO("%s(): WLAN_HT_CAP_SM_PS_STATIC\n", __FUNCTION__);
++	}
++
++	/*  */
++	/* Config current HT Protection mode. */
++	/*  */
++	pmlmeinfo->HT_protection = pmlmeinfo->HT_info.infos[1] & 0x3;
++#endif
++
++}
++
++void ERP_IE_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (pIE->Length > 1)
++		return;
++
++	pmlmeinfo->ERP_enable = 1;
++	_rtw_memcpy(&(pmlmeinfo->ERP_IE), pIE->data, pIE->Length);
++}
++
++void VCS_update(_adapter *padapter, struct sta_info *psta)
++{
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	switch (pregpriv->vrtl_carrier_sense) { /* 0:off 1:on 2:auto */
++	case 0: /* off */
++		psta->rtsen = 0;
++		psta->cts2self = 0;
++		break;
++
++	case 1: /* on */
++		if (pregpriv->vcs_type == 1) { /* 1:RTS/CTS 2:CTS to self */
++			psta->rtsen = 1;
++			psta->cts2self = 0;
++		} else {
++			psta->rtsen = 0;
++			psta->cts2self = 1;
++		}
++		break;
++
++	case 2: /* auto */
++	default:
++		if (((pmlmeinfo->ERP_enable) && (pmlmeinfo->ERP_IE & BIT(1)))
++			/*||(pmlmepriv->ht_op_mode & HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT)*/
++		) {
++			if (pregpriv->vcs_type == 1) {
++				psta->rtsen = 1;
++				psta->cts2self = 0;
++			} else {
++				psta->rtsen = 0;
++				psta->cts2self = 1;
++			}
++		} else {
++			psta->rtsen = 0;
++			psta->cts2self = 0;
++		}
++		break;
++	}
++}
++
++void	update_ldpc_stbc_cap(struct sta_info *psta)
++{
++#ifdef CONFIG_80211N_HT
++
++#ifdef CONFIG_80211AC_VHT
++	if (psta->vhtpriv.vht_option) {
++		if (TEST_FLAG(psta->vhtpriv.ldpc_cap, LDPC_VHT_ENABLE_TX))
++			psta->ldpc = 1;
++
++		if (TEST_FLAG(psta->vhtpriv.stbc_cap, STBC_VHT_ENABLE_TX))
++			psta->stbc = 1;
++	} else
++#endif /* CONFIG_80211AC_VHT */
++		if (psta->htpriv.ht_option) {
++			if (TEST_FLAG(psta->htpriv.ldpc_cap, LDPC_HT_ENABLE_TX))
++				psta->ldpc = 1;
++
++			if (TEST_FLAG(psta->htpriv.stbc_cap, STBC_HT_ENABLE_TX))
++				psta->stbc = 1;
++		} else {
++			psta->ldpc = 0;
++			psta->stbc = 0;
++		}
++
++#endif /* CONFIG_80211N_HT */
++}
++
++
++/*
++ * rtw_get_bcn_keys: get beacon keys from recv frame
++ *
++ * TODO:
++ *	WLAN_EID_COUNTRY
++ *	WLAN_EID_ERP_INFO
++ *	WLAN_EID_CHANNEL_SWITCH
++ *	WLAN_EID_PWR_CONSTRAINT
++ */
++int rtw_get_bcn_keys(ADAPTER *Adapter, u8 *pframe, u32 packet_len,
++		     struct beacon_keys *recv_beacon)
++{
++	int left;
++	u16 capability;
++	unsigned char *pos;
++	struct rtw_ieee802_11_elems elems;
++	struct rtw_ieee80211_ht_cap *pht_cap = NULL;
++	struct HT_info_element *pht_info = NULL;
++
++	_rtw_memset(recv_beacon, 0, sizeof(*recv_beacon));
++
++	/* checking capabilities */
++	capability = le16_to_cpu(*(unsigned short *)(pframe + WLAN_HDR_A3_LEN + 10));
++
++	/* checking IEs */
++	left = packet_len - sizeof(struct rtw_ieee80211_hdr_3addr) - _BEACON_IE_OFFSET_;
++	pos = pframe + sizeof(struct rtw_ieee80211_hdr_3addr) + _BEACON_IE_OFFSET_;
++	if (rtw_ieee802_11_parse_elems(pos, left, &elems, 1) == ParseFailed)
++		return _FALSE;
++
++	/* check bw and channel offset */
++	if (elems.ht_capabilities) {
++		if (elems.ht_capabilities_len != sizeof(*pht_cap))
++			return _FALSE;
++
++		pht_cap = (struct rtw_ieee80211_ht_cap *) elems.ht_capabilities;
++		recv_beacon->ht_cap_info = pht_cap->cap_info;
++	}
++
++	if (elems.ht_operation) {
++		if (elems.ht_operation_len != sizeof(*pht_info))
++			return _FALSE;
++
++		pht_info = (struct HT_info_element *) elems.ht_operation;
++		recv_beacon->ht_info_infos_0_sco = pht_info->infos[0] & 0x03;
++	}
++
++	/* Checking for channel */
++	if (elems.ds_params && elems.ds_params_len == sizeof(recv_beacon->bcn_channel))
++		_rtw_memcpy(&recv_beacon->bcn_channel, elems.ds_params,
++			    sizeof(recv_beacon->bcn_channel));
++	else if (pht_info)
++		/* In 5G, some ap do not have DSSET IE checking HT info for channel */
++		recv_beacon->bcn_channel = pht_info->primary_channel;
++	else {
++		/* we don't find channel IE, so don't check it */
++		/* RTW_INFO("Oops: %s we don't find channel IE, so don't check it\n", __func__); */
++		recv_beacon->bcn_channel = Adapter->mlmeextpriv.cur_channel;
++	}
++
++	/* checking SSID */
++	if (elems.ssid) {
++		if (elems.ssid_len > sizeof(recv_beacon->ssid))
++			return _FALSE;
++
++		_rtw_memcpy(recv_beacon->ssid, elems.ssid, elems.ssid_len);
++		recv_beacon->ssid_len = elems.ssid_len;
++	} else
++		; /* means hidden ssid */
++
++	/* checking RSN first */
++	if (elems.rsn_ie && elems.rsn_ie_len) {
++		recv_beacon->encryp_protocol = ENCRYP_PROTOCOL_WPA2;
++		rtw_parse_wpa2_ie(elems.rsn_ie - 2, elems.rsn_ie_len + 2,
++			&recv_beacon->group_cipher, &recv_beacon->pairwise_cipher,
++				  &recv_beacon->is_8021x);
++	}
++	/* checking WPA secon */
++	else if (elems.wpa_ie && elems.wpa_ie_len) {
++		recv_beacon->encryp_protocol = ENCRYP_PROTOCOL_WPA;
++		rtw_parse_wpa_ie(elems.wpa_ie - 2, elems.wpa_ie_len + 2,
++			&recv_beacon->group_cipher, &recv_beacon->pairwise_cipher,
++				 &recv_beacon->is_8021x);
++	} else if (capability & BIT(4))
++		recv_beacon->encryp_protocol = ENCRYP_PROTOCOL_WEP;
++
++	return _TRUE;
++}
++
++void rtw_dump_bcn_keys(struct beacon_keys *recv_beacon)
++{
++	int i;
++	char *p;
++	u8 ssid[IW_ESSID_MAX_SIZE + 1];
++
++	_rtw_memcpy(ssid, recv_beacon->ssid, recv_beacon->ssid_len);
++	ssid[recv_beacon->ssid_len] = '\0';
++
++	RTW_INFO("%s: ssid = %s\n", __func__, ssid);
++	RTW_INFO("%s: channel = %x\n", __func__, recv_beacon->bcn_channel);
++	RTW_INFO("%s: ht_cap = %x\n", __func__,	recv_beacon->ht_cap_info);
++	RTW_INFO("%s: ht_info_infos_0_sco = %x\n", __func__, recv_beacon->ht_info_infos_0_sco);
++	RTW_INFO("%s: sec=%d, group = %x, pair = %x, 8021X = %x\n", __func__,
++		 recv_beacon->encryp_protocol, recv_beacon->group_cipher,
++		 recv_beacon->pairwise_cipher, recv_beacon->is_8021x);
++}
++
++int rtw_check_bcn_info(ADAPTER *Adapter, u8 *pframe, u32 packet_len)
++{
++#if 0
++	unsigned int		len;
++	unsigned char		*p;
++	unsigned short	val16, subtype;
++	struct wlan_network *cur_network = &(Adapter->mlmepriv.cur_network);
++	/* u8 wpa_ie[255],rsn_ie[255]; */
++	u16 wpa_len = 0, rsn_len = 0;
++	u8 encryp_protocol = 0;
++	WLAN_BSSID_EX *bssid;
++	int group_cipher = 0, pairwise_cipher = 0, is_8021x = 0;
++	unsigned char *pbuf;
++	u32 wpa_ielen = 0;
++	u8 *pbssid = GetAddr3Ptr(pframe);
++	u32 hidden_ssid = 0;
++	u8 cur_network_type, network_type = 0;
++	struct HT_info_element *pht_info = NULL;
++	struct rtw_ieee80211_ht_cap *pht_cap = NULL;
++	u32 bcn_channel;
++	unsigned short	ht_cap_info;
++	unsigned char	ht_info_infos_0;
++#endif
++	unsigned int len;
++	u8 *pbssid = GetAddr3Ptr(pframe);
++	struct mlme_priv *pmlmepriv = &Adapter->mlmepriv;
++	struct wlan_network *cur_network = &(Adapter->mlmepriv.cur_network);
++	struct beacon_keys recv_beacon;
++
++	if (is_client_associated_to_ap(Adapter) == _FALSE)
++		return _TRUE;
++
++	len = packet_len - sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	if (len > MAX_IE_SZ) {
++		RTW_INFO("%s IE too long for survey event\n", __func__);
++		return _FAIL;
++	}
++
++	if (_rtw_memcmp(cur_network->network.MacAddress, pbssid, 6) == _FALSE) {
++		RTW_INFO("Oops: rtw_check_network_encrypt linked but recv other bssid bcn\n" MAC_FMT MAC_FMT,
++			MAC_ARG(pbssid), MAC_ARG(cur_network->network.MacAddress));
++		return _TRUE;
++	}
++
++	if (rtw_get_bcn_keys(Adapter, pframe, packet_len, &recv_beacon) == _FALSE)
++		return _TRUE; /* parsing failed => broken IE */
++
++	/* don't care hidden ssid, use current beacon ssid directly */
++	if (recv_beacon.ssid_len == 0) {
++		_rtw_memcpy(recv_beacon.ssid, pmlmepriv->cur_beacon_keys.ssid,
++			    pmlmepriv->cur_beacon_keys.ssid_len);
++		recv_beacon.ssid_len = pmlmepriv->cur_beacon_keys.ssid_len;
++	}
++
++	if (_rtw_memcmp(&recv_beacon, &pmlmepriv->cur_beacon_keys, sizeof(recv_beacon)) == _TRUE)
++		pmlmepriv->new_beacon_cnts = 0;
++	else if ((pmlmepriv->new_beacon_cnts == 0) ||
++		_rtw_memcmp(&recv_beacon, &pmlmepriv->new_beacon_keys, sizeof(recv_beacon)) == _FALSE) {
++		RTW_ERR("%s: start new beacon (seq=%d)\n", __func__, GetSequence(pframe));
++
++		if (pmlmepriv->new_beacon_cnts == 0) {
++			RTW_ERR("%s: cur beacon key\n", __func__);
++			RTW_DBG_EXPR(rtw_dump_bcn_keys(&pmlmepriv->cur_beacon_keys));
++		}
++
++		RTW_ERR("%s: new beacon key\n", __func__);
++		RTW_DBG_EXPR(rtw_dump_bcn_keys(&recv_beacon));
++
++		memcpy(&pmlmepriv->new_beacon_keys, &recv_beacon, sizeof(recv_beacon));
++		pmlmepriv->new_beacon_cnts = 1;
++	} else {
++		RTW_ERR("%s: new beacon again (seq=%d)\n", __func__, GetSequence(pframe));
++		pmlmepriv->new_beacon_cnts++;
++	}
++
++	/* if counter >= max, it means beacon is changed really */
++	if (pmlmepriv->new_beacon_cnts >= new_bcn_max) {
++		RTW_ERR("%s: new beacon occur!!\n", __func__);
++
++		/* check bw mode change only? */
++		pmlmepriv->cur_beacon_keys.ht_cap_info = recv_beacon.ht_cap_info;
++		pmlmepriv->cur_beacon_keys.ht_info_infos_0_sco = recv_beacon.ht_info_infos_0_sco;
++
++		if (_rtw_memcmp(&recv_beacon, &pmlmepriv->cur_beacon_keys,
++				sizeof(recv_beacon)) == _FALSE) {
++			/* beacon is changed, have to do disconnect/connect */
++			return _FAIL;
++		}
++
++		RTW_INFO("%s bw mode change\n", __func__);
++		RTW_INFO("%s bcn now: ht_cap_info:%x ht_info_infos_0:%x\n", __func__,
++			 cur_network->BcnInfo.ht_cap_info,
++			 cur_network->BcnInfo.ht_info_infos_0);
++
++		cur_network->BcnInfo.ht_cap_info = recv_beacon.ht_cap_info;
++		cur_network->BcnInfo.ht_info_infos_0 =
++			(cur_network->BcnInfo.ht_info_infos_0 & (~0x03)) |
++			recv_beacon.ht_info_infos_0_sco;
++
++		RTW_INFO("%s bcn link: ht_cap_info:%x ht_info_infos_0:%x\n", __func__,
++			 cur_network->BcnInfo.ht_cap_info,
++			 cur_network->BcnInfo.ht_info_infos_0);
++
++		memcpy(&pmlmepriv->cur_beacon_keys, &recv_beacon, sizeof(recv_beacon));
++		pmlmepriv->new_beacon_cnts = 0;
++	}
++
++	return _SUCCESS;
++
++#if 0
++	bssid = (WLAN_BSSID_EX *)rtw_zmalloc(sizeof(WLAN_BSSID_EX));
++	if (bssid == NULL) {
++		RTW_INFO("%s rtw_zmalloc fail !!!\n", __func__);
++		return _TRUE;
++	}
++
++	if ((pmlmepriv->timeBcnInfoChkStart != 0) && (rtw_get_passing_time_ms(pmlmepriv->timeBcnInfoChkStart) > DISCONNECT_BY_CHK_BCN_FAIL_OBSERV_PERIOD_IN_MS)) {
++		pmlmepriv->timeBcnInfoChkStart = 0;
++		pmlmepriv->NumOfBcnInfoChkFail = 0;
++	}
++
++	subtype = GetFrameSubType(pframe) >> 4;
++
++	if (subtype == WIFI_BEACON)
++		bssid->Reserved[0] = 1;
++
++	bssid->Length = sizeof(WLAN_BSSID_EX) - MAX_IE_SZ + len;
++
++	/* below is to copy the information element */
++	bssid->IELength = len;
++	_rtw_memcpy(bssid->IEs, (pframe + sizeof(struct rtw_ieee80211_hdr_3addr)), bssid->IELength);
++
++	/* check bw and channel offset */
++	/* parsing HT_CAP_IE */
++	p = rtw_get_ie(bssid->IEs + _FIXED_IE_LENGTH_, _HT_CAPABILITY_IE_, &len, bssid->IELength - _FIXED_IE_LENGTH_);
++	if (p && len > 0) {
++		pht_cap = (struct rtw_ieee80211_ht_cap *)(p + 2);
++		ht_cap_info = pht_cap->cap_info;
++	} else
++		ht_cap_info = 0;
++	/* parsing HT_INFO_IE */
++	p = rtw_get_ie(bssid->IEs + _FIXED_IE_LENGTH_, _HT_ADD_INFO_IE_, &len, bssid->IELength - _FIXED_IE_LENGTH_);
++	if (p && len > 0) {
++		pht_info = (struct HT_info_element *)(p + 2);
++		ht_info_infos_0 = pht_info->infos[0];
++	} else
++		ht_info_infos_0 = 0;
++	if (ht_cap_info != cur_network->BcnInfo.ht_cap_info ||
++	    ((ht_info_infos_0 & 0x03) != (cur_network->BcnInfo.ht_info_infos_0 & 0x03))) {
++		RTW_INFO("%s bcn now: ht_cap_info:%x ht_info_infos_0:%x\n", __func__,
++			 ht_cap_info, ht_info_infos_0);
++		RTW_INFO("%s bcn link: ht_cap_info:%x ht_info_infos_0:%x\n", __func__,
++			cur_network->BcnInfo.ht_cap_info, cur_network->BcnInfo.ht_info_infos_0);
++		RTW_INFO("%s bw mode change\n", __func__);
++		{
++			/* bcn_info_update */
++			cur_network->BcnInfo.ht_cap_info = ht_cap_info;
++			cur_network->BcnInfo.ht_info_infos_0 = ht_info_infos_0;
++			/* to do : need to check that whether modify related register of BB or not */
++		}
++		/* goto _mismatch; */
++	}
++
++	/* Checking for channel */
++	p = rtw_get_ie(bssid->IEs + _FIXED_IE_LENGTH_, _DSSET_IE_, &len, bssid->IELength - _FIXED_IE_LENGTH_);
++	if (p)
++		bcn_channel = *(p + 2);
++	else {/* In 5G, some ap do not have DSSET IE checking HT info for channel */
++		rtw_get_ie(bssid->IEs + _FIXED_IE_LENGTH_, _HT_ADD_INFO_IE_, &len, bssid->IELength - _FIXED_IE_LENGTH_);
++		if (pht_info)
++			bcn_channel = pht_info->primary_channel;
++		else { /* we don't find channel IE, so don't check it */
++			/* RTW_INFO("Oops: %s we don't find channel IE, so don't check it\n", __func__); */
++			bcn_channel = Adapter->mlmeextpriv.cur_channel;
++		}
++	}
++	if (bcn_channel != Adapter->mlmeextpriv.cur_channel) {
++		RTW_INFO("%s beacon channel:%d cur channel:%d disconnect\n", __func__,
++			 bcn_channel, Adapter->mlmeextpriv.cur_channel);
++		goto _mismatch;
++	}
++
++	/* checking SSID */
++	p = rtw_get_ie(bssid->IEs + _FIXED_IE_LENGTH_, _SSID_IE_, &len, bssid->IELength - _FIXED_IE_LENGTH_);
++	if (p == NULL) {
++		RTW_INFO("%s marc: cannot find SSID for survey event\n", __func__);
++		hidden_ssid = _TRUE;
++	} else
++		hidden_ssid = _FALSE;
++
++	if ((NULL != p) && (_FALSE == hidden_ssid && (*(p + 1)))) {
++		_rtw_memcpy(bssid->Ssid.Ssid, (p + 2), *(p + 1));
++		bssid->Ssid.SsidLength = *(p + 1);
++	} else {
++		bssid->Ssid.SsidLength = 0;
++		bssid->Ssid.Ssid[0] = '\0';
++	}
++
++
++	if (_rtw_memcmp(bssid->Ssid.Ssid, cur_network->network.Ssid.Ssid, 32) == _FALSE ||
++	    bssid->Ssid.SsidLength != cur_network->network.Ssid.SsidLength) {
++		if (bssid->Ssid.Ssid[0] != '\0' && bssid->Ssid.SsidLength != 0) { /* not hidden ssid */
++			RTW_INFO("%s(), SSID is not match\n", __func__);
++			goto _mismatch;
++		}
++	}
++
++	/* check encryption info */
++	val16 = rtw_get_capability((WLAN_BSSID_EX *)bssid);
++
++	if (val16 & BIT(4))
++		bssid->Privacy = 1;
++	else
++		bssid->Privacy = 0;
++
++	if (cur_network->network.Privacy != bssid->Privacy) {
++		RTW_INFO("%s(), privacy is not match\n", __func__);
++		goto _mismatch;
++	}
++
++	rtw_get_sec_ie(bssid->IEs, bssid->IELength, NULL, &rsn_len, NULL, &wpa_len);
++
++	if (rsn_len > 0)
++		encryp_protocol = ENCRYP_PROTOCOL_WPA2;
++	else if (wpa_len > 0)
++		encryp_protocol = ENCRYP_PROTOCOL_WPA;
++	else {
++		if (bssid->Privacy)
++			encryp_protocol = ENCRYP_PROTOCOL_WEP;
++	}
++
++	if (cur_network->BcnInfo.encryp_protocol != encryp_protocol) {
++		RTW_INFO("%s(): enctyp is not match\n", __func__);
++		goto _mismatch;
++	}
++
++	if (encryp_protocol == ENCRYP_PROTOCOL_WPA || encryp_protocol == ENCRYP_PROTOCOL_WPA2) {
++		pbuf = rtw_get_wpa_ie(&bssid->IEs[12], &wpa_ielen, bssid->IELength - 12);
++		if (pbuf && (wpa_ielen > 0)) {
++			rtw_parse_wpa_ie(pbuf, wpa_ielen + 2, &group_cipher, &pairwise_cipher, &is_8021x);
++		} else {
++			pbuf = rtw_get_wpa2_ie(&bssid->IEs[12], &wpa_ielen, bssid->IELength - 12);
++
++			if (pbuf && (wpa_ielen > 0)) {
++				rtw_parse_wpa2_ie(pbuf, wpa_ielen + 2, &group_cipher, &pairwise_cipher, &is_8021x);
++			}
++		}
++
++		if (pairwise_cipher != cur_network->BcnInfo.pairwise_cipher || group_cipher != cur_network->BcnInfo.group_cipher) {
++			RTW_INFO("%s pairwise_cipher(%x:%x) or group_cipher(%x:%x) is not match\n", __func__,
++				pairwise_cipher, cur_network->BcnInfo.pairwise_cipher,
++				group_cipher, cur_network->BcnInfo.group_cipher);
++			goto _mismatch;
++		}
++
++		if (is_8021x != cur_network->BcnInfo.is_8021x) {
++			RTW_INFO("%s authentication is not match\n", __func__);
++			goto _mismatch;
++		}
++	}
++
++	rtw_mfree((u8 *)bssid, sizeof(WLAN_BSSID_EX));
++	return _SUCCESS;
++
++_mismatch:
++	rtw_mfree((u8 *)bssid, sizeof(WLAN_BSSID_EX));
++
++	if (pmlmepriv->NumOfBcnInfoChkFail == 0)
++		pmlmepriv->timeBcnInfoChkStart = rtw_get_current_time();
++
++	pmlmepriv->NumOfBcnInfoChkFail++;
++	RTW_INFO("%s by "ADPT_FMT" - NumOfChkFail = %d (SeqNum of this Beacon frame = %d).\n", __func__, ADPT_ARG(Adapter), pmlmepriv->NumOfBcnInfoChkFail, GetSequence(pframe));
++
++	if ((pmlmepriv->timeBcnInfoChkStart != 0) && (rtw_get_passing_time_ms(pmlmepriv->timeBcnInfoChkStart) <= DISCONNECT_BY_CHK_BCN_FAIL_OBSERV_PERIOD_IN_MS)
++	    && (pmlmepriv->NumOfBcnInfoChkFail >= DISCONNECT_BY_CHK_BCN_FAIL_THRESHOLD)) {
++		RTW_INFO("%s by "ADPT_FMT" - NumOfChkFail = %d >= threshold : %d (in %d ms), return FAIL.\n", __func__, ADPT_ARG(Adapter), pmlmepriv->NumOfBcnInfoChkFail,
++			DISCONNECT_BY_CHK_BCN_FAIL_THRESHOLD, rtw_get_passing_time_ms(pmlmepriv->timeBcnInfoChkStart));
++		pmlmepriv->timeBcnInfoChkStart = 0;
++		pmlmepriv->NumOfBcnInfoChkFail = 0;
++		return _FAIL;
++	}
++
++	return _SUCCESS;
++#endif
++}
++
++void update_beacon_info(_adapter *padapter, u8 *pframe, uint pkt_len, struct sta_info *psta)
++{
++	unsigned int i;
++	unsigned int len;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++
++#ifdef CONFIG_TDLS
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	u8 tdls_prohibited[] = { 0x00, 0x00, 0x00, 0x00, 0x10 }; /* bit(38): TDLS_prohibited */
++#endif /* CONFIG_TDLS */
++
++	len = pkt_len - (_BEACON_IE_OFFSET_ + WLAN_HDR_A3_LEN);
++
++	for (i = 0; i < len;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pframe + (_BEACON_IE_OFFSET_ + WLAN_HDR_A3_LEN) + i);
++
++		switch (pIE->ElementID) {
++		case _VENDOR_SPECIFIC_IE_:
++			/* to update WMM paramter set while receiving beacon */
++			if (_rtw_memcmp(pIE->data, WMM_PARA_OUI, 6) && pIE->Length == WLAN_WMM_LEN)	/* WMM */
++				(WMM_param_handler(padapter, pIE)) ? report_wmm_edca_update(padapter) : 0;
++
++			break;
++
++		case _HT_EXTRA_INFO_IE_:	/* HT info */
++			/* HT_info_handler(padapter, pIE); */
++			bwmode_update_check(padapter, pIE);
++			break;
++#ifdef CONFIG_80211AC_VHT
++		case EID_OpModeNotification:
++			rtw_process_vht_op_mode_notify(padapter, pIE->data, psta);
++			break;
++#endif /* CONFIG_80211AC_VHT */
++		case _ERPINFO_IE_:
++			ERP_IE_handler(padapter, pIE);
++			VCS_update(padapter, psta);
++			break;
++
++#ifdef CONFIG_TDLS
++		case _EXT_CAP_IE_:
++			if (check_ap_tdls_prohibited(pIE->data, pIE->Length) == _TRUE)
++				ptdlsinfo->ap_prohibited = _TRUE;
++			if (check_ap_tdls_ch_switching_prohibited(pIE->data, pIE->Length) == _TRUE)
++				ptdlsinfo->ch_switch_prohibited = _TRUE;
++			break;
++#endif /* CONFIG_TDLS */
++		default:
++			break;
++		}
++
++		i += (pIE->Length + 2);
++	}
++}
++
++#ifdef CONFIG_DFS
++void process_csa_ie(_adapter *padapter, u8 *pframe, uint pkt_len)
++{
++	unsigned int i;
++	unsigned int len;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	u8 new_ch_no = 0;
++
++	if (padapter->mlmepriv.handle_dfs == _TRUE)
++		return;
++
++	len = pkt_len - (_BEACON_IE_OFFSET_ + WLAN_HDR_A3_LEN);
++
++	for (i = 0; i < len;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pframe + (_BEACON_IE_OFFSET_ + WLAN_HDR_A3_LEN) + i);
++
++		switch (pIE->ElementID) {
++		case _CH_SWTICH_ANNOUNCE_:
++			padapter->mlmepriv.handle_dfs = _TRUE;
++			_rtw_memcpy(&new_ch_no, pIE->data + 1, 1);
++			rtw_set_csa_cmd(padapter, new_ch_no);
++			break;
++		default:
++			break;
++		}
++
++		i += (pIE->Length + 2);
++	}
++}
++#endif /* CONFIG_DFS */
++
++unsigned int is_ap_in_tkip(_adapter *padapter)
++{
++	u32 i;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++
++	if (rtw_get_capability((WLAN_BSSID_EX *)cur_network) & WLAN_CAPABILITY_PRIVACY) {
++		for (i = sizeof(NDIS_802_11_FIXED_IEs); i < pmlmeinfo->network.IELength;) {
++			pIE = (PNDIS_802_11_VARIABLE_IEs)(pmlmeinfo->network.IEs + i);
++
++			switch (pIE->ElementID) {
++			case _VENDOR_SPECIFIC_IE_:
++				if ((_rtw_memcmp(pIE->data, RTW_WPA_OUI, 4)) && (_rtw_memcmp((pIE->data + 12), WPA_TKIP_CIPHER, 4)))
++					return _TRUE;
++				break;
++
++			case _RSN_IE_2_:
++				if (_rtw_memcmp((pIE->data + 8), RSN_TKIP_CIPHER, 4))
++					return _TRUE;
++
++			default:
++				break;
++			}
++
++			i += (pIE->Length + 2);
++		}
++
++		return _FALSE;
++	} else
++		return _FALSE;
++
++}
++
++unsigned int should_forbid_n_rate(_adapter *padapter)
++{
++	u32 i;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	WLAN_BSSID_EX  *cur_network = &pmlmepriv->cur_network.network;
++
++	if (rtw_get_capability((WLAN_BSSID_EX *)cur_network) & WLAN_CAPABILITY_PRIVACY) {
++		for (i = sizeof(NDIS_802_11_FIXED_IEs); i < cur_network->IELength;) {
++			pIE = (PNDIS_802_11_VARIABLE_IEs)(cur_network->IEs + i);
++
++			switch (pIE->ElementID) {
++			case _VENDOR_SPECIFIC_IE_:
++				if (_rtw_memcmp(pIE->data, RTW_WPA_OUI, 4) &&
++				    ((_rtw_memcmp((pIE->data + 12), WPA_CIPHER_SUITE_CCMP, 4)) ||
++				     (_rtw_memcmp((pIE->data + 16), WPA_CIPHER_SUITE_CCMP, 4))))
++					return _FALSE;
++				break;
++
++			case _RSN_IE_2_:
++				if ((_rtw_memcmp((pIE->data + 8), RSN_CIPHER_SUITE_CCMP, 4))  ||
++				    (_rtw_memcmp((pIE->data + 12), RSN_CIPHER_SUITE_CCMP, 4)))
++					return _FALSE;
++
++			default:
++				break;
++			}
++
++			i += (pIE->Length + 2);
++		}
++
++		return _TRUE;
++	} else
++		return _FALSE;
++
++}
++
++
++unsigned int is_ap_in_wep(_adapter *padapter)
++{
++	u32 i;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++
++	if (rtw_get_capability((WLAN_BSSID_EX *)cur_network) & WLAN_CAPABILITY_PRIVACY) {
++		for (i = sizeof(NDIS_802_11_FIXED_IEs); i < pmlmeinfo->network.IELength;) {
++			pIE = (PNDIS_802_11_VARIABLE_IEs)(pmlmeinfo->network.IEs + i);
++
++			switch (pIE->ElementID) {
++			case _VENDOR_SPECIFIC_IE_:
++				if (_rtw_memcmp(pIE->data, RTW_WPA_OUI, 4))
++					return _FALSE;
++				break;
++
++			case _RSN_IE_2_:
++				return _FALSE;
++
++			default:
++				break;
++			}
++
++			i += (pIE->Length + 2);
++		}
++
++		return _TRUE;
++	} else
++		return _FALSE;
++
++}
++
++int wifirate2_ratetbl_inx(unsigned char rate);
++int wifirate2_ratetbl_inx(unsigned char rate)
++{
++	int	inx = 0;
++	rate = rate & 0x7f;
++
++	switch (rate) {
++	case 54*2:
++		inx = 11;
++		break;
++
++	case 48*2:
++		inx = 10;
++		break;
++
++	case 36*2:
++		inx = 9;
++		break;
++
++	case 24*2:
++		inx = 8;
++		break;
++
++	case 18*2:
++		inx = 7;
++		break;
++
++	case 12*2:
++		inx = 6;
++		break;
++
++	case 9*2:
++		inx = 5;
++		break;
++
++	case 6*2:
++		inx = 4;
++		break;
++
++	case 11*2:
++		inx = 3;
++		break;
++	case 11:
++		inx = 2;
++		break;
++
++	case 2*2:
++		inx = 1;
++		break;
++
++	case 1*2:
++		inx = 0;
++		break;
++
++	}
++	return inx;
++}
++
++unsigned int update_basic_rate(unsigned char *ptn, unsigned int ptn_sz)
++{
++	unsigned int i, num_of_rate;
++	unsigned int mask = 0;
++
++	num_of_rate = (ptn_sz > NumRates) ? NumRates : ptn_sz;
++
++	for (i = 0; i < num_of_rate; i++) {
++		if ((*(ptn + i)) & 0x80)
++			mask |= 0x1 << wifirate2_ratetbl_inx(*(ptn + i));
++	}
++	return mask;
++}
++
++unsigned int update_supported_rate(unsigned char *ptn, unsigned int ptn_sz)
++{
++	unsigned int i, num_of_rate;
++	unsigned int mask = 0;
++
++	num_of_rate = (ptn_sz > NumRates) ? NumRates : ptn_sz;
++
++	for (i = 0; i < num_of_rate; i++)
++		mask |= 0x1 << wifirate2_ratetbl_inx(*(ptn + i));
++
++	return mask;
++}
++
++unsigned int update_MCS_rate(struct HT_caps_element *pHT_caps)
++{
++	unsigned int mask = 0;
++
++	mask = ((pHT_caps->u.HT_cap_element.MCS_rate[0] << 12) | (pHT_caps->u.HT_cap_element.MCS_rate[1] << 20));
++
++	return mask;
++}
++
++int support_short_GI(_adapter *padapter, struct HT_caps_element *pHT_caps, u8 bwmode)
++{
++	unsigned char					bit_offset;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if (!(pmlmeinfo->HT_enable))
++		return _FAIL;
++
++	bit_offset = (bwmode & CHANNEL_WIDTH_40) ? 6 : 5;
++
++	if (pHT_caps->u.HT_cap_element.HT_caps_info & (0x1 << bit_offset))
++		return _SUCCESS;
++	else
++		return _FAIL;
++}
++
++unsigned char get_highest_rate_idx(u32 mask)
++{
++	int i;
++	unsigned char rate_idx = 0;
++
++	for (i = 31; i >= 0; i--) {
++		if (mask & BIT(i)) {
++			rate_idx = i;
++			break;
++		}
++	}
++
++	return rate_idx;
++}
++
++unsigned char get_highest_mcs_rate(struct HT_caps_element *pHT_caps);
++unsigned char get_highest_mcs_rate(struct HT_caps_element *pHT_caps)
++{
++	int i, mcs_rate;
++
++	mcs_rate = (pHT_caps->u.HT_cap_element.MCS_rate[0] | (pHT_caps->u.HT_cap_element.MCS_rate[1] << 8));
++
++	for (i = 15; i >= 0; i--) {
++		if (mcs_rate & (0x1 << i))
++			break;
++	}
++
++	return i;
++}
++
++void Update_RA_Entry(_adapter *padapter, struct sta_info *psta)
++{
++	rtw_hal_update_ra_mask(psta, psta->rssi_level);
++}
++
++void set_sta_rate(_adapter *padapter, struct sta_info *psta)
++{
++	/* rate adaptive	 */
++	rtw_hal_update_ra_mask(psta, psta->rssi_level);
++}
++
++/* Update RRSR and Rate for USERATE */
++void update_tx_basic_rate(_adapter *padapter, u8 wirelessmode)
++{
++	NDIS_802_11_RATES_EX	supported_rates;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &padapter->wdinfo;
++
++	/*	Added by Albert 2011/03/22 */
++	/*	In the P2P mode, the driver should not support the b mode. */
++	/*	So, the Tx packet shouldn't use the CCK rate */
++	if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		return;
++#endif /* CONFIG_P2P */
++#ifdef CONFIG_INTEL_WIDI
++	if (padapter->mlmepriv.widi_state != INTEL_WIDI_STATE_NONE)
++		return;
++#endif /* CONFIG_INTEL_WIDI */
++
++	_rtw_memset(supported_rates, 0, NDIS_802_11_LENGTH_RATES_EX);
++
++	/* clear B mod if current channel is in 5G band, avoid tx cck rate in 5G band. */
++	if (pmlmeext->cur_channel > 14)
++		wirelessmode &= ~(WIRELESS_11B);
++
++	if ((wirelessmode & WIRELESS_11B) && (wirelessmode == WIRELESS_11B))
++		_rtw_memcpy(supported_rates, rtw_basic_rate_cck, 4);
++	else if (wirelessmode & WIRELESS_11B)
++		_rtw_memcpy(supported_rates, rtw_basic_rate_mix, 7);
++	else
++		_rtw_memcpy(supported_rates, rtw_basic_rate_ofdm, 3);
++
++	if (wirelessmode & WIRELESS_11B)
++		update_mgnt_tx_rate(padapter, IEEE80211_CCK_RATE_1MB);
++	else
++		update_mgnt_tx_rate(padapter, IEEE80211_OFDM_RATE_6MB);
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_BASIC_RATE, supported_rates);
++}
++
++unsigned char check_assoc_AP(u8 *pframe, uint len)
++{
++	unsigned int	i;
++	PNDIS_802_11_VARIABLE_IEs	pIE;
++
++	for (i = sizeof(NDIS_802_11_FIXED_IEs); i < len;) {
++		pIE = (PNDIS_802_11_VARIABLE_IEs)(pframe + i);
++
++		switch (pIE->ElementID) {
++		case _VENDOR_SPECIFIC_IE_:
++			if ((_rtw_memcmp(pIE->data, ARTHEROS_OUI1, 3)) || (_rtw_memcmp(pIE->data, ARTHEROS_OUI2, 3))) {
++				RTW_INFO("link to Artheros AP\n");
++				return HT_IOT_PEER_ATHEROS;
++			} else if ((_rtw_memcmp(pIE->data, BROADCOM_OUI1, 3))
++				   || (_rtw_memcmp(pIE->data, BROADCOM_OUI2, 3))
++				|| (_rtw_memcmp(pIE->data, BROADCOM_OUI3, 3))) {
++				RTW_INFO("link to Broadcom AP\n");
++				return HT_IOT_PEER_BROADCOM;
++			} else if (_rtw_memcmp(pIE->data, MARVELL_OUI, 3)) {
++				RTW_INFO("link to Marvell AP\n");
++				return HT_IOT_PEER_MARVELL;
++			} else if (_rtw_memcmp(pIE->data, RALINK_OUI, 3)) {
++				RTW_INFO("link to Ralink AP\n");
++				return HT_IOT_PEER_RALINK;
++			} else if (_rtw_memcmp(pIE->data, CISCO_OUI, 3)) {
++				RTW_INFO("link to Cisco AP\n");
++				return HT_IOT_PEER_CISCO;
++			} else if (_rtw_memcmp(pIE->data, REALTEK_OUI, 3)) {
++				u32	Vender = HT_IOT_PEER_REALTEK;
++
++				if (pIE->Length >= 5) {
++					if (pIE->data[4] == 1) {
++						/* if(pIE->data[5] & RT_HT_CAP_USE_LONG_PREAMBLE) */
++						/*	bssDesc->BssHT.RT2RT_HT_Mode |= RT_HT_CAP_USE_LONG_PREAMBLE; */
++
++						if (pIE->data[5] & RT_HT_CAP_USE_92SE) {
++							/* bssDesc->BssHT.RT2RT_HT_Mode |= RT_HT_CAP_USE_92SE; */
++							Vender = HT_IOT_PEER_REALTEK_92SE;
++						}
++					}
++
++					if (pIE->data[5] & RT_HT_CAP_USE_SOFTAP)
++						Vender = HT_IOT_PEER_REALTEK_SOFTAP;
++
++					if (pIE->data[4] == 2) {
++						if (pIE->data[6] & RT_HT_CAP_USE_JAGUAR_BCUT) {
++							Vender = HT_IOT_PEER_REALTEK_JAGUAR_BCUTAP;
++							RTW_INFO("link to Realtek JAGUAR_BCUTAP\n");
++						}
++						if (pIE->data[6] & RT_HT_CAP_USE_JAGUAR_CCUT) {
++							Vender = HT_IOT_PEER_REALTEK_JAGUAR_CCUTAP;
++							RTW_INFO("link to Realtek JAGUAR_CCUTAP\n");
++						}
++					}
++				}
++
++				RTW_INFO("link to Realtek AP\n");
++				return Vender;
++			} else if (_rtw_memcmp(pIE->data, AIRGOCAP_OUI, 3)) {
++				RTW_INFO("link to Airgo Cap\n");
++				return HT_IOT_PEER_AIRGO;
++			} else
++				break;
++
++		default:
++			break;
++		}
++
++		i += (pIE->Length + 2);
++	}
++
++	RTW_INFO("link to new AP\n");
++	return HT_IOT_PEER_UNKNOWN;
++}
++
++void update_capinfo(PADAPTER Adapter, u16 updateCap)
++{
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	BOOLEAN		ShortPreamble;
++
++	/* Check preamble mode, 2005.01.06, by rcnjko. */
++	/* Mark to update preamble value forever, 2008.03.18 by lanhsin */
++	/* if( pMgntInfo->RegPreambleMode == PREAMBLE_AUTO ) */
++	{
++
++		if (updateCap & cShortPreamble) {
++			/* Short Preamble */
++			if (pmlmeinfo->preamble_mode != PREAMBLE_SHORT) { /* PREAMBLE_LONG or PREAMBLE_AUTO */
++				ShortPreamble = _TRUE;
++				pmlmeinfo->preamble_mode = PREAMBLE_SHORT;
++				rtw_hal_set_hwreg(Adapter, HW_VAR_ACK_PREAMBLE, (u8 *)&ShortPreamble);
++			}
++		} else {
++			/* Long Preamble */
++			if (pmlmeinfo->preamble_mode != PREAMBLE_LONG) { /* PREAMBLE_SHORT or PREAMBLE_AUTO */
++				ShortPreamble = _FALSE;
++				pmlmeinfo->preamble_mode = PREAMBLE_LONG;
++				rtw_hal_set_hwreg(Adapter, HW_VAR_ACK_PREAMBLE, (u8 *)&ShortPreamble);
++			}
++		}
++	}
++
++	if (updateCap & cIBSS) {
++		/* Filen: See 802.11-2007 p.91 */
++		pmlmeinfo->slotTime = NON_SHORT_SLOT_TIME;
++	} else {
++		/* Filen: See 802.11-2007 p.90 */
++		if (pmlmeext->cur_wireless_mode & (WIRELESS_11_24N | WIRELESS_11A | WIRELESS_11_5N | WIRELESS_11AC))
++			pmlmeinfo->slotTime = SHORT_SLOT_TIME;
++		else if (pmlmeext->cur_wireless_mode & (WIRELESS_11G)) {
++			if ((updateCap & cShortSlotTime) /* && (!(pMgntInfo->pHTInfo->RT2RT_HT_Mode & RT_HT_CAP_USE_LONG_PREAMBLE)) */) {
++				/* Short Slot Time */
++				pmlmeinfo->slotTime = SHORT_SLOT_TIME;
++			} else {
++				/* Long Slot Time */
++				pmlmeinfo->slotTime = NON_SHORT_SLOT_TIME;
++			}
++		} else {
++			/* B Mode */
++			pmlmeinfo->slotTime = NON_SHORT_SLOT_TIME;
++		}
++	}
++
++	rtw_hal_set_hwreg(Adapter, HW_VAR_SLOT_TIME, &pmlmeinfo->slotTime);
++
++}
++
++/*
++* set adapter.mlmeextpriv.mlmext_info.HT_enable
++* set adapter.mlmeextpriv.cur_wireless_mode
++* set SIFS register
++* set mgmt tx rate
++*/
++void update_wireless_mode(_adapter *padapter)
++{
++	int ratelen, network_type = 0;
++	u32 SIFS_Timer;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++	unsigned char			*rate = cur_network->SupportedRates;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++
++	ratelen = rtw_get_rateset_len(cur_network->SupportedRates);
++
++	if ((pmlmeinfo->HT_info_enable) && (pmlmeinfo->HT_caps_enable))
++		pmlmeinfo->HT_enable = 1;
++
++	if (pmlmeext->cur_channel > 14) {
++		if (pmlmeinfo->VHT_enable)
++			network_type = WIRELESS_11AC;
++		else if (pmlmeinfo->HT_enable)
++			network_type = WIRELESS_11_5N;
++
++		network_type |= WIRELESS_11A;
++	} else {
++		if (pmlmeinfo->VHT_enable)
++			network_type = WIRELESS_11AC;
++		else if (pmlmeinfo->HT_enable)
++			network_type = WIRELESS_11_24N;
++
++		if ((cckratesonly_included(rate, ratelen)) == _TRUE)
++			network_type |= WIRELESS_11B;
++		else if ((cckrates_included(rate, ratelen)) == _TRUE)
++			network_type |= WIRELESS_11BG;
++		else
++			network_type |= WIRELESS_11G;
++	}
++
++	pmlmeext->cur_wireless_mode = network_type & padapter->registrypriv.wireless_mode;
++	/* RTW_INFO("network_type=%02x, padapter->registrypriv.wireless_mode=%02x\n", network_type, padapter->registrypriv.wireless_mode); */
++#if 0
++	if ((pmlmeext->cur_wireless_mode == WIRELESS_11G) ||
++	    (pmlmeext->cur_wireless_mode == WIRELESS_11BG)) /* WIRELESS_MODE_G) */
++		SIFS_Timer = 0x0a0a;/* CCK */
++	else
++		SIFS_Timer = 0x0e0e;/* pHalData->SifsTime; //OFDM */
++#endif
++
++	SIFS_Timer = 0x0a0a0808; /* 0x0808->for CCK, 0x0a0a->for OFDM
++                              * change this value if having IOT issues. */
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_RESP_SIFS, (u8 *)&SIFS_Timer);
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_WIRELESS_MODE, (u8 *)&(pmlmeext->cur_wireless_mode));
++
++	if ((pmlmeext->cur_wireless_mode & WIRELESS_11B)
++#ifdef CONFIG_P2P
++	    && rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)
++#endif /* CONFIG_P2P */
++	   )
++		update_mgnt_tx_rate(padapter, IEEE80211_CCK_RATE_1MB);
++	else
++		update_mgnt_tx_rate(padapter, IEEE80211_OFDM_RATE_6MB);
++}
++
++void fire_write_MAC_cmd(_adapter *padapter, unsigned int addr, unsigned int value);
++void fire_write_MAC_cmd(_adapter *padapter, unsigned int addr, unsigned int value)
++{
++#if 0
++	struct cmd_obj					*ph2c;
++	struct reg_rw_parm			*pwriteMacPara;
++	struct cmd_priv					*pcmdpriv = &(padapter->cmdpriv);
++
++	ph2c = (struct cmd_obj *)rtw_zmalloc(sizeof(struct cmd_obj));
++	if (ph2c == NULL)
++		return;
++
++	pwriteMacPara = (struct reg_rw_parm *)rtw_malloc(sizeof(struct reg_rw_parm));
++	if (pwriteMacPara == NULL) {
++		rtw_mfree((unsigned char *)ph2c, sizeof(struct cmd_obj));
++		return;
++	}
++
++	pwriteMacPara->rw = 1;
++	pwriteMacPara->addr = addr;
++	pwriteMacPara->value = value;
++
++	init_h2fwcmd_w_parm_no_rsp(ph2c, pwriteMacPara, GEN_CMD_CODE(_Write_MACREG));
++	rtw_enqueue_cmd(pcmdpriv, ph2c);
++#endif
++}
++
++void update_sta_basic_rate(struct sta_info *psta, u8 wireless_mode)
++{
++	if (IsSupportedTxCCK(wireless_mode)) {
++		/* Only B, B/G, and B/G/N AP could use CCK rate */
++		_rtw_memcpy(psta->bssrateset, rtw_basic_rate_cck, 4);
++		psta->bssratelen = 4;
++	} else {
++		_rtw_memcpy(psta->bssrateset, rtw_basic_rate_ofdm, 3);
++		psta->bssratelen = 3;
++	}
++}
++
++int rtw_ies_get_supported_rate(u8 *ies, uint ies_len, u8 *rate_set, u8 *rate_num)
++{
++	u8 *ie;
++	unsigned int ie_len;
++
++	if (!rate_set || !rate_num)
++		return _FALSE;
++
++	*rate_num = 0;
++
++	ie = rtw_get_ie(ies, _SUPPORTEDRATES_IE_, &ie_len, ies_len);
++	if (ie == NULL)
++		goto ext_rate;
++
++	_rtw_memcpy(rate_set, ie + 2, ie_len);
++	*rate_num = ie_len;
++
++ext_rate:
++	ie = rtw_get_ie(ies, _EXT_SUPPORTEDRATES_IE_, &ie_len, ies_len);
++	if (ie) {
++		_rtw_memcpy(rate_set + *rate_num, ie + 2, ie_len);
++		*rate_num += ie_len;
++	}
++
++	if (*rate_num == 0)
++		return _FAIL;
++
++	if (0) {
++		int i;
++
++		for (i = 0; i < *rate_num; i++)
++			RTW_INFO("rate:0x%02x\n", *(rate_set + i));
++	}
++
++	return _SUCCESS;
++}
++
++void process_addba_req(_adapter *padapter, u8 *paddba_req, u8 *addr)
++{
++	struct sta_info *psta;
++	u16 tid, start_seq, param;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct ADDBA_request	*preq = (struct ADDBA_request *)paddba_req;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 size, accept = _FALSE;
++
++	psta = rtw_get_stainfo(pstapriv, addr);
++	if (!psta)
++		goto exit;
++
++	start_seq = le16_to_cpu(preq->BA_starting_seqctrl) >> 4;
++
++	param = le16_to_cpu(preq->BA_para_set);
++	tid = (param >> 2) & 0x0f;
++
++
++	accept = rtw_rx_ampdu_is_accept(padapter);
++	size = rtw_rx_ampdu_size(padapter);
++
++	if (accept == _TRUE)
++		rtw_addbarsp_cmd(padapter, addr, tid, 0, size, start_seq);
++	else
++		rtw_addbarsp_cmd(padapter, addr, tid, 37, size, start_seq); /* reject ADDBA Req */
++
++exit:
++	return;
++}
++
++void update_TSF(struct mlme_ext_priv *pmlmeext, u8 *pframe, uint len)
++{
++	u8 *pIE;
++	u32 *pbuf;
++
++	pIE = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	pbuf = (u32 *)pIE;
++
++	pmlmeext->TSFValue = le32_to_cpu(*(pbuf + 1));
++
++	pmlmeext->TSFValue = pmlmeext->TSFValue << 32;
++
++	pmlmeext->TSFValue |= le32_to_cpu(*pbuf);
++}
++
++void correct_TSF(_adapter *padapter, struct mlme_ext_priv *pmlmeext)
++{
++	rtw_hal_set_hwreg(padapter, HW_VAR_CORRECT_TSF, 0);
++}
++
++void adaptive_early_32k(struct mlme_ext_priv *pmlmeext, u8 *pframe, uint len)
++{
++	int i;
++	u8 *pIE;
++	u32 *pbuf;
++	u64 tsf = 0;
++	u32 delay_ms;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++
++	pmlmeext->bcn_cnt++;
++
++	pIE = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++	pbuf = (u32 *)pIE;
++
++	tsf = le32_to_cpu(*(pbuf + 1));
++	tsf = tsf << 32;
++	tsf |= le32_to_cpu(*pbuf);
++
++	/* RTW_INFO("%s(): tsf_upper= 0x%08x, tsf_lower=0x%08x\n", __func__, (u32)(tsf>>32), (u32)tsf); */
++
++	/* delay = (timestamp mod 1024*100)/1000 (unit: ms) */
++	/* delay_ms = do_div(tsf, (pmlmeinfo->bcn_interval*1024))/1000; */
++	delay_ms = rtw_modular64(tsf, (pmlmeinfo->bcn_interval * 1024));
++	delay_ms = delay_ms / 1000;
++
++	if (delay_ms >= 8) {
++		pmlmeext->bcn_delay_cnt[8]++;
++		/* pmlmeext->bcn_delay_ratio[8] = (pmlmeext->bcn_delay_cnt[8] * 100) /pmlmeext->bcn_cnt; */
++	} else {
++		pmlmeext->bcn_delay_cnt[delay_ms]++;
++		/* pmlmeext->bcn_delay_ratio[delay_ms] = (pmlmeext->bcn_delay_cnt[delay_ms] * 100) /pmlmeext->bcn_cnt; */
++	}
++
++	/*
++		RTW_INFO("%s(): (a)bcn_cnt = %d\n", __func__, pmlmeext->bcn_cnt);
++
++
++		for(i=0; i<9; i++)
++		{
++			RTW_INFO("%s():bcn_delay_cnt[%d]=%d,  bcn_delay_ratio[%d]=%d\n", __func__, i,
++				pmlmeext->bcn_delay_cnt[i] , i, pmlmeext->bcn_delay_ratio[i]);
++		}
++	*/
++
++	/* dump for  adaptive_early_32k */
++	if (pmlmeext->bcn_cnt > 100 && (pmlmeext->adaptive_tsf_done == _TRUE)) {
++		u8 ratio_20_delay, ratio_80_delay;
++		u8 DrvBcnEarly, DrvBcnTimeOut;
++
++		ratio_20_delay = 0;
++		ratio_80_delay = 0;
++		DrvBcnEarly = 0xff;
++		DrvBcnTimeOut = 0xff;
++
++		RTW_INFO("%s(): bcn_cnt = %d\n", __func__, pmlmeext->bcn_cnt);
++
++		for (i = 0; i < 9; i++) {
++			pmlmeext->bcn_delay_ratio[i] = (pmlmeext->bcn_delay_cnt[i] * 100) / pmlmeext->bcn_cnt;
++
++
++			/* RTW_INFO("%s():bcn_delay_cnt[%d]=%d,  bcn_delay_ratio[%d]=%d\n", __func__, i,  */
++			/*	pmlmeext->bcn_delay_cnt[i] , i, pmlmeext->bcn_delay_ratio[i]); */
++
++			ratio_20_delay += pmlmeext->bcn_delay_ratio[i];
++			ratio_80_delay += pmlmeext->bcn_delay_ratio[i];
++
++			if (ratio_20_delay > 20 && DrvBcnEarly == 0xff) {
++				DrvBcnEarly = i;
++				/* RTW_INFO("%s(): DrvBcnEarly = %d\n", __func__, DrvBcnEarly); */
++			}
++
++			if (ratio_80_delay > 80 && DrvBcnTimeOut == 0xff) {
++				DrvBcnTimeOut = i;
++				/* RTW_INFO("%s(): DrvBcnTimeOut = %d\n", __func__, DrvBcnTimeOut); */
++			}
++
++			/* reset adaptive_early_32k cnt */
++			pmlmeext->bcn_delay_cnt[i] = 0;
++			pmlmeext->bcn_delay_ratio[i] = 0;
++		}
++
++		pmlmeext->DrvBcnEarly = DrvBcnEarly;
++		pmlmeext->DrvBcnTimeOut = DrvBcnTimeOut;
++
++		pmlmeext->bcn_cnt = 0;
++	}
++
++}
++
++
++void beacon_timing_control(_adapter *padapter)
++{
++	rtw_hal_bcn_related_reg_setting(padapter);
++}
++
++#define CONFIG_SHARED_BMC_MACID
++
++void dump_macid_map(void *sel, struct macid_bmp *map, u8 max_num)
++{
++	RTW_PRINT_SEL(sel, "0x%08x\n", map->m0);
++#if (MACID_NUM_SW_LIMIT > 32)
++	if (max_num && max_num > 32)
++		RTW_PRINT_SEL(sel, "0x%08x\n", map->m1);
++#endif
++#if (MACID_NUM_SW_LIMIT > 64)
++	if (max_num && max_num > 64)
++		RTW_PRINT_SEL(sel, "0x%08x\n", map->m2);
++#endif
++#if (MACID_NUM_SW_LIMIT > 96)
++	if (max_num && max_num > 96)
++		RTW_PRINT_SEL(sel, "0x%08x\n", map->m3);
++#endif
++}
++
++inline bool rtw_macid_is_set(struct macid_bmp *map, u8 id)
++{
++	if (id < 32)
++		return map->m0 & BIT(id);
++#if (MACID_NUM_SW_LIMIT > 32)
++	else if (id < 64)
++		return map->m1 & BIT(id - 32);
++#endif
++#if (MACID_NUM_SW_LIMIT > 64)
++	else if (id < 96)
++		return map->m2 & BIT(id - 64);
++#endif
++#if (MACID_NUM_SW_LIMIT > 96)
++	else if (id < 128)
++		return map->m3 & BIT(id - 96);
++#endif
++	else
++		rtw_warn_on(1);
++
++	return 0;
++}
++
++inline void rtw_macid_map_set(struct macid_bmp *map, u8 id)
++{
++	if (id < 32)
++		map->m0 |= BIT(id);
++#if (MACID_NUM_SW_LIMIT > 32)
++	else if (id < 64)
++		map->m1 |= BIT(id - 32);
++#endif
++#if (MACID_NUM_SW_LIMIT > 64)
++	else if (id < 96)
++		map->m2 |= BIT(id - 64);
++#endif
++#if (MACID_NUM_SW_LIMIT > 96)
++	else if (id < 128)
++		map->m3 |= BIT(id - 96);
++#endif
++	else
++		rtw_warn_on(1);
++}
++
++/*Record bc's mac-id and sec-cam-id*/
++inline void rtw_iface_bcmc_id_set(_adapter *padapter, u8 mac_id)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++
++	macid_ctl->iface_bmc[padapter->iface_id] = mac_id;
++}
++inline u8 rtw_iface_bcmc_id_get(_adapter *padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++
++	return macid_ctl->iface_bmc[padapter->iface_id];
++}
++
++inline void rtw_macid_map_clr(struct macid_bmp *map, u8 id)
++{
++	if (id < 32)
++		map->m0 &= ~BIT(id);
++#if (MACID_NUM_SW_LIMIT > 32)
++	else if (id < 64)
++		map->m1 &= ~BIT(id - 32);
++#endif
++#if (MACID_NUM_SW_LIMIT > 64)
++	else if (id < 96)
++		map->m2 &= ~BIT(id - 64);
++#endif
++#if (MACID_NUM_SW_LIMIT > 96)
++	else if (id < 128)
++		map->m3 &= ~BIT(id - 96);
++#endif
++	else
++		rtw_warn_on(1);
++}
++
++inline bool rtw_macid_is_used(struct macid_ctl_t *macid_ctl, u8 id)
++{
++	return rtw_macid_is_set(&macid_ctl->used, id);
++}
++
++inline bool rtw_macid_is_bmc(struct macid_ctl_t *macid_ctl, u8 id)
++{
++	return rtw_macid_is_set(&macid_ctl->bmc, id);
++}
++
++inline s8 rtw_macid_get_if_g(struct macid_ctl_t *macid_ctl, u8 id)
++{
++	int i;
++
++#ifdef CONFIG_SHARED_BMC_MACID
++	if (rtw_macid_is_bmc(macid_ctl, id)) {
++		for (i = 0; i < CONFIG_IFACE_NUMBER; i++)
++			if (macid_ctl->iface_bmc[i] == id)
++				return i;
++		return -1;
++	}
++#endif
++
++	for (i = 0; i < CONFIG_IFACE_NUMBER; i++) {
++		if (rtw_macid_is_set(&macid_ctl->if_g[i], id))
++			return i;
++	}
++	return -1;
++}
++
++inline s8 rtw_macid_get_ch_g(struct macid_ctl_t *macid_ctl, u8 id)
++{
++	int i;
++
++	for (i = 0; i < 2; i++) {
++		if (rtw_macid_is_set(&macid_ctl->ch_g[i], id))
++			return i;
++	}
++	return -1;
++}
++
++void rtw_alloc_macid(_adapter *padapter, struct sta_info *psta)
++{
++	int i;
++	_irqL irqL;
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	struct macid_bmp *used_map = &macid_ctl->used;
++	/* static u8 last_id = 0;  for testing */
++	u8 last_id = 0;
++	u8 is_bc_sta = _FALSE;
++
++	if (_rtw_memcmp(psta->hwaddr, adapter_mac_addr(padapter), ETH_ALEN)) {
++		psta->mac_id = macid_ctl->num;
++		return;
++	}
++
++	if (_rtw_memcmp(psta->hwaddr, bc_addr, ETH_ALEN)) {
++		is_bc_sta = _TRUE;
++		rtw_iface_bcmc_id_set(padapter, INVALID_SEC_MAC_CAM_ID);	/*init default value*/
++	}
++
++#ifdef CONFIG_SHARED_BMC_MACID
++	if (is_bc_sta
++#ifdef CONFIG_CONCURRENT_MODE
++	    && (check_fwstate(&padapter->mlmepriv, WIFI_STATION_STATE) || check_fwstate(&padapter->mlmepriv, WIFI_NULL_STATE))
++#endif
++	   ) {
++		/* use shared broadcast & multicast macid 1 for all ifaces which configure to station mode*/
++		_enter_critical_bh(&macid_ctl->lock, &irqL);
++		rtw_macid_map_set(used_map, 1);
++		rtw_macid_map_set(&macid_ctl->bmc, 1);
++		rtw_macid_map_set(&macid_ctl->if_g[padapter->iface_id], 1);
++		macid_ctl->sta[1] = psta;
++		/* TODO ch_g? */
++		_exit_critical_bh(&macid_ctl->lock, &irqL);
++		i = 1;
++		goto assigned;
++	}
++#endif
++
++#ifdef CONFIG_MCC_MODE
++	if (MCC_EN(padapter)) {
++		if (MLME_IS_AP(padapter) || MLME_IS_GO(padapter))
++			/* GO/AP assign client macid from 8 */
++			last_id = 8;
++	}
++#endif /* CONFIG_MCC_MODE */
++
++	_enter_critical_bh(&macid_ctl->lock, &irqL);
++
++	for (i = last_id; i < macid_ctl->num; i++) {
++#ifdef CONFIG_SHARED_BMC_MACID
++		if (i == 1)
++			continue;
++#endif
++
++#ifdef CONFIG_MCC_MODE
++		/* macid 0/1 reserve for mcc for mgnt queue macid */
++		if (MCC_EN(padapter)) {
++			if (i == MCC_ROLE_STA_GC_MGMT_QUEUE_MACID)
++				continue;
++			if (i == MCC_ROLE_SOFTAP_GO_MGMT_QUEUE_MACID)
++				continue;
++		}
++#endif /* CONFIG_MCC_MODE */
++
++		if (is_bc_sta) {/*for SoftAP's Broadcast sta-info*/
++			/*TODO:non-security AP may allociated macid = 1*/
++			struct cam_ctl_t *cam_ctl = dvobj_to_sec_camctl(dvobj);
++
++			if ((!rtw_macid_is_used(macid_ctl, i)) && (!rtw_sec_camid_is_used(cam_ctl, i)))
++				break;
++		} else {
++			if (!rtw_macid_is_used(macid_ctl, i))
++				break;
++		}
++	}
++
++	if (i < macid_ctl->num) {
++
++		rtw_macid_map_set(used_map, i);
++
++		if (is_bc_sta) {
++			struct cam_ctl_t *cam_ctl = dvobj_to_sec_camctl(dvobj);
++
++			rtw_macid_map_set(&macid_ctl->bmc, i);
++			rtw_iface_bcmc_id_set(padapter, i);
++			rtw_sec_cam_map_set(&cam_ctl->used, i);
++		}
++
++		rtw_macid_map_set(&macid_ctl->if_g[padapter->iface_id], i);
++		macid_ctl->sta[i] = psta;
++
++		/* TODO ch_g? */
++
++		last_id++;
++		last_id %= macid_ctl->num;
++	}
++
++	_exit_critical_bh(&macid_ctl->lock, &irqL);
++
++	if (i >= macid_ctl->num) {
++		psta->mac_id = macid_ctl->num;
++		RTW_ERR(FUNC_ADPT_FMT" if%u, hwaddr:"MAC_FMT" no available macid\n"
++			, FUNC_ADPT_ARG(padapter), padapter->iface_id + 1, MAC_ARG(psta->hwaddr));
++		rtw_warn_on(1);
++		goto exit;
++	} else
++		goto assigned;
++
++assigned:
++	psta->mac_id = i;
++	RTW_INFO(FUNC_ADPT_FMT" if%u, hwaddr:"MAC_FMT" macid:%u\n"
++		, FUNC_ADPT_ARG(padapter), padapter->iface_id + 1, MAC_ARG(psta->hwaddr), psta->mac_id);
++
++exit:
++	return;
++}
++
++void rtw_release_macid(_adapter *padapter, struct sta_info *psta)
++{
++	_irqL irqL;
++	u8 bc_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	u8 is_bc_sta = _FALSE;
++
++	if (_rtw_memcmp(psta->hwaddr, adapter_mac_addr(padapter), ETH_ALEN))
++		return;
++
++	if (_rtw_memcmp(psta->hwaddr, bc_addr, ETH_ALEN))
++		is_bc_sta = _TRUE;
++
++#ifdef CONFIG_SHARED_BMC_MACID
++	if (is_bc_sta
++#ifdef CONFIG_CONCURRENT_MODE
++	    && (check_fwstate(&padapter->mlmepriv, WIFI_STATION_STATE) || check_fwstate(&padapter->mlmepriv, WIFI_NULL_STATE))
++#endif
++	   )
++		return;
++
++	if (psta->mac_id == 1) {
++		RTW_ERR(FUNC_ADPT_FMT" if%u, hwaddr:"MAC_FMT" with macid:%u\n"
++			, FUNC_ADPT_ARG(padapter), padapter->iface_id + 1, MAC_ARG(psta->hwaddr), psta->mac_id);
++		if (check_fwstate(&padapter->mlmepriv, WIFI_STATION_STATE) || check_fwstate(&padapter->mlmepriv, WIFI_NULL_STATE))
++			rtw_warn_on(1);
++		return;
++	}
++#endif
++
++	_enter_critical_bh(&macid_ctl->lock, &irqL);
++
++	if (psta->mac_id < macid_ctl->num) {
++		int i;
++
++		if (!rtw_macid_is_used(macid_ctl, psta->mac_id)) {
++			RTW_ERR(FUNC_ADPT_FMT" if%u, hwaddr:"MAC_FMT" macid:%u not used\n"
++				, FUNC_ADPT_ARG(padapter), padapter->iface_id + 1, MAC_ARG(psta->hwaddr), psta->mac_id);
++			rtw_warn_on(1);
++		}
++
++		rtw_macid_map_clr(&macid_ctl->used, psta->mac_id);
++		rtw_macid_map_clr(&macid_ctl->bmc, psta->mac_id);
++
++		if (is_bc_sta) {
++			struct cam_ctl_t *cam_ctl = dvobj_to_sec_camctl(dvobj);
++			u8 id = rtw_iface_bcmc_id_get(padapter);
++
++			if ((id != INVALID_SEC_MAC_CAM_ID) && (id < cam_ctl->num))
++				rtw_sec_cam_map_clr(&cam_ctl->used, id);
++
++			rtw_iface_bcmc_id_set(padapter, INVALID_SEC_MAC_CAM_ID);
++		}
++
++		for (i = 0; i < CONFIG_IFACE_NUMBER; i++)
++			rtw_macid_map_clr(&macid_ctl->if_g[i], psta->mac_id);
++		for (i = 0; i < 2; i++)
++			rtw_macid_map_clr(&macid_ctl->ch_g[i], psta->mac_id);
++		macid_ctl->sta[psta->mac_id] = NULL;
++	}
++
++	_exit_critical_bh(&macid_ctl->lock, &irqL);
++
++	psta->mac_id = macid_ctl->num;
++}
++
++/* For 8188E RA */
++u8 rtw_search_max_mac_id(_adapter *padapter)
++{
++	u8 max_mac_id = 0;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	int i;
++	_irqL irqL;
++
++	/* TODO: Only search for connected macid? */
++
++	_enter_critical_bh(&macid_ctl->lock, &irqL);
++	for (i = (macid_ctl->num - 1); i > 0 ; i--) {
++		if (rtw_macid_is_used(macid_ctl, i))
++			break;
++	}
++	_exit_critical_bh(&macid_ctl->lock, &irqL);
++	max_mac_id = i;
++
++	return max_mac_id;
++}
++
++inline void rtw_macid_ctl_set_h2c_msr(struct macid_ctl_t *macid_ctl, u8 id, u8 h2c_msr)
++{
++	if (id >= macid_ctl->num) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	macid_ctl->h2c_msr[id] = h2c_msr;
++	if (0)
++		RTW_INFO("macid:%u, h2c_msr:"H2C_MSR_FMT"\n", id, H2C_MSR_ARG(&macid_ctl->h2c_msr[id]));
++}
++
++inline void rtw_macid_ctl_set_bw(struct macid_ctl_t *macid_ctl, u8 id, u8 bw)
++{
++	if (id >= macid_ctl->num) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	macid_ctl->bw[id] = bw;
++	if (0)
++		RTW_INFO("macid:%u, bw:%s\n", id, ch_width_str(macid_ctl->bw[id]));
++}
++
++inline void rtw_macid_ctl_set_vht_en(struct macid_ctl_t *macid_ctl, u8 id, u8 en)
++{
++	if (id >= macid_ctl->num) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	macid_ctl->vht_en[id] = en;
++	if (0)
++		RTW_INFO("macid:%u, vht_en:%u\n", id, macid_ctl->vht_en[id]);
++}
++
++inline void rtw_macid_ctl_set_rate_bmp0(struct macid_ctl_t *macid_ctl, u8 id, u32 bmp)
++{
++	if (id >= macid_ctl->num) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	macid_ctl->rate_bmp0[id] = bmp;
++	if (0)
++		RTW_INFO("macid:%u, rate_bmp0:0x%08X\n", id, macid_ctl->rate_bmp0[id]);
++}
++
++inline void rtw_macid_ctl_set_rate_bmp1(struct macid_ctl_t *macid_ctl, u8 id, u32 bmp)
++{
++	if (id >= macid_ctl->num) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	macid_ctl->rate_bmp1[id] = bmp;
++	if (0)
++		RTW_INFO("macid:%u, rate_bmp1:0x%08X\n", id, macid_ctl->rate_bmp1[id]);
++}
++
++inline void rtw_macid_ctl_init(struct macid_ctl_t *macid_ctl)
++{
++	_rtw_spinlock_init(&macid_ctl->lock);
++}
++
++inline void rtw_macid_ctl_deinit(struct macid_ctl_t *macid_ctl)
++{
++	_rtw_spinlock_free(&macid_ctl->lock);
++}
++
++#if 0
++unsigned int setup_beacon_frame(_adapter *padapter, unsigned char *beacon_frame)
++{
++	unsigned short				ATIMWindow;
++	unsigned char					*pframe;
++	struct tx_desc				*ptxdesc;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	unsigned int					rate_len, len = 0;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++	_rtw_memset(beacon_frame, 0, 256);
++
++	pframe = beacon_frame + TXDESC_SIZE;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(cur_network), ETH_ALEN);
++
++	SetFrameSubType(pframe, WIFI_BEACON);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	len = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	/* timestamp will be inserted by hardware */
++	pframe += 8;
++	len += 8;
++
++	/* beacon interval: 2 bytes */
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_beacon_interval_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	len += 2;
++
++	/* capability info: 2 bytes */
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_capability_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	len += 2;
++
++	/* SSID */
++	pframe = rtw_set_ie(pframe, _SSID_IE_, cur_network->Ssid.SsidLength, cur_network->Ssid.Ssid, &len);
++
++	/* supported rates... */
++	rate_len = rtw_get_rateset_len(cur_network->SupportedRates);
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, ((rate_len > 8) ? 8 : rate_len), cur_network->SupportedRates, &len);
++
++	/* DS parameter set */
++	pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&(cur_network->Configuration.DSConfig), &len);
++
++	/* IBSS Parameter Set... */
++	/* ATIMWindow = cur->Configuration.ATIMWindow; */
++	ATIMWindow = 0;
++	pframe = rtw_set_ie(pframe, _IBSS_PARA_IE_, 2, (unsigned char *)(&ATIMWindow), &len);
++
++	/* todo: ERP IE */
++
++	/* EXTERNDED SUPPORTED RATE */
++	if (rate_len > 8)
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_, (rate_len - 8), (cur_network->SupportedRates + 8), &len);
++
++	if ((len + TXDESC_SIZE) > 256) {
++		/* RTW_INFO("marc: beacon frame too large\n"); */
++		return 0;
++	}
++
++	/* fill the tx descriptor */
++	ptxdesc = (struct tx_desc *)beacon_frame;
++
++	/* offset 0	 */
++	ptxdesc->txdw0 |= cpu_to_le32(len & 0x0000ffff);
++	ptxdesc->txdw0 |= cpu_to_le32(((TXDESC_SIZE + OFFSET_SZ) << OFFSET_SHT) & 0x00ff0000); /* default = 32 bytes for TX Desc */
++
++	/* offset 4	 */
++	ptxdesc->txdw1 |= cpu_to_le32((0x10 << QSEL_SHT) & 0x00001f00);
++
++	/* offset 8		 */
++	ptxdesc->txdw2 |= cpu_to_le32(BMC);
++	ptxdesc->txdw2 |= cpu_to_le32(BK);
++
++	/* offset 16		 */
++	ptxdesc->txdw4 = 0x80000000;
++
++	/* offset 20 */
++	ptxdesc->txdw5 = 0x00000000; /* 1M	 */
++
++	return len + TXDESC_SIZE;
++}
++#endif
++
++_adapter *dvobj_get_port0_adapter(struct dvobj_priv *dvobj)
++{
++	_adapter *port0_iface = NULL;
++	int i;
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		if (get_hw_port(dvobj->padapters[i]) == HW_PORT0)
++			break;
++	}
++
++	if (i < 0 || i >= dvobj->iface_nums)
++		rtw_warn_on(1);
++	else
++		port0_iface = dvobj->padapters[i];
++
++	return port0_iface;
++}
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++void rtw_get_current_ip_address(PADAPTER padapter, u8 *pcurrentip)
++{
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct in_device *my_ip_ptr = padapter->pnetdev->ip_ptr;
++	u8 ipaddress[4];
++
++	if ((pmlmeinfo->state & WIFI_FW_LINKING_STATE) ||
++	    pmlmeinfo->state & WIFI_FW_AP_STATE) {
++		if (my_ip_ptr != NULL) {
++			struct in_ifaddr *my_ifa_list  = my_ip_ptr->ifa_list ;
++			if (my_ifa_list != NULL) {
++				ipaddress[0] = my_ifa_list->ifa_address & 0xFF;
++				ipaddress[1] = (my_ifa_list->ifa_address >> 8) & 0xFF;
++				ipaddress[2] = (my_ifa_list->ifa_address >> 16) & 0xFF;
++				ipaddress[3] = my_ifa_list->ifa_address >> 24;
++				RTW_INFO("%s: %d.%d.%d.%d ==========\n", __func__,
++					ipaddress[0], ipaddress[1], ipaddress[2], ipaddress[3]);
++				_rtw_memcpy(pcurrentip, ipaddress, 4);
++			}
++		}
++	}
++}
++#endif
++#ifdef CONFIG_WOWLAN
++bool rtw_wowlan_parser_pattern_cmd(u8 *input, char *pattern,
++				   int *pattern_len, char *bit_mask)
++{
++	char *cp = NULL, *end = NULL;
++	size_t len = 0;
++	int pos = 0, mask_pos = 0, res = 0;
++	u8 member[2] = {0};
++
++	cp = strchr(input, '=');
++	if (cp) {
++		*cp = 0;
++		cp++;
++		input = cp;
++	}
++
++	while (1) {
++		cp = strchr(input, ':');
++
++		if (cp) {
++			len = strlen(input) - strlen(cp);
++			*cp = 0;
++			cp++;
++		} else
++			len = 2;
++
++		if (bit_mask && (strcmp(input, "-") == 0 ||
++				 strcmp(input, "xx") == 0 ||
++				 strcmp(input, "--") == 0)) {
++			/* skip this byte and leave mask bit unset */
++		} else {
++			u8 hex;
++
++			strncpy(member, input, len);
++			if (!rtw_check_pattern_valid(member, sizeof(member))) {
++				RTW_INFO("%s:[ERROR] pattern is invalid!!\n",
++					 __func__);
++				goto error;
++			}
++
++			res = sscanf(member, "%02hhx", &hex);
++			pattern[pos] = hex;
++			mask_pos = pos / 8;
++			if (bit_mask)
++				bit_mask[mask_pos] |= 1 << (pos % 8);
++		}
++
++		pos++;
++		if (!cp)
++			break;
++		input = cp;
++	}
++
++	(*pattern_len) = pos;
++
++	return _TRUE;
++error:
++	return _FALSE;
++}
++
++bool rtw_check_pattern_valid(u8 *input, u8 len)
++{
++	int i = 0;
++	bool res = _FALSE;
++
++	if (len != 2)
++		goto exit;
++
++	for (i = 0 ; i < len ; i++)
++		if (IsHexDigit(input[i]) == _FALSE)
++			goto exit;
++
++	res = _SUCCESS;
++
++exit:
++	return res;
++}
++void rtw_wow_pattern_sw_reset(_adapter *adapter)
++{
++	int i;
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(adapter);
++
++	pwrctrlpriv->wowlan_pattern_idx = DEFAULT_PATTERN_NUM;
++
++	for (i = 0 ; i < MAX_WKFM_CAM_NUM; i++) {
++		_rtw_memset(pwrctrlpriv->patterns[i].content, '\0', sizeof(pwrctrlpriv->patterns[i].content));
++		_rtw_memset(pwrctrlpriv->patterns[i].mask, '\0', sizeof(pwrctrlpriv->patterns[i].mask));
++		pwrctrlpriv->patterns[i].len = 0;
++	}
++}
++
++u8 rtw_set_default_pattern(_adapter *adapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++	struct registry_priv *pregistrypriv = &adapter->registrypriv;
++	u8 index = 0;
++	u8 currentip[4];
++	u8 multicast_addr[3] = {0x01, 0x00, 0x5e};
++	u8 multicast_ip[4] = {0xe0, 0x28, 0x28, 0x2a};
++	u8 unicast_mask[5] = {0x3f, 0x70, 0x80, 0xc0, 0x03};
++	u8 multicast_mask[5] = {0x07, 0x70, 0x80, 0xc0, 0x03};
++	u8 ip_protocol[3] = {0x08, 0x00, 0x45};
++	u8 icmp_protocol[1] = {0x01};
++	u8 tcp_protocol[1] = {0x06};
++	u8 udp_protocol[1] = {0x11};
++
++	if (pregistrypriv->default_patterns_en == _FALSE)
++		return 0;
++
++	for (index = 0 ; index < DEFAULT_PATTERN_NUM ; index++) {
++		_rtw_memset(pwrpriv->patterns[index].content, 0,
++			    sizeof(pwrpriv->patterns[index].content));
++		_rtw_memset(pwrpriv->patterns[index].mask, 0,
++			    sizeof(pwrpriv->patterns[index].mask));
++		pwrpriv->patterns[index].len = 0;
++	}
++
++	rtw_get_current_ip_address(adapter, currentip);
++
++	/*TCP/ICMP unicast*/
++	for (index = 0 ; index < DEFAULT_PATTERN_NUM ; index++) {
++		switch (index) {
++		case 0:
++			_rtw_memcpy(pwrpriv->patterns[index].content,
++				    adapter_mac_addr(adapter),
++				    ETH_ALEN);
++			_rtw_memcpy(pwrpriv->patterns[index].content + ETH_TYPE_OFFSET,
++				    &ip_protocol, sizeof(ip_protocol));
++			_rtw_memcpy(pwrpriv->patterns[index].content + PROTOCOL_OFFSET,
++				    &tcp_protocol, sizeof(tcp_protocol));
++			_rtw_memcpy(pwrpriv->patterns[index].content + IP_OFFSET,
++				    &currentip, sizeof(currentip));
++			_rtw_memcpy(pwrpriv->patterns[index].mask,
++				    &unicast_mask, sizeof(unicast_mask));
++			pwrpriv->patterns[index].len = IP_OFFSET + sizeof(currentip);
++			break;
++		case 1:
++			_rtw_memcpy(pwrpriv->patterns[index].content,
++				    adapter_mac_addr(adapter),
++				    ETH_ALEN);
++			_rtw_memcpy(pwrpriv->patterns[index].content + ETH_TYPE_OFFSET,
++				    &ip_protocol, sizeof(ip_protocol));
++			_rtw_memcpy(pwrpriv->patterns[index].content + PROTOCOL_OFFSET,
++				    &icmp_protocol, sizeof(icmp_protocol));
++			_rtw_memcpy(pwrpriv->patterns[index].content + IP_OFFSET,
++				    &currentip, sizeof(currentip));
++			_rtw_memcpy(pwrpriv->patterns[index].mask,
++				    &unicast_mask, sizeof(unicast_mask));
++			pwrpriv->patterns[index].len = IP_OFFSET + sizeof(currentip);
++			break;
++		case 2:
++			_rtw_memcpy(pwrpriv->patterns[index].content, &multicast_addr,
++				    sizeof(multicast_addr));
++			_rtw_memcpy(pwrpriv->patterns[index].content + ETH_TYPE_OFFSET,
++				    &ip_protocol, sizeof(ip_protocol));
++			_rtw_memcpy(pwrpriv->patterns[index].content + PROTOCOL_OFFSET,
++				    &udp_protocol, sizeof(udp_protocol));
++			_rtw_memcpy(pwrpriv->patterns[index].content + IP_OFFSET,
++				    &multicast_ip, sizeof(multicast_ip));
++			_rtw_memcpy(pwrpriv->patterns[index].mask,
++				    &multicast_mask, sizeof(multicast_mask));
++			pwrpriv->patterns[index].len =
++				IP_OFFSET + sizeof(multicast_ip);
++			break;
++		}
++	}
++
++	return index;
++}
++
++
++
++void rtw_dump_priv_pattern(_adapter *adapter, u8 idx)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(adapter);
++	char str_1[128];
++	char *p_str;
++	u8 val8 = 0;
++	int i = 0, j = 0, len = 0, max_len = 0;
++
++	RTW_INFO("=========[%d]========\n", idx);
++
++	RTW_INFO(">>>priv_pattern_content:\n");
++	p_str = str_1;
++	max_len = sizeof(str_1);
++	for (i = 0 ; i < MAX_WKFM_PATTERN_SIZE / 8 ; i++) {
++		_rtw_memset(p_str, 0, max_len);
++		len = 0;
++		for (j = 0 ; j < 8 ; j++) {
++			val8 = pwrctl->patterns[idx].content[i * 8 + j];
++			len += snprintf(p_str + len, max_len - len,
++					"%02x ", val8);
++		}
++		RTW_INFO("%s\n", p_str);
++	}
++
++	RTW_INFO(">>>priv_pattern_mask:\n");
++	for (i = 0 ; i < MAX_WKFM_SIZE / 8 ; i++) {
++		_rtw_memset(p_str, 0, max_len);
++		len = 0;
++		for (j = 0 ; j < 8 ; j++) {
++			val8 = pwrctl->patterns[idx].mask[i * 8 + j];
++			len += snprintf(p_str + len, max_len - len,
++					"%02x ", val8);
++		}
++		RTW_INFO("%s\n", p_str);
++	}
++
++	RTW_INFO(">>>priv_pattern_len:\n");
++	RTW_INFO("%s: len: %d\n", __func__, pwrctl->patterns[idx].len);
++}
++
++void rtw_wow_pattern_sw_dump(_adapter *adapter)
++{
++	int i;
++
++	RTW_INFO("********[RTK priv-patterns]*********\n");
++	for (i = 0 ; i < MAX_WKFM_CAM_NUM; i++)
++		rtw_dump_priv_pattern(adapter, i);
++}
++
++void rtw_get_sec_iv(PADAPTER padapter, u8 *pcur_dot11txpn, u8 *StaAddr)
++{
++	struct sta_info		*psta;
++	struct security_priv *psecpriv = &padapter->securitypriv;
++
++	_rtw_memset(pcur_dot11txpn, 0, 8);
++	if (NULL == StaAddr)
++		return;
++	psta = rtw_get_stainfo(&padapter->stapriv, StaAddr);
++	RTW_INFO("%s(): StaAddr: %02x %02x %02x %02x %02x %02x\n",
++		 __func__, StaAddr[0], StaAddr[1], StaAddr[2],
++		 StaAddr[3], StaAddr[4], StaAddr[5]);
++
++	if (psta) {
++		if (psecpriv->dot11PrivacyAlgrthm != _NO_PRIVACY_ && psta->dot11txpn.val > 0)
++			psta->dot11txpn.val--;
++		AES_IV(pcur_dot11txpn, psta->dot11txpn, 0);
++
++		RTW_INFO("%s(): CurrentIV: %02x %02x %02x %02x %02x %02x %02x %02x\n"
++			 , __func__, pcur_dot11txpn[0], pcur_dot11txpn[1],
++			pcur_dot11txpn[2], pcur_dot11txpn[3], pcur_dot11txpn[4],
++			pcur_dot11txpn[5], pcur_dot11txpn[6], pcur_dot11txpn[7]);
++	}
++}
++void rtw_set_sec_pn(PADAPTER padapter)
++{
++	struct sta_info         *psta;
++	struct mlme_ext_priv    *pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info    *pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct security_priv *psecpriv = &padapter->securitypriv;
++
++	psta = rtw_get_stainfo(&padapter->stapriv,
++			       get_my_bssid(&pmlmeinfo->network));
++
++	if (psta) {
++		if (pwrpriv->wowlan_fw_iv > psta->dot11txpn.val) {
++			if (psecpriv->dot11PrivacyAlgrthm != _NO_PRIVACY_)
++				psta->dot11txpn.val = pwrpriv->wowlan_fw_iv + 2;
++		} else {
++			RTW_INFO("%s(): FW IV is smaller than driver\n", __func__);
++			psta->dot11txpn.val += 2;
++		}
++		RTW_INFO("%s: dot11txpn: 0x%016llx\n", __func__ , psta->dot11txpn.val);
++	}
++}
++#endif /* CONFIG_WOWLAN */
++
++#ifdef CONFIG_PNO_SUPPORT
++#define	CSCAN_TLV_TYPE_SSID_IE	'S'
++#define CIPHER_IE "key_mgmt="
++#define CIPHER_NONE "NONE"
++#define CIPHER_WPA_PSK "WPA-PSK"
++#define CIPHER_WPA_EAP "WPA-EAP IEEE8021X"
++/*
++ *  SSIDs list parsing from cscan tlv list
++ */
++int rtw_parse_ssid_list_tlv(char **list_str, pno_ssid_t *ssid,
++			    int max, int *bytes_left)
++{
++	char *str;
++
++	int idx = 0;
++
++	if ((list_str == NULL) || (*list_str == NULL) || (*bytes_left < 0)) {
++		RTW_INFO("%s error paramters\n", __func__);
++		return -1;
++	}
++
++	str = *list_str;
++	while (*bytes_left > 0) {
++
++		if (str[0] != CSCAN_TLV_TYPE_SSID_IE) {
++			*list_str = str;
++			RTW_INFO("nssid=%d left_parse=%d %d\n", idx, *bytes_left, str[0]);
++			return idx;
++		}
++
++		/* Get proper CSCAN_TLV_TYPE_SSID_IE */
++		*bytes_left -= 1;
++		str += 1;
++
++		if (str[0] == 0) {
++			/* Broadcast SSID */
++			ssid[idx].SSID_len = 0;
++			memset((char *)ssid[idx].SSID, 0x0, WLAN_SSID_MAXLEN);
++			*bytes_left -= 1;
++			str += 1;
++
++			RTW_INFO("BROADCAST SCAN  left=%d\n", *bytes_left);
++		} else if (str[0] <= WLAN_SSID_MAXLEN) {
++			/* Get proper SSID size */
++			ssid[idx].SSID_len = str[0];
++			*bytes_left -= 1;
++			str += 1;
++
++			/* Get SSID */
++			if (ssid[idx].SSID_len > *bytes_left) {
++				RTW_INFO("%s out of memory range len=%d but left=%d\n",
++					__func__, ssid[idx].SSID_len, *bytes_left);
++				return -1;
++			}
++
++			memcpy((char *)ssid[idx].SSID, str, ssid[idx].SSID_len);
++
++			*bytes_left -= ssid[idx].SSID_len;
++			str += ssid[idx].SSID_len;
++
++			RTW_INFO("%s :size=%d left=%d\n",
++				(char *)ssid[idx].SSID, ssid[idx].SSID_len, *bytes_left);
++		} else {
++			RTW_INFO("### SSID size more that %d\n", str[0]);
++			return -1;
++		}
++
++		if (idx++ >  max) {
++			RTW_INFO("%s number of SSIDs more that %d\n", __func__, idx);
++			return -1;
++		}
++	}
++
++	*list_str = str;
++	return idx;
++}
++
++int rtw_parse_cipher_list(struct pno_nlo_info *nlo_info, char *list_str)
++{
++
++	char *pch, *pnext, *pend;
++	u8 key_len = 0, index = 0;
++
++	pch = list_str;
++
++	if (nlo_info == NULL || list_str == NULL) {
++		RTW_INFO("%s error paramters\n", __func__);
++		return -1;
++	}
++
++	while (strlen(pch) != 0) {
++		pnext = strstr(pch, "key_mgmt=");
++		if (pnext != NULL) {
++			pch = pnext + strlen(CIPHER_IE);
++			pend = strstr(pch, "}");
++			if (strncmp(pch, CIPHER_NONE,
++				    strlen(CIPHER_NONE)) == 0)
++				nlo_info->ssid_cipher_info[index] = 0x00;
++			else if (strncmp(pch, CIPHER_WPA_PSK,
++					 strlen(CIPHER_WPA_PSK)) == 0)
++				nlo_info->ssid_cipher_info[index] = 0x66;
++			else if (strncmp(pch, CIPHER_WPA_EAP,
++					 strlen(CIPHER_WPA_EAP)) == 0)
++				nlo_info->ssid_cipher_info[index] = 0x01;
++			index++;
++			pch = pend + 1;
++		} else
++			break;
++	}
++	return 0;
++}
++
++int rtw_dev_nlo_info_set(struct pno_nlo_info *nlo_info, pno_ssid_t *ssid,
++		 int num, int pno_time, int pno_repeat, int pno_freq_expo_max)
++{
++
++	int i = 0;
++	struct file *fp;
++	mm_segment_t fs;
++	loff_t pos = 0;
++	u8 *source = NULL;
++	long len = 0;
++
++	RTW_INFO("+%s+\n", __func__);
++
++	nlo_info->fast_scan_period = pno_time;
++	nlo_info->ssid_num = num & BIT_LEN_MASK_32(8);
++	nlo_info->hidden_ssid_num = num & BIT_LEN_MASK_32(8);
++	nlo_info->slow_scan_period = (pno_time * 2);
++	nlo_info->fast_scan_iterations = 5;
++
++	if (nlo_info->hidden_ssid_num > 8)
++		nlo_info->hidden_ssid_num = 8;
++
++	/* TODO: channel list and probe index is all empty. */
++	for (i = 0 ; i < num ; i++) {
++		nlo_info->ssid_length[i]
++			= ssid[i].SSID_len;
++	}
++
++	/* cipher array */
++	fp = filp_open("/home/timlee/wpa_kk/wpa.conf", O_RDONLY,  0644);
++	if (IS_ERR(fp)) {
++		RTW_INFO("Error, wpa_supplicant.conf doesn't exist.\n");
++		RTW_INFO("Error, cipher array using default value.\n");
++		return 0;
++	}
++
++	len = i_size_read(fp->f_path.dentry->d_inode);
++	if (len < 0 || len > 2048) {
++		RTW_INFO("Error, file size is bigger than 2048.\n");
++		RTW_INFO("Error, cipher array using default value.\n");
++		return 0;
++	}
++
++	fs = get_fs();
++	set_fs(KERNEL_DS);
++
++	source = rtw_zmalloc(2048);
++
++	if (source != NULL) {
++		len = vfs_read(fp, source, len, &pos);
++		rtw_parse_cipher_list(nlo_info, source);
++		rtw_mfree(source, 2048);
++	}
++
++	set_fs(fs);
++	filp_close(fp, NULL);
++
++	RTW_INFO("-%s-\n", __func__);
++	return 0;
++}
++
++int rtw_dev_ssid_list_set(struct pno_ssid_list *pno_ssid_list,
++			  pno_ssid_t *ssid, u8 num)
++{
++
++	int i = 0;
++	if (num > MAX_PNO_LIST_COUNT)
++		num = MAX_PNO_LIST_COUNT;
++
++	for (i = 0 ; i < num ; i++) {
++		_rtw_memcpy(&pno_ssid_list->node[i].SSID,
++			    ssid[i].SSID, ssid[i].SSID_len);
++		pno_ssid_list->node[i].SSID_len = ssid[i].SSID_len;
++	}
++	return 0;
++}
++
++int rtw_dev_scan_info_set(_adapter *padapter, pno_ssid_t *ssid,
++	  unsigned char ch, unsigned char ch_offset, unsigned short bw_mode)
++{
++
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	struct pno_scan_info *scan_info = pwrctl->pscan_info;
++	int i;
++
++	scan_info->channel_num = MAX_SCAN_LIST_COUNT;
++	scan_info->orig_ch = ch;
++	scan_info->orig_bw = bw_mode;
++	scan_info->orig_40_offset = ch_offset;
++
++	for (i = 0 ; i < scan_info->channel_num ; i++) {
++		if (i < 11)
++			scan_info->ssid_channel_info[i].active = 1;
++		else
++			scan_info->ssid_channel_info[i].active = 0;
++
++		scan_info->ssid_channel_info[i].timeout = 100;
++
++		scan_info->ssid_channel_info[i].tx_power =
++			PHY_GetTxPowerIndex(padapter, 0, 0x02, bw_mode, i + 1);
++
++		scan_info->ssid_channel_info[i].channel = i + 1;
++	}
++
++	RTW_INFO("%s, channel_num: %d, orig_ch: %d, orig_bw: %d orig_40_offset: %d\n",
++		 __func__, scan_info->channel_num, scan_info->orig_ch,
++		 scan_info->orig_bw, scan_info->orig_40_offset);
++	return 0;
++}
++
++int rtw_dev_pno_set(struct net_device *net, pno_ssid_t *ssid, int num,
++		    int pno_time, int pno_repeat, int pno_freq_expo_max)
++{
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	int ret = -1;
++
++	if (num == 0) {
++		RTW_INFO("%s, nssid is zero, no need to setup pno ssid list\n", __func__);
++		return 0;
++	}
++
++	if (pwrctl == NULL) {
++		RTW_INFO("%s, ERROR: pwrctl is NULL\n", __func__);
++		return -1;
++	} else {
++		pwrctl->pnlo_info =
++			(pno_nlo_info_t *)rtw_zmalloc(sizeof(pno_nlo_info_t));
++		pwrctl->pno_ssid_list =
++			(pno_ssid_list_t *)rtw_zmalloc(sizeof(pno_ssid_list_t));
++		pwrctl->pscan_info =
++			(pno_scan_info_t *)rtw_zmalloc(sizeof(pno_scan_info_t));
++	}
++
++	if (pwrctl->pnlo_info == NULL ||
++	    pwrctl->pscan_info == NULL ||
++	    pwrctl->pno_ssid_list == NULL) {
++		RTW_INFO("%s, ERROR: alloc nlo_info, ssid_list, scan_info fail\n", __func__);
++		goto failing;
++	}
++
++	pwrctl->pno_in_resume = _FALSE;
++
++	pwrctl->pno_inited = _TRUE;
++	/* NLO Info */
++	ret = rtw_dev_nlo_info_set(pwrctl->pnlo_info, ssid, num,
++				   pno_time, pno_repeat, pno_freq_expo_max);
++
++	/* SSID Info */
++	ret = rtw_dev_ssid_list_set(pwrctl->pno_ssid_list, ssid, num);
++
++	/* SCAN Info */
++	ret = rtw_dev_scan_info_set(padapter, ssid, pmlmeext->cur_channel,
++			    pmlmeext->cur_ch_offset, pmlmeext->cur_bwmode);
++
++	RTW_INFO("+%s num: %d, pno_time: %d, pno_repeat:%d, pno_freq_expo_max:%d+\n",
++		 __func__, num, pno_time, pno_repeat, pno_freq_expo_max);
++
++	return 0;
++
++failing:
++	if (pwrctl->pnlo_info) {
++		rtw_mfree((u8 *)pwrctl->pnlo_info, sizeof(pno_nlo_info_t));
++		pwrctl->pnlo_info = NULL;
++	}
++	if (pwrctl->pno_ssid_list) {
++		rtw_mfree((u8 *)pwrctl->pno_ssid_list, sizeof(pno_ssid_list_t));
++		pwrctl->pno_ssid_list = NULL;
++	}
++	if (pwrctl->pscan_info) {
++		rtw_mfree((u8 *)pwrctl->pscan_info, sizeof(pno_scan_info_t));
++		pwrctl->pscan_info = NULL;
++	}
++
++	return -1;
++}
++
++#ifdef CONFIG_PNO_SET_DEBUG
++void rtw_dev_pno_debug(struct net_device *net)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	int i = 0, j = 0;
++
++	RTW_INFO("*******NLO_INFO********\n");
++	RTW_INFO("ssid_num: %d\n", pwrctl->pnlo_info->ssid_num);
++	RTW_INFO("fast_scan_iterations: %d\n",
++		 pwrctl->pnlo_info->fast_scan_iterations);
++	RTW_INFO("fast_scan_period: %d\n", pwrctl->pnlo_info->fast_scan_period);
++	RTW_INFO("slow_scan_period: %d\n", pwrctl->pnlo_info->slow_scan_period);
++
++
++
++	for (i = 0 ; i < MAX_PNO_LIST_COUNT ; i++) {
++		RTW_INFO("%d SSID (%s) length (%d) cipher(%x) channel(%d)\n",
++			i, pwrctl->pno_ssid_list->node[i].SSID, pwrctl->pnlo_info->ssid_length[i],
++			pwrctl->pnlo_info->ssid_cipher_info[i], pwrctl->pnlo_info->ssid_channel_info[i]);
++	}
++
++	RTW_INFO("******SCAN_INFO******\n");
++	RTW_INFO("ch_num: %d\n", pwrctl->pscan_info->channel_num);
++	RTW_INFO("orig_ch: %d\n", pwrctl->pscan_info->orig_ch);
++	RTW_INFO("orig bw: %d\n", pwrctl->pscan_info->orig_bw);
++	RTW_INFO("orig 40 offset: %d\n", pwrctl->pscan_info->orig_40_offset);
++	for (i = 0 ; i < MAX_SCAN_LIST_COUNT ; i++) {
++		RTW_INFO("[%02d] avtive:%d, timeout:%d, tx_power:%d, ch:%02d\n",
++			 i, pwrctl->pscan_info->ssid_channel_info[i].active,
++			 pwrctl->pscan_info->ssid_channel_info[i].timeout,
++			 pwrctl->pscan_info->ssid_channel_info[i].tx_power,
++			 pwrctl->pscan_info->ssid_channel_info[i].channel);
++	}
++	RTW_INFO("*****************\n");
++}
++#endif /* CONFIG_PNO_SET_DEBUG */
++#endif /* CONFIG_PNO_SUPPORT */
+diff --git a/drivers/net/wireless/rtl8812au/core/rtw_xmit.c b/drivers/net/wireless/rtl8812au/core/rtw_xmit.c
+new file mode 100644
+index 0000000..91bce15
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/core/rtw_xmit.c
+@@ -0,0 +1,5053 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTW_XMIT_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#if defined(PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++	#error "Shall be Linux or Windows, but not both!\n"
++#endif
++
++
++static u8 P802_1H_OUI[P80211_OUI_LEN] = { 0x00, 0x00, 0xf8 };
++static u8 RFC1042_OUI[P80211_OUI_LEN] = { 0x00, 0x00, 0x00 };
++
++static void _init_txservq(struct tx_servq *ptxservq)
++{
++	_rtw_init_listhead(&ptxservq->tx_pending);
++	_rtw_init_queue(&ptxservq->sta_pending);
++	ptxservq->qcnt = 0;
++}
++
++
++void	_rtw_init_sta_xmit_priv(struct sta_xmit_priv *psta_xmitpriv)
++{
++
++
++	_rtw_memset((unsigned char *)psta_xmitpriv, 0, sizeof(struct sta_xmit_priv));
++
++	_rtw_spinlock_init(&psta_xmitpriv->lock);
++
++	/* for(i = 0 ; i < MAX_NUMBLKS; i++) */
++	/*	_init_txservq(&(psta_xmitpriv->blk_q[i])); */
++
++	_init_txservq(&psta_xmitpriv->be_q);
++	_init_txservq(&psta_xmitpriv->bk_q);
++	_init_txservq(&psta_xmitpriv->vi_q);
++	_init_txservq(&psta_xmitpriv->vo_q);
++	_rtw_init_listhead(&psta_xmitpriv->legacy_dz);
++	_rtw_init_listhead(&psta_xmitpriv->apsd);
++
++
++}
++
++s32	_rtw_init_xmit_priv(struct xmit_priv *pxmitpriv, _adapter *padapter)
++{
++	int i;
++	struct xmit_buf *pxmitbuf;
++	struct xmit_frame *pxframe;
++	sint	res = _SUCCESS;
++
++
++	/* We don't need to memset padapter->XXX to zero, because adapter is allocated by rtw_zvmalloc(). */
++	/* _rtw_memset((unsigned char *)pxmitpriv, 0, sizeof(struct xmit_priv)); */
++
++	_rtw_spinlock_init(&pxmitpriv->lock);
++	_rtw_spinlock_init(&pxmitpriv->lock_sctx);
++	_rtw_init_sema(&pxmitpriv->xmit_sema, 0);
++	_rtw_init_sema(&pxmitpriv->terminate_xmitthread_sema, 0);
++
++	/*
++	Please insert all the queue initializaiton using _rtw_init_queue below
++	*/
++
++	pxmitpriv->adapter = padapter;
++
++	/* for(i = 0 ; i < MAX_NUMBLKS; i++) */
++	/*	_rtw_init_queue(&pxmitpriv->blk_strms[i]); */
++
++	_rtw_init_queue(&pxmitpriv->be_pending);
++	_rtw_init_queue(&pxmitpriv->bk_pending);
++	_rtw_init_queue(&pxmitpriv->vi_pending);
++	_rtw_init_queue(&pxmitpriv->vo_pending);
++	_rtw_init_queue(&pxmitpriv->bm_pending);
++
++	/* _rtw_init_queue(&pxmitpriv->legacy_dz_queue); */
++	/* _rtw_init_queue(&pxmitpriv->apsd_queue); */
++
++	_rtw_init_queue(&pxmitpriv->free_xmit_queue);
++
++	/*
++	Please allocate memory with the sz = (struct xmit_frame) * NR_XMITFRAME,
++	and initialize free_xmit_frame below.
++	Please also apply  free_txobj to link_up all the xmit_frames...
++	*/
++
++	pxmitpriv->pallocated_frame_buf = rtw_zvmalloc(NR_XMITFRAME * sizeof(struct xmit_frame) + 4);
++
++	if (pxmitpriv->pallocated_frame_buf  == NULL) {
++		pxmitpriv->pxmit_frame_buf = NULL;
++		res = _FAIL;
++		goto exit;
++	}
++	pxmitpriv->pxmit_frame_buf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitpriv->pallocated_frame_buf), 4);
++	/* pxmitpriv->pxmit_frame_buf = pxmitpriv->pallocated_frame_buf + 4 - */
++	/*						((SIZE_PTR) (pxmitpriv->pallocated_frame_buf) &3); */
++
++	pxframe = (struct xmit_frame *) pxmitpriv->pxmit_frame_buf;
++
++	for (i = 0; i < NR_XMITFRAME; i++) {
++		_rtw_init_listhead(&(pxframe->list));
++
++		pxframe->padapter = padapter;
++		pxframe->frame_tag = NULL_FRAMETAG;
++
++		pxframe->pkt = NULL;
++
++		pxframe->buf_addr = NULL;
++		pxframe->pxmitbuf = NULL;
++
++		rtw_list_insert_tail(&(pxframe->list), &(pxmitpriv->free_xmit_queue.queue));
++
++		pxframe++;
++	}
++
++	pxmitpriv->free_xmitframe_cnt = NR_XMITFRAME;
++
++	pxmitpriv->frag_len = MAX_FRAG_THRESHOLD;
++
++
++	/* init xmit_buf */
++	_rtw_init_queue(&pxmitpriv->free_xmitbuf_queue);
++	_rtw_init_queue(&pxmitpriv->pending_xmitbuf_queue);
++
++	pxmitpriv->pallocated_xmitbuf = rtw_zvmalloc(NR_XMITBUFF * sizeof(struct xmit_buf) + 4);
++
++	if (pxmitpriv->pallocated_xmitbuf  == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pxmitpriv->pxmitbuf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitpriv->pallocated_xmitbuf), 4);
++	/* pxmitpriv->pxmitbuf = pxmitpriv->pallocated_xmitbuf + 4 - */
++	/*						((SIZE_PTR) (pxmitpriv->pallocated_xmitbuf) &3); */
++
++	pxmitbuf = (struct xmit_buf *)pxmitpriv->pxmitbuf;
++
++	for (i = 0; i < NR_XMITBUFF; i++) {
++		_rtw_init_listhead(&pxmitbuf->list);
++
++		pxmitbuf->priv_data = NULL;
++		pxmitbuf->padapter = padapter;
++		pxmitbuf->buf_tag = XMITBUF_DATA;
++
++		/* Tx buf allocation may fail sometimes, so sleep and retry. */
++		res = rtw_os_xmit_resource_alloc(padapter, pxmitbuf, (MAX_XMITBUF_SZ + XMITBUF_ALIGN_SZ), _TRUE);
++		if (res == _FAIL) {
++			rtw_msleep_os(10);
++			res = rtw_os_xmit_resource_alloc(padapter, pxmitbuf, (MAX_XMITBUF_SZ + XMITBUF_ALIGN_SZ), _TRUE);
++			if (res == _FAIL)
++				goto exit;
++		}
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		pxmitbuf->phead = pxmitbuf->pbuf;
++		pxmitbuf->pend = pxmitbuf->pbuf + MAX_XMITBUF_SZ;
++		pxmitbuf->len = 0;
++		pxmitbuf->pdata = pxmitbuf->ptail = pxmitbuf->phead;
++#endif
++
++		pxmitbuf->flags = XMIT_VO_QUEUE;
++
++		rtw_list_insert_tail(&pxmitbuf->list, &(pxmitpriv->free_xmitbuf_queue.queue));
++#ifdef DBG_XMIT_BUF
++		pxmitbuf->no = i;
++#endif
++
++		pxmitbuf++;
++
++	}
++
++	pxmitpriv->free_xmitbuf_cnt = NR_XMITBUFF;
++
++	/* init xframe_ext queue,  the same count as extbuf */
++	_rtw_init_queue(&pxmitpriv->free_xframe_ext_queue);
++
++	pxmitpriv->xframe_ext_alloc_addr = rtw_zvmalloc(NR_XMIT_EXTBUFF * sizeof(struct xmit_frame) + 4);
++
++	if (pxmitpriv->xframe_ext_alloc_addr  == NULL) {
++		pxmitpriv->xframe_ext = NULL;
++		res = _FAIL;
++		goto exit;
++	}
++	pxmitpriv->xframe_ext = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitpriv->xframe_ext_alloc_addr), 4);
++	pxframe = (struct xmit_frame *)pxmitpriv->xframe_ext;
++
++	for (i = 0; i < NR_XMIT_EXTBUFF; i++) {
++		_rtw_init_listhead(&(pxframe->list));
++
++		pxframe->padapter = padapter;
++		pxframe->frame_tag = NULL_FRAMETAG;
++
++		pxframe->pkt = NULL;
++
++		pxframe->buf_addr = NULL;
++		pxframe->pxmitbuf = NULL;
++
++		pxframe->ext_tag = 1;
++
++		rtw_list_insert_tail(&(pxframe->list), &(pxmitpriv->free_xframe_ext_queue.queue));
++
++		pxframe++;
++	}
++	pxmitpriv->free_xframe_ext_cnt = NR_XMIT_EXTBUFF;
++
++	/* Init xmit extension buff */
++	_rtw_init_queue(&pxmitpriv->free_xmit_extbuf_queue);
++
++	pxmitpriv->pallocated_xmit_extbuf = rtw_zvmalloc(NR_XMIT_EXTBUFF * sizeof(struct xmit_buf) + 4);
++
++	if (pxmitpriv->pallocated_xmit_extbuf  == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pxmitpriv->pxmit_extbuf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitpriv->pallocated_xmit_extbuf), 4);
++
++	pxmitbuf = (struct xmit_buf *)pxmitpriv->pxmit_extbuf;
++
++	for (i = 0; i < NR_XMIT_EXTBUFF; i++) {
++		_rtw_init_listhead(&pxmitbuf->list);
++
++		pxmitbuf->priv_data = NULL;
++		pxmitbuf->padapter = padapter;
++		pxmitbuf->buf_tag = XMITBUF_MGNT;
++
++		res = rtw_os_xmit_resource_alloc(padapter, pxmitbuf, MAX_XMIT_EXTBUF_SZ + XMITBUF_ALIGN_SZ, _TRUE);
++		if (res == _FAIL) {
++			res = _FAIL;
++			goto exit;
++		}
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		pxmitbuf->phead = pxmitbuf->pbuf;
++		pxmitbuf->pend = pxmitbuf->pbuf + MAX_XMIT_EXTBUF_SZ;
++		pxmitbuf->len = 0;
++		pxmitbuf->pdata = pxmitbuf->ptail = pxmitbuf->phead;
++#endif
++
++		rtw_list_insert_tail(&pxmitbuf->list, &(pxmitpriv->free_xmit_extbuf_queue.queue));
++#ifdef DBG_XMIT_BUF_EXT
++		pxmitbuf->no = i;
++#endif
++		pxmitbuf++;
++
++	}
++
++	pxmitpriv->free_xmit_extbuf_cnt = NR_XMIT_EXTBUFF;
++
++	for (i = 0; i < CMDBUF_MAX; i++) {
++		pxmitbuf = &pxmitpriv->pcmd_xmitbuf[i];
++		if (pxmitbuf) {
++			_rtw_init_listhead(&pxmitbuf->list);
++
++			pxmitbuf->priv_data = NULL;
++			pxmitbuf->padapter = padapter;
++			pxmitbuf->buf_tag = XMITBUF_CMD;
++
++			res = rtw_os_xmit_resource_alloc(padapter, pxmitbuf, MAX_CMDBUF_SZ + XMITBUF_ALIGN_SZ, _TRUE);
++			if (res == _FAIL) {
++				res = _FAIL;
++				goto exit;
++			}
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++			pxmitbuf->phead = pxmitbuf->pbuf;
++			pxmitbuf->pend = pxmitbuf->pbuf + MAX_CMDBUF_SZ;
++			pxmitbuf->len = 0;
++			pxmitbuf->pdata = pxmitbuf->ptail = pxmitbuf->phead;
++#endif
++			pxmitbuf->alloc_sz = MAX_CMDBUF_SZ + XMITBUF_ALIGN_SZ;
++		}
++	}
++
++	rtw_alloc_hwxmits(padapter);
++	rtw_init_hwxmits(pxmitpriv->hwxmits, pxmitpriv->hwxmit_entry);
++
++	for (i = 0; i < 4; i++)
++		pxmitpriv->wmm_para_seq[i] = i;
++
++#ifdef CONFIG_USB_HCI
++	pxmitpriv->txirp_cnt = 1;
++
++	_rtw_init_sema(&(pxmitpriv->tx_retevt), 0);
++
++	/* per AC pending irp */
++	pxmitpriv->beq_cnt = 0;
++	pxmitpriv->bkq_cnt = 0;
++	pxmitpriv->viq_cnt = 0;
++	pxmitpriv->voq_cnt = 0;
++#endif
++
++
++#ifdef CONFIG_XMIT_ACK
++	pxmitpriv->ack_tx = _FALSE;
++	_rtw_mutex_init(&pxmitpriv->ack_tx_mutex);
++	rtw_sctx_init(&pxmitpriv->ack_tx_ops, 0);
++#endif
++
++	rtw_hal_init_xmit_priv(padapter);
++
++exit:
++
++
++	return res;
++}
++
++void  rtw_mfree_xmit_priv_lock(struct xmit_priv *pxmitpriv);
++void  rtw_mfree_xmit_priv_lock(struct xmit_priv *pxmitpriv)
++{
++	_rtw_spinlock_free(&pxmitpriv->lock);
++	_rtw_free_sema(&pxmitpriv->xmit_sema);
++	_rtw_free_sema(&pxmitpriv->terminate_xmitthread_sema);
++
++	_rtw_spinlock_free(&pxmitpriv->be_pending.lock);
++	_rtw_spinlock_free(&pxmitpriv->bk_pending.lock);
++	_rtw_spinlock_free(&pxmitpriv->vi_pending.lock);
++	_rtw_spinlock_free(&pxmitpriv->vo_pending.lock);
++	_rtw_spinlock_free(&pxmitpriv->bm_pending.lock);
++
++	/* _rtw_spinlock_free(&pxmitpriv->legacy_dz_queue.lock); */
++	/* _rtw_spinlock_free(&pxmitpriv->apsd_queue.lock); */
++
++	_rtw_spinlock_free(&pxmitpriv->free_xmit_queue.lock);
++	_rtw_spinlock_free(&pxmitpriv->free_xmitbuf_queue.lock);
++	_rtw_spinlock_free(&pxmitpriv->pending_xmitbuf_queue.lock);
++}
++
++
++void _rtw_free_xmit_priv(struct xmit_priv *pxmitpriv)
++{
++	int i;
++	_adapter *padapter = pxmitpriv->adapter;
++	struct xmit_frame	*pxmitframe = (struct xmit_frame *) pxmitpriv->pxmit_frame_buf;
++	struct xmit_buf *pxmitbuf = (struct xmit_buf *)pxmitpriv->pxmitbuf;
++
++
++	rtw_hal_free_xmit_priv(padapter);
++
++	rtw_mfree_xmit_priv_lock(pxmitpriv);
++
++	if (pxmitpriv->pxmit_frame_buf == NULL)
++		goto out;
++
++	for (i = 0; i < NR_XMITFRAME; i++) {
++		rtw_os_xmit_complete(padapter, pxmitframe);
++
++		pxmitframe++;
++	}
++
++	for (i = 0; i < NR_XMITBUFF; i++) {
++		rtw_os_xmit_resource_free(padapter, pxmitbuf, (MAX_XMITBUF_SZ + XMITBUF_ALIGN_SZ), _TRUE);
++
++		pxmitbuf++;
++	}
++
++	if (pxmitpriv->pallocated_frame_buf)
++		rtw_vmfree(pxmitpriv->pallocated_frame_buf, NR_XMITFRAME * sizeof(struct xmit_frame) + 4);
++
++
++	if (pxmitpriv->pallocated_xmitbuf)
++		rtw_vmfree(pxmitpriv->pallocated_xmitbuf, NR_XMITBUFF * sizeof(struct xmit_buf) + 4);
++
++	/* free xframe_ext queue,  the same count as extbuf */
++	if ((pxmitframe = (struct xmit_frame *)pxmitpriv->xframe_ext)) {
++		for (i = 0; i < NR_XMIT_EXTBUFF; i++) {
++			rtw_os_xmit_complete(padapter, pxmitframe);
++			pxmitframe++;
++		}
++	}
++	if (pxmitpriv->xframe_ext_alloc_addr)
++		rtw_vmfree(pxmitpriv->xframe_ext_alloc_addr, NR_XMIT_EXTBUFF * sizeof(struct xmit_frame) + 4);
++	_rtw_spinlock_free(&pxmitpriv->free_xframe_ext_queue.lock);
++
++	/* free xmit extension buff */
++	_rtw_spinlock_free(&pxmitpriv->free_xmit_extbuf_queue.lock);
++
++	pxmitbuf = (struct xmit_buf *)pxmitpriv->pxmit_extbuf;
++	for (i = 0; i < NR_XMIT_EXTBUFF; i++) {
++		rtw_os_xmit_resource_free(padapter, pxmitbuf, (MAX_XMIT_EXTBUF_SZ + XMITBUF_ALIGN_SZ), _TRUE);
++
++		pxmitbuf++;
++	}
++
++	if (pxmitpriv->pallocated_xmit_extbuf)
++		rtw_vmfree(pxmitpriv->pallocated_xmit_extbuf, NR_XMIT_EXTBUFF * sizeof(struct xmit_buf) + 4);
++
++	for (i = 0; i < CMDBUF_MAX; i++) {
++		pxmitbuf = &pxmitpriv->pcmd_xmitbuf[i];
++		if (pxmitbuf != NULL)
++			rtw_os_xmit_resource_free(padapter, pxmitbuf, MAX_CMDBUF_SZ + XMITBUF_ALIGN_SZ , _TRUE);
++	}
++
++	rtw_free_hwxmits(padapter);
++
++#ifdef CONFIG_XMIT_ACK
++	_rtw_mutex_free(&pxmitpriv->ack_tx_mutex);
++#endif
++
++out:
++	return;
++}
++
++u8 rtw_get_tx_bw_mode(_adapter *adapter, struct sta_info *sta)
++{
++	u8 bw;
++
++	bw = sta->bw_mode;
++	if (MLME_STATE(adapter) & WIFI_ASOC_STATE) {
++		if (adapter->mlmeextpriv.cur_channel <= 14)
++			bw = rtw_min(bw, ADAPTER_TX_BW_2G(adapter));
++		else
++			bw = rtw_min(bw, ADAPTER_TX_BW_5G(adapter));
++	}
++
++	return bw;
++}
++
++void rtw_get_adapter_tx_rate_bmp_by_bw(_adapter *adapter, u8 bw, u16 *r_bmp_cck_ofdm, u32 *r_bmp_ht, u32 *r_bmp_vht)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++	u8 fix_bw = 0xFF;
++	u16 bmp_cck_ofdm = 0;
++	u32 bmp_ht = 0;
++	u32 bmp_vht = 0;
++	int i;
++
++	if (adapter->fix_rate != 0xFF && adapter->fix_bw != 0xFF)
++		fix_bw = adapter->fix_bw;
++
++	/* TODO: adapter->fix_rate */
++
++	for (i = 0; i < macid_ctl->num; i++) {
++		if (!rtw_macid_is_used(macid_ctl, i))
++			continue;
++		if (rtw_macid_get_if_g(macid_ctl, i) != adapter->iface_id)
++			continue;
++
++		if (bw == CHANNEL_WIDTH_20) /* CCK, OFDM always 20MHz */
++			bmp_cck_ofdm |= macid_ctl->rate_bmp0[i] & 0x00000FFF;
++
++		/* bypass mismatch bandwidth for HT, VHT */
++		if ((fix_bw != 0xFF && fix_bw != bw) || (fix_bw == 0xFF && macid_ctl->bw[i] != bw))
++			continue;
++
++		if (macid_ctl->vht_en[i])
++			bmp_vht |= (macid_ctl->rate_bmp0[i] >> 12) | (macid_ctl->rate_bmp1[i] << 20);
++		else
++			bmp_ht |= (macid_ctl->rate_bmp0[i] >> 12) | (macid_ctl->rate_bmp1[i] << 20);
++	}
++
++	/* TODO: mlmeext->tx_rate*/
++
++exit:
++	if (r_bmp_cck_ofdm)
++		*r_bmp_cck_ofdm = bmp_cck_ofdm;
++	if (r_bmp_ht)
++		*r_bmp_ht = bmp_ht;
++	if (r_bmp_vht)
++		*r_bmp_vht = bmp_vht;
++}
++
++void rtw_get_shared_macid_tx_rate_bmp_by_bw(struct dvobj_priv *dvobj, u8 bw, u16 *r_bmp_cck_ofdm, u32 *r_bmp_ht, u32 *r_bmp_vht)
++{
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	u16 bmp_cck_ofdm = 0;
++	u32 bmp_ht = 0;
++	u32 bmp_vht = 0;
++	int i;
++
++	for (i = 0; i < macid_ctl->num; i++) {
++		if (!rtw_macid_is_used(macid_ctl, i))
++			continue;
++		if (rtw_macid_get_if_g(macid_ctl, i) != -1)
++			continue;
++
++		if (bw == CHANNEL_WIDTH_20) /* CCK, OFDM always 20MHz */
++			bmp_cck_ofdm |= macid_ctl->rate_bmp0[i] & 0x00000FFF;
++
++		/* bypass mismatch bandwidth for HT, VHT */
++		if (macid_ctl->bw[i] != bw)
++			continue;
++
++		if (macid_ctl->vht_en[i])
++			bmp_vht |= (macid_ctl->rate_bmp0[i] >> 12) | (macid_ctl->rate_bmp1[i] << 20);
++		else
++			bmp_ht |= (macid_ctl->rate_bmp0[i] >> 12) | (macid_ctl->rate_bmp1[i] << 20);
++	}
++
++	if (r_bmp_cck_ofdm)
++		*r_bmp_cck_ofdm = bmp_cck_ofdm;
++	if (r_bmp_ht)
++		*r_bmp_ht = bmp_ht;
++	if (r_bmp_vht)
++		*r_bmp_vht = bmp_vht;
++}
++
++void rtw_update_tx_rate_bmp(struct dvobj_priv *dvobj)
++{
++	struct rf_ctl_t *rf_ctl = dvobj_to_rfctl(dvobj);
++	_adapter *adapter = dvobj_get_primary_adapter(dvobj);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	u8 bw;
++	u16 bmp_cck_ofdm, tmp_cck_ofdm;
++	u32 bmp_ht, tmp_ht, ori_bmp_ht[2];
++	u8 ori_highest_ht_rate_bw_bmp;
++	u32 bmp_vht, tmp_vht, ori_bmp_vht[4];
++	u8 ori_highest_vht_rate_bw_bmp;
++	int i;
++
++	/* backup the original ht & vht highest bw bmp */
++	ori_highest_ht_rate_bw_bmp = rf_ctl->highest_ht_rate_bw_bmp;
++	ori_highest_vht_rate_bw_bmp = rf_ctl->highest_vht_rate_bw_bmp;
++
++	for (bw = CHANNEL_WIDTH_20; bw <= CHANNEL_WIDTH_160; bw++) {
++		/* backup the original ht & vht bmp */
++		if (bw <= CHANNEL_WIDTH_40)
++			ori_bmp_ht[bw] = rf_ctl->rate_bmp_ht_by_bw[bw];
++		if (bw <= CHANNEL_WIDTH_160)
++			ori_bmp_vht[bw] = rf_ctl->rate_bmp_vht_by_bw[bw];
++
++		bmp_cck_ofdm = bmp_ht = bmp_vht = 0;
++		if (hal_is_bw_support(dvobj_get_primary_adapter(dvobj), bw)) {
++			for (i = 0; i < dvobj->iface_nums; i++) {
++				if (!dvobj->padapters[i])
++					continue;
++				rtw_get_adapter_tx_rate_bmp_by_bw(dvobj->padapters[i], bw, &tmp_cck_ofdm, &tmp_ht, &tmp_vht);
++				bmp_cck_ofdm |= tmp_cck_ofdm;
++				bmp_ht |= tmp_ht;
++				bmp_vht |= tmp_vht;
++			}
++			rtw_get_shared_macid_tx_rate_bmp_by_bw(dvobj, bw, &tmp_cck_ofdm, &tmp_ht, &tmp_vht);
++			bmp_cck_ofdm |= tmp_cck_ofdm;
++			bmp_ht |= tmp_ht;
++			bmp_vht |= tmp_vht;
++		}
++		if (bw == CHANNEL_WIDTH_20)
++			rf_ctl->rate_bmp_cck_ofdm = bmp_cck_ofdm;
++		if (bw <= CHANNEL_WIDTH_40)
++			rf_ctl->rate_bmp_ht_by_bw[bw] = bmp_ht;
++		if (bw <= CHANNEL_WIDTH_160)
++			rf_ctl->rate_bmp_vht_by_bw[bw] = bmp_vht;
++	}
++
++#ifndef DBG_HIGHEST_RATE_BMP_BW_CHANGE
++#define DBG_HIGHEST_RATE_BMP_BW_CHANGE 0
++#endif
++
++	{
++		u8 highest_rate_bw;
++		u8 highest_rate_bw_bmp;
++		u8 update_ht_rs = _FALSE;
++		u8 update_vht_rs = _FALSE;
++
++		highest_rate_bw_bmp = BW_CAP_20M;
++		highest_rate_bw = CHANNEL_WIDTH_20;
++		for (bw = CHANNEL_WIDTH_20; bw <= CHANNEL_WIDTH_40; bw++) {
++			if (rf_ctl->rate_bmp_ht_by_bw[highest_rate_bw] < rf_ctl->rate_bmp_ht_by_bw[bw]) {
++				highest_rate_bw_bmp = ch_width_to_bw_cap(bw);
++				highest_rate_bw = bw;
++			} else if (rf_ctl->rate_bmp_ht_by_bw[highest_rate_bw] == rf_ctl->rate_bmp_ht_by_bw[bw])
++				highest_rate_bw_bmp |= ch_width_to_bw_cap(bw);
++		}
++		rf_ctl->highest_ht_rate_bw_bmp = highest_rate_bw_bmp;
++
++		if (ori_highest_ht_rate_bw_bmp != rf_ctl->highest_ht_rate_bw_bmp
++			|| largest_bit(ori_bmp_ht[highest_rate_bw]) != largest_bit(rf_ctl->rate_bmp_ht_by_bw[highest_rate_bw])
++		) {
++			if (DBG_HIGHEST_RATE_BMP_BW_CHANGE) {
++				RTW_INFO("highest_ht_rate_bw_bmp:0x%02x=>0x%02x\n", ori_highest_ht_rate_bw_bmp, rf_ctl->highest_ht_rate_bw_bmp);
++				RTW_INFO("rate_bmp_ht_by_bw[%u]:0x%08x=>0x%08x\n", highest_rate_bw, ori_bmp_ht[highest_rate_bw], rf_ctl->rate_bmp_ht_by_bw[highest_rate_bw]);
++			}
++			update_ht_rs = _TRUE;
++		}
++
++		highest_rate_bw_bmp = BW_CAP_20M;
++		highest_rate_bw = CHANNEL_WIDTH_20;
++		for (bw = CHANNEL_WIDTH_20; bw <= CHANNEL_WIDTH_160; bw++) {
++			if (rf_ctl->rate_bmp_vht_by_bw[highest_rate_bw] < rf_ctl->rate_bmp_vht_by_bw[bw]) {
++				highest_rate_bw_bmp = ch_width_to_bw_cap(bw);
++				highest_rate_bw = bw;
++			} else if (rf_ctl->rate_bmp_vht_by_bw[highest_rate_bw] == rf_ctl->rate_bmp_vht_by_bw[bw])
++				highest_rate_bw_bmp |= ch_width_to_bw_cap(bw);
++		}
++		rf_ctl->highest_vht_rate_bw_bmp = highest_rate_bw_bmp;
++
++		if (ori_highest_vht_rate_bw_bmp != rf_ctl->highest_vht_rate_bw_bmp
++			|| largest_bit(ori_bmp_vht[highest_rate_bw]) != largest_bit(rf_ctl->rate_bmp_vht_by_bw[highest_rate_bw])
++		) {
++			if (DBG_HIGHEST_RATE_BMP_BW_CHANGE) {
++				RTW_INFO("highest_vht_rate_bw_bmp:0x%02x=>0x%02x\n", ori_highest_vht_rate_bw_bmp, rf_ctl->highest_vht_rate_bw_bmp);
++				RTW_INFO("rate_bmp_vht_by_bw[%u]:0x%08x=>0x%08x\n", highest_rate_bw, ori_bmp_vht[highest_rate_bw], rf_ctl->rate_bmp_vht_by_bw[highest_rate_bw]);
++			}
++			update_vht_rs = _TRUE;
++		}
++
++		/* TODO: per rfpath and rate section handling? */
++		if (update_ht_rs == _TRUE || update_vht_rs == _TRUE)
++			rtw_hal_set_tx_power_level(dvobj_get_primary_adapter(dvobj), hal_data->CurrentChannel);
++	}
++}
++
++inline u16 rtw_get_tx_rate_bmp_cck_ofdm(struct dvobj_priv *dvobj)
++{
++	struct rf_ctl_t *rf_ctl = dvobj_to_rfctl(dvobj);
++
++	return rf_ctl->rate_bmp_cck_ofdm;
++}
++
++inline u32 rtw_get_tx_rate_bmp_ht_by_bw(struct dvobj_priv *dvobj, u8 bw)
++{
++	struct rf_ctl_t *rf_ctl = dvobj_to_rfctl(dvobj);
++
++	return rf_ctl->rate_bmp_ht_by_bw[bw];
++}
++
++inline u32 rtw_get_tx_rate_bmp_vht_by_bw(struct dvobj_priv *dvobj, u8 bw)
++{
++	struct rf_ctl_t *rf_ctl = dvobj_to_rfctl(dvobj);
++
++	return rf_ctl->rate_bmp_vht_by_bw[bw];
++}
++
++u8 rtw_get_tx_bw_bmp_of_ht_rate(struct dvobj_priv *dvobj, u8 rate, u8 max_bw)
++{
++	struct rf_ctl_t *rf_ctl = dvobj_to_rfctl(dvobj);
++	u8 bw;
++	u8 bw_bmp = 0;
++	u32 rate_bmp;
++
++	if (!IS_HT_RATE(rate)) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	rate_bmp = 1 << (rate - MGN_MCS0);
++
++	if (max_bw > CHANNEL_WIDTH_40)
++		max_bw = CHANNEL_WIDTH_40;
++
++	for (bw = CHANNEL_WIDTH_20; bw <= max_bw; bw++) {
++		/* RA may use lower rate for retry */
++		if (rf_ctl->rate_bmp_ht_by_bw[bw] >= rate_bmp)
++			bw_bmp |= ch_width_to_bw_cap(bw);
++	}
++
++exit:
++	return bw_bmp;
++}
++
++u8 rtw_get_tx_bw_bmp_of_vht_rate(struct dvobj_priv *dvobj, u8 rate, u8 max_bw)
++{
++	struct rf_ctl_t *rf_ctl = dvobj_to_rfctl(dvobj);
++	u8 bw;
++	u8 bw_bmp = 0;
++	u32 rate_bmp;
++
++	if (!IS_VHT_RATE(rate)) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	rate_bmp = 1 << (rate - MGN_VHT1SS_MCS0);
++
++	if (max_bw > CHANNEL_WIDTH_160)
++		max_bw = CHANNEL_WIDTH_160;
++
++	for (bw = CHANNEL_WIDTH_20; bw <= max_bw; bw++) {
++		/* RA may use lower rate for retry */
++		if (rf_ctl->rate_bmp_vht_by_bw[bw] >= rate_bmp)
++			bw_bmp |= ch_width_to_bw_cap(bw);
++	}
++
++exit:
++	return bw_bmp;
++}
++
++u8 query_ra_short_GI(struct sta_info *psta, u8 bw)
++{
++	u8	sgi = _FALSE, sgi_20m = _FALSE, sgi_40m = _FALSE, sgi_80m = _FALSE;
++
++#ifdef CONFIG_80211N_HT
++#ifdef CONFIG_80211AC_VHT
++	if (psta->vhtpriv.vht_option)
++		sgi_80m = psta->vhtpriv.sgi_80m;
++#endif
++	sgi_20m = psta->htpriv.sgi_20m;
++	sgi_40m = psta->htpriv.sgi_40m;
++#endif
++
++	switch (bw) {
++	case CHANNEL_WIDTH_80:
++		sgi = sgi_80m;
++		break;
++	case CHANNEL_WIDTH_40:
++		sgi = sgi_40m;
++		break;
++	case CHANNEL_WIDTH_20:
++	default:
++		sgi = sgi_20m;
++		break;
++	}
++
++	return sgi;
++}
++
++static void update_attrib_vcs_info(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	u32	sz;
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	/* struct sta_info	*psta = pattrib->psta; */
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	/*
++		if(pattrib->psta)
++		{
++			psta = pattrib->psta;
++		}
++		else
++		{
++			RTW_INFO("%s, call rtw_get_stainfo()\n", __func__);
++			psta=rtw_get_stainfo(&padapter->stapriv ,&pattrib->ra[0] );
++		}
++
++		if(psta==NULL)
++		{
++			RTW_INFO("%s, psta==NUL\n", __func__);
++			return;
++		}
++
++		if(!(psta->state &_FW_LINKED))
++		{
++			RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++			return;
++		}
++	*/
++
++	if (pattrib->nr_frags != 1)
++		sz = padapter->xmitpriv.frag_len;
++	else /* no frag */
++		sz = pattrib->last_txcmdsz;
++
++	/* (1) RTS_Threshold is compared to the MPDU, not MSDU. */
++	/* (2) If there are more than one frag in  this MSDU, only the first frag uses protection frame. */
++	/*		Other fragments are protected by previous fragment. */
++	/*		So we only need to check the length of first fragment. */
++	if (pmlmeext->cur_wireless_mode < WIRELESS_11_24N  || padapter->registrypriv.wifi_spec) {
++		if (sz > padapter->registrypriv.rts_thresh)
++			pattrib->vcs_mode = RTS_CTS;
++		else {
++			if (pattrib->rtsen)
++				pattrib->vcs_mode = RTS_CTS;
++			else if (pattrib->cts2self)
++				pattrib->vcs_mode = CTS_TO_SELF;
++			else
++				pattrib->vcs_mode = NONE_VCS;
++		}
++	} else {
++		while (_TRUE) {
++#if 0 /* Todo */
++			/* check IOT action */
++			if (pHTInfo->IOTAction & HT_IOT_ACT_FORCED_CTS2SELF) {
++				pattrib->vcs_mode = CTS_TO_SELF;
++				pattrib->rts_rate = MGN_24M;
++				break;
++			} else if (pHTInfo->IOTAction & (HT_IOT_ACT_FORCED_RTS | HT_IOT_ACT_PURE_N_MODE)) {
++				pattrib->vcs_mode = RTS_CTS;
++				pattrib->rts_rate = MGN_24M;
++				break;
++			}
++#endif
++
++			/* IOT action */
++			if ((pmlmeinfo->assoc_AP_vendor == HT_IOT_PEER_ATHEROS) && (pattrib->ampdu_en == _TRUE) &&
++			    (padapter->securitypriv.dot11PrivacyAlgrthm == _AES_)) {
++				pattrib->vcs_mode = CTS_TO_SELF;
++				break;
++			}
++
++
++			/* check ERP protection */
++			if (pattrib->rtsen || pattrib->cts2self) {
++				if (pattrib->rtsen)
++					pattrib->vcs_mode = RTS_CTS;
++				else if (pattrib->cts2self)
++					pattrib->vcs_mode = CTS_TO_SELF;
++
++				break;
++			}
++
++			/* check HT op mode */
++			if (pattrib->ht_en) {
++				u8 HTOpMode = pmlmeinfo->HT_protection;
++				if ((pmlmeext->cur_bwmode && (HTOpMode == 2 || HTOpMode == 3)) ||
++				    (!pmlmeext->cur_bwmode && HTOpMode == 3)) {
++					pattrib->vcs_mode = RTS_CTS;
++					break;
++				}
++			}
++
++			/* check rts */
++			if (sz > padapter->registrypriv.rts_thresh) {
++				pattrib->vcs_mode = RTS_CTS;
++				break;
++			}
++
++			/* to do list: check MIMO power save condition. */
++
++			/* check AMPDU aggregation for TXOP */
++			if ((pattrib->ampdu_en == _TRUE) && (!IS_HARDWARE_TYPE_8812(padapter))) {
++				pattrib->vcs_mode = RTS_CTS;
++				break;
++			}
++
++			pattrib->vcs_mode = NONE_VCS;
++			break;
++		}
++	}
++
++	/* for debug : force driver control vrtl_carrier_sense. */
++	if (padapter->driver_vcs_en == 1) {
++		/* u8 driver_vcs_en; */ /* Enable=1, Disable=0 driver control vrtl_carrier_sense. */
++		/* u8 driver_vcs_type; */ /* force 0:disable VCS, 1:RTS-CTS, 2:CTS-to-self when vcs_en=1. */
++		pattrib->vcs_mode = padapter->driver_vcs_type;
++	}
++
++}
++
++static void update_attrib_phy_info(_adapter *padapter, struct pkt_attrib *pattrib, struct sta_info *psta)
++{
++	struct mlme_ext_priv *mlmeext = &padapter->mlmeextpriv;
++	u8 bw;
++
++	pattrib->rtsen = psta->rtsen;
++	pattrib->cts2self = psta->cts2self;
++
++	pattrib->mdata = 0;
++	pattrib->eosp = 0;
++	pattrib->triggered = 0;
++	pattrib->ampdu_spacing = 0;
++
++	/* qos_en, ht_en, init rate, ,bw, ch_offset, sgi */
++	pattrib->qos_en = psta->qos_option;
++
++	pattrib->raid = psta->raid;
++
++	bw = rtw_get_tx_bw_mode(padapter, psta);
++	pattrib->bwmode = rtw_min(bw, mlmeext->cur_bwmode);
++	pattrib->sgi = query_ra_short_GI(psta, pattrib->bwmode);
++
++	pattrib->ldpc = psta->ldpc;
++	pattrib->stbc = psta->stbc;
++
++#ifdef CONFIG_80211N_HT
++	pattrib->ht_en = psta->htpriv.ht_option;
++	pattrib->ch_offset = psta->htpriv.ch_offset;
++	pattrib->ampdu_en = _FALSE;
++
++	if (padapter->driver_ampdu_spacing != 0xFF) /* driver control AMPDU Density for peer sta's rx */
++		pattrib->ampdu_spacing = padapter->driver_ampdu_spacing;
++	else
++		pattrib->ampdu_spacing = psta->htpriv.rx_ampdu_min_spacing;
++#endif /* CONFIG_80211N_HT */
++	/* if(pattrib->ht_en && psta->htpriv.ampdu_enable) */
++	/* { */
++	/*	if(psta->htpriv.agg_enable_bitmap & BIT(pattrib->priority)) */
++	/*		pattrib->ampdu_en = _TRUE; */
++	/* }	 */
++
++#ifdef CONFIG_TDLS
++	if (pattrib->direct_link == _TRUE) {
++		psta = pattrib->ptdls_sta;
++
++		pattrib->raid = psta->raid;
++#ifdef CONFIG_80211N_HT
++		pattrib->bwmode = rtw_get_tx_bw_mode(padapter, psta);
++		pattrib->ht_en = psta->htpriv.ht_option;
++		pattrib->ch_offset = psta->htpriv.ch_offset;
++		pattrib->sgi = query_ra_short_GI(psta, pattrib->bwmode);
++#endif /* CONFIG_80211N_HT */
++	}
++#endif /* CONFIG_TDLS */
++
++	pattrib->retry_ctrl = _FALSE;
++
++#ifdef CONFIG_AUTO_AP_MODE
++	if (psta->isrc && psta->pid > 0)
++		pattrib->pctrl = _TRUE;
++#endif
++
++}
++
++static s32 update_attrib_sec_info(_adapter *padapter, struct pkt_attrib *pattrib, struct sta_info *psta)
++{
++	sint res = _SUCCESS;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	sint bmcast = IS_MCAST(pattrib->ra);
++
++	_rtw_memset(pattrib->dot118021x_UncstKey.skey,  0, 16);
++	_rtw_memset(pattrib->dot11tkiptxmickey.skey,  0, 16);
++	pattrib->mac_id = psta->mac_id;
++
++	if (psta->ieee8021x_blocked == _TRUE) {
++
++		pattrib->encrypt = 0;
++
++		if ((pattrib->ether_type != 0x888e) && (check_fwstate(pmlmepriv, WIFI_MP_STATE) == _FALSE)) {
++#ifdef DBG_TX_DROP_FRAME
++			RTW_INFO("DBG_TX_DROP_FRAME %s psta->ieee8021x_blocked == _TRUE,  pattrib->ether_type(%04x) != 0x888e\n", __FUNCTION__, pattrib->ether_type);
++#endif
++			res = _FAIL;
++			goto exit;
++		}
++	} else {
++		GET_ENCRY_ALGO(psecuritypriv, psta, pattrib->encrypt, bmcast);
++
++#ifdef CONFIG_WAPI_SUPPORT
++		if (pattrib->ether_type == 0x88B4)
++			pattrib->encrypt = _NO_PRIVACY_;
++#endif
++
++		switch (psecuritypriv->dot11AuthAlgrthm) {
++		case dot11AuthAlgrthm_Open:
++		case dot11AuthAlgrthm_Shared:
++		case dot11AuthAlgrthm_Auto:
++			pattrib->key_idx = (u8)psecuritypriv->dot11PrivacyKeyIndex;
++			break;
++		case dot11AuthAlgrthm_8021X:
++			if (bmcast)
++				pattrib->key_idx = (u8)psecuritypriv->dot118021XGrpKeyid;
++			else
++				pattrib->key_idx = 0;
++			break;
++		default:
++			pattrib->key_idx = 0;
++			break;
++		}
++
++		/* For WPS 1.0 WEP, driver should not encrypt EAPOL Packet for WPS handshake. */
++		if (((pattrib->encrypt == _WEP40_) || (pattrib->encrypt == _WEP104_)) && (pattrib->ether_type == 0x888e))
++			pattrib->encrypt = _NO_PRIVACY_;
++
++	}
++
++#ifdef CONFIG_TDLS
++	if (pattrib->direct_link == _TRUE) {
++		if (pattrib->encrypt > 0)
++			pattrib->encrypt = _AES_;
++	}
++#endif
++
++	switch (pattrib->encrypt) {
++	case _WEP40_:
++	case _WEP104_:
++		pattrib->iv_len = 4;
++		pattrib->icv_len = 4;
++		WEP_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++		break;
++
++	case _TKIP_:
++		pattrib->iv_len = 8;
++		pattrib->icv_len = 4;
++
++		if (psecuritypriv->busetkipkey == _FAIL) {
++#ifdef DBG_TX_DROP_FRAME
++			RTW_INFO("DBG_TX_DROP_FRAME %s psecuritypriv->busetkipkey(%d)==_FAIL drop packet\n", __FUNCTION__, psecuritypriv->busetkipkey);
++#endif
++			res = _FAIL;
++			goto exit;
++		}
++
++		if (bmcast)
++			TKIP_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++		else
++			TKIP_IV(pattrib->iv, psta->dot11txpn, 0);
++
++
++		_rtw_memcpy(pattrib->dot11tkiptxmickey.skey, psta->dot11tkiptxmickey.skey, 16);
++
++		break;
++
++	case _AES_:
++
++		pattrib->iv_len = 8;
++		pattrib->icv_len = 8;
++
++		if (bmcast)
++			AES_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++		else
++			AES_IV(pattrib->iv, psta->dot11txpn, 0);
++
++		break;
++
++#ifdef CONFIG_WAPI_SUPPORT
++	case _SMS4_:
++		pattrib->iv_len = 18;
++		pattrib->icv_len = 16;
++		rtw_wapi_get_iv(padapter, pattrib->ra, pattrib->iv);
++		break;
++#endif
++	default:
++		pattrib->iv_len = 0;
++		pattrib->icv_len = 0;
++		break;
++	}
++
++	if (pattrib->encrypt > 0)
++		_rtw_memcpy(pattrib->dot118021x_UncstKey.skey, psta->dot118021x_UncstKey.skey, 16);
++
++
++	if (pattrib->encrypt &&
++	    ((padapter->securitypriv.sw_encrypt == _TRUE) || (psecuritypriv->hw_decrypted == _FALSE))) {
++		pattrib->bswenc = _TRUE;
++	} else {
++		pattrib->bswenc = _FALSE;
++	}
++
++#if defined(CONFIG_CONCURRENT_MODE)
++	pattrib->bmc_camid = padapter->securitypriv.dot118021x_bmc_cam_id;
++#endif
++
++	if (pattrib->encrypt && bmcast && _rtw_camctl_chk_flags(padapter, SEC_STATUS_STA_PK_GK_CONFLICT_DIS_BMC_SEARCH))
++		pattrib->bswenc = _TRUE;
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (pattrib->encrypt == _SMS4_)
++		pattrib->bswenc = _FALSE;
++#endif
++
++exit:
++
++	return res;
++
++}
++
++u8	qos_acm(u8 acm_mask, u8 priority)
++{
++	u8	change_priority = priority;
++
++	switch (priority) {
++	case 0:
++	case 3:
++		if (acm_mask & BIT(1))
++			change_priority = 1;
++		break;
++	case 1:
++	case 2:
++		break;
++	case 4:
++	case 5:
++		if (acm_mask & BIT(2))
++			change_priority = 0;
++		break;
++	case 6:
++	case 7:
++		if (acm_mask & BIT(3))
++			change_priority = 5;
++		break;
++	default:
++		RTW_INFO("qos_acm(): invalid pattrib->priority: %d!!!\n", priority);
++		break;
++	}
++
++	return change_priority;
++}
++
++static void set_qos(struct pkt_file *ppktfile, struct pkt_attrib *pattrib)
++{
++	struct ethhdr etherhdr;
++	struct iphdr ip_hdr;
++	s32 UserPriority = 0;
++
++
++	_rtw_open_pktfile(ppktfile->pkt, ppktfile);
++	_rtw_pktfile_read(ppktfile, (unsigned char *)&etherhdr, ETH_HLEN);
++
++	/* get UserPriority from IP hdr */
++	if (pattrib->ether_type == 0x0800) {
++		_rtw_pktfile_read(ppktfile, (u8 *)&ip_hdr, sizeof(ip_hdr));
++		/*		UserPriority = (ntohs(ip_hdr.tos) >> 5) & 0x3; */
++		UserPriority = ip_hdr.tos >> 5;
++	}
++	/*
++		else if (pattrib->ether_type == 0x888e) {
++
++
++			UserPriority = 7;
++		}
++	*/
++	pattrib->priority = UserPriority;
++	pattrib->hdrlen = WLAN_HDR_A3_QOS_LEN;
++	pattrib->subtype = WIFI_QOS_DATA_TYPE;
++}
++
++#ifdef CONFIG_TDLS
++u8 rtw_check_tdls_established(_adapter *padapter, struct pkt_attrib *pattrib)
++{
++	pattrib->ptdls_sta = NULL;
++
++	pattrib->direct_link = _FALSE;
++	if (padapter->tdlsinfo.link_established == _TRUE) {
++		pattrib->ptdls_sta = rtw_get_stainfo(&padapter->stapriv, pattrib->dst);
++#if 1
++		if ((pattrib->ptdls_sta != NULL) &&
++		    (pattrib->ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE) &&
++		    (pattrib->ether_type != 0x0806)) {
++			pattrib->direct_link = _TRUE;
++			/* RTW_INFO("send ptk to "MAC_FMT" using direct link\n", MAC_ARG(pattrib->dst)); */
++		}
++#else
++		if (pattrib->ptdls_sta != NULL &&
++		    pattrib->ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE) {
++			pattrib->direct_link = _TRUE;
++#if 0
++			RTW_INFO("send ptk to "MAC_FMT" using direct link\n", MAC_ARG(pattrib->dst));
++#endif
++		}
++
++		/* ARP frame may be helped by AP*/
++		if (pattrib->ether_type != 0x0806)
++			pattrib->direct_link = _FALSE;
++#endif
++	}
++
++	return pattrib->direct_link;
++}
++
++s32 update_tdls_attrib(_adapter *padapter, struct pkt_attrib *pattrib)
++{
++
++	struct sta_info *psta = NULL;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct qos_priv		*pqospriv = &pmlmepriv->qospriv;
++
++	s32 res = _SUCCESS;
++
++	psta = rtw_get_stainfo(pstapriv, pattrib->ra);
++	if (psta == NULL)	{
++		res = _FAIL;
++		goto exit;
++	}
++
++	pattrib->mac_id = psta->mac_id;
++	pattrib->psta = psta;
++	pattrib->ack_policy = 0;
++	/* get ether_hdr_len */
++	pattrib->pkt_hdrlen = ETH_HLEN;
++
++	/* [TDLS] TODO: setup req/rsp should be AC_BK */
++	if (pqospriv->qos_option &&  psta->qos_option) {
++		pattrib->priority = 4;	/* tdls management frame should be AC_VI */
++		pattrib->hdrlen = WLAN_HDR_A3_QOS_LEN;
++		pattrib->subtype = WIFI_QOS_DATA_TYPE;
++	} else {
++		pattrib->priority = 0;
++		pattrib->hdrlen = WLAN_HDR_A3_LEN;
++		pattrib->subtype = WIFI_DATA_TYPE;
++	}
++
++	/* TODO:_lock */
++	if (update_attrib_sec_info(padapter, pattrib, psta) == _FAIL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	update_attrib_phy_info(padapter, pattrib, psta);
++
++
++exit:
++
++	return res;
++}
++
++#endif /* CONFIG_TDLS */
++
++/*get non-qos hw_ssn control register,mapping to REG_HW_SEQ0,1,2,3*/
++inline u8 rtw_get_hwseq_no(_adapter *padapter)
++{
++	u8 hwseq_num = 0;
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->adapter_type != PRIMARY_ADAPTER)
++		hwseq_num = 1;
++	/* else */
++	/*	hwseq_num = 2; */
++#endif /* CONFIG_CONCURRENT_MODE */
++	return hwseq_num;
++}
++static s32 update_attrib(_adapter *padapter, _pkt *pkt, struct pkt_attrib *pattrib)
++{
++	uint i;
++	struct pkt_file pktfile;
++	struct sta_info *psta = NULL;
++	struct ethhdr etherhdr;
++
++	sint bmcast;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct qos_priv		*pqospriv = &pmlmepriv->qospriv;
++	struct xmit_priv		*pxmitpriv = &padapter->xmitpriv;
++	sint res = _SUCCESS;
++
++
++	DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib);
++
++	_rtw_open_pktfile(pkt, &pktfile);
++	i = _rtw_pktfile_read(&pktfile, (u8 *)&etherhdr, ETH_HLEN);
++
++	pattrib->ether_type = ntohs(etherhdr.h_proto);
++
++
++	_rtw_memcpy(pattrib->dst, &etherhdr.h_dest, ETH_ALEN);
++	_rtw_memcpy(pattrib->src, &etherhdr.h_source, ETH_ALEN);
++
++
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) ||
++	    (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE)) {
++		_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, adapter_mac_addr(padapter), ETH_ALEN);
++		DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_adhoc);
++	} else if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++#ifdef CONFIG_TDLS
++		if (rtw_check_tdls_established(padapter, pattrib) == _TRUE)
++			_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);	/* For TDLS direct link Tx, set ra to be same to dst */
++		else
++#endif
++			_rtw_memcpy(pattrib->ra, get_bssid(pmlmepriv), ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, adapter_mac_addr(padapter), ETH_ALEN);
++		DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_sta);
++	} else if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++		_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++		_rtw_memcpy(pattrib->ta, get_bssid(pmlmepriv), ETH_ALEN);
++		DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_ap);
++	} else
++		DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_unknown);
++
++	bmcast = IS_MCAST(pattrib->ra);
++	if (bmcast) {
++		psta = rtw_get_bcmc_stainfo(padapter);
++		if (psta == NULL) { /* if we cannot get psta => drop the pkt */
++			DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_err_sta);
++#ifdef DBG_TX_DROP_FRAME
++			RTW_INFO("DBG_TX_DROP_FRAME %s get sta_info fail, ra:" MAC_FMT"\n", __func__, MAC_ARG(pattrib->ra));
++#endif
++			res = _FAIL;
++			goto exit;
++		}
++	} else {
++		psta = rtw_get_stainfo(pstapriv, pattrib->ra);
++		if (psta == NULL) { /* if we cannot get psta => drop the pkt */
++			DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_err_ucast_sta);
++#ifdef DBG_TX_DROP_FRAME
++			RTW_INFO("DBG_TX_DROP_FRAME %s get sta_info fail, ra:" MAC_FMT"\n", __func__, MAC_ARG(pattrib->ra));
++#endif
++			res = _FAIL;
++			goto exit;
++		} else if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE && !(psta->state & _FW_LINKED)) {
++			DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_err_ucast_ap_link);
++			res = _FAIL;
++			goto exit;
++		}
++	}
++
++	if (!(psta->state & _FW_LINKED)) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_err_link);
++		RTW_INFO("%s-"ADPT_FMT" psta("MAC_FMT")->state(0x%x) != _FW_LINKED\n", __func__, ADPT_ARG(padapter), MAC_ARG(psta->hwaddr), psta->state);
++		res = _FAIL;
++		goto exit;
++	}
++
++	pattrib->pktlen = pktfile.pkt_len;
++
++	/* TODO: 802.1Q VLAN header */
++	/* TODO: IPV6 */
++
++	if (ETH_P_IP == pattrib->ether_type) {
++		u8 ip[20];
++
++		_rtw_pktfile_read(&pktfile, ip, 20);
++
++		if (GET_IPV4_IHL(ip) * 4 > 20)
++			_rtw_pktfile_read(&pktfile, NULL, GET_IPV4_IHL(ip) - 20);
++
++		pattrib->icmp_pkt = 0;
++		pattrib->dhcp_pkt = 0;
++
++		if (GET_IPV4_PROTOCOL(ip) == 0x01) { /* ICMP */
++			pattrib->icmp_pkt = 1;
++			DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_icmp);
++
++		} else if (GET_IPV4_PROTOCOL(ip) == 0x11) { /* UDP */
++			u8 udp[8];
++
++			_rtw_pktfile_read(&pktfile, udp, 8);
++
++			if ((GET_UDP_SRC(udp) == 68 && GET_UDP_DST(udp) == 67)
++				|| (GET_UDP_SRC(udp) == 67 && GET_UDP_DST(udp) == 68)
++			) {
++				/* 67 : UDP BOOTP server, 68 : UDP BOOTP client */
++				if (pattrib->pktlen > 282) { /* MINIMUM_DHCP_PACKET_SIZE */
++					pattrib->dhcp_pkt = 1;
++					DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_dhcp);
++					if (0)
++						RTW_INFO("send DHCP packet\n");
++				}
++			}
++
++		} else if (GET_IPV4_PROTOCOL(ip) == 0x06 /* TCP */
++			&& rtw_st_ctl_chk_reg_s_proto(&psta->st_ctl, 0x06) == _TRUE
++		) {
++			u8 tcp[20];
++
++			_rtw_pktfile_read(&pktfile, tcp, 20);
++
++			if (rtw_st_ctl_chk_reg_rule(&psta->st_ctl, padapter, IPV4_SRC(ip), TCP_SRC(tcp), IPV4_DST(ip), TCP_DST(tcp)) == _TRUE) {
++				if (GET_TCP_SYN(tcp) && GET_TCP_ACK(tcp)) {
++					session_tracker_add_cmd(padapter, psta
++						, IPV4_SRC(ip), TCP_SRC(tcp)
++						, IPV4_SRC(ip), TCP_DST(tcp));
++					if (DBG_SESSION_TRACKER)
++						RTW_INFO(FUNC_ADPT_FMT" local:"IP_FMT":"PORT_FMT", remote:"IP_FMT":"PORT_FMT" SYN-ACK\n"
++							, FUNC_ADPT_ARG(padapter)
++							, IP_ARG(IPV4_SRC(ip)), PORT_ARG(TCP_SRC(tcp))
++							, IP_ARG(IPV4_DST(ip)), PORT_ARG(TCP_DST(tcp)));
++				}
++				if (GET_TCP_FIN(tcp)) {
++					session_tracker_del_cmd(padapter, psta
++						, IPV4_SRC(ip), TCP_SRC(tcp)
++						, IPV4_SRC(ip), TCP_DST(tcp));
++					if (DBG_SESSION_TRACKER)
++						RTW_INFO(FUNC_ADPT_FMT" local:"IP_FMT":"PORT_FMT", remote:"IP_FMT":"PORT_FMT" FIN\n"
++							, FUNC_ADPT_ARG(padapter)
++							, IP_ARG(IPV4_SRC(ip)), PORT_ARG(TCP_SRC(tcp))
++							, IP_ARG(IPV4_DST(ip)), PORT_ARG(TCP_DST(tcp)));
++				}
++			}
++		}
++
++	} else if (0x888e == pattrib->ether_type)
++		RTW_PRINT("send eapol packet\n");
++
++	if ((pattrib->ether_type == 0x888e) || (pattrib->dhcp_pkt == 1))
++		rtw_mi_set_scan_deny(padapter, 3000);
++
++#ifdef CONFIG_LPS
++	/* If EAPOL , ARP , OR DHCP packet, driver must be in active mode. */
++#ifdef CONFIG_WAPI_SUPPORT
++	if ((pattrib->ether_type == 0x88B4) || (pattrib->ether_type == 0x0806) || (pattrib->ether_type == 0x888e) || (pattrib->dhcp_pkt == 1))
++#else /* !CONFIG_WAPI_SUPPORT */
++#if 0
++	if ((pattrib->ether_type == 0x0806) || (pattrib->ether_type == 0x888e) || (pattrib->dhcp_pkt == 1))
++#else /* only ICMP/DHCP packets is as SPECIAL_PACKET, and leave LPS when tx IMCP/DHCP packets. */
++	/* if ((pattrib->ether_type == 0x888e) || (pattrib->dhcp_pkt == 1) ) */
++	if (pattrib->icmp_pkt == 1)
++		rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_LEAVE, 1);
++	else if (pattrib->dhcp_pkt == 1)
++#endif
++#endif
++	{
++		DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_active);
++		rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_SPECIAL_PACKET, 1);
++	}
++#endif /* CONFIG_LPS */
++
++#ifdef CONFIG_BEAMFORMING
++	update_attrib_txbf_info(padapter, pattrib, psta);
++#endif
++
++	/* TODO:_lock */
++	if (update_attrib_sec_info(padapter, pattrib, psta) == _FAIL) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_upd_attrib_err_sec);
++		res = _FAIL;
++		goto exit;
++	}
++
++	update_attrib_phy_info(padapter, pattrib, psta);
++
++	/* RTW_INFO("%s ==> mac_id(%d)\n",__FUNCTION__,pattrib->mac_id ); */
++
++	pattrib->psta = psta;
++	/* TODO:_unlock */
++
++	pattrib->pctrl = 0;
++
++	pattrib->ack_policy = 0;
++	/* get ether_hdr_len */
++	pattrib->pkt_hdrlen = ETH_HLEN;/* (pattrib->ether_type == 0x8100) ? (14 + 4 ): 14; */ /* vlan tag */
++
++	pattrib->hdrlen = WLAN_HDR_A3_LEN;
++	pattrib->subtype = WIFI_DATA_TYPE;
++	pattrib->priority = 0;
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE | WIFI_ADHOC_STATE | WIFI_ADHOC_MASTER_STATE)) {
++		if (pattrib->qos_en)
++			set_qos(&pktfile, pattrib);
++	} else {
++#ifdef CONFIG_TDLS
++		if (pattrib->direct_link == _TRUE) {
++			if (pattrib->qos_en)
++				set_qos(&pktfile, pattrib);
++		} else
++#endif
++		{
++			if (pqospriv->qos_option) {
++				set_qos(&pktfile, pattrib);
++
++				if (pmlmepriv->acm_mask != 0)
++					pattrib->priority = qos_acm(pmlmepriv->acm_mask, pattrib->priority);
++			}
++		}
++	}
++
++	/* pattrib->priority = 5; */ /* force to used VI queue, for testing */
++	pattrib->hw_ssn_sel = pxmitpriv->hw_ssn_seq_no;
++	rtw_set_tx_chksum_offload(pkt, pattrib);
++
++exit:
++
++
++	return res;
++}
++
++static s32 xmitframe_addmic(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	sint			curfragnum, length;
++	u8	*pframe, *payload, mic[8];
++	struct	mic_data		micdata;
++	/* struct	sta_info		*stainfo; */
++	struct	qos_priv   *pqospriv = &(padapter->mlmepriv.qospriv);
++	struct	pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct	security_priv	*psecuritypriv = &padapter->securitypriv;
++	struct	xmit_priv		*pxmitpriv = &padapter->xmitpriv;
++	u8 priority[4] = {0x0, 0x0, 0x0, 0x0};
++	u8 hw_hdr_offset = 0;
++	sint bmcst = IS_MCAST(pattrib->ra);
++
++	/*
++		if(pattrib->psta)
++		{
++			stainfo = pattrib->psta;
++		}
++		else
++		{
++			RTW_INFO("%s, call rtw_get_stainfo()\n", __func__);
++			stainfo=rtw_get_stainfo(&padapter->stapriv ,&pattrib->ra[0]);
++		}
++
++		if(stainfo==NULL)
++		{
++			RTW_INFO("%s, psta==NUL\n", __func__);
++			return _FAIL;
++		}
++
++		if(!(stainfo->state &_FW_LINKED))
++		{
++			RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, stainfo->state);
++			return _FAIL;
++		}
++	*/
++
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	hw_hdr_offset = TXDESC_SIZE + (pxmitframe->pkt_offset * PACKET_OFFSET_SZ);;
++#else
++#ifdef CONFIG_TX_EARLY_MODE
++	hw_hdr_offset = TXDESC_OFFSET + EARLY_MODE_INFO_SIZE;
++#else
++	hw_hdr_offset = TXDESC_OFFSET;
++#endif
++#endif
++
++	if (pattrib->encrypt == _TKIP_) { /* if(psecuritypriv->dot11PrivacyAlgrthm==_TKIP_PRIVACY_) */
++		/* encode mic code */
++		/* if(stainfo!= NULL) */
++		{
++			u8 null_key[16] = {0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0};
++
++			pframe = pxmitframe->buf_addr + hw_hdr_offset;
++
++			if (bmcst) {
++				if (_rtw_memcmp(psecuritypriv->dot118021XGrptxmickey[psecuritypriv->dot118021XGrpKeyid].skey, null_key, 16) == _TRUE) {
++					/* DbgPrint("\nxmitframe_addmic:stainfo->dot11tkiptxmickey==0\n"); */
++					/* rtw_msleep_os(10); */
++					return _FAIL;
++				}
++				/* start to calculate the mic code */
++				rtw_secmicsetkey(&micdata, psecuritypriv->dot118021XGrptxmickey[psecuritypriv->dot118021XGrpKeyid].skey);
++			} else {
++				if (_rtw_memcmp(&pattrib->dot11tkiptxmickey.skey[0], null_key, 16) == _TRUE) {
++					/* DbgPrint("\nxmitframe_addmic:stainfo->dot11tkiptxmickey==0\n"); */
++					/* rtw_msleep_os(10); */
++					return _FAIL;
++				}
++				/* start to calculate the mic code */
++				rtw_secmicsetkey(&micdata, &pattrib->dot11tkiptxmickey.skey[0]);
++			}
++
++			if (pframe[1] & 1) { /* ToDS==1 */
++				rtw_secmicappend(&micdata, &pframe[16], 6);  /* DA */
++				if (pframe[1] & 2) /* From Ds==1 */
++					rtw_secmicappend(&micdata, &pframe[24], 6);
++				else
++					rtw_secmicappend(&micdata, &pframe[10], 6);
++			} else {	/* ToDS==0 */
++				rtw_secmicappend(&micdata, &pframe[4], 6);   /* DA */
++				if (pframe[1] & 2) /* From Ds==1 */
++					rtw_secmicappend(&micdata, &pframe[16], 6);
++				else
++					rtw_secmicappend(&micdata, &pframe[10], 6);
++
++			}
++
++			/* if(pqospriv->qos_option==1) */
++			if (pattrib->qos_en)
++				priority[0] = (u8)pxmitframe->attrib.priority;
++
++
++			rtw_secmicappend(&micdata, &priority[0], 4);
++
++			payload = pframe;
++
++			for (curfragnum = 0; curfragnum < pattrib->nr_frags; curfragnum++) {
++				payload = (u8 *)RND4((SIZE_PTR)(payload));
++
++				payload = payload + pattrib->hdrlen + pattrib->iv_len;
++				if ((curfragnum + 1) == pattrib->nr_frags) {
++					length = pattrib->last_txcmdsz - pattrib->hdrlen - pattrib->iv_len - ((pattrib->bswenc) ? pattrib->icv_len : 0);
++					rtw_secmicappend(&micdata, payload, length);
++					payload = payload + length;
++				} else {
++					length = pxmitpriv->frag_len - pattrib->hdrlen - pattrib->iv_len - ((pattrib->bswenc) ? pattrib->icv_len : 0);
++					rtw_secmicappend(&micdata, payload, length);
++					payload = payload + length + pattrib->icv_len;
++				}
++			}
++			rtw_secgetmic(&micdata, &(mic[0]));
++			/* add mic code  and add the mic code length in last_txcmdsz */
++
++			_rtw_memcpy(payload, &(mic[0]), 8);
++			pattrib->last_txcmdsz += 8;
++
++			payload = payload - pattrib->last_txcmdsz + 8;
++		}
++	}
++
++
++	return _SUCCESS;
++}
++
++/*#define DBG_TX_SW_ENCRYPTOR*/
++
++static s32 xmitframe_swencrypt(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++
++	struct	pkt_attrib	*pattrib = &pxmitframe->attrib;
++	/* struct 	security_priv	*psecuritypriv=&padapter->securitypriv; */
++
++
++	/* if((psecuritypriv->sw_encrypt)||(pattrib->bswenc))	 */
++	if (pattrib->bswenc) {
++#ifdef DBG_TX_SW_ENCRYPTOR
++		RTW_INFO(ADPT_FMT" - sec_type:%s DO SW encryption\n",
++			ADPT_ARG(padapter), security_type_str(pattrib->encrypt));
++#endif
++
++		switch (pattrib->encrypt) {
++		case _WEP40_:
++		case _WEP104_:
++			rtw_wep_encrypt(padapter, (u8 *)pxmitframe);
++			break;
++		case _TKIP_:
++			rtw_tkip_encrypt(padapter, (u8 *)pxmitframe);
++			break;
++		case _AES_:
++			rtw_aes_encrypt(padapter, (u8 *)pxmitframe);
++			break;
++#ifdef CONFIG_WAPI_SUPPORT
++		case _SMS4_:
++			rtw_sms4_encrypt(padapter, (u8 *)pxmitframe);
++#endif
++		default:
++			break;
++		}
++
++	}
++
++
++	return _SUCCESS;
++}
++
++s32 rtw_make_wlanhdr(_adapter *padapter , u8 *hdr, struct pkt_attrib *pattrib)
++{
++	u16 *qc;
++
++	struct rtw_ieee80211_hdr *pwlanhdr = (struct rtw_ieee80211_hdr *)hdr;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct qos_priv *pqospriv = &pmlmepriv->qospriv;
++	u8 qos_option = _FALSE;
++	sint res = _SUCCESS;
++	u16 *fctrl = &pwlanhdr->frame_ctl;
++
++	/* struct sta_info *psta; */
++
++	/* sint bmcst = IS_MCAST(pattrib->ra); */
++
++
++	/*
++		psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++		if(pattrib->psta != psta)
++		{
++			RTW_INFO("%s, pattrib->psta(%p) != psta(%p)\n", __func__, pattrib->psta, psta);
++			return;
++		}
++
++		if(psta==NULL)
++		{
++			RTW_INFO("%s, psta==NUL\n", __func__);
++			return _FAIL;
++		}
++
++		if(!(psta->state &_FW_LINKED))
++		{
++			RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++			return _FAIL;
++		}
++	*/
++
++	_rtw_memset(hdr, 0, WLANHDR_OFFSET);
++
++	SetFrameSubType(fctrl, pattrib->subtype);
++
++	if (pattrib->subtype & WIFI_DATA_TYPE) {
++		if ((check_fwstate(pmlmepriv,  WIFI_STATION_STATE) == _TRUE)) {
++#ifdef CONFIG_TDLS
++			if (pattrib->direct_link == _TRUE) {
++				/* TDLS data transfer, ToDS=0, FrDs=0 */
++				_rtw_memcpy(pwlanhdr->addr1, pattrib->dst, ETH_ALEN);
++				_rtw_memcpy(pwlanhdr->addr2, pattrib->src, ETH_ALEN);
++				_rtw_memcpy(pwlanhdr->addr3, get_bssid(pmlmepriv), ETH_ALEN);
++
++				if (pattrib->qos_en)
++					qos_option = _TRUE;
++			} else
++#endif /* CONFIG_TDLS */
++			{
++				/* to_ds = 1, fr_ds = 0; */
++				/* 1.Data transfer to AP */
++				/* 2.Arp pkt will relayed by AP */
++				SetToDs(fctrl);
++				_rtw_memcpy(pwlanhdr->addr1, get_bssid(pmlmepriv), ETH_ALEN);
++				_rtw_memcpy(pwlanhdr->addr2, pattrib->ta, ETH_ALEN);
++				_rtw_memcpy(pwlanhdr->addr3, pattrib->dst, ETH_ALEN);
++
++				if (pqospriv->qos_option)
++					qos_option = _TRUE;
++			}
++		} else if ((check_fwstate(pmlmepriv,  WIFI_AP_STATE) == _TRUE)) {
++			/* to_ds = 0, fr_ds = 1; */
++			SetFrDs(fctrl);
++			_rtw_memcpy(pwlanhdr->addr1, pattrib->dst, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr2, get_bssid(pmlmepriv), ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, pattrib->src, ETH_ALEN);
++
++			if (pattrib->qos_en)
++				qos_option = _TRUE;
++		} else if ((check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) ||
++			(check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE)) {
++			_rtw_memcpy(pwlanhdr->addr1, pattrib->dst, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr2, pattrib->ta, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, get_bssid(pmlmepriv), ETH_ALEN);
++
++			if (pattrib->qos_en)
++				qos_option = _TRUE;
++		} else {
++			res = _FAIL;
++			goto exit;
++		}
++
++		if (pattrib->mdata)
++			SetMData(fctrl);
++
++		if (pattrib->encrypt)
++			SetPrivacy(fctrl);
++
++		if (qos_option) {
++			qc = (unsigned short *)(hdr + pattrib->hdrlen - 2);
++
++			if (pattrib->priority)
++				SetPriority(qc, pattrib->priority);
++
++			SetEOSP(qc, pattrib->eosp);
++
++			SetAckpolicy(qc, pattrib->ack_policy);
++		}
++
++		/* TODO: fill HT Control Field */
++
++		/* Update Seq Num will be handled by f/w */
++		{
++			struct sta_info *psta;
++			psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++			if (pattrib->psta != psta) {
++				RTW_INFO("%s, pattrib->psta(%p) != psta(%p)\n", __func__, pattrib->psta, psta);
++				return _FAIL;
++			}
++
++			if (psta == NULL) {
++				RTW_INFO("%s, psta==NUL\n", __func__);
++				return _FAIL;
++			}
++
++			if (!(psta->state & _FW_LINKED)) {
++				RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++				return _FAIL;
++			}
++
++
++			if (psta) {
++				psta->sta_xmitpriv.txseq_tid[pattrib->priority]++;
++				psta->sta_xmitpriv.txseq_tid[pattrib->priority] &= 0xFFF;
++				pattrib->seqnum = psta->sta_xmitpriv.txseq_tid[pattrib->priority];
++
++				SetSeqNum(hdr, pattrib->seqnum);
++
++#ifdef CONFIG_80211N_HT
++				/* check if enable ampdu */
++				if (pattrib->ht_en && psta->htpriv.ampdu_enable) {
++					if (psta->htpriv.agg_enable_bitmap & BIT(pattrib->priority))
++						pattrib->ampdu_en = _TRUE;
++				}
++
++				/* re-check if enable ampdu by BA_starting_seqctrl */
++				if (pattrib->ampdu_en == _TRUE) {
++					u16 tx_seq;
++
++					tx_seq = psta->BA_starting_seqctrl[pattrib->priority & 0x0f];
++
++					/* check BA_starting_seqctrl */
++					if (SN_LESS(pattrib->seqnum, tx_seq)) {
++						/* RTW_INFO("tx ampdu seqnum(%d) < tx_seq(%d)\n", pattrib->seqnum, tx_seq); */
++						pattrib->ampdu_en = _FALSE;/* AGG BK */
++					} else if (SN_EQUAL(pattrib->seqnum, tx_seq)) {
++						psta->BA_starting_seqctrl[pattrib->priority & 0x0f] = (tx_seq + 1) & 0xfff;
++
++						pattrib->ampdu_en = _TRUE;/* AGG EN */
++					} else {
++						/* RTW_INFO("tx ampdu over run\n"); */
++						psta->BA_starting_seqctrl[pattrib->priority & 0x0f] = (pattrib->seqnum + 1) & 0xfff;
++						pattrib->ampdu_en = _TRUE;/* AGG EN */
++					}
++
++				}
++#endif /* CONFIG_80211N_HT */
++			}
++		}
++
++	} else {
++
++	}
++
++exit:
++
++
++	return res;
++}
++
++s32 rtw_txframes_pending(_adapter *padapter)
++{
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	return ((_rtw_queue_empty(&pxmitpriv->be_pending) == _FALSE) ||
++		(_rtw_queue_empty(&pxmitpriv->bk_pending) == _FALSE) ||
++		(_rtw_queue_empty(&pxmitpriv->vi_pending) == _FALSE) ||
++		(_rtw_queue_empty(&pxmitpriv->vo_pending) == _FALSE));
++}
++
++s32 rtw_txframes_sta_ac_pending(_adapter *padapter, struct pkt_attrib *pattrib)
++{
++	struct sta_info *psta;
++	struct tx_servq *ptxservq;
++	int priority = pattrib->priority;
++	/*
++		if(pattrib->psta)
++		{
++			psta = pattrib->psta;
++		}
++		else
++		{
++			RTW_INFO("%s, call rtw_get_stainfo()\n", __func__);
++			psta=rtw_get_stainfo(&padapter->stapriv ,&pattrib->ra[0]);
++		}
++	*/
++	psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++	if (pattrib->psta != psta) {
++		RTW_INFO("%s, pattrib->psta(%p) != psta(%p)\n", __func__, pattrib->psta, psta);
++		return 0;
++	}
++
++	if (psta == NULL) {
++		RTW_INFO("%s, psta==NUL\n", __func__);
++		return 0;
++	}
++
++	if (!(psta->state & _FW_LINKED)) {
++		RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++		return 0;
++	}
++
++	switch (priority) {
++	case 1:
++	case 2:
++		ptxservq = &(psta->sta_xmitpriv.bk_q);
++		break;
++	case 4:
++	case 5:
++		ptxservq = &(psta->sta_xmitpriv.vi_q);
++		break;
++	case 6:
++	case 7:
++		ptxservq = &(psta->sta_xmitpriv.vo_q);
++		break;
++	case 0:
++	case 3:
++	default:
++		ptxservq = &(psta->sta_xmitpriv.be_q);
++		break;
++
++	}
++
++	return ptxservq->qcnt;
++}
++
++#ifdef CONFIG_TDLS
++
++int rtw_build_tdls_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt)
++{
++	int res = _SUCCESS;
++
++	switch (ptxmgmt->action_code) {
++	case TDLS_SETUP_REQUEST:
++		rtw_build_tdls_setup_req_ies(padapter, pxmitframe, pframe, ptxmgmt);
++		break;
++	case TDLS_SETUP_RESPONSE:
++		rtw_build_tdls_setup_rsp_ies(padapter, pxmitframe, pframe, ptxmgmt);
++		break;
++	case TDLS_SETUP_CONFIRM:
++		rtw_build_tdls_setup_cfm_ies(padapter, pxmitframe, pframe, ptxmgmt);
++		break;
++	case TDLS_TEARDOWN:
++		rtw_build_tdls_teardown_ies(padapter, pxmitframe, pframe, ptxmgmt);
++		break;
++	case TDLS_DISCOVERY_REQUEST:
++		rtw_build_tdls_dis_req_ies(padapter, pxmitframe, pframe, ptxmgmt);
++		break;
++	case TDLS_PEER_TRAFFIC_INDICATION:
++		rtw_build_tdls_peer_traffic_indication_ies(padapter, pxmitframe, pframe, ptxmgmt);
++		break;
++#ifdef CONFIG_TDLS_CH_SW
++	case TDLS_CHANNEL_SWITCH_REQUEST:
++		rtw_build_tdls_ch_switch_req_ies(padapter, pxmitframe, pframe, ptxmgmt);
++		break;
++	case TDLS_CHANNEL_SWITCH_RESPONSE:
++		rtw_build_tdls_ch_switch_rsp_ies(padapter, pxmitframe, pframe, ptxmgmt);
++		break;
++#endif
++	case TDLS_PEER_TRAFFIC_RESPONSE:
++		rtw_build_tdls_peer_traffic_rsp_ies(padapter, pxmitframe, pframe, ptxmgmt);
++		break;
++#ifdef CONFIG_WFD
++	case TUNNELED_PROBE_REQ:
++		rtw_build_tunneled_probe_req_ies(padapter, pxmitframe, pframe);
++		break;
++	case TUNNELED_PROBE_RSP:
++		rtw_build_tunneled_probe_rsp_ies(padapter, pxmitframe, pframe);
++		break;
++#endif /* CONFIG_WFD */
++	default:
++		res = _FAIL;
++		break;
++	}
++
++	return res;
++}
++
++s32 rtw_make_tdls_wlanhdr(_adapter *padapter , u8 *hdr, struct pkt_attrib *pattrib, struct tdls_txmgmt *ptxmgmt)
++{
++	u16 *qc;
++	struct rtw_ieee80211_hdr *pwlanhdr = (struct rtw_ieee80211_hdr *)hdr;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct qos_priv *pqospriv = &pmlmepriv->qospriv;
++	struct sta_priv	*pstapriv = &padapter->stapriv;
++	struct sta_info *psta = NULL, *ptdls_sta = NULL;
++	u8 tdls_seq = 0, baddr[ETH_ALEN] = { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff };
++
++	sint res = _SUCCESS;
++	u16 *fctrl = &pwlanhdr->frame_ctl;
++
++
++	_rtw_memset(hdr, 0, WLANHDR_OFFSET);
++
++	SetFrameSubType(fctrl, pattrib->subtype);
++
++	switch (ptxmgmt->action_code) {
++	case TDLS_SETUP_REQUEST:
++	case TDLS_SETUP_RESPONSE:
++	case TDLS_SETUP_CONFIRM:
++	case TDLS_PEER_TRAFFIC_INDICATION:
++	case TDLS_PEER_PSM_REQUEST:
++	case TUNNELED_PROBE_REQ:
++	case TUNNELED_PROBE_RSP:
++	case TDLS_DISCOVERY_REQUEST:
++		SetToDs(fctrl);
++		_rtw_memcpy(pwlanhdr->addr1, get_bssid(pmlmepriv), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, pattrib->src, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, pattrib->dst, ETH_ALEN);
++		break;
++	case TDLS_CHANNEL_SWITCH_REQUEST:
++	case TDLS_CHANNEL_SWITCH_RESPONSE:
++	case TDLS_PEER_PSM_RESPONSE:
++	case TDLS_PEER_TRAFFIC_RESPONSE:
++		_rtw_memcpy(pwlanhdr->addr1, pattrib->dst, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, pattrib->src, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, get_bssid(pmlmepriv), ETH_ALEN);
++		tdls_seq = 1;
++		break;
++	case TDLS_TEARDOWN:
++		if (ptxmgmt->status_code == _RSON_TDLS_TEAR_UN_RSN_) {
++			_rtw_memcpy(pwlanhdr->addr1, pattrib->dst, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr2, pattrib->src, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, get_bssid(pmlmepriv), ETH_ALEN);
++			tdls_seq = 1;
++		} else {
++			SetToDs(fctrl);
++			_rtw_memcpy(pwlanhdr->addr1, get_bssid(pmlmepriv), ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr2, pattrib->src, ETH_ALEN);
++			_rtw_memcpy(pwlanhdr->addr3, pattrib->dst, ETH_ALEN);
++		}
++		break;
++	}
++
++	if (pattrib->encrypt)
++		SetPrivacy(fctrl);
++
++	if (ptxmgmt->action_code == TDLS_PEER_TRAFFIC_RESPONSE)
++		SetPwrMgt(fctrl);
++
++	if (pqospriv->qos_option) {
++		qc = (unsigned short *)(hdr + pattrib->hdrlen - 2);
++		if (pattrib->priority)
++			SetPriority(qc, pattrib->priority);
++		SetAckpolicy(qc, pattrib->ack_policy);
++	}
++
++	psta = pattrib->psta;
++
++	/* 1. update seq_num per link by sta_info */
++	/* 2. rewrite encrypt to _AES_, also rewrite iv_len, icv_len */
++	if (tdls_seq == 1) {
++		ptdls_sta = rtw_get_stainfo(pstapriv, pattrib->dst);
++		if (ptdls_sta) {
++			ptdls_sta->sta_xmitpriv.txseq_tid[pattrib->priority]++;
++			ptdls_sta->sta_xmitpriv.txseq_tid[pattrib->priority] &= 0xFFF;
++			pattrib->seqnum = ptdls_sta->sta_xmitpriv.txseq_tid[pattrib->priority];
++			SetSeqNum(hdr, pattrib->seqnum);
++
++			if (pattrib->encrypt) {
++				pattrib->encrypt = _AES_;
++				pattrib->iv_len = 8;
++				pattrib->icv_len = 8;
++				pattrib->bswenc = _FALSE;
++			}
++			pattrib->mac_id = ptdls_sta->mac_id;
++		} else {
++			res = _FAIL;
++			goto exit;
++		}
++	} else if (psta) {
++		psta->sta_xmitpriv.txseq_tid[pattrib->priority]++;
++		psta->sta_xmitpriv.txseq_tid[pattrib->priority] &= 0xFFF;
++		pattrib->seqnum = psta->sta_xmitpriv.txseq_tid[pattrib->priority];
++		SetSeqNum(hdr, pattrib->seqnum);
++	}
++
++
++exit:
++
++
++	return res;
++}
++
++s32 rtw_xmit_tdls_coalesce(_adapter *padapter, struct xmit_frame *pxmitframe, struct tdls_txmgmt *ptxmgmt)
++{
++	s32 llc_sz;
++
++	u8 *pframe, *mem_start;
++
++	struct sta_info		*psta;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	u8 *pbuf_start;
++	s32 bmcst = IS_MCAST(pattrib->ra);
++	s32 res = _SUCCESS;
++
++
++	if (pattrib->psta)
++		psta = pattrib->psta;
++	else {
++		if (bmcst)
++			psta = rtw_get_bcmc_stainfo(padapter);
++		else
++			psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++	}
++
++	if (psta == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	if (pxmitframe->buf_addr == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pbuf_start = pxmitframe->buf_addr;
++	mem_start = pbuf_start + TXDESC_OFFSET;
++
++	if (rtw_make_tdls_wlanhdr(padapter, mem_start, pattrib, ptxmgmt) == _FAIL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	pframe = mem_start;
++	pframe += pattrib->hdrlen;
++
++	/* adding icv, if necessary... */
++	if (pattrib->iv_len) {
++		if (psta != NULL) {
++			switch (pattrib->encrypt) {
++			case _WEP40_:
++			case _WEP104_:
++				WEP_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++				break;
++			case _TKIP_:
++				if (bmcst)
++					TKIP_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++				else
++					TKIP_IV(pattrib->iv, psta->dot11txpn, 0);
++				break;
++			case _AES_:
++				if (bmcst)
++					AES_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++				else
++					AES_IV(pattrib->iv, psta->dot11txpn, 0);
++				break;
++			}
++		}
++
++		_rtw_memcpy(pframe, pattrib->iv, pattrib->iv_len);
++		pframe += pattrib->iv_len;
++
++	}
++
++	llc_sz = rtw_put_snap(pframe, pattrib->ether_type);
++	pframe += llc_sz;
++
++	/* pattrib->pktlen will be counted in rtw_build_tdls_ies */
++	pattrib->pktlen = 0;
++
++	rtw_build_tdls_ies(padapter, pxmitframe, pframe, ptxmgmt);
++
++	if ((pattrib->icv_len > 0) && (pattrib->bswenc)) {
++		pframe += pattrib->pktlen;
++		_rtw_memcpy(pframe, pattrib->icv, pattrib->icv_len);
++		pframe += pattrib->icv_len;
++	}
++
++	pattrib->nr_frags = 1;
++	pattrib->last_txcmdsz = pattrib->hdrlen + pattrib->iv_len + llc_sz +
++		((pattrib->bswenc) ? pattrib->icv_len : 0) + pattrib->pktlen;
++
++	if (xmitframe_addmic(padapter, pxmitframe) == _FAIL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	xmitframe_swencrypt(padapter, pxmitframe);
++
++	update_attrib_vcs_info(padapter, pxmitframe);
++
++exit:
++
++
++	return res;
++}
++#endif /* CONFIG_TDLS */
++
++/*
++ * Calculate wlan 802.11 packet MAX size from pkt_attrib
++ * This function doesn't consider fragment case
++ */
++u32 rtw_calculate_wlan_pkt_size_by_attribue(struct pkt_attrib *pattrib)
++{
++	u32	len = 0;
++
++	len = pattrib->hdrlen + pattrib->iv_len; /* WLAN Header and IV */
++	len += SNAP_SIZE + sizeof(u16); /* LLC */
++	len += pattrib->pktlen;
++	if (pattrib->encrypt == _TKIP_)
++		len += 8; /* MIC */
++	len += ((pattrib->bswenc) ? pattrib->icv_len : 0); /* ICV */
++
++	return len;
++}
++
++/*
++
++This sub-routine will perform all the following:
++
++1. remove 802.3 header.
++2. create wlan_header, based on the info in pxmitframe
++3. append sta's iv/ext-iv
++4. append LLC
++5. move frag chunk from pframe to pxmitframe->mem
++6. apply sw-encrypt, if necessary.
++
++*/
++s32 rtw_xmitframe_coalesce(_adapter *padapter, _pkt *pkt, struct xmit_frame *pxmitframe)
++{
++	struct pkt_file pktfile;
++
++	s32 frg_inx, frg_len, mpdu_len, llc_sz, mem_sz;
++
++	SIZE_PTR addr;
++
++	u8 *pframe, *mem_start;
++	u8 hw_hdr_offset;
++
++	/* struct sta_info		*psta; */
++	/* struct sta_priv		*pstapriv = &padapter->stapriv; */
++	/* struct mlme_priv	*pmlmepriv = &padapter->mlmepriv; */
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++
++	u8 *pbuf_start;
++
++	s32 bmcst = IS_MCAST(pattrib->ra);
++	s32 res = _SUCCESS;
++
++
++	/*
++		if (pattrib->psta)
++		{
++			psta = pattrib->psta;
++		} else
++		{
++			RTW_INFO("%s, call rtw_get_stainfo()\n", __func__);
++			psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++		}
++
++		if(psta==NULL)
++		{
++
++			RTW_INFO("%s, psta==NUL\n", __func__);
++			return _FAIL;
++		}
++
++
++		if(!(psta->state &_FW_LINKED))
++		{
++			RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++			return _FAIL;
++		}
++	*/
++	if (pxmitframe->buf_addr == NULL) {
++		RTW_INFO("==> %s buf_addr==NULL\n", __FUNCTION__);
++		return _FAIL;
++	}
++
++	pbuf_start = pxmitframe->buf_addr;
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	hw_hdr_offset =  TXDESC_SIZE + (pxmitframe->pkt_offset * PACKET_OFFSET_SZ);
++#else
++#ifdef CONFIG_TX_EARLY_MODE /* for SDIO && Tx Agg */
++	hw_hdr_offset = TXDESC_OFFSET + EARLY_MODE_INFO_SIZE;
++#else
++	hw_hdr_offset = TXDESC_OFFSET;
++#endif
++#endif
++
++	mem_start = pbuf_start +	hw_hdr_offset;
++
++	if (rtw_make_wlanhdr(padapter, mem_start, pattrib) == _FAIL) {
++		RTW_INFO("rtw_xmitframe_coalesce: rtw_make_wlanhdr fail; drop pkt\n");
++		res = _FAIL;
++		goto exit;
++	}
++
++	_rtw_open_pktfile(pkt, &pktfile);
++	_rtw_pktfile_read(&pktfile, NULL, pattrib->pkt_hdrlen);
++
++	frg_inx = 0;
++	frg_len = pxmitpriv->frag_len - 4;/* 2346-4 = 2342 */
++
++	while (1) {
++		llc_sz = 0;
++
++		mpdu_len = frg_len;
++
++		pframe = mem_start;
++
++		SetMFrag(mem_start);
++
++		pframe += pattrib->hdrlen;
++		mpdu_len -= pattrib->hdrlen;
++
++		/* adding icv, if necessary... */
++		if (pattrib->iv_len) {
++#if 0
++			/* if (check_fwstate(pmlmepriv, WIFI_MP_STATE)) */
++			/*	psta = rtw_get_stainfo(pstapriv, get_bssid(pmlmepriv)); */
++			/* else */
++			/*	psta = rtw_get_stainfo(pstapriv, pattrib->ra); */
++
++			if (psta != NULL) {
++				switch (pattrib->encrypt) {
++				case _WEP40_:
++				case _WEP104_:
++					WEP_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++					break;
++				case _TKIP_:
++					if (bmcst)
++						TKIP_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++					else
++						TKIP_IV(pattrib->iv, psta->dot11txpn, 0);
++					break;
++				case _AES_:
++					if (bmcst)
++						AES_IV(pattrib->iv, psta->dot11txpn, pattrib->key_idx);
++					else
++						AES_IV(pattrib->iv, psta->dot11txpn, 0);
++					break;
++#ifdef CONFIG_WAPI_SUPPORT
++				case _SMS4_:
++					rtw_wapi_get_iv(padapter, pattrib->ra, pattrib->iv);
++					break;
++#endif
++				}
++			}
++#endif
++			_rtw_memcpy(pframe, pattrib->iv, pattrib->iv_len);
++
++
++			pframe += pattrib->iv_len;
++
++			mpdu_len -= pattrib->iv_len;
++		}
++
++		if (frg_inx == 0) {
++			llc_sz = rtw_put_snap(pframe, pattrib->ether_type);
++			pframe += llc_sz;
++			mpdu_len -= llc_sz;
++		}
++
++		if ((pattrib->icv_len > 0) && (pattrib->bswenc))
++			mpdu_len -= pattrib->icv_len;
++
++
++		if (bmcst) {
++			/* don't do fragment to broadcat/multicast packets */
++			mem_sz = _rtw_pktfile_read(&pktfile, pframe, pattrib->pktlen);
++		} else
++			mem_sz = _rtw_pktfile_read(&pktfile, pframe, mpdu_len);
++
++		pframe += mem_sz;
++
++		if ((pattrib->icv_len > 0) && (pattrib->bswenc)) {
++			_rtw_memcpy(pframe, pattrib->icv, pattrib->icv_len);
++			pframe += pattrib->icv_len;
++		}
++
++		frg_inx++;
++
++		if (bmcst || (rtw_endofpktfile(&pktfile) == _TRUE)) {
++			pattrib->nr_frags = frg_inx;
++
++			pattrib->last_txcmdsz = pattrib->hdrlen + pattrib->iv_len + ((pattrib->nr_frags == 1) ? llc_sz : 0) +
++				((pattrib->bswenc) ? pattrib->icv_len : 0) + mem_sz;
++
++			ClearMFrag(mem_start);
++
++			break;
++		}
++
++		addr = (SIZE_PTR)(pframe);
++
++		mem_start = (unsigned char *)RND4(addr) + hw_hdr_offset;
++		_rtw_memcpy(mem_start, pbuf_start + hw_hdr_offset, pattrib->hdrlen);
++
++	}
++
++	if (xmitframe_addmic(padapter, pxmitframe) == _FAIL) {
++		RTW_INFO("xmitframe_addmic(padapter, pxmitframe)==_FAIL\n");
++		res = _FAIL;
++		goto exit;
++	}
++
++	xmitframe_swencrypt(padapter, pxmitframe);
++
++	if (bmcst == _FALSE)
++		update_attrib_vcs_info(padapter, pxmitframe);
++	else
++		pattrib->vcs_mode = NONE_VCS;
++
++exit:
++
++
++	return res;
++}
++
++#ifdef CONFIG_IEEE80211W
++/* broadcast or multicast management pkt use BIP, unicast management pkt use CCMP encryption */
++s32 rtw_mgmt_xmitframe_coalesce(_adapter *padapter, _pkt *pkt, struct xmit_frame *pxmitframe)
++{
++	struct pkt_file pktfile;
++	s32 frg_inx, frg_len, mpdu_len, llc_sz, mem_sz;
++	SIZE_PTR addr;
++	u8 *pframe, *mem_start = NULL, *tmp_buf = NULL;
++	u8 hw_hdr_offset, subtype ;
++	struct sta_info		*psta = NULL;
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	u8 *pbuf_start;
++	s32 bmcst = IS_MCAST(pattrib->ra);
++	s32 res = _FAIL;
++	u8 *BIP_AAD = NULL;
++	u8 *MGMT_body = NULL;
++
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u8 MME[_MME_IE_LENGTH_];
++
++	_irqL irqL;
++	u32	ori_len;
++	mem_start = pframe = (u8 *)(pxmitframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	ori_len = BIP_AAD_SIZE + pattrib->pktlen;
++	tmp_buf = BIP_AAD = rtw_zmalloc(ori_len);
++	subtype = GetFrameSubType(pframe); /* bit(7)~bit(2) */
++
++	if (BIP_AAD == NULL)
++		return _FAIL;
++
++	_enter_critical_bh(&padapter->security_key_mutex, &irqL);
++
++
++	/* IGTK key is not install, it may not support 802.11w */
++	if (padapter->securitypriv.binstallBIPkey != _TRUE) {
++		RTW_INFO("no instll BIP key\n");
++		goto xmitframe_coalesce_success;
++	}
++	/* station mode doesn't need TX BIP, just ready the code */
++	if (bmcst) {
++		int frame_body_len;
++		u8 mic[16];
++
++		_rtw_memset(MME, 0, _MME_IE_LENGTH_);
++
++		/* other types doesn't need the BIP */
++		if (GetFrameSubType(pframe) != WIFI_DEAUTH && GetFrameSubType(pframe) != WIFI_DISASSOC)
++			goto xmitframe_coalesce_fail;
++
++		MGMT_body = pframe + sizeof(struct rtw_ieee80211_hdr_3addr);
++		pframe += pattrib->pktlen;
++
++		/* octent 0 and 1 is key index ,BIP keyid is 4 or 5, LSB only need octent 0 */
++		MME[0] = padapter->securitypriv.dot11wBIPKeyid;
++		/* copy packet number */
++		_rtw_memcpy(&MME[2], &pmlmeext->mgnt_80211w_IPN, 6);
++		/* increase the packet number */
++		pmlmeext->mgnt_80211w_IPN++;
++
++		/* add MME IE with MIC all zero, MME string doesn't include element id and length */
++		pframe = rtw_set_ie(pframe, _MME_IE_ , 16 , MME, &(pattrib->pktlen));
++		pattrib->last_txcmdsz = pattrib->pktlen;
++		/* total frame length - header length */
++		frame_body_len = pattrib->pktlen - sizeof(struct rtw_ieee80211_hdr_3addr);
++
++		/* conscruct AAD, copy frame control field */
++		_rtw_memcpy(BIP_AAD, &pwlanhdr->frame_ctl, 2);
++		ClearRetry(BIP_AAD);
++		ClearPwrMgt(BIP_AAD);
++		ClearMData(BIP_AAD);
++		/* conscruct AAD, copy address 1 to address 3 */
++		_rtw_memcpy(BIP_AAD + 2, pwlanhdr->addr1, 18);
++		/* copy management fram body */
++		_rtw_memcpy(BIP_AAD + BIP_AAD_SIZE, MGMT_body, frame_body_len);
++#if 0
++		/* dump total packet include MME with zero MIC */
++		{
++			int i;
++			printk("Total packet: ");
++			for (i = 0; i < BIP_AAD_SIZE + frame_body_len; i++)
++				printk(" %02x ", BIP_AAD[i]);
++			printk("\n");
++		}
++#endif
++		/* calculate mic */
++		if (omac1_aes_128(padapter->securitypriv.dot11wBIPKey[padapter->securitypriv.dot11wBIPKeyid].skey
++			  , BIP_AAD, BIP_AAD_SIZE + frame_body_len, mic))
++			goto xmitframe_coalesce_fail;
++
++#if 0
++		/* dump calculated mic result */
++		{
++			int i;
++			printk("Calculated mic result: ");
++			for (i = 0; i < 16; i++)
++				printk(" %02x ", mic[i]);
++			printk("\n");
++		}
++#endif
++		/* copy right BIP mic value, total is 128bits, we use the 0~63 bits */
++		_rtw_memcpy(pframe - 8, mic, 8);
++		/*/dump all packet after mic ok
++		{
++			int pp;
++			printk("pattrib->pktlen = %d\n", pattrib->pktlen);
++			for(pp=0;pp< pattrib->pktlen; pp++)
++				printk(" %02x ", mem_start[pp]);
++			printk("\n");
++		}*/
++	} else { /* unicast mgmt frame TX */
++		/* start to encrypt mgmt frame */
++		if (subtype == WIFI_DEAUTH || subtype == WIFI_DISASSOC ||
++		    subtype == WIFI_REASSOCREQ || subtype == WIFI_ACTION) {
++			if (pattrib->psta)
++				psta = pattrib->psta;
++			else
++				psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++
++			if (psta == NULL) {
++
++				RTW_INFO("%s, psta==NUL\n", __func__);
++				goto xmitframe_coalesce_fail;
++			}
++
++			if (pxmitframe->buf_addr == NULL) {
++				RTW_INFO("%s, pxmitframe->buf_addr\n", __func__);
++				goto xmitframe_coalesce_fail;
++			}
++
++			/* RTW_INFO("%s, action frame category=%d\n", __func__, pframe[WLAN_HDR_A3_LEN]); */
++			/* according 802.11-2012 standard, these five types are not robust types */
++			if (subtype == WIFI_ACTION &&
++			    (pframe[WLAN_HDR_A3_LEN] == RTW_WLAN_CATEGORY_PUBLIC ||
++			     pframe[WLAN_HDR_A3_LEN] == RTW_WLAN_CATEGORY_HT ||
++			     pframe[WLAN_HDR_A3_LEN] == RTW_WLAN_CATEGORY_UNPROTECTED_WNM ||
++			     pframe[WLAN_HDR_A3_LEN] == RTW_WLAN_CATEGORY_SELF_PROTECTED  ||
++			     pframe[WLAN_HDR_A3_LEN] == RTW_WLAN_CATEGORY_P2P))
++				goto xmitframe_coalesce_fail;
++			/* before encrypt dump the management packet content */
++			/*{
++				int i;
++				printk("Management pkt: ");
++				for(i=0; i<pattrib->pktlen; i++)
++				printk(" %02x ", pframe[i]);
++				printk("=======\n");
++			}*/
++			if (pattrib->encrypt > 0)
++				_rtw_memcpy(pattrib->dot118021x_UncstKey.skey, psta->dot118021x_UncstKey.skey, 16);
++
++			/* To use wrong key */
++			if (pattrib->key_type == IEEE80211W_WRONG_KEY) {
++				RTW_INFO("use wrong key\n");
++				pattrib->dot118021x_UncstKey.skey[0] = 0xff;
++			}
++
++			/* bakeup original management packet */
++			_rtw_memcpy(tmp_buf, pframe, pattrib->pktlen);
++			/* move to data portion */
++			pframe += pattrib->hdrlen;
++
++			/* 802.11w unicast management packet must be _AES_ */
++			pattrib->iv_len = 8;
++			/* it's MIC of AES */
++			pattrib->icv_len = 8;
++
++			switch (pattrib->encrypt) {
++			case _AES_:
++				/* set AES IV header */
++				AES_IV(pattrib->iv, psta->dot11wtxpn, 0);
++				break;
++			default:
++				goto xmitframe_coalesce_fail;
++			}
++			/* insert iv header into management frame */
++			_rtw_memcpy(pframe, pattrib->iv, pattrib->iv_len);
++			pframe += pattrib->iv_len;
++			/* copy mgmt data portion after CCMP header */
++			_rtw_memcpy(pframe, tmp_buf + pattrib->hdrlen, pattrib->pktlen - pattrib->hdrlen);
++			/* move pframe to end of mgmt pkt */
++			pframe += pattrib->pktlen - pattrib->hdrlen;
++			/* add 8 bytes CCMP IV header to length */
++			pattrib->pktlen += pattrib->iv_len;
++#if 0
++			/* dump management packet include AES IV header */
++			{
++				int i;
++				printk("Management pkt + IV: ");
++				/* for(i=0; i<pattrib->pktlen; i++) */
++
++				printk("@@@@@@@@@@@@@\n");
++			}
++#endif
++
++			if ((pattrib->icv_len > 0) && (pattrib->bswenc)) {
++				_rtw_memcpy(pframe, pattrib->icv, pattrib->icv_len);
++				pframe += pattrib->icv_len;
++			}
++			/* add 8 bytes MIC */
++			pattrib->pktlen += pattrib->icv_len;
++			/* set final tx command size */
++			pattrib->last_txcmdsz = pattrib->pktlen;
++
++			/* set protected bit must be beofre SW encrypt */
++			SetPrivacy(mem_start);
++#if 0
++			/* dump management packet include AES header */
++			{
++				int i;
++				printk("prepare to enc Management pkt + IV: ");
++				for (i = 0; i < pattrib->pktlen; i++)
++					printk(" %02x ", mem_start[i]);
++				printk("@@@@@@@@@@@@@\n");
++			}
++#endif
++			/* software encrypt */
++			xmitframe_swencrypt(padapter, pxmitframe);
++		}
++	}
++
++xmitframe_coalesce_success:
++	_exit_critical_bh(&padapter->security_key_mutex, &irqL);
++	rtw_mfree(BIP_AAD, ori_len);
++	return _SUCCESS;
++
++xmitframe_coalesce_fail:
++	_exit_critical_bh(&padapter->security_key_mutex, &irqL);
++	rtw_mfree(BIP_AAD, ori_len);
++
++	return _FAIL;
++}
++#endif /* CONFIG_IEEE80211W */
++
++/* Logical Link Control(LLC) SubNetwork Attachment Point(SNAP) header
++ * IEEE LLC/SNAP header contains 8 octets
++ * First 3 octets comprise the LLC portion
++ * SNAP portion, 5 octets, is divided into two fields:
++ *	Organizationally Unique Identifier(OUI), 3 octets,
++ *	type, defined by that organization, 2 octets.
++ */
++s32 rtw_put_snap(u8 *data, u16 h_proto)
++{
++	struct ieee80211_snap_hdr *snap;
++	u8 *oui;
++
++
++	snap = (struct ieee80211_snap_hdr *)data;
++	snap->dsap = 0xaa;
++	snap->ssap = 0xaa;
++	snap->ctrl = 0x03;
++
++	if (h_proto == 0x8137 || h_proto == 0x80f3)
++		oui = P802_1H_OUI;
++	else
++		oui = RFC1042_OUI;
++
++	snap->oui[0] = oui[0];
++	snap->oui[1] = oui[1];
++	snap->oui[2] = oui[2];
++
++	*(u16 *)(data + SNAP_SIZE) = htons(h_proto);
++
++
++	return SNAP_SIZE + sizeof(u16);
++}
++
++void rtw_update_protection(_adapter *padapter, u8 *ie, uint ie_len)
++{
++
++	uint	protection;
++	u8	*perp;
++	sint	 erp_len;
++	struct	xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct	registry_priv *pregistrypriv = &padapter->registrypriv;
++
++
++	switch (pxmitpriv->vcs_setting) {
++	case DISABLE_VCS:
++		pxmitpriv->vcs = NONE_VCS;
++		break;
++
++	case ENABLE_VCS:
++		break;
++
++	case AUTO_VCS:
++	default:
++		perp = rtw_get_ie(ie, _ERPINFO_IE_, &erp_len, ie_len);
++		if (perp == NULL)
++			pxmitpriv->vcs = NONE_VCS;
++		else {
++			protection = (*(perp + 2)) & BIT(1);
++			if (protection) {
++				if (pregistrypriv->vcs_type == RTS_CTS)
++					pxmitpriv->vcs = RTS_CTS;
++				else
++					pxmitpriv->vcs = CTS_TO_SELF;
++			} else
++				pxmitpriv->vcs = NONE_VCS;
++		}
++
++		break;
++
++	}
++
++
++}
++
++void rtw_count_tx_stats(PADAPTER padapter, struct xmit_frame *pxmitframe, int sz)
++{
++	struct sta_info *psta = NULL;
++	struct stainfo_stats *pstats = NULL;
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	u8	pkt_num = 1;
++
++	if ((pxmitframe->frame_tag & 0x0f) == DATA_FRAMETAG) {
++#if defined(CONFIG_USB_TX_AGGREGATION) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		pkt_num = pxmitframe->agg_num;
++#endif
++		pmlmepriv->LinkDetectInfo.NumTxOkInPeriod += pkt_num;
++
++		pxmitpriv->tx_pkts += pkt_num;
++
++		pxmitpriv->tx_bytes += sz;
++
++		psta = pxmitframe->attrib.psta;
++		if (psta) {
++			pstats = &psta->sta_stats;
++
++			pstats->tx_pkts += pkt_num;
++
++			pstats->tx_bytes += sz;
++#ifdef CONFIG_TDLS
++			if (pxmitframe->attrib.ptdls_sta != NULL) {
++				pstats = &(pxmitframe->attrib.ptdls_sta->sta_stats);
++				pstats->tx_pkts += pkt_num;
++				pstats->tx_bytes += sz;
++			}
++#endif /* CONFIG_TDLS */
++		}
++
++#ifdef CONFIG_CHECK_LEAVE_LPS
++		/* traffic_check_for_leave_lps(padapter, _TRUE); */
++#endif /* CONFIG_LPS */
++
++	}
++}
++
++static struct xmit_buf *__rtw_alloc_cmd_xmitbuf(struct xmit_priv *pxmitpriv,
++		enum cmdbuf_type buf_type)
++{
++	struct xmit_buf *pxmitbuf =  NULL;
++
++
++	pxmitbuf = &pxmitpriv->pcmd_xmitbuf[buf_type];
++	if (pxmitbuf !=  NULL) {
++		pxmitbuf->priv_data = NULL;
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		pxmitbuf->len = 0;
++		pxmitbuf->pdata = pxmitbuf->ptail = pxmitbuf->phead;
++		pxmitbuf->agg_num = 0;
++		pxmitbuf->pg_num = 0;
++#endif
++#ifdef CONFIG_PCI_HCI
++		pxmitbuf->len = 0;
++#ifdef CONFIG_TRX_BD_ARCH
++		/*pxmitbuf->buf_desc = NULL;*/
++#else
++		pxmitbuf->desc = NULL;
++#endif
++#endif
++
++		if (pxmitbuf->sctx) {
++			RTW_INFO("%s pxmitbuf->sctx is not NULL\n", __func__);
++			rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_BUF_ALLOC);
++		}
++	} else
++		RTW_INFO("%s fail, no xmitbuf available !!!\n", __func__);
++
++exit:
++
++
++	return pxmitbuf;
++}
++
++struct xmit_frame *__rtw_alloc_cmdxmitframe(struct xmit_priv *pxmitpriv,
++		enum cmdbuf_type buf_type)
++{
++	struct xmit_frame		*pcmdframe;
++	struct xmit_buf		*pxmitbuf;
++
++	pcmdframe = rtw_alloc_xmitframe(pxmitpriv);
++	if (pcmdframe == NULL) {
++		RTW_INFO("%s, alloc xmitframe fail\n", __FUNCTION__);
++		return NULL;
++	}
++
++	pxmitbuf = __rtw_alloc_cmd_xmitbuf(pxmitpriv, buf_type);
++	if (pxmitbuf == NULL) {
++		RTW_INFO("%s, alloc xmitbuf fail\n", __FUNCTION__);
++		rtw_free_xmitframe(pxmitpriv, pcmdframe);
++		return NULL;
++	}
++
++	pcmdframe->frame_tag = MGNT_FRAMETAG;
++
++	pcmdframe->pxmitbuf = pxmitbuf;
++
++	pcmdframe->buf_addr = pxmitbuf->pbuf;
++
++	pxmitbuf->priv_data = pcmdframe;
++
++	return pcmdframe;
++
++}
++
++struct xmit_buf *rtw_alloc_xmitbuf_ext(struct xmit_priv *pxmitpriv)
++{
++	_irqL irqL;
++	struct xmit_buf *pxmitbuf =  NULL;
++	_list *plist, *phead;
++	_queue *pfree_queue = &pxmitpriv->free_xmit_extbuf_queue;
++
++
++	_enter_critical(&pfree_queue->lock, &irqL);
++
++	if (_rtw_queue_empty(pfree_queue) == _TRUE)
++		pxmitbuf = NULL;
++	else {
++
++		phead = get_list_head(pfree_queue);
++
++		plist = get_next(phead);
++
++		pxmitbuf = LIST_CONTAINOR(plist, struct xmit_buf, list);
++
++		rtw_list_delete(&(pxmitbuf->list));
++	}
++
++	if (pxmitbuf !=  NULL) {
++		pxmitpriv->free_xmit_extbuf_cnt--;
++#ifdef DBG_XMIT_BUF_EXT
++		RTW_INFO("DBG_XMIT_BUF_EXT ALLOC no=%d,  free_xmit_extbuf_cnt=%d\n", pxmitbuf->no, pxmitpriv->free_xmit_extbuf_cnt);
++#endif
++
++
++		pxmitbuf->priv_data = NULL;
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		pxmitbuf->len = 0;
++		pxmitbuf->pdata = pxmitbuf->ptail = pxmitbuf->phead;
++		pxmitbuf->agg_num = 1;
++#endif
++#ifdef CONFIG_PCI_HCI
++		pxmitbuf->len = 0;
++#ifdef CONFIG_TRX_BD_ARCH
++		/*pxmitbuf->buf_desc = NULL;*/
++#else
++		pxmitbuf->desc = NULL;
++#endif
++#endif
++
++		if (pxmitbuf->sctx) {
++			RTW_INFO("%s pxmitbuf->sctx is not NULL\n", __func__);
++			rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_BUF_ALLOC);
++		}
++
++	}
++
++	_exit_critical(&pfree_queue->lock, &irqL);
++
++
++	return pxmitbuf;
++}
++
++s32 rtw_free_xmitbuf_ext(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf)
++{
++	_irqL irqL;
++	_queue *pfree_queue = &pxmitpriv->free_xmit_extbuf_queue;
++
++
++	if (pxmitbuf == NULL)
++		return _FAIL;
++
++	_enter_critical(&pfree_queue->lock, &irqL);
++
++	rtw_list_delete(&pxmitbuf->list);
++
++	rtw_list_insert_tail(&(pxmitbuf->list), get_list_head(pfree_queue));
++	pxmitpriv->free_xmit_extbuf_cnt++;
++#ifdef DBG_XMIT_BUF_EXT
++	RTW_INFO("DBG_XMIT_BUF_EXT FREE no=%d, free_xmit_extbuf_cnt=%d\n", pxmitbuf->no , pxmitpriv->free_xmit_extbuf_cnt);
++#endif
++
++	_exit_critical(&pfree_queue->lock, &irqL);
++
++
++	return _SUCCESS;
++}
++
++struct xmit_buf *rtw_alloc_xmitbuf(struct xmit_priv *pxmitpriv)
++{
++	_irqL irqL;
++	struct xmit_buf *pxmitbuf =  NULL;
++	_list *plist, *phead;
++	_queue *pfree_xmitbuf_queue = &pxmitpriv->free_xmitbuf_queue;
++
++
++	/* RTW_INFO("+rtw_alloc_xmitbuf\n"); */
++
++	_enter_critical(&pfree_xmitbuf_queue->lock, &irqL);
++
++	if (_rtw_queue_empty(pfree_xmitbuf_queue) == _TRUE)
++		pxmitbuf = NULL;
++	else {
++
++		phead = get_list_head(pfree_xmitbuf_queue);
++
++		plist = get_next(phead);
++
++		pxmitbuf = LIST_CONTAINOR(plist, struct xmit_buf, list);
++
++		rtw_list_delete(&(pxmitbuf->list));
++	}
++
++	if (pxmitbuf !=  NULL) {
++		pxmitpriv->free_xmitbuf_cnt--;
++#ifdef DBG_XMIT_BUF
++		RTW_INFO("DBG_XMIT_BUF ALLOC no=%d,  free_xmitbuf_cnt=%d\n", pxmitbuf->no, pxmitpriv->free_xmitbuf_cnt);
++#endif
++		/* RTW_INFO("alloc, free_xmitbuf_cnt=%d\n", pxmitpriv->free_xmitbuf_cnt); */
++
++		pxmitbuf->priv_data = NULL;
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		pxmitbuf->len = 0;
++		pxmitbuf->pdata = pxmitbuf->ptail = pxmitbuf->phead;
++		pxmitbuf->agg_num = 0;
++		pxmitbuf->pg_num = 0;
++#endif
++#ifdef CONFIG_PCI_HCI
++		pxmitbuf->len = 0;
++#ifdef CONFIG_TRX_BD_ARCH
++		/*pxmitbuf->buf_desc = NULL;*/
++#else
++		pxmitbuf->desc = NULL;
++#endif
++#endif
++
++		if (pxmitbuf->sctx) {
++			RTW_INFO("%s pxmitbuf->sctx is not NULL\n", __func__);
++			rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_BUF_ALLOC);
++		}
++	}
++#ifdef DBG_XMIT_BUF
++	else
++		RTW_INFO("DBG_XMIT_BUF rtw_alloc_xmitbuf return NULL\n");
++#endif
++
++	_exit_critical(&pfree_xmitbuf_queue->lock, &irqL);
++
++
++	return pxmitbuf;
++}
++
++s32 rtw_free_xmitbuf(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf)
++{
++	_irqL irqL;
++	_queue *pfree_xmitbuf_queue = &pxmitpriv->free_xmitbuf_queue;
++
++
++	/* RTW_INFO("+rtw_free_xmitbuf\n"); */
++
++	if (pxmitbuf == NULL)
++		return _FAIL;
++
++	if (pxmitbuf->sctx) {
++		RTW_INFO("%s pxmitbuf->sctx is not NULL\n", __func__);
++		rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_BUF_FREE);
++	}
++
++	if (pxmitbuf->buf_tag == XMITBUF_CMD) {
++	} else if (pxmitbuf->buf_tag == XMITBUF_MGNT)
++		rtw_free_xmitbuf_ext(pxmitpriv, pxmitbuf);
++	else {
++		_enter_critical(&pfree_xmitbuf_queue->lock, &irqL);
++
++		rtw_list_delete(&pxmitbuf->list);
++
++		rtw_list_insert_tail(&(pxmitbuf->list), get_list_head(pfree_xmitbuf_queue));
++
++		pxmitpriv->free_xmitbuf_cnt++;
++		/* RTW_INFO("FREE, free_xmitbuf_cnt=%d\n", pxmitpriv->free_xmitbuf_cnt); */
++#ifdef DBG_XMIT_BUF
++		RTW_INFO("DBG_XMIT_BUF FREE no=%d, free_xmitbuf_cnt=%d\n", pxmitbuf->no , pxmitpriv->free_xmitbuf_cnt);
++#endif
++		_exit_critical(&pfree_xmitbuf_queue->lock, &irqL);
++	}
++
++
++	return _SUCCESS;
++}
++
++void rtw_init_xmitframe(struct xmit_frame *pxframe)
++{
++	if (pxframe !=  NULL) { /* default value setting */
++		pxframe->buf_addr = NULL;
++		pxframe->pxmitbuf = NULL;
++
++		_rtw_memset(&pxframe->attrib, 0, sizeof(struct pkt_attrib));
++		/* pxframe->attrib.psta = NULL; */
++
++		pxframe->frame_tag = DATA_FRAMETAG;
++
++#ifdef CONFIG_USB_HCI
++		pxframe->pkt = NULL;
++#ifdef USB_PACKET_OFFSET_SZ
++		pxframe->pkt_offset = (PACKET_OFFSET_SZ / 8);
++#else
++		pxframe->pkt_offset = 1;/* default use pkt_offset to fill tx desc */
++#endif
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++		pxframe->agg_num = 1;
++#endif
++
++#endif /* #ifdef CONFIG_USB_HCI */
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		pxframe->pg_num = 1;
++		pxframe->agg_num = 1;
++#endif
++
++#ifdef CONFIG_XMIT_ACK
++		pxframe->ack_report = 0;
++#endif
++
++	}
++}
++
++/*
++Calling context:
++1. OS_TXENTRY
++2. RXENTRY (rx_thread or RX_ISR/RX_CallBack)
++
++If we turn on USE_RXTHREAD, then, no need for critical section.
++Otherwise, we must use _enter/_exit critical to protect free_xmit_queue...
++
++Must be very very cautious...
++
++*/
++struct xmit_frame *rtw_alloc_xmitframe(struct xmit_priv *pxmitpriv)/* (_queue *pfree_xmit_queue) */
++{
++	/*
++		Please remember to use all the osdep_service api,
++		and lock/unlock or _enter/_exit critical to protect
++		pfree_xmit_queue
++	*/
++
++	_irqL irqL;
++	struct xmit_frame *pxframe = NULL;
++	_list *plist, *phead;
++	_queue *pfree_xmit_queue = &pxmitpriv->free_xmit_queue;
++
++
++	_enter_critical_bh(&pfree_xmit_queue->lock, &irqL);
++
++	if (_rtw_queue_empty(pfree_xmit_queue) == _TRUE) {
++		pxframe =  NULL;
++	} else {
++		phead = get_list_head(pfree_xmit_queue);
++
++		plist = get_next(phead);
++
++		pxframe = LIST_CONTAINOR(plist, struct xmit_frame, list);
++
++		rtw_list_delete(&(pxframe->list));
++		pxmitpriv->free_xmitframe_cnt--;
++	}
++
++	_exit_critical_bh(&pfree_xmit_queue->lock, &irqL);
++
++	rtw_init_xmitframe(pxframe);
++
++
++	return pxframe;
++}
++
++struct xmit_frame *rtw_alloc_xmitframe_ext(struct xmit_priv *pxmitpriv)
++{
++	_irqL irqL;
++	struct xmit_frame *pxframe = NULL;
++	_list *plist, *phead;
++	_queue *queue = &pxmitpriv->free_xframe_ext_queue;
++
++
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	if (_rtw_queue_empty(queue) == _TRUE) {
++		pxframe =  NULL;
++	} else {
++		phead = get_list_head(queue);
++		plist = get_next(phead);
++		pxframe = LIST_CONTAINOR(plist, struct xmit_frame, list);
++
++		rtw_list_delete(&(pxframe->list));
++		pxmitpriv->free_xframe_ext_cnt--;
++	}
++
++	_exit_critical_bh(&queue->lock, &irqL);
++
++	rtw_init_xmitframe(pxframe);
++
++
++	return pxframe;
++}
++
++struct xmit_frame *rtw_alloc_xmitframe_once(struct xmit_priv *pxmitpriv)
++{
++	struct xmit_frame *pxframe = NULL;
++	u8 *alloc_addr;
++
++	alloc_addr = rtw_zmalloc(sizeof(struct xmit_frame) + 4);
++
++	if (alloc_addr == NULL)
++		goto exit;
++
++	pxframe = (struct xmit_frame *)N_BYTE_ALIGMENT((SIZE_PTR)(alloc_addr), 4);
++	pxframe->alloc_addr = alloc_addr;
++
++	pxframe->padapter = pxmitpriv->adapter;
++	pxframe->frame_tag = NULL_FRAMETAG;
++
++	pxframe->pkt = NULL;
++
++	pxframe->buf_addr = NULL;
++	pxframe->pxmitbuf = NULL;
++
++	rtw_init_xmitframe(pxframe);
++
++	RTW_INFO("################## %s ##################\n", __func__);
++
++exit:
++	return pxframe;
++}
++
++s32 rtw_free_xmitframe(struct xmit_priv *pxmitpriv, struct xmit_frame *pxmitframe)
++{
++	_irqL irqL;
++	_queue *queue = NULL;
++	_adapter *padapter = pxmitpriv->adapter;
++	_pkt *pndis_pkt = NULL;
++
++
++	if (pxmitframe == NULL) {
++		goto exit;
++	}
++
++	if (pxmitframe->pkt) {
++		pndis_pkt = pxmitframe->pkt;
++		pxmitframe->pkt = NULL;
++	}
++
++	if (pxmitframe->alloc_addr) {
++		RTW_INFO("################## %s with alloc_addr ##################\n", __func__);
++		rtw_mfree(pxmitframe->alloc_addr, sizeof(struct xmit_frame) + 4);
++		goto check_pkt_complete;
++	}
++
++	if (pxmitframe->ext_tag == 0)
++		queue = &pxmitpriv->free_xmit_queue;
++	else if (pxmitframe->ext_tag == 1)
++		queue = &pxmitpriv->free_xframe_ext_queue;
++	else
++		rtw_warn_on(1);
++
++	_enter_critical_bh(&queue->lock, &irqL);
++
++	rtw_list_delete(&pxmitframe->list);
++	rtw_list_insert_tail(&pxmitframe->list, get_list_head(queue));
++	if (pxmitframe->ext_tag == 0) {
++		pxmitpriv->free_xmitframe_cnt++;
++	} else if (pxmitframe->ext_tag == 1) {
++		pxmitpriv->free_xframe_ext_cnt++;
++	} else {
++	}
++
++	_exit_critical_bh(&queue->lock, &irqL);
++
++check_pkt_complete:
++
++	if (pndis_pkt)
++		rtw_os_pkt_complete(padapter, pndis_pkt);
++
++exit:
++
++
++	return _SUCCESS;
++}
++
++void rtw_free_xmitframe_queue(struct xmit_priv *pxmitpriv, _queue *pframequeue)
++{
++	_irqL irqL;
++	_list	*plist, *phead;
++	struct	xmit_frame	*pxmitframe;
++
++
++	_enter_critical_bh(&(pframequeue->lock), &irqL);
++
++	phead = get_list_head(pframequeue);
++	plist = get_next(phead);
++
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++
++		pxmitframe = LIST_CONTAINOR(plist, struct xmit_frame, list);
++
++		plist = get_next(plist);
++
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++
++	}
++	_exit_critical_bh(&(pframequeue->lock), &irqL);
++
++}
++
++s32 rtw_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	DBG_COUNTER(padapter->tx_logs.core_tx_enqueue);
++	if (rtw_xmit_classifier(padapter, pxmitframe) == _FAIL) {
++		/*		pxmitframe->pkt = NULL; */
++		return _FAIL;
++	}
++
++	return _SUCCESS;
++}
++
++static struct xmit_frame *dequeue_one_xmitframe(struct xmit_priv *pxmitpriv, struct hw_xmit *phwxmit, struct tx_servq *ptxservq, _queue *pframe_queue)
++{
++	_list	*xmitframe_plist, *xmitframe_phead;
++	struct	xmit_frame	*pxmitframe = NULL;
++
++	xmitframe_phead = get_list_head(pframe_queue);
++	xmitframe_plist = get_next(xmitframe_phead);
++
++	while ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE) {
++		pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++		/* xmitframe_plist = get_next(xmitframe_plist); */
++
++		/*#ifdef RTK_DMP_PLATFORM
++		#ifdef CONFIG_USB_TX_AGGREGATION
++				if((ptxservq->qcnt>0) && (ptxservq->qcnt<=2))
++				{
++					pxmitframe = NULL;
++
++					tasklet_schedule(&pxmitpriv->xmit_tasklet);
++
++					break;
++				}
++		#endif
++		#endif*/
++		rtw_list_delete(&pxmitframe->list);
++
++		ptxservq->qcnt--;
++
++		/* rtw_list_insert_tail(&pxmitframe->list, &phwxmit->pending); */
++
++		/* ptxservq->qcnt--; */
++
++		break;
++
++		/* pxmitframe = NULL; */
++
++	}
++
++	return pxmitframe;
++}
++
++struct xmit_frame *rtw_dequeue_xframe(struct xmit_priv *pxmitpriv, struct hw_xmit *phwxmit_i, sint entry)
++{
++	_irqL irqL0;
++	_list *sta_plist, *sta_phead;
++	struct hw_xmit *phwxmit;
++	struct tx_servq *ptxservq = NULL;
++	_queue *pframe_queue = NULL;
++	struct xmit_frame *pxmitframe = NULL;
++	_adapter *padapter = pxmitpriv->adapter;
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++	int i, inx[4];
++#ifdef CONFIG_USB_HCI
++	/*	int j, tmp, acirp_cnt[4]; */
++#endif
++
++
++	inx[0] = 0;
++	inx[1] = 1;
++	inx[2] = 2;
++	inx[3] = 3;
++
++	if (pregpriv->wifi_spec == 1) {
++		int j, tmp, acirp_cnt[4];
++#if 0
++		if (flags < XMIT_QUEUE_ENTRY) {
++			/* priority exchange according to the completed xmitbuf flags. */
++			inx[flags] = 0;
++			inx[0] = flags;
++		}
++#endif
++
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI) || defined(CONFIG_PCI_HCI)
++		for (j = 0; j < 4; j++)
++			inx[j] = pxmitpriv->wmm_para_seq[j];
++#endif
++	}
++
++	_enter_critical_bh(&pxmitpriv->lock, &irqL0);
++
++	for (i = 0; i < entry; i++) {
++		phwxmit = phwxmit_i + inx[i];
++
++		/* _enter_critical_ex(&phwxmit->sta_queue->lock, &irqL0); */
++
++		sta_phead = get_list_head(phwxmit->sta_queue);
++		sta_plist = get_next(sta_phead);
++
++		while ((rtw_end_of_queue_search(sta_phead, sta_plist)) == _FALSE) {
++
++			ptxservq = LIST_CONTAINOR(sta_plist, struct tx_servq, tx_pending);
++
++			pframe_queue = &ptxservq->sta_pending;
++
++			pxmitframe = dequeue_one_xmitframe(pxmitpriv, phwxmit, ptxservq, pframe_queue);
++
++			if (pxmitframe) {
++				phwxmit->accnt--;
++
++				/* Remove sta node when there is no pending packets. */
++				if (_rtw_queue_empty(pframe_queue)) /* must be done after get_next and before break */
++					rtw_list_delete(&ptxservq->tx_pending);
++
++				/* _exit_critical_ex(&phwxmit->sta_queue->lock, &irqL0); */
++
++				goto exit;
++			}
++
++			sta_plist = get_next(sta_plist);
++
++		}
++
++		/* _exit_critical_ex(&phwxmit->sta_queue->lock, &irqL0); */
++
++	}
++
++exit:
++
++	_exit_critical_bh(&pxmitpriv->lock, &irqL0);
++
++
++	return pxmitframe;
++}
++
++#if 1
++struct tx_servq *rtw_get_sta_pending(_adapter *padapter, struct sta_info *psta, sint up, u8 *ac)
++{
++	struct tx_servq *ptxservq = NULL;
++
++
++	switch (up) {
++	case 1:
++	case 2:
++		ptxservq = &(psta->sta_xmitpriv.bk_q);
++		*(ac) = 3;
++		break;
++
++	case 4:
++	case 5:
++		ptxservq = &(psta->sta_xmitpriv.vi_q);
++		*(ac) = 1;
++		break;
++
++	case 6:
++	case 7:
++		ptxservq = &(psta->sta_xmitpriv.vo_q);
++		*(ac) = 0;
++		break;
++
++	case 0:
++	case 3:
++	default:
++		ptxservq = &(psta->sta_xmitpriv.be_q);
++		*(ac) = 2;
++		break;
++
++	}
++
++
++	return ptxservq;
++}
++#else
++__inline static struct tx_servq *rtw_get_sta_pending
++(_adapter *padapter, _queue **ppstapending, struct sta_info *psta, sint up)
++{
++	struct tx_servq *ptxservq;
++	struct hw_xmit *phwxmits =  padapter->xmitpriv.hwxmits;
++
++
++#ifdef CONFIG_RTL8711
++
++	if (IS_MCAST(psta->hwaddr)) {
++		ptxservq = &(psta->sta_xmitpriv.be_q); /* we will use be_q to queue bc/mc frames in BCMC_stainfo */
++		*ppstapending = &padapter->xmitpriv.bm_pending;
++	} else
++#endif
++	{
++		switch (up) {
++		case 1:
++		case 2:
++			ptxservq = &(psta->sta_xmitpriv.bk_q);
++			*ppstapending = &padapter->xmitpriv.bk_pending;
++			(phwxmits + 3)->accnt++;
++			break;
++
++		case 4:
++		case 5:
++			ptxservq = &(psta->sta_xmitpriv.vi_q);
++			*ppstapending = &padapter->xmitpriv.vi_pending;
++			(phwxmits + 1)->accnt++;
++			break;
++
++		case 6:
++		case 7:
++			ptxservq = &(psta->sta_xmitpriv.vo_q);
++			*ppstapending = &padapter->xmitpriv.vo_pending;
++			(phwxmits + 0)->accnt++;
++			break;
++
++		case 0:
++		case 3:
++		default:
++			ptxservq = &(psta->sta_xmitpriv.be_q);
++			*ppstapending = &padapter->xmitpriv.be_pending;
++			(phwxmits + 2)->accnt++;
++			break;
++
++		}
++
++	}
++
++
++	return ptxservq;
++}
++#endif
++
++/*
++ * Will enqueue pxmitframe to the proper queue,
++ * and indicate it to xx_pending list.....
++ */
++s32 rtw_xmit_classifier(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	/* _irqL irqL0; */
++	u8	ac_index;
++	struct sta_info	*psta;
++	struct tx_servq	*ptxservq;
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	struct sta_priv	*pstapriv = &padapter->stapriv;
++	struct hw_xmit	*phwxmits =  padapter->xmitpriv.hwxmits;
++	sint res = _SUCCESS;
++
++
++	DBG_COUNTER(padapter->tx_logs.core_tx_enqueue_class);
++
++	/*
++		if (pattrib->psta) {
++			psta = pattrib->psta;
++		} else {
++			RTW_INFO("%s, call rtw_get_stainfo()\n", __func__);
++			psta = rtw_get_stainfo(pstapriv, pattrib->ra);
++		}
++	*/
++
++	psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++	if (pattrib->psta != psta) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_enqueue_class_err_sta);
++		RTW_INFO("%s, pattrib->psta(%p) != psta(%p)\n", __func__, pattrib->psta, psta);
++		return _FAIL;
++	}
++
++	if (psta == NULL) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_enqueue_class_err_nosta);
++		res = _FAIL;
++		RTW_INFO("rtw_xmit_classifier: psta == NULL\n");
++		goto exit;
++	}
++
++	if (!(psta->state & _FW_LINKED)) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_enqueue_class_err_fwlink);
++		RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++		return _FAIL;
++	}
++
++	ptxservq = rtw_get_sta_pending(padapter, psta, pattrib->priority, (u8 *)(&ac_index));
++
++	/* _enter_critical(&pstapending->lock, &irqL0); */
++
++	if (rtw_is_list_empty(&ptxservq->tx_pending))
++		rtw_list_insert_tail(&ptxservq->tx_pending, get_list_head(phwxmits[ac_index].sta_queue));
++
++	/* _enter_critical(&ptxservq->sta_pending.lock, &irqL1); */
++
++	rtw_list_insert_tail(&pxmitframe->list, get_list_head(&ptxservq->sta_pending));
++	ptxservq->qcnt++;
++	phwxmits[ac_index].accnt++;
++
++	/* _exit_critical(&ptxservq->sta_pending.lock, &irqL1); */
++
++	/* _exit_critical(&pstapending->lock, &irqL0); */
++
++exit:
++
++
++	return res;
++}
++
++void rtw_alloc_hwxmits(_adapter *padapter)
++{
++	struct hw_xmit *hwxmits;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	pxmitpriv->hwxmit_entry = HWXMIT_ENTRY;
++
++	pxmitpriv->hwxmits = NULL;
++
++	pxmitpriv->hwxmits = (struct hw_xmit *)rtw_zmalloc(sizeof(struct hw_xmit) * pxmitpriv->hwxmit_entry);
++
++	if (pxmitpriv->hwxmits == NULL) {
++		RTW_INFO("alloc hwxmits fail!...\n");
++		return;
++	}
++
++	hwxmits = pxmitpriv->hwxmits;
++
++	if (pxmitpriv->hwxmit_entry == 5) {
++		/* pxmitpriv->bmc_txqueue.head = 0; */
++		/* hwxmits[0] .phwtxqueue = &pxmitpriv->bmc_txqueue; */
++		hwxmits[0] .sta_queue = &pxmitpriv->bm_pending;
++
++		/* pxmitpriv->vo_txqueue.head = 0; */
++		/* hwxmits[1] .phwtxqueue = &pxmitpriv->vo_txqueue; */
++		hwxmits[1] .sta_queue = &pxmitpriv->vo_pending;
++
++		/* pxmitpriv->vi_txqueue.head = 0; */
++		/* hwxmits[2] .phwtxqueue = &pxmitpriv->vi_txqueue; */
++		hwxmits[2] .sta_queue = &pxmitpriv->vi_pending;
++
++		/* pxmitpriv->bk_txqueue.head = 0; */
++		/* hwxmits[3] .phwtxqueue = &pxmitpriv->bk_txqueue; */
++		hwxmits[3] .sta_queue = &pxmitpriv->bk_pending;
++
++		/* pxmitpriv->be_txqueue.head = 0; */
++		/* hwxmits[4] .phwtxqueue = &pxmitpriv->be_txqueue; */
++		hwxmits[4] .sta_queue = &pxmitpriv->be_pending;
++
++	} else if (pxmitpriv->hwxmit_entry == 4) {
++
++		/* pxmitpriv->vo_txqueue.head = 0; */
++		/* hwxmits[0] .phwtxqueue = &pxmitpriv->vo_txqueue; */
++		hwxmits[0] .sta_queue = &pxmitpriv->vo_pending;
++
++		/* pxmitpriv->vi_txqueue.head = 0; */
++		/* hwxmits[1] .phwtxqueue = &pxmitpriv->vi_txqueue; */
++		hwxmits[1] .sta_queue = &pxmitpriv->vi_pending;
++
++		/* pxmitpriv->be_txqueue.head = 0; */
++		/* hwxmits[2] .phwtxqueue = &pxmitpriv->be_txqueue; */
++		hwxmits[2] .sta_queue = &pxmitpriv->be_pending;
++
++		/* pxmitpriv->bk_txqueue.head = 0; */
++		/* hwxmits[3] .phwtxqueue = &pxmitpriv->bk_txqueue; */
++		hwxmits[3] .sta_queue = &pxmitpriv->bk_pending;
++	} else {
++
++
++	}
++
++
++}
++
++void rtw_free_hwxmits(_adapter *padapter)
++{
++	struct hw_xmit *hwxmits;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	hwxmits = pxmitpriv->hwxmits;
++	if (hwxmits)
++		rtw_mfree((u8 *)hwxmits, (sizeof(struct hw_xmit) * pxmitpriv->hwxmit_entry));
++}
++
++void rtw_init_hwxmits(struct hw_xmit *phwxmit, sint entry)
++{
++	sint i;
++	for (i = 0; i < entry; i++, phwxmit++) {
++		/* _rtw_spinlock_init(&phwxmit->xmit_lock); */
++		/* _rtw_init_listhead(&phwxmit->pending);		 */
++		/* phwxmit->txcmdcnt = 0; */
++		phwxmit->accnt = 0;
++	}
++}
++
++#ifdef CONFIG_BR_EXT
++int rtw_br_client_tx(_adapter *padapter, struct sk_buff **pskb)
++{
++	struct sk_buff *skb = *pskb;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	_irqL irqL;
++	/* if(check_fwstate(pmlmepriv, WIFI_STATION_STATE|WIFI_ADHOC_STATE) == _TRUE) */
++	{
++		void dhcp_flag_bcast(_adapter *priv, struct sk_buff *skb);
++		int res, is_vlan_tag = 0, i, do_nat25 = 1;
++		unsigned short vlan_hdr = 0;
++		void *br_port = NULL;
++
++		/* mac_clone_handle_frame(priv, skb); */
++
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++		br_port = padapter->pnetdev->br_port;
++#else   /* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++		rcu_read_lock();
++		br_port = rcu_dereference(padapter->pnetdev->rx_handler_data);
++		rcu_read_unlock();
++#endif /* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++		_enter_critical_bh(&padapter->br_ext_lock, &irqL);
++		if (!(skb->data[0] & 1) &&
++		    br_port &&
++		    memcmp(skb->data + MACADDRLEN, padapter->br_mac, MACADDRLEN) &&
++		    *((unsigned short *)(skb->data + MACADDRLEN * 2)) != __constant_htons(ETH_P_8021Q) &&
++		    *((unsigned short *)(skb->data + MACADDRLEN * 2)) == __constant_htons(ETH_P_IP) &&
++		    !memcmp(padapter->scdb_mac, skb->data + MACADDRLEN, MACADDRLEN) && padapter->scdb_entry) {
++			memcpy(skb->data + MACADDRLEN, GET_MY_HWADDR(padapter), MACADDRLEN);
++			padapter->scdb_entry->ageing_timer = jiffies;
++			_exit_critical_bh(&padapter->br_ext_lock, &irqL);
++		} else
++			/* if (!priv->pmib->ethBrExtInfo.nat25_disable)		 */
++		{
++			/*			if (priv->dev->br_port &&
++			 *				 !memcmp(skb->data+MACADDRLEN, priv->br_mac, MACADDRLEN)) { */
++#if 1
++			if (*((unsigned short *)(skb->data + MACADDRLEN * 2)) == __constant_htons(ETH_P_8021Q)) {
++				is_vlan_tag = 1;
++				vlan_hdr = *((unsigned short *)(skb->data + MACADDRLEN * 2 + 2));
++				for (i = 0; i < 6; i++)
++					*((unsigned short *)(skb->data + MACADDRLEN * 2 + 2 - i * 2)) = *((unsigned short *)(skb->data + MACADDRLEN * 2 - 2 - i * 2));
++				skb_pull(skb, 4);
++			}
++			/* if SA == br_mac && skb== IP  => copy SIP to br_ip ?? why */
++			if (!memcmp(skb->data + MACADDRLEN, padapter->br_mac, MACADDRLEN) &&
++			    (*((unsigned short *)(skb->data + MACADDRLEN * 2)) == __constant_htons(ETH_P_IP)))
++				memcpy(padapter->br_ip, skb->data + WLAN_ETHHDR_LEN + 12, 4);
++
++			if (*((unsigned short *)(skb->data + MACADDRLEN * 2)) == __constant_htons(ETH_P_IP)) {
++				if (memcmp(padapter->scdb_mac, skb->data + MACADDRLEN, MACADDRLEN)) {
++					void *scdb_findEntry(_adapter *priv, unsigned char *macAddr, unsigned char *ipAddr);
++
++					padapter->scdb_entry = (struct nat25_network_db_entry *)scdb_findEntry(padapter,
++						skb->data + MACADDRLEN, skb->data + WLAN_ETHHDR_LEN + 12);
++					if (padapter->scdb_entry != NULL) {
++						memcpy(padapter->scdb_mac, skb->data + MACADDRLEN, MACADDRLEN);
++						memcpy(padapter->scdb_ip, skb->data + WLAN_ETHHDR_LEN + 12, 4);
++						padapter->scdb_entry->ageing_timer = jiffies;
++						do_nat25 = 0;
++					}
++				} else {
++					if (padapter->scdb_entry) {
++						padapter->scdb_entry->ageing_timer = jiffies;
++						do_nat25 = 0;
++					} else {
++						memset(padapter->scdb_mac, 0, MACADDRLEN);
++						memset(padapter->scdb_ip, 0, 4);
++					}
++				}
++			}
++			_exit_critical_bh(&padapter->br_ext_lock, &irqL);
++#endif /* 1 */
++			if (do_nat25) {
++				int nat25_db_handle(_adapter *priv, struct sk_buff *skb, int method);
++				if (nat25_db_handle(padapter, skb, NAT25_CHECK) == 0) {
++					struct sk_buff *newskb;
++
++					if (is_vlan_tag) {
++						skb_push(skb, 4);
++						for (i = 0; i < 6; i++)
++							*((unsigned short *)(skb->data + i * 2)) = *((unsigned short *)(skb->data + 4 + i * 2));
++						*((unsigned short *)(skb->data + MACADDRLEN * 2)) = __constant_htons(ETH_P_8021Q);
++						*((unsigned short *)(skb->data + MACADDRLEN * 2 + 2)) = vlan_hdr;
++					}
++
++					newskb = rtw_skb_copy(skb);
++					if (newskb == NULL) {
++						/* priv->ext_stats.tx_drops++; */
++						DEBUG_ERR("TX DROP: rtw_skb_copy fail!\n");
++						/* goto stop_proc; */
++						return -1;
++					}
++					rtw_skb_free(skb);
++
++					*pskb = skb = newskb;
++					if (is_vlan_tag) {
++						vlan_hdr = *((unsigned short *)(skb->data + MACADDRLEN * 2 + 2));
++						for (i = 0; i < 6; i++)
++							*((unsigned short *)(skb->data + MACADDRLEN * 2 + 2 - i * 2)) = *((unsigned short *)(skb->data + MACADDRLEN * 2 - 2 - i * 2));
++						skb_pull(skb, 4);
++					}
++				}
++
++				if (skb_is_nonlinear(skb))
++					DEBUG_ERR("%s(): skb_is_nonlinear!!\n", __FUNCTION__);
++
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 18))
++				res = skb_linearize(skb, GFP_ATOMIC);
++#else	/* (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 18)) */
++				res = skb_linearize(skb);
++#endif /* (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 18)) */
++				if (res < 0) {
++					DEBUG_ERR("TX DROP: skb_linearize fail!\n");
++					/* goto free_and_stop; */
++					return -1;
++				}
++
++				res = nat25_db_handle(padapter, skb, NAT25_INSERT);
++				if (res < 0) {
++					if (res == -2) {
++						/* priv->ext_stats.tx_drops++; */
++						DEBUG_ERR("TX DROP: nat25_db_handle fail!\n");
++						/* goto free_and_stop; */
++						return -1;
++
++					}
++					/* we just print warning message and let it go */
++					/* DEBUG_WARN("%s()-%d: nat25_db_handle INSERT Warning!\n", __FUNCTION__, __LINE__); */
++					/* return -1; */ /* return -1 will cause system crash on 2011/08/30! */
++					return 0;
++				}
++			}
++
++			memcpy(skb->data + MACADDRLEN, GET_MY_HWADDR(padapter), MACADDRLEN);
++
++			dhcp_flag_bcast(padapter, skb);
++
++			if (is_vlan_tag) {
++				skb_push(skb, 4);
++				for (i = 0; i < 6; i++)
++					*((unsigned short *)(skb->data + i * 2)) = *((unsigned short *)(skb->data + 4 + i * 2));
++				*((unsigned short *)(skb->data + MACADDRLEN * 2)) = __constant_htons(ETH_P_8021Q);
++				*((unsigned short *)(skb->data + MACADDRLEN * 2 + 2)) = vlan_hdr;
++			}
++		}
++#if 0
++		else {
++			if (*((unsigned short *)(skb->data + MACADDRLEN * 2)) == __constant_htons(ETH_P_8021Q))
++				is_vlan_tag = 1;
++
++			if (is_vlan_tag) {
++				if (ICMPV6_MCAST_MAC(skb->data) && ICMPV6_PROTO1A_VALN(skb->data))
++					memcpy(skb->data + MACADDRLEN, GET_MY_HWADDR(padapter), MACADDRLEN);
++			} else {
++				if (ICMPV6_MCAST_MAC(skb->data) && ICMPV6_PROTO1A(skb->data))
++					memcpy(skb->data + MACADDRLEN, GET_MY_HWADDR(padapter), MACADDRLEN);
++			}
++		}
++#endif /* 0 */
++
++		/* check if SA is equal to our MAC */
++		if (memcmp(skb->data + MACADDRLEN, GET_MY_HWADDR(padapter), MACADDRLEN)) {
++			/* priv->ext_stats.tx_drops++; */
++			DEBUG_ERR("TX DROP: untransformed frame SA:%02X%02X%02X%02X%02X%02X!\n",
++				skb->data[6], skb->data[7], skb->data[8], skb->data[9], skb->data[10], skb->data[11]);
++			/* goto free_and_stop; */
++			return -1;
++		}
++	}
++	return 0;
++}
++#endif /* CONFIG_BR_EXT */
++
++u32 rtw_get_ff_hwaddr(struct xmit_frame *pxmitframe)
++{
++	u32 addr;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++
++	switch (pattrib->qsel) {
++	case 0:
++	case 3:
++		addr = BE_QUEUE_INX;
++		break;
++	case 1:
++	case 2:
++		addr = BK_QUEUE_INX;
++		break;
++	case 4:
++	case 5:
++		addr = VI_QUEUE_INX;
++		break;
++	case 6:
++	case 7:
++		addr = VO_QUEUE_INX;
++		break;
++	case 0x10:
++		addr = BCN_QUEUE_INX;
++		break;
++	case 0x11: /* BC/MC in PS (HIQ) */
++		addr = HIGH_QUEUE_INX;
++		break;
++	case 0x13:
++		addr = TXCMD_QUEUE_INX;
++		break;
++	case 0x12:
++	default:
++		addr = MGT_QUEUE_INX;
++		break;
++
++	}
++
++	return addr;
++
++}
++
++static void do_queue_select(_adapter	*padapter, struct pkt_attrib *pattrib)
++{
++	u8 qsel;
++
++	qsel = pattrib->priority;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	/*	if (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE)
++	 *		qsel = 7; */
++#endif
++
++#ifdef CONFIG_MCC_MODE
++	if (MCC_EN(padapter)) {
++		/* Under MCC */
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_NEED_MCC)) {
++			if (padapter->mcc_adapterpriv.role == MCC_ROLE_GO
++			    || padapter->mcc_adapterpriv.role == MCC_ROLE_AP) {
++				pattrib->qsel = QSLT_VO; /* AP interface VO queue */
++			} else {
++				pattrib->qsel = QSLT_BE; /* STA interface BE queue */
++			}
++		} else
++			/* Not Under MCC */
++			pattrib->qsel = qsel;
++	} else
++		/* Not enable MCC */
++		pattrib->qsel = qsel;
++#else /* !CONFIG_MCC_MODE */
++	pattrib->qsel = qsel;
++#endif /* CONFIG_MCC_MODE */
++}
++
++/*
++ * The main transmit(tx) entry
++ *
++ * Return
++ *	1	enqueue
++ *	0	success, hardware will handle this xmit frame(packet)
++ *	<0	fail
++ */
++s32 rtw_monitor_xmit_entry(struct sk_buff *skb, struct net_device *ndev)
++{
++	int ret = 0;
++	int rtap_len;
++	int qos_len = 0;
++	int dot11_hdr_len = 24;
++	int snap_len = 6;
++	unsigned char *pdata;
++	u16 frame_ctl;
++	unsigned char src_mac_addr[6];
++	unsigned char dst_mac_addr[6];
++	struct rtw_ieee80211_hdr *dot11_hdr;
++	struct ieee80211_radiotap_header *rtap_hdr;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++
++	if (skb)
++		rtw_mstat_update(MSTAT_TYPE_SKB, MSTAT_ALLOC_SUCCESS, skb->truesize);
++
++	if (unlikely(skb->len < sizeof(struct ieee80211_radiotap_header)))
++		goto fail;
++
++	rtap_hdr = (struct ieee80211_radiotap_header *)skb->data;
++	if (unlikely(rtap_hdr->it_version))
++		goto fail;
++
++	rtap_len = ieee80211_get_radiotap_len(skb->data);
++	if (unlikely(skb->len < rtap_len))
++		goto fail;
++
++	if (rtap_len != 12) {
++		RTW_INFO("radiotap len (should be 14): %d\n", rtap_len);
++		goto fail;
++	}
++
++	/* Skip the ratio tap header */
++	skb_pull(skb, rtap_len);
++
++	dot11_hdr = (struct rtw_ieee80211_hdr *)skb->data;
++	frame_ctl = le16_to_cpu(dot11_hdr->frame_ctl);
++	/* Check if the QoS bit is set */
++
++	if ((frame_ctl & RTW_IEEE80211_FCTL_FTYPE) == RTW_IEEE80211_FTYPE_DATA) {
++
++		struct xmit_frame		*pmgntframe;
++		struct pkt_attrib	*pattrib;
++		unsigned char	*pframe;
++		struct rtw_ieee80211_hdr *pwlanhdr;
++		struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++		struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++		u8 *buf = skb->data;
++		u32 len = skb->len;
++		u8 category, action;
++		int type = -1;
++
++		pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++		if (pmgntframe == NULL) {
++			rtw_udelay_os(500);
++			goto fail;
++		}
++		pattrib = &pmgntframe->attrib;
++
++		update_monitor_frame_attrib(padapter, pattrib);
++
++		pattrib->retry_ctrl = _FALSE;
++
++		_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++		pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++		_rtw_memcpy(pframe, (void *)buf, len);
++
++		pattrib->pktlen = len;
++
++		pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++		if (is_broadcast_mac_addr(pwlanhdr->addr3) || is_broadcast_mac_addr(pwlanhdr->addr1))
++			pattrib->rate = MGN_24M;
++
++		pmlmeext->mgnt_seq = GetSequence(pwlanhdr);
++		pattrib->seqnum = pmlmeext->mgnt_seq;
++		pmlmeext->mgnt_seq++;
++
++		pattrib->last_txcmdsz = pattrib->pktlen;
++
++		dump_mgntframe(padapter, pmgntframe);
++
++	} else {
++		struct xmit_frame		*pmgntframe;
++		struct pkt_attrib	*pattrib;
++		unsigned char	*pframe;
++		struct rtw_ieee80211_hdr *pwlanhdr;
++		struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++		struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++		u8 *buf = skb->data;
++		u32 len = skb->len;
++		u8 category, action;
++		int type = -1;
++
++		pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++		if (pmgntframe == NULL)
++			goto fail;
++
++		pattrib = &pmgntframe->attrib;
++		update_mgntframe_attrib(padapter, pattrib);
++		pattrib->retry_ctrl = _FALSE;
++
++		_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++		pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++		_rtw_memcpy(pframe, (void *)buf, len);
++
++		pattrib->pktlen = len;
++
++		pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++		pmlmeext->mgnt_seq = GetSequence(pwlanhdr);
++		pattrib->seqnum = pmlmeext->mgnt_seq;
++		pmlmeext->mgnt_seq++;
++
++		pattrib->last_txcmdsz = pattrib->pktlen;
++
++		dump_mgntframe(padapter, pmgntframe);
++
++	}
++
++fail:
++
++	rtw_skb_free(skb);
++
++	return 0;
++}
++
++/*
++ * The main transmit(tx) entry
++ *
++ * Return
++ *	1	enqueue
++ *	0	success, hardware will handle this xmit frame(packet)
++ *	<0	fail
++ */
++s32 rtw_xmit(_adapter *padapter, _pkt **ppkt)
++{
++	static u32 start = 0;
++	static u32 drop_cnt = 0;
++#ifdef CONFIG_AP_MODE
++	_irqL irqL0;
++#endif
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct xmit_frame *pxmitframe = NULL;
++#ifdef CONFIG_BR_EXT
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	void *br_port = NULL;
++#endif /* CONFIG_BR_EXT */
++
++	s32 res;
++
++	DBG_COUNTER(padapter->tx_logs.core_tx);
++
++	if (start == 0)
++		start = rtw_get_current_time();
++
++	pxmitframe = rtw_alloc_xmitframe(pxmitpriv);
++
++	if (rtw_get_passing_time_ms(start) > 2000) {
++		if (drop_cnt)
++			RTW_INFO("DBG_TX_DROP_FRAME %s no more pxmitframe, drop_cnt:%u\n", __FUNCTION__, drop_cnt);
++		start = rtw_get_current_time();
++		drop_cnt = 0;
++	}
++
++	if (pxmitframe == NULL) {
++		drop_cnt++;
++		/*RTW_INFO("%s-"ADPT_FMT" no more xmitframe\n", __func__, ADPT_ARG(padapter));*/
++		DBG_COUNTER(padapter->tx_logs.core_tx_err_pxmitframe);
++		return -1;
++	}
++
++#ifdef CONFIG_BR_EXT
++
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++	br_port = padapter->pnetdev->br_port;
++#else   /* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++	rcu_read_lock();
++	br_port = rcu_dereference(padapter->pnetdev->rx_handler_data);
++	rcu_read_unlock();
++#endif /* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++
++	if (br_port && check_fwstate(pmlmepriv, WIFI_STATION_STATE | WIFI_ADHOC_STATE) == _TRUE) {
++		res = rtw_br_client_tx(padapter, ppkt);
++		if (res == -1) {
++			rtw_free_xmitframe(pxmitpriv, pxmitframe);
++			DBG_COUNTER(padapter->tx_logs.core_tx_err_brtx);
++			return -1;
++		}
++	}
++
++#endif /* CONFIG_BR_EXT */
++
++	res = update_attrib(padapter, *ppkt, &pxmitframe->attrib);
++
++#ifdef CONFIG_MCC_MODE
++	/* record data kernel TX to driver to check MCC concurrent TX */
++	rtw_hal_mcc_calc_tx_bytes_from_kernel(padapter, pxmitframe->attrib.pktlen);
++#endif /* CONFIG_MCC_MODE */
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (pxmitframe->attrib.ether_type != 0x88B4) {
++		if (rtw_wapi_drop_for_key_absent(padapter, pxmitframe->attrib.ra)) {
++			WAPI_TRACE(WAPI_RX, "drop for key absend when tx\n");
++			res = _FAIL;
++		}
++	}
++#endif
++	if (res == _FAIL) {
++		/*RTW_INFO("%s-"ADPT_FMT" update attrib fail\n", __func__, ADPT_ARG(padapter));*/
++#ifdef DBG_TX_DROP_FRAME
++		RTW_INFO("DBG_TX_DROP_FRAME %s update attrib fail\n", __FUNCTION__);
++#endif
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++		return -1;
++	}
++	pxmitframe->pkt = *ppkt;
++
++	rtw_led_control(padapter, LED_CTL_TX);
++
++	do_queue_select(padapter, &pxmitframe->attrib);
++
++#ifdef CONFIG_AP_MODE
++	_enter_critical_bh(&pxmitpriv->lock, &irqL0);
++	if (xmitframe_enqueue_for_sleeping_sta(padapter, pxmitframe) == _TRUE) {
++		_exit_critical_bh(&pxmitpriv->lock, &irqL0);
++		DBG_COUNTER(padapter->tx_logs.core_tx_ap_enqueue);
++		return 1;
++	}
++	_exit_critical_bh(&pxmitpriv->lock, &irqL0);
++#endif
++
++	/* pre_xmitframe */
++	if (rtw_hal_xmit(padapter, pxmitframe) == _FALSE)
++		return 1;
++
++	return 0;
++}
++
++#ifdef CONFIG_TDLS
++sint xmitframe_enqueue_for_tdls_sleeping_sta(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	sint ret = _FALSE;
++
++	_irqL irqL;
++	struct sta_info *ptdls_sta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	int i;
++
++	ptdls_sta = rtw_get_stainfo(pstapriv, pattrib->dst);
++	if (ptdls_sta == NULL)
++		return ret;
++	else if (ptdls_sta->tdls_sta_state & TDLS_LINKED_STATE) {
++
++		if (pattrib->triggered == 1) {
++			ret = _TRUE;
++			return ret;
++		}
++
++		_enter_critical_bh(&ptdls_sta->sleep_q.lock, &irqL);
++
++		if (ptdls_sta->state & WIFI_SLEEP_STATE) {
++			rtw_list_delete(&pxmitframe->list);
++
++			/* _enter_critical_bh(&psta->sleep_q.lock, &irqL);	 */
++
++			rtw_list_insert_tail(&pxmitframe->list, get_list_head(&ptdls_sta->sleep_q));
++
++			ptdls_sta->sleepq_len++;
++			ptdls_sta->sleepq_ac_len++;
++
++			/* indicate 4-AC queue bit in TDLS peer traffic indication */
++			switch (pattrib->priority) {
++			case 1:
++			case 2:
++				ptdls_sta->uapsd_bk |= BIT(1);
++				break;
++			case 4:
++			case 5:
++				ptdls_sta->uapsd_vi |= BIT(1);
++				break;
++			case 6:
++			case 7:
++				ptdls_sta->uapsd_vo |= BIT(1);
++				break;
++			case 0:
++			case 3:
++			default:
++				ptdls_sta->uapsd_be |= BIT(1);
++				break;
++			}
++
++			/* Transmit TDLS PTI via AP */
++			if (ptdls_sta->sleepq_len == 1)
++				rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_ISSUE_PTI);
++
++			ret = _TRUE;
++		}
++
++		_exit_critical_bh(&ptdls_sta->sleep_q.lock, &irqL);
++	}
++
++	return ret;
++
++}
++#endif /* CONFIG_TDLS */
++
++#define RTW_HIQ_FILTER_ALLOW_ALL 0
++#define RTW_HIQ_FILTER_ALLOW_SPECIAL 1
++#define RTW_HIQ_FILTER_DENY_ALL 2
++
++inline bool xmitframe_hiq_filter(struct xmit_frame *xmitframe)
++{
++	bool allow = _FALSE;
++	_adapter *adapter = xmitframe->padapter;
++	struct registry_priv *registry = &adapter->registrypriv;
++
++	if (rtw_get_intf_type(adapter) != RTW_PCIE) {
++
++		if (adapter->registrypriv.wifi_spec == 1)
++			allow = _TRUE;
++		else if (registry->hiq_filter == RTW_HIQ_FILTER_ALLOW_SPECIAL) {
++
++			struct pkt_attrib *attrib = &xmitframe->attrib;
++
++			if (attrib->ether_type == 0x0806
++			    || attrib->ether_type == 0x888e
++#ifdef CONFIG_WAPI_SUPPORT
++			    || attrib->ether_type == 0x88B4
++#endif
++			    || attrib->dhcp_pkt
++			   ) {
++				if (0)
++					RTW_INFO(FUNC_ADPT_FMT" ether_type:0x%04x%s\n", FUNC_ADPT_ARG(xmitframe->padapter)
++						, attrib->ether_type, attrib->dhcp_pkt ? " DHCP" : "");
++				allow = _TRUE;
++			}
++		} else if (registry->hiq_filter == RTW_HIQ_FILTER_ALLOW_ALL)
++			allow = _TRUE;
++		else if (registry->hiq_filter == RTW_HIQ_FILTER_DENY_ALL) {
++		} else
++			rtw_warn_on(1);
++	}
++	return allow;
++}
++
++#if defined(CONFIG_AP_MODE) || defined(CONFIG_TDLS)
++
++sint xmitframe_enqueue_for_sleeping_sta(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	_irqL irqL;
++	sint ret = _FALSE;
++	struct sta_info *psta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	sint bmcst = IS_MCAST(pattrib->ra);
++	bool update_tim = _FALSE;
++#ifdef CONFIG_TDLS
++
++	if (padapter->tdlsinfo.link_established == _TRUE)
++		ret = xmitframe_enqueue_for_tdls_sleeping_sta(padapter, pxmitframe);
++#endif /* CONFIG_TDLS */
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _FALSE) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_ap_enqueue_warn_fwstate);
++		return ret;
++	}
++	/*
++		if(pattrib->psta)
++		{
++			psta = pattrib->psta;
++		}
++		else
++		{
++			RTW_INFO("%s, call rtw_get_stainfo()\n", __func__);
++			psta=rtw_get_stainfo(pstapriv, pattrib->ra);
++		}
++	*/
++	psta = rtw_get_stainfo(&padapter->stapriv, pattrib->ra);
++	if (pattrib->psta != psta) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_ap_enqueue_warn_sta);
++		RTW_INFO("%s, pattrib->psta(%p) != psta(%p)\n", __func__, pattrib->psta, psta);
++		return _FALSE;
++	}
++
++	if (psta == NULL) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_ap_enqueue_warn_nosta);
++		RTW_INFO("%s, psta==NUL\n", __func__);
++		return _FALSE;
++	}
++
++	if (!(psta->state & _FW_LINKED)) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_ap_enqueue_warn_link);
++		RTW_INFO("%s, psta->state(0x%x) != _FW_LINKED\n", __func__, psta->state);
++		return _FALSE;
++	}
++
++	if (pattrib->triggered == 1) {
++		DBG_COUNTER(padapter->tx_logs.core_tx_ap_enqueue_warn_trigger);
++		/* RTW_INFO("directly xmit pspoll_triggered packet\n"); */
++
++		/* pattrib->triggered=0; */
++		if (bmcst && xmitframe_hiq_filter(pxmitframe) == _TRUE)
++			pattrib->qsel = QSLT_HIGH;/* HIQ */
++
++		return ret;
++	}
++
++
++	if (bmcst) {
++		_enter_critical_bh(&psta->sleep_q.lock, &irqL);
++
++		if (pstapriv->sta_dz_bitmap) { /* if anyone sta is in ps mode */
++			/* pattrib->qsel = QSLT_HIGH; */ /* HIQ */
++
++			rtw_list_delete(&pxmitframe->list);
++
++			/*_enter_critical_bh(&psta->sleep_q.lock, &irqL);*/
++
++			rtw_list_insert_tail(&pxmitframe->list, get_list_head(&psta->sleep_q));
++
++			psta->sleepq_len++;
++
++			if (!(pstapriv->tim_bitmap & BIT(0)))
++				update_tim = _TRUE;
++
++			pstapriv->tim_bitmap |= BIT(0);
++			pstapriv->sta_dz_bitmap |= BIT(0);
++
++			/* RTW_INFO("enqueue, sq_len=%d, tim=%x\n", psta->sleepq_len, pstapriv->tim_bitmap); */
++			if (update_tim == _TRUE) {
++				if (is_broadcast_mac_addr(pattrib->ra))
++					_update_beacon(padapter, _TIM_IE_, NULL, _TRUE, "buffer BC");
++				else
++					_update_beacon(padapter, _TIM_IE_, NULL, _TRUE, "buffer MC");
++			} else
++				chk_bmc_sleepq_cmd(padapter);
++
++			/*_exit_critical_bh(&psta->sleep_q.lock, &irqL);*/
++
++			ret = _TRUE;
++
++			DBG_COUNTER(padapter->tx_logs.core_tx_ap_enqueue_mcast);
++
++		}
++
++		_exit_critical_bh(&psta->sleep_q.lock, &irqL);
++
++		return ret;
++
++	}
++
++
++	_enter_critical_bh(&psta->sleep_q.lock, &irqL);
++
++	if (psta->state & WIFI_SLEEP_STATE) {
++		u8 wmmps_ac = 0;
++
++		if (pstapriv->sta_dz_bitmap & BIT(psta->aid)) {
++			rtw_list_delete(&pxmitframe->list);
++
++			/* _enter_critical_bh(&psta->sleep_q.lock, &irqL);	 */
++
++			rtw_list_insert_tail(&pxmitframe->list, get_list_head(&psta->sleep_q));
++
++			psta->sleepq_len++;
++
++			switch (pattrib->priority) {
++			case 1:
++			case 2:
++				wmmps_ac = psta->uapsd_bk & BIT(0);
++				break;
++			case 4:
++			case 5:
++				wmmps_ac = psta->uapsd_vi & BIT(0);
++				break;
++			case 6:
++			case 7:
++				wmmps_ac = psta->uapsd_vo & BIT(0);
++				break;
++			case 0:
++			case 3:
++			default:
++				wmmps_ac = psta->uapsd_be & BIT(0);
++				break;
++			}
++
++			if (wmmps_ac)
++				psta->sleepq_ac_len++;
++
++			if (((psta->has_legacy_ac) && (!wmmps_ac)) || ((!psta->has_legacy_ac) && (wmmps_ac))) {
++				if (!(pstapriv->tim_bitmap & BIT(psta->aid)))
++					update_tim = _TRUE;
++
++				pstapriv->tim_bitmap |= BIT(psta->aid);
++
++				/* RTW_INFO("enqueue, sq_len=%d, tim=%x\n", psta->sleepq_len, pstapriv->tim_bitmap); */
++
++				if (update_tim == _TRUE) {
++					/* RTW_INFO("sleepq_len==1, update BCNTIM\n"); */
++					/* upate BCN for TIM IE */
++					_update_beacon(padapter, _TIM_IE_, NULL, _TRUE, "buffer UC");
++				}
++			}
++
++			/* _exit_critical_bh(&psta->sleep_q.lock, &irqL);			 */
++
++			/* if(psta->sleepq_len > (NR_XMITFRAME>>3)) */
++			/* { */
++			/*	wakeup_sta_to_xmit(padapter, psta); */
++			/* }	 */
++
++			ret = _TRUE;
++
++			DBG_COUNTER(padapter->tx_logs.core_tx_ap_enqueue_ucast);
++		}
++
++	}
++
++	_exit_critical_bh(&psta->sleep_q.lock, &irqL);
++
++	return ret;
++
++}
++
++static void dequeue_xmitframes_to_sleeping_queue(_adapter *padapter, struct sta_info *psta, _queue *pframequeue)
++{
++	sint ret;
++	_list	*plist, *phead;
++	u8	ac_index;
++	struct tx_servq	*ptxservq;
++	struct pkt_attrib	*pattrib;
++	struct xmit_frame	*pxmitframe;
++	struct hw_xmit *phwxmits =  padapter->xmitpriv.hwxmits;
++
++	phead = get_list_head(pframequeue);
++	plist = get_next(phead);
++
++	while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++		pxmitframe = LIST_CONTAINOR(plist, struct xmit_frame, list);
++
++		plist = get_next(plist);
++
++		pattrib = &pxmitframe->attrib;
++
++		pattrib->triggered = 0;
++
++		ret = xmitframe_enqueue_for_sleeping_sta(padapter, pxmitframe);
++
++		if (_TRUE == ret) {
++			ptxservq = rtw_get_sta_pending(padapter, psta, pattrib->priority, (u8 *)(&ac_index));
++
++			ptxservq->qcnt--;
++			phwxmits[ac_index].accnt--;
++		} else {
++			/* RTW_INFO("xmitframe_enqueue_for_sleeping_sta return _FALSE\n"); */
++		}
++
++	}
++
++}
++
++void stop_sta_xmit(_adapter *padapter, struct sta_info *psta)
++{
++	_irqL irqL0;
++	struct sta_info *psta_bmc;
++	struct sta_xmit_priv *pstaxmitpriv;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	pstaxmitpriv = &psta->sta_xmitpriv;
++
++	/* for BC/MC Frames */
++	psta_bmc = rtw_get_bcmc_stainfo(padapter);
++
++
++	_enter_critical_bh(&pxmitpriv->lock, &irqL0);
++
++	psta->state |= WIFI_SLEEP_STATE;
++
++#ifdef CONFIG_TDLS
++	if (!(psta->tdls_sta_state & TDLS_LINKED_STATE))
++#endif /* CONFIG_TDLS */
++		pstapriv->sta_dz_bitmap |= BIT(psta->aid);
++
++
++
++	dequeue_xmitframes_to_sleeping_queue(padapter, psta, &pstaxmitpriv->vo_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->vo_q.tx_pending));
++
++
++	dequeue_xmitframes_to_sleeping_queue(padapter, psta, &pstaxmitpriv->vi_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->vi_q.tx_pending));
++
++
++	dequeue_xmitframes_to_sleeping_queue(padapter, psta, &pstaxmitpriv->be_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->be_q.tx_pending));
++
++
++	dequeue_xmitframes_to_sleeping_queue(padapter, psta, &pstaxmitpriv->bk_q.sta_pending);
++	rtw_list_delete(&(pstaxmitpriv->bk_q.tx_pending));
++
++#ifdef CONFIG_TDLS
++	if (!(psta->tdls_sta_state & TDLS_LINKED_STATE) && (psta_bmc != NULL)) {
++#endif /* CONFIG_TDLS */
++
++
++		/* for BC/MC Frames */
++		pstaxmitpriv = &psta_bmc->sta_xmitpriv;
++		dequeue_xmitframes_to_sleeping_queue(padapter, psta_bmc, &pstaxmitpriv->be_q.sta_pending);
++		rtw_list_delete(&(pstaxmitpriv->be_q.tx_pending));
++
++
++#ifdef CONFIG_TDLS
++	}
++#endif /* CONFIG_TDLS	 */
++	_exit_critical_bh(&pxmitpriv->lock, &irqL0);
++
++
++}
++
++void wakeup_sta_to_xmit(_adapter *padapter, struct sta_info *psta)
++{
++	_irqL irqL;
++	u8 update_mask = 0, wmmps_ac = 0;
++	struct sta_info *psta_bmc;
++	_list	*xmitframe_plist, *xmitframe_phead;
++	struct xmit_frame *pxmitframe = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	psta_bmc = rtw_get_bcmc_stainfo(padapter);
++
++
++	/* _enter_critical_bh(&psta->sleep_q.lock, &irqL); */
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++	xmitframe_phead = get_list_head(&psta->sleep_q);
++	xmitframe_plist = get_next(xmitframe_phead);
++
++	while ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE) {
++		pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++		xmitframe_plist = get_next(xmitframe_plist);
++
++		rtw_list_delete(&pxmitframe->list);
++
++		switch (pxmitframe->attrib.priority) {
++		case 1:
++		case 2:
++			wmmps_ac = psta->uapsd_bk & BIT(1);
++			break;
++		case 4:
++		case 5:
++			wmmps_ac = psta->uapsd_vi & BIT(1);
++			break;
++		case 6:
++		case 7:
++			wmmps_ac = psta->uapsd_vo & BIT(1);
++			break;
++		case 0:
++		case 3:
++		default:
++			wmmps_ac = psta->uapsd_be & BIT(1);
++			break;
++		}
++
++		psta->sleepq_len--;
++		if (psta->sleepq_len > 0)
++			pxmitframe->attrib.mdata = 1;
++		else
++			pxmitframe->attrib.mdata = 0;
++
++		if (wmmps_ac) {
++			psta->sleepq_ac_len--;
++			if (psta->sleepq_ac_len > 0) {
++				pxmitframe->attrib.mdata = 1;
++				pxmitframe->attrib.eosp = 0;
++			} else {
++				pxmitframe->attrib.mdata = 0;
++				pxmitframe->attrib.eosp = 1;
++			}
++		}
++
++		pxmitframe->attrib.triggered = 1;
++
++		/*
++				_exit_critical_bh(&psta->sleep_q.lock, &irqL);
++				if(rtw_hal_xmit(padapter, pxmitframe) == _TRUE)
++				{
++					rtw_os_xmit_complete(padapter, pxmitframe);
++				}
++				_enter_critical_bh(&psta->sleep_q.lock, &irqL);
++		*/
++		rtw_hal_xmitframe_enqueue(padapter, pxmitframe);
++
++
++	}
++
++	if (psta->sleepq_len == 0) {
++#ifdef CONFIG_TDLS
++		if (psta->tdls_sta_state & TDLS_LINKED_STATE) {
++			if (psta->state & WIFI_SLEEP_STATE)
++				psta->state ^= WIFI_SLEEP_STATE;
++
++			_exit_critical_bh(&pxmitpriv->lock, &irqL);
++			return;
++		}
++#endif /* CONFIG_TDLS */
++
++		if (pstapriv->tim_bitmap & BIT(psta->aid)) {
++			/* RTW_INFO("wakeup to xmit, qlen==0, update_BCNTIM, tim=%x\n", pstapriv->tim_bitmap); */
++			/* upate BCN for TIM IE */
++			/* update_BCNTIM(padapter); */
++			update_mask = BIT(0);
++		}
++
++		pstapriv->tim_bitmap &= ~BIT(psta->aid);
++
++		if (psta->state & WIFI_SLEEP_STATE)
++			psta->state ^= WIFI_SLEEP_STATE;
++
++		if (psta->state & WIFI_STA_ALIVE_CHK_STATE) {
++			RTW_INFO("%s alive check\n", __func__);
++			psta->expire_to = pstapriv->expire_to;
++			psta->state ^= WIFI_STA_ALIVE_CHK_STATE;
++		}
++
++		pstapriv->sta_dz_bitmap &= ~BIT(psta->aid);
++	}
++
++	/* for BC/MC Frames */
++	if (!psta_bmc)
++		goto _exit;
++
++	if ((pstapriv->sta_dz_bitmap & 0xfffe) == 0x0) { /* no any sta in ps mode */
++		xmitframe_phead = get_list_head(&psta_bmc->sleep_q);
++		xmitframe_plist = get_next(xmitframe_phead);
++
++		while ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE) {
++			pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++			xmitframe_plist = get_next(xmitframe_plist);
++
++			rtw_list_delete(&pxmitframe->list);
++
++			psta_bmc->sleepq_len--;
++			if (psta_bmc->sleepq_len > 0)
++				pxmitframe->attrib.mdata = 1;
++			else
++				pxmitframe->attrib.mdata = 0;
++
++
++			pxmitframe->attrib.triggered = 1;
++			/*
++						_exit_critical_bh(&psta_bmc->sleep_q.lock, &irqL);
++						if(rtw_hal_xmit(padapter, pxmitframe) == _TRUE)
++						{
++							rtw_os_xmit_complete(padapter, pxmitframe);
++						}
++						_enter_critical_bh(&psta_bmc->sleep_q.lock, &irqL);
++
++			*/
++			rtw_hal_xmitframe_enqueue(padapter, pxmitframe);
++
++		}
++
++		if (psta_bmc->sleepq_len == 0) {
++			if (pstapriv->tim_bitmap & BIT(0)) {
++				/* RTW_INFO("wakeup to xmit, qlen==0, update_BCNTIM, tim=%x\n", pstapriv->tim_bitmap); */
++				/* upate BCN for TIM IE */
++				/* update_BCNTIM(padapter); */
++				update_mask |= BIT(1);
++			}
++			pstapriv->tim_bitmap &= ~BIT(0);
++			pstapriv->sta_dz_bitmap &= ~BIT(0);
++		}
++
++	}
++
++_exit:
++
++	/* _exit_critical_bh(&psta_bmc->sleep_q.lock, &irqL);	 */
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++	if (update_mask) {
++		/* update_BCNTIM(padapter); */
++		if ((update_mask & (BIT(0) | BIT(1))) == (BIT(0) | BIT(1)))
++			_update_beacon(padapter, _TIM_IE_, NULL, _TRUE, "clear UC&BMC");
++		else if ((update_mask & BIT(1)) == BIT(1))
++			_update_beacon(padapter, _TIM_IE_, NULL, _TRUE, "clear BMC");
++		else
++			_update_beacon(padapter, _TIM_IE_, NULL, _TRUE, "clear UC");
++	}
++
++}
++
++void xmit_delivery_enabled_frames(_adapter *padapter, struct sta_info *psta)
++{
++	_irqL irqL;
++	u8 wmmps_ac = 0;
++	_list	*xmitframe_plist, *xmitframe_phead;
++	struct xmit_frame *pxmitframe = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++
++	/* _enter_critical_bh(&psta->sleep_q.lock, &irqL); */
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++	xmitframe_phead = get_list_head(&psta->sleep_q);
++	xmitframe_plist = get_next(xmitframe_phead);
++
++	while ((rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist)) == _FALSE) {
++		pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++
++		xmitframe_plist = get_next(xmitframe_plist);
++
++		switch (pxmitframe->attrib.priority) {
++		case 1:
++		case 2:
++			wmmps_ac = psta->uapsd_bk & BIT(1);
++			break;
++		case 4:
++		case 5:
++			wmmps_ac = psta->uapsd_vi & BIT(1);
++			break;
++		case 6:
++		case 7:
++			wmmps_ac = psta->uapsd_vo & BIT(1);
++			break;
++		case 0:
++		case 3:
++		default:
++			wmmps_ac = psta->uapsd_be & BIT(1);
++			break;
++		}
++
++		if (!wmmps_ac)
++			continue;
++
++		rtw_list_delete(&pxmitframe->list);
++
++		psta->sleepq_len--;
++		psta->sleepq_ac_len--;
++
++		if (psta->sleepq_ac_len > 0) {
++			pxmitframe->attrib.mdata = 1;
++			pxmitframe->attrib.eosp = 0;
++		} else {
++			pxmitframe->attrib.mdata = 0;
++			pxmitframe->attrib.eosp = 1;
++		}
++
++		pxmitframe->attrib.triggered = 1;
++		rtw_hal_xmitframe_enqueue(padapter, pxmitframe);
++
++		if ((psta->sleepq_ac_len == 0) && (!psta->has_legacy_ac) && (wmmps_ac)) {
++#ifdef CONFIG_TDLS
++			if (psta->tdls_sta_state & TDLS_LINKED_STATE) {
++				/* _exit_critical_bh(&psta->sleep_q.lock, &irqL); */
++				goto exit;
++			}
++#endif /* CONFIG_TDLS */
++			pstapriv->tim_bitmap &= ~BIT(psta->aid);
++
++			/* RTW_INFO("wakeup to xmit, qlen==0, update_BCNTIM, tim=%x\n", pstapriv->tim_bitmap); */
++			/* upate BCN for TIM IE */
++			/* update_BCNTIM(padapter); */
++			update_beacon(padapter, _TIM_IE_, NULL, _TRUE);
++			/* update_mask = BIT(0); */
++		}
++
++	}
++
++exit:
++	/* _exit_critical_bh(&psta->sleep_q.lock, &irqL);	 */
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++	return;
++}
++
++#endif /* defined(CONFIG_AP_MODE) || defined(CONFIG_TDLS) */
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++void enqueue_pending_xmitbuf(
++	struct xmit_priv *pxmitpriv,
++	struct xmit_buf *pxmitbuf)
++{
++	_irqL irql;
++	_queue *pqueue;
++	_adapter *pri_adapter = pxmitpriv->adapter;
++
++	pqueue = &pxmitpriv->pending_xmitbuf_queue;
++
++	_enter_critical_bh(&pqueue->lock, &irql);
++	rtw_list_delete(&pxmitbuf->list);
++	rtw_list_insert_tail(&pxmitbuf->list, get_list_head(pqueue));
++	_exit_critical_bh(&pqueue->lock, &irql);
++
++#if defined(CONFIG_SDIO_HCI) && defined(CONFIG_CONCURRENT_MODE)
++	pri_adapter = GET_PRIMARY_ADAPTER(pri_adapter);
++#endif /*SDIO_HCI + CONCURRENT*/
++	_rtw_up_sema(&(pri_adapter->xmitpriv.xmit_sema));
++}
++
++void enqueue_pending_xmitbuf_to_head(
++	struct xmit_priv *pxmitpriv,
++	struct xmit_buf *pxmitbuf)
++{
++	_irqL irql;
++	_queue *pqueue = &pxmitpriv->pending_xmitbuf_queue;
++
++	_enter_critical_bh(&pqueue->lock, &irql);
++	rtw_list_delete(&pxmitbuf->list);
++	rtw_list_insert_head(&pxmitbuf->list, get_list_head(pqueue));
++	_exit_critical_bh(&pqueue->lock, &irql);
++}
++
++struct xmit_buf *dequeue_pending_xmitbuf(
++	struct xmit_priv *pxmitpriv)
++{
++	_irqL irql;
++	struct xmit_buf *pxmitbuf;
++	_queue *pqueue;
++
++
++	pxmitbuf = NULL;
++	pqueue = &pxmitpriv->pending_xmitbuf_queue;
++
++	_enter_critical_bh(&pqueue->lock, &irql);
++
++	if (_rtw_queue_empty(pqueue) == _FALSE) {
++		_list *plist, *phead;
++
++		phead = get_list_head(pqueue);
++		plist = get_next(phead);
++		pxmitbuf = LIST_CONTAINOR(plist, struct xmit_buf, list);
++		rtw_list_delete(&pxmitbuf->list);
++	}
++
++	_exit_critical_bh(&pqueue->lock, &irql);
++
++	return pxmitbuf;
++}
++
++struct xmit_buf *dequeue_pending_xmitbuf_under_survey(
++	struct xmit_priv *pxmitpriv)
++{
++	_irqL irql;
++	struct xmit_buf *pxmitbuf;
++#ifdef CONFIG_USB_HCI
++	struct xmit_frame *pxmitframe;
++#endif
++	_queue *pqueue;
++
++
++	pxmitbuf = NULL;
++	pqueue = &pxmitpriv->pending_xmitbuf_queue;
++
++	_enter_critical_bh(&pqueue->lock, &irql);
++
++	if (_rtw_queue_empty(pqueue) == _FALSE) {
++		_list *plist, *phead;
++		u8 type;
++
++		phead = get_list_head(pqueue);
++		plist = phead;
++		do {
++			plist = get_next(plist);
++			if (plist == phead)
++				break;
++
++			pxmitbuf = LIST_CONTAINOR(plist, struct xmit_buf, list);
++
++#ifdef CONFIG_USB_HCI
++			pxmitframe = (struct xmit_frame *)pxmitbuf->priv_data;
++			if (pxmitframe)
++				type = GetFrameSubType(pxmitbuf->pbuf + TXDESC_SIZE + pxmitframe->pkt_offset * PACKET_OFFSET_SZ);
++			else
++				RTW_INFO("%s, !!!ERROR!!! For USB, TODO ITEM\n", __FUNCTION__);
++#else
++			type = GetFrameSubType(pxmitbuf->pbuf + TXDESC_OFFSET);
++#endif
++
++			if ((type == WIFI_PROBEREQ) ||
++			    (type == WIFI_DATA_NULL) ||
++			    (type == WIFI_QOS_DATA_NULL)) {
++				rtw_list_delete(&pxmitbuf->list);
++				break;
++			}
++			pxmitbuf = NULL;
++		} while (1);
++	}
++
++	_exit_critical_bh(&pqueue->lock, &irql);
++
++	return pxmitbuf;
++}
++
++sint check_pending_xmitbuf(
++	struct xmit_priv *pxmitpriv)
++{
++	_irqL irql;
++	_queue *pqueue;
++	sint	ret = _FALSE;
++
++	pqueue = &pxmitpriv->pending_xmitbuf_queue;
++
++	_enter_critical_bh(&pqueue->lock, &irql);
++
++	if (_rtw_queue_empty(pqueue) == _FALSE)
++		ret = _TRUE;
++
++	_exit_critical_bh(&pqueue->lock, &irql);
++
++	return ret;
++}
++
++thread_return rtw_xmit_thread(thread_context context)
++{
++	s32 err;
++	PADAPTER padapter;
++
++
++	err = _SUCCESS;
++	padapter = (PADAPTER)context;
++
++	thread_enter("RTW_XMIT_THREAD");
++
++	do {
++		err = rtw_hal_xmit_thread_handler(padapter);
++		flush_signals_thread();
++	} while (_SUCCESS == err);
++
++	_rtw_up_sema(&padapter->xmitpriv.terminate_xmitthread_sema);
++
++	thread_exit();
++}
++#endif
++
++bool rtw_xmit_ac_blocked(_adapter *adapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	_adapter *iface;
++	struct mlme_ext_priv *mlmeext;
++	struct mlme_ext_info *mlmeextinfo;
++	bool blocked = _FALSE;
++	int i;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		mlmeext = &iface->mlmeextpriv;
++
++		/* check scan state */
++		if (mlmeext_scan_state(mlmeext) != SCAN_DISABLE
++			&& mlmeext_scan_state(mlmeext) != SCAN_BACK_OP
++		) {
++			blocked = _TRUE;
++			goto exit;
++		}
++
++		if (mlmeext_scan_state(mlmeext) == SCAN_BACK_OP
++			&& !mlmeext_chk_scan_backop_flags(mlmeext, SS_BACKOP_TX_RESUME)
++		) {
++			blocked = _TRUE;
++			goto exit;
++		}
++	}
++
++#ifdef CONFIG_MCC_MODE
++	if (MCC_EN(adapter)) {
++		if (rtw_hal_check_mcc_status(adapter, MCC_STATUS_DOING_MCC)) {
++			if (MCC_STOP(adapter)) {
++				blocked = _TRUE;
++				goto exit;
++			}
++		}
++	}
++#endif /*  CONFIG_MCC_MODE */
++
++exit:
++	return blocked;
++}
++
++void rtw_sctx_init(struct submit_ctx *sctx, int timeout_ms)
++{
++	sctx->timeout_ms = timeout_ms;
++	sctx->submit_time = rtw_get_current_time();
++#ifdef PLATFORM_LINUX /* TODO: add condition wating interface for other os */
++	init_completion(&sctx->done);
++#endif
++	sctx->status = RTW_SCTX_SUBMITTED;
++}
++
++int rtw_sctx_wait(struct submit_ctx *sctx, const char *msg)
++{
++	int ret = _FAIL;
++	unsigned long expire;
++	int status = 0;
++
++#ifdef PLATFORM_LINUX
++	expire = sctx->timeout_ms ? msecs_to_jiffies(sctx->timeout_ms) : MAX_SCHEDULE_TIMEOUT;
++	if (!wait_for_completion_timeout(&sctx->done, expire)) {
++		/* timeout, do something?? */
++		status = RTW_SCTX_DONE_TIMEOUT;
++		RTW_INFO("%s timeout: %s\n", __func__, msg);
++	} else
++		status = sctx->status;
++#endif
++
++	if (status == RTW_SCTX_DONE_SUCCESS)
++		ret = _SUCCESS;
++
++	return ret;
++}
++
++bool rtw_sctx_chk_waring_status(int status)
++{
++	switch (status) {
++	case RTW_SCTX_DONE_UNKNOWN:
++	case RTW_SCTX_DONE_BUF_ALLOC:
++	case RTW_SCTX_DONE_BUF_FREE:
++
++	case RTW_SCTX_DONE_DRV_STOP:
++	case RTW_SCTX_DONE_DEV_REMOVE:
++		return _TRUE;
++	default:
++		return _FALSE;
++	}
++}
++
++void rtw_sctx_done_err(struct submit_ctx **sctx, int status)
++{
++	if (*sctx) {
++		if (rtw_sctx_chk_waring_status(status))
++			RTW_INFO("%s status:%d\n", __func__, status);
++		(*sctx)->status = status;
++#ifdef PLATFORM_LINUX
++		complete(&((*sctx)->done));
++#endif
++		*sctx = NULL;
++	}
++}
++
++void rtw_sctx_done(struct submit_ctx **sctx)
++{
++	rtw_sctx_done_err(sctx, RTW_SCTX_DONE_SUCCESS);
++}
++
++#ifdef CONFIG_XMIT_ACK
++
++#ifdef CONFIG_XMIT_ACK_POLLING
++s32 c2h_evt_hdl(_adapter *adapter, u8 *c2h_evt, c2h_id_filter filter);
++
++/**
++ * rtw_ack_tx_polling -
++ * @pxmitpriv: xmit_priv to address ack_tx_ops
++ * @timeout_ms: timeout msec
++ *
++ * Init ack_tx_ops and then do c2h_evt_hdl() and polling ack_tx_ops repeatedly
++ * till tx report or timeout
++ * Returns: _SUCCESS if TX report ok, _FAIL for others
++ */
++int rtw_ack_tx_polling(struct xmit_priv *pxmitpriv, u32 timeout_ms)
++{
++	int ret = _FAIL;
++	struct submit_ctx *pack_tx_ops = &pxmitpriv->ack_tx_ops;
++	_adapter *adapter = container_of(pxmitpriv, _adapter, xmitpriv);
++
++	pack_tx_ops->submit_time = rtw_get_current_time();
++	pack_tx_ops->timeout_ms = timeout_ms;
++	pack_tx_ops->status = RTW_SCTX_SUBMITTED;
++
++	do {
++		c2h_evt_hdl(adapter, NULL, rtw_hal_c2h_id_filter_ccx(adapter));
++		if (pack_tx_ops->status != RTW_SCTX_SUBMITTED)
++			break;
++
++		if (rtw_is_drv_stopped(adapter)) {
++			pack_tx_ops->status = RTW_SCTX_DONE_DRV_STOP;
++			break;
++		}
++		if (rtw_is_surprise_removed(adapter)) {
++			pack_tx_ops->status = RTW_SCTX_DONE_DEV_REMOVE;
++			break;
++		}
++
++		rtw_msleep_os(10);
++	} while (rtw_get_passing_time_ms(pack_tx_ops->submit_time) < timeout_ms);
++
++	if (pack_tx_ops->status == RTW_SCTX_SUBMITTED) {
++		pack_tx_ops->status = RTW_SCTX_DONE_TIMEOUT;
++		RTW_INFO("%s timeout\n", __func__);
++	}
++
++	if (pack_tx_ops->status == RTW_SCTX_DONE_SUCCESS)
++		ret = _SUCCESS;
++
++	return ret;
++}
++#endif
++
++int rtw_ack_tx_wait(struct xmit_priv *pxmitpriv, u32 timeout_ms)
++{
++#ifdef CONFIG_XMIT_ACK_POLLING
++	return rtw_ack_tx_polling(pxmitpriv, timeout_ms);
++#else
++	struct submit_ctx *pack_tx_ops = &pxmitpriv->ack_tx_ops;
++
++	pack_tx_ops->submit_time = rtw_get_current_time();
++	pack_tx_ops->timeout_ms = timeout_ms;
++	pack_tx_ops->status = RTW_SCTX_SUBMITTED;
++
++	return rtw_sctx_wait(pack_tx_ops, __func__);
++#endif
++}
++
++void rtw_ack_tx_done(struct xmit_priv *pxmitpriv, int status)
++{
++	struct submit_ctx *pack_tx_ops = &pxmitpriv->ack_tx_ops;
++
++	if (pxmitpriv->ack_tx)
++		rtw_sctx_done_err(&pack_tx_ops, status);
++	else
++		RTW_INFO("%s ack_tx not set\n", __func__);
++}
++#endif /* CONFIG_XMIT_ACK */
+diff --git a/drivers/net/wireless/rtl8812au/hal/HalPwrSeqCmd.c b/drivers/net/wireless/rtl8812au/hal/HalPwrSeqCmd.c
+new file mode 100644
+index 0000000..de709b1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/HalPwrSeqCmd.c
+@@ -0,0 +1,161 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*++
++Copyright (c) Realtek Semiconductor Corp. All rights reserved.
++
++Module Name:
++	HalPwrSeqCmd.c
++
++Abstract:
++	Implement HW Power sequence configuration CMD handling routine for Realtek devices.
++
++Major Change History:
++	When       Who               What
++	---------- ---------------   -------------------------------
++	2011-10-26 Lucas            Modify to be compatible with SD4-CE driver.
++	2011-07-07 Roger            Create.
++
++--*/
++#include <HalPwrSeqCmd.h>
++
++
++/*
++ *	Description:
++ *		This routine deal with the Power Configuration CMDs parsing for RTL8723/RTL8188E Series IC.
++ *
++ *	Assumption:
++ *		We should follow specific format which was released from HW SD.
++ *
++ *	2011.07.07, added by Roger.
++ *   */
++u8 HalPwrSeqCmdParsing(
++	PADAPTER		padapter,
++	u8				CutVersion,
++	u8				FabVersion,
++	u8				InterfaceType,
++	WLAN_PWR_CFG	PwrSeqCmd[])
++{
++	WLAN_PWR_CFG	PwrCfgCmd = {0};
++	u8				bPollingBit = _FALSE;
++	u32				AryIdx = 0;
++	u8				value = 0;
++	u32				offset = 0;
++	u32				pollingCount = 0; /* polling autoload done. */
++	u32				maxPollingCnt = 5000;
++
++	do {
++		PwrCfgCmd = PwrSeqCmd[AryIdx];
++
++
++		/* 2 Only Handle the command whose FAB, CUT, and Interface are matched */
++		if ((GET_PWR_CFG_FAB_MASK(PwrCfgCmd) & FabVersion) &&
++		    (GET_PWR_CFG_CUT_MASK(PwrCfgCmd) & CutVersion) &&
++		    (GET_PWR_CFG_INTF_MASK(PwrCfgCmd) & InterfaceType)) {
++			switch (GET_PWR_CFG_CMD(PwrCfgCmd)) {
++			case PWR_CMD_READ:
++				break;
++
++			case PWR_CMD_WRITE:
++				offset = GET_PWR_CFG_OFFSET(PwrCfgCmd);
++
++#ifdef CONFIG_SDIO_HCI
++				/*  */
++				/* <Roger_Notes> We should deal with interface specific address mapping for some interfaces, e.g., SDIO interface */
++				/* 2011.07.07. */
++				/*  */
++				if (GET_PWR_CFG_BASE(PwrCfgCmd) == PWR_BASEADDR_SDIO) {
++					/* Read Back SDIO Local value */
++					value = SdioLocalCmd52Read1Byte(padapter, offset);
++
++					value &= ~(GET_PWR_CFG_MASK(PwrCfgCmd));
++					value |= (GET_PWR_CFG_VALUE(PwrCfgCmd) & GET_PWR_CFG_MASK(PwrCfgCmd));
++
++					/* Write Back SDIO Local value */
++					SdioLocalCmd52Write1Byte(padapter, offset, value);
++				} else
++#endif
++				{
++#ifdef CONFIG_GSPI_HCI
++					if (GET_PWR_CFG_BASE(PwrCfgCmd) == PWR_BASEADDR_SDIO)
++						offset = SPI_LOCAL_OFFSET | offset;
++#endif
++					/* Read the value from system register */
++					value = rtw_read8(padapter, offset);
++
++					value = value & (~(GET_PWR_CFG_MASK(PwrCfgCmd)));
++					value = value | (GET_PWR_CFG_VALUE(PwrCfgCmd) & GET_PWR_CFG_MASK(PwrCfgCmd));
++
++					/* Write the value back to sytem register */
++					rtw_write8(padapter, offset, value);
++				}
++				break;
++
++			case PWR_CMD_POLLING:
++
++				bPollingBit = _FALSE;
++				offset = GET_PWR_CFG_OFFSET(PwrCfgCmd);
++#ifdef CONFIG_GSPI_HCI
++				if (GET_PWR_CFG_BASE(PwrCfgCmd) == PWR_BASEADDR_SDIO)
++					offset = SPI_LOCAL_OFFSET | offset;
++#endif
++				do {
++#ifdef CONFIG_SDIO_HCI
++					if (GET_PWR_CFG_BASE(PwrCfgCmd) == PWR_BASEADDR_SDIO)
++						value = SdioLocalCmd52Read1Byte(padapter, offset);
++					else
++#endif
++						value = rtw_read8(padapter, offset);
++
++					value = value & GET_PWR_CFG_MASK(PwrCfgCmd);
++					if (value == (GET_PWR_CFG_VALUE(PwrCfgCmd) & GET_PWR_CFG_MASK(PwrCfgCmd)))
++						bPollingBit = _TRUE;
++					else
++						rtw_udelay_os(10);
++
++					if (pollingCount++ > maxPollingCnt) {
++						RTW_ERR("HalPwrSeqCmdParsing: Fail to polling Offset[%#x]=%02x\n", offset, value);
++						return _FALSE;
++					}
++				} while (!bPollingBit);
++
++				break;
++
++			case PWR_CMD_DELAY:
++				if (GET_PWR_CFG_VALUE(PwrCfgCmd) == PWRSEQ_DELAY_US)
++					rtw_udelay_os(GET_PWR_CFG_OFFSET(PwrCfgCmd));
++				else
++					rtw_udelay_os(GET_PWR_CFG_OFFSET(PwrCfgCmd) * 1000);
++				break;
++
++			case PWR_CMD_END:
++				/* When this command is parsed, end the process */
++				return _TRUE;
++				break;
++
++			default:
++				break;
++			}
++		}
++
++		AryIdx++;/* Add Array Index */
++	} while (1);
++
++	return _TRUE;
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8188c2Ant.c b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8188c2Ant.c
+new file mode 100644
+index 0000000..d8d4a11
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8188c2Ant.c
+@@ -0,0 +1,1987 @@
++//============================================================
++// Description:
++//
++// This file is for 92CE/92CU BT 1 Antenna Co-exist mechanism
++//
++// By cosa 02/11/2011
++//
++//============================================================
++
++//============================================================
++// include files
++//============================================================
++#include "Mp_Precomp.h"
++
++#if WPP_SOFTWARE_TRACE
++#include "HalBtc8188c2Ant.tmh"
++#endif
++
++#if(BT_30_SUPPORT == 1)
++//============================================================
++// Global variables, these are static variables
++//============================================================
++static COEX_DM_8188C_2ANT	GLCoexDm8188c2Ant;
++static PCOEX_DM_8188C_2ANT 	pCoexDm=&GLCoexDm8188c2Ant;
++static COEX_STA_8188C_2ANT	GLCoexSta8188c2Ant;
++static PCOEX_STA_8188C_2ANT	pCoexSta=&GLCoexSta8188c2Ant;
++
++//============================================================
++// local function start with btdm_
++//============================================================
++u1Byte
++halbtc8188c2ant_WifiRssiState(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			index,
++	IN	u1Byte			levelNum,
++	IN	u1Byte			rssiThresh,
++	IN	u1Byte			rssiThresh1
++	)
++{
++	s4Byte			wifiRssi=0;
++	u1Byte			wifiRssiState=pCoexSta->preWifiRssiState[index];
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_S4_WIFI_RSSI, &wifiRssi);
++	
++	if(levelNum == 2)
++	{
++		if( (pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_LOW) ||
++			(pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_STAY_LOW))
++		{
++			if(wifiRssi >= (rssiThresh+BTC_RSSI_COEX_THRESH_TOL_8188C_2ANT))
++			{
++				wifiRssiState = BTC_RSSI_STATE_HIGH;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_LOW;
++			}
++		}
++		else
++		{
++			if(wifiRssi < rssiThresh)
++			{
++				wifiRssiState = BTC_RSSI_STATE_LOW;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_HIGH;
++			}
++		}
++	}
++	else if(levelNum == 3)
++	{
++		if(rssiThresh > rssiThresh1)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], wifi RSSI thresh error!!\n"));
++			return pCoexSta->preWifiRssiState[index];
++		}
++		
++		if( (pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_LOW) ||
++			(pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_STAY_LOW))
++		{
++			if(wifiRssi >= (rssiThresh+BTC_RSSI_COEX_THRESH_TOL_8188C_2ANT))
++			{
++				wifiRssiState = BTC_RSSI_STATE_MEDIUM;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_LOW;
++			}
++		}
++		else if( (pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_MEDIUM) ||
++			(pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_STAY_MEDIUM))
++		{
++			if(wifiRssi >= (rssiThresh1+BTC_RSSI_COEX_THRESH_TOL_8188C_2ANT))
++			{
++				wifiRssiState = BTC_RSSI_STATE_HIGH;
++			}
++			else if(wifiRssi < rssiThresh)
++			{
++				wifiRssiState = BTC_RSSI_STATE_LOW;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_MEDIUM;
++			}
++		}
++		else
++		{
++			if(wifiRssi < rssiThresh1)
++			{
++				wifiRssiState = BTC_RSSI_STATE_MEDIUM;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_HIGH;
++			}
++		}
++	}
++		
++	pCoexSta->preWifiRssiState[index] = wifiRssiState;
++
++	return wifiRssiState;
++}
++
++u1Byte
++halbtc8188c2ant_ActionAlgorithm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	PBTC_STACK_INFO		pStackInfo=&pBtCoexist->stackInfo;
++	u1Byte				algorithm=BT_8188C_2ANT_COEX_ALGO_UNDEFINED;
++	u1Byte				numOfDiffProfile=0;
++	
++	if(!pStackInfo->bBtLinkExist)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], No profile exists!!!\n"));
++		return algorithm;
++	}
++
++	if(pStackInfo->bScoExist)
++		numOfDiffProfile++;
++	if(pStackInfo->bHidExist)
++		numOfDiffProfile++;
++	if(pStackInfo->bPanExist)
++		numOfDiffProfile++;
++	if(pStackInfo->bA2dpExist)
++		numOfDiffProfile++;
++
++	if(pStackInfo->bScoExist)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO algorithm\n"));
++		algorithm = BT_8188C_2ANT_COEX_ALGO_SCO;
++	}
++	else
++	{
++		if(numOfDiffProfile == 1)
++		{
++			if(pStackInfo->bHidExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID only\n"));
++				algorithm = BT_8188C_2ANT_COEX_ALGO_HID;
++			}
++			else if(pStackInfo->bA2dpExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], A2DP only\n"));
++				algorithm = BT_8188C_2ANT_COEX_ALGO_A2DP;
++			}
++			else if(pStackInfo->bPanExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN only\n"));
++				algorithm = BT_8188C_2ANT_COEX_ALGO_PAN;
++			}
++		}
++		else
++		{
++			if( pStackInfo->bHidExist &&
++				pStackInfo->bA2dpExist )
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID + A2DP\n"));
++				algorithm = BT_8188C_2ANT_COEX_ALGO_HID_A2DP;
++			}
++			else if( pStackInfo->bHidExist &&
++				pStackInfo->bPanExist )
++			{				
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID + PAN\n"));
++				algorithm = BT_8188C_2ANT_COEX_ALGO_HID_PAN;
++			}
++			else if( pStackInfo->bPanExist &&
++				pStackInfo->bA2dpExist )
++			{				
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN + A2DP\n"));
++				algorithm = BT_8188C_2ANT_COEX_ALGO_PAN_A2DP;
++			}
++		}		
++	}
++	return algorithm;
++}
++
++VOID
++halbtc8188c2ant_SetFwBalance(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bBalanceOn,
++	IN	u1Byte			ms0,
++	IN	u1Byte			ms1
++	)
++{
++	u1Byte	H2C_Parameter[3] ={0};
++
++	if(bBalanceOn)
++	{
++		H2C_Parameter[2] = 1;
++		H2C_Parameter[1] = ms1;
++		H2C_Parameter[0] = ms0;
++	}
++	else
++	{
++		H2C_Parameter[2] = 0;
++		H2C_Parameter[1] = 0;
++		H2C_Parameter[0] = 0;
++	}
++	
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Balance=[%s:%dms:%dms], write 0xc=0x%x\n", 
++		bBalanceOn?"ON":"OFF", ms0, ms1,
++		H2C_Parameter[0]<<16|H2C_Parameter[1]<<8|H2C_Parameter[2]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0xc, 3, H2C_Parameter);	
++}
++
++VOID
++halbtc8188c2ant_Balance(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bBalanceOn,
++	IN	u1Byte			ms0,
++	IN	u1Byte			ms1
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn Balance %s\n", 
++		(bForceExec? "force to":""), (bBalanceOn? "ON":"OFF")));
++	pCoexDm->bCurBalanceOn = bBalanceOn;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreBalanceOn == pCoexDm->bCurBalanceOn)
++			return;
++	}
++	halbtc8188c2ant_SetFwBalance(pBtCoexist, bBalanceOn, ms0, ms1);
++
++	pCoexDm->bPreBalanceOn = pCoexDm->bCurBalanceOn;
++}
++
++VOID
++halbtc8188c2ant_SetFwDiminishWifi(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN 		bDacOn,
++	IN	BOOLEAN 		bInterruptOn,
++	IN	u1Byte			fwDacSwingLvl,
++	IN	BOOLEAN 		bNavOn
++	)
++{
++	u1Byte			H2C_Parameter[3] ={0};
++
++	if((pBtCoexist->stackInfo.minBtRssi <= -5) && (fwDacSwingLvl == 0x20))
++	{
++		RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], DiminishWiFi 0x20 original, but set 0x18 for Low RSSI!\n"));
++		fwDacSwingLvl = 0x18;
++	}
++
++	H2C_Parameter[2] = 0;
++	H2C_Parameter[1] = fwDacSwingLvl;
++	H2C_Parameter[0] = 0;
++	if(bDacOn)
++	{
++		H2C_Parameter[2] |= 0x01;	//BIT0
++		if(bInterruptOn)
++		{
++			H2C_Parameter[2] |= 0x02;	//BIT1
++		}
++	}
++	if(bNavOn)
++	{
++		H2C_Parameter[2] |= 0x08;	//BIT3
++	}
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], bDacOn=%s, bInterruptOn=%s, bNavOn=%s, write 0xe=0x%x\n", 
++		(bDacOn?"ON":"OFF"), (bInterruptOn?"ON":"OFF"), (bNavOn?"ON":"OFF"),
++		(H2C_Parameter[0]<<16|H2C_Parameter[1]<<8|H2C_Parameter[2])));
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0xe, 3, H2C_Parameter);
++}
++
++VOID
++halbtc8188c2ant_DiminishWifi(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bDacOn,
++	IN	BOOLEAN			bInterruptOn,
++	IN	u1Byte			fwDacSwingLvl,
++	IN	BOOLEAN			bNavOn
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s set Diminish Wifi, bDacOn=%s, bInterruptOn=%s, fwDacSwingLvl=%d, bNavOn=%s\n", 
++		(bForceExec? "force to":""), (bDacOn? "ON":"OFF"), (bInterruptOn? "ON":"OFF"), fwDacSwingLvl, (bNavOn? "ON":"OFF")));
++
++	pCoexDm->bCurDacOn = bDacOn;
++	pCoexDm->bCurInterruptOn = bInterruptOn;
++	pCoexDm->curFwDacSwingLvl = fwDacSwingLvl;
++	pCoexDm->bCurNavOn = bNavOn;
++
++	if(!bForceExec)
++	{
++		if( (pCoexDm->bPreDacOn==pCoexDm->bCurDacOn) &&
++			(pCoexDm->bPreInterruptOn==pCoexDm->bCurInterruptOn) &&
++			(pCoexDm->preFwDacSwingLvl==pCoexDm->curFwDacSwingLvl) &&
++			(pCoexDm->bPreNavOn==pCoexDm->bCurNavOn) )
++			return;
++	}
++	halbtc8188c2ant_SetFwDiminishWifi(pBtCoexist, bDacOn, bInterruptOn, fwDacSwingLvl, bNavOn);
++
++	pCoexDm->bPreDacOn = pCoexDm->bCurDacOn;
++	pCoexDm->bPreInterruptOn = pCoexDm->bCurInterruptOn;
++	pCoexDm->preFwDacSwingLvl = pCoexDm->curFwDacSwingLvl;
++	pCoexDm->bPreNavOn = pCoexDm->bCurNavOn;
++}
++
++VOID
++halbtc8188c2ant_SetSwRfRxLpfCorner(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bRxRfShrinkOn
++	)
++{
++	if(bRxRfShrinkOn)
++	{
++		//Shrink RF Rx LPF corner
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Shrink RF Rx LPF corner!!\n"));
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xf0, 0xf);		
++	}
++	else
++	{
++		//Resume RF Rx LPF corner
++		// After initialized, we can use pCoexDm->btRf0x1eBackup
++		if(pBtCoexist->bInitilized)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Resume RF Rx LPF corner!!\n"));
++			pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xf0, pCoexDm->btRf0x1eBackup);
++		}
++	}
++}
++
++VOID
++halbtc8188c2ant_RfShrink(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bRxRfShrinkOn
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn Rx RF Shrink = %s\n",  
++		(bForceExec? "force to":""), ((bRxRfShrinkOn)? "ON":"OFF")));
++	pCoexDm->bCurRfRxLpfShrink = bRxRfShrinkOn;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreRfRxLpfShrink == pCoexDm->bCurRfRxLpfShrink) 
++			return;
++	}
++	halbtc8188c2ant_SetSwRfRxLpfCorner(pBtCoexist, pCoexDm->bCurRfRxLpfShrink);
++
++	pCoexDm->bPreRfRxLpfShrink = pCoexDm->bCurRfRxLpfShrink;
++}
++
++VOID
++halbtc8188c2ant_SetSwPenaltyTxRateAdaptive(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bLowPenaltyRa
++	)
++{
++	u1Byte	tmpU1;
++
++	tmpU1 = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x4fd);
++	if(bLowPenaltyRa)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Tx rate adaptive, set low penalty!!\n"));
++		tmpU1 &= ~BIT2;
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Tx rate adaptive, set normal!!\n"));
++		tmpU1 |= BIT2;
++	}
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x4fd, tmpU1);
++}
++
++VOID
++halbtc8188c2ant_LowPenaltyRa(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bLowPenaltyRa
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn LowPenaltyRA = %s\n",  
++		(bForceExec? "force to":""), ((bLowPenaltyRa)? "ON":"OFF")));
++	pCoexDm->bCurLowPenaltyRa = bLowPenaltyRa;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreLowPenaltyRa == pCoexDm->bCurLowPenaltyRa) 
++			return;
++	}
++	halbtc8188c2ant_SetSwPenaltyTxRateAdaptive(pBtCoexist, pCoexDm->bCurLowPenaltyRa);
++
++	pCoexDm->bPreLowPenaltyRa = pCoexDm->bCurLowPenaltyRa;
++}
++
++VOID
++halbtc8188c2ant_SetSwFullTimeDacSwing(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bSwDacSwingOn,
++	IN	u4Byte			swDacSwingLvl
++	)
++{
++	u4Byte	dacSwingLvl;
++
++	if(bSwDacSwingOn)
++	{		
++		if((pBtCoexist->stackInfo.minBtRssi <= -5) && (swDacSwingLvl == 0x20))
++		{
++			dacSwingLvl = 0x18;
++		}
++		else
++		{
++			dacSwingLvl = swDacSwingLvl;
++		}
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x880, 0xfc000000, dacSwingLvl);
++	}
++	else
++	{
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x880, 0xfc000000, 0x30);
++	}
++}
++
++VOID
++halbtc8188c2ant_DacSwing(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bDacSwingOn,
++	IN	u4Byte			dacSwingLvl
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn DacSwing=%s, dacSwingLvl=0x%x\n",  
++		(bForceExec? "force to":""), ((bDacSwingOn)? "ON":"OFF"), dacSwingLvl));
++	pCoexDm->bCurDacSwingOn = bDacSwingOn;
++	pCoexDm->curDacSwingLvl = dacSwingLvl;
++
++	if(!bForceExec)
++	{
++		if( (pCoexDm->bPreDacSwingOn == pCoexDm->bCurDacSwingOn) &&
++			(pCoexDm->preDacSwingLvl == pCoexDm->curDacSwingLvl) )
++			return;
++	}
++	delay_ms(30);
++	halbtc8188c2ant_SetSwFullTimeDacSwing(pBtCoexist, bDacSwingOn, dacSwingLvl);
++
++	pCoexDm->bPreDacSwingOn = pCoexDm->bCurDacSwingOn;
++	pCoexDm->preDacSwingLvl = pCoexDm->curDacSwingLvl;
++}
++
++VOID
++halbtc8188c2ant_SetAdcBackOff(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bAdcBackOff
++	)
++{
++	if(bAdcBackOff)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BB BackOff Level On!\n"));
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc04,0x3a07611);
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BB BackOff Level Off!\n"));		
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc04,0x3a05611);
++	}
++}
++
++VOID
++halbtc8188c2ant_AdcBackOff(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bAdcBackOff
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn AdcBackOff = %s\n",  
++		(bForceExec? "force to":""), ((bAdcBackOff)? "ON":"OFF")));
++	pCoexDm->bCurAdcBackOff = bAdcBackOff;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreAdcBackOff == pCoexDm->bCurAdcBackOff) 
++			return;
++	}
++	halbtc8188c2ant_SetAdcBackOff(pBtCoexist, pCoexDm->bCurAdcBackOff);
++
++	pCoexDm->bPreAdcBackOff = pCoexDm->bCurAdcBackOff;
++}
++
++VOID
++halbtc8188c2ant_SetAgcTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bAgcTableEn
++	)
++{
++	u1Byte		rssiAdjustVal=0;
++
++	if(bAgcTableEn)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Agc Table On!\n"));
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4e1c0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4d1d0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4c1e0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4b1f0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4a200001);
++
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0xdc000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x90000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x51000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x12000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1a, 0xfffff, 0x00255);
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Agc Table Off!\n"));
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x641c0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x631d0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x621e0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x611f0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x60200001);
++
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x32000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x71000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0xb0000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0xfc000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1a, 0xfffff, 0x10255);
++	}
++
++	// set rssiAdjustVal for wifi module.
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_U1_RSSI_ADJ_VAL_FOR_AGC_TABLE_ON, &rssiAdjustVal);
++}
++
++
++VOID
++halbtc8188c2ant_AgcTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bAgcTableEn
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s %s Agc Table\n",  
++		(bForceExec? "force to":""), ((bAgcTableEn)? "Enable":"Disable")));
++	pCoexDm->bCurAgcTableEn = bAgcTableEn;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreAgcTableEn == pCoexDm->bCurAgcTableEn) 
++			return;
++	}
++	halbtc8188c2ant_SetAgcTable(pBtCoexist, bAgcTableEn);
++
++	pCoexDm->bPreAgcTableEn = pCoexDm->bCurAgcTableEn;
++}
++
++VOID
++halbtc8188c2ant_SetCoexTable(
++	IN	PBTC_COEXIST	pBtCoexist,
++	IN	u4Byte		val0x6c4,
++	IN	u4Byte		val0x6c8,
++	IN	u4Byte		val0x6cc
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], set coex table, set 0x6c4=0x%x\n", val0x6c4));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c4, val0x6c4);
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], set coex table, set 0x6c8=0x%x\n", val0x6c8));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c8, val0x6c8);
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], set coex table, set 0x6cc=0x%x\n", val0x6cc));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6cc, val0x6cc);
++}
++
++VOID
++halbtc8188c2ant_CoexTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	u4Byte			val0x6c4,
++	IN	u4Byte			val0x6c8,
++	IN	u4Byte			val0x6cc
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s write Coex Table 0x6c4=0x%x, 0x6c8=0x%x, 0x6cc=0x%x\n", 
++		(bForceExec? "force to":""), val0x6c4, val0x6c8, val0x6cc));
++	pCoexDm->curVal0x6c4 = val0x6c4;
++	pCoexDm->curVal0x6c8 = val0x6c8;
++	pCoexDm->curVal0x6cc = val0x6cc;
++
++	if(!bForceExec)
++	{	
++		if( (pCoexDm->preVal0x6c4 == pCoexDm->curVal0x6c4) &&
++			(pCoexDm->preVal0x6c8 == pCoexDm->curVal0x6c8) &&
++			(pCoexDm->preVal0x6cc == pCoexDm->curVal0x6cc) )
++			return;
++	}
++	halbtc8188c2ant_SetCoexTable(pBtCoexist, val0x6c4, val0x6c8, val0x6cc);
++
++	pCoexDm->preVal0x6c4 = pCoexDm->curVal0x6c4;
++	pCoexDm->preVal0x6c8 = pCoexDm->curVal0x6c8;
++	pCoexDm->preVal0x6cc = pCoexDm->curVal0x6cc;
++}
++
++VOID
++halbtc8188c2ant_CoexAllOff(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	// fw mechanism
++	halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++	halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++	// sw mechanism
++	halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++}
++VOID
++halbtc8188c2ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++}
++
++
++VOID
++halbtc8188c2ant_MonitorBtState(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	BOOLEAN			stateChange=FALSE;
++	u4Byte 			BT_Polling, Ratio_Act, Ratio_STA;
++	u4Byte 			BT_Active, BT_State;
++	u4Byte			regBTActive=0, regBTState=0, regBTPolling=0;
++	u4Byte			btBusyThresh=0;
++	u4Byte			fwVer=0;
++	static BOOLEAN	bBtBusyTraffic=FALSE;
++	BOOLEAN			bRejApAggPkt=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_FW_VER, &fwVer);
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], FirmwareVersion = 0x%x(%d)\n", fwVer, fwVer));
++	if(fwVer < 62)
++	{
++		regBTActive = 0x488;
++		regBTState = 0x48c;
++		regBTPolling = 0x490;
++	}
++	else
++	{
++		regBTActive = 0x444;
++		regBTState = 0x448;
++		if(fwVer >= 74)
++			regBTPolling = 0x44c;
++		else
++			regBTPolling = 0x700;
++	}
++	btBusyThresh = 60;
++	
++	BT_Active = pBtCoexist->fBtcRead4Byte(pBtCoexist, regBTActive);
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT_Active(0x%x)=0x%x\n", regBTActive, BT_Active));
++	BT_Active = BT_Active & 0x00ffffff;
++
++	BT_State = pBtCoexist->fBtcRead4Byte(pBtCoexist, regBTState);
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT_State(0x%x)=0x%x\n", regBTState, BT_State));
++	BT_State = BT_State & 0x00ffffff;
++
++	BT_Polling = pBtCoexist->fBtcRead4Byte(pBtCoexist, regBTPolling);
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT_Polling(0x%x)=0x%x\n", regBTPolling, BT_Polling));
++
++	if(BT_Active==0xffffffff && BT_State==0xffffffff && BT_Polling==0xffffffff )
++		return;
++
++	// 2011/05/04 MH For Slim combo test meet a problem. Surprise remove and WLAN is running
++	// DHCP process. At the same time, the register read value might be zero. And cause BSOD 0x7f
++	// EXCEPTION_DIVIDED_BY_ZERO. In This case, the stack content may always be wrong due to 
++	// HW divide trap.
++	if (BT_Polling==0)
++		return;
++	
++	Ratio_Act = BT_Active*1000/BT_Polling;
++	Ratio_STA = BT_State*1000/BT_Polling;
++		
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Ratio_Act=%d\n", Ratio_Act));
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Ratio_STA=%d\n", Ratio_STA));
++
++	if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		if(Ratio_STA < 60)	// BT PAN idle
++		{
++		}
++		else
++		{
++			// Check if BT PAN (under BT 2.1) is uplink or downlink
++			if((Ratio_Act/Ratio_STA) < 2)
++			{	// BT PAN Uplink
++				pCoexSta->bBtUplink = TRUE;
++			}
++			else
++			{	// BT PAN downlink
++				pCoexSta->bBtUplink = FALSE;
++			}
++		}
++	}	
++	
++	// Check BT is idle or not
++	if(!pBtCoexist->stackInfo.bBtLinkExist)
++	{
++		pCoexSta->bBtBusy = FALSE;
++	}
++	else
++	{
++		if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++		{
++			if(Ratio_Act<20)
++			{
++				pCoexSta->bBtBusy = FALSE;
++			}
++			else
++			{
++				pCoexSta->bBtBusy = TRUE;
++			}
++		}
++		else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++		{
++			if(Ratio_STA < btBusyThresh)
++			{
++				pCoexSta->bBtBusy = FALSE;
++			}
++			else
++			{
++				pCoexSta->bBtBusy = TRUE;
++			}
++
++			if( (Ratio_STA < btBusyThresh) ||
++				(Ratio_Act<180 && Ratio_STA<130) )
++			{
++				pCoexSta->bA2dpBusy = FALSE;
++			}
++			else
++			{
++				pCoexSta->bA2dpBusy = TRUE;
++			}
++		}
++	}
++
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &pCoexSta->bBtBusy);
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_LIMITED_DIG, &pCoexSta->bBtBusy);
++	
++	if(bBtBusyTraffic != pCoexSta->bBtBusy)
++	{	// BT idle or BT non-idle
++		bBtBusyTraffic = pCoexSta->bBtBusy;
++		stateChange = TRUE;
++	}
++
++	if(stateChange)
++	{
++		if(!pCoexSta->bBtBusy)
++		{
++			halbtc8188c2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_RfShrink(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_CoexAllOff(pBtCoexist);
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++		}
++		else
++		{
++			halbtc8188c2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8188c2ant_RfShrink(pBtCoexist, NORMAL_EXEC, TRUE);
++		}
++	}
++
++	if(stateChange)
++	{
++		bRejApAggPkt = pCoexSta->bBtBusy;
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT, &bRejApAggPkt);
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionA2dpBc4(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte			wifiRssiState;
++	u4Byte			wifiBw, wifiTrafficDir;
++
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++	
++	if(pCoexSta->bBtBusy)
++	{
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++		{
++			// fw mechanism first
++			if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0xc, 0x18);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x20, FALSE);
++			}
++			else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++			}
++
++			// sw mechanism 
++			halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++		}
++		else
++		{
++			wifiRssiState = halbtc8188c2ant_WifiRssiState(pBtCoexist, 0, 2, 47, 0);
++
++			if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0xc, 0x18);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x20, FALSE);
++			}
++			else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++			}
++
++			// sw mechanism 
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++			}
++			else
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++			}
++		}
++	}
++	else
++	{
++		halbtc8188c2ant_CoexAllOff(pBtCoexist);
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionA2dpBc8(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte			wifiRssiState;
++	u4Byte			wifiBw, wifiTrafficDir;
++	BOOLEAN			bWifiBusy=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++	if(pCoexSta->bA2dpBusy && bWifiBusy)
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++		wifiRssiState = halbtc8188c2ant_WifiRssiState(pBtCoexist, 0, 2, 47, 0);
++
++		// fw mechanism first
++		if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++		{
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0xc, 0x18);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++		}
++		else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++		{
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x10, 0x18);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++		}
++
++		// sw mechanism 
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++		{
++			halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++		else
++		{
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++			else
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++	}
++	else if(pCoexSta->bA2dpBusy)
++	{
++		// fw mechanism first
++		halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, TRUE, 0x18, FALSE);
++
++		// sw mechanism 
++		halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++	}
++	else
++	{
++		halbtc8188c2ant_CoexAllOff(pBtCoexist);
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionA2dp(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionA2dpBc4(pBtCoexist);
++	}
++	else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionA2dpBc8(pBtCoexist);
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionPanBc4(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++	if(bBtHsOn)
++	{
++		halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++	}
++	else
++	{
++		if(pCoexSta->bBtBusy && bWifiBusy)
++		{
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x10);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++		}
++		else
++		{
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++		}
++	}
++	// sw mechanism
++	halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++}
++
++VOID
++halbtc8188c2ant_ActionPanBc8(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u1Byte		wifiRssiState;
++	u4Byte		wifiBw, wifiTrafficDir;
++	s4Byte		wifiRssi;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_S4_WIFI_RSSI, &wifiRssi);
++	
++	if(bBtHsOn)
++	{
++		halbtc8188c2ant_CoexAllOff(pBtCoexist);
++	}
++	else
++	{
++		wifiRssiState = halbtc8188c2ant_WifiRssiState(pBtCoexist, 0, 3, 25, 50);
++
++		if(pCoexSta->bBtBusy && bWifiBusy)
++		{
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				// fw mechanism first
++				if(pCoexSta->bBtUplink)
++				{
++					halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x20);
++					halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++				}
++				else
++				{
++					halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++					halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++				}
++				// sw mechanism 
++				if(BTC_WIFI_BW_HT40 == wifiBw)
++				{
++					halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				}
++				else
++				{
++					halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				}
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				if(pCoexSta->bBtUplink)
++				{
++					halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++				else
++				{
++					halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++				}
++			}
++			else if( (wifiRssiState == BTC_RSSI_STATE_MEDIUM) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_MEDIUM) )
++			{
++				// fw mechanism first
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x20);
++
++				if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++				{
++					halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++				}
++				else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++				{
++					if(BTC_WIFI_BW_HT40 == wifiBw)
++						halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);//BT_FW_NAV_ON);
++					else
++						halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++				}
++				// sw mechanism 
++				if(BTC_WIFI_BW_HT40 == wifiBw)
++				{
++					halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				}
++				else
++				{
++					halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				}
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++			else
++			{
++				// fw mechanism first
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x20);
++				
++				if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++				{
++					halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++				}
++				else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++				{
++					if(pCoexSta->bBtUplink)
++					{
++						if(BTC_WIFI_BW_HT40 == wifiBw)
++						{
++							halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);//BT_FW_NAV_ON);
++						}
++						else
++						{
++							halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++						}						
++					}
++					else
++					{
++						halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++					}
++				}
++				// sw mechanism 
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++		else if(pCoexSta->bBtBusy && !bWifiBusy && (wifiRssi < 30))
++		{
++			// fw mechanism first
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x0a, 0x20);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++			// sw mechanism 
++			halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++		else
++		{
++			halbtc8188c2ant_CoexAllOff(pBtCoexist);
++		}
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionPan(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionPanBc4(pBtCoexist);
++	}
++	else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionPanBc8(pBtCoexist);
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionHid(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u4Byte		wifiBw, wifiTrafficDir;
++	BOOLEAN 	bWifiBusy=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++	if(BTC_WIFI_BW_LEGACY == wifiBw)
++	{
++		halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++
++		halbtc8188c2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++		pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++	}
++	else if(!bWifiBusy)
++	{
++		pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++		halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++	}
++	else if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++	{
++		halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++
++		halbtc8188c2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++		pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++	}
++	else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++	{
++		pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++		halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++	}
++	// sw mechanism
++	halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++}
++
++
++VOID
++halbtc8188c2ant_ActionSco(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte	wifiRssiState;
++	u4Byte	wifiBw;
++
++	if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++	{
++		pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++		
++		// fw mechanism
++		halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++
++		// sw mechanism
++		halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++	}
++	else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++		{
++			// fw mechanism first
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++			// sw mechanism 
++			halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++		else
++		{
++			wifiRssiState = halbtc8188c2ant_WifiRssiState(pBtCoexist, 0, 2, 47, 0);
++			// fw mechanism first
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++			// sw mechanism 
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++			else
++			{			
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);	
++			}
++		}
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionHidA2dpBc4(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState;
++	u4Byte		wifiBw, wifiTrafficDir;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++
++	if(pCoexSta->bBtBusy)
++	{
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++		{
++			// fw mechanism first
++			if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x7, 0x20);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x20, FALSE);
++			}
++			else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++			}
++
++			// sw mechanism 
++			halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++		}
++		else
++		{
++			wifiRssiState = halbtc8188c2ant_WifiRssiState(pBtCoexist, 0, 2, 47, 0);
++			// fw mechanism first
++			if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x7, 0x20);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x20, FALSE);
++			}
++			else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++			}
++
++			// sw mechanism 
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++			else
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++		}
++	}
++	else
++	{
++		halbtc8188c2ant_CoexAllOff(pBtCoexist);
++	}
++}
++VOID
++halbtc8188c2ant_ActionHidA2dpBc8(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState;
++	u4Byte		wifiBw;
++	
++	if(pCoexSta->bBtBusy)
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++		{
++			// fw mechanism first
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++			// sw mechanism 
++			halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++		}
++		else
++		{
++			wifiRssiState = halbtc8188c2ant_WifiRssiState(pBtCoexist, 0, 2, 47, 0);
++			// fw mechanism
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++			// sw mechanism 
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++			else
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++		}
++	}
++	else
++	{
++		halbtc8188c2ant_CoexAllOff(pBtCoexist);
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionHidA2dp(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionHidA2dpBc4(pBtCoexist);
++	}
++	else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionHidA2dpBc8(pBtCoexist);
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionHidPanBc4(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u4Byte		wifiBw, wifiTrafficDir;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++	
++	if(bBtHsOn)
++	{	
++		halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++
++		halbtc8188c2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++		pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++	}
++	else
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++		if(BTC_WIFI_BW_LEGACY == wifiBw)
++		{
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++
++			halbtc8188c2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++		}
++		else if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++		{
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++			
++			halbtc8188c2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++		}
++		else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++		{
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x10);					
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++		}
++		else if(!bWifiBusy)
++		{
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++		}			
++	}
++	halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++}
++VOID
++halbtc8188c2ant_ActionHidPanBc8(	
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u1Byte		wifiRssiState;
++	u4Byte		wifiBw, wifiTrafficDir;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++
++	if(!bBtHsOn)
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++		wifiRssiState = halbtc8188c2ant_WifiRssiState(pBtCoexist, 0, 2, 25, 0);
++		if((pCoexSta->bBtBusy && bWifiBusy))
++		{
++			// fw mechanism first
++			if(pCoexSta->bBtUplink)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x15, 0x20);
++			}
++			else
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x10, 0x20);
++			}
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++
++			// sw mechanism 
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++				if(BTC_WIFI_BW_HT40 == wifiBw)
++				{
++					halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++					halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++				else
++				{
++					halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++			}
++			else
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++		else
++		{
++			halbtc8188c2ant_CoexAllOff(pBtCoexist);
++		}
++	}
++	else
++	{
++		if(BTC_INTF_USB == pBtCoexist->chipInterface)
++		{	
++			pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++			if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++
++				halbtc8188c2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++				pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++			else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++			{
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++		}
++		else 
++		{
++			if(pCoexSta->bBtBusy)
++			{
++				// fw mechanism
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++				halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++				// sw mechanism
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++			}
++			else
++			{
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionHidPan(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{		
++	if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionHidPanBc4(pBtCoexist);
++	}
++	else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionHidPanBc8(pBtCoexist);
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionPanA2dpBc4(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u1Byte		wifiRssiState;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++	if(bBtHsOn)
++	{
++		if(pCoexSta->bBtBusy)
++		{
++			// fw mechanism
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++			// sw mechanism
++			halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++		}
++		else
++		{
++			halbtc8188c2ant_CoexAllOff(pBtCoexist);
++		}
++	}
++	else
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++		if(pCoexSta->bBtBusy && bWifiBusy)
++		{
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x10);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++		}
++		else
++		{
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++		}			
++		// sw mechanism
++		halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++	}
++}
++VOID
++halbtc8188c2ant_ActionPanA2dpBc8(	
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u1Byte		wifiRssiState;
++	u4Byte		wifiBw;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++
++	if(!bBtHsOn)
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++		wifiRssiState = halbtc8188c2ant_WifiRssiState(pBtCoexist, 0, 2, 25, 0);
++		if((pCoexSta->bBtBusy && bWifiBusy))
++		{
++			// fw mechanism first
++			if(pCoexSta->bBtUplink)
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x15, 0x20);
++			}
++			else
++			{
++				halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x10, 0x20);
++			}
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++
++			// sw mechanism 
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++				if(BTC_WIFI_BW_HT40 == wifiBw)
++				{
++					halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++					halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++				else	
++				{
++					halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++			}
++			else
++			{
++				halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++		else
++		{
++			halbtc8188c2ant_CoexAllOff(pBtCoexist);
++		}
++	}
++	else
++	{
++		if(pCoexSta->bBtBusy)
++		{
++			// fw mechanism
++			halbtc8188c2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8188c2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++			// sw mechanism			
++			halbtc8188c2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++		}
++		else
++		{
++			halbtc8188c2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++	}
++}
++
++VOID
++halbtc8188c2ant_ActionPanA2dp(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionPanA2dpBc4(pBtCoexist);
++	}
++	else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8188c2ant_ActionPanA2dpBc8(pBtCoexist);
++	}
++}
++
++//============================================================
++// extern function start with EXhalbtc8188c2ant_
++//============================================================
++VOID
++EXhalbtc8188c2ant_PowerOnSetting(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++}
++
++VOID
++EXhalbtc8188c2ant_InitHwConfig(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN				bWifiOnly
++	)
++{
++	u1Byte	u1Tmp=0;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 2Ant Init HW Config!!\n"));
++
++	// backup rf 0x1e value
++	pCoexDm->btRf0x1eBackup = 
++		pBtCoexist->fBtcGetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xf0);
++
++	if( (BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType) ||
++		(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType) )
++	{
++		u1Tmp = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x4fd) & BIT0;
++		pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x4fd, u1Tmp);
++		
++		halbtc8188c2ant_CoexTable(pBtCoexist, FORCE_EXEC, 0xaaaa9aaa, 0xffbd0040, 0x40000010);
++	}
++}
++
++VOID
++EXhalbtc8188c2ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Coex Mechanism Init!!\n"));
++	
++	halbtc8188c2ant_InitCoexDm(pBtCoexist);
++}
++
++VOID
++EXhalbtc8188c2ant_DisplayCoexInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	PBTC_BOARD_INFO		pBoardInfo=&pBtCoexist->boardInfo;
++	PBTC_STACK_INFO		pStackInfo=&pBtCoexist->stackInfo;
++	pu1Byte				cliBuf=pBtCoexist->cliBuf;
++	u1Byte				u1Tmp[4], i, btInfoExt, psTdmaCase=0;
++	u4Byte				u4Tmp[4];
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ", "Ant PG number/ Ant mechanism:", \
++		pBoardInfo->pgAntNum, pBoardInfo->btdmAntNum);
++	CL_PRINTF(cliBuf);	
++	
++	if(pBtCoexist->bManualControl)
++	{
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "[Action Manual control]!!");
++		CL_PRINTF(cliBuf);
++	}
++	
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %d", "BT stack/ hci ext ver", \
++		((pStackInfo->bProfileNotified)? "Yes":"No"), pStackInfo->hciVersion);
++	CL_PRINTF(cliBuf);
++	
++	// wifi status
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Wifi Status]============");
++	CL_PRINTF(cliBuf);
++	pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[BT Status]============");
++	CL_PRINTF(cliBuf);
++	
++	if(pStackInfo->bProfileNotified)
++	{			
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d", "SCO/HID/PAN/A2DP", \
++			pStackInfo->bScoExist, pStackInfo->bHidExist, pStackInfo->bPanExist, pStackInfo->bA2dpExist);
++		CL_PRINTF(cliBuf);	
++
++		pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_BT_LINK_INFO);
++	}
++	
++	// Sw mechanism	
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Sw mechanism]============");
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d(0x%x) ", "SM2[AgcT/ AdcB/ SwDacSwing(lvl)]", \
++		pCoexDm->bCurAgcTableEn, pCoexDm->bCurAdcBackOff, pCoexDm->bCurDacSwingOn, pCoexDm->curDacSwingLvl);
++	CL_PRINTF(cliBuf);
++
++	// Fw mechanism		
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Fw mechanism]============");
++	CL_PRINTF(cliBuf);
++
++	// Hw setting		
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Hw setting]============");
++	CL_PRINTF(cliBuf);	
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "RF-A, 0x1e initVal", \
++		pCoexDm->btRf0x1eBackup);
++	CL_PRINTF(cliBuf);
++
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x40);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x40", \
++		u1Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xc50);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0xc50(dig)", \
++		u4Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c4);
++	u4Tmp[1] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c8);
++	u4Tmp[2] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6cc);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x", "0x6c4/0x6c8/0x6cc(coexTable)", \
++		u4Tmp[0], u4Tmp[1], u4Tmp[2]);
++	CL_PRINTF(cliBuf);
++
++	pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++VOID
++EXhalbtc8188c2ant_IpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_IPS_ENTER == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], IPS ENTER notify\n"));
++		halbtc8188c2ant_CoexAllOff(pBtCoexist);
++	}
++	else if(BTC_IPS_LEAVE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], IPS LEAVE notify\n"));
++		//halbtc8188c2ant_InitCoexDm(pBtCoexist);
++	}
++}
++
++VOID
++EXhalbtc8188c2ant_LpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_LPS_ENABLE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], LPS ENABLE notify\n"));
++		halbtc8188c2ant_CoexAllOff(pBtCoexist);
++	}
++	else if(BTC_LPS_DISABLE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], LPS DISABLE notify\n"));
++		halbtc8188c2ant_InitCoexDm(pBtCoexist);
++	}
++}
++
++VOID
++EXhalbtc8188c2ant_ScanNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_SCAN_START == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCAN START notify\n"));
++	}
++	else if(BTC_SCAN_FINISH == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCAN FINISH notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8188c2ant_ConnectNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_ASSOCIATE_START == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], CONNECT START notify\n"));
++	}
++	else if(BTC_ASSOCIATE_FINISH == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], CONNECT FINISH notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8188c2ant_MediaStatusNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{	
++	if(BTC_MEDIA_CONNECT == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], MEDIA connect notify\n"));
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], MEDIA disconnect notify\n"));
++	}
++	
++}
++
++VOID
++EXhalbtc8188c2ant_SpecialPacketNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{
++	if(type == BTC_PACKET_DHCP)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], DHCP Packet notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8188c2ant_BtInfoNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	pu1Byte			tmpBuf,
++	IN	u1Byte			length
++	)
++{
++}
++
++VOID
++EXhalbtc8188c2ant_HaltNotify(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Halt notify\n"));
++
++	EXhalbtc8188c2ant_MediaStatusNotify(pBtCoexist, BTC_MEDIA_DISCONNECT);
++}
++
++VOID
++EXhalbtc8188c2ant_Periodical(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	u1Byte	algorithm;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 2Ant Periodical!!\n"));
++
++	// NOTE:
++	// sw mechanism must be done after fw mechanism
++	// 
++
++	if((BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType) ||
++		(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType) )
++	{
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_GET_BT_RSSI, NULL);
++
++		halbtc8188c2ant_MonitorBtState(pBtCoexist);
++		algorithm = halbtc8188c2ant_ActionAlgorithm(pBtCoexist);	
++		pCoexDm->curAlgorithm = algorithm;
++		switch(pCoexDm->curAlgorithm)
++		{
++			case BT_8188C_2ANT_COEX_ALGO_SCO:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = SCO\n"));
++				halbtc8188c2ant_ActionSco(pBtCoexist);
++				break;
++			case BT_8188C_2ANT_COEX_ALGO_HID:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = HID\n"));
++				halbtc8188c2ant_ActionHid(pBtCoexist);
++				break;
++			case BT_8188C_2ANT_COEX_ALGO_A2DP:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = A2DP\n"));
++				halbtc8188c2ant_ActionA2dp(pBtCoexist);
++				break;
++			case BT_8188C_2ANT_COEX_ALGO_PAN:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = PAN\n"));
++				halbtc8188c2ant_ActionPan(pBtCoexist);
++				break;
++			case BT_8188C_2ANT_COEX_ALGO_HID_A2DP:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = HID+A2DP\n"));
++				halbtc8188c2ant_ActionHidA2dp(pBtCoexist);
++				break;
++			case BT_8188C_2ANT_COEX_ALGO_HID_PAN:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = PAN+HID\n"));
++				halbtc8188c2ant_ActionHidPan(pBtCoexist);
++				break;
++			case BT_8188C_2ANT_COEX_ALGO_PAN_A2DP:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = PAN+A2DP\n"));
++				halbtc8188c2ant_ActionPanA2dp(pBtCoexist);
++				break;
++			default:
++				break;
++		}
++	}
++}
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8188c2Ant.h b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8188c2Ant.h
+new file mode 100644
+index 0000000..ce7ec56
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8188c2Ant.h
+@@ -0,0 +1,149 @@
++//===========================================
++// The following is for 8188C 2Ant BT Co-exist definition
++//===========================================
++#define		BTC_RSSI_COEX_THRESH_TOL_8188C_2ANT		6
++
++typedef enum _BT_INFO_SRC_8188C_2ANT{
++	BT_INFO_SRC_8188C_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8188C_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8188C_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8188C_2ANT_MAX
++}BT_INFO_SRC_8188C_2ANT,*PBT_INFO_SRC_8188C_2ANT;
++
++typedef enum _BT_8188C_2ANT_BT_STATUS{
++	BT_8188C_2ANT_BT_STATUS_IDLE				= 0x0,
++	BT_8188C_2ANT_BT_STATUS_CONNECTED_IDLE	= 0x1,
++	BT_8188C_2ANT_BT_STATUS_NON_IDLE			= 0x2,
++	BT_8188C_2ANT_BT_STATUS_MAX
++}BT_8188C_2ANT_BT_STATUS,*PBT_8188C_2ANT_BT_STATUS;
++
++typedef enum _BT_8188C_2ANT_COEX_ALGO{
++	BT_8188C_2ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8188C_2ANT_COEX_ALGO_SCO					= 0x1,
++	BT_8188C_2ANT_COEX_ALGO_HID					= 0x2,
++	BT_8188C_2ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8188C_2ANT_COEX_ALGO_PAN					= 0x4,
++	BT_8188C_2ANT_COEX_ALGO_HID_A2DP			= 0x5,
++	BT_8188C_2ANT_COEX_ALGO_HID_PAN				= 0x6,
++	BT_8188C_2ANT_COEX_ALGO_PAN_A2DP			= 0x7,
++	BT_8188C_2ANT_COEX_ALGO_MAX
++}BT_8188C_2ANT_COEX_ALGO,*PBT_8188C_2ANT_COEX_ALGO;
++
++typedef struct _COEX_DM_8188C_2ANT{
++	// fw mechanism
++	BOOLEAN		bPreBalanceOn;
++	BOOLEAN		bCurBalanceOn;
++
++	// diminishWifi
++	BOOLEAN		bPreDacOn;
++	BOOLEAN		bCurDacOn;
++	BOOLEAN 	bPreInterruptOn;
++	BOOLEAN		bCurInterruptOn;
++	u1Byte		preFwDacSwingLvl;
++	u1Byte		curFwDacSwingLvl;
++	BOOLEAN 	bPreNavOn;
++	BOOLEAN		bCurNavOn;
++
++	// sw mechanism
++	BOOLEAN		bPreRfRxLpfShrink;
++	BOOLEAN		bCurRfRxLpfShrink;
++	u4Byte		btRf0x1eBackup;
++	BOOLEAN 	bPreLowPenaltyRa;
++	BOOLEAN		bCurLowPenaltyRa;
++	BOOLEAN		bPreDacSwingOn;
++	u4Byte		preDacSwingLvl;
++	BOOLEAN		bCurDacSwingOn;
++	u4Byte		curDacSwingLvl;
++	BOOLEAN		bPreAdcBackOff;
++	BOOLEAN		bCurAdcBackOff;
++	BOOLEAN 	bPreAgcTableEn;
++	BOOLEAN		bCurAgcTableEn;
++	//u4Byte		preVal0x6c0;
++	//u4Byte		curVal0x6c0;
++	u4Byte		preVal0x6c4;
++	u4Byte		curVal0x6c4;
++	u4Byte		preVal0x6c8;
++	u4Byte		curVal0x6c8;
++	u4Byte		preVal0x6cc;
++	u4Byte		curVal0x6cc;
++	//BOOLEAN		bLimitedDig;
++
++	// algorithm related
++	u1Byte		preAlgorithm;
++	u1Byte		curAlgorithm;
++	//u1Byte		btStatus;
++	//u1Byte		wifiChnlInfo[3];
++} COEX_DM_8188C_2ANT, *PCOEX_DM_8188C_2ANT;
++
++typedef struct _COEX_STA_8188C_2ANT{
++	u1Byte					preWifiRssiState[4];
++	BOOLEAN					bBtBusy;
++	BOOLEAN					bBtUplink;
++	BOOLEAN					bBtDownLink;
++	BOOLEAN					bA2dpBusy;
++}COEX_STA_8188C_2ANT, *PCOEX_STA_8188C_2ANT;
++
++//===========================================
++// The following is interface which will notify coex module.
++//===========================================
++VOID
++EXhalbtc8188c2ant_PowerOnSetting(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtc8188c2ant_InitHwConfig(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN				bWifiOnly
++	);
++VOID
++EXhalbtc8188c2ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtc8188c2ant_IpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8188c2ant_LpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8188c2ant_ScanNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8188c2ant_ConnectNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8188c2ant_MediaStatusNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	);
++VOID
++EXhalbtc8188c2ant_SpecialPacketNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	);
++VOID
++EXhalbtc8188c2ant_HaltNotify(
++	IN	PBTC_COEXIST			pBtCoexist
++	);
++VOID
++EXhalbtc8188c2ant_Periodical(
++	IN	PBTC_COEXIST			pBtCoexist
++	);
++VOID
++EXhalbtc8188c2ant_BtInfoNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	pu1Byte			tmpBuf,
++	IN	u1Byte			length
++	);
++VOID
++EXhalbtc8188c2ant_DisplayCoexInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8192d2Ant.c b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8192d2Ant.c
+new file mode 100644
+index 0000000..239c073
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8192d2Ant.c
+@@ -0,0 +1,1992 @@
++//============================================================
++// Description:
++//
++// This file is for 92D BT 2 Antenna Co-exist mechanism
++//
++// By cosa 02/11/2011
++//
++//============================================================
++
++//============================================================
++// include files
++//============================================================
++#include "Mp_Precomp.h"
++
++#if WPP_SOFTWARE_TRACE
++#include "HalBtc8192d2Ant.tmh"
++#endif
++
++#if(BT_30_SUPPORT == 1)
++//============================================================
++// Global variables, these are static variables
++//============================================================
++static COEX_DM_8192D_2ANT	GLCoexDm8192d2Ant;
++static PCOEX_DM_8192D_2ANT 	pCoexDm=&GLCoexDm8192d2Ant;
++static COEX_STA_8192D_2ANT	GLCoexSta8192d2Ant;
++static PCOEX_STA_8192D_2ANT	pCoexSta=&GLCoexSta8192d2Ant;
++
++//============================================================
++// local function start with btdm_
++//============================================================
++u1Byte
++halbtc8192d2ant_WifiRssiState(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			index,
++	IN	u1Byte			levelNum,
++	IN	u1Byte			rssiThresh,
++	IN	u1Byte			rssiThresh1
++	)
++{
++	s4Byte			wifiRssi=0;
++	u1Byte			wifiRssiState=pCoexSta->preWifiRssiState[index];
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_S4_WIFI_RSSI, &wifiRssi);
++	
++	if(levelNum == 2)
++	{
++		if( (pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_LOW) ||
++			(pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_STAY_LOW))
++		{
++			if(wifiRssi >= (rssiThresh+BTC_RSSI_COEX_THRESH_TOL_8192D_2ANT))
++			{
++				wifiRssiState = BTC_RSSI_STATE_HIGH;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_LOW;
++			}
++		}
++		else
++		{
++			if(wifiRssi < rssiThresh)
++			{
++				wifiRssiState = BTC_RSSI_STATE_LOW;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_HIGH;
++			}
++		}
++	}
++	else if(levelNum == 3)
++	{
++		if(rssiThresh > rssiThresh1)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], wifi RSSI thresh error!!\n"));
++			return pCoexSta->preWifiRssiState[index];
++		}
++		
++		if( (pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_LOW) ||
++			(pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_STAY_LOW))
++		{
++			if(wifiRssi >= (rssiThresh+BTC_RSSI_COEX_THRESH_TOL_8192D_2ANT))
++			{
++				wifiRssiState = BTC_RSSI_STATE_MEDIUM;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_LOW;
++			}
++		}
++		else if( (pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_MEDIUM) ||
++			(pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_STAY_MEDIUM))
++		{
++			if(wifiRssi >= (rssiThresh1+BTC_RSSI_COEX_THRESH_TOL_8192D_2ANT))
++			{
++				wifiRssiState = BTC_RSSI_STATE_HIGH;
++			}
++			else if(wifiRssi < rssiThresh)
++			{
++				wifiRssiState = BTC_RSSI_STATE_LOW;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_MEDIUM;
++			}
++		}
++		else
++		{
++			if(wifiRssi < rssiThresh1)
++			{
++				wifiRssiState = BTC_RSSI_STATE_MEDIUM;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_HIGH;
++			}
++		}
++	}
++		
++	pCoexSta->preWifiRssiState[index] = wifiRssiState;
++
++	return wifiRssiState;
++}
++
++u1Byte
++halbtc8192d2ant_ActionAlgorithm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	PBTC_STACK_INFO		pStackInfo=&pBtCoexist->stackInfo;
++	BOOLEAN				bBtHsOn=FALSE;
++	u1Byte				algorithm=BT_8192D_2ANT_COEX_ALGO_UNDEFINED;
++	u1Byte				numOfDiffProfile=0;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++	
++	if(!pStackInfo->bBtLinkExist)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], No profile exists!!!\n"));
++		return algorithm;
++	}
++
++	if(pStackInfo->bScoExist)
++		numOfDiffProfile++;
++	if(pStackInfo->bHidExist)
++		numOfDiffProfile++;
++	if(pStackInfo->bPanExist)
++		numOfDiffProfile++;
++	if(pStackInfo->bA2dpExist)
++		numOfDiffProfile++;
++
++	if(pStackInfo->bScoExist)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO algorithm\n"));
++		algorithm = BT_8192D_2ANT_COEX_ALGO_SCO;
++	}
++	else
++	{
++		if(numOfDiffProfile == 1)
++		{
++			if(pStackInfo->bHidExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID only\n"));
++				algorithm = BT_8192D_2ANT_COEX_ALGO_HID;
++			}
++			else if(pStackInfo->bA2dpExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], A2DP only\n"));
++				algorithm = BT_8192D_2ANT_COEX_ALGO_A2DP;
++			}
++			else if(pStackInfo->bPanExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN only\n"));
++				algorithm = BT_8192D_2ANT_COEX_ALGO_PAN;
++			}
++		}
++		else
++		{
++			if( pStackInfo->bHidExist &&
++				pStackInfo->bA2dpExist )
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID + A2DP\n"));
++				algorithm = BT_8192D_2ANT_COEX_ALGO_HID_A2DP;
++			}
++			else if( pStackInfo->bHidExist &&
++				pStackInfo->bPanExist )
++			{				
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID + PAN\n"));
++				algorithm = BT_8192D_2ANT_COEX_ALGO_HID_PAN;
++			}
++			else if( pStackInfo->bPanExist &&
++				pStackInfo->bA2dpExist )
++			{				
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN + A2DP\n"));
++				algorithm = BT_8192D_2ANT_COEX_ALGO_PAN_A2DP;
++			}
++		}		
++	}
++	return algorithm;
++}
++
++VOID
++halbtc8192d2ant_SetFwBalance(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bBalanceOn,
++	IN	u1Byte			ms0,
++	IN	u1Byte			ms1
++	)
++{
++	u1Byte	H2C_Parameter[3] ={0};
++
++	if(bBalanceOn)
++	{
++		H2C_Parameter[2] = 1;
++		H2C_Parameter[1] = ms1;
++		H2C_Parameter[0] = ms0;
++	}
++	else
++	{
++		H2C_Parameter[2] = 0;
++		H2C_Parameter[1] = 0;
++		H2C_Parameter[0] = 0;
++	}
++	
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Balance=[%s:%dms:%dms], write 0xc=0x%x\n", 
++		bBalanceOn?"ON":"OFF", ms0, ms1,
++		H2C_Parameter[0]<<16|H2C_Parameter[1]<<8|H2C_Parameter[2]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0xc, 3, H2C_Parameter);	
++}
++
++VOID
++halbtc8192d2ant_Balance(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bBalanceOn,
++	IN	u1Byte			ms0,
++	IN	u1Byte			ms1
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn Balance %s\n", 
++		(bForceExec? "force to":""), (bBalanceOn? "ON":"OFF")));
++	pCoexDm->bCurBalanceOn = bBalanceOn;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreBalanceOn == pCoexDm->bCurBalanceOn)
++			return;
++	}
++	halbtc8192d2ant_SetFwBalance(pBtCoexist, bBalanceOn, ms0, ms1);
++
++	pCoexDm->bPreBalanceOn = pCoexDm->bCurBalanceOn;
++}
++
++VOID
++halbtc8192d2ant_SetFwDiminishWifi(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN 		bDacOn,
++	IN	BOOLEAN 		bInterruptOn,
++	IN	u1Byte			fwDacSwingLvl,
++	IN	BOOLEAN 		bNavOn
++	)
++{
++	u1Byte			H2C_Parameter[3] ={0};
++
++	if((pBtCoexist->stackInfo.minBtRssi <= -5) && (fwDacSwingLvl == 0x20))
++	{
++		RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], DiminishWiFi 0x20 original, but set 0x18 for Low RSSI!\n"));
++		fwDacSwingLvl = 0x18;
++	}
++
++	H2C_Parameter[2] = 0;
++	H2C_Parameter[1] = fwDacSwingLvl;
++	H2C_Parameter[0] = 0;
++	if(bDacOn)
++	{
++		H2C_Parameter[2] |= 0x01;	//BIT0
++		if(bInterruptOn)
++		{
++			H2C_Parameter[2] |= 0x02;	//BIT1
++		}
++	}
++	if(bNavOn)
++	{
++		H2C_Parameter[2] |= 0x08;	//BIT3
++	}
++		
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], bDacOn=%s, bInterruptOn=%s, bNavOn=%s, write 0x12=0x%x\n", 
++		(bDacOn?"ON":"OFF"), (bInterruptOn?"ON":"OFF"), (bNavOn?"ON":"OFF"),
++		(H2C_Parameter[0]<<16|H2C_Parameter[1]<<8|H2C_Parameter[2])));		
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x12, 3, H2C_Parameter);
++}
++
++
++VOID
++halbtc8192d2ant_DiminishWifi(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bDacOn,
++	IN	BOOLEAN			bInterruptOn,
++	IN	u1Byte			fwDacSwingLvl,
++	IN	BOOLEAN			bNavOn
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s set Diminish Wifi, bDacOn=%s, bInterruptOn=%s, fwDacSwingLvl=%d, bNavOn=%s\n", 
++		(bForceExec? "force to":""), (bDacOn? "ON":"OFF"), (bInterruptOn? "ON":"OFF"), fwDacSwingLvl, (bNavOn? "ON":"OFF")));
++
++	pCoexDm->bCurDacOn = bDacOn;
++	pCoexDm->bCurInterruptOn = bInterruptOn;
++	pCoexDm->curFwDacSwingLvl = fwDacSwingLvl;
++	pCoexDm->bCurNavOn = bNavOn;
++
++	if(!bForceExec)
++	{
++		if( (pCoexDm->bPreDacOn==pCoexDm->bCurDacOn) &&
++			(pCoexDm->bPreInterruptOn==pCoexDm->bCurInterruptOn) &&
++			(pCoexDm->preFwDacSwingLvl==pCoexDm->curFwDacSwingLvl) &&
++			(pCoexDm->bPreNavOn==pCoexDm->bCurNavOn) )
++			return;
++	}
++	halbtc8192d2ant_SetFwDiminishWifi(pBtCoexist, bDacOn, bInterruptOn, fwDacSwingLvl, bNavOn);
++
++	pCoexDm->bPreDacOn = pCoexDm->bCurDacOn;
++	pCoexDm->bPreInterruptOn = pCoexDm->bCurInterruptOn;
++	pCoexDm->preFwDacSwingLvl = pCoexDm->curFwDacSwingLvl;
++	pCoexDm->bPreNavOn = pCoexDm->bCurNavOn;
++}
++
++VOID
++halbtc8192d2ant_SetSwRfRxLpfCorner(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bRxRfShrinkOn
++	)
++{
++	if(bRxRfShrinkOn)
++	{
++		//Shrink RF Rx LPF corner
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Shrink RF Rx LPF corner!!\n"));
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xfffff, 0xf2ff7);
++	}
++	else
++	{
++		//Resume RF Rx LPF corner
++		// After initialized, we can use pCoexDm->btRf0x1eBackup
++		if(pBtCoexist->bInitilized)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Resume RF Rx LPF corner!!\n"));
++			pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xfffff, pCoexDm->btRf0x1eBackup);
++		}
++	}
++}
++
++
++VOID
++halbtc8192d2ant_RfShrink(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bRxRfShrinkOn
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn Rx RF Shrink = %s\n",  
++		(bForceExec? "force to":""), ((bRxRfShrinkOn)? "ON":"OFF")));
++	pCoexDm->bCurRfRxLpfShrink = bRxRfShrinkOn;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreRfRxLpfShrink == pCoexDm->bCurRfRxLpfShrink) 
++			return;
++	}
++	halbtc8192d2ant_SetSwRfRxLpfCorner(pBtCoexist, pCoexDm->bCurRfRxLpfShrink);
++
++	pCoexDm->bPreRfRxLpfShrink = pCoexDm->bCurRfRxLpfShrink;
++}
++
++VOID
++halbtc8192d2ant_SetSwPenaltyTxRateAdaptive(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bLowPenaltyRa
++	)
++{
++	u1Byte	tmpU1;
++
++	tmpU1 = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x4fd);
++	if(bLowPenaltyRa)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Tx rate adaptive, set low penalty!!\n"));
++		tmpU1 &= ~BIT2;
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Tx rate adaptive, set normal!!\n"));
++		tmpU1 |= BIT2;
++	}
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x4fd, tmpU1);
++}
++
++VOID
++halbtc8192d2ant_LowPenaltyRa(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bLowPenaltyRa
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn LowPenaltyRA = %s\n",  
++		(bForceExec? "force to":""), ((bLowPenaltyRa)? "ON":"OFF")));
++	pCoexDm->bCurLowPenaltyRa = bLowPenaltyRa;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreLowPenaltyRa == pCoexDm->bCurLowPenaltyRa) 
++			return;
++	}
++	halbtc8192d2ant_SetSwPenaltyTxRateAdaptive(pBtCoexist, pCoexDm->bCurLowPenaltyRa);
++
++	pCoexDm->bPreLowPenaltyRa = pCoexDm->bCurLowPenaltyRa;
++}
++
++VOID
++halbtc8192d2ant_SetSwFullTimeDacSwing(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bSwDacSwingOn,
++	IN	u4Byte			swDacSwingLvl
++	)
++{
++	u4Byte	dacSwingLvl;
++
++	if(bSwDacSwingOn)
++	{		
++		if((pBtCoexist->stackInfo.minBtRssi <= -5) && (swDacSwingLvl == 0x20))
++		{
++			dacSwingLvl = 0x18;
++		}
++		else
++		{
++			dacSwingLvl = swDacSwingLvl;
++		}
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x880, 0xfc000000, dacSwingLvl);
++	}
++	else
++	{
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x880, 0xfc000000, 0x30);
++	}
++}
++
++VOID
++halbtc8192d2ant_DacSwing(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bDacSwingOn,
++	IN	u4Byte			dacSwingLvl
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn DacSwing=%s, dacSwingLvl=0x%x\n",  
++		(bForceExec? "force to":""), ((bDacSwingOn)? "ON":"OFF"), dacSwingLvl));
++	pCoexDm->bCurDacSwingOn = bDacSwingOn;
++	pCoexDm->curDacSwingLvl = dacSwingLvl;
++
++	if(!bForceExec)
++	{
++		if( (pCoexDm->bPreDacSwingOn == pCoexDm->bCurDacSwingOn) &&
++			(pCoexDm->preDacSwingLvl == pCoexDm->curDacSwingLvl) )
++			return;
++	}
++	delay_ms(30);
++	halbtc8192d2ant_SetSwFullTimeDacSwing(pBtCoexist, bDacSwingOn, dacSwingLvl);
++
++	pCoexDm->bPreDacSwingOn = pCoexDm->bCurDacSwingOn;
++	pCoexDm->preDacSwingLvl = pCoexDm->curDacSwingLvl;
++}
++
++VOID
++halbtc8192d2ant_SetAdcBackOff(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bAdcBackOff
++	)
++{
++	if(bAdcBackOff)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BB BackOff Level On!\n"));
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc04,0x3a07611);
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BB BackOff Level Off!\n"));		
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc04,0x3a05611);
++	}
++}
++
++VOID
++halbtc8192d2ant_AdcBackOff(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bAdcBackOff
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn AdcBackOff = %s\n",  
++		(bForceExec? "force to":""), ((bAdcBackOff)? "ON":"OFF")));
++	pCoexDm->bCurAdcBackOff = bAdcBackOff;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreAdcBackOff == pCoexDm->bCurAdcBackOff) 
++			return;
++	}
++	halbtc8192d2ant_SetAdcBackOff(pBtCoexist, pCoexDm->bCurAdcBackOff);
++
++	pCoexDm->bPreAdcBackOff = pCoexDm->bCurAdcBackOff;
++}
++
++VOID
++halbtc8192d2ant_SetAgcTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bAgcTableEn
++	)
++{
++	u1Byte		rssiAdjustVal=0;
++
++	if(bAgcTableEn)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Agc Table On!\n"));
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1a, 0xfffff, 0xa99);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0xd4000);
++		
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b000001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b010001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b020001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b030001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b040001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b050001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b060001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b070001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b080001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b090001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b0A0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7b0B0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7a0C0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x790D0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x780E0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x770F0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x76100001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x75110001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x74120001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x73130001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x72140001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x71150001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x70160001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6f170001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6e180001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6d190001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6c1A0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6b1B0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6a1C0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x691D0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x4f1E0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x4e1F0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x4d200001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x4c210001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x4b220001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x4a230001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x49240001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x48250001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x47260001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x46270001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x45280001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x44290001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x432A0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x422B0001);
++
++		rssiAdjustVal = 12;
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Agc Table Off!\n"));
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1a, 0xfffff, 0x30a99);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0xdc000);
++
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7B000001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7B010001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7B020001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7B030001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7B040001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7B050001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7B060001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x7A070001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x79080001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x78090001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x770A0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x760B0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x750C0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x740D0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x730E0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x720F0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x71100001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x70110001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6F120001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6E130001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6D140001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6C150001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6B160001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x6A170001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x69180001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x68190001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x671A0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x661B0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x651C0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x641D0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x631E0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x621F0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x61200001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x60210001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x49220001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x48230001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x47240001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x46250001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x45260001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x44270001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x43280001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x42290001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x412A0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78, 0x402B0001);
++	}
++
++	// set rssiAdjustVal for wifi module.
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_U1_RSSI_ADJ_VAL_FOR_AGC_TABLE_ON, &rssiAdjustVal);
++}
++
++
++
++VOID
++halbtc8192d2ant_AgcTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bAgcTableEn
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s %s Agc Table\n",  
++		(bForceExec? "force to":""), ((bAgcTableEn)? "Enable":"Disable")));
++	pCoexDm->bCurAgcTableEn = bAgcTableEn;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreAgcTableEn == pCoexDm->bCurAgcTableEn) 
++			return;
++	}
++	halbtc8192d2ant_SetAgcTable(pBtCoexist, bAgcTableEn);
++
++	pCoexDm->bPreAgcTableEn = pCoexDm->bCurAgcTableEn;
++}
++
++VOID
++halbtc8192d2ant_SetCoexTable(
++	IN	PBTC_COEXIST	pBtCoexist,
++	IN	u4Byte		val0x6c4,
++	IN	u4Byte		val0x6c8,
++	IN	u4Byte		val0x6cc
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], set coex table, set 0x6c4=0x%x\n", val0x6c4));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c4, val0x6c4);
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], set coex table, set 0x6c8=0x%x\n", val0x6c8));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c8, val0x6c8);
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], set coex table, set 0x6cc=0x%x\n", val0x6cc));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6cc, val0x6cc);
++}
++
++VOID
++halbtc8192d2ant_CoexTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	u4Byte			val0x6c4,
++	IN	u4Byte			val0x6c8,
++	IN	u4Byte			val0x6cc
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s write Coex Table 0x6c4=0x%x, 0x6c8=0x%x, 0x6cc=0x%x\n", 
++		(bForceExec? "force to":""), val0x6c4, val0x6c8, val0x6cc));
++	pCoexDm->curVal0x6c4 = val0x6c4;
++	pCoexDm->curVal0x6c8 = val0x6c8;
++	pCoexDm->curVal0x6cc = val0x6cc;
++
++	if(!bForceExec)
++	{	
++		if( (pCoexDm->preVal0x6c4 == pCoexDm->curVal0x6c4) &&
++			(pCoexDm->preVal0x6c8 == pCoexDm->curVal0x6c8) &&
++			(pCoexDm->preVal0x6cc == pCoexDm->curVal0x6cc) )
++			return;
++	}
++	halbtc8192d2ant_SetCoexTable(pBtCoexist, val0x6c4, val0x6c8, val0x6cc);
++
++	pCoexDm->preVal0x6c4 = pCoexDm->curVal0x6c4;
++	pCoexDm->preVal0x6c8 = pCoexDm->curVal0x6c8;
++	pCoexDm->preVal0x6cc = pCoexDm->curVal0x6cc;
++}
++
++VOID
++halbtc8192d2ant_CoexAllOff(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	// fw mechanism
++	halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++	halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++	// sw mechanism
++	halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++}
++VOID
++halbtc8192d2ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++}
++
++VOID
++halbtc8192d2ant_MonitorBtEnableDisable(
++	IN 	PBTC_COEXIST		pBtCoexist,
++	IN	u4Byte			btActive
++	)
++{
++	static BOOLEAN	bPreBtDisabled=FALSE;
++	static u4Byte		btDisableCnt=0;
++	BOOLEAN			bBtDisabled=FALSE, bForceToRoam=FALSE;
++	u4Byte			u4Tmp=0;
++
++	// This function check if bt is disabled
++	if(btActive)
++	{
++		btDisableCnt = 0;
++		bBtDisabled = FALSE;
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_DISABLE, &bBtDisabled);
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT is enabled !!\n"));
++	}
++	else
++	{
++		btDisableCnt++;
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], bt all counters=0, %d times!!\n", 
++				btDisableCnt));
++		if(btDisableCnt >= 2)
++		{
++			bBtDisabled = TRUE;
++			pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_DISABLE, &bBtDisabled);
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT is disabled !!\n"));
++		}
++	}
++	if(bPreBtDisabled != bBtDisabled)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT is from %s to %s!!\n", 
++			(bPreBtDisabled ? "disabled":"enabled"), 
++			(bBtDisabled ? "disabled":"enabled")));
++
++		bForceToRoam = TRUE;
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_FORCE_TO_ROAM, &bForceToRoam);
++
++		bPreBtDisabled = bBtDisabled;
++	}
++}
++
++VOID
++halbtc8192d2ant_MonitorBtState(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	BOOLEAN 		stateChange=FALSE;
++	u4Byte			BT_Polling, Ratio_Act, Ratio_STA;
++	u4Byte			BT_Active, BT_State;
++	u4Byte			regBTActive=0, regBTState=0, regBTPolling=0;
++	u4Byte			btBusyThresh=0;
++	u4Byte			fwVer=0;
++	static BOOLEAN	bBtBusyTraffic=FALSE;
++	BOOLEAN 		bRejApAggPkt=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_FW_VER, &fwVer);
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], FirmwareVersion = 0x%x(%d)\n", fwVer, fwVer));
++	
++	regBTActive = 0x444;
++	regBTState = 0x448;
++	regBTPolling = 0x44c;	
++	
++	btBusyThresh = 40;
++	
++	BT_Active = pBtCoexist->fBtcRead4Byte(pBtCoexist, regBTActive);
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT_Active(0x%x)=0x%x\n", regBTActive, BT_Active));
++	BT_Active = BT_Active & 0x00ffffff;
++
++	BT_State = pBtCoexist->fBtcRead4Byte(pBtCoexist, regBTState);
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT_State(0x%x)=0x%x\n", regBTState, BT_State));
++	BT_State = BT_State & 0x00ffffff;
++
++	BT_Polling = pBtCoexist->fBtcRead4Byte(pBtCoexist, regBTPolling);
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT_Polling(0x%x)=0x%x\n", regBTPolling, BT_Polling));
++
++	if(BT_Active==0xffffffff && BT_State==0xffffffff && BT_Polling==0xffffffff )
++		return;
++
++	// 2011/05/04 MH For Slim combo test meet a problem. Surprise remove and WLAN is running
++	// DHCP process. At the same time, the register read value might be zero. And cause BSOD 0x7f
++	// EXCEPTION_DIVIDED_BY_ZERO. In This case, the stack content may always be wrong due to 
++	// HW divide trap.
++	if (BT_Polling==0)
++		return;
++
++	halbtc8192d2ant_MonitorBtEnableDisable(pBtCoexist, BT_Active);
++	
++	Ratio_Act = BT_Active*1000/BT_Polling;
++	Ratio_STA = BT_State*1000/BT_Polling;
++		
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Ratio_Act=%d\n", Ratio_Act));
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Ratio_STA=%d\n", Ratio_STA));
++
++	if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		if(Ratio_STA < 60)	// BT PAN idle
++		{
++		}
++		else
++		{
++			// Check if BT PAN (under BT 2.1) is uplink or downlink
++			if((Ratio_Act/Ratio_STA) < 2)
++			{	// BT PAN Uplink
++				pCoexSta->bBtUplink = TRUE;
++			}
++			else
++			{	// BT PAN downlink
++				pCoexSta->bBtUplink = FALSE;
++			}
++		}
++	}	
++	
++	// Check BT is idle or not
++	if(!pBtCoexist->stackInfo.bBtLinkExist)
++	{
++		pCoexSta->bBtBusy = FALSE;
++	}
++	else
++	{
++		if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++		{
++			if(Ratio_Act<20)
++			{
++				pCoexSta->bBtBusy = FALSE;
++			}
++			else
++			{
++				pCoexSta->bBtBusy = TRUE;
++			}
++		}
++		else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++		{
++			if(Ratio_STA < btBusyThresh)
++			{
++				pCoexSta->bBtBusy = FALSE;
++			}
++			else
++			{
++				pCoexSta->bBtBusy = TRUE;
++			}
++
++			if( (Ratio_STA < btBusyThresh) ||
++				(Ratio_Act<180 && Ratio_STA<130) )
++			{
++				pCoexSta->bA2dpBusy = FALSE;
++			}
++			else
++			{
++				pCoexSta->bA2dpBusy = TRUE;
++			}
++		}
++	}
++
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &pCoexSta->bBtBusy);
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_LIMITED_DIG, &pCoexSta->bBtBusy);
++	
++	if(bBtBusyTraffic != pCoexSta->bBtBusy)
++	{	// BT idle or BT non-idle
++		bBtBusyTraffic = pCoexSta->bBtBusy;
++		stateChange = TRUE;
++	}
++
++	if(stateChange)
++	{
++		if(!pCoexSta->bBtBusy)
++		{
++			halbtc8192d2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_RfShrink(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_CoexAllOff(pBtCoexist);
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++		}
++		else
++		{
++			halbtc8192d2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8192d2ant_RfShrink(pBtCoexist, NORMAL_EXEC, TRUE);
++		}
++	}
++
++	if(stateChange)
++	{
++		bRejApAggPkt = pCoexSta->bBtBusy;
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT, &bRejApAggPkt);
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++	}
++}
++
++VOID
++halbtc8192d2ant_ActionA2dp(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte			wifiRssiState, wifiRssiState1=BTC_RSSI_STATE_HIGH;
++	u4Byte			wifiBw, wifiTrafficDir;
++	BOOLEAN 		bWifiBusy=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++
++	wifiRssiState = halbtc8192d2ant_WifiRssiState(pBtCoexist, 0, 2, 47, 0);
++	if(pCoexSta->bA2dpBusy && bWifiBusy)
++	{
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++		{
++			wifiRssiState1 = halbtc8192d2ant_WifiRssiState(pBtCoexist, 1, 2, 47, 0);
++		}
++		else
++		{
++			if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++			{
++				wifiRssiState1 = halbtc8192d2ant_WifiRssiState(pBtCoexist, 1, 2, 25, 0);
++			}
++			else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++			{
++				wifiRssiState1 = halbtc8192d2ant_WifiRssiState(pBtCoexist, 1, 2, 40, 0);
++			}
++		}
++
++		// fw mechanism first
++		if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++		{
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0xc, 0x18);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++		}
++		else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++		{
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x10, 0x18);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++		}
++
++		// sw mechanism 
++		if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++		}
++		else
++		{
++			halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		}
++		
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++		{
++			halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++		else
++		{
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++			else
++			{
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++	}
++	else if(pCoexSta->bA2dpBusy)
++	{
++		// fw mechanism first
++		halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, TRUE, 0x18, FALSE);
++
++		// sw mechanism 
++		halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++	}
++	else
++	{
++		halbtc8192d2ant_CoexAllOff(pBtCoexist);
++	}
++}
++
++VOID
++halbtc8192d2ant_ActionPan(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN 	bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u1Byte		wifiRssiState, wifiRssiState1;
++	u4Byte		wifiBw, wifiTrafficDir;
++	s4Byte		wifiRssi;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_S4_WIFI_RSSI, &wifiRssi);
++
++	if(bBtHsOn)
++	{
++		halbtc8192d2ant_CoexAllOff(pBtCoexist);
++	}
++	else
++	{
++		wifiRssiState = halbtc8192d2ant_WifiRssiState(pBtCoexist, 0, 3, 25, 50);
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++		{
++			wifiRssiState1 = halbtc8192d2ant_WifiRssiState(pBtCoexist, 1, 2, 47, 0);
++		}
++		else
++		{			
++			wifiRssiState1 = halbtc8192d2ant_WifiRssiState(pBtCoexist, 1, 2, 25, 0);
++		}
++
++		if(pCoexSta->bBtBusy && bWifiBusy)
++		{
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				// fw mechanism first
++				if(pCoexSta->bBtUplink)
++				{
++					halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x20);
++					halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++				}
++				else
++				{
++					halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++					halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++				}
++				// sw mechanism 
++				if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++					(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				}
++				else
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				}
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				if(pCoexSta->bBtUplink)
++				{
++					halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++				else
++				{
++					halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++				}
++			}
++			else if( (wifiRssiState == BTC_RSSI_STATE_MEDIUM) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_MEDIUM) )
++			{
++				// fw mechanism first
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x20);
++
++				if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++				{
++					halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++				}
++				else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++				{
++					if(BTC_WIFI_BW_HT40 == wifiBw)
++						halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);//BT_FW_NAV_ON);
++					else
++						halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++				}
++				// sw mechanism 
++				if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++					(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				}
++				else
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				}
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++			else
++			{
++				// fw mechanism first
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x20);
++				
++				if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++				{
++					halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++				}
++				else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++				{
++					if(pCoexSta->bBtUplink)
++					{
++						if(BTC_WIFI_BW_HT40 == wifiBw)
++						{
++							halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);//BT_FW_NAV_ON);
++						}
++						else
++						{
++							halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++						}						
++					}
++					else
++					{
++						halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++					}
++				}
++				// sw mechanism 
++				if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++					(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++				}
++				else
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				}
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++		else if(pCoexSta->bBtBusy && 
++				!bWifiBusy &&
++				(wifiRssi < 30))
++		{
++			// fw mechanism first
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x0a, 0x20);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++			// sw mechanism 
++			halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++		else
++		{
++			halbtc8192d2ant_CoexAllOff(pBtCoexist);
++		}
++	}
++}
++
++
++VOID
++halbtc8192d2ant_ActionHid(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState=BTC_RSSI_STATE_HIGH;
++	u4Byte		wifiTrafficDir;
++	BOOLEAN 	bWifiBusy=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++	if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++	{
++		wifiRssiState = halbtc8192d2ant_WifiRssiState(pBtCoexist, 0, 2, 45, 0);
++	}
++	else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++	{
++		wifiRssiState = halbtc8192d2ant_WifiRssiState(pBtCoexist, 0, 2, 20, 0);
++	}
++		
++	if(pCoexSta->bBtBusy && bWifiBusy)
++	{
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			// fw mechanism first
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++			
++			// sw mechanism 			
++			halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++		}
++		else
++		{
++			// fw mechanism first
++			if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++			{
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++				halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, TRUE, 0x18, FALSE);
++			}
++			else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++			{
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x15, 0x15);
++				halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x30, FALSE);
++			}			
++			// sw mechanism 
++			halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++	}
++	else
++	{
++		halbtc8192d2ant_CoexAllOff(pBtCoexist);
++	}
++}
++
++
++
++VOID
++halbtc8192d2ant_ActionSco(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte	wifiRssiState;
++	u4Byte	wifiBw;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	wifiRssiState = halbtc8192d2ant_WifiRssiState(pBtCoexist, 0, 2, 47, 0);
++
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		// fw mechanism first
++		halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++		// sw mechanism 		
++		halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++	}
++	else
++	{
++		// fw mechanism first
++		halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++		
++		// sw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++		else
++		{
++			halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++	}
++}
++
++VOID
++halbtc8192d2ant_ActionHidA2dp(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState, wifiRssiState1;
++	u4Byte		wifiBw;
++
++	if(pCoexSta->bBtBusy)
++	{
++		wifiRssiState1 = halbtc8192d2ant_WifiRssiState(pBtCoexist, 1, 2, 35, 0);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++		{
++			// fw mechanism first
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++
++			// sw mechanism 
++			if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			}
++			else
++			{
++				halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			}
++			halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++		}
++		else
++		{
++			wifiRssiState = halbtc8192d2ant_WifiRssiState(pBtCoexist, 0, 2, 47, 0);
++			// fw mechanism
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++			// sw mechanism 
++			if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			}
++			else
++			{
++				halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			}
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++			else
++			{
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++		}
++	}
++	else
++	{
++		halbtc8192d2ant_CoexAllOff(pBtCoexist);
++	}
++}
++
++
++VOID
++halbtc8192d2ant_ActionHidPanBc4(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u4Byte		wifiBw, wifiTrafficDir;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++	
++	if(bBtHsOn)
++	{
++		halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++		halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++
++		halbtc8192d2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++		pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++	}
++	else
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++		if(BTC_WIFI_BW_LEGACY == wifiBw)
++		{
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++
++			halbtc8192d2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++		}
++		else if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++		{
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++			
++			halbtc8192d2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++		}
++		else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++		{
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x10);					
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++		}
++		else if(!bWifiBusy)
++		{
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++		}			
++	}
++	halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++}
++VOID
++halbtc8192d2ant_ActionHidPanBc8(	
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u1Byte		wifiRssiState;
++	u4Byte		wifiBw, wifiTrafficDir;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++
++	if(!bBtHsOn)
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++		wifiRssiState = halbtc8192d2ant_WifiRssiState(pBtCoexist, 0, 2, 25, 0);
++		if((pCoexSta->bBtBusy && bWifiBusy))
++		{
++			// fw mechanism first
++			if(pCoexSta->bBtUplink)
++			{
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x15, 0x20);
++			}
++			else
++			{
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x10, 0x20);
++			}
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++
++			// sw mechanism 
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++				if(BTC_WIFI_BW_HT40 == wifiBw)
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++					halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++				else
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++			}
++			else
++			{
++				halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++		else
++		{
++			halbtc8192d2ant_CoexAllOff(pBtCoexist);
++		}
++	}
++	else
++	{
++		if(BTC_INTF_USB == pBtCoexist->chipInterface)
++		{	
++			pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++			if(BTC_WIFI_TRAFFIC_TX == wifiTrafficDir)
++			{
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++				halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++
++				halbtc8192d2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0x000000f0, 0x40000010);
++				pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0xa0);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++			else if(BTC_WIFI_TRAFFIC_RX == wifiTrafficDir)
++			{
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x18);
++			}
++		}
++		else 
++		{
++			if(pCoexSta->bBtBusy)
++			{
++				// fw mechanism
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++				halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++				// sw mechanism
++				halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++			}
++			else
++			{
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++	}
++}
++
++VOID
++halbtc8192d2ant_ActionHidPan(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{		
++	if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8192d2ant_ActionHidPanBc4(pBtCoexist);
++	}
++	else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8192d2ant_ActionHidPanBc8(pBtCoexist);
++	}
++}
++
++VOID
++halbtc8192d2ant_ActionPanA2dpBc4(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u1Byte		wifiRssiState;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x0);
++	if(bBtHsOn)
++	{
++		if(pCoexSta->bBtBusy)
++		{
++			// fw mechanism
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++			// sw mechanism
++			halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++		}
++		else
++		{
++			halbtc8192d2ant_CoexAllOff(pBtCoexist);
++		}
++	}
++	else
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++		if(pCoexSta->bBtBusy && bWifiBusy)
++		{
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x20, 0x10);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++		}
++		else
++		{
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0x0, FALSE);
++		}			
++		// sw mechanism
++		halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++	}
++}
++VOID
++halbtc8192d2ant_ActionPanA2dpBc8(	
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bBtHsOn=FALSE, bWifiBusy=FALSE;
++	u1Byte		wifiRssiState;
++	u4Byte		wifiBw;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++
++	if(!bBtHsOn)
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++		wifiRssiState = halbtc8192d2ant_WifiRssiState(pBtCoexist, 0, 2, 25, 0);
++		if((pCoexSta->bBtBusy && bWifiBusy))
++		{
++			// fw mechanism first
++			if(pCoexSta->bBtUplink)
++			{
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x15, 0x20);
++			}
++			else
++			{
++				halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, TRUE, 0x10, 0x20);
++			}
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, TRUE, FALSE, 0x20, FALSE);
++
++			// sw mechanism 
++			if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++				(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++				if(BTC_WIFI_BW_HT40 == wifiBw)
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++					halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++				else	
++				{
++					halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++					halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++				}
++			}
++			else
++			{
++				halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++				halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++			}
++		}
++		else
++		{
++			halbtc8192d2ant_CoexAllOff(pBtCoexist);
++		}
++	}
++	else
++	{
++		if(pCoexSta->bBtBusy)
++		{
++			// fw mechanism
++			halbtc8192d2ant_Balance(pBtCoexist, NORMAL_EXEC, FALSE, 0, 0);
++			halbtc8192d2ant_DiminishWifi(pBtCoexist, NORMAL_EXEC, FALSE, FALSE, 0, FALSE);
++
++			// sw mechanism			
++			halbtc8192d2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, TRUE, 0x20);
++		}
++		else
++		{
++			halbtc8192d2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0x30);
++		}
++	}
++}
++
++VOID
++halbtc8192d2ant_ActionPanA2dp(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	if(BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8192d2ant_ActionPanA2dpBc4(pBtCoexist);
++	}
++	else if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		halbtc8192d2ant_ActionPanA2dpBc8(pBtCoexist);
++	}
++}
++
++BOOLEAN
++halbtc8192d2ant_IsBtCoexistEnter(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte			macPhyMode;
++	BOOLEAN			bRet=TRUE;
++	BOOLEAN			bWifiUnder5G=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U1_MAC_PHY_MODE, &macPhyMode);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_UNDER_5G, &bWifiUnder5G);
++	
++	if(BTC_SMSP != macPhyMode)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Only support single mac single phy!!\n"));
++		bRet = FALSE;
++	}
++
++	if(bWifiUnder5G)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], wifi is under 5G or A band\n"));
++		halbtc8192d2ant_CoexAllOff(pBtCoexist);
++		bRet = FALSE;
++	}
++
++	return bRet;
++}
++
++//============================================================
++// extern function start with EXhalbtc8192d2ant_
++//============================================================
++VOID
++EXhalbtc8192d2ant_PowerOnSetting(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++}
++
++VOID
++EXhalbtc8192d2ant_InitHwConfig(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN				bWifiOnly
++	)
++{
++	u1Byte	u1Tmp=0;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 2Ant Init HW Config!!\n"));
++
++	// backup rf 0x1e value
++	pCoexDm->btRf0x1eBackup = 
++		pBtCoexist->fBtcGetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xfffff);
++
++	if( (BTC_CHIP_CSR_BC4 == pBtCoexist->boardInfo.btChipType) ||
++		(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType) )
++	{
++		u1Tmp =  pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x4fd) & BIT0;
++		pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x4fd, u1Tmp);
++		
++		halbtc8192d2ant_CoexTable(pBtCoexist, FORCE_EXEC, 0xaaaa9aaa, 0xffbd0040, 0x40000010);
++
++		// switch control, here we set pathA to control
++		// 0x878[13] = 1, 0:pathB, 1:pathA(default)
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x878, BIT13, 0x1);
++		
++		// antsel control, here we use phy0 and enable antsel.
++		// 0x87c[16:15] = b'11, enable antsel, antsel output pin
++		// 0x87c[30] = 0, 0: phy0, 1:phy 1
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x87c, bMaskDWord, 0x1fff8);
++		
++		// antsel to Bt or Wifi, it depends Bt on/off.
++		// 0x860[9:8] = 'b10, b10:Bt On, WL2G off(default), b01:Bt off, WL2G on.
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x860, BIT9|BIT8, 0x2);
++		
++		// sw/hw control switch, here we set sw control
++		// 0x870[9:8] = 'b11 sw control, 'b00 hw control
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x870, BIT9|BIT8, 0x3);
++	}
++}
++
++VOID
++EXhalbtc8192d2ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Coex Mechanism Init!!\n"));
++	
++	halbtc8192d2ant_InitCoexDm(pBtCoexist);
++}
++
++VOID
++EXhalbtc8192d2ant_DisplayCoexInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	PBTC_BOARD_INFO		pBoardInfo=&pBtCoexist->boardInfo;
++	PBTC_STACK_INFO		pStackInfo=&pBtCoexist->stackInfo;
++	pu1Byte				cliBuf=pBtCoexist->cliBuf;
++	u1Byte				u1Tmp[4], i, btInfoExt, psTdmaCase=0;
++	u4Byte				u4Tmp[4];
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ", "Ant PG number/ Ant mechanism:", \
++		pBoardInfo->pgAntNum, pBoardInfo->btdmAntNum);
++	CL_PRINTF(cliBuf);	
++	
++	if(pBtCoexist->bManualControl)
++	{
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "[Action Manual control]!!");
++		CL_PRINTF(cliBuf);
++	}
++	
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %d", "BT stack/ hci ext ver", \
++		((pStackInfo->bProfileNotified)? "Yes":"No"), pStackInfo->hciVersion);
++	CL_PRINTF(cliBuf);
++
++	// wifi status
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Wifi Status]============");
++	CL_PRINTF(cliBuf);
++	pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[BT Status]============");
++	CL_PRINTF(cliBuf);
++	
++	if(pStackInfo->bProfileNotified)
++	{			
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d", "SCO/HID/PAN/A2DP", \
++			pStackInfo->bScoExist, pStackInfo->bHidExist, pStackInfo->bPanExist, pStackInfo->bA2dpExist);
++		CL_PRINTF(cliBuf);	
++
++		pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_BT_LINK_INFO);
++	}
++	
++	// Sw mechanism	
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Sw mechanism]============");
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d(0x%x) ", "SM2[AgcT/ AdcB/ SwDacSwing(lvl)]", \
++		pCoexDm->bCurAgcTableEn, pCoexDm->bCurAdcBackOff, pCoexDm->bCurDacSwingOn, pCoexDm->curDacSwingLvl);
++	CL_PRINTF(cliBuf);
++
++	// Fw mechanism		
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Fw mechanism]============");
++	CL_PRINTF(cliBuf);
++
++	// Hw setting		
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Hw setting]============");
++	CL_PRINTF(cliBuf);	
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "RF-A, 0x1e initVal", \
++		pCoexDm->btRf0x1eBackup);
++	CL_PRINTF(cliBuf);
++
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x40);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x40", \
++		u1Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xc50);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0xc50(dig)", \
++		u4Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c4);
++	u4Tmp[1] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c8);
++	u4Tmp[2] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6cc);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x", "0x6c4/0x6c8/0x6cc(coexTable)", \
++		u4Tmp[0], u4Tmp[1], u4Tmp[2]);
++	CL_PRINTF(cliBuf);
++
++	pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++VOID
++EXhalbtc8192d2ant_IpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_IPS_ENTER == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], IPS ENTER notify\n"));
++		halbtc8192d2ant_CoexAllOff(pBtCoexist);
++	}
++	else if(BTC_IPS_LEAVE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], IPS LEAVE notify\n"));
++		//halbtc8192d2ant_InitCoexDm(pBtCoexist);
++	}
++}
++
++VOID
++EXhalbtc8192d2ant_LpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_LPS_ENABLE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], LPS ENABLE notify\n"));
++		halbtc8192d2ant_CoexAllOff(pBtCoexist);
++	}
++	else if(BTC_LPS_DISABLE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], LPS DISABLE notify\n"));
++		halbtc8192d2ant_InitCoexDm(pBtCoexist);
++	}
++}
++
++VOID
++EXhalbtc8192d2ant_ScanNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_SCAN_START == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCAN START notify\n"));
++	}
++	else if(BTC_SCAN_FINISH == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCAN FINISH notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8192d2ant_ConnectNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_ASSOCIATE_START == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], CONNECT START notify\n"));
++	}
++	else if(BTC_ASSOCIATE_FINISH == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], CONNECT FINISH notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8192d2ant_MediaStatusNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{	
++	if(BTC_MEDIA_CONNECT == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], MEDIA connect notify\n"));
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], MEDIA disconnect notify\n"));
++	}	
++}
++
++VOID
++EXhalbtc8192d2ant_SpecialPacketNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{
++	if(type == BTC_PACKET_DHCP)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], DHCP Packet notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8192d2ant_BtInfoNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	pu1Byte			tmpBuf,
++	IN	u1Byte			length
++	)
++{
++}
++
++VOID
++EXhalbtc8192d2ant_HaltNotify(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Halt notify\n"));
++
++	EXhalbtc8192d2ant_MediaStatusNotify(pBtCoexist, BTC_MEDIA_DISCONNECT);
++}
++
++VOID
++EXhalbtc8192d2ant_Periodical(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	u1Byte	algorithm;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 2Ant Periodical!!\n"));
++
++	// NOTE:
++	// sw mechanism must be done after fw mechanism
++	// 
++	if(!halbtc8192d2ant_IsBtCoexistEnter(pBtCoexist))
++		return;
++
++	if(BTC_CHIP_CSR_BC8 == pBtCoexist->boardInfo.btChipType)
++	{
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_GET_BT_RSSI, NULL);
++
++		halbtc8192d2ant_MonitorBtState(pBtCoexist);
++		algorithm = halbtc8192d2ant_ActionAlgorithm(pBtCoexist);	
++		pCoexDm->curAlgorithm = algorithm;
++		switch(pCoexDm->curAlgorithm)
++		{
++			case BT_8192D_2ANT_COEX_ALGO_SCO:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = SCO\n"));
++				halbtc8192d2ant_ActionSco(pBtCoexist);
++				break;
++			case BT_8192D_2ANT_COEX_ALGO_HID:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = HID\n"));
++				halbtc8192d2ant_ActionHid(pBtCoexist);
++				break;
++			case BT_8192D_2ANT_COEX_ALGO_A2DP:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = A2DP\n"));
++				halbtc8192d2ant_ActionA2dp(pBtCoexist);
++				break;
++			case BT_8192D_2ANT_COEX_ALGO_PAN:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = PAN\n"));
++				halbtc8192d2ant_ActionPan(pBtCoexist);
++				break;
++			case BT_8192D_2ANT_COEX_ALGO_HID_A2DP:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = HID+A2DP\n"));
++				halbtc8192d2ant_ActionHidA2dp(pBtCoexist);
++				break;
++			case BT_8192D_2ANT_COEX_ALGO_HID_PAN:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = PAN+HID\n"));
++				halbtc8192d2ant_ActionHidPan(pBtCoexist);
++				break;
++			case BT_8192D_2ANT_COEX_ALGO_PAN_A2DP:
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = PAN+A2DP\n"));
++				halbtc8192d2ant_ActionPanA2dp(pBtCoexist);
++				break;
++			default:
++				break;
++		}
++	}
++}
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8192d2Ant.h b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8192d2Ant.h
+new file mode 100644
+index 0000000..85fd674
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8192d2Ant.h
+@@ -0,0 +1,170 @@
++//===========================================
++// The following is for 8192D 2Ant BT Co-exist definition
++//===========================================
++#define		BTC_RSSI_COEX_THRESH_TOL_8192D_2ANT		6
++
++typedef enum _BT_INFO_SRC_8192D_2ANT{
++	BT_INFO_SRC_8192D_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8192D_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8192D_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8192D_2ANT_MAX
++}BT_INFO_SRC_8192D_2ANT,*PBT_INFO_SRC_8192D_2ANT;
++
++typedef enum _BT_8192D_2ANT_BT_STATUS{
++	BT_8192D_2ANT_BT_STATUS_IDLE				= 0x0,
++	BT_8192D_2ANT_BT_STATUS_CONNECTED_IDLE	= 0x1,
++	BT_8192D_2ANT_BT_STATUS_NON_IDLE			= 0x2,
++	BT_8192D_2ANT_BT_STATUS_MAX
++}BT_8192D_2ANT_BT_STATUS,*PBT_8192D_2ANT_BT_STATUS;
++
++typedef enum _BT_8192D_2ANT_COEX_ALGO{
++	BT_8192D_2ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8192D_2ANT_COEX_ALGO_SCO					= 0x1,
++	BT_8192D_2ANT_COEX_ALGO_HID					= 0x2,
++	BT_8192D_2ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8192D_2ANT_COEX_ALGO_PAN					= 0x4,
++	BT_8192D_2ANT_COEX_ALGO_HID_A2DP			= 0x5,
++	BT_8192D_2ANT_COEX_ALGO_HID_PAN				= 0x6,
++	BT_8192D_2ANT_COEX_ALGO_PAN_A2DP			= 0x7,
++	BT_8192D_2ANT_COEX_ALGO_MAX
++}BT_8192D_2ANT_COEX_ALGO,*PBT_8192D_2ANT_COEX_ALGO;
++
++typedef struct _COEX_DM_8192D_2ANT{
++	// fw mechanism
++	BOOLEAN		bPreBalanceOn;
++	BOOLEAN		bCurBalanceOn;
++
++	// diminishWifi
++	BOOLEAN		bPreDacOn;
++	BOOLEAN		bCurDacOn;
++	BOOLEAN 	bPreInterruptOn;
++	BOOLEAN		bCurInterruptOn;
++	u1Byte		preFwDacSwingLvl;
++	u1Byte		curFwDacSwingLvl;
++	BOOLEAN 	bPreNavOn;
++	BOOLEAN		bCurNavOn;
++
++
++	
++
++	
++	//BOOLEAN		bPreDecBtPwr;
++	//BOOLEAN		bCurDecBtPwr;
++
++	//u1Byte		preFwDacSwingLvl;
++	//u1Byte		curFwDacSwingLvl;
++	//BOOLEAN		bCurIgnoreWlanAct;
++	//BOOLEAN		bPreIgnoreWlanAct;
++	//u1Byte		prePsTdma;
++	//u1Byte		curPsTdma;
++	//u1Byte		psTdmaPara[5];
++	//u1Byte		psTdmaDuAdjType;
++	//BOOLEAN		bResetTdmaAdjust;
++	//BOOLEAN		bPrePsTdmaOn;
++	//BOOLEAN		bCurPsTdmaOn;
++	//BOOLEAN		bPreBtAutoReport;
++	//BOOLEAN		bCurBtAutoReport;
++
++	// sw mechanism
++	BOOLEAN		bPreRfRxLpfShrink;
++	BOOLEAN		bCurRfRxLpfShrink;
++	u4Byte		btRf0x1eBackup;
++	BOOLEAN 	bPreLowPenaltyRa;
++	BOOLEAN		bCurLowPenaltyRa;
++	BOOLEAN		bPreDacSwingOn;
++	u4Byte		preDacSwingLvl;
++	BOOLEAN		bCurDacSwingOn;
++	u4Byte		curDacSwingLvl;
++	BOOLEAN		bPreAdcBackOff;
++	BOOLEAN		bCurAdcBackOff;
++	BOOLEAN 	bPreAgcTableEn;
++	BOOLEAN		bCurAgcTableEn;
++	//u4Byte		preVal0x6c0;
++	//u4Byte		curVal0x6c0;
++	u4Byte		preVal0x6c4;
++	u4Byte		curVal0x6c4;
++	u4Byte		preVal0x6c8;
++	u4Byte		curVal0x6c8;
++	u4Byte		preVal0x6cc;
++	u4Byte		curVal0x6cc;
++	//BOOLEAN		bLimitedDig;
++
++	// algorithm related
++	u1Byte		preAlgorithm;
++	u1Byte		curAlgorithm;
++	//u1Byte		btStatus;
++	//u1Byte		wifiChnlInfo[3];
++} COEX_DM_8192D_2ANT, *PCOEX_DM_8192D_2ANT;
++
++typedef struct _COEX_STA_8192D_2ANT{
++	u1Byte					preWifiRssiState[4];
++	BOOLEAN					bBtBusy;
++	BOOLEAN					bBtUplink;
++	BOOLEAN					bBtDownLink;
++	BOOLEAN					bA2dpBusy;
++}COEX_STA_8192D_2ANT, *PCOEX_STA_8192D_2ANT;
++
++//===========================================
++// The following is interface which will notify coex module.
++//===========================================
++VOID
++EXhalbtc8192d2ant_PowerOnSetting(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtc8192d2ant_InitHwConfig(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN				bWifiOnly
++	);
++VOID
++EXhalbtc8192d2ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtc8192d2ant_IpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8192d2ant_LpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8192d2ant_ScanNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8192d2ant_ConnectNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8192d2ant_MediaStatusNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	);
++VOID
++EXhalbtc8192d2ant_SpecialPacketNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	);
++VOID
++EXhalbtc8192d2ant_HaltNotify(
++	IN	PBTC_COEXIST			pBtCoexist
++	);
++VOID
++EXhalbtc8192d2ant_Periodical(
++	IN	PBTC_COEXIST			pBtCoexist
++	);
++VOID
++EXhalbtc8192d2ant_BtInfoNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	pu1Byte			tmpBuf,
++	IN	u1Byte			length
++	);
++VOID
++EXhalbtc8192d2ant_DisplayCoexInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8192e1Ant.c b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8192e1Ant.c
+new file mode 100644
+index 0000000..8a4d977
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8192e1Ant.c
+@@ -0,0 +1,3417 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8192E Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8192E_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8192e_1ant		glcoex_dm_8192e_1ant;
++static struct  coex_dm_8192e_1ant	*coex_dm = &glcoex_dm_8192e_1ant;
++static struct  coex_sta_8192e_1ant		glcoex_sta_8192e_1ant;
++static struct  coex_sta_8192e_1ant	*coex_sta = &glcoex_sta_8192e_1ant;
++
++const char *const glbt_info_src_8192e_1ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8192e_1ant = 20140527;
++u32	glcoex_ver_8192e_1ant = 0x4f;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8192e1ant_
++ * ************************************************************ */
++u8 halbtc8192e1ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8192E_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8192E_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8192E_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8192e1ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8192E_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8192E_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8192E_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8192e1ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8192e1ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8192e1ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8192e1ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8192e1ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	switch (ra_mask_type) {
++	case 0:	/* normal mode */
++		halbtc8192e1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0);
++		break;
++	case 1:	/* disable cck 1/2 */
++		halbtc8192e1ant_update_ra_mask(btcoexist, force_exec,
++					       0x00000003);
++		break;
++	case 2:	/* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		halbtc8192e1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0001f1f7);
++		break;
++	default:
++		break;
++	}
++
++	halbtc8192e1ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8192e1ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8192e1ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++void halbtc8192e1ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8192e1ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++void halbtc8192e1ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++	static u8		num_of_bt_counter_chk = 0;
++
++	/* to avoid 0x76e[3] = 1 (WLAN_Act control by PTA) during IPS */
++	/* if (! (btcoexist->btc_read_1byte(btcoexist, 0x76e) & 0x8) ) */
++
++	if (coex_sta->under_ips) {
++		coex_sta->high_priority_tx = 65535;
++		coex_sta->high_priority_rx = 65535;
++		coex_sta->low_priority_tx = 65535;
++		coex_sta->low_priority_rx = 65535;
++		return;
++	}
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	if ((coex_sta->low_priority_tx >= 1050)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Hi-Pri Rx/Tx: %d/%d, Lo-Pri Rx/Tx: %d/%d\n",
++		    reg_hp_rx, reg_hp_tx, reg_lp_rx, reg_lp_tx);
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++
++	if ((reg_hp_tx == 0) && (reg_hp_rx == 0) && (reg_lp_tx == 0) &&
++	    (reg_lp_rx == 0)) {
++		num_of_bt_counter_chk++;
++		if (num_of_bt_counter_chk >= 3) {
++			halbtc8192e1ant_query_bt_info(btcoexist);
++			num_of_bt_counter_chk = 0;
++		}
++	}
++}
++
++
++void halbtc8192e1ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++	s32	wifi_rssi = 0;
++	boolean wifi_busy = false, wifi_under_b_mode = false;
++	static u8 cck_lock_counter = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++			   &wifi_under_b_mode);
++
++	if (coex_sta->under_ips) {
++		coex_sta->crc_ok_cck = 0;
++		coex_sta->crc_ok_11g = 0;
++		coex_sta->crc_ok_11n = 0;
++		coex_sta->crc_ok_11n_agg = 0;
++
++		coex_sta->crc_err_cck = 0;
++		coex_sta->crc_err_11g = 0;
++		coex_sta->crc_err_11n = 0;
++		coex_sta->crc_err_11n_agg = 0;
++	} else {
++		coex_sta->crc_ok_cck	= btcoexist->btc_read_4byte(btcoexist,
++					  0xf88);
++		coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf94);
++		coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf90);
++		coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					   0xfb8);
++
++		coex_sta->crc_err_cck	 = btcoexist->btc_read_4byte(btcoexist,
++					   0xf84);
++		coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf96);
++		coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf92);
++		coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					    0xfba);
++	}
++
++
++	/* reset counter */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x0);
++
++	if ((wifi_busy) && (wifi_rssi >= 30) && (!wifi_under_b_mode)) {
++		if ((coex_dm->bt_status == BT_8192E_1ANT_BT_STATUS_ACL_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8192E_1ANT_BT_STATUS_ACL_SCO_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8192E_1ANT_BT_STATUS_SCO_BUSY)) {
++			if (coex_sta->crc_ok_cck > (coex_sta->crc_ok_11g +
++						    coex_sta->crc_ok_11n +
++						    coex_sta->crc_ok_11n_agg)) {
++				if (cck_lock_counter < 5)
++					cck_lock_counter++;
++			} else {
++				if (cck_lock_counter > 0)
++					cck_lock_counter--;
++			}
++
++		} else {
++			if (cck_lock_counter > 0)
++				cck_lock_counter--;
++		}
++	} else {
++		if (cck_lock_counter > 0)
++			cck_lock_counter--;
++	}
++
++	if (!coex_sta->pre_ccklock) {
++
++		if (cck_lock_counter >= 5)
++			coex_sta->cck_lock = true;
++		else
++			coex_sta->cck_lock = false;
++	} else {
++		if (cck_lock_counter == 0)
++			coex_sta->cck_lock = false;
++		else
++			coex_sta->cck_lock = true;
++	}
++
++	coex_sta->pre_ccklock =  coex_sta->cck_lock;
++
++
++}
++
++boolean halbtc8192e1ant_is_wifi_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false;
++	boolean wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++	}
++
++	return false;
++}
++
++void halbtc8192e1ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++u8 halbtc8192e1ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8192E_1ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Profile = SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8192E_1ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_1ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_1ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8192E_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID + A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_1ANT_COEX_ALGO_HID_A2DP;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8192E_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! BT Profile = SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8192e1ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8192e1ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8192e1ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8192e1ant_set_sw_penalty_tx_rate_adaptive(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8192e1ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8192e1ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8192e1ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8192e1ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8192e1ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8192e1ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** CoexTable(%d) **********\n", type);
++	BTC_TRACE(trace_buf);
++
++	coex_sta->coex_table_type = type;
++
++	switch (type) {
++	case 0:
++		halbtc8192e1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x55555555, 0xffffff, 0x3);
++		break;
++	case 1:
++		halbtc8192e1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 2:
++		halbtc8192e1ant_coex_table(btcoexist, force_exec,
++				   0x5a5a5a5a, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 3:
++		halbtc8192e1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 4:
++		halbtc8192e1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0xaaaa5a5a, 0xffffff, 0x3);
++		break;
++	case 5:
++		halbtc8192e1ant_coex_table(btcoexist, force_exec,
++				   0x5a5a5a5a, 0xaa5a5a5a, 0xffffff, 0x3);
++		break;
++	case 6:
++		halbtc8192e1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 7:
++		halbtc8192e1ant_coex_table(btcoexist, force_exec,
++				   0xaaaaaaaa, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8192e1ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8192e1ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8192e1ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8192e1ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8192e1ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8192e1ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8192e1ant_sw_mechanism(IN struct btc_coexist *btcoexist,
++				  IN boolean low_penalty_ra)
++{
++	halbtc8192e1ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8192e1ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean init_hwcfg, IN boolean wifi_off)
++{
++	u32			u32tmp = 0;
++
++	if (init_hwcfg) {
++		btcoexist->btc_write_1byte(btcoexist, 0x944, 0x24);
++		btcoexist->btc_write_4byte(btcoexist, 0x930, 0x700700);
++		if (btcoexist->chip_interface == BTC_INTF_USB)
++			btcoexist->btc_write_4byte(btcoexist, 0x64, 0x30430004);
++		else
++			btcoexist->btc_write_4byte(btcoexist, 0x64, 0x30030004);
++
++		/* 0x4c[27][24]='00', Set Antenna to BB */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp &= ~BIT(24);
++		u32tmp &= ~BIT(27);
++		btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++	} else if (wifi_off) {
++		if (btcoexist->chip_interface == BTC_INTF_USB)
++			btcoexist->btc_write_4byte(btcoexist, 0x64, 0x30430004);
++		else
++			btcoexist->btc_write_4byte(btcoexist, 0x64, 0x30030004);
++
++		/* 0x4c[27][24]='11', Set Antenna to BT, 0x64[8:7]=0, 0x64[2]=1 */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp |= BIT(24);
++		u32tmp |= BIT(27);
++		btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++	}
++
++	/* ext switch setting */
++	switch (ant_pos_type) {
++	case BTC_ANT_PATH_WIFI:
++		btcoexist->btc_write_1byte(btcoexist, 0x92c, 0x4);
++		break;
++	case BTC_ANT_PATH_BT:
++		btcoexist->btc_write_1byte(btcoexist, 0x92c, 0x20);
++		break;
++	default:
++	case BTC_ANT_PATH_PTA:
++		btcoexist->btc_write_1byte(btcoexist, 0x92c, 0x4);
++		break;
++	}
++}
++
++void halbtc8192e1ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], FW for 1Ant AP mode\n");
++			BTC_TRACE(trace_buf);
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++		}
++	}
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++
++void halbtc8192e1ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_busy = false;
++	u8			rssi_adjust_val = 0;
++	u8			ps_tdma_byte4_val = 0x50, ps_tdma_byte0_val = 0x51,
++				ps_tdma_byte3_val =  0x10;
++	s8			wifi_duration_adjust = 0x0;
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (coex_dm->cur_ps_tdma_on) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(on, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(off, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	}
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++
++	if (coex_sta->scan_ap_num <= 5)
++		wifi_duration_adjust = 5;
++	else if (coex_sta->scan_ap_num >= 40)
++		wifi_duration_adjust = -15;
++	else if (coex_sta->scan_ap_num >= 20)
++		wifi_duration_adjust = -10;
++
++	if (!coex_sta->force_lps_on) { /* only for A2DP-only case 1/2/9/11 while wifi noisy threshold > 30 */
++		ps_tdma_byte0_val = 0x61;  /* no null-pkt */
++		ps_tdma_byte3_val = 0x11; /* no tx-pause at BT-slot */
++		ps_tdma_byte4_val = 0x10; /* 0x778 = d/1 toggle */
++	}
++
++	if ((type == 3) || (type == 13) || (type == 14))
++		ps_tdma_byte4_val = ps_tdma_byte4_val &
++			    0xbf;  /* no dynamic slot for multi-profile */
++
++	if (bt_link_info->slave_role == true)
++		ps_tdma_byte4_val = ps_tdma_byte4_val |
++			0x1;  /* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++
++	if (turn_on) {
++		switch (type) {
++		default:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x51,
++				      0x1a, 0x1a, 0x0, ps_tdma_byte4_val);
++			break;
++		case 1:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist,
++						      ps_tdma_byte0_val, 0x3a +
++					      wifi_duration_adjust, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 2:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist,
++						      ps_tdma_byte0_val, 0x2d +
++					      wifi_duration_adjust, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 3:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x51,
++				      0x1d, 0x1d, 0x0, ps_tdma_byte4_val);
++			break;
++		case 4:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x15, 0x3, 0x14, 0x0);
++			break;
++		case 5:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x15, 0x3, 0x11, 0x11);
++			break;
++		case 6:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x20, 0x3, 0x11, 0x11);
++			break;
++		case 7:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xc, 0x5, 0x0, 0x0);
++			break;
++		case 8:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x25, 0x3, 0x10, 0x0);
++			break;
++		case 9:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x3,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 10:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xa, 0xa, 0x0, 0x40);
++			break;
++		case 11:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 12:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x0a, 0x0a, 0x0, 0x50);
++			break;
++		case 13:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x51,
++				      0x12, 0x12, 0x0, ps_tdma_byte4_val);
++			break;
++		case 14:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x51,
++				      0x21, 0x3, 0x10, ps_tdma_byte4_val);
++			break;
++		case 15:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xa, 0x3, 0x8, 0x0);
++			break;
++		case 16:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x15, 0x3, 0x10, 0x0);
++			break;
++		case 18:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x25, 0x3, 0x10, 0x0);
++			break;
++		case 20:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x3f, 0x03, 0x11, 0x10);
++			break;
++		case 21:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x25, 0x03, 0x11, 0x11);
++			break;
++		case 22:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x25, 0x03, 0x11, 0x10);
++			break;
++		case 23:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0x31, 0x18);
++			break;
++		case 24:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x15, 0x3, 0x31, 0x18);
++			break;
++		case 25:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0xa, 0x3, 0x31, 0x18);
++			break;
++		case 26:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0xa, 0x3, 0x31, 0x18);
++			break;
++		case 27:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0x31, 0x98);
++			break;
++		case 28:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x69,
++						      0x25, 0x3, 0x31, 0x0);
++			break;
++		case 29:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0xab,
++						      0x1a, 0x1a, 0x1, 0x10);
++			break;
++		case 30:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x30, 0x3, 0x10, 0x10);
++			break;
++		case 31:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1a, 0x1a, 0, 0x58);
++			break;
++		case 32:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x35, 0x3, 0x11, 0x11);
++			break;
++		case 33:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0xa3,
++						      0x25, 0x3, 0x30, 0x90);
++			break;
++		case 34:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x53,
++						      0x1a, 0x1a, 0x0, 0x10);
++			break;
++		case 35:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x63,
++						      0x1a, 0x1a, 0x0, 0x10);
++			break;
++		case 36:
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x12, 0x3, 0x14, 0x50);
++			break;
++		case 40: /* SoftAP only with no sta associated,BT disable ,TDMA mode for power saving */
++			/* here softap mode screen off will cost 70-80mA for phone */
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x23,
++						      0x18, 0x00, 0x10, 0x24);
++			break;
++		}
++	} else {
++
++		/* disable PS tdma */
++		switch (type) {
++		case 8: /* PTA Control */
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x8,
++						      0x0, 0x0, 0x0, 0x0);
++			halbtc8192e1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_PTA, false, false);
++			break;
++		case 0:
++		default:  /* Software control, Antenna at BT side */
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			halbtc8192e1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_BT, false, false);
++			break;
++		case 9:   /* Software control, Antenna at WiFi side */
++			halbtc8192e1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			halbtc8192e1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_WIFI, false, false);
++			break;
++		}
++	}
++	rssi_adjust_val = 0;
++	btcoexist->btc_set(btcoexist,
++		BTC_SET_U1_RSSI_ADJ_VAL_FOR_1ANT_COEX_TYPE, &rssi_adjust_val);
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"############# [BTCoex], 0x948=0x%x, 0x765=0x%x, 0x67=0x%x\n",
++		    btcoexist->btc_read_4byte(btcoexist, 0x948),
++		    btcoexist->btc_read_1byte(btcoexist, 0x765),
++		    btcoexist->btc_read_1byte(btcoexist, 0x67));
++	BTC_TRACE(trace_buf);
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8192e1ant_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++	/* sw all off */
++	halbtc8192e1ant_sw_mechanism(btcoexist, false);
++
++	/* hw all off */
++	halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++boolean halbtc8192e1ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected &&
++	    BT_8192E_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++	    coex_dm->bt_status) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++		/* halbtc8192e1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		   (BT_8192E_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++		/* halbtc8192e1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8192E_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++		/* halbtc8192e1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		(BT_8192E_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++		/* halbtc8192e1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8192E_1ANT_BT_STATUS_CONNECTED_IDLE != coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non connected-idle + BT Busy!!\n");
++		BTC_TRACE(trace_buf);
++		/* halbtc8192e1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else {
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		}
++
++		common = false;
++	}
++
++	return common;
++}
++
++
++void halbtc8192e1ant_tdma_duration_adjust_for_acl(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0, bt_info_ext;
++	boolean			wifi_busy = false;
++	/*static boolean	pre_wifi_busy = false;*/
++
++	if (BT_8192E_1ANT_WIFI_STATUS_CONNECTED_BUSY == wifi_status)
++		wifi_busy = true;
++	else
++		wifi_busy = false;
++
++	if ((BT_8192E_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN ==
++	     wifi_status) ||
++	    (BT_8192E_1ANT_WIFI_STATUS_CONNECTED_SCAN == wifi_status) ||
++	    (BT_8192E_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT ==
++	     wifi_status)) {
++		if (coex_dm->cur_ps_tdma != 1 &&
++		    coex_dm->cur_ps_tdma != 2 &&
++		    coex_dm->cur_ps_tdma != 3 &&
++		    coex_dm->cur_ps_tdma != 9) {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						9);
++			coex_dm->ps_tdma_du_adj_type = 9;
++
++			up = 0;
++			dn = 0;
++			m = 1;
++			n = 3;
++			result = 0;
++			wait_count = 0;
++		}
++		return;
++	}
++
++	if (!coex_dm->auto_tdma_adjust) {
++		coex_dm->auto_tdma_adjust = true;
++
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 2);
++		coex_dm->ps_tdma_du_adj_type = 2;
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/* accquire the BT TRx retry count from BT_Info byte2 */
++		retry_count = coex_sta->bt_retry_cnt;
++		bt_info_ext = coex_sta->bt_info_ext;
++
++		if ((coex_sta->low_priority_tx) > 1050 ||
++		    (coex_sta->low_priority_rx) > 1250)
++			retry_count++;
++
++		result = 0;
++		wait_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if retry count during continuous n*2 seconds is 0, enlarge WiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {	/* if continuous 2 retry count(every 2 seconds) >0 and < 3, reduce WiFi duration */
++				if (wait_count <= 2)
++					m++; /* to avoid loop between the two levels */
++				else
++					m = 1;
++
++				if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++			}
++		} else { /* retry count > 3, once retry count > 3, to reduce WiFi duration */
++			if (wait_count == 1)
++				m++; /* to avoid loop between the two levels */
++			else
++				m = 1;
++
++			if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++		}
++
++		if (result == -1) {
++			if ((BT_INFO_8192E_1ANT_A2DP_BASIC_RATE(bt_info_ext)) &&
++			    ((coex_dm->cur_ps_tdma == 1) ||
++			     (coex_dm->cur_ps_tdma == 2))) {
++				halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 1) {
++				halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 2);
++				coex_dm->ps_tdma_du_adj_type = 2;
++			} else if (coex_dm->cur_ps_tdma == 2) {
++				halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 9) {
++				halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 11);
++				coex_dm->ps_tdma_du_adj_type = 11;
++			}
++		} else if (result == 1) {
++			if ((BT_INFO_8192E_1ANT_A2DP_BASIC_RATE(bt_info_ext)) &&
++			    ((coex_dm->cur_ps_tdma == 1) ||
++			     (coex_dm->cur_ps_tdma == 2))) {
++				halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 11) {
++				halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 9) {
++				halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 2);
++				coex_dm->ps_tdma_du_adj_type = 2;
++			} else if (coex_dm->cur_ps_tdma == 2) {
++				halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 1);
++				coex_dm->ps_tdma_du_adj_type = 1;
++			}
++		} else { /* no change */
++			/* Bryant Modify
++			if(wifi_busy != pre_wifi_busy)
++			{
++				pre_wifi_busy = wifi_busy;
++				halbtc8192e1ant_ps_tdma(btcoexist, FORCE_EXEC, true, coex_dm->cur_ps_tdma);
++			}
++			*/
++		}
++
++		if (coex_dm->cur_ps_tdma != 1 &&
++		    coex_dm->cur_ps_tdma != 2 &&
++		    coex_dm->cur_ps_tdma != 9 &&
++		    coex_dm->cur_ps_tdma != 11) {
++			/* recover to previous adjust type */
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						coex_dm->ps_tdma_du_adj_type);
++		}
++	}
++}
++
++void halbtc8192e1ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8192e1ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8192e1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8192e1ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		coex_sta->force_lps_on = true;
++		break;
++	case BTC_PS_LPS_OFF:
++		halbtc8192e1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8192e1ant_action_wifi_only(IN struct btc_coexist *btcoexist)
++{
++	halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 9);
++}
++
++void halbtc8192e1ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++
++	/* This function check if bt is disabled */
++
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is enabled !!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		bt_disable_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], bt all counters=0, %d times!!\n",
++			    bt_disable_cnt);
++		BTC_TRACE(trace_buf);
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++					   &bt_disabled);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e1ant_action_wifi_only(btcoexist);
++		}
++	}
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++		if (!bt_disabled) {
++		} else {
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++					   NULL);
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++					   NULL);
++		}
++	}
++}
++
++/* *********************************************
++ *
++ *	Software Coex Mechanism start
++ *
++ * ********************************************* */
++
++/* SCO only or SCO+PAN(HS) */
++
++/*
++void halbtc8192e1ant_action_sco(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8192e1ant_action_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8192e1ant_action_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8192e1ant_action_a2dp_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8192e1ant_action_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8192e1ant_action_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8192e1ant_action_pan_edr_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8192e1ant_action_pan_edr_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8192e1ant_action_hid_a2dp_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, true);
++}
++
++void halbtc8192e1ant_action_hid_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8192e1ant_sw_mechanism(btcoexist, true);
++}
++
++*/
++
++/* *********************************************
++ *
++ *	Non-Software Coex Mechanism start
++ *
++ * ********************************************* */
++void halbtc8192e1ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8192e1ant_action_hs(IN struct btc_coexist *btcoexist)
++{
++	halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++	halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8192e1ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_connected = false, ap_enable = false, wifi_busy = false,
++				bt_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	if ((!wifi_connected) && (!coex_sta->wifi_is_high_pri_task)) {
++		halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist) ||
++		   (bt_link_info->a2dp_exist)) {
++		/* SCO/HID/A2DP  busy */
++		halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if ((bt_link_info->pan_exist) || (wifi_busy)) {
++		halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++	}
++}
++
++void halbtc8192e1ant_action_bt_sco_hid_only_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	/* tdma and coex table */
++
++	if (bt_link_info->sco_exist) {
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else { /* HID */
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	}
++}
++
++void halbtc8192e1ant_action_wifi_connected_bt_acl_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	u8		bt_rssi_state;
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	bt_rssi_state = halbtc8192e1ant_bt_rssi_state(2, 28, 0);
++
++	if ((coex_sta->low_priority_rx >= 1000)  &&
++	    (coex_sta->low_priority_rx != 65535))
++		bt_link_info->slave_role = true;
++	else
++		bt_link_info->slave_role = false;
++
++	if (bt_link_info->hid_only) { /* HID */
++		halbtc8192e1ant_action_bt_sco_hid_only_busy(btcoexist,
++				wifi_status);
++		coex_dm->auto_tdma_adjust = false;
++		return;
++	} else if (bt_link_info->a2dp_only) { /* A2DP		 */
++		if (BT_8192E_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status) {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = false;
++		} else {
++			halbtc8192e1ant_tdma_duration_adjust_for_acl(btcoexist,
++					wifi_status);
++#if 0
++			if (coex_sta->cck_lock)
++				halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 3);
++			else
++#endif
++				halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = true;
++		}
++	} else if (((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) ||
++		   (bt_link_info->hid_exist && bt_link_info->a2dp_exist &&
++		bt_link_info->pan_exist)) { /* A2DP+PAN(OPP,FTP), HID+A2DP+PAN(OPP,FTP) */
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	} else if (bt_link_info->hid_exist &&
++		   bt_link_info->a2dp_exist) { /* HID+A2DP */
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 14);
++		coex_dm->auto_tdma_adjust = false;
++
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++	} else if ((bt_link_info->pan_only) || (bt_link_info->hid_exist &&
++		bt_link_info->pan_exist)) { /* PAN(OPP,FTP), HID+PAN(OPP,FTP)			 */
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	} else {
++		/* BT no-profile busy (0x9) */
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	}
++}
++
++void halbtc8192e1ant_action_wifi_not_connected(IN struct btc_coexist *btcoexist)
++{
++	/* power save state */
++	halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	halbtc8192e1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8192e1ant_action_wifi_not_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if (BT_8192E_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						20);
++			halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8192E_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8192E_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8192e1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8192E_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		/* Bryant Add */
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8192e1ant_action_wifi_not_connected_asso_auth(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist)  || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8192e1ant_action_wifi_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if (BT_8192E_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						20);
++			halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8192E_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8192E_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8192e1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8192E_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		/* Bryant Add */
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8192e1ant_action_wifi_connected_specific_packet(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8192e1ant_action_wifi_connected(IN struct btc_coexist *btcoexist)
++{
++	boolean	wifi_busy = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean		under_4way = false, ap_enable = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], CoexForWifiConnect()===>\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (under_4way) {
++		halbtc8192e1ant_action_wifi_connected_specific_packet(btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 4way<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++	if (scan || link || roam) {
++		if (scan)
++			halbtc8192e1ant_action_wifi_connected_scan(btcoexist);
++		else
++			halbtc8192e1ant_action_wifi_connected_specific_packet(
++				btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under scan<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	/* power save state */
++	if (!ap_enable &&
++	    BT_8192E_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status &&
++	    !btcoexist->bt_link_info.hid_only) {
++		if (btcoexist->bt_link_info.a2dp_only) {	/* A2DP */
++			if (!wifi_busy)
++				halbtc8192e1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			else { /* busy */
++				if (coex_sta->scan_ap_num >=
++				    BT_8192E_1ANT_WIFI_NOISY_THRESH)  /* no force LPS, no PS-TDMA, use pure TDMA */
++					halbtc8192e1ant_power_save_state(
++						btcoexist, BTC_PS_WIFI_NATIVE,
++						0x0, 0x0);
++				else
++					halbtc8192e1ant_power_save_state(
++						btcoexist, BTC_PS_LPS_ON, 0x50,
++						0x4);
++			}
++		} else if ((coex_sta->pan_exist == false) &&
++			   (coex_sta->a2dp_exist == false) &&
++			   (coex_sta->hid_exist == false))
++			halbtc8192e1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		else
++			halbtc8192e1ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++	} else
++		halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++
++	/* tdma and coex table */
++	if (!wifi_busy) {
++		if (BT_8192E_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8192e1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8192E_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else if ((BT_8192E_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8192E_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8192e1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8192E_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++
++			if ((coex_sta->high_priority_tx) +
++			    (coex_sta->high_priority_rx) <= 60)
++				halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++			else
++				halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		}
++	} else {
++		if (BT_8192E_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8192e1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8192E_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else if ((BT_8192E_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8192E_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8192e1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8192E_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else {
++			halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++
++			if ((coex_sta->high_priority_tx) +
++			    (coex_sta->high_priority_rx) <= 60)
++				halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++			else
++				halbtc8192e1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		}
++	}
++}
++
++void halbtc8192e1ant_run_sw_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8				algorithm = 0;
++
++	algorithm = halbtc8192e1ant_action_algorithm(btcoexist);
++	coex_dm->cur_algorithm = algorithm;
++
++	if (halbtc8192e1ant_is_common_action(btcoexist)) {
++
++	} else {
++		switch (coex_dm->cur_algorithm) {
++		case BT_8192E_1ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_sco(btcoexist); */
++			break;
++		case BT_8192E_1ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_hid(btcoexist); */
++			break;
++		case BT_8192E_1ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_a2dp(btcoexist); */
++			break;
++		case BT_8192E_1ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_a2dp_pan_hs(btcoexist); */
++			break;
++		case BT_8192E_1ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_pan_edr(btcoexist); */
++			break;
++		case BT_8192E_1ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_pan_hs(btcoexist); */
++			break;
++		case BT_8192E_1ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_pan_edr_a2dp(btcoexist); */
++			break;
++		case BT_8192E_1ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_pan_edr_hid(btcoexist); */
++			break;
++		case BT_8192E_1ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_hid_a2dp_pan_edr(btcoexist); */
++			break;
++		case BT_8192E_1ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_action_hid_a2dp(btcoexist); */
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8192e1ant_coex_all_off(btcoexist); */
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8192e1ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false, bt_hs_on = false;
++	boolean	increase_scan_dev_num = false;
++	boolean	bt_ctrl_agg_buf_size = false;
++	boolean	miracast_plus_bt = false;
++	u8	agg_buf_size = 5;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if ((BT_8192E_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8192E_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8192E_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		increase_scan_dev_num = true;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_INC_SCAN_DEV_NUM,
++			   &increase_scan_dev_num);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist) {
++			halbtc8192e1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1,
++						   0, 1);
++			miracast_plus_bt = true;
++		} else {
++			halbtc8192e1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0,
++						   0, 0);
++			miracast_plus_bt = false;
++		}
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8192e1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if ((bt_link_info->a2dp_exist) &&
++		    (coex_sta->c2h_bt_inquiry_page)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8192e1ant_action_wifi_multi_port(btcoexist);
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++	if ((bt_link_info->bt_link_exist) && (wifi_connected)) {
++		halbtc8192e1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1, 0, 1);
++
++		if (bt_link_info->sco_exist)
++			halbtc8192e1ant_limited_rx(btcoexist, NORMAL_EXEC,
++						   false, true, 0x5);
++		else
++			halbtc8192e1ant_limited_rx(btcoexist, NORMAL_EXEC,
++						   false, true, 0x8);
++
++		halbtc8192e1ant_sw_mechanism(btcoexist, true);
++		halbtc8192e1ant_run_sw_coexist_mechanism(
++			btcoexist);  /* just print debug message */
++	} else {
++		halbtc8192e1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++		halbtc8192e1ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x5);
++
++		halbtc8192e1ant_sw_mechanism(btcoexist, false);
++		halbtc8192e1ant_run_sw_coexist_mechanism(
++			btcoexist); /* just print debug message */
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "############# [BTCoex],  BT Is Inquirying\n");
++		BTC_TRACE(trace_buf);
++		halbtc8192e1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8192e1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	if (!wifi_connected) {
++		boolean	scan = false, link = false, roam = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is non connected-idle !!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (scan || link || roam) {
++			if (scan)
++				halbtc8192e1ant_action_wifi_not_connected_scan(
++					btcoexist);
++			else
++				halbtc8192e1ant_action_wifi_not_connected_asso_auth(
++					btcoexist);
++		} else
++			halbtc8192e1ant_action_wifi_not_connected(btcoexist);
++	} else	/* wifi LPS/Busy */
++		halbtc8192e1ant_action_wifi_connected(btcoexist);
++}
++
++void halbtc8192e1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++
++	/* sw all off */
++	halbtc8192e1ant_sw_mechanism(btcoexist, false);
++
++	/* halbtc8192e1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8); */
++	halbtc8192e1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	coex_sta->pop_event_cnt = 0;
++}
++
++void halbtc8192e1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean wifi_only)
++{
++	u16	u16tmp = 0;
++	u8	u8tmp = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 1Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	/* antenna sw ctrl to bt */
++	halbtc8192e1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, true, false);
++
++	halbtc8192e1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	/* antenna switch control parameter */
++	btcoexist->btc_write_4byte(btcoexist, 0x858, 0x55555555);
++
++	/* coex parameters */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++	/* 0x790[5:0]=0x5 */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x790);
++	u8tmp &= 0xc0;
++	u8tmp |= 0x5;
++	btcoexist->btc_write_1byte(btcoexist, 0x790, u8tmp);
++
++	/* enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++	/* enable PTA */
++	btcoexist->btc_write_1byte(btcoexist, 0x40, 0x20);
++	/* enable mailbox interface */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x40);
++	u16tmp |= BIT(9);
++	btcoexist->btc_write_2byte(btcoexist, 0x40, u16tmp);
++
++	/* enable PTA I2C mailbox */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x101);
++	u8tmp |= BIT(4);
++	btcoexist->btc_write_1byte(btcoexist, 0x101, u8tmp);
++
++	/* enable bt clock when wifi is disabled. */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x93);
++	u8tmp |= BIT(0);
++	btcoexist->btc_write_1byte(btcoexist, 0x93, u8tmp);
++	/* enable bt clock when suspend. */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x7);
++	u8tmp |= BIT(0);
++	btcoexist->btc_write_1byte(btcoexist, 0x7, u8tmp);
++}
++
++
++/*
++void halbtc8192e1ant_wifi_off_hw_cfg(IN struct btc_coexist* btcoexist)
++{
++
++
++}
++*/
++
++/* ************************************************************
++ * work around function start with wa_halbtc8192e1ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8192e1ant_
++ * ************************************************************ */
++void ex_halbtc8192e1ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++#if 0
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x0;
++	u16 u16tmp = 0x0;
++
++	btcoexist->stop_coex_dm = true;
++
++	btcoexist->btc_write_1byte(btcoexist, 0x67, 0x20);
++
++	/* enable BB, REG_SYS_FUNC_EN such that we can write 0x948 correctly. */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x2);
++	btcoexist->btc_write_2byte(btcoexist, 0x2, u16tmp | BIT(0) | BIT(1));
++
++	/* set GRAN_BT = 1 */
++	btcoexist->btc_write_1byte(btcoexist, 0x765, 0x18);
++	/* set WLAN_ACT = 0 */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++	/*  */
++	/* S0 or S1 setting and Local register setting(By the setting fw can get ant number, S0/S1, ... info) */
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++	if (btcoexist->chip_interface == BTC_INTF_USB) {
++		/* fixed at S0 for USB interface */
++		btcoexist->btc_write_4byte(btcoexist, 0x948, 0x0);
++
++		u8tmp |= 0x1;	/* antenna inverse */
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++	} else {
++		/* for PCIE and SDIO interface, we check efuse 0xc3[6] */
++		if (board_info->single_ant_path == 0) {
++			/* set to S1 */
++			btcoexist->btc_write_4byte(btcoexist, 0x948, 0x280);
++			board_info->btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++		} else if (board_info->single_ant_path == 1) {
++			/* set to S0 */
++			btcoexist->btc_write_4byte(btcoexist, 0x948, 0x0);
++			u8tmp |= 0x1;	/* antenna inverse */
++			board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++		}
++
++		if (btcoexist->chip_interface == BTC_INTF_PCI)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x384,
++							     u8tmp);
++		else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60,
++							     u8tmp);
++	}
++#endif
++}
++
++void ex_halbtc8192e1ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8192e1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8192e1ant_init_hw_config(btcoexist, wifi_only);
++	btcoexist->stop_coex_dm = false;
++}
++
++void ex_halbtc8192e1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = false;
++
++	halbtc8192e1ant_init_coex_dm(btcoexist);
++
++	halbtc8192e1ant_query_bt_info(btcoexist);
++}
++
++void ex_halbtc8192e1ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u32				u32tmp[4];
++	u32				fw_ver = 0, bt_patch_ver = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	if (btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "Ant PG number/ Ant mechanism:",
++		   board_info->pg_ant_num, board_info->btdm_ant_num);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%d/ 0x%x/ 0x%x(%d)",
++		   "CoexVer/ FwVer/ PatchVer",
++		   glcoex_ver_date_8192e_1ant, glcoex_ver_8192e_1ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8192E_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8192E_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi, coex_sta->bt_retry_cnt);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist);
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_BT_LINK_INFO);
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Info A2DP rate",
++		   (bt_info_ext & BIT(0)) ? "Basic rate" : "EDR rate");
++	CL_PRINTF(cli_buf);
++
++	for (i = 0; i < BT_INFO_SRC_8192E_1ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8192e_1ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	if (!btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanisms]============");
++		CL_PRINTF(cli_buf);
++
++		ps_tdma_case = coex_dm->cur_ps_tdma;
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n %-35s = %02x %02x %02x %02x %02x case-%d (auto:%d)",
++			   "PS TDMA",
++			   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++			   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++			   coex_dm->ps_tdma_para[4], ps_tdma_case,
++			   coex_dm->auto_tdma_adjust);
++		CL_PRINTF(cli_buf);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x ",
++			   "Latest error condition(should be 0)",
++			   coex_dm->error_condition);
++		CL_PRINTF(cli_buf);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ",
++			   "IgnWlanAct",
++			   coex_dm->cur_ignore_wlan_act);
++		CL_PRINTF(cli_buf);
++	}
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc04);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xd04);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x90c);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0xc04/ 0xd04/ 0x90c",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x778",
++		   u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x92c);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x930);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x92c/ 0x930",
++		   (u8tmp[0]), u32tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x4f);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x40/ 0x4f",
++		   u8tmp[0], u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0xc50(dig)",
++		   u32tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8/0x6cc(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(hp rx[31:16]/tx[15:0])",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(lp rx[31:16]/tx[15:0])",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++#if (BT_AUTO_REPORT_ONLY_8192E_1ANT == 1)
++	halbtc8192e1ant_monitor_bt_ctr(btcoexist);
++#endif
++
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++void ex_halbtc8192e1ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++		halbtc8192e1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, false,
++					     true);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = false;
++
++		halbtc8192e1ant_init_hw_config(btcoexist, false);
++		halbtc8192e1ant_init_coex_dm(btcoexist);
++		halbtc8192e1ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8192e1ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++	}
++}
++
++void ex_halbtc8192e1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	u8 u8tmpa, u8tmpb;
++	u32 u32tmp;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_SCAN_START == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8192e1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++			8);  /* Force antenna setup for no scan result issue */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x948);
++		u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++		u8tmpb = btcoexist->btc_read_1byte(btcoexist, 0x67);
++
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], 0x948=0x%x, 0x765=0x%x, 0x67=0x%x\n",
++			    u32tmp,  u8tmpa, u8tmpb);
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);
++	}
++
++	if (coex_sta->bt_disabled)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	halbtc8192e1ant_query_bt_info(btcoexist);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8192e1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8192e1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8192e1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8192e1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8192e1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_SCAN_START == type) {
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8192e1ant_action_wifi_not_connected_scan(
++				btcoexist);
++		else	/* wifi is connected */
++			halbtc8192e1ant_action_wifi_connected_scan(btcoexist);
++	} else if (BTC_SCAN_FINISH == type) {
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8192e1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8192e1ant_action_wifi_connected(btcoexist);
++	}
++}
++
++void ex_halbtc8192e1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	boolean	wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	if (BTC_ASSOCIATE_START == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++		/* coex_dm->arp_cnt = 0; */
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8192e1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8192e1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8192e1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8192e1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8192e1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_ASSOCIATE_START == type)
++		halbtc8192e1ant_action_wifi_not_connected_asso_auth(btcoexist);
++	else if (BTC_ASSOCIATE_FINISH == type) {
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++				   &wifi_connected);
++		if (!wifi_connected) /* non-connected scan */
++			halbtc8192e1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8192e1ant_action_wifi_connected(btcoexist);
++	}
++}
++
++void ex_halbtc8192e1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++	boolean			wifi_under_b_mode = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++
++		/* Set CCK Tx/Rx high Pri except 11b mode */
++		if (wifi_under_b_mode) {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x00); /* CCK Rx */
++		} else {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x10); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x10); /* CCK Rx */
++		}
++
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++
++		btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x0); /* CCK Tx */
++		btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x0); /* CCK Rx */
++	}
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		/* h2c_parameter[0] = 0x1; */
++		h2c_parameter[0] = 0x0;
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++}
++
++void ex_halbtc8192e1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean	bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	if (BTC_PACKET_DHCP == type ||
++	    BTC_PACKET_EAPOL == type ||
++	    BTC_PACKET_ARP == type) {
++		if (BTC_PACKET_ARP == type) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], specific Packet ARP notify\n");
++			BTC_TRACE(trace_buf);
++
++			coex_dm->arp_cnt++;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], ARP Packet Count = %d\n",
++				    coex_dm->arp_cnt);
++			BTC_TRACE(trace_buf);
++
++			if (coex_dm->arp_cnt >=
++			    10) /* if APR PKT > 10 after connect, do not go to ActionWifiConnectedSpecificPacket(btcoexist) */
++				coex_sta->wifi_is_high_pri_task = false;
++			else
++				coex_sta->wifi_is_high_pri_task = true;
++		} else {
++			coex_sta->wifi_is_high_pri_task = true;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], specific Packet DHCP or EAPOL notify\n");
++			BTC_TRACE(trace_buf);
++		}
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet [Type = %d] notify\n", type);
++		BTC_TRACE(trace_buf);
++	}
++
++	coex_sta->specific_pkt_period_cnt = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8192e1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8192e1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8192e1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8192e1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8192e1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_PACKET_DHCP == type ||
++	    BTC_PACKET_EAPOL == type ||
++	    ((BTC_PACKET_ARP == type) && (coex_sta->wifi_is_high_pri_task)))
++		halbtc8192e1ant_action_wifi_connected_specific_packet(btcoexist);
++}
++
++void ex_halbtc8192e1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8				bt_info = 0;
++	u8				i, rsp_source = 0;
++	boolean				wifi_connected = false;
++	boolean				bt_busy = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8192E_1ANT_MAX)
++		rsp_source = BT_INFO_SRC_8192E_1ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (BT_INFO_SRC_8192E_1ANT_WIFI_FW != rsp_source) {
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x20)
++			coex_sta->c2h_bt_page = true;
++		else
++			coex_sta->c2h_bt_page = false;
++
++		coex_sta->bt_rssi =
++			coex_sta->bt_info_c2h[rsp_source][3] * 2 - 90;
++		/* coex_sta->bt_info_c2h[rsp_source][3]*2+10; */
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		coex_sta->bt_tx_rx_mask = (coex_sta->bt_info_c2h[rsp_source][2]
++					   & 0x40);
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TX_RX_MASK,
++				   &coex_sta->bt_tx_rx_mask);
++		if (!coex_sta->bt_tx_rx_mask) {
++			/* BT into is responded by BT FW and BT RF REG 0x3C != 0x15 => Need to switch BT TRx Mask */
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Switch BT TRx Mask since BT RF REG 0x3C != 0x15\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF,
++						  0x3c, 0x15);
++		}
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++		if (coex_sta->bt_info_ext & BIT(1)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++					   &wifi_connected);
++			if (wifi_connected)
++				ex_halbtc8192e1ant_media_status_notify(
++					btcoexist, BTC_MEDIA_CONNECT);
++			else
++				ex_halbtc8192e1ant_media_status_notify(
++					btcoexist, BTC_MEDIA_DISCONNECT);
++		}
++
++		if (coex_sta->bt_info_ext & BIT(3)) {
++			if (!btcoexist->manual_control &&
++			    !btcoexist->stop_coex_dm) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8192e1ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		} else {
++			/* BT already NOT ignore Wlan active, do nothing here. */
++		}
++#if (BT_AUTO_REPORT_ONLY_8192E_1ANT == 0)
++		if ((coex_sta->bt_info_ext & BIT(4))) {
++			/* BT auto report already enabled, do nothing */
++		} else
++			halbtc8192e1ant_bt_auto_report(btcoexist, FORCE_EXEC,
++						       true);
++#endif
++	}
++
++	/* check BIT2 first ==> check if bt is under inquiry or page scan */
++	if (bt_info & BT_INFO_8192E_1ANT_B_INQ_PAGE)
++		coex_sta->c2h_bt_inquiry_page = true;
++	else
++		coex_sta->c2h_bt_inquiry_page = false;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8192E_1ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8192E_1ANT_B_FTP)
++			coex_sta->pan_exist = true;
++		else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8192E_1ANT_B_A2DP)
++			coex_sta->a2dp_exist = true;
++		else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8192E_1ANT_B_HID)
++			coex_sta->hid_exist = true;
++		else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8192E_1ANT_B_SCO_ESCO)
++			coex_sta->sco_exist = true;
++		else
++			coex_sta->sco_exist = false;
++	}
++
++	halbtc8192e1ant_update_bt_link_info(btcoexist);
++
++	bt_info = bt_info &
++		0x1f;  /* mask profile bit for connect-ilde identification ( for CSR case: A2DP idle --> 0x41) */
++
++	if (!(bt_info & BT_INFO_8192E_1ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8192E_1ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8192E_1ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8192E_1ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8192E_1ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8192E_1ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8192E_1ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8192E_1ANT_B_ACL_BUSY) {
++		if (BT_8192E_1ANT_BT_STATUS_ACL_BUSY != coex_dm->bt_status)
++			coex_dm->auto_tdma_adjust = false;
++		coex_dm->bt_status = BT_8192E_1ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8192E_1ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8192E_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8192E_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8192E_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		bt_busy = true;
++	else
++		bt_busy = false;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	halbtc8192e1ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8192e1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u32	u32tmp;
++	u8	u8tmpa, u8tmpb, u8tmpc;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RF Status notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_RF_ON == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->stop_coex_dm = false;
++	} else if (BTC_RF_OFF == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8192e1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++		halbtc8192e1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, false,
++					     true);
++
++		halbtc8192e1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++		btcoexist->stop_coex_dm = true;
++
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x948);
++		u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++		u8tmpb = btcoexist->btc_read_1byte(btcoexist, 0x67);
++		u8tmpc = btcoexist->btc_read_1byte(btcoexist, 0x76e);
++
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex], 0x948=0x%x, 0x765=0x%x, 0x67=0x%x, 0x76e=0x%x\n",
++			    u32tmp,  u8tmpa, u8tmpb, u8tmpc);
++		BTC_TRACE(trace_buf);
++
++	}
++}
++
++void ex_halbtc8192e1ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8192e1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++	halbtc8192e1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, false, true);
++
++	halbtc8192e1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++	ex_halbtc8192e1ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	btcoexist->stop_coex_dm = true;
++}
++
++void ex_halbtc8192e1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8192e1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8192e1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++		halbtc8192e1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, false,
++					     true);
++
++		/* Sinda 20150819, workaround for driver skip leave IPS/LPS to speed up sleep time. */
++		/* Driver do not leave IPS/LPS when driver is going to sleep, so BTCoexistence think wifi is still under IPS/LPS */
++		/* BT should clear UnderIPS/UnderLPS state to avoid mismatch state after wakeup. */
++		coex_sta->under_ips = false;
++		coex_sta->under_lps = false;
++		btcoexist->stop_coex_dm = true;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->stop_coex_dm = false;
++		halbtc8192e1ant_init_hw_config(btcoexist, false);
++		halbtc8192e1ant_init_coex_dm(btcoexist);
++		halbtc8192e1ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8192e1ant_coex_dm_reset(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], *****************Coex DM Reset*****************\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8192e1ant_init_hw_config(btcoexist, false);
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0); */
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x2, 0xfffff, 0x0); */
++	halbtc8192e1ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8192e1ant_periodical(IN struct btc_coexist *btcoexist)
++{
++#if (BT_AUTO_REPORT_ONLY_8192E_1ANT == 0)
++	halbtc8192e1ant_query_bt_info(btcoexist);
++	halbtc8192e1ant_monitor_bt_enable_disable(btcoexist);
++#else
++	halbtc8192e1ant_monitor_bt_ctr(btcoexist);
++	halbtc8192e1ant_monitor_wifi_ctr(btcoexist);
++
++	if (halbtc8192e1ant_is_wifi_status_changed(btcoexist) ||
++	    coex_dm->auto_tdma_adjust)
++
++		halbtc8192e1ant_run_coexist_mechanism(btcoexist);
++
++	coex_sta->specific_pkt_period_cnt++;
++#endif
++}
++
++
++void ex_halbtc8192e1ant_dbg_control(IN struct btc_coexist *btcoexist,
++				    IN u8 op_code, IN u8 op_len, IN u8 *pdata)
++{
++	switch (op_code) {
++	case BTC_DBG_SET_COEX_NORMAL:
++		btcoexist->manual_control = false;
++		halbtc8192e1ant_init_coex_dm(btcoexist);
++		break;
++	case BTC_DBG_SET_COEX_WIFI_ONLY:
++		btcoexist->manual_control = true;
++		halbtc8192e1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		halbtc8192e1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++					9);
++		break;
++	case BTC_DBG_SET_COEX_BT_ONLY:
++		/* todo */
++		break;
++	default:
++		break;
++	}
++}
++
++#endif	/*  #if (RTL8192E_SUPPORT == 1) */
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
+\ No newline at end of file
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8192e1Ant.h b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8192e1Ant.h
+new file mode 100644
+index 0000000..e75127c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8192e1Ant.h
+@@ -0,0 +1,226 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8192E_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8192E 1ANT BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8192E_1ANT				1
++
++#define	BT_INFO_8192E_1ANT_B_FTP						BIT(7)
++#define	BT_INFO_8192E_1ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8192E_1ANT_B_HID						BIT(5)
++#define	BT_INFO_8192E_1ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8192E_1ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8192E_1ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8192E_1ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8192E_1ANT_B_CONNECTION				BIT(0)
++
++#define	BT_INFO_8192E_1ANT_A2DP_BASIC_RATE(_BT_INFO_EXT_)	\
++		(((_BT_INFO_EXT_&BIT(0))) ? true : false)
++
++#define	BTC_RSSI_COEX_THRESH_TOL_8192E_1ANT		2
++
++#define  BT_8192E_1ANT_WIFI_NOISY_THRESH								30   /* max: 255 */
++
++enum bt_info_src_8192e_1ant {
++	BT_INFO_SRC_8192E_1ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8192E_1ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8192E_1ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8192E_1ANT_MAX
++};
++
++enum bt_8192e_1ant_bt_status {
++	BT_8192E_1ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8192E_1ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8192E_1ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8192E_1ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8192E_1ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8192E_1ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8192E_1ANT_BT_STATUS_MAX
++};
++
++enum bt_8192e_1ant_wifi_status {
++	BT_8192E_1ANT_WIFI_STATUS_NON_CONNECTED_IDLE				= 0x0,
++	BT_8192E_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN		= 0x1,
++	BT_8192E_1ANT_WIFI_STATUS_CONNECTED_SCAN					= 0x2,
++	BT_8192E_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT				= 0x3,
++	BT_8192E_1ANT_WIFI_STATUS_CONNECTED_IDLE					= 0x4,
++	BT_8192E_1ANT_WIFI_STATUS_CONNECTED_BUSY					= 0x5,
++	BT_8192E_1ANT_WIFI_STATUS_MAX
++};
++
++enum bt_8192e_1ant_coex_algo {
++	BT_8192E_1ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8192E_1ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8192E_1ANT_COEX_ALGO_HID				= 0x2,
++	BT_8192E_1ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8192E_1ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8192E_1ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8192E_1ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8192E_1ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8192E_1ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8192E_1ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8192E_1ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8192E_1ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++struct coex_dm_8192e_1ant {
++	/* fw mechanism */
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	/* sw mechanism */
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++	u32		arp_cnt;
++
++	u8		error_condition;
++};
++
++struct coex_sta_8192e_1ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					specific_pkt_period_cnt;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	s8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8192E_1ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8192E_1ANT_MAX];
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_page;				/* Add for win8.1 page out issue */
++	boolean					wifi_is_high_pri_task;		/* Add for win8.1 page out issue */
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	boolean					cck_lock;
++	boolean					pre_ccklock;
++	u8					coex_table_type;
++
++	boolean					force_lps_on;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8192e1ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e1ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8192e1ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e1ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8192e1ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8192e1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8192e1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8192e1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8192e1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8192e1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8192e1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8192e1ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8192e1ant_coex_dm_reset(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e1ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e1ant_display_coex_info(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e1ant_dbg_control(IN struct btc_coexist *btcoexist,
++				    IN u8 op_code, IN u8 op_len, IN u8 *pdata);
++
++#else	/*  #if (RTL8192E_SUPPORT == 1) */
++#define	ex_halbtc8192e1ant_power_on_setting(btcoexist)
++#define	ex_halbtc8192e1ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8192e1ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8192e1ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8192e1ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8192e1ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8192e1ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8192e1ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8192e1ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8192e1ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8192e1ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8192e1ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8192e1ant_halt_notify(btcoexist)
++#define	ex_halbtc8192e1ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8192e1ant_coex_dm_reset(btcoexist)
++#define	ex_halbtc8192e1ant_periodical(btcoexist)
++#define	ex_halbtc8192e1ant_display_coex_info(btcoexist)
++#define	ex_halbtc8192e1ant_dbg_control(btcoexist, op_code, op_len, pdata)
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8192e2Ant.c b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8192e2Ant.c
+new file mode 100644
+index 0000000..b7af2c0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8192e2Ant.c
+@@ -0,0 +1,4068 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8192E Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8192E_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8192e_2ant		glcoex_dm_8192e_2ant;
++static struct  coex_dm_8192e_2ant	*coex_dm = &glcoex_dm_8192e_2ant;
++static struct  coex_sta_8192e_2ant		glcoex_sta_8192e_2ant;
++static struct  coex_sta_8192e_2ant	*coex_sta = &glcoex_sta_8192e_2ant;
++
++const char *const glbt_info_src_8192e_2ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8192e_2ant = 20160412;
++u32	glcoex_ver_8192e_2ant = 0x42;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8192e2ant_
++ * ************************************************************ */
++u8 halbtc8192e2ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8192E_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8192E_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8192E_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8192e2ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8192E_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8192E_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8192E_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8192e2ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32	bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++
++	/* This function check if bt is disabled */
++
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is enabled !!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		bt_disable_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], bt all counters=0, %d times!!\n",
++			    bt_disable_cnt);
++		BTC_TRACE(trace_buf);
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++					   &bt_disabled);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++			BTC_TRACE(trace_buf);
++		}
++	}
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++		if (!bt_disabled) {
++		} else {
++		}
++	}
++}
++
++u32 halbtc8192e2ant_decide_ra_mask(IN struct btc_coexist *btcoexist,
++				   IN u8 ss_type, IN u32 ra_mask_type)
++{
++	u32	dis_ra_mask = 0x0;
++
++	switch (ra_mask_type) {
++	case 0: /* normal mode */
++		if (ss_type == 2)
++			dis_ra_mask = 0x0;			/* enable 2ss */
++		else
++			dis_ra_mask = 0xfff00000;		/* disable 2ss */
++		break;
++	case 1: /* disable cck 1/2 */
++		if (ss_type == 2)
++			dis_ra_mask = 0x00000003;		/* enable 2ss */
++		else
++			dis_ra_mask = 0xfff00003;		/* disable 2ss */
++		break;
++	case 2: /* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		if (ss_type == 2)
++			dis_ra_mask = 0x0001f1f7;		/* enable 2ss */
++		else
++			dis_ra_mask = 0xfff1f1f7;		/* disable 2ss */
++		break;
++	default:
++		break;
++	}
++
++	return dis_ra_mask;
++}
++
++void halbtc8192e2ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8192e2ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8192e2ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8192e2ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8192e2ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	u32	dis_ra_mask = 0x0;
++
++	coex_dm->cur_ra_mask_type = ra_mask_type;
++	dis_ra_mask = halbtc8192e2ant_decide_ra_mask(btcoexist,
++			coex_dm->cur_ss_type, ra_mask_type);
++	halbtc8192e2ant_update_ra_mask(btcoexist, force_exec, dis_ra_mask);
++
++	halbtc8192e2ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8192e2ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8192e2ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++void halbtc8192e2ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8192e2ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], High Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		    reg_hp_txrx, reg_hp_tx, reg_hp_tx, reg_hp_rx, reg_hp_rx);
++	BTC_TRACE(trace_buf);
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], Low Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		    reg_lp_txrx, reg_lp_tx, reg_lp_tx, reg_lp_rx, reg_lp_rx);
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++}
++
++void halbtc8192e2ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++boolean halbtc8192e2ant_is_wifi_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false;
++	boolean	wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean	wifi_connected = false;
++	u8	wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++
++		wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);
++
++		if ((BTC_RSSI_STATE_HIGH == wifi_rssi_state) || (BTC_RSSI_STATE_LOW == wifi_rssi_state))
++			return true;
++	}
++
++	return false;
++}
++
++void halbtc8192e2ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++u8 halbtc8192e2ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	struct  btc_stack_info	*stack_info = &btcoexist->stack_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8192E_2ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8192E_2ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_2ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_2ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_2ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8192E_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_SCO_PAN;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (stack_info->num_of_hid >= 2) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], HID*2 + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], HID + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_HID_A2DP;
++				}
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8192E_2ANT_COEX_ALGO_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8192E_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8192E_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_SCO_PAN;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8192E_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8192E_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8192e2ant_set_fw_dac_swing_level(IN struct btc_coexist *btcoexist,
++		IN u8 dac_swing_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	/* There are several type of dacswing */
++	/* 0x18/ 0x10/ 0xc/ 0x8/ 0x4/ 0x6 */
++	h2c_parameter[0] = dac_swing_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x64, 1, h2c_parameter);
++}
++
++void halbtc8192e2ant_set_fw_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				       IN u8 dec_bt_pwr_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = dec_bt_pwr_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x62, 1, h2c_parameter);
++}
++
++void halbtc8192e2ant_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				IN boolean force_exec, IN u8 dec_bt_pwr_lvl)
++{
++	coex_dm->cur_bt_dec_pwr_lvl = dec_bt_pwr_lvl;
++
++	if (!force_exec) {
++#if 0	/* work around, avoid h2c command fail. */
++		if (coex_dm->pre_bt_dec_pwr_lvl == coex_dm->cur_bt_dec_pwr_lvl)
++			return;
++#endif
++	}
++	halbtc8192e2ant_set_fw_dec_bt_pwr(btcoexist,
++					  coex_dm->cur_bt_dec_pwr_lvl);
++
++	coex_dm->pre_bt_dec_pwr_lvl = coex_dm->cur_bt_dec_pwr_lvl;
++}
++
++void halbtc8192e2ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8192e2ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8192e2ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8192e2ant_fw_dac_swing_lvl(IN struct btc_coexist *btcoexist,
++			      IN boolean force_exec, IN u8 fw_dac_swing_lvl)
++{
++	coex_dm->cur_fw_dac_swing_lvl = fw_dac_swing_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_fw_dac_swing_lvl ==
++		    coex_dm->cur_fw_dac_swing_lvl)
++			return;
++	}
++
++	halbtc8192e2ant_set_fw_dac_swing_level(btcoexist,
++					       coex_dm->cur_fw_dac_swing_lvl);
++
++	coex_dm->pre_fw_dac_swing_lvl = coex_dm->cur_fw_dac_swing_lvl;
++}
++
++void halbtc8192e2ant_set_sw_rf_rx_lpf_corner(IN struct btc_coexist *btcoexist,
++		IN boolean rx_rf_shrink_on)
++{
++	if (rx_rf_shrink_on) {
++		/* Shrink RF Rx LPF corner */
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Shrink RF Rx LPF corner!!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e, 0xfffff,
++					  0xffffc);
++	} else {
++		/* Resume RF Rx LPF corner */
++		/* After initialized, we can use coex_dm->bt_rf_0x1e_backup */
++		if (btcoexist->initilized) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Resume RF Rx LPF corner!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++					  0xfffff, coex_dm->bt_rf_0x1e_backup);
++		}
++	}
++}
++
++void halbtc8192e2ant_rf_shrink(IN struct btc_coexist *btcoexist,
++		       IN boolean force_exec, IN boolean rx_rf_shrink_on)
++{
++	coex_dm->cur_rf_rx_lpf_shrink = rx_rf_shrink_on;
++
++	if (!force_exec) {
++		if (coex_dm->pre_rf_rx_lpf_shrink ==
++		    coex_dm->cur_rf_rx_lpf_shrink)
++			return;
++	}
++	halbtc8192e2ant_set_sw_rf_rx_lpf_corner(btcoexist,
++						coex_dm->cur_rf_rx_lpf_shrink);
++
++	coex_dm->pre_rf_rx_lpf_shrink = coex_dm->cur_rf_rx_lpf_shrink;
++}
++
++void halbtc8192e2ant_set_sw_penalty_tx_rate_adaptive(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8192e2ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8192e2ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8192e2ant_set_dac_swing_reg(IN struct btc_coexist *btcoexist,
++				       IN u32 level)
++{
++	u8	val = (u8)level;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Write SwDacSwing = 0x%x\n", level);
++	BTC_TRACE(trace_buf);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x883, 0x3e, val);
++}
++
++void halbtc8192e2ant_set_sw_full_time_dac_swing(IN struct btc_coexist
++		*btcoexist, IN boolean sw_dac_swing_on, IN u32 sw_dac_swing_lvl)
++{
++	if (sw_dac_swing_on)
++		halbtc8192e2ant_set_dac_swing_reg(btcoexist, sw_dac_swing_lvl);
++	else
++		halbtc8192e2ant_set_dac_swing_reg(btcoexist, 0x18);
++}
++
++
++void halbtc8192e2ant_dac_swing(IN struct btc_coexist *btcoexist,
++	IN boolean force_exec, IN boolean dac_swing_on, IN u32 dac_swing_lvl)
++{
++	coex_dm->cur_dac_swing_on = dac_swing_on;
++	coex_dm->cur_dac_swing_lvl = dac_swing_lvl;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_dac_swing_on == coex_dm->cur_dac_swing_on) &&
++		    (coex_dm->pre_dac_swing_lvl ==
++		     coex_dm->cur_dac_swing_lvl))
++			return;
++	}
++	delay_ms(30);
++	halbtc8192e2ant_set_sw_full_time_dac_swing(btcoexist, dac_swing_on,
++			dac_swing_lvl);
++
++	coex_dm->pre_dac_swing_on = coex_dm->cur_dac_swing_on;
++	coex_dm->pre_dac_swing_lvl = coex_dm->cur_dac_swing_lvl;
++}
++
++void halbtc8192e2ant_set_adc_back_off(IN struct btc_coexist *btcoexist,
++				      IN boolean adc_back_off)
++{
++	if (adc_back_off) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB BackOff Level On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xc05, 0x30, 0x3);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB BackOff Level Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xc05, 0x30, 0x1);
++	}
++}
++
++void halbtc8192e2ant_adc_back_off(IN struct btc_coexist *btcoexist,
++			  IN boolean force_exec, IN boolean adc_back_off)
++{
++	coex_dm->cur_adc_back_off = adc_back_off;
++
++	if (!force_exec) {
++		if (coex_dm->pre_adc_back_off == coex_dm->cur_adc_back_off)
++			return;
++	}
++	halbtc8192e2ant_set_adc_back_off(btcoexist, coex_dm->cur_adc_back_off);
++
++	coex_dm->pre_adc_back_off = coex_dm->cur_adc_back_off;
++}
++
++void halbtc8192e2ant_set_agc_table(IN struct btc_coexist *btcoexist,
++				   IN boolean agc_table_en)
++{
++	/* =================BB AGC Gain Table */
++	if (agc_table_en) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB Agc Table On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x0a1A0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x091B0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x081C0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x071D0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x061E0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x051F0001);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB Agc Table Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xaa1A0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa91B0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa81C0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa71D0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa61E0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa51F0001);
++	}
++}
++
++void halbtc8192e2ant_agc_table(IN struct btc_coexist *btcoexist,
++			       IN boolean force_exec, IN boolean agc_table_en)
++{
++	coex_dm->cur_agc_table_en = agc_table_en;
++
++	if (!force_exec) {
++		if (coex_dm->pre_agc_table_en == coex_dm->cur_agc_table_en)
++			return;
++	}
++	halbtc8192e2ant_set_agc_table(btcoexist, agc_table_en);
++
++	coex_dm->pre_agc_table_en = coex_dm->cur_agc_table_en;
++}
++
++void halbtc8192e2ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8192e2ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8192e2ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8192e2ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	switch (type) {
++	case 0:
++		halbtc8192e2ant_coex_table(btcoexist, force_exec, 0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 1:
++		halbtc8192e2ant_coex_table(btcoexist, force_exec, 0x5a5a5a5a, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 2:
++		halbtc8192e2ant_coex_table(btcoexist, force_exec, 0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 3:
++		halbtc8192e2ant_coex_table(btcoexist, force_exec, 0x5fdf5fdf, 0x5fdb5fdb, 0xffffff, 0x3);
++		break;
++	case 4:
++		halbtc8192e2ant_coex_table(btcoexist, force_exec, 0xdfffdfff, 0x5ffb5ffb, 0xffffff, 0x3);
++		break;
++	case 5:
++		halbtc8192e2ant_coex_table(btcoexist, force_exec, 0x5ddd5ddd, 0x5fdb5fdb, 0xffffff, 0x3);
++		break;
++	case 6:
++		halbtc8192e2ant_coex_table(btcoexist, force_exec, 0x5fff5fff, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 7:
++		if (coex_sta->scan_ap_num <= NOISY_AP_NUM_THRESH_8192E)
++			halbtc8192e2ant_coex_table(btcoexist, force_exec, 0xffffffff, 0xfafafafa, 0xffffff, 0x3);
++		else
++			halbtc8192e2ant_coex_table(btcoexist, force_exec, 0xffffffff, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 8:
++		halbtc8192e2ant_coex_table(btcoexist, force_exec, 0x5f5f5f5f, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8192e2ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8192e2ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8192e2ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8192e2ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8192e2ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8192e2ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8192e2ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			realByte1 = byte1, realByte5 = byte5;
++	boolean		bApEnable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE, &bApEnable);
++
++	if (bApEnable) {
++		if ((byte1 & BIT4) && !(byte1 & BIT5)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], FW for 1Ant AP mode\n");
++			realByte1 &= ~BIT4;
++			realByte1 |= BIT5;
++
++			realByte5 |= BIT5;
++			realByte5 &= ~BIT6;
++		}
++	}
++
++	h2c_parameter[0] = byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = byte5;
++
++	coex_dm->ps_tdma_para[0] = byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++void halbtc8192e2ant_sw_mechanism1(IN struct btc_coexist *btcoexist,
++			   IN boolean shrink_rx_lpf, IN boolean low_penalty_ra,
++			   IN boolean limited_dig, IN boolean bt_lna_constrain)
++{
++	/*
++	u32	wifi_bw;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if(BTC_WIFI_BW_HT40 != wifi_bw)
++	{
++		if (shrink_rx_lpf)
++			shrink_rx_lpf = false;
++	}
++	*/
++
++	halbtc8192e2ant_rf_shrink(btcoexist, NORMAL_EXEC, shrink_rx_lpf);
++	/* halbtc8192e2ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra); */
++}
++
++void halbtc8192e2ant_sw_mechanism2(IN struct btc_coexist *btcoexist,
++			   IN boolean agc_table_shift, IN boolean adc_back_off,
++			   IN boolean sw_dac_swing, IN u32 dac_swing_lvl)
++{
++	halbtc8192e2ant_agc_table(btcoexist, NORMAL_EXEC, agc_table_shift);
++	/* halbtc8192e2ant_adc_back_off(btcoexist, NORMAL_EXEC, adc_back_off); */
++	halbtc8192e2ant_dac_swing(btcoexist, NORMAL_EXEC, sw_dac_swing,
++				  dac_swing_lvl);
++}
++
++void halbtc8192e2ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean init_hwcfg, IN boolean wifi_off)
++{
++	u32			u32tmp = 0;
++
++	if (init_hwcfg) {
++		btcoexist->btc_write_1byte(btcoexist, 0x944, 0x24);
++		btcoexist->btc_write_4byte(btcoexist, 0x930, 0x700700);
++		if (btcoexist->chip_interface == BTC_INTF_USB)
++			btcoexist->btc_write_4byte(btcoexist, 0x64, 0x30430004);
++		else
++			btcoexist->btc_write_4byte(btcoexist, 0x64, 0x30030004);
++
++		/* 0x4c[27][24]='00', Set Antenna to BB */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp &= ~BIT(24);
++		u32tmp &= ~BIT(27);
++		btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++	} else if (wifi_off) {
++		if (btcoexist->chip_interface == BTC_INTF_USB)
++			btcoexist->btc_write_4byte(btcoexist, 0x64, 0x30430004);
++		else
++			btcoexist->btc_write_4byte(btcoexist, 0x64, 0x30030004);
++
++		/* 0x4c[27][24]='11', Set Antenna to BT, 0x64[8:7]=0, 0x64[2]=1 */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp |= BIT(24);
++		u32tmp |= BIT(27);
++		btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++	}
++
++	/* ext switch setting */
++	switch (ant_pos_type) {
++	case BTC_ANT_PATH_WIFI:
++		btcoexist->btc_write_1byte(btcoexist, 0x92c, 0x4);
++		break;
++	case BTC_ANT_PATH_BT:
++		btcoexist->btc_write_1byte(btcoexist, 0x92c, 0x20);
++		break;
++	default:
++	case BTC_ANT_PATH_PTA:
++		btcoexist->btc_write_1byte(btcoexist, 0x92c, 0x4);
++		break;
++	}
++}
++
++void halbtc8192e2ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	s8		nWiFiDurationAdjust = 0x0;
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++
++	if (coex_sta->scan_ap_num  >= 40)
++		nWiFiDurationAdjust = -15;
++	else if (coex_sta->scan_ap_num  >= 20)
++		nWiFiDurationAdjust = -10;
++
++	if (turn_on) {
++		switch (type) {
++		case 1:
++		default:	/*d1,wb*/
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x3c, 0x03, 0x11, 0x10);
++			break;
++		case 2:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x32, 0x03, 0x11, 0x10);
++			break;
++		case 3:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x28, 0x03, 0x11, 0x10);
++			break;
++		case 4:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x1e, 0x03, 0x11, 0x10);
++			break;
++		case 5:		/*d1,pb,TXpause*/
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x63, 0x3c, 0x03, 0x90, 0x10);
++			break;
++		case 6:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x63, 0x32, 0x03, 0x90, 0x10);
++			break;
++		case 7:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x63, 0x28, 0x03, 0x90, 0x10);
++			break;
++		case 8:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x63, 0x1e, 0x03, 0x90, 0x10);
++			break;
++		case 9:		/*d1,bb*/
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x3c, 0x03, 0x31, 0x10);
++			break;
++		case 10:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x32, 0x03, 0x31, 0x10);
++			break;
++		case 11:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x28, 0x03, 0x31, 0x10);
++			break;
++		case 12:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x1e, 0x03, 0x31, 0x10);
++			break;
++		case 13:		/*d1,bb,TXpause*/
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x3c, 0x03, 0x30, 0x10);
++			break;
++		case 14:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x32, 0x03, 0x30, 0x10);
++			break;
++		case 15:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x28, 0x03, 0x30, 0x10);
++			break;
++		case 16:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x1e, 0x03, 0x30, 0x10);
++			break;
++		case 17:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x61, 0x20, 0x03, 0x10, 0x10);
++			break;
++		case 18:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x5, 0x5, 0xe1, 0x90);
++			break;
++		case 19:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x25, 0x25, 0xe1, 0x90);
++			break;
++		case 20:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x25, 0x25, 0x60, 0x90);
++			break;
++		case 21:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x61, 0x35, 0x03, 0x11, 0x11);
++			break;
++		case 22:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x14, 0x03, 0x11, 0x14);
++			break;
++		case 23:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x63, 0x14, 0x03, 0x90, 0x14);
++			break;
++		case 24:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x14, 0x03, 0x31, 0x14);
++			break;
++		case 25:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x14, 0x03, 0x30, 0x14);
++			break;
++		case 71:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0xe3, 0x1a, 0x1a, 0xe1, 0x90);
++			break;
++		case 80:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x51, 0x3c, 0x3, 0x10, 0x50);
++			break;
++		case 81:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x51, 0x3a+nWiFiDurationAdjust, 0x3, 0x10, 0x50);
++			break;
++		case 82:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x51, 0x30+nWiFiDurationAdjust, 0x03, 0x10, 0x50);
++			break;
++		case 83:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x51, 0x21, 0x03, 0x10, 0x50);
++			break;
++		case 84:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x51, 0x15, 0x3, 0x10, 0x50);
++			break;
++		case 85:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x51, 0x3a, 0x03, 0x10, 0x50);
++			break;
++		case 86:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x51, 0x21, 0x03, 0x10, 0x50);
++			break;
++		case 87:
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x51, 0x14, 0x03, 0x10, 0x54);
++			break;
++
++		}
++	} else {
++		/* disable PS tdma */
++		switch (type) {
++		default:
++		case 0:  /* ANT2PTA, 0x778=1 */
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x8,
++						      0x0, 0x0, 0x0, 0x0);
++			halbtc8192e2ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_PTA, false, false);
++			break;
++		case 1:  /* ANT2BT, 0x778=3 */
++			halbtc8192e2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x8, 0x0);
++			delay_ms(5);
++			halbtc8192e2ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_BT, false, false);
++			break;
++
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8192e2ant_set_switch_ss_type(IN struct btc_coexist *btcoexist,
++					IN u8 ss_type)
++{
++	u8	mimo_ps = BTC_MIMO_PS_DYNAMIC;
++	u32	dis_ra_mask = 0x0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], REAL set SS Type = %d\n", ss_type);
++	BTC_TRACE(trace_buf);
++
++	dis_ra_mask = halbtc8192e2ant_decide_ra_mask(btcoexist, ss_type,
++			coex_dm->cur_ra_mask_type);
++	halbtc8192e2ant_update_ra_mask(btcoexist, FORCE_EXEC, dis_ra_mask);
++
++	if (ss_type == 1) {
++		halbtc8192e2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 1);
++		/* switch ofdm path */
++		btcoexist->btc_write_1byte(btcoexist, 0xc04, 0x11);
++		btcoexist->btc_write_1byte(btcoexist, 0xd04, 0x1);
++		btcoexist->btc_write_4byte(btcoexist, 0x90c, 0x81111111);
++		/* switch cck patch */
++		/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0xe77, 0x4, 0x1); */
++		/* btcoexist->btc_write_1byte(btcoexist, 0xa07, 0x81); */
++		mimo_ps = BTC_MIMO_PS_STATIC;
++	} else if (ss_type == 2) {
++		halbtc8192e2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++		btcoexist->btc_write_1byte(btcoexist, 0xc04, 0x33);
++		btcoexist->btc_write_1byte(btcoexist, 0xd04, 0x3);
++		btcoexist->btc_write_4byte(btcoexist, 0x90c, 0x81121313);
++		/* remove, if 0xe77[2]=0x0 then CCK will fail, advised by Jenyu */
++		/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0xe77, 0x4, 0x0); */
++		/* btcoexist->btc_write_1byte(btcoexist, 0xa07, 0x41); */
++		mimo_ps = BTC_MIMO_PS_DYNAMIC;
++	}
++
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_SEND_MIMO_PS,
++			   &mimo_ps);	/* set rx 1ss or 2ss */
++}
++
++void halbtc8192e2ant_switch_ss_type(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 new_ss_type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], %s Switch SS Type = %d\n",
++		    (force_exec ? "force to" : ""), new_ss_type);
++	BTC_TRACE(trace_buf);
++	coex_dm->cur_ss_type = new_ss_type;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ss_type == coex_dm->cur_ss_type)
++			return;
++	}
++	halbtc8192e2ant_set_switch_ss_type(btcoexist, coex_dm->cur_ss_type);
++
++	coex_dm->pre_ss_type = coex_dm->cur_ss_type;
++}
++
++void halbtc8192e2ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8192e2ant_power_save_state(IN struct btc_coexist *btcoexist,
++		      IN u8 ps_type,  IN u8 lps_val,  IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++	boolean		bApEnable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE, &bApEnable);
++
++	if (bApEnable) {
++		ps_type = BTC_PS_WIFI_NATIVE;
++		lps_val = 0x0;
++		rpwm_val = 0x0;
++	}
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8192e2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8192e2ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma. */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		break;
++	default:
++		break;
++	}
++}
++
++
++void halbtc8192e2ant_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++	/* fw all off */
++	halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	/* hw all off */
++	halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8192e2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++	halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	halbtc8192e2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 1);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 6);
++	halbtc8192e2ant_dec_bt_pwr(btcoexist, FORCE_EXEC, 0);
++
++	halbtc8192e2ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++	halbtc8192e2ant_switch_ss_type(btcoexist, FORCE_EXEC, 2);
++
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8192e2ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++
++
++/*	halbtc8192e2ant_switch_ss_type(btcoexist, NORMAL_EXEC, 1);*/
++	halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++
++	halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 21);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++boolean halbtc8192e2ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++	boolean			bt_hs_on = false, low_pwr_disable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (bt_link_info->sco_exist || bt_link_info->hid_exist)
++		halbtc8192e2ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 0, 0, 0);
++	else
++		halbtc8192e2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++	if (!wifi_connected) {
++
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non-connected idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		if ((BT_8192E_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		     coex_dm->bt_status) ||
++		    (BT_8192E_2ANT_BT_STATUS_CONNECTED_IDLE ==
++		     coex_dm->bt_status)) {
++/*			halbtc8192e2ant_switch_ss_type(btcoexist, NORMAL_EXEC, 2);*/
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		} else {
++/*			halbtc8192e2ant_switch_ss_type(btcoexist, NORMAL_EXEC, 1);*/
++			halbtc8192e2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++		}
++
++		halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false,
++					      false);
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false,
++					      0x18);
++
++		common = true;
++	} else {
++		if (BT_8192E_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status) {
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++			BTC_TRACE(trace_buf);
++
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++/*			halbtc8192e2ant_switch_ss_type(btcoexist, NORMAL_EXEC, 2);*/
++
++			halbtc8192e2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++			halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 6);
++			halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++			halbtc8192e2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++
++			common = true;
++		} else if (BT_8192E_2ANT_BT_STATUS_CONNECTED_IDLE ==
++			   coex_dm->bt_status) {
++
++			if (bt_hs_on)
++				return false;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi connected + BT connected-idle!!\n");
++			BTC_TRACE(trace_buf);
++
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++/*			halbtc8192e2ant_switch_ss_type(btcoexist, NORMAL_EXEC, 2);*/
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++			halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 6);
++			halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++			halbtc8192e2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++
++			common = true;
++		} else {
++
++			if (wifi_busy) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++				BTC_TRACE(trace_buf);
++				common = false;
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++				BTC_TRACE(trace_buf);
++
++				halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++/*				halbtc8192e2ant_switch_ss_type(btcoexist, NORMAL_EXEC, 1);*/
++				halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++				halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 21);
++				halbtc8192e2ant_fw_dac_swing_lvl(btcoexist,
++							 NORMAL_EXEC, 6);
++				halbtc8192e2ant_dec_bt_pwr(btcoexist,
++							   NORMAL_EXEC, 0);
++				halbtc8192e2ant_sw_mechanism1(btcoexist, false,
++						      false, false, false);
++				halbtc8192e2ant_sw_mechanism2(btcoexist, false,
++						      false, false, 0x18);
++				common = true;
++			}
++		}
++	}
++
++	return common;
++}
++void halbtc8192e2ant_tdma_duration_adjust(IN struct btc_coexist *btcoexist,
++		IN boolean sco_hid, IN boolean tx_pause, IN u8 max_interval)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0;
++
++
++	if (!coex_dm->auto_tdma_adjust) {
++		coex_dm->auto_tdma_adjust = true;
++		{
++			if (sco_hid) {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					} else if (max_interval == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (max_interval == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					} else if (max_interval == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (max_interval == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			} else {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (max_interval == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (max_interval == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (max_interval == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (max_interval == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					}
++				}
++			}
++		}
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/* accquire the BT TRx retry count from BT_Info byte2 */
++		retry_count = coex_sta->bt_retry_cnt;
++		result = 0;
++		wait_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if retry count during continuous n*2 seconds is 0, enlarge WiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {	/* if continuous 2 retry count(every 2 seconds) >0 and < 3, reduce WiFi duration */
++				if (wait_count <= 2)
++					m++; /* to avoid loop between the two levels */
++				else
++					m = 1;
++
++				if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++			}
++		} else { /* retry count > 3, once retry count > 3, to reduce WiFi duration */
++			if (wait_count == 1)
++				m++; /* to avoid loop between the two levels */
++			else
++				m = 1;
++
++			if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++		}
++
++		if (max_interval == 1) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 5);
++					coex_dm->ps_tdma_du_adj_type = 5;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 13);
++					coex_dm->ps_tdma_du_adj_type = 13;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 1);
++					coex_dm->ps_tdma_du_adj_type = 1;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 9);
++					coex_dm->ps_tdma_du_adj_type = 9;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 71);
++						coex_dm->ps_tdma_du_adj_type =
++							71;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					}
++				}
++			}
++		} else if (max_interval == 2) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					}
++				}
++			}
++		} else if (max_interval == 3) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8192e2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8192e2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			}
++		}
++	}
++
++	/* if current PsTdma not match with the recorded one (when scan, dhcp...), */
++	/* then we have to adjust it back to the previous record one. */
++	if (coex_dm->cur_ps_tdma != coex_dm->ps_tdma_du_adj_type) {
++		boolean	scan = false, link = false, roam = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], PsTdma type dismatch!!!, cur_ps_tdma=%d, recordPsTdma=%d\n",
++			    coex_dm->cur_ps_tdma, coex_dm->ps_tdma_du_adj_type);
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (!scan && !link && !roam)
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						coex_dm->ps_tdma_du_adj_type);
++		else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], roaming/link/scan is under progress, will adjust next time!!!\n");
++			BTC_TRACE(trace_buf);
++		}
++	}
++}
++
++/* ******************
++ * pstdma for wifi rssi low
++ * ****************** */
++void halbtc8192e2ant_tdma_duration_adjust_for_wifi_rssi_low(
++	IN struct btc_coexist *btcoexist/* , */ /* IN u8 wifi_status */)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0, bt_info_ext;
++
++	coex_dm->auto_tdma_adjust = false;
++
++	retry_count = coex_sta->bt_retry_cnt;
++	bt_info_ext = coex_sta->bt_info_ext;
++
++	if (!coex_dm->auto_tdma_adjust_low_rssi) {
++		coex_dm->auto_tdma_adjust_low_rssi = true;
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 81);
++		coex_dm->ps_tdma_du_adj_type = 81;
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/*acquire the BT TRx retry count from BT_Info byte2*/
++		/*		retry_count = coex_sta->bt_retry_cnt;*/
++		/*		bt_info_ext = coex_sta->bt_info_ext; */
++		result = 0;
++		wait_count++;
++
++		if ((coex_sta->low_priority_tx) > 1050 ||
++		    (coex_sta->low_priority_rx) > 1250)
++			retry_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if retry count during continuous n*2 seconds is 0, enlarge WiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {	/* if continuous 2 retry count(every 2 seconds) >0 and < 3, reduce WiFi duration */
++				if (wait_count <= 2)
++					m++; /* to avoid loop between the two levels */
++				else
++					m = 1;
++
++				if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++			}
++		} else { /* retry count > 3, once retry count > 3, to reduce WiFi duration */
++			if (wait_count == 1)
++				m++; /* to avoid loop between the two levels */
++			else
++				m = 1;
++
++			if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++		}
++
++		if (result == -1) {
++			if (coex_dm->cur_ps_tdma == 80) {
++				halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 81);
++				coex_dm->ps_tdma_du_adj_type = 81;
++			} else if (coex_dm->cur_ps_tdma == 81) {
++				halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 82);
++				coex_dm->ps_tdma_du_adj_type = 82;
++			} else if (coex_dm->cur_ps_tdma == 82) {
++				halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 83);
++				coex_dm->ps_tdma_du_adj_type = 83;
++			} else if (coex_dm->cur_ps_tdma == 83) {
++				halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 84);
++				coex_dm->ps_tdma_du_adj_type = 84;
++			}
++		} else if (result == 1) {
++			if (coex_dm->cur_ps_tdma == 84) {
++				halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 83);
++				coex_dm->ps_tdma_du_adj_type = 83;
++			} else if (coex_dm->cur_ps_tdma == 83) {
++				halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 82);
++				coex_dm->ps_tdma_du_adj_type = 82;
++			} else if (coex_dm->cur_ps_tdma == 82) {
++				halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 81);
++				coex_dm->ps_tdma_du_adj_type = 81;
++			} else if ((coex_dm->cur_ps_tdma == 81) && (coex_sta->scan_ap_num <= 5)) {
++				halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC,	true, 81);
++				coex_dm->ps_tdma_du_adj_type = 81;
++		    }
++		}
++
++		if (coex_dm->cur_ps_tdma != 80 &&
++			coex_dm->cur_ps_tdma != 81 &&
++		    coex_dm->cur_ps_tdma != 82 &&
++		    coex_dm->cur_ps_tdma != 83 &&
++		    coex_dm->cur_ps_tdma != 84) {
++			/* recover to previous adjust type */
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						coex_dm->ps_tdma_du_adj_type);
++		}
++	}
++}
++
++
++void halbtc8192e2ant_get_bt_rssi_threshold(IN struct btc_coexist *btcoexist,
++		IN u8 *pThres0, IN u8 *pThres1)
++{
++	u8 ant_type;
++
++	struct  btc_board_info  *board_info = &btcoexist->board_info;
++
++	ant_type = board_info->ant_type;
++
++	switch (ant_type) {
++	case BTC_ANT_TYPE_0:
++		*pThres0 = 100;
++		*pThres1 = 100;
++		break;
++	case BTC_ANT_TYPE_1:
++		*pThres0 = 34;
++		*pThres1 = 42;
++		break;
++	case BTC_ANT_TYPE_2:
++		*pThres0 = 34;
++		*pThres1 = 42;
++		break;
++	case BTC_ANT_TYPE_3:
++		*pThres0 = 34;
++		*pThres1 = 42;
++		break;
++	case BTC_ANT_TYPE_4:
++		*pThres0 = 34;
++		*pThres1 = 42;
++		break;
++	default:
++		break;
++	}
++}
++
++
++
++
++/* SCO only or SCO+PAN(HS) */
++void halbtc8192e2ant_action_sco(IN struct btc_coexist *btcoexist)
++{
++	u8	wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++	u32	wifi_bw;
++	u8	btThresh0 = 0, btThresh1 = 0;
++
++	halbtc8192e2ant_get_bt_rssi_threshold(btcoexist, &btThresh0, &btThresh1);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, btThresh0, btThresh1);
++	wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	else
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	else
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	else
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8192e2ant_action_sco_pan(IN struct btc_coexist *btcoexist)
++{
++	u8	wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++	u32	wifi_bw;
++	u8		btThresh0 = 0, btThresh1 = 0;
++
++
++	halbtc8192e2ant_get_bt_rssi_threshold(btcoexist, &btThresh0, &btThresh1);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, btThresh0, btThresh1);
++
++	wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);
++
++	if ((BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))))
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	else
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	else
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 10);
++	else
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 86);
++
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++
++void halbtc8192e2ant_action_hid(IN struct btc_coexist *btcoexist)
++{
++	u8	wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32	wifi_bw;
++	u8	anttype = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_ANT_TYPE, &anttype);
++
++	wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, 34, 42);
++
++	if (anttype == 0) {
++		/*ANTTYPE = 0   92E 2ant with SPDT*/
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if (anttype == 1) {
++		/*92E 2ant with coupler and bad ant. isolation, 92E 3ant with bad ant. isolation*/
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if (anttype == 2) {
++		/*ANTTYPE = 2, 92E 2ant with coupler and normal/good ant. isolation, 92E 3ant with normal ant. isolation*/
++		if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))) {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 9);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++		} else {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 9);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++		}
++	} else if (anttype == 3) {
++		/*ANTTYPE = 3,  92E 3ant with good ant. isolation*/
++		if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))) {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++		} else {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++		}
++	}
++
++	halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++/* A2DP only / PAN(EDR) only/ A2DP+PAN(HS) */
++void halbtc8192e2ant_action_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	boolean		long_dist = false;
++	u8		anttype = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_ANT_TYPE, &anttype);
++
++	wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, 34, 42);
++
++	if (anttype == 0) {
++		/*ANTTYPE = 0   92E 2ant with SPDT*/
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 87);
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++	} else if (anttype == 1) {
++		/*92E 2ant with coupler and bad ant. isolation, 92E 3ant with bad ant. isolation*/
++		if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))) {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 25);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		} else {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 87);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		}
++	} else if (anttype == 2) {
++	/*ANTTYPE = 2, 92E 2ant with coupler and normal/good ant. isolation, 92E 3ant with normal ant. isolation*/
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))) {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++		} else {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 87);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		}
++	} else if (anttype == 3) {
++		/*ANTTYPE = 3,  92E 3ant with good ant. isolation*/
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	}
++
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, true, 0x06);
++	else
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8192e2ant_action_a2dp_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 15,  0);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, 34, 42);
++
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++		halbtc8192e2ant_tdma_duration_adjust(btcoexist, false, true, 2);
++		halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	} else if ((bt_rssi_state == BTC_RSSI_STATE_MEDIUM) ||
++		   (bt_rssi_state == BTC_RSSI_STATE_STAY_MEDIUM)) {
++		halbtc8192e2ant_tdma_duration_adjust(btcoexist, false, false, 2);
++		halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	} else if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		   (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++		halbtc8192e2ant_tdma_duration_adjust(btcoexist, false, false, 2);
++		halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++	}
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8192e2ant_sw_mechanism1(btcoexist, true, false, false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, true, false, true, 0x6);
++		} else {
++			halbtc8192e2ant_sw_mechanism1(btcoexist, true, false, false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, true, 0x6);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, true, false, true, 0x6);
++		} else {
++			halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, true, 0x6);
++		}
++	}
++}
++
++void halbtc8192e2ant_action_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		btThresh0 = 0, btThresh1 = 0;
++
++	halbtc8192e2ant_get_bt_rssi_threshold(btcoexist, &btThresh0, &btThresh1);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, btThresh0, btThresh1);
++	/*wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);*/
++	wifi_rssi_state = BTC_RSSI_STATE_LOW;
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	else
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 1);
++	else
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 85);
++
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else if (BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++/* PAN(HS) only */
++void halbtc8192e2ant_action_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, 34, 42);
++
++	/*	halbtc8192e2ant_switch_ss_type(btcoexist, NORMAL_EXEC, 1);*/
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_LOW))
++		halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	else if ((bt_rssi_state == BTC_RSSI_STATE_MEDIUM) ||
++		 (bt_rssi_state == BTC_RSSI_STATE_STAY_MEDIUM))
++		halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		 (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++		halbtc8192e2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++	halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8192e2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8192e2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8192e2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8192e2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8192e2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* PAN(EDR)+A2DP */
++void halbtc8192e2ant_action_pan_edr_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		btThresh0 = 0, btThresh1 = 0;
++
++	halbtc8192e2ant_get_bt_rssi_threshold(btcoexist, &btThresh0, &btThresh1);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, btThresh0, btThresh1);
++	/*wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);*/
++	wifi_rssi_state = BTC_RSSI_STATE_LOW;
++
++	if ((BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))))
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	else
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 4);
++	else
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 86);
++
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else if (BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++void halbtc8192e2ant_action_pan_edr_hid(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		btThresh0 = 0, btThresh1 = 0;
++
++	halbtc8192e2ant_get_bt_rssi_threshold(btcoexist, &btThresh0, &btThresh1);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, btThresh0, btThresh1);
++
++	wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);
++
++	if ((BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))))
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	else
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++	else
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	if	(BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 10);
++	else
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 86);
++
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else if (BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++
++}
++
++/* HID+A2DP+PAN(EDR) */
++void halbtc8192e2ant_action_hid_a2dp_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		btThresh0 = 0, btThresh1 = 0;
++
++	halbtc8192e2ant_get_bt_rssi_threshold(btcoexist, &btThresh0, &btThresh1);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, btThresh0, btThresh1);
++	wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);
++
++	if ((BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))))
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	else
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++	else
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 4);
++	else
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 86);
++
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else if (BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8192e2ant_action_hid_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		btThresh0 = 0, btThresh1 = 0, anttype = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_ANT_TYPE, &anttype);
++
++	wifi_rssi_state = halbtc8192e2ant_wifi_rssi_state(btcoexist, 0, 2, 34, 0);
++	bt_rssi_state = halbtc8192e2ant_bt_rssi_state(3, 34, 42);
++
++	if (anttype == 0) {
++		/*92E 2ant with SPDT*/
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 87);
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 8);
++
++	} else if (anttype == 1) {
++		/*92E 2ant with coupler and bad ant. isolation, 92E 3ant with bad ant. isolation*/
++		if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))) {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 25);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 8);
++		} else {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 87);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 8);
++		}
++	} else if (anttype == 2) {
++		/*ANTTYPE = 2, 92E 2ant with coupler and normal/good ant. isolation, 92E 3ant with normal ant. isolation*/
++		if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state))) {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 25);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 8);
++		} else {
++			halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 87);
++			halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 8);
++		}
++	} else if (anttype == 3) {
++		/*ANTTYPE = 3,  92E 3ant with good ant. isolation*/
++		halbtc8192e2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		halbtc8192e2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++		halbtc8192e2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	}
++
++	halbtc8192e2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++	halbtc8192e2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8192e2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	else if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8192E))
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, true, 0x06);
++	else
++		halbtc8192e2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8192e2ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8				algorithm = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	algorithm = halbtc8192e2ant_action_algorithm(btcoexist);
++	if (coex_sta->c2h_bt_inquiry_page &&
++	    (BT_8192E_2ANT_COEX_ALGO_PANHS != algorithm)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under inquiry/page scan !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8192e2ant_action_bt_inquiry(btcoexist);
++		return;
++	}
++
++	coex_dm->cur_algorithm = algorithm;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Algorithm = %d\n",
++		    coex_dm->cur_algorithm);
++	BTC_TRACE(trace_buf);
++
++	if (halbtc8192e2ant_is_common_action(btcoexist)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Action 2-Ant common.\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->auto_tdma_adjust = false;
++		coex_dm->auto_tdma_adjust_low_rssi = false;
++
++	} else {
++		if (coex_dm->cur_algorithm != coex_dm->pre_algorithm) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], pre_algorithm=%d, cur_algorithm=%d\n",
++				coex_dm->pre_algorithm, coex_dm->cur_algorithm);
++			BTC_TRACE(trace_buf);
++			coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++
++		}
++		switch (coex_dm->cur_algorithm) {
++		case BT_8192E_2ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_sco(btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_SCO_PAN:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = SCO+PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_sco_pan(btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_hid(btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_a2dp(btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_a2dp_pan_hs(btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_pan_edr(btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_pan_hs(btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_pan_edr_a2dp(btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_pan_edr_hid(btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_hid_a2dp_pan_edr(
++				btcoexist);
++			break;
++		case BT_8192E_2ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_action_hid_a2dp(btcoexist);
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = unknown!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8192e2ant_coex_all_off(btcoexist);
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8192e2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up)
++{
++	u16	u16tmp = 0;
++	u8	u8tmp = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 2Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	if (back_up) {
++		/* backup rf 0x1e value */
++		coex_dm->bt_rf_0x1e_backup =
++			btcoexist->btc_get_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++						  0xfffff);
++
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	}
++
++	/* antenna sw ctrl to bt */
++	halbtc8192e2ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, true, false);
++
++	halbtc8192e2ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	/* antenna switch control parameter */
++	btcoexist->btc_write_4byte(btcoexist, 0x858, 0x55555555);
++
++	/* coex parameters */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x3);
++	/* 0x790[5:0]=0x5 */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x790);
++	u8tmp &= 0xc0;
++	u8tmp |= 0x5;
++	btcoexist->btc_write_1byte(btcoexist, 0x790, u8tmp);
++
++	/* enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++	/* enable PTA */
++	btcoexist->btc_write_1byte(btcoexist, 0x40, 0x20);
++	/* enable mailbox interface */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x40);
++	u16tmp |= BIT(9);
++	btcoexist->btc_write_2byte(btcoexist, 0x40, u16tmp);
++
++	/* enable PTA I2C mailbox */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x101);
++	u8tmp |= BIT(4);
++	btcoexist->btc_write_1byte(btcoexist, 0x101, u8tmp);
++
++	/* enable bt clock when wifi is disabled. */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x93);
++	u8tmp |= BIT(0);
++	btcoexist->btc_write_1byte(btcoexist, 0x93, u8tmp);
++	/* enable bt clock when suspend. */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x7);
++	u8tmp |= BIT(0);
++	btcoexist->btc_write_1byte(btcoexist, 0x7, u8tmp);
++}
++
++/* ************************************************************
++ * work around function start with wa_halbtc8192e2ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8192e2ant_
++ * ************************************************************ */
++void ex_halbtc8192e2ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8192e2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8192e2ant_init_hw_config(btcoexist, true);
++}
++
++void ex_halbtc8192e2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8192e2ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8192e2ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_stack_info		*stack_info = &btcoexist->stack_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fw_ver = 0, bt_patch_ver = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "Ant PG number/ Ant mechanism:",
++		   board_info->pg_ant_num, board_info->btdm_ant_num);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "Antenna type:",
++		board_info->ant_type);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%d/ 0x%x/ 0x%x(%d)",
++		   "CoexVer/ FwVer/ PatchVer",
++		   glcoex_ver_date_8192e_2ant, glcoex_ver_8192e_2ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8192E_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8192E_2ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi, coex_sta->bt_retry_cnt);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP",
++		   stack_info->sco_exist, stack_info->hid_exist,
++		   stack_info->pan_exist, stack_info->a2dp_exist);
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_BT_LINK_INFO);
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Info A2DP rate",
++		   (bt_info_ext & BIT(0)) ? "Basic rate" : "EDR rate");
++	CL_PRINTF(cli_buf);
++
++	for (i = 0; i < BT_INFO_SRC_8192E_2ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8192e_2ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x ", "SS Type",
++		   coex_dm->cur_ss_type);
++	CL_PRINTF(cli_buf);
++
++	/* Sw mechanism	 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Sw mechanism]============");
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d ",
++		   "SM1[ShRf/ LpRA/ LimDig]",
++		   coex_dm->cur_rf_rx_lpf_shrink, coex_dm->cur_low_penalty_ra,
++		   coex_dm->limited_dig);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d(0x%x) ",
++		   "SM2[AgcT/ AdcB/ SwDacSwing(lvl)]",
++		   coex_dm->cur_agc_table_en, coex_dm->cur_adc_back_off,
++		   coex_dm->cur_dac_swing_on, coex_dm->cur_dac_swing_lvl);
++	CL_PRINTF(cli_buf);
++
++	/* Fw mechanism		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Fw mechanism]============");
++	CL_PRINTF(cli_buf);
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (auto:%d)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   coex_dm->auto_tdma_adjust);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "DecBtPwr/ IgnWlanAct",
++		   coex_dm->cur_bt_dec_pwr_lvl, coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x",
++		   "RF-A, 0x1e initVal",
++		   coex_dm->bt_rf_0x1e_backup);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "backup ARFR1/ARFR2/RL/AMaxTime",
++		   coex_dm->backup_arfr_cnt1, coex_dm->backup_arfr_cnt2,
++		   coex_dm->backup_retry_limit,
++		   coex_dm->backup_ampdu_max_time);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc04);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xd04);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x90c);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0xc04/ 0xd04/ 0x90c",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x778",
++		   u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x92c);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x930);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x92c/ 0x930",
++		   (u8tmp[0]), u32tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x4f);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x40/ 0x4f",
++		   u8tmp[0], u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0xc50(dig)",
++		   u32tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8/0x6cc(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(hp rx[31:16]/tx[15:0])",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(lp rx[31:16]/tx[15:0])",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++#if (BT_AUTO_REPORT_ONLY_8192E_2ANT == 1)
++	halbtc8192e2ant_monitor_bt_ctr(btcoexist);
++#endif
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8192e2ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++		halbtc8192e2ant_coex_all_off(btcoexist);
++		halbtc8192e2ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, false,
++					     true);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = false;
++	}
++}
++
++void ex_halbtc8192e2ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++	}
++}
++
++void ex_halbtc8192e2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	if (BTC_SCAN_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++	} else if (BTC_SCAN_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM, &coex_sta->scan_ap_num);
++
++	}
++}
++
++void ex_halbtc8192e2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	if (BTC_ASSOCIATE_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++	} else if (BTC_ASSOCIATE_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8192e2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] = 0x1;
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++}
++
++void ex_halbtc8192e2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	if (type == BTC_PACKET_DHCP) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], DHCP Packet notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8192e2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8			bt_info = 0;
++	u8			i, rsp_source = 0;
++	boolean			bt_busy = false, limited_dig = false;
++	boolean			wifi_connected = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8192E_2ANT_MAX)
++		rsp_source = BT_INFO_SRC_8192E_2ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (BT_INFO_SRC_8192E_2ANT_WIFI_FW != rsp_source) {
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		coex_sta->bt_rssi =
++			coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++		if ((coex_sta->bt_info_ext & BIT(1))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++					   &wifi_connected);
++			if (wifi_connected)
++				ex_halbtc8192e2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_CONNECT);
++			else
++				ex_halbtc8192e2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_DISCONNECT);
++		}
++
++		if ((coex_sta->bt_info_ext & BIT(3))) {
++			if (!btcoexist->manual_control &&
++			    !btcoexist->stop_coex_dm) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8192e2ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		} else {
++			/* BT already NOT ignore Wlan active, do nothing here. */
++		}
++
++#if (BT_AUTO_REPORT_ONLY_8192E_2ANT == 0)
++		if ((coex_sta->bt_info_ext & BIT(4))) {
++			/* BT auto report already enabled, do nothing */
++		} else
++			halbtc8192e2ant_bt_auto_report(btcoexist, FORCE_EXEC,
++						       true);
++#endif
++	}
++
++	/* check BIT2 first ==> check if bt is under inquiry or page scan */
++	if (bt_info & BT_INFO_8192E_2ANT_B_INQ_PAGE)
++		coex_sta->c2h_bt_inquiry_page = true;
++	else
++		coex_sta->c2h_bt_inquiry_page = false;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8192E_2ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8192E_2ANT_B_FTP)
++			coex_sta->pan_exist = true;
++		else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8192E_2ANT_B_A2DP)
++			coex_sta->a2dp_exist = true;
++		else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8192E_2ANT_B_HID)
++			coex_sta->hid_exist = true;
++		else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8192E_2ANT_B_SCO_ESCO)
++			coex_sta->sco_exist = true;
++		else
++			coex_sta->sco_exist = false;
++	}
++
++	halbtc8192e2ant_update_bt_link_info(btcoexist);
++
++	if (!(bt_info & BT_INFO_8192E_2ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8192E_2ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8192E_2ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8192E_2ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8192E_2ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8192E_2ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8192E_2ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8192E_2ANT_B_ACL_BUSY) {
++		coex_dm->bt_status = BT_8192E_2ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8192E_2ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8192E_2ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8192E_2ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8192E_2ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status)) {
++		bt_busy = true;
++		limited_dig = true;
++	} else {
++		bt_busy = false;
++		limited_dig = false;
++	}
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	coex_dm->limited_dig = limited_dig;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_LIMITED_DIG, &limited_dig);
++
++	halbtc8192e2ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8192e2ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8192e2ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, false, true);
++	halbtc8192e2ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++	ex_halbtc8192e2ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++}
++
++void ex_halbtc8192e2ant_periodical(IN struct btc_coexist *btcoexist)
++{
++#if (BT_AUTO_REPORT_ONLY_8192E_2ANT == 0)
++	halbtc8192e2ant_query_bt_info(btcoexist);
++	halbtc8192e2ant_monitor_bt_ctr(btcoexist);
++	halbtc8192e2ant_monitor_bt_enable_disable(btcoexist);
++#else
++	if (halbtc8192e2ant_is_wifi_status_changed(btcoexist) ||
++	    coex_dm->auto_tdma_adjust)
++		halbtc8192e2ant_run_coexist_mechanism(btcoexist);
++#endif
++}
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8192e2Ant.h b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8192e2Ant.h
+new file mode 100644
+index 0000000..085f992
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8192e2Ant.h
+@@ -0,0 +1,199 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8192E_SUPPORT == 1)
++/* *******************************************
++ * The following is for 8192E 2Ant BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8192E_2ANT				0
++
++#define	BT_INFO_8192E_2ANT_B_FTP						BIT(7)
++#define	BT_INFO_8192E_2ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8192E_2ANT_B_HID						BIT(5)
++#define	BT_INFO_8192E_2ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8192E_2ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8192E_2ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8192E_2ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8192E_2ANT_B_CONNECTION				BIT(0)
++
++#define		BTC_RSSI_COEX_THRESH_TOL_8192E_2ANT		2
++#define		NOISY_AP_NUM_THRESH_8192E				10
++
++enum bt_info_src_8192e_2ant {
++	BT_INFO_SRC_8192E_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8192E_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8192E_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8192E_2ANT_MAX
++};
++
++enum bt_8192e_2ant_bt_status {
++	BT_8192E_2ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8192E_2ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8192E_2ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8192E_2ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8192E_2ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8192E_2ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8192E_2ANT_BT_STATUS_MAX
++};
++
++enum bt_8192e_2ant_coex_algo {
++	BT_8192E_2ANT_COEX_ALGO_UNDEFINED		= 0x0,
++	BT_8192E_2ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8192E_2ANT_COEX_ALGO_SCO_PAN			= 0x2,
++	BT_8192E_2ANT_COEX_ALGO_HID				= 0x3,
++	BT_8192E_2ANT_COEX_ALGO_A2DP			= 0x4,
++	BT_8192E_2ANT_COEX_ALGO_A2DP_PANHS		= 0x5,
++	BT_8192E_2ANT_COEX_ALGO_PANEDR			= 0x6,
++	BT_8192E_2ANT_COEX_ALGO_PANHS			= 0x7,
++	BT_8192E_2ANT_COEX_ALGO_PANEDR_A2DP		= 0x8,
++	BT_8192E_2ANT_COEX_ALGO_PANEDR_HID		= 0x9,
++	BT_8192E_2ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0xa,
++	BT_8192E_2ANT_COEX_ALGO_HID_A2DP		= 0xb,
++	BT_8192E_2ANT_COEX_ALGO_MAX				= 0xc
++};
++
++struct coex_dm_8192e_2ant {
++	/* fw mechanism */
++	u8		pre_bt_dec_pwr_lvl;
++	u8		cur_bt_dec_pwr_lvl;
++	u8		pre_fw_dac_swing_lvl;
++	u8		cur_fw_dac_swing_lvl;
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		reset_tdma_adjust;
++	boolean		auto_tdma_adjust;
++	boolean		auto_tdma_adjust_low_rssi;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++
++	/* sw mechanism */
++	boolean		pre_rf_rx_lpf_shrink;
++	boolean		cur_rf_rx_lpf_shrink;
++	u32		bt_rf_0x1e_backup;
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	boolean		pre_dac_swing_on;
++	u32		pre_dac_swing_lvl;
++	boolean		cur_dac_swing_on;
++	u32		cur_dac_swing_lvl;
++	boolean		pre_adc_back_off;
++	boolean		cur_adc_back_off;
++	boolean	pre_agc_table_en;
++	boolean		cur_agc_table_en;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u8		pre_ss_type;
++	u8		cur_ss_type;
++
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		cur_ra_mask_type;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++};
++
++struct coex_sta_8192e_2ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	u8					bt_rssi;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8192E_2ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8192E_2ANT_MAX];
++	boolean					c2h_bt_inquiry_page;
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u8					scan_ap_num;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8192e2ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8192e2ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e2ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8192e2ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8192e2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8192e2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8192e2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8192e2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8192e2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8192e2ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e2ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8192e2ant_display_coex_info(IN struct btc_coexist *btcoexist);
++
++#else	/*  #if (RTL8192E_SUPPORT == 1) */
++#define	ex_halbtc8192e2ant_power_on_setting(btcoexist)
++#define	ex_halbtc8192e2ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8192e2ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8192e2ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8192e2ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8192e2ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8192e2ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8192e2ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8192e2ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8192e2ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8192e2ant_halt_notify(btcoexist)
++#define	ex_halbtc8192e2ant_periodical(btcoexist)
++#define	ex_halbtc8192e2ant_display_coex_info(btcoexist)
++
++#endif
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8703b1Ant.c b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8703b1Ant.c
+new file mode 100644
+index 0000000..0225669
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8703b1Ant.c
+@@ -0,0 +1,4592 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8703B Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8703B_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	*trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8703b_1ant		glcoex_dm_8703b_1ant;
++static struct  coex_dm_8703b_1ant	*coex_dm = &glcoex_dm_8703b_1ant;
++static struct  coex_sta_8703b_1ant		glcoex_sta_8703b_1ant;
++static struct  coex_sta_8703b_1ant	*coex_sta = &glcoex_sta_8703b_1ant;
++static struct  psdscan_sta_8703b_1ant	gl_psd_scan_8703b_1ant;
++static struct  psdscan_sta_8703b_1ant *psd_scan = &gl_psd_scan_8703b_1ant;
++
++
++const char *const glbt_info_src_8703b_1ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8703b_1ant = 20160218;
++u32	glcoex_ver_8703b_1ant = 0x09;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8703b1ant_
++ * ************************************************************ */
++u8 halbtc8703b1ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8703B_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8703B_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8703B_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8703b1ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8703B_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8703B_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8703B_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8703b1ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8703b1ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8703b1ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8703b1ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8703b1ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	switch (ra_mask_type) {
++	case 0:	/* normal mode */
++		halbtc8703b1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0);
++		break;
++	case 1:	/* disable cck 1/2 */
++		halbtc8703b1ant_update_ra_mask(btcoexist, force_exec,
++					       0x00000003);
++		break;
++	case 2:	/* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		halbtc8703b1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0001f1f7);
++		break;
++	default:
++		break;
++	}
++
++	halbtc8703b1ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8703b1ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8703b1ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++void halbtc8703b1ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8703b1ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++void halbtc8703b1ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++	static u8		num_of_bt_counter_chk = 0, cnt_slave = 0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	/* to avoid 0x76e[3] = 1 (WLAN_Act control by PTA) during IPS */
++	/* if (! (btcoexist->btc_read_1byte(btcoexist, 0x76e) & 0x8) ) */
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Hi-Pri Rx/Tx: %d/%d, Lo-Pri Rx/Tx: %d/%d\n",
++		    reg_hp_rx, reg_hp_tx, reg_lp_rx, reg_lp_tx);
++
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++
++	if ((coex_sta->low_priority_tx > 1150)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++
++	if ((coex_sta->low_priority_rx >= 1150) && (coex_sta->low_priority_rx >= coex_sta->low_priority_tx)
++	    && (!coex_sta->under_ips)  && (!coex_sta->c2h_bt_inquiry_page) && (coex_sta->bt_link_exist))	{
++		if (cnt_slave >= 3) {
++			bt_link_info->slave_role = true;
++			cnt_slave = 3;
++		} else
++			cnt_slave++;
++	} else {
++		if (cnt_slave == 0)	{
++			bt_link_info->slave_role = false;
++			cnt_slave = 0;
++		} else
++			cnt_slave--;
++
++	}
++
++	if ((coex_sta->high_priority_tx == 0) && (coex_sta->high_priority_rx == 0) && (coex_sta->low_priority_tx == 0) &&
++	    (coex_sta->low_priority_rx == 0)) {
++		num_of_bt_counter_chk++;
++		if (num_of_bt_counter_chk >= 3) {
++			halbtc8703b1ant_query_bt_info(btcoexist);
++			num_of_bt_counter_chk = 0;
++		}
++	}
++
++
++#if 0
++	/* Add Hi-Pri Tx/Rx counter to avoid false detection */
++	if (((coex_sta->hid_exist) || (coex_sta->sco_exist)) &&
++	    (coex_sta->high_priority_tx + coex_sta->high_priority_rx
++	     >= 160)
++	    && (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->bt_hi_pri_link_exist = true;
++	else
++		coex_sta->bt_hi_pri_link_exist = false;
++
++	if ((coex_sta->acl_busy) &&
++	    (coex_sta->num_of_profile == 0)) {
++		if (coex_sta->low_priority_tx +
++		    coex_sta->low_priority_rx >= 160) {
++			coex_sta->pan_exist = true;
++			coex_sta->num_of_profile++;
++			coex_sta->wrong_profile_notification++;
++		}
++	}
++#endif
++
++}
++
++
++void halbtc8703b1ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++	s32	wifi_rssi = 0;
++	boolean wifi_busy = false, wifi_under_b_mode = false;
++	static u8 cck_lock_counter = 0;
++	u32	total_cnt;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++			   &wifi_under_b_mode);
++
++	if (coex_sta->under_ips) {
++		coex_sta->crc_ok_cck = 0;
++		coex_sta->crc_ok_11g = 0;
++		coex_sta->crc_ok_11n = 0;
++		coex_sta->crc_ok_11n_agg = 0;
++
++		coex_sta->crc_err_cck = 0;
++		coex_sta->crc_err_11g = 0;
++		coex_sta->crc_err_11n = 0;
++		coex_sta->crc_err_11n_agg = 0;
++	} else {
++		coex_sta->crc_ok_cck	= btcoexist->btc_read_4byte(btcoexist,
++					  0xf88);
++		coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf94);
++		coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf90);
++		coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					   0xfb8);
++
++		coex_sta->crc_err_cck	 = btcoexist->btc_read_4byte(btcoexist,
++					   0xf84);
++		coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf96);
++		coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf92);
++		coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					    0xfba);
++	}
++
++
++	/* reset counter */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x0);
++
++	if ((wifi_busy) && (wifi_rssi >= 30) && (!wifi_under_b_mode)) {
++		total_cnt = coex_sta->crc_ok_cck + coex_sta->crc_ok_11g +
++			    coex_sta->crc_ok_11n +
++			    coex_sta->crc_ok_11n_agg;
++
++		if ((coex_dm->bt_status == BT_8703B_1ANT_BT_STATUS_ACL_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8703B_1ANT_BT_STATUS_ACL_SCO_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8703B_1ANT_BT_STATUS_SCO_BUSY)) {
++			if (coex_sta->crc_ok_cck > (total_cnt -
++						    coex_sta->crc_ok_cck)) {
++				if (cck_lock_counter < 3)
++					cck_lock_counter++;
++			} else {
++				if (cck_lock_counter > 0)
++					cck_lock_counter--;
++			}
++
++		} else {
++			if (cck_lock_counter > 0)
++				cck_lock_counter--;
++		}
++	} else {
++		if (cck_lock_counter > 0)
++			cck_lock_counter--;
++	}
++
++	if (!coex_sta->pre_ccklock) {
++
++		if (cck_lock_counter >= 3)
++			coex_sta->cck_lock = true;
++		else
++			coex_sta->cck_lock = false;
++	} else {
++		if (cck_lock_counter == 0)
++			coex_sta->cck_lock = false;
++		else
++			coex_sta->cck_lock = true;
++	}
++
++	if (coex_sta->cck_lock)
++		coex_sta->cck_ever_lock = true;
++
++	coex_sta->pre_ccklock =  coex_sta->cck_lock;
++
++
++}
++
++boolean halbtc8703b1ant_is_wifibt_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false, pre_bt_off = false;
++	boolean wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (coex_sta->bt_disabled != pre_bt_off) {
++		pre_bt_off = coex_sta->bt_disabled;
++
++		if (coex_sta->bt_disabled)
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++		else
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is enabled !!\n");
++
++		BTC_TRACE(trace_buf);
++		return true;
++	}
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++	}
++
++	return false;
++}
++
++void halbtc8703b1ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++	bt_link_info->bt_hi_pri_link_exist = coex_sta->bt_hi_pri_link_exist;
++	bt_link_info->acl_busy = coex_sta->acl_busy;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++void halbtc8703b1ant_update_wifi_channel_info(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] =
++			0x1;  /* enable BT AFH skip WL channel for 8703b because BT Rx LO interference */
++		/* h2c_parameter[0] = 0x0; */
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++
++}
++
++void halbtc8703b1ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8703b1ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8703b1ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8703b1ant_set_fw_low_penalty_ra(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8703b1ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8703b1ant_set_fw_low_penalty_ra(btcoexist,
++					      coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8703b1ant_write_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	u16				bitpos,
++	IN	BOOLEAN		state
++)
++{
++
++	static u16 originalval = 0x8002;
++
++	if (state)
++		originalval = originalval | bitpos;
++	else
++		originalval = originalval & (~bitpos);
++
++
++	btcoexist->btc_write_2byte(btcoexist, 0xaa, originalval);
++#if 0
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "\n [BTCoex], ********** Write Scoreboard = %x**********\n",
++		    originalval);
++	BTC_TRACE(trace_buf);
++#endif
++
++}
++
++void halbtc8703b1ant_read_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN   u16				*score_board_val
++)
++{
++
++	*score_board_val = (btcoexist->btc_read_2byte(btcoexist,
++			    0xaa)) & 0x7fff;
++}
++
++void halbtc8703b1ant_post_activestate_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_active
++)
++{
++
++	if (wifi_active)
++		halbtc8703b1ant_write_score_board(btcoexist, (u16) BIT(0), TRUE);
++	else
++		halbtc8703b1ant_write_score_board(btcoexist, (u16) BIT(0), FALSE);
++
++	/* The BT should set "No Shunt-down" mode if WL = Active for BT Synthesizer on/off interference WL Lo issue at 8703b b-cut. */
++
++}
++
++void halbtc8703b1ant_post_onoffState_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_on
++)
++{
++
++	if (wifi_on)
++		halbtc8703b1ant_write_score_board(btcoexist, (u16) BIT(1), TRUE);
++	else
++		halbtc8703b1ant_write_score_board(btcoexist, (u16) BIT(1), FALSE);
++
++}
++
++void halbtc8703b1ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++	u16			u16tmp;
++
++	/* This function check if bt is disabled */
++#if 1
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++
++
++#else   /*  8703b BT can't show correct on/off status in scoreboard[1] 2015/11/26 */
++
++	halbtc8703b1ant_read_score_board(btcoexist,	&u16tmp);
++
++	bt_active = u16tmp & BIT(1);
++
++
++#endif
++
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	} else {
++
++		bt_disable_cnt++;
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			bt_disable_cnt = 2;
++		}
++
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	}
++
++
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++
++	}
++}
++
++void halbtc8703b1ant_enable_gnt_to_gpio(IN struct btc_coexist *btcoexist,
++					IN boolean isenable)
++{
++
++#if (BT_8703B_1ANT_ENABLE_GNTBT_TO_GPIO14 == 1)
++	if (isenable) {
++		/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x1);
++
++		/* enable GNT_BT debug to GPIO */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x40, 0x0);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x1, 0x0);
++	} else {
++		/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x0);
++
++		/* Disable GNT_BT debug to GPIO, and enable chip_wakeup_host */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x40, 0x1);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x1, 0x1);
++	}
++#endif
++}
++
++u32 halbtc8703b1ant_ltecoex_indirect_read_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr)
++{
++	u32 j = 0;
++
++
++	/* wait for ready bit before access 0x7c0		 */
++	btcoexist->btc_write_4byte(btcoexist, 0x7c0, 0x800F0000 | reg_addr);
++
++	do {
++		j++;
++	} while (((btcoexist->btc_read_1byte(btcoexist,
++					     0x7c3)&BIT(5)) == 0) &&
++		 (j < BT_8703B_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++	return btcoexist->btc_read_4byte(btcoexist,
++					 0x7c8);  /* get read data */
++
++}
++
++void halbtc8703b1ant_ltecoex_indirect_write_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr, IN u32 bit_mask, IN u32 reg_value)
++{
++	u32 val, i = 0, j = 0, bitpos = 0;
++
++
++	if (bit_mask == 0x0)
++		return;
++	if (bit_mask == 0xffffffff) {
++		btcoexist->btc_write_4byte(btcoexist, 0x7c4,
++					   reg_value); /* put write data */
++
++		/* wait for ready bit before access 0x7c0 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x7c3)&BIT(5)) == 0) &&
++			(j < BT_8703B_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x7c0,
++					   0xc00F0000 | reg_addr);
++	} else {
++		for (i = 0; i <= 31; i++) {
++			if (((bit_mask >> i) & 0x1) == 0x1) {
++				bitpos = i;
++				break;
++			}
++		}
++
++		/* read back register value before write */
++		val = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist,
++				reg_addr);
++		val = (val & (~bit_mask)) | (reg_value << bitpos);
++
++		btcoexist->btc_write_4byte(btcoexist, 0x7c4,
++					   val); /* put write data */
++
++		/* wait for ready bit before access 0x7c0		 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x7c3)&BIT(5)) == 0) &&
++			(j < BT_8703B_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x7c0,
++					   0xc00F0000 | reg_addr);
++
++	}
++
++}
++
++void halbtc8703b1ant_ltecoex_enable(IN struct btc_coexist *btcoexist,
++				    IN boolean enable)
++{
++	u8 val;
++
++	val = (enable) ? 1 : 0;
++	halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist, 0x38, 0x80,
++			val);  /* 0x38[7] */
++
++}
++
++void halbtc8703b1ant_sw_mechanism(IN struct btc_coexist *btcoexist,
++				  IN boolean low_penalty_ra)
++{
++	halbtc8703b1ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8703b1ant_ltecoex_pathcontrol_owner(IN struct btc_coexist *btcoexist,
++		IN boolean wifi_control)
++{
++	u8 val;
++
++	val = (wifi_control) ? 1 : 0;
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x4,
++					   val); /* 0x70[26] */
++
++}
++
++void halbtc8703b1ant_ltecoex_set_gnt_bt(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8703B_1ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0xc000;
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		bit_mask = 0x0c00;
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10]						 */
++		break;
++	case BT_8703B_1ANT_GNT_BLOCK_RFC:
++		bit_mask = 0xc000;
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		break;
++	case BT_8703B_1ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0c00;
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10] */
++		break;
++
++	}
++
++}
++
++void halbtc8703b1ant_ltecoex_set_gnt_wl(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8703B_1ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0x3000;
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		bit_mask = 0x0300;
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8]						 */
++		break;
++	case BT_8703B_1ANT_GNT_BLOCK_RFC:
++		bit_mask = 0x3000;
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		break;
++	case BT_8703B_1ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0300;
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8] */
++		break;
++
++	}
++
++}
++
++void halbtc8703b1ant_ltecoex_set_coex_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u16 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8703B_1ANT_CTT_WL_VS_LTE:
++		reg_addr = 0xa0;
++		break;
++	case BT_8703B_1ANT_CTT_BT_VS_LTE:
++		reg_addr = 0xa4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xffff, table_content); /* 0xa0[15:0] or 0xa4[15:0] */
++
++
++}
++
++
++void halbtc8703b1ant_ltecoex_set_break_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u8 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8703B_1ANT_LBTT_WL_BREAK_LTE:
++		reg_addr = 0xa8;
++		break;
++	case BT_8703B_1ANT_LBTT_BT_BREAK_LTE:
++		reg_addr = 0xac;
++		break;
++	case BT_8703B_1ANT_LBTT_LTE_BREAK_WL:
++		reg_addr = 0xb0;
++		break;
++	case BT_8703B_1ANT_LBTT_LTE_BREAK_BT:
++		reg_addr = 0xb4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8703b1ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xff, table_content); /* 0xa8[15:0] or 0xb4[15:0] */
++
++
++}
++
++void halbtc8703b1ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8703b1ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8703b1ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8703b1ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	u32	break_table;
++	u8	select_table;
++
++	coex_sta->coex_table_type = type;
++
++	if (coex_sta->concurrent_rx_mode_on == true) {
++		break_table = 0xf0ffffff;  /* set WL hi-pri can break BT */
++		select_table =
++			0xb;		/* set Tx response = Hi-Pri (ex: Transmitting ACK,BA,CTS) */
++	} else {
++		break_table = 0xffffff;
++		select_table = 0x3;
++	}
++
++	switch (type) {
++	case 0:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0x55555555, break_table,
++					   select_table);
++		break;
++	case 1:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0x5a5a5a5a, break_table,
++					   select_table);
++		break;
++	case 2:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0xaa5a5a5a, 0xaa5a5a5a, break_table,
++					   select_table);
++		break;
++	case 3:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0xaa555555, 0xaa5a5a5a, break_table,
++					   select_table);
++		break;
++	case 4:
++		halbtc8703b1ant_coex_table(btcoexist,
++					   force_exec, 0xaa555555, 0xaa5a5a5a,
++					   break_table, select_table);
++		break;
++	case 5:
++		halbtc8703b1ant_coex_table(btcoexist,
++					   force_exec, 0x5a5a5a5a, 0x5a5a5a5a,
++					   break_table, select_table);
++		break;
++	case 6:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 7:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0xaaaaaaaa, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 8:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 9:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 10:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 11:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 12:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 13:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x5fff5fff, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 14:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x5fff5fff, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 15:
++		halbtc8703b1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8703b1ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8703b1ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8703b1ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8703b1ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8703b1ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8703b1ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8703b1ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++	u8	h2c_parameter[5] = {0x8, 0, 0, 0, 0};
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			/*halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8); */
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			/*halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);*/
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8703b1ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		coex_sta->force_lps_on = false;
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++
++		break;
++	case BTC_PS_LPS_ON:
++		coex_sta->force_lps_on = true;
++		halbtc8703b1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8703b1ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++
++		break;
++	case BTC_PS_LPS_OFF:
++		coex_sta->force_lps_on = false;
++		halbtc8703b1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++
++		break;
++	default:
++		break;
++	}
++}
++
++
++
++void halbtc8703b1ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], FW for 1Ant AP mode\n");
++			BTC_TRACE(trace_buf);
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++
++			halbtc8703b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++							 0x0);
++		}
++	} else if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++
++		halbtc8703b1ant_power_save_state(
++			btcoexist, BTC_PS_LPS_ON, 0x50,
++			0x4);
++	} else {
++		halbtc8703b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++						 0x0);
++	}
++
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++
++void halbtc8703b1ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_busy = false;
++	u8			rssi_adjust_val = 0;
++	static u8			psTdmaByte4Modify = 0x0, pre_psTdmaByte4Modify = 0x0;
++	static boolean	 pre_wifi_busy = false;
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (wifi_busy != pre_wifi_busy) {
++		force_exec = true;
++		pre_wifi_busy = wifi_busy;
++	}
++
++	/* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++	if ((bt_link_info->slave_role) && (bt_link_info->a2dp_exist))
++		psTdmaByte4Modify = 0x1;
++	else
++		psTdmaByte4Modify = 0x0;
++
++	if (pre_psTdmaByte4Modify != psTdmaByte4Modify) {
++
++		force_exec = true;
++		pre_psTdmaByte4Modify = psTdmaByte4Modify;
++	}
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++
++	if (coex_dm->cur_ps_tdma_on) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(on, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(off, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	}
++
++	if (turn_on)	{
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++	}
++
++
++	if (turn_on) {
++		switch (type) {
++		default:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x35, 0x03, 0x11, 0x11);
++			break;
++
++		case 3:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x3a, 0x03, 0x10, 0x10);
++			break;
++		case 4:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x21, 0x03, 0x10, 0x10);
++			break;
++		case 5:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x15, 0x03, 0x11, 0x11);
++			break;
++		case 6:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x20, 0x03, 0x11, 0x11);
++			break;
++		case 7:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x10, 0x03, 0x10,  0x14 | psTdmaByte4Modify);
++			break;
++		case 8:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x10, 0x03, 0x10,  0x14 | psTdmaByte4Modify);
++			break;
++		case 13:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x25, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 14:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x15, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 15:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x20, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 17:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++				0x61, 0x10, 0x03, 0x11,  0x14 | psTdmaByte4Modify);
++			break;
++		case 19:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x15, 0x03, 0x11, 0x10);
++			break;
++		case 20:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x30, 0x03, 0x11, 0x10);
++			break;
++		case 21:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x30, 0x03, 0x11, 0x10);
++			break;
++		case 22:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x25, 0x03, 0x11, 0x10);
++			break;
++		case 32:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x35, 0x03, 0x11, 0x11);
++			break;
++		case 33:
++			halbtc8703b1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x35, 0x03, 0x11, 0x10);
++			break;
++
++		}
++	} else {
++
++		/* disable PS tdma */
++		switch (type) {
++		case 8: /* PTA Control */
++			halbtc8703b1ant_set_fw_pstdma(btcoexist, 0x8,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 0:
++		default:  /* Software control, Antenna at BT side */
++			halbtc8703b1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 1: /* 2-Ant, 0x778=3, antenna control by antenna diversity */
++			halbtc8703b1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x48, 0x0);
++			break;
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8703b1ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean force_exec, IN boolean init_hwcfg,
++				  IN boolean wifi_off)
++{
++	u32			cnt_bt_cal_chk = 0;
++	boolean			is_in_mp_mode = false;
++	u8			u8tmp = 0;
++	u32			u32tmp1 = 0, u32tmp2 = 0;
++
++	coex_dm->cur_ant_pos_type = ant_pos_type;
++
++#if 1
++	u32tmp1 = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0x38);
++	u32tmp2 = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0x54);
++	u8tmp  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Before Ant Setup) 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++		    u8tmp, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++#endif
++
++	if (init_hwcfg) {
++		/* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++		halbtc8703b1ant_ltecoex_enable(btcoexist, 0x0);
++
++		/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++		halbtc8703b1ant_ltecoex_set_coex_table(btcoexist,
++				       BT_8703B_1ANT_CTT_WL_VS_LTE, 0xffff);
++
++		/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++		halbtc8703b1ant_ltecoex_set_coex_table(btcoexist,
++				       BT_8703B_1ANT_CTT_BT_VS_LTE, 0xffff);
++
++		/* Wait If BT IQK running, because Path control owner is at BT during BT IQK (setup by WiFi firmware) */
++		while (cnt_bt_cal_chk <= 20) {
++			u8tmp = btcoexist->btc_read_1byte(btcoexist,
++							  0x49d);
++			cnt_bt_cal_chk++;
++			if (u8tmp & BIT(0)) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], ########### BT is calibrating (wait cnt=%d) ###########\n",
++					    cnt_bt_cal_chk);
++				BTC_TRACE(trace_buf);
++				delay_ms(50);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], ********** BT is NOT calibrating (wait cnt=%d)**********\n",
++					    cnt_bt_cal_chk);
++				BTC_TRACE(trace_buf);
++				break;
++			}
++		}
++
++		/* set Path control owner to WL at initial step */
++		halbtc8703b1ant_ltecoex_pathcontrol_owner(btcoexist,
++				BT_8703B_1ANT_PCO_WLSIDE);
++
++		/* set GNT_BT to SW high */
++		halbtc8703b1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8703B_1ANT_SIG_STA_SET_TO_HIGH);
++		/* Set GNT_WL to SW low */
++		halbtc8703b1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8703B_1ANT_SIG_STA_SET_TO_LOW);
++
++		coex_sta->gnt_control_by_PTA = false;
++
++	} else if (wifi_off) {
++		/* Disable LTE Coex Function in WiFi side */
++		halbtc8703b1ant_ltecoex_enable(btcoexist, 0x0);
++
++		/* set Path control owner to BT */
++		halbtc8703b1ant_ltecoex_pathcontrol_owner(btcoexist,
++				BT_8703B_1ANT_PCO_BTSIDE);
++
++		coex_sta->gnt_control_by_PTA = false;
++	} else {
++
++		halbtc8703b1ant_ltecoex_pathcontrol_owner(btcoexist,
++				BT_8703B_1ANT_PCO_WLSIDE);
++
++
++		if (force_exec ||
++		    (coex_dm->cur_ant_pos_type != coex_dm->pre_ant_pos_type) ||
++		    init_hwcfg || wifi_off) {
++			/* internal switch setting */
++			switch (ant_pos_type) {
++			case BTC_ANT_PATH_WIFI:
++				/* set GNT_BT to low */
++				halbtc8703b1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8703B_1ANT_SIG_STA_SET_TO_LOW);
++				/* Set GNT_WL to high */
++				halbtc8703b1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8703B_1ANT_SIG_STA_SET_TO_HIGH);
++
++				coex_sta->gnt_control_by_PTA = false;
++				break;
++			case BTC_ANT_PATH_BT:
++				/*halbtc8703b1ant_ltecoex_pathcontrol_owner(
++					btcoexist, BT_8703B_1ANT_PCO_BTSIDE);*/
++				/* set GNT_BT to high */
++				halbtc8703b1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8703B_1ANT_SIG_STA_SET_TO_HIGH);
++				/* Set GNT_WL to low */
++				halbtc8703b1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8703B_1ANT_SIG_STA_SET_TO_LOW);
++
++				coex_sta->gnt_control_by_PTA = false;
++				break;
++			default:
++			case BTC_ANT_PATH_PTA:
++				/* set GNT_BT to PTA */
++				halbtc8703b1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_PTA,
++					   BT_8703B_1ANT_SIG_STA_SET_BY_HW);
++				/* Set GNT_WL to PTA */
++				halbtc8703b1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_PTA,
++					   BT_8703B_1ANT_SIG_STA_SET_BY_HW);
++
++				coex_sta->gnt_control_by_PTA = true;
++				break;
++			}
++		}
++	}
++
++#if 1
++	u32tmp1 = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++	u8tmp  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	if (init_hwcfg) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (After Ant-Setup Init) 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++			    u8tmp, u32tmp1, u32tmp2);
++		BTC_TRACE(trace_buf);
++	} else if (wifi_off) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (After Ant-Setup WiFi off) 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++			    u8tmp, u32tmp1, u32tmp2);
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (After Ant-Setup Run time) 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++			    u8tmp, u32tmp1, u32tmp2);
++		BTC_TRACE(trace_buf);
++	}
++#endif
++
++	coex_dm->pre_ant_pos_type = coex_dm->cur_ant_pos_type;
++}
++
++
++boolean halbtc8703b1ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected &&
++	    BT_8703B_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++	    coex_dm->bt_status) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8703b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		   (BT_8703B_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8703b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8703B_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8703b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		(BT_8703B_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8703b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8703B_1ANT_BT_STATUS_CONNECTED_IDLE != coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non connected-idle + BT Busy!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8703b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else {
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		}
++
++		common = false;
++	}
++
++	return common;
++}
++
++/* *********************************************
++ *
++ *	Software Coex Mechanism start
++ *
++ * ********************************************* */
++
++/* SCO only or SCO+PAN(HS) */
++
++/*
++void halbtc8703b1ant_action_sco(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8703b1ant_action_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8703b1ant_action_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8703b1ant_action_a2dp_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8703b1ant_action_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8703b1ant_action_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8703b1ant_action_pan_edr_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8703b1ant_action_pan_edr_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8703b1ant_action_hid_a2dp_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, true);
++}
++
++void halbtc8703b1ant_action_hid_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8703b1ant_sw_mechanism(btcoexist, true);
++}
++
++*/
++
++/* *********************************************
++ *
++ *	Non-Software Coex Mechanism start
++ *
++ * ********************************************* */
++u8 halbtc8703b1ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8703B_1ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Profile = SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8703B_1ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8703B_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8703B_1ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8703B_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8703B_1ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8703B_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID + A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8703B_1ANT_COEX_ALGO_HID_A2DP;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8703B_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8703B_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! BT Profile = SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8703B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++
++
++void halbtc8703b1ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC,
++				     false, false);
++	halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8703b1ant_action_wifi_only(IN struct btc_coexist *btcoexist)
++{
++	halbtc8703b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, FORCE_EXEC,
++				     false, false);
++	halbtc8703b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++}
++
++void halbtc8703b1ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC,
++				     false, false);
++	halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8703b1ant_action_hs(IN struct btc_coexist *btcoexist)
++{
++	halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++	halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8703b1ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_connected = false, ap_enable = false, wifi_busy = false,
++				bt_busy = false;
++	boolean	wifi_scan = false, wifi_link = false, wifi_roam = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &wifi_scan);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &wifi_link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &wifi_roam);
++
++	if ((wifi_link) || (wifi_roam)  || (coex_sta->wifi_is_high_pri_task)) {
++
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++
++	} else if ((wifi_scan) && (coex_sta->bt_create_connection)) {
++
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++
++	} else if ((!wifi_connected) && (!wifi_scan)) {
++
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if ((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) {
++
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	} else if (bt_link_info->a2dp_exist) {
++
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (wifi_scan) {
++
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	} else if (wifi_busy) {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 21);
++
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 19);
++
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	}
++}
++
++void halbtc8703b1ant_action_bt_sco_hid_only_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	/* tdma and coex table */
++
++	if (bt_link_info->sco_exist) {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else { /* HID */
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	}
++}
++
++void halbtc8703b1ant_action_wifi_connected_bt_acl_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++
++	if (bt_link_info->hid_only) { /* HID */
++		halbtc8703b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				wifi_status);
++		coex_dm->auto_tdma_adjust = false;
++		return;
++	} else if (bt_link_info->a2dp_only) { /* A2DP		 */
++		if (BT_8703B_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status) {
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = false;
++		} else {
++
++			if (coex_sta->scan_ap_num >=
++			    BT_8703B_1ANT_WIFI_NOISY_THRESH)  {
++				halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++							17);
++			}	else {
++				halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++							7);
++			}
++
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = true;
++		}
++	} else if (((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) ||
++		   (bt_link_info->hid_exist && bt_link_info->a2dp_exist &&
++		bt_link_info->pan_exist)) { /* A2DP+PAN(OPP,FTP), HID+A2DP+PAN(OPP,FTP) */
++
++		if (wifi_busy)	{
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 15);
++			else
++				halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++		} else
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 14);
++
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++		coex_dm->auto_tdma_adjust = false;
++	} else if (bt_link_info->hid_exist &&
++		   bt_link_info->a2dp_exist) { /* HID+A2DP */
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 8);
++		coex_dm->auto_tdma_adjust = false;
++
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++	} else if ((bt_link_info->pan_only) || (bt_link_info->hid_exist &&
++		bt_link_info->pan_exist)) { /* PAN(OPP,FTP), HID+PAN(OPP,FTP)			 */
++		if (BT_8703B_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status)
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						4);
++		else
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++		coex_dm->auto_tdma_adjust = false;
++	} else {
++		/* BT no-profile busy (0x9) */
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	}
++}
++
++void halbtc8703b1ant_action_wifi_not_connected(IN struct btc_coexist *btcoexist)
++{
++
++	/* tdma and coex table */
++	halbtc8703b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC,
++				     false, false);
++	halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8703b1ant_action_wifi_not_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8703b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8703b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8703b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8703b1ant_action_hs(btcoexist);
++		return;
++	}
++
++	/* tdma and coex table */
++	if (BT_8703B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8703B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8703B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8703b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8703B_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8703b1ant_action_wifi_not_connected_asso_auth(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8703b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8703b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8703b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8703b1ant_action_hs(btcoexist);
++		return;
++	}
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist)  || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 2);
++	}
++}
++
++void halbtc8703b1ant_action_wifi_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8703b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8703b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8703b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8703b1ant_action_hs(btcoexist);
++		return;
++	}
++
++	/* tdma and coex table */
++	if (BT_8703B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8703B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8703B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8703b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8703B_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8703b1ant_action_wifi_connected_specific_packet(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++	boolean wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8703b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8703b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8703b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8703b1ant_action_hs(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	/* no specific packet process for both WiFi and BT very busy */
++	if ((wifi_busy) && ((bt_link_info->pan_exist) ||
++			    (coex_sta->num_of_profile >= 2)))
++		return;
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist)) {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else if (bt_link_info->a2dp_exist) {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8703b1ant_action_wifi_connected(IN struct btc_coexist *btcoexist)
++{
++	boolean	wifi_busy = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean		under_4way = false, ap_enable = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], CoexForWifiConnect()===>\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (under_4way) {
++		halbtc8703b1ant_action_wifi_connected_specific_packet(btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 4way<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++	if (scan || link || roam) {
++		if (scan)
++			halbtc8703b1ant_action_wifi_connected_scan(btcoexist);
++		else
++			halbtc8703b1ant_action_wifi_connected_specific_packet(
++				btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under scan<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++
++	/* tdma and coex table */
++	if (!wifi_busy) {
++		if (BT_8703B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8703b1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8703B_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else if ((BT_8703B_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8703B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8703b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8703B_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else {
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++			halbtc8703b1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_PTA, NORMAL_EXEC, false, false);
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++		}
++	} else {
++		if (BT_8703B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8703b1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8703B_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else if ((BT_8703B_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8703B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8703b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8703B_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else {
++			/* halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8); */
++			halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8703b1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_PTA, NORMAL_EXEC, false, false);
++			/* halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);	 */
++			halbtc8703b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	}
++}
++
++void halbtc8703b1ant_run_sw_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8				algorithm = 0;
++
++	algorithm = halbtc8703b1ant_action_algorithm(btcoexist);
++	coex_dm->cur_algorithm = algorithm;
++
++	if (halbtc8703b1ant_is_common_action(btcoexist)) {
++
++	} else {
++		switch (coex_dm->cur_algorithm) {
++		case BT_8703B_1ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_sco(btcoexist); */
++			break;
++		case BT_8703B_1ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_hid(btcoexist); */
++			break;
++		case BT_8703B_1ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_a2dp(btcoexist); */
++			break;
++		case BT_8703B_1ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_a2dp_pan_hs(btcoexist); */
++			break;
++		case BT_8703B_1ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_pan_edr(btcoexist); */
++			break;
++		case BT_8703B_1ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_pan_hs(btcoexist); */
++			break;
++		case BT_8703B_1ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_pan_edr_a2dp(btcoexist); */
++			break;
++		case BT_8703B_1ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_pan_edr_hid(btcoexist); */
++			break;
++		case BT_8703B_1ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_hid_a2dp_pan_edr(btcoexist); */
++			break;
++		case BT_8703B_1ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_action_hid_a2dp(btcoexist); */
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8703b1ant_coex_all_off(btcoexist); */
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8703b1ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false, bt_hs_on = false;
++	boolean	increase_scan_dev_num = false;
++	boolean	bt_ctrl_agg_buf_size = false;
++	boolean	miracast_plus_bt = false;
++	u8	agg_buf_size = 5;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0, wifi_bw;
++	u8	iot_peer = BTC_IOT_PEER_UNKNOWN;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8703b1ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	if (coex_sta->bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is disabled !!!\n");
++		halbtc8703b1ant_action_wifi_only(btcoexist);
++		return;
++	}
++
++	if ((BT_8703B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8703B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8703B_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		increase_scan_dev_num = true;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_INC_SCAN_DEV_NUM,
++			   &increase_scan_dev_num);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist) {
++			halbtc8703b1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1,
++						   0, 1);
++			miracast_plus_bt = true;
++		} else {
++			halbtc8703b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++			miracast_plus_bt = false;
++		}
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8703b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8703b1ant_action_wifi_multi_port(btcoexist);
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if ((bt_link_info->bt_link_exist) && (wifi_connected)) {
++		halbtc8703b1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1, 0, 1);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_IOT_PEER, &iot_peer);
++
++		if (BTC_IOT_PEER_CISCO != iot_peer) {
++			if (bt_link_info->sco_exist) /* if (bt_link_info->bt_hi_pri_link_exist) */
++				halbtc8703b1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, true, false, 0x5);
++			else
++				halbtc8703b1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, false, false, 0x5);
++		} else {
++			if (bt_link_info->sco_exist)
++				halbtc8703b1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, true, false, 0x5);
++			else {
++				if (BTC_WIFI_BW_HT40 == wifi_bw)
++					halbtc8703b1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x10);
++				else
++					halbtc8703b1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x8);
++			}
++		}
++
++		halbtc8703b1ant_sw_mechanism(btcoexist, true);
++		halbtc8703b1ant_run_sw_coexist_mechanism(
++			btcoexist);  /* just print debug message */
++	} else {
++		halbtc8703b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++		halbtc8703b1ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x5);
++
++		halbtc8703b1ant_sw_mechanism(btcoexist, false);
++		halbtc8703b1ant_run_sw_coexist_mechanism(
++			btcoexist); /* just print debug message */
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "############# [BTCoex],  BT Is Inquirying\n");
++		BTC_TRACE(trace_buf);
++		halbtc8703b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8703b1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	if (!wifi_connected) {
++		boolean	scan = false, link = false, roam = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is non connected-idle !!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (scan || link || roam) {
++			if (scan)
++				halbtc8703b1ant_action_wifi_not_connected_scan(
++					btcoexist);
++			else
++				halbtc8703b1ant_action_wifi_not_connected_asso_auth(
++					btcoexist);
++		} else
++			halbtc8703b1ant_action_wifi_not_connected(btcoexist);
++	} else	/* wifi LPS/Busy */
++		halbtc8703b1ant_action_wifi_connected(btcoexist);
++}
++
++u32 halbtc8703b1ant_psd_log2base(IN struct btc_coexist *btcoexist, IN u32 val)
++{
++	u8	j;
++	u32	tmp, tmp2, val_integerd_b = 0, tindex, shiftcount = 0;
++	u32	result, val_fractiond_b = 0, table_fraction[21] = {0, 432, 332, 274, 232, 200,
++				   174, 151, 132, 115, 100, 86, 74, 62, 51, 42,
++							   32, 23, 15, 7, 0
++							      };
++
++	if (val == 0)
++		return 0;
++
++	tmp = val;
++
++	while (1) {
++		if (tmp == 1)
++			break;
++		else {
++			tmp = (tmp >> 1);
++			shiftcount++;
++		}
++	}
++
++
++	val_integerd_b = shiftcount + 1;
++
++	tmp2 = 1;
++	for (j = 1; j <= val_integerd_b; j++)
++		tmp2 = tmp2 * 2;
++
++	tmp = (val * 100) / tmp2;
++	tindex = tmp / 5;
++
++	if (tindex > 20)
++		tindex = 20;
++
++	val_fractiond_b = table_fraction[tindex];
++
++	result = val_integerd_b * 100 - val_fractiond_b;
++
++	return result;
++
++
++}
++
++void halbtc8703b1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++
++	/* sw all off */
++	halbtc8703b1ant_sw_mechanism(btcoexist, false);
++
++	/* halbtc8703b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8); */
++	/* halbtc8703b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0); */
++
++	coex_sta->pop_event_cnt = 0;
++}
++
++void halbtc8703b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up, IN boolean wifi_only)
++{
++	u32				u32tmp0 = 0, u32tmp1 = 0, u32tmp2 = 0;
++
++	u32tmp0 = btcoexist->btc_read_4byte(btcoexist, 0x70),
++	u32tmp1 = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"\n [BTCoex], ********** 0x70/ 0x38/ 0x54 (Before Init HW config) = 0x%x/ 0x%x/ 0x%x**********\n",
++		    u32tmp0,
++		    u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 1Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	/* 0xf0[15:12] --> Chip Cut information */
++	coex_sta->cut_version = (btcoexist->btc_read_1byte(btcoexist,
++				 0xf1) & 0xf0) >> 4;
++
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++
++	/* BT report packet sample rate	 */
++	btcoexist->btc_write_1byte(btcoexist, 0x790, 0x5);
++
++	/* Enable BT counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++
++	/* Enable PTA (3-wire function form BT side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x41, 0x02, 0x1);
++
++	/* Enable PTA (tx/rx signal form WiFi side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4c6, 0x10, 0x1);
++
++	halbtc8703b1ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++	if (btcoexist->btc_read_1byte(btcoexist, 0x80) == 0xc6)
++		halbtc8703b1ant_post_onoffState_to_bt(btcoexist, true);
++
++	halbtc8703b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++
++	/* Antenna config */
++	if (wifi_only) {
++		coex_sta->concurrent_rx_mode_on = false;
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_WIFI,
++					     FORCE_EXEC, true, false);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_WIFI,
++					     FORCE_EXEC, false, false);
++	} else {
++		coex_sta->concurrent_rx_mode_on = true;
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x953, 0x2, 0x1);
++		/* RF 0x1[0] = 0->Set GNT_WL_RF_Rx always = 1 for con-current Rx */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0x1, 0x0);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, true, false);
++	}
++
++	/* PTA parameter */
++	halbtc8703b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	u32tmp0 = btcoexist->btc_read_4byte(btcoexist, 0x70),
++	u32tmp1 = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** 0x70/ 0x38/ 0x54 (After Init HW config) = 0x%x/ 0x%x/ 0x%x**********\n",
++		    u32tmp0,
++		    u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++
++}
++
++
++
++void halbtc8703b1ant_psd_showdata(IN struct btc_coexist *btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	u32		delta_freq_per_point;
++	u32		freq, freq1, freq2, n = 0, i = 0, j = 0, m = 0, psd_rep1, psd_rep2;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n\n============[PSD info]  (%d)============\n",
++		   psd_scan->psd_gen_count);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->psd_gen_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n No data !!\n");
++		CL_PRINTF(cli_buf);
++		return;
++	}
++
++	if (psd_scan->psd_point == 0)
++		delta_freq_per_point = 0;
++	else
++		delta_freq_per_point = psd_scan->psd_band_width /
++				       psd_scan->psd_point;
++
++	/* if (psd_scan->is_psd_show_max_only) */
++	if (0) {
++		psd_rep1 = psd_scan->psd_max_value / 100;
++		psd_rep2 = psd_scan->psd_max_value - psd_rep1 * 100;
++
++		freq = ((psd_scan->real_cent_freq - 20) * 1000000 +
++			psd_scan->psd_max_value_point * delta_freq_per_point);
++		freq1 = freq / 1000000;
++		freq2 = freq / 1000 - freq1 * 1000;
++
++		if (freq2 < 100)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.0%d MHz",
++				   freq1, freq2);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.%d MHz",
++				   freq1, freq2);
++
++		if (psd_rep2 < 10)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.0%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++
++		CL_PRINTF(cli_buf);
++	} else {
++		m = psd_scan->psd_start_point;
++		n = psd_scan->psd_start_point;
++		i = 1;
++		j = 1;
++
++		while (1) {
++			do {
++				freq = ((psd_scan->real_cent_freq - 20) * 1000000 + m *
++					delta_freq_per_point);
++				freq1 = freq / 1000000;
++				freq2 = freq / 1000 - freq1 * 1000;
++
++				if (i == 1) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.0%2d", freq1,
++							   freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.%3d", freq1,
++							   freq2);
++				} else if ((i % 8 == 0) ||
++					   (m == psd_scan->psd_stop_point)) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000\n", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d\n", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d\n", freq1, freq2);
++				} else {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d", freq1, freq2);
++				}
++
++				i++;
++				m++;
++				CL_PRINTF(cli_buf);
++
++			} while ((i <= 8) && (m <= psd_scan->psd_stop_point));
++
++
++			do {
++				psd_rep1 = psd_scan->psd_report_max_hold[n] / 100;
++				psd_rep2 = psd_scan->psd_report_max_hold[n] - psd_rep1 *
++					   100;
++
++				if (j == 1) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.0%d", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.%d", psd_rep1,
++							   psd_rep2);
++				} else if ((j % 8 == 0)  ||
++					   (n == psd_scan->psd_stop_point)) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d\n", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d\n", psd_rep1, psd_rep2);
++				} else {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d", psd_rep1, psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d", psd_rep1, psd_rep2);
++				}
++
++				j++;
++				n++;
++				CL_PRINTF(cli_buf);
++
++			} while ((j <= 8) && (n <= psd_scan->psd_stop_point));
++
++			if ((m > psd_scan->psd_stop_point) ||
++			    (n > psd_scan->psd_stop_point))
++				break;
++			else {
++				i = 1;
++				j = 1;
++			}
++
++		}
++	}
++
++
++}
++
++void halbtc8703b1ant_psd_maxholddata(IN struct btc_coexist *btcoexist,
++				     IN u32 gen_count)
++{
++	u32	i = 0, i_max = 0, val_max = 0;
++
++	if (gen_count == 1) {
++		memcpy(psd_scan->psd_report_max_hold,
++		       psd_scan->psd_report,
++		       BT_8703B_1ANT_ANTDET_PSD_POINTS * sizeof(u32));
++
++		for (i = psd_scan->psd_start_point;
++		     i <= psd_scan->psd_stop_point; i++) {
++
++		}
++
++		psd_scan->psd_max_value_point = 0;
++		psd_scan->psd_max_value = 0;
++
++	} else {
++		for (i = psd_scan->psd_start_point;
++		     i <= psd_scan->psd_stop_point; i++) {
++			if (psd_scan->psd_report[i] >
++			    psd_scan->psd_report_max_hold[i])
++				psd_scan->psd_report_max_hold[i] =
++					psd_scan->psd_report[i];
++
++			/* search Max Value */
++			if (i == psd_scan->psd_start_point) {
++				i_max = i;
++				val_max = psd_scan->psd_report_max_hold[i];
++			} else {
++				if (psd_scan->psd_report_max_hold[i] >
++				    val_max) {
++					i_max = i;
++					val_max = psd_scan->psd_report_max_hold[i];
++				}
++			}
++
++
++		}
++
++		psd_scan->psd_max_value_point = i_max;
++		psd_scan->psd_max_value = val_max;
++
++	}
++
++
++}
++
++u32 halbtc8703b1ant_psd_getdata(IN struct btc_coexist *btcoexist, IN u32 point)
++{
++	/* reg 0x808[9:0]: FFT data x */
++	/* reg 0x808[22]: 0-->1 to get 1 FFT data y */
++	/* reg 0x8b4[15:0]: FFT data y report */
++
++	u32 val = 0, psd_report = 0;
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++
++	val &= 0xffbffc00;
++	val |= point;
++
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	val |= 0x00400000;
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x8b4);
++
++	psd_report = val & 0x0000ffff;
++
++	return psd_report;
++}
++
++
++boolean halbtc8703b1ant_psd_sweep_point(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN s32 offset, IN u32 span, IN u32 points,
++					IN u32 avgnum, IN u32 loopcnt)
++{
++	u32	 i = 0, val = 0, n = 0, k = 0, j, point_index = 0;
++	u32	points1 = 0, psd_report = 0;
++	u32	start_p = 0, stop_p = 0, delta_freq_per_point = 156250;
++	u32    psd_center_freq = 20 * 10 ^ 6;
++	boolean outloop = false, scan , roam, is_sweep_ok = true;
++	u8	 flag = 0;
++	u32	tmp = 0, u32tmp1 = 0;
++	u32	wifi_original_channel = 1;
++
++	psd_scan->is_psd_running = true;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Start!!\n");
++	BTC_TRACE(trace_buf);
++
++	do {
++		switch (flag) {
++		case 0:  /* Get PSD parameters */
++		default:
++
++			psd_scan->psd_band_width = 40 * 1000000;
++			psd_scan->psd_point = points;
++			psd_scan->psd_start_base = points / 2;
++			psd_scan->psd_avg_num = avgnum;
++			psd_scan->real_cent_freq = cent_freq;
++			psd_scan->real_offset = offset;
++			psd_scan->real_span = span;
++
++
++			points1 = psd_scan->psd_point;
++			delta_freq_per_point = psd_scan->psd_band_width /
++					       psd_scan->psd_point;
++
++			/* PSD point setup */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffff0fff;
++
++			switch (psd_scan->psd_point) {
++			case 128:
++				val |= 0x0;
++				break;
++			case 256:
++			default:
++				val |= 0x00004000;
++				break;
++			case 512:
++				val |= 0x00008000;
++				break;
++			case 1024:
++				val |= 0x0000c000;
++				break;
++			}
++
++			switch (psd_scan->psd_avg_num) {
++			case 1:
++				val |= 0x0;
++				break;
++			case 8:
++				val |= 0x00001000;
++				break;
++			case 16:
++				val |= 0x00002000;
++				break;
++			case 32:
++			default:
++				val |= 0x00003000;
++				break;
++			}
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			flag = 1;
++			break;
++		case 1:	  /* calculate the PSD point index from freq/offset/span */
++			psd_center_freq = psd_scan->psd_band_width / 2 +
++					  offset * (1000000);
++
++			start_p = psd_scan->psd_start_base + (psd_center_freq -
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_start_point = start_p -
++						    psd_scan->psd_start_base;
++
++			stop_p = psd_scan->psd_start_base + (psd_center_freq +
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_stop_point = stop_p -
++						   psd_scan->psd_start_base - 1;
++
++			flag = 2;
++			break;
++		case 2:  /* set RF channel/BW/Mode */
++
++			/* set 3-wire off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val |= 0x00300000;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val &= 0xfeffffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause on */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x6f);
++
++			/* store WiFi original channel */
++			wifi_original_channel = btcoexist->btc_get_rf_reg(
++					btcoexist, BTC_RF_A, 0x18, 0x3ff);
++
++			/* Set RF channel */
++			if (cent_freq == 2484)
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++							  0x18, 0x3ff, 0xe);
++			else
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++					  0x18, 0x3ff, (cent_freq - 2412) / 5 +
++						  1); /* WiFi TRx Mask on */
++
++			/* save original RCK value */
++			u32tmp1 =  btcoexist->btc_get_rf_reg(
++					   btcoexist, BTC_RF_A, 0x1d, 0xfffff);
++
++			/* Enter debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x1);
++
++			/* Set RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, 0x2e);
++
++
++			/* Set  RF mode = Rx, RF Gain = 0x320a0 */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x0,
++						  0xfffff, 0x320a0);
++
++			while (1) {
++				if (k++ > BT_8703B_1ANT_ANTDET_SWEEPPOINT_DELAY)
++					break;
++			}
++			flag = 3;
++			break;
++		case 3:
++			psd_scan->psd_gen_count = 0;
++			for (j = 1; j <= loopcnt; j++) {
++
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_SCAN, &scan);
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_ROAM, &roam);
++
++				if (scan || roam) {
++					is_sweep_ok = false;
++					break;
++				}
++				memset(psd_scan->psd_report, 0,
++				       psd_scan->psd_point * sizeof(u32));
++				start_p = psd_scan->psd_start_point +
++					  psd_scan->psd_start_base;
++				stop_p = psd_scan->psd_stop_point +
++					 psd_scan->psd_start_base + 1;
++
++				i = start_p;
++				point_index = 0;
++
++				while (i < stop_p) {
++					if (i >= points1)
++						psd_report =
++							halbtc8703b1ant_psd_getdata(
++							btcoexist, i - points1);
++					else
++						psd_report =
++							halbtc8703b1ant_psd_getdata(
++								btcoexist, i);
++
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"Point=%d, psd_raw_data = 0x%08x\n",
++						    i, psd_report);
++					BTC_TRACE(trace_buf);
++					if (psd_report == 0)
++						tmp = 0;
++					else
++						/* tmp =  20*log10((double)psd_report); */
++						/* 20*log2(x)/log2(10), log2Base return theresult of the psd_report*100 */
++						tmp = 6 * halbtc8703b1ant_psd_log2base(
++							btcoexist, psd_report);
++
++					n = i - psd_scan->psd_start_base;
++					psd_scan->psd_report[n] =  tmp;
++
++
++					halbtc8703b1ant_psd_maxholddata(
++						btcoexist, j);
++
++					i++;
++
++				}
++
++				psd_scan->psd_gen_count = j;
++			}
++
++			flag = 100;
++			break;
++		case 99:	/* error */
++
++			outloop = true;
++			break;
++		case 100: /* recovery */
++
++			/* set 3-wire on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val &= 0xffcfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val |= 0x01000000;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause off */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x0);
++
++			/* PSD off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffbfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			/* restore RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, u32tmp1);
++
++			/* Exit debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x0);
++
++			/* restore WiFi original channel */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x18,
++						  0x3ff, wifi_original_channel);
++
++			outloop = true;
++			break;
++
++		}
++
++	} while (!outloop);
++
++
++
++	psd_scan->is_psd_running = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Stop!!\n");
++	BTC_TRACE(trace_buf);
++	return is_sweep_ok;
++
++}
++
++/* ************************************************************
++ * work around function start with wa_halbtc8703b1ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8703b1ant_
++ * ************************************************************ */
++void ex_halbtc8703b1ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x0;
++	u16 u16tmp = 0x0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx Execute 8703b 1-Ant PowerOn Setting xxxxxxxxxxxxxxxx!!\n");
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "Ant Det Finish = %s, Ant Det Number  = %d\n",
++		    (board_info->btdm_ant_det_finish ? "Yes" : "No"),
++		    board_info->btdm_ant_num_by_ant_det);
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = true;
++
++	/* enable BB, REG_SYS_FUNC_EN such that we can write BB/MAC reg correctly. */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x2);
++	btcoexist->btc_write_2byte(btcoexist, 0x2, u16tmp | BIT(0) | BIT(1));
++
++	/* set Path control owner to WiFi */
++	halbtc8703b1ant_ltecoex_pathcontrol_owner(btcoexist,
++			BT_8703B_1ANT_PCO_WLSIDE);
++
++	/* set GNT_BT to high */
++	halbtc8703b1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8703B_1ANT_SIG_STA_SET_TO_HIGH);
++	/* Set GNT_WL to low */
++	halbtc8703b1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8703B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8703B_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8703B_1ANT_SIG_STA_SET_TO_LOW);
++
++	/* set WLAN_ACT = 0 */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++	halbtc8703b1ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++	/* */
++	/* S0 or S1 setting and Local register setting(By the setting fw can get ant number, S0/S1, ... info) */
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++
++	u8tmp = 0;
++	board_info->btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++
++	if (btcoexist->chip_interface == BTC_INTF_USB)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60, u8tmp);
++
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********  0x70(MAC)/0x38/0x54 (Power-On) =0x%x/  0x%x/ 0x%x**********\n",
++		    btcoexist->btc_read_4byte(btcoexist, 0x70),
++		    halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x38),
++		    halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x54));
++	BTC_TRACE(trace_buf);
++
++
++}
++
++void ex_halbtc8703b1ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8703b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8703b1ant_init_hw_config(btcoexist, true, wifi_only);
++	btcoexist->stop_coex_dm = false;
++}
++
++void ex_halbtc8703b1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8703b1ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8703b1ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_stack_info		*stack_info = &btcoexist->stack_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fa_of_dm, fa_cck;
++	u32				fw_ver = 0, bt_patch_ver = 0;
++	static u8			pop_report_in_10s = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	if (btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	if (psd_scan->ant_det_try_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d",
++			   "Ant PG Num/ Mech/ Pos",
++			   board_info->pg_ant_num, board_info->btdm_ant_num,
++			   board_info->btdm_ant_pos);
++		CL_PRINTF(cli_buf);
++	} else {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d/ %d/ %d  (%d/%d/%d)",
++			   "Ant PG Num/ Mech(Ant_Det)/ Pos",
++			board_info->pg_ant_num, board_info->btdm_ant_num_by_ant_det,
++			   board_info->btdm_ant_pos,
++			psd_scan->ant_det_try_count, psd_scan->ant_det_fail_count,
++			   psd_scan->ant_det_result);
++		CL_PRINTF(cli_buf);
++
++		if (board_info->btdm_ant_det_finish) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++				   "Ant Det PSD Value",
++				   psd_scan->ant_det_peak_val);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %d",
++		   "BT stack/ hci ext ver",
++		   ((stack_info->profile_notified) ? "Yes" : "No"),
++		   stack_info->hci_version);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)/ %c",
++		   "Version Coex/ Fw/ Patch/ Cut",
++		   glcoex_ver_date_8703b_1ant, glcoex_ver_8703b_1ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver, coex_sta->cut_version + 65);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s/ %s",
++		   "WifibHiPri/ Ccklock/ CckEverLock",
++		   (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"),
++		   (coex_sta->cck_lock ? "Yes" : "No"),
++		   (coex_sta->cck_ever_lock ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	pop_report_in_10s++;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt/ popCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++			   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page")
++			   : ((BT_8703B_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8703B_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi - 100, coex_sta->bt_retry_cnt,
++		   coex_sta->pop_event_cnt);
++	CL_PRINTF(cli_buf);
++
++	if (pop_report_in_10s >= 5) {
++		coex_sta->pop_event_cnt = 0;
++		pop_report_in_10s = 0;
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d / %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP/Hi-Pri",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist,
++		   bt_link_info->bt_hi_pri_link_exist);
++	CL_PRINTF(cli_buf);
++
++	if (stack_info->profile_notified)
++		btcoexist->btc_disp_dbg_msg(btcoexist,
++					    BTC_DBG_DISP_BT_LINK_INFO);
++	else {
++		bt_info_ext = coex_sta->bt_info_ext;
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %s / %d",
++			   "Role/A2DP Rate/Bitpool",
++			   ((bt_link_info->slave_role) ? "Slave" : "Master"),
++			(bt_info_ext & BIT(0)) ? "BR" : "EDR", coex_sta->a2dp_bit_pool);
++		CL_PRINTF(cli_buf);
++	}
++
++
++	for (i = 0; i < BT_INFO_SRC_8703B_1ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8703b_1ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	if (btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[mechanisms] (before Manual)============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanisms]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "SM[LowPenaltyRA]",
++		   coex_dm->cur_low_penalty_ra);
++	CL_PRINTF(cli_buf);
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (%s,%s)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   (coex_dm->cur_ps_tdma_on ? "On" : "Off"),
++		   (coex_dm->auto_tdma_adjust ? "Adj" : "Fix"));
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "WL/BT Coex Table Type",
++		   coex_sta->coex_table_type);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x778/0x6cc/IgnWlanAct",
++		   u8tmp[0], u32tmp[0],  coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa0);
++	u32tmp[1] = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "LTE Coex Table W_L/B_L",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa8);
++	u32tmp[1] = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xac);
++	u32tmp[2] = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb0);
++	u32tmp[3] = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "LTE Break Table W_L/B_L/L_W/L_B",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff,
++		   u32tmp[2] & 0xffff, u32tmp[3] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %s",
++		   "LTE CoexOn/Path Ctrl Owner",
++		(int)((u32tmp[0] & BIT(7)) >> 7), ((u8tmp[0] & BIT(2)) ? "WL" : "BT"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "LTE 3Wire/OPMode/UART/UARTMode",
++		(int)((u32tmp[0] & BIT(6)) >> 6), (int)((u32tmp[0] & (BIT(5) | BIT(4))) >> 4),
++		   (int)((u32tmp[0] & BIT(3)) >> 3),
++		   (int)(u32tmp[0] & (BIT(2) | BIT(1) | BIT(0))));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s",
++		   "GNT_WL_SWCtrl/GNT_BT_SWCtrl/Dbg",
++		(int)((u32tmp[0] & BIT(12)) >> 12), (int)((u32tmp[0] & BIT(14)) >> 14),
++		   ((u8tmp[0] & BIT(3)) ? "On" : "Off"));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8703b1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "GNT_WL/GNT_BT/LTE_Busy/UART_Busy",
++		(int)((u32tmp[0] & BIT(2)) >> 2), (int)((u32tmp[0] & BIT(3)) >> 3),
++		   (int)((u32tmp[0] & BIT(1)) >> 1), (int)(u32tmp[0] & BIT(0)));
++	CL_PRINTF(cli_buf);
++
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x4c6);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x4c6[4]/0x40[5] (WL/BT PTA)",
++		(int)((u8tmp[0] & BIT(4)) >> 4), (int)((u8tmp[1] & BIT(5)) >> 5));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x953);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ %s",
++		   "0x550(bcn ctrl)/0x522/4-RxAGC",
++		   u32tmp[0], u8tmp[0], (u8tmp[1] & 0x2) ? "On" : "Off");
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xda0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xda4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0xda8);
++	u32tmp[3] = btcoexist->btc_read_4byte(btcoexist, 0xcf0);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5b);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++
++	fa_of_dm = ((u32tmp[0] & 0xffff0000) >> 16) + ((u32tmp[1] & 0xffff0000)
++			>> 16) + (u32tmp[1] & 0xffff) + (u32tmp[2] & 0xffff) +
++		   ((u32tmp[3] & 0xffff0000) >> 16) + (u32tmp[3] &
++				   0xffff) ;
++	fa_cck = (u8tmp[0] << 8) + u8tmp[1];
++
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0xc50/OFDM-CCA/OFDM-FA/CCK-FA",
++		   u32tmp[1] & 0xff, u32tmp[0] & 0xffff, fa_of_dm, fa_cck);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++
++	halbtc8703b1ant_read_score_board(btcoexist,	&u16tmp[0]);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %04x",
++		   "ScoreBoard[14:0] (from BT)", u16tmp[0]);
++	CL_PRINTF(cli_buf);
++
++
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8703b1ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++		coex_sta->under_lps = false;
++
++		/* Write WL "Active" in Score-board for LPS off */
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, false);
++
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, true);
++		halbtc8703b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, true);
++
++		halbtc8703b1ant_init_hw_config(btcoexist, false, false);
++		halbtc8703b1ant_init_coex_dm(btcoexist);
++		halbtc8703b1ant_query_bt_info(btcoexist);
++
++		coex_sta->under_ips = false;
++	}
++}
++
++void ex_halbtc8703b1ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++		coex_sta->under_ips = false;
++
++		if (coex_sta->force_lps_on == true) { /* LPS No-32K */
++			/* Write WL "Active" in Score-board for PS-TDMA */
++			halbtc8703b1ant_post_activestate_to_bt(btcoexist, true);
++
++		} else { /* LPS-32K, need check if this h2c 0x71 can work?? (2015/08/28) */
++			/* Write WL "Non-Active" in Score-board for Native-PS */
++			halbtc8703b1ant_post_activestate_to_bt(btcoexist, false);
++
++		}
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++
++
++		/* Write WL "Active" in Score-board for LPS off */
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, true);
++
++	}
++}
++
++void ex_halbtc8703b1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	boolean wifi_connected = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	halbtc8703b1ant_query_bt_info(btcoexist);
++
++	if (BTC_SCAN_START == type) {
++
++		coex_sta->wifi_is_high_pri_task = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, true);
++		halbtc8703b1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++					8);
++
++		/* Force antenna setup for no scan result issue */
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8703b1ant_action_wifi_not_connected_scan(btcoexist);
++		else	/* wifi is connected */
++			halbtc8703b1ant_action_wifi_connected_scan(btcoexist);
++
++	} else {
++
++		coex_sta->wifi_is_high_pri_task = false;
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], SCAN FINISH notify  (Scan-AP = %d)\n", coex_sta->scan_ap_num);
++		BTC_TRACE(trace_buf);
++
++		if (!wifi_connected)
++			halbtc8703b1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8703b1ant_action_wifi_connected(btcoexist);
++	}
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], SCAN START Notify() end\n");
++	BTC_TRACE(trace_buf);
++
++}
++
++void ex_halbtc8703b1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	boolean	wifi_connected = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	if (BTC_ASSOCIATE_START == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, true);
++		halbtc8703b1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++					8);
++
++		/* Force antenna setup for no scan result issue */
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++		/* psd_scan->ant_det_is_ant_det_available = TRUE; */
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++
++		halbtc8703b1ant_action_wifi_not_connected_asso_auth(btcoexist);
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++
++		if (!wifi_connected) /* non-connected scan */
++			halbtc8703b1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8703b1ant_action_wifi_connected(btcoexist);
++	}
++
++}
++
++void ex_halbtc8703b1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean			wifi_under_b_mode = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_MEDIA_CONNECT == type) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, true);
++		halbtc8703b1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++					8);
++
++		/* Force antenna setup for no scan result issue */
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++
++		/* Set CCK Tx/Rx high Pri except 11b mode */
++		if (wifi_under_b_mode) {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x00); /* CCK Rx */
++		} else {
++			/* btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x10); */ /*CCK Tx */
++			/* btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x10); */ /*CCK Rx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x10); /* CCK Rx */
++		}
++
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, false);
++
++		btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x0); /* CCK Tx */
++		btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x0); /* CCK Rx */
++
++		coex_sta->cck_ever_lock = false;
++	}
++
++	halbtc8703b1ant_update_wifi_channel_info(btcoexist, type);
++
++}
++
++void ex_halbtc8703b1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean	under_4way = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (under_4way) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], specific Packet ---- under_4way!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	} else if (BTC_PACKET_ARP == type) {
++
++		coex_dm->arp_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet ARP notify -cnt = %d\n", coex_dm->arp_cnt);
++		BTC_TRACE(trace_buf);
++
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet DHCP or EAPOL notify [Type = %d]\n", type);
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	}
++
++	if (coex_sta->wifi_is_high_pri_task)
++		halbtc8703b1ant_action_wifi_connected_specific_packet(btcoexist);
++}
++
++void ex_halbtc8703b1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8				bt_info = 0;
++	u8				i, rsp_source = 0;
++	boolean				wifi_connected = false;
++	boolean				bt_busy = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8703B_1ANT_MAX)
++		rsp_source = BT_INFO_SRC_8703B_1ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (BT_INFO_SRC_8703B_1ANT_WIFI_FW != rsp_source) {
++
++		/* if 0xff, it means BT is under WHCK test */
++		if (bt_info == 0xff)
++			coex_sta->bt_whck_test = true;
++		else
++			coex_sta->bt_whck_test = false;
++
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x20)
++			coex_sta->c2h_bt_page = true;
++		else
++			coex_sta->c2h_bt_page = false;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x80)
++			coex_sta->bt_create_connection = true;
++		else
++			coex_sta->bt_create_connection = false;
++
++		/* unit: %, value-100 to translate to unit: dBm  */
++		coex_sta->bt_rssi = coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		/* coex_sta->bt_info_c2h[rsp_source][3]*2+10; */
++
++		if ((coex_sta->bt_info_c2h[rsp_source][1] & 0x49) == 0x49) {
++			coex_sta->a2dp_bit_pool =
++				coex_sta->bt_info_c2h[rsp_source][6];
++		} else
++			coex_sta->a2dp_bit_pool = 0;
++
++		if (coex_sta->bt_info_c2h[rsp_source][1] & 0x9)
++			coex_sta->acl_busy = true;
++		else
++			coex_sta->acl_busy = false;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++
++		if ((!btcoexist->manual_control) && (!btcoexist->stop_coex_dm)) {
++
++			/*  Re-Init */
++			if (coex_sta->bt_info_ext & BIT(1)) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++				BTC_TRACE(trace_buf);
++				btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++						   &wifi_connected);
++				if (wifi_connected)
++					halbtc8703b1ant_update_wifi_channel_info(btcoexist,
++							BTC_MEDIA_CONNECT);
++				else
++					halbtc8703b1ant_update_wifi_channel_info(btcoexist,
++							BTC_MEDIA_DISCONNECT);
++			}
++
++			/*  If Ignore_WLanAct && not SetUp_Link */
++			if ((coex_sta->bt_info_ext & BIT(3)) && (!(coex_sta->bt_info_ext & BIT(2)))) {
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8703b1ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		}
++
++		/* check BIT2 first ==> check if bt is under inquiry or page scan */
++		if (bt_info & BT_INFO_8703B_1ANT_B_INQ_PAGE)
++			coex_sta->c2h_bt_inquiry_page = true;
++		else
++			coex_sta->c2h_bt_inquiry_page = false;
++
++	}
++
++	coex_sta->num_of_profile = 0;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8703B_1ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++
++		coex_sta->bt_hi_pri_link_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8703B_1ANT_B_FTP) {
++			coex_sta->pan_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8703B_1ANT_B_A2DP) {
++			coex_sta->a2dp_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8703B_1ANT_B_HID) {
++			coex_sta->hid_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8703B_1ANT_B_SCO_ESCO) {
++			coex_sta->sco_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->sco_exist = false;
++
++	}
++
++
++
++	halbtc8703b1ant_update_bt_link_info(btcoexist);
++
++	bt_info = bt_info &
++		0x1f;  /* mask profile bit for connect-ilde identification ( for CSR case: A2DP idle --> 0x41) */
++
++	if (!(bt_info & BT_INFO_8703B_1ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8703B_1ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8703B_1ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8703B_1ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8703B_1ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8703B_1ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8703B_1ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8703B_1ANT_B_ACL_BUSY) {
++		if (BT_8703B_1ANT_BT_STATUS_ACL_BUSY != coex_dm->bt_status)
++			coex_dm->auto_tdma_adjust = false;
++		coex_dm->bt_status = BT_8703B_1ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8703B_1ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8703B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8703B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8703B_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		bt_busy = true;
++	else
++		bt_busy = false;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), No run_coexist_mechanism return for Manual CTRL<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(),  No run_coexist_mechanism return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	/*  don't run coex mechanism while receve BTInfo if GNT_WL/GNT_BT control by SW */
++	if (!coex_sta->gnt_control_by_PTA)
++		return;
++
++	halbtc8703b1ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8703b1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RF Status notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_RF_ON == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wl_rf_off_on_event = true;
++		btcoexist->stop_coex_dm = false;
++
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, true);
++		halbtc8703b1ant_post_onoffState_to_bt(btcoexist, true);
++
++		/*	halbtc8703b1ant_init_hw_config(btcoexist, false, false); */
++	} else if (BTC_RF_OFF == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, false);
++		halbtc8703b1ant_post_onoffState_to_bt(btcoexist, false);
++
++		halbtc8703b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, true);
++
++		btcoexist->stop_coex_dm = true;
++		coex_sta->wl_rf_off_on_event = false;
++
++	}
++}
++
++void ex_halbtc8703b1ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8703b1ant_post_activestate_to_bt(btcoexist, false);
++	halbtc8703b1ant_post_onoffState_to_bt(btcoexist, false);
++
++	halbtc8703b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++	halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, FORCE_EXEC,
++				     false, true);
++
++	ex_halbtc8703b1ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	halbtc8703b1ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++	btcoexist->stop_coex_dm = true;
++}
++
++void ex_halbtc8703b1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, false);
++		halbtc8703b1ant_post_onoffState_to_bt(btcoexist, false);
++
++		halbtc8703b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8703b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, true);
++
++		btcoexist->stop_coex_dm = true;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++		halbtc8703b1ant_post_activestate_to_bt(btcoexist, true);
++		halbtc8703b1ant_post_onoffState_to_bt(btcoexist, true);
++
++		btcoexist->stop_coex_dm = false;
++	}
++}
++
++void ex_halbtc8703b1ant_coex_dm_reset(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], *****************Coex DM Reset*****************\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8703b1ant_init_hw_config(btcoexist, false, false);
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0); */
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x2, 0xfffff, 0x0); */
++	halbtc8703b1ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8703b1ant_periodical(IN struct btc_coexist *btcoexist)
++{
++
++#if (BT_AUTO_REPORT_ONLY_8703B_1ANT == 0)
++	halbtc8703b1ant_query_bt_info(btcoexist);
++#endif
++
++	halbtc8703b1ant_monitor_bt_ctr(btcoexist);
++	halbtc8703b1ant_monitor_wifi_ctr(btcoexist);
++
++	halbtc8703b1ant_monitor_bt_enable_disable(btcoexist);
++
++	/* for 4-way, DHCP, EAPOL packet */
++	if (coex_sta->specific_pkt_period_cnt > 0) {
++
++		coex_sta->specific_pkt_period_cnt--;
++
++		if ((coex_sta->specific_pkt_period_cnt == 0) && (coex_sta->wifi_is_high_pri_task))
++			coex_sta->wifi_is_high_pri_task = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ***************** Hi-Pri Task = %s*****************\n", (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"));
++		BTC_TRACE(trace_buf);
++
++	}
++
++	if (halbtc8703b1ant_is_wifibt_status_changed(btcoexist))
++		halbtc8703b1ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8703b1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++	/* No Antenna Detection required because 8730b is only 1-Ant */
++}
++
++void ex_halbtc8703b1ant_antenna_isolation(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++
++}
++
++void ex_halbtc8703b1ant_psd_scan(IN struct btc_coexist *btcoexist,
++		 IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++
++}
++
++void ex_halbtc8703b1ant_display_ant_detection(IN struct btc_coexist *btcoexist)
++{
++
++}
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8703b1Ant.h b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8703b1Ant.h
+new file mode 100644
+index 0000000..cf167a5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8703b1Ant.h
+@@ -0,0 +1,348 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8703B_SUPPORT == 1)
++/* *******************************************
++ * The following is for 8703B 1ANT BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8703B_1ANT				1
++#define BT_8703B_1ANT_ENABLE_GNTBT_TO_GPIO14		0
++
++#define	BT_INFO_8703B_1ANT_B_FTP						BIT(7)
++#define	BT_INFO_8703B_1ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8703B_1ANT_B_HID						BIT(5)
++#define	BT_INFO_8703B_1ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8703B_1ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8703B_1ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8703B_1ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8703B_1ANT_B_CONNECTION				BIT(0)
++
++#define	BT_INFO_8703B_1ANT_A2DP_BASIC_RATE(_BT_INFO_EXT_)	\
++	(((_BT_INFO_EXT_&BIT(0))) ? true : false)
++
++#define	BTC_RSSI_COEX_THRESH_TOL_8703B_1ANT		2
++
++#define  BT_8703B_1ANT_WIFI_NOISY_THRESH							50   /* max: 255 */
++
++/* for Antenna detection */
++#define	BT_8703B_1ANT_ANTDET_PSDTHRES_BACKGROUND					50
++#define	BT_8703B_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION				70
++#define	BT_8703B_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION			55
++#define	BT_8703B_1ANT_ANTDET_PSDTHRES_1ANT							35
++#define	BT_8703B_1ANT_ANTDET_RETRY_INTERVAL							10	/* retry timer if ant det is fail, unit: second */
++#define	BT_8703B_1ANT_ANTDET_SWEEPPOINT_DELAY							40000
++#define	BT_8703B_1ANT_ANTDET_ENABLE									0
++#define	BT_8703B_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE				0
++
++#define	BT_8703B_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT		30000
++
++enum bt_8703b_1ant_signal_state {
++	BT_8703B_1ANT_SIG_STA_SET_TO_LOW		= 0x0,
++	BT_8703B_1ANT_SIG_STA_SET_BY_HW		= 0x0,
++	BT_8703B_1ANT_SIG_STA_SET_TO_HIGH		= 0x1,
++	BT_8703B_1ANT_SIG_STA_MAX
++};
++
++enum bt_8703b_1ant_path_ctrl_owner {
++	BT_8703B_1ANT_PCO_BTSIDE		= 0x0,
++	BT_8703B_1ANT_PCO_WLSIDE	= 0x1,
++	BT_8703B_1ANT_PCO_MAX
++};
++
++enum bt_8703b_1ant_gnt_ctrl_type {
++	BT_8703B_1ANT_GNT_TYPE_CTRL_BY_PTA		= 0x0,
++	BT_8703B_1ANT_GNT_TYPE_CTRL_BY_SW		= 0x1,
++	BT_8703B_1ANT_GNT_TYPE_MAX
++};
++
++enum bt_8703b_1ant_gnt_ctrl_block {
++	BT_8703B_1ANT_GNT_BLOCK_RFC_BB		= 0x0,
++	BT_8703B_1ANT_GNT_BLOCK_RFC			= 0x1,
++	BT_8703B_1ANT_GNT_BLOCK_BB			= 0x2,
++	BT_8703B_1ANT_GNT_BLOCK_MAX
++};
++
++enum bt_8703b_1ant_lte_coex_table_type {
++	BT_8703B_1ANT_CTT_WL_VS_LTE			= 0x0,
++	BT_8703B_1ANT_CTT_BT_VS_LTE			= 0x1,
++	BT_8703B_1ANT_CTT_MAX
++};
++
++enum bt_8703b_1ant_lte_break_table_type {
++	BT_8703B_1ANT_LBTT_WL_BREAK_LTE			= 0x0,
++	BT_8703B_1ANT_LBTT_BT_BREAK_LTE				= 0x1,
++	BT_8703B_1ANT_LBTT_LTE_BREAK_WL			= 0x2,
++	BT_8703B_1ANT_LBTT_LTE_BREAK_BT				= 0x3,
++	BT_8703B_1ANT_LBTT_MAX
++};
++
++enum bt_info_src_8703b_1ant {
++	BT_INFO_SRC_8703B_1ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8703B_1ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8703B_1ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8703B_1ANT_MAX
++};
++
++enum bt_8703b_1ant_bt_status {
++	BT_8703B_1ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8703B_1ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8703B_1ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8703B_1ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8703B_1ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8703B_1ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8703B_1ANT_BT_STATUS_MAX
++};
++
++enum bt_8703b_1ant_wifi_status {
++	BT_8703B_1ANT_WIFI_STATUS_NON_CONNECTED_IDLE				= 0x0,
++	BT_8703B_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN		= 0x1,
++	BT_8703B_1ANT_WIFI_STATUS_CONNECTED_SCAN					= 0x2,
++	BT_8703B_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT				= 0x3,
++	BT_8703B_1ANT_WIFI_STATUS_CONNECTED_IDLE					= 0x4,
++	BT_8703B_1ANT_WIFI_STATUS_CONNECTED_BUSY					= 0x5,
++	BT_8703B_1ANT_WIFI_STATUS_MAX
++};
++
++enum bt_8703b_1ant_coex_algo {
++	BT_8703B_1ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8703B_1ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8703B_1ANT_COEX_ALGO_HID				= 0x2,
++	BT_8703B_1ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8703B_1ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8703B_1ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8703B_1ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8703B_1ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8703B_1ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8703B_1ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8703B_1ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8703B_1ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++struct coex_dm_8703b_1ant {
++	/* hw setting */
++	u8		pre_ant_pos_type;
++	u8		cur_ant_pos_type;
++	/* fw mechanism */
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	/* sw mechanism */
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++	u32		arp_cnt;
++
++	u8		error_condition;
++};
++
++struct coex_sta_8703b_1ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++	boolean					bt_hi_pri_link_exist;
++	u8					num_of_profile;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					specific_pkt_period_cnt;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	s8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8703B_1ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8703B_1ANT_MAX];
++	boolean					bt_whck_test;
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_page;				/* Add for win8.1 page out issue */
++	boolean					wifi_is_high_pri_task;		/* Add for win8.1 page out issue */
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	boolean					cck_lock;
++	boolean					pre_ccklock;
++	boolean					cck_ever_lock;
++	u8					coex_table_type;
++
++	boolean					force_lps_on;
++	u32					wrong_profile_notification;
++
++	boolean					concurrent_rx_mode_on;
++
++	u16					score_board;
++
++	u8					a2dp_bit_pool;
++	u8					cut_version;
++	boolean				acl_busy;
++	boolean				wl_rf_off_on_event;
++	boolean				bt_create_connection;
++	boolean				gnt_control_by_PTA;
++};
++
++#define  BT_8703B_1ANT_ANTDET_PSD_POINTS			256	/* MAX:1024 */
++#define  BT_8703B_1ANT_ANTDET_PSD_AVGNUM			1	/* MAX:3 */
++#define	BT_8703B_1ANT_ANTDET_BUF_LEN				16
++
++struct psdscan_sta_8703b_1ant {
++
++	u32			ant_det_bt_le_channel;  /* BT LE Channel ex:2412 */
++	u32			ant_det_bt_tx_time;
++	u32			ant_det_pre_psdscan_peak_val;
++	boolean			ant_det_is_ant_det_available;
++	u32			ant_det_psd_scan_peak_val;
++	boolean			ant_det_is_btreply_available;
++	u32			ant_det_psd_scan_peak_freq;
++
++	u8			ant_det_result;
++	u8			ant_det_peak_val[BT_8703B_1ANT_ANTDET_BUF_LEN];
++	u8			ant_det_peak_freq[BT_8703B_1ANT_ANTDET_BUF_LEN];
++	u32			ant_det_try_count;
++	u32			ant_det_fail_count;
++	u32			ant_det_inteval_count;
++	u32			ant_det_thres_offset;
++
++	u32			real_cent_freq;
++	s32			real_offset;
++	u32			real_span;
++
++	u32			psd_band_width;  /* unit: Hz */
++	u32			psd_point;		/* 128/256/512/1024 */
++	u32			psd_report[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_report_max_hold[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_start_point;
++	u32			psd_stop_point;
++	u32			psd_max_value_point;
++	u32			psd_max_value;
++	u32			psd_start_base;
++	u32			psd_avg_num;	/* 1/8/16/32 */
++	u32			psd_gen_count;
++	boolean			is_psd_running;
++	boolean			is_psd_show_max_only;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8703b1ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8703b1ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8703b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8703b1ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8703b1ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8703b1ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8703b1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8703b1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8703b1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8703b1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8703b1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8703b1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8703b1ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8703b1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8703b1ant_coex_dm_reset(IN struct btc_coexist *btcoexist);
++void ex_halbtc8703b1ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8703b1ant_display_coex_info(IN struct btc_coexist *btcoexist);
++void ex_halbtc8703b1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8703b1ant_antenna_isolation(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++
++void ex_halbtc8703b1ant_psd_scan(IN struct btc_coexist *btcoexist,
++		 IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8703b1ant_display_ant_detection(IN struct btc_coexist *btcoexist);
++
++#else
++#define	ex_halbtc8703b1ant_power_on_setting(btcoexist)
++#define	ex_halbtc8703b1ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8703b1ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8703b1ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8703b1ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8703b1ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8703b1ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8703b1ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8703b1ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8703b1ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8703b1ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8703b1ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8703b1ant_halt_notify(btcoexist)
++#define	ex_halbtc8703b1ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8703b1ant_coex_dm_reset(btcoexist)
++#define	ex_halbtc8703b1ant_periodical(btcoexist)
++#define	ex_halbtc8703b1ant_display_coex_info(btcoexist)
++#define	ex_halbtc8703b1ant_antenna_detection(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8703b1ant_antenna_isolation(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8703b1ant_psd_scan(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8703b1ant_display_ant_detection(btcoexist)
++
++#endif
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723a1Ant.c b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723a1Ant.c
+new file mode 100644
+index 0000000..db5b42e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723a1Ant.c
+@@ -0,0 +1,1544 @@
++//============================================================
++// Description:
++//
++// This file is for RTL8723A Co-exist mechanism
++//
++// History
++// 2012/08/22 Cosa first check in.
++// 2012/11/14 Cosa Revise for 8723A 1Ant out sourcing.
++//
++//============================================================
++
++//============================================================
++// include files
++//============================================================
++#include "Mp_Precomp.h"
++
++#if WPP_SOFTWARE_TRACE
++#include "HalBtc8723a1Ant.tmh"
++#endif
++
++#if(BT_30_SUPPORT == 1)
++//============================================================
++// Global variables, these are static variables
++//============================================================
++static COEX_DM_8723A_1ANT	GLCoexDm8723a1Ant;
++static PCOEX_DM_8723A_1ANT 	pCoexDm=&GLCoexDm8723a1Ant;
++static COEX_STA_8723A_1ANT	GLCoexSta8723a1Ant;
++static PCOEX_STA_8723A_1ANT	pCoexSta=&GLCoexSta8723a1Ant;
++
++const char *const GLBtInfoSrc8723a1Ant[]={
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++//============================================================
++// local function proto type if needed
++//============================================================
++//============================================================
++// local function start with halbtc8723a1ant_
++//============================================================
++VOID
++halbtc8723a1ant_Reg0x550Bit3(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bSet
++	)
++{
++	u1Byte	u1tmp=0;
++	
++	u1tmp = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x550);
++	if(bSet)
++	{
++		u1tmp |= BIT3;
++	}
++	else
++	{
++		u1tmp &= ~BIT3;
++	}
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x550, u1tmp);
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], set 0x550[3]=%d\n", (bSet? 1:0)));
++}
++
++VOID
++halbtc8723a1ant_NotifyFwScan(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			scanType
++	)
++{
++	u1Byte			H2C_Parameter[1] ={0};
++	
++	if(BTC_SCAN_START == scanType)
++		H2C_Parameter[0] = 0x1;
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Notify FW for wifi scan, write 0x3b=0x%x\n", 
++		H2C_Parameter[0]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x3b, 1, H2C_Parameter);
++}
++
++VOID
++halbtc8723a1ant_QueryBtInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte			H2C_Parameter[1] ={0};
++
++	pCoexSta->bC2hBtInfoReqSent = TRUE;
++
++	H2C_Parameter[0] |= BIT0;	// trigger
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Query Bt Info, FW write 0x38=0x%x\n", 
++		H2C_Parameter[0]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x38, 1, H2C_Parameter);
++}
++
++VOID
++halbtc8723a1ant_SetSwRfRxLpfCorner(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bRxRfShrinkOn
++	)
++{
++	if(bRxRfShrinkOn)
++	{
++		//Shrink RF Rx LPF corner
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Shrink RF Rx LPF corner!!\n"));
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xfffff, 0xf0ff7);
++	}
++	else
++	{
++		//Resume RF Rx LPF corner
++		// After initialized, we can use pCoexDm->btRf0x1eBackup
++		if(pBtCoexist->bInitilized)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Resume RF Rx LPF corner!!\n"));
++			pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xfffff, pCoexDm->btRf0x1eBackup);
++		}
++	}
++}
++
++VOID
++halbtc8723a1ant_RfShrink(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bRxRfShrinkOn
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn Rx RF Shrink = %s\n",  
++		(bForceExec? "force to":""), ((bRxRfShrinkOn)? "ON":"OFF")));
++	pCoexDm->bCurRfRxLpfShrink = bRxRfShrinkOn;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreRfRxLpfShrink == pCoexDm->bCurRfRxLpfShrink) 
++			return;
++	}
++	halbtc8723a1ant_SetSwRfRxLpfCorner(pBtCoexist, pCoexDm->bCurRfRxLpfShrink);
++
++	pCoexDm->bPreRfRxLpfShrink = pCoexDm->bCurRfRxLpfShrink;
++}
++
++VOID
++halbtc8723a1ant_SetSwPenaltyTxRateAdaptive(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bLowPenaltyRa
++	)
++{
++	u1Byte	tmpU1;
++
++	tmpU1 = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x4fd);
++	tmpU1 |= BIT0;
++	if(bLowPenaltyRa)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Tx rate adaptive, set low penalty!!\n"));
++		tmpU1 &= ~BIT2;
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Tx rate adaptive, set normal!!\n"));
++		tmpU1 |= BIT2;
++	}
++
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x4fd, tmpU1);
++}
++
++VOID
++halbtc8723a1ant_LowPenaltyRa(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bLowPenaltyRa
++	)
++{
++	return;
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn LowPenaltyRA = %s\n",  
++		(bForceExec? "force to":""), ((bLowPenaltyRa)? "ON":"OFF")));
++	pCoexDm->bCurLowPenaltyRa = bLowPenaltyRa;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreLowPenaltyRa == pCoexDm->bCurLowPenaltyRa) 
++			return;
++	}
++	halbtc8723a1ant_SetSwPenaltyTxRateAdaptive(pBtCoexist, pCoexDm->bCurLowPenaltyRa);
++
++	pCoexDm->bPreLowPenaltyRa = pCoexDm->bCurLowPenaltyRa;
++}
++
++VOID
++halbtc8723a1ant_SetCoexTable(
++	IN	PBTC_COEXIST	pBtCoexist,
++	IN	u4Byte		val0x6c0,
++	IN	u4Byte		val0x6c8,
++	IN	u1Byte		val0x6cc
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], set coex table, set 0x6c0=0x%x\n", val0x6c0));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c0, val0x6c0);
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], set coex table, set 0x6c8=0x%x\n", val0x6c8));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c8, val0x6c8);
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], set coex table, set 0x6cc=0x%x\n", val0x6cc));
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x6cc, val0x6cc);
++}
++
++VOID
++halbtc8723a1ant_CoexTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	u4Byte			val0x6c0,
++	IN	u4Byte			val0x6c8,
++	IN	u1Byte			val0x6cc
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s write Coex Table 0x6c0=0x%x, 0x6c8=0x%x, 0x6cc=0x%x\n", 
++		(bForceExec? "force to":""), val0x6c0, val0x6c8, val0x6cc));
++	pCoexDm->curVal0x6c0 = val0x6c0;
++	pCoexDm->curVal0x6c8 = val0x6c8;
++	pCoexDm->curVal0x6cc = val0x6cc;
++
++	if(!bForceExec)
++	{	
++		if( (pCoexDm->preVal0x6c0 == pCoexDm->curVal0x6c0) &&
++			(pCoexDm->preVal0x6c8 == pCoexDm->curVal0x6c8) &&
++			(pCoexDm->preVal0x6cc == pCoexDm->curVal0x6cc) )
++			return;
++	}
++	halbtc8723a1ant_SetCoexTable(pBtCoexist, val0x6c0, val0x6c8, val0x6cc);
++
++	pCoexDm->preVal0x6c0 = pCoexDm->curVal0x6c0;
++	pCoexDm->preVal0x6c8 = pCoexDm->curVal0x6c8;
++	pCoexDm->preVal0x6cc = pCoexDm->curVal0x6cc;
++}
++
++VOID
++halbtc8723a1ant_SetFwIgnoreWlanAct(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bEnable
++	)
++{
++	u1Byte			H2C_Parameter[1] ={0};
++		
++	if(bEnable)
++	{
++		H2C_Parameter[0] |= BIT0;		// function enable
++	}
++	
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], set FW for BT Ignore Wlan_Act, FW write 0x25=0x%x\n", 
++		H2C_Parameter[0]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x25, 1, H2C_Parameter);	
++}
++
++VOID
++halbtc8723a1ant_IgnoreWlanAct(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bEnable
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn Ignore WlanAct %s\n", 
++		(bForceExec? "force to":""), (bEnable? "ON":"OFF")));
++	pCoexDm->bCurIgnoreWlanAct = bEnable;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreIgnoreWlanAct == pCoexDm->bCurIgnoreWlanAct)
++			return;
++	}
++	halbtc8723a1ant_SetFwIgnoreWlanAct(pBtCoexist, bEnable);
++
++	pCoexDm->bPreIgnoreWlanAct = pCoexDm->bCurIgnoreWlanAct;
++}
++
++VOID
++halbtc8723a1ant_SetFwPstdma(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type,
++	IN	u1Byte			byte1,
++	IN	u1Byte			byte2,
++	IN	u1Byte			byte3,
++	IN	u1Byte			byte4,
++	IN	u1Byte			byte5
++	)
++{
++	u1Byte			H2C_Parameter[5] ={0};
++	u1Byte			realByte1=byte1, realByte5=byte5;
++	BOOLEAN			bApEnable=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE, &bApEnable);
++
++	// byte1[1:0] != 0 means enable pstdma
++	// for 2Ant bt coexist, if byte1 != 0 means enable pstdma
++	if(byte1)
++	{
++		if(bApEnable)
++		{
++			if(type != 5 && type != 12)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], FW for 1Ant AP mode\n"));
++				realByte1 &= ~BIT4;
++				realByte1 |= BIT5;
++
++				realByte5 |= BIT5;
++				realByte5 &= ~BIT6;
++			}
++		}
++	}
++	H2C_Parameter[0] = realByte1;	
++	H2C_Parameter[1] = byte2;	
++	H2C_Parameter[2] = byte3;
++	H2C_Parameter[3] = byte4;
++	H2C_Parameter[4] = realByte5;
++
++	pCoexDm->psTdmaPara[0] = realByte1;
++	pCoexDm->psTdmaPara[1] = byte2;
++	pCoexDm->psTdmaPara[2] = byte3;
++	pCoexDm->psTdmaPara[3] = byte4;
++	pCoexDm->psTdmaPara[4] = realByte5;
++	
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], FW write 0x3a(5bytes)=0x%x%08x\n", 
++		H2C_Parameter[0], 
++		H2C_Parameter[1]<<24|H2C_Parameter[2]<<16|H2C_Parameter[3]<<8|H2C_Parameter[4]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x3a, 5, H2C_Parameter);
++}
++
++VOID
++halbtc8723a1ant_PsTdma(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bTurnOn,
++	IN	u1Byte			type
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn %s PS TDMA, type=%d\n", 
++		(bForceExec? "force to":""), (bTurnOn? "ON":"OFF"), type));		
++	pCoexDm->bCurPsTdmaOn = bTurnOn;
++	pCoexDm->curPsTdma = type;
++
++	if(!bForceExec)
++	{
++		if( (pCoexDm->bPrePsTdmaOn == pCoexDm->bCurPsTdmaOn) &&
++			(pCoexDm->prePsTdma == pCoexDm->curPsTdma) )
++			return;
++	}	
++	if(pCoexDm->bCurPsTdmaOn)
++	{
++		switch(pCoexDm->curPsTdma)
++		{
++			case 1:
++			default:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0x1a, 0x1a, 0x0, 0x40);
++				break;
++			case 2:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0x12, 0x12, 0x0, 0x40);
++				break;
++			case 3:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x93, 0x3f, 0x3, 0x10, 0x40);
++				break;
++			case 4:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x93, 0x15, 0x3, 0x10, 0x0);
++				break;
++			case 5:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0xa9, 0x15, 0x3, 0x35, 0xc0);
++				break;
++			
++			case 8: 
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x93, 0x25, 0x3, 0x10, 0x0);
++				break;
++			case 9: 
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0xa, 0xa, 0x0, 0x40);
++				break;
++			case 10:	
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0xa, 0xa, 0x0, 0x40);
++				break;
++			case 11:	
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0x5, 0x5, 0x0, 0x40);
++				break;
++			case 12:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0xa9, 0xa, 0x3, 0x15, 0xc0);
++				break;
++	
++			case 18:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x93, 0x25, 0x3, 0x10, 0x0);
++				break;			
++
++			case 20:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0x2a, 0x2a, 0x0, 0x0);
++				break;
++			case 21:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x93, 0x20, 0x3, 0x10, 0x40);
++				break;
++			case 22:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0x1a, 0x1a, 0x2, 0x40);
++				break;
++			case 23:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0x12, 0x12, 0x2, 0x40);
++				break;
++			case 24:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0xa, 0xa, 0x2, 0x40);
++				break;
++			case 25:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0x5, 0x5, 0x2, 0x40);
++				break;
++			case 26:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x93, 0x25, 0x3, 0x10, 0x0);
++				break;
++			case 27:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x13, 0x5, 0x5, 0x2, 0x40);
++				break;
++			case 28:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x3, 0x2f, 0x2f, 0x0, 0x0);
++				break;
++
++		}
++	}
++	else
++	{
++		// disable PS tdma
++		switch(pCoexDm->curPsTdma)
++		{
++			case 8:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x8, 0x0, 0x0, 0x0, 0x0);		
++				break;
++			case 0:
++			default:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x0, 0x0, 0x0, 0x0, 0x0);
++				pBtCoexist->fBtcWrite2Byte(pBtCoexist, 0x860, 0x210);
++				break;
++			case 9:
++				halbtc8723a1ant_SetFwPstdma(pBtCoexist, type, 0x0, 0x0, 0x0, 0x0, 0x0);
++				pBtCoexist->fBtcWrite2Byte(pBtCoexist, 0x860, 0x110);
++				break;
++
++		}
++	}
++
++	// update pre state
++	pCoexDm->bPrePsTdmaOn = pCoexDm->bCurPsTdmaOn;
++	pCoexDm->prePsTdma = pCoexDm->curPsTdma;
++}
++
++
++VOID
++halbtc8723a1ant_CoexAllOff(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	// fw all off
++	halbtc8723a1ant_IgnoreWlanAct(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++
++	// sw all off
++	halbtc8723a1ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a1ant_RfShrink(pBtCoexist, NORMAL_EXEC, FALSE);
++
++	// hw all off
++	halbtc8723a1ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++}
++
++VOID
++halbtc8723a1ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	// force to reset coex mechanism
++	halbtc8723a1ant_IgnoreWlanAct(pBtCoexist, FORCE_EXEC, FALSE);
++}
++
++VOID
++halbtc8723a1ant_BtEnableAction(
++	IN 	PBTC_COEXIST		pBtCoexist
++	)
++{
++	halbtc8723a1ant_IgnoreWlanAct(pBtCoexist, FORCE_EXEC, FALSE);
++}
++
++VOID
++halbtc8723a1ant_MonitorBtCtr(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u4Byte 			regHPTxRx, regLPTxRx, u4Tmp;
++	u4Byte			regHPTx=0, regHPRx=0, regLPTx=0, regLPRx=0;
++	u1Byte			u1Tmp;
++	
++	regHPTxRx = 0x770;
++	regLPTxRx = 0x774;
++
++	u4Tmp = pBtCoexist->fBtcRead4Byte(pBtCoexist, regHPTxRx);
++	regHPTx = u4Tmp & bMaskLWord;
++	regHPRx = (u4Tmp & bMaskHWord)>>16;
++
++	u4Tmp = pBtCoexist->fBtcRead4Byte(pBtCoexist, regLPTxRx);
++	regLPTx = u4Tmp & bMaskLWord;
++	regLPRx = (u4Tmp & bMaskHWord)>>16;
++		
++	pCoexSta->highPriorityTx = regHPTx;
++	pCoexSta->highPriorityRx = regHPRx;
++	pCoexSta->lowPriorityTx = regLPTx;
++	pCoexSta->lowPriorityRx = regLPRx;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], High Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n", 
++		regHPTxRx, regHPTx, regHPTx, regHPRx, regHPRx));
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Low Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n", 
++		regLPTxRx, regLPTx, regLPTx, regLPRx, regLPRx));
++
++	// reset counter
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x76e, 0xc);
++}
++
++VOID
++halbtc8723a1ant_MonitorBtEnableDisable(
++	IN 	PBTC_COEXIST		pBtCoexist
++	)
++{
++	static BOOLEAN	bPreBtDisabled=FALSE;
++	static u4Byte	btDisableCnt=0;
++	BOOLEAN			bBtActive=TRUE, bBtDisabled=FALSE;
++
++	// This function check if bt is disabled
++	
++	if(	pCoexSta->highPriorityTx == 0 &&
++		pCoexSta->highPriorityRx == 0 &&
++		pCoexSta->lowPriorityTx == 0 &&
++		pCoexSta->lowPriorityRx == 0)
++	{
++		bBtActive = FALSE;
++	}
++	if(	pCoexSta->highPriorityTx == 0xffff &&
++		pCoexSta->highPriorityRx == 0xffff &&
++		pCoexSta->lowPriorityTx == 0xffff &&
++		pCoexSta->lowPriorityRx == 0xffff)
++	{
++		bBtActive = FALSE;
++	}
++	if(bBtActive)
++	{
++		btDisableCnt = 0;
++		bBtDisabled = FALSE;
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_DISABLE, &bBtDisabled);
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT is enabled !!\n"));
++	}
++	else
++	{
++		btDisableCnt++;
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], bt all counters=0, %d times!!\n", 
++				btDisableCnt));
++		if(btDisableCnt >= 2)
++		{
++			bBtDisabled = TRUE;
++			pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_DISABLE, &bBtDisabled);
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT is disabled !!\n"));
++		}
++	}
++	if(bPreBtDisabled != bBtDisabled)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT is from %s to %s!!\n", 
++			(bPreBtDisabled ? "disabled":"enabled"), 
++			(bBtDisabled ? "disabled":"enabled")));
++		bPreBtDisabled = bBtDisabled;
++		if(!bBtDisabled)
++		{
++			halbtc8723a1ant_BtEnableAction(pBtCoexist);
++		}
++		else
++		{
++			pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_NORMAL_LPS, NULL);
++		}
++	}
++}
++
++VOID
++halbtc8723a1ant_TdmaDurationAdjust(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	static s4Byte		up,dn,m,n,WaitCount;
++	s4Byte			result;   //0: no change, +1: increase WiFi duration, -1: decrease WiFi duration
++	u1Byte			retryCount=0;
++	u1Byte			btState;
++	BOOLEAN			bScan=FALSE, bLink=FALSE, bRoam=FALSE;
++	u4Byte			wifiBw;
++	
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	btState = pCoexDm->btStatus;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], TdmaDurationAdjust()\n"));
++	if(pCoexDm->psTdmaGlobalCnt != pCoexDm->psTdmaMonitorCnt)
++	{
++		pCoexDm->psTdmaMonitorCnt = 0;
++		pCoexDm->psTdmaGlobalCnt = 0;
++	}
++	if(pCoexDm->psTdmaMonitorCnt == 0)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], first run BT A2DP + WiFi busy state!!\n"));
++		if(btState == BT_STATE_8723A_1ANT_ACL_ONLY_BUSY)
++		{
++			halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 1);
++			pCoexDm->psTdmaDuAdjType = 1;
++		}
++		else
++		{
++			halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 22);
++			pCoexDm->psTdmaDuAdjType = 22;
++		}
++		//============
++		up = 0;
++		dn = 0;
++		m = 1;
++		n= 3;
++		result = 0;
++		WaitCount = 0;
++	}
++	else
++	{
++		//accquire the BT TRx retry count from BT_Info byte2
++		retryCount = pCoexSta->btRetryCnt;
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], retryCount = %d\n", retryCount));
++		result = 0;
++		WaitCount++; 
++		  
++		if(retryCount == 0)  // no retry in the last 2-second duration
++		{
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0; 			 
++
++			if(up >= n) // if ³sÄò n ­Ó2¬í retry count¬°0, «h½Õ¼eWiFi duration
++			{
++				WaitCount = 0; 
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1; 
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Increase wifi duration!!\n"));
++			}
++		}
++		else if (retryCount <= 3)	// <=3 retry in the last 2-second duration
++		{
++			up--; 
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2)	// if ³sÄò 2 ­Ó2¬í retry count< 3, «h½Õ¯¶WiFi duration
++			{
++				if (WaitCount <= 2)
++					m++; // ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^
++				else
++					m = 1;
++
++				if ( m >= 20) //m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration.
++					m = 20;
++
++				n = 3*m;
++				up = 0;
++				dn = 0;
++				WaitCount = 0;	
++				result = -1; 
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Decrease wifi duration for retryCounter<3!!\n"));
++			}
++		}
++		else  //retry count > 3, ¥u­n1¦¸ retry count > 3, «h½Õ¯¶WiFi duration
++		{
++			if (WaitCount == 1)
++				m++; // ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^
++			else
++				m = 1;
++
++			if ( m >= 20) //m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration.
++				m = 20;
++
++			n = 3*m;
++			up = 0;
++			dn = 0;
++			WaitCount = 0; 
++			result = -1;
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Decrease wifi duration for retryCounter>3!!\n"));
++		}
++		
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT TxRx counter H+L <= 1200\n"));
++			if(btState != BT_STATE_8723A_1ANT_ACL_ONLY_BUSY)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], NOT ACL only busy!\n"));
++				if(BTC_WIFI_BW_HT40 != wifiBw)
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 20MHz\n"));
++					if(result == -1)
++					{
++						if(pCoexDm->curPsTdma == 22)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 23);
++							pCoexDm->psTdmaDuAdjType = 23;
++						}
++						else if(pCoexDm->curPsTdma == 23)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 24);
++							pCoexDm->psTdmaDuAdjType = 24;
++						}
++						else if(pCoexDm->curPsTdma == 24)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 25);
++							pCoexDm->psTdmaDuAdjType = 25;
++						}
++					} 
++					else if (result == 1)
++					{
++						if(pCoexDm->curPsTdma == 25)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 24);
++							pCoexDm->psTdmaDuAdjType = 24;
++						}
++						else if(pCoexDm->curPsTdma == 24)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 23);
++							pCoexDm->psTdmaDuAdjType = 23;
++						}
++						else if(pCoexDm->curPsTdma == 23)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 22);
++							pCoexDm->psTdmaDuAdjType = 22;
++						}
++					}
++					// error handle, if not in the following state,
++					// set psTdma again.
++					if( (pCoexDm->psTdmaDuAdjType != 22) &&
++						(pCoexDm->psTdmaDuAdjType != 23) &&
++						(pCoexDm->psTdmaDuAdjType != 24) &&
++						(pCoexDm->psTdmaDuAdjType != 25) )
++					{
++						RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], duration case out of handle!!\n"));
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 23);
++						pCoexDm->psTdmaDuAdjType = 23;
++					}
++				}
++				else
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 40MHz\n"));
++					if(result == -1)
++					{
++						if(pCoexDm->curPsTdma == 23)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 24);
++							pCoexDm->psTdmaDuAdjType = 24;
++						}
++						else if(pCoexDm->curPsTdma == 24)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 25);
++							pCoexDm->psTdmaDuAdjType = 25;
++						}
++						else if(pCoexDm->curPsTdma == 25)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 27);
++							pCoexDm->psTdmaDuAdjType = 27;
++						}
++					} 
++					else if (result == 1)
++					{
++						if(pCoexDm->curPsTdma == 27)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 25);
++							pCoexDm->psTdmaDuAdjType = 25;
++						}
++						else if(pCoexDm->curPsTdma == 25)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 24);
++							pCoexDm->psTdmaDuAdjType = 24;
++						}
++						else if(pCoexDm->curPsTdma == 24)
++						{
++							halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 23);
++							pCoexDm->psTdmaDuAdjType = 23;
++						}
++					}
++					// error handle, if not in the following state,
++					// set psTdma again.
++					if( (pCoexDm->psTdmaDuAdjType != 23) &&
++						(pCoexDm->psTdmaDuAdjType != 24) &&
++						(pCoexDm->psTdmaDuAdjType != 25) &&
++						(pCoexDm->psTdmaDuAdjType != 27) )
++					{
++						RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], duration case out of handle!!\n"));
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 24);
++						pCoexDm->psTdmaDuAdjType = 24;
++					}
++				}
++			}
++			else
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], ACL only busy\n"));
++				if (result == -1)
++				{
++					if(pCoexDm->curPsTdma == 1)
++					{
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++						pCoexDm->psTdmaDuAdjType = 2;
++					}
++					else if(pCoexDm->curPsTdma == 2)
++					{
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 9);
++						pCoexDm->psTdmaDuAdjType = 9;
++					}
++					else if(pCoexDm->curPsTdma == 9)
++					{
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++				}
++				else if (result == 1)
++				{
++					if(pCoexDm->curPsTdma == 11)
++					{
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 9);
++						pCoexDm->psTdmaDuAdjType = 9;
++					}
++					else if(pCoexDm->curPsTdma == 9)
++					{
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++						pCoexDm->psTdmaDuAdjType = 2;
++					}
++					else if(pCoexDm->curPsTdma == 2)
++					{
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 1);
++						pCoexDm->psTdmaDuAdjType = 1;
++					}
++				}
++
++				// error handle, if not in the following state,
++				// set psTdma again.
++				if( (pCoexDm->psTdmaDuAdjType != 1) &&
++					(pCoexDm->psTdmaDuAdjType != 2) &&
++					(pCoexDm->psTdmaDuAdjType != 9) &&
++					(pCoexDm->psTdmaDuAdjType != 11) )
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], duration case out of handle!!\n"));
++					halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++					pCoexDm->psTdmaDuAdjType = 2;
++				}
++			}
++		}
++	}
++
++	// if current PsTdma not match with the recorded one (when scan, dhcp...), 
++	// then we have to adjust it back to the previous record one.
++	if(pCoexDm->curPsTdma != pCoexDm->psTdmaDuAdjType)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PsTdma type dismatch!!!, curPsTdma=%d, recordPsTdma=%d\n", 
++			pCoexDm->curPsTdma, pCoexDm->psTdmaDuAdjType));
++
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_SCAN, &bScan);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_LINK, &bLink);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_ROAM, &bRoam);
++
++		if( !bScan && !bLink &&	!bRoam)
++		{
++			halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, pCoexDm->psTdmaDuAdjType);
++		}
++		else
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], roaming/link/scan is under progress, will adjust next time!!!\n"));
++		}
++	}
++	pCoexDm->psTdmaMonitorCnt++;
++}
++
++
++VOID
++halbtc8723a1ant_CoexForWifiConnect(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bWifiConnected=FALSE, bWifiBusy=FALSE;
++	u1Byte		btState, btInfoOriginal=0;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_CONNECTED, &bWifiConnected);
++
++	btState = pCoexDm->btStatus;
++	btInfoOriginal = pCoexSta->btInfoC2h[BT_INFO_SRC_8723A_1ANT_BT_RSP][0];
++
++	if(bWifiConnected)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], wifi connected!!\n"));
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++		
++		if( !bWifiBusy &&
++			((BT_STATE_8723A_1ANT_NO_CONNECTION == btState) ||
++			(BT_STATE_8723A_1ANT_CONNECT_IDLE == btState)) )
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], [Wifi is idle] or [Bt is non connected idle or Bt is connected idle]!!\n"));
++
++			if(BT_STATE_8723A_1ANT_NO_CONNECTION == btState)
++				halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 9);
++			else if(BT_STATE_8723A_1ANT_CONNECT_IDLE == btState)
++				halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++
++			pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x880, 0xff000000, 0xc0);
++		}
++		else
++		{
++			if( (BT_STATE_8723A_1ANT_SCO_ONLY_BUSY == btState) ||
++				(BT_STATE_8723A_1ANT_ACL_SCO_BUSY == btState) ||
++				(BT_STATE_8723A_1ANT_HID_BUSY == btState) ||
++				(BT_STATE_8723A_1ANT_HID_SCO_BUSY == btState) )
++			{
++				pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x880, 0xff000000, 0x60);
++			}
++			else
++			{
++				pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x880, 0xff000000, 0xc0);
++			}
++			switch(btState)
++			{
++				case BT_STATE_8723A_1ANT_NO_CONNECTION:
++					halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 5);
++					break;
++				case BT_STATE_8723A_1ANT_CONNECT_IDLE:
++					halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 12);
++					break;
++				case BT_STATE_8723A_1ANT_INQ_OR_PAG:
++					halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++					break;
++				case BT_STATE_8723A_1ANT_SCO_ONLY_BUSY:
++				case BT_STATE_8723A_1ANT_ACL_SCO_BUSY:
++				case BT_STATE_8723A_1ANT_HID_BUSY:
++				case BT_STATE_8723A_1ANT_HID_SCO_BUSY:
++					halbtc8723a1ant_TdmaDurationAdjust(pBtCoexist);
++					break;
++				case BT_STATE_8723A_1ANT_ACL_ONLY_BUSY:
++					if (btInfoOriginal&BT_INFO_8723A_1ANT_B_A2DP)
++					{
++						halbtc8723a1ant_TdmaDurationAdjust(pBtCoexist);
++					}
++					else if(btInfoOriginal&BT_INFO_8723A_1ANT_B_FTP)
++					{
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 1);
++					}
++					else if( (btInfoOriginal&BT_INFO_8723A_1ANT_B_A2DP) &&
++							(btInfoOriginal&BT_INFO_8723A_1ANT_B_FTP) )
++					{
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++					}
++					else
++					{
++						halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 1);
++					}
++					break;
++				default:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], error!!!, undefined case in halbtc8723a1ant_CoexForWifiConnect()!!\n"));
++					break;
++			}
++		}
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], wifi is disconnected!!\n"));
++	}
++
++	pCoexDm->psTdmaGlobalCnt++;
++}
++
++//============================================================
++// work around function start with wa_halbtc8723a1ant_
++//============================================================
++VOID
++wa_halbtc8723a1ant_MonitorC2h(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	u1Byte	tmp1b=0x0;
++	u4Byte	curC2hTotalCnt=0x0;
++	static u4Byte	preC2hTotalCnt=0x0, sameCntPollingTime=0x0;
++
++	curC2hTotalCnt+=pCoexSta->btInfoC2hCnt[BT_INFO_SRC_8723A_1ANT_BT_RSP];
++
++	if(curC2hTotalCnt == preC2hTotalCnt)
++	{
++		sameCntPollingTime++;
++	}
++	else
++	{
++		preC2hTotalCnt = curC2hTotalCnt;
++		sameCntPollingTime = 0;
++	}
++
++	if(sameCntPollingTime >= 2)
++	{
++		tmp1b = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x1af);
++		if(tmp1b != 0x0)
++		{
++			pCoexSta->c2hHangDetectCnt++;
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x1af, 0x0);
++		}
++	}
++}
++
++//============================================================
++// extern function start with EXhalbtc8723a1ant_
++//============================================================
++VOID
++EXhalbtc8723a1ant_InitHwConfig(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 1Ant Init HW Config!!\n"));
++
++	// backup rf 0x1e value
++	pCoexDm->btRf0x1eBackup = 
++		pBtCoexist->fBtcGetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xfffff);
++
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x20);
++
++	// enable counter statistics
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x76e, 0x4);
++	
++	// coex table
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x6cc, 0x0);			// 1-Ant coex
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c8, 0xffff);		// wifi break table
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c4, 0x55555555);	//coex table
++
++	// antenna switch control parameter
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x858, 0xaaaaaaaa);
++	
++	pBtCoexist->fBtcWrite2Byte(pBtCoexist, 0x860, 0x210);	//set antenna at wifi side if ANTSW is software control
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x870, 0x300);	//SPDT(connected with TRSW) control by hardware PTA
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x874, 0x22804000);	//ANTSW keep by GNT_BT
++
++	// coexistence parameters
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x778, 0x1);	// enable RTK mode PTA
++}
++
++VOID
++EXhalbtc8723a1ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Coex Mechanism Init!!\n"));
++	
++	halbtc8723a1ant_InitCoexDm(pBtCoexist);
++}
++
++VOID
++EXhalbtc8723a1ant_DisplayCoexInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	PBTC_BOARD_INFO		pBoardInfo=&pBtCoexist->boardInfo;
++	PBTC_STACK_INFO		pStackInfo=&pBtCoexist->stackInfo;
++	pu1Byte				cliBuf=pBtCoexist->cliBuf;
++	u1Byte				u1Tmp[4], i, btInfoExt, psTdmaCase=0;
++	u4Byte				u4Tmp[4];
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ", "Ant PG number/ Ant mechanism:", \
++		pBoardInfo->pgAntNum, pBoardInfo->btdmAntNum);
++	CL_PRINTF(cliBuf);	
++	
++	if(pBtCoexist->bManualControl)
++	{
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "[Action Manual control]!!");
++		CL_PRINTF(cliBuf);
++	}
++	
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %d", "BT stack/ hci ext ver", \
++		((pStackInfo->bProfileNotified)? "Yes":"No"), pStackInfo->hciVersion);
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ", "Wifi channel informed to BT", \
++		pCoexDm->wifiChnlInfo[0], pCoexDm->wifiChnlInfo[1],
++		pCoexDm->wifiChnlInfo[2]);
++	CL_PRINTF(cliBuf);
++	
++	// wifi status
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Wifi Status]============");
++	CL_PRINTF(cliBuf);
++	pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[BT Status]============");
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d] ", "BT [status/ rssi/ retryCnt]", \
++		((pCoexSta->bC2hBtInquiryPage)?("inquiry/page scan"):((BT_8723A_1ANT_BT_STATUS_IDLE == pCoexDm->btStatus)? "idle":(  (BT_8723A_1ANT_BT_STATUS_CONNECTED_IDLE == pCoexDm->btStatus)? "connected-idle":"busy"))),
++		pCoexSta->btRssi, pCoexSta->btRetryCnt);
++	CL_PRINTF(cliBuf);
++	
++	if(pStackInfo->bProfileNotified)
++	{			
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d", "SCO/HID/PAN/A2DP", \
++			pStackInfo->bScoExist, pStackInfo->bHidExist, pStackInfo->bPanExist, pStackInfo->bA2dpExist);
++		CL_PRINTF(cliBuf);	
++
++		pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_BT_LINK_INFO);
++	}
++
++	btInfoExt = pCoexSta->btInfoExt;
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "BT Info A2DP rate", \
++		(btInfoExt&BIT0)? "Basic rate":"EDR rate");
++	CL_PRINTF(cliBuf);	
++
++	for(i=0; i<BT_INFO_SRC_8723A_1ANT_MAX; i++)
++	{
++		if(pCoexSta->btInfoC2hCnt[i])
++		{				
++			CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)", GLBtInfoSrc8723a1Ant[i], \
++				pCoexSta->btInfoC2h[i][0], pCoexSta->btInfoC2h[i][1],
++				pCoexSta->btInfoC2h[i][2], pCoexSta->btInfoC2h[i][3],
++				pCoexSta->btInfoC2h[i][4], pCoexSta->btInfoC2h[i][5],
++				pCoexSta->btInfoC2h[i][6], pCoexSta->btInfoC2hCnt[i]);
++			CL_PRINTF(cliBuf);
++		}
++	}
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "write 0x1af=0x0 num", \
++		pCoexSta->c2hHangDetectCnt);
++	CL_PRINTF(cliBuf);
++	
++	// Sw mechanism	
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Sw mechanism]============");
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d", "SM1[ShRf/ LpRA/ LimDig]", \
++		pCoexDm->bCurRfRxLpfShrink, pCoexDm->bCurLowPenaltyRa, pCoexDm->bLimitedDig);
++	CL_PRINTF(cliBuf);
++
++	// Fw mechanism		
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Fw mechanism]============");
++	CL_PRINTF(cliBuf);	
++	
++	if(!pBtCoexist->bManualControl)
++	{
++		psTdmaCase = pCoexDm->curPsTdma;
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x %02x %02x case-%d", "PS TDMA", \
++			pCoexDm->psTdmaPara[0], pCoexDm->psTdmaPara[1],
++			pCoexDm->psTdmaPara[2], pCoexDm->psTdmaPara[3],
++			pCoexDm->psTdmaPara[4], psTdmaCase);
++		CL_PRINTF(cliBuf);
++	
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ", "IgnWlanAct", \
++			pCoexDm->bCurIgnoreWlanAct);
++		CL_PRINTF(cliBuf);
++	}
++
++	// Hw setting		
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Hw setting]============");
++	CL_PRINTF(cliBuf);	
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "RF-A, 0x1e initVal", \
++		pCoexDm->btRf0x1eBackup);
++	CL_PRINTF(cliBuf);
++
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x778);
++	u1Tmp[1] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x783);
++	u1Tmp[2] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x796);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x", "0x778/ 0x783/ 0x796", \
++		u1Tmp[0], u1Tmp[1], u1Tmp[2]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x880);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x880", \
++		u4Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x40);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x40", \
++		u1Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x550);
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x522);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x", "0x550(bcn ctrl)/0x522", \
++		u4Tmp[0], u1Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x484);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x484(rate adaptive)", \
++		u4Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xc50);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0xc50(dig)", \
++		u4Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xda0);
++	u4Tmp[1] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xda4);
++	u4Tmp[2] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xda8);
++	u4Tmp[3] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xdac);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x", "0xda0/0xda4/0xda8/0xdac(FA cnt)", \
++		u4Tmp[0], u4Tmp[1], u4Tmp[2], u4Tmp[3]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c0);
++	u4Tmp[1] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c4);
++	u4Tmp[2] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c8);
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x6cc);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x", "0x6c0/0x6c4/0x6c8/0x6cc(coexTable)", \
++		u4Tmp[0], u4Tmp[1], u4Tmp[2], u1Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d", "0x770 (hp rx[31:16]/tx[15:0])", \
++		pCoexSta->highPriorityRx, pCoexSta->highPriorityTx);
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d", "0x774(lp rx[31:16]/tx[15:0])", \
++		pCoexSta->lowPriorityRx, pCoexSta->lowPriorityTx);
++	CL_PRINTF(cliBuf);
++
++	pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++VOID
++EXhalbtc8723a1ant_IpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_IPS_ENTER == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], IPS ENTER notify\n"));
++		halbtc8723a1ant_CoexAllOff(pBtCoexist);
++	}
++	else if(BTC_IPS_LEAVE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], IPS LEAVE notify\n"));
++		//halbtc8723a1ant_InitCoexDm(pBtCoexist);
++	}
++}
++
++VOID
++EXhalbtc8723a1ant_LpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_LPS_ENABLE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], LPS ENABLE notify\n"));
++	}
++	else if(BTC_LPS_DISABLE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], LPS DISABLE notify\n"));
++		halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 8);
++	}
++}
++
++VOID
++EXhalbtc8723a1ant_ScanNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	BOOLEAN		bWifiConnected=FALSE;
++	
++	halbtc8723a1ant_NotifyFwScan(pBtCoexist, type);
++
++	if(pBtCoexist->btInfo.bBtDisabled)
++	{
++		halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 9); 
++	}
++	else
++	{
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_CONNECTED, &bWifiConnected);
++		if(BTC_SCAN_START == type)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCAN START notify\n"));
++			if(!bWifiConnected)	// non-connected scan
++			{
++				//set 0x550[3]=1 before PsTdma
++				halbtc8723a1ant_Reg0x550Bit3(pBtCoexist, TRUE);
++			}
++
++			halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 4);
++		}
++		else if(BTC_SCAN_FINISH == type)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCAN FINISH notify\n"));
++			if(!bWifiConnected)	// non-connected scan
++			{
++				halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0); 
++			}
++			else
++			{
++				halbtc8723a1ant_CoexForWifiConnect(pBtCoexist);
++			}
++		}
++	}
++}
++
++VOID
++EXhalbtc8723a1ant_ConnectNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	BOOLEAN		bWifiConnected=FALSE;
++		
++	if(pBtCoexist->btInfo.bBtDisabled)
++	{
++		halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 9); 
++	}
++	else
++	{
++		if(BTC_ASSOCIATE_START == type)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], CONNECT START notify\n"));
++			//set 0x550[3]=1 before PsTdma
++			halbtc8723a1ant_Reg0x550Bit3(pBtCoexist, TRUE);
++			halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);	// extend wifi slot	
++		}
++		else if(BTC_ASSOCIATE_FINISH == type)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], CONNECT FINISH notify\n"));
++			pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_CONNECTED, &bWifiConnected);
++			if(!bWifiConnected)	// non-connected scan
++			{
++				halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++			}
++			else
++			{
++				halbtc8723a1ant_CoexForWifiConnect(pBtCoexist);
++			}
++		}
++	}
++}
++
++VOID
++EXhalbtc8723a1ant_MediaStatusNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{
++	if(BTC_MEDIA_CONNECT == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], MEDIA connect notify\n"));
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], MEDIA disconnect notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8723a1ant_SpecialPacketNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{
++	if(type == BTC_PACKET_DHCP)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], DHCP Packet notify\n"));
++		if(pBtCoexist->btInfo.bBtDisabled)
++		{
++			halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 9);	
++		}
++		else
++		{
++			halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 18);
++		}		
++	}
++}
++
++VOID
++EXhalbtc8723a1ant_BtInfoNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	pu1Byte			tmpBuf,
++	IN	u1Byte			length
++	)
++{
++	u1Byte			btInfo=0;
++	u1Byte			i, rspSource=0;
++	BOOLEAN			bBtHsOn=FALSE, bBtBusy=FALSE, bForceLps=FALSE;
++
++	pCoexSta->bC2hBtInfoReqSent = FALSE;
++	
++	rspSource = BT_INFO_SRC_8723A_1ANT_BT_RSP;
++	pCoexSta->btInfoC2hCnt[rspSource]++;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Bt info[%d], length=%d, hex data=[", rspSource, length));
++	for(i=0; i<length; i++)
++	{
++		pCoexSta->btInfoC2h[rspSource][i] = tmpBuf[i];
++		if(i == 0)
++			btInfo = tmpBuf[i];
++		if(i == length-1)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("0x%02x]\n", tmpBuf[i]));
++		}
++		else
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("0x%02x, ", tmpBuf[i]));
++		}
++	}
++
++	if(BT_INFO_SRC_8723A_1ANT_WIFI_FW != rspSource)
++	{
++		pCoexSta->btRetryCnt =
++			pCoexSta->btInfoC2h[rspSource][1];
++
++		pCoexSta->btRssi =
++			pCoexSta->btInfoC2h[rspSource][2]*2+10;
++
++		pCoexSta->btInfoExt = 
++			pCoexSta->btInfoC2h[rspSource][3];
++	}
++		
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++	// check BIT2 first ==> check if bt is under inquiry or page scan
++	if(btInfo & BT_INFO_8723A_1ANT_B_INQ_PAGE)
++	{
++		pCoexSta->bC2hBtInquiryPage = TRUE;
++	}
++	else
++	{
++		pCoexSta->bC2hBtInquiryPage = FALSE;
++	}
++	btInfo &= ~BIT2;
++	if(!(btInfo & BIT0))
++	{
++		pCoexDm->btStatus = BT_STATE_8723A_1ANT_NO_CONNECTION;
++		bForceLps = FALSE;
++	}
++	else
++	{
++		bForceLps = TRUE;
++		if(btInfo == 0x1)
++		{
++			pCoexDm->btStatus = BT_STATE_8723A_1ANT_CONNECT_IDLE;
++		}
++		else if(btInfo == 0x9)
++		{
++			pCoexDm->btStatus = BT_STATE_8723A_1ANT_ACL_ONLY_BUSY;
++			bBtBusy = TRUE;
++		}
++		else if(btInfo == 0x13)
++		{
++			pCoexDm->btStatus = BT_STATE_8723A_1ANT_SCO_ONLY_BUSY;
++			bBtBusy = TRUE;
++		}
++		else if(btInfo == 0x1b)
++		{
++			pCoexDm->btStatus = BT_STATE_8723A_1ANT_ACL_SCO_BUSY;
++			bBtBusy = TRUE;
++		}
++		else if(btInfo == 0x29)
++		{
++			pCoexDm->btStatus = BT_STATE_8723A_1ANT_HID_BUSY;
++			bBtBusy = TRUE;
++		}
++		else if(btInfo == 0x3b)
++		{
++			pCoexDm->btStatus = BT_STATE_8723A_1ANT_HID_SCO_BUSY;
++			bBtBusy = TRUE;
++		}
++	}
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bBtBusy);
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_LIMITED_DIG, &bBtBusy);
++	if(bForceLps)
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_ENTER_LPS, NULL);
++	else
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_NORMAL_LPS, NULL);
++
++	if( (BT_STATE_8723A_1ANT_NO_CONNECTION == pCoexDm->btStatus) ||
++		(BT_STATE_8723A_1ANT_CONNECT_IDLE == pCoexDm->btStatus) )
++	{
++		if(pCoexSta->bC2hBtInquiryPage)
++			pCoexDm->btStatus = BT_STATE_8723A_1ANT_INQ_OR_PAG;
++	}
++}
++
++VOID
++EXhalbtc8723a1ant_HaltNotify(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	halbtc8723a1ant_PsTdma(pBtCoexist, FORCE_EXEC, FALSE, 0);
++	
++	halbtc8723a1ant_LowPenaltyRa(pBtCoexist, FORCE_EXEC, FALSE);
++	halbtc8723a1ant_RfShrink(pBtCoexist, FORCE_EXEC, FALSE);
++
++	halbtc8723a1ant_IgnoreWlanAct(pBtCoexist, FORCE_EXEC, TRUE);
++	EXhalbtc8723a1ant_MediaStatusNotify(pBtCoexist, BTC_MEDIA_DISCONNECT);
++}
++
++VOID
++EXhalbtc8723a1ant_Periodical(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	BOOLEAN		bScan=FALSE, bLink=FALSE, bRoam=FALSE, bWifiConnected=FALSE;
++	
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 1Ant Periodical!!\n"));
++	
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_SCAN, &bScan);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_LINK, &bLink);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_ROAM, &bRoam);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_CONNECTED, &bWifiConnected);
++
++	// work around for c2h hang
++	wa_halbtc8723a1ant_MonitorC2h(pBtCoexist);	
++
++	halbtc8723a1ant_QueryBtInfo(pBtCoexist);
++	halbtc8723a1ant_MonitorBtCtr(pBtCoexist);
++	halbtc8723a1ant_MonitorBtEnableDisable(pBtCoexist);
++
++	
++	if(bScan)
++		return;
++	if(bLink)
++		return;
++
++	if(bWifiConnected)
++	{
++		if(pBtCoexist->btInfo.bBtDisabled)
++		{
++			halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 9);
++			
++			halbtc8723a1ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a1ant_RfShrink(pBtCoexist, NORMAL_EXEC, FALSE);
++		}
++		else
++		{
++			halbtc8723a1ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a1ant_RfShrink(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a1ant_CoexForWifiConnect(pBtCoexist);
++		}
++	}
++	else
++	{
++		halbtc8723a1ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++
++		halbtc8723a1ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a1ant_RfShrink(pBtCoexist, NORMAL_EXEC, FALSE);
++	}
++}
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723a1Ant.h b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723a1Ant.h
+new file mode 100644
+index 0000000..e8c2fd0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723a1Ant.h
+@@ -0,0 +1,171 @@
++//===========================================
++// The following is for 8723A 1Ant BT Co-exist definition
++//===========================================
++#define	BT_INFO_8723A_1ANT_B_FTP						BIT7
++#define	BT_INFO_8723A_1ANT_B_A2DP					BIT6
++#define	BT_INFO_8723A_1ANT_B_HID						BIT5
++#define	BT_INFO_8723A_1ANT_B_SCO_BUSY				BIT4
++#define	BT_INFO_8723A_1ANT_B_ACL_BUSY				BIT3
++#define	BT_INFO_8723A_1ANT_B_INQ_PAGE				BIT2
++#define	BT_INFO_8723A_1ANT_B_SCO_ESCO				BIT1
++#define	BT_INFO_8723A_1ANT_B_CONNECTION				BIT0
++
++typedef enum _BT_STATE_8723A_1ANT{
++	BT_STATE_8723A_1ANT_DISABLED				= 0,
++	BT_STATE_8723A_1ANT_NO_CONNECTION		= 1,
++	BT_STATE_8723A_1ANT_CONNECT_IDLE		= 2,
++	BT_STATE_8723A_1ANT_INQ_OR_PAG			= 3,
++	BT_STATE_8723A_1ANT_ACL_ONLY_BUSY		= 4,
++	BT_STATE_8723A_1ANT_SCO_ONLY_BUSY		= 5,
++	BT_STATE_8723A_1ANT_ACL_SCO_BUSY			= 6,
++	BT_STATE_8723A_1ANT_HID_BUSY				= 7,
++	BT_STATE_8723A_1ANT_HID_SCO_BUSY			= 8,
++	BT_STATE_8723A_1ANT_MAX
++}BT_STATE_8723A_1ANT, *PBT_STATE_8723A_1ANT;
++
++#define		BTC_RSSI_COEX_THRESH_TOL_8723A_1ANT		2
++
++typedef enum _BT_INFO_SRC_8723A_1ANT{
++	BT_INFO_SRC_8723A_1ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8723A_1ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8723A_1ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8723A_1ANT_MAX
++}BT_INFO_SRC_8723A_1ANT,*PBT_INFO_SRC_8723A_1ANT;
++
++typedef enum _BT_8723A_1ANT_BT_STATUS{
++	BT_8723A_1ANT_BT_STATUS_IDLE				= 0x0,
++	BT_8723A_1ANT_BT_STATUS_CONNECTED_IDLE	= 0x1,
++	BT_8723A_1ANT_BT_STATUS_NON_IDLE			= 0x2,
++	BT_8723A_1ANT_BT_STATUS_MAX
++}BT_8723A_1ANT_BT_STATUS,*PBT_8723A_1ANT_BT_STATUS;
++
++typedef enum _BT_8723A_1ANT_COEX_ALGO{
++	BT_8723A_1ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8723A_1ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8723A_1ANT_COEX_ALGO_HID				= 0x2,
++	BT_8723A_1ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8723A_1ANT_COEX_ALGO_PANEDR			= 0x4,
++	BT_8723A_1ANT_COEX_ALGO_PANHS			= 0x5,
++	BT_8723A_1ANT_COEX_ALGO_PANEDR_A2DP		= 0x6,
++	BT_8723A_1ANT_COEX_ALGO_PANEDR_HID		= 0x7,
++	BT_8723A_1ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x8,
++	BT_8723A_1ANT_COEX_ALGO_HID_A2DP			= 0x9,
++	BT_8723A_1ANT_COEX_ALGO_MAX
++}BT_8723A_1ANT_COEX_ALGO,*PBT_8723A_1ANT_COEX_ALGO;
++
++typedef struct _COEX_DM_8723A_1ANT{
++	// fw mechanism
++	BOOLEAN		bCurIgnoreWlanAct;
++	BOOLEAN		bPreIgnoreWlanAct;
++	u1Byte		prePsTdma;
++	u1Byte		curPsTdma;
++	u1Byte		psTdmaPara[5];
++	u1Byte		psTdmaDuAdjType;
++	u4Byte		psTdmaMonitorCnt;
++	u4Byte		psTdmaGlobalCnt;
++	BOOLEAN		bResetTdmaAdjust;
++	BOOLEAN		bPrePsTdmaOn;
++	BOOLEAN		bCurPsTdmaOn;
++
++	// sw mechanism
++	BOOLEAN		bPreRfRxLpfShrink;
++	BOOLEAN		bCurRfRxLpfShrink;
++	u4Byte		btRf0x1eBackup;
++	BOOLEAN 	bPreLowPenaltyRa;
++	BOOLEAN		bCurLowPenaltyRa;
++	u4Byte		preVal0x6c0;
++	u4Byte		curVal0x6c0;
++	u4Byte		preVal0x6c8;
++	u4Byte		curVal0x6c8;
++	u1Byte		preVal0x6cc;
++	u1Byte		curVal0x6cc;
++	BOOLEAN		bLimitedDig;
++
++	// algorithm related
++	u1Byte		preAlgorithm;
++	u1Byte		curAlgorithm;
++	u1Byte		btStatus;
++	u1Byte		wifiChnlInfo[3];
++} COEX_DM_8723A_1ANT, *PCOEX_DM_8723A_1ANT;
++
++typedef struct _COEX_STA_8723A_1ANT{
++	u4Byte					highPriorityTx;
++	u4Byte					highPriorityRx;
++	u4Byte					lowPriorityTx;
++	u4Byte					lowPriorityRx;
++	u1Byte					btRssi;
++	u1Byte					preBtRssiState;
++	u1Byte					preBtRssiState1;
++	u1Byte					preWifiRssiState[4];
++	BOOLEAN					bC2hBtInfoReqSent;
++	u1Byte					btInfoC2h[BT_INFO_SRC_8723A_1ANT_MAX][10];
++	u4Byte					btInfoC2hCnt[BT_INFO_SRC_8723A_1ANT_MAX];
++	BOOLEAN					bC2hBtInquiryPage;
++	u1Byte					btRetryCnt;
++	u1Byte					btInfoExt;
++	//BOOLEAN					bHoldForStackOperation;
++	//u1Byte					bHoldPeriodCnt;
++	// this is for c2h hang work-around
++	u4Byte					c2hHangDetectCnt;
++}COEX_STA_8723A_1ANT, *PCOEX_STA_8723A_1ANT;
++
++//===========================================
++// The following is interface which will notify coex module.
++//===========================================
++VOID
++EXhalbtc8723a1ant_InitHwConfig(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtc8723a1ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtc8723a1ant_IpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8723a1ant_LpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8723a1ant_ScanNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8723a1ant_ConnectNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8723a1ant_MediaStatusNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	);
++VOID
++EXhalbtc8723a1ant_SpecialPacketNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	);
++VOID
++EXhalbtc8723a1ant_BtInfoNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	pu1Byte			tmpBuf,
++	IN	u1Byte			length
++	);
++VOID
++EXhalbtc8723a1ant_HaltNotify(
++	IN	PBTC_COEXIST			pBtCoexist
++	);
++VOID
++EXhalbtc8723a1ant_Periodical(
++	IN	PBTC_COEXIST			pBtCoexist
++	);
++VOID
++EXhalbtc8723a1ant_DisplayCoexInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723a2Ant.c b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723a2Ant.c
+new file mode 100644
+index 0000000..f32bd9f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723a2Ant.c
+@@ -0,0 +1,3746 @@
++//============================================================
++// Description:
++//
++// This file is for RTL8723A Co-exist mechanism
++//
++// History
++// 2012/08/22 Cosa first check in.
++// 2012/11/14 Cosa Revise for 8723A 2Ant out sourcing.
++//
++//============================================================
++
++//============================================================
++// include files
++//============================================================
++#include "Mp_Precomp.h"
++
++#if WPP_SOFTWARE_TRACE
++#include "HalBtc8723a2Ant.tmh"
++#endif
++
++#if(BT_30_SUPPORT == 1)
++//============================================================
++// Global variables, these are static variables
++//============================================================
++static COEX_DM_8723A_2ANT	GLCoexDm8723a2Ant;
++static PCOEX_DM_8723A_2ANT 	pCoexDm=&GLCoexDm8723a2Ant;
++static COEX_STA_8723A_2ANT	GLCoexSta8723a2Ant;
++static PCOEX_STA_8723A_2ANT	pCoexSta=&GLCoexSta8723a2Ant;
++
++const char *const GLBtInfoSrc8723a2Ant[]={
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++//============================================================
++// local function proto type if needed
++//============================================================
++//============================================================
++// local function start with halbtc8723a2ant_
++//============================================================
++BOOLEAN
++halbtc8723a2ant_IsWifiIdle(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bWifiConnected=FALSE, bScan=FALSE, bLink=FALSE, bRoam=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_CONNECTED, &bWifiConnected);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_SCAN, &bScan);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_LINK, &bLink);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_ROAM, &bRoam);
++
++	if(bWifiConnected)
++		return FALSE;
++	if(bScan)
++		return FALSE;
++	if(bLink)
++		return FALSE;
++	if(bRoam)
++		return FALSE;
++
++	return TRUE;
++}
++
++BOOLEAN
++halbtc8723a2ant_IsWifiConnectedIdle(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bWifiConnected=FALSE, bScan=FALSE, bLink=FALSE, bRoam=FALSE, bWifiBusy=FALSE;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_CONNECTED, &bWifiConnected);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_SCAN, &bScan);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_LINK, &bLink);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_ROAM, &bRoam);
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++
++	if(bScan)
++		return FALSE;
++	if(bLink)
++		return FALSE;
++	if(bRoam)
++		return FALSE;
++	if(bWifiConnected && !bWifiBusy)
++		return TRUE;
++	else 
++		return FALSE;
++}
++
++u1Byte
++halbtc8723a2ant_BtRssiState(
++	u1Byte			levelNum,
++	u1Byte			rssiThresh,
++	u1Byte			rssiThresh1
++	)
++{
++	s4Byte			btRssi=0;
++	u1Byte			btRssiState=pCoexSta->preBtRssiState;
++
++	btRssi = pCoexSta->btRssi;
++
++	if(levelNum == 2)
++	{			
++		if( (pCoexSta->preBtRssiState == BTC_RSSI_STATE_LOW) ||
++			(pCoexSta->preBtRssiState == BTC_RSSI_STATE_STAY_LOW))
++		{
++			if(btRssi >= (rssiThresh+BTC_RSSI_COEX_THRESH_TOL_8723A_2ANT))
++			{
++				btRssiState = BTC_RSSI_STATE_HIGH;
++			}
++			else
++			{
++				btRssiState = BTC_RSSI_STATE_STAY_LOW;
++			}
++		}
++		else
++		{
++			if(btRssi < rssiThresh)
++			{
++				btRssiState = BTC_RSSI_STATE_LOW;
++			}
++			else
++			{
++				btRssiState = BTC_RSSI_STATE_STAY_HIGH;
++			}
++		}
++	}
++	else if(levelNum == 3)
++	{
++		if(rssiThresh > rssiThresh1)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT Rssi thresh error!!\n"));
++			return pCoexSta->preBtRssiState;
++		}
++		
++		if( (pCoexSta->preBtRssiState == BTC_RSSI_STATE_LOW) ||
++			(pCoexSta->preBtRssiState == BTC_RSSI_STATE_STAY_LOW))
++		{
++			if(btRssi >= (rssiThresh+BTC_RSSI_COEX_THRESH_TOL_8723A_2ANT))
++			{
++				btRssiState = BTC_RSSI_STATE_MEDIUM;
++			}
++			else
++			{
++				btRssiState = BTC_RSSI_STATE_STAY_LOW;
++			}
++		}
++		else if( (pCoexSta->preBtRssiState == BTC_RSSI_STATE_MEDIUM) ||
++			(pCoexSta->preBtRssiState == BTC_RSSI_STATE_STAY_MEDIUM))
++		{
++			if(btRssi >= (rssiThresh1+BTC_RSSI_COEX_THRESH_TOL_8723A_2ANT))
++			{
++				btRssiState = BTC_RSSI_STATE_HIGH;
++			}
++			else if(btRssi < rssiThresh)
++			{
++				btRssiState = BTC_RSSI_STATE_LOW;
++			}
++			else
++			{
++				btRssiState = BTC_RSSI_STATE_STAY_MEDIUM;
++			}
++		}
++		else
++		{
++			if(btRssi < rssiThresh1)
++			{
++				btRssiState = BTC_RSSI_STATE_MEDIUM;
++			}
++			else
++			{
++				btRssiState = BTC_RSSI_STATE_STAY_HIGH;
++			}
++		}
++	}
++		
++	pCoexSta->preBtRssiState = btRssiState;
++
++	return btRssiState;
++}
++
++u1Byte
++halbtc8723a2ant_WifiRssiState(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			index,
++	IN	u1Byte			levelNum,
++	IN	u1Byte			rssiThresh,
++	IN	u1Byte			rssiThresh1
++	)
++{
++	s4Byte			wifiRssi=0;
++	u1Byte			wifiRssiState=pCoexSta->preWifiRssiState[index];
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_S4_WIFI_RSSI, &wifiRssi);
++	
++	if(levelNum == 2)
++	{
++		if( (pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_LOW) ||
++			(pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_STAY_LOW))
++		{
++			if(wifiRssi >= (rssiThresh+BTC_RSSI_COEX_THRESH_TOL_8723A_2ANT))
++			{
++				wifiRssiState = BTC_RSSI_STATE_HIGH;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_LOW;
++			}
++		}
++		else
++		{
++			if(wifiRssi < rssiThresh)
++			{
++				wifiRssiState = BTC_RSSI_STATE_LOW;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_HIGH;
++			}
++		}
++	}
++	else if(levelNum == 3)
++	{
++		if(rssiThresh > rssiThresh1)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], wifi RSSI thresh error!!\n"));
++			return pCoexSta->preWifiRssiState[index];
++		}
++		
++		if( (pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_LOW) ||
++			(pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_STAY_LOW))
++		{
++			if(wifiRssi >= (rssiThresh+BTC_RSSI_COEX_THRESH_TOL_8723A_2ANT))
++			{
++				wifiRssiState = BTC_RSSI_STATE_MEDIUM;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_LOW;
++			}
++		}
++		else if( (pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_MEDIUM) ||
++			(pCoexSta->preWifiRssiState[index] == BTC_RSSI_STATE_STAY_MEDIUM))
++		{
++			if(wifiRssi >= (rssiThresh1+BTC_RSSI_COEX_THRESH_TOL_8723A_2ANT))
++			{
++				wifiRssiState = BTC_RSSI_STATE_HIGH;
++			}
++			else if(wifiRssi < rssiThresh)
++			{
++				wifiRssiState = BTC_RSSI_STATE_LOW;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_MEDIUM;
++			}
++		}
++		else
++		{
++			if(wifiRssi < rssiThresh1)
++			{
++				wifiRssiState = BTC_RSSI_STATE_MEDIUM;
++			}
++			else
++			{
++				wifiRssiState = BTC_RSSI_STATE_STAY_HIGH;
++			}
++		}
++	}
++		
++	pCoexSta->preWifiRssiState[index] = wifiRssiState;
++
++	return wifiRssiState;
++}
++
++VOID
++halbtc8723a2ant_IndicateWifiChnlBwInfo(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{
++	u1Byte			H2C_Parameter[3] ={0};
++	u4Byte			wifiBw;
++	u1Byte			wifiCentralChnl;
++	
++	// only 2.4G we need to inform bt the chnl mask
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL, &wifiCentralChnl);
++	if( (BTC_MEDIA_CONNECT == type) &&
++		(wifiCentralChnl <= 14) )
++	{
++		H2C_Parameter[0] = 0x1;
++		H2C_Parameter[1] = wifiCentralChnl;
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++		if(BTC_WIFI_BW_HT40 == wifiBw)
++			H2C_Parameter[2] = 0x30;
++		else
++			H2C_Parameter[2] = 0x20;
++	}
++		
++	pCoexDm->wifiChnlInfo[0] = H2C_Parameter[0];
++	pCoexDm->wifiChnlInfo[1] = H2C_Parameter[1];
++	pCoexDm->wifiChnlInfo[2] = H2C_Parameter[2];
++	
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], FW write 0x19=0x%x\n", 
++		H2C_Parameter[0]<<16|H2C_Parameter[1]<<8|H2C_Parameter[2]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x19, 3, H2C_Parameter);
++}
++
++VOID
++halbtc8723a2ant_QueryBtInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte			H2C_Parameter[1] ={0};
++
++	pCoexSta->bC2hBtInfoReqSent = TRUE;
++
++	H2C_Parameter[0] |= BIT0;	// trigger
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Query Bt Info, FW write 0x38=0x%x\n", 
++		H2C_Parameter[0]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x38, 1, H2C_Parameter);
++}
++u1Byte
++halbtc8723a2ant_ActionAlgorithm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	PBTC_STACK_INFO		pStackInfo=&pBtCoexist->stackInfo;
++	BOOLEAN				bBtHsOn=FALSE, bBtBusy=FALSE, bLimitedDig=FALSE;
++	u1Byte				algorithm=BT_8723A_2ANT_COEX_ALGO_UNDEFINED;
++	u1Byte				numOfDiffProfile=0;
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++
++	//======================
++	// here we get BT status first
++	//======================
++	pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_IDLE;
++	
++	if((pStackInfo->bScoExist) ||(bBtHsOn) ||(pStackInfo->bHidExist))
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO or HID or HS exists, set BT non-idle !!!\n"));
++		pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_NON_IDLE;
++	}
++	else
++	{
++		// A2dp profile
++		if( (pBtCoexist->stackInfo.numOfLink == 1) &&
++			(pStackInfo->bA2dpExist) )
++		{		
++			if( (pCoexSta->lowPriorityTx+	pCoexSta->lowPriorityRx) < 100)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], A2DP, low priority tx+rx < 100, set BT connected-idle!!!\n"));
++				pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE;
++			}
++			else
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], A2DP, low priority tx+rx >= 100, set BT non-idle!!!\n"));
++				pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_NON_IDLE;
++			}
++		}
++		// Pan profile
++		if( (pBtCoexist->stackInfo.numOfLink == 1) &&
++			(pStackInfo->bPanExist) )
++		{		
++			if((pCoexSta->lowPriorityTx+	pCoexSta->lowPriorityRx) < 600)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN, low priority tx+rx < 600, set BT connected-idle!!!\n"));
++				pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE;
++			}
++			else
++			{
++				if(pCoexSta->lowPriorityTx)
++				{
++					if((pCoexSta->lowPriorityRx /pCoexSta->lowPriorityTx)>9 )
++					{
++						RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN, low priority rx/tx > 9, set BT connected-idle!!!\n"));
++						pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE;
++					}
++				}
++			}
++			if(BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE != pCoexDm->btStatus)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN, set BT non-idle!!!\n"));
++				pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_NON_IDLE;
++			}
++		}
++		// Pan+A2dp profile
++		if( (pBtCoexist->stackInfo.numOfLink == 2) &&
++			(pStackInfo->bA2dpExist) &&
++			(pStackInfo->bPanExist) )
++		{
++			if((pCoexSta->lowPriorityTx+	pCoexSta->lowPriorityRx) < 600)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN+A2DP, low priority tx+rx < 600, set BT connected-idle!!!\n"));
++				pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE;
++			}
++			else
++			{
++				if(pCoexSta->lowPriorityTx)
++				{
++					if((pCoexSta->lowPriorityRx /pCoexSta->lowPriorityTx)>9 )
++					{
++						RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN+A2DP, low priority rx/tx > 9, set BT connected-idle!!!\n"));
++						pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE;
++					}
++				}
++			}
++			if(BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE != pCoexDm->btStatus)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN+A2DP, set BT non-idle!!!\n"));
++				pCoexDm->btStatus = BT_8723A_2ANT_BT_STATUS_NON_IDLE;
++			}
++		}
++	}
++	if(BT_8723A_2ANT_BT_STATUS_IDLE != pCoexDm->btStatus)
++	{
++		bBtBusy = TRUE;
++		bLimitedDig = TRUE;
++	}
++	else
++	{
++		bBtBusy = FALSE;
++		bLimitedDig = FALSE;
++	}
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bBtBusy);
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_LIMITED_DIG, &bLimitedDig);
++	//======================
++
++	if(!pStackInfo->bBtLinkExist)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], No profile exists!!!\n"));
++		return algorithm;
++	}
++
++	if(pStackInfo->bScoExist)
++		numOfDiffProfile++;
++	if(pStackInfo->bHidExist)
++		numOfDiffProfile++;
++	if(pStackInfo->bPanExist)
++		numOfDiffProfile++;
++	if(pStackInfo->bA2dpExist)
++		numOfDiffProfile++;
++	
++	if(numOfDiffProfile == 1)
++	{
++		if(pStackInfo->bScoExist)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO only\n"));
++			algorithm = BT_8723A_2ANT_COEX_ALGO_SCO;
++		}
++		else
++		{
++			if(pStackInfo->bHidExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID only\n"));
++				algorithm = BT_8723A_2ANT_COEX_ALGO_HID;
++			}
++			else if(pStackInfo->bA2dpExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], A2DP only\n"));
++				algorithm = BT_8723A_2ANT_COEX_ALGO_A2DP;
++			}
++			else if(pStackInfo->bPanExist)
++			{
++				if(bBtHsOn)
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN(HS) only\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_PANHS;
++				}
++				else
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PAN(EDR) only\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	}
++	else if(numOfDiffProfile == 2)
++	{
++		if(pStackInfo->bScoExist)
++		{
++			if(pStackInfo->bHidExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + HID\n"));
++				algorithm = BT_8723A_2ANT_COEX_ALGO_HID;
++			}
++			else if(pStackInfo->bA2dpExist)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + A2DP ==> SCO\n"));
++				algorithm = BT_8723A_2ANT_COEX_ALGO_SCO;
++			}
++			else if(pStackInfo->bPanExist)
++			{
++				if(bBtHsOn)
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + PAN(HS)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_SCO;
++				}
++				else
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + PAN(EDR)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++		else
++		{
++			if( pStackInfo->bHidExist &&
++				pStackInfo->bA2dpExist )
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID + A2DP\n"));
++				algorithm = BT_8723A_2ANT_COEX_ALGO_HID_A2DP;
++			}
++			else if( pStackInfo->bHidExist &&
++				pStackInfo->bPanExist )
++			{
++				if(bBtHsOn)
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID + PAN(HS)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_HID_A2DP;
++				}
++				else
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID + PAN(EDR)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++			else if( pStackInfo->bPanExist &&
++				pStackInfo->bA2dpExist )
++			{
++				if(bBtHsOn)
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], A2DP + PAN(HS)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_A2DP;
++				}
++				else
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], A2DP + PAN(EDR)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	}
++	else if(numOfDiffProfile == 3)
++	{
++		if(pStackInfo->bScoExist)
++		{
++			if( pStackInfo->bHidExist &&
++				pStackInfo->bA2dpExist )
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + HID + A2DP ==> HID\n"));
++				algorithm = BT_8723A_2ANT_COEX_ALGO_HID;
++			}
++			else if( pStackInfo->bHidExist &&
++				pStackInfo->bPanExist )
++			{
++				if(bBtHsOn)
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + HID + PAN(HS)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_HID_A2DP;
++				}
++				else
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + HID + PAN(EDR)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++			else if( pStackInfo->bPanExist &&
++				pStackInfo->bA2dpExist )
++			{
++				if(bBtHsOn)
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + A2DP + PAN(HS)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_SCO;
++				}
++				else
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + A2DP + PAN(EDR) ==> HID\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++		else
++		{
++			if( pStackInfo->bHidExist &&
++				pStackInfo->bPanExist &&
++				pStackInfo->bA2dpExist )
++			{
++				if(bBtHsOn)
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID + A2DP + PAN(HS)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_HID_A2DP;
++				}
++				else
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], HID + A2DP + PAN(EDR)\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	}
++	else if(numOfDiffProfile >= 3)
++	{
++		if(pStackInfo->bScoExist)
++		{
++			if( pStackInfo->bHidExist &&
++				pStackInfo->bPanExist &&
++				pStackInfo->bA2dpExist )
++			{
++				if(bBtHsOn)
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Error!!! SCO + HID + A2DP + PAN(HS)\n"));
++
++				}
++				else
++				{
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n"));
++					algorithm = BT_8723A_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++BOOLEAN
++halbtc8723a2ant_NeedToDecBtPwr(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bRet=FALSE;
++	BOOLEAN		bBtHsOn=FALSE, bWifiConnected=FALSE;
++	s4Byte		btHsRssi=0;
++	u1Byte		btRssiState=BTC_RSSI_STATE_HIGH;
++
++	btRssiState = halbtc8723a2ant_BtRssiState(2, 42, 0);
++
++	if(!pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn))
++		return FALSE;
++	if(!pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_CONNECTED, &bWifiConnected))
++		return FALSE;
++	if(!pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_S4_HS_RSSI, &btHsRssi))
++		return FALSE;
++	if(BTC_RSSI_LOW(btRssiState))
++		return FALSE;
++
++	if(bWifiConnected)
++	{
++		if(bBtHsOn)
++		{
++			if(btHsRssi > 37)
++			{
++				RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Need to decrease bt power for HS mode!!\n"));
++				bRet = TRUE;
++			}
++		}
++		else
++		{
++			RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Need to decrease bt power for Wifi is connected!!\n"));
++			bRet = TRUE;
++		}
++	}
++	
++	return bRet;
++}
++
++VOID
++halbtc8723a2ant_SetFwDacSwingLevel(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			dacSwingLvl
++	)
++{
++	u1Byte			H2C_Parameter[1] ={0};
++
++	// There are several type of dacswing
++	// 0x18/ 0x10/ 0xc/ 0x8/ 0x4/ 0x6
++	H2C_Parameter[0] = dacSwingLvl;
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Set Dac Swing Level=0x%x\n", dacSwingLvl));
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], FW write 0x29=0x%x\n", H2C_Parameter[0]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x29, 1, H2C_Parameter);
++}
++
++VOID
++halbtc8723a2ant_SetFwDecBtPwr(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bDecBtPwr
++	)
++{
++	u1Byte			H2C_Parameter[1] ={0};
++	
++	H2C_Parameter[0] = 0;
++
++	if(bDecBtPwr)
++	{
++		H2C_Parameter[0] |= BIT1;
++	}
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], decrease Bt Power : %s, FW write 0x21=0x%x\n", 
++		(bDecBtPwr? "Yes!!":"No!!"), H2C_Parameter[0]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x21, 1, H2C_Parameter);	
++}
++
++VOID
++halbtc8723a2ant_DecBtPwr(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bDecBtPwr
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s Dec BT power = %s\n",  
++		(bForceExec? "force to":""), ((bDecBtPwr)? "ON":"OFF")));
++	pCoexDm->bCurDecBtPwr = bDecBtPwr;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreDecBtPwr == pCoexDm->bCurDecBtPwr) 
++			return;
++	}
++	halbtc8723a2ant_SetFwDecBtPwr(pBtCoexist, pCoexDm->bCurDecBtPwr);
++
++	pCoexDm->bPreDecBtPwr = pCoexDm->bCurDecBtPwr;
++}
++
++VOID
++halbtc8723a2ant_FwDacSwingLvl(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	u1Byte			fwDacSwingLvl
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s set FW Dac Swing level = %d\n",  
++		(bForceExec? "force to":""), fwDacSwingLvl));
++	pCoexDm->curFwDacSwingLvl = fwDacSwingLvl;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->preFwDacSwingLvl == pCoexDm->curFwDacSwingLvl) 
++			return;
++	}
++
++	halbtc8723a2ant_SetFwDacSwingLevel(pBtCoexist, pCoexDm->curFwDacSwingLvl);
++
++	pCoexDm->preFwDacSwingLvl = pCoexDm->curFwDacSwingLvl;
++}
++
++VOID
++halbtc8723a2ant_SetSwRfRxLpfCorner(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bRxRfShrinkOn
++	)
++{
++	if(bRxRfShrinkOn)
++	{
++		//Shrink RF Rx LPF corner
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Shrink RF Rx LPF corner!!\n"));
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xfffff, 0xf0ff7);
++	}
++	else
++	{
++		//Resume RF Rx LPF corner
++		// After initialized, we can use pCoexDm->btRf0x1eBackup
++		if(pBtCoexist->bInitilized)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Resume RF Rx LPF corner!!\n"));
++			pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xfffff, pCoexDm->btRf0x1eBackup);
++		}
++	}
++}
++
++VOID
++halbtc8723a2ant_RfShrink(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bRxRfShrinkOn
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn Rx RF Shrink = %s\n",  
++		(bForceExec? "force to":""), ((bRxRfShrinkOn)? "ON":"OFF")));
++	pCoexDm->bCurRfRxLpfShrink = bRxRfShrinkOn;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreRfRxLpfShrink == pCoexDm->bCurRfRxLpfShrink) 
++			return;
++	}
++	halbtc8723a2ant_SetSwRfRxLpfCorner(pBtCoexist, pCoexDm->bCurRfRxLpfShrink);
++
++	pCoexDm->bPreRfRxLpfShrink = pCoexDm->bCurRfRxLpfShrink;
++}
++
++VOID
++halbtc8723a2ant_SetSwPenaltyTxRateAdaptive(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bLowPenaltyRa
++	)
++{
++	u1Byte	tmpU1;
++
++	tmpU1 = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x4fd);
++	tmpU1 |= BIT0;
++	if(bLowPenaltyRa)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Tx rate adaptive, set low penalty!!\n"));
++		tmpU1 &= ~BIT2;
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Tx rate adaptive, set normal!!\n"));
++		tmpU1 |= BIT2;
++	}
++
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x4fd, tmpU1);
++}
++
++VOID
++halbtc8723a2ant_LowPenaltyRa(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bLowPenaltyRa
++	)
++{
++	return;
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn LowPenaltyRA = %s\n",  
++		(bForceExec? "force to":""), ((bLowPenaltyRa)? "ON":"OFF")));
++	pCoexDm->bCurLowPenaltyRa = bLowPenaltyRa;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreLowPenaltyRa == pCoexDm->bCurLowPenaltyRa) 
++			return;
++	}
++	halbtc8723a2ant_SetSwPenaltyTxRateAdaptive(pBtCoexist, pCoexDm->bCurLowPenaltyRa);
++
++	pCoexDm->bPreLowPenaltyRa = pCoexDm->bCurLowPenaltyRa;
++}
++
++VOID
++halbtc8723a2ant_SetSwFullTimeDacSwing(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bSwDacSwingOn,
++	IN	u4Byte			swDacSwingLvl
++	)
++{
++	if(bSwDacSwingOn)
++	{
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x880, 0xff000000, swDacSwingLvl);
++	}
++	else
++	{
++		pBtCoexist->fBtcSetBbReg(pBtCoexist, 0x880, 0xff000000, 0xc0);
++	}
++}
++
++
++VOID
++halbtc8723a2ant_DacSwing(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bDacSwingOn,
++	IN	u4Byte			dacSwingLvl
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn DacSwing=%s, dacSwingLvl=0x%x\n",  
++		(bForceExec? "force to":""), ((bDacSwingOn)? "ON":"OFF"), dacSwingLvl));
++	pCoexDm->bCurDacSwingOn = bDacSwingOn;
++	pCoexDm->curDacSwingLvl = dacSwingLvl;
++
++	if(!bForceExec)
++	{
++		if( (pCoexDm->bPreDacSwingOn == pCoexDm->bCurDacSwingOn) &&
++			(pCoexDm->preDacSwingLvl == pCoexDm->curDacSwingLvl) )
++			return;
++	}
++	delay_ms(30);
++	halbtc8723a2ant_SetSwFullTimeDacSwing(pBtCoexist, bDacSwingOn, dacSwingLvl);
++
++	pCoexDm->bPreDacSwingOn = pCoexDm->bCurDacSwingOn;
++	pCoexDm->preDacSwingLvl = pCoexDm->curDacSwingLvl;
++}
++
++VOID
++halbtc8723a2ant_SetAdcBackOff(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bAdcBackOff
++	)
++{
++	if(bAdcBackOff)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BB BackOff Level On!\n"));
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc04,0x3a07611);
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BB BackOff Level Off!\n"));		
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc04,0x3a05611);
++	}
++}
++
++VOID
++halbtc8723a2ant_AdcBackOff(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bAdcBackOff
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn AdcBackOff = %s\n",  
++		(bForceExec? "force to":""), ((bAdcBackOff)? "ON":"OFF")));
++	pCoexDm->bCurAdcBackOff = bAdcBackOff;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreAdcBackOff == pCoexDm->bCurAdcBackOff) 
++			return;
++	}
++	halbtc8723a2ant_SetAdcBackOff(pBtCoexist, pCoexDm->bCurAdcBackOff);
++
++	pCoexDm->bPreAdcBackOff = pCoexDm->bCurAdcBackOff;
++}
++
++VOID
++halbtc8723a2ant_SetAgcTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bAgcTableEn
++	)
++{
++	u1Byte		rssiAdjustVal=0;
++
++	if(bAgcTableEn)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Agc Table On!\n"));
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4e1c0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4d1d0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4c1e0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4b1f0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x4a200001);
++		
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0xdc000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x90000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x51000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x12000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1a, 0xfffff, 0x00355);
++		
++		rssiAdjustVal = 6;
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Agc Table Off!\n"));
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x641c0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x631d0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x621e0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x611f0001);
++		pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0xc78,0x60200001);
++
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x32000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0x71000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0xb0000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x12, 0xfffff, 0xfc000);
++		pBtCoexist->fBtcSetRfReg(pBtCoexist, BTC_RF_A, 0x1a, 0xfffff, 0x30355);
++	}
++
++	// set rssiAdjustVal for wifi module.
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_U1_RSSI_ADJ_VAL_FOR_AGC_TABLE_ON, &rssiAdjustVal);
++}
++
++
++VOID
++halbtc8723a2ant_AgcTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bAgcTableEn
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s %s Agc Table\n",  
++		(bForceExec? "force to":""), ((bAgcTableEn)? "Enable":"Disable")));
++	pCoexDm->bCurAgcTableEn = bAgcTableEn;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreAgcTableEn == pCoexDm->bCurAgcTableEn) 
++			return;
++	}
++	halbtc8723a2ant_SetAgcTable(pBtCoexist, bAgcTableEn);
++
++	pCoexDm->bPreAgcTableEn = pCoexDm->bCurAgcTableEn;
++}
++
++VOID
++halbtc8723a2ant_SetCoexTable(
++	IN	PBTC_COEXIST	pBtCoexist,
++	IN	u4Byte		val0x6c0,
++	IN	u4Byte		val0x6c8,
++	IN	u1Byte		val0x6cc
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], set coex table, set 0x6c0=0x%x\n", val0x6c0));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c0, val0x6c0);
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], set coex table, set 0x6c8=0x%x\n", val0x6c8));
++	pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c8, val0x6c8);
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], set coex table, set 0x6cc=0x%x\n", val0x6cc));
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x6cc, val0x6cc);
++}
++
++VOID
++halbtc8723a2ant_CoexTable(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	u4Byte			val0x6c0,
++	IN	u4Byte			val0x6c8,
++	IN	u1Byte			val0x6cc
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s write Coex Table 0x6c0=0x%x, 0x6c8=0x%x, 0x6cc=0x%x\n", 
++		(bForceExec? "force to":""), val0x6c0, val0x6c8, val0x6cc));
++	pCoexDm->curVal0x6c0 = val0x6c0;
++	pCoexDm->curVal0x6c8 = val0x6c8;
++	pCoexDm->curVal0x6cc = val0x6cc;
++
++	if(!bForceExec)
++	{	
++		if( (pCoexDm->preVal0x6c0 == pCoexDm->curVal0x6c0) &&
++			(pCoexDm->preVal0x6c8 == pCoexDm->curVal0x6c8) &&
++			(pCoexDm->preVal0x6cc == pCoexDm->curVal0x6cc) )
++			return;
++	}
++	halbtc8723a2ant_SetCoexTable(pBtCoexist, val0x6c0, val0x6c8, val0x6cc);
++
++	pCoexDm->preVal0x6c0 = pCoexDm->curVal0x6c0;
++	pCoexDm->preVal0x6c8 = pCoexDm->curVal0x6c8;
++	pCoexDm->preVal0x6cc = pCoexDm->curVal0x6cc;
++}
++
++VOID
++halbtc8723a2ant_SetFwIgnoreWlanAct(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bEnable
++	)
++{
++	u1Byte			H2C_Parameter[1] ={0};
++		
++	if(bEnable)
++	{
++		H2C_Parameter[0] |= BIT0;		// function enable
++	}
++	
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], set FW for BT Ignore Wlan_Act, FW write 0x25=0x%x\n", 
++		H2C_Parameter[0]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x25, 1, H2C_Parameter);	
++}
++
++VOID
++halbtc8723a2ant_IgnoreWlanAct(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bEnable
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn Ignore WlanAct %s\n", 
++		(bForceExec? "force to":""), (bEnable? "ON":"OFF")));
++	pCoexDm->bCurIgnoreWlanAct = bEnable;
++
++	if(!bForceExec)
++	{
++		if(pCoexDm->bPreIgnoreWlanAct == pCoexDm->bCurIgnoreWlanAct)
++			return;
++	}
++	halbtc8723a2ant_SetFwIgnoreWlanAct(pBtCoexist, bEnable);
++
++	pCoexDm->bPreIgnoreWlanAct = pCoexDm->bCurIgnoreWlanAct;
++}
++
++VOID
++halbtc8723a2ant_SetFwPstdma(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			byte1,
++	IN	u1Byte			byte2,
++	IN	u1Byte			byte3,
++	IN	u1Byte			byte4,
++	IN	u1Byte			byte5
++	)
++{
++	u1Byte			H2C_Parameter[5] ={0};
++
++	H2C_Parameter[0] = byte1;	
++	H2C_Parameter[1] = byte2;	
++	H2C_Parameter[2] = byte3;
++	H2C_Parameter[3] = byte4;
++	H2C_Parameter[4] = byte5;
++
++	pCoexDm->psTdmaPara[0] = byte1;
++	pCoexDm->psTdmaPara[1] = byte2;
++	pCoexDm->psTdmaPara[2] = byte3;
++	pCoexDm->psTdmaPara[3] = byte4;
++	pCoexDm->psTdmaPara[4] = byte5;
++	
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], FW write 0x3a(5bytes)=0x%x%08x\n", 
++		H2C_Parameter[0], 
++		H2C_Parameter[1]<<24|H2C_Parameter[2]<<16|H2C_Parameter[3]<<8|H2C_Parameter[4]));
++
++	pBtCoexist->fBtcFillH2c(pBtCoexist, 0x3a, 5, H2C_Parameter);
++}
++
++VOID
++halbtc8723a2ant_PsTdma(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bForceExec,
++	IN	BOOLEAN			bTurnOn,
++	IN	u1Byte			type
++	)
++{
++	u4Byte	btTxRxCnt=0;
++
++	btTxRxCnt = pCoexSta->highPriorityTx+pCoexSta->highPriorityRx+
++				pCoexSta->lowPriorityTx+pCoexSta->lowPriorityRx;
++
++	if(btTxRxCnt > 3000)
++	{		
++		pCoexDm->bCurPsTdmaOn = TRUE;
++		pCoexDm->curPsTdma = 8;
++		RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], turn ON PS TDMA, type=%d for BT tx/rx counters=%d(>3000)\n", 
++			pCoexDm->curPsTdma, btTxRxCnt));
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], %s turn %s PS TDMA, type=%d\n", 
++			(bForceExec? "force to":""), (bTurnOn? "ON":"OFF"), type));		
++		pCoexDm->bCurPsTdmaOn = bTurnOn;
++		pCoexDm->curPsTdma = type;
++	}
++
++	if(!bForceExec)
++	{
++		if( (pCoexDm->bPrePsTdmaOn == pCoexDm->bCurPsTdmaOn) &&
++			(pCoexDm->prePsTdma == pCoexDm->curPsTdma) )
++			return;
++	}	
++	if(pCoexDm->bCurPsTdmaOn)
++	{
++		switch(pCoexDm->curPsTdma)
++		{
++			case 1:
++			default:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x1a, 0x1a, 0xe1, 0x98);
++				break;
++			case 2:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x12, 0x12, 0xe1, 0x98);
++				break;
++			case 3:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0xa, 0xa, 0xe1, 0x98);
++				break;
++			case 4:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xa3, 0x5, 0x5, 0xe1, 0x80);
++				break;
++			case 5:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x1a, 0x1a, 0x60, 0x98);
++				break;
++			case 6:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x12, 0x12, 0x60, 0x98);
++				break;
++			case 7:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0xa, 0xa, 0x60, 0x98);
++				break;
++			case 8: 
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xa3, 0x5, 0x5, 0x60, 0x80);
++				break;
++			case 9: 
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x1a, 0x1a, 0xe1, 0x98);
++				break;
++			case 10:	
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x12, 0x12, 0xe1, 0x98);
++				break;
++			case 11:	
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0xa, 0xa, 0xe1, 0x98);
++				break;
++			case 12:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x5, 0x5, 0xe1, 0x98);
++				break;
++			case 13:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x1a, 0x1a, 0x60, 0x98);
++				break;
++			case 14:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x12, 0x12, 0x60, 0x98);
++				break;
++			case 15:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0xa, 0xa, 0x60, 0x98);
++				break;
++			case 16:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x5, 0x5, 0x60, 0x98);
++				break;
++			case 17:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xa3, 0x2f, 0x2f, 0x60, 0x80);
++				break;
++			case 18:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x5, 0x5, 0xe1, 0x98);
++				break;			
++			case 19:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x25, 0x25, 0xe1, 0x98);
++				break;
++			case 20:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0xe3, 0x25, 0x25, 0x60, 0x98);
++				break;
++		}
++	}
++	else
++	{
++		// disable PS tdma
++		switch(pCoexDm->curPsTdma)
++		{
++			case 0:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0x0, 0x0, 0x0, 0x8, 0x0);
++				break;
++			case 1:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0x0, 0x0, 0x0, 0x0, 0x0);
++				break;
++			default:
++				halbtc8723a2ant_SetFwPstdma(pBtCoexist, 0x0, 0x0, 0x0, 0x8, 0x0);
++				break;
++		}
++	}
++
++	// update pre state
++	pCoexDm->bPrePsTdmaOn = pCoexDm->bCurPsTdmaOn;
++	pCoexDm->prePsTdma = pCoexDm->curPsTdma;
++}
++
++
++VOID
++halbtc8723a2ant_CoexAllOff(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	// fw all off
++	halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++	halbtc8723a2ant_FwDacSwingLvl(pBtCoexist, NORMAL_EXEC, 0x20);
++	halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++
++	// sw all off
++	halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_RfShrink(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++
++	// hw all off
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++}
++
++VOID
++halbtc8723a2ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	// force to reset coex mechanism
++	halbtc8723a2ant_CoexTable(pBtCoexist, FORCE_EXEC, 0x55555555, 0xffff, 0x3);
++	halbtc8723a2ant_PsTdma(pBtCoexist, FORCE_EXEC, FALSE, 0);
++	halbtc8723a2ant_FwDacSwingLvl(pBtCoexist, FORCE_EXEC, 0x20);
++	halbtc8723a2ant_DecBtPwr(pBtCoexist, FORCE_EXEC, FALSE);
++	halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, FORCE_EXEC, FALSE);
++
++	halbtc8723a2ant_AgcTable(pBtCoexist, FORCE_EXEC, FALSE);
++	halbtc8723a2ant_AdcBackOff(pBtCoexist, FORCE_EXEC, FALSE);
++	halbtc8723a2ant_LowPenaltyRa(pBtCoexist, FORCE_EXEC, FALSE);
++	halbtc8723a2ant_RfShrink(pBtCoexist, FORCE_EXEC, FALSE);
++	halbtc8723a2ant_DacSwing(pBtCoexist, FORCE_EXEC, FALSE, 0xc0);
++}
++
++VOID
++halbtc8723a2ant_BtInquiryPage(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN	bLowPwrDisable=TRUE;
++	
++	pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_DISABLE_LOW_POWER, &bLowPwrDisable);
++
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++	halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);
++}
++
++VOID
++halbtc8723a2ant_BtEnableAction(
++	IN 	PBTC_COEXIST		pBtCoexist
++	)
++{
++	BOOLEAN		bWifiConnected=FALSE;
++	
++	// Here we need to resend some wifi info to BT
++	// because bt is reset and loss of the info.						
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_CONNECTED, &bWifiConnected);
++	if(bWifiConnected)
++	{
++		halbtc8723a2ant_IndicateWifiChnlBwInfo(pBtCoexist, BTC_MEDIA_CONNECT);
++	}
++	else
++	{
++		halbtc8723a2ant_IndicateWifiChnlBwInfo(pBtCoexist, BTC_MEDIA_DISCONNECT);
++	}
++
++	halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, FORCE_EXEC, FALSE);
++}
++
++VOID
++halbtc8723a2ant_MonitorBtCtr(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u4Byte 			regHPTxRx, regLPTxRx, u4Tmp;
++	u4Byte			regHPTx=0, regHPRx=0, regLPTx=0, regLPRx=0;
++	u1Byte			u1Tmp;
++	
++	regHPTxRx = 0x770;
++	regLPTxRx = 0x774;
++
++	u4Tmp = pBtCoexist->fBtcRead4Byte(pBtCoexist, regHPTxRx);
++	regHPTx = u4Tmp & bMaskLWord;
++	regHPRx = (u4Tmp & bMaskHWord)>>16;
++
++	u4Tmp = pBtCoexist->fBtcRead4Byte(pBtCoexist, regLPTxRx);
++	regLPTx = u4Tmp & bMaskLWord;
++	regLPRx = (u4Tmp & bMaskHWord)>>16;
++		
++	pCoexSta->highPriorityTx = regHPTx;
++	pCoexSta->highPriorityRx = regHPRx;
++	pCoexSta->lowPriorityTx = regLPTx;
++	pCoexSta->lowPriorityRx = regLPRx;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], High Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n", 
++		regHPTxRx, regHPTx, regHPTx, regHPRx, regHPRx));
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Low Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n", 
++		regLPTxRx, regLPTx, regLPTx, regLPRx, regLPRx));
++
++	// reset counter
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x76e, 0xc);
++}
++
++VOID
++halbtc8723a2ant_MonitorBtEnableDisable(
++	IN 	PBTC_COEXIST		pBtCoexist
++	)
++{
++	static BOOLEAN	bPreBtDisabled=FALSE;
++	static u4Byte	btDisableCnt=0;
++	BOOLEAN			bBtActive=TRUE, bBtDisabled=FALSE;
++
++	// This function check if bt is disabled
++
++	if(	pCoexSta->highPriorityTx == 0 &&
++		pCoexSta->highPriorityRx == 0 &&
++		pCoexSta->lowPriorityTx == 0 &&
++		pCoexSta->lowPriorityRx == 0)
++	{
++		bBtActive = FALSE;
++	}
++	if(	pCoexSta->highPriorityTx == 0xffff &&
++		pCoexSta->highPriorityRx == 0xffff &&
++		pCoexSta->lowPriorityTx == 0xffff &&
++		pCoexSta->lowPriorityRx == 0xffff)
++	{
++		bBtActive = FALSE;
++	}
++	if(bBtActive)
++	{
++		btDisableCnt = 0;
++		bBtDisabled = FALSE;
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_DISABLE, &bBtDisabled);
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT is enabled !!\n"));
++	}
++	else
++	{
++		btDisableCnt++;
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], bt all counters=0, %d times!!\n", 
++				btDisableCnt));
++		if(btDisableCnt >= 2)
++		{
++			bBtDisabled = TRUE;
++			pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_BL_BT_DISABLE, &bBtDisabled);
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT is disabled !!\n"));
++		}
++	}
++	if(bPreBtDisabled != bBtDisabled)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], BT is from %s to %s!!\n", 
++			(bPreBtDisabled ? "disabled":"enabled"), 
++			(bBtDisabled ? "disabled":"enabled")));
++		bPreBtDisabled = bBtDisabled;
++		if(!bBtDisabled)
++		{
++			halbtc8723a2ant_BtEnableAction(pBtCoexist);
++		}
++	}
++}
++
++BOOLEAN
++halbtc8723a2ant_IsCommonAction(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	PBTC_STACK_INFO		pStackInfo=&pBtCoexist->stackInfo;
++	BOOLEAN			bCommon=FALSE, bWifiConnected=FALSE;
++	BOOLEAN			bLowPwrDisable=FALSE;
++
++	if(!pStackInfo->bBtLinkExist)
++	{
++		bLowPwrDisable = FALSE;
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_DISABLE_LOW_POWER, &bLowPwrDisable);
++	}
++	else
++	{
++		bLowPwrDisable = TRUE;
++		pBtCoexist->fBtcSet(pBtCoexist, BTC_SET_ACT_DISABLE_LOW_POWER, &bLowPwrDisable);
++	}
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_CONNECTED, &bWifiConnected);
++
++	if(halbtc8723a2ant_IsWifiIdle(pBtCoexist) && 
++		BT_8723A_2ANT_BT_STATUS_IDLE == pCoexDm->btStatus)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Wifi idle + Bt idle!!\n"));
++			
++		halbtc8723a2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_RfShrink(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++		halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++		halbtc8723a2ant_FwDacSwingLvl(pBtCoexist, NORMAL_EXEC, 0x20);
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++
++		bCommon = TRUE;
++	}
++	else if(!halbtc8723a2ant_IsWifiIdle(pBtCoexist) && 
++			(BT_8723A_2ANT_BT_STATUS_IDLE == pCoexDm->btStatus) )
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Wifi non-idle + BT idle!!\n"));
++
++		halbtc8723a2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_RfShrink(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++		halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++		halbtc8723a2ant_FwDacSwingLvl(pBtCoexist, NORMAL_EXEC, 0x20);
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++
++		bCommon = TRUE;
++	}
++	else if(halbtc8723a2ant_IsWifiIdle(pBtCoexist) && 
++		(BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE == pCoexDm->btStatus) )
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Wifi idle + Bt connected idle!!\n"));
++		
++		halbtc8723a2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_RfShrink(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++		halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++		halbtc8723a2ant_FwDacSwingLvl(pBtCoexist, NORMAL_EXEC, 0x20);
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++
++		bCommon = TRUE;
++	}
++	else if(!halbtc8723a2ant_IsWifiIdle(pBtCoexist) && 
++		(BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE == pCoexDm->btStatus) )
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Wifi non-idle + Bt connected idle!!\n"));
++
++		halbtc8723a2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_RfShrink(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++		halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++		halbtc8723a2ant_FwDacSwingLvl(pBtCoexist, NORMAL_EXEC, 0x20);
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++
++		bCommon = TRUE;
++	}
++	else if(halbtc8723a2ant_IsWifiIdle(pBtCoexist) && 
++			(BT_8723A_2ANT_BT_STATUS_NON_IDLE == pCoexDm->btStatus) )
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Wifi idle + BT non-idle!!\n"));
++		
++		halbtc8723a2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_RfShrink(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++		halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++		halbtc8723a2ant_FwDacSwingLvl(pBtCoexist, NORMAL_EXEC, 0x20);
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		
++		bCommon = TRUE;
++	}
++	else if(halbtc8723a2ant_IsWifiConnectedIdle(pBtCoexist) && 
++			(BT_8723A_2ANT_BT_STATUS_NON_IDLE == pCoexDm->btStatus) )
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Wifi connected-idle + BT non-idle!!\n"));
++
++		halbtc8723a2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_RfShrink(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++		halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++		halbtc8723a2ant_FwDacSwingLvl(pBtCoexist, NORMAL_EXEC, 0x20);
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		
++		bCommon = TRUE;
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Wifi non-idle + BT non-idle!!\n"));
++		halbtc8723a2ant_LowPenaltyRa(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_RfShrink(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_FwDacSwingLvl(pBtCoexist, NORMAL_EXEC, 0x20);
++		
++		bCommon = FALSE;
++	}
++	
++	return bCommon;
++}
++VOID
++halbtc8723a2ant_TdmaDurationAdjust(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN			bScoHid,
++	IN	BOOLEAN			bTxPause,
++	IN	u1Byte			maxInterval
++	)
++{
++	static s4Byte		up,dn,m,n,WaitCount;
++	s4Byte			result;   //0: no change, +1: increase WiFi duration, -1: decrease WiFi duration
++	u1Byte			retryCount=0;
++
++	RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], TdmaDurationAdjust()\n"));
++
++	if(pCoexDm->bResetTdmaAdjust)
++	{
++		pCoexDm->bResetTdmaAdjust = FALSE;
++		RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], first run TdmaDurationAdjust()!!\n"));
++		{
++			if(bScoHid)
++			{
++				if(bTxPause)
++				{
++					if(maxInterval == 1)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 13);
++						pCoexDm->psTdmaDuAdjType = 13;	
++					}
++					else if(maxInterval == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++						pCoexDm->psTdmaDuAdjType = 14;	
++					}
++					else if(maxInterval == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;	
++					}
++					else
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++				}
++				else
++				{
++					if(maxInterval == 1)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 9);
++						pCoexDm->psTdmaDuAdjType = 9;	
++					}
++					else if(maxInterval == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++						pCoexDm->psTdmaDuAdjType = 10;	
++					}
++					else if(maxInterval == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++					else
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++				}
++			}
++			else
++			{
++				if(bTxPause)
++				{
++					if(maxInterval == 1)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 5);
++						pCoexDm->psTdmaDuAdjType = 5;	
++					}
++					else if(maxInterval == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++						pCoexDm->psTdmaDuAdjType = 6;	
++					}
++					else if(maxInterval == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++					else
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++				}
++				else
++				{
++					if(maxInterval == 1)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 1);
++						pCoexDm->psTdmaDuAdjType = 1;	
++					}
++					else if(maxInterval == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++						pCoexDm->psTdmaDuAdjType = 2;	
++					}
++					else if(maxInterval == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++				}
++			}
++		}
++		//============
++		up = 0;
++		dn = 0;
++		m = 1;
++		n= 3;
++		result = 0;
++		WaitCount = 0;
++	}
++	else
++	{
++		//accquire the BT TRx retry count from BT_Info byte2
++		retryCount = pCoexSta->btRetryCnt;
++		RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], retryCount = %d\n", retryCount));
++		RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], up=%d, dn=%d, m=%d, n=%d, WaitCount=%d\n", 
++			up, dn, m, n, WaitCount));
++		result = 0;
++		WaitCount++; 
++		  
++		if(retryCount == 0)  // no retry in the last 2-second duration
++		{
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;				 
++
++			if(up >= n)	// if ³sÄò n ­Ó2¬í retry count¬°0, «h½Õ¼eWiFi duration
++			{
++				WaitCount = 0; 
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1; 
++				RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Increase wifi duration!!\n"));
++			}
++		}
++		else if (retryCount <= 3)	// <=3 retry in the last 2-second duration
++		{
++			up--; 
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2)	// if ³sÄò 2 ­Ó2¬í retry count< 3, «h½Õ¯¶WiFi duration
++			{
++				if (WaitCount <= 2)
++					m++; // ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^
++				else
++					m = 1;
++
++				if ( m >= 20) //m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration.
++					m = 20;
++
++				n = 3*m;
++				up = 0;
++				dn = 0;
++				WaitCount = 0;
++				result = -1; 
++				RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Decrease wifi duration for retryCounter<3!!\n"));
++			}
++		}
++		else  //retry count > 3, ¥u­n1¦¸ retry count > 3, «h½Õ¯¶WiFi duration
++		{
++			if (WaitCount == 1)
++				m++; // ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^
++			else
++				m = 1;
++
++			if ( m >= 20) //m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration.
++				m = 20;
++
++			n = 3*m;
++			up = 0;
++			dn = 0;
++			WaitCount = 0; 
++			result = -1;
++			RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], Decrease wifi duration for retryCounter>3!!\n"));
++		}
++
++		RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], max Interval = %d\n", maxInterval));
++		if(maxInterval == 1)
++		{
++			if(bTxPause)
++			{
++				RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], TxPause = 1\n"));
++
++				if(pCoexDm->curPsTdma == 1)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 5);
++					pCoexDm->psTdmaDuAdjType = 5;
++				}
++				else if(pCoexDm->curPsTdma == 2)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++					pCoexDm->psTdmaDuAdjType = 6;
++				}
++				else if(pCoexDm->curPsTdma == 3)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++					pCoexDm->psTdmaDuAdjType = 7;
++				}
++				else if(pCoexDm->curPsTdma == 4)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);
++					pCoexDm->psTdmaDuAdjType = 8;
++				}
++				if(pCoexDm->curPsTdma == 9)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 13);
++					pCoexDm->psTdmaDuAdjType = 13;
++				}
++				else if(pCoexDm->curPsTdma == 10)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++					pCoexDm->psTdmaDuAdjType = 14;
++				}
++				else if(pCoexDm->curPsTdma == 11)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++					pCoexDm->psTdmaDuAdjType = 15;
++				}
++				else if(pCoexDm->curPsTdma == 12)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 16);
++					pCoexDm->psTdmaDuAdjType = 16;
++				}
++				
++				if(result == -1)
++				{					
++					if(pCoexDm->curPsTdma == 5)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++						pCoexDm->psTdmaDuAdjType = 6;
++					}
++					else if(pCoexDm->curPsTdma == 6)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++					else if(pCoexDm->curPsTdma == 7)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);
++						pCoexDm->psTdmaDuAdjType = 8;
++					}
++					else if(pCoexDm->curPsTdma == 13)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++						pCoexDm->psTdmaDuAdjType = 14;
++					}
++					else if(pCoexDm->curPsTdma == 14)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++					else if(pCoexDm->curPsTdma == 15)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 16);
++						pCoexDm->psTdmaDuAdjType = 16;
++					}
++				} 
++				else if (result == 1)
++				{
++					if(pCoexDm->curPsTdma == 8)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++					else if(pCoexDm->curPsTdma == 7)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++						pCoexDm->psTdmaDuAdjType = 6;
++					}
++					else if(pCoexDm->curPsTdma == 6)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 5);
++						pCoexDm->psTdmaDuAdjType = 5;
++					}
++					else if(pCoexDm->curPsTdma == 16)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++					else if(pCoexDm->curPsTdma == 15)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++						pCoexDm->psTdmaDuAdjType = 14;
++					}
++					else if(pCoexDm->curPsTdma == 14)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 13);
++						pCoexDm->psTdmaDuAdjType = 13;
++					}
++				}
++			}
++			else
++			{
++				RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], TxPause = 0\n"));
++				if(pCoexDm->curPsTdma == 5)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 1);
++					pCoexDm->psTdmaDuAdjType = 1;
++				}
++				else if(pCoexDm->curPsTdma == 6)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++					pCoexDm->psTdmaDuAdjType = 2;
++				}
++				else if(pCoexDm->curPsTdma == 7)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++					pCoexDm->psTdmaDuAdjType = 3;
++				}
++				else if(pCoexDm->curPsTdma == 8)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 4);
++					pCoexDm->psTdmaDuAdjType = 4;
++				}
++				if(pCoexDm->curPsTdma == 13)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 9);
++					pCoexDm->psTdmaDuAdjType = 9;
++				}
++				else if(pCoexDm->curPsTdma == 14)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++					pCoexDm->psTdmaDuAdjType = 10;
++				}
++				else if(pCoexDm->curPsTdma == 15)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++					pCoexDm->psTdmaDuAdjType = 11;
++				}
++				else if(pCoexDm->curPsTdma == 16)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 12);
++					pCoexDm->psTdmaDuAdjType = 12;
++				}
++				
++				if(result == -1)
++				{
++					if(pCoexDm->curPsTdma == 1)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++						pCoexDm->psTdmaDuAdjType = 2;
++					}
++					else if(pCoexDm->curPsTdma == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else if(pCoexDm->curPsTdma == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 4);
++						pCoexDm->psTdmaDuAdjType = 4;
++					}
++					else if(pCoexDm->curPsTdma == 9)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++						pCoexDm->psTdmaDuAdjType = 10;
++					}
++					else if(pCoexDm->curPsTdma == 10)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++					else if(pCoexDm->curPsTdma == 11)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 12);
++						pCoexDm->psTdmaDuAdjType = 12;
++					}
++				} 
++				else if (result == 1)
++				{
++					if(pCoexDm->curPsTdma == 4)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else if(pCoexDm->curPsTdma == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++						pCoexDm->psTdmaDuAdjType = 2;
++					}
++					else if(pCoexDm->curPsTdma == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 1);
++						pCoexDm->psTdmaDuAdjType = 1;
++					}
++					else if(pCoexDm->curPsTdma == 12)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++					else if(pCoexDm->curPsTdma == 11)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++						pCoexDm->psTdmaDuAdjType = 10;
++					}
++					else if(pCoexDm->curPsTdma == 10)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 9);
++						pCoexDm->psTdmaDuAdjType = 9;
++					}
++				}
++			}
++		}
++		else if(maxInterval == 2)
++		{
++			if(bTxPause)
++			{
++				RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], TxPause = 1\n"));
++				if(pCoexDm->curPsTdma == 1)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++					pCoexDm->psTdmaDuAdjType = 6;
++				}
++				else if(pCoexDm->curPsTdma == 2)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++					pCoexDm->psTdmaDuAdjType = 6;
++				}
++				else if(pCoexDm->curPsTdma == 3)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++					pCoexDm->psTdmaDuAdjType = 7;
++				}
++				else if(pCoexDm->curPsTdma == 4)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);
++					pCoexDm->psTdmaDuAdjType = 8;
++				}
++				if(pCoexDm->curPsTdma == 9)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++					pCoexDm->psTdmaDuAdjType = 14;
++				}
++				else if(pCoexDm->curPsTdma == 10)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++					pCoexDm->psTdmaDuAdjType = 14;
++				}
++				else if(pCoexDm->curPsTdma == 11)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++					pCoexDm->psTdmaDuAdjType = 15;
++				}
++				else if(pCoexDm->curPsTdma == 12)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 16);
++					pCoexDm->psTdmaDuAdjType = 16;
++				}
++				if(result == -1)
++				{
++					if(pCoexDm->curPsTdma == 5) 
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++						pCoexDm->psTdmaDuAdjType = 6;
++					}
++					else if(pCoexDm->curPsTdma == 6)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++					else if(pCoexDm->curPsTdma == 7)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);
++						pCoexDm->psTdmaDuAdjType = 8;
++					}
++					else if(pCoexDm->curPsTdma == 13)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++						pCoexDm->psTdmaDuAdjType = 14;
++					}
++					else if(pCoexDm->curPsTdma == 14)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++					else if(pCoexDm->curPsTdma == 15)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 16);
++						pCoexDm->psTdmaDuAdjType = 16;
++					}
++				} 
++				else if (result == 1)
++				{
++					if(pCoexDm->curPsTdma == 8)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++					else if(pCoexDm->curPsTdma == 7)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++						pCoexDm->psTdmaDuAdjType = 6;
++					}
++					else if(pCoexDm->curPsTdma == 6)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++						pCoexDm->psTdmaDuAdjType = 6;
++					}					
++					else if(pCoexDm->curPsTdma == 16)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++					else if(pCoexDm->curPsTdma == 15)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++						pCoexDm->psTdmaDuAdjType = 14;
++					}
++					else if(pCoexDm->curPsTdma == 14)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++						pCoexDm->psTdmaDuAdjType = 14;
++					}
++				}
++			}
++			else
++			{
++				RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], TxPause = 0\n"));
++				if(pCoexDm->curPsTdma == 5)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++					pCoexDm->psTdmaDuAdjType = 2;
++				}
++				else if(pCoexDm->curPsTdma == 6)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++					pCoexDm->psTdmaDuAdjType = 2;
++				}
++				else if(pCoexDm->curPsTdma == 7)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++					pCoexDm->psTdmaDuAdjType = 3;
++				}
++				else if(pCoexDm->curPsTdma == 8)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 4);
++					pCoexDm->psTdmaDuAdjType = 4;
++				}
++				if(pCoexDm->curPsTdma == 13)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++					pCoexDm->psTdmaDuAdjType = 10;
++				}
++				else if(pCoexDm->curPsTdma == 14)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++					pCoexDm->psTdmaDuAdjType = 10;
++				}
++				else if(pCoexDm->curPsTdma == 15)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++					pCoexDm->psTdmaDuAdjType = 11;
++				}
++				else if(pCoexDm->curPsTdma == 16)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 12);
++					pCoexDm->psTdmaDuAdjType = 12;
++				}
++				if(result == -1)
++				{
++					if(pCoexDm->curPsTdma == 1)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++						pCoexDm->psTdmaDuAdjType = 2;
++					}
++					else if(pCoexDm->curPsTdma == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else if(pCoexDm->curPsTdma == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 4);
++						pCoexDm->psTdmaDuAdjType = 4;
++					}
++					else if(pCoexDm->curPsTdma == 9)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++						pCoexDm->psTdmaDuAdjType = 10;
++					}
++					else if(pCoexDm->curPsTdma == 10)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++					else if(pCoexDm->curPsTdma == 11)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 12);
++						pCoexDm->psTdmaDuAdjType = 12;
++					}
++				} 
++				else if (result == 1)
++				{
++					if(pCoexDm->curPsTdma == 4)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else if(pCoexDm->curPsTdma == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++						pCoexDm->psTdmaDuAdjType = 2;
++					}
++					else if(pCoexDm->curPsTdma == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++						pCoexDm->psTdmaDuAdjType = 2;
++					}
++					else if(pCoexDm->curPsTdma == 12)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++					else if(pCoexDm->curPsTdma == 11)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++						pCoexDm->psTdmaDuAdjType = 10;
++					}
++					else if(pCoexDm->curPsTdma == 10)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++						pCoexDm->psTdmaDuAdjType = 10;
++					}
++				}
++			}
++		}
++		else if(maxInterval == 3)
++		{
++			if(bTxPause)
++			{
++				RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], TxPause = 1\n"));
++				if(pCoexDm->curPsTdma == 1)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++					pCoexDm->psTdmaDuAdjType = 7;
++				}
++				else if(pCoexDm->curPsTdma == 2)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++					pCoexDm->psTdmaDuAdjType = 7;
++				}
++				else if(pCoexDm->curPsTdma == 3)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++					pCoexDm->psTdmaDuAdjType = 7;
++				}
++				else if(pCoexDm->curPsTdma == 4)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);
++					pCoexDm->psTdmaDuAdjType = 8;
++				}
++				if(pCoexDm->curPsTdma == 9)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++					pCoexDm->psTdmaDuAdjType = 15;
++				}
++				else if(pCoexDm->curPsTdma == 10)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++					pCoexDm->psTdmaDuAdjType = 15;
++				}
++				else if(pCoexDm->curPsTdma == 11)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++					pCoexDm->psTdmaDuAdjType = 15;
++				}
++				else if(pCoexDm->curPsTdma == 12)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 16);
++					pCoexDm->psTdmaDuAdjType = 16;
++				}
++				if(result == -1)
++				{
++					if(pCoexDm->curPsTdma == 5) 
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++					else if(pCoexDm->curPsTdma == 6)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++					else if(pCoexDm->curPsTdma == 7)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);
++						pCoexDm->psTdmaDuAdjType = 8;
++					}
++					else if(pCoexDm->curPsTdma == 13)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++					else if(pCoexDm->curPsTdma == 14)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++					else if(pCoexDm->curPsTdma == 15)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 16);
++						pCoexDm->psTdmaDuAdjType = 16;
++					}
++				} 
++				else if (result == 1)
++				{
++					if(pCoexDm->curPsTdma == 8)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++					else if(pCoexDm->curPsTdma == 7)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}
++					else if(pCoexDm->curPsTdma == 6)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 7);
++						pCoexDm->psTdmaDuAdjType = 7;
++					}					
++					else if(pCoexDm->curPsTdma == 16)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++					else if(pCoexDm->curPsTdma == 15)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++					else if(pCoexDm->curPsTdma == 14)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++						pCoexDm->psTdmaDuAdjType = 15;
++					}
++				}
++			}
++			else
++			{
++				RT_TRACE(COMP_COEX, DBG_TRACE, ("[BTCoex], TxPause = 0\n"));
++				if(pCoexDm->curPsTdma == 5)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++					pCoexDm->psTdmaDuAdjType = 3;
++				}
++				else if(pCoexDm->curPsTdma == 6)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++					pCoexDm->psTdmaDuAdjType = 3;
++				}
++				else if(pCoexDm->curPsTdma == 7)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++					pCoexDm->psTdmaDuAdjType = 3;
++				}
++				else if(pCoexDm->curPsTdma == 8)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 4);
++					pCoexDm->psTdmaDuAdjType = 4;
++				}
++				if(pCoexDm->curPsTdma == 13)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++					pCoexDm->psTdmaDuAdjType = 11;
++				}
++				else if(pCoexDm->curPsTdma == 14)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++					pCoexDm->psTdmaDuAdjType = 11;
++				}
++				else if(pCoexDm->curPsTdma == 15)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++					pCoexDm->psTdmaDuAdjType = 11;
++				}
++				else if(pCoexDm->curPsTdma == 16)
++				{
++					halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 12);
++					pCoexDm->psTdmaDuAdjType = 12;
++				}
++				if(result == -1)
++				{
++					if(pCoexDm->curPsTdma == 1)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else if(pCoexDm->curPsTdma == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else if(pCoexDm->curPsTdma == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 4);
++						pCoexDm->psTdmaDuAdjType = 4;
++					}
++					else if(pCoexDm->curPsTdma == 9)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++					else if(pCoexDm->curPsTdma == 10)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++					else if(pCoexDm->curPsTdma == 11)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 12);
++						pCoexDm->psTdmaDuAdjType = 12;
++					}
++				} 
++				else if (result == 1)
++				{
++					if(pCoexDm->curPsTdma == 4)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else if(pCoexDm->curPsTdma == 3)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else if(pCoexDm->curPsTdma == 2)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 3);
++						pCoexDm->psTdmaDuAdjType = 3;
++					}
++					else if(pCoexDm->curPsTdma == 12)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++					else if(pCoexDm->curPsTdma == 11)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++					else if(pCoexDm->curPsTdma == 10)
++					{
++						halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++						pCoexDm->psTdmaDuAdjType = 11;
++					}
++				}
++			}
++		}
++	}
++
++	// if current PsTdma not match with the recorded one (when scan, dhcp...), 
++	// then we have to adjust it back to the previous record one.
++	if(pCoexDm->curPsTdma != pCoexDm->psTdmaDuAdjType)
++	{
++		BOOLEAN	bScan=FALSE, bLink=FALSE, bRoam=FALSE;
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], PsTdma type dismatch!!!, curPsTdma=%d, recordPsTdma=%d\n", 
++			pCoexDm->curPsTdma, pCoexDm->psTdmaDuAdjType));
++
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_SCAN, &bScan);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_LINK, &bLink);
++		pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_WIFI_ROAM, &bRoam);
++		
++		if( !bScan && !bLink && !bRoam)
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, pCoexDm->psTdmaDuAdjType);
++		}
++		else
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], roaming/link/scan is under progress, will adjust next time!!!\n"));
++		}
++	}
++}
++
++// SCO only or SCO+PAN(HS)
++VOID
++halbtc8723a2ant_ActionSco(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte	wifiRssiState, wifiRssiState1;
++	u4Byte	wifiBw;
++
++	if(halbtc8723a2ant_NeedToDecBtPwr(pBtCoexist))
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++	else	
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++	
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++		}
++		else
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++		}
++
++		// sw mechanism		
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++	}
++	else
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 27, 0);
++		wifiRssiState1 = halbtc8723a2ant_WifiRssiState(pBtCoexist, 1, 2, 47, 0);
++		
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 11);
++		}
++		else
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 15);
++		}
++		
++		// sw mechanism
++		if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++		else
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}		
++	}
++}
++
++
++VOID
++halbtc8723a2ant_ActionHid(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte	wifiRssiState, wifiRssiState1;
++	u4Byte	wifiBw;
++
++	if(halbtc8723a2ant_NeedToDecBtPwr(pBtCoexist))
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++	else	
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 9);
++		}
++		else
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 13);
++		}
++
++		// sw mechanism
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++	}
++	else
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 27, 0);
++		wifiRssiState1 = halbtc8723a2ant_WifiRssiState(pBtCoexist, 1, 2, 47, 0);
++
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 9);
++		}
++		else
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 13);
++		}
++
++		// sw mechanism
++		if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++		else
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}		
++	}
++}
++
++//A2DP only / PAN(EDR) only/ A2DP+PAN(HS)
++VOID
++halbtc8723a2ant_ActionA2dp(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState, wifiRssiState1, btInfoExt;
++	u4Byte		wifiBw;
++
++	btInfoExt = pCoexSta->btInfoExt;
++
++	if(halbtc8723a2ant_NeedToDecBtPwr(pBtCoexist))
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++	else	
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++	
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			if(btInfoExt&BIT0)	//a2dp rate, 1:basic /0:edr
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, FALSE, FALSE, 3);
++			}
++			else
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, FALSE, FALSE, 1);
++			}
++		}
++		else
++		{
++			if(btInfoExt&BIT0)	//a2dp rate, 1:basic /0:edr
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, FALSE, TRUE, 3);
++			}
++			else
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, FALSE, TRUE, 1);
++			}
++		}
++
++		// sw mechanism		
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++	}
++	else
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 27, 0);
++		wifiRssiState1 = halbtc8723a2ant_WifiRssiState(pBtCoexist, 1, 2, 47, 0);
++		
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			if(btInfoExt&BIT0)	//a2dp rate, 1:basic /0:edr
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, FALSE, FALSE, 3);
++			}
++			else
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, FALSE, FALSE, 1);
++			}
++		}
++		else
++		{
++			if(btInfoExt&BIT0)	//a2dp rate, 1:basic /0:edr
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, FALSE, TRUE, 3);
++			}
++			else
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, FALSE, TRUE, 1);
++			}
++		}
++		
++		// sw mechanism
++		if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++		else
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}		
++	}
++}
++
++VOID
++halbtc8723a2ant_ActionPanEdr(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState, wifiRssiState1, btInfoExt;
++	u4Byte		wifiBw;
++	
++	btInfoExt = pCoexSta->btInfoExt;
++
++	if(halbtc8723a2ant_NeedToDecBtPwr(pBtCoexist))
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++	else	
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++			
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++		}
++		else
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++		}
++
++		// sw mechanism
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++	}
++	else
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 27, 0);
++		wifiRssiState1 = halbtc8723a2ant_WifiRssiState(pBtCoexist, 1, 2, 47, 0);
++		
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++		}
++		else
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++		}
++
++		// sw mechanism
++		if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++		else
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++	}
++}
++
++
++//PAN(HS) only
++VOID
++halbtc8723a2ant_ActionPanHs(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState;
++	u4Byte		wifiBw;
++
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++		}
++		else
++		{
++			halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++		}
++		halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++
++		// sw mechanism		
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++	}
++	else
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++		}
++		else
++		{
++			halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, FALSE, 0);
++		}
++
++		// sw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++		else
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++	}
++}
++
++//PAN(EDR)+A2DP
++VOID
++halbtc8723a2ant_ActionPanEdrA2dp(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState, wifiRssiState1, btInfoExt;
++	u4Byte		wifiBw;
++
++	btInfoExt = pCoexSta->btInfoExt;
++
++	if(halbtc8723a2ant_NeedToDecBtPwr(pBtCoexist))
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++	else	
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 4);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++			}
++		}
++		else
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++			}
++		}
++
++		// sw mechanism
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++	}
++	else
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 27, 0);
++		wifiRssiState1 = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 47, 0);
++		
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 4);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 2);
++			}
++		}
++		else
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 8);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 6);
++			}
++		}
++
++		// sw mechanism
++		if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++		else
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++	}
++}
++
++VOID
++halbtc8723a2ant_ActionPanEdrHid(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState, wifiRssiState1;
++	u4Byte		wifiBw;
++
++	if(halbtc8723a2ant_NeedToDecBtPwr(pBtCoexist))
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++	else	
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10); 
++		}
++		else
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14); 
++		}
++
++		// sw mechanism
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++	}
++	else
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 27, 0);
++		wifiRssiState1 = halbtc8723a2ant_WifiRssiState(pBtCoexist, 1, 2, 47, 0);
++		
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++		}
++		else
++		{
++			halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++		}
++		
++		// sw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++		else
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++	}
++}
++
++// HID+A2DP+PAN(EDR)
++VOID
++halbtc8723a2ant_ActionHidA2dpPanEdr(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState, wifiRssiState1, btInfoExt;
++	u4Byte		wifiBw;
++
++	btInfoExt = pCoexSta->btInfoExt;
++
++	if(halbtc8723a2ant_NeedToDecBtPwr(pBtCoexist))
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++	else	
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++			
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 12);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++			}
++		}
++		else
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 16);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++			}
++		}
++		
++		// sw mechanism
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++	}
++	else
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 27, 0);
++		wifiRssiState1 = halbtc8723a2ant_WifiRssiState(pBtCoexist, 1, 2, 47, 0);
++		
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 12);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 10);
++			}
++		}
++		else
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 16);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_PsTdma(pBtCoexist, NORMAL_EXEC, TRUE, 14);
++			}
++		}
++
++		// sw mechanism
++		if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++		else
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++	}
++}
++
++VOID
++halbtc8723a2ant_ActionHidA2dp(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	u1Byte		wifiRssiState, wifiRssiState1, btInfoExt;
++	u4Byte		wifiBw;
++
++	btInfoExt = pCoexSta->btInfoExt;
++
++	if(halbtc8723a2ant_NeedToDecBtPwr(pBtCoexist))
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, TRUE);
++	else	
++		halbtc8723a2ant_DecBtPwr(pBtCoexist, NORMAL_EXEC, FALSE);
++	halbtc8723a2ant_CoexTable(pBtCoexist, NORMAL_EXEC, 0x55555555, 0xffff, 0x3);
++
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	if(BTC_WIFI_BW_HT40 == wifiBw)
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 37, 0);
++		
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, TRUE, FALSE, 3);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, TRUE, FALSE, 1);
++			}
++		}
++		else
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, TRUE, TRUE, 3);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, TRUE, TRUE, 1);
++			}
++		}
++		
++		// sw mechanism
++		halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++		halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++		halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++	}
++	else
++	{
++		wifiRssiState = halbtc8723a2ant_WifiRssiState(pBtCoexist, 0, 2, 27, 0);
++		wifiRssiState1 = halbtc8723a2ant_WifiRssiState(pBtCoexist, 1, 2, 47, 0);
++		
++		// fw mechanism
++		if( (wifiRssiState == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, TRUE, FALSE, 3);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, TRUE, FALSE, 1);
++			}
++		}
++		else
++		{
++			if(btInfoExt&BIT0)	//a2dp basic rate
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, TRUE, TRUE, 3);
++			}
++			else				//a2dp edr rate
++			{
++				halbtc8723a2ant_TdmaDurationAdjust(pBtCoexist, TRUE, TRUE, 1);
++			}
++		}
++
++		// sw mechanism
++		if( (wifiRssiState1 == BTC_RSSI_STATE_HIGH) ||
++			(wifiRssiState1 == BTC_RSSI_STATE_STAY_HIGH) )
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, TRUE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++		else
++		{
++			halbtc8723a2ant_AgcTable(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_AdcBackOff(pBtCoexist, NORMAL_EXEC, FALSE);
++			halbtc8723a2ant_DacSwing(pBtCoexist, NORMAL_EXEC, FALSE, 0xc0);
++		}
++	}
++}
++
++VOID
++halbtc8723a2ant_RunCoexistMechanism(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	PBTC_STACK_INFO		pStackInfo=&pBtCoexist->stackInfo;
++	u1Byte				btInfoOriginal=0, btRetryCnt=0;
++	u1Byte				algorithm=0;
++
++	if(pBtCoexist->bManualControl)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Manual control!!!\n"));
++		return;
++	}
++
++	if(pStackInfo->bProfileNotified)
++	{
++		if(pCoexSta->bHoldForStackOperation)
++		{
++			// if bt inquiry/page/pair, do not execute.
++			return;
++		}
++		
++		algorithm = halbtc8723a2ant_ActionAlgorithm(pBtCoexist);
++		if(pCoexSta->bHoldPeriodCnt && (BT_8723A_2ANT_COEX_ALGO_PANHS!=algorithm))
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex],Hold BT inquiry/page scan setting (cnt = %d)!!\n", 
++				pCoexSta->bHoldPeriodCnt));
++			if(pCoexSta->bHoldPeriodCnt >= 6)
++			{
++				pCoexSta->bHoldPeriodCnt = 0;
++				// next time the coexist parameters should be reset again.
++			}
++			else
++				pCoexSta->bHoldPeriodCnt++;
++			return;
++		}
++
++		pCoexDm->curAlgorithm = algorithm;
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Algorithm = %d \n", pCoexDm->curAlgorithm));
++		if(halbtc8723a2ant_IsCommonAction(pBtCoexist))
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant common.\n"));
++			pCoexDm->bResetTdmaAdjust = TRUE;
++		}
++		else
++		{
++			if(pCoexDm->curAlgorithm != pCoexDm->preAlgorithm)
++			{
++				RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], preAlgorithm=%d, curAlgorithm=%d\n", 
++					pCoexDm->preAlgorithm, pCoexDm->curAlgorithm));
++				pCoexDm->bResetTdmaAdjust = TRUE;
++			}
++			switch(pCoexDm->curAlgorithm)
++			{
++				case BT_8723A_2ANT_COEX_ALGO_SCO:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = SCO.\n"));
++					halbtc8723a2ant_ActionSco(pBtCoexist);
++					break;
++				case BT_8723A_2ANT_COEX_ALGO_HID:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = HID.\n"));
++					halbtc8723a2ant_ActionHid(pBtCoexist);
++					break;
++				case BT_8723A_2ANT_COEX_ALGO_A2DP:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = A2DP.\n"));
++					halbtc8723a2ant_ActionA2dp(pBtCoexist);
++					break;
++				case BT_8723A_2ANT_COEX_ALGO_PANEDR:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = PAN(EDR).\n"));
++					halbtc8723a2ant_ActionPanEdr(pBtCoexist);
++					break;
++				case BT_8723A_2ANT_COEX_ALGO_PANHS:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = HS mode.\n"));
++					halbtc8723a2ant_ActionPanHs(pBtCoexist);
++					break;
++				case BT_8723A_2ANT_COEX_ALGO_PANEDR_A2DP:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = PAN+A2DP.\n"));
++					halbtc8723a2ant_ActionPanEdrA2dp(pBtCoexist);
++					break;
++				case BT_8723A_2ANT_COEX_ALGO_PANEDR_HID:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = PAN(EDR)+HID.\n"));
++					halbtc8723a2ant_ActionPanEdrHid(pBtCoexist);
++					break;
++				case BT_8723A_2ANT_COEX_ALGO_HID_A2DP_PANEDR:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = HID+A2DP+PAN.\n"));
++					halbtc8723a2ant_ActionHidA2dpPanEdr(pBtCoexist);
++					break;
++				case BT_8723A_2ANT_COEX_ALGO_HID_A2DP:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = HID+A2DP.\n"));
++					halbtc8723a2ant_ActionHidA2dp(pBtCoexist);
++					break;
++				default:
++					RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Action 2-Ant, algorithm = coexist All Off!!\n"));
++					halbtc8723a2ant_CoexAllOff(pBtCoexist);
++					break;
++			}
++			pCoexDm->preAlgorithm = pCoexDm->curAlgorithm;
++		}
++	}
++}
++
++//============================================================
++// work around function start with wa_halbtc8723a2ant_
++//============================================================
++VOID
++wa_halbtc8723a2ant_MonitorC2h(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	u1Byte	tmp1b=0x0;
++	u4Byte	curC2hTotalCnt=0x0;
++	static u4Byte	preC2hTotalCnt=0x0, sameCntPollingTime=0x0;
++
++	curC2hTotalCnt+=pCoexSta->btInfoC2hCnt[BT_INFO_SRC_8723A_2ANT_BT_RSP];
++
++	if(curC2hTotalCnt == preC2hTotalCnt)
++	{
++		sameCntPollingTime++;
++	}
++	else
++	{
++		preC2hTotalCnt = curC2hTotalCnt;
++		sameCntPollingTime = 0;
++	}
++
++	if(sameCntPollingTime >= 2)
++	{
++		tmp1b = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x1af);
++		if(tmp1b != 0x0)
++		{
++			pCoexSta->c2hHangDetectCnt++;
++			pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x1af, 0x0);
++		}
++	}
++}
++
++//============================================================
++// extern function start with EXhalbtc8723a2ant_
++//============================================================
++VOID
++EXhalbtc8723a2ant_PowerOnSetting(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++}
++
++VOID
++EXhalbtc8723a2ant_InitHwConfig(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN				bWifiOnly
++	)
++{
++	u4Byte	u4Tmp=0;
++	u1Byte	u1Tmp=0;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 2Ant Init HW Config!!\n"));
++
++	// backup rf 0x1e value
++	pCoexDm->btRf0x1eBackup = 
++		pBtCoexist->fBtcGetRfReg(pBtCoexist, BTC_RF_A, 0x1e, 0xfffff);
++
++	// Enable counter statistics
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x76e, 0x4);
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x778, 0x3);
++	pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x20);
++}
++
++VOID
++EXhalbtc8723a2ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Coex Mechanism Init!!\n"));
++	
++	halbtc8723a2ant_InitCoexDm(pBtCoexist);
++}
++
++VOID
++EXhalbtc8723a2ant_DisplayCoexInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	)
++{
++	PBTC_BOARD_INFO		pBoardInfo=&pBtCoexist->boardInfo;
++	PBTC_STACK_INFO		pStackInfo=&pBtCoexist->stackInfo;
++	pu1Byte				cliBuf=pBtCoexist->cliBuf;
++	u1Byte				u1Tmp[4], i, btInfoExt, psTdmaCase=0;
++	u4Byte				u4Tmp[4];
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ", "Ant PG number/ Ant mechanism:", \
++		pBoardInfo->pgAntNum, pBoardInfo->btdmAntNum);
++	CL_PRINTF(cliBuf);	
++	
++	if(pBtCoexist->bManualControl)
++	{
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "[Action Manual control]!!");
++		CL_PRINTF(cliBuf);
++	}
++	
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %d", "BT stack/ hci ext ver", \
++		((pStackInfo->bProfileNotified)? "Yes":"No"), pStackInfo->hciVersion);
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ", "Wifi channel informed to BT", \
++		pCoexDm->wifiChnlInfo[0], pCoexDm->wifiChnlInfo[1],
++		pCoexDm->wifiChnlInfo[2]);
++	CL_PRINTF(cliBuf);
++	
++	// wifi status
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Wifi Status]============");
++	CL_PRINTF(cliBuf);
++	pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[BT Status]============");
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d] ", "BT [status/ rssi/ retryCnt]", \
++		((pCoexSta->bC2hBtInquiryPage)?("inquiry/page scan"):((BT_8723A_2ANT_BT_STATUS_IDLE == pCoexDm->btStatus)? "idle":(  (BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE == pCoexDm->btStatus)? "connected-idle":"busy"))),
++		pCoexSta->btRssi, pCoexSta->btRetryCnt);
++	CL_PRINTF(cliBuf);
++	
++	if(pStackInfo->bProfileNotified)
++	{			
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d", "SCO/HID/PAN/A2DP", \
++			pStackInfo->bScoExist, pStackInfo->bHidExist, pStackInfo->bPanExist, pStackInfo->bA2dpExist);
++		CL_PRINTF(cliBuf);	
++
++		pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_BT_LINK_INFO);
++	}
++
++	btInfoExt = pCoexSta->btInfoExt;
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "BT Info A2DP rate", \
++		(btInfoExt&BIT0)? "Basic rate":"EDR rate");
++	CL_PRINTF(cliBuf);	
++
++	for(i=0; i<BT_INFO_SRC_8723A_2ANT_MAX; i++)
++	{
++		if(pCoexSta->btInfoC2hCnt[i])
++		{				
++			CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)", GLBtInfoSrc8723a2Ant[i], \
++				pCoexSta->btInfoC2h[i][0], pCoexSta->btInfoC2h[i][1],
++				pCoexSta->btInfoC2h[i][2], pCoexSta->btInfoC2h[i][3],
++				pCoexSta->btInfoC2h[i][4], pCoexSta->btInfoC2h[i][5],
++				pCoexSta->btInfoC2h[i][6], pCoexSta->btInfoC2hCnt[i]);
++			CL_PRINTF(cliBuf);
++		}
++	}
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "write 0x1af=0x0 num", \
++		pCoexSta->c2hHangDetectCnt);
++	CL_PRINTF(cliBuf);
++	
++	// Sw mechanism	
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Sw mechanism]============");
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d", "SM1[ShRf/ LpRA/ LimDig]", \
++		pCoexDm->bCurRfRxLpfShrink, pCoexDm->bCurLowPenaltyRa, pCoexDm->bLimitedDig);
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d(0x%x) ", "SM2[AgcT/ AdcB/ SwDacSwing(lvl)]", \
++		pCoexDm->bCurAgcTableEn, pCoexDm->bCurAdcBackOff, pCoexDm->bCurDacSwingOn, pCoexDm->curDacSwingLvl);
++	CL_PRINTF(cliBuf);
++
++	// Fw mechanism		
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Fw mechanism]============");
++	CL_PRINTF(cliBuf);	
++	
++	if(!pBtCoexist->bManualControl)
++	{
++		psTdmaCase = pCoexDm->curPsTdma;
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x %02x %02x case-%d", "PS TDMA", \
++			pCoexDm->psTdmaPara[0], pCoexDm->psTdmaPara[1],
++			pCoexDm->psTdmaPara[2], pCoexDm->psTdmaPara[3],
++			pCoexDm->psTdmaPara[4], psTdmaCase);
++		CL_PRINTF(cliBuf);
++	
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ", "DecBtPwr/ IgnWlanAct", \
++			pCoexDm->bCurDecBtPwr, pCoexDm->bCurIgnoreWlanAct);
++		CL_PRINTF(cliBuf);
++	}
++
++	// Hw setting		
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Hw setting]============");
++	CL_PRINTF(cliBuf);	
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "RF-A, 0x1e initVal", \
++		pCoexDm->btRf0x1eBackup);
++	CL_PRINTF(cliBuf);
++
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x778);
++	u1Tmp[1] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x783);
++	u1Tmp[2] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x796);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x", "0x778/ 0x783/ 0x796", \
++		u1Tmp[0], u1Tmp[1], u1Tmp[2]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x880);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x880", \
++		u4Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x40);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x40", \
++		u1Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x550);
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x522);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x", "0x550(bcn ctrl)/0x522", \
++		u4Tmp[0], u1Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x484);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x484(rate adaptive)", \
++		u4Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xc50);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0xc50(dig)", \
++		u4Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xda0);
++	u4Tmp[1] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xda4);
++	u4Tmp[2] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xda8);
++	u4Tmp[3] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0xdac);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x", "0xda0/0xda4/0xda8/0xdac(FA cnt)", \
++		u4Tmp[0], u4Tmp[1], u4Tmp[2], u4Tmp[3]);
++	CL_PRINTF(cliBuf);
++
++	u4Tmp[0] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c0);
++	u4Tmp[1] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c4);
++	u4Tmp[2] = pBtCoexist->fBtcRead4Byte(pBtCoexist, 0x6c8);
++	u1Tmp[0] = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x6cc);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x", "0x6c0/0x6c4/0x6c8/0x6cc(coexTable)", \
++		u4Tmp[0], u4Tmp[1], u4Tmp[2], u1Tmp[0]);
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d", "0x770 (hp rx[31:16]/tx[15:0])", \
++		pCoexSta->highPriorityRx, pCoexSta->highPriorityTx);
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d", "0x774(lp rx[31:16]/tx[15:0])", \
++		pCoexSta->lowPriorityRx, pCoexSta->lowPriorityTx);
++	CL_PRINTF(cliBuf);
++
++	pBtCoexist->fBtcDispDbgMsg(pBtCoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++VOID
++EXhalbtc8723a2ant_IpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_IPS_ENTER == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], IPS ENTER notify\n"));
++		halbtc8723a2ant_CoexAllOff(pBtCoexist);
++	}
++	else if(BTC_IPS_LEAVE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], IPS LEAVE notify\n"));
++		//halbtc8723a2ant_InitCoexDm(pBtCoexist);
++	}
++}
++
++VOID
++EXhalbtc8723a2ant_LpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_LPS_ENABLE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], LPS ENABLE notify\n"));
++	}
++	else if(BTC_LPS_DISABLE == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], LPS DISABLE notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8723a2ant_ScanNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_SCAN_START == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCAN START notify\n"));
++	}
++	else if(BTC_SCAN_FINISH == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], SCAN FINISH notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8723a2ant_ConnectNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	)
++{
++	if(BTC_ASSOCIATE_START == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], CONNECT START notify\n"));
++	}
++	else if(BTC_ASSOCIATE_FINISH == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], CONNECT FINISH notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8723a2ant_MediaStatusNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{
++	if(BTC_MEDIA_CONNECT == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], MEDIA connect notify\n"));
++	}
++	else
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], MEDIA disconnect notify\n"));
++	}
++
++	halbtc8723a2ant_IndicateWifiChnlBwInfo(pBtCoexist, type);
++}
++
++VOID
++EXhalbtc8723a2ant_SpecialPacketNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{
++	if(type == BTC_PACKET_DHCP)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], DHCP Packet notify\n"));
++	}
++}
++
++VOID
++EXhalbtc8723a2ant_BtInfoNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	pu1Byte			tmpBuf,
++	IN	u1Byte			length
++	)
++{
++	u1Byte			btInfo=0;
++	u1Byte			i, rspSource=0;
++	BOOLEAN			bBtBusy=FALSE, bLimitedDig=FALSE;
++	BOOLEAN			bWifiConnected=FALSE, bBtHsOn=FALSE;
++
++	pCoexSta->bC2hBtInfoReqSent = FALSE;
++	
++	rspSource = BT_INFO_SRC_8723A_2ANT_BT_RSP;
++	pCoexSta->btInfoC2hCnt[rspSource]++;
++
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Bt info[%d], length=%d, hex data=[", rspSource, length));
++	for(i=0; i<length; i++)
++	{
++		pCoexSta->btInfoC2h[rspSource][i] = tmpBuf[i];
++		if(i == 0)
++			btInfo = tmpBuf[i];
++		if(i == length-1)
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("0x%02x]\n", tmpBuf[i]));
++		}
++		else
++		{
++			RT_TRACE(COMP_COEX, DBG_LOUD, ("0x%02x, ", tmpBuf[i]));
++		}
++	}
++
++	if(BT_INFO_SRC_8723A_2ANT_WIFI_FW != rspSource)
++	{
++		pCoexSta->btRetryCnt =
++			pCoexSta->btInfoC2h[rspSource][1];
++
++		pCoexSta->btRssi =
++			pCoexSta->btInfoC2h[rspSource][2]*2+10;
++
++		pCoexSta->btInfoExt = 
++			pCoexSta->btInfoC2h[rspSource][3];
++	}
++		
++	pBtCoexist->fBtcGet(pBtCoexist, BTC_GET_BL_HS_OPERATION, &bBtHsOn);
++	// check BIT2 first ==> check if bt is under inquiry or page scan
++	if(btInfo & BT_INFO_8723A_2ANT_B_INQ_PAGE)
++	{
++		pCoexSta->bC2hBtInquiryPage = TRUE;
++	}
++	else
++	{
++		pCoexSta->bC2hBtInquiryPage = FALSE;
++	}
++}
++
++VOID
++EXhalbtc8723a2ant_StackOperationNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	)
++{
++	if(BTC_STACK_OP_INQ_PAGE_PAIR_START == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], StackOP Inquiry/page/pair start notify\n"));
++		pCoexSta->bHoldForStackOperation = TRUE;
++		pCoexSta->bHoldPeriodCnt = 1;
++		halbtc8723a2ant_BtInquiryPage(pBtCoexist);
++	}
++	else if(BTC_STACK_OP_INQ_PAGE_PAIR_FINISH == type)
++	{
++		RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], StackOP Inquiry/page/pair finish notify\n"));
++		pCoexSta->bHoldForStackOperation = FALSE;
++	}
++}
++
++VOID
++EXhalbtc8723a2ant_HaltNotify(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], Halt notify\n"));
++
++	halbtc8723a2ant_IgnoreWlanAct(pBtCoexist, FORCE_EXEC, TRUE);
++	EXhalbtc8723a2ant_MediaStatusNotify(pBtCoexist, BTC_MEDIA_DISCONNECT);
++}
++
++VOID
++EXhalbtc8723a2ant_Periodical(
++	IN	PBTC_COEXIST			pBtCoexist
++	)
++{
++	RT_TRACE(COMP_COEX, DBG_LOUD, ("[BTCoex], 2Ant Periodical!!\n"));
++
++	// work around for c2h hang
++	wa_halbtc8723a2ant_MonitorC2h(pBtCoexist);
++	
++	halbtc8723a2ant_QueryBtInfo(pBtCoexist);
++	halbtc8723a2ant_MonitorBtCtr(pBtCoexist);
++	halbtc8723a2ant_MonitorBtEnableDisable(pBtCoexist);
++
++	halbtc8723a2ant_RunCoexistMechanism(pBtCoexist);
++}
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723a2Ant.h b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723a2Ant.h
+new file mode 100644
+index 0000000..f0cc8b5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723a2Ant.h
+@@ -0,0 +1,184 @@
++//===========================================
++// The following is for 8723A 2Ant BT Co-exist definition
++//===========================================
++#define	BT_INFO_8723A_2ANT_B_FTP						BIT7
++#define	BT_INFO_8723A_2ANT_B_A2DP					BIT6
++#define	BT_INFO_8723A_2ANT_B_HID						BIT5
++#define	BT_INFO_8723A_2ANT_B_SCO_BUSY				BIT4
++#define	BT_INFO_8723A_2ANT_B_ACL_BUSY				BIT3
++#define	BT_INFO_8723A_2ANT_B_INQ_PAGE				BIT2
++#define	BT_INFO_8723A_2ANT_B_SCO_ESCO				BIT1
++#define	BT_INFO_8723A_2ANT_B_CONNECTION				BIT0
++
++#define		BTC_RSSI_COEX_THRESH_TOL_8723A_2ANT		2
++
++typedef enum _BT_INFO_SRC_8723A_2ANT{
++	BT_INFO_SRC_8723A_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8723A_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8723A_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8723A_2ANT_MAX
++}BT_INFO_SRC_8723A_2ANT,*PBT_INFO_SRC_8723A_2ANT;
++
++typedef enum _BT_8723A_2ANT_BT_STATUS{
++	BT_8723A_2ANT_BT_STATUS_IDLE				= 0x0,
++	BT_8723A_2ANT_BT_STATUS_CONNECTED_IDLE	= 0x1,
++	BT_8723A_2ANT_BT_STATUS_NON_IDLE			= 0x2,
++	BT_8723A_2ANT_BT_STATUS_MAX
++}BT_8723A_2ANT_BT_STATUS,*PBT_8723A_2ANT_BT_STATUS;
++
++typedef enum _BT_8723A_2ANT_COEX_ALGO{
++	BT_8723A_2ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8723A_2ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8723A_2ANT_COEX_ALGO_HID				= 0x2,
++	BT_8723A_2ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8723A_2ANT_COEX_ALGO_PANEDR			= 0x4,
++	BT_8723A_2ANT_COEX_ALGO_PANHS			= 0x5,
++	BT_8723A_2ANT_COEX_ALGO_PANEDR_A2DP		= 0x6,
++	BT_8723A_2ANT_COEX_ALGO_PANEDR_HID		= 0x7,
++	BT_8723A_2ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x8,
++	BT_8723A_2ANT_COEX_ALGO_HID_A2DP			= 0x9,
++	BT_8723A_2ANT_COEX_ALGO_MAX
++}BT_8723A_2ANT_COEX_ALGO,*PBT_8723A_2ANT_COEX_ALGO;
++
++typedef struct _COEX_DM_8723A_2ANT{
++	// fw mechanism
++	BOOLEAN		bPreDecBtPwr;
++	BOOLEAN		bCurDecBtPwr;
++	//BOOLEAN		bPreBtLnaConstrain;
++	//BOOLEAN		bCurBtLnaConstrain;
++	//u1Byte		bPreBtPsdMode;
++	//u1Byte		bCurBtPsdMode;
++	u1Byte		preFwDacSwingLvl;
++	u1Byte		curFwDacSwingLvl;
++	BOOLEAN		bCurIgnoreWlanAct;
++	BOOLEAN		bPreIgnoreWlanAct;
++	u1Byte		prePsTdma;
++	u1Byte		curPsTdma;
++	u1Byte		psTdmaPara[5];
++	u1Byte		psTdmaDuAdjType;
++	BOOLEAN		bResetTdmaAdjust;
++	BOOLEAN		bPrePsTdmaOn;
++	BOOLEAN		bCurPsTdmaOn;
++	//BOOLEAN		bPreBtAutoReport;
++	//BOOLEAN		bCurBtAutoReport;
++
++	// sw mechanism
++	BOOLEAN		bPreRfRxLpfShrink;
++	BOOLEAN		bCurRfRxLpfShrink;
++	u4Byte		btRf0x1eBackup;
++	BOOLEAN 	bPreLowPenaltyRa;
++	BOOLEAN		bCurLowPenaltyRa;
++	BOOLEAN		bPreDacSwingOn;
++	u4Byte		preDacSwingLvl;
++	BOOLEAN		bCurDacSwingOn;
++	u4Byte		curDacSwingLvl;
++	BOOLEAN		bPreAdcBackOff;
++	BOOLEAN		bCurAdcBackOff;
++	BOOLEAN 	bPreAgcTableEn;
++	BOOLEAN		bCurAgcTableEn;
++	u4Byte		preVal0x6c0;
++	u4Byte		curVal0x6c0;
++	u4Byte		preVal0x6c8;
++	u4Byte		curVal0x6c8;
++	u1Byte		preVal0x6cc;
++	u1Byte		curVal0x6cc;
++	BOOLEAN		bLimitedDig;
++
++	// algorithm related
++	u1Byte		preAlgorithm;
++	u1Byte		curAlgorithm;
++	u1Byte		btStatus;
++	u1Byte		wifiChnlInfo[3];
++} COEX_DM_8723A_2ANT, *PCOEX_DM_8723A_2ANT;
++
++typedef struct _COEX_STA_8723A_2ANT{
++	u4Byte					highPriorityTx;
++	u4Byte					highPriorityRx;
++	u4Byte					lowPriorityTx;
++	u4Byte					lowPriorityRx;
++	u1Byte					btRssi;
++	u1Byte					preBtRssiState;
++	u1Byte					preBtRssiState1;
++	u1Byte					preWifiRssiState[4];
++	BOOLEAN					bC2hBtInfoReqSent;
++	u1Byte					btInfoC2h[BT_INFO_SRC_8723A_2ANT_MAX][10];
++	u4Byte					btInfoC2hCnt[BT_INFO_SRC_8723A_2ANT_MAX];
++	BOOLEAN					bC2hBtInquiryPage;
++	u1Byte					btRetryCnt;
++	u1Byte					btInfoExt;
++	BOOLEAN					bHoldForStackOperation;
++	u1Byte					bHoldPeriodCnt;
++	// this is for c2h hang work-around
++	u4Byte					c2hHangDetectCnt;
++}COEX_STA_8723A_2ANT, *PCOEX_STA_8723A_2ANT;
++
++//===========================================
++// The following is interface which will notify coex module.
++//===========================================
++VOID
++EXhalbtc8723a2ant_PowerOnSetting(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtc8723a2ant_InitHwConfig(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN				bWifiOnly
++	);
++VOID
++EXhalbtc8723a2ant_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtc8723a2ant_IpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8723a2ant_LpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8723a2ant_ScanNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8723a2ant_ConnectNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtc8723a2ant_MediaStatusNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	);
++VOID
++EXhalbtc8723a2ant_SpecialPacketNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	);
++VOID
++EXhalbtc8723a2ant_HaltNotify(
++	IN	PBTC_COEXIST			pBtCoexist
++	);
++VOID
++EXhalbtc8723a2ant_Periodical(
++	IN	PBTC_COEXIST			pBtCoexist
++	);
++VOID
++EXhalbtc8723a2ant_BtInfoNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	pu1Byte			tmpBuf,
++	IN	u1Byte			length
++	);
++VOID
++EXhalbtc8723a2ant_StackOperationNotify(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				type
++	);
++VOID
++EXhalbtc8723a2ant_DisplayCoexInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723b1Ant.c b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723b1Ant.c
+new file mode 100644
+index 0000000..565b3bb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723b1Ant.c
+@@ -0,0 +1,4845 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8723B Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8723B_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8723b_1ant		glcoex_dm_8723b_1ant;
++static struct  coex_dm_8723b_1ant	*coex_dm = &glcoex_dm_8723b_1ant;
++static struct  coex_sta_8723b_1ant		glcoex_sta_8723b_1ant;
++static struct  coex_sta_8723b_1ant	*coex_sta = &glcoex_sta_8723b_1ant;
++static struct  psdscan_sta_8723b_1ant	gl_psd_scan_8723b_1ant;
++static struct  psdscan_sta_8723b_1ant *psd_scan = &gl_psd_scan_8723b_1ant;
++
++
++const char *const glbt_info_src_8723b_1ant[]={
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8723b_1ant = 20151015;
++u32	glcoex_ver_8723b_1ant = 0x63;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8723b1ant_
++ * ************************************************************ */
++
++void halbtc8723b1ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++	
++	if( force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8723b1ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8723b1ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++				break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++				break;
++			default:
++				break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8723b1ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8723b1ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	switch (ra_mask_type) {
++	case 0:	/* normal mode */
++		halbtc8723b1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0);
++		break;
++	case 1:	/* disable cck 1/2 */
++		halbtc8723b1ant_update_ra_mask(btcoexist, force_exec,
++					       0x00000003);
++		break;
++	case 2:	/* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		halbtc8723b1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0001f1f7);
++		break;
++	default:
++		break;
++	}
++
++	halbtc8723b1ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8723b1ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8723b1ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++void halbtc8723b1ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8723b1ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++void halbtc8723b1ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++	static u32		num_of_bt_counter_chk = 0;
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	if ((coex_sta->low_priority_tx > 1050)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++
++	/* This part is for wifi FW and driver to update BT's status as disabled. */
++	/* The flow is as the following */
++	/* 1. disable BT */
++	/* 2. if all BT Tx/Rx counter=0, after 6 sec we query bt info */
++	/* 3. Because BT will not rsp from mailbox, so wifi fw will know BT is disabled */
++	/* 4. FW will rsp c2h for BT that driver will know BT is disabled. */
++	if ((reg_hp_tx == 0) && (reg_hp_rx == 0) && (reg_lp_tx == 0) &&
++	    (reg_lp_rx == 0)) {
++		num_of_bt_counter_chk++;
++		if (num_of_bt_counter_chk == 3)
++			halbtc8723b1ant_query_bt_info(btcoexist);
++	} else
++		num_of_bt_counter_chk = 0;
++}
++
++
++void halbtc8723b1ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++	s32	wifi_rssi = 0;
++	boolean wifi_busy = false, wifi_under_b_mode = false;
++	static u8 cck_lock_counter = 0;
++	u32	total_cnt;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++			   &wifi_under_b_mode);
++
++	if (coex_sta->under_ips) {
++		coex_sta->crc_ok_cck = 0;
++		coex_sta->crc_ok_11g = 0;
++		coex_sta->crc_ok_11n = 0;
++		coex_sta->crc_ok_11n_agg = 0;
++
++		coex_sta->crc_err_cck = 0;
++		coex_sta->crc_err_11g = 0;
++		coex_sta->crc_err_11n = 0;
++		coex_sta->crc_err_11n_agg = 0;	
++	} else {
++		coex_sta->crc_ok_cck	= btcoexist->btc_read_4byte(btcoexist,
++					  0xf88);
++		coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf94);
++		coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf90);
++		coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					   0xfb8);
++
++		coex_sta->crc_err_cck	 = btcoexist->btc_read_4byte(btcoexist,
++					   0xf84);
++		coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf96);
++		coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf92);
++		coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					    0xfba);
++	}
++
++
++	/* reset counter */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x0);
++
++	if ((wifi_busy) && (wifi_rssi >= 30) && (!wifi_under_b_mode)) {
++		total_cnt = coex_sta->crc_ok_cck + coex_sta->crc_ok_11g +
++			    coex_sta->crc_ok_11n +
++				coex_sta->crc_ok_11n_agg;
++	
++		if ( (coex_dm->bt_status == BT_8723B_1ANT_BT_STATUS_ACL_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8723B_1ANT_BT_STATUS_ACL_SCO_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8723B_1ANT_BT_STATUS_SCO_BUSY)) {
++			if (coex_sta->crc_ok_cck > (total_cnt -
++coex_sta->crc_ok_cck)) 			{
++				if (cck_lock_counter < 3)
++					cck_lock_counter++;
++			} else {
++				if (cck_lock_counter > 0)
++					cck_lock_counter--;
++			}
++
++		} else {
++			if (cck_lock_counter > 0)
++				cck_lock_counter--;
++		}
++	} else {
++		if (cck_lock_counter > 0)
++			cck_lock_counter--;
++	}
++
++	if (!coex_sta->pre_ccklock) {
++
++		if (cck_lock_counter >= 3)
++			coex_sta->cck_lock = true;
++		else
++			coex_sta->cck_lock = false;
++	} else {
++		if (cck_lock_counter == 0)
++			coex_sta->cck_lock = false;
++		else
++			coex_sta->cck_lock = true;
++	}
++
++	if (coex_sta->cck_lock)
++		coex_sta->cck_ever_lock = true;
++
++	coex_sta->pre_ccklock =  coex_sta->cck_lock;
++
++
++}
++
++boolean halbtc8723b1ant_is_wifi_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false;
++	boolean wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++
++
++	}
++
++	return false;
++}
++
++void halbtc8723b1ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++	bt_link_info->bt_hi_pri_link_exist = coex_sta->bt_hi_pri_link_exist;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if( bt_link_info->sco_exist &&
++		!bt_link_info->a2dp_exist &&
++		!bt_link_info->pan_exist &&
++		!bt_link_info->hid_exist )
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if( !bt_link_info->sco_exist &&
++		bt_link_info->a2dp_exist &&
++		!bt_link_info->pan_exist &&
++		!bt_link_info->hid_exist )
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if( !bt_link_info->sco_exist &&
++		!bt_link_info->a2dp_exist &&
++		bt_link_info->pan_exist &&
++		!bt_link_info->hid_exist )
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++	
++	/* check if Hid only */
++	if( !bt_link_info->sco_exist &&
++		!bt_link_info->a2dp_exist &&
++		!bt_link_info->pan_exist &&
++		bt_link_info->hid_exist )
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++void halbtc8723b1ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8723b1ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8723b1ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8723b1ant_set_sw_penalty_tx_rate_adaptive(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8723b1ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8723b1ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8723b1ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8723b1ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8723b1ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8723b1ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++#if BT_8723B_1ANT_ANTDET_ENABLE
++#if BT_8723B_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE
++	if (board_info->btdm_ant_num_by_ant_det == 2) {
++		if (type == 3)
++			type = 14;
++		else if (type == 4)
++			type  = 13;
++		else if (type == 5)
++			type = 8;
++	}
++#endif
++#endif
++
++	coex_sta->coex_table_type = type;
++
++	switch (type) {
++	case 0:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x55555555, 0xffffff, 0x3);
++		break;
++	case 1:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 2:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x5a5a5a5a, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 3:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 4:
++		if ((coex_sta->cck_ever_lock)  &&
++		    (coex_sta->scan_ap_num <= 5))
++			halbtc8723b1ant_coex_table(btcoexist,
++					   force_exec, 0x55555555, 0xaaaa5a5a,
++						   0xffffff, 0x3);
++		else
++			halbtc8723b1ant_coex_table(btcoexist,
++					   force_exec, 0x55555555, 0x5a5a5a5a,
++						   0xffffff, 0x3);
++		break;
++	case 5:
++		if ((coex_sta->cck_ever_lock)  &&
++		    (coex_sta->scan_ap_num <= 5))
++			halbtc8723b1ant_coex_table(btcoexist,
++					   force_exec, 0x5a5a5a5a, 0x5aaa5a5a,
++						   0xffffff, 0x3);
++		else
++			halbtc8723b1ant_coex_table(btcoexist,
++					   force_exec, 0x5a5a5a5a, 0x5aaa5a5a,
++						   0xffffff, 0x3);
++		break;
++	case 6:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 7:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0xaaaaaaaa, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 8:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 9:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 10:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 11:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 12:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 13:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x5fff5fff, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 14:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x5fff5fff, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 15:
++		halbtc8723b1ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8723b1ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8723b1ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8723b1ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8723b1ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8723b1ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8723b1ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8723b1ant_sw_mechanism(IN struct btc_coexist *btcoexist,
++				  IN boolean low_penalty_ra)
++{
++	halbtc8723b1ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8723b1ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean force_exec, IN boolean init_hwcfg,
++				  IN boolean wifi_off)
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++	u32			fw_ver = 0, u32tmp = 0, cnt_bt_cal_chk = 0;
++	boolean			pg_ext_switch = false;
++	boolean			use_ext_switch = false;
++	boolean			is_in_mp_mode = false;
++	u8			h2c_parameter[2] = {0}, u8tmp = 0;
++
++	coex_dm->cur_ant_pos_type = ant_pos_type;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_EXT_SWITCH, &pg_ext_switch);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER,
++			   &fw_ver);	/* [31:16]=fw ver, [15:0]=fw sub ver */
++
++	if ((fw_ver > 0 && fw_ver < 0xc0000) || pg_ext_switch)
++		use_ext_switch = true;
++
++#if BT_8723B_1ANT_ANTDET_ENABLE
++#if BT_8723B_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE
++	if (ant_pos_type == BTC_ANT_PATH_PTA) {
++		if ((board_info->btdm_ant_det_finish) &&
++		    (board_info->btdm_ant_num_by_ant_det == 2)) {
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT)
++				ant_pos_type = BTC_ANT_PATH_WIFI;
++			else
++				ant_pos_type = BTC_ANT_PATH_BT;
++		}
++	}
++#endif
++#endif
++
++	if (init_hwcfg) {
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x780); /* WiFi TRx Mask on */
++		/* remove due to interrupt is disabled that polling c2h will fail and delay 100ms. */
++		/* btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x3c, 0x15); //BT TRx Mask on */
++
++		if (fw_ver >= 0x180000) {
++			/* Use H2C to set GNT_BT to HIGH */
++			h2c_parameter[0] = 1;
++			btcoexist->btc_fill_h2c(btcoexist, 0x6E, 1,
++						h2c_parameter);
++		} else {
++			/* set grant_bt to high */
++			btcoexist->btc_write_1byte(btcoexist, 0x765, 0x18);
++		}
++		/* set wlan_act control by PTA */
++		btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x20,
++			   0x0); /* BT select s0/s1 is controlled by BT */
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x39, 0x8, 0x1);
++		btcoexist->btc_write_1byte(btcoexist, 0x974, 0xff);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x944, 0x3, 0x3);
++		btcoexist->btc_write_1byte(btcoexist, 0x930, 0x77);
++	} else if (wifi_off) {
++		if (fw_ver >= 0x180000) {
++			/* Use H2C to set GNT_BT to HIGH */
++			h2c_parameter[0] = 1;
++			btcoexist->btc_fill_h2c(btcoexist, 0x6E, 1,
++						h2c_parameter);
++		} else {
++			/* set grant_bt to high */
++			btcoexist->btc_write_1byte(btcoexist, 0x765, 0x18);
++		}
++		/* set wlan_act to always low */
++		btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_IS_IN_MP_MODE,
++				   &is_in_mp_mode);
++		if (!is_in_mp_mode)
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67,
++				0x20, 0x0); /* BT select s0/s1 is controlled by BT */
++		else
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67,
++				0x20, 0x1); /* BT select s0/s1 is controlled by WiFi */
++
++		/* 0x4c[24:23]=00, Set Antenna control by BT_RFE_CTRL	BT Vendor 0xac=0xf002 */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp &= ~BIT(23);
++		u32tmp &= ~BIT(24);
++		btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++	} else {
++		/* Use H2C to set GNT_BT to LOW */
++		if (fw_ver >= 0x180000) {
++			if (btcoexist->btc_read_1byte(btcoexist, 0x765) != 0) {
++				h2c_parameter[0] = 0;
++				btcoexist->btc_fill_h2c(btcoexist, 0x6E, 1,
++							h2c_parameter);
++			}
++		} else {
++			/* BT calibration check */
++			while (cnt_bt_cal_chk <= 20) {
++				u8tmp = btcoexist->btc_read_1byte(btcoexist,
++								  0x49d);
++				cnt_bt_cal_chk++;
++				if (u8tmp & BIT(0)) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], ########### BT is calibrating (wait cnt=%d) ###########\n",
++						    cnt_bt_cal_chk);
++					BTC_TRACE(trace_buf);
++					delay_ms(50);
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], ********** BT is NOT calibrating (wait cnt=%d)**********\n",
++						    cnt_bt_cal_chk);
++					BTC_TRACE(trace_buf);
++					break;
++				}
++			}
++
++			/* set grant_bt to PTA */
++			btcoexist->btc_write_1byte(btcoexist, 0x765, 0x0);
++		}
++
++		if (btcoexist->btc_read_1byte(btcoexist, 0x76e) != 0xc) {
++			/* set wlan_act control by PTA */
++			btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++		}
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x20,
++			   0x1); /* BT select s0/s1 is controlled by WiFi */
++	}
++
++	if (use_ext_switch) {
++		if (init_hwcfg) {
++			/* 0x4c[23]=0, 0x4c[24]=1  Antenna control by WL/BT */
++			u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++			u32tmp &= ~BIT(23);
++			u32tmp |= BIT(24);
++			btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++
++			btcoexist->btc_write_4byte(btcoexist, 0x948,
++				0x0); /* fixed internal switch S1->WiFi, S0->BT */
++
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT) {
++				/* tell firmware "no antenna inverse" */
++				h2c_parameter[0] = 0;
++				h2c_parameter[1] = 1;  /* ext switch type */
++				btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++							h2c_parameter);
++			} else {
++				/* tell firmware "antenna inverse" */
++				h2c_parameter[0] = 1;
++				h2c_parameter[1] = 1;  /* ext switch type */
++				btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++							h2c_parameter);
++			}
++		}
++
++		if (force_exec ||
++		    (coex_dm->cur_ant_pos_type !=
++		     coex_dm->pre_ant_pos_type)) {
++			/* ext switch setting */
++			switch (ant_pos_type) {
++			case BTC_ANT_PATH_WIFI:
++				if (board_info->btdm_ant_pos ==
++				    BTC_ANTENNA_AT_MAIN_PORT)
++					btcoexist->btc_write_1byte_bitmask(
++						btcoexist, 0x92c, 0x3,
++						0x1);
++				else
++					btcoexist->btc_write_1byte_bitmask(
++						btcoexist, 0x92c, 0x3,
++						0x2);
++				break;
++			case BTC_ANT_PATH_BT:
++				if (board_info->btdm_ant_pos ==
++				    BTC_ANTENNA_AT_MAIN_PORT)
++					btcoexist->btc_write_1byte_bitmask(
++						btcoexist, 0x92c, 0x3,
++						0x2);
++				else
++					btcoexist->btc_write_1byte_bitmask(
++						btcoexist, 0x92c, 0x3,
++						0x1);
++				break;
++			default:
++			case BTC_ANT_PATH_PTA:
++				if (board_info->btdm_ant_pos ==
++				    BTC_ANTENNA_AT_MAIN_PORT)
++					btcoexist->btc_write_1byte_bitmask(
++						btcoexist, 0x92c, 0x3,
++						0x1);
++				else
++					btcoexist->btc_write_1byte_bitmask(
++						btcoexist, 0x92c, 0x3,
++						0x2);
++				break;
++			}
++		}
++	} else {
++		if (init_hwcfg) {
++			/* 0x4c[23]=1, 0x4c[24]=0  Antenna control by 0x64 */
++			u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++			u32tmp |= BIT(23);
++			u32tmp &= ~BIT(24);
++			btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++
++			/* Fix Ext switch Main->S1, Aux->S0 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x64, 0x1,
++							   0x0);
++
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT) {
++
++				/* tell firmware "no antenna inverse" */
++				h2c_parameter[0] = 0;
++				h2c_parameter[1] =
++					0;  /* internal switch type */
++				btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++							h2c_parameter);
++			} else {
++
++				/* tell firmware "antenna inverse" */
++				h2c_parameter[0] = 1;
++				h2c_parameter[1] =
++					0;  /* internal switch type */
++				btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++							h2c_parameter);
++			}
++		}
++
++		if (force_exec ||
++		    (coex_dm->cur_ant_pos_type !=
++		     coex_dm->pre_ant_pos_type)) {
++			/* internal switch setting */
++			switch (ant_pos_type) {
++			case BTC_ANT_PATH_WIFI:
++				if (board_info->btdm_ant_pos ==
++				    BTC_ANTENNA_AT_MAIN_PORT)
++					btcoexist->btc_write_4byte(
++						btcoexist, 0x948, 0x0);
++				else
++					btcoexist->btc_write_4byte(
++						btcoexist, 0x948,
++						0x280);
++				break;
++			case BTC_ANT_PATH_BT:
++				if (board_info->btdm_ant_pos ==
++				    BTC_ANTENNA_AT_MAIN_PORT)
++					btcoexist->btc_write_4byte(
++						btcoexist, 0x948,
++						0x280);
++				else
++					btcoexist->btc_write_4byte(
++						btcoexist, 0x948, 0x0);
++				break;
++			default:
++			case BTC_ANT_PATH_PTA:
++				if (board_info->btdm_ant_pos ==
++				    BTC_ANTENNA_AT_MAIN_PORT)
++					btcoexist->btc_write_4byte(
++						btcoexist, 0x948,
++						0x200);
++				else
++					btcoexist->btc_write_4byte(
++						btcoexist, 0x948, 0x80);
++				break;
++			}
++		}
++	}
++
++	coex_dm->pre_ant_pos_type = coex_dm->cur_ant_pos_type;
++}
++
++void halbtc8723b1ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++		}
++	}
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++
++void halbtc8723b1ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_busy = false;
++	u8			rssi_adjust_val = 0;
++	u8			ps_tdma_byte4_val = 0x50, ps_tdma_byte0_val = 0x51,
++				ps_tdma_byte3_val =  0x10;
++	s8			wifi_duration_adjust = 0x0;
++	static boolean	 pre_wifi_busy = false;
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++#if BT_8723B_1ANT_ANTDET_ENABLE
++#if BT_8723B_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE
++	if (board_info->btdm_ant_num_by_ant_det == 2) {
++		if (turn_on)
++			type = type +
++			       100; /* for WiFi RSSI low or BT RSSI low */
++		else
++			type = 1; /* always translate to TDMA(off,1) for TDMA-off case */
++	}
++	
++#endif	
++#endif
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);	
++
++	if (wifi_busy != pre_wifi_busy) {
++		force_exec = true;
++		 pre_wifi_busy = wifi_busy;
++	}
++			
++	if (!force_exec) {
++		if( (coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++			(coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma) )
++			return;
++	}
++
++	if (coex_sta->scan_ap_num <= 5) {
++		wifi_duration_adjust = 5;
++		
++		if (coex_sta->a2dp_bit_pool >= 35)
++		  wifi_duration_adjust = -10;
++		else if (coex_sta->a2dp_bit_pool >= 45)
++		  wifi_duration_adjust = -15;	
++	} else if (coex_sta->scan_ap_num >= 40) {
++	 	wifi_duration_adjust = -15;	
++
++		if (coex_sta->a2dp_bit_pool < 35)
++		  wifi_duration_adjust = -5;
++		else if (coex_sta->a2dp_bit_pool < 45)
++		  wifi_duration_adjust = -10; 
++	} else if (coex_sta->scan_ap_num >= 20) {
++	 	wifi_duration_adjust = -10;	
++	
++		if (coex_sta->a2dp_bit_pool >= 45)
++		  wifi_duration_adjust = -15;
++	} else {
++		wifi_duration_adjust = 0;	       
++		
++		if (coex_sta->a2dp_bit_pool >= 35)
++		  wifi_duration_adjust = -10;
++		else if (coex_sta->a2dp_bit_pool >= 45)
++		  wifi_duration_adjust = -15;	
++	}
++	
++	if ((type == 1) || (type == 2) || (type == 9) || (type == 11) ||
++	    (type == 101)
++	    || (type == 102) || (type == 109) || (type == 101)) {
++		if (!coex_sta->force_lps_on) { /* Native power save TDMA, only for A2DP-only case 1/2/9/11 while wifi noisy threshold > 30 */
++			ps_tdma_byte0_val = 0x61;  /* no null-pkt */
++			ps_tdma_byte3_val = 0x11; /* no tx-pause at BT-slot */
++			ps_tdma_byte4_val =
++				0x10; /* 0x778 = d/1 toggle, no dynamic slot */
++		} else {
++			ps_tdma_byte0_val = 0x51;  /* null-pkt */
++			ps_tdma_byte3_val = 0x10; /* tx-pause at BT-slot */
++			ps_tdma_byte4_val =
++				0x50; /* 0x778 = d/1 toggle, dynamic slot */
++		}
++	} else if ((type == 3) || (type == 13) || (type == 14) ||
++		   (type == 103) || (type == 113) || (type == 114)) {
++		ps_tdma_byte0_val = 0x51;  /* null-pkt */
++		ps_tdma_byte3_val = 0x10; /* tx-pause at BT-slot */
++		ps_tdma_byte4_val =
++			0x10; /* 0x778 = d/1 toggle, no dynamic slot */
++#if 0
++		if (!wifi_busy)
++			ps_tdma_byte4_val = ps_tdma_byte4_val |
++				0x1;  /* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++#endif
++	} else { /* native power save case */
++		ps_tdma_byte0_val = 0x61;  /* no null-pkt */
++		ps_tdma_byte3_val = 0x11; /* no tx-pause at BT-slot */
++		ps_tdma_byte4_val =
++			0x11; /* 0x778 = d/1 toggle, no dynamic slot */
++		/* psTdmaByte4Va is not defne for 0x778 = d/1, 1/1 case */
++	}
++
++	/* if (bt_link_info->slave_role == true) */
++	if ((bt_link_info->slave_role == true)	&& (bt_link_info->a2dp_exist))
++		ps_tdma_byte4_val = ps_tdma_byte4_val |
++			0x1;  /* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++
++	if (type > 100) {
++		ps_tdma_byte0_val = ps_tdma_byte0_val |
++				    0x82; /* set antenna control by SW	 */
++		ps_tdma_byte3_val = ps_tdma_byte3_val |
++			0x60;  /* set antenna no toggle, control by antenna diversity */
++	}
++		
++
++	if (turn_on) {
++		switch (type) {
++		default:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x51,
++				      0x1a, 0x1a, 0x0, ps_tdma_byte4_val);
++			break;
++		case 1:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++						      ps_tdma_byte0_val, 0x3a +
++					      wifi_duration_adjust, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 2:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++						      ps_tdma_byte0_val, 0x2d +
++					      wifi_duration_adjust, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 3:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x30, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 4:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x15, 0x3, 0x14, 0x0);
++			break;
++		case 5:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x1f, 0x3,
++						      ps_tdma_byte3_val, 0x11);
++			break;
++		case 6:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x20, 0x3,
++						      ps_tdma_byte3_val, 0x11);
++			break;
++		case 7:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xc, 0x5, 0x0, 0x0);
++			break;
++		case 8:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x25, 0x3, 0x10, 0x0);
++			break;
++		case 9:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x3,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 10:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xa, 0xa, 0x0, 0x40);
++			break;
++		case 11:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 12:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x0a, 0x0a, 0x0, 0x50);
++			break;
++		case 13:
++			if (coex_sta->scan_ap_num <= 3)
++				halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x40, 0x3,
++							      ps_tdma_byte3_val,
++						      ps_tdma_byte4_val);
++			else
++				halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x3,
++							      ps_tdma_byte3_val,
++						      ps_tdma_byte4_val);
++			break;
++		case 14:
++			if (coex_sta->scan_ap_num <= 3)
++				halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x30, 0x3, 0x10, 0x50);
++			else
++				halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x3,
++							      ps_tdma_byte3_val,
++						      ps_tdma_byte4_val);
++			break;
++		case 15:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xa, 0x3, 0x8, 0x0);
++			break;
++		case 16:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x15, 0x3, 0x10, 0x0);
++			break;
++		case 18:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x25, 0x3, 0x10, 0x0);
++			break;
++		case 20:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x3f, 0x03,
++						      ps_tdma_byte3_val, 0x10);
++			break;
++		case 21:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x25, 0x03, 0x11, 0x11);
++			break;
++		case 22:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x25, 0x03,
++						      ps_tdma_byte3_val, 0x10);
++			break;
++		case 23:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0x31, 0x18);
++			break;
++		case 24:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x15, 0x3, 0x31, 0x18);
++			break;
++		case 25:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0xa, 0x3, 0x31, 0x18);
++			break;
++		case 26:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0xa, 0x3, 0x31, 0x18);
++			break;
++		case 27:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0x31, 0x98);
++			break;
++		case 28:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x69,
++						      0x25, 0x3, 0x31, 0x0);
++			break;
++		case 29:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0xab,
++						      0x1a, 0x1a, 0x1, 0x10);
++			break;
++		case 30:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x30, 0x3, 0x10, 0x10);
++			break;
++		case 31:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1a, 0x1a, 0, 0x58);
++			break;
++		case 32:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x35, 0x3,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 33:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x35, 0x3,
++						      ps_tdma_byte3_val, 0x10);
++			break;
++		case 34:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x53,
++						      0x1a, 0x1a, 0x0, 0x10);
++			break;
++		case 35:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x63,
++						      0x1a, 0x1a, 0x0, 0x10);
++			break;
++		case 36:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x12, 0x3, 0x14, 0x50);
++			break;
++		case 40: /* SoftAP only with no sta associated,BT disable ,TDMA mode for power saving */
++			/* here softap mode screen off will cost 70-80mA for phone */
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x23,
++						      0x18, 0x00, 0x10, 0x24);
++			break;
++
++		/* for 1-Ant translate to 2-Ant	 */
++		case 101:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++						      ps_tdma_byte0_val, 0x3a +
++					      wifi_duration_adjust, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 102:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++						      ps_tdma_byte0_val, 0x2d +
++					      wifi_duration_adjust, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 103:
++			/* halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x51, 0x1d, 0x1d, 0x0, ps_tdma_byte4_val); */
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x3a, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 105:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x15, 0x3,
++						      ps_tdma_byte3_val, 0x11);
++			break;
++		case 106:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x20, 0x3,
++						      ps_tdma_byte3_val, 0x11);
++			break;
++		case 109:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x3,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 111:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 113:
++			/* halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x51, 0x12, 0x12, 0x0, ps_tdma_byte4_val); */
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x3,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 114:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x3,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 120:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x3f, 0x03,
++						      ps_tdma_byte3_val, 0x10);
++			break;
++		case 122:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x25, 0x03,
++						      ps_tdma_byte3_val, 0x10);
++			break;
++		case 132:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x25, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 133:
++			halbtc8723b1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x25, 0x03,
++						      ps_tdma_byte3_val, 0x11);
++			break;
++
++		}
++	} else {
++
++		/* disable PS tdma */
++		switch (type) {
++		case 8: /* PTA Control */
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x8,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 0:
++		default:  /* Software control, Antenna at BT side */
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 1: /* 2-Ant, 0x778=3, antenna control by antenna diversity */
++			halbtc8723b1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x48, 0x0);
++			break;
++		}
++	}
++	rssi_adjust_val = 0;
++	btcoexist->btc_set(btcoexist,
++		BTC_SET_U1_RSSI_ADJ_VAL_FOR_1ANT_COEX_TYPE, &rssi_adjust_val);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"############# [BTCoex], 0x948=0x%x, 0x765=0x%x, 0x67=0x%x\n",
++		    btcoexist->btc_read_4byte(btcoexist, 0x948),
++		    btcoexist->btc_read_1byte(btcoexist, 0x765),
++		    btcoexist->btc_read_1byte(btcoexist, 0x67));
++	BTC_TRACE(trace_buf);
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8723b1ant_tdma_duration_adjust_for_acl(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0, bt_info_ext;
++	boolean			wifi_busy = false;
++
++	if (BT_8723B_1ANT_WIFI_STATUS_CONNECTED_BUSY == wifi_status)
++		wifi_busy = true;
++	else
++		wifi_busy = false;
++
++	if ((BT_8723B_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN ==
++	     wifi_status) ||
++	    (BT_8723B_1ANT_WIFI_STATUS_CONNECTED_SCAN == wifi_status) ||
++	    (BT_8723B_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT ==
++	     wifi_status)) {
++		if (coex_dm->cur_ps_tdma != 1 &&
++		    coex_dm->cur_ps_tdma != 2 &&
++		    coex_dm->cur_ps_tdma != 3 &&
++		    coex_dm->cur_ps_tdma != 9) {
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						9);
++			coex_dm->ps_tdma_du_adj_type = 9;
++
++			up = 0;
++			dn = 0;
++			m = 1;
++			n = 3;
++			result = 0;
++			wait_count = 0;
++		}
++		return;
++	}
++
++	if (!coex_dm->auto_tdma_adjust) {
++		coex_dm->auto_tdma_adjust = true;
++
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 2);
++		coex_dm->ps_tdma_du_adj_type = 2;
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/* accquire the BT TRx retry count from BT_Info byte2 */
++		retry_count = coex_sta->bt_retry_cnt;
++		bt_info_ext = coex_sta->bt_info_ext;
++
++		if ((coex_sta->low_priority_tx) > 1050 ||
++		    (coex_sta->low_priority_rx) > 1250)
++			retry_count++;
++
++		result = 0;
++		wait_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if retry count during continuous n*2 seconds is 0, enlarge WiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {	/* if continuous 2 retry count(every 2 seconds) >0 and < 3, reduce WiFi duration */
++				if (wait_count <= 2)
++					m++; /* to avoid loop between the two levels */
++				else
++					m = 1;
++
++				if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++			}
++		} else { /* retry count > 3, once retry count > 3, to reduce WiFi duration */
++			if (wait_count == 1)
++				m++; /* to avoid loop between the two levels */
++			else
++				m = 1;
++
++			if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++		}
++
++		if (result == -1) {
++			/*		if( (BT_INFO_8723B_1ANT_A2DP_BASIC_RATE(bt_info_ext)) &&
++						((coex_dm->cur_ps_tdma == 1) ||(coex_dm->cur_ps_tdma == 2)) )
++					{
++						halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 9);
++						coex_dm->ps_tdma_du_adj_type = 9;
++					}
++					else */ if (coex_dm->cur_ps_tdma == 1) {
++				halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 2);
++				coex_dm->ps_tdma_du_adj_type = 2;
++			} else if (coex_dm->cur_ps_tdma == 2) {
++				halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 9) {
++				halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 11);
++				coex_dm->ps_tdma_du_adj_type = 11;
++			}
++		} else if (result == 1) {
++			/*			if( (BT_INFO_8723B_1ANT_A2DP_BASIC_RATE(bt_info_ext)) &&
++							((coex_dm->cur_ps_tdma == 1) ||(coex_dm->cur_ps_tdma == 2)) )
++						{
++							halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 9);
++							coex_dm->ps_tdma_du_adj_type = 9;
++						}
++						else */ if (coex_dm->cur_ps_tdma == 11) {
++				halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 9) {
++				halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 2);
++				coex_dm->ps_tdma_du_adj_type = 2;
++			} else if (coex_dm->cur_ps_tdma == 2) {
++				halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 1);
++				coex_dm->ps_tdma_du_adj_type = 1;
++			}
++		} else { /* no change */
++			/* Bryant Modify
++			if(wifi_busy != pre_wifi_busy)
++			{
++				pre_wifi_busy = wifi_busy;
++				halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, true, coex_dm->cur_ps_tdma);
++			}
++			*/
++
++		}
++
++		if (coex_dm->cur_ps_tdma != 1 &&
++		    coex_dm->cur_ps_tdma != 2 &&
++		    coex_dm->cur_ps_tdma != 9 &&
++		    coex_dm->cur_ps_tdma != 11) {
++			/* recover to previous adjust type */
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						coex_dm->ps_tdma_du_adj_type);
++		}
++	}
++}
++
++void halbtc8723b1ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8723b1ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8723b1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8723b1ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		coex_sta->force_lps_on = true;
++		break;
++	case BTC_PS_LPS_OFF:
++		halbtc8723b1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8723b1ant_action_wifi_only(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++	halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, FORCE_EXEC,
++				     false, false);
++}
++
++void halbtc8723b1ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++
++	/* This function check if bt is disabled */
++
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++	} else {
++		bt_disable_cnt++;
++		if (bt_disable_cnt >= 2)
++			bt_disabled = true;
++	}
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++
++		coex_sta->bt_disabled = bt_disabled;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++		if (bt_disabled) {
++			halbtc8723b1ant_action_wifi_only(btcoexist);
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++					   NULL);
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++					   NULL);
++		}
++	}
++}
++
++/* *********************************************
++ *
++ *	Non-Software Coex Mechanism start
++ *
++ * ********************************************* */
++void halbtc8723b1ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC,
++				     false, false);
++	halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8723b1ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC,
++				     false, false);
++	halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8723b1ant_action_hs(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++	halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8723b1ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_connected = false, ap_enable = false, wifi_busy = false,
++				bt_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	if (coex_sta->bt_abnormal_scan) {
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						33);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);				
++	} else if ((!wifi_connected) && (!coex_sta->wifi_is_high_pri_task)) {
++		halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist) ||
++		   (bt_link_info->a2dp_exist)) {
++		/* SCO/HID/A2DP  busy */
++		halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++
++		if (coex_sta->c2h_bt_remote_name_req)
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						33);
++		else
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if ((bt_link_info->pan_exist) || (wifi_busy)) {
++		halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++
++		if (coex_sta->c2h_bt_remote_name_req)
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						33);
++		else
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++	}
++}
++
++void halbtc8723b1ant_action_bt_sco_hid_only_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	/* tdma and coex table */
++
++	if (bt_link_info->sco_exist) {
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else { /* HID */
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	}
++}
++
++void halbtc8723b1ant_action_wifi_connected_bt_acl_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	if ((coex_sta->low_priority_rx >= 950)  && (!coex_sta->under_ips))
++		bt_link_info->slave_role = true;
++	else
++		bt_link_info->slave_role = false;
++
++	if (bt_link_info->hid_only) { /* HID */
++		halbtc8723b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				wifi_status);
++		coex_dm->auto_tdma_adjust = false;
++		return;
++	} else if (bt_link_info->a2dp_only) { /* A2DP		 */
++		if (BT_8723B_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status) {
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = false;
++		} else {
++			halbtc8723b1ant_tdma_duration_adjust_for_acl(btcoexist,
++					wifi_status);
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = true;
++		}
++	} else if (((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) ||
++		   (bt_link_info->hid_exist && bt_link_info->a2dp_exist &&
++		bt_link_info->pan_exist)) { /* A2DP+PAN(OPP,FTP), HID+A2DP+PAN(OPP,FTP) */
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	} else if (bt_link_info->hid_exist &&
++		   bt_link_info->a2dp_exist) { /* HID+A2DP */
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 14);
++		coex_dm->auto_tdma_adjust = false;
++
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if ((bt_link_info->pan_only) || (bt_link_info->hid_exist &&
++		bt_link_info->pan_exist)) { /* PAN(OPP,FTP), HID+PAN(OPP,FTP)			 */
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	} else {
++		/* BT no-profile busy (0x9) */
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	}
++}
++
++void halbtc8723b1ant_action_wifi_not_connected(IN struct btc_coexist *btcoexist)
++{
++	/* power save state */
++	halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC,
++				     false, false);
++	halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8723b1ant_action_wifi_not_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if (BT_8723B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						20);
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8723B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8723B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8723b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8723B_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		/* Bryant Add */
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8723b1ant_action_wifi_not_connected_asso_auth(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist)  || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else {
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 2);
++	}
++}
++
++void halbtc8723b1ant_action_wifi_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if (BT_8723B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						20);
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8723B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8723B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8723b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8723B_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		/* Bryant Add */
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8723b1ant_action_wifi_connected_specific_packet(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	/* no specific packet process for both WiFi and BT very busy */
++	if ((wifi_busy) && ((bt_link_info->pan_exist) ||
++			    (coex_sta->num_of_profile >= 2)))
++		return;
++
++	halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist)) {
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else if (bt_link_info->a2dp_exist) {
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8723b1ant_action_wifi_connected(IN struct btc_coexist *btcoexist)
++{
++	boolean	wifi_busy = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean		under_4way = false, ap_enable = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], CoexForWifiConnect()===>\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (under_4way) {
++		halbtc8723b1ant_action_wifi_connected_specific_packet(btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 4way<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++	
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++	if (scan || link || roam) {
++		if (scan)
++			halbtc8723b1ant_action_wifi_connected_scan(btcoexist);
++		else
++			halbtc8723b1ant_action_wifi_connected_specific_packet(
++				btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under scan<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	
++	/* power save state */
++	if (!ap_enable &&
++	    BT_8723B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status &&
++	    !btcoexist->bt_link_info.hid_only) {
++		if (btcoexist->bt_link_info.a2dp_only) {	/* A2DP */
++			if (!wifi_busy)
++				halbtc8723b1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			else { /* busy */
++				if (coex_sta->scan_ap_num >=
++				    BT_8723B_1ANT_WIFI_NOISY_THRESH)  /* no force LPS, no PS-TDMA, use pure TDMA */
++					halbtc8723b1ant_power_save_state(
++						btcoexist, BTC_PS_WIFI_NATIVE,
++						0x0, 0x0);
++				else
++					halbtc8723b1ant_power_save_state(
++						btcoexist, BTC_PS_LPS_ON, 0x50,
++						0x4);
++			}
++		} else if ((coex_sta->pan_exist == false) &&
++			   (coex_sta->a2dp_exist == false) &&
++			   (coex_sta->hid_exist == false))
++			halbtc8723b1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		else
++			halbtc8723b1ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++	} else
++		halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++
++	/* tdma and coex table */
++	if (!wifi_busy) {
++		if (BT_8723B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8723b1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8723B_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else if ((BT_8723B_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8723B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8723b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8723B_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else {
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++			halbtc8723b1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_PTA, NORMAL_EXEC, false, false);
++			/* if ((coex_sta->high_priority_tx) +
++			    (coex_sta->high_priority_rx) <= 60) */
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++			/* else
++				halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7); */
++		}
++	} else {
++		if (BT_8723B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8723b1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8723B_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else if ((BT_8723B_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8723B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8723b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8723B_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else {
++			/* halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++			halbtc8723b1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_PTA, NORMAL_EXEC, false, false);
++			if ((coex_sta->high_priority_tx) +
++			    (coex_sta->high_priority_rx) <= 60)
++				halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++			else
++				halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7); */
++			halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8723b1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_PTA, NORMAL_EXEC, false, false);
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++
++		}
++	}
++}
++
++void halbtc8723b1ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false, bt_hs_on = false, wifi_busy = false;
++	boolean	increase_scan_dev_num = false;
++	boolean	bt_ctrl_agg_buf_size = false;
++	boolean	miracast_plus_bt = false;
++	u8	agg_buf_size = 5;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0, wifi_bw;
++	u8	iot_peer = BTC_IOT_PEER_UNKNOWN;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b1ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	if ((BT_8723B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8723B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8723B_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		increase_scan_dev_num = true;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_INC_SCAN_DEV_NUM,
++			   &increase_scan_dev_num);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		if (bt_link_info->bt_link_exist) {
++			halbtc8723b1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1,
++						   0, 1);
++			miracast_plus_bt = true;
++		} else {
++			halbtc8723b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0,
++						   0, 0);
++			miracast_plus_bt = false;
++		}
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8723b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (((bt_link_info->a2dp_exist) || (wifi_busy)) &&
++		    (coex_sta->c2h_bt_inquiry_page))
++			halbtc8723b1ant_action_bt_inquiry(btcoexist);
++		else
++			halbtc8723b1ant_action_wifi_multi_port(btcoexist);
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if ((bt_link_info->bt_link_exist) && (wifi_connected)) {
++		halbtc8723b1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1, 0, 1);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_IOT_PEER, &iot_peer);
++
++		/* if(BTC_IOT_PEER_CISCO != iot_peer)		 */
++		if ((BTC_IOT_PEER_CISCO != iot_peer) &&
++		    (BTC_IOT_PEER_BROADCOM != iot_peer)) {
++			if (bt_link_info->sco_exist) /* if (bt_link_info->bt_hi_pri_link_exist) */
++				/* halbtc8723b1ant_limited_rx(btcoexist, NORMAL_EXEC, true, false, 0x5);				 */
++				halbtc8723b1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, false, false, 0x5);
++			else
++				halbtc8723b1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, false, false, 0x5);
++			/* halbtc8723b1ant_limited_rx(btcoexist, NORMAL_EXEC, false, true, 0x8);		 */
++		} else {
++			if (bt_link_info->sco_exist)
++				halbtc8723b1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, true, false, 0x5);
++			else {
++				if (BTC_WIFI_BW_HT40 == wifi_bw)
++					halbtc8723b1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x10);
++				else
++					halbtc8723b1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x8);
++			}
++		}
++
++		halbtc8723b1ant_sw_mechanism(btcoexist, true);
++	} else {
++		halbtc8723b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++		halbtc8723b1ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x5);
++
++		halbtc8723b1ant_sw_mechanism(btcoexist, false);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8723b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8723b1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	if (!wifi_connected) {
++		boolean	scan = false, link = false, roam = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is non connected-idle !!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (scan || link || roam) {
++			if (scan)
++				halbtc8723b1ant_action_wifi_not_connected_scan(
++					btcoexist);
++			else
++				halbtc8723b1ant_action_wifi_not_connected_asso_auth(
++					btcoexist);
++		} else
++			halbtc8723b1ant_action_wifi_not_connected(btcoexist);
++	} else	/* wifi LPS/Busy */
++		halbtc8723b1ant_action_wifi_connected(btcoexist);
++}
++
++void halbtc8723b1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++
++	/* sw all off */
++	halbtc8723b1ant_sw_mechanism(btcoexist, false);
++
++	/* halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8); */
++	/* halbtc8723b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0); */
++
++	coex_sta->pop_event_cnt = 0;
++}
++
++void halbtc8723b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up, IN boolean wifi_only)
++{
++	u32				u32tmp = 0; /* , fw_ver; */
++	u8				u8tmpa = 0, u8tmpb = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 1Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	psd_scan->ant_det_is_ant_det_available = false;
++
++	/* 0xf0[15:12] --> Chip Cut information */
++	coex_sta->cut_version = (btcoexist->btc_read_1byte(btcoexist,
++				 0xf1) & 0xf0) >> 4;
++
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++
++	/* 0x790[5:0]=0x5	 */
++	btcoexist->btc_write_1byte(btcoexist, 0x790, 0x5);
++
++	/* Enable counter statistics */
++	/* btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc); //0x76e[3] =1, WLAN_Act control by PTA */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++
++
++	/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x20, 0x1); //BT select s0/s1 is controlled by WiFi */
++
++	halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++
++	/* Antenna config */
++	if (wifi_only)
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_WIFI,
++					     FORCE_EXEC, true, false);
++	else
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, true, false);
++
++	/* PTA parameter */
++	halbtc8723b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x948);
++	u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++	u8tmpb = btcoexist->btc_read_1byte(btcoexist, 0x67);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"############# [BTCoex], 0x948=0x%x, 0x765=0x%x, 0x67=0x%x\n",
++		    u32tmp,  u8tmpa, u8tmpb);
++	BTC_TRACE(trace_buf);
++}
++
++void halbtc8723b1ant_mechanism_switch(IN struct btc_coexist *btcoexist,
++				      IN boolean bSwitchTo2Antenna)
++{
++
++	if (bSwitchTo2Antenna) { /* 1-Ant -> 2-Ant */
++		/* un-lock TRx Mask setup for 8723b f-cut */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdd, 0x80, 0x1);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdf, 0x1, 0x1);
++		/* WiFi TRx Mask on				 */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x0);
++
++		/* BT TRx Mask un-lock 0x2c[0], 0x30[0] = 1 */
++		btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x2c,
++					  0x7c45);
++		btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x30,
++					  0x7c45);
++
++		/* BT TRx Mask on */
++		btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x3c, 0x1);
++
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, false);
++	} else {
++		/* WiFi TRx Mask on				 */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x780);
++
++		/* lock TRx Mask setup for 8723b f-cut */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdd, 0x80, 0x0);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdf, 0x1, 0x0);
++
++		/* BT TRx Mask on */
++		btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x3c, 0x15);
++
++		/* BT TRx Mask ock 0x2c[0], 0x30[0]  = 0 */
++		btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x2c,
++					  0x7c44);
++		btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x30,
++					  0x7c44);
++
++
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++	}
++
++}
++
++u32 halbtc8723b1ant_psd_log2base(IN struct btc_coexist *btcoexist, IN u32 val)
++{
++	u8	j;
++	u32	tmp, tmp2, val_integerd_b = 0, tindex, shiftcount = 0;
++	u32	result, val_fractiond_b = 0, table_fraction[21] = {0, 432, 332, 274, 232, 200,
++				   174, 151, 132, 115, 100, 86, 74, 62, 51, 42,
++							   32, 23, 15, 7, 0
++							      };
++
++	if (val == 0)
++		return 0;
++
++	tmp = val;
++
++	while (1) {
++		if (tmp == 1)
++			break;
++		else {
++			tmp = (tmp >> 1);
++			shiftcount++;
++		}
++	}
++
++
++	val_integerd_b = shiftcount + 1;
++
++	tmp2 = 1;
++	for (j = 1; j <= val_integerd_b; j++)
++		tmp2 = tmp2 * 2;
++
++	tmp = (val * 100) / tmp2;
++	tindex = tmp / 5;
++
++	if (tindex > 20)
++		tindex = 20;
++
++	val_fractiond_b = table_fraction[tindex];
++
++	result = val_integerd_b * 100 - val_fractiond_b;
++
++	return result;
++
++
++}
++
++void halbtc8723b1ant_psd_show_antenna_detect_result(IN struct btc_coexist
++		*btcoexist)
++{	
++	u8		*cli_buf = btcoexist->cli_buf;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n============[Antenna Detection info]  ============\n");
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 1)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (>%d)",
++			   "Ant Det Result", "2-Antenna (Bad-Isolation)",
++			   BT_8723B_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else if (psd_scan->ant_det_result == 2)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "2-Antenna (Good-Isolation)",
++			   BT_8723B_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset,
++			   BT_8723B_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "1-Antenna",
++			   BT_8723B_1ANT_ANTDET_PSDTHRES_1ANT,
++			   BT_8723B_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset);
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s ",
++		   "Antenna Detection Finish",
++		   (board_info->btdm_ant_det_finish
++		    ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	switch (psd_scan->ant_det_result) {
++	case 0:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not available)");
++		break;
++	case 1:  /* 2-Ant bad-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 2:  /* 2-Ant good-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 3:  /* 1-Ant */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 4:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Uncertainty result)");
++		break;
++	case 5:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "(Pre-Scan fai)");
++		break;
++	case 6:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(WiFi is Scanning)");
++		break;
++	case 7:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not idle)");
++		break;
++	case 8:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Abort by WiFi Scanning)");
++		break;
++	case 9:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Antenna Init is not ready)");
++		break;
++	case 10:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Inquiry or page)");
++		break;
++	case 11:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Disabled)");
++		break;
++	}
++	CL_PRINTF(cli_buf);	
++
++	
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Total Count", psd_scan->ant_det_try_count);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Fail Count", psd_scan->ant_det_fail_count);
++	CL_PRINTF(cli_buf);
++
++	if ((!board_info->btdm_ant_det_finish) &&
++	    (psd_scan->ant_det_result != 5))
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "BT Response",
++		   (psd_scan->ant_det_result ? "ok" : "fail"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ms", "BT Tx Time",
++		   psd_scan->ant_det_bt_tx_time);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "BT Tx Ch",
++		   psd_scan->ant_det_bt_le_channel);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d",
++		   "WiFi PSD Cent-Ch/Offset/Span",
++		   psd_scan->real_cent_freq, psd_scan->real_offset,
++		   psd_scan->real_span);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d dB",
++		   "PSD Pre-Scan Peak Value",
++		   psd_scan->ant_det_pre_psdscan_peak_val / 100);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (<= %d)",
++		   "PSD Pre-Scan result",
++		   (psd_scan->ant_det_result != 5 ? "ok" : "fail"),
++		   BT_8723B_1ANT_ANTDET_PSDTHRES_BACKGROUND
++		   + psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 5)
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s dB",
++		   "PSD Scan Peak Value", psd_scan->ant_det_peak_val);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s MHz",
++		   "PSD Scan Peak Freq", psd_scan->ant_det_peak_freq);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "TFBGA Package",
++		   (board_info->tfbga_package) ?  "Yes" : "No");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "PSD Threshold Offset", psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++}
++
++void halbtc8723b1ant_psd_showdata(IN struct btc_coexist *btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	u32		delta_freq_per_point;
++	u32		freq, freq1, freq2, n = 0, i = 0, j = 0, m = 0, psd_rep1, psd_rep2;
++	
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n\n============[PSD info]  (%d)============\n",
++		   psd_scan->psd_gen_count);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->psd_gen_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n No data !!\n");
++		CL_PRINTF(cli_buf);
++		return;
++	}
++
++	if (psd_scan->psd_point == 0)
++		delta_freq_per_point = 0;
++	else
++		delta_freq_per_point = psd_scan->psd_band_width /
++				       psd_scan->psd_point;
++
++	/* if (psd_scan->is_psd_show_max_only) */
++	if (0) {
++		psd_rep1 = psd_scan->psd_max_value / 100;
++		psd_rep2 = psd_scan->psd_max_value - psd_rep1 * 100;
++
++		freq = ((psd_scan->real_cent_freq - 20) * 1000000 +
++			psd_scan->psd_max_value_point * delta_freq_per_point);
++		freq1 = freq / 1000000;
++		freq2 = freq / 1000 - freq1 * 1000;
++
++		if (freq2 < 100)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.0%d MHz",
++				   freq1, freq2);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.%d MHz",
++				   freq1, freq2);
++
++		if (psd_rep2 < 10)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.0%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++
++		CL_PRINTF(cli_buf);
++	} else {
++		m = psd_scan->psd_start_point;
++		n = psd_scan->psd_start_point;
++		i = 1;
++		j = 1;
++
++		while (1) {
++			do {
++				freq = ((psd_scan->real_cent_freq - 20) * 1000000 + m *
++					delta_freq_per_point);
++				freq1 = freq / 1000000;
++				freq2 = freq / 1000 - freq1 * 1000;
++
++				if (i == 1) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.0%2d", freq1,
++							   freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.%3d", freq1,
++							   freq2);
++				} else if ((i % 8 == 0) ||
++					   (m == psd_scan->psd_stop_point)) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000\n", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d\n", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d\n", freq1, freq2);
++				} else {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d", freq1, freq2);
++				}
++
++				i++;
++				m++;
++				CL_PRINTF(cli_buf);
++
++			} while ((i <= 8) && (m <= psd_scan->psd_stop_point));
++
++
++			do {
++				psd_rep1 = psd_scan->psd_report_max_hold[n] / 100;
++				psd_rep2 = psd_scan->psd_report_max_hold[n] - psd_rep1 *
++					   100;
++
++				if (j == 1) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.0%d", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.%d", psd_rep1,
++							   psd_rep2);
++				} else if ((j % 8 == 0)  ||
++					   (n == psd_scan->psd_stop_point)) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d\n", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d\n", psd_rep1, psd_rep2);
++				} else {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d", psd_rep1, psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d", psd_rep1, psd_rep2);
++				}
++
++				j++;
++				n++;
++				CL_PRINTF(cli_buf);
++
++			} while ((j <= 8) && (n <= psd_scan->psd_stop_point));
++
++			if ((m > psd_scan->psd_stop_point) ||
++			    (n > psd_scan->psd_stop_point))
++				break;
++			else {
++				i = 1;
++				j = 1;
++			}
++
++		}
++	}
++
++
++}
++
++void halbtc8723b1ant_psd_max_holddata(IN struct btc_coexist *btcoexist,
++				      IN u32 gen_count)
++{
++	u32	i = 0, i_max = 0, val_max = 0;
++
++	if (gen_count == 1) {
++		memcpy(psd_scan->psd_report_max_hold,
++		       psd_scan->psd_report,
++		       BT_8723B_1ANT_ANTDET_PSD_POINTS * sizeof(u32));
++
++		psd_scan->psd_max_value_point = 0;
++		psd_scan->psd_max_value = 0;
++
++	} else {
++		for (i = psd_scan->psd_start_point;
++		     i <= psd_scan->psd_stop_point; i++) {
++			if (psd_scan->psd_report[i] >
++			    psd_scan->psd_report_max_hold[i])
++				psd_scan->psd_report_max_hold[i] =
++					psd_scan->psd_report[i];
++
++			/* search Max Value */
++			if (i == psd_scan->psd_start_point) {
++				i_max = i;
++				val_max = psd_scan->psd_report_max_hold[i];
++			} else {
++				if (psd_scan->psd_report_max_hold[i] >
++				    val_max) {
++					i_max = i;
++					val_max = psd_scan->psd_report_max_hold[i];
++				}
++			}
++
++		}
++
++		psd_scan->psd_max_value_point = i_max;
++		psd_scan->psd_max_value = val_max;
++
++	}
++
++
++}
++
++u32 halbtc8723b1ant_psd_getdata(IN struct btc_coexist *btcoexist, IN u32 point)
++{
++	/* reg 0x808[9:0]: FFT data x */
++	/* reg 0x808[22]: 0-->1 to get 1 FFT data y */
++	/* reg 0x8b4[15:0]: FFT data y report */
++
++	u32 val = 0, psd_report = 0;
++	int k = 0;
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++
++	val &= 0xffbffc00;
++	val |= point;
++
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	val |= 0x00400000;
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	while (1) {
++		if (k++ > BT_8723B_1ANT_ANTDET_SWEEPPOINT_DELAY)
++			break;
++	}
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x8b4);
++
++	psd_report = val & 0x0000ffff;
++
++	return psd_report;
++}
++
++
++boolean halbtc8723b1ant_psd_sweep_point(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN s32 offset, IN u32 span, IN u32 points,
++					IN u32 avgnum, IN u32 loopcnt)
++{
++	u32	 i, val, n, k = 0, j, point_index = 0;
++	u32	points1 = 0, psd_report = 0;
++	u32	start_p = 0, stop_p = 0, delta_freq_per_point = 156250;
++	u32    psd_center_freq = 20 * 10 ^ 6;
++	boolean outloop = false, scan , roam, is_sweep_ok = true;
++	u8	 flag = 0;
++	u32	tmp;
++	u32	wifi_original_channel = 1;
++
++	psd_scan->is_psd_running = true;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Start!!\n");
++	BTC_TRACE(trace_buf);
++
++	do {
++		switch (flag) {
++		case 0:  /* Get PSD parameters */
++		default:
++
++			psd_scan->psd_band_width = 40 * 1000000;
++			psd_scan->psd_point = points;
++			psd_scan->psd_start_base = points / 2;
++			psd_scan->psd_avg_num = avgnum;
++			psd_scan->real_cent_freq = cent_freq;
++			psd_scan->real_offset = offset;
++			psd_scan->real_span = span;
++
++
++			points1 = psd_scan->psd_point;
++			delta_freq_per_point = psd_scan->psd_band_width /
++					       psd_scan->psd_point;
++
++			/* PSD point setup */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffff0fff;
++
++			switch (psd_scan->psd_point) {
++			case 128:
++				val |= 0x0;
++				break;
++			case 256:
++			default:
++				val |= 0x00004000;
++				break;
++			case 512:
++				val |= 0x00008000;
++				break;
++			case 1024:
++				val |= 0x0000c000;
++				break;
++			}
++
++			switch (psd_scan->psd_avg_num) {
++			case 1:
++				val |= 0x0;
++				break;
++			case 8:
++				val |= 0x00001000;
++				break;
++			case 16:
++				val |= 0x00002000;
++				break;
++			case 32:
++			default:
++				val |= 0x00003000;
++				break;
++			}
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			flag = 1;
++			break;
++		case 1:	  /* calculate the PSD point index from freq/offset/span */
++			psd_center_freq = psd_scan->psd_band_width / 2 +
++					  offset * (1000000);
++
++			start_p = psd_scan->psd_start_base + (psd_center_freq -
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_start_point = start_p -
++						    psd_scan->psd_start_base;
++
++			stop_p = psd_scan->psd_start_base + (psd_center_freq +
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_stop_point = stop_p -
++						   psd_scan->psd_start_base - 1;
++
++			flag = 2;
++			break;
++		case 2:  /* set RF channel/BW/Mode */
++
++			/* set 3-wire off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val |= 0x00300000;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val &= 0xfeffffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* store WiFi original channel */
++			wifi_original_channel = btcoexist->btc_get_rf_reg(
++					btcoexist, BTC_RF_A, 0x18, 0x3ff);
++
++			/* Set RF channel */
++			if (cent_freq == 2484)
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++							  0x18, 0x3ff, 0xe);
++			else
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++					  0x18, 0x3ff, (cent_freq - 2412) / 5 +
++						  1); /* WiFi TRx Mask on */
++
++
++			/* Set RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++						  0xfffff, 0x3e4);
++
++			/* Set TRx mask off */
++			/* un-lock TRx Mask setup */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdd,
++						  0x80, 0x1);
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdf,
++						  0x1, 0x1);
++
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x0);
++
++			/* Set  RF mode = Rx, RF Gain = 0x8a0 */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x0,
++						  0xfffff, 0x308a0);
++
++			while (1) {
++				if (k++ > BT_8723B_1ANT_ANTDET_SWEEPPOINT_DELAY)
++					break;
++			}
++			flag = 3;
++			break;
++		case 3:
++			psd_scan->psd_gen_count = 0;
++			for (j = 1; j <= loopcnt; j++) {
++
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_SCAN, &scan);
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_ROAM, &roam);
++
++				if (scan || roam) {
++					is_sweep_ok = false;
++					break;
++				}
++				memset(psd_scan->psd_report, 0,
++				       psd_scan->psd_point * sizeof(u32));
++				start_p = psd_scan->psd_start_point +
++					  psd_scan->psd_start_base;
++				stop_p = psd_scan->psd_stop_point +
++					 psd_scan->psd_start_base + 1;
++
++				i = start_p;
++				point_index = 0;
++
++				while (i < stop_p) {
++					if (i >= points1)
++						psd_report =
++							halbtc8723b1ant_psd_getdata(
++							btcoexist, i - points1);
++					else
++						psd_report =
++							halbtc8723b1ant_psd_getdata(
++								btcoexist, i);
++
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"Point=%d, psd_raw_data = 0x%08x\n",
++						    i, psd_report);
++					BTC_TRACE(trace_buf);
++					if (psd_report == 0)
++						tmp = 0;
++					else
++						/* tmp =  20*log10((double)psd_report); */
++						/* 20*log2(x)/log2(10), log2Base return theresult of the psd_report*100 */
++						tmp = 6 * halbtc8723b1ant_psd_log2base(
++							btcoexist, psd_report);
++
++					n = i - psd_scan->psd_start_base;
++					psd_scan->psd_report[n] =  tmp;
++
++
++					halbtc8723b1ant_psd_max_holddata(
++						btcoexist, j);
++
++					i++;
++
++				}
++
++				psd_scan->psd_gen_count = j;
++			}
++
++			flag = 100;
++			break;
++		case 99:	/* error */
++
++			outloop = true;
++			break;
++		case 100: /* recovery */
++
++			/* set 3-wire on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val &= 0xffcfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val |= 0x01000000;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* PSD off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffbfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			/* TRx Mask on */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x780);
++
++			/* lock TRx Mask setup */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdd,
++						  0x80, 0x0);
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdf,
++						  0x1, 0x0);
++
++			/* Set RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++						  0xfffff, 0x0);
++
++			/* restore WiFi original channel */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x18,
++						  0x3ff, wifi_original_channel);
++
++			outloop = true;
++			break;
++
++		}
++
++	} while (!outloop);
++
++
++
++	psd_scan->is_psd_running = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Stop!!\n");
++	BTC_TRACE(trace_buf);
++	return is_sweep_ok;
++
++}
++
++void halbtc8723b1ant_psd_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 bt_tx_time, IN u32 bt_le_channel)
++{
++	u32	i = 0;
++	u32	wlpsd_cent_freq = 2484, wlpsd_span = 2, wlpsd_sweep_count = 50; 
++	s32 	wlpsd_offset = -4;
++	u8 	bt_le_ch[13] = {3,6,8,11,13,16,18,21,23,26,28,31,33};
++
++	u8	h2c_parameter[3] ={0},u8tmpa,u8tmpb;
++	
++	u8	state=0;
++	boolean		outloop = false, bt_resp = false;
++	u32		freq, freq1, freq2, psd_rep1, psd_rep2, delta_freq_per_point,
++			u32tmp;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	board_info->btdm_ant_det_finish = false;	
++	memset(psd_scan->ant_det_peak_val, 0, 16*sizeof(u8));
++	memset(psd_scan->ant_det_peak_freq, 0, 16*sizeof(u8));
++
++	if (board_info->tfbga_package) /* for TFBGA */
++		psd_scan->ant_det_thres_offset = 5;
++	else
++		psd_scan->ant_det_thres_offset = 0;
++
++	do {
++		switch (state) {
++		case 0:
++			if (bt_le_channel == 39)
++				wlpsd_cent_freq = 2484;
++			else {
++				for (i = 1; i <= 13; i++) {
++					if (bt_le_ch[i - 1] ==
++					    bt_le_channel) {
++						wlpsd_cent_freq = 2412
++								  + (i - 1) * 5;
++						break;
++					}
++				}
++
++				if (i == 14) {
++
++					BTC_SPRINTF(trace_buf,
++						    BT_TMP_BUF_SIZE,
++						"xxxxxxxxxxxxxxxx AntennaDetect(), Abort!!, Invalid LE channel = %d\n ",
++						    bt_le_channel);
++					BTC_TRACE(trace_buf);
++					outloop = true;
++					break;
++				}
++			}
++
++			wlpsd_sweep_count = bt_tx_time * 238 /
++					    100; /* bt_tx_time/0.42								 */
++			wlpsd_sweep_count = wlpsd_sweep_count / 5;
++
++			if (wlpsd_sweep_count % 5 != 0)
++				wlpsd_sweep_count = (wlpsd_sweep_count /
++						     5 + 1) * 5;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), BT_LETxTime=%d,  BT_LECh = %d\n",
++				    bt_tx_time, bt_le_channel);
++			BTC_TRACE(trace_buf);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), wlpsd_cent_freq=%d,  wlpsd_offset = %d, wlpsd_span = %d, wlpsd_sweep_count = %d\n",
++				    wlpsd_cent_freq,
++				    wlpsd_offset,
++				    wlpsd_span,
++				    wlpsd_sweep_count);
++			BTC_TRACE(trace_buf);
++
++			state = 1;
++			break;
++		case 1: /* stop coex DM & set antenna path */
++			/* Stop Coex DM */
++				btcoexist->stop_coex_dm = true;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stop Coex DM!!\n");
++			BTC_TRACE(trace_buf);
++
++			/* set native power save */
++			halbtc8723b1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++
++			/* Set TDMA off,				 */
++			halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC,
++						false, 0);
++
++			/* Set coex table */
++			halbtc8723b1ant_coex_table_with_type(btcoexist,
++							     FORCE_EXEC, 0);
++
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Main Port\n");
++				BTC_TRACE(trace_buf);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Aux Port\n");
++				BTC_TRACE(trace_buf);
++			}
++
++			/* Set Antenna path, switch WiFi to un-certain antenna port */
++			halbtc8723b1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_BT, FORCE_EXEC, false,
++						     false);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to BT!!\n");
++			BTC_TRACE(trace_buf);
++
++			/* Set AFH mask on at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x1;
++			h2c_parameter[1] = 0xd;
++			h2c_parameter[2] = 0x14;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1],
++				    h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			u32tmp = btcoexist->btc_read_4byte(btcoexist,
++							   0x948);
++			u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++			u8tmpb = btcoexist->btc_read_1byte(btcoexist,
++							   0x778);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex], 0x948=0x%x, 0x765=0x%x, 0x778=0x%x\n",
++				    u32tmp,  u8tmpa, u8tmpb);
++			BTC_TRACE(trace_buf);
++
++			state = 2;
++			break;
++			case 2:	/* Pre-sweep background psd */
++			if (!halbtc8723b1ant_psd_sweep_point(btcoexist,
++				     wlpsd_cent_freq, wlpsd_offset, wlpsd_span,
++					     BT_8723B_1ANT_ANTDET_PSD_POINTS,
++				     BT_8723B_1ANT_ANTDET_PSD_AVGNUM, 3)) {
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++			psd_scan->ant_det_pre_psdscan_peak_val =
++				psd_scan->psd_max_value;
++
++			if (psd_scan->psd_max_value >
++			    (BT_8723B_1ANT_ANTDET_PSDTHRES_BACKGROUND
++			     + psd_scan->ant_det_thres_offset) * 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Abort Antenna Detection!! becaus background = %d > thres (%d)\n",
++					    psd_scan->psd_max_value / 100,
++					BT_8723B_1ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 5;
++				state = 99;
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Start Antenna Detection!! becaus background = %d <= thres (%d)\n",
++					    psd_scan->psd_max_value / 100,
++					BT_8723B_1ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				state = 3;
++			}
++			break;
++			case 3:	
++			bt_resp = btcoexist->btc_set_bt_ant_detection(
++					  btcoexist, (u8)(bt_tx_time & 0xff),
++					  (u8)(bt_le_channel & 0xff));
++
++			if (!halbtc8723b1ant_psd_sweep_point(btcoexist,
++					     wlpsd_cent_freq, wlpsd_offset,
++							     wlpsd_span,
++					     BT_8723B_1ANT_ANTDET_PSD_POINTS,
++					     BT_8723B_1ANT_ANTDET_PSD_AVGNUM,
++						     wlpsd_sweep_count)) {
++				board_info->btdm_ant_det_finish
++					= false;
++				board_info->btdm_ant_num_by_ant_det
++					= 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++			psd_scan->ant_det_psd_scan_peak_val =
++				psd_scan->psd_max_value;
++			psd_scan->ant_det_psd_scan_peak_freq =
++				psd_scan->psd_max_value_point;
++			state = 4;
++			break;
++			case 4:				
++
++			if (psd_scan->psd_point == 0)
++				delta_freq_per_point = 0;
++			else
++				delta_freq_per_point =
++					psd_scan->psd_band_width /
++					psd_scan->psd_point;
++
++			psd_rep1 = psd_scan->psd_max_value / 100;
++			psd_rep2 = psd_scan->psd_max_value - psd_rep1 *
++				   100;
++
++			freq = ((psd_scan->real_cent_freq - 20) *
++				1000000 + psd_scan->psd_max_value_point
++				* delta_freq_per_point);
++			freq1 = freq / 1000000;
++			freq2 = freq / 1000 - freq1 * 1000;
++
++			if (freq2 < 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.0%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8723B_1ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", freq1, freq2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8723B_1ANT_ANTDET_BUF_LEN,
++					   "%d.%d", freq1, freq2);
++			}
++
++			if (psd_rep2 < 10) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.0%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8723B_1ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", psd_rep1, psd_rep2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8723B_1ANT_ANTDET_BUF_LEN,
++					   "%d.%d", psd_rep1, psd_rep2);
++			}
++
++			psd_scan->ant_det_is_btreply_available = true;
++
++			if (bt_resp == false) {
++				psd_scan->ant_det_is_btreply_available =
++					false;
++				psd_scan->ant_det_result = 0;
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), BT Response = Fail\n ");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				(BT_8723B_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION)
++				   * 100) {
++				psd_scan->ant_det_result = 1;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Bad-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				(BT_8723B_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++				    + psd_scan->ant_det_thres_offset) * 100) {
++				psd_scan->ant_det_result = 2;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Good-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				   (BT_8723B_1ANT_ANTDET_PSDTHRES_1ANT) *
++				   100) {
++				psd_scan->ant_det_result = 3;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant!!\n");
++				BTC_TRACE(trace_buf);
++			} else {
++				psd_scan->ant_det_result = 4;
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant, un-certainity!!\n");
++				BTC_TRACE(trace_buf);
++			}
++
++			state = 99;
++			break;
++		case 99:  /* restore setup */
++
++			/* Set AFH mask off at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x0;
++			h2c_parameter[1] = 0x0;
++			h2c_parameter[2] = 0x0;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1], h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			/* Set Antenna Path					 */
++			halbtc8723b1ant_set_ant_path(btcoexist,
++				     BTC_ANT_PATH_PTA, FORCE_EXEC, false,
++						     false);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to PTA\n!!");
++			BTC_TRACE(trace_buf);
++
++			/* Resume Coex DM */
++			btcoexist->stop_coex_dm = false;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Resume Coex DM\n!!");
++			BTC_TRACE(trace_buf);
++
++			/* stimulate coex running */
++			halbtc8723b1ant_run_coexist_mechanism(
++				btcoexist);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stimulate Coex running\n!!");
++			BTC_TRACE(trace_buf);
++
++			outloop = true;
++			break;
++		}
++
++	} while (!outloop);
++
++
++
++}
++
++void halbtc8723b1ant_psd_antenna_detection_check(IN struct btc_coexist
++		*btcoexist)
++{
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	
++	boolean scan, roam;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++
++	/* psd_scan->ant_det_bt_tx_time = 20;  */
++	psd_scan->ant_det_bt_tx_time =
++		BT_8723B_1ANT_ANTDET_BTTXTIME;	   /* 0.42ms*50 = 20ms (0.42ms = 1 PSD sweep) */
++	psd_scan->ant_det_bt_le_channel = BT_8723B_1ANT_ANTDET_BTTXCHANNEL;		
++
++	ant_det_count++;
++	
++	psd_scan->ant_det_try_count = ant_det_count;	
++			
++	if (scan || roam) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 6;
++	} else if (coex_sta->bt_disabled) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 11;
++	} else if (coex_sta->num_of_profile >= 1) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 7;
++	} else if (
++		!psd_scan->ant_det_is_ant_det_available) { /* Antenna initial setup is not ready */
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 9;
++	} else if (coex_sta->c2h_bt_inquiry_page) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 10;
++	} else
++		halbtc8723b1ant_psd_antenna_detection(btcoexist,
++					      psd_scan->ant_det_bt_tx_time,
++					      psd_scan->ant_det_bt_le_channel);
++
++	if (!board_info->btdm_ant_det_finish)
++		ant_det_fail_count++;
++
++	psd_scan->ant_det_fail_count = ant_det_fail_count;
++
++}
++
++
++/* ************************************************************
++ * work around function start with wa_halbtc8723b1ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8723b1ant_
++ * ************************************************************ */
++void ex_halbtc8723b1ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 				u8tmp=0x0;
++	u16 				u16tmp=0x0;
++	u32				value;
++       
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx Execute 8723b 1-Ant PowerOn Setting xxxxxxxxxxxxxxxx!!\n");
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "Ant Det Finish = %s, Ant Det Number  = %d\n",
++		    (board_info->btdm_ant_det_finish ? "Yes" : "No"),
++		    board_info->btdm_ant_num_by_ant_det);
++	BTC_TRACE(trace_buf);
++
++	
++	btcoexist->stop_coex_dm = true;
++
++	btcoexist->btc_write_1byte(btcoexist, 0x67, 0x20);
++
++	/* enable BB, REG_SYS_FUNC_EN such that we can write 0x948 correctly. */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x2);
++	btcoexist->btc_write_2byte(btcoexist, 0x2, u16tmp | BIT(0) | BIT(1));
++
++	/* set GRAN_BT = 1 */
++	btcoexist->btc_write_1byte(btcoexist, 0x765, 0x18);
++	/* set WLAN_ACT = 0 */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);	
++
++	/*  */
++	/* S0 or S1 setting and Local register setting(By the setting fw can get ant number, S0/S1, ... info) */
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++	if(btcoexist->chip_interface == BTC_INTF_USB) {
++		/* fixed at S0 for USB interface */
++		btcoexist->btc_write_4byte(btcoexist, 0x948, 0x0);
++		
++		u8tmp |= 0x1;	/* antenna inverse */
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++	} else {
++		/* for PCIE and SDIO interface, we check efuse 0xc3[6] */
++		if (board_info->single_ant_path == 0) {
++			/* set to S1 */
++			btcoexist->btc_write_4byte(btcoexist, 0x948, 0x280);
++			board_info->btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++			value = 1;
++		} else if (board_info->single_ant_path == 1) {
++			/* set to S0 */
++			btcoexist->btc_write_4byte(btcoexist, 0x948, 0x0);
++			u8tmp |= 0x1;	/* antenna inverse */
++			board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++			value = 0;
++		}
++
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ANTPOSREGRISTRY_CTRL,
++				   &value);
++		
++		if(btcoexist->chip_interface == BTC_INTF_PCI)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x384,
++							     u8tmp);
++		else if(btcoexist->chip_interface == BTC_INTF_SDIO)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60, 
++							     u8tmp);
++	}
++}
++
++void ex_halbtc8723b1ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8723b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8723b1ant_init_hw_config(btcoexist, true, wifi_only);
++	btcoexist->stop_coex_dm = false;
++}
++
++void ex_halbtc8723b1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = false;
++	
++	halbtc8723b1ant_init_coex_dm(btcoexist);
++
++	halbtc8723b1ant_query_bt_info(btcoexist);
++}
++
++void ex_halbtc8723b1ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case=0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fa_ofdm, fa_cck;
++	u32				fw_ver=0, bt_patch_ver=0;
++	static u8		pop_report_in_10s = 0;	
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if(btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	if(btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	if (psd_scan->ant_det_try_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d",
++			   "Ant PG Num/ Mech/ Pos",
++			   board_info->pg_ant_num, board_info->btdm_ant_num,
++			   board_info->btdm_ant_pos);
++		CL_PRINTF(cli_buf);
++	} else {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d/ %d/ %d  (%d/%d/%d)",
++			   "Ant PG Num/ Mech(Ant_Det)/ Pos",
++			board_info->pg_ant_num, board_info->btdm_ant_num_by_ant_det,
++			   board_info->btdm_ant_pos,
++			psd_scan->ant_det_try_count, psd_scan->ant_det_fail_count,
++			   psd_scan->ant_det_result);
++		CL_PRINTF(cli_buf);
++
++		if (board_info->btdm_ant_det_finish) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++				   "Ant Det PSD Value",
++				   psd_scan->ant_det_peak_val);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)/ %c",
++		   "Version Coex/ Fw/ Patch/ Cut",
++		   glcoex_ver_date_8723b_1ant, glcoex_ver_8723b_1ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver, coex_sta->cut_version + 65);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s/ %s",
++		   "WifibHiPri/ Ccklock/ CckEverLock",
++		   (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"),
++		   (coex_sta->cck_lock ? "Yes" : "No"),
++		   (coex_sta->cck_ever_lock ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Abnormal scan",
++		   (coex_sta->bt_abnormal_scan) ? "Yes" : "No");
++	CL_PRINTF(cli_buf);
++	
++	pop_report_in_10s++;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d/ %d] ", 
++		   "BT [status/ rssi/ retryCnt/ popCnt]",
++		((coex_sta->bt_disabled)? ("disabled"):	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8723B_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8723B_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi, coex_sta->bt_retry_cnt,
++		   coex_sta->pop_event_cnt);
++	CL_PRINTF(cli_buf);
++	
++	if (pop_report_in_10s >= 5) {
++		coex_sta->pop_event_cnt = 0;	
++		pop_report_in_10s = 0;
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d / %d / %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP/NameReq/WHQL",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist,
++		   coex_sta->c2h_bt_remote_name_req,
++		   coex_sta->bt_whck_test);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Role",
++		   (bt_link_info->slave_role) ? "Slave" : "Master");
++	CL_PRINTF(cli_buf);
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d",
++		   "A2DP Rate/Bitpool",
++		(bt_info_ext & BIT(0)) ? "BR" : "EDR", coex_sta->a2dp_bit_pool);
++	CL_PRINTF(cli_buf);	
++
++	for (i = 0; i < BT_INFO_SRC_8723B_1ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8723b_1ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	
++	if(btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[mechanisms] (before Manual)============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanisms]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "SM[LowPenaltyRA]",
++		   coex_dm->cur_low_penalty_ra);
++	CL_PRINTF(cli_buf);
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	if (board_info->btdm_ant_num_by_ant_det == 2) {
++		if (coex_dm->cur_ps_tdma_on)
++			ps_tdma_case = ps_tdma_case +
++				100; /* for WiFi RSSI low or BT RSSI low */
++		else
++			ps_tdma_case =
++				1; /* always translate to TDMA(off,1) for TDMA-off case */
++	}
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (%s,%s)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   (coex_dm->cur_ps_tdma_on ? "On" : "Off"),
++		   (coex_dm->auto_tdma_adjust ? "Adj" : "Fix"));
++
++	CL_PRINTF(cli_buf);
++		
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Coex Table Type",
++		   coex_sta->coex_table_type);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "IgnWlanAct",
++		   coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++	/*
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x ", "Latest error condition(should be 0)",
++		coex_dm->error_condition);
++	CL_PRINTF(cli_buf);
++	*/
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);	
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "backup ARFR1/ARFR2/RL/AMaxTime",
++		   coex_dm->backup_arfr_cnt1, coex_dm->backup_arfr_cnt2,
++		   coex_dm->backup_retry_limit,
++		   coex_dm->backup_ampdu_max_time);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x", 
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6cc);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x880);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x", 
++		   "0x778/0x6cc/0x880[29:25]",
++		   u8tmp[0], u32tmp[0], (u32tmp[1] & 0x3e000000) >> 25);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x948);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x67);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x764);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x76e);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x948/ 0x67[5] / 0x764 / 0x76e",
++		   u32tmp[0], ((u8tmp[0] & 0x20) >> 5), (u32tmp[1] & 0xffff),
++		   u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x92c);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x930);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x944);	
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x92c[1:0]/ 0x930[7:0]/0x944[1:0]",
++		   u32tmp[0] & 0x3, u32tmp[1] & 0xff, u32tmp[2] & 0x3);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x39);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0x64);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x38[11]/0x40/0x4c[24:23]/0x64[0]",
++		   ((u8tmp[0] & 0x8) >> 3), u8tmp[1],
++		   ((u32tmp[0] & 0x01800000) >> 23), u8tmp[2] & 0x1);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x49c);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0xc50(dig)/0x49c(null-drop)",
++		   u32tmp[0] & 0xff, u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xda0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xda4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0xda8);
++	u32tmp[3] = btcoexist->btc_read_4byte(btcoexist, 0xcf0);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5b);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++
++	fa_ofdm = ((u32tmp[0] & 0xffff0000) >> 16) + ((u32tmp[1] & 0xffff0000)
++			>> 16) + (u32tmp[1] & 0xffff) + (u32tmp[2] & 0xffff) +
++		   ((u32tmp[3] & 0xffff0000) >> 16) + (u32tmp[3] &
++				   0xffff) ;
++	fa_cck = (u8tmp[0] << 8) + u8tmp[1];
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "OFDM-CCA/OFDM-FA/CCK-FA",
++		   u32tmp[0] & 0xffff, fa_ofdm, fa_cck);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++#if (BT_AUTO_REPORT_ONLY_8723B_1ANT == 1)
++	/* halbtc8723b1ant_monitor_bt_ctr(btcoexist); */
++#endif
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8723b1ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if(btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, true);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723b1ant_init_hw_config(btcoexist, false, false);
++		halbtc8723b1ant_init_coex_dm(btcoexist);
++		halbtc8723b1ant_query_bt_info(btcoexist);
++
++		coex_sta->under_ips = false;
++	}
++}
++
++void ex_halbtc8723b1ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if(btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++	}
++}
++
++void ex_halbtc8723b1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	boolean wifi_connected=false, bt_hs_on=false;
++	u32	wifi_link_status=0;
++	u32	num_of_wifi_link=0;
++	boolean	bt_ctrl_agg_buf_size=false;
++	u8	agg_buf_size=5;
++
++	u8 u8tmpa, u8tmpb;
++	u32 u32tmp;
++
++	if(btcoexist->manual_control ||
++		btcoexist->stop_coex_dm )
++		return;
++
++	if (BTC_SCAN_START == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++		psd_scan->ant_det_is_ant_det_available = true;
++		halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++			8);  /* Force antenna setup for no scan result issue */
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x948);
++		u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++		u8tmpb = btcoexist->btc_read_1byte(btcoexist, 0x67);
++
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], 0x948=0x%x, 0x765=0x%x, 0x67=0x%x\n",
++			    u32tmp,  u8tmpa, u8tmpb);
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);
++	}	
++
++	if(coex_sta->bt_disabled)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED, 
++&wifi_connected);
++
++	halbtc8723b1ant_query_bt_info(btcoexist);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++ &wifi_link_status);
++	num_of_wifi_link = wifi_link_status>>16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8723b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8723b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8723b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8723b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8723b1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_SCAN_START == type) {
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8723b1ant_action_wifi_not_connected_scan(
++				btcoexist);
++		else	/* wifi is connected */
++			halbtc8723b1ant_action_wifi_connected_scan(btcoexist);
++	} else if (BTC_SCAN_FINISH == type) {
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8723b1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8723b1ant_action_wifi_connected(btcoexist);
++	}
++}
++
++void ex_halbtc8723b1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	boolean	wifi_connected=false, bt_hs_on=false;	
++	u32	wifi_link_status=0;
++	u32	num_of_wifi_link=0;
++	boolean	bt_ctrl_agg_buf_size=false;
++	u8	agg_buf_size=5;
++
++	if(btcoexist->manual_control ||
++		btcoexist->stop_coex_dm ||
++		coex_sta->bt_disabled )
++		return;
++
++	if (BTC_ASSOCIATE_START == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		psd_scan->ant_det_is_ant_det_available = true;
++		halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++			8);  /* Force antenna setup for no scan result issue */
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++		/* coex_dm->arp_cnt = 0; */
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8723b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8723b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8723b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8723b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8723b1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_ASSOCIATE_START == type)
++		halbtc8723b1ant_action_wifi_not_connected_asso_auth(btcoexist);
++	else if (BTC_ASSOCIATE_FINISH == type) {
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++				   &wifi_connected);
++		if (!wifi_connected) /* non-connected scan */
++			halbtc8723b1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8723b1ant_action_wifi_connected(btcoexist);
++	}
++}
++
++void ex_halbtc8723b1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] ={0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++	boolean			wifi_under_b_mode = false;
++
++	if(btcoexist->manual_control ||
++		btcoexist->stop_coex_dm ||
++		coex_sta->bt_disabled )
++		return;
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++			8);  /* Force antenna setup for no scan result issue */
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++		psd_scan->ant_det_is_ant_det_available = true;
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++
++		/* Set CCK Tx/Rx high Pri except 11b mode */
++		if (wifi_under_b_mode) {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x00); /* CCK Rx */
++		} else {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x10); /* CCK Rx */
++		}
++
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++
++		btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x0); /* CCK Tx */
++		btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x0); /* CCK Rx */
++
++		coex_sta->cck_ever_lock = false;
++	}
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		/* h2c_parameter[0] = 0x1; */
++		h2c_parameter[0] = 0x0;
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++}
++
++void ex_halbtc8723b1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean	bt_hs_on=false;
++	u32	wifi_link_status=0;
++	u32	num_of_wifi_link=0;
++	boolean	bt_ctrl_agg_buf_size=false, under_4way=false;
++	u8	agg_buf_size=5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if(btcoexist->manual_control ||
++		btcoexist->stop_coex_dm ||
++		coex_sta->bt_disabled )
++		return;
++
++	if (BTC_PACKET_DHCP == type ||
++	    BTC_PACKET_EAPOL == type ||
++	    BTC_PACKET_ARP == type) {
++		if (BTC_PACKET_ARP == type) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], specific Packet ARP notify\n");
++			BTC_TRACE(trace_buf);
++
++			coex_dm->arp_cnt++;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], ARP Packet Count = %d\n",
++				    coex_dm->arp_cnt);
++			BTC_TRACE(trace_buf);
++
++			if ((coex_dm->arp_cnt >= 10) &&
++			    (!under_4way))  /* if APR PKT > 10 after connect, do not go to ActionWifiConnectedSpecificPacket(btcoexist) */
++				coex_sta->wifi_is_high_pri_task = false;
++			else
++				coex_sta->wifi_is_high_pri_task = true;
++		} else {
++			coex_sta->wifi_is_high_pri_task = true;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], specific Packet DHCP or EAPOL notify\n");
++			BTC_TRACE(trace_buf);
++		}
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet [Type = %d] notify\n", type);
++		BTC_TRACE(trace_buf);
++	}
++
++	coex_sta->specific_pkt_period_cnt = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8723b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8723b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8723b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8723b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8723b1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_PACKET_DHCP == type ||
++	    BTC_PACKET_EAPOL == type ||
++	    ((BTC_PACKET_ARP == type) && (coex_sta->wifi_is_high_pri_task)))
++		halbtc8723b1ant_action_wifi_connected_specific_packet(btcoexist);
++}
++
++void ex_halbtc8723b1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8				bt_info = 0;
++	u8				i, rsp_source=0;
++	boolean				wifi_connected=false;
++	boolean				bt_busy=false;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	rsp_source = tmp_buf[0]&0xf;
++	if(rsp_source >= BT_INFO_SRC_8723B_1ANT_MAX)
++		rsp_source = BT_INFO_SRC_8723B_1ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, 
++"[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source, 
++length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	/* if 0xff, it means BT is under WHCK test */
++	if (bt_info == 0xff)
++		coex_sta->bt_whck_test = true;
++	else
++		coex_sta->bt_whck_test = false;
++
++	if (BT_INFO_SRC_8723B_1ANT_WIFI_FW != rsp_source) {
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2]&0xf;
++
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2]&0x20)
++			coex_sta->c2h_bt_remote_name_req = true;
++		else
++			coex_sta->c2h_bt_remote_name_req = false;			
++
++		coex_sta->bt_rssi =
++			coex_sta->bt_info_c2h[rsp_source][3]*2-90;
++		/* coex_sta->bt_info_c2h[rsp_source][3]*2+10; */
++
++		coex_sta->bt_info_ext = 
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		if (coex_sta->bt_info_c2h[rsp_source][1] == 0x49) {
++			coex_sta->a2dp_bit_pool = 
++				coex_sta->bt_info_c2h[rsp_source][6]; 
++		} else
++			coex_sta->a2dp_bit_pool = 0;
++
++		coex_sta->bt_tx_rx_mask = (coex_sta->bt_info_c2h[rsp_source][2]
++					   & 0x40);
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TX_RX_MASK,
++				   &coex_sta->bt_tx_rx_mask);
++
++#if BT_8723B_1ANT_ANTDET_ENABLE
++#if BT_8723B_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE
++		if ((board_info->btdm_ant_det_finish) &&
++		    (board_info->btdm_ant_num_by_ant_det == 2)) {
++			if (coex_sta->bt_tx_rx_mask) {
++				/* BT into is responded by BT FW and BT RF REG 0x3C != 0x15 => Need to switch BT TRx Mask */
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Switch BT TRx Mask since BT RF REG 0x3C != 0x1\n");
++				BTC_TRACE(trace_buf);
++
++				/* BT TRx Mask un-lock 0x2c[0], 0x30[0] = 1 */
++				btcoexist->btc_set_bt_reg(btcoexist,
++						  BTC_BT_REG_RF, 0x2c, 0x7c45);
++				btcoexist->btc_set_bt_reg(btcoexist,
++						  BTC_BT_REG_RF, 0x30, 0x7c45);
++
++				btcoexist->btc_set_bt_reg(btcoexist,
++						  BTC_BT_REG_RF, 0x3c, 0x1);
++			}
++		} else
++#endif			
++#endif
++
++		{
++			if (!coex_sta->bt_tx_rx_mask) {
++				/* BT into is responded by BT FW and BT RF REG 0x3C != 0x15 => Need to switch BT TRx Mask */
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Switch BT TRx Mask since BT RF REG 0x3C != 0x15\n");
++				BTC_TRACE(trace_buf);
++				btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF,
++							  0x3c, 0x15);
++
++				/* BT TRx Mask lock 0x2c[0], 0x30[0] = 0 */
++				btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF,
++							  0x2c, 0x7c44);
++				btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF,
++							  0x30, 0x7c44);
++			}
++		}
++		
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++		if (coex_sta->bt_info_ext & BIT(1)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++					   &wifi_connected);
++			if (wifi_connected)
++				ex_halbtc8723b1ant_media_status_notify(
++					btcoexist, BTC_MEDIA_CONNECT);
++			else
++				ex_halbtc8723b1ant_media_status_notify(
++					btcoexist, BTC_MEDIA_DISCONNECT);
++		}
++				
++		if (coex_sta->bt_info_ext & BIT(3)) {
++			if(!btcoexist->manual_control && 
++			    !btcoexist->stop_coex_dm) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8723b1ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		} else {
++			/* BT already NOT ignore Wlan active, do nothing here. */
++		}
++#if(BT_AUTO_REPORT_ONLY_8723B_1ANT == 0)
++		if ((coex_sta->bt_info_ext & BIT(4))) {
++			/* BT auto report already enabled, do nothing */
++		} else
++			halbtc8723b1ant_bt_auto_report(btcoexist, FORCE_EXEC,
++						       true);
++#endif
++	}
++		
++	/* check BIT2 first ==> check if bt is under inquiry or page scan */
++	if (bt_info & BT_INFO_8723B_1ANT_B_INQ_PAGE)
++		coex_sta->c2h_bt_inquiry_page = true;
++	else
++		coex_sta->c2h_bt_inquiry_page = false;
++
++	coex_sta->num_of_profile = 0;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8723B_1ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++
++		coex_sta->bt_hi_pri_link_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8723B_1ANT_B_FTP) {
++			coex_sta->pan_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8723B_1ANT_B_A2DP) {
++			coex_sta->a2dp_exist = true;	
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8723B_1ANT_B_HID) {
++			coex_sta->hid_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8723B_1ANT_B_SCO_ESCO) {
++			coex_sta->sco_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->sco_exist = false;
++
++		if ((coex_sta->hid_exist == false) &&
++		    (coex_sta->c2h_bt_inquiry_page == false) &&
++		    (coex_sta->sco_exist == false)) {
++			if (coex_sta->high_priority_tx  +
++			    coex_sta->high_priority_rx >= 160) {
++				coex_sta->hid_exist = true;
++				coex_sta->wrong_profile_notification++;
++				coex_sta->num_of_profile++;
++				bt_info = bt_info | 0x28;
++			}
++		}
++
++		/* Add Hi-Pri Tx/Rx counter to avoid false detection */
++		if (((coex_sta->hid_exist) || (coex_sta->sco_exist)) &&
++		    (coex_sta->high_priority_tx  +
++		     coex_sta->high_priority_rx >= 160)
++		    && (!coex_sta->c2h_bt_inquiry_page))
++			coex_sta->bt_hi_pri_link_exist = true;
++
++		if ((bt_info & BT_INFO_8723B_1ANT_B_ACL_BUSY) &&
++		    (coex_sta->num_of_profile == 0)) {
++			if (coex_sta->low_priority_tx  +
++			    coex_sta->low_priority_rx >= 160) {
++				coex_sta->pan_exist = true;
++				coex_sta->num_of_profile++;
++				coex_sta->wrong_profile_notification++;
++				bt_info = bt_info | 0x88;
++			}
++		}
++	}
++
++	halbtc8723b1ant_update_bt_link_info(btcoexist);
++	
++	bt_info = bt_info &
++		0x1f;  /* mask profile bit for connect-ilde identification ( for CSR case: A2DP idle --> 0x41) */
++	
++	if (!(bt_info & BT_INFO_8723B_1ANT_B_CONNECTION))
++		coex_dm->bt_status = BT_8723B_1ANT_BT_STATUS_NON_CONNECTED_IDLE;
++	else if (bt_info ==
++		BT_INFO_8723B_1ANT_B_CONNECTION)	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8723B_1ANT_BT_STATUS_CONNECTED_IDLE;
++	else if ((bt_info & BT_INFO_8723B_1ANT_B_SCO_ESCO) ||
++		 (bt_info & BT_INFO_8723B_1ANT_B_SCO_BUSY))
++		coex_dm->bt_status = BT_8723B_1ANT_BT_STATUS_SCO_BUSY;
++	else if (bt_info & BT_INFO_8723B_1ANT_B_ACL_BUSY) {
++		if(BT_8723B_1ANT_BT_STATUS_ACL_BUSY != coex_dm->bt_status)
++			coex_dm->auto_tdma_adjust = false;
++		coex_dm->bt_status = BT_8723B_1ANT_BT_STATUS_ACL_BUSY;
++	} else
++		coex_dm->bt_status = BT_8723B_1ANT_BT_STATUS_MAX;
++
++	if( (BT_8723B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++		(BT_8723B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		(BT_8723B_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status) )
++		bt_busy = true;
++	else
++		bt_busy = false;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	halbtc8723b1ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8723b1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u32	u32tmp;
++	u8	u8tmpa,u8tmpb, u8tmpc;
++	
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RF Status notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_RF_ON == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->stop_coex_dm = false;
++	} else if (BTC_RF_OFF == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 
++0x0, 0x0);
++		halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, 
++FORCE_EXEC, false, true);
++		
++		halbtc8723b1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++		btcoexist->stop_coex_dm = true;
++
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x948);
++		u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++ 		u8tmpb = btcoexist->btc_read_1byte(btcoexist, 0x67);
++		u8tmpc = btcoexist->btc_read_1byte(btcoexist, 0x76e);
++
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex], 0x948=0x%x, 0x765=0x%x, 0x67=0x%x, 0x76e=0x%x\n",
++			    u32tmp,  u8tmpa, u8tmpb, u8tmpc);
++		BTC_TRACE(trace_buf);
++
++	}
++}
++
++void ex_halbtc8723b1ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8723b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++	halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, FORCE_EXEC,
++				     false, true);
++
++	halbtc8723b1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++	ex_halbtc8723b1ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	btcoexist->stop_coex_dm = true;	
++}
++
++void ex_halbtc8723b1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8723b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8723b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, true);
++		halbtc8723b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++
++		/* Sinda 20150819, workaround for driver skip leave IPS/LPS to speed up sleep time. */
++		/* Driver do not leave IPS/LPS when driver is going to sleep, so BTCoexistence think wifi is still under IPS/LPS */
++		/* BT should clear UnderIPS/UnderLPS state to avoid mismatch state after wakeup. */
++		coex_sta->under_ips = false;
++		coex_sta->under_lps = false;
++		btcoexist->stop_coex_dm = true;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->stop_coex_dm = false;
++		halbtc8723b1ant_init_hw_config(btcoexist, false, false);
++		halbtc8723b1ant_init_coex_dm(btcoexist);
++		halbtc8723b1ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8723b1ant_coex_dm_reset(IN struct btc_coexist *btcoexist)
++{
++
++	halbtc8723b1ant_init_hw_config(btcoexist, false, false);
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0); */
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x2, 0xfffff, 0x0); */
++	halbtc8723b1ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8723b1ant_periodical(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ==========================Periodical===========================\n");
++	BTC_TRACE(trace_buf);
++
++#if(BT_AUTO_REPORT_ONLY_8723B_1ANT == 0)
++	halbtc8723b1ant_query_bt_info(btcoexist);
++	halbtc8723b1ant_monitor_bt_enable_disable(btcoexist);
++#else
++	halbtc8723b1ant_monitor_bt_ctr(btcoexist);
++	halbtc8723b1ant_monitor_wifi_ctr(btcoexist);
++#if BT_8723B_1ANT_ANTDET_ENABLE
++	halbtc8723b1ant_monitor_bt_enable_disable(btcoexist);
++#endif
++
++	if ((coex_sta->high_priority_tx  + coex_sta->high_priority_rx < 50) &&
++	    (bt_link_info->hid_exist == true))
++		bt_link_info->hid_exist  = false;
++
++	if( halbtc8723b1ant_is_wifi_status_changed(btcoexist) ||
++		coex_dm->auto_tdma_adjust )
++		halbtc8723b1ant_run_coexist_mechanism(btcoexist);	
++
++	coex_sta->specific_pkt_period_cnt++;
++
++	/* sample to set bt to execute Ant detection */
++	/* btcoexist->btc_set_bt_ant_detection(btcoexist, 20, 14);
++	*
++	if (psd_scan->is_ant_det_enable)
++	{
++		 if (psd_scan->psd_gen_count > psd_scan->realseconds)
++			psd_scan->psd_gen_count = 0;
++
++		halbtc8723b1ant_antenna_detection(btcoexist, psd_scan->realcent_freq,  psd_scan->realoffset, psd_scan->realspan,  psd_scan->realseconds);
++		psd_scan->psd_gen_total_count +=2;
++		psd_scan->psd_gen_count += 2;
++	}
++	*/	 	
++#endif
++}
++
++void ex_halbtc8723b1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++#if BT_8723B_1ANT_ANTDET_ENABLE	
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	/*boolean scan, roam;*/
++
++	if (seconds == 0) {
++		psd_scan->ant_det_try_count	= 0;
++		psd_scan->ant_det_fail_count	= 0;
++		ant_det_count = 0;
++		ant_det_fail_count = 0;
++		board_info->btdm_ant_det_finish = false;
++		board_info->btdm_ant_num_by_ant_det = 1;
++		return;
++	}
++
++	if (!board_info->btdm_ant_det_finish) {
++		psd_scan->ant_det_inteval_count =
++			psd_scan->ant_det_inteval_count + 2;
++
++		if (psd_scan->ant_det_inteval_count >=
++		    BT_8723B_1ANT_ANTDET_RETRY_INTERVAL) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is up, Try Detect!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b1ant_psd_antenna_detection_check(btcoexist);
++
++			if (board_info->btdm_ant_det_finish) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Success!!\n");
++				BTC_TRACE(trace_buf);
++#if 1
++				if (board_info->btdm_ant_num_by_ant_det == 2)
++					halbtc8723b1ant_mechanism_switch(
++						btcoexist, true);
++				else
++					halbtc8723b1ant_mechanism_switch(
++						btcoexist, false);
++#endif
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Fail!!\n");
++				BTC_TRACE(trace_buf);
++			}
++			psd_scan->ant_det_inteval_count = 0;
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is not up! (%d)\n",
++				    psd_scan->ant_det_inteval_count);
++			BTC_TRACE(trace_buf);
++		}
++
++	}
++#endif
++		
++		
++/*
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++
++		psd_scan->ant_det_bt_tx_time = seconds;
++	psd_scan->ant_det_bt_le_channel = cent_freq;		
++		
++	if (seconds == 0)
++		{
++		psd_scan->ant_det_try_count	= 0;
++		psd_scan->ant_det_fail_count	= 0;
++		ant_det_count = 0;
++		ant_det_fail_count = 0;
++		board_info->btdm_ant_det_finish = false;
++		board_info->btdm_ant_num_by_ant_det = 1;
++			 return;
++	}
++	else
++	{
++ 		ant_det_count++;
++	
++		psd_scan->ant_det_try_count = ant_det_count;	
++				
++			if (scan ||roam)
++		{
++			board_info->btdm_ant_det_finish = false;
++			psd_scan->ant_det_result = 6;
++		}
++		else if (coex_sta->num_of_profile >= 1) 
++		{
++			board_info->btdm_ant_det_finish = false;
++			psd_scan->ant_det_result = 7;
++		}			
++			else if (!psd_scan->ant_det_is_ant_det_available)
++		{
++			board_info->btdm_ant_det_finish = false;
++			psd_scan->ant_det_result = 9;
++		}				
++		else if (coex_sta->c2h_bt_inquiry_page)
++		{
++			board_info->btdm_ant_det_finish = false;
++			psd_scan->ant_det_result = 10;
++		}	
++		else
++		{
++
++	}
++
++		if (!board_info->btdm_ant_det_finish)
++			ant_det_fail_count++;
++
++		psd_scan->ant_det_fail_count = ant_det_fail_count;
++	}
++*/
++}
++
++
++void ex_halbtc8723b1ant_display_ant_detection(IN struct btc_coexist *btcoexist)
++{
++#if BT_8723B_1ANT_ANTDET_ENABLE
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	if (psd_scan->ant_det_try_count != 0)	{
++		halbtc8723b1ant_psd_show_antenna_detect_result(btcoexist);
++
++		if (board_info->btdm_ant_det_finish)
++			halbtc8723b1ant_psd_showdata(btcoexist);
++		return;
++	}
++#endif
++	
++	/* halbtc8723b1ant_show_psd_data(btcoexist); */
++}
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723b1Ant.h b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723b1Ant.h
+new file mode 100644
+index 0000000..19bac7b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723b1Ant.h
+@@ -0,0 +1,288 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8723B_SUPPORT == 1)
++/* *******************************************
++ * The following is for 8723B 1ANT BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8723B_1ANT				1
++
++#define	BT_INFO_8723B_1ANT_B_FTP						BIT(7)
++#define	BT_INFO_8723B_1ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8723B_1ANT_B_HID						BIT(5)
++#define	BT_INFO_8723B_1ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8723B_1ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8723B_1ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8723B_1ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8723B_1ANT_B_CONNECTION				BIT(0)
++
++#define	BT_INFO_8723B_1ANT_A2DP_BASIC_RATE(_BT_INFO_EXT_)	\
++		(((_BT_INFO_EXT_&BIT(0))) ? true : false)
++
++#define	BTC_RSSI_COEX_THRESH_TOL_8723B_1ANT		2
++
++#define  BT_8723B_1ANT_WIFI_NOISY_THRESH								50 /* 30   //max: 255								 */
++
++/* for Antenna detection */
++#define	BT_8723B_1ANT_ANTDET_PSDTHRES_BACKGROUND						50
++#define	BT_8723B_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION				70
++#define	BT_8723B_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION			55
++#define	BT_8723B_1ANT_ANTDET_PSDTHRES_1ANT							32
++#define	BT_8723B_1ANT_ANTDET_RETRY_INTERVAL							10	/* retry timer if ant det is fail, unit: second */
++#define	BT_8723B_1ANT_ANTDET_SWEEPPOINT_DELAY							40000  
++#define	BT_8723B_1ANT_ANTDET_ENABLE										1
++#define	BT_8723B_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE				1
++#define	BT_8723B_1ANT_ANTDET_BTTXTIME									100
++#define	BT_8723B_1ANT_ANTDET_BTTXCHANNEL								39
++
++enum bt_info_src_8723b_1ant {
++	BT_INFO_SRC_8723B_1ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8723B_1ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8723B_1ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8723B_1ANT_MAX
++};
++
++enum bt_8723b_1ant_bt_status {
++	BT_8723B_1ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8723B_1ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8723B_1ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8723B_1ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8723B_1ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8723B_1ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8723B_1ANT_BT_STATUS_MAX
++};
++
++enum bt_8723b_1ant_wifi_status {
++	BT_8723B_1ANT_WIFI_STATUS_NON_CONNECTED_IDLE				= 0x0,
++	BT_8723B_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN		= 0x1,
++	BT_8723B_1ANT_WIFI_STATUS_CONNECTED_SCAN					= 0x2,
++	BT_8723B_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT				= 0x3,
++	BT_8723B_1ANT_WIFI_STATUS_CONNECTED_IDLE					= 0x4,
++	BT_8723B_1ANT_WIFI_STATUS_CONNECTED_BUSY					= 0x5,
++	BT_8723B_1ANT_WIFI_STATUS_MAX
++};
++
++enum bt_8723b_1ant_coex_algo {
++	BT_8723B_1ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8723B_1ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8723B_1ANT_COEX_ALGO_HID				= 0x2,
++	BT_8723B_1ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8723B_1ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8723B_1ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8723B_1ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8723B_1ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8723B_1ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8723B_1ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8723B_1ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8723B_1ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++struct coex_dm_8723b_1ant {
++	/* hw setting */
++	u8		pre_ant_pos_type;
++	u8		cur_ant_pos_type;
++	/* fw mechanism */
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	/* sw mechanism */
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++	u32		arp_cnt;
++
++	u8		error_condition;
++};
++
++struct coex_sta_8723b_1ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++	boolean					bt_hi_pri_link_exist;
++	u8					num_of_profile;
++	boolean					bt_abnormal_scan;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					specific_pkt_period_cnt;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	s8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8723B_1ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8723B_1ANT_MAX];
++	boolean					bt_whck_test;
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_remote_name_req;
++	boolean					wifi_is_high_pri_task;		/* Add for win8.1 page out issue */
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++	
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	boolean					cck_lock;
++	boolean					pre_ccklock;
++	boolean					cck_ever_lock;
++	u8					coex_table_type;
++
++	boolean					force_lps_on;
++	u32					wrong_profile_notification;
++
++	u8					a2dp_bit_pool;
++	u8					cut_version;
++};
++
++#define BT_8723B_1ANT_ANTDET_PSD_POINTS			256	/* MAX:1024 */
++#define BT_8723B_1ANT_ANTDET_PSD_AVGNUM		1	/* MAX:3 */
++#define	BT_8723B_1ANT_ANTDET_BUF_LEN			16
++
++struct psdscan_sta_8723b_1ant {
++
++	u32			ant_det_bt_le_channel;  /* BT LE Channel ex:2412 */
++	u32			ant_det_bt_tx_time;
++	u32			ant_det_pre_psdscan_peak_val;
++	boolean			ant_det_is_ant_det_available;
++	u32			ant_det_psd_scan_peak_val;
++	boolean			ant_det_is_btreply_available;
++	u32			ant_det_psd_scan_peak_freq;
++
++	u8			ant_det_result;
++	u8			ant_det_peak_val[BT_8723B_1ANT_ANTDET_BUF_LEN];
++	u8			ant_det_peak_freq[BT_8723B_1ANT_ANTDET_BUF_LEN];
++	u32			ant_det_try_count;
++	u32			ant_det_fail_count;
++	u32			ant_det_inteval_count;
++	u32			ant_det_thres_offset;
++
++	u32			real_cent_freq;
++	s32			real_offset;
++	u32			real_span;
++	
++	u32			psd_band_width;  /* unit: Hz */
++	u32			psd_point;		/* 128/256/512/1024 */
++	u32			psd_report[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_report_max_hold[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_start_point;
++	u32			psd_stop_point;
++	u32			psd_max_value_point;
++	u32			psd_max_value;
++	u32			psd_start_base;
++	u32			psd_avg_num;	/* 1/8/16/32 */
++	u32			psd_gen_count;
++	boolean			is_psd_running;
++	boolean			is_psd_show_max_only;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8723b1ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b1ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8723b1ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b1ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8723b1ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8723b1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8723b1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8723b1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723b1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723b1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8723b1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723b1ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8723b1ant_coex_dm_reset(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b1ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b1ant_display_coex_info(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++
++void ex_halbtc8723b1ant_display_ant_detection(IN struct btc_coexist *btcoexist);
++
++#else
++#define	ex_halbtc8723b1ant_power_on_setting(btcoexist)
++#define	ex_halbtc8723b1ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8723b1ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8723b1ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8723b1ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8723b1ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8723b1ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8723b1ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8723b1ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8723b1ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8723b1ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8723b1ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8723b1ant_halt_notify(btcoexist)
++#define	ex_halbtc8723b1ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8723b1ant_coex_dm_reset(btcoexist)
++#define	ex_halbtc8723b1ant_periodical(btcoexist)
++#define	ex_halbtc8723b1ant_display_coex_info(btcoexist)
++#define	ex_halbtc8723b1ant_antenna_detection(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8723b1ant_display_ant_detection(btcoexist)
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723b2Ant.c b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723b2Ant.c
+new file mode 100644
+index 0000000..2c34f67
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723b2Ant.c
+@@ -0,0 +1,4920 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8723B Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8723B_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8723b_2ant		glcoex_dm_8723b_2ant;
++static struct  coex_dm_8723b_2ant	*coex_dm = &glcoex_dm_8723b_2ant;
++static struct  coex_sta_8723b_2ant		glcoex_sta_8723b_2ant;
++static struct  coex_sta_8723b_2ant	*coex_sta = &glcoex_sta_8723b_2ant;
++
++const char *const glbt_info_src_8723b_2ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8723b_2ant = 20151223;
++u32	glcoex_ver_8723b_2ant = 0x4a;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8723b2ant_
++ * ************************************************************ */
++u8 halbtc8723b2ant_bt_rssi_state(u8 *ppre_bt_rssi_state, u8 level_num,
++				 u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = *ppre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((*ppre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*ppre_bt_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8723B_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return *ppre_bt_rssi_state;
++		}
++
++		if ((*ppre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*ppre_bt_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8723B_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((*ppre_bt_rssi_state == BTC_RSSI_STATE_MEDIUM) ||
++			(*ppre_bt_rssi_state == BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8723B_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	*ppre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8723b2ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 *pprewifi_rssi_state, IN u8 level_num, IN u8 rssi_thresh,
++				   IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = *pprewifi_rssi_state;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((*pprewifi_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*pprewifi_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8723B_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return *pprewifi_rssi_state;
++		}
++
++		if ((*pprewifi_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*pprewifi_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8723B_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((*pprewifi_rssi_state == BTC_RSSI_STATE_MEDIUM) ||
++			(*pprewifi_rssi_state == BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8723B_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	*pprewifi_rssi_state = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8723b2ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean		bt_active = true, bt_disabled = false;
++
++	/* This function check if bt is disabled */
++
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++	} else {
++		bt_disable_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], bt all counters=0, %d times!!\n",
++			    bt_disable_cnt);
++		BTC_TRACE(trace_buf);
++		if (bt_disable_cnt >= 2)
++			bt_disabled = true;
++	}
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++
++		coex_sta->bt_disabled = bt_disabled;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++		if (bt_disabled) {
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++					   NULL);
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++					   NULL);
++		}
++	}
++}
++
++
++void halbtc8723b2ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++}
++
++void halbtc8723b2ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	if ((coex_sta->low_priority_tx > 1050)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++
++	if ((coex_sta->low_priority_rx >= 950)  &&
++	    (coex_sta->low_priority_rx >= coex_sta->low_priority_tx) &&
++	    (!coex_sta->under_ips))
++		bt_link_info->slave_role = true;
++	else
++		bt_link_info->slave_role = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], High Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		    reg_hp_txrx, reg_hp_tx, reg_hp_tx, reg_hp_rx, reg_hp_rx);
++	BTC_TRACE(trace_buf);
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], Low Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		    reg_lp_txrx, reg_lp_tx, reg_lp_tx, reg_lp_rx, reg_lp_rx);
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++}
++
++void halbtc8723b2ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++
++
++	if (coex_sta->under_ips) {
++		coex_sta->crc_ok_cck = 0;
++		coex_sta->crc_ok_11g = 0;
++		coex_sta->crc_ok_11n = 0;
++		coex_sta->crc_ok_11n_agg = 0;
++
++		coex_sta->crc_err_cck = 0;
++		coex_sta->crc_err_11g = 0;
++		coex_sta->crc_err_11n = 0;
++		coex_sta->crc_err_11n_agg = 0;
++	} else {
++		coex_sta->crc_ok_cck	= btcoexist->btc_read_4byte(btcoexist,
++					  0xf88);
++		coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf94);
++		coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf90);
++		coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					   0xfb8);
++
++		coex_sta->crc_err_cck	 = btcoexist->btc_read_4byte(btcoexist,
++					   0xf84);
++		coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf96);
++		coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf92);
++		coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					    0xfba);
++	}
++
++	/* reset counter */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x0);
++}
++
++void halbtc8723b2ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++boolean halbtc8723b2ant_is_wifi_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false;
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	boolean			wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean			wifi_connected = false;
++	u8			wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++
++
++		wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++				  &prewifi_rssi_state, 2,
++				  BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++				  coex_dm->switch_thres_offset, 0);
++
++		if ((BTC_RSSI_STATE_HIGH == wifi_rssi_state) ||
++		    (BTC_RSSI_STATE_LOW == wifi_rssi_state))
++			return true;
++
++	}
++
++	return false;
++}
++
++void halbtc8723b2ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++u8 halbtc8723b2ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8723B_2ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8723B_2ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723B_2ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723B_2ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8723B_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				{
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], HID + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_HID_A2DP;
++				}
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8723B_2ANT_COEX_ALGO_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723B_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8723b2ant_set_fw_dac_swing_level(IN struct btc_coexist *btcoexist,
++		IN u8 dac_swing_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	/* There are several type of dacswing */
++	/* 0x18/ 0x10/ 0xc/ 0x8/ 0x4/ 0x6 */
++	h2c_parameter[0] = dac_swing_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x64, 1, h2c_parameter);
++}
++
++void halbtc8723b2ant_set_fw_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				       IN u8 dec_bt_pwr_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = dec_bt_pwr_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x62, 1, h2c_parameter);
++}
++
++void halbtc8723b2ant_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				IN boolean force_exec, IN u8 dec_bt_pwr_lvl)
++{
++	coex_dm->cur_bt_dec_pwr_lvl = dec_bt_pwr_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_dec_pwr_lvl == coex_dm->cur_bt_dec_pwr_lvl)
++			return;
++	}
++	halbtc8723b2ant_set_fw_dec_bt_pwr(btcoexist,
++					  coex_dm->cur_bt_dec_pwr_lvl);
++
++	coex_dm->pre_bt_dec_pwr_lvl = coex_dm->cur_bt_dec_pwr_lvl;
++}
++
++void halbtc8723b2ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8723b2ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8723b2ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8723b2ant_fw_dac_swing_lvl(IN struct btc_coexist *btcoexist,
++			      IN boolean force_exec, IN u8 fw_dac_swing_lvl)
++{
++	coex_dm->cur_fw_dac_swing_lvl = fw_dac_swing_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_fw_dac_swing_lvl ==
++		    coex_dm->cur_fw_dac_swing_lvl)
++			return;
++	}
++
++	halbtc8723b2ant_set_fw_dac_swing_level(btcoexist,
++					       coex_dm->cur_fw_dac_swing_lvl);
++
++	coex_dm->pre_fw_dac_swing_lvl = coex_dm->cur_fw_dac_swing_lvl;
++}
++
++void halbtc8723b2ant_set_sw_rf_rx_lpf_corner(IN struct btc_coexist *btcoexist,
++		IN boolean rx_rf_shrink_on)
++{
++	if (rx_rf_shrink_on) {
++		/* Shrink RF Rx LPF corner */
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Shrink RF Rx LPF corner!!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e, 0xfffff,
++					  0xffffc);
++	} else {
++		/* Resume RF Rx LPF corner */
++		/* After initialized, we can use coex_dm->bt_rf_0x1e_backup */
++		if (btcoexist->initilized) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Resume RF Rx LPF corner!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++					  0xfffff, coex_dm->bt_rf_0x1e_backup);
++		}
++	}
++}
++
++void halbtc8723b2ant_rf_shrink(IN struct btc_coexist *btcoexist,
++		       IN boolean force_exec, IN boolean rx_rf_shrink_on)
++{
++	coex_dm->cur_rf_rx_lpf_shrink = rx_rf_shrink_on;
++
++	if (!force_exec) {
++		if (coex_dm->pre_rf_rx_lpf_shrink ==
++		    coex_dm->cur_rf_rx_lpf_shrink)
++			return;
++	}
++	halbtc8723b2ant_set_sw_rf_rx_lpf_corner(btcoexist,
++						coex_dm->cur_rf_rx_lpf_shrink);
++
++	coex_dm->pre_rf_rx_lpf_shrink = coex_dm->cur_rf_rx_lpf_shrink;
++}
++
++void halbtc8723b2ant_set_sw_penalty_tx_rate_adaptive(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf4;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf5;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf6;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8723b2ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8723b2ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8723b2ant_set_dac_swing_reg(IN struct btc_coexist *btcoexist,
++				       IN u32 level)
++{
++	u8	val = (u8)level;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Write SwDacSwing = 0x%x\n", level);
++	BTC_TRACE(trace_buf);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x883, 0x3e, val);
++}
++
++void halbtc8723b2ant_set_sw_full_time_dac_swing(IN struct btc_coexist
++		*btcoexist, IN boolean sw_dac_swing_on, IN u32 sw_dac_swing_lvl)
++{
++	if (sw_dac_swing_on)
++		halbtc8723b2ant_set_dac_swing_reg(btcoexist, sw_dac_swing_lvl);
++	else
++		halbtc8723b2ant_set_dac_swing_reg(btcoexist, 0x18);
++}
++
++
++void halbtc8723b2ant_dac_swing(IN struct btc_coexist *btcoexist,
++	IN boolean force_exec, IN boolean dac_swing_on, IN u32 dac_swing_lvl)
++{
++	coex_dm->cur_dac_swing_on = dac_swing_on;
++	coex_dm->cur_dac_swing_lvl = dac_swing_lvl;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_dac_swing_on == coex_dm->cur_dac_swing_on) &&
++		    (coex_dm->pre_dac_swing_lvl ==
++		     coex_dm->cur_dac_swing_lvl))
++			return;
++	}
++	delay_ms(30);
++	halbtc8723b2ant_set_sw_full_time_dac_swing(btcoexist, dac_swing_on,
++			dac_swing_lvl);
++
++	coex_dm->pre_dac_swing_on = coex_dm->cur_dac_swing_on;
++	coex_dm->pre_dac_swing_lvl = coex_dm->cur_dac_swing_lvl;
++}
++
++void halbtc8723b2ant_set_adc_back_off(IN struct btc_coexist *btcoexist,
++				      IN boolean adc_back_off)
++{
++	if (adc_back_off) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB BackOff Level On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xc05, 0x30, 0x3);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB BackOff Level Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xc05, 0x30, 0x1);
++	}
++}
++
++void halbtc8723b2ant_adc_back_off(IN struct btc_coexist *btcoexist,
++			  IN boolean force_exec, IN boolean adc_back_off)
++{
++	coex_dm->cur_adc_back_off = adc_back_off;
++
++	if (!force_exec) {
++		if (coex_dm->pre_adc_back_off == coex_dm->cur_adc_back_off)
++			return;
++	}
++	halbtc8723b2ant_set_adc_back_off(btcoexist, coex_dm->cur_adc_back_off);
++
++	coex_dm->pre_adc_back_off = coex_dm->cur_adc_back_off;
++}
++
++void halbtc8723b2ant_set_agc_table(IN struct btc_coexist *btcoexist,
++				   IN boolean agc_table_en)
++{
++	u8		rssi_adjust_val = 0;
++
++	/* =================BB AGC Gain Table */
++	if (agc_table_en) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB Agc Table On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6e1A0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6d1B0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6c1C0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6b1D0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6a1E0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x691F0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x68200001);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB Agc Table Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xaa1A0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa91B0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa81C0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa71D0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa61E0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa51F0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa4200001);
++	}
++
++
++	/* =================RF Gain */
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xef, 0xfffff, 0x02000);
++	if (agc_table_en) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x38fff);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x38ffe);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x380c3);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x28ce6);
++	}
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xef, 0xfffff, 0x0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xed, 0xfffff, 0x1);
++	if (agc_table_en) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x40, 0xfffff,
++					  0x38fff);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x40, 0xfffff,
++					  0x38ffe);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x40, 0xfffff,
++					  0x380c3);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x40, 0xfffff,
++					  0x28ce6);
++	}
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xed, 0xfffff, 0x0);
++
++	/* set rssi_adjust_val for wifi module. */
++	if (agc_table_en)
++		rssi_adjust_val = 8;
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RSSI_ADJ_VAL_FOR_AGC_TABLE_ON,
++			   &rssi_adjust_val);
++}
++
++void halbtc8723b2ant_agc_table(IN struct btc_coexist *btcoexist,
++			       IN boolean force_exec, IN boolean agc_table_en)
++{
++	coex_dm->cur_agc_table_en = agc_table_en;
++
++	if (!force_exec) {
++		if (coex_dm->pre_agc_table_en == coex_dm->cur_agc_table_en)
++			return;
++	}
++	halbtc8723b2ant_set_agc_table(btcoexist, agc_table_en);
++
++	coex_dm->pre_agc_table_en = coex_dm->cur_agc_table_en;
++}
++
++void halbtc8723b2ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8723b2ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8723b2ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8723b2ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	coex_sta->coex_table_type = type;
++
++	switch (type) {
++	case 0:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x55555555, 0xffffff, 0x3);
++		break;
++	case 1:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5afa5afa, 0xffffff, 0x3);
++		break;
++	case 2:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x5ada5ada, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 3:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0xaaaaaaaa, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 4:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0xffffffff, 0xffffffff, 0xffffff, 0x3);
++		break;
++	case 5:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x5fff5fff, 0x5fff5fff, 0xffffff, 0x3);
++		break;
++	case 6:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55ff55ff, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 7:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 8:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 9:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 10:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 11:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 12:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 13:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x5fff5fff, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 14:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x5fff5fff, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 15:
++		halbtc8723b2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8723b2ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8723b2ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8723b2ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8723b2ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8723b2ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8723b2ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8723b2ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++
++
++	if ((coex_sta->a2dp_exist) && (coex_sta->hid_exist))
++		byte5 = byte5 | 0x1;
++
++	h2c_parameter[0] = byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = byte5;
++
++	coex_dm->ps_tdma_para[0] = byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++void halbtc8723b2ant_sw_mechanism1(IN struct btc_coexist *btcoexist,
++			   IN boolean shrink_rx_lpf, IN boolean low_penalty_ra,
++			   IN boolean limited_dig, IN boolean bt_lna_constrain)
++{
++	/*
++	u32	wifi_bw;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if(BTC_WIFI_BW_HT40 != wifi_bw)
++	{
++		if (shrink_rx_lpf)
++			shrink_rx_lpf = false;
++	}
++	*/
++
++	/* halbtc8723b2ant_rf_shrink(btcoexist, NORMAL_EXEC, shrink_rx_lpf); */
++	halbtc8723b2ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8723b2ant_sw_mechanism2(IN struct btc_coexist *btcoexist,
++			   IN boolean agc_table_shift, IN boolean adc_back_off,
++			   IN boolean sw_dac_swing, IN u32 dac_swing_lvl)
++{
++	/* halbtc8723b2ant_agc_table(btcoexist, NORMAL_EXEC, agc_table_shift); */
++	/* halbtc8723b2ant_adc_back_off(btcoexist, NORMAL_EXEC, adc_back_off); */
++	/* halbtc8723b2ant_dac_swing(btcoexist, NORMAL_EXEC, sw_dac_swing, dac_swing_lvl); */
++}
++
++void halbtc8723b2ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean init_hwcfg, IN boolean wifi_off)
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++	PADAPTER 		pAdapter = btcoexist->Adapter;
++	u32			fw_ver = 0, u32tmp = 0, cnt_bt_cal_chk = 0;
++	boolean			pg_ext_switch = false;
++	boolean			use_ext_switch = false;
++	u8			h2c_parameter[2] = {0};
++	u32				u32tmp_1[4];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_EXT_SWITCH, &pg_ext_switch);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER,
++			   &fw_ver);	/* [31:16]=fw ver, [15:0]=fw sub ver */
++
++	if ((fw_ver > 0 && fw_ver < 0xc0000) || pg_ext_switch)
++		use_ext_switch = true;
++
++	if (init_hwcfg) {
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x39, 0x8, 0x1);
++		btcoexist->btc_write_1byte(btcoexist, 0x974, 0xff);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x944, 0x3, 0x3);
++		btcoexist->btc_write_1byte(btcoexist, 0x930, 0x77);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x20, 0x1);
++
++		if (fw_ver >= 0x180000) {
++			/* Use H2C to set GNT_BT to High to avoid A2DP click */
++			h2c_parameter[0] = 1;
++			btcoexist->btc_fill_h2c(btcoexist, 0x6E, 1,
++						h2c_parameter);
++
++			cnt_bt_cal_chk = 0;
++			while(1)
++			{
++				if( pAdapter->bFWReady == FALSE )
++				{
++					//RT_TRACE(COMP_INIT , DBG_LOUD, ("halbtc8723b2ant_SetAntPath(): we don't need to wait for H2C command completion because of Fw download fail!!!\n"));
++					break;
++				}
++				
++				if( btcoexist->btc_read_1byte(btcoexist, 0x765) == 0x18 )
++					break;
++
++				cnt_bt_cal_chk++;
++				if( cnt_bt_cal_chk > 20 )
++					break;
++			}
++		} else
++			btcoexist->btc_write_1byte(btcoexist, 0x765, 0x18);
++		u32tmp_1[0] = btcoexist->btc_read_4byte(btcoexist, 0x948);
++		if( (u32tmp_1[0] == 0x40) || (u32tmp_1[0] == 0x240))
++			btcoexist->btc_write_4byte(btcoexist, 0x948, u32tmp_1[0]);
++		else
++			btcoexist->btc_write_4byte(btcoexist, 0x948, 0x0);
++
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x0); /* WiFi TRx Mask off */
++		/* remove due to interrupt is disabled that polling c2h will fail and delay 100ms. */
++		/* btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x3c, 0x01); //BT TRx Mask off */
++
++		if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT) {
++			/* tell firmware "no antenna inverse" */
++			h2c_parameter[0] = 0;
++		} else {
++			/* tell firmware "antenna inverse" */
++			h2c_parameter[0] = 1;
++		}
++
++		if (use_ext_switch) {
++			/* ext switch type */
++			h2c_parameter[1] = 1;
++		} else {
++			/* int switch type */
++			h2c_parameter[1] = 0;
++		}
++		btcoexist->btc_fill_h2c(btcoexist, 0x65, 2, h2c_parameter);
++	} else {
++		if (fw_ver >= 0x180000) {
++			/* Use H2C to set GNT_BT to "Control by PTA"*/
++			h2c_parameter[0] = 0;
++			btcoexist->btc_fill_h2c(btcoexist, 0x6E, 1,
++						h2c_parameter);
++
++			cnt_bt_cal_chk = 0;
++			while(1)
++			{
++				if( pAdapter->bFWReady == FALSE )
++				{
++					//RT_TRACE(COMP_INIT , DBG_LOUD, ("halbtc8723b2ant_SetAntPath(): we don't need to wait for H2C command completion because of Fw download fail!!!\n"));
++					break;
++				}
++				
++				if( btcoexist->btc_read_1byte(btcoexist, 0x765) == 0x0 )
++					break;
++
++				cnt_bt_cal_chk++;
++				if( cnt_bt_cal_chk > 20 )
++					break;
++			}
++		} else
++			btcoexist->btc_write_1byte(btcoexist, 0x765, 0x0);
++	}
++
++	/* ext switch setting */
++	if (use_ext_switch) {
++		if (init_hwcfg) {
++			/* 0x4c[23]=0, 0x4c[24]=1  Antenna control by WL/BT */
++			u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++			u32tmp &= ~BIT(23);
++			u32tmp |= BIT(24);
++			btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++		}
++		u32tmp_1[0] = btcoexist->btc_read_4byte(btcoexist, 0x948);
++		if( (u32tmp_1[0] == 0x40) || (u32tmp_1[0] == 0x240))
++			btcoexist->btc_write_4byte(btcoexist, 0x948, u32tmp_1[0]);
++		else
++			btcoexist->btc_write_4byte(btcoexist, 0x948, 0x0);
++		
++		switch (ant_pos_type) {
++		case BTC_ANT_WIFI_AT_MAIN:
++			btcoexist->btc_write_1byte_bitmask(btcoexist,
++							   0x92c, 0x3,
++					   0x1);	/* ext switch main at wifi */
++			break;
++		case BTC_ANT_WIFI_AT_AUX:
++			btcoexist->btc_write_1byte_bitmask(btcoexist,
++							   0x92c, 0x3,
++					   0x2);	/* ext switch aux at wifi */
++			break;
++		}
++	} else {	/* internal switch */
++		if (init_hwcfg) {
++			/* 0x4c[23]=0, 0x4c[24]=1  Antenna control by WL/BT */
++			u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++			u32tmp |= BIT(23);
++			u32tmp &= ~BIT(24);
++			btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++		}
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x64, 0x1,
++			   0x0); /* fixed external switch S1->Main, S0->Aux */
++		switch (ant_pos_type) {
++		case BTC_ANT_WIFI_AT_MAIN:
++			u32tmp_1[0] = btcoexist->btc_read_4byte(btcoexist, 0x948);
++			if( (u32tmp_1[0] == 0x40) || (u32tmp_1[0] == 0x240))
++				btcoexist->btc_write_4byte(btcoexist, 0x948, u32tmp_1[0]);
++			else
++				btcoexist->btc_write_4byte(btcoexist, 0x948, 0x0);
++			break;
++		case BTC_ANT_WIFI_AT_AUX:
++			u32tmp_1[0] = btcoexist->btc_read_4byte(btcoexist, 0x948);
++			if( (u32tmp_1[0] == 0x40) || (u32tmp_1[0] == 0x240))
++				btcoexist->btc_write_4byte(btcoexist, 0x948, u32tmp_1[0]);
++			else
++				btcoexist->btc_write_4byte(btcoexist, 0x948, 0x280);
++			break;
++		}
++	}
++}
++#if 0
++boolean halbtc8723b2ant_CoexSwitchThresCheck(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8 wifi_rssi_state1, bt_rssi_state;
++	u32 vendor;
++	u8 offset = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_VENDOR, &vendor);
++
++	/* if (vendor == BTC_VENDOR_LENOVO) */
++	/*	offset = 20; */
++
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++		&prewifi_rssi_state, 2, BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES
++			   - coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	if (BTC_RSSI_LOW(wifi_rssi_state1) || BTC_RSSI_LOW(bt_rssi_state))
++		return true;
++
++	return false;
++}
++#endif
++
++void halbtc8723b2ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8			wifi_rssi_state1,  bt_rssi_state;
++	s8			wifi_duration_adjust = 0x0;
++	u8			psTdmaByte4Modify = 0x0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++		&prewifi_rssi_state, 2, BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES
++			   - coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], %s turn %s PS TDMA, type=%d\n",
++		(force_exec ? "force to" : ""), (turn_on ? "ON" : "OFF"), type);
++	BTC_TRACE(trace_buf);
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	if (!(BTC_RSSI_HIGH(wifi_rssi_state1) &&
++	      BTC_RSSI_HIGH(bt_rssi_state)) && turn_on)
++		/* if (halbtc8723b2ant_CoexSwitchThresCheck(btcoexist) &&  turn_on) */
++	{
++		type = type + 100; /* for WiFi RSSI low or BT RSSI low */
++		coex_dm->is_switch_to_1dot5_ant = true;
++	} else
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++
++	if (coex_sta->scan_ap_num <= 5) {
++		if (coex_sta->a2dp_bit_pool >= 45)
++			wifi_duration_adjust = -15;
++		else if (coex_sta->a2dp_bit_pool >= 35)
++			wifi_duration_adjust = -10;
++		else
++			wifi_duration_adjust = 5;
++	} else  if (coex_sta->scan_ap_num <= 20) {
++		if (coex_sta->a2dp_bit_pool >= 45)
++			wifi_duration_adjust = -15;
++		else if (coex_sta->a2dp_bit_pool >= 35)
++			wifi_duration_adjust = -10;
++		else
++			wifi_duration_adjust = 0;
++	} else if (coex_sta->scan_ap_num <= 40) {
++		if (coex_sta->a2dp_bit_pool >= 45)
++			wifi_duration_adjust = -15;
++		else if (coex_sta->a2dp_bit_pool >= 35)
++			wifi_duration_adjust = -10;
++		else
++			wifi_duration_adjust = -5;
++	} else {
++		if (coex_sta->a2dp_bit_pool >= 45)
++			wifi_duration_adjust = -15;
++		else if (coex_sta->a2dp_bit_pool >= 35)
++			wifi_duration_adjust = -10;
++		else
++			wifi_duration_adjust = -10;
++	}
++
++	if ((bt_link_info->slave_role == true)	&& (bt_link_info->a2dp_exist))
++		psTdmaByte4Modify =
++			0x1;  /* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++
++
++	if (turn_on) {
++		switch (type) {
++		case 1:
++		default:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x3c + wifi_duration_adjust, 0x03, 0xf1,
++						      0x90 | psTdmaByte4Modify);
++			break;
++		case 2:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x2d + wifi_duration_adjust, 0x03, 0xf1,
++						      0x90 | psTdmaByte4Modify);
++			break;
++		case 3:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0xf1,  0x90 |
++						      psTdmaByte4Modify);
++			break;
++		case 4:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x03, 0xf1,  0x90 |
++						      psTdmaByte4Modify);
++			break;
++		case 5:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x3c + wifi_duration_adjust, 0x3, 0x70,
++						      0x90 | psTdmaByte4Modify);
++			break;
++		case 6:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x2d + wifi_duration_adjust, 0x3, 0x70,
++						      0x90 | psTdmaByte4Modify);
++			break;
++		case 7:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0x70,  0x90 |
++						      psTdmaByte4Modify);
++			break;
++		case 8:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xa3,
++						      0x10, 0x3, 0x70,  0x90 |
++						      psTdmaByte4Modify);
++			break;
++		case 9:
++		/*
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x3c + wifi_duration_adjust, 0x03, 0xf1,
++						      0x90 | psTdmaByte4Modify);
++		*/
++		/* Bryant Modify for BT no-profile busy case */
++		halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x3c + wifi_duration_adjust, 0x03, 0xf1,
++						      0x91);
++						      
++			break;
++		case 10:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x2d + wifi_duration_adjust, 0x03, 0xf1,
++						      0x90 | psTdmaByte4Modify);
++			break;
++		case 11:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0xf1,  0x90 |
++						      psTdmaByte4Modify);
++			break;
++		case 12:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x3, 0xf1,  0x90 |
++						      psTdmaByte4Modify);
++			break;
++		case 13:
++		/*
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x3c + wifi_duration_adjust, 0x3, 0x70,
++						      0x90 | psTdmaByte4Modify);
++		*/
++		/* Bryant Modify for BT no-profile busy case */
++		halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x3c + wifi_duration_adjust, 0x3, 0x70,
++						      0x91);						      
++			break;
++		case 14:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x2d + wifi_duration_adjust, 0x3, 0x70,
++						      0x90 | psTdmaByte4Modify);
++			break;
++		case 15:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0x70,  0x90 |
++						      psTdmaByte4Modify);
++			break;
++		case 16:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x3, 0x70,  0x90 |
++						      psTdmaByte4Modify);
++			break;
++		case 17:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xa3,
++						      0x2f, 0x2f, 0x60, 0x90);
++			break;
++		case 18:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x5, 0x5, 0xe1, 0x90);
++			break;
++		case 19:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x25, 0xe1, 0x90);
++			break;
++		case 20:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x25, 0x60, 0x90);
++			break;
++		case 21:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x15, 0x03, 0x70, 0x90);
++			break;
++	  case 22:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x35, 0x03, 0xf1, 0x90);
++			break;	
++		case 23:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x35, 0x03, 0x71, 0x10);
++			break;	
++			
++	  case 33:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0xf1,  0x91);		
++		
++			break;
++		case 71:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++				      0x3c + wifi_duration_adjust, 0x03, 0xf1,
++						      0x90);
++			break;
++		case 101:
++		case 105:
++		case 113:
++		case 171:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xd3,
++				      0x3a + wifi_duration_adjust, 0x03, 0x70,
++						      0x50 | psTdmaByte4Modify);
++			break;
++		case 102:
++		case 106:
++		case 110:
++		case 114:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xd3,
++				      0x2d + wifi_duration_adjust, 0x03, 0x70,
++						      0x50 | psTdmaByte4Modify);
++			break;
++		case 103:
++		case 107:
++		case 111:
++		case 115:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1c, 0x03, 0x70, 0x50 |
++						      psTdmaByte4Modify);
++			break;
++		case 104:
++		case 108:
++		case 112:
++		case 116:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x10, 0x03, 0x70, 0x50 |
++						      psTdmaByte4Modify);
++			break;
++		case 109:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x03, 0xf1, 0x90 |
++						      psTdmaByte4Modify);
++			break;
++		/* case 113:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x03, 0x70, 0x90 |
++						      psTdmaByte4Modify);
++			break; */
++		case 121:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x15, 0x03, 0x70, 0x90 |
++						      psTdmaByte4Modify);
++			break;	
++		case 122:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x35, 0x03, 0x71, 0x11);
++			break;
++	  case 123:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x35, 0x03, 0x71, 0x10);
++			break;		
++	  case 133:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1c, 0x3, 0x70,  0x51);		
++		
++			break;		
++		}
++	} else {
++		/* disable PS tdma */
++		switch (type) {
++		case 0:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x40, 0x0);
++			break;
++		case 1:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x48, 0x0);
++			break;
++		default:
++			halbtc8723b2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x40, 0x0);
++			break;
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8723b2ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8723b2ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8723b2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8723b2ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		coex_sta->force_lps_on = true;
++		break;
++	case BTC_PS_LPS_OFF:
++		halbtc8723b2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	default:
++		break;
++	}
++}
++
++
++void halbtc8723b2ant_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++	/* fw all off */
++	halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8723b2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723b2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	/* hw all off */
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0); */
++	halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8723b2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++	halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8723b2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 1);
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 6);
++	halbtc8723b2ant_dec_bt_pwr(btcoexist, FORCE_EXEC, 0);
++
++	halbtc8723b2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723b2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	coex_sta->pop_event_cnt = 0;
++
++}
++
++void halbtc8723b2ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	boolean	wifi_connected = false;
++	boolean	low_pwr_disable = true;
++	boolean		scan = false, link = false, roam = false;
++	boolean wifi_busy = false;
++
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++			   coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++			   &low_pwr_disable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	if (coex_sta->bt_abnormal_scan) {
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						23);
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);				
++	} else if (scan || link || roam) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi link process + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     7);
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++	} else if (wifi_connected) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     7);
++						     
++		if (wifi_busy)				     
++			halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++		else
++		  halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33); 	
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi no-link + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++	}
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 6);
++	halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8723b2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723b2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	/*
++		coex_dm->need_recover0x948 = true;
++		coex_dm->backup0x948 = btcoexist->btc_read_4byte(btcoexist, 0x948);
++
++		halbtc8723b2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_AUX, false, false);
++	*/
++}
++
++
++void halbtc8723b2ant_action_wifi_link_process(IN struct btc_coexist *btcoexist)
++{
++	u32	u32tmp;
++	u8	u8tmpa, u8tmpb;
++
++	halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 15);
++	halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++
++	halbtc8723b2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723b2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x948);
++	u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++	u8tmpb = btcoexist->btc_read_1byte(btcoexist, 0x76e);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"############# [BTCoex], 0x948=0x%x, 0x765=0x%x, 0x76e=0x%x\n",
++		    u32tmp,  u8tmpa, u8tmpb);
++	BTC_TRACE(trace_buf);
++}
++
++boolean halbtc8723b2ant_action_wifi_idle_process(IN struct btc_coexist
++		*btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u8		ap_num = 0;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	/* wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist, 1, 2, BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES-coex_dm->switch_thres_offset-coex_dm->switch_thres_offset, 0); */
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++		coex_dm->switch_thres_offset - coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++		coex_dm->switch_thres_offset - coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM, &ap_num);
++
++	/* define the office environment */
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) &&
++	    (coex_sta->hid_exist == true) &&
++	    (coex_sta->a2dp_exist == true)) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi  idle process for BT HID+A2DP exist!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723b2ant_dac_swing(btcoexist, NORMAL_EXEC, true, 0x6);
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		/* sw all off */
++		halbtc8723b2ant_sw_mechanism1(btcoexist, false, false, false,
++					      false);
++		halbtc8723b2ant_sw_mechanism2(btcoexist, false, false, false,
++					      0x18);
++
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++
++		return true;
++	} else {
++		halbtc8723b2ant_dac_swing(btcoexist, NORMAL_EXEC, true, 0x18);
++		return false;
++	}
++
++
++}
++
++
++
++boolean halbtc8723b2ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++	boolean			bt_hs_on = false, low_pwr_disable = false;
++	boolean			asus_8723b = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected) {
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non-connected idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x0);
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++		halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723b2ant_sw_mechanism1(btcoexist, false, false, false,
++					      false);
++		halbtc8723b2ant_sw_mechanism2(btcoexist, false, false, false,
++					      0x18);
++
++		common = true;
++	} else {
++		if (BT_8723B_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status) {
++			low_pwr_disable = false;
++			btcoexist->btc_set(btcoexist,
++					   BTC_SET_ACT_DISABLE_LOW_POWER,
++					   &low_pwr_disable);
++			halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC,
++						   false, false, 0x8);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x0);
++			halbtc8723b2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++
++			halbtc8723b2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++			halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 0xb);
++			halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false, false,
++						      false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++
++			common = true;
++		} else if (BT_8723B_2ANT_BT_STATUS_CONNECTED_IDLE ==
++			   coex_dm->bt_status) {
++			low_pwr_disable = true;
++			btcoexist->btc_set(btcoexist,
++					   BTC_SET_ACT_DISABLE_LOW_POWER,
++					   &low_pwr_disable);
++
++			if (bt_hs_on)
++				return false;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi connected + BT connected-idle!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC,
++						   false, false, 0x8);
++
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x0);
++			halbtc8723b2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++
++			halbtc8723b2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++			halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 0xb);
++			halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++
++			common = true;
++		} else {
++			low_pwr_disable = true;
++			btcoexist->btc_set(btcoexist,
++					   BTC_SET_ACT_DISABLE_LOW_POWER,
++					   &low_pwr_disable);
++
++			if (wifi_busy) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++				BTC_TRACE(trace_buf);
++				/* btcoexist->btc_get(btcoexist,
++					BTC_GET_BL_IS_ASUS_8723B, &asus_8723b);
++				if (!asus_8723b) 
++					common = false;
++				else
++					common = halbtc8723b2ant_action_wifi_idle_process(
++							 btcoexist); */
++				common = false;
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++				BTC_TRACE(trace_buf);
++				/* common = false;	 */
++				common = halbtc8723b2ant_action_wifi_idle_process(
++						 btcoexist);
++			}
++		}
++	}
++
++	return common;
++}
++void halbtc8723b2ant_tdma_duration_adjust(IN struct btc_coexist *btcoexist,
++		IN boolean sco_hid, IN boolean tx_pause, IN u8 max_interval)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0;
++
++	if (!coex_dm->auto_tdma_adjust) {
++		coex_dm->auto_tdma_adjust = true;
++		{
++			if (sco_hid) {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					} else if (max_interval == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (max_interval == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					} else if (max_interval == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (max_interval == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			} else {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (max_interval == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (max_interval == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (max_interval == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (max_interval == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					}
++				}
++			}
++		}
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/* accquire the BT TRx retry count from BT_Info byte2 */
++		retry_count = coex_sta->bt_retry_cnt;
++
++		if ((coex_sta->low_priority_tx) > 1050 ||
++		    (coex_sta->low_priority_rx) > 1250)
++			retry_count++;
++
++		result = 0;
++		wait_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if retry count during continuous n*2 seconds is 0, enlarge WiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {/* if continuous 2 retry count(every 2 seconds) >0 and < 3, reduce WiFi duration */
++				if (wait_count <= 2)
++					m++; /* to avoid loop between the two levels */
++				else
++					m = 1;
++
++				if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++			}
++		} else { /* retry count > 3, once retry count > 3, to reduce WiFi duration */
++			if (wait_count == 1)
++				m++; /* to avoid loop between the two levels */
++			else
++				m = 1;
++
++			if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++		}
++
++		if (max_interval == 1) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 71) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 5);
++					coex_dm->ps_tdma_du_adj_type = 5;
++				} else if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 5);
++					coex_dm->ps_tdma_du_adj_type = 5;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 13);
++					coex_dm->ps_tdma_du_adj_type = 13;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 71);
++					coex_dm->ps_tdma_du_adj_type = 71;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 9);
++					coex_dm->ps_tdma_du_adj_type = 9;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 71) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 71);
++						coex_dm->ps_tdma_du_adj_type =
++							71;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					}
++				}
++			}
++		} else if (max_interval == 2) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					}
++				}
++			}
++		} else if (max_interval == 3) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8723b2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8723b2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			}
++		}
++	}
++
++	/* if current PsTdma not match with the recorded one (when scan, dhcp...), */
++	/* then we have to adjust it back to the previous record one. */
++	if (coex_dm->cur_ps_tdma != coex_dm->ps_tdma_du_adj_type) {
++		boolean	scan = false, link = false, roam = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], PsTdma type dismatch!!!, cur_ps_tdma=%d, recordPsTdma=%d\n",
++			    coex_dm->cur_ps_tdma, coex_dm->ps_tdma_du_adj_type);
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (!scan && !link && !roam)
++			halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						coex_dm->ps_tdma_du_adj_type);
++		else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], roaming/link/scan is under progress, will adjust next time!!!\n");
++			BTC_TRACE(trace_buf);
++		}
++	}
++}
++
++/* SCO only or SCO+PAN(HS) */
++void halbtc8723b2ant_action_sco(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8	wifi_rssi_state, bt_rssi_state;
++	u32	wifi_bw;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 4);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) /* for SCO quality at 11b/g mode */
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	else  /* for SCO quality & wifi performance balance at 11n mode */
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 8);
++
++	halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++				0); /* for voice quality */
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x4);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      true, 0x4);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x4);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      true, 0x4);
++		}
++	}
++}
++
++
++void halbtc8723b2ant_action_hid(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8	wifi_rssi_state, bt_rssi_state;
++	u32	wifi_bw;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) /* for HID at 11b/g mode */
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++	else  /* for HID quality & wifi performance balance at 11n mode */
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 9);
++
++	halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 9);
++	else
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* A2DP only / PAN(EDR) only/ A2DP+PAN(HS) */
++void halbtc8723b2ant_action_a2dp(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++	u8		ap_num = 0;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++			   coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM, &ap_num);
++
++	/* define the office environment */
++	if ((ap_num >= 10) && BTC_RSSI_HIGH(wifi_rssi_state1) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++		/* dbg_print(" AP#>10(%d)\n", ap_num); */
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x0);
++		halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++		halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++
++		/* sw mechanism */
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x18);
++		}
++		return;
++
++	}
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     13);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++		halbtc8723b2ant_tdma_duration_adjust(btcoexist, false, false,
++						     1);
++	else
++		halbtc8723b2ant_tdma_duration_adjust(btcoexist, false, true, 1);
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8723b2ant_action_a2dp_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++			   coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     13);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	halbtc8723b2ant_tdma_duration_adjust(btcoexist, false, true, 2);
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8723b2ant_action_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++			   coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     10);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     13);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 1);
++	else
++		halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++
++/* PAN(HS) only */
++void halbtc8723b2ant_action_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++			   coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++	halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* PAN(EDR)+A2DP */
++void halbtc8723b2ant_action_pan_edr_a2dp(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u8		ap_num = 0;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++			   coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	else
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++					   &ap_num);
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     12);
++
++		if(ap_num < 10)
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, false, 1);
++		else
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, false, 3);
++
++	} else {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     13);
++		if(ap_num < 10)
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, true, 1);
++		else
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, true, 3);
++	}
++
++	/* sw mechanism	 */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8723b2ant_action_pan_edr_hid(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++			   coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     14);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++		if (BTC_WIFI_BW_HT40 == wifi_bw) {
++			halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 3);
++			/* halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 11); */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x780);
++		} else {
++			halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 6);
++			/* halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7); */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x0);
++		}
++		halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, false, 2);
++	} else {
++		halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		/* halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 14); */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x0);
++		halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, true, 2);
++	}
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* HID+A2DP+PAN(EDR) */
++void halbtc8723b2ant_action_hid_a2dp_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1,  bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++			   coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     14);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true,
++							     true, 3);
++		else
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true,
++							     false, 3);
++	} else
++		halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, true, 3);
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8723b2ant_action_hid_a2dp(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW,
++			prewifi_rssi_state1 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++	u8		ap_num = 0;
++
++	wifi_rssi_state = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2, 15, 0);
++	/* bt_rssi_state = halbtc8723b2ant_bt_rssi_state(2, 29, 0); */
++	wifi_rssi_state1 = halbtc8723b2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state1, 2,
++			   BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES -
++			   coex_dm->switch_thres_offset, 0);
++	bt_rssi_state = halbtc8723b2ant_bt_rssi_state(&pre_bt_rssi_state, 3,
++			BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES -
++			coex_dm->switch_thres_offset, 37);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++					   &ap_num);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8723b2ant_limited_rx(btcoexist, NORMAL_EXEC, false, true, 0x5);
++
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) {
++		if (BTC_RSSI_HIGH(bt_rssi_state))
++			halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++		else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++			halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++		else
++			halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	} else {
++		/* only 802.11N mode we have to dec bt power to 4 degree */
++		if (BTC_RSSI_HIGH(bt_rssi_state)) {
++			/* need to check ap Number of Not */
++			if (ap_num < 10)
++				halbtc8723b2ant_dec_bt_pwr(btcoexist,
++							   NORMAL_EXEC, 4);
++			else
++				halbtc8723b2ant_dec_bt_pwr(btcoexist,
++							   NORMAL_EXEC, 2);
++		} else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++			halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++		else
++			halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	}
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     14);
++		halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	if(BTC_RSSI_HIGH(bt_rssi_state)) {
++		if(ap_num < 10)
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, false, 1);
++		else
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, false, 3);
++	} else {
++		halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 18);
++		btcoexist->btc_write_1byte(btcoexist, 0x456, 0x38);
++		btcoexist->btc_write_2byte(btcoexist, 0x42a, 0x0808);
++		btcoexist->btc_write_4byte(btcoexist, 0x430, 0x0);
++		btcoexist->btc_write_4byte(btcoexist, 0x434, 0x01010000);
++
++		if(ap_num < 10)
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, true, 1);
++		else
++			halbtc8723b2ant_tdma_duration_adjust(btcoexist, true, true, 3);
++	}
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8723b2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8723b2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8723b2ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8723b2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723b2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++	halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8723b2ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723b2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8723b2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8723b2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723b2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	/* hw all off */
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0); */
++	halbtc8723b2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8723b2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8723b2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++}
++
++void halbtc8723b2ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8				algorithm = 0;
++	u32				num_of_wifi_link = 0;
++	u32				wifi_link_status = 0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean				miracast_plus_bt = false;
++	boolean				scan = false, link = false, roam = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	algorithm = halbtc8723b2ant_action_algorithm(btcoexist);
++	if (coex_sta->c2h_bt_inquiry_page &&
++	    (BT_8723B_2ANT_COEX_ALGO_PANHS != algorithm)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under inquiry/page scan !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_action_bt_inquiry(btcoexist);
++		return;
++	} else {
++		/*
++			if(coex_dm->need_recover0x948)
++			{
++				coex_dm->need_recover0x948 = false;
++				btcoexist->btc_write_4byte(btcoexist, 0x948, coex_dm->backup0x948);
++			}
++		*/
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++	if (scan || link || roam) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under Link Process !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_action_wifi_link_process(btcoexist);
++		return;
++	}
++
++	/* for P2P */
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist)
++			miracast_plus_bt = true;
++		else
++			miracast_plus_bt = false;
++
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8723b2ant_action_wifi_multi_port(btcoexist);
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++	coex_dm->cur_algorithm = algorithm;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Algorithm = %d\n",
++		    coex_dm->cur_algorithm);
++	BTC_TRACE(trace_buf);
++
++	if (halbtc8723b2ant_is_common_action(btcoexist)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Action 2-Ant common.\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->auto_tdma_adjust = false;
++	} else {
++		if (coex_dm->cur_algorithm != coex_dm->pre_algorithm) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], pre_algorithm=%d, cur_algorithm=%d\n",
++				coex_dm->pre_algorithm, coex_dm->cur_algorithm);
++			BTC_TRACE(trace_buf);
++			coex_dm->auto_tdma_adjust = false;
++		}
++		switch (coex_dm->cur_algorithm) {
++		case BT_8723B_2ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_sco(btcoexist);
++			break;
++		case BT_8723B_2ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_hid(btcoexist);
++			break;
++		case BT_8723B_2ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_a2dp(btcoexist);
++			break;
++		case BT_8723B_2ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_a2dp_pan_hs(btcoexist);
++			break;
++		case BT_8723B_2ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_pan_edr(btcoexist);
++			break;
++		case BT_8723B_2ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_pan_hs(btcoexist);
++			break;
++		case BT_8723B_2ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_pan_edr_a2dp(btcoexist);
++			break;
++		case BT_8723B_2ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_pan_edr_hid(btcoexist);
++			break;
++		case BT_8723B_2ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_hid_a2dp_pan_edr(
++				btcoexist);
++			break;
++		case BT_8723B_2ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_action_hid_a2dp(btcoexist);
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_coex_all_off(btcoexist);
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8723b2ant_wifi_off_hw_cfg(IN struct btc_coexist *btcoexist)
++{
++	boolean	is_in_mp_mode = false;
++	u8 h2c_parameter[2] = {0};
++	u32 fw_ver = 0;
++
++	/* set wlan_act to low */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++			  0x780); /* WiFi goto standby while GNT_BT 0-->1 */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	if (fw_ver >= 0x180000) {
++		/* Use H2C to set GNT_BT to HIGH */
++		h2c_parameter[0] = 1;
++		btcoexist->btc_fill_h2c(btcoexist, 0x6E, 1, h2c_parameter);
++	} else
++		btcoexist->btc_write_1byte(btcoexist, 0x765, 0x18);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_IS_IN_MP_MODE,
++			   &is_in_mp_mode);
++	if (!is_in_mp_mode)
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x20,
++			   0x0); /* BT select s0/s1 is controlled by BT */
++	else
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x20,
++			   0x1); /* BT select s0/s1 is controlled by WiFi */
++}
++
++void halbtc8723b2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up)
++{
++	u8	u8tmp = 0;
++	u32	 vendor;
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 2Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_VENDOR, &vendor);
++	if (vendor == BTC_VENDOR_LENOVO)
++		coex_dm->switch_thres_offset = 0;
++	else if (vendor == BTC_VENDOR_ASUS)
++		coex_dm->switch_thres_offset = 0;
++	else
++		coex_dm->switch_thres_offset = 20;
++
++	/* 0xf0[15:12] --> Chip Cut information */
++	coex_sta->cut_version = (btcoexist->btc_read_1byte(btcoexist,
++				 0xf1) & 0xf0) >> 4;
++
++	/* backup rf 0x1e value */
++	coex_dm->bt_rf_0x1e_backup =
++		btcoexist->btc_get_rf_reg(btcoexist, BTC_RF_A, 0x1e, 0xfffff);
++
++	/* 0x790[5:0]=0x5 */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x790);
++	u8tmp &= 0xc0;
++	u8tmp |= 0x5;
++	btcoexist->btc_write_1byte(btcoexist, 0x790, u8tmp);
++
++	/* Antenna config	 */
++	halbtc8723b2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, true,
++				     false);
++	coex_sta->dis_ver_info_cnt = 0;
++
++	/* PTA parameter */
++	halbtc8723b2ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	/* Enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e,
++			   0x4); /* 0x76e[3] =1, WLAN_Act control by PTA */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x3);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++}
++
++/* ************************************************************
++ * work around function start with wa_halbtc8723b2ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8723b2ant_
++ * ************************************************************ */
++void ex_halbtc8723b2ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u16 u16tmp = 0x0;
++	u32				value = 0;
++	u32    u32tmp_1[4];
++
++	btcoexist->btc_write_1byte(btcoexist, 0x67, 0x20);
++
++	/* enable BB, REG_SYS_FUNC_EN such that we can write 0x948 correctly. */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x2);
++	btcoexist->btc_write_2byte(btcoexist, 0x2, u16tmp | BIT(0) | BIT(1));
++ DbgPrint("--- TEST 5 ---\n");
++		
++	btcoexist->btc_write_4byte(btcoexist, 0x948, 0x0);
++
++	if (btcoexist->chip_interface == BTC_INTF_USB) {
++		/* fixed at S0 for USB interface */
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++	} else {
++		/* for PCIE and SDIO interface, we check efuse 0xc3[6] */
++		if (board_info->single_ant_path == 0) {
++			/* set to S1 */
++			board_info->btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++		} else if (board_info->single_ant_path == 1) {
++			/* set to S0 */
++			board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++		}
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ANTPOSREGRISTRY_CTRL,
++				   &value);
++	}
++}
++
++void ex_halbtc8723b2ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x4; /* Set BIT2 by default since it's 2ant case */
++
++	/*  */
++	/* S0 or S1 setting and Local register setting(By the setting fw can get ant number, S0/S1, ... info) */
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++	if (btcoexist->chip_interface == BTC_INTF_USB) {
++		/* fixed at S0 for USB interface */
++		u8tmp |= 0x1;	/* antenna inverse */
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	} else {
++		/* for PCIE and SDIO interface, we check efuse 0xc3[6] */
++		if (board_info->single_ant_path == 0) {
++		} else if (board_info->single_ant_path == 1) {
++			/* set to S0 */
++			u8tmp |= 0x1;	/* antenna inverse */
++		}
++
++		if (btcoexist->chip_interface == BTC_INTF_PCI)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x384,
++							     u8tmp);
++		else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60,
++							     u8tmp);
++	}
++}
++
++void ex_halbtc8723b2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8723b2ant_init_hw_config(btcoexist, true);
++}
++
++void ex_halbtc8723b2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8723b2ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8723b2ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u32				u32tmp[4];
++	u32				fa_of_dm, fa_cck;
++	u32				fw_ver = 0, bt_patch_ver = 0;
++	static u8			pop_report_in_10s = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "Ant PG number/ Ant mechanism:",
++		   board_info->pg_ant_num, board_info->btdm_ant_num);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)/ %c",
++		   "Version Coex/ Fw/ Patch/ Cut",
++		   glcoex_ver_date_8723b_2ant, glcoex_ver_8723b_2ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver, coex_sta->cut_version + 65);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Abnormal scan",
++		   (coex_sta->bt_abnormal_scan) ? "Yes" : "No");
++	CL_PRINTF(cli_buf);
++	
++	pop_report_in_10s++;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt/ popCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8723B_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8723B_2ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi - 100, coex_sta->bt_retry_cnt,
++		   coex_sta->pop_event_cnt);
++	CL_PRINTF(cli_buf);
++
++	if (pop_report_in_10s >= 5) {
++		coex_sta->pop_event_cnt = 0;
++		pop_report_in_10s = 0;
++	}
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d / %d / %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP/NameReq/WHQL",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist,
++		   coex_sta->c2h_bt_remote_name_req,
++		   coex_sta->bt_whck_test);
++	CL_PRINTF(cli_buf);
++
++	{
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++			   "BT Role",
++			   (bt_link_info->slave_role) ? "Slave" : "Master");
++		CL_PRINTF(cli_buf);
++	}
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %d",
++		   "A2DP Rate/Bitpool",
++		(bt_info_ext & BIT(0)) ? "BR" : "EDR", coex_sta->a2dp_bit_pool);
++	CL_PRINTF(cli_buf);
++
++	for (i = 0; i < BT_INFO_SRC_8723B_2ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8723b_2ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	/* Sw mechanism	 */
++	if (btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[Sw mechanism] (before Manual)============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[Sw mechanism]============");
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d ",
++		   "SM1[ShRf/ LpRA/ LimDig]",
++		   coex_dm->cur_rf_rx_lpf_shrink, coex_dm->cur_low_penalty_ra,
++		   coex_dm->limited_dig);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d(0x%x) ",
++		   "SM2[AgcT/ AdcB/ SwDacSwing(lvl)]",
++		   coex_dm->cur_agc_table_en, coex_dm->cur_adc_back_off,
++		   coex_dm->cur_dac_swing_on, coex_dm->cur_dac_swing_lvl);
++	CL_PRINTF(cli_buf);
++
++	/* Fw mechanism		 */
++	if (btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[Fw mechanism] (before Manual) ============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[Fw mechanism]============");
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++
++	if (coex_dm->is_switch_to_1dot5_ant)
++		ps_tdma_case = ps_tdma_case + 100;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (%s,%s)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   (coex_dm->cur_ps_tdma_on ? "On" : "Off"),
++		   (coex_dm->auto_tdma_adjust ? "Adj" : "Fix"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Coex Table Type",
++		   coex_sta->coex_table_type);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "DecBtPwr/ IgnWlanAct",
++		   coex_dm->cur_bt_dec_pwr_lvl, coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x",
++		   "RF-A, 0x1e initVal",
++		   coex_dm->bt_rf_0x1e_backup);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x880);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x778/0x880[29:25]",
++		   u8tmp[0], (u32tmp[0] & 0x3e000000) >> 25);
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x948);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x67);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x765);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x948/ 0x67[5] / 0x765",
++		   u32tmp[0], ((u8tmp[0] & 0x20) >> 5), u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x92c);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x930);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x944);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x92c[1:0]/ 0x930[7:0]/0x944[1:0]",
++		   u32tmp[0] & 0x3, u32tmp[1] & 0xff, u32tmp[2] & 0x3);
++	CL_PRINTF(cli_buf);
++
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x39);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0x64);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x38[11]/0x40/0x4c[24:23]/0x64[0]",
++		   ((u8tmp[0] & 0x8) >> 3), u8tmp[1],
++		   ((u32tmp[0] & 0x01800000) >> 23), u8tmp[2] & 0x1);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x49c);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0xc50(dig)/0x49c(null-drop)",
++		   u32tmp[0] & 0xff, u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xda0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xda4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0xda8);
++	u32tmp[3] = btcoexist->btc_read_4byte(btcoexist, 0xcf0);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5b);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++
++	fa_of_dm = ((u32tmp[0] & 0xffff0000) >> 16) + ((u32tmp[1] & 0xffff0000)
++			>> 16) + (u32tmp[1] & 0xffff) + (u32tmp[2] & 0xffff) + \
++		   ((u32tmp[3] & 0xffff0000) >> 16) + (u32tmp[3] &
++				   0xffff) ;
++	fa_cck = (u8tmp[0] << 8) + u8tmp[1];
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "OFDM-CCA/OFDM-FA/CCK-FA",
++		   u32tmp[0] & 0xffff, fa_of_dm, fa_cck);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8/0x6cc(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++#if (BT_AUTO_REPORT_ONLY_8723B_2ANT == 1)
++	/* halbtc8723b2ant_monitor_bt_ctr(btcoexist); */
++#endif
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8723b2ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++		halbtc8723b2ant_wifi_off_hw_cfg(btcoexist);
++		halbtc8723b2ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++		halbtc8723b2ant_coex_all_off(btcoexist);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = false;
++		halbtc8723b2ant_init_hw_config(btcoexist, false);
++		halbtc8723b2ant_init_coex_dm(btcoexist);
++		halbtc8723b2ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8723b2ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++	}
++}
++
++void ex_halbtc8723b2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	u32	u32tmp;
++	u8	u8tmpa, u8tmpb;
++
++
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x948);
++	u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++	u8tmpb = btcoexist->btc_read_1byte(btcoexist, 0x76e);
++
++	if (BTC_SCAN_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, FALSE, FALSE);
++	} else if (BTC_SCAN_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);
++	}
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"############# [BTCoex], 0x948=0x%x, 0x765=0x%x, 0x76e=0x%x\n",
++		    u32tmp,  u8tmpa, u8tmpb);
++	BTC_TRACE(trace_buf);
++}
++
++void ex_halbtc8723b2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	if (BTC_ASSOCIATE_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, FALSE, FALSE);
++	} else if (BTC_ASSOCIATE_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8723b2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++	u8			ap_num = 0;
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, FALSE, FALSE);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] = 0x1;
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else {
++			btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++					   &ap_num);
++			if (ap_num < 10)
++				h2c_parameter[2] = 0x30;
++			else
++				h2c_parameter[2] = 0x20;
++		}
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++}
++
++void ex_halbtc8723b2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	if (type == BTC_PACKET_DHCP) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], DHCP Packet notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8723b2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8			bt_info = 0;
++	u8			i, rsp_source = 0;
++	boolean			bt_busy = false, limited_dig = false;
++	boolean			wifi_connected = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8723B_2ANT_MAX)
++		rsp_source = BT_INFO_SRC_8723B_2ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), return for Manual CTRL<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	/* if 0xff, it means BT is under WHCK test */
++	if (bt_info == 0xff)
++		coex_sta->bt_whck_test = true;
++	else
++		coex_sta->bt_whck_test = false;
++
++	if (BT_INFO_SRC_8723B_2ANT_WIFI_FW != rsp_source) {
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++
++		coex_sta->bt_rssi =
++			coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x20)
++			coex_sta->c2h_bt_remote_name_req = true;
++		else
++			coex_sta->c2h_bt_remote_name_req = false;
++
++		if (coex_sta->bt_info_c2h[rsp_source][1] == 0x49) {
++			coex_sta->a2dp_bit_pool =
++				coex_sta->bt_info_c2h[rsp_source][6];
++		} else
++			coex_sta->a2dp_bit_pool = 0;
++
++		coex_sta->bt_tx_rx_mask = (coex_sta->bt_info_c2h[rsp_source][2]
++					   & 0x40);
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TX_RX_MASK,
++				   &coex_sta->bt_tx_rx_mask);
++		if (coex_sta->bt_tx_rx_mask) {
++			/* BT into is responded by BT FW and BT RF REG 0x3C != 0x01 => Need to switch BT TRx Mask */
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Switch BT TRx Mask since BT RF REG 0x3C != 0x01\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF,
++						  0x3c, 0x01);
++		}
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++		if ((coex_sta->bt_info_ext & BIT(1))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++					   &wifi_connected);
++			if (wifi_connected)
++				ex_halbtc8723b2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_CONNECT);
++			else
++				ex_halbtc8723b2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_DISCONNECT);
++		}
++
++		if ((coex_sta->bt_info_ext & BIT(3))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_ignore_wlan_act(btcoexist, FORCE_EXEC,
++							false);
++		} else {
++			/* BT already NOT ignore Wlan active, do nothing here. */
++		}
++#if (BT_AUTO_REPORT_ONLY_8723B_2ANT == 0)
++		if ((coex_sta->bt_info_ext & BIT(4))) {
++			/* BT auto report already enabled, do nothing */
++		} else
++			halbtc8723b2ant_bt_auto_report(btcoexist, FORCE_EXEC,
++						       true);
++#endif
++	}
++
++	/* check BIT2 first ==> check if bt is under inquiry or page scan */
++	if (bt_info & BT_INFO_8723B_2ANT_B_INQ_PAGE)
++		coex_sta->c2h_bt_inquiry_page = true;
++	else
++		coex_sta->c2h_bt_inquiry_page = false;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8723B_2ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8723B_2ANT_B_FTP)
++			coex_sta->pan_exist = true;
++		else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8723B_2ANT_B_A2DP)
++			coex_sta->a2dp_exist = true;
++		else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8723B_2ANT_B_HID)
++			coex_sta->hid_exist = true;
++		else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8723B_2ANT_B_SCO_ESCO)
++			coex_sta->sco_exist = true;
++		else
++			coex_sta->sco_exist = false;
++
++		if ((coex_sta->hid_exist == false) &&
++		    (coex_sta->c2h_bt_inquiry_page == false) &&
++		    (coex_sta->sco_exist == false)) {
++			if (coex_sta->high_priority_tx  +
++			    coex_sta->high_priority_rx >= 160) {
++				coex_sta->hid_exist = true;
++				bt_info = bt_info | 0x28;
++			}
++		}
++	}
++
++	halbtc8723b2ant_update_bt_link_info(btcoexist);
++
++	if (!(bt_info & BT_INFO_8723B_2ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8723B_2ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8723B_2ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8723B_2ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8723B_2ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8723B_2ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8723B_2ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8723B_2ANT_B_ACL_BUSY) {
++		coex_dm->bt_status = BT_8723B_2ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8723B_2ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8723B_2ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8723B_2ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8723B_2ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status)) {
++		bt_busy = true;
++		limited_dig = true;
++	} else {
++		bt_busy = false;
++		limited_dig = false;
++	}
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	coex_dm->limited_dig = limited_dig;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_LIMITED_DIG, &limited_dig);
++
++	halbtc8723b2ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8723b2ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8723b2ant_wifi_off_hw_cfg(btcoexist);
++	/* remove due to interrupt is disabled that polling c2h will fail and delay 100ms. */
++	/* btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x3c, 0x15); //BT goto standby while GNT_BT 1-->0 */
++	halbtc8723b2ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++	ex_halbtc8723b2ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++}
++
++void ex_halbtc8723b2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		/* Sinda 20150819, workaround for driver skip leave IPS/LPS to speed up sleep time. */
++		/* Driver do not leave IPS/LPS when driver is going to sleep, so BTCoexistence think wifi is still under IPS/LPS */
++		/* BT should clear UnderIPS/UnderLPS state to avoid mismatch state after wakeup. */
++		coex_sta->under_ips = false;
++		coex_sta->under_lps = false;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723b2ant_init_hw_config(btcoexist, false);
++		halbtc8723b2ant_init_coex_dm(btcoexist);
++		halbtc8723b2ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8723b2ant_periodical(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ==========================Periodical===========================\n");
++	BTC_TRACE(trace_buf);
++	if (coex_sta->dis_ver_info_cnt <= 5) {
++		coex_sta->dis_ver_info_cnt += 1;
++		if (coex_sta->dis_ver_info_cnt == 3) {
++			/* Antenna config to set 0x765 = 0x0 (GNT_BT control by PTA) after initial */
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Set GNT_BT control by PTA\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723b2ant_set_ant_path(btcoexist,
++				     BTC_ANT_WIFI_AT_MAIN, false, false);
++		}
++	}
++
++#if (BT_AUTO_REPORT_ONLY_8723B_2ANT == 0)
++	halbtc8723b2ant_query_bt_info(btcoexist);
++	halbtc8723b2ant_monitor_bt_enable_disable(btcoexist);
++#else
++	halbtc8723b2ant_monitor_bt_ctr(btcoexist);
++	halbtc8723b2ant_monitor_wifi_ctr(btcoexist);
++
++	/* for some BT speaker that Hi-Pri pkt appear begore start play, this will cause HID exist */
++	if ((coex_sta->high_priority_tx  + coex_sta->high_priority_rx < 50) &&
++	    (bt_link_info->hid_exist == true))
++		bt_link_info->hid_exist  = false;
++
++	if (halbtc8723b2ant_is_wifi_status_changed(btcoexist) ||
++	    coex_dm->auto_tdma_adjust)
++		halbtc8723b2ant_run_coexist_mechanism(btcoexist);
++#endif
++}
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723b2Ant.h b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723b2Ant.h
+new file mode 100644
+index 0000000..4fe39b2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8723b2Ant.h
+@@ -0,0 +1,214 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8723B_SUPPORT == 1)
++/* *******************************************
++ * The following is for 8723B 2Ant BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8723B_2ANT				1
++
++
++#define	BT_INFO_8723B_2ANT_B_FTP						BIT(7)
++#define	BT_INFO_8723B_2ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8723B_2ANT_B_HID						BIT(5)
++#define	BT_INFO_8723B_2ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8723B_2ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8723B_2ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8723B_2ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8723B_2ANT_B_CONNECTION				BIT(0)
++
++#define		BTC_RSSI_COEX_THRESH_TOL_8723B_2ANT		2
++
++
++#define	BT_8723B_2ANT_WIFI_RSSI_COEXSWITCH_THRES				42  /* WiFi RSSI Threshold for 2-Ant TDMA/1-Ant PS-TDMA translation */
++#define	BT_8723B_2ANT_BT_RSSI_COEXSWITCH_THRES				46 /* BT RSSI Threshold for 2-Ant TDMA/1-Ant PS-TDMA translation */
++
++enum bt_info_src_8723b_2ant {
++	BT_INFO_SRC_8723B_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8723B_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8723B_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8723B_2ANT_MAX
++};
++
++enum bt_8723b_2ant_bt_status {
++	BT_8723B_2ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8723B_2ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8723B_2ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8723B_2ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8723B_2ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8723B_2ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8723B_2ANT_BT_STATUS_MAX
++};
++
++enum bt_8723b_2ant_coex_algo {
++	BT_8723B_2ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8723B_2ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8723B_2ANT_COEX_ALGO_HID				= 0x2,
++	BT_8723B_2ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8723B_2ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8723B_2ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8723B_2ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8723B_2ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8723B_2ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8723B_2ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8723B_2ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8723B_2ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++struct coex_dm_8723b_2ant {
++	/* fw mechanism */
++	u8		pre_bt_dec_pwr_lvl;
++	u8		cur_bt_dec_pwr_lvl;
++	u8		pre_fw_dac_swing_lvl;
++	u8		cur_fw_dac_swing_lvl;
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		reset_tdma_adjust;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++
++	/* sw mechanism */
++	boolean		pre_rf_rx_lpf_shrink;
++	boolean		cur_rf_rx_lpf_shrink;
++	u32		bt_rf_0x1e_backup;
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	boolean		pre_dac_swing_on;
++	u32		pre_dac_swing_lvl;
++	boolean		cur_dac_swing_on;
++	u32		cur_dac_swing_lvl;
++	boolean		pre_adc_back_off;
++	boolean		cur_adc_back_off;
++	boolean	pre_agc_table_en;
++	boolean		cur_agc_table_en;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	boolean		need_recover0x948;
++	u32		backup0x948;
++
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	boolean		is_switch_to_1dot5_ant;
++	u8		switch_thres_offset;
++};
++
++struct coex_sta_8723b_2ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++	boolean					bt_abnormal_scan;
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	u8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8723B_2ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8723B_2ANT_MAX];
++	boolean				bt_whck_test;
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_remote_name_req;
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	u8					coex_table_type;
++	boolean					force_lps_on;
++
++	u8					dis_ver_info_cnt;
++
++	u8					a2dp_bit_pool;
++	u8					cut_version;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8723b2ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b2ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8723b2ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b2ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8723b2ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8723b2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8723b2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8723b2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723b2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723b2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8723b2ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8723b2ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723b2ant_display_coex_info(IN struct btc_coexist *btcoexist);
++
++#else
++#define	ex_halbtc8723b2ant_power_on_setting(btcoexist)
++#define	ex_halbtc8723b2ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8723b2ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8723b2ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8723b2ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8723b2ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8723b2ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8723b2ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8723b2ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8723b2ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8723b2ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8723b2ant_halt_notify(btcoexist)
++#define	ex_halbtc8723b2ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8723b2ant_periodical(btcoexist)
++#define	ex_halbtc8723b2ant_display_coex_info(btcoexist)
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8812a1Ant.c b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8812a1Ant.c
+new file mode 100644
+index 0000000..e094caa
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8812a1Ant.c
+@@ -0,0 +1,3457 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8812A Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8812A_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8812a_1ant		glcoex_dm_8812a_1ant;
++static struct  coex_dm_8812a_1ant	*coex_dm = &glcoex_dm_8812a_1ant;
++static struct  coex_sta_8812a_1ant		glcoex_sta_8812a_1ant;
++static struct  coex_sta_8812a_1ant	*coex_sta = &glcoex_sta_8812a_1ant;
++
++const char *const glbt_info_src_8812a_1ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8812a_1ant = 20140708;
++u32	glcoex_ver_8812a_1ant = 0x52;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8812a1ant_
++ * ************************************************************ */
++u8 halbtc8812a1ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8812A_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8812A_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8812A_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8812a1ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8812A_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8812A_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8812A_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8812a1ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++/* to check 0x430/0x434 is correct?? */
++void halbtc8812a1ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++/* to check 0x42a ?? */
++void halbtc8812a1ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++/* to check 0x456?? */
++void halbtc8812a1ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8812a1ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	switch (ra_mask_type) {
++	case 0:	/* normal mode */
++		halbtc8812a1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0);
++		break;
++	case 1:	/* disable cck 1/2 */
++		halbtc8812a1ant_update_ra_mask(btcoexist, force_exec,
++					       0x00000003);
++		break;
++	case 2:	/* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		halbtc8812a1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0001f1f7);
++		break;
++	default:
++		break;
++	}
++
++	halbtc8812a1ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8812a1ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8812a1ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++void halbtc8812a1ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8812a1ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8	data_len = 3;
++	u8	buf[5] = {0};
++
++	if (!coex_sta->bt_disabled) {
++		if (!coex_sta->bt_info_query_cnt ||
++		    (coex_sta->bt_info_c2h_cnt[BT_INFO_SRC_8812A_1ANT_BT_RSP]
++		     - coex_sta->bt_info_query_cnt) > 2) {
++			buf[0] = data_len;
++			buf[1] = 0x1;	/* polling enable, 1=enable, 0=disable */
++			buf[2] = 0x2;	/* polling time in seconds */
++			buf[3] = 0x1;	/* auto report enable, 1=enable, 0=disable */
++
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_CTRL_BT_INFO,
++					   (void *)&buf[0]);
++		}
++	}
++	coex_sta->bt_info_query_cnt++;
++}
++
++void halbtc8812a1ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++	static u8		num_of_bt_counter_chk = 0;
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	if ((coex_sta->low_priority_tx > 1150)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Hi-Pri Rx/Tx: %d/%d, Lo-Pri Rx/Tx: %d/%d\n",
++		    reg_hp_rx, reg_hp_tx, reg_lp_rx, reg_lp_tx);
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++
++	if ((reg_hp_tx == 0) && (reg_hp_rx == 0) && (reg_lp_tx == 0) &&
++	    (reg_lp_rx == 0)) {
++		num_of_bt_counter_chk++;
++		if (num_of_bt_counter_chk >= 3) {
++			halbtc8812a1ant_query_bt_info(btcoexist);
++			num_of_bt_counter_chk = 0;
++		}
++	}
++}
++
++/* to check registers */
++void halbtc8812a1ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++	s32	wifi_rssi = 0;
++	boolean wifi_busy = false, wifi_under_b_mode = false;
++	static u8 cck_lock_counter = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++			   &wifi_under_b_mode);
++
++	if (coex_sta->under_ips) {
++		coex_sta->crc_ok_cck = 0;
++		coex_sta->crc_ok_11g = 0;
++		coex_sta->crc_ok_11n = 0;
++		coex_sta->crc_ok_11n_agg = 0;
++
++		coex_sta->crc_err_cck = 0;
++		coex_sta->crc_err_11g = 0;
++		coex_sta->crc_err_11n = 0;
++		coex_sta->crc_err_11n_agg = 0;
++	} else {
++		coex_sta->crc_ok_cck	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf04);
++		coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf14);
++		coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf10);
++		coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					   0xf40);
++
++		coex_sta->crc_err_cck	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf06);
++		coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf16);
++		coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf12);
++		coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					    0xf42);
++	}
++
++
++	/* reset counter */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xb58, 0x1, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xb58, 0x1, 0x0);
++
++	if ((wifi_busy) && (wifi_rssi >= 30) && (!wifi_under_b_mode)) {
++		if ((coex_dm->bt_status == BT_8812A_1ANT_BT_STATUS_ACL_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8812A_1ANT_BT_STATUS_ACL_SCO_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8812A_1ANT_BT_STATUS_SCO_BUSY)) {
++			if (coex_sta->crc_ok_cck > (coex_sta->crc_ok_11g +
++						    coex_sta->crc_ok_11n +
++						    coex_sta->crc_ok_11n_agg)) {
++				if (cck_lock_counter < 5)
++					cck_lock_counter++;
++			} else {
++				if (cck_lock_counter > 0)
++					cck_lock_counter--;
++			}
++
++		} else {
++			if (cck_lock_counter > 0)
++				cck_lock_counter--;
++		}
++	} else {
++		if (cck_lock_counter > 0)
++			cck_lock_counter--;
++	}
++
++	if (!coex_sta->pre_ccklock) {
++
++		if (cck_lock_counter >= 5)
++			coex_sta->cck_lock = true;
++		else
++			coex_sta->cck_lock = false;
++	} else {
++		if (cck_lock_counter == 0)
++			coex_sta->cck_lock = false;
++		else
++			coex_sta->cck_lock = true;
++	}
++
++	coex_sta->pre_ccklock =  coex_sta->cck_lock;
++
++
++}
++
++boolean halbtc8812a1ant_is_wifi_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false;
++	boolean wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++	}
++
++	return false;
++}
++
++void halbtc8812a1ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++u8 halbtc8812a1ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8812A_1ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Profile = SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8812A_1ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_1ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_1ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8812A_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID + A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_1ANT_COEX_ALGO_HID_A2DP;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8812A_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! BT Profile = SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8812a1ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8812a1ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8812a1ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++/* to check */
++void halbtc8812a1ant_set_sw_penalty_tx_rate_adaptive(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8	tmp_u1;
++
++	tmp_u1 = btcoexist->btc_read_1byte(btcoexist, 0x4fd);
++	tmp_u1 |= BIT(0);
++	if (low_penalty_ra) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Tx rate adaptive, set low penalty!!\n");
++		BTC_TRACE(trace_buf);
++		tmp_u1 &= ~BIT(2);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Tx rate adaptive, set normal!!\n");
++		BTC_TRACE(trace_buf);
++		tmp_u1 |= BIT(2);
++	}
++
++	btcoexist->btc_write_1byte(btcoexist, 0x4fd, tmp_u1);
++}
++
++void halbtc8812a1ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8812a1ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8812a1ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8812a1ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8812a1ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8812a1ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** CoexTable(%d) **********\n", type);
++	BTC_TRACE(trace_buf);
++
++	coex_sta->coex_table_type = type;
++
++	switch (type) {
++	case 0:
++		halbtc8812a1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x55555555, 0xffffff, 0x3);
++		break;
++	case 1:
++		halbtc8812a1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 2:
++		halbtc8812a1ant_coex_table(btcoexist, force_exec,
++				   0x5a5a5a5a, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 3:
++		halbtc8812a1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 4:
++		halbtc8812a1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0xaaaa5a5a, 0xffffff, 0x3);
++		break;
++	case 5:
++		halbtc8812a1ant_coex_table(btcoexist, force_exec,
++				   0x5a5a5a5a, 0xaa5a5a5a, 0xffffff, 0x3);
++		break;
++	case 6:
++		halbtc8812a1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 7:
++		halbtc8812a1ant_coex_table(btcoexist, force_exec,
++				   0xaaaaaaaa, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8812a1ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8	data_len = 3;
++	u8	buf[5] = {0};
++
++	buf[0] = data_len;
++	buf[1] = 0x1;			/* OP_Code */
++	buf[2] = 0x1;			/* OP_Code_Length */
++	if (enable)
++		buf[3] = 0x1;		/* OP_Code_Content */
++	else
++		buf[3] = 0x0;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_CTRL_BT_COEX,
++			   (void *)&buf[0]);
++}
++
++void halbtc8812a1ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8812a1ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8812a1ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8812a1ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8812a1ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8812a1ant_sw_mechanism(IN struct btc_coexist *btcoexist,
++				  IN boolean low_penalty_ra)
++{
++	halbtc8812a1ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++/* to check force_exec */
++void halbtc8812a1ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean force_exec, IN boolean init_hwcfg,
++				  IN boolean wifi_off)
++{
++	u8			u8tmp = 0;
++
++	coex_dm->cur_ant_pos_type = ant_pos_type;
++
++	if (init_hwcfg) {
++		btcoexist->btc_write_1byte(btcoexist, 0xcb3, 0x77);
++		btcoexist->btc_write_4byte(btcoexist, 0x900, 0x00000400);
++		btcoexist->btc_write_1byte(btcoexist, 0x76d, 0x1);
++	} else if (wifi_off) {
++		btcoexist->btc_write_1byte(btcoexist, 0xcb3, 0x77);
++		u8tmp = btcoexist->btc_read_1byte(btcoexist, 0xcb7);
++		u8tmp &= ~BIT(3);
++		u8tmp |= BIT(2);
++		btcoexist->btc_write_1byte(btcoexist, 0xcb7, u8tmp);
++	}
++
++	if (force_exec ||
++	    (coex_dm->cur_ant_pos_type != coex_dm->pre_ant_pos_type)) {
++		/* ext switch setting */
++		switch (ant_pos_type) {
++		case BTC_ANT_PATH_WIFI:
++			u8tmp = btcoexist->btc_read_1byte(btcoexist,
++							  0xcb7);
++			u8tmp |= BIT(3);
++			u8tmp &= ~BIT(2);
++			btcoexist->btc_write_1byte(btcoexist, 0xcb7,
++						   u8tmp);
++			break;
++		case BTC_ANT_PATH_BT:
++			u8tmp = btcoexist->btc_read_1byte(btcoexist,
++							  0xcb7);
++			u8tmp &= ~BIT(3);
++			u8tmp |= BIT(2);
++			btcoexist->btc_write_1byte(btcoexist, 0xcb7,
++						   u8tmp);
++			break;
++		default:
++		case BTC_ANT_PATH_PTA:
++			u8tmp = btcoexist->btc_read_1byte(btcoexist,
++							  0xcb7);
++			u8tmp |= BIT(3);
++			u8tmp &= ~BIT(2);
++			btcoexist->btc_write_1byte(btcoexist, 0xcb7,
++						   u8tmp);
++			break;
++		}
++	}
++
++	coex_dm->pre_ant_pos_type = coex_dm->cur_ant_pos_type;
++}
++
++void halbtc8812a1ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], FW for 1Ant AP mode\n");
++			BTC_TRACE(trace_buf);
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++		}
++	}
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++
++void halbtc8812a1ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_busy = false;
++	u8			rssi_adjust_val = 0;
++	u8			ps_tdma_byte4_val = 0x50, ps_tdma_byte0_val = 0x51,
++				ps_tdma_byte3_val =  0x10;
++	s8			wifi_duration_adjust = 0x0;
++	static boolean	 pre_wifi_busy = false;
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (wifi_busy != pre_wifi_busy) {
++		force_exec = true;
++		pre_wifi_busy = wifi_busy;
++	}
++
++	if (coex_dm->cur_ps_tdma_on) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(on, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(off, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	}
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++
++	if (coex_sta->scan_ap_num <= 5)
++		wifi_duration_adjust = 2;
++	else if (coex_sta->scan_ap_num >= 40)
++		wifi_duration_adjust = -15;
++	else if (coex_sta->scan_ap_num >= 20)
++		wifi_duration_adjust = -10;
++
++	if (!coex_sta->force_lps_on) { /* only for A2DP-only case 1/2/9/11 while wifi noisy threshold > 30 */
++		ps_tdma_byte0_val = 0x61;  /* no null-pkt */
++		ps_tdma_byte3_val = 0x11; /* no tx-pause at BT-slot */
++		ps_tdma_byte4_val = 0x10; /* 0x778 = d/1 toggle */
++	}
++
++	if ((type == 3) || (type == 13) || (type == 14)) {
++		ps_tdma_byte4_val = ps_tdma_byte4_val &
++			    0xbf;  /* no dynamic slot for multi-profile */
++
++		if (!wifi_busy)
++			ps_tdma_byte4_val = ps_tdma_byte4_val |
++				0x1;  /* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++	}
++
++	if (bt_link_info->slave_role == true)
++		ps_tdma_byte4_val = ps_tdma_byte4_val |
++			0x1;  /* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++
++	if (turn_on) {
++		switch (type) {
++		default:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x51,
++				      0x1a, 0x1a, 0x0, ps_tdma_byte4_val);
++			break;
++		case 1:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist,
++						      ps_tdma_byte0_val, 0x3a +
++					      wifi_duration_adjust, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 2:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist,
++						      ps_tdma_byte0_val, 0x2d +
++					      wifi_duration_adjust, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 3:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x51,
++				      0x1d, 0x1d, 0x0, ps_tdma_byte4_val);
++			break;
++		case 4:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x15, 0x3, 0x14, 0x0);
++			break;
++		case 5:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x15, 0x3, 0x11, 0x11);
++			break;
++		case 6:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x20, 0x3, 0x11, 0x11);
++			break;
++		case 7:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xc, 0x5, 0x0, 0x0);
++			break;
++		case 8:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x25, 0x3, 0x10, 0x0);
++			break;
++		case 9:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x3,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 10:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xa, 0xa, 0x0, 0x40);
++			break;
++		case 11:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist,
++					      ps_tdma_byte0_val, 0x21, 0x03,
++				      ps_tdma_byte3_val, ps_tdma_byte4_val);
++			break;
++		case 12:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x0a, 0x0a, 0x0, 0x50);
++			break;
++		case 13:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x51,
++				      0x12, 0x12, 0x0, ps_tdma_byte4_val);
++			break;
++		case 14:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x51,
++				      0x21, 0x3, 0x10, ps_tdma_byte4_val);
++			break;
++		case 15:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xa, 0x3, 0x8, 0x0);
++			break;
++		case 16:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x15, 0x3, 0x10, 0x0);
++			break;
++		case 18:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x25, 0x3, 0x10, 0x0);
++			break;
++		case 20:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x3f, 0x03, 0x11, 0x10);
++			break;
++		case 21:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x25, 0x03, 0x11, 0x11);
++			break;
++		case 22:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x25, 0x03, 0x11, 0x10);
++			break;
++		case 23:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0x31, 0x18);
++			break;
++		case 24:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x15, 0x3, 0x31, 0x18);
++			break;
++		case 25:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0xa, 0x3, 0x31, 0x18);
++			break;
++		case 26:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0xa, 0x3, 0x31, 0x18);
++			break;
++		case 27:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0x31, 0x98);
++			break;
++		case 28:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x69,
++						      0x25, 0x3, 0x31, 0x0);
++			break;
++		case 29:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0xab,
++						      0x1a, 0x1a, 0x1, 0x10);
++			break;
++		case 30:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x30, 0x3, 0x10, 0x10);
++			break;
++		case 31:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1a, 0x1a, 0, 0x58);
++			break;
++		case 32:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x35, 0x3, 0x11, 0x11);
++			break;
++		case 33:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0xa3,
++						      0x25, 0x3, 0x30, 0x90);
++			break;
++		case 34:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x53,
++						      0x1a, 0x1a, 0x0, 0x10);
++			break;
++		case 35:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x63,
++						      0x1a, 0x1a, 0x0, 0x10);
++			break;
++		case 36:
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x12, 0x3, 0x14, 0x50);
++			break;
++		case 40: /* SoftAP only with no sta associated,BT disable ,TDMA mode for power saving */
++			/* here softap mode screen off will cost 70-80mA for phone */
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x23,
++						      0x18, 0x00, 0x10, 0x24);
++			break;
++		}
++	} else {
++
++		/* disable PS tdma */
++		switch (type) {
++		case 8: /* PTA Control */
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x8,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 0:
++		default:  /* Software control, Antenna at BT side */
++			halbtc8812a1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		}
++	}
++	rssi_adjust_val = 0;
++	btcoexist->btc_set(btcoexist,
++		BTC_SET_U1_RSSI_ADJ_VAL_FOR_1ANT_COEX_TYPE, &rssi_adjust_val);
++
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++boolean halbtc8812a1ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected &&
++	    BT_8812A_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++	    coex_dm->bt_status) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8812a1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		   (BT_8812A_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8812a1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8812A_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8812a1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		(BT_8812A_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8812a1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8812A_1ANT_BT_STATUS_CONNECTED_IDLE != coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non connected-idle + BT Busy!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8812a1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else {
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		}
++
++		common = false;
++	}
++
++	return common;
++}
++
++
++void halbtc8812a1ant_tdma_duration_adjust_for_acl(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0, bt_info_ext;
++	boolean			wifi_busy = false;
++
++	if (BT_8812A_1ANT_WIFI_STATUS_CONNECTED_BUSY == wifi_status)
++		wifi_busy = true;
++	else
++		wifi_busy = false;
++
++	if ((BT_8812A_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN ==
++	     wifi_status) ||
++	    (BT_8812A_1ANT_WIFI_STATUS_CONNECTED_SCAN == wifi_status) ||
++	    (BT_8812A_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT ==
++	     wifi_status)) {
++		if (coex_dm->cur_ps_tdma != 1 &&
++		    coex_dm->cur_ps_tdma != 2 &&
++		    coex_dm->cur_ps_tdma != 3 &&
++		    coex_dm->cur_ps_tdma != 9) {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						9);
++			coex_dm->ps_tdma_du_adj_type = 9;
++
++			up = 0;
++			dn = 0;
++			m = 1;
++			n = 3;
++			result = 0;
++			wait_count = 0;
++		}
++		return;
++	}
++
++	if (!coex_dm->auto_tdma_adjust) {
++		coex_dm->auto_tdma_adjust = true;
++
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 2);
++		coex_dm->ps_tdma_du_adj_type = 2;
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/* accquire the BT TRx retry count from BT_Info byte2 */
++		retry_count = coex_sta->bt_retry_cnt;
++		bt_info_ext = coex_sta->bt_info_ext;
++
++		if ((coex_sta->low_priority_tx) > 1150 ||
++		    (coex_sta->low_priority_rx) > 1250)
++			retry_count++;
++
++		result = 0;
++		wait_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if retry count during continuous n*2 seconds is 0, enlarge WiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {	/* if continuous 2 retry count(every 2 seconds) >0 and < 3, reduce WiFi duration */
++				if (wait_count <= 2)
++					m++; /* to avoid loop between the two levels */
++				else
++					m = 1;
++
++				if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++			}
++		} else { /* retry count > 3, once retry count > 3, to reduce WiFi duration */
++			if (wait_count == 1)
++				m++; /* to avoid loop between the two levels */
++			else
++				m = 1;
++
++			if (m >= 20)  /* maximum of m = 20 ' will recheck if need to adjust wifi duration in maximum time interval 120 seconds */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++		}
++
++		if (result == -1) {
++			if ((BT_INFO_8812A_1ANT_A2DP_BASIC_RATE(bt_info_ext)) &&
++			    ((coex_dm->cur_ps_tdma == 1) ||
++			     (coex_dm->cur_ps_tdma == 2))) {
++				halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 1) {
++				halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 2);
++				coex_dm->ps_tdma_du_adj_type = 2;
++			} else if (coex_dm->cur_ps_tdma == 2) {
++				halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 9) {
++				halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 11);
++				coex_dm->ps_tdma_du_adj_type = 11;
++			}
++		} else if (result == 1) {
++			if ((BT_INFO_8812A_1ANT_A2DP_BASIC_RATE(bt_info_ext)) &&
++			    ((coex_dm->cur_ps_tdma == 1) ||
++			     (coex_dm->cur_ps_tdma == 2))) {
++				halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 11) {
++				halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 9);
++				coex_dm->ps_tdma_du_adj_type = 9;
++			} else if (coex_dm->cur_ps_tdma == 9) {
++				halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 2);
++				coex_dm->ps_tdma_du_adj_type = 2;
++			} else if (coex_dm->cur_ps_tdma == 2) {
++				halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 1);
++				coex_dm->ps_tdma_du_adj_type = 1;
++			}
++		} else { /* no change */
++			/* Bryant Modify
++			if(wifi_busy != pre_wifi_busy)
++			{
++				pre_wifi_busy = wifi_busy;
++				halbtc8812a1ant_ps_tdma(btcoexist, FORCE_EXEC, true, coex_dm->cur_ps_tdma);
++			}
++			*/
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], ********** TDMA(on, %d) **********\n",
++				    coex_dm->cur_ps_tdma);
++			BTC_TRACE(trace_buf);
++		}
++
++		if (coex_dm->cur_ps_tdma != 1 &&
++		    coex_dm->cur_ps_tdma != 2 &&
++		    coex_dm->cur_ps_tdma != 9 &&
++		    coex_dm->cur_ps_tdma != 11) {
++			/* recover to previous adjust type */
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						coex_dm->ps_tdma_du_adj_type);
++		}
++	}
++}
++
++void halbtc8812a1ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8812a1ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8812a1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8812a1ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		coex_sta->force_lps_on = true;
++		break;
++	case BTC_PS_LPS_OFF:
++		halbtc8812a1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8812a1ant_action_wifi_only(IN struct btc_coexist *btcoexist)
++{
++	halbtc8812a1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++	halbtc8812a1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, FORCE_EXEC,
++				     false, false);
++}
++
++void halbtc8812a1ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++
++	/* This function check if bt is disabled */
++
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is enabled !!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		bt_disable_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], bt all counters=0, %d times!!\n",
++			    bt_disable_cnt);
++		BTC_TRACE(trace_buf);
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++					   &bt_disabled);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a1ant_action_wifi_only(btcoexist);
++		}
++	}
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++		if (!bt_disabled) {
++		} else {
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++					   NULL);
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++					   NULL);
++		}
++	}
++}
++
++/* *********************************************
++ *
++ *	Software Coex Mechanism start
++ *
++ * ********************************************* */
++
++/* SCO only or SCO+PAN(HS) */
++
++/*
++void halbtc8812a1ant_action_sco(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8812a1ant_action_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8812a1ant_action_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8812a1ant_action_a2dp_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8812a1ant_action_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8812a1ant_action_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8812a1ant_action_pan_edr_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8812a1ant_action_pan_edr_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8812a1ant_action_hid_a2dp_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, true);
++}
++
++void halbtc8812a1ant_action_hid_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8812a1ant_sw_mechanism(btcoexist, true);
++}
++
++*/
++
++/* *********************************************
++ *
++ *	Non-Software Coex Mechanism start
++ *
++ * ********************************************* */
++void halbtc8812a1ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC,
++				     false, false);
++	halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8812a1ant_action_hs(IN struct btc_coexist *btcoexist)
++{
++	halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++	halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8812a1ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_connected = false, ap_enable = false, wifi_busy = false,
++				bt_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	if ((!wifi_connected) && (!coex_sta->wifi_is_high_pri_task)) {
++		halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist) ||
++		   (bt_link_info->a2dp_exist)) {
++		/* SCO/HID/A2DP  busy */
++		halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if ((bt_link_info->pan_exist) || (wifi_busy)) {
++		halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++	}
++}
++
++void halbtc8812a1ant_action_bt_sco_hid_only_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	/* tdma and coex table */
++
++	if (bt_link_info->sco_exist) {
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else { /* HID */
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	}
++}
++
++void halbtc8812a1ant_action_wifi_connected_bt_acl_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	u8		bt_rssi_state;
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	bt_rssi_state = halbtc8812a1ant_bt_rssi_state(2, 28, 0);
++
++	if ((coex_sta->low_priority_rx >= 950)  && (!coex_sta->under_ips))
++		bt_link_info->slave_role = true;
++	else
++		bt_link_info->slave_role = false;
++
++	if (bt_link_info->hid_only) { /* HID */
++		halbtc8812a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				wifi_status);
++		coex_dm->auto_tdma_adjust = false;
++		return;
++	} else if (bt_link_info->a2dp_only) { /* A2DP		 */
++		if (BT_8812A_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status) {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = false;
++		} else {
++			halbtc8812a1ant_tdma_duration_adjust_for_acl(btcoexist,
++					wifi_status);
++			halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = true;
++		}
++	} else if (((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) ||
++		   (bt_link_info->hid_exist && bt_link_info->a2dp_exist &&
++		bt_link_info->pan_exist)) { /* A2DP+PAN(OPP,FTP), HID+A2DP+PAN(OPP,FTP) */
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	} else if (bt_link_info->hid_exist &&
++		   bt_link_info->a2dp_exist) { /* HID+A2DP */
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 14);
++		coex_dm->auto_tdma_adjust = false;
++
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++	} else if ((bt_link_info->pan_only) || (bt_link_info->hid_exist &&
++		bt_link_info->pan_exist)) { /* PAN(OPP,FTP), HID+PAN(OPP,FTP)			 */
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	} else {
++		/* BT no-profile busy (0x9) */
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	}
++}
++
++void halbtc8812a1ant_action_wifi_not_connected(IN struct btc_coexist *btcoexist)
++{
++	/* power save state */
++	halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	halbtc8812a1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC,
++				     false, false);
++	halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8812a1ant_action_wifi_not_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if (BT_8812A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						20);
++			halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8812A_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8812A_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8812a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8812A_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		/* Bryant Add */
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8812a1ant_action_wifi_not_connected_asso_auth(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist)  || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else {
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 2);
++	}
++}
++
++void halbtc8812a1ant_action_wifi_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if (BT_8812A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						20);
++			halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8812A_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8812A_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8812a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8812A_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		/* Bryant Add */
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8812a1ant_action_wifi_connected_specific_packet(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8812a1ant_action_wifi_connected(IN struct btc_coexist *btcoexist)
++{
++	boolean	wifi_busy = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean		under_4way = false, ap_enable = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], CoexForWifiConnect()===>\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (under_4way) {
++		halbtc8812a1ant_action_wifi_connected_specific_packet(btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 4way<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++	if (scan || link || roam) {
++		if (scan)
++			halbtc8812a1ant_action_wifi_connected_scan(btcoexist);
++		else
++			halbtc8812a1ant_action_wifi_connected_specific_packet(
++				btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under scan<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	/* power save state */
++	if (!ap_enable &&
++	    BT_8812A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status &&
++	    !btcoexist->bt_link_info.hid_only) {
++		if (btcoexist->bt_link_info.a2dp_only) {	/* A2DP */
++			if (!wifi_busy)
++				halbtc8812a1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			else { /* busy */
++				if (coex_sta->scan_ap_num >=
++				    BT_8812A_1ANT_WIFI_NOISY_THRESH)  /* no force LPS, no PS-TDMA, use pure TDMA */
++					halbtc8812a1ant_power_save_state(
++						btcoexist, BTC_PS_WIFI_NATIVE,
++						0x0, 0x0);
++				else
++					halbtc8812a1ant_power_save_state(
++						btcoexist, BTC_PS_LPS_ON, 0x50,
++						0x4);
++			}
++		} else if ((coex_sta->pan_exist == false) &&
++			   (coex_sta->a2dp_exist == false) &&
++			   (coex_sta->hid_exist == false))
++			halbtc8812a1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		else
++			halbtc8812a1ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++	} else
++		halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++
++	/* tdma and coex table */
++	if (!wifi_busy) {
++		if (BT_8812A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8812a1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8812A_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else if ((BT_8812A_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8812A_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8812a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8812A_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++			halbtc8812a1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_PTA, NORMAL_EXEC, false, false);
++			if ((coex_sta->high_priority_tx) +
++			    (coex_sta->high_priority_rx) <= 60)
++				halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++			else
++				halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		}
++	} else {
++		if (BT_8812A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8812a1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8812A_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else if ((BT_8812A_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8812A_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8812a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8812A_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else {
++			halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++			halbtc8812a1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_PTA, NORMAL_EXEC, false, false);
++			if ((coex_sta->high_priority_tx) +
++			    (coex_sta->high_priority_rx) <= 60)
++				halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++			else
++				halbtc8812a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		}
++	}
++}
++
++void halbtc8812a1ant_run_sw_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8				algorithm = 0;
++
++	algorithm = halbtc8812a1ant_action_algorithm(btcoexist);
++	coex_dm->cur_algorithm = algorithm;
++
++	if (halbtc8812a1ant_is_common_action(btcoexist)) {
++
++	} else {
++		switch (coex_dm->cur_algorithm) {
++		case BT_8812A_1ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_sco(btcoexist); */
++			break;
++		case BT_8812A_1ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_hid(btcoexist); */
++			break;
++		case BT_8812A_1ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_a2dp(btcoexist); */
++			break;
++		case BT_8812A_1ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_a2dp_pan_hs(btcoexist); */
++			break;
++		case BT_8812A_1ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_pan_edr(btcoexist); */
++			break;
++		case BT_8812A_1ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_pan_hs(btcoexist); */
++			break;
++		case BT_8812A_1ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_pan_edr_a2dp(btcoexist); */
++			break;
++		case BT_8812A_1ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_pan_edr_hid(btcoexist); */
++			break;
++		case BT_8812A_1ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_hid_a2dp_pan_edr(btcoexist); */
++			break;
++		case BT_8812A_1ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_action_hid_a2dp(btcoexist); */
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8812a1ant_coex_all_off(btcoexist); */
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8812a1ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false, bt_hs_on = false;
++	boolean	increase_scan_dev_num = false;
++	boolean	bt_ctrl_agg_buf_size = false;
++	boolean	miracast_plus_bt = false;
++	u8	agg_buf_size = 5;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0, wifi_bw;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if ((BT_8812A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8812A_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8812A_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		increase_scan_dev_num = true;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_INC_SCAN_DEV_NUM,
++			   &increase_scan_dev_num);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist) {
++			halbtc8812a1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1,
++						   0, 1);
++			miracast_plus_bt = true;
++		} else {
++			halbtc8812a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0,
++						   0, 0);
++			miracast_plus_bt = false;
++		}
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8812a1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if ((bt_link_info->a2dp_exist) &&
++		    (coex_sta->c2h_bt_inquiry_page)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8812a1ant_action_wifi_multi_port(btcoexist);
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if ((bt_link_info->bt_link_exist) && (wifi_connected)) {
++		halbtc8812a1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1, 0, 1);
++
++		if (bt_link_info->sco_exist)
++			halbtc8812a1ant_limited_rx(btcoexist, NORMAL_EXEC, true,
++						   false, 0x5);
++		else {
++			if (BTC_WIFI_BW_HT40 == wifi_bw)
++				halbtc8812a1ant_limited_rx(btcoexist, NORMAL_EXEC,
++							   false, true, 0x10);
++			else
++				halbtc8812a1ant_limited_rx(btcoexist, NORMAL_EXEC,
++							   false, true, 0x8);
++		}
++
++		halbtc8812a1ant_sw_mechanism(btcoexist, true);
++		halbtc8812a1ant_run_sw_coexist_mechanism(
++			btcoexist);  /* just print debug message */
++	} else {
++		halbtc8812a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++		halbtc8812a1ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x5);
++
++		halbtc8812a1ant_sw_mechanism(btcoexist, false);
++		halbtc8812a1ant_run_sw_coexist_mechanism(
++			btcoexist); /* //just print debug message */
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "############# [BTCoex],  BT Is Inquirying\n");
++		BTC_TRACE(trace_buf);
++		halbtc8812a1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8812a1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	if (!wifi_connected) {
++		boolean	scan = false, link = false, roam = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is non connected-idle !!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (scan || link || roam) {
++			if (scan)
++				halbtc8812a1ant_action_wifi_not_connected_scan(
++					btcoexist);
++			else
++				halbtc8812a1ant_action_wifi_not_connected_asso_auth(
++					btcoexist);
++		} else
++			halbtc8812a1ant_action_wifi_not_connected(btcoexist);
++	} else	/* wifi LPS/Busy */
++		halbtc8812a1ant_action_wifi_connected(btcoexist);
++}
++
++void halbtc8812a1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++
++	/* sw all off */
++	halbtc8812a1ant_sw_mechanism(btcoexist, false);
++
++	/* halbtc8812a1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8); */
++	/* halbtc8812a1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0); */
++
++	coex_sta->pop_event_cnt = 0;
++}
++
++void halbtc8812a1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up, IN boolean wifi_only)
++{
++	u8	u8tmp = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 1Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	/* ant sw control to BT */
++	halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, FORCE_EXEC,
++				     true, false);
++
++	/* 0x790[5:0]=0x5 */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x790);
++	u8tmp &= 0xc0;
++	u8tmp |= 0x5;
++	btcoexist->btc_write_1byte(btcoexist, 0x790, u8tmp);
++
++	/* PTA parameter */
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, 0x0);
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, 0xffff);
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, 0x55555555);
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, 0x55555555);
++
++	/* coex parameters */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++
++	/* enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++	/* enable PTA */
++	btcoexist->btc_write_1byte(btcoexist, 0x40, 0x20);
++
++	/* bt clock related */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x4);
++	u8tmp |= BIT(7);
++	btcoexist->btc_write_1byte(btcoexist, 0x4, u8tmp);
++
++	/* bt clock related */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x7);
++	u8tmp |= BIT(1);
++	btcoexist->btc_write_1byte(btcoexist, 0x7, u8tmp);
++}
++
++/* ************************************************************
++ * work around function start with wa_halbtc8812a1ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8812a1ant_
++ * ************************************************************ */
++void ex_halbtc8812a1ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8812a1ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8812a1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8812a1ant_init_hw_config(btcoexist, true, wifi_only);
++	btcoexist->stop_coex_dm = false;
++}
++
++void ex_halbtc8812a1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = false;
++
++	halbtc8812a1ant_init_coex_dm(btcoexist);
++
++	halbtc8812a1ant_query_bt_info(btcoexist);
++}
++
++void ex_halbtc8812a1ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8			*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u32				u32tmp[4];
++	u32				fw_ver = 0, bt_patch_ver = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	if (btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "Ant PG number/ Ant mechanism:",
++		   board_info->pg_ant_num, board_info->btdm_ant_num);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%d/ 0x%x/ 0x%x(%d)",
++		   "CoexVer/ FwVer/ PatchVer",
++		   glcoex_ver_date_8812a_1ant, glcoex_ver_8812a_1ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8812A_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8812A_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi, coex_sta->bt_retry_cnt);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist);
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_BT_LINK_INFO);
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Info A2DP rate",
++		   (bt_info_ext & BIT(0)) ? "Basic rate" : "EDR rate");
++	CL_PRINTF(cli_buf);
++
++	for (i = 0; i < BT_INFO_SRC_8812A_1ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8812a_1ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	if (!btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanisms]============");
++		CL_PRINTF(cli_buf);
++
++		ps_tdma_case = coex_dm->cur_ps_tdma;
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d",
++			   "PS TDMA",
++			   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++			   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++			   coex_dm->ps_tdma_para[4], ps_tdma_case);
++		CL_PRINTF(cli_buf);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x ",
++			   "Latest error condition(should be 0)",
++			   coex_dm->error_condition);
++		CL_PRINTF(cli_buf);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ",
++			   "IgnWlanAct",
++			   coex_dm->cur_ignore_wlan_act);
++		CL_PRINTF(cli_buf);
++	}
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x778",
++		   u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xcb3);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xcb7);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x900);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0xcb3/0xcb7/0x900",
++		   u8tmp[0], u8tmp[1], u32tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x40",
++		   u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0xc50(dig)",
++		   u32tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8/0x6cc(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(hp rx[31:16]/tx[15:0])",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(lp rx[31:16]/tx[15:0])",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++
++void ex_halbtc8812a1ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, true);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8812a1ant_init_hw_config(btcoexist, false, false);
++		halbtc8812a1ant_init_coex_dm(btcoexist);
++		halbtc8812a1ant_query_bt_info(btcoexist);
++
++		coex_sta->under_ips = false;
++	}
++}
++
++void ex_halbtc8812a1ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++	}
++}
++
++void ex_halbtc8812a1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_SCAN_START == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8812a1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++			8);  /* Force antenna setup for no scan result issue */
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);
++	}
++
++	if (coex_sta->bt_disabled)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	halbtc8812a1ant_query_bt_info(btcoexist);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8812a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8812a1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8812a1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8812a1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8812a1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_SCAN_START == type) {
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8812a1ant_action_wifi_not_connected_scan(
++				btcoexist);
++		else	/* wifi is connected */
++			halbtc8812a1ant_action_wifi_connected_scan(btcoexist);
++	} else if (BTC_SCAN_FINISH == type) {
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8812a1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8812a1ant_action_wifi_connected(btcoexist);
++	}
++}
++
++void ex_halbtc8812a1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	boolean	wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	if (BTC_ASSOCIATE_START == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		halbtc8812a1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++			8);  /* Force antenna setup for no scan result issue */
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++		/* coex_dm->arp_cnt = 0; */
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8812a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8812a1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8812a1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8812a1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8812a1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_ASSOCIATE_START == type)
++		halbtc8812a1ant_action_wifi_not_connected_asso_auth(btcoexist);
++	else if (BTC_ASSOCIATE_FINISH == type) {
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++				   &wifi_connected);
++		if (!wifi_connected) /* non-connected scan */
++			halbtc8812a1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8812a1ant_action_wifi_connected(btcoexist);
++	}
++}
++
++/* to check registers... */
++void ex_halbtc8812a1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			data_len = 5;
++	u8			buf[6] = {0};
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++	boolean			wifi_under_b_mode = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++		halbtc8812a1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++			8);  /* Force antenna setup for no scan result issue */
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++#if 0
++		/* Set CCK Tx/Rx high Pri except 11b mode */
++		if (wifi_under_b_mode) {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x00); /* CCK Rx */
++		} else {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x10); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x10); /* CCK Rx */
++		}
++#endif
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++
++		btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x0); /* CCK Tx */
++		btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x0); /* CCK Rx */
++	}
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		/* h2c_parameter[0] = 0x1; */
++		h2c_parameter[0] = 0x0;
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	buf[0] = data_len;
++	buf[1] = 0x5;				/* OP_Code */
++	buf[2] = 0x3;				/* OP_Code_Length */
++	buf[3] = h2c_parameter[0];	/* OP_Code_Content */
++	buf[4] = h2c_parameter[1];
++	buf[5] = h2c_parameter[2];
++
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_CTRL_BT_COEX,
++			   (void *)&buf[0]);
++}
++
++void ex_halbtc8812a1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean	bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	if (BTC_PACKET_DHCP == type ||
++	    BTC_PACKET_EAPOL == type ||
++	    BTC_PACKET_ARP == type) {
++		if (BTC_PACKET_ARP == type) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], specific Packet ARP notify\n");
++			BTC_TRACE(trace_buf);
++
++			coex_dm->arp_cnt++;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], ARP Packet Count = %d\n",
++				    coex_dm->arp_cnt);
++			BTC_TRACE(trace_buf);
++
++			if (coex_dm->arp_cnt >=
++			    10) /* if APR PKT > 10 after connect, do not go to ActionWifiConnectedSpecificPacket(btcoexist) */
++				coex_sta->wifi_is_high_pri_task = false;
++			else
++				coex_sta->wifi_is_high_pri_task = true;
++		} else {
++			coex_sta->wifi_is_high_pri_task = true;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], specific Packet DHCP or EAPOL notify\n");
++			BTC_TRACE(trace_buf);
++		}
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet [Type = %d] notify\n", type);
++		BTC_TRACE(trace_buf);
++	}
++
++	coex_sta->specific_pkt_period_cnt = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8812a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8812a1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8812a1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8812a1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8812a1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_PACKET_DHCP == type ||
++	    BTC_PACKET_EAPOL == type ||
++	    ((BTC_PACKET_ARP == type) && (coex_sta->wifi_is_high_pri_task)))
++		halbtc8812a1ant_action_wifi_connected_specific_packet(btcoexist);
++}
++
++void ex_halbtc8812a1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8				bt_info = 0;
++	u8				i, rsp_source = 0;
++	boolean				wifi_connected = false;
++	boolean				bt_busy = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8812A_1ANT_MAX)
++		rsp_source = BT_INFO_SRC_8812A_1ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (BT_INFO_SRC_8812A_1ANT_WIFI_FW != rsp_source) {
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x20)
++			coex_sta->c2h_bt_page = true;
++		else
++			coex_sta->c2h_bt_page = false;
++
++		coex_sta->bt_rssi =
++			coex_sta->bt_info_c2h[rsp_source][3] * 2 - 90;
++		/* coex_sta->bt_info_c2h[rsp_source][3]*2+10; */
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		coex_sta->bt_tx_rx_mask = (coex_sta->bt_info_c2h[rsp_source][2]
++					   & 0x40);
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TX_RX_MASK,
++				   &coex_sta->bt_tx_rx_mask);
++		if (!coex_sta->bt_tx_rx_mask) {
++			/* BT into is responded by BT FW and BT RF REG 0x3C != 0x15 => Need to switch BT TRx Mask */
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Switch BT TRx Mask since BT RF REG 0x3C != 0x15\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF,
++						  0x3c, 0x15);
++		}
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++		if (coex_sta->bt_info_ext & BIT(1)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++					   &wifi_connected);
++			if (wifi_connected)
++				ex_halbtc8812a1ant_media_status_notify(
++					btcoexist, BTC_MEDIA_CONNECT);
++			else
++				ex_halbtc8812a1ant_media_status_notify(
++					btcoexist, BTC_MEDIA_DISCONNECT);
++		}
++
++		if (coex_sta->bt_info_ext & BIT(3)) {
++			if (!btcoexist->manual_control &&
++			    !btcoexist->stop_coex_dm) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8812a1ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		} else {
++			/* BT already NOT ignore Wlan active, do nothing here. */
++		}
++#if (BT_AUTO_REPORT_ONLY_8812A_1ANT == 0)
++		if ((coex_sta->bt_info_ext & BIT(4))) {
++			/* BT auto report already enabled, do nothing */
++		} else
++			halbtc8812a1ant_bt_auto_report(btcoexist, FORCE_EXEC,
++						       true);
++#endif
++	}
++
++	/* check BIT2 first ==> check if bt is under inquiry or page scan */
++	if (bt_info & BT_INFO_8812A_1ANT_B_INQ_PAGE)
++		coex_sta->c2h_bt_inquiry_page = true;
++	else
++		coex_sta->c2h_bt_inquiry_page = false;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8812A_1ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8812A_1ANT_B_FTP)
++			coex_sta->pan_exist = true;
++		else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8812A_1ANT_B_A2DP)
++			coex_sta->a2dp_exist = true;
++		else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8812A_1ANT_B_HID)
++			coex_sta->hid_exist = true;
++		else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8812A_1ANT_B_SCO_ESCO)
++			coex_sta->sco_exist = true;
++		else
++			coex_sta->sco_exist = false;
++	}
++
++	halbtc8812a1ant_update_bt_link_info(btcoexist);
++
++	bt_info = bt_info &
++		0x1f;  /* mask profile bit for connect-ilde identification ( for CSR case: A2DP idle --> 0x41) */
++
++	if (!(bt_info & BT_INFO_8812A_1ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8812A_1ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8812A_1ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8812A_1ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8812A_1ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8812A_1ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8812A_1ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8812A_1ANT_B_ACL_BUSY) {
++		if (BT_8812A_1ANT_BT_STATUS_ACL_BUSY != coex_dm->bt_status)
++			coex_dm->auto_tdma_adjust = false;
++		coex_dm->bt_status = BT_8812A_1ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8812A_1ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8812A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8812A_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8812A_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		bt_busy = true;
++	else
++		bt_busy = false;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	halbtc8812a1ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8812a1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RF Status notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_RF_ON == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->stop_coex_dm = false;
++	} else if (BTC_RF_OFF == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8812a1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, true);
++
++		halbtc8812a1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++		btcoexist->stop_coex_dm = true;
++	}
++}
++
++void ex_halbtc8812a1ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8812a1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++	halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, FORCE_EXEC,
++				     false, true);
++
++	halbtc8812a1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++	ex_halbtc8812a1ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	btcoexist->stop_coex_dm = true;
++}
++
++void ex_halbtc8812a1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8812a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8812a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, true);
++		halbtc8812a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++
++		/* Sinda 20150819, workaround for driver skip leave IPS/LPS to speed up sleep time. */
++		/* Driver do not leave IPS/LPS when driver is going to sleep, so BTCoexistence think wifi is still under IPS/LPS */
++		/* BT should clear UnderIPS/UnderLPS state to avoid mismatch state after wakeup. */
++		coex_sta->under_ips = false;
++		coex_sta->under_lps = false;
++		btcoexist->stop_coex_dm = true;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->stop_coex_dm = false;
++		halbtc8812a1ant_init_hw_config(btcoexist, false, false);
++		halbtc8812a1ant_init_coex_dm(btcoexist);
++		halbtc8812a1ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8812a1ant_coex_dm_reset(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], *****************Coex DM Reset*****************\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8812a1ant_init_hw_config(btcoexist, false, false);
++	halbtc8812a1ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8812a1ant_periodical(IN struct btc_coexist *btcoexist)
++{
++#if (BT_AUTO_REPORT_ONLY_8812A_1ANT == 0)
++	halbtc8812a1ant_query_bt_info(btcoexist);
++	halbtc8812a1ant_monitor_bt_enable_disable(btcoexist);
++#else
++	halbtc8812a1ant_monitor_bt_ctr(btcoexist);
++	halbtc8812a1ant_monitor_wifi_ctr(btcoexist);
++
++	if (halbtc8812a1ant_is_wifi_status_changed(btcoexist) ||
++	    coex_dm->auto_tdma_adjust)
++		halbtc8812a1ant_run_coexist_mechanism(btcoexist);
++
++	coex_sta->specific_pkt_period_cnt++;
++#endif
++}
++
++void ex_halbtc8812a1ant_dbg_control(IN struct btc_coexist *btcoexist,
++				    IN u8 op_code, IN u8 op_len, IN u8 *pdata)
++{
++	switch (op_code) {
++	case BTC_DBG_SET_COEX_NORMAL:
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Set CoexMode to Normal\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->manual_control = false;
++		halbtc8812a1ant_init_coex_dm(btcoexist);
++		break;
++	case BTC_DBG_SET_COEX_WIFI_ONLY:
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Set CoexMode to Wifi Only\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->manual_control = true;
++		halbtc8812a1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++					9);
++		break;
++	case BTC_DBG_SET_COEX_BT_ONLY:
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Set CoexMode to BT only\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->manual_control = true;
++		halbtc8812a1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		halbtc8812a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++					0);
++		break;
++	case BTC_DBG_SET_COEX_DEC_BT_PWR:
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Set Dec BT power\n");
++		BTC_TRACE(trace_buf);
++		{
++			u8	data_len = 4;
++			u8	buf[6] = {0};
++			u8	dec_bt_pwr = 0, pwr_level = 0;
++			if (op_len == 2) {
++				dec_bt_pwr = pdata[0];
++				pwr_level = pdata[1];
++
++				buf[0] = data_len;
++				buf[1] = 0x3;		/* OP_Code */
++				buf[2] = 0x2;		/* OP_Code_Length */
++
++				buf[3] = dec_bt_pwr;	/* OP_Code_Content */
++				buf[4] = pwr_level;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Set Dec BT power=%d, pwr_level=%d\n",
++					    dec_bt_pwr, pwr_level);
++				BTC_TRACE(trace_buf);
++				btcoexist->btc_set(btcoexist,
++						   BTC_SET_ACT_CTRL_BT_COEX,
++						   (void *)&buf[0]);
++			}
++		}
++		break;
++
++	case BTC_DBG_SET_COEX_BT_AFH_MAP:
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Set BT AFH Map\n");
++		BTC_TRACE(trace_buf);
++		{
++			u8	data_len = 5;
++			u8	buf[6] = {0};
++			if (op_len == 3) {
++				buf[0] = data_len;
++				buf[1] = 0x5;				/* OP_Code */
++				buf[2] = 0x3;				/* OP_Code_Length */
++
++				buf[3] = pdata[0];			/* OP_Code_Content */
++				buf[4] = pdata[1];
++				buf[5] = pdata[2];
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Set BT AFH Map = %02x %02x %02x\n",
++					    pdata[0], pdata[1], pdata[2]);
++				BTC_TRACE(trace_buf);
++				btcoexist->btc_set(btcoexist,
++						   BTC_SET_ACT_CTRL_BT_COEX,
++						   (void *)&buf[0]);
++			}
++		}
++		break;
++
++	case BTC_DBG_SET_COEX_BT_IGNORE_WLAN_ACT:
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Set BT Ignore Wlan Active\n");
++		BTC_TRACE(trace_buf);
++		{
++			u8	data_len = 3;
++			u8	buf[6] = {0};
++			if (op_len == 1) {
++				buf[0] = data_len;
++				buf[1] = 0x1;			/* OP_Code */
++				buf[2] = 0x1;			/* OP_Code_Length */
++
++				buf[3] = pdata[0];		/* OP_Code_Content */
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Set BT Ignore Wlan Active = 0x%x\n",
++					    pdata[0]);
++				BTC_TRACE(trace_buf);
++
++				btcoexist->btc_set(btcoexist,
++						   BTC_SET_ACT_CTRL_BT_COEX,
++						   (void *)&buf[0]);
++			}
++		}
++		break;
++	default:
++		break;
++	}
++}
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
+\ No newline at end of file
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8812a1Ant.h b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8812a1Ant.h
+new file mode 100644
+index 0000000..e786d37
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8812a1Ant.h
+@@ -0,0 +1,230 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8812A_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8812A 1ANT BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8812A_1ANT				1
++
++#define	BT_INFO_8812A_1ANT_B_FTP						BIT(7)
++#define	BT_INFO_8812A_1ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8812A_1ANT_B_HID						BIT(5)
++#define	BT_INFO_8812A_1ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8812A_1ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8812A_1ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8812A_1ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8812A_1ANT_B_CONNECTION				BIT(0)
++
++#define	BT_INFO_8812A_1ANT_A2DP_BASIC_RATE(_BT_INFO_EXT_)	\
++		(((_BT_INFO_EXT_&BIT(0))) ? true : false)
++
++#define	BTC_RSSI_COEX_THRESH_TOL_8812A_1ANT		2
++
++#define  BT_8812A_1ANT_WIFI_NOISY_THRESH								30   /* max: 255 */
++
++enum bt_info_src_8812a_1ant {
++	BT_INFO_SRC_8812A_1ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8812A_1ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8812A_1ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8812A_1ANT_MAX
++};
++
++enum bt_8812a_1ant_bt_status {
++	BT_8812A_1ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8812A_1ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8812A_1ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8812A_1ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8812A_1ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8812A_1ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8812A_1ANT_BT_STATUS_MAX
++};
++
++enum bt_8812a_1ant_wifi_status {
++	BT_8812A_1ANT_WIFI_STATUS_NON_CONNECTED_IDLE				= 0x0,
++	BT_8812A_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN		= 0x1,
++	BT_8812A_1ANT_WIFI_STATUS_CONNECTED_SCAN					= 0x2,
++	BT_8812A_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT				= 0x3,
++	BT_8812A_1ANT_WIFI_STATUS_CONNECTED_IDLE					= 0x4,
++	BT_8812A_1ANT_WIFI_STATUS_CONNECTED_BUSY					= 0x5,
++	BT_8812A_1ANT_WIFI_STATUS_MAX
++};
++
++enum bt_8812a_1ant_coex_algo {
++	BT_8812A_1ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8812A_1ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8812A_1ANT_COEX_ALGO_HID				= 0x2,
++	BT_8812A_1ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8812A_1ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8812A_1ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8812A_1ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8812A_1ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8812A_1ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8812A_1ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8812A_1ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8812A_1ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++struct coex_dm_8812a_1ant {
++	/* hw setting */
++	u8		pre_ant_pos_type;
++	u8		cur_ant_pos_type;
++	/* fw mechanism */
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	/* sw mechanism */
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++	u32		arp_cnt;
++
++	u8		error_condition;
++};
++
++struct coex_sta_8812a_1ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					specific_pkt_period_cnt;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	s8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8812A_1ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8812A_1ANT_MAX];
++	u32					bt_info_query_cnt;
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_page;				/* Add for win8.1 page out issue */
++	boolean					wifi_is_high_pri_task;		/* Add for win8.1 page out issue */
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	boolean					cck_lock;
++	boolean					pre_ccklock;
++	u8					coex_table_type;
++
++	boolean					force_lps_on;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8812a1ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a1ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8812a1ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a1ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8812a1ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8812a1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8812a1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8812a1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8812a1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8812a1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8812a1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8812a1ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8812a1ant_coex_dm_reset(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a1ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a1ant_dbg_control(IN struct btc_coexist *btcoexist,
++				    IN u8 op_code, IN u8 op_len, IN u8 *pdata);
++void ex_halbtc8812a1ant_display_coex_info(IN struct btc_coexist *btcoexist);
++
++#else
++#define	ex_halbtc8812a1ant_power_on_setting(btcoexist)
++#define	ex_halbtc8812a1ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8812a1ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8812a1ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8812a1ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8812a1ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8812a1ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8812a1ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8812a1ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8812a1ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8812a1ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8812a1ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8812a1ant_halt_notify(btcoexist)
++#define	ex_halbtc8812a1ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8812a1ant_coex_dm_reset(btcoexist)
++#define	ex_halbtc8812a1ant_periodical(btcoexist)
++#define	ex_halbtc8812a1ant_dbg_control(btcoexist, op_code, op_len, pdata)
++#define	ex_halbtc8812a1ant_display_coex_info(btcoexist)
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8812a2Ant.c b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8812a2Ant.c
+new file mode 100644
+index 0000000..045982b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8812a2Ant.c
+@@ -0,0 +1,5481 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8812A Co-exist mechanism
++ *
++ * History
++ * 2012/08/22 Cosa first check in.
++ * 2012/11/14 Cosa Revise for 8812A 2Ant out sourcing.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++
++#if (RTL8812A_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8812a_2ant	glcoex_dm_8812a_2ant;
++static struct  coex_dm_8812a_2ant	*coex_dm = &glcoex_dm_8812a_2ant;
++static struct  coex_sta_8812a_2ant	glcoex_sta_8812a_2ant;
++static struct  coex_sta_8812a_2ant	*coex_sta = &glcoex_sta_8812a_2ant;
++
++const char *const glbt_info_src_8812a_2ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8812a_2ant = 20160526;
++u32	glcoex_ver_8812a_2ant = 0x3b;
++/* linux coding style
++ * fix antenna setting when BT is disabled
++ * ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8812a2ant_
++ * ************************************************************ */
++u8 halbtc8812a2ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8812A_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				 "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8812A_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8812A_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++
++u8 halbtc8812a2ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8812A_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				 "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8812A_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8812A_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++
++void halbtc8812a2ant_set_enable_pta(IN struct btc_coexist *btcoexist,
++				    IN boolean enablePTA)
++{
++	if (enablePTA) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], PTA is enable!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte(btcoexist, 0x40, 0x20);
++
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], PTA is disable!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte(btcoexist, 0x40, 0x00);
++
++	}
++}
++
++void halbtc8812a2ant_enable_pta(IN struct btc_coexist *btcoexist,
++				IN boolean force_exec, IN boolean enable)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, ("[BTCoex], %s turn Enable PTA %s\n",
++		(force_exec ? "force to" : ""), (enable ? "ON" : "OFF")));
++	BTC_TRACE(trace_buf);
++	coex_dm->cur_enable_pta = enable;
++
++	if (!force_exec) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], pre_enable_pta = %d, cur_enable_pta = %d!!\n",
++			 coex_dm->pre_enable_pta, coex_dm->cur_enable_pta);
++		BTC_TRACE(trace_buf);
++
++		if (coex_dm->pre_enable_pta == coex_dm->cur_enable_pta)
++			return;
++	}
++	halbtc8812a2ant_set_enable_pta(btcoexist, enable);
++
++
++	coex_dm->pre_enable_pta = coex_dm->cur_enable_pta;
++}
++
++u32 halbtc8812a2ant_decide_ra_mask(IN struct btc_coexist *btcoexist,
++				   IN u32 ra_mask_type)
++{
++	u32	dis_ra_mask = 0x0;
++
++	switch (ra_mask_type) {
++	case 0: /* normal mode */
++		dis_ra_mask = 0x0;
++		break;
++	case 1: /* disable cck 1/2 */
++		dis_ra_mask = 0x00000003;
++		break;
++	case 2: /* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4			 */
++		dis_ra_mask = 0x0001f1f7;
++		break;
++	default:
++		break;
++	}
++
++	return dis_ra_mask;
++}
++
++void halbtc8812a2ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8812a2ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8812a2ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8812a2ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8812a2ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	u32	dis_ra_mask = 0x0;
++
++	coex_dm->cur_ra_mask_type = ra_mask_type;
++	dis_ra_mask = halbtc8812a2ant_decide_ra_mask(btcoexist, ra_mask_type);
++	halbtc8812a2ant_update_ra_mask(btcoexist, force_exec, dis_ra_mask);
++
++	halbtc8812a2ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8812a2ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8812a2ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++void halbtc8812a2ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8812a2ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		 "[BTCoex], High Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		 reg_hp_txrx, reg_hp_tx, reg_hp_tx, reg_hp_rx, reg_hp_rx);
++	BTC_TRACE(trace_buf);
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		 "[BTCoex], Low Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		 reg_lp_txrx, reg_lp_tx, reg_lp_tx, reg_lp_rx, reg_lp_rx);
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++}
++
++void halbtc8812a2ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8	data_len = 3;
++	u8	buf[5] = {0};
++	/* 8812a watch btifo to check BT enable/disable
++	 *	if(!btcoexist->bt_info.bt_disabled) */
++	{
++		if (!coex_sta->bt_info_query_cnt ||
++		    (coex_sta->bt_info_c2h_cnt[BT_INFO_SRC_8812A_2ANT_BT_RSP]
++		     - coex_sta->bt_info_query_cnt) > 2) {
++			buf[0] = data_len;
++			buf[1] = 0x1;	/* polling enable, 1=enable, 0=disable */
++			buf[2] = 0x2;	/* polling time in seconds */
++			buf[3] = 0x1;	/* auto report enable, 1=enable, 0=disable */
++
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_CTRL_BT_INFO,
++					   (void *)&buf[0]);
++		}
++	}
++	coex_sta->bt_info_query_cnt++;
++}
++
++boolean halbtc8812a2ant_is_wifi_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false;
++	boolean	wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean	wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++	}
++
++	return false;
++}
++
++void halbtc8812a2ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++#if 1/* (BT_AUTO_REPORT_ONLY_8812A_2ANT == 1)	// profile from bt patch */
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++	bt_link_info->acl_busy = coex_sta->acl_busy;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++#else	/* profile from bt stack */
++	bt_link_info->bt_link_exist = stack_info->bt_link_exist;
++	bt_link_info->sco_exist = stack_info->sco_exist;
++	bt_link_info->a2dp_exist = stack_info->a2dp_exist;
++	bt_link_info->pan_exist = stack_info->pan_exist;
++	bt_link_info->hid_exist = stack_info->hid_exist;
++
++	/* for win-8 stack HID report error */
++	if (!stack_info->hid_exist)
++		stack_info->hid_exist =
++			coex_sta->hid_exist;  /* sync  BTInfo with BT firmware and stack */
++	/* when stack HID report error, here we use the info from bt fw. */
++	if (!stack_info->bt_link_exist)
++		stack_info->bt_link_exist = coex_sta->bt_link_exist;
++#endif
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++u8 halbtc8812a2ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	struct  btc_stack_info	*stack_info = &btcoexist->stack_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8812A_2ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 0) {
++		if (bt_link_info->acl_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				 "[BTCoex], ACL Busy only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8812A_2ANT_COEX_ALGO_PANEDR;
++		}
++	} else if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8812A_2ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					 "[BTCoex], HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_2ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					 "[BTCoex], A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_2ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						 "[BTCoex], PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						 "[BTCoex], PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					 "[BTCoex], SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_2ANT_COEX_ALGO_SCO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					 "[BTCoex], SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						 "[BTCoex], SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8812A_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						 "[BTCoex], SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8812A_2ANT_COEX_ALGO_SCO;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (stack_info->num_of_hid >= 2) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						 "[BTCoex], HID*2 + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						 "[BTCoex], HID + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_HID_A2DP;
++				}
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						 "[BTCoex], HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						 "[BTCoex], HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						 "[BTCoex], A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						 "[BTCoex], A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8812A_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_SCO_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_SCO_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8812A_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_HID_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8812A_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8812a2ant_set_fw_dac_swing_level(IN struct btc_coexist *btcoexist,
++		IN u8 dac_swing_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	/* There are several type of dacswing */
++	/* 0x18/ 0x10/ 0xc/ 0x8/ 0x4/ 0x6 */
++	h2c_parameter[0] = dac_swing_lvl;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Set Dac Swing Level=0x%x\n",
++		 dac_swing_lvl);
++	BTC_TRACE(trace_buf);
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], FW write 0x64=0x%x\n",
++		 h2c_parameter[0]);
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x64, 1, h2c_parameter);
++}
++
++void halbtc8812a2ant_set_fw_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				       IN u8 dec_bt_pwr_lvl)
++{
++	u8	data_len = 4;
++	u8	buf[6] = {0};
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		 "[BTCoex], decrease Bt Power level = %d\n",
++		 dec_bt_pwr_lvl);
++	BTC_TRACE(trace_buf);
++
++	buf[0] = data_len;
++	buf[1] = 0x3;		/* OP_Code */
++	buf[2] = 0x2;		/* OP_Code_Length */
++	if (dec_bt_pwr_lvl)
++		buf[3] = 0x1;	/* OP_Code_Content */
++	else
++		buf[3] = 0x0;
++	buf[4] = dec_bt_pwr_lvl;/* pwr_level */
++
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_CTRL_BT_COEX,
++			   (void *)&buf[0]);
++}
++
++void halbtc8812a2ant_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				IN boolean force_exec, IN u8 dec_bt_pwr_lvl)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], %s Dec BT power level = %d\n",
++		 (force_exec ? "force to" : ""), dec_bt_pwr_lvl);
++	BTC_TRACE(trace_buf);
++
++	coex_dm->cur_bt_dec_pwr_lvl = dec_bt_pwr_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_dec_pwr_lvl == coex_dm->cur_bt_dec_pwr_lvl)
++			return;
++	}
++	halbtc8812a2ant_set_fw_dec_bt_pwr(btcoexist,
++					  coex_dm->cur_bt_dec_pwr_lvl);
++
++	coex_dm->pre_bt_dec_pwr_lvl = coex_dm->cur_bt_dec_pwr_lvl;
++}
++
++void halbtc8812a2ant_fw_dac_swing_lvl(IN struct btc_coexist *btcoexist,
++			      IN boolean force_exec, IN u8 fw_dac_swing_lvl)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		 "[BTCoex], %s set FW Dac Swing level = %d\n",
++		 (force_exec ? "force to" : ""), fw_dac_swing_lvl);
++	BTC_TRACE(trace_buf);
++	coex_dm->cur_fw_dac_swing_lvl = fw_dac_swing_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_fw_dac_swing_lvl ==
++		    coex_dm->cur_fw_dac_swing_lvl)
++			return;
++	}
++
++	halbtc8812a2ant_set_fw_dac_swing_level(btcoexist,
++					       coex_dm->cur_fw_dac_swing_lvl);
++
++	coex_dm->pre_fw_dac_swing_lvl = coex_dm->cur_fw_dac_swing_lvl;
++}
++
++void halbtc8812a2ant_set_sw_rf_rx_lpf_corner(IN struct btc_coexist *btcoexist,
++		IN boolean rx_rf_shrink_on)
++{
++	if (rx_rf_shrink_on) {
++		/* Shrink RF Rx LPF corner */
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], Shrink RF Rx LPF corner!!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e, 0xfffff,
++					  0xffffc);
++	} else {
++		/* Resume RF Rx LPF corner */
++		/* After initialized, we can use coex_dm->bt_rf_0x1e_backup */
++		if (btcoexist->initilized) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				 "[BTCoex], Resume RF Rx LPF corner!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++					  0xfffff, coex_dm->bt_rf_0x1e_backup);
++		}
++	}
++}
++
++void halbtc8812a2ant_rf_shrink(IN struct btc_coexist *btcoexist,
++		       IN boolean force_exec, IN boolean rx_rf_shrink_on)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], %s turn Rx RF Shrink = %s\n",
++		 (force_exec ? "force to" : ""),
++		 ((rx_rf_shrink_on) ? "ON" : "OFF"));
++	BTC_TRACE(trace_buf);
++	coex_dm->cur_rf_rx_lpf_shrink = rx_rf_shrink_on;
++
++	if (!force_exec) {
++		if (coex_dm->pre_rf_rx_lpf_shrink ==
++		    coex_dm->cur_rf_rx_lpf_shrink)
++			return;
++	}
++	halbtc8812a2ant_set_sw_rf_rx_lpf_corner(btcoexist,
++						coex_dm->cur_rf_rx_lpf_shrink);
++
++	coex_dm->pre_rf_rx_lpf_shrink = coex_dm->cur_rf_rx_lpf_shrink;
++}
++
++void halbtc8812a2ant_set_sw_penalty_tx_rate_adaptive(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8	tmp_u1;
++
++	tmp_u1 = btcoexist->btc_read_1byte(btcoexist, 0x4fd);
++	tmp_u1 |= BIT(0);
++	if (low_penalty_ra) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], Tx rate adaptive, set low penalty!!\n");
++		BTC_TRACE(trace_buf);
++		tmp_u1 &= ~BIT(2);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], Tx rate adaptive, set normal!!\n");
++		BTC_TRACE(trace_buf);
++		tmp_u1 |= BIT(2);
++	}
++
++	btcoexist->btc_write_1byte(btcoexist, 0x4fd, tmp_u1);
++}
++
++void halbtc8812a2ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	return;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], %s turn LowPenaltyRA = %s\n",
++		 (force_exec ? "force to" : ""),
++		 ((low_penalty_ra) ? "ON" : "OFF"));
++	BTC_TRACE(trace_buf);
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8812a2ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8812a2ant_set_dac_swing_reg(IN struct btc_coexist *btcoexist,
++				       IN u32 level)
++{
++	u8	val = (u8)level;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Write SwDacSwing = 0x%x\n",
++		 level);
++	BTC_TRACE(trace_buf);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xc5b, 0x3e, val);
++}
++
++void halbtc8812a2ant_set_sw_full_time_dac_swing(IN struct btc_coexist
++		*btcoexist, IN boolean sw_dac_swing_on, IN u32 sw_dac_swing_lvl)
++{
++	if (sw_dac_swing_on)
++		halbtc8812a2ant_set_dac_swing_reg(btcoexist, sw_dac_swing_lvl);
++	else
++		halbtc8812a2ant_set_dac_swing_reg(btcoexist, 0x18);
++}
++
++
++void halbtc8812a2ant_dac_swing(IN struct btc_coexist *btcoexist,
++	IN boolean force_exec, IN boolean dac_swing_on, IN u32 dac_swing_lvl)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		 "[BTCoex], %s turn DacSwing=%s, dac_swing_lvl=0x%x\n",
++		(force_exec ? "force to" : ""), ((dac_swing_on) ? "ON" : "OFF"),
++		 dac_swing_lvl);
++	BTC_TRACE(trace_buf);
++	coex_dm->cur_dac_swing_on = dac_swing_on;
++	coex_dm->cur_dac_swing_lvl = dac_swing_lvl;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_dac_swing_on == coex_dm->cur_dac_swing_on) &&
++		    (coex_dm->pre_dac_swing_lvl ==
++		     coex_dm->cur_dac_swing_lvl))
++			return;
++	}
++	delay_ms(30);
++	halbtc8812a2ant_set_sw_full_time_dac_swing(btcoexist, dac_swing_on,
++			dac_swing_lvl);
++
++	coex_dm->pre_dac_swing_on = coex_dm->cur_dac_swing_on;
++	coex_dm->pre_dac_swing_lvl = coex_dm->cur_dac_swing_lvl;
++}
++
++void halbtc8812a2ant_set_adc_back_off(IN struct btc_coexist *btcoexist,
++				      IN boolean adc_back_off)
++{
++	if (adc_back_off) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], BB BackOff Level On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x8db, 0x60, 0x3);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], BB BackOff Level Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x8db, 0x60, 0x1);
++	}
++}
++
++void halbtc8812a2ant_adc_back_off(IN struct btc_coexist *btcoexist,
++			  IN boolean force_exec, IN boolean adc_back_off)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], %s turn AdcBackOff = %s\n",
++		 (force_exec ? "force to" : ""),
++		 ((adc_back_off) ? "ON" : "OFF"));
++	BTC_TRACE(trace_buf);
++
++	coex_dm->cur_adc_back_off = adc_back_off;
++
++	if (!force_exec) {
++		if (coex_dm->pre_adc_back_off == coex_dm->cur_adc_back_off)
++			return;
++	}
++	halbtc8812a2ant_set_adc_back_off(btcoexist, coex_dm->cur_adc_back_off);
++
++	coex_dm->pre_adc_back_off = coex_dm->cur_adc_back_off;
++}
++
++void halbtc8812a2ant_set_agc_table(IN struct btc_coexist *btcoexist,
++				   IN boolean agc_table_en)
++{
++	u8		rssi_adjust_val = 0;
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xef, 0xfffff, 0x02000);
++	if (agc_table_en) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Agc Table On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x28F4B);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x10AB2);
++		rssi_adjust_val = 8;
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Agc Table Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x2884B);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x104B2);
++	}
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xef, 0xfffff, 0x0);
++
++	/* set rssi_adjust_val for wifi module. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RSSI_ADJ_VAL_FOR_AGC_TABLE_ON,
++			   &rssi_adjust_val);
++}
++
++void halbtc8812a2ant_agc_table(IN struct btc_coexist *btcoexist,
++			       IN boolean force_exec, IN boolean agc_table_en)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], %s %s Agc Table\n",
++		 (force_exec ? "force to" : ""),
++		 ((agc_table_en) ? "Enable" : "Disable"));
++	BTC_TRACE(trace_buf);
++	coex_dm->cur_agc_table_en = agc_table_en;
++
++	if (!force_exec) {
++		if (coex_dm->pre_agc_table_en == coex_dm->cur_agc_table_en)
++			return;
++	}
++	halbtc8812a2ant_set_agc_table(btcoexist, agc_table_en);
++
++	coex_dm->pre_agc_table_en = coex_dm->cur_agc_table_en;
++}
++
++void halbtc8812a2ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		 "[BTCoex], set coex table, set 0x6c0=0x%x\n", val0x6c0);
++	BTC_TRACE(trace_buf);
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		 "[BTCoex], set coex table, set 0x6c4=0x%x\n", val0x6c4);
++	BTC_TRACE(trace_buf);
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		 "[BTCoex], set coex table, set 0x6c8=0x%x\n", val0x6c8);
++	BTC_TRACE(trace_buf);
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		 "[BTCoex], set coex table, set 0x6cc=0x%x\n", val0x6cc);
++	BTC_TRACE(trace_buf);
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8812a2ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], %s write Coex Table 0x6c0=0x%x, 0x6c4=0x%x, 0x6c8=0x%x, 0x6cc=0x%x\n",
++		 (force_exec ? "force to" : ""), val0x6c0, val0x6c4, val0x6c8,
++		 val0x6cc);
++	BTC_TRACE(trace_buf);
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8812a2ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8812a2ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	switch (type) {
++	case 0:
++		halbtc8812a2ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 1:
++		halbtc8812a2ant_coex_table(btcoexist, force_exec,
++				   0x5a5a5a5a, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 2:
++		halbtc8812a2ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5ffb5ffb, 0xffffff, 0x3);
++		break;
++	case 3:
++		halbtc8812a2ant_coex_table(btcoexist, force_exec,
++				   0x5fdf5fdf, 0x5fdb5fdb, 0xffffff, 0x3);
++		break;
++	case 4:
++		halbtc8812a2ant_coex_table(btcoexist, force_exec,
++				   0xdfffdfff, 0x5fdb5fdb, 0xffffff, 0x3);
++		break;
++	case 5:
++		halbtc8812a2ant_coex_table(btcoexist, force_exec,
++				   0x5ddd5ddd, 0x5fdb5fdb, 0xffffff, 0x3);
++		break;
++	case 6:
++		halbtc8812a2ant_coex_table(btcoexist, force_exec,
++				   0x5fff5fff, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 7:
++		if (coex_sta->scan_ap_num <= 5)
++			halbtc8812a2ant_coex_table(btcoexist,
++					   force_exec, 0xffffffff, 0xfafafafa,
++						   0xffffff, 0x3);
++		else
++			halbtc8812a2ant_coex_table(btcoexist,
++					   force_exec, 0xffffffff, 0x5a5a5a5a,
++						   0xffffff, 0x3);
++		break;
++	case 8:
++		halbtc8812a2ant_coex_table(btcoexist, force_exec,
++				   0x5f5f5f5f, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++
++	default:
++		break;
++	}
++}
++
++void halbtc8812a2ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8	data_len = 3;
++	u8	buf[5] = {0};
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], %s BT Ignore Wlan_Act\n",
++		 (enable ? "Enable" : "Disable"));
++	BTC_TRACE(trace_buf);
++
++	buf[0] = data_len;
++	buf[1] = 0x1;			/* OP_Code */
++	buf[2] = 0x1;			/* OP_Code_Length */
++	if (enable)
++		buf[3] = 0x1;		/* OP_Code_Content */
++	else
++		buf[3] = 0x0;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_CTRL_BT_COEX,
++			   (void *)&buf[0]);
++}
++
++void halbtc8812a2ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], %s turn Ignore WlanAct %s\n",
++		 (force_exec ? "force to" : ""), (enable ? "ON" : "OFF"));
++	BTC_TRACE(trace_buf);
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8812a2ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8812a2ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				 "[BTCoex], FW for 1Ant AP mode\n");
++			BTC_TRACE(trace_buf);
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++		}
++	}
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], PS-TDMA H2C cmd =0x%x%08x\n",
++		 h2c_parameter[0],
++		 h2c_parameter[1] << 24 | h2c_parameter[2] << 16 |
++		 h2c_parameter[3] << 8 | h2c_parameter[4]);
++
++	BTC_TRACE(trace_buf);
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++void halbtc8812a2ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8812a2ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8812a2ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8812a2ant_sw_mechanism1(IN struct btc_coexist *btcoexist,
++			   IN boolean shrink_rx_lpf, IN boolean low_penalty_ra,
++			   IN boolean limited_dig, IN boolean bt_lna_constrain)
++{
++	/*
++	u32	wifi_bw;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if(BTC_WIFI_BW_HT40 != wifi_bw)
++	{
++		if (shrink_rx_lpf)
++			shrink_rx_lpf = false;
++	}
++	*/
++
++	halbtc8812a2ant_rf_shrink(btcoexist, NORMAL_EXEC, shrink_rx_lpf);
++	/* halbtc8812a2ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra); */
++}
++
++void halbtc8812a2ant_sw_mechanism2(IN struct btc_coexist *btcoexist,
++			   IN boolean agc_table_shift, IN boolean adc_back_off,
++			   IN boolean sw_dac_swing, IN u32 dac_swing_lvl)
++{
++	/* halbtc8812a2ant_agc_table(btcoexist, NORMAL_EXEC, agc_table_shift); */
++	halbtc8812a2ant_adc_back_off(btcoexist, NORMAL_EXEC, adc_back_off);
++	halbtc8812a2ant_dac_swing(btcoexist, NORMAL_EXEC, sw_dac_swing,
++				  dac_swing_lvl);
++}
++
++void halbtc8812a2ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean init_hwcfg, IN boolean wifi_off)
++{
++	u8			u8tmp = 0;
++
++	if (init_hwcfg) {
++		btcoexist->btc_write_4byte(btcoexist, 0x900, 0x00000400);
++		btcoexist->btc_write_1byte(btcoexist, 0x76d, 0x1);
++	} else if (wifi_off) {
++
++	}
++
++	/* ext switch setting */
++	switch (ant_pos_type) {
++	case BTC_ANT_WIFI_AT_CPL_MAIN:
++		u8tmp = btcoexist->btc_read_1byte(btcoexist, 0xcb7);
++		u8tmp &= ~BIT(2);
++		u8tmp |= BIT(3);
++		btcoexist->btc_write_1byte(btcoexist, 0xcb7, u8tmp);
++		break;
++	case BTC_ANT_WIFI_AT_CPL_AUX:
++		u8tmp = btcoexist->btc_read_1byte(btcoexist, 0xcb7);
++		u8tmp &= ~BIT(3);
++		u8tmp |= BIT(2);
++		btcoexist->btc_write_1byte(btcoexist, 0xcb7, u8tmp);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8812a2ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	s8			wifi_duration_adjust = 0x0;
++	
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	if (!force_exec) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], pre_ps_tdma_on = %d, cur_ps_tdma_on = %d!!\n",
++			 coex_dm->pre_ps_tdma_on, coex_dm->cur_ps_tdma_on);
++		BTC_TRACE(trace_buf);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], pre_ps_tdma = %d, cur_ps_tdma = %d!!\n",
++			 coex_dm->pre_ps_tdma, coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++
++	if (coex_sta->scan_ap_num >= 40)
++		wifi_duration_adjust = -15;
++	else if (coex_sta->scan_ap_num >= 20)
++		wifi_duration_adjust = -10;
++
++	/*
++		if (!coex_sta->force_lps_on)
++		{
++			ps_tdma_byte0_val = 0x61;
++			ps_tdma_byte3_val = 0x11;
++			ps_tdma_byte4_val = 0x10;
++		}
++
++
++		if (  (type == 3) || (type == 13) || (type == 14) )
++		{
++			ps_tdma_byte4_val = ps_tdma_byte4_val & 0xbf;
++
++			if (!wifi_busy)
++			 ps_tdma_byte4_val = ps_tdma_byte4_val | 0x1;
++		}
++
++		if (bt_link_info->slave_role == true)
++			ps_tdma_byte4_val = ps_tdma_byte4_val | 0x1;
++
++	*/
++	if (turn_on) {
++		switch (type) {
++		case 1:
++		default:	/* d1,wb */
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x03, 0x11, 0x10);
++			break;
++		case 2:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x32, 0x03, 0x11, 0x10);
++			break;
++		case 3:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x28, 0x03, 0x11, 0x10);
++			break;
++		case 4:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1e, 0x03, 0x11, 0x10);
++			break;
++		case 5:		/* d1,pb,TXpause */
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x63,
++						      0x3c, 0x03, 0x90, 0x10);
++			break;
++		case 6:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x63,
++						      0x32, 0x03, 0x90, 0x10);
++			break;
++		case 7:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x63,
++						      0x28, 0x03, 0x90, 0x10);
++			break;
++		case 8:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x63,
++						      0x1e, 0x03, 0x90, 0x10);
++			break;
++		case 9:		/* d1,bb */
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x03, 0x31, 0x10);
++			break;
++		case 10:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x32, 0x03, 0x31, 0x10);
++			break;
++		case 11:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x28, 0x03, 0x31, 0x10);
++			break;
++		case 12:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1e, 0x03, 0x31, 0x10);
++			break;
++		case 13:	/* d1,bb,TXpause */
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x03, 0x30, 0x10);
++			break;
++		case 14:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x32, 0x03, 0x30, 0x10);
++			break;
++		case 15:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x28, 0x03, 0x30, 0x10);
++			break;
++		case 16:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1e, 0x03, 0x30, 0x10);
++			break;
++		case 17:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x35, 0x3, 0x11, 0x11);
++			break;
++		case 18:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x5, 0x5, 0xe1, 0x90);
++			break;
++		case 19:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x25, 0xe1, 0x90);
++			break;
++		case 20:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x25, 0x60, 0x90);
++			break;
++		case 21:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x15, 0x3, 0x70, 0x90);
++			break;
++		case 22:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x1a, 0x1a, 0x21, 0x10);
++			break;
++		case 23:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x03, 0x31, 0x10);
++			break;
++
++		case 71:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1a, 0x1a, 0xe1, 0x90);
++			break;
++
++		/* following cases is for wifi rssi low, started from 81 */
++		case 80:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x53,
++						      0x3c, 0x3, 0x90, 0x50);
++			break;
++		case 81:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x53,
++				      0x3a + wifi_duration_adjust, 0x3, 0x90,
++						      0x50);
++			break;
++		case 82:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x53,
++				      0x30 + wifi_duration_adjust, 0x03, 0x90,
++						      0x50);
++			break;
++		case 83:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x53,
++						      0x21, 0x03, 0x90, 0x50);
++			break;
++		case 84:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x53,
++						      0x15, 0x3, 0x90, 0x50);
++			break;
++		case 85:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x53,
++						      0x1d, 0x1d, 0x80, 0x50);
++			break;
++		case 86:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x53,
++						      0x15, 0x15, 0x80, 0x50);
++			break;
++		}
++	} else {
++		/* disable PS tdma */
++		switch (type) {
++		case 0: /* ANT2PTA, 0x778=0x1 */
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x8,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 1: /* ANT2BT, 0x778=3 */
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x8, 0x0);
++			delay_ms(5);
++			halbtc8812a2ant_set_ant_path(btcoexist,
++				     BTC_ANT_WIFI_AT_CPL_AUX, false, false);
++			break;
++		case 2: /* ANT2BT, 0x778=3 */
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x8, 0x0);
++			delay_ms(5);
++			halbtc8812a2ant_set_ant_path(btcoexist,
++				     BTC_ANT_WIFI_AT_CPL_MAIN, false, false);
++			break;
++		default:
++			halbtc8812a2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++
++void halbtc8812a2ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++
++void halbtc8812a2ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++	boolean	ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		ps_type = BTC_PS_WIFI_NATIVE;
++		lps_val = 0x0;
++		rpwm_val = 0x0;
++	}
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8812a2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8812a2ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma. */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		coex_sta->force_lps_on = true;
++		break;
++	case BTC_PS_LPS_OFF:
++		halbtc8812a2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8812a2ant_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++	/* fw all off */
++	halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8812a2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8812a2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	/* hw all off */
++	halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8812a2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++	halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++	halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 1);
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 6);
++	halbtc8812a2ant_dec_bt_pwr(btcoexist, FORCE_EXEC, 0);
++
++	halbtc8812a2ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	halbtc8812a2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8812a2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8812a2ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_stack_info	*stack_info = &btcoexist->stack_info;
++	static u32	bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++
++	/* This function check if bt is disabled */
++
++	/* only 8812a need to consider if core stack is installed. */
++	/*if (!stack_info->hci_version)*/
++	/*bt_active = false;*/
++
++	bt_disabled = btcoexist->bt_info.bt_disabled;
++
++	if (coex_sta->pre_bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], BT is from %s to %s!!\n",
++			 (coex_sta->pre_bt_disabled ? "disabled" : "enabled"), (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->pre_bt_disabled = bt_disabled;
++
++		if (bt_disabled) {
++			halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 2);
++			halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++		}
++	}
++}
++
++
++void halbtc8812a2ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8812a2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8812a2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++
++boolean halbtc8812a2ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				common = false, wifi_connected = false, wifi_busy = false;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], BT is under inquiry/page scan !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8812a2ant_action_bt_inquiry(btcoexist);
++		return true;
++	}
++
++	if (bt_link_info->sco_exist || bt_link_info->hid_exist)
++		halbtc8812a2ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 0, 0, 0);
++	else
++		halbtc8812a2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++	if (!wifi_connected) {
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], Wifi non-connected idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		if ((BT_8812A_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		     coex_dm->bt_status) ||
++		    (BT_8812A_2ANT_BT_STATUS_CONNECTED_IDLE ==
++		     coex_dm->bt_status)) {
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++		} else {
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++		}
++
++		halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8812a2ant_sw_mechanism1(btcoexist, false, false, false,
++					      false);
++		halbtc8812a2ant_sw_mechanism2(btcoexist, false, false, false,
++					      0x18);
++
++		common = true;
++	} else {
++		if (BT_8812A_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC,
++						   false, false, 0x8);
++
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++			halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 6);
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++
++			common = true;
++		} else if (BT_8812A_2ANT_BT_STATUS_CONNECTED_IDLE ==
++			   coex_dm->bt_status) {
++			if (bt_hs_on)
++				return false;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi connected + BT connected-idle!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC,
++						   false, false, 0x8);
++
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++			halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 6);
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++
++			common = true;
++		} else {
++			if (wifi_busy) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++				BTC_TRACE(trace_buf);
++				common = false;
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++				BTC_TRACE(trace_buf);
++
++				halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++
++				halbtc8812a2ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, false, false, 0x8);
++
++				halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++
++				halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 17);
++
++				halbtc8812a2ant_fw_dac_swing_lvl(btcoexist,
++							 NORMAL_EXEC, 6);
++				halbtc8812a2ant_dec_bt_pwr(btcoexist,
++							   NORMAL_EXEC, 0);
++				halbtc8812a2ant_sw_mechanism1(btcoexist, false,
++						      false, false, false);
++				halbtc8812a2ant_sw_mechanism2(btcoexist, false,
++						      false, false, 0x18);
++				common = true;
++			}
++		}
++	}
++
++	return common;
++}
++
++void halbtc8812a2ant_tdma_duration_adjust(IN struct btc_coexist *btcoexist,
++		IN boolean sco_hid, IN boolean tx_pause, IN u8 max_interval)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], TdmaDurationAdjust()\n");
++	BTC_TRACE(trace_buf);
++
++	coex_dm->auto_tdma_adjust_low_rssi = false;
++
++	if (!coex_dm->auto_tdma_adjust) {
++		coex_dm->auto_tdma_adjust = true;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], first run TdmaDurationAdjust()!!\n");
++		BTC_TRACE(trace_buf);
++		{
++			if (sco_hid) {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					} else if (max_interval == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (max_interval == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					} else if (max_interval == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (max_interval == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			} else {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (max_interval == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (max_interval == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (max_interval == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (max_interval == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					}
++				}
++			}
++		}
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/* accquire the BT TRx retry count from BT_Info byte2 */
++		retry_count = coex_sta->bt_retry_cnt;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], retry_count = %d\n",
++			 retry_count);
++		BTC_TRACE(trace_buf);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], up=%d, dn=%d, m=%d, n=%d, wait_count=%d\n",
++			 up, dn, m, n, wait_count);
++		BTC_TRACE(trace_buf);
++
++		result = 0;
++		wait_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if ³sÄò n ­Ó2¬í retry count¬°0, «h½Õ¼eWiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Increase wifi duration!!\n");
++				BTC_TRACE(trace_buf);
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {	/* if ³sÄò 2 ­Ó2¬í retry count< 3, «h½Õ¯¶WiFi duration */
++				if (wait_count <= 2)
++					m++; /* ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^ */
++				else
++					m = 1;
++
++				if (m >= 20)  /* m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration. */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Decrease wifi duration for retry_counter<3!!\n");
++				BTC_TRACE(trace_buf);
++			}
++		} else { /* retry count > 3, ¥u­n1¦¸ retry count > 3, «h½Õ¯¶WiFi duration */
++			if (wait_count == 1)
++				m++; /* ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^ */
++			else
++				m = 1;
++
++			if (m >= 20)  /* m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration. */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Decrease wifi duration for retry_counter>3!!\n");
++			BTC_TRACE(trace_buf);
++		}
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], max Interval = %d\n",
++			 max_interval);
++		BTC_TRACE(trace_buf);
++
++		if (max_interval == 1) {
++			if (tx_pause) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					 "[BTCoex], TxPause = 1\n");
++				BTC_TRACE(trace_buf);
++
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 5);
++					coex_dm->ps_tdma_du_adj_type = 5;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 13);
++					coex_dm->ps_tdma_du_adj_type = 13;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					}
++				}
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					 "[BTCoex], TxPause = 0\n");
++				BTC_TRACE(trace_buf);
++
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 1);
++					coex_dm->ps_tdma_du_adj_type = 1;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 9);
++					coex_dm->ps_tdma_du_adj_type = 9;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					}
++				}
++			}
++		} else if (max_interval == 2) {
++			if (tx_pause) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					 "[BTCoex], TxPause = 1\n");
++				BTC_TRACE(trace_buf);
++
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					}
++				}
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					 "[BTCoex], TxPause = 0\n");
++				BTC_TRACE(trace_buf);
++
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					}
++				}
++			}
++		} else if (max_interval == 3) {
++			if (tx_pause) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					 "[BTCoex], TxPause = 1\n");
++				BTC_TRACE(trace_buf);
++
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				}
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					 "[BTCoex], TxPause = 0\n");
++				BTC_TRACE(trace_buf);
++
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8812a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8812a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			}
++		}
++	}
++
++	/* if current PsTdma not match with the recorded one (when scan, dhcp...), */
++	/* then we have to adjust it back to the previous record one. */
++	if (coex_dm->cur_ps_tdma != coex_dm->ps_tdma_du_adj_type) {
++		boolean	scan = false, link = false, roam = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], PsTdma type dismatch!!!, cur_ps_tdma=%d, recordPsTdma=%d\n",
++			 coex_dm->cur_ps_tdma, coex_dm->ps_tdma_du_adj_type);
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (!scan && !link && !roam)
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						coex_dm->ps_tdma_du_adj_type);
++		else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], roaming/link/scan is under progress, will adjust next time!!!\n");
++			BTC_TRACE(trace_buf);
++		}
++	}
++}
++
++/* ******************
++ * pstdma for wifi rssi low
++ * ****************** */
++void halbtc8812a2ant_tdma_duration_adjust_for_wifi_rssi_low(
++	IN struct btc_coexist *btcoexist/* , */ /* IN u8 wifi_status */)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0, bt_info_ext;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], halbtc8812a2ant_tdma_duration_adjust_for_wifi_rssi_low()\n");
++	BTC_TRACE(trace_buf);
++#if 0
++	if ((BT_8812A_2ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN ==
++	     wifi_status) ||
++	    (BT_8812A_2ANT_WIFI_STATUS_CONNECTED_SCAN == wifi_status) ||
++	    (BT_8812A_2ANT_WIFI_STATUS_CONNECTED_SPECIAL_PKT ==
++	     wifi_status)) {
++		if (coex_dm->cur_ps_tdma != 81 &&
++		    coex_dm->cur_ps_tdma != 82 &&
++		    coex_dm->cur_ps_tdma != 83 &&
++		    coex_dm->cur_ps_tdma != 84) {
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						82);
++			coex_dm->ps_tdma_du_adj_type = 82;
++
++			up = 0;
++			dn = 0;
++			m = 1;
++			n = 3;
++			result = 0;
++			wait_count = 0;
++		}
++		return;
++	}
++#endif
++	coex_dm->auto_tdma_adjust = false;
++
++	retry_count = coex_sta->bt_retry_cnt;
++	bt_info_ext = coex_sta->bt_info_ext;
++
++	if (!coex_dm->auto_tdma_adjust_low_rssi) {
++		coex_dm->auto_tdma_adjust_low_rssi = true;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], first run TdmaDurationAdjustForWifiRssiLow()!!\n");
++		BTC_TRACE(trace_buf);
++
++		if (BT_INFO_8812A_2ANT_A2DP_BASIC_RATE(bt_info_ext)) {
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						83);
++			coex_dm->ps_tdma_du_adj_type = 83;
++		} else {
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 82);
++			coex_dm->ps_tdma_du_adj_type = 82;
++		}
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/* accquire the BT TRx retry count from BT_Info byte2
++		*		retry_count = coex_sta->bt_retry_cnt;
++		*		bt_info_ext = coex_sta->bt_info_ext; */
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], retry_count = %d\n",
++			 retry_count);
++		BTC_TRACE(trace_buf);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], up=%d, dn=%d, m=%d, n=%d, wait_count=%d\n",
++			 up, dn, m, n, wait_count);
++		BTC_TRACE(trace_buf);
++		result = 0;
++		wait_count++;
++
++		if ((coex_sta->low_priority_tx) > 1050 ||
++		    (coex_sta->low_priority_rx) > 1250)
++			retry_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if ³sÄò n ­Ó2¬í retry count¬°0, «h½Õ¼eWiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Increase wifi duration!!\n");
++				BTC_TRACE(trace_buf);
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {	/* if ³sÄò 2 ­Ó2¬í retry count< 3, «h½Õ¯¶WiFi duration */
++				if (wait_count <= 2)
++					m++; /* ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^ */
++				else
++					m = 1;
++
++				if (m >= 20)  /* m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration. */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Decrease wifi duration for retry_counter<3!!\n");
++				BTC_TRACE(trace_buf);
++			}
++		} else { /* retry count > 3, ¥u­n1¦¸ retry count > 3, «h½Õ¯¶WiFi duration */
++			if (wait_count == 1)
++				m++; /* ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^ */
++			else
++				m = 1;
++
++			if (m >= 20)  /* m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration. */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Decrease wifi duration for retry_counter>3!!\n");
++			BTC_TRACE(trace_buf);
++		}
++
++		if (result == -1) {
++			/*
++						if( (BT_INFO_8812A_2ANT_A2DP_BASIC_RATE(bt_info_ext)) &&
++							((coex_dm->cur_ps_tdma == 81) ||(coex_dm->cur_ps_tdma == 82)) )
++						{
++							halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 84);
++							coex_dm->ps_tdma_du_adj_type = 84;
++						}
++			*/
++			if (coex_dm->cur_ps_tdma == 80) {
++				halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 82);
++				coex_dm->ps_tdma_du_adj_type = 82;
++			} else if (coex_dm->cur_ps_tdma == 81) {
++				halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 82);
++				coex_dm->ps_tdma_du_adj_type = 82;
++			} else if (coex_dm->cur_ps_tdma == 82) {
++				halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 83);
++				coex_dm->ps_tdma_du_adj_type = 83;
++			} else if (coex_dm->cur_ps_tdma == 83) {
++				halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 84);
++				coex_dm->ps_tdma_du_adj_type = 84;
++			}
++		} else if (result == 1) {
++			/*
++						if( (BT_INFO_8812A_2ANT_A2DP_BASIC_RATE(bt_info_ext)) &&
++							((coex_dm->cur_ps_tdma == 81) ||(coex_dm->cur_ps_tdma == 82)) )
++						{
++							halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 83);
++							coex_dm->ps_tdma_du_adj_type = 83;
++						}
++			*/
++			if (coex_dm->cur_ps_tdma == 84) {
++				halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 83);
++				coex_dm->ps_tdma_du_adj_type = 83;
++			} else if (coex_dm->cur_ps_tdma == 83) {
++				halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 82);
++				coex_dm->ps_tdma_du_adj_type = 82;
++			} else if (coex_dm->cur_ps_tdma == 82) {
++				halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 81);
++				coex_dm->ps_tdma_du_adj_type = 81;
++			} else if ((coex_dm->cur_ps_tdma == 81) &&
++				   ((coex_sta->scan_ap_num <= 5))) {
++				halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++							true, 81);
++				coex_dm->ps_tdma_du_adj_type = 81;
++			}
++		}
++
++		if (coex_dm->cur_ps_tdma != 80 &&
++		    coex_dm->cur_ps_tdma != 81 &&
++		    coex_dm->cur_ps_tdma != 82 &&
++		    coex_dm->cur_ps_tdma != 83 &&
++		    coex_dm->cur_ps_tdma != 84) {
++			/* recover to previous adjust type */
++			halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						coex_dm->ps_tdma_du_adj_type);
++		}
++	}
++}
++
++void halbtc8812a2ant_get_bt_rssi_threshold(IN struct btc_coexist *btcoexist,
++		IN u8 *pThres0, IN u8 *pThres1)
++{
++	u8 ant_type;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_ANT_TYPE, &ant_type);
++
++
++	switch (ant_type) {
++	case BTC_ANT_TYPE_0:
++		*pThres0 = 100;
++		*pThres1 = 100;
++		break;
++	case BTC_ANT_TYPE_1:
++		*pThres0 = 34;
++		*pThres1 = 42;
++		break;
++	case BTC_ANT_TYPE_2:
++		*pThres0 = 34;
++		*pThres1 = 42;
++		break;
++	case BTC_ANT_TYPE_3:
++		*pThres0 = 34;
++		*pThres1 = 42;
++		break;
++	case BTC_ANT_TYPE_4:
++		*pThres0 = 34;
++		*pThres1 = 42;
++		break;
++	default:
++		break;
++	}
++}
++
++
++
++void halbtc8812a2ant_action_sco(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		bt_thresh0 = 0, bt_thresh1 = 0;
++
++
++	/*	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0, &bt_thresh1); */
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0,
++			bt_thresh1);
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42);
++
++	/* power save state */
++	halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* coex table */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	else
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	/* pstdma */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++	else
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 9);
++
++	/* decrease BT power */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++
++	/* limited Rx */
++	halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x6);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      true, 0x6);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x6);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      true, 0x6);
++		}
++	}
++}
++
++void halbtc8812a2ant_action_sco_hid(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		bt_thresh0 = 0, bt_thresh1 = 0;
++
++	/*	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0, &bt_thresh1); */
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0,
++			bt_thresh1);
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42);
++
++	/* power save state */
++	halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* coex table */
++	halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	/* pstdma */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++	else
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 9);
++
++	/* decrease BT power	 */
++	if (BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++
++	/* limited Rx */
++	halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, true, 0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x6);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x6);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x6);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x6);
++		}
++	}
++}
++
++void halbtc8812a2ant_action_hid(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		anttype = 0;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_ANT_TYPE, &anttype);
++
++
++	/*	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0, &bt_thresh1);
++	 *	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0, bt_thresh1); */
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42);
++
++
++	if (anttype == 0) { /* ANTTYPE = 0   92E 2ant with SPDT */
++		/* power save state & pstdma & coex table */
++		coex_dm->auto_tdma_adjust = false;
++		coex_dm->auto_tdma_adjust_low_rssi = false;
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if (anttype ==
++		1) { /* 92E 2ant with coupler and bad ant. isolation, 92E 3ant with bad ant. isolation */
++		/* power save state & pstdma & coex table */
++		coex_dm->auto_tdma_adjust = false;
++		coex_dm->auto_tdma_adjust_low_rssi = false;
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if (anttype ==
++		2) { /* ANTTYPE = 2, 92E 2ant with coupler and normal/good ant. isolation, 92E 3ant with normal ant. isolation */
++		/* power save state & pstdma & coex table */
++		if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++		    (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		    (coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & shielding room */
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, true, 9);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 3);
++		} else if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++			   (!BTC_RSSI_LOW(bt_rssi_state)) &&
++			(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & noisy enviroment */
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, true, 9);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 3);
++		} else {	/* WIFI RSSI || BT RSSI == low */
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, true, 9);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 3);
++		}
++	} else if (anttype ==
++		   3) {	/* ANTTYPE = 3,  92E 3ant with good ant. isolation */
++		/* power save state & pstdma & coex table */
++		if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++		    (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		    (coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & shielding room */
++			coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++						1);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++
++		} else if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++			   (!BTC_RSSI_LOW(bt_rssi_state)) &&
++			(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & noisy enviroment */
++			coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++						1);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++
++		} else {	/* WIFI RSSI || BT RSSI == low */
++			coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++						1);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++		}
++	} else {	/* ANTTYPE = 4 for test */
++		/* power save state & pstdma & coex table */
++		if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++		    (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		    (coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & shielding room */
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8812a2ant_tdma_duration_adjust_for_wifi_rssi_low(
++				btcoexist);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		} else if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++			   (!BTC_RSSI_LOW(bt_rssi_state)) &&
++			(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & noisy enviroment */
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8812a2ant_tdma_duration_adjust_for_wifi_rssi_low(
++				btcoexist);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		} else {	/* WIFI RSSI || BT RSSI == low */
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8812a2ant_tdma_duration_adjust_for_wifi_rssi_low(
++				btcoexist);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		}
++	}
++
++
++	/* power save state */
++	halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* coex table */
++	halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* pstdma */
++	halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	/* decrease BT power */
++	halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* limited Rx */
++	halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* A2DP only / PAN(EDR) only/ A2DP+PAN(HS) */
++void halbtc8812a2ant_action_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		anttype = 0;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_ANT_TYPE, &anttype);
++
++	/*	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0, &bt_thresh1);
++	 *	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0, bt_thresh1); */
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42);
++
++	/*	anttype = 4; */
++
++	if (anttype == 0) { /* ANTTYPE = 0   92E 2ant with SPDT */
++
++		if ((coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8812A)) {
++			coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++						0);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++		} else {
++			if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++			    (!BTC_RSSI_LOW(bt_rssi_state))) {
++				/* WIFI RSSI = high & BT RSSI = high & shielding room */
++				halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++				halbtc8812a2ant_tdma_duration_adjust_for_wifi_rssi_low(
++					btcoexist);
++				halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++			} else {	/* WIFI RSSI || BT RSSI == low */
++				halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++				halbtc8812a2ant_tdma_duration_adjust_for_wifi_rssi_low(
++					btcoexist);
++				halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++			}
++		}
++
++		/* power save state & pstdma & coex table
++		*
++		if(BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)) && (coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8812A))
++		{
++			halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8812a2ant_tdma_duration_adjust_for_wifi_rssi_low(btcoexist);
++			halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		}
++		else if (BTC_RSSI_HIGH(wifi_rssi_state)&&(!BTC_RSSI_LOW(bt_rssi_state)) && (coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8812A))
++		{
++		coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++			halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++			halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++		}
++		else
++		{
++			halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8812a2ant_tdma_duration_adjust_for_wifi_rssi_low(btcoexist);
++			halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		}
++		*/
++	} else if (anttype ==
++		1) { /* 92E 2ant with coupler and bad ant. isolation, 92E 3ant with bad ant. isolation */
++		/* power save state & pstdma & coex table */
++		if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++		    (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		    (coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & shielding room */
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_tdma_duration_adjust(btcoexist, false,
++					     false, 1);	/* shielding room */
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++		} else if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++			   (!BTC_RSSI_LOW(bt_rssi_state)) &&
++			(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & noisy enviroment */
++			coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++						1);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++		} else {	/* WIFI RSSI || BT RSSI == low */
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8812a2ant_tdma_duration_adjust_for_wifi_rssi_low(
++				btcoexist);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		}
++
++	} else if (anttype ==
++		2) { /* ANTTYPE = 2, 92E 2ant with coupler and normal/good ant. isolation, 92E 3ant with normal ant. isolation */
++		/* power save state & pstdma & coex table */
++		if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++		    (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		    (coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & shielding room */
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_tdma_duration_adjust(btcoexist, false,
++							     false, 1);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 5);
++		} else if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++			   (!BTC_RSSI_LOW(bt_rssi_state)) &&
++			(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & noisy enviroment */
++			coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++						1);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++		} else {	/* WIFI RSSI || BT RSSI == low */
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8812a2ant_tdma_duration_adjust_for_wifi_rssi_low(
++				btcoexist);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		}
++	} else if (anttype ==
++		   3) {	/* ANTTYPE = 3,  92E 3ant with good ant. isolation */
++		/* power save state & pstdma & coex table */
++		if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++		    (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		    (coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & shielding room */
++			coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++						1);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++
++		} else if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++			   (!BTC_RSSI_LOW(bt_rssi_state)) &&
++			(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & noisy enviroment */
++			coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++						1);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++
++		} else {	/* WIFI RSSI || BT RSSI == low */
++			coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++						1);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++		}
++	} else {	/* ANTTYPE = 4 for test */
++		/* power save state & pstdma & coex table */
++		if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++		    (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		    (coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & shielding room */
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8812a2ant_tdma_duration_adjust_for_wifi_rssi_low(
++				btcoexist);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		} else if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++			   (!BTC_RSSI_LOW(bt_rssi_state)) &&
++			(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & noisy enviroment */
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8812a2ant_tdma_duration_adjust_for_wifi_rssi_low(
++				btcoexist);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		} else {	/* WIFI RSSI || BT RSSI == low */
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8812a2ant_tdma_duration_adjust_for_wifi_rssi_low(
++				btcoexist);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		}
++	}
++
++	/* decrease BT power */
++	halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* decrease BT power
++	*
++	if(BTC_RSSI_LOW(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	else if(BTC_RSSI_MEDIUM(bt_rssi_state))
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else if (coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8812A)
++		halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++	*/
++	/* limited Rx */
++	halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8812a2ant_action_a2dp_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		bt_thresh0 = 0, bt_thresh1 = 0;
++
++	/*	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0, &bt_thresh1); */
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0,
++			bt_thresh1);
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42);
++
++	/* power save state */
++	halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* coex table	 */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++
++	/* pstdma	 */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, false, false,
++						     2);
++	else
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, false, true, 2);
++
++	/* decrease BT power */
++	halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	/*
++
++		if(BTC_RSSI_LOW(bt_rssi_state))
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++		else if(BTC_RSSI_MEDIUM(bt_rssi_state))
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++		else
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++	*/
++	/* limited Rx */
++	halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x6);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      true, 0x6);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x6);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      true, 0x6);
++		}
++	}
++}
++
++void halbtc8812a2ant_action_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		bt_thresh0 = 0, bt_thresh1 = 0;
++
++
++
++	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0,
++					      &bt_thresh1);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0,
++			bt_thresh1);
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	/*	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42); */
++
++	/* power save state */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	else
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++
++	/* coex table */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* pstdma */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 1);
++	else
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 85);
++
++	/* decrease BT power */
++	halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* limited Rx */
++	halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* PAN(HS) only */
++void halbtc8812a2ant_action_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42);
++
++	/* power save state */
++	halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* coex table */
++	halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++
++	/* pstdma */
++	halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++
++	/* decrease BT power */
++	halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/*
++
++		if(BTC_RSSI_LOW(bt_rssi_state))
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++		else if(BTC_RSSI_MEDIUM(bt_rssi_state))
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++		else
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++	*/
++	/* limited Rx */
++	halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* PAN(EDR)+A2DP */
++void halbtc8812a2ant_action_pan_edr_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		bt_thresh0 = 0, bt_thresh1 = 0;
++
++	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0,
++					      &bt_thresh1);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0,
++			bt_thresh1);
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	/*	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42); */
++
++	/* power save state */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	else
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++
++	/* coex table */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* pstdma */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&	(!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, false, false,
++						     3);
++	else {
++		coex_dm->auto_tdma_adjust = false;
++		coex_dm->auto_tdma_adjust_low_rssi = false;
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 86);
++	}
++
++	/* decrease BT power */
++	halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* limited Rx */
++	halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++
++void halbtc8812a2ant_action_pan_edr_hid(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		bt_thresh0 = 0, bt_thresh1 = 0;
++
++
++	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0,
++					      &bt_thresh1);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0,
++			bt_thresh1);
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	/*	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42); */
++
++	/* power save state */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	else
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++
++	/* coex table */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	else
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* pstdma */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 10);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 14);
++	else
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 85);
++
++	/* decrease BT power */
++	halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/*
++
++		if(BTC_RSSI_LOW(bt_rssi_state))
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++		else if(BTC_RSSI_MEDIUM(bt_rssi_state))
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++		else
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++	*/
++	/* limited Rx */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++	else
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, true,
++					   0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* HID+A2DP+PAN(EDR) */
++void halbtc8812a2ant_action_hid_a2dp_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		bt_thresh0 = 0, bt_thresh1 = 0;
++
++	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0,
++					      &bt_thresh1);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0,
++			bt_thresh1);
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	/*	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42); */
++
++	/* power save state */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	else
++		halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++
++	/* coex table */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	else
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* pstdma */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, true, false, 3);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, true, true, 3);
++	else {
++		coex_dm->auto_tdma_adjust = false;
++		halbtc8812a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 86);
++	}
++
++	/* decrease BT power */
++	halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	/*
++
++		if(BTC_RSSI_LOW(bt_rssi_state))
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++		else if(BTC_RSSI_MEDIUM(bt_rssi_state))
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++		else
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++	*/
++	/* limited Rx */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++	else
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, true,
++					   0x8);
++
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8812a2ant_action_hid_a2dp_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		bt_thresh0 = 0, bt_thresh1 = 0;
++
++	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0,
++					      &bt_thresh1);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0,
++			bt_thresh1);
++
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	/*	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42); */
++
++	/* power save state */
++	halbtc8812a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* coex table */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	else
++		halbtc8812a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* pstdma */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, true, false, 2);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, true, true, 2);
++	else
++		halbtc8812a2ant_tdma_duration_adjust(btcoexist, true, true, 2);
++
++	/* decrease BT power */
++	halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/*
++
++		if(BTC_RSSI_LOW(bt_rssi_state))
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++		else if(BTC_RSSI_MEDIUM(bt_rssi_state))
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++		else
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++	*/
++	/* limited Rx */
++	if (BTC_RSSI_HIGH(wifi_rssi_state) && (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++	else if (BTC_RSSI_LOW(wifi_rssi_state) &&
++		 (!BTC_RSSI_LOW(bt_rssi_state)))
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++	else
++		halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, true,
++					   0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8812a2ant_action_hid_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state = BTC_RSSI_STATE_HIGH,
++			bt_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32		wifi_bw;
++	u8		anttype = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_ANT_TYPE, &anttype);
++
++
++	/*	halbtc8812a2ant_get_bt_rssi_threshold(btcoexist, &bt_thresh0, &bt_thresh1);
++	 *	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, bt_thresh0, bt_thresh1); */
++
++	wifi_rssi_state = halbtc8812a2ant_wifi_rssi_state(btcoexist, 0, 2, 34,
++			  0);
++	bt_rssi_state = halbtc8812a2ant_bt_rssi_state(3, 34, 42);
++
++	if (anttype == 0) { /* ANTTYPE = 0	92E 2ant with SPDT */
++		/* power save state & pstdma & coex table */
++		if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++		    (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		    (coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8812A)) {
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, true,
++						83);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 8);
++
++		} else if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++			   (!BTC_RSSI_LOW(bt_rssi_state)) &&
++			(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8812A)) {
++			coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++						0);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++		} else {
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, true,
++						83);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 8);
++		}
++	} else if (anttype ==
++		1) { /* 92E 2ant with coupler and bad ant. isolation, 92E 3ant with bad ant. isolation */
++		/* power save state & pstdma & coex table */
++		if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++		    (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		    (coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8812A)) {
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_tdma_duration_adjust(btcoexist, true,
++							     true, 2);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 8);
++		} else if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++			   (!BTC_RSSI_LOW(bt_rssi_state)) &&
++			(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8812A)) {
++			coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++						0);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++		} else {
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, true,
++						83);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 8);
++		}
++	} else if (anttype ==
++		2) { /* ANTTYPE = 2, 92E 2ant with coupler and normal/good ant. isolation, 92E 3ant with normal ant. isolation */
++		/* power save state & pstdma & coex table */
++		if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++		    (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		    (coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & shielding room */
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_tdma_duration_adjust(btcoexist, true,
++							     true, 2);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 8);
++		} else if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++			   (!BTC_RSSI_LOW(bt_rssi_state)) &&
++			(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & noisy enviroment */
++			coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++						0);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 8);
++		} else {	/* WIFI RSSI || BT RSSI == low */
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, true,
++						83);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 8);
++		}
++	} else if (anttype ==
++		   3) {	/* ANTTYPE = 3,  92E 3ant with good ant. isolation */
++		/* power save state & pstdma & coex table */
++		if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++		    (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		    (coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & shielding room */
++			coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++						1);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++
++		} else if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++			   (!BTC_RSSI_LOW(bt_rssi_state)) &&
++			(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & noisy enviroment */
++			coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++						1);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++
++		} else {	/* WIFI RSSI || BT RSSI == low */
++			coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8812a2ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++						1);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++		}
++	} else {	/* ANTTYPE = 4 for test */
++		/* power save state & pstdma & coex table */
++		if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++		    (!BTC_RSSI_LOW(bt_rssi_state)) &&
++		    (coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & shielding room */
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8812a2ant_tdma_duration_adjust_for_wifi_rssi_low(
++				btcoexist);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		} else if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++			   (!BTC_RSSI_LOW(bt_rssi_state)) &&
++			(coex_sta->scan_ap_num > NOISY_AP_NUM_THRESH_8812A)) {
++			/* WIFI RSSI = high & BT RSSI = high & noisy enviroment */
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8812a2ant_tdma_duration_adjust_for_wifi_rssi_low(
++				btcoexist);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		} else {	/* WIFI RSSI || BT RSSI == low */
++			halbtc8812a2ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++			halbtc8812a2ant_tdma_duration_adjust_for_wifi_rssi_low(
++				btcoexist);
++			halbtc8812a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		}
++	}
++
++	/* decrease BT power */
++	halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/*
++
++		if(BTC_RSSI_LOW(bt_rssi_state))
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++		else if(BTC_RSSI_MEDIUM(bt_rssi_state))
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	        else if (coex_sta->scan_ap_num < NOISY_AP_NUM_THRESH_8812A)
++			halbtc8812a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 4);
++	*/
++	/* limited Rx */
++	halbtc8812a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	/* fw dac swing level */
++	halbtc8812a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if (BTC_RSSI_HIGH(wifi_rssi_state)) {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8812a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8812a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8812a2ant_coex_under_5g(IN struct btc_coexist *btcoexist)
++{
++	halbtc8812a2ant_coex_all_off(btcoexist);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		 "[BTCoex], Under 5G, force set BT to ignore Wlan active!!\n");
++	BTC_TRACE(trace_buf);
++	halbtc8812a2ant_ignore_wlan_act(btcoexist, NORMAL_EXEC, true);
++}
++/* **************************************************** */
++void halbtc8812a2ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	boolean				wifi_under_5g = false;
++	u8				algorithm = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), run 5G coex setting!!<===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8812a2ant_coex_under_5g(btcoexist);
++		return;
++	}
++
++
++	algorithm = halbtc8812a2ant_action_algorithm(btcoexist);
++	if (coex_sta->c2h_bt_inquiry_page &&
++	    (BT_8812A_2ANT_COEX_ALGO_PANHS != algorithm)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], BT is under inquiry/page scan !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8812a2ant_action_bt_inquiry(btcoexist);
++		return;
++	}
++
++	coex_dm->cur_algorithm = algorithm;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Algorithm = %d\n",
++		 coex_dm->cur_algorithm);
++	BTC_TRACE(trace_buf);
++
++	if (halbtc8812a2ant_is_common_action(btcoexist)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], Action 2-Ant common.\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->auto_tdma_adjust = false;
++		coex_dm->auto_tdma_adjust_low_rssi = false;
++	} else {
++		if (coex_dm->cur_algorithm != coex_dm->pre_algorithm) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], pre_algorithm=%d, cur_algorithm=%d\n",
++				coex_dm->pre_algorithm, coex_dm->cur_algorithm);
++			BTC_TRACE(trace_buf);
++			coex_dm->auto_tdma_adjust = false;
++			coex_dm->auto_tdma_adjust_low_rssi = false;
++		}
++		switch (coex_dm->cur_algorithm) {
++		case BT_8812A_2ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				 "[BTCoex], Action 2-Ant, algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_sco(btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_SCO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = SCO+HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_sco_hid(btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				 "[BTCoex], Action 2-Ant, algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_hid(btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				 "[BTCoex], Action 2-Ant, algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_a2dp(btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_a2dp_pan_hs(btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_pan_edr(btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_pan_hs(btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_pan_edr_a2dp(btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_pan_edr_hid(btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_hid_a2dp_pan_edr(
++				btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_HID_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_hid_a2dp_pan_hs(
++				btcoexist);
++			break;
++		case BT_8812A_2ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_action_hid_a2dp(btcoexist);
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8812a2ant_coex_all_off(btcoexist);
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++
++}
++
++void halbtc8812a2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up)
++{
++	u8	u8tmp = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], 2Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	if (back_up) {
++		/* backup rf 0x1e value */
++		coex_dm->bt_rf_0x1e_backup =
++			btcoexist->btc_get_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++						  0xfffff);
++
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	}
++
++	/* ant sw control to BT */
++	halbtc8812a2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_CPL_AUX, true,
++				     false);
++
++	/* 0x790[5:0]=0x5 */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x790);
++	u8tmp &= 0xc0;
++	u8tmp |= 0x5;
++	btcoexist->btc_write_1byte(btcoexist, 0x790, u8tmp);
++
++	/* PTA parameter */
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, 0x0);
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, 0xffff);
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, 0x55555555);
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, 0x55555555);
++
++	/* coex parameters */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++
++	/* enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++	/* disable PTA to avoid BT insn't on */
++	btcoexist->btc_write_1byte(btcoexist, 0x40, 0x00);
++
++	/* bt clock related */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x4);
++	u8tmp |= BIT(7);
++	btcoexist->btc_write_1byte(btcoexist, 0x4, u8tmp);
++
++	/* bt clock related */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x7);
++	u8tmp |= BIT(1);
++	btcoexist->btc_write_1byte(btcoexist, 0x7, u8tmp);
++}
++
++/* ************************************************************
++ * work around function start with wa_halbtc8812a2ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8812a2ant_
++ * ************************************************************ */
++void ex_halbtc8812a2ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8812a2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8812a2ant_init_hw_config(btcoexist, true);
++}
++
++void ex_halbtc8812a2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8812a2ant_init_coex_dm(btcoexist);
++}
++
++
++void ex_halbtc8812a2ant_pta_off_on_notify(IN struct btc_coexist *btcoexist,
++		IN u8 bt_status)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], BToff/on notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_BT_OFF == bt_status) {
++		/* PTA off */
++		btcoexist->bt_info.bt_disabled = true;
++		halbtc8812a2ant_enable_pta(btcoexist, FORCE_EXEC, false);
++
++	} else {
++		/* PTA on */
++		btcoexist->bt_info.bt_disabled = false;
++		halbtc8812a2ant_enable_pta(btcoexist, FORCE_EXEC, true);
++	}
++
++}
++
++
++void ex_halbtc8812a2ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_stack_info		*stack_info = &btcoexist->stack_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fw_ver = 0, bt_patch_ver = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "Ant PG number/ Ant mechanism:",
++		   board_info->pg_ant_num, board_info->btdm_ant_num);
++	CL_PRINTF(cli_buf);
++
++#if 0
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "Antenna type:",
++		   board_info->ant_type);
++	CL_PRINTF(cli_buf);
++#endif
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %d",
++		   "BT stack/ hci ext ver",
++		   ((stack_info->profile_notified) ? "Yes" : "No"),
++		   stack_info->hci_version);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%d/ 0x%x/ 0x%x(%d)",
++		   "CoexVer/ FwVer/ PatchVer",
++		   glcoex_ver_date_8812a_2ant, glcoex_ver_8812a_2ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt]",
++		   ((btcoexist->bt_info.bt_disabled) ? ("disabled") :	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8812A_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8812A_2ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi, coex_sta->bt_retry_cnt);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist);
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_BT_LINK_INFO);
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Info A2DP rate",
++		   (bt_info_ext & BIT(0)) ? "Basic rate" : "EDR rate");
++	CL_PRINTF(cli_buf);
++
++	for (i = 0; i < BT_INFO_SRC_8812A_2ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8812a_2ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	/* Sw mechanism	 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Sw mechanism]============");
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d ",
++		   "SM1[ShRf/ LpRA/ LimDig]",
++		   coex_dm->cur_rf_rx_lpf_shrink, coex_dm->cur_low_penalty_ra,
++		   coex_dm->limited_dig);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d(0x%x) ",
++		   "SM2[AgcT/ AdcB/ SwDacSwing(lvl)]",
++		   coex_dm->cur_agc_table_en, coex_dm->cur_adc_back_off,
++		   coex_dm->cur_dac_swing_on, coex_dm->cur_dac_swing_lvl);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x ", "Rate Mask",
++		   btcoexist->bt_info.ra_mask);
++	CL_PRINTF(cli_buf);
++
++	/* Fw mechanism		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Fw mechanism]============");
++	CL_PRINTF(cli_buf);
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (auto:%d/%d)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   coex_dm->auto_tdma_adjust,
++		   coex_dm->auto_tdma_adjust_low_rssi);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "DecBtPwr/ IgnWlanAct",
++		   coex_dm->cur_bt_dec_pwr_lvl, coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x",
++		   "RF-A, 0x1e initVal",
++		   coex_dm->bt_rf_0x1e_backup);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "backup ARFR1/ARFR2/RL/AMaxTime",
++		   coex_dm->backup_arfr_cnt1, coex_dm->backup_arfr_cnt2,
++		   coex_dm->backup_retry_limit,
++		   coex_dm->backup_ampdu_max_time);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x ",
++		   "0x778 (W_Act)/ 0x6cc (CoTab Sel)",
++		   u8tmp[0], u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x8db);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xc5b);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x8db(ADC)/0xc5b[29:25](DAC)",
++		   ((u8tmp[0] & 0x60) >> 5), ((u8tmp[1] & 0x3e) >> 1));
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xcb3);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xcb7);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0xcb3/ 0xcb7",
++		   u8tmp[0], u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x974);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x40/ 0x4c[24:23]/ 0x974",
++		   u8tmp[0], ((u32tmp[0] & 0x01800000) >> 23), u32tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa0a);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0xc50(DIG)/0xa0a(CCK-TH)",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xf48);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5b);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0xf48/ 0xa5b (FA cnt-- OFDM : CCK)",
++		   u32tmp[0], (u8tmp[0] << 8) + u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8/0x6cc(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++#if (BT_AUTO_REPORT_ONLY_8812A_2ANT == 1)
++	halbtc8812a2ant_monitor_bt_ctr(btcoexist);
++#endif
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8812a2ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	boolean	wifi_under_5g = false;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->under_ips = true;
++		halbtc8812a2ant_coex_all_off(btcoexist);
++		halbtc8812a2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_CPL_AUX,
++					     false, true);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], IPS notify, force set BT to ignore Wlan active!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8812a2ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++		ex_halbtc8812a2ant_media_status_notify(btcoexist,
++						       BTC_MEDIA_DISCONNECT);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->under_ips = false;
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G,
++				   &wifi_under_5g);
++		if (!wifi_under_5g) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], IPS notify, force set BT NOT to ignore Wlan active!!\n");
++			BTC_TRACE(trace_buf);
++
++			halbtc8812a2ant_ignore_wlan_act(btcoexist, FORCE_EXEC,
++							false);
++		}
++	}
++}
++
++void ex_halbtc8812a2ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->under_lps = true;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->under_lps = false;
++	}
++}
++
++void ex_halbtc8812a2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	if (BTC_SCAN_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++	} else if (BTC_SCAN_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);
++	}
++}
++
++void ex_halbtc8812a2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	if (BTC_ASSOCIATE_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++	} else if (BTC_ASSOCIATE_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8812a2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			data_len = 5;
++	u8			buf[6] = {0};
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    btcoexist->bt_info.bt_disabled)
++		return;
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] = 0x1;
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	buf[0] = data_len;
++	buf[1] = 0x5;				/* OP_Code */
++	buf[2] = 0x3;				/* OP_Code_Length */
++	buf[3] = h2c_parameter[0];	/* OP_Code_Content */
++	buf[4] = h2c_parameter[1];
++	buf[5] = h2c_parameter[2];
++
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_CTRL_BT_COEX,
++			   (void *)&buf[0]);
++}
++
++void ex_halbtc8812a2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	if (type == BTC_PACKET_DHCP) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], DHCP Packet notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8812a2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8			bt_info = 0;
++	u8			i, rsp_source = 0;
++	boolean			bt_busy = false, limited_dig = false;
++	boolean			wifi_connected = false, wifi_under_5g = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8812A_2ANT_MAX)
++		rsp_source = BT_INFO_SRC_8812A_2ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		 "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		 length);
++	BTC_TRACE(trace_buf);
++
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n", tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ", tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (BT_INFO_SRC_8812A_2ANT_WIFI_FW != rsp_source) {
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		coex_sta->bt_rssi =
++			coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++		if ((coex_sta->bt_info_ext & BIT(1))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++					   &wifi_connected);
++			if (wifi_connected)
++				ex_halbtc8812a2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_CONNECT);
++			else
++				ex_halbtc8812a2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_DISCONNECT);
++		}
++
++		if ((coex_sta->bt_info_ext & BIT(3)) && !wifi_under_5g) {
++			/* BT already ignored WlanAct */
++			if (!btcoexist->manual_control &&
++			    !btcoexist->stop_coex_dm) {
++				if (!coex_sta->under_ips) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++					BTC_TRACE(trace_buf);
++					halbtc8812a2ant_ignore_wlan_act(
++						btcoexist, FORCE_EXEC, false);
++				}
++			}
++		} else {
++			/* BT already NOT ignore Wlan active, do nothing here. */
++
++			if (coex_sta->under_ips) {
++				/* work around for 8812a combo hw bug => when IPS, wlanAct is always high. */
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], wifi is under IPS, set BT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8812a2ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, true);
++			}
++		}
++	}
++
++	/* check BIT2 first ==> check if bt is under inquiry or page scan */
++	if (bt_info & BT_INFO_8812A_2ANT_B_INQ_PAGE)
++		coex_sta->c2h_bt_inquiry_page = true;
++	else
++		coex_sta->c2h_bt_inquiry_page = false;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8812A_2ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++		coex_sta->acl_busy = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8812A_2ANT_B_FTP)
++			coex_sta->pan_exist = true;
++		else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8812A_2ANT_B_A2DP)
++			coex_sta->a2dp_exist = true;
++		else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8812A_2ANT_B_HID)
++			coex_sta->hid_exist = true;
++		else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8812A_2ANT_B_SCO_ESCO)
++			coex_sta->sco_exist = true;
++		else
++			coex_sta->sco_exist = false;
++		if (bt_info & BT_INFO_8812A_2ANT_B_ACL_BUSY)
++			coex_sta->acl_busy = true;
++		else
++			coex_sta->acl_busy = false;
++
++	}
++
++	halbtc8812a2ant_update_bt_link_info(btcoexist);
++
++	if (!(bt_info & BT_INFO_8812A_2ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8812A_2ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8812A_2ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8812A_2ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8812A_2ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8812A_2ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8812A_2ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8812A_2ANT_B_ACL_BUSY) {
++		coex_dm->bt_status = BT_8812A_2ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8812A_2ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8812A_2ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8812A_2ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8812A_2ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status)) {
++		bt_busy = true;
++		if (!wifi_under_5g)
++			limited_dig = true;
++	} else {
++		bt_busy = false;
++		limited_dig = false;
++	}
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	coex_dm->limited_dig = limited_dig;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_LIMITED_DIG, &limited_dig);
++
++	halbtc8812a2ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8812a2ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8812a2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_CPL_AUX, false,
++				     true);
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], Halt notify, force set BT to ignore Wlan active!!\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8812a2ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++	ex_halbtc8812a2ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	/* 0x522=0xff, pause tx */
++	btcoexist->btc_write_1byte(btcoexist, 0x522, 0xff);
++	/* 0x40[7:6]=2'b01, modify BT mode. */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0xc0, 0x2);
++	/* PTA off. */
++#ifndef CONFIG_PCI_HCI
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x0);
++#endif
++}
++
++void ex_halbtc8812a2ant_periodical(IN struct btc_coexist *btcoexist)
++{
++	static u8		dis_ver_info_cnt = 0;
++	u32				fw_ver = 0, bt_patch_ver = 0;
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_stack_info		*stack_info = &btcoexist->stack_info;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ==========================Periodical===========================\n");
++	BTC_TRACE(trace_buf);
++
++	if (dis_ver_info_cnt <= 5) {
++		dis_ver_info_cnt += 1;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ****************************************************************\n");
++		BTC_TRACE(trace_buf);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Ant PG Num/ Ant Mech/ Ant Pos = %d/ %d/ %d\n",
++			 board_info->pg_ant_num, board_info->btdm_ant_num,
++			 board_info->btdm_ant_pos);
++		BTC_TRACE(trace_buf);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], BT stack/ hci ext ver = %s / %d\n",
++			 ((stack_info->profile_notified) ? "Yes" : "No"),
++			 stack_info->hci_version);
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER,
++				   &bt_patch_ver);
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexVer/ FwVer/ PatchVer = %d_%x/ 0x%x/ 0x%x(%d)\n",
++			 glcoex_ver_date_8812a_2ant, glcoex_ver_8812a_2ant,
++			 fw_ver, bt_patch_ver, bt_patch_ver);
++		BTC_TRACE(trace_buf);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ****************************************************************\n");
++		BTC_TRACE(trace_buf);
++	}
++
++#if (BT_AUTO_REPORT_ONLY_8812A_2ANT == 0)
++	halbtc8812a2ant_query_bt_info(btcoexist);
++	halbtc8812a2ant_monitor_bt_ctr(btcoexist);
++	halbtc8812a2ant_monitor_bt_enable_disable(btcoexist);
++#else
++	if (halbtc8812a2ant_is_wifi_status_changed(btcoexist) ||
++	    coex_dm->auto_tdma_adjust ||
++	    coex_dm->auto_tdma_adjust_low_rssi)
++		halbtc8812a2ant_run_coexist_mechanism(btcoexist);
++#endif
++}
++
++void ex_halbtc8812a2ant_dbg_control(IN struct btc_coexist *btcoexist,
++				    IN u8 op_code, IN u8 op_len, IN u8 *pdata)
++{
++	switch (op_code) {
++	case BTC_DBG_SET_COEX_DEC_BT_PWR:
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], Set Dec BT power\n");
++		BTC_TRACE(trace_buf);
++
++		{
++			u8	data_len = 4;
++			u8	buf[6] = {0};
++			u8	dec_bt_pwr = 0, pwr_level = 0;
++			if (op_len == 2) {
++				dec_bt_pwr = pdata[0];
++				pwr_level = pdata[1];
++
++				buf[0] = data_len;
++				buf[1] = 0x3;		/* OP_Code */
++				buf[2] = 0x2;		/* OP_Code_Length */
++
++				buf[3] = dec_bt_pwr;	/* OP_Code_Content */
++				buf[4] = pwr_level;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Set Dec BT power=%d, pwr_level=%d\n",
++					 dec_bt_pwr, pwr_level);
++				BTC_TRACE(trace_buf);
++
++				btcoexist->btc_set(btcoexist,
++						   BTC_SET_ACT_CTRL_BT_COEX,
++						   (void *)&buf[0]);
++			}
++		}
++		break;
++
++	case BTC_DBG_SET_COEX_BT_AFH_MAP:
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], Set BT AFH Map\n");
++		BTC_TRACE(trace_buf);
++		{
++			u8	data_len = 5;
++			u8	buf[6] = {0};
++			if (op_len == 3) {
++				buf[0] = data_len;
++				buf[1] = 0x5;				/* OP_Code */
++				buf[2] = 0x3;				/* OP_Code_Length */
++
++				buf[3] = pdata[0];			/* OP_Code_Content */
++				buf[4] = pdata[1];
++				buf[5] = pdata[2];
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Set BT AFH Map = %02x %02x %02x\n",
++					 pdata[0], pdata[1], pdata[2]);
++				BTC_TRACE(trace_buf);
++				btcoexist->btc_set(btcoexist,
++						   BTC_SET_ACT_CTRL_BT_COEX,
++						   (void *)&buf[0]);
++			}
++		}
++		break;
++
++	case BTC_DBG_SET_COEX_BT_IGNORE_WLAN_ACT:
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			 "[BTCoex], Set BT Ignore Wlan Active\n");
++		BTC_TRACE(trace_buf);
++		{
++			u8	data_len = 3;
++			u8	buf[6] = {0};
++			if (op_len == 1) {
++				buf[0] = data_len;
++				buf[1] = 0x1;			/* OP_Code */
++				buf[2] = 0x1;			/* OP_Code_Length */
++
++				buf[3] = pdata[0];		/* OP_Code_Content */
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Set BT Ignore Wlan Active = 0x%x\n",
++					 pdata[0]);
++				BTC_TRACE(trace_buf);
++
++				btcoexist->btc_set(btcoexist,
++						   BTC_SET_ACT_CTRL_BT_COEX,
++						   (void *)&buf[0]);
++			}
++		}
++		break;
++
++	default:
++		break;
++	}
++}
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8812a2Ant.h b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8812a2Ant.h
+new file mode 100644
+index 0000000..e50b4f2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8812a2Ant.h
+@@ -0,0 +1,215 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8812A_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8812A 2Ant BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8812A_2ANT				0
++
++#define	BT_INFO_8812A_2ANT_B_FTP						BIT(7)
++#define	BT_INFO_8812A_2ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8812A_2ANT_B_HID						BIT(5)
++#define	BT_INFO_8812A_2ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8812A_2ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8812A_2ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8812A_2ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8812A_2ANT_B_CONNECTION				BIT(0)
++
++#define	BT_INFO_8812A_2ANT_A2DP_BASIC_RATE(_BT_INFO_EXT_)	\
++		(((_BT_INFO_EXT_&BIT(0))) ? true : false)
++
++#define		BTC_RSSI_COEX_THRESH_TOL_8812A_2ANT		2
++#define 	NOISY_AP_NUM_THRESH_8812A						50
++
++enum bt_info_src_8812a_2ant {
++	BT_INFO_SRC_8812A_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8812A_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8812A_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8812A_2ANT_MAX
++};
++
++enum bt_8812a_2ant_bt_status {
++	BT_8812A_2ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8812A_2ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8812A_2ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8812A_2ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8812A_2ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8812A_2ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8812A_2ANT_BT_STATUS_MAX
++};
++
++enum bt_8812a_2ant_coex_algo {
++	BT_8812A_2ANT_COEX_ALGO_UNDEFINED		= 0x0,
++	BT_8812A_2ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8812A_2ANT_COEX_ALGO_SCO_HID		= 0x2,
++	BT_8812A_2ANT_COEX_ALGO_HID				= 0x3,
++	BT_8812A_2ANT_COEX_ALGO_A2DP			= 0x4,
++	BT_8812A_2ANT_COEX_ALGO_A2DP_PANHS		= 0x5,
++	BT_8812A_2ANT_COEX_ALGO_PANEDR			= 0x6,
++	BT_8812A_2ANT_COEX_ALGO_PANHS			= 0x7,
++	BT_8812A_2ANT_COEX_ALGO_PANEDR_A2DP		= 0x8,
++	BT_8812A_2ANT_COEX_ALGO_PANEDR_HID		= 0x9,
++	BT_8812A_2ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0xa,
++	BT_8812A_2ANT_COEX_ALGO_HID_A2DP_PANHS	= 0xb,
++	BT_8812A_2ANT_COEX_ALGO_HID_A2DP		= 0xc,
++	BT_8812A_2ANT_COEX_ALGO_MAX				= 0xd
++};
++
++struct coex_dm_8812a_2ant {
++	/* fw mechanism */
++	u8		pre_bt_dec_pwr_lvl;
++	u8		cur_bt_dec_pwr_lvl;
++	u8		pre_fw_dac_swing_lvl;
++	u8		cur_fw_dac_swing_lvl;
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		auto_tdma_adjust;
++	boolean		auto_tdma_adjust_low_rssi;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	/* sw mechanism */
++	boolean		pre_rf_rx_lpf_shrink;
++	boolean		cur_rf_rx_lpf_shrink;
++	u32		bt_rf_0x1e_backup;
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	boolean		pre_dac_swing_on;
++	u32		pre_dac_swing_lvl;
++	boolean		cur_dac_swing_on;
++	u32		cur_dac_swing_lvl;
++	boolean		pre_adc_back_off;
++	boolean		cur_adc_back_off;
++	boolean	pre_agc_table_en;
++	boolean		cur_agc_table_en;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		cur_ra_mask_type;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++
++	boolean	cur_enable_pta;
++	boolean	pre_enable_pta;
++};
++
++struct coex_sta_8812a_2ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++	boolean					acl_busy;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	u8					bt_rssi;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8812A_2ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8812A_2ANT_MAX];
++	u32					bt_info_query_cnt;
++	boolean					c2h_bt_inquiry_page;
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u8					scan_ap_num;
++	boolean				pre_bt_disabled;
++	u32					pre_bt_info_c2h_cnt_bt_rsp;
++	u32					pre_bt_info_c2h_cnt_bt_send;
++	boolean				force_lps_on;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8812a2ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8812a2ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a2ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8812a2ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8812a2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8812a2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8812a2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8812a2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8812a2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8812a2ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++
++void ex_halbtc8812a2ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a2ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a2ant_display_coex_info(IN struct btc_coexist *btcoexist);
++void ex_halbtc8812a2ant_dbg_control(IN struct btc_coexist *btcoexist,
++				    IN u8 op_code, IN u8 op_len, IN u8 *pdata);
++void ex_halbtc8812a2ant_pta_off_on_notify(IN struct btc_coexist *btcoexist,
++		IN u8 bt_status);
++
++#else
++#define	ex_halbtc8812a2ant_power_on_setting(btcoexist)
++#define	ex_halbtc8812a2ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8812a2ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8812a2ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8812a2ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8812a2ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8812a2ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8812a2ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8812a2ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8812a2ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8812a2ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8812a2ant_halt_notify(btcoexist)
++#define	ex_halbtc8812a2ant_periodical(btcoexist)
++#define	ex_halbtc8812a2ant_display_coex_info(btcoexist)
++#define	ex_halbtc8812a2ant_dbg_control(btcoexist, op_code, op_len, pdata)
++#define ex_halbtc8812a2ant_pta_off_on_notify(btcoexist, bt_status)
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8821a1Ant.c b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8821a1Ant.c
+new file mode 100644
+index 0000000..81ddf03
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8821a1Ant.c
+@@ -0,0 +1,3100 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for 8821A_1ANT Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************
++ * SY modify 2015/04/27
++ * ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821A_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8821a_1ant		glcoex_dm_8821a_1ant;
++static struct  coex_dm_8821a_1ant	*coex_dm = &glcoex_dm_8821a_1ant;
++static struct  coex_sta_8821a_1ant		glcoex_sta_8821a_1ant;
++static struct  coex_sta_8821a_1ant	*coex_sta = &glcoex_sta_8821a_1ant;
++
++const char *const glbt_info_src_8821a_1ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8821a_1ant = 20150615;
++u32	glcoex_ver_8821a_1ant = 0x61;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8821a1ant_
++ * ************************************************************ */
++u8 halbtc8821a1ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8821A_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8821A_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8821A_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8821a1ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8821A_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8821A_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8821A_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8821a1ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8821a1ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8821a1ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8821a1ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8821a1ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	switch (ra_mask_type) {
++	case 0:	/* normal mode */
++		halbtc8821a1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0);
++		break;
++	case 1:	/* disable cck 1/2 */
++		halbtc8821a1ant_update_ra_mask(btcoexist, force_exec,
++					       0x00000003);
++		break;
++	case 2:	/* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		halbtc8821a1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0001f1f7);
++		break;
++	default:
++		break;
++	}
++
++	halbtc8821a1ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8821a1ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8821a1ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++
++/* ture/xxxx/x:1
++ * false/false/x: 64
++ * false/ture/x:x */
++void halbtc8821a1ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8821a1ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++#if 0
++	/* to avoid 0x76e[3] = 1 (WLAN_Act control by PTA) during IPS */
++	if (!(btcoexist->btc_read_1byte(btcoexist, 0x76e) & 0x8)) {
++		coex_sta->high_priority_tx = 65535;
++		coex_sta->high_priority_rx = 65535;
++		coex_sta->low_priority_tx = 65535;
++		coex_sta->low_priority_rx = 65535;
++		return;
++	}
++#endif
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++}
++
++void halbtc8821a1ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++boolean halbtc8821a1ant_is_wifi_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false;
++	boolean wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++	}
++
++	return false;
++}
++
++void halbtc8821a1ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++u8 halbtc8821a1ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8821A_1ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Profile = SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8821A_1ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_1ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_1ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID + A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_1ANT_COEX_ALGO_HID_A2DP;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! BT Profile = SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8821a1ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8821a1ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8821a1ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8821a1ant_set_sw_penalty_tx_rate_adaptive(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf5;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xa0;  /* MCS6 or OFDM48// */
++		h2c_parameter[5] = 0xa0; /* MCS5 or OFDM36	// */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8821a1ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8821a1ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8821a1ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8821a1ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8821a1ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8821a1ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** CoexTable(%d) **********\n", type);
++	BTC_TRACE(trace_buf);
++
++	switch (type) {
++	case 0:
++		halbtc8821a1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x55555555, 0xffffff, 0x3);
++		break;
++	case 1:
++		halbtc8821a1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 2:
++		halbtc8821a1ant_coex_table(btcoexist, force_exec,
++				   0x5a5a5a5a, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 3:
++		halbtc8821a1ant_coex_table(btcoexist, force_exec,
++				   0x5a5a5a5a, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 4:
++		halbtc8821a1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 5:
++		halbtc8821a1ant_coex_table(btcoexist, force_exec,
++				   0x5a5a5a5a, 0xaaaa5a5a, 0xffffff, 0x3);
++		break;
++	case 6:
++		halbtc8821a1ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0xaaaa5a5a, 0xffffff, 0x3);
++		break;
++	case 7:
++		halbtc8821a1ant_coex_table(btcoexist, force_exec,
++				   0xaaaaaaaa, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8821a1ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8821a1ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8821a1ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8821a1ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], FW for 1Ant AP mode\n");
++			BTC_TRACE(trace_buf);
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++		}
++	}
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++void halbtc8821a1ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8821a1ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8821a1ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8821a1ant_sw_mechanism(IN struct btc_coexist *btcoexist,
++				  IN boolean low_penalty_ra)
++{
++	halbtc8821a1ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8821a1ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean init_hwcfg, IN boolean wifi_off)
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++	u32			u32tmp = 0;
++	u8			h2c_parameter[2] = {0};
++
++	if (init_hwcfg) {
++		/* 0x4c[23]=0, 0x4c[24]=1  Antenna control by WL/BT */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp &= ~BIT(23);
++		u32tmp |= BIT(24);
++		btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++
++		/* 0x765 = 0x18 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x765, 0x18, 0x3);
++
++		if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT) {
++			/* tell firmware "antenna inverse"  ==> WRONG firmware antenna control code.==>need fw to fix */
++			h2c_parameter[0] = 1;
++			h2c_parameter[1] = 1;
++			btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++						h2c_parameter);
++
++			/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0x64, 0x1, 0x1); //Main Ant to  BT for IPS case 0x4c[23]=1 */
++		} else {
++			/* tell firmware "no antenna inverse" ==> WRONG firmware antenna control code.==>need fw to fix */
++			h2c_parameter[0] = 0;
++			h2c_parameter[1] = 1;
++			btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++						h2c_parameter);
++
++			/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0x64, 0x1, 0x0); //Aux Ant to  BT for IPS case 0x4c[23]=1 */
++		}
++	} else if (wifi_off) {
++		/* 0x4c[24:23]=00, Set Antenna control by BT_RFE_CTRL	BT Vendor 0xac=0xf002 */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp &= ~BIT(23);
++		u32tmp &= ~BIT(24);
++		btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++
++		/* 0x765 = 0x18 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x765, 0x18, 0x3);
++	} else {
++		/* 0x765 = 0x0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x765, 0x18, 0x0);
++	}
++
++	/* ext switch setting */
++	switch (ant_pos_type) {
++	case BTC_ANT_PATH_WIFI:
++		btcoexist->btc_write_1byte(btcoexist, 0xcb4, 0x77);
++		if (board_info->btdm_ant_pos ==
++		    BTC_ANTENNA_AT_MAIN_PORT)
++			btcoexist->btc_write_1byte_bitmask(btcoexist,
++							   0xcb7, 0x30, 0x1);
++		else
++			btcoexist->btc_write_1byte_bitmask(btcoexist,
++							   0xcb7, 0x30, 0x2);
++		break;
++	case BTC_ANT_PATH_BT:
++		btcoexist->btc_write_1byte(btcoexist, 0xcb4, 0x77);
++		if (board_info->btdm_ant_pos ==
++		    BTC_ANTENNA_AT_MAIN_PORT)
++			btcoexist->btc_write_1byte_bitmask(btcoexist,
++							   0xcb7, 0x30, 0x2);
++		else
++			btcoexist->btc_write_1byte_bitmask(btcoexist,
++							   0xcb7, 0x30, 0x1);
++		break;
++	default:
++	case BTC_ANT_PATH_PTA:
++		btcoexist->btc_write_1byte(btcoexist, 0xcb4, 0x66);
++		if (board_info->btdm_ant_pos ==
++		    BTC_ANTENNA_AT_MAIN_PORT)
++			btcoexist->btc_write_1byte_bitmask(btcoexist,
++							   0xcb7, 0x30, 0x1);
++		else
++			btcoexist->btc_write_1byte_bitmask(btcoexist,
++							   0xcb7, 0x30, 0x2);
++		break;
++	}
++}
++
++void halbtc8821a1ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	u8			rssi_adjust_val = 0;
++	/* u32			fw_ver=0; */
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	if (coex_dm->cur_ps_tdma_on) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(on, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(off, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	}
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++	if (turn_on) {
++		switch (type) {
++		default:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x1a, 0x1a, 0x0, 0x50);
++			break;
++		case 1:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x3a, 0x03, 0x10, 0x50);
++			rssi_adjust_val = 11;
++			break;
++		case 2:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x2b, 0x03, 0x10, 0x50);
++			rssi_adjust_val = 14;
++			break;
++		case 3:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x1d, 0x1d, 0x0, 0x52);
++			break;
++		case 4:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x15, 0x3, 0x14, 0x0);
++			rssi_adjust_val = 17;
++			break;
++		case 5:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x15, 0x3, 0x11, 0x10);
++			break;
++		case 6:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x20, 0x3, 0x11, 0x13);
++			break;
++		case 7:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xc, 0x5, 0x0, 0x0);
++			break;
++		case 8:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x25, 0x3, 0x10, 0x0);
++			break;
++		case 9:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x21, 0x3, 0x10, 0x50);
++			rssi_adjust_val = 18;
++			break;
++		case 10:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xa, 0xa, 0x0, 0x40);
++			break;
++		case 11:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x15, 0x03, 0x10, 0x50);
++			rssi_adjust_val = 20;
++			break;
++		case 12:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x0a, 0x0a, 0x0, 0x50);
++			break;
++		case 13:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x12, 0x12, 0x0, 0x50);
++			break;
++		case 14:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x1e, 0x3, 0x10, 0x14);
++			break;
++		case 15:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x13,
++						      0xa, 0x3, 0x8, 0x0);
++			break;
++		case 16:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x15, 0x3, 0x10, 0x0);
++			rssi_adjust_val = 18;
++			break;
++		case 18:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x93,
++						      0x25, 0x3, 0x10, 0x0);
++			rssi_adjust_val = 14;
++			break;
++		case 20:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x35, 0x03, 0x11, 0x10);
++			break;
++		case 21:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x25, 0x03, 0x11, 0x11);
++			break;
++		case 22:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x25, 0x03, 0x11, 0x10);
++			break;
++		case 23:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0x31, 0x18);
++			rssi_adjust_val = 22;
++			break;
++		case 24:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x15, 0x3, 0x31, 0x18);
++			rssi_adjust_val = 22;
++			break;
++		case 25:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0xa, 0x3, 0x31, 0x18);
++			rssi_adjust_val = 22;
++			break;
++		case 26:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0xa, 0x3, 0x31, 0x18);
++			rssi_adjust_val = 22;
++			break;
++		case 27:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0x31, 0x98);
++			rssi_adjust_val = 22;
++			break;
++		case 28:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x69,
++						      0x25, 0x3, 0x31, 0x0);
++			break;
++		case 29:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0xab,
++						      0x1a, 0x1a, 0x1, 0x10);
++			break;
++		case 30:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x30, 0x3, 0x10, 0x10);
++			break;
++		case 31:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1a, 0x1a, 0, 0x58);
++			break;
++		case 32:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x61,
++						      0x35, 0x3, 0x11, 0x11);
++			break;
++		case 33:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0xa3,
++						      0x25, 0x3, 0x30, 0x90);
++			break;
++		case 34:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x53,
++						      0x1a, 0x1a, 0x0, 0x10);
++			break;
++		case 35:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x63,
++						      0x1a, 0x1a, 0x0, 0x10);
++			break;
++		case 36:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x12, 0x3, 0x14, 0x50);
++			break;
++		case 40: /* SoftAP only with no sta associated,BT disable ,TDMA mode for power saving */
++			/* here softap mode screen off will cost 70-80mA for phone */
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x23,
++						      0x18, 0x00, 0x10, 0x24);
++			break;
++		case 41:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x15, 0x3, 0x11, 0x11);
++			break;
++		case 42:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x20, 0x3, 0x11, 0x11);
++			break;
++		case 43:
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x51,
++						      0x30, 0x3, 0x10, 0x11);
++			break;
++		}
++	} else {
++		/* disable PS tdma */
++		switch (type) {
++		case 8: /* PTA Control */
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x8,
++						      0x0, 0x0, 0x0, 0x0);
++			halbtc8821a1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_PTA, false, false);
++			break;
++		case 0:
++		default:  /* Software control, Antenna at BT side */
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			halbtc8821a1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_BT, false, false);
++			break;
++		case 9:   /* Software control, Antenna at WiFi side */
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			halbtc8821a1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_WIFI, false, false);
++			break;
++		case 10:	/* under 5G */
++			halbtc8821a1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x8, 0x0);
++			halbtc8821a1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_BT, false, false);
++			break;
++		}
++	}
++	rssi_adjust_val = 0;
++	btcoexist->btc_set(btcoexist,
++		BTC_SET_U1_RSSI_ADJ_VAL_FOR_1ANT_COEX_TYPE, &rssi_adjust_val);
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8821a1ant_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++	/* sw all off */
++	halbtc8821a1ant_sw_mechanism(btcoexist, false);
++
++	/* hw all off */
++	halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++boolean halbtc8821a1ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected &&
++	    BT_8821A_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++	    coex_dm->bt_status) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_sw_mechanism(btcoexist, false);
++
++		common = true;
++	} else if (wifi_connected &&
++		   (BT_8821A_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_sw_mechanism(btcoexist, false);
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8821A_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_sw_mechanism(btcoexist, false);
++
++		common = true;
++	} else if (wifi_connected &&
++		(BT_8821A_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_sw_mechanism(btcoexist, false);
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8821A_1ANT_BT_STATUS_CONNECTED_IDLE != coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non connected-idle + BT Busy!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_sw_mechanism(btcoexist, false);
++
++		common = true;
++	} else {
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		}
++
++		common = false;
++	}
++
++	return common;
++}
++
++void halbtc8821a1ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						0);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8821a1ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8821a1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8821a1ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma. */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		break;
++	case BTC_PS_LPS_OFF:
++		halbtc8821a1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8821a1ant_coex_under_5g(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8821a1ant_ignore_wlan_act(btcoexist, NORMAL_EXEC, true);
++
++	halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 10);
++
++	halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++	halbtc8821a1ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 5);
++}
++
++void halbtc8821a1ant_action_wifi_only(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 9);
++}
++
++void halbtc8821a1ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++
++	/* This function check if bt is disabled */
++
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is enabled !!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		bt_disable_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], bt all counters=0, %d times!!\n",
++			    bt_disable_cnt);
++		BTC_TRACE(trace_buf);
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++					   &bt_disabled);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_wifi_only(btcoexist);
++		}
++	}
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++		if (!bt_disabled) {
++		} else {
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++					   NULL);
++			btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++					   NULL);
++		}
++	}
++}
++
++/* *********************************************
++ *
++ *	Software Coex Mechanism start
++ *
++ * ********************************************* */
++
++void halbtc8821a1ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	/* halbtc8821a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC, false, false); */
++	halbtc8821a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, false, false);
++	halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++/* SCO only or SCO+PAN(HS) */
++void halbtc8821a1ant_action_sco(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, true);
++}
++
++void halbtc8821a1ant_action_hid(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, true);
++}
++
++/* A2DP only / PAN(EDR) only/ A2DP+PAN(HS) */
++void halbtc8821a1ant_action_a2dp(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8821a1ant_action_a2dp_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8821a1ant_action_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, false);
++}
++
++/* PAN(HS) only */
++void halbtc8821a1ant_action_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, false);
++}
++
++/* PAN(EDR)+A2DP */
++void halbtc8821a1ant_action_pan_edr_a2dp(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8821a1ant_action_pan_edr_hid(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, true);
++}
++
++/* HID+A2DP+PAN(EDR) */
++void halbtc8821a1ant_action_hid_a2dp_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, true);
++}
++
++void halbtc8821a1ant_action_hid_a2dp(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_sw_mechanism(btcoexist, true);
++}
++
++/* *********************************************
++ *
++ *	Non-Software Coex Mechanism start
++ *
++ * ********************************************* */
++void halbtc8821a1ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8821a1ant_action_hs(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++	halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8821a1ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_connected = false, ap_enable = false, wifi_busy = false,
++				bt_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	if ((!wifi_connected) && (!coex_sta->wifi_is_high_pri_task)) {
++		halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	}
++
++	/* sy modify	 */
++	else if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist) ||
++		 (bt_link_info->a2dp_exist)) {
++		/* SCO/HID/A2DP  busy */
++		halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	}
++
++	/* sy modify */
++
++	else if ((bt_link_info->a2dp_exist) &&
++		 (bt_link_info->hid_exist)) {
++		/* A2DP+HID	busy */
++		halbtc8821a1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++					14);
++
++		halbtc8821a1ant_coex_table_with_type(btcoexist,
++						     NORMAL_EXEC, 1);
++	}
++
++
++	else if ((bt_link_info->pan_exist) || (wifi_busy)) {
++		halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++	}
++}
++
++void halbtc8821a1ant_action_bt_sco_hid_only_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	/* tdma and coex table */
++
++	if (bt_link_info->sco_exist) {
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 41);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	} else { /* HID */
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 42);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8821a1ant_action_wifi_connected_bt_acl_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	u8		bt_rssi_state;
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	bt_rssi_state = halbtc8821a1ant_bt_rssi_state(2, 28, 0);
++
++	if (bt_link_info->hid_only) { /* HID */
++		halbtc8821a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				wifi_status);
++		coex_dm->auto_tdma_adjust = false;
++		return;
++	} else if (bt_link_info->a2dp_only) { /* A2DP		 */
++		if (BT_8821A_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status) {
++			/* halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8); */
++			/* halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2); */
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++			coex_dm->auto_tdma_adjust = false;
++		} else if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++			   (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			/* halbtc8821a1ant_tdma_duration_adjust_for_acl(btcoexist, wifi_status); */
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						14);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		} else { /* for low BT RSSI */
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						14);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++			coex_dm->auto_tdma_adjust = false;
++		}
++	} else if (bt_link_info->hid_exist &&
++		   bt_link_info->a2dp_exist) { /* HID+A2DP */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						14);
++			coex_dm->auto_tdma_adjust = false;
++		} else { /* for low BT RSSI */
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						14);
++			coex_dm->auto_tdma_adjust = false;
++		}
++
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++	} else if ((bt_link_info->pan_only) || (bt_link_info->hid_exist &&
++		bt_link_info->pan_exist)) { /* PAN(OPP,FTP), HID+PAN(OPP,FTP)			 */
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++		coex_dm->auto_tdma_adjust = false;
++	} else if (((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) ||
++		   (bt_link_info->hid_exist && bt_link_info->a2dp_exist &&
++		bt_link_info->pan_exist)) { /* A2DP+PAN(OPP,FTP), HID+A2DP+PAN(OPP,FTP) */
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 43);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++		coex_dm->auto_tdma_adjust = false;
++	} else {
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++		coex_dm->auto_tdma_adjust = false;
++	}
++}
++
++void halbtc8821a1ant_action_wifi_not_connected(IN struct btc_coexist *btcoexist)
++{
++	/* power save state */
++	halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table	 */
++	halbtc8821a1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8821a1ant_action_wifi_not_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if (BT_8821A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			/* sy modify */
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						14);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		} else if (bt_link_info->a2dp_exist && bt_link_info->pan_exist) {
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						20);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8821A_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8821A_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8821a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8821A_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		/* halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20); */
++		/* halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1); */
++
++		/* Bryant Add */
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8821a1ant_action_wifi_not_connected_asso_auth(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist)  || (bt_link_info->hid_exist)) {
++		/* sy modify */
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 14);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++	} else if ((bt_link_info->a2dp_exist)  || (bt_link_info->pan_exist)) {
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8821a1ant_action_wifi_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	if (BT_8821A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			/* sy modify */
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						14);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						20);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8821A_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8821A_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8821a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8821A_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		/* halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20); */
++		/* halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1); */
++
++		/* Bryant Add */
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8821a1ant_action_wifi_connected_specific_packet(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	/* tdma and coex table */
++	/* sy modify */
++	if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	}
++
++	if ((bt_link_info->hid_exist) && (bt_link_info->a2dp_exist)) {
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++					14);
++		halbtc8821a1ant_coex_table_with_type(btcoexist,
++						     NORMAL_EXEC, 1);
++	}
++
++
++	else if (bt_link_info->pan_exist) {
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8821a1ant_action_wifi_connected(IN struct btc_coexist *btcoexist)
++{
++	boolean	wifi_busy = false;
++	boolean	scan = false, link = false, roam = false;
++	boolean		under_4way = false, ap_enable = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], CoexForWifiConnect()===>\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (under_4way) {
++		halbtc8821a1ant_action_wifi_connected_specific_packet(btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 4way<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++	if (scan || link || roam) {
++		if (scan)
++			halbtc8821a1ant_action_wifi_connected_scan(btcoexist);
++		else
++			halbtc8821a1ant_action_wifi_connected_specific_packet(
++				btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under scan<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	/* power save state */
++	if (!ap_enable &&
++	    BT_8821A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status &&
++	    !btcoexist->bt_link_info.hid_only) {
++		if (!wifi_busy && btcoexist->bt_link_info.a2dp_only)	/* A2DP */
++			halbtc8821a1ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++		else
++			halbtc8821a1ant_power_save_state(btcoexist,
++						 BTC_PS_LPS_ON, 0x50, 0x4);
++	} else
++		halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++
++	/* tdma and coex table */
++	if (!wifi_busy) {
++		if (BT_8821A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8821a1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8821A_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else if ((BT_8821A_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8821A_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8821a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8821A_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else {
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++		}
++	} else {
++		if (BT_8821A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8821a1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8821A_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else if ((BT_8821A_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8821A_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8821a1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8821A_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else {
++			halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++			halbtc8821a1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++		}
++	}
++}
++
++void halbtc8821a1ant_run_sw_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8	algorithm = 0;
++
++	algorithm = halbtc8821a1ant_action_algorithm(btcoexist);
++	coex_dm->cur_algorithm = algorithm;
++
++	if (halbtc8821a1ant_is_common_action(btcoexist)) {
++
++	} else {
++		switch (coex_dm->cur_algorithm) {
++		case BT_8821A_1ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_sco(btcoexist);
++			break;
++		case BT_8821A_1ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_hid(btcoexist);
++			break;
++		case BT_8821A_1ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_a2dp(btcoexist);
++			break;
++		case BT_8821A_1ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_a2dp_pan_hs(btcoexist);
++			break;
++		case BT_8821A_1ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_pan_edr(btcoexist);
++			break;
++		case BT_8821A_1ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_pan_hs(btcoexist);
++			break;
++		case BT_8821A_1ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_pan_edr_a2dp(btcoexist);
++			break;
++		case BT_8821A_1ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_pan_edr_hid(btcoexist);
++			break;
++		case BT_8821A_1ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_hid_a2dp_pan_edr(
++				btcoexist);
++			break;
++		case BT_8821A_1ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a1ant_action_hid_a2dp(btcoexist);
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821a1ant_coex_all_off(btcoexist); */
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8821a1ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false, bt_hs_on = false;
++	boolean	increase_scan_dev_num = false;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++	u8	wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	wifi_under_5g = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for 5G <===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_coex_under_5g(btcoexist);
++		return;
++	}
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	if ((BT_8821A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8821A_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8821A_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		increase_scan_dev_num = true;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_INC_SCAN_DEV_NUM,
++			   &increase_scan_dev_num);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		halbtc8821a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8821a1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8821a1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (!bt_link_info->sco_exist && !bt_link_info->hid_exist)
++		halbtc8821a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++	else {
++		if (wifi_connected) {
++			wifi_rssi_state = halbtc8821a1ant_wifi_rssi_state(
++						  btcoexist, 1, 2, 30, 0);
++			if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++			    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++				/* halbtc8821a1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1, 1, 1); */
++				halbtc8821a1ant_limited_tx(btcoexist,
++						   NORMAL_EXEC, 1, 1, 0, 1);
++			} else {
++				/* halbtc8821a1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1, 1, 1); */
++				halbtc8821a1ant_limited_tx(btcoexist,
++						   NORMAL_EXEC, 1, 1, 0, 1);
++			}
++		} else
++			halbtc8821a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0,
++						   0, 0);
++
++	}
++
++	if (bt_link_info->sco_exist) {
++		bt_ctrl_agg_buf_size = true;
++		agg_buf_size = 0x3;
++	} else if (bt_link_info->hid_exist) {
++		bt_ctrl_agg_buf_size = true;
++		agg_buf_size = 0x5;
++	} else if (bt_link_info->a2dp_exist || bt_link_info->pan_exist) {
++		bt_ctrl_agg_buf_size = true;
++		agg_buf_size = 0x8;
++	}
++	halbtc8821a1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++				   bt_ctrl_agg_buf_size, agg_buf_size);
++
++	halbtc8821a1ant_run_sw_coexist_mechanism(btcoexist);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8821a1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8821a1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	if (!wifi_connected) {
++		boolean	scan = false, link = false, roam = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is non connected-idle !!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (scan || link || roam) {
++			if (scan)
++				halbtc8821a1ant_action_wifi_not_connected_scan(
++					btcoexist);
++			else
++				halbtc8821a1ant_action_wifi_not_connected_asso_auth(
++					btcoexist);
++		} else
++			halbtc8821a1ant_action_wifi_not_connected(btcoexist);
++	} else	/* wifi LPS/Busy */
++		halbtc8821a1ant_action_wifi_connected(btcoexist);
++}
++
++void halbtc8821a1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++	/* sw all off */
++	halbtc8821a1ant_sw_mechanism(btcoexist, false);
++
++	/* halbtc8821a1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8); */
++	halbtc8821a1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++}
++
++void halbtc8821a1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up, IN boolean wifi_only)
++{
++	u8	u8tmp = 0;
++	boolean			wifi_under_5g = false;
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 1Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	if (wifi_only)
++		return;
++
++	if (back_up) {
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	}
++
++	/* 0x790[5:0]=0x5 */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x790);
++	u8tmp &= 0xc0;
++	u8tmp |= 0x5;
++	btcoexist->btc_write_1byte(btcoexist, 0x790, u8tmp);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	/* Antenna config */
++	if (wifi_under_5g)
++		halbtc8821a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, true,
++					     false);
++	else
++		halbtc8821a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, true,
++					     false);
++
++	/* PTA parameter */
++	halbtc8821a1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	/* Enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e,
++			   0xc); /* 0x76e[3] =1, WLAN_Act control by PTA */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x3);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++}
++
++/* ************************************************************
++ * work around function start with wa_halbtc8821a1ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8821a1ant_
++ * ************************************************************ */
++void ex_halbtc8821a1ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8821a1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8821a1ant_init_hw_config(btcoexist, true, wifi_only);
++}
++
++void ex_halbtc8821a1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = false;
++
++	halbtc8821a1ant_init_coex_dm(btcoexist);
++
++	halbtc8821a1ant_query_bt_info(btcoexist);
++}
++
++void ex_halbtc8821a1ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fw_ver = 0, bt_patch_ver = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	if (btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d",
++		   "Ant PG Num/ Ant Mech/ Ant Pos:",
++		   board_info->pg_ant_num, board_info->btdm_ant_num,
++		   board_info->btdm_ant_pos);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)",
++		   "CoexVer/ FwVer/ PatchVer",
++		   glcoex_ver_date_8821a_1ant, glcoex_ver_8821a_1ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8821A_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8821A_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi, coex_sta->bt_retry_cnt);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist);
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_BT_LINK_INFO);
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Info A2DP rate",
++		   (bt_info_ext & BIT(0)) ? "Basic rate" : "EDR rate");
++	CL_PRINTF(cli_buf);
++
++	for (i = 0; i < BT_INFO_SRC_8821A_1ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8821a_1ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	if (!btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++			   "SM[LowPenaltyRA]",
++			   coex_dm->cur_low_penalty_ra);
++		CL_PRINTF(cli_buf);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanisms]============");
++		CL_PRINTF(cli_buf);
++
++		ps_tdma_case = coex_dm->cur_ps_tdma;
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n %-35s = %02x %02x %02x %02x %02x case-%d (auto:%d)",
++			   "PS TDMA",
++			   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++			   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++			   coex_dm->ps_tdma_para[4], ps_tdma_case,
++			   coex_dm->auto_tdma_adjust);
++		CL_PRINTF(cli_buf);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ",
++			   "IgnWlanAct",
++			   coex_dm->cur_ignore_wlan_act);
++		CL_PRINTF(cli_buf);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x ",
++			   "Latest error condition(should be 0)",
++			   coex_dm->error_condition);
++		CL_PRINTF(cli_buf);
++	}
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "backup ARFR1/ARFR2/RL/AMaxTime",
++		   coex_dm->backup_arfr_cnt1, coex_dm->backup_arfr_cnt2,
++		   coex_dm->backup_retry_limit,
++		   coex_dm->backup_ampdu_max_time);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc58);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x778/ 0xc58[29:25]",
++		   u8tmp[0], (u32tmp[0] & 0x3e000000) >> 25);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x8db);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0x8db[6:5]",
++		   ((u8tmp[0] & 0x60) >> 5));
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x975);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0xcb4[29:28]/0xcb4[7:0]/0x974[9:8]",
++		   (u32tmp[0] & 0x30000000) >> 28, u32tmp[0] & 0xff,
++		   u8tmp[0] & 0x3);
++	CL_PRINTF(cli_buf);
++
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x64);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x40/0x4c[24:23]/0x64[0]",
++		   u8tmp[0], ((u32tmp[0] & 0x01800000) >> 23), u8tmp[1] & 0x1);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "0xc50(dig)",
++		   u32tmp[0] & 0xff);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xf48);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5d);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "OFDM-FA/ CCK-FA",
++		   u32tmp[0], (u8tmp[0] << 8) + u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++#if (BT_AUTO_REPORT_ONLY_8821A_1ANT == 1)
++	halbtc8821a1ant_monitor_bt_ctr(btcoexist);
++#endif
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8821a1ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	boolean	wifi_under_5g = false;
++
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G,
++			   &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for 5G <===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_coex_under_5g(btcoexist);
++		return;
++	}
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++		halbtc8821a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, false,
++					     true);
++		/* halbtc8821a1ant_set_ant_path_d_cut(btcoexist, false, false, false, BTC_ANT_PATH_BT, BTC_WIFI_STAT_NORMAL_OFF); */
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = false;
++
++		halbtc8821a1ant_init_hw_config(btcoexist, false, false);
++		halbtc8821a1ant_init_coex_dm(btcoexist);
++		halbtc8821a1ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8821a1ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++	}
++}
++
++void ex_halbtc8821a1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++	boolean	wifi_under_5g = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for 5G <===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_coex_under_5g(btcoexist);
++		return;
++	}
++
++	if (BTC_SCAN_START == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821a1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++			8);  /* Force antenna setup for no scan result issue */
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if (coex_sta->bt_disabled)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	halbtc8821a1ant_query_bt_info(btcoexist);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8821a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8821a1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8821a1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8821a1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8821a1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_SCAN_START == type) {
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8821a1ant_action_wifi_not_connected_scan(
++				btcoexist);
++		else	/* wifi is connected */
++			halbtc8821a1ant_action_wifi_connected_scan(btcoexist);
++	} else if (BTC_SCAN_FINISH == type) {
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8821a1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8821a1ant_action_wifi_connected(btcoexist);
++	}
++}
++
++void ex_halbtc8821a1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	boolean	wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++	boolean	wifi_under_5g = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for 5G <===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_coex_under_5g(btcoexist);
++		return;
++	}
++
++	if (BTC_ASSOCIATE_START == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8821a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8821a1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8821a1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8821a1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8821a1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_ASSOCIATE_START == type)
++		halbtc8821a1ant_action_wifi_not_connected_asso_auth(btcoexist);
++	else if (BTC_ASSOCIATE_FINISH == type) {
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++				   &wifi_connected);
++		if (!wifi_connected) /* non-connected scan */
++			halbtc8821a1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8821a1ant_action_wifi_connected(btcoexist);
++	}
++}
++
++void ex_halbtc8821a1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++	boolean	wifi_under_5g = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for 5G <===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_coex_under_5g(btcoexist);
++		return;
++	}
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++	}
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		/* h2c_parameter[0] = 0x1; */
++		h2c_parameter[0] = 0x0;
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++}
++
++void ex_halbtc8821a1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean	bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++	boolean	wifi_under_5g = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for 5G <===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_coex_under_5g(btcoexist);
++		return;
++	}
++
++	if (BTC_PACKET_DHCP == type ||
++	    BTC_PACKET_EAPOL == type ||
++	    BTC_PACKET_ARP == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++
++		if (BTC_PACKET_ARP == type) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], specific Packet ARP notify\n");
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], specific Packet DHCP or EAPOL notify\n");
++			BTC_TRACE(trace_buf);
++		}
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet [Type = %d] notify\n", type);
++		BTC_TRACE(trace_buf);
++	}
++
++	coex_sta->specific_pkt_period_cnt = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++	if (num_of_wifi_link >= 2) {
++		halbtc8821a1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8821a1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++		halbtc8821a1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8821a1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8821a1ant_action_hs(btcoexist);
++		return;
++	}
++
++	if (BTC_PACKET_DHCP == type ||
++	    BTC_PACKET_EAPOL == type ||
++	    BTC_PACKET_ARP == type) {
++		if (BTC_PACKET_ARP == type) {
++			coex_dm->arp_cnt++;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], ARP Packet Count = %d\n",
++				    coex_dm->arp_cnt);
++			BTC_TRACE(trace_buf);
++			if (coex_dm->arp_cnt >=
++			    10) /* if APR PKT > 10 after connect, do not go to ActionWifiConnectedSpecificPacket(btcoexist) */
++				return;
++		}
++
++		halbtc8821a1ant_action_wifi_connected_specific_packet(btcoexist);
++	}
++}
++
++void ex_halbtc8821a1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8				bt_info = 0;
++	u8				i, rsp_source = 0;
++	boolean				wifi_connected = false;
++	boolean				bt_busy = false;
++	boolean				wifi_under_5g = false;
++
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8821A_1ANT_MAX)
++		rsp_source = BT_INFO_SRC_8821A_1ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++	/* if 0xff, it means BT is under WHCK test */
++	if (bt_info == 0xff)
++		coex_sta->bt_whck_test = true;
++	else
++		coex_sta->bt_whck_test = false;
++
++	if (BT_INFO_SRC_8821A_1ANT_WIFI_FW != rsp_source) {
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x20)
++			coex_sta->c2h_bt_page = true;
++		else
++			coex_sta->c2h_bt_page = false;
++
++		coex_sta->bt_rssi =
++			coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		coex_sta->bt_tx_rx_mask = (coex_sta->bt_info_c2h[rsp_source][2]
++					   & 0x40);
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TX_RX_MASK,
++				   &coex_sta->bt_tx_rx_mask);
++		if (!coex_sta->bt_tx_rx_mask) {
++			/* BT into is responded by BT FW and BT RF REG 0x3C != 0x15 => Need to switch BT TRx Mask */
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Switch BT TRx Mask since BT RF REG 0x3C != 0x15\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF,
++						  0x3c, 0x15);
++		}
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++		if (coex_sta->bt_info_ext & BIT(1)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++					   &wifi_connected);
++			if (wifi_connected)
++				ex_halbtc8821a1ant_media_status_notify(
++					btcoexist, BTC_MEDIA_CONNECT);
++			else
++				ex_halbtc8821a1ant_media_status_notify(
++					btcoexist, BTC_MEDIA_DISCONNECT);
++		}
++
++		if ((coex_sta->bt_info_ext & BIT(3)) && !wifi_under_5g) {
++			if (!btcoexist->manual_control &&
++			    !btcoexist->stop_coex_dm) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821a1ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		} else {
++			/* BT already NOT ignore Wlan active, do nothing here. */
++		}
++#if (BT_AUTO_REPORT_ONLY_8821A_1ANT == 0)
++		if ((coex_sta->bt_info_ext & BIT(4))) {
++			/* BT auto report already enabled, do nothing */
++		} else
++			halbtc8821a1ant_bt_auto_report(btcoexist, FORCE_EXEC,
++						       true);
++#endif
++	}
++
++	/* check BIT2 first ==> check if bt is under inquiry or page scan */
++	if (bt_info & BT_INFO_8821A_1ANT_B_INQ_PAGE)
++		coex_sta->c2h_bt_inquiry_page = true;
++	else
++		coex_sta->c2h_bt_inquiry_page = false;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8821A_1ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8821A_1ANT_B_FTP)
++			coex_sta->pan_exist = true;
++		else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8821A_1ANT_B_A2DP)
++			coex_sta->a2dp_exist = true;
++		else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8821A_1ANT_B_HID)
++			coex_sta->hid_exist = true;
++		else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8821A_1ANT_B_SCO_ESCO)
++			coex_sta->sco_exist = true;
++		else
++			coex_sta->sco_exist = false;
++	}
++
++	halbtc8821a1ant_update_bt_link_info(btcoexist);
++
++	bt_info = bt_info &
++		0x1f;  /* mask profile bit for connect-ilde identification ( for CSR case: A2DP idle --> 0x41) */
++
++	if (!(bt_info & BT_INFO_8821A_1ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8821A_1ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8821A_1ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8821A_1ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8821A_1ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8821A_1ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8821A_1ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8821A_1ANT_B_ACL_BUSY) {
++		if (BT_8821A_1ANT_BT_STATUS_ACL_BUSY != coex_dm->bt_status)
++			coex_dm->auto_tdma_adjust = false;
++		coex_dm->bt_status = BT_8821A_1ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8821A_1ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8821A_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8821A_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8821A_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		bt_busy = true;
++	else
++		bt_busy = false;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	halbtc8821a1ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8821a1ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	boolean	wifi_under_5g = false;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for 5G <===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_coex_under_5g(btcoexist);
++		return;
++	}
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8821a1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++	halbtc8821a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, false, true);
++	/* halbtc8821a1ant_set_ant_path_d_cut(btcoexist, false, false, false, BTC_ANT_PATH_BT, BTC_WIFI_STAT_NORMAL_OFF); */
++
++	halbtc8821a1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++	ex_halbtc8821a1ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	btcoexist->stop_coex_dm = true;
++}
++
++void ex_halbtc8821a1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	boolean wifi_under_5g = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for 5G <===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a1ant_coex_under_5g(btcoexist);
++		return;
++	}
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821a1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8821a1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8821a1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++		halbtc8821a1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, false,
++					     true);
++		/* halbtc8821a1ant_set_ant_path_d_cut(btcoexist, false, false, false, BTC_ANT_PATH_BT, BTC_WIFI_STAT_NORMAL_OFF); */
++
++		/* Sinda 20150819, workaround for driver skip leave IPS/LPS to speed up sleep time. */
++		/* Driver do not leave IPS/LPS when driver is going to sleep, so BTCoexistence think wifi is still under IPS/LPS */
++		/* BT should clear UnderIPS/UnderLPS state to avoid mismatch state after wakeup. */
++		coex_sta->under_ips = false;
++		coex_sta->under_lps = false;
++		btcoexist->stop_coex_dm = true;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->stop_coex_dm = false;
++		halbtc8821a1ant_init_hw_config(btcoexist, false, false);
++		halbtc8821a1ant_init_coex_dm(btcoexist);
++		halbtc8821a1ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8821a1ant_periodical(IN struct btc_coexist *btcoexist)
++{
++#if (BT_AUTO_REPORT_ONLY_8821A_1ANT == 0)
++	halbtc8821a1ant_query_bt_info(btcoexist);
++	halbtc8821a1ant_monitor_bt_ctr(btcoexist);
++	halbtc8821a1ant_monitor_bt_enable_disable(btcoexist);
++#else
++	if (halbtc8821a1ant_is_wifi_status_changed(btcoexist) ||
++	    coex_dm->auto_tdma_adjust) {
++		/* if(coex_sta->specific_pkt_period_cnt > 2) */
++		/* { */
++		halbtc8821a1ant_run_coexist_mechanism(btcoexist);
++		/* } */
++	}
++
++	coex_sta->specific_pkt_period_cnt++;
++#endif
++}
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8821a1Ant.h b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8821a1Ant.h
+new file mode 100644
+index 0000000..6c9c327
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8821a1Ant.h
+@@ -0,0 +1,197 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821A_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8821A 1ANT BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8821A_1ANT				1
++
++#define	BT_INFO_8821A_1ANT_B_FTP						BIT(7)
++#define	BT_INFO_8821A_1ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8821A_1ANT_B_HID						BIT(5)
++#define	BT_INFO_8821A_1ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8821A_1ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8821A_1ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8821A_1ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8821A_1ANT_B_CONNECTION				BIT(0)
++
++#define	BT_INFO_8821A_1ANT_A2DP_BASIC_RATE(_BT_INFO_EXT_)	\
++		(((_BT_INFO_EXT_&BIT(0))) ? true : false)
++
++#define	BTC_RSSI_COEX_THRESH_TOL_8821A_1ANT		2
++
++enum bt_info_src_8821a_1ant {
++	BT_INFO_SRC_8821A_1ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8821A_1ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8821A_1ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8821A_1ANT_MAX
++};
++
++enum bt_8821a_1ant_bt_status {
++	BT_8821A_1ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8821A_1ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8821A_1ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8821A_1ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8821A_1ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8821A_1ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8821A_1ANT_BT_STATUS_MAX
++};
++
++enum bt_8821a_1ant_wifi_status {
++	BT_8821A_1ANT_WIFI_STATUS_NON_CONNECTED_IDLE				= 0x0,
++	BT_8821A_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN		= 0x1,
++	BT_8821A_1ANT_WIFI_STATUS_CONNECTED_SCAN					= 0x2,
++	BT_8821A_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT				= 0x3,
++	BT_8821A_1ANT_WIFI_STATUS_CONNECTED_IDLE					= 0x4,
++	BT_8821A_1ANT_WIFI_STATUS_CONNECTED_BUSY					= 0x5,
++	BT_8821A_1ANT_WIFI_STATUS_MAX
++};
++
++enum bt_8821a_1ant_coex_algo {
++	BT_8821A_1ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8821A_1ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8821A_1ANT_COEX_ALGO_HID				= 0x2,
++	BT_8821A_1ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8821A_1ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8821A_1ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8821A_1ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8821A_1ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8821A_1ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8821A_1ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8821A_1ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8821A_1ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++struct coex_dm_8821a_1ant {
++	/* fw mechanism */
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	/* sw mechanism */
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++	u32		arp_cnt;
++
++	u8		error_condition;
++};
++
++struct coex_sta_8821a_1ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					specific_pkt_period_cnt;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	u8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8821A_1ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8821A_1ANT_MAX];
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_page;				/* Add for win8.1 page out issue */
++	boolean					wifi_is_high_pri_task;		/* Add for win8.1 page out issue */
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	boolean
++	bt_whck_test;                        /* Add for ASUS WHQL TEST that enable wifi test bt */
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8821a1ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821a1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8821a1ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821a1ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8821a1ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8821a1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8821a1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8821a1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821a1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821a1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8821a1ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821a1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8821a1ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821a1ant_display_coex_info(IN struct btc_coexist *btcoexist);
++
++#else
++#define	ex_halbtc8821a1ant_power_on_setting(btcoexist)
++#define	ex_halbtc8821a1ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8821a1ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8821a1ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8821a1ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8821a1ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8821a1ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8821a1ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8821a1ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8821a1ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8821a1ant_halt_notify(btcoexist)
++#define	ex_halbtc8821a1ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8821a1ant_periodical(btcoexist)
++#define	ex_halbtc8821a1ant_display_coex_info(btcoexist)
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8821a2Ant.c b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8821a2Ant.c
+new file mode 100644
+index 0000000..010a422
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8821a2Ant.c
+@@ -0,0 +1,4560 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8821A Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821A_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8821a_2ant		glcoex_dm_8821a_2ant;
++static struct  coex_dm_8821a_2ant	*coex_dm = &glcoex_dm_8821a_2ant;
++static struct  coex_sta_8821a_2ant		glcoex_sta_8821a_2ant;
++static struct  coex_sta_8821a_2ant	*coex_sta = &glcoex_sta_8821a_2ant;
++
++const char *const glbt_info_src_8821a_2ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8821a_2ant = 20150921;
++u32	glcoex_ver_8821a_2ant = 0x58;
++/* modify 20140903v43 a2dpandhid tdmaonoff a2dp glitch _ tdma off 778=3(case1)->778=1(case0)
++ * and to improve tp while a2dphid case23->case25 , case123->case125 for asus spec
++ * and modify for asus bt WHQL test _ tdma off_ 778=3->1_
++ * ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8821a2ant_
++ * ************************************************************ */
++u8 halbtc8821a2ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8821A_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8821A_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8821A_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8821a2ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8821A_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8821A_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8821A_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8821a2ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32	bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++
++	/* This function check if bt is disabled */
++
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is enabled !!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		bt_disable_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], bt all counters=0, %d times!!\n",
++			    bt_disable_cnt);
++		BTC_TRACE(trace_buf);
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++					   &bt_disabled);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++			BTC_TRACE(trace_buf);
++		}
++	}
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++		if (!bt_disabled) {
++		} else {
++		}
++	}
++}
++
++void halbtc8821a2ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++}
++
++void halbtc8821a2ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	if ((coex_sta->low_priority_rx >= 950)  &&
++	    (coex_sta->low_priority_rx >= coex_sta->low_priority_tx) &&
++	    (!coex_sta->under_ips))
++		bt_link_info->slave_role = true;
++	else
++		bt_link_info->slave_role = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], High Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		    reg_hp_txrx, reg_hp_tx, reg_hp_tx, reg_hp_rx, reg_hp_rx);
++	BTC_TRACE(trace_buf);
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], Low Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		    reg_lp_txrx, reg_lp_tx, reg_lp_tx, reg_lp_rx, reg_lp_rx);
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++}
++
++void halbtc8821a2ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++	if (coex_sta->under_ips) {
++		coex_sta->crc_ok_cck = 0;
++		coex_sta->crc_ok_11g = 0;
++		coex_sta->crc_ok_11n = 0;
++		coex_sta->crc_ok_11n_agg = 0;
++
++		coex_sta->crc_err_cck = 0;
++		coex_sta->crc_err_11g = 0;
++		coex_sta->crc_err_11n = 0;
++		coex_sta->crc_err_11n_agg = 0;
++	} else {
++		coex_sta->crc_ok_cck	= btcoexist->btc_read_4byte(btcoexist,
++					  0xf88);
++		coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf94);
++		coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf90);
++		coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					   0xfb8);
++
++		coex_sta->crc_err_cck	 = btcoexist->btc_read_4byte(btcoexist,
++					   0xf84);
++		coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf96);
++		coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf92);
++		coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					    0xfba);
++	}
++
++	/* reset counter */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x0);
++}
++
++void halbtc8821a2ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++boolean halbtc8821a2ant_is_wifi_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false;
++	boolean			wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean			wifi_connected = false;
++	u8			wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++
++
++		wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 3,
++			  2, BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++
++		if ((BTC_RSSI_STATE_HIGH == wifi_rssi_state) ||
++		    (BTC_RSSI_STATE_LOW == wifi_rssi_state))
++			return true;
++
++	}
++
++	return false;
++}
++
++void halbtc8821a2ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++u8 halbtc8821a2ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8821A_2ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_2ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_2ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_2ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				{
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], HID + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_2ANT_COEX_ALGO_HID_A2DP;
++				}
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_2ANT_COEX_ALGO_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_2ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], SCO + HID + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(HS) ==> SCO\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(EDR) ==> SCO\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_2ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821A_2ANT_COEX_ALGO_SCO;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8821a2ant_set_fw_dac_swing_level(IN struct btc_coexist *btcoexist,
++		IN u8 dac_swing_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	/* There are several type of dacswing */
++	/* 0x18/ 0x10/ 0xc/ 0x8/ 0x4/ 0x6 */
++	h2c_parameter[0] = dac_swing_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x64, 1, h2c_parameter);
++}
++
++void halbtc8821a2ant_set_fw_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				       IN u8 dec_bt_pwr_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = dec_bt_pwr_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x62, 1, h2c_parameter);
++}
++
++void halbtc8821a2ant_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				IN boolean force_exec, IN u8 dec_bt_pwr_lvl)
++{
++	coex_dm->cur_bt_dec_pwr_lvl = dec_bt_pwr_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_dec_pwr_lvl == coex_dm->cur_bt_dec_pwr_lvl)
++			return;
++	}
++	halbtc8821a2ant_set_fw_dec_bt_pwr(btcoexist,
++					  coex_dm->cur_bt_dec_pwr_lvl);
++
++	coex_dm->pre_bt_dec_pwr_lvl = coex_dm->cur_bt_dec_pwr_lvl;
++}
++
++void halbtc8821a2ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8821a2ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8821a2ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8821a2ant_fw_dac_swing_lvl(IN struct btc_coexist *btcoexist,
++			      IN boolean force_exec, IN u8 fw_dac_swing_lvl)
++{
++	coex_dm->cur_fw_dac_swing_lvl = fw_dac_swing_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_fw_dac_swing_lvl ==
++		    coex_dm->cur_fw_dac_swing_lvl)
++			return;
++	}
++
++	halbtc8821a2ant_set_fw_dac_swing_level(btcoexist,
++					       coex_dm->cur_fw_dac_swing_lvl);
++
++	coex_dm->pre_fw_dac_swing_lvl = coex_dm->cur_fw_dac_swing_lvl;
++}
++
++void halbtc8821a2ant_set_sw_rf_rx_lpf_corner(IN struct btc_coexist *btcoexist,
++		IN boolean rx_rf_shrink_on)
++{
++	if (rx_rf_shrink_on) {
++		/* Shrink RF Rx LPF corner */
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Shrink RF Rx LPF corner!!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e, 0xfffff,
++					  0xffffc);
++	} else {
++		/* Resume RF Rx LPF corner */
++		/* After initialized, we can use coex_dm->bt_rf_0x1e_backup */
++		if (btcoexist->initilized) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Resume RF Rx LPF corner!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++					  0xfffff, coex_dm->bt_rf_0x1e_backup);
++		}
++	}
++}
++
++void halbtc8821a2ant_rf_shrink(IN struct btc_coexist *btcoexist,
++		       IN boolean force_exec, IN boolean rx_rf_shrink_on)
++{
++	coex_dm->cur_rf_rx_lpf_shrink = rx_rf_shrink_on;
++
++	if (!force_exec) {
++		if (coex_dm->pre_rf_rx_lpf_shrink ==
++		    coex_dm->cur_rf_rx_lpf_shrink)
++			return;
++	}
++	halbtc8821a2ant_set_sw_rf_rx_lpf_corner(btcoexist,
++						coex_dm->cur_rf_rx_lpf_shrink);
++
++	coex_dm->pre_rf_rx_lpf_shrink = coex_dm->cur_rf_rx_lpf_shrink;
++}
++
++void halbtc8821a2ant_set_sw_penalty_tx_rate_adaptive(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf5;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xa0;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xa0;	/* MCS5 or OFDM36 */
++		/* h2c_parameter[3] = 0xf7;  //MCS7 or OFDM54 */
++		/* h2c_parameter[4] = 0xf8;  //MCS6 or OFDM48 */
++		/* h2c_parameter[5] = 0xf9;	//MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8821a2ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8821a2ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8821a2ant_set_dac_swing_reg(IN struct btc_coexist *btcoexist,
++				       IN u32 level)
++{
++	u8	val = (u8)level;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Write SwDacSwing = 0x%x\n", level);
++	BTC_TRACE(trace_buf);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xc5b, 0x3e, val);
++}
++
++void halbtc8821a2ant_set_sw_full_time_dac_swing(IN struct btc_coexist
++		*btcoexist, IN boolean sw_dac_swing_on, IN u32 sw_dac_swing_lvl)
++{
++	if (sw_dac_swing_on)
++		halbtc8821a2ant_set_dac_swing_reg(btcoexist, sw_dac_swing_lvl);
++	else
++		halbtc8821a2ant_set_dac_swing_reg(btcoexist, 0x18);
++}
++
++
++void halbtc8821a2ant_dac_swing(IN struct btc_coexist *btcoexist,
++	IN boolean force_exec, IN boolean dac_swing_on, IN u32 dac_swing_lvl)
++{
++	coex_dm->cur_dac_swing_on = dac_swing_on;
++	coex_dm->cur_dac_swing_lvl = dac_swing_lvl;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_dac_swing_on == coex_dm->cur_dac_swing_on) &&
++		    (coex_dm->pre_dac_swing_lvl ==
++		     coex_dm->cur_dac_swing_lvl))
++			return;
++	}
++	delay_ms(30);
++	halbtc8821a2ant_set_sw_full_time_dac_swing(btcoexist, dac_swing_on,
++			dac_swing_lvl);
++
++	coex_dm->pre_dac_swing_on = coex_dm->cur_dac_swing_on;
++	coex_dm->pre_dac_swing_lvl = coex_dm->cur_dac_swing_lvl;
++}
++
++void halbtc8821a2ant_set_adc_back_off(IN struct btc_coexist *btcoexist,
++				      IN boolean adc_back_off)
++{
++	if (adc_back_off) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB BackOff Level On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x8db, 0x60, 0x3);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB BackOff Level Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x8db, 0x60, 0x1);
++	}
++}
++
++void halbtc8821a2ant_adc_back_off(IN struct btc_coexist *btcoexist,
++			  IN boolean force_exec, IN boolean adc_back_off)
++{
++	coex_dm->cur_adc_back_off = adc_back_off;
++
++	if (!force_exec) {
++		if (coex_dm->pre_adc_back_off == coex_dm->cur_adc_back_off)
++			return;
++	}
++	halbtc8821a2ant_set_adc_back_off(btcoexist, coex_dm->cur_adc_back_off);
++
++	coex_dm->pre_adc_back_off = coex_dm->cur_adc_back_off;
++}
++
++void halbtc8821a2ant_set_agc_table(IN struct btc_coexist *btcoexist,
++				   IN boolean agc_table_en)
++{
++	u8		rssi_adjust_val = 0;
++
++	/* =================BB AGC Gain Table */
++	if (agc_table_en) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB Agc Table On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6e1A0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6d1B0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6c1C0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6b1D0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x6a1E0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x691F0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0x68200001);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB Agc Table Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xaa1A0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa91B0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa81C0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa71D0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa61E0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa51F0001);
++		btcoexist->btc_write_4byte(btcoexist, 0xc78, 0xa4200001);
++	}
++
++
++	/* =================RF Gain */
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xef, 0xfffff, 0x02000);
++	if (agc_table_en) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x38fff);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x38ffe);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x380c3);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x28ce6);
++	}
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xef, 0xfffff, 0x0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xed, 0xfffff, 0x1);
++	if (agc_table_en) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x40, 0xfffff,
++					  0x38fff);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x40, 0xfffff,
++					  0x38ffe);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x40, 0xfffff,
++					  0x380c3);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x40, 0xfffff,
++					  0x28ce6);
++	}
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xed, 0xfffff, 0x0);
++
++	/* set rssi_adjust_val for wifi module. */
++	if (agc_table_en)
++		rssi_adjust_val = 8;
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RSSI_ADJ_VAL_FOR_AGC_TABLE_ON,
++			   &rssi_adjust_val);
++}
++
++void halbtc8821a2ant_agc_table(IN struct btc_coexist *btcoexist,
++			       IN boolean force_exec, IN boolean agc_table_en)
++{
++	coex_dm->cur_agc_table_en = agc_table_en;
++
++	if (!force_exec) {
++		if (coex_dm->pre_agc_table_en == coex_dm->cur_agc_table_en)
++			return;
++	}
++	halbtc8821a2ant_set_agc_table(btcoexist, agc_table_en);
++
++	coex_dm->pre_agc_table_en = coex_dm->cur_agc_table_en;
++}
++
++void halbtc8821a2ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8821a2ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8821a2ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8821a2ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	coex_sta->coex_table_type = type;
++
++	switch (type) {
++	case 0:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x55555555, 0xffffff, 0x3);
++		break;
++	case 1:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55555555, 0x5afa5afa, 0xffffff, 0x3);
++		break;
++	case 2:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x5ada5ada, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 3:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0xaaaaaaaa, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 4:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0xffffffff, 0xffffffff, 0xffffff, 0x3);
++		break;
++	case 5:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x5fff5fff, 0x5fff5fff, 0xffffff, 0x3);
++		break;
++	case 6:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55ff55ff, 0x5a5a5a5a, 0xffffff, 0x3);
++		break;
++	case 7:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 8:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 9:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 10:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 11:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 12:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 13:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x5fff5fff, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 14:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x5fff5fff, 0x5ada5ada, 0xffffff, 0x3);
++		break;
++	case 15:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x55dd55dd, 0xaaaaaaaa, 0xffffff, 0x3);
++		break;
++	case 16:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0x5fdf5fdf, 0x5fdb5fdb, 0xffffff, 0x3);
++		break;
++	case 17:
++		halbtc8821a2ant_coex_table(btcoexist, force_exec,
++				   0xfafafafa, 0xfafafafa, 0xffffff, 0x3);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8821a2ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8821a2ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8821a2ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8821a2ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8821a2ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8821a2ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8821a2ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++
++	h2c_parameter[0] = byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = byte5;
++
++	coex_dm->ps_tdma_para[0] = byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++void halbtc8821a2ant_sw_mechanism1(IN struct btc_coexist *btcoexist,
++			   IN boolean shrink_rx_lpf, IN boolean low_penalty_ra,
++			   IN boolean limited_dig, IN boolean bt_lna_constrain)
++{
++	/*
++	u32	wifi_bw;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if(BTC_WIFI_BW_HT40 != wifi_bw)
++	{
++		if (shrink_rx_lpf)
++			shrink_rx_lpf = false;
++	}
++	*/
++
++	/* halbtc8821a2ant_rf_shrink(btcoexist, NORMAL_EXEC, shrink_rx_lpf); */
++	halbtc8821a2ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8821a2ant_sw_mechanism2(IN struct btc_coexist *btcoexist,
++			   IN boolean agc_table_shift, IN boolean adc_back_off,
++			   IN boolean sw_dac_swing, IN u32 dac_swing_lvl)
++{
++	/* halbtc8821a2ant_agc_table(btcoexist, NORMAL_EXEC, agc_table_shift); */
++	/* halbtc8821a2ant_adc_back_off(btcoexist, NORMAL_EXEC, adc_back_off); */
++	halbtc8821a2ant_dac_swing(btcoexist, NORMAL_EXEC, sw_dac_swing,
++				  dac_swing_lvl);
++}
++
++void halbtc8821a2ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean init_hwcfg, IN boolean wifi_off)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u32				u32tmp = 0;
++	u8				h2c_parameter[2] = {0};
++
++	if (init_hwcfg) {
++		/* 0x4c[23]=0, 0x4c[24]=1  Antenna control by WL/BT */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp &= ~BIT(23);
++		u32tmp |= BIT(24);
++		btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++
++		btcoexist->btc_write_4byte(btcoexist, 0x974, 0x3ff);
++		/* btcoexist->btc_write_1byte(btcoexist, 0xcb4, 0x77); */
++
++		if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT) {
++			/* tell firmware "antenna inverse"  ==> WRONG firmware antenna control code.==>need fw to fix */
++			h2c_parameter[0] = 1;
++			h2c_parameter[1] = 1;
++			btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++						h2c_parameter);
++		} else {
++			/* tell firmware "no antenna inverse" ==> WRONG firmware antenna control code.==>need fw to fix */
++			h2c_parameter[0] = 0;
++			h2c_parameter[1] = 1;
++			btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++						h2c_parameter);
++		}
++	}
++
++	/* ext switch setting */
++	switch (ant_pos_type) {
++	case BTC_ANT_WIFI_AT_MAIN:
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb7,
++						   0x30, 0x1);
++		break;
++	case BTC_ANT_WIFI_AT_AUX:
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb7,
++						   0x30, 0x2);
++		break;
++	}
++}
++
++void halbtc8821a2ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	u8			wifi_rssi_state1, bt_rssi_state;
++
++
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	if (!(BTC_RSSI_HIGH(wifi_rssi_state1) &&
++	      BTC_RSSI_HIGH(bt_rssi_state)) && turn_on) {
++		type = type + 100; /* for WiFi RSSI low or BT RSSI low */
++	}
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++	if (turn_on) {
++		switch (type) {
++		case 1:
++		default:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x1a, 0x1a, 0xe1, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x03, 0xf1, 0x90);
++			break;
++		case 2:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x12, 0x12, 0xe1, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x2d, 0x03, 0xf1, 0x90);
++			break;
++		case 3:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0xf1, 0x90);
++			break;
++		case 4:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x03, 0xf1, 0x90);
++			break;
++		case 5:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x1a, 0x1a, 0x60, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x3, 0x70, 0x90);
++			break;
++		case 6:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x12, 0x12, 0x60, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x2d, 0x3, 0x70, 0x90);
++			break;
++		case 7:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0x70, 0x90);
++			break;
++		case 8:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xa3,
++						      0x10, 0x3, 0x70, 0x90);
++			break;
++		case 9:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x1a, 0x1a, 0xe1, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x03, 0xf1, 0x90);
++			break;
++		case 10:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x12, 0x12, 0xe1, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x2d, 0x03, 0xf1, 0x90);
++			break;
++		case 11:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0xa, 0xa, 0xe1, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0xf1, 0x90);
++			break;
++		case 12:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x5, 0x5, 0xe1, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x3, 0xf1, 0x90);
++			break;
++		case 13:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x1a, 0x1a, 0x60, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x3, 0x70, 0x90);
++			break;
++		case 14:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x12, 0x12, 0x60, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x2d, 0x3, 0x70, 0x90);
++			break;
++		case 15:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0xa, 0xa, 0x60, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0x70, 0x90);
++			break;
++		case 16:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x5, 0x5, 0x60, 0x90); */
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x3, 0x70, 0x90);
++			break;
++		case 17:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xa3,
++						      0x2f, 0x2f, 0x60, 0x90);
++			break;
++		case 18:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x5, 0x5, 0xe1, 0x90);
++			break;
++		case 19:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x25, 0xe1, 0x90);
++			break;
++		case 20:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x25, 0x60, 0x90);
++			break;
++		case 21:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x15, 0x03, 0x70, 0x90);
++			break;
++		case 23:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1e, 0x03, 0xf0, 0x14);
++			break;
++		case 24:
++		case 124:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x3c, 0x03, 0x70, 0x50);
++			break;
++		/* case25/case125 : for lenovo bt pan tp degrade<30% while wifi downlink */
++		case 25:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x14, 0x03, 0xf1, 0x90);
++			break;
++		case 26:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x30, 0x03, 0xf1, 0x90);
++			break;
++		case 71:
++			/* halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3, 0x1a, 0x1a, 0xe1, 0x90); */
++
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x03, 0xf1, 0x90);
++			break;
++		case 101:
++		case 105:
++		case 171:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x3a, 0x03, 0x70, 0x50);
++			break;
++		case 102:
++		case 106:
++		case 110:
++		case 114:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x2d, 0x03, 0x70, 0x50);
++			break;
++		case 103:
++		case 107:
++		case 111:
++		case 115:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1c, 0x03, 0x70, 0x50);
++			break;
++		case 104:
++		case 108:
++		case 112:
++		case 116:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x10, 0x03, 0x70, 0x50);
++			break;
++		case 109:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x03, 0xf1, 0x90);
++			break;
++		case 113:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3c, 0x03, 0x70, 0x90);
++			break;
++		case 121:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x15, 0x03, 0x70, 0x90);
++			break;
++		case 22:
++		case 122:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x35, 0x03, 0x71, 0x11);
++			break;
++		case 123:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1c, 0x03, 0x70, 0x54);
++			break;
++		/* case25/case125 : for lenovo bt pan tp degrade<30% while wifi downlink */
++		case 125:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x14, 0x03, 0x70, 0x50);
++			break;
++		case 126:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x30, 0x03, 0x70, 0x50);
++			break;
++		}
++	} else {
++		/* disable PS tdma */
++		switch (type) {
++		case 0:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x40, 0x0);
++			break;
++		case 1:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x48, 0x0);
++			break;
++		default:
++			halbtc8821a2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x40, 0x0);
++			break;
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8821a2ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8821a2ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8821a2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8821a2ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		coex_sta->force_lps_on = true;
++		break;
++	case BTC_PS_LPS_OFF:
++		halbtc8821a2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	default:
++		break;
++	}
++}
++
++
++void halbtc8821a2ant_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++	/* fw all off */
++	halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821a2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	/* hw all off */
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0); */
++	halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8821a2ant_coex_under_5g(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a2ant_coex_all_off(btcoexist);
++
++	halbtc8821a2ant_ignore_wlan_act(btcoexist, NORMAL_EXEC, true);
++}
++
++void halbtc8821a2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++	halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8821a2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 1);
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 6);
++	halbtc8821a2ant_dec_bt_pwr(btcoexist, FORCE_EXEC, 0);
++
++	halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821a2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8821a2ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	boolean	wifi_connected = false;
++	boolean	low_pwr_disable = true;
++	boolean		scan = false, link = false, roam = false;
++
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++			   &low_pwr_disable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++
++	halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	if (scan || link || roam) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi link process + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     15);
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++	} else if (wifi_connected) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     15);
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi no-link + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++	}
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 6);
++	halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821a2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++
++void halbtc8821a2ant_action_wifi_link_process(IN struct btc_coexist *btcoexist)
++{
++	u8	u8tmpa, u8tmpb;
++
++	halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 15);
++	halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++
++	halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821a2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++
++
++	u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++	u8tmpb = btcoexist->btc_read_1byte(btcoexist, 0x76e);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "############# [BTCoex], 0x765=0x%x, 0x76e=0x%x\n", u8tmpa,
++		    u8tmpb);
++	BTC_TRACE(trace_buf);
++}
++
++boolean halbtc8821a2ant_action_wifi_idle_process(IN struct btc_coexist
++		*btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u8		ap_num = 0;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	/* wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2, BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0); */
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES - 20, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM, &ap_num);
++
++	/* define the office environment */
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) &&
++	    (coex_sta->hid_exist == true) &&
++	    (coex_sta->a2dp_exist == true)) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi  idle process for BT HID+A2DP exist!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821a2ant_dac_swing(btcoexist, NORMAL_EXEC, true, 0x6);
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		/* sw all off */
++		halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false,
++					      false);
++		halbtc8821a2ant_sw_mechanism2(btcoexist, false, false, false,
++					      0x18);
++
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++
++		return true;
++	}
++
++	/*  */
++	else if (coex_sta->pan_exist == true) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi  idle process for BT PAN exist!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821a2ant_dac_swing(btcoexist, NORMAL_EXEC, true, 0x6);
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		/* sw all off */
++		halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false,
++					      false);
++		halbtc8821a2ant_sw_mechanism2(btcoexist, false, false, false,
++					      0x18);
++
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++
++		return true;
++	}
++
++	else {
++		halbtc8821a2ant_dac_swing(btcoexist, NORMAL_EXEC, true, 0x18);
++		return false;
++	}
++
++
++}
++
++
++
++boolean halbtc8821a2ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++	boolean			bt_hs_on = false, low_pwr_disable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected) {
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non-connected idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x0);
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++		halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false,
++					      false);
++		halbtc8821a2ant_sw_mechanism2(btcoexist, false, false, false,
++					      0x18);
++
++		common = true;
++	} else {
++		if (BT_8821A_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status) {
++			low_pwr_disable = false;
++			btcoexist->btc_set(btcoexist,
++					   BTC_SET_ACT_DISABLE_LOW_POWER,
++					   &low_pwr_disable);
++			halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC,
++						   false, false, 0x8);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x0);
++			halbtc8821a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++
++			halbtc8821a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++			halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 0xb);
++			halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false,
++						      false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++
++			common = true;
++		} else if (BT_8821A_2ANT_BT_STATUS_CONNECTED_IDLE ==
++			   coex_dm->bt_status) {
++			low_pwr_disable = true;
++			btcoexist->btc_set(btcoexist,
++					   BTC_SET_ACT_DISABLE_LOW_POWER,
++					   &low_pwr_disable);
++
++			if (bt_hs_on)
++				return false;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi connected + BT connected-idle!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC,
++						   false, false, 0x8);
++
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x0);
++			halbtc8821a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 0);
++
++			halbtc8821a2ant_power_save_state(btcoexist,
++						 BTC_PS_WIFI_NATIVE, 0x0, 0x0);
++			halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						1);
++			halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 0xb);
++			halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++
++			common = true;
++		} else {
++			low_pwr_disable = true;
++			btcoexist->btc_set(btcoexist,
++					   BTC_SET_ACT_DISABLE_LOW_POWER,
++					   &low_pwr_disable);
++
++			if (wifi_busy) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++				BTC_TRACE(trace_buf);
++				common = false;
++				/* common = halbtc8821a2ant_action_wifi_idle_process(btcoexist);	 */
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++				BTC_TRACE(trace_buf);
++				/* common = false;	 */
++				common = halbtc8821a2ant_action_wifi_idle_process(
++						 btcoexist);
++			}
++		}
++	}
++
++	return common;
++}
++void halbtc8821a2ant_tdma_duration_adjust(IN struct btc_coexist *btcoexist,
++		IN boolean sco_hid, IN boolean tx_pause, IN u8 max_interval)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0;
++
++	if (!coex_dm->auto_tdma_adjust) {
++		coex_dm->auto_tdma_adjust = true;
++		{
++			if (sco_hid) {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					} else if (max_interval == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (max_interval == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					} else if (max_interval == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (max_interval == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			} else {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (max_interval == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (max_interval == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (max_interval == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (max_interval == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					}
++				}
++			}
++		}
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/* accquire the BT TRx retry count from BT_Info byte2 */
++		retry_count = coex_sta->bt_retry_cnt;
++		result = 0;
++		wait_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if ³sÄò n ­Ó2¬í retry count¬°0, «h½Õ¼eWiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {	/* if ³sÄò 2 ­Ó2¬í retry count< 3, «h½Õ¯¶WiFi duration */
++				if (wait_count <= 2)
++					m++; /* ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^ */
++				else
++					m = 1;
++
++				if (m >= 20)  /* m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration. */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++			}
++		} else { /* retry count > 3, ¥u­n1¦¸ retry count > 3, «h½Õ¯¶WiFi duration */
++			if (wait_count == 1)
++				m++; /* ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^ */
++			else
++				m = 1;
++
++			if (m >= 20)  /* m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration. */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++		}
++
++		if (max_interval == 1) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 71) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 5);
++					coex_dm->ps_tdma_du_adj_type = 5;
++				} else if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 5);
++					coex_dm->ps_tdma_du_adj_type = 5;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 13);
++					coex_dm->ps_tdma_du_adj_type = 13;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 71);
++					coex_dm->ps_tdma_du_adj_type = 71;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 9);
++					coex_dm->ps_tdma_du_adj_type = 9;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 71) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 71);
++						coex_dm->ps_tdma_du_adj_type =
++							71;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					}
++				}
++			}
++		} else if (max_interval == 2) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					}
++				}
++			}
++		} else if (max_interval == 3) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8821a2ant_ps_tdma(btcoexist,
++							NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821a2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			}
++		}
++	}
++
++	/* if current PsTdma not match with the recorded one (when scan, dhcp...), */
++	/* then we have to adjust it back to the previous record one. */
++	if (coex_dm->cur_ps_tdma != coex_dm->ps_tdma_du_adj_type) {
++		boolean	scan = false, link = false, roam = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], PsTdma type dismatch!!!, cur_ps_tdma=%d, recordPsTdma=%d\n",
++			    coex_dm->cur_ps_tdma, coex_dm->ps_tdma_du_adj_type);
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (!scan && !link && !roam)
++			halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						coex_dm->ps_tdma_du_adj_type);
++		else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], roaming/link/scan is under progress, will adjust next time!!!\n");
++			BTC_TRACE(trace_buf);
++		}
++	}
++}
++
++/* SCO only or SCO+PAN(HS) */
++void halbtc8821a2ant_action_sco(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8	wifi_rssi_state, bt_rssi_state;
++	u32	wifi_bw;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 4);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) /* for SCO quality at 11b/g mode */
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	else { /* for SCO quality & wifi performance balance at 11n mode */
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			halbtc8821a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 8);
++		else {
++			if (bt_link_info->sco_only)
++				halbtc8821a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 17);
++			else
++				halbtc8821a2ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 12);
++		}
++	}
++
++	halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++				0); /* for voice quality */
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      true, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      true, 0x18);
++		}
++	}
++}
++
++
++void halbtc8821a2ant_action_hid(IN struct btc_coexist *btcoexist)
++{
++	u8	wifi_rssi_state, bt_rssi_state;
++	u32	wifi_bw;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) /* for HID at 11b/g mode */
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++	else  /* for HID quality & wifi performance balance at 11n mode */
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++
++	halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 24);
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* A2DP only / PAN(EDR) only/ A2DP+PAN(HS) */
++void halbtc8821a2ant_action_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++	u8		ap_num = 0;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM, &ap_num);
++
++	/* define the office environment */
++	if ((ap_num >= 10) && BTC_RSSI_HIGH(wifi_rssi_state1) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++		/* dbg_print(" AP#>10(%d)\n", ap_num); */
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x0);
++		halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x8);
++		halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++		/* halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1); */
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 23);
++
++		/* sw mechanism */
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x6);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      true, 0x6);
++		}
++		return;
++
++	}
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     13);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++		/* halbtc8821a2ant_tdma_duration_adjust(btcoexist, false, false, 1); */
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 23);
++	} else {
++		/* halbtc8821a2ant_tdma_duration_adjust(btcoexist, false, true, 1); */
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 23);
++	}
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8821a2ant_action_a2dp_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     13);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	halbtc8821a2ant_tdma_duration_adjust(btcoexist, false, true, 2);
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8821a2ant_action_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     10);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     13);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 26);
++	else
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 26);
++
++	/* sw mechanism */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++
++/* PAN(HS) only */
++void halbtc8821a2ant_action_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++	halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* PAN(EDR)+A2DP */
++void halbtc8821a2ant_action_pan_edr_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	else
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     12);
++
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			halbtc8821a2ant_tdma_duration_adjust(btcoexist, false,
++							     true, 3);
++		else
++			halbtc8821a2ant_tdma_duration_adjust(btcoexist, false,
++							     false, 3);
++	} else {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     13);
++		halbtc8821a2ant_tdma_duration_adjust(btcoexist, false, true, 3);
++	}
++
++	/* sw mechanism	 */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, false,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8821a2ant_action_pan_edr_hid(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     14);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++		if (BTC_WIFI_BW_HT40 == wifi_bw) {
++			halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 3);
++			/* halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 11); */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x780);
++		} else {
++			halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++							 6);
++			/* halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7); */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x0);
++		}
++		halbtc8821a2ant_tdma_duration_adjust(btcoexist, true, false, 2);
++	} else {
++		halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		/* halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 14); */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++					  0x0);
++		halbtc8821a2ant_tdma_duration_adjust(btcoexist, true, true, 2);
++	}
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++/* HID+A2DP+PAN(EDR) */
++void halbtc8821a2ant_action_hid_a2dp_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1,  bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 0);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 0x8);
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (BTC_RSSI_HIGH(bt_rssi_state))
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++	else
++		halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     14);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			halbtc8821a2ant_tdma_duration_adjust(btcoexist, true,
++							     true, 3);
++		else
++			halbtc8821a2ant_tdma_duration_adjust(btcoexist, true,
++							     false, 3);
++	} else
++		halbtc8821a2ant_tdma_duration_adjust(btcoexist, true, true, 3);
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8821a2ant_action_hid_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, wifi_rssi_state1, bt_rssi_state;
++	u32		wifi_bw;
++	u8		ap_num = 0;
++
++	wifi_rssi_state = halbtc8821a2ant_wifi_rssi_state(btcoexist, 0, 2, 15,
++			  0);
++	/* bt_rssi_state = halbtc8821a2ant_bt_rssi_state(2, 29, 0); */
++	wifi_rssi_state1 = halbtc8821a2ant_wifi_rssi_state(btcoexist, 1, 2,
++			   BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES, 0);
++	bt_rssi_state = halbtc8821a2ant_bt_rssi_state(3,
++			BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES, 37);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0);
++
++	halbtc8821a2ant_limited_rx(btcoexist, NORMAL_EXEC, false, true, 0x5);
++
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) {
++		if (BTC_RSSI_HIGH(bt_rssi_state))
++			halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++		else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++			halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++		else
++			halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	} else {
++		/* only 802.11N mode we have to dec bt power to 4 degree */
++		if (BTC_RSSI_HIGH(bt_rssi_state)) {
++			btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++					   &ap_num);
++			/* need to check ap Number of Not */
++			if (ap_num < 10)
++				halbtc8821a2ant_dec_bt_pwr(btcoexist,
++							   NORMAL_EXEC, 4);
++			else
++				halbtc8821a2ant_dec_bt_pwr(btcoexist,
++							   NORMAL_EXEC, 2);
++		} else if (BTC_RSSI_MEDIUM(bt_rssi_state))
++			halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++		else
++			halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++	}
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state1) && BTC_RSSI_HIGH(bt_rssi_state)) {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE,
++						 0x0, 0x0);
++	} else {
++		halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     14);
++		halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++						 0x4);
++	}
++
++	if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++	    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++		/* halbtc8821a2ant_tdma_duration_adjust(btcoexist, true, false, 3); */
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 23);
++	} else {
++		/* halbtc8821a2ant_tdma_duration_adjust(btcoexist, true, true, 3); */
++		halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 23);
++	}
++
++	/* sw mechanism */
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, true, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	} else {
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, true, false,
++						      false, 0x18);
++		} else {
++			halbtc8821a2ant_sw_mechanism1(btcoexist, false, true,
++						      false, false);
++			halbtc8821a2ant_sw_mechanism2(btcoexist, false, false,
++						      false, 0x18);
++		}
++	}
++}
++
++void halbtc8821a2ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821a2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++
++	halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++	halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8821a2ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821a2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8821a2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8821a2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821a2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	/* hw all off */
++	/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff, 0x0); */
++	halbtc8821a2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821a2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++					 0x0);
++	halbtc8821a2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++}
++
++void halbtc8821a2ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	boolean				wifi_under_5g = false;
++	u8				algorithm = 0;
++	u32				num_of_wifi_link = 0;
++	u32				wifi_link_status = 0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean				miracast_plus_bt = false;
++	boolean				scan = false, link = false, roam = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), run 5G coex setting!!<===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a2ant_coex_under_5g(btcoexist);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a2ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	algorithm = halbtc8821a2ant_action_algorithm(btcoexist);
++	if (coex_sta->c2h_bt_inquiry_page &&
++	    (BT_8821A_2ANT_COEX_ALGO_PANHS != algorithm)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under inquiry/page scan !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a2ant_action_bt_inquiry(btcoexist);
++		return;
++	} else {
++
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++	if (scan || link || roam) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under Link Process !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a2ant_action_wifi_link_process(btcoexist);
++		return;
++	}
++
++	/* for P2P */
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist)
++			miracast_plus_bt = true;
++		else
++			miracast_plus_bt = false;
++
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8821a2ant_action_wifi_multi_port(btcoexist);
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++	coex_dm->cur_algorithm = algorithm;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Algorithm = %d\n",
++		    coex_dm->cur_algorithm);
++	BTC_TRACE(trace_buf);
++
++	if (halbtc8821a2ant_is_common_action(btcoexist)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Action 2-Ant common.\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->auto_tdma_adjust = false;
++	} else {
++		if (coex_dm->cur_algorithm != coex_dm->pre_algorithm) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], pre_algorithm=%d, cur_algorithm=%d\n",
++				coex_dm->pre_algorithm, coex_dm->cur_algorithm);
++			BTC_TRACE(trace_buf);
++			coex_dm->auto_tdma_adjust = false;
++		}
++		switch (coex_dm->cur_algorithm) {
++		case BT_8821A_2ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_sco(btcoexist);
++			break;
++		case BT_8821A_2ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_hid(btcoexist);
++			break;
++		case BT_8821A_2ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_a2dp(btcoexist);
++			break;
++		case BT_8821A_2ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_a2dp_pan_hs(btcoexist);
++			break;
++		case BT_8821A_2ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_pan_edr(btcoexist);
++			break;
++		case BT_8821A_2ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_pan_hs(btcoexist);
++			break;
++		case BT_8821A_2ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_pan_edr_a2dp(btcoexist);
++			break;
++		case BT_8821A_2ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_pan_edr_hid(btcoexist);
++			break;
++		case BT_8821A_2ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_hid_a2dp_pan_edr(
++				btcoexist);
++			break;
++		case BT_8821A_2ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_action_hid_a2dp(btcoexist);
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_coex_all_off(btcoexist);
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8821a2ant_wifi_off_hw_cfg(IN struct btc_coexist *btcoexist)
++{
++	u8 h2c_parameter[2] = {0};
++	u32 fw_ver = 0;
++
++	/* set wlan_act to low */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0xfffff,
++			  0x780); /* WiFi goto standby while GNT_BT 0-->1 */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	if (fw_ver >= 0x180000) {
++		/* Use H2C to set GNT_BT to HIGH */
++		h2c_parameter[0] = 1;
++		btcoexist->btc_fill_h2c(btcoexist, 0x6E, 1, h2c_parameter);
++	} else
++		btcoexist->btc_write_1byte(btcoexist, 0x765, 0x18);
++}
++
++void halbtc8821a2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up)
++{
++	u8	u8tmp = 0;
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 2Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	/* backup rf 0x1e value */
++	coex_dm->bt_rf_0x1e_backup =
++		btcoexist->btc_get_rf_reg(btcoexist, BTC_RF_A, 0x1e, 0xfffff);
++
++	/* 0x790[5:0]=0x5 */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x790);
++	u8tmp &= 0xc0;
++	u8tmp |= 0x5;
++	btcoexist->btc_write_1byte(btcoexist, 0x790, u8tmp);
++
++	/* Antenna config	 */
++	halbtc8821a2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, true,
++				     false);
++	coex_sta->dis_ver_info_cnt = 0;
++
++	/* PTA parameter */
++	halbtc8821a2ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	/* Enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e,
++			   0x4); /* 0x76e[3] =1, WLAN_Act control by PTA */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x3);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++}
++
++/* ************************************************************
++ * work around function start with wa_halbtc8821a2ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8821a2ant_
++ * ************************************************************ */
++void ex_halbtc8821a2ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++
++}
++
++void ex_halbtc8821a2ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x4; /* Set BIT2 by default since it's 2ant case */
++
++	/*  */
++	/* S0 or S1 setting and Local register setting(By the setting fw can get ant number, S0/S1, ... info) */
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++	if (btcoexist->chip_interface == BTC_INTF_USB) {
++		/* fixed at S0 for USB interface */
++		u8tmp |= 0x1;	/* antenna inverse */
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	} else {
++		/* for PCIE and SDIO interface, we check efuse 0xc3[6] */
++		if (board_info->single_ant_path == 0) {
++		} else if (board_info->single_ant_path == 1) {
++			/* set to S0 */
++			u8tmp |= 0x1;	/* antenna inverse */
++		}
++
++		if (btcoexist->chip_interface == BTC_INTF_PCI)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x384,
++							     u8tmp);
++		else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60,
++							     u8tmp);
++	}
++}
++
++void ex_halbtc8821a2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8821a2ant_init_hw_config(btcoexist, true);
++}
++
++void ex_halbtc8821a2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821a2ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8821a2ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u32				u32tmp[4];
++	u32				fa_of_dm, fa_cck;
++	u32				fw_ver = 0, bt_patch_ver = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "Ant PG number/ Ant mechanism:",
++		   board_info->pg_ant_num, board_info->btdm_ant_num);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)",
++		   "CoexVer/ FwVer/ PatchVer",
++		   glcoex_ver_date_8821a_2ant, glcoex_ver_8821a_2ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %ddBm/ %d] ",
++		   "BT [status/ rssi/ retryCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8821A_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8821A_2ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi - 100, coex_sta->bt_retry_cnt);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist);
++	CL_PRINTF(cli_buf);
++
++	{
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++			   "BT Role",
++			   (bt_link_info->slave_role) ? "Slave" : "Master");
++		CL_PRINTF(cli_buf);
++	}
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Info A2DP rate",
++		   (bt_info_ext & BIT(0)) ? "Basic rate" : "EDR rate");
++	CL_PRINTF(cli_buf);
++
++	for (i = 0; i < BT_INFO_SRC_8821A_2ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8821a_2ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	/* Sw mechanism	 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Sw mechanism]============");
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d ",
++		   "SM1[ShRf/ LpRA/ LimDig]",
++		   coex_dm->cur_rf_rx_lpf_shrink, coex_dm->cur_low_penalty_ra,
++		   coex_dm->limited_dig);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d(0x%x) ",
++		   "SM2[AgcT/ AdcB/ SwDacSwing(lvl)]",
++		   coex_dm->cur_agc_table_en, coex_dm->cur_adc_back_off,
++		   coex_dm->cur_dac_swing_on, coex_dm->cur_dac_swing_lvl);
++	CL_PRINTF(cli_buf);
++
++	/* Fw mechanism		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Fw mechanism]============");
++	CL_PRINTF(cli_buf);
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (auto:%d)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   coex_dm->auto_tdma_adjust);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Coex Table Type",
++		   coex_sta->coex_table_type);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "DecBtPwr/ IgnWlanAct",
++		   coex_dm->cur_bt_dec_pwr_lvl, coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x",
++		   "RF-A, 0x1e initVal",
++		   coex_dm->bt_rf_0x1e_backup);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xc5b);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x880);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x778/0x880[29:25]/0xc58[29:25]",
++		   u8tmp[0], (u32tmp[0] & 0x3e000000) >> 25,
++		   ((u8tmp[1] & 0x3e) >> 1));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x764);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x76e);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x764/ 0x765/ 0x76e",
++		   (u32tmp[0] & 0xff), (u32tmp[0] & 0xff00) >> 8, u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0xcb4[7:0](ctrl)/ 0xcb4[29:28](val)",
++		   u32tmp[0] & 0xff, ((u32tmp[0] & 0x30000000) >> 28));
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x974);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x40/ 0x4c[24:23]/ 0x974",
++		   u8tmp[0], ((u32tmp[0] & 0x01800000) >> 23), u32tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x49c);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0xc50(dig)/0x49c(null-drop)",
++		   u32tmp[0] & 0xff, u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xda0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xda4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0xda8);
++	u32tmp[3] = btcoexist->btc_read_4byte(btcoexist, 0xcf0);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5b);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++
++	fa_of_dm = ((u32tmp[0] & 0xffff0000) >> 16) + ((u32tmp[1] & 0xffff0000)
++			>> 16) + (u32tmp[1] & 0xffff) + (u32tmp[2] & 0xffff) + \
++		   ((u32tmp[3] & 0xffff0000) >> 16) + (u32tmp[3] &
++				   0xffff) ;
++	fa_cck = (u8tmp[0] << 8) + u8tmp[1];
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "OFDM-CCA/OFDM-FA/CCK-FA",
++		   u32tmp[0] & 0xffff, fa_of_dm, fa_cck);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8/0x6cc(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++#if (BT_AUTO_REPORT_ONLY_8821A_2ANT == 1)
++	/* halbtc8821a2ant_monitor_bt_ctr(btcoexist); */
++#endif
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8821a2ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++		halbtc8821a2ant_wifi_off_hw_cfg(btcoexist);
++		halbtc8821a2ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++		halbtc8821a2ant_coex_all_off(btcoexist);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = false;
++		halbtc8821a2ant_init_hw_config(btcoexist, false);
++		halbtc8821a2ant_init_coex_dm(btcoexist);
++		halbtc8821a2ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8821a2ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++	}
++}
++
++void ex_halbtc8821a2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	u8	u8tmpa, u8tmpb;
++
++	u8tmpa = btcoexist->btc_read_1byte(btcoexist, 0x765);
++	u8tmpb = btcoexist->btc_read_1byte(btcoexist, 0x76e);
++
++	if (BTC_SCAN_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++	} else if (BTC_SCAN_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "############# [BTCoex], 0x765=0x%x, 0x76e=0x%x\n", u8tmpa,
++		    u8tmpb);
++	BTC_TRACE(trace_buf);
++}
++
++void ex_halbtc8821a2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	if (BTC_ASSOCIATE_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++	} else if (BTC_ASSOCIATE_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8821a2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++	u8			ap_num = 0;
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] = 0x1;
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else {
++			btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++					   &ap_num);
++			if (ap_num < 10)
++				h2c_parameter[2] = 0x30;
++			else
++				h2c_parameter[2] = 0x20;
++		}
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++}
++
++void ex_halbtc8821a2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	if (type == BTC_PACKET_DHCP) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], DHCP Packet notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8821a2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8			bt_info = 0;
++	u8			i, rsp_source = 0;
++	boolean			bt_busy = false, limited_dig = false;
++	boolean			wifi_connected = false, wifi_under_5g = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8821A_2ANT_MAX)
++		rsp_source = BT_INFO_SRC_8821A_2ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), return for Manual CTRL<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	/* if 0xff, it means BT is under WHCK test */
++	if (bt_info == 0xff)
++		coex_sta->bt_whck_test = true;
++	else
++		coex_sta->bt_whck_test = false;
++
++	if (BT_INFO_SRC_8821A_2ANT_WIFI_FW != rsp_source) {
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		coex_sta->bt_rssi =
++			coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		coex_sta->bt_tx_rx_mask = (coex_sta->bt_info_c2h[rsp_source][2]
++					   & 0x40);
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TX_RX_MASK,
++				   &coex_sta->bt_tx_rx_mask);
++		if (coex_sta->bt_tx_rx_mask) {
++			/* BT into is responded by BT FW and BT RF REG 0x3C != 0x01 => Need to switch BT TRx Mask */
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Switch BT TRx Mask since BT RF REG 0x3C != 0x01\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF,
++						  0x3c, 0x01);
++		}
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++		if ((coex_sta->bt_info_ext & BIT(1))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++			BTC_TRACE(trace_buf);
++			if (wifi_connected)
++				ex_halbtc8821a2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_CONNECT);
++			else
++				ex_halbtc8821a2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_DISCONNECT);
++		}
++
++
++		if (!btcoexist->manual_control && !wifi_under_5g) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT ext info = 0x%x!!\n",
++				    coex_sta->bt_info_ext);
++			BTC_TRACE(trace_buf);
++			if ((coex_sta->bt_info_ext & BIT(3))) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3=1, wifi_connected=%d\n",
++					    wifi_connected);
++				BTC_TRACE(trace_buf);
++				if (wifi_connected) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++					BTC_TRACE(trace_buf);
++					halbtc8821a2ant_ignore_wlan_act(
++						btcoexist, FORCE_EXEC, false);
++				}
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3=0, wifi_connected=%d\n",
++					    wifi_connected);
++				BTC_TRACE(trace_buf);
++				/* BT already NOT ignore Wlan active, do nothing here. */
++				if (!wifi_connected) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT ext info bit3 check, set BT to ignore Wlan active!!\n");
++					BTC_TRACE(trace_buf);
++					halbtc8821a2ant_ignore_wlan_act(
++						btcoexist, FORCE_EXEC, true);
++				}
++			}
++		}
++
++#if (BT_AUTO_REPORT_ONLY_8821A_2ANT == 0)
++		if ((coex_sta->bt_info_ext & BIT(4))) {
++			/* BT auto report already enabled, do nothing */
++		} else
++			halbtc8821a2ant_bt_auto_report(btcoexist, FORCE_EXEC,
++						       true);
++#endif
++	}
++
++	/* check BIT2 first ==> check if bt is under inquiry or page scan */
++	if (bt_info & BT_INFO_8821A_2ANT_B_INQ_PAGE)
++		coex_sta->c2h_bt_inquiry_page = true;
++	else
++		coex_sta->c2h_bt_inquiry_page = false;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8821A_2ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8821A_2ANT_B_FTP)
++			coex_sta->pan_exist = true;
++		else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8821A_2ANT_B_A2DP)
++			coex_sta->a2dp_exist = true;
++		else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8821A_2ANT_B_HID)
++			coex_sta->hid_exist = true;
++		else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8821A_2ANT_B_SCO_ESCO)
++			coex_sta->sco_exist = true;
++		else
++			coex_sta->sco_exist = false;
++
++		if ((coex_sta->hid_exist == false) &&
++		    (coex_sta->c2h_bt_inquiry_page == false) &&
++		    (coex_sta->sco_exist == false)) {
++			if (coex_sta->high_priority_tx  +
++			    coex_sta->high_priority_rx >= 160)
++				coex_sta->hid_exist = true;
++		}
++	}
++
++	halbtc8821a2ant_update_bt_link_info(btcoexist);
++
++	if (!(bt_info & BT_INFO_8821A_2ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8821A_2ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8821A_2ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8821A_2ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8821A_2ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8821A_2ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8821A_2ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8821A_2ANT_B_ACL_BUSY) {
++		coex_dm->bt_status = BT_8821A_2ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8821A_2ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8821A_2ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8821A_2ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8821A_2ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status)) {
++		bt_busy = true;
++		limited_dig = true;
++	} else {
++		bt_busy = false;
++		limited_dig = false;
++	}
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	coex_dm->limited_dig = limited_dig;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_LIMITED_DIG, &limited_dig);
++
++	halbtc8821a2ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8821a2ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821a2ant_wifi_off_hw_cfg(btcoexist);
++	/* remove due to interrupt is disabled that polling c2h will fail and delay 100ms. */
++	/* btcoexist->btc_set_bt_reg(btcoexist, BTC_BT_REG_RF, 0x3c, 0x15); //BT goto standby while GNT_BT 1-->0 */
++	halbtc8821a2ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++	ex_halbtc8821a2ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++}
++
++void ex_halbtc8821a2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821a2ant_init_hw_config(btcoexist, false);
++		halbtc8821a2ant_init_coex_dm(btcoexist);
++		halbtc8821a2ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8821a2ant_periodical(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ==========================Periodical===========================\n");
++	BTC_TRACE(trace_buf);
++
++	if (coex_sta->dis_ver_info_cnt <= 5) {
++		coex_sta->dis_ver_info_cnt += 1;
++		if (coex_sta->dis_ver_info_cnt == 3) {
++			/* Antenna config to set 0x765 = 0x0 (GNT_BT control by PTA) after initial */
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Set GNT_BT control by PTA\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821a2ant_set_ant_path(btcoexist,
++				     BTC_ANT_WIFI_AT_MAIN, false, false);
++		}
++	}
++
++#if (BT_AUTO_REPORT_ONLY_8821A_2ANT == 0)
++	halbtc8821a2ant_query_bt_info(btcoexist);
++	halbtc8821a2ant_monitor_bt_enable_disable(btcoexist);
++#else
++	halbtc8821a2ant_monitor_bt_ctr(btcoexist);
++	halbtc8821a2ant_monitor_wifi_ctr(btcoexist);
++
++	if (halbtc8821a2ant_is_wifi_status_changed(btcoexist) ||
++	    coex_dm->auto_tdma_adjust)
++		halbtc8821a2ant_run_coexist_mechanism(btcoexist);
++#endif
++}
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
+\ No newline at end of file
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8821a2Ant.h b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8821a2Ant.h
+new file mode 100644
+index 0000000..73252dd
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8821a2Ant.h
+@@ -0,0 +1,205 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821A_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8821A 2Ant BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8821A_2ANT				1
++
++
++#define	BT_INFO_8821A_2ANT_B_FTP						BIT(7)
++#define	BT_INFO_8821A_2ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8821A_2ANT_B_HID						BIT(5)
++#define	BT_INFO_8821A_2ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8821A_2ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8821A_2ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8821A_2ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8821A_2ANT_B_CONNECTION				BIT(0)
++
++#define		BTC_RSSI_COEX_THRESH_TOL_8821A_2ANT		2
++
++
++#define	BT_8821A_2ANT_WIFI_RSSI_COEXSWITCH_THRES				42  /* WiFi RSSI Threshold for 2-Ant TDMA/1-Ant PS-TDMA translation */
++#define	BT_8821A_2ANT_BT_RSSI_COEXSWITCH_THRES				46 /* BT RSSI Threshold for 2-Ant TDMA/1-Ant PS-TDMA translation */
++
++enum bt_info_src_8821a_2ant {
++	BT_INFO_SRC_8821A_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8821A_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8821A_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8821A_2ANT_MAX
++};
++
++enum bt_8821a_2ant_bt_status {
++	BT_8821A_2ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8821A_2ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8821A_2ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8821A_2ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8821A_2ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8821A_2ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8821A_2ANT_BT_STATUS_MAX
++};
++
++enum bt_8821a_2ant_coex_algo {
++	BT_8821A_2ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8821A_2ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8821A_2ANT_COEX_ALGO_HID				= 0x2,
++	BT_8821A_2ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8821A_2ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8821A_2ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8821A_2ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8821A_2ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8821A_2ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8821A_2ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8821A_2ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8821A_2ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++struct coex_dm_8821a_2ant {
++	/* fw mechanism */
++	u8		pre_bt_dec_pwr_lvl;
++	u8		cur_bt_dec_pwr_lvl;
++	u8		pre_fw_dac_swing_lvl;
++	u8		cur_fw_dac_swing_lvl;
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		reset_tdma_adjust;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++
++	/* sw mechanism */
++	boolean		pre_rf_rx_lpf_shrink;
++	boolean		cur_rf_rx_lpf_shrink;
++	u32		bt_rf_0x1e_backup;
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	boolean		pre_dac_swing_on;
++	u32		pre_dac_swing_lvl;
++	boolean		cur_dac_swing_on;
++	u32		cur_dac_swing_lvl;
++	boolean		pre_adc_back_off;
++	boolean		cur_adc_back_off;
++	boolean	pre_agc_table_en;
++	boolean		cur_agc_table_en;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	boolean		need_recover0x948;
++	u32		backup0x948;
++
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++};
++
++struct coex_sta_8821a_2ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	u8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8821A_2ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8821A_2ANT_MAX];
++	boolean				bt_whck_test;
++	boolean					c2h_bt_inquiry_page;
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	u8					coex_table_type;
++	boolean					force_lps_on;
++
++	u8					dis_ver_info_cnt;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8821a2ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821a2ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821a2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8821a2ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821a2ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8821a2ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8821a2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8821a2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8821a2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821a2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821a2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8821a2ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821a2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8821a2ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821a2ant_display_coex_info(IN struct btc_coexist *btcoexist);
++
++#else
++#define	ex_halbtc8821a2ant_power_on_setting(btcoexist)
++#define	ex_halbtc8821a2ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8821a2ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8821a2ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8821a2ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8821a2ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8821a2ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8821a2ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8821a2ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8821a2ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8821a2ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8821a2ant_halt_notify(btcoexist)
++#define	ex_halbtc8821a2ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8821a2ant_periodical(btcoexist)
++#define	ex_halbtc8821a2ant_display_coex_info(btcoexist)
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8821aCsr2Ant.c b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8821aCsr2Ant.c
+new file mode 100644
+index 0000000..b69d156
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8821aCsr2Ant.c
+@@ -0,0 +1,3997 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8821A_CSR_CSR Co-exist mechanism
++ *
++ * History
++ * 2012/08/22 Cosa first check in.
++ * 2012/11/14 Cosa Revise for 8821A_CSR 2Ant out sourcing.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821A_SUPPORT == 1)
++
++#define _BTCOEX_CSR 1
++
++#ifndef rtw_warn_on_8821acsr2ant
++#define rtw_warn_on_8821acsr2ant(condition) do {} while (0)
++#endif
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8821a_csr_2ant	glcoex_dm_8821a_csr_2ant;
++static struct  coex_dm_8821a_csr_2ant	*coex_dm = &glcoex_dm_8821a_csr_2ant;
++static struct  coex_sta_8821a_csr_2ant	glcoex_sta_8821a_csr_2ant;
++static struct  coex_sta_8821a_csr_2ant	*coex_sta = &glcoex_sta_8821a_csr_2ant;
++
++const char *const glbt_info_src_8821a_csr_2ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32 glcoex_ver_date_8821a_csr_2ant = 20140901;
++u32 glcoex_ver_8821a_csr_2ant = 0x51;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8821aCsr2ant_
++ * ************************************************************ */
++u8 halbtc8821aCsr2ant_bt_rssi_state(u8 level_num, u8 rssi_thresh,
++				    u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++				BTC_RSSI_COEX_THRESH_TOL_8821A_CSR_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++				BTC_RSSI_COEX_THRESH_TOL_8821A_CSR_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++				BTC_RSSI_COEX_THRESH_TOL_8821A_CSR_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8821aCsr2ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++				  BTC_RSSI_COEX_THRESH_TOL_8821A_CSR_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++				  BTC_RSSI_COEX_THRESH_TOL_8821A_CSR_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++				  BTC_RSSI_COEX_THRESH_TOL_8821A_CSR_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8821aCsr2ant_monitor_bt_enable_disable(IN struct btc_coexist
++		*btcoexist)
++{
++	static u32	bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++
++	/* This function check if bt is disabled */
++
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is enabled !!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		bt_disable_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], bt all counters=0, %d times!!\n",
++			    bt_disable_cnt);
++		BTC_TRACE(trace_buf);
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++					   &bt_disabled);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++			BTC_TRACE(trace_buf);
++		}
++	}
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++		if (!bt_disabled) {
++		} else {
++		}
++	}
++}
++
++void halbtc8821aCsr2ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], High Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		    reg_hp_txrx, reg_hp_tx, reg_hp_tx, reg_hp_rx, reg_hp_rx);
++	BTC_TRACE(trace_buf);
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], Low Priority Tx/Rx (reg 0x%x)=0x%x(%d)/0x%x(%d)\n",
++		    reg_lp_txrx, reg_lp_tx, reg_lp_tx, reg_lp_rx, reg_lp_rx);
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x5d);
++}
++
++void halbtc8821aCsr2ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++			       IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8821aCsr2ant_auto_rate_fallback_retry(IN struct btc_coexist
++		*btcoexist, IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8821aCsr2ant_retry_limit(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8821aCsr2ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				       IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		case 2:
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x17);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8821aCsr2Ant_AmpduMaxNum(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_num_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_num_type != coex_dm->cur_ampdu_num_type)) {
++		switch (coex_dm->cur_ampdu_num_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x4ca,
++					   coex_dm->backup_ampdu_max_num);
++			break;
++		case 1:
++			btcoexist->btc_write_2byte(btcoexist, 0x4ca,
++						   0x0808);
++			break;
++		case 2:
++			btcoexist->btc_write_2byte(btcoexist, 0x4ca,
++						   0x1f1f);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_num_type = coex_dm->cur_ampdu_num_type;
++
++}
++
++void halbtc8821aCsr2ant_limited_tx(IN struct btc_coexist *btcoexist,
++		   IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++	   IN u8 retry_limit_type, IN u8 ampdu_time_type, IN u8 ampdu_num_type)
++{
++	switch (ra_mask_type) {
++	case 0:	/* normal mode */
++		halbtc8821aCsr2ant_update_ra_mask(btcoexist, force_exec,
++						  0x0);
++		break;
++	case 1:	/* disable cck 1/2 */
++		halbtc8821aCsr2ant_update_ra_mask(btcoexist, force_exec,
++						  0x00000003);
++		break;
++	case 2:	/* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		halbtc8821aCsr2ant_update_ra_mask(btcoexist, force_exec,
++						  0x0001f1f7);
++		break;
++	default:
++		break;
++	}
++
++	halbtc8821aCsr2ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8821aCsr2ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8821aCsr2ant_ampdu_max_time(btcoexist, force_exec,
++					  ampdu_time_type);
++	halbtc8821aCsr2Ant_AmpduMaxNum(btcoexist, force_exec, ampdu_num_type);
++}
++
++
++
++void halbtc8821aCsr2ant_limited_rx(IN struct btc_coexist *btcoexist,
++			   IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			   IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++}
++
++void halbtc8821aCsr2ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	rtw_warn_on_8821acsr2ant(_BTCOEX_CSR);
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++u8 halbtc8821aCsr2ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_stack_info		*stack_info = &btcoexist->stack_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8821A_CSR_2ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	/* sync StackInfo with BT firmware and stack */
++	stack_info->hid_exist = coex_sta->hid_exist;
++	stack_info->bt_link_exist = coex_sta->bt_link_exist;
++	stack_info->sco_exist = coex_sta->sco_exist;
++	stack_info->pan_exist = coex_sta->pan_exist;
++	stack_info->a2dp_exist = coex_sta->a2dp_exist;
++
++	if (!stack_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No profile exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (stack_info->sco_exist)
++		num_of_diff_profile++;
++	if (stack_info->hid_exist)
++		num_of_diff_profile++;
++	if (stack_info->pan_exist)
++		num_of_diff_profile++;
++	if (stack_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (stack_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8821A_CSR_2ANT_COEX_ALGO_SCO;
++		} else {
++			if (stack_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_CSR_2ANT_COEX_ALGO_HID;
++			} else if (stack_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821A_CSR_2ANT_COEX_ALGO_A2DP;
++			} else if (stack_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (stack_info->sco_exist) {
++			if (stack_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm =
++					BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (stack_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm =
++					BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (stack_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (stack_info->hid_exist &&
++			    stack_info->a2dp_exist) {
++				if (stack_info->num_of_hid >= 2) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], HID*2 + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], HID + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_HID_A2DP;
++				}
++			} else if (stack_info->hid_exist &&
++				   stack_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (stack_info->pan_exist &&
++				   stack_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (stack_info->sco_exist) {
++			if (stack_info->hid_exist &&
++			    stack_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm =
++					BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++			} else if (stack_info->hid_exist &&
++				   stack_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (stack_info->pan_exist &&
++				   stack_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (stack_info->hid_exist &&
++			    stack_info->pan_exist &&
++			    stack_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (stack_info->sco_exist) {
++			if (stack_info->hid_exist &&
++			    stack_info->pan_exist &&
++			    stack_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++boolean halbtc8821aCsr2ant_need_to_dec_bt_pwr(IN struct btc_coexist *btcoexist)
++{
++	boolean		ret = false;
++	boolean		bt_hs_on = false, wifi_connected = false;
++	s32		bt_hs_rssi = 0;
++	u8		bt_rssi_state;
++
++	if (!btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on))
++		return false;
++	if (!btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++				&wifi_connected))
++		return false;
++	if (!btcoexist->btc_get(btcoexist, BTC_GET_S4_HS_RSSI, &bt_hs_rssi))
++		return false;
++
++	bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++	if (wifi_connected) {
++		if (bt_hs_on) {
++			if (bt_hs_rssi > 37)
++				ret = true;
++		} else {
++			if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++			    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++				ret = true;
++		}
++	}
++
++	return ret;
++}
++
++void halbtc8821aCsr2ant_set_fw_dac_swing_level(IN struct btc_coexist *btcoexist,
++		IN u8 dac_swing_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	/* There are several type of dacswing */
++	/* 0x18/ 0x10/ 0xc/ 0x8/ 0x4/ 0x6 */
++	h2c_parameter[0] = dac_swing_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x64, 1, h2c_parameter);
++}
++
++void halbtc8821aCsr2ant_set_fw_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++		IN boolean dec_bt_pwr)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (dec_bt_pwr)
++		h2c_parameter[0] |= BIT(1);
++
++	rtw_warn_on_8821acsr2ant(_BTCOEX_CSR);
++	btcoexist->btc_fill_h2c(btcoexist, 0x62, 1, h2c_parameter);
++}
++
++void halbtc8821aCsr2ant_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				   IN boolean force_exec, IN boolean dec_bt_pwr)
++{
++	coex_dm->cur_dec_bt_pwr = dec_bt_pwr;
++
++	if (!force_exec) {
++		if (coex_dm->pre_dec_bt_pwr == coex_dm->cur_dec_bt_pwr)
++			return;
++	}
++
++	/* TODO: may CSR consider to decrease BT power? */
++	/* halbtc8821aCsr2ant_set_fw_dec_bt_pwr(btcoexist, coex_dm->cur_dec_bt_pwr); */
++
++	coex_dm->pre_dec_bt_pwr = coex_dm->cur_dec_bt_pwr;
++}
++
++void halbtc8821aCsr2ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++		IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	rtw_warn_on_8821acsr2ant(_BTCOEX_CSR);
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8821aCsr2ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		       IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	/* halbtc8821aCsr2ant_set_bt_auto_report(btcoexist, coex_dm->cur_bt_auto_report); */
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8821aCsr2ant_fw_dac_swing_lvl(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 fw_dac_swing_lvl)
++{
++	coex_dm->cur_fw_dac_swing_lvl = fw_dac_swing_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_fw_dac_swing_lvl ==
++		    coex_dm->cur_fw_dac_swing_lvl)
++			return;
++	}
++
++	halbtc8821aCsr2ant_set_fw_dac_swing_level(btcoexist,
++			coex_dm->cur_fw_dac_swing_lvl);
++
++	coex_dm->pre_fw_dac_swing_lvl = coex_dm->cur_fw_dac_swing_lvl;
++}
++
++void halbtc8821aCsr2ant_set_sw_rf_rx_lpf_corner(IN struct btc_coexist
++		*btcoexist, IN boolean rx_rf_shrink_on)
++{
++	if (rx_rf_shrink_on) {
++		/* Shrink RF Rx LPF corner */
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Shrink RF Rx LPF corner!!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e, 0xfffff,
++					  0xffffc);
++	} else {
++		/* Resume RF Rx LPF corner */
++		/* After initialized, we can use coex_dm->bt_rf_0x1e_backup */
++		if (btcoexist->initilized) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Resume RF Rx LPF corner!!\n");
++			BTC_TRACE(trace_buf);
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++					  0xfffff, coex_dm->bt_rf_0x1e_backup);
++		}
++	}
++}
++
++void halbtc8821aCsr2ant_rf_shrink(IN struct btc_coexist *btcoexist,
++			  IN boolean force_exec, IN boolean rx_rf_shrink_on)
++{
++	coex_dm->cur_rf_rx_lpf_shrink = rx_rf_shrink_on;
++
++	if (!force_exec) {
++		if (coex_dm->pre_rf_rx_lpf_shrink ==
++		    coex_dm->cur_rf_rx_lpf_shrink)
++			return;
++	}
++	halbtc8821aCsr2ant_set_sw_rf_rx_lpf_corner(btcoexist,
++			coex_dm->cur_rf_rx_lpf_shrink);
++
++	coex_dm->pre_rf_rx_lpf_shrink = coex_dm->cur_rf_rx_lpf_shrink;
++}
++
++void halbtc8821aCsr2ant_set_sw_penalty_tx_rate_adaptive(
++	IN struct btc_coexist *btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8821aCsr2ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			       IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8821aCsr2ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8821aCsr2ant_set_dac_swing_reg(IN struct btc_coexist *btcoexist,
++		IN u32 level)
++{
++	u8	val = (u8)level;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Write SwDacSwing = 0x%x\n", level);
++	BTC_TRACE(trace_buf);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xc5b, 0x3e, val);
++}
++
++void halbtc8821aCsr2ant_set_sw_full_time_dac_swing(IN struct btc_coexist
++		*btcoexist, IN boolean sw_dac_swing_on, IN u32 sw_dac_swing_lvl)
++{
++	if (sw_dac_swing_on)
++		halbtc8821aCsr2ant_set_dac_swing_reg(btcoexist,
++						     sw_dac_swing_lvl);
++	else
++		halbtc8821aCsr2ant_set_dac_swing_reg(btcoexist, 0x18);
++}
++
++
++void halbtc8821aCsr2ant_dac_swing(IN struct btc_coexist *btcoexist,
++	  IN boolean force_exec, IN boolean dac_swing_on, IN u32 dac_swing_lvl)
++{
++	coex_dm->cur_dac_swing_on = dac_swing_on;
++	coex_dm->cur_dac_swing_lvl = dac_swing_lvl;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_dac_swing_on == coex_dm->cur_dac_swing_on) &&
++		    (coex_dm->pre_dac_swing_lvl ==
++		     coex_dm->cur_dac_swing_lvl))
++			return;
++	}
++	delay_ms(30);
++	halbtc8821aCsr2ant_set_sw_full_time_dac_swing(btcoexist, dac_swing_on,
++			dac_swing_lvl);
++
++	coex_dm->pre_dac_swing_on = coex_dm->cur_dac_swing_on;
++	coex_dm->pre_dac_swing_lvl = coex_dm->cur_dac_swing_lvl;
++}
++
++void halbtc8821aCsr2ant_set_adc_back_off(IN struct btc_coexist *btcoexist,
++		IN boolean adc_back_off)
++{
++	if (adc_back_off) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB BackOff Level On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x8db, 0x60, 0x3);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BB BackOff Level Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x8db, 0x60, 0x1);
++	}
++}
++
++void halbtc8821aCsr2ant_adc_back_off(IN struct btc_coexist *btcoexist,
++			     IN boolean force_exec, IN boolean adc_back_off)
++{
++	coex_dm->cur_adc_back_off = adc_back_off;
++
++	if (!force_exec) {
++		if (coex_dm->pre_adc_back_off == coex_dm->cur_adc_back_off)
++			return;
++	}
++	halbtc8821aCsr2ant_set_adc_back_off(btcoexist,
++					    coex_dm->cur_adc_back_off);
++
++	coex_dm->pre_adc_back_off = coex_dm->cur_adc_back_off;
++}
++
++void halbtc8821aCsr2ant_set_agc_table(IN struct btc_coexist *btcoexist,
++				      IN boolean agc_table_en)
++{
++	u8		rssi_adjust_val = 0;
++
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xef, 0xfffff, 0x02000);
++	if (agc_table_en) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table On!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x28F4B);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x10AB2);
++		rssi_adjust_val = 8;
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Agc Table Off!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x2884B);
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x3b, 0xfffff,
++					  0x104B2);
++	}
++	btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xef, 0xfffff, 0x0);
++
++	/* set rssi_adjust_val for wifi module. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RSSI_ADJ_VAL_FOR_AGC_TABLE_ON,
++			   &rssi_adjust_val);
++}
++
++void halbtc8821aCsr2ant_agc_table(IN struct btc_coexist *btcoexist,
++			  IN boolean force_exec, IN boolean agc_table_en)
++{
++	coex_dm->cur_agc_table_en = agc_table_en;
++
++	if (!force_exec) {
++		if (coex_dm->pre_agc_table_en == coex_dm->cur_agc_table_en)
++			return;
++	}
++	halbtc8821aCsr2ant_set_agc_table(btcoexist, agc_table_en);
++
++	coex_dm->pre_agc_table_en = coex_dm->cur_agc_table_en;
++}
++
++void halbtc8821aCsr2ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8821aCsr2ant_coex_table(IN struct btc_coexist *btcoexist,
++		   IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				   IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8821aCsr2ant_set_coex_table(btcoexist, val0x6c0, val0x6c4,
++					  val0x6c8, val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8821aCsr2ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	rtw_warn_on_8821acsr2ant(_BTCOEX_CSR);
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8821aCsr2ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	/* halbtc8821aCsr2ant_set_fw_ignore_wlan_act(btcoexist, enable); */
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8821aCsr2ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	      IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = byte5;
++	h2c_parameter[5] = 0x01;
++
++	coex_dm->ps_tdma_para[0] = byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = byte5;
++	coex_dm->ps_tdma_para[5] = 0x01;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 6, h2c_parameter);
++}
++
++void halbtc8821aCsr2ant_sw_mechanism1(IN struct btc_coexist *btcoexist,
++		      IN boolean shrink_rx_lpf, IN boolean low_penalty_ra,
++		      IN boolean limited_dig, IN boolean bt_lna_constrain)
++{
++	u32	wifi_bw;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_HT40 != wifi_bw) { /* only shrink RF Rx LPF for HT40 */
++		if (shrink_rx_lpf)
++			shrink_rx_lpf = false;
++	}
++
++	halbtc8821aCsr2ant_rf_shrink(btcoexist, NORMAL_EXEC, shrink_rx_lpf);
++	halbtc8821aCsr2ant_low_penalty_ra(btcoexist, NORMAL_EXEC,
++					  low_penalty_ra);
++
++	/* no limited DIG */
++	/* halbtc8821aCsr2ant_setBtLnaConstrain(btcoexist, NORMAL_EXEC, bt_lna_constrain); */
++}
++
++void halbtc8821aCsr2ant_sw_mechanism2(IN struct btc_coexist *btcoexist,
++		      IN boolean agc_table_shift, IN boolean adc_back_off,
++			      IN boolean sw_dac_swing, IN u32 dac_swing_lvl)
++{
++	/* halbtc8821aCsr2ant_agc_table(btcoexist, NORMAL_EXEC, agc_table_shift); */
++	halbtc8821aCsr2ant_adc_back_off(btcoexist, NORMAL_EXEC, adc_back_off);
++	halbtc8821aCsr2ant_dac_swing(btcoexist, NORMAL_EXEC, sw_dac_swing,
++				     dac_swing_lvl);
++}
++
++void halbtc8821aCsr2ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	     IN u8 ant_pos_type, IN boolean init_hwcfg, IN boolean wifi_off)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u32				u32tmp = 0;
++	u8				h2c_parameter[2] = {0};
++
++	if (init_hwcfg) {
++		/* 0x4c[23]=0, 0x4c[24]=1  Antenna control by WL/BT */
++		u32tmp = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp &= ~BIT(23);
++		u32tmp |= BIT(24);
++		btcoexist->btc_write_4byte(btcoexist, 0x4c, u32tmp);
++
++		btcoexist->btc_write_4byte(btcoexist, 0x974, 0x3ff);
++		btcoexist->btc_write_1byte(btcoexist, 0xcb4, 0x77);
++
++		if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT) {
++			/* tell firmware "antenna inverse"  ==> WRONG firmware antenna control code.==>need fw to fix */
++			h2c_parameter[0] = 1;
++			h2c_parameter[1] = 1;
++			btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++						h2c_parameter);
++		} else {
++			/* tell firmware "no antenna inverse" ==> WRONG firmware antenna control code.==>need fw to fix */
++			h2c_parameter[0] = 0;
++			h2c_parameter[1] = 1;
++			btcoexist->btc_fill_h2c(btcoexist, 0x65, 2,
++						h2c_parameter);
++		}
++	}
++
++	/* ext switch setting */
++	switch (ant_pos_type) {
++	case BTC_ANT_WIFI_AT_MAIN:
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb7,
++						   0x30, 0x1);
++		break;
++	case BTC_ANT_WIFI_AT_AUX:
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb7,
++						   0x30, 0x2);
++		break;
++	}
++}
++
++void halbtc8821aCsr2ant_ps_tdma(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++	if (turn_on) {
++		switch (type) {
++		case 1:
++		default:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x1a, 0x1a, 0xe1, 0x90);
++			break;
++		case 2:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x12, 0x12, 0xe1, 0x90);
++			break;
++		case 3:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x1c, 0x3, 0xf1, 0x90);
++			break;
++		case 4:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x10, 0x03, 0xf1, 0x90);
++			break;
++		case 5:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x1a, 0x1a, 0x60, 0x90);
++			break;
++		case 6:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x12, 0x12, 0x60, 0x90);
++			break;
++		case 7:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x1c, 0x3, 0x70, 0x90);
++			break;
++		case 8:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xa3, 0x10, 0x3, 0x70, 0x90);
++			break;
++		case 9:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x1a, 0x1a, 0xe1, 0x90);
++			break;
++		case 10:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x12, 0x12, 0xe1, 0x90);
++			break;
++		case 11:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0xa, 0xa, 0xe1, 0x90);
++			break;
++		case 12:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x5, 0x5, 0xe1, 0x90);
++			break;
++		case 13:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x1a, 0x1a, 0x60, 0x90);
++			break;
++		case 14:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x12, 0x12, 0x60, 0x90);
++			break;
++		case 15:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0xa, 0xa, 0x60, 0x90);
++			break;
++		case 16:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x5, 0x5, 0x60, 0x90);
++			break;
++		case 17:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xa3, 0x2f, 0x2f, 0x60, 0x90);
++			break;
++		case 18:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x5, 0x5, 0xe1, 0x90);
++			break;
++		case 19:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x25, 0x25, 0xe1, 0x90);
++			break;
++		case 20:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x25, 0x25, 0x60, 0x90);
++			break;
++		case 21:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x15, 0x03, 0x70, 0x90);
++			break;
++		case 22:	/* ad2dp master */
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xeb, 0x11, 0x11, 0x21, 0x10);
++			break;
++		case 23:	/* a2dp slave */
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xeb, 0x12, 0x12, 0x20, 0x10);
++			break;
++		case 71:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist,
++						 0xe3, 0x1a, 0x1a, 0xe1, 0x90);
++			break;
++		}
++	} else {
++		/* disable PS tdma */
++		switch (type) {
++		case 0:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist, 0x0,
++							 0x0, 0x0, 0x40, 0x0);
++			break;
++		case 1:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist, 0x0,
++							 0x0, 0x0, 0x48, 0x0);
++			break;
++		default:
++			halbtc8821aCsr2ant_set_fw_pstdma(btcoexist, 0x0,
++							 0x0, 0x0, 0x40, 0x0);
++			break;
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8821aCsr2ant_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++	/* fw all off */
++	halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++	halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++	/* sw all off */
++	halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	/* hw all off */
++	halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC, 0x55555555,
++				      0x55555555, 0xffff, 0x3);
++}
++
++void halbtc8821aCsr2ant_coex_under_5g(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821aCsr2ant_coex_all_off(btcoexist);
++
++	halbtc8821aCsr2ant_ignore_wlan_act(btcoexist, NORMAL_EXEC, true);
++}
++
++void halbtc8821aCsr2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++	halbtc8821aCsr2ant_coex_table(btcoexist, FORCE_EXEC, 0x55555555,
++				      0x55555555, 0xffff, 0x3);
++
++	halbtc8821aCsr2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 1);
++	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 6);
++	halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, FORCE_EXEC, false);
++
++	halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8821aCsr2ant_bt_inquiry_page(IN struct btc_coexist *btcoexist)
++{
++	boolean	low_pwr_disable = true;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++			   &low_pwr_disable);
++
++	halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC, 0x55ff55ff,
++				      0x5afa5afa, 0xffff, 0x3);
++	halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++}
++boolean halbtc8821aCsr2ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++	boolean			low_pwr_disable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected &&
++	    BT_8821A_CSR_2ANT_BT_STATUS_IDLE == coex_dm->bt_status) {
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi IPS + BT IPS!!\n");
++		BTC_TRACE(trace_buf);
++
++
++		halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++		halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++		halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false, false, false,
++						 false);
++		halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false, false, false,
++						 0x18);
++		halbtc8821aCsr2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0,
++					      0, 0);
++		halbtc8821aCsr2ant_limited_rx(btcoexist, NORMAL_EXEC, 0, 0, 0);
++
++		common = true;
++	} else if (wifi_connected &&
++		   (BT_8821A_CSR_2ANT_BT_STATUS_IDLE ==
++		    coex_dm->bt_status)) {
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Wifi Busy + BT IPS!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++						   false, 1);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Wifi LPS + BT IPS!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++						   false, 1);
++		}
++
++		halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++		halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false, false, false,
++						 false);
++		halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false, false, false,
++						 0x18);
++		halbtc8821aCsr2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0,
++					      0, 0);
++		halbtc8821aCsr2ant_limited_rx(btcoexist, NORMAL_EXEC, 0, 0, 0);
++
++		common = true;
++	} else if (!wifi_connected &&
++		   (BT_8821A_CSR_2ANT_BT_STATUS_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi IPS + BT LPS!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++		halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++		halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false, false, false,
++						 false);
++		halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false, false, false,
++						 0x18);
++		halbtc8821aCsr2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0,
++					      0, 0);
++		halbtc8821aCsr2ant_limited_rx(btcoexist, NORMAL_EXEC, 0, 0, 0);
++
++		common = true;
++	} else if (wifi_connected &&
++		   (BT_8821A_CSR_2ANT_BT_STATUS_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Wifi Busy + BT LPS!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++						   false, 1);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Wifi LPS + BT LPS!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++						   false, 1);
++		}
++
++		halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++		halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true, true,
++						 true);
++		halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false, false, false,
++						 0x18);
++		halbtc8821aCsr2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0,
++					      0, 0);
++		halbtc8821aCsr2ant_limited_rx(btcoexist, NORMAL_EXEC, 0, 0, 0);
++
++		common = true;
++	} else if (!wifi_connected &&
++		   (BT_8821A_CSR_2ANT_BT_STATUS_NON_IDLE ==
++		    coex_dm->bt_status)) {
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi IPS + BT Busy!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1); */
++		halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++		halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false, false, false,
++						 false);
++		halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false, false, false,
++						 0x18);
++		halbtc8821aCsr2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0,
++					      0, 0);
++		halbtc8821aCsr2ant_limited_rx(btcoexist, NORMAL_EXEC, 0, 0, 0);
++
++		common = true;
++	} else {
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Wifi Busy + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++			common = false;
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Wifi LPS + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   21);
++
++			if (halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++				halbtc8821aCsr2ant_dec_bt_pwr(btcoexist,
++						      NORMAL_EXEC, true);
++			else
++				halbtc8821aCsr2ant_dec_bt_pwr(btcoexist,
++						      NORMAL_EXEC, false);
++
++			common = true;
++		}
++
++		halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true, true,
++						 true);
++	}
++
++	if (common == true)
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5afa5afa, 0xffff, 0x3);
++
++	return common;
++}
++void halbtc8821aCsr2ant_tdma_duration_adjust(IN struct btc_coexist *btcoexist,
++		IN boolean sco_hid, IN boolean tx_pause, IN u8 max_interval)
++{
++	static s32		up, dn, m, n, wait_count;
++	s32			result;   /* 0: no change, +1: increase WiFi duration, -1: decrease WiFi duration */
++	u8			retry_count = 0;
++
++	if (coex_dm->reset_tdma_adjust) {
++		coex_dm->reset_tdma_adjust = false;
++		{
++			if (sco_hid) {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					} else if (max_interval == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (max_interval == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					} else if (max_interval == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (max_interval == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			} else {
++				if (tx_pause) {
++					if (max_interval == 1) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (max_interval == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (max_interval == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					}
++				} else {
++					if (max_interval == 1) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (max_interval == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (max_interval == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					}
++				}
++			}
++		}
++		/* ============ */
++		up = 0;
++		dn = 0;
++		m = 1;
++		n = 3;
++		result = 0;
++		wait_count = 0;
++	} else {
++		/* accquire the BT TRx retry count from BT_Info byte2 */
++		retry_count = coex_sta->bt_retry_cnt;
++		result = 0;
++		wait_count++;
++
++		if (retry_count ==
++		    0) { /* no retry in the last 2-second duration */
++			up++;
++			dn--;
++
++			if (dn <= 0)
++				dn = 0;
++
++			if (up >= n) {	/* if ³sÄò n ­Ó2¬í retry count¬°0, «h½Õ¼eWiFi duration */
++				wait_count = 0;
++				n = 3;
++				up = 0;
++				dn = 0;
++				result = 1;
++			}
++		} else if (retry_count <=
++			   3) {	/* <=3 retry in the last 2-second duration */
++			up--;
++			dn++;
++
++			if (up <= 0)
++				up = 0;
++
++			if (dn == 2) {	/* if ³sÄò 2 ­Ó2¬í retry count< 3, «h½Õ¯¶WiFi duration */
++				if (wait_count <= 2)
++					m++; /* ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^ */
++				else
++					m = 1;
++
++				if (m >= 20)  /* m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration. */
++					m = 20;
++
++				n = 3 * m;
++				up = 0;
++				dn = 0;
++				wait_count = 0;
++				result = -1;
++			}
++		} else { /* retry count > 3, ¥u­n1¦¸ retry count > 3, «h½Õ¯¶WiFi duration */
++			if (wait_count == 1)
++				m++; /* ÁקK¤@ª½¦b¨â­Ólevel¤¤¨Ó¦^ */
++			else
++				m = 1;
++
++			if (m >= 20)  /* m ³Ì¤j­È = 20 ' ³Ì¤j120¬í recheck¬O§_½Õ¾ã WiFi duration. */
++				m = 20;
++
++			n = 3 * m;
++			up = 0;
++			dn = 0;
++			wait_count = 0;
++			result = -1;
++		}
++
++		if (max_interval == 1) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 71) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 5);
++					coex_dm->ps_tdma_du_adj_type = 5;
++				} else if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 5);
++					coex_dm->ps_tdma_du_adj_type = 5;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 13);
++					coex_dm->ps_tdma_du_adj_type = 13;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 5);
++						coex_dm->ps_tdma_du_adj_type =
++							5;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 13);
++						coex_dm->ps_tdma_du_adj_type =
++							13;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 71);
++					coex_dm->ps_tdma_du_adj_type = 71;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 9);
++					coex_dm->ps_tdma_du_adj_type = 9;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 71) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 1);
++						coex_dm->ps_tdma_du_adj_type =
++							1;
++					} else if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 71);
++						coex_dm->ps_tdma_du_adj_type =
++							71;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 9);
++						coex_dm->ps_tdma_du_adj_type =
++							9;
++					}
++				}
++			}
++		} else if (max_interval == 2) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 6);
++					coex_dm->ps_tdma_du_adj_type = 6;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 14);
++					coex_dm->ps_tdma_du_adj_type = 14;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 6);
++						coex_dm->ps_tdma_du_adj_type =
++							6;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 14);
++						coex_dm->ps_tdma_du_adj_type =
++							14;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 2);
++					coex_dm->ps_tdma_du_adj_type = 2;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 10);
++					coex_dm->ps_tdma_du_adj_type = 10;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 2);
++						coex_dm->ps_tdma_du_adj_type =
++							2;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 10);
++						coex_dm->ps_tdma_du_adj_type =
++							10;
++					}
++				}
++			}
++		} else if (max_interval == 3) {
++			if (tx_pause) {
++				if (coex_dm->cur_ps_tdma == 1) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 2) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 3) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 7);
++					coex_dm->ps_tdma_du_adj_type = 7;
++				} else if (coex_dm->cur_ps_tdma == 4) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 8);
++					coex_dm->ps_tdma_du_adj_type = 8;
++				}
++				if (coex_dm->cur_ps_tdma == 9) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 10) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 11) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 15);
++					coex_dm->ps_tdma_du_adj_type = 15;
++				} else if (coex_dm->cur_ps_tdma == 12) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 16);
++					coex_dm->ps_tdma_du_adj_type = 16;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 5) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 8);
++						coex_dm->ps_tdma_du_adj_type =
++							8;
++					} else if (coex_dm->cur_ps_tdma == 13) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 16);
++						coex_dm->ps_tdma_du_adj_type =
++							16;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 8) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 7) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 6) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 7);
++						coex_dm->ps_tdma_du_adj_type =
++							7;
++					} else if (coex_dm->cur_ps_tdma == 16) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 15) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					} else if (coex_dm->cur_ps_tdma == 14) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 15);
++						coex_dm->ps_tdma_du_adj_type =
++							15;
++					}
++				}
++			} else {
++				if (coex_dm->cur_ps_tdma == 5) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 6) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 7) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 3);
++					coex_dm->ps_tdma_du_adj_type = 3;
++				} else if (coex_dm->cur_ps_tdma == 8) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 4);
++					coex_dm->ps_tdma_du_adj_type = 4;
++				}
++				if (coex_dm->cur_ps_tdma == 13) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 14) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 15) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 11);
++					coex_dm->ps_tdma_du_adj_type = 11;
++				} else if (coex_dm->cur_ps_tdma == 16) {
++					halbtc8821aCsr2ant_ps_tdma(btcoexist,
++						   NORMAL_EXEC, true, 12);
++					coex_dm->ps_tdma_du_adj_type = 12;
++				}
++				if (result == -1) {
++					if (coex_dm->cur_ps_tdma == 1) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 4);
++						coex_dm->ps_tdma_du_adj_type =
++							4;
++					} else if (coex_dm->cur_ps_tdma == 9) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 12);
++						coex_dm->ps_tdma_du_adj_type =
++							12;
++					}
++				} else if (result == 1) {
++					if (coex_dm->cur_ps_tdma == 4) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 3) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 2) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 3);
++						coex_dm->ps_tdma_du_adj_type =
++							3;
++					} else if (coex_dm->cur_ps_tdma == 12) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 11) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					} else if (coex_dm->cur_ps_tdma == 10) {
++						halbtc8821aCsr2ant_ps_tdma(
++							btcoexist, NORMAL_EXEC,
++							true, 11);
++						coex_dm->ps_tdma_du_adj_type =
++							11;
++					}
++				}
++			}
++		}
++	}
++
++	/* if current PsTdma not match with the recorded one (when scan, dhcp...), */
++	/* then we have to adjust it back to the previous record one. */
++	if (coex_dm->cur_ps_tdma != coex_dm->ps_tdma_du_adj_type) {
++		boolean	scan = false, link = false, roam = false;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], PsTdma type dismatch!!!, cur_ps_tdma=%d, recordPsTdma=%d\n",
++			    coex_dm->cur_ps_tdma, coex_dm->ps_tdma_du_adj_type);
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (!scan && !link && !roam)
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++					   coex_dm->ps_tdma_du_adj_type);
++		else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], roaming/link/scan is under progress, will adjust next time!!!\n");
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	/* when halbtc8821aCsr2ant_tdma_duration_adjust() is called, fw dac swing is included in the function. */
++	/* if(coex_dm->ps_tdma_du_adj_type == 71) */
++	/*	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0xc); //Skip because A2DP get worse at HT40 */
++	/* else */
++	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC,
++					    0x6);
++}
++
++/* SCO only or SCO+PAN(HS) */
++void halbtc8821aCsr2ant_action_sco(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC, 0x55555555,
++				      0x55555555, 0xffffff, 0x3);
++	halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	halbtc8821aCsr2ant_low_penalty_ra(btcoexist, NORMAL_EXEC, true);
++
++	halbtc8821aCsr2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 1, 0, 2, 0);
++
++	if (coex_sta->slave == false)
++		halbtc8821aCsr2ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					      true, 0x4);
++	else
++		halbtc8821aCsr2ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					      true, 0x2);
++
++	/*
++		wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2, 15, 0);
++		bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++		halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 4);
++
++		if(halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++			halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, true);
++		else
++			halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++		if (BTC_WIFI_BW_LEGACY == wifi_bw)
++		{
++			halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC, 0x5a5a5a5a, 0x5a5a5a5a, 0xffff, 0x3);
++		}
++		else
++		{
++			halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC, 0x5aea5aea, 0x5aea5aea, 0xffff, 0x3);
++		}
++
++		if(BTC_WIFI_BW_HT40 == wifi_bw)
++		{
++
++
++
++
++			if( (bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++				(bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++			}
++			else
++			{
++				halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++			}
++
++
++			if( (wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++				(wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8821aCsr2ant_sw_mechanism1(btcoexist,true,true,false,false);
++				halbtc8821aCsr2ant_sw_mechanism2(btcoexist,true,false,false,0x18);
++			}
++			else
++			{
++				halbtc8821aCsr2ant_sw_mechanism1(btcoexist,true,true,false,false);
++				halbtc8821aCsr2ant_sw_mechanism2(btcoexist,false,false,false,0x18);
++			}
++		}
++		else
++		{
++
++
++
++			if( (bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++				(bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++			}
++			else
++			{
++				halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++			}
++
++
++			if( (wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++				(wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				 halbtc8821aCsr2ant_sw_mechanism1(btcoexist,false,true,false,false);
++				 halbtc8821aCsr2ant_sw_mechanism2(btcoexist,true,false,false,0x18);
++			}
++			else
++			{
++				 halbtc8821aCsr2ant_sw_mechanism1(btcoexist,false,true,false,false);
++				 halbtc8821aCsr2ant_sw_mechanism2(btcoexist,false,false,false,0x18);
++			}
++		}
++	*/
++}
++
++
++void halbtc8821aCsr2ant_action_hid(IN struct btc_coexist *btcoexist)
++{
++	u8	wifi_rssi_state, bt_rssi_state;
++	u32	wifi_bw;
++
++	wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2,
++			  15, 0);
++	bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, true);
++	else
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) /* for HID at 11b/g mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5a5a5a5a, 0xffff, 0x3);
++	else  /* for HID quality & wifi performance balance at 11n mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5aea5aea, 0xffff, 0x3);
++
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   9);
++		else
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   13);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true,
++							 false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true,
++							 false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	} else {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   9);
++		else
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   13);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 true, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 true, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	}
++}
++
++/* A2DP only / PAN(EDR) only/ A2DP+PAN(HS) */
++void halbtc8821aCsr2ant_action_a2dp(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821aCsr2ant_limited_rx(btcoexist, NORMAL_EXEC, false, true, 0x8);
++
++	if (coex_sta->slave == false) {
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0xfdfdfdfd, 0xdfdadfda, 0xffffff, 0x3);
++		halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8821aCsr2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0,
++					      0, 1);
++		halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false, false, true,
++						 0x0c);
++	} else {
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0xfdfdfdfd, 0xdfdadfda, 0xffffff, 0x3);
++		halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 23);
++		halbtc8821aCsr2ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0,
++					      0, 2);
++		halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false, false, true,
++						 0x18);
++	}
++
++	/*
++		wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2, 15, 0);
++		bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++
++
++
++
++		if(halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++			halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, true);
++		else
++			halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++		if(BTC_WIFI_BW_HT40 == wifi_bw)
++		{
++
++			if( (bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++				(bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist, false, false, 1);
++			}
++			else
++			{
++				halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist, false, true, 1);
++			}
++
++
++			if( (wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++				(wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				 halbtc8821aCsr2ant_sw_mechanism1(btcoexist,true,false,false,false);
++				 halbtc8821aCsr2ant_sw_mechanism2(btcoexist,true,false,false,0x18);
++			}
++			else
++			{
++				 halbtc8821aCsr2ant_sw_mechanism1(btcoexist,true,false,false,false);
++				 halbtc8821aCsr2ant_sw_mechanism2(btcoexist,false,false,false,0x18);
++			}
++		}
++		else
++		{
++
++			if( (bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++				(bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist, false, false, 1);
++			}
++			else
++			{
++				halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist, false, true, 1);
++			}
++
++
++			if( (wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++				(wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH) )
++			{
++				 halbtc8821aCsr2ant_sw_mechanism1(btcoexist,false,false,false,false);
++				 halbtc8821aCsr2ant_sw_mechanism2(btcoexist,true,false,false,0x18);
++			}
++			else
++			{
++				 halbtc8821aCsr2ant_sw_mechanism1(btcoexist,false,false,false,false);
++				 halbtc8821aCsr2ant_sw_mechanism2(btcoexist,false,false,false,0x18);
++			}
++		}
++	*/
++}
++
++void halbtc8821aCsr2ant_action_a2dp_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state, bt_info_ext;
++	u32		wifi_bw;
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2,
++			  15, 0);
++	bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++	/* fw dac swing is called in halbtc8821aCsr2ant_tdma_duration_adjust() */
++	/* halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6); */
++
++
++	if (halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, true);
++	else
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		/* fw mechanism */
++		if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++			halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist,
++								false, true, 2);
++		else				/* a2dp edr rate */
++			halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist,
++								false, true, 1);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	} else {
++		/* fw mechanism */
++		if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++			halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist,
++								false, true, 2);
++		else				/* a2dp edr rate */
++			halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist,
++								false, true, 1);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	}
++}
++
++void halbtc8821aCsr2ant_action_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2,
++			  15, 0);
++	bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, true);
++	else
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) /* for HID at 11b/g mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5aff5aff, 0xffff, 0x3);
++	else  /* for HID quality & wifi performance balance at 11n mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5aff5aff, 0xffff, 0x3);
++
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   1);
++		else
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   5);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	} else {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   1);
++		else
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   5);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	}
++}
++
++
++/* PAN(HS) only */
++void halbtc8821aCsr2ant_action_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2,
++			  15, 0);
++	bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		/* fw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++			halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC,
++						      true);
++		else
++			halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC,
++						      false);
++		halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 1);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	} else {
++		/* fw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++			halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC,
++						      true);
++		else
++			halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC,
++						      false);
++
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++						   false, 1);
++		else
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC,
++						   false, 1);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	}
++}
++
++/* PAN(EDR)+A2DP */
++void halbtc8821aCsr2ant_action_pan_edr_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state, bt_info_ext;
++	u32		wifi_bw;
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2,
++			  15, 0);
++	bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, true);
++	else
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) /* for HID at 11b/g mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5afa5afa, 0xffff, 0x3);
++	else  /* for HID quality & wifi performance balance at 11n mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5afa5afa, 0xffff, 0x3);
++
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, false, false, 3);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, false, false, 3);
++		} else {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, false, true, 3);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, false, true, 3);
++		}
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		};
++	} else {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, false, false, 3);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, false, false, 3);
++		} else {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, false, true, 3);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, false, true, 3);
++		}
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 false, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	}
++}
++
++void halbtc8821aCsr2ant_action_pan_edr_hid(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state;
++	u32		wifi_bw;
++
++	wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2,
++			  15, 0);
++	bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, true);
++	else
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) /* for HID at 11b/g mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5a5f5a5f, 0xffff, 0x3);
++	else  /* for HID quality & wifi performance balance at 11n mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5a5f5a5f, 0xffff, 0x3);
++
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 3);
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   10);
++		else
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   14);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true,
++							 false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true,
++							 false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	} else {
++		halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH))
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   10);
++		else
++			halbtc8821aCsr2ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						   14);
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 true, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 true, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	}
++}
++
++/* HID+A2DP+PAN(EDR) */
++void halbtc8821aCsr2ant_action_hid_a2dp_pan_edr(IN struct btc_coexist
++		*btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state, bt_info_ext;
++	u32		wifi_bw;
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2,
++			  15, 0);
++	bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++	halbtc8821aCsr2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++
++	if (halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, true);
++	else
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) /* for HID at 11b/g mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5a5a5a5a, 0xffff, 0x3);
++	else  /* for HID quality & wifi performance balance at 11n mode */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5a5a5a5a, 0xffff, 0x3);
++
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 3);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 3);
++		} else {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 3);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 3);
++		}
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true,
++							 false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true,
++							 false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	} else {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, false, 3);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, false, 3);
++		} else {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 3);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 3);
++		}
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 true, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 true, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	}
++}
++
++void halbtc8821aCsr2ant_action_hid_a2dp(IN struct btc_coexist *btcoexist)
++{
++	u8		wifi_rssi_state, bt_rssi_state, bt_info_ext;
++	u32		wifi_bw;
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	wifi_rssi_state = halbtc8821aCsr2ant_wifi_rssi_state(btcoexist, 0, 2,
++			  15, 0);
++	bt_rssi_state = halbtc8821aCsr2ant_bt_rssi_state(2, 35, 0);
++
++	if (halbtc8821aCsr2ant_need_to_dec_bt_pwr(btcoexist))
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, true);
++	else
++		halbtc8821aCsr2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, false);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if (BTC_WIFI_BW_LEGACY == wifi_bw) { /* for HID at 11b/g mode */
++		/* Allen		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC, 0x55ff55ff, 0x5a5a5a5a, 0xffff, 0x3); */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5f5b5f5b, 0xffffff, 0x3);
++	} else { /* for HID quality & wifi performance balance at 11n mode */
++		/* Allen		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC, 0x55ff55ff, 0x5a5a5a5a, 0xffff, 0x3); */
++		halbtc8821aCsr2ant_coex_table(btcoexist, NORMAL_EXEC,
++				      0x55ff55ff, 0x5f5b5f5b, 0xffffff, 0x3);
++
++	}
++
++	if (BTC_WIFI_BW_HT40 == wifi_bw) {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 2);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 2);
++		} else {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 2);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 2);
++		}
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true,
++							 false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, true, true,
++							 false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	} else {
++		/* fw mechanism */
++		if ((bt_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (bt_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			if (bt_info_ext & BIT(0)) {	/* a2dp basic rate */
++				/*				halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist, true, false, 2); */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 2);
++
++			} else {			/* a2dp edr rate */
++				/* Allen				halbtc8821aCsr2ant_tdma_duration_adjust(btcoexist, true, false, 2); */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 2);
++			}
++		} else {
++			if (bt_info_ext & BIT(0))	/* a2dp basic rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 2);
++			else				/* a2dp edr rate */
++				halbtc8821aCsr2ant_tdma_duration_adjust(
++					btcoexist, true, true, 2);
++		}
++
++		/* sw mechanism */
++		if ((wifi_rssi_state == BTC_RSSI_STATE_HIGH) ||
++		    (wifi_rssi_state == BTC_RSSI_STATE_STAY_HIGH)) {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 true, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, true,
++							 false, false, 0x18);
++		} else {
++			halbtc8821aCsr2ant_sw_mechanism1(btcoexist, false,
++							 true, false, false);
++			halbtc8821aCsr2ant_sw_mechanism2(btcoexist, false,
++							 false, false, 0x18);
++		}
++	}
++}
++
++void halbtc8821aCsr2ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	boolean				wifi_under_5g = false;
++	u8				algorithm = 0;
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Manual control!!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	if (wifi_under_5g) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), run 5G coex setting!!<===\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821aCsr2ant_coex_under_5g(btcoexist);
++		return;
++	}
++
++	{
++		algorithm = halbtc8821aCsr2ant_action_algorithm(btcoexist);
++		if (coex_sta->c2h_bt_inquiry_page &&
++		    (BT_8821A_CSR_2ANT_COEX_ALGO_PANHS != algorithm)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], BT is under inquiry/page scan !!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821aCsr2ant_bt_inquiry_page(btcoexist);
++			return;
++		}
++
++		coex_dm->cur_algorithm = algorithm;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Algorithm = %d\n", coex_dm->cur_algorithm);
++		BTC_TRACE(trace_buf);
++
++		if (halbtc8821aCsr2ant_is_common_action(btcoexist)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action 2-Ant common.\n");
++			BTC_TRACE(trace_buf);
++			coex_dm->reset_tdma_adjust = true;
++		} else {
++			if (coex_dm->cur_algorithm != coex_dm->pre_algorithm) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], pre_algorithm=%d, cur_algorithm=%d\n",
++					    coex_dm->pre_algorithm,
++					    coex_dm->cur_algorithm);
++				BTC_TRACE(trace_buf);
++				coex_dm->reset_tdma_adjust = true;
++			}
++			switch (coex_dm->cur_algorithm) {
++			case BT_8821A_CSR_2ANT_COEX_ALGO_SCO:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = SCO.\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_sco(
++					btcoexist);
++				break;
++			case BT_8821A_CSR_2ANT_COEX_ALGO_HID:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = HID.\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_hid(
++					btcoexist);
++				break;
++			case BT_8821A_CSR_2ANT_COEX_ALGO_A2DP:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = A2DP.\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_a2dp(
++					btcoexist);
++				break;
++			case BT_8821A_CSR_2ANT_COEX_ALGO_A2DP_PANHS:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = A2DP+PAN(HS).\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_a2dp_pan_hs(
++					btcoexist);
++				break;
++			case BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = PAN(EDR).\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_pan_edr(
++					btcoexist);
++				break;
++			case BT_8821A_CSR_2ANT_COEX_ALGO_PANHS:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = HS mode.\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_pan_hs(
++					btcoexist);
++				break;
++			case BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_A2DP:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = PAN+A2DP.\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_pan_edr_a2dp(
++					btcoexist);
++				break;
++			case BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = PAN(EDR)+HID.\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_pan_edr_hid(
++					btcoexist);
++				break;
++			case BT_8821A_CSR_2ANT_COEX_ALGO_HID_A2DP_PANEDR
++					:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = HID+A2DP+PAN.\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_hid_a2dp_pan_edr(
++					btcoexist);
++				break;
++			case BT_8821A_CSR_2ANT_COEX_ALGO_HID_A2DP:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = HID+A2DP.\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_action_hid_a2dp(
++					btcoexist);
++				break;
++			default:
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], Action 2-Ant, algorithm = coexist All Off!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821aCsr2ant_coex_all_off(
++					btcoexist);
++				break;
++			}
++			coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++		}
++	}
++}
++
++
++
++/* ************************************************************
++ * work around function start with wa_halbtc8821aCsr2ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8821aCsr2ant_
++ * ************************************************************ */
++void ex_halbtc8821aCsr2ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8821aCsr2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++		IN boolean wifi_only)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 2Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	if (wifi_only)
++		return;
++
++	/* if(back_up) */
++	{
++		/* backup rf 0x1e value */
++		coex_dm->bt_rf_0x1e_backup = btcoexist->btc_get_rf_reg(
++				     btcoexist, BTC_RF_A, 0x1e, 0xfffff);
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++		coex_dm->backup_ampdu_max_num = btcoexist->btc_read_2byte(
++							btcoexist, 0x4ca);
++	}
++
++#if 0 /* REMOVE */
++	/* 0x790[5:0]=0x5 */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x790);
++	u8tmp &= 0xc0;
++	u8tmp |= 0x5;
++	btcoexist->btc_write_1byte(btcoexist, 0x790, u8tmp);
++#endif
++
++	/* Antenna config */
++	halbtc8821aCsr2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, true,
++					false);
++
++	/* PTA parameter */
++	halbtc8821aCsr2ant_coex_table(btcoexist, FORCE_EXEC, 0x55555555,
++				      0x55555555, 0xffff, 0x3);
++
++	/* Enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e,
++			   0xc); /* 0x76e[3] =1, WLAN_Act control by PTA */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x3);
++
++#if 0 /* REMOVE */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++#endif
++}
++
++void ex_halbtc8821aCsr2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821aCsr2ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8821aCsr2ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_stack_info		*stack_info = &btcoexist->stack_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u32				u32tmp[4];
++	u32				fw_ver = 0, bt_patch_ver = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++		   "Ant PG number/ Ant mechanism:",
++		   board_info->pg_ant_num, board_info->btdm_ant_num);
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "[Action Manual control]!!");
++		CL_PRINTF(cli_buf);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%d/ 0x%x/ 0x%x(%d)",
++		   "CoexVer/ FwVer/ PatchVer",
++		   glcoex_ver_date_8821a_csr_2ant, glcoex_ver_8821a_csr_2ant,
++		   fw_ver, bt_patch_ver, bt_patch_ver);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt]",
++		   ((coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan") : ((
++		   BT_8821A_CSR_2ANT_BT_STATUS_IDLE == coex_dm->bt_status)
++		   ? "idle" : ((BT_8821A_CSR_2ANT_BT_STATUS_CONNECTED_IDLE
++			== coex_dm->bt_status) ? "connected-idle" : "busy"))),
++		   coex_sta->bt_rssi, coex_sta->bt_retry_cnt);
++	CL_PRINTF(cli_buf);
++
++	if (stack_info->profile_notified) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d / %d / %d / %d", "SCO/HID/PAN/A2DP",
++			   stack_info->sco_exist, stack_info->hid_exist,
++			   stack_info->pan_exist, stack_info->a2dp_exist);
++		CL_PRINTF(cli_buf);
++
++		btcoexist->btc_disp_dbg_msg(btcoexist,
++					    BTC_DBG_DISP_BT_LINK_INFO);
++	}
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++		   "BT Info A2DP rate",
++		   (bt_info_ext & BIT(0)) ? "Basic rate" : "EDR rate");
++	CL_PRINTF(cli_buf);
++
++	for (i = 0; i < BT_INFO_SRC_8821A_CSR_2ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8821a_csr_2ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	/* Sw mechanism	 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Sw mechanism]============");
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d ",
++		   "SM1[ShRf/ LpRA/ LimDig]",
++		   coex_dm->cur_rf_rx_lpf_shrink, coex_dm->cur_low_penalty_ra,
++		   coex_dm->limited_dig);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d(0x%x) ",
++		   "SM2[AgcT/ AdcB/ SwDacSwing(lvl)]",
++		   coex_dm->cur_agc_table_en, coex_dm->cur_adc_back_off,
++		   coex_dm->cur_dac_swing_on, coex_dm->cur_dac_swing_lvl);
++	CL_PRINTF(cli_buf);
++
++	/* Fw mechanism		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Fw mechanism]============");
++	CL_PRINTF(cli_buf);
++
++	if (!btcoexist->manual_control) {
++		ps_tdma_case = coex_dm->cur_ps_tdma;
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d",
++			   "PS TDMA",
++			   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++			   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++			   coex_dm->ps_tdma_para[4], ps_tdma_case);
++		CL_PRINTF(cli_buf);
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d ",
++			   "DecBtPwr/ IgnWlanAct",
++			coex_dm->cur_dec_bt_pwr, coex_dm->cur_ignore_wlan_act);
++		CL_PRINTF(cli_buf);
++	}
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x",
++		   "RF-A, 0x1e initVal",
++		   coex_dm->bt_rf_0x1e_backup);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x ",
++		   "0x778 (W_Act)/ 0x6cc (CoTab Sel)",
++		   u8tmp[0], u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x8db);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xc5b);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x8db(ADC)/0xc5b[29:25](DAC)",
++		   ((u8tmp[0] & 0x60) >> 5), ((u8tmp[1] & 0x3e) >> 1));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0xcb4[7:0](ctrl)/ 0xcb4[29:28](val)",
++		   u32tmp[0] & 0xff, ((u32tmp[0] & 0x30000000) >> 28));
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x974);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x40/ 0x4c[24:23]/ 0x974",
++		   u8tmp[0], ((u32tmp[0] & 0x01800000) >> 23), u32tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa0a);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0xc50(DIG)/0xa0a(CCK-TH)",
++		   u32tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xf48);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5b);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "OFDM-FA/ CCK-FA",
++		   u32tmp[0], (u8tmp[0] << 8) + u8tmp[1]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770 (hi-pri Rx/Tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri Rx/Tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8821aCsr2ant_ips_notify(IN struct btc_coexist *btcoexist,
++				      IN u8 type)
++{
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++		halbtc8821aCsr2ant_coex_all_off(btcoexist);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = false;
++		/* halbtc8821aCsr2ant_init_coex_dm(btcoexist); */
++	}
++}
++
++void ex_halbtc8821aCsr2ant_lps_notify(IN struct btc_coexist *btcoexist,
++				      IN u8 type)
++{
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++	}
++}
++
++void ex_halbtc8821aCsr2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	if (BTC_SCAN_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++	} else if (BTC_SCAN_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8821aCsr2ant_connect_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	if (BTC_ASSOCIATE_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++	} else if (BTC_ASSOCIATE_FINISH == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8821aCsr2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] = 0x1;
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++}
++
++void ex_halbtc8821aCsr2ant_specific_packet_notify(IN struct btc_coexist
++		*btcoexist, IN u8 type)
++{
++	if (type == BTC_PACKET_DHCP) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], DHCP Packet notify\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8821aCsr2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++		IN u8 *tmp_buf, IN u8 length)
++{
++	u8			bt_info = 0;
++	u8			i, rsp_source = 0;
++	boolean			bt_busy = false, limited_dig = false;
++	boolean			wifi_connected = false, bt_hs_on = false,
++				wifi_under_5g = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8821A_CSR_2ANT_MAX)
++		rsp_source = BT_INFO_SRC_8821A_CSR_2ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	if (BT_INFO_SRC_8821A_CSR_2ANT_WIFI_FW != rsp_source) {
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		coex_sta->bt_rssi =
++			coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++#if 0 /* REMOVE */
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++		if ((coex_sta->bt_info_ext & BIT(1))) {
++
++			if (wifi_connected)
++				ex_halbtc8821aCsr2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_CONNECT);
++			else
++				ex_halbtc8821aCsr2ant_media_status_notify(
++					btcoexist, BTC_MEDIA_DISCONNECT);
++		}
++#endif
++
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (bt_info ==
++	    BT_INFO_8821A_CSR_2ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_sta->bt_link_exist = true;
++		coex_dm->bt_status =
++			BT_8821A_CSR_2ANT_BT_STATUS_CONNECTED_IDLE;
++	} else if (bt_info &
++		BT_INFO_8821A_CSR_2ANT_B_CONNECTION) {	/* connection exists and some link is busy */
++		coex_sta->bt_link_exist = true;
++
++		if (bt_info & BT_INFO_8821A_CSR_2ANT_B_FTP)
++			coex_sta->pan_exist = true;
++		else
++			coex_sta->pan_exist = false;
++
++		if (bt_info & BT_INFO_8821A_CSR_2ANT_B_A2DP)
++			coex_sta->a2dp_exist = true;
++		else
++			coex_sta->a2dp_exist = false;
++
++		if (bt_info & BT_INFO_8821A_CSR_2ANT_B_HID)
++			coex_sta->hid_exist = true;
++		else
++			coex_sta->hid_exist = false;
++
++		if (bt_info & BT_INFO_8821A_CSR_2ANT_B_SCO_ESCO)
++			coex_sta->sco_exist = true;
++		else
++			coex_sta->sco_exist = false;
++
++		if (coex_sta->bt_info_ext & 0x80)
++			coex_sta->slave = true; /* Slave */
++		else
++			coex_sta->slave = false; /* Master */
++
++		coex_dm->bt_status =
++			BT_8821A_CSR_2ANT_BT_STATUS_NON_IDLE;
++	} else {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->slave = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++		coex_dm->bt_status = BT_8821A_CSR_2ANT_BT_STATUS_IDLE;
++	}
++
++	if (bt_hs_on)
++		coex_dm->bt_status =
++			BT_8821A_CSR_2ANT_BT_STATUS_NON_IDLE;
++
++	if (bt_info & BT_INFO_8821A_CSR_2ANT_B_INQ_PAGE) {
++		coex_sta->c2h_bt_inquiry_page = true;
++		coex_dm->bt_status = BT_8821A_CSR_2ANT_BT_STATUS_NON_IDLE;
++	} else
++		coex_sta->c2h_bt_inquiry_page = false;
++
++
++	if (BT_8821A_CSR_2ANT_BT_STATUS_NON_IDLE == coex_dm->bt_status)
++		bt_busy = true;
++	else
++		bt_busy = false;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	if (BT_8821A_CSR_2ANT_BT_STATUS_IDLE != coex_dm->bt_status)
++		limited_dig = true;
++	else
++		limited_dig = false;
++	coex_dm->limited_dig = limited_dig;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_LIMITED_DIG, &limited_dig);
++
++	halbtc8821aCsr2ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8821aCsr2ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821aCsr2ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++	ex_halbtc8821aCsr2ant_media_status_notify(btcoexist,
++			BTC_MEDIA_DISCONNECT);
++}
++
++void ex_halbtc8821aCsr2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				      IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821aCsr2ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++		/* Sinda 20150819, workaround for driver skip leave IPS/LPS to speed up sleep time. */
++		/* Driver do not leave IPS/LPS when driver is going to sleep, so BTCoexistence think wifi is still under IPS/LPS */
++		/* BT should clear UnderIPS/UnderLPS state to avoid mismatch state after wakeup. */
++		coex_sta->under_ips = false;
++		coex_sta->under_lps = false;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++	}
++}
++
++void ex_halbtc8821aCsr2ant_periodical(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821aCsr2ant_monitor_bt_ctr(btcoexist);
++	halbtc8821aCsr2ant_monitor_bt_enable_disable(btcoexist);
++}
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
+\ No newline at end of file
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8821aCsr2Ant.h b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8821aCsr2Ant.h
+new file mode 100644
+index 0000000..8d228fb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8821aCsr2Ant.h
+@@ -0,0 +1,188 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821A_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8821A_CSR 2Ant BT Co-exist definition
++ * ******************************************* */
++#define	BT_INFO_8821A_CSR_2ANT_B_FTP						BIT(7)
++#define	BT_INFO_8821A_CSR_2ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8821A_CSR_2ANT_B_HID						BIT(5)
++#define	BT_INFO_8821A_CSR_2ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8821A_CSR_2ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8821A_CSR_2ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8821A_CSR_2ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8821A_CSR_2ANT_B_CONNECTION				BIT(0)
++
++#define		BTC_RSSI_COEX_THRESH_TOL_8821A_CSR_2ANT		2
++
++enum bt_info_src_8821a_csr_2ant {
++	BT_INFO_SRC_8821A_CSR_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8821A_CSR_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8821A_CSR_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8821A_CSR_2ANT_MAX
++};
++
++enum bt_8821a_csr_2ant_bt_status {
++	BT_8821A_CSR_2ANT_BT_STATUS_IDLE				= 0x0,
++	BT_8821A_CSR_2ANT_BT_STATUS_CONNECTED_IDLE	= 0x1,
++	BT_8821A_CSR_2ANT_BT_STATUS_NON_IDLE			= 0x2,
++	BT_8821A_CSR_2ANT_BT_STATUS_MAX
++};
++
++enum bt_8821a_csr_2ant_coex_algo {
++	BT_8821A_CSR_2ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8821A_CSR_2ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8821A_CSR_2ANT_COEX_ALGO_HID				= 0x2,
++	BT_8821A_CSR_2ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8821A_CSR_2ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8821A_CSR_2ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8821A_CSR_2ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8821A_CSR_2ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8821A_CSR_2ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8821A_CSR_2ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++struct coex_dm_8821a_csr_2ant {
++	/* fw mechanism */
++	boolean		pre_dec_bt_pwr;
++	boolean		cur_dec_bt_pwr;
++	u8		pre_fw_dac_swing_lvl;
++	u8		cur_fw_dac_swing_lvl;
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[6];
++	u8		ps_tdma_du_adj_type;
++	boolean		reset_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++
++	/* sw mechanism */
++	boolean		pre_rf_rx_lpf_shrink;
++	boolean		cur_rf_rx_lpf_shrink;
++	u32		bt_rf_0x1e_backup;
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	boolean		pre_dac_swing_on;
++	u32		pre_dac_swing_lvl;
++	boolean		cur_dac_swing_on;
++	u32		cur_dac_swing_lvl;
++	boolean		pre_adc_back_off;
++	boolean		cur_adc_back_off;
++	boolean	pre_agc_table_en;
++	boolean		cur_agc_table_en;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++
++	u8 cur_ampdu_num_type;
++	u8 pre_ampdu_num_type;
++	u16 backup_ampdu_max_num;
++
++	u8 cur_ampdu_time_type;
++	u8 pre_ampdu_time_type;
++	u8 backup_ampdu_max_time;
++
++	u8		cur_arfr_type;
++	u8		pre_arfr_type;
++	u32		backup_arfr_cnt1;
++	u32		backup_arfr_cnt2;
++
++	u8		cur_retry_limit_type;
++	u8		pre_retry_limit_type;
++	u16		backup_retry_limit;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++};
++
++struct coex_sta_8821a_csr_2ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					slave;
++	boolean					hid_exist;
++	boolean					pan_exist;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	u8					bt_rssi;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8821A_CSR_2ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8821A_CSR_2ANT_MAX];
++	boolean					c2h_bt_inquiry_page;
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8821aCsr2ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821aCsr2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++		IN boolean wifi_only);
++void ex_halbtc8821aCsr2ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821aCsr2ant_ips_notify(IN struct btc_coexist *btcoexist,
++				      IN u8 type);
++void ex_halbtc8821aCsr2ant_lps_notify(IN struct btc_coexist *btcoexist,
++				      IN u8 type);
++void ex_halbtc8821aCsr2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8821aCsr2ant_connect_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821aCsr2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821aCsr2ant_specific_packet_notify(IN struct btc_coexist
++		*btcoexist, IN u8 type);
++void ex_halbtc8821aCsr2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++		IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8821aCsr2ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821aCsr2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				      IN u8 pnp_state);
++void ex_halbtc8821aCsr2ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821aCsr2ant_display_coex_info(IN struct btc_coexist *btcoexist);
++
++#else
++#define	ex_halbtc8821aCsr2ant_power_on_setting(btcoexist)
++#define	ex_halbtc8821aCsr2ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8821aCsr2ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8821aCsr2ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8821aCsr2ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8821aCsr2ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8821aCsr2ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8821aCsr2ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8821aCsr2ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8821aCsr2ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8821aCsr2ant_halt_notify(btcoexist)
++#define	ex_halbtc8821aCsr2ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8821aCsr2ant_periodical(btcoexist)
++#define	ex_halbtc8821aCsr2ant_display_coex_info(btcoexist)
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8822b1Ant.c b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8822b1Ant.c
+new file mode 100644
+index 0000000..be0a2ac
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8822b1Ant.c
+@@ -0,0 +1,6006 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8822B Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8822B_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	 *trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8822b_1ant		glcoex_dm_8822b_1ant;
++static struct  coex_dm_8822b_1ant	*coex_dm = &glcoex_dm_8822b_1ant;
++static struct  coex_sta_8822b_1ant		glcoex_sta_8822b_1ant;
++static struct  coex_sta_8822b_1ant	*coex_sta = &glcoex_sta_8822b_1ant;
++static struct  psdscan_sta_8822b_1ant	gl_psd_scan_8822b_1ant;
++static struct  psdscan_sta_8822b_1ant *psd_scan = &gl_psd_scan_8822b_1ant;
++static struct	rfe_type_8822b_1ant		gl_rfe_type_8822b_1ant;
++static struct	rfe_type_8822b_1ant		*rfe_type = &gl_rfe_type_8822b_1ant;
++
++
++
++const char *const glbt_info_src_8822b_1ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8822b_1ant = 20160411;
++u32	glcoex_ver_8822b_1ant = 0x14;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8822b1ant_
++ * ************************************************************ */
++u8 halbtc8822b1ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8822B_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8822B_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8822B_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8822b1ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8822B_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8822B_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8822B_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8822b1ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8822b1ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8822b1ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8822b1ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8822b1ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	switch (ra_mask_type) {
++	case 0:	/* normal mode */
++		halbtc8822b1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0);
++		break;
++	case 1:	/* disable cck 1/2 */
++		halbtc8822b1ant_update_ra_mask(btcoexist, force_exec,
++					       0x00000003);
++		break;
++	case 2:	/* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		halbtc8822b1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0001f1f7);
++		break;
++	default:
++		break;
++	}
++
++	halbtc8822b1ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8822b1ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8822b1ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++/* 
++1:      true / don't care / don't care
++max: false / false / don't care
++7:     false / true / 7
++*/
++
++void halbtc8822b1ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8822b1ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++void halbtc8822b1ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++	static u8		num_of_bt_counter_chk = 0, cnt_slave = 0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	/* to avoid 0x76e[3] = 1 (WLAN_Act control by PTA) during IPS */
++	/* if (! (btcoexist->btc_read_1byte(btcoexist, 0x76e) & 0x8) ) */
++
++	if (coex_sta->under_ips) {
++		/* coex_sta->high_priority_tx = 65535; */
++		/* coex_sta->high_priority_rx = 65535; */
++		/* coex_sta->low_priority_tx = 65535; */
++		/* coex_sta->low_priority_rx = 65535; */
++		/* return; */
++	}
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Hi-Pri Rx/Tx: %d/%d, Lo-Pri Rx/Tx: %d/%d\n",
++		    reg_hp_rx, reg_hp_tx, reg_lp_rx, reg_lp_tx);
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++
++	if ((coex_sta->low_priority_tx > 1150)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++	
++	if ((coex_sta->low_priority_rx >= 1150) && (coex_sta->low_priority_rx >= coex_sta->low_priority_tx) 
++		 && (!coex_sta->under_ips)  &&    (!coex_sta->c2h_bt_inquiry_page) &&  (coex_sta->bt_link_exist) )	{		
++		if (cnt_slave >= 3) {
++			bt_link_info->slave_role = true;
++			cnt_slave = 3;
++		} else {
++			cnt_slave ++;
++		}
++	} else {
++		if(cnt_slave == 0)	{
++			bt_link_info->slave_role = false;
++			cnt_slave = 0;
++		} else{
++			cnt_slave--;
++		}
++			
++	}
++	
++	if ((coex_sta->high_priority_tx == 0) && (coex_sta->high_priority_rx == 0) && (coex_sta->low_priority_tx == 0) &&
++	    (coex_sta->low_priority_rx == 0)) {
++			num_of_bt_counter_chk++;
++			
++			if (num_of_bt_counter_chk >= 3) {
++					halbtc8822b1ant_query_bt_info(btcoexist);
++					num_of_bt_counter_chk = 0;
++			}		
++	}
++#if 0
++	/* Add Hi-Pri Tx/Rx counter to avoid false detection */
++		if (((coex_sta->hid_exist) || (coex_sta->sco_exist)) &&
++		    (coex_sta->high_priority_tx + coex_sta->high_priority_rx
++		     >= 160)
++		    && (!coex_sta->c2h_bt_inquiry_page))
++			coex_sta->bt_hi_pri_link_exist = true;
++		else
++			coex_sta->bt_hi_pri_link_exist = false;
++
++		if ((coex_sta->acl_busy) &&
++		    (coex_sta->num_of_profile == 0)) {
++			if (coex_sta->low_priority_tx +
++			    coex_sta->low_priority_rx >= 160) {
++				coex_sta->pan_exist = true;
++				coex_sta->num_of_profile++;
++				coex_sta->wrong_profile_notification++;				
++			}
++		}
++#endif
++
++}
++
++
++void halbtc8822b1ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++	{
++		s32 wifi_rssi = 0;
++		boolean wifi_busy = false, wifi_under_b_mode = false;
++		static u8 cck_lock_counter = 0;
++		u32 total_cnt;
++	
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++		btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,&wifi_under_b_mode);
++	
++		if (coex_sta->under_ips) {
++			coex_sta->crc_ok_cck = 0;
++			coex_sta->crc_ok_11g = 0;
++			coex_sta->crc_ok_11n = 0;
++			coex_sta->crc_ok_11n_agg = 0;
++	
++			coex_sta->crc_err_cck = 0;
++			coex_sta->crc_err_11g = 0;
++			coex_sta->crc_err_11n = 0;
++			coex_sta->crc_err_11n_agg = 0;
++		} else {
++			coex_sta->crc_ok_cck	= btcoexist->btc_read_2byte(btcoexist,
++						  0xf04);
++			coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++						  0xf14);
++			coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++						  0xf10);
++			coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++						   0xf0c);
++	
++			coex_sta->crc_err_cck	 = btcoexist->btc_read_2byte(btcoexist,0xf00) +  btcoexist->btc_read_2byte(btcoexist,0xf06);
++			
++			coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++						   0xf16);
++			coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++						   0xf12);
++			coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++							0xf0e);
++		}
++	
++	
++		/* reset counter */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xb58, 0x1, 0x1);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xb58, 0x1, 0x0);
++	
++		if ((wifi_busy) && (wifi_rssi >= 30) && (!wifi_under_b_mode)) {
++			total_cnt = coex_sta->crc_ok_cck + coex_sta->crc_ok_11g +
++					coex_sta->crc_ok_11n +
++					coex_sta->crc_ok_11n_agg;
++	
++			if ((coex_dm->bt_status == BT_8822B_1ANT_BT_STATUS_ACL_BUSY) ||
++				(coex_dm->bt_status ==
++				 BT_8822B_1ANT_BT_STATUS_ACL_SCO_BUSY) ||
++				(coex_dm->bt_status ==
++				 BT_8822B_1ANT_BT_STATUS_SCO_BUSY)) {
++				if (coex_sta->crc_ok_cck > (total_cnt -
++								coex_sta->crc_ok_cck)) {
++					if (cck_lock_counter < 3)
++						cck_lock_counter++;
++				} else {
++					if (cck_lock_counter > 0)
++						cck_lock_counter--;
++				}
++	
++			} else {
++				if (cck_lock_counter > 0)
++					cck_lock_counter--;
++			}
++		} else {
++			if (cck_lock_counter > 0)
++				cck_lock_counter--;
++		}
++	
++		if (!coex_sta->pre_ccklock) {
++	
++			if (cck_lock_counter >= 3)
++				coex_sta->cck_lock = true;
++			else
++				coex_sta->cck_lock = false;
++		} else {
++			if (cck_lock_counter == 0)
++				coex_sta->cck_lock = false;
++			else
++				coex_sta->cck_lock = true;
++		}
++	
++		if (coex_sta->cck_lock)
++			coex_sta->cck_ever_lock = true;
++	
++		coex_sta->pre_ccklock =  coex_sta->cck_lock;
++	
++	
++	}
++
++
++boolean halbtc8822b1ant_is_wifi_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false, pre_bt_off = false;
++	boolean wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (coex_sta->bt_disabled != pre_bt_off)
++	{
++		pre_bt_off = coex_sta->bt_disabled;
++		
++		if (coex_sta->bt_disabled)
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++		else
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is enabled !!\n");
++
++		BTC_TRACE(trace_buf);
++
++		coex_sta->bt_coex_supported_feature = 0;
++		coex_sta->bt_coex_supported_version = 0;
++		return true;	
++	}
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++	}
++
++	return false;
++}
++
++void halbtc8822b1ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++	bt_link_info->bt_hi_pri_link_exist = coex_sta->bt_hi_pri_link_exist;
++	bt_link_info->acl_busy = coex_sta->acl_busy;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++void halbtc8822b1ant_update_wifi_channel_info(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++	    
++		h2c_parameter[0] = 	0x1;  /* enable BT AFH skip WL channel for 8822b because BT Rx LO interference */
++		h2c_parameter[1] = wifi_central_chnl;
++		
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++
++}
++
++u8 halbtc8822b1ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8822B_1ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Profile = SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8822B_1ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8822B_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8822B_1ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8822B_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8822B_1ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8822B_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID + A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8822B_1ANT_COEX_ALGO_HID_A2DP;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8822B_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8822B_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! BT Profile = SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8822B_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8822b1ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8822b1ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8822b1ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8822b1ant_set_sw_penalty_tx_rate_adaptive(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8822b1ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8822b1ant_set_sw_penalty_tx_rate_adaptive(btcoexist,
++			coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8822b1ant_write_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	u16				bitpos,
++	IN	BOOLEAN		state
++)
++{
++
++	static u16 originalval = 0x8002;
++
++	if (state)
++		originalval = originalval | bitpos;
++	else
++		originalval = originalval & (~bitpos);
++
++	btcoexist->btc_write_2byte(btcoexist, 0xaa, originalval);
++}
++
++void halbtc8822b1ant_read_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN   u16				*score_board_val
++)
++{
++
++	*score_board_val = (btcoexist->btc_read_2byte(btcoexist,
++			    0xaa)) & 0x7fff;
++}
++
++void halbtc8822b1ant_post_activestate_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_active
++)
++{
++
++	if (wifi_active)
++		halbtc8822b1ant_write_score_board(btcoexist, (u16) BIT(0), TRUE);
++	else
++		halbtc8822b1ant_write_score_board(btcoexist, (u16) BIT(0), FALSE);		
++}
++
++
++void halbtc8822b1ant_post_onoffstate_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_on
++)
++{
++
++	if (wifi_on)
++		halbtc8822b1ant_write_score_board(btcoexist, (u16) BIT(1), TRUE);
++	else
++		halbtc8822b1ant_write_score_board(btcoexist, (u16) BIT(1), FALSE);
++}
++
++
++void halbtc8822b1ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++		static u32		bt_disable_cnt = 0;
++		boolean 		bt_active = true, bt_disabled = false;
++		u16 		u16tmp;
++	
++		/* This function check if bt is disabled */
++#if 1
++		if (coex_sta->high_priority_tx == 0 &&
++			coex_sta->high_priority_rx == 0 &&
++			coex_sta->low_priority_tx == 0 &&
++			coex_sta->low_priority_rx == 0)
++			bt_active = false;
++		if (coex_sta->high_priority_tx == 0xffff &&
++			coex_sta->high_priority_rx == 0xffff &&
++			coex_sta->low_priority_tx == 0xffff &&
++			coex_sta->low_priority_rx == 0xffff)
++			bt_active = false;
++	
++	
++#else
++	
++		/* Read BT on/off status from scoreboard[1], enable this only if BT patch support this feature */
++		halbtc8822b1ant_read_score_board(btcoexist, &u16tmp);
++	
++		bt_active = u16tmp & BIT(1);
++	
++	
++#endif
++	
++		if (bt_active) {
++			bt_disable_cnt = 0;
++			bt_disabled = false;
++			btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++					   &bt_disabled);
++		} else {
++	
++			bt_disable_cnt++;
++			if (bt_disable_cnt >= 2) {
++				bt_disabled = true;
++				bt_disable_cnt = 2;
++			}
++	
++			btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++					   &bt_disabled);
++		}
++	
++	
++		if (coex_sta->bt_disabled != bt_disabled) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT is from %s to %s!!\n",
++					(coex_sta->bt_disabled ? "disabled" : "enabled"),
++					(bt_disabled ? "disabled" : "enabled"));
++			BTC_TRACE(trace_buf);
++			coex_sta->bt_disabled = bt_disabled;
++		}
++	
++}
++
++
++
++void halbtc8822b1ant_enable_gnt_to_gpio(IN struct btc_coexist *btcoexist,
++					boolean isenable)
++{
++	static u8 			bitVal[5] = {0,0,0,0,0};
++	static boolean 		state = false;
++
++	if (state ==isenable)
++		return;
++	else
++		state = isenable;
++
++	if (isenable) {
++
++		/* enable GNT_WL, GNT_BT to GPIO for debug  */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x1);
++
++		/* store original value  */
++		bitVal[0] = (btcoexist->btc_read_1byte(btcoexist, 0x66) & BIT(4)) >>4;	/*0x66[4] */
++		bitVal[1] = (btcoexist->btc_read_1byte(btcoexist, 0x67) & BIT(0));		/*0x66[8] */
++		bitVal[2] = (btcoexist->btc_read_1byte(btcoexist, 0x42) & BIT(3)) >> 3;  /*0x40[19] */
++		bitVal[3] = (btcoexist->btc_read_1byte(btcoexist, 0x65) & BIT(7)) >> 7;  /*0x64[15] */
++		bitVal[4] = (btcoexist->btc_read_1byte(btcoexist, 0x72) & BIT(2)) >> 2;  /*0x70[18] */
++
++		/*  switch GPIO Mux */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x66, BIT(4), 0x0);  /*0x66[4] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, BIT(0), 0x0);  /*0x66[8] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x42, BIT(3), 0x0);  /*0x40[19] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x65, BIT(7), 0x0);  /*0x64[15] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x72, BIT(2), 0x0);  /*0x70[18] = 0 */
++		
++
++	} else {
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x0);
++
++		/*  Restore original value   */
++		/*  switch GPIO Mux */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x66, BIT(4), bitVal[0]);  /*0x66[4] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, BIT(0), bitVal[1]);  /*0x66[8] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x42, BIT(3), bitVal[2]);  /*0x40[19] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x65, BIT(7), bitVal[3]);  /*0x64[15] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x72, BIT(2), bitVal[4]);  /*0x70[18] = 0 */
++	}
++
++}
++
++
++u32 halbtc8822b1ant_ltecoex_indirect_read_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr)
++{
++	u32 j = 0;
++
++
++	/* wait for ready bit before access 0x1700		 */
++	btcoexist->btc_write_4byte(btcoexist, 0x1700, 0x800F0000 | reg_addr);
++
++	do {
++		j++;
++	} while (((btcoexist->btc_read_1byte(btcoexist,
++					     0x1703) & BIT(5)) == 0) &&
++		 (j < BT_8822B_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++	return btcoexist->btc_read_4byte(btcoexist,
++					  0x1708);  /* get read data */
++
++}
++
++void halbtc8822b1ant_ltecoex_indirect_write_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr, IN u32 bit_mask, IN u32 reg_value)
++{
++	u32 val, i = 0, j = 0, bitpos = 0;
++
++
++	if (bit_mask == 0x0)
++		return;
++	if (bit_mask == 0xffffffff) {
++		btcoexist->btc_write_4byte(btcoexist, 0x1704,
++					   reg_value); /* put write data */
++
++		/* wait for ready bit before access 0x1700 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x1703) & BIT(5)) == 0) &&
++			(j < BT_8822B_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x1700,
++					   0xc00F0000 | reg_addr);
++	} else {
++		for (i = 0; i <= 31; i++) {
++			if (((bit_mask >> i) & 0x1) == 0x1) {
++				bitpos = i;
++				break;
++			}
++		}
++
++		/* read back register value before write */
++		val = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++				reg_addr);
++		val = (val & (~bit_mask)) | (reg_value << bitpos);
++
++		/* put write data value */
++		btcoexist->btc_write_4byte(btcoexist, 0x1704,
++					   val); /* put write data */
++
++		/* wait for ready bit before access 0x1700		 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x1703) & BIT(5)) == 0) &&
++			(j < BT_8822B_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++		/* write data add*/
++
++		btcoexist->btc_write_4byte(btcoexist, 0x1700,
++					   0xc00F0000 | reg_addr);
++
++	}
++
++}
++
++void halbtc8822b1ant_ltecoex_enable(IN struct btc_coexist *btcoexist,
++				    IN boolean enable)
++{
++	u8 val;
++
++	val = (enable) ? 1 : 0;
++	/* 0x38[7] */
++	halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist, 0x38, 0x80,
++			val);  /* 0x38[7] */
++
++}
++
++
++void halbtc8822b1ant_ltecoex_pathcontrol_owner(IN struct btc_coexist *btcoexist,
++		IN boolean wifi_control)
++{
++	u8 val;
++
++	val = (wifi_control) ? 1 : 0;
++	/* 0x70[26] */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x4,
++					   val); /* 0x70[26] */
++
++}
++
++void halbtc8822b1ant_ltecoex_set_gnt_bt(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	/*LTE indirect 0x38=0xccxx (sw : gnt_wl=1,sw gnt_bt=1)
++	                      0x38=0xddxx (sw : gnt_bt=1 , sw gnt_wl=0) 
++	                      0x38=0x55xx(hw pta :gnt_wl /gnt_bt ) */
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8822B_1ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0xc000;
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		bit_mask = 0x0c00;
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10]						 */
++		break;
++	case BT_8822B_1ANT_GNT_BLOCK_RFC:
++		bit_mask = 0xc000;
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		break;
++	case BT_8822B_1ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0c00;
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10] */
++		break;
++
++	}
++
++}
++
++void halbtc8822b1ant_ltecoex_set_gnt_wl(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++	/*LTE indirect 0x38=0xccxx (sw : gnt_wl=1,sw gnt_bt=1)
++	                      0x38=0xddxx (sw : gnt_bt=1 , sw gnt_wl=0) 
++			      0x38=0x55xx(hw pta :gnt_wl /gnt_bt ) */
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8822B_1ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0x3000;
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		bit_mask = 0x0300;
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8]						 */
++		break;
++	case BT_8822B_1ANT_GNT_BLOCK_RFC:
++		bit_mask = 0x3000;
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		break;
++	case BT_8822B_1ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0300;
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8] */
++		break;
++
++	}
++
++}
++
++void halbtc8822b1ant_ltecoex_set_coex_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u16 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8822B_1ANT_CTT_WL_VS_LTE:
++		reg_addr = 0xa0;
++		break;
++	case BT_8822B_1ANT_CTT_BT_VS_LTE:
++		reg_addr = 0xa4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xffff, table_content); /* 0xa0[15:0] or 0xa4[15:0] */
++
++
++}
++
++
++void halbtc8822b1ant_ltcoex_set_break_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u8 table_content)	
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8822B_1ANT_LBTT_WL_BREAK_LTE:
++		reg_addr = 0xa8;
++		break;
++	case BT_8822B_1ANT_LBTT_BT_BREAK_LTE:
++		reg_addr = 0xac;
++		break;
++	case BT_8822B_1ANT_LBTT_LTE_BREAK_WL:
++		reg_addr = 0xb0;
++		break;
++	case BT_8822B_1ANT_LBTT_LTE_BREAK_BT:
++		reg_addr = 0xb4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8822b1ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xff, table_content); /* 0xa8[15:0] or 0xb4[15:0] */
++
++
++}
++
++void halbtc8822b1ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8822b1ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8822b1ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8822b1ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	u32	break_table;
++	u8	select_table;
++
++
++
++	coex_sta->coex_table_type = type;
++
++	if (coex_sta->concurrent_rx_mode_on == true) {
++
++		break_table = 0xf0ffffff;  /* set WL hi-pri can break BT */
++		select_table =
++			0xb; 		/* set Tx response = Hi-Pri (ex: Transmitting ACK,BA,CTS) */
++	} else {
++
++		break_table = 0xffffff;
++		select_table = 0x3;
++	}
++
++	switch (type) {
++	case 0:
++		halbtc8822b1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0x55555555, break_table,
++					   select_table);
++		break;
++	case 1:
++		halbtc8822b1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0x5a5a5a5a, break_table,
++					   select_table);
++		break;
++	case 2:
++		halbtc8822b1ant_coex_table(btcoexist, force_exec,
++					   0xaa5a5a5a, 0xaa5a5a5a, break_table,
++					   select_table);
++		break;
++	case 3:
++		halbtc8822b1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0xaa5a5a5a, break_table,
++					   select_table);
++		break;
++	case 4:
++		halbtc8822b1ant_coex_table(btcoexist,
++					   force_exec, 0xaa555555, 0xaa5a5a5a,
++						   break_table, select_table);
++		break;
++	case 5:
++		halbtc8822b1ant_coex_table(btcoexist,
++					   force_exec, 0x5a5a5a5a, 0x5a5a5a5a,
++					   break_table, select_table);
++		break;
++	case 6:
++		halbtc8822b1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 7:
++		halbtc8822b1ant_coex_table(btcoexist, force_exec,
++					   0xaaaaaaaa, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 8:
++		halbtc8822b1ant_coex_table(btcoexist, force_exec,
++					   0xffffffff, 0xffffffff, break_table,
++					   select_table);
++		break;
++			
++	default:
++		break;
++	}
++}
++
++void halbtc8822b1ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	
++
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8822b1ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			{
++			   
++				coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;		
++				return;
++			}
++	}
++	
++	halbtc8822b1ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8822b1ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8822b1ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8822b1ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8822b1ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++		u8	lps_mode = 0x0;
++		u8	h2c_parameter[5] = {0x8, 0, 0, 0, 0};
++	
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++	
++		if (lps_mode) { /* already under LPS state */
++			if (new_ps_state) {
++				/* keep state under LPS, do nothing. */
++			} else {
++				/* will leave LPS state, turn off psTdma first */
++		
++				btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++			}
++		} else {					/* NO PS state */
++			if (new_ps_state) {
++				/* will enter LPS state, turn off psTdma first */
++				
++				btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++			} else {
++				/* keep state under NO PS state, do nothing. */
++			}
++		}
++}
++
++
++void halbtc8822b1ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		coex_sta->force_lps_on = false;
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	case BTC_PS_LPS_ON:
++		
++		coex_sta->force_lps_on = true;
++		halbtc8822b1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8822b1ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		coex_sta->force_lps_on = true;
++		break;
++	case BTC_PS_LPS_OFF:
++		
++		coex_sta->force_lps_on = false;
++		halbtc8822b1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	default:
++		break;
++	}
++}
++
++
++void halbtc8822b1ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++		u8			h2c_parameter[5] = {0};
++		u8			real_byte1 = byte1, real_byte5 = byte5;
++		boolean 		ap_enable = false;
++	
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++				   &ap_enable);
++	
++		if (ap_enable) {
++			if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++				
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], FW for 1Ant AP mode\n");
++				BTC_TRACE(trace_buf);
++				
++				real_byte1 &= ~BIT(4);
++				real_byte1 |= BIT(5);
++	
++				real_byte5 |= BIT(5);
++				real_byte5 &= ~BIT(6);
++	
++				halbtc8822b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++								 0x0);
++			}
++		} else if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++	
++			halbtc8822b1ant_power_save_state(btcoexist, BTC_PS_LPS_ON, 0x50,
++							0x4);
++		} else {
++			halbtc8822b1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++							 0x0);
++		}
++	
++	
++		h2c_parameter[0] = real_byte1;
++		h2c_parameter[1] = byte2;
++		h2c_parameter[2] = byte3;
++		h2c_parameter[3] = byte4;
++		h2c_parameter[4] = real_byte5;
++	
++		coex_dm->ps_tdma_para[0] = real_byte1;
++		coex_dm->ps_tdma_para[1] = byte2;
++		coex_dm->ps_tdma_para[2] = byte3;
++		coex_dm->ps_tdma_para[3] = byte4;
++		coex_dm->ps_tdma_para[4] = real_byte5;
++	
++		btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++void halbtc8822b1ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_busy = false;
++	static u8			psTdmaByte4Modify = 0x0, pre_psTdmaByte4Modify = 0x0;
++	static boolean	 pre_wifi_busy = false;
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (wifi_busy != pre_wifi_busy) {
++		force_exec = true;
++		pre_wifi_busy = wifi_busy;
++	}
++
++	/* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++	if ((bt_link_info->slave_role) && (bt_link_info->a2dp_exist))
++		psTdmaByte4Modify = 0x1;
++	else
++		psTdmaByte4Modify = 0x0;
++
++	if (pre_psTdmaByte4Modify != psTdmaByte4Modify) {
++
++		force_exec = true;
++		pre_psTdmaByte4Modify = psTdmaByte4Modify;
++	}
++
++	if (coex_dm->cur_ps_tdma_on) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********TDMA(on, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], **********TDMA(off, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	}
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			{
++		 		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++							"[BTCoex], return for no-TDMA case change\n");
++				BTC_TRACE(trace_buf);
++				
++				return;
++			}
++	}
++
++		
++	if (turn_on) {
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++		
++		switch (type) {
++		default:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++					0x51,0x1a, 0x1a, 0x0, 0x10);
++			break;
++		case 1:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++			        0x61, 0x3a,0x03,0x11, 0x10);
++			break;
++		case 3:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++			        0x51, 0x3a, 0x03, 0x10, 0x10);
++			break;
++		case 4:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++			        0x51, 0x21, 0x03, 0x10, 0x10);
++			break;
++		case 5:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++			        0x61, 0x15, 0x3,0x11, 0x11);
++			break;
++		case 7:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++					0x61, 0x10, 0x03, 0x10,  0x14 | psTdmaByte4Modify);
++			break;
++		case 8:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++					0x51, 0x10, 0x03, 0x10,  0x14 | psTdmaByte4Modify);
++			break;
++		case 13:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++					0x51, 0x25, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 14:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++					0x51, 0x15, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 15:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++					0x51, 0x20, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 17:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++					0x61, 0x10, 0x03, 0x11,  0x14 | psTdmaByte4Modify);
++			break;;
++		
++		case 20:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++			        0x61, 0x30, 0x03,0x11, 0x10);
++			break;
++		case 22:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++			        0x61, 0x25, 0x03,0x11, 0x10);
++			break;		
++		case 32:
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++					0x61, 0x35, 0x3,0x11, 0x11);
++			break;
++		case 41:/*HID*/
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++					0x51,0x45, 0x3, 0x11, 0x11);
++			break;
++		case 42:/*A2DP*/
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++					0x51,0x1e, 0x3, 0x10, 0x14| psTdmaByte4Modify);
++			break;
++		case 43:/*A2DP+HID*/
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++					0x51,0x45, 0x3, 0x10, 0x14);
++			break;
++		case 44:/*A2DP+OPP old */
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++					0x51,0x25, 0x3, 0x10, 0x10);
++			break;
++		case 45:/*OPP new -> WIFI FW check the ncuu_p ack of AP , if has no null_p ack , wifi fw will extened wifi slot */ 
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++					0x51,0x3a, 0x3, 0x10, 0x10);
++			break;
++		case 46:/*A2DP+OPP new-> WIFI FW check the ncuu_p ack of AP , if has no null_p ack , wifi fw will extened wifi slot*/
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++					0x51,0x1a, 0x3, 0x10, 0x10);
++			break;		
++
++		}
++	} else {
++
++		switch (type) {
++		case 0:
++		default:  /* Software control, Antenna at BT side */
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++				0x0,0x0, 0x0, 0x0, 0x0);
++			/*
++			halbtc8822b1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_BT, FORCE_EXEC, false,
++						     false); */
++			break;
++		case 8: /* PTA Control */
++			halbtc8822b1ant_set_fw_pstdma(btcoexist,
++				0x8,0x0, 0x0, 0x0, 0x0);
++			/*
++			halbtc8822b1ant_set_ant_path(btcoexist,
++				     BTC_ANT_PATH_PTA, FORCE_EXEC,  false,
++				     false);  */
++			break;	
++		case 9:   /* Software control, Antenna at WiFi side */
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++				0x0,0x0, 0x0, 0x0, 0x0);
++			/*
++			halbtc8822b1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_WIFI, FORCE_EXEC,false,false); */
++			break;
++		case 10:	/* under 5G , 0x778=1*/		
++			halbtc8822b1ant_set_fw_pstdma(btcoexist, 
++				0x0,0x0, 0x0, 0x0, 0x0);
++
++			/*
++			halbtc8822b1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_WIFI5G, FORCE_EXEC, false,
++						     false);	*/
++
++			break;
++		}
++	}
++
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++
++void halbtc8822b1ant_sw_mechanism(IN struct btc_coexist *btcoexist,
++				  IN boolean low_penalty_ra)
++{
++	halbtc8822b1ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8822b1ant_set_rfe_type(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++
++
++	/* the following setup should be got from Efuse in the future */
++	rfe_type->rfe_module_type = board_info->rfe_type;
++	
++	rfe_type->ext_ant_switch_ctrl_polarity = 0;;
++
++	switch(rfe_type->rfe_module_type)
++	{
++		case 0:
++		default:	
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8822B_1ANT_EXT_ANT_SWITCH_USE_SPDT;         
++			break;
++		case 1:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8822B_1ANT_EXT_ANT_SWITCH_USE_SPDT;        
++			break;
++		case 2:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8822B_1ANT_EXT_ANT_SWITCH_USE_SPDT;            
++			break;	
++		case 3:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8822B_1ANT_EXT_ANT_SWITCH_USE_SPDT;         
++			break;
++		case 4:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8822B_1ANT_EXT_ANT_SWITCH_USE_SP3T;          /* SP3T   */;
++			break;	
++	}
++
++	
++}
++
++
++void halbtc8822b1ant_set_ext_ant_switch(IN struct btc_coexist *btcoexist, IN boolean force_exec, IN u8 ctrl_type, IN u8 pos_type)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	boolean	switch_polatiry_inverse = false;
++	u8		regval_0xcbd = 0, regval_0x64;
++	u32		u32tmp1 = 0, u32tmp2 = 0, u32tmp3 = 0;
++	
++	if (!rfe_type->ext_ant_switch_exist)
++		return;	
++
++	 coex_dm->cur_ext_ant_switch_status = (ctrl_type << 8)  + pos_type;
++	 	
++	if (!force_exec) {
++		if (coex_dm->pre_ext_ant_switch_status == coex_dm->cur_ext_ant_switch_status)
++			return;	
++	} 
++
++	coex_dm->pre_ext_ant_switch_status = coex_dm->cur_ext_ant_switch_status;
++
++	/* swap control polarity if use different switch control polarity*/
++	/*  Normal switch polarity for SPDT, 0xcbd[1:0] = 2b'01 => Ant to BTG,  0xcbd[1:0] = 2b'10 => Ant to WLG */
++	switch_polatiry_inverse = (rfe_type->ext_ant_switch_ctrl_polarity == 1? ~switch_polatiry_inverse: switch_polatiry_inverse); 
++
++	
++	switch(pos_type)
++	{	
++		default:
++		case BT_8822B_1ANT_EXT_ANT_SWITCH_TO_BT:
++		case BT_8822B_1ANT_EXT_ANT_SWITCH_TO_NOCARE:
++			
++			break;
++		case BT_8822B_1ANT_EXT_ANT_SWITCH_TO_WLG:
++			switch_polatiry_inverse =  ~switch_polatiry_inverse;
++			break;
++		case BT_8822B_1ANT_EXT_ANT_SWITCH_TO_WLA:
++			break;
++	}
++	
++
++	if (rfe_type->ext_ant_switch_type == BT_8822B_1ANT_EXT_ANT_SWITCH_USE_SPDT)
++	{
++			switch(ctrl_type)
++			{
++				default:
++				case BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW:
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /*  0x4c[23] = 0 */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x1);  /* 0x4c[24] = 1  */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb4, 0xff, 0x77);	/* BB SW, DPDT use RFE_ctrl8 and RFE_ctrl9 as cotrol pin */
++
++					regval_0xcbd = (switch_polatiry_inverse == false?  0x1 : 0x2);     /* 0xcbd[1:0] = 2b'01 for no switch_polatiry_inverse, ANTSWB =1, ANTSW =0   */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcbd, 0x3, regval_0xcbd);
++
++					break;
++				case BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_PTA:
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /* 0x4c[23] = 0 */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x1);  /* 0x4c[24] = 1 */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb4, 0xff, 0x66);	/* PTA,  DPDT use RFE_ctrl8 and RFE_ctrl9 as cotrol pin */
++
++					regval_0xcbd = (switch_polatiry_inverse == false?  0x2 : 0x1);     /* 0xcbd[1:0] = 2b'10 for no switch_polatiry_inverse, ANTSWB =1, ANTSW =0  @ GNT_BT=1  */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcbd, 0x3, regval_0xcbd);
++					
++					break;
++				case BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_ANTDIV:
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /* 0x4c[23] = 0 */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x1);  /* 0x4c[24] = 1 */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb4, 0xff, 0x88);  /* */
++
++					/* no regval_0xcbd setup required, because  antenna switch control value by antenna diversity */
++
++					break;
++				case BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_MAC:
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x1);  /*  0x4c[23] = 1 */
++
++					regval_0x64 = (switch_polatiry_inverse == false?  0x0 : 0x1);     /* 0x64[0] = 1b'0 for no switch_polatiry_inverse, DPDT_SEL_N =1, DPDT_SEL_P =0 */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x64, 0x1, regval_0x64);
++					break;
++				case BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_BT:
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /* 0x4c[23] = 0  */
++					btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x0);  /* 0x4c[24] = 0  */
++
++					/* no  setup required, because  antenna switch control value by BT vendor 0xac[1:0]  */
++					break;
++			}
++	}
++
++		u32tmp1 = btcoexist->btc_read_4byte(btcoexist, 0xcbd);
++		u32tmp2 = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0x64) & 0xff;
++			
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (After Ext Ant switch setup) 0xcbd = 0x%08x, 0x4c = 0x%08x, 0x64= 0x%02x**********\n",
++		    u32tmp1, u32tmp2, u32tmp3);
++		BTC_TRACE(trace_buf);
++
++
++}
++
++
++void halbtc8822b1ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean force_exec,
++	  IN u8 phase)
++
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++	u8			u8tmp = 0;
++	u32			u32tmp1 = 0, u32tmp2 = 0, u32tmp3 = 0;
++
++		 coex_dm->cur_ant_pos_type = (ant_pos_type << 8)  + phase;
++	
++		if (!force_exec) {
++			if (coex_dm->cur_ant_pos_type == coex_dm->pre_ant_pos_type)
++				return; 
++		} 
++		
++		coex_dm->pre_ant_pos_type = coex_dm->cur_ant_pos_type;
++	
++#if 1
++		u32tmp1 = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++				0x38);
++		u32tmp2 = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++				0x54);	
++		u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++
++		u8tmp  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++	
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], ********** (Before Ant Setup) 0xcb4 = 0x%x, 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++				u32tmp3, u8tmp, u32tmp1, u32tmp2);
++		BTC_TRACE(trace_buf);
++#endif
++
++	switch (phase)
++	{
++		case BT_8822B_1ANT_PHASE_COEX_INIT:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, 
++					"[BTCoex], ********** (set_ant_path - 1ANT_PHASE_COEX_INIT) **********\n" );
++			BTC_TRACE(trace_buf);	
++
++			/* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++			halbtc8822b1ant_ltecoex_enable(btcoexist, 0x0);
++
++			/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++			halbtc8822b1ant_ltecoex_set_coex_table(btcoexist,
++					       BT_8822B_1ANT_CTT_WL_VS_LTE, 0xffff);
++
++			/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++			halbtc8822b1ant_ltecoex_set_coex_table(btcoexist,
++					       BT_8822B_1ANT_CTT_BT_VS_LTE, 0xffff);
++
++			/* set GNT_BT to SW high */
++			halbtc8822b1ant_ltecoex_set_gnt_bt(btcoexist,
++								   BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++								   BT_8822B_1ANT_GNT_CTRL_BY_SW,
++								   BT_8822B_1ANT_SIG_STA_SET_TO_HIGH);
++
++			/* set GNT_WL to SW low */
++			halbtc8822b1ant_ltecoex_set_gnt_wl(btcoexist,
++								   BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++								   BT_8822B_1ANT_GNT_CTRL_BY_SW,
++					   			   BT_8822B_1ANT_SIG_STA_SET_TO_LOW);
++
++			 /* set Path control owner to WL at initial step */
++			halbtc8822b1ant_ltecoex_pathcontrol_owner(btcoexist,
++								   BT_8822B_1ANT_PCO_WLSIDE);
++
++			 coex_sta->run_time_state = false;
++
++			/* Ext switch buffer mux  */
++			btcoexist->btc_write_1byte(btcoexist, 0x974, 0xff);
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x1991, 0x3, 0x0);
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcbe, 0x8, 0x0);
++
++			if (BTC_ANT_PATH_AUTO == ant_pos_type)
++					ant_pos_type = BTC_ANT_PATH_BT;			
++
++			break;
++		case BT_8822B_1ANT_PHASE_WLANONLY_INIT:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, 
++					"[BTCoex], ********** (set_ant_path - 1ANT_PHASE_WLANONLY_INIT) **********\n" );
++			BTC_TRACE(trace_buf);	
++
++			 /* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++			halbtc8822b1ant_ltecoex_enable(btcoexist, 0x0);
++
++			/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++			halbtc8822b1ant_ltecoex_set_coex_table(btcoexist,
++									       BT_8822B_1ANT_CTT_WL_VS_LTE, 0xffff);
++
++			/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++			halbtc8822b1ant_ltecoex_set_coex_table(btcoexist,
++						       BT_8822B_1ANT_CTT_BT_VS_LTE, 0xffff);				
++
++			/* set GNT_BT to SW Low */
++			halbtc8822b1ant_ltecoex_set_gnt_bt(btcoexist,
++							BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++					   		BT_8822B_1ANT_GNT_CTRL_BY_SW,
++							BT_8822B_1ANT_SIG_STA_SET_TO_LOW);
++			
++			/* Set GNT_WL to SW high */
++			halbtc8822b1ant_ltecoex_set_gnt_wl(btcoexist,
++						      BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++					  	      BT_8822B_1ANT_GNT_CTRL_BY_SW,
++						      BT_8822B_1ANT_SIG_STA_SET_TO_HIGH);
++
++			/* set Path control owner to WL at initial step */
++			halbtc8822b1ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8822B_1ANT_PCO_WLSIDE);
++
++			coex_sta->run_time_state = false;
++
++			/* Ext switch buffer mux  */
++			btcoexist->btc_write_1byte(btcoexist, 0x974, 0xff);
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x1991, 0x3, 0x0);
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcbe, 0x8, 0x0);
++
++			if (BTC_ANT_PATH_AUTO == ant_pos_type)
++					ant_pos_type = BTC_ANT_PATH_WIFI;
++
++			break;
++		case BT_8822B_1ANT_PHASE_WLAN_OFF:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, 
++					"[BTCoex], ********** (set_ant_path - 1ANT_PHASE_WLAN_OFF) **********\n" );
++			BTC_TRACE(trace_buf);	
++
++			/* Disable LTE Coex Function in WiFi side */
++			halbtc8822b1ant_ltecoex_enable(btcoexist, 0x0);
++
++			/* set Path control owner to BT */
++			halbtc8822b1ant_ltecoex_pathcontrol_owner(btcoexist,
++						BT_8822B_1ANT_PCO_BTSIDE);
++
++			/* Set Ext Ant Switch to BT control at wifi off step  */
++			halbtc8822b1ant_set_ext_ant_switch(btcoexist, 
++						   FORCE_EXEC, 
++						   BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_BT, 
++					   	   BT_8822B_1ANT_EXT_ANT_SWITCH_TO_NOCARE);
++				
++			coex_sta->run_time_state = false;
++
++			break;
++		case BT_8822B_1ANT_PHASE_2G_RUNTIME:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, 
++					"[BTCoex], ********** (set_ant_path - 1ANT_PHASE_2G_RUNTIME) **********\n" );
++			BTC_TRACE(trace_buf);	
++				
++			/* set GNT_BT to PTA */
++			halbtc8822b1ant_ltecoex_set_gnt_bt(btcoexist,
++								BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++								BT_8822B_1ANT_GNT_CTRL_BY_PTA,
++								BT_8822B_1ANT_SIG_STA_SET_BY_HW);
++							
++			/* Set GNT_WL to PTA */
++			halbtc8822b1ant_ltecoex_set_gnt_wl(btcoexist,
++								BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++								BT_8822B_1ANT_GNT_CTRL_BY_PTA,
++								BT_8822B_1ANT_SIG_STA_SET_BY_HW);
++
++			/* set Path control owner to WL at runtime step */
++			halbtc8822b1ant_ltecoex_pathcontrol_owner(btcoexist,
++								BT_8822B_1ANT_PCO_WLSIDE);
++			
++			coex_sta->run_time_state = true;
++			
++			if (BTC_ANT_PATH_AUTO == ant_pos_type)
++					ant_pos_type = BTC_ANT_PATH_PTA;									
++
++			break;
++		case BT_8822B_1ANT_PHASE_5G_RUNTIME:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, 
++					"[BTCoex], ********** (set_ant_path - 1ANT_PHASE_5G_RUNTIME) **********\n" );
++			BTC_TRACE(trace_buf);
++
++			/* set GNT_BT to SW Hi */
++			halbtc8822b1ant_ltecoex_set_gnt_bt(btcoexist,
++							   BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8822B_1ANT_GNT_CTRL_BY_SW,
++					   		   BT_8822B_1ANT_SIG_STA_SET_TO_HIGH);
++				
++			/* Set GNT_WL to SW Hi */
++			halbtc8822b1ant_ltecoex_set_gnt_wl(btcoexist,
++							   BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8822B_1ANT_GNT_CTRL_BY_SW,
++					   		   BT_8822B_1ANT_SIG_STA_SET_TO_HIGH);
++
++			/* set Path control owner to WL at runtime step */
++			halbtc8822b1ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8822B_1ANT_PCO_WLSIDE);
++
++			coex_sta->run_time_state = true;
++
++			if (BTC_ANT_PATH_AUTO == ant_pos_type) 
++						ant_pos_type = BTC_ANT_PATH_WIFI5G;
++				
++			break;
++		case BT_8822B_1ANT_PHASE_BTMPMODE	:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, 
++					"[BTCoex], ********** (set_ant_path - 1ANT_PHASE_BTMPMODE) **********\n" );
++			BTC_TRACE(trace_buf);	
++
++			/* Disable LTE Coex Function in WiFi side */
++			halbtc8822b1ant_ltecoex_enable(btcoexist, 0x0);
++
++			/* set GNT_BT to SW Hi */
++			halbtc8822b1ant_ltecoex_set_gnt_bt(btcoexist,
++							   BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8822B_1ANT_GNT_CTRL_BY_SW,
++					   		   BT_8822B_1ANT_SIG_STA_SET_TO_HIGH);
++				
++			/* Set GNT_WL to SW Lo */
++			halbtc8822b1ant_ltecoex_set_gnt_wl(btcoexist,
++							   BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8822B_1ANT_GNT_CTRL_BY_SW,
++					   		   BT_8822B_1ANT_SIG_STA_SET_TO_LOW);
++
++			/* set Path control owner to WL */
++			halbtc8822b1ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8822B_1ANT_PCO_WLSIDE);
++
++			coex_sta->run_time_state = false;
++				
++			/* Set Ext Ant Switch to BT side at BT MP mode  */
++			if (BTC_ANT_PATH_AUTO == ant_pos_type) 
++					ant_pos_type = BTC_ANT_PATH_BT;
++
++			break;
++	}
++
++	
++	if (phase != BT_8822B_1ANT_PHASE_WLAN_OFF)
++			{
++				switch (ant_pos_type) {
++							case BTC_ANT_PATH_WIFI:
++								halbtc8822b1ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8822B_1ANT_EXT_ANT_SWITCH_TO_WLG);
++								break;
++							case BTC_ANT_PATH_WIFI5G:
++								halbtc8822b1ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8822B_1ANT_EXT_ANT_SWITCH_TO_WLA);
++								break;
++							case BTC_ANT_PATH_BT:
++								halbtc8822b1ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8822B_1ANT_EXT_ANT_SWITCH_TO_BT);			
++								break;
++							default:
++							case BTC_ANT_PATH_PTA:
++								halbtc8822b1ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_PTA, 
++													BT_8822B_1ANT_EXT_ANT_SWITCH_TO_NOCARE);			
++								break;
++					}
++	
++		}
++#if 1
++	u32tmp1 = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++
++	u8tmp  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++	
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (After Ant Setup) 0xcb4 = 0x%x, 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++				u32tmp3, u8tmp, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++	
++#endif
++
++}
++
++
++void halbtc8822b1ant_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++	/* sw all off */
++	halbtc8822b1ant_sw_mechanism(btcoexist, false);
++
++	/* hw all off */
++	halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++boolean halbtc8822b1ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected &&
++	    BT_8822B_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++	    coex_dm->bt_status) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8822b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		   (BT_8822B_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8822b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8822B_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8822b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		(BT_8822B_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8822b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8822B_1ANT_BT_STATUS_CONNECTED_IDLE != coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non connected-idle + BT Busy!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8822b1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else {
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		}
++
++		common = false;
++	}
++
++	return common;
++}
++
++void halbtc8822b1ant_action_wifi_under5g(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], under 5g start \n");
++	BTC_TRACE(trace_buf);	
++
++	halbtc8822b1ant_ignore_wlan_act(btcoexist, NORMAL_EXEC, true);
++
++	halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 10);
++
++	halbtc8822b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, FORCE_EXEC,
++				      BT_8822B_1ANT_PHASE_5G_RUNTIME);
++
++	halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 8);
++
++	halbtc8822b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++	halbtc8822b1ant_limited_rx(btcoexist, NORMAL_EXEC, false, false, 5);
++
++}
++
++
++
++void halbtc8822b1ant_action_wifi_only(IN struct btc_coexist *btcoexist)
++{
++	boolean wifi_under_5g = false;
++
++    btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if(wifi_under_5g)
++	{
++		halbtc8822b1ant_action_wifi_under5g(btcoexist);
++			
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,	
++		    	"[BTCoex], ********** (wlan only -- under 5g ) **********\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++		
++	halbtc8822b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++	halbtc8822b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++
++	halbtc8822b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, FORCE_EXEC,
++				      BT_8822B_1ANT_PHASE_2G_RUNTIME);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,	
++		    	"[BTCoex], ********** (wlan only -- under 2g ) **********\n");
++	BTC_TRACE(trace_buf);
++	
++}
++
++/* *********************************************
++ *
++ *	Software Coex Mechanism start
++ *
++ * ********************************************* */
++
++/* SCO only or SCO+PAN(HS) */
++
++/*
++void halbtc8822b1ant_action_sco(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8822b1ant_action_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8822b1ant_action_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8822b1ant_action_a2dp_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8822b1ant_action_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8822b1ant_action_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8822b1ant_action_pan_edr_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8822b1ant_action_pan_edr_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8822b1ant_action_hid_a2dp_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, true);
++}
++
++void halbtc8822b1ant_action_hid_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8822b1ant_sw_mechanism(btcoexist, true);
++}
++
++*/
++
++/* *********************************************
++ *
++ *	Non-Software Coex Mechanism start
++ *
++ * ********************************************* */
++void halbtc8822b1ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex],action_bt_whck_test\n");
++					BTC_TRACE(trace_buf);
++
++	halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	
++	halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++				     
++	halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8822b1ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex],action_wifi_multi_port\n");
++					BTC_TRACE(trace_buf);
++
++	halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++	halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++	
++	halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++}
++
++void halbtc8822b1ant_action_hs(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], action_hs\n");
++					BTC_TRACE(trace_buf);
++
++	halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++
++	halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++	
++	halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++}
++
++/*"""bt inquiry"""" + wifi any + bt any*/
++void halbtc8822b1ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_connected = false, ap_enable = false, wifi_busy = false,
++				bt_busy = false;
++	
++
++	boolean		wifi_scan = false, link = false, roam = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (bt inquiry) **********\n");
++	BTC_TRACE(trace_buf);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &wifi_scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** scan = %d,  link =%d, roam = %d**********\n",
++		    wifi_scan, link, roam);
++	BTC_TRACE(trace_buf);
++
++	 if ( (link) || (roam) || (coex_sta->wifi_is_high_pri_task)){
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (bt inquiry wifi  connect or scan ) **********\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 1);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++		
++	} else if ((wifi_scan) && (coex_sta->bt_create_connection)) {
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++
++	} else if ((!wifi_connected) && (!wifi_scan)) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (bt inquiry wifi non connect) **********\n");
++		BTC_TRACE(trace_buf);
++				
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	} else if ((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) {
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (bt_link_info->a2dp_exist) {
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (wifi_scan) {
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (wifi_busy) {
++
++		/* for BT inquiry/page fail after S4 resume */
++		/* halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);		 */
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     1);
++	}else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (bt inquiry wifi connect) **********\n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     1);
++	}
++
++/*
++	if ((wifi_link) || (wifi_roam) || (coex_sta->wifi_is_high_pri_task)) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++
++	} else if ((wifi_scan) && (coex_sta->bt_create_connection)) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++
++	} else if ((!wifi_connected) && (!wifi_scan)) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if ((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	} else if (bt_link_info->a2dp_exist) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (wifi_scan) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	} else if (wifi_busy) {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 21);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 19);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	}
++*/	
++}
++
++void halbtc8822b1ant_action_bt_sco_hid_only_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (bt sco hid only busy) **********\n");
++	BTC_TRACE(trace_buf);
++
++        /*SCO  + wifi conected idle or busy / 0x778=1@wifi slot*/
++	if (bt_link_info->sco_exist) {
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++		
++	} else { /* HID  + wifi conected idle or busy / 0x778=1@wifi slot */
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++		
++	}
++}
++
++/*wifi connected + bt acl busy*/
++void halbtc8822b1ant_action_wifi_connected_bt_acl_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++
++	u8		bt_rssi_state;
++
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	bt_rssi_state = halbtc8822b1ant_bt_rssi_state(2, 28, 0);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (wifi connect acl busy) **********\n");
++	BTC_TRACE(trace_buf);
++
++	if (bt_link_info->hid_only) { /* HID  + wifi conected idle or busy / 0x778=1@wifi slot */
++		halbtc8822b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				wifi_status);
++		return;
++	} else if (bt_link_info->a2dp_only) { /* A2DP  + wifi conected idle or busy */
++		if (BT_8822B_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status) {
++
++			halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		} else {
++		if (coex_sta->scan_ap_num >=
++			    BT_8822B_1ANT_WIFI_NOISY_THRESH)  {
++				halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++							17);
++			}	else {
++				halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++							42);
++			}
++
++			halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++			coex_dm->auto_tdma_adjust = true;
++		}
++
++		/* A2DP+PAN(OPP,FTP), HID+A2DP+PAN(OPP,FTP) */
++	} else if (((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) ||
++		   (bt_link_info->hid_exist && bt_link_info->a2dp_exist &&
++		bt_link_info->pan_exist)) { /* A2DP+PAN(OPP,FTP), HID+A2DP+PAN(OPP,FTP) */
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 44);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     1);
++	} else if (bt_link_info->hid_exist &&
++		   bt_link_info->a2dp_exist) { /* HID+A2DP */
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 42);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     1);
++
++	} else if ((bt_link_info->pan_only) || (bt_link_info->hid_exist &&
++		bt_link_info->pan_exist)) { /* PAN(OPP,FTP), HID+PAN(OPP,FTP)*/
++		/*
++		if (BT_8723D_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status)
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						4);
++		else
++		*/
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 45);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     1);
++	} else {
++		/* BT no-profile busy (0x9) */
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     1);
++	}
++}
++
++/*wifi not connected + bt action*/
++void halbtc8822b1ant_action_wifi_not_connected(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (wifi not connect) **********\n");
++	BTC_TRACE(trace_buf);
++
++	/* tdma and coex table */
++	halbtc8822b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++
++	halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++	
++	halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++/*""""wl not connected scan"""" + bt action*/
++void halbtc8822b1ant_action_wifi_not_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (wifi non connect scan) **********\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8822b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8822b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8822b1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8822b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8822b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8822b1ant_action_hs(btcoexist);
++		return;
++	}
++	
++	/* tdma and coex table */
++	if (BT_8822B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		} else {
++			halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++			halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		}
++	} else if ((BT_8822B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8822B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8822b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8822B_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     5);
++	}
++}
++
++/*""""wl not connected asso"""" + bt action*/
++void halbtc8822b1ant_action_wifi_not_connected_asso_auth(
++	IN struct btc_coexist *btcoexist)
++{
++	
++	struct	btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32 wifi_link_status = 0;
++	u32 num_of_wifi_link = 0;
++	boolean bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (wifi non connect asso_auth) **********\n");
++	BTC_TRACE(trace_buf);
++	
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++				   &wifi_link_status);
++	
++	num_of_wifi_link = wifi_link_status >> 16;
++	
++	if (num_of_wifi_link >= 2) {
++		
++		halbtc8822b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8822b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++						   bt_ctrl_agg_buf_size, agg_buf_size);
++	
++		if (coex_sta->c2h_bt_inquiry_page) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"############# [BTCoex],  BT Is Inquirying\n");
++				BTC_TRACE(trace_buf);
++				halbtc8822b1ant_action_bt_inquiry(btcoexist);
++		} else
++				halbtc8822b1ant_action_wifi_multi_port(btcoexist);
++			return;
++	}
++	
++		if (coex_sta->c2h_bt_inquiry_page) {
++			halbtc8822b1ant_action_bt_inquiry(btcoexist);
++			return;
++		} else if (bt_hs_on) {
++			halbtc8822b1ant_action_hs(btcoexist);
++			return;
++		}
++	
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist)  || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else {
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 2);
++	}
++}
++
++/*""""wl  connected scan"""" + bt action*/
++void halbtc8822b1ant_action_wifi_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (wifi connect scan) **********\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8822b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8822b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8822b1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8822b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8822b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8822b1ant_action_hs(btcoexist);
++		return;
++	}
++
++	/* tdma and coex table */
++	if (BT_8822B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		} else {
++			halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++			halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++		}
++	} else if ((BT_8822B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8822B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8822b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8822B_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++	
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     5);
++	}
++}
++
++/*""""wl  connected specific packet"""" + bt action*/
++void halbtc8822b1ant_action_wifi_connected_specific_packet(
++	IN struct btc_coexist *btcoexist)
++{
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++	boolean wifi_busy = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (wifi connect specific packet) **********\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8822b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8822b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8822b1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8822b1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8822b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8822b1ant_action_hs(btcoexist);
++		return;
++	}
++
++	
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	/* no specific packet process for both WiFi and BT very busy */
++	if ((wifi_busy) && ((bt_link_info->pan_exist) ||
++			    (coex_sta->num_of_profile >= 2)))
++		return;
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist)) {
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else if (bt_link_info->a2dp_exist) {
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     1);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     1);
++	} else {
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     5);
++	}
++}
++
++/*wifi connected input point : to set different ps and tdma case (+bt different case)*/
++void halbtc8822b1ant_action_wifi_connected(IN struct btc_coexist *btcoexist)
++{
++
++	boolean	wifi_busy = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean		under_4way = false, ap_enable = false, wifi_under_5g=false;
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], CoexForWifiConnect()===>\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	if (wifi_under_5g) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 5g<===\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_action_wifi_under5g(btcoexist);
++
++		return;
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 2g<===\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++	}
++			
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	
++	if (under_4way) {
++		halbtc8822b1ant_action_wifi_connected_specific_packet(btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 4way<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++	if (scan || link || roam) {
++		if (scan)
++			halbtc8822b1ant_action_wifi_connected_scan(btcoexist);
++		else
++			halbtc8822b1ant_action_wifi_connected_specific_packet(
++				btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under scan<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	/* tdma and coex table */
++	if (!wifi_busy) {
++		if (BT_8822B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8822b1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8822B_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else if ((BT_8822B_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8822B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8822b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8822B_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else {
++	
++			halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++
++			halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++			
++			if ((coex_sta->high_priority_tx) +
++			    (coex_sta->high_priority_rx) <= 60)
++			     /*sy modify case16 -> case17*/
++				halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);		       
++			else
++				halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		}
++	} else {
++		if (BT_8822B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8822b1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8822B_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else if ((BT_8822B_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8822B_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8822b1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8822B_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else {
++
++			halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++
++			halbtc8822b1ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO, 
++						NORMAL_EXEC,
++				     	BT_8822B_1ANT_PHASE_2G_RUNTIME);
++			
++			if ((coex_sta->high_priority_tx) +
++			    (coex_sta->high_priority_rx) <= 60)
++			    /*sy modify case16 -> case17*/
++			    
++				halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 1);
++			else
++				halbtc8822b1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 7);
++		}
++	}
++}
++
++void halbtc8822b1ant_run_sw_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++
++	u8				algorithm = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (runswcoexmech) **********\n");
++	BTC_TRACE(trace_buf);
++	algorithm = halbtc8822b1ant_action_algorithm(btcoexist);
++	coex_dm->cur_algorithm = algorithm;
++
++	if (halbtc8822b1ant_is_common_action(btcoexist)) {
++
++	} else {
++		switch (coex_dm->cur_algorithm) {
++		case BT_8822B_1ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_sco(btcoexist); */
++			break;
++		case BT_8822B_1ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_hid(btcoexist); */
++			break;
++		case BT_8822B_1ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_a2dp(btcoexist); */
++			break;
++		case BT_8822B_1ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_a2dp_pan_hs(btcoexist); */
++			break;
++		case BT_8822B_1ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_pan_edr(btcoexist); */
++			break;
++		case BT_8822B_1ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_pan_hs(btcoexist); */
++			break;
++		case BT_8822B_1ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_pan_edr_a2dp(btcoexist); */
++			break;
++		case BT_8822B_1ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_pan_edr_hid(btcoexist); */
++			break;
++		case BT_8822B_1ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_hid_a2dp_pan_edr(btcoexist); */
++			break;
++		case BT_8822B_1ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_action_hid_a2dp(btcoexist); */
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8822b1ant_coex_all_off(btcoexist); */
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8822b1ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false, bt_hs_on = false;
++	boolean	increase_scan_dev_num = false;
++	boolean	bt_ctrl_agg_buf_size = false;
++	boolean	miracast_plus_bt = false;
++	u8	agg_buf_size = 5;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0, wifi_bw;
++	u8	iot_peer = BTC_IOT_PEER_UNKNOWN;
++	boolean wifi_under_5g = false;
++
++	
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (!coex_sta->run_time_state){
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], return for run_time_state = false !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if(wifi_under_5g)
++	{
++		halbtc8822b1ant_action_wifi_under5g(btcoexist);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		   		 "[BTCoex], WiFi is under 5G!!! \n");
++		BTC_TRACE(trace_buf);
++		return;
++	}else{
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 2G!!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     NORMAL_EXEC, BT_8822B_1ANT_PHASE_2G_RUNTIME);
++	}
++
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8822b1ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	if (coex_sta->bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is disabled !!!\n");
++		halbtc8822b1ant_action_wifi_only(btcoexist);
++		return;
++	}
++
++	if ((BT_8822B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8822B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8822B_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		increase_scan_dev_num = true;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_INC_SCAN_DEV_NUM,
++			   &increase_scan_dev_num);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist) {
++			halbtc8822b1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1,
++						   0, 1);
++			miracast_plus_bt = true;
++		} else {
++			halbtc8822b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++			miracast_plus_bt = false;
++		}
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8822b1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if ((bt_link_info->a2dp_exist) &&
++		    (coex_sta->c2h_bt_inquiry_page)) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8822b1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8822b1ant_action_wifi_multi_port(btcoexist);
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if ((bt_link_info->bt_link_exist) && (wifi_connected)) {
++		halbtc8822b1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1, 0, 1);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_IOT_PEER, &iot_peer);
++
++		if (BTC_IOT_PEER_CISCO != iot_peer) {
++			if (bt_link_info->sco_exist) /* if (bt_link_info->bt_hi_pri_link_exist) */
++				halbtc8822b1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, true, false, 0x5);
++			else
++				halbtc8822b1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, false, false, 0x5);
++		} else {
++			if (bt_link_info->sco_exist)
++				halbtc8822b1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, true, false, 0x5);
++			else {
++				if (BTC_WIFI_BW_HT40 == wifi_bw)
++					halbtc8822b1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x10);
++				else
++					halbtc8822b1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x8);
++			}
++		}
++
++		halbtc8822b1ant_sw_mechanism(btcoexist, true);
++		halbtc8822b1ant_run_sw_coexist_mechanism(
++			btcoexist);  /* just print debug message */
++	} else {
++		halbtc8822b1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++		halbtc8822b1ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x5);
++
++		halbtc8822b1ant_sw_mechanism(btcoexist, false);
++		halbtc8822b1ant_run_sw_coexist_mechanism(
++			btcoexist); /* //just print debug message */
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "############# [BTCoex],  BT Is Inquirying\n");
++		BTC_TRACE(trace_buf);
++		halbtc8822b1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8822b1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	if (!wifi_connected) {
++		boolean	scan = false, link = false, roam = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is non connected-idle !!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (scan || link || roam) {
++			if (scan)
++				halbtc8822b1ant_action_wifi_not_connected_scan(
++					btcoexist);
++			else
++				halbtc8822b1ant_action_wifi_not_connected_asso_auth(
++					btcoexist);
++		} else
++			halbtc8822b1ant_action_wifi_not_connected(btcoexist);
++	} else	/* wifi LPS/Busy */
++		halbtc8822b1ant_action_wifi_connected(btcoexist);
++}
++
++u32 halbtc8822b1ant_psd_log2base(IN struct btc_coexist *btcoexist, IN u32 val)
++{
++	u8	j;
++	u32	tmp, tmp2, val_integerd_b = 0, tindex, shiftcount = 0;
++	u32	result, val_fractiond_b = 0, table_fraction[21] = {0, 432, 332, 274, 232, 200,
++				   174, 151, 132, 115, 100, 86, 74, 62, 51, 42,
++							   32, 23, 15, 7, 0
++							      };
++
++	if (val == 0)
++		return 0;
++
++	tmp = val;
++
++	while (1) {
++		if (tmp == 1)
++			break;
++		else {
++			tmp = (tmp >> 1);
++			shiftcount++;
++		}
++	}
++
++
++	val_integerd_b = shiftcount + 1;
++
++	tmp2 = 1;
++	for (j = 1; j <= val_integerd_b; j++)
++		tmp2 = tmp2 * 2;
++
++	tmp = (val * 100) / tmp2;
++	tindex = tmp / 5;
++
++	if (tindex > 20)
++		tindex = 20;
++
++	val_fractiond_b = table_fraction[tindex];
++
++	result = val_integerd_b * 100 - val_fractiond_b;
++
++	return result;
++
++
++}
++
++void halbtc8822b1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++
++	/* sw all off */
++	halbtc8822b1ant_sw_mechanism(btcoexist, false);
++
++	/* halbtc8822b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8); */
++	/* halbtc8822b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0); */
++
++	coex_sta->pop_event_cnt = 0;
++}
++
++void halbtc8822b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up, IN boolean wifi_only)
++{
++
++	u8	u8tmp = 0;
++	boolean			wifi_under_5g = false;
++	u32				u32tmp1 = 0, u32tmp2 = 0, u32tmp3 = 0;
++
++
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	u32tmp1 = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Before Init HW config) 0xcb4 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++		    u32tmp3, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 1Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	coex_sta->bt_coex_supported_feature = 0;
++	coex_sta->bt_coex_supported_version = 0;
++
++	/* Setup RF front end type */
++	halbtc8822b1ant_set_rfe_type(btcoexist);
++
++	/* 0xf0[15:12] --> Chip Cut information */
++	coex_sta->cut_version = (btcoexist->btc_read_1byte(btcoexist,
++				 0xf1) & 0xf0) >> 4;
++
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++
++	/* BT report packet sample rate	 */
++	/* 0x790[5:0]=0x5 */
++	u8tmp = btcoexist->btc_read_1byte(btcoexist, 0x790);
++	u8tmp &= 0xc0;
++	u8tmp |= 0x5;
++	btcoexist->btc_write_1byte(btcoexist, 0x790, u8tmp);
++
++	/* Enable BT counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++
++	/* Enable PTA (3-wire function form BT side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x41, 0x02, 0x1);
++
++	/* Enable PTA (tx/rx signal form WiFi side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4c6, 0x10, 0x1);
++
++	/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++	/*btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x1);*/
++
++	/* enable GNT_WL */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x40, 0x0);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x1, 0x0);
++
++	if (btcoexist->btc_read_1byte(btcoexist, 0x80) == 0xc6)
++		halbtc8822b1ant_post_onoffstate_to_bt(btcoexist, TRUE);
++
++	/* Antenna config */
++	if (wifi_only) {
++		
++			coex_sta->concurrent_rx_mode_on = false;
++			halbtc8822b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_WIFI,
++							 FORCE_EXEC, BT_8822B_1ANT_PHASE_WLANONLY_INIT);
++	} else {
++	
++			coex_sta->concurrent_rx_mode_on = true;
++			
++			halbtc8822b1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++							 FORCE_EXEC, BT_8822B_1ANT_PHASE_COEX_INIT);
++	}
++
++
++	/* PTA parameter */
++	halbtc8822b1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	halbtc8822b1ant_enable_gnt_to_gpio(btcoexist, TRUE);
++
++}
++
++
++
++void halbtc8822b1ant_psd_showdata(IN struct btc_coexist *btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	u32		delta_freq_per_point;
++	u32		freq, freq1, freq2, n = 0, i = 0, j = 0, m = 0, psd_rep1, psd_rep2;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n\n============[PSD info]  (%d)============\n",
++		   psd_scan->psd_gen_count);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->psd_gen_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n No data !!\n");
++		CL_PRINTF(cli_buf);
++		return;
++	}
++
++	if (psd_scan->psd_point == 0)
++		delta_freq_per_point = 0;
++	else
++		delta_freq_per_point = psd_scan->psd_band_width /
++				       psd_scan->psd_point;
++
++	/* if (psd_scan->is_psd_show_max_only) */
++	if (0) {
++		psd_rep1 = psd_scan->psd_max_value / 100;
++		psd_rep2 = psd_scan->psd_max_value - psd_rep1 * 100;
++
++		freq = ((psd_scan->real_cent_freq - 20) * 1000000 +
++			psd_scan->psd_max_value_point * delta_freq_per_point);
++		freq1 = freq / 1000000;
++		freq2 = freq / 1000 - freq1 * 1000;
++
++		if (freq2 < 100)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.0%d MHz",
++				   freq1, freq2);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.%d MHz",
++				   freq1, freq2);
++
++		if (psd_rep2 < 10)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.0%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++
++		CL_PRINTF(cli_buf);
++	} else {
++		m = psd_scan->psd_start_point;
++		n = psd_scan->psd_start_point;
++		i = 1;
++		j = 1;
++
++		while (1) {
++			do {
++				freq = ((psd_scan->real_cent_freq - 20) * 1000000 + m *
++					delta_freq_per_point);
++				freq1 = freq / 1000000;
++				freq2 = freq / 1000 - freq1 * 1000;
++
++				if (i == 1) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.0%2d", freq1,
++							   freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.%3d", freq1,
++							   freq2);
++				} else if ((i % 8 == 0) ||
++					   (m == psd_scan->psd_stop_point)) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000\n", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d\n", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d\n", freq1, freq2);
++				} else {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d", freq1, freq2);
++				}
++
++				i++;
++				m++;
++				CL_PRINTF(cli_buf);
++
++			} while ((i <= 8) && (m <= psd_scan->psd_stop_point));
++
++
++			do {
++				psd_rep1 = psd_scan->psd_report_max_hold[n] / 100;
++				psd_rep2 = psd_scan->psd_report_max_hold[n] - psd_rep1 *
++					   100;
++
++				if (j == 1) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.0%d", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.%d", psd_rep1,
++							   psd_rep2);
++				} else if ((j % 8 == 0)  ||
++					   (n == psd_scan->psd_stop_point)) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d\n", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d\n", psd_rep1, psd_rep2);
++				} else {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d", psd_rep1, psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d", psd_rep1, psd_rep2);
++				}
++
++				j++;
++				n++;
++				CL_PRINTF(cli_buf);
++
++			} while ((j <= 8) && (n <= psd_scan->psd_stop_point));
++
++			if ((m > psd_scan->psd_stop_point) ||
++			    (n > psd_scan->psd_stop_point))
++				break;
++			else {
++				i = 1;
++				j = 1;
++			}
++
++		}
++	}
++
++
++}
++
++void halbtc8822b1ant_psd_max_holddata(IN struct btc_coexist *btcoexist,
++				      IN u32 gen_count)
++{
++	u32	i = 0, i_max = 0, val_max = 0;
++
++	if (gen_count == 1) {
++		memcpy(psd_scan->psd_report_max_hold,
++		       psd_scan->psd_report,
++		       BT_8822B_1ANT_ANTDET_PSD_POINTS * sizeof(u32));
++
++		for (i = psd_scan->psd_start_point;
++		     i <= psd_scan->psd_stop_point; i++) {
++
++		}
++
++		psd_scan->psd_max_value_point = 0;
++		psd_scan->psd_max_value = 0;
++
++	} else {
++		for (i = psd_scan->psd_start_point;
++		     i <= psd_scan->psd_stop_point; i++) {
++			if (psd_scan->psd_report[i] >
++			    psd_scan->psd_report_max_hold[i])
++				psd_scan->psd_report_max_hold[i] =
++					psd_scan->psd_report[i];
++
++			/* search Max Value */
++			if (i == psd_scan->psd_start_point) {
++				i_max = i;
++				val_max = psd_scan->psd_report_max_hold[i];
++			} else {
++				if (psd_scan->psd_report_max_hold[i] >
++				    val_max) {
++					i_max = i;
++					val_max = psd_scan->psd_report_max_hold[i];
++				}
++			}
++
++
++
++		}
++
++		psd_scan->psd_max_value_point = i_max;
++		psd_scan->psd_max_value = val_max;
++
++	}
++
++
++}
++
++u32 halbtc8822b1ant_psd_getdata(IN struct btc_coexist *btcoexist, IN u32 point)
++{
++	/* reg 0x808[9:0]: FFT data x */
++	/* reg 0x808[22]: 0-->1 to get 1 FFT data y */
++	/* reg 0x8b4[15:0]: FFT data y report */
++
++	u32 val = 0, psd_report = 0;
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++
++	val &= 0xffbffc00;
++	val |= point;
++
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	val |= 0x00400000;
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x8b4);
++
++	psd_report = val & 0x0000ffff;
++
++	return psd_report;
++}
++
++
++void halbtc8822b1ant_psd_sweep_point(IN struct btc_coexist *btcoexist,
++	     IN u32 cent_freq, IN s32 offset, IN u32 span, IN u32 points,
++				     IN u32 avgnum)
++{
++	u32	 i, val, n, k = 0;
++	u32	points1 = 0, psd_report = 0;
++	u32	start_p = 0, stop_p = 0, delta_freq_per_point = 156250;
++	u32    psd_center_freq = 20 * 10 ^ 6, freq, freq1, freq2;
++	boolean outloop = false;
++	u8	 flag = 0;
++	u32	tmp, psd_rep1, psd_rep2;
++	u32	wifi_original_channel = 1;
++
++	psd_scan->is_psd_running = true;
++
++	do {
++		switch (flag) {
++		case 0:  /* Get PSD parameters */
++		default:
++
++			psd_scan->psd_band_width = 40 * 1000000;
++			psd_scan->psd_point = points;
++			psd_scan->psd_start_base = points / 2;
++			psd_scan->psd_avg_num = avgnum;
++			psd_scan->real_cent_freq = cent_freq;
++			psd_scan->real_offset = offset;
++			psd_scan->real_span = span;
++
++
++			points1 = psd_scan->psd_point;
++			delta_freq_per_point = psd_scan->psd_band_width /
++					       psd_scan->psd_point;
++
++			/* PSD point setup */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffff0fff;
++
++			switch (psd_scan->psd_point) {
++			case 128:
++				val |= 0x0;
++				break;
++			case 256:
++			default:
++				val |= 0x00004000;
++				break;
++			case 512:
++				val |= 0x00008000;
++				break;
++			case 1024:
++				val |= 0x0000c000;
++				break;
++			}
++
++			switch (psd_scan->psd_avg_num) {
++			case 1:
++				val |= 0x0;
++				break;
++			case 8:
++				val |= 0x00001000;
++				break;
++			case 16:
++				val |= 0x00002000;
++				break;
++			case 32:
++			default:
++				val |= 0x00003000;
++				break;
++			}
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			flag = 1;
++			break;
++		case 1:	  /* calculate the PSD point index from freq/offset/span */
++			psd_center_freq = psd_scan->psd_band_width / 2 +
++					  offset * (1000000);
++
++			start_p = psd_scan->psd_start_base + (psd_center_freq -
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_start_point = start_p -
++						    psd_scan->psd_start_base;
++
++			stop_p = psd_scan->psd_start_base + (psd_center_freq +
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_stop_point = stop_p -
++						   psd_scan->psd_start_base - 1;
++
++			flag = 2;
++			break;
++		case 2:  /* set RF channel/BW/Mode */
++
++			/* set 3-wire off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val |= 0x00300000;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val &= 0xfeffffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* store WiFi original channel */
++			wifi_original_channel = btcoexist->btc_get_rf_reg(
++					btcoexist, BTC_RF_A, 0x18, 0x3ff);
++
++			/* Set RF channel */
++			if (cent_freq == 2484)
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++							  0x18, 0x3ff, 0xe);
++			else
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++					  0x18, 0x3ff, (cent_freq - 2412) / 5 +
++						  1); /* WiFi TRx Mask on */
++
++			/* Set  RF mode = Rx, RF Gain = 0x8a0 */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x0,
++						  0xfffff, 0x308a0);
++
++			/* Set RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++						  0xfffff, 0x3e4);
++
++			/* Set TRx mask off */
++			/* un-lock TRx Mask setup */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdd,
++						  0x80, 0x1);
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdf,
++						  0x1, 0x1);
++
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x0);
++
++			flag = 3;
++			break;
++		case 3:
++			memset(psd_scan->psd_report, 0,
++			       psd_scan->psd_point * sizeof(u32));
++			start_p = psd_scan->psd_start_point +
++				  psd_scan->psd_start_base;
++			stop_p = psd_scan->psd_stop_point +
++				 psd_scan->psd_start_base + 1;
++
++			i = start_p;
++
++			while (i < stop_p) {
++				if (i >= points1)
++					psd_report =
++						halbtc8822b1ant_psd_getdata(
++							btcoexist, i - points1);
++				else
++					psd_report =
++						halbtc8822b1ant_psd_getdata(
++							btcoexist, i);
++
++				if (psd_report == 0)
++					tmp = 0;
++				else
++					/* tmp =  20*log10((double)psd_report); */
++					/* 20*log2(x)/log2(10), log2Base return theresult of the psd_report*100 */
++					tmp = 6 * halbtc8822b1ant_psd_log2base(
++						      btcoexist, psd_report);
++
++				n = i - psd_scan->psd_start_base;
++				psd_scan->psd_report[n] =  tmp;
++				psd_rep1 = psd_scan->psd_report[n] / 100;
++				psd_rep2 = psd_scan->psd_report[n] - psd_rep1 *
++					   100;
++
++				freq = ((cent_freq - 20) * 1000000 + n *
++					delta_freq_per_point);
++				freq1 = freq / 1000000;
++				freq2 = freq / 1000 - freq1 * 1000;
++
++				i++;
++
++				k = 0;
++
++				/* Add Delay between PSD point */
++				while (1) {
++					if (k++ > 20000)
++						break;
++				}
++
++			}
++
++			flag = 100;
++			break;
++		case 99:	/* error */
++
++			outloop = true;
++			break;
++		case 100: /* recovery */
++
++			/* set 3-wire on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val &= 0xffcfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val |= 0x01000000;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* PSD off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffbfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			/* TRx Mask on */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1,
++						  0xfffff, 0x780);
++
++			/* lock TRx Mask setup */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdd,
++						  0x80, 0x0);
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xdf,
++						  0x1, 0x0);
++
++			/* Set RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1e,
++						  0xfffff, 0x0);
++
++			/* restore WiFi original channel */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x18,
++						  0x3ff, wifi_original_channel);
++
++			outloop = true;
++			break;
++
++		}
++
++	} while (!outloop);
++
++
++
++	psd_scan->is_psd_running = false;
++
++
++}
++
++#if (BTC_COEX_OFFLOAD == 1)
++void halbtc8822b1ant_wifi_info_notify(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_para[4] = {0};
++	u8			opcode_ver = 0;
++	u8			ap_num = 0;
++	s32			wifi_rssi = 0;
++	boolean			wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM, &ap_num);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	h2c_para[0] = ap_num;					/* AP number */
++	h2c_para[1] = (u8)wifi_busy;		/* Busy */
++	h2c_para[2] = (u8)wifi_rssi;			/* RSSI */
++
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_WIFI_INFO_NOTIFY,
++				      opcode_ver, &h2c_para[0], 3);
++}
++
++void halbtc8822b1ant_setManual(IN struct btc_coexist *btcoexist,
++			       IN boolean manual)
++{
++	u8			h2c_para[4] = {0};
++	u8			opcode_ver = 0;
++	u8			set_type = 0;
++
++	if (manual)
++		set_type = 1;
++	else
++		set_type = 0;
++
++	h2c_para[0] = set_type;				/* set_type */
++
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_SET_CONTROL, opcode_ver,
++				      &h2c_para[0], 1);
++}
++
++/* ************************************************************
++ * work around function start with wa_halbtc8822b1ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8822b1ant_
++ * ************************************************************ */
++
++void ex_halbtc8822b1ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{}
++void ex_halbtc8822b1ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{}
++void ex_halbtc8822b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{}
++void ex_halbtc8822b1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{}
++void ex_halbtc8822b1ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	u8			h2c_para[4] = {0};
++	u8			opcode_ver = 0;
++	u8			ips_notify = 0;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		ips_notify = 1;
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	h2c_para[0] = ips_notify;		/* IPS notify */
++	h2c_para[1] = 0xff;			/* LPS notify */
++	h2c_para[2] = 0xff;			/* RF state notify */
++	h2c_para[3] = 0xff;			/* pnp notify */
++
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_WIFI_POWER_STATE_NOTIFY,
++				      opcode_ver, &h2c_para[0], 4);
++}
++void ex_halbtc8822b1ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	u8			h2c_para[4] = {0};
++	u8			opcode_ver = 0;
++	u8			lps_notify = 0;
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		lps_notify = 1;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	h2c_para[0] = 0xff;			/* IPS notify */
++	h2c_para[1] = lps_notify;		/* LPS notify */
++	h2c_para[2] = 0xff;			/* RF state notify */
++	h2c_para[3] = 0xff;			/* pnp notify */
++
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_WIFI_POWER_STATE_NOTIFY,
++				      opcode_ver, &h2c_para[0], 4);
++}
++
++void ex_halbtc8822b1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	u8			h2c_para[4] = {0};
++	u8			opcode_ver = 0;
++	u8			scan_start = 0;
++	boolean			under_4way = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (BTC_SCAN_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++		scan_start = 1;
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	h2c_para[0] = scan_start;		/* scan notify */
++	h2c_para[1] = 0xff;			/* connect notify */
++	h2c_para[2] = 0xff;			/* specific packet notify */
++	if (under_4way)
++		h2c_para[3] = 1;			/* under 4way progress */
++	else
++		h2c_para[3] = 0;
++
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_WIFI_PROGRESS_NOTIFY,
++				      opcode_ver, &h2c_para[0], 4);
++}
++
++void ex_halbtc8822b1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	u8			h2c_para[4] = {0};
++	u8			opcode_ver = 0;
++	u8			connect_start = 0;
++	boolean			under_4way = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (BTC_ASSOCIATE_START == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++		connect_start = 1;
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	h2c_para[0] = 0xff;			/* scan notify */
++	h2c_para[1] = connect_start;	/* connect notify */
++	h2c_para[2] = 0xff;			/* specific packet notify */
++	if (under_4way)
++		h2c_para[3] = 1;			/* under 4way progress */
++	else
++		h2c_para[3] = 0;
++
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_WIFI_PROGRESS_NOTIFY,
++				      opcode_ver, &h2c_para[0], 4);
++}
++
++void ex_halbtc8822b1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++	u8			h2c_para[5] = {0};
++	u8			opcode_ver = 0;
++	u8			port = 0, connected = 0, freq = 0, bandwidth = 0, iot_peer = 0;
++	boolean			wifi_under_5g = false;
++
++	if (BTC_MEDIA_CONNECT == type)
++		connected = 1;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++	bandwidth = (u8)wifi_bw;
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if (wifi_under_5g)
++		freq = 1;
++	else
++		freq = 0;
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_IOT_PEER, &iot_peer);
++
++	h2c_para[0] = (connected << 4) |
++		port;	/* port need to be implemented in the future (p2p port, ...) */
++	h2c_para[1] = (freq << 4) | bandwidth;
++	h2c_para[2] = wifi_central_chnl;
++	h2c_para[3] = iot_peer;
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_WIFI_STATUS_NOTIFY,
++				      opcode_ver, &h2c_para[0], 4);
++}
++
++void ex_halbtc8822b1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_para[4] = {0};
++	u8			opcode_ver = 0;
++	u8			connect_start = 0;
++	boolean			under_4way = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	h2c_para[0] = 0xff;			/* scan notify */
++	h2c_para[1] = 0xff;			/* connect notify */
++	h2c_para[2] = type;			/* specific packet notify */
++	if (under_4way)
++		h2c_para[3] = 1;			/* under 4way progress */
++	else
++		h2c_para[3] = 0;
++
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_WIFI_PROGRESS_NOTIFY,
++				      opcode_ver, &h2c_para[0], 4);
++}
++
++void ex_halbtc8822b1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{}
++void ex_halbtc8822b1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_para[4] = {0};
++	u8			opcode_ver = 0;
++	u8			rfstate_notify = 0;
++
++	if (BTC_RF_ON == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++		rfstate_notify = 1;
++	} else if (BTC_RF_OFF == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	h2c_para[0] = 0xff;			/* IPS notify */
++	h2c_para[1] = 0xff;			/* LPS notify */
++	h2c_para[2] = rfstate_notify;	/* RF state notify */
++	h2c_para[3] = 0xff;			/* pnp notify */
++
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_WIFI_POWER_STATE_NOTIFY,
++				      opcode_ver, &h2c_para[0], 4);
++}
++
++void ex_halbtc8822b1ant_halt_notify(IN struct btc_coexist *btcoexist)
++{}
++void ex_halbtc8822b1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	u8			h2c_para[4] = {0};
++	u8			opcode_ver = 0;
++	u8			pnp_notify = 0;
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++		pnp_notify = 1;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	h2c_para[0] = 0xff;			/* IPS notify */
++	h2c_para[1] = 0xff;			/* LPS notify */
++	h2c_para[2] = 0xff;			/* RF state notify */
++	h2c_para[3] = pnp_notify;		/* pnp notify */
++
++	btcoexist->btc_coex_h2c_process(btcoexist, COL_OP_WIFI_POWER_STATE_NOTIFY,
++				      opcode_ver, &h2c_para[0], 4);
++}
++
++void ex_halbtc8822b1ant_coex_dm_reset(IN struct btc_coexist *btcoexist)
++{}
++void ex_halbtc8822b1ant_periodical(IN struct btc_coexist *btcoexist)
++{
++
++	halbtc8822b1ant_wifi_info_notify(btcoexist);
++}
++
++void ex_halbtc8822b1ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fa_of_dm, fa_cck;
++	u32				fw_ver = 0, bt_patch_ver = 0;
++	static u8			pop_report_in_10s = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	if (btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	if (psd_scan->ant_det_try_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d",
++			   "Ant PG Num/ Mech/ Pos",
++			   board_info->pg_ant_num, board_info->btdm_ant_num,
++			   board_info->btdm_ant_pos);
++		CL_PRINTF(cli_buf);
++	} else {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d/ %d/ %d  (%d/%d/%d)",
++			   "Ant PG Num/ Mech(Ant_Det)/ Pos",
++			board_info->pg_ant_num, board_info->btdm_ant_num_by_ant_det,
++			   board_info->btdm_ant_pos,
++			psd_scan->ant_det_try_count, psd_scan->ant_det_fail_count,
++			   psd_scan->ant_det_result);
++		CL_PRINTF(cli_buf);
++
++		if (board_info->btdm_ant_det_finish) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++				   "Ant Det PSD Value",
++				   psd_scan->ant_det_peak_val);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)",
++		   "CoexVer/ FwVer/ PatchVer",
++		   glcoex_ver_date_8822b_1ant, glcoex_ver_8822b_1ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s/ %s",
++		   "WifibHiPri/ Ccklock/ CckEverLock",
++		   (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"),
++		   (coex_sta->cck_lock ? "Yes" : "No"),
++		   (coex_sta->cck_ever_lock ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	pop_report_in_10s++;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt/ popCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8822B_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8822B_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi, coex_sta->bt_retry_cnt,
++		   coex_sta->pop_event_cnt);
++	CL_PRINTF(cli_buf);
++
++	if (pop_report_in_10s >= 5) {
++		coex_sta->pop_event_cnt = 0;
++		pop_report_in_10s = 0;
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d / %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP/Hi-Pri",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist,
++		   bt_link_info->bt_hi_pri_link_exist);
++	CL_PRINTF(cli_buf);
++
++	{
++		bt_info_ext = coex_sta->bt_info_ext;
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s",
++			   "BT Role/A2DP rate",
++			   (bt_link_info->slave_role) ? "Slave" : "Master",
++			   (bt_info_ext & BIT(0)) ? "BR" : "EDR");
++		CL_PRINTF(cli_buf);
++	}
++
++        /*bt info*/
++	for (i = 0; i < BT_INFO_SRC_8822B_1ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8822b_1ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++
++	if (btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[mechanisms] (before Manual)============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanisms]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "SM[LowPenaltyRA]",
++		   coex_dm->cur_low_penalty_ra);
++	CL_PRINTF(cli_buf);
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (%s,%s)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   (coex_dm->cur_ps_tdma_on ? "On" : "Off"),
++		   (coex_dm->auto_tdma_adjust ? "Adj" : "Fix"));
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "WL/BT Coex Table Type",
++		   coex_sta->coex_table_type);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x778/0x6cc/IgnWlanAct",
++		   u8tmp[0], u32tmp[0],  coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa0);
++	u32tmp[1] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "LTE Coex Table W_L/B_L",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa8);
++	u32tmp[1] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xac);
++	u32tmp[2] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb0);
++	u32tmp[3] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "LTE Break Table W_L/B_L/L_W/L_B",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff,
++		   u32tmp[2] & 0xffff, u32tmp[3] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %s",
++		   "LTE CoexOn/Path Ctrl Owner",
++		(int)((u32tmp[0]&BIT(7)) >> 7), ((u8tmp[0]&BIT(2)) ? "WL" : "BT"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "LTE 3Wire/OPMode/UART/UARTMode",
++		(int)((u32tmp[0]&BIT(6)) >> 6), (int)((u32tmp[0] & (BIT(5) | BIT(4))) >> 4),
++		   (int)((u32tmp[0]&BIT(3)) >> 3),
++		   (int)(u32tmp[0] & (BIT(2) | BIT(1) | BIT(0))));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s",
++		   "GNT_WL_SWCtrl/GNT_BT_SWCtrl/Dbg",
++		   (int)((u32tmp[0]&BIT(12)) >> 12), (int)((u32tmp[0]&BIT(14)) >> 14),
++		   ((u8tmp[0]&BIT(3)) ? "On" : "Off"));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "GNT_WL/GNT_BT/LTE_Busy/UART_Busy",
++		   (int)((u32tmp[0]&BIT(2)) >> 2), (int)((u32tmp[0]&BIT(3)) >> 3),
++		   (int)((u32tmp[0]&BIT(1)) >> 1), (int)(u32tmp[0]&BIT(0)));
++	CL_PRINTF(cli_buf);
++
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x4c6);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x4c6[4]/0x40[5] (WL/BT PTA)",
++		   (int)((u8tmp[0] & BIT(4)) >> 4), (int)((u8tmp[1] & BIT(5)) >> 5));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x953);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ %s",
++		   "0x550(bcn ctrl)/0x522/4-RxAGC",
++		   u32tmp[0], u8tmp[0], (u8tmp[1] & 0x2) ? "On" : "Off");
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xda0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xda4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0xda8);
++	u32tmp[3] = btcoexist->btc_read_4byte(btcoexist, 0xcf0);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5b);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++
++	fa_of_dm = ((u32tmp[0] & 0xffff0000) >> 16) + ((u32tmp[1] & 0xffff0000)
++			>> 16) + (u32tmp[1] & 0xffff) + (u32tmp[2] & 0xffff) + \
++		   ((u32tmp[3] & 0xffff0000) >> 16) + (u32tmp[3] &
++				   0xffff) ;
++	fa_cck = (u8tmp[0] << 8) + u8tmp[1];
++
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0xc50/OFDM-CCA/OFDM-FA/CCK-FA",
++		   u32tmp[1] & 0xff, u32tmp[0] & 0xffff, fa_of_dm, fa_cck);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++#if (BT_AUTO_REPORT_ONLY_8822B_1ANT == 1)
++	/* halbtc8822b1ant_monitor_bt_ctr(btcoexist); */
++#endif
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++void ex_halbtc8822b1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{}
++void ex_halbtc8822b1ant_display_ant_detection(IN struct btc_coexist *btcoexist)
++{}
++void ex_halbtc8822b1ant_dbg_control(IN struct btc_coexist *btcoexist,
++				    IN u8 op_code, IN u8 op_len, IN u8 *pdata)
++{
++	switch (op_code) {
++	case BTC_DBG_SET_COEX_MANUAL_CTRL: {
++		boolean		manual = (boolean)*pdata;
++
++		halbtc8822b1ant_setManual(btcoexist, manual);
++	}
++	break;
++	default:
++		break;
++	}
++}
++
++#else
++void ex_halbtc8822b1ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x0;
++	u16 u16tmp = 0x0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx Execute 8822b 1-Ant PowerOn Setting!! xxxxxxxxxxxxxxxx\n");
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "Ant Det Finish = %s, Ant Det Number  = %d\n",
++		    board_info->btdm_ant_det_finish ? "Yes" : "No",
++		    board_info->btdm_ant_num_by_ant_det);
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = true;
++
++	/* enable BB, REG_SYS_FUNC_EN such that we can write 0x948 correctly. */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x2);
++	btcoexist->btc_write_2byte(btcoexist, 0x2, u16tmp | BIT(0) | BIT(1));
++
++	/* set Path control owner to WiFi */
++	halbtc8822b1ant_ltecoex_pathcontrol_owner(btcoexist,
++			BT_8822B_1ANT_PCO_WLSIDE);
++
++	/* set GNT_BT to high */
++	halbtc8822b1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8822B_1ANT_GNT_CTRL_BY_SW,
++					   BT_8822B_1ANT_SIG_STA_SET_TO_HIGH);
++	/* Set GNT_WL to low */
++	halbtc8822b1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8822B_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8822B_1ANT_GNT_CTRL_BY_SW,
++					   BT_8822B_1ANT_SIG_STA_SET_TO_LOW);
++
++	/* set WLAN_ACT = 0 */
++	//btcoexist->btc_write_1byte(btcoexist, 0x76e, 0x4);
++
++    /* SD1 Chunchu red x issue */
++	btcoexist->btc_write_1byte(btcoexist, 0xff1a, 0x0);
++
++	halbtc8822b1ant_enable_gnt_to_gpio(btcoexist, TRUE);
++
++	/*  */
++	/* S0 or S1 setting and Local register setting(By the setting fw can get ant number, S0/S1, ... info) */
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++
++	u8tmp = 0;
++	board_info->btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++
++	if (btcoexist->chip_interface == BTC_INTF_USB)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60, u8tmp);
++
++	BTC_TRACE(trace_buf);
++
++
++}
++
++void ex_halbtc8822b1ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8822b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], ********** (ini hw config) **********\n");
++
++	halbtc8822b1ant_init_hw_config(btcoexist, true, wifi_only);
++	btcoexist->stop_coex_dm = false;
++}
++
++void ex_halbtc8822b1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = false;
++
++	halbtc8822b1ant_init_coex_dm(btcoexist);
++
++	halbtc8822b1ant_query_bt_info(btcoexist);
++}
++
++void ex_halbtc8822b1ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fa_of_dm, fa_cck;
++	u32				fw_ver = 0, bt_patch_ver = 0;
++	static u8			pop_report_in_10s = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (display coexinfo) **********\n");
++	BTC_TRACE(trace_buf);
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** displaycoexinfostart, 0xcb4/0xcbd = 0x%x/0x%x\n",
++		    btcoexist->btc_read_1byte(btcoexist, 0xcb4),
++		    btcoexist->btc_read_1byte(btcoexist, 0xcbd));
++	BTC_TRACE(trace_buf);
++	
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	
++	if (btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	if (psd_scan->ant_det_try_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++			   "Ant PG Num/ Mech/ Pos/ RFE",
++			   board_info->pg_ant_num, board_info->btdm_ant_num,
++			   board_info->btdm_ant_pos,
++			   rfe_type->rfe_module_type);
++		CL_PRINTF(cli_buf);
++	} else {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d/ %d/ %d/ %d  (%d/%d/%d)",
++			   "Ant PG Num/ Mech(Ant_Det)/ Pos/ RFE",
++			board_info->pg_ant_num, board_info->btdm_ant_num_by_ant_det,
++			   board_info->btdm_ant_pos,
++			   rfe_type->rfe_module_type,
++			   psd_scan->ant_det_try_count, psd_scan->ant_det_fail_count,
++			   psd_scan->ant_det_result);
++		CL_PRINTF(cli_buf);
++
++		if (board_info->btdm_ant_det_finish) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++				   "Ant Det PSD Value",
++				   psd_scan->ant_det_peak_val);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)/ %c",
++		   "Version Coex/ Fw/ Patch/ Cut",
++		   glcoex_ver_date_8822b_1ant, glcoex_ver_8822b_1ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver, coex_sta->cut_version + 65);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s/ %s",
++		   "WifibHiPri/ Ccklock/ CckEverLock",
++		   (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"),
++		   (coex_sta->cck_lock ? "Yes" : "No"),
++		   (coex_sta->cck_ever_lock ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	pop_report_in_10s++;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt/ popCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++		   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page scan")
++			   : ((BT_8822B_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8822B_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi - 100, coex_sta->bt_retry_cnt,
++		   coex_sta->pop_event_cnt);
++	CL_PRINTF(cli_buf);
++	/*bt rssi */
++	/*bt pop_even_cnt : bt retry*/
++
++	if (pop_report_in_10s >= 5) {
++		coex_sta->pop_event_cnt = 0;
++		pop_report_in_10s = 0;
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d / %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP/Hi-Pri",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist,
++		   bt_link_info->bt_hi_pri_link_exist);
++	CL_PRINTF(cli_buf);
++
++	{
++		bt_info_ext = coex_sta->bt_info_ext;
++
++       CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %s / %d/ %x/ %04x",
++			   "Role/A2DP Rate/Bitpool/Feature/Ver",
++			   ((bt_link_info->slave_role) ? "Slave" : "Master"),
++			(bt_info_ext & BIT(0)) ? "BR" : "EDR", coex_sta->a2dp_bit_pool,
++			coex_sta->bt_coex_supported_feature,
++			coex_sta->bt_coex_supported_version);
++		CL_PRINTF(cli_buf);
++	}
++
++       /*bt info*/
++	for (i = 0; i < BT_INFO_SRC_8822B_1ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8822b_1ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++
++	if (btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[mechanisms] (before Manual)============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanisms]============");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "SM[LowPenaltyRA]",
++		   coex_dm->cur_low_penalty_ra);
++	CL_PRINTF(cli_buf);
++
++	/*(ps)tdma*/	
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (%s,%s)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   (coex_dm->cur_ps_tdma_on ? "On" : "Off"),
++		   (coex_dm->auto_tdma_adjust ? "Adj" : "Fix"));
++
++	CL_PRINTF(cli_buf);
++
++	/*coex table type*/	
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "WL/BT Coex Table Type",
++		   coex_sta->coex_table_type);
++	CL_PRINTF(cli_buf);
++
++	/*coex table :0x6c0 0x6c4 , break table: 0x6c8*/
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	/*PTA : 0x778=1/3/d , WL BA,RTS,CTS :0x6cc  H/L pri */
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x778/0x6cc/IgnWlanAct",
++		   u8tmp[0], u32tmp[0],  coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++
++        /*LTE : WL/LTE coex table : 0xa0 */
++        
++	u32tmp[0] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa0);
++		
++	/*LTE : BT/LTE coex table : 0xa4 */
++	u32tmp[1] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "LTE Coex Table W_L/B_L",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++        /*LTE : WL/LTE break table : 0xa8 */
++	u32tmp[0] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa8);
++	 /*LTE : WL/LTE break table : 0xac */
++	u32tmp[1] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xac);
++	/*LTE : LTE/WL break table : 0xb0 */
++	u32tmp[2] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb0);
++	/*LTE : LTE/BT break table : 0xb4 */
++	u32tmp[3] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "LTE Break Table W_L/B_L/L_W/L_B",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff,
++		   u32tmp[2] & 0xffff, u32tmp[3] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++        /*ANT setting*/
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xcb4);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0xcbd);
++	u8tmp[3] = btcoexist->btc_read_1byte(btcoexist, 0x1991);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0xcb4/0xcbd/0x1991",
++		   u8tmp[1], u8tmp[2], u8tmp[3]);
++	CL_PRINTF(cli_buf);
++	
++	/*LTE on/off , Path ctrl owner*/
++	/*sy add*/
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x73);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x64);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x73/ 0x4c/ 0x64[0]", u8tmp[0], (u32tmp[0] & ( BIT(24) | BIT(23) )) >> 23, u8tmp[1]&0x1);
++	CL_PRINTF(cli_buf);
++
++	
++	u32tmp[0] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %s",
++		   "LTE CoexOn/Path Ctrl Owner",
++		(int)((u32tmp[0]&BIT(7)) >> 7), ((u8tmp[0]&BIT(2)) ? "WL" : "BT"));
++	CL_PRINTF(cli_buf);
++
++        /*LTE mode*/
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "LTE 3Wire/OPMode/UART/UARTMode",
++		(int)((u32tmp[0]&BIT(6)) >> 6), (int)((u32tmp[0] & (BIT(5) | BIT(4))) >> 4),
++		   (int)((u32tmp[0]&BIT(3)) >> 3),
++		   (int)(u32tmp[0] & (BIT(2) | BIT(1) | BIT(0))));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s",
++		   "GNT_WL_SWCtrl/GNT_BT_SWCtrl/Dbg",
++		   (int)((u32tmp[0]&BIT(12)) >> 12), (int)((u32tmp[0]&BIT(14)) >> 14),
++		   ((u8tmp[0]&BIT(3)) ? "On" : "Off"));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8822b1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "GNT_WL/GNT_BT/LTE_Busy/UART_Busy",
++		   (int)((u32tmp[0]&BIT(2)) >> 2), (int)((u32tmp[0]&BIT(3)) >> 3),
++		   (int)((u32tmp[0]&BIT(1)) >> 1), (int)(u32tmp[0]&BIT(0)));
++	CL_PRINTF(cli_buf);
++
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x4c6);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x4c6[4]/0x40[5] (WL/BT PTA)",
++		   (int)((u8tmp[0] & BIT(4)) >> 4), (int)((u8tmp[1] & BIT(5)) >> 5));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x974);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0xc50);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x550(bcn ctrl)/0x522/0x974/0xc50",
++		   u32tmp[0], u8tmp[0], u8tmp[1], u8tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xf48);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xf4c);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0xf08);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5d);
++
++	fa_of_dm = (u32tmp[0] & 0xffff)  +  (u32tmp[1] & 0xffff);
++		
++	fa_cck = (u8tmp[0] << 8) + u8tmp[1];
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "CCK-CCA/CCK-FA/OFDM-CCA/OFDM-FA",
++		   u32tmp[2] & 0xffff, fa_cck, ((u32tmp[2] & 0xffff0000) >> 16), fa_of_dm);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11ac",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11ac",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_agg);
++	CL_PRINTF(cli_buf);
++
++        /*0x770:bt high pri trx*/
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	/*0x774:bt low pri trx*/
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++
++	halbtc8822b1ant_read_score_board(btcoexist,	&u16tmp[0]);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %04x",
++		   "ScoreBoard[14:0] (from BT)", u16tmp[0]);
++
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** displaycoexinfo end, 0xcb4/0xcbd = 0x%x/0x%x\n",
++		    btcoexist->btc_read_1byte(btcoexist, 0xcb4),
++		    btcoexist->btc_read_1byte(btcoexist, 0xcbd));
++	BTC_TRACE(trace_buf);
++}
++
++
++void ex_halbtc8822b1ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	
++	if (BTC_IPS_ENTER == type) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, false);
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++							BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8822B_1ANT_PHASE_WLAN_OFF);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if (BTC_IPS_LEAVE == type) {
++	
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, true);
++
++	    /*leave IPS : run ini hw config (exclude wifi only)*/
++		halbtc8822b1ant_init_hw_config(btcoexist, false, false);
++		/*sw all off*/
++		halbtc8822b1ant_init_coex_dm(btcoexist);
++		/*leave IPS : Query bt info*/
++		halbtc8822b1ant_query_bt_info(btcoexist);
++
++		coex_sta->under_ips = false;
++	}
++}
++
++void ex_halbtc8822b1ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++
++		if (coex_sta->force_lps_on == true) { /* LPS No-32K */
++			/* Write WL "Active" in Score-board for PS-TDMA */
++			halbtc8822b1ant_post_activestate_to_bt(btcoexist, true);
++
++		} else { /* LPS-32K, need check if this h2c 0x71 can work?? (2015/08/28) */
++			/* Write WL "Non-Active" in Score-board for Native-PS */
++			halbtc8822b1ant_post_activestate_to_bt(btcoexist, false);
++
++		}
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, true);
++	}
++}
++
++
++void ex_halbtc8822b1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++    boolean wifi_connected = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN notify()\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8822b1ant_post_activestate_to_bt(btcoexist, true);	
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;	
++
++	if (BTC_SCAN_START == type) 
++	 return;	
++
++	
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++				   &wifi_connected);
++
++	
++	if (BTC_SCAN_START_2G == type) {
++		coex_sta->wifi_is_high_pri_task = true;
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], 2g SCAN START notify\n");
++		BTC_TRACE(trace_buf);	
++
++		
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8822b1ant_action_wifi_not_connected_scan(
++				btcoexist);
++		else	/* wifi is connected */
++			halbtc8822b1ant_action_wifi_connected_scan(btcoexist);
++		
++	} else {
++		coex_sta->wifi_is_high_pri_task = false;
++
++	    /*WL scan finish , then get and update sacn ap numbers */ 
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);	
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], SCAN FINISH notify  (Scan-AP = %d)\n", coex_sta->scan_ap_num);
++		BTC_TRACE(trace_buf);
++
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8822b1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8822b1ant_action_wifi_connected(btcoexist);
++	}
++
++
++}
++
++void ex_halbtc8822b1ant_switchband_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++
++	boolean wifi_connected = false;
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (switchband_notify) **********\n");
++	BTC_TRACE(trace_buf);
++	
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++
++	if(type == BTC_SWITCH_TO_5G) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (switchband_notify BTC_SWITCH_TO_5G) **********\n");
++		BTC_TRACE(trace_buf);
++			
++		halbtc8822b1ant_action_wifi_under5g(btcoexist);
++		return;
++	} else if (type == BTC_SWITCH_TO_24G_NoForScan) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (switchband_notify BTC_SWITCH_TO_2G (no for scan)) **********\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_run_coexist_mechanism(btcoexist);
++
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], ********** (switchband_notify BTC_SWITCH_TO_2G) **********\n");
++		BTC_TRACE(trace_buf);
++
++		ex_halbtc8822b1ant_scan_notify(btcoexist,
++				    BTC_SCAN_START_2G);
++	}
++	
++}
++
++void ex_halbtc8822b1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	boolean	wifi_connected = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (connect notify) **********\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8822b1ant_post_activestate_to_bt(btcoexist, true);
++
++	
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++
++	if ( (BTC_ASSOCIATE_5G_START == type) ||  (BTC_ASSOCIATE_5G_FINISH== type)) {
++
++			if (BTC_ASSOCIATE_5G_START== type) {
++		
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], ********** (5G associate start notify) **********\n");
++			BTC_TRACE(trace_buf);
++		
++			halbtc8822b1ant_action_wifi_under5g(btcoexist);			
++			
++		} else if (BTC_ASSOCIATE_5G_FINISH == type) {
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], ********** (5G associate finish notify) **********\n");
++			BTC_TRACE(trace_buf); 
++
++		}
++			
++		return;
++
++}
++
++
++	if (BTC_ASSOCIATE_START == type) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], 2G CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++		
++		coex_sta->wifi_is_high_pri_task = true;
++
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++								BTC_ANT_PATH_AUTO,
++								FORCE_EXEC, 
++								BT_8822B_1ANT_PHASE_2G_RUNTIME);
++		
++		coex_dm->arp_cnt = 0;
++
++		halbtc8822b1ant_action_wifi_not_connected_asso_auth(btcoexist);
++		
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], 2G CONNECT Finish notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->wifi_is_high_pri_task = false;		
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++				   &wifi_connected);
++		
++		if (!wifi_connected) /* non-connected scan */
++			halbtc8822b1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8822b1ant_action_wifi_connected(btcoexist);
++	}
++
++}
++
++void ex_halbtc8822b1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean			wifi_under_b_mode = false;
++	boolean wifi_under_5g = false;
++	u32			cnt_bt_cal_chk = 0;
++	boolean			is_in_mp_mode = false;
++	u8			u8tmp = 0;
++	u32			u32tmp1 = 0, u32tmp2 = 0;
++	
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if(wifi_under_5g)
++	{
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++									"[BTCoex], 5g media notify  \n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, true);
++		
++		halbtc8822b1ant_action_wifi_under5g(btcoexist);
++		return;
++	}
++
++	
++
++	if (BTC_MEDIA_CONNECT == type) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], 2g media connect notify");
++		BTC_TRACE(trace_buf); 
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, true);
++		
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++
++		/* Set CCK Tx/Rx high Pri except 11b mode */
++		if (wifi_under_b_mode) {
++			
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++							"[BTCoex], ********** (media status notity under b mode) **********\n");
++					BTC_TRACE(trace_buf);
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x00); /* CCK Rx */
++		} else {
++			/* btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x10); */ /*CCK Tx */
++			/* btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x10); */ /*CCK Rx */
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++							"[BTCoex], ********** (media status notity not under b mode) **********\n");
++					BTC_TRACE(trace_buf);
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x10); /* CCK Rx */
++		}
++
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], 2g media disconnect notify\n");
++		BTC_TRACE(trace_buf);
++		coex_dm->arp_cnt = 0;
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, false);
++
++		btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x0); /* CCK Tx */
++		btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x0); /* CCK Rx */
++
++		coex_sta->cck_ever_lock = false;
++	}
++       
++	halbtc8822b1ant_update_wifi_channel_info(btcoexist, type);
++
++}
++
++void ex_halbtc8822b1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean	under_4way = false, wifi_under_5g = false;
++	
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++			
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if(wifi_under_5g)
++	{
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++									"[BTCoex], 5g special packet notify  \n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8822b1ant_action_wifi_under5g(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (under_4way) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], specific Packet ---- under_4way!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	} else if (BTC_PACKET_ARP == type) {
++
++		coex_dm->arp_cnt++;
++
++		if (coex_sta->wifi_is_high_pri_task) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], specific Packet ARP notify -cnt = %d\n", coex_dm->arp_cnt);
++			BTC_TRACE(trace_buf);
++		}
++
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet DHCP or EAPOL notify [Type = %d]\n", type);
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	}
++
++	if (coex_sta->wifi_is_high_pri_task)
++		halbtc8822b1ant_action_wifi_connected_specific_packet(btcoexist);
++	
++}
++
++void ex_halbtc8822b1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8				bt_info = 0;
++	u8				i, rsp_source = 0;
++	boolean				bt_busy = false;
++	boolean				wifi_connected = false;
++	boolean wifi_under_5g = false;
++	
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	
++	coex_sta->c2h_bt_info_req_sent = false;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, 
++		"[BTCoex], ********** (BtInfo Notify) **********\n" );
++	BTC_TRACE(trace_buf);
++	
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8822B_1ANT_MAX)
++		rsp_source = BT_INFO_SRC_8822B_1ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	
++	if (BT_INFO_SRC_8822B_1ANT_WIFI_FW != rsp_source) {
++	
++		/* if 0xff, it means BT is under WHCK test */
++		if (bt_info == 0xff)
++			coex_sta->bt_whck_test = true;
++		else
++			coex_sta->bt_whck_test = false;
++	
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++	
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++	
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x20)
++			coex_sta->c2h_bt_page = true;
++		else
++			coex_sta->c2h_bt_page = false;
++	
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x80)
++			coex_sta->bt_create_connection = true;
++		else
++			coex_sta->bt_create_connection = false;
++	
++		/* unit: %, value-100 to translate to unit: dBm  */
++		coex_sta->bt_rssi = coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++	
++		/* coex_sta->bt_info_c2h[rsp_source][3] * 2 - 90; */
++	
++		if ((coex_sta->bt_info_c2h[rsp_source][1] & 0x49) == 0x49) {
++			coex_sta->a2dp_bit_pool =
++				coex_sta->bt_info_c2h[rsp_source][6];
++		} else
++			coex_sta->a2dp_bit_pool = 0;
++	
++		if (coex_sta->bt_info_c2h[rsp_source][1] & 0x9)
++			coex_sta->acl_busy = true;
++		else
++			coex_sta->acl_busy = false;
++	
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++	
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++	
++		if ((!btcoexist->manual_control) && (!btcoexist->stop_coex_dm)) {
++	
++			/*	Re-Init */
++			if (coex_sta->bt_info_ext & BIT(1)) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++				BTC_TRACE(trace_buf);
++				btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++						   &wifi_connected);
++				if (wifi_connected)
++					halbtc8822b1ant_update_wifi_channel_info(btcoexist,
++								BTC_MEDIA_CONNECT);
++				else
++					halbtc8822b1ant_update_wifi_channel_info(btcoexist,
++								BTC_MEDIA_DISCONNECT);
++			}
++	
++				/*	If Ignore_WLanAct && not SetUp_Link */
++			if ((coex_sta->bt_info_ext & BIT(3)) && (!(coex_sta->bt_info_ext & BIT(2)))) {
++	
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8822b1ant_ignore_wlan_act(btcoexist,
++								FORCE_EXEC, false);
++			}
++		}
++			/* check BIT2 first ==> check if bt is under inquiry or page scan */
++		if (bt_info & BT_INFO_8822B_1ANT_B_INQ_PAGE)
++			coex_sta->c2h_bt_inquiry_page = true;
++		else
++			coex_sta->c2h_bt_inquiry_page = false;
++	}
++
++	coex_sta->num_of_profile = 0;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8822B_1ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++
++		coex_sta->bt_hi_pri_link_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8822B_1ANT_B_FTP) {
++			coex_sta->pan_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8822B_1ANT_B_A2DP) {
++			coex_sta->a2dp_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8822B_1ANT_B_HID) {
++			coex_sta->hid_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8822B_1ANT_B_SCO_ESCO) {
++			coex_sta->sco_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->sco_exist = false;
++
++	}
++
++	halbtc8822b1ant_update_bt_link_info(btcoexist);
++
++	bt_info = bt_info &
++		0x1f;  /* mask profile bit for connect-ilde identification ( for CSR case: A2DP idle --> 0x41) */
++
++	if (!(bt_info & BT_INFO_8822B_1ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8822B_1ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8822B_1ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8822B_1ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8822B_1ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8822B_1ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8822B_1ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8822B_1ANT_B_ACL_BUSY) {
++		if (BT_8822B_1ANT_BT_STATUS_ACL_BUSY != coex_dm->bt_status)
++		coex_dm->bt_status = BT_8822B_1ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8822B_1ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8822B_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8822B_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8822B_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		bt_busy = true;
++	else
++		bt_busy = false;
++	
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	halbtc8822b1ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8822b1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RF Status notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_RF_ON == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++		btcoexist->stop_coex_dm = false;
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, true);
++		halbtc8822b1ant_post_onoffstate_to_bt(btcoexist, true);
++	} else if (BTC_RF_OFF == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++							BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8822B_1ANT_PHASE_WLAN_OFF);
++		
++		halbtc8822b1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++		
++		btcoexist->stop_coex_dm = true;
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, false);
++		halbtc8822b1ant_post_onoffstate_to_bt(btcoexist, false);
++
++	}
++}
++
++void ex_halbtc8822b1ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8822b1ant_post_activestate_to_bt(btcoexist, false);
++	halbtc8822b1ant_post_onoffstate_to_bt(btcoexist, false);
++	
++	halbtc8822b1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++
++	halbtc8822b1ant_set_ant_path(btcoexist, 
++							BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8822B_1ANT_PHASE_WLAN_OFF);
++					
++	halbtc8822b1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++	ex_halbtc8822b1ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	halbtc8822b1ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++	btcoexist->stop_coex_dm = true;
++}
++
++void ex_halbtc8822b1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, false);
++		halbtc8822b1ant_post_onoffstate_to_bt(btcoexist, false);
++
++		halbtc8822b1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++		halbtc8822b1ant_set_ant_path(btcoexist, 
++							BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8822B_1ANT_PHASE_WLAN_OFF);
++		
++		halbtc8822b1ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     5);
++
++		halbtc8822b1ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++		btcoexist->stop_coex_dm = true;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8822b1ant_post_activestate_to_bt(btcoexist, true);
++		halbtc8822b1ant_post_onoffstate_to_bt(btcoexist, true);
++		
++		btcoexist->stop_coex_dm = false;
++	}
++}
++
++void ex_halbtc8822b1ant_coex_dm_reset(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], *****************Coex DM Reset*****************\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8822b1ant_init_hw_config(btcoexist, false, false);
++	halbtc8822b1ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8822b1ant_periodical(IN struct btc_coexist *btcoexist)
++{
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ==========================Periodical===========================\n");
++	BTC_TRACE(trace_buf);
++
++#if (BT_AUTO_REPORT_ONLY_8822B_1ANT == 0)
++	halbtc8822b1ant_query_bt_info(btcoexist);
++#endif
++
++	halbtc8822b1ant_monitor_bt_ctr(btcoexist);
++	halbtc8822b1ant_monitor_wifi_ctr(btcoexist);
++
++	halbtc8822b1ant_monitor_bt_enable_disable(btcoexist);
++
++	/* for 4-way, DHCP, EAPOL packet */
++	if (coex_sta->specific_pkt_period_cnt > 0) {
++
++		coex_sta->specific_pkt_period_cnt--;
++
++		if ((coex_sta->specific_pkt_period_cnt == 0) && (coex_sta->wifi_is_high_pri_task))
++			coex_sta->wifi_is_high_pri_task = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ***************** Hi-Pri Task = %s*****************\n", (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"));
++		BTC_TRACE(trace_buf);
++	}
++
++	
++	if (coex_sta->bt_coex_supported_feature == 0)
++			coex_sta->bt_coex_supported_feature = btcoexist->btc_get_bt_coex_supported_feature(btcoexist);
++	
++	if	( (coex_sta->bt_coex_supported_version == 0) && (!coex_sta->bt_disabled) )
++			coex_sta->bt_coex_supported_version = btcoexist->btc_get_bt_coex_supported_version(btcoexist);
++
++	if (halbtc8822b1ant_is_wifi_status_changed(btcoexist))
++		halbtc8822b1ant_run_coexist_mechanism(btcoexist);
++
++}
++
++void ex_halbtc8822b1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++}
++
++void ex_halbtc8822b1ant_antenna_isolation(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++
++}
++
++void ex_halbtc8822b1ant_psd_scan(IN struct btc_coexist *btcoexist,
++		 IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++
++}
++
++void ex_halbtc8822b1ant_display_ant_detection(IN struct btc_coexist *btcoexist)
++{
++
++}
++
++void ex_halbtc8822b1ant_dbg_control(IN struct btc_coexist *btcoexist,
++				    IN u8 op_code, IN u8 op_len, IN u8 *pdata)
++{}
++#endif	/*  #if(BTC_COEX_OFFLOAD == 1) */
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8822b1Ant.h b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8822b1Ant.h
+new file mode 100644
+index 0000000..4f091f1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtc8822b1Ant.h
+@@ -0,0 +1,408 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8822B_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8822B 1ANT BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8822B_1ANT				1
++
++#define	BT_INFO_8822B_1ANT_B_FTP						BIT(7)
++#define	BT_INFO_8822B_1ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8822B_1ANT_B_HID						BIT(5)
++#define	BT_INFO_8822B_1ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8822B_1ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8822B_1ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8822B_1ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8822B_1ANT_B_CONNECTION				BIT(0)
++
++#define	BT_INFO_8822B_1ANT_A2DP_BASIC_RATE(_BT_INFO_EXT_)	\
++		(((_BT_INFO_EXT_&BIT(0))) ? true : false)
++
++#define	BTC_RSSI_COEX_THRESH_TOL_8822B_1ANT		2
++
++#define  BT_8822B_1ANT_WIFI_NOISY_THRESH							30   /* max: 255 */
++
++/* for Antenna detection */
++#define	BT_8822B_1ANT_ANTDET_PSDTHRES_BACKGROUND					50
++#define	BT_8822B_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION				70
++#define	BT_8822B_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION			55
++#define	BT_8822B_1ANT_ANTDET_PSDTHRES_1ANT							35
++#define	BT_8822B_1ANT_ANTDET_RETRY_INTERVAL							10	/* retry timer if ant det is fail, unit: second */
++#define	BT_8822B_1ANT_ANTDET_ENABLE									0
++#define	BT_8822B_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE				0
++
++#define	BT_8822B_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT		30000
++#define  BT_8822B_1ANT_WIFI_NOISY_THRESH							30   /* max: 255 */
++
++
++enum bt_8822b_1ant_signal_state {
++	BT_8822B_1ANT_SIG_STA_SET_TO_LOW		= 0x0,
++	BT_8822B_1ANT_SIG_STA_SET_BY_HW		= 0x0,
++	BT_8822B_1ANT_SIG_STA_SET_TO_HIGH		= 0x1,
++	BT_8822B_1ANT_SIG_STA_MAX
++};
++
++enum bt_8822b_1ant_path_ctrl_owner {
++	BT_8822B_1ANT_PCO_BTSIDE		= 0x0,
++	BT_8822B_1ANT_PCO_WLSIDE	= 0x1,
++	BT_8822B_1ANT_PCO_MAX
++};
++
++enum bt_8822b_1ant_gnt_ctrl_type {
++	BT_8822B_1ANT_GNT_CTRL_BY_PTA		= 0x0,
++	BT_8822B_1ANT_GNT_CTRL_BY_SW		= 0x1,
++	BT_8822B_1ANT_GNT_CTRL_MAX
++};
++
++enum bt_8822b_1ant_gnt_ctrl_block {
++	BT_8822B_1ANT_GNT_BLOCK_RFC_BB		= 0x0,
++	BT_8822B_1ANT_GNT_BLOCK_RFC			= 0x1,
++	BT_8822B_1ANT_GNT_BLOCK_BB			= 0x2,
++	BT_8822B_1ANT_GNT_BLOCK_MAX
++};
++
++enum bt_8822b_1ant_lte_coex_table_type {
++	BT_8822B_1ANT_CTT_WL_VS_LTE			= 0x0,
++	BT_8822B_1ANT_CTT_BT_VS_LTE			= 0x1,
++	BT_8822B_1ANT_CTT_MAX
++};
++
++enum bt_8822b_1ant_lte_break_table_type {
++	BT_8822B_1ANT_LBTT_WL_BREAK_LTE			= 0x0,
++	BT_8822B_1ANT_LBTT_BT_BREAK_LTE				= 0x1,
++	BT_8822B_1ANT_LBTT_LTE_BREAK_WL			= 0x2,
++	BT_8822B_1ANT_LBTT_LTE_BREAK_BT				= 0x3,
++	BT_8822B_1ANT_LBTT_MAX
++};
++
++enum bt_info_src_8822b_1ant {
++	BT_INFO_SRC_8822B_1ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8822B_1ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8822B_1ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8822B_1ANT_MAX
++};
++
++enum bt_8822b_1ant_bt_status {
++	BT_8822B_1ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8822B_1ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8822B_1ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8822B_1ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8822B_1ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8822B_1ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8822B_1ANT_BT_STATUS_MAX
++};
++
++enum bt_8822b_1ant_wifi_status {
++	BT_8822B_1ANT_WIFI_STATUS_NON_CONNECTED_IDLE				= 0x0,
++	BT_8822B_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN		= 0x1,
++	BT_8822B_1ANT_WIFI_STATUS_CONNECTED_SCAN					= 0x2,
++	BT_8822B_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT				= 0x3,
++	BT_8822B_1ANT_WIFI_STATUS_CONNECTED_IDLE					= 0x4,
++	BT_8822B_1ANT_WIFI_STATUS_CONNECTED_BUSY					= 0x5,
++	BT_8822B_1ANT_WIFI_STATUS_MAX
++};
++
++enum bt_8822b_1ant_coex_algo {
++	BT_8822B_1ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8822B_1ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8822B_1ANT_COEX_ALGO_HID				= 0x2,
++	BT_8822B_1ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8822B_1ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8822B_1ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8822B_1ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8822B_1ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8822B_1ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8822B_1ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8822B_1ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8822B_1ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++enum bt_8822b_1ant_ext_ant_switch_type {
++	BT_8822B_1ANT_EXT_ANT_SWITCH_USE_SPDT		= 0x0,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_USE_SP3T		= 0x1,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_MAX
++};
++
++enum bt_8822b_1ant_ext_ant_switch_ctrl_type {
++	BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW	= 0x0,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_PTA	= 0x1,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_ANTDIV	= 0x2,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_MAC	= 0x3,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_BY_BT		= 0x4,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_CTRL_MAX
++};
++
++enum bt_8822b_1ant_ext_ant_switch_pos_type {
++	BT_8822B_1ANT_EXT_ANT_SWITCH_TO_BT			= 0x0,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_TO_WLG			= 0x1,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_TO_WLA			= 0x2,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_TO_NOCARE		= 0x3,
++	BT_8822B_1ANT_EXT_ANT_SWITCH_TO_MAX
++};
++
++enum bt_8822b_1ant_phase{
++	BT_8822B_1ANT_PHASE_COEX_INIT				= 0x0,
++	BT_8822B_1ANT_PHASE_WLANONLY_INIT			= 0x1,	
++	BT_8822B_1ANT_PHASE_WLAN_OFF				= 0x2,
++	BT_8822B_1ANT_PHASE_2G_RUNTIME				= 0x3,
++	BT_8822B_1ANT_PHASE_5G_RUNTIME				= 0x4,
++	BT_8822B_1ANT_PHASE_BTMPMODE				= 0x5,
++	BT_8822B_1ANT_PHASE_MAX
++};
++
++
++struct coex_dm_8822b_1ant {
++	/* hw setting */
++	u32		pre_ant_pos_type;
++	u32		cur_ant_pos_type;
++	/* fw mechanism */
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	/* sw mechanism */
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++	u32		arp_cnt;
++
++	u32		pre_ext_ant_switch_status;
++	u32		cur_ext_ant_switch_status;
++
++	u8		error_condition;
++};
++
++struct coex_sta_8822b_1ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++	boolean					bt_hi_pri_link_exist;
++	u8					num_of_profile;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					specific_pkt_period_cnt;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	s8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8822B_1ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8822B_1ANT_MAX];
++	boolean					bt_whck_test;
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_page;				/* Add for win8.1 page out issue */
++	boolean					wifi_is_high_pri_task;		/* Add for win8.1 page out issue */
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	boolean					cck_lock;
++	boolean					pre_ccklock;
++	boolean					cck_ever_lock;
++	u8					coex_table_type;
++
++	boolean					force_lps_on;
++	u32					wrong_profile_notification;
++
++	boolean					concurrent_rx_mode_on;
++
++	u32 					special_pkt_period_cnt;
++
++	u16					score_board;
++
++	u8					a2dp_bit_pool;
++	u8					cut_version;
++	boolean				acl_busy;
++	boolean				wl_rf_off_on_event;
++	boolean				bt_create_connection;
++	boolean				run_time_state;
++
++	u32					bt_coex_supported_feature;
++	u32					bt_coex_supported_version;
++};
++
++struct rfe_type_8822b_1ant{
++
++	u8			rfe_module_type;	
++	boolean		ext_ant_switch_exist;
++	u8			ext_ant_switch_type;	
++	u8			ext_ant_switch_ctrl_polarity;		/*  iF 0: ANTSW(rfe_sel9)=0, ANTSWB(rfe_sel8)=1 =>  Ant to BT/5G */
++};
++
++
++#define  BT_8822B_1ANT_ANTDET_PSD_POINTS			256	/* MAX:1024 */
++#define  BT_8822B_1ANT_ANTDET_PSD_AVGNUM			1	/* MAX:3 */
++#define	BT_8822B_1ANT_ANTDET_BUF_LEN				16
++
++struct psdscan_sta_8822b_1ant {
++
++	u32			ant_det_bt_le_channel;  /* BT LE Channel ex:2412 */
++	u32			ant_det_bt_tx_time;
++	u32			ant_det_pre_psdscan_peak_val;
++	boolean			ant_det_is_ant_det_available;
++	u32			ant_det_psd_scan_peak_val;
++	boolean			ant_det_is_btreply_available;
++	u32			ant_det_psd_scan_peak_freq;
++
++	u8			ant_det_result;
++	u8			ant_det_peak_val[BT_8822B_1ANT_ANTDET_BUF_LEN];
++	u8			ant_det_peak_freq[BT_8822B_1ANT_ANTDET_BUF_LEN];
++	u32			ant_det_try_count;
++	u32			ant_det_fail_count;
++	u32			ant_det_inteval_count;
++	u32			ant_det_thres_offset;
++
++	u32			real_cent_freq;
++	s32			real_offset;
++	u32			real_span;
++
++	u32			psd_band_width;  /* unit: Hz */
++	u32			psd_point;		/* 128/256/512/1024 */
++	u32			psd_report[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_report_max_hold[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_start_point;
++	u32			psd_stop_point;
++	u32			psd_max_value_point;
++	u32			psd_max_value;
++	u32			psd_start_base;
++	u32			psd_avg_num;	/* 1/8/16/32 */
++	u32			psd_gen_count;
++	boolean			is_psd_running;
++	boolean			is_psd_show_max_only;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8822b1ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8822b1ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8822b1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8822b1ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8822b1ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8822b1ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8822b1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8822b1ant_switchband_notify(IN struct btc_coexist *btcoexist,
++					IN u8 type);
++void ex_halbtc8822b1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8822b1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8822b1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8822b1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8822b1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8822b1ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8822b1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8822b1ant_ScoreBoardStatusNotify(IN struct btc_coexist *btcoexist,
++		IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8822b1ant_coex_dm_reset(IN struct btc_coexist *btcoexist);
++void ex_halbtc8822b1ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8822b1ant_display_coex_info(IN struct btc_coexist *btcoexist);
++void ex_halbtc8822b1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8822b1ant_antenna_isolation(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++
++void ex_halbtc8822b1ant_psd_scan(IN struct btc_coexist *btcoexist,
++		 IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8822b1ant_display_ant_detection(IN struct btc_coexist *btcoexist);
++
++void ex_halbtc8822b1ant_dbg_control(IN struct btc_coexist *btcoexist,
++				    IN u8 op_code, IN u8 op_len, IN u8 *pdata);
++
++#else
++#define	ex_halbtc8822b1ant_power_on_setting(btcoexist)
++#define	ex_halbtc8822b1ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8822b1ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8822b1ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8822b1ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8822b1ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8822b1ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8822b1ant_switchband_notify(btcoexist, type)
++#define	ex_halbtc8822b1ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8822b1ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8822b1ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8822b1ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8822b1ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8822b1ant_halt_notify(btcoexist)
++#define	ex_halbtc8822b1ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8822b1ant_ScoreBoardStatusNotify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8822b1ant_coex_dm_reset(btcoexist)
++#define	ex_halbtc8822b1ant_periodical(btcoexist)
++#define	ex_halbtc8822b1ant_display_coex_info(btcoexist)
++#define	ex_halbtc8822b1ant_antenna_detection(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8822b1ant_antenna_isolation(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8822b1ant_psd_scan(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8822b1ant_display_ant_detection(btcoexist)
++#define	ex_halbtc8822b1ant_dbg_control(btcoexist, op_code, op_len, pdata)
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/HalBtcOutSrc.h b/drivers/net/wireless/rtl8812au/hal/btc/HalBtcOutSrc.h
+new file mode 100644
+index 0000000..9a8c8fb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/HalBtcOutSrc.h
+@@ -0,0 +1,938 @@
++#ifndef	__HALBTC_OUT_SRC_H__
++#define __HALBTC_OUT_SRC_H__
++
++
++#define		BTC_COEX_OFFLOAD			0
++#define		BTC_TMP_BUF_SHORT		20
++
++extern u1Byte	gl_btc_trace_buf[];
++#define		BTC_SPRINTF			rsprintf
++#define		BTC_TRACE(_MSG_) 		RT_TRACE(COMP_COEX, DBG_LOUD, (_MSG_))
++#define		BT_PrintData(adapter, _MSG_, len, data)	RTW_DBG_DUMP((_MSG_), data, len)
++
++
++#define		NORMAL_EXEC					FALSE
++#define		FORCE_EXEC						TRUE
++
++#define		BTC_RF_OFF					0x0
++#define		BTC_RF_ON					0x1
++
++#define		BTC_RF_A					0x0
++#define		BTC_RF_B					0x1
++#define		BTC_RF_C					0x2
++#define		BTC_RF_D					0x3
++
++#define		BTC_SMSP				SINGLEMAC_SINGLEPHY
++#define		BTC_DMDP				DUALMAC_DUALPHY
++#define		BTC_DMSP				DUALMAC_SINGLEPHY
++#define		BTC_MP_UNKNOWN		0xff
++
++#define		BT_COEX_ANT_TYPE_PG			0
++#define		BT_COEX_ANT_TYPE_ANTDIV		1
++#define		BT_COEX_ANT_TYPE_DETECTED	2
++
++#define		BTC_MIMO_PS_STATIC			0	// 1ss
++#define		BTC_MIMO_PS_DYNAMIC			1	// 2ss
++
++#define		BTC_RATE_DISABLE			0
++#define		BTC_RATE_ENABLE				1
++
++// single Antenna definition
++#define		BTC_ANT_PATH_WIFI			0
++#define		BTC_ANT_PATH_BT				1
++#define		BTC_ANT_PATH_PTA			2
++#define		BTC_ANT_PATH_WIFI5G			3
++#define		BTC_ANT_PATH_AUTO			4
++// dual Antenna definition
++#define		BTC_ANT_WIFI_AT_MAIN		0
++#define		BTC_ANT_WIFI_AT_AUX			1
++#define		BTC_ANT_WIFI_AT_DIVERSITY	2
++// coupler Antenna definition
++#define		BTC_ANT_WIFI_AT_CPL_MAIN	0
++#define		BTC_ANT_WIFI_AT_CPL_AUX		1
++
++typedef enum _BTC_POWERSAVE_TYPE{
++	BTC_PS_WIFI_NATIVE			= 0,	// wifi original power save behavior
++	BTC_PS_LPS_ON				= 1,
++	BTC_PS_LPS_OFF				= 2,
++	BTC_PS_MAX
++} BTC_POWERSAVE_TYPE, *PBTC_POWERSAVE_TYPE;
++
++typedef enum _BTC_BT_REG_TYPE{
++	BTC_BT_REG_RF						= 0,
++	BTC_BT_REG_MODEM					= 1,
++	BTC_BT_REG_BLUEWIZE					= 2,
++	BTC_BT_REG_VENDOR					= 3,
++	BTC_BT_REG_LE						= 4,
++	BTC_BT_REG_MAX
++} BTC_BT_REG_TYPE, *PBTC_BT_REG_TYPE;
++
++typedef enum _BTC_CHIP_INTERFACE{
++	BTC_INTF_UNKNOWN	= 0,
++	BTC_INTF_PCI			= 1,
++	BTC_INTF_USB			= 2,
++	BTC_INTF_SDIO		= 3,
++	BTC_INTF_MAX
++} BTC_CHIP_INTERFACE, *PBTC_CHIP_INTERFACE;
++
++typedef enum _BTC_CHIP_TYPE{
++	BTC_CHIP_UNDEF		= 0,
++	BTC_CHIP_CSR_BC4		= 1,
++	BTC_CHIP_CSR_BC8		= 2,
++	BTC_CHIP_RTL8723A 	= 3,
++	BTC_CHIP_RTL8821	= 4,
++	BTC_CHIP_RTL8723B 	= 5,
++	BTC_CHIP_MAX
++} BTC_CHIP_TYPE, *PBTC_CHIP_TYPE;
++
++// following is for wifi link status
++#define		WIFI_STA_CONNECTED				BIT0
++#define		WIFI_AP_CONNECTED				BIT1
++#define		WIFI_HS_CONNECTED				BIT2
++#define		WIFI_P2P_GO_CONNECTED			BIT3
++#define		WIFI_P2P_GC_CONNECTED			BIT4
++
++// following is for command line utility
++#define	CL_SPRINTF	rsprintf
++#define	CL_PRINTF	DCMD_Printf
++
++struct btc_board_info{
++	/* The following is some board information */
++	u8				bt_chip_type;
++	u8				pg_ant_num;	/* pg ant number */
++	u8				btdm_ant_num;	/* ant number for btdm */
++	u8				btdm_ant_num_by_ant_det;	/* ant number for btdm after antenna detection */
++	u8				btdm_ant_pos;		/* Bryant Add to indicate Antenna Position for (pg_ant_num = 2) && (btdm_ant_num =1)  (DPDT+1Ant case) */
++	u8				single_ant_path;	/* current used for 8723b only, 1=>s0,  0=>s1 */
++	boolean			tfbga_package;    /* for Antenna detect threshold */
++	boolean			btdm_ant_det_finish;
++	u8				ant_type;
++	u8				rfe_type;
++	u8				ant_div_cfg;
++};
++
++typedef enum _BTC_DBG_OPCODE{
++	BTC_DBG_SET_COEX_NORMAL				= 0x0,
++	BTC_DBG_SET_COEX_WIFI_ONLY				= 0x1,
++	BTC_DBG_SET_COEX_BT_ONLY				= 0x2,
++	BTC_DBG_SET_COEX_DEC_BT_PWR				= 0x3,
++	BTC_DBG_SET_COEX_BT_AFH_MAP				= 0x4,
++	BTC_DBG_SET_COEX_BT_IGNORE_WLAN_ACT		= 0x5,
++	BTC_DBG_SET_COEX_MANUAL_CTRL				= 0x6,
++	BTC_DBG_MAX
++}BTC_DBG_OPCODE,*PBTC_DBG_OPCODE;
++
++typedef enum _BTC_RSSI_STATE{
++	BTC_RSSI_STATE_HIGH						= 0x0,
++	BTC_RSSI_STATE_MEDIUM					= 0x1,
++	BTC_RSSI_STATE_LOW						= 0x2,
++	BTC_RSSI_STATE_STAY_HIGH					= 0x3,
++	BTC_RSSI_STATE_STAY_MEDIUM				= 0x4,
++	BTC_RSSI_STATE_STAY_LOW					= 0x5,
++	BTC_RSSI_MAX
++}BTC_RSSI_STATE,*PBTC_RSSI_STATE;
++#define	BTC_RSSI_HIGH(_rssi_)	((_rssi_==BTC_RSSI_STATE_HIGH||_rssi_==BTC_RSSI_STATE_STAY_HIGH)? TRUE:FALSE)
++#define	BTC_RSSI_MEDIUM(_rssi_)	((_rssi_==BTC_RSSI_STATE_MEDIUM||_rssi_==BTC_RSSI_STATE_STAY_MEDIUM)? TRUE:FALSE)
++#define	BTC_RSSI_LOW(_rssi_)	((_rssi_==BTC_RSSI_STATE_LOW||_rssi_==BTC_RSSI_STATE_STAY_LOW)? TRUE:FALSE)
++
++typedef enum _BTC_WIFI_ROLE{
++	BTC_ROLE_STATION						= 0x0,
++	BTC_ROLE_AP								= 0x1,
++	BTC_ROLE_IBSS							= 0x2,
++	BTC_ROLE_HS_MODE						= 0x3,
++	BTC_ROLE_MAX
++}BTC_WIFI_ROLE,*PBTC_WIFI_ROLE;
++
++typedef enum _BTC_WIRELESS_FREQ{
++	BTC_FREQ_2_4G					= 0x0,
++	BTC_FREQ_5G						= 0x1,
++	BTC_FREQ_MAX	
++}BTC_WIRELESS_FREQ,*PBTC_WIRELESS_FREQ;
++
++typedef enum _BTC_WIFI_BW_MODE{
++	BTC_WIFI_BW_LEGACY					= 0x0,
++	BTC_WIFI_BW_HT20					= 0x1,
++	BTC_WIFI_BW_HT40					= 0x2,
++	BTC_WIFI_BW_HT80					= 0x3,
++	BTC_WIFI_BW_HT160					= 0x4,
++	BTC_WIFI_BW_MAX	
++}BTC_WIFI_BW_MODE,*PBTC_WIFI_BW_MODE;
++
++typedef enum _BTC_WIFI_TRAFFIC_DIR{
++	BTC_WIFI_TRAFFIC_TX					= 0x0,
++	BTC_WIFI_TRAFFIC_RX					= 0x1,
++	BTC_WIFI_TRAFFIC_MAX	
++}BTC_WIFI_TRAFFIC_DIR,*PBTC_WIFI_TRAFFIC_DIR;
++
++typedef enum _BTC_WIFI_PNP{
++	BTC_WIFI_PNP_WAKE_UP					= 0x0,
++	BTC_WIFI_PNP_SLEEP						= 0x1,
++	BTC_WIFI_PNP_MAX
++}BTC_WIFI_PNP,*PBTC_WIFI_PNP;
++
++typedef enum _BTC_IOT_PEER
++{
++	BTC_IOT_PEER_UNKNOWN = 0,
++	BTC_IOT_PEER_REALTEK = 1,
++	BTC_IOT_PEER_REALTEK_92SE = 2,
++	BTC_IOT_PEER_BROADCOM = 3,
++	BTC_IOT_PEER_RALINK = 4,
++	BTC_IOT_PEER_ATHEROS = 5,
++	BTC_IOT_PEER_CISCO = 6,
++	BTC_IOT_PEER_MERU = 7,	
++	BTC_IOT_PEER_MARVELL = 8,
++	BTC_IOT_PEER_REALTEK_SOFTAP = 9,// peer is RealTek SOFT_AP, by Bohn, 2009.12.17
++	BTC_IOT_PEER_SELF_SOFTAP = 10, // Self is SoftAP
++	BTC_IOT_PEER_AIRGO = 11,
++	BTC_IOT_PEER_INTEL 				= 12, 
++	BTC_IOT_PEER_RTK_APCLIENT 		= 13, 
++	BTC_IOT_PEER_REALTEK_81XX 		= 14,	
++	BTC_IOT_PEER_REALTEK_WOW 		= 15,
++	BTC_IOT_PEER_REALTEK_JAGUAR_BCUTAP = 16,
++	BTC_IOT_PEER_REALTEK_JAGUAR_CCUTAP = 17,
++	BTC_IOT_PEER_MAX,
++}BTC_IOT_PEER, *PBTC_IOT_PEER;
++
++//for 8723b-d cut large current issue
++typedef enum _BTC_WIFI_COEX_STATE{
++	BTC_WIFI_STAT_INIT,
++	BTC_WIFI_STAT_IQK,
++	BTC_WIFI_STAT_NORMAL_OFF,
++	BTC_WIFI_STAT_MP_OFF,
++	BTC_WIFI_STAT_NORMAL,
++	BTC_WIFI_STAT_ANT_DIV,
++	BTC_WIFI_STAT_MAX
++}BTC_WIFI_COEX_STATE,*PBTC_WIFI_COEX_STATE;
++
++typedef enum _BTC_ANT_TYPE{
++	BTC_ANT_TYPE_0,
++	BTC_ANT_TYPE_1,
++	BTC_ANT_TYPE_2,
++	BTC_ANT_TYPE_3,
++	BTC_ANT_TYPE_4,
++	BTC_ANT_TYPE_MAX
++}BTC_ANT_TYPE,*PBTC_ANT_TYPE;
++
++typedef enum _BTC_VENDOR{
++	BTC_VENDOR_LENOVO,
++	BTC_VENDOR_ASUS,	
++	BTC_VENDOR_OTHER
++}BTC_VENDOR,*PBTC_VENDOR;
++
++
++// defined for BFP_BTC_GET
++typedef enum _BTC_GET_TYPE{
++	// type BOOLEAN
++	BTC_GET_BL_HS_OPERATION,
++	BTC_GET_BL_HS_CONNECTING,
++	BTC_GET_BL_WIFI_CONNECTED,
++	BTC_GET_BL_WIFI_BUSY,
++	BTC_GET_BL_WIFI_SCAN,
++	BTC_GET_BL_WIFI_LINK,
++	BTC_GET_BL_WIFI_ROAM,
++	BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++	BTC_GET_BL_WIFI_UNDER_5G,
++	BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++	BTC_GET_BL_WIFI_ENABLE_ENCRYPTION,
++	BTC_GET_BL_WIFI_UNDER_B_MODE,
++	BTC_GET_BL_EXT_SWITCH,
++	BTC_GET_BL_WIFI_IS_IN_MP_MODE,
++	BTC_GET_BL_IS_ASUS_8723B,
++
++	// type s4Byte
++	BTC_GET_S4_WIFI_RSSI,
++	BTC_GET_S4_HS_RSSI,
++	
++	// type u4Byte
++	BTC_GET_U4_WIFI_BW,
++	BTC_GET_U4_WIFI_TRAFFIC_DIRECTION,
++	BTC_GET_U4_WIFI_FW_VER,
++	BTC_GET_U4_WIFI_LINK_STATUS,
++	BTC_GET_U4_BT_PATCH_VER,
++	BTC_GET_U4_VENDOR,
++	BTC_GET_U4_WIFI_IQK_TOTAL,
++	BTC_GET_U4_WIFI_IQK_OK,
++	BTC_GET_U4_WIFI_IQK_FAIL,
++
++	// type u1Byte
++	BTC_GET_U1_WIFI_DOT11_CHNL,
++	BTC_GET_U1_WIFI_CENTRAL_CHNL,
++	BTC_GET_U1_WIFI_HS_CHNL,
++	BTC_GET_U1_WIFI_P2P_CHNL,
++	BTC_GET_U1_MAC_PHY_MODE,
++	BTC_GET_U1_AP_NUM,
++	BTC_GET_U1_ANT_TYPE,
++	BTC_GET_U1_IOT_PEER,
++
++	//===== for 1Ant ======
++	BTC_GET_U1_LPS_MODE,
++
++	BTC_GET_MAX
++}BTC_GET_TYPE,*PBTC_GET_TYPE;
++
++// defined for BFP_BTC_SET
++typedef enum _BTC_SET_TYPE{
++	// type BOOLEAN
++	BTC_SET_BL_BT_DISABLE,
++	BTC_SET_BL_BT_TRAFFIC_BUSY,
++	BTC_SET_BL_BT_LIMITED_DIG,
++	BTC_SET_BL_FORCE_TO_ROAM,
++	BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++	BTC_SET_BL_BT_CTRL_AGG_SIZE,
++	BTC_SET_BL_INC_SCAN_DEV_NUM,
++	BTC_SET_BL_BT_TX_RX_MASK,
++	BTC_SET_BL_MIRACAST_PLUS_BT,
++
++	// type u1Byte
++	BTC_SET_U1_RSSI_ADJ_VAL_FOR_AGC_TABLE_ON,
++	BTC_SET_U1_AGG_BUF_SIZE,
++
++	// type trigger some action
++	BTC_SET_ACT_GET_BT_RSSI,
++	BTC_SET_ACT_AGGREGATE_CTRL,
++	BTC_SET_ACT_ANTPOSREGRISTRY_CTRL,
++	//===== for 1Ant ======
++	// type BOOLEAN
++
++	// type u1Byte
++	BTC_SET_U1_RSSI_ADJ_VAL_FOR_1ANT_COEX_TYPE,
++	BTC_SET_U1_LPS_VAL,
++	BTC_SET_U1_RPWM_VAL,
++	// type trigger some action
++	BTC_SET_ACT_LEAVE_LPS,
++	BTC_SET_ACT_ENTER_LPS,
++	BTC_SET_ACT_NORMAL_LPS,
++	BTC_SET_ACT_DISABLE_LOW_POWER,
++	BTC_SET_ACT_UPDATE_RAMASK,
++	BTC_SET_ACT_SEND_MIMO_PS,
++	// BT Coex related
++	BTC_SET_ACT_CTRL_BT_INFO,
++	BTC_SET_ACT_CTRL_BT_COEX,
++	BTC_SET_ACT_CTRL_8723B_ANT,
++	//=================
++	BTC_SET_MAX
++}BTC_SET_TYPE,*PBTC_SET_TYPE;
++
++typedef enum _BTC_DBG_DISP_TYPE{
++	BTC_DBG_DISP_COEX_STATISTICS				= 0x0,
++	BTC_DBG_DISP_BT_LINK_INFO				= 0x1,
++	BTC_DBG_DISP_WIFI_STATUS				= 0x2,
++	BTC_DBG_DISP_MAX
++}BTC_DBG_DISP_TYPE,*PBTC_DBG_DISP_TYPE;
++
++typedef enum _BTC_NOTIFY_TYPE_IPS{
++	BTC_IPS_LEAVE							= 0x0,
++	BTC_IPS_ENTER							= 0x1,
++	BTC_IPS_MAX
++}BTC_NOTIFY_TYPE_IPS,*PBTC_NOTIFY_TYPE_IPS;
++typedef enum _BTC_NOTIFY_TYPE_LPS{
++	BTC_LPS_DISABLE							= 0x0,
++	BTC_LPS_ENABLE							= 0x1,
++	BTC_LPS_MAX
++}BTC_NOTIFY_TYPE_LPS,*PBTC_NOTIFY_TYPE_LPS;
++typedef enum _BTC_NOTIFY_TYPE_SCAN{
++	BTC_SCAN_FINISH							= 0x0,
++	BTC_SCAN_START							= 0x1,
++	BTC_SCAN_START_2G						= 0x2,
++	BTC_SCAN_MAX
++}BTC_NOTIFY_TYPE_SCAN,*PBTC_NOTIFY_TYPE_SCAN;
++typedef enum _BTC_NOTIFY_TYPE_SWITCHBAND{
++	BTC_NOT_SWITCH							= 0x0,
++	BTC_SWITCH_TO_24G						= 0x1,
++	BTC_SWITCH_TO_5G						= 0x2,
++	BTC_SWITCH_TO_24G_NoForScan				= 0x3,
++	BTC_SWITCH_MAX
++}BTC_NOTIFY_TYPE_SWITCHBAND,*PBTC_NOTIFY_TYPE_SWITCHBAND;
++typedef enum _BTC_NOTIFY_TYPE_ASSOCIATE{
++	BTC_ASSOCIATE_FINISH						= 0x0,
++	BTC_ASSOCIATE_START						= 0x1,
++	BTC_ASSOCIATE_5G_FINISH						= 0x2,
++	BTC_ASSOCIATE_5G_START						= 0x3,
++	BTC_ASSOCIATE_MAX
++}BTC_NOTIFY_TYPE_ASSOCIATE,*PBTC_NOTIFY_TYPE_ASSOCIATE;
++typedef enum _BTC_NOTIFY_TYPE_MEDIA_STATUS{
++	BTC_MEDIA_DISCONNECT					= 0x0,
++	BTC_MEDIA_CONNECT						= 0x1,
++	BTC_MEDIA_MAX
++}BTC_NOTIFY_TYPE_MEDIA_STATUS,*PBTC_NOTIFY_TYPE_MEDIA_STATUS;
++typedef enum _BTC_NOTIFY_TYPE_SPECIFIC_PACKET{
++	BTC_PACKET_UNKNOWN					= 0x0,
++	BTC_PACKET_DHCP							= 0x1,
++	BTC_PACKET_ARP							= 0x2,
++	BTC_PACKET_EAPOL						= 0x3,
++	BTC_PACKET_MAX
++}BTC_NOTIFY_TYPE_SPECIFIC_PACKET,*PBTC_NOTIFY_TYPE_SPECIFIC_PACKET;
++typedef enum _BTC_NOTIFY_TYPE_STACK_OPERATION{
++	BTC_STACK_OP_NONE					= 0x0,
++	BTC_STACK_OP_INQ_PAGE_PAIR_START		= 0x1,
++	BTC_STACK_OP_INQ_PAGE_PAIR_FINISH	= 0x2,
++	BTC_STACK_OP_MAX
++}BTC_NOTIFY_TYPE_STACK_OPERATION,*PBTC_NOTIFY_TYPE_STACK_OPERATION;
++
++//Bryant Add
++typedef enum _BTC_ANTENNA_POS{
++	BTC_ANTENNA_AT_MAIN_PORT				= 0x1,
++	BTC_ANTENNA_AT_AUX_PORT				= 0x2,
++}BTC_ANTENNA_POS,*PBTC_ANTENNA_POS;
++
++//Bryant Add
++typedef enum _BTC_BT_OFFON{
++	BTC_BT_OFF				= 0x0,
++	BTC_BT_ON				= 0x1,
++}BTC_BTOFFON,*PBTC_BT_OFFON;
++
++//==================================================
++// For following block is for coex offload
++//==================================================
++typedef struct _COL_H2C{
++	u1Byte	opcode;
++	u1Byte	opcode_ver:4;
++	u1Byte	req_num:4;
++	u1Byte	buf[1];
++}COL_H2C, *PCOL_H2C;
++
++#define	COL_C2H_ACK_HDR_LEN	3
++typedef struct _COL_C2H_ACK{
++	u1Byte	status;
++	u1Byte	opcode_ver:4;
++	u1Byte	req_num:4;
++	u1Byte	ret_len;
++	u1Byte	buf[1];
++}COL_C2H_ACK, *PCOL_C2H_ACK;
++
++#define	COL_C2H_IND_HDR_LEN	3
++typedef struct _COL_C2H_IND{
++	u1Byte	type;
++	u1Byte	version;
++	u1Byte	length;
++	u1Byte	data[1];
++}COL_C2H_IND, *PCOL_C2H_IND;
++
++//============================================
++// NOTE: for debug message, the following define should match
++// the strings in coexH2cResultString.
++//============================================
++typedef enum _COL_H2C_STATUS{
++	// c2h status
++	COL_STATUS_C2H_OK								= 0x00, // Wifi received H2C request and check content ok.
++	COL_STATUS_C2H_UNKNOWN							= 0x01,	// Not handled routine
++	COL_STATUS_C2H_UNKNOWN_OPCODE					= 0x02,	// Invalid OP code, It means that wifi firmware received an undefiend OP code.
++	COL_STATUS_C2H_OPCODE_VER_MISMATCH			= 0x03, // Wifi firmware and wifi driver mismatch, need to update wifi driver or wifi or.
++	COL_STATUS_C2H_PARAMETER_ERROR				= 0x04, // Error paraneter.(ex: parameters = NULL but it should have values)
++	COL_STATUS_C2H_PARAMETER_OUT_OF_RANGE		= 0x05, // Wifi firmware needs to check the parameters from H2C request and return the status.(ex: ch = 500, it's wrong)
++	// other COL status start from here
++	COL_STATUS_C2H_REQ_NUM_MISMATCH			, // c2h req_num mismatch, means this c2h is not we expected.
++	COL_STATUS_H2C_HALMAC_FAIL					, // HALMAC return fail.
++	COL_STATUS_H2C_TIMTOUT						, // not received the c2h response from fw
++	COL_STATUS_INVALID_C2H_LEN					, // invalid coex offload c2h ack length, must >= 3
++	COL_STATUS_COEX_DATA_OVERFLOW				, // coex returned length over the c2h ack length.
++	COL_STATUS_MAX
++}COL_H2C_STATUS,*PCOL_H2C_STATUS;
++
++#define	COL_MAX_H2C_REQ_NUM		16
++
++#define	COL_H2C_BUF_LEN			20
++typedef enum _COL_OPCODE{
++	COL_OP_WIFI_STATUS_NOTIFY					= 0x0,
++	COL_OP_WIFI_PROGRESS_NOTIFY					= 0x1,
++	COL_OP_WIFI_INFO_NOTIFY						= 0x2,
++	COL_OP_WIFI_POWER_STATE_NOTIFY				= 0x3,
++	COL_OP_SET_CONTROL							= 0x4,
++	COL_OP_GET_CONTROL							= 0x5,
++	COL_OP_WIFI_OPCODE_MAX
++}COL_OPCODE,*PCOL_OPCODE;
++
++typedef enum _COL_IND_TYPE{
++	COL_IND_BT_INFO								= 0x0,
++	COL_IND_PSTDMA								= 0x1,
++	COL_IND_LIMITED_TX_RX						= 0x2,
++	COL_IND_COEX_TABLE							= 0x3,
++	COL_IND_REQ									= 0x4,
++	COL_IND_MAX
++}COL_IND_TYPE,*PCOL_IND_TYPE;
++
++typedef struct _COL_SINGLE_H2C_RECORD{
++	u1Byte					h2c_buf[COL_H2C_BUF_LEN];	// the latest sent h2c buffer
++	u4Byte					h2c_len;
++	u1Byte					c2h_ack_buf[COL_H2C_BUF_LEN];	// the latest received c2h buffer
++	u4Byte					c2h_ack_len;
++	u4Byte					count;									// the total number of the sent h2c command
++	u4Byte					status[COL_STATUS_MAX];					// the c2h status for the sent h2c command
++} COL_SINGLE_H2C_RECORD, *PCOL_SINGLE_H2C_RECORD;
++
++typedef struct _COL_SINGLE_C2H_IND_RECORD{
++	u1Byte					ind_buf[COL_H2C_BUF_LEN];	// the latest received c2h indication buffer
++	u4Byte					ind_len;
++	u4Byte					count;									// the total number of the rcvd c2h indication
++	u4Byte					status[COL_STATUS_MAX];					// the c2h indication verified status 
++} COL_SINGLE_C2H_IND_RECORD, *PCOL_SINGLE_C2H_IND_RECORD;
++
++typedef struct _BTC_OFFLOAD{
++	// H2C command related
++	u1Byte					h2c_req_num;
++	u4Byte					cnt_h2c_sent;
++	COL_SINGLE_H2C_RECORD	h2c_record[COL_OP_WIFI_OPCODE_MAX];
++
++	// C2H Ack related
++	u4Byte					cnt_c2h_ack;
++	u4Byte					status[COL_STATUS_MAX];
++	struct completion		c2h_event[COL_MAX_H2C_REQ_NUM];	// for req_num = 1~COL_MAX_H2C_REQ_NUM
++	u1Byte					c2h_ack_buf[COL_MAX_H2C_REQ_NUM][COL_H2C_BUF_LEN];
++	u1Byte					c2h_ack_len[COL_MAX_H2C_REQ_NUM];
++
++	// C2H Indication related
++	u4Byte						cnt_c2h_ind;
++	COL_SINGLE_C2H_IND_RECORD	c2h_ind_record[COL_IND_MAX];
++	u4Byte						c2h_ind_status[COL_STATUS_MAX];
++	u1Byte						c2h_ind_buf[COL_H2C_BUF_LEN];
++	u1Byte						c2h_ind_len;
++} BTC_OFFLOAD, *PBTC_OFFLOAD;
++extern BTC_OFFLOAD				gl_coex_offload;
++//==================================================
++
++typedef u1Byte
++(*BFP_BTC_R1)(
++	IN 	PVOID			pBtcContext,
++	IN	u4Byte			RegAddr
++	);
++typedef u2Byte
++(*BFP_BTC_R2)(
++	IN 	PVOID			pBtcContext,
++	IN	u4Byte			RegAddr
++	);
++typedef u4Byte
++(*BFP_BTC_R4)(
++	IN 	PVOID			pBtcContext,
++	IN	u4Byte			RegAddr
++	);
++typedef VOID
++(*BFP_BTC_W1)(
++	IN 	PVOID			pBtcContext,
++	IN	u4Byte			RegAddr,
++	IN	u1Byte			Data
++	);
++typedef VOID
++(*BFP_BTC_W1_BIT_MASK)(
++	IN 	PVOID			pBtcContext,
++	IN	u4Byte			regAddr,
++	IN	u1Byte			bitMask,
++	IN	u1Byte			data1b
++	);
++typedef VOID
++(*BFP_BTC_W2)(
++	IN 	PVOID			pBtcContext,
++	IN	u4Byte			RegAddr,
++	IN	u2Byte			Data
++	);
++typedef VOID
++(*BFP_BTC_W4)(
++	IN 	PVOID			pBtcContext,
++	IN	u4Byte			RegAddr,
++	IN	u4Byte			Data
++	);
++typedef VOID
++(*BFP_BTC_LOCAL_REG_W1)(
++	IN 	PVOID			pBtcContext,
++	IN	u4Byte			RegAddr,
++	IN	u1Byte			Data
++	);
++typedef VOID
++(*BFP_BTC_SET_BB_REG)(
++	IN 	PVOID			pBtcContext,
++	IN	u4Byte			RegAddr,
++	IN	u4Byte			BitMask,
++	IN	u4Byte			Data
++	);
++typedef u4Byte 
++(*BFP_BTC_GET_BB_REG)(
++	IN 	PVOID			pBtcContext,
++	IN	u4Byte			RegAddr,
++	IN	u4Byte			BitMask
++	);
++typedef VOID
++(*BFP_BTC_SET_RF_REG)(	
++	IN 	PVOID			pBtcContext,
++	IN	u1Byte			eRFPath,
++	IN	u4Byte			RegAddr,
++	IN	u4Byte			BitMask,
++	IN	u4Byte			Data
++	);
++typedef u4Byte 
++(*BFP_BTC_GET_RF_REG)(
++	IN 	PVOID			pBtcContext,
++	IN	u1Byte			eRFPath,
++	IN	u4Byte			RegAddr,
++	IN	u4Byte			BitMask
++	);
++typedef VOID
++(*BFP_BTC_FILL_H2C)(
++	IN 	PVOID			pBtcContext,
++	IN	u1Byte 			elementId,
++	IN	u4Byte 			cmdLen,
++	IN	pu1Byte			pCmdBuffer
++	);
++
++typedef	BOOLEAN
++(*BFP_BTC_GET)(
++	IN	PVOID			pBtCoexist,
++	IN	u1Byte			getType,
++	OUT	PVOID			pOutBuf
++	);
++
++typedef	BOOLEAN
++(*BFP_BTC_SET)(
++	IN	PVOID			pBtCoexist,
++	IN	u1Byte			setType,
++	OUT	PVOID			pInBuf
++	);
++typedef u2Byte
++(*BFP_BTC_SET_BT_REG)(
++	IN 	PVOID			pBtcContext,
++	IN	u1Byte			regType,
++	IN	u4Byte			offset,
++	IN	u4Byte			value
++	);
++typedef BOOLEAN
++(*BFP_BTC_SET_BT_ANT_DETECTION)(
++	IN 	PVOID			pBtcContext,
++	IN	u1Byte			txTime,
++	IN	u1Byte			btChnl
++	);
++typedef u2Byte 
++(*BFP_BTC_GET_BT_REG)(
++	IN 	PVOID			pBtcContext,
++	IN	u1Byte			regType,
++	IN	u4Byte			offset,
++	IN	pu4Byte			data
++	);
++typedef VOID
++(*BFP_BTC_DISP_DBG_MSG)(
++	IN	PVOID			pBtCoexist,
++	IN	u1Byte			dispType
++	);
++
++typedef COL_H2C_STATUS
++(*BFP_BTC_COEX_H2C_PROCESS)(
++	IN	PVOID			pBtCoexist,
++	IN	u1Byte			opcode,
++	IN	u1Byte			opcode_ver,
++	IN	pu1Byte			ph2c_par,
++	IN	u1Byte			h2c_par_len
++	);
++
++typedef u4Byte 
++(*BFP_BTC_GET_BT_COEX_SUPPORTED_FEATURE)(
++	IN 	PVOID			pBtcContext
++	);
++
++typedef u4Byte 
++(*BFP_BTC_GET_BT_COEX_SUPPORTED_VERSION)(
++	IN 	PVOID			pBtcContext
++	);
++
++typedef u4Byte 
++(*BFP_BTC_GET_PHYDM_VERSION)(
++	IN 	PVOID			pBtcContext
++	);
++
++struct  btc_bt_info{
++	boolean					bt_disabled;
++	boolean				bt_enable_disable_change;
++	u8					rssi_adjust_for_agc_table_on;
++	u8					rssi_adjust_for_1ant_coex_type;
++	boolean					pre_bt_ctrl_agg_buf_size;
++	boolean					bt_ctrl_agg_buf_size;
++	boolean					pre_reject_agg_pkt;
++	boolean					reject_agg_pkt;
++	boolean					increase_scan_dev_num;
++	boolean					bt_tx_rx_mask;
++	u8					pre_agg_buf_size;
++	u8					agg_buf_size;
++	boolean					bt_busy;
++	boolean					limited_dig;
++	u16					bt_hci_ver;
++	u16					bt_real_fw_ver;
++	u8					bt_fw_ver;
++	u32					get_bt_fw_ver_cnt;
++	boolean					miracast_plus_bt;
++
++	boolean					bt_disable_low_pwr;
++
++	boolean					bt_ctrl_lps;
++	boolean					bt_lps_on;
++	boolean					force_to_roam;	/* for 1Ant solution */
++	u8					lps_val;
++	u8					rpwm_val;
++	u32					ra_mask;
++};
++
++struct btc_stack_info {
++	boolean					profile_notified;
++	u16					hci_version;	/* stack hci version */
++	u8					num_of_link;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					acl_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	u8					num_of_hid;
++	boolean					pan_exist;
++	boolean					unknown_acl_exist;
++	s8					min_bt_rssi;
++};
++
++struct btc_bt_link_info {
++	boolean					bt_link_exist;
++	boolean					bt_hi_pri_link_exist;
++	boolean					sco_exist;
++	boolean					sco_only;
++	boolean					a2dp_exist;
++	boolean					a2dp_only;
++	boolean					hid_exist;
++	boolean					hid_only;
++	boolean					pan_exist;
++	boolean					pan_only;
++	boolean					slave_role;
++	boolean					acl_busy;
++};
++
++struct btc_statistics {
++	u32					cnt_bind;
++	u32					cnt_power_on;
++	u32					cnt_pre_load_firmware;
++	u32					cnt_init_hw_config;
++	u32					cnt_init_coex_dm;
++	u32					cnt_ips_notify;
++	u32					cnt_lps_notify;
++	u32					cnt_scan_notify;
++	u32					cnt_connect_notify;
++	u32					cnt_media_status_notify;
++	u32					cnt_specific_packet_notify;
++	u32					cnt_bt_info_notify;
++	u32					cnt_rf_status_notify;
++	u32					cnt_periodical;
++	u32					cnt_coex_dm_switch;
++	u32					cnt_stack_operation_notify;
++	u32					cnt_dbg_ctrl;
++};
++
++struct btc_coexist{
++	BOOLEAN				bBinded;		/*make sure only one adapter can bind the data context*/
++	PVOID				Adapter;		/*default adapter*/
++	struct  btc_board_info		board_info;
++	struct  btc_bt_info			bt_info;		/*some bt info referenced by non-bt module*/
++	struct  btc_stack_info		stack_info;
++	struct  btc_bt_link_info		bt_link_info;
++	BTC_CHIP_INTERFACE		chip_interface;
++
++	BOOLEAN					initilized;
++	BOOLEAN					stop_coex_dm;
++	BOOLEAN					manual_control;
++	BOOLEAN					bdontenterLPS;
++	pu1Byte					cli_buf;
++	struct btc_statistics		statistics;
++	u1Byte				pwrModeVal[10];
++
++	/* function pointers */
++	/* io related */
++	BFP_BTC_R1			btc_read_1byte;
++	BFP_BTC_W1			btc_write_1byte;
++	BFP_BTC_W1_BIT_MASK	btc_write_1byte_bitmask;
++	BFP_BTC_R2			btc_read_2byte;
++	BFP_BTC_W2			btc_write_2byte;
++	BFP_BTC_R4			btc_read_4byte;
++	BFP_BTC_W4			btc_write_4byte;
++	BFP_BTC_LOCAL_REG_W1	btc_write_local_reg_1byte;
++	// read/write bb related
++	BFP_BTC_SET_BB_REG	btc_set_bb_reg;
++	BFP_BTC_GET_BB_REG	btc_get_bb_reg;
++
++	/* read/write rf related */
++	BFP_BTC_SET_RF_REG	btc_set_rf_reg;
++	BFP_BTC_GET_RF_REG	btc_get_rf_reg;
++
++	/* fill h2c related */
++	BFP_BTC_FILL_H2C		btc_fill_h2c;
++	/* other */
++	BFP_BTC_DISP_DBG_MSG	btc_disp_dbg_msg;
++	/* normal get/set related */
++	BFP_BTC_GET			btc_get;
++	BFP_BTC_SET			btc_set;
++
++	BFP_BTC_GET_BT_REG	btc_get_bt_reg;
++	BFP_BTC_SET_BT_REG	btc_set_bt_reg;
++
++	BFP_BTC_SET_BT_ANT_DETECTION	btc_set_bt_ant_detection;
++
++	BFP_BTC_COEX_H2C_PROCESS	btc_coex_h2c_process;
++	BFP_BTC_GET_BT_COEX_SUPPORTED_FEATURE btc_get_bt_coex_supported_feature;
++	BFP_BTC_GET_BT_COEX_SUPPORTED_VERSION btc_get_bt_coex_supported_version;
++	BFP_BTC_GET_PHYDM_VERSION		btc_get_bt_phydm_version;
++};
++typedef struct btc_coexist *PBTC_COEXIST;
++
++extern struct btc_coexist	GLBtCoexist;
++
++BOOLEAN
++EXhalbtcoutsrc_InitlizeVariables(
++	IN	PVOID		Adapter	
++	);
++VOID
++EXhalbtcoutsrc_PowerOnSetting(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtcoutsrc_PreLoadFirmware(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtcoutsrc_InitHwConfig(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	BOOLEAN				bWifiOnly
++	);
++VOID
++EXhalbtcoutsrc_InitCoexDm(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtcoutsrc_IpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtcoutsrc_LpsNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtcoutsrc_ScanNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtcoutsrc_ConnectNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			action
++	);
++VOID
++EXhalbtcoutsrc_MediaStatusNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	RT_MEDIA_STATUS	mediaStatus
++	);
++VOID
++EXhalbtcoutsrc_SpecificPacketNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			pktType
++	);
++VOID
++EXhalbtcoutsrc_BtInfoNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	pu1Byte			tmpBuf,
++	IN	u1Byte			length
++	);
++VOID
++EXhalbtcoutsrc_RfStatusNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte 				type
++	);
++VOID
++EXhalbtcoutsrc_StackOperationNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			type
++	);
++VOID
++EXhalbtcoutsrc_HaltNotify(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtcoutsrc_PnpNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte			pnpState
++	);
++VOID
++EXhalbtcoutsrc_ScoreBoardStatusNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	pu1Byte			tmpBuf,
++	IN	u1Byte			length
++	);
++VOID
++EXhalbtcoutsrc_CoexDmSwitch(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtcoutsrc_Periodical(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtcoutsrc_DbgControl(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u1Byte				opCode,
++	IN	u1Byte				opLen,
++	IN	pu1Byte				pData
++	);
++VOID
++EXhalbtcoutsrc_AntennaDetection(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u4Byte					centFreq,
++	IN	u4Byte					offset,
++	IN	u4Byte					span,
++	IN	u4Byte					seconds
++	);
++VOID
++EXhalbtcoutsrc_StackUpdateProfileInfo(
++	VOID
++	);
++VOID
++EXhalbtcoutsrc_SetHciVersion(
++	IN	u2Byte	hciVersion
++	);
++VOID
++EXhalbtcoutsrc_SetBtPatchVersion(
++	IN	u2Byte	btHciVersion,
++	IN	u2Byte	btPatchVersion
++	);
++VOID
++EXhalbtcoutsrc_UpdateMinBtRssi(
++	IN	s1Byte	btRssi
++	);
++#if 0
++VOID
++EXhalbtcoutsrc_SetBtExist(
++	IN	BOOLEAN		bBtExist
++	);
++#endif
++VOID
++EXhalbtcoutsrc_SetChipType(
++	IN	u1Byte		chipType
++	);
++VOID
++EXhalbtcoutsrc_SetAntNum(
++	IN	u1Byte		type,
++	IN	u1Byte		antNum
++	);
++VOID
++EXhalbtcoutsrc_SetSingleAntPath(
++	IN	u1Byte		singleAntPath
++	);
++VOID
++EXhalbtcoutsrc_DisplayBtCoexInfo(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++VOID
++EXhalbtcoutsrc_DisplayAntDetection(
++	IN	PBTC_COEXIST		pBtCoexist
++	);
++
++#define	MASKBYTE0		0xff
++#define	MASKBYTE1		0xff00
++#define	MASKBYTE2		0xff0000
++#define	MASKBYTE3		0xff000000
++#define	MASKHWORD	0xffff0000
++#define	MASKLWORD		0x0000ffff
++#define	MASKDWORD	0xffffffff
++#define	MASK12BITS		0xfff
++#define	MASKH4BITS		0xf0000000
++#define	MASKOFDM_D	0xffc00000
++#define	MASKCCK		0x3f3f3f3f
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/Mp_Precomp.h b/drivers/net/wireless/rtl8812au/hal/btc/Mp_Precomp.h
+new file mode 100644
+index 0000000..52fda4f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/Mp_Precomp.h
+@@ -0,0 +1,104 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __MP_PRECOMP_H__
++#define __MP_PRECOMP_H__
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#define BT_TMP_BUF_SIZE	100
++
++#ifdef PLATFORM_LINUX
++#define rsprintf snprintf
++#elif defined(PLATFORM_WINDOWS)
++#define rsprintf sprintf_s
++#endif
++
++#define DCMD_Printf			DBG_BT_INFO
++
++#define delay_ms(ms)		rtw_mdelay_os(ms)
++
++#ifdef bEnable
++#undef bEnable
++#endif
++
++#define WPP_SOFTWARE_TRACE 0
++
++typedef enum _BTC_MSG_COMP_TYPE{
++	COMP_COEX		= 0,
++	COMP_MAX
++}BTC_MSG_COMP_TYPE;
++extern u4Byte GLBtcDbgType[];
++
++#define DBG_OFF			0
++#define DBG_SEC			1
++#define DBG_SERIOUS		2
++#define DBG_WARNING		3
++#define DBG_LOUD		4
++#define DBG_TRACE		5
++
++#if DBG
++#ifdef RT_TRACE
++#undef RT_TRACE
++#define RT_TRACE(dbgtype, dbgflag, printstr)\
++do {\
++	if (GLBtcDbgType[dbgtype] & BIT(dbgflag))\
++	{\
++		DbgPrint printstr;\
++	}\
++} while (0)
++#endif
++#else
++#define RT_TRACE(dbgtype, dbgflag, printstr)
++#endif
++
++#ifdef CONFIG_BT_COEXIST
++#define BT_SUPPORT		1
++#define COEX_SUPPORT	1
++#define HS_SUPPORT		1
++#else
++#define BT_SUPPORT		0
++#define COEX_SUPPORT	0
++#define HS_SUPPORT		0
++#endif
++
++#include "HalBtcOutSrc.h"
++#include "HalBtc8188c2Ant.h"
++#include "HalBtc8192d2Ant.h"
++#include "HalBtc8192e1Ant.h"
++#include "HalBtc8192e2Ant.h"
++#include "HalBtc8723a1Ant.h"
++#include "HalBtc8723a2Ant.h"
++#include "HalBtc8723b1Ant.h"
++#include "HalBtc8723b2Ant.h"
++#include "HalBtc8812a1Ant.h"
++#include "HalBtc8812a2Ant.h"
++#include "HalBtc8821a1Ant.h"
++#include "HalBtc8821a2Ant.h"
++#include "HalBtc8821aCsr2Ant.h"
++#include "HalBtc8703b1Ant.h"
++#include "halbtc8723d1ant.h"
++#include "halbtc8723d2ant.h"
++#include "HalBtc8822b1Ant.h"
++#include "halbtc8821c1ant.h"
++#include "halbtc8821c2ant.h"
++
++
++#endif // __MP_PRECOMP_H__
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/halbtc8723d1ant.c b/drivers/net/wireless/rtl8812au/hal/btc/halbtc8723d1ant.c
+new file mode 100644
+index 0000000..f877b20
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/halbtc8723d1ant.c
+@@ -0,0 +1,5465 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8723D Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8723D_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	*trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8723d_1ant		glcoex_dm_8723d_1ant;
++static struct  coex_dm_8723d_1ant	*coex_dm = &glcoex_dm_8723d_1ant;
++static struct  coex_sta_8723d_1ant		glcoex_sta_8723d_1ant;
++static struct  coex_sta_8723d_1ant	*coex_sta = &glcoex_sta_8723d_1ant;
++static struct  psdscan_sta_8723d_1ant	gl_psd_scan_8723d_1ant;
++static struct  psdscan_sta_8723d_1ant *psd_scan = &gl_psd_scan_8723d_1ant;
++
++
++const char *const glbt_info_src_8723d_1ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8723d_1ant = 20160218;
++u32	glcoex_ver_8723d_1ant = 0x05;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8723d1ant_
++ * ************************************************************ */
++u8 halbtc8723d1ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8723D_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8723D_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8723D_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8723d1ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8723D_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8723D_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8723D_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8723d1ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8723d1ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8723d1ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8723d1ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8723d1ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	switch (ra_mask_type) {
++	case 0:	/* normal mode */
++		halbtc8723d1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0);
++		break;
++	case 1:	/* disable cck 1/2 */
++		halbtc8723d1ant_update_ra_mask(btcoexist, force_exec,
++					       0x00000003);
++		break;
++	case 2:	/* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		halbtc8723d1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0001f1f7);
++		break;
++	default:
++		break;
++	}
++
++	halbtc8723d1ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8723d1ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8723d1ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++void halbtc8723d1ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8723d1ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], WL query BT info!!\n");
++	BTC_TRACE(trace_buf);
++}
++
++void halbtc8723d1ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++	static u8		num_of_bt_counter_chk = 0, cnt_slave = 0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	/* to avoid 0x76e[3] = 1 (WLAN_Act control by PTA) during IPS */
++	/* if (! (btcoexist->btc_read_1byte(btcoexist, 0x76e) & 0x8) ) */
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Hi-Pri Rx/Tx: %d/%d, Lo-Pri Rx/Tx: %d/%d\n",
++		    reg_hp_rx, reg_hp_tx, reg_lp_rx, reg_lp_tx);
++
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++
++	if ((coex_sta->low_priority_tx > 1150)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++
++	if ((coex_sta->low_priority_rx >= 1150) && (coex_sta->low_priority_rx >= coex_sta->low_priority_tx)
++	    && (!coex_sta->under_ips)  && (!coex_sta->c2h_bt_inquiry_page) && (coex_sta->bt_link_exist))	{
++		if (cnt_slave >= 3) {
++			bt_link_info->slave_role = true;
++			cnt_slave = 3;
++		} else
++			cnt_slave++;
++	} else {
++		if (cnt_slave == 0)	{
++			bt_link_info->slave_role = false;
++			cnt_slave = 0;
++		} else
++			cnt_slave--;
++
++	}
++
++	if ((coex_sta->high_priority_tx == 0) && (coex_sta->high_priority_rx == 0) && (coex_sta->low_priority_tx == 0) &&
++	    (coex_sta->low_priority_rx == 0)) {
++		num_of_bt_counter_chk++;
++		if (num_of_bt_counter_chk >= 3) {
++			halbtc8723d1ant_query_bt_info(btcoexist);
++			num_of_bt_counter_chk = 0;
++		}
++	}
++
++#if 0
++	/* Add Hi-Pri Tx/Rx counter to avoid false detection */
++	if (((coex_sta->hid_exist) || (coex_sta->sco_exist)) &&
++	    (coex_sta->high_priority_tx + coex_sta->high_priority_rx
++	     >= 160)
++	    && (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->bt_hi_pri_link_exist = true;
++	else
++		coex_sta->bt_hi_pri_link_exist = false;
++
++	if ((coex_sta->acl_busy) &&
++	    (coex_sta->num_of_profile == 0)) {
++		if (coex_sta->low_priority_tx +
++		    coex_sta->low_priority_rx >= 160) {
++			coex_sta->pan_exist = true;
++			coex_sta->num_of_profile++;
++			coex_sta->wrong_profile_notification++;
++		}
++	}
++#endif
++
++}
++
++
++
++void halbtc8723d1ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++	s32	wifi_rssi = 0;
++	boolean wifi_busy = false, wifi_under_b_mode = false;
++	static u8 cck_lock_counter = 0;
++	u32	total_cnt;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++			   &wifi_under_b_mode);
++
++	if (coex_sta->under_ips) {
++		coex_sta->crc_ok_cck = 0;
++		coex_sta->crc_ok_11g = 0;
++		coex_sta->crc_ok_11n = 0;
++		coex_sta->crc_ok_11n_agg = 0;
++
++		coex_sta->crc_err_cck = 0;
++		coex_sta->crc_err_11g = 0;
++		coex_sta->crc_err_11n = 0;
++		coex_sta->crc_err_11n_agg = 0;
++	} else {
++		coex_sta->crc_ok_cck	= btcoexist->btc_read_4byte(btcoexist,
++					  0xf88);
++		coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf94);
++		coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf90);
++		coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					   0xfb8);
++
++		coex_sta->crc_err_cck	 = btcoexist->btc_read_4byte(btcoexist,
++					   0xf84);
++		coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf96);
++		coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf92);
++		coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					    0xfba);
++	}
++
++
++	/* reset counter */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x0);
++
++	if ((wifi_busy) && (wifi_rssi >= 30) && (!wifi_under_b_mode)) {
++		total_cnt = coex_sta->crc_ok_cck + coex_sta->crc_ok_11g +
++			    coex_sta->crc_ok_11n +
++			    coex_sta->crc_ok_11n_agg;
++
++		if ((coex_dm->bt_status == BT_8723D_1ANT_BT_STATUS_ACL_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8723D_1ANT_BT_STATUS_ACL_SCO_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8723D_1ANT_BT_STATUS_SCO_BUSY)) {
++			if (coex_sta->crc_ok_cck > (total_cnt -
++						    coex_sta->crc_ok_cck)) {
++				if (cck_lock_counter < 3)
++					cck_lock_counter++;
++			} else {
++				if (cck_lock_counter > 0)
++					cck_lock_counter--;
++			}
++
++		} else {
++			if (cck_lock_counter > 0)
++				cck_lock_counter--;
++		}
++	} else {
++		if (cck_lock_counter > 0)
++			cck_lock_counter--;
++	}
++
++	if (!coex_sta->pre_ccklock) {
++
++		if (cck_lock_counter >= 3)
++			coex_sta->cck_lock = true;
++		else
++			coex_sta->cck_lock = false;
++	} else {
++		if (cck_lock_counter == 0)
++			coex_sta->cck_lock = false;
++		else
++			coex_sta->cck_lock = true;
++	}
++
++	if (coex_sta->cck_lock)
++		coex_sta->cck_ever_lock = true;
++
++	coex_sta->pre_ccklock =  coex_sta->cck_lock;
++
++
++}
++
++boolean halbtc8723d1ant_is_wifibt_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false, pre_bt_off = false;
++	boolean wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (coex_sta->bt_disabled != pre_bt_off) {
++		pre_bt_off = coex_sta->bt_disabled;
++
++		if (coex_sta->bt_disabled)
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++		else
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is enabled !!\n");
++
++		BTC_TRACE(trace_buf);
++		return true;
++	}
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++	}
++
++	return false;
++}
++
++void halbtc8723d1ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++	bt_link_info->bt_hi_pri_link_exist = coex_sta->bt_hi_pri_link_exist;
++	bt_link_info->acl_busy = coex_sta->acl_busy;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++void halbtc8723d1ant_update_wifi_channel_info(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] =
++			0x1;  /* enable BT AFH skip WL channel for 8723d because BT Rx LO interference */
++		/* h2c_parameter[0] = 0x0; */
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++
++}
++
++u8 halbtc8723d1ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8723D_1ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Profile = SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8723D_1ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_1ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_1ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8723D_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID + A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_1ANT_COEX_ALGO_HID_A2DP;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8723D_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! BT Profile = SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8723d1ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8723d1ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8723d1ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8723d1ant_set_fw_low_penalty_ra(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8723d1ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8723d1ant_set_fw_low_penalty_ra(btcoexist,
++					      coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8723d1ant_sw_mechanism(IN struct btc_coexist *btcoexist,
++				  IN boolean low_penalty_ra)
++{
++	halbtc8723d1ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8723d1ant_write_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	u16				bitpos,
++	IN	BOOLEAN		state
++)
++{
++
++	static u16 originalval = 0x8002;
++
++	if (state)
++		originalval = originalval | bitpos;
++	else
++		originalval = originalval & (~bitpos);
++
++
++	btcoexist->btc_write_2byte(btcoexist, 0xaa, originalval);
++
++}
++
++void halbtc8723d1ant_read_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN   u16				*score_board_val
++)
++{
++
++	*score_board_val = (btcoexist->btc_read_2byte(btcoexist,
++			    0xaa)) & 0x7fff;
++}
++
++void halbtc8723d1ant_post_activestate_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_active
++)
++{
++
++	if (wifi_active)
++		halbtc8723d1ant_write_score_board(btcoexist, (u16) BIT(0), TRUE);
++	else
++		halbtc8723d1ant_write_score_board(btcoexist, (u16) BIT(0), FALSE);
++
++	/* The BT should set "No Shunt-down" mode if WL = Active for BT Synthesizer on/off interference WL Lo issue at 8703b b-cut. */
++
++}
++
++void halbtc8723d1ant_post_onoffstate_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_on
++)
++{
++
++	if (wifi_on)
++		halbtc8723d1ant_write_score_board(btcoexist, (u16) BIT(1), TRUE);
++	else
++		halbtc8723d1ant_write_score_board(btcoexist, (u16) BIT(1), FALSE);
++
++}
++
++void halbtc8723d1ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++	u16			u16tmp;
++
++	/* This function check if bt is disabled */
++#if 0
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++
++
++#else
++
++	/* Read BT on/off status from scoreboard[1], enable this only if BT patch support this feature */
++	halbtc8723d1ant_read_score_board(btcoexist,	&u16tmp);
++
++	bt_active = u16tmp & BIT(1);
++
++
++#endif
++
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	} else {
++
++		bt_disable_cnt++;
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			bt_disable_cnt = 2;
++		}
++
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	}
++
++
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++	}
++
++}
++
++void halbtc8723d1ant_enable_gnt_to_gpio(IN struct btc_coexist *btcoexist,
++					boolean isenable)
++{
++
++	if (isenable) {
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x1);
++
++		/* enable GNT_BT to GPIO debug */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x40, 0x0);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x1, 0x0);
++
++		/* 0x48[20] = 0  for GPIO14 =  GNT_WL*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4a, 0x10, 0x0);
++		/* 0x40[17] = 0  for GPIO14 =  GNT_WL*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x42, 0x02, 0x0);
++
++		/* 0x66[9] = 0   for GPIO15 =  GNT_B T*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x02, 0x0);
++		/* 0x66[7] = 0
++		for GPIO15 =  GNT_BT*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x66, 0x80, 0x0);
++		/* 0x8[8] = 0    for GPIO15 =  GNT_BT*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x9, 0x1, 0x0);
++
++		/* BT Vendor Reg 0x76[0] = 0  for GPIO15 =  GNT_BT, this is not set here*/
++	} else {
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x0);
++
++		/* Disable GNT_BT debug to GPIO, and enable chip_wakeup_host */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x40, 0x1);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x1, 0x1);
++
++		/* 0x48[20] = 0  for GPIO14 =  GNT_WL*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4a, 0x10, 0x1);
++	}
++
++
++}
++
++u32 halbtc8723d1ant_ltecoex_indirect_read_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr)
++{
++	u32 j = 0;
++
++
++	/* wait for ready bit before access 0x7c0		 */
++	btcoexist->btc_write_4byte(btcoexist, 0x7c0, 0x800F0000 | reg_addr);
++
++	do {
++		j++;
++	} while (((btcoexist->btc_read_1byte(btcoexist,
++					     0x7c3)&BIT(5)) == 0) &&
++		 (j < BT_8723D_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++	return btcoexist->btc_read_4byte(btcoexist,
++					 0x7c8);  /* get read data */
++
++}
++
++void halbtc8723d1ant_ltecoex_indirect_write_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr, IN u32 bit_mask, IN u32 reg_value)
++{
++	u32 val, i = 0, j = 0, bitpos = 0;
++
++
++	if (bit_mask == 0x0)
++		return;
++	if (bit_mask == 0xffffffff) {
++		btcoexist->btc_write_4byte(btcoexist, 0x7c4,
++					   reg_value); /* put write data */
++
++		/* wait for ready bit before access 0x7c0 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x7c3)&BIT(5)) == 0) &&
++			(j < BT_8723D_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x7c0,
++					   0xc00F0000 | reg_addr);
++	} else {
++		for (i = 0; i <= 31; i++) {
++			if (((bit_mask >> i) & 0x1) == 0x1) {
++				bitpos = i;
++				break;
++			}
++		}
++
++		/* read back register value before write */
++		val = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist,
++				reg_addr);
++		val = (val & (~bit_mask)) | (reg_value << bitpos);
++
++		btcoexist->btc_write_4byte(btcoexist, 0x7c4,
++					   val); /* put write data */
++
++		/* wait for ready bit before access 0x7c0		 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x7c3)&BIT(5)) == 0) &&
++			(j < BT_8723D_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x7c0,
++					   0xc00F0000 | reg_addr);
++
++	}
++
++}
++
++void halbtc8723d1ant_ltecoex_enable(IN struct btc_coexist *btcoexist,
++				    IN boolean enable)
++{
++	u8 val;
++
++	val = (enable) ? 1 : 0;
++	halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist, 0x38, 0x80,
++			val);  /* 0x38[7] */
++
++}
++
++void halbtc8723d1ant_ltecoex_pathcontrol_owner(IN struct btc_coexist *btcoexist,
++		IN boolean wifi_control)
++{
++	u8 val;
++
++	val = (wifi_control) ? 1 : 0;
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x4,
++					   val); /* 0x70[26] */
++
++}
++
++void halbtc8723d1ant_ltecoex_set_gnt_bt(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8723D_1ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0xc000;
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		bit_mask = 0x0c00;
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10]						 */
++		break;
++	case BT_8723D_1ANT_GNT_BLOCK_RFC:
++		bit_mask = 0xc000;
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		break;
++	case BT_8723D_1ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0c00;
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10] */
++		break;
++
++	}
++
++}
++
++void halbtc8723d1ant_ltecoex_set_gnt_wl(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8723D_1ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0x3000;
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		bit_mask = 0x0300;
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8]						 */
++		break;
++	case BT_8723D_1ANT_GNT_BLOCK_RFC:
++		bit_mask = 0x3000;
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		break;
++	case BT_8723D_1ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0300;
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8] */
++		break;
++
++	}
++
++}
++
++void halbtc8723d1ant_ltecoex_set_coex_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u16 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8723D_1ANT_CTT_WL_VS_LTE:
++		reg_addr = 0xa0;
++		break;
++	case BT_8723D_1ANT_CTT_BT_VS_LTE:
++		reg_addr = 0xa4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xffff, table_content); /* 0xa0[15:0] or 0xa4[15:0] */
++
++
++}
++
++
++void halbtc8723d1ant_ltecoex_set_break_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u8 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8723D_1ANT_LBTT_WL_BREAK_LTE:
++		reg_addr = 0xa8;
++		break;
++	case BT_8723D_1ANT_LBTT_BT_BREAK_LTE:
++		reg_addr = 0xac;
++		break;
++	case BT_8723D_1ANT_LBTT_LTE_BREAK_WL:
++		reg_addr = 0xb0;
++		break;
++	case BT_8723D_1ANT_LBTT_LTE_BREAK_BT:
++		reg_addr = 0xb4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8723d1ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xff, table_content); /* 0xa8[15:0] or 0xb4[15:0] */
++
++
++}
++
++void halbtc8723d1ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8723d1ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++
++	halbtc8723d1ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8723d1ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	u32	break_table;
++	u8	select_table;
++
++	coex_sta->coex_table_type = type;
++
++	if (coex_sta->concurrent_rx_mode_on == true) {
++		break_table = 0xf0ffffff;  /* set WL hi-pri can break BT */
++		select_table =
++			0xb;		/* set Tx response = Hi-Pri (ex: Transmitting ACK,BA,CTS) */
++	} else {
++		break_table = 0xffffff;
++		select_table = 0x3;
++	}
++
++	switch (type) {
++	case 0:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0x55555555, break_table,
++					   select_table);
++		break;
++	case 1:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0x5a5a5a5a, break_table,
++					   select_table);
++		break;
++	case 2:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0xaa5a5a5a, 0xaa5a5a5a, break_table,
++					   select_table);
++		break;
++	case 3:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0xaa555555, 0xaa5a5a5a, break_table,
++					   select_table);
++		break;
++	case 4:
++		halbtc8723d1ant_coex_table(btcoexist,
++					   force_exec, 0xaa555555, 0xaa5a5a5a,
++					   break_table, select_table);
++		break;
++	case 5:
++		halbtc8723d1ant_coex_table(btcoexist,
++					   force_exec, 0x5a5a5a5a, 0x5a5a5a5a,
++					   break_table, select_table);
++		break;
++	case 6:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 7:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0xaaaaaaaa, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 8:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 9:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 10:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 11:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 12:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 13:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0x5fff5fff, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 14:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0x5fff5fff, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 15:
++		halbtc8723d1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8723d1ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable)
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8723d1ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8723d1ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8723d1ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8723d1ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8723d1ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8723d1ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++	u8	h2c_parameter[5] = {0x8, 0, 0, 0, 0};
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			/*halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8); */
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			/*halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);*/
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8723d1ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		coex_sta->force_lps_on = false;
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++
++		break;
++	case BTC_PS_LPS_ON:
++		coex_sta->force_lps_on = true;
++		halbtc8723d1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8723d1ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++
++		break;
++	case BTC_PS_LPS_OFF:
++		coex_sta->force_lps_on = false;
++		halbtc8723d1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++
++		break;
++	default:
++		break;
++	}
++}
++
++
++void halbtc8723d1ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], FW for 1Ant AP mode\n");
++			BTC_TRACE(trace_buf);
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++
++			halbtc8723d1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++							 0x0);
++		}
++	} else if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++
++		halbtc8723d1ant_power_save_state(
++			btcoexist, BTC_PS_LPS_ON, 0x50,
++			0x4);
++	} else {
++		halbtc8723d1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++						 0x0);
++	}
++
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++
++void halbtc8723d1ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	boolean			wifi_busy = false;
++	u8			rssi_adjust_val = 0;
++	static u8			psTdmaByte4Modify = 0x0, pre_psTdmaByte4Modify = 0x0;
++	static boolean	 pre_wifi_busy = false;
++
++
++#if BT_8723D_1ANT_ANTDET_ENABLE
++#if BT_8723D_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE
++	if (board_info->btdm_ant_num_by_ant_det == 2) {
++		if (turn_on)
++			type = type +
++			       100; /* for WiFi RSSI low or BT RSSI low */
++	}
++
++#endif
++#endif
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (wifi_busy != pre_wifi_busy) {
++		force_exec = true;
++		pre_wifi_busy = wifi_busy;
++	}
++
++	/* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++	if ((bt_link_info->slave_role) && (bt_link_info->a2dp_exist))
++		psTdmaByte4Modify = 0x1;
++	else
++		psTdmaByte4Modify = 0x0;
++
++	if (pre_psTdmaByte4Modify != psTdmaByte4Modify) {
++
++		force_exec = true;
++		pre_psTdmaByte4Modify = psTdmaByte4Modify;
++	}
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++
++	if (coex_dm->cur_ps_tdma_on) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(on, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(off, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	}
++
++
++	if (turn_on)	{
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++	}
++
++
++	if (turn_on) {
++		switch (type) {
++		default:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x35, 0x03, 0x11, 0x11);
++			break;
++
++		case 3:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x3a, 0x03, 0x10, 0x10);
++			break;
++		case 4:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x21, 0x03, 0x10, 0x10);
++			break;
++		case 5:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x15, 0x03, 0x11, 0x11);
++			break;
++		case 6:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x20, 0x03, 0x11, 0x11);
++			break;
++		case 7:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x10, 0x03, 0x10,  0x14 | psTdmaByte4Modify);
++			break;
++		case 8:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x10, 0x03, 0x10,  0x14 | psTdmaByte4Modify);
++			break;
++		case 13:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x25, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 14:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x15, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 15:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x20, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 17:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++				0x61, 0x10, 0x03, 0x11,  0x14 | psTdmaByte4Modify);
++			break;
++		case 19:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x15, 0x03, 0x11, 0x10);
++			break;
++		case 20:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x30, 0x03, 0x11, 0x10);
++			break;
++		case 21:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x30, 0x03, 0x11, 0x10);
++			break;
++		case 22:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x25, 0x03, 0x11, 0x10);
++			break;
++		case 32:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x35, 0x03, 0x11, 0x11);
++			break;
++		case 33:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x35, 0x03, 0x11, 0x10);
++			break;
++
++		/*     1-Ant to 2-Ant      TDMA case */
++		case 103:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xd3, 0x3a, 0x03, 0x70, 0x10);
++			break;
++		case 104:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xd3, 0x21, 0x03, 0x70, 0x10);
++			break;
++		case 105:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x15, 0x03, 0x71, 0x11);
++			break;
++		case 106:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x20, 0x03, 0x71, 0x11);
++			break;
++		case 107:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++				0xd3, 0x10, 0x03, 0x70,  0x14 | psTdmaByte4Modify);
++			break;
++		case 108:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++				0xd3, 0x10, 0x03, 0x70,  0x14 | psTdmaByte4Modify);
++			break;
++		case 113:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++				0xd3, 0x25, 0x03, 0x70,  0x10 | psTdmaByte4Modify);
++			break;
++		case 114:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++				0xd3, 0x15, 0x03, 0x70,  0x10 | psTdmaByte4Modify);
++			break;
++		case 115:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++				0xd3, 0x20, 0x03, 0x70,  0x10 | psTdmaByte4Modify);
++			break;
++		case 117:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++				0xe3, 0x10, 0x03, 0x71,  0x14 | psTdmaByte4Modify);
++			break;
++		case 119:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x15, 0x03, 0x71, 0x10);
++			break;
++		case 120:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x30, 0x03, 0x71, 0x10);
++			break;
++		case 121:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x30, 0x03, 0x71, 0x10);
++			break;
++		case 122:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x25, 0x03, 0x71, 0x10);
++			break;
++		case 132:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x35, 0x03, 0x71, 0x11);
++			break;
++		case 133:
++			halbtc8723d1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x35, 0x03, 0x71, 0x10);
++			break;
++
++		}
++	} else {
++
++		/* disable PS tdma */
++		switch (type) {
++		case 8: /* PTA Control */
++			halbtc8723d1ant_set_fw_pstdma(btcoexist, 0x8,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 0:
++		default:  /* Software control, Antenna at BT side */
++			halbtc8723d1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 1: /* 2-Ant, 0x778=3, antenna control by antenna diversity */
++			halbtc8723d1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x48, 0x0);
++			break;
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++
++void halbtc8723d1ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean force_exec, IN boolean init_hwcfg,
++				  IN boolean wifi_off)
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++	u32			cnt_bt_cal_chk = 0;
++	boolean			is_in_mp_mode = false;
++	u8			u8tmp = 0;
++	u32			u32tmp1 = 0, u32tmp2 = 0, u32tmp3 = 0;
++	u16			u16tmp1 = 0;
++
++#if BT_8723D_1ANT_ANTDET_ENABLE
++#if BT_8723D_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE
++	if (ant_pos_type == BTC_ANT_PATH_PTA) {
++		if ((board_info->btdm_ant_det_finish) &&
++		    (board_info->btdm_ant_num_by_ant_det == 2)) {
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT)
++				ant_pos_type = BTC_ANT_PATH_WIFI;
++			else
++				ant_pos_type = BTC_ANT_PATH_BT;
++		}
++	}
++#endif
++#endif
++
++	coex_dm->cur_ant_pos_type = ant_pos_type;
++
++#if 1
++	u32tmp1 = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist,
++			0x38);
++	u32tmp2 = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist,
++			0x54);
++	u8tmp  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	u16tmp1 = btcoexist->btc_read_2byte(btcoexist, 0x948);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Before Ant Setup) 0x948 = 0x%x, 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++		    u16tmp1, u8tmp, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++#endif
++
++	if (init_hwcfg) {
++		/* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++		halbtc8723d1ant_ltecoex_enable(btcoexist, 0x0);
++
++		/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++		halbtc8723d1ant_ltecoex_set_coex_table(btcoexist,
++				       BT_8723D_1ANT_CTT_WL_VS_LTE, 0xffff);
++
++		/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++		halbtc8723d1ant_ltecoex_set_coex_table(btcoexist,
++				       BT_8723D_1ANT_CTT_BT_VS_LTE, 0xffff);
++
++		/* Wait If BT IQK running, because Path control owner is at BT during BT IQK (setup by WiFi firmware) */
++		while (cnt_bt_cal_chk <= 20) {
++			u8tmp = btcoexist->btc_read_1byte(btcoexist,
++							  0x49d);
++			cnt_bt_cal_chk++;
++			if (u8tmp & BIT(0)) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], ########### BT is calibrating (wait cnt=%d) ###########\n",
++					    cnt_bt_cal_chk);
++				BTC_TRACE(trace_buf);
++				delay_ms(50);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], ********** BT is NOT calibrating (wait cnt=%d)**********\n",
++					    cnt_bt_cal_chk);
++				BTC_TRACE(trace_buf);
++				break;
++			}
++		}
++
++		/* Set Path control to WL */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x80, 0x1);
++
++		/* set Path control owner to WL at initial step */
++		halbtc8723d1ant_ltecoex_pathcontrol_owner(btcoexist,
++				BT_8723D_1ANT_PCO_WLSIDE);
++
++		/* set GNT_BT to SW high */
++		halbtc8723d1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_1ANT_SIG_STA_SET_TO_HIGH);
++		/* Set GNT_WL to SW low */
++		halbtc8723d1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_1ANT_SIG_STA_SET_TO_LOW);
++
++		coex_sta->gnt_control_by_PTA = false;
++
++	} else if (wifi_off) {
++		/* Disable LTE Coex Function in WiFi side */
++		halbtc8723d1ant_ltecoex_enable(btcoexist, 0x0);
++
++		/* Set Path control to BT */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x80, 0x0);
++
++		/* set Path control owner to BT */
++		halbtc8723d1ant_ltecoex_pathcontrol_owner(btcoexist,
++				BT_8723D_1ANT_PCO_BTSIDE);
++
++		coex_sta->gnt_control_by_PTA = false;
++	} else {
++
++		halbtc8723d1ant_ltecoex_pathcontrol_owner(btcoexist,
++				BT_8723D_1ANT_PCO_WLSIDE);
++
++		/* set GNT_BT to PTA */
++		halbtc8723d1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_PTA,
++					   BT_8723D_1ANT_SIG_STA_SET_BY_HW);
++		/* Set GNT_WL to PTA */
++		halbtc8723d1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_PTA,
++					   BT_8723D_1ANT_SIG_STA_SET_BY_HW);
++
++		coex_sta->gnt_control_by_PTA = true;
++	}
++
++	if (force_exec ||
++	    (coex_dm->cur_ant_pos_type !=
++	     coex_dm->pre_ant_pos_type)) {
++		/* internal switch setting */
++		switch (ant_pos_type) {
++		case BTC_ANT_PATH_WIFI:
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT) {
++				u16tmp1 = btcoexist->btc_read_2byte(
++						  btcoexist, 0x948);
++				if ((u16tmp1 == 0x140) ||
++				    (u16tmp1 == 0x40))
++					btcoexist->btc_write_2byte(
++						btcoexist, 0x948,
++						u16tmp1);
++				else
++					btcoexist->btc_write_2byte(
++						btcoexist, 0x948, 0x0);
++			} else {
++				u16tmp1 = btcoexist->btc_read_2byte(
++						  btcoexist, 0x948);
++				if ((u16tmp1 == 0x140) ||
++				    (u16tmp1 == 0x40))
++					btcoexist->btc_write_2byte(
++						btcoexist, 0x948,
++						u16tmp1);
++				else
++					btcoexist->btc_write_2byte(
++						btcoexist, 0x948,
++						0x280);
++			}
++			break;
++		case BTC_ANT_PATH_BT:
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT) {
++				u16tmp1 = btcoexist->btc_read_2byte(
++						  btcoexist, 0x948);
++				if ((u16tmp1 == 0x140) ||
++				    (u16tmp1 == 0x40))
++					btcoexist->btc_write_2byte(
++						btcoexist, 0x948,
++						u16tmp1);
++				else
++					btcoexist->btc_write_2byte(
++						btcoexist, 0x948,
++						0x280);
++			} else {
++				u16tmp1 = btcoexist->btc_read_2byte(
++						  btcoexist, 0x948);
++				if ((u16tmp1 == 0x140) ||
++				    (u16tmp1 == 0x40))
++					btcoexist->btc_write_2byte(
++						btcoexist, 0x948,
++						u16tmp1);
++				else
++					btcoexist->btc_write_2byte(
++						btcoexist, 0x948, 0x0);
++			}
++			break;
++		default:
++		case BTC_ANT_PATH_PTA:
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT)
++				btcoexist->btc_write_2byte(
++					btcoexist, 0x948,
++					0x200);
++			else
++				btcoexist->btc_write_2byte(
++					btcoexist, 0x948, 0x80);
++			break;
++		}
++	}
++
++
++#if 1
++	u32tmp1 = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++	u16tmp1 = btcoexist->btc_read_2byte(btcoexist, 0x948);
++	u8tmp  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	if (init_hwcfg) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (After Ant-Setup Init) 0x948 = 0x%x, 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++			    u16tmp1, u8tmp, u32tmp1, u32tmp2);
++		BTC_TRACE(trace_buf);
++	} else if (wifi_off) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (After Ant-Setup WiFi off) 0x948 = 0x%x, 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++			    u16tmp1, u8tmp, u32tmp1, u32tmp2);
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (After Ant-Setup Run time) 0x948 = 0x%x, 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++			    u16tmp1, u8tmp, u32tmp1, u32tmp2);
++		BTC_TRACE(trace_buf);
++	}
++#endif
++
++	coex_dm->pre_ant_pos_type = coex_dm->cur_ant_pos_type;
++}
++
++
++boolean halbtc8723d1ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected &&
++	    BT_8723D_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++	    coex_dm->bt_status) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8723d1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		   (BT_8723D_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8723d1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8723D_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8723d1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		(BT_8723D_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8723d1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8723D_1ANT_BT_STATUS_CONNECTED_IDLE != coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non connected-idle + BT Busy!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8723d1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else {
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		}
++
++		common = false;
++	}
++
++	return common;
++}
++
++
++/* *********************************************
++ *
++ *	Software Coex Mechanism start
++ *
++ * ********************************************* */
++
++/* SCO only or SCO+PAN(HS) */
++
++/*
++void halbtc8723d1ant_action_sco(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8723d1ant_action_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8723d1ant_action_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8723d1ant_action_a2dp_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8723d1ant_action_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8723d1ant_action_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8723d1ant_action_pan_edr_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8723d1ant_action_pan_edr_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8723d1ant_action_hid_a2dp_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, true);
++}
++
++void halbtc8723d1ant_action_hid_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8723d1ant_sw_mechanism(btcoexist, true);
++}
++
++*/
++
++/* *********************************************
++ *
++ *	Non-Software Coex Mechanism start
++ *
++ * ********************************************* */
++void halbtc8723d1ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC,
++				     false, false);
++	halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8723d1ant_action_wifi_only(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723d1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, FORCE_EXEC,
++				     false, false);
++	halbtc8723d1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++}
++
++void halbtc8723d1ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC,
++				     false, false);
++	halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8723d1ant_action_hs(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++	halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8723d1ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_connected = false, ap_enable = false, wifi_busy = false,
++				bt_busy = false;
++	boolean	wifi_scan = false, wifi_link = false, wifi_roam = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &wifi_scan);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &wifi_link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &wifi_roam);
++
++	if ((wifi_link) || (wifi_roam) || (coex_sta->wifi_is_high_pri_task)) {
++
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++
++	} else if ((wifi_scan) && (coex_sta->bt_create_connection)) {
++
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++
++	} else if ((!wifi_connected) && (!wifi_scan)) {
++
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if ((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) {
++
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	} else if (bt_link_info->a2dp_exist) {
++
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (wifi_scan) {
++
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	} else if (wifi_busy) {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 21);
++
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 19);
++
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	}
++}
++
++void halbtc8723d1ant_action_bt_sco_hid_only_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	/* tdma and coex table */
++
++	if (bt_link_info->sco_exist) {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else { /* HID */
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	}
++}
++
++void halbtc8723d1ant_action_wifi_connected_bt_acl_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (bt_link_info->hid_only) { /* HID */
++		halbtc8723d1ant_action_bt_sco_hid_only_busy(btcoexist,
++				wifi_status);
++		coex_dm->auto_tdma_adjust = false;
++		return;
++	} else if (bt_link_info->a2dp_only) { /* A2DP		 */
++		if (BT_8723D_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status) {
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = false;
++		} else {
++
++			if (coex_sta->scan_ap_num >=
++			    BT_8723D_1ANT_WIFI_NOISY_THRESH)  {
++				halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++							17);
++			}	else {
++				halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++							7);
++			}
++
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = true;
++		}
++	} else if (((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) ||
++		   (bt_link_info->hid_exist && bt_link_info->a2dp_exist &&
++		bt_link_info->pan_exist)) { /* A2DP+PAN(OPP,FTP), HID+A2DP+PAN(OPP,FTP) */
++
++		if (wifi_busy)	{
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 15);
++			else
++				halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++		} else
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 14);
++
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++		coex_dm->auto_tdma_adjust = false;
++	} else if (bt_link_info->hid_exist &&
++		   bt_link_info->a2dp_exist) { /* HID+A2DP */
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 8);
++		coex_dm->auto_tdma_adjust = false;
++
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++	} else if ((bt_link_info->pan_only) || (bt_link_info->hid_exist &&
++		bt_link_info->pan_exist)) { /* PAN(OPP,FTP), HID+PAN(OPP,FTP)			 */
++		if (BT_8723D_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status)
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						4);
++		else
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++		coex_dm->auto_tdma_adjust = false;
++	} else {
++		/* BT no-profile busy (0x9) */
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	}
++}
++
++void halbtc8723d1ant_action_wifi_not_connected(IN struct btc_coexist *btcoexist)
++{
++	/* tdma and coex table */
++	halbtc8723d1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA, NORMAL_EXEC,
++				     false, false);
++	halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8723d1ant_action_wifi_not_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8723d1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8723d1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8723d1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8723d1ant_action_hs(btcoexist);
++		return;
++	}
++
++	/* tdma and coex table */
++	if (BT_8723D_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8723D_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8723D_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8723d1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8723D_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8723d1ant_action_wifi_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8723d1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8723d1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8723d1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8723d1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	/* tdma and coex table */
++	if (BT_8723D_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8723D_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8723D_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8723d1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8723D_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8723d1ant_action_wifi_not_connected_asso_auth(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8723d1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8723d1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8723d1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8723d1ant_action_hs(btcoexist);
++		return;
++	}
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist)  || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 2);
++	}
++}
++
++void halbtc8723d1ant_action_wifi_connected_specific_packet(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++	boolean wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8723d1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8723d1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8723d1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8723d1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	/* no specific packet process for both WiFi and BT very busy */
++	if ((wifi_busy) && ((bt_link_info->pan_exist) ||
++			    (coex_sta->num_of_profile >= 2)))
++		return;
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist)) {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else if (bt_link_info->a2dp_exist) {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     NORMAL_EXEC, false, false);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8723d1ant_action_wifi_connected(IN struct btc_coexist *btcoexist)
++{
++	boolean	wifi_busy = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean		under_4way = false, ap_enable = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], CoexForWifiConnect()===>\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (under_4way) {
++		halbtc8723d1ant_action_wifi_connected_specific_packet(btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 4way<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++	if (scan || link || roam) {
++		if (scan)
++			halbtc8723d1ant_action_wifi_connected_scan(btcoexist);
++		else
++			halbtc8723d1ant_action_wifi_connected_specific_packet(
++				btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under scan<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++
++	/* tdma and coex table */
++	if (!wifi_busy) {
++		if (BT_8723D_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8723d1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8723D_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else if ((BT_8723D_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8723D_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8723d1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8723D_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else {
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++			halbtc8723d1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_PTA, NORMAL_EXEC, false, false);
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++		}
++	} else {
++		if (BT_8723D_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8723d1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8723D_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else if ((BT_8723D_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8723D_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8723d1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8723D_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else {
++			/* halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8); */
++			halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8723d1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_PTA, NORMAL_EXEC, false, false);
++			/* halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);	 */
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	}
++}
++
++void halbtc8723d1ant_run_sw_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8				algorithm = 0;
++
++	algorithm = halbtc8723d1ant_action_algorithm(btcoexist);
++	coex_dm->cur_algorithm = algorithm;
++
++	if (halbtc8723d1ant_is_common_action(btcoexist)) {
++
++	} else {
++		switch (coex_dm->cur_algorithm) {
++		case BT_8723D_1ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_sco(btcoexist); */
++			break;
++		case BT_8723D_1ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_hid(btcoexist); */
++			break;
++		case BT_8723D_1ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_a2dp(btcoexist); */
++			break;
++		case BT_8723D_1ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_a2dp_pan_hs(btcoexist); */
++			break;
++		case BT_8723D_1ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_pan_edr(btcoexist); */
++			break;
++		case BT_8723D_1ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_pan_hs(btcoexist); */
++			break;
++		case BT_8723D_1ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_pan_edr_a2dp(btcoexist); */
++			break;
++		case BT_8723D_1ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_pan_edr_hid(btcoexist); */
++			break;
++		case BT_8723D_1ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_hid_a2dp_pan_edr(btcoexist); */
++			break;
++		case BT_8723D_1ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_action_hid_a2dp(btcoexist); */
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8723d1ant_coex_all_off(btcoexist); */
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++
++void halbtc8723d1ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false, bt_hs_on = false;
++	boolean	increase_scan_dev_num = false;
++	boolean	bt_ctrl_agg_buf_size = false;
++	boolean	miracast_plus_bt = false;
++	u8	agg_buf_size = 5;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0, wifi_bw;
++	u8	iot_peer = BTC_IOT_PEER_UNKNOWN;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723d1ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	if (coex_sta->bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is disabled !!!\n");
++		halbtc8723d1ant_action_wifi_only(btcoexist);
++		return;
++	}
++
++	if ((BT_8723D_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8723D_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8723D_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		increase_scan_dev_num = true;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_INC_SCAN_DEV_NUM,
++			   &increase_scan_dev_num);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist) {
++			halbtc8723d1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1,
++						   0, 1);
++			miracast_plus_bt = true;
++		} else {
++			halbtc8723d1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++			miracast_plus_bt = false;
++		}
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8723d1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8723d1ant_action_wifi_multi_port(btcoexist);
++
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if ((bt_link_info->bt_link_exist) && (wifi_connected)) {
++		halbtc8723d1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1, 0, 1);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_IOT_PEER, &iot_peer);
++
++		if (BTC_IOT_PEER_CISCO != iot_peer) {
++			if (bt_link_info->sco_exist) /* if (bt_link_info->bt_hi_pri_link_exist) */
++				halbtc8723d1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, true, false, 0x5);
++			else
++				halbtc8723d1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, false, false, 0x5);
++		} else {
++			if (bt_link_info->sco_exist)
++				halbtc8723d1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, true, false, 0x5);
++			else {
++				if (BTC_WIFI_BW_HT40 == wifi_bw)
++					halbtc8723d1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x10);
++				else
++					halbtc8723d1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x8);
++			}
++		}
++
++		halbtc8723d1ant_sw_mechanism(btcoexist, true);
++		halbtc8723d1ant_run_sw_coexist_mechanism(
++			btcoexist);  /* just print debug message */
++	} else {
++		halbtc8723d1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++		halbtc8723d1ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x5);
++
++		halbtc8723d1ant_sw_mechanism(btcoexist, false);
++		halbtc8723d1ant_run_sw_coexist_mechanism(
++			btcoexist); /* just print debug message */
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "############# [BTCoex],  BT Is Inquirying\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723d1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8723d1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	if (!wifi_connected) {
++		boolean	scan = false, link = false, roam = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is non connected-idle !!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (scan || link || roam) {
++			if (scan)
++				halbtc8723d1ant_action_wifi_not_connected_scan(
++					btcoexist);
++			else
++				halbtc8723d1ant_action_wifi_not_connected_asso_auth(
++					btcoexist);
++		} else
++			halbtc8723d1ant_action_wifi_not_connected(btcoexist);
++	} else	/* wifi LPS/Busy */
++		halbtc8723d1ant_action_wifi_connected(btcoexist);
++}
++
++void halbtc8723d1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++
++	/* sw all off */
++	halbtc8723d1ant_sw_mechanism(btcoexist, false);
++
++	coex_sta->pop_event_cnt = 0;
++}
++
++void halbtc8723d1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up, IN boolean wifi_only)
++{
++	u32			u32tmp1 = 0, u32tmp2 = 0;
++	u16			u16tmp1 = 0;
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++
++
++	u16tmp1 = btcoexist->btc_read_2byte(btcoexist, 0x948);
++	u32tmp1 = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Before Init HW config) 0x948= 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++		    u16tmp1, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 1Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	/* 0xf0[15:12] --> Chip Cut information */
++	coex_sta->cut_version = (btcoexist->btc_read_1byte(btcoexist,
++				 0xf1) & 0xf0) >> 4;
++
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++
++	/* BT report packet sample rate	 */
++	btcoexist->btc_write_1byte(btcoexist, 0x790, 0x5);
++
++	/* Init 0x778 = 0x1 for 1-Ant */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++
++	/* Enable PTA (3-wire function form BT side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x41, 0x02, 0x1);
++
++	/* Enable PTA (tx/rx signal form WiFi side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4c6, 0x10, 0x1);
++
++	halbtc8723d1ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++	/* check if WL firmware download ok */
++	if (btcoexist->btc_read_1byte(btcoexist, 0x80) == 0xc6)
++		halbtc8723d1ant_post_onoffstate_to_bt(btcoexist, true);
++
++	halbtc8723d1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++
++	/* Antenna config */
++	if (wifi_only) {
++		coex_sta->concurrent_rx_mode_on = false;
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_WIFI,
++					     FORCE_EXEC, true, false);
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_WIFI,
++					     FORCE_EXEC, false, false);
++	} else {
++		coex_sta->concurrent_rx_mode_on = true;
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x953, 0x2, 0x1);
++		/* RF 0x1[0] = 0->Set GNT_WL_RF_Rx always = 1 for con-current Rx */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0x1, 0x0);
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, true, false);
++
++		if (board_info->btdm_ant_pos ==
++		    BTC_ANTENNA_AT_MAIN_PORT) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], **********  Single Antenna, Antenna at Main Port: S1**********\n");
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], **********  Single Antenna, Antenna at Aux Port: S0**********\n");
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	/* PTA parameter */
++	halbtc8723d1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	psd_scan->ant_det_is_ant_det_available = TRUE;
++
++}
++
++u32 halbtc8723d1ant_psd_log2base(IN struct btc_coexist *btcoexist, IN u32 val)
++{
++	u8	j;
++	u32	tmp, tmp2, val_integerd_b = 0, tindex, shiftcount = 0;
++	u32	result, val_fractiond_b = 0, table_fraction[21] = {0, 432, 332, 274, 232, 200,
++				   174, 151, 132, 115, 100, 86, 74, 62, 51, 42,
++							   32, 23, 15, 7, 0
++							      };
++
++	if (val == 0)
++		return 0;
++
++	tmp = val;
++
++	while (1) {
++		if (tmp == 1)
++			break;
++		else {
++			tmp = (tmp >> 1);
++			shiftcount++;
++		}
++	}
++
++
++	val_integerd_b = shiftcount + 1;
++
++	tmp2 = 1;
++	for (j = 1; j <= val_integerd_b; j++)
++		tmp2 = tmp2 * 2;
++
++	tmp = (val * 100) / tmp2;
++	tindex = tmp / 5;
++
++	if (tindex > 20)
++		tindex = 20;
++
++	val_fractiond_b = table_fraction[tindex];
++
++	result = val_integerd_b * 100 - val_fractiond_b;
++
++	return result;
++
++
++}
++
++void halbtc8723d1ant_psd_show_antenna_detect_result(IN struct btc_coexist
++		*btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n============[Antenna Detection info]  ============\n");
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 1)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (>%d)",
++			   "Ant Det Result", "2-Antenna (Bad-Isolation)",
++			   BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else if (psd_scan->ant_det_result == 2)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "2-Antenna (Good-Isolation)",
++			   BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset,
++			   BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "1-Antenna",
++			   BT_8723D_1ANT_ANTDET_PSDTHRES_1ANT,
++			   BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset);
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s ",
++		   "Antenna Detection Finish",
++		   (board_info->btdm_ant_det_finish
++		    ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	switch (psd_scan->ant_det_result) {
++	case 0:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not available)");
++		break;
++	case 1:  /* 2-Ant bad-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 2:  /* 2-Ant good-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 3:  /* 1-Ant */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 4:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Uncertainty result)");
++		break;
++	case 5:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "(Pre-Scan fai)");
++		break;
++	case 6:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(WiFi is Scanning)");
++		break;
++	case 7:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not idle)");
++		break;
++	case 8:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Abort by WiFi Scanning)");
++		break;
++	case 9:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Antenna Init is not ready)");
++		break;
++	case 10:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Inquiry or page)");
++		break;
++	case 11:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Disabled)");
++		break;
++	}
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Total Count", psd_scan->ant_det_try_count);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Fail Count", psd_scan->ant_det_fail_count);
++	CL_PRINTF(cli_buf);
++
++	if ((!board_info->btdm_ant_det_finish) &&
++	    (psd_scan->ant_det_result != 5))
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "BT Response",
++		   (psd_scan->ant_det_result ? "ok" : "fail"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ms", "BT Tx Time",
++		   psd_scan->ant_det_bt_tx_time);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "BT Tx Ch",
++		   psd_scan->ant_det_bt_le_channel);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d",
++		   "WiFi PSD Cent-Ch/Offset/Span",
++		   psd_scan->real_cent_freq, psd_scan->real_offset,
++		   psd_scan->real_span);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d dB",
++		   "PSD Pre-Scan Peak Value",
++		   psd_scan->ant_det_pre_psdscan_peak_val / 100);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (<= %d)",
++		   "PSD Pre-Scan result",
++		   (psd_scan->ant_det_result != 5 ? "ok" : "fail"),
++		   BT_8723D_1ANT_ANTDET_PSDTHRES_BACKGROUND
++		   + psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 5)
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s dB",
++		   "PSD Scan Peak Value", psd_scan->ant_det_peak_val);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s MHz",
++		   "PSD Scan Peak Freq", psd_scan->ant_det_peak_freq);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "TFBGA Package",
++		   (board_info->tfbga_package) ?  "Yes" : "No");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "PSD Threshold Offset", psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++}
++
++
++
++void halbtc8723d1ant_psd_showdata(IN struct btc_coexist *btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	u32		delta_freq_per_point;
++	u32		freq, freq1, freq2, n = 0, i = 0, j = 0, m = 0, psd_rep1, psd_rep2;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n\n============[PSD info]  (%d)============\n",
++		   psd_scan->psd_gen_count);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->psd_gen_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n No data !!\n");
++		CL_PRINTF(cli_buf);
++		return;
++	}
++
++	if (psd_scan->psd_point == 0)
++		delta_freq_per_point = 0;
++	else
++		delta_freq_per_point = psd_scan->psd_band_width /
++				       psd_scan->psd_point;
++
++	/* if (psd_scan->is_psd_show_max_only) */
++	if (0) {
++		psd_rep1 = psd_scan->psd_max_value / 100;
++		psd_rep2 = psd_scan->psd_max_value - psd_rep1 * 100;
++
++		freq = ((psd_scan->real_cent_freq - 20) * 1000000 +
++			psd_scan->psd_max_value_point * delta_freq_per_point);
++		freq1 = freq / 1000000;
++		freq2 = freq / 1000 - freq1 * 1000;
++
++		if (freq2 < 100)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.0%d MHz",
++				   freq1, freq2);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.%d MHz",
++				   freq1, freq2);
++
++		if (psd_rep2 < 10)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.0%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++
++		CL_PRINTF(cli_buf);
++	} else {
++		m = psd_scan->psd_start_point;
++		n = psd_scan->psd_start_point;
++		i = 1;
++		j = 1;
++
++		while (1) {
++			do {
++				freq = ((psd_scan->real_cent_freq - 20) * 1000000 + m *
++					delta_freq_per_point);
++				freq1 = freq / 1000000;
++				freq2 = freq / 1000 - freq1 * 1000;
++
++				if (i == 1) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.0%2d", freq1,
++							   freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.%3d", freq1,
++							   freq2);
++				} else if ((i % 8 == 0) ||
++					   (m == psd_scan->psd_stop_point)) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000\n", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d\n", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d\n", freq1, freq2);
++				} else {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d", freq1, freq2);
++				}
++
++				i++;
++				m++;
++				CL_PRINTF(cli_buf);
++
++			} while ((i <= 8) && (m <= psd_scan->psd_stop_point));
++
++
++			do {
++				psd_rep1 = psd_scan->psd_report_max_hold[n] / 100;
++				psd_rep2 = psd_scan->psd_report_max_hold[n] - psd_rep1 *
++					   100;
++
++				if (j == 1) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.0%d", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.%d", psd_rep1,
++							   psd_rep2);
++				} else if ((j % 8 == 0)  ||
++					   (n == psd_scan->psd_stop_point)) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d\n", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d\n", psd_rep1, psd_rep2);
++				} else {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d", psd_rep1, psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d", psd_rep1, psd_rep2);
++				}
++
++				j++;
++				n++;
++				CL_PRINTF(cli_buf);
++
++			} while ((j <= 8) && (n <= psd_scan->psd_stop_point));
++
++			if ((m > psd_scan->psd_stop_point) ||
++			    (n > psd_scan->psd_stop_point))
++				break;
++			else {
++				i = 1;
++				j = 1;
++			}
++
++		}
++	}
++
++
++}
++
++void halbtc8723d1ant_psd_maxholddata(IN struct btc_coexist *btcoexist,
++				     IN u32 gen_count)
++{
++	u32	i = 0, i_max = 0, val_max = 0;
++
++	if (gen_count == 1) {
++		memcpy(psd_scan->psd_report_max_hold,
++		       psd_scan->psd_report,
++		       BT_8723D_1ANT_ANTDET_PSD_POINTS * sizeof(u32));
++
++		for (i = psd_scan->psd_start_point;
++		     i <= psd_scan->psd_stop_point; i++) {
++
++		}
++
++		psd_scan->psd_max_value_point = 0;
++		psd_scan->psd_max_value = 0;
++
++	} else {
++		for (i = psd_scan->psd_start_point;
++		     i <= psd_scan->psd_stop_point; i++) {
++			if (psd_scan->psd_report[i] >
++			    psd_scan->psd_report_max_hold[i])
++				psd_scan->psd_report_max_hold[i] =
++					psd_scan->psd_report[i];
++
++			/* search Max Value */
++			if (i == psd_scan->psd_start_point) {
++				i_max = i;
++				val_max = psd_scan->psd_report_max_hold[i];
++			} else {
++				if (psd_scan->psd_report_max_hold[i] >
++				    val_max) {
++					i_max = i;
++					val_max = psd_scan->psd_report_max_hold[i];
++				}
++			}
++
++
++		}
++
++		psd_scan->psd_max_value_point = i_max;
++		psd_scan->psd_max_value = val_max;
++
++	}
++
++
++}
++
++u32 halbtc8723d1ant_psd_getdata(IN struct btc_coexist *btcoexist, IN u32 point)
++{
++	/* reg 0x808[9:0]: FFT data x */
++	/* reg 0x808[22]: 0-->1 to get 1 FFT data y */
++	/* reg 0x8b4[15:0]: FFT data y report */
++
++	u32 val = 0, psd_report = 0;
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++
++	val &= 0xffbffc00;
++	val |= point;
++
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	val |= 0x00400000;
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x8b4);
++
++	psd_report = val & 0x0000ffff;
++
++	return psd_report;
++}
++
++
++boolean halbtc8723d1ant_psd_sweep_point(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN s32 offset, IN u32 span, IN u32 points,
++					IN u32 avgnum, IN u32 loopcnt)
++{
++	u32	 i = 0, val = 0, n = 0, k = 0, j, point_index = 0;
++	u32	points1 = 0, psd_report = 0;
++	u32	start_p = 0, stop_p = 0, delta_freq_per_point = 156250;
++	u32    psd_center_freq = 20 * 10 ^ 6;
++	boolean outloop = false, scan , roam, is_sweep_ok = true;
++	u8	 flag = 0;
++	u32	tmp = 0, u32tmp1 = 0;
++	u32	wifi_original_channel = 1;
++
++	psd_scan->is_psd_running = true;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Start!!\n");
++	BTC_TRACE(trace_buf);
++
++	do {
++		switch (flag) {
++		case 0:  /* Get PSD parameters */
++		default:
++
++			psd_scan->psd_band_width = 40 * 1000000;
++			psd_scan->psd_point = points;
++			psd_scan->psd_start_base = points / 2;
++			psd_scan->psd_avg_num = avgnum;
++			psd_scan->real_cent_freq = cent_freq;
++			psd_scan->real_offset = offset;
++			psd_scan->real_span = span;
++
++
++			points1 = psd_scan->psd_point;
++			delta_freq_per_point = psd_scan->psd_band_width /
++					       psd_scan->psd_point;
++
++			/* PSD point setup */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffff0fff;
++
++			switch (psd_scan->psd_point) {
++			case 128:
++				val |= 0x0;
++				break;
++			case 256:
++			default:
++				val |= 0x00004000;
++				break;
++			case 512:
++				val |= 0x00008000;
++				break;
++			case 1024:
++				val |= 0x0000c000;
++				break;
++			}
++
++			switch (psd_scan->psd_avg_num) {
++			case 1:
++				val |= 0x0;
++				break;
++			case 8:
++				val |= 0x00001000;
++				break;
++			case 16:
++				val |= 0x00002000;
++				break;
++			case 32:
++			default:
++				val |= 0x00003000;
++				break;
++			}
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			flag = 1;
++			break;
++		case 1:	  /* calculate the PSD point index from freq/offset/span */
++			psd_center_freq = psd_scan->psd_band_width / 2 +
++					  offset * (1000000);
++
++			start_p = psd_scan->psd_start_base + (psd_center_freq -
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_start_point = start_p -
++						    psd_scan->psd_start_base;
++
++			stop_p = psd_scan->psd_start_base + (psd_center_freq +
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_stop_point = stop_p -
++						   psd_scan->psd_start_base - 1;
++
++			flag = 2;
++			break;
++		case 2:  /* set RF channel/BW/Mode */
++
++			/* set 3-wire off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val |= 0x00300000;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val &= 0xfeffffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause on */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x6f);
++
++			/* store WiFi original channel */
++			wifi_original_channel = btcoexist->btc_get_rf_reg(
++					btcoexist, BTC_RF_A, 0x18, 0x3ff);
++
++			/* Set RF channel */
++			if (cent_freq == 2484)
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++							  0x18, 0x3ff, 0xe);
++			else
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++					  0x18, 0x3ff, (cent_freq - 2412) / 5 +
++						  1); /* WiFi TRx Mask on */
++
++			/* save original RCK value */
++			u32tmp1 =  btcoexist->btc_get_rf_reg(
++					   btcoexist, BTC_RF_A, 0x1d, 0xfffff);
++
++			/* Enter debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x1);
++
++			/* Set RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, 0x2e);
++
++
++			/* Set  RF mode = Rx, RF Gain = 0x320a0 */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x0,
++						  0xfffff, 0x320a0);
++
++			while (1) {
++				if (k++ > BT_8723D_1ANT_ANTDET_SWEEPPOINT_DELAY)
++					break;
++			}
++			flag = 3;
++			break;
++		case 3:
++			psd_scan->psd_gen_count = 0;
++			for (j = 1; j <= loopcnt; j++) {
++
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_SCAN, &scan);
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_ROAM, &roam);
++
++				if (scan || roam) {
++					is_sweep_ok = false;
++					break;
++				}
++				memset(psd_scan->psd_report, 0,
++				       psd_scan->psd_point * sizeof(u32));
++				start_p = psd_scan->psd_start_point +
++					  psd_scan->psd_start_base;
++				stop_p = psd_scan->psd_stop_point +
++					 psd_scan->psd_start_base + 1;
++
++				i = start_p;
++				point_index = 0;
++
++				while (i < stop_p) {
++					if (i >= points1)
++						psd_report =
++							halbtc8723d1ant_psd_getdata(
++							btcoexist, i - points1);
++					else
++						psd_report =
++							halbtc8723d1ant_psd_getdata(
++								btcoexist, i);
++
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"Point=%d, psd_raw_data = 0x%08x\n",
++						    i, psd_report);
++					BTC_TRACE(trace_buf);
++					if (psd_report == 0)
++						tmp = 0;
++					else
++						/* tmp =  20*log10((double)psd_report); */
++						/* 20*log2(x)/log2(10), log2Base return theresult of the psd_report*100 */
++						tmp = 6 * halbtc8723d1ant_psd_log2base(
++							btcoexist, psd_report);
++
++					n = i - psd_scan->psd_start_base;
++					psd_scan->psd_report[n] =  tmp;
++
++
++					halbtc8723d1ant_psd_maxholddata(
++						btcoexist, j);
++
++					i++;
++
++				}
++
++				psd_scan->psd_gen_count = j;
++			}
++
++			flag = 100;
++			break;
++		case 99:	/* error */
++
++			outloop = true;
++			break;
++		case 100: /* recovery */
++
++			/* set 3-wire on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val &= 0xffcfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val |= 0x01000000;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause off */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x0);
++
++			/* PSD off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffbfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			/* restore RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, u32tmp1);
++
++			/* Exit debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x0);
++
++			/* restore WiFi original channel */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x18,
++						  0x3ff, wifi_original_channel);
++
++			outloop = true;
++			break;
++
++		}
++
++	} while (!outloop);
++
++
++
++	psd_scan->is_psd_running = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Stop!!\n");
++	BTC_TRACE(trace_buf);
++	return is_sweep_ok;
++
++}
++
++
++void halbtc8723d1ant_psd_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 bt_tx_time, IN u32 bt_le_channel)
++{
++	u32	i = 0;
++	u32	wlpsd_cent_freq = 2484, wlpsd_span = 2, wlpsd_sweep_count = 50;
++	s32	wlpsd_offset = -4;
++	u8	bt_le_ch[13] = {3, 6, 8, 11, 13, 16, 18, 21, 23, 26, 28, 31, 33};
++
++	u8	h2c_parameter[3] = {0}, u8tmpa, u8tmpb;
++
++	u8	state = 0;
++	boolean		outloop = false, bt_resp = false;
++	u32		freq, freq1, freq2, psd_rep1, psd_rep2, delta_freq_per_point,
++			u32tmp, u32tmp0, u32tmp1, u32tmp2;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	board_info->btdm_ant_det_finish = false;
++	memset(psd_scan->ant_det_peak_val, 0, 16 * sizeof(u8));
++	memset(psd_scan->ant_det_peak_freq, 0, 16 * sizeof(u8));
++
++	if (board_info->tfbga_package) /* for TFBGA */
++		psd_scan->ant_det_thres_offset = 5;
++	else
++		psd_scan->ant_det_thres_offset = 0;
++
++	do {
++		switch (state) {
++		case 0:
++			if (bt_le_channel == 39)
++				wlpsd_cent_freq = 2484;
++			else {
++				for (i = 1; i <= 13; i++) {
++					if (bt_le_ch[i - 1] ==
++					    bt_le_channel) {
++						wlpsd_cent_freq = 2412
++								  + (i - 1) * 5;
++						break;
++					}
++				}
++
++				if (i == 14) {
++
++					BTC_SPRINTF(trace_buf,
++						    BT_TMP_BUF_SIZE,
++						"xxxxxxxxxxxxxxxx AntennaDetect(), Abort!!, Invalid LE channel = %d\n ",
++						    bt_le_channel);
++					BTC_TRACE(trace_buf);
++					outloop = true;
++					break;
++				}
++			}
++
++			wlpsd_sweep_count = bt_tx_time * 238 /
++					    100; /* bt_tx_time/0.42								 */
++			wlpsd_sweep_count = wlpsd_sweep_count / 5;
++
++			if (wlpsd_sweep_count % 5 != 0)
++				wlpsd_sweep_count = (wlpsd_sweep_count /
++						     5 + 1) * 5;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), BT_LETxTime=%d,  BT_LECh = %d\n",
++				    bt_tx_time, bt_le_channel);
++			BTC_TRACE(trace_buf);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), wlpsd_cent_freq=%d,  wlpsd_offset = %d, wlpsd_span = %d, wlpsd_sweep_count = %d\n",
++				    wlpsd_cent_freq,
++				    wlpsd_offset,
++				    wlpsd_span,
++				    wlpsd_sweep_count);
++			BTC_TRACE(trace_buf);
++
++			state = 1;
++			break;
++		case 1: /* stop coex DM & set antenna path */
++			/* Stop Coex DM */
++			btcoexist->stop_coex_dm = true;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stop Coex DM!!\n");
++			BTC_TRACE(trace_buf);
++
++			/* Set TDMA off,				 */
++			halbtc8723d1ant_ps_tdma(btcoexist, FORCE_EXEC,
++						false, 0);
++
++			/* Set coex table */
++			halbtc8723d1ant_coex_table_with_type(btcoexist,
++							     FORCE_EXEC, 0);
++
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Main Port\n");
++				BTC_TRACE(trace_buf);
++
++				/* Set Antenna path, switch WiFi to un-certain antenna port */
++				halbtc8723d1ant_set_ant_path(btcoexist,
++					     BTC_ANT_PATH_BT, FORCE_EXEC, false,
++							     false);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Aux Port\n");
++				BTC_TRACE(trace_buf);
++
++				/* Set Antenna path, switch WiFi to un-certain antenna port */
++				halbtc8723d1ant_set_ant_path(btcoexist,
++					BTC_ANT_PATH_WIFI, FORCE_EXEC, false,
++							     false);
++			}
++
++
++
++
++			/* Set Antenna Path,  both GNT_WL/GNT_BT = 1, and control by SW */
++			/* set GNT_BT to SW high */
++			halbtc8723d1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_1ANT_SIG_STA_SET_TO_HIGH);
++			/* Set GNT_WL to SW high */
++			halbtc8723d1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_1ANT_SIG_STA_SET_TO_HIGH);
++
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to BT!!\n");
++			BTC_TRACE(trace_buf);
++
++			/* Set AFH mask on at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x1;
++			h2c_parameter[1] = 0xd;
++			h2c_parameter[2] = 0x14;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1],
++				    h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			u32tmp0 = btcoexist->btc_read_4byte(btcoexist, 0x70);
++			u32tmp1 = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++			u32tmp2 = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], ********** 0x70 = 0x%x, 0x38= 0x%x, 0x54= 0x%x (Before Ant Det) **********\n",
++				    u32tmp0, u32tmp1, u32tmp2);
++			BTC_TRACE(trace_buf);
++
++			state = 2;
++			break;
++		case 2:	/* Pre-sweep background psd */
++			if (!halbtc8723d1ant_psd_sweep_point(btcoexist,
++				     wlpsd_cent_freq, wlpsd_offset, wlpsd_span,
++					     BT_8723D_1ANT_ANTDET_PSD_POINTS,
++				     BT_8723D_1ANT_ANTDET_PSD_AVGNUM, 3)) {
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++			psd_scan->ant_det_pre_psdscan_peak_val =
++				psd_scan->psd_max_value;
++
++			if (psd_scan->psd_max_value >
++			    (BT_8723D_1ANT_ANTDET_PSDTHRES_BACKGROUND
++			     + psd_scan->ant_det_thres_offset) * 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Abort Antenna Detection!! becaus background = %d > thres (%d)\n",
++					    psd_scan->psd_max_value / 100,
++					BT_8723D_1ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 5;
++				state = 99;
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Start Antenna Detection!! becaus background = %d <= thres (%d)\n",
++					    psd_scan->psd_max_value / 100,
++					BT_8723D_1ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				state = 3;
++			}
++			break;
++		case 3:
++
++			bt_resp = btcoexist->btc_set_bt_ant_detection(
++					  btcoexist, (u8)(bt_tx_time & 0xff),
++					  (u8)(bt_le_channel & 0xff));
++
++			if (!halbtc8723d1ant_psd_sweep_point(btcoexist,
++					     wlpsd_cent_freq, wlpsd_offset,
++							     wlpsd_span,
++					     BT_8723D_1ANT_ANTDET_PSD_POINTS,
++					     BT_8723D_1ANT_ANTDET_PSD_AVGNUM,
++						     wlpsd_sweep_count)) {
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++			psd_scan->ant_det_psd_scan_peak_val =
++				psd_scan->psd_max_value;
++			psd_scan->ant_det_psd_scan_peak_freq =
++				psd_scan->psd_max_value_point;
++			state = 4;
++			break;
++		case 4:
++
++			if (psd_scan->psd_point == 0)
++				delta_freq_per_point = 0;
++			else
++				delta_freq_per_point =
++					psd_scan->psd_band_width /
++					psd_scan->psd_point;
++
++			psd_rep1 = psd_scan->psd_max_value / 100;
++			psd_rep2 = psd_scan->psd_max_value - psd_rep1 *
++				   100;
++
++			freq = ((psd_scan->real_cent_freq - 20) *
++				1000000 + psd_scan->psd_max_value_point
++				* delta_freq_per_point);
++			freq1 = freq / 1000000;
++			freq2 = freq / 1000 - freq1 * 1000;
++
++			if (freq2 < 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.0%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8723D_1ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", freq1, freq2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8723D_1ANT_ANTDET_BUF_LEN,
++					   "%d.%d", freq1, freq2);
++			}
++
++			if (psd_rep2 < 10) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.0%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8723D_1ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", psd_rep1, psd_rep2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8723D_1ANT_ANTDET_BUF_LEN,
++					   "%d.%d", psd_rep1, psd_rep2);
++			}
++
++			psd_scan->ant_det_is_btreply_available = true;
++
++			if (bt_resp == false) {
++				psd_scan->ant_det_is_btreply_available =
++					false;
++				psd_scan->ant_det_result = 0;
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), BT Response = Fail\n ");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				(BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION)
++				   * 100) {
++				psd_scan->ant_det_result = 1;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Bad-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				(BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++				    + psd_scan->ant_det_thres_offset) * 100) {
++				psd_scan->ant_det_result = 2;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Good-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				   (BT_8723D_1ANT_ANTDET_PSDTHRES_1ANT) *
++				   100) {
++				psd_scan->ant_det_result = 3;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant!!\n");
++				BTC_TRACE(trace_buf);
++			} else {
++				psd_scan->ant_det_result = 4;
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant, un-certainity!!\n");
++				BTC_TRACE(trace_buf);
++			}
++
++			state = 99;
++			break;
++		case 99:  /* restore setup */
++
++			/* Set AFH mask off at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x0;
++			h2c_parameter[1] = 0x0;
++			h2c_parameter[2] = 0x0;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1], h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			/* Set Antenna Path, GNT_WL/GNT_BT control by PTA */
++			halbtc8723d1ant_set_ant_path(btcoexist,
++				     BTC_ANT_PATH_PTA, FORCE_EXEC, false,
++						     false);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to PTA\n!!");
++			BTC_TRACE(trace_buf);
++
++			/* Resume Coex DM */
++			btcoexist->stop_coex_dm = false;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Resume Coex DM\n!!");
++			BTC_TRACE(trace_buf);
++
++			/* stimulate coex running */
++			halbtc8723d1ant_run_coexist_mechanism(
++				btcoexist);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stimulate Coex running\n!!");
++			BTC_TRACE(trace_buf);
++
++			outloop = true;
++			break;
++		}
++
++	} while (!outloop);
++
++
++
++}
++
++void halbtc8723d1ant_psd_antenna_detection_check(IN struct btc_coexist
++		*btcoexist)
++{
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	boolean scan, roam;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++
++	/* psd_scan->ant_det_bt_tx_time = 20; */
++	psd_scan->ant_det_bt_tx_time =
++		BT_8723D_1ANT_ANTDET_BTTXTIME;	   /* 0.42ms*50 = 20ms (0.42ms = 1 PSD sweep) */
++	psd_scan->ant_det_bt_le_channel = BT_8723D_1ANT_ANTDET_BTTXCHANNEL;
++
++	ant_det_count++;
++
++	psd_scan->ant_det_try_count = ant_det_count;
++
++	if (scan || roam) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 6;
++	} else if (coex_sta->bt_disabled) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 11;
++	} else if (coex_sta->num_of_profile >= 1) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 7;
++	} else if (
++		!psd_scan->ant_det_is_ant_det_available) { /* Antenna initial setup is not ready */
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 9;
++	} else if (coex_sta->c2h_bt_inquiry_page) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 10;
++	} else {
++
++		btcoexist->stop_coex_dm = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"xxxxxxxxxxxxxxxx AntennaDetect(), Stop Coex DM!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d1ant_psd_antenna_detection(btcoexist,
++					      psd_scan->ant_det_bt_tx_time,
++					      psd_scan->ant_det_bt_le_channel);
++
++		delay_ms(psd_scan->ant_det_bt_tx_time);
++
++		btcoexist->stop_coex_dm = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"xxxxxxxxxxxxxxxx AntennaDetect(), Resume Coex DM\n!!");
++		BTC_TRACE(trace_buf);
++
++		/* stimulate coex running */
++		/*
++		halbtc8723d1ant_run_coexist_mechanism(
++				btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stimulate Coex running\n!!");
++		BTC_TRACE(trace_buf);
++		*/
++	}
++
++	if (!board_info->btdm_ant_det_finish)
++		ant_det_fail_count++;
++
++	psd_scan->ant_det_fail_count = ant_det_fail_count;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx AntennaDetect(), result = %d, fail_count = %d, finish = %s\n",
++		    psd_scan->ant_det_result,
++		    psd_scan->ant_det_fail_count,
++		    board_info->btdm_ant_det_finish == TRUE ? "Yes" : "No");
++	BTC_TRACE(trace_buf);
++
++}
++
++
++/* ************************************************************
++ * work around function start with wa_halbtc8723d1ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8723d1ant_
++ * ************************************************************ */
++void ex_halbtc8723d1ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x0;
++	u16 u16tmp = 0x0;
++	u32	value = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx Execute 8723d 1-Ant PowerOn Setting xxxxxxxxxxxxxxxx!!\n");
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "Ant Det Finish = %s, Ant Det Number  = %d\n",
++		    (board_info->btdm_ant_det_finish ? "Yes" : "No"),
++		    board_info->btdm_ant_num_by_ant_det);
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = true;
++	psd_scan->ant_det_is_ant_det_available = FALSE;
++	/* halbtc8723d1ant_post_onoffstate_to_bt(btcoexist, TRUE); */
++
++	/* enable BB, REG_SYS_FUNC_EN such that we can write BB Register correctly. */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x2);
++	btcoexist->btc_write_2byte(btcoexist, 0x2, u16tmp | BIT(0) | BIT(1));
++
++	/* set Path control owner to WiFi */
++	halbtc8723d1ant_ltecoex_pathcontrol_owner(btcoexist,
++			BT_8723D_1ANT_PCO_WLSIDE);
++
++	/* set GNT_BT to high */
++	halbtc8723d1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_1ANT_SIG_STA_SET_TO_HIGH);
++	/* Set GNT_WL to low */
++	halbtc8723d1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8723D_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_1ANT_SIG_STA_SET_TO_LOW);
++
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++
++	/* Set path control to WL */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x80, 0x1);
++
++	/* Set Antenna Path to BT side */
++	/* Check efuse 0xc3[6] for Single Antenna Path */
++	if (board_info->single_ant_path == 0) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], **********  Single Antenna, Antenna at Main Port: S1**********\n");
++		BTC_TRACE(trace_buf);
++
++		/* set to S1 */
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++		btcoexist->btc_write_2byte(btcoexist, 0x948, 0x280);
++		u8tmp = 0;
++	} else if (board_info->single_ant_path == 1) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], **********  Single Antenna, Antenna at Aux Port: S0**********\n");
++		BTC_TRACE(trace_buf);
++
++		/* set to S0 */
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++		btcoexist->btc_write_2byte(btcoexist, 0x948, 0x0);
++		u8tmp = 1;
++	}
++
++	/* Write Single Antenna Position to Registry to tell BT for 8723d. This line can be removed
++	since BT EFuse also add "single antenna position" in EFuse for 8723d*/
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_ANTPOSREGRISTRY_CTRL,
++			   &value);
++
++	/* Save"single antenna position" info in Local register setting for FW reading, because FW may not ready at  power on */
++	if (btcoexist->chip_interface == BTC_INTF_PCI)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x3e0, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_USB)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60, u8tmp);
++
++	/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++	halbtc8723d1ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********  LTE coex Reg 0x38 (Power-On) = 0x%x**********\n",
++		    halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist, 0x38));
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********  MAC Reg 0x70/ BB Reg 0x948 (Power-On) = 0x%x / 0x%x**********\n",
++		btcoexist->btc_read_4byte(btcoexist, 0x70), btcoexist->btc_read_2byte(btcoexist, 0x948));
++	BTC_TRACE(trace_buf);
++
++}
++
++void ex_halbtc8723d1ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8723d1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8723d1ant_init_hw_config(btcoexist, true, wifi_only);
++	btcoexist->stop_coex_dm = false;
++
++}
++
++void ex_halbtc8723d1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8723d1ant_init_coex_dm(btcoexist);
++
++	/* halbtc8723d1ant_query_bt_info(btcoexist); */
++}
++
++void ex_halbtc8723d1ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_stack_info		*stack_info = &btcoexist->stack_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fa_of_dm, fa_cck;
++	u32				fw_ver = 0, bt_patch_ver = 0;
++	static u8			pop_report_in_10s = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	if (btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	if (psd_scan->ant_det_try_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s",
++			   "Ant PG Num/ Mech/ Pos",
++			   board_info->pg_ant_num, board_info->btdm_ant_num,
++			   (board_info->btdm_ant_pos == 1 ? "S1" : "S0"));
++		CL_PRINTF(cli_buf);
++	} else {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d/ %d/ %s  (%d/%d/%d)",
++			   "Ant PG Num/ Mech(Ant_Det)/ Pos",
++			board_info->pg_ant_num, board_info->btdm_ant_num_by_ant_det,
++			   (board_info->btdm_ant_pos == 1 ? "S1" : "S0"),
++			psd_scan->ant_det_try_count, psd_scan->ant_det_fail_count,
++			   psd_scan->ant_det_result);
++		CL_PRINTF(cli_buf);
++
++		if (board_info->btdm_ant_det_finish) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++				   "Ant Det PSD Value",
++				   psd_scan->ant_det_peak_val);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %d",
++		   "BT stack/ hci ext ver",
++		   ((stack_info->profile_notified) ? "Yes" : "No"),
++		   stack_info->hci_version);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)/ %c",
++		   "Version Coex/ Fw/ Patch/ Cut",
++		   glcoex_ver_date_8723d_1ant, glcoex_ver_8723d_1ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver, coex_sta->cut_version + 65);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s/ %s",
++		   "WifibHiPri/ Ccklock/ CckEverLock",
++		   (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"),
++		   (coex_sta->cck_lock ? "Yes" : "No"),
++		   (coex_sta->cck_ever_lock ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	pop_report_in_10s++;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt/ popCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++			   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page")
++			   : ((BT_8723D_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8723D_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi - 100, coex_sta->bt_retry_cnt,
++		   coex_sta->pop_event_cnt);
++	CL_PRINTF(cli_buf);
++
++	if (pop_report_in_10s >= 5) {
++		coex_sta->pop_event_cnt = 0;
++		pop_report_in_10s = 0;
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d / %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP/Hi-Pri",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist,
++		   bt_link_info->bt_hi_pri_link_exist);
++	CL_PRINTF(cli_buf);
++
++	if (stack_info->profile_notified)
++		btcoexist->btc_disp_dbg_msg(btcoexist,
++					    BTC_DBG_DISP_BT_LINK_INFO);
++	else {
++		bt_info_ext = coex_sta->bt_info_ext;
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %s / %d",
++			   "Role/A2DP Rate/Bitpool",
++			   ((bt_link_info->slave_role) ? "Slave" : "Master"),
++			(bt_info_ext & BIT(0)) ? "BR" : "EDR", coex_sta->a2dp_bit_pool);
++		CL_PRINTF(cli_buf);
++	}
++
++
++	for (i = 0; i < BT_INFO_SRC_8723D_1ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8723d_1ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++
++	if (btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[mechanisms] (before Manual)============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanisms]============");
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "SM[LowPenaltyRA]",
++		   coex_dm->cur_low_penalty_ra);
++	CL_PRINTF(cli_buf);
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (%s,%s)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   (coex_dm->cur_ps_tdma_on ? "On" : "Off"),
++		   (coex_dm->auto_tdma_adjust ? "Adj" : "Fix"));
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "WL/BT Coex Table Type",
++		   coex_sta->coex_table_type);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x778/0x6cc/IgnWlanAct",
++		   u8tmp[0], u32tmp[0],  coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa0);
++	u32tmp[1] = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "LTE Coex Table W_L/B_L",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa8);
++	u32tmp[1] = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xac);
++	u32tmp[2] = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb0);
++	u32tmp[3] = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "LTE Break Table W_L/B_L/L_W/L_B",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff,
++		   u32tmp[2] & 0xffff, u32tmp[3] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %s",
++		   "LTE CoexOn/Path Ctrl Owner",
++		(int)((u32tmp[0] & BIT(7)) >> 7), ((u8tmp[0] & BIT(2)) ? "WL" : "BT"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "LTE 3Wire/OPMode/UART/UARTMode",
++		(int)((u32tmp[0] & BIT(6)) >> 6), (int)((u32tmp[0] & (BIT(5) | BIT(4))) >> 4),
++		   (int)((u32tmp[0] & BIT(3)) >> 3),
++		   (int)(u32tmp[0] & (BIT(2) | BIT(1) | BIT(0))));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s",
++		   "GNT_WL_SWCtrl/GNT_BT_SWCtrl/Dbg",
++		(int)((u32tmp[0] & BIT(12)) >> 12), (int)((u32tmp[0] & BIT(14)) >> 14),
++		   ((u8tmp[0] & BIT(3)) ? "On" : "Off"));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8723d1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "GNT_WL/GNT_BT/LTE_Busy/UART_Busy",
++		(int)((u32tmp[0] & BIT(2)) >> 2), (int)((u32tmp[0] & BIT(3)) >> 3),
++		   (int)((u32tmp[0] & BIT(1)) >> 1), (int)(u32tmp[0] & BIT(0)));
++	CL_PRINTF(cli_buf);
++
++
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x948);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x4c6);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x948/0x4c6[4]/0x40[5] (W/B PTA_En)",
++		u16tmp[0], (int)((u8tmp[0] & BIT(4)) >> 4), (int)((u8tmp[1] & BIT(5)) >> 5));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x953);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0x67);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ %s",
++		   "0x550/0x522/0x67[7]/4-RxAGC",
++		u32tmp[0], u8tmp[0], ((u8tmp[2] & 0x80) >> 7), (u8tmp[1] & 0x2) ? "On" : "Off");
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xda0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xda4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0xda8);
++	u32tmp[3] = btcoexist->btc_read_4byte(btcoexist, 0xcf0);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5b);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++
++	fa_of_dm = ((u32tmp[0] & 0xffff0000) >> 16) + ((u32tmp[1] & 0xffff0000)
++			>> 16) + (u32tmp[1] & 0xffff) + (u32tmp[2] & 0xffff) +
++		   ((u32tmp[3] & 0xffff0000) >> 16) + (u32tmp[3] & 0xffff);
++	fa_cck = (u8tmp[0] << 8) + u8tmp[1];
++
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0xc50/OFDM-CCA/OFDM-FA/CCK-FA",
++		   u32tmp[1] & 0xff, u32tmp[0] & 0xffff, fa_of_dm, fa_cck);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++
++	halbtc8723d1ant_read_score_board(btcoexist,	&u16tmp[0]);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %04x",
++		   "ScoreBoard[14:0] (from BT)", u16tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8723d1ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++
++		/* Write WL "Active" in Score-board for LPS off */
++		halbtc8723d1ant_post_activestate_to_bt(btcoexist, false);
++
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, true);
++		halbtc8723d1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723d1ant_post_activestate_to_bt(btcoexist, true);
++
++		halbtc8723d1ant_init_hw_config(btcoexist, false, false);
++		halbtc8723d1ant_init_coex_dm(btcoexist);
++
++		coex_sta->under_ips = false;
++	}
++}
++
++void ex_halbtc8723d1ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++
++		if (coex_sta->force_lps_on == true) { /* LPS No-32K */
++			/* Write WL "Active" in Score-board for PS-TDMA */
++			halbtc8723d1ant_post_activestate_to_bt(btcoexist, true);
++
++		} else { /* LPS-32K, need check if this h2c 0x71 can work?? (2015/08/28) */
++			/* Write WL "Non-Active" in Score-board for Native-PS */
++			halbtc8723d1ant_post_activestate_to_bt(btcoexist, false);
++
++		}
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++
++		/* Write WL "Active" in Score-board for LPS off */
++		halbtc8723d1ant_post_activestate_to_bt(btcoexist, true);
++
++	}
++}
++
++void ex_halbtc8723d1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	boolean wifi_connected = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	halbtc8723d1ant_query_bt_info(btcoexist);
++
++	if (BTC_SCAN_START == type) {
++
++		if (!wifi_connected)
++			coex_sta->wifi_is_high_pri_task = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d1ant_post_activestate_to_bt(btcoexist, true);
++		halbtc8723d1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++					8);
++
++		/* Force antenna setup for no scan result issue */
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8723d1ant_action_wifi_not_connected_scan(btcoexist);
++		else	/* wifi is connected */
++			halbtc8723d1ant_action_wifi_connected_scan(btcoexist);
++
++	} else {
++
++		coex_sta->wifi_is_high_pri_task = false;
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], SCAN FINISH notify  (Scan-AP = %d)\n", coex_sta->scan_ap_num);
++		BTC_TRACE(trace_buf);
++
++		if (!wifi_connected)
++			halbtc8723d1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8723d1ant_action_wifi_connected(btcoexist);
++	}
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], SCAN Notify() end\n");
++	BTC_TRACE(trace_buf);
++
++}
++
++void ex_halbtc8723d1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	boolean	wifi_connected = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	if (BTC_ASSOCIATE_START == type) {
++
++		coex_sta->wifi_is_high_pri_task = true;
++
++		halbtc8723d1ant_post_activestate_to_bt(btcoexist, true);
++		halbtc8723d1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++					8);
++
++		/* Force antenna setup for no scan result issue */
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++
++		coex_dm->arp_cnt = 0;
++
++		halbtc8723d1ant_action_wifi_not_connected_asso_auth(btcoexist);
++	} else {
++
++		coex_sta->wifi_is_high_pri_task = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++
++		if (!wifi_connected) /* non-connected scan */
++			halbtc8723d1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8723d1ant_action_wifi_connected(btcoexist);
++	}
++
++}
++
++void ex_halbtc8723d1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean			wifi_under_b_mode = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_MEDIA_CONNECT == type) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d1ant_post_activestate_to_bt(btcoexist, true);
++		halbtc8723d1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++					8);
++
++		/* Force antenna setup for no scan result issue */
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++					     FORCE_EXEC, false, false);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++
++		/* Set CCK Tx/Rx high Pri except 11b mode */
++		if (wifi_under_b_mode) {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x00); /* CCK Rx */
++		} else {
++			/* btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x10); */ /*CCK Tx */
++			/* btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x10); */ /*CCK Rx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x10); /* CCK Rx */
++		}
++
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d1ant_post_activestate_to_bt(btcoexist, false);
++
++		btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x0); /* CCK Tx */
++		btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x0); /* CCK Rx */
++
++		coex_sta->cck_ever_lock = false;
++	}
++
++	halbtc8723d1ant_update_wifi_channel_info(btcoexist, type);
++
++}
++
++void ex_halbtc8723d1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean	under_4way = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (under_4way) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], specific Packet ---- under_4way!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	} else if (BTC_PACKET_ARP == type) {
++
++		coex_dm->arp_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet ARP notify -cnt = %d\n", coex_dm->arp_cnt);
++		BTC_TRACE(trace_buf);
++
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet DHCP or EAPOL notify [Type = %d]\n", type);
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	}
++
++	if (coex_sta->wifi_is_high_pri_task)
++		halbtc8723d1ant_action_wifi_connected_specific_packet(btcoexist);
++}
++
++void ex_halbtc8723d1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8				bt_info = 0;
++	u8				i, rsp_source = 0;
++	boolean				wifi_connected = false;
++	boolean				bt_busy = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8723D_1ANT_MAX)
++		rsp_source = BT_INFO_SRC_8723D_1ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (BT_INFO_SRC_8723D_1ANT_WIFI_FW != rsp_source) {
++
++		/* if 0xff, it means BT is under WHCK test */
++		if (bt_info == 0xff)
++			coex_sta->bt_whck_test = true;
++		else
++			coex_sta->bt_whck_test = false;
++
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x20)
++			coex_sta->c2h_bt_page = true;
++		else
++			coex_sta->c2h_bt_page = false;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x80)
++			coex_sta->bt_create_connection = true;
++		else
++			coex_sta->bt_create_connection = false;
++
++		/* unit: %, value-100 to translate to unit: dBm  */
++		coex_sta->bt_rssi = coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		/* coex_sta->bt_info_c2h[rsp_source][3] * 2 - 90; */
++
++		if ((coex_sta->bt_info_c2h[rsp_source][1] & 0x49) == 0x49) {
++			coex_sta->a2dp_bit_pool =
++				coex_sta->bt_info_c2h[rsp_source][6];
++		} else
++			coex_sta->a2dp_bit_pool = 0;
++
++		if (coex_sta->bt_info_c2h[rsp_source][1] & 0x9)
++			coex_sta->acl_busy = true;
++		else
++			coex_sta->acl_busy = false;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++
++		if ((!btcoexist->manual_control) && (!btcoexist->stop_coex_dm)) {
++
++			/*  Re-Init */
++			if (coex_sta->bt_info_ext & BIT(1)) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++				BTC_TRACE(trace_buf);
++				btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++						   &wifi_connected);
++				if (wifi_connected)
++					halbtc8723d1ant_update_wifi_channel_info(btcoexist,
++							BTC_MEDIA_CONNECT);
++				else
++					halbtc8723d1ant_update_wifi_channel_info(btcoexist,
++							BTC_MEDIA_DISCONNECT);
++			}
++
++			/*  If Ignore_WLanAct && not SetUp_Link */
++			if ((coex_sta->bt_info_ext & BIT(3)) && (!(coex_sta->bt_info_ext & BIT(2)))) {
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8723d1ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		}
++		/* check BIT2 first ==> check if bt is under inquiry or page scan */
++		if (bt_info & BT_INFO_8723D_1ANT_B_INQ_PAGE)
++			coex_sta->c2h_bt_inquiry_page = true;
++		else
++			coex_sta->c2h_bt_inquiry_page = false;
++	}
++
++	coex_sta->num_of_profile = 0;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8723D_1ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++
++		coex_sta->bt_hi_pri_link_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8723D_1ANT_B_FTP) {
++			coex_sta->pan_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8723D_1ANT_B_A2DP) {
++			coex_sta->a2dp_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8723D_1ANT_B_HID) {
++			coex_sta->hid_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8723D_1ANT_B_SCO_ESCO) {
++			coex_sta->sco_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->sco_exist = false;
++
++	}
++
++	halbtc8723d1ant_update_bt_link_info(btcoexist);
++
++	bt_info = bt_info &
++		0x1f;  /* mask profile bit for connect-ilde identification ( for CSR case: A2DP idle --> 0x41) */
++
++	if (!(bt_info & BT_INFO_8723D_1ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8723D_1ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8723D_1ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8723D_1ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8723D_1ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8723D_1ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8723D_1ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8723D_1ANT_B_ACL_BUSY) {
++		if (BT_8723D_1ANT_BT_STATUS_ACL_BUSY != coex_dm->bt_status)
++			coex_dm->auto_tdma_adjust = false;
++		coex_dm->bt_status = BT_8723D_1ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8723D_1ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8723D_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8723D_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8723D_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		bt_busy = true;
++	else
++		bt_busy = false;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), No run_coexist_mechanism return for Manual CTRL<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(),  No run_coexist_mechanism return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	/*  don't run coex mechanism while receve BTInfo if GNT_WL/GNT_BT control by SW */
++	if (!coex_sta->gnt_control_by_PTA)
++		return;
++
++	halbtc8723d1ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8723d1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RF Status notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_RF_ON == type) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wl_rf_off_on_event = true;
++		btcoexist->stop_coex_dm = false;
++
++		halbtc8723d1ant_post_activestate_to_bt(btcoexist, TRUE);
++		halbtc8723d1ant_post_onoffstate_to_bt(btcoexist, TRUE);
++
++	} else if (BTC_RF_OFF == type) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d1ant_post_activestate_to_bt(btcoexist, FALSE);
++		halbtc8723d1ant_post_onoffstate_to_bt(btcoexist, FALSE);
++
++		halbtc8723d1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, true);
++
++		btcoexist->stop_coex_dm = true;
++		coex_sta->wl_rf_off_on_event = false;
++	}
++}
++
++void ex_halbtc8723d1ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++	halbtc8723d1ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++
++	halbtc8723d1ant_post_activestate_to_bt(btcoexist, FALSE);
++	halbtc8723d1ant_post_onoffstate_to_bt(btcoexist, FALSE);
++
++	halbtc8723d1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++	halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT, FORCE_EXEC,
++				     false, true);
++
++	halbtc8723d1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++	ex_halbtc8723d1ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	btcoexist->stop_coex_dm = true;
++}
++
++void ex_halbtc8723d1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++		halbtc8723d1ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++		halbtc8723d1ant_post_activestate_to_bt(btcoexist, FALSE);
++		halbtc8723d1ant_post_onoffstate_to_bt(btcoexist, FALSE);
++
++		halbtc8723d1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_BT,
++					     FORCE_EXEC, false, true);
++
++		btcoexist->stop_coex_dm = true;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d1ant_post_activestate_to_bt(btcoexist, TRUE);
++		halbtc8723d1ant_post_onoffstate_to_bt(btcoexist, TRUE);
++
++		btcoexist->stop_coex_dm = false;
++	}
++}
++
++
++void ex_halbtc8723d1ant_coex_dm_reset(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], *****************Coex DM Reset*****************\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8723d1ant_init_hw_config(btcoexist, false, false);
++	halbtc8723d1ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8723d1ant_periodical(IN struct btc_coexist *btcoexist)
++{
++
++#if (BT_AUTO_REPORT_ONLY_8723D_1ANT == 0)
++	halbtc8723d1ant_query_bt_info(btcoexist);
++
++#endif
++
++	halbtc8723d1ant_monitor_bt_ctr(btcoexist);
++	halbtc8723d1ant_monitor_wifi_ctr(btcoexist);
++
++	halbtc8723d1ant_monitor_bt_enable_disable(btcoexist);
++
++	/* for 4-way, DHCP, EAPOL packet */
++	if (coex_sta->specific_pkt_period_cnt > 0) {
++
++		coex_sta->specific_pkt_period_cnt--;
++
++		if ((coex_sta->specific_pkt_period_cnt == 0) && (coex_sta->wifi_is_high_pri_task))
++			coex_sta->wifi_is_high_pri_task = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ***************** Hi-Pri Task = %s*****************\n", (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"));
++		BTC_TRACE(trace_buf);
++
++	}
++
++	if (halbtc8723d1ant_is_wifibt_status_changed(btcoexist))
++		halbtc8723d1ant_run_coexist_mechanism(btcoexist);
++
++
++}
++
++void ex_halbtc8723d1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++#if BT_8723D_1ANT_ANTDET_ENABLE
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	/*boolean scan, roam;*/
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx Call AntennaDetect()!!\n");
++	BTC_TRACE(trace_buf);
++
++	if (seconds == 0) {
++		psd_scan->ant_det_try_count	= 0;
++		psd_scan->ant_det_fail_count	= 0;
++		ant_det_count = 0;
++		ant_det_fail_count = 0;
++		board_info->btdm_ant_det_finish = false;
++		board_info->btdm_ant_num_by_ant_det = 1;
++		return;
++	}
++
++	if (!board_info->btdm_ant_det_finish) {
++		psd_scan->ant_det_inteval_count =
++			psd_scan->ant_det_inteval_count + 2;
++
++		if (psd_scan->ant_det_inteval_count >=
++		    BT_8723D_2ANT_ANTDET_RETRY_INTERVAL) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is up, Try Detect!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d1ant_psd_antenna_detection_check(btcoexist);
++
++			if (board_info->btdm_ant_det_finish) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Success!!\n");
++				BTC_TRACE(trace_buf);
++#if 1
++				if (board_info->btdm_ant_num_by_ant_det == 2)
++					halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_WIFI,
++						     FORCE_EXEC, false, false);
++				else
++					halbtc8723d1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++						     FORCE_EXEC, false, false);
++#endif
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Fail!!\n");
++				BTC_TRACE(trace_buf);
++			}
++			psd_scan->ant_det_inteval_count = 0;
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is not up! (%d)\n",
++				    psd_scan->ant_det_inteval_count);
++			BTC_TRACE(trace_buf);
++		}
++
++	}
++#endif
++
++
++}
++
++
++void ex_halbtc8723d1ant_display_ant_detection(IN struct btc_coexist *btcoexist)
++{
++#if BT_8723D_1ANT_ANTDET_ENABLE
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	if (psd_scan->ant_det_try_count != 0)	{
++		halbtc8723d1ant_psd_show_antenna_detect_result(btcoexist);
++
++		if (board_info->btdm_ant_det_finish)
++			halbtc8723d1ant_psd_showdata(btcoexist);
++		return;
++	}
++#endif
++
++}
++
++void ex_halbtc8723d1ant_antenna_isolation(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++
++}
++
++void ex_halbtc8723d1ant_psd_scan(IN struct btc_coexist *btcoexist,
++		 IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++
++}
++
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/halbtc8723d1ant.h b/drivers/net/wireless/rtl8812au/hal/btc/halbtc8723d1ant.h
+new file mode 100644
+index 0000000..2ccd575
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/halbtc8723d1ant.h
+@@ -0,0 +1,348 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8723D_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8723D 1ANT BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8723D_1ANT				1
++
++#define	BT_INFO_8723D_1ANT_B_FTP						BIT(7)
++#define	BT_INFO_8723D_1ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8723D_1ANT_B_HID						BIT(5)
++#define	BT_INFO_8723D_1ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8723D_1ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8723D_1ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8723D_1ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8723D_1ANT_B_CONNECTION				BIT(0)
++
++#define	BT_INFO_8723D_1ANT_A2DP_BASIC_RATE(_BT_INFO_EXT_)	\
++	(((_BT_INFO_EXT_&BIT(0))) ? true : false)
++
++#define	BTC_RSSI_COEX_THRESH_TOL_8723D_1ANT		2
++
++#define  BT_8723D_1ANT_WIFI_NOISY_THRESH							30   /* max: 255 */
++
++/* for Antenna detection */
++#define	BT_8723D_1ANT_ANTDET_PSDTHRES_BACKGROUND					50
++#define	BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION				70
++#define	BT_8723D_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION			55
++#define	BT_8723D_1ANT_ANTDET_PSDTHRES_1ANT							35
++#define	BT_8723D_1ANT_ANTDET_RETRY_INTERVAL							10	/* retry timer if ant det is fail, unit: second */
++#define	BT_8723D_1ANT_ANTDET_SWEEPPOINT_DELAY							40000
++#define	BT_8723D_1ANT_ANTDET_ENABLE									0
++#define	BT_8723D_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE				0
++#define	BT_8723D_1ANT_ANTDET_BTTXTIME									100
++#define	BT_8723D_1ANT_ANTDET_BTTXCHANNEL								39
++
++#define	BT_8723D_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT		30000
++
++enum bt_8723d_1ant_signal_state {
++	BT_8723D_1ANT_SIG_STA_SET_TO_LOW		= 0x0,
++	BT_8723D_1ANT_SIG_STA_SET_BY_HW		= 0x0,
++	BT_8723D_1ANT_SIG_STA_SET_TO_HIGH		= 0x1,
++	BT_8723D_1ANT_SIG_STA_MAX
++};
++
++enum bt_8723d_1ant_path_ctrl_owner {
++	BT_8723D_1ANT_PCO_BTSIDE		= 0x0,
++	BT_8723D_1ANT_PCO_WLSIDE	= 0x1,
++	BT_8723D_1ANT_PCO_MAX
++};
++
++enum bt_8723d_1ant_gnt_ctrl_type {
++	BT_8723D_1ANT_GNT_TYPE_CTRL_BY_PTA		= 0x0,
++	BT_8723D_1ANT_GNT_TYPE_CTRL_BY_SW		= 0x1,
++	BT_8723D_1ANT_GNT_TYPE_MAX
++};
++
++enum bt_8723d_1ant_gnt_ctrl_block {
++	BT_8723D_1ANT_GNT_BLOCK_RFC_BB		= 0x0,
++	BT_8723D_1ANT_GNT_BLOCK_RFC			= 0x1,
++	BT_8723D_1ANT_GNT_BLOCK_BB			= 0x2,
++	BT_8723D_1ANT_GNT_BLOCK_MAX
++};
++
++enum bt_8723d_1ant_lte_coex_table_type {
++	BT_8723D_1ANT_CTT_WL_VS_LTE			= 0x0,
++	BT_8723D_1ANT_CTT_BT_VS_LTE			= 0x1,
++	BT_8723D_1ANT_CTT_MAX
++};
++
++enum bt_8723d_1ant_lte_break_table_type {
++	BT_8723D_1ANT_LBTT_WL_BREAK_LTE			= 0x0,
++	BT_8723D_1ANT_LBTT_BT_BREAK_LTE				= 0x1,
++	BT_8723D_1ANT_LBTT_LTE_BREAK_WL			= 0x2,
++	BT_8723D_1ANT_LBTT_LTE_BREAK_BT				= 0x3,
++	BT_8723D_1ANT_LBTT_MAX
++};
++
++enum bt_info_src_8723d_1ant {
++	BT_INFO_SRC_8723D_1ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8723D_1ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8723D_1ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8723D_1ANT_MAX
++};
++
++enum bt_8723d_1ant_bt_status {
++	BT_8723D_1ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8723D_1ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8723D_1ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8723D_1ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8723D_1ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8723D_1ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8723D_1ANT_BT_STATUS_MAX
++};
++
++enum bt_8723d_1ant_wifi_status {
++	BT_8723D_1ANT_WIFI_STATUS_NON_CONNECTED_IDLE				= 0x0,
++	BT_8723D_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN		= 0x1,
++	BT_8723D_1ANT_WIFI_STATUS_CONNECTED_SCAN					= 0x2,
++	BT_8723D_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT				= 0x3,
++	BT_8723D_1ANT_WIFI_STATUS_CONNECTED_IDLE					= 0x4,
++	BT_8723D_1ANT_WIFI_STATUS_CONNECTED_BUSY					= 0x5,
++	BT_8723D_1ANT_WIFI_STATUS_MAX
++};
++
++enum bt_8723d_1ant_coex_algo {
++	BT_8723D_1ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8723D_1ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8723D_1ANT_COEX_ALGO_HID				= 0x2,
++	BT_8723D_1ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8723D_1ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8723D_1ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8723D_1ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8723D_1ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8723D_1ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8723D_1ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8723D_1ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8723D_1ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++struct coex_dm_8723d_1ant {
++	/* hw setting */
++	u8		pre_ant_pos_type;
++	u8		cur_ant_pos_type;
++	/* fw mechanism */
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	/* sw mechanism */
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++	u32		arp_cnt;
++
++	u8		error_condition;
++};
++
++struct coex_sta_8723d_1ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++	boolean					bt_hi_pri_link_exist;
++	u8					num_of_profile;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					specific_pkt_period_cnt;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	s8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8723D_1ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8723D_1ANT_MAX];
++	boolean					bt_whck_test;
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_page;				/* Add for win8.1 page out issue */
++	boolean					wifi_is_high_pri_task;		/* Add for win8.1 page out issue */
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	boolean					cck_lock;
++	boolean					pre_ccklock;
++	boolean					cck_ever_lock;
++	u8					coex_table_type;
++
++	boolean					force_lps_on;
++	u32					wrong_profile_notification;
++
++	boolean					concurrent_rx_mode_on;
++
++	u16					score_board;
++
++	u8					a2dp_bit_pool;
++	u8					cut_version;
++	boolean				acl_busy;
++	boolean				wl_rf_off_on_event;
++	boolean				bt_create_connection;
++	boolean				gnt_control_by_PTA;
++};
++
++#define  BT_8723D_1ANT_ANTDET_PSD_POINTS			256	/* MAX:1024 */
++#define  BT_8723D_1ANT_ANTDET_PSD_AVGNUM			1	/* MAX:3 */
++#define	BT_8723D_1ANT_ANTDET_BUF_LEN				16
++
++struct psdscan_sta_8723d_1ant {
++
++	u32			ant_det_bt_le_channel;  /* BT LE Channel ex:2412 */
++	u32			ant_det_bt_tx_time;
++	u32			ant_det_pre_psdscan_peak_val;
++	boolean			ant_det_is_ant_det_available;
++	u32			ant_det_psd_scan_peak_val;
++	boolean			ant_det_is_btreply_available;
++	u32			ant_det_psd_scan_peak_freq;
++
++	u8			ant_det_result;
++	u8			ant_det_peak_val[BT_8723D_1ANT_ANTDET_BUF_LEN];
++	u8			ant_det_peak_freq[BT_8723D_1ANT_ANTDET_BUF_LEN];
++	u32			ant_det_try_count;
++	u32			ant_det_fail_count;
++	u32			ant_det_inteval_count;
++	u32			ant_det_thres_offset;
++
++	u32			real_cent_freq;
++	s32			real_offset;
++	u32			real_span;
++
++	u32			psd_band_width;  /* unit: Hz */
++	u32			psd_point;		/* 128/256/512/1024 */
++	u32			psd_report[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_report_max_hold[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_start_point;
++	u32			psd_stop_point;
++	u32			psd_max_value_point;
++	u32			psd_max_value;
++	u32			psd_start_base;
++	u32			psd_avg_num;	/* 1/8/16/32 */
++	u32			psd_gen_count;
++	boolean			is_psd_running;
++	boolean			is_psd_show_max_only;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8723d1ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d1ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8723d1ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d1ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8723d1ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8723d1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8723d1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8723d1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723d1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723d1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8723d1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723d1ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8723d1ant_coex_dm_reset(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d1ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d1ant_display_coex_info(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8723d1ant_antenna_isolation(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++
++void ex_halbtc8723d1ant_psd_scan(IN struct btc_coexist *btcoexist,
++		 IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8723d1ant_display_ant_detection(IN struct btc_coexist *btcoexist);
++
++#else
++#define	ex_halbtc8723d1ant_power_on_setting(btcoexist)
++#define	ex_halbtc8723d1ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8723d1ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8723d1ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8723d1ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8723d1ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8723d1ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8723d1ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8723d1ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8723d1ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8723d1ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8723d1ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8723d1ant_halt_notify(btcoexist)
++#define	ex_halbtc8723d1ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8723d1ant_coex_dm_reset(btcoexist)
++#define	ex_halbtc8723d1ant_periodical(btcoexist)
++#define	ex_halbtc8723d1ant_display_coex_info(btcoexist)
++#define	ex_halbtc8723d1ant_antenna_detection(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8723d1ant_antenna_isolation(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8723d1ant_psd_scan(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8723d1ant_display_ant_detection(btcoexist)
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/halbtc8723d2ant.c b/drivers/net/wireless/rtl8812au/hal/btc/halbtc8723d2ant.c
+new file mode 100644
+index 0000000..a2801ae
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/halbtc8723d2ant.c
+@@ -0,0 +1,5411 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8723D Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8723D_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	*trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8723d_2ant		glcoex_dm_8723d_2ant;
++static struct  coex_dm_8723d_2ant	*coex_dm = &glcoex_dm_8723d_2ant;
++static struct  coex_sta_8723d_2ant		glcoex_sta_8723d_2ant;
++static struct  coex_sta_8723d_2ant	*coex_sta = &glcoex_sta_8723d_2ant;
++static struct  psdscan_sta_8723d_2ant	gl_psd_scan_8723d_2ant;
++static struct  psdscan_sta_8723d_2ant *psd_scan = &gl_psd_scan_8723d_2ant;
++
++const char *const glbt_info_src_8723d_2ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8723d_2ant = 20160218;
++u32	glcoex_ver_8723d_2ant = 0x05;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8723d2ant_
++ * ************************************************************ */
++u8 halbtc8723d2ant_bt_rssi_state(u8 *ppre_bt_rssi_state, u8 level_num,
++				 u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = *ppre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((*ppre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*ppre_bt_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8723D_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return *ppre_bt_rssi_state;
++		}
++
++		if ((*ppre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*ppre_bt_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8723D_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((*ppre_bt_rssi_state == BTC_RSSI_STATE_MEDIUM) ||
++			(*ppre_bt_rssi_state == BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8723D_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	*ppre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8723d2ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 *pprewifi_rssi_state, IN u8 level_num, IN u8 rssi_thresh,
++				   IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = *pprewifi_rssi_state;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((*pprewifi_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*pprewifi_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8723D_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return *pprewifi_rssi_state;
++		}
++
++		if ((*pprewifi_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*pprewifi_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8723D_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((*pprewifi_rssi_state == BTC_RSSI_STATE_MEDIUM) ||
++			(*pprewifi_rssi_state == BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8723D_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	*pprewifi_rssi_state = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8723d2ant_coex_switch_threshold(IN struct btc_coexist *btcoexist,
++		IN u8 isolation_measuared)
++{
++	s8	interference_wl_tx = 0, interference_bt_tx = 0;
++
++
++	interference_wl_tx = BT_8723D_2ANT_WIFI_MAX_TX_POWER - isolation_measuared;
++	interference_bt_tx = BT_8723D_2ANT_BT_MAX_TX_POWER - isolation_measuared;
++
++
++
++	coex_sta->wifi_coex_thres		 = BT_8723D_2ANT_WIFI_RSSI_COEXSWITCH_THRES1;
++	coex_sta->wifi_coex_thres2	 = BT_8723D_2ANT_WIFI_RSSI_COEXSWITCH_THRES2;
++
++	coex_sta->bt_coex_thres		 = BT_8723D_2ANT_BT_RSSI_COEXSWITCH_THRES1;
++	coex_sta->bt_coex_thres2		 = BT_8723D_2ANT_BT_RSSI_COEXSWITCH_THRES2;
++
++
++	/*
++		coex_sta->wifi_coex_thres		= interference_wl_tx + BT_8723D_2ANT_WIFI_SIR_THRES1;
++		coex_sta->wifi_coex_thres2		= interference_wl_tx + BT_8723D_2ANT_WIFI_SIR_THRES2;
++
++		coex_sta->bt_coex_thres		= interference_bt_tx + BT_8723D_2ANT_BT_SIR_THRES1;
++		coex_sta->bt_coex_thres2		= interference_bt_tx + BT_8723D_2ANT_BT_SIR_THRES2;
++	*/
++
++
++
++
++
++	/*
++		if  ( BT_8723D_2ANT_WIFI_RSSI_COEXSWITCH_THRES1 < (isolation_measuared -
++					BT_8723D_2ANT_DEFAULT_ISOLATION) )
++			coex_sta->wifi_coex_thres	 = BT_8723D_2ANT_WIFI_RSSI_COEXSWITCH_THRES1;
++		else
++			coex_sta->wifi_coex_thres =  BT_8723D_2ANT_WIFI_RSSI_COEXSWITCH_THRES1 -  (isolation_measuared -
++					BT_8723D_2ANT_DEFAULT_ISOLATION);
++
++		if  ( BT_8723D_2ANT_BT_RSSI_COEXSWITCH_THRES1 < (isolation_measuared -
++					BT_8723D_2ANT_DEFAULT_ISOLATION) )
++			coex_sta->bt_coex_thres	 = BT_8723D_2ANT_BT_RSSI_COEXSWITCH_THRES1;
++		else
++			coex_sta->bt_coex_thres =  BT_8723D_2ANT_BT_RSSI_COEXSWITCH_THRES1 -  (isolation_measuared -
++					BT_8723D_2ANT_DEFAULT_ISOLATION);
++
++	*/
++}
++
++
++void halbtc8723d2ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++}
++
++void halbtc8723d2ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++void halbtc8723d2ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++	static u8		num_of_bt_counter_chk = 0, cnt_slave = 0;
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++
++	if ((coex_sta->low_priority_tx > 1050)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++
++	if ((coex_sta->low_priority_rx >= 950) && (coex_sta->low_priority_rx >= coex_sta->low_priority_tx)
++	    && (!coex_sta->under_ips)  && (!coex_sta->c2h_bt_inquiry_page) && (coex_sta->bt_link_exist))	{
++		if (cnt_slave >= 2) {
++			bt_link_info->slave_role = true;
++			cnt_slave = 2;
++		} else
++			cnt_slave++;
++	} else {
++		if (cnt_slave == 0)	{
++			bt_link_info->slave_role = false;
++			cnt_slave = 0;
++		} else
++			cnt_slave--;
++
++	}
++
++	if ((coex_sta->high_priority_tx == 0) && (coex_sta->high_priority_rx == 0) && (coex_sta->low_priority_tx == 0) &&
++	    (coex_sta->low_priority_rx == 0)) {
++		num_of_bt_counter_chk++;
++		if (num_of_bt_counter_chk >= 3) {
++			halbtc8723d2ant_query_bt_info(btcoexist);
++			num_of_bt_counter_chk = 0;
++		}
++	}
++
++}
++
++void halbtc8723d2ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++
++
++	if (coex_sta->under_ips) {
++		coex_sta->crc_ok_cck = 0;
++		coex_sta->crc_ok_11g = 0;
++		coex_sta->crc_ok_11n = 0;
++		coex_sta->crc_ok_11n_agg = 0;
++
++		coex_sta->crc_err_cck = 0;
++		coex_sta->crc_err_11g = 0;
++		coex_sta->crc_err_11n = 0;
++		coex_sta->crc_err_11n_agg = 0;
++	} else {
++		coex_sta->crc_ok_cck	= btcoexist->btc_read_4byte(btcoexist,
++					  0xf88);
++		coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf94);
++		coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf90);
++		coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					   0xfb8);
++
++		coex_sta->crc_err_cck	 = btcoexist->btc_read_4byte(btcoexist,
++					   0xf84);
++		coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf96);
++		coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf92);
++		coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					    0xfba);
++	}
++
++	/* reset counter */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x0);
++}
++
++
++boolean halbtc8723d2ant_is_wifibt_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false, pre_bt_off = false;
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	boolean			wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean			wifi_connected = false;
++	u8			wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (coex_sta->bt_disabled != pre_bt_off) {
++		pre_bt_off = coex_sta->bt_disabled;
++
++		if (coex_sta->bt_disabled)
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++		else
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is enabled !!\n");
++
++		BTC_TRACE(trace_buf);
++		return true;
++	}
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++
++	}
++
++	return false;
++}
++
++void halbtc8723d2ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++	bt_link_info->acl_busy = coex_sta->acl_busy;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++void halbtc8723d2ant_update_wifi_channel_info(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] =
++			0x1;  /* enable BT AFH skip WL channel for 8723d because BT Rx LO interference */
++		/* h2c_parameter[0] = 0x0; */
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++
++}
++
++void halbtc8723d2ant_set_fw_dac_swing_level(IN struct btc_coexist *btcoexist,
++		IN u8 dac_swing_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	/* There are several type of dacswing */
++	/* 0x18/ 0x10/ 0xc/ 0x8/ 0x4/ 0x6 */
++	h2c_parameter[0] = dac_swing_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x64, 1, h2c_parameter);
++}
++
++void halbtc8723d2ant_fw_dac_swing_lvl(IN struct btc_coexist *btcoexist,
++			      IN boolean force_exec, IN u8 fw_dac_swing_lvl)
++{
++	coex_dm->cur_fw_dac_swing_lvl = fw_dac_swing_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_fw_dac_swing_lvl ==
++		    coex_dm->cur_fw_dac_swing_lvl)
++			return;
++	}
++
++	halbtc8723d2ant_set_fw_dac_swing_level(btcoexist,
++					       coex_dm->cur_fw_dac_swing_lvl);
++
++	coex_dm->pre_fw_dac_swing_lvl = coex_dm->cur_fw_dac_swing_lvl;
++}
++
++void halbtc8723d2ant_set_fw_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				       IN u8 dec_bt_pwr_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = dec_bt_pwr_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x62, 1, h2c_parameter);
++}
++
++void halbtc8723d2ant_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				IN boolean force_exec, IN u8 dec_bt_pwr_lvl)
++{
++	coex_dm->cur_bt_dec_pwr_lvl = dec_bt_pwr_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_dec_pwr_lvl == coex_dm->cur_bt_dec_pwr_lvl)
++			return;
++	}
++	halbtc8723d2ant_set_fw_dec_bt_pwr(btcoexist,
++					  coex_dm->cur_bt_dec_pwr_lvl);
++
++	coex_dm->pre_bt_dec_pwr_lvl = coex_dm->cur_bt_dec_pwr_lvl;
++}
++
++void halbtc8723d2ant_set_fw_low_penalty_ra(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8723d2ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8723d2ant_set_fw_low_penalty_ra(btcoexist,
++					      coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8723d2ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8723d2ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8723d2ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8723d2ant_sw_mechanism1(IN struct btc_coexist *btcoexist,
++			   IN boolean shrink_rx_lpf, IN boolean low_penalty_ra,
++			   IN boolean limited_dig, IN boolean bt_lna_constrain)
++{
++
++	halbtc8723d2ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8723d2ant_sw_mechanism2(IN struct btc_coexist *btcoexist,
++			   IN boolean agc_table_shift, IN boolean adc_back_off,
++			   IN boolean sw_dac_swing, IN u32 dac_swing_lvl)
++{
++	/* halbtc8723d2ant_agc_table(btcoexist, NORMAL_EXEC, agc_table_shift); */
++	/* halbtc8723d2ant_adc_back_off(btcoexist, NORMAL_EXEC, adc_back_off); */
++}
++
++void halbtc8723d2ant_write_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	u16				bitpos,
++	IN	BOOLEAN		state
++)
++{
++
++	static u16 originalval = 0x8002;
++
++	if (state)
++		originalval = originalval | bitpos;
++	else
++		originalval = originalval & (~bitpos);
++
++
++	btcoexist->btc_write_2byte(btcoexist, 0xaa, originalval);
++
++}
++
++void halbtc8723d2ant_read_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN   u16				*score_board_val
++)
++{
++
++	*score_board_val = (btcoexist->btc_read_2byte(btcoexist,
++			    0xaa)) & 0x7fff;
++}
++
++void halbtc8723d2ant_post_activestate_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_active
++)
++{
++
++	if (wifi_active)
++		halbtc8723d2ant_write_score_board(btcoexist, (u16) BIT(0), TRUE);
++	else
++		halbtc8723d2ant_write_score_board(btcoexist, (u16) BIT(0), FALSE);
++
++	/* The BT should set "No Shunt-down" mode if WL = Active for BT Synthesizer on/off interference WL Lo issue at 8703b b-cut. */
++
++}
++
++void halbtc8723d2ant_post_onoffstate_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_on
++)
++{
++
++	if (wifi_on)
++		halbtc8723d2ant_write_score_board(btcoexist, (u16) BIT(1), TRUE);
++	else
++		halbtc8723d2ant_write_score_board(btcoexist, (u16) BIT(1), FALSE);
++
++}
++
++void halbtc8723d2ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++	u16			u16tmp;
++
++	/* This function check if bt is disabled */
++#if 0
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++
++
++#else
++
++	/* Read BT on/off status from scoreboard[1], enable this only if BT patch support this feature */
++	halbtc8723d2ant_read_score_board(btcoexist,	&u16tmp);
++
++	bt_active = u16tmp & BIT(1);
++
++
++#endif
++
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	} else {
++
++		bt_disable_cnt++;
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			bt_disable_cnt = 2;
++		}
++
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	}
++
++
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++	}
++
++}
++
++void halbtc8723d2ant_enable_gnt_to_gpio(IN struct btc_coexist *btcoexist,
++					boolean isenable)
++{
++
++	if (isenable) {
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x1);
++
++		/* enable GNT_BT to GPIO debug */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x40, 0x0);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x1, 0x0);
++
++		/* 0x48[20] = 0  for GPIO14 =  GNT_WL*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4a, 0x10, 0x0);
++		/* 0x40[17] = 0  for GPIO14 =  GNT_WL*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x42, 0x02, 0x0);
++
++		/* 0x66[9] = 0   for GPIO15 =  GNT_BT*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x02, 0x0);
++		/* 0x66[7] = 0
++		for GPIO15 =  GNT_BT*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x66, 0x80, 0x0);
++		/* 0x8[8] = 0    for GPIO15 =  GNT_BT*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x9, 0x1, 0x0);
++
++		/* BT Vendor Reg 0x76[0] = 0  for GPIO15 =  GNT_BT, this is not set here*/
++	} else {
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x0);
++
++		/* Disable GNT_BT debug to GPIO, and enable chip_wakeup_host */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x40, 0x1);
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x1, 0x1);
++
++		/* 0x48[20] = 0  for GPIO14 =  GNT_WL*/
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4a, 0x10, 0x1);
++	}
++
++
++}
++
++u32 halbtc8723d2ant_ltecoex_indirect_read_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr)
++{
++	u32 j = 0;
++
++
++	/* wait for ready bit before access 0x7c0		 */
++	btcoexist->btc_write_4byte(btcoexist, 0x7c0, 0x800F0000 | reg_addr);
++
++	do {
++		j++;
++	} while (((btcoexist->btc_read_1byte(btcoexist,
++					     0x7c3)&BIT(5)) == 0) &&
++		 (j < BT_8723D_2ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++	return btcoexist->btc_read_4byte(btcoexist,
++					 0x7c8);  /* get read data */
++
++}
++
++void halbtc8723d2ant_ltecoex_indirect_write_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr, IN u32 bit_mask, IN u32 reg_value)
++{
++	u32 val, i = 0, j = 0, bitpos = 0;
++
++
++	if (bit_mask == 0x0)
++		return;
++	if (bit_mask == 0xffffffff) {
++		btcoexist->btc_write_4byte(btcoexist, 0x7c4,
++					   reg_value); /* put write data */
++
++		/* wait for ready bit before access 0x7c0 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x7c3)&BIT(5)) == 0) &&
++			(j < BT_8723D_2ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x7c0,
++					   0xc00F0000 | reg_addr);
++	} else {
++		for (i = 0; i <= 31; i++) {
++			if (((bit_mask >> i) & 0x1) == 0x1) {
++				bitpos = i;
++				break;
++			}
++		}
++
++		/* read back register value before write */
++		val = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist,
++				reg_addr);
++		val = (val & (~bit_mask)) | (reg_value << bitpos);
++
++		btcoexist->btc_write_4byte(btcoexist, 0x7c4,
++					   val); /* put write data */
++
++		/* wait for ready bit before access 0x7c0		 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x7c3)&BIT(5)) == 0) &&
++			(j < BT_8723D_2ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x7c0,
++					   0xc00F0000 | reg_addr);
++
++	}
++
++}
++
++void halbtc8723d2ant_ltecoex_enable(IN struct btc_coexist *btcoexist,
++				    IN boolean enable)
++{
++	u8 val;
++
++	val = (enable) ? 1 : 0;
++	halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist, 0x38, 0x80,
++			val);  /* 0x38[7] */
++
++}
++
++void halbtc8723d2ant_ltecoex_pathcontrol_owner(IN struct btc_coexist *btcoexist,
++		IN boolean wifi_control)
++{
++	u8 val;
++
++	val = (wifi_control) ? 1 : 0;
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x4,
++					   val); /* 0x70[26] */
++
++}
++
++void halbtc8723d2ant_ltecoex_set_gnt_bt(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8723D_2ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0xc000;
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		bit_mask = 0x0c00;
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10]						 */
++		break;
++	case BT_8723D_2ANT_GNT_BLOCK_RFC:
++		bit_mask = 0xc000;
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		break;
++	case BT_8723D_2ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0c00;
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10] */
++		break;
++
++	}
++
++}
++
++void halbtc8723d2ant_ltecoex_set_gnt_wl(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8723D_2ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0x3000;
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		bit_mask = 0x0300;
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8]						 */
++		break;
++	case BT_8723D_2ANT_GNT_BLOCK_RFC:
++		bit_mask = 0x3000;
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		break;
++	case BT_8723D_2ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0300;
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8] */
++		break;
++
++	}
++
++}
++
++void halbtc8723d2ant_ltecoex_set_coex_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u16 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8723D_2ANT_CTT_WL_VS_LTE:
++		reg_addr = 0xa0;
++		break;
++	case BT_8723D_2ANT_CTT_BT_VS_LTE:
++		reg_addr = 0xa4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xffff, table_content); /* 0xa0[15:0] or 0xa4[15:0] */
++
++
++}
++
++
++void halbtc8723d2ant_ltecoex_set_break_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u8 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8723D_2ANT_LBTT_WL_BREAK_LTE:
++		reg_addr = 0xa8;
++		break;
++	case BT_8723D_2ANT_LBTT_BT_BREAK_LTE:
++		reg_addr = 0xac;
++		break;
++	case BT_8723D_2ANT_LBTT_LTE_BREAK_WL:
++		reg_addr = 0xb0;
++		break;
++	case BT_8723D_2ANT_LBTT_LTE_BREAK_BT:
++		reg_addr = 0xb4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8723d2ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xff, table_content); /* 0xa8[15:0] or 0xb4[15:0] */
++
++
++}
++
++
++void halbtc8723d2ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8723d2ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8723d2ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8723d2ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	u32	break_table;
++	u8	select_table;
++
++	coex_sta->coex_table_type = type;
++
++	if (coex_sta->concurrent_rx_mode_on == true) {
++		break_table = 0xf0ffffff;  /* set WL hi-pri can break BT */
++		select_table =
++			0xb;		/* set Tx response = Hi-Pri (ex: Transmitting ACK,BA,CTS) */
++	} else {
++		break_table = 0xffffff;
++		select_table = 0x3;
++	}
++
++	switch (type) {
++	case 0:
++		halbtc8723d2ant_coex_table(btcoexist, force_exec,
++			   0xffffffff, 0xffffffff, break_table, select_table);
++		break;
++	case 1:
++		halbtc8723d2ant_coex_table(btcoexist, force_exec,
++			   0xaaaaaaaa, 0xaaaaaaaa, break_table, select_table);
++		break;
++	case 2:
++		halbtc8723d2ant_coex_table(btcoexist, force_exec,
++			   0x5a5a5a5a, 0x5a5a5a5a, break_table, select_table);
++		break;
++	case 3:
++		halbtc8723d2ant_coex_table(btcoexist, force_exec,
++			   0xdafadafa, 0xdafadafa, break_table, select_table);
++		break;
++	case 4:
++		halbtc8723d2ant_coex_table(btcoexist, force_exec,
++			   0xddffddff, 0xffbbffbb, break_table, select_table);
++		break;
++	case 5:
++		halbtc8723d2ant_coex_table(btcoexist, force_exec,
++			   0x5fff5fff, 0x5fff5fff, break_table, select_table);
++		break;
++	case 6:
++		halbtc8723d2ant_coex_table(btcoexist, force_exec,
++			   0x55ff55ff, 0x5a5a5a5a, break_table, select_table);
++		break;
++	case 7:
++		halbtc8723d2ant_coex_table(btcoexist, force_exec,
++			   0x5aff55ff, 0x5a7a5a7a, break_table, select_table);
++		break;
++	case 8:
++		halbtc8723d2ant_coex_table(btcoexist, force_exec,
++			   0x55555555, 0xaaaaaaaa, break_table, select_table);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8723d2ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable)
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8723d2ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8723d2ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8723d2ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8723d2ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8723d2ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8723d2ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++	u8	h2c_parameter[5] = {0, 0, 0, 0x40, 0};
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			/*halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8); */
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			/*halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);*/
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8723d2ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8723d2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8723d2ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		coex_sta->force_lps_on = true;
++		break;
++	case BTC_PS_LPS_OFF:
++		halbtc8723d2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	default:
++		break;
++	}
++}
++
++
++
++void halbtc8723d2ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], FW for 1Ant AP mode\n");
++			BTC_TRACE(trace_buf);
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++
++			halbtc8723d2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++							 0x0);
++		}
++	} else if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++
++		halbtc8723d2ant_power_save_state(
++			btcoexist, BTC_PS_LPS_ON, 0x50,
++			0x4);
++	} else {
++		halbtc8723d2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++						 0x0);
++	}
++
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++void halbtc8723d2ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++
++	static u8			psTdmaByte4Modify = 0x0, pre_psTdmaByte4Modify = 0x0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	/* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++	if ((bt_link_info->slave_role) && (bt_link_info->a2dp_exist))
++		psTdmaByte4Modify = 0x1;
++	else
++		psTdmaByte4Modify = 0x0;
++
++	if (pre_psTdmaByte4Modify != psTdmaByte4Modify) {
++
++		force_exec = true;
++		pre_psTdmaByte4Modify = psTdmaByte4Modify;
++	}
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], %s turn %s PS TDMA, type=%d\n",
++		(force_exec ? "force to" : ""), (turn_on ? "ON" : "OFF"), type);
++	BTC_TRACE(trace_buf);
++
++
++	if (turn_on)	{
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++	}
++
++
++	if (turn_on) {
++		switch (type) {
++		case 1:
++		default:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x03, 0xf1,
++						      0x14 | psTdmaByte4Modify);
++			break;
++		case 2:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x35, 0x03, 0x71,
++						      0x11 | psTdmaByte4Modify);
++			break;
++		case 3:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3a, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 4:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x21, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 5:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x30, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 6:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 7:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 11:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x30, 0x03, 0x71,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 12:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x21, 0x03, 0x71,
++						      0x11 | psTdmaByte4Modify);
++			break;
++		case 13:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x03, 0x71,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 101:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x10, 0x03, 0x70,
++						      0x14 | psTdmaByte4Modify);
++			break;
++		case 102:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x35, 0x03, 0x71,
++						      0x11 | psTdmaByte4Modify);
++			break;
++		case 103:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x3a, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 104:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x21, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 105:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x30, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 106:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1c, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 107:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x25, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++
++
++		}
++	} else {
++		/* disable PS tdma */
++		switch (type) {
++		case 0:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x40, 0x0);
++			break;
++		case 1:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x48, 0x0);
++			break;
++		default:
++			halbtc8723d2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x40, 0x0);
++			break;
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8723d2ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean init_hwcfg, IN boolean wifi_off)
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++	u32			u32tmp = 0;
++	boolean			pg_ext_switch = false;
++	u8			h2c_parameter[2] = {0}, u8tmp0 = 0;
++	boolean			is_in_mp_mode = false;
++	u32				u32tmp0 = 0, u32tmp1 = 0, u32tmp2 = 0;
++	u16				u16tmp0 = 0;
++
++
++	if (init_hwcfg) {
++
++		/* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++		halbtc8723d2ant_ltecoex_enable(btcoexist, 0x0);
++
++		/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++		halbtc8723d2ant_ltecoex_set_coex_table(btcoexist,
++				       BT_8723D_1ANT_CTT_WL_VS_LTE, 0xffff);
++
++		/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++		halbtc8723d2ant_ltecoex_set_coex_table(btcoexist,
++				       BT_8723D_1ANT_CTT_BT_VS_LTE, 0xffff);
++
++		/* Set Path control to WL */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x80, 0x1);
++
++		/* set Path control owner to WL at initial step */
++		halbtc8723d2ant_ltecoex_pathcontrol_owner(btcoexist,
++				BT_8723D_1ANT_PCO_WLSIDE);
++
++		/* set GNT_BT to high */
++		halbtc8723d2ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8723D_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_2ANT_SIG_STA_SET_TO_HIGH);
++		/* Set GNT_WL to high */
++		halbtc8723d2ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8723D_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_2ANT_SIG_STA_SET_TO_HIGH);
++
++		/* Send antenna info (inverse, non-inverse, Int/Ext)  to Firmware */
++		if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT) {
++			/* tell firmware "no antenna inverse" */
++			h2c_parameter[0] = 0;
++		} else {
++			/* tell firmware "antenna inverse" */
++			h2c_parameter[0] = 1;
++		}
++
++		/* int switch type */
++		h2c_parameter[1] = 0;
++		btcoexist->btc_fill_h2c(btcoexist, 0x65, 2, h2c_parameter);
++
++		coex_sta->gnt_control_by_PTA = false;
++	} else if (wifi_off) {
++		/* Disable LTE Coex Function in WiFi side */
++		halbtc8723d2ant_ltecoex_enable(btcoexist, 0x0);
++
++		/* Set Path control to BT */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x80, 0x0);
++
++		halbtc8723d2ant_ltecoex_pathcontrol_owner(btcoexist,
++			BT_8723D_1ANT_PCO_BTSIDE);/* set Path control owner to BT */
++
++		coex_sta->gnt_control_by_PTA = false;
++	} else {
++
++		/* set GNT_BT to PTA */
++		halbtc8723d2ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8723D_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_2ANT_GNT_TYPE_CTRL_BY_PTA,
++					   BT_8723D_2ANT_SIG_STA_SET_BY_HW);
++		/* Set GNT_WL to PTA */
++		halbtc8723d2ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8723D_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_2ANT_GNT_TYPE_CTRL_BY_PTA,
++					   BT_8723D_2ANT_SIG_STA_SET_BY_HW);
++
++		coex_sta->gnt_control_by_PTA = true;
++	}
++
++	switch (ant_pos_type) {
++	case BTC_ANT_WIFI_AT_MAIN:
++		u16tmp0 = btcoexist->btc_read_2byte(btcoexist, 0x948);
++		if ((u16tmp0 == 0x140) || (u16tmp0 == 0x40))
++			btcoexist->btc_write_2byte(btcoexist, 0x948, u16tmp0);
++		else
++			btcoexist->btc_write_2byte(btcoexist, 0x948, 0x0);
++		break;
++	case BTC_ANT_WIFI_AT_AUX:
++		u16tmp0 = btcoexist->btc_read_2byte(btcoexist, 0x948);
++		if ((u16tmp0 == 0x140) || (u16tmp0 == 0x40))
++			btcoexist->btc_write_2byte(btcoexist, 0x948, u16tmp0);
++		else
++			btcoexist->btc_write_2byte(btcoexist, 0x948, 0x280);
++		break;
++	}
++
++
++	u8tmp0 =  btcoexist->btc_read_1byte(btcoexist, 0x67);
++	u16tmp0 = btcoexist->btc_read_2byte(btcoexist, 0x948);
++	u32tmp0 = btcoexist->btc_read_4byte(btcoexist, 0x70);
++	u32tmp1 = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** 0x67 = 0x%x, 0x948 = 0x%x, 0x70 = 0x%x, 0x38= 0x%x, 0x54= 0x%x (After Set Ant Path) **********\n",
++		    u8tmp0, u16tmp0, u32tmp0, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++
++}
++
++u8 halbtc8723d2ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8723D_2ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 0) {
++
++		if (bt_link_info->acl_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], No-Profile busy\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8723D_2ANT_COEX_ALGO_NOPROFILEBUSY;
++		}
++	} else if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8723D_2ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_2ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_2ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_2ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + A2DP ==> A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_2ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8723D_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =	BT_8723D_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				{
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], HID + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_HID_A2DP;
++				}
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8723D_2ANT_COEX_ALGO_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], SCO + HID + A2DP ==> HID + A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8723D_2ANT_COEX_ALGO_HID_A2DP;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_PANEDR_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_PANEDR_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8723D_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++
++
++void halbtc8723d2ant_action_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++
++	halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* fw all off */
++	halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++void halbtc8723d2ant_action_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* fw all off */
++	halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	coex_sta->pop_event_cnt = 0;
++}
++
++void halbtc8723d2ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++
++	boolean	wifi_connected = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean			wifi_busy = false;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++	if (link || roam || coex_sta->wifi_is_high_pri_task) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi link/roam/hi-pri-task process + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     8);
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++
++	} else if (scan) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi scan process + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     8);
++
++		if (coex_sta->bt_create_connection)
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 12);
++		else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++
++	}  else if (wifi_connected) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     7);
++
++		if (wifi_busy) {
++
++			if ((bt_link_info->a2dp_exist) && (bt_link_info->acl_busy))
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++			else
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++
++		} else
++
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi no-link + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++	halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 0x18);
++	halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++void halbtc8723d2ant_action_wifi_link_process(IN struct btc_coexist *btcoexist)
++{
++	u32	u32tmp, u32tmpb;
++	u8	u8tmpa;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 0x18);
++	halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++	if ((bt_link_info->a2dp_exist) && (bt_link_info->acl_busy))
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++	else
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++
++void halbtc8723d2ant_action_wifi_nonconnected(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* fw all off */
++	halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8723d2ant_action_bt_idle(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++
++	boolean	wifi_connected = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean			wifi_busy = false;
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++	if (scan || link || roam) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi link process + BT Idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     7);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++	} else if (wifi_connected) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT Idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		if (wifi_busy) {
++			if (!BTC_RSSI_HIGH(bt_rssi_state2))
++				halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++								     2);
++			else
++				halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++								     0);
++		} else {
++			halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++							     0);
++		}
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi no-link + BT Idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++	halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 0x18);
++	halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++
++/* SCO only or SCO+PAN(HS) */
++void halbtc8723d2ant_action_sco(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}  else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++void halbtc8723d2ant_action_hid(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}  else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++/* A2DP only / PAN(EDR) only/ A2DP+PAN(HS) */
++void halbtc8723d2ant_action_a2dp(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy)
++
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 1);
++		else
++
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 2);
++	} else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy)
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 101);
++		else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 102);
++
++	}
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++void halbtc8723d2ant_action_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++#if 0
++	halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	coex_dm->is_switch_to_1dot5_ant = false;
++
++	halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++#endif
++
++
++#if 1
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy)
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++		else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 4);
++	} else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy)
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 103);
++		else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 104);
++
++	}
++
++#endif
++
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++/* PAN(HS) only */
++void halbtc8723d2ant_action_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++
++	} else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++}
++
++
++void halbtc8723d2ant_action_hid_a2dp(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy)
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 1);
++		else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 2);
++
++
++	} else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy)
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 101);
++		else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 102);
++
++	}
++
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++void halbtc8723d2ant_action_a2dp_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 7);
++			else
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		} else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++
++	} else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 107);
++			else
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 105);
++		} else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 106);
++
++	}
++
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++
++/* PAN(EDR)+A2DP */
++void halbtc8723d2ant_action_pan_edr_a2dp(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 7);
++			else
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		} else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++	} else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 107);
++			else
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 105);
++		} else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 106);
++
++	}
++
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++void halbtc8723d2ant_action_pan_edr_hid(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy)
++
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++		else
++
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 4);
++
++
++	} else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy)
++
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 103);
++		else
++
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 104);
++
++	}
++
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++/* HID+A2DP+PAN(EDR) */
++void halbtc8723d2ant_action_hid_a2dp_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8723d2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8723d2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 7);
++			else
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		} else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++	} else {
++
++		halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 107);
++			else
++				halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 105);
++		} else
++			halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 106);
++	}
++
++	/* sw mechanism */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++
++void halbtc8723d2ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw mechanism all off */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++}
++
++void halbtc8723d2ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8723d2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8723d2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw mechanism all off */
++	halbtc8723d2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8723d2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	/* hw all off */
++	halbtc8723d2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8723d2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++}
++
++void halbtc8723d2ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8				algorithm = 0;
++	u32				num_of_wifi_link = 0;
++	u32				wifi_link_status = 0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean				miracast_plus_bt = false;
++	boolean				scan = false, link = false, roam = false, wifi_connected = false;
++
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723d2ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	if (coex_sta->bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is disabled!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723d2ant_action_coex_all_off(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under inquiry/page scan !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723d2ant_action_bt_inquiry(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++	if (scan || link || roam) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under Link Process !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723d2ant_action_wifi_link_process(btcoexist);
++		return;
++	}
++
++	/* for P2P */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist)
++			miracast_plus_bt = true;
++		else
++			miracast_plus_bt = false;
++
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8723d2ant_action_wifi_multi_port(btcoexist);
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++
++	algorithm = halbtc8723d2ant_action_algorithm(btcoexist);
++	coex_dm->cur_algorithm = algorithm;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Algorithm = %d\n",
++		    coex_dm->cur_algorithm);
++	BTC_TRACE(trace_buf);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	if (!wifi_connected) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Action 2-Ant, wifi non-connected!!.\n");
++		BTC_TRACE(trace_buf);
++		halbtc8723d2ant_action_wifi_nonconnected(btcoexist);
++
++	} else if ((BT_8723D_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		coex_dm->bt_status) || (BT_8723D_2ANT_BT_STATUS_CONNECTED_IDLE ==
++					    coex_dm->bt_status)) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Action 2-Ant, bt idle!!.\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_action_bt_idle(btcoexist);
++
++	} else {
++
++		if (coex_dm->cur_algorithm != coex_dm->pre_algorithm) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], pre_algorithm=%d, cur_algorithm=%d\n",
++				coex_dm->pre_algorithm, coex_dm->cur_algorithm);
++			BTC_TRACE(trace_buf);
++		}
++
++		switch (coex_dm->cur_algorithm) {
++
++		case BT_8723D_2ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_sco(btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_hid(btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_a2dp(btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_a2dp_pan_hs(btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_pan_edr(btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_pan_hs(btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_pan_edr_a2dp(btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_pan_edr_hid(btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_hid_a2dp_pan_edr(
++				btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_hid_a2dp(btcoexist);
++			break;
++		case BT_8723D_2ANT_COEX_ALGO_NOPROFILEBUSY:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = No-Profile busy.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_bt_idle(btcoexist);
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_action_coex_all_off(btcoexist);
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8723d2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean wifi_only)
++{
++	u8	u8tmp = 0;
++	u32	 vendor;
++	u32				u32tmp0 = 0, u32tmp1 = 0, u32tmp2 = 0;
++
++
++	u8tmp =	btcoexist->btc_read_1byte(btcoexist, 0x67);
++	u32tmp0 = btcoexist->btc_read_4byte(btcoexist, 0x70);
++	u32tmp1 = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** 0x67 = 0x%x, 0x70 = 0x%x, 0x38= 0x%x, 0x54= 0x%x (Before Init HW config) **********\n",
++		    u8tmp, u32tmp0, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 2Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++#if 0
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_VENDOR, &vendor);
++	if (vendor == BTC_VENDOR_LENOVO)
++		coex_dm->switch_thres_offset = 0;
++	else
++		coex_dm->switch_thres_offset = 20;
++#endif
++	/* 0xf0[15:12] --> Chip Cut information */
++	coex_sta->cut_version = (btcoexist->btc_read_1byte(btcoexist,
++				 0xf1) & 0xf0) >> 4;
++
++	coex_sta->dis_ver_info_cnt = 0;
++
++	/* default isolation = 15dB */
++	coex_sta->isolation_btween_wb = BT_8723D_2ANT_DEFAULT_ISOLATION;
++	halbtc8723d2ant_coex_switch_threshold(btcoexist, coex_sta->isolation_btween_wb);
++
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++
++	/* BT report packet sample rate	 */
++	btcoexist->btc_write_1byte(btcoexist, 0x790, 0x5);
++
++	/* Init 0x778 = 0x1 for 2-Ant */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++
++	/* Enable PTA (3-wire function form BT side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x41, 0x02, 0x1);
++
++	/* Enable PTA (tx/rx signal form WiFi side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4c6, 0x10, 0x1);
++
++	halbtc8723d2ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++	/* check if WL firmware download ok */
++	if (btcoexist->btc_read_1byte(btcoexist, 0x80) == 0xc6)
++		halbtc8723d2ant_post_onoffstate_to_bt(btcoexist, true);
++
++	/* Enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e,
++			   0x4); /* 0x76e[3] =1, WLAN_Act control by PTA */
++
++	if (wifi_only) {
++		coex_sta->concurrent_rx_mode_on = false;
++		/* Path config	 */
++		halbtc8723d2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, true,
++					     false);
++		halbtc8723d2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, false,
++					     false);
++	} else {
++		/* coex_sta->concurrent_rx_mode_on = true; */
++		/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0x953, 0x2, 0x1); */
++
++		/* RF 0x1[0] = 0->Set GNT_WL_RF_Rx always = 1 for con-current Rx */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0x1, 0x0);
++
++		/* Path config	 */
++		halbtc8723d2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, true,
++					     false);
++	}
++
++	/* WLAN_Tx by GNT_WL  0x950[29] = 0 */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x953, 0x20, 0x0);
++
++	halbtc8723d2ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	halbtc8723d2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++
++	u8tmp =	btcoexist->btc_read_1byte(btcoexist, 0x67);
++	u32tmp0 = btcoexist->btc_read_4byte(btcoexist, 0x70);
++	u32tmp1 = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** 0x67 = 0x%x, 0x70 = 0x%x, 0x38= 0x%x, 0x54= 0x%x (After Init HW config) **********\n",
++		    u8tmp, u32tmp0, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++
++	psd_scan->ant_det_is_ant_det_available = TRUE;
++
++}
++
++u32 halbtc8723d2ant_psd_log2base(IN struct btc_coexist *btcoexist, IN u32 val)
++{
++	u8	j;
++	u32	tmp, tmp2, val_integerd_b = 0, tindex, shiftcount = 0;
++	u32	result, val_fractiond_b = 0, table_fraction[21] = {0, 432, 332, 274, 232, 200,
++				   174, 151, 132, 115, 100, 86, 74, 62, 51, 42,
++							   32, 23, 15, 7, 0
++							      };
++
++	if (val == 0)
++		return 0;
++
++	tmp = val;
++
++	while (1) {
++		if (tmp == 1)
++			break;
++		else {
++			tmp = (tmp >> 1);
++			shiftcount++;
++		}
++	}
++
++
++	val_integerd_b = shiftcount + 1;
++
++	tmp2 = 1;
++	for (j = 1; j <= val_integerd_b; j++)
++		tmp2 = tmp2 * 2;
++
++	tmp = (val * 100) / tmp2;
++	tindex = tmp / 5;
++
++	if (tindex > 20)
++		tindex = 20;
++
++	val_fractiond_b = table_fraction[tindex];
++
++	result = val_integerd_b * 100 - val_fractiond_b;
++
++	return result;
++
++
++}
++
++void halbtc8723d2ant_psd_show_antenna_detect_result(IN struct btc_coexist
++		*btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n============[Antenna Detection info]  ============\n");
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 1)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (>%d)",
++			   "Ant Det Result", "2-Antenna (Bad-Isolation)",
++			   BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else if (psd_scan->ant_det_result == 2)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "2-Antenna (Good-Isolation)",
++			   BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset,
++			   BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "1-Antenna",
++			   BT_8723D_2ANT_ANTDET_PSDTHRES_1ANT,
++			   BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset);
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s ",
++		   "Antenna Detection Finish",
++		   (board_info->btdm_ant_det_finish
++		    ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	switch (psd_scan->ant_det_result) {
++	case 0:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not available)");
++		break;
++	case 1:  /* 2-Ant bad-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 2:  /* 2-Ant good-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 3:  /* 1-Ant */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 4:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Uncertainty result)");
++		break;
++	case 5:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "(Pre-Scan fai)");
++		break;
++	case 6:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(WiFi is Scanning)");
++		break;
++	case 7:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not idle)");
++		break;
++	case 8:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Abort by WiFi Scanning)");
++		break;
++	case 9:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Antenna Init is not ready)");
++		break;
++	case 10:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Inquiry or page)");
++		break;
++	case 11:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Disabled)");
++		break;
++	}
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Total Count", psd_scan->ant_det_try_count);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Fail Count", psd_scan->ant_det_fail_count);
++	CL_PRINTF(cli_buf);
++
++	if ((!board_info->btdm_ant_det_finish) &&
++	    (psd_scan->ant_det_result != 5))
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "BT Response",
++		   (psd_scan->ant_det_result ? "ok" : "fail"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ms", "BT Tx Time",
++		   psd_scan->ant_det_bt_tx_time);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "BT Tx Ch",
++		   psd_scan->ant_det_bt_le_channel);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d",
++		   "WiFi PSD Cent-Ch/Offset/Span",
++		   psd_scan->real_cent_freq, psd_scan->real_offset,
++		   psd_scan->real_span);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d dB",
++		   "PSD Pre-Scan Peak Value",
++		   psd_scan->ant_det_pre_psdscan_peak_val / 100);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (<= %d)",
++		   "PSD Pre-Scan result",
++		   (psd_scan->ant_det_result != 5 ? "ok" : "fail"),
++		   BT_8723D_2ANT_ANTDET_PSDTHRES_BACKGROUND
++		   + psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 5)
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s dB",
++		   "PSD Scan Peak Value", psd_scan->ant_det_peak_val);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s MHz",
++		   "PSD Scan Peak Freq", psd_scan->ant_det_peak_freq);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "TFBGA Package",
++		   (board_info->tfbga_package) ?  "Yes" : "No");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "PSD Threshold Offset", psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++}
++
++void halbtc8723d2ant_psd_showdata(IN struct btc_coexist *btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	u32		delta_freq_per_point;
++	u32		freq, freq1, freq2, n = 0, i = 0, j = 0, m = 0, psd_rep1, psd_rep2;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n\n============[PSD info]  (%d)============\n",
++		   psd_scan->psd_gen_count);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->psd_gen_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n No data !!\n");
++		CL_PRINTF(cli_buf);
++		return;
++	}
++
++	if (psd_scan->psd_point == 0)
++		delta_freq_per_point = 0;
++	else
++		delta_freq_per_point = psd_scan->psd_band_width /
++				       psd_scan->psd_point;
++
++	/* if (psd_scan->is_psd_show_max_only) */
++	if (0) {
++		psd_rep1 = psd_scan->psd_max_value / 100;
++		psd_rep2 = psd_scan->psd_max_value - psd_rep1 * 100;
++
++		freq = ((psd_scan->real_cent_freq - 20) * 1000000 +
++			psd_scan->psd_max_value_point * delta_freq_per_point);
++		freq1 = freq / 1000000;
++		freq2 = freq / 1000 - freq1 * 1000;
++
++		if (freq2 < 100)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.0%d MHz",
++				   freq1, freq2);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.%d MHz",
++				   freq1, freq2);
++
++		if (psd_rep2 < 10)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.0%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++
++		CL_PRINTF(cli_buf);
++	} else {
++		m = psd_scan->psd_start_point;
++		n = psd_scan->psd_start_point;
++		i = 1;
++		j = 1;
++
++		while (1) {
++			do {
++				freq = ((psd_scan->real_cent_freq - 20) * 1000000 + m *
++					delta_freq_per_point);
++				freq1 = freq / 1000000;
++				freq2 = freq / 1000 - freq1 * 1000;
++
++				if (i == 1) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.0%2d", freq1,
++							   freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.%3d", freq1,
++							   freq2);
++				} else if ((i % 8 == 0) ||
++					   (m == psd_scan->psd_stop_point)) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000\n", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d\n", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d\n", freq1, freq2);
++				} else {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d", freq1, freq2);
++				}
++
++				i++;
++				m++;
++				CL_PRINTF(cli_buf);
++
++			} while ((i <= 8) && (m <= psd_scan->psd_stop_point));
++
++
++			do {
++				psd_rep1 = psd_scan->psd_report_max_hold[n] / 100;
++				psd_rep2 = psd_scan->psd_report_max_hold[n] - psd_rep1 *
++					   100;
++
++				if (j == 1) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.0%d", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.%d", psd_rep1,
++							   psd_rep2);
++				} else if ((j % 8 == 0)  ||
++					   (n == psd_scan->psd_stop_point)) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d\n", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d\n", psd_rep1, psd_rep2);
++				} else {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d", psd_rep1, psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d", psd_rep1, psd_rep2);
++				}
++
++				j++;
++				n++;
++				CL_PRINTF(cli_buf);
++
++			} while ((j <= 8) && (n <= psd_scan->psd_stop_point));
++
++			if ((m > psd_scan->psd_stop_point) ||
++			    (n > psd_scan->psd_stop_point))
++				break;
++			else {
++				i = 1;
++				j = 1;
++			}
++
++		}
++	}
++
++
++}
++
++void halbtc8723d2ant_psd_maxholddata(IN struct btc_coexist *btcoexist,
++				     IN u32 gen_count)
++{
++	u32	i = 0, i_max = 0, val_max = 0;
++
++	if (gen_count == 1) {
++		memcpy(psd_scan->psd_report_max_hold,
++		       psd_scan->psd_report,
++		       BT_8723D_2ANT_ANTDET_PSD_POINTS * sizeof(u32));
++
++		psd_scan->psd_max_value_point = 0;
++		psd_scan->psd_max_value = 0;
++
++	} else {
++		for (i = psd_scan->psd_start_point;
++		     i <= psd_scan->psd_stop_point; i++) {
++			if (psd_scan->psd_report[i] >
++			    psd_scan->psd_report_max_hold[i])
++				psd_scan->psd_report_max_hold[i] =
++					psd_scan->psd_report[i];
++
++			/* search Max Value */
++			if (i == psd_scan->psd_start_point) {
++				i_max = i;
++				val_max = psd_scan->psd_report_max_hold[i];
++			} else {
++				if (psd_scan->psd_report_max_hold[i] >
++				    val_max) {
++					i_max = i;
++					val_max = psd_scan->psd_report_max_hold[i];
++				}
++			}
++
++		}
++
++		psd_scan->psd_max_value_point = i_max;
++		psd_scan->psd_max_value = val_max;
++
++	}
++
++
++}
++
++u32 halbtc8723d2ant_psd_getdata(IN struct btc_coexist *btcoexist, IN u32 point)
++{
++	/* reg 0x808[9:0]: FFT data x */
++	/* reg 0x808[22]: 0-->1 to get 1 FFT data y */
++	/* reg 0x8b4[15:0]: FFT data y report */
++
++	u32 val = 0, psd_report = 0;
++	int k = 0;
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++
++	val &= 0xffbffc00;
++	val |= point;
++
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	val |= 0x00400000;
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	while (1) {
++		if (k++ > BT_8723D_2ANT_ANTDET_SWEEPPOINT_DELAY)
++			break;
++	}
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x8b4);
++
++	psd_report = val & 0x0000ffff;
++
++	return psd_report;
++}
++
++
++boolean halbtc8723d2ant_psd_sweep_point(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN s32 offset, IN u32 span, IN u32 points,
++					IN u32 avgnum, IN u32 loopcnt)
++{
++	u32	 i = 0, val = 0, n = 0, k = 0, j, point_index = 0;
++	u32	points1 = 0, psd_report = 0;
++	u32	start_p = 0, stop_p = 0, delta_freq_per_point = 156250;
++	u32    psd_center_freq = 20 * 10 ^ 6;
++	boolean outloop = false, scan , roam, is_sweep_ok = true;
++	u8	 flag = 0;
++	u32	tmp = 0, u32tmp1 = 0;
++	u32	wifi_original_channel = 1;
++
++	psd_scan->is_psd_running = true;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Start!!\n");
++	BTC_TRACE(trace_buf);
++
++	do {
++		switch (flag) {
++		case 0:  /* Get PSD parameters */
++		default:
++
++			psd_scan->psd_band_width = 40 * 1000000;
++			psd_scan->psd_point = points;
++			psd_scan->psd_start_base = points / 2;
++			psd_scan->psd_avg_num = avgnum;
++			psd_scan->real_cent_freq = cent_freq;
++			psd_scan->real_offset = offset;
++			psd_scan->real_span = span;
++
++
++			points1 = psd_scan->psd_point;
++			delta_freq_per_point = psd_scan->psd_band_width /
++					       psd_scan->psd_point;
++
++			/* PSD point setup */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffff0fff;
++
++			switch (psd_scan->psd_point) {
++			case 128:
++				val |= 0x0;
++				break;
++			case 256:
++			default:
++				val |= 0x00004000;
++				break;
++			case 512:
++				val |= 0x00008000;
++				break;
++			case 1024:
++				val |= 0x0000c000;
++				break;
++			}
++
++			switch (psd_scan->psd_avg_num) {
++			case 1:
++				val |= 0x0;
++				break;
++			case 8:
++				val |= 0x00001000;
++				break;
++			case 16:
++				val |= 0x00002000;
++				break;
++			case 32:
++			default:
++				val |= 0x00003000;
++				break;
++			}
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			flag = 1;
++			break;
++		case 1:	  /* calculate the PSD point index from freq/offset/span */
++			psd_center_freq = psd_scan->psd_band_width / 2 +
++					  offset * (1000000);
++
++			start_p = psd_scan->psd_start_base + (psd_center_freq -
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_start_point = start_p -
++						    psd_scan->psd_start_base;
++
++			stop_p = psd_scan->psd_start_base + (psd_center_freq +
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_stop_point = stop_p -
++						   psd_scan->psd_start_base - 1;
++
++			flag = 2;
++			break;
++		case 2:  /* set RF channel/BW/Mode */
++
++			/* set 3-wire off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val |= 0x00300000;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val &= 0xfeffffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause on */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x6f);
++
++			/* store WiFi original channel */
++			wifi_original_channel = btcoexist->btc_get_rf_reg(
++					btcoexist, BTC_RF_A, 0x18, 0x3ff);
++
++			/* Set RF channel */
++			if (cent_freq == 2484)
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++							  0x18, 0x3ff, 0xe);
++			else
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++					  0x18, 0x3ff, (cent_freq - 2412) / 5 +
++						  1); /* WiFi TRx Mask on */
++
++			/* save original RCK value */
++			u32tmp1 =  btcoexist->btc_get_rf_reg(
++					   btcoexist, BTC_RF_A, 0x1d, 0xfffff);
++
++			/* Enter debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x1);
++
++			/* Set RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, 0x2e);
++
++
++			/* Set  RF mode = Rx, RF Gain = 0x320a0 */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x0,
++						  0xfffff, 0x320a0);
++
++			while (1) {
++				if (k++ > BT_8723D_2ANT_ANTDET_SWEEPPOINT_DELAY)
++					break;
++			}
++			flag = 3;
++			break;
++		case 3:
++			psd_scan->psd_gen_count = 0;
++
++			for (j = 1; j <= loopcnt; j++) {
++
++				/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x0, 0xfffff, 0x320a0); */
++
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_SCAN, &scan);
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_ROAM, &roam);
++
++				if (scan || roam) {
++					is_sweep_ok = false;
++					break;
++				}
++				memset(psd_scan->psd_report, 0,
++				       psd_scan->psd_point * sizeof(u32));
++				start_p = psd_scan->psd_start_point +
++					  psd_scan->psd_start_base;
++				stop_p = psd_scan->psd_stop_point +
++					 psd_scan->psd_start_base + 1;
++
++				i = start_p;
++				point_index = 0;
++
++				while (i < stop_p) {
++					if (i >= points1)
++						psd_report =
++							halbtc8723d2ant_psd_getdata(
++							btcoexist, i - points1);
++					else
++						psd_report =
++							halbtc8723d2ant_psd_getdata(
++								btcoexist, i);
++
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"Point=%d, psd_raw_data = 0x%08x\n",
++						    i, psd_report);
++					BTC_TRACE(trace_buf);
++					if (psd_report == 0)
++						tmp = 0;
++					else
++						/* tmp =  20*log10((double)psd_report); */
++						/* 20*log2(x)/log2(10), log2Base return theresult of the psd_report*100 */
++						tmp = 6 * halbtc8723d2ant_psd_log2base(
++							btcoexist, psd_report);
++
++					n = i - psd_scan->psd_start_base;
++					psd_scan->psd_report[n] =  tmp;
++
++
++					halbtc8723d2ant_psd_maxholddata(
++						btcoexist, j);
++
++					i++;
++
++				}
++
++				psd_scan->psd_gen_count = j;
++
++
++				/*
++				val = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++				tmp = btcoexist->btc_read_4byte(btcoexist, 0x64);
++				u32tmp1 =  btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"0x54 = 0x%08x, 0x67 = 0x%08x, 0x6c4 = 0x%08x\n", val, (tmp & 0xff000000) >> 24 ,u32tmp1);
++					BTC_TRACE(trace_buf);
++				*/
++
++			}
++
++			flag = 100;
++			break;
++		case 99:	/* error */
++
++			outloop = true;
++			break;
++		case 100: /* recovery */
++
++			/* set 3-wire on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val &= 0xffcfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val |= 0x01000000;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause off */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x0);
++
++			/* PSD off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffbfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			/* restore RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, u32tmp1);
++
++			/* Exit debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x0);
++
++			/* restore WiFi original channel */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x18,
++						  0x3ff, wifi_original_channel);
++
++			outloop = true;
++			break;
++
++		}
++
++	} while (!outloop);
++
++
++
++	psd_scan->is_psd_running = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Stop!!\n");
++	BTC_TRACE(trace_buf);
++	return is_sweep_ok;
++
++}
++
++void halbtc8723d2ant_psd_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 bt_tx_time, IN u32 bt_le_channel)
++{
++	u32	i = 0;
++	u32	wlpsd_cent_freq = 2484, wlpsd_span = 2, wlpsd_sweep_count = 50;
++	s32	wlpsd_offset = -4;
++	u8	bt_le_ch[13] = {3, 6, 8, 11, 13, 16, 18, 21, 23, 26, 28, 31, 33};
++
++	u8	h2c_parameter[3] = {0}, u8tmpa, u8tmpb;
++
++	u8	state = 0;
++	boolean		outloop = false, bt_resp = false;
++	u32		freq, freq1, freq2, psd_rep1, psd_rep2, delta_freq_per_point,
++			u32tmp, u32tmp0, u32tmp1, u32tmp2;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	board_info->btdm_ant_det_finish = false;
++	memset(psd_scan->ant_det_peak_val, 0, 16 * sizeof(u8));
++	memset(psd_scan->ant_det_peak_freq, 0, 16 * sizeof(u8));
++
++	if (board_info->tfbga_package) /* for TFBGA */
++		psd_scan->ant_det_thres_offset = 5;
++	else
++		psd_scan->ant_det_thres_offset = 0;
++
++	do {
++		switch (state) {
++		case 0:
++			if (bt_le_channel == 39)
++				wlpsd_cent_freq = 2484;
++			else {
++				for (i = 1; i <= 13; i++) {
++					if (bt_le_ch[i - 1] ==
++					    bt_le_channel) {
++						wlpsd_cent_freq = 2412
++								  + (i - 1) * 5;
++						break;
++					}
++				}
++
++				if (i == 14) {
++
++					BTC_SPRINTF(trace_buf,
++						    BT_TMP_BUF_SIZE,
++						"xxxxxxxxxxxxxxxx AntennaDetect(), Abort!!, Invalid LE channel = %d\n ",
++						    bt_le_channel);
++					BTC_TRACE(trace_buf);
++					outloop = true;
++					break;
++				}
++			}
++
++			wlpsd_sweep_count = bt_tx_time * 238 /
++					    100; /* bt_tx_time/0.42								 */
++			wlpsd_sweep_count = wlpsd_sweep_count / 5;
++
++			if (wlpsd_sweep_count % 5 != 0)
++				wlpsd_sweep_count = (wlpsd_sweep_count /
++						     5 + 1) * 5;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), BT_LETxTime=%d,  BT_LECh = %d\n",
++				    bt_tx_time, bt_le_channel);
++			BTC_TRACE(trace_buf);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), wlpsd_cent_freq=%d,  wlpsd_offset = %d, wlpsd_span = %d, wlpsd_sweep_count = %d\n",
++				    wlpsd_cent_freq,
++				    wlpsd_offset,
++				    wlpsd_span,
++				    wlpsd_sweep_count);
++			BTC_TRACE(trace_buf);
++
++			state = 1;
++			break;
++		case 1: /* stop coex DM & set antenna path */
++			/* Stop Coex DM */
++			/*
++			btcoexist->stop_coex_dm = true;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stop Coex DM!!\n");
++			BTC_TRACE(trace_buf);  */
++
++			/* Set TDMA off,				 */
++			halbtc8723d2ant_ps_tdma(btcoexist, FORCE_EXEC,
++						false, 0);
++
++			/* Set coex table */
++			halbtc8723d2ant_coex_table_with_type(btcoexist,
++							     FORCE_EXEC, 0);
++
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Main Port\n");
++				BTC_TRACE(trace_buf);
++
++
++				/* Set Antenna Path,  both GNT_WL/GNT_BT = 1, and control by SW */
++				/* Set Antenna path, switch WiFi to un-certain antenna port */
++
++				halbtc8723d2ant_set_ant_path(btcoexist,
++						     BTC_ANT_WIFI_AT_AUX, true,
++							     false);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Aux Port\n");
++				BTC_TRACE(trace_buf);
++
++
++				/* Set Antenna Path,  both GNT_WL/GNT_BT = 1, and control by SW */
++				/* Set Antenna path, switch WiFi to un-certain antenna port */
++
++				halbtc8723d2ant_set_ant_path(btcoexist,
++						     BTC_ANT_WIFI_AT_MAIN, true,
++							     false);
++			}
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to BT!!\n");
++			BTC_TRACE(trace_buf);
++
++			/* Set AFH mask on at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x1;
++			h2c_parameter[1] = 0xd;
++			h2c_parameter[2] = 0x14;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1],
++				    h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			u32tmp = btcoexist->btc_read_2byte(btcoexist, 0x948);
++			u32tmp0 = btcoexist->btc_read_4byte(btcoexist, 0x70);
++			u32tmp1 = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++			u32tmp2 = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], ********** 0x948 = 0x%x, 0x70 = 0x%x, 0x38= 0x%x, 0x54= 0x%x (Before Ant Det) **********\n",
++				    u32tmp, u32tmp0, u32tmp1, u32tmp2);
++			BTC_TRACE(trace_buf);
++
++			state = 2;
++			break;
++		case 2:	/* Pre-sweep background psd */
++			if (!halbtc8723d2ant_psd_sweep_point(btcoexist,
++				     wlpsd_cent_freq, wlpsd_offset, wlpsd_span,
++					     BT_8723D_2ANT_ANTDET_PSD_POINTS,
++				     BT_8723D_2ANT_ANTDET_PSD_AVGNUM, 3)) {
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++			psd_scan->ant_det_pre_psdscan_peak_val =
++				psd_scan->psd_max_value;
++
++			if (psd_scan->psd_max_value >
++			    (BT_8723D_2ANT_ANTDET_PSDTHRES_BACKGROUND
++			     + psd_scan->ant_det_thres_offset) * 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Abort Antenna Detection!! becaus background = %d > thres (%d)\n",
++					    psd_scan->psd_max_value / 100,
++					BT_8723D_2ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 5;
++				state = 99;
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Start Antenna Detection!! becaus background = %d <= thres (%d)\n",
++					    psd_scan->psd_max_value / 100,
++					BT_8723D_2ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				state = 3;
++			}
++			break;
++		case 3:
++			bt_resp = btcoexist->btc_set_bt_ant_detection(
++					  btcoexist, (u8)(bt_tx_time & 0xff),
++					  (u8)(bt_le_channel & 0xff));
++
++			if (!halbtc8723d2ant_psd_sweep_point(btcoexist,
++					     wlpsd_cent_freq, wlpsd_offset,
++							     wlpsd_span,
++					     BT_8723D_2ANT_ANTDET_PSD_POINTS,
++					     BT_8723D_2ANT_ANTDET_PSD_AVGNUM,
++						     wlpsd_sweep_count)) {
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++			psd_scan->ant_det_psd_scan_peak_val =
++				psd_scan->psd_max_value;
++			psd_scan->ant_det_psd_scan_peak_freq =
++				psd_scan->psd_max_value_point;
++			state = 4;
++			break;
++		case 4:
++
++			if (psd_scan->psd_point == 0)
++				delta_freq_per_point = 0;
++			else
++				delta_freq_per_point =
++					psd_scan->psd_band_width /
++					psd_scan->psd_point;
++
++			psd_rep1 = psd_scan->psd_max_value / 100;
++			psd_rep2 = psd_scan->psd_max_value - psd_rep1 *
++				   100;
++
++			freq = ((psd_scan->real_cent_freq - 20) *
++				1000000 + psd_scan->psd_max_value_point
++				* delta_freq_per_point);
++			freq1 = freq / 1000000;
++			freq2 = freq / 1000 - freq1 * 1000;
++
++			if (freq2 < 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.0%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8723D_2ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", freq1, freq2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8723D_2ANT_ANTDET_BUF_LEN,
++					   "%d.%d", freq1, freq2);
++			}
++
++			if (psd_rep2 < 10) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.0%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8723D_2ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", psd_rep1, psd_rep2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8723D_2ANT_ANTDET_BUF_LEN,
++					   "%d.%d", psd_rep1, psd_rep2);
++			}
++
++			psd_scan->ant_det_is_btreply_available = true;
++
++			if (bt_resp == false) {
++				psd_scan->ant_det_is_btreply_available =
++					false;
++				psd_scan->ant_det_result = 0;
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), BT Response = Fail\n ");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				(BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION)
++				   * 100) {
++				psd_scan->ant_det_result = 1;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				coex_sta->isolation_btween_wb = (u8)(85 - psd_scan->psd_max_value / 100) & 0xff;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Bad-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				(BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++				    + psd_scan->ant_det_thres_offset) * 100) {
++				psd_scan->ant_det_result = 2;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				coex_sta->isolation_btween_wb = (u8)(85 - psd_scan->psd_max_value / 100) & 0xff;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Good-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				   (BT_8723D_2ANT_ANTDET_PSDTHRES_1ANT) *
++				   100) {
++				psd_scan->ant_det_result = 3;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				coex_sta->isolation_btween_wb = (u8)(85 - psd_scan->psd_max_value / 100) & 0xff;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant!!\n");
++				BTC_TRACE(trace_buf);
++			} else {
++				psd_scan->ant_det_result = 4;
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant, un-certainity!!\n");
++				BTC_TRACE(trace_buf);
++			}
++
++			state = 99;
++			break;
++		case 99:  /* restore setup */
++
++			/* Set AFH mask off at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x0;
++			h2c_parameter[1] = 0x0;
++			h2c_parameter[2] = 0x0;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1], h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			/* Set Antenna Path, GNT_WL/GNT_BT control by PTA */
++			/* Set Antenna path, switch WiFi to certain antenna port */
++			halbtc8723d2ant_set_ant_path(btcoexist,
++					     BTC_ANT_WIFI_AT_MAIN, false,
++						     false);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to PTA\n!!");
++			BTC_TRACE(trace_buf);
++
++			/* Resume Coex DM */
++			/*
++			btcoexist->stop_coex_dm = false;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Resume Coex DM\n!!");
++			BTC_TRACE(trace_buf);  */
++
++			/* stimulate coex running */
++			/*
++			halbtc8723d2ant_run_coexist_mechanism(
++				btcoexist);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stimulate Coex running\n!!");
++			BTC_TRACE(trace_buf);  */
++
++			outloop = true;
++			break;
++		}
++
++	} while (!outloop);
++
++
++
++}
++
++void halbtc8723d2ant_psd_antenna_detection_check(IN struct btc_coexist
++		*btcoexist)
++{
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	boolean scan, roam;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++
++	/* psd_scan->ant_det_bt_tx_time = 20; */
++	psd_scan->ant_det_bt_tx_time =
++		BT_8723D_2ANT_ANTDET_BTTXTIME;	   /* 0.42ms*50 = 20ms (0.42ms = 1 PSD sweep) */
++	psd_scan->ant_det_bt_le_channel = BT_8723D_2ANT_ANTDET_BTTXCHANNEL;
++
++	ant_det_count++;
++
++	psd_scan->ant_det_try_count = ant_det_count;
++
++	if (scan || roam) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 6;
++	} else if (coex_sta->bt_disabled) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 11;
++	} else if (coex_sta->num_of_profile >= 1) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 7;
++	} else if (
++		!psd_scan->ant_det_is_ant_det_available) { /* Antenna initial setup is not ready */
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 9;
++	} else if (coex_sta->c2h_bt_inquiry_page) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 10;
++	} else {
++
++		btcoexist->stop_coex_dm = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"xxxxxxxxxxxxxxxx AntennaDetect(), Stop Coex DM!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_psd_antenna_detection(btcoexist,
++					      psd_scan->ant_det_bt_tx_time,
++					      psd_scan->ant_det_bt_le_channel);
++
++		delay_ms(psd_scan->ant_det_bt_tx_time);
++
++		btcoexist->stop_coex_dm = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"xxxxxxxxxxxxxxxx AntennaDetect(), Resume Coex DM\n!!");
++		BTC_TRACE(trace_buf);
++
++		/* stimulate coex running */
++
++		halbtc8723d2ant_run_coexist_mechanism(
++			btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"xxxxxxxxxxxxxxxx AntennaDetect(), Stimulate Coex running\n!!");
++		BTC_TRACE(trace_buf);
++	}
++
++
++	if (!board_info->btdm_ant_det_finish)
++		ant_det_fail_count++;
++
++	psd_scan->ant_det_fail_count = ant_det_fail_count;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx AntennaDetect(), result = %d, fail_count = %d, finish = %s\n",
++		    psd_scan->ant_det_result,
++		    psd_scan->ant_det_fail_count,
++		    board_info->btdm_ant_det_finish == TRUE ? "Yes" : "No");
++	BTC_TRACE(trace_buf);
++
++}
++
++
++/* ************************************************************
++ * work around function start with wa_halbtc8723d2ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8723d2ant_
++ * ************************************************************ */
++void ex_halbtc8723d2ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x0;
++	u16 u16tmp = 0x0;
++	u32	value = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx Execute 8723d 2-Ant PowerOn Setting xxxxxxxxxxxxxxxx!!\n");
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "Ant Det Finish = %s, Ant Det Number  = %d\n",
++		    (board_info->btdm_ant_det_finish ? "Yes" : "No"),
++		    board_info->btdm_ant_num_by_ant_det);
++	BTC_TRACE(trace_buf);
++
++
++	btcoexist->stop_coex_dm = true;
++	psd_scan->ant_det_is_ant_det_available = FALSE;
++
++	/* enable BB, REG_SYS_FUNC_EN such that we can write BB Register correctly. */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x2);
++	btcoexist->btc_write_2byte(btcoexist, 0x2, u16tmp | BIT(0) | BIT(1));
++
++	/* set Path control owner to WiFi */
++	halbtc8723d2ant_ltecoex_pathcontrol_owner(btcoexist,
++			BT_8723D_2ANT_PCO_WLSIDE);
++
++	/* set GNT_BT to high */
++	halbtc8723d2ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8723D_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_2ANT_SIG_STA_SET_TO_HIGH);
++	/* Set GNT_WL to high */
++	halbtc8723d2ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8723D_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8723D_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8723D_2ANT_SIG_STA_SET_TO_HIGH);
++
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++
++	/* Set path control to WL */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, 0x80, 0x1);
++	btcoexist->btc_write_2byte(btcoexist, 0x948, 0x0);
++
++	/* Check efuse 0xc3[6] for Single Antenna Path */
++	if (board_info->single_ant_path == 0) {
++		/* set to S1 */
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++		u8tmp = 4;
++	} else if (board_info->single_ant_path == 1) {
++		/* set to S0 */
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++		u8tmp = 5;
++	}
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Power On) single_ant_path  = %d, btdm_ant_pos = %d **********\n",
++		    board_info->single_ant_path , board_info->btdm_ant_pos);
++	BTC_TRACE(trace_buf);
++
++	/* Write Single Antenna Position to Registry to tell BT for 872db. This line can be removed
++	since BT EFuse also add "single antenna position" in EFuse for 8723d*/
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_ANTPOSREGRISTRY_CTRL,
++			   &value);
++
++	/* Save"single antenna position" info in Local register setting for FW reading, because FW may not ready at  power on */
++	if (btcoexist->chip_interface == BTC_INTF_PCI)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x3e0, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_USB)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60, u8tmp);
++
++	/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++	halbtc8723d2ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********  LTE coex Reg 0x38 (Power-On) = 0x%x**********\n",
++		    halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x38));
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********  MAC Reg 0x70/ BB Reg 0x948 (Power-On) = 0x%x / 0x%x**********\n",
++		btcoexist->btc_read_4byte(btcoexist, 0x70), btcoexist->btc_read_2byte(btcoexist, 0x948));
++	BTC_TRACE(trace_buf);
++}
++
++void ex_halbtc8723d2ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x4; /* Set BIT2 by default since it's 2ant case */
++
++	/* */
++	/* S0 or S1 setting and Local register setting(By the setting fw can get ant number, S0/S1, ... info) */
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++	if (btcoexist->chip_interface == BTC_INTF_USB) {
++		/* fixed at S0 for USB interface */
++		u8tmp |= 0x1;	/* antenna inverse */
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	} else {
++		/* for PCIE and SDIO interface, we check efuse 0xc3[6] */
++		if (board_info->single_ant_path == 0) {
++		} else if (board_info->single_ant_path == 1) {
++			/* set to S0 */
++			u8tmp |= 0x1;	/* antenna inverse */
++		}
++
++		if (btcoexist->chip_interface == BTC_INTF_PCI)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x3e0,
++							     u8tmp);
++		else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60,
++							     u8tmp);
++	}
++}
++
++
++void ex_halbtc8723d2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	btcoexist->stop_coex_dm = false;
++	halbtc8723d2ant_init_hw_config(btcoexist, wifi_only);
++}
++
++void ex_halbtc8723d2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = false;
++
++	halbtc8723d2ant_action_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8723d2ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u32				u32tmp[4];
++	u16				u16tmp[4];
++	u32				fa_of_dm, fa_cck;
++	u32				fw_ver = 0, bt_patch_ver = 0;
++	static u8			pop_report_in_10s = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	if (psd_scan->ant_det_try_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s",
++			   "Ant PG Num/ Mech/ Pos",
++			   board_info->pg_ant_num, board_info->btdm_ant_num,
++			   (board_info->btdm_ant_pos == 1 ? "S1" : "S0"));
++		CL_PRINTF(cli_buf);
++	} else {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n %-35s = %d/ %d/ %s  (retry=%d/fail=%d/result=%d)",
++			   "Ant PG Num/ Mech(Ant_Det)/ Pos",
++			board_info->pg_ant_num, board_info->btdm_ant_num_by_ant_det,
++			   (board_info->btdm_ant_pos == 1 ? "S1" : "S0"),
++			psd_scan->ant_det_try_count, psd_scan->ant_det_fail_count,
++			   psd_scan->ant_det_result);
++		CL_PRINTF(cli_buf);
++
++		if (board_info->btdm_ant_det_finish) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++				   "Ant Det PSD Value",
++				   psd_scan->ant_det_peak_val);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)/ %c",
++		   "Version Coex/ Fw/ Patch/ Cut",
++		   glcoex_ver_date_8723d_2ant, glcoex_ver_8723d_2ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver, coex_sta->cut_version + 65);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d / %d / %d ",
++		   "Isolation/WL_Thres/BT_Thres",
++		   coex_sta->isolation_btween_wb,
++		   coex_sta->wifi_coex_thres,
++		   coex_sta->bt_coex_thres);
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	pop_report_in_10s++;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt/ popCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++			   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page")
++			   : ((BT_8723D_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8723D_2ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi - 100, coex_sta->bt_retry_cnt,
++		   coex_sta->pop_event_cnt);
++	CL_PRINTF(cli_buf);
++
++	if (pop_report_in_10s >= 5) {
++		coex_sta->pop_event_cnt = 0;
++		pop_report_in_10s = 0;
++	}
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d / %d / %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP/NameReq/WHQL",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist,
++		   coex_sta->c2h_bt_remote_name_req,
++		   coex_sta->bt_whck_test);
++	CL_PRINTF(cli_buf);
++
++	bt_info_ext = coex_sta->bt_info_ext;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %s / %d",
++		   "Role/A2DP Rate/Bitpool",
++		   ((bt_link_info->slave_role) ? "Slave" : "Master"),
++		(bt_info_ext & BIT(0)) ? "BR" : "EDR", coex_sta->a2dp_bit_pool);
++	CL_PRINTF(cli_buf);
++
++	for (i = 0; i < BT_INFO_SRC_8723D_2ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8723d_2ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	/* Sw mechanism	 */
++	if (btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[mechanism] (before Manual)============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanism]============");
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ 0x%x/ 0x%x ",
++		   "LowP-RA/ DecWLPwr/ DecBTPwr",
++		   (coex_dm->cur_low_penalty_ra ? "On" : "Off"),
++		   coex_dm->cur_fw_dac_swing_lvl,
++		   coex_dm->cur_bt_dec_pwr_lvl);
++	CL_PRINTF(cli_buf);
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (%s, %s)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   (coex_dm->cur_ps_tdma_on ? "On" : "Off"),
++		   (coex_dm->is_switch_to_1dot5_ant ? "1.5Ant" : "2Ant"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "WL/BT Coex Table Type",
++		   coex_sta->coex_table_type);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x778/0x6cc/IgnWlanAct",
++		   u8tmp[0], u32tmp[0],  coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa0);
++	u32tmp[1] = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa4);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "LTE Coex Table W_L/B_L",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa8);
++	u32tmp[1] = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist,
++			0xac);
++	u32tmp[2] = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb0);
++	u32tmp[3] = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb4);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "LTE Break Table W_L/B_L/L_W/L_B",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff,
++		   u32tmp[2] & 0xffff, u32tmp[3] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %s",
++		   "LTE CoexOn/Path Ctrl Owner",
++		(int)((u32tmp[0] & BIT(7)) >> 7), ((u8tmp[0] & BIT(2)) ? "WL" : "BT"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "LTE 3Wire/OPMode/UART/UARTMode",
++		(int)((u32tmp[0] & BIT(6)) >> 6), (int)((u32tmp[0] & (BIT(5) | BIT(4))) >> 4),
++		   (int)((u32tmp[0] & BIT(3)) >> 3),
++		   (int)(u32tmp[0] & (BIT(2) | BIT(1) | BIT(0))));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s",
++		   "GNT_WL_SWCtrl/GNT_BT_SWCtrl/Dbg",
++		(int)((u32tmp[0] & BIT(12)) >> 12), (int)((u32tmp[0] & BIT(14)) >> 14),
++		   ((u8tmp[0] & BIT(3)) ? "On" : "Off"));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8723d2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "GNT_WL/GNT_BT/LTE_Busy/UART_Busy",
++		(int)((u32tmp[0] & BIT(2)) >> 2), (int)((u32tmp[0] & BIT(3)) >> 3),
++		   (int)((u32tmp[0] & BIT(1)) >> 1), (int)(u32tmp[0] & BIT(0)));
++	CL_PRINTF(cli_buf);
++
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x4c6);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "0x4c6[4]/0x40[5] (WL/BT PTA)",
++		(int)((u8tmp[0] & BIT(4)) >> 4), (int)((u8tmp[1] & BIT(5)) >> 5));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x953);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ %s",
++		   "0x550(bcn ctrl)/0x522/4-RxAGC",
++		   u32tmp[0], u8tmp[0], (u8tmp[1] & 0x2) ? "On" : "Off");
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x948);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x67);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xc50);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x948/ 0x67[7]/ 0xc50[7:0]",
++		   u32tmp[0],
++		   ((u8tmp[0] & 0x80) >> 7), u32tmp[1] & 0xff);
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xda0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xda4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0xda8);
++	u32tmp[3] = btcoexist->btc_read_4byte(btcoexist, 0xcf0);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5b);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++
++	fa_of_dm = ((u32tmp[0] & 0xffff0000) >> 16) + ((u32tmp[1] & 0xffff0000)
++			>> 16) + (u32tmp[1] & 0xffff) + (u32tmp[2] & 0xffff) +
++		   ((u32tmp[3] & 0xffff0000) >> 16) + (u32tmp[3] & 0xffff);
++	fa_cck = (u8tmp[0] << 8) + u8tmp[1];
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "OFDM-CCA/OFDM-FA/CCK-FA",
++		   u32tmp[0] & 0xffff, fa_of_dm, fa_cck);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11n-Agg",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++
++	halbtc8723d2ant_read_score_board(btcoexist,	&u16tmp[0]);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %04x",
++		   "ScoreBoard[14:0] (from BT)", u16tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8723d2ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++		coex_sta->under_lps = false;
++		halbtc8723d2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, false,
++					     true);
++		halbtc8723d2ant_action_coex_all_off(btcoexist);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = false;
++		halbtc8723d2ant_init_hw_config(btcoexist, false);
++		halbtc8723d2ant_action_init_coex_dm(btcoexist);
++		halbtc8723d2ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8723d2ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++		coex_sta->under_ips = false;
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++	}
++}
++
++void ex_halbtc8723d2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	u32	u32tmp;
++	u8	u8tmpa, u8tmpb;
++	boolean	wifi_connected = false;
++
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	halbtc8723d2ant_query_bt_info(btcoexist);  /*  this can't be removed for RF off_on event, or BT would dis-connect */
++
++	if (BTC_SCAN_START == type) {
++
++		if (!wifi_connected)
++			coex_sta->wifi_is_high_pri_task = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, false,
++					     false);
++
++		halbtc8723d2ant_run_coexist_mechanism(btcoexist);
++
++	} else if (BTC_SCAN_FINISH == type) {
++
++		coex_sta->wifi_is_high_pri_task = false;
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], SCAN FINISH notify  (Scan-AP = %d)\n", coex_sta->scan_ap_num);
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_run_coexist_mechanism(btcoexist);
++	}
++
++}
++
++void ex_halbtc8723d2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	if (BTC_ASSOCIATE_START == type) {
++
++		coex_sta->wifi_is_high_pri_task = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, false,
++					     false);
++
++		halbtc8723d2ant_run_coexist_mechanism(btcoexist);
++
++		coex_dm->arp_cnt = 0;
++
++	} else if (BTC_ASSOCIATE_FINISH == type) {
++
++		coex_sta->wifi_is_high_pri_task = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_run_coexist_mechanism(btcoexist);
++	}
++}
++
++void ex_halbtc8723d2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++	u8			ap_num = 0;
++	boolean		wifi_under_b_mode = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, false,
++					     false);
++
++		/* psd_scan->ant_det_is_ant_det_available = TRUE; */
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++
++		/* Set CCK Tx/Rx high Pri except 11b mode */
++		if (wifi_under_b_mode) {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x00); /* CCK Rx */
++		} else {
++
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x10); /* CCK Rx */
++		}
++
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x0); /* CCK Tx */
++		btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x0); /* CCK Rx */
++	}
++
++
++	halbtc8723d2ant_update_wifi_channel_info(btcoexist, type);
++}
++
++void ex_halbtc8723d2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean under_4way = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (under_4way) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], specific Packet ---- under_4way!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++
++	} else if (BTC_PACKET_ARP == type) {
++
++		coex_dm->arp_cnt++;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet ARP notify -cnt = %d\n", coex_dm->arp_cnt);
++		BTC_TRACE(trace_buf);
++
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet DHCP or EAPOL notify [Type = %d]\n", type);
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	}
++
++	if (coex_sta->wifi_is_high_pri_task)
++		halbtc8723d2ant_run_coexist_mechanism(btcoexist);
++
++}
++
++void ex_halbtc8723d2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8			bt_info = 0;
++	u8			i, rsp_source = 0;
++	boolean			bt_busy = false, limited_dig = false;
++	boolean			wifi_connected = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8723D_2ANT_MAX)
++		rsp_source = BT_INFO_SRC_8723D_2ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (BT_INFO_SRC_8723D_2ANT_WIFI_FW != rsp_source) {
++
++		/* if 0xff, it means BT is under WHCK test */
++		if (bt_info == 0xff)
++			coex_sta->bt_whck_test = true;
++		else
++			coex_sta->bt_whck_test = false;
++
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x80)
++			coex_sta->bt_create_connection = true;
++		else
++			coex_sta->bt_create_connection = false;
++
++		/* unit: %, value-100 to translate to unit: dBm  */
++		coex_sta->bt_rssi = coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x20)
++			coex_sta->c2h_bt_remote_name_req = true;
++		else
++			coex_sta->c2h_bt_remote_name_req = false;
++
++		if ((coex_sta->bt_info_c2h[rsp_source][1] & 0x49) == 0x49) {
++			coex_sta->a2dp_bit_pool =
++				coex_sta->bt_info_c2h[rsp_source][6];
++		} else
++			coex_sta->a2dp_bit_pool = 0;
++
++		if (coex_sta->bt_info_c2h[rsp_source][1] & 0x9)
++			coex_sta->acl_busy = true;
++		else
++			coex_sta->acl_busy = false;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++
++		if ((!btcoexist->manual_control) && (!btcoexist->stop_coex_dm)) {
++
++			/*  Re-Init */
++			if ((coex_sta->bt_info_ext & BIT(1))) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++				BTC_TRACE(trace_buf);
++				if (wifi_connected)
++					ex_halbtc8723d2ant_media_status_notify(
++						btcoexist, BTC_MEDIA_CONNECT);
++				else
++					ex_halbtc8723d2ant_media_status_notify(
++						btcoexist, BTC_MEDIA_DISCONNECT);
++			}
++
++
++			/*  If Ignore_WLanAct && not SetUp_Link */
++			if ((coex_sta->bt_info_ext & BIT(3)) && (!(coex_sta->bt_info_ext & BIT(2)))) {
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8723d2ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		}
++
++		/* check BIT2 first ==> check if bt is under inquiry or page scan */
++		if (bt_info & BT_INFO_8723D_2ANT_B_INQ_PAGE)
++			coex_sta->c2h_bt_inquiry_page = true;
++		else
++			coex_sta->c2h_bt_inquiry_page = false;
++	}
++
++	coex_sta->num_of_profile = 0;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8723D_2ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8723D_2ANT_B_FTP) {
++			coex_sta->pan_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->pan_exist = false;
++
++		if (bt_info & BT_INFO_8723D_2ANT_B_A2DP) {
++			coex_sta->a2dp_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->a2dp_exist = false;
++
++		if (bt_info & BT_INFO_8723D_2ANT_B_HID) {
++			coex_sta->hid_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->hid_exist = false;
++
++		if (bt_info & BT_INFO_8723D_2ANT_B_SCO_ESCO) {
++			coex_sta->sco_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->sco_exist = false;
++
++	}
++
++	halbtc8723d2ant_update_bt_link_info(btcoexist);
++
++	if (!(bt_info & BT_INFO_8723D_2ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8723D_2ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8723D_2ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8723D_2ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8723D_2ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8723D_2ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8723D_2ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8723D_2ANT_B_ACL_BUSY) {
++		coex_dm->bt_status = BT_8723D_2ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8723D_2ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8723D_2ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8723D_2ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8723D_2ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status)) {
++		bt_busy = true;
++		limited_dig = true;
++	} else {
++		bt_busy = false;
++		limited_dig = false;
++	}
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	coex_dm->limited_dig = limited_dig;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_LIMITED_DIG, &limited_dig);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), No run_coexist_mechanism return for Manual CTRL<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(),  No run_coexist_mechanism return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	/*  don't run coex mechanism while receve BTInfo if GNT_WL/GNT_BT control by SW */
++	if (!coex_sta->gnt_control_by_PTA)
++		return;
++
++	halbtc8723d2ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8723d2ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RF Status notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_RF_ON == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wl_rf_off_on_event = true;
++		btcoexist->stop_coex_dm = false;
++
++		halbtc8723d2ant_post_onoffstate_to_bt(btcoexist, TRUE);
++	} else if (BTC_RF_OFF == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, false,
++					     true);
++		halbtc8723d2ant_action_coex_all_off(btcoexist);
++		halbtc8723d2ant_post_onoffstate_to_bt(btcoexist, FALSE);
++		btcoexist->stop_coex_dm = true;
++		coex_sta->wl_rf_off_on_event = false;
++
++	}
++}
++
++void ex_halbtc8723d2ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8723d2ant_set_ant_path(btcoexist, BTC_ANT_WIFI_AT_MAIN, false,
++				     true);
++
++	ex_halbtc8723d2ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	halbtc8723d2ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++	halbtc8723d2ant_post_onoffstate_to_bt(btcoexist, FALSE);
++}
++
++void ex_halbtc8723d2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		/* Sinda 20150819, workaround for driver skip leave IPS/LPS to speed up sleep time. */
++		/* Driver do not leave IPS/LPS when driver is going to sleep, so BTCoexistence think wifi is still under IPS/LPS */
++		/* BT should clear UnderIPS/UnderLPS state to avoid mismatch state after wakeup. */
++		coex_sta->under_ips = false;
++		coex_sta->under_lps = false;
++
++		halbtc8723d2ant_enable_gnt_to_gpio(btcoexist, FALSE);
++		halbtc8723d2ant_post_onoffstate_to_bt(btcoexist, FALSE);
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8723d2ant_post_onoffstate_to_bt(btcoexist, TRUE);
++	}
++}
++
++void ex_halbtc8723d2ant_periodical(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++
++#if (BT_AUTO_REPORT_ONLY_8723D_2ANT == 0)
++	halbtc8723d2ant_query_bt_info(btcoexist);
++#endif
++
++	halbtc8723d2ant_monitor_bt_ctr(btcoexist);
++	halbtc8723d2ant_monitor_wifi_ctr(btcoexist);
++	halbtc8723d2ant_monitor_bt_enable_disable(btcoexist);
++
++	/* for 4-way, DHCP, EAPOL packet */
++	if (coex_sta->specific_pkt_period_cnt > 0) {
++
++		coex_sta->specific_pkt_period_cnt--;
++
++		if ((coex_sta->specific_pkt_period_cnt == 0) && (coex_sta->wifi_is_high_pri_task))
++			coex_sta->wifi_is_high_pri_task = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ***************** Hi-Pri Task = %s*****************\n", (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"));
++		BTC_TRACE(trace_buf);
++
++	}
++
++	if (halbtc8723d2ant_is_wifibt_status_changed(btcoexist))
++		halbtc8723d2ant_run_coexist_mechanism(btcoexist);
++}
++
++
++void ex_halbtc8723d2ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx Ext Call AntennaDetect()!!\n");
++	BTC_TRACE(trace_buf);
++
++#if BT_8723D_2ANT_ANTDET_ENABLE
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	/*boolean scan, roam;*/
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx Call AntennaDetect()!!\n");
++	BTC_TRACE(trace_buf);
++
++	if (seconds == 0) {
++		psd_scan->ant_det_try_count	= 0;
++		psd_scan->ant_det_fail_count	= 0;
++		ant_det_count = 0;
++		ant_det_fail_count = 0;
++		board_info->btdm_ant_det_finish = false;
++		board_info->btdm_ant_num_by_ant_det = 1;
++		return;
++	}
++
++	if (!board_info->btdm_ant_det_finish) {
++		psd_scan->ant_det_inteval_count =
++			psd_scan->ant_det_inteval_count + 2;
++
++		if (psd_scan->ant_det_inteval_count >=
++		    BT_8723D_2ANT_ANTDET_RETRY_INTERVAL) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is up, Try Detect!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8723d2ant_psd_antenna_detection_check(btcoexist);
++
++			if (board_info->btdm_ant_det_finish) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Success!!\n");
++				BTC_TRACE(trace_buf);
++
++#if 0
++				board_info->btdm_ant_det_finish = false;
++#endif
++
++#if 0
++				if (board_info->btdm_ant_num_by_ant_det == 2)
++					halbtc8723d2ant_mechanism_switch(
++						btcoexist, true);
++				else
++					halbtc8723d2ant_mechanism_switch(
++						btcoexist, false);
++#endif
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Fail!!\n");
++				BTC_TRACE(trace_buf);
++			}
++			psd_scan->ant_det_inteval_count = 0;
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is not up! (%d)\n",
++				    psd_scan->ant_det_inteval_count);
++			BTC_TRACE(trace_buf);
++		}
++
++	}
++#endif
++
++
++}
++
++
++void ex_halbtc8723d2ant_display_ant_detection(IN struct btc_coexist *btcoexist)
++{
++
++#if BT_8723D_2ANT_ANTDET_ENABLE
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	if (psd_scan->ant_det_try_count != 0)	{
++		halbtc8723d2ant_psd_show_antenna_detect_result(btcoexist);
++
++		if (board_info->btdm_ant_det_finish)
++			halbtc8723d2ant_psd_showdata(btcoexist);
++		return;
++	}
++#endif
++
++}
++
++
++#endif
++
++#endif	/*  #if (RTL8723D_SUPPORT == 1) */
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/halbtc8723d2ant.h b/drivers/net/wireless/rtl8812au/hal/btc/halbtc8723d2ant.h
+new file mode 100644
+index 0000000..15a56ce
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/halbtc8723d2ant.h
+@@ -0,0 +1,348 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8723D_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8723D 2Ant BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8723D_2ANT				1
++
++
++#define	BT_INFO_8723D_2ANT_B_FTP						BIT(7)
++#define	BT_INFO_8723D_2ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8723D_2ANT_B_HID						BIT(5)
++#define	BT_INFO_8723D_2ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8723D_2ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8723D_2ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8723D_2ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8723D_2ANT_B_CONNECTION				BIT(0)
++
++#define		BTC_RSSI_COEX_THRESH_TOL_8723D_2ANT		2
++
++
++#define	BT_8723D_2ANT_WIFI_RSSI_COEXSWITCH_THRES1				80  /* unit: % WiFi RSSI Threshold for   2-Ant free-run/2-Ant TDMA translation, default = 42 */
++#define	BT_8723D_2ANT_BT_RSSI_COEXSWITCH_THRES1				80 /*  unit: % BT RSSI Threshold for      2-Ant free-run/2-Ant TDMA translation, default = 46 */
++#define	BT_8723D_2ANT_WIFI_RSSI_COEXSWITCH_THRES2				80  /* unit: % WiFi RSSI Threshold for   1-Ant TDMA/1-Ant PS-TDMA translation, default = 42 */
++#define	BT_8723D_2ANT_BT_RSSI_COEXSWITCH_THRES2				80 /*  unit: % BT RSSI Threshold for      1-Ant TDMA/1-Ant PS-TDMA translation, default = 46 */
++#define	BT_8723D_2ANT_DEFAULT_ISOLATION						15	 /*  unit: dB */
++#define   BT_8723D_2ANT_WIFI_MAX_TX_POWER						15	 /*  unit: dBm */
++#define   BT_8723D_2ANT_BT_MAX_TX_POWER							3	 /*  unit: dBm */
++#define   BT_8723D_2ANT_WIFI_SIR_THRES1							-15  /*  unit: dB */
++#define   BT_8723D_2ANT_WIFI_SIR_THRES2							-30  /*  unit: dB */
++#define   BT_8723D_2ANT_BT_SIR_THRES1							-15		 /*  unit: dB */
++#define   BT_8723D_2ANT_BT_SIR_THRES2							-30		 /*  unit: dB */
++
++
++/* for Antenna detection */
++#define	BT_8723D_2ANT_ANTDET_PSDTHRES_BACKGROUND						50
++#define	BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION				70
++#define	BT_8723D_2ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION			52
++#define	BT_8723D_2ANT_ANTDET_PSDTHRES_1ANT							40
++#define	BT_8723D_2ANT_ANTDET_RETRY_INTERVAL							10	/* retry timer if ant det is fail, unit: second */
++#define	BT_8723D_2ANT_ANTDET_SWEEPPOINT_DELAY							40000
++#define	BT_8723D_2ANT_ANTDET_ENABLE										0
++#define	BT_8723D_2ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE			0
++#define	BT_8723D_2ANT_ANTDET_BTTXTIME									100
++#define	BT_8723D_2ANT_ANTDET_BTTXCHANNEL								39
++
++#define	BT_8723D_2ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT		30000
++
++enum bt_8723d_2ant_signal_state {
++	BT_8723D_2ANT_SIG_STA_SET_TO_LOW		= 0x0,
++	BT_8723D_2ANT_SIG_STA_SET_BY_HW		= 0x0,
++	BT_8723D_2ANT_SIG_STA_SET_TO_HIGH		= 0x1,
++	BT_8723D_2ANT_SIG_STA_MAX
++};
++
++enum bt_8723d_2ant_path_ctrl_owner {
++	BT_8723D_2ANT_PCO_BTSIDE		= 0x0,
++	BT_8723D_2ANT_PCO_WLSIDE	= 0x1,
++	BT_8723D_2ANT_PCO_MAX
++};
++
++enum bt_8723d_2ant_gnt_ctrl_type {
++	BT_8723D_2ANT_GNT_TYPE_CTRL_BY_PTA		= 0x0,
++	BT_8723D_2ANT_GNT_TYPE_CTRL_BY_SW		= 0x1,
++	BT_8723D_2ANT_GNT_TYPE_MAX
++};
++
++enum bt_8723d_2ant_gnt_ctrl_block {
++	BT_8723D_2ANT_GNT_BLOCK_RFC_BB		= 0x0,
++	BT_8723D_2ANT_GNT_BLOCK_RFC			= 0x1,
++	BT_8723D_2ANT_GNT_BLOCK_BB			= 0x2,
++	BT_8723D_2ANT_GNT_BLOCK_MAX
++};
++
++enum bt_8723d_2ant_lte_coex_table_type {
++	BT_8723D_2ANT_CTT_WL_VS_LTE			= 0x0,
++	BT_8723D_2ANT_CTT_BT_VS_LTE			= 0x1,
++	BT_8723D_2ANT_CTT_MAX
++};
++
++enum bt_8723d_2ant_lte_break_table_type {
++	BT_8723D_2ANT_LBTT_WL_BREAK_LTE			= 0x0,
++	BT_8723D_2ANT_LBTT_BT_BREAK_LTE				= 0x1,
++	BT_8723D_2ANT_LBTT_LTE_BREAK_WL			= 0x2,
++	BT_8723D_2ANT_LBTT_LTE_BREAK_BT				= 0x3,
++	BT_8723D_2ANT_LBTT_MAX
++};
++
++enum bt_info_src_8723d_2ant {
++	BT_INFO_SRC_8723D_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8723D_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8723D_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8723D_2ANT_MAX
++};
++
++enum bt_8723d_2ant_bt_status {
++	BT_8723D_2ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8723D_2ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8723D_2ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8723D_2ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8723D_2ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8723D_2ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8723D_2ANT_BT_STATUS_MAX
++};
++
++enum bt_8723d_2ant_coex_algo {
++	BT_8723D_2ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8723D_2ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8723D_2ANT_COEX_ALGO_HID				= 0x2,
++	BT_8723D_2ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8723D_2ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8723D_2ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8723D_2ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8723D_2ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8723D_2ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8723D_2ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8723D_2ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8723D_2ANT_COEX_ALGO_NOPROFILEBUSY		= 0xb,
++	BT_8723D_2ANT_COEX_ALGO_MAX
++};
++
++struct coex_dm_8723d_2ant {
++	/* fw mechanism */
++	u8		pre_bt_dec_pwr_lvl;
++	u8		cur_bt_dec_pwr_lvl;
++	u8		pre_fw_dac_swing_lvl;
++	u8		cur_fw_dac_swing_lvl;
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		reset_tdma_adjust;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++
++	/* sw mechanism */
++	boolean		pre_rf_rx_lpf_shrink;
++	boolean		cur_rf_rx_lpf_shrink;
++	u32		bt_rf_0x1e_backup;
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	boolean		pre_dac_swing_on;
++	u32		pre_dac_swing_lvl;
++	boolean		cur_dac_swing_on;
++	u32		cur_dac_swing_lvl;
++	boolean		pre_adc_back_off;
++	boolean		cur_adc_back_off;
++	boolean	pre_agc_table_en;
++	boolean		cur_agc_table_en;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	boolean		need_recover0x948;
++	u32		backup0x948;
++
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	boolean		is_switch_to_1dot5_ant;
++	u8		switch_thres_offset;
++	u32					arp_cnt;
++};
++
++struct coex_sta_8723d_2ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	u8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8723D_2ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8723D_2ANT_MAX];
++	boolean				bt_whck_test;
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_remote_name_req;
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	u8					coex_table_type;
++	boolean					force_lps_on;
++
++	u8					dis_ver_info_cnt;
++
++	u8					a2dp_bit_pool;
++	u8					cut_version;
++
++	boolean					concurrent_rx_mode_on;
++
++	u16					score_board;
++	u8					isolation_btween_wb;   /* 0~ 50 */
++	u8					wifi_coex_thres;
++	u8					bt_coex_thres;
++	u8					wifi_coex_thres2;
++	u8					bt_coex_thres2;
++
++	u8					num_of_profile;
++	boolean				acl_busy;
++	boolean				wl_rf_off_on_event;
++	boolean				bt_create_connection;
++	boolean				gnt_control_by_PTA;
++	boolean				wifi_is_high_pri_task;
++	u32					specific_pkt_period_cnt;
++};
++
++#define BT_8723D_2ANT_ANTDET_PSD_POINTS			256	/* MAX:1024 */
++#define BT_8723D_2ANT_ANTDET_PSD_AVGNUM		1	/* MAX:3 */
++#define BT_8723D_2ANT_ANTDET_BUF_LEN			16
++
++struct psdscan_sta_8723d_2ant {
++
++	u32			ant_det_bt_le_channel;  /* BT LE Channel ex:2412 */
++	u32			ant_det_bt_tx_time;
++	u32			ant_det_pre_psdscan_peak_val;
++	boolean			ant_det_is_ant_det_available;
++	u32			ant_det_psd_scan_peak_val;
++	boolean			ant_det_is_btreply_available;
++	u32			ant_det_psd_scan_peak_freq;
++
++	u8			ant_det_result;
++	u8			ant_det_peak_val[BT_8723D_2ANT_ANTDET_BUF_LEN];
++	u8			ant_det_peak_freq[BT_8723D_2ANT_ANTDET_BUF_LEN];
++	u32			ant_det_try_count;
++	u32			ant_det_fail_count;
++	u32			ant_det_inteval_count;
++	u32			ant_det_thres_offset;
++
++	u32			real_cent_freq;
++	s32			real_offset;
++	u32			real_span;
++
++	u32			psd_band_width;  /* unit: Hz */
++	u32			psd_point;		/* 128/256/512/1024 */
++	u32			psd_report[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_report_max_hold[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_start_point;
++	u32			psd_stop_point;
++	u32			psd_max_value_point;
++	u32			psd_max_value;
++	u32			psd_start_base;
++	u32			psd_avg_num;	/* 1/8/16/32 */
++	u32			psd_gen_count;
++	boolean			is_psd_running;
++	boolean			is_psd_show_max_only;
++};
++
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8723d2ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d2ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8723d2ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d2ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8723d2ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8723d2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8723d2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8723d2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723d2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723d2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8723d2ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8723d2ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8723d2ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d2ant_display_coex_info(IN struct btc_coexist *btcoexist);
++void ex_halbtc8723d2ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8723d2ant_display_ant_detection(IN struct btc_coexist *btcoexist);
++
++
++#else
++#define	ex_halbtc8723d2ant_power_on_setting(btcoexist)
++#define	ex_halbtc8723d2ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8723d2ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8723d2ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8723d2ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8723d2ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8723d2ant_scan_notify(btcoexist, type)
++#define	ex_halbtc8723d2ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8723d2ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8723d2ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8723d2ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8723d2ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8723d2ant_halt_notify(btcoexist)
++#define	ex_halbtc8723d2ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8723d2ant_periodical(btcoexist)
++#define	ex_halbtc8723d2ant_display_coex_info(btcoexist)
++#define	ex_halbtc8723d2ant_display_ant_detection(btcoexist)
++#define	ex_halbtc8723d2ant_antenna_detection(btcoexist, centFreq, offset, span, seconds)
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/halbtc8821c1ant.c b/drivers/net/wireless/rtl8812au/hal/btc/halbtc8821c1ant.c
+new file mode 100644
+index 0000000..3e722d4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/halbtc8821c1ant.c
+@@ -0,0 +1,5979 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8821C Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821C_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	*trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8821c_1ant		glcoex_dm_8821c_1ant;
++static struct  coex_dm_8821c_1ant	*coex_dm = &glcoex_dm_8821c_1ant;
++static struct  coex_sta_8821c_1ant		glcoex_sta_8821c_1ant;
++static struct  coex_sta_8821c_1ant	*coex_sta = &glcoex_sta_8821c_1ant;
++static struct  psdscan_sta_8821c_1ant		gl_psd_scan_8821c_1ant;
++static struct  psdscan_sta_8821c_1ant 	*psd_scan = &gl_psd_scan_8821c_1ant;
++static struct	rfe_type_8821c_1ant		gl_rfe_type_8821c_1ant;
++static struct	rfe_type_8821c_1ant		*rfe_type = &gl_rfe_type_8821c_1ant;
++
++
++const char *const glbt_info_src_8821c_1ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8821c_1ant = 20160316;
++u32	glcoex_ver_8821c_1ant = 0x00;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8821c1ant_
++ * ************************************************************ */
++u8 halbtc8821c1ant_bt_rssi_state(u8 level_num, u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = coex_sta->pre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8821C_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_bt_rssi_state;
++		}
++
++		if ((coex_sta->pre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (coex_sta->pre_bt_rssi_state ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8821C_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_bt_rssi_state ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8821C_1ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8821c1ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 index, IN u8 level_num, IN u8 rssi_thresh, IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = coex_sta->pre_wifi_rssi_state[index];
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8821C_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return coex_sta->pre_wifi_rssi_state[index];
++		}
++
++		if ((coex_sta->pre_wifi_rssi_state[index] == BTC_RSSI_STATE_LOW)
++		    ||
++		    (coex_sta->pre_wifi_rssi_state[index] ==
++		     BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8821C_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_MEDIUM) ||
++			   (coex_sta->pre_wifi_rssi_state[index] ==
++			    BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8821C_1ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	coex_sta->pre_wifi_rssi_state[index] = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8821c1ant_update_ra_mask(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u32 dis_rate_mask)
++{
++	coex_dm->cur_ra_mask = dis_rate_mask;
++
++	if (force_exec || (coex_dm->pre_ra_mask != coex_dm->cur_ra_mask))
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_UPDATE_RAMASK,
++				   &coex_dm->cur_ra_mask);
++	coex_dm->pre_ra_mask = coex_dm->cur_ra_mask;
++}
++
++void halbtc8821c1ant_auto_rate_fallback_retry(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	boolean	wifi_under_b_mode = false;
++
++	coex_dm->cur_arfr_type = type;
++
++	if (force_exec || (coex_dm->pre_arfr_type != coex_dm->cur_arfr_type)) {
++		switch (coex_dm->cur_arfr_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_4byte(btcoexist, 0x430,
++						   coex_dm->backup_arfr_cnt1);
++			btcoexist->btc_write_4byte(btcoexist, 0x434,
++						   coex_dm->backup_arfr_cnt2);
++			break;
++		case 1:
++			btcoexist->btc_get(btcoexist,
++					   BTC_GET_BL_WIFI_UNDER_B_MODE,
++					   &wifi_under_b_mode);
++			if (wifi_under_b_mode) {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x01010101);
++			} else {
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x430, 0x0);
++				btcoexist->btc_write_4byte(btcoexist,
++							   0x434, 0x04030201);
++			}
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_arfr_type = coex_dm->cur_arfr_type;
++}
++
++void halbtc8821c1ant_retry_limit(IN struct btc_coexist *btcoexist,
++				 IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_retry_limit_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_retry_limit_type !=
++	     coex_dm->cur_retry_limit_type)) {
++		switch (coex_dm->cur_retry_limit_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   coex_dm->backup_retry_limit);
++			break;
++		case 1:	/* retry limit=8 */
++			btcoexist->btc_write_2byte(btcoexist, 0x42a,
++						   0x0808);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_retry_limit_type = coex_dm->cur_retry_limit_type;
++}
++
++void halbtc8821c1ant_ampdu_max_time(IN struct btc_coexist *btcoexist,
++				    IN boolean force_exec, IN u8 type)
++{
++	coex_dm->cur_ampdu_time_type = type;
++
++	if (force_exec ||
++	    (coex_dm->pre_ampdu_time_type != coex_dm->cur_ampdu_time_type)) {
++		switch (coex_dm->cur_ampdu_time_type) {
++		case 0:	/* normal mode */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++					   coex_dm->backup_ampdu_max_time);
++			break;
++		case 1:	/* AMPDU timw = 0x38 * 32us */
++			btcoexist->btc_write_1byte(btcoexist, 0x456,
++						   0x38);
++			break;
++		default:
++			break;
++		}
++	}
++
++	coex_dm->pre_ampdu_time_type = coex_dm->cur_ampdu_time_type;
++}
++
++void halbtc8821c1ant_limited_tx(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 ra_mask_type, IN u8 arfr_type,
++				IN u8 retry_limit_type, IN u8 ampdu_time_type)
++{
++	switch (ra_mask_type) {
++	case 0:	/* normal mode */
++		halbtc8821c1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0);
++		break;
++	case 1:	/* disable cck 1/2 */
++		halbtc8821c1ant_update_ra_mask(btcoexist, force_exec,
++					       0x00000003);
++		break;
++	case 2:	/* disable cck 1/2/5.5, ofdm 6/9/12/18/24, mcs 0/1/2/3/4 */
++		halbtc8821c1ant_update_ra_mask(btcoexist, force_exec,
++					       0x0001f1f7);
++		break;
++	default:
++		break;
++	}
++
++	halbtc8821c1ant_auto_rate_fallback_retry(btcoexist, force_exec,
++			arfr_type);
++	halbtc8821c1ant_retry_limit(btcoexist, force_exec, retry_limit_type);
++	halbtc8821c1ant_ampdu_max_time(btcoexist, force_exec, ampdu_time_type);
++}
++
++void halbtc8821c1ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++
++
++}
++
++void halbtc8821c1ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], WL query BT info!!\n");
++	BTC_TRACE(trace_buf);
++}
++
++void halbtc8821c1ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++	static u8		num_of_bt_counter_chk = 0, cnt_slave = 0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	/* to avoid 0x76e[3] = 1 (WLAN_Act control by PTA) during IPS */
++	/* if (! (btcoexist->btc_read_1byte(btcoexist, 0x76e) & 0x8) ) */
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Hi-Pri Rx/Tx: %d/%d, Lo-Pri Rx/Tx: %d/%d\n",
++		    reg_hp_rx, reg_hp_tx, reg_lp_rx, reg_lp_tx);
++
++	BTC_TRACE(trace_buf);
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++
++	if ((coex_sta->low_priority_tx > 1150)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++
++	if ((coex_sta->low_priority_rx >= 1150) && (coex_sta->low_priority_rx >= coex_sta->low_priority_tx)
++	    && (!coex_sta->under_ips)  && (!coex_sta->c2h_bt_inquiry_page) && (coex_sta->bt_link_exist))	{
++		if (cnt_slave >= 3) {
++			bt_link_info->slave_role = true;
++			cnt_slave = 3;
++		} else
++			cnt_slave++;
++	} else {
++		if (cnt_slave == 0)	{
++			bt_link_info->slave_role = false;
++			cnt_slave = 0;
++		} else
++			cnt_slave--;
++
++	}
++
++	if ((coex_sta->high_priority_tx == 0) && (coex_sta->high_priority_rx == 0) && (coex_sta->low_priority_tx == 0) &&
++	    (coex_sta->low_priority_rx == 0)) {
++		num_of_bt_counter_chk++;
++		if (num_of_bt_counter_chk >= 3) {
++			halbtc8821c1ant_query_bt_info(btcoexist);
++			num_of_bt_counter_chk = 0;
++		}
++	}
++
++#if 0
++	/* Add Hi-Pri Tx/Rx counter to avoid false detection */
++	if (((coex_sta->hid_exist) || (coex_sta->sco_exist)) &&
++	    (coex_sta->high_priority_tx + coex_sta->high_priority_rx
++	     >= 160)
++	    && (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->bt_hi_pri_link_exist = true;
++	else
++		coex_sta->bt_hi_pri_link_exist = false;
++
++	if ((coex_sta->acl_busy) &&
++	    (coex_sta->num_of_profile == 0)) {
++		if (coex_sta->low_priority_tx +
++		    coex_sta->low_priority_rx >= 160) {
++			coex_sta->pan_exist = true;
++			coex_sta->num_of_profile++;
++			coex_sta->wrong_profile_notification++;
++		}
++	}
++#endif
++
++}
++
++
++
++void halbtc8821c1ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++	s32	wifi_rssi = 0;
++	boolean wifi_busy = false, wifi_under_b_mode = false;
++	static u8 cck_lock_counter = 0;
++	u32	total_cnt;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++			   &wifi_under_b_mode);
++
++	if (coex_sta->under_ips) {
++		coex_sta->crc_ok_cck = 0;
++		coex_sta->crc_ok_11g = 0;
++		coex_sta->crc_ok_11n = 0;
++		coex_sta->crc_ok_11n_agg = 0;
++
++		coex_sta->crc_err_cck = 0;
++		coex_sta->crc_err_11g = 0;
++		coex_sta->crc_err_11n = 0;
++		coex_sta->crc_err_11n_agg = 0;
++	} else {
++		coex_sta->crc_ok_cck	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf04);
++		coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf14);
++		coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf10);
++		coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					   0xf0c);
++
++		coex_sta->crc_err_cck	 = btcoexist->btc_read_2byte(btcoexist,0xf00) +  btcoexist->btc_read_2byte(btcoexist,0xf06);
++		
++		coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf16);
++		coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf12);
++		coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					    0xf0e);
++	}
++
++
++	/* reset counter */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xb58, 0x1, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xb58, 0x1, 0x0);
++
++	if ((wifi_busy) && (wifi_rssi >= 30) && (!wifi_under_b_mode)) {
++		total_cnt = coex_sta->crc_ok_cck + coex_sta->crc_ok_11g +
++			    coex_sta->crc_ok_11n +
++			    coex_sta->crc_ok_11n_agg;
++
++		if ((coex_dm->bt_status == BT_8821C_1ANT_BT_STATUS_ACL_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8821C_1ANT_BT_STATUS_ACL_SCO_BUSY) ||
++		    (coex_dm->bt_status ==
++		     BT_8821C_1ANT_BT_STATUS_SCO_BUSY)) {
++			if (coex_sta->crc_ok_cck > (total_cnt -
++						    coex_sta->crc_ok_cck)) {
++				if (cck_lock_counter < 3)
++					cck_lock_counter++;
++			} else {
++				if (cck_lock_counter > 0)
++					cck_lock_counter--;
++			}
++
++		} else {
++			if (cck_lock_counter > 0)
++				cck_lock_counter--;
++		}
++	} else {
++		if (cck_lock_counter > 0)
++			cck_lock_counter--;
++	}
++
++	if (!coex_sta->pre_ccklock) {
++
++		if (cck_lock_counter >= 3)
++			coex_sta->cck_lock = true;
++		else
++			coex_sta->cck_lock = false;
++	} else {
++		if (cck_lock_counter == 0)
++			coex_sta->cck_lock = false;
++		else
++			coex_sta->cck_lock = true;
++	}
++
++	if (coex_sta->cck_lock)
++		coex_sta->cck_ever_lock = true;
++
++	coex_sta->pre_ccklock =  coex_sta->cck_lock;
++
++
++}
++
++boolean halbtc8821c1ant_is_wifibt_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false, pre_bt_off = false;
++	boolean wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (coex_sta->bt_disabled != pre_bt_off) {
++		pre_bt_off = coex_sta->bt_disabled;
++
++		if (coex_sta->bt_disabled)
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++		else
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is enabled !!\n");
++
++		BTC_TRACE(trace_buf);
++
++		coex_sta->bt_coex_supported_feature = 0;
++		coex_sta->bt_coex_supported_version = 0;
++		return true;
++	}
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++	}
++
++	return false;
++}
++
++void halbtc8821c1ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++	bt_link_info->bt_hi_pri_link_exist = coex_sta->bt_hi_pri_link_exist;
++	bt_link_info->acl_busy = coex_sta->acl_busy;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++void halbtc8821c1ant_update_wifi_channel_info(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] =
++			0x1;  /* enable BT AFH skip WL channel for 8821c because BT Rx LO interference */
++		/* h2c_parameter[0] = 0x0; */
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++
++}
++
++u8 halbtc8821c1ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8821C_1ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Profile = SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8821C_1ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_1ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + A2DP ==> SCO\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_1ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821C_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = HID + A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_1ANT_COEX_ALGO_HID_A2DP;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT Profile = SCO + HID + A2DP ==> HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_1ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821C_1ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_HID_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! BT Profile = SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], BT Profile = SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_1ANT_COEX_ALGO_PANEDR_HID;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++void halbtc8821c1ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8821c1ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8821c1ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8821c1ant_set_fw_low_penalty_ra(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8821c1ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8821c1ant_set_fw_low_penalty_ra(btcoexist,
++					      coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8821c1ant_sw_mechanism(IN struct btc_coexist *btcoexist,
++				  IN boolean low_penalty_ra)
++{
++	halbtc8821c1ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8821c1ant_write_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	u16				bitpos,
++	IN	BOOLEAN		state
++)
++{
++
++	static u16 originalval = 0x8002;
++
++	if (state)
++		originalval = originalval | bitpos;
++	else
++		originalval = originalval & (~bitpos);
++
++	btcoexist->btc_write_2byte(btcoexist, 0xaa, originalval);
++}
++
++void halbtc8821c1ant_read_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN   u16				*score_board_val
++)
++{
++
++	*score_board_val = (btcoexist->btc_read_2byte(btcoexist,
++			    0xaa)) & 0x7fff;
++}
++
++void halbtc8821c1ant_post_activestate_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_active
++)
++{
++
++	if (wifi_active)
++		halbtc8821c1ant_write_score_board(btcoexist, (u16) BIT(0), TRUE);
++	else
++		halbtc8821c1ant_write_score_board(btcoexist, (u16) BIT(0), FALSE);		
++}
++
++
++void halbtc8821c1ant_post_onoffstate_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_on
++)
++{
++
++	if (wifi_on)
++		halbtc8821c1ant_write_score_board(btcoexist, (u16) BIT(1), TRUE);
++	else
++		halbtc8821c1ant_write_score_board(btcoexist, (u16) BIT(1), FALSE);
++}
++
++void halbtc8821c1ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++	u16			u16tmp;
++
++	/* This function check if bt is disabled */
++#if 0
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++
++
++#else
++
++	/* Read BT on/off status from scoreboard[1], enable this only if BT patch support this feature */
++	halbtc8821c1ant_read_score_board(btcoexist,	&u16tmp);
++
++	bt_active = u16tmp & BIT(1);
++
++
++#endif
++
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	} else {
++
++		bt_disable_cnt++;
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			bt_disable_cnt = 2;
++		}
++
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	}
++
++
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++	}
++
++}
++
++void halbtc8821c1ant_enable_gnt_to_gpio(IN struct btc_coexist *btcoexist,
++					boolean isenable)
++{
++	static u8 			bitVal[5] = {0,0,0,0,0};
++	static boolean 		state = false;
++
++	if (state ==isenable)
++		return;
++	else
++		state = isenable;
++
++	if (isenable) {
++
++		/* enable GNT_WL, GNT_BT to GPIO for debug  */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x1);
++
++		/* store original value  */
++		bitVal[0] = (btcoexist->btc_read_1byte(btcoexist, 0x66) & BIT(4)) >>4;	/*0x66[4] */
++		bitVal[1] = (btcoexist->btc_read_1byte(btcoexist, 0x67) & BIT(0));		/*0x66[8] */
++		bitVal[2] = (btcoexist->btc_read_1byte(btcoexist, 0x42) & BIT(3)) >> 3;  /*0x40[19] */
++		bitVal[3] = (btcoexist->btc_read_1byte(btcoexist, 0x65) & BIT(7)) >> 7;  /*0x64[15] */
++		bitVal[4] = (btcoexist->btc_read_1byte(btcoexist, 0x72) & BIT(2)) >> 2;  /*0x70[18] */
++
++		/*  switch GPIO Mux */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x66, BIT(4), 0x0);  /*0x66[4] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, BIT(0), 0x0);  /*0x66[8] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x42, BIT(3), 0x0);  /*0x40[19] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x65, BIT(7), 0x0);  /*0x64[15] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x72, BIT(2), 0x0);  /*0x70[18] = 0 */
++		
++
++	} else {
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x0);
++
++		/*  Restore original value   */
++		/*  switch GPIO Mux */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x66, BIT(4), bitVal[0]);  /*0x66[4] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, BIT(0), bitVal[1]);  /*0x66[8] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x42, BIT(3), bitVal[2]);  /*0x40[19] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x65, BIT(7), bitVal[3]);  /*0x64[15] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x72, BIT(2), bitVal[4]);  /*0x70[18] = 0 */
++	}
++
++}
++
++u32 halbtc8821c1ant_ltecoex_indirect_read_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr)
++{
++	u32 j = 0;
++
++
++	/* wait for ready bit before access 0x1700		 */
++	btcoexist->btc_write_4byte(btcoexist, 0x1700, 0x800F0000 | reg_addr);
++
++	do {
++		j++;
++	} while (((btcoexist->btc_read_1byte(btcoexist,
++					     0x1703)&BIT(5)) == 0) &&
++		 (j < BT_8821C_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++	return btcoexist->btc_read_4byte(btcoexist,
++					 0x1708);  /* get read data */
++
++}
++
++void halbtc8821c1ant_ltecoex_indirect_write_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr, IN u32 bit_mask, IN u32 reg_value)
++{
++	u32 val, i = 0, j = 0, bitpos = 0;
++
++
++	if (bit_mask == 0x0)
++		return;
++	if (bit_mask == 0xffffffff) {
++		btcoexist->btc_write_4byte(btcoexist, 0x1704,
++					   reg_value); /* put write data */
++
++		/* wait for ready bit before access 0x1700 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x1703)&BIT(5)) == 0) &&
++			(j < BT_8821C_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x1700,
++					   0xc00F0000 | reg_addr);
++	} else {
++		for (i = 0; i <= 31; i++) {
++			if (((bit_mask >> i) & 0x1) == 0x1) {
++				bitpos = i;
++				break;
++			}
++		}
++
++		/* read back register value before write */
++		val = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist,
++				reg_addr);
++		val = (val & (~bit_mask)) | (reg_value << bitpos);
++
++		btcoexist->btc_write_4byte(btcoexist, 0x1704,
++					   val); /* put write data */
++
++		/* wait for ready bit before access 0x1700		 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x1703)&BIT(5)) == 0) &&
++			(j < BT_8821C_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x1700,
++					   0xc00F0000 | reg_addr);
++
++	}
++
++}
++
++void halbtc8821c1ant_ltecoex_enable(IN struct btc_coexist *btcoexist,
++				    IN boolean enable)
++{
++	u8 val;
++
++	val = (enable) ? 1 : 0;
++	halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist, 0x38, 0x80,
++			val);  /* 0x38[7] */
++
++}
++
++void halbtc8821c1ant_ltecoex_pathcontrol_owner(IN struct btc_coexist *btcoexist,
++		IN boolean wifi_control)
++{
++	u8 val;
++
++	val = (wifi_control) ? 1 : 0;
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x4,
++					   val); /* 0x70[26] */
++
++}
++
++void halbtc8821c1ant_ltecoex_set_gnt_bt(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8821C_1ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0xc000;
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		bit_mask = 0x0c00;
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10]						 */
++		break;
++	case BT_8821C_1ANT_GNT_BLOCK_RFC:
++		bit_mask = 0xc000;
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		break;
++	case BT_8821C_1ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0c00;
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10] */
++		break;
++
++	}
++
++}
++
++void halbtc8821c1ant_ltecoex_set_gnt_wl(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8821C_1ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0x3000;
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		bit_mask = 0x0300;
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8]						 */
++		break;
++	case BT_8821C_1ANT_GNT_BLOCK_RFC:
++		bit_mask = 0x3000;
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		break;
++	case BT_8821C_1ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0300;
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8] */
++		break;
++
++	}
++
++}
++
++void halbtc8821c1ant_ltecoex_set_coex_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u16 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8821C_1ANT_CTT_WL_VS_LTE:
++		reg_addr = 0xa0;
++		break;
++	case BT_8821C_1ANT_CTT_BT_VS_LTE:
++		reg_addr = 0xa4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xffff, table_content); /* 0xa0[15:0] or 0xa4[15:0] */
++
++
++}
++
++
++void halbtc8821c1ant_ltecoex_set_break_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u8 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8821C_1ANT_LBTT_WL_BREAK_LTE:
++		reg_addr = 0xa8;
++		break;
++	case BT_8821C_1ANT_LBTT_BT_BREAK_LTE:
++		reg_addr = 0xac;
++		break;
++	case BT_8821C_1ANT_LBTT_LTE_BREAK_WL:
++		reg_addr = 0xb0;
++		break;
++	case BT_8821C_1ANT_LBTT_LTE_BREAK_BT:
++		reg_addr = 0xb4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8821c1ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xff, table_content); /* 0xa8[15:0] or 0xb4[15:0] */
++
++
++}
++
++void halbtc8821c1ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8821c1ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++
++	halbtc8821c1ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8821c1ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	u32	break_table;
++	u8	select_table;
++
++	coex_sta->coex_table_type = type;
++
++	if (coex_sta->concurrent_rx_mode_on == true) {
++		break_table = 0xf0ffffff;  /* set WL hi-pri can break BT */
++		select_table =
++			0xb;		/* set Tx response = Hi-Pri (ex: Transmitting ACK,BA,CTS) */
++	} else {
++		break_table = 0xffffff;
++		select_table = 0x3;
++	}
++
++	switch (type) {
++	case 0:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0x55555555, break_table,
++					   select_table);
++		break;
++	case 1:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0x5a5a5a5a, break_table,
++					   select_table);
++		break;
++	case 2:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0xaa5a5a5a, 0xaa5a5a5a, break_table,
++					   select_table);
++		break;
++	case 3:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0xaa555555, 0xaa5a5a5a, break_table,
++					   select_table);
++		break;
++	case 4:
++		halbtc8821c1ant_coex_table(btcoexist,
++					   force_exec, 0xaa555555, 0xaa5a5a5a,
++					   break_table, select_table);
++		break;
++	case 5:
++		halbtc8821c1ant_coex_table(btcoexist,
++					   force_exec, 0x5a5a5a5a, 0x5a5a5a5a,
++					   break_table, select_table);
++		break;
++	case 6:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x55555555, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 7:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0xaaaaaaaa, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 8:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 9:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 10:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 11:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 12:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 13:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x5fff5fff, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	case 14:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x5fff5fff, 0x5ada5ada, break_table,
++					   select_table);
++		break;
++	case 15:
++		halbtc8821c1ant_coex_table(btcoexist, force_exec,
++					   0x55dd55dd, 0xaaaaaaaa, break_table,
++					   select_table);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8821c1ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8821c1ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8821c1ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8821c1ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8821c1ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8821c1ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8821c1ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++	u8	h2c_parameter[5] = {0x8, 0, 0, 0, 0};
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			/*halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8); */
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			/*halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);*/
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8821c1ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		coex_sta->force_lps_on = false;
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++
++		break;
++	case BTC_PS_LPS_ON:
++		coex_sta->force_lps_on = true;
++		halbtc8821c1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8821c1ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++
++		break;
++	case BTC_PS_LPS_OFF:
++		coex_sta->force_lps_on = false;
++		halbtc8821c1ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++
++		break;
++	default:
++		break;
++	}
++}
++
++
++void halbtc8821c1ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], FW for 1Ant AP mode\n");
++			BTC_TRACE(trace_buf);
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++
++			halbtc8821c1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++							 0x0);
++		}
++	} else if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++
++		halbtc8821c1ant_power_save_state(
++			btcoexist, BTC_PS_LPS_ON, 0x50,
++			0x4);
++	} else {
++		halbtc8821c1ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++						 0x0);
++	}
++
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++
++void halbtc8821c1ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	boolean			wifi_busy = false;
++	static u8			psTdmaByte4Modify = 0x0, pre_psTdmaByte4Modify = 0x0;
++	static boolean	 pre_wifi_busy = false;
++
++
++#if BT_8821C_1ANT_ANTDET_ENABLE
++#if BT_8821C_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE
++	if (board_info->btdm_ant_num_by_ant_det == 2) {
++		if (turn_on)
++			type = type +
++			       100; /* for WiFi RSSI low or BT RSSI low */
++	}
++
++#endif
++#endif
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (wifi_busy != pre_wifi_busy) {
++		force_exec = true;
++		pre_wifi_busy = wifi_busy;
++	}
++
++	/* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++	if ((bt_link_info->slave_role) && (bt_link_info->a2dp_exist))
++		psTdmaByte4Modify = 0x1;
++	else
++		psTdmaByte4Modify = 0x0;
++
++	if (pre_psTdmaByte4Modify != psTdmaByte4Modify) {
++
++		force_exec = true;
++		pre_psTdmaByte4Modify = psTdmaByte4Modify;
++	}
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++
++	if (coex_dm->cur_ps_tdma_on) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(on, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ********** TDMA(off, %d) **********\n",
++			    coex_dm->cur_ps_tdma);
++		BTC_TRACE(trace_buf);
++	}
++
++
++	if (turn_on) {
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++		
++		switch (type) {
++		default:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x35, 0x03, 0x11, 0x11);
++			break;
++
++		case 3:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x3a, 0x03, 0x10, 0x10);
++			break;
++		case 4:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x51, 0x21, 0x03, 0x10, 0x10);
++			break;
++		case 5:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x15, 0x03, 0x11, 0x11);
++			break;
++		case 6:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x20, 0x03, 0x11, 0x11);
++			break;
++		case 7:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x10, 0x03, 0x10,  0x14 | psTdmaByte4Modify);
++			break;
++		case 8:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x10, 0x03, 0x10,  0x14 | psTdmaByte4Modify);
++			break;
++		case 13:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x25, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 14:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x15, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 15:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0x51, 0x20, 0x03, 0x10,  0x10 | psTdmaByte4Modify);
++			break;
++		case 17:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0x61, 0x10, 0x03, 0x11,  0x14 | psTdmaByte4Modify);
++			break;;
++		case 19:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x15, 0x03, 0x11, 0x10);
++			break;
++		case 20:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x30, 0x03, 0x11, 0x10);
++			break;
++		case 21:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x30, 0x03, 0x11, 0x10);
++			break;
++		case 22:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x25, 0x03, 0x11, 0x10);
++			break;
++		case 32:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x35, 0x03, 0x11, 0x11);
++			break;
++		case 33:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0x61, 0x35, 0x03, 0x11, 0x10);
++			break;
++
++		/*     1-Ant to 2-Ant      TDMA case */
++		case 103:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xd3, 0x3a, 0x03, 0x70, 0x10);
++			break;
++		case 104:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xd3, 0x21, 0x03, 0x70, 0x10);
++			break;
++		case 105:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x15, 0x03, 0x71, 0x11);
++			break;
++		case 106:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x20, 0x03, 0x71, 0x11);
++			break;
++		case 107:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0xd3, 0x10, 0x03, 0x70,  0x14 | psTdmaByte4Modify);
++			break;
++		case 108:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0xd3, 0x10, 0x03, 0x70,  0x14 | psTdmaByte4Modify);
++			break;
++		case 113:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0xd3, 0x25, 0x03, 0x70,  0x10 | psTdmaByte4Modify);
++			break;
++		case 114:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0xd3, 0x15, 0x03, 0x70,  0x10 | psTdmaByte4Modify);
++			break;
++		case 115:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0xd3, 0x20, 0x03, 0x70,  0x10 | psTdmaByte4Modify);
++			break;
++		case 117:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++				0xe3, 0x10, 0x03, 0x71,  0x14 | psTdmaByte4Modify);
++			break;;
++		case 119:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x15, 0x03, 0x71, 0x10);
++			break;
++		case 120:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x30, 0x03, 0x71, 0x10);
++			break;
++		case 121:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x30, 0x03, 0x71, 0x10);
++			break;
++		case 122:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x25, 0x03, 0x71, 0x10);
++			break;
++		case 132:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x35, 0x03, 0x71, 0x11);
++			break;
++		case 133:
++			halbtc8821c1ant_set_fw_pstdma(btcoexist,
++					      0xe3, 0x35, 0x03, 0x71, 0x10);
++			break;
++
++		}
++	} else {
++
++		/* disable PS tdma */
++		switch (type) {
++		case 8: /* PTA Control */
++			halbtc8821c1ant_set_fw_pstdma(btcoexist, 0x8,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 0:
++		default:  /* Software control, Antenna at BT side */
++			halbtc8821c1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x0, 0x0);
++			break;
++		case 1: /* 2-Ant, 0x778=3, antenna control by antenna diversity */
++			halbtc8821c1ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x48, 0x0);
++			break;
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8821c1ant_set_int_block(IN struct btc_coexist *btcoexist, IN boolean force_exec,  IN u8 pos_type)
++{
++	u8		regval_0xcba;
++	u32		u32tmp1 = 0;
++
++	 coex_dm->cur_int_block_status = pos_type;
++	 	
++	if (!force_exec) {
++		if (coex_dm->pre_int_block_status == coex_dm->cur_int_block_status)
++			return;	
++	} 
++
++	coex_dm->pre_int_block_status = coex_dm->cur_int_block_status;
++
++	regval_0xcba =  btcoexist->btc_read_1byte(btcoexist, 0xcba);
++
++	switch(pos_type){
++
++		case BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLG_OF_BTG:
++			regval_0xcba =  regval_0xcba & (~(BIT(2)) ) | BIT(0);  			/* 0xcb8[16] = 1, 0xcb8[18] = 0, WL_G select BTG */
++			break;
++		case BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG:
++			regval_0xcba =   regval_0xcba & (~(BIT(2) | BIT(0)) );   		/* 0xcb8[16] = 0, 0xcb8[18] = 0, WL_G select WLAG */
++			regval_0xcba =   regval_0xcba | BIT(4) | BIT(5) ;  				/* 0xcb8[21:20] = 2b'11, WL_G @ WLAG on */
++			regval_0xcba =    regval_0xcba & (~(BIT(7)) ) | BIT(6);		/* 0xcb8[23:22] = 2b'01, WL_A @ WLAG off */
++			
++			break;
++		case BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLA_OF_WLAG:
++			regval_0xcba =   regval_0xcba & (~(BIT(2) | BIT(0)) );    		/* 0xcb8[16] = 0, 0xcb8[18] = 0, WL_G select WLAG */
++			regval_0xcba =   regval_0xcba & (~(BIT(5))) | BIT(4);			/* 0xcb8[21:20] = 2b'01, WL_G @ WLAG off */
++			regval_0xcba =   regval_0xcba | BIT(6) | BIT(7);  	 	  		/* 0xcb8[23:22] = 2b'11, WL_A @ WLAG on */
++			
++			break;
++	}
++
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcba, 0xff, regval_0xcba);
++
++	u32tmp1 = btcoexist->btc_read_4byte(btcoexist, 0xcb8);
++			
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (After Int Block setup) 0xcb8 = 0x%08x **********\n",
++		    u32tmp1);
++	BTC_TRACE(trace_buf);
++
++}
++
++void halbtc8821c1ant_set_ext_band_switch(IN struct btc_coexist *btcoexist, IN boolean force_exec, IN u8 pos_type)
++{
++
++#if 0
++	boolean	switch_polatiry_inverse = false;
++	u8		regval_0xcb6; 
++	u32		u32tmp1 = 0, u32tmp2 = 0;
++	
++	if (!rfe_type->ext_band_switch_exist)
++		return;	
++
++	 coex_dm->cur_ext_band_switch_status = pos_type;
++	 	
++	if (!force_exec) {
++		if (coex_dm->pre_ext_band_switch_status == coex_dm->cur_ext_band_switch_status)
++			return;	
++	} 
++
++	coex_dm->pre_ext_band_switch_status = coex_dm->cur_ext_band_switch_status;
++
++	/* swap control polarity if use different switch control polarity*/
++	switch_polatiry_inverse = (rfe_type->ext_band_switch_ctrl_polarity == 1? ~switch_polatiry_inverse: switch_polatiry_inverse); 
++
++	/*swap control polarity for WL_A, default polarity 0xcb4[21] = 0 && 0xcb4[23] = 1 is for WL_G */
++	switch_polatiry_inverse =  (pos_type == BT_8821C_1ANT_EXT_BAND_SWITCH_TO_WLA? ~switch_polatiry_inverse: switch_polatiry_inverse); 
++
++	regval_0xcb6 =  btcoexist->btc_read_1byte(btcoexist, 0xcb6);
++
++	/* for normal switch polrity, 0xcb4[21] =1 && 0xcb4[23] = 0 for WL_A, vice versa  */
++	regval_0xcb6 = (switch_polatiry_inverse == 1? ( (regval_0xcb6 & (~(BIT(7))) ) | BIT(5)) : ( (regval_0xcb6 & (~(BIT(5))) ) | BIT(7)) ); 
++	
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb6, 0xff, regval_0xcb6);	
++
++	u32tmp1 = btcoexist->btc_read_4byte(btcoexist, 0xcb0);
++	u32tmp2 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++			
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (After Ext Band switch setup) 0xcb0 = 0x%08x, 0xcb4 = 0x%08x**********\n",
++		    u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++#endif	
++
++}
++
++void halbtc8821c1ant_set_ext_ant_switch(IN struct btc_coexist *btcoexist, IN boolean force_exec, IN u8 ctrl_type, IN u8 pos_type)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	boolean	switch_polatiry_inverse = false;
++	u8		regval_0xcb7 = 0, regval_0x64;
++	u32		u32tmp1 = 0, u32tmp2 = 0, u32tmp3 = 0;
++	
++	if (!rfe_type->ext_ant_switch_exist)
++		return;	
++
++	 coex_dm->cur_ext_ant_switch_status = (ctrl_type << 8)  + pos_type;
++	 	
++	if (!force_exec) {
++		if (coex_dm->pre_ext_ant_switch_status == coex_dm->cur_ext_ant_switch_status)
++			return;	
++	} 
++
++	coex_dm->pre_ext_ant_switch_status = coex_dm->cur_ext_ant_switch_status;
++
++	/* swap control polarity if use different switch control polarity*/
++	/*  Normal switch polarity for DPDT, 0xcb4[29:28] = 2b'01 => BTG to Main, WLG to Aux,  0xcb4[29:28] = 2b'10 => BTG to Aux, WLG to Main */
++	/*  Normal switch polarity for SPDT, 0xcb4[29:28] = 2b'01 => Ant to BTG,  0xcb4[29:28] = 2b'10 => Ant to WLG */
++	switch_polatiry_inverse = (rfe_type->ext_ant_switch_ctrl_polarity == 1? ~switch_polatiry_inverse: switch_polatiry_inverse); 
++
++	/* swap control polarity if 1-Ant at Aux  */
++	if ( (rfe_type->ext_ant_switch_type == BT_8821C_1ANT_EXT_ANT_SWITCH_USE_DPDT) && (board_info->single_ant_path == 0) ) 
++		switch_polatiry_inverse =  ~switch_polatiry_inverse;
++	
++	switch(pos_type)
++	{	
++		default:
++		case BT_8821C_1ANT_EXT_ANT_SWITCH_TO_BT:
++		case BT_8821C_1ANT_EXT_ANT_SWITCH_TO_NOCARE:
++			
++			break;
++		case BT_8821C_1ANT_EXT_ANT_SWITCH_TO_WLG:
++			switch_polatiry_inverse =  (rfe_type->wlg_Locate_at_btg == 0?  ~switch_polatiry_inverse: switch_polatiry_inverse);
++			break;
++		case BT_8821C_1ANT_EXT_ANT_SWITCH_TO_WLA:
++			/*switch_polatiry_inverse =  (rfe_type->ext_band_switch_exist == 1?  ~switch_polatiry_inverse: switch_polatiry_inverse);*/
++			break;
++	}
++	
++
++	switch(ctrl_type)
++	{
++		default:
++		case BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /*  0x4c[23] = 0 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x1);  /* 0x4c[24] = 1  */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb4, 0xff, 0x77);	/* BB SW, DPDT use RFE_ctrl8 and RFE_ctrl9 as cotrol pin */
++
++			regval_0xcb7 = (switch_polatiry_inverse == false?  0x1 : 0x2);     /* 0xcb4[29:28] = 2b'01 for no switch_polatiry_inverse, DPDT_SEL_N =1, DPDT_SEL_P =0   */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb7, 0x30, regval_0xcb7);
++
++			break;
++		case BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_PTA:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /* 0x4c[23] = 0 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x1);  /* 0x4c[24] = 1 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb4, 0xff, 0x66);	/* PTA,  DPDT use RFE_ctrl8 and RFE_ctrl9 as cotrol pin */
++
++			regval_0xcb7 = (switch_polatiry_inverse == false?  0x2 : 0x1);     /* 0xcb4[29:28] = 2b'10 for no switch_polatiry_inverse, DPDT_SEL_N =1, DPDT_SEL_P =0  @ GNT_BT=1  */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb7, 0x30, regval_0xcb7);
++			
++			break;
++		case BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_ANTDIV:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /* 0x4c[23] = 0 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x1);  /* 0x4c[24] = 1 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb4, 0xff, 0x88);  /* */
++
++			/* no regval_0xcb7 setup required, because  antenna switch control value by antenna diversity */
++
++			break;
++		case BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_MAC:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x1);  /*  0x4c[23] = 1 */
++
++			regval_0x64 = (switch_polatiry_inverse == false?  0x0 : 0x1);     /* 0x64[0] = 1b'0 for no switch_polatiry_inverse, DPDT_SEL_N =1, DPDT_SEL_P =0 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x64, 0x1, regval_0x64);
++			break;
++		case BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_BT:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /* 0x4c[23] = 0  */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x0);  /* 0x4c[24] = 0  */
++
++			/* no  setup required, because  antenna switch control value by BT vendor 0xac[1:0]  */
++			break;
++	}
++
++		u32tmp1 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++		u32tmp2 = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0x64) & 0xff;
++			
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (After Ext Ant switch setup) 0xcb4 = 0x%08x, 0x4c = 0x%08x, 0x64= 0x%02x**********\n",
++		    u32tmp1, u32tmp2, u32tmp3);
++		BTC_TRACE(trace_buf);
++
++
++}
++
++void halbtc8821c1ant_set_rfe_type(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++
++#if 0
++	rfe_type->ext_band_switch_exist = false;
++	rfe_type->ext_band_switch_type = BT_8821C_1ANT_EXT_BAND_SWITCH_USE_SPDT;     // SPDT;
++	rfe_type->ext_band_switch_ctrl_polarity = 0;
++
++	if (rfe_type->ext_band_switch_exist) {
++
++		/* band switch use RFE_ctrl1 (pin name: PAPE_A) and RFE_ctrl3 (pin name: LNAON_A)  */
++
++		/* set RFE_ctrl1 as software control  */		
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb0, 0xf0, 0x7);
++
++		/* set RFE_ctrl3 as software control  */	
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb1, 0xf0, 0x7);
++
++		}
++#endif
++
++	/* the following setup should be got from Efuse in the future */
++	rfe_type->rfe_module_type = board_info->rfe_type;
++	
++	rfe_type->ext_ant_switch_ctrl_polarity = 0;
++	rfe_type->ext_ant_switch_diversity = false;
++
++	switch(rfe_type->rfe_module_type)
++	{
++		case 0:
++		default:	
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_DPDT;          /*2-Ant, DPDT, WLG*/
++			rfe_type->wlg_Locate_at_btg = false;
++			rfe_type->ext_ant_switch_diversity = true;
++			break;
++		case 1:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_SPDT;          /*1-Ant, Main, DPDT or SPDT, WLG   */
++			rfe_type->wlg_Locate_at_btg = false;
++			break;
++		case 2:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_SPDT;            /*1-Ant, Main, DPDT or SPDT, BTG   */
++			rfe_type->wlg_Locate_at_btg = true;
++			break;	
++		case 3:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_DPDT;          /*1-Ant, Aux, DPDT, WLG   */
++			rfe_type->wlg_Locate_at_btg = false;
++			break;
++		case 4:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_DPDT;          /*1-Ant, Aux, DPDT, BTG   */;
++			rfe_type->wlg_Locate_at_btg = true;
++			break;	
++		case 5:
++			rfe_type->ext_ant_switch_exist = false;										 /*2-Ant, no antenna switch, WLG*/
++			rfe_type->wlg_Locate_at_btg = false;	
++
++	}
++
++
++	if (rfe_type->wlg_Locate_at_btg) 
++		halbtc8821c1ant_set_int_block(btcoexist, FORCE_EXEC, BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLG_OF_BTG);
++	else
++		halbtc8821c1ant_set_int_block(btcoexist, FORCE_EXEC, BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG);
++
++	
++}
++
++
++void halbtc8821c1ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean force_exec,
++	  IN u8 phase  )
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++	u32			cnt_bt_cal_chk = 0;
++	boolean			is_in_mp_mode = false;
++	u8			u8tmp = 0;
++	u32			u32tmp1 = 0, u32tmp2 = 0, u32tmp3 = 0;
++	u16			u16tmp1 = 0;
++
++#if BT_8821C_1ANT_ANTDET_ENABLE
++#if BT_8821C_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE
++	if (ant_pos_type == BTC_ANT_PATH_PTA) {
++		if ((board_info->btdm_ant_det_finish) &&
++		    (board_info->btdm_ant_num_by_ant_det == 2)) {
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT)
++				ant_pos_type = BTC_ANT_PATH_WIFI;
++			else
++				ant_pos_type = BTC_ANT_PATH_BT;
++		}
++	}
++#endif
++#endif
++
++	 coex_dm->cur_ant_pos_type = (ant_pos_type << 8)  + phase;
++
++	if (!force_exec) {
++		if (coex_dm->cur_ant_pos_type == coex_dm->pre_ant_pos_type)
++			return;	
++	} 
++	
++	coex_dm->pre_ant_pos_type = coex_dm->cur_ant_pos_type;
++
++#if 1
++	u32tmp1 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist,
++			0x38);
++	u32tmp2 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist,
++			0x54);
++	u8tmp  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Before Ant Setup) 0xcb4 = 0x%x, 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++		    u32tmp3, u8tmp, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++#endif
++
++
++	switch (phase)
++	{
++		case BT_8821C_1ANT_PHASE_COEX_INIT:
++				/* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++				halbtc8821c1ant_ltecoex_enable(btcoexist, 0x0);
++
++				/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++				halbtc8821c1ant_ltecoex_set_coex_table(btcoexist,
++									       BT_8821C_1ANT_CTT_WL_VS_LTE, 0xffff);
++
++				/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++				halbtc8821c1ant_ltecoex_set_coex_table(btcoexist,
++						       BT_8821C_1ANT_CTT_BT_VS_LTE, 0xffff);
++
++				/* Wait If BT IQK running, because Path control owner is at BT during BT IQK (setup by WiFi firmware) */
++				while (cnt_bt_cal_chk <= 20) {
++							u8tmp = btcoexist->btc_read_1byte(btcoexist,
++														  0x49d);
++							cnt_bt_cal_chk++;
++							if (u8tmp & BIT(0)) {
++										BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++										"[BTCoex], ########### BT is calibrating (wait cnt=%d) ###########\n",
++				 	 				      cnt_bt_cal_chk);
++										BTC_TRACE(trace_buf);
++										delay_ms(50);
++							} else {
++										BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++											"[BTCoex], ********** BT is NOT calibrating (wait cnt=%d)**********\n",
++					    											cnt_bt_cal_chk);
++										BTC_TRACE(trace_buf);
++										break;
++							}
++				}
++
++				/* set Path control owner to WL at initial step */
++				halbtc8821c1ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8821C_1ANT_PCO_WLSIDE);
++
++				/* set GNT_BT to SW high */
++				halbtc8821c1ant_ltecoex_set_gnt_bt(btcoexist,
++							BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					   		BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++							BT_8821C_1ANT_SIG_STA_SET_TO_HIGH);
++				/* Set GNT_WL to SW low */
++				halbtc8821c1ant_ltecoex_set_gnt_wl(btcoexist,
++						      BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					  	      BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++						      BT_8821C_1ANT_SIG_STA_SET_TO_LOW);
++
++				coex_sta->run_time_state = false;
++
++				if (BTC_ANT_PATH_AUTO == ant_pos_type)
++					ant_pos_type = BTC_ANT_PATH_BT;
++
++			break;
++		case BT_8821C_1ANT_PHASE_WLANONLY_INIT:
++  			      /* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++				halbtc8821c1ant_ltecoex_enable(btcoexist, 0x0);
++
++				/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++				halbtc8821c1ant_ltecoex_set_coex_table(btcoexist,
++									       BT_8821C_1ANT_CTT_WL_VS_LTE, 0xffff);
++
++				/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++				halbtc8821c1ant_ltecoex_set_coex_table(btcoexist,
++						       BT_8821C_1ANT_CTT_BT_VS_LTE, 0xffff);				
++
++				/* set Path control owner to WL at initial step */
++				halbtc8821c1ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8821C_1ANT_PCO_WLSIDE);
++
++				/* set GNT_BT to SW Low */
++				halbtc8821c1ant_ltecoex_set_gnt_bt(btcoexist,
++							BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					   		BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++							BT_8821C_1ANT_SIG_STA_SET_TO_LOW);
++				/* Set GNT_WL to SW high */
++				halbtc8821c1ant_ltecoex_set_gnt_wl(btcoexist,
++						      BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					  	      BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++						      BT_8821C_1ANT_SIG_STA_SET_TO_HIGH);
++
++				coex_sta->run_time_state = false;
++
++				if (BTC_ANT_PATH_AUTO == ant_pos_type)
++					ant_pos_type = BTC_ANT_PATH_WIFI;
++
++			break;
++		case BT_8821C_1ANT_PHASE_WLAN_OFF:
++				/* Disable LTE Coex Function in WiFi side */
++				halbtc8821c1ant_ltecoex_enable(btcoexist, 0x0);
++
++				/* set Path control owner to BT */
++				halbtc8821c1ant_ltecoex_pathcontrol_owner(btcoexist,
++						BT_8821C_1ANT_PCO_BTSIDE);
++
++				/* Set Ext Ant Switch to BT control at wifi off step  */
++				halbtc8821c1ant_set_ext_ant_switch(btcoexist, 
++						   FORCE_EXEC, 
++						   BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_BT, 
++					   	   BT_8821C_1ANT_EXT_ANT_SWITCH_TO_NOCARE);
++				
++				coex_sta->run_time_state = false;
++			break;
++		case BT_8821C_1ANT_PHASE_2G_RUNTIME:
++
++				/* set Path control owner to WL at runtime step */
++				halbtc8821c1ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8821C_1ANT_PCO_WLSIDE);
++	
++				/* set GNT_BT to PTA */
++				halbtc8821c1ant_ltecoex_set_gnt_bt(btcoexist,
++				  		    BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					   		BT_8821C_1ANT_GNT_TYPE_CTRL_BY_PTA,
++					   		BT_8821C_1ANT_SIG_STA_SET_BY_HW);
++
++				if (rfe_type->wlg_Locate_at_btg)  /* Set GNT_WL to PTA */				
++					halbtc8821c1ant_ltecoex_set_gnt_wl(btcoexist,
++								BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++							   	BT_8821C_1ANT_GNT_TYPE_CTRL_BY_PTA,
++							   	BT_8821C_1ANT_SIG_STA_SET_BY_HW);
++				else  /* Set GNT_WL to SW High */				
++					halbtc8821c1ant_ltecoex_set_gnt_wl(btcoexist,
++								BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++							   	BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++							   	BT_8821C_1ANT_SIG_STA_SET_TO_HIGH);	
++
++				coex_sta->run_time_state = true;
++
++				if (BTC_ANT_PATH_AUTO == ant_pos_type){
++					if (rfe_type->wlg_Locate_at_btg) 
++						ant_pos_type = BTC_ANT_PATH_WIFI;
++					else
++						ant_pos_type = BTC_ANT_PATH_PTA;
++				}				
++
++				if (rfe_type->wlg_Locate_at_btg) 
++					halbtc8821c1ant_set_int_block(btcoexist, NORMAL_EXEC, BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLG_OF_BTG);
++				else
++					halbtc8821c1ant_set_int_block(btcoexist, NORMAL_EXEC, BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG);	
++
++			break;
++		case BT_8821C_1ANT_PHASE_5G_RUNTIME:	
++
++				/* set Path control owner to WL at runtime step */
++				halbtc8821c1ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8821C_1ANT_PCO_WLSIDE);
++
++				/* set GNT_BT to SW Hi */
++				halbtc8821c1ant_ltecoex_set_gnt_bt(btcoexist,
++							   BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   		   BT_8821C_1ANT_SIG_STA_SET_TO_HIGH);
++				
++				/* Set GNT_WL to SW Hi */
++				halbtc8821c1ant_ltecoex_set_gnt_wl(btcoexist,
++							   BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   		   BT_8821C_1ANT_SIG_STA_SET_TO_HIGH);
++
++				coex_sta->run_time_state = true;
++
++				if (BTC_ANT_PATH_AUTO == ant_pos_type) {
++				/*	if (rfe_type->ext_band_switch_exist)	
++						ant_pos_type =   BTC_ANT_PATH_PTA;
++					else */
++						ant_pos_type = BTC_ANT_PATH_WIFI5G;
++				}
++
++				halbtc8821c1ant_set_int_block(btcoexist, NORMAL_EXEC, BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLA_OF_WLAG);
++
++			break;
++		case BT_8821C_1ANT_PHASE_BTMPMODE:
++				/* Disable LTE Coex Function in WiFi side */
++				halbtc8821c1ant_ltecoex_enable(btcoexist, 0x0);
++
++				/* set Path control owner to WL */
++				halbtc8821c1ant_ltecoex_pathcontrol_owner(btcoexist,
++						BT_8821C_1ANT_PCO_WLSIDE);
++
++				/* set GNT_BT to SW Hi */
++				halbtc8821c1ant_ltecoex_set_gnt_bt(btcoexist,
++							   BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   		   BT_8821C_1ANT_SIG_STA_SET_TO_HIGH);
++				
++				/* Set GNT_WL to SW Lo */
++				halbtc8821c1ant_ltecoex_set_gnt_wl(btcoexist,
++							   BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   		   BT_8821C_1ANT_SIG_STA_SET_TO_LOW);
++
++				coex_sta->run_time_state = false;
++				
++				/* Set Ext Ant Switch to BT side at BT MP mode  */
++				if (BTC_ANT_PATH_AUTO == ant_pos_type) 
++					ant_pos_type = BTC_ANT_PATH_BT;
++				
++			break;
++	}
++
++		if (phase != BT_8821C_1ANT_PHASE_WLAN_OFF)
++			{
++				switch (ant_pos_type) {
++							case BTC_ANT_PATH_WIFI:
++								halbtc8821c1ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_TO_WLG);
++								break;
++							case BTC_ANT_PATH_WIFI5G:
++								halbtc8821c1ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_TO_WLA);
++								break;
++							case BTC_ANT_PATH_BT:
++								halbtc8821c1ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_TO_BT);			
++								break;
++							default:
++							case BTC_ANT_PATH_PTA:
++								halbtc8821c1ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_PTA, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_TO_NOCARE);			
++								break;
++					}
++	
++			}
++#if 1
++	u32tmp1 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	u8tmp  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++	
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (After Ant-Setup phase---%d) 0xcb4 = 0x%x, 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++			    phase, u32tmp3, u8tmp, u32tmp1, u32tmp2);
++		
++		BTC_TRACE(trace_buf);
++#endif
++}
++
++
++boolean halbtc8821c1ant_is_common_action(IN struct btc_coexist *btcoexist)
++{
++	boolean			common = false, wifi_connected = false, wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (!wifi_connected &&
++	    BT_8821C_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++	    coex_dm->bt_status) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8821c1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		   (BT_8821C_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		    coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi connected + BT non connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8821c1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8821C_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi non connected-idle + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8821c1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (wifi_connected &&
++		(BT_8821C_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT connected-idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8821c1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else if (!wifi_connected &&
++		(BT_8821C_1ANT_BT_STATUS_CONNECTED_IDLE != coex_dm->bt_status)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi non connected-idle + BT Busy!!\n");
++		BTC_TRACE(trace_buf);
++
++		/* halbtc8821c1ant_sw_mechanism(btcoexist, false); */
++
++		common = true;
++	} else {
++		if (wifi_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Busy + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Wifi Connected-Idle + BT Busy!!\n");
++			BTC_TRACE(trace_buf);
++		}
++
++		common = false;
++	}
++
++	return common;
++}
++
++
++/* *********************************************
++ *
++ *	Software Coex Mechanism start
++ *
++ * ********************************************* */
++
++/* SCO only or SCO+PAN(HS) */
++
++/*
++void halbtc8821c1ant_action_sco(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8821c1ant_action_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8821c1ant_action_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8821c1ant_action_a2dp_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8821c1ant_action_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8821c1ant_action_pan_hs(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, false);
++}
++
++
++void halbtc8821c1ant_action_pan_edr_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, false);
++}
++
++void halbtc8821c1ant_action_pan_edr_hid(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, true);
++}
++
++
++void halbtc8821c1ant_action_hid_a2dp_pan_edr(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, true);
++}
++
++void halbtc8821c1ant_action_hid_a2dp(IN struct btc_coexist* btcoexist)
++{
++	halbtc8821c1ant_sw_mechanism(btcoexist, true);
++}
++
++*/
++
++/* *********************************************
++ *
++ *	Non-Software Coex Mechanism start
++ *
++ * ********************************************* */
++void halbtc8821c1ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	
++	halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, NORMAL_EXEC,
++				     BT_8821C_1ANT_PHASE_2G_RUNTIME);
++	
++	halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8821c1ant_action_wifi_under5g(IN struct btc_coexist *btcoexist)
++{
++
++	halbtc8821c1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	halbtc8821c1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++	
++	halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, FORCE_EXEC,
++				      BT_8821C_1ANT_PHASE_5G_RUNTIME);
++}
++
++
++void halbtc8821c1ant_action_wifi_only(IN struct btc_coexist *btcoexist)
++{
++	boolean wifi_under_5g = false;
++
++    btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++	if(wifi_under_5g)
++	{
++		halbtc8821c1ant_action_wifi_under5g(btcoexist);
++			
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,	
++		    	"[BTCoex], ********** (wlan only -- under 5g ) **********\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	halbtc8821c1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	
++	halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, FORCE_EXEC,
++				      BT_8821C_1ANT_PHASE_2G_RUNTIME);
++	
++	halbtc8821c1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++}
++
++void halbtc8821c1ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++	
++	halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, NORMAL_EXEC,
++				     BT_8821C_1ANT_PHASE_2G_RUNTIME);
++	
++	halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8821c1ant_action_hs(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++
++	halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, NORMAL_EXEC,
++				     BT_8821C_1ANT_PHASE_2G_RUNTIME);
++	
++	halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++}
++
++void halbtc8821c1ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_connected = false, ap_enable = false, wifi_busy = false,
++				bt_busy = false;
++	boolean	wifi_scan = false, wifi_link = false, wifi_roam = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &wifi_scan);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &wifi_link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &wifi_roam);
++
++	if ((wifi_link) || (wifi_roam) || (coex_sta->wifi_is_high_pri_task)) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++
++	} else if ((wifi_scan) && (coex_sta->bt_create_connection)) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 6);
++
++	} else if ((!wifi_connected) && (!wifi_scan)) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if ((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 22);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	} else if (bt_link_info->a2dp_exist) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (wifi_scan) {
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++	} else if (wifi_busy) {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 21);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 19);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	}
++}
++
++void halbtc8821c1ant_action_bt_sco_hid_only_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	/* tdma and coex table */
++
++	if (bt_link_info->sco_exist) {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else { /* HID */
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	}
++}
++
++void halbtc8821c1ant_action_wifi_connected_bt_acl_busy(IN struct btc_coexist
++		*btcoexist, IN u8 wifi_status)
++{
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean			wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	if (bt_link_info->hid_only) { /* HID */
++		halbtc8821c1ant_action_bt_sco_hid_only_busy(btcoexist,
++				wifi_status);
++		coex_dm->auto_tdma_adjust = false;
++		return;
++	} else if (bt_link_info->a2dp_only) { /* A2DP		 */
++		if (BT_8821C_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status) {
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = false;
++		} else {
++
++			if (coex_sta->scan_ap_num >=
++			    BT_8821C_1ANT_WIFI_NOISY_THRESH)  {
++				halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++							17);
++			}	else {
++				halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++							7);
++			}
++
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++			coex_dm->auto_tdma_adjust = true;
++		}
++	} else if (((bt_link_info->a2dp_exist) && (bt_link_info->pan_exist)) ||
++		   (bt_link_info->hid_exist && bt_link_info->a2dp_exist &&
++		bt_link_info->pan_exist)) { /* A2DP+PAN(OPP,FTP), HID+A2DP+PAN(OPP,FTP) */
++
++		if (wifi_busy)	{
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 15);
++			else
++				halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++		} else
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 14);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++		coex_dm->auto_tdma_adjust = false;
++	} else if (bt_link_info->hid_exist &&
++		   bt_link_info->a2dp_exist) { /* HID+A2DP */
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 8);
++		coex_dm->auto_tdma_adjust = false;
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++	} else if ((bt_link_info->pan_only) || (bt_link_info->hid_exist &&
++		bt_link_info->pan_exist)) { /* PAN(OPP,FTP), HID+PAN(OPP,FTP)			 */
++		if (BT_8821C_1ANT_WIFI_STATUS_CONNECTED_IDLE == wifi_status)
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						4);
++		else
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 1);
++		coex_dm->auto_tdma_adjust = false;
++	} else {
++		/* BT no-profile busy (0x9) */
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 33);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++		coex_dm->auto_tdma_adjust = false;
++	}
++}
++
++void halbtc8821c1ant_action_wifi_not_connected(IN struct btc_coexist *btcoexist)
++{
++	/* tdma and coex table */
++	halbtc8821c1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++	
++	halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, NORMAL_EXEC,
++				    BT_8821C_1ANT_PHASE_2G_RUNTIME );
++	
++	halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++}
++
++void halbtc8821c1ant_action_wifi_not_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8821c1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8821c1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8821c1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8821c1ant_action_hs(btcoexist);
++		return;
++	}
++
++	/* tdma and coex table */
++	if (BT_8821C_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8821C_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8821C_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8821c1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8821C_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     NORMAL_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++		
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8821c1ant_action_wifi_connected_scan(IN struct btc_coexist
++		*btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8821c1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8821c1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8821c1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8821c1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	/* tdma and coex table */
++	if (BT_8821C_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++		if (bt_link_info->a2dp_exist) {
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else if (bt_link_info->a2dp_exist &&
++			   bt_link_info->pan_exist) {
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						22);
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		} else {
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	} else if ((BT_8821C_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++		   (BT_8821C_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++		    coex_dm->bt_status)) {
++		halbtc8821c1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8821C_1ANT_WIFI_STATUS_CONNECTED_SCAN);
++	} else {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     NORMAL_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++		
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8821c1ant_action_wifi_not_connected_asso_auth(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8821c1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8821c1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8821c1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8821c1ant_action_hs(btcoexist);
++		return;
++	}
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist)  || (bt_link_info->hid_exist) ||
++	    (bt_link_info->a2dp_exist)) {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 4);
++	} else {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     NORMAL_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 2);
++	}
++}
++
++void halbtc8821c1ant_action_wifi_connected_specific_packet(
++	IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++	boolean wifi_busy = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if (num_of_wifi_link >= 2) {
++		halbtc8821c1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++		halbtc8821c1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8821c1ant_action_wifi_multi_port(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8821c1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	/* no specific packet process for both WiFi and BT very busy */
++	if ((wifi_busy) && ((bt_link_info->pan_exist) ||
++			    (coex_sta->num_of_profile >= 2)))
++		return;
++
++	/* tdma and coex table */
++	if ((bt_link_info->sco_exist) || (bt_link_info->hid_exist)) {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 5);
++	} else if (bt_link_info->a2dp_exist) {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 32);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else if (bt_link_info->pan_exist) {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 20);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++	} else {
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 8);
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     NORMAL_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 2);
++	}
++}
++
++void halbtc8821c1ant_action_wifi_connected(IN struct btc_coexist *btcoexist)
++{
++	boolean	wifi_busy = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean		under_4way = false, ap_enable = false, wifi_under_5g = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], CoexForWifiConnect()===>\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	if (wifi_under_5g) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 5G!!!\n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8821c1ant_action_wifi_under5g(btcoexist);
++		return;
++	} else {
++
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     			NORMAL_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++	if (under_4way) {
++		halbtc8821c1ant_action_wifi_connected_specific_packet(btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under 4way<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++	if (scan || link || roam) {
++		if (scan)
++			halbtc8821c1ant_action_wifi_connected_scan(btcoexist);
++		else
++			halbtc8821c1ant_action_wifi_connected_specific_packet(
++				btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], CoexForWifiConnect(), return for wifi is under scan<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++
++	/* tdma and coex table */
++	if (!wifi_busy) {
++		if (BT_8821C_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8821c1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8821C_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else if ((BT_8821C_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8821C_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8821c1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8821C_1ANT_WIFI_STATUS_CONNECTED_IDLE);
++		} else {
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);
++			
++			halbtc8821c1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_AUTO, NORMAL_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++			
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 2);
++		}
++	} else {
++		if (BT_8821C_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) {
++			halbtc8821c1ant_action_wifi_connected_bt_acl_busy(
++				btcoexist,
++				BT_8821C_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else if ((BT_8821C_1ANT_BT_STATUS_SCO_BUSY ==
++			    coex_dm->bt_status) ||
++			   (BT_8821C_1ANT_BT_STATUS_ACL_SCO_BUSY ==
++			    coex_dm->bt_status)) {
++			halbtc8821c1ant_action_bt_sco_hid_only_busy(btcoexist,
++				BT_8821C_1ANT_WIFI_STATUS_CONNECTED_BUSY);
++		} else {
++	
++			halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, true,
++						32);
++			
++			halbtc8821c1ant_set_ant_path(btcoexist,
++				BTC_ANT_PATH_AUTO, NORMAL_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++	
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     NORMAL_EXEC, 4);
++		}
++	}
++}
++
++void halbtc8821c1ant_run_sw_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8				algorithm = 0;
++
++	algorithm = halbtc8821c1ant_action_algorithm(btcoexist);
++	coex_dm->cur_algorithm = algorithm;
++
++	if (halbtc8821c1ant_is_common_action(btcoexist)) {
++
++	} else {
++		switch (coex_dm->cur_algorithm) {
++		case BT_8821C_1ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_sco(btcoexist); */
++			break;
++		case BT_8821C_1ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_hid(btcoexist); */
++			break;
++		case BT_8821C_1ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_a2dp(btcoexist); */
++			break;
++		case BT_8821C_1ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_a2dp_pan_hs(btcoexist); */
++			break;
++		case BT_8821C_1ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_pan_edr(btcoexist); */
++			break;
++		case BT_8821C_1ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_pan_hs(btcoexist); */
++			break;
++		case BT_8821C_1ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_pan_edr_a2dp(btcoexist); */
++			break;
++		case BT_8821C_1ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_pan_edr_hid(btcoexist); */
++			break;
++		case BT_8821C_1ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_hid_a2dp_pan_edr(btcoexist); */
++			break;
++		case BT_8821C_1ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], Action algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_action_hid_a2dp(btcoexist); */
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			/* halbtc8821c1ant_coex_all_off(btcoexist); */
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++
++void halbtc8821c1ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean	wifi_connected = false, bt_hs_on = false;
++	boolean	increase_scan_dev_num = false;
++	boolean	bt_ctrl_agg_buf_size = false;
++	boolean	miracast_plus_bt = false, wifi_under_5g = false;
++	u8	agg_buf_size = 5;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0, wifi_bw;
++	u8	iot_peer = BTC_IOT_PEER_UNKNOWN;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (!coex_sta->run_time_state){
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], return for run_time_state = false !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	if (wifi_under_5g) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 5G!!!\n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8821c1ant_action_wifi_under5g(btcoexist);
++		return;
++	} else{
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 2G!!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     NORMAL_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++	}
++
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821c1ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	if (coex_sta->bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is disabled !!!\n");
++		halbtc8821c1ant_action_wifi_only(btcoexist);
++		return;
++	}
++
++	if ((BT_8821C_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8821C_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8821C_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		increase_scan_dev_num = true;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_INC_SCAN_DEV_NUM,
++			   &increase_scan_dev_num);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist) {
++			halbtc8821c1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1,
++						   0, 1);
++			miracast_plus_bt = true;
++		} else {
++			halbtc8821c1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++			miracast_plus_bt = false;
++		}
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8821c1ant_limited_rx(btcoexist, NORMAL_EXEC, false,
++					   bt_ctrl_agg_buf_size, agg_buf_size);
++
++		if (coex_sta->c2h_bt_inquiry_page) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"############# [BTCoex],  BT Is Inquirying\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		} else
++			halbtc8821c1ant_action_wifi_multi_port(btcoexist);
++
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++
++	if ((bt_link_info->bt_link_exist) && (wifi_connected)) {
++		halbtc8821c1ant_limited_tx(btcoexist, NORMAL_EXEC, 1, 1, 0, 1);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_IOT_PEER, &iot_peer);
++
++		if (BTC_IOT_PEER_CISCO != iot_peer) {
++			if (bt_link_info->sco_exist) /* if (bt_link_info->bt_hi_pri_link_exist) */
++				halbtc8821c1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, true, false, 0x5);
++			else
++				halbtc8821c1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, false, false, 0x5);
++		} else {
++			if (bt_link_info->sco_exist)
++				halbtc8821c1ant_limited_rx(btcoexist,
++					   NORMAL_EXEC, true, false, 0x5);
++			else {
++				if (BTC_WIFI_BW_HT40 == wifi_bw)
++					halbtc8821c1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x10);
++				else
++					halbtc8821c1ant_limited_rx(btcoexist,
++						NORMAL_EXEC, false, true, 0x8);
++			}
++		}
++
++		halbtc8821c1ant_sw_mechanism(btcoexist, true);
++		halbtc8821c1ant_run_sw_coexist_mechanism(
++			btcoexist);  /* just print debug message */
++	} else {
++		halbtc8821c1ant_limited_tx(btcoexist, NORMAL_EXEC, 0, 0, 0, 0);
++
++		halbtc8821c1ant_limited_rx(btcoexist, NORMAL_EXEC, false, false,
++					   0x5);
++
++		halbtc8821c1ant_sw_mechanism(btcoexist, false);
++		halbtc8821c1ant_run_sw_coexist_mechanism(
++			btcoexist); /* just print debug message */
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	if (coex_sta->c2h_bt_inquiry_page) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "############# [BTCoex],  BT Is Inquirying\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821c1ant_action_bt_inquiry(btcoexist);
++		return;
++	} else if (bt_hs_on) {
++		halbtc8821c1ant_action_hs(btcoexist);
++		return;
++	}
++
++
++	if (!wifi_connected) {
++		boolean	scan = false, link = false, roam = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is non connected-idle !!!\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++		if (scan || link || roam) {
++			if (scan)
++				halbtc8821c1ant_action_wifi_not_connected_scan(
++					btcoexist);
++			else
++				halbtc8821c1ant_action_wifi_not_connected_asso_auth(
++					btcoexist);
++		} else
++			halbtc8821c1ant_action_wifi_not_connected(btcoexist);
++	} else	/* wifi LPS/Busy */
++		halbtc8821c1ant_action_wifi_connected(btcoexist);
++}
++
++void halbtc8821c1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	/* force to reset coex mechanism */
++
++	/* sw all off */
++	halbtc8821c1ant_sw_mechanism(btcoexist, false);
++
++	coex_sta->pop_event_cnt = 0;
++}
++
++void halbtc8821c1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean back_up, IN boolean wifi_only)
++{
++	u32			u32tmp1 = 0, u32tmp2 = 0, u32tmp3 = 0;
++	u16			u16tmp1 = 0;
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++
++
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	u32tmp1 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Before Init HW config) 0xcb4 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++		    u32tmp3, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 1Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	coex_sta->bt_coex_supported_feature = 0;
++	coex_sta->bt_coex_supported_version = 0;
++	
++	/* Setup RF front end type */
++	halbtc8821c1ant_set_rfe_type(btcoexist);
++
++	/* 0xf0[15:12] --> Chip Cut information */
++	coex_sta->cut_version = (btcoexist->btc_read_1byte(btcoexist,
++				 0xf1) & 0xf0) >> 4;
++
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++
++	/* BT report packet sample rate	 */
++	btcoexist->btc_write_1byte(btcoexist, 0x790, 0x5);
++
++	/* Init 0x778 = 0x1 for 1-Ant */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++
++	/* Enable PTA (3-wire function form BT side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x41, 0x02, 0x1);
++
++	/* Enable PTA (tx/rx signal form WiFi side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4c6, 0x10, 0x1);
++
++	halbtc8821c1ant_enable_gnt_to_gpio(btcoexist, TRUE);
++
++	/* check if WL firmware download ok */
++	if (btcoexist->btc_read_1byte(btcoexist, 0x80) == 0xc6)
++		halbtc8821c1ant_post_onoffstate_to_bt(btcoexist, TRUE);
++
++	halbtc8821c1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 8);
++
++	/* Antenna config */
++	if (wifi_only) {
++		coex_sta->concurrent_rx_mode_on = false;
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_WIFI,
++					     FORCE_EXEC, BT_8821C_1ANT_PHASE_WLANONLY_INIT);
++	} else {
++		coex_sta->concurrent_rx_mode_on = true;
++		/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0x953, 0x2, 0x1); */
++		
++		/* RF 0x1[1] = 0->Set GNT_WL_RF_Rx always = 1 for con-current Rx, mask Tx only */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0x2, 0x0);
++		
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC, BT_8821C_1ANT_PHASE_COEX_INIT);
++	}
++
++	/* PTA parameter */
++	halbtc8821c1ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	psd_scan->ant_det_is_ant_det_available = TRUE;
++
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	u32tmp1 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (After Init HW config) 0xcb4 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++		    u32tmp3, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++
++}
++
++u32 halbtc8821c1ant_psd_log2base(IN struct btc_coexist *btcoexist, IN u32 val)
++{
++	u8	j;
++	u32	tmp, tmp2, val_integerd_b = 0, tindex, shiftcount = 0;
++	u32	result, val_fractiond_b = 0, table_fraction[21] = {0, 432, 332, 274, 232, 200,
++				   174, 151, 132, 115, 100, 86, 74, 62, 51, 42,
++							   32, 23, 15, 7, 0
++							      };
++
++	if (val == 0)
++		return 0;
++
++	tmp = val;
++
++	while (1) {
++		if (tmp == 1)
++			break;
++		else {
++			tmp = (tmp >> 1);
++			shiftcount++;
++		}
++	}
++
++
++	val_integerd_b = shiftcount + 1;
++
++	tmp2 = 1;
++	for (j = 1; j <= val_integerd_b; j++)
++		tmp2 = tmp2 * 2;
++
++	tmp = (val * 100) / tmp2;
++	tindex = tmp / 5;
++
++	if (tindex > 20)
++		tindex = 20;
++
++	val_fractiond_b = table_fraction[tindex];
++
++	result = val_integerd_b * 100 - val_fractiond_b;
++
++	return result;
++
++
++}
++
++void halbtc8821c1ant_psd_show_antenna_detect_result(IN struct btc_coexist
++		*btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n============[Antenna Detection info]  ============\n");
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 1)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (>%d)",
++			   "Ant Det Result", "2-Antenna (Bad-Isolation)",
++			   BT_8821C_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else if (psd_scan->ant_det_result == 2)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "2-Antenna (Good-Isolation)",
++			   BT_8821C_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset,
++			   BT_8821C_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "1-Antenna",
++			   BT_8821C_1ANT_ANTDET_PSDTHRES_1ANT,
++			   BT_8821C_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset);
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s ",
++		   "Antenna Detection Finish",
++		   (board_info->btdm_ant_det_finish
++		    ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	switch (psd_scan->ant_det_result) {
++	case 0:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not available)");
++		break;
++	case 1:  /* 2-Ant bad-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 2:  /* 2-Ant good-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 3:  /* 1-Ant */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 4:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Uncertainty result)");
++		break;
++	case 5:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "(Pre-Scan fai)");
++		break;
++	case 6:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(WiFi is Scanning)");
++		break;
++	case 7:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not idle)");
++		break;
++	case 8:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Abort by WiFi Scanning)");
++		break;
++	case 9:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Antenna Init is not ready)");
++		break;
++	case 10:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Inquiry or page)");
++		break;
++	case 11:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Disabled)");
++		break;
++	}
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Total Count", psd_scan->ant_det_try_count);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Fail Count", psd_scan->ant_det_fail_count);
++	CL_PRINTF(cli_buf);
++
++	if ((!board_info->btdm_ant_det_finish) &&
++	    (psd_scan->ant_det_result != 5))
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "BT Response",
++		   (psd_scan->ant_det_result ? "ok" : "fail"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ms", "BT Tx Time",
++		   psd_scan->ant_det_bt_tx_time);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "BT Tx Ch",
++		   psd_scan->ant_det_bt_le_channel);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d",
++		   "WiFi PSD Cent-Ch/Offset/Span",
++		   psd_scan->real_cent_freq, psd_scan->real_offset,
++		   psd_scan->real_span);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d dB",
++		   "PSD Pre-Scan Peak Value",
++		   psd_scan->ant_det_pre_psdscan_peak_val / 100);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (<= %d)",
++		   "PSD Pre-Scan result",
++		   (psd_scan->ant_det_result != 5 ? "ok" : "fail"),
++		   BT_8821C_1ANT_ANTDET_PSDTHRES_BACKGROUND
++		   + psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 5)
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s dB",
++		   "PSD Scan Peak Value", psd_scan->ant_det_peak_val);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s MHz",
++		   "PSD Scan Peak Freq", psd_scan->ant_det_peak_freq);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "TFBGA Package",
++		   (board_info->tfbga_package) ?  "Yes" : "No");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "PSD Threshold Offset", psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++}
++
++
++
++void halbtc8821c1ant_psd_showdata(IN struct btc_coexist *btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	u32		delta_freq_per_point;
++	u32		freq, freq1, freq2, n = 0, i = 0, j = 0, m = 0, psd_rep1, psd_rep2;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n\n============[PSD info]  (%d)============\n",
++		   psd_scan->psd_gen_count);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->psd_gen_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n No data !!\n");
++		CL_PRINTF(cli_buf);
++		return;
++	}
++
++	if (psd_scan->psd_point == 0)
++		delta_freq_per_point = 0;
++	else
++		delta_freq_per_point = psd_scan->psd_band_width /
++				       psd_scan->psd_point;
++
++	/* if (psd_scan->is_psd_show_max_only) */
++	if (0) {
++		psd_rep1 = psd_scan->psd_max_value / 100;
++		psd_rep2 = psd_scan->psd_max_value - psd_rep1 * 100;
++
++		freq = ((psd_scan->real_cent_freq - 20) * 1000000 +
++			psd_scan->psd_max_value_point * delta_freq_per_point);
++		freq1 = freq / 1000000;
++		freq2 = freq / 1000 - freq1 * 1000;
++
++		if (freq2 < 100)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.0%d MHz",
++				   freq1, freq2);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.%d MHz",
++				   freq1, freq2);
++
++		if (psd_rep2 < 10)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.0%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++
++		CL_PRINTF(cli_buf);
++	} else {
++		m = psd_scan->psd_start_point;
++		n = psd_scan->psd_start_point;
++		i = 1;
++		j = 1;
++
++		while (1) {
++			do {
++				freq = ((psd_scan->real_cent_freq - 20) * 1000000 + m *
++					delta_freq_per_point);
++				freq1 = freq / 1000000;
++				freq2 = freq / 1000 - freq1 * 1000;
++
++				if (i == 1) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.0%2d", freq1,
++							   freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.%3d", freq1,
++							   freq2);
++				} else if ((i % 8 == 0) ||
++					   (m == psd_scan->psd_stop_point)) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000\n", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d\n", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d\n", freq1, freq2);
++				} else {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d", freq1, freq2);
++				}
++
++				i++;
++				m++;
++				CL_PRINTF(cli_buf);
++
++			} while ((i <= 8) && (m <= psd_scan->psd_stop_point));
++
++
++			do {
++				psd_rep1 = psd_scan->psd_report_max_hold[n] / 100;
++				psd_rep2 = psd_scan->psd_report_max_hold[n] - psd_rep1 *
++					   100;
++
++				if (j == 1) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.0%d", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.%d", psd_rep1,
++							   psd_rep2);
++				} else if ((j % 8 == 0)  ||
++					   (n == psd_scan->psd_stop_point)) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d\n", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d\n", psd_rep1, psd_rep2);
++				} else {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d", psd_rep1, psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d", psd_rep1, psd_rep2);
++				}
++
++				j++;
++				n++;
++				CL_PRINTF(cli_buf);
++
++			} while ((j <= 8) && (n <= psd_scan->psd_stop_point));
++
++			if ((m > psd_scan->psd_stop_point) ||
++			    (n > psd_scan->psd_stop_point))
++				break;
++			else {
++				i = 1;
++				j = 1;
++			}
++
++		}
++	}
++
++
++}
++
++void halbtc8821c1ant_psd_maxholddata(IN struct btc_coexist *btcoexist,
++				     IN u32 gen_count)
++{
++	u32	i = 0, i_max = 0, val_max = 0;
++
++	if (gen_count == 1) {
++		memcpy(psd_scan->psd_report_max_hold,
++		       psd_scan->psd_report,
++		       BT_8821C_1ANT_ANTDET_PSD_POINTS * sizeof(u32));
++
++		for (i = psd_scan->psd_start_point;
++		     i <= psd_scan->psd_stop_point; i++) {
++
++		}
++
++		psd_scan->psd_max_value_point = 0;
++		psd_scan->psd_max_value = 0;
++
++	} else {
++		for (i = psd_scan->psd_start_point;
++		     i <= psd_scan->psd_stop_point; i++) {
++			if (psd_scan->psd_report[i] >
++			    psd_scan->psd_report_max_hold[i])
++				psd_scan->psd_report_max_hold[i] =
++					psd_scan->psd_report[i];
++
++			/* search Max Value */
++			if (i == psd_scan->psd_start_point) {
++				i_max = i;
++				val_max = psd_scan->psd_report_max_hold[i];
++			} else {
++				if (psd_scan->psd_report_max_hold[i] >
++				    val_max) {
++					i_max = i;
++					val_max = psd_scan->psd_report_max_hold[i];
++				}
++			}
++
++
++		}
++
++		psd_scan->psd_max_value_point = i_max;
++		psd_scan->psd_max_value = val_max;
++
++	}
++
++
++}
++
++u32 halbtc8821c1ant_psd_getdata(IN struct btc_coexist *btcoexist, IN u32 point)
++{
++	/* reg 0x808[9:0]: FFT data x */
++	/* reg 0x808[22]: 0-->1 to get 1 FFT data y */
++	/* reg 0x8b4[15:0]: FFT data y report */
++
++	u32 val = 0, psd_report = 0;
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++
++	val &= 0xffbffc00;
++	val |= point;
++
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	val |= 0x00400000;
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x8b4);
++
++	psd_report = val & 0x0000ffff;
++
++	return psd_report;
++}
++
++
++boolean halbtc8821c1ant_psd_sweep_point(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN s32 offset, IN u32 span, IN u32 points,
++					IN u32 avgnum, IN u32 loopcnt)
++{
++	u32	 i = 0, val = 0, n = 0, k = 0, j, point_index = 0;
++	u32	points1 = 0, psd_report = 0;
++	u32	start_p = 0, stop_p = 0, delta_freq_per_point = 156250;
++	u32    psd_center_freq = 20 * 10 ^ 6;
++	boolean outloop = false, scan , roam, is_sweep_ok = true;
++	u8	 flag = 0;
++	u32	tmp = 0, u32tmp1 = 0;
++	u32	wifi_original_channel = 1;
++
++	psd_scan->is_psd_running = true;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Start!!\n");
++	BTC_TRACE(trace_buf);
++
++	do {
++		switch (flag) {
++		case 0:  /* Get PSD parameters */
++		default:
++
++			psd_scan->psd_band_width = 40 * 1000000;
++			psd_scan->psd_point = points;
++			psd_scan->psd_start_base = points / 2;
++			psd_scan->psd_avg_num = avgnum;
++			psd_scan->real_cent_freq = cent_freq;
++			psd_scan->real_offset = offset;
++			psd_scan->real_span = span;
++
++
++			points1 = psd_scan->psd_point;
++			delta_freq_per_point = psd_scan->psd_band_width /
++					       psd_scan->psd_point;
++
++			/* PSD point setup */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffff0fff;
++
++			switch (psd_scan->psd_point) {
++			case 128:
++				val |= 0x0;
++				break;
++			case 256:
++			default:
++				val |= 0x00004000;
++				break;
++			case 512:
++				val |= 0x00008000;
++				break;
++			case 1024:
++				val |= 0x0000c000;
++				break;
++			}
++
++			switch (psd_scan->psd_avg_num) {
++			case 1:
++				val |= 0x0;
++				break;
++			case 8:
++				val |= 0x00001000;
++				break;
++			case 16:
++				val |= 0x00002000;
++				break;
++			case 32:
++			default:
++				val |= 0x00003000;
++				break;
++			}
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			flag = 1;
++			break;
++		case 1:	  /* calculate the PSD point index from freq/offset/span */
++			psd_center_freq = psd_scan->psd_band_width / 2 +
++					  offset * (1000000);
++
++			start_p = psd_scan->psd_start_base + (psd_center_freq -
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_start_point = start_p -
++						    psd_scan->psd_start_base;
++
++			stop_p = psd_scan->psd_start_base + (psd_center_freq +
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_stop_point = stop_p -
++						   psd_scan->psd_start_base - 1;
++
++			flag = 2;
++			break;
++		case 2:  /* set RF channel/BW/Mode */
++
++			/* set 3-wire off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val |= 0x00300000;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val &= 0xfeffffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause on */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x6f);
++
++			/* store WiFi original channel */
++			wifi_original_channel = btcoexist->btc_get_rf_reg(
++					btcoexist, BTC_RF_A, 0x18, 0x3ff);
++
++			/* Set RF channel */
++			if (cent_freq == 2484)
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++							  0x18, 0x3ff, 0xe);
++			else
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++					  0x18, 0x3ff, (cent_freq - 2412) / 5 +
++						  1); /* WiFi TRx Mask on */
++
++			/* save original RCK value */
++			u32tmp1 =  btcoexist->btc_get_rf_reg(
++					   btcoexist, BTC_RF_A, 0x1d, 0xfffff);
++
++			/* Enter debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x1);
++
++			/* Set RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, 0x2e);
++
++
++			/* Set  RF mode = Rx, RF Gain = 0x320a0 */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x0,
++						  0xfffff, 0x320a0);
++
++			while (1) {
++				if (k++ > BT_8821C_1ANT_ANTDET_SWEEPPOINT_DELAY)
++					break;
++			}
++			flag = 3;
++			break;
++		case 3:
++			psd_scan->psd_gen_count = 0;
++			for (j = 1; j <= loopcnt; j++) {
++
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_SCAN, &scan);
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_ROAM, &roam);
++
++				if (scan || roam) {
++					is_sweep_ok = false;
++					break;
++				}
++				memset(psd_scan->psd_report, 0,
++				       psd_scan->psd_point * sizeof(u32));
++				start_p = psd_scan->psd_start_point +
++					  psd_scan->psd_start_base;
++				stop_p = psd_scan->psd_stop_point +
++					 psd_scan->psd_start_base + 1;
++
++				i = start_p;
++				point_index = 0;
++
++				while (i < stop_p) {
++					if (i >= points1)
++						psd_report =
++							halbtc8821c1ant_psd_getdata(
++							btcoexist, i - points1);
++					else
++						psd_report =
++							halbtc8821c1ant_psd_getdata(
++								btcoexist, i);
++
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"Point=%d, psd_raw_data = 0x%08x\n",
++						    i, psd_report);
++					BTC_TRACE(trace_buf);
++					if (psd_report == 0)
++						tmp = 0;
++					else
++						/* tmp =  20*log10((double)psd_report); */
++						/* 20*log2(x)/log2(10), log2Base return theresult of the psd_report*100 */
++						tmp = 6 * halbtc8821c1ant_psd_log2base(
++							btcoexist, psd_report);
++
++					n = i - psd_scan->psd_start_base;
++					psd_scan->psd_report[n] =  tmp;
++
++
++					halbtc8821c1ant_psd_maxholddata(
++						btcoexist, j);
++
++					i++;
++
++				}
++
++				psd_scan->psd_gen_count = j;
++			}
++
++			flag = 100;
++			break;
++		case 99:	/* error */
++
++			outloop = true;
++			break;
++		case 100: /* recovery */
++
++			/* set 3-wire on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val &= 0xffcfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val |= 0x01000000;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause off */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x0);
++
++			/* PSD off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffbfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			/* restore RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, u32tmp1);
++
++			/* Exit debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x0);
++
++			/* restore WiFi original channel */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x18,
++						  0x3ff, wifi_original_channel);
++
++			outloop = true;
++			break;
++
++		}
++
++	} while (!outloop);
++
++
++
++	psd_scan->is_psd_running = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Stop!!\n");
++	BTC_TRACE(trace_buf);
++	return is_sweep_ok;
++
++}
++
++
++void halbtc8821c1ant_psd_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 bt_tx_time, IN u32 bt_le_channel)
++{
++	u32	i = 0;
++	u32	wlpsd_cent_freq = 2484, wlpsd_span = 2, wlpsd_sweep_count = 50;
++	s32	wlpsd_offset = -4;
++	u8	bt_le_ch[13] = {3, 6, 8, 11, 13, 16, 18, 21, 23, 26, 28, 31, 33};
++
++	u8	h2c_parameter[3] = {0}, u8tmpa, u8tmpb;
++
++	u8	state = 0;
++	boolean		outloop = false, bt_resp = false;
++	u32		freq, freq1, freq2, psd_rep1, psd_rep2, delta_freq_per_point,
++			u32tmp, u32tmp0, u32tmp1, u32tmp2 ;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	board_info->btdm_ant_det_finish = false;
++	memset(psd_scan->ant_det_peak_val, 0, 16 * sizeof(u8));
++	memset(psd_scan->ant_det_peak_freq, 0, 16 * sizeof(u8));
++
++	if (board_info->tfbga_package) /* for TFBGA */
++		psd_scan->ant_det_thres_offset = 5;
++	else
++		psd_scan->ant_det_thres_offset = 0;
++
++	do {
++		switch (state) {
++		case 0:
++			if (bt_le_channel == 39)
++				wlpsd_cent_freq = 2484;
++			else {
++				for (i = 1; i <= 13; i++) {
++					if (bt_le_ch[i - 1] ==
++					    bt_le_channel) {
++						wlpsd_cent_freq = 2412
++								  + (i - 1) * 5;
++						break;
++					}
++				}
++
++				if (i == 14) {
++
++					BTC_SPRINTF(trace_buf,
++						    BT_TMP_BUF_SIZE,
++						"xxxxxxxxxxxxxxxx AntennaDetect(), Abort!!, Invalid LE channel = %d\n ",
++						    bt_le_channel);
++					BTC_TRACE(trace_buf);
++					outloop = true;
++					break;
++				}
++			}
++
++			wlpsd_sweep_count = bt_tx_time * 238 /
++					    100; /* bt_tx_time/0.42								 */
++			wlpsd_sweep_count = wlpsd_sweep_count / 5;
++
++			if (wlpsd_sweep_count % 5 != 0)
++				wlpsd_sweep_count = (wlpsd_sweep_count /
++						     5 + 1) * 5;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), BT_LETxTime=%d,  BT_LECh = %d\n",
++				    bt_tx_time, bt_le_channel);
++			BTC_TRACE(trace_buf);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), wlpsd_cent_freq=%d,  wlpsd_offset = %d, wlpsd_span = %d, wlpsd_sweep_count = %d\n",
++				    wlpsd_cent_freq,
++				    wlpsd_offset,
++				    wlpsd_span,
++				    wlpsd_sweep_count);
++			BTC_TRACE(trace_buf);
++
++			state = 1;
++			break;
++		case 1: /* stop coex DM & set antenna path */
++			/* Stop Coex DM */
++			btcoexist->stop_coex_dm = true;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stop Coex DM!!\n");
++			BTC_TRACE(trace_buf);
++
++			/* Set TDMA off,				 */
++			halbtc8821c1ant_ps_tdma(btcoexist, FORCE_EXEC,
++						false, 0);
++
++			/* Set coex table */
++			halbtc8821c1ant_coex_table_with_type(btcoexist,
++							     FORCE_EXEC, 0);
++
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Main Port\n");
++				BTC_TRACE(trace_buf);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Aux Port\n");
++				BTC_TRACE(trace_buf);
++			}
++
++			halbtc8821c1ant_set_int_block(btcoexist, FORCE_EXEC, BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG);
++
++			halbtc8821c1ant_set_ext_ant_switch( btcoexist, 
++													FORCE_EXEC, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8821C_1ANT_EXT_ANT_SWITCH_TO_BT);
++
++			/* Set Antenna Path,  both GNT_WL/GNT_BT = 1, and control by SW */
++			/* set GNT_BT to SW high */
++			halbtc8821c1ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8821C_1ANT_SIG_STA_SET_TO_HIGH);
++			/* Set GNT_WL to SW high */
++			halbtc8821c1ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8821C_1ANT_GNT_BLOCK_RFC_BB,
++					   BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8821C_1ANT_SIG_STA_SET_TO_HIGH);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to BT!!\n");
++			BTC_TRACE(trace_buf);
++
++			/* Set AFH mask on at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x1;
++			h2c_parameter[1] = 0xd;
++			h2c_parameter[2] = 0x14;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1],
++				    h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			u32tmp0 = btcoexist->btc_read_4byte(btcoexist, 0x70);
++			u32tmp1 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++			u32tmp2 = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], ********** 0x70 = 0x%x, 0x38= 0x%x, 0x54= 0x%x (Before Ant Det) **********\n",
++				    u32tmp0, u32tmp1, u32tmp2);
++			BTC_TRACE(trace_buf);
++
++			state = 2;
++			break;
++		case 2:	/* Pre-sweep background psd */
++			if (!halbtc8821c1ant_psd_sweep_point(btcoexist,
++				     wlpsd_cent_freq, wlpsd_offset, wlpsd_span,
++					     BT_8821C_1ANT_ANTDET_PSD_POINTS,
++				     BT_8821C_1ANT_ANTDET_PSD_AVGNUM, 3)) {
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++			psd_scan->ant_det_pre_psdscan_peak_val =
++				psd_scan->psd_max_value;
++
++			if (psd_scan->psd_max_value >
++			    (BT_8821C_1ANT_ANTDET_PSDTHRES_BACKGROUND
++			     + psd_scan->ant_det_thres_offset) * 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Abort Antenna Detection!! becaus background = %d > thres (%d)\n",
++					    psd_scan->psd_max_value / 100,
++					BT_8821C_1ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 5;
++				state = 99;
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Start Antenna Detection!! becaus background = %d <= thres (%d)\n",
++					    psd_scan->psd_max_value / 100,
++					BT_8821C_1ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				state = 3;
++			}
++			break;
++		case 3:
++
++			bt_resp = btcoexist->btc_set_bt_ant_detection(
++					  btcoexist, (u8)(bt_tx_time & 0xff),
++					  (u8)(bt_le_channel & 0xff));
++
++			if (!halbtc8821c1ant_psd_sweep_point(btcoexist,
++					     wlpsd_cent_freq, wlpsd_offset,
++							     wlpsd_span,
++					     BT_8821C_1ANT_ANTDET_PSD_POINTS,
++					     BT_8821C_1ANT_ANTDET_PSD_AVGNUM,
++						     wlpsd_sweep_count)) {
++				board_info->btdm_ant_det_finish
++					= false;
++				board_info->btdm_ant_num_by_ant_det
++					= 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++			psd_scan->ant_det_psd_scan_peak_val =
++				psd_scan->psd_max_value;
++			psd_scan->ant_det_psd_scan_peak_freq =
++				psd_scan->psd_max_value_point;
++			state = 4;
++			break;
++		case 4:
++
++			if (psd_scan->psd_point == 0)
++				delta_freq_per_point = 0;
++			else
++				delta_freq_per_point =
++					psd_scan->psd_band_width /
++					psd_scan->psd_point;
++
++			psd_rep1 = psd_scan->psd_max_value / 100;
++			psd_rep2 = psd_scan->psd_max_value - psd_rep1 *
++				   100;
++
++			freq = ((psd_scan->real_cent_freq - 20) *
++				1000000 + psd_scan->psd_max_value_point
++				* delta_freq_per_point);
++			freq1 = freq / 1000000;
++			freq2 = freq / 1000 - freq1 * 1000;
++
++			if (freq2 < 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.0%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8821C_1ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", freq1, freq2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8821C_1ANT_ANTDET_BUF_LEN,
++					   "%d.%d", freq1, freq2);
++			}
++
++			if (psd_rep2 < 10) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.0%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8821C_1ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", psd_rep1, psd_rep2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8821C_1ANT_ANTDET_BUF_LEN,
++					   "%d.%d", psd_rep1, psd_rep2);
++			}
++
++			psd_scan->ant_det_is_btreply_available = true;
++
++			if (bt_resp == false) {
++				psd_scan->ant_det_is_btreply_available =
++					false;
++				psd_scan->ant_det_result = 0;
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), BT Response = Fail\n ");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				(BT_8821C_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION)
++				   * 100) {
++				psd_scan->ant_det_result = 1;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Bad-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				(BT_8821C_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++				    + psd_scan->ant_det_thres_offset) * 100) {
++				psd_scan->ant_det_result = 2;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Good-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				   (BT_8821C_1ANT_ANTDET_PSDTHRES_1ANT) *
++				   100) {
++				psd_scan->ant_det_result = 3;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant!!\n");
++				BTC_TRACE(trace_buf);
++			} else {
++				psd_scan->ant_det_result = 4;
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant, un-certainity!!\n");
++				BTC_TRACE(trace_buf);
++			}
++
++			state = 99;
++			break;
++		case 99:  /* restore setup */
++
++			/* Set AFH mask off at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x0;
++			h2c_parameter[1] = 0x0;
++			h2c_parameter[2] = 0x0;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1], h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			/* Set Antenna Path, GNT_WL/GNT_BT control by PTA */
++			halbtc8821c1ant_set_ant_path(btcoexist,
++				     BTC_ANT_PATH_AUTO, 
++				     FORCE_EXEC, 
++				     BT_8821C_1ANT_PHASE_2G_RUNTIME);
++			
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to PTA\n!!");
++			BTC_TRACE(trace_buf);
++
++			/* Resume Coex DM */
++			btcoexist->stop_coex_dm = false;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Resume Coex DM\n!!");
++			BTC_TRACE(trace_buf);
++
++			/* stimulate coex running */
++			halbtc8821c1ant_run_coexist_mechanism(
++				btcoexist);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stimulate Coex running\n!!");
++			BTC_TRACE(trace_buf);
++
++			outloop = true;
++			break;
++		}
++
++	} while (!outloop);
++
++
++
++}
++
++void halbtc8821c1ant_psd_antenna_detection_check(IN struct btc_coexist
++		*btcoexist)
++{
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	boolean scan, roam;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++
++	/* psd_scan->ant_det_bt_tx_time = 20; */
++	psd_scan->ant_det_bt_tx_time =
++		BT_8821C_1ANT_ANTDET_BTTXTIME;	   /* 0.42ms*50 = 20ms (0.42ms = 1 PSD sweep) */
++	psd_scan->ant_det_bt_le_channel = BT_8821C_1ANT_ANTDET_BTTXCHANNEL;
++
++	ant_det_count++;
++
++	psd_scan->ant_det_try_count = ant_det_count;
++
++	if (scan || roam) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 6;
++	} else if (coex_sta->bt_disabled) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 11;
++	} else if (coex_sta->num_of_profile >= 1) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 7;
++	} else if (
++		!psd_scan->ant_det_is_ant_det_available) { /* Antenna initial setup is not ready */
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 9;
++	} else if (coex_sta->c2h_bt_inquiry_page) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 10;
++	} else {
++
++		btcoexist->stop_coex_dm = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"xxxxxxxxxxxxxxxx AntennaDetect(), Stop Coex DM!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c1ant_psd_antenna_detection(btcoexist,
++					      psd_scan->ant_det_bt_tx_time,
++					      psd_scan->ant_det_bt_le_channel);
++
++		delay_ms(psd_scan->ant_det_bt_tx_time);
++
++		btcoexist->stop_coex_dm = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"xxxxxxxxxxxxxxxx AntennaDetect(), Resume Coex DM\n!!");
++		BTC_TRACE(trace_buf);
++
++		/* stimulate coex running */
++		/*
++		halbtc8821c1ant_run_coexist_mechanism(
++				btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stimulate Coex running\n!!");
++		BTC_TRACE(trace_buf);
++		*/
++	}
++
++	if (!board_info->btdm_ant_det_finish)
++		ant_det_fail_count++;
++
++	psd_scan->ant_det_fail_count = ant_det_fail_count;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx AntennaDetect(), result = %d, fail_count = %d, finish = %s\n",
++		    psd_scan->ant_det_result,
++		    psd_scan->ant_det_fail_count,
++		    board_info->btdm_ant_det_finish == TRUE ? "Yes" : "No");
++	BTC_TRACE(trace_buf);
++
++}
++
++
++/* ************************************************************
++ * work around function start with wa_halbtc8821c1ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8821c1ant_
++ * ************************************************************ */
++void ex_halbtc8821c1ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x0;
++	u16 u16tmp = 0x0;
++	u32	value = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx Execute 8821c 1-Ant PowerOn Setting xxxxxxxxxxxxxxxx!!\n");
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "Ant Det Finish = %s, Ant Det Number  = %d\n",
++		    (board_info->btdm_ant_det_finish ? "Yes" : "No"),
++		    board_info->btdm_ant_num_by_ant_det);
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = true;
++	psd_scan->ant_det_is_ant_det_available = FALSE;
++	
++	/* enable BB, REG_SYS_FUNC_EN such that we can write BB Register correctly. */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x2);
++	btcoexist->btc_write_2byte(btcoexist, 0x2, u16tmp | BIT(0) | BIT(1));
++
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++		
++	/* Check efuse 0xc3[6] for Single Antenna Path */
++	if (board_info->single_ant_path == 0) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], **********  Single Antenna, Antenna at Aux Port**********\n");
++		BTC_TRACE(trace_buf);
++
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++
++		u8tmp = 1;
++	} else if (board_info->single_ant_path == 1) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], **********  Single Antenna, Antenna at Main Port**********\n");
++		BTC_TRACE(trace_buf);
++
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;		
++
++		u8tmp = 0;
++	}
++
++
++	/* Save"single antenna position" info in Local register setting for FW reading, because FW may not ready at  power on */
++	if (btcoexist->chip_interface == BTC_INTF_PCI)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x3e0, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_USB)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60, u8tmp);
++
++	/* Setup RF front end type */
++	halbtc8821c1ant_set_rfe_type(btcoexist);
++	
++	/* Set Antenna Path to BT side */
++	halbtc8821c1ant_set_ant_path(btcoexist, 
++					BTC_ANT_PATH_AUTO,
++					FORCE_EXEC, 
++					BT_8821C_1ANT_PHASE_COEX_INIT);
++
++	/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++	halbtc8821c1ant_enable_gnt_to_gpio(btcoexist, TRUE);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********  LTE coex Reg 0x38 (Power-On) = 0x%x**********\n",
++		    halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x38));
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********  MAC Reg 0x70/ BB Reg 0xcb4 (Power-On) = 0x%x / 0x%x**********\n",
++		btcoexist->btc_read_4byte(btcoexist, 0x70), btcoexist->btc_read_4byte(btcoexist, 0xcb4));
++	BTC_TRACE(trace_buf);
++
++}
++
++void ex_halbtc8821c1ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++}
++
++void ex_halbtc8821c1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	halbtc8821c1ant_init_hw_config(btcoexist, true, wifi_only);
++	btcoexist->stop_coex_dm = false;
++
++}
++
++void ex_halbtc8821c1ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821c1ant_init_coex_dm(btcoexist);
++
++	/* halbtc8821c1ant_query_bt_info(btcoexist); */
++}
++
++void ex_halbtc8821c1ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_stack_info		*stack_info = &btcoexist->stack_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fa_of_dm, fa_cck;
++	u32				fw_ver = 0, bt_patch_ver = 0;
++	static u8			pop_report_in_10s = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	if (btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	if (psd_scan->ant_det_try_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s / %d",
++			   "Ant PG Num/ Mech/ Pos/ RFE",
++			   board_info->pg_ant_num, board_info->btdm_ant_num,
++			   (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT? "Main" : "Aux"),
++			   rfe_type->rfe_module_type);
++		CL_PRINTF(cli_buf);
++	} else {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d/ %d/ %s/ %d  (%d/%d/%d)",
++			   "Ant PG Num/ Mech(Ant_Det)/ Pos/ RFE",
++			  board_info->pg_ant_num, board_info->btdm_ant_num_by_ant_det,
++			   (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT ? "Main" : "Aux"), 
++			   rfe_type->rfe_module_type,
++			   psd_scan->ant_det_try_count, psd_scan->ant_det_fail_count,
++			   psd_scan->ant_det_result);
++		CL_PRINTF(cli_buf);
++
++		if (board_info->btdm_ant_det_finish) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++				   "Ant Det PSD Value",
++				   psd_scan->ant_det_peak_val);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %d",
++		   "BT stack/ hci ext ver",
++		   ((stack_info->profile_notified) ? "Yes" : "No"),
++		   stack_info->hci_version);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)/ %c",
++		   "Version Coex/ Fw/ Patch/ Cut",
++		   glcoex_ver_date_8821c_1ant, glcoex_ver_8821c_1ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver, coex_sta->cut_version + 65);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s/ %s",
++		   "WifibHiPri/ Ccklock/ CckEverLock",
++		   (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"),
++		   (coex_sta->cck_lock ? "Yes" : "No"),
++		   (coex_sta->cck_ever_lock ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	pop_report_in_10s++;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt/ popCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++			   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page")
++			   : ((BT_8821C_1ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8821C_1ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi - 100, coex_sta->bt_retry_cnt,
++		   coex_sta->pop_event_cnt);
++	CL_PRINTF(cli_buf);
++
++	if (pop_report_in_10s >= 5) {
++		coex_sta->pop_event_cnt = 0;
++		pop_report_in_10s = 0;
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d / %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP/Hi-Pri",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist,
++		   bt_link_info->bt_hi_pri_link_exist);
++	CL_PRINTF(cli_buf);
++
++	if (stack_info->profile_notified)
++		btcoexist->btc_disp_dbg_msg(btcoexist,
++					    BTC_DBG_DISP_BT_LINK_INFO);
++	else {
++		bt_info_ext = coex_sta->bt_info_ext;
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %s / %d/ %x/ %04x",
++			   "Role/A2DP Rate/Bitpool/Feature/Ver",
++			   ((bt_link_info->slave_role) ? "Slave" : "Master"),
++			(bt_info_ext & BIT(0)) ? "BR" : "EDR", coex_sta->a2dp_bit_pool,
++			coex_sta->bt_coex_supported_feature,
++			coex_sta->bt_coex_supported_version);
++		CL_PRINTF(cli_buf);
++	}
++
++
++	for (i = 0; i < BT_INFO_SRC_8821C_1ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8821c_1ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++
++	if (btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[mechanisms] (before Manual)============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanisms]============");
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "SM[LowPenaltyRA]",
++		   coex_dm->cur_low_penalty_ra);
++	CL_PRINTF(cli_buf);
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (%s,%s)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   (coex_dm->cur_ps_tdma_on ? "On" : "Off"),
++		   (coex_dm->auto_tdma_adjust ? "Adj" : "Fix"));
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "WL/BT Coex Table Type",
++		   coex_sta->coex_table_type);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x778/0x6cc/IgnWlanAct",
++		   u8tmp[0], u32tmp[0],  coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa0);
++	u32tmp[1] = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "LTE Coex Table W_L/B_L",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa8);
++	u32tmp[1] = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xac);
++	u32tmp[2] = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb0);
++	u32tmp[3] = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "LTE Break Table W_L/B_L/L_W/L_B",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff,
++		   u32tmp[2] & 0xffff, u32tmp[3] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %s",
++		   "LTE CoexOn/Path Ctrl Owner",
++		(int)((u32tmp[0] & BIT(7)) >> 7), ((u8tmp[0] & BIT(2)) ? "WL" : "BT"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "LTE 3Wire/OPMode/UART/UARTMode",
++		(int)((u32tmp[0] & BIT(6)) >> 6), (int)((u32tmp[0] & (BIT(5) | BIT(4))) >> 4),
++		   (int)((u32tmp[0] & BIT(3)) >> 3),
++		   (int)(u32tmp[0] & (BIT(2) | BIT(1) | BIT(0))));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s",
++		   "GNT_WL_SWCtrl/GNT_BT_SWCtrl/Dbg",
++		(int)((u32tmp[0] & BIT(12)) >> 12), (int)((u32tmp[0] & BIT(14)) >> 14),
++		   ((u8tmp[0] & BIT(3)) ? "On" : "Off"));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8821c1ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "GNT_WL/GNT_BT/LTE_Busy/UART_Busy",
++		(int)((u32tmp[0] & BIT(2)) >> 2), (int)((u32tmp[0] & BIT(3)) >> 3),
++		   (int)((u32tmp[0] & BIT(1)) >> 1), (int)(u32tmp[0] & BIT(0)));
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xcb0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xcba);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%04x/ 0x%04x/ 0x%02x %s",
++		   "0xcb0/0xcb4/0xcb8[23:16]",
++		u32tmp[0], u32tmp[1],u8tmp[0],  (   (u8tmp[0] & 0x5) == 0x1 ?  "BTG":   ( (u8tmp[0] & 0xf0) == 0x70?  "WL_G"  : "WL_A" )  ));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0x64);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x4c6);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x4c[24:23]/0x64[0]/x4c6[4]/0x40[5]",
++		(u32tmp[0] & ( BIT(24) | BIT(23) )) >> 23 , u8tmp[2]&0x1 , (int)((u8tmp[0] & BIT(4)) >> 4), (int)((u8tmp[1] & BIT(5)) >> 5));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x953);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0xc50);
++	
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ %s/ 0x%x",
++		   "0x550/0x522/4-RxAGC/0xc50",
++		u32tmp[0], u8tmp[0], (u8tmp[1] & 0x2) ? "On" : "Off", u8tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xf48);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xf4c);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0xf08);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5d);
++
++	fa_of_dm = (u32tmp[0] & 0xffff)  +  (u32tmp[1] & 0xffff);
++		
++	fa_cck = (u8tmp[0] << 8) + u8tmp[1];
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "CCK-CCA/CCK-FA/OFDM-CCA/OFDM-FA",
++		   u32tmp[2] & 0xffff, fa_cck, ((u32tmp[2] & 0xffff0000) >> 16), fa_of_dm);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11ac",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11ac",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++
++	halbtc8821c1ant_read_score_board(btcoexist,	&u16tmp[0]);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %04x",
++		   "ScoreBoard[14:0] (from BT)", u16tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8821c1ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++
++		/* Write WL "Active" in Score-board for LPS off */
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, false);
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		
++		halbtc8821c1ant_set_ant_path(btcoexist, 
++							BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_1ANT_PHASE_WLAN_OFF);
++		
++		halbtc8821c1ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++	} else if (BTC_IPS_LEAVE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, true);
++
++		halbtc8821c1ant_init_hw_config(btcoexist, false, false);
++		halbtc8821c1ant_init_coex_dm(btcoexist);;
++
++		coex_sta->under_ips = false;
++	}
++}
++
++void ex_halbtc8821c1ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_LPS_ENABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = true;
++
++		if (coex_sta->force_lps_on == true) { /* LPS No-32K */
++			/* Write WL "Active" in Score-board for PS-TDMA */
++			halbtc8821c1ant_post_activestate_to_bt(btcoexist, true);
++
++		} else { /* LPS-32K, need check if this h2c 0x71 can work?? (2015/08/28) */
++			/* Write WL "Non-Active" in Score-board for Native-PS */
++			halbtc8821c1ant_post_activestate_to_bt(btcoexist, false);
++
++		}
++	} else if (BTC_LPS_DISABLE == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_lps = false;
++
++		/* Write WL "Active" in Score-board for LPS off */
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, true);
++
++	}
++}
++
++void ex_halbtc8821c1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	boolean wifi_connected = false;
++
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN notify()\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821c1ant_post_activestate_to_bt(btcoexist, true);
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_SCAN_START == type)   //for dual band, no action for BTC_SCAN_START, the action is change to switchband_notify
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	halbtc8821c1ant_query_bt_info(btcoexist);
++
++	if (BTC_SCAN_START_2G == type) {	
++
++		if (!wifi_connected)
++			coex_sta->wifi_is_high_pri_task = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify  (2G)\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c1ant_ps_tdma(btcoexist, FORCE_EXEC, false,
++					8);
++
++		/* Force antenna setup for no scan result issue */
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++
++		if (!wifi_connected)	/* non-connected scan */
++			halbtc8821c1ant_action_wifi_not_connected_scan(btcoexist);
++		else	/* wifi is connected */
++			halbtc8821c1ant_action_wifi_connected_scan(btcoexist);
++
++	} else {
++
++		coex_sta->wifi_is_high_pri_task = false;
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], SCAN FINISH notify  (Scan-AP = %d)\n", coex_sta->scan_ap_num);
++		BTC_TRACE(trace_buf);
++
++		if (!wifi_connected)
++			halbtc8821c1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8821c1ant_action_wifi_connected(btcoexist);
++	}
++
++
++}
++
++void ex_halbtc8821c1ant_switchband_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++
++	if(type == BTC_SWITCH_TO_5G) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], switchband_notify ---  switch to 5G\n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8821c1ant_action_wifi_under5g(btcoexist);
++
++	} else {
++	
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], switchband_notify ---  switch to 2G\n");
++		BTC_TRACE(trace_buf);
++		
++		ex_halbtc8821c1ant_scan_notify(btcoexist,
++				    BTC_SCAN_START_2G);
++	}
++}
++
++
++void ex_halbtc8821c1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++	boolean	wifi_connected = false;
++
++
++	halbtc8821c1ant_post_activestate_to_bt(btcoexist, true);
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	if ( (BTC_ASSOCIATE_5G_START == type) ||  (BTC_ASSOCIATE_5G_FINISH== type)) {
++
++			if (BTC_ASSOCIATE_5G_START == type)
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						  "[BTCoex], connect_notify ---  5G start\n");
++			else
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						  "[BTCoex], connect_notify ---  5G finish\n");
++				
++			BTC_TRACE(trace_buf);
++
++			halbtc8821c1ant_action_wifi_under5g(btcoexist);
++			return;
++		}
++
++	if (BTC_ASSOCIATE_START == type) {
++
++		coex_sta->wifi_is_high_pri_task = true;
++
++		/* Force antenna setup for no scan result issue */
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify (2G)\n");
++		BTC_TRACE(trace_buf);
++
++		coex_dm->arp_cnt = 0;
++
++		halbtc8821c1ant_action_wifi_not_connected_asso_auth(btcoexist);
++	} else {
++
++		coex_sta->wifi_is_high_pri_task = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify (2G)\n");
++		BTC_TRACE(trace_buf);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++		if (!wifi_connected) /* non-connected scan */
++			halbtc8821c1ant_action_wifi_not_connected(btcoexist);
++		else
++			halbtc8821c1ant_action_wifi_connected(btcoexist);
++	}
++
++}
++
++void ex_halbtc8821c1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean			wifi_under_b_mode = false, wifi_under_5g = false;
++
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	if (wifi_under_5g) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 5G!!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, true);		
++		halbtc8821c1ant_action_wifi_under5g(btcoexist);
++		return;
++	}
++
++	if (BTC_MEDIA_CONNECT == type) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, true);
++
++		/* Force antenna setup for no scan result issue */
++		halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     FORCE_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++
++		/* Set CCK Tx/Rx high Pri except 11b mode */
++		if (wifi_under_b_mode) {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x00); /* CCK Rx */
++		} else {
++			/* btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x10); */ /*CCK Tx */
++			/* btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x10); */ /*CCK Rx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x10); /* CCK Rx */
++		}
++
++		coex_dm->backup_arfr_cnt1 = btcoexist->btc_read_4byte(btcoexist,
++					    0x430);
++		coex_dm->backup_arfr_cnt2 = btcoexist->btc_read_4byte(btcoexist,
++					    0x434);
++		coex_dm->backup_retry_limit = btcoexist->btc_read_2byte(
++						      btcoexist, 0x42a);
++		coex_dm->backup_ampdu_max_time = btcoexist->btc_read_1byte(
++				btcoexist, 0x456);
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, false);
++
++		btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x0); /* CCK Tx */
++		btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x0); /* CCK Rx */
++
++		coex_sta->cck_ever_lock = false;
++	}
++
++	halbtc8821c1ant_update_wifi_channel_info(btcoexist, type);
++
++}
++
++void ex_halbtc8821c1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean	under_4way = false, wifi_under_5g = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	if (wifi_under_5g) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 5G!!!\n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8821c1ant_action_wifi_under5g(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (under_4way) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], specific Packet ---- under_4way!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	} else if (BTC_PACKET_ARP == type) {
++
++		coex_dm->arp_cnt++;
++
++		if (coex_sta->wifi_is_high_pri_task) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], specific Packet ARP notify -cnt = %d\n", coex_dm->arp_cnt);
++			BTC_TRACE(trace_buf);
++		}
++
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet DHCP or EAPOL notify [Type = %d]\n", type);
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	}
++
++	if (coex_sta->wifi_is_high_pri_task)
++		halbtc8821c1ant_action_wifi_connected_specific_packet(btcoexist);
++}
++
++void ex_halbtc8821c1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8				bt_info = 0;
++	u8				i, rsp_source = 0;
++	boolean				wifi_connected = false;
++	boolean				bt_busy = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8821C_1ANT_MAX)
++		rsp_source = BT_INFO_SRC_8821C_1ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (BT_INFO_SRC_8821C_1ANT_WIFI_FW != rsp_source) {
++
++		/* if 0xff, it means BT is under WHCK test */
++		if (bt_info == 0xff)
++			coex_sta->bt_whck_test = true;
++		else
++			coex_sta->bt_whck_test = false;
++
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x20)
++			coex_sta->c2h_bt_page = true;
++		else
++			coex_sta->c2h_bt_page = false;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x80)
++			coex_sta->bt_create_connection = true;
++		else
++			coex_sta->bt_create_connection = false;
++
++		/* unit: %, value-100 to translate to unit: dBm  */
++		coex_sta->bt_rssi = coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		/* coex_sta->bt_info_c2h[rsp_source][3] * 2 - 90; */
++
++		if ((coex_sta->bt_info_c2h[rsp_source][1] & 0x49) == 0x49) {
++			coex_sta->a2dp_bit_pool =
++				coex_sta->bt_info_c2h[rsp_source][6];
++		} else
++			coex_sta->a2dp_bit_pool = 0;
++
++		if (coex_sta->bt_info_c2h[rsp_source][1] & 0x9)
++			coex_sta->acl_busy = true;
++		else
++			coex_sta->acl_busy = false;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++
++		if ((!btcoexist->manual_control) && (!btcoexist->stop_coex_dm)) {
++
++			/*  Re-Init */
++			if (coex_sta->bt_info_ext & BIT(1)) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++				BTC_TRACE(trace_buf);
++				btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++						   &wifi_connected);
++				if (wifi_connected)
++					halbtc8821c1ant_update_wifi_channel_info(btcoexist,
++							BTC_MEDIA_CONNECT);
++				else
++					halbtc8821c1ant_update_wifi_channel_info(btcoexist,
++							BTC_MEDIA_DISCONNECT);
++			}
++
++			/*  If Ignore_WLanAct && not SetUp_Link */
++			if ((coex_sta->bt_info_ext & BIT(3)) && (!(coex_sta->bt_info_ext & BIT(2)))) {
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821c1ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		}
++		/* check BIT2 first ==> check if bt is under inquiry or page scan */
++		if (bt_info & BT_INFO_8821C_1ANT_B_INQ_PAGE)
++			coex_sta->c2h_bt_inquiry_page = true;
++		else
++			coex_sta->c2h_bt_inquiry_page = false;
++	}
++
++	coex_sta->num_of_profile = 0;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8821C_1ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++
++		coex_sta->bt_hi_pri_link_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8821C_1ANT_B_FTP) {
++			coex_sta->pan_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->pan_exist = false;
++		if (bt_info & BT_INFO_8821C_1ANT_B_A2DP) {
++			coex_sta->a2dp_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->a2dp_exist = false;
++		if (bt_info & BT_INFO_8821C_1ANT_B_HID) {
++			coex_sta->hid_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->hid_exist = false;
++		if (bt_info & BT_INFO_8821C_1ANT_B_SCO_ESCO) {
++			coex_sta->sco_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->sco_exist = false;
++
++	}
++
++	halbtc8821c1ant_update_bt_link_info(btcoexist);
++
++	bt_info = bt_info &
++		0x1f;  /* mask profile bit for connect-ilde identification ( for CSR case: A2DP idle --> 0x41) */
++
++	if (!(bt_info & BT_INFO_8821C_1ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8821C_1ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8821C_1ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8821C_1ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8821C_1ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8821C_1ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8821C_1ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8821C_1ANT_B_ACL_BUSY) {
++		if (BT_8821C_1ANT_BT_STATUS_ACL_BUSY != coex_dm->bt_status)
++			coex_dm->auto_tdma_adjust = false;
++		coex_dm->bt_status = BT_8821C_1ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8821C_1ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8821C_1ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8821C_1ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8821C_1ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status))
++		bt_busy = true;
++	else
++		bt_busy = false;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), No run_coexist_mechanism return for Manual CTRL<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(),  No run_coexist_mechanism return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	halbtc8821c1ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8821c1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RF Status notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_RF_ON == type) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wl_rf_off_on_event = true;
++		btcoexist->stop_coex_dm = false;
++
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, TRUE);
++		halbtc8821c1ant_post_onoffstate_to_bt(btcoexist, TRUE);
++
++	} else if (BTC_RF_OFF == type) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, FALSE);
++		halbtc8821c1ant_post_onoffstate_to_bt(btcoexist, FALSE);
++
++		halbtc8821c1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++		halbtc8821c1ant_set_ant_path(btcoexist, 
++							BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_1ANT_PHASE_WLAN_OFF);
++
++		btcoexist->stop_coex_dm = true;
++		coex_sta->wl_rf_off_on_event = false;
++	}
++}
++
++void ex_halbtc8821c1ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++	halbtc8821c1ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++	halbtc8821c1ant_post_activestate_to_bt(btcoexist, FALSE);
++	halbtc8821c1ant_post_onoffstate_to_bt(btcoexist, FALSE);
++
++	halbtc8821c1ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++	
++	halbtc8821c1ant_set_ant_path(btcoexist, 
++							BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_1ANT_PHASE_WLAN_OFF);
++
++	halbtc8821c1ant_ignore_wlan_act(btcoexist, FORCE_EXEC, true);
++
++	ex_halbtc8821c1ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	btcoexist->stop_coex_dm = true;
++}
++
++void ex_halbtc8821c1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++		halbtc8821c1ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, FALSE);
++		halbtc8821c1ant_post_onoffstate_to_bt(btcoexist, FALSE);
++
++		halbtc8821c1ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++		
++		halbtc8821c1ant_set_ant_path(btcoexist, 
++							BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_1ANT_PHASE_WLAN_OFF);
++
++		btcoexist->stop_coex_dm = true;
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c1ant_post_activestate_to_bt(btcoexist, TRUE);
++		halbtc8821c1ant_post_onoffstate_to_bt(btcoexist, TRUE);
++
++		btcoexist->stop_coex_dm = false;
++	}
++}
++
++
++void ex_halbtc8821c1ant_coex_dm_reset(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], *****************Coex DM Reset*****************\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821c1ant_init_hw_config(btcoexist, false, false);
++	halbtc8821c1ant_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8821c1ant_periodical(IN struct btc_coexist *btcoexist)
++{
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ============== Periodical ==============\n");
++	BTC_TRACE(trace_buf);
++
++#if (BT_AUTO_REPORT_ONLY_8821C_1ANT == 0)
++	halbtc8821c1ant_query_bt_info(btcoexist);
++
++#endif
++
++	halbtc8821c1ant_monitor_bt_ctr(btcoexist);
++	halbtc8821c1ant_monitor_wifi_ctr(btcoexist);
++
++	halbtc8821c1ant_monitor_bt_enable_disable(btcoexist);
++
++	/* for 4-way, DHCP, EAPOL packet */
++	if (coex_sta->specific_pkt_period_cnt > 0) {
++
++		coex_sta->specific_pkt_period_cnt--;
++
++		if ((coex_sta->specific_pkt_period_cnt == 0) && (coex_sta->wifi_is_high_pri_task))
++			coex_sta->wifi_is_high_pri_task = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ***************** Hi-Pri Task = %s*****************\n", (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"));
++		BTC_TRACE(trace_buf);
++	}
++
++	if (coex_sta->bt_coex_supported_feature == 0)
++		coex_sta->bt_coex_supported_feature = btcoexist->btc_get_bt_coex_supported_feature(btcoexist);
++
++	if  ( (coex_sta->bt_coex_supported_version == 0) && (!coex_sta->bt_disabled) )
++		coex_sta->bt_coex_supported_version = btcoexist->btc_get_bt_coex_supported_version(btcoexist);
++
++	if (halbtc8821c1ant_is_wifibt_status_changed(btcoexist))
++		halbtc8821c1ant_run_coexist_mechanism(btcoexist);
++
++
++}
++
++void ex_halbtc8821c1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++#if BT_8821C_1ANT_ANTDET_ENABLE
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	/*boolean scan, roam;*/
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx Call AntennaDetect()!!\n");
++	BTC_TRACE(trace_buf);
++
++	if (seconds == 0) {
++		psd_scan->ant_det_try_count	= 0;
++		psd_scan->ant_det_fail_count	= 0;
++		ant_det_count = 0;
++		ant_det_fail_count = 0;
++		board_info->btdm_ant_det_finish = false;
++		board_info->btdm_ant_num_by_ant_det = 1;
++		return;
++	}
++
++	if (!board_info->btdm_ant_det_finish) {
++		psd_scan->ant_det_inteval_count =
++			psd_scan->ant_det_inteval_count + 2;
++
++		if (psd_scan->ant_det_inteval_count >=
++		    BT_8821C_2ANT_ANTDET_RETRY_INTERVAL) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is up, Try Detect!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c1ant_psd_antenna_detection_check(btcoexist);
++
++			if (board_info->btdm_ant_det_finish) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Success!!\n");
++				BTC_TRACE(trace_buf);
++#if 1
++				if (board_info->btdm_ant_num_by_ant_det == 2)
++					halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_WIFI,
++						     FORCE_EXEC, 	BT_8821C_1ANT_PHASE_2G_RUNTIME);
++				else
++					halbtc8821c1ant_set_ant_path(btcoexist, BTC_ANT_PATH_PTA,
++						     FORCE_EXEC, BT_8821C_1ANT_PHASE_2G_RUNTIME);
++#endif
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Fail!!\n");
++				BTC_TRACE(trace_buf);
++			}
++			psd_scan->ant_det_inteval_count = 0;
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is not up! (%d)\n",
++				    psd_scan->ant_det_inteval_count);
++			BTC_TRACE(trace_buf);
++		}
++
++	}
++#endif
++
++
++}
++
++
++void ex_halbtc8821c1ant_display_ant_detection(IN struct btc_coexist *btcoexist)
++{
++#if BT_8821C_1ANT_ANTDET_ENABLE
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	if (psd_scan->ant_det_try_count != 0)	{
++		halbtc8821c1ant_psd_show_antenna_detect_result(btcoexist);
++
++		if (board_info->btdm_ant_det_finish)
++			halbtc8821c1ant_psd_showdata(btcoexist);
++		return;
++	}
++#endif
++
++}
++
++void ex_halbtc8821c1ant_antenna_isolation(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++
++}
++
++void ex_halbtc8821c1ant_psd_scan(IN struct btc_coexist *btcoexist,
++		 IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++
++}
++
++
++#endif
++
++#endif	/* #if (BT_SUPPORT == 1 && COEX_SUPPORT == 1) */
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/halbtc8821c1ant.h b/drivers/net/wireless/rtl8812au/hal/btc/halbtc8821c1ant.h
+new file mode 100644
+index 0000000..a3cb76a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/halbtc8821c1ant.h
+@@ -0,0 +1,432 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821C_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8821C 1ANT BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8821C_1ANT				1
++
++#define	BT_INFO_8821C_1ANT_B_FTP						BIT(7)
++#define	BT_INFO_8821C_1ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8821C_1ANT_B_HID						BIT(5)
++#define	BT_INFO_8821C_1ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8821C_1ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8821C_1ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8821C_1ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8821C_1ANT_B_CONNECTION				BIT(0)
++
++#define	BT_INFO_8821C_1ANT_A2DP_BASIC_RATE(_BT_INFO_EXT_)	\
++	(((_BT_INFO_EXT_&BIT(0))) ? true : false)
++
++#define	BTC_RSSI_COEX_THRESH_TOL_8821C_1ANT		2
++
++#define  BT_8821C_1ANT_WIFI_NOISY_THRESH							30   /* max: 255 */
++
++/* for Antenna detection */
++#define	BT_8821C_1ANT_ANTDET_PSDTHRES_BACKGROUND					50
++#define	BT_8821C_1ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION				70
++#define	BT_8821C_1ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION			55
++#define	BT_8821C_1ANT_ANTDET_PSDTHRES_1ANT							35
++#define	BT_8821C_1ANT_ANTDET_RETRY_INTERVAL							10	/* retry timer if ant det is fail, unit: second */
++#define	BT_8821C_1ANT_ANTDET_SWEEPPOINT_DELAY							40000
++#define	BT_8821C_1ANT_ANTDET_ENABLE									0
++#define	BT_8821C_1ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE				0
++#define	BT_8821C_1ANT_ANTDET_BTTXTIME									100
++#define	BT_8821C_1ANT_ANTDET_BTTXCHANNEL								39
++
++#define	BT_8821C_1ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT		30000
++
++enum bt_8821c_1ant_signal_state {
++	BT_8821C_1ANT_SIG_STA_SET_TO_LOW		= 0x0,
++	BT_8821C_1ANT_SIG_STA_SET_BY_HW		= 0x0,
++	BT_8821C_1ANT_SIG_STA_SET_TO_HIGH		= 0x1,
++	BT_8821C_1ANT_SIG_STA_MAX
++};
++
++enum bt_8821c_1ant_path_ctrl_owner {
++	BT_8821C_1ANT_PCO_BTSIDE		= 0x0,
++	BT_8821C_1ANT_PCO_WLSIDE	= 0x1,
++	BT_8821C_1ANT_PCO_MAX
++};
++
++enum bt_8821c_1ant_gnt_ctrl_type {
++	BT_8821C_1ANT_GNT_TYPE_CTRL_BY_PTA		= 0x0,
++	BT_8821C_1ANT_GNT_TYPE_CTRL_BY_SW		= 0x1,
++	BT_8821C_1ANT_GNT_TYPE_MAX
++};
++
++enum bt_8821c_1ant_gnt_ctrl_block {
++	BT_8821C_1ANT_GNT_BLOCK_RFC_BB		= 0x0,
++	BT_8821C_1ANT_GNT_BLOCK_RFC			= 0x1,
++	BT_8821C_1ANT_GNT_BLOCK_BB			= 0x2,
++	BT_8821C_1ANT_GNT_BLOCK_MAX
++};
++
++enum bt_8821c_1ant_lte_coex_table_type {
++	BT_8821C_1ANT_CTT_WL_VS_LTE			= 0x0,
++	BT_8821C_1ANT_CTT_BT_VS_LTE			= 0x1,
++	BT_8821C_1ANT_CTT_MAX
++};
++
++enum bt_8821c_1ant_lte_break_table_type {
++	BT_8821C_1ANT_LBTT_WL_BREAK_LTE			= 0x0,
++	BT_8821C_1ANT_LBTT_BT_BREAK_LTE				= 0x1,
++	BT_8821C_1ANT_LBTT_LTE_BREAK_WL			= 0x2,
++	BT_8821C_1ANT_LBTT_LTE_BREAK_BT				= 0x3,
++	BT_8821C_1ANT_LBTT_MAX
++};
++
++enum bt_info_src_8821c_1ant {
++	BT_INFO_SRC_8821C_1ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8821C_1ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8821C_1ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8821C_1ANT_MAX
++};
++
++enum bt_8821c_1ant_bt_status {
++	BT_8821C_1ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8821C_1ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8821C_1ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8821C_1ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8821C_1ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8821C_1ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8821C_1ANT_BT_STATUS_MAX
++};
++
++enum bt_8821c_1ant_wifi_status {
++	BT_8821C_1ANT_WIFI_STATUS_NON_CONNECTED_IDLE				= 0x0,
++	BT_8821C_1ANT_WIFI_STATUS_NON_CONNECTED_ASSO_AUTH_SCAN		= 0x1,
++	BT_8821C_1ANT_WIFI_STATUS_CONNECTED_SCAN					= 0x2,
++	BT_8821C_1ANT_WIFI_STATUS_CONNECTED_SPECIFIC_PKT				= 0x3,
++	BT_8821C_1ANT_WIFI_STATUS_CONNECTED_IDLE					= 0x4,
++	BT_8821C_1ANT_WIFI_STATUS_CONNECTED_BUSY					= 0x5,
++	BT_8821C_1ANT_WIFI_STATUS_MAX
++};
++
++enum bt_8821c_1ant_coex_algo {
++	BT_8821C_1ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8821C_1ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8821C_1ANT_COEX_ALGO_HID				= 0x2,
++	BT_8821C_1ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8821C_1ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8821C_1ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8821C_1ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8821C_1ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8821C_1ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8821C_1ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8821C_1ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8821C_1ANT_COEX_ALGO_MAX				= 0xb,
++};
++
++enum bt_8821c_1ant_ext_ant_switch_type {
++	BT_8821C_1ANT_EXT_ANT_SWITCH_USE_DPDT		= 0x0,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_USE_SPDT		= 0x1,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_MAX
++};
++
++
++enum bt_8821c_1ant_ext_ant_switch_ctrl_type {
++	BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW	= 0x0,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_PTA		= 0x1,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_ANTDIV	= 0x2,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_MAC		= 0x3,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_BY_BT		= 0x4,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_CTRL_MAX
++};
++
++enum bt_8821c_1ant_ext_ant_switch_pos_type {
++	BT_8821C_1ANT_EXT_ANT_SWITCH_TO_BT			= 0x0,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_TO_WLG			= 0x1,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_TO_WLA			= 0x2,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_TO_NOCARE		= 0x3,
++	BT_8821C_1ANT_EXT_ANT_SWITCH_TO_MAX
++};
++
++enum bt_8821c_1ant_ext_band_switch_pos_type {
++	BT_8821C_1ANT_EXT_BAND_SWITCH_TO_WLG			= 0x0,
++	BT_8821C_1ANT_EXT_BAND_SWITCH_TO_WLA			= 0x1,
++	BT_8821C_1ANT_EXT_BAND_SWITCH_TO_MAX
++};
++
++enum bt_8821c_1ant_int_block{
++	BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLG_OF_BTG			= 0x0,
++	BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG		= 0x1,
++	BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_WLA_OF_WLAG		= 0x2,
++	BT_8821C_1ANT_INT_BLOCK_SWITCH_TO_MAX
++};
++
++enum bt_8821c_1ant_phase{
++	BT_8821C_1ANT_PHASE_COEX_INIT								= 0x0,
++	BT_8821C_1ANT_PHASE_WLANONLY_INIT							= 0x1,	
++	BT_8821C_1ANT_PHASE_WLAN_OFF								= 0x2,
++	BT_8821C_1ANT_PHASE_2G_RUNTIME								= 0x3,
++	BT_8821C_1ANT_PHASE_5G_RUNTIME								= 0x4,
++	BT_8821C_1ANT_PHASE_BTMPMODE									= 0x5,
++	BT_8821C_1ANT_PHASE_MAX
++};
++
++
++struct coex_dm_8821c_1ant {
++	/* hw setting */
++	u32		pre_ant_pos_type;
++	u32		cur_ant_pos_type;
++	/* fw mechanism */
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	/* sw mechanism */
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	u32		backup_arfr_cnt1;	/* Auto Rate Fallback Retry cnt */
++	u32		backup_arfr_cnt2;	/* Auto Rate Fallback Retry cnt */
++	u16		backup_retry_limit;
++	u8		backup_ampdu_max_time;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	u32		pre_ra_mask;
++	u32		cur_ra_mask;
++	u8		pre_arfr_type;
++	u8		cur_arfr_type;
++	u8		pre_retry_limit_type;
++	u8		cur_retry_limit_type;
++	u8		pre_ampdu_time_type;
++	u8		cur_ampdu_time_type;
++	u32		arp_cnt;
++
++	u32		pre_ext_ant_switch_status;
++	u32		cur_ext_ant_switch_status;
++	
++	u8		pre_ext_band_switch_status;
++	u8		cur_ext_band_switch_status;
++
++	u8		pre_int_block_status;
++	u8		cur_int_block_status;
++
++	u8		error_condition;
++};
++
++struct coex_sta_8821c_1ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++	boolean					bt_hi_pri_link_exist;
++	u8					num_of_profile;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					specific_pkt_period_cnt;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	s8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8821C_1ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8821C_1ANT_MAX];
++	boolean					bt_whck_test;
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_page;				/* Add for win8.1 page out issue */
++	boolean					wifi_is_high_pri_task;		/* Add for win8.1 page out issue */
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	boolean					cck_lock;
++	boolean					pre_ccklock;
++	boolean					cck_ever_lock;
++	u8					coex_table_type;
++
++	boolean					force_lps_on;
++	u32					wrong_profile_notification;
++
++	boolean					concurrent_rx_mode_on;
++
++	u16					score_board;
++
++	u8					a2dp_bit_pool;
++	u8					cut_version;
++	boolean				acl_busy;
++	boolean				wl_rf_off_on_event;
++	boolean				bt_create_connection;
++	boolean				run_time_state;
++
++	u32					bt_coex_supported_feature;
++	u32					bt_coex_supported_version;
++};
++
++
++#define  BT_8821C_1ANT_EXT_BAND_SWITCH_USE_DPDT 	0
++#define  BT_8821C_1ANT_EXT_BAND_SWITCH_USE_SPDT 	1
++
++
++struct rfe_type_8821c_1ant{
++
++	u8			rfe_module_type;	
++	boolean		ext_ant_switch_exist;
++	u8			ext_ant_switch_type;			/* 0:DPDT, 1:SPDT */
++	u8			ext_ant_switch_ctrl_polarity;		/*  iF 0: DPDT_P=0, DPDT_N=1 => BTG to Main, WL_A+G to Aux */
++	
++	boolean		ext_band_switch_exist;
++	u8			ext_band_switch_type;			/* 0:DPDT, 1:SPDT */
++	u8			ext_band_switch_ctrl_polarity;
++
++	boolean		wlg_Locate_at_btg;				/*  If true:  WLG at BTG, If false: WLG at WLAG  */			
++
++	boolean		ext_ant_switch_diversity;		/* If diversity on  */
++};
++
++#define  BT_8821C_1ANT_ANTDET_PSD_POINTS			256	/* MAX:1024 */
++#define  BT_8821C_1ANT_ANTDET_PSD_AVGNUM			1	/* MAX:3 */
++#define	BT_8821C_1ANT_ANTDET_BUF_LEN				16
++
++struct psdscan_sta_8821c_1ant {
++
++	u32			ant_det_bt_le_channel;  /* BT LE Channel ex:2412 */
++	u32			ant_det_bt_tx_time;
++	u32			ant_det_pre_psdscan_peak_val;
++	boolean			ant_det_is_ant_det_available;
++	u32			ant_det_psd_scan_peak_val;
++	boolean			ant_det_is_btreply_available;
++	u32			ant_det_psd_scan_peak_freq;
++
++	u8			ant_det_result;
++	u8			ant_det_peak_val[BT_8821C_1ANT_ANTDET_BUF_LEN];
++	u8			ant_det_peak_freq[BT_8821C_1ANT_ANTDET_BUF_LEN];
++	u32			ant_det_try_count;
++	u32			ant_det_fail_count;
++	u32			ant_det_inteval_count;
++	u32			ant_det_thres_offset;
++
++	u32			real_cent_freq;
++	s32			real_offset;
++	u32			real_span;
++
++	u32			psd_band_width;  /* unit: Hz */
++	u32			psd_point;		/* 128/256/512/1024 */
++	u32			psd_report[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_report_max_hold[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_start_point;
++	u32			psd_stop_point;
++	u32			psd_max_value_point;
++	u32			psd_max_value;
++	u32			psd_start_base;
++	u32			psd_avg_num;	/* 1/8/16/32 */
++	u32			psd_gen_count;
++	boolean			is_psd_running;
++	boolean			is_psd_show_max_only;
++};
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8821c1ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c1ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c1ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8821c1ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c1ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8821c1ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8821c1ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8821c1ant_switchband_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8821c1ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8821c1ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821c1ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821c1ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8821c1ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821c1ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c1ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8821c1ant_coex_dm_reset(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c1ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c1ant_display_coex_info(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c1ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8821c1ant_antenna_isolation(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++
++void ex_halbtc8821c1ant_psd_scan(IN struct btc_coexist *btcoexist,
++		 IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8821c1ant_display_ant_detection(IN struct btc_coexist *btcoexist);
++
++#else
++#define	ex_halbtc8821c1ant_power_on_setting(btcoexist)
++#define	ex_halbtc8821c1ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8821c1ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8821c1ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8821c1ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8821c1ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8821c1ant_scan_notify(btcoexist, type)
++#define   ex_halbtc8821c1ant_switchband_notify(btcoexist,type)
++#define	ex_halbtc8821c1ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8821c1ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8821c1ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8821c1ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8821c1ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8821c1ant_halt_notify(btcoexist)
++#define	ex_halbtc8821c1ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8821c1ant_coex_dm_reset(btcoexist)
++#define	ex_halbtc8821c1ant_periodical(btcoexist)
++#define	ex_halbtc8821c1ant_display_coex_info(btcoexist)
++#define	ex_halbtc8821c1ant_antenna_detection(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8821c1ant_antenna_isolation(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8821c1ant_psd_scan(btcoexist, cent_freq, offset, span, seconds)
++#define	ex_halbtc8821c1ant_display_ant_detection(btcoexist)
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/halbtc8821c2ant.c b/drivers/net/wireless/rtl8812au/hal/btc/halbtc8821c2ant.c
+new file mode 100644
+index 0000000..7579fa9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/halbtc8821c2ant.c
+@@ -0,0 +1,6096 @@
++/* ************************************************************
++ * Description:
++ *
++ * This file is for RTL8821C Co-exist mechanism
++ *
++ * History
++ * 2012/11/15 Cosa first check in.
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * include files
++ * ************************************************************ */
++#include "Mp_Precomp.h"
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821C_SUPPORT == 1)
++/* ************************************************************
++ * Global variables, these are static variables
++ * ************************************************************ */
++static u8	*trace_buf = &gl_btc_trace_buf[0];
++static struct  coex_dm_8821c_2ant		glcoex_dm_8821c_2ant;
++static struct  coex_dm_8821c_2ant	*coex_dm = &glcoex_dm_8821c_2ant;
++static struct  coex_sta_8821c_2ant		glcoex_sta_8821c_2ant;
++static struct  coex_sta_8821c_2ant	*coex_sta = &glcoex_sta_8821c_2ant;
++static struct  psdscan_sta_8821c_2ant	gl_psd_scan_8821c_2ant;
++static struct  psdscan_sta_8821c_2ant *psd_scan = &gl_psd_scan_8821c_2ant;
++static struct	rfe_type_8821c_2ant		gl_rfe_type_8821c_2ant;
++static struct	rfe_type_8821c_2ant		*rfe_type = &gl_rfe_type_8821c_2ant;
++
++const char *const glbt_info_src_8821c_2ant[] = {
++	"BT Info[wifi fw]",
++	"BT Info[bt rsp]",
++	"BT Info[bt auto report]",
++};
++
++u32	glcoex_ver_date_8821c_2ant = 20160316;
++u32	glcoex_ver_8821c_2ant = 0x00;
++
++/* ************************************************************
++ * local function proto type if needed
++ * ************************************************************
++ * ************************************************************
++ * local function start with halbtc8821c2ant_
++ * ************************************************************ */
++u8 halbtc8821c2ant_bt_rssi_state(u8 *ppre_bt_rssi_state, u8 level_num,
++				 u8 rssi_thresh, u8 rssi_thresh1)
++{
++	s32			bt_rssi = 0;
++	u8			bt_rssi_state = *ppre_bt_rssi_state;
++
++	bt_rssi = coex_sta->bt_rssi;
++
++	if (level_num == 2) {
++		if ((*ppre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*ppre_bt_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8821C_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT Rssi thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return *ppre_bt_rssi_state;
++		}
++
++		if ((*ppre_bt_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*ppre_bt_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (bt_rssi >= (rssi_thresh +
++					BTC_RSSI_COEX_THRESH_TOL_8821C_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((*ppre_bt_rssi_state == BTC_RSSI_STATE_MEDIUM) ||
++			(*ppre_bt_rssi_state == BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (bt_rssi >= (rssi_thresh1 +
++					BTC_RSSI_COEX_THRESH_TOL_8821C_2ANT))
++				bt_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (bt_rssi < rssi_thresh)
++				bt_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (bt_rssi < rssi_thresh1)
++				bt_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				bt_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	*ppre_bt_rssi_state = bt_rssi_state;
++
++	return bt_rssi_state;
++}
++
++u8 halbtc8821c2ant_wifi_rssi_state(IN struct btc_coexist *btcoexist,
++	   IN u8 *pprewifi_rssi_state, IN u8 level_num, IN u8 rssi_thresh,
++				   IN u8 rssi_thresh1)
++{
++	s32			wifi_rssi = 0;
++	u8			wifi_rssi_state = *pprewifi_rssi_state;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_S4_WIFI_RSSI, &wifi_rssi);
++
++	if (level_num == 2) {
++		if ((*pprewifi_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*pprewifi_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8821C_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else {
++			if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	} else if (level_num == 3) {
++		if (rssi_thresh > rssi_thresh1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], wifi RSSI thresh error!!\n");
++			BTC_TRACE(trace_buf);
++			return *pprewifi_rssi_state;
++		}
++
++		if ((*pprewifi_rssi_state == BTC_RSSI_STATE_LOW) ||
++		    (*pprewifi_rssi_state == BTC_RSSI_STATE_STAY_LOW)) {
++			if (wifi_rssi >= (rssi_thresh +
++					  BTC_RSSI_COEX_THRESH_TOL_8821C_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_LOW;
++		} else if ((*pprewifi_rssi_state == BTC_RSSI_STATE_MEDIUM) ||
++			(*pprewifi_rssi_state == BTC_RSSI_STATE_STAY_MEDIUM)) {
++			if (wifi_rssi >= (rssi_thresh1 +
++					  BTC_RSSI_COEX_THRESH_TOL_8821C_2ANT))
++				wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++			else if (wifi_rssi < rssi_thresh)
++				wifi_rssi_state = BTC_RSSI_STATE_LOW;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_MEDIUM;
++		} else {
++			if (wifi_rssi < rssi_thresh1)
++				wifi_rssi_state = BTC_RSSI_STATE_MEDIUM;
++			else
++				wifi_rssi_state = BTC_RSSI_STATE_STAY_HIGH;
++		}
++	}
++
++	*pprewifi_rssi_state = wifi_rssi_state;
++
++	return wifi_rssi_state;
++}
++
++void halbtc8821c2ant_coex_switch_threshold(IN struct btc_coexist *btcoexist,
++		IN u8 isolation_measuared)
++{
++	s8	interference_wl_tx = 0, interference_bt_tx = 0;
++
++
++	interference_wl_tx = BT_8821C_2ANT_WIFI_MAX_TX_POWER - isolation_measuared;
++	interference_bt_tx = BT_8821C_2ANT_BT_MAX_TX_POWER - isolation_measuared;
++
++
++
++	coex_sta->wifi_coex_thres		 = BT_8821C_2ANT_WIFI_RSSI_COEXSWITCH_THRES1;
++	coex_sta->wifi_coex_thres2	 = BT_8821C_2ANT_WIFI_RSSI_COEXSWITCH_THRES2;
++
++	coex_sta->bt_coex_thres		 = BT_8821C_2ANT_BT_RSSI_COEXSWITCH_THRES1;
++	coex_sta->bt_coex_thres2		 = BT_8821C_2ANT_BT_RSSI_COEXSWITCH_THRES2;
++
++
++	/*
++		coex_sta->wifi_coex_thres		= interference_wl_tx + BT_8821C_2ANT_WIFI_SIR_THRES1;
++		coex_sta->wifi_coex_thres2		= interference_wl_tx + BT_8821C_2ANT_WIFI_SIR_THRES2;
++
++		coex_sta->bt_coex_thres		= interference_bt_tx + BT_8821C_2ANT_BT_SIR_THRES1;
++		coex_sta->bt_coex_thres2		= interference_bt_tx + BT_8821C_2ANT_BT_SIR_THRES2;
++	*/
++
++
++
++
++
++	/*
++		if  ( BT_8821C_2ANT_WIFI_RSSI_COEXSWITCH_THRES1 < (isolation_measuared -
++					BT_8821C_2ANT_DEFAULT_ISOLATION) )
++			coex_sta->wifi_coex_thres	 = BT_8821C_2ANT_WIFI_RSSI_COEXSWITCH_THRES1;
++		else
++			coex_sta->wifi_coex_thres =  BT_8821C_2ANT_WIFI_RSSI_COEXSWITCH_THRES1 -  (isolation_measuared -
++					BT_8821C_2ANT_DEFAULT_ISOLATION);
++
++		if  ( BT_8821C_2ANT_BT_RSSI_COEXSWITCH_THRES1 < (isolation_measuared -
++					BT_8821C_2ANT_DEFAULT_ISOLATION) )
++			coex_sta->bt_coex_thres	 = BT_8821C_2ANT_BT_RSSI_COEXSWITCH_THRES1;
++		else
++			coex_sta->bt_coex_thres =  BT_8821C_2ANT_BT_RSSI_COEXSWITCH_THRES1 -  (isolation_measuared -
++					BT_8821C_2ANT_DEFAULT_ISOLATION);
++
++	*/
++}
++
++
++void halbtc8821c2ant_limited_rx(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN boolean rej_ap_agg_pkt,
++			IN boolean bt_ctrl_agg_buf_size, IN u8 agg_buf_size)
++{
++	boolean	reject_rx_agg = rej_ap_agg_pkt;
++	boolean	bt_ctrl_rx_agg_size = bt_ctrl_agg_buf_size;
++	u8	rx_agg_size = agg_buf_size;
++
++	/* ============================================ */
++	/*	Rx Aggregation related setting */
++	/* ============================================ */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_TO_REJ_AP_AGG_PKT,
++			   &reject_rx_agg);
++	/* decide BT control aggregation buf size or not */
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_CTRL_AGG_SIZE,
++			   &bt_ctrl_rx_agg_size);
++	/* aggregation buf size, only work when BT control Rx aggregation size. */
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_AGG_BUF_SIZE, &rx_agg_size);
++	/* real update aggregation setting */
++	btcoexist->btc_set(btcoexist, BTC_SET_ACT_AGGREGATE_CTRL, NULL);
++}
++
++void halbtc8821c2ant_query_bt_info(IN struct btc_coexist *btcoexist)
++{
++	u8			h2c_parameter[1] = {0};
++
++	coex_sta->c2h_bt_info_req_sent = true;
++
++	h2c_parameter[0] |= BIT(0);	/* trigger */
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x61, 1, h2c_parameter);
++}
++
++void halbtc8821c2ant_monitor_bt_ctr(IN struct btc_coexist *btcoexist)
++{
++	u32			reg_hp_txrx, reg_lp_txrx, u32tmp;
++	u32			reg_hp_tx = 0, reg_hp_rx = 0, reg_lp_tx = 0, reg_lp_rx = 0;
++	static u8		num_of_bt_counter_chk = 0, cnt_slave = 0;
++
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	reg_hp_txrx = 0x770;
++	reg_lp_txrx = 0x774;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_hp_txrx);
++	reg_hp_tx = u32tmp & MASKLWORD;
++	reg_hp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	u32tmp = btcoexist->btc_read_4byte(btcoexist, reg_lp_txrx);
++	reg_lp_tx = u32tmp & MASKLWORD;
++	reg_lp_rx = (u32tmp & MASKHWORD) >> 16;
++
++	coex_sta->high_priority_tx = reg_hp_tx;
++	coex_sta->high_priority_rx = reg_hp_rx;
++	coex_sta->low_priority_tx = reg_lp_tx;
++	coex_sta->low_priority_rx = reg_lp_rx;
++
++
++	/* reset counter */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e, 0xc);
++
++	if ((coex_sta->low_priority_tx > 1050)  &&
++	    (!coex_sta->c2h_bt_inquiry_page))
++		coex_sta->pop_event_cnt++;
++
++	if ((coex_sta->low_priority_rx >= 950) && (coex_sta->low_priority_rx >= coex_sta->low_priority_tx)
++	    && (!coex_sta->under_ips)  && (!coex_sta->c2h_bt_inquiry_page) && (coex_sta->bt_link_exist))	{
++		if (cnt_slave >= 2) {
++			bt_link_info->slave_role = true;
++			cnt_slave = 2;
++		} else
++			cnt_slave++;
++	} else {
++		if (cnt_slave == 0)	{
++			bt_link_info->slave_role = false;
++			cnt_slave = 0;
++		} else
++			cnt_slave--;
++
++	}
++
++	if ((coex_sta->high_priority_tx == 0) && (coex_sta->high_priority_rx == 0) && (coex_sta->low_priority_tx == 0) &&
++	    (coex_sta->low_priority_rx == 0)) {
++		num_of_bt_counter_chk++;
++		if (num_of_bt_counter_chk >= 3) {
++			halbtc8821c2ant_query_bt_info(btcoexist);
++			num_of_bt_counter_chk = 0;
++		}
++	}
++
++}
++
++void halbtc8821c2ant_monitor_wifi_ctr(IN struct btc_coexist *btcoexist)
++{
++
++
++	if (coex_sta->under_ips) {
++		coex_sta->crc_ok_cck = 0;
++		coex_sta->crc_ok_11g = 0;
++		coex_sta->crc_ok_11n = 0;
++		coex_sta->crc_ok_11n_agg = 0;
++
++		coex_sta->crc_err_cck = 0;
++		coex_sta->crc_err_11g = 0;
++		coex_sta->crc_err_11n = 0;
++		coex_sta->crc_err_11n_agg = 0;
++	} else {
++		coex_sta->crc_ok_cck	= btcoexist->btc_read_4byte(btcoexist,
++					  0xf88);
++		coex_sta->crc_ok_11g	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf94);
++		coex_sta->crc_ok_11n	= btcoexist->btc_read_2byte(btcoexist,
++					  0xf90);
++		coex_sta->crc_ok_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					   0xfb8);
++
++		coex_sta->crc_err_cck	 = btcoexist->btc_read_4byte(btcoexist,
++					   0xf84);
++		coex_sta->crc_err_11g	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf96);
++		coex_sta->crc_err_11n	 = btcoexist->btc_read_2byte(btcoexist,
++					   0xf92);
++		coex_sta->crc_err_11n_agg = btcoexist->btc_read_2byte(btcoexist,
++					    0xfba);
++	}
++
++	/* reset counter */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xf16, 0x1, 0x0);
++}
++
++
++boolean halbtc8821c2ant_is_wifibt_status_changed(IN struct btc_coexist *btcoexist)
++{
++	static boolean	pre_wifi_busy = false, pre_under_4way = false,
++			pre_bt_hs_on = false, pre_bt_off = false;
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	boolean			wifi_busy = false, under_4way = false, bt_hs_on = false;
++	boolean			wifi_connected = false;
++	u8			wifi_rssi_state = BTC_RSSI_STATE_HIGH;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (coex_sta->bt_disabled != pre_bt_off) {
++		pre_bt_off = coex_sta->bt_disabled;
++
++		if (coex_sta->bt_disabled)
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is disabled !!\n");
++		else
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], BT is enabled !!\n");
++
++		BTC_TRACE(trace_buf);
++
++		coex_sta->bt_coex_supported_feature = 0;
++		coex_sta->bt_coex_supported_version = 0;
++		return true;
++	}
++
++	if (wifi_connected) {
++		if (wifi_busy != pre_wifi_busy) {
++			pre_wifi_busy = wifi_busy;
++			return true;
++		}
++		if (under_4way != pre_under_4way) {
++			pre_under_4way = under_4way;
++			return true;
++		}
++		if (bt_hs_on != pre_bt_hs_on) {
++			pre_bt_hs_on = bt_hs_on;
++			return true;
++		}
++
++	}
++
++	return false;
++}
++
++void halbtc8821c2ant_update_bt_link_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	bt_link_info->bt_link_exist = coex_sta->bt_link_exist;
++	bt_link_info->sco_exist = coex_sta->sco_exist;
++	bt_link_info->a2dp_exist = coex_sta->a2dp_exist;
++	bt_link_info->pan_exist = coex_sta->pan_exist;
++	bt_link_info->hid_exist = coex_sta->hid_exist;
++	bt_link_info->acl_busy = coex_sta->acl_busy;
++
++	/* work around for HS mode. */
++	if (bt_hs_on) {
++		bt_link_info->pan_exist = true;
++		bt_link_info->bt_link_exist = true;
++	}
++
++	/* check if Sco only */
++	if (bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->sco_only = true;
++	else
++		bt_link_info->sco_only = false;
++
++	/* check if A2dp only */
++	if (!bt_link_info->sco_exist &&
++	    bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->a2dp_only = true;
++	else
++		bt_link_info->a2dp_only = false;
++
++	/* check if Pan only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    bt_link_info->pan_exist &&
++	    !bt_link_info->hid_exist)
++		bt_link_info->pan_only = true;
++	else
++		bt_link_info->pan_only = false;
++
++	/* check if Hid only */
++	if (!bt_link_info->sco_exist &&
++	    !bt_link_info->a2dp_exist &&
++	    !bt_link_info->pan_exist &&
++	    bt_link_info->hid_exist)
++		bt_link_info->hid_only = true;
++	else
++		bt_link_info->hid_only = false;
++}
++
++void halbtc8821c2ant_update_wifi_channel_info(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++
++	/* only 2.4G we need to inform bt the chnl mask */
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_WIFI_CENTRAL_CHNL,
++			   &wifi_central_chnl);
++	if ((BTC_MEDIA_CONNECT == type) &&
++	    (wifi_central_chnl <= 14)) {
++		h2c_parameter[0] =
++			0x1;  /* enable BT AFH skip WL channel for 8821c because BT Rx LO interference */
++		/* h2c_parameter[0] = 0x0; */
++		h2c_parameter[1] = wifi_central_chnl;
++		btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_BW, &wifi_bw);
++		if (BTC_WIFI_BW_HT40 == wifi_bw)
++			h2c_parameter[2] = 0x30;
++		else
++			h2c_parameter[2] = 0x20;
++	}
++
++	coex_dm->wifi_chnl_info[0] = h2c_parameter[0];
++	coex_dm->wifi_chnl_info[1] = h2c_parameter[1];
++	coex_dm->wifi_chnl_info[2] = h2c_parameter[2];
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x66, 3, h2c_parameter);
++
++}
++
++void halbtc8821c2ant_set_fw_dac_swing_level(IN struct btc_coexist *btcoexist,
++		IN u8 dac_swing_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	/* There are several type of dacswing */
++	/* 0x18/ 0x10/ 0xc/ 0x8/ 0x4/ 0x6 */
++	h2c_parameter[0] = dac_swing_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x64, 1, h2c_parameter);
++}
++
++void halbtc8821c2ant_fw_dac_swing_lvl(IN struct btc_coexist *btcoexist,
++			      IN boolean force_exec, IN u8 fw_dac_swing_lvl)
++{
++	coex_dm->cur_fw_dac_swing_lvl = fw_dac_swing_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_fw_dac_swing_lvl ==
++		    coex_dm->cur_fw_dac_swing_lvl)
++			return;
++	}
++
++	halbtc8821c2ant_set_fw_dac_swing_level(btcoexist,
++					       coex_dm->cur_fw_dac_swing_lvl);
++
++	coex_dm->pre_fw_dac_swing_lvl = coex_dm->cur_fw_dac_swing_lvl;
++}
++
++void halbtc8821c2ant_set_fw_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				       IN u8 dec_bt_pwr_lvl)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = dec_bt_pwr_lvl;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x62, 1, h2c_parameter);
++}
++
++void halbtc8821c2ant_dec_bt_pwr(IN struct btc_coexist *btcoexist,
++				IN boolean force_exec, IN u8 dec_bt_pwr_lvl)
++{
++	coex_dm->cur_bt_dec_pwr_lvl = dec_bt_pwr_lvl;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_dec_pwr_lvl == coex_dm->cur_bt_dec_pwr_lvl)
++			return;
++	}
++	halbtc8821c2ant_set_fw_dec_bt_pwr(btcoexist,
++					  coex_dm->cur_bt_dec_pwr_lvl);
++
++	coex_dm->pre_bt_dec_pwr_lvl = coex_dm->cur_bt_dec_pwr_lvl;
++}
++
++void halbtc8821c2ant_set_fw_low_penalty_ra(IN struct btc_coexist
++		*btcoexist, IN boolean low_penalty_ra)
++{
++	u8			h2c_parameter[6] = {0};
++
++	h2c_parameter[0] = 0x6;	/* op_code, 0x6= Retry_Penalty */
++
++	if (low_penalty_ra) {
++		h2c_parameter[1] |= BIT(0);
++		h2c_parameter[2] =
++			0x00;  /* normal rate except MCS7/6/5, OFDM54/48/36 */
++		h2c_parameter[3] = 0xf7;  /* MCS7 or OFDM54 */
++		h2c_parameter[4] = 0xf8;  /* MCS6 or OFDM48 */
++		h2c_parameter[5] = 0xf9;	/* MCS5 or OFDM36	 */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x69, 6, h2c_parameter);
++}
++
++void halbtc8821c2ant_low_penalty_ra(IN struct btc_coexist *btcoexist,
++			    IN boolean force_exec, IN boolean low_penalty_ra)
++{
++	coex_dm->cur_low_penalty_ra = low_penalty_ra;
++
++	if (!force_exec) {
++		if (coex_dm->pre_low_penalty_ra == coex_dm->cur_low_penalty_ra)
++			return;
++	}
++	halbtc8821c2ant_set_fw_low_penalty_ra(btcoexist,
++					      coex_dm->cur_low_penalty_ra);
++
++	coex_dm->pre_low_penalty_ra = coex_dm->cur_low_penalty_ra;
++}
++
++void halbtc8821c2ant_set_bt_auto_report(IN struct btc_coexist *btcoexist,
++					IN boolean enable_auto_report)
++{
++	u8			h2c_parameter[1] = {0};
++
++	h2c_parameter[0] = 0;
++
++	if (enable_auto_report)
++		h2c_parameter[0] |= BIT(0);
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x68, 1, h2c_parameter);
++}
++
++void halbtc8821c2ant_bt_auto_report(IN struct btc_coexist *btcoexist,
++		    IN boolean force_exec, IN boolean enable_auto_report)
++{
++	coex_dm->cur_bt_auto_report = enable_auto_report;
++
++	if (!force_exec) {
++		if (coex_dm->pre_bt_auto_report == coex_dm->cur_bt_auto_report)
++			return;
++	}
++	halbtc8821c2ant_set_bt_auto_report(btcoexist,
++					   coex_dm->cur_bt_auto_report);
++
++	coex_dm->pre_bt_auto_report = coex_dm->cur_bt_auto_report;
++}
++
++void halbtc8821c2ant_sw_mechanism1(IN struct btc_coexist *btcoexist,
++			   IN boolean shrink_rx_lpf, IN boolean low_penalty_ra,
++			   IN boolean limited_dig, IN boolean bt_lna_constrain)
++{
++
++	halbtc8821c2ant_low_penalty_ra(btcoexist, NORMAL_EXEC, low_penalty_ra);
++}
++
++void halbtc8821c2ant_sw_mechanism2(IN struct btc_coexist *btcoexist,
++			   IN boolean agc_table_shift, IN boolean adc_back_off,
++			   IN boolean sw_dac_swing, IN u32 dac_swing_lvl)
++{
++	/* halbtc8821c2ant_agc_table(btcoexist, NORMAL_EXEC, agc_table_shift); */
++	/* halbtc8821c2ant_adc_back_off(btcoexist, NORMAL_EXEC, adc_back_off); */
++}
++
++void halbtc8821c2ant_write_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	u16				bitpos,
++	IN	BOOLEAN		state
++)
++{
++
++	static u16 originalval = 0x8002;
++
++	if (state)
++		originalval = originalval | bitpos;
++	else
++		originalval = originalval & (~bitpos);
++
++
++	btcoexist->btc_write_2byte(btcoexist, 0xaa, originalval);
++
++}
++
++void halbtc8821c2ant_read_score_board(
++	IN	struct  btc_coexist		*btcoexist,
++	IN   u16				*score_board_val
++)
++{
++
++	*score_board_val = (btcoexist->btc_read_2byte(btcoexist,
++			    0xaa)) & 0x7fff;
++}
++
++void halbtc8821c2ant_post_activestate_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_active
++)
++{
++
++	if (wifi_active)
++		halbtc8821c2ant_write_score_board(btcoexist, (u16) BIT(0), TRUE);
++	else
++		halbtc8821c2ant_write_score_board(btcoexist, (u16) BIT(0), FALSE);
++
++	/* The BT should set "No Shunt-down" mode if WL = Active for BT Synthesizer on/off interference WL Lo issue at 8703b b-cut. */
++
++}
++
++void halbtc8821c2ant_post_onoffstate_to_bt(
++	IN	struct  btc_coexist		*btcoexist,
++	IN	boolean				wifi_on
++)
++{
++
++	if (wifi_on)
++		halbtc8821c2ant_write_score_board(btcoexist, (u16) BIT(1), TRUE);
++	else
++		halbtc8821c2ant_write_score_board(btcoexist, (u16) BIT(1), FALSE);
++
++}
++
++void halbtc8821c2ant_monitor_bt_enable_disable(IN struct btc_coexist *btcoexist)
++{
++	static u32		bt_disable_cnt = 0;
++	boolean			bt_active = true, bt_disabled = false;
++	u16			u16tmp;
++
++	/* This function check if bt is disabled */
++#if 0
++	if (coex_sta->high_priority_tx == 0 &&
++	    coex_sta->high_priority_rx == 0 &&
++	    coex_sta->low_priority_tx == 0 &&
++	    coex_sta->low_priority_rx == 0)
++		bt_active = false;
++	if (coex_sta->high_priority_tx == 0xffff &&
++	    coex_sta->high_priority_rx == 0xffff &&
++	    coex_sta->low_priority_tx == 0xffff &&
++	    coex_sta->low_priority_rx == 0xffff)
++		bt_active = false;
++
++
++#else
++
++	/* Read BT on/off status from scoreboard[1], enable this only if BT patch support this feature */
++	halbtc8821c2ant_read_score_board(btcoexist,	&u16tmp);
++
++	bt_active = u16tmp & BIT(1);
++
++
++#endif
++
++	if (bt_active) {
++		bt_disable_cnt = 0;
++		bt_disabled = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	} else {
++
++		bt_disable_cnt++;
++		if (bt_disable_cnt >= 2) {
++			bt_disabled = true;
++			bt_disable_cnt = 2;
++		}
++
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_DISABLE,
++				   &bt_disabled);
++	}
++
++
++	if (coex_sta->bt_disabled != bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is from %s to %s!!\n",
++			    (coex_sta->bt_disabled ? "disabled" : "enabled"),
++			    (bt_disabled ? "disabled" : "enabled"));
++		BTC_TRACE(trace_buf);
++		coex_sta->bt_disabled = bt_disabled;
++	}
++
++}
++
++void halbtc8821c2ant_enable_gnt_to_gpio(IN struct btc_coexist *btcoexist,
++					boolean isenable)
++{
++	static u8 			bitVal[5] = {0,0,0,0,0};
++	static boolean 		state = false;
++
++	if (state ==isenable)
++		return;
++	else
++		state = isenable;
++
++	if (isenable) {
++
++		/* enable GNT_WL, GNT_BT to GPIO for debug  */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x1);
++
++		/* store original value  */
++		bitVal[0] = (btcoexist->btc_read_1byte(btcoexist, 0x66) & BIT(4)) >>4;	/*0x66[4] */
++		bitVal[1] = (btcoexist->btc_read_1byte(btcoexist, 0x67) & BIT(0));		/*0x66[8] */
++		bitVal[2] = (btcoexist->btc_read_1byte(btcoexist, 0x42) & BIT(3)) >> 3;  /*0x40[19] */
++		bitVal[3] = (btcoexist->btc_read_1byte(btcoexist, 0x65) & BIT(7)) >> 7;  /*0x64[15] */
++		bitVal[4] = (btcoexist->btc_read_1byte(btcoexist, 0x72) & BIT(2)) >> 2;  /*0x70[18] */
++
++		/*  switch GPIO Mux */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x66, BIT(4), 0x0);  /*0x66[4] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, BIT(0), 0x0);  /*0x66[8] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x42, BIT(3), 0x0);  /*0x40[19] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x65, BIT(7), 0x0);  /*0x64[15] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x72, BIT(2), 0x0);  /*0x70[18] = 0 */
++		
++
++	} else {
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x8, 0x0);
++
++		/*  Restore original value   */
++		/*  switch GPIO Mux */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x66, BIT(4), bitVal[0]);  /*0x66[4] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x67, BIT(0), bitVal[1]);  /*0x66[8] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x42, BIT(3), bitVal[2]);  /*0x40[19] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x65, BIT(7), bitVal[3]);  /*0x64[15] = 0 */
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x72, BIT(2), bitVal[4]);  /*0x70[18] = 0 */
++	}
++
++}
++
++u32 halbtc8821c2ant_ltecoex_indirect_read_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr)
++{
++	u32 j = 0;
++
++
++	/* wait for ready bit before access 0x1700		 */
++	btcoexist->btc_write_4byte(btcoexist, 0x1700, 0x800F0000 | reg_addr);
++
++	do {
++		j++;
++	} while (((btcoexist->btc_read_1byte(btcoexist,
++					     0x1703)&BIT(5)) == 0) &&
++		 (j < BT_8821C_2ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++	return btcoexist->btc_read_4byte(btcoexist,
++					 0x1708);  /* get read data */
++
++}
++
++void halbtc8821c2ant_ltecoex_indirect_write_reg(IN struct btc_coexist *btcoexist,
++		IN u16 reg_addr, IN u32 bit_mask, IN u32 reg_value)
++{
++	u32 val, i = 0, j = 0, bitpos = 0;
++
++
++	if (bit_mask == 0x0)
++		return;
++	if (bit_mask == 0xffffffff) {
++		btcoexist->btc_write_4byte(btcoexist, 0x1704,
++					   reg_value); /* put write data */
++
++		/* wait for ready bit before access 0x1700 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x1703)&BIT(5)) == 0) &&
++			(j < BT_8821C_2ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x1700,
++					   0xc00F0000 | reg_addr);
++	} else {
++		for (i = 0; i <= 31; i++) {
++			if (((bit_mask >> i) & 0x1) == 0x1) {
++				bitpos = i;
++				break;
++			}
++		}
++
++		/* read back register value before write */
++		val = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist,
++				reg_addr);
++		val = (val & (~bit_mask)) | (reg_value << bitpos);
++
++		btcoexist->btc_write_4byte(btcoexist, 0x1704,
++					   val); /* put write data */
++
++		/* wait for ready bit before access 0x7c0		 */
++		do {
++			j++;
++		} while (((btcoexist->btc_read_1byte(btcoexist,
++						     0x1703)&BIT(5)) == 0) &&
++			(j < BT_8821C_2ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT));
++
++
++		btcoexist->btc_write_4byte(btcoexist, 0x1700,
++					   0xc00F0000 | reg_addr);
++
++	}
++
++}
++
++void halbtc8821c2ant_ltecoex_enable(IN struct btc_coexist *btcoexist,
++				    IN boolean enable)
++{
++	u8 val;
++
++	val = (enable) ? 1 : 0;
++	halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist, 0x38, 0x80,
++			val);  /* 0x38[7] */
++
++}
++
++void halbtc8821c2ant_ltecoex_pathcontrol_owner(IN struct btc_coexist *btcoexist,
++		IN boolean wifi_control)
++{
++	u8 val;
++
++	val = (wifi_control) ? 1 : 0;
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x73, 0x4,
++					   val); /* 0x70[26] */
++
++}
++
++void halbtc8821c2ant_ltecoex_set_gnt_bt(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8821C_2ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0xc000;
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		bit_mask = 0x0c00;
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10]						 */
++		break;
++	case BT_8821C_2ANT_GNT_BLOCK_RFC:
++		bit_mask = 0xc000;
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[15:14] */
++		break;
++	case BT_8821C_2ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0c00;
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[11:10] */
++		break;
++
++	}
++
++}
++
++void halbtc8821c2ant_ltecoex_set_gnt_wl(IN struct btc_coexist *btcoexist,
++			IN u8 control_block, IN boolean sw_control, IN u8 state)
++{
++	u32 val = 0, bit_mask;
++
++	state = state & 0x1;
++	val = (sw_control) ? ((state << 1) | 0x1) : 0;
++
++	switch (control_block) {
++	case BT_8821C_2ANT_GNT_BLOCK_RFC_BB:
++	default:
++		bit_mask = 0x3000;
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		bit_mask = 0x0300;
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8]						 */
++		break;
++	case BT_8821C_2ANT_GNT_BLOCK_RFC:
++		bit_mask = 0x3000;
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[13:12] */
++		break;
++	case BT_8821C_2ANT_GNT_BLOCK_BB:
++		bit_mask = 0x0300;
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist,
++				0x38, bit_mask, val); /* 0x38[9:8] */
++		break;
++
++	}
++
++}
++
++void halbtc8821c2ant_ltecoex_set_coex_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u16 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8821C_2ANT_CTT_WL_VS_LTE:
++		reg_addr = 0xa0;
++		break;
++	case BT_8821C_2ANT_CTT_BT_VS_LTE:
++		reg_addr = 0xa4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xffff, table_content); /* 0xa0[15:0] or 0xa4[15:0] */
++
++
++}
++
++
++void halbtc8821c2ant_ltecoex_set_break_table(IN struct btc_coexist *btcoexist,
++		IN u8 table_type, IN u8 table_content)
++{
++	u16 reg_addr = 0x0000;
++
++	switch (table_type) {
++	case BT_8821C_2ANT_LBTT_WL_BREAK_LTE:
++		reg_addr = 0xa8;
++		break;
++	case BT_8821C_2ANT_LBTT_BT_BREAK_LTE:
++		reg_addr = 0xac;
++		break;
++	case BT_8821C_2ANT_LBTT_LTE_BREAK_WL:
++		reg_addr = 0xb0;
++		break;
++	case BT_8821C_2ANT_LBTT_LTE_BREAK_BT:
++		reg_addr = 0xb4;
++		break;
++	}
++
++	if (reg_addr != 0x0000)
++		halbtc8821c2ant_ltecoex_indirect_write_reg(btcoexist, reg_addr,
++			0xff, table_content); /* 0xa8[15:0] or 0xb4[15:0] */
++
++
++}
++
++
++void halbtc8821c2ant_set_coex_table(IN struct btc_coexist *btcoexist,
++	    IN u32 val0x6c0, IN u32 val0x6c4, IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	btcoexist->btc_write_4byte(btcoexist, 0x6c0, val0x6c0);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c4, val0x6c4);
++
++	btcoexist->btc_write_4byte(btcoexist, 0x6c8, val0x6c8);
++
++	btcoexist->btc_write_1byte(btcoexist, 0x6cc, val0x6cc);
++}
++
++void halbtc8821c2ant_coex_table(IN struct btc_coexist *btcoexist,
++			IN boolean force_exec, IN u32 val0x6c0, IN u32 val0x6c4,
++				IN u32 val0x6c8, IN u8 val0x6cc)
++{
++	coex_dm->cur_val0x6c0 = val0x6c0;
++	coex_dm->cur_val0x6c4 = val0x6c4;
++	coex_dm->cur_val0x6c8 = val0x6c8;
++	coex_dm->cur_val0x6cc = val0x6cc;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_val0x6c0 == coex_dm->cur_val0x6c0) &&
++		    (coex_dm->pre_val0x6c4 == coex_dm->cur_val0x6c4) &&
++		    (coex_dm->pre_val0x6c8 == coex_dm->cur_val0x6c8) &&
++		    (coex_dm->pre_val0x6cc == coex_dm->cur_val0x6cc))
++			return;
++	}
++	halbtc8821c2ant_set_coex_table(btcoexist, val0x6c0, val0x6c4, val0x6c8,
++				       val0x6cc);
++
++	coex_dm->pre_val0x6c0 = coex_dm->cur_val0x6c0;
++	coex_dm->pre_val0x6c4 = coex_dm->cur_val0x6c4;
++	coex_dm->pre_val0x6c8 = coex_dm->cur_val0x6c8;
++	coex_dm->pre_val0x6cc = coex_dm->cur_val0x6cc;
++}
++
++void halbtc8821c2ant_coex_table_with_type(IN struct btc_coexist *btcoexist,
++		IN boolean force_exec, IN u8 type)
++{
++	u32	break_table;
++	u8	select_table;
++
++	coex_sta->coex_table_type = type;
++
++	if (coex_sta->concurrent_rx_mode_on == true) {
++		break_table = 0xf0ffffff;  /* set WL hi-pri can break BT */
++		select_table =
++			0xb;		/* set Tx response = Hi-Pri (ex: Transmitting ACK,BA,CTS) */
++	} else {
++		break_table = 0xffffff;
++		select_table = 0x3;
++	}
++
++	switch (type) {
++	case 0:
++		halbtc8821c2ant_coex_table(btcoexist, force_exec,
++			   0xffffffff, 0xffffffff, break_table, select_table);
++		break;
++	case 1:
++		halbtc8821c2ant_coex_table(btcoexist, force_exec,
++			   0xaaaaaaaa, 0xaaaaaaaa, break_table, select_table);
++		break;
++	case 2:
++		halbtc8821c2ant_coex_table(btcoexist, force_exec,
++			   0x5a5a5a5a, 0x5a5a5a5a, break_table, select_table);
++		break;
++	case 3:
++		halbtc8821c2ant_coex_table(btcoexist, force_exec,
++			   0xdafadafa, 0xdafadafa, break_table, select_table);
++		break;
++	case 4:
++		halbtc8821c2ant_coex_table(btcoexist, force_exec,
++			   0xddffddff, 0xffbbffbb, break_table, select_table);
++		break;
++	case 5:
++		halbtc8821c2ant_coex_table(btcoexist, force_exec,
++			   0x5fff5fff, 0x5fff5fff, break_table, select_table);
++		break;
++	case 6:
++		halbtc8821c2ant_coex_table(btcoexist, force_exec,
++			   0x55ff55ff, 0x5a5a5a5a, break_table, select_table);
++		break;
++	case 7:
++		halbtc8821c2ant_coex_table(btcoexist, force_exec,
++			   0x5aff55ff, 0x5a7a5a7a, break_table, select_table);
++		break;
++	case 8:
++		halbtc8821c2ant_coex_table(btcoexist, force_exec,
++			   0x55555555, 0xaaaaaaaa, break_table, select_table);
++		break;
++	default:
++		break;
++	}
++}
++
++void halbtc8821c2ant_set_fw_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++		IN boolean enable)
++{
++	u8			h2c_parameter[1] = {0};
++
++	if (enable) {
++		h2c_parameter[0] |= BIT(0);		/* function enable */
++	}
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x63, 1, h2c_parameter);
++}
++
++void halbtc8821c2ant_ignore_wlan_act(IN struct btc_coexist *btcoexist,
++				     IN boolean force_exec, IN boolean enable)
++{
++	coex_dm->cur_ignore_wlan_act = enable;
++
++	if (!force_exec) {
++		if (coex_dm->pre_ignore_wlan_act ==
++		    coex_dm->cur_ignore_wlan_act)
++			return;
++	}
++	halbtc8821c2ant_set_fw_ignore_wlan_act(btcoexist, enable);
++
++	coex_dm->pre_ignore_wlan_act = coex_dm->cur_ignore_wlan_act;
++}
++
++void halbtc8821c2ant_set_lps_rpwm(IN struct btc_coexist *btcoexist,
++				  IN u8 lps_val, IN u8 rpwm_val)
++{
++	u8	lps = lps_val;
++	u8	rpwm = rpwm_val;
++
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_LPS_VAL, &lps);
++	btcoexist->btc_set(btcoexist, BTC_SET_U1_RPWM_VAL, &rpwm);
++}
++
++void halbtc8821c2ant_lps_rpwm(IN struct btc_coexist *btcoexist,
++		      IN boolean force_exec, IN u8 lps_val, IN u8 rpwm_val)
++{
++	coex_dm->cur_lps = lps_val;
++	coex_dm->cur_rpwm = rpwm_val;
++
++	if (!force_exec) {
++		if ((coex_dm->pre_lps == coex_dm->cur_lps) &&
++		    (coex_dm->pre_rpwm == coex_dm->cur_rpwm))
++			return;
++	}
++	halbtc8821c2ant_set_lps_rpwm(btcoexist, lps_val, rpwm_val);
++
++	coex_dm->pre_lps = coex_dm->cur_lps;
++	coex_dm->pre_rpwm = coex_dm->cur_rpwm;
++}
++
++void halbtc8821c2ant_ps_tdma_check_for_power_save_state(
++	IN struct btc_coexist *btcoexist, IN boolean new_ps_state)
++{
++	u8	lps_mode = 0x0;
++	u8	h2c_parameter[5] = {0, 0, 0, 0x40, 0};
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U1_LPS_MODE, &lps_mode);
++
++	if (lps_mode) {	/* already under LPS state */
++		if (new_ps_state) {
++			/* keep state under LPS, do nothing. */
++		} else {
++			/* will leave LPS state, turn off psTdma first */
++			/*halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8); */
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++		}
++	} else {					/* NO PS state */
++		if (new_ps_state) {
++			/* will enter LPS state, turn off psTdma first */
++			/*halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false,
++						8);*/
++			btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++		} else {
++			/* keep state under NO PS state, do nothing. */
++		}
++	}
++}
++
++void halbtc8821c2ant_power_save_state(IN struct btc_coexist *btcoexist,
++			      IN u8 ps_type, IN u8 lps_val, IN u8 rpwm_val)
++{
++	boolean		low_pwr_disable = false;
++
++	switch (ps_type) {
++	case BTC_PS_WIFI_NATIVE:
++		/* recover to original 32k low power setting */
++		low_pwr_disable = false;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_NORMAL_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	case BTC_PS_LPS_ON:
++		halbtc8821c2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, true);
++		halbtc8821c2ant_lps_rpwm(btcoexist, NORMAL_EXEC,
++					 lps_val, rpwm_val);
++		/* when coex force to enter LPS, do not enter 32k low power. */
++		low_pwr_disable = true;
++		btcoexist->btc_set(btcoexist,
++				   BTC_SET_ACT_DISABLE_LOW_POWER,
++				   &low_pwr_disable);
++		/* power save must executed before psTdma.			 */
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_ENTER_LPS,
++				   NULL);
++		coex_sta->force_lps_on = true;
++		break;
++	case BTC_PS_LPS_OFF:
++		halbtc8821c2ant_ps_tdma_check_for_power_save_state(
++			btcoexist, false);
++		btcoexist->btc_set(btcoexist, BTC_SET_ACT_LEAVE_LPS,
++				   NULL);
++		coex_sta->force_lps_on = false;
++		break;
++	default:
++		break;
++	}
++}
++
++
++
++void halbtc8821c2ant_set_fw_pstdma(IN struct btc_coexist *btcoexist,
++	   IN u8 byte1, IN u8 byte2, IN u8 byte3, IN u8 byte4, IN u8 byte5)
++{
++	u8			h2c_parameter[5] = {0};
++	u8			real_byte1 = byte1, real_byte5 = byte5;
++	boolean			ap_enable = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_AP_MODE_ENABLE,
++			   &ap_enable);
++
++	if (ap_enable) {
++		if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], FW for 1Ant AP mode\n");
++			BTC_TRACE(trace_buf);
++			real_byte1 &= ~BIT(4);
++			real_byte1 |= BIT(5);
++
++			real_byte5 |= BIT(5);
++			real_byte5 &= ~BIT(6);
++
++			halbtc8821c2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++							 0x0);
++		}
++	} else if (byte1 & BIT(4) && !(byte1 & BIT(5))) {
++
++		halbtc8821c2ant_power_save_state(
++			btcoexist, BTC_PS_LPS_ON, 0x50,
++			0x4);
++	} else {
++		halbtc8821c2ant_power_save_state(btcoexist, BTC_PS_WIFI_NATIVE, 0x0,
++						 0x0);
++	}
++
++
++	h2c_parameter[0] = real_byte1;
++	h2c_parameter[1] = byte2;
++	h2c_parameter[2] = byte3;
++	h2c_parameter[3] = byte4;
++	h2c_parameter[4] = real_byte5;
++
++	coex_dm->ps_tdma_para[0] = real_byte1;
++	coex_dm->ps_tdma_para[1] = byte2;
++	coex_dm->ps_tdma_para[2] = byte3;
++	coex_dm->ps_tdma_para[3] = byte4;
++	coex_dm->ps_tdma_para[4] = real_byte5;
++
++	btcoexist->btc_fill_h2c(btcoexist, 0x60, 5, h2c_parameter);
++}
++
++void halbtc8821c2ant_ps_tdma(IN struct btc_coexist *btcoexist,
++		     IN boolean force_exec, IN boolean turn_on, IN u8 type)
++{
++
++	static u8			psTdmaByte4Modify = 0x0, pre_psTdmaByte4Modify = 0x0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++
++	coex_dm->cur_ps_tdma_on = turn_on;
++	coex_dm->cur_ps_tdma = type;
++
++	/* 0x778 = 0x1 at wifi slot (no blocking BT Low-Pri pkts) */
++	if ((bt_link_info->slave_role) && (bt_link_info->a2dp_exist))
++		psTdmaByte4Modify = 0x1;
++	else
++		psTdmaByte4Modify = 0x0;
++
++	if (pre_psTdmaByte4Modify != psTdmaByte4Modify) {
++
++		force_exec = true;
++		pre_psTdmaByte4Modify = psTdmaByte4Modify;
++	}
++
++	if (!force_exec) {
++		if ((coex_dm->pre_ps_tdma_on == coex_dm->cur_ps_tdma_on) &&
++		    (coex_dm->pre_ps_tdma == coex_dm->cur_ps_tdma))
++			return;
++	}
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], %s turn %s PS TDMA, type=%d\n",
++		(force_exec ? "force to" : ""), (turn_on ? "ON" : "OFF"), type);
++	BTC_TRACE(trace_buf);
++
++
++	if (turn_on)	{
++
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++	}
++
++
++	if (turn_on) {
++		switch (type) {
++		case 1:
++		default:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x10, 0x03, 0xf1,
++						      0x14 | psTdmaByte4Modify);
++			break;
++		case 2:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x35, 0x03, 0x71,
++						      0x11 | psTdmaByte4Modify);
++			break;
++		case 3:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x3a, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 4:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x21, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 5:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x30, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 6:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 7:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x25, 0x3, 0xf1,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 11:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x30, 0x03, 0x71,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 12:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x21, 0x03, 0x71,
++						      0x11 | psTdmaByte4Modify);
++			break;
++		case 13:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x1c, 0x03, 0x71,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 101:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x10, 0x03, 0x70,
++						      0x14 | psTdmaByte4Modify);
++			break;
++		case 102:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xe3,
++						      0x35, 0x03, 0x71,
++						      0x11 | psTdmaByte4Modify);
++			break;
++		case 103:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x3a, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 104:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x21, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 105:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x30, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 106:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x1c, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++		case 107:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0xd3,
++						      0x25, 0x3, 0x70,
++						      0x10 | psTdmaByte4Modify);
++			break;
++
++
++		}
++	} else {
++		/* disable PS tdma */
++		switch (type) {
++		case 0:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x40, 0x0);
++			break;
++		case 1:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x48, 0x0);
++			break;
++		default:
++			halbtc8821c2ant_set_fw_pstdma(btcoexist, 0x0,
++						      0x0, 0x0, 0x40, 0x0);
++			break;
++		}
++	}
++
++	/* update pre state */
++	coex_dm->pre_ps_tdma_on = coex_dm->cur_ps_tdma_on;
++	coex_dm->pre_ps_tdma = coex_dm->cur_ps_tdma;
++}
++
++void halbtc8821c2ant_set_int_block(IN struct btc_coexist *btcoexist, IN boolean force_exec,  IN u8 pos_type)
++{
++	u8		regval_0xcba;
++	u32		u32tmp1 = 0;
++
++	 coex_dm->cur_int_block_status = pos_type;
++	 	
++	if (!force_exec) {
++		if (coex_dm->pre_int_block_status == coex_dm->cur_int_block_status)
++			return;	
++	} 
++
++	coex_dm->pre_int_block_status = coex_dm->cur_int_block_status;
++
++	regval_0xcba =  btcoexist->btc_read_1byte(btcoexist, 0xcba);
++
++	switch(pos_type){
++
++		case BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLG_OF_BTG:
++			regval_0xcba =  regval_0xcba & (~(BIT(2)) ) | BIT(0);  			/* 0xcb8[16] = 1, 0xcb8[18] = 0, WL_G select BTG */
++			break;
++		case BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG:
++			regval_0xcba =   regval_0xcba & (~(BIT(2) | BIT(0)) );   		/* 0xcb8[16] = 0, 0xcb8[18] = 0, WL_G select WLAG */
++			regval_0xcba =   regval_0xcba | BIT(4) | BIT(5) ;  				/* 0xcb8[21:20] = 2b'11, WL_G @ WLAG on */
++			regval_0xcba =    regval_0xcba & (~(BIT(7)) ) | BIT(6);		/* 0xcb8[23:22] = 2b'01, WL_A @ WLAG off */
++			
++			break;
++		case BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLA_OF_WLAG:
++			regval_0xcba =   regval_0xcba & (~(BIT(2) | BIT(0)) );    		/* 0xcb8[16] = 0, 0xcb8[18] = 0, WL_G select WLAG */
++			regval_0xcba =   regval_0xcba & (~(BIT(5))) | BIT(4);			/* 0xcb8[21:20] = 2b'01, WL_G @ WLAG off */
++			regval_0xcba =   regval_0xcba | BIT(6) | BIT(7);  	 	  		/* 0xcb8[23:22] = 2b'11, WL_A @ WLAG on */
++			
++			break;
++	}
++
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcba, 0xff, regval_0xcba);
++
++	u32tmp1 = btcoexist->btc_read_4byte(btcoexist, 0xcb8);
++			
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (After Int Block setup) 0xcb8 = 0x%08x **********\n",
++		    u32tmp1);
++	BTC_TRACE(trace_buf);
++
++}
++
++void halbtc8821c2ant_set_ext_band_switch(IN struct btc_coexist *btcoexist, IN boolean force_exec, IN u8 pos_type)
++{
++
++#if 0
++	boolean	switch_polatiry_inverse = false;
++	u8		regval_0xcb6; 
++	u32		u32tmp1 = 0, u32tmp2 = 0;
++	
++	if (!rfe_type->ext_band_switch_exist)
++		return;	
++
++	 coex_dm->cur_ext_band_switch_status = pos_type;
++	 	
++	if (!force_exec) {
++		if (coex_dm->pre_ext_band_switch_status == coex_dm->cur_ext_band_switch_status)
++			return;	
++	} 
++
++	coex_dm->pre_ext_band_switch_status = coex_dm->cur_ext_band_switch_status;
++
++	/* swap control polarity if use different switch control polarity*/
++	switch_polatiry_inverse = (rfe_type->ext_band_switch_ctrl_polarity == 1? ~switch_polatiry_inverse: switch_polatiry_inverse); 
++
++	/*swap control polarity for WL_A, default polarity 0xcb4[21] = 0 && 0xcb4[23] = 1 is for WL_G */
++	switch_polatiry_inverse =  (pos_type == BT_8821C_2ANT_EXT_BAND_SWITCH_TO_WLA? ~switch_polatiry_inverse: switch_polatiry_inverse); 
++
++	regval_0xcb6 =  btcoexist->btc_read_1byte(btcoexist, 0xcb6);
++
++	/* for normal switch polrity, 0xcb4[21] =1 && 0xcb4[23] = 0 for WL_A, vice versa  */
++	regval_0xcb6 = (switch_polatiry_inverse == 1? ( (regval_0xcb6 & (~(BIT(7))) ) | BIT(5)) : ( (regval_0xcb6 & (~(BIT(5))) ) | BIT(7)) ); 
++	
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb6, 0xff, regval_0xcb6);	
++
++	u32tmp1 = btcoexist->btc_read_4byte(btcoexist, 0xcb0);
++	u32tmp2 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++			
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (After Ext Band switch setup) 0xcb0 = 0x%08x, 0xcb4 = 0x%08x**********\n",
++		    u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++#endif	
++
++}
++
++void halbtc8821c2ant_set_ext_ant_switch(IN struct btc_coexist *btcoexist, IN boolean force_exec, IN u8 ctrl_type, IN u8 pos_type)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	boolean	switch_polatiry_inverse = false;
++	u8		regval_0xcb7 = 0, regval_0x64;
++	u32		u32tmp1 = 0, u32tmp2 = 0, u32tmp3 = 0;
++	
++	if (!rfe_type->ext_ant_switch_exist)
++		return;	
++
++	 coex_dm->cur_ext_ant_switch_status = (ctrl_type << 8)  + pos_type;
++	 	
++	if (!force_exec) {
++		if (coex_dm->pre_ext_ant_switch_status == coex_dm->cur_ext_ant_switch_status)
++			return;	
++	} 
++
++	coex_dm->pre_ext_ant_switch_status = coex_dm->cur_ext_ant_switch_status;
++
++	/* swap control polarity if use different switch control polarity*/
++	/*  Normal switch polarity for DPDT, 0xcb4[29:28] = 2b'01 => BTG to Main, WLG to Aux,  0xcb4[29:28] = 2b'10 => BTG to Aux, WLG to Main */
++	/*  Normal switch polarity for SPDT, 0xcb4[29:28] = 2b'01 => Ant to BTG,  0xcb4[29:28] = 2b'10 => Ant to WLG */
++	switch_polatiry_inverse = (rfe_type->ext_ant_switch_ctrl_polarity == 1? ~switch_polatiry_inverse: switch_polatiry_inverse); 
++
++	switch(pos_type)
++		{	
++			default:
++			case BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_BT:
++			case BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_NOCARE:
++			
++				break;
++			case BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_WLG:
++				switch_polatiry_inverse =  (rfe_type->wlg_Locate_at_btg == 0?  ~switch_polatiry_inverse: switch_polatiry_inverse);
++				break;
++			case BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_WLA:
++
++				break;
++	}
++			
++
++	switch(ctrl_type)
++	{
++		default:
++		case BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /*  0x4c[23] = 0 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x1);  /* 0x4c[24] = 1  */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb4, 0xff, 0x77);	/* BB SW, DPDT use RFE_ctrl8 and RFE_ctrl9 as cotrol pin */
++
++			regval_0xcb7 = (switch_polatiry_inverse == false?  0x1 : 0x2);     /* 0xcb4[29:28] = 2b'01 for no switch_polatiry_inverse, DPDT_SEL_N =1, DPDT_SEL_P =0   */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb7, 0x30, regval_0xcb7);
++
++			break;
++		case BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_PTA:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /* 0x4c[23] = 0 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x1);  /* 0x4c[24] = 1 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb4, 0xff, 0x66);	/* PTA,  DPDT use RFE_ctrl8 and RFE_ctrl9 as cotrol pin */
++
++			regval_0xcb7 = (switch_polatiry_inverse == false?  0x2 : 0x1);     /* 0xcb4[29:28] = 2b'10 for no switch_polatiry_inverse, DPDT_SEL_N =1, DPDT_SEL_P =0  @ GNT_BT=1  */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb7, 0x30, regval_0xcb7);
++			
++			break;
++		case BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_ANTDIV:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /* 0x4c[23] = 0 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x1);  /* 0x4c[24] = 1 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb4, 0xff, 0x88);  /* */
++
++			/* no regval_0xcb7 setup required, because  antenna switch control value by antenna diversity */
++
++			break;
++		case BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_MAC:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x1);  /*  0x4c[23] = 1 */
++
++			regval_0x64 = (switch_polatiry_inverse == false?  0x0 : 0x1);     /* 0x64[0] = 1b'0 for no switch_polatiry_inverse, DPDT_SEL_N =1, DPDT_SEL_P =0 */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x64, 0x1, regval_0x64);
++			break;
++		case BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_BT:
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4e, 0x80, 0x0);  /* 0x4c[23] = 0  */
++			btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4f, 0x01, 0x0);  /* 0x4c[24] = 0  */
++
++			/* no  setup required, because  antenna switch control value by BT vendor 0x1c[1:0]  */
++			break;
++	}
++
++		u32tmp1 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++		u32tmp2 = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++		u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0x64) & 0xff;
++			
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (After Ext Ant switch setup) 0xcb4 = 0x%08x, 0x4c = 0x%08x, 0x64= 0x%02x**********\n",
++		    u32tmp1, u32tmp2, u32tmp3);
++		BTC_TRACE(trace_buf);
++
++
++}
++
++void halbtc8821c2ant_set_rfe_type(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++
++#if 0
++	rfe_type->ext_band_switch_exist = false;
++	rfe_type->ext_band_switch_type = BT_8821C_2ANT_EXT_BAND_SWITCH_USE_SPDT;     // SPDT;
++	rfe_type->ext_band_switch_ctrl_polarity = 0;
++
++	if (rfe_type->ext_band_switch_exist) {
++
++		/* band switch use RFE_ctrl1 (pin name: PAPE_A) and RFE_ctrl3 (pin name: LNAON_A)  */
++
++		/* set RFE_ctrl1 as software control  */		
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb0, 0xf0, 0x7);
++
++		/* set RFE_ctrl3 as software control  */	
++		btcoexist->btc_write_1byte_bitmask(btcoexist, 0xcb1, 0xf0, 0x7);
++
++		}
++#endif
++
++	/* the following setup should be got from Efuse in the future */
++	rfe_type->rfe_module_type = board_info->rfe_type;
++	
++	rfe_type->ext_ant_switch_ctrl_polarity = 0;
++	rfe_type->ext_ant_switch_diversity = false;
++
++	switch(rfe_type->rfe_module_type)
++	{
++		case 0:
++		default:	
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_DPDT;          /*2-Ant, DPDT, WLG*/
++			rfe_type->wlg_Locate_at_btg = false;
++			/*rfe_type->ext_ant_switch_diversity = true;*/
++			break;
++		case 1:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_SPDT;          /*1-Ant, Main, DPDT or SPDT, WLG   */
++			rfe_type->wlg_Locate_at_btg = false;
++			break;
++		case 2:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_SPDT;            /*1-Ant, Main, DPDT or SPDT, BTG   */
++			rfe_type->wlg_Locate_at_btg = true;
++			break;	
++		case 3:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_DPDT;          /*1-Ant, Aux, DPDT, WLG   */
++			rfe_type->wlg_Locate_at_btg = false;
++			break;
++		case 4:
++			rfe_type->ext_ant_switch_exist = true;
++			rfe_type->ext_ant_switch_type = BT_8821C_1ANT_EXT_ANT_SWITCH_USE_DPDT;          /*1-Ant, Aux, DPDT, BTG   */;
++			rfe_type->wlg_Locate_at_btg = true;
++			break;	
++		case 5:
++			rfe_type->ext_ant_switch_exist = false;										 /*2-Ant, no antenna switch, WLG*/
++			rfe_type->wlg_Locate_at_btg = false;	
++
++	}
++
++
++	if (rfe_type->wlg_Locate_at_btg) 
++		halbtc8821c2ant_set_int_block(btcoexist, FORCE_EXEC, BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLG_OF_BTG);
++	else
++		halbtc8821c2ant_set_int_block(btcoexist, FORCE_EXEC, BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG);
++
++	
++}
++
++
++void halbtc8821c2ant_set_ant_path(IN struct btc_coexist *btcoexist,
++	  IN u8 ant_pos_type, IN boolean force_exec,
++	  IN u8 phase  )
++{
++	struct  btc_board_info *board_info = &btcoexist->board_info;
++	u32			cnt_bt_cal_chk = 0;
++	boolean			is_in_mp_mode = false;
++	u8			u8tmp = 0;
++	u32			u32tmp1 = 0, u32tmp2 = 0, u32tmp3 = 0;
++	u16			u16tmp1 = 0;
++
++#if BT_8821C_2ANT_ANTDET_ENABLE
++#if BT_8821C_2ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE
++	if (ant_pos_type == BTC_ANT_PATH_PTA) {
++		if ((board_info->btdm_ant_det_finish) &&
++		    (board_info->btdm_ant_num_by_ant_det == 2)) {
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT)
++				ant_pos_type = BTC_ANT_WIFI_AT_MAIN;
++			else
++				ant_pos_type = BTC_ANT_WIFI_AT_AUX;
++		}
++	}
++#endif
++#endif
++
++	 coex_dm->cur_ant_pos_type = (ant_pos_type << 8)  + phase;
++
++	if (!force_exec) {
++		if (coex_dm->cur_ant_pos_type == coex_dm->pre_ant_pos_type)
++			return;	
++	} 
++	
++	coex_dm->pre_ant_pos_type = coex_dm->cur_ant_pos_type;
++
++#if 1
++	u32tmp1 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist,
++			0x38);
++	u32tmp2 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist,
++			0x54);
++	u8tmp  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Before Ant Setup) 0xcb4 = 0x%x, 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++		    u32tmp3, u8tmp, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++#endif
++
++
++	switch (phase)
++	{
++		case BT_8821C_2ANT_PHASE_COEX_INIT:
++				/* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++				halbtc8821c2ant_ltecoex_enable(btcoexist, 0x0);
++
++				/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++				halbtc8821c2ant_ltecoex_set_coex_table(btcoexist,
++									       BT_8821C_2ANT_CTT_WL_VS_LTE, 0xffff);
++
++				/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++				halbtc8821c2ant_ltecoex_set_coex_table(btcoexist,
++						       BT_8821C_2ANT_CTT_BT_VS_LTE, 0xffff);
++
++				/* Wait If BT IQK running, because Path control owner is at BT during BT IQK (setup by WiFi firmware) */
++				while (cnt_bt_cal_chk <= 20) {
++							u8tmp = btcoexist->btc_read_1byte(btcoexist,
++														  0x49d);
++							cnt_bt_cal_chk++;
++							if (u8tmp & BIT(0)) {
++										BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++										"[BTCoex], ########### BT is calibrating (wait cnt=%d) ###########\n",
++				 	 				      cnt_bt_cal_chk);
++										BTC_TRACE(trace_buf);
++										delay_ms(50);
++							} else {
++										BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++											"[BTCoex], ********** BT is NOT calibrating (wait cnt=%d)**********\n",
++					    											cnt_bt_cal_chk);
++										BTC_TRACE(trace_buf);
++										break;
++							}
++				}
++
++				/* set Path control owner to WL at initial step */
++				halbtc8821c2ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8821C_2ANT_PCO_WLSIDE);
++
++				/* set GNT_BT to SW high */
++				halbtc8821c2ant_ltecoex_set_gnt_bt(btcoexist,
++							BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					   		BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++							BT_8821C_2ANT_SIG_STA_SET_TO_HIGH);
++				/* Set GNT_WL to SW high */
++				halbtc8821c2ant_ltecoex_set_gnt_wl(btcoexist,
++						      BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					  	      BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++						      BT_8821C_2ANT_SIG_STA_SET_TO_HIGH);
++
++				coex_sta->run_time_state = false;
++
++				if (BTC_ANT_PATH_AUTO == ant_pos_type)
++				{
++					if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT)				
++						ant_pos_type = BTC_ANT_WIFI_AT_MAIN;
++					else
++						ant_pos_type = BTC_ANT_WIFI_AT_AUX;
++				}
++
++			break;
++		case BT_8821C_2ANT_PHASE_WLANONLY_INIT:
++  			      /* Disable LTE Coex Function in WiFi side (this should be on if LTE coex is required) */
++				halbtc8821c2ant_ltecoex_enable(btcoexist, 0x0);
++
++				/* GNT_WL_LTE always = 1 (this should be config if LTE coex is required) */
++				halbtc8821c2ant_ltecoex_set_coex_table(btcoexist,
++									       BT_8821C_2ANT_CTT_WL_VS_LTE, 0xffff);
++
++				/* GNT_BT_LTE always = 1 (this should be config if LTE coex is required) */
++				halbtc8821c2ant_ltecoex_set_coex_table(btcoexist,
++						       BT_8821C_2ANT_CTT_BT_VS_LTE, 0xffff);				
++
++				/* set Path control owner to WL at initial step */
++				halbtc8821c2ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8821C_2ANT_PCO_WLSIDE);
++
++				/* set GNT_BT to SW Low */
++				halbtc8821c2ant_ltecoex_set_gnt_bt(btcoexist,
++							BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					   		BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++							BT_8821C_2ANT_SIG_STA_SET_TO_LOW);
++				/* Set GNT_WL to SW high */
++				halbtc8821c2ant_ltecoex_set_gnt_wl(btcoexist,
++						      BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					  	      BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++						      BT_8821C_2ANT_SIG_STA_SET_TO_HIGH);
++
++				coex_sta->run_time_state = false;
++
++				if (BTC_ANT_PATH_AUTO == ant_pos_type)
++				{
++					if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT)				
++						ant_pos_type = BTC_ANT_WIFI_AT_MAIN;
++					else
++						ant_pos_type = BTC_ANT_WIFI_AT_AUX;
++				}
++
++			break;
++		case BT_8821C_2ANT_PHASE_WLAN_OFF:
++				/* Disable LTE Coex Function in WiFi side */
++				halbtc8821c2ant_ltecoex_enable(btcoexist, 0x0);
++
++				/* set Path control owner to BT */
++				halbtc8821c2ant_ltecoex_pathcontrol_owner(btcoexist,
++						BT_8821C_2ANT_PCO_BTSIDE);
++
++				/* Set Ext Ant Switch to BT control at wifi off step  */
++				halbtc8821c2ant_set_ext_ant_switch(btcoexist, 
++						   FORCE_EXEC, 
++						   BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_BT, 
++					   	   BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_NOCARE);
++				coex_sta->run_time_state = false;
++			break;
++		case BT_8821C_2ANT_PHASE_2G_RUNTIME:
++
++				/* set Path control owner to WL at runtime step */
++				halbtc8821c2ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8821C_2ANT_PCO_WLSIDE);
++	
++				/* set GNT_BT to PTA */
++				halbtc8821c2ant_ltecoex_set_gnt_bt(btcoexist,
++				  		       BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					   		BT_8821C_2ANT_GNT_TYPE_CTRL_BY_PTA,
++					   		BT_8821C_2ANT_SIG_STA_SET_BY_HW);
++				
++				/* Set GNT_WL to PTA */
++				halbtc8821c2ant_ltecoex_set_gnt_wl(btcoexist,
++							BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++						   	BT_8821C_2ANT_GNT_TYPE_CTRL_BY_PTA,
++						   	BT_8821C_2ANT_SIG_STA_SET_BY_HW);
++
++				coex_sta->run_time_state = true;				
++
++				if (rfe_type->wlg_Locate_at_btg) 
++					halbtc8821c2ant_set_int_block(btcoexist, NORMAL_EXEC, BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLG_OF_BTG);
++				else
++					halbtc8821c2ant_set_int_block(btcoexist, NORMAL_EXEC, BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG);	
++
++				if (BTC_ANT_PATH_AUTO == ant_pos_type)
++				{
++					if (rfe_type->ext_ant_switch_diversity)
++						ant_pos_type = BTC_ANT_WIFI_AT_DIVERSITY;
++					else {
++							if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT)				
++								ant_pos_type = BTC_ANT_WIFI_AT_MAIN;
++							else
++								ant_pos_type = BTC_ANT_WIFI_AT_AUX;
++					}
++				}
++
++			break;
++		case BT_8821C_2ANT_PHASE_5G_RUNTIME:	
++
++				/* set Path control owner to WL at runtime step */
++				halbtc8821c2ant_ltecoex_pathcontrol_owner(btcoexist,
++							BT_8821C_2ANT_PCO_WLSIDE);
++
++				/* set GNT_BT to SW Hi */
++				halbtc8821c2ant_ltecoex_set_gnt_bt(btcoexist,
++							   BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   		   BT_8821C_2ANT_SIG_STA_SET_TO_HIGH);
++				
++				/* Set GNT_WL to SW Hi */
++				halbtc8821c2ant_ltecoex_set_gnt_wl(btcoexist,
++							   BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   		   BT_8821C_2ANT_SIG_STA_SET_TO_HIGH);
++
++				coex_sta->run_time_state = true;
++
++				halbtc8821c2ant_set_int_block(btcoexist, NORMAL_EXEC, BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLA_OF_WLAG);
++
++				if (BTC_ANT_PATH_AUTO == ant_pos_type)
++				{
++					if (rfe_type->ext_ant_switch_diversity)
++						ant_pos_type = BTC_ANT_WIFI_AT_DIVERSITY;
++					else {
++							if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT)				
++								ant_pos_type = BTC_ANT_WIFI_AT_MAIN;
++							else
++								ant_pos_type = BTC_ANT_WIFI_AT_AUX;
++					}
++				}
++
++			break;
++		case BT_8821C_2ANT_PHASE_BTMPMODE:
++				/* Disable LTE Coex Function in WiFi side */
++				halbtc8821c2ant_ltecoex_enable(btcoexist, 0x0);
++
++				/* set Path control owner to WL */
++				halbtc8821c2ant_ltecoex_pathcontrol_owner(btcoexist,
++						BT_8821C_2ANT_PCO_WLSIDE);
++
++				/* set GNT_BT to SW Hi */
++				halbtc8821c2ant_ltecoex_set_gnt_bt(btcoexist,
++							   BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   		   BT_8821C_2ANT_SIG_STA_SET_TO_HIGH);
++				
++				/* Set GNT_WL to SW Lo */
++				halbtc8821c2ant_ltecoex_set_gnt_wl(btcoexist,
++							   BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					   		   BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   		   BT_8821C_2ANT_SIG_STA_SET_TO_LOW);
++
++				coex_sta->run_time_state = false;
++				
++				if (BTC_ANT_PATH_AUTO == ant_pos_type)
++				{
++					if (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT)				
++						ant_pos_type = BTC_ANT_WIFI_AT_MAIN;
++					else
++						ant_pos_type = BTC_ANT_WIFI_AT_AUX;
++				}
++				
++			break;
++	}
++
++		if (phase != BT_8821C_2ANT_PHASE_WLAN_OFF)
++			{
++				switch (ant_pos_type) {
++							default:
++							case BTC_ANT_WIFI_AT_MAIN:
++								halbtc8821c2ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_WLG);
++								break;
++							case BTC_ANT_WIFI_AT_AUX:
++								halbtc8821c2ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_BT);
++								break;
++							case BTC_ANT_WIFI_AT_DIVERSITY:
++								halbtc8821c2ant_set_ext_ant_switch( btcoexist, 
++													force_exec, 
++													BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_ANTDIV, 
++													BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_NOCARE);			
++								break;
++					}
++	
++			}
++#if 1
++	u32tmp1 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	u8tmp  = btcoexist->btc_read_1byte(btcoexist, 0x73);
++	
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ********** (After Ant-Setup phase---%d) 0xcb4 = 0x%x, 0x73 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++			    phase, u32tmp3, u8tmp, u32tmp1, u32tmp2);
++		
++		BTC_TRACE(trace_buf);
++#endif
++
++}
++
++
++u8 halbtc8821c2ant_action_algorithm(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	boolean				bt_hs_on = false;
++	u8				algorithm = BT_8821C_2ANT_COEX_ALGO_UNDEFINED;
++	u8				num_of_diff_profile = 0;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_HS_OPERATION, &bt_hs_on);
++
++	if (!bt_link_info->bt_link_exist) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], No BT link exists!!!\n");
++		BTC_TRACE(trace_buf);
++		return algorithm;
++	}
++
++	if (bt_link_info->sco_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->hid_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->pan_exist)
++		num_of_diff_profile++;
++	if (bt_link_info->a2dp_exist)
++		num_of_diff_profile++;
++
++	if (num_of_diff_profile == 0) {
++
++		if (bt_link_info->acl_busy) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], No-Profile busy\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8821C_2ANT_COEX_ALGO_NOPROFILEBUSY;
++		}
++	} else if (num_of_diff_profile == 1) {
++		if (bt_link_info->sco_exist) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				    "[BTCoex], SCO only\n");
++			BTC_TRACE(trace_buf);
++			algorithm = BT_8821C_2ANT_COEX_ALGO_SCO;
++		} else {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], HID only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_2ANT_COEX_ALGO_HID;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], A2DP only\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_2ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], PAN(HS) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], PAN(EDR) only\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 2) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + HID\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_2ANT_COEX_ALGO_SCO;
++			} else if (bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    "[BTCoex], SCO + A2DP ==> A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_2ANT_COEX_ALGO_A2DP;
++			} else if (bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821C_2ANT_COEX_ALGO_SCO;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =	BT_8821C_2ANT_COEX_ALGO_PANEDR;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				{
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], HID + A2DP\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_HID_A2DP;
++				}
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm = BT_8821C_2ANT_COEX_ALGO_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_A2DP_PANHS;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		}
++	} else if (num_of_diff_profile == 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->a2dp_exist) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], SCO + HID + A2DP ==> HID + A2DP\n");
++				BTC_TRACE(trace_buf);
++				algorithm = BT_8821C_2ANT_COEX_ALGO_HID_A2DP;
++			} else if (bt_link_info->hid_exist &&
++				   bt_link_info->pan_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_PANEDR_HID;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_PANEDR_HID;
++				}
++			} else if (bt_link_info->pan_exist &&
++				   bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_PANEDR_A2DP;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + A2DP + PAN(EDR) ==> HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_PANEDR_A2DP;
++				}
++			}
++		} else {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], HID + A2DP + PAN(EDR)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	} else if (num_of_diff_profile >= 3) {
++		if (bt_link_info->sco_exist) {
++			if (bt_link_info->hid_exist &&
++			    bt_link_info->pan_exist &&
++			    bt_link_info->a2dp_exist) {
++				if (bt_hs_on) {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], Error!!! SCO + HID + A2DP + PAN(HS)\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				} else {
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"[BTCoex], SCO + HID + A2DP + PAN(EDR)==>PAN(EDR)+HID\n");
++					BTC_TRACE(trace_buf);
++					algorithm =
++						BT_8821C_2ANT_COEX_ALGO_HID_A2DP_PANEDR;
++				}
++			}
++		}
++	}
++
++	return algorithm;
++}
++
++
++
++void halbtc8821c2ant_action_coex_all_off(IN struct btc_coexist *btcoexist)
++{
++
++	halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* fw all off */
++	halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++void halbtc8821c2ant_action_wifi_under5g(IN struct btc_coexist *btcoexist)
++{
++
++	/* fw all off */
++	halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++	
++	halbtc8821c2ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO, FORCE_EXEC,
++				      BT_8821C_2ANT_PHASE_5G_RUNTIME);	
++}
++
++void halbtc8821c2ant_action_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* fw all off */
++	halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	coex_sta->pop_event_cnt = 0;
++}
++
++void halbtc8821c2ant_action_bt_inquiry(IN struct btc_coexist *btcoexist)
++{
++
++	boolean	wifi_connected = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean			wifi_busy = false;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++	if (link || roam || coex_sta->wifi_is_high_pri_task) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], Wifi link/roam/hi-pri-task process + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     8);
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++
++	} else if (scan) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi scan process + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     8);
++
++		if (coex_sta->bt_create_connection)
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 12);
++		else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++
++	}  else if (wifi_connected) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     7);
++
++		if (wifi_busy) {
++
++			if ((bt_link_info->a2dp_exist) && (bt_link_info->acl_busy))
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++			else
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++
++		} else
++
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi no-link + BT Inq/Page!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++void halbtc8821c2ant_action_wifi_link_process(IN struct btc_coexist *btcoexist)
++{
++	u32	u32tmp, u32tmpb;
++	u8	u8tmpa;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++	if ((bt_link_info->a2dp_exist) && (bt_link_info->acl_busy))
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 13);
++	else
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++
++void halbtc8821c2ant_action_wifi_nonconnected(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	/* fw all off */
++	halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw all off */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++}
++
++void halbtc8821c2ant_action_bt_idle(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++
++	boolean	wifi_connected = false;
++	boolean		scan = false, link = false, roam = false;
++	boolean			wifi_busy = false;
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++	if (scan || link || roam) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi link process + BT Idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     7);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 11);
++	} else if (wifi_connected) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi connected + BT Idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		if (wifi_busy) {
++			if (!BTC_RSSI_HIGH(bt_rssi_state2))
++				halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++								     2);
++			else
++				halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++								     0);
++		} else {
++			halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++							     0);
++		}
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Wifi no-link + BT Idle!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC,
++						     0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, FORCE_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++}
++
++
++/* SCO only or SCO+PAN(HS) */
++void halbtc8821c2ant_action_sco(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}  else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++void halbtc8821c2ant_action_hid(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}  else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 3);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++/* A2DP only / PAN(EDR) only/ A2DP+PAN(HS) */
++void halbtc8821c2ant_action_a2dp(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy)
++
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 1);
++		else
++
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 2);
++	} else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy)
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 101);
++		else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 102);
++
++	}
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++void halbtc8821c2ant_action_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++#if 0
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	coex_dm->is_switch_to_1dot5_ant = false;
++
++	halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++#endif
++
++
++#if 1
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy)
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++		else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 4);
++	} else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy)
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 103);
++		else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 104);
++
++	}
++
++#endif
++
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++/* PAN(HS) only */
++void halbtc8821c2ant_action_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++
++
++	} else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	}
++
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++}
++
++
++void halbtc8821c2ant_action_hid_a2dp(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy)
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 1);
++		else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 2);
++
++
++	} else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy)
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 101);
++		else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 102);
++
++	}
++
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++void halbtc8821c2ant_action_a2dp_pan_hs(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 7);
++			else
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		} else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++
++	} else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 107);
++			else
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 105);
++		} else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 106);
++
++	}
++
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++
++/* PAN(EDR)+A2DP */
++void halbtc8821c2ant_action_pan_edr_a2dp(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 7);
++			else
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		} else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++	} else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 107);
++			else
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 105);
++		} else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 106);
++
++	}
++
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++void halbtc8821c2ant_action_pan_edr_hid(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy)
++
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 3);
++		else
++
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 4);
++
++
++	} else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy)
++
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 103);
++		else
++
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 104);
++
++	}
++
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++/* HID+A2DP+PAN(EDR) */
++void halbtc8821c2ant_action_hid_a2dp_pan_edr(IN struct btc_coexist *btcoexist)
++{
++	static u8	prewifi_rssi_state = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state, bt_rssi_state;
++
++	static u8	prewifi_rssi_state2 = BTC_RSSI_STATE_LOW;
++	static u8	pre_bt_rssi_state2 = BTC_RSSI_STATE_LOW;
++	u8		wifi_rssi_state2, bt_rssi_state2;
++	boolean			wifi_busy = false;
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_BUSY, &wifi_busy);
++
++	wifi_rssi_state = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			  &prewifi_rssi_state, 2,
++			  coex_sta->wifi_coex_thres , 0);
++
++	wifi_rssi_state2 = halbtc8821c2ant_wifi_rssi_state(btcoexist,
++			   &prewifi_rssi_state2, 2,
++			   coex_sta->wifi_coex_thres2 , 0);
++
++	bt_rssi_state = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state, 2,
++			coex_sta->bt_coex_thres , 0);
++
++	bt_rssi_state2 = halbtc8821c2ant_bt_rssi_state(&pre_bt_rssi_state2, 2,
++			 coex_sta->bt_coex_thres2 , 0);
++
++
++	if (BTC_RSSI_HIGH(wifi_rssi_state) &&
++	    BTC_RSSI_HIGH(bt_rssi_state)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++		halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++	} else if (BTC_RSSI_HIGH(wifi_rssi_state2) &&
++		   BTC_RSSI_HIGH(bt_rssi_state2)) {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 6);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 2);
++
++		coex_dm->is_switch_to_1dot5_ant = false;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 4);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 7);
++			else
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 5);
++		} else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 6);
++	} else {
++
++		halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++		halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++		coex_dm->is_switch_to_1dot5_ant = true;
++
++		halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 7);
++
++		if (wifi_busy) {
++
++			if ((coex_sta->a2dp_bit_pool > 40) && (coex_sta->a2dp_bit_pool < 255))
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 107);
++			else
++				halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 105);
++		} else
++			halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, true, 106);
++	}
++
++	/* sw mechanism */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, true,
++				      false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false,
++				      false, 0x18);
++
++}
++
++
++
++void halbtc8821c2ant_action_bt_whck_test(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw mechanism all off */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++}
++
++void halbtc8821c2ant_action_wifi_multi_port(IN struct btc_coexist *btcoexist)
++{
++	halbtc8821c2ant_fw_dac_swing_lvl(btcoexist, NORMAL_EXEC, 0x18);
++	halbtc8821c2ant_dec_bt_pwr(btcoexist, NORMAL_EXEC, 0);
++
++	/* sw mechanism all off */
++	halbtc8821c2ant_sw_mechanism1(btcoexist, false, false, false, false);
++	halbtc8821c2ant_sw_mechanism2(btcoexist, false, false, false, 0x18);
++
++	/* hw all off */
++	halbtc8821c2ant_coex_table_with_type(btcoexist, NORMAL_EXEC, 0);
++
++	halbtc8821c2ant_ps_tdma(btcoexist, NORMAL_EXEC, false, 0);
++}
++
++void halbtc8821c2ant_run_coexist_mechanism(IN struct btc_coexist *btcoexist)
++{
++	u8				algorithm = 0;
++	u32				num_of_wifi_link = 0;
++	u32				wifi_link_status = 0;
++	struct  btc_bt_link_info *bt_link_info = &btcoexist->bt_link_info;
++	boolean				miracast_plus_bt = false;
++	boolean				scan = false, link = false, roam = false, wifi_connected = false, wifi_under_5g =false;
++
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], RunCoexistMechanism()===>\n");
++	BTC_TRACE(trace_buf);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Manual CTRL <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], RunCoexistMechanism(), return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (coex_sta->under_ips) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], wifi is under IPS !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (!coex_sta->run_time_state){
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], return for run_time_state = false !!!\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	if (wifi_under_5g) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 5G!!!\n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8821c2ant_action_wifi_under5g(btcoexist);
++		return;
++	} else{
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 2G!!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_set_ant_path(btcoexist, BTC_ANT_PATH_AUTO,
++					     NORMAL_EXEC, BT_8821C_2ANT_PHASE_2G_RUNTIME);
++	}
++	
++
++	if (coex_sta->bt_whck_test) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under WHCK TEST!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821c2ant_action_bt_whck_test(btcoexist);
++		return;
++	}
++
++	if (coex_sta->bt_disabled) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is disabled!!!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821c2ant_action_coex_all_off(btcoexist);
++		return;
++	}
++
++	if (coex_sta->c2h_bt_inquiry_page) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BT is under inquiry/page scan !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821c2ant_action_bt_inquiry(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_LINK, &link);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++	if (scan || link || roam) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under Link Process !!\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821c2ant_action_wifi_link_process(btcoexist);
++		return;
++	}
++
++	/* for P2P */
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_LINK_STATUS,
++			   &wifi_link_status);
++	num_of_wifi_link = wifi_link_status >> 16;
++
++	if ((num_of_wifi_link >= 2) ||
++	    (wifi_link_status & WIFI_P2P_GO_CONNECTED)) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"############# [BTCoex],  Multi-Port num_of_wifi_link = %d, wifi_link_status = 0x%x\n",
++			    num_of_wifi_link, wifi_link_status);
++		BTC_TRACE(trace_buf);
++
++		if (bt_link_info->bt_link_exist)
++			miracast_plus_bt = true;
++		else
++			miracast_plus_bt = false;
++
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++		halbtc8821c2ant_action_wifi_multi_port(btcoexist);
++
++		return;
++	} else {
++		miracast_plus_bt = false;
++		btcoexist->btc_set(btcoexist, BTC_SET_BL_MIRACAST_PLUS_BT,
++				   &miracast_plus_bt);
++	}
++
++
++	algorithm = halbtc8821c2ant_action_algorithm(btcoexist);
++	coex_dm->cur_algorithm = algorithm;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Algorithm = %d\n",
++		    coex_dm->cur_algorithm);
++	BTC_TRACE(trace_buf);
++
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	if (!wifi_connected) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Action 2-Ant, wifi non-connected!!.\n");
++		BTC_TRACE(trace_buf);
++		halbtc8821c2ant_action_wifi_nonconnected(btcoexist);
++
++	} else if ((BT_8821C_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++		coex_dm->bt_status) || (BT_8821C_2ANT_BT_STATUS_CONNECTED_IDLE ==
++					    coex_dm->bt_status)) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Action 2-Ant, bt idle!!.\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_action_bt_idle(btcoexist);
++
++	} else {
++
++		if (coex_dm->cur_algorithm != coex_dm->pre_algorithm) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], pre_algorithm=%d, cur_algorithm=%d\n",
++				coex_dm->pre_algorithm, coex_dm->cur_algorithm);
++			BTC_TRACE(trace_buf);
++		}
++
++		switch (coex_dm->cur_algorithm) {
++
++		case BT_8821C_2ANT_COEX_ALGO_SCO:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = SCO.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_sco(btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_hid(btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_a2dp(btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_A2DP_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = A2DP+PAN(HS).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_a2dp_pan_hs(btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR).\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_pan_edr(btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_PANHS:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HS mode.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_pan_hs(btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_PANEDR_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_pan_edr_a2dp(btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_PANEDR_HID:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = PAN(EDR)+HID.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_pan_edr_hid(btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_HID_A2DP_PANEDR:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP+PAN.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_hid_a2dp_pan_edr(
++				btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_HID_A2DP:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = HID+A2DP.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_hid_a2dp(btcoexist);
++			break;
++		case BT_8821C_2ANT_COEX_ALGO_NOPROFILEBUSY:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = No-Profile busy.\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_bt_idle(btcoexist);
++			break;
++		default:
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], Action 2-Ant, algorithm = coexist All Off!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_action_coex_all_off(btcoexist);
++			break;
++		}
++		coex_dm->pre_algorithm = coex_dm->cur_algorithm;
++	}
++}
++
++void halbtc8821c2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				    IN boolean wifi_only)
++{
++	u8	u8tmp = 0;
++	u32	 vendor;
++	u32				u32tmp0 = 0, u32tmp1 = 0, u32tmp2 = 0, u32tmp3 =0;
++
++
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	u32tmp1 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Before Init HW config) 0xcb4 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++		    u32tmp3, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], 2Ant Init HW Config!!\n");
++	BTC_TRACE(trace_buf);
++
++	coex_sta->bt_coex_supported_feature = 0;
++	coex_sta->bt_coex_supported_version = 0;
++
++
++	/* 0xf0[15:12] --> Chip Cut information */
++	coex_sta->cut_version = (btcoexist->btc_read_1byte(btcoexist,
++				 0xf1) & 0xf0) >> 4;
++
++	coex_sta->dis_ver_info_cnt = 0;
++
++	/* default isolation = 15dB */
++	coex_sta->isolation_btween_wb = BT_8821C_2ANT_DEFAULT_ISOLATION;
++	halbtc8821c2ant_coex_switch_threshold(btcoexist, coex_sta->isolation_btween_wb);
++
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x550, 0x8,
++					   0x1);  /* enable TBTT nterrupt */
++
++	/* BT report packet sample rate	 */
++	btcoexist->btc_write_1byte(btcoexist, 0x790, 0x5);
++
++	/* Init 0x778 = 0x1 for 2-Ant */
++	btcoexist->btc_write_1byte(btcoexist, 0x778, 0x1);
++
++	/* Enable PTA (3-wire function form BT side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x40, 0x20, 0x1);
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x41, 0x02, 0x1);
++
++	/* Enable PTA (tx/rx signal form WiFi side) */
++	btcoexist->btc_write_1byte_bitmask(btcoexist, 0x4c6, 0x10, 0x1);
++
++	halbtc8821c2ant_enable_gnt_to_gpio(btcoexist, TRUE);
++
++	/* check if WL firmware download ok */
++	if (btcoexist->btc_read_1byte(btcoexist, 0x80) == 0xc6)
++		halbtc8821c2ant_post_onoffstate_to_bt(btcoexist, true);
++
++	/* Enable counter statistics */
++	btcoexist->btc_write_1byte(btcoexist, 0x76e,
++			   0x4); /* 0x76e[3] =1, WLAN_Act control by PTA */
++
++	if (wifi_only) {
++		
++		coex_sta->concurrent_rx_mode_on = false;
++
++		/* Set Antenna Path */
++		halbtc8821c2ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_2ANT_PHASE_WLANONLY_INIT);
++	} else {
++		 coex_sta->concurrent_rx_mode_on = true; 
++		/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0x953, 0x2, 0x1); */
++
++		/* RF 0x1[1] = 0->Set GNT_WL_RF_Rx always = 1 for con-current Rx, mask Tx only */
++		btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1, 0x2, 0x0);
++
++		/* Set Antenna Path */
++		halbtc8821c2ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO,
++						FORCE_EXEC, 
++						BT_8821C_2ANT_PHASE_COEX_INIT);
++	}
++
++	/* WLAN_Tx by GNT_WL  0x950[29] = 0 */
++	/* btcoexist->btc_write_1byte_bitmask(btcoexist, 0x953, 0x20, 0x0); */
++
++	halbtc8821c2ant_coex_table_with_type(btcoexist, FORCE_EXEC, 0);
++
++	halbtc8821c2ant_ps_tdma(btcoexist, FORCE_EXEC, false, 0);
++
++	psd_scan->ant_det_is_ant_det_available = TRUE;
++
++	u32tmp3 = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	u32tmp1 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u32tmp2 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Before Init HW config) 0xcb4 = 0x%x, 0x38= 0x%x, 0x54= 0x%x**********\n",
++		    u32tmp3, u32tmp1, u32tmp2);
++	BTC_TRACE(trace_buf);
++
++}
++
++u32 halbtc8821c2ant_psd_log2base(IN struct btc_coexist *btcoexist, IN u32 val)
++{
++	u8	j;
++	u32	tmp, tmp2, val_integerd_b = 0, tindex, shiftcount = 0;
++	u32	result, val_fractiond_b = 0, table_fraction[21] = {0, 432, 332, 274, 232, 200,
++				   174, 151, 132, 115, 100, 86, 74, 62, 51, 42,
++							   32, 23, 15, 7, 0
++							      };
++
++	if (val == 0)
++		return 0;
++
++	tmp = val;
++
++	while (1) {
++		if (tmp == 1)
++			break;
++		else {
++			tmp = (tmp >> 1);
++			shiftcount++;
++		}
++	}
++
++
++	val_integerd_b = shiftcount + 1;
++
++	tmp2 = 1;
++	for (j = 1; j <= val_integerd_b; j++)
++		tmp2 = tmp2 * 2;
++
++	tmp = (val * 100) / tmp2;
++	tindex = tmp / 5;
++
++	if (tindex > 20)
++		tindex = 20;
++
++	val_fractiond_b = table_fraction[tindex];
++
++	result = val_integerd_b * 100 - val_fractiond_b;
++
++	return result;
++
++
++}
++
++void halbtc8821c2ant_psd_show_antenna_detect_result(IN struct btc_coexist
++		*btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n============[Antenna Detection info]  ============\n");
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 1)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (>%d)",
++			   "Ant Det Result", "2-Antenna (Bad-Isolation)",
++			   BT_8821C_2ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else if (psd_scan->ant_det_result == 2)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "2-Antenna (Good-Isolation)",
++			   BT_8821C_2ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset,
++			   BT_8821C_2ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION);
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (%d~%d)",
++			   "Ant Det Result", "1-Antenna",
++			   BT_8821C_2ANT_ANTDET_PSDTHRES_1ANT,
++			   BT_8821C_2ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++			   + psd_scan->ant_det_thres_offset);
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s ",
++		   "Antenna Detection Finish",
++		   (board_info->btdm_ant_det_finish
++		    ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	switch (psd_scan->ant_det_result) {
++	case 0:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not available)");
++		break;
++	case 1:  /* 2-Ant bad-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 2:  /* 2-Ant good-isolation */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 3:  /* 1-Ant */
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is available)");
++		break;
++	case 4:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Uncertainty result)");
++		break;
++	case 5:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "(Pre-Scan fai)");
++		break;
++	case 6:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(WiFi is Scanning)");
++		break;
++	case 7:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is not idle)");
++		break;
++	case 8:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Abort by WiFi Scanning)");
++		break;
++	case 9:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(Antenna Init is not ready)");
++		break;
++	case 10:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Inquiry or page)");
++		break;
++	case 11:
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "(BT is Disabled)");
++		break;
++	}
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Total Count", psd_scan->ant_det_try_count);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "Ant Detect Fail Count", psd_scan->ant_det_fail_count);
++	CL_PRINTF(cli_buf);
++
++	if ((!board_info->btdm_ant_det_finish) &&
++	    (psd_scan->ant_det_result != 5))
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "BT Response",
++		   (psd_scan->ant_det_result ? "ok" : "fail"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ms", "BT Tx Time",
++		   psd_scan->ant_det_bt_tx_time);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "BT Tx Ch",
++		   psd_scan->ant_det_bt_le_channel);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d",
++		   "WiFi PSD Cent-Ch/Offset/Span",
++		   psd_scan->real_cent_freq, psd_scan->real_offset,
++		   psd_scan->real_span);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d dB",
++		   "PSD Pre-Scan Peak Value",
++		   psd_scan->ant_det_pre_psdscan_peak_val / 100);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s (<= %d)",
++		   "PSD Pre-Scan result",
++		   (psd_scan->ant_det_result != 5 ? "ok" : "fail"),
++		   BT_8821C_2ANT_ANTDET_PSDTHRES_BACKGROUND
++		   + psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->ant_det_result == 5)
++		return;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s dB",
++		   "PSD Scan Peak Value", psd_scan->ant_det_peak_val);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s MHz",
++		   "PSD Scan Peak Freq", psd_scan->ant_det_peak_freq);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "TFBGA Package",
++		   (board_info->tfbga_package) ?  "Yes" : "No");
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "PSD Threshold Offset", psd_scan->ant_det_thres_offset);
++	CL_PRINTF(cli_buf);
++
++}
++
++void halbtc8821c2ant_psd_showdata(IN struct btc_coexist *btcoexist)
++{
++	u8		*cli_buf = btcoexist->cli_buf;
++	u32		delta_freq_per_point;
++	u32		freq, freq1, freq2, n = 0, i = 0, j = 0, m = 0, psd_rep1, psd_rep2;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n\n============[PSD info]  (%d)============\n",
++		   psd_scan->psd_gen_count);
++	CL_PRINTF(cli_buf);
++
++	if (psd_scan->psd_gen_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n No data !!\n");
++		CL_PRINTF(cli_buf);
++		return;
++	}
++
++	if (psd_scan->psd_point == 0)
++		delta_freq_per_point = 0;
++	else
++		delta_freq_per_point = psd_scan->psd_band_width /
++				       psd_scan->psd_point;
++
++	/* if (psd_scan->is_psd_show_max_only) */
++	if (0) {
++		psd_rep1 = psd_scan->psd_max_value / 100;
++		psd_rep2 = psd_scan->psd_max_value - psd_rep1 * 100;
++
++		freq = ((psd_scan->real_cent_freq - 20) * 1000000 +
++			psd_scan->psd_max_value_point * delta_freq_per_point);
++		freq1 = freq / 1000000;
++		freq2 = freq / 1000 - freq1 * 1000;
++
++		if (freq2 < 100)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.0%d MHz",
++				   freq1, freq2);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   "\r\n Freq = %d.%d MHz",
++				   freq1, freq2);
++
++		if (psd_rep2 < 10)
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.0%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++		else
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				   ", Value = %d.%d dB, (%d)\n",
++				   psd_rep1, psd_rep2, psd_scan->psd_max_value);
++
++		CL_PRINTF(cli_buf);
++	} else {
++		m = psd_scan->psd_start_point;
++		n = psd_scan->psd_start_point;
++		i = 1;
++		j = 1;
++
++		while (1) {
++			do {
++				freq = ((psd_scan->real_cent_freq - 20) * 1000000 + m *
++					delta_freq_per_point);
++				freq1 = freq / 1000000;
++				freq2 = freq / 1000 - freq1 * 1000;
++
++				if (i == 1) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.0%2d", freq1,
++							   freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Freq%6d.%3d", freq1,
++							   freq2);
++				} else if ((i % 8 == 0) ||
++					   (m == psd_scan->psd_stop_point)) {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000\n", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d\n", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d\n", freq1, freq2);
++				} else {
++					if (freq2 == 0)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							   "%6d.000", freq1);
++					else if (freq2 < 100)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.0%2d", freq1, freq2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%6d.%3d", freq1, freq2);
++				}
++
++				i++;
++				m++;
++				CL_PRINTF(cli_buf);
++
++			} while ((i <= 8) && (m <= psd_scan->psd_stop_point));
++
++
++			do {
++				psd_rep1 = psd_scan->psd_report_max_hold[n] / 100;
++				psd_rep2 = psd_scan->psd_report_max_hold[n] - psd_rep1 *
++					   100;
++
++				if (j == 1) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.0%d", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"\r\n Val %7d.%d", psd_rep1,
++							   psd_rep2);
++				} else if ((j % 8 == 0)  ||
++					   (n == psd_scan->psd_stop_point)) {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d\n", psd_rep1,
++							   psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d\n", psd_rep1, psd_rep2);
++				} else {
++					if (psd_rep2 < 10)
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.0%d", psd_rep1, psd_rep2);
++					else
++						CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++							"%7d.%d", psd_rep1, psd_rep2);
++				}
++
++				j++;
++				n++;
++				CL_PRINTF(cli_buf);
++
++			} while ((j <= 8) && (n <= psd_scan->psd_stop_point));
++
++			if ((m > psd_scan->psd_stop_point) ||
++			    (n > psd_scan->psd_stop_point))
++				break;
++			else {
++				i = 1;
++				j = 1;
++			}
++
++		}
++	}
++
++
++}
++
++void halbtc8821c2ant_psd_maxholddata(IN struct btc_coexist *btcoexist,
++				     IN u32 gen_count)
++{
++	u32	i = 0, i_max = 0, val_max = 0;
++
++	if (gen_count == 1) {
++		memcpy(psd_scan->psd_report_max_hold,
++		       psd_scan->psd_report,
++		       BT_8821C_2ANT_ANTDET_PSD_POINTS * sizeof(u32));
++
++		psd_scan->psd_max_value_point = 0;
++		psd_scan->psd_max_value = 0;
++
++	} else {
++		for (i = psd_scan->psd_start_point;
++		     i <= psd_scan->psd_stop_point; i++) {
++			if (psd_scan->psd_report[i] >
++			    psd_scan->psd_report_max_hold[i])
++				psd_scan->psd_report_max_hold[i] =
++					psd_scan->psd_report[i];
++
++			/* search Max Value */
++			if (i == psd_scan->psd_start_point) {
++				i_max = i;
++				val_max = psd_scan->psd_report_max_hold[i];
++			} else {
++				if (psd_scan->psd_report_max_hold[i] >
++				    val_max) {
++					i_max = i;
++					val_max = psd_scan->psd_report_max_hold[i];
++				}
++			}
++
++		}
++
++		psd_scan->psd_max_value_point = i_max;
++		psd_scan->psd_max_value = val_max;
++
++	}
++
++
++}
++
++u32 halbtc8821c2ant_psd_getdata(IN struct btc_coexist *btcoexist, IN u32 point)
++{
++	/* reg 0x808[9:0]: FFT data x */
++	/* reg 0x808[22]: 0-->1 to get 1 FFT data y */
++	/* reg 0x8b4[15:0]: FFT data y report */
++
++	u32 val = 0, psd_report = 0;
++	int k = 0;
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++
++	val &= 0xffbffc00;
++	val |= point;
++
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	val |= 0x00400000;
++	btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++	while (1) {
++		if (k++ > BT_8821C_2ANT_ANTDET_SWEEPPOINT_DELAY)
++			break;
++	}
++
++	val = btcoexist->btc_read_4byte(btcoexist, 0x8b4);
++
++	psd_report = val & 0x0000ffff;
++
++	return psd_report;
++}
++
++
++boolean halbtc8821c2ant_psd_sweep_point(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN s32 offset, IN u32 span, IN u32 points,
++					IN u32 avgnum, IN u32 loopcnt)
++{
++	u32	 i = 0, val = 0, n = 0, k = 0, j, point_index = 0;
++	u32	points1 = 0, psd_report = 0;
++	u32	start_p = 0, stop_p = 0, delta_freq_per_point = 156250;
++	u32    psd_center_freq = 20 * 10 ^ 6;
++	boolean outloop = false, scan , roam, is_sweep_ok = true;
++	u8	 flag = 0;
++	u32	tmp = 0, u32tmp1 = 0;
++	u32	wifi_original_channel = 1;
++
++	psd_scan->is_psd_running = true;
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Start!!\n");
++	BTC_TRACE(trace_buf);
++
++	do {
++		switch (flag) {
++		case 0:  /* Get PSD parameters */
++		default:
++
++			psd_scan->psd_band_width = 40 * 1000000;
++			psd_scan->psd_point = points;
++			psd_scan->psd_start_base = points / 2;
++			psd_scan->psd_avg_num = avgnum;
++			psd_scan->real_cent_freq = cent_freq;
++			psd_scan->real_offset = offset;
++			psd_scan->real_span = span;
++
++
++			points1 = psd_scan->psd_point;
++			delta_freq_per_point = psd_scan->psd_band_width /
++					       psd_scan->psd_point;
++
++			/* PSD point setup */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffff0fff;
++
++			switch (psd_scan->psd_point) {
++			case 128:
++				val |= 0x0;
++				break;
++			case 256:
++			default:
++				val |= 0x00004000;
++				break;
++			case 512:
++				val |= 0x00008000;
++				break;
++			case 1024:
++				val |= 0x0000c000;
++				break;
++			}
++
++			switch (psd_scan->psd_avg_num) {
++			case 1:
++				val |= 0x0;
++				break;
++			case 8:
++				val |= 0x00001000;
++				break;
++			case 16:
++				val |= 0x00002000;
++				break;
++			case 32:
++			default:
++				val |= 0x00003000;
++				break;
++			}
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			flag = 1;
++			break;
++		case 1:	  /* calculate the PSD point index from freq/offset/span */
++			psd_center_freq = psd_scan->psd_band_width / 2 +
++					  offset * (1000000);
++
++			start_p = psd_scan->psd_start_base + (psd_center_freq -
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_start_point = start_p -
++						    psd_scan->psd_start_base;
++
++			stop_p = psd_scan->psd_start_base + (psd_center_freq +
++				span * (1000000) / 2) / delta_freq_per_point;
++			psd_scan->psd_stop_point = stop_p -
++						   psd_scan->psd_start_base - 1;
++
++			flag = 2;
++			break;
++		case 2:  /* set RF channel/BW/Mode */
++
++			/* set 3-wire off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val |= 0x00300000;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val &= 0xfeffffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause on */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x6f);
++
++			/* store WiFi original channel */
++			wifi_original_channel = btcoexist->btc_get_rf_reg(
++					btcoexist, BTC_RF_A, 0x18, 0x3ff);
++
++			/* Set RF channel */
++			if (cent_freq == 2484)
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++							  0x18, 0x3ff, 0xe);
++			else
++				btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A,
++					  0x18, 0x3ff, (cent_freq - 2412) / 5 +
++						  1); /* WiFi TRx Mask on */
++
++			/* save original RCK value */
++			u32tmp1 =  btcoexist->btc_get_rf_reg(
++					   btcoexist, BTC_RF_A, 0x1d, 0xfffff);
++
++			/* Enter debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x1);
++
++			/* Set RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, 0x2e);
++
++
++			/* Set  RF mode = Rx, RF Gain = 0x320a0 */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x0,
++						  0xfffff, 0x320a0);
++
++			while (1) {
++				if (k++ > BT_8821C_2ANT_ANTDET_SWEEPPOINT_DELAY)
++					break;
++			}
++			flag = 3;
++			break;
++		case 3:
++			psd_scan->psd_gen_count = 0;
++
++			for (j = 1; j <= loopcnt; j++) {
++
++				/* btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x0, 0xfffff, 0x320a0); */
++
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_SCAN, &scan);
++				btcoexist->btc_get(btcoexist,
++						   BTC_GET_BL_WIFI_ROAM, &roam);
++
++				if (scan || roam) {
++					is_sweep_ok = false;
++					break;
++				}
++				memset(psd_scan->psd_report, 0,
++				       psd_scan->psd_point * sizeof(u32));
++				start_p = psd_scan->psd_start_point +
++					  psd_scan->psd_start_base;
++				stop_p = psd_scan->psd_stop_point +
++					 psd_scan->psd_start_base + 1;
++
++				i = start_p;
++				point_index = 0;
++
++				while (i < stop_p) {
++					if (i >= points1)
++						psd_report =
++							halbtc8821c2ant_psd_getdata(
++							btcoexist, i - points1);
++					else
++						psd_report =
++							halbtc8821c2ant_psd_getdata(
++								btcoexist, i);
++
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"Point=%d, psd_raw_data = 0x%08x\n",
++						    i, psd_report);
++					BTC_TRACE(trace_buf);
++					if (psd_report == 0)
++						tmp = 0;
++					else
++						/* tmp =  20*log10((double)psd_report); */
++						/* 20*log2(x)/log2(10), log2Base return theresult of the psd_report*100 */
++						tmp = 6 * halbtc8821c2ant_psd_log2base(
++							btcoexist, psd_report);
++
++					n = i - psd_scan->psd_start_base;
++					psd_scan->psd_report[n] =  tmp;
++
++
++					halbtc8821c2ant_psd_maxholddata(
++						btcoexist, j);
++
++					i++;
++
++				}
++
++				psd_scan->psd_gen_count = j;
++
++
++				/*
++				val = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++				tmp = btcoexist->btc_read_4byte(btcoexist, 0x64);
++				u32tmp1 =  btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						"0x54 = 0x%08x, 0x67 = 0x%08x, 0x6c4 = 0x%08x\n", val, (tmp & 0xff000000) >> 24 ,u32tmp1);
++					BTC_TRACE(trace_buf);
++				*/
++
++			}
++
++			flag = 100;
++			break;
++		case 99:	/* error */
++
++			outloop = true;
++			break;
++		case 100: /* recovery */
++
++			/* set 3-wire on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x88c);
++			val &= 0xffcfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x88c, val);
++
++			/* CCK on */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x800);
++			val |= 0x01000000;
++			btcoexist->btc_write_4byte(btcoexist, 0x800, val);
++
++			/* Tx-pause off */
++			btcoexist->btc_write_1byte(btcoexist, 0x522, 0x0);
++
++			/* PSD off */
++			val = btcoexist->btc_read_4byte(btcoexist, 0x808);
++			val &= 0xffbfffff;
++			btcoexist->btc_write_4byte(btcoexist, 0x808, val);
++
++			/* restore RF Rx filter corner */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x1d,
++						  0xfffff, u32tmp1);
++
++			/* Exit debug mode */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0xde,
++						  0x2, 0x0);
++
++			/* restore WiFi original channel */
++			btcoexist->btc_set_rf_reg(btcoexist, BTC_RF_A, 0x18,
++						  0x3ff, wifi_original_channel);
++
++			outloop = true;
++			break;
++
++		}
++
++	} while (!outloop);
++
++
++
++	psd_scan->is_psd_running = false;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx PSD Sweep Stop!!\n");
++	BTC_TRACE(trace_buf);
++	return is_sweep_ok;
++
++}
++
++void halbtc8821c2ant_psd_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 bt_tx_time, IN u32 bt_le_channel)
++{
++	u32	i = 0;
++	u32	wlpsd_cent_freq = 2484, wlpsd_span = 2, wlpsd_sweep_count = 50;
++	s32	wlpsd_offset = -4;
++	u8	bt_le_ch[13] = {3, 6, 8, 11, 13, 16, 18, 21, 23, 26, 28, 31, 33};
++
++	u8	h2c_parameter[3] = {0}, u8tmpa, u8tmpb;
++
++	u8	state = 0;
++	boolean		outloop = false, bt_resp = false;
++	u32		freq, freq1, freq2, psd_rep1, psd_rep2, delta_freq_per_point,
++			u32tmp, u32tmp0, u32tmp1, u32tmp2 ;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	board_info->btdm_ant_det_finish = false;
++	memset(psd_scan->ant_det_peak_val, 0, 16 * sizeof(u8));
++	memset(psd_scan->ant_det_peak_freq, 0, 16 * sizeof(u8));
++
++	if (board_info->tfbga_package) /* for TFBGA */
++		psd_scan->ant_det_thres_offset = 5;
++	else
++		psd_scan->ant_det_thres_offset = 0;
++
++	do {
++		switch (state) {
++		case 0:
++			if (bt_le_channel == 39)
++				wlpsd_cent_freq = 2484;
++			else {
++				for (i = 1; i <= 13; i++) {
++					if (bt_le_ch[i - 1] ==
++					    bt_le_channel) {
++						wlpsd_cent_freq = 2412
++								  + (i - 1) * 5;
++						break;
++					}
++				}
++
++				if (i == 14) {
++
++					BTC_SPRINTF(trace_buf,
++						    BT_TMP_BUF_SIZE,
++						"xxxxxxxxxxxxxxxx AntennaDetect(), Abort!!, Invalid LE channel = %d\n ",
++						    bt_le_channel);
++					BTC_TRACE(trace_buf);
++					outloop = true;
++					break;
++				}
++			}
++
++			wlpsd_sweep_count = bt_tx_time * 238 /
++					    100; /* bt_tx_time/0.42								 */
++			wlpsd_sweep_count = wlpsd_sweep_count / 5;
++
++			if (wlpsd_sweep_count % 5 != 0)
++				wlpsd_sweep_count = (wlpsd_sweep_count /
++						     5 + 1) * 5;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), BT_LETxTime=%d,  BT_LECh = %d\n",
++				    bt_tx_time, bt_le_channel);
++			BTC_TRACE(trace_buf);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), wlpsd_cent_freq=%d,  wlpsd_offset = %d, wlpsd_span = %d, wlpsd_sweep_count = %d\n",
++				    wlpsd_cent_freq,
++				    wlpsd_offset,
++				    wlpsd_span,
++				    wlpsd_sweep_count);
++			BTC_TRACE(trace_buf);
++
++			state = 1;
++			break;
++		case 1: /* stop coex DM & set antenna path */
++			/* Stop Coex DM */
++			/*
++			btcoexist->stop_coex_dm = true;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stop Coex DM!!\n");
++			BTC_TRACE(trace_buf);  */
++
++			/* Set TDMA off,				 */
++			halbtc8821c2ant_ps_tdma(btcoexist, FORCE_EXEC,
++						false, 0);
++
++			/* Set coex table */
++			halbtc8821c2ant_coex_table_with_type(btcoexist,
++							     FORCE_EXEC, 0);
++
++			if (board_info->btdm_ant_pos ==
++			    BTC_ANTENNA_AT_MAIN_PORT) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Main Port\n");
++				BTC_TRACE(trace_buf);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna at Aux Port\n");
++				BTC_TRACE(trace_buf);
++			}
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to BT!!\n");
++			BTC_TRACE(trace_buf);
++
++			halbtc8821c2ant_set_int_block(btcoexist, FORCE_EXEC, BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG);
++
++			halbtc8821c2ant_set_ext_ant_switch( btcoexist, 
++													FORCE_EXEC, 
++													BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW, 
++													BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_BT);
++
++			/* Set Antenna Path,  both GNT_WL/GNT_BT = 1, and control by SW */
++			/* set GNT_BT to SW high */
++			halbtc8821c2ant_ltecoex_set_gnt_bt(btcoexist,
++					   BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8821C_2ANT_SIG_STA_SET_TO_HIGH);
++			/* Set GNT_WL to SW high */
++			halbtc8821c2ant_ltecoex_set_gnt_wl(btcoexist,
++					   BT_8821C_2ANT_GNT_BLOCK_RFC_BB,
++					   BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW,
++					   BT_8821C_2ANT_SIG_STA_SET_TO_HIGH);
++			
++
++			/* Set AFH mask on at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x1;
++			h2c_parameter[1] = 0xd;
++			h2c_parameter[2] = 0x14;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1],
++				    h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			u32tmp = btcoexist->btc_read_2byte(btcoexist, 0x948);
++			u32tmp0 = btcoexist->btc_read_4byte(btcoexist, 0x70);
++			u32tmp1 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++			u32tmp2 = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], ********** 0x948 = 0x%x, 0x70 = 0x%x, 0x38= 0x%x, 0x54= 0x%x (Before Ant Det) **********\n",
++				    u32tmp, u32tmp0, u32tmp1, u32tmp2);
++			BTC_TRACE(trace_buf);
++
++			state = 2;
++			break;
++		case 2:	/* Pre-sweep background psd */
++			if (!halbtc8821c2ant_psd_sweep_point(btcoexist,
++				     wlpsd_cent_freq, wlpsd_offset, wlpsd_span,
++					     BT_8821C_2ANT_ANTDET_PSD_POINTS,
++				     BT_8821C_2ANT_ANTDET_PSD_AVGNUM, 3)) {
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++			psd_scan->ant_det_pre_psdscan_peak_val =
++				psd_scan->psd_max_value;
++
++			if (psd_scan->psd_max_value >
++			    (BT_8821C_2ANT_ANTDET_PSDTHRES_BACKGROUND
++			     + psd_scan->ant_det_thres_offset) * 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Abort Antenna Detection!! becaus background = %d > thres (%d)\n",
++					    psd_scan->psd_max_value / 100,
++					BT_8821C_2ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				psd_scan->ant_det_result = 5;
++				state = 99;
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Start Antenna Detection!! becaus background = %d <= thres (%d)\n",
++					    psd_scan->psd_max_value / 100,
++					BT_8821C_2ANT_ANTDET_PSDTHRES_BACKGROUND
++					    + psd_scan->ant_det_thres_offset);
++				BTC_TRACE(trace_buf);
++				state = 3;
++			}
++			break;
++		case 3:
++			bt_resp = btcoexist->btc_set_bt_ant_detection(
++					  btcoexist, (u8)(bt_tx_time & 0xff),
++					  (u8)(bt_le_channel & 0xff));
++
++			if (!halbtc8821c2ant_psd_sweep_point(btcoexist,
++					     wlpsd_cent_freq, wlpsd_offset,
++							     wlpsd_span,
++					     BT_8821C_2ANT_ANTDET_PSD_POINTS,
++					     BT_8821C_2ANT_ANTDET_PSD_AVGNUM,
++						     wlpsd_sweep_count)) {
++				board_info->btdm_ant_det_finish
++					= false;
++				board_info->btdm_ant_num_by_ant_det
++					= 1;
++				psd_scan->ant_det_result = 8;
++				state = 99;
++				break;
++			}
++
++			psd_scan->ant_det_psd_scan_peak_val =
++				psd_scan->psd_max_value;
++			psd_scan->ant_det_psd_scan_peak_freq =
++				psd_scan->psd_max_value_point;
++			state = 4;
++			break;
++		case 4:
++
++			if (psd_scan->psd_point == 0)
++				delta_freq_per_point = 0;
++			else
++				delta_freq_per_point =
++					psd_scan->psd_band_width /
++					psd_scan->psd_point;
++
++			psd_rep1 = psd_scan->psd_max_value / 100;
++			psd_rep2 = psd_scan->psd_max_value - psd_rep1 *
++				   100;
++
++			freq = ((psd_scan->real_cent_freq - 20) *
++				1000000 + psd_scan->psd_max_value_point
++				* delta_freq_per_point);
++			freq1 = freq / 1000000;
++			freq2 = freq / 1000 - freq1 * 1000;
++
++			if (freq2 < 100) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.0%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8821C_2ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", freq1, freq2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Max Value: Freq = %d.%d MHz",
++					    freq1, freq2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_freq,
++					   BT_8821C_2ANT_ANTDET_BUF_LEN,
++					   "%d.%d", freq1, freq2);
++			}
++
++			if (psd_rep2 < 10) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.0%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8821C_2ANT_ANTDET_BUF_LEN,
++					   "%d.0%d", psd_rep1, psd_rep2);
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					    ", Value = %d.%d dB\n",
++					    psd_rep1, psd_rep2);
++				BTC_TRACE(trace_buf);
++				CL_SPRINTF(psd_scan->ant_det_peak_val,
++					   BT_8821C_2ANT_ANTDET_BUF_LEN,
++					   "%d.%d", psd_rep1, psd_rep2);
++			}
++
++			psd_scan->ant_det_is_btreply_available = true;
++
++			if (bt_resp == false) {
++				psd_scan->ant_det_is_btreply_available =
++					false;
++				psd_scan->ant_det_result = 0;
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), BT Response = Fail\n ");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				(BT_8821C_2ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION)
++				   * 100) {
++				psd_scan->ant_det_result = 1;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				coex_sta->isolation_btween_wb = (u8)(85 - psd_scan->psd_max_value / 100) & 0xff;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Bad-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				(BT_8821C_2ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION
++				    + psd_scan->ant_det_thres_offset) * 100) {
++				psd_scan->ant_det_result = 2;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 2;
++				coex_sta->isolation_btween_wb = (u8)(85 - psd_scan->psd_max_value / 100) & 0xff;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 2-Ant, Good-Isolation!!\n");
++				BTC_TRACE(trace_buf);
++			} else if (psd_scan->psd_max_value >
++				   (BT_8821C_2ANT_ANTDET_PSDTHRES_1ANT) *
++				   100) {
++				psd_scan->ant_det_result = 3;
++				board_info->btdm_ant_det_finish = true;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				coex_sta->isolation_btween_wb = (u8)(85 - psd_scan->psd_max_value / 100) & 0xff;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant!!\n");
++				BTC_TRACE(trace_buf);
++			} else {
++				psd_scan->ant_det_result = 4;
++				board_info->btdm_ant_det_finish = false;
++				board_info->btdm_ant_num_by_ant_det = 1;
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Detect Result = 1-Ant, un-certainity!!\n");
++				BTC_TRACE(trace_buf);
++			}
++
++			state = 99;
++			break;
++		case 99:  /* restore setup */
++
++			/* Set AFH mask off at WiFi channel 2472MHz +/- 10MHz */
++			h2c_parameter[0] = 0x0;
++			h2c_parameter[1] = 0x0;
++			h2c_parameter[2] = 0x0;
++
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set AFH on, Cent-Ch= %d,  Mask=%d\n",
++				    h2c_parameter[1], h2c_parameter[2]);
++			BTC_TRACE(trace_buf);
++
++			btcoexist->btc_fill_h2c(btcoexist, 0x66, 3,
++						h2c_parameter);
++
++			/* Set Antenna Path, GNT_WL/GNT_BT control by PTA */
++			/* Set Antenna path, switch WiFi to certain antenna port */
++			halbtc8821c2ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO,
++						FORCE_EXEC, 
++						BT_8821C_2ANT_PHASE_2G_RUNTIME);
++			
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Set Antenna to PTA\n!!");
++			BTC_TRACE(trace_buf);
++
++			/* Resume Coex DM */
++			/*
++			btcoexist->stop_coex_dm = false;
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Resume Coex DM\n!!");
++			BTC_TRACE(trace_buf);  */
++
++			/* stimulate coex running */
++			
++			halbtc8821c2ant_run_coexist_mechanism(
++				btcoexist);
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Stimulate Coex running\n!!");
++			BTC_TRACE(trace_buf);  
++
++			outloop = true;
++			break;
++		}
++
++	} while (!outloop);
++
++
++
++}
++
++void halbtc8821c2ant_psd_antenna_detection_check(IN struct btc_coexist
++		*btcoexist)
++{
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	boolean scan, roam;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_SCAN, &scan);
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_ROAM, &roam);
++
++
++	/* psd_scan->ant_det_bt_tx_time = 20; */
++	psd_scan->ant_det_bt_tx_time =
++		BT_8821C_2ANT_ANTDET_BTTXTIME;	   /* 0.42ms*50 = 20ms (0.42ms = 1 PSD sweep) */
++	psd_scan->ant_det_bt_le_channel = BT_8821C_2ANT_ANTDET_BTTXCHANNEL;
++
++	ant_det_count++;
++
++	psd_scan->ant_det_try_count = ant_det_count;
++
++	if (scan || roam) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 6;
++	} else if (coex_sta->bt_disabled) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 11;
++	} else if (coex_sta->num_of_profile >= 1) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 7;
++	} else if (
++		!psd_scan->ant_det_is_ant_det_available) { /* Antenna initial setup is not ready */
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 9;
++	} else if (coex_sta->c2h_bt_inquiry_page) {
++		board_info->btdm_ant_det_finish = false;
++		psd_scan->ant_det_result = 10;
++	} else {
++
++		btcoexist->stop_coex_dm = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"xxxxxxxxxxxxxxxx AntennaDetect(), Stop Coex DM!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_psd_antenna_detection(btcoexist,
++					      psd_scan->ant_det_bt_tx_time,
++					      psd_scan->ant_det_bt_le_channel);
++
++		delay_ms(psd_scan->ant_det_bt_tx_time);
++
++		btcoexist->stop_coex_dm = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"xxxxxxxxxxxxxxxx AntennaDetect(), Resume Coex DM\n!!");
++		BTC_TRACE(trace_buf);
++
++		/* stimulate coex running */
++
++		halbtc8821c2ant_run_coexist_mechanism(
++			btcoexist);
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"xxxxxxxxxxxxxxxx AntennaDetect(), Stimulate Coex running\n!!");
++		BTC_TRACE(trace_buf);
++	}
++
++
++	if (!board_info->btdm_ant_det_finish)
++		ant_det_fail_count++;
++
++	psd_scan->ant_det_fail_count = ant_det_fail_count;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx AntennaDetect(), result = %d, fail_count = %d, finish = %s\n",
++		    psd_scan->ant_det_result,
++		    psd_scan->ant_det_fail_count,
++		    board_info->btdm_ant_det_finish == TRUE ? "Yes" : "No");
++	BTC_TRACE(trace_buf);
++
++}
++
++
++/* ************************************************************
++ * work around function start with wa_halbtc8821c2ant_
++ * ************************************************************
++ * ************************************************************
++ * extern function start with ex_halbtc8821c2ant_
++ * ************************************************************ */
++void ex_halbtc8821c2ant_power_on_setting(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x0;
++	u16 u16tmp = 0x0;
++	u32	value = 0;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"xxxxxxxxxxxxxxxx Execute 8821c 2-Ant PowerOn Setting xxxxxxxxxxxxxxxx!!\n");
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "Ant Det Finish = %s, Ant Det Number  = %d\n",
++		    (board_info->btdm_ant_det_finish ? "Yes" : "No"),
++		    board_info->btdm_ant_num_by_ant_det);
++	BTC_TRACE(trace_buf);
++
++
++	btcoexist->stop_coex_dm = true;
++	psd_scan->ant_det_is_ant_det_available = FALSE;
++
++	/* enable BB, REG_SYS_FUNC_EN such that we can write BB Register correctly. */
++	u16tmp = btcoexist->btc_read_2byte(btcoexist, 0x2);
++	btcoexist->btc_write_2byte(btcoexist, 0x2, u16tmp | BIT(0) | BIT(1));
++
++
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++
++	/* Check efuse 0xc3[6] for Single Antenna Path */
++	if (board_info->single_ant_path == 0) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], **********  Single Antenna, Antenna at Aux Port**********\n");
++		BTC_TRACE(trace_buf);
++
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_AUX_PORT;
++
++		u8tmp = 7;
++	} else if (board_info->single_ant_path == 1) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], **********  Single Antenna, Antenna at Main Port**********\n");
++		BTC_TRACE(trace_buf);
++
++		board_info->btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;		
++
++		u8tmp = 6;
++	}
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], ********** (Power On) single_ant_path  = %d, btdm_ant_pos = %d **********\n",
++		    board_info->single_ant_path , board_info->btdm_ant_pos);
++	BTC_TRACE(trace_buf);
++
++	/* Save"single antenna position" info in Local register setting for FW reading, because FW may not ready at  power on */
++	if (btcoexist->chip_interface == BTC_INTF_PCI)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x3e0, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_USB)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60, u8tmp);
++
++	/* Setup RF front end type */
++	halbtc8821c2ant_set_rfe_type(btcoexist);
++	
++	/* Set Antenna Path by Efuse */
++	halbtc8821c2ant_set_ant_path(btcoexist, 
++					BTC_ANT_PATH_AUTO,
++					FORCE_EXEC, 
++					BT_8821C_2ANT_PHASE_COEX_INIT);
++
++	/* enable GNT_WL/GNT_BT debug signal to GPIO14/15 */
++	halbtc8821c2ant_enable_gnt_to_gpio(btcoexist, TRUE);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********  LTE coex Reg 0x38 (Power-On) = 0x%x**********\n",
++		    halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x38));
++	BTC_TRACE(trace_buf);
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		"[BTCoex], **********  MAC Reg 0x70/ BB Reg 0xcb4 (Power-On) = 0x%x / 0x%x**********\n",
++		btcoexist->btc_read_4byte(btcoexist, 0x70), btcoexist->btc_read_4byte(btcoexist, 0xcb4));
++	BTC_TRACE(trace_buf);
++	
++}
++
++void ex_halbtc8821c2ant_pre_load_firmware(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	u8 u8tmp = 0x4; /* Set BIT2 by default since it's 2ant case */
++
++	/* */
++	/* S0 or S1 setting and Local register setting(By the setting fw can get ant number, S0/S1, ... info) */
++	/* Local setting bit define */
++	/*	BIT0: "0" for no antenna inverse; "1" for antenna inverse  */
++	/*	BIT1: "0" for internal switch; "1" for external switch */
++	/*	BIT2: "0" for one antenna; "1" for two antenna */
++	/* NOTE: here default all internal switch and 1-antenna ==> BIT1=0 and BIT2=0 */
++	if (btcoexist->chip_interface == BTC_INTF_USB) {
++		/* fixed at S0 for USB interface */
++		u8tmp |= 0x1;	/* antenna inverse */
++		btcoexist->btc_write_local_reg_1byte(btcoexist, 0xfe08, u8tmp);
++	} else {
++		/* for PCIE and SDIO interface, we check efuse 0xc3[6] */
++		if (board_info->single_ant_path == 0) {
++		} else if (board_info->single_ant_path == 1) {
++			/* set to S0 */
++			u8tmp |= 0x1;	/* antenna inverse */
++		}
++
++		if (btcoexist->chip_interface == BTC_INTF_PCI)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x3e0,
++							     u8tmp);
++		else if (btcoexist->chip_interface == BTC_INTF_SDIO)
++			btcoexist->btc_write_local_reg_1byte(btcoexist, 0x60,
++							     u8tmp);
++	}
++}
++
++
++void ex_halbtc8821c2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only)
++{
++	btcoexist->stop_coex_dm = false;
++	halbtc8821c2ant_init_hw_config(btcoexist, wifi_only);
++}
++
++void ex_halbtc8821c2ant_init_coex_dm(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Coex Mechanism Init!!\n");
++	BTC_TRACE(trace_buf);
++
++	btcoexist->stop_coex_dm = false;
++
++	halbtc8821c2ant_action_init_coex_dm(btcoexist);
++}
++
++void ex_halbtc8821c2ant_display_coex_info(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_board_info		*board_info = &btcoexist->board_info;
++	struct  btc_stack_info		*stack_info = &btcoexist->stack_info;
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++	u8				*cli_buf = btcoexist->cli_buf;
++	u8				u8tmp[4], i, bt_info_ext, ps_tdma_case = 0;
++	u16				u16tmp[4];
++	u32				u32tmp[4];
++	u32				fa_of_dm, fa_cck;
++	u32				fw_ver = 0, bt_patch_ver = 0;
++	static u8			pop_report_in_10s = 0;
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n ============[BT Coexist info]============");
++	CL_PRINTF(cli_buf);
++
++	if (btcoexist->manual_control) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			"\r\n ============[Under Manual Control]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++	if (btcoexist->stop_coex_dm) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ============[Coex is STOPPED]============");
++		CL_PRINTF(cli_buf);
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n ==========================================");
++		CL_PRINTF(cli_buf);
++	}
++
++	if (psd_scan->ant_det_try_count == 0) {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s / %d",
++			   "Ant PG Num/ Mech/ Pos/ RFE",
++			   board_info->pg_ant_num, board_info->btdm_ant_num,
++			   (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT? "Main" : "Aux"),
++			   rfe_type->rfe_module_type);
++		CL_PRINTF(cli_buf);
++	} else {
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++			   "\r\n %-35s = %d/ %d/ %s/ %d  (%d/%d/%d)",
++			   "Ant PG Num/ Mech(Ant_Det)/ Pos/ RFE",
++			  board_info->pg_ant_num, board_info->btdm_ant_num_by_ant_det,
++			   (board_info->btdm_ant_pos == BTC_ANTENNA_AT_MAIN_PORT ? "Main" : "Aux"), 
++			   rfe_type->rfe_module_type,
++			   psd_scan->ant_det_try_count, psd_scan->ant_det_fail_count,
++			   psd_scan->ant_det_result);
++		CL_PRINTF(cli_buf);
++
++		if (board_info->btdm_ant_det_finish) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s",
++				   "Ant Det PSD Value",
++				   psd_scan->ant_det_peak_val);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %d",
++		   "BT stack/ hci ext ver",
++		   ((stack_info->profile_notified) ? "Yes" : "No"),
++		   stack_info->hci_version);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
++	btcoexist->btc_get(btcoexist, BTC_GET_U4_WIFI_FW_VER, &fw_ver);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d_%x/ 0x%x/ 0x%x(%d)/ %c",
++		   "Version Coex/ Fw/ Patch/ Cut",
++		   glcoex_ver_date_8821c_2ant, glcoex_ver_8821c_2ant, fw_ver,
++		   bt_patch_ver, bt_patch_ver, coex_sta->cut_version + 65);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x ",
++		   "Wifi channel informed to BT",
++		   coex_dm->wifi_chnl_info[0], coex_dm->wifi_chnl_info[1],
++		   coex_dm->wifi_chnl_info[2]);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s/ %s",
++		   "WifibHiPri/ Ccklock/ CckEverLock",
++		   (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"),
++		   (coex_sta->cck_lock ? "Yes" : "No"),
++		   (coex_sta->cck_ever_lock ? "Yes" : "No"));
++	CL_PRINTF(cli_buf);
++
++	/* wifi status */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Wifi Status]============");
++	CL_PRINTF(cli_buf);
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_WIFI_STATUS);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[BT Status]============");
++	CL_PRINTF(cli_buf);
++
++	pop_report_in_10s++;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s/ %d/ %d/ %d] ",
++		   "BT [status/ rssi/ retryCnt/ popCnt]",
++		   ((coex_sta->bt_disabled) ? ("disabled") :	((
++			   coex_sta->c2h_bt_inquiry_page) ? ("inquiry/page")
++			   : ((BT_8821C_2ANT_BT_STATUS_NON_CONNECTED_IDLE ==
++			       coex_dm->bt_status) ? "non-connected idle" :
++		((BT_8821C_2ANT_BT_STATUS_CONNECTED_IDLE == coex_dm->bt_status)
++				       ? "connected-idle" : "busy")))),
++		   coex_sta->bt_rssi - 100, coex_sta->bt_retry_cnt,
++		   coex_sta->pop_event_cnt);
++	CL_PRINTF(cli_buf);
++
++	if (pop_report_in_10s >= 5) {
++		coex_sta->pop_event_cnt = 0;
++		pop_report_in_10s = 0;
++	}
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %d / %d / %d / %d / %d",
++		   "SCO/HID/PAN/A2DP/Hi-Pri",
++		   bt_link_info->sco_exist, bt_link_info->hid_exist,
++		   bt_link_info->pan_exist, bt_link_info->a2dp_exist,
++		   bt_link_info->bt_hi_pri_link_exist);
++	CL_PRINTF(cli_buf);
++
++	if (stack_info->profile_notified)
++		btcoexist->btc_disp_dbg_msg(btcoexist,
++					    BTC_DBG_DISP_BT_LINK_INFO);
++	else {
++		bt_info_ext = coex_sta->bt_info_ext;
++
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %s / %d/ %x/ %04x",
++			   "Role/A2DP Rate/Bitpool/Feature/Ver",
++			   ((bt_link_info->slave_role) ? "Slave" : "Master"),
++			(bt_info_ext & BIT(0)) ? "BR" : "EDR", coex_sta->a2dp_bit_pool,
++			coex_sta->bt_coex_supported_feature,
++			coex_sta->bt_coex_supported_version);
++		CL_PRINTF(cli_buf);
++	}
++
++
++	for (i = 0; i < BT_INFO_SRC_8821C_2ANT_MAX; i++) {
++		if (coex_sta->bt_info_c2h_cnt[i]) {
++			CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++				"\r\n %-35s = %02x %02x %02x %02x %02x %02x %02x(%d)",
++				   glbt_info_src_8821c_2ant[i],
++				   coex_sta->bt_info_c2h[i][0],
++				   coex_sta->bt_info_c2h[i][1],
++				   coex_sta->bt_info_c2h[i][2],
++				   coex_sta->bt_info_c2h[i][3],
++				   coex_sta->bt_info_c2h[i][4],
++				   coex_sta->bt_info_c2h[i][5],
++				   coex_sta->bt_info_c2h[i][6],
++				   coex_sta->bt_info_c2h_cnt[i]);
++			CL_PRINTF(cli_buf);
++		}
++	}
++
++
++	if (btcoexist->manual_control)
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			"============[mechanisms] (before Manual)============");
++	else
++		CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++			   "============[mechanisms]============");
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "SM[LowPenaltyRA]",
++		   coex_dm->cur_low_penalty_ra);
++	CL_PRINTF(cli_buf);
++
++	ps_tdma_case = coex_dm->cur_ps_tdma;
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = %02x %02x %02x %02x %02x case-%d (%s,%s)",
++		   "PS TDMA",
++		   coex_dm->ps_tdma_para[0], coex_dm->ps_tdma_para[1],
++		   coex_dm->ps_tdma_para[2], coex_dm->ps_tdma_para[3],
++		   coex_dm->ps_tdma_para[4], ps_tdma_case,
++		   (coex_dm->cur_ps_tdma_on ? "On" : "Off"),
++		   (coex_dm->auto_tdma_adjust ? "Adj" : "Fix"));
++
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d",
++		   "WL/BT Coex Table Type",
++		   coex_sta->coex_table_type);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6c0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x6c4);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0x6c8);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x6c0/0x6c4/0x6c8(coexTable)",
++		   u32tmp[0], u32tmp[1], u32tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x778);
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x6cc);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x",
++		   "0x778/0x6cc/IgnWlanAct",
++		   u8tmp[0], u32tmp[0],  coex_dm->cur_ignore_wlan_act);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa0);
++	u32tmp[1] = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x",
++		   "LTE Coex Table W_L/B_L",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist,
++			0xa8);
++	u32tmp[1] = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist,
++			0xac);
++	u32tmp[2] = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb0);
++	u32tmp[3] = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist,
++			0xb4);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "LTE Break Table W_L/B_L/L_W/L_B",
++		   u32tmp[0] & 0xffff, u32tmp[1] & 0xffff,
++		   u32tmp[2] & 0xffff, u32tmp[3] & 0xffff);
++	CL_PRINTF(cli_buf);
++
++	/* Hw setting		 */
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s",
++		   "============[Hw setting]============");
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x430);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0x434);
++	u16tmp[0] = btcoexist->btc_read_2byte(btcoexist, 0x42a);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x456);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/0x%x/0x%x/0x%x",
++		   "0x430/0x434/0x42a/0x456",
++		   u32tmp[0], u32tmp[1], u16tmp[0], u8tmp[0]);
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x38);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x73);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %s",
++		   "LTE CoexOn/Path Ctrl Owner",
++		(int)((u32tmp[0] & BIT(7)) >> 7), ((u8tmp[0] & BIT(2)) ? "WL" : "BT"));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "LTE 3Wire/OPMode/UART/UARTMode",
++		(int)((u32tmp[0] & BIT(6)) >> 6), (int)((u32tmp[0] & (BIT(5) | BIT(4))) >> 4),
++		   (int)((u32tmp[0] & BIT(3)) >> 3),
++		   (int)(u32tmp[0] & (BIT(2) | BIT(1) | BIT(0))));
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %s",
++		   "GNT_WL_SWCtrl/GNT_BT_SWCtrl/Dbg",
++		(int)((u32tmp[0] & BIT(12)) >> 12), (int)((u32tmp[0] & BIT(14)) >> 14),
++		   ((u8tmp[0] & BIT(3)) ? "On" : "Off"));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = halbtc8821c2ant_ltecoex_indirect_read_reg(btcoexist, 0x54);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "GNT_WL/GNT_BT/LTE_Busy/UART_Busy",
++		(int)((u32tmp[0] & BIT(2)) >> 2), (int)((u32tmp[0] & BIT(3)) >> 3),
++		   (int)((u32tmp[0] & BIT(1)) >> 1), (int)(u32tmp[0] & BIT(0)));
++	CL_PRINTF(cli_buf);
++
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xcb0);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xcb4);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xcba);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%04x/ 0x%04x/ 0x%02x %s",
++		   "0xcb0/0xcb4/0xcb8[23:16]",
++		u32tmp[0], u32tmp[1],u8tmp[0],  (   (u8tmp[0] & 0x5) == 0x1 ?  "BTG":   ( (u8tmp[0] & 0xf0) == 0x70?  "WL_G"  : "WL_A" )  ));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x4c);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0x64);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x4c6);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x40);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "0x4c[24:23]/0x64[0]/x4c6[4]/0x40[5]",
++		(u32tmp[0] & ( BIT(24) | BIT(23) )) >> 23 , u8tmp[2]&0x1 , (int)((u8tmp[0] & BIT(4)) >> 4), (int)((u8tmp[1] & BIT(5)) >> 5));
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0x550);
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0x522);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0x953);
++	u8tmp[2] = btcoexist->btc_read_1byte(btcoexist, 0xc50);
++	
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x/ 0x%x/ %s/ 0x%x",
++		   "0x550/0x522/4-RxAGC/0xc50",
++		u32tmp[0], u8tmp[0], (u8tmp[1] & 0x2) ? "On" : "Off", u8tmp[2]);
++	CL_PRINTF(cli_buf);
++
++	u32tmp[0] = btcoexist->btc_read_4byte(btcoexist, 0xf48);
++	u32tmp[1] = btcoexist->btc_read_4byte(btcoexist, 0xf4c);
++	u32tmp[2] = btcoexist->btc_read_4byte(btcoexist, 0xf08);
++
++	u8tmp[0] = btcoexist->btc_read_1byte(btcoexist, 0xa5c);
++	u8tmp[1] = btcoexist->btc_read_1byte(btcoexist, 0xa5d);
++
++	fa_of_dm = (u32tmp[0] & 0xffff)  +  (u32tmp[1] & 0xffff);
++		
++	fa_cck = (u8tmp[0] << 8) + u8tmp[1];
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE,
++		   "\r\n %-35s = 0x%x/ 0x%x/ 0x%x/ 0x%x",
++		   "CCK-CCA/CCK-FA/OFDM-CCA/OFDM-FA",
++		   u32tmp[2] & 0xffff, fa_cck, ((u32tmp[2] & 0xffff0000) >> 16), fa_of_dm);
++	CL_PRINTF(cli_buf);
++
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_OK CCK/11g/11n/11ac",
++		   coex_sta->crc_ok_cck, coex_sta->crc_ok_11g,
++		   coex_sta->crc_ok_11n, coex_sta->crc_ok_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d",
++		   "CRC_Err CCK/11g/11n/11ac",
++		   coex_sta->crc_err_cck, coex_sta->crc_err_11g,
++		   coex_sta->crc_err_11n, coex_sta->crc_err_11n_agg);
++	CL_PRINTF(cli_buf);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x770(high-pri rx/tx)",
++		   coex_sta->high_priority_rx, coex_sta->high_priority_tx);
++	CL_PRINTF(cli_buf);
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d",
++		   "0x774(low-pri rx/tx)",
++		   coex_sta->low_priority_rx, coex_sta->low_priority_tx);
++	CL_PRINTF(cli_buf);
++
++	halbtc8821c2ant_read_score_board(btcoexist,	&u16tmp[0]);
++
++	CL_SPRINTF(cli_buf, BT_TMP_BUF_SIZE, "\r\n %-35s = %04x",
++		   "ScoreBoard[14:0] (from BT)", u16tmp[0]);
++	CL_PRINTF(cli_buf);
++
++	btcoexist->btc_disp_dbg_msg(btcoexist, BTC_DBG_DISP_COEX_STATISTICS);
++}
++
++
++void ex_halbtc8821c2ant_ips_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control ||	btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_IPS_ENTER == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS ENTER notify\n");
++		BTC_TRACE(trace_buf);
++		coex_sta->under_ips = true;
++		coex_sta->under_lps = false;
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, false);
++		
++		halbtc8821c2ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_2ANT_PHASE_WLAN_OFF);
++		
++		halbtc8821c2ant_action_coex_all_off(btcoexist);
++	} else if (BTC_IPS_LEAVE == type) {
++	
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], IPS LEAVE notify\n");
++		BTC_TRACE(trace_buf);
++		
++		coex_sta->under_ips = false;
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, true);
++		
++		halbtc8821c2ant_init_hw_config(btcoexist, false);
++		halbtc8821c2ant_action_init_coex_dm(btcoexist);
++		halbtc8821c2ant_query_bt_info(btcoexist);
++	}
++}
++
++void ex_halbtc8821c2ant_lps_notify(IN struct btc_coexist *btcoexist, IN u8 type)
++{
++	if (btcoexist->manual_control || btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_LPS_ENABLE == type) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS ENABLE notify\n");
++		BTC_TRACE(trace_buf);
++		
++		coex_sta->under_lps = true;
++		coex_sta->under_ips = false;
++
++		if (coex_sta->force_lps_on == true) { /* LPS No-32K */
++			/* Write WL "Active" in Score-board for PS-TDMA */
++			halbtc8821c2ant_post_activestate_to_bt(btcoexist, true);
++
++		} else { /* LPS-32K, need check if this h2c 0x71 can work?? (2015/08/28) */
++			/* Write WL "Non-Active" in Score-board for Native-PS */
++			halbtc8821c2ant_post_activestate_to_bt(btcoexist, false);
++
++		}
++	} else if (BTC_LPS_DISABLE == type) {
++	
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], LPS DISABLE notify\n");
++		BTC_TRACE(trace_buf);
++		
++		coex_sta->under_lps = false;
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, true);
++	}
++}
++
++void ex_halbtc8821c2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++	u32	u32tmp;
++	u8	u8tmpa, u8tmpb;
++	boolean	wifi_connected = false;
++
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN notify()\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821c2ant_post_activestate_to_bt(btcoexist, true);
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	if (BTC_SCAN_START == type)   //for dual band, no action for BTC_SCAN_START, the action is change to switchband_notify
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	halbtc8821c2ant_query_bt_info(btcoexist);  /*  this can't be removed for RF off_on event, or BT would dis-connect */
++
++	if (BTC_SCAN_START_2G == type) {
++
++		if (!wifi_connected)
++			coex_sta->wifi_is_high_pri_task = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], SCAN START notify (2G)\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_2ANT_PHASE_2G_RUNTIME);
++
++		halbtc8821c2ant_run_coexist_mechanism(btcoexist);
++
++	} else if (BTC_SCAN_FINISH == type) {
++
++		coex_sta->wifi_is_high_pri_task = false;
++
++		btcoexist->btc_get(btcoexist, BTC_GET_U1_AP_NUM,
++				   &coex_sta->scan_ap_num);
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], SCAN FINISH notify  (Scan-AP = %d)\n", coex_sta->scan_ap_num);
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_run_coexist_mechanism(btcoexist);
++	}
++
++}
++
++void ex_halbtc8821c2ant_switchband_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type)
++{
++
++	boolean wifi_connected = false, bt_hs_on = false;
++	u32	wifi_link_status = 0;
++	u32	num_of_wifi_link = 0;
++	boolean	bt_ctrl_agg_buf_size = false;
++	u8	agg_buf_size = 5;
++
++	
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm)
++		return;
++
++	if(type == BTC_SWITCH_TO_5G) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], switchband_notify ---  switch to 5G\n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8821c2ant_action_wifi_under5g(btcoexist);
++
++	} else {
++	
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], switchband_notify ---  switch to 2G\n");
++		BTC_TRACE(trace_buf);
++		
++		ex_halbtc8821c2ant_scan_notify(btcoexist,
++				    BTC_SCAN_START_2G);
++	}
++}
++
++
++void ex_halbtc8821c2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type)
++{
++
++	halbtc8821c2ant_post_activestate_to_bt(btcoexist, true);
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	if ( (BTC_ASSOCIATE_5G_START == type) ||  (BTC_ASSOCIATE_5G_FINISH== type)) {
++
++				if (BTC_ASSOCIATE_5G_START == type)
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], connect_notify ---  5G start\n");
++				else
++					BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++						    "[BTCoex], connect_notify ---  5G finish\n");
++				
++				BTC_TRACE(trace_buf);
++
++				halbtc8821c2ant_action_wifi_under5g(btcoexist);
++				return;
++	}
++
++
++	if (BTC_ASSOCIATE_START == type) {
++
++		coex_sta->wifi_is_high_pri_task = true;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT START notify (2G)\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_2ANT_PHASE_2G_RUNTIME);
++
++		halbtc8821c2ant_run_coexist_mechanism(btcoexist);
++
++		coex_dm->arp_cnt = 0;
++
++	} else if (BTC_ASSOCIATE_FINISH == type) {
++
++		coex_sta->wifi_is_high_pri_task = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], CONNECT FINISH notify	(2G)\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_run_coexist_mechanism(btcoexist);
++	}
++}
++
++void ex_halbtc8821c2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	u8			h2c_parameter[3] = {0};
++	u32			wifi_bw;
++	u8			wifi_central_chnl;
++	u8			ap_num = 0;
++	boolean		wifi_under_b_mode = false, wifi_under_5g = false;
++
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	if (wifi_under_5g) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 5G!!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, true);		
++		halbtc8821c2ant_action_wifi_under5g(btcoexist);
++		return;
++	}
++
++	if (BTC_MEDIA_CONNECT == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA connect notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, true);
++
++		halbtc8821c2ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_2ANT_PHASE_2G_RUNTIME);
++
++		/* psd_scan->ant_det_is_ant_det_available = TRUE; */
++
++		btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_B_MODE,
++				   &wifi_under_b_mode);
++
++		/* Set CCK Tx/Rx high Pri except 11b mode */
++		if (wifi_under_b_mode) {
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x00); /* CCK Rx */
++		} else {
++
++			btcoexist->btc_write_1byte(btcoexist, 0x6cd,
++						   0x00); /* CCK Tx */
++			btcoexist->btc_write_1byte(btcoexist, 0x6cf,
++						   0x10); /* CCK Rx */
++		}
++
++	} else {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], MEDIA disconnect notify\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, false);
++
++		btcoexist->btc_write_1byte(btcoexist, 0x6cd, 0x0); /* CCK Tx */
++		btcoexist->btc_write_1byte(btcoexist, 0x6cf, 0x0); /* CCK Rx */
++	}
++
++
++	halbtc8821c2ant_update_wifi_channel_info(btcoexist, type);
++}
++
++void ex_halbtc8821c2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	boolean under_4way = false, wifi_under_5g = false;
++
++	if (btcoexist->manual_control ||
++	    btcoexist->stop_coex_dm ||
++	    coex_sta->bt_disabled)
++		return;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifi_under_5g);
++
++	if (wifi_under_5g) {
++		
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], WiFi is under 5G!!!\n");
++		BTC_TRACE(trace_buf);
++		
++		halbtc8821c2ant_action_wifi_under5g(btcoexist);
++		return;
++	}
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_4_WAY_PROGRESS,
++			   &under_4way);
++
++	if (under_4way) {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], specific Packet ---- under_4way!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++
++	} else if (BTC_PACKET_ARP == type) {
++
++		coex_dm->arp_cnt++;
++		
++		if (coex_sta->wifi_is_high_pri_task) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"[BTCoex], specific Packet ARP notify -cnt = %d\n", coex_dm->arp_cnt);
++			BTC_TRACE(trace_buf);
++		}
++
++	} else {
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], specific Packet DHCP or EAPOL notify [Type = %d]\n", type);
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wifi_is_high_pri_task = true;
++		coex_sta->specific_pkt_period_cnt = 2;
++	}
++
++	if (coex_sta->wifi_is_high_pri_task)
++		halbtc8821c2ant_run_coexist_mechanism(btcoexist);
++
++}
++
++void ex_halbtc8821c2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length)
++{
++	u8			bt_info = 0;
++	u8			i, rsp_source = 0;
++	boolean			bt_busy = false, limited_dig = false;
++	boolean			wifi_connected = false;
++
++	coex_sta->c2h_bt_info_req_sent = false;
++
++	btcoexist->btc_get(btcoexist, BTC_GET_BL_WIFI_CONNECTED,
++			   &wifi_connected);
++
++	rsp_source = tmp_buf[0] & 0xf;
++	if (rsp_source >= BT_INFO_SRC_8821C_2ANT_MAX)
++		rsp_source = BT_INFO_SRC_8821C_2ANT_WIFI_FW;
++	coex_sta->bt_info_c2h_cnt[rsp_source]++;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "[BTCoex], Bt info[%d], length=%d, hex data=[", rsp_source,
++		    length);
++	BTC_TRACE(trace_buf);
++	for (i = 0; i < length; i++) {
++		coex_sta->bt_info_c2h[rsp_source][i] = tmp_buf[i];
++		if (i == 1)
++			bt_info = tmp_buf[i];
++
++		if (i == length - 1) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x]\n",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "0x%02x, ",
++				    tmp_buf[i]);
++			BTC_TRACE(trace_buf);
++		}
++	}
++
++	if (BT_INFO_SRC_8821C_2ANT_WIFI_FW != rsp_source) {
++
++		/* if 0xff, it means BT is under WHCK test */
++		if (bt_info == 0xff)
++			coex_sta->bt_whck_test = true;
++		else
++			coex_sta->bt_whck_test = false;
++
++		coex_sta->bt_retry_cnt =	/* [3:0] */
++			coex_sta->bt_info_c2h[rsp_source][2] & 0xf;
++
++		if (coex_sta->bt_retry_cnt >= 1)
++			coex_sta->pop_event_cnt++;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x80)
++			coex_sta->bt_create_connection = true;
++		else
++			coex_sta->bt_create_connection = false;
++
++		/* unit: %, value-100 to translate to unit: dBm  */
++		coex_sta->bt_rssi = coex_sta->bt_info_c2h[rsp_source][3] * 2 + 10;
++
++		if (coex_sta->bt_info_c2h[rsp_source][2] & 0x20)
++			coex_sta->c2h_bt_remote_name_req = true;
++		else
++			coex_sta->c2h_bt_remote_name_req = false;
++
++		if ((coex_sta->bt_info_c2h[rsp_source][1] & 0x49) == 0x49) {
++			coex_sta->a2dp_bit_pool =
++				coex_sta->bt_info_c2h[rsp_source][6];
++		} else
++			coex_sta->a2dp_bit_pool = 0;
++
++		if (coex_sta->bt_info_c2h[rsp_source][1] & 0x9)
++			coex_sta->acl_busy = true;
++		else
++			coex_sta->acl_busy = false;
++
++		coex_sta->bt_info_ext =
++			coex_sta->bt_info_c2h[rsp_source][4];
++
++		/* Here we need to resend some wifi info to BT */
++		/* because bt is reset and loss of the info. */
++
++		if ((!btcoexist->manual_control) && (!btcoexist->stop_coex_dm)) {
++
++			/*  Re-Init */
++			if ((coex_sta->bt_info_ext & BIT(1))) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit1 check, send wifi BW&Chnl to BT!!\n");
++				BTC_TRACE(trace_buf);
++				if (wifi_connected)
++					ex_halbtc8821c2ant_media_status_notify(
++						btcoexist, BTC_MEDIA_CONNECT);
++				else
++					ex_halbtc8821c2ant_media_status_notify(
++						btcoexist, BTC_MEDIA_DISCONNECT);
++			}
++
++
++			/*  If Ignore_WLanAct && not SetUp_Link */
++			if ((coex_sta->bt_info_ext & BIT(3)) && (!(coex_sta->bt_info_ext & BIT(2)))) {
++
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"[BTCoex], BT ext info bit3 check, set BT NOT to ignore Wlan active!!\n");
++				BTC_TRACE(trace_buf);
++				halbtc8821c2ant_ignore_wlan_act(btcoexist,
++							FORCE_EXEC, false);
++			}
++		}
++
++		/* check BIT2 first ==> check if bt is under inquiry or page scan */
++		if (bt_info & BT_INFO_8821C_2ANT_B_INQ_PAGE)
++			coex_sta->c2h_bt_inquiry_page = true;
++		else
++			coex_sta->c2h_bt_inquiry_page = false;
++	}
++
++	coex_sta->num_of_profile = 0;
++
++	/* set link exist status */
++	if (!(bt_info & BT_INFO_8821C_2ANT_B_CONNECTION)) {
++		coex_sta->bt_link_exist = false;
++		coex_sta->pan_exist = false;
++		coex_sta->a2dp_exist = false;
++		coex_sta->hid_exist = false;
++		coex_sta->sco_exist = false;
++	} else {	/* connection exists */
++		coex_sta->bt_link_exist = true;
++		if (bt_info & BT_INFO_8821C_2ANT_B_FTP) {
++			coex_sta->pan_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->pan_exist = false;
++
++		if (bt_info & BT_INFO_8821C_2ANT_B_A2DP) {
++			coex_sta->a2dp_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->a2dp_exist = false;
++
++		if (bt_info & BT_INFO_8821C_2ANT_B_HID) {
++			coex_sta->hid_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->hid_exist = false;
++
++		if (bt_info & BT_INFO_8821C_2ANT_B_SCO_ESCO) {
++			coex_sta->sco_exist = true;
++			coex_sta->num_of_profile++;
++		} else
++			coex_sta->sco_exist = false;
++
++	}
++
++	halbtc8821c2ant_update_bt_link_info(btcoexist);
++
++	if (!(bt_info & BT_INFO_8821C_2ANT_B_CONNECTION)) {
++		coex_dm->bt_status = BT_8821C_2ANT_BT_STATUS_NON_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Connected idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info ==
++		BT_INFO_8821C_2ANT_B_CONNECTION) {	/* connection exists but no busy */
++		coex_dm->bt_status = BT_8821C_2ANT_BT_STATUS_CONNECTED_IDLE;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT Connected-idle!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if ((bt_info & BT_INFO_8821C_2ANT_B_SCO_ESCO) ||
++		   (bt_info & BT_INFO_8821C_2ANT_B_SCO_BUSY)) {
++		coex_dm->bt_status = BT_8821C_2ANT_BT_STATUS_SCO_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT SCO busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else if (bt_info & BT_INFO_8821C_2ANT_B_ACL_BUSY) {
++		coex_dm->bt_status = BT_8821C_2ANT_BT_STATUS_ACL_BUSY;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], BtInfoNotify(), BT ACL busy!!!\n");
++		BTC_TRACE(trace_buf);
++	} else {
++		coex_dm->bt_status = BT_8821C_2ANT_BT_STATUS_MAX;
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), BT Non-Defined state!!!\n");
++		BTC_TRACE(trace_buf);
++	}
++
++	if ((BT_8821C_2ANT_BT_STATUS_ACL_BUSY == coex_dm->bt_status) ||
++	    (BT_8821C_2ANT_BT_STATUS_SCO_BUSY == coex_dm->bt_status) ||
++	    (BT_8821C_2ANT_BT_STATUS_ACL_SCO_BUSY == coex_dm->bt_status)) {
++		bt_busy = true;
++		limited_dig = true;
++	} else {
++		bt_busy = false;
++		limited_dig = false;
++	}
++
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_TRAFFIC_BUSY, &bt_busy);
++
++	coex_dm->limited_dig = limited_dig;
++	btcoexist->btc_set(btcoexist, BTC_SET_BL_BT_LIMITED_DIG, &limited_dig);
++
++	if (btcoexist->manual_control) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(), No run_coexist_mechanism return for Manual CTRL<===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	if (btcoexist->stop_coex_dm) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], BtInfoNotify(),  No run_coexist_mechanism return for Stop Coex DM <===\n");
++		BTC_TRACE(trace_buf);
++		return;
++	}
++
++	halbtc8821c2ant_run_coexist_mechanism(btcoexist);
++}
++
++void ex_halbtc8821c2ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], RF Status notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_RF_ON == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned ON!!\n");
++		BTC_TRACE(trace_buf);
++
++		coex_sta->wl_rf_off_on_event = true;
++		btcoexist->stop_coex_dm = false;
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, TRUE);
++		halbtc8821c2ant_post_onoffstate_to_bt(btcoexist, TRUE);
++	} else if (BTC_RF_OFF == type) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], RF is turned OFF!!\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_2ANT_PHASE_WLAN_OFF);
++		
++		halbtc8821c2ant_action_coex_all_off(btcoexist);
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, FALSE);
++		halbtc8821c2ant_post_onoffstate_to_bt(btcoexist, FALSE);
++		btcoexist->stop_coex_dm = true;
++		coex_sta->wl_rf_off_on_event = false;
++
++	}
++}
++
++void ex_halbtc8821c2ant_halt_notify(IN struct btc_coexist *btcoexist)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Halt notify\n");
++	BTC_TRACE(trace_buf);
++
++	halbtc8821c2ant_set_ant_path(btcoexist, 
++						BTC_ANT_PATH_AUTO,
++					     	FORCE_EXEC, 
++					     	BT_8821C_2ANT_PHASE_WLAN_OFF);
++
++	ex_halbtc8821c2ant_media_status_notify(btcoexist, BTC_MEDIA_DISCONNECT);
++
++	halbtc8821c2ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++	halbtc8821c2ant_post_activestate_to_bt(btcoexist, FALSE);
++	halbtc8821c2ant_post_onoffstate_to_bt(btcoexist, FALSE);
++}
++
++void ex_halbtc8821c2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state)
++{
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE, "[BTCoex], Pnp notify\n");
++	BTC_TRACE(trace_buf);
++
++	if (BTC_WIFI_PNP_SLEEP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to SLEEP\n");
++		BTC_TRACE(trace_buf);
++
++		/* Sinda 20150819, workaround for driver skip leave IPS/LPS to speed up sleep time. */
++		/* Driver do not leave IPS/LPS when driver is going to sleep, so BTCoexistence think wifi is still under IPS/LPS */
++		/* BT should clear UnderIPS/UnderLPS state to avoid mismatch state after wakeup. */
++		coex_sta->under_ips = false;
++		coex_sta->under_lps = false;
++
++		halbtc8821c2ant_enable_gnt_to_gpio(btcoexist, FALSE);
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, FALSE);
++		halbtc8821c2ant_post_onoffstate_to_bt(btcoexist, FALSE);
++	} else if (BTC_WIFI_PNP_WAKE_UP == pnp_state) {
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], Pnp notify to WAKE UP\n");
++		BTC_TRACE(trace_buf);
++
++		halbtc8821c2ant_post_activestate_to_bt(btcoexist, TRUE);
++		halbtc8821c2ant_post_onoffstate_to_bt(btcoexist, TRUE);
++	}
++}
++
++void ex_halbtc8821c2ant_periodical(IN struct btc_coexist *btcoexist)
++{
++	struct  btc_bt_link_info	*bt_link_info = &btcoexist->bt_link_info;
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			    "[BTCoex], ============== Periodical ==============\n");
++	BTC_TRACE(trace_buf);
++
++#if (BT_AUTO_REPORT_ONLY_8821C_2ANT == 0)
++	halbtc8821c2ant_query_bt_info(btcoexist);
++#endif
++
++	halbtc8821c2ant_monitor_bt_ctr(btcoexist);
++	halbtc8821c2ant_monitor_wifi_ctr(btcoexist);
++	halbtc8821c2ant_monitor_bt_enable_disable(btcoexist);
++
++	/* for 4-way, DHCP, EAPOL packet */
++	if (coex_sta->specific_pkt_period_cnt > 0) {
++
++		coex_sta->specific_pkt_period_cnt--;
++
++		if ((coex_sta->specific_pkt_period_cnt == 0) && (coex_sta->wifi_is_high_pri_task))
++			coex_sta->wifi_is_high_pri_task = false;
++
++		BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++			"[BTCoex], ***************** Hi-Pri Task = %s*****************\n", (coex_sta->wifi_is_high_pri_task ? "Yes" : "No"));
++		BTC_TRACE(trace_buf);
++
++	}
++
++	if (coex_sta->bt_coex_supported_feature == 0)
++		coex_sta->bt_coex_supported_feature = btcoexist->btc_get_bt_coex_supported_feature(btcoexist);
++	
++	if	( (coex_sta->bt_coex_supported_version == 0) && (!coex_sta->bt_disabled) )
++			coex_sta->bt_coex_supported_version = btcoexist->btc_get_bt_coex_supported_version(btcoexist);
++
++	if (halbtc8821c2ant_is_wifibt_status_changed(btcoexist))
++		halbtc8821c2ant_run_coexist_mechanism(btcoexist);
++}
++
++
++void ex_halbtc8821c2ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds)
++{
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx Ext Call AntennaDetect()!!\n");
++	BTC_TRACE(trace_buf);
++
++#if BT_8821C_2ANT_ANTDET_ENABLE
++	static u32 ant_det_count = 0, ant_det_fail_count = 0;
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++	/*boolean scan, roam;*/
++
++	BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++		    "xxxxxxxxxxxxxxxx Call AntennaDetect()!!\n");
++	BTC_TRACE(trace_buf);
++
++	if (seconds == 0) {
++		psd_scan->ant_det_try_count	= 0;
++		psd_scan->ant_det_fail_count	= 0;
++		ant_det_count = 0;
++		ant_det_fail_count = 0;
++		board_info->btdm_ant_det_finish = false;
++		board_info->btdm_ant_num_by_ant_det = 1;
++		return;
++	}
++
++	if (!board_info->btdm_ant_det_finish) {
++		psd_scan->ant_det_inteval_count =
++			psd_scan->ant_det_inteval_count + 2;
++
++		if (psd_scan->ant_det_inteval_count >=
++		    BT_8821C_2ANT_ANTDET_RETRY_INTERVAL) {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is up, Try Detect!!\n");
++			BTC_TRACE(trace_buf);
++			halbtc8821c2ant_psd_antenna_detection_check(btcoexist);
++
++			if (board_info->btdm_ant_det_finish) {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Success!!\n");
++				BTC_TRACE(trace_buf);
++
++#if 0
++				board_info->btdm_ant_det_finish = false;
++#endif
++
++#if 0
++				if (board_info->btdm_ant_num_by_ant_det == 2)
++					halbtc8821c2ant_mechanism_switch(
++						btcoexist, true);
++				else
++					halbtc8821c2ant_mechanism_switch(
++						btcoexist, false);
++#endif
++			} else {
++				BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++					"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Fail!!\n");
++				BTC_TRACE(trace_buf);
++			}
++			psd_scan->ant_det_inteval_count = 0;
++		} else {
++			BTC_SPRINTF(trace_buf, BT_TMP_BUF_SIZE,
++				"xxxxxxxxxxxxxxxx AntennaDetect(), Antenna Det Timer is not up! (%d)\n",
++				    psd_scan->ant_det_inteval_count);
++			BTC_TRACE(trace_buf);
++		}
++
++	}
++#endif
++
++
++}
++
++
++void ex_halbtc8821c2ant_display_ant_detection(IN struct btc_coexist *btcoexist)
++{
++
++#if BT_8821C_2ANT_ANTDET_ENABLE
++	struct  btc_board_info	*board_info = &btcoexist->board_info;
++
++	if (psd_scan->ant_det_try_count != 0)	{
++		halbtc8821c2ant_psd_show_antenna_detect_result(btcoexist);
++
++		if (board_info->btdm_ant_det_finish)
++			halbtc8821c2ant_psd_showdata(btcoexist);
++		return;
++	}
++#endif
++
++}
++
++
++#endif
++
++#endif	/*  #if (RTL8821C_SUPPORT == 1) */
+diff --git a/drivers/net/wireless/rtl8812au/hal/btc/halbtc8821c2ant.h b/drivers/net/wireless/rtl8812au/hal/btc/halbtc8821c2ant.h
+new file mode 100644
+index 0000000..5c6abbf
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/btc/halbtc8821c2ant.h
+@@ -0,0 +1,433 @@
++
++#if (BT_SUPPORT == 1 && COEX_SUPPORT == 1)
++
++#if (RTL8821C_SUPPORT == 1)
++
++/* *******************************************
++ * The following is for 8821C 2Ant BT Co-exist definition
++ * ******************************************* */
++#define	BT_AUTO_REPORT_ONLY_8821C_2ANT				1
++
++
++#define	BT_INFO_8821C_2ANT_B_FTP						BIT(7)
++#define	BT_INFO_8821C_2ANT_B_A2DP					BIT(6)
++#define	BT_INFO_8821C_2ANT_B_HID						BIT(5)
++#define	BT_INFO_8821C_2ANT_B_SCO_BUSY				BIT(4)
++#define	BT_INFO_8821C_2ANT_B_ACL_BUSY				BIT(3)
++#define	BT_INFO_8821C_2ANT_B_INQ_PAGE				BIT(2)
++#define	BT_INFO_8821C_2ANT_B_SCO_ESCO				BIT(1)
++#define	BT_INFO_8821C_2ANT_B_CONNECTION				BIT(0)
++
++#define		BTC_RSSI_COEX_THRESH_TOL_8821C_2ANT		2
++
++
++#define	BT_8821C_2ANT_WIFI_RSSI_COEXSWITCH_THRES1				80  /* unit: % WiFi RSSI Threshold for   2-Ant free-run/2-Ant TDMA translation, default = 42 */
++#define	BT_8821C_2ANT_BT_RSSI_COEXSWITCH_THRES1				80 /*  unit: % BT RSSI Threshold for      2-Ant free-run/2-Ant TDMA translation, default = 46 */
++#define	BT_8821C_2ANT_WIFI_RSSI_COEXSWITCH_THRES2				80  /* unit: % WiFi RSSI Threshold for   1-Ant TDMA/1-Ant PS-TDMA translation, default = 42 */
++#define	BT_8821C_2ANT_BT_RSSI_COEXSWITCH_THRES2				80 /*  unit: % BT RSSI Threshold for      1-Ant TDMA/1-Ant PS-TDMA translation, default = 46 */
++#define	BT_8821C_2ANT_DEFAULT_ISOLATION						15	 /*  unit: dB */
++#define   BT_8821C_2ANT_WIFI_MAX_TX_POWER						15	 /*  unit: dBm */
++#define   BT_8821C_2ANT_BT_MAX_TX_POWER							3	 /*  unit: dBm */
++#define   BT_8821C_2ANT_WIFI_SIR_THRES1							-15  /*  unit: dB */
++#define   BT_8821C_2ANT_WIFI_SIR_THRES2							-30  /*  unit: dB */
++#define   BT_8821C_2ANT_BT_SIR_THRES1							-15		 /*  unit: dB */
++#define   BT_8821C_2ANT_BT_SIR_THRES2							-30		 /*  unit: dB */
++
++
++/* for Antenna detection */
++#define	BT_8821C_2ANT_ANTDET_PSDTHRES_BACKGROUND						50
++#define	BT_8821C_2ANT_ANTDET_PSDTHRES_2ANT_BADISOLATION				70
++#define	BT_8821C_2ANT_ANTDET_PSDTHRES_2ANT_GOODISOLATION			52
++#define	BT_8821C_2ANT_ANTDET_PSDTHRES_1ANT							40
++#define	BT_8821C_2ANT_ANTDET_RETRY_INTERVAL							10	/* retry timer if ant det is fail, unit: second */
++#define	BT_8821C_2ANT_ANTDET_SWEEPPOINT_DELAY							40000
++#define	BT_8821C_2ANT_ANTDET_ENABLE										0
++#define	BT_8821C_2ANT_ANTDET_COEXMECHANISMSWITCH_ENABLE			0
++#define	BT_8821C_2ANT_ANTDET_BTTXTIME									100
++#define	BT_8821C_2ANT_ANTDET_BTTXCHANNEL								39
++
++#define	BT_8821C_2ANT_LTECOEX_INDIRECTREG_ACCESS_TIMEOUT		30000
++
++enum bt_8821c_2ant_signal_state {
++	BT_8821C_2ANT_SIG_STA_SET_TO_LOW		= 0x0,
++	BT_8821C_2ANT_SIG_STA_SET_BY_HW		= 0x0,
++	BT_8821C_2ANT_SIG_STA_SET_TO_HIGH		= 0x1,
++	BT_8821C_2ANT_SIG_STA_MAX
++};
++
++enum bt_8821c_2ant_path_ctrl_owner {
++	BT_8821C_2ANT_PCO_BTSIDE		= 0x0,
++	BT_8821C_2ANT_PCO_WLSIDE	= 0x1,
++	BT_8821C_2ANT_PCO_MAX
++};
++
++enum bt_8821c_2ant_gnt_ctrl_type {
++	BT_8821C_2ANT_GNT_TYPE_CTRL_BY_PTA		= 0x0,
++	BT_8821C_2ANT_GNT_TYPE_CTRL_BY_SW		= 0x1,
++	BT_8821C_2ANT_GNT_TYPE_MAX
++};
++
++enum bt_8821c_2ant_gnt_ctrl_block {
++	BT_8821C_2ANT_GNT_BLOCK_RFC_BB		= 0x0,
++	BT_8821C_2ANT_GNT_BLOCK_RFC			= 0x1,
++	BT_8821C_2ANT_GNT_BLOCK_BB			= 0x2,
++	BT_8821C_2ANT_GNT_BLOCK_MAX
++};
++
++enum bt_8821c_2ant_lte_coex_table_type {
++	BT_8821C_2ANT_CTT_WL_VS_LTE			= 0x0,
++	BT_8821C_2ANT_CTT_BT_VS_LTE			= 0x1,
++	BT_8821C_2ANT_CTT_MAX
++};
++
++enum bt_8821c_2ant_lte_break_table_type {
++	BT_8821C_2ANT_LBTT_WL_BREAK_LTE			= 0x0,
++	BT_8821C_2ANT_LBTT_BT_BREAK_LTE				= 0x1,
++	BT_8821C_2ANT_LBTT_LTE_BREAK_WL			= 0x2,
++	BT_8821C_2ANT_LBTT_LTE_BREAK_BT				= 0x3,
++	BT_8821C_2ANT_LBTT_MAX
++};
++
++enum bt_info_src_8821c_2ant {
++	BT_INFO_SRC_8821C_2ANT_WIFI_FW			= 0x0,
++	BT_INFO_SRC_8821C_2ANT_BT_RSP				= 0x1,
++	BT_INFO_SRC_8821C_2ANT_BT_ACTIVE_SEND		= 0x2,
++	BT_INFO_SRC_8821C_2ANT_MAX
++};
++
++enum bt_8821c_2ant_bt_status {
++	BT_8821C_2ANT_BT_STATUS_NON_CONNECTED_IDLE	= 0x0,
++	BT_8821C_2ANT_BT_STATUS_CONNECTED_IDLE		= 0x1,
++	BT_8821C_2ANT_BT_STATUS_INQ_PAGE				= 0x2,
++	BT_8821C_2ANT_BT_STATUS_ACL_BUSY				= 0x3,
++	BT_8821C_2ANT_BT_STATUS_SCO_BUSY				= 0x4,
++	BT_8821C_2ANT_BT_STATUS_ACL_SCO_BUSY			= 0x5,
++	BT_8821C_2ANT_BT_STATUS_MAX
++};
++
++enum bt_8821c_2ant_coex_algo {
++	BT_8821C_2ANT_COEX_ALGO_UNDEFINED			= 0x0,
++	BT_8821C_2ANT_COEX_ALGO_SCO				= 0x1,
++	BT_8821C_2ANT_COEX_ALGO_HID				= 0x2,
++	BT_8821C_2ANT_COEX_ALGO_A2DP				= 0x3,
++	BT_8821C_2ANT_COEX_ALGO_A2DP_PANHS		= 0x4,
++	BT_8821C_2ANT_COEX_ALGO_PANEDR			= 0x5,
++	BT_8821C_2ANT_COEX_ALGO_PANHS			= 0x6,
++	BT_8821C_2ANT_COEX_ALGO_PANEDR_A2DP		= 0x7,
++	BT_8821C_2ANT_COEX_ALGO_PANEDR_HID		= 0x8,
++	BT_8821C_2ANT_COEX_ALGO_HID_A2DP_PANEDR	= 0x9,
++	BT_8821C_2ANT_COEX_ALGO_HID_A2DP			= 0xa,
++	BT_8821C_2ANT_COEX_ALGO_NOPROFILEBUSY		= 0xb,
++	BT_8821C_2ANT_COEX_ALGO_MAX
++};
++
++enum bt_8821c_2ant_ext_ant_switch_ctrl_type {
++	BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_BBSW	= 0x0,
++	BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_PTA		= 0x1,
++	BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_ANTDIV	= 0x2,
++	BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_MAC		= 0x3,
++	BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_BY_BT		= 0x4,
++	BT_8821C_2ANT_EXT_ANT_SWITCH_CTRL_MAX
++};
++
++enum bt_8821c_2ant_ext_ant_switch_pos_type {
++	BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_BT			= 0x0,
++	BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_WLG			= 0x1,
++	BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_WLA			= 0x2,
++	BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_NOCARE		= 0x3,
++	BT_8821C_2ANT_EXT_ANT_SWITCH_MAIN_TO_MAX
++};
++
++enum bt_8821c_2ant_ext_band_switch_pos_type {
++	BT_8821C_2ANT_EXT_BAND_SWITCH_TO_WLG			= 0x0,
++	BT_8821C_2ANT_EXT_BAND_SWITCH_TO_WLA			= 0x1,
++	BT_8821C_2ANT_EXT_BAND_SWITCH_TO_MAX
++};
++
++enum bt_8821c_2ant_int_block{
++	BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLG_OF_BTG			= 0x0,
++	BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLG_OF_WLAG		= 0x1,
++	BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_WLA_OF_WLAG		= 0x2,
++	BT_8821C_2ANT_INT_BLOCK_SWITCH_TO_MAX
++};
++
++enum bt_8821c_2ant_phase{
++	BT_8821C_2ANT_PHASE_COEX_INIT								= 0x0,
++	BT_8821C_2ANT_PHASE_WLANONLY_INIT							= 0x1,	
++	BT_8821C_2ANT_PHASE_WLAN_OFF								= 0x2,
++	BT_8821C_2ANT_PHASE_2G_RUNTIME								= 0x3,
++	BT_8821C_2ANT_PHASE_5G_RUNTIME								= 0x4,
++	BT_8821C_2ANT_PHASE_BTMPMODE									= 0x5,
++	BT_8821C_2ANT_PHASE_MAX
++};
++
++struct coex_dm_8821c_2ant {
++	/* hw setting */
++	u32		pre_ant_pos_type;
++	u32		cur_ant_pos_type;
++	/* fw mechanism */
++	u8		pre_bt_dec_pwr_lvl;
++	u8		cur_bt_dec_pwr_lvl;
++	u8		pre_fw_dac_swing_lvl;
++	u8		cur_fw_dac_swing_lvl;
++	boolean		cur_ignore_wlan_act;
++	boolean		pre_ignore_wlan_act;
++	u8		pre_ps_tdma;
++	u8		cur_ps_tdma;
++	u8		ps_tdma_para[5];
++	u8		ps_tdma_du_adj_type;
++	boolean		reset_tdma_adjust;
++	boolean		auto_tdma_adjust;
++	boolean		pre_ps_tdma_on;
++	boolean		cur_ps_tdma_on;
++	boolean		pre_bt_auto_report;
++	boolean		cur_bt_auto_report;
++
++	/* sw mechanism */
++	boolean		pre_rf_rx_lpf_shrink;
++	boolean		cur_rf_rx_lpf_shrink;
++	u32		bt_rf_0x1e_backup;
++	boolean	pre_low_penalty_ra;
++	boolean		cur_low_penalty_ra;
++	boolean		pre_dac_swing_on;
++	u32		pre_dac_swing_lvl;
++	boolean		cur_dac_swing_on;
++	u32		cur_dac_swing_lvl;
++	boolean		pre_adc_back_off;
++	boolean		cur_adc_back_off;
++	boolean	pre_agc_table_en;
++	boolean		cur_agc_table_en;
++	u32		pre_val0x6c0;
++	u32		cur_val0x6c0;
++	u32		pre_val0x6c4;
++	u32		cur_val0x6c4;
++	u32		pre_val0x6c8;
++	u32		cur_val0x6c8;
++	u8		pre_val0x6cc;
++	u8		cur_val0x6cc;
++	boolean		limited_dig;
++
++	/* algorithm related */
++	u8		pre_algorithm;
++	u8		cur_algorithm;
++	u8		bt_status;
++	u8		wifi_chnl_info[3];
++
++	boolean		need_recover0x948;
++	u32		backup0x948;
++
++	u8		pre_lps;
++	u8		cur_lps;
++	u8		pre_rpwm;
++	u8		cur_rpwm;
++
++	boolean		is_switch_to_1dot5_ant;
++	u8		switch_thres_offset;
++	u32					arp_cnt;
++
++	u32		pre_ext_ant_switch_status;
++	u32		cur_ext_ant_switch_status;
++	
++	u8		pre_ext_band_switch_status;
++	u8		cur_ext_band_switch_status;
++
++	u8		pre_int_block_status;
++	u8		cur_int_block_status;
++};
++
++struct coex_sta_8821c_2ant {
++	boolean					bt_disabled;
++	boolean					bt_link_exist;
++	boolean					sco_exist;
++	boolean					a2dp_exist;
++	boolean					hid_exist;
++	boolean					pan_exist;
++
++	boolean					under_lps;
++	boolean					under_ips;
++	u32					high_priority_tx;
++	u32					high_priority_rx;
++	u32					low_priority_tx;
++	u32					low_priority_rx;
++	u8					bt_rssi;
++	boolean					bt_tx_rx_mask;
++	u8					pre_bt_rssi_state;
++	u8					pre_wifi_rssi_state[4];
++	boolean					c2h_bt_info_req_sent;
++	u8					bt_info_c2h[BT_INFO_SRC_8821C_2ANT_MAX][10];
++	u32					bt_info_c2h_cnt[BT_INFO_SRC_8821C_2ANT_MAX];
++	boolean				bt_whck_test;
++	boolean					c2h_bt_inquiry_page;
++	boolean					c2h_bt_remote_name_req;
++	u8					bt_retry_cnt;
++	u8					bt_info_ext;
++	u32					pop_event_cnt;
++	u8					scan_ap_num;
++
++	u32					crc_ok_cck;
++	u32					crc_ok_11g;
++	u32					crc_ok_11n;
++	u32					crc_ok_11n_agg;
++
++	u32					crc_err_cck;
++	u32					crc_err_11g;
++	u32					crc_err_11n;
++	u32					crc_err_11n_agg;
++
++	
++	boolean					cck_lock;
++	boolean					pre_ccklock;
++	boolean					cck_ever_lock;
++
++	u8					coex_table_type;
++	boolean					force_lps_on;
++
++	u8					dis_ver_info_cnt;
++
++	u8					a2dp_bit_pool;
++	u8					cut_version;
++
++	boolean					concurrent_rx_mode_on;
++
++	u16					score_board;
++	u8					isolation_btween_wb;   /* 0~ 50 */
++	u8					wifi_coex_thres;
++	u8					bt_coex_thres;
++	u8					wifi_coex_thres2;
++	u8					bt_coex_thres2;
++
++	u8					num_of_profile;
++	boolean				acl_busy;
++	boolean				wl_rf_off_on_event;
++	boolean				bt_create_connection;
++	boolean				run_time_state;
++	boolean				wifi_is_high_pri_task;
++	u32					specific_pkt_period_cnt;
++	u32					bt_coex_supported_feature;
++	u32					bt_coex_supported_version;
++};
++
++#define  BT_8821C_2ANT_EXT_ANT_SWITCH_USE_DPDT 		0
++#define  BT_8821C_2ANT_EXT_ANT_SWITCH_USE_SPDT 		1
++
++#define  BT_8821C_2ANT_EXT_BAND_SWITCH_USE_DPDT 	0
++#define  BT_8821C_2ANT_EXT_BAND_SWITCH_USE_SPDT 	1
++
++
++struct rfe_type_8821c_2ant{
++
++	u8			rfe_module_type;	
++	boolean		ext_ant_switch_exist;
++	u8			ext_ant_switch_type;			/* 0:DPDT, 1:SPDT */
++	u8			ext_ant_switch_ctrl_polarity;		/*  iF 0: DPDT_P=0, DPDT_N=1 => BTG to Main, WL_A+G to Aux */
++	
++	boolean		ext_band_switch_exist;
++	u8			ext_band_switch_type;			/* 0:DPDT, 1:SPDT */
++	u8			ext_band_switch_ctrl_polarity;
++
++	boolean		wlg_Locate_at_btg;				/*  If true:  WLG at BTG, If false: WLG at WLAG  */	
++
++	boolean		ext_ant_switch_diversity;		/* If diversity on  */
++};
++
++#define BT_8821C_2ANT_ANTDET_PSD_POINTS			256	/* MAX:1024 */
++#define BT_8821C_2ANT_ANTDET_PSD_AVGNUM		1	/* MAX:3 */
++#define BT_8821C_2ANT_ANTDET_BUF_LEN			16
++
++struct psdscan_sta_8821c_2ant {
++
++	u32			ant_det_bt_le_channel;  /* BT LE Channel ex:2412 */
++	u32			ant_det_bt_tx_time;
++	u32			ant_det_pre_psdscan_peak_val;
++	boolean			ant_det_is_ant_det_available;
++	u32			ant_det_psd_scan_peak_val;
++	boolean			ant_det_is_btreply_available;
++	u32			ant_det_psd_scan_peak_freq;
++
++	u8			ant_det_result;
++	u8			ant_det_peak_val[BT_8821C_2ANT_ANTDET_BUF_LEN];
++	u8			ant_det_peak_freq[BT_8821C_2ANT_ANTDET_BUF_LEN];
++	u32			ant_det_try_count;
++	u32			ant_det_fail_count;
++	u32			ant_det_inteval_count;
++	u32			ant_det_thres_offset;
++
++	u32			real_cent_freq;
++	s32			real_offset;
++	u32			real_span;
++
++	u32			psd_band_width;  /* unit: Hz */
++	u32			psd_point;		/* 128/256/512/1024 */
++	u32			psd_report[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_report_max_hold[1024];  /* unit:dB (20logx), 0~255 */
++	u32			psd_start_point;
++	u32			psd_stop_point;
++	u32			psd_max_value_point;
++	u32			psd_max_value;
++	u32			psd_start_base;
++	u32			psd_avg_num;	/* 1/8/16/32 */
++	u32			psd_gen_count;
++	boolean			is_psd_running;
++	boolean			is_psd_show_max_only;
++};
++
++
++/* *******************************************
++ * The following is interface which will notify coex module.
++ * ******************************************* */
++void ex_halbtc8821c2ant_power_on_setting(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c2ant_pre_load_firmware(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c2ant_init_hw_config(IN struct btc_coexist *btcoexist,
++				       IN boolean wifi_only);
++void ex_halbtc8821c2ant_init_coex_dm(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c2ant_ips_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8821c2ant_lps_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 type);
++void ex_halbtc8821c2ant_scan_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8821c2ant_switchband_notify(IN struct btc_coexist *btcoexist,
++				    IN u8 type);
++void ex_halbtc8821c2ant_connect_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 type);
++void ex_halbtc8821c2ant_media_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821c2ant_specific_packet_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821c2ant_bt_info_notify(IN struct btc_coexist *btcoexist,
++				       IN u8 *tmp_buf, IN u8 length);
++void ex_halbtc8821c2ant_rf_status_notify(IN struct btc_coexist *btcoexist,
++		IN u8 type);
++void ex_halbtc8821c2ant_halt_notify(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c2ant_pnp_notify(IN struct btc_coexist *btcoexist,
++				   IN u8 pnp_state);
++void ex_halbtc8821c2ant_periodical(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c2ant_display_coex_info(IN struct btc_coexist *btcoexist);
++void ex_halbtc8821c2ant_antenna_detection(IN struct btc_coexist *btcoexist,
++		IN u32 cent_freq, IN u32 offset, IN u32 span, IN u32 seconds);
++void ex_halbtc8821c2ant_display_ant_detection(IN struct btc_coexist *btcoexist);
++
++
++#else
++#define	ex_halbtc8821c2ant_power_on_setting(btcoexist)
++#define	ex_halbtc8821c2ant_pre_load_firmware(btcoexist)
++#define	ex_halbtc8821c2ant_init_hw_config(btcoexist, wifi_only)
++#define	ex_halbtc8821c2ant_init_coex_dm(btcoexist)
++#define	ex_halbtc8821c2ant_ips_notify(btcoexist, type)
++#define	ex_halbtc8821c2ant_lps_notify(btcoexist, type)
++#define	ex_halbtc8821c2ant_scan_notify(btcoexist, type)
++#define   ex_halbtc8821c2ant_switchband_notify(btcoexist,type)
++#define	ex_halbtc8821c2ant_connect_notify(btcoexist, type)
++#define	ex_halbtc8821c2ant_media_status_notify(btcoexist, type)
++#define	ex_halbtc8821c2ant_specific_packet_notify(btcoexist, type)
++#define	ex_halbtc8821c2ant_bt_info_notify(btcoexist, tmp_buf, length)
++#define	ex_halbtc8821c2ant_rf_status_notify(btcoexist, type)
++#define	ex_halbtc8821c2ant_halt_notify(btcoexist)
++#define	ex_halbtc8821c2ant_pnp_notify(btcoexist, pnp_state)
++#define	ex_halbtc8821c2ant_periodical(btcoexist)
++#define	ex_halbtc8821c2ant_display_coex_info(btcoexist)
++#define	ex_halbtc8821c2ant_display_ant_detection(btcoexist)
++#define	ex_halbtc8821c2ant_antenna_detection(btcoexist, centFreq, offset, span, seconds)
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/efuse/efuse_mask.h b/drivers/net/wireless/rtl8812au/hal/efuse/efuse_mask.h
+new file mode 100644
+index 0000000..e1c38c1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/efuse/efuse_mask.h
+@@ -0,0 +1,98 @@
++
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++
++#if defined(CONFIG_RTL8188E)
++	#include "rtl8188e/HalEfuseMask8188E_USB.h"
++#endif
++
++#if defined(CONFIG_RTL8812A)
++	#include "rtl8812a/HalEfuseMask8812A_USB.h"
++#endif
++
++#if defined(CONFIG_RTL8821A)
++	#include "rtl8812a/HalEfuseMask8821A_USB.h"
++#endif
++
++#if defined(CONFIG_RTL8192E)
++	#include "rtl8192e/HalEfuseMask8192E_USB.h"
++#endif
++
++#if defined(CONFIG_RTL8723B)
++	#include "rtl8723b/HalEfuseMask8723B_USB.h"
++#endif
++
++#if defined(CONFIG_RTL8814A)
++	#include "rtl8814a/HalEfuseMask8814A_USB.h"
++#endif
++
++#if defined(CONFIG_RTL8703B)
++	#include "rtl8703b/HalEfuseMask8703B_USB.h"
++#endif
++
++#if defined(CONFIG_RTL8723D)
++	#include "rtl8723d/HalEfuseMask8723D_USB.h"
++#endif
++
++#if defined(CONFIG_RTL8188F)
++	#include "rtl8188f/HalEfuseMask8188F_USB.h"
++#endif
++
++#if defined(CONFIG_RTL8822B)
++	#include "rtl8822b/HalEfuseMask8822B_USB.h"
++#endif
++
++#elif DEV_BUS_TYPE == RT_PCI_INTERFACE
++
++#if defined(CONFIG_RTL8188E)
++	#include "rtl8188e/HalEfuseMask8188E_PCIE.h"
++#endif
++
++#if defined(CONFIG_RTL8812A)
++	#include "rtl8812a/HalEfuseMask8812A_PCIE.h"
++#endif
++
++#if defined(CONFIG_RTL8821A)
++	#include "rtl8812a/HalEfuseMask8821A_PCIE.h"
++#endif
++
++#if defined(CONFIG_RTL8192E)
++	#include "rtl8192e/HalEfuseMask8192E_PCIE.h"
++#endif
++
++#if defined(CONFIG_RTL8723B)
++	#include "rtl8723b/HalEfuseMask8723B_PCIE.h"
++#endif
++
++#if defined(CONFIG_RTL8814A)
++	#include "rtl8814a/HalEfuseMask8814A_PCIE.h"
++#endif
++
++#if defined(CONFIG_RTL8703B)
++	#include "rtl8703b/HalEfuseMask8703B_PCIE.h"
++#endif
++
++#if defined(CONFIG_RTL8822B)
++	#include "rtl8822b/HalEfuseMask8822B_PCIE.h"
++#endif
++#if defined(CONFIG_RTL8723D)
++	#include "rtl8723d/HalEfuseMask8723D_PCIE.h"
++#endif
++
++#elif DEV_BUS_TYPE == RT_SDIO_INTERFACE
++
++#if defined(CONFIG_RTL8188E)
++	#include "rtl8188e/HalEfuseMask8188E_SDIO.h"
++#endif
++
++#if defined(CONFIG_RTL8703B)
++	#include "rtl8703b/HalEfuseMask8703B_SDIO.h"
++#endif
++
++#if defined(CONFIG_RTL8188F)
++	#include "rtl8188f/HalEfuseMask8188F_SDIO.h"
++#endif
++
++#if defined(CONFIG_RTL8723D)
++	#include "rtl8723d/HalEfuseMask8723D_SDIO.h"
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8812A_PCIE.c b/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8812A_PCIE.c
+new file mode 100644
+index 0000000..ce01664
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8812A_PCIE.c
+@@ -0,0 +1,99 @@
++/******************************************************************************
++*
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++*
++* This program is free software; you can redistribute it and/or modify it
++* under the terms of version 2 of the GNU General Public License as
++* published by the Free Software Foundation.
++*
++* This program is distributed in the hope that it will be useful, but WITHOUT
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++* more details.
++*
++* You should have received a copy of the GNU General Public License along with
++* this program; if not, write to the Free Software Foundation, Inc.,
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++*
++*
++******************************************************************************/
++
++/* #include "Mp_Precomp.h" */
++/* #include "../odm_precomp.h" */
++
++#include <drv_types.h>
++
++#include "HalEfuseMask8812A_PCIE.h"
++
++/******************************************************************************
++*                           MPCIE.TXT
++******************************************************************************/
++
++u1Byte Array_MP_8812A_MPCIE[] = {
++	0xFF,
++	0xF7,
++	0xEF,
++	0xDE,
++	0xFD,
++	0xFB,
++	0x10,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x0F,
++	0xF3,
++	0xFF,
++	0xFF,
++	0x7C,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++
++};
++
++u2Byte
++EFUSE_GetArrayLen_MP_8812A_MPCIE(VOID)
++{
++	return sizeof(Array_MP_8812A_MPCIE) / sizeof(u1Byte);
++}
++
++VOID
++EFUSE_GetMaskArray_MP_8812A_MPCIE(
++	IN	OUT pu1Byte Array
++)
++{
++	u2Byte len = EFUSE_GetArrayLen_MP_8812A_MPCIE(), i = 0;
++
++	for (i = 0; i < len; ++i)
++		Array[i] = Array_MP_8812A_MPCIE[i];
++}
++BOOLEAN
++EFUSE_IsAddressMasked_MP_8812A_MPCIE(
++	IN   u2Byte  Offset
++)
++{
++	int r = Offset / 16;
++	int c = (Offset % 16) / 2;
++	int result = 0;
++
++	if (c < 4) /* Upper double word */
++		result = (Array_MP_8812A_MPCIE[r] & (0x10 << c));
++	else
++		result = (Array_MP_8812A_MPCIE[r] & (0x01 << (c - 4)));
++
++	return (result > 0) ? 0 : 1;
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8812A_PCIE.h b/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8812A_PCIE.h
+new file mode 100644
+index 0000000..3a986c2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8812A_PCIE.h
+@@ -0,0 +1,38 @@
++/******************************************************************************
++*
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++*
++* This program is free software; you can redistribute it and/or modify it
++* under the terms of version 2 of the GNU General Public License as
++* published by the Free Software Foundation.
++*
++* This program is distributed in the hope that it will be useful, but WITHOUT
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++* more details.
++*
++* You should have received a copy of the GNU General Public License along with
++* this program; if not, write to the Free Software Foundation, Inc.,
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++*
++*
++******************************************************************************/
++
++
++/******************************************************************************
++*                           MPCIE.TXT
++******************************************************************************/
++
++
++u2Byte
++EFUSE_GetArrayLen_MP_8812A_MPCIE(VOID);
++
++VOID
++EFUSE_GetMaskArray_MP_8812A_MPCIE(
++	IN	OUT pu1Byte Array
++);
++
++BOOLEAN
++EFUSE_IsAddressMasked_MP_8812A_MPCIE(/* TC: Test Chip, MP: MP Chip */
++	IN   u2Byte  Offset
++);
+diff --git a/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8812A_USB.c b/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8812A_USB.c
+new file mode 100644
+index 0000000..f5b2fb2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8812A_USB.c
+@@ -0,0 +1,99 @@
++/******************************************************************************
++*
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++*
++* This program is free software; you can redistribute it and/or modify it
++* under the terms of version 2 of the GNU General Public License as
++* published by the Free Software Foundation.
++*
++* This program is distributed in the hope that it will be useful, but WITHOUT
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++* more details.
++*
++* You should have received a copy of the GNU General Public License along with
++* this program; if not, write to the Free Software Foundation, Inc.,
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++*
++*
++******************************************************************************/
++
++/* #include "Mp_Precomp.h" */
++/* #include "../odm_precomp.h" */
++
++#include <drv_types.h>
++
++#include "HalEfuseMask8812A_USB.h"
++
++/******************************************************************************
++*                           MUSB.TXT
++******************************************************************************/
++
++u1Byte Array_MP_8812A_MUSB[] = {
++	0xFF,
++	0xF7,
++	0xEF,
++	0xDE,
++	0xFC,
++	0xFB,
++	0x10,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x0F,
++	0xF3,
++	0xFF,
++	0xFF,
++	0xFF,
++	0xFF,
++	0xF7,
++	0x00,
++	0xFF,
++	0xFF,
++	0xF3,
++	0x0F,
++	0xFF,
++	0xF3,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++
++};
++
++u2Byte
++EFUSE_GetArrayLen_MP_8812A_MUSB(VOID)
++{
++	return sizeof(Array_MP_8812A_MUSB) / sizeof(u1Byte);
++}
++
++VOID
++EFUSE_GetMaskArray_MP_8812A_MUSB(
++	IN	OUT pu1Byte Array
++)
++{
++	u2Byte len = EFUSE_GetArrayLen_MP_8812A_MUSB(), i = 0;
++
++	for (i = 0; i < len; ++i)
++		Array[i] = Array_MP_8812A_MUSB[i];
++}
++BOOLEAN
++EFUSE_IsAddressMasked_MP_8812A_MUSB(
++	IN   u2Byte  Offset
++)
++{
++	int r = Offset / 16;
++	int c = (Offset % 16) / 2;
++	int result = 0;
++
++	if (c < 4) /* Upper double word */
++		result = (Array_MP_8812A_MUSB[r] & (0x10 << c));
++	else
++		result = (Array_MP_8812A_MUSB[r] & (0x01 << (c - 4)));
++
++	return (result > 0) ? 0 : 1;
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8812A_USB.h b/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8812A_USB.h
+new file mode 100644
+index 0000000..fd326d5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8812A_USB.h
+@@ -0,0 +1,39 @@
++/******************************************************************************
++*
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++*
++* This program is free software; you can redistribute it and/or modify it
++* under the terms of version 2 of the GNU General Public License as
++* published by the Free Software Foundation.
++*
++* This program is distributed in the hope that it will be useful, but WITHOUT
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++* more details.
++*
++* You should have received a copy of the GNU General Public License along with
++* this program; if not, write to the Free Software Foundation, Inc.,
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++*
++*
++******************************************************************************/
++
++
++
++/******************************************************************************
++*                           MUSB.TXT
++******************************************************************************/
++
++
++u2Byte
++EFUSE_GetArrayLen_MP_8812A_MUSB(VOID);
++
++VOID
++EFUSE_GetMaskArray_MP_8812A_MUSB(
++	IN	OUT pu1Byte Array
++);
++
++BOOLEAN
++EFUSE_IsAddressMasked_MP_8812A_MUSB(/* TC: Test Chip, MP: MP Chip */
++	IN   u2Byte  Offset
++);
+diff --git a/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8821A_PCIE.c b/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8821A_PCIE.c
+new file mode 100644
+index 0000000..8d109db
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8821A_PCIE.c
+@@ -0,0 +1,99 @@
++/******************************************************************************
++*
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++*
++* This program is free software; you can redistribute it and/or modify it
++* under the terms of version 2 of the GNU General Public License as
++* published by the Free Software Foundation.
++*
++* This program is distributed in the hope that it will be useful, but WITHOUT
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++* more details.
++*
++* You should have received a copy of the GNU General Public License along with
++* this program; if not, write to the Free Software Foundation, Inc.,
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++*
++*
++******************************************************************************/
++
++/* #include "Mp_Precomp.h" */
++/* #include "../odm_precomp.h" */
++
++#include <drv_types.h>
++
++#include "HalEfuseMask8812A_PCIE.h"
++
++/******************************************************************************
++*                           MPCIE.TXT
++******************************************************************************/
++
++u1Byte Array_MP_8821A_MPCIE[] = {
++	0xFF,
++	0xF3,
++	0xEF,
++	0x90,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x0F,
++	0xF1,
++	0xFF,
++	0xFF,
++	0xFF,
++	0xFF,
++	0xFF,
++	0xF1,
++	0x00,
++	0x80,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++
++};
++
++u2Byte
++EFUSE_GetArrayLen_MP_8821A_MPCIE(VOID)
++{
++	return sizeof(Array_MP_8821A_MPCIE) / sizeof(u1Byte);
++}
++
++VOID
++EFUSE_GetMaskArray_MP_8821A_MPCIE(
++	IN	OUT pu1Byte Array
++)
++{
++	u2Byte len = EFUSE_GetArrayLen_MP_8821A_MPCIE(), i = 0;
++
++	for (i = 0; i < len; ++i)
++		Array[i] = Array_MP_8821A_MPCIE[i];
++}
++BOOLEAN
++EFUSE_IsAddressMasked_MP_8821A_MPCIE(
++	IN   u2Byte  Offset
++)
++{
++	int r = Offset / 16;
++	int c = (Offset % 16) / 2;
++	int result = 0;
++
++	if (c < 4) /* Upper double word */
++		result = (Array_MP_8821A_MPCIE[r] & (0x10 << c));
++	else
++		result = (Array_MP_8821A_MPCIE[r] & (0x01 << (c - 4)));
++
++	return (result > 0) ? 0 : 1;
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8821A_PCIE.h b/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8821A_PCIE.h
+new file mode 100644
+index 0000000..986bb98
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8821A_PCIE.h
+@@ -0,0 +1,38 @@
++/******************************************************************************
++*
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++*
++* This program is free software; you can redistribute it and/or modify it
++* under the terms of version 2 of the GNU General Public License as
++* published by the Free Software Foundation.
++*
++* This program is distributed in the hope that it will be useful, but WITHOUT
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++* more details.
++*
++* You should have received a copy of the GNU General Public License along with
++* this program; if not, write to the Free Software Foundation, Inc.,
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++*
++*
++******************************************************************************/
++
++
++/******************************************************************************
++*                           MPCIE.TXT
++******************************************************************************/
++
++
++u2Byte
++EFUSE_GetArrayLen_MP_8821A_MPCIE(VOID);
++
++VOID
++EFUSE_GetMaskArray_MP_8821A_MPCIE(
++	IN	OUT pu1Byte Array
++);
++
++BOOLEAN
++EFUSE_IsAddressMasked_MP_8821A_MPCIE(/* TC: Test Chip, MP: MP Chip */
++	IN   u2Byte  Offset
++);
+diff --git a/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8821A_USB.c b/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8821A_USB.c
+new file mode 100644
+index 0000000..4be4929
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8821A_USB.c
+@@ -0,0 +1,101 @@
++/******************************************************************************
++*
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++*
++* This program is free software; you can redistribute it and/or modify it
++* under the terms of version 2 of the GNU General Public License as
++* published by the Free Software Foundation.
++*
++* This program is distributed in the hope that it will be useful, but WITHOUT
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++* more details.
++*
++* You should have received a copy of the GNU General Public License along with
++* this program; if not, write to the Free Software Foundation, Inc.,
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++*
++*
++******************************************************************************/
++
++/* #include "Mp_Precomp.h" */
++/* #include "../odm_precomp.h" */
++
++#include <drv_types.h>
++
++#include "HalEfuseMask8821A_USB.h"
++
++
++/******************************************************************************
++*                           MUSB.TXT
++******************************************************************************/
++
++
++u1Byte Array_MP_8821A_MUSB[] = {
++	0xFF,
++	0xF3,
++	0xEF,
++	0x90,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x0F,
++	0xF1,
++	0x00,
++	0x00,
++	0x00,
++	0xBF,
++	0xFF,
++	0xFF,
++	0xFF,
++	0xB0,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++	0x00,
++
++};
++
++u2Byte
++EFUSE_GetArrayLen_MP_8821A_MUSB(VOID)
++{
++	return sizeof(Array_MP_8821A_MUSB) / sizeof(u1Byte);
++}
++
++VOID
++EFUSE_GetMaskArray_MP_8821A_MUSB(
++	IN	OUT pu1Byte Array
++)
++{
++	u2Byte len = EFUSE_GetArrayLen_MP_8821A_MUSB(), i = 0;
++
++	for (i = 0; i < len; ++i)
++		Array[i] = Array_MP_8821A_MUSB[i];
++}
++BOOLEAN
++EFUSE_IsAddressMasked_MP_8821A_MUSB(
++	IN   u2Byte  Offset
++)
++{
++	int r = Offset / 16;
++	int c = (Offset % 16) / 2;
++	int result = 0;
++
++	if (c < 4) /* Upper double word */
++		result = (Array_MP_8821A_MUSB[r] & (0x10 << c));
++	else
++		result = (Array_MP_8821A_MUSB[r] & (0x01 << (c - 4)));
++
++	return (result > 0) ? 0 : 1;
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8821A_USB.h b/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8821A_USB.h
+new file mode 100644
+index 0000000..98797b1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/efuse/rtl8812a/HalEfuseMask8821A_USB.h
+@@ -0,0 +1,36 @@
++/******************************************************************************
++*
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++*
++* This program is free software; you can redistribute it and/or modify it
++* under the terms of version 2 of the GNU General Public License as
++* published by the Free Software Foundation.
++*
++* This program is distributed in the hope that it will be useful, but WITHOUT
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++* more details.
++*
++* You should have received a copy of the GNU General Public License along with
++* this program; if not, write to the Free Software Foundation, Inc.,
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++*
++*
++******************************************************************************/
++
++/******************************************************************************
++*                           MUSB.TXT
++******************************************************************************/
++
++u2Byte
++EFUSE_GetArrayLen_MP_8821A_MUSB(VOID);
++
++VOID
++EFUSE_GetMaskArray_MP_8821A_MUSB(
++	IN	OUT pu1Byte Array
++);
++
++BOOLEAN
++EFUSE_IsAddressMasked_MP_8821A_MUSB(/* TC: Test Chip, MP: MP Chip */
++	IN   u2Byte  Offset
++);
+diff --git a/drivers/net/wireless/rtl8812au/hal/hal_btcoex.c b/drivers/net/wireless/rtl8812au/hal/hal_btcoex.c
+new file mode 100644
+index 0000000..b791064
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/hal_btcoex.c
+@@ -0,0 +1,4081 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define __HAL_BTCOEX_C__
++
++#ifdef CONFIG_BT_COEXIST
++
++#include <hal_data.h>
++#include <hal_btcoex.h>
++#include <Mp_Precomp.h>
++
++/* ************************************
++ *		Global variables
++ * ************************************ */
++const char *const BtProfileString[] = {
++	"NONE",
++	"A2DP",
++	"PAN",
++	"HID",
++	"SCO",
++};
++
++const char *const BtSpecString[] = {
++	"1.0b",
++	"1.1",
++	"1.2",
++	"2.0+EDR",
++	"2.1+EDR",
++	"3.0+HS",
++	"4.0",
++};
++
++const char *const BtLinkRoleString[] = {
++	"Master",
++	"Slave",
++};
++
++const char *const h2cStaString[] = {
++	"successful",
++	"h2c busy",
++	"rf off",
++	"fw not read",
++};
++
++const char *const ioStaString[] = {
++	"success",
++	"can not IO",
++	"rf off",
++	"fw not read",
++	"wait io timeout",
++	"invalid len",
++	"idle Q empty",
++	"insert waitQ fail",
++	"unknown fail",
++	"wrong level",
++	"h2c stopped",
++};
++
++const char *const GLBtcWifiBwString[] = {
++	"11bg",
++	"HT20",
++	"HT40",
++	"HT80",
++	"HT160"
++};
++
++const char *const GLBtcWifiFreqString[] = {
++	"2.4G",
++	"5G"
++};
++
++const char *const GLBtcIotPeerString[] = {
++	"UNKNOWN",
++	"REALTEK",
++	"REALTEK_92SE",
++	"BROADCOM",
++	"RALINK",
++	"ATHEROS",
++	"CISCO",
++	"MERU",
++	"MARVELL",
++	"REALTEK_SOFTAP", /* peer is RealTek SOFT_AP, by Bohn, 2009.12.17 */
++	"SELF_SOFTAP", /* Self is SoftAP */
++	"AIRGO",
++	"INTEL",
++	"RTK_APCLIENT",
++	"REALTEK_81XX",
++	"REALTEK_WOW",
++	"REALTEK_JAGUAR_BCUTAP",
++	"REALTEK_JAGUAR_CCUTAP"
++};
++
++const char *const coexOpcodeString[] = {
++	"Wifi status notify",
++	"Wifi progress",
++	"Wifi info",
++	"Power state",
++	"Set Control",
++	"Get Control"
++};
++
++const char *const coexIndTypeString[] = {
++	"bt info",
++	"pstdma",
++	"limited tx/rx",
++	"coex table",
++	"request"
++};
++
++const char *const coexH2cResultString[] = {
++	"ok",
++	"unknown",
++	"un opcode",
++	"opVer MM",
++	"par Err",
++	"par OoR",
++	"reqNum MM",
++	"halMac Fail",
++	"h2c TimeOut",
++	"Invalid c2h Len",
++	"data overflow"
++};
++
++#define HALBTCOUTSRC_AGG_CHK_WINDOW_IN_MS	8000
++
++struct btc_coexist GLBtCoexist;
++BTC_OFFLOAD gl_coex_offload;
++u8 GLBtcWiFiInScanState;
++u8 GLBtcWiFiInIQKState;
++u8 GLBtcWiFiInIPS;
++u8 GLBtcWiFiInLPS;
++u8 GLBtcBtCoexAliveRegistered;
++
++/*
++ * BT control H2C/C2H
++ */
++/* EXT_EID */
++typedef enum _bt_ext_eid {
++	C2H_WIFI_FW_ACTIVE_RSP	= 0,
++	C2H_TRIG_BY_BT_FW
++} BT_EXT_EID;
++
++/* C2H_STATUS */
++typedef enum _bt_c2h_status {
++	BT_STATUS_OK = 0,
++	BT_STATUS_VERSION_MISMATCH,
++	BT_STATUS_UNKNOWN_OPCODE,
++	BT_STATUS_ERROR_PARAMETER
++} BT_C2H_STATUS;
++
++/* C2H BT OP CODES */
++typedef enum _bt_op_code {
++	BT_OP_GET_BT_VERSION	= 0,
++	BT_OP_WRITE_REG_ADDR	= 12,
++	BT_OP_WRITE_REG_VALUE,
++	BT_OP_READ_REG		= 17
++} BT_OP_CODE;
++
++#define BTC_MPOPER_TIMEOUT	50	/* unit: ms */
++
++#define C2H_MAX_SIZE		16
++u8 GLBtcBtMpOperSeq;
++_mutex GLBtcBtMpOperLock;
++_timer GLBtcBtMpOperTimer;
++_sema GLBtcBtMpRptSema;
++u8 GLBtcBtMpRptSeq;
++u8 GLBtcBtMpRptStatus;
++u8 GLBtcBtMpRptRsp[C2H_MAX_SIZE];
++u8 GLBtcBtMpRptRspSize;
++u8 GLBtcBtMpRptWait;
++u8 GLBtcBtMpRptWiFiOK;
++u8 GLBtcBtMpRptBTOK;
++
++/*
++ * Debug
++ */
++u32 GLBtcDbgType[COMP_MAX];
++u8 GLBtcDbgBuf[BT_TMP_BUF_SIZE];
++u1Byte	gl_btc_trace_buf[BT_TMP_BUF_SIZE];
++
++typedef struct _btcoexdbginfo {
++	u8 *info;
++	u32 size; /* buffer total size */
++	u32 len; /* now used length */
++} BTCDBGINFO, *PBTCDBGINFO;
++
++BTCDBGINFO GLBtcDbgInfo;
++
++#define	BT_Operation(Adapter)						_FALSE
++
++static void DBG_BT_INFO_INIT(PBTCDBGINFO pinfo, u8 *pbuf, u32 size)
++{
++	if (NULL == pinfo)
++		return;
++
++	_rtw_memset(pinfo, 0, sizeof(BTCDBGINFO));
++
++	if (pbuf && size) {
++		pinfo->info = pbuf;
++		pinfo->size = size;
++	}
++}
++
++void DBG_BT_INFO(u8 *dbgmsg)
++{
++	PBTCDBGINFO pinfo;
++	u32 msglen, buflen;
++	u8 *pbuf;
++
++
++	pinfo = &GLBtcDbgInfo;
++
++	if (NULL == pinfo->info)
++		return;
++
++	msglen = strlen(dbgmsg);
++	if (pinfo->len + msglen > pinfo->size)
++		return;
++
++	pbuf = pinfo->info + pinfo->len;
++	_rtw_memcpy(pbuf, dbgmsg, msglen);
++	pinfo->len += msglen;
++}
++
++/* ************************************
++ *		Debug related function
++ * ************************************ */
++static u8 halbtcoutsrc_IsBtCoexistAvailable(PBTC_COEXIST pBtCoexist)
++{
++	if (!pBtCoexist->bBinded ||
++	    NULL == pBtCoexist->Adapter)
++		return _FALSE;
++	return _TRUE;
++}
++
++static void halbtcoutsrc_DbgInit(void)
++{
++	u8	i;
++
++	for (i = 0; i < COMP_MAX; i++)
++		GLBtcDbgType[i] = 0;
++}
++
++static u8 halbtcoutsrc_IsCsrBtCoex(PBTC_COEXIST pBtCoexist)
++{
++	if (pBtCoexist->board_info.bt_chip_type == BTC_CHIP_CSR_BC4
++	    || pBtCoexist->board_info.bt_chip_type == BTC_CHIP_CSR_BC8
++	   )
++		return _TRUE;
++	return _FALSE;
++}
++
++static u8 halbtcoutsrc_IsHwMailboxExist(PBTC_COEXIST pBtCoexist)
++{
++	if (pBtCoexist->board_info.bt_chip_type == BTC_CHIP_CSR_BC4
++	    || pBtCoexist->board_info.bt_chip_type == BTC_CHIP_CSR_BC8
++	   )
++		return _FALSE;
++	else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter))
++		return _FALSE;
++	else
++		return _TRUE;
++}
++
++static void halbtcoutsrc_LeaveLps(PBTC_COEXIST pBtCoexist)
++{
++	PADAPTER padapter;
++
++
++	padapter = pBtCoexist->Adapter;
++
++	pBtCoexist->bt_info.bt_ctrl_lps = _TRUE;
++	pBtCoexist->bt_info.bt_lps_on = _FALSE;
++
++	rtw_btcoex_LPS_Leave(padapter);
++}
++
++void halbtcoutsrc_EnterLps(PBTC_COEXIST pBtCoexist)
++{
++	PADAPTER padapter;
++
++
++	padapter = pBtCoexist->Adapter;
++
++	if (pBtCoexist->bdontenterLPS == _FALSE) {
++		pBtCoexist->bt_info.bt_ctrl_lps = _TRUE;
++		pBtCoexist->bt_info.bt_lps_on = _TRUE;
++
++		rtw_btcoex_LPS_Enter(padapter);
++	}
++}
++
++void halbtcoutsrc_NormalLps(PBTC_COEXIST pBtCoexist)
++{
++	PADAPTER padapter;
++
++
++
++	padapter = pBtCoexist->Adapter;
++
++	if (pBtCoexist->bt_info.bt_ctrl_lps) {
++		pBtCoexist->bt_info.bt_lps_on = _FALSE;
++		rtw_btcoex_LPS_Leave(padapter);
++		pBtCoexist->bt_info.bt_ctrl_lps = _FALSE;
++
++		/* recover the LPS state to the original */
++#if 0
++		padapter->HalFunc.UpdateLPSStatusHandler(
++			padapter,
++			pPSC->RegLeisurePsMode,
++			pPSC->RegPowerSaveMode);
++#endif
++	}
++}
++
++/*
++ *  Constraint:
++ *	   1. this function will request pwrctrl->lock
++ */
++void halbtcoutsrc_LeaveLowPower(PBTC_COEXIST pBtCoexist)
++{
++#ifdef CONFIG_LPS_LCLK
++	PADAPTER padapter;
++	PHAL_DATA_TYPE pHalData;
++	struct pwrctrl_priv *pwrctrl;
++	s32 ready;
++	u32 stime;
++	s32 utime;
++	u32 timeout; /* unit: ms */
++
++
++	padapter = pBtCoexist->Adapter;
++	pHalData = GET_HAL_DATA(padapter);
++	pwrctrl = adapter_to_pwrctl(padapter);
++	ready = _FAIL;
++#ifdef LPS_RPWM_WAIT_MS
++	timeout = LPS_RPWM_WAIT_MS;
++#else /* !LPS_RPWM_WAIT_MS */
++	timeout = 30;
++#endif /* !LPS_RPWM_WAIT_MS */
++
++	if (GLBtcBtCoexAliveRegistered == _TRUE)
++		return;
++
++	stime = rtw_get_current_time();
++	do {
++		ready = rtw_register_task_alive(padapter, BTCOEX_ALIVE);
++		if (_SUCCESS == ready)
++			break;
++
++		utime = rtw_get_passing_time_ms(stime);
++		if (utime > timeout)
++			break;
++
++		rtw_msleep_os(1);
++	} while (1);
++
++	GLBtcBtCoexAliveRegistered = _TRUE;
++#endif /* CONFIG_LPS_LCLK */
++}
++
++/*
++ *  Constraint:
++ *	   1. this function will request pwrctrl->lock
++ */
++void halbtcoutsrc_NormalLowPower(PBTC_COEXIST pBtCoexist)
++{
++#ifdef CONFIG_LPS_LCLK
++	PADAPTER padapter;
++
++	if (GLBtcBtCoexAliveRegistered == _FALSE)
++		return;
++
++	padapter = pBtCoexist->Adapter;
++	rtw_unregister_task_alive(padapter, BTCOEX_ALIVE);
++
++	GLBtcBtCoexAliveRegistered = _FALSE;
++#endif /* CONFIG_LPS_LCLK */
++}
++
++void halbtcoutsrc_DisableLowPower(PBTC_COEXIST pBtCoexist, u8 bLowPwrDisable)
++{
++	pBtCoexist->bt_info.bt_disable_low_pwr = bLowPwrDisable;
++	if (bLowPwrDisable)
++		halbtcoutsrc_LeaveLowPower(pBtCoexist);		/* leave 32k low power. */
++	else
++		halbtcoutsrc_NormalLowPower(pBtCoexist);	/* original 32k low power behavior. */
++}
++
++void halbtcoutsrc_AggregationCheck(PBTC_COEXIST pBtCoexist)
++{
++	PADAPTER padapter;
++	BOOLEAN bNeedToAct = _FALSE;
++	static u32 preTime = 0;
++	u32 curTime = 0;
++
++	padapter = pBtCoexist->Adapter;
++
++	/* ===================================== */
++	/* To void continuous deleteBA=>addBA=>deleteBA=>addBA */
++	/* This function is not allowed to continuous called. */
++	/* It can only be called after 8 seconds. */
++	/* ===================================== */
++
++	curTime = rtw_systime_to_ms(rtw_get_current_time());
++	if ((curTime - preTime) < HALBTCOUTSRC_AGG_CHK_WINDOW_IN_MS)	/* over 8 seconds you can execute this function again. */
++		return;
++	else
++		preTime = curTime;
++
++	if (pBtCoexist->bt_info.reject_agg_pkt) {
++		bNeedToAct = _TRUE;
++		pBtCoexist->bt_info.pre_reject_agg_pkt = pBtCoexist->bt_info.reject_agg_pkt;
++	} else {
++		if (pBtCoexist->bt_info.pre_reject_agg_pkt) {
++			bNeedToAct = _TRUE;
++			pBtCoexist->bt_info.pre_reject_agg_pkt = pBtCoexist->bt_info.reject_agg_pkt;
++		}
++
++		if (pBtCoexist->bt_info.pre_bt_ctrl_agg_buf_size !=
++		    pBtCoexist->bt_info.bt_ctrl_agg_buf_size) {
++			bNeedToAct = _TRUE;
++			pBtCoexist->bt_info.pre_bt_ctrl_agg_buf_size = pBtCoexist->bt_info.bt_ctrl_agg_buf_size;
++		}
++
++		if (pBtCoexist->bt_info.bt_ctrl_agg_buf_size) {
++			if (pBtCoexist->bt_info.pre_agg_buf_size !=
++			    pBtCoexist->bt_info.agg_buf_size)
++				bNeedToAct = _TRUE;
++			pBtCoexist->bt_info.pre_agg_buf_size = pBtCoexist->bt_info.agg_buf_size;
++		}
++	}
++
++	if (bNeedToAct)
++		rtw_btcoex_rx_ampdu_apply(padapter);
++}
++
++u8 halbtcoutsrc_IsWifiBusy(PADAPTER padapter)
++{
++	if (rtw_mi_check_status(padapter, MI_AP_MODE))
++		return _TRUE;
++	if (rtw_mi_busy_traffic_check(padapter, _FALSE))
++		return _TRUE;
++
++	return _FALSE;
++}
++
++static u32 _halbtcoutsrc_GetWifiLinkStatus(PADAPTER padapter)
++{
++	struct mlme_priv *pmlmepriv;
++	u8 bp2p;
++	u32 portConnectedStatus;
++
++
++	pmlmepriv = &padapter->mlmepriv;
++	bp2p = _FALSE;
++	portConnectedStatus = 0;
++
++#ifdef CONFIG_P2P
++	if (!rtw_p2p_chk_state(&padapter->wdinfo, P2P_STATE_NONE))
++		bp2p = _TRUE;
++#endif /* CONFIG_P2P */
++
++	if (check_fwstate(pmlmepriv, WIFI_ASOC_STATE) == _TRUE) {
++		if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++			if (_TRUE == bp2p)
++				portConnectedStatus |= WIFI_P2P_GO_CONNECTED;
++			else
++				portConnectedStatus |= WIFI_AP_CONNECTED;
++		} else {
++			if (_TRUE == bp2p)
++				portConnectedStatus |= WIFI_P2P_GC_CONNECTED;
++			else
++				portConnectedStatus |= WIFI_STA_CONNECTED;
++		}
++	}
++
++	return portConnectedStatus;
++}
++
++u32 halbtcoutsrc_GetWifiLinkStatus(PBTC_COEXIST pBtCoexist)
++{
++	/* ================================= */
++	/* return value: */
++	/* [31:16]=> connected port number */
++	/* [15:0]=> port connected bit define */
++	/* ================================ */
++
++	PADAPTER padapter;
++	u32 retVal;
++	u32 portConnectedStatus, numOfConnectedPort;
++	struct dvobj_priv *dvobj;
++	_adapter *iface;
++	int i;
++
++	padapter = pBtCoexist->Adapter;
++	retVal = 0;
++	portConnectedStatus = 0;
++	numOfConnectedPort = 0;
++	dvobj = adapter_to_dvobj(padapter);
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++			retVal = _halbtcoutsrc_GetWifiLinkStatus(iface);
++			if (retVal) {
++				portConnectedStatus |= retVal;
++				numOfConnectedPort++;
++			}
++		}
++	}
++	retVal = (numOfConnectedPort << 16) | portConnectedStatus;
++
++	return retVal;
++}
++
++static u8 _is_btfwver_valid(PBTC_COEXIST pBtCoexist, u16 btfwver)
++{
++	if (!btfwver)
++		return _FALSE;
++
++	if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter))
++		if (btfwver == 0x8723)
++			return _FALSE;
++
++	return _TRUE;
++}
++
++static void _btmpoper_timer_hdl(void *p)
++{
++	if (GLBtcBtMpRptWait) {
++		GLBtcBtMpRptWait = 0;
++		_rtw_up_sema(&GLBtcBtMpRptSema);
++	}
++}
++
++/*
++ * !IMPORTANT!
++ *	Before call this function, caller should acquire "GLBtcBtMpOperLock"!
++ *	Othrewise there will be racing problem and something may go wrong.
++ */
++static u8 _btmpoper_cmd(PBTC_COEXIST pBtCoexist, u8 opcode, u8 opcodever, u8 *cmd, u8 size)
++{
++	PADAPTER padapter;
++	u8 buf[H2C_BTMP_OPER_LEN] = {0};
++	u8 buflen;
++	u8 seq;
++	u8 timer_cancelled;
++	s32 ret;
++
++
++	if (!cmd && size)
++		size = 0;
++	if ((size + 2) > H2C_BTMP_OPER_LEN)
++		return BT_STATUS_H2C_LENGTH_EXCEEDED;
++	buflen = size + 2;
++
++	seq = GLBtcBtMpOperSeq & 0xF;
++	GLBtcBtMpOperSeq++;
++
++	buf[0] = (opcodever & 0xF) | (seq << 4);
++	buf[1] = opcode;
++	if (cmd && size)
++		_rtw_memcpy(buf + 2, cmd, size);
++
++	GLBtcBtMpRptWait = 1;
++	GLBtcBtMpRptWiFiOK = 0;
++	GLBtcBtMpRptBTOK = 0;
++	GLBtcBtMpRptStatus = 0;
++	padapter = pBtCoexist->Adapter;
++	_set_timer(&GLBtcBtMpOperTimer, BTC_MPOPER_TIMEOUT);
++	if (rtw_hal_fill_h2c_cmd(padapter, H2C_BT_MP_OPER, buflen, buf) == _FAIL) {
++		_cancel_timer(&GLBtcBtMpOperTimer, &timer_cancelled);
++		ret = BT_STATUS_H2C_FAIL;
++		goto exit;
++	}
++
++	_rtw_down_sema(&GLBtcBtMpRptSema);
++	/* GLBtcBtMpRptWait should be 0 here*/
++
++	if (!GLBtcBtMpRptWiFiOK) {
++		RTW_INFO("%s: Didn't get H2C Rsp Event!\n", __FUNCTION__);
++		ret = BT_STATUS_H2C_TIMTOUT;
++		goto exit;
++	}
++	if (!GLBtcBtMpRptBTOK) {
++		RTW_INFO("%s: Didn't get BT response!\n", __FUNCTION__);
++		ret = BT_STATUS_H2C_BT_NO_RSP;
++		goto exit;
++	}
++	if (seq != GLBtcBtMpRptSeq) {
++		RTW_INFO("%s: Sequence number not match!(%d!=%d)!\n",
++			 __FUNCTION__, seq, GLBtcBtMpRptSeq);
++		ret = BT_STATUS_C2H_REQNUM_MISMATCH;
++		goto exit;
++	}
++
++	switch (GLBtcBtMpRptStatus) {
++	/* Examine the status reported from C2H */
++	case BT_STATUS_OK:
++		ret = BT_STATUS_BT_OP_SUCCESS;
++		RTW_INFO("%s: C2H status = BT_STATUS_BT_OP_SUCCESS\n", __FUNCTION__);
++		break;
++	case BT_STATUS_VERSION_MISMATCH:
++		ret = BT_STATUS_OPCODE_L_VERSION_MISMATCH;
++		RTW_INFO("%s: C2H status = BT_STATUS_OPCODE_L_VERSION_MISMATCH\n", __FUNCTION__);
++		break;
++	case BT_STATUS_UNKNOWN_OPCODE:
++		ret = BT_STATUS_UNKNOWN_OPCODE_L;
++		RTW_INFO("%s: C2H status = MP_BT_STATUS_UNKNOWN_OPCODE_L\n", __FUNCTION__);
++		break;
++	case BT_STATUS_ERROR_PARAMETER:
++		ret = BT_STATUS_PARAMETER_FORMAT_ERROR_L;
++		RTW_INFO("%s: C2H status = MP_BT_STATUS_PARAMETER_FORMAT_ERROR_L\n", __FUNCTION__);
++		break;
++	default:
++		ret = BT_STATUS_UNKNOWN_STATUS_L;
++		RTW_INFO("%s: C2H status = MP_BT_STATUS_UNKNOWN_STATUS_L\n", __FUNCTION__);
++		break;
++	}
++
++exit:
++	return ret;
++}
++
++u32 halbtcoutsrc_GetBtPatchVer(PBTC_COEXIST pBtCoexist)
++{
++	if (_is_btfwver_valid(pBtCoexist, pBtCoexist->bt_info.bt_real_fw_ver) == _TRUE)
++		goto exit;
++
++	if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _TRUE) {
++		_irqL irqL;
++		u8 ret;
++
++
++		_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
++
++		ret = _btmpoper_cmd(pBtCoexist, BT_OP_GET_BT_VERSION, 0, NULL, 0);
++		if (BT_STATUS_BT_OP_SUCCESS == ret) {
++			pBtCoexist->bt_info.bt_real_fw_ver = le16_to_cpu(*(u16 *)GLBtcBtMpRptRsp);
++			pBtCoexist->bt_info.bt_fw_ver = *(GLBtcBtMpRptRsp + 2);
++		}
++		pBtCoexist->bt_info.get_bt_fw_ver_cnt++;
++
++		_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
++	} else {
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++		u1Byte dataLen = 2;
++		u1Byte buf[4] = {0};
++
++		buf[0] = 0x0;	/* OP_Code */
++		buf[1] = 0x0;	/* OP_Code_Length */
++		BT_SendEventExtBtCoexControl(pBtCoexist->Adapter, _FALSE, dataLen, &buf[0]);
++#endif /* !CONFIG_BT_COEXIST_SOCKET_TRX */
++	}
++
++exit:
++	return pBtCoexist->bt_info.bt_real_fw_ver;
++}
++
++s32 halbtcoutsrc_GetWifiRssi(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData;
++	s32 UndecoratedSmoothedPWDB = 0;
++
++	pHalData = GET_HAL_DATA(padapter);
++
++	UndecoratedSmoothedPWDB = pHalData->EntryMinUndecoratedSmoothedPWDB;
++
++	return UndecoratedSmoothedPWDB;
++}
++
++static u8 halbtcoutsrc_GetWifiScanAPNum(PADAPTER padapter)
++{
++	struct mlme_priv *pmlmepriv;
++	struct mlme_ext_priv *pmlmeext;
++	static u8 scan_AP_num = 0;
++
++
++	pmlmepriv = &padapter->mlmepriv;
++	pmlmeext = &padapter->mlmeextpriv;
++
++	if (GLBtcWiFiInScanState == _FALSE) {
++		if (pmlmepriv->num_of_scanned > 0xFF)
++			scan_AP_num = 0xFF;
++		else
++			scan_AP_num = (u8)pmlmepriv->num_of_scanned;
++	}
++
++	return scan_AP_num;
++}
++
++u8 halbtcoutsrc_Get(void *pBtcContext, u8 getType, void *pOutBuf)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++	PHAL_DATA_TYPE pHalData;
++	struct mlme_ext_priv *mlmeext;
++	u8 bSoftApExist, bVwifiExist;
++	u8 *pu8;
++	s32 *pS4Tmp;
++	u32 *pU4Tmp;
++	u8 *pU1Tmp;
++	u8 ret;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return _FALSE;
++
++	padapter = pBtCoexist->Adapter;
++	pHalData = GET_HAL_DATA(padapter);
++	mlmeext = &padapter->mlmeextpriv;
++	bSoftApExist = _FALSE;
++	bVwifiExist = _FALSE;
++	pu8 = (u8 *)pOutBuf;
++	pS4Tmp = (s32 *)pOutBuf;
++	pU4Tmp = (u32 *)pOutBuf;
++	pU1Tmp = (u8 *)pOutBuf;
++	ret = _TRUE;
++
++	switch (getType) {
++	case BTC_GET_BL_HS_OPERATION:
++		*pu8 = _FALSE;
++		ret = _FALSE;
++		break;
++
++	case BTC_GET_BL_HS_CONNECTING:
++		*pu8 = _FALSE;
++		ret = _FALSE;
++		break;
++
++	case BTC_GET_BL_WIFI_CONNECTED:
++		*pu8 = (rtw_mi_check_status(padapter, MI_LINKED)) ? _TRUE : _FALSE;
++		break;
++
++	case BTC_GET_BL_WIFI_BUSY:
++		*pu8 = halbtcoutsrc_IsWifiBusy(padapter);
++		break;
++
++	case BTC_GET_BL_WIFI_SCAN:
++#if 0
++		*pu8 = (rtw_mi_check_fwstate(padapter, WIFI_SITE_MONITOR)) ? _TRUE : _FALSE;
++#else
++		/* Use the value of the new variable GLBtcWiFiInScanState to judge whether WiFi is in scan state or not, since the originally used flag
++			WIFI_SITE_MONITOR in fwstate may not be cleared in time */
++		*pu8 = GLBtcWiFiInScanState;
++#endif
++		break;
++
++	case BTC_GET_BL_WIFI_LINK:
++		*pu8 = (rtw_mi_check_status(padapter, MI_STA_LINKING)) ? _TRUE : _FALSE;
++		break;
++
++	case BTC_GET_BL_WIFI_ROAM:
++		*pu8 = (rtw_mi_check_status(padapter, MI_STA_LINKING)) ? _TRUE : _FALSE;
++		break;
++
++	case BTC_GET_BL_WIFI_4_WAY_PROGRESS:
++		*pu8 = _FALSE;
++		break;
++
++	case BTC_GET_BL_WIFI_UNDER_5G:
++		*pu8 = (pHalData->CurrentBandType == 1) ? _TRUE : _FALSE;
++		break;
++
++	case BTC_GET_BL_WIFI_AP_MODE_ENABLE:
++		*pu8 = (rtw_mi_check_status(padapter, MI_AP_MODE)) ? _TRUE : _FALSE;
++		break;
++
++	case BTC_GET_BL_WIFI_ENABLE_ENCRYPTION:
++		*pu8 = padapter->securitypriv.dot11PrivacyAlgrthm == 0 ? _FALSE : _TRUE;
++		break;
++
++	case BTC_GET_BL_WIFI_UNDER_B_MODE:
++		if (mlmeext->cur_wireless_mode == WIRELESS_11B)
++			*pu8 = _TRUE;
++		else
++			*pu8 = _FALSE;
++		break;
++
++	case BTC_GET_BL_WIFI_IS_IN_MP_MODE:
++		if (padapter->registrypriv.mp_mode == 0)
++			*pu8 = _FALSE;
++		else
++			*pu8 = _TRUE;
++		break;
++
++	case BTC_GET_BL_EXT_SWITCH:
++		*pu8 = _FALSE;
++		break;
++	case BTC_GET_BL_IS_ASUS_8723B:
++		/* Always return FALSE in linux driver since this case is added only for windows driver */
++		*pu8 = _FALSE;
++		break;
++
++	case BTC_GET_S4_WIFI_RSSI:
++		*pS4Tmp = halbtcoutsrc_GetWifiRssi(padapter);
++		break;
++
++	case BTC_GET_S4_HS_RSSI:
++		*pS4Tmp = 0;
++		ret = _FALSE;
++		break;
++
++	case BTC_GET_U4_WIFI_BW:
++		if (IsLegacyOnly(mlmeext->cur_wireless_mode))
++			*pU4Tmp = BTC_WIFI_BW_LEGACY;
++		else {
++			switch (pHalData->CurrentChannelBW) {
++			case CHANNEL_WIDTH_20:
++				*pU4Tmp = BTC_WIFI_BW_HT20;
++				break;
++			case CHANNEL_WIDTH_40:
++				*pU4Tmp = BTC_WIFI_BW_HT40;
++				break;
++			case CHANNEL_WIDTH_80:
++				*pU4Tmp = BTC_WIFI_BW_HT80;
++				break;
++			case CHANNEL_WIDTH_160:
++				*pU4Tmp = BTC_WIFI_BW_HT160;
++				break;
++			default:
++				RTW_INFO("[BTCOEX] unkown bandwidth(%d)\n", pHalData->CurrentChannelBW);
++				*pU4Tmp = BTC_WIFI_BW_HT40;
++				break;
++			}
++
++		}
++		break;
++
++	case BTC_GET_U4_WIFI_TRAFFIC_DIRECTION: {
++		PRT_LINK_DETECT_T plinkinfo;
++		plinkinfo = &padapter->mlmepriv.LinkDetectInfo;
++
++		if (plinkinfo->NumTxOkInPeriod > plinkinfo->NumRxOkInPeriod)
++			*pU4Tmp = BTC_WIFI_TRAFFIC_TX;
++		else
++			*pU4Tmp = BTC_WIFI_TRAFFIC_RX;
++	}
++		break;
++
++	case BTC_GET_U4_WIFI_FW_VER:
++		*pU4Tmp = pHalData->FirmwareVersion << 16;
++		*pU4Tmp |= pHalData->FirmwareSubVersion;
++		break;
++
++	case BTC_GET_U4_WIFI_LINK_STATUS:
++		*pU4Tmp = halbtcoutsrc_GetWifiLinkStatus(pBtCoexist);
++		break;
++
++	case BTC_GET_U4_BT_PATCH_VER:
++		*pU4Tmp = halbtcoutsrc_GetBtPatchVer(pBtCoexist);
++		break;
++
++	case BTC_GET_U4_VENDOR:
++		*pU4Tmp = BTC_VENDOR_OTHER;
++		break;
++
++	case BTC_GET_U4_WIFI_IQK_TOTAL:
++		*pU4Tmp = pHalData->odmpriv.nIQK_Cnt;
++		break;
++
++	case BTC_GET_U4_WIFI_IQK_OK:
++		*pU4Tmp = pHalData->odmpriv.nIQK_OK_Cnt;
++		break;
++
++	case BTC_GET_U4_WIFI_IQK_FAIL:
++		*pU4Tmp = pHalData->odmpriv.nIQK_Fail_Cnt;
++		break;
++
++	case BTC_GET_U1_WIFI_DOT11_CHNL:
++		*pU1Tmp = padapter->mlmeextpriv.cur_channel;
++		break;
++
++	case BTC_GET_U1_WIFI_CENTRAL_CHNL:
++		*pU1Tmp = pHalData->CurrentChannel;
++		break;
++
++	case BTC_GET_U1_WIFI_HS_CHNL:
++		*pU1Tmp = 0;
++		ret = _FALSE;
++		break;
++
++	case BTC_GET_U1_WIFI_P2P_CHNL:
++#ifdef CONFIG_P2P
++		{
++			struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++			
++			*pU1Tmp = pwdinfo->operating_channel;
++		}
++#else
++		*pU1Tmp = 0;
++#endif
++		break;
++
++	case BTC_GET_U1_MAC_PHY_MODE:
++		/*			*pU1Tmp = BTC_SMSP;
++		 *			*pU1Tmp = BTC_DMSP;
++		 *			*pU1Tmp = BTC_DMDP;
++		 *			*pU1Tmp = BTC_MP_UNKNOWN; */
++		break;
++
++	case BTC_GET_U1_AP_NUM:
++		*pU1Tmp = halbtcoutsrc_GetWifiScanAPNum(padapter);
++		break;
++	case BTC_GET_U1_ANT_TYPE:
++		switch (pHalData->bt_coexist.btAntisolation) {
++		case 0:
++			*pU1Tmp = (u1Byte)BTC_ANT_TYPE_0;
++			pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_0;
++			break;
++		case 1:
++			*pU1Tmp = (u1Byte)BTC_ANT_TYPE_1;
++			pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_1;
++			break;
++		case 2:
++			*pU1Tmp = (u1Byte)BTC_ANT_TYPE_2;
++			pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_2;
++			break;
++		case 3:
++			*pU1Tmp = (u1Byte)BTC_ANT_TYPE_3;
++			pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_3;
++			break;
++		case 4:
++			*pU1Tmp = (u1Byte)BTC_ANT_TYPE_4;
++			pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_4;
++			break;
++		}
++		break;
++	case BTC_GET_U1_IOT_PEER:
++		*pU1Tmp = mlmeext->mlmext_info.assoc_AP_vendor;
++		break;
++
++	/* =======1Ant=========== */
++	case BTC_GET_U1_LPS_MODE:
++		*pU1Tmp = padapter->dvobj->pwrctl_priv.pwr_mode;
++		break;
++
++	default:
++		ret = _FALSE;
++		break;
++	}
++
++	return ret;
++}
++
++u8 halbtcoutsrc_Set(void *pBtcContext, u8 setType, void *pInBuf)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++	PHAL_DATA_TYPE pHalData;
++	u8 *pu8;
++	u8 *pU1Tmp;
++	u32	*pU4Tmp;
++	u8 ret;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++	pHalData = GET_HAL_DATA(padapter);
++	pu8 = (u8 *)pInBuf;
++	pU1Tmp = (u8 *)pInBuf;
++	pU4Tmp = (u32 *)pInBuf;
++	ret = _TRUE;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return _FALSE;
++
++	switch (setType) {
++	/* set some u8 type variables. */
++	case BTC_SET_BL_BT_DISABLE:
++		pBtCoexist->bt_info.bt_disabled = *pu8;
++		break;
++
++	case BTC_SET_BL_BT_TRAFFIC_BUSY:
++		pBtCoexist->bt_info.bt_busy = *pu8;
++		break;
++
++	case BTC_SET_BL_BT_LIMITED_DIG:
++		pBtCoexist->bt_info.limited_dig = *pu8;
++		break;
++
++	case BTC_SET_BL_FORCE_TO_ROAM:
++		pBtCoexist->bt_info.force_to_roam = *pu8;
++		break;
++
++	case BTC_SET_BL_TO_REJ_AP_AGG_PKT:
++		pBtCoexist->bt_info.reject_agg_pkt = *pu8;
++		break;
++
++	case BTC_SET_BL_BT_CTRL_AGG_SIZE:
++		pBtCoexist->bt_info.bt_ctrl_agg_buf_size = *pu8;
++		break;
++
++	case BTC_SET_BL_INC_SCAN_DEV_NUM:
++		pBtCoexist->bt_info.increase_scan_dev_num = *pu8;
++		break;
++
++	case BTC_SET_BL_BT_TX_RX_MASK:
++		pBtCoexist->bt_info.bt_tx_rx_mask = *pu8;
++		break;
++
++	case BTC_SET_BL_MIRACAST_PLUS_BT:
++		pBtCoexist->bt_info.miracast_plus_bt = *pu8;
++		break;
++
++	/* set some u8 type variables. */
++	case BTC_SET_U1_RSSI_ADJ_VAL_FOR_AGC_TABLE_ON:
++		pBtCoexist->bt_info.rssi_adjust_for_agc_table_on = *pU1Tmp;
++		break;
++
++	case BTC_SET_U1_AGG_BUF_SIZE:
++		pBtCoexist->bt_info.agg_buf_size = *pU1Tmp;
++		break;
++
++	/* the following are some action which will be triggered */
++	case BTC_SET_ACT_GET_BT_RSSI:
++#if 0
++		BT_SendGetBtRssiEvent(padapter);
++#else
++		ret = _FALSE;
++#endif
++		break;
++
++	case BTC_SET_ACT_AGGREGATE_CTRL:
++		halbtcoutsrc_AggregationCheck(pBtCoexist);
++		break;
++
++	/* =======1Ant=========== */
++	/* set some u8 type variables. */
++	case BTC_SET_U1_RSSI_ADJ_VAL_FOR_1ANT_COEX_TYPE:
++		pBtCoexist->bt_info.rssi_adjust_for_1ant_coex_type = *pU1Tmp;
++		break;
++
++	case BTC_SET_U1_LPS_VAL:
++		pBtCoexist->bt_info.lps_val = *pU1Tmp;
++		break;
++
++	case BTC_SET_U1_RPWM_VAL:
++		pBtCoexist->bt_info.rpwm_val = *pU1Tmp;
++		break;
++
++	/* the following are some action which will be triggered */
++	case BTC_SET_ACT_LEAVE_LPS:
++		halbtcoutsrc_LeaveLps(pBtCoexist);
++		break;
++
++	case BTC_SET_ACT_ENTER_LPS:
++		halbtcoutsrc_EnterLps(pBtCoexist);
++		break;
++
++	case BTC_SET_ACT_NORMAL_LPS:
++		halbtcoutsrc_NormalLps(pBtCoexist);
++		break;
++
++	case BTC_SET_ACT_DISABLE_LOW_POWER:
++		halbtcoutsrc_DisableLowPower(pBtCoexist, *pu8);
++		break;
++
++	case BTC_SET_ACT_UPDATE_RAMASK:
++		pBtCoexist->bt_info.ra_mask = *pU4Tmp;
++
++		if (check_fwstate(&padapter->mlmepriv, WIFI_ASOC_STATE) == _TRUE) {
++			struct sta_info *psta;
++			PWLAN_BSSID_EX cur_network;
++
++			cur_network = &padapter->mlmeextpriv.mlmext_info.network;
++			psta = rtw_get_stainfo(&padapter->stapriv, cur_network->MacAddress);
++			rtw_hal_update_ra_mask(psta, 0);
++		}
++		break;
++
++	case BTC_SET_ACT_SEND_MIMO_PS: {
++		u8 newMimoPsMode = 3;
++		struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++		struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++
++		/* *pU1Tmp = 0 use SM_PS static type */
++		/* *pU1Tmp = 1 disable SM_PS */
++		if (*pU1Tmp == 0)
++			newMimoPsMode = WLAN_HT_CAP_SM_PS_STATIC;
++		else if (*pU1Tmp == 1)
++			newMimoPsMode = WLAN_HT_CAP_SM_PS_DISABLED;
++
++		if (check_fwstate(&padapter->mlmepriv , WIFI_ASOC_STATE) == _TRUE) {
++			/* issue_action_SM_PS(padapter, get_my_bssid(&(pmlmeinfo->network)), newMimoPsMode); */
++			issue_action_SM_PS_wait_ack(padapter , get_my_bssid(&(pmlmeinfo->network)) , newMimoPsMode, 3 , 1);
++		}
++	}
++	break;
++
++	case BTC_SET_ACT_CTRL_BT_INFO:
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++		{
++			u8 dataLen = *pU1Tmp;
++			u8 tmpBuf[BTC_TMP_BUF_SHORT];
++			if (dataLen)
++				_rtw_memcpy(tmpBuf, pU1Tmp + 1, dataLen);
++			BT_SendEventExtBtInfoControl(padapter, dataLen, &tmpBuf[0]);
++		}
++#else /* !CONFIG_BT_COEXIST_SOCKET_TRX */
++		ret = _FALSE;
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++		break;
++
++	case BTC_SET_ACT_CTRL_BT_COEX:
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++		{
++			u8 dataLen = *pU1Tmp;
++			u8 tmpBuf[BTC_TMP_BUF_SHORT];
++			if (dataLen)
++				_rtw_memcpy(tmpBuf, pU1Tmp + 1, dataLen);
++			BT_SendEventExtBtCoexControl(padapter, _FALSE, dataLen, &tmpBuf[0]);
++		}
++#else /* !CONFIG_BT_COEXIST_SOCKET_TRX */
++		ret = _FALSE;
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++		break;
++	case BTC_SET_ACT_CTRL_8723B_ANT:
++#if 0
++		{
++			u1Byte	dataLen = *pU1Tmp;
++			u1Byte	tmpBuf[BTC_TMP_BUF_SHORT];
++			if (dataLen)
++				PlatformMoveMemory(&tmpBuf[0], pU1Tmp + 1, dataLen);
++			BT_Set8723bAnt(Adapter, dataLen, &tmpBuf[0]);
++		}
++#else
++		ret = _FALSE;
++#endif
++		break;
++	/* ===================== */
++	default:
++		ret = _FALSE;
++		break;
++	}
++
++	return ret;
++}
++
++u8 halbtcoutsrc_UnderIps(PBTC_COEXIST pBtCoexist)
++{
++	PADAPTER padapter;
++	struct pwrctrl_priv *pwrpriv;
++	u8 bMacPwrCtrlOn;
++
++	padapter = pBtCoexist->Adapter;
++	pwrpriv = &padapter->dvobj->pwrctl_priv;
++	bMacPwrCtrlOn = _FALSE;
++
++	if ((_TRUE == pwrpriv->bips_processing)
++	    && (IPS_NONE != pwrpriv->ips_mode_req)
++	   )
++		return _TRUE;
++
++	if (rf_off == pwrpriv->rf_pwrstate)
++		return _TRUE;
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_APFM_ON_MAC, &bMacPwrCtrlOn);
++	if (_FALSE == bMacPwrCtrlOn)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++u8 halbtcoutsrc_UnderLps(PBTC_COEXIST pBtCoexist)
++{
++	return GLBtcWiFiInLPS;
++}
++
++u8 halbtcoutsrc_Under32K(PBTC_COEXIST pBtCoexist)
++{
++	/* todo: the method to check whether wifi is under 32K or not */
++	return _FALSE;
++}
++
++void halbtcoutsrc_DisplayCoexStatistics(PBTC_COEXIST pBtCoexist)
++{
++#if 0
++	PADAPTER padapter = (PADAPTER)pBtCoexist->Adapter;
++	PBT_MGNT pBtMgnt = &padapter->MgntInfo.BtInfo.BtMgnt;
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++	u8 *cliBuf = pBtCoexist->cliBuf;
++	u1Byte			i, j;
++	u1Byte			tmpbuf[BTC_TMP_BUF_SHORT];
++
++
++	if (gl_coex_offload.cnt_h2c_sent) {
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Coex h2c notify]============");
++		CL_PRINTF(cliBuf);
++
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = H2c(%d)/Ack(%d)", "Coex h2c/c2h overall statistics",
++			gl_coex_offload.cnt_h2c_sent, gl_coex_offload.cnt_c2h_ack);
++		for (j = 0; j < COL_STATUS_MAX; j++) {
++			if (gl_coex_offload.status[j]) {
++				CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, ", %s:%d", coexH2cResultString[j], gl_coex_offload.status[j]);
++				CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, BTC_TMP_BUF_SHORT);
++			}
++		}
++		CL_PRINTF(cliBuf);
++	}
++	for (i = 0; i < COL_OP_WIFI_OPCODE_MAX; i++) {
++		if (gl_coex_offload.h2c_record[i].count) {
++			/*==========================================*/
++			/*	H2C result statistics*/
++			/*==========================================*/
++			CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = total:%d", coexOpcodeString[i], gl_coex_offload.h2c_record[i].count);
++			for (j = 0; j < COL_STATUS_MAX; j++) {
++				if (gl_coex_offload.h2c_record[i].status[j]) {
++					CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, ", %s:%d", coexH2cResultString[j], gl_coex_offload.h2c_record[i].status[j]);
++					CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, BTC_TMP_BUF_SHORT);
++				}
++			}
++			CL_PRINTF(cliBuf);
++			/*==========================================*/
++			/*	H2C/C2H content*/
++			/*==========================================*/
++			CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = ", "H2C / C2H content");
++			for (j = 0; j < gl_coex_offload.h2c_record[i].h2c_len; j++) {
++				CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, "%02x ", gl_coex_offload.h2c_record[i].h2c_buf[j]);
++				CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, 3);
++			}
++			if (gl_coex_offload.h2c_record[i].c2h_ack_len) {
++				CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, "/ ", 2);
++				for (j = 0; j < gl_coex_offload.h2c_record[i].c2h_ack_len; j++) {
++					CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, "%02x ", gl_coex_offload.h2c_record[i].c2h_ack_buf[j]);
++					CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, 3);
++				}
++			}
++			CL_PRINTF(cliBuf);
++			/*==========================================*/
++		}
++	}
++
++	if (gl_coex_offload.cnt_c2h_ind) {
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Coex c2h indication]============");
++		CL_PRINTF(cliBuf);
++
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = Ind(%d)", "C2H indication statistics",
++			   gl_coex_offload.cnt_c2h_ind);
++		for (j = 0; j < COL_STATUS_MAX; j++) {
++			if (gl_coex_offload.c2h_ind_status[j]) {
++				CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, ", %s:%d", coexH2cResultString[j], gl_coex_offload.c2h_ind_status[j]);
++				CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, BTC_TMP_BUF_SHORT);
++			}
++		}
++		CL_PRINTF(cliBuf);
++	}
++	for (i = 0; i < COL_IND_MAX; i++) {
++		if (gl_coex_offload.c2h_ind_record[i].count) {
++			/*==========================================*/
++			/*	H2C result statistics*/
++			/*==========================================*/
++			CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = total:%d", coexIndTypeString[i], gl_coex_offload.c2h_ind_record[i].count);
++			for (j = 0; j < COL_STATUS_MAX; j++) {
++				if (gl_coex_offload.c2h_ind_record[i].status[j]) {
++					CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, ", %s:%d", coexH2cResultString[j], gl_coex_offload.c2h_ind_record[i].status[j]);
++					CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, BTC_TMP_BUF_SHORT);
++				}
++			}
++			CL_PRINTF(cliBuf);
++			/*==========================================*/
++			/*	content*/
++			/*==========================================*/
++			CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = ", "C2H indication content");
++			for (j = 0; j < gl_coex_offload.c2h_ind_record[i].ind_len; j++) {
++				CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, "%02x ", gl_coex_offload.c2h_ind_record[i].ind_buf[j]);
++				CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, 3);
++			}
++			CL_PRINTF(cliBuf);
++			/*==========================================*/
++		}
++	}
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Statistics]============");
++	CL_PRINTF(cliBuf);
++
++#if (H2C_USE_IO_THREAD != 1)
++	for (i = 0; i < H2C_STATUS_MAX; i++) {
++		if (pHalData->h2cStatistics[i]) {
++			CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s] = %d", "H2C statistics", \
++				   h2cStaString[i], pHalData->h2cStatistics[i]);
++			CL_PRINTF(cliBuf);
++		}
++	}
++#else
++	for (i = 0; i < IO_STATUS_MAX; i++) {
++		if (Adapter->ioComStr.ioH2cStatistics[i]) {
++			CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s] = %d", "H2C statistics", \
++				ioStaString[i], Adapter->ioComStr.ioH2cStatistics[i]);
++			CL_PRINTF(cliBuf);
++		}
++	}
++#endif
++#if 0
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "lastHMEBoxNum", \
++		   pHalData->LastHMEBoxNum);
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x / 0x%x", "LastOkH2c/FirstFailH2c(fwNotRead)", \
++		   pHalData->lastSuccessH2cEid, pHalData->firstFailedH2cEid);
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d/ %d", "c2hIsr/c2hIntr/clr1AF/noRdy/noBuf", \
++		pHalData->InterruptLog.nIMR_C2HCMD, DBG_Var.c2hInterruptCnt, DBG_Var.c2hClrReadC2hCnt,
++		   DBG_Var.c2hNotReadyCnt, DBG_Var.c2hBufAlloFailCnt);
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "c2hPacket", \
++		   DBG_Var.c2hPacketCnt);
++	CL_PRINTF(cliBuf);
++#endif
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d", "Periodical/ DbgCtrl", \
++		pBtCoexist->statistics.cntPeriodical, pBtCoexist->statistics.cntDbgCtrl);
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d", "PowerOn/InitHw/InitCoexDm/RfStatus", \
++		pBtCoexist->statistics.cntPowerOn, pBtCoexist->statistics.cntInitHwConfig, pBtCoexist->statistics.cntInitCoexDm,
++		   pBtCoexist->statistics.cntRfStatusNotify);
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d/ %d", "Ips/Lps/Scan/Connect/Mstatus", \
++		pBtCoexist->statistics.cntIpsNotify, pBtCoexist->statistics.cntLpsNotify,
++		pBtCoexist->statistics.cntScanNotify, pBtCoexist->statistics.cntConnectNotify,
++		   pBtCoexist->statistics.cntMediaStatusNotify);
++	CL_PRINTF(cliBuf);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d", "Special pkt/Bt info/ bind",
++		pBtCoexist->statistics.cntSpecialPacketNotify, pBtCoexist->statistics.cntBtInfoNotify,
++		   pBtCoexist->statistics.cntBind);
++	CL_PRINTF(cliBuf);
++#endif
++	PADAPTER		padapter = pBtCoexist->Adapter;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	u8				*cliBuf = pBtCoexist->cli_buf;
++
++	if (pHalData->EEPROMBluetoothCoexist == 1) {
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Coex Status]============");
++		CL_PRINTF(cliBuf);
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ", "IsBtDisabled", rtw_btcoex_IsBtDisabled(padapter));
++		CL_PRINTF(cliBuf);
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ", "IsBtControlLps", rtw_btcoex_IsBtControlLps(padapter));
++		CL_PRINTF(cliBuf);
++	}
++}
++
++void halbtcoutsrc_DisplayBtLinkInfo(PBTC_COEXIST pBtCoexist)
++{
++#if 0
++	PADAPTER padapter = (PADAPTER)pBtCoexist->Adapter;
++	PBT_MGNT pBtMgnt = &padapter->MgntInfo.BtInfo.BtMgnt;
++	u8 *cliBuf = pBtCoexist->cliBuf;
++	u8 i;
++
++
++	if (pBtCoexist->stack_info.profile_notified) {
++		for (i = 0; i < pBtMgnt->ExtConfig.NumberOfACL; i++) {
++			if (pBtMgnt->ExtConfig.HCIExtensionVer >= 1) {
++				CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s/ %s", "Bt link type/spec/role", \
++					BtProfileString[pBtMgnt->ExtConfig.aclLink[i].BTProfile],
++					BtSpecString[pBtMgnt->ExtConfig.aclLink[i].BTCoreSpec],
++					BtLinkRoleString[pBtMgnt->ExtConfig.aclLink[i].linkRole]);
++				CL_PRINTF(cliBuf);
++			} else {
++				CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s", "Bt link type/spec", \
++					BtProfileString[pBtMgnt->ExtConfig.aclLink[i].BTProfile],
++					BtSpecString[pBtMgnt->ExtConfig.aclLink[i].BTCoreSpec]);
++				CL_PRINTF(cliBuf);
++			}
++		}
++	}
++#endif
++}
++
++void halbtcoutsrc_DisplayWifiStatus(PBTC_COEXIST pBtCoexist)
++{
++	PADAPTER	padapter = pBtCoexist->Adapter;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	u8			*cliBuf = pBtCoexist->cli_buf;
++	s32			wifiRssi = 0, btHsRssi = 0;
++	BOOLEAN	bScan = _FALSE, bLink = _FALSE, bRoam = _FALSE, bWifiBusy = _FALSE, bWifiUnderBMode = _FALSE;
++	u32			wifiBw = BTC_WIFI_BW_HT20, wifiTrafficDir = BTC_WIFI_TRAFFIC_TX, wifiFreq = BTC_FREQ_2_4G;
++	u32			wifiLinkStatus = 0x0;
++	BOOLEAN	bBtHsOn = _FALSE, bLowPower = _FALSE;
++	u8			wifiChnl = 0, wifiP2PChnl = 0, nScanAPNum = 0, FwPSState;
++	u32			iqk_cnt_total = 0, iqk_cnt_ok = 0, iqk_cnt_fail = 0;
++
++	wifiLinkStatus = halbtcoutsrc_GetWifiLinkStatus(pBtCoexist);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d/ %d", "STA/vWifi/HS/p2pGo/p2pGc", \
++		((wifiLinkStatus & WIFI_STA_CONNECTED) ? 1 : 0), ((wifiLinkStatus & WIFI_AP_CONNECTED) ? 1 : 0),
++		((wifiLinkStatus & WIFI_HS_CONNECTED) ? 1 : 0), ((wifiLinkStatus & WIFI_P2P_GO_CONNECTED) ? 1 : 0),
++		   ((wifiLinkStatus & WIFI_P2P_GC_CONNECTED) ? 1 : 0));
++	CL_PRINTF(cliBuf);
++
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_BL_WIFI_SCAN, &bScan);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_BL_WIFI_LINK, &bLink);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_BL_WIFI_ROAM, &bRoam);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d ", "Link/ Roam/ Scan", \
++		bLink, bRoam, bScan);
++	CL_PRINTF(cliBuf);	
++
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_U4_WIFI_IQK_TOTAL, &iqk_cnt_total);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_U4_WIFI_IQK_OK, &iqk_cnt_ok);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_U4_WIFI_IQK_FAIL, &iqk_cnt_fail);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d ", "IQK Total/ OK/ Fail", \
++		iqk_cnt_total, iqk_cnt_ok, iqk_cnt_fail);
++	CL_PRINTF(cliBuf);
++	
++	if (wifiLinkStatus & WIFI_STA_CONNECTED) {
++		CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "IOT Peer", GLBtcIotPeerString[padapter->mlmeextpriv.mlmext_info.assoc_AP_vendor]);
++		CL_PRINTF(cliBuf);
++	}
++
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_S4_WIFI_RSSI, &wifiRssi);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_U1_WIFI_DOT11_CHNL, &wifiChnl);
++	if ((wifiLinkStatus & WIFI_P2P_GO_CONNECTED) || (wifiLinkStatus & WIFI_P2P_GC_CONNECTED)) 
++		pBtCoexist->btc_get(pBtCoexist, BTC_GET_U1_WIFI_P2P_CHNL, &wifiP2PChnl);	
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d dBm/ %d/ %d", "RSSI/ STA_Chnl/ P2P_Chnl", \
++		wifiRssi -100, wifiChnl, wifiP2PChnl);
++	CL_PRINTF(cliBuf);
++
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_BL_WIFI_UNDER_5G, &wifiFreq);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_BL_WIFI_UNDER_B_MODE, &bWifiUnderBMode);
++	pBtCoexist->btc_get(pBtCoexist, BTC_GET_U1_AP_NUM, &nScanAPNum);
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %s/ %s/ %d ", "Band/ BW/ Traffic/ APCnt", \
++		GLBtcWifiFreqString[wifiFreq], ((bWifiUnderBMode) ? "11b" : GLBtcWifiBwString[wifiBw]),
++		((!bWifiBusy) ? "idle" : ((BTC_WIFI_TRAFFIC_TX == wifiTrafficDir) ? "uplink" : "downlink")),
++		   nScanAPNum);
++	CL_PRINTF(cliBuf);
++
++	/* power status */
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s%s%s", "Power Status", \
++		((halbtcoutsrc_UnderIps(pBtCoexist) == _TRUE) ? "IPS ON" : "IPS OFF"),
++		((halbtcoutsrc_UnderLps(pBtCoexist) == _TRUE) ? ", LPS ON" : ", LPS OFF"),
++		((halbtcoutsrc_Under32K(pBtCoexist) == _TRUE) ? ", 32k" : ""));
++	CL_PRINTF(cliBuf);
++
++	CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x %02x %02x %02x (0x%x/0x%x)", "Power mode cmd(lps/rpwm)", \
++		   pBtCoexist->pwrModeVal[0], pBtCoexist->pwrModeVal[1],
++		   pBtCoexist->pwrModeVal[2], pBtCoexist->pwrModeVal[3],
++		   pBtCoexist->pwrModeVal[4], pBtCoexist->pwrModeVal[5],
++		   pBtCoexist->bt_info.lps_val,
++		   pBtCoexist->bt_info.rpwm_val);
++	CL_PRINTF(cliBuf);
++}
++
++void halbtcoutsrc_DisplayDbgMsg(void *pBtcContext, u8 dispType)
++{
++	PBTC_COEXIST pBtCoexist;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	switch (dispType) {
++	case BTC_DBG_DISP_COEX_STATISTICS:
++		halbtcoutsrc_DisplayCoexStatistics(pBtCoexist);
++		break;
++	case BTC_DBG_DISP_BT_LINK_INFO:
++		halbtcoutsrc_DisplayBtLinkInfo(pBtCoexist);
++		break;
++	case BTC_DBG_DISP_WIFI_STATUS:
++		halbtcoutsrc_DisplayWifiStatus(pBtCoexist);
++		break;
++	default:
++		break;
++	}
++}
++
++/* ************************************
++ *		IO related function
++ * ************************************ */
++u8 halbtcoutsrc_Read1Byte(void *pBtcContext, u32 RegAddr)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	return rtw_read8(padapter, RegAddr);
++}
++
++u16 halbtcoutsrc_Read2Byte(void *pBtcContext, u32 RegAddr)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	return	rtw_read16(padapter, RegAddr);
++}
++
++u32 halbtcoutsrc_Read4Byte(void *pBtcContext, u32 RegAddr)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	return	rtw_read32(padapter, RegAddr);
++}
++
++void halbtcoutsrc_Write1Byte(void *pBtcContext, u32 RegAddr, u8 Data)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	rtw_write8(padapter, RegAddr, Data);
++}
++
++void halbtcoutsrc_BitMaskWrite1Byte(void *pBtcContext, u32 regAddr, u8 bitMask, u8 data1b)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++	u8 originalValue, bitShift;
++	u8 i;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++	originalValue = 0;
++	bitShift = 0;
++
++	if (bitMask != 0xff) {
++		originalValue = rtw_read8(padapter, regAddr);
++
++		for (i = 0; i <= 7; i++) {
++			if ((bitMask >> i) & 0x1)
++				break;
++		}
++		bitShift = i;
++
++		data1b = (originalValue & ~bitMask) | ((data1b << bitShift) & bitMask);
++	}
++
++	rtw_write8(padapter, regAddr, data1b);
++}
++
++void halbtcoutsrc_Write2Byte(void *pBtcContext, u32 RegAddr, u16 Data)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	rtw_write16(padapter, RegAddr, Data);
++}
++
++void halbtcoutsrc_Write4Byte(void *pBtcContext, u32 RegAddr, u32 Data)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	rtw_write32(padapter, RegAddr, Data);
++}
++
++void halbtcoutsrc_WriteLocalReg1Byte(void *pBtcContext, u32 RegAddr, u8 Data)
++{
++	PBTC_COEXIST		pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	PADAPTER			Adapter = pBtCoexist->Adapter;
++
++	if (BTC_INTF_SDIO == pBtCoexist->chip_interface)
++		rtw_write8(Adapter, SDIO_LOCAL_BASE | RegAddr, Data);
++	else
++		rtw_write8(Adapter, RegAddr, Data);
++}
++
++void halbtcoutsrc_SetBbReg(void *pBtcContext, u32 RegAddr, u32 BitMask, u32 Data)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	PHY_SetBBReg(padapter, RegAddr, BitMask, Data);
++}
++
++
++u32 halbtcoutsrc_GetBbReg(void *pBtcContext, u32 RegAddr, u32 BitMask)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	return PHY_QueryBBReg(padapter, RegAddr, BitMask);
++}
++
++void halbtcoutsrc_SetRfReg(void *pBtcContext, u8 eRFPath, u32 RegAddr, u32 BitMask, u32 Data)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	PHY_SetRFReg(padapter, eRFPath, RegAddr, BitMask, Data);
++}
++
++u32 halbtcoutsrc_GetRfReg(void *pBtcContext, u8 eRFPath, u32 RegAddr, u32 BitMask)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	return PHY_QueryRFReg(padapter, eRFPath, RegAddr, BitMask);
++}
++
++u16 halbtcoutsrc_SetBtReg(void *pBtcContext, u8 RegType, u32 RegAddr, u32 Data)
++{
++	PBTC_COEXIST pBtCoexist;
++	u16 ret = BT_STATUS_BT_OP_SUCCESS;
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++
++	if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _TRUE) {
++		u8 buf[3] = {0};
++		_irqL irqL;
++		u8 op_code;
++		u8 status;
++
++		_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
++
++		Data = cpu_to_le32(Data);
++		op_code = BT_OP_WRITE_REG_VALUE;
++		status = _btmpoper_cmd(pBtCoexist, op_code, 0, (u8 *)&Data, 3);
++		if (status != BT_STATUS_BT_OP_SUCCESS)
++			ret = SET_BT_MP_OPER_RET(op_code, status);
++		else {
++			buf[0] = RegType;
++			*(u16 *)(buf + 1) = cpu_to_le16((u16)RegAddr);
++			op_code = BT_OP_WRITE_REG_ADDR;
++			status = _btmpoper_cmd(pBtCoexist, op_code, 0, buf, 3);
++			if (status != BT_STATUS_BT_OP_SUCCESS)
++				ret = SET_BT_MP_OPER_RET(op_code, status);
++		}
++
++		_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
++	} else
++		ret = BT_STATUS_NOT_IMPLEMENT;
++
++	return ret;
++}
++
++u8 halbtcoutsrc_SetBtAntDetection(void *pBtcContext, u8 txTime, u8 btChnl)
++{
++	/* Always return _FALSE since we don't implement this yet */
++#if 0
++	PBTC_COEXIST		pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	PADAPTER			Adapter = pBtCoexist->Adapter;
++	u1Byte				btCanTx = 0;
++	BOOLEAN			bStatus = FALSE;
++
++	bStatus = NDBG_SetBtAntDetection(Adapter, txTime, btChnl, &btCanTx);
++	if (bStatus && btCanTx)
++		return _TRUE;
++	else
++		return _FALSE;
++#else
++	return _FALSE;
++#endif
++}
++
++u16 halbtcoutsrc_GetBtReg(void *pBtcContext, u8 RegType, u32 RegAddr, u32 *data)
++{
++	PBTC_COEXIST pBtCoexist;
++	u16 ret = BT_STATUS_BT_OP_SUCCESS;
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++
++	if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _TRUE) {
++		u8 buf[3] = {0};
++		_irqL irqL;
++		u8 op_code;
++		u8 status;
++
++		buf[0] = RegType;
++		*(u16 *)(buf + 1) = cpu_to_le16((u16)RegAddr);
++
++		_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
++
++		op_code = BT_OP_READ_REG;
++		status = _btmpoper_cmd(pBtCoexist, op_code, 0, buf, 3);
++		if (status == BT_STATUS_BT_OP_SUCCESS)
++			*data = le16_to_cpu(*(u16 *)GLBtcBtMpRptRsp);
++		else
++			ret = SET_BT_MP_OPER_RET(op_code, status);
++
++		_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
++
++	} else
++		ret = BT_STATUS_NOT_IMPLEMENT;
++
++	return ret;
++}
++
++void halbtcoutsrc_FillH2cCmd(void *pBtcContext, u8 elementId, u32 cmdLen, u8 *pCmdBuffer)
++{
++	PBTC_COEXIST pBtCoexist;
++	PADAPTER padapter;
++
++
++	pBtCoexist = (PBTC_COEXIST)pBtcContext;
++	padapter = pBtCoexist->Adapter;
++
++	rtw_hal_fill_h2c_cmd(padapter, elementId, cmdLen, pCmdBuffer);
++}
++
++static void halbtcoutsrc_coex_offload_init(void)
++{
++	u1Byte	i;
++
++	gl_coex_offload.h2c_req_num = 0;
++	gl_coex_offload.cnt_h2c_sent = 0;
++	gl_coex_offload.cnt_c2h_ack = 0;
++	gl_coex_offload.cnt_c2h_ind = 0;
++
++	for (i = 0; i < COL_MAX_H2C_REQ_NUM; i++)
++		init_completion(&gl_coex_offload.c2h_event[i]);
++}
++
++static COL_H2C_STATUS halbtcoutsrc_send_h2c(PADAPTER Adapter, PCOL_H2C pcol_h2c, u16 h2c_cmd_len)
++{
++	COL_H2C_STATUS		h2c_status = COL_STATUS_C2H_OK;
++	u8				i;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 13, 0))
++	reinit_completion(&gl_coex_offload.c2h_event[pcol_h2c->req_num]);		/* set event to un signaled state */
++#else
++	INIT_COMPLETION(gl_coex_offload.c2h_event[pcol_h2c->req_num]);
++#endif
++
++	if (TRUE) {
++#if 0	/*(USE_HAL_MAC_API == 1) */
++		if (RT_STATUS_SUCCESS == HAL_MAC_Send_BT_COEX(&GET_HAL_MAC_INFO(Adapter), (pu1Byte)(pcol_h2c), (u4Byte)h2c_cmd_len, 1)) {
++			if (!wait_for_completion_timeout(&gl_coex_offload.c2h_event[pcol_h2c->req_num], 20)) {
++				h2c_status = COL_STATUS_H2C_TIMTOUT;
++			}
++		} else {
++			h2c_status = COL_STATUS_H2C_HALMAC_FAIL;
++		}
++#endif
++	}
++
++	return h2c_status;
++}
++
++static COL_H2C_STATUS halbtcoutsrc_check_c2h_ack(PADAPTER Adapter, PCOL_SINGLE_H2C_RECORD pH2cRecord)
++{
++	COL_H2C_STATUS	c2h_status = COL_STATUS_C2H_OK;
++	PCOL_H2C		p_h2c_cmd = (PCOL_H2C)&pH2cRecord->h2c_buf[0];
++	u8			req_num = p_h2c_cmd->req_num;
++	PCOL_C2H_ACK	p_c2h_ack = (PCOL_C2H_ACK)&gl_coex_offload.c2h_ack_buf[req_num];
++
++
++	if ((COL_C2H_ACK_HDR_LEN + p_c2h_ack->ret_len) > gl_coex_offload.c2h_ack_len[req_num]) {
++		c2h_status = COL_STATUS_COEX_DATA_OVERFLOW;
++		return c2h_status;
++	}
++	/* else */
++	{
++		_rtw_memmove(&pH2cRecord->c2h_ack_buf[0], &gl_coex_offload.c2h_ack_buf[req_num], gl_coex_offload.c2h_ack_len[req_num]);
++		pH2cRecord->c2h_ack_len = gl_coex_offload.c2h_ack_len[req_num];
++	}
++
++
++	if (p_c2h_ack->req_num != p_h2c_cmd->req_num) {
++		c2h_status = COL_STATUS_C2H_REQ_NUM_MISMATCH;
++	} else if (p_c2h_ack->opcode_ver != p_h2c_cmd->opcode_ver) {
++		c2h_status = COL_STATUS_C2H_OPCODE_VER_MISMATCH;
++	} else {
++		c2h_status = p_c2h_ack->status;
++	}
++
++	return c2h_status;
++}
++
++COL_H2C_STATUS halbtcoutsrc_CoexH2cProcess(void *pBtCoexist,
++		u8 opcode, u8 opcode_ver, u8 *ph2c_par, u8 h2c_par_len)
++{
++	PADAPTER			Adapter = ((struct btc_coexist *)pBtCoexist)->Adapter;
++	u8				H2C_Parameter[BTC_TMP_BUF_SHORT] = {0};
++	PCOL_H2C			pcol_h2c = (PCOL_H2C)&H2C_Parameter[0];
++	u16				paraLen = 0;
++	COL_H2C_STATUS		h2c_status = COL_STATUS_C2H_OK, c2h_status = COL_STATUS_C2H_OK;
++	COL_H2C_STATUS		ret_status = COL_STATUS_C2H_OK;
++	u16				i, col_h2c_len = 0;
++
++	pcol_h2c->opcode = opcode;
++	pcol_h2c->opcode_ver = opcode_ver;
++	pcol_h2c->req_num = gl_coex_offload.h2c_req_num;
++	gl_coex_offload.h2c_req_num++;
++	gl_coex_offload.h2c_req_num %= 16;
++
++	_rtw_memmove(&pcol_h2c->buf[0], ph2c_par, h2c_par_len);
++
++
++	col_h2c_len = h2c_par_len + 2;	/* 2=sizeof(OPCode, OPCode_version and  Request number) */
++	BT_PrintData(Adapter, "[COL], H2C cmd: ", col_h2c_len, H2C_Parameter);
++
++	gl_coex_offload.cnt_h2c_sent++;
++
++	gl_coex_offload.h2c_record[opcode].count++;
++	gl_coex_offload.h2c_record[opcode].h2c_len = col_h2c_len;
++	_rtw_memmove((PVOID)&gl_coex_offload.h2c_record[opcode].h2c_buf[0], (PVOID)pcol_h2c, col_h2c_len);
++
++	h2c_status = halbtcoutsrc_send_h2c(Adapter, pcol_h2c, col_h2c_len);
++
++	gl_coex_offload.h2c_record[opcode].c2h_ack_len = 0;
++
++	if (COL_STATUS_C2H_OK == h2c_status) {
++		/* if reach here, it means H2C get the correct c2h response, */
++		c2h_status = halbtcoutsrc_check_c2h_ack(Adapter, &gl_coex_offload.h2c_record[opcode]);
++		ret_status = c2h_status;
++	} else {
++		/* check h2c status error, return error status code to upper layer. */
++		ret_status = h2c_status;
++	}
++	gl_coex_offload.h2c_record[opcode].status[ret_status]++;
++	gl_coex_offload.status[ret_status]++;
++
++	return ret_status;
++}
++
++u32 halbtcoutsrc_GetBtCoexSupportedFeature(void *pBtcContext)
++{
++	struct btc_coexist *pBtCoexist=(struct btc_coexist *)pBtcContext;
++	PADAPTER			Adapter=pBtCoexist->Adapter;
++	u4Byte				coexSupportedFeature=0x0;
++	u1Byte				opcodeVer = 1;
++	BOOLEAN				status = false;
++
++
++	return coexSupportedFeature;
++}
++
++u32 halbtcoutsrc_GetBtCoexSupportedVersion(void *pBtcContext)
++{
++	struct btc_coexist *pBtCoexist=(struct btc_coexist *)pBtcContext;
++	PADAPTER			Adapter=pBtCoexist->Adapter;
++	u32				coexSupportedVersion=0x0;
++	u8				opcodeVer = 1;
++	u8				status = false;
++
++
++	return coexSupportedVersion;
++}	
++
++u32 halbtcoutsrc_GetPhydmVersion(void *pBtcContext)
++{
++	struct btc_coexist *pBtCoexist = (struct btc_coexist *)pBtcContext;
++	PADAPTER		Adapter = pBtCoexist->Adapter;
++
++#ifdef CONFIG_RTL8192E
++	return RELEASE_VERSION_8192E;
++#endif
++
++#ifdef CONFIG_RTL8821A
++	return RELEASE_VERSION_8821A;
++#endif
++
++#ifdef CONFIG_RTL8723B
++	return RELEASE_VERSION_8723B;
++#endif
++
++#ifdef CONFIG_RTL8812A
++	return RELEASE_VERSION_8812A;
++#endif
++
++#ifdef CONFIG_RTL8703B
++	return RELEASE_VERSION_8703B;
++#endif
++
++#ifdef CONFIG_RTL8822B
++	return RELEASE_VERSION_8822B;
++#endif
++
++#ifdef CONFIG_RTL8723D
++	return RELEASE_VERSION_8723D;
++#endif
++
++}
++
++#if 0
++static void BT_CoexOffloadRecordErrC2hAck(PADAPTER	Adapter)
++{
++	PADAPTER		pDefaultAdapter = GetDefaultAdapter(Adapter);
++
++	if (pDefaultAdapter != Adapter)
++		return;
++
++	if (!hal_btcoex_IsBtExist(Adapter))
++		return;
++
++	gl_coex_offload.cnt_c2h_ack++;
++
++	gl_coex_offload.status[COL_STATUS_INVALID_C2H_LEN]++;
++}
++
++static void BT_CoexOffloadC2hAckCheck(PADAPTER	Adapter, u8 *tmpBuf, u8 length)
++{
++	PADAPTER		pDefaultAdapter = GetDefaultAdapter(Adapter);
++	PCOL_C2H_ACK	p_c2h_ack = NULL;
++	u8			req_num = 0xff;
++
++	if (pDefaultAdapter != Adapter)
++		return;
++
++	if (!hal_btcoex_IsBtExist(Adapter))
++		return;
++
++	gl_coex_offload.cnt_c2h_ack++;
++
++	if (length < COL_C2H_ACK_HDR_LEN) {		/* c2h ack length must >= 3 (status, opcode_ver, req_num and ret_len) */
++		gl_coex_offload.status[COL_STATUS_INVALID_C2H_LEN]++;
++	} else {
++		BT_PrintData(Adapter, "[COL], c2h ack:", length, tmpBuf);
++
++		p_c2h_ack = (PCOL_C2H_ACK)tmpBuf;
++		req_num = p_c2h_ack->req_num;
++
++		_rtw_memmove(&gl_coex_offload.c2h_ack_buf[req_num][0], tmpBuf, length);
++		gl_coex_offload.c2h_ack_len[req_num] = length;
++
++		complete(&gl_coex_offload.c2h_event[req_num]);
++	}
++}
++
++static void BT_CoexOffloadC2hIndCheck(PADAPTER Adapter, u8 *tmpBuf, u8 length)
++{
++	PADAPTER		pDefaultAdapter = GetDefaultAdapter(Adapter);
++	PCOL_C2H_IND	p_c2h_ind = NULL;
++	u8			ind_type = 0, ind_version = 0, ind_length = 0;
++
++	if (pDefaultAdapter != Adapter)
++		return;
++
++	if (!hal_btcoex_IsBtExist(Adapter))
++		return;
++
++	gl_coex_offload.cnt_c2h_ind++;
++
++	if (length < COL_C2H_IND_HDR_LEN) {		/* c2h indication length must >= 3 (type, version and length) */
++		gl_coex_offload.c2h_ind_status[COL_STATUS_INVALID_C2H_LEN]++;
++	} else {
++		BT_PrintData(Adapter, "[COL], c2h indication:", length, tmpBuf);
++
++		p_c2h_ind = (PCOL_C2H_IND)tmpBuf;
++		ind_type = p_c2h_ind->type;
++		ind_version = p_c2h_ind->version;
++		ind_length = p_c2h_ind->length;
++
++		_rtw_memmove(&gl_coex_offload.c2h_ind_buf[0], tmpBuf, length);
++		gl_coex_offload.c2h_ind_len = length;
++
++		/* log */
++		gl_coex_offload.c2h_ind_record[ind_type].count++;
++		gl_coex_offload.c2h_ind_record[ind_type].status[COL_STATUS_C2H_OK]++;
++		_rtw_memmove(&gl_coex_offload.c2h_ind_record[ind_type].ind_buf[0], tmpBuf, length);
++		gl_coex_offload.c2h_ind_record[ind_type].ind_len = length;
++
++		gl_coex_offload.c2h_ind_status[COL_STATUS_C2H_OK]++;
++		/*TODO: need to check c2h indication length*/
++		/* TODO: Notification */
++	}
++}
++
++void BT_CoexOffloadC2hCheck(PADAPTER Adapter, u8 *Buffer, u8 Length)
++{
++#if 0 /*(USE_HAL_MAC_API == 1)*/
++	u8	c2hSubCmdId = 0, c2hAckLen = 0, h2cCmdId = 0, h2cSubCmdId = 0, c2hIndLen = 0;
++
++	BT_PrintData(Adapter, "[COL], c2h packet:", Length - 2, Buffer + 2);
++	c2hSubCmdId = (u1Byte)C2H_HDR_GET_C2H_SUB_CMD_ID(Buffer);
++
++	if (c2hSubCmdId == C2H_SUB_CMD_ID_H2C_ACK_HDR ||
++	    c2hSubCmdId == C2H_SUB_CMD_ID_BT_COEX_INFO) {
++		if (c2hSubCmdId == C2H_SUB_CMD_ID_H2C_ACK_HDR) {
++			/* coex c2h ack */
++			h2cCmdId = (u1Byte)H2C_ACK_HDR_GET_H2C_CMD_ID(Buffer);
++			h2cSubCmdId = (u1Byte)H2C_ACK_HDR_GET_H2C_SUB_CMD_ID(Buffer);
++			if (h2cCmdId == 0xff && h2cSubCmdId == 0x60) {
++				c2hAckLen = (u1Byte)C2H_HDR_GET_LEN(Buffer);
++				if (c2hAckLen >= 8)
++					BT_CoexOffloadC2hAckCheck(Adapter, &Buffer[12], (u1Byte)(c2hAckLen - 8));
++				else
++					BT_CoexOffloadRecordErrC2hAck(Adapter);
++			}
++		} else if (c2hSubCmdId == C2H_SUB_CMD_ID_BT_COEX_INFO) {
++			/* coex c2h indication */
++			c2hIndLen = (u1Byte)C2H_HDR_GET_LEN(Buffer);
++			BT_CoexOffloadC2hIndCheck(Adapter, &Buffer[4], (u1Byte)c2hIndLen);
++		}
++	}
++#endif
++}
++#endif
++
++/* ************************************
++ *		Extern functions called by other module
++ * ************************************ */
++u8 EXhalbtcoutsrc_BindBtCoexWithAdapter(void *padapter)
++{
++	PBTC_COEXIST		pBtCoexist = &GLBtCoexist;
++	u8	antNum = 1, chipType = 0, singleAntPath = 0;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA((PADAPTER)padapter);
++
++	if (pBtCoexist->bBinded)
++		return _FALSE;
++	else
++		pBtCoexist->bBinded = _TRUE;
++
++	pBtCoexist->statistics.cnt_bind++;
++
++	pBtCoexist->Adapter = padapter;
++
++	pBtCoexist->stack_info.profile_notified = _FALSE;
++
++	pBtCoexist->bt_info.bt_ctrl_agg_buf_size = _FALSE;
++	pBtCoexist->bt_info.agg_buf_size = 5;
++
++	pBtCoexist->bt_info.increase_scan_dev_num = _FALSE;
++	pBtCoexist->bt_info.miracast_plus_bt = _FALSE;
++
++	antNum = rtw_btcoex_get_pg_ant_num((PADAPTER)padapter);
++	EXhalbtcoutsrc_SetAntNum(BT_COEX_ANT_TYPE_PG, antNum);
++
++	if (antNum == 1) {
++		singleAntPath = rtw_btcoex_get_pg_single_ant_path((PADAPTER)padapter);
++		EXhalbtcoutsrc_SetSingleAntPath(singleAntPath);
++	}
++
++	/* set default antenna position to main  port */
++	pBtCoexist->board_info.btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++
++	pBtCoexist->board_info.btdm_ant_det_finish = _FALSE;
++	pBtCoexist->board_info.btdm_ant_num_by_ant_det = 1;
++
++	pBtCoexist->board_info.tfbga_package = rtw_btcoex_is_tfbga_package_type((PADAPTER)padapter);
++
++	pBtCoexist->board_info.rfe_type = rtw_btcoex_get_pg_rfe_type((PADAPTER)padapter);
++
++	pBtCoexist->board_info.ant_div_cfg = rtw_btcoex_get_ant_div_cfg((PADAPTER)padapter);
++
++	return _TRUE;
++}
++
++u8 EXhalbtcoutsrc_InitlizeVariables(void *padapter)
++{
++	PBTC_COEXIST pBtCoexist = &GLBtCoexist;
++
++	/* pBtCoexist->statistics.cntBind++; */
++
++	halbtcoutsrc_DbgInit();
++
++	halbtcoutsrc_coex_offload_init();
++
++#ifdef CONFIG_PCI_HCI
++	pBtCoexist->chip_interface = BTC_INTF_PCI;
++#elif defined(CONFIG_USB_HCI)
++	pBtCoexist->chip_interface = BTC_INTF_USB;
++#elif defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	pBtCoexist->chip_interface = BTC_INTF_SDIO;
++#else
++	pBtCoexist->chip_interface = BTC_INTF_UNKNOWN;
++#endif
++
++	EXhalbtcoutsrc_BindBtCoexWithAdapter(padapter);
++
++	pBtCoexist->btc_read_1byte = halbtcoutsrc_Read1Byte;
++	pBtCoexist->btc_write_1byte = halbtcoutsrc_Write1Byte;
++	pBtCoexist->btc_write_1byte_bitmask = halbtcoutsrc_BitMaskWrite1Byte;
++	pBtCoexist->btc_read_2byte = halbtcoutsrc_Read2Byte;
++	pBtCoexist->btc_write_2byte = halbtcoutsrc_Write2Byte;
++	pBtCoexist->btc_read_4byte = halbtcoutsrc_Read4Byte;
++	pBtCoexist->btc_write_4byte = halbtcoutsrc_Write4Byte;
++	pBtCoexist->btc_write_local_reg_1byte = halbtcoutsrc_WriteLocalReg1Byte;
++
++	pBtCoexist->btc_set_bb_reg = halbtcoutsrc_SetBbReg;
++	pBtCoexist->btc_get_bb_reg = halbtcoutsrc_GetBbReg;
++
++	pBtCoexist->btc_set_rf_reg = halbtcoutsrc_SetRfReg;
++	pBtCoexist->btc_get_rf_reg = halbtcoutsrc_GetRfReg;
++
++	pBtCoexist->btc_fill_h2c = halbtcoutsrc_FillH2cCmd;
++	pBtCoexist->btc_disp_dbg_msg = halbtcoutsrc_DisplayDbgMsg;
++
++	pBtCoexist->btc_get = halbtcoutsrc_Get;
++	pBtCoexist->btc_set = halbtcoutsrc_Set;
++	pBtCoexist->btc_get_bt_reg = halbtcoutsrc_GetBtReg;
++	pBtCoexist->btc_set_bt_reg = halbtcoutsrc_SetBtReg;
++	pBtCoexist->btc_set_bt_ant_detection = halbtcoutsrc_SetBtAntDetection;
++	pBtCoexist->btc_coex_h2c_process = halbtcoutsrc_CoexH2cProcess;
++	pBtCoexist->btc_get_bt_coex_supported_feature = halbtcoutsrc_GetBtCoexSupportedFeature;
++	pBtCoexist->btc_get_bt_coex_supported_version= halbtcoutsrc_GetBtCoexSupportedVersion;
++	pBtCoexist->btc_get_bt_phydm_version = halbtcoutsrc_GetPhydmVersion;
++
++	pBtCoexist->cli_buf = &GLBtcDbgBuf[0];
++
++	GLBtcWiFiInScanState = _FALSE;
++
++	GLBtcWiFiInIQKState = _FALSE;
++
++	GLBtcWiFiInIPS = _FALSE;
++
++	GLBtcWiFiInLPS = _FALSE;
++
++	GLBtcBtCoexAliveRegistered = _FALSE;
++
++	/* BT Control H2C/C2H*/
++	GLBtcBtMpOperSeq = 0;
++	_rtw_mutex_init(&GLBtcBtMpOperLock);
++	_init_timer(&GLBtcBtMpOperTimer, ((PADAPTER)padapter)->pnetdev, _btmpoper_timer_hdl, pBtCoexist);
++	_rtw_init_sema(&GLBtcBtMpRptSema, 0);
++	GLBtcBtMpRptSeq = 0;
++	GLBtcBtMpRptStatus = 0;
++	_rtw_memset(GLBtcBtMpRptRsp, 0, C2H_MAX_SIZE);
++	GLBtcBtMpRptRspSize = 0;
++	GLBtcBtMpRptWait = 0;
++	GLBtcBtMpRptWiFiOK = 0;
++	GLBtcBtMpRptBTOK = 0;
++
++	return _TRUE;
++}
++
++void EXhalbtcoutsrc_PowerOnSetting(PBTC_COEXIST pBtCoexist)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	/* Power on setting function is only added in 8723B currently */
++	if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_power_on_setting(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_power_on_setting(pBtCoexist);
++	}
++
++	if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_power_on_setting(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_power_on_setting(pBtCoexist);
++	}
++
++	if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_power_on_setting(pBtCoexist);
++	}
++
++	if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_power_on_setting(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_power_on_setting(pBtCoexist);
++	}
++}
++
++void EXhalbtcoutsrc_PreLoadFirmware(PBTC_COEXIST pBtCoexist)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->statistics.cnt_pre_load_firmware++;
++
++	if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_pre_load_firmware(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_pre_load_firmware(pBtCoexist);
++	}
++
++	if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_pre_load_firmware(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_pre_load_firmware(pBtCoexist);
++	}
++
++	if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_pre_load_firmware(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_pre_load_firmware(pBtCoexist);
++	}
++}
++
++void EXhalbtcoutsrc_init_hw_config(PBTC_COEXIST pBtCoexist, u8 bWifiOnly)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->statistics.cnt_init_hw_config++;
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_init_hw_config(pBtCoexist, bWifiOnly);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_init_hw_config(pBtCoexist, bWifiOnly);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_init_hw_config(pBtCoexist, bWifiOnly);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_init_hw_config(pBtCoexist, bWifiOnly);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_init_hw_config(pBtCoexist, bWifiOnly);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_init_hw_config(pBtCoexist, bWifiOnly);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_init_hw_config(pBtCoexist, bWifiOnly);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_init_hw_config(pBtCoexist, bWifiOnly);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_init_hw_config(pBtCoexist, bWifiOnly);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_init_hw_config(pBtCoexist, bWifiOnly);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_init_hw_config(pBtCoexist, bWifiOnly);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_init_hw_config(pBtCoexist, bWifiOnly);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_init_hw_config(pBtCoexist, bWifiOnly);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_init_hw_config(pBtCoexist, bWifiOnly);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_init_hw_config(pBtCoexist, bWifiOnly);
++	}
++}
++
++void EXhalbtcoutsrc_init_coex_dm(PBTC_COEXIST pBtCoexist)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->statistics.cnt_init_coex_dm++;
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_init_coex_dm(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_init_coex_dm(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_init_coex_dm(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_init_coex_dm(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_init_coex_dm(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_init_coex_dm(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_init_coex_dm(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_init_coex_dm(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_init_coex_dm(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_init_coex_dm(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_init_coex_dm(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_init_coex_dm(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_init_coex_dm(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_init_coex_dm(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_init_coex_dm(pBtCoexist);
++	}
++
++	pBtCoexist->initilized = _TRUE;
++}
++
++void EXhalbtcoutsrc_ips_notify(PBTC_COEXIST pBtCoexist, u8 type)
++{
++	u8	ipsType;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->statistics.cnt_ips_notify++;
++	if (pBtCoexist->manual_control)
++		return;
++
++	if (IPS_NONE == type) {
++		ipsType = BTC_IPS_LEAVE;
++		GLBtcWiFiInIPS = _FALSE;
++	} else {
++		ipsType = BTC_IPS_ENTER;
++		GLBtcWiFiInIPS = _TRUE;
++	}
++
++	/* All notify is called in cmd thread, don't need to leave low power again
++	*	halbtcoutsrc_LeaveLowPower(pBtCoexist); */
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_ips_notify(pBtCoexist, ipsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_ips_notify(pBtCoexist, ipsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_ips_notify(pBtCoexist, ipsType);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_ips_notify(pBtCoexist, ipsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_ips_notify(pBtCoexist, ipsType);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_ips_notify(pBtCoexist, ipsType);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_ips_notify(pBtCoexist, ipsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_ips_notify(pBtCoexist, ipsType);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_ips_notify(pBtCoexist, ipsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_ips_notify(pBtCoexist, ipsType);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_ips_notify(pBtCoexist, ipsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_ips_notify(pBtCoexist, ipsType);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_ips_notify(pBtCoexist, ipsType);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_ips_notify(pBtCoexist, ipsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_ips_notify(pBtCoexist, ipsType);
++	}
++
++	/*	halbtcoutsrc_NormalLowPower(pBtCoexist); */
++}
++
++void EXhalbtcoutsrc_lps_notify(PBTC_COEXIST pBtCoexist, u8 type)
++{
++	u8 lpsType;
++
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->statistics.cnt_lps_notify++;
++	if (pBtCoexist->manual_control)
++		return;
++
++	if (PS_MODE_ACTIVE == type) {
++		lpsType = BTC_LPS_DISABLE;
++		GLBtcWiFiInLPS = _FALSE;
++	} else {
++		lpsType = BTC_LPS_ENABLE;
++		GLBtcWiFiInLPS = _TRUE;
++	}
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_lps_notify(pBtCoexist, lpsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_lps_notify(pBtCoexist, lpsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_lps_notify(pBtCoexist, lpsType);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_lps_notify(pBtCoexist, lpsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_lps_notify(pBtCoexist, lpsType);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_lps_notify(pBtCoexist, lpsType);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_lps_notify(pBtCoexist, lpsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_lps_notify(pBtCoexist, lpsType);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_lps_notify(pBtCoexist, lpsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_lps_notify(pBtCoexist, lpsType);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_lps_notify(pBtCoexist, lpsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_lps_notify(pBtCoexist, lpsType);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_lps_notify(pBtCoexist, lpsType);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_lps_notify(pBtCoexist, lpsType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_lps_notify(pBtCoexist, lpsType);
++	}
++}
++
++void EXhalbtcoutsrc_scan_notify(PBTC_COEXIST pBtCoexist, u8 type)
++{
++	u8	scanType;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++	pBtCoexist->statistics.cnt_scan_notify++;
++	if (pBtCoexist->manual_control)
++		return;
++
++	if (type) {
++		scanType = BTC_SCAN_START;
++		GLBtcWiFiInScanState = _TRUE;
++	} else {
++		scanType = BTC_SCAN_FINISH;
++		GLBtcWiFiInScanState = _FALSE;
++	}
++
++	/* All notify is called in cmd thread, don't need to leave low power again
++	*	halbtcoutsrc_LeaveLowPower(pBtCoexist); */
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_scan_notify(pBtCoexist, scanType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_scan_notify(pBtCoexist, scanType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_scan_notify(pBtCoexist, scanType);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_scan_notify(pBtCoexist, scanType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_scan_notify(pBtCoexist, scanType);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_scan_notify(pBtCoexist, scanType);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_scan_notify(pBtCoexist, scanType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_scan_notify(pBtCoexist, scanType);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_scan_notify(pBtCoexist, scanType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_scan_notify(pBtCoexist, scanType);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_scan_notify(pBtCoexist, scanType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_scan_notify(pBtCoexist, scanType);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_scan_notify(pBtCoexist, scanType);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_scan_notify(pBtCoexist, scanType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_scan_notify(pBtCoexist, scanType);
++	}
++
++	/*	halbtcoutsrc_NormalLowPower(pBtCoexist); */
++}
++
++void EXhalbtcoutsrc_connect_notify(PBTC_COEXIST pBtCoexist, u8 action)
++{
++	u8	assoType;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++	pBtCoexist->statistics.cnt_connect_notify++;
++	if (pBtCoexist->manual_control)
++		return;
++
++	if (action)
++		assoType = BTC_ASSOCIATE_START;
++	else
++		assoType = BTC_ASSOCIATE_FINISH;
++
++	/* All notify is called in cmd thread, don't need to leave low power again
++	*	halbtcoutsrc_LeaveLowPower(pBtCoexist); */
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_connect_notify(pBtCoexist, assoType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_connect_notify(pBtCoexist, assoType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_connect_notify(pBtCoexist, assoType);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_connect_notify(pBtCoexist, assoType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_connect_notify(pBtCoexist, assoType);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_connect_notify(pBtCoexist, assoType);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_connect_notify(pBtCoexist, assoType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_connect_notify(pBtCoexist, assoType);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_connect_notify(pBtCoexist, assoType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_connect_notify(pBtCoexist, assoType);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_connect_notify(pBtCoexist, assoType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_connect_notify(pBtCoexist, assoType);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_connect_notify(pBtCoexist, assoType);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_connect_notify(pBtCoexist, assoType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_connect_notify(pBtCoexist, assoType);
++	}
++
++	/*	halbtcoutsrc_NormalLowPower(pBtCoexist); */
++}
++
++void EXhalbtcoutsrc_media_status_notify(PBTC_COEXIST pBtCoexist, RT_MEDIA_STATUS mediaStatus)
++{
++	u8 mStatus;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->statistics.cnt_media_status_notify++;
++	if (pBtCoexist->manual_control)
++		return;
++
++	if (RT_MEDIA_CONNECT == mediaStatus)
++		mStatus = BTC_MEDIA_CONNECT;
++	else
++		mStatus = BTC_MEDIA_DISCONNECT;
++
++	/* All notify is called in cmd thread, don't need to leave low power again
++	*	halbtcoutsrc_LeaveLowPower(pBtCoexist); */
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_media_status_notify(pBtCoexist, mStatus);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_media_status_notify(pBtCoexist, mStatus);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_media_status_notify(pBtCoexist, mStatus);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_media_status_notify(pBtCoexist, mStatus);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_media_status_notify(pBtCoexist, mStatus);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_media_status_notify(pBtCoexist, mStatus);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_media_status_notify(pBtCoexist, mStatus);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_media_status_notify(pBtCoexist, mStatus);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_media_status_notify(pBtCoexist, mStatus);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_media_status_notify(pBtCoexist, mStatus);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_media_status_notify(pBtCoexist, mStatus);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_media_status_notify(pBtCoexist, mStatus);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_media_status_notify(pBtCoexist, mStatus);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_media_status_notify(pBtCoexist, mStatus);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_media_status_notify(pBtCoexist, mStatus);
++	}
++
++	/*	halbtcoutsrc_NormalLowPower(pBtCoexist); */
++}
++
++void EXhalbtcoutsrc_specific_packet_notify(PBTC_COEXIST pBtCoexist, u8 pktType)
++{
++	u8	packetType;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++	pBtCoexist->statistics.cnt_specific_packet_notify++;
++	if (pBtCoexist->manual_control)
++		return;
++
++	if (PACKET_DHCP == pktType)
++		packetType = BTC_PACKET_DHCP;
++	else if (PACKET_EAPOL == pktType)
++		packetType = BTC_PACKET_EAPOL;
++	else if (PACKET_ARP == pktType)
++		packetType = BTC_PACKET_ARP;
++	else {
++		packetType = BTC_PACKET_UNKNOWN;
++		return;
++	}
++
++	/* All notify is called in cmd thread, don't need to leave low power again
++	*	halbtcoutsrc_LeaveLowPower(pBtCoexist); */
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_specific_packet_notify(pBtCoexist, packetType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_specific_packet_notify(pBtCoexist, packetType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_specific_packet_notify(pBtCoexist, packetType);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_specific_packet_notify(pBtCoexist, packetType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_specific_packet_notify(pBtCoexist, packetType);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_specific_packet_notify(pBtCoexist, packetType);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_specific_packet_notify(pBtCoexist, packetType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_specific_packet_notify(pBtCoexist, packetType);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_specific_packet_notify(pBtCoexist, packetType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_specific_packet_notify(pBtCoexist, packetType);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_specific_packet_notify(pBtCoexist, packetType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_specific_packet_notify(pBtCoexist, packetType);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_specific_packet_notify(pBtCoexist, packetType);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_specific_packet_notify(pBtCoexist, packetType);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_specific_packet_notify(pBtCoexist, packetType);
++	}
++
++	/*	halbtcoutsrc_NormalLowPower(pBtCoexist); */
++}
++
++void EXhalbtcoutsrc_bt_info_notify(PBTC_COEXIST pBtCoexist, u8 *tmpBuf, u8 length)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->statistics.cnt_bt_info_notify++;
++
++	/* All notify is called in cmd thread, don't need to leave low power again
++	*	halbtcoutsrc_LeaveLowPower(pBtCoexist); */
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
++	}
++
++	/*	halbtcoutsrc_NormalLowPower(pBtCoexist); */
++}
++
++VOID
++EXhalbtcoutsrc_RfStatusNotify(
++	IN	PBTC_COEXIST		pBtCoexist,
++	IN	u1Byte				type
++)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++	pBtCoexist->statistics.cnt_rf_status_notify++;
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_rf_status_notify(pBtCoexist, type);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_rf_status_notify(pBtCoexist, type);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_rf_status_notify(pBtCoexist, type);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_rf_status_notify(pBtCoexist, type);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_rf_status_notify(pBtCoexist, type);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_rf_status_notify(pBtCoexist, type);
++	}
++}
++
++void EXhalbtcoutsrc_StackOperationNotify(PBTC_COEXIST pBtCoexist, u8 type)
++{
++#if 0
++	u8	stackOpType;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++	pBtCoexist->statistics.cntStackOperationNotify++;
++	if (pBtCoexist->manual_control)
++		return;
++
++	if ((HCI_BT_OP_INQUIRY_START == type) ||
++	    (HCI_BT_OP_PAGING_START == type) ||
++	    (HCI_BT_OP_PAIRING_START == type))
++		stackOpType = BTC_STACK_OP_INQ_PAGE_PAIR_START;
++	else if ((HCI_BT_OP_INQUIRY_FINISH == type) ||
++		 (HCI_BT_OP_PAGING_SUCCESS == type) ||
++		 (HCI_BT_OP_PAGING_UNSUCCESS == type) ||
++		 (HCI_BT_OP_PAIRING_FINISH == type))
++		stackOpType = BTC_STACK_OP_INQ_PAGE_PAIR_FINISH;
++	else
++		stackOpType = BTC_STACK_OP_NONE;
++
++#endif
++}
++
++void EXhalbtcoutsrc_halt_notify(PBTC_COEXIST pBtCoexist)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_halt_notify(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_halt_notify(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_halt_notify(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_halt_notify(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_halt_notify(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_halt_notify(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_halt_notify(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_halt_notify(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_halt_notify(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_halt_notify(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_halt_notify(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_halt_notify(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_halt_notify(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_halt_notify(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_halt_notify(pBtCoexist);
++	}
++
++	pBtCoexist->bBinded = FALSE;
++}
++
++void EXhalbtcoutsrc_SwitchBtTRxMask(PBTC_COEXIST pBtCoexist)
++{
++	if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2) {
++			halbtcoutsrc_SetBtReg(pBtCoexist, 0, 0x3c, 0x01); /* BT goto standby while GNT_BT 1-->0 */
++		} else if (pBtCoexist->board_info.btdm_ant_num == 1) {
++			halbtcoutsrc_SetBtReg(pBtCoexist, 0, 0x3c, 0x15); /* BT goto standby while GNT_BT 1-->0 */
++		}
++	}
++}
++
++void EXhalbtcoutsrc_pnp_notify(PBTC_COEXIST pBtCoexist, u8 pnpState)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	/*  */
++	/* currently only 1ant we have to do the notification, */
++	/* once pnp is notified to sleep state, we have to leave LPS that we can sleep normally. */
++	/*  */
++
++	if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_pnp_notify(pBtCoexist, pnpState);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_pnp_notify(pBtCoexist, pnpState);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_pnp_notify(pBtCoexist, pnpState);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_pnp_notify(pBtCoexist, pnpState);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_pnp_notify(pBtCoexist, pnpState);
++	} else if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_pnp_notify(pBtCoexist, pnpState);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_pnp_notify(pBtCoexist, pnpState);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_pnp_notify(pBtCoexist, pnpState);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_pnp_notify(pBtCoexist, pnpState);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_pnp_notify(pBtCoexist, pnpState);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_pnp_notify(pBtCoexist, pnpState);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_pnp_notify(pBtCoexist, pnpState);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_pnp_notify(pBtCoexist, pnpState);
++	}
++}
++
++void EXhalbtcoutsrc_ScoreBoardStatusNotify(PBTC_COEXIST pBtCoexist, u8 *tmpBuf, u8 length)
++{
++#if 0
++	if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_ScoreBoardStatusNotify(pBtCoexist, tmpBuf, length);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			;/*ex_halbtc8723d1ant_ScoreBoardStatusNotify(pBtCoexist, tmpBuf, length);*/
++	}
++#endif
++}
++
++void EXhalbtcoutsrc_CoexDmSwitch(PBTC_COEXIST pBtCoexist)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++	pBtCoexist->statistics.cnt_coex_dm_switch++;
++
++	halbtcoutsrc_LeaveLowPower(pBtCoexist);
++
++	if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1) {
++			pBtCoexist->stop_coex_dm = TRUE;
++			ex_halbtc8723b1ant_coex_dm_reset(pBtCoexist);
++			EXhalbtcoutsrc_SetAntNum(BT_COEX_ANT_TYPE_DETECTED, 2);
++			ex_halbtc8723b2ant_init_hw_config(pBtCoexist, FALSE);
++			ex_halbtc8723b2ant_init_coex_dm(pBtCoexist);
++			pBtCoexist->stop_coex_dm = FALSE;
++		}
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1) {
++			pBtCoexist->stop_coex_dm = TRUE;
++			ex_halbtc8723d1ant_coex_dm_reset(pBtCoexist);
++			EXhalbtcoutsrc_SetAntNum(BT_COEX_ANT_TYPE_DETECTED, 2);
++			ex_halbtc8723d2ant_init_hw_config(pBtCoexist, FALSE);
++			ex_halbtc8723d2ant_init_coex_dm(pBtCoexist);
++			pBtCoexist->stop_coex_dm = FALSE;
++		}
++	}
++
++	halbtcoutsrc_NormalLowPower(pBtCoexist);
++}
++
++void EXhalbtcoutsrc_periodical(PBTC_COEXIST pBtCoexist)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++	pBtCoexist->statistics.cnt_periodical++;
++
++	/* Periodical should be called in cmd thread, */
++	/* don't need to leave low power again
++	*	halbtcoutsrc_LeaveLowPower(pBtCoexist); */
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_periodical(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_periodical(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1) {
++			if (!halbtcoutsrc_UnderIps(pBtCoexist))
++				ex_halbtc8821a1ant_periodical(pBtCoexist);
++		}
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_periodical(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_periodical(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_periodical(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_periodical(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_periodical(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_periodical(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_periodical(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_periodical(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_periodical(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_periodical(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_periodical(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_periodical(pBtCoexist);
++	}
++
++	/*	halbtcoutsrc_NormalLowPower(pBtCoexist); */
++}
++
++void EXhalbtcoutsrc_dbg_control(PBTC_COEXIST pBtCoexist, u8 opCode, u8 opLen, u8 *pData)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->statistics.cnt_dbg_ctrl++;
++
++	/* This function doesn't be called yet, */
++	/* default no need to leave low power to avoid deadlock
++	*	halbtcoutsrc_LeaveLowPower(pBtCoexist); */
++
++	if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_dbg_control(pBtCoexist, opCode, opLen, pData);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_dbg_control(pBtCoexist, opCode, opLen, pData);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_dbg_control(pBtCoexist, opCode, opLen, pData);
++	} else if(IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter))
++		if(pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_dbg_control(pBtCoexist, opCode, opLen, pData);
++
++	/*	halbtcoutsrc_NormalLowPower(pBtCoexist); */
++}
++
++#if 0
++VOID
++EXhalbtcoutsrc_AntennaDetection(
++	IN	PBTC_COEXIST			pBtCoexist,
++	IN	u4Byte					centFreq,
++	IN	u4Byte					offset,
++	IN	u4Byte					span,
++	IN	u4Byte					seconds
++)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	/* Need to refine the following power save operations to enable this function in the future */
++#if 0
++	IPSDisable(pBtCoexist->Adapter, FALSE, 0);
++	LeisurePSLeave(pBtCoexist->Adapter, LPS_DISABLE_BT_COEX);
++#endif
++
++	if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_AntennaDetection(pBtCoexist, centFreq, offset, span, seconds);
++	}
++
++	/* IPSReturn(pBtCoexist->Adapter, 0xff); */
++}
++#endif
++
++void EXhalbtcoutsrc_StackUpdateProfileInfo(void)
++{
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	PBTC_COEXIST pBtCoexist = &GLBtCoexist;
++	PADAPTER padapter = (PADAPTER)GLBtCoexist.Adapter;
++	PBT_MGNT pBtMgnt = &padapter->coex_info.BtMgnt;
++	u8 i;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->stack_info.profile_notified = _TRUE;
++
++	pBtCoexist->stack_info.num_of_link =
++		pBtMgnt->ExtConfig.NumberOfACL + pBtMgnt->ExtConfig.NumberOfSCO;
++
++	/* reset first */
++	pBtCoexist->stack_info.bt_link_exist = _FALSE;
++	pBtCoexist->stack_info.sco_exist = _FALSE;
++	pBtCoexist->stack_info.acl_exist = _FALSE;
++	pBtCoexist->stack_info.a2dp_exist = _FALSE;
++	pBtCoexist->stack_info.hid_exist = _FALSE;
++	pBtCoexist->stack_info.num_of_hid = 0;
++	pBtCoexist->stack_info.pan_exist = _FALSE;
++
++	if (!pBtMgnt->ExtConfig.NumberOfACL)
++		pBtCoexist->stack_info.min_bt_rssi = 0;
++
++	if (pBtCoexist->stack_info.num_of_link) {
++		pBtCoexist->stack_info.bt_link_exist = _TRUE;
++		if (pBtMgnt->ExtConfig.NumberOfSCO)
++			pBtCoexist->stack_info.sco_exist = _TRUE;
++		if (pBtMgnt->ExtConfig.NumberOfACL)
++			pBtCoexist->stack_info.acl_exist = _TRUE;
++	}
++
++	for (i = 0; i < pBtMgnt->ExtConfig.NumberOfACL; i++) {
++		if (BT_PROFILE_A2DP == pBtMgnt->ExtConfig.aclLink[i].BTProfile)
++			pBtCoexist->stack_info.a2dp_exist = _TRUE;
++		else if (BT_PROFILE_PAN == pBtMgnt->ExtConfig.aclLink[i].BTProfile)
++			pBtCoexist->stack_info.pan_exist = _TRUE;
++		else if (BT_PROFILE_HID == pBtMgnt->ExtConfig.aclLink[i].BTProfile) {
++			pBtCoexist->stack_info.hid_exist = _TRUE;
++			pBtCoexist->stack_info.num_of_hid++;
++		} else
++			pBtCoexist->stack_info.unknown_acl_exist = _TRUE;
++	}
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++}
++
++void EXhalbtcoutsrc_UpdateMinBtRssi(s8 btRssi)
++{
++	PBTC_COEXIST pBtCoexist = &GLBtCoexist;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->stack_info.min_bt_rssi = btRssi;
++}
++
++void EXhalbtcoutsrc_SetHciVersion(u16 hciVersion)
++{
++	PBTC_COEXIST pBtCoexist = &GLBtCoexist;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->stack_info.hci_version = hciVersion;
++}
++
++void EXhalbtcoutsrc_SetBtPatchVersion(u16 btHciVersion, u16 btPatchVersion)
++{
++	PBTC_COEXIST pBtCoexist = &GLBtCoexist;
++
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	pBtCoexist->bt_info.bt_real_fw_ver = btPatchVersion;
++	pBtCoexist->bt_info.bt_hci_ver = btHciVersion;
++}
++
++#if 0
++void EXhalbtcoutsrc_SetBtExist(u8 bBtExist)
++{
++	GLBtCoexist.boardInfo.bBtExist = bBtExist;
++}
++#endif
++void EXhalbtcoutsrc_SetChipType(u8 chipType)
++{
++	switch (chipType) {
++	default:
++	case BT_2WIRE:
++	case BT_ISSC_3WIRE:
++	case BT_ACCEL:
++	case BT_RTL8756:
++		GLBtCoexist.board_info.bt_chip_type = BTC_CHIP_UNDEF;
++		break;
++	case BT_CSR_BC4:
++		GLBtCoexist.board_info.bt_chip_type = BTC_CHIP_CSR_BC4;
++		break;
++	case BT_CSR_BC8:
++		GLBtCoexist.board_info.bt_chip_type = BTC_CHIP_CSR_BC8;
++		break;
++	case BT_RTL8723A:
++		GLBtCoexist.board_info.bt_chip_type = BTC_CHIP_RTL8723A;
++		break;
++	case BT_RTL8821:
++		GLBtCoexist.board_info.bt_chip_type = BTC_CHIP_RTL8821;
++		break;
++	case BT_RTL8723B:
++		GLBtCoexist.board_info.bt_chip_type = BTC_CHIP_RTL8723B;
++		break;
++	}
++}
++
++void EXhalbtcoutsrc_SetAntNum(u8 type, u8 antNum)
++{
++	if (BT_COEX_ANT_TYPE_PG == type) {
++		GLBtCoexist.board_info.pg_ant_num = antNum;
++		GLBtCoexist.board_info.btdm_ant_num = antNum;
++#if 0
++		/* The antenna position: Main (default) or Aux for pgAntNum=2 && btdmAntNum =1 */
++		/* The antenna position should be determined by auto-detect mechanism */
++		/* The following is assumed to main, and those must be modified if y auto-detect mechanism is ready */
++		if ((GLBtCoexist.board_info.pg_ant_num == 2) && (GLBtCoexist.board_info.btdm_ant_num == 1))
++			GLBtCoexist.board_info.btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++		else
++			GLBtCoexist.board_info.btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
++#endif
++	} else if (BT_COEX_ANT_TYPE_ANTDIV == type) {
++		GLBtCoexist.board_info.btdm_ant_num = antNum;
++		/* GLBtCoexist.boardInfo.btdmAntPos = BTC_ANTENNA_AT_MAIN_PORT;	 */
++	} else if (BT_COEX_ANT_TYPE_DETECTED == type) {
++		GLBtCoexist.board_info.btdm_ant_num = antNum;
++		/* GLBtCoexist.boardInfo.btdmAntPos = BTC_ANTENNA_AT_MAIN_PORT; */
++	}
++}
++
++/*
++ * Currently used by 8723b only, S0 or S1
++ *   */
++void EXhalbtcoutsrc_SetSingleAntPath(u8 singleAntPath)
++{
++	GLBtCoexist.board_info.single_ant_path = singleAntPath;
++}
++
++void EXhalbtcoutsrc_DisplayBtCoexInfo(PBTC_COEXIST pBtCoexist)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	halbtcoutsrc_LeaveLowPower(pBtCoexist);
++
++	if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
++		if (halbtcoutsrc_IsCsrBtCoex(pBtCoexist) == _TRUE)
++			ex_halbtc8821aCsr2ant_display_coex_info(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821a2ant_display_coex_info(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821a1ant_display_coex_info(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723b2ant_display_coex_info(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_display_coex_info(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8703b1ant_display_coex_info(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8723d2ant_display_coex_info(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723d1ant_display_coex_info(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8192e2ant_display_coex_info(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8192e1ant_display_coex_info(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_display_coex_info(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8812a1ant_display_coex_info(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_display_coex_info(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_display_coex_info(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_display_coex_info(pBtCoexist);
++	}
++
++	halbtcoutsrc_NormalLowPower(pBtCoexist);
++}
++
++void EXhalbtcoutsrc_DisplayAntDetection(PBTC_COEXIST pBtCoexist)
++{
++	if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++
++	halbtcoutsrc_LeaveLowPower(pBtCoexist);
++
++	if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8723b1ant_display_ant_detection(pBtCoexist);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_display_ant_detection(pBtCoexist);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_display_ant_detection(pBtCoexist);
++	}
++
++	halbtcoutsrc_NormalLowPower(pBtCoexist);
++}
++
++void ex_halbtcoutsrc_pta_off_on_notify(PBTC_COEXIST pBtCoexist, u8 bBTON)
++{
++	if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8812a2ant_pta_off_on_notify(pBtCoexist, (bBTON == _TRUE) ? BTC_BT_ON : BTC_BT_OFF);
++	}
++}
++
++void EXhalbtcoutsrc_set_rfe_type(u8 type)
++{
++	GLBtCoexist.board_info.rfe_type= type;
++}
++
++void EXhalbtcoutsrc_switchband_notify(struct btc_coexist *pBtCoexist, u8 type)
++{
++	if(!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
++		return;
++	
++	if(pBtCoexist->manual_control)
++		return;
++
++
++	halbtcoutsrc_LeaveLowPower(pBtCoexist);
++
++	if(IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
++		if(pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8822b1ant_switchband_notify(pBtCoexist, type);
++	} else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
++		if (pBtCoexist->board_info.btdm_ant_num == 2)
++			ex_halbtc8821c2ant_switchband_notify(pBtCoexist, type);
++		else if (pBtCoexist->board_info.btdm_ant_num == 1)
++			ex_halbtc8821c1ant_switchband_notify(pBtCoexist, type);
++	}
++
++	halbtcoutsrc_NormalLowPower(pBtCoexist);
++}
++
++static void halbt_init_hw_config92C(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData;
++	u8 u1Tmp;
++
++
++	pHalData = GET_HAL_DATA(padapter);
++	if ((pHalData->bt_coexist.btChipType == BT_CSR_BC4) ||
++	    (pHalData->bt_coexist.btChipType == BT_CSR_BC8)) {
++		if (pHalData->rf_type == RF_1T1R) {
++			/* Config to 1T1R */
++			u1Tmp = rtw_read8(padapter, rOFDM0_TRxPathEnable);
++			u1Tmp &= ~BIT(1);
++			rtw_write8(padapter, rOFDM0_TRxPathEnable, u1Tmp);
++			RT_DISP(FBT, BT_TRACE, ("[BTCoex], BT write 0xC04 = 0x%x\n", u1Tmp));
++
++			u1Tmp = rtw_read8(padapter, rOFDM1_TRxPathEnable);
++			u1Tmp &= ~BIT(1);
++			rtw_write8(padapter, rOFDM1_TRxPathEnable, u1Tmp);
++			RT_DISP(FBT, BT_TRACE, ("[BTCoex], BT write 0xD04 = 0x%x\n", u1Tmp));
++		}
++	}
++}
++
++static void halbt_init_hw_config92D(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData;
++	u8 u1Tmp;
++
++	pHalData = GET_HAL_DATA(padapter);
++	if ((pHalData->bt_coexist.btChipType == BT_CSR_BC4) ||
++	    (pHalData->bt_coexist.btChipType == BT_CSR_BC8)) {
++		if (pHalData->rf_type == RF_1T1R) {
++			/* Config to 1T1R */
++			u1Tmp = rtw_read8(padapter, rOFDM0_TRxPathEnable);
++			u1Tmp &= ~BIT(1);
++			rtw_write8(padapter, rOFDM0_TRxPathEnable, u1Tmp);
++			RT_DISP(FBT, BT_TRACE, ("[BTCoex], BT write 0xC04 = 0x%x\n", u1Tmp));
++
++			u1Tmp = rtw_read8(padapter, rOFDM1_TRxPathEnable);
++			u1Tmp &= ~BIT(1);
++			rtw_write8(padapter, rOFDM1_TRxPathEnable, u1Tmp);
++			RT_DISP(FBT, BT_TRACE, ("[BTCoex], BT write 0xD04 = 0x%x\n", u1Tmp));
++		}
++	}
++}
++
++/*
++ * Description:
++ *	Run BT-Coexist mechansim or not
++ *
++ */
++void hal_btcoex_SetBTCoexist(PADAPTER padapter, u8 bBtExist)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++
++	pHalData = GET_HAL_DATA(padapter);
++	pHalData->bt_coexist.bBtExist = bBtExist;
++}
++
++/*
++ * Dewcription:
++ *	Check is co-exist mechanism enabled or not
++ *
++ * Return:
++ *	_TRUE	Enable BT co-exist mechanism
++ *	_FALSE	Disable BT co-exist mechanism
++ */
++u8 hal_btcoex_IsBtExist(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++
++	pHalData = GET_HAL_DATA(padapter);
++	return pHalData->bt_coexist.bBtExist;
++}
++
++u8 hal_btcoex_IsBtDisabled(PADAPTER padapter)
++{
++	if (!hal_btcoex_IsBtExist(padapter))
++		return _TRUE;
++
++	if (GLBtCoexist.bt_info.bt_disabled)
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++void hal_btcoex_SetChipType(PADAPTER padapter, u8 chipType)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++	pHalData->bt_coexist.btChipType = chipType;
++}
++
++void hal_btcoex_SetPgAntNum(PADAPTER padapter, u8 antNum)
++{
++	PHAL_DATA_TYPE	pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++
++	pHalData->bt_coexist.btTotalAntNum = antNum;
++}
++
++u8 hal_btcoex_Initialize(PADAPTER padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	u8 ret;
++
++	_rtw_memset(&GLBtCoexist, 0, sizeof(GLBtCoexist));
++
++	hal_btcoex_SetBTCoexist(padapter, rtw_btcoex_get_bt_coexist(padapter));
++	hal_btcoex_SetChipType(padapter, rtw_btcoex_get_chip_type(padapter));
++	hal_btcoex_SetPgAntNum(padapter, rtw_btcoex_get_pg_ant_num(padapter));
++	
++	ret = EXhalbtcoutsrc_InitlizeVariables((void *)padapter);
++
++	return ret;
++}
++
++void hal_btcoex_PowerOnSetting(PADAPTER padapter)
++{
++	EXhalbtcoutsrc_PowerOnSetting(&GLBtCoexist);
++}
++
++void hal_btcoex_PreLoadFirmware(PADAPTER padapter)
++{
++	EXhalbtcoutsrc_PreLoadFirmware(&GLBtCoexist);
++}
++
++void hal_btcoex_InitHwConfig(PADAPTER padapter, u8 bWifiOnly)
++{
++	if (!hal_btcoex_IsBtExist(padapter))
++		return;
++
++	EXhalbtcoutsrc_init_hw_config(&GLBtCoexist, bWifiOnly);
++	EXhalbtcoutsrc_init_coex_dm(&GLBtCoexist);
++}
++
++void hal_btcoex_IpsNotify(PADAPTER padapter, u8 type)
++{
++	EXhalbtcoutsrc_ips_notify(&GLBtCoexist, type);
++}
++
++void hal_btcoex_LpsNotify(PADAPTER padapter, u8 type)
++{
++	EXhalbtcoutsrc_lps_notify(&GLBtCoexist, type);
++}
++
++void hal_btcoex_ScanNotify(PADAPTER padapter, u8 type)
++{
++	EXhalbtcoutsrc_scan_notify(&GLBtCoexist, type);
++}
++
++void hal_btcoex_ConnectNotify(PADAPTER padapter, u8 action)
++{
++	EXhalbtcoutsrc_connect_notify(&GLBtCoexist, action);
++}
++
++void hal_btcoex_MediaStatusNotify(PADAPTER padapter, u8 mediaStatus)
++{
++	EXhalbtcoutsrc_media_status_notify(&GLBtCoexist, mediaStatus);
++}
++
++void hal_btcoex_SpecialPacketNotify(PADAPTER padapter, u8 pktType)
++{
++	EXhalbtcoutsrc_specific_packet_notify(&GLBtCoexist, pktType);
++}
++
++void hal_btcoex_IQKNotify(PADAPTER padapter, u8 state)
++{
++	GLBtcWiFiInIQKState = state;
++}
++
++void hal_btcoex_BtInfoNotify(PADAPTER padapter, u8 length, u8 *tmpBuf)
++{
++	if (GLBtcWiFiInIQKState == _TRUE)
++		return;
++
++	EXhalbtcoutsrc_bt_info_notify(&GLBtCoexist, tmpBuf, length);
++}
++
++void hal_btcoex_BtMpRptNotify(PADAPTER padapter, u8 length, u8 *tmpBuf)
++{
++	u8 extid, status, len, seq;
++
++
++	if (!GLBtcBtMpRptWait)
++		return;
++
++	if ((length < 3) || (!tmpBuf))
++		return;
++
++	extid = tmpBuf[0];
++	/* not response from BT FW then exit*/
++	switch (extid) {
++	case C2H_WIFI_FW_ACTIVE_RSP:
++		GLBtcBtMpRptWiFiOK = 1;
++		return;
++
++	case C2H_TRIG_BY_BT_FW:
++		_cancel_timer_ex(&GLBtcBtMpOperTimer);
++		GLBtcBtMpRptWait = 0;
++		GLBtcBtMpRptBTOK = 1;
++		break;
++
++	default:
++		return;
++	}
++
++	status = tmpBuf[1] & 0xF;
++	len = tmpBuf[1] >> 4;
++	seq = tmpBuf[2] >> 4;
++
++	GLBtcBtMpRptSeq = seq;
++	GLBtcBtMpRptStatus = status;
++	_rtw_memcpy(GLBtcBtMpRptRsp, tmpBuf + 3, len);
++	GLBtcBtMpRptRspSize = len;
++	_rtw_up_sema(&GLBtcBtMpRptSema);
++}
++
++void hal_btcoex_SuspendNotify(PADAPTER padapter, u8 state)
++{
++	if (state == 1)
++		state = BTC_WIFI_PNP_SLEEP;
++	else
++		state = BTC_WIFI_PNP_WAKE_UP;
++
++	EXhalbtcoutsrc_pnp_notify(&GLBtCoexist, state);
++}
++
++void hal_btcoex_HaltNotify(PADAPTER padapter)
++{
++	EXhalbtcoutsrc_halt_notify(&GLBtCoexist);
++}
++
++void hal_btcoex_ScoreBoardStatusNotify(PADAPTER padapter, u8 length, u8 *tmpBuf)
++{
++	EXhalbtcoutsrc_ScoreBoardStatusNotify(&GLBtCoexist, tmpBuf, length);
++}
++
++void hal_btcoex_SwitchBtTRxMask(PADAPTER padapter)
++{
++	EXhalbtcoutsrc_SwitchBtTRxMask(&GLBtCoexist);
++}
++
++void hal_btcoex_Hanlder(PADAPTER padapter)
++{
++	EXhalbtcoutsrc_periodical(&GLBtCoexist);
++}
++
++s32 hal_btcoex_IsBTCoexRejectAMPDU(PADAPTER padapter)
++{
++	return (s32)GLBtCoexist.bt_info.reject_agg_pkt;
++}
++
++s32 hal_btcoex_IsBTCoexCtrlAMPDUSize(PADAPTER padapter)
++{
++	return (s32)GLBtCoexist.bt_info.bt_ctrl_agg_buf_size;
++}
++
++u32 hal_btcoex_GetAMPDUSize(PADAPTER padapter)
++{
++	return (u32)GLBtCoexist.bt_info.agg_buf_size;
++}
++
++void hal_btcoex_SetManualControl(PADAPTER padapter, u8 bmanual)
++{
++	GLBtCoexist.manual_control = bmanual;
++}
++
++u8 hal_btcoex_1Ant(PADAPTER padapter)
++{
++	if (hal_btcoex_IsBtExist(padapter) == _FALSE)
++		return _FALSE;
++
++	if (GLBtCoexist.board_info.btdm_ant_num == 1)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++u8 hal_btcoex_IsBtControlLps(PADAPTER padapter)
++{
++	if (GLBtCoexist.bdontenterLPS == _TRUE)
++		return _TRUE;
++	
++	if (hal_btcoex_IsBtExist(padapter) == _FALSE)
++		return _FALSE;
++
++	if (GLBtCoexist.bt_info.bt_disabled)
++		return _FALSE;
++
++	if (GLBtCoexist.bt_info.bt_ctrl_lps)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++u8 hal_btcoex_IsLpsOn(PADAPTER padapter)
++{
++	if (GLBtCoexist.bdontenterLPS == _TRUE)
++		return _FALSE;
++	
++	if (hal_btcoex_IsBtExist(padapter) == _FALSE)
++		return _FALSE;
++
++	if (GLBtCoexist.bt_info.bt_disabled)
++		return _FALSE;
++
++	if (GLBtCoexist.bt_info.bt_lps_on)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++u8 hal_btcoex_RpwmVal(PADAPTER padapter)
++{
++	return GLBtCoexist.bt_info.rpwm_val;
++}
++
++u8 hal_btcoex_LpsVal(PADAPTER padapter)
++{
++	return GLBtCoexist.bt_info.lps_val;
++}
++
++u32 hal_btcoex_GetRaMask(PADAPTER padapter)
++{
++	if (!hal_btcoex_IsBtExist(padapter))
++		return 0;
++
++	if (GLBtCoexist.bt_info.bt_disabled)
++		return 0;
++
++	/* Modify by YiWei , suggest by Cosa and Jenyu
++	 * Remove the limit antenna number , because 2 antenna case (ex: 8192eu)also want to get BT coex report rate mask.
++	 */
++	/*if (GLBtCoexist.board_info.btdm_ant_num != 1)
++		return 0;*/
++
++	return GLBtCoexist.bt_info.ra_mask;
++}
++
++void hal_btcoex_RecordPwrMode(PADAPTER padapter, u8 *pCmdBuf, u8 cmdLen)
++{
++
++	_rtw_memcpy(GLBtCoexist.pwrModeVal, pCmdBuf, cmdLen);
++}
++
++void hal_btcoex_DisplayBtCoexInfo(PADAPTER padapter, u8 *pbuf, u32 bufsize)
++{
++	PBTCDBGINFO pinfo;
++
++
++	pinfo = &GLBtcDbgInfo;
++	DBG_BT_INFO_INIT(pinfo, pbuf, bufsize);
++	EXhalbtcoutsrc_DisplayBtCoexInfo(&GLBtCoexist);
++	DBG_BT_INFO_INIT(pinfo, NULL, 0);
++}
++
++void hal_btcoex_SetDBG(PADAPTER padapter, u32 *pDbgModule)
++{
++	u32 i;
++
++
++	if (NULL == pDbgModule)
++		return;
++
++	for (i = 0; i < COMP_MAX; i++)
++		GLBtcDbgType[i] = pDbgModule[i];
++}
++
++u32 hal_btcoex_GetDBG(PADAPTER padapter, u8 *pStrBuf, u32 bufSize)
++{
++	s32 count;
++	u8 *pstr;
++	u32 leftSize;
++
++
++	if ((NULL == pStrBuf) || (0 == bufSize))
++		return 0;
++
++	count = 0;
++	pstr = pStrBuf;
++	leftSize = bufSize;
++	/*	RTW_INFO(FUNC_ADPT_FMT ": bufsize=%d\n", FUNC_ADPT_ARG(padapter), bufSize); */
++
++	count = rtw_sprintf(pstr, leftSize, "#define DBG\t%d\n", DBG);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++
++	count = rtw_sprintf(pstr, leftSize, "BTCOEX Debug Setting:\n");
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++
++	count = rtw_sprintf(pstr, leftSize,
++			    "COMP_COEX: 0x%08X\n\n",
++			    GLBtcDbgType[COMP_COEX]);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++
++#if 0
++	count = rtw_sprintf(pstr, leftSize, "INTERFACE Debug Setting Definition:\n");
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[0]=%d for INTF_INIT\n",
++		    GLBtcDbgType[BTC_MSG_INTERFACE] & INTF_INIT ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[2]=%d for INTF_NOTIFY\n\n",
++		    GLBtcDbgType[BTC_MSG_INTERFACE] & INTF_NOTIFY ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++
++	count = rtw_sprintf(pstr, leftSize, "ALGORITHM Debug Setting Definition:\n");
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[0]=%d for BT_RSSI_STATE\n",
++		GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_BT_RSSI_STATE ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[1]=%d for WIFI_RSSI_STATE\n",
++		GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_WIFI_RSSI_STATE ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[2]=%d for BT_MONITOR\n",
++		    GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_BT_MONITOR ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[3]=%d for TRACE\n",
++		    GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[4]=%d for TRACE_FW\n",
++		    GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE_FW ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[5]=%d for TRACE_FW_DETAIL\n",
++		GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE_FW_DETAIL ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[6]=%d for TRACE_FW_EXEC\n",
++		GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE_FW_EXEC ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[7]=%d for TRACE_SW\n",
++		    GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE_SW ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[8]=%d for TRACE_SW_DETAIL\n",
++		GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE_SW_DETAIL ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++	count = rtw_sprintf(pstr, leftSize, "\tbit[9]=%d for TRACE_SW_EXEC\n",
++		GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE_SW_EXEC ? 1 : 0);
++	if ((count < 0) || (count >= leftSize))
++		goto exit;
++	pstr += count;
++	leftSize -= count;
++#endif
++
++exit:
++	count = pstr - pStrBuf;
++	/*	RTW_INFO(FUNC_ADPT_FMT ": usedsize=%d\n", FUNC_ADPT_ARG(padapter), count); */
++
++	return count;
++}
++
++u8 hal_btcoex_IncreaseScanDeviceNum(PADAPTER padapter)
++{
++	if (!hal_btcoex_IsBtExist(padapter))
++		return _FALSE;
++
++	if (GLBtCoexist.bt_info.increase_scan_dev_num)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++u8 hal_btcoex_IsBtLinkExist(PADAPTER padapter)
++{
++	if (GLBtCoexist.bt_link_info.bt_link_exist)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++void hal_btcoex_SetBtPatchVersion(PADAPTER padapter, u16 btHciVer, u16 btPatchVer)
++{
++	EXhalbtcoutsrc_SetBtPatchVersion(btHciVer, btPatchVer);
++}
++
++void hal_btcoex_SetHciVersion(PADAPTER padapter, u16 hciVersion)
++{
++	EXhalbtcoutsrc_SetHciVersion(hciVersion);
++}
++
++void hal_btcoex_StackUpdateProfileInfo(void)
++{
++	EXhalbtcoutsrc_StackUpdateProfileInfo();
++}
++
++void hal_btcoex_pta_off_on_notify(PADAPTER padapter, u8 bBTON)
++{
++	ex_halbtcoutsrc_pta_off_on_notify(&GLBtCoexist, bBTON);
++}
++
++/*
++ *	Description:
++ *	Setting BT coex antenna isolation type .
++ *	coex mechanisn/ spital stream/ best throughput
++ *	anttype = 0	,	PSTDMA	/	2SS	/	0.5T	,	bad isolation , WiFi/BT ANT Distance<15cm , (<20dB) for 2,3 antenna
++ *	anttype = 1	,	PSTDMA	/	1SS	/	0.5T	,	normal isolaiton , 50cm>WiFi/BT ANT Distance>15cm , (>20dB) for 2 antenna
++ *	anttype = 2	,	TDMA	/	2SS	/	T ,		normal isolaiton , 50cm>WiFi/BT ANT Distance>15cm , (>20dB) for 3 antenna
++ *	anttype = 3	,	no TDMA	/	1SS	/	0.5T	,	good isolation , WiFi/BT ANT Distance >50cm , (>40dB) for 2 antenna
++ *	anttype = 4	,	no TDMA	/	2SS	/	T ,		good isolation , WiFi/BT ANT Distance >50cm , (>40dB) for 3 antenna
++ *	wifi only throughput ~ T
++ *	wifi/BT share one antenna with SPDT
++ */
++void hal_btcoex_SetAntIsolationType(PADAPTER padapter, u8 anttype)
++{
++	PHAL_DATA_TYPE pHalData;
++	PBTC_COEXIST	pBtCoexist = &GLBtCoexist;
++
++	/*RTW_INFO("####%s , anttype = %d  , %d\n" , __func__ , anttype , __LINE__); */
++	pHalData = GET_HAL_DATA(padapter);
++
++
++	pHalData->bt_coexist.btAntisolation = anttype;
++
++	switch (pHalData->bt_coexist.btAntisolation) {
++	case 0:
++		pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_0;
++		break;
++	case 1:
++		pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_1;
++		break;
++	case 2:
++		pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_2;
++		break;
++	case 3:
++		pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_3;
++		break;
++	case 4:
++		pBtCoexist->board_info.ant_type = (u1Byte)BTC_ANT_TYPE_4;
++		break;
++	}
++
++}
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++int
++hal_btcoex_ParseAntIsolationConfigFile(
++	PADAPTER		Adapter,
++	char			*buffer
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u32	i = 0 , j = 0;
++	char	*szLine , *ptmp;
++	int rtStatus = _SUCCESS;
++	char param_value_string[10];
++	u8 param_value;
++	u8 anttype = 4;
++
++	u8 ant_num = 3 , ant_distance = 50 , rfe_type = 1;
++
++	typedef struct ant_isolation {
++		char *param_name;  /* antenna isolation config parameter name */
++		u8 *value; /* antenna isolation config parameter value */
++	} ANT_ISOLATION;
++
++	ANT_ISOLATION ant_isolation_param[] = {
++		{"ANT_NUMBER" , &ant_num},
++		{"ANT_DISTANCE" , &ant_distance},
++		{"RFE_TYPE" , &rfe_type},
++		{NULL , 0}
++	};
++
++
++
++	/* RTW_INFO("===>Hal_ParseAntIsolationConfigFile()\n" ); */
++
++	ptmp = buffer;
++	for (szLine = GetLineFromBuffer(ptmp) ; szLine != NULL; szLine = GetLineFromBuffer(ptmp)) {
++		/* skip comment */
++		if (IsCommentString(szLine))
++			continue;
++
++		/* RTW_INFO("%s : szLine = %s , strlen(szLine) = %d\n" , __func__ , szLine , strlen(szLine));*/
++		for (j = 0 ; ant_isolation_param[j].param_name != NULL ; j++) {
++			if (strstr(szLine , ant_isolation_param[j].param_name) != NULL) {
++				i = 0;
++				while (i < strlen(szLine)) {
++					if (szLine[i] != '"')
++						++i;
++					else {
++						/* skip only has one " */
++						if (strpbrk(szLine , "\"") == strrchr(szLine , '"')) {
++							RTW_INFO("Fail to parse parameters , format error!\n");
++							break;
++						}
++						_rtw_memset((PVOID)param_value_string , 0 , 10);
++						if (!ParseQualifiedString(szLine , &i , param_value_string , '"' , '"')) {
++							RTW_INFO("Fail to parse parameters\n");
++							return _FAIL;
++						} else if (!GetU1ByteIntegerFromStringInDecimal(param_value_string , ant_isolation_param[j].value))
++							RTW_INFO("Fail to GetU1ByteIntegerFromStringInDecimal\n");
++
++						break;
++					}
++				}
++			}
++		}
++	}
++
++	/* YiWei 20140716 , for BT coex antenna isolation control */
++	/* rfe_type = 0 was SPDT , rfe_type = 1 was coupler */
++	if (ant_num == 3 && ant_distance >= 50)
++		anttype = 3;
++	else if (ant_num == 2 && ant_distance >= 50 && rfe_type == 1)
++		anttype = 2;
++	else if (ant_num == 3 && ant_distance >= 15 && ant_distance < 50)
++		anttype = 2;
++	else if (ant_num == 2 && ant_distance >= 15 && ant_distance < 50 && rfe_type == 1)
++		anttype = 2;
++	else if ((ant_num == 2 && ant_distance < 15 && rfe_type == 1) || (ant_num == 3 && ant_distance < 15))
++		anttype = 1;
++	else if (ant_num == 2 && rfe_type == 0)
++		anttype = 0;
++	else
++		anttype = 0;
++
++	hal_btcoex_SetAntIsolationType(Adapter, anttype);
++
++	RTW_INFO("%s : ant_num = %d\n" , __func__ , ant_num);
++	RTW_INFO("%s : ant_distance = %d\n" , __func__ , ant_distance);
++	RTW_INFO("%s : rfe_type = %d\n" , __func__ , rfe_type);
++	/* RTW_INFO("<===Hal_ParseAntIsolationConfigFile()\n"); */
++	return rtStatus;
++}
++
++
++int
++hal_btcoex_AntIsolationConfig_ParaFile(
++	IN	PADAPTER	Adapter,
++	IN	char		*pFileName
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	int	rlen = 0 , rtStatus = _FAIL;
++
++	_rtw_memset(pHalData->para_file_buf , 0 , MAX_PARA_FILE_BUF_LEN);
++
++	rtw_get_phy_file_path(Adapter, pFileName);
++	if (rtw_is_file_readable(rtw_phy_para_file_path) == _TRUE) {
++		rlen = rtw_retrieve_from_file(rtw_phy_para_file_path, pHalData->para_file_buf, MAX_PARA_FILE_BUF_LEN);
++		if (rlen > 0)
++			rtStatus = _SUCCESS;
++	}
++
++
++	if (rtStatus == _SUCCESS) {
++		/*RTW_INFO("%s(): read %s ok\n", __func__ , pFileName);*/
++		rtStatus = hal_btcoex_ParseAntIsolationConfigFile(Adapter , pHalData->para_file_buf);
++	} else
++		RTW_INFO("%s(): No File %s, Load from *** Array!\n" , __func__ , pFileName);
++
++	return rtStatus;
++}
++#endif /* CONFIG_LOAD_PHY_PARA_FROM_FILE */
++
++u16 hal_btcoex_btreg_read(PADAPTER padapter, u8 type, u16 addr, u32 *data)
++{
++	u16 ret = 0;
++
++	halbtcoutsrc_LeaveLowPower(&GLBtCoexist);
++
++	ret = halbtcoutsrc_GetBtReg(&GLBtCoexist, type, addr, data);
++
++	halbtcoutsrc_NormalLowPower(&GLBtCoexist);
++
++	return ret;
++}
++
++u16 hal_btcoex_btreg_write(PADAPTER padapter, u8 type, u16 addr, u16 val)
++{
++	u16 ret = 0;
++
++	halbtcoutsrc_LeaveLowPower(&GLBtCoexist);
++
++	ret = halbtcoutsrc_SetBtReg(&GLBtCoexist, type, addr, val);
++
++	halbtcoutsrc_NormalLowPower(&GLBtCoexist);
++
++	return ret;
++}
++
++void hal_btcoex_set_rfe_type(u8 type)
++{
++	EXhalbtcoutsrc_set_rfe_type(type);
++}
++void hal_btcoex_switchband_notify(u8 under_scan, u8 band_type)
++{
++	switch (band_type) {
++	case BAND_ON_2_4G:
++		if (under_scan)
++			EXhalbtcoutsrc_switchband_notify(&GLBtCoexist, BTC_SWITCH_TO_24G);
++		else
++			EXhalbtcoutsrc_switchband_notify(&GLBtCoexist, BTC_SWITCH_TO_24G_NoForScan);
++		break;
++	case BAND_ON_5G:
++		EXhalbtcoutsrc_switchband_notify(&GLBtCoexist, BTC_SWITCH_TO_5G);
++		break;
++	default:
++		RTW_INFO("[BTCOEX] unkown switch band type\n");
++		break;
++	}
++}
++#endif /* CONFIG_BT_COEXIST */
+diff --git a/drivers/net/wireless/rtl8812au/hal/hal_com.c b/drivers/net/wireless/rtl8812au/hal/hal_com.c
+new file mode 100644
+index 0000000..4d4e421
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/hal_com.c
+@@ -0,0 +1,10893 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HAL_COM_C_
++
++#include <drv_types.h>
++#include "hal_com_h2c.h"
++
++#include "hal_data.h"
++
++/* #define CONFIG_GTK_OL_DBG */
++
++/*#define DBG_SEC_CAM_MOVE*/
++#ifdef DBG_SEC_CAM_MOVE
++void rtw_hal_move_sta_gk_to_dk(_adapter *adapter)
++{
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	int cam_id, index = 0;
++	u8 *addr = NULL;
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		return;
++
++	addr = get_bssid(pmlmepriv);
++
++	if (addr == NULL) {
++		RTW_INFO("%s: get bssid MAC addr fail!!\n", __func__);
++		return;
++	}
++
++	rtw_clean_dk_section(adapter);
++
++	do {
++		cam_id = rtw_camid_search(adapter, addr, index, 1);
++
++		if (cam_id == -1)
++			RTW_INFO("%s: cam_id: %d, key_id:%d\n", __func__, cam_id, index);
++		else
++			rtw_sec_cam_swap(adapter, cam_id, index);
++
++		index++;
++	} while (index < 4);
++
++}
++
++void rtw_hal_read_sta_dk_key(_adapter *adapter, u8 key_id)
++{
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++	u8 get_key[16];
++
++	_rtw_memset(get_key, 0, sizeof(get_key));
++
++	if (key_id > 4) {
++		RTW_INFO("%s [ERROR] gtk_keyindex:%d invalid\n", __func__, key_id);
++		rtw_warn_on(1);
++		return;
++	}
++	rtw_sec_read_cam_ent(adapter, key_id, NULL, NULL, get_key);
++
++	/*update key into related sw variable*/
++	_enter_critical_bh(&cam_ctl->lock, &irqL);
++	if (_rtw_camid_is_gk(adapter, key_id)) {
++		RTW_INFO("[HW KEY] -Key-id:%d "KEY_FMT"\n", key_id, KEY_ARG(get_key));
++		RTW_INFO("[cam_cache KEY] - Key-id:%d "KEY_FMT"\n", key_id, KEY_ARG(&dvobj->cam_cache[key_id].key));
++	}
++	_exit_critical_bh(&cam_ctl->lock, &irqL);
++
++}
++#endif
++
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	char	rtw_phy_para_file_path[PATH_LENGTH_MAX];
++#endif
++
++void dump_chip_info(HAL_VERSION	ChipVersion)
++{
++	int cnt = 0;
++	u8 buf[128] = {0};
++
++	if (IS_8188E(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8188E_");
++	else if (IS_8188F(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8188F_");
++	else if (IS_8812_SERIES(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8812_");
++	else if (IS_8192E(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8192E_");
++	else if (IS_8821_SERIES(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8821_");
++	else if (IS_8723B_SERIES(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8723B_");
++	else if (IS_8703B_SERIES(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8703B_");
++	else if (IS_8723D_SERIES(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8723D_");
++	else if (IS_8814A_SERIES(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8814A_");
++	else if (IS_8822B_SERIES(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8822B_");
++	else if (IS_8821C_SERIES(ChipVersion))
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_8821C_");
++	else
++		cnt += sprintf((buf + cnt), "Chip Version Info: CHIP_UNKNOWN_");
++
++	cnt += sprintf((buf + cnt), "%s_", IS_NORMAL_CHIP(ChipVersion) ? "Normal_Chip" : "Test_Chip");
++	if (IS_CHIP_VENDOR_TSMC(ChipVersion))
++		cnt += sprintf((buf + cnt), "%s_", "TSMC");
++	else if (IS_CHIP_VENDOR_UMC(ChipVersion))
++		cnt += sprintf((buf + cnt), "%s_", "UMC");
++	else if (IS_CHIP_VENDOR_SMIC(ChipVersion))
++		cnt += sprintf((buf + cnt), "%s_", "SMIC");
++
++	if (IS_A_CUT(ChipVersion))
++		cnt += sprintf((buf + cnt), "A_CUT_");
++	else if (IS_B_CUT(ChipVersion))
++		cnt += sprintf((buf + cnt), "B_CUT_");
++	else if (IS_C_CUT(ChipVersion))
++		cnt += sprintf((buf + cnt), "C_CUT_");
++	else if (IS_D_CUT(ChipVersion))
++		cnt += sprintf((buf + cnt), "D_CUT_");
++	else if (IS_E_CUT(ChipVersion))
++		cnt += sprintf((buf + cnt), "E_CUT_");
++	else if (IS_F_CUT(ChipVersion))
++		cnt += sprintf((buf + cnt), "F_CUT_");
++	else if (IS_I_CUT(ChipVersion))
++		cnt += sprintf((buf + cnt), "I_CUT_");
++	else if (IS_J_CUT(ChipVersion))
++		cnt += sprintf((buf + cnt), "J_CUT_");
++	else if (IS_K_CUT(ChipVersion))
++		cnt += sprintf((buf + cnt), "K_CUT_");
++	else
++		cnt += sprintf((buf + cnt), "UNKNOWN_CUT(%d)_", ChipVersion.CUTVersion);
++
++	if (IS_1T1R(ChipVersion))
++		cnt += sprintf((buf + cnt), "1T1R_");
++	else if (IS_1T2R(ChipVersion))
++		cnt += sprintf((buf + cnt), "1T2R_");
++	else if (IS_2T2R(ChipVersion))
++		cnt += sprintf((buf + cnt), "2T2R_");
++	else if (IS_3T3R(ChipVersion))
++		cnt += sprintf((buf + cnt), "3T3R_");
++	else if (IS_3T4R(ChipVersion))
++		cnt += sprintf((buf + cnt), "3T4R_");
++	else if (IS_4T4R(ChipVersion))
++		cnt += sprintf((buf + cnt), "4T4R_");
++	else
++		cnt += sprintf((buf + cnt), "UNKNOWN_RFTYPE(%d)_", ChipVersion.RFType);
++
++	cnt += sprintf((buf + cnt), "RomVer(%d)\n", ChipVersion.ROMVer);
++
++	RTW_INFO("%s", buf);
++}
++void rtw_hal_config_rftype(PADAPTER  padapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	if (IS_1T1R(pHalData->VersionID)) {
++		pHalData->rf_type = RF_1T1R;
++		pHalData->NumTotalRFPath = 1;
++	} else if (IS_2T2R(pHalData->VersionID)) {
++		pHalData->rf_type = RF_2T2R;
++		pHalData->NumTotalRFPath = 2;
++	} else if (IS_1T2R(pHalData->VersionID)) {
++		pHalData->rf_type = RF_1T2R;
++		pHalData->NumTotalRFPath = 2;
++	} else if (IS_3T3R(pHalData->VersionID)) {
++		pHalData->rf_type = RF_3T3R;
++		pHalData->NumTotalRFPath = 3;
++	} else if (IS_4T4R(pHalData->VersionID)) {
++		pHalData->rf_type = RF_4T4R;
++		pHalData->NumTotalRFPath = 4;
++	} else {
++		pHalData->rf_type = RF_1T1R;
++		pHalData->NumTotalRFPath = 1;
++	}
++
++	RTW_INFO("%s RF_Type is %d TotalTxPath is %d\n", __FUNCTION__, pHalData->rf_type, pHalData->NumTotalRFPath);
++}
++
++#define	EEPROM_CHANNEL_PLAN_BY_HW_MASK	0x80
++
++/*
++ * Description:
++ *	Use hardware(efuse), driver parameter(registry) and default channel plan
++ *	to decide which one should be used.
++ *
++ * Parameters:
++ *	padapter			pointer of adapter
++ *	hw_alpha2		country code from HW (efuse/eeprom/mapfile)
++ *	hw_chplan		channel plan from HW (efuse/eeprom/mapfile)
++ *						BIT[7] software configure mode; 0:Enable, 1:disable
++ *						BIT[6:0] Channel Plan
++ *	sw_alpha2		country code from HW (registry/module param)
++ *	sw_chplan		channel plan from SW (registry/module param)
++ *	def_chplan		channel plan used when HW/SW both invalid
++ *	AutoLoadFail		efuse autoload fail or not
++ *
++ * Return:
++ *	Final channel plan decision
++ *
++ */
++u8 hal_com_config_channel_plan(
++	IN	PADAPTER padapter,
++	IN	char *hw_alpha2,
++	IN	u8 hw_chplan,
++	IN	char *sw_alpha2,
++	IN	u8 sw_chplan,
++	IN	u8 def_chplan,
++	IN	BOOLEAN AutoLoadFail
++)
++{
++	PHAL_DATA_TYPE	pHalData;
++	u8 force_hw_chplan = _FALSE;
++	int chplan = -1;
++	const struct country_chplan *country_ent = NULL, *ent;
++
++	pHalData = GET_HAL_DATA(padapter);
++
++	/* treat 0xFF as invalid value, bypass hw_chplan & force_hw_chplan parsing */
++	if (hw_chplan == 0xFF)
++		goto chk_hw_country_code;
++
++	if (AutoLoadFail == _TRUE)
++		goto chk_sw_config;
++
++#ifndef CONFIG_FORCE_SW_CHANNEL_PLAN
++	if (hw_chplan & EEPROM_CHANNEL_PLAN_BY_HW_MASK)
++		force_hw_chplan = _TRUE;
++#endif
++
++	hw_chplan &= (~EEPROM_CHANNEL_PLAN_BY_HW_MASK);
++
++chk_hw_country_code:
++	if (hw_alpha2 && !IS_ALPHA2_NO_SPECIFIED(hw_alpha2)) {
++		ent = rtw_get_chplan_from_country(hw_alpha2);
++		if (ent) {
++			/* get chplan from hw country code, by pass hw chplan setting */
++			country_ent = ent;
++			chplan = ent->chplan;
++			goto chk_sw_config;
++		} else
++			RTW_PRINT("%s unsupported hw_alpha2:\"%c%c\"\n", __func__, hw_alpha2[0], hw_alpha2[1]);
++	}
++
++	if (rtw_is_channel_plan_valid(hw_chplan))
++		chplan = hw_chplan;
++	else if (force_hw_chplan == _TRUE) {
++		RTW_PRINT("%s unsupported hw_chplan:0x%02X\n", __func__, hw_chplan);
++		/* hw infomaton invalid, refer to sw information */
++		force_hw_chplan = _FALSE;
++	}
++
++chk_sw_config:
++	if (force_hw_chplan == _TRUE)
++		goto done;
++
++	if (sw_alpha2 && !IS_ALPHA2_NO_SPECIFIED(sw_alpha2)) {
++		ent = rtw_get_chplan_from_country(sw_alpha2);
++		if (ent) {
++			/* get chplan from sw country code, by pass sw chplan setting */
++			country_ent = ent;
++			chplan = ent->chplan;
++			goto done;
++		} else
++			RTW_PRINT("%s unsupported sw_alpha2:\"%c%c\"\n", __func__, sw_alpha2[0], sw_alpha2[1]);
++	}
++
++	if (rtw_is_channel_plan_valid(sw_chplan)) {
++		/* cancel hw_alpha2 because chplan is specified by sw_chplan*/
++		country_ent = NULL;
++		chplan = sw_chplan;
++	} else if (sw_chplan != RTW_CHPLAN_MAX)
++		RTW_PRINT("%s unsupported sw_chplan:0x%02X\n", __func__, sw_chplan);
++
++done:
++	if (chplan == -1) {
++		RTW_PRINT("%s use def_chplan:0x%02X\n", __func__, def_chplan);
++		chplan = def_chplan;
++	} else if (country_ent) {
++		RTW_PRINT("%s country code:\"%c%c\" with chplan:0x%02X\n", __func__
++			, country_ent->alpha2[0], country_ent->alpha2[1], country_ent->chplan);
++	} else
++		RTW_PRINT("%s chplan:0x%02X\n", __func__, chplan);
++
++	padapter->mlmepriv.country_ent = country_ent;
++	pHalData->bDisableSWChannelPlan = force_hw_chplan;
++
++	return chplan;
++}
++
++BOOLEAN
++HAL_IsLegalChannel(
++	IN	PADAPTER	Adapter,
++	IN	u32			Channel
++)
++{
++	BOOLEAN bLegalChannel = _TRUE;
++
++	if (Channel > 14) {
++		if (IsSupported5G(Adapter->registrypriv.wireless_mode) == _FALSE) {
++			bLegalChannel = _FALSE;
++			RTW_INFO("Channel > 14 but wireless_mode do not support 5G\n");
++		}
++	} else if ((Channel <= 14) && (Channel >= 1)) {
++		if (IsSupported24G(Adapter->registrypriv.wireless_mode) == _FALSE) {
++			bLegalChannel = _FALSE;
++			RTW_INFO("(Channel <= 14) && (Channel >=1) but wireless_mode do not support 2.4G\n");
++		}
++	} else {
++		bLegalChannel = _FALSE;
++		RTW_INFO("Channel is Invalid !!!\n");
++	}
++
++	return bLegalChannel;
++}
++
++u8	MRateToHwRate(u8 rate)
++{
++	u8	ret = DESC_RATE1M;
++
++	switch (rate) {
++	case MGN_1M:
++		ret = DESC_RATE1M;
++		break;
++	case MGN_2M:
++		ret = DESC_RATE2M;
++		break;
++	case MGN_5_5M:
++		ret = DESC_RATE5_5M;
++		break;
++	case MGN_11M:
++		ret = DESC_RATE11M;
++		break;
++	case MGN_6M:
++		ret = DESC_RATE6M;
++		break;
++	case MGN_9M:
++		ret = DESC_RATE9M;
++		break;
++	case MGN_12M:
++		ret = DESC_RATE12M;
++		break;
++	case MGN_18M:
++		ret = DESC_RATE18M;
++		break;
++	case MGN_24M:
++		ret = DESC_RATE24M;
++		break;
++	case MGN_36M:
++		ret = DESC_RATE36M;
++		break;
++	case MGN_48M:
++		ret = DESC_RATE48M;
++		break;
++	case MGN_54M:
++		ret = DESC_RATE54M;
++		break;
++
++	case MGN_MCS0:
++		ret = DESC_RATEMCS0;
++		break;
++	case MGN_MCS1:
++		ret = DESC_RATEMCS1;
++		break;
++	case MGN_MCS2:
++		ret = DESC_RATEMCS2;
++		break;
++	case MGN_MCS3:
++		ret = DESC_RATEMCS3;
++		break;
++	case MGN_MCS4:
++		ret = DESC_RATEMCS4;
++		break;
++	case MGN_MCS5:
++		ret = DESC_RATEMCS5;
++		break;
++	case MGN_MCS6:
++		ret = DESC_RATEMCS6;
++		break;
++	case MGN_MCS7:
++		ret = DESC_RATEMCS7;
++		break;
++	case MGN_MCS8:
++		ret = DESC_RATEMCS8;
++		break;
++	case MGN_MCS9:
++		ret = DESC_RATEMCS9;
++		break;
++	case MGN_MCS10:
++		ret = DESC_RATEMCS10;
++		break;
++	case MGN_MCS11:
++		ret = DESC_RATEMCS11;
++		break;
++	case MGN_MCS12:
++		ret = DESC_RATEMCS12;
++		break;
++	case MGN_MCS13:
++		ret = DESC_RATEMCS13;
++		break;
++	case MGN_MCS14:
++		ret = DESC_RATEMCS14;
++		break;
++	case MGN_MCS15:
++		ret = DESC_RATEMCS15;
++		break;
++	case MGN_MCS16:
++		ret = DESC_RATEMCS16;
++		break;
++	case MGN_MCS17:
++		ret = DESC_RATEMCS17;
++		break;
++	case MGN_MCS18:
++		ret = DESC_RATEMCS18;
++		break;
++	case MGN_MCS19:
++		ret = DESC_RATEMCS19;
++		break;
++	case MGN_MCS20:
++		ret = DESC_RATEMCS20;
++		break;
++	case MGN_MCS21:
++		ret = DESC_RATEMCS21;
++		break;
++	case MGN_MCS22:
++		ret = DESC_RATEMCS22;
++		break;
++	case MGN_MCS23:
++		ret = DESC_RATEMCS23;
++		break;
++	case MGN_MCS24:
++		ret = DESC_RATEMCS24;
++		break;
++	case MGN_MCS25:
++		ret = DESC_RATEMCS25;
++		break;
++	case MGN_MCS26:
++		ret = DESC_RATEMCS26;
++		break;
++	case MGN_MCS27:
++		ret = DESC_RATEMCS27;
++		break;
++	case MGN_MCS28:
++		ret = DESC_RATEMCS28;
++		break;
++	case MGN_MCS29:
++		ret = DESC_RATEMCS29;
++		break;
++	case MGN_MCS30:
++		ret = DESC_RATEMCS30;
++		break;
++	case MGN_MCS31:
++		ret = DESC_RATEMCS31;
++		break;
++
++	case MGN_VHT1SS_MCS0:
++		ret = DESC_RATEVHTSS1MCS0;
++		break;
++	case MGN_VHT1SS_MCS1:
++		ret = DESC_RATEVHTSS1MCS1;
++		break;
++	case MGN_VHT1SS_MCS2:
++		ret = DESC_RATEVHTSS1MCS2;
++		break;
++	case MGN_VHT1SS_MCS3:
++		ret = DESC_RATEVHTSS1MCS3;
++		break;
++	case MGN_VHT1SS_MCS4:
++		ret = DESC_RATEVHTSS1MCS4;
++		break;
++	case MGN_VHT1SS_MCS5:
++		ret = DESC_RATEVHTSS1MCS5;
++		break;
++	case MGN_VHT1SS_MCS6:
++		ret = DESC_RATEVHTSS1MCS6;
++		break;
++	case MGN_VHT1SS_MCS7:
++		ret = DESC_RATEVHTSS1MCS7;
++		break;
++	case MGN_VHT1SS_MCS8:
++		ret = DESC_RATEVHTSS1MCS8;
++		break;
++	case MGN_VHT1SS_MCS9:
++		ret = DESC_RATEVHTSS1MCS9;
++		break;
++	case MGN_VHT2SS_MCS0:
++		ret = DESC_RATEVHTSS2MCS0;
++		break;
++	case MGN_VHT2SS_MCS1:
++		ret = DESC_RATEVHTSS2MCS1;
++		break;
++	case MGN_VHT2SS_MCS2:
++		ret = DESC_RATEVHTSS2MCS2;
++		break;
++	case MGN_VHT2SS_MCS3:
++		ret = DESC_RATEVHTSS2MCS3;
++		break;
++	case MGN_VHT2SS_MCS4:
++		ret = DESC_RATEVHTSS2MCS4;
++		break;
++	case MGN_VHT2SS_MCS5:
++		ret = DESC_RATEVHTSS2MCS5;
++		break;
++	case MGN_VHT2SS_MCS6:
++		ret = DESC_RATEVHTSS2MCS6;
++		break;
++	case MGN_VHT2SS_MCS7:
++		ret = DESC_RATEVHTSS2MCS7;
++		break;
++	case MGN_VHT2SS_MCS8:
++		ret = DESC_RATEVHTSS2MCS8;
++		break;
++	case MGN_VHT2SS_MCS9:
++		ret = DESC_RATEVHTSS2MCS9;
++		break;
++	case MGN_VHT3SS_MCS0:
++		ret = DESC_RATEVHTSS3MCS0;
++		break;
++	case MGN_VHT3SS_MCS1:
++		ret = DESC_RATEVHTSS3MCS1;
++		break;
++	case MGN_VHT3SS_MCS2:
++		ret = DESC_RATEVHTSS3MCS2;
++		break;
++	case MGN_VHT3SS_MCS3:
++		ret = DESC_RATEVHTSS3MCS3;
++		break;
++	case MGN_VHT3SS_MCS4:
++		ret = DESC_RATEVHTSS3MCS4;
++		break;
++	case MGN_VHT3SS_MCS5:
++		ret = DESC_RATEVHTSS3MCS5;
++		break;
++	case MGN_VHT3SS_MCS6:
++		ret = DESC_RATEVHTSS3MCS6;
++		break;
++	case MGN_VHT3SS_MCS7:
++		ret = DESC_RATEVHTSS3MCS7;
++		break;
++	case MGN_VHT3SS_MCS8:
++		ret = DESC_RATEVHTSS3MCS8;
++		break;
++	case MGN_VHT3SS_MCS9:
++		ret = DESC_RATEVHTSS3MCS9;
++		break;
++	case MGN_VHT4SS_MCS0:
++		ret = DESC_RATEVHTSS4MCS0;
++		break;
++	case MGN_VHT4SS_MCS1:
++		ret = DESC_RATEVHTSS4MCS1;
++		break;
++	case MGN_VHT4SS_MCS2:
++		ret = DESC_RATEVHTSS4MCS2;
++		break;
++	case MGN_VHT4SS_MCS3:
++		ret = DESC_RATEVHTSS4MCS3;
++		break;
++	case MGN_VHT4SS_MCS4:
++		ret = DESC_RATEVHTSS4MCS4;
++		break;
++	case MGN_VHT4SS_MCS5:
++		ret = DESC_RATEVHTSS4MCS5;
++		break;
++	case MGN_VHT4SS_MCS6:
++		ret = DESC_RATEVHTSS4MCS6;
++		break;
++	case MGN_VHT4SS_MCS7:
++		ret = DESC_RATEVHTSS4MCS7;
++		break;
++	case MGN_VHT4SS_MCS8:
++		ret = DESC_RATEVHTSS4MCS8;
++		break;
++	case MGN_VHT4SS_MCS9:
++		ret = DESC_RATEVHTSS4MCS9;
++		break;
++	default:
++		break;
++	}
++
++	return ret;
++}
++
++u8	HwRateToMRate(u8 rate)
++{
++	u8	ret_rate = MGN_1M;
++
++	switch (rate) {
++
++	case DESC_RATE1M:
++		ret_rate = MGN_1M;
++		break;
++	case DESC_RATE2M:
++		ret_rate = MGN_2M;
++		break;
++	case DESC_RATE5_5M:
++		ret_rate = MGN_5_5M;
++		break;
++	case DESC_RATE11M:
++		ret_rate = MGN_11M;
++		break;
++	case DESC_RATE6M:
++		ret_rate = MGN_6M;
++		break;
++	case DESC_RATE9M:
++		ret_rate = MGN_9M;
++		break;
++	case DESC_RATE12M:
++		ret_rate = MGN_12M;
++		break;
++	case DESC_RATE18M:
++		ret_rate = MGN_18M;
++		break;
++	case DESC_RATE24M:
++		ret_rate = MGN_24M;
++		break;
++	case DESC_RATE36M:
++		ret_rate = MGN_36M;
++		break;
++	case DESC_RATE48M:
++		ret_rate = MGN_48M;
++		break;
++	case DESC_RATE54M:
++		ret_rate = MGN_54M;
++		break;
++	case DESC_RATEMCS0:
++		ret_rate = MGN_MCS0;
++		break;
++	case DESC_RATEMCS1:
++		ret_rate = MGN_MCS1;
++		break;
++	case DESC_RATEMCS2:
++		ret_rate = MGN_MCS2;
++		break;
++	case DESC_RATEMCS3:
++		ret_rate = MGN_MCS3;
++		break;
++	case DESC_RATEMCS4:
++		ret_rate = MGN_MCS4;
++		break;
++	case DESC_RATEMCS5:
++		ret_rate = MGN_MCS5;
++		break;
++	case DESC_RATEMCS6:
++		ret_rate = MGN_MCS6;
++		break;
++	case DESC_RATEMCS7:
++		ret_rate = MGN_MCS7;
++		break;
++	case DESC_RATEMCS8:
++		ret_rate = MGN_MCS8;
++		break;
++	case DESC_RATEMCS9:
++		ret_rate = MGN_MCS9;
++		break;
++	case DESC_RATEMCS10:
++		ret_rate = MGN_MCS10;
++		break;
++	case DESC_RATEMCS11:
++		ret_rate = MGN_MCS11;
++		break;
++	case DESC_RATEMCS12:
++		ret_rate = MGN_MCS12;
++		break;
++	case DESC_RATEMCS13:
++		ret_rate = MGN_MCS13;
++		break;
++	case DESC_RATEMCS14:
++		ret_rate = MGN_MCS14;
++		break;
++	case DESC_RATEMCS15:
++		ret_rate = MGN_MCS15;
++		break;
++	case DESC_RATEMCS16:
++		ret_rate = MGN_MCS16;
++		break;
++	case DESC_RATEMCS17:
++		ret_rate = MGN_MCS17;
++		break;
++	case DESC_RATEMCS18:
++		ret_rate = MGN_MCS18;
++		break;
++	case DESC_RATEMCS19:
++		ret_rate = MGN_MCS19;
++		break;
++	case DESC_RATEMCS20:
++		ret_rate = MGN_MCS20;
++		break;
++	case DESC_RATEMCS21:
++		ret_rate = MGN_MCS21;
++		break;
++	case DESC_RATEMCS22:
++		ret_rate = MGN_MCS22;
++		break;
++	case DESC_RATEMCS23:
++		ret_rate = MGN_MCS23;
++		break;
++	case DESC_RATEMCS24:
++		ret_rate = MGN_MCS24;
++		break;
++	case DESC_RATEMCS25:
++		ret_rate = MGN_MCS25;
++		break;
++	case DESC_RATEMCS26:
++		ret_rate = MGN_MCS26;
++		break;
++	case DESC_RATEMCS27:
++		ret_rate = MGN_MCS27;
++		break;
++	case DESC_RATEMCS28:
++		ret_rate = MGN_MCS28;
++		break;
++	case DESC_RATEMCS29:
++		ret_rate = MGN_MCS29;
++		break;
++	case DESC_RATEMCS30:
++		ret_rate = MGN_MCS30;
++		break;
++	case DESC_RATEMCS31:
++		ret_rate = MGN_MCS31;
++		break;
++	case DESC_RATEVHTSS1MCS0:
++		ret_rate = MGN_VHT1SS_MCS0;
++		break;
++	case DESC_RATEVHTSS1MCS1:
++		ret_rate = MGN_VHT1SS_MCS1;
++		break;
++	case DESC_RATEVHTSS1MCS2:
++		ret_rate = MGN_VHT1SS_MCS2;
++		break;
++	case DESC_RATEVHTSS1MCS3:
++		ret_rate = MGN_VHT1SS_MCS3;
++		break;
++	case DESC_RATEVHTSS1MCS4:
++		ret_rate = MGN_VHT1SS_MCS4;
++		break;
++	case DESC_RATEVHTSS1MCS5:
++		ret_rate = MGN_VHT1SS_MCS5;
++		break;
++	case DESC_RATEVHTSS1MCS6:
++		ret_rate = MGN_VHT1SS_MCS6;
++		break;
++	case DESC_RATEVHTSS1MCS7:
++		ret_rate = MGN_VHT1SS_MCS7;
++		break;
++	case DESC_RATEVHTSS1MCS8:
++		ret_rate = MGN_VHT1SS_MCS8;
++		break;
++	case DESC_RATEVHTSS1MCS9:
++		ret_rate = MGN_VHT1SS_MCS9;
++		break;
++	case DESC_RATEVHTSS2MCS0:
++		ret_rate = MGN_VHT2SS_MCS0;
++		break;
++	case DESC_RATEVHTSS2MCS1:
++		ret_rate = MGN_VHT2SS_MCS1;
++		break;
++	case DESC_RATEVHTSS2MCS2:
++		ret_rate = MGN_VHT2SS_MCS2;
++		break;
++	case DESC_RATEVHTSS2MCS3:
++		ret_rate = MGN_VHT2SS_MCS3;
++		break;
++	case DESC_RATEVHTSS2MCS4:
++		ret_rate = MGN_VHT2SS_MCS4;
++		break;
++	case DESC_RATEVHTSS2MCS5:
++		ret_rate = MGN_VHT2SS_MCS5;
++		break;
++	case DESC_RATEVHTSS2MCS6:
++		ret_rate = MGN_VHT2SS_MCS6;
++		break;
++	case DESC_RATEVHTSS2MCS7:
++		ret_rate = MGN_VHT2SS_MCS7;
++		break;
++	case DESC_RATEVHTSS2MCS8:
++		ret_rate = MGN_VHT2SS_MCS8;
++		break;
++	case DESC_RATEVHTSS2MCS9:
++		ret_rate = MGN_VHT2SS_MCS9;
++		break;
++	case DESC_RATEVHTSS3MCS0:
++		ret_rate = MGN_VHT3SS_MCS0;
++		break;
++	case DESC_RATEVHTSS3MCS1:
++		ret_rate = MGN_VHT3SS_MCS1;
++		break;
++	case DESC_RATEVHTSS3MCS2:
++		ret_rate = MGN_VHT3SS_MCS2;
++		break;
++	case DESC_RATEVHTSS3MCS3:
++		ret_rate = MGN_VHT3SS_MCS3;
++		break;
++	case DESC_RATEVHTSS3MCS4:
++		ret_rate = MGN_VHT3SS_MCS4;
++		break;
++	case DESC_RATEVHTSS3MCS5:
++		ret_rate = MGN_VHT3SS_MCS5;
++		break;
++	case DESC_RATEVHTSS3MCS6:
++		ret_rate = MGN_VHT3SS_MCS6;
++		break;
++	case DESC_RATEVHTSS3MCS7:
++		ret_rate = MGN_VHT3SS_MCS7;
++		break;
++	case DESC_RATEVHTSS3MCS8:
++		ret_rate = MGN_VHT3SS_MCS8;
++		break;
++	case DESC_RATEVHTSS3MCS9:
++		ret_rate = MGN_VHT3SS_MCS9;
++		break;
++	case DESC_RATEVHTSS4MCS0:
++		ret_rate = MGN_VHT4SS_MCS0;
++		break;
++	case DESC_RATEVHTSS4MCS1:
++		ret_rate = MGN_VHT4SS_MCS1;
++		break;
++	case DESC_RATEVHTSS4MCS2:
++		ret_rate = MGN_VHT4SS_MCS2;
++		break;
++	case DESC_RATEVHTSS4MCS3:
++		ret_rate = MGN_VHT4SS_MCS3;
++		break;
++	case DESC_RATEVHTSS4MCS4:
++		ret_rate = MGN_VHT4SS_MCS4;
++		break;
++	case DESC_RATEVHTSS4MCS5:
++		ret_rate = MGN_VHT4SS_MCS5;
++		break;
++	case DESC_RATEVHTSS4MCS6:
++		ret_rate = MGN_VHT4SS_MCS6;
++		break;
++	case DESC_RATEVHTSS4MCS7:
++		ret_rate = MGN_VHT4SS_MCS7;
++		break;
++	case DESC_RATEVHTSS4MCS8:
++		ret_rate = MGN_VHT4SS_MCS8;
++		break;
++	case DESC_RATEVHTSS4MCS9:
++		ret_rate = MGN_VHT4SS_MCS9;
++		break;
++
++	default:
++		RTW_INFO("HwRateToMRate(): Non supported Rate [%x]!!!\n", rate);
++		break;
++	}
++
++	return ret_rate;
++}
++
++void	HalSetBrateCfg(
++	IN PADAPTER		Adapter,
++	IN u8			*mBratesOS,
++	OUT u16			*pBrateCfg)
++{
++	u8	i, is_brate, brate;
++
++	for (i = 0; i < NDIS_802_11_LENGTH_RATES_EX; i++) {
++		is_brate = mBratesOS[i] & IEEE80211_BASIC_RATE_MASK;
++		brate = mBratesOS[i] & 0x7f;
++
++		if (is_brate) {
++			switch (brate) {
++			case IEEE80211_CCK_RATE_1MB:
++				*pBrateCfg |= RATE_1M;
++				break;
++			case IEEE80211_CCK_RATE_2MB:
++				*pBrateCfg |= RATE_2M;
++				break;
++			case IEEE80211_CCK_RATE_5MB:
++				*pBrateCfg |= RATE_5_5M;
++				break;
++			case IEEE80211_CCK_RATE_11MB:
++				*pBrateCfg |= RATE_11M;
++				break;
++			case IEEE80211_OFDM_RATE_6MB:
++				*pBrateCfg |= RATE_6M;
++				break;
++			case IEEE80211_OFDM_RATE_9MB:
++				*pBrateCfg |= RATE_9M;
++				break;
++			case IEEE80211_OFDM_RATE_12MB:
++				*pBrateCfg |= RATE_12M;
++				break;
++			case IEEE80211_OFDM_RATE_18MB:
++				*pBrateCfg |= RATE_18M;
++				break;
++			case IEEE80211_OFDM_RATE_24MB:
++				*pBrateCfg |= RATE_24M;
++				break;
++			case IEEE80211_OFDM_RATE_36MB:
++				*pBrateCfg |= RATE_36M;
++				break;
++			case IEEE80211_OFDM_RATE_48MB:
++				*pBrateCfg |= RATE_48M;
++				break;
++			case IEEE80211_OFDM_RATE_54MB:
++				*pBrateCfg |= RATE_54M;
++				break;
++			}
++		}
++	}
++}
++
++static VOID
++_OneOutPipeMapping(
++	IN	PADAPTER	pAdapter
++)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(pAdapter);
++
++	pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];/* VO */
++	pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[0];/* VI */
++	pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[0];/* BE */
++	pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[0];/* BK */
++
++	pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];/* BCN */
++	pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];/* MGT */
++	pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];/* HIGH */
++	pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];/* TXCMD */
++}
++
++static VOID
++_TwoOutPipeMapping(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bWIFICfg
++)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(pAdapter);
++
++	if (bWIFICfg) { /* WMM */
++
++		/*	BK, 	BE, 	VI, 	VO, 	BCN,	CMD,MGT,HIGH,HCCA  */
++		/* {  0, 	1, 	0, 	1, 	0, 	0, 	0, 	0, 		0	}; */
++		/* 0:ep_0 num, 1:ep_1 num */
++
++		pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[1];/* VO */
++		pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[0];/* VI */
++		pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[1];/* BE */
++		pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[0];/* BK */
++
++		pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];/* BCN */
++		pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];/* MGT */
++		pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];/* HIGH */
++		pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];/* TXCMD */
++
++	} else { /* typical setting */
++
++
++		/* BK, 	BE, 	VI, 	VO, 	BCN,	CMD,MGT,HIGH,HCCA */
++		/* {  1, 	1, 	0, 	0, 	0, 	0, 	0, 	0, 		0	};			 */
++		/* 0:ep_0 num, 1:ep_1 num */
++
++		pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];/* VO */
++		pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[0];/* VI */
++		pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[1];/* BE */
++		pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[1];/* BK */
++
++		pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];/* BCN */
++		pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];/* MGT */
++		pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];/* HIGH */
++		pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];/* TXCMD	 */
++
++	}
++
++}
++
++static VOID _ThreeOutPipeMapping(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bWIFICfg
++)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(pAdapter);
++
++	if (bWIFICfg) { /* for WMM */
++
++		/*	BK, 	BE, 	VI, 	VO, 	BCN,	CMD,MGT,HIGH,HCCA  */
++		/* {  1, 	2, 	1, 	0, 	0, 	0, 	0, 	0, 		0	}; */
++		/* 0:H, 1:N, 2:L */
++
++		pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];/* VO */
++		pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[1];/* VI */
++		pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[2];/* BE */
++		pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[1];/* BK */
++
++		pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];/* BCN */
++		pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];/* MGT */
++		pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];/* HIGH */
++		pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];/* TXCMD */
++
++	} else { /* typical setting */
++
++
++		/*	BK, 	BE, 	VI, 	VO, 	BCN,	CMD,MGT,HIGH,HCCA  */
++		/* {  2, 	2, 	1, 	0, 	0, 	0, 	0, 	0, 		0	};			 */
++		/* 0:H, 1:N, 2:L */
++
++		pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];/* VO */
++		pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[1];/* VI */
++		pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[2];/* BE */
++		pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[2];/* BK */
++
++		pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];/* BCN */
++		pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];/* MGT */
++		pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[0];/* HIGH */
++		pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];/* TXCMD	 */
++	}
++
++}
++static VOID _FourOutPipeMapping(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bWIFICfg
++)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(pAdapter);
++
++	if (bWIFICfg) { /* for WMM */
++
++		/*	BK, 	BE, 	VI, 	VO, 	BCN,	CMD,MGT,HIGH,HCCA  */
++		/* {  1, 	2, 	1, 	0, 	0, 	0, 	0, 	0, 		0	}; */
++		/* 0:H, 1:N, 2:L ,3:E */
++
++		pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];/* VO */
++		pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[1];/* VI */
++		pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[2];/* BE */
++		pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[1];/* BK */
++
++		pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];/* BCN */
++		pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];/* MGT */
++		pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[3];/* HIGH */
++		pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];/* TXCMD */
++
++	} else { /* typical setting */
++
++
++		/*	BK, 	BE, 	VI, 	VO, 	BCN,	CMD,MGT,HIGH,HCCA  */
++		/* {  2, 	2, 	1, 	0, 	0, 	0, 	0, 	0, 		0	};			 */
++		/* 0:H, 1:N, 2:L */
++
++		pdvobjpriv->Queue2Pipe[0] = pdvobjpriv->RtOutPipe[0];/* VO */
++		pdvobjpriv->Queue2Pipe[1] = pdvobjpriv->RtOutPipe[1];/* VI */
++		pdvobjpriv->Queue2Pipe[2] = pdvobjpriv->RtOutPipe[2];/* BE */
++		pdvobjpriv->Queue2Pipe[3] = pdvobjpriv->RtOutPipe[2];/* BK */
++
++		pdvobjpriv->Queue2Pipe[4] = pdvobjpriv->RtOutPipe[0];/* BCN */
++		pdvobjpriv->Queue2Pipe[5] = pdvobjpriv->RtOutPipe[0];/* MGT */
++		pdvobjpriv->Queue2Pipe[6] = pdvobjpriv->RtOutPipe[3];/* HIGH */
++		pdvobjpriv->Queue2Pipe[7] = pdvobjpriv->RtOutPipe[0];/* TXCMD	 */
++	}
++
++}
++BOOLEAN
++Hal_MappingOutPipe(
++	IN	PADAPTER	pAdapter,
++	IN	u8		NumOutPipe
++)
++{
++	struct registry_priv *pregistrypriv = &pAdapter->registrypriv;
++
++	BOOLEAN	 bWIFICfg = (pregistrypriv->wifi_spec) ? _TRUE : _FALSE;
++
++	BOOLEAN result = _TRUE;
++
++	switch (NumOutPipe) {
++	case 2:
++		_TwoOutPipeMapping(pAdapter, bWIFICfg);
++		break;
++	case 3:
++	case 4:
++		_ThreeOutPipeMapping(pAdapter, bWIFICfg);
++		break;
++	case 1:
++		_OneOutPipeMapping(pAdapter);
++		break;
++	default:
++		result = _FALSE;
++		break;
++	}
++
++	return result;
++
++}
++
++void rtw_hal_dump_macaddr(void *sel, _adapter *adapter)
++{
++	int i;
++	_adapter *iface;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	u8 mac_addr[ETH_ALEN];
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++	rtw_mbid_cam_dump(sel, __func__, adapter);
++#else
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface) {
++			rtw_hal_get_macaddr_port(iface, mac_addr);
++			RTW_PRINT_SEL(sel, ADPT_FMT"- hw port(%d) mac_addr ="MAC_FMT"\n",
++				ADPT_ARG(iface), iface->hw_port, MAC_ARG(mac_addr));
++		}
++	}
++#endif
++}
++
++void rtw_restore_mac_addr(_adapter *adapter)
++{
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++	_adapter *iface;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++
++	rtw_mbid_cam_restore(adapter);
++#else
++	int i;
++	_adapter *iface;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface)
++			rtw_hal_set_macaddr_port(iface, adapter_mac_addr(iface));
++	}
++#endif
++	if (1)
++		rtw_hal_dump_macaddr(RTW_DBGDUMP, adapter);
++}
++
++void rtw_init_hal_com_default_value(PADAPTER Adapter)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	struct registry_priv *regsty = adapter_to_regsty(Adapter);
++
++	pHalData->AntDetection = 1;
++	pHalData->u1ForcedIgiLb = regsty->force_igi_lb;
++}
++
++/*
++* C2H event format:
++* Field	 TRIGGER		CONTENT	   CMD_SEQ	CMD_LEN		 CMD_ID
++* BITS	 [127:120]	[119:16]      [15:8]		  [7:4]		   [3:0]
++*/
++
++void c2h_evt_clear(_adapter *adapter)
++{
++	rtw_write8(adapter, REG_C2HEVT_CLEAR, C2H_EVT_HOST_CLOSE);
++}
++
++s32 c2h_evt_read(_adapter *adapter, u8 *buf)
++{
++	s32 ret = _FAIL;
++	struct c2h_evt_hdr *c2h_evt;
++	int i;
++	u8 trigger;
++
++	if (buf == NULL)
++		goto exit;
++
++#if defined(CONFIG_RTL8188E)
++
++	trigger = rtw_read8(adapter, REG_C2HEVT_CLEAR);
++
++	if (trigger == C2H_EVT_HOST_CLOSE) {
++		goto exit; /* Not ready */
++	} else if (trigger != C2H_EVT_FW_CLOSE) {
++		goto clear_evt; /* Not a valid value */
++	}
++
++	c2h_evt = (struct c2h_evt_hdr *)buf;
++
++	_rtw_memset(c2h_evt, 0, 16);
++
++	*buf = rtw_read8(adapter, REG_C2HEVT_MSG_NORMAL);
++	*(buf + 1) = rtw_read8(adapter, REG_C2HEVT_MSG_NORMAL + 1);
++
++	RTW_DBG_DUMP("c2h_evt_read(): ",
++		     &c2h_evt , sizeof(c2h_evt));
++
++	if (0) {
++		RTW_INFO("%s id:%u, len:%u, seq:%u, trigger:0x%02x\n", __func__
++			 , c2h_evt->id, c2h_evt->plen, c2h_evt->seq, trigger);
++	}
++
++	/* Read the content */
++	for (i = 0; i < c2h_evt->plen; i++)
++		c2h_evt->payload[i] = rtw_read8(adapter, REG_C2HEVT_MSG_NORMAL + 2 + i);
++
++	RTW_DBG_DUMP("c2h_evt_read(): Command Content:\n",
++		     c2h_evt->payload, c2h_evt->plen);
++
++	ret = _SUCCESS;
++
++clear_evt:
++	/*
++	* Clear event to notify FW we have read the command.
++	* If this field isn't clear, the FW won't update the next command message.
++	*/
++	c2h_evt_clear(adapter);
++#endif
++exit:
++	return ret;
++}
++
++/*
++* C2H event format:
++* Field    TRIGGER    CMD_LEN    CONTENT    CMD_SEQ    CMD_ID
++* BITS    [127:120]   [119:112]    [111:16]	     [15:8]         [7:0]
++*/
++s32 c2h_evt_read_88xx(_adapter *adapter, u8 *buf)
++{
++	s32 ret = _FAIL;
++	struct c2h_evt_hdr_88xx *c2h_evt;
++	int i;
++	u8 trigger;
++
++	if (buf == NULL)
++		goto exit;
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) \
++	|| defined(CONFIG_RTL8192E) || defined(CONFIG_RTL8723B) \
++	|| defined(CONFIG_RTL8703B) || defined(CONFIG_RTL8723D)
++
++	trigger = rtw_read8(adapter, REG_C2HEVT_CLEAR);
++
++	if (trigger == C2H_EVT_HOST_CLOSE) {
++		goto exit; /* Not ready */
++	} else if (trigger != C2H_EVT_FW_CLOSE) {
++		goto clear_evt; /* Not a valid value */
++	}
++
++	c2h_evt = (struct c2h_evt_hdr_88xx *)buf;
++
++	_rtw_memset(c2h_evt, 0, 16);
++
++	c2h_evt->id = rtw_read8(adapter, REG_C2HEVT_MSG_NORMAL);
++	c2h_evt->seq = rtw_read8(adapter, REG_C2HEVT_CMD_SEQ_88XX);
++	c2h_evt->plen = rtw_read8(adapter, REG_C2HEVT_CMD_LEN_88XX);
++
++	RTW_DBG_DUMP("c2h_evt_read(): ",
++		     &c2h_evt , sizeof(c2h_evt));
++
++	if (0) {
++		RTW_INFO("%s id:%u, len:%u, seq:%u, trigger:0x%02x\n", __func__
++			 , c2h_evt->id, c2h_evt->plen, c2h_evt->seq, trigger);
++	}
++
++	/* Read the content */
++	for (i = 0; i < c2h_evt->plen; i++)
++		c2h_evt->payload[i] = rtw_read8(adapter, REG_C2HEVT_MSG_NORMAL + 2 + i);
++
++	RTW_DBG_DUMP("c2h_evt_read(): Command Content:\n",
++		     c2h_evt->payload, c2h_evt->plen);
++
++	ret = _SUCCESS;
++
++clear_evt:
++	/*
++	* Clear event to notify FW we have read the command.
++	* If this field isn't clear, the FW won't update the next command message.
++	*/
++	c2h_evt_clear(adapter);
++#endif
++exit:
++	return ret;
++}
++
++#define	GET_C2H_MAC_HIDDEN_RPT_UUID_X(_data)			LE_BITS_TO_1BYTE(((u8 *)(_data)) + 0, 0, 8)
++#define	GET_C2H_MAC_HIDDEN_RPT_UUID_Y(_data)			LE_BITS_TO_1BYTE(((u8 *)(_data)) + 1, 0, 8)
++#define	GET_C2H_MAC_HIDDEN_RPT_UUID_Z(_data)			LE_BITS_TO_1BYTE(((u8 *)(_data)) + 2, 0, 5)
++#define	GET_C2H_MAC_HIDDEN_RPT_UUID_CRC(_data)			LE_BITS_TO_2BYTE(((u8 *)(_data)) + 2, 5, 11)
++#define	GET_C2H_MAC_HIDDEN_RPT_HCI_TYPE(_data)			LE_BITS_TO_1BYTE(((u8 *)(_data)) + 4, 0, 4)
++#define	GET_C2H_MAC_HIDDEN_RPT_PACKAGE_TYPE(_data)		LE_BITS_TO_1BYTE(((u8 *)(_data)) + 4, 4, 3)
++#define	GET_C2H_MAC_HIDDEN_RPT_TR_SWITCH(_data)			LE_BITS_TO_1BYTE(((u8 *)(_data)) + 4, 7, 1)
++#define	GET_C2H_MAC_HIDDEN_RPT_WL_FUNC(_data)			LE_BITS_TO_1BYTE(((u8 *)(_data)) + 5, 0, 4)
++#define	GET_C2H_MAC_HIDDEN_RPT_HW_STYPE(_data)			LE_BITS_TO_1BYTE(((u8 *)(_data)) + 5, 4, 4)
++#define	GET_C2H_MAC_HIDDEN_RPT_BW(_data)				LE_BITS_TO_1BYTE(((u8 *)(_data)) + 6, 0, 3)
++#define	GET_C2H_MAC_HIDDEN_RPT_FAB(_data)				LE_BITS_TO_1BYTE(((u8 *)(_data)) + 6, 3, 2)
++#define	GET_C2H_MAC_HIDDEN_RPT_ANT_NUM(_data)			LE_BITS_TO_1BYTE(((u8 *)(_data)) + 6, 5, 3)
++#define	GET_C2H_MAC_HIDDEN_RPT_80211_PROTOCOL(_data)	LE_BITS_TO_1BYTE(((u8 *)(_data)) + 7, 2, 2)
++#define	GET_C2H_MAC_HIDDEN_RPT_NIC_ROUTER(_data)		LE_BITS_TO_1BYTE(((u8 *)(_data)) + 7, 6, 2)
++
++#ifndef DBG_C2H_MAC_HIDDEN_RPT_HANDLE
++#define DBG_C2H_MAC_HIDDEN_RPT_HANDLE 0
++#endif
++
++int c2h_mac_hidden_rpt_hdl(_adapter *adapter, u8 *data, u8 len)
++{
++	HAL_DATA_TYPE	*hal_data = GET_HAL_DATA(adapter);
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	int ret = _FAIL;
++
++	u32 uuid;
++	u8 uuid_x;
++	u8 uuid_y;
++	u8 uuid_z;
++	u16 uuid_crc;
++
++	u8 hci_type;
++	u8 package_type;
++	u8 tr_switch;
++	u8 wl_func;
++	u8 hw_stype;
++	u8 bw;
++	u8 fab;
++	u8 ant_num;
++	u8 protocol;
++	u8 nic;
++
++	int i;
++
++	if (len < MAC_HIDDEN_RPT_LEN) {
++		RTW_WARN("%s len(%u) < %d\n", __func__, len, MAC_HIDDEN_RPT_LEN);
++		goto exit;
++	}
++
++	uuid_x = GET_C2H_MAC_HIDDEN_RPT_UUID_X(data);
++	uuid_y = GET_C2H_MAC_HIDDEN_RPT_UUID_Y(data);
++	uuid_z = GET_C2H_MAC_HIDDEN_RPT_UUID_Z(data);
++	uuid_crc = GET_C2H_MAC_HIDDEN_RPT_UUID_CRC(data);
++
++	hci_type = GET_C2H_MAC_HIDDEN_RPT_HCI_TYPE(data);
++	package_type = GET_C2H_MAC_HIDDEN_RPT_PACKAGE_TYPE(data);
++
++	tr_switch = GET_C2H_MAC_HIDDEN_RPT_TR_SWITCH(data);
++
++	wl_func = GET_C2H_MAC_HIDDEN_RPT_WL_FUNC(data);
++	hw_stype = GET_C2H_MAC_HIDDEN_RPT_HW_STYPE(data);
++
++	bw = GET_C2H_MAC_HIDDEN_RPT_BW(data);
++	fab = GET_C2H_MAC_HIDDEN_RPT_FAB(data);
++	ant_num = GET_C2H_MAC_HIDDEN_RPT_ANT_NUM(data);
++
++	protocol = GET_C2H_MAC_HIDDEN_RPT_80211_PROTOCOL(data);
++	nic = GET_C2H_MAC_HIDDEN_RPT_NIC_ROUTER(data);
++
++	if (DBG_C2H_MAC_HIDDEN_RPT_HANDLE) {
++		for (i = 0; i < len; i++)
++			RTW_PRINT("%s: 0x%02X\n", __func__, *(data + i));
++
++		RTW_PRINT("uuid x:0x%02x y:0x%02x z:0x%x crc:0x%x\n", uuid_x, uuid_y, uuid_z, uuid_crc);
++		RTW_PRINT("hci_type:0x%x\n", hci_type);
++		RTW_PRINT("package_type:0x%x\n", package_type);
++		RTW_PRINT("tr_switch:0x%x\n", tr_switch);
++		RTW_PRINT("wl_func:0x%x\n", wl_func);
++		RTW_PRINT("hw_stype:0x%x\n", hw_stype);
++		RTW_PRINT("bw:0x%x\n", bw);
++		RTW_PRINT("fab:0x%x\n", fab);
++		RTW_PRINT("ant_num:0x%x\n", ant_num);
++		RTW_PRINT("protocol:0x%x\n", protocol);
++		RTW_PRINT("nic:0x%x\n", nic);
++	}
++
++	/*
++	* NOTICE:
++	* for now, the following is common info/format
++	* if there is any hal difference need to export
++	* some IC dependent code will need to be implement
++	*/
++	hal_data->PackageType = package_type;
++	hal_spec->wl_func &= mac_hidden_wl_func_to_hal_wl_func(wl_func);
++	hal_spec->bw_cap &= mac_hidden_max_bw_to_hal_bw_cap(bw);
++	hal_spec->nss_num = rtw_min(hal_spec->nss_num, ant_num);
++	hal_spec->proto_cap &= mac_hidden_proto_to_hal_proto_cap(protocol);
++
++	/* TODO: tr_switch */
++	/* TODO: fab */
++
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++int c2h_mac_hidden_rpt_2_hdl(_adapter *adapter, u8 *data, u8 len)
++{
++	HAL_DATA_TYPE	*hal_data = GET_HAL_DATA(adapter);
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	int ret = _FAIL;
++
++	int i;
++
++	if (len < MAC_HIDDEN_RPT_2_LEN) {
++		RTW_WARN("%s len(%u) < %d\n", __func__, len, MAC_HIDDEN_RPT_2_LEN);
++		goto exit;
++	}
++
++	if (DBG_C2H_MAC_HIDDEN_RPT_HANDLE) {
++		for (i = 0; i < len; i++)
++			RTW_PRINT("%s: 0x%02X\n", __func__, *(data + i));
++	}
++
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++int hal_read_mac_hidden_rpt(_adapter *adapter)
++{
++	int ret = _FAIL;
++	int ret_fwdl;
++	u8 mac_hidden_rpt[MAC_HIDDEN_RPT_LEN + MAC_HIDDEN_RPT_2_LEN] = {0};
++	u32 start = rtw_get_current_time();
++	u32 cnt = 0;
++	u32 timeout_ms = 800;
++	u32 min_cnt = 10;
++	u8 id = C2H_DEFEATURE_RSVD;
++	int i;
++
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_PCI_HCI)
++	u8 hci_type = rtw_get_intf_type(adapter);
++
++	if ((hci_type == RTW_USB || hci_type == RTW_PCIE)
++		&& !rtw_is_hw_init_completed(adapter))
++		rtw_hal_power_on(adapter);
++#endif
++
++	/* inform FW mac hidden rpt from reg is needed */
++	rtw_write8(adapter, REG_C2HEVT_MSG_NORMAL, C2H_DEFEATURE_RSVD);
++
++	/* download FW */
++	ret_fwdl = rtw_hal_fw_dl(adapter, _FALSE);
++	if (ret_fwdl != _SUCCESS)
++		goto mac_hidden_rpt_hdl;
++
++	/* polling for data ready */
++	start = rtw_get_current_time();
++	do {
++		cnt++;
++		id = rtw_read8(adapter, REG_C2HEVT_MSG_NORMAL);
++		if (id == C2H_MAC_HIDDEN_RPT || RTW_CANNOT_IO(adapter))
++			break;
++		rtw_msleep_os(10);
++	} while (rtw_get_passing_time_ms(start) < timeout_ms || cnt < min_cnt);
++
++	if (id == C2H_MAC_HIDDEN_RPT) {
++		/* read data */
++		for (i = 0; i < MAC_HIDDEN_RPT_LEN + MAC_HIDDEN_RPT_2_LEN; i++)
++			mac_hidden_rpt[i] = rtw_read8(adapter, REG_C2HEVT_MSG_NORMAL + 2 + i);
++	}
++
++	/* inform FW mac hidden rpt has read */
++	rtw_write8(adapter, REG_C2HEVT_MSG_NORMAL, C2H_DBG);
++
++mac_hidden_rpt_hdl:
++	c2h_mac_hidden_rpt_hdl(adapter, mac_hidden_rpt, MAC_HIDDEN_RPT_LEN);
++	c2h_mac_hidden_rpt_2_hdl(adapter, mac_hidden_rpt + MAC_HIDDEN_RPT_LEN, MAC_HIDDEN_RPT_2_LEN);
++
++	if (ret_fwdl == _SUCCESS && id == C2H_MAC_HIDDEN_RPT)
++		ret = _SUCCESS;
++
++exit:
++
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_PCI_HCI)
++	if ((hci_type == RTW_USB || hci_type == RTW_PCIE)
++		&& !rtw_is_hw_init_completed(adapter))
++		rtw_hal_power_off(adapter);
++#endif
++
++	RTW_INFO("%s %s! (%u, %dms), fwdl:%d, id:0x%02x\n", __func__
++		, (ret == _SUCCESS) ? "OK" : "Fail", cnt, rtw_get_passing_time_ms(start), ret_fwdl, id);
++
++	return ret;
++}
++
++int c2h_defeature_dbg_hdl(_adapter *adapter, u8 *data, u8 len)
++{
++	HAL_DATA_TYPE	*hal_data = GET_HAL_DATA(adapter);
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	int ret = _FAIL;
++
++	int i;
++
++	if (len < DEFEATURE_DBG_LEN) {
++		RTW_WARN("%s len(%u) < %d\n", __func__, len, DEFEATURE_DBG_LEN);
++		goto exit;
++	}
++
++	for (i = 0; i < len; i++)
++		RTW_PRINT("%s: 0x%02X\n", __func__, *(data + i));
++
++	ret = _SUCCESS;
++	
++exit:
++	return ret;
++}
++
++u8  rtw_hal_networktype_to_raid(_adapter *adapter, struct sta_info *psta)
++{
++#ifdef CONFIG_GET_RAID_BY_DRV	/*Just for 8188E now*/
++	if (IS_NEW_GENERATION_IC(adapter))
++		return networktype_to_raid_ex(adapter, psta);
++	else
++		return networktype_to_raid(adapter, psta);
++#else
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(adapter);
++	u8 bw;
++
++	bw = rtw_get_tx_bw_mode(adapter, psta);
++
++	return phydm_rate_id_mapping(&pHalData->odmpriv, psta->wireless_mode, pHalData->rf_type, bw);
++#endif
++}
++u8 rtw_get_mgntframe_raid(_adapter *adapter, unsigned char network_type)
++{
++
++	u8 raid;
++	if (IS_NEW_GENERATION_IC(adapter)) {
++
++		raid = (network_type & WIRELESS_11B)	? RATEID_IDX_B
++		       : RATEID_IDX_G;
++	} else {
++		raid = (network_type & WIRELESS_11B)	? RATR_INX_WIRELESS_B
++		       : RATR_INX_WIRELESS_G;
++	}
++	return raid;
++}
++
++void rtw_hal_update_sta_rate_mask(PADAPTER padapter, struct sta_info *psta)
++{
++	u8	i, rf_type, limit;
++	u64	tx_ra_bitmap;
++
++	if (psta == NULL)
++		return;
++
++	tx_ra_bitmap = 0;
++
++	/* b/g mode ra_bitmap  */
++	for (i = 0; i < sizeof(psta->bssrateset); i++) {
++		if (psta->bssrateset[i])
++			tx_ra_bitmap |= rtw_get_bit_value_from_ieee_value(psta->bssrateset[i] & 0x7f);
++	}
++
++#ifdef CONFIG_80211N_HT
++#ifdef CONFIG_80211AC_VHT
++	/* AC mode ra_bitmap */
++	if (psta->vhtpriv.vht_option)
++		tx_ra_bitmap |= (rtw_vht_rate_to_bitmap(psta->vhtpriv.vht_mcs_map) << 12);
++	else
++#endif /* CONFIG_80211AC_VHT */
++	{
++		/* n mode ra_bitmap */
++		if (psta->htpriv.ht_option) {
++			rf_type = RF_1T1R;
++			rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++			if (rf_type == RF_2T2R)
++				limit = 16; /* 2R */
++			else if (rf_type == RF_3T3R)
++				limit = 24; /* 3R */
++			else
++				limit = 8; /* 1R */
++
++
++			/* Handling SMPS mode for AP MODE only*/
++			if (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE) {
++				/*0:static SMPS, 1:dynamic SMPS, 3:SMPS disabled, 2:reserved*/
++				if (psta->htpriv.smps_cap == 0 || psta->htpriv.smps_cap == 1) {
++					/*operate with only one active receive chain // 11n-MCS rate <= MSC7*/
++					limit = 8;/*  1R*/
++				}
++			}
++
++			for (i = 0; i < limit; i++) {
++				if (psta->htpriv.ht_cap.supp_mcs_set[i / 8] & BIT(i % 8))
++					tx_ra_bitmap |= BIT(i + 12);
++			}
++		}
++	}
++#endif /* CONFIG_80211N_HT */
++	RTW_INFO("supp_mcs_set = %02x, %02x, %02x, rf_type=%d, tx_ra_bitmap=%016llx\n"
++		, psta->htpriv.ht_cap.supp_mcs_set[0], psta->htpriv.ht_cap.supp_mcs_set[1], psta->htpriv.ht_cap.supp_mcs_set[2], rf_type, tx_ra_bitmap);
++	psta->ra_mask = tx_ra_bitmap;
++	psta->init_rate = get_highest_rate_idx(tx_ra_bitmap) & 0x3f;
++}
++
++#ifndef SEC_CAM_ACCESS_TIMEOUT_MS
++	#define SEC_CAM_ACCESS_TIMEOUT_MS 200
++#endif
++
++#ifndef DBG_SEC_CAM_ACCESS
++	#define DBG_SEC_CAM_ACCESS 0
++#endif
++
++u32 rtw_sec_read_cam(_adapter *adapter, u8 addr)
++{
++	_mutex *mutex = &adapter_to_dvobj(adapter)->cam_ctl.sec_cam_access_mutex;
++	u32 rdata;
++	u32 cnt = 0;
++	u32 start = 0, end = 0;
++	u8 timeout = 0;
++	u8 sr = 0;
++
++	_enter_critical_mutex(mutex, NULL);
++
++	rtw_write32(adapter, REG_CAMCMD, CAM_POLLINIG | addr);
++
++	start = rtw_get_current_time();
++	while (1) {
++		if (rtw_is_surprise_removed(adapter)) {
++			sr = 1;
++			break;
++		}
++
++		cnt++;
++		if (0 == (rtw_read32(adapter, REG_CAMCMD) & CAM_POLLINIG))
++			break;
++
++		if (rtw_get_passing_time_ms(start) > SEC_CAM_ACCESS_TIMEOUT_MS) {
++			timeout = 1;
++			break;
++		}
++	}
++	end = rtw_get_current_time();
++
++	rdata = rtw_read32(adapter, REG_CAMREAD);
++
++	_exit_critical_mutex(mutex, NULL);
++
++	if (DBG_SEC_CAM_ACCESS || timeout) {
++		RTW_INFO(FUNC_ADPT_FMT" addr:0x%02x, rdata:0x%08x, to:%u, polling:%u, %d ms\n"
++			, FUNC_ADPT_ARG(adapter), addr, rdata, timeout, cnt, rtw_get_time_interval_ms(start, end));
++	}
++
++	return rdata;
++}
++
++void rtw_sec_write_cam(_adapter *adapter, u8 addr, u32 wdata)
++{
++	_mutex *mutex = &adapter_to_dvobj(adapter)->cam_ctl.sec_cam_access_mutex;
++	u32 cnt = 0;
++	u32 start = 0, end = 0;
++	u8 timeout = 0;
++	u8 sr = 0;
++
++	_enter_critical_mutex(mutex, NULL);
++
++	rtw_write32(adapter, REG_CAMWRITE, wdata);
++	rtw_write32(adapter, REG_CAMCMD, CAM_POLLINIG | CAM_WRITE | addr);
++
++	start = rtw_get_current_time();
++	while (1) {
++		if (rtw_is_surprise_removed(adapter)) {
++			sr = 1;
++			break;
++		}
++
++		cnt++;
++		if (0 == (rtw_read32(adapter, REG_CAMCMD) & CAM_POLLINIG))
++			break;
++
++		if (rtw_get_passing_time_ms(start) > SEC_CAM_ACCESS_TIMEOUT_MS) {
++			timeout = 1;
++			break;
++		}
++	}
++	end = rtw_get_current_time();
++
++	_exit_critical_mutex(mutex, NULL);
++
++	if (DBG_SEC_CAM_ACCESS || timeout) {
++		RTW_INFO(FUNC_ADPT_FMT" addr:0x%02x, wdata:0x%08x, to:%u, polling:%u, %d ms\n"
++			, FUNC_ADPT_ARG(adapter), addr, wdata, timeout, cnt, rtw_get_time_interval_ms(start, end));
++	}
++}
++
++void rtw_sec_read_cam_ent(_adapter *adapter, u8 id, u8 *ctrl, u8 *mac, u8 *key)
++{
++	unsigned int val, addr;
++	u8 i;
++	u32 rdata;
++	u8 begin = 0;
++	u8 end = 5; /* TODO: consider other key length accordingly */
++
++	if (!ctrl && !mac && !key) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	/* TODO: check id range */
++
++	if (!ctrl && !mac)
++		begin = 2; /* read from key */
++
++	if (!key && !mac)
++		end = 0; /* read to ctrl */
++	else if (!key)
++		end = 2; /* read to mac */
++
++	for (i = begin; i <= end; i++) {
++		rdata = rtw_sec_read_cam(adapter, (id << 3) | i);
++
++		switch (i) {
++		case 0:
++			if (ctrl)
++				_rtw_memcpy(ctrl, (u8 *)(&rdata), 2);
++			if (mac)
++				_rtw_memcpy(mac, ((u8 *)(&rdata)) + 2, 2);
++			break;
++		case 1:
++			if (mac)
++				_rtw_memcpy(mac + 2, (u8 *)(&rdata), 4);
++			break;
++		default:
++			if (key)
++				_rtw_memcpy(key + (i - 2) * 4, (u8 *)(&rdata), 4);
++			break;
++		}
++	}
++
++exit:
++	return;
++}
++
++
++void rtw_sec_write_cam_ent(_adapter *adapter, u8 id, u16 ctrl, u8 *mac, u8 *key)
++{
++	unsigned int i;
++	int j;
++	u8 addr;
++	u32 wdata;
++
++	/* TODO: consider other key length accordingly */
++#if 0
++	switch ((ctrl & 0x1c) >> 2) {
++	case _WEP40_:
++	case _TKIP_:
++	case _AES_:
++	case _WEP104_:
++
++	}
++#else
++	j = 7;
++#endif
++
++	for (; j >= 0; j--) {
++		switch (j) {
++		case 0:
++			wdata = (ctrl | (mac[0] << 16) | (mac[1] << 24));
++			break;
++		case 1:
++			wdata = (mac[2] | (mac[3] << 8) | (mac[4] << 16) | (mac[5] << 24));
++			break;
++		case 6:
++		case 7:
++			wdata = 0;
++			break;
++		default:
++			i = (j - 2) << 2;
++			wdata = (key[i] | (key[i + 1] << 8) | (key[i + 2] << 16) | (key[i + 3] << 24));
++			break;
++		}
++
++		addr = (id << 3) + j;
++
++		rtw_sec_write_cam(adapter, addr, wdata);
++	}
++}
++
++void rtw_sec_clr_cam_ent(_adapter *adapter, u8 id)
++{
++	u8 addr;
++
++	addr = (id << 3);
++	rtw_sec_write_cam(adapter, addr, 0);
++}
++
++bool rtw_sec_read_cam_is_gk(_adapter *adapter, u8 id)
++{
++	bool res;
++	u16 ctrl;
++
++	rtw_sec_read_cam_ent(adapter, id, (u8 *)&ctrl, NULL, NULL);
++
++	res = (ctrl & BIT6) ? _TRUE : _FALSE;
++	return res;
++}
++#ifdef CONFIG_MBSSID_CAM
++void rtw_mbid_cam_init(struct dvobj_priv *dvobj)
++{
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	_rtw_spinlock_init(&mbid_cam_ctl->lock);
++	mbid_cam_ctl->bitmap = 0;
++	ATOMIC_SET(&mbid_cam_ctl->mbid_entry_num, 0);
++	_rtw_memset(&dvobj->mbid_cam_cache, 0, sizeof(dvobj->mbid_cam_cache));
++}
++
++void rtw_mbid_cam_deinit(struct dvobj_priv *dvobj)
++{
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	_rtw_spinlock_free(&mbid_cam_ctl->lock);
++}
++
++void rtw_mbid_cam_reset(_adapter *adapter)
++{
++	_irqL irqL;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	mbid_cam_ctl->bitmap = 0;
++	_rtw_memset(&dvobj->mbid_cam_cache, 0, sizeof(dvobj->mbid_cam_cache));
++	_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);
++
++	ATOMIC_SET(&mbid_cam_ctl->mbid_entry_num, 0);
++}
++static u8 _rtw_mbid_cam_search_by_macaddr(_adapter *adapter, u8 *mac_addr)
++{
++	u8 i;
++	u8 cam_id = INVALID_CAM_ID;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++
++	for (i = 0; i < TOTAL_MBID_CAM_NUM; i++) {
++		if (mac_addr && _rtw_memcmp(dvobj->mbid_cam_cache[i].mac_addr, mac_addr, ETH_ALEN) == _TRUE) {
++			cam_id = i;
++			break;
++		}
++	}
++
++	RTW_INFO("%s mac:"MAC_FMT" - cam_id:%d\n", __func__, MAC_ARG(mac_addr), cam_id);
++	return cam_id;
++}
++
++u8 rtw_mbid_cam_search_by_macaddr(_adapter *adapter, u8 *mac_addr)
++{
++	_irqL irqL;
++
++	u8 cam_id = INVALID_CAM_ID;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	cam_id = _rtw_mbid_cam_search_by_macaddr(adapter, mac_addr);
++	_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);
++
++	return cam_id;
++}
++static u8 _rtw_mbid_cam_search_by_ifaceid(_adapter *adapter, u8 iface_id)
++{
++	u8 i;
++	u8 cam_id = INVALID_CAM_ID;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++
++	for (i = 0; i < TOTAL_MBID_CAM_NUM; i++) {
++		if (iface_id == dvobj->mbid_cam_cache[i].iface_id) {
++			cam_id = i;
++			break;
++		}
++	}
++	if (cam_id != INVALID_CAM_ID)
++		RTW_INFO("%s iface_id:%d mac:"MAC_FMT" - cam_id:%d\n",
++			__func__, iface_id, MAC_ARG(dvobj->mbid_cam_cache[cam_id].mac_addr), cam_id);
++
++	return cam_id;
++}
++
++u8 rtw_mbid_cam_search_by_ifaceid(_adapter *adapter, u8 iface_id)
++{
++	_irqL irqL;
++	u8 cam_id = INVALID_CAM_ID;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	cam_id = _rtw_mbid_cam_search_by_ifaceid(adapter, iface_id);
++	_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);
++
++	return cam_id;
++}
++u8 rtw_get_max_mbid_cam_id(_adapter *adapter)
++{
++	_irqL irqL;
++	s8 i;
++	u8 cam_id = INVALID_CAM_ID;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	for (i = (TOTAL_MBID_CAM_NUM - 1); i >= 0; i--) {
++		if (mbid_cam_ctl->bitmap & BIT(i)) {
++			cam_id = i;
++			break;
++		}
++	}
++	_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	/*RTW_INFO("%s max cam_id:%d\n", __func__, cam_id);*/
++	return cam_id;
++}
++
++inline u8 rtw_get_mbid_cam_entry_num(_adapter *adapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	return ATOMIC_READ(&mbid_cam_ctl->mbid_entry_num);
++}
++
++static inline void mbid_cam_cache_init(_adapter *adapter, struct mbid_cam_cache *pmbid_cam, u8 *mac_addr)
++{
++	if (adapter && pmbid_cam && mac_addr) {
++		_rtw_memcpy(pmbid_cam->mac_addr, mac_addr, ETH_ALEN);
++		pmbid_cam->iface_id = adapter->iface_id;
++	}
++}
++static inline void mbid_cam_cache_clr(struct mbid_cam_cache *pmbid_cam)
++{
++	if (pmbid_cam) {
++		_rtw_memset(pmbid_cam->mac_addr, 0, ETH_ALEN);
++		pmbid_cam->iface_id = CONFIG_IFACE_NUMBER;
++	}
++}
++
++u8 rtw_mbid_camid_alloc(_adapter *adapter, u8 *mac_addr)
++{
++	_irqL irqL;
++	u8 cam_id = INVALID_CAM_ID, i;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++	u8 entry_num = ATOMIC_READ(&mbid_cam_ctl->mbid_entry_num);
++
++	if (entry_num >= TOTAL_MBID_CAM_NUM) {
++		RTW_INFO(FUNC_ADPT_FMT" failed !! MBSSID number :%d over TOTAL_CAM_ENTRY(8)\n", FUNC_ADPT_ARG(adapter), entry_num);
++		rtw_warn_on(1);
++	}
++
++	if (INVALID_CAM_ID != rtw_mbid_cam_search_by_macaddr(adapter, mac_addr))
++		goto exit;
++
++	_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	for (i = 0; i < TOTAL_MBID_CAM_NUM; i++) {
++		if (!(mbid_cam_ctl->bitmap & BIT(i))) {
++			mbid_cam_ctl->bitmap |= BIT(i);
++			cam_id = i;
++			break;
++		}
++	}
++	if ((cam_id != INVALID_CAM_ID) && (mac_addr))
++		mbid_cam_cache_init(adapter, &dvobj->mbid_cam_cache[cam_id], mac_addr);
++	_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);
++
++	if (cam_id != INVALID_CAM_ID) {
++		ATOMIC_INC(&mbid_cam_ctl->mbid_entry_num);
++		RTW_INFO("%s mac:"MAC_FMT" - cam_id:%d\n", __func__, MAC_ARG(mac_addr), cam_id);
++#ifdef DBG_MBID_CAM_DUMP
++		rtw_mbid_cam_cache_dump(RTW_DBGDUMP, __func__, adapter);
++#endif
++	} else
++		RTW_INFO("%s [WARN] "MAC_FMT" - invalid cam_id:%d\n", __func__, MAC_ARG(mac_addr), cam_id);
++exit:
++	return cam_id;
++}
++
++u8 rtw_mbid_cam_info_change(_adapter *adapter, u8 *mac_addr)
++{
++	_irqL irqL;
++	u8 entry_id = INVALID_CAM_ID;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	entry_id = _rtw_mbid_cam_search_by_ifaceid(adapter, adapter->iface_id);
++	if (entry_id != INVALID_CAM_ID)
++		mbid_cam_cache_init(adapter, &dvobj->mbid_cam_cache[entry_id], mac_addr);
++
++	_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);
++
++	return entry_id;
++}
++
++u8 rtw_mbid_cam_assign(_adapter *adapter, u8 *mac_addr, u8 camid)
++{
++	_irqL irqL;
++	u8 ret = _FALSE;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	if ((camid >= TOTAL_MBID_CAM_NUM) || (camid == INVALID_CAM_ID)) {
++		RTW_INFO(FUNC_ADPT_FMT" failed !! invlaid mbid_canid :%d\n", FUNC_ADPT_ARG(adapter), camid);
++		rtw_warn_on(1);
++	}
++	if (INVALID_CAM_ID != rtw_mbid_cam_search_by_macaddr(adapter, mac_addr))
++		goto exit;
++
++	_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	if (!(mbid_cam_ctl->bitmap & BIT(camid))) {
++		if (mac_addr) {
++			mbid_cam_ctl->bitmap |= BIT(camid);
++			mbid_cam_cache_init(adapter, &dvobj->mbid_cam_cache[camid], mac_addr);
++			ret = _TRUE;
++		}
++	}
++	_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);
++
++	if (ret == _TRUE) {
++		ATOMIC_INC(&mbid_cam_ctl->mbid_entry_num);
++		RTW_INFO("%s mac:"MAC_FMT" - cam_id:%d\n", __func__, MAC_ARG(mac_addr), camid);
++#ifdef DBG_MBID_CAM_DUMP
++		rtw_mbid_cam_cache_dump(RTW_DBGDUMP, __func__, adapter);
++#endif
++	} else
++		RTW_INFO("%s  [WARN] mac:"MAC_FMT" - cam_id:%d assigned failed\n", __func__, MAC_ARG(mac_addr), camid);
++
++exit:
++	return ret;
++}
++
++void rtw_mbid_camid_clean(_adapter *adapter, u8 mbss_canid)
++{
++	_irqL irqL;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	if ((mbss_canid >= TOTAL_MBID_CAM_NUM) || (mbss_canid == INVALID_CAM_ID)) {
++		RTW_INFO(FUNC_ADPT_FMT" failed !! invlaid mbid_canid :%d\n", FUNC_ADPT_ARG(adapter), mbss_canid);
++		rtw_warn_on(1);
++	}
++	_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	mbid_cam_cache_clr(&dvobj->mbid_cam_cache[mbss_canid]);
++	mbid_cam_ctl->bitmap &= (~BIT(mbss_canid));
++	_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	ATOMIC_DEC(&mbid_cam_ctl->mbid_entry_num);
++	RTW_INFO("%s - cam_id:%d\n", __func__, mbss_canid);
++}
++int rtw_mbid_cam_cache_dump(void *sel, const char *fun_name, _adapter *adapter)
++{
++	_irqL irqL;
++	u8 i;
++	_adapter *iface;
++	u8 iface_id;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++	u8 entry_num = ATOMIC_READ(&mbid_cam_ctl->mbid_entry_num);
++	u8 max_cam_id = rtw_get_max_mbid_cam_id(adapter);
++
++	RTW_PRINT_SEL(sel, "== MBSSID CAM DUMP (%s)==\n", fun_name);
++
++	_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	RTW_PRINT_SEL(sel, "Entry numbers:%d, max_camid:%d, bitmap:0x%08x\n", entry_num, max_cam_id, mbid_cam_ctl->bitmap);
++	for (i = 0; i < TOTAL_MBID_CAM_NUM; i++) {
++		RTW_PRINT_SEL(sel, "CAM_ID = %d\t", i);
++
++		if (mbid_cam_ctl->bitmap & BIT(i)) {
++			iface_id = dvobj->mbid_cam_cache[i].iface_id;
++			RTW_PRINT_SEL(sel, "IF_ID:%d\t", iface_id);
++			RTW_PRINT_SEL(sel, "MAC Addr:"MAC_FMT"\t", MAC_ARG(dvobj->mbid_cam_cache[i].mac_addr));
++
++			iface = dvobj->padapters[iface_id];
++			if (iface) {
++				if (check_fwstate(&iface->mlmepriv, WIFI_STATION_STATE) == _TRUE)
++					RTW_PRINT_SEL(sel, "ROLE:%s\n", "STA");
++				else if (check_fwstate(&iface->mlmepriv, WIFI_AP_STATE) == _TRUE)
++					RTW_PRINT_SEL(sel, "ROLE:%s\n", "AP");
++				else
++					RTW_PRINT_SEL(sel, "ROLE:%s\n", "NONE");
++			}
++
++		} else
++			RTW_PRINT_SEL(sel, "N/A\n");
++	}
++	_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);
++	return 0;
++}
++
++static void read_mbssid_cam(_adapter *padapter, u8 cam_addr, u8 *mac)
++{
++	u8 poll = 1;
++	u8 cam_ready = _FALSE;
++	u32 cam_data1 = 0;
++	u16 cam_data2 = 0;
++
++	if (RTW_CANNOT_RUN(padapter))
++		return;
++
++	rtw_write32(padapter, REG_MBIDCAMCFG_2, BIT_MBIDCAM_POLL | ((cam_addr & MBIDCAM_ADDR_MASK) << MBIDCAM_ADDR_SHIFT));
++
++	do {
++		if (0 == (rtw_read32(padapter, REG_MBIDCAMCFG_2) & BIT_MBIDCAM_POLL)) {
++			cam_ready = _TRUE;
++			break;
++		}
++		poll++;
++	} while ((poll % 10) != 0 && !RTW_CANNOT_RUN(padapter));
++
++	if (cam_ready) {
++		cam_data1 = rtw_read32(padapter, REG_MBIDCAMCFG_1);
++		mac[0] = cam_data1 & 0xFF;
++		mac[1] = (cam_data1 >> 8) & 0xFF;
++		mac[2] = (cam_data1 >> 16) & 0xFF;
++		mac[3] = (cam_data1 >> 24) & 0xFF;
++
++		cam_data2 = rtw_read16(padapter, REG_MBIDCAMCFG_2);
++		mac[4] = cam_data2 & 0xFF;
++		mac[5] = (cam_data2 >> 8) & 0xFF;
++	}
++
++}
++int rtw_mbid_cam_dump(void *sel, const char *fun_name, _adapter *adapter)
++{
++	/*_irqL irqL;*/
++	u8 i;
++	u8 mac_addr[ETH_ALEN];
++
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++	RTW_PRINT_SEL(sel, "\n== MBSSID HW-CAM DUMP (%s)==\n", fun_name);
++
++	/*_enter_critical_bh(&mbid_cam_ctl->lock, &irqL);*/
++	for (i = 0; i < TOTAL_MBID_CAM_NUM; i++) {
++		RTW_PRINT_SEL(sel, "CAM_ID = %d\t", i);
++		_rtw_memset(mac_addr, 0, ETH_ALEN);
++		read_mbssid_cam(adapter, i, mac_addr);
++		RTW_PRINT_SEL(sel, "MAC Addr:"MAC_FMT"\n", MAC_ARG(mac_addr));
++	}
++	/*_exit_critical_bh(&mbid_cam_ctl->lock, &irqL);*/
++	return 0;
++}
++
++static void write_mbssid_cam(_adapter *padapter, u8 cam_addr, u8 *mac)
++{
++	u32	cam_val[2] = {0};
++
++	cam_val[0] = (mac[3] << 24) | (mac[2] << 16) | (mac[1] << 8) | mac[0];
++	cam_val[1] = ((cam_addr & MBIDCAM_ADDR_MASK) << MBIDCAM_ADDR_SHIFT)  | (mac[5] << 8) | mac[4];
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_MBSSID_CAM_WRITE, (u8 *)cam_val);
++}
++
++static void clear_mbssid_cam(_adapter *padapter, u8 cam_addr)
++{
++	rtw_hal_set_hwreg(padapter, HW_VAR_MBSSID_CAM_CLEAR, &cam_addr);
++}
++static void enable_mbssid_cam(_adapter *adapter)
++{
++	u8 max_cam_id = rtw_get_max_mbid_cam_id(adapter);
++	/*enable MBSSID*/
++	rtw_write32(adapter, REG_RCR, rtw_read32(adapter, REG_RCR) | RCR_ENMBID);
++	if (max_cam_id != INVALID_CAM_ID) {
++		rtw_write8(adapter, REG_MBID_NUM,
++			((rtw_read8(adapter, REG_MBID_NUM) & 0xF8) | (max_cam_id & 0x07)));
++	}
++}
++void rtw_mbid_cam_restore(_adapter *adapter)
++{
++	u8 i;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mbid_cam_ctl_t *mbid_cam_ctl = &dvobj->mbid_cam_ctl;
++
++#ifdef DBG_MBID_CAM_DUMP
++	rtw_mbid_cam_cache_dump(RTW_DBGDUMP, __func__, adapter);
++#endif
++
++	for (i = 0; i < TOTAL_MBID_CAM_NUM; i++) {
++		if (mbid_cam_ctl->bitmap & BIT(i)) {
++			write_mbssid_cam(adapter, i, dvobj->mbid_cam_cache[i].mac_addr);
++			RTW_INFO("%s - cam_id:%d => mac:"MAC_FMT"\n", __func__, i, MAC_ARG(dvobj->mbid_cam_cache[i].mac_addr));
++		}
++	}
++	enable_mbssid_cam(adapter);
++}
++#endif /*CONFIG_MBSSID_CAM*/
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++void rtw_hal_set_macaddr_mbid(_adapter *adapter, u8 *mac_addr)
++{
++
++#if 0 /*TODO - modify for more flexible*/
++	u8 idx = 0;
++
++	if ((check_fwstate(&adapter->mlmepriv, WIFI_STATION_STATE) == _TRUE) &&
++	    (adapter_to_dvobj(adapter)->iface_state.sta_num == 1)) {
++		for (idx = 0; idx < 6; idx++)
++			rtw_write8(GET_PRIMARY_ADAPTER(adapter), (REG_MACID + idx), val[idx]);
++	}  else {
++		/*MBID entry_id = 0~7 ,0 for root AP, 1~7 for VAP*/
++		u8 entry_id;
++
++		if ((check_fwstate(&adapter->mlmepriv, WIFI_AP_STATE) == _TRUE) &&
++		    (adapter_to_dvobj(adapter)->iface_state.ap_num == 1)) {
++			entry_id = 0;
++			if (rtw_mbid_cam_assign(adapter, val, entry_id)) {
++				RTW_INFO(FUNC_ADPT_FMT" Root AP assigned success\n", FUNC_ADPT_ARG(adapter));
++				write_mbssid_cam(adapter, entry_id, val);
++			}
++		} else {
++			entry_id = rtw_mbid_camid_alloc(adapter, val);
++			if (entry_id != INVALID_CAM_ID)
++				write_mbssid_cam(adapter, entry_id, val);
++		}
++	}
++#else
++	{
++		/*
++			MBID entry_id = 0~7 ,for IFACE_ID0 ~ IFACE_IDx
++		*/
++		u8 entry_id = rtw_mbid_camid_alloc(adapter, mac_addr);
++
++
++		if (entry_id != INVALID_CAM_ID) {
++			write_mbssid_cam(adapter, entry_id, mac_addr);
++			enable_mbssid_cam(adapter);
++		}
++	}
++#endif
++}
++
++void rtw_hal_change_macaddr_mbid(_adapter *adapter, u8 *mac_addr)
++{
++	u8 idx = 0;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	u8 entry_id;
++
++	if (!mac_addr) {
++		rtw_warn_on(1);
++		return;
++	}
++
++
++	entry_id = rtw_mbid_cam_info_change(adapter, mac_addr);
++
++	if (entry_id != INVALID_CAM_ID)
++		write_mbssid_cam(adapter, entry_id, mac_addr);
++}
++
++
++#endif/*#ifdef CONFIG_MI_WITH_MBSSID_CAM*/
++
++void rtw_hal_set_macaddr_port(_adapter *adapter, u8 *val)
++{
++	u8 idx = 0;
++	u32 reg_macid = 0;
++
++	if (val == NULL)
++		return;
++
++	RTW_INFO("%s "ADPT_FMT"- hw port(%d) mac_addr ="MAC_FMT"\n",  __func__,
++		 ADPT_ARG(adapter), adapter->hw_port, MAC_ARG(val));
++
++	switch (adapter->hw_port) {
++	case HW_PORT0:
++	default:
++		reg_macid = REG_MACID;
++		break;
++	case HW_PORT1:
++		reg_macid = REG_MACID1;
++		break;
++#if defined(CONFIG_RTL8814A)
++	case HW_PORT2:
++		reg_macid = REG_MACID2;
++		break;
++	case HW_PORT3:
++		reg_macid = REG_MACID3;
++		break;
++	case HW_PORT4:
++		reg_macid = REG_MACID4;
++		break;
++#endif/*defined(CONFIG_RTL8814A)*/
++	}
++
++	for (idx = 0; idx < 6; idx++)
++		rtw_write8(GET_PRIMARY_ADAPTER(adapter), (reg_macid + idx), val[idx]);
++}
++void rtw_hal_get_macaddr_port(_adapter *adapter, u8 *mac_addr)
++{
++	u8 idx = 0;
++	u32 reg_macid = 0;
++
++	if (mac_addr == NULL)
++		return;
++
++	_rtw_memset(mac_addr, 0, ETH_ALEN);
++	switch (adapter->hw_port) {
++	case HW_PORT0:
++	default:
++		reg_macid = REG_MACID;
++		break;
++	case HW_PORT1:
++		reg_macid = REG_MACID1;
++		break;
++#if defined(CONFIG_RTL8814A)
++	case HW_PORT2:
++		reg_macid = REG_MACID2;
++		break;
++	case HW_PORT3:
++		reg_macid = REG_MACID3;
++		break;
++	case HW_PORT4:
++		reg_macid = REG_MACID4;
++		break;
++#endif /*defined(CONFIG_RTL8814A)*/
++	}
++
++	for (idx = 0; idx < 6; idx++)
++		mac_addr[idx] = rtw_read8(GET_PRIMARY_ADAPTER(adapter), (reg_macid + idx));
++
++	RTW_INFO("%s "ADPT_FMT"- hw port(%d) mac_addr ="MAC_FMT"\n",  __func__,
++		 ADPT_ARG(adapter), adapter->hw_port, MAC_ARG(mac_addr));
++}
++
++void rtw_hal_set_bssid(_adapter *adapter, u8 *val)
++{
++	u8	idx = 0;
++	u32 reg_bssid = 0;
++
++	switch (adapter->hw_port) {
++	case HW_PORT0:
++	default:
++		reg_bssid = REG_BSSID;
++		break;
++	case HW_PORT1:
++		reg_bssid = REG_BSSID1;
++		break;
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B)
++	case HW_PORT2:
++		reg_bssid = REG_BSSID2;
++		break;
++	case HW_PORT3:
++		reg_bssid = REG_BSSID3;
++		break;
++	case HW_PORT4:
++		reg_bssid = REG_BSSID4;
++		break;
++#endif/*defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B)*/
++	}
++
++	for (idx = 0 ; idx < 6; idx++)
++		rtw_write8(adapter, (reg_bssid + idx), val[idx]);
++
++	RTW_INFO("%s "ADPT_FMT"- hw port -%d BSSID: "MAC_FMT"\n", __func__, ADPT_ARG(adapter), adapter->hw_port, MAC_ARG(val));
++}
++
++void rtw_hal_get_msr(_adapter *adapter, u8 *net_type)
++{
++	switch (adapter->hw_port) {
++	case HW_PORT0:
++		/*REG_CR - BIT[17:16]-Network Type for port 1*/
++		*net_type = rtw_read8(adapter, MSR) & 0x03;
++		break;
++	case HW_PORT1:
++		/*REG_CR - BIT[19:18]-Network Type for port 1*/
++		*net_type = (rtw_read8(adapter, MSR) & 0x0C) >> 2;
++		break;
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B)
++	case HW_PORT2:
++		/*REG_CR_EXT- BIT[1:0]-Network Type for port 2*/
++		*net_type = rtw_read8(adapter, MSR1) & 0x03;
++		break;
++	case HW_PORT3:
++		/*REG_CR_EXT- BIT[3:2]-Network Type for port 3*/
++		*net_type = (rtw_read8(adapter, MSR1) & 0x0C) >> 2;
++		break;
++	case HW_PORT4:
++		/*REG_CR_EXT- BIT[5:4]-Network Type for port 4*/
++		*net_type = (rtw_read8(adapter, MSR1) & 0x30) >> 4;
++		break;
++#endif /*#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B)*/
++	default:
++		RTW_INFO("[WARN] "ADPT_FMT"- invalid hw port -%d\n",
++			 ADPT_ARG(adapter), adapter->hw_port);
++		rtw_warn_on(1);
++		break;
++	}
++}
++
++void rtw_hal_set_msr(_adapter *adapter, u8 net_type)
++{
++	u8 val8 = 0;
++
++	switch (adapter->hw_port) {
++	case HW_PORT0:
++#if defined(CONFIG_MI_WITH_MBSSID_CAM) && defined(CONFIG_MBSSID_CAM) /*For 2 hw ports - 88E/92E/8812/8821/8723B*/
++		if (rtw_get_mbid_cam_entry_num(adapter)) {
++			if (net_type != _HW_STATE_NOLINK_)
++				net_type = _HW_STATE_AP_;
++		}
++#endif
++		/*REG_CR - BIT[17:16]-Network Type for port 0*/
++		val8 = rtw_read8(adapter, MSR) & 0x0C;
++		val8 |= net_type;
++		rtw_write8(adapter, MSR, val8);
++		break;
++	case HW_PORT1:
++		/*REG_CR - BIT[19:18]-Network Type for port 1*/
++		val8 = rtw_read8(adapter, MSR) & 0x03;
++		val8 |= net_type << 2;
++		rtw_write8(adapter, MSR, val8);
++		break;
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++	case HW_PORT2:
++		/*REG_CR_EXT- BIT[1:0]-Network Type for port 2*/
++		val8 = rtw_read8(adapter, MSR1) & 0xFC;
++		val8 |= net_type;
++		rtw_write8(adapter, MSR1, val8);
++		break;
++	case HW_PORT3:
++		/*REG_CR_EXT- BIT[3:2]-Network Type for port 3*/
++		val8 = rtw_read8(adapter, MSR1) & 0xF3;
++		val8 |= net_type << 2;
++		rtw_write8(adapter, MSR1, val8);
++		break;
++	case HW_PORT4:
++		/*REG_CR_EXT- BIT[5:4]-Network Type for port 4*/
++		val8 = rtw_read8(adapter, MSR1) & 0xCF;
++		val8 |= net_type << 4;
++		rtw_write8(adapter, MSR1, val8);
++		break;
++#endif /* CONFIG_RTL8814A | CONFIG_RTL8822B */
++	default:
++		RTW_INFO("[WARN] "ADPT_FMT"- invalid hw port -%d\n",
++			 ADPT_ARG(adapter), adapter->hw_port);
++		rtw_warn_on(1);
++		break;
++	}
++}
++
++void hw_var_port_switch(_adapter *adapter)
++{
++#ifdef CONFIG_CONCURRENT_MODE
++#ifdef CONFIG_RUNTIME_PORT_SWITCH
++	/*
++	0x102: MSR
++	0x550: REG_BCN_CTRL
++	0x551: REG_BCN_CTRL_1
++	0x55A: REG_ATIMWND
++	0x560: REG_TSFTR
++	0x568: REG_TSFTR1
++	0x570: REG_ATIMWND_1
++	0x610: REG_MACID
++	0x618: REG_BSSID
++	0x700: REG_MACID1
++	0x708: REG_BSSID1
++	*/
++
++	int i;
++	u8 msr;
++	u8 bcn_ctrl;
++	u8 bcn_ctrl_1;
++	u8 atimwnd[2];
++	u8 atimwnd_1[2];
++	u8 tsftr[8];
++	u8 tsftr_1[8];
++	u8 macid[6];
++	u8 bssid[6];
++	u8 macid_1[6];
++	u8 bssid_1[6];
++
++	u8 hw_port;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	_adapter *iface = NULL;
++
++	msr = rtw_read8(adapter, MSR);
++	bcn_ctrl = rtw_read8(adapter, REG_BCN_CTRL);
++	bcn_ctrl_1 = rtw_read8(adapter, REG_BCN_CTRL_1);
++
++	for (i = 0; i < 2; i++)
++		atimwnd[i] = rtw_read8(adapter, REG_ATIMWND + i);
++	for (i = 0; i < 2; i++)
++		atimwnd_1[i] = rtw_read8(adapter, REG_ATIMWND_1 + i);
++
++	for (i = 0; i < 8; i++)
++		tsftr[i] = rtw_read8(adapter, REG_TSFTR + i);
++	for (i = 0; i < 8; i++)
++		tsftr_1[i] = rtw_read8(adapter, REG_TSFTR1 + i);
++
++	for (i = 0; i < 6; i++)
++		macid[i] = rtw_read8(adapter, REG_MACID + i);
++
++	for (i = 0; i < 6; i++)
++		bssid[i] = rtw_read8(adapter, REG_BSSID + i);
++
++	for (i = 0; i < 6; i++)
++		macid_1[i] = rtw_read8(adapter, REG_MACID1 + i);
++
++	for (i = 0; i < 6; i++)
++		bssid_1[i] = rtw_read8(adapter, REG_BSSID1 + i);
++
++#ifdef DBG_RUNTIME_PORT_SWITCH
++	RTW_INFO(FUNC_ADPT_FMT" before switch\n"
++		 "msr:0x%02x\n"
++		 "bcn_ctrl:0x%02x\n"
++		 "bcn_ctrl_1:0x%02x\n"
++		 "atimwnd:0x%04x\n"
++		 "atimwnd_1:0x%04x\n"
++		 "tsftr:%llu\n"
++		 "tsftr1:%llu\n"
++		 "macid:"MAC_FMT"\n"
++		 "bssid:"MAC_FMT"\n"
++		 "macid_1:"MAC_FMT"\n"
++		 "bssid_1:"MAC_FMT"\n"
++		 , FUNC_ADPT_ARG(adapter)
++		 , msr
++		 , bcn_ctrl
++		 , bcn_ctrl_1
++		 , *((u16 *)atimwnd)
++		 , *((u16 *)atimwnd_1)
++		 , *((u64 *)tsftr)
++		 , *((u64 *)tsftr_1)
++		 , MAC_ARG(macid)
++		 , MAC_ARG(bssid)
++		 , MAC_ARG(macid_1)
++		 , MAC_ARG(bssid_1)
++		);
++#endif /* DBG_RUNTIME_PORT_SWITCH */
++
++	/* disable bcn function, disable update TSF */
++	rtw_write8(adapter, REG_BCN_CTRL, (bcn_ctrl & (~EN_BCN_FUNCTION)) | DIS_TSF_UDT);
++	rtw_write8(adapter, REG_BCN_CTRL_1, (bcn_ctrl_1 & (~EN_BCN_FUNCTION)) | DIS_TSF_UDT);
++
++	/* switch msr */
++	msr = (msr & 0xf0) | ((msr & 0x03) << 2) | ((msr & 0x0c) >> 2);
++	rtw_write8(adapter, MSR, msr);
++
++	/* write port0 */
++	rtw_write8(adapter, REG_BCN_CTRL, bcn_ctrl_1 & ~EN_BCN_FUNCTION);
++	for (i = 0; i < 2; i++)
++		rtw_write8(adapter, REG_ATIMWND + i, atimwnd_1[i]);
++	for (i = 0; i < 8; i++)
++		rtw_write8(adapter, REG_TSFTR + i, tsftr_1[i]);
++	for (i = 0; i < 6; i++)
++		rtw_write8(adapter, REG_MACID + i, macid_1[i]);
++	for (i = 0; i < 6; i++)
++		rtw_write8(adapter, REG_BSSID + i, bssid_1[i]);
++
++	/* write port1 */
++	rtw_write8(adapter, REG_BCN_CTRL_1, bcn_ctrl & ~EN_BCN_FUNCTION);
++	for (i = 0; i < 2; i++)
++		rtw_write8(adapter, REG_ATIMWND_1 + i, atimwnd[i]);
++	for (i = 0; i < 8; i++)
++		rtw_write8(adapter, REG_TSFTR1 + i, tsftr[i]);
++	for (i = 0; i < 6; i++)
++		rtw_write8(adapter, REG_MACID1 + i, macid[i]);
++	for (i = 0; i < 6; i++)
++		rtw_write8(adapter, REG_BSSID1 + i, bssid[i]);
++
++	/* write bcn ctl */
++#ifdef CONFIG_BT_COEXIST
++	/* always enable port0 beacon function for PSTDMA */
++	if (IS_HARDWARE_TYPE_8723B(adapter) || IS_HARDWARE_TYPE_8703B(adapter)
++	    || IS_HARDWARE_TYPE_8723D(adapter))
++		bcn_ctrl_1 |= EN_BCN_FUNCTION;
++	/* always disable port1 beacon function for PSTDMA */
++	if (IS_HARDWARE_TYPE_8723B(adapter) || IS_HARDWARE_TYPE_8703B(adapter))
++		bcn_ctrl &= ~EN_BCN_FUNCTION;
++#endif
++	rtw_write8(adapter, REG_BCN_CTRL, bcn_ctrl_1);
++	rtw_write8(adapter, REG_BCN_CTRL_1, bcn_ctrl);
++
++	if (adapter->iface_id == IFACE_ID0)
++		iface = dvobj->padapters[IFACE_ID1];
++	else if (adapter->iface_id == IFACE_ID1)
++		iface = dvobj->padapters[IFACE_ID0];
++
++
++	if (adapter->hw_port == HW_PORT0) {
++		adapter->hw_port = HW_PORT1;
++		iface->hw_port = HW_PORT0;
++		RTW_PRINT("port switch - port0("ADPT_FMT"), port1("ADPT_FMT")\n",
++			  ADPT_ARG(iface), ADPT_ARG(adapter));
++	} else {
++		adapter->hw_port = HW_PORT0;
++		iface->hw_port = HW_PORT1;
++		RTW_PRINT("port switch - port0("ADPT_FMT"), port1("ADPT_FMT")\n",
++			  ADPT_ARG(adapter), ADPT_ARG(iface));
++	}
++
++#ifdef DBG_RUNTIME_PORT_SWITCH
++	msr = rtw_read8(adapter, MSR);
++	bcn_ctrl = rtw_read8(adapter, REG_BCN_CTRL);
++	bcn_ctrl_1 = rtw_read8(adapter, REG_BCN_CTRL_1);
++
++	for (i = 0; i < 2; i++)
++		atimwnd[i] = rtw_read8(adapter, REG_ATIMWND + i);
++	for (i = 0; i < 2; i++)
++		atimwnd_1[i] = rtw_read8(adapter, REG_ATIMWND_1 + i);
++
++	for (i = 0; i < 8; i++)
++		tsftr[i] = rtw_read8(adapter, REG_TSFTR + i);
++	for (i = 0; i < 8; i++)
++		tsftr_1[i] = rtw_read8(adapter, REG_TSFTR1 + i);
++
++	for (i = 0; i < 6; i++)
++		macid[i] = rtw_read8(adapter, REG_MACID + i);
++
++	for (i = 0; i < 6; i++)
++		bssid[i] = rtw_read8(adapter, REG_BSSID + i);
++
++	for (i = 0; i < 6; i++)
++		macid_1[i] = rtw_read8(adapter, REG_MACID1 + i);
++
++	for (i = 0; i < 6; i++)
++		bssid_1[i] = rtw_read8(adapter, REG_BSSID1 + i);
++
++	RTW_INFO(FUNC_ADPT_FMT" after switch\n"
++		 "msr:0x%02x\n"
++		 "bcn_ctrl:0x%02x\n"
++		 "bcn_ctrl_1:0x%02x\n"
++		 "atimwnd:%u\n"
++		 "atimwnd_1:%u\n"
++		 "tsftr:%llu\n"
++		 "tsftr1:%llu\n"
++		 "macid:"MAC_FMT"\n"
++		 "bssid:"MAC_FMT"\n"
++		 "macid_1:"MAC_FMT"\n"
++		 "bssid_1:"MAC_FMT"\n"
++		 , FUNC_ADPT_ARG(adapter)
++		 , msr
++		 , bcn_ctrl
++		 , bcn_ctrl_1
++		 , *((u16 *)atimwnd)
++		 , *((u16 *)atimwnd_1)
++		 , *((u64 *)tsftr)
++		 , *((u64 *)tsftr_1)
++		 , MAC_ARG(macid)
++		 , MAC_ARG(bssid)
++		 , MAC_ARG(macid_1)
++		 , MAC_ARG(bssid_1)
++		);
++#endif /* DBG_RUNTIME_PORT_SWITCH */
++
++#endif /* CONFIG_RUNTIME_PORT_SWITCH */
++#endif /* CONFIG_CONCURRENT_MODE */
++}
++
++const char *const _h2c_msr_role_str[] = {
++	"RSVD",
++	"STA",
++	"AP",
++	"GC",
++	"GO",
++	"TDLS",
++	"ADHOC",
++	"INVALID",
++};
++
++/*
++* rtw_hal_set_FwMediaStatusRpt_cmd -
++*
++* @adapter:
++* @opmode:  0:disconnect, 1:connect
++* @miracast: 0:it's not in miracast scenario. 1:it's in miracast scenario
++* @miracast_sink: 0:source. 1:sink
++* @role: The role of this macid. 0:rsvd. 1:STA. 2:AP. 3:GC. 4:GO. 5:TDLS
++* @macid:
++* @macid_ind:  0:update Media Status to macid.  1:update Media Status from macid to macid_end
++* @macid_end:
++*/
++s32 rtw_hal_set_FwMediaStatusRpt_cmd(_adapter *adapter, bool opmode, bool miracast, bool miracast_sink, u8 role, u8 macid, bool macid_ind, u8 macid_end)
++{
++	struct macid_ctl_t *macid_ctl = &adapter->dvobj->macid_ctl;
++	u8 parm[H2C_MEDIA_STATUS_RPT_LEN] = {0};
++	int i;
++	s32 ret;
++
++	SET_H2CCMD_MSRRPT_PARM_OPMODE(parm, opmode);
++	SET_H2CCMD_MSRRPT_PARM_MACID_IND(parm, macid_ind);
++	SET_H2CCMD_MSRRPT_PARM_MIRACAST(parm, miracast);
++	SET_H2CCMD_MSRRPT_PARM_MIRACAST_SINK(parm, miracast_sink);
++	SET_H2CCMD_MSRRPT_PARM_ROLE(parm, role);
++	SET_H2CCMD_MSRRPT_PARM_MACID(parm, macid);
++	SET_H2CCMD_MSRRPT_PARM_MACID_END(parm, macid_end);
++
++	RTW_DBG_DUMP("MediaStatusRpt parm:", parm, H2C_MEDIA_STATUS_RPT_LEN);
++
++#ifdef CONFIG_DFS_MASTER
++	/* workaround for TXPAUSE cleared issue by FW's MediaStatusRpt handling */
++	if (macid_ind == 0 && macid == 1) {
++		u8 parm0_bak = parm[0];
++
++		SET_H2CCMD_MSRRPT_PARM_MACID_IND(&parm0_bak, 0);
++		if (macid_ctl->h2c_msr[macid] == parm0_bak) {
++			ret = _SUCCESS;
++			goto post_action;
++		}
++	}
++#endif
++
++	ret = rtw_hal_fill_h2c_cmd(adapter, H2C_MEDIA_STATUS_RPT, H2C_MEDIA_STATUS_RPT_LEN, parm);
++	if (ret != _SUCCESS)
++		goto exit;
++
++#ifdef CONFIG_DFS_MASTER
++post_action:
++#endif
++
++#if defined(CONFIG_RTL8188E)
++	if (rtw_get_chip_type(adapter) == RTL8188E) {
++		HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++
++		/* 8188E FW doesn't set macid no link, driver does it by self */
++		if (opmode)
++			rtw_hal_set_hwreg(adapter, HW_VAR_MACID_LINK, &macid);
++		else
++			rtw_hal_set_hwreg(adapter, HW_VAR_MACID_NOLINK, &macid);
++
++		/* for 8188E RA */
++#if (RATE_ADAPTIVE_SUPPORT == 1)
++		if (hal_data->fw_ractrl == _FALSE) {
++			u8 max_macid;
++
++			max_macid = rtw_search_max_mac_id(adapter);
++			rtw_hal_set_hwreg(adapter, HW_VAR_TX_RPT_MAX_MACID, &max_macid);
++		}
++#endif
++	}
++#endif
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++	/* TODO: this should move to IOT issue area */
++	if (rtw_get_chip_type(adapter) == RTL8812
++		|| rtw_get_chip_type(adapter) == RTL8821
++	) {
++		if (MLME_IS_STA(adapter))
++			Hal_PatchwithJaguar_8812(adapter, opmode);
++	}
++#endif
++
++	SET_H2CCMD_MSRRPT_PARM_MACID_IND(parm, 0);
++	if (macid_ind == 0)
++		macid_end = macid;
++
++	for (i = macid; macid <= macid_end; macid++) {
++		rtw_macid_ctl_set_h2c_msr(macid_ctl, macid, parm[0]);
++		if (!opmode) {
++			rtw_macid_ctl_set_bw(macid_ctl, macid, CHANNEL_WIDTH_20);
++			rtw_macid_ctl_set_vht_en(macid_ctl, macid, 0);
++			rtw_macid_ctl_set_rate_bmp0(macid_ctl, macid, 0);
++			rtw_macid_ctl_set_rate_bmp1(macid_ctl, macid, 0);
++		}
++	}
++	if (!opmode)
++		rtw_update_tx_rate_bmp(adapter_to_dvobj(adapter));
++
++exit:
++	return ret;
++}
++
++inline s32 rtw_hal_set_FwMediaStatusRpt_single_cmd(_adapter *adapter, bool opmode, bool miracast, bool miracast_sink, u8 role, u8 macid)
++{
++	return rtw_hal_set_FwMediaStatusRpt_cmd(adapter, opmode, miracast, miracast_sink, role, macid, 0, 0);
++}
++
++inline s32 rtw_hal_set_FwMediaStatusRpt_range_cmd(_adapter *adapter, bool opmode, bool miracast, bool miracast_sink, u8 role, u8 macid, u8 macid_end)
++{
++	return rtw_hal_set_FwMediaStatusRpt_cmd(adapter, opmode, miracast, miracast_sink, role, macid, 1, macid_end);
++}
++
++void rtw_hal_set_FwRsvdPage_cmd(PADAPTER padapter, PRSVDPAGE_LOC rsvdpageloc)
++{
++	struct	hal_ops *pHalFunc = &padapter->HalFunc;
++	u8	u1H2CRsvdPageParm[H2C_RSVDPAGE_LOC_LEN] = {0};
++	u8	ret = 0;
++
++	RTW_INFO("RsvdPageLoc: ProbeRsp=%d PsPoll=%d Null=%d QoSNull=%d BTNull=%d\n",
++		 rsvdpageloc->LocProbeRsp, rsvdpageloc->LocPsPoll,
++		 rsvdpageloc->LocNullData, rsvdpageloc->LocQosNull,
++		 rsvdpageloc->LocBTQosNull);
++
++	SET_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(u1H2CRsvdPageParm, rsvdpageloc->LocProbeRsp);
++	SET_H2CCMD_RSVDPAGE_LOC_PSPOLL(u1H2CRsvdPageParm, rsvdpageloc->LocPsPoll);
++	SET_H2CCMD_RSVDPAGE_LOC_NULL_DATA(u1H2CRsvdPageParm, rsvdpageloc->LocNullData);
++	SET_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(u1H2CRsvdPageParm, rsvdpageloc->LocQosNull);
++	SET_H2CCMD_RSVDPAGE_LOC_BT_QOS_NULL_DATA(u1H2CRsvdPageParm, rsvdpageloc->LocBTQosNull);
++
++	ret = rtw_hal_fill_h2c_cmd(padapter,
++				   H2C_RSVD_PAGE,
++				   H2C_RSVDPAGE_LOC_LEN,
++				   u1H2CRsvdPageParm);
++
++}
++
++#ifdef CONFIG_GPIO_WAKEUP
++void rtw_hal_switch_gpio_wl_ctrl(_adapter *padapter, u8 index, u8 enable)
++{
++	/*
++	* Switch GPIO_13, GPIO_14 to wlan control, or pull GPIO_13,14 MUST fail.
++	* It happended at 8723B/8192E/8821A. New IC will check multi function GPIO,
++	* and implement HAL function.
++	* TODO: GPIO_8 multi function?
++	*/
++	if (index == 13 || index == 14)
++		rtw_hal_set_hwreg(padapter, HW_SET_GPIO_WL_CTRL, (u8 *)(&enable));
++}
++
++void rtw_hal_set_output_gpio(_adapter *padapter, u8 index, u8 outputval)
++{
++	if (index <= 7) {
++		/* config GPIO mode */
++		rtw_write8(padapter, REG_GPIO_PIN_CTRL + 3,
++			rtw_read8(padapter, REG_GPIO_PIN_CTRL + 3) & ~BIT(index));
++
++		/* config GPIO Sel */
++		/* 0: input */
++		/* 1: output */
++		rtw_write8(padapter, REG_GPIO_PIN_CTRL + 2,
++			rtw_read8(padapter, REG_GPIO_PIN_CTRL + 2) | BIT(index));
++
++		/* set output value */
++		if (outputval) {
++			rtw_write8(padapter, REG_GPIO_PIN_CTRL + 1,
++				rtw_read8(padapter, REG_GPIO_PIN_CTRL + 1) | BIT(index));
++		} else {
++			rtw_write8(padapter, REG_GPIO_PIN_CTRL + 1,
++				rtw_read8(padapter, REG_GPIO_PIN_CTRL + 1) & ~BIT(index));
++		}
++	} else if (index <= 15) {
++		/* 88C Series: */
++		/* index: 11~8 transform to 3~0 */
++		/* 8723 Series: */
++		/* index: 12~8 transform to 4~0 */
++
++		index -= 8;
++
++		/* config GPIO mode */
++		rtw_write8(padapter, REG_GPIO_PIN_CTRL_2 + 3,
++			rtw_read8(padapter, REG_GPIO_PIN_CTRL_2 + 3) & ~BIT(index));
++
++		/* config GPIO Sel */
++		/* 0: input */
++		/* 1: output */
++		rtw_write8(padapter, REG_GPIO_PIN_CTRL_2 + 2,
++			rtw_read8(padapter, REG_GPIO_PIN_CTRL_2 + 2) | BIT(index));
++
++		/* set output value */
++		if (outputval) {
++			rtw_write8(padapter, REG_GPIO_PIN_CTRL_2 + 1,
++				rtw_read8(padapter, REG_GPIO_PIN_CTRL_2 + 1) | BIT(index));
++		} else {
++			rtw_write8(padapter, REG_GPIO_PIN_CTRL_2 + 1,
++				rtw_read8(padapter, REG_GPIO_PIN_CTRL_2 + 1) & ~BIT(index));
++		}
++	} else {
++		RTW_INFO("%s: invalid GPIO%d=%d\n",
++			 __FUNCTION__, index, outputval);
++	}
++}
++#endif
++
++void rtw_hal_set_FwAoacRsvdPage_cmd(PADAPTER padapter, PRSVDPAGE_LOC rsvdpageloc)
++{
++	struct	hal_ops *pHalFunc = &padapter->HalFunc;
++	struct	pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	u8	res = 0, count = 0, ret = 0;
++#ifdef CONFIG_WOWLAN
++	u8 u1H2CAoacRsvdPageParm[H2C_AOAC_RSVDPAGE_LOC_LEN] = {0};
++
++	RTW_INFO("AOACRsvdPageLoc: RWC=%d ArpRsp=%d NbrAdv=%d GtkRsp=%d GtkInfo=%d ProbeReq=%d NetworkList=%d\n",
++		 rsvdpageloc->LocRemoteCtrlInfo, rsvdpageloc->LocArpRsp,
++		 rsvdpageloc->LocNbrAdv, rsvdpageloc->LocGTKRsp,
++		 rsvdpageloc->LocGTKInfo, rsvdpageloc->LocProbeReq,
++		 rsvdpageloc->LocNetList);
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED)) {
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_REMOTE_WAKE_CTRL_INFO(u1H2CAoacRsvdPageParm, rsvdpageloc->LocRemoteCtrlInfo);
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_ARP_RSP(u1H2CAoacRsvdPageParm, rsvdpageloc->LocArpRsp);
++		/* SET_H2CCMD_AOAC_RSVDPAGE_LOC_NEIGHBOR_ADV(u1H2CAoacRsvdPageParm, rsvdpageloc->LocNbrAdv); */
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_GTK_RSP(u1H2CAoacRsvdPageParm, rsvdpageloc->LocGTKRsp);
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_GTK_INFO(u1H2CAoacRsvdPageParm, rsvdpageloc->LocGTKInfo);
++#ifdef CONFIG_GTK_OL
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_GTK_EXT_MEM(u1H2CAoacRsvdPageParm, rsvdpageloc->LocGTKEXTMEM);
++#endif /* CONFIG_GTK_OL */
++		ret = rtw_hal_fill_h2c_cmd(padapter,
++					   H2C_AOAC_RSVD_PAGE,
++					   H2C_AOAC_RSVDPAGE_LOC_LEN,
++					   u1H2CAoacRsvdPageParm);
++#ifdef CONFIG_WOW_PATTERN_HW_CAM
++		RTW_INFO("AOAC Report=%d\n", rsvdpageloc->LocAOACReport);
++		_rtw_memset(&u1H2CAoacRsvdPageParm, 0, sizeof(u1H2CAoacRsvdPageParm));
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_AOAC_REPORT(u1H2CAoacRsvdPageParm,
++					 rsvdpageloc->LocAOACReport);
++		ret = rtw_hal_fill_h2c_cmd(padapter,
++				   H2C_AOAC_RSVDPAGE3,
++				   H2C_AOAC_RSVDPAGE_LOC_LEN,
++				   u1H2CAoacRsvdPageParm);
++		pwrpriv->wowlan_aoac_rpt_loc = rsvdpageloc->LocAOACReport;
++#endif
++	}
++#ifdef CONFIG_PNO_SUPPORT
++	else {
++
++		if (!pwrpriv->pno_in_resume) {
++			RTW_INFO("NLO_INFO=%d\n", rsvdpageloc->LocPNOInfo);
++			_rtw_memset(&u1H2CAoacRsvdPageParm, 0,
++				    sizeof(u1H2CAoacRsvdPageParm));
++			SET_H2CCMD_AOAC_RSVDPAGE_LOC_NLO_INFO(u1H2CAoacRsvdPageParm,
++						      rsvdpageloc->LocPNOInfo);
++			ret = rtw_hal_fill_h2c_cmd(padapter,
++						   H2C_AOAC_RSVDPAGE3,
++						   H2C_AOAC_RSVDPAGE_LOC_LEN,
++						   u1H2CAoacRsvdPageParm);
++		}
++	}
++#endif /* CONFIG_PNO_SUPPORT */
++#endif /* CONFIG_WOWLAN */
++}
++
++#ifdef CONFIG_SUPPORT_FIFO_DUMP
++#include "../../hal/hal_halmac.h"
++
++/*#define DBG_GET_RSVD_PAGE*/
++int rtw_hal_get_rsvd_page(_adapter *adapter, u32 page_offset, u32 page_num, u8 *buffer, u32 buffer_size)
++{
++	u32 addr, size;
++	u32	page_size = 0;
++	int rst = -1;
++
++	rtw_hal_get_def_var(adapter, HAL_DEF_TX_PAGE_SIZE, &page_size);
++
++	addr = page_offset * page_size;
++	size = page_num * page_size;
++
++	if (buffer_size < size) {
++		RTW_ERR("%s buffer_size(%d) < get page total size(%d)\n", __func__, buffer_size, size);
++		return rst;
++	}
++	rst = rtw_halmac_dump_fifo(adapter_to_dvobj(adapter), 2, addr, size, buffer);
++
++	#ifdef DBG_GET_RSVD_PAGE
++	{
++		RTW_INFO("%s [page_offset:%d , page_num:%d][start_addr:0x%04x , size:%d]\n", __func__, page_offset, page_num, addr, size);
++		RTW_INFO_DUMP("\n", buffer, size);
++		RTW_INFO(" ==================================================\n");
++	}
++	#endif
++	return rst;
++}
++#endif
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++static void rtw_hal_force_enable_rxdma(_adapter *adapter)
++{
++	RTW_INFO("%s: Set 0x690=0x00\n", __func__);
++	rtw_write8(adapter, REG_WOW_CTRL,
++		   (rtw_read8(adapter, REG_WOW_CTRL) & 0xf0));
++	RTW_PRINT("%s: Release RXDMA\n", __func__);
++	rtw_write32(adapter, REG_RXPKT_NUM,
++		    (rtw_read32(adapter, REG_RXPKT_NUM) & (~RW_RELEASE_EN)));
++}
++#if defined(CONFIG_RTL8188E)
++static void rtw_hal_disable_tx_report(_adapter *adapter)
++{
++	rtw_write8(adapter, REG_TX_RPT_CTRL,
++		   ((rtw_read8(adapter, REG_TX_RPT_CTRL) & ~BIT(1))) & ~BIT(5));
++	RTW_INFO("disable TXRPT:0x%02x\n", rtw_read8(adapter, REG_TX_RPT_CTRL));
++}
++
++static void rtw_hal_enable_tx_report(_adapter *adapter)
++{
++	rtw_write8(adapter, REG_TX_RPT_CTRL,
++		   ((rtw_read8(adapter, REG_TX_RPT_CTRL) | BIT(1))) | BIT(5));
++	RTW_INFO("enable TX_RPT:0x%02x\n", rtw_read8(adapter, REG_TX_RPT_CTRL));
++}
++#endif
++static void rtw_hal_release_rx_dma(_adapter *adapter)
++{
++	u32 val32 = 0;
++
++	val32 = rtw_read32(adapter, REG_RXPKT_NUM);
++
++	rtw_write32(adapter, REG_RXPKT_NUM, (val32 & (~RW_RELEASE_EN)));
++
++	RTW_INFO("%s, [0x%04x]: 0x%08x\n",
++		 __func__, REG_RXPKT_NUM, (val32 & (~RW_RELEASE_EN)));
++}
++
++static u8 rtw_hal_pause_rx_dma(_adapter *adapter)
++{
++	PHAL_DATA_TYPE hal = GET_HAL_DATA(adapter);
++	u8 ret = 0;
++	s8 trycnt = 100;
++	u32 tmp = 0;
++	int res = 0;
++	/* RX DMA stop */
++	RTW_PRINT("Pause DMA\n");
++	rtw_write32(adapter, REG_RXPKT_NUM,
++		    (rtw_read32(adapter, REG_RXPKT_NUM) | RW_RELEASE_EN));
++	do {
++		if ((rtw_read32(adapter, REG_RXPKT_NUM) & RXDMA_IDLE)) {
++#ifdef CONFIG_USB_HCI
++			/* stop interface before leave */
++			if (_TRUE == hal->usb_intf_start) {
++				rtw_intf_stop(adapter);
++				RTW_ENABLE_FUNC(adapter, DF_RX_BIT);
++				RTW_ENABLE_FUNC(adapter, DF_TX_BIT);
++			}
++#endif /* CONFIG_USB_HCI */
++
++			RTW_PRINT("RX_DMA_IDLE is true\n");
++			ret = _SUCCESS;
++			break;
++		}
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		else {
++			res = RecvOnePkt(adapter);
++			RTW_PRINT("RecvOnePkt Result: %d\n", res);
++		}
++#endif /* CONFIG_SDIO_HCI || CONFIG_GSPI_HCI */
++
++#ifdef CONFIG_USB_HCI
++		else {
++			/* to avoid interface start repeatedly  */
++			if (_FALSE == hal->usb_intf_start)
++				rtw_intf_start(adapter);
++		}
++#endif /* CONFIG_USB_HCI */
++	} while (trycnt--);
++
++	if (trycnt < 0) {
++		tmp = rtw_read16(adapter, REG_RXPKT_NUM + 3);
++
++		RTW_PRINT("Stop RX DMA failed......\n");
++		RTW_PRINT("%s, RXPKT_NUM: 0x%04x\n",
++			  __func__, tmp);
++		tmp = rtw_read16(adapter, REG_RXPKT_NUM + 2);
++		if (tmp & BIT(3))
++			RTW_PRINT("%s, RX DMA has req\n",
++				  __func__);
++		else
++			RTW_PRINT("%s, RX DMA no req\n",
++				  __func__);
++		ret = _FAIL;
++	}
++
++	return ret;
++}
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++#ifndef RTW_HALMAC
++static u8 rtw_hal_enable_cpwm2(_adapter *adapter)
++{
++	u8 ret = 0;
++	int res = 0;
++	u32 tmp = 0;
++
++	RTW_PRINT("%s\n", __func__);
++
++	res = sdio_local_read(adapter, SDIO_REG_HIMR, 4, (u8 *)&tmp);
++	if (!res)
++		RTW_INFO("read SDIO_REG_HIMR: 0x%08x\n", tmp);
++	else
++		RTW_INFO("sdio_local_read fail\n");
++
++	tmp = SDIO_HIMR_CPWM2_MSK;
++
++	res = sdio_local_write(adapter, SDIO_REG_HIMR, 4, (u8 *)&tmp);
++
++	if (!res) {
++		res = sdio_local_read(adapter, SDIO_REG_HIMR, 4, (u8 *)&tmp);
++		RTW_INFO("read again SDIO_REG_HIMR: 0x%08x\n", tmp);
++		ret = _SUCCESS;
++	} else {
++		RTW_INFO("sdio_local_write fail\n");
++		ret = _FAIL;
++	}
++	return ret;
++}
++#endif
++#endif /* CONFIG_SDIO_HCI, CONFIG_GSPI_HCI */
++#endif /* CONFIG_WOWLAN || CONFIG_AP_WOWLAN */
++
++#ifdef CONFIG_WOWLAN
++/*
++ * rtw_hal_check_wow_ctrl
++ * chk_type: _TRUE means to check enable, if 0x690 & bit1, WOW enable successful
++ *		     _FALSE means to check disable, if 0x690 & bit1, WOW disable fail
++ */
++static u8 rtw_hal_check_wow_ctrl(_adapter *adapter, u8 chk_type)
++{
++	u8 mstatus = 0;
++	u8 trycnt = 25;
++	u8 res = _FALSE;
++
++	mstatus = rtw_read8(adapter, REG_WOW_CTRL);
++	RTW_INFO("%s mstatus:0x%02x\n", __func__, mstatus);
++
++	if (chk_type) {
++		while (!(mstatus & BIT1) && trycnt > 1) {
++			mstatus = rtw_read8(adapter, REG_WOW_CTRL);
++			RTW_PRINT("Loop index: %d :0x%02x\n",
++				  trycnt, mstatus);
++			trycnt--;
++			rtw_msleep_os(20);
++		}
++		if (mstatus & BIT1)
++			res = _TRUE;
++		else
++			res = _FALSE;
++	} else {
++		while (mstatus & BIT1 && trycnt > 1) {
++			mstatus = rtw_read8(adapter, REG_WOW_CTRL);
++			RTW_PRINT("Loop index: %d :0x%02x\n",
++				  trycnt, mstatus);
++			trycnt--;
++			rtw_msleep_os(20);
++		}
++
++		if (mstatus & BIT1)
++			res = _FALSE;
++		else
++			res = _TRUE;
++	}
++	RTW_PRINT("%s check_type: %d res: %d trycnt: %d\n",
++		  __func__, chk_type, res, (25 - trycnt));
++	return res;
++}
++
++#ifdef CONFIG_PNO_SUPPORT
++static u8 rtw_hal_check_pno_enabled(_adapter *adapter)
++{
++	struct pwrctrl_priv *ppwrpriv = adapter_to_pwrctl(adapter);
++	u8 res = 0, count = 0;
++	u8 ret = _FALSE;
++
++	if (ppwrpriv->wowlan_pno_enable && ppwrpriv->pno_in_resume == _FALSE) {
++		res = rtw_read8(adapter, REG_PNO_STATUS);
++		while (!(res & BIT(7)) && count < 25) {
++			RTW_INFO("[%d] cmd: 0x81 REG_PNO_STATUS: 0x%02x\n",
++				 count, res);
++			res = rtw_read8(adapter, REG_PNO_STATUS);
++			count++;
++			rtw_msleep_os(2);
++		}
++		if (res & BIT(7))
++			ret = _TRUE;
++		else
++			ret = _FALSE;
++		RTW_INFO("cmd: 0x81 REG_PNO_STATUS: ret(%d)\n", ret);
++	}
++	return ret;
++}
++#endif
++
++static void rtw_hal_backup_rate(_adapter *adapter)
++{
++	RTW_INFO("%s\n", __func__);
++	/* backup data rate to register 0x8b for wowlan FW */
++	rtw_write8(adapter, 0x8d, 1);
++	rtw_write8(adapter, 0x8c, 0);
++	rtw_write8(adapter, 0x8f, 0x40);
++	rtw_write8(adapter, 0x8b, rtw_read8(adapter, 0x2f0));
++}
++
++#ifdef CONFIG_GTK_OL
++static void rtw_hal_fw_sync_cam_id(_adapter *adapter)
++{
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	int cam_id, index = 0;
++	u8 *addr = NULL;
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		return;
++
++	addr = get_bssid(pmlmepriv);
++
++	if (addr == NULL) {
++		RTW_INFO("%s: get bssid MAC addr fail!!\n", __func__);
++		return;
++	}
++
++	rtw_clean_dk_section(adapter);
++
++	do {
++		cam_id = rtw_camid_search(adapter, addr, index, 1);
++
++		if (cam_id == -1)
++			RTW_INFO("%s: cam_id: %d, key_id:%d\n", __func__, cam_id, index);
++		else
++			rtw_sec_cam_swap(adapter, cam_id, index);
++
++		index++;
++	} while (index < 4);
++
++	rtw_write8(adapter, REG_SECCFG, 0xcc);
++}
++
++#ifndef CONFIG_WOW_PATTERN_HW_CAM
++static void rtw_hal_update_gtk_offload_info(_adapter *adapter)
++{
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++	u8 get_key[16];
++	u8 gtk_keyindex = 0;
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		return;
++
++	_rtw_memset(get_key, 0, sizeof(get_key));
++
++	if (psecuritypriv->binstallKCK_KEK == _TRUE) {
++
++		/*read gtk key index*/
++		gtk_keyindex = rtw_read8(adapter, 0x48c);
++
++		if (gtk_keyindex > 4) {
++			RTW_INFO("%s [ERROR] gtk_keyindex:%d invalid\n", __func__, gtk_keyindex);
++			rtw_warn_on(1);
++			return;
++		}
++		/*read key from sec-cam,for DK ,keyindex is equal to cam-id*/
++		rtw_sec_read_cam_ent(adapter, gtk_keyindex, NULL, NULL, get_key);
++
++		/*update key into related sw variable and sec-cam cache*/
++		psecuritypriv->dot118021XGrpKeyid = gtk_keyindex;
++		_rtw_memcpy(psecuritypriv->dot118021XGrpKey[gtk_keyindex].skey, get_key, 16);
++
++		rtw_clean_hw_dk_cam(adapter);
++		if (_rtw_camid_is_gk(adapter, gtk_keyindex)) {
++			_enter_critical_bh(&cam_ctl->lock, &irqL);
++			_rtw_memcpy(&dvobj->cam_cache[gtk_keyindex].key, get_key, 16);
++			_exit_critical_bh(&cam_ctl->lock, &irqL);
++		} else {
++			struct setkey_parm aes_gtk;
++
++			aes_gtk.algorithm = _AES_;
++			aes_gtk.keyid = gtk_keyindex;
++			_rtw_memcpy(aes_gtk.key, get_key, 16);
++			setkey_hdl(adapter, (u8 *)&aes_gtk);
++		}
++		rtw_clean_dk_section(adapter);
++
++		RTW_PRINT("GTK (%d) "KEY_FMT"\n",
++			  gtk_keyindex,
++			KEY_ARG(psecuritypriv->dot118021XGrpKey[gtk_keyindex].skey));
++
++		rtw_write8(adapter, REG_SECCFG, 0x0c);
++
++		#ifdef CONFIG_GTK_OL_DBG
++		/* if (gtk_keyindex != 5) */
++		dump_sec_cam(RTW_DBGDUMP, adapter);
++		dump_sec_cam_cache(RTW_DBGDUMP, adapter);
++		#endif
++	}
++}
++#else
++static void rtw_hal_update_gtk_offload_info(_adapter *adapter)
++{
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(adapter);
++	struct aoac_report *aoac_rpt = &pwrctl->wowlan_aoac_rpt;
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	_irqL irqL;
++	u8 gtk_keyindex = aoac_rpt->key_index;
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		return;
++
++	if (	(pwrctl->wowlan_wake_reason == RX_DISASSOC) ||
++		(pwrctl->wowlan_wake_reason == RX_DEAUTH) ||
++		(pwrctl->wowlan_wake_reason == FW_DECISION_DISCONNECT)) {
++		RTW_INFO(ADPT_FMT "- wake up reason(0x%02x), don't need to update GTK info\n", ADPT_ARG(adapter), pwrctl->wowlan_wake_reason);
++		return;
++	}
++
++	if (psecuritypriv->binstallKCK_KEK == _TRUE) {
++
++		if (gtk_keyindex > 4) {
++			RTW_INFO("%s [ERROR] gtk_keyindex:%d invalid\n", __func__, gtk_keyindex);
++			rtw_warn_on(1);
++			return;
++		}
++
++		/*update key into related sw variable and sec-cam cache*/
++		psecuritypriv->dot118021XGrpKeyid = gtk_keyindex;
++		_rtw_memcpy(psecuritypriv->dot118021XGrpKey[gtk_keyindex].skey, aoac_rpt->group_key, 16);
++		rtw_clean_hw_dk_cam(adapter);
++		if (_rtw_camid_is_gk(adapter, gtk_keyindex)) {
++			_enter_critical_bh(&cam_ctl->lock, &irqL);
++			_rtw_memcpy(&dvobj->cam_cache[gtk_keyindex].key, aoac_rpt->group_key, 16);
++			_exit_critical_bh(&cam_ctl->lock, &irqL);
++		} else {
++			struct setkey_parm aes_gtk;
++
++			aes_gtk.algorithm = aoac_rpt->scurity_type;
++			aes_gtk.keyid = gtk_keyindex;
++			_rtw_memcpy(aes_gtk.key, aoac_rpt->group_key, 16);
++			setkey_hdl(adapter, (u8 *)&aes_gtk);
++		}
++		rtw_clean_dk_section(adapter);
++
++		RTW_PRINT("GTK (%d) "KEY_FMT"\n",
++			  gtk_keyindex,
++			KEY_ARG(psecuritypriv->dot118021XGrpKey[gtk_keyindex].skey));
++
++		rtw_write8(adapter, REG_SECCFG, 0x0c);
++
++		#ifdef CONFIG_GTK_OL_DBG
++		/* if (gtk_keyindex != 5) */
++		dump_sec_cam(RTW_DBGDUMP, adapter);
++		dump_sec_cam_cache(RTW_DBGDUMP, adapter);
++		#endif
++	}
++}
++
++#endif /*CONFIG_WOW_PATTERN_HW_CAM*/
++
++#endif /*CONFIG_GTK_OL*/
++
++#ifndef CONFIG_WOW_PATTERN_HW_CAM
++static void rtw_hal_update_tx_iv(_adapter *adapter)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(adapter);
++	u64 iv_low = 0, iv_high = 0;
++
++	/* 3.1 read fw iv */
++	iv_low = rtw_read32(adapter, REG_TXPKTBUF_IV_LOW);
++	/* only low two bytes is PN, check AES_IV macro for detail */
++	iv_low &= 0xffff;
++	iv_high = rtw_read32(adapter, REG_TXPKTBUF_IV_HIGH);
++	/* get the real packet number */
++	pwrctl->wowlan_fw_iv = iv_high << 16 | iv_low;
++	RTW_PRINT("fw_iv: 0x%016llx\n", pwrctl->wowlan_fw_iv);
++	/* Update TX iv data. */
++	rtw_set_sec_pn(adapter);
++}
++#else
++#define DBG_AOAC_RPT
++void rtw_parse_aoac_rpt(_adapter *adapter, u8 *buffer, struct aoac_report *paoac_rpt)
++{
++	if ((!buffer) && (!paoac_rpt))
++		return;
++
++	_rtw_memcpy(paoac_rpt->iv, buffer, 8);
++	_rtw_memcpy(paoac_rpt->replay_counter_eapol_key, buffer + 8, 8);
++	_rtw_memcpy(paoac_rpt->group_key, buffer + 16, 32);
++	paoac_rpt->key_index = *(buffer + 48);
++	paoac_rpt->scurity_type = *(buffer + 49);
++
++	#ifdef DBG_AOAC_RPT
++	RTW_INFO_DUMP("[AOAC-RPT] IV -", paoac_rpt->iv, 8);
++	RTW_INFO_DUMP("[AOAC-RPT] Replay counter of EAPOL key - ", paoac_rpt->replay_counter_eapol_key, 8);
++	RTW_INFO_DUMP("[AOAC-RPT] Group key - ", paoac_rpt->group_key, 32);
++	RTW_INFO("[AOAC-RPT] Key Index - %d\n", paoac_rpt->key_index);
++	RTW_INFO("[AOAC-RPT] Security Type - %d\n", paoac_rpt->scurity_type);
++	#endif
++}
++
++static void rtw_hal_update_tx_iv(_adapter *adapter)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(adapter);
++	struct aoac_report *aoac_rpt = &pwrctl->wowlan_aoac_rpt;
++	u32 page_offset, page_number;
++	u32 page_size = 0;
++	u8 *buffer = NULL;
++	u32 buf_size = 0;
++	int ret = -1;
++
++	if (	(pwrctl->wowlan_wake_reason == RX_DISASSOC) ||
++		(pwrctl->wowlan_wake_reason == RX_DEAUTH) ||
++		(pwrctl->wowlan_wake_reason == FW_DECISION_DISCONNECT)) {
++		RTW_INFO(ADPT_FMT "- wake up reason(0x%02x), don't need to update AOAC info\n", ADPT_ARG(adapter), pwrctl->wowlan_wake_reason);
++		return;
++	}
++
++	/* read fw iv from rsvd page */
++	page_offset = pwrctl->wowlan_aoac_rpt_loc;
++	page_number = 1;
++
++	rtw_hal_get_def_var(adapter, HAL_DEF_TX_PAGE_SIZE, &page_size);
++	buf_size = page_size * page_number;
++
++	buffer = rtw_zvmalloc(buf_size);
++
++	if (NULL == buffer) {
++		RTW_ERR("%s buffer allocate failed size(%d)\n", __func__, buf_size);
++		return;
++	}
++
++	RTW_INFO("Get AOAC Report from rsvd page_offset:%d\n", page_offset);
++	ret = rtw_hal_get_rsvd_page(adapter, page_offset, page_number, buffer, buf_size);
++	if (ret) {
++		RTW_ERR("%s get aoac report failed\n", __func__);
++		rtw_warn_on(1);
++		goto _exit;
++	}
++
++	_rtw_memset(aoac_rpt, 0, sizeof(struct aoac_report));
++	rtw_parse_aoac_rpt(adapter, buffer, aoac_rpt);
++
++	_rtw_memcpy(&pwrctl->wowlan_fw_iv, aoac_rpt->iv, 8);
++
++	RTW_PRINT("fw_iv: 0x%016llx\n", pwrctl->wowlan_fw_iv);
++	/* Update TX iv data. */
++	rtw_set_sec_pn(adapter);
++
++_exit:
++	if (buffer)
++		rtw_vmfree(buffer, buf_size);
++}
++#endif
++
++static u8 rtw_hal_set_keep_alive_cmd(_adapter *adapter, u8 enable, u8 pkt_type)
++{
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++
++	u8 u1H2CKeepAliveParm[H2C_KEEP_ALIVE_CTRL_LEN] = {0};
++	u8 adopt = 1, check_period = 5;
++	u8 ret = _FAIL;
++
++	RTW_INFO("%s(): enable = %d\n", __func__, enable);
++	SET_H2CCMD_KEEPALIVE_PARM_ENABLE(u1H2CKeepAliveParm, enable);
++	SET_H2CCMD_KEEPALIVE_PARM_ADOPT(u1H2CKeepAliveParm, adopt);
++	SET_H2CCMD_KEEPALIVE_PARM_PKT_TYPE(u1H2CKeepAliveParm, pkt_type);
++	SET_H2CCMD_KEEPALIVE_PARM_CHECK_PERIOD(u1H2CKeepAliveParm, check_period);
++
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_KEEP_ALIVE,
++				   H2C_KEEP_ALIVE_CTRL_LEN,
++				   u1H2CKeepAliveParm);
++
++	return ret;
++}
++
++static u8 rtw_hal_set_disconnect_decision_cmd(_adapter *adapter, u8 enable)
++{
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	u8 u1H2CDisconDecisionParm[H2C_DISCON_DECISION_LEN] = {0};
++	u8 adopt = 1, check_period = 10, trypkt_num = 0;
++	u8 ret = _FAIL;
++
++	RTW_INFO("%s(): enable = %d\n", __func__, enable);
++	SET_H2CCMD_DISCONDECISION_PARM_ENABLE(u1H2CDisconDecisionParm, enable);
++	SET_H2CCMD_DISCONDECISION_PARM_ADOPT(u1H2CDisconDecisionParm, adopt);
++	SET_H2CCMD_DISCONDECISION_PARM_CHECK_PERIOD(u1H2CDisconDecisionParm, check_period);
++	SET_H2CCMD_DISCONDECISION_PARM_TRY_PKT_NUM(u1H2CDisconDecisionParm, trypkt_num);
++
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_DISCON_DECISION,
++				   H2C_DISCON_DECISION_LEN,
++				   u1H2CDisconDecisionParm);
++	return ret;
++}
++
++static u8 rtw_hal_set_wowlan_ctrl_cmd(_adapter *adapter, u8 enable, u8 change_unit)
++{
++	struct security_priv *psecpriv = &adapter->securitypriv;
++	struct pwrctrl_priv *ppwrpriv = adapter_to_pwrctl(adapter);
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++
++	u8 u1H2CWoWlanCtrlParm[H2C_WOWLAN_LEN] = {0};
++	u8 discont_wake = 1, gpionum = 0, gpio_dur = 0;
++	u8 hw_unicast = 0, gpio_pulse_cnt = 0, gpio_pulse_en = 0;
++	u8 sdio_wakeup_enable = 1;
++	u8 gpio_high_active = 0;
++	u8 magic_pkt = 0;
++	u8 gpio_unit = 0; /*0: 64ns, 1: 8ms*/
++	u8 ret = _FAIL;
++
++#ifdef CONFIG_GPIO_WAKEUP
++	gpio_high_active = ppwrpriv->is_high_active;
++	gpionum = WAKEUP_GPIO_IDX;
++	sdio_wakeup_enable = 0;
++#endif /* CONFIG_GPIO_WAKEUP */
++
++	if (!ppwrpriv->wowlan_pno_enable)
++		magic_pkt = enable;
++
++	if (psecpriv->dot11PrivacyAlgrthm == _WEP40_ || psecpriv->dot11PrivacyAlgrthm == _WEP104_)
++		hw_unicast = 1;
++	else
++		hw_unicast = 0;
++
++	RTW_INFO("%s(): enable=%d change_unit=%d\n", __func__,
++		 enable, change_unit);
++
++	/* time = (gpio_dur/2) * gpio_unit, default:256 ms */
++	if (enable && change_unit) {
++		gpio_dur = 0x40;
++		gpio_unit = 1;
++		gpio_pulse_en = 1;
++	}
++
++#ifdef CONFIG_PLATFORM_ARM_RK3188
++	if (enable) {
++		gpio_pulse_en = 1;
++		gpio_pulse_cnt = 0x04;
++	}
++#endif
++
++	SET_H2CCMD_WOWLAN_FUNC_ENABLE(u1H2CWoWlanCtrlParm, enable);
++	SET_H2CCMD_WOWLAN_PATTERN_MATCH_ENABLE(u1H2CWoWlanCtrlParm, enable);
++	SET_H2CCMD_WOWLAN_MAGIC_PKT_ENABLE(u1H2CWoWlanCtrlParm, magic_pkt);
++	SET_H2CCMD_WOWLAN_UNICAST_PKT_ENABLE(u1H2CWoWlanCtrlParm, hw_unicast);
++	SET_H2CCMD_WOWLAN_ALL_PKT_DROP(u1H2CWoWlanCtrlParm, 0);
++	SET_H2CCMD_WOWLAN_GPIO_ACTIVE(u1H2CWoWlanCtrlParm, gpio_high_active);
++
++#ifdef CONFIG_GTK_OL
++	if (enable == _TRUE) {
++		/* GTK rekey only for AES, if GTK rekey is TKIP, then wake up*/
++		if (psecpriv->dot118021XGrpPrivacy == _AES_)
++			SET_H2CCMD_WOWLAN_REKEY_WAKE_UP(u1H2CWoWlanCtrlParm, 0);
++		else if (psecpriv->dot118021XGrpPrivacy == _TKIP_)
++			SET_H2CCMD_WOWLAN_REKEY_WAKE_UP(u1H2CWoWlanCtrlParm, 1);
++	}
++#else
++	SET_H2CCMD_WOWLAN_REKEY_WAKE_UP(u1H2CWoWlanCtrlParm, enable);
++#endif
++	SET_H2CCMD_WOWLAN_DISCONNECT_WAKE_UP(u1H2CWoWlanCtrlParm, discont_wake);
++	SET_H2CCMD_WOWLAN_GPIONUM(u1H2CWoWlanCtrlParm, gpionum);
++	SET_H2CCMD_WOWLAN_DATAPIN_WAKE_UP(u1H2CWoWlanCtrlParm, sdio_wakeup_enable);
++
++	SET_H2CCMD_WOWLAN_GPIO_DURATION(u1H2CWoWlanCtrlParm, gpio_dur);
++	SET_H2CCMD_WOWLAN_CHANGE_UNIT(u1H2CWoWlanCtrlParm, gpio_unit);
++
++	SET_H2CCMD_WOWLAN_GPIO_PULSE_EN(u1H2CWoWlanCtrlParm, gpio_pulse_en);
++	SET_H2CCMD_WOWLAN_GPIO_PULSE_COUNT(u1H2CWoWlanCtrlParm, gpio_pulse_cnt);
++
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_WOWLAN,
++				   H2C_WOWLAN_LEN,
++				   u1H2CWoWlanCtrlParm);
++	return ret;
++}
++
++static u8 rtw_hal_set_remote_wake_ctrl_cmd(_adapter *adapter, u8 enable)
++{
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	struct security_priv *psecuritypriv = &(adapter->securitypriv);
++	struct pwrctrl_priv *ppwrpriv = adapter_to_pwrctl(adapter);
++	struct registry_priv *pregistrypriv = &adapter->registrypriv;
++	u8 u1H2CRemoteWakeCtrlParm[H2C_REMOTE_WAKE_CTRL_LEN] = {0};
++	u8 ret = _FAIL, count = 0;
++
++	RTW_INFO("%s(): enable=%d\n", __func__, enable);
++
++	if (!ppwrpriv->wowlan_pno_enable) {
++		SET_H2CCMD_REMOTE_WAKECTRL_ENABLE(
++			u1H2CRemoteWakeCtrlParm, enable);
++		SET_H2CCMD_REMOTE_WAKE_CTRL_ARP_OFFLOAD_EN(
++			u1H2CRemoteWakeCtrlParm, 1);
++#ifdef CONFIG_GTK_OL
++		if (psecuritypriv->binstallKCK_KEK == _TRUE &&
++		    psecuritypriv->dot11PrivacyAlgrthm == _AES_ &&
++		    psecuritypriv->dot118021XGrpPrivacy == _AES_) {
++			SET_H2CCMD_REMOTE_WAKE_CTRL_GTK_OFFLOAD_EN(
++				u1H2CRemoteWakeCtrlParm, 1);
++		} else {
++			RTW_INFO("no kck or security is not AES\n");
++			SET_H2CCMD_REMOTE_WAKE_CTRL_GTK_OFFLOAD_EN(
++				u1H2CRemoteWakeCtrlParm, 0);
++		}
++#endif /* CONFIG_GTK_OL */
++
++		if (pregistrypriv->default_patterns_en == _FALSE) {
++			SET_H2CCMD_REMOTE_WAKE_CTRL_FW_UNICAST_EN(
++				u1H2CRemoteWakeCtrlParm, enable);
++			/*
++			 * filter NetBios name service pkt to avoid being waked-up
++			 * by this kind of unicast pkt this exceptional modification
++			 * is used for match competitor's behavior
++			 */
++			SET_H2CCMD_REMOTE_WAKE_CTRL_NBNS_FILTER_EN(
++				u1H2CRemoteWakeCtrlParm, enable);
++		}
++
++		if ((psecuritypriv->dot11PrivacyAlgrthm == _AES_) ||
++		    (psecuritypriv->dot11PrivacyAlgrthm == _NO_PRIVACY_)) {
++			SET_H2CCMD_REMOTE_WAKE_CTRL_ARP_ACTION(
++				u1H2CRemoteWakeCtrlParm, 0);
++		} else {
++			SET_H2CCMD_REMOTE_WAKE_CTRL_ARP_ACTION(
++				u1H2CRemoteWakeCtrlParm, 1);
++		}
++
++		SET_H2CCMD_REMOTE_WAKE_CTRL_FW_PARSING_UNTIL_WAKEUP(
++			u1H2CRemoteWakeCtrlParm, 1);
++	}
++#ifdef CONFIG_PNO_SUPPORT
++	else {
++		SET_H2CCMD_REMOTE_WAKECTRL_ENABLE(
++			u1H2CRemoteWakeCtrlParm, enable);
++		SET_H2CCMD_REMOTE_WAKE_CTRL_NLO_OFFLOAD_EN(
++			u1H2CRemoteWakeCtrlParm, enable);
++	}
++#endif
++
++#ifdef CONFIG_P2P_WOWLAN
++	if (_TRUE == ppwrpriv->wowlan_p2p_mode) {
++		RTW_INFO("P2P OFFLOAD ENABLE\n");
++		SET_H2CCMD_REMOTE_WAKE_CTRL_P2P_OFFLAD_EN(u1H2CRemoteWakeCtrlParm, 1);
++	} else {
++		RTW_INFO("P2P OFFLOAD DISABLE\n");
++		SET_H2CCMD_REMOTE_WAKE_CTRL_P2P_OFFLAD_EN(u1H2CRemoteWakeCtrlParm, 0);
++	}
++#endif /* CONFIG_P2P_WOWLAN */
++
++
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_REMOTE_WAKE_CTRL,
++				   H2C_REMOTE_WAKE_CTRL_LEN,
++				   u1H2CRemoteWakeCtrlParm);
++	return ret;
++}
++
++static u8 rtw_hal_set_global_info_cmd(_adapter *adapter, u8 group_alg, u8 pairwise_alg)
++{
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	u8 ret = _FAIL;
++	u8 u1H2CAOACGlobalInfoParm[H2C_AOAC_GLOBAL_INFO_LEN] = {0};
++
++	RTW_INFO("%s(): group_alg=%d pairwise_alg=%d\n",
++		 __func__, group_alg, pairwise_alg);
++	SET_H2CCMD_AOAC_GLOBAL_INFO_PAIRWISE_ENC_ALG(u1H2CAOACGlobalInfoParm,
++			pairwise_alg);
++	SET_H2CCMD_AOAC_GLOBAL_INFO_GROUP_ENC_ALG(u1H2CAOACGlobalInfoParm,
++			group_alg);
++
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_AOAC_GLOBAL_INFO,
++				   H2C_AOAC_GLOBAL_INFO_LEN,
++				   u1H2CAOACGlobalInfoParm);
++
++	return ret;
++}
++
++#ifdef CONFIG_PNO_SUPPORT
++static u8 rtw_hal_set_scan_offload_info_cmd(_adapter *adapter,
++		PRSVDPAGE_LOC rsvdpageloc, u8 enable)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++
++	u8 u1H2CScanOffloadInfoParm[H2C_SCAN_OFFLOAD_CTRL_LEN] = {0};
++	u8 res = 0, count = 0, ret = _FAIL;
++
++	RTW_INFO("%s: loc_probe_packet:%d, loc_scan_info: %d loc_ssid_info:%d\n",
++		 __func__, rsvdpageloc->LocProbePacket,
++		 rsvdpageloc->LocScanInfo, rsvdpageloc->LocSSIDInfo);
++
++	SET_H2CCMD_AOAC_NLO_FUN_EN(u1H2CScanOffloadInfoParm, enable);
++	SET_H2CCMD_AOAC_NLO_IPS_EN(u1H2CScanOffloadInfoParm, enable);
++	SET_H2CCMD_AOAC_RSVDPAGE_LOC_SCAN_INFO(u1H2CScanOffloadInfoParm,
++					       rsvdpageloc->LocScanInfo);
++	SET_H2CCMD_AOAC_RSVDPAGE_LOC_PROBE_PACKET(u1H2CScanOffloadInfoParm,
++			rsvdpageloc->LocProbePacket);
++	/*
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_SSID_INFO(u1H2CScanOffloadInfoParm,
++				rsvdpageloc->LocSSIDInfo);
++	*/
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_D0_SCAN_OFFLOAD_INFO,
++				   H2C_SCAN_OFFLOAD_CTRL_LEN,
++				   u1H2CScanOffloadInfoParm);
++	return ret;
++}
++#endif /* CONFIG_PNO_SUPPORT */
++
++void rtw_hal_set_fw_wow_related_cmd(_adapter *padapter, u8 enable)
++{
++	struct security_priv *psecpriv = &padapter->securitypriv;
++	struct pwrctrl_priv *ppwrpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct sta_info *psta = NULL;
++	u16 media_status_rpt;
++	u8	pkt_type = 0;
++	u8 ret = _SUCCESS;
++
++	RTW_PRINT("+%s()+: enable=%d\n", __func__, enable);
++
++	rtw_hal_set_wowlan_ctrl_cmd(padapter, enable, _FALSE);
++
++	if (enable) {
++		rtw_hal_set_global_info_cmd(padapter,
++					    psecpriv->dot118021XGrpPrivacy,
++					    psecpriv->dot11PrivacyAlgrthm);
++
++		if (!(ppwrpriv->wowlan_pno_enable)) {
++			rtw_hal_set_disconnect_decision_cmd(padapter, enable);
++#ifdef CONFIG_ARP_KEEP_ALIVE
++			if ((psecpriv->dot11PrivacyAlgrthm == _WEP40_) ||
++			    (psecpriv->dot11PrivacyAlgrthm == _WEP104_))
++				pkt_type = 0;
++			else
++				pkt_type = 1;
++#else
++			pkt_type = 0;
++#endif /* CONFIG_ARP_KEEP_ALIVE */
++			rtw_hal_set_keep_alive_cmd(padapter, enable, pkt_type);
++		}
++		rtw_hal_set_remote_wake_ctrl_cmd(padapter, enable);
++#ifdef CONFIG_PNO_SUPPORT
++		rtw_hal_check_pno_enabled(padapter);
++#endif /* CONFIG_PNO_SUPPORT */
++	} else {
++#if 0
++		{
++			u32 PageSize = 0;
++			rtw_hal_get_def_var(padapter, HAL_DEF_TX_PAGE_SIZE, (u8 *)&PageSize);
++			dump_TX_FIFO(padapter, 4, PageSize);
++		}
++#endif
++
++		rtw_hal_set_remote_wake_ctrl_cmd(padapter, enable);
++	}
++	RTW_PRINT("-%s()-\n", __func__);
++}
++#endif /* CONFIG_WOWLAN */
++
++#ifdef CONFIG_AP_WOWLAN
++static u8 rtw_hal_set_ap_wowlan_ctrl_cmd(_adapter *adapter, u8 enable)
++{
++	struct security_priv *psecpriv = &adapter->securitypriv;
++	struct pwrctrl_priv *ppwrpriv = adapter_to_pwrctl(adapter);
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++
++	u8 u1H2CAPWoWlanCtrlParm[H2C_AP_WOW_GPIO_CTRL_LEN] = {0};
++	u8 gpionum = 0, gpio_dur = 0;
++	u8 gpio_pulse = enable;
++	u8 sdio_wakeup_enable = 1;
++	u8 gpio_high_active = 0;
++	u8 ret = _FAIL;
++
++#ifdef CONFIG_GPIO_WAKEUP
++	gpio_high_active = ppwrpriv->is_high_active;
++	gpionum = WAKEUP_GPIO_IDX;
++	sdio_wakeup_enable = 0;
++#endif /*CONFIG_GPIO_WAKEUP*/
++
++	RTW_INFO("%s(): enable=%d\n", __func__, enable);
++
++	SET_H2CCMD_AP_WOW_GPIO_CTRL_INDEX(u1H2CAPWoWlanCtrlParm,
++					  gpionum);
++	SET_H2CCMD_AP_WOW_GPIO_CTRL_PLUS(u1H2CAPWoWlanCtrlParm,
++					 gpio_pulse);
++	SET_H2CCMD_AP_WOW_GPIO_CTRL_HIGH_ACTIVE(u1H2CAPWoWlanCtrlParm,
++						gpio_high_active);
++	SET_H2CCMD_AP_WOW_GPIO_CTRL_EN(u1H2CAPWoWlanCtrlParm,
++				       enable);
++	SET_H2CCMD_AP_WOW_GPIO_CTRL_DURATION(u1H2CAPWoWlanCtrlParm,
++					     gpio_dur);
++
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_AP_WOW_GPIO_CTRL,
++				   H2C_AP_WOW_GPIO_CTRL_LEN,
++				   u1H2CAPWoWlanCtrlParm);
++
++	return ret;
++}
++
++static u8 rtw_hal_set_ap_offload_ctrl_cmd(_adapter *adapter, u8 enable)
++{
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	u8 u1H2CAPOffloadCtrlParm[H2C_WOWLAN_LEN] = {0};
++	u8 ret = _FAIL;
++
++	RTW_INFO("%s(): bFuncEn=%d\n", __func__, enable);
++
++	SET_H2CCMD_AP_WOWLAN_EN(u1H2CAPOffloadCtrlParm, enable);
++
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_AP_OFFLOAD,
++				   H2C_AP_OFFLOAD_LEN,
++				   u1H2CAPOffloadCtrlParm);
++
++	return ret;
++}
++
++static u8 rtw_hal_set_ap_ps_cmd(_adapter *adapter, u8 enable)
++{
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	u8 ap_ps_parm[H2C_AP_PS_LEN] = {0};
++	u8 ret = _FAIL;
++
++	RTW_INFO("%s(): enable=%d\n" , __func__ , enable);
++
++	SET_H2CCMD_AP_WOW_PS_EN(ap_ps_parm, enable);
++#ifndef CONFIG_USB_HCI
++	SET_H2CCMD_AP_WOW_PS_32K_EN(ap_ps_parm, enable);
++#endif /*CONFIG_USB_HCI*/
++	SET_H2CCMD_AP_WOW_PS_RF(ap_ps_parm, enable);
++
++	if (enable)
++		SET_H2CCMD_AP_WOW_PS_DURATION(ap_ps_parm, 0x32);
++	else
++		SET_H2CCMD_AP_WOW_PS_DURATION(ap_ps_parm, 0x0);
++
++	ret = rtw_hal_fill_h2c_cmd(adapter, H2C_SAP_PS_,
++				   H2C_AP_PS_LEN, ap_ps_parm);
++
++	return ret;
++}
++
++static void rtw_hal_set_ap_rsvdpage_loc_cmd(PADAPTER padapter,
++		PRSVDPAGE_LOC rsvdpageloc)
++{
++	struct hal_ops *pHalFunc = &padapter->HalFunc;
++	u8 rsvdparm[H2C_AOAC_RSVDPAGE_LOC_LEN] = {0};
++	u8 ret = _FAIL, header = 0;
++
++	if (pHalFunc->fill_h2c_cmd == NULL) {
++		RTW_INFO("%s: Please hook fill_h2c_cmd first!\n", __func__);
++		return;
++	}
++
++	header = rtw_read8(padapter, REG_BCNQ_BDNY);
++
++	RTW_INFO("%s: beacon: %d, probeRsp: %d, header:0x%02x\n", __func__,
++		 rsvdpageloc->LocApOffloadBCN,
++		 rsvdpageloc->LocProbeRsp,
++		 header);
++
++	SET_H2CCMD_AP_WOWLAN_RSVDPAGE_LOC_BCN(rsvdparm,
++				      rsvdpageloc->LocApOffloadBCN + header);
++
++	ret = rtw_hal_fill_h2c_cmd(padapter, H2C_BCN_RSVDPAGE,
++				   H2C_BCN_RSVDPAGE_LEN, rsvdparm);
++
++	if (ret == _FAIL)
++		RTW_INFO("%s: H2C_BCN_RSVDPAGE cmd fail\n", __func__);
++
++	rtw_msleep_os(10);
++
++	_rtw_memset(&rsvdparm, 0, sizeof(rsvdparm));
++
++	SET_H2CCMD_AP_WOWLAN_RSVDPAGE_LOC_ProbeRsp(rsvdparm,
++			rsvdpageloc->LocProbeRsp + header);
++
++	ret = rtw_hal_fill_h2c_cmd(padapter, H2C_PROBERSP_RSVDPAGE,
++				   H2C_PROBERSP_RSVDPAGE_LEN, rsvdparm);
++
++	if (ret == _FAIL)
++		RTW_INFO("%s: H2C_PROBERSP_RSVDPAGE cmd fail\n", __func__);
++
++	rtw_msleep_os(10);
++}
++
++static void rtw_hal_set_fw_ap_wow_related_cmd(_adapter *padapter, u8 enable)
++{
++	rtw_hal_set_ap_offload_ctrl_cmd(padapter, enable);
++	rtw_hal_set_ap_wowlan_ctrl_cmd(padapter, enable);
++	rtw_hal_set_ap_ps_cmd(padapter, enable);
++}
++
++static void rtw_hal_ap_wow_enable(_adapter *padapter)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct hal_ops *pHalFunc = &padapter->HalFunc;
++	struct sta_info *psta = NULL;
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++#ifdef DBG_CHECK_FW_PS_STATE
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++#endif /*DBG_CHECK_FW_PS_STATE*/
++	int res;
++	u16 media_status_rpt;
++
++	RTW_INFO("%s, WOWLAN_AP_ENABLE\n", __func__);
++#ifdef DBG_CHECK_FW_PS_STATE
++	if (rtw_fw_ps_state(padapter) == _FAIL) {
++		pdbgpriv->dbg_enwow_dload_fw_fail_cnt++;
++		RTW_PRINT("wowlan enable no leave 32k\n");
++	}
++#endif /*DBG_CHECK_FW_PS_STATE*/
++
++	/* 1. Download WOWLAN FW*/
++	rtw_hal_fw_dl(padapter, _TRUE);
++
++	media_status_rpt = RT_MEDIA_CONNECT;
++	rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_JOINBSSRPT,
++			  (u8 *)&media_status_rpt);
++
++	issue_beacon(padapter, 0);
++
++	rtw_msleep_os(2);
++	#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(padapter))
++		rtw_hal_disable_tx_report(padapter);
++	#endif
++	/* RX DMA stop */
++	res = rtw_hal_pause_rx_dma(padapter);
++	if (res == _FAIL)
++		RTW_PRINT("[WARNING] pause RX DMA fail\n");
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	/* Enable CPWM2 only. */
++	res = rtw_hal_enable_cpwm2(padapter);
++	if (res == _FAIL)
++		RTW_PRINT("[WARNING] enable cpwm2 fail\n");
++#endif
++
++#ifdef CONFIG_GPIO_WAKEUP
++	rtw_hal_switch_gpio_wl_ctrl(padapter, WAKEUP_GPIO_IDX, _TRUE);
++#endif
++	/* 5. Set Enable WOWLAN H2C command. */
++	RTW_PRINT("Set Enable AP WOWLan cmd\n");
++	rtw_hal_set_fw_ap_wow_related_cmd(padapter, 1);
++
++	rtw_write8(padapter, REG_MCUTST_WOWLAN, 0);
++#ifdef CONFIG_USB_HCI
++	rtw_mi_intf_stop(padapter);
++	/* Invoid SE0 reset signal during suspending*/
++	rtw_write8(padapter, REG_RSV_CTRL, 0x20);
++	if (IS_8188F(pHalData->VersionID) == FALSE)
++		rtw_write8(padapter, REG_RSV_CTRL, 0x60);
++#endif /*CONFIG_USB_HCI*/
++}
++
++static void rtw_hal_ap_wow_disable(_adapter *padapter)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	struct hal_ops *pHalFunc = &padapter->HalFunc;
++#ifdef DBG_CHECK_FW_PS_STATE
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++#endif /*DBG_CHECK_FW_PS_STATE*/
++	u16 media_status_rpt;
++	u8 val8;
++
++	RTW_INFO("%s, WOWLAN_AP_DISABLE\n", __func__);
++	/* 1. Read wakeup reason*/
++	pwrctl->wowlan_wake_reason = rtw_read8(padapter, REG_MCUTST_WOWLAN);
++
++	RTW_PRINT("wakeup_reason: 0x%02x\n",
++		  pwrctl->wowlan_wake_reason);
++
++	rtw_hal_set_fw_ap_wow_related_cmd(padapter, 0);
++
++	rtw_msleep_os(2);
++#ifdef DBG_CHECK_FW_PS_STATE
++	if (rtw_fw_ps_state(padapter) == _FAIL) {
++		pdbgpriv->dbg_diswow_dload_fw_fail_cnt++;
++		RTW_PRINT("wowlan enable no leave 32k\n");
++	}
++#endif /*DBG_CHECK_FW_PS_STATE*/
++
++	#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(padapter))
++		rtw_hal_enable_tx_report(padapter);
++	#endif
++
++	rtw_hal_force_enable_rxdma(padapter);
++
++	rtw_hal_fw_dl(padapter, _FALSE);
++
++#ifdef CONFIG_GPIO_WAKEUP
++	val8 = (pwrctl->is_high_active == 0) ? 1 : 0;
++	RTW_PRINT("Set Wake GPIO to default(%d).\n", val8);
++	rtw_hal_set_output_gpio(padapter, WAKEUP_GPIO_IDX, val8);
++#endif
++	media_status_rpt = RT_MEDIA_CONNECT;
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_H2C_FW_JOINBSSRPT,
++			  (u8 *)&media_status_rpt);
++
++	issue_beacon(padapter, 0);
++}
++#endif /*CONFIG_AP_WOWLAN*/
++
++#ifdef CONFIG_P2P_WOWLAN
++static int update_hidden_ssid(u8 *ies, u32 ies_len, u8 hidden_ssid_mode)
++{
++	u8 *ssid_ie;
++	sint ssid_len_ori;
++	int len_diff = 0;
++
++	ssid_ie = rtw_get_ie(ies,  WLAN_EID_SSID, &ssid_len_ori, ies_len);
++
++	/* RTW_INFO("%s hidden_ssid_mode:%u, ssid_ie:%p, ssid_len_ori:%d\n", __FUNCTION__, hidden_ssid_mode, ssid_ie, ssid_len_ori); */
++
++	if (ssid_ie && ssid_len_ori > 0) {
++		switch (hidden_ssid_mode) {
++		case 1: {
++			u8 *next_ie = ssid_ie + 2 + ssid_len_ori;
++			u32 remain_len = 0;
++
++			remain_len = ies_len - (next_ie - ies);
++
++			ssid_ie[1] = 0;
++			_rtw_memcpy(ssid_ie + 2, next_ie, remain_len);
++			len_diff -= ssid_len_ori;
++
++			break;
++		}
++		case 2:
++			_rtw_memset(&ssid_ie[2], 0, ssid_len_ori);
++			break;
++		default:
++			break;
++		}
++	}
++
++	return len_diff;
++}
++
++static void rtw_hal_construct_P2PBeacon(_adapter *padapter, u8 *pframe, u32 *pLength)
++{
++	/* struct xmit_frame	*pmgntframe; */
++	/* struct pkt_attrib	*pattrib; */
++	/* unsigned char	*pframe; */
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	unsigned short *fctrl;
++	unsigned int	rate_len;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++	u32	pktlen;
++	/* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++	/*	_irqL irqL;
++	 *	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	 * #endif */ /* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++
++	/* for debug */
++	u8 *dbgbuf = pframe;
++	u8 dbgbufLen = 0, index = 0;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++	/* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++	/*	_enter_critical_bh(&pmlmepriv->bcn_update_lock, &irqL);
++	 * #endif */ /* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(cur_network), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0/*pmlmeext->mgnt_seq*/);
++	/* pmlmeext->mgnt_seq++; */
++	SetFrameSubType(pframe, WIFI_BEACON);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) {
++		/* RTW_INFO("ie len=%d\n", cur_network->IELength); */
++#ifdef CONFIG_P2P
++		/* for P2P : Primary Device Type & Device Name */
++		u32 wpsielen = 0, insert_len = 0;
++		u8 *wpsie = NULL;
++		wpsie = rtw_get_wps_ie(cur_network->IEs + _FIXED_IE_LENGTH_, cur_network->IELength - _FIXED_IE_LENGTH_, NULL, &wpsielen);
++
++		if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO) && wpsie && wpsielen > 0) {
++			uint wps_offset, remainder_ielen;
++			u8 *premainder_ie, *pframe_wscie;
++
++			wps_offset = (uint)(wpsie - cur_network->IEs);
++
++			premainder_ie = wpsie + wpsielen;
++
++			remainder_ielen = cur_network->IELength - wps_offset - wpsielen;
++
++#ifdef CONFIG_IOCTL_CFG80211
++			if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++				if (pmlmepriv->wps_beacon_ie && pmlmepriv->wps_beacon_ie_len > 0) {
++					_rtw_memcpy(pframe, cur_network->IEs, wps_offset);
++					pframe += wps_offset;
++					pktlen += wps_offset;
++
++					_rtw_memcpy(pframe, pmlmepriv->wps_beacon_ie, pmlmepriv->wps_beacon_ie_len);
++					pframe += pmlmepriv->wps_beacon_ie_len;
++					pktlen += pmlmepriv->wps_beacon_ie_len;
++
++					/* copy remainder_ie to pframe */
++					_rtw_memcpy(pframe, premainder_ie, remainder_ielen);
++					pframe += remainder_ielen;
++					pktlen += remainder_ielen;
++				} else {
++					_rtw_memcpy(pframe, cur_network->IEs, cur_network->IELength);
++					pframe += cur_network->IELength;
++					pktlen += cur_network->IELength;
++				}
++			} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++			{
++				pframe_wscie = pframe + wps_offset;
++				_rtw_memcpy(pframe, cur_network->IEs, wps_offset + wpsielen);
++				pframe += (wps_offset + wpsielen);
++				pktlen += (wps_offset + wpsielen);
++
++				/* now pframe is end of wsc ie, insert Primary Device Type & Device Name */
++				/*	Primary Device Type */
++				/*	Type: */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(WPS_ATTR_PRIMARY_DEV_TYPE);
++				insert_len += 2;
++
++				/*	Length: */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(0x0008);
++				insert_len += 2;
++
++				/*	Value: */
++				/*	Category ID */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(WPS_PDT_CID_MULIT_MEDIA);
++				insert_len += 2;
++
++				/*	OUI */
++				*(u32 *)(pframe + insert_len) = cpu_to_be32(WPSOUI);
++				insert_len += 4;
++
++				/*	Sub Category ID */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(WPS_PDT_SCID_MEDIA_SERVER);
++				insert_len += 2;
++
++
++				/*	Device Name */
++				/*	Type: */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++				insert_len += 2;
++
++				/*	Length: */
++				*(u16 *)(pframe + insert_len) = cpu_to_be16(pwdinfo->device_name_len);
++				insert_len += 2;
++
++				/*	Value: */
++				_rtw_memcpy(pframe + insert_len, pwdinfo->device_name, pwdinfo->device_name_len);
++				insert_len += pwdinfo->device_name_len;
++
++
++				/* update wsc ie length */
++				*(pframe_wscie + 1) = (wpsielen - 2) + insert_len;
++
++				/* pframe move to end */
++				pframe += insert_len;
++				pktlen += insert_len;
++
++				/* copy remainder_ie to pframe */
++				_rtw_memcpy(pframe, premainder_ie, remainder_ielen);
++				pframe += remainder_ielen;
++				pktlen += remainder_ielen;
++			}
++		} else
++#endif /* CONFIG_P2P */
++		{
++			int len_diff;
++			_rtw_memcpy(pframe, cur_network->IEs, cur_network->IELength);
++			len_diff = update_hidden_ssid(
++					   pframe + _BEACON_IE_OFFSET_
++				   , cur_network->IELength - _BEACON_IE_OFFSET_
++					   , pmlmeinfo->hidden_ssid_mode
++				   );
++			pframe += (cur_network->IELength + len_diff);
++			pktlen += (cur_network->IELength + len_diff);
++		}
++#if 0
++		{
++			u8 *wps_ie;
++			uint wps_ielen;
++			u8 sr = 0;
++			wps_ie = rtw_get_wps_ie(pmgntframe->buf_addr + TXDESC_OFFSET + sizeof(struct rtw_ieee80211_hdr_3addr) + _BEACON_IE_OFFSET_,
++				pattrib->pktlen - sizeof(struct rtw_ieee80211_hdr_3addr) - _BEACON_IE_OFFSET_, NULL, &wps_ielen);
++			if (wps_ie && wps_ielen > 0)
++				rtw_get_wps_attr_content(wps_ie,  wps_ielen, WPS_ATTR_SELECTED_REGISTRAR, (u8 *)(&sr), NULL);
++			if (sr != 0)
++				set_fwstate(pmlmepriv, WIFI_UNDER_WPS);
++			else
++				_clr_fwstate_(pmlmepriv, WIFI_UNDER_WPS);
++		}
++#endif
++#ifdef CONFIG_P2P
++		if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++			u32 len;
++#ifdef CONFIG_IOCTL_CFG80211
++			if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++				len = pmlmepriv->p2p_beacon_ie_len;
++				if (pmlmepriv->p2p_beacon_ie && len > 0)
++					_rtw_memcpy(pframe, pmlmepriv->p2p_beacon_ie, len);
++			} else
++#endif /* CONFIG_IOCTL_CFG80211 */
++			{
++				len = build_beacon_p2p_ie(pwdinfo, pframe);
++			}
++
++			pframe += len;
++			pktlen += len;
++
++			#ifdef CONFIG_WFD
++			len = rtw_append_beacon_wfd_ie(padapter, pframe);
++			pframe += len;
++			pktlen += len;
++			#endif
++
++		}
++#endif /* CONFIG_P2P */
++
++		goto _issue_bcn;
++
++	}
++
++	/* below for ad-hoc mode */
++
++	/* timestamp will be inserted by hardware */
++	pframe += 8;
++	pktlen += 8;
++
++	/* beacon interval: 2 bytes */
++
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_beacon_interval_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	pktlen += 2;
++
++	/* capability info: 2 bytes */
++
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_capability_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	pktlen += 2;
++
++	/* SSID */
++	pframe = rtw_set_ie(pframe, _SSID_IE_, cur_network->Ssid.SsidLength, cur_network->Ssid.Ssid, &pktlen);
++
++	/* supported rates... */
++	rate_len = rtw_get_rateset_len(cur_network->SupportedRates);
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, ((rate_len > 8) ? 8 : rate_len), cur_network->SupportedRates, &pktlen);
++
++	/* DS parameter set */
++	pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&(cur_network->Configuration.DSConfig), &pktlen);
++
++	/* if( (pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE) */
++	{
++		u8 erpinfo = 0;
++		u32 ATIMWindow;
++		/* IBSS Parameter Set... */
++		/* ATIMWindow = cur->Configuration.ATIMWindow; */
++		ATIMWindow = 0;
++		pframe = rtw_set_ie(pframe, _IBSS_PARA_IE_, 2, (unsigned char *)(&ATIMWindow), &pktlen);
++
++		/* ERP IE */
++		pframe = rtw_set_ie(pframe, _ERPINFO_IE_, 1, &erpinfo, &pktlen);
++	}
++
++
++	/* EXTERNDED SUPPORTED RATE */
++	if (rate_len > 8)
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_, (rate_len - 8), (cur_network->SupportedRates + 8), &pktlen);
++
++
++	/* todo:HT for adhoc */
++
++_issue_bcn:
++
++	/* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++	/*	pmlmepriv->update_bcn = _FALSE;
++	 *
++	 *	_exit_critical_bh(&pmlmepriv->bcn_update_lock, &irqL);
++	 * #endif */ /* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++
++	*pLength = pktlen;
++#if 0
++	/* printf dbg msg */
++	dbgbufLen = pktlen;
++	RTW_INFO("======> DBG MSG FOR CONSTRAUCT P2P BEACON\n");
++
++	for (index = 0; index < dbgbufLen; index++)
++		printk("%x ", *(dbgbuf + index));
++
++	printk("\n");
++	RTW_INFO("<====== DBG MSG FOR CONSTRAUCT P2P BEACON\n");
++
++#endif
++}
++
++static int get_reg_classes_full_count(struct p2p_channels channel_list)
++{
++	int cnt = 0;
++	int i;
++
++	for (i = 0; i < channel_list.reg_classes; i++)
++		cnt += channel_list.reg_class[i].channels;
++
++	return cnt;
++}
++
++static void rtw_hal_construct_P2PProbeRsp(_adapter *padapter, u8 *pframe, u32 *pLength)
++{
++	/* struct xmit_frame			*pmgntframe; */
++	/* struct pkt_attrib			*pattrib; */
++	/* unsigned char					*pframe; */
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	unsigned char					*mac;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	/* WLAN_BSSID_EX 		*cur_network = &(pmlmeinfo->network); */
++	u16					beacon_interval = 100;
++	u16					capInfo = 0;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8					wpsie[255] = { 0x00 };
++	u32					wpsielen = 0, p2pielen = 0;
++	u32					pktlen;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++#ifdef CONFIG_INTEL_WIDI
++	u8 zero_array_check[L2SDTA_SERVICE_VE_LEN] = { 0x00 };
++#endif /* CONFIG_INTEL_WIDI */
++
++	/* for debug */
++	u8 *dbgbuf = pframe;
++	u8 dbgbufLen = 0, index = 0;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	mac = adapter_mac_addr(padapter);
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	/* DA filled by FW */
++	_rtw_memset(pwlanhdr->addr1, 0, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, mac, ETH_ALEN);
++
++	/*	Use the device address for BSSID field.	 */
++	_rtw_memcpy(pwlanhdr->addr3, mac, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0);
++	SetFrameSubType(fctrl, WIFI_PROBERSP);
++
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	pframe += pktlen;
++
++
++	/* timestamp will be inserted by hardware */
++	pframe += 8;
++	pktlen += 8;
++
++	/* beacon interval: 2 bytes */
++	_rtw_memcpy(pframe, (unsigned char *) &beacon_interval, 2);
++	pframe += 2;
++	pktlen += 2;
++
++	/*	capability info: 2 bytes */
++	/*	ESS and IBSS bits must be 0 (defined in the 3.1.2.1.1 of WiFi Direct Spec) */
++	capInfo |= cap_ShortPremble;
++	capInfo |= cap_ShortSlot;
++
++	_rtw_memcpy(pframe, (unsigned char *) &capInfo, 2);
++	pframe += 2;
++	pktlen += 2;
++
++
++	/* SSID */
++	pframe = rtw_set_ie(pframe, _SSID_IE_, 7, pwdinfo->p2p_wildcard_ssid, &pktlen);
++
++	/* supported rates... */
++	/*	Use the OFDM rate in the P2P probe response frame. ( 6(B), 9(B), 12, 18, 24, 36, 48, 54 ) */
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, 8, pwdinfo->support_rate, &pktlen);
++
++	/* DS parameter set */
++	pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&pwdinfo->listen_channel, &pktlen);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++		if (pmlmepriv->wps_probe_resp_ie != NULL && pmlmepriv->p2p_probe_resp_ie != NULL) {
++			/* WPS IE */
++			_rtw_memcpy(pframe, pmlmepriv->wps_probe_resp_ie, pmlmepriv->wps_probe_resp_ie_len);
++			pktlen += pmlmepriv->wps_probe_resp_ie_len;
++			pframe += pmlmepriv->wps_probe_resp_ie_len;
++
++			/* P2P IE */
++			_rtw_memcpy(pframe, pmlmepriv->p2p_probe_resp_ie, pmlmepriv->p2p_probe_resp_ie_len);
++			pktlen += pmlmepriv->p2p_probe_resp_ie_len;
++			pframe += pmlmepriv->p2p_probe_resp_ie_len;
++		}
++	} else
++#endif /* CONFIG_IOCTL_CFG80211		 */
++	{
++
++		/*	Todo: WPS IE */
++		/*	Noted by Albert 20100907 */
++		/*	According to the WPS specification, all the WPS attribute is presented by Big Endian. */
++
++		wpsielen = 0;
++		/*	WPS OUI */
++		*(u32 *)(wpsie) = cpu_to_be32(WPSOUI);
++		wpsielen += 4;
++
++		/*	WPS version */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++		wpsielen += 2;
++
++		/*	Value: */
++		wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++
++#ifdef CONFIG_INTEL_WIDI
++		/*	Commented by Kurt */
++		/*	Appended WiDi info. only if we did issued_probereq_widi(), and then we saved ven. ext. in pmlmepriv->sa_ext. */
++		if (_rtw_memcmp(pmlmepriv->sa_ext, zero_array_check, L2SDTA_SERVICE_VE_LEN) == _FALSE
++		    || pmlmepriv->num_p2p_sdt != 0) {
++			/* Sec dev type */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_SEC_DEV_TYPE_LIST);
++			wpsielen += 2;
++
++			/*	Length: */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0008);
++			wpsielen += 2;
++
++			/*	Value: */
++			/*	Category ID */
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_CID_DISPLAYS);
++			wpsielen += 2;
++
++			/*	OUI */
++			*(u32 *)(wpsie + wpsielen) = cpu_to_be32(INTEL_DEV_TYPE_OUI);
++			wpsielen += 4;
++
++			*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_SCID_WIDI_CONSUMER_SINK);
++			wpsielen += 2;
++
++			if (_rtw_memcmp(pmlmepriv->sa_ext, zero_array_check, L2SDTA_SERVICE_VE_LEN) == _FALSE) {
++				/*	Vendor Extension */
++				_rtw_memcpy(wpsie + wpsielen, pmlmepriv->sa_ext, L2SDTA_SERVICE_VE_LEN);
++				wpsielen += L2SDTA_SERVICE_VE_LEN;
++			}
++		}
++#endif /* CONFIG_INTEL_WIDI */
++
++		/*	WiFi Simple Config State */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_SIMPLE_CONF_STATE);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++		wpsielen += 2;
++
++		/*	Value: */
++		wpsie[wpsielen++] = WPS_WSC_STATE_NOT_CONFIG;	/*	Not Configured. */
++
++		/*	Response Type */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_RESP_TYPE);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++		wpsielen += 2;
++
++		/*	Value: */
++		wpsie[wpsielen++] = WPS_RESPONSE_TYPE_8021X;
++
++		/*	UUID-E */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_UUID_E);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0010);
++		wpsielen += 2;
++
++		/*	Value: */
++		if (pwdinfo->external_uuid == 0) {
++			_rtw_memset(wpsie + wpsielen, 0x0, 16);
++			_rtw_memcpy(wpsie + wpsielen, mac, ETH_ALEN);
++		} else
++			_rtw_memcpy(wpsie + wpsielen, pwdinfo->uuid, 0x10);
++		wpsielen += 0x10;
++
++		/*	Manufacturer */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_MANUFACTURER);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0007);
++		wpsielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(wpsie + wpsielen, "Realtek", 7);
++		wpsielen += 7;
++
++		/*	Model Name */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_MODEL_NAME);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0006);
++		wpsielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(wpsie + wpsielen, "8192CU", 6);
++		wpsielen += 6;
++
++		/*	Model Number */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_MODEL_NUMBER);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++		wpsielen += 2;
++
++		/*	Value: */
++		wpsie[wpsielen++] = 0x31;		/*	character 1 */
++
++		/*	Serial Number */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_SERIAL_NUMBER);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(ETH_ALEN);
++		wpsielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(wpsie + wpsielen, "123456" , ETH_ALEN);
++		wpsielen += ETH_ALEN;
++
++		/*	Primary Device Type */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_PRIMARY_DEV_TYPE);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0008);
++		wpsielen += 2;
++
++		/*	Value: */
++		/*	Category ID */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_CID_MULIT_MEDIA);
++		wpsielen += 2;
++
++		/*	OUI */
++		*(u32 *)(wpsie + wpsielen) = cpu_to_be32(WPSOUI);
++		wpsielen += 4;
++
++		/*	Sub Category ID */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_PDT_SCID_MEDIA_SERVER);
++		wpsielen += 2;
++
++		/*	Device Name */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(pwdinfo->device_name_len);
++		wpsielen += 2;
++
++		/*	Value: */
++		_rtw_memcpy(wpsie + wpsielen, pwdinfo->device_name, pwdinfo->device_name_len);
++		wpsielen += pwdinfo->device_name_len;
++
++		/*	Config Method */
++		/*	Type: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_CONF_METHOD);
++		wpsielen += 2;
++
++		/*	Length: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0002);
++		wpsielen += 2;
++
++		/*	Value: */
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(pwdinfo->supported_wps_cm);
++		wpsielen += 2;
++
++
++		pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pktlen);
++
++
++		p2pielen = build_probe_resp_p2p_ie(pwdinfo, pframe);
++		pframe += p2pielen;
++		pktlen += p2pielen;
++	}
++
++#ifdef CONFIG_WFD
++	wfdielen = rtw_append_probe_resp_wfd_ie(padapter, pframe);
++	pframe += wfdielen;
++	pktlen += wfdielen;
++#endif
++
++	*pLength = pktlen;
++
++#if 0
++	/* printf dbg msg */
++	dbgbufLen = pktlen;
++	RTW_INFO("======> DBG MSG FOR CONSTRAUCT P2P Probe Rsp\n");
++
++	for (index = 0; index < dbgbufLen; index++)
++		printk("%x ", *(dbgbuf + index));
++
++	printk("\n");
++	RTW_INFO("<====== DBG MSG FOR CONSTRAUCT P2P Probe Rsp\n");
++#endif
++}
++static void rtw_hal_construct_P2PNegoRsp(_adapter *padapter, u8 *pframe, u32 *pLength)
++{
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_GO_NEGO_RESP;
++	u8			wpsie[255] = { 0x00 }, p2pie[255] = { 0x00 };
++	u8			p2pielen = 0, i;
++	uint			wpsielen = 0;
++	u16			wps_devicepassword_id = 0x0000;
++	uint			wps_devicepassword_id_len = 0;
++	u8			channel_cnt_24g = 0, channel_cnt_5gl = 0, channel_cnt_5gh;
++	u16			len_channellist_attr = 0;
++	u32			pktlen;
++	u8			dialogToken = 0;
++
++	/* struct xmit_frame			*pmgntframe; */
++	/* struct pkt_attrib			*pattrib; */
++	/* unsigned char					*pframe; */
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	/* WLAN_BSSID_EX 		*cur_network = &(pmlmeinfo->network); */
++
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	/* for debug */
++	u8 *dbgbuf = pframe;
++	u8 dbgbufLen = 0, index = 0;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	/* RA, filled by FW */
++	_rtw_memset(pwlanhdr->addr1, 0, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0);
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	pframe += pktlen;
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pktlen));
++
++	/* dialog token, filled by FW */
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pktlen));
++
++	_rtw_memset(wpsie, 0x00, 255);
++	wpsielen = 0;
++
++	/*	WPS Section */
++	wpsielen = 0;
++	/*	WPS OUI */
++	*(u32 *)(wpsie) = cpu_to_be32(WPSOUI);
++	wpsielen += 4;
++
++	/*	WPS version */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++	wpsielen += 2;
++
++	/*	Value: */
++	wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++
++	/*	Device Password ID */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_DEVICE_PWID);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0002);
++	wpsielen += 2;
++
++	/*	Value: */
++	if (wps_devicepassword_id == WPS_DPID_USER_SPEC)
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_REGISTRAR_SPEC);
++	else if (wps_devicepassword_id == WPS_DPID_REGISTRAR_SPEC)
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_USER_SPEC);
++	else
++		*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_DPID_PBC);
++	wpsielen += 2;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pktlen);
++
++
++	/*	P2P IE Section. */
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20100908 */
++	/*	According to the P2P Specification, the group negoitation response frame should contain 9 P2P attributes */
++	/*	1. Status */
++	/*	2. P2P Capability */
++	/*	3. Group Owner Intent */
++	/*	4. Configuration Timeout */
++	/*	5. Operating Channel */
++	/*	6. Intended P2P Interface Address */
++	/*	7. Channel List */
++	/*	8. Device Info */
++	/*	9. Group ID	( Only GO ) */
++
++
++	/*	ToDo: */
++
++	/*	P2P Status */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_STATUS;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0001);
++	p2pielen += 2;
++
++	/*	Value, filled by FW */
++	p2pie[p2pielen++] = 1;
++
++	/*	P2P Capability */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CAPABILITY;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Device Capability Bitmap, 1 byte */
++
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT)) {
++		/*	Commented by Albert 2011/03/08 */
++		/*	According to the P2P specification */
++		/*	if the sending device will be client, the P2P Capability should be reserved of group negotation response frame */
++		p2pie[p2pielen++] = 0;
++	} else {
++		/*	Be group owner or meet the error case */
++		p2pie[p2pielen++] = DMP_P2P_DEVCAP_SUPPORT;
++	}
++
++	/*	Group Capability Bitmap, 1 byte */
++	if (pwdinfo->persistent_supported)
++		p2pie[p2pielen++] = P2P_GRPCAP_CROSS_CONN | P2P_GRPCAP_PERSISTENT_GROUP;
++	else
++		p2pie[p2pielen++] = P2P_GRPCAP_CROSS_CONN;
++
++	/*	Group Owner Intent */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_GO_INTENT;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0001);
++	p2pielen += 2;
++
++	/*	Value: */
++	if (pwdinfo->peer_intent & 0x01) {
++		/*	Peer's tie breaker bit is 1, our tie breaker bit should be 0 */
++		p2pie[p2pielen++] = (pwdinfo->intent << 1);
++	} else {
++		/*	Peer's tie breaker bit is 0, our tie breaker bit should be 1 */
++		p2pie[p2pielen++] = ((pwdinfo->intent << 1) | BIT(0));
++	}
++
++
++	/*	Configuration Timeout */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CONF_TIMEOUT;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P GO */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P Client */
++
++	/*	Operating Channel */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_OPERATING_CH;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Operating Class */
++	if (pwdinfo->operating_channel <= 14) {
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x51;
++	} else if ((pwdinfo->operating_channel >= 36) && (pwdinfo->operating_channel <= 48)) {
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x73;
++	} else {
++		/*	Operating Class */
++		p2pie[p2pielen++] = 0x7c;
++	}
++
++	/*	Channel Number */
++	p2pie[p2pielen++] = pwdinfo->operating_channel;	/*	operating channel number */
++
++	/*	Intended P2P Interface Address	 */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_INTENTED_IF_ADDR;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(ETH_ALEN);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++	/*	Channel List */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CH_LIST;
++
++	/* Country String(3) */
++	/* + ( Operating Class (1) + Number of Channels(1) ) * Operation Classes (?) */
++	/* + number of channels in all classes */
++	len_channellist_attr = 3
++		       + (1 + 1) * (u16)pmlmeext->channel_list.reg_classes
++		       + get_reg_classes_full_count(pmlmeext->channel_list);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_buddy_check_fwstate(padapter, _FW_LINKED))
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(5 + 1);
++	else
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++
++#else
++
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++
++#endif
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Country String */
++	p2pie[p2pielen++] = 'X';
++	p2pie[p2pielen++] = 'X';
++
++	/*	The third byte should be set to 0x04. */
++	/*	Described in the "Operating Channel Attribute" section. */
++	p2pie[p2pielen++] = 0x04;
++
++	/*	Channel Entry List */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED)) {
++		u8 union_ch = rtw_mi_get_union_chan(padapter);
++
++		/*	Operating Class */
++		if (union_ch > 14) {
++			if (union_ch >= 149)
++				p2pie[p2pielen++] = 0x7c;
++			else
++				p2pie[p2pielen++] = 0x73;
++		} else
++			p2pie[p2pielen++] = 0x51;
++
++
++		/*	Number of Channels */
++		/*	Just support 1 channel and this channel is AP's channel */
++		p2pie[p2pielen++] = 1;
++
++		/*	Channel List */
++		p2pie[p2pielen++] = union_ch;
++	} else {
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			/*	Number of Channels */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			/*	Channel List */
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++		}
++	}
++#else /* CONFIG_CONCURRENT_MODE */
++	{
++		int i, j;
++		for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++			/*	Operating Class */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++			/*	Number of Channels */
++			p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++			/*	Channel List */
++			for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++		}
++	}
++#endif /* CONFIG_CONCURRENT_MODE */
++
++
++	/*	Device Info */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	21->P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes)  */
++	/*	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes) */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(21 + pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	P2P Device Address */
++	_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++	p2pielen += ETH_ALEN;
++
++	/*	Config Method */
++	/*	This field should be big endian. Noted by P2P specification. */
++
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(pwdinfo->supported_wps_cm);
++
++	p2pielen += 2;
++
++	/*	Primary Device Type */
++	/*	Category ID */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_CID_MULIT_MEDIA);
++	p2pielen += 2;
++
++	/*	OUI */
++	*(u32 *)(p2pie + p2pielen) = cpu_to_be32(WPSOUI);
++	p2pielen += 4;
++
++	/*	Sub Category ID */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_PDT_SCID_MEDIA_SERVER);
++	p2pielen += 2;
++
++	/*	Number of Secondary Device Types */
++	p2pie[p2pielen++] = 0x00;	/*	No Secondary Device Type List */
++
++	/*	Device Name */
++	/*	Type: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(WPS_ATTR_DEVICE_NAME);
++	p2pielen += 2;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_be16(pwdinfo->device_name_len);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2pie + p2pielen, pwdinfo->device_name , pwdinfo->device_name_len);
++	p2pielen += pwdinfo->device_name_len;
++
++	if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		/*	Group ID Attribute */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_GROUP_ID;
++
++		/*	Length: */
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(ETH_ALEN + pwdinfo->nego_ssidlen);
++		p2pielen += 2;
++
++		/*	Value: */
++		/*	p2P Device Address */
++		_rtw_memcpy(p2pie + p2pielen , pwdinfo->device_addr, ETH_ALEN);
++		p2pielen += ETH_ALEN;
++
++		/*	SSID */
++		_rtw_memcpy(p2pie + p2pielen, pwdinfo->nego_ssid, pwdinfo->nego_ssidlen);
++		p2pielen += pwdinfo->nego_ssidlen;
++
++	}
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pktlen);
++
++#ifdef CONFIG_WFD
++	wfdielen = build_nego_resp_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pktlen += wfdielen;
++#endif
++
++	*pLength = pktlen;
++#if 0
++	/* printf dbg msg */
++	dbgbufLen = pktlen;
++	RTW_INFO("======> DBG MSG FOR CONSTRAUCT Nego Rsp\n");
++
++	for (index = 0; index < dbgbufLen; index++)
++		printk("%x ", *(dbgbuf + index));
++
++	printk("\n");
++	RTW_INFO("<====== DBG MSG FOR CONSTRAUCT Nego Rsp\n");
++#endif
++}
++
++static void rtw_hal_construct_P2PInviteRsp(_adapter *padapter, u8 *pframe, u32 *pLength)
++{
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_INVIT_RESP;
++	u8			p2pie[255] = { 0x00 };
++	u8			p2pielen = 0, i;
++	u8			channel_cnt_24g = 0, channel_cnt_5gl = 0, channel_cnt_5gh = 0;
++	u16			len_channellist_attr = 0;
++	u32			pktlen;
++	u8			dialogToken = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	/* struct xmit_frame			*pmgntframe; */
++	/* struct pkt_attrib			*pattrib; */
++	/* unsigned char					*pframe; */
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	/* for debug */
++	u8 *dbgbuf = pframe;
++	u8 dbgbufLen = 0, index = 0;
++
++
++	RTW_INFO("%s\n", __FUNCTION__);
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	/* RA fill by FW */
++	_rtw_memset(pwlanhdr->addr1, 0, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++
++	/* BSSID fill by FW */
++	_rtw_memset(pwlanhdr->addr3, 0, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0);
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pktlen));
++
++	/* dialog token, filled by FW */
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pktlen));
++
++	/*	P2P IE Section. */
++
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2pie[p2pielen++] = 0x50;
++	p2pie[p2pielen++] = 0x6F;
++	p2pie[p2pielen++] = 0x9A;
++	p2pie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20101005 */
++	/*	According to the P2P Specification, the P2P Invitation response frame should contain 5 P2P attributes */
++	/*	1. Status */
++	/*	2. Configuration Timeout */
++	/*	3. Operating Channel	( Only GO ) */
++	/*	4. P2P Group BSSID	( Only GO ) */
++	/*	5. Channel List */
++
++	/*	P2P Status */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_STATUS;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0001);
++	p2pielen += 2;
++
++	/*	Value: filled by FW, defult value is FAIL INFO UNAVAILABLE */
++	p2pie[p2pielen++] = P2P_STATUS_FAIL_INFO_UNAVAILABLE;
++
++	/*	Configuration Timeout */
++	/*	Type: */
++	p2pie[p2pielen++] = P2P_ATTR_CONF_TIMEOUT;
++
++	/*	Length: */
++	*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P GO */
++	p2pie[p2pielen++] = 200;	/*	2 seconds needed to be the P2P Client */
++
++	/* due to defult value is FAIL INFO UNAVAILABLE, so the following IE is not needed */
++#if 0
++	if (status_code == P2P_STATUS_SUCCESS) {
++		if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++			/*	The P2P Invitation request frame asks this Wi-Fi device to be the P2P GO */
++			/*	In this case, the P2P Invitation response frame should carry the two more P2P attributes. */
++			/*	First one is operating channel attribute. */
++			/*	Second one is P2P Group BSSID attribute. */
++
++			/*	Operating Channel */
++			/*	Type: */
++			p2pie[p2pielen++] = P2P_ATTR_OPERATING_CH;
++
++			/*	Length: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(0x0005);
++			p2pielen += 2;
++
++			/*	Value: */
++			/*	Country String */
++			p2pie[p2pielen++] = 'X';
++			p2pie[p2pielen++] = 'X';
++
++			/*	The third byte should be set to 0x04. */
++			/*	Described in the "Operating Channel Attribute" section. */
++			p2pie[p2pielen++] = 0x04;
++
++			/*	Operating Class */
++			p2pie[p2pielen++] = 0x51;	/*	Copy from SD7 */
++
++			/*	Channel Number */
++			p2pie[p2pielen++] = pwdinfo->operating_channel;	/*	operating channel number */
++
++
++			/*	P2P Group BSSID */
++			/*	Type: */
++			p2pie[p2pielen++] = P2P_ATTR_GROUP_BSSID;
++
++			/*	Length: */
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(ETH_ALEN);
++			p2pielen += 2;
++
++			/*	Value: */
++			/*	P2P Device Address for GO */
++			_rtw_memcpy(p2pie + p2pielen, adapter_mac_addr(padapter), ETH_ALEN);
++			p2pielen += ETH_ALEN;
++
++		}
++
++		/*	Channel List */
++		/*	Type: */
++		p2pie[p2pielen++] = P2P_ATTR_CH_LIST;
++
++		/*	Length: */
++		/* Country String(3) */
++		/* + ( Operating Class (1) + Number of Channels(1) ) * Operation Classes (?) */
++		/* + number of channels in all classes */
++		len_channellist_attr = 3
++			+ (1 + 1) * (u16)pmlmeext->channel_list.reg_classes
++			+ get_reg_classes_full_count(pmlmeext->channel_list);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(5 + 1);
++		else
++			*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++
++#else
++
++		*(u16 *)(p2pie + p2pielen) = cpu_to_le16(len_channellist_attr);
++
++#endif
++		p2pielen += 2;
++
++		/*	Value: */
++		/*	Country String */
++		p2pie[p2pielen++] = 'X';
++		p2pie[p2pielen++] = 'X';
++
++		/*	The third byte should be set to 0x04. */
++		/*	Described in the "Operating Channel Attribute" section. */
++		p2pie[p2pielen++] = 0x04;
++
++		/*	Channel Entry List */
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED)) {
++			u8 union_ch = rtw_mi_get_union_chan(padapter);
++
++			/*	Operating Class */
++			if (union_ch > 14) {
++				if (union_ch >= 149)
++					p2pie[p2pielen++] = 0x7c;
++				else
++					p2pie[p2pielen++] = 0x73;
++
++			} else
++				p2pie[p2pielen++] = 0x51;
++
++
++			/*	Number of Channels */
++			/*	Just support 1 channel and this channel is AP's channel */
++			p2pie[p2pielen++] = 1;
++
++			/*	Channel List */
++			p2pie[p2pielen++] = union_ch;
++		} else {
++			int i, j;
++			for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++				/*	Operating Class */
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++				/*	Number of Channels */
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++				/*	Channel List */
++				for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++					p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++			}
++		}
++#else /* CONFIG_CONCURRENT_MODE */
++		{
++			int i, j;
++			for (j = 0; j < pmlmeext->channel_list.reg_classes; j++) {
++				/*	Operating Class */
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].reg_class;
++
++				/*	Number of Channels */
++				p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channels;
++
++				/*	Channel List */
++				for (i = 0; i < pmlmeext->channel_list.reg_class[j].channels; i++)
++					p2pie[p2pielen++] = pmlmeext->channel_list.reg_class[j].channel[i];
++			}
++		}
++#endif /* CONFIG_CONCURRENT_MODE */
++	}
++#endif
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2pie, &pktlen);
++
++#ifdef CONFIG_WFD
++	wfdielen = build_invitation_resp_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pktlen += wfdielen;
++#endif
++
++	*pLength = pktlen;
++
++#if 0
++	/* printf dbg msg */
++	dbgbufLen = pktlen;
++	RTW_INFO("======> DBG MSG FOR CONSTRAUCT Invite Rsp\n");
++
++	for (index = 0; index < dbgbufLen; index++)
++		printk("%x ", *(dbgbuf + index));
++
++	printk("\n");
++	RTW_INFO("<====== DBG MSG FOR CONSTRAUCT Invite Rsp\n");
++#endif
++}
++
++
++static void rtw_hal_construct_P2PProvisionDisRsp(_adapter *padapter, u8 *pframe, u32 *pLength)
++{
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u8			dialogToken = 0;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_PROVISION_DISC_RESP;
++	u8			wpsie[100] = { 0x00 };
++	u8			wpsielen = 0;
++	u32			pktlen;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	/* struct xmit_frame			*pmgntframe; */
++	/* struct pkt_attrib			*pattrib; */
++	/* unsigned char					*pframe; */
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	/* for debug */
++	u8 *dbgbuf = pframe;
++	u8 dbgbufLen = 0, index = 0;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	/* RA filled by FW */
++	_rtw_memset(pwlanhdr->addr1, 0, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0);
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pktlen));
++	/* dialog token, filled by FW */
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pktlen));
++
++	wpsielen = 0;
++	/*	WPS OUI */
++	/* *(u32*) ( wpsie ) = cpu_to_be32( WPSOUI ); */
++	RTW_PUT_BE32(wpsie, WPSOUI);
++	wpsielen += 4;
++
++#if 0
++	/*	WPS version */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++	wpsielen += 2;
++
++	/*	Value: */
++	wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++#endif
++
++	/*	Config Method */
++	/*	Type: */
++	/* *(u16*) ( wpsie + wpsielen ) = cpu_to_be16( WPS_ATTR_CONF_METHOD ); */
++	RTW_PUT_BE16(wpsie + wpsielen, WPS_ATTR_CONF_METHOD);
++	wpsielen += 2;
++
++	/*	Length: */
++	/* *(u16*) ( wpsie + wpsielen ) = cpu_to_be16( 0x0002 ); */
++	RTW_PUT_BE16(wpsie + wpsielen, 0x0002);
++	wpsielen += 2;
++
++	/*	Value: filled by FW, default value is PBC */
++	/* *(u16*) ( wpsie + wpsielen ) = cpu_to_be16( config_method ); */
++	RTW_PUT_BE16(wpsie + wpsielen, WPS_CM_PUSH_BUTTON);
++	wpsielen += 2;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pktlen);
++
++#ifdef CONFIG_WFD
++	wfdielen = build_provdisc_resp_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pktlen += wfdielen;
++#endif
++
++	*pLength = pktlen;
++
++	/* printf dbg msg */
++#if 0
++	dbgbufLen = pktlen;
++	RTW_INFO("======> DBG MSG FOR CONSTRAUCT  ProvisionDis Rsp\n");
++
++	for (index = 0; index < dbgbufLen; index++)
++		printk("%x ", *(dbgbuf + index));
++
++	printk("\n");
++	RTW_INFO("<====== DBG MSG FOR CONSTRAUCT ProvisionDis Rsp\n");
++#endif
++}
++
++u8 rtw_hal_set_FwP2PRsvdPage_cmd(_adapter *adapter, PRSVDPAGE_LOC rsvdpageloc)
++{
++	u8 u1H2CP2PRsvdPageParm[H2C_P2PRSVDPAGE_LOC_LEN] = {0};
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	u8 ret = _FAIL;
++
++	RTW_INFO("P2PRsvdPageLoc: P2PBeacon=%d P2PProbeRsp=%d NegoRsp=%d InviteRsp=%d PDRsp=%d\n",
++		 rsvdpageloc->LocP2PBeacon, rsvdpageloc->LocP2PProbeRsp,
++		 rsvdpageloc->LocNegoRsp, rsvdpageloc->LocInviteRsp,
++		 rsvdpageloc->LocPDRsp);
++
++	SET_H2CCMD_RSVDPAGE_LOC_P2P_BCN(u1H2CP2PRsvdPageParm, rsvdpageloc->LocProbeRsp);
++	SET_H2CCMD_RSVDPAGE_LOC_P2P_PROBE_RSP(u1H2CP2PRsvdPageParm, rsvdpageloc->LocPsPoll);
++	SET_H2CCMD_RSVDPAGE_LOC_P2P_NEGO_RSP(u1H2CP2PRsvdPageParm, rsvdpageloc->LocNullData);
++	SET_H2CCMD_RSVDPAGE_LOC_P2P_INVITE_RSP(u1H2CP2PRsvdPageParm, rsvdpageloc->LocQosNull);
++	SET_H2CCMD_RSVDPAGE_LOC_P2P_PD_RSP(u1H2CP2PRsvdPageParm, rsvdpageloc->LocBTQosNull);
++
++	/* FillH2CCmd8723B(padapter, H2C_8723B_P2P_OFFLOAD_RSVD_PAGE, H2C_P2PRSVDPAGE_LOC_LEN, u1H2CP2PRsvdPageParm); */
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_P2P_OFFLOAD_RSVD_PAGE,
++				   H2C_P2PRSVDPAGE_LOC_LEN,
++				   u1H2CP2PRsvdPageParm);
++
++	return ret;
++}
++
++u8 rtw_hal_set_p2p_wowlan_offload_cmd(_adapter *adapter)
++{
++
++	u8 offload_cmd[H2C_P2P_OFFLOAD_LEN] = {0};
++	struct wifidirect_info	*pwdinfo = &(adapter->wdinfo);
++	struct P2P_WoWlan_Offload_t *p2p_wowlan_offload = (struct P2P_WoWlan_Offload_t *)offload_cmd;
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	u8 ret = _FAIL;
++
++	_rtw_memset(p2p_wowlan_offload, 0 , sizeof(struct P2P_WoWlan_Offload_t));
++	RTW_INFO("%s\n", __func__);
++	switch (pwdinfo->role) {
++	case P2P_ROLE_DEVICE:
++		RTW_INFO("P2P_ROLE_DEVICE\n");
++		p2p_wowlan_offload->role = 0;
++		break;
++	case P2P_ROLE_CLIENT:
++		RTW_INFO("P2P_ROLE_CLIENT\n");
++		p2p_wowlan_offload->role = 1;
++		break;
++	case P2P_ROLE_GO:
++		RTW_INFO("P2P_ROLE_GO\n");
++		p2p_wowlan_offload->role = 2;
++		break;
++	default:
++		RTW_INFO("P2P_ROLE_DISABLE\n");
++		break;
++	}
++	p2p_wowlan_offload->Wps_Config[0] = pwdinfo->supported_wps_cm >> 8;
++	p2p_wowlan_offload->Wps_Config[1] = pwdinfo->supported_wps_cm;
++	offload_cmd = (u8 *)p2p_wowlan_offload;
++	RTW_INFO("p2p_wowlan_offload: %x:%x:%x\n", offload_cmd[0], offload_cmd[1], offload_cmd[2]);
++
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_P2P_OFFLOAD,
++				   H2C_P2P_OFFLOAD_LEN,
++				   offload_cmd);
++	return ret;
++
++	/* FillH2CCmd8723B(adapter, H2C_8723B_P2P_OFFLOAD, sizeof(struct P2P_WoWlan_Offload_t), (u8 *)p2p_wowlan_offload); */
++}
++#endif /* CONFIG_P2P_WOWLAN */
++
++static void rtw_hal_construct_beacon(_adapter *padapter,
++				     u8 *pframe, u32 *pLength)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;
++	u32					rate_len, pktlen;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(cur_network), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0/*pmlmeext->mgnt_seq*/);
++	/* pmlmeext->mgnt_seq++; */
++	SetFrameSubType(pframe, WIFI_BEACON);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	/* timestamp will be inserted by hardware */
++	pframe += 8;
++	pktlen += 8;
++
++	/* beacon interval: 2 bytes */
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_beacon_interval_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	pktlen += 2;
++
++	/* capability info: 2 bytes */
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_capability_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	pktlen += 2;
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) {
++		/* RTW_INFO("ie len=%d\n", cur_network->IELength); */
++		pktlen += cur_network->IELength - sizeof(NDIS_802_11_FIXED_IEs);
++		_rtw_memcpy(pframe, cur_network->IEs + sizeof(NDIS_802_11_FIXED_IEs), pktlen);
++
++		goto _ConstructBeacon;
++	}
++
++	/* below for ad-hoc mode */
++
++	/* SSID */
++	pframe = rtw_set_ie(pframe, _SSID_IE_, cur_network->Ssid.SsidLength, cur_network->Ssid.Ssid, &pktlen);
++
++	/* supported rates... */
++	rate_len = rtw_get_rateset_len(cur_network->SupportedRates);
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, ((rate_len > 8) ? 8 : rate_len), cur_network->SupportedRates, &pktlen);
++
++	/* DS parameter set */
++	pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&(cur_network->Configuration.DSConfig), &pktlen);
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) {
++		u32 ATIMWindow;
++		/* IBSS Parameter Set... */
++		/* ATIMWindow = cur->Configuration.ATIMWindow; */
++		ATIMWindow = 0;
++		pframe = rtw_set_ie(pframe, _IBSS_PARA_IE_, 2, (unsigned char *)(&ATIMWindow), &pktlen);
++	}
++
++
++	/* todo: ERP IE */
++
++
++	/* EXTERNDED SUPPORTED RATE */
++	if (rate_len > 8)
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_, (rate_len - 8), (cur_network->SupportedRates + 8), &pktlen);
++
++
++	/* todo:HT for adhoc */
++
++_ConstructBeacon:
++
++	if ((pktlen + TXDESC_SIZE) > 512) {
++		RTW_INFO("beacon frame too large\n");
++		return;
++	}
++
++	*pLength = pktlen;
++
++	/* RTW_INFO("%s bcn_sz=%d\n", __FUNCTION__, pktlen); */
++
++}
++
++static void rtw_hal_construct_PSPoll(_adapter *padapter,
++				     u8 *pframe, u32 *pLength)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;
++	u32					pktlen;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	/* Frame control. */
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	SetPwrMgt(fctrl);
++	SetFrameSubType(pframe, WIFI_PSPOLL);
++
++	/* AID. */
++	SetDuration(pframe, (pmlmeinfo->aid | 0xc000));
++
++	/* BSSID. */
++	_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	/* TA. */
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++
++	*pLength = 16;
++}
++
++void rtw_hal_construct_NullFunctionData(
++	PADAPTER padapter,
++	u8		*pframe,
++	u32		*pLength,
++	u8		*StaAddr,
++	u8		bQoS,
++	u8		AC,
++	u8		bEosp,
++	u8		bForcePowerSave)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16						*fctrl;
++	u32						pktlen;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network		*cur_network = &pmlmepriv->cur_network;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++
++	/* RTW_INFO("%s:%d\n", __FUNCTION__, bForcePowerSave); */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++	if (bForcePowerSave)
++		SetPwrMgt(fctrl);
++
++	switch (cur_network->network.InfrastructureMode) {
++	case Ndis802_11Infrastructure:
++		SetToDs(fctrl);
++		_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, StaAddr, ETH_ALEN);
++		break;
++	case Ndis802_11APMode:
++		SetFrDs(fctrl);
++		_rtw_memcpy(pwlanhdr->addr1, StaAddr, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++		break;
++	case Ndis802_11IBSS:
++	default:
++		_rtw_memcpy(pwlanhdr->addr1, StaAddr, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++		break;
++	}
++
++	SetSeqNum(pwlanhdr, 0);
++
++	if (bQoS == _TRUE) {
++		struct rtw_ieee80211_hdr_3addr_qos *pwlanqoshdr;
++
++		SetFrameSubType(pframe, WIFI_QOS_DATA_NULL);
++
++		pwlanqoshdr = (struct rtw_ieee80211_hdr_3addr_qos *)pframe;
++		SetPriority(&pwlanqoshdr->qc, AC);
++		SetEOSP(&pwlanqoshdr->qc, bEosp);
++
++		pktlen = sizeof(struct rtw_ieee80211_hdr_3addr_qos);
++	} else {
++		SetFrameSubType(pframe, WIFI_DATA_NULL);
++
++		pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	}
++
++	*pLength = pktlen;
++}
++
++void rtw_hal_construct_ProbeRsp(_adapter *padapter, u8 *pframe, u32 *pLength,
++				u8 *StaAddr, BOOLEAN bHideSSID)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;
++	u8					*mac, *bssid;
++	u32					pktlen;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX  *cur_network = &(pmlmeinfo->network);
++
++	/*RTW_INFO("%s\n", __FUNCTION__);*/
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	mac = adapter_mac_addr(padapter);
++	bssid = cur_network->MacAddress;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	_rtw_memcpy(pwlanhdr->addr1, StaAddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, mac, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, bssid, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0);
++	SetFrameSubType(fctrl, WIFI_PROBERSP);
++
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	pframe += pktlen;
++
++	if (cur_network->IELength > MAX_IE_SZ)
++		return;
++
++	_rtw_memcpy(pframe, cur_network->IEs, cur_network->IELength);
++	pframe += cur_network->IELength;
++	pktlen += cur_network->IELength;
++
++	*pLength = pktlen;
++}
++
++#ifdef CONFIG_WOWLAN
++/*
++ * Description:
++ *	Construct the ARP response packet to support ARP offload.
++ *   */
++static void rtw_hal_construct_ARPRsp(
++	PADAPTER padapter,
++	u8			*pframe,
++	u32			*pLength,
++	u8			*pIPAddress
++)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16	*fctrl;
++	u32	pktlen;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network	*cur_network = &pmlmepriv->cur_network;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++	static u8	ARPLLCHeader[8] = {0xAA, 0xAA, 0x03, 0x00, 0x00, 0x00, 0x08, 0x06};
++	u8	*pARPRspPkt = pframe;
++	/* for TKIP Cal MIC */
++	u8	*payload = pframe;
++	u8	EncryptionHeadOverhead = 0;
++	/* RTW_INFO("%s:%d\n", __FUNCTION__, bForcePowerSave); */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	/* ------------------------------------------------------------------------- */
++	/* MAC Header. */
++	/* ------------------------------------------------------------------------- */
++	SetFrameType(fctrl, WIFI_DATA);
++	/* SetFrameSubType(fctrl, 0); */
++	SetToDs(fctrl);
++	_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0);
++	SetDuration(pwlanhdr, 0);
++	/* SET_80211_HDR_FRAME_CONTROL(pARPRspPkt, 0); */
++	/* SET_80211_HDR_TYPE_AND_SUBTYPE(pARPRspPkt, Type_Data); */
++	/* SET_80211_HDR_TO_DS(pARPRspPkt, 1); */
++	/* SET_80211_HDR_ADDRESS1(pARPRspPkt, pMgntInfo->Bssid); */
++	/* SET_80211_HDR_ADDRESS2(pARPRspPkt, Adapter->CurrentAddress); */
++	/* SET_80211_HDR_ADDRESS3(pARPRspPkt, pMgntInfo->Bssid); */
++
++	/* SET_80211_HDR_DURATION(pARPRspPkt, 0); */
++	/* SET_80211_HDR_FRAGMENT_SEQUENCE(pARPRspPkt, 0); */
++#ifdef CONFIG_WAPI_SUPPORT
++	*pLength = sMacHdrLng;
++#else
++	*pLength = 24;
++#endif
++	switch (psecuritypriv->dot11PrivacyAlgrthm) {
++	case _WEP40_:
++	case _WEP104_:
++		EncryptionHeadOverhead = 4;
++		break;
++	case _TKIP_:
++		EncryptionHeadOverhead = 8;
++		break;
++	case _AES_:
++		EncryptionHeadOverhead = 8;
++		break;
++#ifdef CONFIG_WAPI_SUPPORT
++	case _SMS4_:
++		EncryptionHeadOverhead = 18;
++		break;
++#endif
++	default:
++		EncryptionHeadOverhead = 0;
++	}
++
++	if (EncryptionHeadOverhead > 0) {
++		_rtw_memset(&(pframe[*pLength]), 0, EncryptionHeadOverhead);
++		*pLength += EncryptionHeadOverhead;
++		/* SET_80211_HDR_WEP(pARPRspPkt, 1);  */ /* Suggested by CCW. */
++		SetPrivacy(fctrl);
++	}
++
++	/* ------------------------------------------------------------------------- */
++	/* Frame Body. */
++	/* ------------------------------------------------------------------------- */
++	pARPRspPkt = (u8 *)(pframe + *pLength);
++	payload = pARPRspPkt; /* Get Payload pointer */
++	/* LLC header */
++	_rtw_memcpy(pARPRspPkt, ARPLLCHeader, 8);
++	*pLength += 8;
++
++	/* ARP element */
++	pARPRspPkt += 8;
++	SET_ARP_PKT_HW(pARPRspPkt, 0x0100);
++	SET_ARP_PKT_PROTOCOL(pARPRspPkt, 0x0008);	/* IP protocol */
++	SET_ARP_PKT_HW_ADDR_LEN(pARPRspPkt, 6);
++	SET_ARP_PKT_PROTOCOL_ADDR_LEN(pARPRspPkt, 4);
++	SET_ARP_PKT_OPERATION(pARPRspPkt, 0x0200);	/* ARP response */
++	SET_ARP_PKT_SENDER_MAC_ADDR(pARPRspPkt, adapter_mac_addr(padapter));
++	SET_ARP_PKT_SENDER_IP_ADDR(pARPRspPkt, pIPAddress);
++#ifdef CONFIG_ARP_KEEP_ALIVE
++	if (!is_zero_mac_addr(pmlmepriv->gw_mac_addr)) {
++		SET_ARP_PKT_TARGET_MAC_ADDR(pARPRspPkt, pmlmepriv->gw_mac_addr);
++		SET_ARP_PKT_TARGET_IP_ADDR(pARPRspPkt, pmlmepriv->gw_ip);
++	} else
++#endif
++	{
++		SET_ARP_PKT_TARGET_MAC_ADDR(pARPRspPkt,
++				    get_my_bssid(&(pmlmeinfo->network)));
++		SET_ARP_PKT_TARGET_IP_ADDR(pARPRspPkt,
++					   pIPAddress);
++		RTW_INFO("%s Target Mac Addr:" MAC_FMT "\n", __FUNCTION__,
++			 MAC_ARG(get_my_bssid(&(pmlmeinfo->network))));
++		RTW_INFO("%s Target IP Addr" IP_FMT "\n", __FUNCTION__,
++			 IP_ARG(pIPAddress));
++	}
++
++	*pLength += 28;
++
++	if (psecuritypriv->dot11PrivacyAlgrthm == _TKIP_) {
++		u8	mic[8];
++		struct mic_data	micdata;
++		struct sta_info	*psta = NULL;
++		u8	priority[4] = {0x0, 0x0, 0x0, 0x0};
++		u8	null_key[16] = {0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0};
++
++		RTW_INFO("%s(): Add MIC\n", __FUNCTION__);
++
++		psta = rtw_get_stainfo(&padapter->stapriv,
++				       get_my_bssid(&(pmlmeinfo->network)));
++		if (psta != NULL) {
++			if (_rtw_memcmp(&psta->dot11tkiptxmickey.skey[0],
++					null_key, 16) == _TRUE) {
++				RTW_INFO("%s(): STA dot11tkiptxmickey==0\n",
++					 __func__);
++			}
++			/* start to calculate the mic code */
++			rtw_secmicsetkey(&micdata,
++					 &psta->dot11tkiptxmickey.skey[0]);
++		}
++
++		rtw_secmicappend(&micdata, pwlanhdr->addr3, 6);  /* DA */
++
++		rtw_secmicappend(&micdata, pwlanhdr->addr2, 6); /* SA */
++
++		priority[0] = 0;
++
++		rtw_secmicappend(&micdata, &priority[0], 4);
++
++		rtw_secmicappend(&micdata, payload, 36); /* payload length = 8 + 28 */
++
++		rtw_secgetmic(&micdata, &(mic[0]));
++
++		pARPRspPkt += 28;
++		_rtw_memcpy(pARPRspPkt, &(mic[0]), 8);
++
++		*pLength += 8;
++	}
++}
++
++#ifdef CONFIG_PNO_SUPPORT
++static void rtw_hal_construct_ProbeReq(_adapter *padapter, u8 *pframe,
++				       u32 *pLength, pno_ssid_t *ssid)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16				*fctrl;
++	u32				pktlen;
++	unsigned char			*mac;
++	unsigned char			bssrate[NumRates];
++	struct xmit_priv		*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	int	bssrate_len = 0;
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++	mac = adapter_mac_addr(padapter);
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, bc_addr, ETH_ALEN);
++
++	_rtw_memcpy(pwlanhdr->addr2, mac, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0);
++	SetFrameSubType(pframe, WIFI_PROBEREQ);
++
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	pframe += pktlen;
++
++	if (ssid == NULL)
++		pframe = rtw_set_ie(pframe, _SSID_IE_, 0, NULL, &pktlen);
++	else {
++		/* RTW_INFO("%s len:%d\n", ssid->SSID, ssid->SSID_len); */
++		pframe = rtw_set_ie(pframe, _SSID_IE_, ssid->SSID_len, ssid->SSID, &pktlen);
++	}
++
++	get_rate_set(padapter, bssrate, &bssrate_len);
++
++	if (bssrate_len > 8) {
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , 8, bssrate, &pktlen);
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_ , (bssrate_len - 8), (bssrate + 8), &pktlen);
++	} else
++		pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_ , bssrate_len , bssrate, &pktlen);
++
++	*pLength = pktlen;
++}
++
++static void rtw_hal_construct_PNO_info(_adapter *padapter,
++				       u8 *pframe, u32 *pLength)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	int i;
++
++	u8	*pPnoInfoPkt = pframe;
++	pPnoInfoPkt = (u8 *)(pframe + *pLength);
++	_rtw_memcpy(pPnoInfoPkt, &pwrctl->pnlo_info->ssid_num, 1);
++
++	pPnoInfoPkt += 1;
++	_rtw_memcpy(pPnoInfoPkt, &pwrctl->pnlo_info->hidden_ssid_num, 1);
++
++	pPnoInfoPkt += 3;
++	_rtw_memcpy(pPnoInfoPkt, &pwrctl->pnlo_info->fast_scan_period, 1);
++
++	pPnoInfoPkt += 4;
++	_rtw_memcpy(pPnoInfoPkt, &pwrctl->pnlo_info->fast_scan_iterations, 4);
++
++	pPnoInfoPkt += 4;
++	_rtw_memcpy(pPnoInfoPkt, &pwrctl->pnlo_info->slow_scan_period, 4);
++
++	pPnoInfoPkt += 4;
++	_rtw_memcpy(pPnoInfoPkt, &pwrctl->pnlo_info->ssid_length, MAX_PNO_LIST_COUNT);
++
++	pPnoInfoPkt += MAX_PNO_LIST_COUNT;
++	_rtw_memcpy(pPnoInfoPkt, &pwrctl->pnlo_info->ssid_cipher_info, MAX_PNO_LIST_COUNT);
++
++	pPnoInfoPkt += MAX_PNO_LIST_COUNT;
++	_rtw_memcpy(pPnoInfoPkt, &pwrctl->pnlo_info->ssid_channel_info, MAX_PNO_LIST_COUNT);
++
++	pPnoInfoPkt += MAX_PNO_LIST_COUNT;
++	_rtw_memcpy(pPnoInfoPkt, &pwrctl->pnlo_info->loc_probe_req, MAX_HIDDEN_AP);
++
++	pPnoInfoPkt += MAX_HIDDEN_AP;
++
++	/*
++	SSID is located at 128th Byte in NLO info Page
++	*/
++
++	*pLength += 128;
++	pPnoInfoPkt = pframe + 128;
++
++	for (i = 0; i < pwrctl->pnlo_info->ssid_num ; i++) {
++		_rtw_memcpy(pPnoInfoPkt, &pwrctl->pno_ssid_list->node[i].SSID,
++			    pwrctl->pnlo_info->ssid_length[i]);
++		*pLength += WLAN_SSID_MAXLEN;
++		pPnoInfoPkt += WLAN_SSID_MAXLEN;
++	}
++}
++
++static void rtw_hal_construct_ssid_list(_adapter *padapter,
++					u8 *pframe, u32 *pLength)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	u8 *pSSIDListPkt = pframe;
++	int i;
++
++	pSSIDListPkt = (u8 *)(pframe + *pLength);
++
++	for (i = 0; i < pwrctl->pnlo_info->ssid_num ; i++) {
++		_rtw_memcpy(pSSIDListPkt, &pwrctl->pno_ssid_list->node[i].SSID,
++			    pwrctl->pnlo_info->ssid_length[i]);
++
++		*pLength += WLAN_SSID_MAXLEN;
++		pSSIDListPkt += WLAN_SSID_MAXLEN;
++	}
++}
++
++static void rtw_hal_construct_scan_info(_adapter *padapter,
++					u8 *pframe, u32 *pLength)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	u8 *pScanInfoPkt = pframe;
++	int i;
++
++	pScanInfoPkt = (u8 *)(pframe + *pLength);
++
++	_rtw_memcpy(pScanInfoPkt, &pwrctl->pscan_info->channel_num, 1);
++
++	*pLength += 1;
++	pScanInfoPkt += 1;
++	_rtw_memcpy(pScanInfoPkt, &pwrctl->pscan_info->orig_ch, 1);
++
++
++	*pLength += 1;
++	pScanInfoPkt += 1;
++	_rtw_memcpy(pScanInfoPkt, &pwrctl->pscan_info->orig_bw, 1);
++
++
++	*pLength += 1;
++	pScanInfoPkt += 1;
++	_rtw_memcpy(pScanInfoPkt, &pwrctl->pscan_info->orig_40_offset, 1);
++
++	*pLength += 1;
++	pScanInfoPkt += 1;
++	_rtw_memcpy(pScanInfoPkt, &pwrctl->pscan_info->orig_80_offset, 1);
++
++	*pLength += 1;
++	pScanInfoPkt += 1;
++	_rtw_memcpy(pScanInfoPkt, &pwrctl->pscan_info->periodScan, 1);
++
++	*pLength += 1;
++	pScanInfoPkt += 1;
++	_rtw_memcpy(pScanInfoPkt, &pwrctl->pscan_info->period_scan_time, 1);
++
++	*pLength += 1;
++	pScanInfoPkt += 1;
++	_rtw_memcpy(pScanInfoPkt, &pwrctl->pscan_info->enableRFE, 1);
++
++	*pLength += 1;
++	pScanInfoPkt += 1;
++	_rtw_memcpy(pScanInfoPkt, &pwrctl->pscan_info->rfe_type, 8);
++
++	*pLength += 8;
++	pScanInfoPkt += 8;
++
++	for (i = 0 ; i < MAX_SCAN_LIST_COUNT ; i++) {
++		_rtw_memcpy(pScanInfoPkt,
++			    &pwrctl->pscan_info->ssid_channel_info[i], 4);
++		*pLength += 4;
++		pScanInfoPkt += 4;
++	}
++}
++#endif /* CONFIG_PNO_SUPPORT */
++
++#ifdef CONFIG_GTK_OL
++static void rtw_hal_construct_GTKRsp(
++	PADAPTER	padapter,
++	u8		*pframe,
++	u32		*pLength
++)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16	*fctrl;
++	u32	pktlen;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network	*cur_network = &pmlmepriv->cur_network;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++	static u8	LLCHeader[8] = {0xAA, 0xAA, 0x03, 0x00, 0x00, 0x00, 0x88, 0x8E};
++	static u8	GTKbody_a[11] = {0x01, 0x03, 0x00, 0x5F, 0x02, 0x03, 0x12, 0x00, 0x10, 0x42, 0x0B};
++	u8	*pGTKRspPkt = pframe;
++	u8	EncryptionHeadOverhead = 0;
++	/* RTW_INFO("%s:%d\n", __FUNCTION__, bForcePowerSave); */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	/* ------------------------------------------------------------------------- */
++	/* MAC Header. */
++	/* ------------------------------------------------------------------------- */
++	SetFrameType(fctrl, WIFI_DATA);
++	/* SetFrameSubType(fctrl, 0); */
++	SetToDs(fctrl);
++
++	_rtw_memcpy(pwlanhdr->addr1,
++		    get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	_rtw_memcpy(pwlanhdr->addr2,
++		    adapter_mac_addr(padapter), ETH_ALEN);
++
++	_rtw_memcpy(pwlanhdr->addr3,
++		    get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0);
++	SetDuration(pwlanhdr, 0);
++
++#ifdef CONFIG_WAPI_SUPPORT
++	*pLength = sMacHdrLng;
++#else
++	*pLength = 24;
++#endif /* CONFIG_WAPI_SUPPORT */
++
++	/* ------------------------------------------------------------------------- */
++	/* Security Header: leave space for it if necessary. */
++	/* ------------------------------------------------------------------------- */
++	switch (psecuritypriv->dot11PrivacyAlgrthm) {
++	case _WEP40_:
++	case _WEP104_:
++		EncryptionHeadOverhead = 4;
++		break;
++	case _TKIP_:
++		EncryptionHeadOverhead = 8;
++		break;
++	case _AES_:
++		EncryptionHeadOverhead = 8;
++		break;
++#ifdef CONFIG_WAPI_SUPPORT
++	case _SMS4_:
++		EncryptionHeadOverhead = 18;
++		break;
++#endif /* CONFIG_WAPI_SUPPORT */
++	default:
++		EncryptionHeadOverhead = 0;
++	}
++
++	if (EncryptionHeadOverhead > 0) {
++		_rtw_memset(&(pframe[*pLength]), 0, EncryptionHeadOverhead);
++		*pLength += EncryptionHeadOverhead;
++		/* SET_80211_HDR_WEP(pGTKRspPkt, 1);  */ /* Suggested by CCW. */
++		/* GTK's privacy bit is done by FW */
++		/* SetPrivacy(fctrl); */
++	}
++	/* ------------------------------------------------------------------------- */
++	/* Frame Body. */
++	/* ------------------------------------------------------------------------- */
++	pGTKRspPkt = (u8 *)(pframe + *pLength);
++	/* LLC header */
++	_rtw_memcpy(pGTKRspPkt, LLCHeader, 8);
++	*pLength += 8;
++
++	/* GTK element */
++	pGTKRspPkt += 8;
++
++	/* GTK frame body after LLC, part 1 */
++	_rtw_memcpy(pGTKRspPkt, GTKbody_a, 11);
++	*pLength += 11;
++	pGTKRspPkt += 11;
++	/* GTK frame body after LLC, part 2 */
++	_rtw_memset(&(pframe[*pLength]), 0, 88);
++	*pLength += 88;
++	pGTKRspPkt += 88;
++
++}
++#endif /* CONFIG_GTK_OL */
++
++void rtw_hal_set_wow_fw_rsvd_page(_adapter *adapter, u8 *pframe, u16 index,
++		  u8 tx_desc, u32 page_size, u8 *page_num, u32 *total_pkt_len,
++				  RSVDPAGE_LOC *rsvd_page_loc)
++{
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(adapter);
++	struct mlme_ext_priv	*pmlmeext;
++	struct mlme_ext_info	*pmlmeinfo;
++	u32	ARPLegnth = 0, GTKLegnth = 0, PNOLength = 0, ScanInfoLength = 0;
++	u32	SSIDLegnth = 0, ProbeReqLength = 0;
++	u8 CurtPktPageNum = 0;
++	u8 currentip[4];
++	u8 cur_dot11txpn[8];
++
++#ifdef CONFIG_GTK_OL
++	struct sta_priv *pstapriv = &adapter->stapriv;
++	struct sta_info *psta;
++	u8 kek[RTW_KEK_LEN];
++	u8 kck[RTW_KCK_LEN];
++#endif /* CONFIG_GTK_OL */
++#ifdef CONFIG_PNO_SUPPORT
++	int pno_index;
++	u8 ssid_num;
++#endif /* CONFIG_PNO_SUPPORT */
++
++	pmlmeext = &adapter->mlmeextpriv;
++	pmlmeinfo = &pmlmeext->mlmext_info;
++
++	if (pwrctl->wowlan_pno_enable == _FALSE) {
++		/* ARP RSP * 1 page */
++		rtw_get_current_ip_address(adapter, currentip);
++
++		rsvd_page_loc->LocArpRsp = *page_num;
++
++		RTW_INFO("LocArpRsp: %d\n", rsvd_page_loc->LocArpRsp);
++
++		rtw_hal_construct_ARPRsp(adapter, &pframe[index],
++					 &ARPLegnth, currentip);
++
++		rtw_hal_fill_fake_txdesc(adapter,
++					 &pframe[index - tx_desc],
++					 ARPLegnth, _FALSE, _FALSE, _TRUE);
++
++		CurtPktPageNum = (u8)PageNum(tx_desc + ARPLegnth, page_size);
++
++		*page_num += CurtPktPageNum;
++
++		index += (CurtPktPageNum * page_size);
++
++		/* 3 SEC IV * 1 page */
++		rtw_get_sec_iv(adapter, cur_dot11txpn,
++			       get_my_bssid(&pmlmeinfo->network));
++
++		rsvd_page_loc->LocRemoteCtrlInfo = *page_num;
++
++		RTW_INFO("LocRemoteCtrlInfo: %d\n", rsvd_page_loc->LocRemoteCtrlInfo);
++
++		_rtw_memcpy(pframe + index - tx_desc, cur_dot11txpn, _AES_IV_LEN_);
++
++		CurtPktPageNum = (u8)PageNum(_AES_IV_LEN_, page_size);
++
++		*page_num += CurtPktPageNum;
++
++		*total_pkt_len = index + _AES_IV_LEN_;
++#ifdef CONFIG_GTK_OL
++		index += (CurtPktPageNum * page_size);
++
++		/* if the ap staion info. exists, get the kek, kck from staion info. */
++		psta = rtw_get_stainfo(pstapriv, get_bssid(pmlmepriv));
++		if (psta == NULL) {
++			_rtw_memset(kek, 0, RTW_KEK_LEN);
++			_rtw_memset(kck, 0, RTW_KCK_LEN);
++			RTW_INFO("%s, KEK, KCK download rsvd page all zero\n",
++				 __func__);
++		} else {
++			_rtw_memcpy(kek, psta->kek, RTW_KEK_LEN);
++			_rtw_memcpy(kck, psta->kck, RTW_KCK_LEN);
++		}
++
++		/* 3 KEK, KCK */
++		rsvd_page_loc->LocGTKInfo = *page_num;
++		RTW_INFO("LocGTKInfo: %d\n", rsvd_page_loc->LocGTKInfo);
++
++		if (IS_HARDWARE_TYPE_8188E(adapter) || IS_HARDWARE_TYPE_8812(adapter)) {
++			struct security_priv *psecpriv = NULL;
++
++			psecpriv = &adapter->securitypriv;
++			_rtw_memcpy(pframe + index - tx_desc,
++				    &psecpriv->dot11PrivacyAlgrthm, 1);
++			_rtw_memcpy(pframe + index - tx_desc + 1,
++				    &psecpriv->dot118021XGrpPrivacy, 1);
++			_rtw_memcpy(pframe + index - tx_desc + 2,
++				    kck, RTW_KCK_LEN);
++			_rtw_memcpy(pframe + index - tx_desc + 2 + RTW_KCK_LEN,
++				    kek, RTW_KEK_LEN);
++			CurtPktPageNum = (u8)PageNum(tx_desc + 2 + RTW_KCK_LEN + RTW_KEK_LEN, page_size);
++		} else {
++			_rtw_memcpy(pframe + index - tx_desc, kck, RTW_KCK_LEN);
++			_rtw_memcpy(pframe + index - tx_desc + RTW_KCK_LEN, kek, RTW_KEK_LEN);
++			CurtPktPageNum = (u8)PageNum(tx_desc + RTW_KCK_LEN + RTW_KEK_LEN, page_size);
++		}
++
++
++
++#if 0
++		{
++			int i;
++			printk("\ntoFW KCK: ");
++			for (i = 0; i < 16; i++)
++				printk(" %02x ", kck[i]);
++			printk("\ntoFW KEK: ");
++			for (i = 0; i < 16; i++)
++				printk(" %02x ", kek[i]);
++			printk("\n");
++		}
++
++		RTW_INFO("%s(): HW_VAR_SET_TX_CMD: KEK KCK %p %d\n",
++			 __FUNCTION__, &pframe[index - tx_desc],
++			 (tx_desc + RTW_KCK_LEN + RTW_KEK_LEN));
++#endif
++
++		*page_num += CurtPktPageNum;
++
++		index += (CurtPktPageNum * page_size);
++
++		/* 3 GTK Response */
++		rsvd_page_loc->LocGTKRsp = *page_num;
++		RTW_INFO("LocGTKRsp: %d\n", rsvd_page_loc->LocGTKRsp);
++		rtw_hal_construct_GTKRsp(adapter, &pframe[index], &GTKLegnth);
++
++		rtw_hal_fill_fake_txdesc(adapter, &pframe[index - tx_desc],
++					 GTKLegnth, _FALSE, _FALSE, _TRUE);
++#if 0
++		{
++			int gj;
++			printk("123GTK pkt=>\n");
++			for (gj = 0; gj < GTKLegnth + tx_desc; gj++) {
++				printk(" %02x ", pframe[index - tx_desc + gj]);
++				if ((gj + 1) % 16 == 0)
++					printk("\n");
++			}
++			printk(" <=end\n");
++		}
++
++		RTW_INFO("%s(): HW_VAR_SET_TX_CMD: GTK RSP %p %d\n",
++			 __FUNCTION__, &pframe[index - tx_desc],
++			 (tx_desc + GTKLegnth));
++#endif
++
++		CurtPktPageNum = (u8)PageNum(tx_desc + GTKLegnth, page_size);
++
++		*page_num += CurtPktPageNum;
++
++		index += (CurtPktPageNum * page_size);
++
++		/* below page is empty for GTK extension memory */
++		/* 3(11) GTK EXT MEM */
++		rsvd_page_loc->LocGTKEXTMEM = *page_num;
++		RTW_INFO("LocGTKEXTMEM: %d\n", rsvd_page_loc->LocGTKEXTMEM);
++		CurtPktPageNum = 2;
++
++		if (page_size >= 256)
++			CurtPktPageNum = 1;
++
++		*page_num += CurtPktPageNum;
++		/* extension memory for FW */
++		*total_pkt_len = index + (page_size * CurtPktPageNum);
++
++#endif /* CONFIG_GTK_OL */
++
++#ifdef CONFIG_WOW_PATTERN_HW_CAM
++		/*Reserve 1 page for AOAC report*/
++		rsvd_page_loc->LocAOACReport = *page_num;
++		RTW_INFO("LocAOACReport: %d\n", rsvd_page_loc->LocAOACReport);
++
++		*page_num += 1;
++#endif
++	} else {
++#ifdef CONFIG_PNO_SUPPORT
++		if (pwrctl->pno_in_resume == _FALSE &&
++		    pwrctl->pno_inited == _TRUE) {
++
++			/* Broadcast Probe Request */
++			rsvd_page_loc->LocProbePacket = *page_num;
++
++			RTW_INFO("loc_probe_req: %d\n",
++				 rsvd_page_loc->LocProbePacket);
++
++			rtw_hal_construct_ProbeReq(
++				adapter,
++				&pframe[index],
++				&ProbeReqLength,
++				NULL);
++
++			rtw_hal_fill_fake_txdesc(adapter,
++						 &pframe[index - tx_desc],
++				 ProbeReqLength, _FALSE, _FALSE, _FALSE);
++
++			CurtPktPageNum =
++				(u8)PageNum(tx_desc + ProbeReqLength, page_size);
++
++			*page_num += CurtPktPageNum;
++
++			index += (CurtPktPageNum * page_size);
++
++			/* Hidden SSID Probe Request */
++			ssid_num = pwrctl->pnlo_info->hidden_ssid_num;
++
++			for (pno_index = 0 ; pno_index < ssid_num ; pno_index++) {
++				pwrctl->pnlo_info->loc_probe_req[pno_index] =
++					*page_num;
++
++				rtw_hal_construct_ProbeReq(
++					adapter,
++					&pframe[index],
++					&ProbeReqLength,
++					&pwrctl->pno_ssid_list->node[pno_index]);
++
++				rtw_hal_fill_fake_txdesc(adapter,
++						 &pframe[index - tx_desc],
++					ProbeReqLength, _FALSE, _FALSE, _FALSE);
++
++				CurtPktPageNum =
++					(u8)PageNum(tx_desc + ProbeReqLength, page_size);
++
++				*page_num += CurtPktPageNum;
++
++				index += (CurtPktPageNum * page_size);
++			}
++
++			/* PNO INFO Page */
++			rsvd_page_loc->LocPNOInfo = *page_num;
++			RTW_INFO("LocPNOInfo: %d\n", rsvd_page_loc->LocPNOInfo);
++			rtw_hal_construct_PNO_info(adapter,
++						   &pframe[index - tx_desc],
++						   &PNOLength);
++
++			CurtPktPageNum = (u8)PageNum(PNOLength, page_size);
++			*page_num += CurtPktPageNum;
++			index += (CurtPktPageNum * page_size);
++
++			/* Scan Info Page */
++			rsvd_page_loc->LocScanInfo = *page_num;
++			RTW_INFO("LocScanInfo: %d\n", rsvd_page_loc->LocScanInfo);
++			rtw_hal_construct_scan_info(adapter,
++						    &pframe[index - tx_desc],
++						    &ScanInfoLength);
++
++			CurtPktPageNum = (u8)PageNum(ScanInfoLength, page_size);
++			*page_num += CurtPktPageNum;
++			*total_pkt_len = index + ScanInfoLength;
++			index += (CurtPktPageNum * page_size);
++
++		}
++#endif /* CONFIG_PNO_SUPPORT */
++	}
++}
++
++static void rtw_hal_gate_bb(_adapter *adapter, bool stop)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++	u8 val8 = 0;
++	u16 val16 = 0;
++
++	if (stop) {
++		/* Pause TX*/
++		pwrpriv->wowlan_txpause_status = rtw_read8(adapter, REG_TXPAUSE);
++		rtw_write8(adapter, REG_TXPAUSE, 0xff);
++		val8 = rtw_read8(adapter, REG_SYS_FUNC_EN);
++		val8 &= ~BIT(0);
++		rtw_write8(adapter, REG_SYS_FUNC_EN, val8);
++		RTW_INFO("%s: BB gated: 0x%02x, store TXPAUSE: %02x\n",
++			 __func__,
++			 rtw_read8(adapter, REG_SYS_FUNC_EN),
++			 pwrpriv->wowlan_txpause_status);
++	} else {
++		val8 = rtw_read8(adapter, REG_SYS_FUNC_EN);
++		val8 |= BIT(0);
++		rtw_write8(adapter, REG_SYS_FUNC_EN, val8);
++		RTW_INFO("%s: BB release: 0x%02x, recover TXPAUSE:%02x\n",
++			 __func__, rtw_read8(adapter, REG_SYS_FUNC_EN),
++			 pwrpriv->wowlan_txpause_status);
++		/* release TX*/
++		rtw_write8(adapter, REG_TXPAUSE, pwrpriv->wowlan_txpause_status);
++	}
++}
++
++static void rtw_hal_reset_mac_rx(_adapter *adapter)
++{
++	u8 val8 = 0;
++	/* Set REG_CR bit1, bit3, bit7 to 0*/
++	val8 = rtw_read8(adapter, REG_CR);
++	val8 &= 0x75;
++	rtw_write8(adapter, REG_CR, val8);
++	val8 = rtw_read8(adapter, REG_CR);
++	/* Set REG_CR bit1, bit3, bit7 to 1*/
++	val8 |= 0x8a;
++	rtw_write8(adapter, REG_CR, val8);
++	RTW_INFO("0x%04x: %02x\n", REG_CR, rtw_read8(adapter, REG_CR));
++}
++
++static u8 rtw_hal_wow_pattern_generate(_adapter *adapter, u8 idx, struct rtl_wow_pattern *pwow_pattern)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(adapter);
++	 u8 *pattern;
++	 u8 len = 0;
++	 u8 *mask;
++
++	u8 mask_hw[MAX_WKFM_SIZE] = {0};
++	u8 content[MAX_WKFM_PATTERN_SIZE] = {0};
++	u8 broadcast_addr[6] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u8 multicast_addr1[2] = {0x33, 0x33};
++	u8 multicast_addr2[3] = {0x01, 0x00, 0x5e};
++	u8  mask_len = 0;
++	u8 mac_addr[ETH_ALEN] = {0};
++	u16 count = 0;
++	int i, j;
++
++	if (pwrctl->wowlan_pattern_idx > MAX_WKFM_CAM_NUM) {
++		RTW_INFO("%s pattern_idx is more than MAX_FMC_NUM: %d\n",
++			 __func__, MAX_WKFM_CAM_NUM);
++		return _FAIL;
++	}
++
++	pattern = pwrctl->patterns[idx].content;
++	len = pwrctl->patterns[idx].len;
++	mask = pwrctl->patterns[idx].mask;
++
++	_rtw_memcpy(mac_addr, adapter_mac_addr(adapter), ETH_ALEN);
++	_rtw_memset(pwow_pattern, 0, sizeof(struct rtl_wow_pattern));
++
++	mask_len = DIV_ROUND_UP(len, 8);
++
++	/* 1. setup A1 table */
++	if (memcmp(pattern, broadcast_addr, ETH_ALEN) == 0)
++		pwow_pattern->type = PATTERN_BROADCAST;
++	else if (memcmp(pattern, multicast_addr1, 2) == 0)
++		pwow_pattern->type = PATTERN_MULTICAST;
++	else if (memcmp(pattern, multicast_addr2, 3) == 0)
++		pwow_pattern->type = PATTERN_MULTICAST;
++	else if (memcmp(pattern, mac_addr, ETH_ALEN) == 0)
++		pwow_pattern->type = PATTERN_UNICAST;
++	else
++		pwow_pattern->type = PATTERN_INVALID;
++
++	/* translate mask from os to mask for hw */
++
++	/******************************************************************************
++	 * pattern from OS uses 'ethenet frame', like this:
++
++		|    6   |    6   |   2  |     20    |  Variable  |  4  |
++		|--------+--------+------+-----------+------------+-----|
++		|    802.3 Mac Header    | IP Header | TCP Packet | FCS |
++		|   DA   |   SA   | Type |
++
++	 * BUT, packet catched by our HW is in '802.11 frame', begin from LLC,
++
++		|     24 or 30      |    6   |   2  |     20    |  Variable  |  4  |
++		|-------------------+--------+------+-----------+------------+-----|
++		| 802.11 MAC Header |       LLC     | IP Header | TCP Packet | FCS |
++				    | Others | Tpye |
++
++	 * Therefore, we need translate mask_from_OS to mask_to_hw.
++	 * We should left-shift mask by 6 bits, then set the new bit[0~5] = 0,
++	 * because new mask[0~5] means 'SA', but our HW packet begins from LLC,
++	 * bit[0~5] corresponds to first 6 Bytes in LLC, they just don't match.
++	 ******************************************************************************/
++	/* Shift 6 bits */
++	for (i = 0; i < mask_len - 1; i++) {
++		mask_hw[i] = mask[i] >> 6;
++		mask_hw[i] |= (mask[i + 1] & 0x3F) << 2;
++	}
++
++	mask_hw[i] = (mask[i] >> 6) & 0x3F;
++	/* Set bit 0-5 to zero */
++	mask_hw[0] &= 0xC0;
++
++	for (i = 0; i < (MAX_WKFM_SIZE / 4); i++) {
++		pwow_pattern->mask[i] = mask_hw[i * 4];
++		pwow_pattern->mask[i] |= (mask_hw[i * 4 + 1] << 8);
++		pwow_pattern->mask[i] |= (mask_hw[i * 4 + 2] << 16);
++		pwow_pattern->mask[i] |= (mask_hw[i * 4 + 3] << 24);
++	}
++
++	/* To get the wake up pattern from the mask.
++	 * We do not count first 12 bits which means
++	 * DA[6] and SA[6] in the pattern to match HW design. */
++	count = 0;
++	for (i = 12; i < len; i++) {
++		if ((mask[i / 8] >> (i % 8)) & 0x01) {
++			content[count] = pattern[i];
++			count++;
++		}
++	}
++
++	pwow_pattern->crc = rtw_calc_crc(content, count);
++
++	if (pwow_pattern->crc != 0) {
++		if (pwow_pattern->type == PATTERN_INVALID)
++			pwow_pattern->type = PATTERN_VALID;
++	}
++
++	return _SUCCESS;
++}
++
++#ifndef CONFIG_WOW_PATTERN_HW_CAM
++static void rtw_hal_set_wow_rxff_boundary(_adapter *adapter, bool wow_mode)
++{
++	u8 val8 = 0;
++	u16 rxff_bndy = 0;
++	u32 rx_dma_buff_sz = 0;
++
++	val8 = rtw_read8(adapter, REG_FIFOPAGE + 3);
++	if (val8 != 0)
++		RTW_INFO("%s:[%04x]some PKTs in TXPKTBUF\n",
++			 __func__, (REG_FIFOPAGE + 3));
++
++	rtw_hal_reset_mac_rx(adapter);
++
++	if (wow_mode) {
++		rtw_hal_get_def_var(adapter, HAL_DEF_RX_DMA_SZ_WOW,
++				    (u8 *)&rx_dma_buff_sz);
++		rxff_bndy = rx_dma_buff_sz - 1;
++
++		rtw_write16(adapter, (REG_TRXFF_BNDY + 2), rxff_bndy);
++		RTW_INFO("%s: wow mode, 0x%04x: 0x%04x\n", __func__,
++			 REG_TRXFF_BNDY + 2,
++			 rtw_read16(adapter, (REG_TRXFF_BNDY + 2)));
++	} else {
++		rtw_hal_get_def_var(adapter, HAL_DEF_RX_DMA_SZ,
++				    (u8 *)&rx_dma_buff_sz);
++		rxff_bndy = rx_dma_buff_sz - 1;
++		rtw_write16(adapter, (REG_TRXFF_BNDY + 2), rxff_bndy);
++		RTW_INFO("%s: normal mode, 0x%04x: 0x%04x\n", __func__,
++			 REG_TRXFF_BNDY + 2,
++			 rtw_read16(adapter, (REG_TRXFF_BNDY + 2)));
++	}
++}
++
++bool rtw_read_from_frame_mask(_adapter *adapter, u8 idx)
++{
++	u32 data_l = 0, data_h = 0, rx_dma_buff_sz = 0, page_sz = 0;
++	u16 offset, rx_buf_ptr = 0;
++	u16 cam_start_offset = 0;
++	u16 ctrl_l = 0, ctrl_h = 0;
++	u8 count = 0, tmp = 0;
++	int i = 0;
++	bool res = _TRUE;
++
++	if (idx > MAX_WKFM_CAM_NUM) {
++		RTW_INFO("[Error]: %s, pattern index is out of range\n",
++			 __func__);
++		return _FALSE;
++	}
++
++	rtw_hal_get_def_var(adapter, HAL_DEF_RX_DMA_SZ_WOW,
++			    (u8 *)&rx_dma_buff_sz);
++
++	if (rx_dma_buff_sz == 0) {
++		RTW_INFO("[Error]: %s, rx_dma_buff_sz is 0!!\n", __func__);
++		return _FALSE;
++	}
++
++	rtw_hal_get_def_var(adapter, HAL_DEF_RX_PAGE_SIZE, (u8 *)&page_sz);
++
++	if (page_sz == 0) {
++		RTW_INFO("[Error]: %s, page_sz is 0!!\n", __func__);
++		return _FALSE;
++	}
++
++	offset = (u16)PageNum(rx_dma_buff_sz, page_sz);
++	cam_start_offset = offset * page_sz;
++
++	ctrl_l = 0x0;
++	ctrl_h = 0x0;
++
++	/* Enable RX packet buffer access */
++	rtw_write8(adapter, REG_PKT_BUFF_ACCESS_CTRL, RXPKT_BUF_SELECT);
++
++	/* Read the WKFM CAM */
++	for (i = 0; i < (WKFMCAM_ADDR_NUM / 2); i++) {
++		/*
++		 * Set Rx packet buffer offset.
++		 * RxBufer pointer increases 1, we can access 8 bytes in Rx packet buffer.
++		 * CAM start offset (unit: 1 byte) =  Index*WKFMCAM_SIZE
++		 * RxBufer pointer addr = (CAM start offset + per entry offset of a WKFMCAM)/8
++		 * * Index: The index of the wake up frame mask
++		 * * WKFMCAM_SIZE: the total size of one WKFM CAM
++		 * * per entry offset of a WKFM CAM: Addr i * 4 bytes
++		 */
++		rx_buf_ptr =
++			(cam_start_offset + idx * WKFMCAM_SIZE + i * 8) >> 3;
++		rtw_write16(adapter, REG_PKTBUF_DBG_CTRL, rx_buf_ptr);
++
++		rtw_write16(adapter, REG_RXPKTBUF_CTRL, ctrl_l);
++		data_l = rtw_read32(adapter, REG_PKTBUF_DBG_DATA_L);
++		data_h = rtw_read32(adapter, REG_PKTBUF_DBG_DATA_H);
++
++		RTW_INFO("[%d]: %08x %08x\n", i, data_h, data_l);
++
++		count = 0;
++
++		do {
++			tmp = rtw_read8(adapter, REG_RXPKTBUF_CTRL);
++			rtw_udelay_os(2);
++			count++;
++		} while (!tmp && count < 100);
++
++		if (count >= 100) {
++			RTW_INFO("%s count:%d\n", __func__, count);
++			res = _FALSE;
++		}
++	}
++
++	/* Disable RX packet buffer access */
++	rtw_write8(adapter, REG_PKT_BUFF_ACCESS_CTRL,
++		   DISABLE_TRXPKT_BUF_ACCESS);
++	return res;
++}
++
++bool rtw_write_to_frame_mask(_adapter *adapter, u8 idx,
++			     struct  rtl_wow_pattern *context)
++{
++	u32 data = 0, rx_dma_buff_sz = 0, page_sz = 0;
++	u16 offset, rx_buf_ptr = 0;
++	u16 cam_start_offset = 0;
++	u16 ctrl_l = 0, ctrl_h = 0;
++	u8 count = 0, tmp = 0;
++	int res = 0, i = 0;
++
++	if (idx > MAX_WKFM_CAM_NUM) {
++		RTW_INFO("[Error]: %s, pattern index is out of range\n",
++			 __func__);
++		return _FALSE;
++	}
++
++	rtw_hal_get_def_var(adapter, HAL_DEF_RX_DMA_SZ_WOW,
++			    (u8 *)&rx_dma_buff_sz);
++
++	if (rx_dma_buff_sz == 0) {
++		RTW_INFO("[Error]: %s, rx_dma_buff_sz is 0!!\n", __func__);
++		return _FALSE;
++	}
++
++	rtw_hal_get_def_var(adapter, HAL_DEF_RX_PAGE_SIZE, (u8 *)&page_sz);
++
++	if (page_sz == 0) {
++		RTW_INFO("[Error]: %s, page_sz is 0!!\n", __func__);
++		return _FALSE;
++	}
++
++	offset = (u16)PageNum(rx_dma_buff_sz, page_sz);
++
++	cam_start_offset = offset * page_sz;
++
++	if (IS_HARDWARE_TYPE_8188E(adapter)) {
++		ctrl_l = 0x0001;
++		ctrl_h = 0x0001;
++	} else {
++		ctrl_l = 0x0f01;
++		ctrl_h = 0xf001;
++	}
++
++	/* Enable RX packet buffer access */
++	rtw_write8(adapter, REG_PKT_BUFF_ACCESS_CTRL, RXPKT_BUF_SELECT);
++
++	/* Write the WKFM CAM */
++	for (i = 0; i < WKFMCAM_ADDR_NUM; i++) {
++		/*
++		 * Set Rx packet buffer offset.
++		 * RxBufer pointer increases 1, we can access 8 bytes in Rx packet buffer.
++		 * CAM start offset (unit: 1 byte) =  Index*WKFMCAM_SIZE
++		 * RxBufer pointer addr = (CAM start offset + per entry offset of a WKFMCAM)/8
++		 * * Index: The index of the wake up frame mask
++		 * * WKFMCAM_SIZE: the total size of one WKFM CAM
++		 * * per entry offset of a WKFM CAM: Addr i * 4 bytes
++		 */
++		rx_buf_ptr =
++			(cam_start_offset + idx * WKFMCAM_SIZE + i * 4) >> 3;
++		rtw_write16(adapter, REG_PKTBUF_DBG_CTRL, rx_buf_ptr);
++
++		if (i == 0) {
++			if (context->type == PATTERN_VALID)
++				data = BIT(31);
++			else if (context->type == PATTERN_BROADCAST)
++				data = BIT(31) | BIT(26);
++			else if (context->type == PATTERN_MULTICAST)
++				data = BIT(31) | BIT(25);
++			else if (context->type == PATTERN_UNICAST)
++				data = BIT(31) | BIT(24);
++
++			if (context->crc != 0)
++				data |= context->crc;
++
++			rtw_write32(adapter, REG_PKTBUF_DBG_DATA_L, data);
++			rtw_write16(adapter, REG_RXPKTBUF_CTRL, ctrl_l);
++		} else if (i == 1) {
++			data = 0;
++			rtw_write32(adapter, REG_PKTBUF_DBG_DATA_H, data);
++			rtw_write16(adapter, REG_RXPKTBUF_CTRL, ctrl_h);
++		} else if (i == 2 || i == 4) {
++			data = context->mask[i - 2];
++			rtw_write32(adapter, REG_PKTBUF_DBG_DATA_L, data);
++			/* write to RX packet buffer*/
++			rtw_write16(adapter, REG_RXPKTBUF_CTRL, ctrl_l);
++		} else if (i == 3 || i == 5) {
++			data = context->mask[i - 2];
++			rtw_write32(adapter, REG_PKTBUF_DBG_DATA_H, data);
++			/* write to RX packet buffer*/
++			rtw_write16(adapter, REG_RXPKTBUF_CTRL, ctrl_h);
++		}
++
++		count = 0;
++		do {
++			tmp = rtw_read8(adapter, REG_RXPKTBUF_CTRL);
++			rtw_udelay_os(2);
++			count++;
++		} while (tmp && count < 100);
++
++		if (count >= 100)
++			res = _FALSE;
++		else
++			res = _TRUE;
++	}
++
++	/* Disable RX packet buffer access */
++	rtw_write8(adapter, REG_PKT_BUFF_ACCESS_CTRL,
++		   DISABLE_TRXPKT_BUF_ACCESS);
++
++	return res;
++}
++void rtw_clean_pattern(_adapter *adapter)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(adapter);
++	struct rtl_wow_pattern zero_pattern;
++	int i = 0;
++
++	_rtw_memset(&zero_pattern, 0, sizeof(struct rtl_wow_pattern));
++
++	zero_pattern.type = PATTERN_INVALID;
++
++	for (i = 0; i < MAX_WKFM_CAM_NUM; i++)
++		rtw_write_to_frame_mask(adapter, i, &zero_pattern);
++
++	rtw_write8(adapter, REG_WKFMCAM_NUM, 0);
++}
++static int rtw_hal_set_pattern(_adapter *adapter, u8 *pattern,
++			       u8 len, u8 *mask, u8 idx)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(adapter);
++	struct mlme_ext_priv *pmlmeext = NULL;
++	struct mlme_ext_info *pmlmeinfo = NULL;
++	struct rtl_wow_pattern wow_pattern;
++	u8 mask_hw[MAX_WKFM_SIZE] = {0};
++	u8 content[MAX_WKFM_PATTERN_SIZE] = {0};
++	u8 broadcast_addr[6] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u8 multicast_addr1[2] = {0x33, 0x33};
++	u8 multicast_addr2[3] = {0x01, 0x00, 0x5e};
++	u8 res = _FALSE, index = 0, mask_len = 0;
++	u8 mac_addr[ETH_ALEN] = {0};
++	u16 count = 0;
++	int i, j;
++
++	if (pwrctl->wowlan_pattern_idx > MAX_WKFM_CAM_NUM) {
++		RTW_INFO("%s pattern_idx is more than MAX_FMC_NUM: %d\n",
++			 __func__, MAX_WKFM_CAM_NUM);
++		return _FALSE;
++	}
++
++	pmlmeext = &adapter->mlmeextpriv;
++	pmlmeinfo = &pmlmeext->mlmext_info;
++	_rtw_memcpy(mac_addr, adapter_mac_addr(adapter), ETH_ALEN);
++	_rtw_memset(&wow_pattern, 0, sizeof(struct rtl_wow_pattern));
++
++	mask_len = DIV_ROUND_UP(len, 8);
++
++	/* 1. setup A1 table */
++	if (memcmp(pattern, broadcast_addr, ETH_ALEN) == 0)
++		wow_pattern.type = PATTERN_BROADCAST;
++	else if (memcmp(pattern, multicast_addr1, 2) == 0)
++		wow_pattern.type = PATTERN_MULTICAST;
++	else if (memcmp(pattern, multicast_addr2, 3) == 0)
++		wow_pattern.type = PATTERN_MULTICAST;
++	else if (memcmp(pattern, mac_addr, ETH_ALEN) == 0)
++		wow_pattern.type = PATTERN_UNICAST;
++	else
++		wow_pattern.type = PATTERN_INVALID;
++
++	/* translate mask from os to mask for hw */
++
++/******************************************************************************
++ * pattern from OS uses 'ethenet frame', like this:
++
++	|    6   |    6   |   2  |     20    |  Variable  |  4  |
++	|--------+--------+------+-----------+------------+-----|
++	|    802.3 Mac Header    | IP Header | TCP Packet | FCS |
++	|   DA   |   SA   | Type |
++
++ * BUT, packet catched by our HW is in '802.11 frame', begin from LLC,
++
++	|     24 or 30      |    6   |   2  |     20    |  Variable  |  4  |
++	|-------------------+--------+------+-----------+------------+-----|
++	| 802.11 MAC Header |       LLC     | IP Header | TCP Packet | FCS |
++			    | Others | Tpye |
++
++ * Therefore, we need translate mask_from_OS to mask_to_hw.
++ * We should left-shift mask by 6 bits, then set the new bit[0~5] = 0,
++ * because new mask[0~5] means 'SA', but our HW packet begins from LLC,
++ * bit[0~5] corresponds to first 6 Bytes in LLC, they just don't match.
++ ******************************************************************************/
++	/* Shift 6 bits */
++	for (i = 0; i < mask_len - 1; i++) {
++		mask_hw[i] = mask[i] >> 6;
++		mask_hw[i] |= (mask[i + 1] & 0x3F) << 2;
++	}
++
++	mask_hw[i] = (mask[i] >> 6) & 0x3F;
++	/* Set bit 0-5 to zero */
++	mask_hw[0] &= 0xC0;
++
++	for (i = 0; i < (MAX_WKFM_SIZE / 4); i++) {
++		wow_pattern.mask[i] = mask_hw[i * 4];
++		wow_pattern.mask[i] |= (mask_hw[i * 4 + 1] << 8);
++		wow_pattern.mask[i] |= (mask_hw[i * 4 + 2] << 16);
++		wow_pattern.mask[i] |= (mask_hw[i * 4 + 3] << 24);
++	}
++
++	/* To get the wake up pattern from the mask.
++	 * We do not count first 12 bits which means
++	 * DA[6] and SA[6] in the pattern to match HW design. */
++	count = 0;
++	for (i = 12; i < len; i++) {
++		if ((mask[i / 8] >> (i % 8)) & 0x01) {
++			content[count] = pattern[i];
++			count++;
++		}
++	}
++
++	wow_pattern.crc = rtw_calc_crc(content, count);
++
++	if (wow_pattern.crc != 0) {
++		if (wow_pattern.type == PATTERN_INVALID)
++			wow_pattern.type = PATTERN_VALID;
++	}
++
++	index = idx;
++
++	if (!pwrctl->bInSuspend)
++		index += 2;
++
++	/* write pattern */
++	res = rtw_write_to_frame_mask(adapter, index, &wow_pattern);
++
++	if (res == _FALSE)
++		RTW_INFO("%s: ERROR!! idx: %d write_to_frame_mask_cam fail\n",
++			 __func__, idx);
++
++	return res;
++}
++void rtw_fill_pattern(_adapter *adapter)
++{
++	int i = 0, total = 0, index;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++	struct rtl_wow_pattern wow_pattern;
++
++	total = pwrpriv->wowlan_pattern_idx;
++
++	if (total > MAX_WKFM_CAM_NUM)
++		total = MAX_WKFM_CAM_NUM;
++
++	for (i = 0 ; i < total ; i++) {
++		if (_SUCCESS == rtw_hal_wow_pattern_generate(adapter, i, &wow_pattern)) {
++
++			index = i;
++			if (!pwrpriv->bInSuspend)
++				index += 2;
++
++			if (rtw_write_to_frame_mask(adapter, index, &wow_pattern) == _FALSE)
++				RTW_INFO("%s: ERROR!! idx: %d write_to_frame_mask_cam fail\n", __func__, i);
++		}
++
++	}
++	rtw_write8(adapter, REG_WKFMCAM_NUM, total);
++
++}
++
++#else /*CONFIG_WOW_PATTERN_HW_CAM*/
++
++#define WOW_CAM_ACCESS_TIMEOUT_MS	200
++#define WOW_VALID_BIT	BIT31
++#define WOW_BC_BIT		BIT26
++#define WOW_MC_BIT		BIT25
++#define WOW_UC_BIT		BIT24
++
++static u32 _rtw_wow_pattern_read_cam(_adapter *adapter, u8 addr)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++	_mutex *mutex = &pwrpriv->wowlan_pattern_cam_mutex;
++
++	u32 rdata = 0;
++	u32 cnt = 0;
++	u32 start = 0;
++	u8 timeout = 0;
++	u8 rst = _FALSE;
++
++	_enter_critical_mutex(mutex, NULL);
++
++	rtw_write32(adapter, REG_WKFMCAM_CMD, BIT_WKFCAM_POLLING_V1 | BIT_WKFCAM_ADDR_V2(addr));
++
++	start = rtw_get_current_time();
++	while (1) {
++		if (rtw_is_surprise_removed(adapter))
++			break;
++
++		cnt++;
++		if (0 == (rtw_read32(adapter, REG_WKFMCAM_CMD) & BIT_WKFCAM_POLLING_V1)) {
++			rst = _SUCCESS;
++			break;
++		}
++		if (rtw_get_passing_time_ms(start) > WOW_CAM_ACCESS_TIMEOUT_MS) {
++			timeout = 1;
++			break;
++		}
++	}
++
++	rdata = rtw_read32(adapter, REG_WKFMCAM_RWD);
++
++	_exit_critical_mutex(mutex, NULL);
++
++	/*RTW_INFO("%s ==> addr:0x%02x , rdata:0x%08x\n", __func__, addr, rdata);*/
++
++	if (timeout)
++		RTW_ERR(FUNC_ADPT_FMT" failed due to polling timeout\n", FUNC_ADPT_ARG(adapter));
++
++	return rdata;
++}
++void rtw_wow_pattern_read_cam_ent(_adapter *adapter, u8 id, struct  rtl_wow_pattern *context)
++{
++	int i;
++	u32 rdata;
++
++	_rtw_memset(context, 0, sizeof(struct  rtl_wow_pattern));
++
++	for (i = 4; i >= 0; i--) {
++		rdata = _rtw_wow_pattern_read_cam(adapter, (id << 3) | i);
++
++		switch (i) {
++		case 4:
++			if (rdata & WOW_BC_BIT)
++				context->type = PATTERN_BROADCAST;
++			else if (rdata & WOW_MC_BIT)
++				context->type = PATTERN_MULTICAST;
++			else if (rdata & WOW_UC_BIT)
++				context->type = PATTERN_UNICAST;
++			else
++				context->type = PATTERN_INVALID;
++
++			context->crc = rdata & 0xFFFF;
++			break;
++		default:
++			_rtw_memcpy(&context->mask[i], (u8 *)(&rdata), 4);
++			break;
++		}
++	}
++}
++
++static void _rtw_wow_pattern_write_cam(_adapter *adapter, u8 addr, u32 wdata)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++	_mutex *mutex = &pwrpriv->wowlan_pattern_cam_mutex;
++	u32 cnt = 0;
++	u32 start = 0, end = 0;
++	u8 timeout = 0;
++
++	/*RTW_INFO("%s ==> addr:0x%02x , wdata:0x%08x\n", __func__, addr, wdata);*/
++	_enter_critical_mutex(mutex, NULL);
++
++	rtw_write32(adapter, REG_WKFMCAM_RWD, wdata);
++	rtw_write32(adapter, REG_WKFMCAM_CMD, BIT_WKFCAM_POLLING_V1 | BIT_WKFCAM_WE | BIT_WKFCAM_ADDR_V2(addr));
++
++	start = rtw_get_current_time();
++	while (1) {
++		if (rtw_is_surprise_removed(adapter))
++			break;
++
++		cnt++;
++		if (0 == (rtw_read32(adapter, REG_WKFMCAM_CMD) & BIT_WKFCAM_POLLING_V1))
++			break;
++
++		if (rtw_get_passing_time_ms(start) > WOW_CAM_ACCESS_TIMEOUT_MS) {
++			timeout = 1;
++			break;
++		}
++	}
++	end = rtw_get_current_time();
++
++	_exit_critical_mutex(mutex, NULL);
++
++	if (timeout) {
++		RTW_ERR(FUNC_ADPT_FMT" addr:0x%02x, wdata:0x%08x, to:%u, polling:%u, %d ms\n"
++			, FUNC_ADPT_ARG(adapter), addr, wdata, timeout, cnt, rtw_get_time_interval_ms(start, end));
++	}
++}
++
++void rtw_wow_pattern_write_cam_ent(_adapter *adapter, u8 id, struct  rtl_wow_pattern *context)
++{
++	int j;
++	u8 addr;
++	u32 wdata = 0;
++
++	for (j = 4; j >= 0; j--) {
++		switch (j) {
++		case 4:
++			wdata = context->crc;
++
++			if (PATTERN_BROADCAST == context->type)
++				wdata |= WOW_BC_BIT;
++			if (PATTERN_MULTICAST == context->type)
++				wdata |= WOW_MC_BIT;
++			if (PATTERN_UNICAST == context->type)
++				wdata |= WOW_UC_BIT;
++			if (PATTERN_INVALID != context->type)
++				wdata |= WOW_VALID_BIT;
++			break;
++		default:
++			wdata = context->mask[j];
++			break;
++		}
++
++		addr = (id << 3) + j;
++
++		_rtw_wow_pattern_write_cam(adapter, addr, wdata);
++	}
++}
++
++static u8 _rtw_wow_pattern_clean_cam(_adapter *adapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++	_mutex *mutex = &pwrpriv->wowlan_pattern_cam_mutex;
++	u32 cnt = 0;
++	u32 start = 0;
++	u8 timeout = 0;
++	u8 rst = _FAIL;
++
++	_enter_critical_mutex(mutex, NULL);
++	rtw_write32(adapter, REG_WKFMCAM_CMD, BIT_WKFCAM_POLLING_V1 | BIT_WKFCAM_CLR_V1);
++
++	start = rtw_get_current_time();
++	while (1) {
++		if (rtw_is_surprise_removed(adapter))
++			break;
++
++		cnt++;
++		if (0 == (rtw_read32(adapter, REG_WKFMCAM_CMD) & BIT_WKFCAM_POLLING_V1)) {
++			rst = _SUCCESS;
++			break;
++		}
++		if (rtw_get_passing_time_ms(start) > WOW_CAM_ACCESS_TIMEOUT_MS) {
++			timeout = 1;
++			break;
++		}
++	}
++	_exit_critical_mutex(mutex, NULL);
++
++	if (timeout)
++		RTW_ERR(FUNC_ADPT_FMT" falied ,polling timeout\n", FUNC_ADPT_ARG(adapter));
++
++	return rst;
++}
++
++void rtw_clean_pattern(_adapter *adapter)
++{
++	if (_FAIL == _rtw_wow_pattern_clean_cam(adapter))
++		RTW_ERR("rtw_clean_pattern failed\n");
++}
++
++void rtw_dump_wow_pattern(void *sel, struct rtl_wow_pattern *pwow_pattern, u8 idx)
++{
++	int j;
++
++	RTW_PRINT_SEL(sel, "=======WOW CAM-ID[%d]=======\n", idx);
++	RTW_PRINT_SEL(sel, "[WOW CAM] type:%d\n", pwow_pattern->type);
++	RTW_PRINT_SEL(sel, "[WOW CAM] crc:0x%04x\n", pwow_pattern->crc);
++	for (j = 0; j < 4; j++)
++		RTW_PRINT_SEL(sel, "[WOW CAM] Mask:0x%08x\n", pwow_pattern->mask[j]);
++}
++
++void rtw_fill_pattern(_adapter *adapter)
++{
++	int i = 0, total = 0;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++	struct rtl_wow_pattern wow_pattern;
++
++	total = pwrpriv->wowlan_pattern_idx;
++
++	if (total > MAX_WKFM_CAM_NUM)
++		total = MAX_WKFM_CAM_NUM;
++
++	for (i = 0 ; i < total ; i++) {
++		if (_SUCCESS == rtw_hal_wow_pattern_generate(adapter, i, &wow_pattern)) {
++			rtw_dump_wow_pattern(RTW_DBGDUMP, &wow_pattern, i);
++			rtw_wow_pattern_write_cam_ent(adapter, i, &wow_pattern);
++		}
++	}
++}
++
++#endif
++void rtw_wow_pattern_cam_dump(_adapter *adapter)
++{
++
++#ifndef CONFIG_WOW_PATTERN_HW_CAM
++	int i;
++
++	for (i = 0 ; i < MAX_WKFM_CAM_NUM; i++) {
++		RTW_INFO("=======[%d]=======\n", i);
++		rtw_read_from_frame_mask(adapter, i);
++	}
++#else
++	struct  rtl_wow_pattern context;
++	int i;
++
++	for (i = 0 ; i < MAX_WKFM_CAM_NUM; i++) {
++		rtw_wow_pattern_read_cam_ent(adapter, i, &context);
++		rtw_dump_wow_pattern(RTW_DBGDUMP, &context, i);
++	}
++
++#endif
++}
++
++
++static void rtw_hal_dl_pattern(_adapter *adapter, u8 mode)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++
++	switch (mode) {
++	case 0:
++		rtw_clean_pattern(adapter);
++		RTW_INFO("%s: total patterns: %d\n", __func__, pwrpriv->wowlan_pattern_idx);
++		break;
++	case 1:
++		rtw_set_default_pattern(adapter);
++		rtw_fill_pattern(adapter);
++		RTW_INFO("%s: pattern total: %d downloaded\n", __func__, pwrpriv->wowlan_pattern_idx);
++		break;
++	case 2:
++		rtw_clean_pattern(adapter);
++		rtw_wow_pattern_sw_reset(adapter);
++		RTW_INFO("%s: clean patterns\n", __func__);
++		break;
++	default:
++		RTW_INFO("%s: unknown mode\n", __func__);
++		break;
++	}
++}
++
++static void rtw_hal_wow_enable(_adapter *adapter)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(adapter);
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	struct sta_info *psta = NULL;
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(adapter);
++	int res;
++	u16 media_status_rpt;
++
++
++	RTW_PRINT("%s, WOWLAN_ENABLE\n", __func__);
++	rtw_hal_gate_bb(adapter, _TRUE);
++#ifdef CONFIG_GTK_OL
++	if (psecuritypriv->dot11PrivacyAlgrthm == _AES_ &&
++		psecuritypriv->dot118021XGrpPrivacy == _AES_)
++		rtw_hal_fw_sync_cam_id(adapter);
++#endif
++	if (IS_HARDWARE_TYPE_8723B(adapter))
++		rtw_hal_backup_rate(adapter);
++
++	/* RX DMA stop */
++	#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(adapter))
++		rtw_hal_disable_tx_report(adapter);
++	#endif
++
++	res = rtw_hal_pause_rx_dma(adapter);
++	if (res == _FAIL)
++		RTW_PRINT("[WARNING] pause RX DMA fail\n");
++
++	#ifndef CONFIG_WOW_PATTERN_HW_CAM
++	/* Reconfig RX_FF Boundary */
++	rtw_hal_set_wow_rxff_boundary(adapter, _TRUE);
++	#endif
++
++	/* redownload wow pattern */
++	rtw_hal_dl_pattern(adapter, 1);
++
++	rtw_hal_fw_dl(adapter, _TRUE);
++	media_status_rpt = RT_MEDIA_CONNECT;
++	rtw_hal_set_hwreg(adapter, HW_VAR_H2C_FW_JOINBSSRPT,
++			  (u8 *)&media_status_rpt);
++
++	if (!pwrctl->wowlan_pno_enable) {
++		psta = rtw_get_stainfo(&adapter->stapriv, get_bssid(pmlmepriv));
++		if (psta != NULL)
++			rtw_sta_media_status_rpt(adapter, psta, 1);
++	}
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	/* Enable CPWM2 only. */
++	res = rtw_hal_enable_cpwm2(adapter);
++	if (res == _FAIL)
++		RTW_PRINT("[WARNING] enable cpwm2 fail\n");
++#endif
++#ifdef CONFIG_GPIO_WAKEUP
++	rtw_hal_switch_gpio_wl_ctrl(adapter, WAKEUP_GPIO_IDX, _TRUE);
++#endif
++	/* Set WOWLAN H2C command. */
++	RTW_PRINT("Set WOWLan cmd\n");
++	rtw_hal_set_fw_wow_related_cmd(adapter, 1);
++
++	res = rtw_hal_check_wow_ctrl(adapter, _TRUE);
++
++	if (res == _FALSE)
++		RTW_INFO("[Error]%s: set wowlan CMD fail!!\n", __func__);
++
++	pwrctl->wowlan_wake_reason =
++		rtw_read8(adapter, REG_WOWLAN_WAKE_REASON);
++
++	RTW_PRINT("wowlan_wake_reason: 0x%02x\n",
++		  pwrctl->wowlan_wake_reason);
++#ifdef CONFIG_GTK_OL_DBG
++	dump_sec_cam(RTW_DBGDUMP, adapter);
++	dump_sec_cam_cache(RTW_DBGDUMP, adapter);
++#endif
++#ifdef CONFIG_USB_HCI
++	/* free adapter's resource */
++	rtw_mi_intf_stop(adapter);
++
++	/* Invoid SE0 reset signal during suspending*/
++	rtw_write8(adapter, REG_RSV_CTRL, 0x20);
++	if (IS_8188F(pHalData->VersionID) == FALSE)
++		rtw_write8(adapter, REG_RSV_CTRL, 0x60);
++#endif /*CONFIG_USB_HCI*/
++
++	rtw_hal_gate_bb(adapter, _FALSE);
++}
++
++#define DBG_WAKEUP_REASON
++#ifdef DBG_WAKEUP_REASON
++void _dbg_wake_up_reason_string(_adapter *adapter, const char *srt_res)
++{
++	RTW_INFO(ADPT_FMT "- wake up reason - %s\n", ADPT_ARG(adapter), srt_res);
++}
++void _dbg_rtw_wake_up_reason(_adapter *adapter, u8 reason)
++{
++	if (RX_PAIRWISEKEY == reason)
++		_dbg_wake_up_reason_string(adapter, "Rx pairwise key");
++	else if (RX_GTK == reason)
++		_dbg_wake_up_reason_string(adapter, "Rx GTK");
++	else if (RX_FOURWAY_HANDSHAKE == reason)
++		_dbg_wake_up_reason_string(adapter, "Rx four way handshake");
++	else if (RX_DISASSOC == reason)
++		_dbg_wake_up_reason_string(adapter, "Rx disassoc");
++	else if (RX_DEAUTH == reason)
++		_dbg_wake_up_reason_string(adapter, "Rx deauth");
++	else if (RX_ARP_REQUEST == reason)
++		_dbg_wake_up_reason_string(adapter, "Rx ARP request");
++	else if (FW_DECISION_DISCONNECT == reason)
++		_dbg_wake_up_reason_string(adapter, "FW detect disconnect");
++	else if (RX_MAGIC_PKT == reason)
++		_dbg_wake_up_reason_string(adapter, "Rx magic packet");
++	else if (RX_UNICAST_PKT == reason)
++		_dbg_wake_up_reason_string(adapter, "Rx unicast packet");
++	else if (RX_PATTERN_PKT == reason)
++		_dbg_wake_up_reason_string(adapter, "Rx pattern packet");
++	else if (RTD3_SSID_MATCH == reason)
++		_dbg_wake_up_reason_string(adapter, "RTD3 SSID match");
++	else if (RX_REALWOW_V2_WAKEUP_PKT == reason)
++		_dbg_wake_up_reason_string(adapter, "Rx real WOW V2 wakeup packet");
++	else if (RX_REALWOW_V2_ACK_LOST == reason)
++		_dbg_wake_up_reason_string(adapter, "Rx real WOW V2 ack lost");
++	else if (ENABLE_FAIL_DMA_IDLE == reason)
++		_dbg_wake_up_reason_string(adapter, "enable fail DMA idle");
++	else if (ENABLE_FAIL_DMA_PAUSE == reason)
++		_dbg_wake_up_reason_string(adapter, "enable fail DMA pause");
++	else if (AP_OFFLOAD_WAKEUP == reason)
++		_dbg_wake_up_reason_string(adapter, "AP offload wakeup");
++	else if (CLK_32K_UNLOCK == reason)
++		_dbg_wake_up_reason_string(adapter, "clk 32k unlock");
++	else if (RTIME_FAIL_DMA_IDLE == reason)
++		_dbg_wake_up_reason_string(adapter, "RTIME fail DMA idle");
++	else if (CLK_32K_LOCK == reason)
++		_dbg_wake_up_reason_string(adapter, "clk 32k lock");
++	else
++		_dbg_wake_up_reason_string(adapter, "unknown reasoen");
++}
++#endif
++
++static void rtw_hal_wow_disable(_adapter *adapter)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(adapter);
++	struct security_priv *psecuritypriv = &adapter->securitypriv;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	struct sta_info *psta = NULL;
++	int res;
++	u16 media_status_rpt;
++	u8 val8;
++
++	RTW_PRINT("%s, WOWLAN_DISABLE\n", __func__);
++
++	if (!pwrctl->wowlan_pno_enable) {
++		psta = rtw_get_stainfo(&adapter->stapriv, get_bssid(pmlmepriv));
++		if (psta != NULL)
++			rtw_sta_media_status_rpt(adapter, psta, 0);
++		else
++			RTW_INFO("%s: psta is null\n", __func__);
++	}
++
++	if (1) {
++		RTW_INFO("0x630:0x%02x\n", rtw_read8(adapter, 0x630));
++		RTW_INFO("0x631:0x%02x\n", rtw_read8(adapter, 0x631));
++		RTW_INFO("0x634:0x%02x\n", rtw_read8(adapter, 0x634));
++		RTW_INFO("0x1c7:0x%02x\n", rtw_read8(adapter, 0x1c7));
++	}
++
++	pwrctl->wowlan_wake_reason = rtw_read8(adapter, REG_WOWLAN_WAKE_REASON);
++
++	RTW_PRINT("wakeup_reason: 0x%02x\n",
++		  pwrctl->wowlan_wake_reason);
++	#ifdef DBG_WAKEUP_REASON
++	_dbg_rtw_wake_up_reason(adapter, pwrctl->wowlan_wake_reason);
++	#endif
++
++	rtw_hal_set_fw_wow_related_cmd(adapter, 0);
++
++	res = rtw_hal_check_wow_ctrl(adapter, _FALSE);
++
++	if (res == _FALSE) {
++		RTW_INFO("[Error]%s: disable WOW cmd fail\n!!", __func__);
++		rtw_hal_force_enable_rxdma(adapter);
++	}
++
++	rtw_hal_gate_bb(adapter, _TRUE);
++
++	res = rtw_hal_pause_rx_dma(adapter);
++	if (res == _FAIL)
++		RTW_PRINT("[WARNING] pause RX DMA fail\n");
++
++	/* clean HW pattern match */
++	rtw_hal_dl_pattern(adapter, 0);
++
++	#ifndef CONFIG_WOW_PATTERN_HW_CAM
++	/* config RXFF boundary to original */
++	rtw_hal_set_wow_rxff_boundary(adapter, _FALSE);
++	#endif
++	rtw_hal_release_rx_dma(adapter);
++
++	#if defined(CONFIG_RTL8188E)
++	if (IS_HARDWARE_TYPE_8188E(adapter))
++		rtw_hal_enable_tx_report(adapter);
++	#endif
++
++	rtw_hal_update_tx_iv(adapter);
++
++#ifdef CONFIG_GTK_OL
++	if (psecuritypriv->dot11PrivacyAlgrthm == _AES_ &&
++		psecuritypriv->dot118021XGrpPrivacy == _AES_)
++		rtw_hal_update_gtk_offload_info(adapter);
++#endif /*CONFIG_GTK_OL*/
++
++	rtw_hal_fw_dl(adapter, _FALSE);
++
++#ifdef CONFIG_GPIO_WAKEUP
++	val8 = (pwrctl->is_high_active == 0) ? 1 : 0;
++	RTW_PRINT("Set Wake GPIO to default(%d).\n", val8);
++	rtw_hal_set_output_gpio(adapter, WAKEUP_GPIO_IDX, val8);
++#endif
++
++	if ((pwrctl->wowlan_wake_reason != FW_DECISION_DISCONNECT) &&
++	    (pwrctl->wowlan_wake_reason != RX_PAIRWISEKEY) &&
++	    (pwrctl->wowlan_wake_reason != RX_DISASSOC) &&
++	    (pwrctl->wowlan_wake_reason != RX_DEAUTH)) {
++
++		media_status_rpt = RT_MEDIA_CONNECT;
++		rtw_hal_set_hwreg(adapter, HW_VAR_H2C_FW_JOINBSSRPT,
++				  (u8 *)&media_status_rpt);
++
++		if (psta != NULL)
++			rtw_sta_media_status_rpt(adapter, psta, 1);
++	}
++	rtw_hal_gate_bb(adapter, _FALSE);
++}
++#endif /*CONFIG_WOWLAN*/
++
++#ifdef CONFIG_P2P_WOWLAN
++void rtw_hal_set_p2p_wow_fw_rsvd_page(_adapter *adapter, u8 *pframe, u16 index,
++	      u8 tx_desc, u32 page_size, u8 *page_num, u32 *total_pkt_len,
++				      RSVDPAGE_LOC *rsvd_page_loc)
++{
++	u32 P2PNegoRspLength = 0, P2PInviteRspLength = 0;
++	u32 P2PPDRspLength = 0, P2PProbeRspLength = 0, P2PBCNLength = 0;
++	u8 CurtPktPageNum = 0;
++
++	/* P2P Beacon */
++	rsvd_page_loc->LocP2PBeacon = *page_num;
++	rtw_hal_construct_P2PBeacon(adapter, &pframe[index], &P2PBCNLength);
++	rtw_hal_fill_fake_txdesc(adapter, &pframe[index - tx_desc],
++				 P2PBCNLength, _FALSE, _FALSE, _FALSE);
++
++#if 0
++	RTW_INFO("%s(): HW_VAR_SET_TX_CMD: PROBE RSP %p %d\n",
++		__FUNCTION__, &pframe[index - tx_desc], (P2PBCNLength + tx_desc));
++#endif
++
++	CurtPktPageNum = (u8)PageNum(tx_desc + P2PBCNLength, page_size);
++
++	*page_num += CurtPktPageNum;
++
++	index += (CurtPktPageNum * page_size);
++
++	/* P2P Probe rsp */
++	rsvd_page_loc->LocP2PProbeRsp = *page_num;
++	rtw_hal_construct_P2PProbeRsp(adapter, &pframe[index],
++				      &P2PProbeRspLength);
++	rtw_hal_fill_fake_txdesc(adapter, &pframe[index - tx_desc],
++				 P2PProbeRspLength, _FALSE, _FALSE, _FALSE);
++
++	/* RTW_INFO("%s(): HW_VAR_SET_TX_CMD: PROBE RSP %p %d\n",  */
++	/*	__FUNCTION__, &pframe[index-tx_desc], (P2PProbeRspLength+tx_desc)); */
++
++	CurtPktPageNum = (u8)PageNum(tx_desc + P2PProbeRspLength, page_size);
++
++	*page_num += CurtPktPageNum;
++
++	index += (CurtPktPageNum * page_size);
++
++	/* P2P nego rsp */
++	rsvd_page_loc->LocNegoRsp = *page_num;
++	rtw_hal_construct_P2PNegoRsp(adapter, &pframe[index],
++				     &P2PNegoRspLength);
++	rtw_hal_fill_fake_txdesc(adapter, &pframe[index - tx_desc],
++				 P2PNegoRspLength, _FALSE, _FALSE, _FALSE);
++
++	/* RTW_INFO("%s(): HW_VAR_SET_TX_CMD: QOS NULL DATA %p %d\n",  */
++	/*	__FUNCTION__, &pframe[index-tx_desc], (NegoRspLength+tx_desc)); */
++
++	CurtPktPageNum = (u8)PageNum(tx_desc + P2PNegoRspLength, page_size);
++
++	*page_num += CurtPktPageNum;
++
++	index += (CurtPktPageNum * page_size);
++
++	/* P2P invite rsp */
++	rsvd_page_loc->LocInviteRsp = *page_num;
++	rtw_hal_construct_P2PInviteRsp(adapter, &pframe[index],
++				       &P2PInviteRspLength);
++	rtw_hal_fill_fake_txdesc(adapter, &pframe[index - tx_desc],
++				 P2PInviteRspLength, _FALSE, _FALSE, _FALSE);
++
++	/* RTW_INFO("%s(): HW_VAR_SET_TX_CMD: QOS NULL DATA %p %d\n",  */
++	/* __FUNCTION__, &pframe[index-tx_desc], (InviteRspLength+tx_desc)); */
++
++	CurtPktPageNum = (u8)PageNum(tx_desc + P2PInviteRspLength, page_size);
++
++	*page_num += CurtPktPageNum;
++
++	index += (CurtPktPageNum * page_size);
++
++	/* P2P provision discovery rsp */
++	rsvd_page_loc->LocPDRsp = *page_num;
++	rtw_hal_construct_P2PProvisionDisRsp(adapter,
++					     &pframe[index], &P2PPDRspLength);
++
++	rtw_hal_fill_fake_txdesc(adapter, &pframe[index - tx_desc],
++				 P2PPDRspLength, _FALSE, _FALSE, _FALSE);
++
++	/* RTW_INFO("%s(): HW_VAR_SET_TX_CMD: QOS NULL DATA %p %d\n",  */
++	/*	__FUNCTION__, &pframe[index-tx_desc], (PDRspLength+tx_desc)); */
++
++	CurtPktPageNum = (u8)PageNum(tx_desc + P2PPDRspLength, page_size);
++
++	*page_num += CurtPktPageNum;
++
++	*total_pkt_len = index + P2PPDRspLength;
++
++	index += (CurtPktPageNum * page_size);
++
++
++}
++#endif /* CONFIG_P2P_WOWLAN */
++
++#ifdef CONFIG_LPS_PG
++	#define LPSPG_RSVD_PAGE_SET_MACID(_rsvd_pag, _value)		SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x00, 0, 8, _value)/*used macid*/
++	#define LPSPG_RSVD_PAGE_SET_MBSSCAMID(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x00, 8, 8, _value)/*used BSSID CAM entry*/
++	#define LPSPG_RSVD_PAGE_SET_PMC_NUM(_rsvd_pag, _value)		SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x00, 16, 8, _value)/*Max used Pattern Match CAM entry*/
++	#define LPSPG_RSVD_PAGE_SET_MU_RAID_GID(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x00, 24, 8, _value)/*Max MU rate table Group ID*/
++	#define LPSPG_RSVD_PAGE_SET_SEC_CAM_NUM(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x04, 0, 8, _value)/*used Security CAM entry number*/
++	#define LPSPG_RSVD_PAGE_SET_SEC_CAM_ID1(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x08, 0, 8, _value)/*used Security CAM entry -1*/
++	#define LPSPG_RSVD_PAGE_SET_SEC_CAM_ID2(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x08, 8, 8, _value)/*used Security CAM entry -2*/
++	#define LPSPG_RSVD_PAGE_SET_SEC_CAM_ID3(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x08, 16, 8, _value)/*used Security CAM entry -3*/
++	#define LPSPG_RSVD_PAGE_SET_SEC_CAM_ID4(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x08, 24, 8, _value)/*used Security CAM entry -4*/
++	#define LPSPG_RSVD_PAGE_SET_SEC_CAM_ID5(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x0C, 0, 8, _value)/*used Security CAM entry -5*/
++	#define LPSPG_RSVD_PAGE_SET_SEC_CAM_ID6(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x0C, 8, 8, _value)/*used Security CAM entry -6*/
++	#define LPSPG_RSVD_PAGE_SET_SEC_CAM_ID7(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x0C, 16, 8, _value)/*used Security CAM entry -7*/
++	#define LPSPG_RSVD_PAGE_SET_SEC_CAM_ID8(_rsvd_pag, _value)	SET_BITS_TO_LE_4BYTE(_rsvd_pag+0x0C, 24, 8, _value)/*used Security CAM entry -8*/
++#endif
++#ifdef CONFIG_LPS_PG
++#include "hal_halmac.h"
++
++#define DBG_LPSPG_SEC_DUMP
++#define LPS_PG_INFO_RSVD_LEN	16
++
++static void rtw_hal_set_lps_pg_info_rsvd_page(_adapter *adapter)
++{
++	u8 cur_pag_num = 0;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++	struct sta_info	*psta = rtw_get_stainfo(&adapter->stapriv, get_bssid(&adapter->mlmepriv));
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	u8 lps_pg_info[LPS_PG_INFO_RSVD_LEN] = {0};
++#ifdef CONFIG_MBSSID_CAM
++	u8 cam_id = INVALID_CAM_ID;
++#endif
++	u8 *psec_cam_id = lps_pg_info + 8;
++	u8 sec_cam_num = 0;
++
++	if (!psta) {
++		RTW_ERR("%s [ERROR] sta is NULL\n", __func__);
++		rtw_warn_on(1);
++		return;
++	}
++
++	LPSPG_RSVD_PAGE_SET_MACID(lps_pg_info, psta->mac_id);	/*used macid*/
++	RTW_INFO("[LPSPG-INFO] mac_id:%d\n", psta->mac_id);
++
++#ifdef CONFIG_MBSSID_CAM
++	cam_id = rtw_mbid_cam_search_by_ifaceid(adapter, adapter->iface_id);
++	if (cam_id != INVALID_CAM_ID)
++		LPSPG_RSVD_PAGE_SET_MBSSCAMID(lps_pg_info, cam_id);	/*used BSSID CAM entry*/
++	RTW_INFO("[LPSPG-INFO] mbss_cam_id:%d\n", cam_id);
++#endif
++
++#ifdef CONFIG_WOWLAN /*&& pattern match cam used*/
++	if (pwrpriv->wowlan_mode == _TRUE &&
++	    check_fwstate(&adapter->mlmepriv, _FW_LINKED) == _TRUE) {
++		LPSPG_RSVD_PAGE_SET_PMC_NUM(lps_pg_info, pwrpriv->wowlan_pattern_idx);	/*Max used Pattern Match CAM entry*/
++		RTW_INFO("[LPSPG-INFO] Max Pattern Match CAM entry :%d\n", pwrpriv->wowlan_pattern_idx);
++	}
++#endif
++#ifdef CONFIG_BEAMFORMING  /*&& MU BF*/
++	LPSPG_RSVD_PAGE_SET_MU_RAID_GID(lps_pg_info, _value);	/*Max MU rate table Group ID*/
++	RTW_INFO("[LPSPG-INFO] Max MU rate table Group ID :%d\n", _value);
++#endif
++
++	sec_cam_num = rtw_get_sec_camid(adapter, 8, psec_cam_id);
++	if (sec_cam_num < 8)
++		LPSPG_RSVD_PAGE_SET_SEC_CAM_NUM(lps_pg_info, sec_cam_num);	/*used Security CAM entry number*/
++	RTW_INFO("[LPSPG-INFO] Security CAM entry number :%d\n", sec_cam_num);
++
++#ifdef DBG_LPSPG_SEC_DUMP
++	{
++		int i;
++
++		for (i = 0; i < sec_cam_num; i++)
++			RTW_INFO("%d = sec_cam_id:%d\n", i, psec_cam_id[i]);
++	}
++#endif
++
++#ifdef DBG_LPSPG_INFO_DUMP
++	RTW_INFO("==== DBG_LPSPG_INFO_RSVD_PAGE_DUMP====\n");
++	RTW_INFO("  %02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X\n",
++		*(lps_pg_info), *(lps_pg_info + 1), *(lps_pg_info + 2), *(lps_pg_info + 3),
++		*(lps_pg_info + 4), *(lps_pg_info + 5), *(lps_pg_info + 6), *(lps_pg_info + 7));
++	RTW_INFO("  %02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X\n",
++		*(lps_pg_info + 8), *(lps_pg_info + 9), *(lps_pg_info + 10), *(lps_pg_info + 11),
++		*(lps_pg_info + 12), *(lps_pg_info + 13), *(lps_pg_info + 14), *(lps_pg_info + 15));
++	RTW_INFO("==== DBG_LPSPG_INFO_RSVD_PAGE_DUMP====\n");
++#endif
++
++	rtw_halmac_download_rsvd_page(dvobj, pwrpriv->lpspg_rsvd_page_locate, lps_pg_info, LPS_PG_INFO_RSVD_LEN);
++
++}
++
++#define DBG_LPSPG_INFO_DUMP
++static u8 rtw_hal_set_lps_pg_info_cmd(_adapter *adapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++
++	u8 lpspg_info[H2C_LPS_PG_INFO_LEN] = {0};
++	u8 ret = _FAIL;
++
++	RTW_INFO("%s: loc_lpspg_info:%d\n", __func__, pwrpriv->lpspg_rsvd_page_locate);
++
++	if (_NO_PRIVACY_ != adapter->securitypriv.dot11PrivacyAlgrthm)
++		SET_H2CCMD_LPSPG_SEC_CAM_EN(lpspg_info, 1);	/*SecurityCAM_En*/
++#ifdef CONFIG_MBSSID_CAM
++	SET_H2CCMD_LPSPG_MBID_CAM_EN(lpspg_info, 1);		/*BSSIDCAM_En*/
++#endif
++
++#if defined(CONFIG_WOWLAN) && defined(CONFIG_WOW_PATTERN_HW_CAM)
++	if (pwrpriv->wowlan_mode == _TRUE &&
++	    check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++
++		SET_H2CCMD_LPSPG_PMC_CAM_EN(lpspg_info, 1);	/*PatternMatchCAM_En*/
++	}
++#endif
++
++#ifdef CONFIG_MACID_SEARCH
++	SET_H2CCMD_LPSPG_MACID_SEARCH_EN(lpspg_info, 1);	/*MACIDSearch_En*/
++#endif
++
++#ifdef CONFIG_TX_SC
++	SET_H2CCMD_LPSPG_TXSC_EN(lpspg_info, 1);	/*TXSC_En*/
++#endif
++
++#ifdef CONFIG_BEAMFORMING  /*&& MU BF*/
++	SET_H2CCMD_LPSPG_MU_RATE_TB_EN(lpspg_info, 1);	/*MURateTable_En*/
++#endif
++
++	SET_H2CCMD_LPSPG_LOC(lpspg_info, pwrpriv->lpspg_rsvd_page_locate);
++
++#ifdef DBG_LPSPG_INFO_DUMP
++	RTW_INFO("==== DBG_LPSPG_INFO_CMD_DUMP====\n");
++	RTW_INFO("  H2C_CMD: 0x%02x, H2C_LEN: %d\n", H2C_LPS_PG_INFO, H2C_LPS_PG_INFO_LEN);
++	RTW_INFO("  %02X:%02X\n", *(lpspg_info), *(lpspg_info + 1));
++	RTW_INFO("==== DBG_LPSPG_INFO_CMD_DUMP====\n");
++#endif
++
++	ret = rtw_hal_fill_h2c_cmd(adapter,
++				   H2C_LPS_PG_INFO,
++				   H2C_LPS_PG_INFO_LEN,
++				   lpspg_info);
++	return ret;
++}
++u8 rtw_hal_set_lps_pg_info(_adapter *adapter)
++{
++	u8 ret = _FAIL;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++
++	if (pwrpriv->lpspg_rsvd_page_locate == 0) {
++		RTW_ERR("%s [ERROR] lpspg_rsvd_page_locate = 0\n", __func__);
++		rtw_warn_on(1);
++		return ret;
++	}
++
++	rtw_hal_set_lps_pg_info_rsvd_page(adapter);
++	ret = rtw_hal_set_lps_pg_info_cmd(adapter);
++	if (_SUCCESS == ret)
++		pwrpriv->blpspg_info_up = _FALSE;
++
++	return ret;
++}
++#endif /*CONFIG_LPS_PG*/
++
++/*
++ * Description: Fill the reserved packets that FW will use to RSVD page.
++ *			Now we just send 4 types packet to rsvd page.
++ *			(1)Beacon, (2)Ps-poll, (3)Null data, (4)ProbeRsp.
++ * Input:
++ * finished - FALSE:At the first time we will send all the packets as a large packet to Hw,
++ *		    so we need to set the packet length to total lengh.
++ *	      TRUE: At the second time, we should send the first packet (default:beacon)
++ *		    to Hw again and set the lengh in descriptor to the real beacon lengh.
++ * 2009.10.15 by tynli.
++ *
++ * Page Size = 128: 8188e, 8723a/b, 8192c/d,
++ * Page Size = 256: 8192e, 8821a
++ * Page Size = 512: 8812a
++ */
++
++/*#define DBG_DUMP_SET_RSVD_PAGE*/
++void rtw_hal_set_fw_rsvd_page(_adapter *adapter, bool finished)
++{
++	PHAL_DATA_TYPE pHalData;
++	struct xmit_frame	*pcmdframe;
++	struct pkt_attrib	*pattrib;
++	struct xmit_priv	*pxmitpriv;
++	struct mlme_ext_priv	*pmlmeext;
++	struct mlme_ext_info	*pmlmeinfo;
++	struct pwrctrl_priv *pwrctl;
++	struct mlme_priv *pmlmepriv = &adapter->mlmepriv;
++	struct hal_ops *pHalFunc = &adapter->HalFunc;
++	u32	BeaconLength = 0, ProbeRspLength = 0, PSPollLength = 0;
++	u32	NullDataLength = 0, QosNullLength = 0, BTQosNullLength = 0;
++	u32	ProbeReqLength = 0, NullFunctionDataLength = 0;
++	u8	TxDescLen = TXDESC_SIZE, TxDescOffset = TXDESC_OFFSET;
++	u8	TotalPageNum = 0 , CurtPktPageNum = 0 , RsvdPageNum = 0;
++	u8	*ReservedPagePacket;
++	u16	BufIndex = 0;
++	u32	TotalPacketLen = 0, MaxRsvdPageBufSize = 0, PageSize = 0;
++	RSVDPAGE_LOC	RsvdPageLoc;
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	struct sreset_priv *psrtpriv;
++#endif /* DBG_CONFIG_ERROR_DETECT */
++
++#ifdef CONFIG_MCC_MODE
++	u8 dl_mcc_page = _FAIL;
++#endif /* CONFIG_MCC_MODE */
++
++	pHalData = GET_HAL_DATA(adapter);
++#ifdef DBG_CONFIG_ERROR_DETECT
++	psrtpriv = &pHalData->srestpriv;
++#endif
++	pxmitpriv = &adapter->xmitpriv;
++	pmlmeext = &adapter->mlmeextpriv;
++	pmlmeinfo = &pmlmeext->mlmext_info;
++	pwrctl = adapter_to_pwrctl(adapter);
++
++	rtw_hal_get_def_var(adapter, HAL_DEF_TX_PAGE_SIZE, (u8 *)&PageSize);
++
++	if (PageSize == 0) {
++		RTW_INFO("[Error]: %s, PageSize is zero!!\n", __func__);
++		return;
++	}
++
++	if (pwrctl->wowlan_mode == _TRUE || pwrctl->wowlan_ap_mode == _TRUE)
++		RsvdPageNum = rtw_hal_get_txbuff_rsvd_page_num(adapter, _TRUE);
++	else
++		RsvdPageNum = rtw_hal_get_txbuff_rsvd_page_num(adapter, _FALSE);
++
++	RTW_INFO("%s PageSize: %d, RsvdPageNUm: %d\n", __func__, PageSize, RsvdPageNum);
++
++	MaxRsvdPageBufSize = RsvdPageNum * PageSize;
++
++	if (MaxRsvdPageBufSize > MAX_CMDBUF_SZ) {
++		RTW_INFO("%s MaxRsvdPageBufSize(%d) is larger than MAX_CMDBUF_SZ(%d)",
++			 __func__, MaxRsvdPageBufSize, MAX_CMDBUF_SZ);
++		rtw_warn_on(1);
++		return;
++	}
++
++	pcmdframe = rtw_alloc_cmdxmitframe(pxmitpriv);
++
++	if (pcmdframe == NULL) {
++		RTW_INFO("%s: alloc ReservedPagePacket fail!\n", __FUNCTION__);
++		return;
++	}
++
++	ReservedPagePacket = pcmdframe->buf_addr;
++	_rtw_memset(&RsvdPageLoc, 0, sizeof(RSVDPAGE_LOC));
++
++	/* beacon * 2 pages */
++	BufIndex = TxDescOffset;
++	rtw_hal_construct_beacon(adapter,
++				 &ReservedPagePacket[BufIndex], &BeaconLength);
++
++	/*
++	* When we count the first page size, we need to reserve description size for the RSVD
++	* packet, it will be filled in front of the packet in TXPKTBUF.
++	*/
++	CurtPktPageNum = (u8)PageNum((TxDescLen + BeaconLength), PageSize);
++	/* If we don't add 1 more page, ARP offload function will fail at 8723bs.*/
++	if (CurtPktPageNum == 1)
++		CurtPktPageNum += 1;
++
++	TotalPageNum += CurtPktPageNum;
++
++	BufIndex += (CurtPktPageNum * PageSize);
++
++	if (pwrctl->wowlan_ap_mode == _TRUE) {
++		/* (4) probe response*/
++		RsvdPageLoc.LocProbeRsp = TotalPageNum;
++		rtw_hal_construct_ProbeRsp(
++			adapter, &ReservedPagePacket[BufIndex],
++			&ProbeRspLength,
++			get_my_bssid(&pmlmeinfo->network), _FALSE);
++		rtw_hal_fill_fake_txdesc(adapter,
++				 &ReservedPagePacket[BufIndex - TxDescLen],
++				 ProbeRspLength, _FALSE, _FALSE, _FALSE);
++
++		CurtPktPageNum = (u8)PageNum(TxDescLen + ProbeRspLength, PageSize);
++		TotalPageNum += CurtPktPageNum;
++		TotalPacketLen = BufIndex + ProbeRspLength;
++		BufIndex += (CurtPktPageNum * PageSize);
++		goto download_page;
++	}
++
++	/* ps-poll * 1 page */
++	RsvdPageLoc.LocPsPoll = TotalPageNum;
++	RTW_INFO("LocPsPoll: %d\n", RsvdPageLoc.LocPsPoll);
++	rtw_hal_construct_PSPoll(adapter,
++				 &ReservedPagePacket[BufIndex], &PSPollLength);
++	rtw_hal_fill_fake_txdesc(adapter,
++				 &ReservedPagePacket[BufIndex - TxDescLen],
++				 PSPollLength, _TRUE, _FALSE, _FALSE);
++
++	CurtPktPageNum = (u8)PageNum((TxDescLen + PSPollLength), PageSize);
++
++	TotalPageNum += CurtPktPageNum;
++
++	BufIndex += (CurtPktPageNum * PageSize);
++
++#ifdef CONFIG_BT_COEXIST
++	/* BT Qos null data * 1 page */
++	RsvdPageLoc.LocBTQosNull = TotalPageNum;
++	RTW_INFO("LocBTQosNull: %d\n", RsvdPageLoc.LocBTQosNull);
++	rtw_hal_construct_NullFunctionData(
++		adapter,
++		&ReservedPagePacket[BufIndex],
++		&BTQosNullLength,
++		get_my_bssid(&pmlmeinfo->network),
++		_TRUE, 0, 0, _FALSE);
++	rtw_hal_fill_fake_txdesc(adapter,
++				 &ReservedPagePacket[BufIndex - TxDescLen],
++				 BTQosNullLength, _FALSE, _TRUE, _FALSE);
++
++	CurtPktPageNum = (u8)PageNum(TxDescLen + BTQosNullLength, PageSize);
++
++	TotalPageNum += CurtPktPageNum;
++
++	BufIndex += (CurtPktPageNum * PageSize);
++#endif /* CONFIG_BT_COEXIT */
++
++#ifdef CONFIG_MCC_MODE
++	if (MCC_EN(adapter)) {
++		dl_mcc_page = rtw_hal_dl_mcc_fw_rsvd_page(adapter, ReservedPagePacket,
++				&BufIndex, TxDescLen, PageSize,
++				&TotalPageNum, &TotalPacketLen, &RsvdPageLoc);
++	} else
++		dl_mcc_page = _FAIL;
++
++	if (dl_mcc_page == _FAIL) {
++#endif /* CONFIG_MCC_MODE */
++
++		/* null data * 1 page */
++		RsvdPageLoc.LocNullData = TotalPageNum;
++		RTW_INFO("LocNullData: %d\n", RsvdPageLoc.LocNullData);
++		rtw_hal_construct_NullFunctionData(
++			adapter,
++			&ReservedPagePacket[BufIndex],
++			&NullDataLength,
++			get_my_bssid(&pmlmeinfo->network),
++			_FALSE, 0, 0, _FALSE);
++		rtw_hal_fill_fake_txdesc(adapter,
++				 &ReservedPagePacket[BufIndex - TxDescLen],
++				 NullDataLength, _FALSE, _FALSE, _FALSE);
++
++		CurtPktPageNum = (u8)PageNum(TxDescLen + NullDataLength, PageSize);
++
++		TotalPageNum += CurtPktPageNum;
++
++		BufIndex += (CurtPktPageNum * PageSize);
++#ifdef CONFIG_MCC_MODE
++	}
++#endif /* CONFIG_MCC_MODE */
++
++	/* Qos null data * 1 page */
++	RsvdPageLoc.LocQosNull = TotalPageNum;
++	RTW_INFO("LocQosNull: %d\n", RsvdPageLoc.LocQosNull);
++	rtw_hal_construct_NullFunctionData(
++		adapter,
++		&ReservedPagePacket[BufIndex],
++		&QosNullLength,
++		get_my_bssid(&pmlmeinfo->network),
++		_TRUE, 0, 0, _FALSE);
++	rtw_hal_fill_fake_txdesc(adapter,
++				 &ReservedPagePacket[BufIndex - TxDescLen],
++				 QosNullLength, _FALSE, _FALSE, _FALSE);
++
++	CurtPktPageNum = (u8)PageNum(TxDescLen + QosNullLength, PageSize);
++
++	TotalPageNum += CurtPktPageNum;
++
++	TotalPacketLen = BufIndex + QosNullLength;
++
++	BufIndex += (CurtPktPageNum * PageSize);
++
++#ifdef CONFIG_WOWLAN
++	if (pwrctl->wowlan_mode == _TRUE) {
++		rtw_hal_set_wow_fw_rsvd_page(adapter, ReservedPagePacket,
++					     BufIndex, TxDescLen, PageSize,
++			     &TotalPageNum, &TotalPacketLen, &RsvdPageLoc);
++	}
++#endif /* CONFIG_WOWLAN */
++
++#ifdef CONFIG_P2P_WOWLAN
++	if (_TRUE == pwrctl->wowlan_p2p_mode) {
++		rtw_hal_set_p2p_wow_fw_rsvd_page(adapter, ReservedPagePacket,
++						 BufIndex, TxDescLen, PageSize,
++				 &TotalPageNum, &TotalPacketLen, &RsvdPageLoc);
++	}
++#endif /* CONFIG_P2P_WOWLAN */
++
++#ifdef CONFIG_LPS_PG
++	/* must reserved last 1 x page for LPS PG Info*/
++	pwrctl->lpspg_rsvd_page_locate = TotalPageNum;
++	pwrctl->blpspg_info_up = _TRUE;
++#endif
++
++download_page:
++	/* RTW_INFO("%s BufIndex(%d), TxDescLen(%d), PageSize(%d)\n",__func__, BufIndex, TxDescLen, PageSize);*/
++	RTW_INFO("%s PageNum(%d), pktlen(%d)\n",
++		 __func__, TotalPageNum, TotalPacketLen);
++
++	if (TotalPacketLen > MaxRsvdPageBufSize) {
++		RTW_INFO("%s(ERROR): rsvd page size is not enough!!TotalPacketLen %d, MaxRsvdPageBufSize %d\n",
++			 __FUNCTION__, TotalPacketLen, MaxRsvdPageBufSize);
++		rtw_warn_on(1);
++		goto error;
++	} else {
++		/* update attribute */
++		pattrib = &pcmdframe->attrib;
++		update_mgntframe_attrib(adapter, pattrib);
++		pattrib->qsel = QSLT_BEACON;
++		pattrib->pktlen = TotalPacketLen - TxDescOffset;
++		pattrib->last_txcmdsz = TotalPacketLen - TxDescOffset;
++#ifdef CONFIG_PCI_HCI
++		dump_mgntframe(adapter, pcmdframe);
++#else
++		dump_mgntframe_and_wait(adapter, pcmdframe, 100);
++#endif
++	}
++
++	RTW_INFO("%s: Set RSVD page location to Fw ,TotalPacketLen(%d), TotalPageNum(%d)\n",
++		 __func__, TotalPacketLen, TotalPageNum);
++#ifdef DBG_DUMP_SET_RSVD_PAGE
++	RTW_INFO(" ==================================================\n");
++	RTW_INFO_DUMP("\n", ReservedPagePacket, TotalPacketLen);
++	RTW_INFO(" ==================================================\n");
++#endif
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++		rtw_hal_set_FwRsvdPage_cmd(adapter, &RsvdPageLoc);
++		if (pwrctl->wowlan_mode == _TRUE)
++			rtw_hal_set_FwAoacRsvdPage_cmd(adapter, &RsvdPageLoc);
++#ifdef CONFIG_AP_WOWLAN
++		if (pwrctl->wowlan_ap_mode == _TRUE)
++			rtw_hal_set_ap_rsvdpage_loc_cmd(adapter, &RsvdPageLoc);
++#endif /* CONFIG_AP_WOWLAN */
++	} else if (pwrctl->wowlan_pno_enable) {
++#ifdef CONFIG_PNO_SUPPORT
++		rtw_hal_set_FwAoacRsvdPage_cmd(adapter, &RsvdPageLoc);
++		if (pwrctl->pno_in_resume)
++			rtw_hal_set_scan_offload_info_cmd(adapter,
++							  &RsvdPageLoc, 0);
++		else
++			rtw_hal_set_scan_offload_info_cmd(adapter,
++							  &RsvdPageLoc, 1);
++#endif /* CONFIG_PNO_SUPPORT */
++	}
++#ifdef CONFIG_P2P_WOWLAN
++	if (_TRUE == pwrctl->wowlan_p2p_mode)
++		rtw_hal_set_FwP2PRsvdPage_cmd(adapter, &RsvdPageLoc);
++#endif /* CONFIG_P2P_WOWLAN */
++	return;
++error:
++	rtw_free_xmitframe(pxmitpriv, pcmdframe);
++}
++static void rtw_hal_set_hw_update_tsf(PADAPTER padapter)
++{
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++#if defined(CONFIG_RTL8822B) || defined(CONFIG_MI_WITH_MBSSID_CAM)
++	RTW_INFO("[Warn] %s "ADPT_FMT" enter func\n", __func__, ADPT_ARG(padapter));
++	rtw_warn_on(1);
++	return;
++#endif
++
++	if (!pmlmeext->en_hw_update_tsf)
++		return;
++
++	/* check REG_RCR bit is set */
++	if (!(rtw_read32(padapter, REG_RCR) & RCR_CBSSID_BCN))
++		return;
++
++	/* enable hw update tsf function for non-AP */
++	if (rtw_linked_check(padapter) &&
++	    check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE) {
++#ifdef CONFIG_CONCURRENT_MODE
++		if (padapter->hw_port == HW_PORT1)
++			rtw_write8(padapter, REG_BCN_CTRL_1, rtw_read8(padapter, REG_BCN_CTRL_1) & (~DIS_TSF_UDT));
++		else
++#endif
++			rtw_write8(padapter, REG_BCN_CTRL, rtw_read8(padapter, REG_BCN_CTRL) & (~DIS_TSF_UDT));
++	}
++	pmlmeext->en_hw_update_tsf = _FALSE;
++}
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++s32 rtw_hal_ch_sw_oper_offload(_adapter *padapter, u8 channel, u8 channel_offset, u16 bwmode)
++{
++	PHAL_DATA_TYPE	pHalData =  GET_HAL_DATA(padapter);
++	u8 ch_sw_h2c_buf[4] = {0x00, 0x00, 0x00, 0x00};
++
++
++	SET_H2CCMD_CH_SW_OPER_OFFLOAD_CH_NUM(ch_sw_h2c_buf, channel);
++	SET_H2CCMD_CH_SW_OPER_OFFLOAD_BW_MODE(ch_sw_h2c_buf, bwmode);
++	switch (bwmode) {
++	case CHANNEL_WIDTH_40:
++		SET_H2CCMD_CH_SW_OPER_OFFLOAD_BW_40M_SC(ch_sw_h2c_buf, channel_offset);
++		break;
++	case CHANNEL_WIDTH_80:
++		SET_H2CCMD_CH_SW_OPER_OFFLOAD_BW_80M_SC(ch_sw_h2c_buf, channel_offset);
++		break;
++	case CHANNEL_WIDTH_20:
++	default:
++		break;
++	}
++	SET_H2CCMD_CH_SW_OPER_OFFLOAD_RFE_TYPE(ch_sw_h2c_buf, pHalData->RFEType);
++
++	return rtw_hal_fill_h2c_cmd(padapter, H2C_CHNL_SWITCH_OPER_OFFLOAD, sizeof(ch_sw_h2c_buf), ch_sw_h2c_buf);
++}
++#endif
++#endif
++
++void SetHwReg(_adapter *adapter, u8 variable, u8 *val)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++
++	switch (variable) {
++	case HW_VAR_MEDIA_STATUS: {
++		u8 net_type = *((u8 *)val);
++
++		rtw_hal_set_msr(adapter, net_type);
++	}
++	break;
++	case HW_VAR_MAC_ADDR:
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		rtw_hal_set_macaddr_mbid(adapter, val);
++#else
++		rtw_hal_set_macaddr_port(adapter, val);
++#endif
++		break;
++	case HW_VAR_BSSID:
++		rtw_hal_set_bssid(adapter, val);
++		break;
++#ifdef CONFIG_MBSSID_CAM
++	case HW_VAR_MBSSID_CAM_WRITE: {
++		u32	cmd = 0;
++		u32	*cam_val = (u32 *)val;
++
++		rtw_write32(adapter, REG_MBIDCAMCFG_1, cam_val[0]);
++		cmd = BIT_MBIDCAM_POLL | BIT_MBIDCAM_WT_EN | BIT_MBIDCAM_VALID | cam_val[1];
++		rtw_write32(adapter, REG_MBIDCAMCFG_2, cmd);
++	}
++		break;
++	case HW_VAR_MBSSID_CAM_CLEAR: {
++		u32 cmd;
++		u8 entry_id = *(u8 *)val;
++
++		rtw_write32(adapter, REG_MBIDCAMCFG_1, 0);
++
++		cmd = BIT_MBIDCAM_POLL | BIT_MBIDCAM_WT_EN | ((entry_id & MBIDCAM_ADDR_MASK) << MBIDCAM_ADDR_SHIFT);
++		rtw_write32(adapter, REG_MBIDCAMCFG_2, cmd);
++	}
++		break;
++	case HW_VAR_RCR_MBSSID_EN:
++		if (*((u8 *)val))
++			rtw_write32(adapter, REG_RCR, rtw_read32(adapter, REG_RCR) | RCR_ENMBID);
++		else {
++			u32	val32;
++
++			val32 = rtw_read32(adapter, REG_RCR);
++			val32 &= ~(RCR_ENMBID);
++			rtw_write32(adapter, REG_RCR, val32);
++		}
++		break;
++#endif
++	case HW_VAR_PORT_SWITCH:
++		hw_var_port_switch(adapter);
++		break;
++	case HW_VAR_INIT_RTS_RATE: {
++		u16 brate_cfg = *((u16 *)val);
++		u8 rate_index = 0;
++		HAL_VERSION *hal_ver = &hal_data->VersionID;
++
++		if (IS_8188E(*hal_ver)) {
++
++			while (brate_cfg > 0x1) {
++				brate_cfg = (brate_cfg >> 1);
++				rate_index++;
++			}
++			rtw_write8(adapter, REG_INIRTS_RATE_SEL, rate_index);
++		} else
++			rtw_warn_on(1);
++	}
++		break;
++	case HW_VAR_SEC_CFG: {
++		u16 reg_scr_ori;
++		u16 reg_scr;
++
++		reg_scr = reg_scr_ori = rtw_read16(adapter, REG_SECCFG);
++		reg_scr |= (SCR_CHK_KEYID | SCR_RxDecEnable | SCR_TxEncEnable);
++
++		if (_rtw_camctl_chk_cap(adapter, SEC_CAP_CHK_BMC))
++			reg_scr |= SCR_CHK_BMC;
++
++		if (_rtw_camctl_chk_flags(adapter, SEC_STATUS_STA_PK_GK_CONFLICT_DIS_BMC_SEARCH))
++			reg_scr |= SCR_NoSKMC;
++
++		if (reg_scr != reg_scr_ori)
++			rtw_write16(adapter, REG_SECCFG, reg_scr);
++	}
++		break;
++	case HW_VAR_SEC_DK_CFG: {
++		struct security_priv *sec = &adapter->securitypriv;
++		u8 reg_scr = rtw_read8(adapter, REG_SECCFG);
++
++		if (val) { /* Enable default key related setting */
++			reg_scr |= SCR_TXBCUSEDK;
++			if (sec->dot11AuthAlgrthm != dot11AuthAlgrthm_8021X)
++				reg_scr |= (SCR_RxUseDK | SCR_TxUseDK);
++		} else /* Disable default key related setting */
++			reg_scr &= ~(SCR_RXBCUSEDK | SCR_TXBCUSEDK | SCR_RxUseDK | SCR_TxUseDK);
++
++		rtw_write8(adapter, REG_SECCFG, reg_scr);
++	}
++		break;
++
++	case HW_VAR_ASIX_IOT:
++		/* enable  ASIX IOT function */
++		if (*((u8 *)val) == _TRUE) {
++			/* 0xa2e[0]=0 (disable rake receiver) */
++			rtw_write8(adapter, rCCK0_FalseAlarmReport + 2,
++				rtw_read8(adapter, rCCK0_FalseAlarmReport + 2) & ~(BIT0));
++			/* 0xa1c=0xa0 (reset channel estimation if signal quality is bad) */
++			rtw_write8(adapter, rCCK0_DSPParameter2, 0xa0);
++		} else {
++			/* restore reg:0xa2e,   reg:0xa1c */
++			rtw_write8(adapter, rCCK0_FalseAlarmReport + 2,
++				rtw_read8(adapter, rCCK0_FalseAlarmReport + 2) | (BIT0));
++			rtw_write8(adapter, rCCK0_DSPParameter2, 0x00);
++		}
++		break;
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	case HW_VAR_WOWLAN: {
++		struct wowlan_ioctl_param *poidparam;
++
++		poidparam = (struct wowlan_ioctl_param *)val;
++		switch (poidparam->subcode) {
++#ifdef CONFIG_WOWLAN
++		case WOWLAN_PATTERN_CLEAN:
++			rtw_hal_dl_pattern(adapter, 2);
++			break;
++		case WOWLAN_ENABLE:
++			rtw_hal_wow_enable(adapter);
++			break;
++		case WOWLAN_DISABLE:
++			rtw_hal_wow_disable(adapter);
++			break;
++#endif /*CONFIG_WOWLAN*/
++#ifdef CONFIG_AP_WOWLAN
++		case WOWLAN_AP_ENABLE:
++			rtw_hal_ap_wow_enable(adapter);
++			break;
++		case WOWLAN_AP_DISABLE:
++			rtw_hal_ap_wow_disable(adapter);
++			break;
++#endif /*CONFIG_AP_WOWLAN*/
++		default:
++			break;
++		}
++	}
++		break;
++#endif /*defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)*/
++
++	case HW_VAR_EN_HW_UPDATE_TSF:
++		rtw_hal_set_hw_update_tsf(adapter);
++		break;
++
++	case HW_VAR_APFM_ON_MAC:
++		hal_data->bMacPwrCtrlOn = *val;
++		RTW_INFO("%s: bMacPwrCtrlOn=%d\n", __func__, hal_data->bMacPwrCtrlOn);
++		break;
++	default:
++		if (0)
++			RTW_PRINT(FUNC_ADPT_FMT" variable(%d) not defined!\n",
++				  FUNC_ADPT_ARG(adapter), variable);
++		break;
++	}
++
++}
++
++void GetHwReg(_adapter *adapter, u8 variable, u8 *val)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++
++
++	switch (variable) {
++	case HW_VAR_BASIC_RATE:
++		*((u16 *)val) = hal_data->BasicRateSet;
++		break;
++	case HW_VAR_RF_TYPE:
++		*((u8 *)val) = hal_data->rf_type;
++		break;
++	case HW_VAR_MEDIA_STATUS:
++		rtw_hal_get_msr(adapter, val);
++		break;
++	case HW_VAR_DO_IQK:
++		*val = hal_data->bNeedIQK;
++		break;
++	case HW_VAR_CH_SW_NEED_TO_TAKE_CARE_IQK_INFO:
++		if (hal_is_band_support(adapter, BAND_ON_5G))
++			*val = _TRUE;
++		else
++			*val = _FALSE;
++		break;
++	case HW_VAR_APFM_ON_MAC:
++		*val = hal_data->bMacPwrCtrlOn;
++		break;
++	default:
++		if (0)
++			RTW_PRINT(FUNC_ADPT_FMT" variable(%d) not defined!\n",
++				  FUNC_ADPT_ARG(adapter), variable);
++		break;
++	}
++
++}
++
++u8
++SetHalDefVar(_adapter *adapter, HAL_DEF_VARIABLE variable, void *value)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	u8 bResult = _SUCCESS;
++
++	switch (variable) {
++
++	case HAL_DEF_DBG_DUMP_RXPKT:
++		hal_data->bDumpRxPkt = *((u8 *)value);
++		break;
++	case HAL_DEF_DBG_DUMP_TXPKT:
++		hal_data->bDumpTxPkt = *((u8 *)value);
++		break;
++	case HAL_DEF_ANT_DETECT:
++		hal_data->AntDetection = *((u8 *)value);
++		break;
++	case HAL_DEF_DBG_DIS_PWT:
++		hal_data->bDisableTXPowerTraining = *((u8 *)value);
++		break;
++	default:
++		RTW_PRINT("%s: [WARNING] HAL_DEF_VARIABLE(%d) not defined!\n", __FUNCTION__, variable);
++		bResult = _FAIL;
++		break;
++	}
++
++	return bResult;
++}
++
++#ifdef CONFIG_BEAMFORMING
++u8 rtw_hal_query_txbfer_rf_num(_adapter *adapter)
++{
++	struct registry_priv	*pregistrypriv = &adapter->registrypriv;
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++
++	if ((pregistrypriv->beamformer_rf_num) && (IS_HARDWARE_TYPE_8814AE(adapter) || IS_HARDWARE_TYPE_8814AU(adapter) || IS_HARDWARE_TYPE_8822BU(adapter) || IS_HARDWARE_TYPE_8821C(adapter)))
++		return pregistrypriv->beamformer_rf_num;
++	else if (IS_HARDWARE_TYPE_8814AE(adapter)
++#if 0
++#if defined(CONFIG_USB_HCI)
++		|| (IS_HARDWARE_TYPE_8814AU(adapter) && (pUsbModeMech->CurUsbMode == 2 || pUsbModeMech->HubUsbMode == 2))  /* for USB3.0 */
++#endif
++#endif
++		) {
++		/*BF cap provided by Yu Chen, Sean, 2015, 01 */
++		if (hal_data->rf_type == RF_3T3R)
++			return 2;
++		else if (hal_data->rf_type == RF_4T4R)
++			return 3;
++		else
++			return 1;
++	} else
++		return 1;
++
++}
++u8 rtw_hal_query_txbfee_rf_num(_adapter *adapter)
++{
++	struct registry_priv		*pregistrypriv = &adapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++
++	if ((pregistrypriv->beamformee_rf_num) && (IS_HARDWARE_TYPE_8814AE(adapter) || IS_HARDWARE_TYPE_8814AU(adapter) || IS_HARDWARE_TYPE_8822BU(adapter) || IS_HARDWARE_TYPE_8821C(adapter)))
++		return pregistrypriv->beamformee_rf_num;
++	else if (IS_HARDWARE_TYPE_8814AE(adapter) || IS_HARDWARE_TYPE_8814AU(adapter)) {
++		if (pmlmeinfo->assoc_AP_vendor == HT_IOT_PEER_BROADCOM)
++			return 2;
++		else
++			return 2;/*TODO: May be 3 in the future, by ChenYu. */
++	} else
++		return 1;
++
++}
++#endif
++
++u8
++GetHalDefVar(_adapter *adapter, HAL_DEF_VARIABLE variable, void *value)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	u8 bResult = _SUCCESS;
++
++	switch (variable) {
++	case HAL_DEF_UNDERCORATEDSMOOTHEDPWDB: {
++		struct mlme_priv *pmlmepriv;
++		struct sta_priv *pstapriv;
++		struct sta_info *psta;
++
++		pmlmepriv = &adapter->mlmepriv;
++		pstapriv = &adapter->stapriv;
++		psta = rtw_get_stainfo(pstapriv, pmlmepriv->cur_network.network.MacAddress);
++		if (psta)
++			*((int *)value) = psta->rssi_stat.UndecoratedSmoothedPWDB;
++	}
++	break;
++	case HAL_DEF_DBG_DUMP_RXPKT:
++		*((u8 *)value) = hal_data->bDumpRxPkt;
++		break;
++	case HAL_DEF_DBG_DUMP_TXPKT:
++		*((u8 *)value) = hal_data->bDumpTxPkt;
++		break;
++	case HAL_DEF_ANT_DETECT:
++		*((u8 *)value) = hal_data->AntDetection;
++		break;
++	case HAL_DEF_MACID_SLEEP:
++		*(u8 *)value = _FALSE;
++		break;
++	case HAL_DEF_TX_PAGE_SIZE:
++		*((u32 *)value) = PAGE_SIZE_128;
++		break;
++	case HAL_DEF_DBG_DIS_PWT:
++		*(u8 *)value = hal_data->bDisableTXPowerTraining;
++		break;
++	case HAL_DEF_EXPLICIT_BEAMFORMER:
++	case HAL_DEF_EXPLICIT_BEAMFORMEE:
++	case HAL_DEF_VHT_MU_BEAMFORMER:
++	case HAL_DEF_VHT_MU_BEAMFORMEE:
++		*(u8 *)value = _FALSE;
++		break;
++#ifdef CONFIG_BEAMFORMING
++	case HAL_DEF_BEAMFORMER_CAP:
++		*(u8 *)value = rtw_hal_query_txbfer_rf_num(adapter);
++		break;
++	case HAL_DEF_BEAMFORMEE_CAP:
++		*(u8 *)value = rtw_hal_query_txbfee_rf_num(adapter);
++		break;
++#endif
++	default:
++		RTW_PRINT("%s: [WARNING] HAL_DEF_VARIABLE(%d) not defined!\n", __FUNCTION__, variable);
++		bResult = _FAIL;
++		break;
++	}
++
++	return bResult;
++}
++
++void SetHalODMVar(
++	PADAPTER				Adapter,
++	HAL_ODM_VARIABLE		eVariable,
++	PVOID					pValue1,
++	BOOLEAN					bSet)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T podmpriv = &pHalData->odmpriv;
++	/* _irqL irqL; */
++	switch (eVariable) {
++	case HAL_ODM_STA_INFO: {
++		struct sta_info *psta = (struct sta_info *)pValue1;
++		if (bSet) {
++			RTW_INFO("### Set STA_(%d) info ###\n", psta->mac_id);
++			ODM_CmnInfoPtrArrayHook(podmpriv, ODM_CMNINFO_STA_STATUS, psta->mac_id, psta);
++		} else {
++			RTW_INFO("### Clean STA_(%d) info ###\n", psta->mac_id);
++			/* _enter_critical_bh(&pHalData->odm_stainfo_lock, &irqL); */
++			ODM_CmnInfoPtrArrayHook(podmpriv, ODM_CMNINFO_STA_STATUS, psta->mac_id, NULL);
++
++			/* _exit_critical_bh(&pHalData->odm_stainfo_lock, &irqL); */
++		}
++	}
++		break;
++	case HAL_ODM_P2P_STATE:
++		ODM_CmnInfoUpdate(podmpriv, ODM_CMNINFO_WIFI_DIRECT, bSet);
++		break;
++	case HAL_ODM_WIFI_DISPLAY_STATE:
++		ODM_CmnInfoUpdate(podmpriv, ODM_CMNINFO_WIFI_DISPLAY, bSet);
++		break;
++	case HAL_ODM_REGULATION:
++		ODM_CmnInfoInit(podmpriv, ODM_CMNINFO_DOMAIN_CODE_2G, pHalData->Regulation2_4G);
++		ODM_CmnInfoInit(podmpriv, ODM_CMNINFO_DOMAIN_CODE_5G, pHalData->Regulation5G);
++		break;
++#if defined(CONFIG_SIGNAL_DISPLAY_DBM) && defined(CONFIG_BACKGROUND_NOISE_MONITOR)
++	case HAL_ODM_NOISE_MONITOR: {
++		struct noise_info *pinfo = (struct noise_info *)pValue1;
++
++#ifdef DBG_NOISE_MONITOR
++		RTW_INFO("### Noise monitor chan(%d)-bPauseDIG:%d,IGIValue:0x%02x,max_time:%d (ms) ###\n",
++			pinfo->chan, pinfo->bPauseDIG, pinfo->IGIValue, pinfo->max_time);
++#endif
++
++		pHalData->noise[pinfo->chan] = ODM_InbandNoise_Monitor(podmpriv, pinfo->bPauseDIG, pinfo->IGIValue, pinfo->max_time);
++		RTW_INFO("chan_%d, noise = %d (dBm)\n", pinfo->chan, pHalData->noise[pinfo->chan]);
++#ifdef DBG_NOISE_MONITOR
++		RTW_INFO("noise_a = %d, noise_b = %d  noise_all:%d\n",
++			 podmpriv->noise_level.noise[ODM_RF_PATH_A],
++			 podmpriv->noise_level.noise[ODM_RF_PATH_B],
++			 podmpriv->noise_level.noise_all);
++#endif
++	}
++		break;
++#endif/*#ifdef CONFIG_BACKGROUND_NOISE_MONITOR*/
++
++	case HAL_ODM_INITIAL_GAIN: {
++		u8 rx_gain = *((u8 *)(pValue1));
++		/*printk("rx_gain:%x\n",rx_gain);*/
++		if (rx_gain == 0xff) {/*restore rx gain*/
++			/*ODM_Write_DIG(podmpriv,pDigTable->BackupIGValue);*/
++			odm_PauseDIG(podmpriv, PHYDM_RESUME, PHYDM_PAUSE_LEVEL_0, rx_gain);
++		} else {
++			/*pDigTable->BackupIGValue = pDigTable->CurIGValue;*/
++			/*ODM_Write_DIG(podmpriv,rx_gain);*/
++			odm_PauseDIG(podmpriv, PHYDM_PAUSE, PHYDM_PAUSE_LEVEL_0, rx_gain);
++		}
++	}
++	break;
++	case HAL_ODM_FA_CNT_DUMP:
++		if (*((u8 *)pValue1))
++			podmpriv->DebugComponents |= (ODM_COMP_DIG | ODM_COMP_FA_CNT);
++		else
++			podmpriv->DebugComponents &= ~(ODM_COMP_DIG | ODM_COMP_FA_CNT);
++		break;
++	case HAL_ODM_DBG_FLAG:
++		ODM_CmnInfoUpdate(podmpriv, ODM_CMNINFO_DBG_COMP, *((u8Byte *)pValue1));
++		break;
++	case HAL_ODM_DBG_LEVEL:
++		ODM_CmnInfoUpdate(podmpriv, ODM_CMNINFO_DBG_LEVEL, *((u4Byte *)pValue1));
++		break;
++	case HAL_ODM_RX_INFO_DUMP: {
++		PFALSE_ALARM_STATISTICS FalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure(podmpriv , PHYDM_FALSEALMCNT);
++		pDIG_T	pDM_DigTable = &podmpriv->DM_DigTable;
++		void *sel;
++
++		sel = pValue1;
++
++		_RTW_PRINT_SEL(sel , "============ Rx Info dump ===================\n");
++		_RTW_PRINT_SEL(sel , "bLinked = %d, RSSI_Min = %d(%%), CurrentIGI = 0x%x\n", podmpriv->bLinked, podmpriv->RSSI_Min, pDM_DigTable->CurIGValue);
++		_RTW_PRINT_SEL(sel , "Cnt_Cck_fail = %d, Cnt_Ofdm_fail = %d, Total False Alarm = %d\n", FalseAlmCnt->Cnt_Cck_fail, FalseAlmCnt->Cnt_Ofdm_fail, FalseAlmCnt->Cnt_all);
++
++		if (podmpriv->bLinked) {
++			_RTW_PRINT_SEL(sel , "RxRate = %s", HDATA_RATE(podmpriv->RxRate));
++			_RTW_PRINT_SEL(sel , " RSSI_A = %d(%%), RSSI_B = %d(%%)\n", podmpriv->RSSI_A, podmpriv->RSSI_B);
++#ifdef DBG_RX_SIGNAL_DISPLAY_RAW_DATA
++			rtw_dump_raw_rssi_info(Adapter, sel);
++#endif
++		}
++	}
++		break;
++	case HAL_ODM_RX_Dframe_INFO: {
++		void *sel;
++
++		sel = pValue1;
++
++		/*_RTW_PRINT_SEL(sel , "HAL_ODM_RX_Dframe_INFO\n");*/
++#ifdef DBG_RX_DFRAME_RAW_DATA
++		rtw_dump_rx_dframe_info(Adapter, sel);
++#endif
++	}
++		break;
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	case HAL_ODM_AUTO_CHNL_SEL: {
++		ACS_OP	acs_op = *(ACS_OP *)pValue1;
++
++		rtw_phydm_func_set(Adapter, ODM_BB_NHM_CNT);
++
++		if (ACS_INIT == acs_op) {
++#ifdef DBG_AUTO_CHNL_SEL_NHM
++			RTW_INFO("[ACS-"ADPT_FMT"] HAL_ODM_AUTO_CHNL_SEL: ACS_INIT\n", ADPT_ARG(Adapter));
++#endif
++			odm_AutoChannelSelectInit(podmpriv);
++		} else if (ACS_RESET == acs_op) {
++			/* Reset statistics for auto channel selection mechanism.*/
++#ifdef DBG_AUTO_CHNL_SEL_NHM
++			RTW_INFO("[ACS-"ADPT_FMT"] HAL_ODM_AUTO_CHNL_SEL: ACS_RESET\n", ADPT_ARG(Adapter));
++#endif
++			odm_AutoChannelSelectReset(podmpriv);
++
++		} else if (ACS_SELECT == acs_op) {
++			/* Collect NHM measurement result after current channel */
++#ifdef DBG_AUTO_CHNL_SEL_NHM
++			RTW_INFO("[ACS-"ADPT_FMT"] HAL_ODM_AUTO_CHNL_SEL: ACS_SELECT, CH(%d)\n", ADPT_ARG(Adapter), rtw_get_acs_channel(Adapter));
++#endif
++			odm_AutoChannelSelect(podmpriv, rtw_get_acs_channel(Adapter));
++		} else
++			RTW_INFO("[ACS-"ADPT_FMT"] HAL_ODM_AUTO_CHNL_SEL: Unexpected OP\n", ADPT_ARG(Adapter));
++
++	}
++		break;
++#endif
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	case HAL_ODM_ANTDIV_SELECT: {
++		u8	antenna = (*(u8 *)pValue1);
++
++		/*switch antenna*/
++		ODM_UpdateRxIdleAnt(&pHalData->odmpriv, antenna);
++		/*RTW_INFO("==> HAL_ODM_ANTDIV_SELECT, Ant_(%s)\n", (antenna == MAIN_ANT) ? "MAIN_ANT" : "AUX_ANT");*/
++
++	}
++		break;
++#endif
++
++	default:
++		break;
++	}
++}
++
++void GetHalODMVar(
++	PADAPTER				Adapter,
++	HAL_ODM_VARIABLE		eVariable,
++	PVOID					pValue1,
++	PVOID					pValue2)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T podmpriv = &pHalData->odmpriv;
++
++	switch (eVariable) {
++#if defined(CONFIG_SIGNAL_DISPLAY_DBM) && defined(CONFIG_BACKGROUND_NOISE_MONITOR)
++	case HAL_ODM_NOISE_MONITOR: {
++		u8 chan = *(u8 *)pValue1;
++		*(s16 *)pValue2 = pHalData->noise[chan];
++#ifdef DBG_NOISE_MONITOR
++		RTW_INFO("### Noise monitor chan(%d)-noise:%d (dBm) ###\n",
++			 chan, pHalData->noise[chan]);
++#endif
++	}
++		break;
++#endif/*#ifdef CONFIG_BACKGROUND_NOISE_MONITOR*/
++	case HAL_ODM_DBG_FLAG:
++		*((u8Byte *)pValue1) = podmpriv->DebugComponents;
++		break;
++	case HAL_ODM_DBG_LEVEL:
++		*((u4Byte *)pValue1) = podmpriv->DebugLevel;
++		break;
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	case HAL_ODM_AUTO_CHNL_SEL: {
++#ifdef DBG_AUTO_CHNL_SEL_NHM
++		RTW_INFO("[ACS-"ADPT_FMT"] HAL_ODM_AUTO_CHNL_SEL: GET_BEST_CHAN\n", ADPT_ARG(Adapter));
++#endif
++		/* Retrieve better channel from NHM mechanism	*/
++		if (IsSupported24G(Adapter->registrypriv.wireless_mode))
++			*((u8 *)(pValue1)) = ODM_GetAutoChannelSelectResult(podmpriv, BAND_ON_2_4G);
++		if (IsSupported5G(Adapter->registrypriv.wireless_mode))
++			*((u8 *)(pValue2)) = ODM_GetAutoChannelSelectResult(podmpriv, BAND_ON_5G);
++	}
++		break;
++#endif
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	case HAL_ODM_ANTDIV_SELECT: {
++		pFAT_T	pDM_FatTable = &podmpriv->DM_FatTable;
++		*((u8 *)pValue1) = pDM_FatTable->RxIdleAnt;
++	}
++		break;
++#endif
++	case HAL_ODM_INITIAL_GAIN: {
++		pDIG_T pDM_DigTable = &podmpriv->DM_DigTable;
++		*((u8 *)pValue1) = pDM_DigTable->CurIGValue;
++	}
++		break;
++	default:
++		break;
++	}
++}
++
++
++u32 rtw_phydm_ability_ops(_adapter *adapter, HAL_PHYDM_OPS ops, u32 ability)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(adapter);
++	PDM_ODM_T podmpriv = &pHalData->odmpriv;
++	u32 result = 0;
++
++	switch (ops) {
++	case HAL_PHYDM_DIS_ALL_FUNC:
++		podmpriv->SupportAbility = DYNAMIC_FUNC_DISABLE;
++		break;
++	case HAL_PHYDM_FUNC_SET:
++		podmpriv->SupportAbility |= ability;
++		break;
++	case HAL_PHYDM_FUNC_CLR:
++		podmpriv->SupportAbility &= ~(ability);
++		break;
++	case HAL_PHYDM_ABILITY_BK:
++		/* dm flag backup*/
++		podmpriv->BK_SupportAbility = podmpriv->SupportAbility;
++		break;
++	case HAL_PHYDM_ABILITY_RESTORE:
++		/* restore dm flag */
++		podmpriv->SupportAbility = podmpriv->BK_SupportAbility;
++		break;
++	case HAL_PHYDM_ABILITY_SET:
++		podmpriv->SupportAbility = ability;
++		break;
++	case HAL_PHYDM_ABILITY_GET:
++		result = podmpriv->SupportAbility;
++		break;
++	}
++	return result;
++}
++
++
++BOOLEAN
++eqNByte(
++	u8	*str1,
++	u8	*str2,
++	u32	num
++)
++{
++	if (num == 0)
++		return _FALSE;
++	while (num > 0) {
++		num--;
++		if (str1[num] != str2[num])
++			return _FALSE;
++	}
++	return _TRUE;
++}
++
++/*
++ *	Description:
++ *		Translate a character to hex digit.
++ *   */
++u32
++MapCharToHexDigit(
++	IN		char		chTmp
++)
++{
++	if (chTmp >= '0' && chTmp <= '9')
++		return chTmp - '0';
++	else if (chTmp >= 'a' && chTmp <= 'f')
++		return 10 + (chTmp - 'a');
++	else if (chTmp >= 'A' && chTmp <= 'F')
++		return 10 + (chTmp - 'A');
++	else
++		return 0;
++}
++
++
++
++/*
++ *	Description:
++ *		Parse hex number from the string pucStr.
++ *   */
++BOOLEAN
++GetHexValueFromString(
++	IN		char			*szStr,
++	IN OUT	u32			*pu4bVal,
++	IN OUT	u32			*pu4bMove
++)
++{
++	char		*szScan = szStr;
++
++	/* Check input parameter. */
++	if (szStr == NULL || pu4bVal == NULL || pu4bMove == NULL) {
++		RTW_INFO("GetHexValueFromString(): Invalid inpur argumetns! szStr: %p, pu4bVal: %p, pu4bMove: %p\n", szStr, pu4bVal, pu4bMove);
++		return _FALSE;
++	}
++
++	/* Initialize output. */
++	*pu4bMove = 0;
++	*pu4bVal = 0;
++
++	/* Skip leading space. */
++	while (*szScan != '\0' &&
++	       (*szScan == ' ' || *szScan == '\t')) {
++		szScan++;
++		(*pu4bMove)++;
++	}
++
++	/* Skip leading '0x' or '0X'. */
++	if (*szScan == '0' && (*(szScan + 1) == 'x' || *(szScan + 1) == 'X')) {
++		szScan += 2;
++		(*pu4bMove) += 2;
++	}
++
++	/* Check if szScan is now pointer to a character for hex digit, */
++	/* if not, it means this is not a valid hex number. */
++	if (!IsHexDigit(*szScan))
++		return _FALSE;
++
++	/* Parse each digit. */
++	do {
++		(*pu4bVal) <<= 4;
++		*pu4bVal += MapCharToHexDigit(*szScan);
++
++		szScan++;
++		(*pu4bMove)++;
++	} while (IsHexDigit(*szScan));
++
++	return _TRUE;
++}
++
++BOOLEAN
++GetFractionValueFromString(
++	IN		char			*szStr,
++	IN OUT	u8				*pInteger,
++	IN OUT	u8				*pFraction,
++	IN OUT	u32			*pu4bMove
++)
++{
++	char	*szScan = szStr;
++
++	/* Initialize output. */
++	*pu4bMove = 0;
++	*pInteger = 0;
++	*pFraction = 0;
++
++	/* Skip leading space. */
++	while (*szScan != '\0' &&	(*szScan == ' ' || *szScan == '\t')) {
++		++szScan;
++		++(*pu4bMove);
++	}
++
++	/* Parse each digit. */
++	do {
++		(*pInteger) *= 10;
++		*pInteger += (*szScan - '0');
++
++		++szScan;
++		++(*pu4bMove);
++
++		if (*szScan == '.') {
++			++szScan;
++			++(*pu4bMove);
++
++			if (*szScan < '0' || *szScan > '9')
++				return _FALSE;
++			else {
++				*pFraction = *szScan - '0';
++				++szScan;
++				++(*pu4bMove);
++				return _TRUE;
++			}
++		}
++	} while (*szScan >= '0' && *szScan <= '9');
++
++	return _TRUE;
++}
++
++/*
++ *	Description:
++ * Return TRUE if szStr is comment out with leading " */ /* ".
++ *   */
++BOOLEAN
++IsCommentString(
++	IN		char			*szStr
++)
++{
++	if (*szStr == '/' && *(szStr + 1) == '/')
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++BOOLEAN
++GetU1ByteIntegerFromStringInDecimal(
++	IN		char	*Str,
++	IN OUT	u8		*pInt
++)
++{
++	u16 i = 0;
++	*pInt = 0;
++
++	while (Str[i] != '\0') {
++		if (Str[i] >= '0' && Str[i] <= '9') {
++			*pInt *= 10;
++			*pInt += (Str[i] - '0');
++		} else
++			return _FALSE;
++		++i;
++	}
++
++	return _TRUE;
++}
++
++/* <20121004, Kordan> For example,
++ * ParseQualifiedString(inString, 0, outString, '[', ']') gets "Kordan" from a string "Hello [Kordan]".
++ * If RightQualifier does not exist, it will hang on in the while loop */
++BOOLEAN
++ParseQualifiedString(
++	IN		char	*In,
++	IN OUT	u32	*Start,
++	OUT		char	*Out,
++	IN		char		LeftQualifier,
++	IN		char		RightQualifier
++)
++{
++	u32	i = 0, j = 0;
++	char	c = In[(*Start)++];
++
++	if (c != LeftQualifier)
++		return _FALSE;
++
++	i = (*Start);
++	while ((c = In[(*Start)++]) != RightQualifier)
++		; /* find ']' */
++	j = (*Start) - 2;
++	strncpy((char *)Out, (const char *)(In + i), j - i + 1);
++
++	return _TRUE;
++}
++
++BOOLEAN
++isAllSpaceOrTab(
++	u8	*data,
++	u8	size
++)
++{
++	u8	cnt = 0, NumOfSpaceAndTab = 0;
++
++	while (size > cnt) {
++		if (data[cnt] == ' ' || data[cnt] == '\t' || data[cnt] == '\0')
++			++NumOfSpaceAndTab;
++
++		++cnt;
++	}
++
++	return size == NumOfSpaceAndTab;
++}
++
++
++void rtw_hal_check_rxfifo_full(_adapter *adapter)
++{
++	struct dvobj_priv *psdpriv = adapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(adapter);
++	struct registry_priv *regsty = &adapter->registrypriv;
++	int save_cnt = _FALSE;
++
++	if (regsty->check_hw_status == 1) {
++		/* switch counter to RX fifo */
++		if (IS_8188E(pHalData->VersionID) ||
++		    IS_8188F(pHalData->VersionID) ||
++		    IS_8812_SERIES(pHalData->VersionID) ||
++		    IS_8821_SERIES(pHalData->VersionID) ||
++		    IS_8723B_SERIES(pHalData->VersionID) ||
++		    IS_8192E(pHalData->VersionID) ||
++		    IS_8703B_SERIES(pHalData->VersionID) ||
++		    IS_8723D_SERIES(pHalData->VersionID)) {
++			rtw_write8(adapter, REG_RXERR_RPT + 3, rtw_read8(adapter, REG_RXERR_RPT + 3) | 0xa0);
++			save_cnt = _TRUE;
++		} else {
++			/* todo: other chips */
++		}
++
++
++		if (save_cnt) {
++			pdbgpriv->dbg_rx_fifo_last_overflow = pdbgpriv->dbg_rx_fifo_curr_overflow;
++			pdbgpriv->dbg_rx_fifo_curr_overflow = rtw_read16(adapter, REG_RXERR_RPT);
++			pdbgpriv->dbg_rx_fifo_diff_overflow = pdbgpriv->dbg_rx_fifo_curr_overflow - pdbgpriv->dbg_rx_fifo_last_overflow;
++		} else {
++			/* special value to indicate no implementation */
++			pdbgpriv->dbg_rx_fifo_last_overflow = 1;
++			pdbgpriv->dbg_rx_fifo_curr_overflow = 1;
++			pdbgpriv->dbg_rx_fifo_diff_overflow = 1;
++		}
++	}
++}
++
++void linked_info_dump(_adapter *padapter, u8 benable)
++{
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++
++	if (padapter->bLinkInfoDump == benable)
++		return;
++
++	RTW_INFO("%s %s\n", __FUNCTION__, (benable) ? "enable" : "disable");
++
++	if (benable) {
++#ifdef CONFIG_LPS
++		pwrctrlpriv->org_power_mgnt = pwrctrlpriv->power_mgnt;/* keep org value */
++		rtw_pm_set_lps(padapter, PS_MODE_ACTIVE);
++#endif
++
++#ifdef CONFIG_IPS
++		pwrctrlpriv->ips_org_mode = pwrctrlpriv->ips_mode;/* keep org value */
++		rtw_pm_set_ips(padapter, IPS_NONE);
++#endif
++	} else {
++#ifdef CONFIG_IPS
++		rtw_pm_set_ips(padapter, pwrctrlpriv->ips_org_mode);
++#endif /* CONFIG_IPS */
++
++#ifdef CONFIG_LPS
++		rtw_pm_set_lps(padapter, pwrctrlpriv->org_power_mgnt);
++#endif /* CONFIG_LPS */
++	}
++	padapter->bLinkInfoDump = benable ;
++}
++
++#ifdef DBG_RX_SIGNAL_DISPLAY_RAW_DATA
++void rtw_get_raw_rssi_info(void *sel, _adapter *padapter)
++{
++	u8 isCCKrate, rf_path;
++	PHAL_DATA_TYPE	pHalData =  GET_HAL_DATA(padapter);
++	struct rx_raw_rssi *psample_pkt_rssi = &padapter->recvpriv.raw_rssi_info;
++	RTW_PRINT_SEL(sel, "RxRate = %s, PWDBALL = %d(%%), rx_pwr_all = %d(dBm)\n",
++		HDATA_RATE(psample_pkt_rssi->data_rate), psample_pkt_rssi->pwdball, psample_pkt_rssi->pwr_all);
++	isCCKrate = (psample_pkt_rssi->data_rate <= DESC_RATE11M) ? TRUE : FALSE;
++
++	if (isCCKrate)
++		psample_pkt_rssi->mimo_signal_strength[0] = psample_pkt_rssi->pwdball;
++
++	for (rf_path = 0; rf_path < pHalData->NumTotalRFPath; rf_path++) {
++		RTW_PRINT_SEL(sel, "RF_PATH_%d=>signal_strength:%d(%%),signal_quality:%d(%%)\n"
++			, rf_path, psample_pkt_rssi->mimo_signal_strength[rf_path], psample_pkt_rssi->mimo_signal_quality[rf_path]);
++
++		if (!isCCKrate) {
++			RTW_PRINT_SEL(sel, "\trx_ofdm_pwr:%d(dBm),rx_ofdm_snr:%d(dB)\n",
++				psample_pkt_rssi->ofdm_pwr[rf_path], psample_pkt_rssi->ofdm_snr[rf_path]);
++		}
++	}
++}
++
++void rtw_dump_raw_rssi_info(_adapter *padapter, void *sel)
++{
++	u8 isCCKrate, rf_path;
++	PHAL_DATA_TYPE	pHalData =  GET_HAL_DATA(padapter);
++	struct rx_raw_rssi *psample_pkt_rssi = &padapter->recvpriv.raw_rssi_info;
++	_RTW_PRINT_SEL(sel, "============ RAW Rx Info dump ===================\n");
++	_RTW_PRINT_SEL(sel, "RxRate = %s, PWDBALL = %d(%%), rx_pwr_all = %d(dBm)\n", HDATA_RATE(psample_pkt_rssi->data_rate), psample_pkt_rssi->pwdball, psample_pkt_rssi->pwr_all);
++
++	isCCKrate = (psample_pkt_rssi->data_rate <= DESC_RATE11M) ? TRUE : FALSE;
++
++	if (isCCKrate)
++		psample_pkt_rssi->mimo_signal_strength[0] = psample_pkt_rssi->pwdball;
++
++	for (rf_path = 0; rf_path < pHalData->NumTotalRFPath; rf_path++) {
++		_RTW_PRINT_SEL(sel , "RF_PATH_%d=>signal_strength:%d(%%),signal_quality:%d(%%)"
++			, rf_path, psample_pkt_rssi->mimo_signal_strength[rf_path], psample_pkt_rssi->mimo_signal_quality[rf_path]);
++
++		if (!isCCKrate)
++			_RTW_PRINT_SEL(sel , ",rx_ofdm_pwr:%d(dBm),rx_ofdm_snr:%d(dB)\n", psample_pkt_rssi->ofdm_pwr[rf_path], psample_pkt_rssi->ofdm_snr[rf_path]);
++		else
++			_RTW_PRINT_SEL(sel , "\n");
++
++	}
++}
++#endif
++
++#ifdef DBG_RX_DFRAME_RAW_DATA
++void rtw_dump_rx_dframe_info(_adapter *padapter, void *sel)
++{
++	_irqL irqL;
++	u8 isCCKrate, rf_path;
++	struct recv_priv *precvpriv = &(padapter->recvpriv);
++	PHAL_DATA_TYPE	pHalData =  GET_HAL_DATA(padapter);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta;
++	struct sta_recv_dframe_info *psta_dframe_info;
++	int i;
++	_list	*plist, *phead;
++	char *BW;
++	u8 bc_addr[6] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u8 null_addr[6] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
++
++	if (precvpriv->store_law_data_flag) {
++
++		_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++		for (i = 0; i < NUM_STA; i++) {
++			phead = &(pstapriv->sta_hash[i]);
++			plist = get_next(phead);
++
++			while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++
++				psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++				plist = get_next(plist);
++
++				if (psta) {
++					psta_dframe_info = &psta->sta_dframe_info;
++					if ((_rtw_memcmp(psta->hwaddr, bc_addr, 6)  !=   _TRUE)
++					    && (_rtw_memcmp(psta->hwaddr, null_addr, 6)  !=  _TRUE)
++					    && (_rtw_memcmp(psta->hwaddr, adapter_mac_addr(padapter), 6)  !=  _TRUE)) {
++
++
++						isCCKrate = (psta_dframe_info->sta_data_rate <= DESC_RATE11M) ? TRUE : FALSE;
++
++						switch (psta_dframe_info->sta_bw_mode) {
++
++						case CHANNEL_WIDTH_20:
++							BW = "20M";
++							break;
++
++						case CHANNEL_WIDTH_40:
++							BW = "40M";
++							break;
++
++						case CHANNEL_WIDTH_80:
++							BW = "80M";
++							break;
++
++						case CHANNEL_WIDTH_160:
++							BW = "160M";
++							break;
++
++						default:
++							BW = "";
++							break;
++						}
++
++						RTW_PRINT_SEL(sel, "==============================\n");
++						_RTW_PRINT_SEL(sel, "macaddr =" MAC_FMT "\n", MAC_ARG(psta->hwaddr));
++						_RTW_PRINT_SEL(sel, "BW=%s, sgi =%d\n", BW, psta_dframe_info->sta_sgi);
++						_RTW_PRINT_SEL(sel, "Rx_Data_Rate = %s\n", HDATA_RATE(psta_dframe_info->sta_data_rate));
++
++						for (rf_path = 0; rf_path < pHalData->NumTotalRFPath; rf_path++) {
++
++							if (!isCCKrate) {
++
++								_RTW_PRINT_SEL(sel , "RF_PATH_%d RSSI:%d(dBm)", rf_path, psta_dframe_info->sta_RxPwr[rf_path]);
++								_RTW_PRINT_SEL(sel , ",rx_ofdm_snr:%d(dB)\n", psta_dframe_info->sta_ofdm_snr[rf_path]);
++
++							} else
++
++								_RTW_PRINT_SEL(sel , "RF_PATH_%d RSSI:%d(dBm)\n", rf_path, (psta_dframe_info->sta_mimo_signal_strength[rf_path]) - 100);
++						}
++					}
++				}
++			}
++		}
++		_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++	}
++}
++#endif
++void rtw_store_phy_info(_adapter *padapter, union recv_frame *prframe)
++{
++	u8 isCCKrate, rf_path , dframe_type;
++	u8 *ptr;
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++#ifdef DBG_RX_DFRAME_RAW_DATA
++	struct sta_recv_dframe_info *psta_dframe_info;
++#endif
++	struct recv_priv *precvpriv = &(padapter->recvpriv);
++	PHAL_DATA_TYPE	pHalData =  GET_HAL_DATA(padapter);
++	struct rx_pkt_attrib *pattrib = &prframe->u.hdr.attrib;
++	struct sta_info *psta = prframe->u.hdr.psta;
++	PODM_PHY_INFO_T pPhyInfo  = (PODM_PHY_INFO_T)(&pattrib->phy_info);
++	struct rx_raw_rssi *psample_pkt_rssi = &padapter->recvpriv.raw_rssi_info;
++	psample_pkt_rssi->data_rate = pattrib->data_rate;
++	ptr = prframe->u.hdr.rx_data;
++	dframe_type = GetFrameType(ptr);
++	/*RTW_INFO("=>%s\n", __FUNCTION__);*/
++
++
++	if (precvpriv->store_law_data_flag) {
++		isCCKrate = (pattrib->data_rate <= DESC_RATE11M) ? TRUE : FALSE;
++
++		psample_pkt_rssi->pwdball = pPhyInfo->RxPWDBAll;
++		psample_pkt_rssi->pwr_all = pPhyInfo->RecvSignalPower;
++
++		for (rf_path = 0; rf_path < pHalData->NumTotalRFPath; rf_path++) {
++			psample_pkt_rssi->mimo_signal_strength[rf_path] = pPhyInfo->RxMIMOSignalStrength[rf_path];
++			psample_pkt_rssi->mimo_signal_quality[rf_path] = pPhyInfo->RxMIMOSignalQuality[rf_path];
++			if (!isCCKrate) {
++				psample_pkt_rssi->ofdm_pwr[rf_path] = pPhyInfo->RxPwr[rf_path];
++				psample_pkt_rssi->ofdm_snr[rf_path] = pPhyInfo->RxSNR[rf_path];
++			}
++		}
++#ifdef DBG_RX_DFRAME_RAW_DATA
++		if ((dframe_type == WIFI_DATA_TYPE) || (dframe_type == WIFI_QOS_DATA_TYPE) || (padapter->registrypriv.mp_mode == 1)) {
++
++			/*RTW_INFO("=>%s WIFI_DATA_TYPE or WIFI_QOS_DATA_TYPE\n", __FUNCTION__);*/
++			if (psta) {
++				psta_dframe_info = &psta->sta_dframe_info;
++				/*RTW_INFO("=>%s psta->hwaddr="MAC_FMT" !\n", __FUNCTION__, MAC_ARG(psta->hwaddr));*/
++				if ((_rtw_memcmp(psta->hwaddr, bc_addr, ETH_ALEN) != _TRUE) || (padapter->registrypriv.mp_mode == 1)) {
++					psta_dframe_info->sta_data_rate = pattrib->data_rate;
++					psta_dframe_info->sta_sgi = pattrib->sgi;
++					psta_dframe_info->sta_bw_mode = pattrib->bw;
++					for (rf_path = 0; rf_path < pHalData->NumTotalRFPath; rf_path++) {
++
++						psta_dframe_info->sta_mimo_signal_strength[rf_path] = (pPhyInfo->RxMIMOSignalStrength[rf_path]);/*Percentage to dbm*/
++
++						if (!isCCKrate) {
++							psta_dframe_info->sta_ofdm_snr[rf_path] = pPhyInfo->RxSNR[rf_path];
++							psta_dframe_info->sta_RxPwr[rf_path] = pPhyInfo->RxPwr[rf_path];
++						}
++					}
++				}
++			}
++		}
++#endif
++	}
++
++}
++
++
++int check_phy_efuse_tx_power_info_valid(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++	u8 *pContent = pHalData->efuse_eeprom_data;
++	int index = 0;
++	u16 tx_index_offset = 0x0000;
++
++	switch (rtw_get_chip_type(padapter)) {
++	case RTL8723B:
++		tx_index_offset = EEPROM_TX_PWR_INX_8723B;
++		break;
++	case RTL8703B:
++		tx_index_offset = EEPROM_TX_PWR_INX_8703B;
++		break;
++	case RTL8723D:
++		tx_index_offset = EEPROM_TX_PWR_INX_8723D;
++		break;
++	case RTL8188E:
++		tx_index_offset = EEPROM_TX_PWR_INX_88E;
++		break;
++	case RTL8188F:
++		tx_index_offset = EEPROM_TX_PWR_INX_8188F;
++		break;
++	case RTL8192E:
++		tx_index_offset = EEPROM_TX_PWR_INX_8192E;
++		break;
++	case RTL8821:
++		tx_index_offset = EEPROM_TX_PWR_INX_8821;
++		break;
++	case RTL8812:
++		tx_index_offset = EEPROM_TX_PWR_INX_8812;
++		break;
++	case RTL8814A:
++		tx_index_offset = EEPROM_TX_PWR_INX_8814;
++		break;
++	case RTL8822B:
++		tx_index_offset = EEPROM_TX_PWR_INX_8822B;
++		break;
++	case RTL8821C:
++		tx_index_offset = EEPROM_TX_PWR_INX_8821C;
++		break;
++	default:
++		tx_index_offset = 0x0010;
++		break;
++	}
++
++	/* TODO: chacking length by ICs */
++	for (index = 0 ; index < 11 ; index++) {
++		if (pContent[tx_index_offset + index] == 0xFF)
++			return _FALSE;
++	}
++	return _TRUE;
++}
++
++int hal_efuse_macaddr_offset(_adapter *adapter)
++{
++	u8 interface_type = 0;
++	int addr_offset = -1;
++
++	interface_type = rtw_get_intf_type(adapter);
++
++	switch (rtw_get_chip_type(adapter)) {
++#ifdef CONFIG_RTL8723B
++	case RTL8723B:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8723BU;
++		else if (interface_type == RTW_SDIO)
++			addr_offset = EEPROM_MAC_ADDR_8723BS;
++		else if (interface_type == RTW_PCIE)
++			addr_offset = EEPROM_MAC_ADDR_8723BE;
++		break;
++#endif
++#ifdef CONFIG_RTL8703B
++	case RTL8703B:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8703BU;
++		else if (interface_type == RTW_SDIO)
++			addr_offset = EEPROM_MAC_ADDR_8703BS;
++		break;
++#endif
++#ifdef CONFIG_RTL8723D
++	case RTL8723D:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8723DU;
++		else if (interface_type == RTW_SDIO)
++			addr_offset = EEPROM_MAC_ADDR_8723DS;
++		else if (interface_type == RTW_PCIE)
++			addr_offset = EEPROM_MAC_ADDR_8723DE;
++		break;
++#endif
++
++#ifdef CONFIG_RTL8188E
++	case RTL8188E:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_88EU;
++		else if (interface_type == RTW_SDIO)
++			addr_offset = EEPROM_MAC_ADDR_88ES;
++		else if (interface_type == RTW_PCIE)
++			addr_offset = EEPROM_MAC_ADDR_88EE;
++		break;
++#endif
++#ifdef CONFIG_RTL8188F
++	case RTL8188F:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8188FU;
++		else if (interface_type == RTW_SDIO)
++			addr_offset = EEPROM_MAC_ADDR_8188FS;
++		break;
++#endif
++#ifdef CONFIG_RTL8812A
++	case RTL8812:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8812AU;
++		else if (interface_type == RTW_PCIE)
++			addr_offset = EEPROM_MAC_ADDR_8812AE;
++		break;
++#endif
++#ifdef CONFIG_RTL8821A
++	case RTL8821:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8821AU;
++		else if (interface_type == RTW_SDIO)
++			addr_offset = EEPROM_MAC_ADDR_8821AS;
++		else if (interface_type == RTW_PCIE)
++			addr_offset = EEPROM_MAC_ADDR_8821AE;
++		break;
++#endif
++#ifdef CONFIG_RTL8192E
++	case RTL8192E:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8192EU;
++		else if (interface_type == RTW_SDIO)
++			addr_offset = EEPROM_MAC_ADDR_8192ES;
++		else if (interface_type == RTW_PCIE)
++			addr_offset = EEPROM_MAC_ADDR_8192EE;
++		break;
++#endif
++#ifdef CONFIG_RTL8814A
++	case RTL8814A:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8814AU;
++		else if (interface_type == RTW_PCIE)
++			addr_offset = EEPROM_MAC_ADDR_8814AE;
++		break;
++#endif
++
++#ifdef CONFIG_RTL8822B
++	case RTL8822B:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8822BU;
++		else if (interface_type == RTW_SDIO)
++			addr_offset = EEPROM_MAC_ADDR_8822BS;
++		else if (interface_type == RTW_PCIE)
++			addr_offset = EEPROM_MAC_ADDR_8822BE;
++		break;
++#endif /* CONFIG_RTL8822B */
++
++#ifdef CONFIG_RTL8821C
++	case RTL8821C:
++		if (interface_type == RTW_USB)
++			addr_offset = EEPROM_MAC_ADDR_8821CU;
++		else if (interface_type == RTW_SDIO)
++			addr_offset = EEPROM_MAC_ADDR_8821CS;
++		else if (interface_type == RTW_PCIE)
++			addr_offset = EEPROM_MAC_ADDR_8821CE;
++		break;
++#endif /* CONFIG_RTL8821C */
++	}
++
++	if (addr_offset == -1) {
++		RTW_ERR("%s: unknown combination - chip_type:%u, interface:%u\n"
++			, __func__, rtw_get_chip_type(adapter), rtw_get_intf_type(adapter));
++	}
++
++	return addr_offset;
++}
++
++int Hal_GetPhyEfuseMACAddr(PADAPTER padapter, u8 *mac_addr)
++{
++	int ret = _FAIL;
++	int addr_offset;
++
++	addr_offset = hal_efuse_macaddr_offset(padapter);
++	if (addr_offset == -1)
++		goto exit;
++
++	ret = rtw_efuse_map_read(padapter, addr_offset, ETH_ALEN, mac_addr);
++
++exit:
++	return ret;
++}
++
++void rtw_dump_cur_efuse(PADAPTER padapter)
++{
++	int i =0;
++	int mapsize =0;
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(padapter);
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN , (void *)&mapsize, _FALSE);
++
++	if (mapsize <= 0 || mapsize > EEPROM_MAX_SIZE) {
++		RTW_INFO("wrong map size %d\n", mapsize);
++		return;
++	}
++
++	if (hal_data->efuse_file_status == EFUSE_FILE_LOADED)
++		RTW_INFO("Use EFUSE FILE\n");
++	else
++		RTW_INFO("HW EFUSE\n");
++
++#ifdef CONFIG_RTW_DEBUG
++#ifdef PLATFORM_LINUX
++		RTW_INFO("eFuse Content:\n");
++		print_hex_dump(KERN_DEBUG, "eFuse ",
++				   DUMP_PREFIX_OFFSET, 16, 1,
++				   hal_data->efuse_eeprom_data, mapsize, false);
++#endif /* PLATFORM_LINUX */
++#endif /* CONFIG_RTW_DEBUG */
++}
++
++
++#ifdef CONFIG_EFUSE_CONFIG_FILE
++u32 Hal_readPGDataFromConfigFile(PADAPTER padapter)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(padapter);
++	u32 ret = _FALSE;
++	u32 maplen = 0;
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN , (void *)&maplen, _FALSE);
++
++	if (maplen < 256 || maplen > EEPROM_MAX_SIZE) {
++		RTW_ERR("eFuse length error :%d\n", maplen);
++		return _FALSE;
++	}	
++
++	ret = rtw_efuse_file_read(padapter, EFUSE_MAP_PATH, hal_data->efuse_eeprom_data, maplen);
++	if (ret == _FALSE)
++		ret = rtw_read_efuse_from_file(EFUSE_MAP_PATH, hal_data->efuse_eeprom_data);
++
++	hal_data->efuse_file_status = ((ret == _FAIL) ? EFUSE_FILE_FAILED : EFUSE_FILE_LOADED);
++
++	return ret;
++}
++
++u32 Hal_ReadMACAddrFromFile(PADAPTER padapter, u8 *mac_addr)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(padapter);
++	u32 ret = _FAIL;
++
++	if (rtw_read_macaddr_from_file(WIFIMAC_PATH, mac_addr) == _SUCCESS
++		&& rtw_check_invalid_mac_address(mac_addr, _TRUE) == _FALSE
++	) {
++		hal_data->macaddr_file_status = MACADDR_FILE_LOADED;
++		ret = _SUCCESS;
++	} else
++		hal_data->macaddr_file_status = MACADDR_FILE_FAILED;
++
++	return ret;
++}
++#endif /* CONFIG_EFUSE_CONFIG_FILE */
++
++int hal_config_macaddr(_adapter *adapter, bool autoload_fail)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	u8 addr[ETH_ALEN];
++	int addr_offset = hal_efuse_macaddr_offset(adapter);
++	u8 *hw_addr = NULL;
++	int ret = _SUCCESS;
++
++	if (autoload_fail)
++		goto bypass_hw_pg;
++
++	if (addr_offset != -1)
++		hw_addr = &hal_data->efuse_eeprom_data[addr_offset];
++
++#ifdef CONFIG_EFUSE_CONFIG_FILE
++	/* if the hw_addr is written by efuse file, set to NULL */
++	if (hal_data->efuse_file_status == EFUSE_FILE_LOADED)
++		hw_addr = NULL;
++#endif
++
++	if (!hw_addr) {
++		/* try getting hw pg data */
++		if (Hal_GetPhyEfuseMACAddr(adapter, addr) == _SUCCESS)
++			hw_addr = addr;
++	}
++
++	/* check hw pg data */
++	if (hw_addr && rtw_check_invalid_mac_address(hw_addr, _TRUE) == _FALSE) {
++		_rtw_memcpy(hal_data->EEPROMMACAddr, hw_addr, ETH_ALEN);
++		goto exit;
++	}
++
++bypass_hw_pg:
++
++#ifdef CONFIG_EFUSE_CONFIG_FILE
++	/* check wifi mac file */
++	if (Hal_ReadMACAddrFromFile(adapter, addr) == _SUCCESS) {
++		_rtw_memcpy(hal_data->EEPROMMACAddr, addr, ETH_ALEN);
++		goto exit;
++	}
++#endif
++
++	_rtw_memset(hal_data->EEPROMMACAddr, 0, ETH_ALEN);
++	ret = _FAIL;
++
++exit:
++	return ret;
++}
++
++#ifdef CONFIG_RF_POWER_TRIM
++u32 Array_kfreemap[] = {
++	0x08, 0xe,
++	0x06, 0xc,
++	0x04, 0xa,
++	0x02, 0x8,
++	0x00, 0x6,
++	0x03, 0x4,
++	0x05, 0x2,
++	0x07, 0x0,
++	0x09, 0x0,
++	0x0c, 0x0,
++};
++
++void rtw_bb_rf_gain_offset(_adapter *padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct registry_priv  *registry_par = &padapter->registrypriv;
++	struct kfree_data_t *kfree_data = &pHalData->kfree_data;
++	u8		value = pHalData->EEPROMRFGainOffset;
++	u8		tmp = 0x3e;
++	u32		res, i = 0;
++	u4Byte		ArrayLen	= sizeof(Array_kfreemap) / sizeof(u32);
++	pu4Byte		Array	= Array_kfreemap;
++	u4Byte		v1 = 0, v2 = 0, GainValue = 0, target = 0;
++
++	if (registry_par->RegPwrTrimEnable == 2) {
++		RTW_INFO("Registry kfree default force disable.\n");
++		return;
++	}
++
++#if defined(CONFIG_RTL8723B)
++	if (value & BIT4 || (registry_par->RegPwrTrimEnable == 1)) {
++		RTW_INFO("Offset RF Gain.\n");
++		RTW_INFO("Offset RF Gain.  pHalData->EEPROMRFGainVal=0x%x\n", pHalData->EEPROMRFGainVal);
++
++		if (pHalData->EEPROMRFGainVal != 0xff) {
++
++			if (pHalData->ant_path == ODM_RF_PATH_A)
++				GainValue = (pHalData->EEPROMRFGainVal & 0x0f);
++
++			else
++				GainValue = (pHalData->EEPROMRFGainVal & 0xf0) >> 4;
++			RTW_INFO("Ant PATH_%d GainValue Offset = 0x%x\n", (pHalData->ant_path == ODM_RF_PATH_A) ? (ODM_RF_PATH_A) : (ODM_RF_PATH_B), GainValue);
++
++			for (i = 0; i < ArrayLen; i += 2) {
++				/* RTW_INFO("ArrayLen in =%d ,Array 1 =0x%x ,Array2 =0x%x\n",i,Array[i],Array[i]+1); */
++				v1 = Array[i];
++				v2 = Array[i + 1];
++				if (v1 == GainValue) {
++					RTW_INFO("Offset RF Gain. got v1 =0x%x ,v2 =0x%x\n", v1, v2);
++					target = v2;
++					break;
++				}
++			}
++			RTW_INFO("pHalData->EEPROMRFGainVal=0x%x ,Gain offset Target Value=0x%x\n", pHalData->EEPROMRFGainVal, target);
++
++			res = rtw_hal_read_rfreg(padapter, RF_PATH_A, 0x7f, 0xffffffff);
++			RTW_INFO("Offset RF Gain. before reg 0x7f=0x%08x\n", res);
++			PHY_SetRFReg(padapter, RF_PATH_A, REG_RF_BB_GAIN_OFFSET, BIT18 | BIT17 | BIT16 | BIT15, target);
++			res = rtw_hal_read_rfreg(padapter, RF_PATH_A, 0x7f, 0xffffffff);
++
++			RTW_INFO("Offset RF Gain. After reg 0x7f=0x%08x\n", res);
++
++		} else
++
++			RTW_INFO("Offset RF Gain.  pHalData->EEPROMRFGainVal=0x%x	!= 0xff, didn't run Kfree\n", pHalData->EEPROMRFGainVal);
++	} else
++		RTW_INFO("Using the default RF gain.\n");
++
++#elif defined(CONFIG_RTL8188E)
++	if (value & BIT4 || (registry_par->RegPwrTrimEnable == 1)) {
++		RTW_INFO("8188ES Offset RF Gain.\n");
++		RTW_INFO("8188ES Offset RF Gain. EEPROMRFGainVal=0x%x\n",
++			 pHalData->EEPROMRFGainVal);
++
++		if (pHalData->EEPROMRFGainVal != 0xff) {
++			res = rtw_hal_read_rfreg(padapter, RF_PATH_A,
++					 REG_RF_BB_GAIN_OFFSET, 0xffffffff);
++
++			RTW_INFO("Offset RF Gain. reg 0x55=0x%x\n", res);
++			res &= 0xfff87fff;
++
++			res |= (pHalData->EEPROMRFGainVal & 0x0f) << 15;
++			RTW_INFO("Offset RF Gain. res=0x%x\n", res);
++
++			rtw_hal_write_rfreg(padapter, RF_PATH_A,
++					    REG_RF_BB_GAIN_OFFSET,
++					    RF_GAIN_OFFSET_MASK, res);
++		} else {
++			RTW_INFO("Offset RF Gain. EEPROMRFGainVal=0x%x == 0xff, didn't run Kfree\n",
++				 pHalData->EEPROMRFGainVal);
++		}
++	} else
++		RTW_INFO("Using the default RF gain.\n");
++#else
++	/* TODO: call this when channel switch */
++	if (kfree_data->flag & KFREE_FLAG_ON)
++		rtw_rf_apply_tx_gain_offset(padapter, 6); /* input ch6 to select BB_GAIN_2G */
++#endif
++
++}
++#endif /*CONFIG_RF_POWER_TRIM */
++
++bool kfree_data_is_bb_gain_empty(struct kfree_data_t *data)
++{
++#ifdef CONFIG_RF_POWER_TRIM
++	int i, j;
++
++	for (i = 0; i < BB_GAIN_NUM; i++)
++		for (j = 0; j < RF_PATH_MAX; j++)
++			if (data->bb_gain[i][j] != 0)
++				return 0;
++#endif
++	return 1;
++}
++
++#ifdef CONFIG_USB_RX_AGGREGATION
++void rtw_set_usb_agg_by_mode_normal(_adapter *padapter, u8 cur_wireless_mode)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	if (cur_wireless_mode < WIRELESS_11_24N
++	    && cur_wireless_mode > 0) { /* ABG mode */
++#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++		u32 remainder = 0;
++		u8 quotient = 0;
++
++		remainder = MAX_RECVBUF_SZ % (4 * 1024);
++		quotient = (u8)(MAX_RECVBUF_SZ >> 12);
++
++		if (quotient > 5) {
++			pHalData->rxagg_usb_size = 0x6;
++			pHalData->rxagg_usb_timeout = 0x10;
++		} else {
++			if (remainder >= 2048) {
++				pHalData->rxagg_usb_size = quotient;
++				pHalData->rxagg_usb_timeout = 0x10;
++			} else {
++				pHalData->rxagg_usb_size = (quotient - 1);
++				pHalData->rxagg_usb_timeout = 0x10;
++			}
++		}
++#else /* !CONFIG_PREALLOC_RX_SKB_BUFFER */
++		if (0x6 != pHalData->rxagg_usb_size || 0x10 != pHalData->rxagg_usb_timeout) {
++			pHalData->rxagg_usb_size = 0x6;
++			pHalData->rxagg_usb_timeout = 0x10;
++			rtw_write16(padapter, REG_RXDMA_AGG_PG_TH,
++				pHalData->rxagg_usb_size | (pHalData->rxagg_usb_timeout << 8));
++		}
++#endif /* CONFIG_PREALLOC_RX_SKB_BUFFER */
++
++	} else if (cur_wireless_mode >= WIRELESS_11_24N
++		   && cur_wireless_mode <= WIRELESS_MODE_MAX) { /* N AC mode */
++#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++		u32 remainder = 0;
++		u8 quotient = 0;
++
++		remainder = MAX_RECVBUF_SZ % (4 * 1024);
++		quotient = (u8)(MAX_RECVBUF_SZ >> 12);
++
++		if (quotient > 5) {
++			pHalData->rxagg_usb_size = 0x5;
++			pHalData->rxagg_usb_timeout = 0x20;
++		} else {
++			if (remainder >= 2048) {
++				pHalData->rxagg_usb_size = quotient;
++				pHalData->rxagg_usb_timeout = 0x10;
++			} else {
++				pHalData->rxagg_usb_size = (quotient - 1);
++				pHalData->rxagg_usb_timeout = 0x10;
++			}
++		}
++#else /* !CONFIG_PREALLOC_RX_SKB_BUFFER */
++		if ((0x5 != pHalData->rxagg_usb_size) || (0x20 != pHalData->rxagg_usb_timeout)) {
++			pHalData->rxagg_usb_size = 0x5;
++			pHalData->rxagg_usb_timeout = 0x20;
++			rtw_write16(padapter, REG_RXDMA_AGG_PG_TH,
++				pHalData->rxagg_usb_size | (pHalData->rxagg_usb_timeout << 8));
++		}
++#endif /* CONFIG_PREALLOC_RX_SKB_BUFFER */
++
++	} else {
++		/* RTW_INFO("%s: Unknow wireless mode(0x%x)\n",__func__,padapter->mlmeextpriv.cur_wireless_mode); */
++	}
++}
++
++void rtw_set_usb_agg_by_mode_customer(_adapter *padapter, u8 cur_wireless_mode, u8 UsbDmaSize, u8 Legacy_UsbDmaSize)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	if (cur_wireless_mode < WIRELESS_11_24N
++	    && cur_wireless_mode > 0) { /* ABG mode */
++		if (Legacy_UsbDmaSize != pHalData->rxagg_usb_size
++		    || 0x10 != pHalData->rxagg_usb_timeout) {
++			pHalData->rxagg_usb_size = Legacy_UsbDmaSize;
++			pHalData->rxagg_usb_timeout = 0x10;
++			rtw_write16(padapter, REG_RXDMA_AGG_PG_TH,
++				pHalData->rxagg_usb_size | (pHalData->rxagg_usb_timeout << 8));
++		}
++	} else if (cur_wireless_mode >= WIRELESS_11_24N
++		   && cur_wireless_mode <= WIRELESS_MODE_MAX) { /* N AC mode */
++		if (UsbDmaSize != pHalData->rxagg_usb_size
++		    || 0x20 != pHalData->rxagg_usb_timeout) {
++			pHalData->rxagg_usb_size = UsbDmaSize;
++			pHalData->rxagg_usb_timeout = 0x20;
++			rtw_write16(padapter, REG_RXDMA_AGG_PG_TH,
++				pHalData->rxagg_usb_size | (pHalData->rxagg_usb_timeout << 8));
++		}
++	} else {
++		/* RTW_INFO("%s: Unknown wireless mode(0x%x)\n",__func__,padapter->mlmeextpriv.cur_wireless_mode); */
++	}
++}
++
++void rtw_set_usb_agg_by_mode(_adapter *padapter, u8 cur_wireless_mode)
++{
++#ifdef CONFIG_PLATFORM_NOVATEK_NT72668
++	rtw_set_usb_agg_by_mode_customer(padapter, cur_wireless_mode, 0x3, 0x3);
++	return;
++#endif /* CONFIG_PLATFORM_NOVATEK_NT72668 */
++
++	rtw_set_usb_agg_by_mode_normal(padapter, cur_wireless_mode);
++}
++#endif /* CONFIG_USB_RX_AGGREGATION */
++
++/* To avoid RX affect TX throughput */
++void dm_DynamicUsbTxAgg(_adapter *padapter, u8 from_timer)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct mlme_priv		*pmlmepriv = &(padapter->mlmepriv);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	u8 cur_wireless_mode = WIRELESS_INVALID;
++
++#ifdef CONFIG_USB_RX_AGGREGATION
++	if (IS_HARDWARE_TYPE_8821U(padapter)) { /* || IS_HARDWARE_TYPE_8192EU(padapter)) */
++		/* This AGG_PH_TH only for UsbRxAggMode == USB_RX_AGG_USB */
++		if ((pHalData->rxagg_mode == RX_AGG_USB) && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)) {
++			if (pdvobjpriv->traffic_stat.cur_tx_tp > 2 && pdvobjpriv->traffic_stat.cur_rx_tp < 30)
++				rtw_write16(padapter , REG_RXDMA_AGG_PG_TH , 0x1010);
++			else if (pdvobjpriv->traffic_stat.last_tx_bytes > 220000 && pdvobjpriv->traffic_stat.cur_rx_tp < 30)
++				rtw_write16(padapter , REG_RXDMA_AGG_PG_TH , 0x1006);
++			else
++				rtw_write16(padapter, REG_RXDMA_AGG_PG_TH, 0x2005); /* dmc agg th 20K */
++
++			/* RTW_INFO("TX_TP=%u, RX_TP=%u\n", pdvobjpriv->traffic_stat.cur_tx_tp, pdvobjpriv->traffic_stat.cur_rx_tp); */
++		}
++	} else if (IS_HARDWARE_TYPE_8812(padapter)) {
++#ifdef CONFIG_CONCURRENT_MODE
++		u8 i;
++		_adapter *iface;
++		u8 bassocaed = _FALSE;
++		struct mlme_ext_priv *mlmeext;
++
++		for (i = 0; i < pdvobjpriv->iface_nums; i++) {
++			iface = pdvobjpriv->padapters[i];
++			mlmeext = &iface->mlmeextpriv;
++			if (rtw_linked_check(iface) == _TRUE) {
++				if (mlmeext->cur_wireless_mode >= cur_wireless_mode)
++					cur_wireless_mode = mlmeext->cur_wireless_mode;
++				bassocaed = _TRUE;
++			}
++		}
++		if (bassocaed)
++#endif
++			rtw_set_usb_agg_by_mode(padapter, cur_wireless_mode);
++#ifdef CONFIG_PLATFORM_NOVATEK_NT72668
++	} else {
++		rtw_set_usb_agg_by_mode(padapter, cur_wireless_mode);
++#endif /* CONFIG_PLATFORM_NOVATEK_NT72668 */
++	}
++#endif
++}
++
++/* bus-agg check for SoftAP mode */
++inline u8 rtw_hal_busagg_qsel_check(_adapter *padapter, u8 pre_qsel, u8 next_qsel)
++{
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	u8 chk_rst = _SUCCESS;
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return chk_rst;
++
++	/* if((pre_qsel == 0xFF)||(next_qsel== 0xFF)) */
++	/*	return chk_rst; */
++
++	if (((pre_qsel == QSLT_HIGH) || ((next_qsel == QSLT_HIGH)))
++	    && (pre_qsel != next_qsel)) {
++		/* RTW_INFO("### bus-agg break cause of qsel misatch, pre_qsel=0x%02x,next_qsel=0x%02x ###\n", */
++		/*	pre_qsel,next_qsel); */
++		chk_rst = _FAIL;
++	}
++	return chk_rst;
++}
++
++/*
++ * Description:
++ * dump_TX_FIFO: This is only used to dump TX_FIFO for debug WoW mode offload
++ * contant.
++ *
++ * Input:
++ * adapter: adapter pointer.
++ * page_num: The max. page number that user want to dump.
++ * page_size: page size of each page. eg. 128 bytes, 256 bytes, 512byte.
++ */
++void dump_TX_FIFO(_adapter *padapter, u8 page_num, u16 page_size)
++{
++
++	int i;
++	u8 val = 0;
++	u8 base = 0;
++	u32 addr = 0;
++	u32 count = (page_size / 8);
++
++	if (page_num <= 0) {
++		RTW_INFO("!!%s: incorrect input page_num paramter!\n", __func__);
++		return;
++	}
++
++	if (page_size < 128 || page_size > 512) {
++		RTW_INFO("!!%s: incorrect input page_size paramter!\n", __func__);
++		return;
++	}
++
++	RTW_INFO("+%s+\n", __func__);
++	val = rtw_read8(padapter, 0x106);
++	rtw_write8(padapter, 0x106, 0x69);
++	RTW_INFO("0x106: 0x%02x\n", val);
++	base = rtw_read8(padapter, 0x209);
++	RTW_INFO("0x209: 0x%02x\n", base);
++
++	addr = ((base)*page_size) / 8;
++	for (i = 0 ; i < page_num * count ; i += 2) {
++		rtw_write32(padapter, 0x140, addr + i);
++		printk(" %08x %08x ", rtw_read32(padapter, 0x144), rtw_read32(padapter, 0x148));
++		rtw_write32(padapter, 0x140, addr + i + 1);
++		printk(" %08x %08x\n", rtw_read32(padapter, 0x144), rtw_read32(padapter, 0x148));
++	}
++}
++
++#ifdef CONFIG_GPIO_API
++u8 rtw_hal_get_gpio(_adapter *adapter, u8 gpio_num)
++{
++	u8 value = 0;
++	u8 direction = 0;
++	u32 gpio_ctrl_reg_to_set = REG_GPIO_PIN_CTRL + 2;
++	u8 gpio_num_to_set = gpio_num;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(adapter);
++
++	if (rtw_hal_gpio_func_check(adapter, gpio_num) == _FAIL)
++		return value;
++
++	rtw_ps_deny(adapter, PS_DENY_IOCTL);
++
++	RTW_INFO("rf_pwrstate=0x%02x\n", pwrpriv->rf_pwrstate);
++	LeaveAllPowerSaveModeDirect(adapter);
++
++	if (gpio_num > 7) {
++		gpio_ctrl_reg_to_set = REG_GPIO_PIN_CTRL_2 + 2;
++		gpio_num_to_set = gpio_num - 8;
++	}
++
++	/* Read GPIO Direction */
++	direction = (rtw_read8(adapter, gpio_ctrl_reg_to_set) & BIT(gpio_num_to_set)) >> gpio_num;
++
++	/* According the direction to read register value */
++	if (direction)
++		value =  (rtw_read8(adapter, gpio_ctrl_reg_to_set) & BIT(gpio_num_to_set)) >> gpio_num;
++	else
++		value =  (rtw_read8(adapter, gpio_ctrl_reg_to_set) & BIT(gpio_num_to_set)) >> gpio_num;
++
++	rtw_ps_deny_cancel(adapter, PS_DENY_IOCTL);
++	RTW_INFO("%s direction=%d value=%d\n", __FUNCTION__, direction, value);
++
++	return value;
++}
++
++int  rtw_hal_set_gpio_output_value(_adapter *adapter, u8 gpio_num, bool isHigh)
++{
++	u8 direction = 0;
++	u8 res = -1;
++	u32 gpio_ctrl_reg_to_set = REG_GPIO_PIN_CTRL + 2;
++	u8 gpio_num_to_set = gpio_num;
++
++	if (rtw_hal_gpio_func_check(adapter, gpio_num) == _FAIL)
++		return -1;
++
++	rtw_ps_deny(adapter, PS_DENY_IOCTL);
++
++	LeaveAllPowerSaveModeDirect(adapter);
++
++	if (gpio_num > 7) {
++		gpio_ctrl_reg_to_set = REG_GPIO_PIN_CTRL_2 + 2;
++		gpio_num_to_set = gpio_num - 8;
++	}
++
++	/* Read GPIO direction */
++	direction = (rtw_read8(adapter, REG_GPIO_PIN_CTRL + 2) & BIT(gpio_num)) >> gpio_num;
++
++	/* If GPIO is output direction, setting value. */
++	if (direction) {
++		if (isHigh)
++			rtw_write8(adapter, gpio_ctrl_reg_to_set, rtw_read8(adapter, gpio_ctrl_reg_to_set) | BIT(gpio_num_to_set));
++		else
++			rtw_write8(adapter, gpio_ctrl_reg_to_set, rtw_read8(adapter, gpio_ctrl_reg_to_set) & ~BIT(gpio_num_to_set));
++
++		RTW_INFO("%s Set gpio %x[%d]=%d\n", __FUNCTION__, REG_GPIO_PIN_CTRL + 1, gpio_num, isHigh);
++		res = 0;
++	} else {
++		RTW_INFO("%s The gpio is input,not be set!\n", __FUNCTION__);
++		res = -1;
++	}
++
++	rtw_ps_deny_cancel(adapter, PS_DENY_IOCTL);
++	return res;
++}
++
++int rtw_hal_config_gpio(_adapter *adapter, u8 gpio_num, bool isOutput)
++{
++	u32 gpio_ctrl_reg_to_set = REG_GPIO_PIN_CTRL + 2;
++	u8 gpio_num_to_set = gpio_num;
++
++	if (rtw_hal_gpio_func_check(adapter, gpio_num) == _FAIL)
++		return -1;
++
++	RTW_INFO("%s gpio_num =%d direction=%d\n", __FUNCTION__, gpio_num, isOutput);
++
++	rtw_ps_deny(adapter, PS_DENY_IOCTL);
++
++	LeaveAllPowerSaveModeDirect(adapter);
++
++	rtw_hal_gpio_multi_func_reset(adapter, gpio_num);
++
++	if (gpio_num > 7) {
++		gpio_ctrl_reg_to_set = REG_GPIO_PIN_CTRL_2 + 2;
++		gpio_num_to_set = gpio_num - 8;
++	}
++
++	if (isOutput)
++		rtw_write8(adapter, gpio_ctrl_reg_to_set, rtw_read8(adapter, gpio_ctrl_reg_to_set) | BIT(gpio_num_to_set));
++	else
++		rtw_write8(adapter, gpio_ctrl_reg_to_set, rtw_read8(adapter, gpio_ctrl_reg_to_set) & ~BIT(gpio_num_to_set));
++
++	rtw_ps_deny_cancel(adapter, PS_DENY_IOCTL);
++
++	return 0;
++}
++int rtw_hal_register_gpio_interrupt(_adapter *adapter, int gpio_num, void(*callback)(u8 level))
++{
++	u8 value;
++	u8 direction;
++	PHAL_DATA_TYPE phal = GET_HAL_DATA(adapter);
++
++	if (IS_HARDWARE_TYPE_8188E(adapter)) {
++		if (gpio_num > 7 || gpio_num < 4) {
++			RTW_PRINT("%s The gpio number does not included 4~7.\n", __FUNCTION__);
++			return -1;
++		}
++	}
++
++	rtw_ps_deny(adapter, PS_DENY_IOCTL);
++
++	LeaveAllPowerSaveModeDirect(adapter);
++
++	/* Read GPIO direction */
++	direction = (rtw_read8(adapter, REG_GPIO_PIN_CTRL + 2) & BIT(gpio_num)) >> gpio_num;
++	if (direction) {
++		RTW_PRINT("%s Can't register output gpio as interrupt.\n", __FUNCTION__);
++		return -1;
++	}
++
++	/* Config GPIO Mode */
++	rtw_write8(adapter, REG_GPIO_PIN_CTRL + 3, rtw_read8(adapter, REG_GPIO_PIN_CTRL + 3) | BIT(gpio_num));
++
++	/* Register GPIO interrupt handler*/
++	adapter->gpiointpriv.callback[gpio_num] = callback;
++
++	/* Set GPIO interrupt mode, 0:positive edge, 1:negative edge */
++	value = rtw_read8(adapter, REG_GPIO_PIN_CTRL) & BIT(gpio_num);
++	adapter->gpiointpriv.interrupt_mode = rtw_read8(adapter, REG_HSIMR + 2) ^ value;
++	rtw_write8(adapter, REG_GPIO_INTM, adapter->gpiointpriv.interrupt_mode);
++
++	/* Enable GPIO interrupt */
++	adapter->gpiointpriv.interrupt_enable_mask = rtw_read8(adapter, REG_HSIMR + 2) | BIT(gpio_num);
++	rtw_write8(adapter, REG_HSIMR + 2, adapter->gpiointpriv.interrupt_enable_mask);
++
++	rtw_hal_update_hisr_hsisr_ind(adapter, 1);
++
++	rtw_ps_deny_cancel(adapter, PS_DENY_IOCTL);
++
++	return 0;
++}
++int rtw_hal_disable_gpio_interrupt(_adapter *adapter, int gpio_num)
++{
++	u8 value;
++	u8 direction;
++	PHAL_DATA_TYPE phal = GET_HAL_DATA(adapter);
++
++	if (IS_HARDWARE_TYPE_8188E(adapter)) {
++		if (gpio_num > 7 || gpio_num < 4) {
++			RTW_INFO("%s The gpio number does not included 4~7.\n", __FUNCTION__);
++			return -1;
++		}
++	}
++
++	rtw_ps_deny(adapter, PS_DENY_IOCTL);
++
++	LeaveAllPowerSaveModeDirect(adapter);
++
++	/* Config GPIO Mode */
++	rtw_write8(adapter, REG_GPIO_PIN_CTRL + 3, rtw_read8(adapter, REG_GPIO_PIN_CTRL + 3) & ~BIT(gpio_num));
++
++	/* Unregister GPIO interrupt handler*/
++	adapter->gpiointpriv.callback[gpio_num] = NULL;
++
++	/* Reset GPIO interrupt mode, 0:positive edge, 1:negative edge */
++	adapter->gpiointpriv.interrupt_mode = rtw_read8(adapter, REG_GPIO_INTM) & ~BIT(gpio_num);
++	rtw_write8(adapter, REG_GPIO_INTM, 0x00);
++
++	/* Disable GPIO interrupt */
++	adapter->gpiointpriv.interrupt_enable_mask = rtw_read8(adapter, REG_HSIMR + 2) & ~BIT(gpio_num);
++	rtw_write8(adapter, REG_HSIMR + 2, adapter->gpiointpriv.interrupt_enable_mask);
++
++	if (!adapter->gpiointpriv.interrupt_enable_mask)
++		rtw_hal_update_hisr_hsisr_ind(adapter, 0);
++
++	rtw_ps_deny_cancel(adapter, PS_DENY_IOCTL);
++
++	return 0;
++}
++#endif
++
++s8 rtw_hal_ch_sw_iqk_info_search(_adapter *padapter, u8 central_chnl, u8 bw_mode)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	u8 i;
++
++	for (i = 0; i < MAX_IQK_INFO_BACKUP_CHNL_NUM; i++) {
++		if ((pHalData->iqk_reg_backup[i].central_chnl != 0)) {
++			if ((pHalData->iqk_reg_backup[i].central_chnl == central_chnl)
++			    && (pHalData->iqk_reg_backup[i].bw_mode == bw_mode))
++				return i;
++		}
++	}
++
++	return -1;
++}
++
++void rtw_hal_ch_sw_iqk_info_backup(_adapter *padapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	s8 res;
++	u8 i;
++
++	/* If it's an existed record, overwrite it */
++	res = rtw_hal_ch_sw_iqk_info_search(padapter, pHalData->CurrentChannel, pHalData->CurrentChannelBW);
++	if ((res >= 0) && (res < MAX_IQK_INFO_BACKUP_CHNL_NUM)) {
++		rtw_hal_set_hwreg(padapter, HW_VAR_CH_SW_IQK_INFO_BACKUP, (u8 *)&(pHalData->iqk_reg_backup[res]));
++		return;
++	}
++
++	/* Search for the empty record to use */
++	for (i = 0; i < MAX_IQK_INFO_BACKUP_CHNL_NUM; i++) {
++		if (pHalData->iqk_reg_backup[i].central_chnl == 0) {
++			rtw_hal_set_hwreg(padapter, HW_VAR_CH_SW_IQK_INFO_BACKUP, (u8 *)&(pHalData->iqk_reg_backup[i]));
++			return;
++		}
++	}
++
++	/* Else, overwrite the oldest record */
++	for (i = 1; i < MAX_IQK_INFO_BACKUP_CHNL_NUM; i++)
++		_rtw_memcpy(&(pHalData->iqk_reg_backup[i - 1]), &(pHalData->iqk_reg_backup[i]), sizeof(struct hal_iqk_reg_backup));
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_CH_SW_IQK_INFO_BACKUP, (u8 *)&(pHalData->iqk_reg_backup[MAX_IQK_INFO_BACKUP_CHNL_NUM - 1]));
++}
++
++void rtw_hal_ch_sw_iqk_info_restore(_adapter *padapter, u8 ch_sw_use_case)
++{
++	rtw_hal_set_hwreg(padapter, HW_VAR_CH_SW_IQK_INFO_RESTORE, &ch_sw_use_case);
++}
++
++void rtw_dump_mac_rx_counters(_adapter *padapter, struct dbg_rx_counter *rx_counter)
++{
++	u32	mac_cck_ok = 0, mac_ofdm_ok = 0, mac_ht_ok = 0, mac_vht_ok = 0;
++	u32	mac_cck_err = 0, mac_ofdm_err = 0, mac_ht_err = 0, mac_vht_err = 0;
++	u32	mac_cck_fa = 0, mac_ofdm_fa = 0, mac_ht_fa = 0;
++	u32	DropPacket = 0;
++
++	if (!rx_counter) {
++		rtw_warn_on(1);
++		return;
++	}
++	if (IS_HARDWARE_TYPE_JAGUAR(padapter) || IS_HARDWARE_TYPE_JAGUAR2(padapter))
++		PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT26, 0x0);/*clear bit-26*/
++
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x3);
++	mac_cck_ok	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]	  */
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x0);
++	mac_ofdm_ok	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]	 */
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x6);
++	mac_ht_ok	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]	 */
++	mac_vht_ok	= 0;
++	if (IS_HARDWARE_TYPE_JAGUAR(padapter) || IS_HARDWARE_TYPE_JAGUAR2(padapter)) {
++		PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x0);
++		PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT26, 0x1);
++		mac_vht_ok	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]*/
++		PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT26, 0x0);/*clear bit-26*/
++	}
++
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x4);
++	mac_cck_err	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]	 */
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x1);
++	mac_ofdm_err	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]	 */
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x7);
++	mac_ht_err	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]		 */
++	mac_vht_err	= 0;
++	if (IS_HARDWARE_TYPE_JAGUAR(padapter) || IS_HARDWARE_TYPE_JAGUAR2(padapter)) {
++		PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x1);
++		PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT26, 0x1);
++		mac_vht_err	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]*/
++		PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT26, 0x0);/*clear bit-26*/
++	}
++
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x5);
++	mac_cck_fa	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]	 */
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x2);
++	mac_ofdm_fa	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]	 */
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT28 | BIT29 | BIT30 | BIT31, 0x9);
++	mac_ht_fa	= PHY_QueryMacReg(padapter, REG_RXERR_RPT, bMaskLWord);/* [15:0]		 */
++
++	/* Mac_DropPacket */
++	rtw_write32(padapter, REG_RXERR_RPT, (rtw_read32(padapter, REG_RXERR_RPT) & 0x0FFFFFFF) | Mac_DropPacket);
++	DropPacket = rtw_read32(padapter, REG_RXERR_RPT) & 0x0000FFFF;
++
++	rx_counter->rx_pkt_ok = mac_cck_ok + mac_ofdm_ok + mac_ht_ok + mac_vht_ok;
++	rx_counter->rx_pkt_crc_error = mac_cck_err + mac_ofdm_err + mac_ht_err + mac_vht_err;
++	rx_counter->rx_cck_fa = mac_cck_fa;
++	rx_counter->rx_ofdm_fa = mac_ofdm_fa;
++	rx_counter->rx_ht_fa = mac_ht_fa;
++	rx_counter->rx_pkt_drop = DropPacket;
++}
++void rtw_reset_mac_rx_counters(_adapter *padapter)
++{
++
++	/* If no packet rx, MaxRx clock be gating ,BIT_DISGCLK bit19 set 1 for fix*/
++	if (IS_HARDWARE_TYPE_8703B(padapter) ||
++	    IS_HARDWARE_TYPE_8723D(padapter) ||
++	    IS_HARDWARE_TYPE_8188F(padapter))
++		PHY_SetMacReg(padapter, REG_RCR, BIT19, 0x1);
++
++	/* reset mac counter */
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT27, 0x1);
++	PHY_SetMacReg(padapter, REG_RXERR_RPT, BIT27, 0x0);
++}
++
++void rtw_dump_phy_rx_counters(_adapter *padapter, struct dbg_rx_counter *rx_counter)
++{
++	u32 cckok = 0, cckcrc = 0, ofdmok = 0, ofdmcrc = 0, htok = 0, htcrc = 0, OFDM_FA = 0, CCK_FA = 0, vht_ok = 0, vht_err = 0;
++	if (!rx_counter) {
++		rtw_warn_on(1);
++		return;
++	}
++	if (IS_HARDWARE_TYPE_JAGUAR(padapter) || IS_HARDWARE_TYPE_JAGUAR2(padapter)) {
++		cckok	= PHY_QueryBBReg(padapter, 0xF04, 0x3FFF);	     /* [13:0] */
++		ofdmok	= PHY_QueryBBReg(padapter, 0xF14, 0x3FFF);	     /* [13:0] */
++		htok		= PHY_QueryBBReg(padapter, 0xF10, 0x3FFF);     /* [13:0] */
++		vht_ok	= PHY_QueryBBReg(padapter, 0xF0C, 0x3FFF);     /* [13:0] */
++		cckcrc	= PHY_QueryBBReg(padapter, 0xF04, 0x3FFF0000); /* [29:16]	 */
++		ofdmcrc	= PHY_QueryBBReg(padapter, 0xF14, 0x3FFF0000); /* [29:16] */
++		htcrc	= PHY_QueryBBReg(padapter, 0xF10, 0x3FFF0000); /* [29:16] */
++		vht_err	= PHY_QueryBBReg(padapter, 0xF0C, 0x3FFF0000); /* [29:16] */
++		CCK_FA	= PHY_QueryBBReg(padapter, 0xA5C, bMaskLWord);
++		OFDM_FA	= PHY_QueryBBReg(padapter, 0xF48, bMaskLWord);
++	} else {
++		cckok	= PHY_QueryBBReg(padapter, 0xF88, bMaskDWord);
++		ofdmok	= PHY_QueryBBReg(padapter, 0xF94, bMaskLWord);
++		htok		= PHY_QueryBBReg(padapter, 0xF90, bMaskLWord);
++		vht_ok	= 0;
++		cckcrc	= PHY_QueryBBReg(padapter, 0xF84, bMaskDWord);
++		ofdmcrc	= PHY_QueryBBReg(padapter, 0xF94, bMaskHWord);
++		htcrc	= PHY_QueryBBReg(padapter, 0xF90, bMaskHWord);
++		vht_err	= 0;
++		OFDM_FA = PHY_QueryBBReg(padapter, 0xCF0, bMaskLWord) + PHY_QueryBBReg(padapter, 0xCF2, bMaskLWord) +
++			PHY_QueryBBReg(padapter, 0xDA2, bMaskLWord) + PHY_QueryBBReg(padapter, 0xDA4, bMaskLWord) +
++			PHY_QueryBBReg(padapter, 0xDA6, bMaskLWord) + PHY_QueryBBReg(padapter, 0xDA8, bMaskLWord);
++
++		CCK_FA = (rtw_read8(padapter, 0xA5B) << 8) | (rtw_read8(padapter, 0xA5C));
++	}
++
++	rx_counter->rx_pkt_ok = cckok + ofdmok + htok + vht_ok;
++	rx_counter->rx_pkt_crc_error = cckcrc + ofdmcrc + htcrc + vht_err;
++	rx_counter->rx_ofdm_fa = OFDM_FA;
++	rx_counter->rx_cck_fa = CCK_FA;
++
++}
++
++void rtw_reset_phy_trx_ok_counters(_adapter *padapter)
++{
++	if (IS_HARDWARE_TYPE_JAGUAR(padapter) || IS_HARDWARE_TYPE_JAGUAR2(padapter)) {
++		PHY_SetBBReg(padapter, 0xB58, BIT0, 0x1);
++		PHY_SetBBReg(padapter, 0xB58, BIT0, 0x0);
++	}
++}
++void rtw_reset_phy_rx_counters(_adapter *padapter)
++{
++	/* reset phy counter */
++	if (IS_HARDWARE_TYPE_JAGUAR(padapter) || IS_HARDWARE_TYPE_JAGUAR2(padapter)) {
++		rtw_reset_phy_trx_ok_counters(padapter);
++
++		PHY_SetBBReg(padapter, 0x9A4, BIT17, 0x1);/* reset  OFDA FA counter */
++		PHY_SetBBReg(padapter, 0x9A4, BIT17, 0x0);
++
++		PHY_SetBBReg(padapter, 0xA2C, BIT15, 0x0);/* reset  CCK FA counter */
++		PHY_SetBBReg(padapter, 0xA2C, BIT15, 0x1);
++	} else {
++		PHY_SetBBReg(padapter, 0xF14, BIT16, 0x1);
++		rtw_msleep_os(10);
++		PHY_SetBBReg(padapter, 0xF14, BIT16, 0x0);
++
++		PHY_SetBBReg(padapter, 0xD00, BIT27, 0x1);/* reset  OFDA FA counter */
++		PHY_SetBBReg(padapter, 0xC0C, BIT31, 0x1);/* reset  OFDA FA counter */
++		PHY_SetBBReg(padapter, 0xD00, BIT27, 0x0);
++		PHY_SetBBReg(padapter, 0xC0C, BIT31, 0x0);
++
++		PHY_SetBBReg(padapter, 0xA2C, BIT15, 0x0);/* reset  CCK FA counter */
++		PHY_SetBBReg(padapter, 0xA2C, BIT15, 0x1);
++	}
++}
++#ifdef DBG_RX_COUNTER_DUMP
++void rtw_dump_drv_rx_counters(_adapter *padapter, struct dbg_rx_counter *rx_counter)
++{
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	if (!rx_counter) {
++		rtw_warn_on(1);
++		return;
++	}
++	rx_counter->rx_pkt_ok = padapter->drv_rx_cnt_ok;
++	rx_counter->rx_pkt_crc_error = padapter->drv_rx_cnt_crcerror;
++	rx_counter->rx_pkt_drop = precvpriv->rx_drop - padapter->drv_rx_cnt_drop;
++}
++void rtw_reset_drv_rx_counters(_adapter *padapter)
++{
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++	padapter->drv_rx_cnt_ok = 0;
++	padapter->drv_rx_cnt_crcerror = 0;
++	padapter->drv_rx_cnt_drop = precvpriv->rx_drop;
++}
++void rtw_dump_phy_rxcnts_preprocess(_adapter *padapter, u8 rx_cnt_mode)
++{
++	u8 initialgain;
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(padapter);
++
++	if ((!(padapter->dump_rx_cnt_mode & DUMP_PHY_RX_COUNTER)) && (rx_cnt_mode & DUMP_PHY_RX_COUNTER)) {
++		rtw_hal_get_odm_var(padapter, HAL_ODM_INITIAL_GAIN, &initialgain, NULL);
++		RTW_INFO("%s CurIGValue:0x%02x\n", __FUNCTION__, initialgain);
++		rtw_hal_set_odm_var(padapter, HAL_ODM_INITIAL_GAIN, &initialgain, _FALSE);
++		/*disable dynamic functions, such as high power, DIG*/
++		rtw_phydm_ability_backup(padapter);
++		rtw_phydm_func_clr(padapter, (ODM_BB_DIG | ODM_BB_FA_CNT));
++	} else if ((padapter->dump_rx_cnt_mode & DUMP_PHY_RX_COUNTER) && (!(rx_cnt_mode & DUMP_PHY_RX_COUNTER))) {
++		/* turn on phy-dynamic functions */
++		rtw_phydm_ability_restore(padapter);
++		initialgain = 0xff; /* restore RX GAIN */
++		rtw_hal_set_odm_var(padapter, HAL_ODM_INITIAL_GAIN, &initialgain, _FALSE);
++
++	}
++}
++
++void rtw_dump_rx_counters(_adapter *padapter)
++{
++	struct dbg_rx_counter rx_counter;
++
++	if (padapter->dump_rx_cnt_mode & DUMP_DRV_RX_COUNTER) {
++		_rtw_memset(&rx_counter, 0, sizeof(struct dbg_rx_counter));
++		rtw_dump_drv_rx_counters(padapter, &rx_counter);
++		RTW_INFO("Drv Received packet OK:%d CRC error:%d Drop Packets: %d\n",
++			rx_counter.rx_pkt_ok, rx_counter.rx_pkt_crc_error, rx_counter.rx_pkt_drop);
++		rtw_reset_drv_rx_counters(padapter);
++	}
++
++	if (padapter->dump_rx_cnt_mode & DUMP_MAC_RX_COUNTER) {
++		_rtw_memset(&rx_counter, 0, sizeof(struct dbg_rx_counter));
++		rtw_dump_mac_rx_counters(padapter, &rx_counter);
++		RTW_INFO("Mac Received packet OK:%d CRC error:%d FA Counter: %d Drop Packets: %d\n",
++			 rx_counter.rx_pkt_ok, rx_counter.rx_pkt_crc_error,
++			rx_counter.rx_cck_fa + rx_counter.rx_ofdm_fa + rx_counter.rx_ht_fa,
++			 rx_counter.rx_pkt_drop);
++		rtw_reset_mac_rx_counters(padapter);
++	}
++
++	if (padapter->dump_rx_cnt_mode & DUMP_PHY_RX_COUNTER) {
++		_rtw_memset(&rx_counter, 0, sizeof(struct dbg_rx_counter));
++		rtw_dump_phy_rx_counters(padapter, &rx_counter);
++		/* RTW_INFO("%s: OFDM_FA =%d\n", __FUNCTION__, rx_counter.rx_ofdm_fa); */
++		/* RTW_INFO("%s: CCK_FA =%d\n", __FUNCTION__, rx_counter.rx_cck_fa); */
++		RTW_INFO("Phy Received packet OK:%d CRC error:%d FA Counter: %d\n", rx_counter.rx_pkt_ok, rx_counter.rx_pkt_crc_error,
++			 rx_counter.rx_ofdm_fa + rx_counter.rx_cck_fa);
++		rtw_reset_phy_rx_counters(padapter);
++	}
++}
++#endif
++void rtw_get_noise(_adapter *padapter)
++{
++#if defined(CONFIG_SIGNAL_DISPLAY_DBM) && defined(CONFIG_BACKGROUND_NOISE_MONITOR)
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct noise_info info;
++	if (rtw_linked_check(padapter)) {
++		info.bPauseDIG = _TRUE;
++		info.IGIValue = 0x1e;
++		info.max_time = 100;/* ms */
++		info.chan = pmlmeext->cur_channel ;/* rtw_get_oper_ch(padapter); */
++		rtw_ps_deny(padapter, PS_DENY_IOCTL);
++		LeaveAllPowerSaveModeDirect(padapter);
++
++		rtw_hal_set_odm_var(padapter, HAL_ODM_NOISE_MONITOR, &info, _FALSE);
++		/* ODM_InbandNoise_Monitor(podmpriv,_TRUE,0x20,100); */
++		rtw_ps_deny_cancel(padapter, PS_DENY_IOCTL);
++		rtw_hal_get_odm_var(padapter, HAL_ODM_NOISE_MONITOR, &(info.chan), &(padapter->recvpriv.noise));
++#ifdef DBG_NOISE_MONITOR
++		RTW_INFO("chan:%d,noise_level:%d\n", info.chan, padapter->recvpriv.noise);
++#endif
++	}
++#endif
++
++}
++u8 rtw_get_current_tx_sgi(_adapter *padapter, u8 macid)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++	u8 curr_tx_sgi = 0;
++
++#if defined(CONFIG_RTL8188E)
++	curr_tx_sgi = ODM_RA_GetDecisionRate_8188E(pDM_Odm, macid);
++#else
++	curr_tx_sgi = ((pRA_Table->link_tx_rate[macid]) & 0x80) >> 7;
++#endif
++
++	return curr_tx_sgi;
++
++}
++u8 rtw_get_current_tx_rate(_adapter *padapter, u8 macid)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++	u8 rate_id = 0;
++
++#if (RATE_ADAPTIVE_SUPPORT == 1)
++	rate_id = ODM_RA_GetDecisionRate_8188E(pDM_Odm, macid);
++#else
++	rate_id = (pRA_Table->link_tx_rate[macid]) & 0x7f;
++#endif
++
++	return rate_id;
++
++}
++
++#ifdef CONFIG_FW_C2H_DEBUG
++
++/*	C2H RX package original is 128.
++if enable CONFIG_FW_C2H_DEBUG, it should increase to 256.
++ C2H FW debug message:
++ without aggregate:
++ {C2H_CmdID,Seq,SubID,Len,Content[0~n]}
++ Content[0~n]={'a','b','c',...,'z','\n'}
++ with aggregate:
++ {C2H_CmdID,Seq,SubID,Len,Content[0~n]}
++ Content[0~n]={'a','b','c',...,'z','\n',Extend C2H pkt 2...}
++ Extend C2H pkt 2={C2H CmdID,Seq,SubID,Len,Content = {'a','b','c',...,'z','\n'}}
++ Author: Isaac	*/
++
++void Debug_FwC2H(PADAPTER padapter, u8 *pdata, u8 len)
++{
++	int i = 0;
++	int cnt = 0, total_length = 0;
++	u8 buf[128] = {0};
++	u8 more_data = _FALSE;
++	u8 *nextdata = NULL;
++	u8 test = 0;
++
++	u8 data_len;
++	u8 seq_no;
++
++	nextdata = pdata;
++	do {
++		data_len = *(nextdata + 1);
++		seq_no = *(nextdata + 2);
++
++		for (i = 0 ; i < data_len - 2 ; i++) {
++			cnt += sprintf((buf + cnt), "%c", nextdata[3 + i]);
++
++			if (nextdata[3 + i] == 0x0a && nextdata[4 + i] == 0xff)
++				more_data = _TRUE;
++			else if (nextdata[3 + i] == 0x0a && nextdata[4 + i] != 0xff)
++				more_data = _FALSE;
++		}
++
++		RTW_INFO("[RTKFW, SEQ=%d]: %s", seq_no, buf);
++		data_len += 3;
++		total_length += data_len;
++
++		if (more_data == _TRUE) {
++			_rtw_memset(buf, '\0', 128);
++			cnt = 0;
++			nextdata = (pdata + total_length);
++		}
++	} while (more_data == _TRUE);
++}
++#endif /*CONFIG_FW_C2H_DEBUG*/
++void update_IOT_info(_adapter *padapter)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	switch (pmlmeinfo->assoc_AP_vendor) {
++	case HT_IOT_PEER_MARVELL:
++		pmlmeinfo->turboMode_cts2self = 1;
++		pmlmeinfo->turboMode_rtsen = 0;
++		break;
++
++	case HT_IOT_PEER_RALINK:
++		pmlmeinfo->turboMode_cts2self = 0;
++		pmlmeinfo->turboMode_rtsen = 1;
++		/* disable high power			 */
++		rtw_phydm_func_clr(padapter, ODM_BB_DYNAMIC_TXPWR);
++		break;
++	case HT_IOT_PEER_REALTEK:
++		/* rtw_write16(padapter, 0x4cc, 0xffff); */
++		/* rtw_write16(padapter, 0x546, 0x01c0); */
++		/* disable high power			 */
++		rtw_phydm_func_clr(padapter, ODM_BB_DYNAMIC_TXPWR);
++		break;
++	default:
++		pmlmeinfo->turboMode_cts2self = 0;
++		pmlmeinfo->turboMode_rtsen = 1;
++		break;
++	}
++
++}
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++void rtw_acs_start(_adapter *padapter, bool bStart)
++{
++	if (_TRUE == bStart) {
++		ACS_OP acs_op = ACS_INIT;
++
++		rtw_hal_set_odm_var(padapter, HAL_ODM_AUTO_CHNL_SEL, &acs_op, _TRUE);
++		rtw_set_acs_channel(padapter, 0);
++		SET_ACS_STATE(padapter, ACS_ENABLE);
++	} else {
++		SET_ACS_STATE(padapter, ACS_DISABLE);
++#ifdef DBG_AUTO_CHNL_SEL_NHM
++		if (1) {
++			u8 best_24g_ch = 0;
++			u8 best_5g_ch = 0;
++
++			rtw_hal_get_odm_var(padapter, HAL_ODM_AUTO_CHNL_SEL, &(best_24g_ch), &(best_5g_ch));
++			RTW_INFO("[ACS-"ADPT_FMT"] Best 2.4G CH:%u\n", ADPT_ARG(padapter), best_24g_ch);
++			RTW_INFO("[ACS-"ADPT_FMT"] Best 5G CH:%u\n", ADPT_ARG(padapter), best_5g_ch);
++		}
++#endif
++	}
++}
++#endif
++
++/* TODO: merge with phydm, see odm_SetCrystalCap() */
++void hal_set_crystal_cap(_adapter *adapter, u8 crystal_cap)
++{
++	crystal_cap = crystal_cap & 0x3F;
++
++	switch (rtw_get_chip_type(adapter)) {
++#if defined(CONFIG_RTL8188E) || defined(CONFIG_RTL8188F)
++	case RTL8188E:
++	case RTL8188F:
++		/* write 0x24[16:11] = 0x24[22:17] = CrystalCap */
++		PHY_SetBBReg(adapter, REG_AFE_XTAL_CTRL, 0x007FF800, (crystal_cap | (crystal_cap << 6)));
++		break;
++#endif
++#if defined(CONFIG_RTL8812A)
++	case RTL8812:
++		/* write 0x2C[30:25] = 0x2C[24:19] = CrystalCap */
++		PHY_SetBBReg(adapter, REG_MAC_PHY_CTRL, 0x7FF80000, (crystal_cap | (crystal_cap << 6)));
++		break;
++#endif
++#if defined(CONFIG_RTL8723B) || defined(CONFIG_RTL8703B) || \
++		defined(CONFIG_RTL8723D) || defined(CONFIG_RTL8821A) || \
++		defined(CONFIG_RTL8192E)
++	case RTL8723B:
++	case RTL8703B:
++	case RTL8723D:
++	case RTL8821:
++	case RTL8192E:
++		/* write 0x2C[23:18] = 0x2C[17:12] = CrystalCap */
++		PHY_SetBBReg(adapter, REG_MAC_PHY_CTRL, 0x00FFF000, (crystal_cap | (crystal_cap << 6)));
++		break;
++#endif
++#if defined(CONFIG_RTL8814A)
++	case RTL8814A:
++		/* write 0x2C[26:21] = 0x2C[20:15] = CrystalCap*/
++		PHY_SetBBReg(adapter, REG_MAC_PHY_CTRL, 0x07FF8000, (crystal_cap | (crystal_cap << 6)));
++		break;
++#endif
++#if defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++
++	case RTL8822B:
++	case RTL8821C:
++		/* write 0x28[6:1] = 0x24[30:25] = CrystalCap */
++		crystal_cap = crystal_cap & 0x3F;
++		PHY_SetBBReg(adapter, REG_AFE_XTAL_CTRL, 0x7E000000, crystal_cap);
++		PHY_SetBBReg(adapter, REG_AFE_PLL_CTRL, 0x7E, crystal_cap);
++		break;
++#endif
++	default:
++		rtw_warn_on(1);
++	}
++}
++
++int hal_spec_init(_adapter *adapter)
++{
++	u8 interface_type = 0;
++	int ret = _SUCCESS;
++
++	interface_type = rtw_get_intf_type(adapter);
++
++	switch (rtw_get_chip_type(adapter)) {
++#ifdef CONFIG_RTL8723B
++	case RTL8723B:
++		init_hal_spec_8723b(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8703B
++	case RTL8703B:
++		init_hal_spec_8703b(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8723D
++	case RTL8723D:
++		init_hal_spec_8723d(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8188E
++	case RTL8188E:
++		init_hal_spec_8188e(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8188F
++	case RTL8188F:
++		init_hal_spec_8188f(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8812A
++	case RTL8812:
++		init_hal_spec_8812a(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8821A
++	case RTL8821:
++		init_hal_spec_8821a(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8192E
++	case RTL8192E:
++		init_hal_spec_8192e(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8814A
++	case RTL8814A:
++		init_hal_spec_8814a(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8822B
++	case RTL8822B:
++		rtl8822b_init_hal_spec(adapter);
++		break;
++#endif
++#ifdef CONFIG_RTL8821C
++	case RTL8821C:
++		init_hal_spec_rtl8821c(adapter);
++		break;
++#endif
++	default:
++		RTW_ERR("%s: unknown chip_type:%u\n"
++			, __func__, rtw_get_chip_type(adapter));
++		ret = _FAIL;
++		break;
++	}
++
++	return ret;
++}
++
++static const char *const _band_cap_str[] = {
++	/* BIT0 */"2G",
++	/* BIT1 */"5G",
++};
++
++static const char *const _bw_cap_str[] = {
++	/* BIT0 */"5M",
++	/* BIT1 */"10M",
++	/* BIT2 */"20M",
++	/* BIT3 */"40M",
++	/* BIT4 */"80M",
++	/* BIT5 */"160M",
++	/* BIT6 */"80_80M",
++};
++
++static const char *const _proto_cap_str[] = {
++	/* BIT0 */"b",
++	/* BIT1 */"g",
++	/* BIT2 */"n",
++	/* BIT3 */"ac",
++};
++
++static const char *const _wl_func_str[] = {
++	/* BIT0 */"P2P",
++	/* BIT1 */"MIRACAST",
++	/* BIT2 */"TDLS",
++	/* BIT3 */"FTM",
++};
++
++void dump_hal_spec(void *sel, _adapter *adapter)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	int i;
++
++	RTW_PRINT_SEL(sel, "macid_num:%u\n", hal_spec->macid_num);
++	RTW_PRINT_SEL(sel, "sec_cap:0x%02x\n", hal_spec->sec_cap);
++	RTW_PRINT_SEL(sel, "sec_cam_ent_num:%u\n", hal_spec->sec_cam_ent_num);
++	RTW_PRINT_SEL(sel, "nss_num:%u\n", hal_spec->nss_num);
++
++	RTW_PRINT_SEL(sel, "band_cap:");
++	for (i = 0; i < BAND_CAP_BIT_NUM; i++) {
++		if (((hal_spec->band_cap) >> i) & BIT0 && _band_cap_str[i])
++			_RTW_PRINT_SEL(sel, "%s ", _band_cap_str[i]);
++	}
++	_RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "bw_cap:");
++	for (i = 0; i < BW_CAP_BIT_NUM; i++) {
++		if (((hal_spec->bw_cap) >> i) & BIT0 && _bw_cap_str[i])
++			_RTW_PRINT_SEL(sel, "%s ", _bw_cap_str[i]);
++	}
++	_RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "proto_cap:");
++	for (i = 0; i < PROTO_CAP_BIT_NUM; i++) {
++		if (((hal_spec->proto_cap) >> i) & BIT0 && _proto_cap_str[i])
++			_RTW_PRINT_SEL(sel, "%s ", _proto_cap_str[i]);
++	}
++	_RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "wl_func:");
++	for (i = 0; i < WL_FUNC_BIT_NUM; i++) {
++		if (((hal_spec->wl_func) >> i) & BIT0 && _wl_func_str[i])
++			_RTW_PRINT_SEL(sel, "%s ", _wl_func_str[i]);
++	}
++	_RTW_PRINT_SEL(sel, "\n");
++}
++
++inline bool hal_chk_band_cap(_adapter *adapter, u8 cap)
++{
++	return GET_HAL_SPEC(adapter)->band_cap & cap;
++}
++
++inline bool hal_chk_bw_cap(_adapter *adapter, u8 cap)
++{
++	return GET_HAL_SPEC(adapter)->bw_cap & cap;
++}
++
++inline bool hal_chk_proto_cap(_adapter *adapter, u8 cap)
++{
++	return GET_HAL_SPEC(adapter)->proto_cap & cap;
++}
++
++inline bool hal_chk_wl_func(_adapter *adapter, u8 func)
++{
++	return GET_HAL_SPEC(adapter)->wl_func & func;
++}
++
++inline bool hal_is_band_support(_adapter *adapter, u8 band)
++{
++	return GET_HAL_SPEC(adapter)->band_cap & band_to_band_cap(band);
++}
++
++inline bool hal_is_bw_support(_adapter *adapter, u8 bw)
++{
++	return GET_HAL_SPEC(adapter)->bw_cap & ch_width_to_bw_cap(bw);
++}
++
++inline bool hal_is_wireless_mode_support(_adapter *adapter, u8 mode)
++{
++	u8 proto_cap = GET_HAL_SPEC(adapter)->proto_cap;
++
++	if (mode == WIRELESS_11B)
++		if ((proto_cap & PROTO_CAP_11B) && hal_chk_band_cap(adapter, BAND_CAP_2G))
++			return 1;
++
++	if (mode == WIRELESS_11G)
++		if ((proto_cap & PROTO_CAP_11G) && hal_chk_band_cap(adapter, BAND_CAP_2G))
++			return 1;
++
++	if (mode == WIRELESS_11A)
++		if ((proto_cap & PROTO_CAP_11G) && hal_chk_band_cap(adapter, BAND_CAP_5G))
++			return 1;
++
++	if (mode == WIRELESS_11_24N)
++		if ((proto_cap & PROTO_CAP_11N) && hal_chk_band_cap(adapter, BAND_CAP_2G))
++			return 1;
++
++	if (mode == WIRELESS_11_5N)
++		if ((proto_cap & PROTO_CAP_11N) && hal_chk_band_cap(adapter, BAND_CAP_5G))
++			return 1;
++
++	if (mode == WIRELESS_11AC)
++		if ((proto_cap & PROTO_CAP_11AC) && hal_chk_band_cap(adapter, BAND_CAP_5G))
++			return 1;
++
++	return 0;
++}
++
++/*
++* hal_largest_bw - starting from in_bw, get largest bw supported by HAL
++* @adapter:
++* @in_bw: starting bw, value of CHANNEL_WIDTH
++*
++* Returns: value of CHANNEL_WIDTH
++*/
++u8 hal_largest_bw(_adapter *adapter, u8 in_bw)
++{
++	for (; in_bw > CHANNEL_WIDTH_20; in_bw--) {
++		if (hal_is_bw_support(adapter, in_bw))
++			break;
++	}
++
++	if (!hal_is_bw_support(adapter, in_bw))
++		rtw_warn_on(1);
++
++	return in_bw;
++}
++
++void rtw_hal_correct_tsf(_adapter *padapter, u8 hw_port, u64 tsf)
++{
++	if (hw_port == HW_PORT0) {
++		/*disable related TSF function*/
++		rtw_write8(padapter, REG_BCN_CTRL, rtw_read8(padapter, REG_BCN_CTRL) & (~EN_BCN_FUNCTION));
++
++		rtw_write32(padapter, REG_TSFTR, tsf);
++		rtw_write32(padapter, REG_TSFTR + 4, tsf >> 32);
++
++		/*enable related TSF function*/
++		rtw_write8(padapter, REG_BCN_CTRL, rtw_read8(padapter, REG_BCN_CTRL) | EN_BCN_FUNCTION);
++	} else if (hw_port == HW_PORT1) {
++		/*disable related TSF function*/
++		rtw_write8(padapter, REG_BCN_CTRL_1, rtw_read8(padapter, REG_BCN_CTRL_1) & (~EN_BCN_FUNCTION));
++
++		rtw_write32(padapter, REG_TSFTR1, tsf);
++		rtw_write32(padapter, REG_TSFTR1 + 4, tsf >> 32);
++
++		/*enable related TSF function*/
++		rtw_write8(padapter, REG_BCN_CTRL_1, rtw_read8(padapter, REG_BCN_CTRL_1) | EN_BCN_FUNCTION);
++	} else
++		RTW_INFO("%s-[WARN] "ADPT_FMT" invalid hw_port:%d\n", __func__, ADPT_ARG(padapter), hw_port);
++}
++
++void ResumeTxBeacon(_adapter *padapter)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++
++
++	/* 2010.03.01. Marked by tynli. No need to call workitem beacause we record the value */
++	/* which should be read from register to a global variable. */
++
++
++	pHalData->RegFwHwTxQCtrl |= BIT(6);
++	rtw_write8(padapter, REG_FWHW_TXQ_CTRL + 2, pHalData->RegFwHwTxQCtrl);
++	rtw_write8(padapter, REG_TBTT_PROHIBIT + 1, 0xff);
++	pHalData->RegReg542 |= BIT(0);
++	rtw_write8(padapter, REG_TBTT_PROHIBIT + 2, pHalData->RegReg542);
++}
++
++void StopTxBeacon(_adapter *padapter)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++
++
++	/* 2010.03.01. Marked by tynli. No need to call workitem beacause we record the value */
++	/* which should be read from register to a global variable. */
++
++
++	pHalData->RegFwHwTxQCtrl &= ~BIT(6);
++	rtw_write8(padapter, REG_FWHW_TXQ_CTRL + 2, pHalData->RegFwHwTxQCtrl);
++	rtw_write8(padapter, REG_TBTT_PROHIBIT + 1, 0x64);
++	pHalData->RegReg542 &= ~BIT(0);
++	rtw_write8(padapter, REG_TBTT_PROHIBIT + 2, pHalData->RegReg542);
++
++	/*CheckFwRsvdPageContent(padapter);*/  /* 2010.06.23. Added by tynli. */
++}
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM /*HW port0 - MBSS*/
++void hw_var_set_opmode_mbid(_adapter *Adapter, u8 mode)
++{
++	RTW_INFO("%s()-"ADPT_FMT" mode = %d\n", __func__, ADPT_ARG(Adapter), mode);
++
++	rtw_write32(Adapter, REG_RCR, rtw_read32(Adapter, REG_RCR) & (~(RCR_CBSSID_DATA | RCR_CBSSID_BCN)));
++
++	/* disable Port0 TSF update*/
++	rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL) | DIS_TSF_UDT);
++
++	/* set net_type */
++	Set_MSR(Adapter, mode);
++
++	if ((mode == _HW_STATE_STATION_) || (mode == _HW_STATE_NOLINK_)) {
++		if (!rtw_mi_check_status(Adapter, MI_AP_MODE))
++			StopTxBeacon(Adapter);
++
++		rtw_write8(Adapter, REG_BCN_CTRL, DIS_TSF_UDT | EN_BCN_FUNCTION | DIS_ATIM);/*disable atim wnd*/
++	} else if (mode == _HW_STATE_ADHOC_) {
++		ResumeTxBeacon(Adapter);
++		rtw_write8(Adapter, REG_BCN_CTRL, DIS_TSF_UDT | EN_BCN_FUNCTION | DIS_BCNQ_SUB);
++
++	} else if (mode == _HW_STATE_AP_) {
++		ResumeTxBeacon(Adapter);
++
++		rtw_write8(Adapter, REG_BCN_CTRL, DIS_TSF_UDT | DIS_BCNQ_SUB);
++
++		/*enable to rx data frame*/
++		rtw_write16(Adapter, REG_RXFLTMAP2, 0xFFFF);
++
++		/*Beacon Control related register for first time*/
++		rtw_write8(Adapter, REG_BCNDMATIM, 0x02); /* 2ms */
++
++		/*rtw_write8(Adapter, REG_BCN_MAX_ERR, 0xFF);*/
++		rtw_write8(Adapter, REG_ATIMWND, 0x0a); /* 10ms */
++		rtw_write16(Adapter, REG_BCNTCFG, 0x00);
++		rtw_write16(Adapter, REG_TBTT_PROHIBIT, 0xff04);
++		rtw_write16(Adapter, REG_TSFTR_SYN_OFFSET, 0x7fff);/* +32767 (~32ms) */
++
++		/*reset TSF*/
++		rtw_write8(Adapter, REG_DUAL_TSF_RST, BIT(0));
++
++		/*enable BCN0 Function for if1*/
++		/*don't enable update TSF0 for if1 (due to TSF update when beacon,probe rsp are received)*/
++		rtw_write8(Adapter, REG_BCN_CTRL, (DIS_TSF_UDT | EN_BCN_FUNCTION | EN_TXBCN_RPT | DIS_BCNQ_SUB));
++
++		if (IS_HARDWARE_TYPE_8821(Adapter) || IS_HARDWARE_TYPE_8192E(Adapter))/* select BCN on port 0 for DualBeacon*/
++			rtw_write8(Adapter, REG_CCK_CHECK, rtw_read8(Adapter, REG_CCK_CHECK) & (~BIT_BCN_PORT_SEL));
++
++	}
++
++}
++#endif
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++u8	rtw_hal_antdiv_before_linked(_adapter *padapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	u8 cur_ant, change_ant;
++
++	if (!pHalData->AntDivCfg)
++		return _FALSE;
++
++	if (pHalData->sw_antdiv_bl_state == 0) {
++		pHalData->sw_antdiv_bl_state = 1;
++
++		rtw_hal_get_odm_var(padapter, HAL_ODM_ANTDIV_SELECT, &cur_ant, NULL);
++		change_ant = (cur_ant == MAIN_ANT) ? AUX_ANT : MAIN_ANT;
++
++		return rtw_antenna_select_cmd(padapter, change_ant, _FALSE);
++	}
++
++	pHalData->sw_antdiv_bl_state = 0;
++	return _FALSE;
++}
++
++void	rtw_hal_antdiv_rssi_compared(_adapter *padapter, WLAN_BSSID_EX *dst, WLAN_BSSID_EX *src)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	if (pHalData->AntDivCfg) {
++		/*RTW_INFO("update_network=> org-RSSI(%d), new-RSSI(%d)\n", dst->Rssi, src->Rssi);*/
++		/*select optimum_antenna for before linked =>For antenna diversity*/
++		if (dst->Rssi >=  src->Rssi) {/*keep org parameter*/
++			src->Rssi = dst->Rssi;
++			src->PhyInfo.Optimum_antenna = dst->PhyInfo.Optimum_antenna;
++		}
++	}
++}
++#endif
++
++#ifdef CONFIG_PHY_CAPABILITY_QUERY
++void rtw_dump_phy_cap(void *sel, _adapter *adapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(adapter);
++	struct phy_spec_t *phy_spec = &pHalData->phy_spec;
++
++	RTW_PRINT_SEL(sel, "[PHY SPEC] TRx Capability : 0x%08x\n", phy_spec->trx_cap);
++	RTW_PRINT_SEL(sel, "[PHY SPEC] Tx Stream Num Index : %d\n", (phy_spec->trx_cap >> 24) & 0xFF); /*Tx Stream Num Index [31:24]*/
++	RTW_PRINT_SEL(sel, "[PHY SPEC] Rx Stream Num Index : %d\n", (phy_spec->trx_cap >> 16) & 0xFF); /*Rx Stream Num Index [23:16]*/
++	RTW_PRINT_SEL(sel, "[PHY SPEC] Tx Path Num Index : %d\n", (phy_spec->trx_cap >> 8) & 0xFF);/*Tx Path Num Index	[15:8]*/
++	RTW_PRINT_SEL(sel, "[PHY SPEC] Rx Path Num Index : %d\n\n", (phy_spec->trx_cap & 0xFF));/*Rx Path Num Index	[7:0]*/
++
++	RTW_PRINT_SEL(sel, "[PHY SPEC] STBC Capability : 0x%08x\n", phy_spec->stbc_cap);
++	RTW_PRINT_SEL(sel, "[PHY SPEC] VHT STBC Tx : %s\n", ((phy_spec->stbc_cap >> 24) & 0xFF) ? "Supported" : "N/A"); /*VHT STBC Tx [31:24]*/
++	/*VHT STBC Rx [23:16]
++	0 = not support
++	1 = support for 1 spatial stream
++	2 = support for 1 or 2 spatial streams
++	3 = support for 1 or 2 or 3 spatial streams
++	4 = support for 1 or 2 or 3 or 4 spatial streams*/
++	RTW_PRINT_SEL(sel, "[PHY SPEC] VHT STBC Rx :%d\n", ((phy_spec->stbc_cap >> 16) & 0xFF));
++	RTW_PRINT_SEL(sel, "[PHY SPEC] HT STBC Tx : %s\n", ((phy_spec->stbc_cap >> 8) & 0xFF) ? "Supported" : "N/A"); /*HT STBC Tx [15:8]*/
++	/*HT STBC Rx [7:0]
++	0 = not support
++	1 = support for 1 spatial stream
++	2 = support for 1 or 2 spatial streams
++	3 = support for 1 or 2 or 3 spatial streams*/
++	RTW_PRINT_SEL(sel, "[PHY SPEC] HT STBC Rx : %d\n\n", (phy_spec->stbc_cap & 0xFF));
++
++	RTW_PRINT_SEL(sel, "[PHY SPEC] LDPC Capability : 0x%08x\n", phy_spec->ldpc_cap);
++	RTW_PRINT_SEL(sel, "[PHY SPEC] VHT LDPC Tx : %s\n", ((phy_spec->ldpc_cap >> 24) & 0xFF) ? "Supported" : "N/A"); /*VHT LDPC Tx [31:24]*/
++	RTW_PRINT_SEL(sel, "[PHY SPEC] VHT LDPC Rx : %s\n", ((phy_spec->ldpc_cap >> 16) & 0xFF) ? "Supported" : "N/A"); /*VHT LDPC Rx [23:16]*/
++	RTW_PRINT_SEL(sel, "[PHY SPEC] HT LDPC Tx : %s\n", ((phy_spec->ldpc_cap >> 8) & 0xFF) ? "Supported" : "N/A"); /*HT LDPC Tx [15:8]*/
++	RTW_PRINT_SEL(sel, "[PHY SPEC] HT LDPC Rx : %s\n\n", (phy_spec->ldpc_cap & 0xFF) ? "Supported" : "N/A"); /*HT LDPC Rx [7:0]*/
++
++	RTW_PRINT_SEL(sel, "[PHY SPEC] TxBF Capability : 0x%08x\n", phy_spec->txbf_cap);
++	RTW_PRINT_SEL(sel, "[PHY SPEC] VHT MU Bfer : %s\n", ((phy_spec->txbf_cap >> 28) & 0xF) ? "Supported" : "N/A"); /*VHT MU Bfer [31:28]*/
++	RTW_PRINT_SEL(sel, "[PHY SPEC] VHT MU Bfee : %s\n", ((phy_spec->txbf_cap >> 24) & 0xF) ? "Supported" : "N/A"); /*VHT MU Bfee [27:24]*/
++	RTW_PRINT_SEL(sel, "[PHY SPEC] VHT SU Bfer : %s\n", ((phy_spec->txbf_cap >> 20) & 0xF) ? "Supported" : "N/A"); /*VHT SU Bfer [23:20]*/
++	RTW_PRINT_SEL(sel, "[PHY SPEC] VHT SU Bfee : %s\n", ((phy_spec->txbf_cap >> 16) & 0xF) ? "Supported" : "N/A"); /*VHT SU Bfee [19:16]*/
++	RTW_PRINT_SEL(sel, "[PHY SPEC] HT Bfer : %s\n", ((phy_spec->txbf_cap >> 4) & 0xF)  ? "Supported" : "N/A"); /*HT Bfer [7:4]*/
++	RTW_PRINT_SEL(sel, "[PHY SPEC] HT Bfee : %s\n\n", (phy_spec->txbf_cap & 0xF) ? "Supported" : "N/A"); /*HT Bfee [3:0]*/
++
++	RTW_PRINT_SEL(sel, "[PHY SPEC] TxBF parameter : 0x%08x\n", phy_spec->txbf_param);
++	RTW_PRINT_SEL(sel, "[PHY SPEC] VHT Sounding Dim : %d\n", (phy_spec->txbf_param >> 24) & 0xFF); /*VHT Sounding Dim [31:24]*/
++	RTW_PRINT_SEL(sel, "[PHY SPEC] VHT Steering Ant : %d\n", (phy_spec->txbf_param >> 16) & 0xFF); /*VHT Steering Ant [23:16]*/
++	RTW_PRINT_SEL(sel, "[PHY SPEC] HT Sounding Dim : %d\n", (phy_spec->txbf_param >> 8) & 0xFF); /*HT Sounding Dim [15:8]*/
++	RTW_PRINT_SEL(sel, "[PHY SPEC] HT Steering Ant : %d\n", phy_spec->txbf_param & 0xFF); /*HT Steering Ant [7:0]*/
++}
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/hal_com_c2h.h b/drivers/net/wireless/rtl8812au/hal/hal_com_c2h.h
+new file mode 100644
+index 0000000..0dd11c5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/hal_com_c2h.h
+@@ -0,0 +1,66 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __COMMON_C2H_H__
++#define __COMMON_C2H_H__
++
++typedef enum _C2H_EVT {
++	C2H_DBG = 0x00,
++	C2H_LB = 0x01,
++	C2H_TXBF = 0x02,
++	C2H_CCX_TX_RPT = 0x03,
++	C2H_FW_SCAN_COMPLETE = 0x7,
++	C2H_BT_INFO = 0x09,
++	C2H_BT_MP_INFO = 0x0B,
++	C2H_RA_RPT = 0x0C,
++	C2H_RA_PARA_RPT = 0x0E,
++	C2H_FW_CHNL_SWITCH_COMPLETE = 0x10,
++	C2H_IQK_FINISH = 0x11,
++	C2H_MAILBOX_STATUS = 0x15,
++	C2H_P2P_RPORT = 0x16,
++#ifdef CONFIG_MCC_MODE
++	C2H_MCC = 0x17,
++#endif /* CONFIG_MCC_MODE */
++	C2H_MAC_HIDDEN_RPT = 0x19,
++	C2H_MAC_HIDDEN_RPT_2 = 0x1A,
++	C2H_BCN_EARLY_RPT = 0x1E,
++	C2H_BT_SCOREBOARD_STATUS = 0x20,
++	C2H_DEFEATURE_DBG = 0x22,
++	C2H_DEFEATURE_RSVD = 0xFD,
++	C2H_EXTEND = 0xff,
++} C2H_EVT;
++
++typedef enum _EXTEND_C2H_EVT {
++	EXTEND_C2H_DBG_PRINT = 0
++} EXTEND_C2H_EVT;
++
++/* C2H_MAC_HIDDEN_RPT, 0x19 */
++#define MAC_HIDDEN_RPT_LEN 8
++int c2h_mac_hidden_rpt_hdl(_adapter *adapter, u8 *data, u8 len);
++
++/* C2H_MAC_HIDDEN_RPT_2, 0x1A */
++#define MAC_HIDDEN_RPT_2_LEN 5
++int c2h_mac_hidden_rpt_2_hdl(_adapter *adapter, u8 *data, u8 len);
++int hal_read_mac_hidden_rpt(_adapter *adapter);
++
++/* C2H_DEFEATURE_DBG, 0x22 */
++#define DEFEATURE_DBG_LEN 1
++int c2h_defeature_dbg_hdl(_adapter *adapter, u8 *data, u8 len);
++
++#endif /* __COMMON_C2H_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/hal/hal_com_phycfg.c b/drivers/net/wireless/rtl8812au/hal/hal_com_phycfg.c
+new file mode 100644
+index 0000000..dc28867
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/hal_com_phycfg.c
+@@ -0,0 +1,5362 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HAL_COM_PHYCFG_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#define PG_TXPWR_MSB_DIFF_S4BIT(_pg_v) (((_pg_v) & 0xf0) >> 4)
++#define PG_TXPWR_LSB_DIFF_S4BIT(_pg_v) ((_pg_v) & 0x0f)
++#define PG_TXPWR_MSB_DIFF_TO_S8BIT(_pg_v) ((PG_TXPWR_MSB_DIFF_S4BIT(_pg_v) & BIT3) ? (PG_TXPWR_MSB_DIFF_S4BIT(_pg_v) | 0xF0) : PG_TXPWR_MSB_DIFF_S4BIT(_pg_v))
++#define PG_TXPWR_LSB_DIFF_TO_S8BIT(_pg_v) ((PG_TXPWR_LSB_DIFF_S4BIT(_pg_v) & BIT3) ? (PG_TXPWR_LSB_DIFF_S4BIT(_pg_v) | 0xF0) : PG_TXPWR_LSB_DIFF_S4BIT(_pg_v))
++#define IS_PG_TXPWR_BASE_INVALID(_base) ((_base) > 63)
++#define IS_PG_TXPWR_DIFF_INVALID(_diff) ((_diff) > 7 || (_diff) < -8)
++#define PG_TXPWR_INVALID_BASE 255
++#define PG_TXPWR_INVALID_DIFF 8
++
++#if !IS_PG_TXPWR_BASE_INVALID(PG_TXPWR_INVALID_BASE)
++#error "PG_TXPWR_BASE definition has problem"
++#endif
++
++#if !IS_PG_TXPWR_DIFF_INVALID(PG_TXPWR_INVALID_DIFF)
++#error "PG_TXPWR_DIFF definition has problem"
++#endif
++
++#define PG_TXPWR_SRC_PG_DATA	0
++#define PG_TXPWR_SRC_IC_DEF		1
++#define PG_TXPWR_SRC_DEF		2
++#define PG_TXPWR_SRC_NUM		3
++
++const char *const _pg_txpwr_src_str[] = {
++	"PG_DATA",
++	"IC_DEF",
++	"DEF",
++	"UNKNOWN"
++};
++
++#define pg_txpwr_src_str(src) (((src) >= PG_TXPWR_SRC_NUM) ? _pg_txpwr_src_str[PG_TXPWR_SRC_NUM] : _pg_txpwr_src_str[(src)])
++
++#ifndef DBG_PG_TXPWR_READ
++#define DBG_PG_TXPWR_READ 0
++#endif
++
++void dump_pg_txpwr_info_2g(void *sel, TxPowerInfo24G *txpwr_info, u8 rfpath_num, u8 max_tx_cnt)
++{
++	int path, group, tx_idx;
++
++	RTW_PRINT_SEL(sel, "2.4G\n");
++	RTW_PRINT_SEL(sel, "CCK-1T base:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (group = 0; group < MAX_CHNL_GROUP_24G; group++)
++		_RTW_PRINT_SEL(sel, "G%02d ", group);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (group = 0; group < MAX_CHNL_GROUP_24G; group++)
++			_RTW_PRINT_SEL(sel, "%3u ", txpwr_info->IndexCCK_Base[path][group]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "CCK diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++)
++		_RTW_PRINT_SEL(sel, "%dT ", path + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", txpwr_info->CCK_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW40-1S base:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (group = 0; group < MAX_CHNL_GROUP_24G - 1; group++)
++		_RTW_PRINT_SEL(sel, "G%02d ", group);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (group = 0; group < MAX_CHNL_GROUP_24G - 1; group++)
++			_RTW_PRINT_SEL(sel, "%3u ", txpwr_info->IndexBW40_Base[path][group]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "OFDM diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++)
++		_RTW_PRINT_SEL(sel, "%dT ", path + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", txpwr_info->OFDM_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW20 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++)
++		_RTW_PRINT_SEL(sel, "%dS ", path + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", txpwr_info->BW20_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW40 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++)
++		_RTW_PRINT_SEL(sel, "%dS ", path + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", txpwr_info->BW40_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++}
++
++void dump_pg_txpwr_info_5g(void *sel, TxPowerInfo5G *txpwr_info, u8 rfpath_num, u8 max_tx_cnt)
++{
++	int path, group, tx_idx;
++
++	RTW_PRINT_SEL(sel, "5G\n");
++	RTW_PRINT_SEL(sel, "BW40-1S base:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (group = 0; group < MAX_CHNL_GROUP_5G; group++)
++		_RTW_PRINT_SEL(sel, "G%02d ", group);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (group = 0; group < MAX_CHNL_GROUP_5G; group++)
++			_RTW_PRINT_SEL(sel, "%3u ", txpwr_info->IndexBW40_Base[path][group]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "OFDM diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++)
++		_RTW_PRINT_SEL(sel, "%dT ", path + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", txpwr_info->OFDM_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW20 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++)
++		_RTW_PRINT_SEL(sel, "%dS ", path + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", txpwr_info->BW20_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW40 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++)
++		_RTW_PRINT_SEL(sel, "%dS ", path + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", txpwr_info->BW40_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW80 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++)
++		_RTW_PRINT_SEL(sel, "%dS ", path + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", txpwr_info->BW80_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW160 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++)
++		_RTW_PRINT_SEL(sel, "%dS ", path + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", txpwr_info->BW160_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++}
++
++const struct map_t pg_txpwr_def_info =
++	MAP_ENT(0xB8, 1, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 168,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x24, 0xEE, 0xEE, 0xEE, 0xEE,
++			0xEE, 0xEE, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x04, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x24, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x04, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE,
++			0xEE, 0xEE, 0xEE, 0xEE, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x24,
++			0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x2A, 0x2A, 0x2A, 0x2A, 0x04, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0x2D, 0x2D,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x24, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE,
++			0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x04, 0xEE,
++			0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE)
++	);
++
++#ifdef CONFIG_RTL8188E
++static const struct map_t rtl8188e_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 1, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 12,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x24)
++	);
++#endif
++
++#ifdef CONFIG_RTL8188F
++static const struct map_t rtl8188f_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 1, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 12,
++			0x22, 0x22, 0x22, 0x22, 0x22, 0x22, 0x27, 0x27, 0x27, 0x27, 0x27, 0x24)
++	);
++#endif
++
++#ifdef CONFIG_RTL8723B
++static const struct map_t rtl8723b_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 2, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 12,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0xE0)
++		, MAPSEG_ARRAY_ENT(0x3A, 12,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0xE0)
++	);
++#endif
++
++#ifdef CONFIG_RTL8703B
++static const struct map_t rtl8703b_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 1, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 12,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02)
++	);
++#endif
++
++#ifdef CONFIG_RTL8723D
++static const struct map_t rtl8723d_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 2, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 12,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02)
++		, MAPSEG_ARRAY_ENT(0x3A, 12,
++			0x22, 0x22, 0x22, 0x22, 0x22, 0x22, 0x21, 0x21, 0x21, 0x21, 0x21, 0x02)
++	);
++#endif
++
++#ifdef CONFIG_RTL8192E
++static const struct map_t rtl8192e_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 2, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 14,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x24, 0xEE, 0xEE)
++		, MAPSEG_ARRAY_ENT(0x3A, 14,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x24, 0xEE, 0xEE)
++	);
++#endif
++
++#ifdef CONFIG_RTL8821A
++static const struct map_t rtl8821a_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 1, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 39,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x24, 0xFF, 0xFF, 0xFF, 0xFF,
++			0xFF, 0xFF, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x04, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x00)
++	);
++#endif
++
++#ifdef CONFIG_RTL8821C
++static const struct map_t rtl8821c_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 1, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 54,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02, 0xFF, 0xFF, 0xFF, 0xFF, 
++			0xFF, 0xFF, 0x28, 0x28, 0x28, 0x28, 0x28, 0x28, 0x28, 0x28, 0x28, 0x28, 0x28, 0x28, 0x28, 0x28, 
++			0x02, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xEC, 0xFF, 0xFF, 0xFF, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02)
++	);
++#endif
++
++#ifdef CONFIG_RTL8812A
++static const struct map_t rtl8812a_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 1, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 82,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02, 0xEE, 0xEE, 0xFF, 0xFF,
++			0xFF, 0xFF, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x02, 0xEE, 0xFF, 0xFF, 0xEE, 0xFF, 0x00, 0xEE, 0xFF, 0xFF, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02, 0xEE, 0xEE, 0xFF, 0xFF, 0xFF, 0xFF, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x02, 0xEE, 0xFF, 0xFF, 0xEE, 0xFF,
++			0x00, 0xEE)
++	);
++#endif
++
++#ifdef CONFIG_RTL8822B
++static const struct map_t rtl8822b_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 1, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 82,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02, 0xEE, 0xEE, 0xFF, 0xFF,
++			0xFF, 0xFF, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x02, 0xEE, 0xFF, 0xFF, 0xEE, 0xFF, 0xEC, 0xEC, 0xFF, 0xFF, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02, 0xEE, 0xEE, 0xFF, 0xFF, 0xFF, 0xFF, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x02, 0xEE, 0xFF, 0xFF, 0xEE, 0xFF,
++			0xEC, 0xEC)
++	);
++#endif
++
++#ifdef CONFIG_RTL8814A
++static const struct map_t rtl8814a_pg_txpwr_def_info =
++	MAP_ENT(0xB8, 1, 0xFF
++		, MAPSEG_ARRAY_ENT(0x10, 168,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02, 0xEE, 0xEE, 0xEE, 0xEE,
++			0xEE, 0xEE, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x02, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0x00, 0xEE, 0xEE, 0xEE, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x02, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE,
++			0x00, 0xEE, 0xEE, 0xEE, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02,
++			0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A,
++			0x2A, 0x2A, 0x2A, 0x2A, 0x02, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0x00, 0xEE, 0xEE, 0xEE, 0x2D, 0x2D,
++			0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x2D, 0x02, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE, 0xEE,
++			0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x2A, 0x02, 0xEE,
++			0xEE, 0xEE, 0xEE, 0xEE, 0x00, 0xEE, 0xEE, 0xEE)
++	);
++#endif
++
++const struct map_t *hal_pg_txpwr_def_info(_adapter *adapter)
++{
++	u8 interface_type = 0;
++	const struct map_t *map = NULL;
++
++	interface_type = rtw_get_intf_type(adapter);
++
++	switch (rtw_get_chip_type(adapter)) {
++#ifdef CONFIG_RTL8723B
++	case RTL8723B:
++		map = &rtl8723b_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8703B
++	case RTL8703B:
++		map = &rtl8703b_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8723D
++	case RTL8723D:
++		map = &rtl8723d_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8188E
++	case RTL8188E:
++		map = &rtl8188e_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8188F
++	case RTL8188F:
++		map = &rtl8188f_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8812A
++	case RTL8812:
++		map = &rtl8812a_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8821A
++	case RTL8821:
++		map = &rtl8821a_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8192E
++	case RTL8192E:
++		map = &rtl8192e_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8814A
++	case RTL8814A:
++		map = &rtl8814a_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8822B
++	case RTL8822B:
++		map = &rtl8822b_pg_txpwr_def_info;
++		break;
++#endif
++#ifdef CONFIG_RTL8821C
++	case RTL8821C:
++		map = &rtl8821c_pg_txpwr_def_info;
++		break;
++#endif
++	}
++
++	if (map == NULL) {
++		RTW_ERR("%s: unknown chip_type:%u\n"
++			, __func__, rtw_get_chip_type(adapter));
++		rtw_warn_on(1);
++	}
++
++	return map;
++}
++
++static u8 hal_chk_pg_txpwr_info_2g(_adapter *adapter, TxPowerInfo24G *pwr_info)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	u8 path, group, tx_idx;
++
++	if (pwr_info == NULL || !hal_chk_band_cap(adapter, BAND_CAP_2G))
++		return _SUCCESS;
++
++	for (path = 0; path < MAX_RF_PATH; path++) {
++		if (!HAL_SPEC_CHK_RF_PATH(hal_spec, path))
++			continue;
++		for (group = 0; group < MAX_CHNL_GROUP_24G; group++) {
++			if (IS_PG_TXPWR_BASE_INVALID(pwr_info->IndexCCK_Base[path][group])
++				|| IS_PG_TXPWR_BASE_INVALID(pwr_info->IndexBW40_Base[path][group]))
++				return _FAIL;
++		}
++		for (tx_idx = 0; tx_idx < MAX_TX_COUNT; tx_idx++) {
++			if (!HAL_SPEC_CHK_TX_CNT(hal_spec, tx_idx))
++				continue;
++			if (IS_PG_TXPWR_DIFF_INVALID(pwr_info->CCK_Diff[path][tx_idx])
++				|| IS_PG_TXPWR_DIFF_INVALID(pwr_info->OFDM_Diff[path][tx_idx])
++				|| IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW20_Diff[path][tx_idx])
++				|| IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW40_Diff[path][tx_idx]))
++				return _FAIL;
++		}
++	}
++
++	return _SUCCESS;
++}
++
++static u8 hal_chk_pg_txpwr_info_5g(_adapter *adapter, TxPowerInfo5G *pwr_info)
++{
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	u8 path, group, tx_idx;
++
++	if (pwr_info == NULL || !hal_chk_band_cap(adapter, BAND_CAP_5G))
++		return _SUCCESS;
++
++	for (path = 0; path < MAX_RF_PATH; path++) {
++		if (!HAL_SPEC_CHK_RF_PATH(hal_spec, path))
++			continue;
++		for (group = 0; group < MAX_CHNL_GROUP_5G; group++)
++			if (IS_PG_TXPWR_BASE_INVALID(pwr_info->IndexBW40_Base[path][group]))
++				return _FAIL;
++		for (tx_idx = 0; tx_idx < MAX_TX_COUNT; tx_idx++) {
++			if (!HAL_SPEC_CHK_TX_CNT(hal_spec, tx_idx))
++				continue;
++			if (IS_PG_TXPWR_DIFF_INVALID(pwr_info->OFDM_Diff[path][tx_idx])
++				|| IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW20_Diff[path][tx_idx])
++				|| IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW40_Diff[path][tx_idx])
++				|| IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW80_Diff[path][tx_idx])
++				|| IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW160_Diff[path][tx_idx]))
++				return _FAIL;
++		}
++	}
++#endif /* CONFIG_IEEE80211_BAND_5GHZ */
++	return _SUCCESS;
++}
++
++static inline void hal_init_pg_txpwr_info_2g(_adapter *adapter, TxPowerInfo24G *pwr_info)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	u8 path, group, tx_idx;
++
++	if (pwr_info == NULL)
++		return;
++
++	_rtw_memset(pwr_info, 0, sizeof(TxPowerInfo24G));
++
++	/* init with invalid value */
++	for (path = 0; path < MAX_RF_PATH; path++) {
++		for (group = 0; group < MAX_CHNL_GROUP_24G; group++) {
++			pwr_info->IndexCCK_Base[path][group] = PG_TXPWR_INVALID_BASE;
++			pwr_info->IndexBW40_Base[path][group] = PG_TXPWR_INVALID_BASE;
++		}
++		for (tx_idx = 0; tx_idx < MAX_TX_COUNT; tx_idx++) {
++			pwr_info->CCK_Diff[path][tx_idx] = PG_TXPWR_INVALID_DIFF;
++			pwr_info->OFDM_Diff[path][tx_idx] = PG_TXPWR_INVALID_DIFF;
++			pwr_info->BW20_Diff[path][tx_idx] = PG_TXPWR_INVALID_DIFF;
++			pwr_info->BW40_Diff[path][tx_idx] = PG_TXPWR_INVALID_DIFF;
++		}
++	}
++
++	/* init for dummy base and diff */
++	for (path = 0; path < MAX_RF_PATH; path++) {
++		if (!HAL_SPEC_CHK_RF_PATH(hal_spec, path))
++			break;
++		/* 2.4G BW40 base has 1 less group than CCK base*/
++		pwr_info->IndexBW40_Base[path][MAX_CHNL_GROUP_24G - 1] = 0;
++
++		/* dummy diff */
++		pwr_info->CCK_Diff[path][0] = 0; /* 2.4G CCK-1TX */
++		pwr_info->BW40_Diff[path][0] = 0; /* 2.4G BW40-1S */
++	}
++}
++
++static inline void hal_init_pg_txpwr_info_5g(_adapter *adapter, TxPowerInfo5G *pwr_info)
++{
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	u8 path, group, tx_idx;
++
++	if (pwr_info == NULL)
++		return;
++
++	_rtw_memset(pwr_info, 0, sizeof(TxPowerInfo5G));
++
++	/* init with invalid value */
++	for (path = 0; path < MAX_RF_PATH; path++) {
++		for (group = 0; group < MAX_CHNL_GROUP_5G; group++)
++			pwr_info->IndexBW40_Base[path][group] = PG_TXPWR_INVALID_BASE;
++		for (tx_idx = 0; tx_idx < MAX_TX_COUNT; tx_idx++) {
++			pwr_info->OFDM_Diff[path][tx_idx] = PG_TXPWR_INVALID_DIFF;
++			pwr_info->BW20_Diff[path][tx_idx] = PG_TXPWR_INVALID_DIFF;
++			pwr_info->BW40_Diff[path][tx_idx] = PG_TXPWR_INVALID_DIFF;
++			pwr_info->BW80_Diff[path][tx_idx] = PG_TXPWR_INVALID_DIFF;
++			pwr_info->BW160_Diff[path][tx_idx] = PG_TXPWR_INVALID_DIFF;
++		}
++	}
++
++	for (path = 0; path < MAX_RF_PATH; path++) {
++		if (!HAL_SPEC_CHK_RF_PATH(hal_spec, path))
++			break;
++		/* dummy diff */
++		pwr_info->BW40_Diff[path][0] = 0; /* 5G BW40-1S */
++	}
++#endif /* CONFIG_IEEE80211_BAND_5GHZ */
++}
++
++#if DBG_PG_TXPWR_READ
++#define LOAD_PG_TXPWR_WARN_COND(_txpwr_src) 1
++#else
++#define LOAD_PG_TXPWR_WARN_COND(_txpwr_src) (_txpwr_src > PG_TXPWR_SRC_PG_DATA)
++#endif
++
++u16 hal_load_pg_txpwr_info_path_2g(
++	_adapter *adapter,
++	TxPowerInfo24G	*pwr_info,
++	u32 path,
++	u8 txpwr_src,
++	const struct map_t *txpwr_map,
++	u16 pg_offset)
++{
++#define PG_TXPWR_1PATH_BYTE_NUM_2G 18
++
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	u16 offset = pg_offset;
++	u8 group, tx_idx;
++	u8 val;
++	u8 tmp_base;
++	s8 tmp_diff;
++
++	if (pwr_info == NULL || !hal_chk_band_cap(adapter, BAND_CAP_2G)) {
++		offset += PG_TXPWR_1PATH_BYTE_NUM_2G;
++		goto exit;
++	}
++
++	if (DBG_PG_TXPWR_READ)
++		RTW_INFO("%s [%c] offset:0x%03x\n", __func__, rf_path_char(path), offset);
++
++	for (group = 0; group < MAX_CHNL_GROUP_24G; group++) {
++		if (HAL_SPEC_CHK_RF_PATH(hal_spec, path)) {
++			tmp_base = map_read8(txpwr_map, offset);
++			if (!IS_PG_TXPWR_BASE_INVALID(tmp_base)
++				&& IS_PG_TXPWR_BASE_INVALID(pwr_info->IndexCCK_Base[path][group])
++			) {
++				pwr_info->IndexCCK_Base[path][group] = tmp_base;
++				if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++					RTW_INFO("[%c] 2G G%02d CCK-1T base:%u from %s\n", rf_path_char(path), group, tmp_base, pg_txpwr_src_str(txpwr_src));
++			}
++		}
++		offset++;
++	}
++
++	for (group = 0; group < MAX_CHNL_GROUP_24G - 1; group++) {
++		if (HAL_SPEC_CHK_RF_PATH(hal_spec, path)) {
++			tmp_base = map_read8(txpwr_map, offset);
++			if (!IS_PG_TXPWR_BASE_INVALID(tmp_base)
++				&& IS_PG_TXPWR_BASE_INVALID(pwr_info->IndexBW40_Base[path][group])
++			) {
++				pwr_info->IndexBW40_Base[path][group] =	tmp_base;
++				if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++					RTW_INFO("[%c] 2G G%02d BW40-1S base:%u from %s\n", rf_path_char(path), group, tmp_base, pg_txpwr_src_str(txpwr_src));
++			}
++		}
++		offset++;
++	}
++
++	for (tx_idx = 0; tx_idx < MAX_TX_COUNT; tx_idx++) {
++		if (tx_idx == 0) {
++			if (HAL_SPEC_CHK_RF_PATH(hal_spec, path) && HAL_SPEC_CHK_TX_CNT(hal_spec, tx_idx)) {
++				val = map_read8(txpwr_map, offset);
++				tmp_diff = PG_TXPWR_MSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW20_Diff[path][tx_idx])
++				) {
++					pwr_info->BW20_Diff[path][tx_idx] = tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 2G BW20-%dS diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++				}
++				tmp_diff = PG_TXPWR_LSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->OFDM_Diff[path][tx_idx])
++				) {
++					pwr_info->OFDM_Diff[path][tx_idx] = tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 2G OFDM-%dT diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++				}
++			}
++			offset++;
++		} else {
++			if (HAL_SPEC_CHK_RF_PATH(hal_spec, path) && HAL_SPEC_CHK_TX_CNT(hal_spec, tx_idx)) {
++				val = map_read8(txpwr_map, offset);
++				tmp_diff = PG_TXPWR_MSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW40_Diff[path][tx_idx])
++				) {
++					pwr_info->BW40_Diff[path][tx_idx] = tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 2G BW40-%dS diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++
++				}
++				tmp_diff = PG_TXPWR_LSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW20_Diff[path][tx_idx])
++				) {
++					pwr_info->BW20_Diff[path][tx_idx] = tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 2G BW20-%dS diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++				}
++			}
++			offset++;
++
++			if (HAL_SPEC_CHK_RF_PATH(hal_spec, path) && HAL_SPEC_CHK_TX_CNT(hal_spec, tx_idx)) {
++				val = map_read8(txpwr_map, offset);
++				tmp_diff = PG_TXPWR_MSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->OFDM_Diff[path][tx_idx])
++				) {
++					pwr_info->OFDM_Diff[path][tx_idx] = tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 2G OFDM-%dT diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++				}
++				tmp_diff = PG_TXPWR_LSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->CCK_Diff[path][tx_idx])
++				) {
++					pwr_info->CCK_Diff[path][tx_idx] =	tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 2G CCK-%dT diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++				}
++			}
++			offset++;
++		}
++	}
++
++	if (offset != pg_offset + PG_TXPWR_1PATH_BYTE_NUM_2G) {
++		RTW_ERR("%s parse %d bytes != %d\n", __func__, offset - pg_offset, PG_TXPWR_1PATH_BYTE_NUM_2G);
++		rtw_warn_on(1);
++	}
++
++exit:	
++	return offset;
++}
++
++u16 hal_load_pg_txpwr_info_path_5g(
++	_adapter *adapter,
++	TxPowerInfo5G	*pwr_info,
++	u32 path,
++	u8 txpwr_src,
++	const struct map_t *txpwr_map,
++	u16 pg_offset)
++{
++#define PG_TXPWR_1PATH_BYTE_NUM_5G 24
++
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	u16 offset = pg_offset;
++	u8 group, tx_idx;
++	u8 val;
++	u8 tmp_base;
++	s8 tmp_diff;
++
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	if (pwr_info == NULL || !hal_chk_band_cap(adapter, BAND_CAP_5G))
++#endif
++	{
++		offset += PG_TXPWR_1PATH_BYTE_NUM_5G;
++		goto exit;
++	}
++	
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	if (DBG_PG_TXPWR_READ)
++		RTW_INFO("%s[%c] eaddr:0x%03x\n", __func__, rf_path_char(path), offset);
++
++	for (group = 0; group < MAX_CHNL_GROUP_5G; group++) {
++		if (HAL_SPEC_CHK_RF_PATH(hal_spec, path)) {
++			tmp_base = map_read8(txpwr_map, offset);
++			if (!IS_PG_TXPWR_BASE_INVALID(tmp_base)
++				&& IS_PG_TXPWR_BASE_INVALID(pwr_info->IndexBW40_Base[path][group])
++			) {
++				pwr_info->IndexBW40_Base[path][group] = tmp_base;
++				if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++					RTW_INFO("[%c] 5G G%02d BW40-1S base:%u from %s\n", rf_path_char(path), group, tmp_base, pg_txpwr_src_str(txpwr_src));
++			}
++		}
++		offset++;
++	}
++
++	for (tx_idx = 0; tx_idx < MAX_TX_COUNT; tx_idx++) {
++		if (tx_idx == 0) {
++			if (HAL_SPEC_CHK_RF_PATH(hal_spec, path) && HAL_SPEC_CHK_TX_CNT(hal_spec, tx_idx)) {
++				val = map_read8(txpwr_map, offset);
++				tmp_diff = PG_TXPWR_MSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW20_Diff[path][tx_idx])
++				) {
++					pwr_info->BW20_Diff[path][tx_idx] = tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 5G BW20-%dS diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++				}
++				tmp_diff = PG_TXPWR_LSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->OFDM_Diff[path][tx_idx])
++				) {
++					pwr_info->OFDM_Diff[path][tx_idx] = tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 5G OFDM-%dT diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++				}
++			}
++			offset++;
++		} else {
++			if (HAL_SPEC_CHK_RF_PATH(hal_spec, path) && HAL_SPEC_CHK_TX_CNT(hal_spec, tx_idx)) {
++				val = map_read8(txpwr_map, offset);
++				tmp_diff = PG_TXPWR_MSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW40_Diff[path][tx_idx])
++				) {
++					pwr_info->BW40_Diff[path][tx_idx] = tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 5G BW40-%dS diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++				}
++				tmp_diff = PG_TXPWR_LSB_DIFF_TO_S8BIT(val);
++				if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++					&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW20_Diff[path][tx_idx])
++				) {
++					pwr_info->BW20_Diff[path][tx_idx] = tmp_diff;
++					if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++						RTW_INFO("[%c] 5G BW20-%dS diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++				}
++			}
++			offset++;
++		}
++	}	
++
++	/* OFDM diff 2T ~ 3T */
++	if (HAL_SPEC_CHK_RF_PATH(hal_spec, path) && HAL_SPEC_CHK_TX_CNT(hal_spec, 1)) {
++		val = map_read8(txpwr_map, offset);
++		tmp_diff = PG_TXPWR_MSB_DIFF_TO_S8BIT(val);
++		if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++			&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->OFDM_Diff[path][1])
++		) {
++			pwr_info->OFDM_Diff[path][1] = tmp_diff;
++			if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++				RTW_INFO("[%c] 5G OFDM-%dT diff:%d from %s\n", rf_path_char(path), 2, tmp_diff, pg_txpwr_src_str(txpwr_src));
++		}
++		if (HAL_SPEC_CHK_TX_CNT(hal_spec, 2)) {
++			tmp_diff = PG_TXPWR_LSB_DIFF_TO_S8BIT(val);
++			if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++				&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->OFDM_Diff[path][2])
++			) {
++				pwr_info->OFDM_Diff[path][2] = tmp_diff;
++				if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++					RTW_INFO("[%c] 5G OFDM-%dT diff:%d from %s\n", rf_path_char(path), 3, tmp_diff, pg_txpwr_src_str(txpwr_src));
++			}
++		}
++	}
++	offset++;
++
++	/* OFDM diff 4T */
++	if (HAL_SPEC_CHK_RF_PATH(hal_spec, path) && HAL_SPEC_CHK_TX_CNT(hal_spec, 3)) {
++		val = map_read8(txpwr_map, offset);
++		tmp_diff = PG_TXPWR_LSB_DIFF_TO_S8BIT(val);
++		if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++			&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->OFDM_Diff[path][3])
++		) {
++			pwr_info->OFDM_Diff[path][3] = tmp_diff;
++			if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++				RTW_INFO("[%c] 5G OFDM-%dT diff:%d from %s\n", rf_path_char(path), 4, tmp_diff, pg_txpwr_src_str(txpwr_src));
++		}
++	}
++	offset++;
++
++	for (tx_idx = 0; tx_idx < MAX_TX_COUNT; tx_idx++) {
++		if (HAL_SPEC_CHK_RF_PATH(hal_spec, path) && HAL_SPEC_CHK_TX_CNT(hal_spec, tx_idx)) {
++			val = map_read8(txpwr_map, offset);
++			tmp_diff = PG_TXPWR_MSB_DIFF_TO_S8BIT(val);
++			if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++				&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW80_Diff[path][tx_idx])
++			) {
++				pwr_info->BW80_Diff[path][tx_idx] = tmp_diff;
++				if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++					RTW_INFO("[%c] 5G BW80-%dS diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++			}
++			tmp_diff = PG_TXPWR_LSB_DIFF_TO_S8BIT(val);
++			if (!IS_PG_TXPWR_DIFF_INVALID(tmp_diff)
++				&& IS_PG_TXPWR_DIFF_INVALID(pwr_info->BW160_Diff[path][tx_idx])
++			) {
++				pwr_info->BW160_Diff[path][tx_idx] = tmp_diff;
++				if (LOAD_PG_TXPWR_WARN_COND(txpwr_src))
++					RTW_INFO("[%c] 5G BW160-%dS diff:%d from %s\n", rf_path_char(path), tx_idx + 1, tmp_diff, pg_txpwr_src_str(txpwr_src));
++			}
++		}
++		offset++;
++	}
++
++	if (offset != pg_offset + PG_TXPWR_1PATH_BYTE_NUM_5G) {
++		RTW_ERR("%s parse %d bytes != %d\n", __func__, offset - pg_offset, PG_TXPWR_1PATH_BYTE_NUM_5G);
++		rtw_warn_on(1);
++	}
++
++#endif /* #ifdef CONFIG_IEEE80211_BAND_5GHZ */
++
++exit:
++	return offset;
++}
++
++void hal_load_pg_txpwr_info(
++	_adapter *adapter,
++	TxPowerInfo24G *pwr_info_2g,
++	TxPowerInfo5G *pwr_info_5g,
++	u8 *pg_data,
++	BOOLEAN AutoLoadFail
++)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	u8 path;
++	u16 pg_offset;
++	u8 txpwr_src = PG_TXPWR_SRC_PG_DATA;
++	struct map_t pg_data_map = MAP_ENT(184, 1, 0xFF, MAPSEG_PTR_ENT(0x00, 184, pg_data));
++	const struct map_t *txpwr_map = NULL;
++
++	/* init with invalid value and some dummy base and diff */
++	hal_init_pg_txpwr_info_2g(adapter, pwr_info_2g);
++	hal_init_pg_txpwr_info_5g(adapter, pwr_info_5g);
++
++select_src:
++	pg_offset = 0x10;
++
++	switch (txpwr_src) {
++	case PG_TXPWR_SRC_PG_DATA:
++		txpwr_map = &pg_data_map;
++		break;
++	case PG_TXPWR_SRC_IC_DEF:
++		txpwr_map = hal_pg_txpwr_def_info(adapter);
++		break;
++	case PG_TXPWR_SRC_DEF:
++	default:
++		txpwr_map = &pg_txpwr_def_info;
++		break;
++	};
++
++	if (txpwr_map == NULL)
++		goto end_parse;
++
++	for (path = 0; path < MAX_RF_PATH ; path++) {
++		if (!HAL_SPEC_CHK_RF_PATH(hal_spec, path))
++			break;
++		pg_offset = hal_load_pg_txpwr_info_path_2g(adapter, pwr_info_2g, path, txpwr_src, txpwr_map, pg_offset);
++		pg_offset = hal_load_pg_txpwr_info_path_5g(adapter, pwr_info_5g, path, txpwr_src, txpwr_map, pg_offset);
++	}
++
++	if (hal_chk_pg_txpwr_info_2g(adapter, pwr_info_2g) == _SUCCESS
++		&& hal_chk_pg_txpwr_info_5g(adapter, pwr_info_5g) == _SUCCESS)
++		goto exit;
++
++end_parse:
++	txpwr_src++;
++	if (txpwr_src < PG_TXPWR_SRC_NUM)
++		goto select_src;
++
++	if (hal_chk_pg_txpwr_info_2g(adapter, pwr_info_2g) != _SUCCESS
++		|| hal_chk_pg_txpwr_info_5g(adapter, pwr_info_5g) != _SUCCESS)
++		rtw_warn_on(1);
++
++exit:
++	if (DBG_PG_TXPWR_READ) {
++		if (pwr_info_2g)
++			dump_pg_txpwr_info_2g(RTW_DBGDUMP, pwr_info_2g, 4, 4);
++		if (pwr_info_5g)
++			dump_pg_txpwr_info_5g(RTW_DBGDUMP, pwr_info_5g, 4, 4);
++	}
++
++	return;
++}
++
++void hal_load_txpwr_info(
++	_adapter *adapter,
++	TxPowerInfo24G *pwr_info_2g,
++	TxPowerInfo5G *pwr_info_5g,
++	u8 *pg_data
++)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	u8 rfpath_num = hal_spec->rfpath_num;
++	u8 max_tx_cnt = hal_spec->max_tx_cnt;
++	u8 rfpath, ch_idx, group, tx_idx;
++
++	/* load from pg data (or default value) */
++	hal_load_pg_txpwr_info(adapter, pwr_info_2g, pwr_info_5g, pg_data, _FALSE);
++
++	/* transform to hal_data */
++	for (rfpath = 0; rfpath < MAX_RF_PATH; rfpath++) {
++		if (rfpath >= rfpath_num)
++			break;
++
++		if (!pwr_info_2g)
++			continue;
++
++		/* 2.4G base */
++		for (ch_idx = 0; ch_idx < CENTER_CH_2G_NUM; ch_idx++) {
++			u8 cck_group;
++
++			if (rtw_get_ch_group(ch_idx + 1, &group, &cck_group) != BAND_ON_2_4G)
++				continue;
++
++			hal_data->Index24G_CCK_Base[rfpath][ch_idx] = pwr_info_2g->IndexCCK_Base[rfpath][cck_group];
++			hal_data->Index24G_BW40_Base[rfpath][ch_idx] = pwr_info_2g->IndexBW40_Base[rfpath][group];
++		}
++
++		/* 2.4G diff */
++		for (tx_idx = 0; tx_idx < MAX_TX_COUNT; tx_idx++) {
++			if (tx_idx >= max_tx_cnt)
++				break;
++
++			hal_data->CCK_24G_Diff[rfpath][tx_idx] = pwr_info_2g->CCK_Diff[rfpath][tx_idx];
++			hal_data->OFDM_24G_Diff[rfpath][tx_idx] = pwr_info_2g->OFDM_Diff[rfpath][tx_idx];
++			hal_data->BW20_24G_Diff[rfpath][tx_idx] = pwr_info_2g->BW20_Diff[rfpath][tx_idx];
++			hal_data->BW40_24G_Diff[rfpath][tx_idx] = pwr_info_2g->BW40_Diff[rfpath][tx_idx];
++		}
++
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++		if (!pwr_info_5g)
++			continue;
++
++		/* 5G base */
++		for (ch_idx = 0; ch_idx < CENTER_CH_5G_ALL_NUM; ch_idx++) {
++			if (rtw_get_ch_group(center_ch_5g_all[ch_idx], &group, NULL) != BAND_ON_5G)
++				continue;
++			hal_data->Index5G_BW40_Base[rfpath][ch_idx] = pwr_info_5g->IndexBW40_Base[rfpath][group];
++		}
++
++		for (ch_idx = 0 ; ch_idx < CENTER_CH_5G_80M_NUM; ch_idx++) {
++			u8 upper, lower;
++
++			if (rtw_get_ch_group(center_ch_5g_80m[ch_idx], &group, NULL) != BAND_ON_5G)
++				continue;
++
++			upper = pwr_info_5g->IndexBW40_Base[rfpath][group];
++			lower = pwr_info_5g->IndexBW40_Base[rfpath][group + 1];
++			hal_data->Index5G_BW80_Base[rfpath][ch_idx] = (upper + lower) / 2;
++		}
++
++		/* 5G diff */
++		for (tx_idx = 0; tx_idx < MAX_TX_COUNT; tx_idx++) {
++			if (tx_idx >= max_tx_cnt)
++				break;
++
++			hal_data->OFDM_5G_Diff[rfpath][tx_idx] = pwr_info_5g->OFDM_Diff[rfpath][tx_idx];
++			hal_data->BW20_5G_Diff[rfpath][tx_idx] = pwr_info_5g->BW20_Diff[rfpath][tx_idx];
++			hal_data->BW40_5G_Diff[rfpath][tx_idx] = pwr_info_5g->BW40_Diff[rfpath][tx_idx];
++			hal_data->BW80_5G_Diff[rfpath][tx_idx] = pwr_info_5g->BW80_Diff[rfpath][tx_idx];
++		}
++#endif /* CONFIG_IEEE80211_BAND_5GHZ */
++	}
++}
++
++void dump_hal_txpwr_info_2g(void *sel, _adapter *adapter, u8 rfpath_num, u8 max_tx_cnt)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	int path, ch_idx, tx_idx;
++
++	RTW_PRINT_SEL(sel, "2.4G\n");
++	RTW_PRINT_SEL(sel, "CCK-1T base:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (ch_idx = 0; ch_idx < CENTER_CH_2G_NUM; ch_idx++)
++		_RTW_PRINT_SEL(sel, "%2d ", center_ch_2g[ch_idx]);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (ch_idx = 0; ch_idx < CENTER_CH_2G_NUM; ch_idx++)
++			_RTW_PRINT_SEL(sel, "%2u ", hal_data->Index24G_CCK_Base[path][ch_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "CCK diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++		_RTW_PRINT_SEL(sel, "%dT ", tx_idx + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", hal_data->CCK_24G_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW40-1S base:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (ch_idx = 0; ch_idx < CENTER_CH_2G_NUM; ch_idx++)
++		_RTW_PRINT_SEL(sel, "%2d ", center_ch_2g[ch_idx]);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (ch_idx = 0; ch_idx < CENTER_CH_2G_NUM; ch_idx++)
++			_RTW_PRINT_SEL(sel, "%2u ", hal_data->Index24G_BW40_Base[path][ch_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "OFDM diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++		_RTW_PRINT_SEL(sel, "%dT ", tx_idx + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", hal_data->OFDM_24G_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW20 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++		_RTW_PRINT_SEL(sel, "%dS ", tx_idx + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", hal_data->BW20_24G_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW40 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++		_RTW_PRINT_SEL(sel, "%dS ", tx_idx + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", hal_data->BW40_24G_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++}
++
++void dump_hal_txpwr_info_5g(void *sel, _adapter *adapter, u8 rfpath_num, u8 max_tx_cnt)
++{
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	int path, ch_idx, tx_idx;
++	u8 dump_section = 0;
++	u8 ch_idx_s = 0;
++
++	RTW_PRINT_SEL(sel, "5G\n");
++	RTW_PRINT_SEL(sel, "BW40-1S base:\n");
++	do {
++		#define DUMP_5G_BW40_BASE_SECTION_NUM 3
++		u8 end[DUMP_5G_BW40_BASE_SECTION_NUM] = {64, 144, 177};
++
++		RTW_PRINT_SEL(sel, "%4s ", "");
++		for (ch_idx = ch_idx_s; ch_idx < CENTER_CH_5G_ALL_NUM; ch_idx++) {
++			_RTW_PRINT_SEL(sel, "%3d ", center_ch_5g_all[ch_idx]);
++			if (end[dump_section] == center_ch_5g_all[ch_idx])
++				break;
++		}
++		_RTW_PRINT_SEL(sel, "\n");
++		for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++			RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++			for (ch_idx = ch_idx_s; ch_idx < CENTER_CH_5G_ALL_NUM; ch_idx++) {
++				_RTW_PRINT_SEL(sel, "%3u ", hal_data->Index5G_BW40_Base[path][ch_idx]);
++				if (end[dump_section] == center_ch_5g_all[ch_idx])
++					break;
++			}
++			_RTW_PRINT_SEL(sel, "\n");
++		}
++		RTW_PRINT_SEL(sel, "\n");
++
++		ch_idx_s = ch_idx + 1;
++		dump_section++;
++		if (dump_section >= DUMP_5G_BW40_BASE_SECTION_NUM)
++			break;
++	} while (1);
++
++	RTW_PRINT_SEL(sel, "BW80-1S base:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (ch_idx = 0; ch_idx < CENTER_CH_5G_80M_NUM; ch_idx++)
++		_RTW_PRINT_SEL(sel, "%3d ", center_ch_5g_80m[ch_idx]);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (ch_idx = 0; ch_idx < CENTER_CH_5G_80M_NUM; ch_idx++)
++			_RTW_PRINT_SEL(sel, "%3u ", hal_data->Index5G_BW80_Base[path][ch_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "OFDM diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++		_RTW_PRINT_SEL(sel, "%dT ", tx_idx + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", hal_data->OFDM_5G_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW20 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++		_RTW_PRINT_SEL(sel, "%dS ", tx_idx + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", hal_data->BW20_5G_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW40 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++		_RTW_PRINT_SEL(sel, "%dS ", tx_idx + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", hal_data->BW40_5G_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++
++	RTW_PRINT_SEL(sel, "BW80 diff:\n");
++	RTW_PRINT_SEL(sel, "%4s ", "");
++	for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++		_RTW_PRINT_SEL(sel, "%dS ", tx_idx + 1);
++	_RTW_PRINT_SEL(sel, "\n");
++	for (path = 0; path < MAX_RF_PATH && path < rfpath_num; path++) {
++		RTW_PRINT_SEL(sel, "[%c]: ", rf_path_char(path));
++		for (tx_idx = RF_1TX; tx_idx < MAX_TX_COUNT && tx_idx < max_tx_cnt; tx_idx++)
++			_RTW_PRINT_SEL(sel, "%2d ", hal_data->BW80_5G_Diff[path][tx_idx]);
++		_RTW_PRINT_SEL(sel, "\n");
++	}
++	RTW_PRINT_SEL(sel, "\n");
++#endif /* CONFIG_IEEE80211_BAND_5GHZ */
++}
++
++/*
++* rtw_regsty_get_target_tx_power -
++*
++* Return dBm or -1 for undefined
++*/
++s8 rtw_regsty_get_target_tx_power(
++	IN	PADAPTER		Adapter,
++	IN	u8				Band,
++	IN	u8				RfPath,
++	IN	RATE_SECTION	RateSection
++)
++{
++	struct registry_priv *regsty = adapter_to_regsty(Adapter);
++	s8 value = 0;
++
++	if (RfPath > RF_PATH_D) {
++		RTW_PRINT("%s invalid RfPath:%d\n", __func__, RfPath);
++		return -1;
++	}
++
++	if (Band != BAND_ON_2_4G
++		#ifdef CONFIG_IEEE80211_BAND_5GHZ
++		&& Band != BAND_ON_5G
++		#endif
++	) {
++		RTW_PRINT("%s invalid Band:%d\n", __func__, Band);
++		return -1;
++	}
++
++	if (RateSection >= RATE_SECTION_NUM
++		#ifdef CONFIG_IEEE80211_BAND_5GHZ
++		|| (Band == BAND_ON_5G && RateSection == CCK)
++		#endif
++	) {
++		RTW_PRINT("%s invalid RateSection:%d in Band:%d, RfPath:%d\n", __func__
++			, RateSection, Band, RfPath);
++		return -1;
++	}
++
++	if (Band == BAND_ON_2_4G)
++		value = regsty->target_tx_pwr_2g[RfPath][RateSection];
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	else /* BAND_ON_5G */
++		value = regsty->target_tx_pwr_5g[RfPath][RateSection - 1];
++#endif
++
++	return value;
++}
++
++bool rtw_regsty_chk_target_tx_power_valid(_adapter *adapter)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	int path, tx_num, band, rs;
++	s8 target;
++
++	for (band = BAND_ON_2_4G; band <= BAND_ON_5G; band++) {
++		if (!hal_is_band_support(adapter, band))
++			continue;
++
++		for (path = 0; path < RF_PATH_MAX; path++) {
++			if (path >= hal_data->NumTotalRFPath)
++				break;
++
++			for (rs = 0; rs < RATE_SECTION_NUM; rs++) {
++				tx_num = rate_section_to_tx_num(rs);
++				if (tx_num >= hal_spec->nss_num)
++					continue;
++
++				if (band == BAND_ON_5G && IS_CCK_RATE_SECTION(rs))
++					continue;
++
++				if (IS_VHT_RATE_SECTION(rs) && !IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(adapter))
++					continue;
++
++				target = rtw_regsty_get_target_tx_power(adapter, band, path, rs);
++				if (target == -1) {
++					RTW_PRINT("%s return _FALSE for band:%d, path:%d, rs:%d, t:%d\n", __func__, band, path, rs, target);
++					return _FALSE;
++				}
++			}
++		}
++	}
++
++	return _TRUE;
++}
++
++/*
++* PHY_GetTxPowerByRateBase -
++*
++* Return 2 times of dBm
++*/
++u8
++PHY_GetTxPowerByRateBase(
++	IN	PADAPTER		Adapter,
++	IN	u8				Band,
++	IN	u8				RfPath,
++	IN	u8				TxNum,
++	IN	RATE_SECTION	RateSection
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	u8 value = 0;
++
++	if (RfPath > RF_PATH_D) {
++		RTW_PRINT("%s invalid RfPath:%d\n", __func__, RfPath);
++		return 0;
++	}
++
++	if (Band != BAND_ON_2_4G && Band != BAND_ON_5G) {
++		RTW_PRINT("%s invalid Band:%d\n", __func__, Band);
++		return 0;
++	}
++
++	if (RateSection >= RATE_SECTION_NUM
++		|| (Band == BAND_ON_5G && RateSection == CCK)
++	) {
++		RTW_PRINT("%s invalid RateSection:%d in Band:%d, RfPath:%d, TxNum:%d\n", __func__
++			, RateSection, Band, RfPath, TxNum);
++		return 0;
++	}
++
++	if (Band == BAND_ON_2_4G)
++		value = pHalData->TxPwrByRateBase2_4G[RfPath][TxNum][RateSection];
++	else /* BAND_ON_5G */
++		value = pHalData->TxPwrByRateBase5G[RfPath][TxNum][RateSection - 1];
++
++	return value;
++}
++
++VOID
++phy_SetTxPowerByRateBase(
++	IN	PADAPTER		Adapter,
++	IN	u8				Band,
++	IN	u8				RfPath,
++	IN	RATE_SECTION	RateSection,
++	IN	u8				TxNum,
++	IN	u8				Value
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++
++	if (RfPath > RF_PATH_D) {
++		RTW_PRINT("%s invalid RfPath:%d\n", __func__, RfPath);
++		return;
++	}
++
++	if (Band != BAND_ON_2_4G && Band != BAND_ON_5G) {
++		RTW_PRINT("%s invalid Band:%d\n", __func__, Band);
++		return;
++	}
++
++	if (RateSection >= RATE_SECTION_NUM
++		|| (Band == BAND_ON_5G && RateSection == CCK)
++	) {
++		RTW_PRINT("%s invalid RateSection:%d in %sG, RfPath:%d, TxNum:%d\n", __func__
++			, RateSection, (Band == BAND_ON_2_4G) ? "2.4" : "5", RfPath, TxNum);
++		return;
++	}
++
++	if (Band == BAND_ON_2_4G)
++		pHalData->TxPwrByRateBase2_4G[RfPath][TxNum][RateSection] = Value;
++	else /* BAND_ON_5G */
++		pHalData->TxPwrByRateBase5G[RfPath][TxNum][RateSection - 1] = Value;
++}
++
++VOID
++phy_StoreTxPowerByRateBase(
++	IN	PADAPTER	pAdapter
++)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(pAdapter);
++	struct registry_priv *regsty = adapter_to_regsty(pAdapter);
++
++	u8 rate_sec_base[RATE_SECTION_NUM] = {
++		MGN_11M,
++		MGN_54M,
++		MGN_MCS7,
++		MGN_MCS15,
++		MGN_MCS23,
++		MGN_MCS31,
++		MGN_VHT1SS_MCS7,
++		MGN_VHT2SS_MCS7,
++		MGN_VHT3SS_MCS7,
++		MGN_VHT4SS_MCS7,
++	};
++
++	u8 band, path, rs, tx_num, base, index;
++
++	for (band = BAND_ON_2_4G; band <= BAND_ON_5G; band++) {
++		if (!hal_is_band_support(pAdapter, band))
++			continue;
++
++		for (path = RF_PATH_A; path < RF_PATH_MAX; path++) {
++			/* TODO: 8814A's NumTotalRFPath differs at probe(3) and up(4), need fixed
++			if (path >= hal_data->NumTotalRFPath)
++				break;
++			*/
++
++			for (rs = 0; rs < RATE_SECTION_NUM; rs++) {
++				tx_num = rate_section_to_tx_num(rs);
++				if (tx_num >= hal_spec->nss_num)
++					continue;
++
++				if (band == BAND_ON_5G && IS_CCK_RATE_SECTION(rs))
++					continue;
++
++				if (IS_VHT_RATE_SECTION(rs) && !IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(pAdapter))
++					continue;
++
++				if (regsty->target_tx_pwr_valid == _TRUE)
++					base = 2 * rtw_regsty_get_target_tx_power(pAdapter, band, path, rs);
++				else
++					base = _PHY_GetTxPowerByRate(pAdapter, band, path, tx_num, rate_sec_base[rs]);
++				phy_SetTxPowerByRateBase(pAdapter, band, path, rs, tx_num, base);
++			}
++		}
++	}
++}
++
++VOID
++PHY_GetRateValuesOfTxPowerByRate(
++	IN	PADAPTER pAdapter,
++	IN	u32 RegAddr,
++	IN	u32 BitMask,
++	IN	u32 Value,
++	OUT	u8 *Rate,
++	OUT	s8 *PwrByRateVal,
++	OUT	u8 *RateNum
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	u8				index = 0, i = 0;
++
++	switch (RegAddr) {
++	case rTxAGC_A_Rate18_06:
++	case rTxAGC_B_Rate18_06:
++		Rate[0] = MGN_6M;
++		Rate[1] = MGN_9M;
++		Rate[2] = MGN_12M;
++		Rate[3] = MGN_18M;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case rTxAGC_A_Rate54_24:
++	case rTxAGC_B_Rate54_24:
++		Rate[0] = MGN_24M;
++		Rate[1] = MGN_36M;
++		Rate[2] = MGN_48M;
++		Rate[3] = MGN_54M;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case rTxAGC_A_CCK1_Mcs32:
++		Rate[0] = MGN_1M;
++		PwrByRateVal[0] = (s8)((((Value >> (8 + 4)) & 0xF)) * 10 +
++				       ((Value >> 8) & 0xF));
++		*RateNum = 1;
++		break;
++
++	case rTxAGC_B_CCK11_A_CCK2_11:
++		if (BitMask == 0xffffff00) {
++			Rate[0] = MGN_2M;
++			Rate[1] = MGN_5_5M;
++			Rate[2] = MGN_11M;
++			for (i = 1; i < 4; ++i) {
++				PwrByRateVal[i - 1] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++						   ((Value >> (i * 8)) & 0xF));
++			}
++			*RateNum = 3;
++		} else if (BitMask == 0x000000ff) {
++			Rate[0] = MGN_11M;
++			PwrByRateVal[0] = (s8)((((Value >> 4) & 0xF)) * 10 +
++					       (Value & 0xF));
++			*RateNum = 1;
++		}
++		break;
++
++	case rTxAGC_A_Mcs03_Mcs00:
++	case rTxAGC_B_Mcs03_Mcs00:
++		Rate[0] = MGN_MCS0;
++		Rate[1] = MGN_MCS1;
++		Rate[2] = MGN_MCS2;
++		Rate[3] = MGN_MCS3;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case rTxAGC_A_Mcs07_Mcs04:
++	case rTxAGC_B_Mcs07_Mcs04:
++		Rate[0] = MGN_MCS4;
++		Rate[1] = MGN_MCS5;
++		Rate[2] = MGN_MCS6;
++		Rate[3] = MGN_MCS7;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case rTxAGC_A_Mcs11_Mcs08:
++	case rTxAGC_B_Mcs11_Mcs08:
++		Rate[0] = MGN_MCS8;
++		Rate[1] = MGN_MCS9;
++		Rate[2] = MGN_MCS10;
++		Rate[3] = MGN_MCS11;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case rTxAGC_A_Mcs15_Mcs12:
++	case rTxAGC_B_Mcs15_Mcs12:
++		Rate[0] = MGN_MCS12;
++		Rate[1] = MGN_MCS13;
++		Rate[2] = MGN_MCS14;
++		Rate[3] = MGN_MCS15;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++
++		break;
++
++	case rTxAGC_B_CCK1_55_Mcs32:
++		Rate[0] = MGN_1M;
++		Rate[1] = MGN_2M;
++		Rate[2] = MGN_5_5M;
++		for (i = 1; i < 4; ++i) {
++			PwrByRateVal[i - 1] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++						   ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 3;
++		break;
++
++	case 0xC20:
++	case 0xE20:
++	case 0x1820:
++	case 0x1a20:
++		Rate[0] = MGN_1M;
++		Rate[1] = MGN_2M;
++		Rate[2] = MGN_5_5M;
++		Rate[3] = MGN_11M;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC24:
++	case 0xE24:
++	case 0x1824:
++	case 0x1a24:
++		Rate[0] = MGN_6M;
++		Rate[1] = MGN_9M;
++		Rate[2] = MGN_12M;
++		Rate[3] = MGN_18M;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC28:
++	case 0xE28:
++	case 0x1828:
++	case 0x1a28:
++		Rate[0] = MGN_24M;
++		Rate[1] = MGN_36M;
++		Rate[2] = MGN_48M;
++		Rate[3] = MGN_54M;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC2C:
++	case 0xE2C:
++	case 0x182C:
++	case 0x1a2C:
++		Rate[0] = MGN_MCS0;
++		Rate[1] = MGN_MCS1;
++		Rate[2] = MGN_MCS2;
++		Rate[3] = MGN_MCS3;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC30:
++	case 0xE30:
++	case 0x1830:
++	case 0x1a30:
++		Rate[0] = MGN_MCS4;
++		Rate[1] = MGN_MCS5;
++		Rate[2] = MGN_MCS6;
++		Rate[3] = MGN_MCS7;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC34:
++	case 0xE34:
++	case 0x1834:
++	case 0x1a34:
++		Rate[0] = MGN_MCS8;
++		Rate[1] = MGN_MCS9;
++		Rate[2] = MGN_MCS10;
++		Rate[3] = MGN_MCS11;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC38:
++	case 0xE38:
++	case 0x1838:
++	case 0x1a38:
++		Rate[0] = MGN_MCS12;
++		Rate[1] = MGN_MCS13;
++		Rate[2] = MGN_MCS14;
++		Rate[3] = MGN_MCS15;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC3C:
++	case 0xE3C:
++	case 0x183C:
++	case 0x1a3C:
++		Rate[0] = MGN_VHT1SS_MCS0;
++		Rate[1] = MGN_VHT1SS_MCS1;
++		Rate[2] = MGN_VHT1SS_MCS2;
++		Rate[3] = MGN_VHT1SS_MCS3;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC40:
++	case 0xE40:
++	case 0x1840:
++	case 0x1a40:
++		Rate[0] = MGN_VHT1SS_MCS4;
++		Rate[1] = MGN_VHT1SS_MCS5;
++		Rate[2] = MGN_VHT1SS_MCS6;
++		Rate[3] = MGN_VHT1SS_MCS7;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC44:
++	case 0xE44:
++	case 0x1844:
++	case 0x1a44:
++		Rate[0] = MGN_VHT1SS_MCS8;
++		Rate[1] = MGN_VHT1SS_MCS9;
++		Rate[2] = MGN_VHT2SS_MCS0;
++		Rate[3] = MGN_VHT2SS_MCS1;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC48:
++	case 0xE48:
++	case 0x1848:
++	case 0x1a48:
++		Rate[0] = MGN_VHT2SS_MCS2;
++		Rate[1] = MGN_VHT2SS_MCS3;
++		Rate[2] = MGN_VHT2SS_MCS4;
++		Rate[3] = MGN_VHT2SS_MCS5;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xC4C:
++	case 0xE4C:
++	case 0x184C:
++	case 0x1a4C:
++		Rate[0] = MGN_VHT2SS_MCS6;
++		Rate[1] = MGN_VHT2SS_MCS7;
++		Rate[2] = MGN_VHT2SS_MCS8;
++		Rate[3] = MGN_VHT2SS_MCS9;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xCD8:
++	case 0xED8:
++	case 0x18D8:
++	case 0x1aD8:
++		Rate[0] = MGN_MCS16;
++		Rate[1] = MGN_MCS17;
++		Rate[2] = MGN_MCS18;
++		Rate[3] = MGN_MCS19;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xCDC:
++	case 0xEDC:
++	case 0x18DC:
++	case 0x1aDC:
++		Rate[0] = MGN_MCS20;
++		Rate[1] = MGN_MCS21;
++		Rate[2] = MGN_MCS22;
++		Rate[3] = MGN_MCS23;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xCE0:
++	case 0xEE0:
++	case 0x18E0:
++	case 0x1aE0:
++		Rate[0] = MGN_VHT3SS_MCS0;
++		Rate[1] = MGN_VHT3SS_MCS1;
++		Rate[2] = MGN_VHT3SS_MCS2;
++		Rate[3] = MGN_VHT3SS_MCS3;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xCE4:
++	case 0xEE4:
++	case 0x18E4:
++	case 0x1aE4:
++		Rate[0] = MGN_VHT3SS_MCS4;
++		Rate[1] = MGN_VHT3SS_MCS5;
++		Rate[2] = MGN_VHT3SS_MCS6;
++		Rate[3] = MGN_VHT3SS_MCS7;
++		for (i = 0; i < 4; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 4;
++		break;
++
++	case 0xCE8:
++	case 0xEE8:
++	case 0x18E8:
++	case 0x1aE8:
++		Rate[0] = MGN_VHT3SS_MCS8;
++		Rate[1] = MGN_VHT3SS_MCS9;
++		for (i = 0; i < 2; ++i) {
++			PwrByRateVal[i] = (s8)((((Value >> (i * 8 + 4)) & 0xF)) * 10 +
++					       ((Value >> (i * 8)) & 0xF));
++		}
++		*RateNum = 2;
++		break;
++
++	default:
++		RTW_PRINT("Invalid RegAddr 0x%x in %s()\n", RegAddr, __func__);
++		break;
++	};
++}
++
++void
++PHY_StoreTxPowerByRateNew(
++	IN	PADAPTER	pAdapter,
++	IN	u32			Band,
++	IN	u32			RfPath,
++	IN	u32			TxNum,
++	IN	u32			RegAddr,
++	IN	u32			BitMask,
++	IN	u32			Data
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++	u8	i = 0, rates[4] = {0}, rateNum = 0;
++	s8	PwrByRateVal[4] = {0};
++
++	PHY_GetRateValuesOfTxPowerByRate(pAdapter, RegAddr, BitMask, Data, rates, PwrByRateVal, &rateNum);
++
++	if (Band != BAND_ON_2_4G && Band != BAND_ON_5G) {
++		RTW_PRINT("Invalid Band %d\n", Band);
++		return;
++	}
++
++	if (RfPath > ODM_RF_PATH_D) {
++		RTW_PRINT("Invalid RfPath %d\n", RfPath);
++		return;
++	}
++
++	if (TxNum > ODM_RF_PATH_D) {
++		RTW_PRINT("Invalid TxNum %d\n", TxNum);
++		return;
++	}
++
++	for (i = 0; i < rateNum; ++i) {
++		u8 rate_idx = PHY_GetRateIndexOfTxPowerByRate(rates[i]);
++
++		if (IS_1T_RATE(rates[i]))
++			pHalData->TxPwrByRateOffset[Band][RfPath][RF_1TX][rate_idx] = PwrByRateVal[i];
++		else if (IS_2T_RATE(rates[i]))
++			pHalData->TxPwrByRateOffset[Band][RfPath][RF_2TX][rate_idx] = PwrByRateVal[i];
++		else if (IS_3T_RATE(rates[i]))
++			pHalData->TxPwrByRateOffset[Band][RfPath][RF_3TX][rate_idx] = PwrByRateVal[i];
++		else if (IS_4T_RATE(rates[i]))
++			pHalData->TxPwrByRateOffset[Band][RfPath][RF_4TX][rate_idx] = PwrByRateVal[i];
++		else
++			rtw_warn_on(1);
++	}
++}
++
++VOID
++PHY_InitTxPowerByRate(
++	IN	PADAPTER	pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u8	band = 0, rfPath = 0, TxNum = 0, rate = 0, i = 0, j = 0;
++
++	for (band = BAND_ON_2_4G; band <= BAND_ON_5G; ++band)
++		for (rfPath = 0; rfPath < TX_PWR_BY_RATE_NUM_RF; ++rfPath)
++			for (TxNum = 0; TxNum < TX_PWR_BY_RATE_NUM_RF; ++TxNum)
++				for (rate = 0; rate < TX_PWR_BY_RATE_NUM_RATE; ++rate)
++					pHalData->TxPwrByRateOffset[band][rfPath][TxNum][rate] = 0;
++}
++
++VOID
++PHY_StoreTxPowerByRate(
++	IN	PADAPTER	pAdapter,
++	IN	u32			Band,
++	IN	u32			RfPath,
++	IN	u32			TxNum,
++	IN	u32			RegAddr,
++	IN	u32			BitMask,
++	IN	u32			Data
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++
++	if (pDM_Odm->PhyRegPgVersion > 0)
++		PHY_StoreTxPowerByRateNew(pAdapter, Band, RfPath, TxNum, RegAddr, BitMask, Data);
++	else
++		RTW_INFO("Invalid PHY_REG_PG.txt version %d\n",  pDM_Odm->PhyRegPgVersion);
++
++}
++
++VOID
++phy_ConvertTxPowerByRateInDbmToRelativeValues(
++	IN	PADAPTER	pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u8			base = 0, i = 0, value = 0,
++				band = 0, path = 0, txNum = 0, index = 0,
++				startIndex = 0, endIndex = 0;
++	u8	cckRates[4] = {MGN_1M, MGN_2M, MGN_5_5M, MGN_11M},
++		ofdmRates[8] = {MGN_6M, MGN_9M, MGN_12M, MGN_18M, MGN_24M, MGN_36M, MGN_48M, MGN_54M},
++		mcs0_7Rates[8] = {MGN_MCS0, MGN_MCS1, MGN_MCS2, MGN_MCS3, MGN_MCS4, MGN_MCS5, MGN_MCS6, MGN_MCS7},
++		mcs8_15Rates[8] = {MGN_MCS8, MGN_MCS9, MGN_MCS10, MGN_MCS11, MGN_MCS12, MGN_MCS13, MGN_MCS14, MGN_MCS15},
++		mcs16_23Rates[8] = {MGN_MCS16, MGN_MCS17, MGN_MCS18, MGN_MCS19, MGN_MCS20, MGN_MCS21, MGN_MCS22, MGN_MCS23},
++		vht1ssRates[10] = {MGN_VHT1SS_MCS0, MGN_VHT1SS_MCS1, MGN_VHT1SS_MCS2, MGN_VHT1SS_MCS3, MGN_VHT1SS_MCS4,
++			MGN_VHT1SS_MCS5, MGN_VHT1SS_MCS6, MGN_VHT1SS_MCS7, MGN_VHT1SS_MCS8, MGN_VHT1SS_MCS9},
++		vht2ssRates[10] = {MGN_VHT2SS_MCS0, MGN_VHT2SS_MCS1, MGN_VHT2SS_MCS2, MGN_VHT2SS_MCS3, MGN_VHT2SS_MCS4,
++			MGN_VHT2SS_MCS5, MGN_VHT2SS_MCS6, MGN_VHT2SS_MCS7, MGN_VHT2SS_MCS8, MGN_VHT2SS_MCS9},
++		vht3ssRates[10] = {MGN_VHT3SS_MCS0, MGN_VHT3SS_MCS1, MGN_VHT3SS_MCS2, MGN_VHT3SS_MCS3, MGN_VHT3SS_MCS4,
++			MGN_VHT3SS_MCS5, MGN_VHT3SS_MCS6, MGN_VHT3SS_MCS7, MGN_VHT3SS_MCS8, MGN_VHT3SS_MCS9};
++
++	/* RTW_INFO("===>PHY_ConvertTxPowerByRateInDbmToRelativeValues()\n" ); */
++
++	for (band = BAND_ON_2_4G; band <= BAND_ON_5G; ++band) {
++		for (path = ODM_RF_PATH_A; path <= ODM_RF_PATH_D; ++path) {
++			for (txNum = RF_1TX; txNum < RF_MAX_TX_NUM; ++txNum) {
++				/* CCK */
++				if (band == BAND_ON_2_4G) {
++					base = PHY_GetTxPowerByRateBase(pAdapter, band, path, txNum, CCK);
++					for (i = 0; i < sizeof(cckRates); ++i) {
++						value = PHY_GetTxPowerByRate(pAdapter, band, path, txNum, cckRates[i]);
++						PHY_SetTxPowerByRate(pAdapter, band, path, txNum, cckRates[i], value - base);
++					}
++				}
++
++				/* OFDM */
++				base = PHY_GetTxPowerByRateBase(pAdapter, band, path, txNum, OFDM);
++				for (i = 0; i < sizeof(ofdmRates); ++i) {
++					value = PHY_GetTxPowerByRate(pAdapter, band, path, txNum, ofdmRates[i]);
++					PHY_SetTxPowerByRate(pAdapter, band, path, txNum, ofdmRates[i], value - base);
++				}
++
++				/* HT MCS0~7 */
++				base = PHY_GetTxPowerByRateBase(pAdapter, band, path, txNum, HT_1SS);
++				for (i = 0; i < sizeof(mcs0_7Rates); ++i) {
++					value = PHY_GetTxPowerByRate(pAdapter, band, path, txNum, mcs0_7Rates[i]);
++					PHY_SetTxPowerByRate(pAdapter, band, path, txNum, mcs0_7Rates[i], value - base);
++				}
++
++				/* HT MCS8~15 */
++				base = PHY_GetTxPowerByRateBase(pAdapter, band, path, txNum, HT_2SS);
++				for (i = 0; i < sizeof(mcs8_15Rates); ++i) {
++					value = PHY_GetTxPowerByRate(pAdapter, band, path, txNum, mcs8_15Rates[i]);
++					PHY_SetTxPowerByRate(pAdapter, band, path, txNum, mcs8_15Rates[i], value - base);
++				}
++
++				/* HT MCS16~23 */
++				base = PHY_GetTxPowerByRateBase(pAdapter, band, path, txNum, HT_3SS);
++				for (i = 0; i < sizeof(mcs16_23Rates); ++i) {
++					value = PHY_GetTxPowerByRate(pAdapter, band, path, txNum, mcs16_23Rates[i]);
++					PHY_SetTxPowerByRate(pAdapter, band, path, txNum, mcs16_23Rates[i], value - base);
++				}
++
++				/* VHT 1SS */
++				base = PHY_GetTxPowerByRateBase(pAdapter, band, path, txNum, VHT_1SS);
++				for (i = 0; i < sizeof(vht1ssRates); ++i) {
++					value = PHY_GetTxPowerByRate(pAdapter, band, path, txNum, vht1ssRates[i]);
++					PHY_SetTxPowerByRate(pAdapter, band, path, txNum, vht1ssRates[i], value - base);
++				}
++
++				/* VHT 2SS */
++				base = PHY_GetTxPowerByRateBase(pAdapter, band, path, txNum, VHT_2SS);
++				for (i = 0; i < sizeof(vht2ssRates); ++i) {
++					value = PHY_GetTxPowerByRate(pAdapter, band, path, txNum, vht2ssRates[i]);
++					PHY_SetTxPowerByRate(pAdapter, band, path, txNum, vht2ssRates[i], value - base);
++				}
++
++				/* VHT 3SS */
++				base = PHY_GetTxPowerByRateBase(pAdapter, band, path, txNum, VHT_3SS);
++				for (i = 0; i < sizeof(vht3ssRates); ++i) {
++					value = PHY_GetTxPowerByRate(pAdapter, band, path, txNum, vht3ssRates[i]);
++					PHY_SetTxPowerByRate(pAdapter, band, path, txNum, vht3ssRates[i], value - base);
++				}
++			}
++		}
++	}
++
++	/* RTW_INFO("<===PHY_ConvertTxPowerByRateInDbmToRelativeValues()\n" ); */
++}
++
++/*
++  * This function must be called if the value in the PHY_REG_PG.txt(or header)
++  * is exact dBm values
++  */
++VOID
++PHY_TxPowerByRateConfiguration(
++	IN  PADAPTER			pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	phy_StoreTxPowerByRateBase(pAdapter);
++	phy_ConvertTxPowerByRateInDbmToRelativeValues(pAdapter);
++}
++
++VOID
++PHY_SetTxPowerIndexByRateSection(
++	IN	PADAPTER		pAdapter,
++	IN	u8				RFPath,
++	IN	u8				Channel,
++	IN	u8				RateSection
++)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(pAdapter);
++
++	if (RateSection >= RATE_SECTION_NUM) {
++		RTW_INFO("Invalid RateSection %d in %s", RateSection, __func__);
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (RateSection == CCK && pHalData->CurrentBandType != BAND_ON_2_4G)
++		goto exit;
++
++	PHY_SetTxPowerIndexByRateArray(pAdapter, RFPath, pHalData->CurrentChannelBW, Channel,
++		rates_by_sections[RateSection].rates, rates_by_sections[RateSection].rate_num);
++
++exit:
++	return;
++}
++
++BOOLEAN
++phy_GetChnlIndex(
++	IN	u8	Channel,
++	OUT u8	*ChannelIdx
++)
++{
++	u8  i = 0;
++	BOOLEAN bIn24G = _TRUE;
++
++	if (Channel <= 14) {
++		bIn24G = _TRUE;
++		*ChannelIdx = Channel - 1;
++	} else {
++		bIn24G = _FALSE;
++
++		for (i = 0; i < CENTER_CH_5G_ALL_NUM; ++i) {
++			if (center_ch_5g_all[i] == Channel) {
++				*ChannelIdx = i;
++				return bIn24G;
++			}
++		}
++	}
++
++	return bIn24G;
++}
++
++u8
++PHY_GetTxPowerIndexBase(
++	IN	PADAPTER		pAdapter,
++	IN	u8				RFPath,
++	IN	u8				Rate,
++	IN	CHANNEL_WIDTH	BandWidth,
++	IN	u8				Channel,
++	OUT PBOOLEAN		bIn24G
++)
++{
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T			pDM_Odm = &pHalData->odmpriv;
++	u8					i = 0;	/* default set to 1S */
++	u8					txPower = 0;
++	u8					chnlIdx = (Channel - 1);
++
++	if (HAL_IsLegalChannel(pAdapter, Channel) == _FALSE) {
++		chnlIdx = 0;
++		RTW_INFO("Illegal channel!!\n");
++	}
++
++	*bIn24G = phy_GetChnlIndex(Channel, &chnlIdx);
++
++	/* RTW_INFO("[%s] Channel Index: %d\n", (*bIn24G?"2.4G":"5G"), chnlIdx); */
++
++	if (*bIn24G) { /* 3 ============================== 2.4 G ============================== */
++		if (IS_CCK_RATE(Rate))
++			txPower = pHalData->Index24G_CCK_Base[RFPath][chnlIdx];
++		else if (MGN_6M <= Rate)
++			txPower = pHalData->Index24G_BW40_Base[RFPath][chnlIdx];
++		else
++			RTW_INFO("PHY_GetTxPowerIndexBase: INVALID Rate.\n");
++
++		/* RTW_INFO("Base Tx power(RF-%c, Rate #%d, Channel Index %d) = 0x%X\n",  */
++		/*		((RFPath==0)?'A':'B'), Rate, chnlIdx, txPower); */
++
++		/* OFDM-1T */
++		if ((MGN_6M <= Rate && Rate <= MGN_54M) && !IS_CCK_RATE(Rate)) {
++			txPower += pHalData->OFDM_24G_Diff[RFPath][TX_1S];
++			/* RTW_INFO("+PowerDiff 2.4G (RF-%c): (OFDM-1T) = (%d)\n", ((RFPath==0)?'A':'B'), pHalData->OFDM_24G_Diff[RFPath][TX_1S]); */
++		}
++		/* BW20-1S, BW20-2S */
++		if (BandWidth == CHANNEL_WIDTH_20) {
++			if ((MGN_MCS0 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT1SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW20_24G_Diff[RFPath][TX_1S];
++			if ((MGN_MCS8 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT2SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW20_24G_Diff[RFPath][TX_2S];
++			if ((MGN_MCS16 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT3SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW20_24G_Diff[RFPath][TX_3S];
++			if ((MGN_MCS24 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT4SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW20_24G_Diff[RFPath][TX_4S];
++
++			/* RTW_INFO("+PowerDiff 2.4G (RF-%c): (BW20-1S, BW20-2S, BW20-3S, BW20-4S) = (%d, %d, %d, %d)\n", ((RFPath==0)?'A':(RFPath==1)?'B':(RFPath==2)?'C':'D'),  */
++			/*	pHalData->BW20_24G_Diff[RFPath][TX_1S], pHalData->BW20_24G_Diff[RFPath][TX_2S],  */
++			/*	pHalData->BW20_24G_Diff[RFPath][TX_3S], pHalData->BW20_24G_Diff[RFPath][TX_4S]); */
++		}
++		/* BW40-1S, BW40-2S */
++		else if (BandWidth == CHANNEL_WIDTH_40) {
++			if ((MGN_MCS0 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT1SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_24G_Diff[RFPath][TX_1S];
++			if ((MGN_MCS8 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT2SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_24G_Diff[RFPath][TX_2S];
++			if ((MGN_MCS16 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT3SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_24G_Diff[RFPath][TX_3S];
++			if ((MGN_MCS24 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT4SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_24G_Diff[RFPath][TX_4S];
++
++			/* RTW_INFO("+PowerDiff 2.4G (RF-%c): (BW40-1S, BW40-2S, BW40-3S, BW40-4S) = (%d, %d, %d, %d)\n", ((RFPath==0)?'A':(RFPath==1)?'B':(RFPath==2)?'C':'D'),  */
++			/*	pHalData->BW40_24G_Diff[RFPath][TX_1S], pHalData->BW40_24G_Diff[RFPath][TX_2S], */
++			/*	pHalData->BW40_24G_Diff[RFPath][TX_3S], pHalData->BW40_24G_Diff[RFPath][TX_4S]); */
++		}
++		/* Willis suggest adopt BW 40M power index while in BW 80 mode */
++		else if (BandWidth == CHANNEL_WIDTH_80) {
++			if ((MGN_MCS0 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT1SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_24G_Diff[RFPath][TX_1S];
++			if ((MGN_MCS8 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT2SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_24G_Diff[RFPath][TX_2S];
++			if ((MGN_MCS16 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT3SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_24G_Diff[RFPath][TX_3S];
++			if ((MGN_MCS24 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT4SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_24G_Diff[RFPath][TX_4S];
++
++			/* RTW_INFO("+PowerDiff 2.4G (RF-%c): (BW40-1S, BW40-2S, BW40-3S, BW40-4T) = (%d, %d, %d, %d) P.S. Current is in BW 80MHz\n", ((RFPath==0)?'A':(RFPath==1)?'B':(RFPath==2)?'C':'D'),  */
++			/*	pHalData->BW40_24G_Diff[RFPath][TX_1S], pHalData->BW40_24G_Diff[RFPath][TX_2S], */
++			/*	pHalData->BW40_24G_Diff[RFPath][TX_3S], pHalData->BW40_24G_Diff[RFPath][TX_4S]); */
++		}
++	}
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	else { /* 3 ============================== 5 G ============================== */
++		if (MGN_6M <= Rate)
++			txPower = pHalData->Index5G_BW40_Base[RFPath][chnlIdx];
++		else
++			RTW_INFO("===> mpt_ProQueryCalTxPower_Jaguar: INVALID Rate.\n");
++
++		/* RTW_INFO("Base Tx power(RF-%c, Rate #%d, Channel Index %d) = 0x%X\n",  */
++		/*	((RFPath==0)?'A':'B'), Rate, chnlIdx, txPower); */
++
++		/* OFDM-1T */
++		if ((MGN_6M <= Rate && Rate <= MGN_54M) && !IS_CCK_RATE(Rate)) {
++			txPower += pHalData->OFDM_5G_Diff[RFPath][TX_1S];
++			/* RTW_INFO("+PowerDiff 5G (RF-%c): (OFDM-1T) = (%d)\n", ((RFPath==0)?'A':'B'), pHalData->OFDM_5G_Diff[RFPath][TX_1S]); */
++		}
++
++		/* BW20-1S, BW20-2S */
++		if (BandWidth == CHANNEL_WIDTH_20) {
++			if ((MGN_MCS0 <= Rate && Rate <= MGN_MCS31)  || (MGN_VHT1SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW20_5G_Diff[RFPath][TX_1S];
++			if ((MGN_MCS8 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT2SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW20_5G_Diff[RFPath][TX_2S];
++			if ((MGN_MCS16 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT3SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW20_5G_Diff[RFPath][TX_3S];
++			if ((MGN_MCS24 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT4SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW20_5G_Diff[RFPath][TX_4S];
++
++			/* RTW_INFO("+PowerDiff 5G (RF-%c): (BW20-1S, BW20-2S, BW20-3S, BW20-4S) = (%d, %d, %d, %d)\n", ((RFPath==0)?'A':(RFPath==1)?'B':(RFPath==2)?'C':'D'),  */
++			/*	pHalData->BW20_5G_Diff[RFPath][TX_1S], pHalData->BW20_5G_Diff[RFPath][TX_2S], */
++			/*	pHalData->BW20_5G_Diff[RFPath][TX_3S], pHalData->BW20_5G_Diff[RFPath][TX_4S]); */
++		}
++		/* BW40-1S, BW40-2S */
++		else if (BandWidth == CHANNEL_WIDTH_40) {
++			if ((MGN_MCS0 <= Rate && Rate <= MGN_MCS31)  || (MGN_VHT1SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_5G_Diff[RFPath][TX_1S];
++			if ((MGN_MCS8 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT2SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_5G_Diff[RFPath][TX_2S];
++			if ((MGN_MCS16 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT3SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_5G_Diff[RFPath][TX_3S];
++			if ((MGN_MCS24 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT4SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW40_5G_Diff[RFPath][TX_4S];
++
++			/* RTW_INFO("+PowerDiff 5G(RF-%c): (BW40-1S, BW40-2S) = (%d, %d, %d, %d)\n", ((RFPath==0)?'A':(RFPath==1)?'B':(RFPath==2)?'C':'D'),  */
++			/*	pHalData->BW40_5G_Diff[RFPath][TX_1S], pHalData->BW40_5G_Diff[RFPath][TX_2S], */
++			/*	pHalData->BW40_5G_Diff[RFPath][TX_3S], pHalData->BW40_5G_Diff[RFPath][TX_4S]); */
++		}
++		/* BW80-1S, BW80-2S */
++		else if (BandWidth == CHANNEL_WIDTH_80) {
++			/* <20121220, Kordan> Get the index of array "Index5G_BW80_Base". */
++			for (i = 0; i < CENTER_CH_5G_80M_NUM; ++i)
++				if (center_ch_5g_80m[i] == Channel)
++					chnlIdx = i;
++
++			txPower = pHalData->Index5G_BW80_Base[RFPath][chnlIdx];
++
++			if ((MGN_MCS0 <= Rate && Rate <= MGN_MCS31)  || (MGN_VHT1SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += + pHalData->BW80_5G_Diff[RFPath][TX_1S];
++			if ((MGN_MCS8 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT2SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW80_5G_Diff[RFPath][TX_2S];
++			if ((MGN_MCS16 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT3SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW80_5G_Diff[RFPath][TX_3S];
++			if ((MGN_MCS23 <= Rate && Rate <= MGN_MCS31) || (MGN_VHT4SS_MCS0 <= Rate && Rate <= MGN_VHT4SS_MCS9))
++				txPower += pHalData->BW80_5G_Diff[RFPath][TX_4S];
++
++			/* RTW_INFO("+PowerDiff 5G(RF-%c): (BW80-1S, BW80-2S, BW80-3S, BW80-4S) = (%d, %d, %d, %d)\n",((RFPath==0)?'A':(RFPath==1)?'B':(RFPath==2)?'C':'D'),  */
++			/*	pHalData->BW80_5G_Diff[RFPath][TX_1S], pHalData->BW80_5G_Diff[RFPath][TX_2S], */
++			/*	pHalData->BW80_5G_Diff[RFPath][TX_3S], pHalData->BW80_5G_Diff[RFPath][TX_4S]); */
++		}
++	}
++#endif /* CONFIG_IEEE80211_BAND_5GHZ */
++
++	return txPower;
++}
++
++s8
++PHY_GetTxPowerTrackingOffset(
++	PADAPTER	pAdapter,
++	u8			RFPath,
++	u8			Rate
++)
++{
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T			pDM_Odm = &pHalData->odmpriv;
++	s8	offset = 0;
++
++	if (pDM_Odm->RFCalibrateInfo.TxPowerTrackControl  == _FALSE)
++		return offset;
++
++	if ((Rate == MGN_1M) || (Rate == MGN_2M) || (Rate == MGN_5_5M) || (Rate == MGN_11M)) {
++		offset = pDM_Odm->RFCalibrateInfo.Remnant_CCKSwingIdx;
++		/*RTW_INFO("+Remnant_CCKSwingIdx = 0x%x\n", RFPath, Rate, pRFCalibrateInfo->Remnant_CCKSwingIdx);*/
++	} else {
++		offset = pDM_Odm->RFCalibrateInfo.Remnant_OFDMSwingIdx[RFPath];
++		/*RTW_INFO("+Remanant_OFDMSwingIdx[RFPath %u][Rate 0x%x] = 0x%x\n", RFPath, Rate, pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath]);	*/
++
++	}
++
++	return offset;
++}
++
++/*The same as MRateToHwRate in hal_com.c*/
++u8
++PHY_GetRateIndexOfTxPowerByRate(
++	IN	u8		Rate
++)
++{
++	u8	index = 0;
++	switch (Rate) {
++	case MGN_1M:
++		index = 0;
++		break;
++	case MGN_2M:
++		index = 1;
++		break;
++	case MGN_5_5M:
++		index = 2;
++		break;
++	case MGN_11M:
++		index = 3;
++		break;
++	case MGN_6M:
++		index = 4;
++		break;
++	case MGN_9M:
++		index = 5;
++		break;
++	case MGN_12M:
++		index = 6;
++		break;
++	case MGN_18M:
++		index = 7;
++		break;
++	case MGN_24M:
++		index = 8;
++		break;
++	case MGN_36M:
++		index = 9;
++		break;
++	case MGN_48M:
++		index = 10;
++		break;
++	case MGN_54M:
++		index = 11;
++		break;
++	case MGN_MCS0:
++		index = 12;
++		break;
++	case MGN_MCS1:
++		index = 13;
++		break;
++	case MGN_MCS2:
++		index = 14;
++		break;
++	case MGN_MCS3:
++		index = 15;
++		break;
++	case MGN_MCS4:
++		index = 16;
++		break;
++	case MGN_MCS5:
++		index = 17;
++		break;
++	case MGN_MCS6:
++		index = 18;
++		break;
++	case MGN_MCS7:
++		index = 19;
++		break;
++	case MGN_MCS8:
++		index = 20;
++		break;
++	case MGN_MCS9:
++		index = 21;
++		break;
++	case MGN_MCS10:
++		index = 22;
++		break;
++	case MGN_MCS11:
++		index = 23;
++		break;
++	case MGN_MCS12:
++		index = 24;
++		break;
++	case MGN_MCS13:
++		index = 25;
++		break;
++	case MGN_MCS14:
++		index = 26;
++		break;
++	case MGN_MCS15:
++		index = 27;
++		break;
++	case MGN_MCS16:
++		index = 28;
++		break;
++	case MGN_MCS17:
++		index = 29;
++		break;
++	case MGN_MCS18:
++		index = 30;
++		break;
++	case MGN_MCS19:
++		index = 31;
++		break;
++	case MGN_MCS20:
++		index = 32;
++		break;
++	case MGN_MCS21:
++		index = 33;
++		break;
++	case MGN_MCS22:
++		index = 34;
++		break;
++	case MGN_MCS23:
++		index = 35;
++		break;
++	case MGN_MCS24:
++		index = 36;
++		break;
++	case MGN_MCS25:
++		index = 37;
++		break;
++	case MGN_MCS26:
++		index = 38;
++		break;
++	case MGN_MCS27:
++		index = 39;
++		break;
++	case MGN_MCS28:
++		index = 40;
++		break;
++	case MGN_MCS29:
++		index = 41;
++		break;
++	case MGN_MCS30:
++		index = 42;
++		break;
++	case MGN_MCS31:
++		index = 43;
++		break;
++	case MGN_VHT1SS_MCS0:
++		index = 44;
++		break;
++	case MGN_VHT1SS_MCS1:
++		index = 45;
++		break;
++	case MGN_VHT1SS_MCS2:
++		index = 46;
++		break;
++	case MGN_VHT1SS_MCS3:
++		index = 47;
++		break;
++	case MGN_VHT1SS_MCS4:
++		index = 48;
++		break;
++	case MGN_VHT1SS_MCS5:
++		index = 49;
++		break;
++	case MGN_VHT1SS_MCS6:
++		index = 50;
++		break;
++	case MGN_VHT1SS_MCS7:
++		index = 51;
++		break;
++	case MGN_VHT1SS_MCS8:
++		index = 52;
++		break;
++	case MGN_VHT1SS_MCS9:
++		index = 53;
++		break;
++	case MGN_VHT2SS_MCS0:
++		index = 54;
++		break;
++	case MGN_VHT2SS_MCS1:
++		index = 55;
++		break;
++	case MGN_VHT2SS_MCS2:
++		index = 56;
++		break;
++	case MGN_VHT2SS_MCS3:
++		index = 57;
++		break;
++	case MGN_VHT2SS_MCS4:
++		index = 58;
++		break;
++	case MGN_VHT2SS_MCS5:
++		index = 59;
++		break;
++	case MGN_VHT2SS_MCS6:
++		index = 60;
++		break;
++	case MGN_VHT2SS_MCS7:
++		index = 61;
++		break;
++	case MGN_VHT2SS_MCS8:
++		index = 62;
++		break;
++	case MGN_VHT2SS_MCS9:
++		index = 63;
++		break;
++	case MGN_VHT3SS_MCS0:
++		index = 64;
++		break;
++	case MGN_VHT3SS_MCS1:
++		index = 65;
++		break;
++	case MGN_VHT3SS_MCS2:
++		index = 66;
++		break;
++	case MGN_VHT3SS_MCS3:
++		index = 67;
++		break;
++	case MGN_VHT3SS_MCS4:
++		index = 68;
++		break;
++	case MGN_VHT3SS_MCS5:
++		index = 69;
++		break;
++	case MGN_VHT3SS_MCS6:
++		index = 70;
++		break;
++	case MGN_VHT3SS_MCS7:
++		index = 71;
++		break;
++	case MGN_VHT3SS_MCS8:
++		index = 72;
++		break;
++	case MGN_VHT3SS_MCS9:
++		index = 73;
++		break;
++	case MGN_VHT4SS_MCS0:
++		index = 74;
++		break;
++	case MGN_VHT4SS_MCS1:
++		index = 75;
++		break;
++	case MGN_VHT4SS_MCS2:
++		index = 76;
++		break;
++	case MGN_VHT4SS_MCS3:
++		index = 77;
++		break;
++	case MGN_VHT4SS_MCS4:
++		index = 78;
++		break;
++	case MGN_VHT4SS_MCS5:
++		index = 79;
++		break;
++	case MGN_VHT4SS_MCS6:
++		index = 80;
++		break;
++	case MGN_VHT4SS_MCS7:
++		index = 81;
++		break;
++	case MGN_VHT4SS_MCS8:
++		index = 82;
++		break;
++	case MGN_VHT4SS_MCS9:
++		index = 83;
++		break;
++	default:
++		RTW_INFO("Invalid rate 0x%x in %s\n", Rate, __FUNCTION__);
++		break;
++	};
++
++	return index;
++}
++
++s8
++_PHY_GetTxPowerByRate(
++	IN	PADAPTER	pAdapter,
++	IN	u8			Band,
++	IN	u8			RFPath,
++	IN	u8			TxNum,
++	IN	u8			Rate
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++	s8 value = 0;
++	u8 rateIndex = PHY_GetRateIndexOfTxPowerByRate(Rate);
++
++	if (Band != BAND_ON_2_4G && Band != BAND_ON_5G) {
++		RTW_INFO("Invalid band %d in %s\n", Band, __func__);
++		goto exit;
++	}
++	if (RFPath > ODM_RF_PATH_D) {
++		RTW_INFO("Invalid RfPath %d in %s\n", RFPath, __func__);
++		goto exit;
++	}
++	if (TxNum >= RF_MAX_TX_NUM) {
++		RTW_INFO("Invalid TxNum %d in %s\n", TxNum, __func__);
++		goto exit;
++	}
++	if (rateIndex >= TX_PWR_BY_RATE_NUM_RATE) {
++		RTW_INFO("Invalid RateIndex %d in %s\n", rateIndex, __func__);
++		goto exit;
++	}
++
++	value = pHalData->TxPwrByRateOffset[Band][RFPath][TxNum][rateIndex];
++
++exit:
++	return value;
++}
++
++
++s8
++PHY_GetTxPowerByRate(
++	IN	PADAPTER	pAdapter,
++	IN	u8			Band,
++	IN	u8			RFPath,
++	IN	u8			TxNum,
++	IN	u8			Rate
++)
++{
++	if (!phy_is_tx_power_by_rate_needed(pAdapter))
++		return 0;
++
++	return _PHY_GetTxPowerByRate(pAdapter, Band, RFPath, TxNum, Rate);
++}
++
++#ifdef CONFIG_PHYDM_POWERTRACK_BY_TSSI
++s8
++PHY_GetTxPowerByRateOriginal(
++	IN	PADAPTER	pAdapter,
++	IN	u8			Band,
++	IN	u8			RFPath,
++	IN	u8			TxNum,
++	IN	u8			Rate
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	s8	value = 0, limit = 0;
++	u8	rateIndex = PHY_GetRateIndexOfTxPowerByRate(Rate);
++
++	if ((pAdapter->registrypriv.RegEnableTxPowerByRate == 2 && pHalData->EEPROMRegulatory == 2) ||
++		pAdapter->registrypriv.RegEnableTxPowerByRate == 0)
++		return 0;
++
++	if (Band != BAND_ON_2_4G && Band != BAND_ON_5G) {
++		DBG_871X("Invalid band %d in %s\n", Band, __func__);
++		return value;
++	}
++	if (RFPath > ODM_RF_PATH_D) {
++		DBG_871X("Invalid RfPath %d in %s\n", RFPath, __func__);
++		return value;
++	}
++	if (TxNum >= RF_MAX_TX_NUM) {
++		DBG_871X("Invalid TxNum %d in %s\n", TxNum, __func__);
++		return value;
++	}
++	if (rateIndex >= TX_PWR_BY_RATE_NUM_RATE) {
++		DBG_871X("Invalid RateIndex %d in %s\n", rateIndex, __func__);
++		return value;
++	}
++
++	value = pHalData->TxPwrByRate[Band][RFPath][TxNum][rateIndex];
++
++	return value;
++}
++
++#endif
++
++
++VOID
++PHY_SetTxPowerByRate(
++	IN	PADAPTER	pAdapter,
++	IN	u8			Band,
++	IN	u8			RFPath,
++	IN	u8			TxNum,
++	IN	u8			Rate,
++	IN	s8			Value
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u8	rateIndex = PHY_GetRateIndexOfTxPowerByRate(Rate);
++
++	if (Band != BAND_ON_2_4G && Band != BAND_ON_5G) {
++		RTW_INFO("Invalid band %d in %s\n", Band, __FUNCTION__);
++		return;
++	}
++	if (RFPath > ODM_RF_PATH_D) {
++		RTW_INFO("Invalid RfPath %d in %s\n", RFPath, __FUNCTION__);
++		return;
++	}
++	if (TxNum >= RF_MAX_TX_NUM) {
++		RTW_INFO("Invalid TxNum %d in %s\n", TxNum, __FUNCTION__);
++		return;
++	}
++	if (rateIndex >= TX_PWR_BY_RATE_NUM_RATE) {
++		RTW_INFO("Invalid RateIndex %d in %s\n", rateIndex, __FUNCTION__);
++		return;
++	}
++
++	pHalData->TxPwrByRateOffset[Band][RFPath][TxNum][rateIndex] = Value;
++}
++
++VOID
++PHY_SetTxPowerLevelByPath(
++	IN	PADAPTER	Adapter,
++	IN	u8			channel,
++	IN	u8			path
++)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	BOOLEAN bIsIn24G = (pHalData->CurrentBandType == BAND_ON_2_4G);
++
++	/* if ( pMgntInfo->RegNByteAccess == 0 ) */
++	{
++		if (bIsIn24G)
++			PHY_SetTxPowerIndexByRateSection(Adapter, path, channel, CCK);
++
++		PHY_SetTxPowerIndexByRateSection(Adapter, path, channel, OFDM);
++		PHY_SetTxPowerIndexByRateSection(Adapter, path, channel, HT_MCS0_MCS7);
++
++		if (IS_HARDWARE_TYPE_JAGUAR(Adapter) || IS_HARDWARE_TYPE_8814A(Adapter))
++			PHY_SetTxPowerIndexByRateSection(Adapter, path, channel, VHT_1SSMCS0_1SSMCS9);
++
++		if (pHalData->NumTotalRFPath >= 2) {
++			PHY_SetTxPowerIndexByRateSection(Adapter, path, channel, HT_MCS8_MCS15);
++
++			if (IS_HARDWARE_TYPE_JAGUAR(Adapter) || IS_HARDWARE_TYPE_8814A(Adapter))
++				PHY_SetTxPowerIndexByRateSection(Adapter, path, channel, VHT_2SSMCS0_2SSMCS9);
++
++			if (IS_HARDWARE_TYPE_8814A(Adapter)) {
++				PHY_SetTxPowerIndexByRateSection(Adapter, path, channel, HT_MCS16_MCS23);
++				PHY_SetTxPowerIndexByRateSection(Adapter, path, channel, VHT_3SSMCS0_3SSMCS9);
++			}
++		}
++	}
++}
++
++#ifndef DBG_TX_POWER_IDX
++#define DBG_TX_POWER_IDX 0
++#endif
++
++VOID
++PHY_SetTxPowerIndexByRateArray(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	CHANNEL_WIDTH		BandWidth,
++	IN	u8					Channel,
++	IN	u8					*Rates,
++	IN	u8					RateArraySize
++)
++{
++	u32	powerIndex = 0;
++	int	i = 0;
++
++	for (i = 0; i < RateArraySize; ++i) {
++#if DBG_TX_POWER_IDX
++		struct txpwr_idx_comp tic;
++
++		powerIndex = rtw_hal_get_tx_power_index(pAdapter, RFPath, Rates[i], BandWidth, Channel, &tic);
++		RTW_INFO("TXPWR: [%c][%s]ch:%u, %s, pwr_idx:%u = %u + (%d=%d:%d) + (%d) + (%d)\n"
++			, rf_path_char(RFPath), ch_width_str(BandWidth), Channel, MGN_RATE_STR(Rates[i])
++			, powerIndex, tic.base, (tic.by_rate > tic.limit ? tic.limit : tic.by_rate), tic.by_rate, tic.limit, tic.tpt, tic.ebias);
++#else
++		powerIndex = PHY_GetTxPowerIndex(pAdapter, RFPath, Rates[i], BandWidth, Channel);
++#endif
++		PHY_SetTxPowerIndex(pAdapter, powerIndex, RFPath, Rates[i]);
++	}
++}
++
++s8
++phy_GetWorldWideLimit(
++	s8 *LimitTable
++)
++{
++	s8	min = LimitTable[0];
++	u8	i = 0;
++
++	for (i = 0; i < MAX_REGULATION_NUM; ++i) {
++		if (LimitTable[i] < min)
++			min = LimitTable[i];
++	}
++
++	return min;
++}
++
++s8
++phy_GetChannelIndexOfTxPowerLimit(
++	IN	u8			Band,
++	IN	u8			Channel
++)
++{
++	s8	channelIndex = -1;
++	u8	i = 0;
++
++	if (Band == BAND_ON_2_4G)
++		channelIndex = Channel - 1;
++	else if (Band == BAND_ON_5G) {
++		for (i = 0; i < CENTER_CH_5G_ALL_NUM; ++i) {
++			if (center_ch_5g_all[i] == Channel)
++				channelIndex = i;
++		}
++	} else
++		RTW_PRINT("Invalid Band %d in %s\n", Band, __func__);
++
++	if (channelIndex == -1)
++		RTW_PRINT("Invalid Channel %d of Band %d in %s\n", Channel, Band, __func__);
++
++	return channelIndex;
++}
++
++static s8 _phy_get_txpwr_lmt(
++	IN	PADAPTER			Adapter,
++	IN	u32					RegPwrTblSel,
++	IN	BAND_TYPE			Band,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					RfPath,
++	IN	u8					DataRate,
++	IN	u8					Channel,
++	BOOLEAN no_sc
++)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(Adapter);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(Adapter);
++	s8 regulation = -1, bw = -1, rs = -1;
++	u8 cch = 0;
++	u8 bw_bmp = 0;
++	s8 min_lmt = MAX_POWER_INDEX;
++	s8 tmp_lmt;
++	u8 final_bw = Bandwidth, final_cch = Channel;
++
++	if ((Adapter->registrypriv.RegEnableTxPowerLimit == 2 && hal_data->EEPROMRegulatory != 1) ||
++		Adapter->registrypriv.RegEnableTxPowerLimit == 0)
++		goto exit;
++
++	switch (RegPwrTblSel) {
++	case 1:
++		regulation = TXPWR_LMT_ETSI;
++		break;
++	case 2:
++		regulation = TXPWR_LMT_MKK;
++		break;
++	case 3:
++		regulation = TXPWR_LMT_FCC;
++		break;
++	case 4:
++		regulation = TXPWR_LMT_WW;
++		break;
++	default:
++		regulation = (Band == BAND_ON_2_4G) ? hal_data->Regulation2_4G : hal_data->Regulation5G;
++		break;
++	}
++
++	if (Band != BAND_ON_2_4G && Band != BAND_ON_5G) {
++		RTW_ERR("%s invalid band:%u\n", __func__, Band);
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (IS_CCK_RATE(DataRate))
++		rs = CCK;
++	else if (IS_OFDM_RATE(DataRate))
++		rs = OFDM;
++	else if (IS_HT1SS_RATE(DataRate))
++		rs = HT_1SS;
++	else if (IS_HT2SS_RATE(DataRate))
++		rs = HT_2SS;
++	else if (IS_HT3SS_RATE(DataRate))
++		rs = HT_3SS;
++	else if (IS_HT4SS_RATE(DataRate))
++		rs = HT_4SS;
++	else if (IS_VHT1SS_RATE(DataRate))
++		rs = VHT_1SS;
++	else if (IS_VHT2SS_RATE(DataRate))
++		rs = VHT_2SS;
++	else if (IS_VHT3SS_RATE(DataRate))
++		rs = VHT_3SS;
++	else if (IS_VHT4SS_RATE(DataRate))
++		rs = VHT_4SS;
++	else {
++		RTW_ERR("%s invalid rate 0x%x\n", __func__, DataRate);
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (Band == BAND_ON_5G  && rs == CCK) {
++		RTW_ERR("Wrong rate No CCK(0x%x) in 5G Band\n", DataRate);
++		goto exit;
++	}
++
++	if (no_sc == _TRUE) {
++		/* use the input center channel and bandwidth directly */
++		cch = Channel;
++		bw_bmp = ch_width_to_bw_cap(Bandwidth);
++	} else {
++		/*
++		* find the possible tx bandwidth bmp for this rate, and then will get center channel for each bandwidth
++		* if no possible tx bandwidth bmp, select valid bandwidth up to current RF bandwidth into bmp
++		*/
++		if (rs == CCK || rs == OFDM)
++			bw_bmp = BW_CAP_20M; /* CCK, OFDM only BW 20M */
++		else if (IS_HT_RATE_SECTION(rs)) {
++			bw_bmp = rtw_get_tx_bw_bmp_of_ht_rate(dvobj, DataRate, Bandwidth);
++			if (bw_bmp == 0)
++				bw_bmp = ch_width_to_bw_cap(Bandwidth > CHANNEL_WIDTH_40 ? CHANNEL_WIDTH_40 : Bandwidth);
++		} else if (IS_VHT_RATE_SECTION(rs)) {
++			bw_bmp = rtw_get_tx_bw_bmp_of_vht_rate(dvobj, DataRate, Bandwidth);
++			if (bw_bmp == 0)
++				bw_bmp = ch_width_to_bw_cap(Bandwidth > CHANNEL_WIDTH_160 ? CHANNEL_WIDTH_160 : Bandwidth);
++		} else
++			rtw_warn_on(1);
++	}
++
++	if (bw_bmp == 0)
++		goto exit;
++
++	/* loop for each possible tx bandwidth to find minimum limit */
++	for (bw = CHANNEL_WIDTH_20; bw <= Bandwidth; bw++) {
++		s8 ch_idx;
++
++		if (!(ch_width_to_bw_cap(bw) & bw_bmp))
++			continue;
++
++		if (no_sc == _FALSE) {
++			if (bw == CHANNEL_WIDTH_20)
++				cch = hal_data->cch_20;
++			else if (bw == CHANNEL_WIDTH_40)
++				cch = hal_data->cch_40;
++			else if (bw == CHANNEL_WIDTH_80)
++				cch = hal_data->cch_80;
++			else {
++				cch = 0;
++				rtw_warn_on(1);
++			}
++		}
++
++		ch_idx = phy_GetChannelIndexOfTxPowerLimit(Band, cch);
++		if (ch_idx == -1)
++			continue;
++
++		if (Band == BAND_ON_2_4G) {
++			s8 limits[MAX_REGULATION_NUM] = {0};
++			u8 i = 0;
++
++			for (i = 0; i < MAX_REGULATION_NUM; ++i)
++				limits[i] = hal_data->TxPwrLimit_2_4G[i][bw][rs][ch_idx][RfPath];
++
++			tmp_lmt = (regulation == TXPWR_LMT_WW) ? phy_GetWorldWideLimit(limits) :
++				hal_data->TxPwrLimit_2_4G[regulation][bw][rs][ch_idx][RfPath];
++
++		} else if (Band == BAND_ON_5G) {
++			s8 limits[MAX_REGULATION_NUM] = {0};
++			u8 i = 0;
++
++			for (i = 0; i < MAX_REGULATION_NUM; ++i)
++				limits[i] = hal_data->TxPwrLimit_5G[i][bw][rs][ch_idx][RfPath];
++
++			tmp_lmt = (regulation == TXPWR_LMT_WW) ? phy_GetWorldWideLimit(limits) :
++				hal_data->TxPwrLimit_5G[regulation][bw][rs][ch_idx][RfPath];
++		} else
++			continue;
++
++		if (min_lmt >= tmp_lmt) {
++			min_lmt = tmp_lmt;
++			final_cch = cch;
++			final_bw = bw;
++		}
++	}
++
++exit:
++	return min_lmt;
++}
++
++inline s8
++PHY_GetTxPowerLimit(
++	IN	PADAPTER			Adapter,
++	IN	u32					RegPwrTblSel,
++	IN	BAND_TYPE			Band,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					RfPath,
++	IN	u8					DataRate,
++	IN	u8					Channel
++)
++{
++	BOOLEAN no_sc = _FALSE;
++
++	/* MP mode channel don't use secondary channel */
++	if (rtw_mi_mp_mode_check(Adapter) == _TRUE)
++		no_sc = _TRUE;
++
++	return _phy_get_txpwr_lmt(Adapter, RegPwrTblSel, Band, Bandwidth, RfPath, DataRate, Channel, no_sc);
++}
++
++inline s8
++PHY_GetTxPowerLimit_no_sc(
++	IN	PADAPTER			Adapter,
++	IN	u32					RegPwrTblSel,
++	IN	BAND_TYPE			Band,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					RfPath,
++	IN	u8					DataRate,
++	IN	u8					Channel
++)
++{
++	return _phy_get_txpwr_lmt(Adapter, RegPwrTblSel, Band, Bandwidth, RfPath, DataRate, Channel, _TRUE);
++}
++
++#ifdef CONFIG_PHYDM_POWERTRACK_BY_TSSI
++s8
++PHY_GetTxPowerLimitOriginal(
++	IN	PADAPTER			Adapter,
++	IN	u32					RegPwrTblSel,
++	IN	BAND_TYPE			Band,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					RfPath,
++	IN	u8					DataRate,
++	IN	u8					Channel
++)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	s16				band = -1, regulation = -1, bandwidth = -1,
++					rateSection = -1, channel = -1;
++	s8				powerLimit = MAX_POWER_INDEX;
++
++	if ((Adapter->registrypriv.RegEnableTxPowerLimit == 2 && pHalData->EEPROMRegulatory != 1) ||
++	    Adapter->registrypriv.RegEnableTxPowerLimit == 0)
++		return MAX_POWER_INDEX;
++
++	switch (Adapter->registrypriv.RegPwrTblSel) {
++	case 1:
++		regulation = TXPWR_LMT_ETSI;
++		break;
++
++	case 2:
++		regulation = TXPWR_LMT_MKK;
++		break;
++
++	case 3:
++		regulation = TXPWR_LMT_FCC;
++		break;
++
++	case 4:
++		regulation = TXPWR_LMT_WW;
++		break;
++
++	default:
++		regulation = (Band == BAND_ON_2_4G) ? pHalData->Regulation2_4G
++			     : pHalData->Regulation5G;
++		break;
++	}
++
++	/*DBG_871X("pMgntInfo->RegPwrTblSel %d, final regulation %d\n", Adapter->registrypriv.RegPwrTblSel, regulation );*/
++
++
++	if (Band == BAND_ON_2_4G)
++		band = 0;
++	else if (Band == BAND_ON_5G)
++		band = 1;
++
++	if (Bandwidth == CHANNEL_WIDTH_20)
++		bandwidth = 0;
++	else if (Bandwidth == CHANNEL_WIDTH_40)
++		bandwidth = 1;
++	else if (Bandwidth == CHANNEL_WIDTH_80)
++		bandwidth = 2;
++	else if (Bandwidth == CHANNEL_WIDTH_160)
++		bandwidth = 3;
++
++	switch (DataRate) {
++	case MGN_1M:
++	case MGN_2M:
++	case MGN_5_5M:
++	case MGN_11M:
++		rateSection = 0;
++		break;
++
++	case MGN_6M:
++	case MGN_9M:
++	case MGN_12M:
++	case MGN_18M:
++	case MGN_24M:
++	case MGN_36M:
++	case MGN_48M:
++	case MGN_54M:
++		rateSection = 1;
++		break;
++
++	case MGN_MCS0:
++	case MGN_MCS1:
++	case MGN_MCS2:
++	case MGN_MCS3:
++	case MGN_MCS4:
++	case MGN_MCS5:
++	case MGN_MCS6:
++	case MGN_MCS7:
++		rateSection = 2;
++		break;
++
++	case MGN_MCS8:
++	case MGN_MCS9:
++	case MGN_MCS10:
++	case MGN_MCS11:
++	case MGN_MCS12:
++	case MGN_MCS13:
++	case MGN_MCS14:
++	case MGN_MCS15:
++		rateSection = 3;
++		break;
++
++	case MGN_MCS16:
++	case MGN_MCS17:
++	case MGN_MCS18:
++	case MGN_MCS19:
++	case MGN_MCS20:
++	case MGN_MCS21:
++	case MGN_MCS22:
++	case MGN_MCS23:
++		rateSection = 4;
++		break;
++
++	case MGN_MCS24:
++	case MGN_MCS25:
++	case MGN_MCS26:
++	case MGN_MCS27:
++	case MGN_MCS28:
++	case MGN_MCS29:
++	case MGN_MCS30:
++	case MGN_MCS31:
++		rateSection = 5;
++		break;
++
++	case MGN_VHT1SS_MCS0:
++	case MGN_VHT1SS_MCS1:
++	case MGN_VHT1SS_MCS2:
++	case MGN_VHT1SS_MCS3:
++	case MGN_VHT1SS_MCS4:
++	case MGN_VHT1SS_MCS5:
++	case MGN_VHT1SS_MCS6:
++	case MGN_VHT1SS_MCS7:
++	case MGN_VHT1SS_MCS8:
++	case MGN_VHT1SS_MCS9:
++		rateSection = 6;
++		break;
++
++	case MGN_VHT2SS_MCS0:
++	case MGN_VHT2SS_MCS1:
++	case MGN_VHT2SS_MCS2:
++	case MGN_VHT2SS_MCS3:
++	case MGN_VHT2SS_MCS4:
++	case MGN_VHT2SS_MCS5:
++	case MGN_VHT2SS_MCS6:
++	case MGN_VHT2SS_MCS7:
++	case MGN_VHT2SS_MCS8:
++	case MGN_VHT2SS_MCS9:
++		rateSection = 7;
++		break;
++
++	case MGN_VHT3SS_MCS0:
++	case MGN_VHT3SS_MCS1:
++	case MGN_VHT3SS_MCS2:
++	case MGN_VHT3SS_MCS3:
++	case MGN_VHT3SS_MCS4:
++	case MGN_VHT3SS_MCS5:
++	case MGN_VHT3SS_MCS6:
++	case MGN_VHT3SS_MCS7:
++	case MGN_VHT3SS_MCS8:
++	case MGN_VHT3SS_MCS9:
++		rateSection = 8;
++		break;
++
++	case MGN_VHT4SS_MCS0:
++	case MGN_VHT4SS_MCS1:
++	case MGN_VHT4SS_MCS2:
++	case MGN_VHT4SS_MCS3:
++	case MGN_VHT4SS_MCS4:
++	case MGN_VHT4SS_MCS5:
++	case MGN_VHT4SS_MCS6:
++	case MGN_VHT4SS_MCS7:
++	case MGN_VHT4SS_MCS8:
++	case MGN_VHT4SS_MCS9:
++		rateSection = 9;
++		break;
++
++	default:
++		DBG_871X("Wrong rate 0x%x\n", DataRate);
++		break;
++	}
++
++	if (Band == BAND_ON_5G  && rateSection == 0)
++		DBG_871X("Wrong rate 0x%x: No CCK in 5G Band\n", DataRate);
++
++	/*workaround for wrong index combination to obtain tx power limit,*/
++	/*OFDM only exists in BW 20M*/
++	if (rateSection == 1)
++		bandwidth = 0;
++
++	/*workaround for wrong index combination to obtain tx power limit,*/
++	/*CCK table will only be given in BW 20M*/
++	if (rateSection == 0)
++		bandwidth = 0;
++
++	/*workaround for wrong indxe combination to obtain tx power limit,*/
++	/*HT on 80M will reference to HT on 40M*/
++	if ((rateSection == 2 || rateSection == 3) && Band == BAND_ON_5G && bandwidth == 2)
++		bandwidth = 1;
++
++	if (Band == BAND_ON_2_4G)
++		channel = phy_GetChannelIndexOfTxPowerLimit(BAND_ON_2_4G, Channel);
++	else if (Band == BAND_ON_5G)
++		channel = phy_GetChannelIndexOfTxPowerLimit(BAND_ON_5G, Channel);
++	else if (Band == BAND_ON_BOTH)
++		/*BAND_ON_BOTH don't care temporarily*/
++
++		if (band == -1 || regulation == -1 || bandwidth == -1 ||
++		    rateSection == -1 || channel == -1) {
++			/*DBG_871X("Wrong index value to access power limit table [band %d][regulation %d][bandwidth %d][rf_path %d][rate_section %d][chnlGroup %d]\n",*/
++			/*	  band, regulation, bandwidth, RfPath, rateSection, channelGroup );*/
++
++			return MAX_POWER_INDEX;
++		}
++
++	if (Band == BAND_ON_2_4G) {
++		s8 limits[10] = {0};
++		u8 i = 0;
++
++		if (bandwidth >= MAX_2_4G_BANDWIDTH_NUM)
++			bandwidth = MAX_2_4G_BANDWIDTH_NUM - 1;
++
++		for (i = 0; i < MAX_REGULATION_NUM; ++i)
++			limits[i] = pHalData->TxPwrLimit_2_4G_Original[i][bandwidth][rateSection][channel][RfPath];
++
++		powerLimit = (regulation == TXPWR_LMT_WW) ? phy_GetWorldWideLimit(limits) :
++			pHalData->TxPwrLimit_2_4G_Original[regulation][bandwidth][rateSection][channel][RfPath];
++
++	} else if (Band == BAND_ON_5G) {
++		s8 limits[10] = {0};
++		u8 i = 0;
++
++		for (i = 0; i < MAX_REGULATION_NUM; ++i)
++			limits[i] = pHalData->TxPwrLimit_5G_Original[i][bandwidth][rateSection][channel][RfPath];
++
++		powerLimit = (regulation == TXPWR_LMT_WW) ? phy_GetWorldWideLimit(limits) :
++			pHalData->TxPwrLimit_5G_Original[regulation][bandwidth][rateSection][channel][RfPath];
++	} else
++		DBG_871X("No power limit table of the specified band\n");
++
++	/*combine 5G VHT & HT rate*/
++	/*5G 20M and 40M HT and VHT can cross reference*/
++	/*
++	if (Band == BAND_ON_5G && powerLimit == MAX_POWER_INDEX) {
++		if (bandwidth == 0 || bandwidth == 1) {
++			if (rateSection == 2)
++				powerLimit = pHalData->TxPwrLimit_5G_Original[regulation]
++										[bandwidth][4][channelGroup][RfPath];
++			else if (rateSection == 4)
++				powerLimit = pHalData->TxPwrLimit_5G_Original[regulation]
++										[bandwidth][2][channelGroup][RfPath];
++			else if (rateSection == 3)
++				powerLimit = pHalData->TxPwrLimit_5G_Original[regulation]
++										[bandwidth][5][channelGroup][RfPath];
++			else if (rateSection == 5)
++				powerLimit = pHalData->TxPwrLimit_5G_Original[regulation]
++										[bandwidth][3][channelGroup][RfPath];
++		}
++	}
++	*/
++	/*DBG_871X("TxPwrLmt[Regulation %d][Band %d][BW %d][RFPath %d][Rate 0x%x][Chnl %d] = %d\n",*/
++	/*		regulation, pHalData->CurrentBandType, Bandwidth, RfPath, DataRate, Channel, powerLimit);*/
++	return powerLimit;
++}
++#endif
++
++
++VOID
++phy_CrossReferenceHTAndVHTTxPowerLimit(
++	IN	PADAPTER			pAdapter
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++	u8 regulation, bw, channel, rs, ref_rs;
++	int ht_ref_vht_5g_20_40 = 0;
++	int vht_ref_ht_5g_20_40 = 0;
++	int ht_has_ref_5g_20_40 = 0;
++	int vht_has_ref_5g_20_40 = 0;
++
++	pHalData->tx_pwr_lmt_5g_20_40_ref = 0;
++
++	for (regulation = 0; regulation < MAX_REGULATION_NUM; ++regulation) {
++
++		for (bw = 0; bw < MAX_5G_BANDWIDTH_NUM; ++bw) {
++
++			for (channel = 0; channel < CENTER_CH_5G_ALL_NUM; ++channel) {
++
++				for (rs = 0; rs < MAX_RATE_SECTION_NUM; ++rs) {
++
++					/* 5G 20M 40M VHT and HT can cross reference */
++					if (bw == CHANNEL_WIDTH_20 || bw == CHANNEL_WIDTH_40) {
++						if (rs == HT_1SS)
++							ref_rs = VHT_1SS;
++						else if (rs == HT_2SS)
++							ref_rs = VHT_2SS;
++						else if (rs == HT_3SS)
++							ref_rs = VHT_3SS;
++						else if (rs == HT_4SS)
++							ref_rs = VHT_4SS;
++						else if (rs == VHT_1SS)
++							ref_rs = HT_1SS;
++						else if (rs == VHT_2SS)
++							ref_rs = HT_2SS;
++						else if (rs == VHT_3SS)
++							ref_rs = HT_3SS;
++						else if (rs == VHT_4SS)
++							ref_rs = HT_4SS;
++						else
++							continue;
++
++						if (pHalData->TxPwrLimit_5G[regulation][bw][ref_rs][channel][RF_PATH_A] == MAX_POWER_INDEX)
++							continue;
++
++						if (IS_HT_RATE_SECTION(rs))
++							ht_has_ref_5g_20_40++;
++						else if (IS_VHT_RATE_SECTION(rs))
++							vht_has_ref_5g_20_40++;
++						else
++							continue;
++
++						if (pHalData->TxPwrLimit_5G[regulation][bw][rs][channel][RF_PATH_A] != MAX_POWER_INDEX)
++							continue;
++
++						if (IS_HT_RATE_SECTION(rs) && IS_VHT_RATE_SECTION(ref_rs))
++							ht_ref_vht_5g_20_40++;
++						else if (IS_VHT_RATE_SECTION(rs) && IS_HT_RATE_SECTION(ref_rs))
++							vht_ref_ht_5g_20_40++;
++
++						if (0)
++							RTW_INFO("reg:%u, bw:%u, ch:%u, %s ref %s\n"
++								, regulation, bw, channel
++								, rate_section_str(rs), rate_section_str(ref_rs));
++
++						pHalData->TxPwrLimit_5G[regulation][bw][rs][channel][RF_PATH_A] =
++							pHalData->TxPwrLimit_5G[regulation][bw][ref_rs][channel][RF_PATH_A];
++					}
++
++				}
++			}
++		}
++	}
++
++	if (0) {
++		RTW_INFO("ht_ref_vht_5g_20_40:%d, ht_has_ref_5g_20_40:%d\n", ht_ref_vht_5g_20_40, ht_has_ref_5g_20_40);
++		RTW_INFO("vht_ref_hht_5g_20_40:%d, vht_has_ref_5g_20_40:%d\n", vht_ref_ht_5g_20_40, vht_has_ref_5g_20_40);
++	}
++
++	/* 5G 20M&40M HT all come from VHT*/
++	if (ht_ref_vht_5g_20_40 && ht_has_ref_5g_20_40 == ht_ref_vht_5g_20_40)
++		pHalData->tx_pwr_lmt_5g_20_40_ref |= TX_PWR_LMT_REF_HT_FROM_VHT;
++
++	/* 5G 20M&40M VHT all come from HT*/
++	if (vht_ref_ht_5g_20_40 && vht_has_ref_5g_20_40 == vht_ref_ht_5g_20_40)
++		pHalData->tx_pwr_lmt_5g_20_40_ref |= TX_PWR_LMT_REF_VHT_FROM_HT;
++}
++
++VOID
++PHY_ConvertTxPowerLimitToPowerIndex(
++	IN	PADAPTER			Adapter
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	u8 base;
++	u8 regulation, bw, channel, rateSection;
++	s8 tempValue = 0, tempPwrLmt = 0;
++	u8 rfPath = 0;
++
++	if (pHalData->odmpriv.PhyRegPgValueType != PHY_REG_PG_EXACT_VALUE) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	phy_CrossReferenceHTAndVHTTxPowerLimit(Adapter);
++
++	for (regulation = 0; regulation < MAX_REGULATION_NUM; ++regulation) {
++
++		for (bw = 0; bw < MAX_2_4G_BANDWIDTH_NUM; ++bw) {
++
++			for (channel = 0; channel < CENTER_CH_2G_NUM; ++channel) {
++
++				for (rateSection = CCK; rateSection <= HT_4SS; ++rateSection) {
++					tempPwrLmt = pHalData->TxPwrLimit_2_4G[regulation][bw][rateSection][channel][RF_PATH_A];
++
++					if (tempPwrLmt != MAX_POWER_INDEX) {
++
++						for (rfPath = RF_PATH_A; rfPath < MAX_RF_PATH; ++rfPath) {
++							base = PHY_GetTxPowerByRateBase(Adapter, BAND_ON_2_4G, rfPath, rate_section_to_tx_num(rateSection), rateSection);
++							tempValue = tempPwrLmt - base;
++							pHalData->TxPwrLimit_2_4G[regulation][bw][rateSection][channel][rfPath] = tempValue;
++						}
++					}
++				}
++			}
++		}
++	}
++
++	if (IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(Adapter)) {
++
++		for (regulation = 0; regulation < MAX_REGULATION_NUM; ++regulation) {
++
++			for (bw = 0; bw < MAX_5G_BANDWIDTH_NUM; ++bw) {
++
++				for (channel = 0; channel < CENTER_CH_5G_ALL_NUM; ++channel) {
++
++					for (rateSection = OFDM; rateSection <= VHT_4SS; ++rateSection) {
++						tempPwrLmt = pHalData->TxPwrLimit_5G[regulation][bw][rateSection][channel][RF_PATH_A];
++
++						if (tempPwrLmt != MAX_POWER_INDEX) {
++
++							for (rfPath = RF_PATH_A; rfPath < MAX_RF_PATH; ++rfPath) {
++								base = PHY_GetTxPowerByRateBase(Adapter, BAND_ON_5G, rfPath, rate_section_to_tx_num(rateSection), rateSection);
++								tempValue = tempPwrLmt - base;
++								pHalData->TxPwrLimit_5G[regulation][bw][rateSection][channel][rfPath] = tempValue;
++							}
++						}
++					}
++				}
++			}
++		}
++	}
++}
++
++/*
++* PHY_InitTxPowerLimit - Set all hal_data.TxPwrLimit_2_4G, TxPwrLimit_5G array to MAX_POWER_INDEX
++*/
++VOID
++PHY_InitTxPowerLimit(
++	IN	PADAPTER		Adapter
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	u8 i, j, k, l, m;
++
++	for (i = 0; i < MAX_REGULATION_NUM; ++i)
++		for (j = 0; j < MAX_2_4G_BANDWIDTH_NUM; ++j)
++			for (k = 0; k < MAX_RATE_SECTION_NUM; ++k)
++				for (m = 0; m < CENTER_CH_2G_NUM; ++m)
++					for (l = 0; l < MAX_RF_PATH; ++l)
++						pHalData->TxPwrLimit_2_4G[i][j][k][m][l] = MAX_POWER_INDEX;
++
++	for (i = 0; i < MAX_REGULATION_NUM; ++i)
++		for (j = 0; j < MAX_5G_BANDWIDTH_NUM; ++j)
++			for (k = 0; k < MAX_RATE_SECTION_NUM; ++k)
++				for (m = 0; m < CENTER_CH_5G_ALL_NUM; ++m)
++					for (l = 0; l < MAX_RF_PATH; ++l)
++						pHalData->TxPwrLimit_5G[i][j][k][m][l] = MAX_POWER_INDEX;
++}
++
++/*
++* PHY_SetTxPowerLimit - Parsing TX power limit from phydm array, called by odm_ConfigBB_TXPWR_LMT_XXX in phydm
++*/
++VOID
++PHY_SetTxPowerLimit(
++	IN	PDM_ODM_T		pDM_Odm,
++	IN	u8				*Regulation,
++	IN	u8				*Band,
++	IN	u8				*Bandwidth,
++	IN	u8				*RateSection,
++	IN	u8				*RfPath,
++	IN	u8				*Channel,
++	IN	u8				*PowerLimit
++)
++{
++	PADAPTER Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	u8 regulation = 0, bandwidth = 0, rateSection = 0, channel;
++	s8 powerLimit = 0, prevPowerLimit, channelIndex;
++
++	if (0)
++		RTW_INFO("Index of power limit table [band %s][regulation %s][bw %s][rate section %s][rf path %s][chnl %s][val %s]\n"
++			, Band, Regulation, Bandwidth, RateSection, RfPath, Channel, PowerLimit);
++
++	if (GetU1ByteIntegerFromStringInDecimal((s8 *)Channel, &channel) == _FALSE
++		|| GetU1ByteIntegerFromStringInDecimal((s8 *)PowerLimit, &powerLimit) == _FALSE
++	) {
++		RTW_PRINT("Illegal index of power limit table [ch %s][val %s]\n", Channel, PowerLimit);
++		return;
++	}
++
++	powerLimit = powerLimit > MAX_POWER_INDEX ? MAX_POWER_INDEX : powerLimit;
++
++	if (eqNByte(Regulation, (u8 *)("FCC"), 3))
++		regulation = TXPWR_LMT_FCC;
++	else if (eqNByte(Regulation, (u8 *)("MKK"), 3))
++		regulation = TXPWR_LMT_MKK;
++	else if (eqNByte(Regulation, (u8 *)("ETSI"), 4))
++		regulation = TXPWR_LMT_ETSI;
++	else if (eqNByte(Regulation, (u8 *)("WW13"), 4))
++		regulation = TXPWR_LMT_WW;
++	else {
++		RTW_PRINT("unknown regulation:%s", Regulation);
++		return;
++	}
++
++	if (eqNByte(RateSection, (u8 *)("CCK"), 3) && eqNByte(RfPath, (u8 *)("1T"), 2))
++		rateSection = CCK;
++	else if (eqNByte(RateSection, (u8 *)("OFDM"), 4) && eqNByte(RfPath, (u8 *)("1T"), 2))
++		rateSection = OFDM;
++	else if (eqNByte(RateSection, (u8 *)("HT"), 2) && eqNByte(RfPath, (u8 *)("1T"), 2))
++		rateSection = HT_1SS;
++	else if (eqNByte(RateSection, (u8 *)("HT"), 2) && eqNByte(RfPath, (u8 *)("2T"), 2))
++		rateSection = HT_2SS;
++	else if (eqNByte(RateSection, (u8 *)("HT"), 2) && eqNByte(RfPath, (u8 *)("3T"), 2))
++		rateSection = HT_3SS;
++	else if (eqNByte(RateSection, (u8 *)("HT"), 2) && eqNByte(RfPath, (u8 *)("4T"), 2))
++		rateSection = HT_4SS;
++	else if (eqNByte(RateSection, (u8 *)("VHT"), 3) && eqNByte(RfPath, (u8 *)("1T"), 2))
++		rateSection = VHT_1SS;
++	else if (eqNByte(RateSection, (u8 *)("VHT"), 3) && eqNByte(RfPath, (u8 *)("2T"), 2))
++		rateSection = VHT_2SS;
++	else if (eqNByte(RateSection, (u8 *)("VHT"), 3) && eqNByte(RfPath, (u8 *)("3T"), 2))
++		rateSection = VHT_3SS;
++	else if (eqNByte(RateSection, (u8 *)("VHT"), 3) && eqNByte(RfPath, (u8 *)("4T"), 2))
++		rateSection = VHT_4SS;
++	else {
++		RTW_PRINT("Wrong rate section: (%s,%s)\n", RateSection, RfPath);
++		return;
++	}
++
++	if (eqNByte(Bandwidth, (u8 *)("20M"), 3))
++		bandwidth = CHANNEL_WIDTH_20;
++	else if (eqNByte(Bandwidth, (u8 *)("40M"), 3))
++		bandwidth = CHANNEL_WIDTH_40;
++	else if (eqNByte(Bandwidth, (u8 *)("80M"), 3))
++		bandwidth = CHANNEL_WIDTH_80;
++	else {
++		RTW_PRINT("unknown bandwidth: %s\n", Bandwidth);
++		return;
++	}
++
++	if (eqNByte(Band, (u8 *)("2.4G"), 4)) {
++		channelIndex = phy_GetChannelIndexOfTxPowerLimit(BAND_ON_2_4G, channel);
++
++		if (channelIndex == -1) {
++			RTW_PRINT("unsupported channel: %d at 2.4G\n", channel);
++			return;
++		}
++
++		if (bandwidth >= MAX_2_4G_BANDWIDTH_NUM) {
++			RTW_PRINT("unsupported bandwidth: %s at 2.4G\n", Bandwidth);
++			return;
++		}
++
++		prevPowerLimit = pHalData->TxPwrLimit_2_4G[regulation][bandwidth][rateSection][channelIndex][RF_PATH_A];
++
++		if (prevPowerLimit != MAX_POWER_INDEX)
++			RTW_PRINT("duplicate tx power limit combination [band %s][regulation %s][bw %s][rate section %s][rf path %s][chnl %s]\n"
++				, Band, Regulation, Bandwidth, RateSection, RfPath, Channel);
++
++		if (powerLimit < prevPowerLimit)
++			pHalData->TxPwrLimit_2_4G[regulation][bandwidth][rateSection][channelIndex][RF_PATH_A] = powerLimit;
++
++		if (0)
++			RTW_INFO("2.4G Band value : [regulation %d][bw %d][rate_section %d][chnl %d][val %d]\n"
++				, regulation, bandwidth, rateSection, channelIndex, pHalData->TxPwrLimit_2_4G[regulation][bandwidth][rateSection][channelIndex][ODM_RF_PATH_A]);
++	} else if (eqNByte(Band, (u8 *)("5G"), 2)) {
++
++		channelIndex = phy_GetChannelIndexOfTxPowerLimit(BAND_ON_5G, channel);
++
++		if (channelIndex == -1) {
++			RTW_PRINT("unsupported channel: %d at 5G\n", channel);
++			return;
++		}
++
++		prevPowerLimit = pHalData->TxPwrLimit_5G[regulation][bandwidth][rateSection][channelIndex][RF_PATH_A];
++
++		if (prevPowerLimit != MAX_POWER_INDEX)
++			RTW_PRINT("duplicate tx power limit combination [band %s][regulation %s][bw %s][rate section %s][rf path %s][chnl %s]\n"
++				, Band, Regulation, Bandwidth, RateSection, RfPath, Channel);
++
++		if (powerLimit < prevPowerLimit)
++			pHalData->TxPwrLimit_5G[regulation][bandwidth][rateSection][channelIndex][RF_PATH_A] = powerLimit;
++
++		if (0)
++			RTW_INFO("5G Band value : [regulation %d][bw %d][rate_section %d][chnl %d][val %d]\n"
++				, regulation, bandwidth, rateSection, channel, pHalData->TxPwrLimit_5G[regulation][bandwidth][rateSection][channelIndex][RF_PATH_A]);
++	} else {
++		RTW_PRINT("Cannot recognize the band info in %s\n", Band);
++		return;
++	}
++}
++
++u8
++PHY_GetTxPowerIndex(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	u8					Rate,
++	IN	CHANNEL_WIDTH		BandWidth,
++	IN	u8					Channel
++)
++{
++	return rtw_hal_get_tx_power_index(pAdapter, RFPath, Rate, BandWidth, Channel, NULL);
++}
++
++VOID
++PHY_SetTxPowerIndex(
++	IN	PADAPTER		pAdapter,
++	IN	u32				PowerIndex,
++	IN	u8				RFPath,
++	IN	u8				Rate
++)
++{
++	if (IS_HARDWARE_TYPE_8814A(pAdapter)) {
++#if (RTL8814A_SUPPORT == 1)
++		PHY_SetTxPowerIndex_8814A(pAdapter, PowerIndex, RFPath, Rate);
++#endif
++	} else if (IS_HARDWARE_TYPE_JAGUAR(pAdapter)) {
++#if ((RTL8812A_SUPPORT == 1) || (RTL8821A_SUPPORT == 1))
++		PHY_SetTxPowerIndex_8812A(pAdapter, PowerIndex, RFPath, Rate);
++#endif
++	} else if (IS_HARDWARE_TYPE_8723B(pAdapter)) {
++#if (RTL8723B_SUPPORT == 1)
++		PHY_SetTxPowerIndex_8723B(pAdapter, PowerIndex, RFPath, Rate);
++#endif
++	} else if (IS_HARDWARE_TYPE_8703B(pAdapter)) {
++#if (RTL8703B_SUPPORT == 1)
++		PHY_SetTxPowerIndex_8703B(pAdapter, PowerIndex, RFPath, Rate);
++#endif
++	} else if (IS_HARDWARE_TYPE_8723D(pAdapter)) {
++#if (RTL8723D_SUPPORT == 1)
++		PHY_SetTxPowerIndex_8723D(pAdapter, PowerIndex, RFPath, Rate);
++#endif
++	} else if (IS_HARDWARE_TYPE_8192E(pAdapter)) {
++#if (RTL8192E_SUPPORT == 1)
++		PHY_SetTxPowerIndex_8192E(pAdapter, PowerIndex, RFPath, Rate);
++#endif
++	} else if (IS_HARDWARE_TYPE_8188E(pAdapter)) {
++#if (RTL8188E_SUPPORT == 1)
++		PHY_SetTxPowerIndex_8188E(pAdapter, PowerIndex, RFPath, Rate);
++#endif
++	} else if (IS_HARDWARE_TYPE_8188F(pAdapter)) {
++#if (RTL8188F_SUPPORT == 1)
++		PHY_SetTxPowerIndex_8188F(pAdapter, PowerIndex, RFPath, Rate);
++#endif
++	} else if (IS_HARDWARE_TYPE_8822B(pAdapter))
++		rtw_hal_set_tx_power_index(pAdapter, PowerIndex, RFPath, Rate);
++	else if (IS_HARDWARE_TYPE_8821C(pAdapter))
++		rtw_hal_set_tx_power_index(pAdapter, PowerIndex, RFPath, Rate);
++}
++
++void dump_tx_power_idx_title(void *sel, _adapter *adapter)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	u8 bw = hal_data->CurrentChannelBW;
++
++	RTW_PRINT_SEL(sel, "%s", ch_width_str(bw));
++	if (bw >= CHANNEL_WIDTH_80)
++		_RTW_PRINT_SEL(sel, ", cch80:%u", hal_data->cch_80);
++	if (bw >= CHANNEL_WIDTH_40)
++		_RTW_PRINT_SEL(sel, ", cch40:%u", hal_data->cch_40);
++	_RTW_PRINT_SEL(sel, ", cch20:%u\n", hal_data->cch_20);
++
++	RTW_PRINT_SEL(sel, "%-4s %-9s %-3s %-4s %-3s %-4s %-4s %-3s %-5s\n"
++		, "path", "rate", "pwr", "base", "", "(byr", "lmt)", "tpt", "ebias");
++}
++
++void dump_tx_power_idx_by_path_rs(void *sel, _adapter *adapter, u8 rfpath, u8 rs)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	u8 power_idx;
++	struct txpwr_idx_comp tic;
++	u8 tx_num, i;
++	u8 band = hal_data->CurrentBandType;
++	u8 cch = hal_data->CurrentChannel;
++	u8 bw = hal_data->CurrentChannelBW;
++
++	if (!HAL_SPEC_CHK_RF_PATH(hal_spec, rfpath))
++		return;
++
++	if (rs >= RATE_SECTION_NUM)
++		return;
++
++	tx_num = rate_section_to_tx_num(rs);
++	if (tx_num >= hal_spec->nss_num || tx_num >= hal_spec->max_tx_cnt)
++		return;
++
++	if (band == BAND_ON_5G && IS_CCK_RATE_SECTION(rs))
++		return;
++
++	if (IS_VHT_RATE_SECTION(rs) && !IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(adapter))
++		return;
++
++	for (i = 0; i < rates_by_sections[rs].rate_num; i++) {
++		power_idx = rtw_hal_get_tx_power_index(adapter, rfpath, rates_by_sections[rs].rates[i], bw, cch, &tic);
++
++		RTW_PRINT_SEL(sel, "%4c %9s %3u %4u %3d (%3d %3d) %3d %5d\n"
++			, rf_path_char(rfpath), MGN_RATE_STR(rates_by_sections[rs].rates[i])
++			, power_idx, tic.base, (tic.by_rate > tic.limit ? tic.limit : tic.by_rate), tic.by_rate, tic.limit, tic.tpt, tic.ebias);
++	}
++}
++
++void dump_tx_power_idx(void *sel, _adapter *adapter)
++{
++	u8 rfpath, rs;
++
++	dump_tx_power_idx_title(sel, adapter);
++	for (rfpath = RF_PATH_A; rfpath < RF_PATH_MAX; rfpath++)
++		for (rs = CCK; rs < RATE_SECTION_NUM; rs++)
++			dump_tx_power_idx_by_path_rs(sel, adapter, rfpath, rs);
++}
++
++bool phy_is_tx_power_limit_needed(_adapter *adapter)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct registry_priv *regsty = dvobj_to_regsty(adapter_to_dvobj(adapter));
++
++	if (regsty->RegEnableTxPowerLimit == 1
++		|| (regsty->RegEnableTxPowerLimit == 2 && hal_data->EEPROMRegulatory == 1))
++		return _TRUE;
++	return _FALSE;
++}
++
++bool phy_is_tx_power_by_rate_needed(_adapter *adapter)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct registry_priv *regsty = dvobj_to_regsty(adapter_to_dvobj(adapter));
++
++	if (regsty->RegEnableTxPowerByRate == 1
++		|| (regsty->RegEnableTxPowerByRate == 2 && hal_data->EEPROMRegulatory != 2))
++		return _TRUE;
++	return _FALSE;
++}
++
++int phy_load_tx_power_by_rate(_adapter *adapter, u8 chk_file)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct registry_priv *regsty = dvobj_to_regsty(adapter_to_dvobj(adapter));
++	int ret = _FAIL;
++
++	hal_data->txpwr_by_rate_loaded = 0;
++	PHY_InitTxPowerByRate(adapter);
++
++	/* tx power limit is based on tx power by rate */
++	hal_data->txpwr_limit_loaded = 0;
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	if (chk_file
++		&& phy_ConfigBBWithPgParaFile(adapter, PHY_FILE_PHY_REG_PG) == _SUCCESS
++	) {
++		hal_data->txpwr_by_rate_from_file = 1;
++		goto post_hdl;
++	}
++#endif
++
++#ifdef CONFIG_EMBEDDED_FWIMG
++	if (HAL_STATUS_SUCCESS == ODM_ConfigBBWithHeaderFile(&hal_data->odmpriv, CONFIG_BB_PHY_REG_PG)) {
++		RTW_INFO("default power by rate loaded\n");
++		hal_data->txpwr_by_rate_from_file = 0;
++		goto post_hdl;
++	}
++#endif
++
++	RTW_ERR("%s():Read Tx power by rate fail\n", __func__);
++	goto exit;
++
++post_hdl:
++	if (hal_data->odmpriv.PhyRegPgValueType != PHY_REG_PG_EXACT_VALUE) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	PHY_TxPowerByRateConfiguration(adapter);
++	hal_data->txpwr_by_rate_loaded = 1;
++
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++int phy_load_tx_power_limit(_adapter *adapter, u8 chk_file)
++{
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct registry_priv *regsty = dvobj_to_regsty(adapter_to_dvobj(adapter));
++	int ret = _FAIL;
++
++	hal_data->txpwr_limit_loaded = 0;
++	PHY_InitTxPowerLimit(adapter);
++
++	if (!hal_data->txpwr_by_rate_loaded && regsty->target_tx_pwr_valid != _TRUE) {
++		RTW_ERR("%s():Read Tx power limit before target tx power is specify\n", __func__);
++		goto exit;
++	}
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	if (chk_file
++		&& PHY_ConfigRFWithPowerLimitTableParaFile(adapter, PHY_FILE_TXPWR_LMT) == _SUCCESS
++	) {
++		hal_data->txpwr_limit_from_file = 1;
++		goto post_hdl;
++	}
++#endif
++
++#ifdef CONFIG_EMBEDDED_FWIMG
++	if (HAL_STATUS_SUCCESS == ODM_ConfigRFWithHeaderFile(&hal_data->odmpriv, CONFIG_RF_TXPWR_LMT, (ODM_RF_RADIO_PATH_E)0)) {
++		RTW_INFO("default power limit loaded\n");
++		hal_data->txpwr_limit_from_file = 0;
++		goto post_hdl;
++	}
++#endif
++
++	RTW_ERR("%s():Read Tx power limit fail\n", __func__);
++	goto exit;
++
++post_hdl:
++	PHY_ConvertTxPowerLimitToPowerIndex(adapter);
++	hal_data->txpwr_limit_loaded = 1;
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++void phy_load_tx_power_ext_info(_adapter *adapter, u8 chk_file)
++{
++	struct registry_priv *regsty = adapter_to_regsty(adapter);
++
++	/* check registy target tx power */
++	regsty->target_tx_pwr_valid = rtw_regsty_chk_target_tx_power_valid(adapter);
++
++	/* power by rate and limit */
++	if (phy_is_tx_power_by_rate_needed(adapter)
++		|| (phy_is_tx_power_limit_needed(adapter) && regsty->target_tx_pwr_valid != _TRUE)
++	)
++		phy_load_tx_power_by_rate(adapter, chk_file);
++
++	if (phy_is_tx_power_limit_needed(adapter))
++		phy_load_tx_power_limit(adapter, chk_file);
++}
++
++inline void phy_reload_tx_power_ext_info(_adapter *adapter)
++{
++	phy_load_tx_power_ext_info(adapter, 1);
++}
++
++inline void phy_reload_default_tx_power_ext_info(_adapter *adapter)
++{
++	phy_load_tx_power_ext_info(adapter, 0);
++}
++
++void dump_tx_power_ext_info(void *sel, _adapter *adapter)
++{
++	struct registry_priv *regsty = adapter_to_regsty(adapter);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++
++	if (regsty->target_tx_pwr_valid == _TRUE)
++		RTW_PRINT_SEL(sel, "target_tx_power: from registry\n");
++	else if (phy_is_tx_power_by_rate_needed(adapter))
++		RTW_PRINT_SEL(sel, "target_tx_power: from power by rate\n"); 
++	else
++		RTW_PRINT_SEL(sel, "target_tx_power: unavailable\n");
++
++	RTW_PRINT_SEL(sel, "tx_power_by_rate: %s, %s, %s\n"
++		, phy_is_tx_power_by_rate_needed(adapter) ? "enabled" : "disabled"
++		, hal_data->txpwr_by_rate_loaded ? "loaded" : "unloaded"
++		, hal_data->txpwr_by_rate_from_file ? "file" : "default"
++	);
++
++	RTW_PRINT_SEL(sel, "tx_power_limit: %s, %s, %s\n"
++		, phy_is_tx_power_limit_needed(adapter) ? "enabled" : "disabled"
++		, hal_data->txpwr_limit_loaded ? "loaded" : "unloaded"
++		, hal_data->txpwr_limit_from_file ? "file" : "default"
++	);
++}
++
++void dump_target_tx_power(void *sel, _adapter *adapter)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct registry_priv *regsty = adapter_to_regsty(adapter);
++	int path, tx_num, band, rs;
++	u8 target;
++
++	for (band = BAND_ON_2_4G; band <= BAND_ON_5G; band++) {
++		if (!hal_is_band_support(adapter, band))
++			continue;
++
++		for (path = 0; path < RF_PATH_MAX; path++) {
++			if (path >= hal_data->NumTotalRFPath)
++				break;
++
++			RTW_PRINT_SEL(sel, "[%s][%c]\n", band_str(band), rf_path_char(path));
++
++			for (rs = 0; rs < RATE_SECTION_NUM; rs++) {
++				tx_num = rate_section_to_tx_num(rs);
++				if (tx_num >= hal_spec->nss_num)
++					continue;
++
++				if (band == BAND_ON_5G && IS_CCK_RATE_SECTION(rs))
++					continue;
++
++				if (IS_VHT_RATE_SECTION(rs) && !IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(adapter))
++					continue;
++
++				target = PHY_GetTxPowerByRateBase(adapter, band, path, rate_section_to_tx_num(rs), rs);
++
++				if (target % 2)
++					_RTW_PRINT_SEL(sel, "%7s: %2d.5\n", rate_section_str(rs), target / 2);
++				else
++					_RTW_PRINT_SEL(sel, "%7s: %4d\n", rate_section_str(rs), target / 2);
++			}
++		}
++	}
++
++exit:
++	return;
++}
++
++void dump_tx_power_by_rate(void *sel, _adapter *adapter)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	int path, tx_num, band, n, rs;
++	u8 rate_num, max_rate_num, base;
++	s8 by_rate_offset;
++
++	for (band = BAND_ON_2_4G; band <= BAND_ON_5G; band++) {
++		if (!hal_is_band_support(adapter, band))
++			continue;
++
++		for (path = 0; path < RF_PATH_MAX; path++) {
++			if (path >= hal_data->NumTotalRFPath)
++				break;
++
++			RTW_PRINT_SEL(sel, "[%s][%c]\n", band_str(band), rf_path_char(path));
++
++			for (rs = 0; rs < RATE_SECTION_NUM; rs++) {
++				tx_num = rate_section_to_tx_num(rs);
++				if (tx_num >= hal_spec->nss_num)
++					continue;
++
++				if (band == BAND_ON_5G && IS_CCK_RATE_SECTION(rs))
++					continue;
++
++				if (IS_VHT_RATE_SECTION(rs) && !IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(adapter))
++					continue;
++
++				if (IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(adapter))
++					max_rate_num = 10;
++				else
++					max_rate_num = 8;
++				rate_num = rate_section_rate_num(rs);
++				base = PHY_GetTxPowerByRateBase(adapter, band, path, tx_num, rs);
++
++				RTW_PRINT_SEL(sel, "%7s: ", rate_section_str(rs));
++
++				/* dump power by rate in db */
++				for (n = rate_num - 1; n >= 0; n--) {
++					by_rate_offset = PHY_GetTxPowerByRate(adapter, band, path, tx_num, rates_by_sections[rs].rates[n]);
++
++					if ((base + by_rate_offset) % 2)
++						_RTW_PRINT_SEL(sel, "%2d.5 ", (base + by_rate_offset) / 2);
++					else
++						_RTW_PRINT_SEL(sel, "%4d ", (base + by_rate_offset) / 2);
++				}
++				for (n = 0; n < max_rate_num - rate_num; n++)
++					_RTW_PRINT_SEL(sel, "%4s ", "");
++
++				_RTW_PRINT_SEL(sel, "|");
++
++				/* dump power by rate in offset */
++				for (n = rate_num - 1; n >= 0; n--) {
++					by_rate_offset = PHY_GetTxPowerByRate(adapter, band, path, tx_num, rates_by_sections[rs].rates[n]);
++					_RTW_PRINT_SEL(sel, "%3d ", by_rate_offset);
++				}
++				RTW_PRINT_SEL(sel, "\n");
++
++			}
++		}
++	}
++}
++
++void dump_tx_power_limit(void *sel, _adapter *adapter)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct registry_priv *regsty = dvobj_to_regsty(adapter_to_dvobj(adapter));
++
++	int bw, band, ch_num, rs, i, path;
++	u8 ch, n, rd;
++
++	if (IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(adapter))
++		RTW_PRINT_SEL(sel, "tx_pwr_lmt_5g_20_40_ref:0x%02x\n", hal_data->tx_pwr_lmt_5g_20_40_ref);
++
++	for (band = BAND_ON_2_4G; band <= BAND_ON_5G; band++) {
++		if (!hal_is_band_support(adapter, band))
++			continue;
++
++		rd = (band == BAND_ON_2_4G ? hal_data->Regulation2_4G : hal_data->Regulation5G);
++
++		for (bw = 0; bw < MAX_5G_BANDWIDTH_NUM; bw++) {
++
++			if (bw >= CHANNEL_WIDTH_160)
++				break;
++			if (band == BAND_ON_2_4G && bw >= CHANNEL_WIDTH_80)
++				break;
++
++			if (band == BAND_ON_2_4G)
++				ch_num = CENTER_CH_2G_NUM;
++			else
++				ch_num = center_chs_5g_num(bw);
++
++			if (ch_num == 0) {
++				rtw_warn_on(1);
++				break;
++			}
++
++			for (rs = 0; rs < RATE_SECTION_NUM; rs++) {
++				if (band == BAND_ON_2_4G && IS_VHT_RATE_SECTION(rs))
++					continue;
++				if (band == BAND_ON_5G && IS_CCK_RATE_SECTION(rs))
++					continue;
++				if (bw > CHANNEL_WIDTH_20 && (IS_CCK_RATE_SECTION(rs) || IS_OFDM_RATE_SECTION(rs)))
++					continue;
++				if (bw > CHANNEL_WIDTH_40 && IS_HT_RATE_SECTION(rs))
++					continue;
++
++				if (rate_section_to_tx_num(rs) >= hal_spec->nss_num)
++					continue;
++
++				if (IS_VHT_RATE_SECTION(rs) && !IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(adapter))
++					continue;
++
++				/* by pass 5G 20M, 40M pure reference */
++				if (band == BAND_ON_5G && (bw == CHANNEL_WIDTH_20 || bw == CHANNEL_WIDTH_40)) {
++					if (hal_data->tx_pwr_lmt_5g_20_40_ref == TX_PWR_LMT_REF_HT_FROM_VHT) {
++						if (IS_HT_RATE_SECTION(rs))
++							continue;
++					} else if (hal_data->tx_pwr_lmt_5g_20_40_ref == TX_PWR_LMT_REF_VHT_FROM_HT) {
++						if (IS_VHT_RATE_SECTION(rs) && bw <= CHANNEL_WIDTH_40)
++							continue;
++					}
++				}
++
++				RTW_PRINT_SEL(sel, "[%s][%s][%s]\n"
++					, band_str(band)
++					, ch_width_str(bw)
++					, rate_section_str(rs)
++				);
++
++				/* header for limit in db */
++				RTW_PRINT_SEL(sel, "%3s %5s %5s %5s %5s "
++					, "ch"
++					, (rd == TXPWR_LMT_FCC ? "*FCC" : "FCC")
++					, (rd == TXPWR_LMT_ETSI ? "*ETSI" : "ETSI")
++					, (rd == TXPWR_LMT_MKK ? "*MKK" : "MKK")
++					, (rd == TXPWR_LMT_WW ? "*WW" : "WW")
++				);
++
++				/* header for limit offset */
++				for (path = 0; path < RF_PATH_MAX; path++) {
++					if (path >= hal_data->NumTotalRFPath)
++						break;
++					_RTW_PRINT_SEL(sel, "|%3c %3c %3c %3c "
++						, (rd == TXPWR_LMT_FCC ? rf_path_char(path) : ' ')
++						, (rd == TXPWR_LMT_ETSI ? rf_path_char(path) : ' ')
++						, (rd == TXPWR_LMT_MKK ? rf_path_char(path) : ' ')
++						, (rd == TXPWR_LMT_WW ? rf_path_char(path) : ' ')
++					);
++				}
++				_RTW_PRINT_SEL(sel, "\n");
++
++				for (n = 0; n < ch_num; n++) {
++					s8 limit_idx[RF_PATH_MAX][MAX_REGULATION_NUM];
++					s8 limit_offset[MAX_REGULATION_NUM];
++					u8 base;
++
++					if (band == BAND_ON_2_4G)
++						ch = n + 1;
++					else
++						ch = center_chs_5g(bw, n);
++
++					if (ch == 0) {
++						rtw_warn_on(1);
++						break;
++					}
++
++					/* dump limit in db (calculate from path A) */
++					limit_offset[0] = PHY_GetTxPowerLimit_no_sc(adapter, 3, band, bw, RF_PATH_A, rates_by_sections[rs].rates[0], ch); /* FCC */
++					limit_offset[1] = PHY_GetTxPowerLimit_no_sc(adapter, 1, band, bw, RF_PATH_A, rates_by_sections[rs].rates[0], ch); /* ETSI */
++					limit_offset[2] = PHY_GetTxPowerLimit_no_sc(adapter, 2, band, bw, RF_PATH_A, rates_by_sections[rs].rates[0], ch); /* MKK */
++					limit_offset[3] = PHY_GetTxPowerLimit_no_sc(adapter, 4, band, bw, RF_PATH_A, rates_by_sections[rs].rates[0], ch); /* WW */
++
++					base = PHY_GetTxPowerByRateBase(adapter, band, RF_PATH_A, rate_section_to_tx_num(rs), rs);
++
++					RTW_PRINT_SEL(sel, "%3u ", ch);
++					for (i = 0; i < MAX_REGULATION_NUM; i++) {
++						if (limit_offset[i] == MAX_POWER_INDEX) {
++							limit_idx[0][i] = MAX_POWER_INDEX;
++							_RTW_PRINT_SEL(sel, "%5s ", "NA");
++						} else {
++							limit_idx[0][i] = limit_offset[i] + base;
++							if ((limit_offset[i] + base) % 2)
++								_RTW_PRINT_SEL(sel, "%3d.5 ", (limit_offset[i] + base) / 2);
++							else
++								_RTW_PRINT_SEL(sel, "%5d ", (limit_offset[i] + base) / 2);
++						}
++					}
++
++					/* dump limit offset of each path */
++					for (path = 0; path < RF_PATH_MAX; path++) {
++						if (path >= hal_data->NumTotalRFPath)
++							break;
++						limit_offset[0] = PHY_GetTxPowerLimit_no_sc(adapter, 3, band, bw, path, rates_by_sections[rs].rates[0], ch); /* FCC */
++						limit_offset[1] = PHY_GetTxPowerLimit_no_sc(adapter, 1, band, bw, path, rates_by_sections[rs].rates[0], ch); /* ETSI */
++						limit_offset[2] = PHY_GetTxPowerLimit_no_sc(adapter, 2, band, bw, path, rates_by_sections[rs].rates[0], ch); /* MKK */
++						limit_offset[3] = PHY_GetTxPowerLimit_no_sc(adapter, 4, band, bw, path, rates_by_sections[rs].rates[0], ch); /* WW */
++
++						base = PHY_GetTxPowerByRateBase(adapter, band, path, rate_section_to_tx_num(rs), rs);
++
++						_RTW_PRINT_SEL(sel, "|");
++						for (i = 0; i < MAX_REGULATION_NUM; i++) {
++							if (limit_offset[i] == MAX_POWER_INDEX) {
++								limit_idx[path][i] = MAX_POWER_INDEX;
++								_RTW_PRINT_SEL(sel, "%3s ", "NA");
++							} else {
++								limit_idx[path][i] = limit_offset[i] + base;
++								_RTW_PRINT_SEL(sel, "%3d ", limit_offset[i]);
++							}
++						}
++					}
++
++					/* compare limit_idx of each path, print 'x' when mismatch */
++					if (hal_data->NumTotalRFPath > 1) {
++						for (i = 0; i < MAX_REGULATION_NUM; i++) {
++							for (path = 0; path < RF_PATH_MAX; path++) {
++								if (path >= hal_data->NumTotalRFPath)
++									break;
++								if (limit_idx[path][i] != limit_idx[(path + 1) % hal_data->NumTotalRFPath][i])
++									break;
++							}
++							if (path >= hal_data->NumTotalRFPath)
++								_RTW_PRINT_SEL(sel, " ");
++							else
++								_RTW_PRINT_SEL(sel, "x");
++						}
++					}
++					_RTW_PRINT_SEL(sel, "\n");
++
++				}
++				RTW_PRINT_SEL(sel, "\n");
++			}
++		}
++	}
++}
++
++/*
++ * phy file path is stored in global char array rtw_phy_para_file_path
++ * need to care about racing
++ */
++int rtw_get_phy_file_path(_adapter *adapter, const char *file_name)
++{
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++	int len = 0;
++
++	if (file_name) {
++		len += snprintf(rtw_phy_para_file_path, PATH_LENGTH_MAX, "%s", rtw_phy_file_path);
++		#if defined(CONFIG_MULTIDRV) || defined(REALTEK_CONFIG_PATH_WITH_IC_NAME_FOLDER)
++		len += snprintf(rtw_phy_para_file_path + len, PATH_LENGTH_MAX - len, "%s/", hal_spec->ic_name);
++		#endif
++		len += snprintf(rtw_phy_para_file_path + len, PATH_LENGTH_MAX - len, "%s", file_name);
++
++		return _TRUE;
++	}
++#endif
++	return _FALSE;
++}
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++int
++phy_ConfigMACWithParaFile(
++	IN	PADAPTER	Adapter,
++	IN	char		*pFileName
++)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	int	rlen = 0, rtStatus = _FAIL;
++	char	*szLine, *ptmp;
++	u32	u4bRegOffset, u4bRegValue, u4bMove;
++
++	if (!(Adapter->registrypriv.load_phy_file & LOAD_MAC_PARA_FILE))
++		return rtStatus;
++
++	_rtw_memset(pHalData->para_file_buf, 0, MAX_PARA_FILE_BUF_LEN);
++
++	if ((pHalData->mac_reg_len == 0) && (pHalData->mac_reg == NULL)) {
++		rtw_get_phy_file_path(Adapter, pFileName);
++		if (rtw_is_file_readable(rtw_phy_para_file_path) == _TRUE) {
++			rlen = rtw_retrieve_from_file(rtw_phy_para_file_path, pHalData->para_file_buf, MAX_PARA_FILE_BUF_LEN);
++			if (rlen > 0) {
++				rtStatus = _SUCCESS;
++				pHalData->mac_reg = rtw_zvmalloc(rlen);
++				if (pHalData->mac_reg) {
++					_rtw_memcpy(pHalData->mac_reg, pHalData->para_file_buf, rlen);
++					pHalData->mac_reg_len = rlen;
++				} else
++					RTW_INFO("%s mac_reg alloc fail !\n", __FUNCTION__);
++			}
++		}
++	} else {
++		if ((pHalData->mac_reg_len != 0) && (pHalData->mac_reg != NULL)) {
++			_rtw_memcpy(pHalData->para_file_buf, pHalData->mac_reg, pHalData->mac_reg_len);
++			rtStatus = _SUCCESS;
++		} else
++			RTW_INFO("%s(): Critical Error !!!\n", __FUNCTION__);
++	}
++
++	if (rtStatus == _SUCCESS) {
++		ptmp = pHalData->para_file_buf;
++		for (szLine = GetLineFromBuffer(ptmp); szLine != NULL; szLine = GetLineFromBuffer(ptmp)) {
++			if (!IsCommentString(szLine)) {
++				/* Get 1st hex value as register offset */
++				if (GetHexValueFromString(szLine, &u4bRegOffset, &u4bMove)) {
++					if (u4bRegOffset == 0xffff) {
++						/* Ending. */
++						break;
++					}
++
++					/* Get 2nd hex value as register value. */
++					szLine += u4bMove;
++					if (GetHexValueFromString(szLine, &u4bRegValue, &u4bMove))
++						rtw_write8(Adapter, u4bRegOffset, (u8)u4bRegValue);
++				}
++			}
++		}
++	} else
++		RTW_INFO("%s(): No File %s, Load from HWImg Array!\n", __FUNCTION__, pFileName);
++
++	return rtStatus;
++}
++
++int
++phy_ConfigBBWithParaFile(
++	IN	PADAPTER	Adapter,
++	IN	char		*pFileName,
++	IN	u32			ConfigType
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	int	rlen = 0, rtStatus = _FAIL;
++	char	*szLine, *ptmp;
++	u32	u4bRegOffset, u4bRegValue, u4bMove;
++	char	*pBuf = NULL;
++	u32	*pBufLen = NULL;
++
++	if (!(Adapter->registrypriv.load_phy_file & LOAD_BB_PARA_FILE))
++		return rtStatus;
++
++	switch (ConfigType) {
++	case CONFIG_BB_PHY_REG:
++		pBuf = pHalData->bb_phy_reg;
++		pBufLen = &pHalData->bb_phy_reg_len;
++		break;
++	case CONFIG_BB_AGC_TAB:
++		pBuf = pHalData->bb_agc_tab;
++		pBufLen = &pHalData->bb_agc_tab_len;
++		break;
++	default:
++		RTW_INFO("Unknown ConfigType!! %d\r\n", ConfigType);
++		break;
++	}
++
++	_rtw_memset(pHalData->para_file_buf, 0, MAX_PARA_FILE_BUF_LEN);
++
++	if ((pBufLen != NULL) && (*pBufLen == 0) && (pBuf == NULL)) {
++		rtw_get_phy_file_path(Adapter, pFileName);
++		if (rtw_is_file_readable(rtw_phy_para_file_path) == _TRUE) {
++			rlen = rtw_retrieve_from_file(rtw_phy_para_file_path, pHalData->para_file_buf, MAX_PARA_FILE_BUF_LEN);
++			if (rlen > 0) {
++				rtStatus = _SUCCESS;
++				pBuf = rtw_zvmalloc(rlen);
++				if (pBuf) {
++					_rtw_memcpy(pBuf, pHalData->para_file_buf, rlen);
++					*pBufLen = rlen;
++
++					switch (ConfigType) {
++					case CONFIG_BB_PHY_REG:
++						pHalData->bb_phy_reg = pBuf;
++						break;
++					case CONFIG_BB_AGC_TAB:
++						pHalData->bb_agc_tab = pBuf;
++						break;
++					}
++				} else
++					RTW_INFO("%s(): ConfigType %d  alloc fail !\n", __FUNCTION__, ConfigType);
++			}
++		}
++	} else {
++		if ((pBufLen != NULL) && (*pBufLen != 0) && (pBuf != NULL)) {
++			_rtw_memcpy(pHalData->para_file_buf, pBuf, *pBufLen);
++			rtStatus = _SUCCESS;
++		} else
++			RTW_INFO("%s(): Critical Error !!!\n", __FUNCTION__);
++	}
++
++	if (rtStatus == _SUCCESS) {
++		ptmp = pHalData->para_file_buf;
++		for (szLine = GetLineFromBuffer(ptmp); szLine != NULL; szLine = GetLineFromBuffer(ptmp)) {
++			if (!IsCommentString(szLine)) {
++				/* Get 1st hex value as register offset. */
++				if (GetHexValueFromString(szLine, &u4bRegOffset, &u4bMove)) {
++					if (u4bRegOffset == 0xffff) {
++						/* Ending. */
++						break;
++					} else if (u4bRegOffset == 0xfe || u4bRegOffset == 0xffe) {
++#ifdef CONFIG_LONG_DELAY_ISSUE
++						rtw_msleep_os(50);
++#else
++						rtw_mdelay_os(50);
++#endif
++					} else if (u4bRegOffset == 0xfd)
++						rtw_mdelay_os(5);
++					else if (u4bRegOffset == 0xfc)
++						rtw_mdelay_os(1);
++					else if (u4bRegOffset == 0xfb)
++						rtw_udelay_os(50);
++					else if (u4bRegOffset == 0xfa)
++						rtw_udelay_os(5);
++					else if (u4bRegOffset == 0xf9)
++						rtw_udelay_os(1);
++
++					/* Get 2nd hex value as register value. */
++					szLine += u4bMove;
++					if (GetHexValueFromString(szLine, &u4bRegValue, &u4bMove)) {
++						/* RTW_INFO("[BB-ADDR]%03lX=%08lX\n", u4bRegOffset, u4bRegValue); */
++						PHY_SetBBReg(Adapter, u4bRegOffset, bMaskDWord, u4bRegValue);
++
++						if (u4bRegOffset == 0xa24)
++							pHalData->odmpriv.RFCalibrateInfo.RegA24 = u4bRegValue;
++
++						/* Add 1us delay between BB/RF register setting. */
++						rtw_udelay_os(1);
++					}
++				}
++			}
++		}
++	} else
++		RTW_INFO("%s(): No File %s, Load from HWImg Array!\n", __FUNCTION__, pFileName);
++
++	return rtStatus;
++}
++
++VOID
++phy_DecryptBBPgParaFile(
++	PADAPTER		Adapter,
++	char			*buffer
++)
++{
++	u32	i = 0, j = 0;
++	u8	map[95] = {0};
++	u8	currentChar;
++	char	*BufOfLines, *ptmp;
++
++	/* RTW_INFO("=====>phy_DecryptBBPgParaFile()\n"); */
++	/* 32 the ascii code of the first visable char, 126 the last one */
++	for (i = 0; i < 95; ++i)
++		map[i] = (u8)(94 - i);
++
++	ptmp = buffer;
++	i = 0;
++	for (BufOfLines = GetLineFromBuffer(ptmp); BufOfLines != NULL; BufOfLines = GetLineFromBuffer(ptmp)) {
++		/* RTW_INFO("Encrypted Line: %s\n", BufOfLines); */
++
++		for (j = 0; j < strlen(BufOfLines); ++j) {
++			currentChar = BufOfLines[j];
++
++			if (currentChar == '\0')
++				break;
++
++			currentChar -= (u8)((((i + j) * 3) % 128));
++
++			BufOfLines[j] = map[currentChar - 32] + 32;
++		}
++		/* RTW_INFO("Decrypted Line: %s\n", BufOfLines ); */
++		if (strlen(BufOfLines) != 0)
++			i++;
++		BufOfLines[strlen(BufOfLines)] = '\n';
++	}
++}
++
++int
++phy_ParseBBPgParaFile(
++	PADAPTER		Adapter,
++	char			*buffer
++)
++{
++	int	rtStatus = _SUCCESS;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	char	*szLine, *ptmp;
++	u32	u4bRegOffset, u4bRegMask, u4bRegValue;
++	u32	u4bMove;
++	BOOLEAN firstLine = _TRUE;
++	u8	tx_num = 0;
++	u8	band = 0, rf_path = 0;
++
++	/* RTW_INFO("=====>phy_ParseBBPgParaFile()\n"); */
++
++	if (Adapter->registrypriv.RegDecryptCustomFile == 1)
++		phy_DecryptBBPgParaFile(Adapter, buffer);
++
++	ptmp = buffer;
++	for (szLine = GetLineFromBuffer(ptmp); szLine != NULL; szLine = GetLineFromBuffer(ptmp)) {
++		if (isAllSpaceOrTab(szLine, sizeof(*szLine)))
++			continue;
++
++		if (!IsCommentString(szLine)) {
++			/* Get header info (relative value or exact value) */
++			if (firstLine) {
++				if (eqNByte(szLine, (u8 *)("#[v1]"), 5)) {
++
++					pHalData->odmpriv.PhyRegPgVersion = szLine[3] - '0';
++					/* RTW_INFO("This is a new format PHY_REG_PG.txt\n"); */
++				} else if (eqNByte(szLine, (u8 *)("#[v0]"), 5)) {
++					pHalData->odmpriv.PhyRegPgVersion = szLine[3] - '0';
++					/* RTW_INFO("This is a old format PHY_REG_PG.txt ok\n"); */
++				} else {
++					RTW_INFO("The format in PHY_REG_PG are invalid %s\n", szLine);
++					return _FAIL;
++				}
++
++				if (eqNByte(szLine + 5, (u8 *)("[Exact]#"), 8)) {
++					pHalData->odmpriv.PhyRegPgValueType = PHY_REG_PG_EXACT_VALUE;
++					/* RTW_INFO("The values in PHY_REG_PG are exact values ok\n"); */
++					firstLine = _FALSE;
++					continue;
++				} else if (eqNByte(szLine + 5, (pu1Byte)("[Relative]#"), 11)) {
++					pHalData->odmpriv.PhyRegPgValueType = PHY_REG_PG_RELATIVE_VALUE;
++					/* RTW_INFO("The values in PHY_REG_PG are relative values ok\n"); */
++					firstLine = _FALSE;
++					continue;
++				} else {
++					RTW_INFO("The values in PHY_REG_PG are invalid %s\n", szLine);
++					return _FAIL;
++				}
++			}
++
++			if (pHalData->odmpriv.PhyRegPgVersion == 0) {
++				/* Get 1st hex value as register offset. */
++				if (GetHexValueFromString(szLine, &u4bRegOffset, &u4bMove)) {
++					szLine += u4bMove;
++					if (u4bRegOffset == 0xffff) {
++						/* Ending. */
++						break;
++					}
++
++					/* Get 2nd hex value as register mask. */
++					if (GetHexValueFromString(szLine, &u4bRegMask, &u4bMove))
++						szLine += u4bMove;
++					else
++						return _FAIL;
++
++					if (pHalData->odmpriv.PhyRegPgValueType == PHY_REG_PG_RELATIVE_VALUE) {
++						/* Get 3rd hex value as register value. */
++						if (GetHexValueFromString(szLine, &u4bRegValue, &u4bMove)) {
++							PHY_StoreTxPowerByRate(Adapter, 0, 0, 1, u4bRegOffset, u4bRegMask, u4bRegValue);
++							/* RTW_INFO("[ADDR] %03X=%08X Mask=%08x\n", u4bRegOffset, u4bRegValue, u4bRegMask); */
++						} else
++							return _FAIL;
++					} else if (pHalData->odmpriv.PhyRegPgValueType == PHY_REG_PG_EXACT_VALUE) {
++						u32	combineValue = 0;
++						u8	integer = 0, fraction = 0;
++
++						if (GetFractionValueFromString(szLine, &integer, &fraction, &u4bMove))
++							szLine += u4bMove;
++						else
++							return _FAIL;
++
++						integer *= 2;
++						if (fraction == 5)
++							integer += 1;
++						combineValue |= (((integer / 10) << 4) + (integer % 10));
++						/* RTW_INFO(" %d", integer ); */
++
++						if (GetFractionValueFromString(szLine, &integer, &fraction, &u4bMove))
++							szLine += u4bMove;
++						else
++							return _FAIL;
++
++						integer *= 2;
++						if (fraction == 5)
++							integer += 1;
++						combineValue <<= 8;
++						combineValue |= (((integer / 10) << 4) + (integer % 10));
++						/* RTW_INFO(" %d", integer ); */
++
++						if (GetFractionValueFromString(szLine, &integer, &fraction, &u4bMove))
++							szLine += u4bMove;
++						else
++							return _FAIL;
++
++						integer *= 2;
++						if (fraction == 5)
++							integer += 1;
++						combineValue <<= 8;
++						combineValue |= (((integer / 10) << 4) + (integer % 10));
++						/* RTW_INFO(" %d", integer ); */
++
++						if (GetFractionValueFromString(szLine, &integer, &fraction, &u4bMove))
++							szLine += u4bMove;
++						else
++							return _FAIL;
++
++						integer *= 2;
++						if (fraction == 5)
++							integer += 1;
++						combineValue <<= 8;
++						combineValue |= (((integer / 10) << 4) + (integer % 10));
++						/* RTW_INFO(" %d", integer ); */
++						PHY_StoreTxPowerByRate(Adapter, 0, 0, 1, u4bRegOffset, u4bRegMask, combineValue);
++
++						/* RTW_INFO("[ADDR] 0x%3x = 0x%4x\n", u4bRegOffset, combineValue ); */
++					}
++				}
++			} else if (pHalData->odmpriv.PhyRegPgVersion > 0) {
++				u32	index = 0, cnt = 0;
++
++				if (eqNByte(szLine, "0xffff", 6))
++					break;
++
++				if (!eqNByte("#[END]#", szLine, 7)) {
++					/* load the table label info */
++					if (szLine[0] == '#') {
++						index = 0;
++						if (eqNByte(szLine, "#[2.4G]" , 7)) {
++							band = BAND_ON_2_4G;
++							index += 8;
++						} else if (eqNByte(szLine, "#[5G]", 5)) {
++							band = BAND_ON_5G;
++							index += 6;
++						} else {
++							RTW_INFO("Invalid band %s in PHY_REG_PG.txt\n", szLine);
++							return _FAIL;
++						}
++
++						rf_path = szLine[index] - 'A';
++						/* RTW_INFO(" Table label Band %d, RfPath %d\n", band, rf_path ); */
++					} else { /* load rows of tables */
++						if (szLine[1] == '1')
++							tx_num = RF_1TX;
++						else if (szLine[1] == '2')
++							tx_num = RF_2TX;
++						else if (szLine[1] == '3')
++							tx_num = RF_3TX;
++						else if (szLine[1] == '4')
++							tx_num = RF_4TX;
++						else {
++							RTW_INFO("Invalid row in PHY_REG_PG.txt '%c'(%d)\n", szLine[1], szLine[1]);
++							return _FAIL;
++						}
++
++						while (szLine[index] != ']')
++							++index;
++						++index;/* skip ] */
++
++						/* Get 2nd hex value as register offset. */
++						szLine += index;
++						if (GetHexValueFromString(szLine, &u4bRegOffset, &u4bMove))
++							szLine += u4bMove;
++						else
++							return _FAIL;
++
++						/* Get 2nd hex value as register mask. */
++						if (GetHexValueFromString(szLine, &u4bRegMask, &u4bMove))
++							szLine += u4bMove;
++						else
++							return _FAIL;
++
++						if (pHalData->odmpriv.PhyRegPgValueType == PHY_REG_PG_RELATIVE_VALUE) {
++							/* Get 3rd hex value as register value. */
++							if (GetHexValueFromString(szLine, &u4bRegValue, &u4bMove)) {
++								PHY_StoreTxPowerByRate(Adapter, band, rf_path, tx_num, u4bRegOffset, u4bRegMask, u4bRegValue);
++								/* RTW_INFO("[ADDR] %03X (tx_num %d) =%08X Mask=%08x\n", u4bRegOffset, tx_num, u4bRegValue, u4bRegMask); */
++							} else
++								return _FAIL;
++						} else if (pHalData->odmpriv.PhyRegPgValueType == PHY_REG_PG_EXACT_VALUE) {
++							u32	combineValue = 0;
++							u8	integer = 0, fraction = 0;
++
++							if (GetFractionValueFromString(szLine, &integer, &fraction, &u4bMove))
++								szLine += u4bMove;
++							else
++								return _FAIL;
++
++							integer *= 2;
++							if (fraction == 5)
++								integer += 1;
++							combineValue |= (((integer / 10) << 4) + (integer % 10));
++							/* RTW_INFO(" %d", integer ); */
++
++							if (GetFractionValueFromString(szLine, &integer, &fraction, &u4bMove))
++								szLine += u4bMove;
++							else
++								return _FAIL;
++
++							integer *= 2;
++							if (fraction == 5)
++								integer += 1;
++							combineValue <<= 8;
++							combineValue |= (((integer / 10) << 4) + (integer % 10));
++							/* RTW_INFO(" %d", integer ); */
++
++							if (GetFractionValueFromString(szLine, &integer, &fraction, &u4bMove))
++								szLine += u4bMove;
++							else
++								return _FAIL;
++
++							integer *= 2;
++							if (fraction == 5)
++								integer += 1;
++							combineValue <<= 8;
++							combineValue |= (((integer / 10) << 4) + (integer % 10));
++							/* RTW_INFO(" %d", integer ); */
++
++							if (GetFractionValueFromString(szLine, &integer, &fraction, &u4bMove))
++								szLine += u4bMove;
++							else
++								return _FAIL;
++
++							integer *= 2;
++							if (fraction == 5)
++								integer += 1;
++							combineValue <<= 8;
++							combineValue |= (((integer / 10) << 4) + (integer % 10));
++							/* RTW_INFO(" %d", integer ); */
++							PHY_StoreTxPowerByRate(Adapter, band, rf_path, tx_num, u4bRegOffset, u4bRegMask, combineValue);
++
++							/* RTW_INFO("[ADDR] 0x%3x (tx_num %d) = 0x%4x\n", u4bRegOffset, tx_num, combineValue ); */
++						}
++					}
++				}
++			}
++		}
++	}
++	/* RTW_INFO("<=====phy_ParseBBPgParaFile()\n"); */
++	return rtStatus;
++}
++
++int
++phy_ConfigBBWithPgParaFile(
++	IN	PADAPTER	Adapter,
++	IN	const char	*pFileName)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	int	rlen = 0, rtStatus = _FAIL;
++
++	if (!(Adapter->registrypriv.load_phy_file & LOAD_BB_PG_PARA_FILE))
++		return rtStatus;
++
++	_rtw_memset(pHalData->para_file_buf, 0, MAX_PARA_FILE_BUF_LEN);
++
++	if (pHalData->bb_phy_reg_pg == NULL) {
++		rtw_get_phy_file_path(Adapter, pFileName);
++		if (rtw_is_file_readable(rtw_phy_para_file_path) == _TRUE) {
++			rlen = rtw_retrieve_from_file(rtw_phy_para_file_path, pHalData->para_file_buf, MAX_PARA_FILE_BUF_LEN);
++			if (rlen > 0) {
++				rtStatus = _SUCCESS;
++				pHalData->bb_phy_reg_pg = rtw_zvmalloc(rlen);
++				if (pHalData->bb_phy_reg_pg) {
++					_rtw_memcpy(pHalData->bb_phy_reg_pg, pHalData->para_file_buf, rlen);
++					pHalData->bb_phy_reg_pg_len = rlen;
++				} else
++					RTW_INFO("%s bb_phy_reg_pg alloc fail !\n", __FUNCTION__);
++			}
++		}
++	} else {
++		if ((pHalData->bb_phy_reg_pg_len != 0) && (pHalData->bb_phy_reg_pg != NULL)) {
++			_rtw_memcpy(pHalData->para_file_buf, pHalData->bb_phy_reg_pg, pHalData->bb_phy_reg_pg_len);
++			rtStatus = _SUCCESS;
++		} else
++			RTW_INFO("%s(): Critical Error !!!\n", __FUNCTION__);
++	}
++
++	if (rtStatus == _SUCCESS) {
++		/* RTW_INFO("phy_ConfigBBWithPgParaFile(): read %s ok\n", pFileName); */
++		phy_ParseBBPgParaFile(Adapter, pHalData->para_file_buf);
++	} else
++		RTW_INFO("%s(): No File %s, Load from HWImg Array!\n", __FUNCTION__, pFileName);
++
++	return rtStatus;
++}
++
++#if (MP_DRIVER == 1)
++
++int
++phy_ConfigBBWithMpParaFile(
++	IN	PADAPTER	Adapter,
++	IN	char		*pFileName
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	int	rlen = 0, rtStatus = _FAIL;
++	char	*szLine, *ptmp;
++	u32	u4bRegOffset, u4bRegValue, u4bMove;
++
++	if (!(Adapter->registrypriv.load_phy_file & LOAD_BB_MP_PARA_FILE))
++		return rtStatus;
++
++	_rtw_memset(pHalData->para_file_buf, 0, MAX_PARA_FILE_BUF_LEN);
++
++	if ((pHalData->bb_phy_reg_mp_len == 0) && (pHalData->bb_phy_reg_mp == NULL)) {
++		rtw_get_phy_file_path(Adapter, pFileName);
++		if (rtw_is_file_readable(rtw_phy_para_file_path) == _TRUE) {
++			rlen = rtw_retrieve_from_file(rtw_phy_para_file_path, pHalData->para_file_buf, MAX_PARA_FILE_BUF_LEN);
++			if (rlen > 0) {
++				rtStatus = _SUCCESS;
++				pHalData->bb_phy_reg_mp = rtw_zvmalloc(rlen);
++				if (pHalData->bb_phy_reg_mp) {
++					_rtw_memcpy(pHalData->bb_phy_reg_mp, pHalData->para_file_buf, rlen);
++					pHalData->bb_phy_reg_mp_len = rlen;
++				} else
++					RTW_INFO("%s bb_phy_reg_mp alloc fail !\n", __FUNCTION__);
++			}
++		}
++	} else {
++		if ((pHalData->bb_phy_reg_mp_len != 0) && (pHalData->bb_phy_reg_mp != NULL)) {
++			_rtw_memcpy(pHalData->para_file_buf, pHalData->bb_phy_reg_mp, pHalData->bb_phy_reg_mp_len);
++			rtStatus = _SUCCESS;
++		} else
++			RTW_INFO("%s(): Critical Error !!!\n", __FUNCTION__);
++	}
++
++	if (rtStatus == _SUCCESS) {
++		/* RTW_INFO("phy_ConfigBBWithMpParaFile(): read %s ok\n", pFileName); */
++
++		ptmp = pHalData->para_file_buf;
++		for (szLine = GetLineFromBuffer(ptmp); szLine != NULL; szLine = GetLineFromBuffer(ptmp)) {
++			if (!IsCommentString(szLine)) {
++				/* Get 1st hex value as register offset. */
++				if (GetHexValueFromString(szLine, &u4bRegOffset, &u4bMove)) {
++					if (u4bRegOffset == 0xffff) {
++						/* Ending. */
++						break;
++					} else if (u4bRegOffset == 0xfe || u4bRegOffset == 0xffe) {
++#ifdef CONFIG_LONG_DELAY_ISSUE
++						rtw_msleep_os(50);
++#else
++						rtw_mdelay_os(50);
++#endif
++					} else if (u4bRegOffset == 0xfd)
++						rtw_mdelay_os(5);
++					else if (u4bRegOffset == 0xfc)
++						rtw_mdelay_os(1);
++					else if (u4bRegOffset == 0xfb)
++						rtw_udelay_os(50);
++					else if (u4bRegOffset == 0xfa)
++						rtw_udelay_os(5);
++					else if (u4bRegOffset == 0xf9)
++						rtw_udelay_os(1);
++
++					/* Get 2nd hex value as register value. */
++					szLine += u4bMove;
++					if (GetHexValueFromString(szLine, &u4bRegValue, &u4bMove)) {
++						/* RTW_INFO("[ADDR]%03lX=%08lX\n", u4bRegOffset, u4bRegValue); */
++						PHY_SetBBReg(Adapter, u4bRegOffset, bMaskDWord, u4bRegValue);
++
++						/* Add 1us delay between BB/RF register setting. */
++						rtw_udelay_os(1);
++					}
++				}
++			}
++		}
++	} else
++		RTW_INFO("%s(): No File %s, Load from HWImg Array!\n", __FUNCTION__, pFileName);
++
++	return rtStatus;
++}
++
++#endif
++
++int
++PHY_ConfigRFWithParaFile(
++	IN	PADAPTER	Adapter,
++	IN	char		*pFileName,
++	IN	u8			eRFPath
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	int	rlen = 0, rtStatus = _FAIL;
++	char	*szLine, *ptmp;
++	u32	u4bRegOffset, u4bRegValue, u4bMove;
++	u16	i;
++	char	*pBuf = NULL;
++	u32	*pBufLen = NULL;
++
++	if (!(Adapter->registrypriv.load_phy_file & LOAD_RF_PARA_FILE))
++		return rtStatus;
++
++	switch (eRFPath) {
++	case ODM_RF_PATH_A:
++		pBuf = pHalData->rf_radio_a;
++		pBufLen = &pHalData->rf_radio_a_len;
++		break;
++	case ODM_RF_PATH_B:
++		pBuf = pHalData->rf_radio_b;
++		pBufLen = &pHalData->rf_radio_b_len;
++		break;
++	default:
++		RTW_INFO("Unknown RF path!! %d\r\n", eRFPath);
++		break;
++	}
++
++	_rtw_memset(pHalData->para_file_buf, 0, MAX_PARA_FILE_BUF_LEN);
++
++	if ((pBufLen != NULL) && (*pBufLen == 0) && (pBuf == NULL)) {
++		rtw_get_phy_file_path(Adapter, pFileName);
++		if (rtw_is_file_readable(rtw_phy_para_file_path) == _TRUE) {
++			rlen = rtw_retrieve_from_file(rtw_phy_para_file_path, pHalData->para_file_buf, MAX_PARA_FILE_BUF_LEN);
++			if (rlen > 0) {
++				rtStatus = _SUCCESS;
++				pBuf = rtw_zvmalloc(rlen);
++				if (pBuf) {
++					_rtw_memcpy(pBuf, pHalData->para_file_buf, rlen);
++					*pBufLen = rlen;
++
++					switch (eRFPath) {
++					case ODM_RF_PATH_A:
++						pHalData->rf_radio_a = pBuf;
++						break;
++					case ODM_RF_PATH_B:
++						pHalData->rf_radio_b = pBuf;
++						break;
++					}
++				} else
++					RTW_INFO("%s(): eRFPath=%d  alloc fail !\n", __FUNCTION__, eRFPath);
++			}
++		}
++	} else {
++		if ((pBufLen != NULL) && (*pBufLen != 0) && (pBuf != NULL)) {
++			_rtw_memcpy(pHalData->para_file_buf, pBuf, *pBufLen);
++			rtStatus = _SUCCESS;
++		} else
++			RTW_INFO("%s(): Critical Error !!!\n", __FUNCTION__);
++	}
++
++	if (rtStatus == _SUCCESS) {
++		/* RTW_INFO("%s(): read %s successfully\n", __FUNCTION__, pFileName); */
++
++		ptmp = pHalData->para_file_buf;
++		for (szLine = GetLineFromBuffer(ptmp); szLine != NULL; szLine = GetLineFromBuffer(ptmp)) {
++			if (!IsCommentString(szLine)) {
++				/* Get 1st hex value as register offset. */
++				if (GetHexValueFromString(szLine, &u4bRegOffset, &u4bMove)) {
++					if (u4bRegOffset == 0xfe || u4bRegOffset == 0xffe) {
++						/* Deay specific ms. Only RF configuration require delay.												 */
++#ifdef CONFIG_LONG_DELAY_ISSUE
++						rtw_msleep_os(50);
++#else
++						rtw_mdelay_os(50);
++#endif
++					} else if (u4bRegOffset == 0xfd) {
++						/* delay_ms(5); */
++						for (i = 0; i < 100; i++)
++							rtw_udelay_os(MAX_STALL_TIME);
++					} else if (u4bRegOffset == 0xfc) {
++						/* delay_ms(1); */
++						for (i = 0; i < 20; i++)
++							rtw_udelay_os(MAX_STALL_TIME);
++					} else if (u4bRegOffset == 0xfb)
++						rtw_udelay_os(50);
++					else if (u4bRegOffset == 0xfa)
++						rtw_udelay_os(5);
++					else if (u4bRegOffset == 0xf9)
++						rtw_udelay_os(1);
++					else if (u4bRegOffset == 0xffff)
++						break;
++
++					/* Get 2nd hex value as register value. */
++					szLine += u4bMove;
++					if (GetHexValueFromString(szLine, &u4bRegValue, &u4bMove)) {
++						PHY_SetRFReg(Adapter, eRFPath, u4bRegOffset, bRFRegOffsetMask, u4bRegValue);
++
++						/* Temp add, for frequency lock, if no delay, that may cause */
++						/* frequency shift, ex: 2412MHz => 2417MHz */
++						/* If frequency shift, the following action may works. */
++						/* Fractional-N table in radio_a.txt */
++						/* 0x2a 0x00001		 */ /* channel 1 */
++						/* 0x2b 0x00808		frequency divider. */
++						/* 0x2b 0x53333 */
++						/* 0x2c 0x0000c */
++						rtw_udelay_os(1);
++					}
++				}
++			}
++		}
++	} else
++		RTW_INFO("%s(): No File %s, Load from HWImg Array!\n", __FUNCTION__, pFileName);
++
++	return rtStatus;
++}
++
++VOID
++initDeltaSwingIndexTables(
++	PADAPTER	Adapter,
++	char		*Band,
++	char		*Path,
++	char		*Sign,
++	char		*Channel,
++	char		*Rate,
++	char		*Data
++)
++{
++#define STR_EQUAL_5G(_band, _path, _sign, _rate, _chnl) \
++	((strcmp(Band, _band) == 0) && (strcmp(Path, _path) == 0) && (strcmp(Sign, _sign) == 0) &&\
++	 (strcmp(Rate, _rate) == 0) && (strcmp(Channel, _chnl) == 0)\
++	)
++#define STR_EQUAL_2G(_band, _path, _sign, _rate) \
++	((strcmp(Band, _band) == 0) && (strcmp(Path, _path) == 0) && (strcmp(Sign, _sign) == 0) &&\
++	 (strcmp(Rate, _rate) == 0)\
++	)
++
++#define STORE_SWING_TABLE(_array, _iteratedIdx) \
++	do {	\
++	for (token = strsep(&Data, delim); token != NULL; token = strsep(&Data, delim)) {\
++		sscanf(token, "%d", &idx);\
++		_array[_iteratedIdx++] = (u8)idx;\
++	} } while (0)\
++
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	u32	j = 0;
++	char	*token;
++	char	delim[] = ",";
++	u32	idx = 0;
++
++	/* RTW_INFO("===>initDeltaSwingIndexTables(): Band: %s;\nPath: %s;\nSign: %s;\nChannel: %s;\nRate: %s;\n, Data: %s;\n",  */
++	/*	Band, Path, Sign, Channel, Rate, Data); */
++
++	if (STR_EQUAL_2G("2G", "A", "+", "CCK"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_P, j);
++	else if (STR_EQUAL_2G("2G", "A", "-", "CCK"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_N, j);
++	else if (STR_EQUAL_2G("2G", "B", "+", "CCK"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_P, j);
++	else if (STR_EQUAL_2G("2G", "B", "-", "CCK"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_N, j);
++	else if (STR_EQUAL_2G("2G", "A", "+", "ALL"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_2GA_P, j);
++	else if (STR_EQUAL_2G("2G", "A", "-", "ALL"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_2GA_N, j);
++	else if (STR_EQUAL_2G("2G", "B", "+", "ALL"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_2GB_P, j);
++	else if (STR_EQUAL_2G("2G", "B", "-", "ALL"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_2GB_N, j);
++	else if (STR_EQUAL_5G("5G", "A", "+", "ALL", "0"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P[0], j);
++	else if (STR_EQUAL_5G("5G", "A", "-", "ALL", "0"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N[0], j);
++	else if (STR_EQUAL_5G("5G", "B", "+", "ALL", "0"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P[0], j);
++	else if (STR_EQUAL_5G("5G", "B", "-", "ALL", "0"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N[0], j);
++	else if (STR_EQUAL_5G("5G", "A", "+", "ALL", "1"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P[1], j);
++	else if (STR_EQUAL_5G("5G", "A", "-", "ALL", "1"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N[1], j);
++	else if (STR_EQUAL_5G("5G", "B", "+", "ALL", "1"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P[1], j);
++	else if (STR_EQUAL_5G("5G", "B", "-", "ALL", "1"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N[1], j);
++	else if (STR_EQUAL_5G("5G", "A", "+", "ALL", "2"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P[2], j);
++	else if (STR_EQUAL_5G("5G", "A", "-", "ALL", "2"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N[2], j);
++	else if (STR_EQUAL_5G("5G", "B", "+", "ALL", "2"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P[2], j);
++	else if (STR_EQUAL_5G("5G", "B", "-", "ALL", "2"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N[2], j);
++	else if (STR_EQUAL_5G("5G", "A", "+", "ALL", "3"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P[3], j);
++	else if (STR_EQUAL_5G("5G", "A", "-", "ALL", "3"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N[3], j);
++	else if (STR_EQUAL_5G("5G", "B", "+", "ALL", "3"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P[3], j);
++	else if (STR_EQUAL_5G("5G", "B", "-", "ALL", "3"))
++		STORE_SWING_TABLE(pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N[3], j);
++	else
++		RTW_INFO("===>initDeltaSwingIndexTables(): The input is invalid!!\n");
++}
++
++int
++PHY_ConfigRFWithTxPwrTrackParaFile(
++	IN	PADAPTER		Adapter,
++	IN	char			*pFileName
++)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T			pDM_Odm = &pHalData->odmpriv;
++	PODM_RF_CAL_T		pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	int	rlen = 0, rtStatus = _FAIL;
++	char	*szLine, *ptmp;
++	u32	i = 0, j = 0;
++	char	c = 0;
++
++	if (!(Adapter->registrypriv.load_phy_file & LOAD_RF_TXPWR_TRACK_PARA_FILE))
++		return rtStatus;
++
++	_rtw_memset(pHalData->para_file_buf, 0, MAX_PARA_FILE_BUF_LEN);
++
++	if ((pHalData->rf_tx_pwr_track_len == 0) && (pHalData->rf_tx_pwr_track == NULL)) {
++		rtw_get_phy_file_path(Adapter, pFileName);
++		if (rtw_is_file_readable(rtw_phy_para_file_path) == _TRUE) {
++			rlen = rtw_retrieve_from_file(rtw_phy_para_file_path, pHalData->para_file_buf, MAX_PARA_FILE_BUF_LEN);
++			if (rlen > 0) {
++				rtStatus = _SUCCESS;
++				pHalData->rf_tx_pwr_track = rtw_zvmalloc(rlen);
++				if (pHalData->rf_tx_pwr_track) {
++					_rtw_memcpy(pHalData->rf_tx_pwr_track, pHalData->para_file_buf, rlen);
++					pHalData->rf_tx_pwr_track_len = rlen;
++				} else
++					RTW_INFO("%s rf_tx_pwr_track alloc fail !\n", __FUNCTION__);
++			}
++		}
++	} else {
++		if ((pHalData->rf_tx_pwr_track_len != 0) && (pHalData->rf_tx_pwr_track != NULL)) {
++			_rtw_memcpy(pHalData->para_file_buf, pHalData->rf_tx_pwr_track, pHalData->rf_tx_pwr_track_len);
++			rtStatus = _SUCCESS;
++		} else
++			RTW_INFO("%s(): Critical Error !!!\n", __FUNCTION__);
++	}
++
++	if (rtStatus == _SUCCESS) {
++		/* RTW_INFO("%s(): read %s successfully\n", __FUNCTION__, pFileName); */
++
++		ptmp = pHalData->para_file_buf;
++		for (szLine = GetLineFromBuffer(ptmp); szLine != NULL; szLine = GetLineFromBuffer(ptmp)) {
++			if (!IsCommentString(szLine)) {
++				char	band[5] = "", path[5] = "", sign[5]  = "";
++				char	chnl[5] = "", rate[10] = "";
++				char	data[300] = ""; /* 100 is too small */
++
++				if (strlen(szLine) < 10 || szLine[0] != '[')
++					continue;
++
++				strncpy(band, szLine + 1, 2);
++				strncpy(path, szLine + 5, 1);
++				strncpy(sign, szLine + 8, 1);
++
++				i = 10; /* szLine+10 */
++				if (!ParseQualifiedString(szLine, &i, rate, '[', ']')) {
++					/* RTW_INFO("Fail to parse rate!\n"); */
++				}
++				if (!ParseQualifiedString(szLine, &i, chnl, '[', ']')) {
++					/* RTW_INFO("Fail to parse channel group!\n"); */
++				}
++				while (szLine[i] != '{' && i < strlen(szLine))
++					i++;
++				if (!ParseQualifiedString(szLine, &i, data, '{', '}')) {
++					/* RTW_INFO("Fail to parse data!\n"); */
++				}
++
++				initDeltaSwingIndexTables(Adapter, band, path, sign, chnl, rate, data);
++			}
++		}
++	} else
++		RTW_INFO("%s(): No File %s, Load from HWImg Array!\n", __FUNCTION__, pFileName);
++#if 0
++	for (i = 0; i < DELTA_SWINGIDX_SIZE; ++i) {
++		RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_2GA_P[%d] = %d\n", i, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_P[i]);
++		RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_2GA_N[%d] = %d\n", i, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_N[i]);
++		RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_2GB_P[%d] = %d\n", i, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_P[i]);
++		RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_2GB_N[%d] = %d\n", i, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_N[i]);
++		RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_P[%d] = %d\n", i, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_P[i]);
++		RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_N[%d] = %d\n", i, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_N[i]);
++		RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_P[%d] = %d\n", i, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_P[i]);
++		RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_N[%d] = %d\n", i, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_N[i]);
++
++		for (j = 0; j < 3; ++j) {
++			RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P[%d][%d] = %d\n", j, i, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P[j][i]);
++			RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N[%d][%d] = %d\n", j, i, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N[j][i]);
++			RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P[%d][%d] = %d\n", j, i, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P[j][i]);
++			RTW_INFO("pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N[%d][%d] = %d\n", j, i, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N[j][i]);
++		}
++	}
++#endif
++	return rtStatus;
++}
++
++int
++phy_ParsePowerLimitTableFile(
++	PADAPTER		Adapter,
++	char			*buffer
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T	pDM_Odm = &(pHalData->odmpriv);
++	u32	i = 0, forCnt = 0;
++	u8	loadingStage = 0, limitValue = 0, fraction = 0;
++	char	*szLine, *ptmp;
++	int	rtStatus = _SUCCESS;
++	char band[10], bandwidth[10], rateSection[10],
++	     regulation[TXPWR_LMT_MAX_REGULATION_NUM][10], rfPath[10], colNumBuf[10];
++	u8	colNum = 0;
++
++	RTW_INFO("===>phy_ParsePowerLimitTableFile()\n");
++
++	if (Adapter->registrypriv.RegDecryptCustomFile == 1)
++		phy_DecryptBBPgParaFile(Adapter, buffer);
++
++	ptmp = buffer;
++	for (szLine = GetLineFromBuffer(ptmp); szLine != NULL; szLine = GetLineFromBuffer(ptmp)) {
++		if (isAllSpaceOrTab(szLine, sizeof(*szLine)))
++			continue;
++
++		/* skip comment */
++		if (IsCommentString(szLine))
++			continue;
++
++		if (loadingStage == 0) {
++			for (forCnt = 0; forCnt < TXPWR_LMT_MAX_REGULATION_NUM; ++forCnt)
++				_rtw_memset((PVOID) regulation[forCnt], 0, 10);
++			_rtw_memset((PVOID) band, 0, 10);
++			_rtw_memset((PVOID) bandwidth, 0, 10);
++			_rtw_memset((PVOID) rateSection, 0, 10);
++			_rtw_memset((PVOID) rfPath, 0, 10);
++			_rtw_memset((PVOID) colNumBuf, 0, 10);
++
++			if (szLine[0] != '#' || szLine[1] != '#')
++				continue;
++
++			/* skip the space */
++			i = 2;
++			while (szLine[i] == ' ' || szLine[i] == '\t')
++				++i;
++
++			szLine[--i] = ' '; /* return the space in front of the regulation info */
++
++			/* Parse the label of the table */
++			if (!ParseQualifiedString(szLine, &i, band, ' ', ',')) {
++				RTW_INFO("Fail to parse band!\n");
++				return _FAIL;
++			}
++			if (!ParseQualifiedString(szLine, &i, bandwidth, ' ', ',')) {
++				RTW_INFO("Fail to parse bandwidth!\n");
++				return _FAIL;
++			}
++			if (!ParseQualifiedString(szLine, &i, rfPath, ' ', ',')) {
++				RTW_INFO("Fail to parse rf path!\n");
++				return _FAIL;
++			}
++			if (!ParseQualifiedString(szLine, &i, rateSection, ' ', ',')) {
++				RTW_INFO("Fail to parse rate!\n");
++				return _FAIL;
++			}
++
++			loadingStage = 1;
++		} else if (loadingStage == 1) {
++			if (szLine[0] != '#' || szLine[1] != '#')
++				continue;
++
++			/* skip the space */
++			i = 2;
++			while (szLine[i] == ' ' || szLine[i] == '\t')
++				++i;
++
++			if (!eqNByte((u8 *)(szLine + i), (u8 *)("START"), 5)) {
++				RTW_INFO("Lost \"##   START\" label\n");
++				return _FAIL;
++			}
++
++			loadingStage = 2;
++		} else if (loadingStage == 2) {
++			if (szLine[0] != '#' || szLine[1] != '#')
++				continue;
++
++			/* skip the space */
++			i = 2;
++			while (szLine[i] == ' ' || szLine[i] == '\t')
++				++i;
++
++			if (!ParseQualifiedString(szLine, &i, colNumBuf, '#', '#')) {
++				RTW_INFO("Fail to parse column number!\n");
++				return _FAIL;
++			}
++
++			if (!GetU1ByteIntegerFromStringInDecimal(colNumBuf, &colNum))
++				return _FAIL;
++
++			if (colNum > TXPWR_LMT_MAX_REGULATION_NUM) {
++				RTW_INFO("unvalid col number %d (greater than max %d)\n",
++					 colNum, TXPWR_LMT_MAX_REGULATION_NUM);
++				return _FAIL;
++			}
++
++			for (forCnt = 0; forCnt < colNum; ++forCnt) {
++				u8	regulation_name_cnt = 0;
++
++				/* skip the space */
++				while (szLine[i] == ' ' || szLine[i] == '\t')
++					++i;
++
++				while (szLine[i] != ' ' && szLine[i] != '\t' && szLine[i] != '\0')
++					regulation[forCnt][regulation_name_cnt++] = szLine[i++];
++				/* RTW_INFO("regulation %s!\n", regulation[forCnt]); */
++
++				if (regulation_name_cnt == 0) {
++					RTW_INFO("unvalid number of regulation!\n");
++					return _FAIL;
++				}
++			}
++
++			loadingStage = 3;
++		} else if (loadingStage == 3) {
++			char	channel[10] = {0}, powerLimit[10] = {0};
++			u8	cnt = 0;
++
++			/* the table ends */
++			if (szLine[0] == '#' && szLine[1] == '#') {
++				i = 2;
++				while (szLine[i] == ' ' || szLine[i] == '\t')
++					++i;
++
++				if (eqNByte((u8 *)(szLine + i), (u8 *)("END"), 3)) {
++					loadingStage = 0;
++					continue;
++				} else {
++					RTW_INFO("Wrong format\n");
++					RTW_INFO("<===== phy_ParsePowerLimitTableFile()\n");
++					return _FAIL;
++				}
++			}
++
++			if ((szLine[0] != 'c' && szLine[0] != 'C') ||
++			    (szLine[1] != 'h' && szLine[1] != 'H')) {
++				RTW_INFO("Meet wrong channel => power limt pair '%c','%c'(%d,%d)\n", szLine[0], szLine[1], szLine[0], szLine[1]);
++				continue;
++			}
++			i = 2;/* move to the  location behind 'h' */
++
++			/* load the channel number */
++			cnt = 0;
++			while (szLine[i] >= '0' && szLine[i] <= '9') {
++				channel[cnt] = szLine[i];
++				++cnt;
++				++i;
++			}
++			/* RTW_INFO("chnl %s!\n", channel); */
++
++			for (forCnt = 0; forCnt < colNum; ++forCnt) {
++				/* skip the space between channel number and the power limit value */
++				while (szLine[i] == ' ' || szLine[i] == '\t')
++					++i;
++
++				/* load the power limit value */
++				cnt = 0;
++				fraction = 0;
++				_rtw_memset((PVOID) powerLimit, 0, 10);
++				while ((szLine[i] >= '0' && szLine[i] <= '9') || szLine[i] == '.') {
++					if (szLine[i] == '.') {
++						if ((szLine[i + 1] >= '0' && szLine[i + 1] <= '9')) {
++							fraction = szLine[i + 1];
++							i += 2;
++						} else {
++							RTW_INFO("Wrong fraction in TXPWR_LMT.txt\n");
++							return _FAIL;
++						}
++
++						break;
++					}
++
++					powerLimit[cnt] = szLine[i];
++					++cnt;
++					++i;
++				}
++
++				if (powerLimit[0] == '\0') {
++					powerLimit[0] = '6';
++					powerLimit[1] = '3';
++					i += 2;
++				} else {
++					if (!GetU1ByteIntegerFromStringInDecimal(powerLimit, &limitValue))
++						return _FAIL;
++
++					limitValue *= 2;
++					cnt = 0;
++					if (fraction == '5')
++						++limitValue;
++
++					/* the value is greater or equal to 100 */
++					if (limitValue >= 100) {
++						powerLimit[cnt++] = limitValue / 100 + '0';
++						limitValue %= 100;
++
++						if (limitValue >= 10) {
++							powerLimit[cnt++] = limitValue / 10 + '0';
++							limitValue %= 10;
++						} else
++							powerLimit[cnt++] = '0';
++
++						powerLimit[cnt++] = limitValue + '0';
++					}
++					/* the value is greater or equal to 10 */
++					else if (limitValue >= 10) {
++						powerLimit[cnt++] = limitValue / 10 + '0';
++						limitValue %= 10;
++						powerLimit[cnt++] = limitValue + '0';
++					}
++					/* the value is less than 10 */
++					else
++						powerLimit[cnt++] = limitValue + '0';
++
++					powerLimit[cnt] = '\0';
++				}
++
++				/* RTW_INFO("ch%s => %s\n", channel, powerLimit); */
++
++				/* store the power limit value */
++				PHY_SetTxPowerLimit(pDM_Odm, (u8 *)regulation[forCnt], (u8 *)band,
++					(u8 *)bandwidth, (u8 *)rateSection, (u8 *)rfPath, (u8 *)channel, (u8 *)powerLimit);
++
++			}
++		} else {
++			RTW_INFO("Abnormal loading stage in phy_ParsePowerLimitTableFile()!\n");
++			rtStatus = _FAIL;
++			break;
++		}
++	}
++
++	RTW_INFO("<===phy_ParsePowerLimitTableFile()\n");
++	return rtStatus;
++}
++
++int
++PHY_ConfigRFWithPowerLimitTableParaFile(
++	IN	PADAPTER	Adapter,
++	IN	const char	*pFileName
++)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	int	rlen = 0, rtStatus = _FAIL;
++
++	if (!(Adapter->registrypriv.load_phy_file & LOAD_RF_TXPWR_LMT_PARA_FILE))
++		return rtStatus;
++
++	_rtw_memset(pHalData->para_file_buf, 0, MAX_PARA_FILE_BUF_LEN);
++
++	if (pHalData->rf_tx_pwr_lmt == NULL) {
++		rtw_get_phy_file_path(Adapter, pFileName);
++		if (rtw_is_file_readable(rtw_phy_para_file_path) == _TRUE) {
++			rlen = rtw_retrieve_from_file(rtw_phy_para_file_path, pHalData->para_file_buf, MAX_PARA_FILE_BUF_LEN);
++			if (rlen > 0) {
++				rtStatus = _SUCCESS;
++				pHalData->rf_tx_pwr_lmt = rtw_zvmalloc(rlen);
++				if (pHalData->rf_tx_pwr_lmt) {
++					_rtw_memcpy(pHalData->rf_tx_pwr_lmt, pHalData->para_file_buf, rlen);
++					pHalData->rf_tx_pwr_lmt_len = rlen;
++				} else
++					RTW_INFO("%s rf_tx_pwr_lmt alloc fail !\n", __FUNCTION__);
++			}
++		}
++	} else {
++		if ((pHalData->rf_tx_pwr_lmt_len != 0) && (pHalData->rf_tx_pwr_lmt != NULL)) {
++			_rtw_memcpy(pHalData->para_file_buf, pHalData->rf_tx_pwr_lmt, pHalData->rf_tx_pwr_lmt_len);
++			rtStatus = _SUCCESS;
++		} else
++			RTW_INFO("%s(): Critical Error !!!\n", __FUNCTION__);
++	}
++
++	if (rtStatus == _SUCCESS) {
++		/* RTW_INFO("%s(): read %s ok\n", __FUNCTION__, pFileName); */
++		rtStatus = phy_ParsePowerLimitTableFile(Adapter, pHalData->para_file_buf);
++	} else
++		RTW_INFO("%s(): No File %s, Load from HWImg Array!\n", __FUNCTION__, pFileName);
++
++	return rtStatus;
++}
++
++void phy_free_filebuf_mask(_adapter *padapter, u8 mask)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	if (pHalData->mac_reg && (mask & LOAD_MAC_PARA_FILE)) {
++		rtw_vmfree(pHalData->mac_reg, pHalData->mac_reg_len);
++		pHalData->mac_reg = NULL;
++	}
++	if (mask & LOAD_BB_PARA_FILE) {
++		if (pHalData->bb_phy_reg) {
++			rtw_vmfree(pHalData->bb_phy_reg, pHalData->bb_phy_reg_len);
++			pHalData->bb_phy_reg = NULL;
++		}
++		if (pHalData->bb_agc_tab) {
++			rtw_vmfree(pHalData->bb_agc_tab, pHalData->bb_agc_tab_len);
++			pHalData->bb_agc_tab = NULL;
++		}
++	}
++	if (pHalData->bb_phy_reg_pg && (mask & LOAD_BB_PG_PARA_FILE)) {
++		rtw_vmfree(pHalData->bb_phy_reg_pg, pHalData->bb_phy_reg_pg_len);
++		pHalData->bb_phy_reg_pg = NULL;
++	}
++	if (pHalData->bb_phy_reg_mp && (mask & LOAD_BB_MP_PARA_FILE)) {
++		rtw_vmfree(pHalData->bb_phy_reg_mp, pHalData->bb_phy_reg_mp_len);
++		pHalData->bb_phy_reg_mp = NULL;
++	}
++	if (mask & LOAD_RF_PARA_FILE) {
++		if (pHalData->rf_radio_a) {
++			rtw_vmfree(pHalData->rf_radio_a, pHalData->rf_radio_a_len);
++			pHalData->rf_radio_a = NULL;
++		}
++		if (pHalData->rf_radio_b) {
++			rtw_vmfree(pHalData->rf_radio_b, pHalData->rf_radio_b_len);
++			pHalData->rf_radio_b = NULL;
++		}
++	}
++	if (pHalData->rf_tx_pwr_track && (mask & LOAD_RF_TXPWR_TRACK_PARA_FILE)) {
++		rtw_vmfree(pHalData->rf_tx_pwr_track, pHalData->rf_tx_pwr_track_len);
++		pHalData->rf_tx_pwr_track = NULL;
++	}
++	if (pHalData->rf_tx_pwr_lmt && (mask & LOAD_RF_TXPWR_LMT_PARA_FILE)) {
++		rtw_vmfree(pHalData->rf_tx_pwr_lmt, pHalData->rf_tx_pwr_lmt_len);
++		pHalData->rf_tx_pwr_lmt = NULL;
++	}
++}
++
++inline void phy_free_filebuf(_adapter *padapter)
++{
++	phy_free_filebuf_mask(padapter, 0xFF);
++}
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/hal_dm.c b/drivers/net/wireless/rtl8812au/hal/hal_dm.c
+new file mode 100644
+index 0000000..870685f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/hal_dm.c
+@@ -0,0 +1,219 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2014 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++/* A mapping from HalData to ODM. */
++ODM_BOARD_TYPE_E boardType(u8 InterfaceSel)
++{
++	ODM_BOARD_TYPE_E        board	= ODM_BOARD_DEFAULT;
++
++#ifdef CONFIG_PCI_HCI
++	INTERFACE_SELECT_PCIE   pcie	= (INTERFACE_SELECT_PCIE)InterfaceSel;
++	switch (pcie) {
++	case INTF_SEL0_SOLO_MINICARD:
++		board |= ODM_BOARD_MINICARD;
++		break;
++	case INTF_SEL1_BT_COMBO_MINICARD:
++		board |= ODM_BOARD_BT;
++		board |= ODM_BOARD_MINICARD;
++		break;
++	default:
++		board = ODM_BOARD_DEFAULT;
++		break;
++	}
++
++#elif defined(CONFIG_USB_HCI)
++	INTERFACE_SELECT_USB    usb	= (INTERFACE_SELECT_USB)InterfaceSel;
++	switch (usb) {
++	case INTF_SEL1_USB_High_Power:
++		board |= ODM_BOARD_EXT_LNA;
++		board |= ODM_BOARD_EXT_PA;
++		break;
++	case INTF_SEL2_MINICARD:
++		board |= ODM_BOARD_MINICARD;
++		break;
++	case INTF_SEL4_USB_Combo:
++		board |= ODM_BOARD_BT;
++		break;
++	case INTF_SEL5_USB_Combo_MF:
++		board |= ODM_BOARD_BT;
++		break;
++	case INTF_SEL0_USB:
++	case INTF_SEL3_USB_Solo:
++	default:
++		board = ODM_BOARD_DEFAULT;
++		break;
++	}
++
++#endif
++	/* RTW_INFO("===> boardType(): (pHalData->InterfaceSel, pDM_Odm->BoardType) = (%d, %d)\n", InterfaceSel, board); */
++
++	return board;
++}
++
++void Init_ODM_ComInfo(_adapter *adapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(adapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++	struct mlme_priv	*pmlmepriv = &adapter->mlmepriv;
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(adapter);
++	int i;
++
++	_rtw_memset(pDM_Odm, 0, sizeof(*pDM_Odm));
++
++	pDM_Odm->Adapter = adapter;
++
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_PLATFORM, ODM_CE);
++
++	rtw_odm_init_ic_type(adapter);
++
++	if (rtw_get_intf_type(adapter) == RTW_GSPI)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_INTERFACE, ODM_ITRF_SDIO);
++	else
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_INTERFACE, rtw_get_intf_type(adapter));
++
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_MP_TEST_CHIP, IS_NORMAL_CHIP(pHalData->VersionID));
++
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_PATCH_ID, pHalData->CustomerID);
++
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_BWIFI_TEST, adapter->registrypriv.wifi_spec);
++
++
++	if (pHalData->rf_type == RF_1T1R)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_1T1R);
++	else if (pHalData->rf_type == RF_1T2R)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_1T2R);
++	else if (pHalData->rf_type == RF_2T2R)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_2T2R);
++	else if (pHalData->rf_type == RF_2T2R_GREEN)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_2T2R_GREEN);
++	else if (pHalData->rf_type == RF_2T3R)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_2T3R);
++	else if (pHalData->rf_type == RF_2T4R)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_2T4R);
++	else if (pHalData->rf_type == RF_3T3R)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_3T3R);
++	else if (pHalData->rf_type == RF_3T4R)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_3T4R);
++	else if (pHalData->rf_type == RF_4T4R)
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_4T4R);
++	else
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_TYPE, ODM_XTXR);
++
++
++	{
++		/* 1 ======= BoardType: ODM_CMNINFO_BOARD_TYPE ======= */
++		u8 odm_board_type = ODM_BOARD_DEFAULT;
++
++		if (pHalData->ExternalLNA_2G != 0) {
++			odm_board_type |= ODM_BOARD_EXT_LNA;
++			ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_EXT_LNA, 1);
++		}
++		if (pHalData->ExternalLNA_5G != 0) {
++			odm_board_type |= ODM_BOARD_EXT_LNA_5G;
++			ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_5G_EXT_LNA, 1);
++		}
++		if (pHalData->ExternalPA_2G != 0) {
++			odm_board_type |= ODM_BOARD_EXT_PA;
++			ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_EXT_PA, 1);
++		}
++		if (pHalData->ExternalPA_5G != 0) {
++			odm_board_type |= ODM_BOARD_EXT_PA_5G;
++			ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_5G_EXT_PA, 1);
++		}
++		if (pHalData->EEPROMBluetoothCoexist)
++			odm_board_type |= ODM_BOARD_BT;
++
++		ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_BOARD_TYPE, odm_board_type);
++		/* 1 ============== End of BoardType ============== */
++	}
++
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_DOMAIN_CODE_2G, pHalData->Regulation2_4G);
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_DOMAIN_CODE_5G, pHalData->Regulation5G);
++
++#ifdef CONFIG_DFS_MASTER
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_DFS_REGION_DOMAIN, adapter->registrypriv.dfs_region_domain);
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_DFS_MASTER_ENABLE, &(adapter_to_rfctl(adapter)->dfs_master_enabled));
++#endif
++
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_GPA, pHalData->TypeGPA);
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_APA, pHalData->TypeAPA);
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_GLNA, pHalData->TypeGLNA);
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_ALNA, pHalData->TypeALNA);
++
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RFE_TYPE, pHalData->RFEType);
++
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_EXT_TRSW, 0);
++
++	/*Add by YuChen for kfree init*/
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_REGRFKFREEENABLE, adapter->registrypriv.RegPwrTrimEnable);
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RFKFREEENABLE, pHalData->RfKFreeEnable);
++
++	/*Antenna diversity relative parameters*/
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_RF_ANTENNA_TYPE, pHalData->TRxAntDivType);
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_BE_FIX_TX_ANT, pHalData->b_fix_tx_ant);
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_WITH_EXT_ANTENNA_SWITCH, pHalData->with_extenal_ant_switch);
++
++	/*Add by YuChen for adaptivity init*/
++	phydm_adaptivityInfoInit(pDM_Odm, PHYDM_ADAPINFO_CARRIER_SENSE_ENABLE, (adapter->registrypriv.adaptivity_mode != 0) ? TRUE : FALSE);
++	phydm_adaptivityInfoInit(pDM_Odm, PHYDM_ADAPINFO_DCBACKOFF, adapter->registrypriv.adaptivity_dc_backoff);
++	phydm_adaptivityInfoInit(pDM_Odm, PHYDM_ADAPINFO_DYNAMICLINKADAPTIVITY, (adapter->registrypriv.adaptivity_dml != 0) ? TRUE : FALSE);
++	phydm_adaptivityInfoInit(pDM_Odm, PHYDM_ADAPINFO_TH_L2H_INI, adapter->registrypriv.adaptivity_th_l2h_ini);
++	phydm_adaptivityInfoInit(pDM_Odm, PHYDM_ADAPINFO_TH_EDCCA_HL_DIFF, adapter->registrypriv.adaptivity_th_edcca_hl_diff);
++
++#ifdef CONFIG_IQK_PA_OFF
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_IQKPAOFF, 1);
++#endif
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_IQKFWOFFLOAD, pHalData->RegIQKFWOffload);
++
++	/* Pointer reference */
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_TX_UNI, &(dvobj->traffic_stat.tx_bytes));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_RX_UNI, &(dvobj->traffic_stat.rx_bytes));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_WM_MODE, &(pmlmeext->cur_wireless_mode));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_BAND, &(pHalData->CurrentBandType));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_FORCED_RATE, &(pHalData->ForcedDataRate));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_FORCED_IGI_LB, &(pHalData->u1ForcedIgiLb));
++
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_SEC_CHNL_OFFSET, &(pHalData->nCur40MhzPrimeSC));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_SEC_MODE, &(adapter->securitypriv.dot11PrivacyAlgrthm));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_BW, &(pHalData->CurrentChannelBW));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_CHNL, &(pHalData->CurrentChannel));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_NET_CLOSED, &(adapter->net_closed));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_FORCED_IGI_LB, &(pHalData->u1ForcedIgiLb));
++
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_SCAN, &(pmlmepriv->bScanInProcess));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_POWER_SAVING, &(pwrctl->bpower_saving));
++	/*Add by Yuchen for phydm beamforming*/
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_TX_TP, &(dvobj->traffic_stat.cur_tx_tp));
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_RX_TP, &(dvobj->traffic_stat.cur_rx_tp));
++#ifdef CONFIG_USB_HCI
++	ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_HUBUSBMODE, &(dvobj->usb_speed));
++#endif
++	for (i = 0; i < ODM_ASSOCIATE_ENTRY_NUM; i++)
++		ODM_CmnInfoPtrArrayHook(pDM_Odm, ODM_CMNINFO_STA_STATUS, i, NULL);
++
++	/* TODO */
++	/* ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_BT_OPERATION, _FALSE); */
++	/* ODM_CmnInfoHook(pDM_Odm, ODM_CMNINFO_BT_DISABLE_EDCA, _FALSE); */
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/hal_dm.h b/drivers/net/wireless/rtl8812au/hal/hal_dm.h
+new file mode 100644
+index 0000000..1232708
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/hal_dm.h
+@@ -0,0 +1,25 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_DM_H__
++#define __HAL_DM_H__
++
++void Init_ODM_ComInfo(_adapter *adapter);
++
++#endif /* __HAL_DM_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/hal/hal_halmac.c b/drivers/net/wireless/rtl8812au/hal/hal_halmac.c
+new file mode 100644
+index 0000000..d828955
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/hal_halmac.c
+@@ -0,0 +1,2442 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HAL_HALMAC_C_
++
++#include <drv_types.h>		/* PADAPTER, struct dvobj_priv, SDIO_ERR_VAL8 and etc. */
++#include <hal_data.h>		/* efuse, PHAL_DATA_TYPE and etc. */
++#include "halmac/halmac_api.h"	/* HALMAC_FW_SIZE_MAX_88XX and etc. */
++#include "hal_halmac.h"		/* dvobj_to_halmac() and ect. */
++
++#define DEFAULT_INDICATOR_TIMELMT	1000	/* ms */
++#define FIRMWARE_MAX_SIZE		HALMAC_FW_SIZE_MAX_88XX
++
++/*
++ * Driver API for HALMAC operations
++ */
++
++#ifdef CONFIG_SDIO_HCI
++#include <rtw_sdio.h>
++
++static u8 _halmac_mac_reg_page0_chk(const char *func, struct dvobj_priv *dvobj, u32 offset)
++{
++#if defined(CONFIG_IO_CHECK_IN_ANA_LOW_CLK) && defined(CONFIG_LPS_LCLK)
++	struct pwrctrl_priv *pwrpriv = &dvobj->pwrctl_priv;
++	u32 mac_reg_offset = 0;
++
++	if (pwrpriv->pwr_mode == PS_MODE_ACTIVE)
++		return _TRUE;
++
++	if (offset & (WLAN_IOREG_DEVICE_ID << 13))  { /*WLAN_IOREG_OFFSET*/
++		mac_reg_offset = offset & HALMAC_WLAN_IOREG_MSK;
++		if (mac_reg_offset < 0x100) {
++			RTW_ERR(FUNC_ADPT_FMT "access MAC REG -0x%04x in PS-mode:0x%02x\n",
++				FUNC_ADPT_ARG(dvobj_get_primary_adapter(dvobj)), mac_reg_offset, pwrpriv->pwr_mode);
++			rtw_warn_on(1);
++			return _FALSE;
++		}
++	}
++#endif
++	return _TRUE;
++}
++
++static u8 _halmac_sdio_cmd52_read(void *p, u32 offset)
++{
++	struct dvobj_priv *d;
++	u8 val;
++	u8 ret;
++
++
++	d = (struct dvobj_priv *)p;
++	_halmac_mac_reg_page0_chk(__func__, d, offset);
++	ret = rtw_sdio_read_cmd52(d, offset, &val, 1);
++	if (_FAIL == ret) {
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++		return SDIO_ERR_VAL8;
++	}
++
++	return val;
++}
++
++static void _halmac_sdio_cmd52_write(void *p, u32 offset, u8 val)
++{
++	struct dvobj_priv *d;
++	u8 ret;
++
++
++	d = (struct dvobj_priv *)p;
++	_halmac_mac_reg_page0_chk(__func__, d, offset);
++	ret = rtw_sdio_write_cmd52(d, offset, &val, 1);
++	if (_FAIL == ret)
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++}
++
++static u8 _halmac_sdio_reg_read_8(void *p, u32 offset)
++{
++	struct dvobj_priv *d;
++	u8 *pbuf;
++	u8 val;
++	int err;
++
++
++	d = (struct dvobj_priv *)p;
++	val = SDIO_ERR_VAL8;
++	_halmac_mac_reg_page0_chk(__func__, d, offset);
++	pbuf = rtw_zmalloc(1);
++	if (!pbuf)
++		return val;
++
++	err = d->intf_ops->read(d, offset, pbuf, 1, 0);
++	if (err) {
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++		goto exit;
++	}
++
++	val = *pbuf;
++
++exit:
++	rtw_mfree(pbuf, 1);
++
++	return val;
++}
++
++static u16 _halmac_sdio_reg_read_16(void *p, u32 offset)
++{
++	struct dvobj_priv *d;
++	u8 *pbuf;
++	u16 val;
++	int err;
++
++
++	d = (struct dvobj_priv *)p;
++	val = SDIO_ERR_VAL16;
++	_halmac_mac_reg_page0_chk(__func__, d, offset);
++	pbuf = rtw_zmalloc(2);
++	if (!pbuf)
++		return val;
++
++	err = d->intf_ops->read(d, offset, pbuf, 2, 0);
++	if (err) {
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++		goto exit;
++	}
++
++	val = le16_to_cpu(*(u16 *)pbuf);
++
++exit:
++	rtw_mfree(pbuf, 2);
++
++	return val;
++}
++
++static u32 _halmac_sdio_reg_read_32(void *p, u32 offset)
++{
++	struct dvobj_priv *d;
++	u8 *pbuf;
++	u32 val;
++	int err;
++
++
++	d = (struct dvobj_priv *)p;
++	val = SDIO_ERR_VAL32;
++	_halmac_mac_reg_page0_chk(__func__, d, offset);
++	pbuf = rtw_zmalloc(4);
++	if (!pbuf)
++		return val;
++
++	err = d->intf_ops->read(d, offset, pbuf, 4, 0);
++	if (err) {
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++		goto exit;
++	}
++
++	val = le32_to_cpu(*(u32 *)pbuf);
++
++exit:
++	rtw_mfree(pbuf, 4);
++
++	return val;
++}
++
++static u8 _halmac_sdio_reg_read_n(void *p, u32 offset, u32 size, u8 *data)
++{
++	struct dvobj_priv *d = (struct dvobj_priv *)p;
++	PSDIO_DATA psdio = &d->intf_data;
++
++	u8 *pbuf;
++	int err;
++	u8 rst = _FALSE;
++	u32 sdio_read_size;
++
++	sdio_read_size = RND4(size);
++	if (sdio_read_size > psdio->block_transfer_len)
++		sdio_read_size = _RND(sdio_read_size, psdio->block_transfer_len);
++
++	pbuf = rtw_zmalloc(sdio_read_size);
++	if ((!pbuf) || (!data))
++		return rst;
++
++	err = d->intf_ops->read(d, offset, pbuf, sdio_read_size, 0);
++	if (err) {
++		RTW_ERR("%s: [ERROR] I/O FAIL!\n", __func__);
++		goto exit;
++	}
++
++	_rtw_memcpy(data, pbuf, size);
++	rst = _TRUE;
++exit:
++	rtw_mfree(pbuf, sdio_read_size);
++
++	return rst;
++}
++
++static void _halmac_sdio_reg_write_8(void *p, u32 offset, u8 val)
++{
++	struct dvobj_priv *d;
++	u8 *pbuf;
++	int err;
++
++
++	d = (struct dvobj_priv *)p;
++	_halmac_mac_reg_page0_chk(__func__, d, offset);
++	pbuf = rtw_zmalloc(1);
++	if (!pbuf)
++		return;
++	_rtw_memcpy(pbuf, &val, 1);
++
++	err = d->intf_ops->write(d, offset, pbuf, 1, 0);
++	if (err)
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++
++	rtw_mfree(pbuf, 1);
++}
++
++static void _halmac_sdio_reg_write_16(void *p, u32 offset, u16 val)
++{
++	struct dvobj_priv *d;
++	u8 *pbuf;
++	int err;
++
++
++	d = (struct dvobj_priv *)p;
++	_halmac_mac_reg_page0_chk(__func__, d, offset);
++	val = cpu_to_le16(val);
++	pbuf = rtw_zmalloc(2);
++	if (!pbuf)
++		return;
++	_rtw_memcpy(pbuf, &val, 2);
++
++	err = d->intf_ops->write(d, offset, pbuf, 2, 0);
++	if (err)
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++
++	rtw_mfree(pbuf, 2);
++}
++
++static void _halmac_sdio_reg_write_32(void *p, u32 offset, u32 val)
++{
++	struct dvobj_priv *d;
++	u8 *pbuf;
++	int err;
++
++
++	d = (struct dvobj_priv *)p;
++	_halmac_mac_reg_page0_chk(__func__, d, offset);
++	val = cpu_to_le32(val);
++	pbuf = rtw_zmalloc(4);
++	if (!pbuf)
++		return;
++	_rtw_memcpy(pbuf, &val, 4);
++
++	err = d->intf_ops->write(d, offset, pbuf, 4, 0);
++	if (err)
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++
++	rtw_mfree(pbuf, 4);
++}
++
++#else /* !CONFIG_SDIO_HCI */
++
++static u8 _halmac_reg_read_8(void *p, u32 offset)
++{
++	struct dvobj_priv *d;
++	PADAPTER adapter;
++
++
++	d = (struct dvobj_priv *)p;
++	adapter = dvobj_get_primary_adapter(d);
++
++	return rtw_read8(adapter, offset);
++}
++
++static u16 _halmac_reg_read_16(void *p, u32 offset)
++{
++	struct dvobj_priv *d;
++	PADAPTER adapter;
++
++
++	d = (struct dvobj_priv *)p;
++	adapter = dvobj_get_primary_adapter(d);
++
++	return rtw_read16(adapter, offset);
++}
++
++static u32 _halmac_reg_read_32(void *p, u32 offset)
++{
++	struct dvobj_priv *d;
++	PADAPTER adapter;
++
++
++	d = (struct dvobj_priv *)p;
++	adapter = dvobj_get_primary_adapter(d);
++
++	return rtw_read32(adapter, offset);
++}
++
++static void _halmac_reg_write_8(void *p, u32 offset, u8 val)
++{
++	struct dvobj_priv *d;
++	PADAPTER adapter;
++	int err;
++
++
++	d = (struct dvobj_priv *)p;
++	adapter = dvobj_get_primary_adapter(d);
++
++	err = rtw_write8(adapter, offset, val);
++	if (err == _FAIL)
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++}
++
++static void _halmac_reg_write_16(void *p, u32 offset, u16 val)
++{
++	struct dvobj_priv *d;
++	PADAPTER adapter;
++	int err;
++
++
++	d = (struct dvobj_priv *)p;
++	adapter = dvobj_get_primary_adapter(d);
++
++	err = rtw_write16(adapter, offset, val);
++	if (err == _FAIL)
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++}
++
++static void _halmac_reg_write_32(void *p, u32 offset, u32 val)
++{
++	struct dvobj_priv *d;
++	PADAPTER adapter;
++	int err;
++
++
++	d = (struct dvobj_priv *)p;
++	adapter = dvobj_get_primary_adapter(d);
++
++	err = rtw_write32(adapter, offset, val);
++	if (err == _FAIL)
++		RTW_INFO("%s: [ERROR] I/O FAIL!\n", __FUNCTION__);
++}
++#endif /* !CONFIG_SDIO_HCI */
++
++static u8 _halmac_mfree(void *p, void *buffer, u32 size)
++{
++	rtw_mfree(buffer, size);
++	return _TRUE;
++}
++
++static void *_halmac_malloc(void *p, u32 size)
++{
++	return rtw_zmalloc(size);
++}
++
++static u8 _halmac_memcpy(void *p, void *dest, void *src, u32 size)
++{
++	_rtw_memcpy(dest, src, size);
++	return _TRUE;
++}
++
++static u8 _halmac_memset(void *p, void *addr, u8 value, u32 size)
++{
++	_rtw_memset(addr, value, size);
++	return _TRUE;
++}
++
++static void _halmac_udelay(void *p, u32 us)
++{
++	rtw_udelay_os(us);
++}
++
++static u8 _halmac_mutex_init(void *p, HALMAC_MUTEX *pMutex)
++{
++	_rtw_mutex_init(pMutex);
++	return _TRUE;
++}
++
++static u8 _halmac_mutex_deinit(void *p, HALMAC_MUTEX *pMutex)
++{
++	_rtw_mutex_free(pMutex);
++	return _TRUE;
++}
++
++static u8 _halmac_mutex_lock(void *p, HALMAC_MUTEX *pMutex)
++{
++	int err;
++
++	err = _enter_critical_mutex(pMutex, NULL);
++	if (err)
++		return _FALSE;
++
++	return _TRUE;
++}
++
++static u8 _halmac_mutex_unlock(void *p, HALMAC_MUTEX *pMutex)
++{
++	_exit_critical_mutex(pMutex, NULL);
++	return _TRUE;
++}
++
++static u8 _halmac_msg_print(void *p, u32 msg_type, u8 msg_level, s8 *fmt, ...)
++{
++#define MSG_LEN		100
++#define MSG_PREFIX	"[HALMAC]"
++	va_list args;
++	u8 str[MSG_LEN] = {0};
++	u32 type;
++	u8 level;
++
++
++	str[0] = '\n';
++	type = 0xFFFFFFFF;
++	if (rtw_drv_log_level <= _DRV_ERR_)
++		level = HALMAC_DBG_ERR;
++	else if (rtw_drv_log_level <= _DRV_INFO_)
++		level = HALMAC_DBG_WARN;
++	else
++		level = HALMAC_DBG_TRACE;
++
++	if (!(type & BIT(msg_type)))
++		return _TRUE;
++	if (level < msg_level)
++		return _TRUE;
++
++	va_start(args, fmt);
++	vsnprintf(str, MSG_LEN, fmt, args);
++	va_end(args);
++
++	if (msg_level <= HALMAC_DBG_ERR)
++		RTW_ERR(MSG_PREFIX "%s", str);
++	else if (msg_level <= HALMAC_DBG_WARN)
++		RTW_WARN(MSG_PREFIX "%s", str);
++	else
++		RTW_DBG(MSG_PREFIX "%s", str);
++
++	return _TRUE;
++}
++
++static u8 _halmac_buff_print(void *p, u32 msg_type, u8 msg_level, s8 *buf, u32 size)
++{
++#define MSG_PREFIX	"[HALMAC]"
++	u32 type;
++	u8 level;
++
++	type = 0xFFFFFFFF;
++	if (rtw_drv_log_level <= _DRV_ERR_)
++		level = HALMAC_DBG_ERR;
++	else if (rtw_drv_log_level <= _DRV_INFO_)
++		level = HALMAC_DBG_WARN;
++	else
++		level = HALMAC_DBG_TRACE;
++
++	if (!(type & BIT(msg_type)))
++		return _TRUE;
++	if (level < msg_level)
++		return _TRUE;
++
++	if (msg_level <= HALMAC_DBG_WARN)
++		RTW_INFO_DUMP(MSG_PREFIX, buf, size);
++	else
++		RTW_DBG_DUMP(MSG_PREFIX, buf, size);
++
++	return _TRUE;
++}
++
++
++const char *const RTW_HALMAC_FEATURE_NAME[] = {
++	"HALMAC_FEATURE_CFG_PARA",
++	"HALMAC_FEATURE_DUMP_PHYSICAL_EFUSE",
++	"HALMAC_FEATURE_DUMP_LOGICAL_EFUSE",
++	"HALMAC_FEATURE_UPDATE_PACKET",
++	"HALMAC_FEATURE_UPDATE_DATAPACK",
++	"HALMAC_FEATURE_RUN_DATAPACK",
++	"HALMAC_FEATURE_CHANNEL_SWITCH",
++	"HALMAC_FEATURE_IQK",
++	"HALMAC_FEATURE_POWER_TRACKING",
++	"HALMAC_FEATURE_PSD",
++	"HALMAC_FEATURE_ALL"
++};
++
++static inline u8 is_valid_id_status(HALMAC_FEATURE_ID id, HALMAC_CMD_PROCESS_STATUS status)
++{
++	switch (id) {
++	case HALMAC_FEATURE_CFG_PARA:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		break;
++	case HALMAC_FEATURE_DUMP_PHYSICAL_EFUSE:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		if (HALMAC_CMD_PROCESS_DONE != status) {
++			RTW_INFO("%s: <WARN> id(%d) unspecified status(%d)!\n",
++				 __FUNCTION__, id, status);
++		}
++		break;
++	case HALMAC_FEATURE_DUMP_LOGICAL_EFUSE:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		if (HALMAC_CMD_PROCESS_DONE != status) {
++			RTW_INFO("%s: <WARN> id(%d) unspecified status(%d)!\n",
++				 __FUNCTION__, id, status);
++		}
++		break;
++	case HALMAC_FEATURE_UPDATE_PACKET:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		break;
++	case HALMAC_FEATURE_UPDATE_DATAPACK:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		break;
++	case HALMAC_FEATURE_RUN_DATAPACK:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		break;
++	case HALMAC_FEATURE_CHANNEL_SWITCH:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		break;
++	case HALMAC_FEATURE_IQK:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		break;
++	case HALMAC_FEATURE_POWER_TRACKING:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		break;
++	case HALMAC_FEATURE_PSD:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		break;
++	case HALMAC_FEATURE_ALL:
++		RTW_INFO("%s: %s\n", __FUNCTION__, RTW_HALMAC_FEATURE_NAME[id]);
++		break;
++	default:
++		RTW_INFO("%s: unknown feature id(%d)\n", __FUNCTION__, id);
++		return _FALSE;
++	}
++
++	return _TRUE;
++}
++
++static int init_halmac_event_with_waittime(struct dvobj_priv *d, HALMAC_FEATURE_ID id, u8 *buf, u32 size, u32 time)
++{
++	struct submit_ctx *sctx;
++
++
++	if (!d->hmpriv.indicator[id].sctx) {
++		sctx = (struct submit_ctx *)rtw_zmalloc(sizeof(*sctx));
++		if (!sctx)
++			return -1;
++	} else {
++		RTW_INFO("%s: <WARN> id(%d) sctx is not NULL!!\n", __FUNCTION__, id);
++		sctx = d->hmpriv.indicator[id].sctx;
++		d->hmpriv.indicator[id].sctx = NULL;
++	}
++
++	rtw_sctx_init(sctx, time);
++	d->hmpriv.indicator[id].buffer = buf;
++	d->hmpriv.indicator[id].buf_size = size;
++	d->hmpriv.indicator[id].ret_size = 0;
++	d->hmpriv.indicator[id].status = 0;
++	/* fill sctx at least to sure other variables are all ready! */
++	d->hmpriv.indicator[id].sctx = sctx;
++
++	return 0;
++}
++
++static inline int init_halmac_event(struct dvobj_priv *d, HALMAC_FEATURE_ID id, u8 *buf, u32 size)
++{
++	return init_halmac_event_with_waittime(d, id, buf, size, DEFAULT_INDICATOR_TIMELMT);
++}
++
++static void free_halmac_event(struct dvobj_priv *d, HALMAC_FEATURE_ID id)
++{
++	struct submit_ctx *sctx;
++
++
++	if (!d->hmpriv.indicator[id].sctx)
++		return;
++
++	sctx = d->hmpriv.indicator[id].sctx;
++	d->hmpriv.indicator[id].sctx = NULL;
++	rtw_mfree((u8 *)sctx, sizeof(*sctx));
++}
++
++static int wait_halmac_event(struct dvobj_priv *d, HALMAC_FEATURE_ID id)
++{
++	struct submit_ctx *sctx;
++	int ret;
++
++
++	sctx = d->hmpriv.indicator[id].sctx;
++	if (!sctx)
++		return -1;
++
++	ret = rtw_sctx_wait(sctx, RTW_HALMAC_FEATURE_NAME[id]);
++	free_halmac_event(d, id);
++	if (_SUCCESS == ret)
++		return 0;
++
++	return -1;
++}
++
++/*
++ * Return:
++ *	Always return _TRUE, HALMAC don't care the return value.
++ */
++static u8 _halmac_event_indication(void *p, HALMAC_FEATURE_ID feature_id, HALMAC_CMD_PROCESS_STATUS process_status, u8 *buf, u32 size)
++{
++	struct dvobj_priv *d;
++	PADAPTER adapter;
++	PHAL_DATA_TYPE hal;
++	struct halmac_indicator *tbl, *indicator;
++	struct submit_ctx *sctx;
++	u32 cpsz;
++	u8 ret;
++
++
++	d = (struct dvobj_priv *)p;
++	adapter = dvobj_get_primary_adapter(d);
++	hal = GET_HAL_DATA(adapter);
++	tbl = d->hmpriv.indicator;
++
++	ret = is_valid_id_status(feature_id, process_status);
++	if (_FALSE == ret)
++		goto exit;
++
++	indicator = &tbl[feature_id];
++	indicator->status = process_status;
++	indicator->ret_size = size;
++	if (!indicator->sctx) {
++		RTW_INFO("%s: No feature id(%d) waiting!!\n", __FUNCTION__, feature_id);
++		goto exit;
++	}
++	sctx = indicator->sctx;
++
++	if (HALMAC_CMD_PROCESS_ERROR == process_status) {
++		RTW_INFO("%s: Something wrong id(%d)!!\n", __FUNCTION__, feature_id);
++		rtw_sctx_done_err(&sctx, RTW_SCTX_DONE_UNKNOWN);
++		goto exit;
++	}
++
++	if (size > indicator->buf_size) {
++		RTW_INFO("%s: <WARN> id(%d) buffer is not enough(%d<%d), data will be truncated!\n",
++			 __FUNCTION__, feature_id, indicator->buf_size, size);
++		cpsz = indicator->buf_size;
++	} else
++		cpsz = size;
++	if (cpsz && indicator->buffer)
++		_rtw_memcpy(indicator->buffer, buf, cpsz);
++
++	rtw_sctx_done(&sctx);
++
++exit:
++	return _TRUE;
++}
++
++HALMAC_PLATFORM_API rtw_halmac_platform_api = {
++	/* R/W register */
++#ifdef CONFIG_SDIO_HCI
++	.SDIO_CMD52_READ = _halmac_sdio_cmd52_read,
++	.SDIO_CMD53_READ_8 = _halmac_sdio_reg_read_8,
++	.SDIO_CMD53_READ_16 = _halmac_sdio_reg_read_16,
++	.SDIO_CMD53_READ_32 = _halmac_sdio_reg_read_32,
++	.SDIO_CMD53_READ_N = _halmac_sdio_reg_read_n,
++	.SDIO_CMD52_WRITE = _halmac_sdio_cmd52_write,
++	.SDIO_CMD53_WRITE_8 = _halmac_sdio_reg_write_8,
++	.SDIO_CMD53_WRITE_16 = _halmac_sdio_reg_write_16,
++	.SDIO_CMD53_WRITE_32 = _halmac_sdio_reg_write_32,
++
++#endif /* CONFIG_SDIO_HCI */
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_PCIE_HCI)
++	.REG_READ_8 = _halmac_reg_read_8,
++	.REG_READ_16 = _halmac_reg_read_16,
++	.REG_READ_32 = _halmac_reg_read_32,
++	.REG_WRITE_8 = _halmac_reg_write_8,
++	.REG_WRITE_16 = _halmac_reg_write_16,
++	.REG_WRITE_32 = _halmac_reg_write_32,
++#endif /* CONFIG_USB_HCI || CONFIG_PCIE_HCI */
++
++	/* Write data */
++#if 0
++	/* impletement in HAL-IC level */
++	.SEND_RSVD_PAGE = sdio_write_data_rsvd_page,
++	.SEND_H2C_PKT = sdio_write_data_h2c,
++#endif
++	/* Memory allocate */
++	.RTL_FREE = _halmac_mfree,
++	.RTL_MALLOC = _halmac_malloc,
++	.RTL_MEMCPY = _halmac_memcpy,
++	.RTL_MEMSET = _halmac_memset,
++
++	/* Sleep */
++	.RTL_DELAY_US = _halmac_udelay,
++
++	/* Process Synchronization */
++	.MUTEX_INIT = _halmac_mutex_init,
++	.MUTEX_DEINIT = _halmac_mutex_deinit,
++	.MUTEX_LOCK = _halmac_mutex_lock,
++	.MUTEX_UNLOCK = _halmac_mutex_unlock,
++
++	.MSG_PRINT = _halmac_msg_print,
++	.BUFF_PRINT = _halmac_buff_print,
++	.EVENT_INDICATION = _halmac_event_indication,
++};
++
++u8 rtw_halmac_read8(struct intf_hdl *pintfhdl, u32 addr)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++
++
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	return api->halmac_reg_read_8(mac, addr);
++}
++
++u16 rtw_halmac_read16(struct intf_hdl *pintfhdl, u32 addr)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++
++
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	return api->halmac_reg_read_16(mac, addr);
++}
++
++u32 rtw_halmac_read32(struct intf_hdl *pintfhdl, u32 addr)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++
++
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	return api->halmac_reg_read_32(mac, addr);
++}
++
++void rtw_halmac_read_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem)
++{
++#if defined(CONFIG_SDIO_HCI)
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++
++	if (pmem == NULL) {
++		RTW_ERR("pmem is NULL\n");
++		return;
++	}
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	api->halmac_reg_sdio_cmd53_read_n(mac, addr, cnt, pmem);
++#endif
++}
++
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++u8 rtw_halmac_iread8(struct intf_hdl *pintfhdl, u32 addr)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	/*return api->halmac_reg_read_indirect_8(mac, addr);*/
++	return api->halmac_reg_read_8(mac, addr);
++}
++
++u16 rtw_halmac_iread16(struct intf_hdl *pintfhdl, u32 addr)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	u16 val16 = 0;
++
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	/*return api->halmac_reg_read_indirect_16(mac, addr);*/
++	return api->halmac_reg_read_16(mac, addr);
++}
++
++u32 rtw_halmac_iread32(struct intf_hdl *pintfhdl, u32 addr)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++
++
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	return api->halmac_reg_read_indirect_32(mac, addr);
++}
++#endif
++
++int rtw_halmac_write8(struct intf_hdl *pintfhdl, u32 addr, u8 value)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++
++
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_reg_write_8(mac, addr, value);
++
++	if (status == HALMAC_RET_SUCCESS)
++		return 0;
++
++	return -1;
++}
++
++int rtw_halmac_write16(struct intf_hdl *pintfhdl, u32 addr, u16 value)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++
++
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_reg_write_16(mac, addr, value);
++
++	if (status == HALMAC_RET_SUCCESS)
++		return 0;
++
++	return -1;
++}
++
++int rtw_halmac_write32(struct intf_hdl *pintfhdl, u32 addr, u32 value)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++
++
++	/* WARNING: pintf_dev should not be null! */
++	mac = dvobj_to_halmac(pintfhdl->pintf_dev);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_reg_write_32(mac, addr, value);
++
++	if (status == HALMAC_RET_SUCCESS)
++		return 0;
++
++	return -1;
++}
++
++static int init_priv(struct halmacpriv *priv)
++{
++	struct halmac_indicator *indicator;
++	u32 count, size;
++
++
++	size = sizeof(*priv);
++	_rtw_memset(priv, 0, size);
++
++	count = HALMAC_FEATURE_ALL + 1;
++	size = sizeof(*indicator) * count;
++	indicator = (struct halmac_indicator *)rtw_zmalloc(size);
++	if (!indicator)
++		return -1;
++	priv->indicator = indicator;
++
++	return 0;
++}
++
++static void deinit_priv(struct halmacpriv *priv)
++{
++	struct halmac_indicator *indicator;
++
++
++	indicator = priv->indicator;
++	priv->indicator = NULL;
++	if (indicator) {
++		u32 count, size;
++
++		count = HALMAC_FEATURE_ALL + 1;
++#ifdef CONFIG_RTW_DEBUG
++		{
++			struct submit_ctx *sctx;
++			u32 i;
++
++			for (i = 0; i < count; i++) {
++				if (!indicator[i].sctx)
++					continue;
++
++				RTW_INFO("%s: <WARN> %s id(%d) sctx still exist!!\n",
++					__FUNCTION__, RTW_HALMAC_FEATURE_NAME[i], i);
++				sctx = indicator[i].sctx;
++				indicator[i].sctx = NULL;
++				rtw_mfree((u8 *)sctx, sizeof(*sctx));
++			}
++		}
++#endif /* !CONFIG_RTW_DEBUG */
++		size = sizeof(*indicator) * count;
++		rtw_mfree((u8 *)indicator, size);
++	}
++}
++
++int rtw_halmac_init_adapter(struct dvobj_priv *d, PHALMAC_PLATFORM_API pf_api)
++{
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_INTERFACE intf;
++	HALMAC_RET_STATUS status;
++	int err = 0;
++
++
++	halmac = dvobj_to_halmac(d);
++	if (halmac) {
++		err = 0;
++		goto out;
++	}
++
++	err = init_priv(&d->hmpriv);
++	if (err)
++		goto out;
++
++#ifdef CONFIG_SDIO_HCI
++	intf = HALMAC_INTERFACE_SDIO;
++#elif defined(CONFIG_USB_HCI)
++	intf = HALMAC_INTERFACE_USB;
++#elif defined(CONFIG_PCIE_HCI)
++	intf = HALMAC_INTERFACE_PCIE;
++#else
++#warning "INTERFACE(CONFIG_XXX_HCI) not be defined!!"
++	intf = HALMAC_INTERFACE_UNDEFINE;
++#endif
++	status = halmac_init_adapter(d, pf_api, intf, &halmac, &api);
++	if (HALMAC_RET_SUCCESS != status) {
++		RTW_INFO("%s: halmac_init_adapter fail!(status=%d)\n", __FUNCTION__, status);
++		err = -1;
++		goto out;
++	}
++
++	dvobj_set_halmac(d, halmac);
++
++out:
++	if (err)
++		rtw_halmac_deinit_adapter(d);
++
++	return err;
++}
++
++int rtw_halmac_deinit_adapter(struct dvobj_priv *d)
++{
++	PHALMAC_ADAPTER halmac;
++	HALMAC_RET_STATUS status;
++	int err = 0;
++
++
++	halmac = dvobj_to_halmac(d);
++	if (!halmac) {
++		err = 0;
++		goto out;
++	}
++
++	deinit_priv(&d->hmpriv);
++
++	status = halmac_deinit_adapter(halmac);
++	dvobj_set_halmac(d, NULL);
++	if (status != HALMAC_RET_SUCCESS) {
++		err = -1;
++		goto out;
++	}
++
++out:
++	return err;
++}
++
++int rtw_halmac_poweron(struct dvobj_priv *d)
++{
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	int err = -1;
++
++
++	halmac = dvobj_to_halmac(d);
++	if (!halmac)
++		goto out;
++
++	api = HALMAC_GET_API(halmac);
++
++	status = api->halmac_pre_init_system_cfg(halmac);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	status = api->halmac_mac_power_switch(halmac, HALMAC_MAC_POWER_ON);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	status = api->halmac_init_system_cfg(halmac);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	err = 0;
++out:
++	return err;
++}
++
++int rtw_halmac_poweroff(struct dvobj_priv *d)
++{
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	int err = -1;
++
++
++	halmac = dvobj_to_halmac(d);
++	if (!halmac)
++		goto out;
++
++	api = HALMAC_GET_API(halmac);
++
++	status = api->halmac_mac_power_switch(halmac, HALMAC_MAC_POWER_OFF);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	err = 0;
++out:
++	return err;
++}
++
++/*
++ * Note:
++ *	When this function return, the register REG_RCR may be changed.
++ */
++int rtw_halmac_config_rx_info(struct dvobj_priv *d, HALMAC_DRV_INFO info)
++{
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	int err = -1;
++
++
++	halmac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(halmac);
++
++	status = api->halmac_cfg_drv_info(halmac, info);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	err = 0;
++out:
++	return err;
++}
++
++#ifdef CONFIG_SUPPORT_TRX_SHARED
++static inline HALMAC_RX_FIFO_EXPANDING_MODE _trx_share_mode_drv2halmac(u8 trx_share_mode)
++{
++	if (0 == trx_share_mode)
++		return HALMAC_RX_FIFO_EXPANDING_MODE_DISABLE;
++	else if (1 == trx_share_mode)
++		return HALMAC_RX_FIFO_EXPANDING_MODE_1_BLOCK;
++	else if (2 == trx_share_mode)
++		return HALMAC_RX_FIFO_EXPANDING_MODE_2_BLOCK;
++	else if (3 == trx_share_mode)
++		return HALMAC_RX_FIFO_EXPANDING_MODE_3_BLOCK;
++	else
++		return HALMAC_RX_FIFO_EXPANDING_MODE_DISABLE;
++}
++static HALMAC_RX_FIFO_EXPANDING_MODE _rtw_get_trx_share_mode(_adapter *adapter)
++{
++	struct registry_priv  *registry_par = &adapter->registrypriv;
++
++	return _trx_share_mode_drv2halmac(registry_par->trx_share_mode);
++}
++void dump_trx_share_mode(void *sel, _adapter *adapter)
++{
++	struct registry_priv  *registry_par = &adapter->registrypriv;
++	u8 mode =  _trx_share_mode_drv2halmac(registry_par->trx_share_mode);
++
++	if (HALMAC_RX_FIFO_EXPANDING_MODE_1_BLOCK == mode)
++		RTW_PRINT_SEL(sel, "TRx share mode : %s\n", "RX_FIFO_EXPANDING_MODE_1");
++	else if (HALMAC_RX_FIFO_EXPANDING_MODE_2_BLOCK == mode)
++		RTW_PRINT_SEL(sel, "TRx share mode : %s\n", "RX_FIFO_EXPANDING_MODE_2");
++	else if (HALMAC_RX_FIFO_EXPANDING_MODE_3_BLOCK == mode)
++		RTW_PRINT_SEL(sel, "TRx share mode : %s\n", "RX_FIFO_EXPANDING_MODE_3");
++	else
++		RTW_PRINT_SEL(sel, "TRx share mode : %s\n", "DISABLE");
++}
++#endif
++
++static HALMAC_RET_STATUS init_mac_flow(struct dvobj_priv *d)
++{
++	PADAPTER p;
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_WLAN_ADDR hwa;
++	HALMAC_RET_STATUS status;
++	u8 wifi_test = 0;
++	u8 nettype;
++	int err;
++	HALMAC_DRV_RSVD_PG_NUM rsvd_page_number = HALMAC_RSVD_PG_NUM16;/*HALMAC_RSVD_PG_NUM24/HALMAC_RSVD_PG_NUM32*/
++
++	p = dvobj_get_primary_adapter(d);
++	halmac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(halmac);
++	if (p->registrypriv.wifi_spec)
++		wifi_test = 1;
++
++#ifdef CONFIG_SUPPORT_TRX_SHARED
++	status = api->halmac_cfg_rx_fifo_expanding_mode(halmac, _rtw_get_trx_share_mode(p));
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++	rsvd_page_number = HALMAC_RSVD_PG_NUM32;
++#endif
++	status = api->halmac_cfg_drv_rsvd_pg_num(halmac, rsvd_page_number);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++#ifdef CONFIG_USB_HCI
++	status = api->halmac_set_bulkout_num(halmac, d->RtNumOutPipes);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++#endif /* CONFIG_USB_HCI */
++
++	if (!wifi_test) {
++		#ifdef CONFIG_SUPPORT_TRX_SHARED
++		if (_rtw_get_trx_share_mode(p))
++			status = api->halmac_init_mac_cfg(halmac, HALMAC_TRX_MODE_TRXSHARE);
++		else
++		#endif
++			status = api->halmac_init_mac_cfg(halmac, HALMAC_TRX_MODE_NORMAL);
++	 } else
++		status = api->halmac_init_mac_cfg(halmac, HALMAC_TRX_MODE_WMM);
++
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	err = rtw_halmac_rx_agg_switch(d, _TRUE);
++	if (err)
++		goto out;
++
++	nettype = dvobj_to_regsty(d)->wireless_mode;
++	if (IsSupportedVHT(nettype) == _TRUE)
++		status = api->halmac_cfg_operation_mode(halmac, HALMAC_WIRELESS_MODE_AC);
++	else if (IsSupportedHT(nettype) == _TRUE)
++		status = api->halmac_cfg_operation_mode(halmac, HALMAC_WIRELESS_MODE_N);
++	else if (IsSupportedTxOFDM(nettype) == _TRUE)
++		status = api->halmac_cfg_operation_mode(halmac, HALMAC_WIRELESS_MODE_G);
++	else
++		status = api->halmac_cfg_operation_mode(halmac, HALMAC_WIRELESS_MODE_B);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++out:
++	return status;
++}
++
++static inline HALMAC_RF_TYPE _rf_type_drv2halmac(RT_RF_TYPE_DEF_E rf_drv)
++{
++	HALMAC_RF_TYPE rf_mac;
++
++
++	switch (rf_drv) {
++	case RF_1T2R:
++		rf_mac = HALMAC_RF_1T2R;
++		break;
++	case RF_2T4R:
++		rf_mac = HALMAC_RF_2T4R;
++		break;
++	case RF_2T2R:
++		rf_mac = HALMAC_RF_2T2R;
++		break;
++	case RF_1T1R:
++		rf_mac = HALMAC_RF_1T1R;
++		break;
++	case RF_2T2R_GREEN:
++		rf_mac = HALMAC_RF_2T2R_GREEN;
++		break;
++	case RF_2T3R:
++		rf_mac = HALMAC_RF_2T3R;
++		break;
++	case RF_3T3R:
++		rf_mac = HALMAC_RF_3T3R;
++		break;
++	case RF_3T4R:
++		rf_mac = HALMAC_RF_3T4R;
++		break;
++	case RF_4T4R:
++		rf_mac = HALMAC_RF_4T4R;
++		break;
++	default:
++		rf_mac = (HALMAC_RF_TYPE)rf_drv;
++		break;
++	}
++
++	return rf_mac;
++}
++
++static int _send_general_info(struct dvobj_priv *d)
++{
++	PADAPTER adapter;
++	PHAL_DATA_TYPE hal;
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_GENERAL_INFO info;
++	HALMAC_RET_STATUS status;
++	u8 val8;
++
++
++	adapter = dvobj_get_primary_adapter(d);
++	hal = GET_HAL_DATA(adapter);
++	halmac = dvobj_to_halmac(d);
++	if (!halmac)
++		return -1;
++	api = HALMAC_GET_API(halmac);
++
++	_rtw_memset(&info, 0, sizeof(info));
++	info.rfe_type = (u8)hal->RFEType;
++	rtw_hal_get_hwreg(adapter, HW_VAR_RF_TYPE, &val8);
++	info.rf_type = _rf_type_drv2halmac(val8);
++
++	status = api->halmac_send_general_info(halmac, &info);
++	switch (status) {
++	case HALMAC_RET_SUCCESS:
++		break;
++	case HALMAC_RET_NO_DLFW:
++		RTW_WARN("%s: halmac_send_general_info() fail because fw not dl!\n",
++			 __FUNCTION__);
++		/* go through */
++	default:
++		return -1;
++	}
++
++	return 0;
++}
++
++/*
++ * Notices:
++ *	Make sure
++ *	1. rtw_hal_get_hwreg(HW_VAR_RF_TYPE)
++ *	2. HAL_DATA_TYPE.rfe_type
++ *	already ready for use before calling this function.
++ */
++static int _halmac_init_hal(struct dvobj_priv *d, u8 *fw, u32 fwsize)
++{
++	PADAPTER adapter;
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u32 ok = _TRUE;
++	u8 fw_ok = _FALSE;
++	int err, err_ret = -1;
++
++
++	adapter = dvobj_get_primary_adapter(d);
++	halmac = dvobj_to_halmac(d);
++	if (!halmac)
++		goto out;
++	api = HALMAC_GET_API(halmac);
++
++	/* StatePowerOff */
++
++	/* SKIP: halmac_init_adapter (Already done before) */
++
++	/* halmac_pre_Init_system_cfg */
++	/* halmac_mac_power_switch(on) */
++	/* halmac_Init_system_cfg */
++	ok = rtw_hal_power_on(adapter);
++	if (_FALSE == ok)
++		goto out;
++
++	/* StatePowerOn */
++
++	/* DownloadFW */
++	d->hmpriv.send_general_info = 0;
++	if (fw && fwsize) {
++		err = rtw_halmac_dlfw(d, fw, fwsize);
++		if (err)
++			goto out;
++		fw_ok = _TRUE;
++	}
++
++	/* InitMACFlow */
++	status = init_mac_flow(d);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	/* halmac_send_general_info */
++	if (_TRUE == fw_ok) {
++		d->hmpriv.send_general_info = 0;
++		err = _send_general_info(d);
++		if (err)
++			goto out;
++	} else
++		d->hmpriv.send_general_info = 1;
++
++	/* Init Phy parameter-MAC */
++	ok = rtw_hal_init_mac_register(adapter);
++	if (_FALSE == ok)
++		goto out;
++
++	/* StateMacInitialized */
++
++	/* halmac_cfg_drv_info */
++	err = rtw_halmac_config_rx_info(d, HALMAC_DRV_INFO_PHY_STATUS);
++	if (err)
++		goto out;
++
++	/* halmac_set_hw_value(HALMAC_HW_EN_BB_RF) */
++	/* Init BB, RF */
++	ok = rtw_hal_init_phy(adapter);
++	if (_FALSE == ok)
++		goto out;
++
++	status = api->halmac_init_interface_cfg(halmac);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	/* SKIP: halmac_verify_platform_api */
++	/* SKIP: halmac_h2c_lb */
++
++	/* StateRxIdle */
++
++	err_ret = 0;
++out:
++	return err_ret;
++}
++
++int rtw_halmac_init_hal(struct dvobj_priv *d)
++{
++	return _halmac_init_hal(d, NULL, 0);
++}
++
++/*
++ * Notices:
++ *	Make sure
++ *	1. rtw_hal_get_hwreg(HW_VAR_RF_TYPE)
++ *	2. HAL_DATA_TYPE.rfe_type
++ *	already ready for use before calling this function.
++ */
++int rtw_halmac_init_hal_fw(struct dvobj_priv *d, u8 *fw, u32 fwsize)
++{
++	return _halmac_init_hal(d, fw, fwsize);
++}
++
++/*
++ * Notices:
++ *	Make sure
++ *	1. rtw_hal_get_hwreg(HW_VAR_RF_TYPE)
++ *	2. HAL_DATA_TYPE.rfe_type
++ *	already ready for use before calling this function.
++ */
++int rtw_halmac_init_hal_fw_file(struct dvobj_priv *d, u8 *fwpath)
++{
++	u8 *fw = NULL;
++	u32 fwmaxsize, size = 0;
++	int err = 0;
++
++
++	fwmaxsize = FIRMWARE_MAX_SIZE;
++	fw = rtw_zmalloc(fwmaxsize);
++	if (!fw)
++		return -1;
++
++	size = rtw_retrieve_from_file(fwpath, fw, fwmaxsize);
++	if (!size) {
++		err = -1;
++		goto exit;
++	}
++
++	err = _halmac_init_hal(d, fw, size);
++
++exit:
++	rtw_mfree(fw, fwmaxsize);
++	fw = NULL;
++
++	return err;
++}
++
++int rtw_halmac_deinit_hal(struct dvobj_priv *d)
++{
++	PADAPTER adapter;
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	int err = -1;
++
++
++	adapter = dvobj_get_primary_adapter(d);
++	halmac = dvobj_to_halmac(d);
++	if (!halmac)
++		goto out;
++	api = HALMAC_GET_API(halmac);
++
++	status = api->halmac_deinit_interface_cfg(halmac);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	rtw_hal_power_off(adapter);
++
++	err = 0;
++out:
++	return err;
++}
++
++int rtw_halmac_self_verify(struct dvobj_priv *d)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	int err = -1;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_verify_platform_api(mac);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	status = api->halmac_h2c_lb(mac);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	err = 0;
++out:
++	return err;
++}
++
++int rtw_halmac_dlfw(struct dvobj_priv *d, u8 *fw, u32 fwsize)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	int err = 0;
++	PHAL_DATA_TYPE hal;
++	HALMAC_FW_VERSION fw_vesion;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++	hal = GET_HAL_DATA(dvobj_get_primary_adapter(d));
++
++	if ((!fw) || (!fwsize))
++		return -1;
++
++	/* 1. Driver Stop Tx */
++	/* ToDo */
++
++	/* 2. Driver Check Tx FIFO is empty */
++	/* ToDo */
++
++	/* 3. Config MAX download size */
++#ifdef CONFIG_USB_HCI
++	/* for USB do not exceed MAX_CMDBUF_SZ */
++	api->halmac_cfg_max_dl_size(mac, 0x1000);
++#elif defined CONFIG_PCIE_HCI                                                   
++	/* required a even length from u32 */
++        api->halmac_cfg_max_dl_size(mac, (MAX_CMDBUF_SZ - TXDESC_OFFSET) & 0xFFFFFFFE);
++#endif
++
++	/* 4. Download Firmware */
++	status = api->halmac_download_firmware(mac, fw, fwsize);
++	if (HALMAC_RET_SUCCESS != status)
++		return -1;
++
++	if (d->hmpriv.send_general_info) {
++		d->hmpriv.send_general_info = 0;
++		err = _send_general_info(d);
++	}
++
++	/* 5. Driver resume TX if needed */
++	/* ToDo */
++
++	/* 6. Reset driver variables if needed */
++	hal->LastHMEBoxNum = 0;
++
++
++	/* 7. Get FW version */
++	status = api->halmac_get_fw_version(mac, &fw_vesion);
++	if (status == HALMAC_RET_SUCCESS) {
++		hal->FirmwareVersion = fw_vesion.version;
++		hal->FirmwareSubVersion = fw_vesion.sub_version;
++	}
++
++	return err;
++}
++
++int rtw_halmac_dlfw_from_file(struct dvobj_priv *d, u8 *fwpath)
++{
++	u8 *fw = NULL;
++	u32 fwmaxsize, size = 0;
++	int err = 0;
++
++
++	fwmaxsize = FIRMWARE_MAX_SIZE;
++	fw = rtw_zmalloc(fwmaxsize);
++	if (!fw)
++		return -1;
++
++	size = rtw_retrieve_from_file(fwpath, fw, fwmaxsize);
++	if (size)
++		err = rtw_halmac_dlfw(d, fw, size);
++	else
++		err = -1;
++
++	rtw_mfree(fw, fwmaxsize);
++	fw = NULL;
++
++	return err;
++}
++
++/*
++ * Description:
++ *	Power on/off BB/RF domain.
++ *
++ * Parameters:
++ *	enable	_TRUE/_FALSE for power on/off
++ *
++ * Return:
++ *	0	Success
++ *	others	Fail
++ */
++int rtw_halmac_phy_power_switch(struct dvobj_priv *d, u8 enable)
++{
++	PADAPTER adapter;
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++
++
++	adapter = dvobj_get_primary_adapter(d);
++	halmac = dvobj_to_halmac(d);
++	if (!halmac)
++		return -1;
++	api = HALMAC_GET_API(halmac);
++
++	status = api->halmac_set_hw_value(halmac, HALMAC_HW_EN_BB_RF, &enable);
++	if (status != HALMAC_RET_SUCCESS)
++		return -1;
++
++	return 0;
++}
++
++static u8 _is_fw_read_cmd_down(PADAPTER adapter, u8 msgbox_num)
++{
++	u8 read_down = _FALSE;
++	int retry_cnts = 100;
++	u8 valid;
++
++	/* RTW_INFO("_is_fw_read_cmd_down, reg_1cc(%x), msg_box(%d)...\n", rtw_read8(adapter, REG_HMETFR), msgbox_num); */
++
++	do {
++		valid = rtw_read8(adapter, REG_HMETFR) & BIT(msgbox_num);
++		if (0 == valid)
++			read_down = _TRUE;
++		else
++			rtw_msleep_os(1);
++	} while ((!read_down) && (retry_cnts--));
++
++	return read_down;
++}
++
++int rtw_halmac_send_h2c(struct dvobj_priv *d, u8 *h2c)
++{
++	PADAPTER adapter = dvobj_get_primary_adapter(d);
++	PHAL_DATA_TYPE hal = GET_HAL_DATA(adapter);
++	u8 h2c_box_num = 0;
++	u32 msgbox_addr = 0;
++	u32 msgbox_ex_addr = 0;
++	u32 h2c_cmd = 0;
++	u32 h2c_cmd_ex = 0;
++	s32 ret = _FAIL;
++
++	if (adapter->bFWReady == _FALSE) {
++		RTW_INFO("%s: return H2C cmd because fw is not ready\n", __FUNCTION__);
++		return ret;
++	}
++
++	if (!h2c) {
++		RTW_INFO("%s: pbuf is NULL\n", __FUNCTION__);
++		return ret;
++	}
++
++	if (rtw_is_surprise_removed(adapter)) {
++		RTW_INFO("%s: surprise removed\n", __FUNCTION__);
++		return ret;
++	}
++
++	_enter_critical_mutex(&d->h2c_fwcmd_mutex, NULL);
++
++	/* pay attention to if race condition happened in  H2C cmd setting */
++	h2c_box_num = hal->LastHMEBoxNum;
++
++	if (!_is_fw_read_cmd_down(adapter, h2c_box_num)) {
++		RTW_INFO(" fw read cmd failed...\n");
++		goto exit;
++	}
++
++	/* Write Ext command(byte 4 -7) */
++	msgbox_ex_addr = REG_HMEBOX_E0 + (h2c_box_num * EX_MESSAGE_BOX_SIZE);
++	_rtw_memcpy((u8 *)(&h2c_cmd_ex), h2c + 4, EX_MESSAGE_BOX_SIZE);
++	h2c_cmd_ex = le32_to_cpu(h2c_cmd_ex);
++	rtw_write32(adapter, msgbox_ex_addr, h2c_cmd_ex);
++
++	/* Write command (byte 0 -3 ) */
++	msgbox_addr = REG_HMEBOX0 + (h2c_box_num * MESSAGE_BOX_SIZE);
++	_rtw_memcpy((u8 *)(&h2c_cmd), h2c, 4);
++	h2c_cmd = le32_to_cpu(h2c_cmd);
++	rtw_write32(adapter, msgbox_addr, h2c_cmd);
++
++	/* update last msg box number */
++	hal->LastHMEBoxNum = (h2c_box_num + 1) % MAX_H2C_BOX_NUMS;
++	ret = _SUCCESS;
++
++exit:
++	_exit_critical_mutex(&d->h2c_fwcmd_mutex, NULL);
++	return ret;
++}
++
++int rtw_halmac_c2h_handle(struct dvobj_priv *d, u8 *c2h, u32 size)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_get_c2h_info(mac, c2h, size);
++	if (HALMAC_RET_SUCCESS != status)
++		return -1;
++
++	return 0;
++}
++
++int rtw_halmac_get_physical_efuse_size(struct dvobj_priv *d, u32 *size)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u32 val;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_get_efuse_size(mac, &val);
++	if (HALMAC_RET_SUCCESS != status)
++		return -1;
++
++	*size = val;
++	return 0;
++}
++
++int rtw_halmac_read_physical_efuse_map(struct dvobj_priv *d, u8 *map, u32 size)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	HALMAC_FEATURE_ID id;
++	int ret;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++	id = HALMAC_FEATURE_DUMP_PHYSICAL_EFUSE;
++
++	ret = init_halmac_event(d, id, map, size);
++	if (ret)
++		return -1;
++
++	status = api->halmac_dump_efuse_map(mac, HALMAC_EFUSE_R_AUTO);
++	if (HALMAC_RET_SUCCESS != status) {
++		free_halmac_event(d, id);
++		return -1;
++	}
++
++	ret = wait_halmac_event(d, id);
++	if (ret)
++		return -1;
++
++	return 0;
++}
++
++int rtw_halmac_read_physical_efuse(struct dvobj_priv *d, u32 offset, u32 cnt, u8 *data)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u8 v;
++	u32 i;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	for (i = 0; i < cnt; i++) {
++		status = api->halmac_read_efuse(mac, offset + i, &v);
++		if (HALMAC_RET_SUCCESS != status)
++			return -1;
++		data[i] = v;
++	}
++
++	return 0;
++}
++
++int rtw_halmac_write_physical_efuse(struct dvobj_priv *d, u32 offset, u32 cnt, u8 *data)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u32 i;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	for (i = 0; i < cnt; i++) {
++		status = api->halmac_write_efuse(mac, offset + i, data[i]);
++		if (HALMAC_RET_SUCCESS != status)
++			return -1;
++	}
++
++	return 0;
++}
++
++int rtw_halmac_get_logical_efuse_size(struct dvobj_priv *d, u32 *size)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u32 val;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_get_logical_efuse_size(mac, &val);
++	if (HALMAC_RET_SUCCESS != status)
++		return -1;
++
++	*size = val;
++	return 0;
++}
++
++int rtw_halmac_read_logical_efuse_map(struct dvobj_priv *d, u8 *map, u32 size)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	HALMAC_FEATURE_ID id;
++	int ret;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++	id = HALMAC_FEATURE_DUMP_LOGICAL_EFUSE;
++
++	ret = init_halmac_event(d, id, map, size);
++	if (ret)
++		return -1;
++
++	status = api->halmac_dump_logical_efuse_map(mac, HALMAC_EFUSE_R_AUTO);
++	if (HALMAC_RET_SUCCESS != status) {
++		free_halmac_event(d, id);
++		return -1;
++	}
++
++	ret = wait_halmac_event(d, id);
++	if (ret)
++		return -1;
++
++	return 0;
++}
++
++int rtw_halmac_write_logical_efuse_map(struct dvobj_priv *d, u8 *map, u32 size, u8 *maskmap, u32 masksize)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_PG_EFUSE_INFO pginfo;
++	HALMAC_RET_STATUS status;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	pginfo.pEfuse_map = map;
++	pginfo.efuse_map_size = size;
++	pginfo.pEfuse_mask = maskmap;
++	pginfo.efuse_mask_size = masksize;
++
++	status = api->halmac_pg_efuse_by_map(mac, &pginfo, HALMAC_EFUSE_R_AUTO);
++	if (HALMAC_RET_SUCCESS != status)
++		return -1;
++
++	return 0;
++}
++
++int rtw_halmac_read_logical_efuse(struct dvobj_priv *d, u32 offset, u32 cnt, u8 *data)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u8 v;
++	u32 i;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	for (i = 0; i < cnt; i++) {
++		status = api->halmac_read_logical_efuse(mac, offset + i, &v);
++		if (HALMAC_RET_SUCCESS != status)
++			return -1;
++		data[i] = v;
++	}
++
++	return 0;
++}
++
++int rtw_halmac_write_logical_efuse(struct dvobj_priv *d, u32 offset, u32 cnt, u8 *data)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u32 i;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	for (i = 0; i < cnt; i++) {
++		status = api->halmac_write_logical_efuse(mac, offset + i, data[i]);
++		if (HALMAC_RET_SUCCESS != status)
++			return -1;
++	}
++
++	return 0;
++}
++
++int rtw_halmac_write_bt_physical_efuse(struct dvobj_priv *d, u32 offset, u32 cnt, u8 *data)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u32 i;
++	u8 bank = 1;
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	for (i = 0; i < cnt; i++) {
++		status = api->halmac_write_efuse_bt(mac, offset + i, data[i], bank);
++		if (HALMAC_RET_SUCCESS != status) {
++			printk("%s: halmac_write_efuse_bt status = %d\n", __FUNCTION__, status);
++			return -1;
++		}
++	}
++	printk("%s: halmac_write_efuse_bt status = HALMAC_RET_SUCCESS %d\n", __FUNCTION__, status);
++	return 0;
++}
++
++
++int rtw_halmac_read_bt_physical_efuse_map(struct dvobj_priv *d, u8 *map, u32 size)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	HALMAC_FEATURE_ID id;
++	int ret;
++	int bank = 1;
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_dump_efuse_map_bt(mac, bank, size, map);
++	if (HALMAC_RET_SUCCESS != status) {		
++		printk("%s: halmac_dump_efuse_map_bt fail!\n", __FUNCTION__);
++		return -1;
++	}
++
++	printk("%s: OK!\n", __FUNCTION__);
++
++	return 0;
++}
++
++static inline u8 _hw_port_drv2halmac(enum _hw_port hwport)
++{
++	u8 port = 0;
++
++
++	switch (hwport) {
++	case HW_PORT0:
++		port = 0;
++		break;
++	case HW_PORT1:
++		port = 1;
++		break;
++	case HW_PORT2:
++		port = 2;
++		break;
++	case HW_PORT3:
++		port = 3;
++		break;
++	case HW_PORT4:
++		port = 4;
++		break;
++	default:
++		port = hwport;
++		break;
++	}
++
++	return port;
++}
++
++int rtw_halmac_set_mac_address(struct dvobj_priv *d, enum _hw_port hwport, u8 *addr)
++{
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	u8 port;
++	HALMAC_WLAN_ADDR hwa;
++	HALMAC_RET_STATUS status;
++	int err = -1;
++
++
++	halmac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(halmac);
++
++	port = _hw_port_drv2halmac(hwport);
++	_rtw_memset(&hwa, 0, sizeof(hwa));
++	_rtw_memcpy(hwa.Address, addr, 6);
++
++	status = api->halmac_cfg_mac_addr(halmac, port, &hwa);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	err = 0;
++out:
++	return err;
++}
++
++int rtw_halmac_set_bssid(struct dvobj_priv *d, enum _hw_port hwport, u8 *addr)
++{
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	u8 port;
++	HALMAC_WLAN_ADDR hwa;
++	HALMAC_RET_STATUS status;
++	int err = -1;
++
++	halmac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(halmac);
++	port = _hw_port_drv2halmac(hwport);
++
++	_rtw_memset(&hwa, 0, sizeof(HALMAC_WLAN_ADDR));
++	_rtw_memcpy(hwa.Address, addr, 6);
++	status = api->halmac_cfg_bssid(halmac, port, &hwa);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	err = 0;
++out:
++	return err;
++}
++
++int rtw_halmac_set_bandwidth(struct dvobj_priv *d, u8 channel, u8 pri_ch_idx, u8 bw)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_cfg_ch_bw(mac, channel, pri_ch_idx, bw);
++	if (HALMAC_RET_SUCCESS != status)
++		return -1;
++
++	return 0;
++}
++
++int rtw_halmac_get_hw_value(struct dvobj_priv *d, HALMAC_HW_ID hw_id, VOID *pvalue)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_get_hw_value(mac, hw_id, pvalue);
++	if (HALMAC_RET_SUCCESS != status)
++		return -1;
++
++	return 0;
++}
++
++static HAL_FIFO_SEL _fifo_sel_drv2halmac(u8 fifo_sel)
++{
++	if (0 == fifo_sel)
++		return HAL_FIFO_SEL_TX;
++	else if (1 == fifo_sel)
++		return HAL_FIFO_SEL_RX;
++	else if (2 == fifo_sel)
++		return HAL_FIFO_SEL_RSVD_PAGE;
++	else if (3 == fifo_sel)
++		return HAL_FIFO_SEL_REPORT;
++	else if (4 == fifo_sel)
++		return HAL_FIFO_SEL_LLT;
++	else
++		return HAL_FIFO_SEL_RSVD_PAGE;
++}
++
++#define CONFIG_HALMAC_FIFO_DUMP
++int rtw_halmac_dump_fifo(struct dvobj_priv *d, u8 fifo_sel, u32 addr, u32 size, u8 *buffer)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u8 *pfifo_map = NULL;
++	u32 fifo_size = 0;
++	s8 ret = 0;
++	u8 mem_created = _FALSE;
++
++	HAL_FIFO_SEL halmac_fifo_sel;
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	if ((size != 0) && (buffer == NULL))
++		return -1;
++
++	halmac_fifo_sel = _fifo_sel_drv2halmac(fifo_sel);
++
++	if ((size) && (buffer)) {
++		pfifo_map = buffer;
++		fifo_size = size;
++	} else {
++		fifo_size = api->halmac_get_fifo_size(mac, halmac_fifo_sel);
++
++		if (fifo_size)
++			pfifo_map = rtw_zvmalloc(fifo_size);
++		if (pfifo_map == NULL)
++			return -1;
++		mem_created = _TRUE;
++	}
++
++	status = api->halmac_dump_fifo(mac, halmac_fifo_sel, addr, fifo_size, pfifo_map);
++	if (HALMAC_RET_SUCCESS != status) {
++		ret = -1;
++		goto _exit;
++	}
++
++#ifdef CONFIG_HALMAC_FIFO_DUMP
++	{
++		static const char * const fifo_sel_str[] = {
++			"TX", "RX", "RSVD_PAGE", "REPORT", "LLT"
++		};
++
++		RTW_INFO("%s FIFO DUMP [start_addr:0x%04x , size:%d]\n", fifo_sel_str[halmac_fifo_sel], addr, fifo_size);
++		RTW_INFO_DUMP("\n", pfifo_map, fifo_size);
++		RTW_INFO(" ==================================================\n");
++	}
++#endif
++
++_exit:
++	if (mem_created && pfifo_map)
++		rtw_vmfree(pfifo_map, fifo_size);
++	return ret;
++
++}
++
++int rtw_halmac_rx_agg_switch(struct dvobj_priv *d, u8 enable)
++{
++	PADAPTER adapter;
++	PHAL_DATA_TYPE hal;
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_RXAGG_CFG rxaggcfg;
++	HALMAC_RET_STATUS status;
++	int err = -1;
++
++
++	adapter = dvobj_get_primary_adapter(d);
++	hal = GET_HAL_DATA(adapter);
++	halmac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(halmac);
++	_rtw_memset((void *)&rxaggcfg, 0, sizeof(rxaggcfg));
++
++	if (_TRUE == enable) {
++#ifdef CONFIG_SDIO_HCI
++		rxaggcfg.mode = HALMAC_RX_AGG_MODE_DMA;
++		rxaggcfg.threshold.drv_define = 0;
++#elif defined(CONFIG_USB_HCI) && defined(CONFIG_USB_RX_AGGREGATION)
++		switch (hal->rxagg_mode) {
++		case RX_AGG_DISABLE:
++			rxaggcfg.mode = HALMAC_RX_AGG_MODE_NONE;
++			break;
++
++		case RX_AGG_DMA:
++			rxaggcfg.mode = HALMAC_RX_AGG_MODE_DMA;
++			if (hal->rxagg_dma_size || hal->rxagg_dma_timeout) {
++				rxaggcfg.threshold.drv_define = 1;
++				rxaggcfg.threshold.timeout = hal->rxagg_dma_timeout;
++				rxaggcfg.threshold.size = hal->rxagg_dma_size;
++			}
++			break;
++
++		case RX_AGG_USB:
++		case RX_AGG_MIX:
++			rxaggcfg.mode = HALMAC_RX_AGG_MODE_USB;
++			if (hal->rxagg_usb_size || hal->rxagg_usb_timeout) {
++				rxaggcfg.threshold.drv_define = 1;
++				rxaggcfg.threshold.timeout = hal->rxagg_usb_timeout;
++				rxaggcfg.threshold.size = hal->rxagg_usb_size;
++			}
++			break;
++		}
++#endif /* CONFIG_USB_HCI */
++	} else
++		rxaggcfg.mode = HALMAC_RX_AGG_MODE_NONE;
++
++	status = api->halmac_cfg_rx_aggregation(halmac, &rxaggcfg);
++	if (status != HALMAC_RET_SUCCESS)
++		goto out;
++
++	err = 0;
++out:
++	return err;
++}
++
++/*
++ * Description:
++ *	Get RX driver info size. RX driver info is a small memory space between
++ *	scriptor and RX payload.
++ *
++ *	+-------------------------+
++ *	| RX descriptor           |
++ *	| usually 24 bytes        |
++ *	+-------------------------+
++ *	| RX driver info          |
++ *	| depends on driver cfg   |
++ *	+-------------------------+
++ *	| RX paylad               |
++ *	|                         |
++ *	+-------------------------+
++ *
++ * Parameter:
++ *	d	pointer to struct dvobj_priv of driver
++ *	sz	rx driver info size in bytes.
++ *
++ * Rteurn:
++ *	0	Success
++ *	other	Fail
++ */
++int rtw_halmac_get_drv_info_sz(struct dvobj_priv *d, u8 *sz)
++{
++	HALMAC_RET_STATUS status;
++	PHALMAC_ADAPTER halmac = dvobj_to_halmac(d);
++	PHALMAC_API api = HALMAC_GET_API(halmac);
++	u8 dw = 0;
++
++	status = api->halmac_get_hw_value(halmac, HALMAC_HW_DRV_INFO_SIZE, &dw);
++	if (status != HALMAC_RET_SUCCESS)
++		return -1;
++
++	*sz = dw * 8;
++	return 0;
++}
++int rtw_halmac_get_rsvd_drv_pg_bndy(struct dvobj_priv *dvobj, u16 *drv_pg)
++{
++	HALMAC_RET_STATUS status;
++	PHALMAC_ADAPTER halmac = dvobj_to_halmac(dvobj);
++	PHALMAC_API api = HALMAC_GET_API(halmac);
++
++	status = api->halmac_get_hw_value(halmac, HALMAC_HW_RSVD_PG_BNDY, drv_pg);
++	if (status != HALMAC_RET_SUCCESS)
++		return -1;
++
++	return 0;
++}
++
++int rtw_halmac_download_rsvd_page(struct dvobj_priv *dvobj, u8 pg_offset, u8 *pbuf, u32 size)
++{
++	HALMAC_RET_STATUS status = HALMAC_RET_SUCCESS;
++	PHALMAC_ADAPTER halmac = dvobj_to_halmac(dvobj);
++	PHALMAC_API api = HALMAC_GET_API(halmac);
++
++	status = api->halmac_dl_drv_rsvd_page(halmac, pg_offset, pbuf, size);
++	if (status != HALMAC_RET_SUCCESS)
++		return -1;
++
++	return 0;
++
++}
++
++#ifdef CONFIG_SDIO_HCI
++
++/*
++ * Description:
++ *	Update queue allocated page number to driver
++ *
++ * Parameter:
++ *	d	pointer to struct dvobj_priv of driver
++ *
++ * Rteurn:
++ *	0	Success, "page" is valid.
++ *	others	Fail, "page" is invalid.
++ */
++int rtw_halmac_query_tx_page_num(struct dvobj_priv *d)
++{
++	PADAPTER adapter;
++	struct halmacpriv *hmpriv;
++	PHALMAC_ADAPTER halmac;
++	PHALMAC_API api;
++	HALMAC_RQPN_MAP rqpn;
++	HALMAC_DMA_MAPPING dmaqueue;
++	HALMAC_TXFF_ALLOCATION fifosize;
++	HALMAC_RET_STATUS status;
++	u8 i;
++
++
++	adapter = dvobj_get_primary_adapter(d);
++	hmpriv = &d->hmpriv;
++	halmac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(halmac);
++	_rtw_memset((void *)&rqpn, 0, sizeof(rqpn));
++	_rtw_memset((void *)&fifosize, 0, sizeof(fifosize));
++
++	status = api->halmac_get_hw_value(halmac, HALMAC_HW_RQPN_MAPPING, &rqpn);
++	if (status != HALMAC_RET_SUCCESS)
++		return -1;
++	status = api->halmac_get_hw_value(halmac, HALMAC_HW_TXFF_ALLOCATION, &fifosize);
++	if (status != HALMAC_RET_SUCCESS)
++		return -1;
++
++	for (i = 0; i < HW_QUEUE_ENTRY; i++) {
++		hmpriv->txpage[i] = 0;
++
++		/* Driver index mapping to HALMAC DMA queue */
++		dmaqueue = HALMAC_DMA_MAPPING_UNDEFINE;
++		switch (i) {
++		case VO_QUEUE_INX:
++			dmaqueue = rqpn.dma_map_vo;
++			break;
++		case VI_QUEUE_INX:
++			dmaqueue = rqpn.dma_map_vi;
++			break;
++		case BE_QUEUE_INX:
++			dmaqueue = rqpn.dma_map_be;
++			break;
++		case BK_QUEUE_INX:
++			dmaqueue = rqpn.dma_map_bk;
++			break;
++		case MGT_QUEUE_INX:
++			dmaqueue = rqpn.dma_map_mg;
++			break;
++		case HIGH_QUEUE_INX:
++			dmaqueue = rqpn.dma_map_hi;
++			break;
++		case BCN_QUEUE_INX:
++		case TXCMD_QUEUE_INX:
++			/* Unlimited */
++			hmpriv->txpage[i] = 0xFFFF;
++			continue;
++		}
++
++		switch (dmaqueue) {
++		case HALMAC_DMA_MAPPING_EXTRA:
++			hmpriv->txpage[i] = fifosize.extra_queue_pg_num;
++			break;
++		case HALMAC_DMA_MAPPING_LOW:
++			hmpriv->txpage[i] = fifosize.low_queue_pg_num;
++			break;
++		case HALMAC_DMA_MAPPING_NORMAL:
++			hmpriv->txpage[i] = fifosize.normal_queue_pg_num;
++			break;
++		case HALMAC_DMA_MAPPING_HIGH:
++			hmpriv->txpage[i] = fifosize.high_queue_pg_num;
++			break;
++		case HALMAC_DMA_MAPPING_UNDEFINE:
++			break;
++		}
++		hmpriv->txpage[i] += fifosize.pub_queue_pg_num;
++	}
++
++	return 0;
++}
++
++/*
++ * Description:
++ *	Get specific queue allocated page number
++ *
++ * Parameter:
++ *	d	pointer to struct dvobj_priv of driver
++ *	queue	target queue to query, VO/VI/BE/BK/.../TXCMD_QUEUE_INX
++ *	page	return allocated page number
++ *
++ * Rteurn:
++ *	0	Success, "page" is valid.
++ *	others	Fail, "page" is invalid.
++ */
++int rtw_halmac_get_tx_queue_page_num(struct dvobj_priv *d, u8 queue, u32 *page)
++{
++	*page = 0;
++	if (queue < HW_QUEUE_ENTRY)
++		*page = d->hmpriv.txpage[queue];
++
++	return 0;
++}
++
++/*
++ * Return:
++ *	address for SDIO command
++ */
++u32 rtw_halmac_sdio_get_tx_addr(struct dvobj_priv *d, u8 *desc, u32 size)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u32 addr;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_get_sdio_tx_addr(mac, desc, size, &addr);
++	if (HALMAC_RET_SUCCESS != status)
++		return 0;
++
++	return addr;
++}
++
++int rtw_halmac_sdio_tx_allowed(struct dvobj_priv *d, u8 *buf, u32 size)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_tx_allowed_sdio(mac, buf, size);
++	if (HALMAC_RET_SUCCESS != status)
++		return -1;
++
++	return 0;
++}
++
++u32 rtw_halmac_sdio_get_rx_addr(struct dvobj_priv *d, u8 *seq)
++{
++	u8 id;
++
++#define RTW_SDIO_ADDR_RX_RX0FF_PRFIX	0x0E000
++#define RTW_SDIO_ADDR_RX_RX0FF_GEN(a)	(RTW_SDIO_ADDR_RX_RX0FF_PRFIX|(a&0x3))
++
++	id = *seq;
++	(*seq)++;
++	return RTW_SDIO_ADDR_RX_RX0FF_GEN(id);
++}
++#endif /* CONFIG_SDIO_HCI */
++
++#ifdef CONFIG_USB_HCI
++u8 rtw_halmac_usb_get_bulkout_id(struct dvobj_priv *d, u8 *buf, u32 size)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	u8 bulkout_id;
++
++
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++
++	status = api->halmac_get_usb_bulkout_id(mac, buf, size, &bulkout_id);
++	if (HALMAC_RET_SUCCESS != status)
++		return 0;
++
++	return bulkout_id;
++}
++
++static inline HALMAC_USB_MODE _usb_mode_drv2halmac(enum RTW_USB_SPEED usb_mode)
++{
++	HALMAC_USB_MODE halmac_usb_mode = HALMAC_USB_MODE_U2;
++
++	switch (usb_mode) {
++	case RTW_USB_SPEED_2:
++		halmac_usb_mode = HALMAC_USB_MODE_U2;
++		break;
++	case RTW_USB_SPEED_3:
++		halmac_usb_mode = HALMAC_USB_MODE_U3;
++		break;
++	default:
++		halmac_usb_mode = HALMAC_USB_MODE_U2;
++		break;
++	}
++
++	return halmac_usb_mode;
++}
++
++u8 rtw_halmac_switch_usb_mode(struct dvobj_priv *d, enum RTW_USB_SPEED usb_mode)
++{
++	PHALMAC_ADAPTER mac;
++	PHALMAC_API api;
++	HALMAC_RET_STATUS status;
++	PADAPTER adapter;
++	HALMAC_USB_MODE halmac_usb_mode;
++
++	adapter = dvobj_get_primary_adapter(d);
++	mac = dvobj_to_halmac(d);
++	api = HALMAC_GET_API(mac);
++	halmac_usb_mode = _usb_mode_drv2halmac(usb_mode);
++	status = api->halmac_set_hw_value(mac, HALMAC_HW_USB_MODE, (void *)&halmac_usb_mode);
++
++	if (HALMAC_RET_SUCCESS != status)
++		return _FAIL;
++
++	return _SUCCESS;
++}
++#endif /* CONFIG_USB_HCI */
+diff --git a/drivers/net/wireless/rtl8812au/hal/hal_halmac.h b/drivers/net/wireless/rtl8812au/hal/hal_halmac.h
+new file mode 100644
+index 0000000..82616d3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/hal_halmac.h
+@@ -0,0 +1,119 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _HAL_HALMAC_H_
++#define _HAL_HALMAC_H_
++
++#include <drv_types.h>		/* adapter_to_dvobj(), struct intf_hdl and etc. */
++#include "halmac/halmac_api.h"	/* PHALMAC_ADAPTER and etc. */
++
++/* HALMAC Definition for Driver */
++#define RTW_HALMAC_H2C_MAX_SIZE		HALMAC_H2C_CMD_ORIGINAL_SIZE_88XX
++#define RTW_HALMAC_BA_SSN_RPT_SIZE	4
++
++#define dvobj_set_halmac(d, mac)	((d)->halmac = (mac))
++#define dvobj_to_halmac(d)		((PHALMAC_ADAPTER)((d)->halmac))
++#define adapter_to_halmac(p)		dvobj_to_halmac(adapter_to_dvobj(p))
++
++/* for H2C cmd */
++#define MAX_H2C_BOX_NUMS 4
++#define MESSAGE_BOX_SIZE 4
++#define EX_MESSAGE_BOX_SIZE 4
++
++typedef enum _RTW_HALMAC_MODE {
++	RTW_HALMAC_MODE_NORMAL,
++	RTW_HALMAC_MODE_WIFI_TEST,
++} RTW_HALMAC_MODE;
++
++extern HALMAC_PLATFORM_API rtw_halmac_platform_api;
++
++/* HALMAC API for Driver(HAL) */
++u8 rtw_halmac_read8(struct intf_hdl *, u32 addr);
++u16 rtw_halmac_read16(struct intf_hdl *, u32 addr);
++u32 rtw_halmac_read32(struct intf_hdl *, u32 addr);
++void rtw_halmac_read_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++u8 rtw_halmac_iread8(struct intf_hdl *pintfhdl, u32 addr);
++u16 rtw_halmac_iread16(struct intf_hdl *pintfhdl, u32 addr);
++u32 rtw_halmac_iread32(struct intf_hdl *pintfhdl, u32 addr);
++#endif
++int rtw_halmac_write8(struct intf_hdl *, u32 addr, u8 value);
++int rtw_halmac_write16(struct intf_hdl *, u32 addr, u16 value);
++int rtw_halmac_write32(struct intf_hdl *, u32 addr, u32 value);
++
++int rtw_halmac_init_adapter(struct dvobj_priv *, PHALMAC_PLATFORM_API);
++int rtw_halmac_deinit_adapter(struct dvobj_priv *);
++int rtw_halmac_poweron(struct dvobj_priv *);
++int rtw_halmac_poweroff(struct dvobj_priv *);
++int rtw_halmac_init_hal(struct dvobj_priv *);
++int rtw_halmac_init_hal_fw(struct dvobj_priv *, u8 *fw, u32 fwsize);
++int rtw_halmac_init_hal_fw_file(struct dvobj_priv *, u8 *fwpath);
++int rtw_halmac_deinit_hal(struct dvobj_priv *);
++int rtw_halmac_self_verify(struct dvobj_priv *);
++int rtw_halmac_dlfw(struct dvobj_priv *, u8 *fw, u32 fwsize);
++int rtw_halmac_dlfw_from_file(struct dvobj_priv *, u8 *fwpath);
++int rtw_halmac_phy_power_switch(struct dvobj_priv *, u8 enable);
++int rtw_halmac_send_h2c(struct dvobj_priv *, u8 *h2c);
++int rtw_halmac_c2h_handle(struct dvobj_priv *, u8 *c2h, u32 size);
++
++int rtw_halmac_get_physical_efuse_size(struct dvobj_priv *, u32 *size);
++int rtw_halmac_read_physical_efuse_map(struct dvobj_priv *, u8 *map, u32 size);
++int rtw_halmac_read_physical_efuse(struct dvobj_priv *, u32 offset, u32 cnt, u8 *data);
++int rtw_halmac_write_physical_efuse(struct dvobj_priv *, u32 offset, u32 cnt, u8 *data);
++int rtw_halmac_get_logical_efuse_size(struct dvobj_priv *, u32 *size);
++int rtw_halmac_read_logical_efuse_map(struct dvobj_priv *, u8 *map, u32 size);
++int rtw_halmac_write_logical_efuse_map(struct dvobj_priv *, u8 *map, u32 size, u8 *maskmap, u32 masksize);
++int rtw_halmac_read_logical_efuse(struct dvobj_priv *, u32 offset, u32 cnt, u8 *data);
++int rtw_halmac_write_logical_efuse(struct dvobj_priv *, u32 offset, u32 cnt, u8 *data);
++
++int rtw_halmac_write_bt_physical_efuse(struct dvobj_priv *, u32 offset, u32 cnt, u8 *data);
++int rtw_halmac_read_bt_physical_efuse_map(struct dvobj_priv *, u8 *map, u32 size);
++
++int rtw_halmac_config_rx_info(struct dvobj_priv *, HALMAC_DRV_INFO);
++int rtw_halmac_set_mac_address(struct dvobj_priv *, enum _hw_port, u8 *addr);
++int rtw_halmac_set_bssid(struct dvobj_priv *d, enum _hw_port hwport, u8 *addr);
++
++int rtw_halmac_set_bandwidth(struct dvobj_priv *, u8 channel, u8 pri_ch_idx, u8 bw);
++int rtw_halmac_dump_fifo(struct dvobj_priv *d, u8 fifo_sel, u32 addr, u32 size, u8 *buffer);
++int rtw_halmac_rx_agg_switch(struct dvobj_priv *, u8 enable);
++int rtw_halmac_get_hw_value(struct dvobj_priv *d, HALMAC_HW_ID hw_id, VOID *pvalue);
++
++int rtw_halmac_get_wow_reason(struct dvobj_priv *, u8 *reason);
++int rtw_halmac_get_drv_info_sz(struct dvobj_priv *d, u8 *sz);
++
++int rtw_halmac_get_rsvd_drv_pg_bndy(struct dvobj_priv *dvobj, u16 *drv_pg);
++int rtw_halmac_download_rsvd_page(struct dvobj_priv *dvobj, u8 pg_offset, u8 *pbuf, u32 size);
++
++#ifdef CONFIG_SDIO_HCI
++int rtw_halmac_query_tx_page_num(struct dvobj_priv *);
++int rtw_halmac_get_tx_queue_page_num(struct dvobj_priv *, u8 queue, u32 *page);
++u32 rtw_halmac_sdio_get_tx_addr(struct dvobj_priv *, u8 *desc, u32 size);
++int rtw_halmac_sdio_tx_allowed(struct dvobj_priv *, u8 *buf, u32 size);
++u32 rtw_halmac_sdio_get_rx_addr(struct dvobj_priv *, u8 *seq);
++#endif /* CONFIG_SDIO_HCI */
++
++#ifdef CONFIG_USB_HCI
++u8 rtw_halmac_usb_get_bulkout_id(struct dvobj_priv *, u8 *buf, u32 size);
++u8 rtw_halmac_switch_usb_mode(struct dvobj_priv *d, enum RTW_USB_SPEED usb_mode);
++#endif /* CONFIG_USB_HCI */
++
++#ifdef CONFIG_SUPPORT_TRX_SHARED
++void dump_trx_share_mode(void *sel, _adapter *adapter);
++#endif
++#endif /* _HAL_HALMAC_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/hal/hal_hci/hal_usb.c b/drivers/net/wireless/rtl8812au/hal/hal_hci/hal_usb.c
+new file mode 100644
+index 0000000..1a50d04
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/hal_hci/hal_usb.c
+@@ -0,0 +1,498 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HAL_USB_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++int	usb_init_recv_priv(_adapter *padapter, u16 ini_in_buf_sz)
++{
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++	int	i, res = _SUCCESS;
++	struct recv_buf *precvbuf;
++
++#ifdef CONFIG_RECV_THREAD_MODE
++	_rtw_init_sema(&precvpriv->recv_sema, 0);/* will be removed */
++	_rtw_init_sema(&precvpriv->terminate_recvthread_sema, 0);/* will be removed */
++#endif /* CONFIG_RECV_THREAD_MODE */
++
++#ifdef PLATFORM_LINUX
++	tasklet_init(&precvpriv->recv_tasklet,
++		     (void(*)(unsigned long))usb_recv_tasklet,
++		     (unsigned long)padapter);
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++#ifdef CONFIG_RX_INDICATE_QUEUE
++	TASK_INIT(&precvpriv->rx_indicate_tasklet, 0, rtw_rx_indicate_tasklet, padapter);
++#endif /* CONFIG_RX_INDICATE_QUEUE */
++#endif /* PLATFORM_FREEBSD */
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++#ifdef PLATFORM_LINUX
++	precvpriv->int_in_urb = usb_alloc_urb(0, GFP_KERNEL);
++	if (precvpriv->int_in_urb == NULL) {
++		res = _FAIL;
++		RTW_INFO("alloc_urb for interrupt in endpoint fail !!!!\n");
++		goto exit;
++	}
++#endif /* PLATFORM_LINUX */
++	precvpriv->int_in_buf = rtw_zmalloc(ini_in_buf_sz);
++	if (precvpriv->int_in_buf == NULL) {
++		res = _FAIL;
++		RTW_INFO("alloc_mem for interrupt in endpoint fail !!!!\n");
++		goto exit;
++	}
++#endif /* CONFIG_USB_INTERRUPT_IN_PIPE */
++
++	/* init recv_buf */
++	_rtw_init_queue(&precvpriv->free_recv_buf_queue);
++	_rtw_init_queue(&precvpriv->recv_buf_pending_queue);
++#ifndef CONFIG_USE_USB_BUFFER_ALLOC_RX
++	/* this is used only when RX_IOBUF is sk_buff */
++	skb_queue_head_init(&precvpriv->free_recv_skb_queue);
++#endif
++
++	RTW_INFO("NR_RECVBUFF: %d\n", NR_RECVBUFF);
++	RTW_INFO("MAX_RECVBUF_SZ: %d\n", MAX_RECVBUF_SZ);
++	precvpriv->pallocated_recv_buf = rtw_zmalloc(NR_RECVBUFF * sizeof(struct recv_buf) + 4);
++	if (precvpriv->pallocated_recv_buf == NULL) {
++		res = _FAIL;
++		goto exit;
++	}
++
++	precvpriv->precv_buf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(precvpriv->pallocated_recv_buf), 4);
++
++	precvbuf = (struct recv_buf *)precvpriv->precv_buf;
++
++	for (i = 0; i < NR_RECVBUFF ; i++) {
++		_rtw_init_listhead(&precvbuf->list);
++
++		_rtw_spinlock_init(&precvbuf->recvbuf_lock);
++
++		precvbuf->alloc_sz = MAX_RECVBUF_SZ;
++
++		res = rtw_os_recvbuf_resource_alloc(padapter, precvbuf);
++		if (res == _FAIL)
++			break;
++
++		precvbuf->ref_cnt = 0;
++		precvbuf->adapter = padapter;
++
++		/* rtw_list_insert_tail(&precvbuf->list, &(precvpriv->free_recv_buf_queue.queue)); */
++
++		precvbuf++;
++	}
++
++	precvpriv->free_recv_buf_queue_cnt = NR_RECVBUFF;
++
++#if defined(PLATFORM_LINUX) || defined(PLATFORM_FREEBSD)
++
++	skb_queue_head_init(&precvpriv->rx_skb_queue);
++
++#ifdef CONFIG_RX_INDICATE_QUEUE
++	memset(&precvpriv->rx_indicate_queue, 0, sizeof(struct ifqueue));
++	mtx_init(&precvpriv->rx_indicate_queue.ifq_mtx, "rx_indicate_queue", NULL, MTX_DEF);
++#endif /* CONFIG_RX_INDICATE_QUEUE */
++
++#ifdef CONFIG_PREALLOC_RECV_SKB
++	{
++		int i;
++		SIZE_PTR tmpaddr = 0;
++		SIZE_PTR alignment = 0;
++		struct sk_buff *pskb = NULL;
++
++		RTW_INFO("NR_PREALLOC_RECV_SKB: %d\n", NR_PREALLOC_RECV_SKB);
++#ifdef CONFIG_FIX_NR_BULKIN_BUFFER
++		RTW_INFO("Enable CONFIG_FIX_NR_BULKIN_BUFFER\n");
++#endif
++
++		for (i = 0; i < NR_PREALLOC_RECV_SKB; i++) {
++#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++			pskb = rtw_alloc_skb_premem(MAX_RECVBUF_SZ);
++#else
++			pskb = rtw_skb_alloc(MAX_RECVBUF_SZ + RECVBUFF_ALIGN_SZ);
++#endif /* CONFIG_PREALLOC_RX_SKB_BUFFER */
++
++			if (pskb) {
++#ifdef PLATFORM_FREEBSD
++				pskb->dev = padapter->pifp;
++#else
++				pskb->dev = padapter->pnetdev;
++#endif /* PLATFORM_FREEBSD */
++
++#ifndef CONFIG_PREALLOC_RX_SKB_BUFFER
++				tmpaddr = (SIZE_PTR)pskb->data;
++				alignment = tmpaddr & (RECVBUFF_ALIGN_SZ - 1);
++				skb_reserve(pskb, (RECVBUFF_ALIGN_SZ - alignment));
++#endif
++				skb_queue_tail(&precvpriv->free_recv_skb_queue, pskb);
++			}
++		}
++	}
++#endif /* CONFIG_PREALLOC_RECV_SKB */
++
++#endif /* defined(PLATFORM_LINUX) || defined(PLATFORM_FREEBSD) */
++
++exit:
++
++	return res;
++}
++
++void usb_free_recv_priv(_adapter *padapter, u16 ini_in_buf_sz)
++{
++	int i;
++	struct recv_buf *precvbuf;
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++
++	precvbuf = (struct recv_buf *)precvpriv->precv_buf;
++
++	for (i = 0; i < NR_RECVBUFF ; i++) {
++		rtw_os_recvbuf_resource_free(padapter, precvbuf);
++		precvbuf++;
++	}
++
++	if (precvpriv->pallocated_recv_buf)
++		rtw_mfree(precvpriv->pallocated_recv_buf, NR_RECVBUFF * sizeof(struct recv_buf) + 4);
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++#ifdef PLATFORM_LINUX
++	if (precvpriv->int_in_urb)
++		usb_free_urb(precvpriv->int_in_urb);
++#endif
++	if (precvpriv->int_in_buf)
++		rtw_mfree(precvpriv->int_in_buf, ini_in_buf_sz);
++#endif /* CONFIG_USB_INTERRUPT_IN_PIPE */
++
++#ifdef PLATFORM_LINUX
++
++	if (skb_queue_len(&precvpriv->rx_skb_queue))
++		RTW_WARN("rx_skb_queue not empty\n");
++
++	rtw_skb_queue_purge(&precvpriv->rx_skb_queue);
++
++	if (skb_queue_len(&precvpriv->free_recv_skb_queue))
++		RTW_WARN("free_recv_skb_queue not empty, %d\n", skb_queue_len(&precvpriv->free_recv_skb_queue));
++
++#if !defined(CONFIG_USE_USB_BUFFER_ALLOC_RX)
++#if defined(CONFIG_PREALLOC_RECV_SKB) && defined(CONFIG_PREALLOC_RX_SKB_BUFFER)
++	{
++		struct sk_buff *skb;
++
++		while ((skb = skb_dequeue(&precvpriv->free_recv_skb_queue)) != NULL) {
++			if (rtw_free_skb_premem(skb) != 0)
++				rtw_skb_free(skb);
++		}
++	}
++#else
++	rtw_skb_queue_purge(&precvpriv->free_recv_skb_queue);
++#endif /* defined(CONFIG_PREALLOC_RX_SKB_BUFFER) && defined(CONFIG_PREALLOC_RECV_SKB) */
++#endif /* !defined(CONFIG_USE_USB_BUFFER_ALLOC_RX) */
++
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	struct sk_buff  *pskb;
++	while (NULL != (pskb = skb_dequeue(&precvpriv->rx_skb_queue)))
++		rtw_skb_free(pskb);
++
++#if !defined(CONFIG_USE_USB_BUFFER_ALLOC_RX)
++	rtw_skb_queue_purge(&precvpriv->free_recv_skb_queue);
++#endif
++
++#ifdef CONFIG_RX_INDICATE_QUEUE
++	struct mbuf *m;
++	for (;;) {
++		IF_DEQUEUE(&precvpriv->rx_indicate_queue, m);
++		if (m == NULL)
++			break;
++		m_freem(m);
++	}
++	mtx_destroy(&precvpriv->rx_indicate_queue.ifq_mtx);
++#endif /* CONFIG_RX_INDICATE_QUEUE */
++
++#endif /* PLATFORM_FREEBSD */
++}
++
++#ifdef CONFIG_USB_SUPPORT_ASYNC_VDN_REQ
++int usb_write_async(struct usb_device *udev, u32 addr, void *pdata, u16 len)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	int ret;
++
++	requesttype = VENDOR_WRITE;/* write_out */
++	request = REALTEK_USB_VENQT_CMD_REQ;
++	index = REALTEK_USB_VENQT_CMD_IDX;/* n/a */
++
++	wvalue = (u16)(addr & 0x0000ffff);
++
++	ret = _usbctrl_vendorreq_async_write(udev, request, wvalue, index, pdata, len, requesttype);
++
++	return ret;
++}
++
++int usb_async_write8(struct intf_hdl *pintfhdl, u32 addr, u8 val)
++{
++	u8 data;
++	int ret;
++	struct dvobj_priv  *pdvobjpriv = (struct dvobj_priv *)pintfhdl->pintf_dev;
++	struct usb_device *udev = pdvobjpriv->pusbdev;
++
++	data = val;
++	ret = usb_write_async(udev, addr, &data, 1);
++
++	return ret;
++}
++
++int usb_async_write16(struct intf_hdl *pintfhdl, u32 addr, u16 val)
++{
++	u16 data;
++	int ret;
++	struct dvobj_priv  *pdvobjpriv = (struct dvobj_priv *)pintfhdl->pintf_dev;
++	struct usb_device *udev = pdvobjpriv->pusbdev;
++
++	data = val;
++	ret = usb_write_async(udev, addr, &data, 2);
++
++	return ret;
++}
++
++int usb_async_write32(struct intf_hdl *pintfhdl, u32 addr, u32 val)
++{
++	u32 data;
++	int ret;
++	struct dvobj_priv  *pdvobjpriv = (struct dvobj_priv *)pintfhdl->pintf_dev;
++	struct usb_device *udev = pdvobjpriv->pusbdev;
++
++	data = val;
++	ret = usb_write_async(udev, addr, &data, 4);
++
++	return ret;
++}
++#endif /* CONFIG_USB_SUPPORT_ASYNC_VDN_REQ */
++
++u8 usb_read8(struct intf_hdl *pintfhdl, u32 addr)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u8 data = 0;
++
++
++	request = 0x05;
++	requesttype = 0x01;/* read_in */
++	index = 0;/* n/a */
++
++	wvalue = (u16)(addr & 0x0000ffff);
++	len = 1;
++	usbctrl_vendorreq(pintfhdl, request, wvalue, index,
++			  &data, len, requesttype);
++
++
++	return data;
++}
++
++u16 usb_read16(struct intf_hdl *pintfhdl, u32 addr)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u16 data = 0;
++
++
++	request = 0x05;
++	requesttype = 0x01;/* read_in */
++	index = 0;/* n/a */
++
++	wvalue = (u16)(addr & 0x0000ffff);
++	len = 2;
++	usbctrl_vendorreq(pintfhdl, request, wvalue, index,
++			  &data, len, requesttype);
++
++
++	return data;
++
++}
++
++u32 usb_read32(struct intf_hdl *pintfhdl, u32 addr)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u32 data = 0;
++
++
++	request = 0x05;
++	requesttype = 0x01;/* read_in */
++	index = 0;/* n/a */
++
++	wvalue = (u16)(addr & 0x0000ffff);
++	len = 4;
++	usbctrl_vendorreq(pintfhdl, request, wvalue, index,
++			  &data, len, requesttype);
++
++
++	return data;
++}
++
++int usb_write8(struct intf_hdl *pintfhdl, u32 addr, u8 val)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u8 data;
++	int ret;
++
++
++	request = 0x05;
++	requesttype = 0x00;/* write_out */
++	index = 0;/* n/a */
++
++	wvalue = (u16)(addr & 0x0000ffff);
++	len = 1;
++
++	data = val;
++	ret = usbctrl_vendorreq(pintfhdl, request, wvalue, index,
++				&data, len, requesttype);
++
++
++	return ret;
++}
++
++int usb_write16(struct intf_hdl *pintfhdl, u32 addr, u16 val)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u16 data;
++	int ret;
++
++
++	request = 0x05;
++	requesttype = 0x00;/* write_out */
++	index = 0;/* n/a */
++
++	wvalue = (u16)(addr & 0x0000ffff);
++	len = 2;
++
++	data = val;
++	ret = usbctrl_vendorreq(pintfhdl, request, wvalue, index,
++				&data, len, requesttype);
++
++
++	return ret;
++
++}
++
++int usb_write32(struct intf_hdl *pintfhdl, u32 addr, u32 val)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u32 data;
++	int ret;
++
++
++	request = 0x05;
++	requesttype = 0x00;/* write_out */
++	index = 0;/* n/a */
++
++	wvalue = (u16)(addr & 0x0000ffff);
++	len = 4;
++	data = val;
++	ret = usbctrl_vendorreq(pintfhdl, request, wvalue, index,
++				&data, len, requesttype);
++
++
++	return ret;
++
++}
++
++int usb_writeN(struct intf_hdl *pintfhdl, u32 addr, u32 length, u8 *pdata)
++{
++	u8 request;
++	u8 requesttype;
++	u16 wvalue;
++	u16 index;
++	u16 len;
++	u8 buf[VENDOR_CMD_MAX_DATA_LEN] = {0};
++	int ret;
++
++
++	request = 0x05;
++	requesttype = 0x00;/* write_out */
++	index = 0;/* n/a */
++
++	wvalue = (u16)(addr & 0x0000ffff);
++	len = length;
++	_rtw_memcpy(buf, pdata, len);
++	ret = usbctrl_vendorreq(pintfhdl, request, wvalue, index,
++				buf, len, requesttype);
++
++
++	return ret;
++}
++
++void usb_set_intf_ops(_adapter *padapter, struct _io_ops *pops)
++{
++	_rtw_memset((u8 *)pops, 0, sizeof(struct _io_ops));
++
++	pops->_read8 = &usb_read8;
++	pops->_read16 = &usb_read16;
++	pops->_read32 = &usb_read32;
++	pops->_read_mem = &usb_read_mem;
++	pops->_read_port = &usb_read_port;
++
++	pops->_write8 = &usb_write8;
++	pops->_write16 = &usb_write16;
++	pops->_write32 = &usb_write32;
++	pops->_writeN = &usb_writeN;
++
++#ifdef CONFIG_USB_SUPPORT_ASYNC_VDN_REQ
++	pops->_write8_async = &usb_async_write8;
++	pops->_write16_async = &usb_async_write16;
++	pops->_write32_async = &usb_async_write32;
++#endif
++	pops->_write_mem = &usb_write_mem;
++	pops->_write_port = &usb_write_port;
++
++	pops->_read_port_cancel = &usb_read_port_cancel;
++	pops->_write_port_cancel = &usb_write_port_cancel;
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++	pops->_read_interrupt = &usb_read_interrupt;
++#endif
++
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/hal_intf.c b/drivers/net/wireless/rtl8812au/hal/hal_intf.c
+new file mode 100644
+index 0000000..e3f465f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/hal_intf.c
+@@ -0,0 +1,1153 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#define _HAL_INTF_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++const u32 _chip_type_to_odm_ic_type[] = {
++	0,
++	ODM_RTL8188E,
++	ODM_RTL8192E,
++	ODM_RTL8812,
++	ODM_RTL8821,
++	ODM_RTL8723B,
++	ODM_RTL8814A,
++	ODM_RTL8703B,
++	ODM_RTL8188F,
++	ODM_RTL8822B,
++	ODM_RTL8723D,
++	ODM_RTL8821C,
++	0,
++};
++
++void rtw_hal_chip_configure(_adapter *padapter)
++{
++	padapter->HalFunc.intf_chip_configure(padapter);
++}
++
++void rtw_hal_read_chip_info(_adapter *padapter)
++{
++	u8 hci_type = rtw_get_intf_type(padapter);
++	u32 start = rtw_get_current_time();
++
++	/*  before access eFuse, make sure card enable has been called */
++	if ((hci_type == RTW_SDIO || hci_type == RTW_GSPI)
++	    && !rtw_is_hw_init_completed(padapter))
++		rtw_hal_power_on(padapter);
++
++	padapter->HalFunc.read_adapter_info(padapter);
++
++	if ((hci_type == RTW_SDIO || hci_type == RTW_GSPI)
++	    && !rtw_is_hw_init_completed(padapter))
++		rtw_hal_power_off(padapter);
++
++	RTW_INFO("%s in %d ms\n", __func__, rtw_get_passing_time_ms(start));
++}
++
++void rtw_hal_read_chip_version(_adapter *padapter)
++{
++	padapter->HalFunc.read_chip_version(padapter);
++	rtw_odm_init_ic_type(padapter);
++}
++
++void rtw_hal_def_value_init(_adapter *padapter)
++{
++	if (is_primary_adapter(padapter)) {
++		padapter->HalFunc.init_default_value(padapter);
++
++		rtw_init_hal_com_default_value(padapter);
++
++		{
++			struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++			struct hal_spec_t *hal_spec = GET_HAL_SPEC(padapter);
++
++			/* hal_spec is ready here */
++			dvobj->macid_ctl.num = rtw_min(hal_spec->macid_num, MACID_NUM_SW_LIMIT);
++
++			dvobj->cam_ctl.sec_cap = hal_spec->sec_cap;
++			dvobj->cam_ctl.num = rtw_min(hal_spec->sec_cam_ent_num, SEC_CAM_ENT_NUM_SW_LIMIT);
++		}
++	}
++}
++
++u8 rtw_hal_data_init(_adapter *padapter)
++{
++	if (is_primary_adapter(padapter)) {
++		padapter->hal_data_sz = sizeof(HAL_DATA_TYPE);
++		padapter->HalData = rtw_zvmalloc(padapter->hal_data_sz);
++		if (padapter->HalData == NULL) {
++			RTW_INFO("cant not alloc memory for HAL DATA\n");
++			return _FAIL;
++		}
++	}
++	return _SUCCESS;
++}
++
++void rtw_hal_data_deinit(_adapter *padapter)
++{
++	if (is_primary_adapter(padapter)) {
++		if (padapter->HalData) {
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++			phy_free_filebuf(padapter);
++#endif
++			rtw_vmfree(padapter->HalData, padapter->hal_data_sz);
++			padapter->HalData = NULL;
++			padapter->hal_data_sz = 0;
++		}
++	}
++}
++
++void	rtw_hal_free_data(_adapter *padapter)
++{
++	/* free HAL Data	 */
++	rtw_hal_data_deinit(padapter);
++}
++void rtw_hal_dm_init(_adapter *padapter)
++{
++	if (is_primary_adapter(padapter)) {
++		PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++
++		padapter->HalFunc.dm_init(padapter);
++
++		_rtw_spinlock_init(&pHalData->IQKSpinLock);
++
++		phy_load_tx_power_ext_info(padapter, 1);
++	}
++}
++void rtw_hal_dm_deinit(_adapter *padapter)
++{
++	if (is_primary_adapter(padapter)) {
++		PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++
++		padapter->HalFunc.dm_deinit(padapter);
++
++		_rtw_spinlock_free(&pHalData->IQKSpinLock);
++	}
++}
++void	rtw_hal_sw_led_init(_adapter *padapter)
++{
++	if (padapter->HalFunc.InitSwLeds)
++		padapter->HalFunc.InitSwLeds(padapter);
++}
++
++void rtw_hal_sw_led_deinit(_adapter *padapter)
++{
++	if (padapter->HalFunc.DeInitSwLeds)
++		padapter->HalFunc.DeInitSwLeds(padapter);
++}
++
++u32 rtw_hal_power_on(_adapter *padapter)
++{
++	return padapter->HalFunc.hal_power_on(padapter);
++}
++void rtw_hal_power_off(_adapter *padapter)
++{
++	struct macid_ctl_t *macid_ctl = &padapter->dvobj->macid_ctl;
++
++	_rtw_memset(macid_ctl->h2c_msr, 0, MACID_NUM_SW_LIMIT);
++
++	padapter->HalFunc.hal_power_off(padapter);
++}
++
++
++void rtw_hal_init_opmode(_adapter *padapter)
++{
++	NDIS_802_11_NETWORK_INFRASTRUCTURE networkType = Ndis802_11InfrastructureMax;
++	struct  mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	sint fw_state;
++
++	fw_state = get_fwstate(pmlmepriv);
++
++	if (fw_state & WIFI_ADHOC_STATE)
++		networkType = Ndis802_11IBSS;
++	else if (fw_state & WIFI_STATION_STATE)
++		networkType = Ndis802_11Infrastructure;
++	else if (fw_state & WIFI_AP_STATE)
++		networkType = Ndis802_11APMode;
++	else
++		return;
++
++	rtw_setopmode_cmd(padapter, networkType, _FALSE);
++}
++
++uint	 rtw_hal_init(_adapter *padapter)
++{
++	uint	status = _SUCCESS;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	int i;
++
++	status = padapter->HalFunc.hal_init(padapter);
++
++	if (status == _SUCCESS) {
++		pHalData->hw_init_completed = _TRUE;
++		rtw_restore_mac_addr(padapter);
++
++		if (padapter->registrypriv.notch_filter == 1)
++			rtw_hal_notch_filter(padapter, 1);
++
++		for (i = 0; i < dvobj->iface_nums; i++)
++			rtw_sec_restore_wep_key(dvobj->padapters[i]);
++
++		rtw_led_control(padapter, LED_CTL_POWER_ON);
++
++		init_hw_mlme_ext(padapter);
++
++		rtw_hal_init_opmode(padapter);
++
++#ifdef CONFIG_RF_POWER_TRIM
++		rtw_bb_rf_gain_offset(padapter);
++#endif /*CONFIG_RF_POWER_TRIM*/
++
++	} else {
++		pHalData->hw_init_completed = _FALSE;
++		RTW_INFO("rtw_hal_init: hal_init fail\n");
++	}
++
++
++	return status;
++
++}
++
++uint rtw_hal_deinit(_adapter *padapter)
++{
++	uint	status = _SUCCESS;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	int i;
++
++	status = padapter->HalFunc.hal_deinit(padapter);
++
++	if (status == _SUCCESS) {
++		rtw_led_control(padapter, LED_CTL_POWER_OFF);
++		pHalData->hw_init_completed = _FALSE;
++	} else
++		RTW_INFO("\n rtw_hal_deinit: hal_init fail\n");
++
++
++	return status;
++}
++
++void rtw_hal_set_hwreg(_adapter *padapter, u8 variable, u8 *val)
++{
++	padapter->HalFunc.SetHwRegHandler(padapter, variable, val);
++}
++
++void rtw_hal_get_hwreg(_adapter *padapter, u8 variable, u8 *val)
++{
++	padapter->HalFunc.GetHwRegHandler(padapter, variable, val);
++}
++
++#ifdef CONFIG_C2H_PACKET_EN
++void rtw_hal_set_hwreg_with_buf(_adapter *padapter, u8 variable, u8 *pbuf, int len)
++{
++	if (padapter->HalFunc.SetHwRegHandlerWithBuf)
++		padapter->HalFunc.SetHwRegHandlerWithBuf(padapter, variable, pbuf, len);
++}
++#endif
++
++u8 rtw_hal_set_def_var(_adapter *padapter, HAL_DEF_VARIABLE eVariable, PVOID pValue)
++{
++	return padapter->HalFunc.SetHalDefVarHandler(padapter, eVariable, pValue);
++}
++u8 rtw_hal_get_def_var(_adapter *padapter, HAL_DEF_VARIABLE eVariable, PVOID pValue)
++{
++	return padapter->HalFunc.GetHalDefVarHandler(padapter, eVariable, pValue);
++}
++
++void rtw_hal_set_odm_var(_adapter *padapter, HAL_ODM_VARIABLE eVariable, PVOID pValue1, BOOLEAN bSet)
++{
++	padapter->HalFunc.SetHalODMVarHandler(padapter, eVariable, pValue1, bSet);
++}
++void	rtw_hal_get_odm_var(_adapter *padapter, HAL_ODM_VARIABLE eVariable, PVOID pValue1, PVOID pValue2)
++{
++	padapter->HalFunc.GetHalODMVarHandler(padapter, eVariable, pValue1, pValue2);
++}
++
++/* FOR SDIO & PCIE */
++void rtw_hal_enable_interrupt(_adapter *padapter)
++{
++#if defined(CONFIG_PCI_HCI) || defined(CONFIG_SDIO_HCI) || defined (CONFIG_GSPI_HCI)
++	padapter->HalFunc.enable_interrupt(padapter);
++#endif /* #if defined(CONFIG_PCI_HCI) || defined (CONFIG_SDIO_HCI) || defined (CONFIG_GSPI_HCI) */
++}
++
++/* FOR SDIO & PCIE */
++void rtw_hal_disable_interrupt(_adapter *padapter)
++{
++#if defined(CONFIG_PCI_HCI) || defined(CONFIG_SDIO_HCI) || defined (CONFIG_GSPI_HCI)
++	padapter->HalFunc.disable_interrupt(padapter);
++#endif /* #if defined(CONFIG_PCI_HCI) || defined (CONFIG_SDIO_HCI) || defined (CONFIG_GSPI_HCI) */
++}
++
++
++u8 rtw_hal_check_ips_status(_adapter *padapter)
++{
++	u8 val = _FALSE;
++	if (padapter->HalFunc.check_ips_status)
++		val = padapter->HalFunc.check_ips_status(padapter);
++	else
++		RTW_INFO("%s: HalFunc.check_ips_status is NULL!\n", __FUNCTION__);
++
++	return val;
++}
++
++s32 rtw_hal_fw_dl(_adapter *padapter, u8 wowlan)
++{
++	return padapter->HalFunc.fw_dl(padapter, wowlan);
++}
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++void rtw_hal_clear_interrupt(_adapter *padapter)
++{
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	padapter->HalFunc.clear_interrupt(padapter);
++#endif
++}
++#endif
++
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_PCI_HCI)
++u32	rtw_hal_inirp_init(_adapter *padapter)
++{
++	if (is_primary_adapter(padapter))
++		return padapter->HalFunc.inirp_init(padapter);
++	return _SUCCESS;
++}
++u32	rtw_hal_inirp_deinit(_adapter *padapter)
++{
++
++	if (is_primary_adapter(padapter))
++		return padapter->HalFunc.inirp_deinit(padapter);
++
++	return _SUCCESS;
++}
++#endif /* #if defined(CONFIG_USB_HCI) || defined (CONFIG_PCI_HCI) */
++
++#if defined(CONFIG_PCI_HCI)
++void	rtw_hal_irp_reset(_adapter *padapter)
++{
++	padapter->HalFunc.irp_reset(GET_PRIMARY_ADAPTER(padapter));
++}
++#endif /* #if defined(CONFIG_PCI_HCI) */
++
++/* for USB Auto-suspend */
++u8	rtw_hal_intf_ps_func(_adapter *padapter, HAL_INTF_PS_FUNC efunc_id, u8 *val)
++{
++	if (padapter->HalFunc.interface_ps_func)
++		return padapter->HalFunc.interface_ps_func(padapter, efunc_id, val);
++	return _FAIL;
++}
++
++s32	rtw_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	return padapter->HalFunc.hal_xmitframe_enqueue(padapter, pxmitframe);
++}
++
++s32	rtw_hal_xmit(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	return padapter->HalFunc.hal_xmit(padapter, pxmitframe);
++}
++
++/*
++ * [IMPORTANT] This function would be run in interrupt context.
++ */
++s32	rtw_hal_mgnt_xmit(_adapter *padapter, struct xmit_frame *pmgntframe)
++{
++	s32 ret = _FAIL;
++	u8	*pframe, subtype;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct sta_info	*psta;
++	struct sta_priv		*pstapriv = &padapter->stapriv;
++
++	update_mgntframe_attrib_addr(padapter, pmgntframe);
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	subtype = GetFrameSubType(pframe); /* bit(7)~bit(2) */
++
++	/* pwlanhdr = (struct rtw_ieee80211_hdr *)pframe; */
++	/* _rtw_memcpy(pmgntframe->attrib.ra, pwlanhdr->addr1, ETH_ALEN); */
++
++#ifdef CONFIG_IEEE80211W
++	if (padapter->securitypriv.binstallBIPkey == _TRUE && (subtype == WIFI_DEAUTH || subtype == WIFI_DISASSOC ||
++			subtype == WIFI_ACTION)) {
++		if (IS_MCAST(pmgntframe->attrib.ra) && pmgntframe->attrib.key_type != IEEE80211W_NO_KEY) {
++			pmgntframe->attrib.encrypt = _BIP_;
++			/* pmgntframe->attrib.bswenc = _TRUE; */
++		} else if (pmgntframe->attrib.key_type != IEEE80211W_NO_KEY) {
++			psta = rtw_get_stainfo(pstapriv, pmgntframe->attrib.ra);
++			if (psta && psta->bpairwise_key_installed == _TRUE) {
++				pmgntframe->attrib.encrypt = _AES_;
++				pmgntframe->attrib.bswenc = _TRUE;
++			} else {
++				RTW_INFO("%s, %d, bpairwise_key_installed is FALSE\n", __func__, __LINE__);
++				goto no_mgmt_coalesce;
++			}
++		}
++		RTW_INFO("encrypt=%d, bswenc=%d\n", pmgntframe->attrib.encrypt, pmgntframe->attrib.bswenc);
++		rtw_mgmt_xmitframe_coalesce(padapter, pmgntframe->pkt, pmgntframe);
++	}
++#endif /* CONFIG_IEEE80211W */
++no_mgmt_coalesce:
++	ret = padapter->HalFunc.mgnt_xmit(padapter, pmgntframe);
++	return ret;
++}
++
++s32	rtw_hal_init_xmit_priv(_adapter *padapter)
++{
++	return padapter->HalFunc.init_xmit_priv(padapter);
++}
++void	rtw_hal_free_xmit_priv(_adapter *padapter)
++{
++	padapter->HalFunc.free_xmit_priv(padapter);
++}
++
++s32	rtw_hal_init_recv_priv(_adapter *padapter)
++{
++	return padapter->HalFunc.init_recv_priv(padapter);
++}
++void	rtw_hal_free_recv_priv(_adapter *padapter)
++{
++	padapter->HalFunc.free_recv_priv(padapter);
++}
++void rtw_update_ramask(_adapter *padapter, struct sta_info *psta, u32 mac_id, u8 rssi_level)
++{
++	padapter->HalFunc.UpdateRAMaskHandler(padapter, psta, psta->mac_id, rssi_level);
++}
++void rtw_hal_update_ra_mask(struct sta_info *psta, u8 rssi_level)
++{
++	_adapter *padapter;
++	struct mlme_priv *pmlmepriv;
++
++	if (!psta)
++		return;
++
++	padapter = psta->padapter;
++
++	pmlmepriv = &(padapter->mlmepriv);
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		add_RATid(padapter, psta, rssi_level);
++	else {
++		psta->raid = rtw_hal_networktype_to_raid(padapter, psta);
++		rtw_update_ramask(padapter, psta, psta->mac_id, rssi_level);
++	}
++}
++
++/*	Start specifical interface thread		*/
++void	rtw_hal_start_thread(_adapter *padapter)
++{
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++#ifndef CONFIG_SDIO_TX_TASKLET
++	padapter->HalFunc.run_thread(padapter);
++#endif
++#endif
++}
++/*	Start specifical interface thread		*/
++void	rtw_hal_stop_thread(_adapter *padapter)
++{
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++#ifndef CONFIG_SDIO_TX_TASKLET
++
++	padapter->HalFunc.cancel_thread(padapter);
++
++#endif
++#endif
++}
++
++u32	rtw_hal_read_bbreg(_adapter *padapter, u32 RegAddr, u32 BitMask)
++{
++	u32 data = 0;
++	if (padapter->HalFunc.read_bbreg)
++		data = padapter->HalFunc.read_bbreg(padapter, RegAddr, BitMask);
++	return data;
++}
++void	rtw_hal_write_bbreg(_adapter *padapter, u32 RegAddr, u32 BitMask, u32 Data)
++{
++	if (padapter->HalFunc.write_bbreg)
++		padapter->HalFunc.write_bbreg(padapter, RegAddr, BitMask, Data);
++}
++
++u32 rtw_hal_read_rfreg(_adapter *padapter, u32 eRFPath, u32 RegAddr, u32 BitMask)
++{
++	u32 data = 0;
++
++	if (padapter->HalFunc.read_rfreg) {
++		data = padapter->HalFunc.read_rfreg(padapter, eRFPath, RegAddr, BitMask);
++
++		if (match_rf_read_sniff_ranges(eRFPath, RegAddr, BitMask)) {
++			RTW_INFO("DBG_IO rtw_hal_read_rfreg(%u, 0x%04x, 0x%08x) read:0x%08x(0x%08x)\n"
++				, eRFPath, RegAddr, BitMask, (data << PHY_CalculateBitShift(BitMask)), data);
++		}
++	}
++
++	return data;
++}
++
++void rtw_hal_write_rfreg(_adapter *padapter, u32 eRFPath, u32 RegAddr, u32 BitMask, u32 Data)
++{
++	if (padapter->HalFunc.write_rfreg) {
++
++		if (match_rf_write_sniff_ranges(eRFPath, RegAddr, BitMask)) {
++			RTW_INFO("DBG_IO rtw_hal_write_rfreg(%u, 0x%04x, 0x%08x) write:0x%08x(0x%08x)\n"
++				, eRFPath, RegAddr, BitMask, (Data << PHY_CalculateBitShift(BitMask)), Data);
++		}
++
++		padapter->HalFunc.write_rfreg(padapter, eRFPath, RegAddr, BitMask, Data);
++
++#ifdef CONFIG_PCI_HCI
++		if (!IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(padapter)) /*For N-Series IC, suggest by Jenyu*/
++			rtw_udelay_os(2);
++#endif
++	}
++}
++
++#if defined(CONFIG_PCI_HCI)
++s32	rtw_hal_interrupt_handler(_adapter *padapter)
++{
++	s32 ret = _FAIL;
++	ret = padapter->HalFunc.interrupt_handler(padapter);
++	return ret;
++}
++#endif
++#if defined(CONFIG_USB_HCI) && defined(CONFIG_SUPPORT_USB_INT)
++void	rtw_hal_interrupt_handler(_adapter *padapter, u16 pkt_len, u8 *pbuf)
++{
++	padapter->HalFunc.interrupt_handler(padapter, pkt_len, pbuf);
++}
++#endif
++
++void	rtw_hal_set_chnl_bw(_adapter *padapter, u8 channel, CHANNEL_WIDTH Bandwidth, u8 Offset40, u8 Offset80)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++	u8 cch_160 = Bandwidth == CHANNEL_WIDTH_160 ? channel : 0;
++	u8 cch_80 = Bandwidth == CHANNEL_WIDTH_80 ? channel : 0;
++	u8 cch_40 = Bandwidth == CHANNEL_WIDTH_40 ? channel : 0;
++	u8 cch_20 = Bandwidth == CHANNEL_WIDTH_20 ? channel : 0;
++
++	ODM_AcquireSpinLock(pDM_Odm, RT_IQK_SPINLOCK);
++	if (pDM_Odm->RFCalibrateInfo.bIQKInProgress == _TRUE)
++		RTW_ERR("%s, %d, IQK may race condition\n", __func__, __LINE__);
++	ODM_ReleaseSpinLock(pDM_Odm, RT_IQK_SPINLOCK);
++
++	/* MP mode channel don't use secondary channel */
++	if (rtw_mi_mp_mode_check(padapter) == _FALSE) {
++		#if 0
++		if (cch_160 != 0)
++			cch_80 = rtw_get_scch_by_cch_offset(cch_160, CHANNEL_WIDTH_160, Offset80);
++		#endif
++		if (cch_80 != 0)
++			cch_40 = rtw_get_scch_by_cch_offset(cch_80, CHANNEL_WIDTH_80, Offset80);
++		if (cch_40 != 0)
++			cch_20 = rtw_get_scch_by_cch_offset(cch_40, CHANNEL_WIDTH_40, Offset40);
++	}
++
++	pHalData->cch_80 = cch_80;
++	pHalData->cch_40 = cch_40;
++	pHalData->cch_20 = cch_20;
++
++	if (0)
++		RTW_INFO("%s cch:%u, %s, offset40:%u, offset80:%u (%u, %u, %u)\n", __func__
++			, channel, ch_width_str(Bandwidth), Offset40, Offset80
++			, pHalData->cch_80, pHalData->cch_40, pHalData->cch_20);
++
++	padapter->HalFunc.set_chnl_bw_handler(padapter, channel, Bandwidth, Offset40, Offset80);
++}
++
++void	rtw_hal_set_tx_power_level(_adapter *padapter, u8 channel)
++{
++	if (padapter->HalFunc.set_tx_power_level_handler)
++		padapter->HalFunc.set_tx_power_level_handler(padapter, channel);
++}
++
++void	rtw_hal_get_tx_power_level(_adapter *padapter, s32 *powerlevel)
++{
++	if (padapter->HalFunc.get_tx_power_level_handler)
++		padapter->HalFunc.get_tx_power_level_handler(padapter, powerlevel);
++}
++
++void	rtw_hal_dm_watchdog(_adapter *padapter)
++{
++#ifdef CONFIG_MCC_MODE
++	if (MCC_EN(padapter)) {
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC))
++			return;
++	}
++#endif /* CONFIG_MCC_MODE */
++
++	padapter->HalFunc.hal_dm_watchdog(padapter);
++
++}
++
++#ifdef CONFIG_LPS_LCLK_WD_TIMER
++void	rtw_hal_dm_watchdog_in_lps(_adapter *padapter)
++{
++#if defined(CONFIG_CONCURRENT_MODE)
++	if (padapter->hw_port != HW_PORT0)
++		return;
++#endif
++
++	if (adapter_to_pwrctl(padapter)->bFwCurrentInPSMode == _TRUE) {
++		padapter->HalFunc.hal_dm_watchdog_in_lps(padapter);/* this fuction caller is in interrupt context					 */
++	}
++}
++#endif
++
++void rtw_hal_bcn_related_reg_setting(_adapter *padapter)
++{
++	padapter->HalFunc.SetBeaconRelatedRegistersHandler(padapter);
++}
++
++#ifdef CONFIG_HOSTAPD_MLME
++s32	rtw_hal_hostap_mgnt_xmit_entry(_adapter *padapter, _pkt *pkt)
++{
++	if (padapter->HalFunc.hostap_mgnt_xmit_entry)
++		return padapter->HalFunc.hostap_mgnt_xmit_entry(padapter, pkt);
++	return _FAIL;
++}
++#endif /* CONFIG_HOSTAPD_MLME */
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++void	rtw_hal_sreset_init(_adapter *padapter)
++{
++	padapter->HalFunc.sreset_init_value(padapter);
++}
++void rtw_hal_sreset_reset(_adapter *padapter)
++{
++	padapter = GET_PRIMARY_ADAPTER(padapter);
++	padapter->HalFunc.silentreset(padapter);
++}
++
++void rtw_hal_sreset_reset_value(_adapter *padapter)
++{
++	padapter->HalFunc.sreset_reset_value(padapter);
++}
++
++void rtw_hal_sreset_xmit_status_check(_adapter *padapter)
++{
++	padapter->HalFunc.sreset_xmit_status_check(padapter);
++}
++void rtw_hal_sreset_linked_status_check(_adapter *padapter)
++{
++	padapter->HalFunc.sreset_linked_status_check(padapter);
++}
++u8   rtw_hal_sreset_get_wifi_status(_adapter *padapter)
++{
++	return padapter->HalFunc.sreset_get_wifi_status(padapter);
++}
++
++bool rtw_hal_sreset_inprogress(_adapter *padapter)
++{
++	padapter = GET_PRIMARY_ADAPTER(padapter);
++	return padapter->HalFunc.sreset_inprogress(padapter);
++}
++#endif /* DBG_CONFIG_ERROR_DETECT */
++
++#ifdef CONFIG_IOL
++int rtw_hal_iol_cmd(ADAPTER *adapter, struct xmit_frame *xmit_frame, u32 max_wating_ms, u32 bndy_cnt)
++{
++	if (adapter->HalFunc.IOL_exec_cmds_sync)
++		return adapter->HalFunc.IOL_exec_cmds_sync(adapter, xmit_frame, max_wating_ms, bndy_cnt);
++	return _FAIL;
++}
++#endif
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++s32 rtw_hal_xmit_thread_handler(_adapter *padapter)
++{
++	return padapter->HalFunc.xmit_thread_handler(padapter);
++}
++#endif
++
++void rtw_hal_notch_filter(_adapter *adapter, bool enable)
++{
++	if (adapter->HalFunc.hal_notch_filter)
++		adapter->HalFunc.hal_notch_filter(adapter, enable);
++}
++
++bool rtw_hal_c2h_valid(_adapter *adapter, u8 *buf)
++{
++	HAL_DATA_TYPE *HalData = GET_HAL_DATA(adapter);
++	HAL_VERSION *hal_ver = &HalData->VersionID;
++	bool ret = _FAIL;
++
++	if (IS_8188E(*hal_ver))
++		ret = c2h_evt_valid((struct c2h_evt_hdr *)buf);
++	else if (IS_8192E(*hal_ver) || IS_8812_SERIES(*hal_ver) || IS_8821_SERIES(*hal_ver) || IS_8723B_SERIES(*hal_ver))
++		ret = c2h_evt_valid((struct c2h_evt_hdr_88xx *)buf);
++	else
++		rtw_warn_on(1);
++
++	return ret;
++}
++
++s32 rtw_hal_c2h_evt_read(_adapter *adapter, u8 *buf)
++{
++	HAL_DATA_TYPE *HalData = GET_HAL_DATA(adapter);
++	HAL_VERSION *hal_ver = &HalData->VersionID;
++	s32 ret = _FAIL;
++
++	if (IS_8188E(*hal_ver))
++		ret = c2h_evt_read(adapter, buf);
++	else if (IS_8192E(*hal_ver) || IS_8812_SERIES(*hal_ver) || IS_8821_SERIES(*hal_ver) || IS_8723B_SERIES(*hal_ver))
++		ret = c2h_evt_read_88xx(adapter, buf);
++	else
++		rtw_warn_on(1);
++
++	return ret;
++}
++
++s32 rtw_hal_c2h_handler(_adapter *adapter, u8 *c2h_evt)
++{
++	s32 ret = _FAIL;
++	if (adapter->HalFunc.c2h_handler)
++		ret = adapter->HalFunc.c2h_handler(adapter, c2h_evt);
++	return ret;
++}
++
++c2h_id_filter rtw_hal_c2h_id_filter_ccx(_adapter *adapter)
++{
++	return adapter->HalFunc.c2h_id_filter_ccx;
++}
++
++s32 rtw_hal_is_disable_sw_channel_plan(PADAPTER padapter)
++{
++	return GET_HAL_DATA(padapter)->bDisableSWChannelPlan;
++}
++
++s32 rtw_hal_macid_sleep(PADAPTER padapter, u8 macid)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	u8 support;
++
++	support = _FALSE;
++	rtw_hal_get_def_var(padapter, HAL_DEF_MACID_SLEEP, &support);
++	if (_FALSE == support)
++		return _FAIL;
++
++	if (macid >= macid_ctl->num) {
++		RTW_ERR(FUNC_ADPT_FMT": Invalid macid(%u)\n",
++			FUNC_ADPT_ARG(padapter), macid);
++		return _FAIL;
++	}
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_MACID_SLEEP, &macid);
++
++	return _SUCCESS;
++}
++
++s32 rtw_hal_macid_wakeup(PADAPTER padapter, u8 macid)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	u8 support;
++
++	support = _FALSE;
++	rtw_hal_get_def_var(padapter, HAL_DEF_MACID_SLEEP, &support);
++	if (_FALSE == support)
++		return _FAIL;
++
++	if (macid >= macid_ctl->num) {
++		RTW_ERR(FUNC_ADPT_FMT": Invalid macid(%u)\n",
++			FUNC_ADPT_ARG(padapter), macid);
++		return _FAIL;
++	}
++
++	rtw_hal_set_hwreg(padapter, HW_VAR_MACID_WAKEUP, &macid);
++
++	return _SUCCESS;
++}
++
++s32 rtw_hal_fill_h2c_cmd(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer)
++{
++	_adapter *pri_adapter = GET_PRIMARY_ADAPTER(padapter);
++
++	if (pri_adapter->bFWReady == _TRUE)
++		return padapter->HalFunc.fill_h2c_cmd(padapter, ElementID, CmdLen, pCmdBuffer);
++	else if (padapter->registrypriv.mp_mode == 0)
++		RTW_PRINT(FUNC_ADPT_FMT" FW doesn't exit when no MP mode, by pass H2C id:0x%02x\n"
++			  , FUNC_ADPT_ARG(padapter), ElementID);
++	return _FAIL;
++}
++
++void rtw_hal_fill_fake_txdesc(_adapter *padapter, u8 *pDesc, u32 BufferLen,
++			      u8 IsPsPoll, u8 IsBTQosNull, u8 bDataFrame)
++{
++	padapter->HalFunc.fill_fake_txdesc(padapter, pDesc, BufferLen, IsPsPoll, IsBTQosNull, bDataFrame);
++
++}
++u8 rtw_hal_get_txbuff_rsvd_page_num(_adapter *adapter, bool wowlan)
++{
++	return adapter->HalFunc.hal_get_tx_buff_rsvd_page_num(adapter, wowlan);
++}
++
++#ifdef CONFIG_GPIO_API
++void rtw_hal_update_hisr_hsisr_ind(_adapter *padapter, u32 flag)
++{
++	if (padapter->HalFunc.update_hisr_hsisr_ind)
++		padapter->HalFunc.update_hisr_hsisr_ind(padapter, flag);
++}
++
++int rtw_hal_gpio_func_check(_adapter *padapter, u8 gpio_num)
++{
++	int ret = _SUCCESS;
++
++	if (padapter->HalFunc.hal_gpio_func_check)
++		ret = padapter->HalFunc.hal_gpio_func_check(padapter, gpio_num);
++
++	return ret;
++}
++
++void rtw_hal_gpio_multi_func_reset(_adapter *padapter, u8 gpio_num)
++{
++	if (padapter->HalFunc.hal_gpio_multi_func_reset)
++		padapter->HalFunc.hal_gpio_multi_func_reset(padapter, gpio_num);
++}
++#endif
++
++void rtw_hal_fw_correct_bcn(_adapter *padapter)
++{
++	if (padapter->HalFunc.fw_correct_bcn)
++		padapter->HalFunc.fw_correct_bcn(padapter);
++}
++
++void rtw_hal_set_tx_power_index(PADAPTER padapter, u32 powerindex, u8 rfpath, u8 rate)
++{
++	return padapter->HalFunc.set_tx_power_index_handler(padapter, powerindex, rfpath, rate);
++}
++
++u8 rtw_hal_get_tx_power_index(PADAPTER padapter, u8 rfpath, u8 rate, u8 bandwidth, u8 channel, struct txpwr_idx_comp *tic)
++{
++	return padapter->HalFunc.get_tx_power_index_handler(padapter, rfpath, rate, bandwidth, channel, tic);
++}
++
++#ifdef RTW_HALMAC
++/*
++ * Description:
++ *	Initialize MAC registers
++ *
++ * Return:
++ *	_TRUE	success
++ *	_FALSE	fail
++ */
++u8 rtw_hal_init_mac_register(PADAPTER adapter)
++{
++	return adapter->HalFunc.init_mac_register(adapter);
++}
++
++/*
++ * Description:
++ *	Initialize PHY(BB/RF) related functions
++ *
++ * Return:
++ *	_TRUE	success
++ *	_FALSE	fail
++ */
++u8 rtw_hal_init_phy(PADAPTER adapter)
++{
++	return adapter->HalFunc.init_phy(adapter);
++}
++#endif /* RTW_HALMAC */
++
++#define rtw_hal_error_msg(ops_fun)		\
++	RTW_PRINT("### %s - Error : Please hook HalFunc.%s ###\n", __FUNCTION__, ops_fun)
++
++u8 rtw_hal_ops_check(_adapter *padapter)
++{
++	u8 ret = _SUCCESS;
++#if 1
++	/*** initialize section ***/
++	if (NULL == padapter->HalFunc.read_chip_version) {
++		rtw_hal_error_msg("read_chip_version");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.init_default_value) {
++		rtw_hal_error_msg("init_default_value");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.intf_chip_configure) {
++		rtw_hal_error_msg("intf_chip_configure");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.read_adapter_info) {
++		rtw_hal_error_msg("read_adapter_info");
++		ret = _FAIL;
++	}
++
++	if (NULL == padapter->HalFunc.hal_power_on) {
++		rtw_hal_error_msg("hal_power_on");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.hal_power_off) {
++		rtw_hal_error_msg("hal_power_off");
++		ret = _FAIL;
++	}
++
++	if (NULL == padapter->HalFunc.hal_init) {
++		rtw_hal_error_msg("hal_init");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.hal_deinit) {
++		rtw_hal_error_msg("hal_deinit");
++		ret = _FAIL;
++	}
++
++	/*** xmit section ***/
++	if (NULL == padapter->HalFunc.init_xmit_priv) {
++		rtw_hal_error_msg("init_xmit_priv");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.free_xmit_priv) {
++		rtw_hal_error_msg("free_xmit_priv");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.hal_xmit) {
++		rtw_hal_error_msg("hal_xmit");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.mgnt_xmit) {
++		rtw_hal_error_msg("mgnt_xmit");
++		ret = _FAIL;
++	}
++#ifdef CONFIG_XMIT_THREAD_MODE
++	if (NULL == padapter->HalFunc.xmit_thread_handler) {
++		rtw_hal_error_msg("xmit_thread_handler");
++		ret = _FAIL;
++	}
++#endif
++	if (NULL == padapter->HalFunc.hal_xmitframe_enqueue) {
++		rtw_hal_error_msg("hal_xmitframe_enqueue");
++		ret = _FAIL;
++	}
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++#ifndef CONFIG_SDIO_TX_TASKLET
++	if (NULL == padapter->HalFunc.run_thread) {
++		rtw_hal_error_msg("run_thread");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.cancel_thread) {
++		rtw_hal_error_msg("cancel_thread");
++		ret = _FAIL;
++	}
++#endif
++#endif
++
++	/*** recv section ***/
++	if (NULL == padapter->HalFunc.init_recv_priv) {
++		rtw_hal_error_msg("init_recv_priv");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.free_recv_priv) {
++		rtw_hal_error_msg("free_recv_priv");
++		ret = _FAIL;
++	}
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_PCI_HCI)
++	if (NULL == padapter->HalFunc.inirp_init) {
++		rtw_hal_error_msg("inirp_init");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.inirp_deinit) {
++		rtw_hal_error_msg("inirp_deinit");
++		ret = _FAIL;
++	}
++#endif /* #if defined(CONFIG_USB_HCI) || defined (CONFIG_PCI_HCI) */
++
++
++	/*** interrupt hdl section ***/
++#if defined(CONFIG_PCI_HCI)
++	if (NULL == padapter->HalFunc.irp_reset) {
++		rtw_hal_error_msg("irp_reset");
++		ret = _FAIL;
++	}
++#endif/*#if defined(CONFIG_PCI_HCI)*/
++#if (defined(CONFIG_PCI_HCI)) || (defined(CONFIG_USB_HCI) && defined(CONFIG_SUPPORT_USB_INT))
++	if (NULL == padapter->HalFunc.interrupt_handler) {
++		rtw_hal_error_msg("interrupt_handler");
++		ret = _FAIL;
++	}
++#endif /*#if (defined(CONFIG_PCI_HCI)) || (defined(CONFIG_USB_HCI) && defined(CONFIG_SUPPORT_USB_INT))*/
++
++#if defined(CONFIG_PCI_HCI) || defined(CONFIG_SDIO_HCI) || defined (CONFIG_GSPI_HCI)
++	if (NULL == padapter->HalFunc.enable_interrupt) {
++		rtw_hal_error_msg("enable_interrupt");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.disable_interrupt) {
++		rtw_hal_error_msg("disable_interrupt");
++		ret = _FAIL;
++	}
++#endif /* defined(CONFIG_PCI_HCI) || defined (CONFIG_SDIO_HCI) || defined (CONFIG_GSPI_HCI) */
++
++
++	/*** DM section ***/
++	if (NULL == padapter->HalFunc.dm_init) {
++		rtw_hal_error_msg("dm_init");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.dm_deinit) {
++		rtw_hal_error_msg("dm_deinit");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.hal_dm_watchdog) {
++		rtw_hal_error_msg("hal_dm_watchdog");
++		ret = _FAIL;
++	}
++#ifdef CONFIG_LPS_LCLK_WD_TIMER
++	if (NULL == padapter->HalFunc.hal_dm_watchdog_in_lps) {
++		rtw_hal_error_msg("hal_dm_watchdog_in_lps");
++		ret = _FAIL;
++	}
++#endif
++
++	/*** xxx section ***/
++	if (NULL == padapter->HalFunc.set_chnl_bw_handler) {
++		rtw_hal_error_msg("set_chnl_bw_handler");
++		ret = _FAIL;
++	}
++
++	if (NULL == padapter->HalFunc.SetHwRegHandler) {
++		rtw_hal_error_msg("SetHwRegHandler");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.GetHwRegHandler) {
++		rtw_hal_error_msg("GetHwRegHandler");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.GetHalDefVarHandler) {
++		rtw_hal_error_msg("GetHalDefVarHandler");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.SetHalDefVarHandler) {
++		rtw_hal_error_msg("SetHalDefVarHandler");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.GetHalODMVarHandler) {
++		rtw_hal_error_msg("GetHalODMVarHandler");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.SetHalODMVarHandler) {
++		rtw_hal_error_msg("SetHalODMVarHandler");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.UpdateRAMaskHandler) {
++		rtw_hal_error_msg("UpdateRAMaskHandler");
++		ret = _FAIL;
++	}
++
++	if (NULL == padapter->HalFunc.SetBeaconRelatedRegistersHandler) {
++		rtw_hal_error_msg("SetBeaconRelatedRegistersHandler");
++		ret = _FAIL;
++	}
++
++	if (NULL == padapter->HalFunc.fill_h2c_cmd) {
++		rtw_hal_error_msg("fill_h2c_cmd");
++		ret = _FAIL;
++	}
++#if defined(CONFIG_LPS) || defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	if (NULL == padapter->HalFunc.fill_fake_txdesc) {
++		rtw_hal_error_msg("fill_fake_txdesc");
++		ret = _FAIL;
++	}
++#endif
++	if (NULL == padapter->HalFunc.hal_get_tx_buff_rsvd_page_num) {
++		rtw_hal_error_msg("hal_get_tx_buff_rsvd_page_num");
++		ret = _FAIL;
++	}
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	if (NULL == padapter->HalFunc.clear_interrupt) {
++		rtw_hal_error_msg("clear_interrupt");
++		ret = _FAIL;
++	}
++#endif
++#endif /* CONFIG_WOWLAN */
++
++	if (NULL == padapter->HalFunc.fw_dl) {
++		rtw_hal_error_msg("fw_dl");
++		ret = _FAIL;
++	}
++
++	if ((IS_HARDWARE_TYPE_8814A(padapter)
++	     || IS_HARDWARE_TYPE_8822BU(padapter) || IS_HARDWARE_TYPE_8822BS(padapter))
++	    && NULL == padapter->HalFunc.fw_correct_bcn) {
++		rtw_hal_error_msg("fw_correct_bcn");
++		ret = _FAIL;
++	}
++
++	if (IS_HARDWARE_TYPE_8822B(padapter) || IS_HARDWARE_TYPE_8821C(padapter)) {
++		if (!padapter->HalFunc.set_tx_power_index_handler) {
++			rtw_hal_error_msg("set_tx_power_index_handler");
++			ret = _FAIL;
++		}
++	}
++
++	if (!padapter->HalFunc.get_tx_power_index_handler) {
++		rtw_hal_error_msg("get_tx_power_index_handler");
++		ret = _FAIL;
++	}
++
++	/*** SReset section ***/
++#ifdef DBG_CONFIG_ERROR_DETECT
++	if (NULL == padapter->HalFunc.sreset_init_value) {
++		rtw_hal_error_msg("sreset_init_value");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.sreset_reset_value) {
++		rtw_hal_error_msg("sreset_reset_value");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.silentreset) {
++		rtw_hal_error_msg("silentreset");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.sreset_xmit_status_check) {
++		rtw_hal_error_msg("sreset_xmit_status_check");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.sreset_linked_status_check) {
++		rtw_hal_error_msg("sreset_linked_status_check");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.sreset_get_wifi_status) {
++		rtw_hal_error_msg("sreset_get_wifi_status");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.sreset_inprogress) {
++		rtw_hal_error_msg("sreset_inprogress");
++		ret = _FAIL;
++	}
++#endif  /* #ifdef DBG_CONFIG_ERROR_DETECT */
++
++#ifdef RTW_HALMAC
++	if (NULL == padapter->HalFunc.init_mac_register) {
++		rtw_hal_error_msg("init_mac_register");
++		ret = _FAIL;
++	}
++	if (NULL == padapter->HalFunc.init_phy) {
++		rtw_hal_error_msg("init_phy");
++		ret = _FAIL;
++	}
++#endif /* RTW_HALMAC */
++#endif
++	return  ret;
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/hal_mcc.c b/drivers/net/wireless/rtl8812au/hal/hal_mcc.c
+new file mode 100644
+index 0000000..47173cd
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/hal_mcc.c
+@@ -0,0 +1,1488 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ ******************************************************************************/
++#ifdef CONFIG_MCC_MODE
++#define _HAL_MCC_C_
++
++#include <drv_types.h> /* PADAPTER */
++#include <rtw_mcc.h> /* mcc structure */
++#include <hal_data.h> /* HAL_DATA */
++#include <rtw_pwrctrl.h> /* power control */
++
++/* backup IQK value */
++void rtw_hal_mcc_backup_IQK_val(PADAPTER padapter)
++{
++	u8 take_care_iqk = _FALSE;
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_CH_SW_NEED_TO_TAKE_CARE_IQK_INFO, &take_care_iqk);
++	if (take_care_iqk == _TRUE && MCC_EN(padapter))
++		rtw_hal_ch_sw_iqk_info_restore(padapter, CH_SW_USE_CASE_MCC);
++}
++
++u8 rtw_hal_check_mcc_status(PADAPTER padapter, u8 mcc_status)
++{
++	struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++
++	if (pmccobjpriv->mcc_status & (mcc_status))
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++void rtw_hal_set_mcc_status(PADAPTER padapter, u8 mcc_status)
++{
++	struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++
++	pmccobjpriv->mcc_status |= (mcc_status);
++}
++
++void rtw_hal_clear_mcc_status(PADAPTER padapter, u8 mcc_status)
++{
++	struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++
++	pmccobjpriv->mcc_status &= (~mcc_status);
++}
++
++static void rtw_hal_config_mcc_role_setting(PADAPTER padapter)
++{
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct mcc_obj_priv *pmccobjpriv = &(pdvobjpriv->mcc_objpriv);
++	struct mcc_adapter_priv *pmccadapriv = &padapter->mcc_adapterpriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct wlan_network *cur_network = &(pmlmepriv->cur_network);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta = NULL;
++	struct registry_priv *preg = &padapter->registrypriv;
++
++	/* GO/AP is 1nd order  GC/STA is 2nd order */
++	switch (pmccadapriv->role) {
++	case MCC_ROLE_STA:
++	case MCC_ROLE_GC:
++		pmccadapriv->order = 1;
++		pmccadapriv->mcc_duration = pmccobjpriv->duration;
++
++		switch (pmlmeext->cur_bwmode) {
++		case CHANNEL_WIDTH_20:
++			/*
++			* target tx byte(bytes) = target tx tp(Mbits/sec) * 1024 * 1024 / 8 * (duration(ms) / 1024)
++			*					= target tx tp(Mbits/sec) * 128 * duration(ms)
++			* note:
++			* target tx tp(Mbits/sec) * 1024 * 1024 / 8 ==> Mbits to bytes
++			* duration(ms) / 1024 ==> msec to sec
++			*/
++			pmccadapriv->mcc_target_tx_bytes_to_port = preg->rtw_mcc_sta_bw20_target_tx_tp * 128 * pmccadapriv->mcc_duration;
++			break;
++		case CHANNEL_WIDTH_40:
++			pmccadapriv->mcc_target_tx_bytes_to_port = preg->rtw_mcc_sta_bw40_target_tx_tp * 128 * pmccadapriv->mcc_duration;
++			break;
++		case CHANNEL_WIDTH_80:
++			pmccadapriv->mcc_target_tx_bytes_to_port = preg->rtw_mcc_sta_bw80_target_tx_tp * 128 * pmccadapriv->mcc_duration;
++			break;
++		case CHANNEL_WIDTH_160:
++		case CHANNEL_WIDTH_80_80:
++			RTW_INFO(FUNC_ADPT_FMT": not support bwmode = %d\n"
++				, FUNC_ADPT_ARG(padapter), pmlmeext->cur_bwmode);
++			break;
++		}
++
++		/* assign used mac to avoid affecting RA */
++		pmccadapriv->mgmt_queue_macid = MCC_ROLE_STA_GC_MGMT_QUEUE_MACID;
++
++		psta = rtw_get_stainfo(pstapriv, cur_network->network.MacAddress);
++		if (psta) {
++			/* combine AP/GO macid and mgmt queue macid to bitmap */
++			pmccadapriv->mcc_macid_bitmap = BIT(psta->mac_id) | BIT(pmccadapriv->mgmt_queue_macid);
++		} else {
++			RTW_INFO(FUNC_ADPT_FMT":AP/GO station info is NULL\n", FUNC_ADPT_ARG(padapter));
++			rtw_warn_on(1);
++		}
++		break;
++	case MCC_ROLE_AP:
++	case MCC_ROLE_GO:
++		pmccadapriv->order = 0;
++		pmccadapriv->mcc_duration = 100 - pmccobjpriv->duration; /* 100 means beacon interval */
++
++		switch (pmlmeext->cur_bwmode) {
++		case CHANNEL_WIDTH_20:
++			pmccadapriv->mcc_target_tx_bytes_to_port = preg->rtw_mcc_ap_bw20_target_tx_tp * 128 * pmccadapriv->mcc_duration;
++			break;
++		case CHANNEL_WIDTH_40:
++			pmccadapriv->mcc_target_tx_bytes_to_port = preg->rtw_mcc_ap_bw40_target_tx_tp * 128 * pmccadapriv->mcc_duration;
++			break;
++		case CHANNEL_WIDTH_80:
++			pmccadapriv->mcc_target_tx_bytes_to_port = preg->rtw_mcc_ap_bw80_target_tx_tp * 128 * pmccadapriv->mcc_duration;
++			break;
++		case CHANNEL_WIDTH_160:
++		case CHANNEL_WIDTH_80_80:
++			RTW_INFO(FUNC_ADPT_FMT": not support bwmode = %d\n"
++				, FUNC_ADPT_ARG(padapter), pmlmeext->cur_bwmode);
++			break;
++		}
++
++
++		psta = rtw_get_bcmc_stainfo(padapter);
++
++		if (psta != NULL)
++			pmccadapriv->mgmt_queue_macid = psta->mac_id;
++		else {
++			pmccadapriv->mgmt_queue_macid = MCC_ROLE_SOFTAP_GO_MGMT_QUEUE_MACID;
++			RTW_INFO(FUNC_ADPT_FMT":bcmc station is NULL, use macid %d\n"
++				, FUNC_ADPT_ARG(padapter), pmccadapriv->mgmt_queue_macid);
++		}
++
++		/* combine client macid and mgmt queue macid to bitmap */
++		pmccadapriv->mcc_macid_bitmap = (0xff << 8) | BIT(pmccadapriv->mgmt_queue_macid);
++		break;
++	default:
++		RTW_INFO("Unknown role\n");
++		rtw_warn_on(1);
++		break;
++	}
++
++	pmccobjpriv->iface[pmccadapriv->order] = padapter;
++	RTW_INFO(FUNC_ADPT_FMT": order:%d, role:%d, mcc duration:%d, target tx bytes:%d, mgmt queue macid:%d, bitmap:0x%02x\n"
++		, FUNC_ADPT_ARG(padapter), pmccadapriv->order, pmccadapriv->role, pmccadapriv->mcc_duration
++		, pmccadapriv->mcc_target_tx_bytes_to_port, pmccadapriv->mgmt_queue_macid, pmccadapriv->mcc_macid_bitmap);
++}
++
++static void rtw_hal_clear_mcc_macid(PADAPTER padapter)
++{
++	struct mcc_adapter_priv *pmccadapriv = &padapter->mcc_adapterpriv;
++
++	switch (pmccadapriv->role) {
++	case MCC_ROLE_STA:
++	case MCC_ROLE_GC:
++		/* release  mgmt queue macid */
++		rtw_hal_set_FwMediaStatusRpt_single_cmd(padapter
++			, 0, 0, 0, H2C_MSR_ROLE_AP, pmccadapriv->mgmt_queue_macid);
++		break;
++	case MCC_ROLE_AP:
++	case MCC_ROLE_GO:
++		/* nothing to do */
++		break;
++	default:
++		RTW_INFO("Unknown role\n");
++		rtw_warn_on(1);
++		break;
++	}
++}
++static u8 rtw_hal_decide_mcc_role(PADAPTER padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	_adapter *iface = NULL;
++	struct mcc_adapter_priv *pmccadapriv = NULL;
++	struct wifidirect_info *pwdinfo = NULL;
++	struct mlme_priv *pmlmepriv = NULL;
++	u8 ret = _SUCCESS, i = 0;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface == NULL)
++			continue;
++
++		pmccadapriv = &iface->mcc_adapterpriv;
++
++		if (MLME_IS_GO(iface))
++			pmccadapriv->role = MCC_ROLE_GO;
++		else if (MLME_IS_AP(iface))
++			pmccadapriv->role = MCC_ROLE_AP;
++		else if (MLME_IS_GC(iface))
++			pmccadapriv->role = MCC_ROLE_GC;
++		else if (MLME_IS_STA(iface))
++			pmccadapriv->role = MCC_ROLE_STA;
++		else {
++			pwdinfo = &iface->wdinfo;
++			pmlmepriv = &iface->mlmepriv;
++
++			RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(iface));
++			RTW_INFO("Unknown:P2P state:%d, mlme state:0x%2x, mlmext info state:0x%02x\n",
++				pwdinfo->role, pmlmepriv->fw_state, iface->mlmeextpriv.mlmext_info.state);
++			rtw_warn_on(1);
++			ret =  _FAIL;
++			goto exit;
++		}
++
++		if (ret == _SUCCESS)
++			rtw_hal_config_mcc_role_setting(iface);
++	}
++
++exit:
++	return ret;
++}
++
++static void rtw_hal_init_mcc_parameter(PADAPTER padapter)
++{
++}
++
++static void rtw_hal_construct_CTS(PADAPTER padapter, u8 *pframe, u32 *pLength)
++{
++	u8 broadcast_addr[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++	/* frame type, length = 1*/
++	SetFrameSubType(pframe, WIFI_RTS);
++
++	/* frame control flag, length = 1 */
++	*(pframe + 1) = 0;
++
++	/* frame duration, length = 2 */
++	*(pframe + 2) = 0x00;
++	*(pframe + 3) = 0x78;
++
++	/* frame recvaddr, length = 6 */
++	_rtw_memcpy((pframe + 4), broadcast_addr, ETH_ALEN);
++	_rtw_memcpy((pframe + 4 + ETH_ALEN), adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy((pframe + 4 + ETH_ALEN * 2), adapter_mac_addr(padapter), ETH_ALEN);
++	*pLength = 22;
++}
++
++u8 rtw_hal_dl_mcc_fw_rsvd_page(_adapter *adapter, u8 *pframe, u16 *index,
++	       u8 tx_desc, u32 page_size, u8 *page_num, u32 *total_pkt_len,
++			       RSVDPAGE_LOC *rsvd_page_loc)
++{
++	u32 len = 0;
++	_adapter *iface = NULL;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct mcc_obj_priv *pmccobjpriv = &(dvobj->mcc_objpriv);
++	struct mlme_ext_info *pmlmeinfo = NULL;
++	struct mlme_ext_priv *pmlmeext = NULL;
++	u8 ret = _SUCCESS, i = 0, order = 0, CurtPktPageNum = 0;
++	u8 bssid[ETH_ALEN] = {0};
++
++	/* check proccess mcc start setting */
++	if (!rtw_hal_check_mcc_status(adapter, MCC_STATUS_PROCESS_MCC_START_SETTING)) {
++		ret = _FAIL;
++		goto exit;
++	}
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface == NULL)
++			continue;
++
++		order = iface->mcc_adapterpriv.order;
++		dvobj->mcc_objpriv.mcc_loc_rsvd_paga[order] = *page_num;
++
++		switch (iface->mcc_adapterpriv.role) {
++		case MCC_ROLE_STA:
++		case MCC_ROLE_GC:
++			/* Build NULL DATA */
++			RTW_INFO("LocNull(order:%d): %d\n"
++				, order, dvobj->mcc_objpriv.mcc_loc_rsvd_paga[order]);
++			len = 0;
++			pmlmeext = &iface->mlmeextpriv;
++			pmlmeinfo = &pmlmeext->mlmext_info;
++
++			_rtw_memcpy(bssid, get_my_bssid(&pmlmeinfo->network), ETH_ALEN);
++			rtw_hal_construct_NullFunctionData(iface
++				, &pframe[*index], &len, bssid, _FALSE, 0, 0, _FALSE);
++			rtw_hal_fill_fake_txdesc(iface, &pframe[*index - tx_desc],
++						 len, _FALSE, _FALSE, _FALSE);
++
++			CurtPktPageNum = (u8)PageNum(tx_desc + len, page_size);
++			*page_num += CurtPktPageNum;
++			*index += (CurtPktPageNum * page_size);
++			*total_pkt_len = *index + len;
++			break;
++		case MCC_ROLE_AP:
++			/* Bulid CTS */
++			RTW_INFO("LocCTS(order:%d): %d\n"
++				, order, dvobj->mcc_objpriv.mcc_loc_rsvd_paga[order]);
++
++			len = 0;
++			rtw_hal_construct_CTS(iface, &pframe[*index], &len);
++			rtw_hal_fill_fake_txdesc(iface, &pframe[*index - tx_desc],
++						 len, _FALSE, _FALSE, _FALSE);
++
++			CurtPktPageNum = (u8)PageNum(tx_desc + len, page_size);
++			*page_num += CurtPktPageNum;
++			*index += (CurtPktPageNum * page_size);
++			*total_pkt_len = *index + len;
++			break;
++		case MCC_ROLE_GO:
++			/* To DO */
++			break;
++		}
++	}
++exit:
++	return ret;
++}
++
++/*
++* 1. Download MCC rsvd page
++* 2. Re-Download beacon after download rsvd page
++*/
++static void rtw_hal_set_fw_mcc_rsvd_page(PADAPTER padapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	struct mcc_adapter_priv *pmccadapriv = &padapter->mcc_adapterpriv;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	PADAPTER port0_iface = dvobj_get_port0_adapter(dvobj);
++	PADAPTER iface = NULL;
++	struct mcc_obj_priv *pmccobjpriv = &(dvobj->mcc_objpriv);
++	u8 mstatus = RT_MEDIA_CONNECT, i = 0;
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++	rtw_hal_set_hwreg(port0_iface, HW_VAR_H2C_FW_JOINBSSRPT, (u8 *)(&mstatus));
++
++	/* Re-Download beacon */
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = pmccobjpriv->iface[i];
++		pmccadapriv = &iface->mcc_adapterpriv;
++		if (pmccadapriv->role == MCC_ROLE_AP
++		    || pmccadapriv->role == MCC_ROLE_GO)
++			tx_beacon_hdl(iface, NULL);
++	}
++}
++
++static void rtw_hal_set_mcc_rsvdpage_cmd(_adapter *padapter)
++{
++	u8 cmd[H2C_MCC_LOCATION_LEN] = {0}, i = 0, order = 0;
++	_adapter *iface = NULL;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct mcc_obj_priv *pmccobjpriv = &(dvobj->mcc_objpriv);
++
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface == NULL)
++			continue;
++
++		order = iface->mcc_adapterpriv.order;
++		if (order >= H2C_MCC_LOCATION_LEN) {
++			RTW_INFO(FUNC_ADPT_FMT" only support 3 interface at most(%d)\n"
++				 , FUNC_ADPT_ARG(padapter), order);
++			continue;
++		}
++
++		SET_H2CCMD_MCC_RSVDPAGE_LOC((cmd + order), (pmccobjpriv->mcc_loc_rsvd_paga[order]));
++	}
++
++#ifdef CONFIG_MCC_MODE_DEBUG
++	RTW_INFO("=========================\n");
++	RTW_INFO("MCC RSVD PAGE LOC:\n");
++	for (i = 0; i < H2C_MCC_LOCATION_LEN; i++)
++		pr_dbg("0x%x ", cmd[i]);
++	pr_dbg("\n");
++	RTW_INFO("=========================\n");
++#endif /* CONFIG_MCC_MODE_DEBUG */
++
++	rtw_hal_fill_h2c_cmd(padapter, H2C_MCC_LOCATION, H2C_MCC_LOCATION_LEN, cmd);
++}
++
++static void rtw_hal_set_mcc_noa_cmd(PADAPTER padapter)
++{
++	struct mcc_adapter_priv *pmccadapriv = &padapter->mcc_adapterpriv;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	u8 cmd[H2C_MCC_NOA_PARAM_LEN] = {0};
++	u8 noa_fw_eable = 1;
++	u8 noa_tsf_sync_offset = 50;
++	u8 noa_start_time = 30;
++	u8 noa_interval = pmlmepriv->cur_network.network.Configuration.BeaconPeriod;
++	u8 swchannel_early_time = MCC_SWCH_FW_EARLY_TIME;
++	u8 i = 0;
++
++	/* FW set NOA enable */
++	SET_H2CCMD_MCC_NOA_FW_EN(cmd, noa_fw_eable);
++	/* TSF Sync offset */
++	SET_H2CCMD_MCC_NOA_TSF_SYNC_OFFSET(cmd, noa_tsf_sync_offset);
++	/* NoA start time offset */
++	SET_H2CCMD_MCC_NOA_START_TIME(cmd, noa_start_time);
++	/* NoA interval */
++	SET_H2CCMD_MCC_NOA_INTERVAL(cmd, noa_interval);
++	/* Early time to inform driver by C2H before switch channel */
++	SET_H2CCMD_MCC_EARLY_TIME(cmd, swchannel_early_time);
++
++#ifdef CONFIG_MCC_MODE_DEBUG
++	RTW_INFO("=========================\n");
++	RTW_INFO("NoA:\n");
++	for (i = 0; i < H2C_MCC_NOA_PARAM_LEN; i++)
++		pr_dbg("0x%x ", cmd[i]);
++	pr_dbg("\n");
++	RTW_INFO("=========================\n");
++#endif /* CONFIG_MCC_MODE_DEBUG */
++
++	rtw_hal_fill_h2c_cmd(padapter, H2C_MCC_NOA_PARAM, H2C_MCC_NOA_PARAM_LEN, cmd);
++}
++
++static void rtw_hal_set_mcc_IQK_offload_cmd(PADAPTER padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct mcc_adapter_priv *pmccadapriv = NULL;
++	_adapter *iface = NULL;
++	u8 cmd[H2C_MCC_IQK_PARAM_LEN] = {0}, bready = 0, i = 0, order = 0;
++	u16 TX_X = 0, TX_Y = 0, RX_X = 0, RX_Y = 0;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface == NULL)
++			continue;
++
++		pmccadapriv = &iface->mcc_adapterpriv;
++		order = pmccadapriv->order;
++		/* TO DO for multi-antenna(FW not support) */
++		TX_X = pmccadapriv->mcc_iqk_arr[0].TX_X & 0x7ff;/* [10:0] */
++		TX_Y = pmccadapriv->mcc_iqk_arr[0].TX_Y & 0x7ff;/* [10:0] */
++		RX_X = pmccadapriv->mcc_iqk_arr[0].RX_X & 0x3ff;/* [9:0] */
++		RX_Y = pmccadapriv->mcc_iqk_arr[0].RX_Y & 0x3ff;/* [9:0] */
++		_rtw_memset(cmd, 0, H2C_MCC_IQK_PARAM_LEN);
++
++		/* ready or not */
++		if (order == 1)
++			bready = 1;
++		else
++			bready = 0;
++
++		SET_H2CCMD_MCC_IQK_READY(cmd, bready);
++		SET_H2CCMD_MCC_IQK_ORDER(cmd, order);
++
++		/* fill RX_X[7:0] to (cmd+1)[7:0] bitlen=8 */
++		SET_H2CCMD_MCC_IQK_RX_L(cmd, (u8)(RX_X & 0xff));
++		/* fill RX_X[9:8] to (cmd+2)[1:0] bitlen=2 */
++		SET_H2CCMD_MCC_IQK_RX_M1(cmd, (u8)((RX_X >> 8) & 0x03));
++		/* fill RX_Y[5:0] to (cmd+2)[7:2] bitlen=6 */
++		SET_H2CCMD_MCC_IQK_RX_M2(cmd, (u8)(RX_Y & 0x3f));
++		/* fill RX_Y[9:6] to (cmd+3)[3:0] bitlen=4 */
++		SET_H2CCMD_MCC_IQK_RX_H(cmd, (u8)((RX_Y >> 6) & 0x0f));
++
++
++		/* fill TX_X[7:0] to (cmd+4)[7:0] bitlen=8 */
++		SET_H2CCMD_MCC_IQK_TX_L(cmd, (u8)(TX_X & 0xff));
++		/* fill TX_X[10:8] to (cmd+5)[2:0] bitlen=3 */
++		SET_H2CCMD_MCC_IQK_TX_M1(cmd, (u8)((TX_X >> 8) & 0x07));
++		/* fill TX_Y[4:0] to (cmd+5)[7:3] bitlen=5 */
++		SET_H2CCMD_MCC_IQK_TX_M2(cmd, (u8)(TX_Y & 0x1f));
++		/* fill TX_Y[10:5] to (cmd+6)[5:0] bitlen=6 */
++		SET_H2CCMD_MCC_IQK_TX_H(cmd, (u8)((TX_Y >> 5) & 0x3f));
++
++#ifdef CONFIG_MCC_MODE_DEBUG
++		RTW_INFO("=========================\n");
++		RTW_INFO(FUNC_ADPT_FMT" IQK:\n", FUNC_ADPT_ARG(iface));
++		RTW_INFO("TX_X: 0x%02x\n", TX_X);
++		RTW_INFO("TX_Y: 0x%02x\n", TX_Y);
++		RTW_INFO("RX_X: 0x%02x\n", RX_X);
++		RTW_INFO("RX_Y: 0x%02x\n", RX_Y);
++		RTW_INFO("cmd[0]:0x%02x\n", cmd[0]);
++		RTW_INFO("cmd[1]:0x%02x\n", cmd[1]);
++		RTW_INFO("cmd[2]:0x%02x\n", cmd[2]);
++		RTW_INFO("cmd[3]:0x%02x\n", cmd[3]);
++		RTW_INFO("cmd[4]:0x%02x\n", cmd[4]);
++		RTW_INFO("cmd[5]:0x%02x\n", cmd[5]);
++		RTW_INFO("cmd[6]:0x%02x\n", cmd[6]);
++		RTW_INFO("=========================\n");
++#endif /* CONFIG_MCC_MODE_DEBUG */
++
++		rtw_hal_fill_h2c_cmd(padapter, H2C_MCC_IQK_PARAM, H2C_MCC_IQK_PARAM_LEN, cmd);
++	}
++}
++
++
++static void rtw_hal_set_mcc_macid_cmd(PADAPTER padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct mcc_adapter_priv *pmccadapriv = NULL;
++	_adapter *iface = NULL;
++	u8 cmd[H2C_MCC_MACID_BITMAP_LEN] = {0}, i = 0, order = 0;
++	u16 bitmap = 0;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface == NULL)
++			continue;
++
++		pmccadapriv = &iface->mcc_adapterpriv;
++		order = pmccadapriv->order;
++		bitmap = pmccadapriv->mcc_macid_bitmap;
++
++		if (order >= (H2C_MCC_MACID_BITMAP_LEN / 2)) {
++			RTW_INFO(FUNC_ADPT_FMT" only support 3 interface at most(%d)\n"
++				 , FUNC_ADPT_ARG(padapter), order);
++			continue;
++		}
++		SET_H2CCMD_MCC_MACID_BITMAP_L((cmd + order * 2), (u8)(bitmap & 0xff));
++		SET_H2CCMD_MCC_MACID_BITMAP_H((cmd + order * 2), (u8)((bitmap >> 8) & 0xff));
++	}
++
++#ifdef CONFIG_MCC_MODE_DEBUG
++	RTW_INFO("=========================\n");
++	RTW_INFO("MACID BITMAP: ");
++	for (i = 0; i < H2C_MCC_MACID_BITMAP_LEN; i++)
++		pr_dbg("0x%x ", cmd[i]);
++	pr_dbg("\n");
++	RTW_INFO("=========================\n");
++#endif /* CONFIG_MCC_MODE_DEBUG */
++	rtw_hal_fill_h2c_cmd(padapter, H2C_MCC_MACID_BITMAP, H2C_MCC_MACID_BITMAP_LEN, cmd);
++}
++
++static void rtw_hal_set_mcc_parameter_cmd(PADAPTER padapter, u8 stop)
++{
++	u8 cmd[H2C_MCC_INFO_LEN] = {0}, i = 0;
++	u8 order = 0, totalnum = 0, chidx = 0, bw = 0, bw40sc = 0, bw80sc = 0;
++	u8 duration = 0, role = 0, incurch = 0, rfetype = 0, distxnull = 0, c2hrpt = 0, chscan = 0;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct mcc_obj_priv *pmccobjpriv = &(dvobj->mcc_objpriv);
++	struct mlme_ext_priv *pmlmeext = NULL;
++	struct mlme_ext_info *pmlmeinfo = NULL;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	_adapter *iface = NULL;
++
++	RTW_INFO(FUNC_ADPT_FMT": stop=%d\n", FUNC_ADPT_ARG(padapter), stop);
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = pmccobjpriv->iface[i];
++		if (iface == NULL)
++			continue;
++
++		if (stop) {
++			if (iface != padapter)
++				continue;
++		}
++
++
++		order = iface->mcc_adapterpriv.order;
++		if (!stop)
++			totalnum = dvobj->iface_nums;
++		else
++			totalnum = 0xff; /* 0xff means stop */
++
++		pmlmeext = &iface->mlmeextpriv;
++		chidx = pmlmeext->cur_channel;
++		bw = pmlmeext->cur_bwmode;
++		bw40sc = pmlmeext->cur_ch_offset;
++
++		/* decide 80 band width offset */
++		if (bw == CHANNEL_WIDTH_80) {
++			u8 center_ch = rtw_get_center_ch(chidx, bw, bw40sc);
++
++			if (center_ch > chidx)
++				bw80sc = HAL_PRIME_CHNL_OFFSET_LOWER;
++			else if (center_ch < chidx)
++				bw80sc = HAL_PRIME_CHNL_OFFSET_UPPER;
++			else
++				bw80sc = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		} else
++			bw80sc = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++		duration = iface->mcc_adapterpriv.mcc_duration;
++		role = iface->mcc_adapterpriv.role;
++
++		incurch = _FALSE;
++
++		if (IS_HARDWARE_TYPE_8812(padapter))
++			rfetype = pHalData->RFEType; /* RFETYPE (only for 8812)*/
++		else
++			rfetype = 0;
++
++		/* STA/GC TX NULL data to inform AP/GC for ps mode */
++		switch (role) {
++		case MCC_ROLE_GO:
++		case MCC_ROLE_AP:
++			distxnull = MCC_DISABLE_TX_NULL;
++			break;
++		case MCC_ROLE_GC:
++		case MCC_ROLE_STA:
++			distxnull = MCC_ENABLE_TX_NULL;
++			break;
++		}
++
++		c2hrpt = MCC_C2H_REPORT_ALL_STATUS;
++		chscan = MCC_CHIDX;
++
++		SET_H2CCMD_MCC_INFO_ORDER(cmd, order);
++		SET_H2CCMD_MCC_INFO_TOTALNUM(cmd, totalnum);
++		SET_H2CCMD_MCC_INFO_CHIDX(cmd, chidx);
++		SET_H2CCMD_MCC_INFO_BW(cmd, bw);
++		SET_H2CCMD_MCC_INFO_BW40SC(cmd, bw40sc);
++		SET_H2CCMD_MCC_INFO_BW80SC(cmd, bw80sc);
++		SET_H2CCMD_MCC_INFO_DURATION(cmd, duration);
++		SET_H2CCMD_MCC_INFO_ROLE(cmd, role);
++		SET_H2CCMD_MCC_INFO_INCURCH(cmd, incurch);
++		SET_H2CCMD_MCC_INFO_RFETYPE(cmd, rfetype);
++		SET_H2CCMD_MCC_INFO_DISTXNULL(cmd, distxnull);
++		SET_H2CCMD_MCC_INFO_C2HRPT(cmd, c2hrpt);
++		SET_H2CCMD_MCC_INFO_CHSCAN(cmd, chscan);
++
++#ifdef CONFIG_MCC_MODE_DEBUG
++		RTW_INFO("=========================\n");
++		RTW_INFO(FUNC_ADPT_FMT" MCC INFO:\n", FUNC_ADPT_ARG(iface));
++		RTW_INFO("cmd[0]:0x%02x\n", cmd[0]);
++		RTW_INFO("cmd[1]:0x%02x\n", cmd[1]);
++		RTW_INFO("cmd[2]:0x%02x\n", cmd[2]);
++		RTW_INFO("cmd[3]:0x%02x\n", cmd[3]);
++		RTW_INFO("cmd[4]:0x%02x\n", cmd[4]);
++		RTW_INFO("cmd[5]:0x%02x\n", cmd[5]);
++		RTW_INFO("cmd[6]:0x%02x\n", cmd[6]);
++		RTW_INFO("=========================\n");
++#endif /* CONFIG_MCC_MODE_DEBUG */
++
++		rtw_hal_fill_h2c_cmd(padapter, H2C_MCC_INFO, H2C_MCC_INFO_LEN, cmd);
++	}
++}
++
++static u8 rtw_hal_set_mcc_start_setting(PADAPTER padapter, u8 status)
++{
++	u8 ret = _SUCCESS;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv *pwrpriv = dvobj_to_pwrctl(dvobj);
++
++	if (pwrpriv->pwr_mode != PS_MODE_ACTIVE) {
++		rtw_warn_on(1);
++		RTW_INFO("PS mode is not active before start mcc, force exit ps mode\n");
++		LeaveAllPowerSaveModeDirect(padapter);
++	}
++
++	if (dvobj->iface_nums > MAX_MCC_NUM) {
++		RTW_INFO("%s: current iface num(%d) > MAX_MCC_NUM(%d)\n", __func__, dvobj->iface_nums, MAX_MCC_NUM);
++		ret = _FAIL;
++		goto exit;
++	}
++
++	if (rtw_hal_decide_mcc_role(padapter) == _FAIL) {
++		ret = _FAIL;
++		goto exit;
++	}
++
++	/* set mcc status to indicate process mcc start setting */
++	rtw_hal_set_mcc_status(padapter, MCC_STATUS_PROCESS_MCC_START_SETTING);
++
++	/* only download rsvd page for connect */
++	if (status == MCC_SETCMD_STATUS_START_CONNECT) {
++		/* download mcc rsvd page */
++		rtw_hal_set_fw_mcc_rsvd_page(padapter);
++		rtw_hal_set_mcc_rsvdpage_cmd(padapter);
++	}
++
++	/* configure NoA setting */
++	rtw_hal_set_mcc_noa_cmd(padapter);
++
++	/* IQK value offload */
++	rtw_hal_set_mcc_IQK_offload_cmd(padapter);
++
++	/* set mac id to fw */
++	rtw_hal_set_mcc_macid_cmd(padapter);
++
++	/* set mcc parameter */
++	rtw_hal_set_mcc_parameter_cmd(padapter, _FALSE);
++
++exit:
++	return ret;
++}
++
++static void rtw_hal_set_mcc_stop_setting(PADAPTER padapter, u8 status)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	_adapter *iface = NULL;
++	u8 i = 0;
++	/*
++	 * when adapter disconnect, stop mcc mod
++	 * total=0xf means stop mcc mode
++	 */
++
++	switch (status) {
++	default:
++		/* let fw switch to other interface channel */
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if (iface == NULL)
++				continue;
++			/* use other interface to set cmd */
++			if (iface != padapter) {
++				rtw_hal_set_mcc_parameter_cmd(iface, _TRUE);
++				break;
++			}
++		}
++		break;
++	}
++}
++
++static void rtw_hal_mcc_status_hdl(PADAPTER padapter, u8 status)
++{
++	switch (status) {
++	case MCC_SETCMD_STATUS_STOP_DISCONNECT:
++		rtw_hal_clear_mcc_status(padapter, MCC_STATUS_NEED_MCC | MCC_STATUS_DOING_MCC);
++		break;
++	case MCC_SETCMD_STATUS_STOP_SCAN_START:
++		rtw_hal_set_mcc_status(padapter, MCC_STATUS_NEED_MCC);
++		rtw_hal_clear_mcc_status(padapter, MCC_STATUS_DOING_MCC);
++		break;
++
++	case MCC_SETCMD_STATUS_START_CONNECT:
++	case MCC_SETCMD_STATUS_START_SCAN_DONE:
++		rtw_hal_set_mcc_status(padapter, MCC_STATUS_NEED_MCC | MCC_STATUS_DOING_MCC);
++		break;
++	default:
++		RTW_INFO(FUNC_ADPT_FMT" error status(%d)\n", FUNC_ADPT_ARG(padapter), status);
++		break;
++	}
++}
++
++static void rtw_hal_mcc_stop_posthdl(PADAPTER padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	_adapter *iface = NULL;
++	u8 i = 0;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface == NULL)
++			continue;
++		/* release network queue */
++		rtw_netif_wake_queue(iface->pnetdev);
++		iface->mcc_adapterpriv.mcc_tx_bytes_from_kernel = 0;
++		iface->mcc_adapterpriv.mcc_last_tx_bytes_from_kernel = 0;
++		iface->mcc_adapterpriv.mcc_tx_bytes_to_port = 0;
++	}
++}
++
++static void rtw_hal_mcc_start_posthdl(PADAPTER padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	_adapter *iface = NULL;
++	u8 i = 0;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (iface == NULL)
++			continue;
++		iface->mcc_adapterpriv.mcc_tx_bytes_from_kernel = 0;
++		iface->mcc_adapterpriv.mcc_last_tx_bytes_from_kernel = 0;
++		iface->mcc_adapterpriv.mcc_tx_bytes_to_port = 0;
++	}
++}
++
++/*
++ * rtw_hal_set_mcc_setting - set mcc setting
++ * @padapter: currnet padapter to stop/start MCC
++ * @stop: stop mcc or not
++ * @return val: 1 for SUCCESS, 0 for fail
++ */
++static u8 rtw_hal_set_mcc_setting(PADAPTER padapter, u8 status)
++{
++	u8 ret = _FAIL;
++	struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++	u8 stop = (status < MCC_SETCMD_STATUS_START_CONNECT) ? _TRUE : _FALSE;
++	u32 start_time = rtw_get_current_time();
++
++	RTW_INFO("===> "FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++	rtw_sctx_init(&pmccobjpriv->mcc_sctx, MCC_EXPIRE_TIME);
++	pmccobjpriv->mcc_c2h_status = MCC_RPT_MAX;
++
++	if (stop == _FALSE) {
++		pmccobjpriv->duration = MCC_DURATION;
++
++		/* handle mcc start */
++		if (rtw_hal_set_mcc_start_setting(padapter, status) == _FAIL)
++			goto exit;
++
++		/* wait for C2H */
++		if (!rtw_sctx_wait(&pmccobjpriv->mcc_sctx, __func__))
++			RTW_INFO(FUNC_ADPT_FMT": wait for mcc start C2H time out\n", FUNC_ADPT_ARG(padapter));
++		else
++			ret = _SUCCESS;
++
++		if (ret == _SUCCESS) {
++			RTW_INFO(FUNC_ADPT_FMT": mcc start sucecssfully\n", FUNC_ADPT_ARG(padapter));
++			rtw_hal_mcc_start_posthdl(padapter);
++		}
++	} else {
++
++		/* set mcc status to indicate process mcc start setting */
++		rtw_hal_set_mcc_status(padapter, MCC_STATUS_PROCESS_MCC_STOP_SETTING);
++
++		/* handle mcc stop */
++		rtw_hal_set_mcc_stop_setting(padapter, status);
++
++		/* wait for C2H */
++		if (!rtw_sctx_wait(&pmccobjpriv->mcc_sctx, __func__))
++			RTW_INFO(FUNC_ADPT_FMT": wait for mcc stop C2H time out\n", FUNC_ADPT_ARG(padapter));
++		else {
++			ret = _SUCCESS;
++			rtw_hal_mcc_stop_posthdl(padapter);
++		}
++	}
++
++exit:
++
++	rtw_hal_mcc_status_hdl(padapter, status);
++	/* clear mcc status */
++	rtw_hal_clear_mcc_status(padapter
++		, MCC_STATUS_PROCESS_MCC_START_SETTING | MCC_STATUS_PROCESS_MCC_STOP_SETTING);
++
++	RTW_INFO(FUNC_ADPT_FMT" in %dms <===\n"
++		, FUNC_ADPT_ARG(padapter), rtw_get_passing_time_ms(start_time));
++	return ret;
++}
++
++/**
++ * rtw_hal_mcc_check_case_not_limit_traffic - handler flow ctrl for special case
++ * @cur_iface: fw stay channel setting of this iface
++ * @next_iface: fw will swich channel setting of this iface
++ */
++static void rtw_hal_mcc_check_case_not_limit_traffic(PADAPTER cur_iface, PADAPTER next_iface)
++{
++	u8 cur_bw = cur_iface->mlmeextpriv.cur_bwmode;
++	u8 next_bw = next_iface->mlmeextpriv.cur_bwmode;
++
++	/* for both interface are VHT80, doesn't limit_traffic according to iperf results */
++	if (cur_bw == CHANNEL_WIDTH_80 && next_bw == CHANNEL_WIDTH_80) {
++		cur_iface->mcc_adapterpriv.mcc_tp_limit = _FALSE;
++		next_iface->mcc_adapterpriv.mcc_tp_limit = _FALSE;
++	}
++}
++
++
++/**
++ * rtw_hal_mcc_sw_ch_fw_notify_hdl - handler flow ctrl
++ */
++static void rtw_hal_mcc_sw_ch_fw_notify_hdl(PADAPTER padapter)
++{
++	struct dvobj_priv *pdvobjpriv = adapter_to_dvobj(padapter);
++	struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++	struct mcc_adapter_priv *cur_mccadapriv = NULL, *next_mccadapriv = NULL;
++	_adapter *iface = NULL, *cur_iface = NULL, *next_iface = NULL;
++	struct registry_priv *preg = &padapter->registrypriv;
++	u8 cur_op_ch = pdvobjpriv->oper_channel;
++	u8 i = 0, iface_num = pdvobjpriv->iface_nums, cur_order = 0, next_order = 0;
++	static u8 cnt = 1;
++	u32 single_tx_cri = preg->rtw_mcc_single_tx_cri;
++
++	for (i = 0; i < iface_num; i++) {
++		iface = pdvobjpriv->padapters[i];
++		if (cur_op_ch == iface->mlmeextpriv.cur_channel) {
++			cur_iface = iface;
++			cur_mccadapriv = &cur_iface->mcc_adapterpriv;
++			cur_order = cur_mccadapriv->order;
++			next_order = (cur_order + 1) % iface_num;
++			next_iface = pmccobjpriv->iface[next_order];
++			next_mccadapriv = &next_iface->mcc_adapterpriv;
++			break;
++		}
++	}
++
++	/* check other interface tx busy traffic or not under every 2 switch channel notify(Mbits/100ms) */
++	if (cnt == 2) {
++		cur_mccadapriv->mcc_tp = (cur_mccadapriv->mcc_tx_bytes_from_kernel
++			- cur_mccadapriv->mcc_last_tx_bytes_from_kernel) * 10 * 8 / 1024 / 1024;
++		cur_mccadapriv->mcc_last_tx_bytes_from_kernel = cur_mccadapriv->mcc_tx_bytes_from_kernel;
++
++		next_mccadapriv->mcc_tp = (next_mccadapriv->mcc_tx_bytes_from_kernel
++			- next_mccadapriv->mcc_last_tx_bytes_from_kernel) * 10 * 8 / 1024 / 1024;
++		next_mccadapriv->mcc_last_tx_bytes_from_kernel = next_mccadapriv->mcc_tx_bytes_from_kernel;
++
++		cnt = 1;
++	} else
++		cnt = 2;
++
++	/* check single TX or cuncurrnet TX */
++	if (next_mccadapriv->mcc_tp < single_tx_cri) {
++		/* single TX, does not stop */
++		cur_mccadapriv->mcc_tx_stop = _FALSE;
++		cur_mccadapriv->mcc_tp_limit = _FALSE;
++	} else {
++		/* concurrent TX, stop */
++		cur_mccadapriv->mcc_tx_stop = _TRUE;
++		cur_mccadapriv->mcc_tp_limit = _TRUE;
++	}
++
++	if (cur_mccadapriv->mcc_tp < single_tx_cri) {
++		next_mccadapriv->mcc_tx_stop  = _FALSE;
++		next_mccadapriv->mcc_tp_limit = _FALSE;
++	} else {
++		next_mccadapriv->mcc_tx_stop = _FALSE;
++		next_mccadapriv->mcc_tp_limit = _TRUE;
++		next_mccadapriv->mcc_tx_bytes_to_port = 0;
++	}
++
++	/* stop current iface kernel queue or not */
++	if (cur_mccadapriv->mcc_tx_stop)
++		rtw_netif_stop_queue(cur_iface->pnetdev);
++	else
++		rtw_netif_wake_queue(cur_iface->pnetdev);
++
++	/* stop next iface kernel queue or not */
++	if (next_mccadapriv->mcc_tx_stop)
++		rtw_netif_stop_queue(next_iface->pnetdev);
++	else
++		rtw_netif_wake_queue(next_iface->pnetdev);
++
++	/* start xmit tasklet */
++	rtw_os_xmit_schedule(next_iface);
++
++	rtw_hal_mcc_check_case_not_limit_traffic(cur_iface, next_iface);
++
++	if (0) {
++		RTW_INFO("order:%d, mcc_tx_stop:%d, mcc_tp:%d\n",
++			cur_mccadapriv->order, cur_mccadapriv->mcc_tx_stop, cur_mccadapriv->mcc_tp);
++		dump_os_queue(0, cur_iface);
++		RTW_INFO("order:%d, mcc_tx_stop:%d, mcc_tp:%d\n",
++			next_mccadapriv->order, next_mccadapriv->mcc_tx_stop, next_mccadapriv->mcc_tp);
++		dump_os_queue(0, next_iface);
++	}
++}
++
++/**
++ * rtw_hal_mcc_c2h_handler - mcc c2h handler
++ */
++void rtw_hal_mcc_c2h_handler(PADAPTER padapter, u8 buflen, u8 *tmpBuf)
++{
++	struct dvobj_priv *pdvobjpriv = adapter_to_dvobj(padapter);
++	struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++	struct mcc_adapter_priv *pmccadapriv = &padapter->mcc_adapterpriv;
++	struct submit_ctx *mcc_sctx = &pmccobjpriv->mcc_sctx;
++	_irqL irqL;
++
++	/* RTW_INFO("[length]=%d, [C2H data]="MAC_FMT"\n", buflen, MAC_ARG(tmpBuf)); */
++	/* To avoid reg is set, but driver recive c2h to set wrong oper_channel */
++	if (MCC_RPT_STOPMCC == pmccobjpriv->mcc_c2h_status) {
++		RTW_INFO(FUNC_ADPT_FMT" MCC alread stops return\n", FUNC_ADPT_ARG(padapter));
++		return;
++	}
++
++	pmccobjpriv->mcc_c2h_status = tmpBuf[0];
++	switch (pmccobjpriv->mcc_c2h_status) {
++	case MCC_RPT_SUCCESS:
++		pdvobjpriv->oper_channel = tmpBuf[1];
++		_enter_critical_bh(&pmccobjpriv->mcc_lock, &irqL);
++		pmccobjpriv->cur_mcc_success_cnt++;
++		_exit_critical_bh(&pmccobjpriv->mcc_lock, &irqL);
++		break;
++	case MCC_RPT_TXNULL_FAIL:
++		RTW_INFO("[MCC] TXNULL FAIL\n");
++		break;
++	case MCC_RPT_STOPMCC:
++		RTW_INFO("[MCC] MCC stop (time:%d)\n", rtw_get_current_time());
++		pmccobjpriv->mcc_c2h_status = MCC_RPT_STOPMCC;
++		rtw_sctx_done(&mcc_sctx);
++		break;
++	case MCC_RPT_READY:
++		_enter_critical_bh(&pmccobjpriv->mcc_lock, &irqL);
++		/* initialize counter & time */
++		pmccobjpriv->mcc_launch_time = rtw_get_current_time();
++		pmccobjpriv->mcc_c2h_status = MCC_RPT_READY;
++		pmccobjpriv->cur_mcc_success_cnt = 0;
++		pmccobjpriv->prev_mcc_success_cnt = 0;
++		pmccobjpriv->mcc_tolerance_time = MCC_TOLERANCE_TIME;
++		_exit_critical_bh(&pmccobjpriv->mcc_lock, &irqL);
++
++		RTW_INFO("[MCC] MCC ready (time:%d)\n", pmccobjpriv->mcc_launch_time);
++		rtw_sctx_done(&mcc_sctx);
++		break;
++	case MCC_RPT_SWICH_CHANNEL_NOTIFY:
++		pdvobjpriv->oper_channel = tmpBuf[1];
++		rtw_hal_mcc_sw_ch_fw_notify_hdl(padapter);
++		break;
++	default:
++		/* RTW_INFO("[MCC] Other MCC status(%d)\n", pmccobjpriv->mcc_c2h_status); */
++		break;
++	}
++}
++
++
++/**
++ * rtw_hal_mcc_sw_status_check - check mcc swich channel status
++ * @padapter: primary adapter
++ */
++void rtw_hal_mcc_sw_status_check(PADAPTER padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct mcc_obj_priv *pmccobjpriv = &(dvobj->mcc_objpriv);
++	struct pwrctrl_priv	*pwrpriv = dvobj_to_pwrctl(dvobj);
++	u8 cur_cnt = 0, prev_cnt = 0, diff_cnt = 0, check_ret = _FAIL;
++	_irqL irqL;
++
++	/* #define MCC_RESTART 1 */
++
++	if (!MCC_EN(padapter))
++		return;
++
++	_enter_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++
++	if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)) {
++
++		if (pwrpriv->pwr_mode != PS_MODE_ACTIVE) {
++			rtw_warn_on(1);
++			RTW_INFO("PS mode is not active under mcc, force exit ps mode\n");
++			LeaveAllPowerSaveModeDirect(padapter);
++		}
++
++		if (rtw_get_passing_time_ms(pmccobjpriv->mcc_launch_time) > 2000) {
++			_enter_critical_bh(&pmccobjpriv->mcc_lock, &irqL);
++
++			cur_cnt = pmccobjpriv->cur_mcc_success_cnt;
++			prev_cnt = pmccobjpriv->prev_mcc_success_cnt;
++			if (cur_cnt < prev_cnt)
++				diff_cnt = (cur_cnt + 255) - prev_cnt;
++			else
++				diff_cnt = cur_cnt - prev_cnt;
++
++			if (diff_cnt < 30) {
++				pmccobjpriv->mcc_tolerance_time--;
++				RTW_INFO("%s: diff_cnt:%d, tolerance_time:%d\n",
++					__func__, diff_cnt, pmccobjpriv->mcc_tolerance_time);
++			} else
++				pmccobjpriv->mcc_tolerance_time = MCC_TOLERANCE_TIME;
++
++			pmccobjpriv->prev_mcc_success_cnt = pmccobjpriv->cur_mcc_success_cnt;
++
++			if (pmccobjpriv->mcc_tolerance_time != 0)
++				check_ret = _SUCCESS;
++
++			_exit_critical_bh(&pmccobjpriv->mcc_lock, &irqL);
++
++			if (check_ret != _SUCCESS) {
++				RTW_INFO("============ MCC swich channel check fail (%d)=============\n", diff_cnt);
++				/* restart MCC */
++#ifdef MCC_RESTART
++				rtw_hal_set_mcc_setting(padapter, MCC_SETCMD_STATUS_STOP_DISCONNECT);
++				rtw_hal_set_mcc_setting(padapter, MCC_SETCMD_STATUS_START_CONNECT);
++#endif /* MCC_RESTART */
++			}
++		} else {
++			_enter_critical_bh(&pmccobjpriv->mcc_lock, &irqL);
++			pmccobjpriv->prev_mcc_success_cnt = pmccobjpriv->cur_mcc_success_cnt;
++			_exit_critical_bh(&pmccobjpriv->mcc_lock, &irqL);
++		}
++
++	}
++	_exit_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++}
++
++/**
++ * rtw_hal_mcc_change_scan_flag - change scan flag under mcc
++ *
++ * MCC mode under sitesurvey goto AP channel to tx bcn & data
++ * MCC mode under sitesurvey doesn't support TX data for station mode (FW not support)
++ *
++ * @padapter: the adapter to be change scan flag
++ * @ch: pointer to rerurn ch
++ * @bw: pointer to rerurn bw
++ * @offset: pointer to rerurn offset
++ */
++u8 rtw_hal_mcc_change_scan_flag(PADAPTER padapter, u8 *ch, u8 *bw, u8 *offset)
++{
++	u8 need_ch_setting_union = _TRUE, i = 0, flags = 0, role = 0;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct mcc_adapter_priv *pmccadapriv = NULL;
++	struct mlme_ext_priv *pmlmeext = NULL;
++
++	if (!MCC_EN(padapter))
++		goto exit;
++
++	if (!rtw_hal_check_mcc_status(padapter, MCC_STATUS_NEED_MCC))
++		goto exit;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		if (!dvobj->padapters[i])
++			continue;
++
++		pmlmeext = &dvobj->padapters[i]->mlmeextpriv;
++		pmccadapriv = &dvobj->padapters[i]->mcc_adapterpriv;
++		role = pmccadapriv->role;
++
++		switch (role) {
++		case MCC_ROLE_AP:
++		case MCC_ROLE_GO:
++			*ch = pmlmeext->cur_channel;
++			*bw = pmlmeext->cur_bwmode;
++			*offset = pmlmeext->cur_ch_offset;
++			need_ch_setting_union = _FALSE;
++			break;
++		case MCC_ROLE_STA:
++		case MCC_ROLE_GC:
++			break;
++		default:
++			RTW_INFO("unknown role\n");
++			rtw_warn_on(1);
++			break;
++		}
++
++		/* check other scan flag */
++		flags = mlmeext_scan_backop_flags(pmlmeext);
++		if (mlmeext_chk_scan_backop_flags(pmlmeext, SS_BACKOP_PS_ANNC))
++			flags &= ~SS_BACKOP_PS_ANNC;
++
++		if (mlmeext_chk_scan_backop_flags(pmlmeext, SS_BACKOP_TX_RESUME))
++			flags &= ~SS_BACKOP_TX_RESUME;
++
++		mlmeext_assign_scan_backop_flags(pmlmeext, flags);
++
++	}
++exit:
++	return need_ch_setting_union;
++}
++
++/**
++ * rtw_hal_mcc_calc_tx_bytes_from_kernel - calculte tx bytes from kernel to check concurrent tx or not
++ * @padapter: the adapter to be record tx bytes
++ * @len: data len
++ */
++inline void rtw_hal_mcc_calc_tx_bytes_from_kernel(PADAPTER padapter, u32 len)
++{
++	struct mcc_adapter_priv *pmccadapriv = &padapter->mcc_adapterpriv;
++
++	if (MCC_EN(padapter)) {
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)) {
++			pmccadapriv->mcc_tx_bytes_from_kernel += len;
++			if (0)
++				RTW_INFO("%s(order:%d): mcc tx bytes from kernel:%lld\n"
++					, __func__, pmccadapriv->order, pmccadapriv->mcc_tx_bytes_from_kernel);
++		}
++	}
++}
++
++/**
++ * rtw_hal_mcc_calc_tx_bytes_to_port - calculte tx bytes to write port in order to flow crtl
++ * @padapter: the adapter to be record tx bytes
++ * @len: data len
++ */
++inline void rtw_hal_mcc_calc_tx_bytes_to_port(PADAPTER padapter, u32 len)
++{
++	if (MCC_EN(padapter)) {
++		struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++		struct mcc_adapter_priv *pmccadapriv = &padapter->mcc_adapterpriv;
++
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC))
++			pmccadapriv->mcc_tx_bytes_to_port += len;
++		if (0)
++			RTW_INFO("%s(order:%d): mcc tx bytes to port:%d, mcc target tx bytes to port:%d\n"
++				, __func__, pmccadapriv->order, pmccadapriv->mcc_tx_bytes_to_port
++				 , pmccadapriv->mcc_target_tx_bytes_to_port);
++	}
++}
++
++/**
++ * rtw_hal_mcc_stop_tx_bytes_to_port - stop write port to hw or not
++ * @padapter: the adapter to be stopped
++ */
++inline u8 rtw_hal_mcc_stop_tx_bytes_to_port(PADAPTER padapter)
++{
++	if (MCC_EN(padapter)) {
++		struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++		struct mcc_adapter_priv *pmccadapriv = &padapter->mcc_adapterpriv;
++
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)) {
++			if (pmccadapriv->mcc_tp_limit) {
++				if (pmccadapriv->mcc_tx_bytes_to_port >= pmccadapriv->mcc_target_tx_bytes_to_port) {
++					pmccadapriv->mcc_tx_stop = _TRUE;
++					rtw_netif_stop_queue(padapter->pnetdev);
++					return _TRUE;
++				}
++			}
++		}
++	}
++
++	return _FALSE;
++}
++
++/**
++ * rtw_hal_set_mcc_setting_scan_start - setting mcc under scan start
++ * @padapter: the adapter to be setted
++ * @ch_setting_changed: softap channel setting to be changed or not
++ */
++u8 rtw_hal_set_mcc_setting_scan_start(PADAPTER padapter)
++{
++	u8 ret = _FAIL;
++
++	if (MCC_EN(padapter)) {
++		struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++
++		_enter_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_NEED_MCC)) {
++			if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)) {
++				ret = rtw_hal_set_mcc_setting(padapter,  MCC_SETCMD_STATUS_STOP_SCAN_START);
++				/* issue null data to all station connected to AP before scan */
++				rtw_hal_mcc_issue_null_data(padapter, 0, 1);
++			}
++		}
++		_exit_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++	}
++
++	return ret;
++}
++
++/**
++ * rtw_hal_set_mcc_setting_scan_complete - setting mcc after scan commplete
++ * @padapter: the adapter to be setted
++ * @ch_setting_changed: softap channel setting to be changed or not
++ */
++u8 rtw_hal_set_mcc_setting_scan_complete(PADAPTER padapter)
++{
++	u8 ret = _FAIL;
++
++	if (MCC_EN(padapter)) {
++		struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++
++		_enter_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_NEED_MCC))
++			ret = rtw_hal_set_mcc_setting(padapter,  MCC_SETCMD_STATUS_START_SCAN_DONE);
++
++		_exit_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++	}
++
++	return ret;
++}
++
++
++/**
++ * rtw_hal_set_mcc_setting_start_bss_network - setting mcc under softap start
++ * @padapter: the adapter to be setted
++ * @chbw_grouped: channel bw offset can not be allowed or not
++ */
++u8 rtw_hal_set_mcc_setting_start_bss_network(PADAPTER padapter, u8 chbw_allow)
++{
++	u8 ret = _FAIL;
++
++	if (MCC_EN(padapter)) {
++		/* channel bw offset can not be allowed, start MCC */
++		if (chbw_allow == _FALSE) {
++			struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++
++			rtw_hal_mcc_backup_IQK_val(padapter);
++			_enter_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++			ret = rtw_hal_set_mcc_setting(padapter, MCC_SETCMD_STATUS_START_CONNECT);
++			_exit_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++		}
++	}
++
++	return ret;
++}
++
++/**
++ * rtw_hal_set_mcc_setting_disconnect - setting mcc under mlme disconnect(stop softap/disconnect from AP)
++ * @padapter: the adapter to be setted
++ */
++u8 rtw_hal_set_mcc_setting_disconnect(PADAPTER padapter)
++{
++	u8 ret = _FAIL;
++
++	if (MCC_EN(padapter)) {
++		struct mcc_obj_priv *pmccobjpriv = &(adapter_to_dvobj(padapter)->mcc_objpriv);
++
++		_enter_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_NEED_MCC)) {
++			if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC))
++				ret = rtw_hal_set_mcc_setting(padapter,  MCC_SETCMD_STATUS_STOP_DISCONNECT);
++		}
++		_exit_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++	}
++
++	return ret;
++}
++
++/**
++ * rtw_hal_set_mcc_setting_join_done_chk_ch - setting mcc under join done
++ * @padapter: the adapter to be checked
++ */
++u8 rtw_hal_set_mcc_setting_join_done_chk_ch(PADAPTER padapter)
++{
++	u8 ret = _FAIL;
++
++	if (MCC_EN(padapter)) {
++		u8 sta_num = 0, ld_sta_num = 0, lg_sta_num = 0, ap_num = 0, ld_ap_num = 0;
++
++		rtw_mi_status_no_self(padapter, &sta_num, &ld_sta_num, &lg_sta_num, &ap_num, &ld_ap_num, NULL);
++
++		if (ld_sta_num || lg_sta_num || ap_num) {
++			bool chbw_allow = _TRUE;
++			u8 u_ch, u_offset, u_bw;
++			struct mlme_ext_priv *cur_mlmeext = &padapter->mlmeextpriv;
++			struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++			if (rtw_mi_get_ch_setting_union_no_self(padapter, &u_ch, &u_bw, &u_offset) <= 0) {
++				dump_adapters_status(RTW_DBGDUMP , dvobj);
++				rtw_warn_on(1);
++			}
++			RTW_INFO(FUNC_ADPT_FMT" union no self: %u,%u,%u\n"
++				, FUNC_ADPT_ARG(padapter), u_ch, u_bw, u_offset);
++
++			/* chbw_allow? */
++			chbw_allow = rtw_is_chbw_grouped(cur_mlmeext->cur_channel
++				, cur_mlmeext->cur_bwmode, cur_mlmeext->cur_ch_offset
++						 , u_ch, u_bw, u_offset);
++
++			RTW_INFO(FUNC_ADPT_FMT" chbw_allow:%d\n"
++				 , FUNC_ADPT_ARG(padapter), chbw_allow);
++
++			/* if chbw_allow = false, start MCC setting */
++			if (chbw_allow == _FALSE) {
++				struct mcc_obj_priv *pmccobjpriv = &dvobj->mcc_objpriv;
++
++				rtw_hal_mcc_backup_IQK_val(padapter);
++				_enter_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++				ret = rtw_hal_set_mcc_setting(padapter, MCC_SETCMD_STATUS_START_CONNECT);
++				_exit_critical_mutex(&pmccobjpriv->mcc_mutex, NULL);
++			}
++		}
++	}
++
++	return ret;
++}
++
++/**
++ * rtw_hal_set_mcc_setting_chk_start_clnt_join - check change channel under start clnt join
++ * @padapter: the adapter to be checked
++ * @ch: pointer to rerurn ch
++ * @bw: pointer to rerurn bw
++ * @offset: pointer to rerurn offset
++ * @chbw_allow: allow to use adapter's channel setting
++ */
++u8 rtw_hal_set_mcc_setting_chk_start_clnt_join(PADAPTER padapter, u8 *ch, u8 *bw, u8 *offset, u8 chbw_allow)
++{
++	u8 ret = _FAIL;
++
++	/* if chbw_allow = false under en_mcc = TRUE, we do not change channel related setting */
++	if (MCC_EN(padapter)) {
++		/* restore union channel related setting to current channel related setting */
++		if (chbw_allow == _FALSE) {
++			struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++			*ch = pmlmeext->cur_channel;
++			*bw = pmlmeext->cur_bwmode;
++			*offset = pmlmeext->cur_ch_offset;
++
++			RTW_INFO(FUNC_ADPT_FMT" en_mcc:%d(%d,%d,%d,)\n"
++				, FUNC_ADPT_ARG(padapter), padapter->registrypriv.en_mcc
++				 , *ch, *bw, *offset);
++			ret = _SUCCESS;
++		}
++	}
++
++	return ret;
++}
++
++void rtw_hal_dump_mcc_info(void *sel, struct dvobj_priv *dvobj)
++{
++	struct mcc_obj_priv *pmccobjpriv = &(dvobj->mcc_objpriv);
++	struct mcc_adapter_priv *pmccadapriv = NULL;
++	_adapter *iface = NULL;
++	struct registry_priv *regpriv = NULL;
++	u8 i = 0;
++
++	/* regpriv is common for all adapter */
++	RTW_PRINT_SEL(sel, "**********************************************\n");
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (!iface)
++			continue;
++
++		regpriv = &iface->registrypriv;
++		pmccadapriv = &iface->mcc_adapterpriv;
++		if (pmccadapriv) {
++			RTW_PRINT_SEL(sel, "adapter mcc info:\n");
++			RTW_PRINT_SEL(sel, "ifname:%s\n", ADPT_ARG(iface));
++			RTW_PRINT_SEL(sel, "order:%d\n", pmccadapriv->order);
++			RTW_PRINT_SEL(sel, "duration:%d\n", pmccadapriv->mcc_duration);
++			RTW_PRINT_SEL(sel, "target tx bytes:%d\n", pmccadapriv->mcc_target_tx_bytes_to_port);
++			RTW_PRINT_SEL(sel, "current TP:%d\n", pmccadapriv->mcc_tp);
++			RTW_PRINT_SEL(sel, "mgmt queue macid:%d\n", pmccadapriv->mgmt_queue_macid);
++			RTW_PRINT_SEL(sel, "macid bitmap:0x%02x\n\n", pmccadapriv->mcc_macid_bitmap);
++			RTW_PRINT_SEL(sel, "registry data:\n");
++			RTW_PRINT_SEL(sel, "en_mcc:%d\n", regpriv->en_mcc);
++			RTW_PRINT_SEL(sel, "ap target tx TP(BW:20M):%d Mbps\n", regpriv->rtw_mcc_ap_bw20_target_tx_tp);
++			RTW_PRINT_SEL(sel, "ap target tx TP(BW:40M):%d Mbps\n", regpriv->rtw_mcc_ap_bw40_target_tx_tp);
++			RTW_PRINT_SEL(sel, "ap target tx TP(BW:80M):%d Mbps\n", regpriv->rtw_mcc_ap_bw80_target_tx_tp);
++			RTW_PRINT_SEL(sel, "sta target tx TP(BW:20M):%d Mbps\n", regpriv->rtw_mcc_sta_bw20_target_tx_tp);
++			RTW_PRINT_SEL(sel, "sta target tx TP(BW:40M ):%d Mbps\n", regpriv->rtw_mcc_sta_bw40_target_tx_tp);
++			RTW_PRINT_SEL(sel, "sta target tx TP(BW:80M):%d Mbps\n", regpriv->rtw_mcc_sta_bw80_target_tx_tp);
++			RTW_PRINT_SEL(sel, "single tx criteria:%d Mbps\n", regpriv->rtw_mcc_single_tx_cri);
++			RTW_PRINT_SEL(sel, "**********************************************\n");
++		}
++	}
++	RTW_PRINT_SEL(sel, "------------------------------------------\n");
++	RTW_PRINT_SEL(sel, "define data:\n");
++	RTW_PRINT_SEL(sel, "ap target tx TP(BW:20M):%d Mbps\n", MCC_AP_BW20_TARGET_TX_TP);
++	RTW_PRINT_SEL(sel, "ap target tx TP(BW:40M):%d Mbps\n", MCC_AP_BW40_TARGET_TX_TP);
++	RTW_PRINT_SEL(sel, "ap target tx TP(BW:80M):%d Mbps\n", MCC_AP_BW80_TARGET_TX_TP);
++	RTW_PRINT_SEL(sel, "sta target tx TP(BW:20M):%d Mbps\n", MCC_STA_BW20_TARGET_TX_TP);
++	RTW_PRINT_SEL(sel, "sta target tx TP(BW:40M):%d Mbps\n", MCC_STA_BW40_TARGET_TX_TP);
++	RTW_PRINT_SEL(sel, "sta target tx TP(BW:80M):%d Mbps\n", MCC_STA_BW80_TARGET_TX_TP);
++	RTW_PRINT_SEL(sel, "single tx criteria:%d Mbps\n", MCC_SINGLE_TX_CRITERIA);
++	RTW_PRINT_SEL(sel, "------------------------------------------\n");
++}
++
++inline void update_mcc_mgntframe_attrib(_adapter *padapter, struct pkt_attrib *pattrib)
++{
++	if (MCC_EN(padapter)) {
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)) {
++			/* use QSLT_MGNT to check mgnt queue or bcn queue */
++			if (pattrib->qsel == QSLT_MGNT) {
++				pattrib->mac_id = padapter->mcc_adapterpriv.mgmt_queue_macid;
++				pattrib->qsel = QSLT_VO;
++			}
++		}
++	}
++}
++
++inline u8 rtw_hal_mcc_link_status_chk(_adapter *padapter, const char *msg)
++{
++	u8 ret = _TRUE, i = 0;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	_adapter *iface;
++	struct mlme_ext_priv *mlmeext;
++
++	if (MCC_EN(padapter)) {
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_NEED_MCC)) {
++			for (i = 0; i < dvobj->iface_nums; i++) {
++				iface = dvobj->padapters[i];
++				mlmeext = &iface->mlmeextpriv;
++				if (mlmeext_scan_state(mlmeext) != SCAN_DISABLE) {
++#ifdef DBG_EXPIRATION_CHK
++					RTW_INFO(FUNC_ADPT_FMT" don't enter %s under scan for MCC mode\n", FUNC_ADPT_ARG(padapter), msg);
++#endif
++					ret = _FALSE;
++					goto exit;
++				}
++			}
++		}
++	}
++
++exit:
++	return ret;
++}
++
++void rtw_hal_mcc_issue_null_data(_adapter *padapter, u8 chbw_allow, u8 ps_mode)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	_adapter *iface = NULL;
++	u32 start = rtw_get_current_time();
++	u8 i = 0;
++
++	if (MCC_EN(padapter)) {
++		if (chbw_allow == _FALSE) {
++			for (i = 0; i < dvobj->iface_nums; i++) {
++				iface = dvobj->padapters[i];
++				/* issue null data to inform ap station will leave */
++				if (is_client_associated_to_ap(iface)) {
++					struct mlme_ext_priv *mlmeext = &iface->mlmeextpriv;
++					u8 ch = mlmeext->cur_channel;
++					u8 bw = mlmeext->cur_bwmode;
++					u8 offset = mlmeext->cur_ch_offset;
++
++					set_channel_bwmode(iface, ch, bw, offset);
++					issue_nulldata(iface, NULL, ps_mode, 3, 50);
++				}
++			}
++			RTW_INFO("%s(%d ms)\n", __func__, rtw_get_passing_time_ms(start));
++		}
++	}
++}
++
++#endif /* CONFIG_MCC_MODE */
+diff --git a/drivers/net/wireless/rtl8812au/hal/hal_mp.c b/drivers/net/wireless/rtl8812au/hal/hal_mp.c
+new file mode 100644
+index 0000000..bf6b4c2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/hal_mp.c
+@@ -0,0 +1,2380 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HAL_MP_C_
++
++#include <drv_types.h>
++
++#ifdef CONFIG_MP_INCLUDED
++
++#ifdef RTW_HALMAC
++	#include <hal_data.h>		/* struct HAL_DATA_TYPE, RF register definition and etc. */
++#else /* !RTW_HALMAC */
++	#ifdef CONFIG_RTL8188E
++		#include <rtl8188e_hal.h>
++	#endif
++	#ifdef CONFIG_RTL8723B
++		#include <rtl8723b_hal.h>
++	#endif
++	#ifdef CONFIG_RTL8192E
++		#include <rtl8192e_hal.h>
++	#endif
++	#ifdef CONFIG_RTL8814A
++		#include <rtl8814a_hal.h>
++	#endif
++	#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++		#include <rtl8812a_hal.h>
++	#endif
++	#ifdef CONFIG_RTL8703B
++		#include <rtl8703b_hal.h>
++	#endif
++	#ifdef CONFIG_RTL8723D
++		#include <rtl8723d_hal.h>
++	#endif
++	#ifdef CONFIG_RTL8188F
++		#include <rtl8188f_hal.h>
++	#endif
++#endif /* !RTW_HALMAC */
++
++
++u8 MgntQuery_NssTxRate(u16 Rate)
++{
++	u8	NssNum = RF_TX_NUM_NONIMPLEMENT;
++
++	if ((Rate >= MGN_MCS8 && Rate <= MGN_MCS15) ||
++	    (Rate >= MGN_VHT2SS_MCS0 && Rate <= MGN_VHT2SS_MCS9))
++		NssNum = RF_2TX;
++	else if ((Rate >= MGN_MCS16 && Rate <= MGN_MCS23) ||
++		 (Rate >= MGN_VHT3SS_MCS0 && Rate <= MGN_VHT3SS_MCS9))
++		NssNum = RF_3TX;
++	else if ((Rate >= MGN_MCS24 && Rate <= MGN_MCS31) ||
++		 (Rate >= MGN_VHT4SS_MCS0 && Rate <= MGN_VHT4SS_MCS9))
++		NssNum = RF_4TX;
++	else
++		NssNum = RF_1TX;
++
++	return NssNum;
++}
++
++void hal_mpt_SwitchRfSetting(PADAPTER	pAdapter)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT		pMptCtx = &(pAdapter->mppriv.MptCtx);
++	u8				ChannelToSw = pMptCtx->MptChannelToSw;
++	ULONG				ulRateIdx = pMptCtx->MptRateIndex;
++	ULONG				ulbandwidth = pMptCtx->MptBandWidth;
++
++	/* <20120525, Kordan> Dynamic mechanism for APK, asked by Dennis.*/
++	if (IS_HARDWARE_TYPE_8188ES(pAdapter) && (1 <= ChannelToSw && ChannelToSw <= 11) &&
++	    (ulRateIdx == MPT_RATE_MCS0 || ulRateIdx == MPT_RATE_1M || ulRateIdx == MPT_RATE_6M)) {
++		pMptCtx->backup0x52_RF_A = (u1Byte)PHY_QueryRFReg(pAdapter, ODM_RF_PATH_A, RF_0x52, 0x000F0);
++		pMptCtx->backup0x52_RF_B = (u1Byte)PHY_QueryRFReg(pAdapter, ODM_RF_PATH_B, RF_0x52, 0x000F0);
++
++		if ((PlatformEFIORead4Byte(pAdapter, 0xF4) & BIT29) == BIT29) {
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_0x52, 0x000F0, 0xB);
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_0x52, 0x000F0, 0xB);
++		} else {
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_0x52, 0x000F0, 0xD);
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_0x52, 0x000F0, 0xD);
++		}
++	} else if (IS_HARDWARE_TYPE_8188EE(pAdapter)) { /* <20140903, VincentL> Asked by RF Eason and Edlu*/
++		if (ChannelToSw == 3 && ulbandwidth == MPT_BW_40MHZ) {
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_0x52, 0x000F0, 0xB); /*RF 0x52 = 0x0007E4BD*/
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_0x52, 0x000F0, 0xB); /*RF 0x52 = 0x0007E4BD*/
++		} else {
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_0x52, 0x000F0, 0x9); /*RF 0x52 = 0x0007E49D*/
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_0x52, 0x000F0, 0x9); /*RF 0x52 = 0x0007E49D*/
++		}
++	} else if (IS_HARDWARE_TYPE_8188E(pAdapter)) {
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_0x52, 0x000F0, pMptCtx->backup0x52_RF_A);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_0x52, 0x000F0, pMptCtx->backup0x52_RF_B);
++	}
++}
++
++s32 hal_mpt_SetPowerTracking(PADAPTER padapter, u8 enable)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++
++
++	if (!netif_running(padapter->pnetdev)) {
++		return _FAIL;
++	}
++
++	if (check_fwstate(&padapter->mlmepriv, WIFI_MP_STATE) == _FALSE) {
++		return _FAIL;
++	}
++	if (enable)
++		pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = _TRUE;
++	else
++		pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = _FALSE;
++
++	return _SUCCESS;
++}
++
++void hal_mpt_GetPowerTracking(PADAPTER padapter, u8 *enable)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++
++
++	*enable = pDM_Odm->RFCalibrateInfo.TxPowerTrackControl;
++}
++
++
++void hal_mpt_CCKTxPowerAdjust(PADAPTER Adapter, BOOLEAN bInCH14)
++{
++	u32		TempVal = 0, TempVal2 = 0, TempVal3 = 0;
++	u32		CurrCCKSwingVal = 0, CCKSwingIndex = 12;
++	u8		i;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PMPT_CONTEXT		pMptCtx = &(Adapter->mppriv.MptCtx);
++	u1Byte				u1Channel = pHalData->CurrentChannel;
++	ULONG				ulRateIdx = pMptCtx->MptRateIndex;
++	u1Byte				DataRate = 0xFF;
++
++	/* Do not modify CCK TX filter parameters for 8822B*/
++	if(IS_HARDWARE_TYPE_8822B(Adapter) || IS_HARDWARE_TYPE_8821C(Adapter) || IS_HARDWARE_TYPE_8723D(Adapter))
++		return;
++
++	DataRate = MptToMgntRate(ulRateIdx);
++
++	if (u1Channel == 14 && IS_CCK_RATE(DataRate))
++		pHalData->bCCKinCH14 = TRUE;
++	else
++		pHalData->bCCKinCH14 = FALSE;
++
++	if (IS_HARDWARE_TYPE_8703B(Adapter)) {
++		if ((u1Channel == 14) && IS_CCK_RATE(DataRate)) {
++			/* Channel 14 in CCK, need to set 0xA26~0xA29 to 0 for 8703B */
++			PHY_SetBBReg(Adapter, rCCK0_TxFilter2, bMaskHWord, 0);
++			PHY_SetBBReg(Adapter, rCCK0_DebugPort, bMaskLWord, 0);
++
++		} else {
++			/* Normal setting for 8703B, just recover to the default setting. */
++			/* This hardcore values reference from the parameter which BB team gave. */
++			for (i = 0 ; i < 2 ; ++i)
++				PHY_SetBBReg(Adapter, pHalData->RegForRecover[i].offset, bMaskDWord, pHalData->RegForRecover[i].value);
++
++		}
++	} else if (IS_HARDWARE_TYPE_8723D(Adapter)) {
++		/* 2.4G CCK TX DFIR */
++		/* 2016.01.20 Suggest from RS BB mingzhi*/
++		if ((u1Channel == 14)) {
++			PHY_SetBBReg(Adapter, rCCK0_TxFilter2, bMaskDWord, 0x0000B81C);
++			PHY_SetBBReg(Adapter, rCCK0_DebugPort, bMaskDWord, 0x00000000);
++			PHY_SetBBReg(Adapter, 0xAAC, bMaskDWord, 0x00003667);
++		} else {
++			for (i = 0 ; i < 3 ; ++i) {
++				PHY_SetBBReg(Adapter,
++					     pHalData->RegForRecover[i].offset,
++					     bMaskDWord,
++					     pHalData->RegForRecover[i].value);
++			}
++		}
++	} else if (IS_HARDWARE_TYPE_8188F(Adapter)) {
++		/* get current cck swing value and check 0xa22 & 0xa23 later to match the table.*/
++		CurrCCKSwingVal = read_bbreg(Adapter, rCCK0_TxFilter1, bMaskHWord);
++		CCKSwingIndex = 20; /* default index */
++
++		if (!pHalData->bCCKinCH14) {
++			/* Readback the current bb cck swing value and compare with the table to */
++			/* get the current swing index */
++			for (i = 0; i < CCK_TABLE_SIZE_88F; i++) {
++				if (((CurrCCKSwingVal & 0xff) == (u32)CCKSwingTable_Ch1_Ch13_88F[i][0]) &&
++				    (((CurrCCKSwingVal & 0xff00) >> 8) == (u32)CCKSwingTable_Ch1_Ch13_88F[i][1])) {
++					CCKSwingIndex = i;
++					break;
++				}
++			}
++			write_bbreg(Adapter, 0xa22, bMaskByte0, CCKSwingTable_Ch1_Ch13_88F[CCKSwingIndex][0]);
++			write_bbreg(Adapter, 0xa23, bMaskByte0, CCKSwingTable_Ch1_Ch13_88F[CCKSwingIndex][1]);
++			write_bbreg(Adapter, 0xa24, bMaskByte0, CCKSwingTable_Ch1_Ch13_88F[CCKSwingIndex][2]);
++			write_bbreg(Adapter, 0xa25, bMaskByte0, CCKSwingTable_Ch1_Ch13_88F[CCKSwingIndex][3]);
++			write_bbreg(Adapter, 0xa26, bMaskByte0, CCKSwingTable_Ch1_Ch13_88F[CCKSwingIndex][4]);
++			write_bbreg(Adapter, 0xa27, bMaskByte0, CCKSwingTable_Ch1_Ch13_88F[CCKSwingIndex][5]);
++			write_bbreg(Adapter, 0xa28, bMaskByte0, CCKSwingTable_Ch1_Ch13_88F[CCKSwingIndex][6]);
++			write_bbreg(Adapter, 0xa29, bMaskByte0, CCKSwingTable_Ch1_Ch13_88F[CCKSwingIndex][7]);
++			write_bbreg(Adapter, 0xa9a, bMaskByte0, CCKSwingTable_Ch1_Ch13_88F[CCKSwingIndex][8]);
++			write_bbreg(Adapter, 0xa9b, bMaskByte0, CCKSwingTable_Ch1_Ch13_88F[CCKSwingIndex][9]);
++			write_bbreg(Adapter, 0xa9c, bMaskByte0, CCKSwingTable_Ch1_Ch13_88F[CCKSwingIndex][10]);
++			write_bbreg(Adapter, 0xa9d, bMaskByte0, CCKSwingTable_Ch1_Ch13_88F[CCKSwingIndex][11]);
++			write_bbreg(Adapter, 0xaa0, bMaskByte0, CCKSwingTable_Ch1_Ch13_88F[CCKSwingIndex][12]);
++			write_bbreg(Adapter, 0xaa1, bMaskByte0, CCKSwingTable_Ch1_Ch13_88F[CCKSwingIndex][13]);
++			write_bbreg(Adapter, 0xaa2, bMaskByte0, CCKSwingTable_Ch1_Ch13_88F[CCKSwingIndex][14]);
++			write_bbreg(Adapter, 0xaa3, bMaskByte0, CCKSwingTable_Ch1_Ch13_88F[CCKSwingIndex][15]);
++			RTW_INFO("%s , CCKSwingTable_Ch1_Ch13_88F[%d]\n", __func__, CCKSwingIndex);
++		}  else {
++			for (i = 0; i < CCK_TABLE_SIZE_88F; i++) {
++				if (((CurrCCKSwingVal & 0xff) == (u32)CCKSwingTable_Ch14_88F[i][0]) &&
++				    (((CurrCCKSwingVal & 0xff00) >> 8) == (u32)CCKSwingTable_Ch14_88F[i][1])) {
++					CCKSwingIndex = i;
++					break;
++				}
++			}
++			write_bbreg(Adapter, 0xa22, bMaskByte0, CCKSwingTable_Ch14_88F[CCKSwingIndex][0]);
++			write_bbreg(Adapter, 0xa23, bMaskByte0, CCKSwingTable_Ch14_88F[CCKSwingIndex][1]);
++			write_bbreg(Adapter, 0xa24, bMaskByte0, CCKSwingTable_Ch14_88F[CCKSwingIndex][2]);
++			write_bbreg(Adapter, 0xa25, bMaskByte0, CCKSwingTable_Ch14_88F[CCKSwingIndex][3]);
++			write_bbreg(Adapter, 0xa26, bMaskByte0, CCKSwingTable_Ch14_88F[CCKSwingIndex][4]);
++			write_bbreg(Adapter, 0xa27, bMaskByte0, CCKSwingTable_Ch14_88F[CCKSwingIndex][5]);
++			write_bbreg(Adapter, 0xa28, bMaskByte0, CCKSwingTable_Ch14_88F[CCKSwingIndex][6]);
++			write_bbreg(Adapter, 0xa29, bMaskByte0, CCKSwingTable_Ch14_88F[CCKSwingIndex][7]);
++			write_bbreg(Adapter, 0xa9a, bMaskByte0, CCKSwingTable_Ch14_88F[CCKSwingIndex][8]);
++			write_bbreg(Adapter, 0xa9b, bMaskByte0, CCKSwingTable_Ch14_88F[CCKSwingIndex][9]);
++			write_bbreg(Adapter, 0xa9c, bMaskByte0, CCKSwingTable_Ch14_88F[CCKSwingIndex][10]);
++			write_bbreg(Adapter, 0xa9d, bMaskByte0, CCKSwingTable_Ch14_88F[CCKSwingIndex][11]);
++			write_bbreg(Adapter, 0xaa0, bMaskByte0, CCKSwingTable_Ch14_88F[CCKSwingIndex][12]);
++			write_bbreg(Adapter, 0xaa1, bMaskByte0, CCKSwingTable_Ch14_88F[CCKSwingIndex][13]);
++			write_bbreg(Adapter, 0xaa2, bMaskByte0, CCKSwingTable_Ch14_88F[CCKSwingIndex][14]);
++			write_bbreg(Adapter, 0xaa3, bMaskByte0, CCKSwingTable_Ch14_88F[CCKSwingIndex][15]);
++			RTW_INFO("%s , CCKSwingTable_Ch14_88F[%d]\n", __func__, CCKSwingIndex);
++		}
++	} else {
++
++		/* get current cck swing value and check 0xa22 & 0xa23 later to match the table.*/
++		CurrCCKSwingVal = read_bbreg(Adapter, rCCK0_TxFilter1, bMaskHWord);
++
++		if (!pHalData->bCCKinCH14) {
++			/* Readback the current bb cck swing value and compare with the table to */
++			/* get the current swing index */
++			for (i = 0; i < CCK_TABLE_SIZE; i++) {
++				if (((CurrCCKSwingVal & 0xff) == (u32)CCKSwingTable_Ch1_Ch13[i][0]) &&
++				    (((CurrCCKSwingVal & 0xff00) >> 8) == (u32)CCKSwingTable_Ch1_Ch13[i][1])) {
++					CCKSwingIndex = i;
++					break;
++				}
++			}
++
++			/*Write 0xa22 0xa23*/
++			TempVal = CCKSwingTable_Ch1_Ch13[CCKSwingIndex][0] +
++				(CCKSwingTable_Ch1_Ch13[CCKSwingIndex][1] << 8);
++
++
++			/*Write 0xa24 ~ 0xa27*/
++			TempVal2 = 0;
++			TempVal2 = CCKSwingTable_Ch1_Ch13[CCKSwingIndex][2] +
++				(CCKSwingTable_Ch1_Ch13[CCKSwingIndex][3] << 8) +
++				(CCKSwingTable_Ch1_Ch13[CCKSwingIndex][4] << 16) +
++				(CCKSwingTable_Ch1_Ch13[CCKSwingIndex][5] << 24);
++
++			/*Write 0xa28  0xa29*/
++			TempVal3 = 0;
++			TempVal3 = CCKSwingTable_Ch1_Ch13[CCKSwingIndex][6] +
++				(CCKSwingTable_Ch1_Ch13[CCKSwingIndex][7] << 8);
++		}  else {
++			for (i = 0; i < CCK_TABLE_SIZE; i++) {
++				if (((CurrCCKSwingVal & 0xff) == (u32)CCKSwingTable_Ch14[i][0]) &&
++				    (((CurrCCKSwingVal & 0xff00) >> 8) == (u32)CCKSwingTable_Ch14[i][1])) {
++					CCKSwingIndex = i;
++					break;
++				}
++			}
++
++			/*Write 0xa22 0xa23*/
++			TempVal = CCKSwingTable_Ch14[CCKSwingIndex][0] +
++				  (CCKSwingTable_Ch14[CCKSwingIndex][1] << 8);
++
++			/*Write 0xa24 ~ 0xa27*/
++			TempVal2 = 0;
++			TempVal2 = CCKSwingTable_Ch14[CCKSwingIndex][2] +
++				   (CCKSwingTable_Ch14[CCKSwingIndex][3] << 8) +
++				(CCKSwingTable_Ch14[CCKSwingIndex][4] << 16) +
++				   (CCKSwingTable_Ch14[CCKSwingIndex][5] << 24);
++
++			/*Write 0xa28  0xa29*/
++			TempVal3 = 0;
++			TempVal3 = CCKSwingTable_Ch14[CCKSwingIndex][6] +
++				   (CCKSwingTable_Ch14[CCKSwingIndex][7] << 8);
++		}
++
++		write_bbreg(Adapter, rCCK0_TxFilter1, bMaskHWord, TempVal);
++		write_bbreg(Adapter, rCCK0_TxFilter2, bMaskDWord, TempVal2);
++		write_bbreg(Adapter, rCCK0_DebugPort, bMaskLWord, TempVal3);
++	}
++
++}
++
++void hal_mpt_SetChannel(PADAPTER pAdapter)
++{
++	u8 eRFPath;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++	struct mp_priv	*pmp = &pAdapter->mppriv;
++	u8		channel = pmp->channel;
++	u8		bandwidth = pmp->bandwidth;
++
++	hal_mpt_SwitchRfSetting(pAdapter);
++
++	pHalData->bSwChnl = _TRUE;
++	pHalData->bSetChnlBW = _TRUE;
++	rtw_hal_set_chnl_bw(pAdapter, channel, bandwidth, 0, 0);
++
++	hal_mpt_CCKTxPowerAdjust(pAdapter, pHalData->bCCKinCH14);
++
++}
++
++/*
++ * Notice
++ *	Switch bandwitdth may change center frequency(channel)
++ */
++void hal_mpt_SetBandwidth(PADAPTER pAdapter)
++{
++	struct mp_priv *pmp = &pAdapter->mppriv;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	u8		channel = pmp->channel;
++	u8		bandwidth = pmp->bandwidth;
++
++	pHalData->bSwChnl = _TRUE;
++	pHalData->bSetChnlBW = _TRUE;
++	rtw_hal_set_chnl_bw(pAdapter, channel, bandwidth, 0, 0);
++
++	hal_mpt_SwitchRfSetting(pAdapter);
++}
++
++void mpt_SetTxPower_Old(PADAPTER pAdapter, MPT_TXPWR_DEF Rate, u8 *pTxPower)
++{
++	switch (Rate) {
++	case MPT_CCK: {
++		u4Byte	TxAGC = 0, pwr = 0;
++		u1Byte	rf;
++
++		pwr = pTxPower[ODM_RF_PATH_A];
++		if (pwr < 0x3f) {
++			TxAGC = (pwr << 16) | (pwr << 8) | (pwr);
++			PHY_SetBBReg(pAdapter, rTxAGC_A_CCK1_Mcs32, bMaskByte1, pTxPower[ODM_RF_PATH_A]);
++			PHY_SetBBReg(pAdapter, rTxAGC_B_CCK11_A_CCK2_11, 0xffffff00, TxAGC);
++		}
++		pwr = pTxPower[ODM_RF_PATH_B];
++		if (pwr < 0x3f) {
++			TxAGC = (pwr << 16) | (pwr << 8) | (pwr);
++			PHY_SetBBReg(pAdapter, rTxAGC_B_CCK11_A_CCK2_11, bMaskByte0, pTxPower[ODM_RF_PATH_B]);
++			PHY_SetBBReg(pAdapter, rTxAGC_B_CCK1_55_Mcs32, 0xffffff00, TxAGC);
++		}
++	}
++	break;
++
++	case MPT_OFDM_AND_HT: {
++		u4Byte	TxAGC = 0;
++		u1Byte	pwr = 0, rf;
++
++		pwr = pTxPower[0];
++		if (pwr < 0x3f) {
++			TxAGC |= ((pwr << 24) | (pwr << 16) | (pwr << 8) | pwr);
++			RTW_INFO("HT Tx-rf(A) Power = 0x%x\n", TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_A_Rate18_06, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_A_Rate54_24, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_A_Mcs03_Mcs00, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_A_Mcs07_Mcs04, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_A_Mcs11_Mcs08, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_A_Mcs15_Mcs12, bMaskDWord, TxAGC);
++		}
++		TxAGC = 0;
++		pwr = pTxPower[1];
++		if (pwr < 0x3f) {
++			TxAGC |= ((pwr << 24) | (pwr << 16) | (pwr << 8) | pwr);
++			RTW_INFO("HT Tx-rf(B) Power = 0x%x\n", TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_B_Rate18_06, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_B_Rate54_24, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_B_Mcs03_Mcs00, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_B_Mcs07_Mcs04, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_B_Mcs11_Mcs08, bMaskDWord, TxAGC);
++			PHY_SetBBReg(pAdapter, rTxAGC_B_Mcs15_Mcs12, bMaskDWord, TxAGC);
++		}
++	}
++	break;
++
++	default:
++		break;
++	}
++	RTW_INFO("<===mpt_SetTxPower_Old()\n");
++}
++
++void
++mpt_SetTxPower(
++	PADAPTER		pAdapter,
++	MPT_TXPWR_DEF	Rate,
++	pu1Byte	pTxPower
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	u1Byte path = 0 , i = 0, MaxRate = MGN_6M;
++	u1Byte StartPath = ODM_RF_PATH_A, EndPath = ODM_RF_PATH_B;
++
++	if (IS_HARDWARE_TYPE_8814A(pAdapter))
++		EndPath = ODM_RF_PATH_D;
++	else if (IS_HARDWARE_TYPE_8188F(pAdapter) || IS_HARDWARE_TYPE_8723D(pAdapter) || IS_HARDWARE_TYPE_8821C(pAdapter))
++		EndPath = ODM_RF_PATH_A;
++
++	switch (Rate) {
++	case MPT_CCK: {
++		u1Byte rate[] = {MGN_1M, MGN_2M, MGN_5_5M, MGN_11M};
++
++		for (path = StartPath; path <= EndPath; path++)
++			for (i = 0; i < sizeof(rate); ++i)
++				PHY_SetTxPowerIndex(pAdapter, pTxPower[path], path, rate[i]);
++	}
++	break;
++	case MPT_OFDM: {
++		u1Byte rate[] = {
++			MGN_6M, MGN_9M, MGN_12M, MGN_18M,
++			MGN_24M, MGN_36M, MGN_48M, MGN_54M,
++		};
++
++		for (path = StartPath; path <= EndPath; path++)
++			for (i = 0; i < sizeof(rate); ++i)
++				PHY_SetTxPowerIndex(pAdapter, pTxPower[path], path, rate[i]);
++	}
++	break;
++	case MPT_HT: {
++		u1Byte rate[] = {
++			MGN_MCS0, MGN_MCS1, MGN_MCS2, MGN_MCS3, MGN_MCS4,
++			MGN_MCS5, MGN_MCS6, MGN_MCS7, MGN_MCS8, MGN_MCS9,
++			MGN_MCS10, MGN_MCS11, MGN_MCS12, MGN_MCS13, MGN_MCS14,
++			MGN_MCS15, MGN_MCS16, MGN_MCS17, MGN_MCS18, MGN_MCS19,
++			MGN_MCS20, MGN_MCS21, MGN_MCS22, MGN_MCS23, MGN_MCS24,
++			MGN_MCS25, MGN_MCS26, MGN_MCS27, MGN_MCS28, MGN_MCS29,
++			MGN_MCS30, MGN_MCS31,
++		};
++		if (pHalData->rf_type == RF_3T3R)
++			MaxRate = MGN_MCS23;
++		else if (pHalData->rf_type == RF_2T2R)
++			MaxRate = MGN_MCS15;
++		else
++			MaxRate = MGN_MCS7;
++		for (path = StartPath; path <= EndPath; path++) {
++			for (i = 0; i < sizeof(rate); ++i) {
++				if (rate[i] > MaxRate)
++					break;
++				PHY_SetTxPowerIndex(pAdapter, pTxPower[path], path, rate[i]);
++			}
++		}
++	}
++	break;
++	case MPT_VHT: {
++		u1Byte rate[] = {
++			MGN_VHT1SS_MCS0, MGN_VHT1SS_MCS1, MGN_VHT1SS_MCS2, MGN_VHT1SS_MCS3, MGN_VHT1SS_MCS4,
++			MGN_VHT1SS_MCS5, MGN_VHT1SS_MCS6, MGN_VHT1SS_MCS7, MGN_VHT1SS_MCS8, MGN_VHT1SS_MCS9,
++			MGN_VHT2SS_MCS0, MGN_VHT2SS_MCS1, MGN_VHT2SS_MCS2, MGN_VHT2SS_MCS3, MGN_VHT2SS_MCS4,
++			MGN_VHT2SS_MCS5, MGN_VHT2SS_MCS6, MGN_VHT2SS_MCS7, MGN_VHT2SS_MCS8, MGN_VHT2SS_MCS9,
++			MGN_VHT3SS_MCS0, MGN_VHT3SS_MCS1, MGN_VHT3SS_MCS2, MGN_VHT3SS_MCS3, MGN_VHT3SS_MCS4,
++			MGN_VHT3SS_MCS5, MGN_VHT3SS_MCS6, MGN_VHT3SS_MCS7, MGN_VHT3SS_MCS8, MGN_VHT3SS_MCS9,
++			MGN_VHT4SS_MCS0, MGN_VHT4SS_MCS1, MGN_VHT4SS_MCS2, MGN_VHT4SS_MCS3, MGN_VHT4SS_MCS4,
++			MGN_VHT4SS_MCS5, MGN_VHT4SS_MCS6, MGN_VHT4SS_MCS7, MGN_VHT4SS_MCS8, MGN_VHT4SS_MCS9,
++		};
++		if (pHalData->rf_type == RF_3T3R)
++			MaxRate = MGN_VHT3SS_MCS9;
++		else if (pHalData->rf_type == RF_2T2R || pHalData->rf_type == RF_2T4R)
++			MaxRate = MGN_VHT2SS_MCS9;
++		else
++			MaxRate = MGN_VHT1SS_MCS9;
++
++		for (path = StartPath; path <= EndPath; path++) {
++			for (i = 0; i < sizeof(rate); ++i) {
++				if (rate[i] > MaxRate)
++					break;
++				PHY_SetTxPowerIndex(pAdapter, pTxPower[path], path, rate[i]);
++			}
++		}
++	}
++	break;
++	default:
++		RTW_INFO("<===mpt_SetTxPower: Illegal channel!!\n");
++		break;
++	}
++}
++
++void hal_mpt_SetTxPower(PADAPTER pAdapter)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT		pMptCtx = &(pAdapter->mppriv.MptCtx);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++
++	if (pHalData->rf_chip < RF_TYPE_MAX) {
++		if (IS_HARDWARE_TYPE_8188E(pAdapter) ||
++		    IS_HARDWARE_TYPE_8723B(pAdapter) ||
++		    IS_HARDWARE_TYPE_8192E(pAdapter) ||
++		    IS_HARDWARE_TYPE_8703B(pAdapter) ||
++		    IS_HARDWARE_TYPE_8188F(pAdapter)) {
++			u8 path = (pHalData->AntennaTxPath == ANTENNA_A) ? (ODM_RF_PATH_A) : (ODM_RF_PATH_B);
++
++			RTW_INFO("===> MPT_ProSetTxPower: Old\n");
++
++			mpt_SetTxPower_Old(pAdapter, MPT_CCK, pMptCtx->TxPwrLevel);
++			mpt_SetTxPower_Old(pAdapter, MPT_OFDM_AND_HT, pMptCtx->TxPwrLevel);
++
++		} else {
++			RTW_INFO("===> MPT_ProSetTxPower: Jaguar/Jaguar2\n");
++			mpt_SetTxPower(pAdapter, MPT_CCK, pMptCtx->TxPwrLevel);
++			mpt_SetTxPower(pAdapter, MPT_OFDM, pMptCtx->TxPwrLevel);
++			mpt_SetTxPower(pAdapter, MPT_HT, pMptCtx->TxPwrLevel);
++			mpt_SetTxPower(pAdapter, MPT_VHT, pMptCtx->TxPwrLevel);
++
++		}
++	} else
++		RTW_INFO("RFChipID < RF_TYPE_MAX, the RF chip is not supported - %d\n", pHalData->rf_chip);
++
++	ODM_ClearTxPowerTrackingState(pDM_Odm);
++}
++
++void hal_mpt_SetDataRate(PADAPTER pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT		pMptCtx = &(pAdapter->mppriv.MptCtx);
++	u32 DataRate;
++
++	DataRate = MptToMgntRate(pMptCtx->MptRateIndex);
++
++	hal_mpt_SwitchRfSetting(pAdapter);
++
++	hal_mpt_CCKTxPowerAdjust(pAdapter, pHalData->bCCKinCH14);
++#ifdef CONFIG_RTL8723B
++	if (IS_HARDWARE_TYPE_8723B(pAdapter) || IS_HARDWARE_TYPE_8188F(pAdapter)) {
++		if (IS_CCK_RATE(DataRate)) {
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_A)
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51, 0xF, 0x6);
++			else
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x71, 0xF, 0x6);
++		} else {
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_A)
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51, 0xF, 0xE);
++			else
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x71, 0xF, 0xE);
++		}
++	}
++
++	if ((IS_HARDWARE_TYPE_8723BS(pAdapter) &&
++	     ((pHalData->PackageType == PACKAGE_TFBGA79) || (pHalData->PackageType == PACKAGE_TFBGA90)))) {
++		if (pMptCtx->MptRfPath == ODM_RF_PATH_A)
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51, 0xF, 0xE);
++		else
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x71, 0xF, 0xE);
++	}
++#endif
++}
++
++#define RF_PATH_AB	22
++
++#ifdef CONFIG_RTL8814A
++VOID mpt_ToggleIG_8814A(PADAPTER	pAdapter)
++{
++	u1Byte Path = 0;
++	u4Byte IGReg = rA_IGI_Jaguar, IGvalue = 0;
++
++	for (Path; Path <= ODM_RF_PATH_D; Path++) {
++		switch (Path) {
++		case ODM_RF_PATH_B:
++			IGReg = rB_IGI_Jaguar;
++			break;
++		case ODM_RF_PATH_C:
++			IGReg = rC_IGI_Jaguar2;
++			break;
++		case ODM_RF_PATH_D:
++			IGReg = rD_IGI_Jaguar2;
++			break;
++		default:
++			IGReg = rA_IGI_Jaguar;
++			break;
++		}
++
++		IGvalue = PHY_QueryBBReg(pAdapter, IGReg, bMaskByte0);
++		PHY_SetBBReg(pAdapter, IGReg, bMaskByte0, IGvalue + 2);
++		PHY_SetBBReg(pAdapter, IGReg, bMaskByte0, IGvalue);
++	}
++}
++
++VOID mpt_SetRFPath_8814A(PADAPTER	pAdapter)
++{
++
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT	pMptCtx = &pAdapter->mppriv.MptCtx;
++	R_ANTENNA_SELECT_OFDM	*p_ofdm_tx;	/* OFDM Tx register */
++	R_ANTENNA_SELECT_CCK	*p_cck_txrx;
++	u8	ForcedDataRate = MptToMgntRate(pMptCtx->MptRateIndex);
++	u8	HtStbcCap = pAdapter->registrypriv.stbc_cap;
++	/*/PRT_HIGH_THROUGHPUT		pHTInfo = GET_HT_INFO(pMgntInfo);*/
++	/*/PRT_VERY_HIGH_THROUGHPUT	pVHTInfo = GET_VHT_INFO(pMgntInfo);*/
++
++	u32	ulAntennaTx = pHalData->AntennaTxPath;
++	u32	ulAntennaRx = pHalData->AntennaRxPath;
++	u8	NssforRate = MgntQuery_NssTxRate(ForcedDataRate);
++
++	if ((NssforRate == RF_2TX) || ((NssforRate == RF_1TX) && IS_HT_RATE(ForcedDataRate)) || ((NssforRate == RF_1TX) && IS_VHT_RATE(ForcedDataRate))) {
++		RTW_INFO("===> SetAntenna 2T ForcedDataRate %d NssforRate %d AntennaTx %d\n", ForcedDataRate, NssforRate, ulAntennaTx);
++
++		switch (ulAntennaTx) {
++		case ANTENNA_BC:
++			pMptCtx->MptRfPath = ODM_RF_PATH_BC;
++			/*pHalData->ValidTxPath = 0x06; linux no use */
++			PHY_SetBBReg(pAdapter, rTxAnt_23Nsts_Jaguar2, 0x0000fff0, 0x106);	/*/ 0x940[15:4]=12'b0000_0100_0011*/
++			break;
++
++		case ANTENNA_CD:
++			pMptCtx->MptRfPath = ODM_RF_PATH_CD;
++			/*pHalData->ValidTxPath = 0x0C;*/
++			PHY_SetBBReg(pAdapter, rTxAnt_23Nsts_Jaguar2, 0x0000fff0, 0x40c);	/*/ 0x940[15:4]=12'b0000_0100_0011*/
++			break;
++		case ANTENNA_AB:
++		default:
++			pMptCtx->MptRfPath = ODM_RF_PATH_AB;
++			/*pHalData->ValidTxPath = 0x03;*/
++			PHY_SetBBReg(pAdapter, rTxAnt_23Nsts_Jaguar2, 0x0000fff0, 0x043);	/*/ 0x940[15:4]=12'b0000_0100_0011*/
++			break;
++		}
++
++	} else if (NssforRate == RF_3TX) {
++		RTW_INFO("===> SetAntenna 3T ForcedDataRate %d NssforRate %d AntennaTx %d\n", ForcedDataRate, NssforRate, ulAntennaTx);
++
++		switch (ulAntennaTx) {
++		case ANTENNA_BCD:
++			pMptCtx->MptRfPath = ODM_RF_PATH_BCD;
++			/*pHalData->ValidTxPath = 0x0e;*/
++			PHY_SetBBReg(pAdapter, rTxAnt_23Nsts_Jaguar2, 0x0fff0000, 0x90e);	/*/ 0x940[27:16]=12'b0010_0100_0111*/
++			break;
++
++		case ANTENNA_ABC:
++		default:
++			pMptCtx->MptRfPath = ODM_RF_PATH_ABC;
++			/*pHalData->ValidTxPath = 0x0d;*/
++			PHY_SetBBReg(pAdapter, rTxAnt_23Nsts_Jaguar2, 0x0fff0000, 0x247);	/*/ 0x940[27:16]=12'b0010_0100_0111*/
++			break;
++		}
++
++	} else { /*/if(NssforRate == RF_1TX)*/
++		RTW_INFO("===> SetAntenna 1T ForcedDataRate %d NssforRate %d AntennaTx %d\n", ForcedDataRate, NssforRate, ulAntennaTx);
++		switch (ulAntennaTx) {
++		case ANTENNA_BCD:
++			pMptCtx->MptRfPath = ODM_RF_PATH_BCD;
++			/*pHalData->ValidTxPath = 0x0e;*/
++			PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0xf0000000, 0x7);
++			PHY_SetBBReg(pAdapter, rTxAnt_1Nsts_Jaguar2, 0x000f00000, 0xe);
++			PHY_SetBBReg(pAdapter, rTxPath_Jaguar, 0xf0, 0xe);
++			break;
++
++		case ANTENNA_BC:
++			pMptCtx->MptRfPath = ODM_RF_PATH_BC;
++			/*pHalData->ValidTxPath = 0x06;*/
++			PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0xf0000000, 0x6);
++			PHY_SetBBReg(pAdapter, rTxAnt_1Nsts_Jaguar2, 0x000f00000, 0x6);
++			PHY_SetBBReg(pAdapter, rTxPath_Jaguar, 0xf0, 0x6);
++			break;
++		case ANTENNA_B:
++			pMptCtx->MptRfPath = ODM_RF_PATH_B;
++			/*pHalData->ValidTxPath = 0x02;*/
++			PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0xf0000000, 0x4);			/*/ 0xa07[7:4] = 4'b0100*/
++			PHY_SetBBReg(pAdapter, rTxAnt_1Nsts_Jaguar2, 0xfff00000, 0x002);	/*/ 0x93C[31:20]=12'b0000_0000_0010*/
++			PHY_SetBBReg(pAdapter, rTxPath_Jaguar, 0xf0, 0x2);					/* 0x80C[7:4] = 4'b0010*/
++			break;
++
++		case ANTENNA_C:
++			pMptCtx->MptRfPath = ODM_RF_PATH_C;
++			/*pHalData->ValidTxPath = 0x04;*/
++			PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0xf0000000, 0x2);			/*/ 0xa07[7:4] = 4'b0010*/
++			PHY_SetBBReg(pAdapter, rTxAnt_1Nsts_Jaguar2, 0xfff00000, 0x004);	/*/ 0x93C[31:20]=12'b0000_0000_0100*/
++			PHY_SetBBReg(pAdapter, rTxPath_Jaguar, 0xf0, 0x4);					/*/ 0x80C[7:4] = 4'b0100*/
++			break;
++
++		case ANTENNA_D:
++			pMptCtx->MptRfPath = ODM_RF_PATH_D;
++			/*pHalData->ValidTxPath = 0x08;*/
++			PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0xf0000000, 0x1);			/*/ 0xa07[7:4] = 4'b0001*/
++			PHY_SetBBReg(pAdapter, rTxAnt_1Nsts_Jaguar2, 0xfff00000, 0x008);	/*/ 0x93C[31:20]=12'b0000_0000_1000*/
++			PHY_SetBBReg(pAdapter, rTxPath_Jaguar, 0xf0, 0x8);					/*/ 0x80C[7:4] = 4'b1000*/
++			break;
++
++		case ANTENNA_A:
++		default:
++			pMptCtx->MptRfPath = ODM_RF_PATH_A;
++			/*pHalData->ValidTxPath = 0x01;*/
++			PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0xf0000000, 0x8);			/*/ 0xa07[7:4] = 4'b1000*/
++			PHY_SetBBReg(pAdapter, rTxAnt_1Nsts_Jaguar2, 0xfff00000, 0x001);	/*/ 0x93C[31:20]=12'b0000_0000_0001*/
++			PHY_SetBBReg(pAdapter, rTxPath_Jaguar, 0xf0, 0x1);					/*/ 0x80C[7:4] = 4'b0001*/
++			break;
++		}
++	}
++
++	switch (ulAntennaRx) {
++	case ANTENNA_A:
++		/*pHalData->ValidRxPath = 0x01;*/
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x2);
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0x11);
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x3);
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0x0C000000, 0x0);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_A_0x0[19:16] = 3, RX mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_B_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_C, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_C_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_D, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_D_0x0[19:16] = 1, Standby mode*/
++		/*/ CCA related PD_delay_th*/
++		PHY_SetBBReg(pAdapter, rAGC_table_Jaguar, 0x0F000000, 0x5);
++		PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, 0x0000000F, 0xA);
++		break;
++
++	case ANTENNA_B:
++		/*pHalData->ValidRxPath = 0x02;*/
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x2);
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0x22);
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x3);
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0x0C000000, 0x1);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_A_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_B_0x0[19:16] = 3, RX mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_C, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_C_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_D, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_D_0x0[19:16] = 1, Standby mode*/
++		/*/ CCA related PD_delay_th*/
++		PHY_SetBBReg(pAdapter, rAGC_table_Jaguar, 0x0F000000, 0x5);
++		PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, 0x0000000F, 0xA);
++		break;
++
++	case ANTENNA_C:
++		/*pHalData->ValidRxPath = 0x04;*/
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x2);
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0x44);
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x3);
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0x0C000000, 0x2);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_A_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_B_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_C, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_C_0x0[19:16] = 3, RX mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_D, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_D_0x0[19:16] = 1, Standby mode*/
++		/*/ CCA related PD_delay_th*/
++		PHY_SetBBReg(pAdapter, rAGC_table_Jaguar, 0x0F000000, 0x5);
++		PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, 0x0000000F, 0xA);
++		break;
++
++	case ANTENNA_D:
++		/*pHalData->ValidRxPath = 0x08;*/
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x2);
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0x88);
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x3);
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0x0C000000, 0x3);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_A_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_B_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_C, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_C_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_D, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_D_0x0[19:16] = 3, RX mode*/
++		/*/ CCA related PD_delay_th*/
++		PHY_SetBBReg(pAdapter, rAGC_table_Jaguar, 0x0F000000, 0x5);
++		PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, 0x0000000F, 0xA);
++		break;
++
++	case ANTENNA_BC:
++		/*pHalData->ValidRxPath = 0x06;*/
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x2);
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0x66);
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x3);
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0x0f000000, 0x6);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_A_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_B_0x0[19:16] = 3, RX mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_C, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_C_0x0[19:16] = 3, Rx mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_D, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_D_0x0[19:16] = 1, Standby mode*/
++		/*/ CCA related PD_delay_th*/
++		PHY_SetBBReg(pAdapter, rAGC_table_Jaguar, 0x0F000000, 0x5);
++		PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, 0x0000000F, 0xA);
++		break;
++
++	case ANTENNA_CD:
++		/*pHalData->ValidRxPath = 0x0C;*/
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x2);
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0xcc);
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x3);
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0x0f000000, 0xB);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_A_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_B_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_C, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_C_0x0[19:16] = 3, Rx mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_D, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_D_0x0[19:16] = 3, RX mode*/
++		/*/ CCA related PD_delay_th*/
++		PHY_SetBBReg(pAdapter, rAGC_table_Jaguar, 0x0F000000, 0x5);
++		PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, 0x0000000F, 0xA);
++		break;
++
++	case ANTENNA_BCD:
++		/*pHalData->ValidRxPath = 0x0e;*/
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x2);
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0xee);
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x3);
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0x0f000000, 0x6);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_A_0x0[19:16] = 1, Standby mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_B_0x0[19:16] = 3, RX mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_C, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_C_0x0[19:16] = 3, RX mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_D, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_D_0x0[19:16] = 3, Rx mode*/
++		/*/ CCA related PD_delay_th*/
++		PHY_SetBBReg(pAdapter, rAGC_table_Jaguar, 0x0F000000, 0x3);
++		PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, 0x0000000F, 0x8);
++		break;
++
++	case ANTENNA_ABCD:
++		/*pHalData->ValidRxPath = 0x0f;*/
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x2);
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0xff);
++		PHY_SetBBReg(pAdapter, 0x1000, bMaskByte2, 0x3);
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, 0x0f000000, 0x1);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_A_0x0[19:16] = 3, RX mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_B_0x0[19:16] = 3, RX mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_C, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_C_0x0[19:16] = 3, RX mode*/
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_D, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_D_0x0[19:16] = 3, RX mode*/
++		/*/ CCA related PD_delay_th*/
++		PHY_SetBBReg(pAdapter, rAGC_table_Jaguar, 0x0F000000, 0x3);
++		PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, 0x0000000F, 0x8);
++		break;
++
++	default:
++		break;
++	}
++
++	PHY_Set_SecCCATH_by_RXANT_8814A(pAdapter, ulAntennaRx);
++
++	mpt_ToggleIG_8814A(pAdapter);
++}
++#endif /* CONFIG_RTL8814A */
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++VOID
++mpt_SetSingleTone_8814A(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN	bSingleTone,
++	IN	BOOLEAN	bEnPMacTx)
++{
++
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);
++	u1Byte StartPath = ODM_RF_PATH_A,  EndPath = ODM_RF_PATH_A;
++	static u4Byte		regIG0 = 0, regIG1 = 0, regIG2 = 0, regIG3 = 0;
++
++	if (bSingleTone) {
++		regIG0 = PHY_QueryBBReg(pAdapter, rA_TxScale_Jaguar, bMaskDWord);		/*/ 0xC1C[31:21]*/
++		regIG1 = PHY_QueryBBReg(pAdapter, rB_TxScale_Jaguar, bMaskDWord);		/*/ 0xE1C[31:21]*/
++		regIG2 = PHY_QueryBBReg(pAdapter, rC_TxScale_Jaguar2, bMaskDWord);	/*/ 0x181C[31:21]*/
++		regIG3 = PHY_QueryBBReg(pAdapter, rD_TxScale_Jaguar2, bMaskDWord);	/*/ 0x1A1C[31:21]*/
++
++		switch (pMptCtx->MptRfPath) {
++		case ODM_RF_PATH_A:
++		case ODM_RF_PATH_B:
++		case ODM_RF_PATH_C:
++		case ODM_RF_PATH_D:
++			StartPath = pMptCtx->MptRfPath;
++			EndPath = pMptCtx->MptRfPath;
++			break;
++		case ODM_RF_PATH_AB:
++			EndPath = ODM_RF_PATH_B;
++			break;
++		case ODM_RF_PATH_BC:
++			StartPath = ODM_RF_PATH_B;
++			EndPath = ODM_RF_PATH_C;
++			break;
++		case ODM_RF_PATH_ABC:
++			EndPath = ODM_RF_PATH_C;
++			break;
++		case ODM_RF_PATH_BCD:
++			StartPath = ODM_RF_PATH_B;
++			EndPath = ODM_RF_PATH_D;
++			break;
++		case ODM_RF_PATH_ABCD:
++			EndPath = ODM_RF_PATH_D;
++			break;
++		}
++
++		if (bEnPMacTx == FALSE) {
++			hal_mpt_SetOFDMContinuousTx(pAdapter, _TRUE);
++			issue_nulldata(pAdapter, NULL, 1, 3, 500);
++		}
++
++		PHY_SetBBReg(pAdapter, rCCAonSec_Jaguar, BIT1, 0x1); /*/ Disable CCA*/
++
++		for (StartPath; StartPath <= EndPath; StartPath++) {
++			PHY_SetRFReg(pAdapter, StartPath, RF_AC_Jaguar, 0xF0000, 0x2); /*/ Tx mode: RF0x00[19:16]=4'b0010 */
++			PHY_SetRFReg(pAdapter, StartPath, RF_AC_Jaguar, 0x1F, 0x0); /*/ Lowest RF gain index: RF_0x0[4:0] = 0*/
++
++			PHY_SetRFReg(pAdapter, StartPath, LNA_Low_Gain_3, BIT1, 0x1); /*/ RF LO enabled*/
++		}
++
++		PHY_SetBBReg(pAdapter, rA_TxScale_Jaguar, 0xFFE00000, 0); /*/ 0xC1C[31:21]*/
++		PHY_SetBBReg(pAdapter, rB_TxScale_Jaguar, 0xFFE00000, 0); /*/ 0xE1C[31:21]*/
++		PHY_SetBBReg(pAdapter, rC_TxScale_Jaguar2, 0xFFE00000, 0); /*/ 0x181C[31:21]*/
++		PHY_SetBBReg(pAdapter, rD_TxScale_Jaguar2, 0xFFE00000, 0); /*/ 0x1A1C[31:21]*/
++	} else {
++		switch (pMptCtx->MptRfPath) {
++		case ODM_RF_PATH_A:
++		case ODM_RF_PATH_B:
++		case ODM_RF_PATH_C:
++		case ODM_RF_PATH_D:
++			StartPath = pMptCtx->MptRfPath;
++			EndPath = pMptCtx->MptRfPath;
++			break;
++		case ODM_RF_PATH_AB:
++			EndPath = ODM_RF_PATH_B;
++			break;
++		case ODM_RF_PATH_BC:
++			StartPath = ODM_RF_PATH_B;
++			EndPath = ODM_RF_PATH_C;
++			break;
++		case ODM_RF_PATH_ABC:
++			EndPath = ODM_RF_PATH_C;
++			break;
++		case ODM_RF_PATH_BCD:
++			StartPath = ODM_RF_PATH_B;
++			EndPath = ODM_RF_PATH_D;
++			break;
++		case ODM_RF_PATH_ABCD:
++			EndPath = ODM_RF_PATH_D;
++			break;
++		}
++		for (StartPath; StartPath <= EndPath; StartPath++)
++			PHY_SetRFReg(pAdapter, StartPath, LNA_Low_Gain_3, BIT1, 0x0); /* RF LO disabled */
++
++		PHY_SetBBReg(pAdapter, rCCAonSec_Jaguar, BIT1, 0x0); /* Enable CCA*/
++
++		if (bEnPMacTx == FALSE)
++			hal_mpt_SetOFDMContinuousTx(pAdapter, _FALSE);
++
++		PHY_SetBBReg(pAdapter, rA_TxScale_Jaguar, bMaskDWord, regIG0); /* 0xC1C[31:21]*/
++		PHY_SetBBReg(pAdapter, rB_TxScale_Jaguar, bMaskDWord, regIG1); /* 0xE1C[31:21]*/
++		PHY_SetBBReg(pAdapter, rC_TxScale_Jaguar2, bMaskDWord, regIG2); /* 0x181C[31:21]*/
++		PHY_SetBBReg(pAdapter, rD_TxScale_Jaguar2, bMaskDWord, regIG3); /* 0x1A1C[31:21]*/
++	}
++}
++
++#endif
++
++#if	defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++void mpt_SetRFPath_8812A(PADAPTER pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT	pMptCtx = &pAdapter->mppriv.MptCtx;
++	struct mp_priv *pmp = &pAdapter->mppriv;
++	u8		channel = pmp->channel;
++	u8		bandwidth = pmp->bandwidth;
++	u8		eLNA_2g = pHalData->ExternalLNA_2G;
++	u32		ulAntennaTx, ulAntennaRx;
++
++	ulAntennaTx = pHalData->AntennaTxPath;
++	ulAntennaRx = pHalData->AntennaRxPath;
++
++	switch (ulAntennaTx) {
++	case ANTENNA_A:
++		pMptCtx->MptRfPath = ODM_RF_PATH_A;
++		PHY_SetBBReg(pAdapter, rTxPath_Jaguar, bMaskLWord, 0x1111);
++		if (pHalData->RFEType == 3 && IS_HARDWARE_TYPE_8812(pAdapter))
++			PHY_SetBBReg(pAdapter, r_ANTSEL_SW_Jaguar, bMask_AntselPathFollow_Jaguar, 0x0);
++		break;
++	case ANTENNA_B:
++		pMptCtx->MptRfPath = ODM_RF_PATH_B;
++		PHY_SetBBReg(pAdapter, rTxPath_Jaguar, bMaskLWord, 0x2222);
++		if (pHalData->RFEType == 3 && IS_HARDWARE_TYPE_8812(pAdapter))
++			PHY_SetBBReg(pAdapter,	r_ANTSEL_SW_Jaguar, bMask_AntselPathFollow_Jaguar, 0x1);
++		break;
++	case ANTENNA_AB:
++		pMptCtx->MptRfPath = ODM_RF_PATH_AB;
++		PHY_SetBBReg(pAdapter, rTxPath_Jaguar, bMaskLWord, 0x3333);
++		if (pHalData->RFEType == 3 && IS_HARDWARE_TYPE_8812(pAdapter))
++			PHY_SetBBReg(pAdapter, r_ANTSEL_SW_Jaguar, bMask_AntselPathFollow_Jaguar, 0x0);
++		break;
++	default:
++		pMptCtx->MptRfPath = ODM_RF_PATH_AB;
++		RTW_INFO("Unknown Tx antenna.\n");
++		break;
++	}
++
++	switch (ulAntennaRx) {
++		u32 reg0xC50 = 0;
++	case ANTENNA_A:
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0x11);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x1); /*/ RF_B_0x0[19:16] = 1, Standby mode*/
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, bCCK_RX_Jaguar, 0x0);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, BIT19 | BIT18 | BIT17 | BIT16, 0x3);
++
++		/*/ <20121101, Kordan> To prevent gain table from not switched, asked by Ynlin.*/
++		reg0xC50 = PHY_QueryBBReg(pAdapter, rA_IGI_Jaguar, bMaskByte0);
++		PHY_SetBBReg(pAdapter, rA_IGI_Jaguar, bMaskByte0, reg0xC50 + 2);
++		PHY_SetBBReg(pAdapter, rA_IGI_Jaguar, bMaskByte0, reg0xC50);
++
++		/* set PWED_TH for BB Yn user guide R29 */
++		if (IS_HARDWARE_TYPE_8812(pAdapter)) {
++			if (channel <= 14) { /* 2.4G */
++				if (bandwidth == CHANNEL_WIDTH_20
++				    && eLNA_2g == 0) {
++					/* 0x830[3:1]=3'b010 */
++					PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, BIT1 | BIT2 | BIT3, 0x02);
++				} else
++					/* 0x830[3:1]=3'b100 */
++					PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, BIT1 | BIT2 | BIT3, 0x04);
++			} else
++				/* 0x830[3:1]=3'b100 for 5G */
++				PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, BIT1 | BIT2 | BIT3, 0x04);
++		}
++		break;
++	case ANTENNA_B:
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0x22);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, 0xF0000, 0x1);/*/ RF_A_0x0[19:16] = 1, Standby mode */
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, bCCK_RX_Jaguar, 0x1);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, BIT19 | BIT18 | BIT17 | BIT16, 0x3);
++
++		/*/ <20121101, Kordan> To prevent gain table from not switched, asked by Ynlin.*/
++		reg0xC50 = PHY_QueryBBReg(pAdapter, rB_IGI_Jaguar, bMaskByte0);
++		PHY_SetBBReg(pAdapter, rB_IGI_Jaguar, bMaskByte0, reg0xC50 + 2);
++		PHY_SetBBReg(pAdapter, rB_IGI_Jaguar, bMaskByte0, reg0xC50);
++
++		/* set PWED_TH for BB Yn user guide R29 */
++		if (IS_HARDWARE_TYPE_8812(pAdapter)) {
++			if (channel <= 14) {
++				if (bandwidth == CHANNEL_WIDTH_20
++				    && eLNA_2g == 0) {
++					/* 0x830[3:1]=3'b010 */
++					PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, BIT1 | BIT2 | BIT3, 0x02);
++				} else
++					/* 0x830[3:1]=3'b100 */
++					PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, BIT1 | BIT2 | BIT3, 0x04);
++			} else
++				/* 0x830[3:1]=3'b100 for 5G */
++				PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, BIT1 | BIT2 | BIT3, 0x04);
++		}
++		break;
++	case ANTENNA_AB:
++		PHY_SetBBReg(pAdapter, rRxPath_Jaguar, bMaskByte0, 0x33);
++		PHY_SetRFReg(pAdapter, ODM_RF_PATH_B, RF_AC_Jaguar, 0xF0000, 0x3); /*/ RF_B_0x0[19:16] = 3, Rx mode*/
++		PHY_SetBBReg(pAdapter, rCCK_RX_Jaguar, bCCK_RX_Jaguar, 0x0);
++		/* set PWED_TH for BB Yn user guide R29 */
++		PHY_SetBBReg(pAdapter, rPwed_TH_Jaguar, BIT1 | BIT2 | BIT3, 0x04);
++		break;
++	default:
++		RTW_INFO("Unknown Rx antenna.\n");
++		break;
++	}
++}
++#endif
++
++#ifdef CONFIG_RTL8723B
++void mpt_SetRFPath_8723B(PADAPTER pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u32		ulAntennaTx, ulAntennaRx;
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);
++	PDM_ODM_T	pDM_Odm = &pHalData->odmpriv;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	ulAntennaTx = pHalData->AntennaTxPath;
++	ulAntennaRx = pHalData->AntennaRxPath;
++
++	if (pHalData->rf_chip >= RF_TYPE_MAX) {
++		RTW_INFO("This RF chip ID is not supported\n");
++		return;
++	}
++
++	switch (pAdapter->mppriv.antenna_tx) {
++		u8 p = 0, i = 0;
++	case ANTENNA_A: { /*/ Actually path S1  (Wi-Fi)*/
++		pMptCtx->MptRfPath = ODM_RF_PATH_A;
++		PHY_SetBBReg(pAdapter, rS0S1_PathSwitch, BIT9 | BIT8 | BIT7, 0x0);
++		PHY_SetBBReg(pAdapter, 0xB2C, BIT31, 0x0); /* AGC Table Sel*/
++
++		/*/<20130522, Kordan> 0x51 and 0x71 should be set immediately after path switched, or they might be overwritten.*/
++		if ((pHalData->PackageType == PACKAGE_TFBGA79) || (pHalData->PackageType == PACKAGE_TFBGA90))
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51, bRFRegOffsetMask, 0x6B10E);
++		else
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51, bRFRegOffsetMask, 0x6B04E);
++
++		for (i = 0; i < 3; ++i) {
++			u4Byte offset = pRFCalibrateInfo->TxIQC_8723B[ODM_RF_PATH_A][i][0];
++			u4Byte data = pRFCalibrateInfo->TxIQC_8723B[ODM_RF_PATH_A][i][1];
++
++			if (offset != 0) {
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, data);
++				RTW_INFO("Switch to S1 TxIQC(offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++		}
++		for (i = 0; i < 2; ++i) {
++			u4Byte offset = pRFCalibrateInfo->RxIQC_8723B[ODM_RF_PATH_A][i][0];
++			u4Byte data = pRFCalibrateInfo->RxIQC_8723B[ODM_RF_PATH_A][i][1];
++
++			if (offset != 0) {
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, data);
++				RTW_INFO("Switch to S1 RxIQC (offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++		}
++	}
++	break;
++	case ANTENNA_B: { /*/ Actually path S0 (BT)*/
++		u4Byte offset;
++		u4Byte data;
++
++		pMptCtx->MptRfPath = ODM_RF_PATH_B;
++		PHY_SetBBReg(pAdapter, rS0S1_PathSwitch, BIT9 | BIT8 | BIT7, 0x5);
++		PHY_SetBBReg(pAdapter, 0xB2C, BIT31, 0x1); /*/ AGC Table Sel.*/
++		/* <20130522, Kordan> 0x51 and 0x71 should be set immediately after path switched, or they might be overwritten.*/
++		if ((pHalData->PackageType == PACKAGE_TFBGA79) || (pHalData->PackageType == PACKAGE_TFBGA90))
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51, bRFRegOffsetMask, 0x6B10E);
++		else
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51, bRFRegOffsetMask, 0x6B04E);
++
++		for (i = 0; i < 3; ++i) {
++			/*/ <20130603, Kordan> Because BB suppors only 1T1R, we restore IQC  to S1 instead of S0.*/
++			offset = pRFCalibrateInfo->TxIQC_8723B[ODM_RF_PATH_A][i][0];
++			data = pRFCalibrateInfo->TxIQC_8723B[ODM_RF_PATH_B][i][1];
++			if (pRFCalibrateInfo->TxIQC_8723B[ODM_RF_PATH_B][i][0] != 0) {
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, data);
++				RTW_INFO("Switch to S0 TxIQC (offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++		}
++		/*/ <20130603, Kordan> Because BB suppors only 1T1R, we restore IQC to S1 instead of S0.*/
++		for (i = 0; i < 2; ++i) {
++			offset = pRFCalibrateInfo->RxIQC_8723B[ODM_RF_PATH_A][i][0];
++			data = pRFCalibrateInfo->RxIQC_8723B[ODM_RF_PATH_B][i][1];
++			if (pRFCalibrateInfo->RxIQC_8723B[ODM_RF_PATH_B][i][0] != 0) {
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, data);
++				RTW_INFO("Switch to S0 RxIQC (offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++		}
++	}
++	break;
++	default:
++		pMptCtx->MptRfPath = RF_PATH_AB;
++		break;
++	}
++}
++#endif
++
++#ifdef CONFIG_RTL8703B
++void mpt_SetRFPath_8703B(PADAPTER pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u4Byte					ulAntennaTx, ulAntennaRx;
++	PMPT_CONTEXT		pMptCtx = &(pAdapter->mppriv.MptCtx);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	PODM_RF_CAL_T			pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	ulAntennaTx = pHalData->AntennaTxPath;
++	ulAntennaRx = pHalData->AntennaRxPath;
++
++	if (pHalData->rf_chip >= RF_TYPE_MAX) {
++		RTW_INFO("This RF chip ID is not supported\n");
++		return;
++	}
++
++	switch (pAdapter->mppriv.antenna_tx) {
++		u1Byte p = 0, i = 0;
++
++	case ANTENNA_A: { /* Actually path S1  (Wi-Fi) */
++		pMptCtx->MptRfPath = ODM_RF_PATH_A;
++		PHY_SetBBReg(pAdapter, rS0S1_PathSwitch, BIT9 | BIT8 | BIT7, 0x0);
++		PHY_SetBBReg(pAdapter, 0xB2C, BIT31, 0x0); /* AGC Table Sel*/
++
++		for (i = 0; i < 3; ++i) {
++			u4Byte offset = pRFCalibrateInfo->TxIQC_8703B[i][0];
++			u4Byte data = pRFCalibrateInfo->TxIQC_8703B[i][1];
++
++			if (offset != 0) {
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, data);
++				RTW_INFO("Switch to S1 TxIQC(offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++
++		}
++		for (i = 0; i < 2; ++i) {
++			u4Byte offset = pRFCalibrateInfo->RxIQC_8703B[i][0];
++			u4Byte data = pRFCalibrateInfo->RxIQC_8703B[i][1];
++
++			if (offset != 0) {
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, data);
++				RTW_INFO("Switch to S1 RxIQC (offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++		}
++	}
++	break;
++	case ANTENNA_B: { /* Actually path S0 (BT)*/
++		pMptCtx->MptRfPath = ODM_RF_PATH_B;
++		PHY_SetBBReg(pAdapter, rS0S1_PathSwitch, BIT9 | BIT8 | BIT7, 0x5);
++		PHY_SetBBReg(pAdapter, 0xB2C, BIT31, 0x1); /* AGC Table Sel */
++
++		for (i = 0; i < 3; ++i) {
++			u4Byte offset = pRFCalibrateInfo->TxIQC_8703B[i][0];
++			u4Byte data = pRFCalibrateInfo->TxIQC_8703B[i][1];
++
++			if (pRFCalibrateInfo->TxIQC_8703B[i][0] != 0) {
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, data);
++				RTW_INFO("Switch to S0 TxIQC (offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++		}
++		for (i = 0; i < 2; ++i) {
++			u4Byte offset = pRFCalibrateInfo->RxIQC_8703B[i][0];
++			u4Byte data = pRFCalibrateInfo->RxIQC_8703B[i][1];
++
++			if (pRFCalibrateInfo->RxIQC_8703B[i][0] != 0) {
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, data);
++				RTW_INFO("Switch to S0 RxIQC (offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++		}
++	}
++	break;
++	default:
++		pMptCtx->MptRfPath = RF_PATH_AB;
++		break;
++	}
++
++}
++#endif
++
++#ifdef CONFIG_RTL8723D
++void mpt_SetRFPath_8723D(PADAPTER pAdapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u1Byte	p = 0, i = 0;
++	u4Byte	ulAntennaTx, ulAntennaRx, offset = 0, data = 0, val32 = 0;
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);
++	PDM_ODM_T	pDM_Odm = &pHalData->odmpriv;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	ulAntennaTx = pHalData->AntennaTxPath;
++	ulAntennaRx = pHalData->AntennaRxPath;
++
++	if (pHalData->rf_chip >= RF_TYPE_MAX) {
++		RTW_INFO("This RF chip ID is not supported\n");
++		return;
++	}
++
++	switch (pAdapter->mppriv.antenna_tx) {
++	/* Actually path S1  (Wi-Fi) */
++	case ANTENNA_A: {
++		pMptCtx->MptRfPath = ODM_RF_PATH_A;
++		PHY_SetBBReg(pAdapter, rS0S1_PathSwitch,
++			     BIT9 | BIT8 | BIT7, 0x0);
++		/* AGC Table Sel */
++		PHY_SetBBReg(pAdapter, 0xB2C, BIT31, 0x0);
++
++		/*<20130522, Kordan> 0x51 and 0x71 should be set immediately
++		  after path switched, or they might be overwritten.*/
++		if ((pHalData->PackageType == PACKAGE_TFBGA79) ||
++		    (pHalData->PackageType == PACKAGE_TFBGA90))
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A,
++				     0x51, bRFRegOffsetMask, 0x6B10E);
++		else
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A,
++				     0x51, bRFRegOffsetMask, 0x6B04E);
++
++
++		for (i = 0; i < 3; ++i) {
++			offset = pRFCalibrateInfo->TxIQC_8723D[RF_PATH_A][i][0];
++			data = pRFCalibrateInfo->TxIQC_8723D[RF_PATH_A][i][1];
++			if (offset != 0) {
++				PHY_SetBBReg(pAdapter, offset,
++					     bMaskDWord, data);
++				RTW_INFO("Switch to S1 TxIQC(offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++
++		}
++		for (i = 0; i < 2; ++i) {
++			offset = pRFCalibrateInfo->RxIQC_8723D[RF_PATH_A][i][0];
++			data = pRFCalibrateInfo->RxIQC_8723D[RF_PATH_A][i][1];
++			if (offset != 0) {
++				PHY_SetBBReg(pAdapter, offset,
++					     bMaskDWord, data);
++				RTW_INFO("Switch to S1 RxIQC (offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++		}
++	}
++	break;
++	/* Actually path S0 (BT) */
++	case ANTENNA_B: {
++		pMptCtx->MptRfPath = ODM_RF_PATH_B;
++		PHY_SetBBReg(pAdapter, rS0S1_PathSwitch, BIT9 | BIT8 | BIT7, 0x5);
++		/* AGC Table Sel */
++		PHY_SetBBReg(pAdapter, 0xB2C, BIT31, 0x1);
++		/* <20130522, Kordan> 0x51 and 0x71 should be set immediately
++		   after path switched, or they might be overwritten.*/
++		if ((pHalData->PackageType == PACKAGE_TFBGA79) ||
++		    (pHalData->PackageType == PACKAGE_TFBGA90))
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51,
++				     bRFRegOffsetMask, 0x6B10E);
++		else
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x51,
++				     bRFRegOffsetMask, 0x6B04E);
++
++
++		for (i = 0; i < 3; ++i) {
++			/* <20130603, Kordan> Because BB suppors only 1T1R,
++			   we restore IQC  to S1 instead of S0.*/
++			offset = pRFCalibrateInfo->TxIQC_8723D[RF_PATH_A][i][0];
++			data = pRFCalibrateInfo->TxIQC_8723D[RF_PATH_B][i][1];
++			val32 = pRFCalibrateInfo->TxIQC_8723D[RF_PATH_B][i][0];
++			if (val32 != 0) {
++				PHY_SetBBReg(pAdapter, offset,
++					     bMaskDWord, data);
++				RTW_INFO("Switch to S0 TxIQC (offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++		}
++		for (i = 0; i < 2; ++i) {
++			/* <20130603, Kordan> Because BB suppors only 1T1R, we restore
++			 * IQC to S1 instead of S0.*/
++			offset = pRFCalibrateInfo->RxIQC_8723D[RF_PATH_A][i][0];
++			data = pRFCalibrateInfo->RxIQC_8723D[RF_PATH_B][i][1];
++			val32 = pRFCalibrateInfo->RxIQC_8723D[RF_PATH_B][i][0];
++			if (val32 != 0) {
++				PHY_SetBBReg(pAdapter, offset,
++					     bMaskDWord, data);
++				RTW_INFO("Switch to S0 RxIQC (offset, data) = (0x%X, 0x%X)\n", offset, data);
++			}
++		}
++
++	}
++	break;
++	default:
++		pMptCtx->MptRfPath = RF_PATH_AB;
++		break;
++	}
++}
++#endif
++
++VOID mpt_SetRFPath_819X(PADAPTER	pAdapter)
++{
++	HAL_DATA_TYPE			*pHalData	= GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT		pMptCtx = &(pAdapter->mppriv.MptCtx);
++	u4Byte			ulAntennaTx, ulAntennaRx;
++	R_ANTENNA_SELECT_OFDM	*p_ofdm_tx;	/* OFDM Tx register */
++	R_ANTENNA_SELECT_CCK	*p_cck_txrx;
++	u1Byte		r_rx_antenna_ofdm = 0, r_ant_select_cck_val = 0;
++	u1Byte		chgTx = 0, chgRx = 0;
++	u4Byte		r_ant_sel_cck_val = 0, r_ant_select_ofdm_val = 0, r_ofdm_tx_en_val = 0;
++
++	ulAntennaTx = pHalData->AntennaTxPath;
++	ulAntennaRx = pHalData->AntennaRxPath;
++
++	p_ofdm_tx = (R_ANTENNA_SELECT_OFDM *)&r_ant_select_ofdm_val;
++	p_cck_txrx = (R_ANTENNA_SELECT_CCK *)&r_ant_select_cck_val;
++
++	p_ofdm_tx->r_ant_ht1			= 0x1;
++	p_ofdm_tx->r_ant_ht2			= 0x2;/*Second TX RF path is A*/
++	p_ofdm_tx->r_ant_non_ht			= 0x3;/*/ 0x1+0x2=0x3 */
++
++	switch (ulAntennaTx) {
++	case ANTENNA_A:
++		p_ofdm_tx->r_tx_antenna		= 0x1;
++		r_ofdm_tx_en_val		= 0x1;
++		p_ofdm_tx->r_ant_l		= 0x1;
++		p_ofdm_tx->r_ant_ht_s1		= 0x1;
++		p_ofdm_tx->r_ant_non_ht_s1	= 0x1;
++		p_cck_txrx->r_ccktx_enable	= 0x8;
++		chgTx = 1;
++		/*/ From SD3 Willis suggestion !!! Set RF A=TX and B as standby*/
++		/*/if (IS_HARDWARE_TYPE_8192S(pAdapter))*/
++		{
++			PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter2, 0xe, 2);
++			PHY_SetBBReg(pAdapter, rFPGA0_XB_HSSIParameter2, 0xe, 1);
++			r_ofdm_tx_en_val			= 0x3;
++			/*/ Power save*/
++			/*/cosa r_ant_select_ofdm_val = 0x11111111;*/
++			/*/ We need to close RFB by SW control*/
++			if (pHalData->rf_type == RF_2T2R) {
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT10, 0);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT26, 1);
++				PHY_SetBBReg(pAdapter, rFPGA0_XB_RFInterfaceOE, BIT10, 0);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT1, 1);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT17, 0);
++			}
++		}
++		pMptCtx->MptRfPath = ODM_RF_PATH_A;
++		break;
++	case ANTENNA_B:
++		p_ofdm_tx->r_tx_antenna		= 0x2;
++		r_ofdm_tx_en_val		= 0x2;
++		p_ofdm_tx->r_ant_l		= 0x2;
++		p_ofdm_tx->r_ant_ht_s1		= 0x2;
++		p_ofdm_tx->r_ant_non_ht_s1	= 0x2;
++		p_cck_txrx->r_ccktx_enable	= 0x4;
++		chgTx = 1;
++		/*/ From SD3 Willis suggestion !!! Set RF A as standby*/
++		/*/if (IS_HARDWARE_TYPE_8192S(pAdapter))*/
++		{
++			PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter2, 0xe, 1);
++			PHY_SetBBReg(pAdapter, rFPGA0_XB_HSSIParameter2, 0xe, 2);
++
++			/*/ 2008/10/31 MH From SD3 Willi's suggestion. We must read RF 1T table.*/
++			/*/ 2009/01/08 MH From Sd3 Willis. We need to close RFA by SW control*/
++			if (pHalData->rf_type == RF_2T2R || pHalData->rf_type == RF_1T2R) {
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT10, 1);
++				PHY_SetBBReg(pAdapter, rFPGA0_XA_RFInterfaceOE, BIT10, 0);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT26, 0);
++				/*/PHY_SetBBReg(pAdapter, rFPGA0_XB_RFInterfaceOE, BIT10, 0);*/
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT1, 0);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT17, 1);
++			}
++		}
++		pMptCtx->MptRfPath = ODM_RF_PATH_B;
++		break;
++	case ANTENNA_AB:/*/ For 8192S*/
++		p_ofdm_tx->r_tx_antenna		= 0x3;
++		r_ofdm_tx_en_val		= 0x3;
++		p_ofdm_tx->r_ant_l		= 0x3;
++		p_ofdm_tx->r_ant_ht_s1		= 0x3;
++		p_ofdm_tx->r_ant_non_ht_s1	= 0x3;
++		p_cck_txrx->r_ccktx_enable	= 0xC;
++		chgTx = 1;
++		/*/ From SD3Willis suggestion !!! Set RF B as standby*/
++		/*/if (IS_HARDWARE_TYPE_8192S(pAdapter))*/
++		{
++			PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter2, 0xe, 2);
++			PHY_SetBBReg(pAdapter, rFPGA0_XB_HSSIParameter2, 0xe, 2);
++			/* Disable Power save*/
++			/*cosa r_ant_select_ofdm_val = 0x3321333;*/
++			/* 2009/01/08 MH From Sd3 Willis. We need to enable RFA/B by SW control*/
++			if (pHalData->rf_type == RF_2T2R) {
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT10, 0);
++
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT26, 0);
++				/*/PHY_SetBBReg(pAdapter, rFPGA0_XB_RFInterfaceOE, BIT10, 0);*/
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT1, 1);
++				PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFParameter, BIT17, 1);
++			}
++		}
++		pMptCtx->MptRfPath = ODM_RF_PATH_AB;
++		break;
++	default:
++		break;
++	}
++#if 0
++	/*  r_rx_antenna_ofdm, bit0=A, bit1=B, bit2=C, bit3=D */
++	/*  r_cckrx_enable : CCK default, 0=A, 1=B, 2=C, 3=D */
++	/* r_cckrx_enable_2 : CCK option, 0=A, 1=B, 2=C, 3=D	 */
++#endif
++	switch (ulAntennaRx) {
++	case ANTENNA_A:
++		r_rx_antenna_ofdm		= 0x1;	/* A*/
++		p_cck_txrx->r_cckrx_enable	= 0x0;	/* default: A*/
++		p_cck_txrx->r_cckrx_enable_2	= 0x0;	/* option: A*/
++		chgRx = 1;
++		break;
++	case ANTENNA_B:
++		r_rx_antenna_ofdm			= 0x2;	/*/ B*/
++		p_cck_txrx->r_cckrx_enable	= 0x1;	/*/ default: B*/
++		p_cck_txrx->r_cckrx_enable_2	= 0x1;	/*/ option: B*/
++		chgRx = 1;
++		break;
++	case ANTENNA_AB:/*/ For 8192S and 8192E/U...*/
++		r_rx_antenna_ofdm		= 0x3;/*/ AB*/
++		p_cck_txrx->r_cckrx_enable	= 0x0;/*/ default:A*/
++		p_cck_txrx->r_cckrx_enable_2	= 0x1;/*/ option:B*/
++		chgRx = 1;
++		break;
++	default:
++		break;
++	}
++
++
++	if (chgTx && chgRx) {
++		switch (pHalData->rf_chip) {
++		case RF_8225:
++		case RF_8256:
++		case RF_6052:
++			/*/r_ant_sel_cck_val = r_ant_select_cck_val;*/
++			PHY_SetBBReg(pAdapter, rFPGA1_TxInfo, 0x7fffffff, r_ant_select_ofdm_val);		/*/OFDM Tx*/
++			PHY_SetBBReg(pAdapter, rFPGA0_TxInfo, 0x0000000f, r_ofdm_tx_en_val);		/*/OFDM Tx*/
++			PHY_SetBBReg(pAdapter, rOFDM0_TRxPathEnable, 0x0000000f, r_rx_antenna_ofdm);	/*/OFDM Rx*/
++			PHY_SetBBReg(pAdapter, rOFDM1_TRxPathEnable, 0x0000000f, r_rx_antenna_ofdm);	/*/OFDM Rx*/
++			if (IS_HARDWARE_TYPE_8192E(pAdapter)) {
++				PHY_SetBBReg(pAdapter, rOFDM0_TRxPathEnable, 0x000000F0, r_rx_antenna_ofdm);	/*/OFDM Rx*/
++				PHY_SetBBReg(pAdapter, rOFDM1_TRxPathEnable, 0x000000F0, r_rx_antenna_ofdm);	/*/OFDM Rx*/
++			}
++			PHY_SetBBReg(pAdapter, rCCK0_AFESetting, bMaskByte3, r_ant_select_cck_val);/*/r_ant_sel_cck_val); /CCK TxRx*/
++			break;
++
++		default:
++			RTW_INFO("Unsupported RFChipID for switching antenna.\n");
++			break;
++		}
++	}
++}	/* MPT_ProSetRFPath */
++
++
++void hal_mpt_SetAntenna(PADAPTER	pAdapter)
++
++{
++	RTW_INFO("Do %s\n", __func__);
++#ifdef CONFIG_RTL8814A
++	if (IS_HARDWARE_TYPE_8814A(pAdapter)) {
++		mpt_SetRFPath_8814A(pAdapter);
++		return;
++	}
++#endif
++#ifdef CONFIG_RTL8822B
++	if (IS_HARDWARE_TYPE_8822B(pAdapter)) {
++		rtl8822b_mp_config_rfpath(pAdapter);
++		return;
++	}
++#endif
++#ifdef CONFIG_RTL8821C
++	if (IS_HARDWARE_TYPE_8821C(pAdapter)) {
++		rtl8821c_mp_config_rfpath(pAdapter);
++		return;
++	}
++#endif
++#if	defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++	if (IS_HARDWARE_TYPE_JAGUAR(pAdapter)) {
++		mpt_SetRFPath_8812A(pAdapter);
++		return;
++	}
++#endif
++#ifdef CONFIG_RTL8723B
++	if (IS_HARDWARE_TYPE_8723B(pAdapter)) {
++		mpt_SetRFPath_8723B(pAdapter);
++		return;
++	}
++#endif
++
++#ifdef CONFIG_RTL8703B
++	if (IS_HARDWARE_TYPE_8703B(pAdapter)) {
++		mpt_SetRFPath_8703B(pAdapter);
++		return;
++	}
++#endif
++
++#ifdef CONFIG_RTL8723D
++	if (IS_HARDWARE_TYPE_8723D(pAdapter)) {
++		mpt_SetRFPath_8723D(pAdapter);
++		return;
++	}
++#endif
++	/*	else if (IS_HARDWARE_TYPE_8821B(pAdapter))
++			mpt_SetRFPath_8821B(pAdapter);
++		Prepare for 8822B
++		else if (IS_HARDWARE_TYPE_8822B(Context))
++			mpt_SetRFPath_8822B(Context);
++	*/
++	mpt_SetRFPath_819X(pAdapter);
++	RTW_INFO("mpt_SetRFPath_819X Do %s\n", __func__);
++}
++
++s32 hal_mpt_SetThermalMeter(PADAPTER pAdapter, u8 target_ther)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++
++	if (!netif_running(pAdapter->pnetdev)) {
++		return _FAIL;
++	}
++
++
++	if (check_fwstate(&pAdapter->mlmepriv, WIFI_MP_STATE) == _FALSE) {
++		return _FAIL;
++	}
++
++
++	target_ther &= 0xff;
++	if (target_ther < 0x07)
++		target_ther = 0x07;
++	else if (target_ther > 0x1d)
++		target_ther = 0x1d;
++
++	pHalData->EEPROMThermalMeter = target_ther;
++
++	return _SUCCESS;
++}
++
++
++void hal_mpt_TriggerRFThermalMeter(PADAPTER pAdapter)
++{
++	PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x42, BIT17 | BIT16, 0x03);
++
++}
++
++
++u8 hal_mpt_ReadRFThermalMeter(PADAPTER pAdapter)
++
++{
++	u32 ThermalValue = 0;
++
++	ThermalValue = (u1Byte)PHY_QueryRFReg(pAdapter, ODM_RF_PATH_A, 0x42, 0xfc00);	/*0x42: RF Reg[15:10]*/
++	return (u8)ThermalValue;
++
++}
++
++
++void hal_mpt_GetThermalMeter(PADAPTER pAdapter, u8 *value)
++{
++#if 0
++	fw_cmd(pAdapter, IOCMD_GET_THERMAL_METER);
++	rtw_msleep_os(1000);
++	fw_cmd_data(pAdapter, value, 1);
++	*value &= 0xFF;
++#else
++	hal_mpt_TriggerRFThermalMeter(pAdapter);
++	rtw_msleep_os(1000);
++	*value = hal_mpt_ReadRFThermalMeter(pAdapter);
++#endif
++
++}
++
++
++void hal_mpt_SetSingleCarrierTx(PADAPTER pAdapter, u8 bStart)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++
++	pAdapter->mppriv.MptCtx.bSingleCarrier = bStart;
++
++	if (bStart) {/*/ Start Single Carrier.*/
++		/*/ Start Single Carrier.*/
++		/*/ 1. if OFDM block on?*/
++		if (!PHY_QueryBBReg(pAdapter, rFPGA0_RFMOD, bOFDMEn))
++			PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bOFDMEn, 1); /*set OFDM block on*/
++
++		/*/ 2. set CCK test mode off, set to CCK normal mode*/
++		PHY_SetBBReg(pAdapter, rCCK0_System, bCCKBBMode, 0);
++
++		/*/ 3. turn on scramble setting*/
++		PHY_SetBBReg(pAdapter, rCCK0_System, bCCKScramble, 1);
++
++		/*/ 4. Turn On Continue Tx and turn off the other test modes.*/
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) || defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++		if (IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(pAdapter))
++			PHY_SetBBReg(pAdapter, rSingleTone_ContTx_Jaguar, BIT18 | BIT17 | BIT16, OFDM_SingleCarrier);
++		else
++#endif /* CONFIG_RTL8812A || CONFIG_RTL8821A || CONFIG_RTL8814A || CONFIG_RTL8822B || CONFIG_RTL8821C */
++			PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_SingleCarrier);
++
++	} else {
++		/*/ Stop Single Carrier.*/
++		/*/ Stop Single Carrier.*/
++		/*/ Turn off all test modes.*/
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) || defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++		if (IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(pAdapter))
++			PHY_SetBBReg(pAdapter, rSingleTone_ContTx_Jaguar, BIT18 | BIT17 | BIT16, OFDM_ALL_OFF);
++		else
++#endif /* CONFIG_RTL8812A || CONFIG_RTL8821A || CONFIG_RTL8814A || CONFIG_RTL8822B || CONFIG_RTL8821C */
++			PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ALL_OFF);
++
++		rtw_msleep_os(10);
++		/*/BB Reset*/
++		PHY_SetBBReg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
++		PHY_SetBBReg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
++	}
++}
++
++
++void hal_mpt_SetSingleToneTx(PADAPTER pAdapter, u8 bStart)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT		pMptCtx = &(pAdapter->mppriv.MptCtx);
++	u4Byte			ulAntennaTx = pHalData->AntennaTxPath;
++	static u4Byte		regRF = 0, regBB0 = 0, regBB1 = 0, regBB2 = 0, regBB3 = 0;
++	u8 rfPath;
++
++	switch (ulAntennaTx) {
++	case ANTENNA_B:
++		rfPath = ODM_RF_PATH_B;
++		break;
++	case ANTENNA_C:
++		rfPath = ODM_RF_PATH_C;
++		break;
++	case ANTENNA_D:
++		rfPath = ODM_RF_PATH_D;
++		break;
++	case ANTENNA_A:
++	default:
++		rfPath = ODM_RF_PATH_A;
++		break;
++	}
++
++	pAdapter->mppriv.MptCtx.bSingleTone = bStart;
++	if (bStart) {
++		/*/ Start Single Tone.*/
++		/*/ <20120326, Kordan> To amplify the power of tone for Xtal calibration. (asked by Edlu)*/
++		if (IS_HARDWARE_TYPE_8188E(pAdapter)) {
++			regRF = PHY_QueryRFReg(pAdapter, rfPath, LNA_Low_Gain_3, bRFRegOffsetMask);
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, LNA_Low_Gain_3, BIT1, 0x1); /*/ RF LO enabled*/
++			PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bCCKEn, 0x0);
++			PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bOFDMEn, 0x0);
++		} else if (IS_HARDWARE_TYPE_8192E(pAdapter)) { /*/ USB need to do RF LO disable first, PCIE isn't required to follow this order.*/
++			/*/Set MAC REG 88C: Prevent SingleTone Fail*/
++			PHY_SetMacReg(pAdapter, 0x88C, 0xF00000, 0xF);
++			PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, LNA_Low_Gain_3, BIT1, 0x1); /*/ RF LO disabled*/
++			PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, RF_AC, 0xF0000, 0x2); /*/ Tx mode*/
++		} else if (IS_HARDWARE_TYPE_8723B(pAdapter)) {
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_A) {
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, 0xF0000, 0x2); /*/ Tx mode*/
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x56, 0xF, 0x1); /*/ RF LO enabled*/
++			} else {
++				/*/ S0/S1 both use PATH A to configure*/
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, 0xF0000, 0x2); /*/ Tx mode*/
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x76, 0xF, 0x1); /*/ RF LO enabled*/
++			}
++		} else if (IS_HARDWARE_TYPE_8703B(pAdapter)) {
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_A) {
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, 0xF0000, 0x2); /* Tx mode */
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x53, 0xF000, 0x1); /* RF LO enabled */
++			}
++		} else if (IS_HARDWARE_TYPE_8188F(pAdapter)) {
++			/*Set BB REG 88C: Prevent SingleTone Fail*/
++			PHY_SetBBReg(pAdapter, rFPGA0_AnalogParameter4, 0xF00000, 0xF);
++			PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, LNA_Low_Gain_3, BIT1, 0x1);
++			PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, RF_AC, 0xF0000, 0x2);
++
++		} else if (IS_HARDWARE_TYPE_8723D(pAdapter)) {
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_A) {
++				PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bCCKEn|bOFDMEn, 0);
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, BIT16, 0x0);
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x53, BIT0, 0x1);
++			} else {/* S0/S1 both use PATH A to configure */
++				PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bCCKEn|bOFDMEn, 0);
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, BIT16, 0x0);
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x63, BIT0, 0x1);
++			}
++		} else if (IS_HARDWARE_TYPE_JAGUAR(pAdapter) || IS_HARDWARE_TYPE_8822B(pAdapter)) {
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++			u1Byte p = ODM_RF_PATH_A;
++
++			regRF = PHY_QueryRFReg(pAdapter, ODM_RF_PATH_A, RF_AC_Jaguar, bRFRegOffsetMask);
++			regBB0 = PHY_QueryBBReg(pAdapter, rA_RFE_Pinmux_Jaguar, bMaskDWord);
++			regBB1 = PHY_QueryBBReg(pAdapter, rB_RFE_Pinmux_Jaguar, bMaskDWord);
++			regBB2 = PHY_QueryBBReg(pAdapter, rA_RFE_Pinmux_Jaguar + 4, bMaskDWord);
++			regBB3 = PHY_QueryBBReg(pAdapter, rB_RFE_Pinmux_Jaguar + 4, bMaskDWord);
++
++			PHY_SetBBReg(pAdapter, rOFDMCCKEN_Jaguar, BIT29 | BIT28, 0x0); /*/ Disable CCK and OFDM*/
++
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_AB) {
++				for (p = ODM_RF_PATH_A; p <= ODM_RF_PATH_B; ++p) {
++					PHY_SetRFReg(pAdapter, p, RF_AC_Jaguar, 0xF0000, 0x2); /*/ Tx mode: RF0x00[19:16]=4'b0010 */
++					PHY_SetRFReg(pAdapter, p, RF_AC_Jaguar, 0x1F, 0x0); /*/ Lowest RF gain index: RF_0x0[4:0] = 0*/
++					PHY_SetRFReg(pAdapter, p, LNA_Low_Gain_3, BIT1, 0x1); /*/ RF LO enabled*/
++				}
++			} else {
++				PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, RF_AC_Jaguar, 0xF0000, 0x2); /*/ Tx mode: RF0x00[19:16]=4'b0010 */
++				PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, RF_AC_Jaguar, 0x1F, 0x0); /*/ Lowest RF gain index: RF_0x0[4:0] = 0*/
++				PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, LNA_Low_Gain_3, BIT1, 0x1); /*/ RF LO enabled*/
++			}
++
++			PHY_SetBBReg(pAdapter, rA_RFE_Pinmux_Jaguar, 0xFF00F0, 0x77007);  /*/ 0xCB0[[23:16, 7:4] = 0x77007*/
++			PHY_SetBBReg(pAdapter, rB_RFE_Pinmux_Jaguar, 0xFF00F0, 0x77007);  /*/ 0xCB0[[23:16, 7:4] = 0x77007*/
++
++			if (pHalData->ExternalPA_5G) {
++				PHY_SetBBReg(pAdapter, rA_RFE_Pinmux_Jaguar + 4, 0xFF00000, 0x12); /*/ 0xCB4[23:16] = 0x12*/
++				PHY_SetBBReg(pAdapter, rB_RFE_Pinmux_Jaguar + 4, 0xFF00000, 0x12); /*/ 0xEB4[23:16] = 0x12*/
++			} else if (pHalData->ExternalPA_2G) {
++				PHY_SetBBReg(pAdapter, rA_RFE_Pinmux_Jaguar + 4, 0xFF00000, 0x11); /*/ 0xCB4[23:16] = 0x11*/
++				PHY_SetBBReg(pAdapter, rB_RFE_Pinmux_Jaguar + 4, 0xFF00000, 0x11); /*/ 0xEB4[23:16] = 0x11*/
++			}
++#endif
++		}
++#ifdef CONFIG_RTL8814A
++		else if (IS_HARDWARE_TYPE_8814A(pAdapter))
++			mpt_SetSingleTone_8814A(pAdapter, TRUE, FALSE);
++#endif
++		else	/*/ Turn On SingleTone and turn off the other test modes.*/
++			PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_SingleTone);
++
++		write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000500);
++		write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000500);
++
++	} else {/*/ Stop Single Ton e.*/
++
++		if (IS_HARDWARE_TYPE_8188E(pAdapter)) {
++			PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, LNA_Low_Gain_3, bRFRegOffsetMask, regRF);
++			PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bCCKEn, 0x1);
++			PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bOFDMEn, 0x1);
++		} else if (IS_HARDWARE_TYPE_8192E(pAdapter)) {
++			PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, RF_AC, 0xF0000, 0x3);/*/ Tx mode*/
++			PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, LNA_Low_Gain_3, BIT1, 0x0);/*/ RF LO disabled */
++			/*/ RESTORE MAC REG 88C: Enable RF Functions*/
++			PHY_SetMacReg(pAdapter, 0x88C, 0xF00000, 0x0);
++		} else if (IS_HARDWARE_TYPE_8723B(pAdapter)) {
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_A) {
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, 0xF0000, 0x3); /*/ Rx mode*/
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x56, 0xF, 0x0); /*/ RF LO disabled*/
++			} else {
++				/*/ S0/S1 both use PATH A to configure*/
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, 0xF0000, 0x3); /*/ Rx mode*/
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x76, 0xF, 0x0); /*/ RF LO disabled*/
++			}
++		} else if (IS_HARDWARE_TYPE_8703B(pAdapter)) {
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_A) {
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, 0xF0000, 0x3); /* Rx mode */
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x53, 0xF000, 0x0); /* RF LO disabled */
++			}
++		} else if (IS_HARDWARE_TYPE_8188F(pAdapter)) {
++			PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, RF_AC, 0xF0000, 0x3); /*Tx mode*/
++			PHY_SetRFReg(pAdapter, pMptCtx->MptRfPath, LNA_Low_Gain_3, BIT1, 0x0); /*RF LO disabled*/
++			/*Set BB REG 88C: Prevent SingleTone Fail*/
++			PHY_SetBBReg(pAdapter, rFPGA0_AnalogParameter4, 0xF00000, 0xc);
++		} else if (IS_HARDWARE_TYPE_8723D(pAdapter)) {
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_A) {
++				PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bCCKEn|bOFDMEn, 0x3);
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, BIT16, 0x1);
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x53, BIT0, 0x0);
++			} else {	/* S0/S1 both use PATH A to configure */
++				PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bCCKEn|bOFDMEn, 0x3);
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, RF_AC, BIT16, 0x1);
++				PHY_SetRFReg(pAdapter, ODM_RF_PATH_A, 0x63, BIT0, 0x0);
++			}
++		} else if (IS_HARDWARE_TYPE_JAGUAR(pAdapter) || IS_HARDWARE_TYPE_8822B(pAdapter)) {
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++			u1Byte p = ODM_RF_PATH_A;
++
++			PHY_SetBBReg(pAdapter, rOFDMCCKEN_Jaguar, BIT29 | BIT28, 0x3); /*/ Disable CCK and OFDM*/
++
++			if (pMptCtx->MptRfPath == ODM_RF_PATH_AB) {
++				for (p = ODM_RF_PATH_A; p <= ODM_RF_PATH_B; ++p) {
++					PHY_SetRFReg(pAdapter, p, RF_AC_Jaguar, bRFRegOffsetMask, regRF);
++					PHY_SetRFReg(pAdapter, p, LNA_Low_Gain_3, BIT1, 0x0); /*/ RF LO disabled*/
++				}
++			} else {
++				PHY_SetRFReg(pAdapter, p, RF_AC_Jaguar, bRFRegOffsetMask, regRF);
++				PHY_SetRFReg(pAdapter, p, LNA_Low_Gain_3, BIT1, 0x0); /*/ RF LO disabled*/
++			}
++
++			PHY_SetBBReg(pAdapter, rA_RFE_Pinmux_Jaguar, bMaskDWord, regBB0);
++			PHY_SetBBReg(pAdapter, rB_RFE_Pinmux_Jaguar, bMaskDWord, regBB1);
++			PHY_SetBBReg(pAdapter, rA_RFE_Pinmux_Jaguar + 4, bMaskDWord, regBB2);
++			PHY_SetBBReg(pAdapter, rB_RFE_Pinmux_Jaguar + 4, bMaskDWord, regBB3);
++#endif
++		}
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++		else if (IS_HARDWARE_TYPE_8814A(pAdapter))
++			mpt_SetSingleTone_8814A(pAdapter, FALSE, FALSE);
++
++		else/*/ Turn off all test modes.*/
++			PHY_SetBBReg(pAdapter, rSingleTone_ContTx_Jaguar, BIT18 | BIT17 | BIT16, OFDM_ALL_OFF);
++#endif
++		write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000100);
++		write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000100);
++
++	}
++}
++
++void hal_mpt_SetCarrierSuppressionTx(PADAPTER pAdapter, u8 bStart)
++{
++	u8 Rate;
++
++	pAdapter->mppriv.MptCtx.bCarrierSuppression = bStart;
++
++	Rate = HwRateToMPTRate(pAdapter->mppriv.rateidx);
++	if (bStart) {/* Start Carrier Suppression.*/
++		if (Rate <= MPT_RATE_11M) {
++			/*/ 1. if CCK block on?*/
++			if (!read_bbreg(pAdapter, rFPGA0_RFMOD, bCCKEn))
++				write_bbreg(pAdapter, rFPGA0_RFMOD, bCCKEn, bEnable);/*set CCK block on*/
++
++			/*/Turn Off All Test Mode*/
++			if (IS_HARDWARE_TYPE_JAGUAR(pAdapter) || IS_HARDWARE_TYPE_8814A(pAdapter) /*|| IS_HARDWARE_TYPE_8822B(pAdapter)*/)
++				PHY_SetBBReg(pAdapter, 0x914, BIT18 | BIT17 | BIT16, OFDM_ALL_OFF); /* rSingleTone_ContTx_Jaguar*/
++			else
++				PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ALL_OFF);
++
++			write_bbreg(pAdapter, rCCK0_System, bCCKBBMode, 0x2);    /*/transmit mode*/
++			write_bbreg(pAdapter, rCCK0_System, bCCKScramble, 0x0);  /*/turn off scramble setting*/
++
++			/*/Set CCK Tx Test Rate*/
++			write_bbreg(pAdapter, rCCK0_System, bCCKTxRate, 0x0);    /*/Set FTxRate to 1Mbps*/
++		}
++
++		/*Set for dynamic set Power index*/
++		write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000500);
++		write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000500);
++
++	} else {/* Stop Carrier Suppression.*/
++
++		if (Rate <= MPT_RATE_11M) {
++			write_bbreg(pAdapter, rCCK0_System, bCCKBBMode, 0x0);    /*normal mode*/
++			write_bbreg(pAdapter, rCCK0_System, bCCKScramble, 0x1);  /*turn on scramble setting*/
++
++			/*BB Reset*/
++			write_bbreg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
++			write_bbreg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
++		}
++		/*Stop for dynamic set Power index*/
++		write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000100);
++		write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000100);
++	}
++	RTW_INFO("\n MPT_ProSetCarrierSupp() is finished.\n");
++}
++
++void hal_mpt_SetCCKContinuousTx(PADAPTER pAdapter, u8 bStart)
++{
++	u32 cckrate;
++
++	if (bStart) {
++
++		/*/ 1. if CCK block on?*/
++		if (!read_bbreg(pAdapter, rFPGA0_RFMOD, bCCKEn))
++			write_bbreg(pAdapter, rFPGA0_RFMOD, bCCKEn, bEnable);/*set CCK block on*/
++
++		/*/Turn Off All Test Mode*/
++		if (IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(pAdapter))
++			PHY_SetBBReg(pAdapter, 0x914, BIT18 | BIT17 | BIT16, OFDM_ALL_OFF); /*rSingleTone_ContTx_Jaguar*/
++		else
++			PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ALL_OFF);
++
++		/*/Set CCK Tx Test Rate*/
++
++		cckrate  = pAdapter->mppriv.rateidx;
++
++		write_bbreg(pAdapter, rCCK0_System, bCCKTxRate, cckrate);
++		write_bbreg(pAdapter, rCCK0_System, bCCKBBMode, 0x2);	/*/transmit mode*/
++		write_bbreg(pAdapter, rCCK0_System, bCCKScramble, bEnable);	/*/turn on scramble setting*/
++
++		if (!IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(pAdapter)) {
++			PHY_SetBBReg(pAdapter, 0xa14, 0x300, 0x3);  /* rCCK0_RxHP 0xa15[1:0] = 11 force cck rxiq = 0*/
++			PHY_SetBBReg(pAdapter, rOFDM0_TRMuxPar, 0x10000, 0x1);		/*/ 0xc08[16] = 1 force ofdm rxiq = ofdm txiq*/
++			PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter2, BIT14, 1);
++			PHY_SetBBReg(pAdapter, 0x0B34, BIT14, 1);
++		}
++
++		write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000500);
++		write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000500);
++
++	} else {
++
++		write_bbreg(pAdapter, rCCK0_System, bCCKBBMode, 0x0);	/*/normal mode*/
++		write_bbreg(pAdapter, rCCK0_System, bCCKScramble, bEnable);	/*/turn on scramble setting*/
++
++		if (!IS_HARDWARE_TYPE_JAGUAR(pAdapter)  && !IS_HARDWARE_TYPE_8814A(pAdapter) /* && !IS_HARDWARE_TYPE_8822B(pAdapter) */) {
++			PHY_SetBBReg(pAdapter, 0xa14, 0x300, 0x0);/* rCCK0_RxHP 0xa15[1:0] = 2b00*/
++			PHY_SetBBReg(pAdapter, rOFDM0_TRMuxPar, 0x10000, 0x0);		/*/ 0xc08[16] = 0*/
++			PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter2, BIT14, 0);
++			PHY_SetBBReg(pAdapter, 0x0B34, BIT14, 0);
++		}
++
++		/*/BB Reset*/
++		write_bbreg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
++		write_bbreg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
++
++		write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000100);
++		write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000100);
++	}
++
++	pAdapter->mppriv.MptCtx.bCckContTx = bStart;
++	pAdapter->mppriv.MptCtx.bOfdmContTx = _FALSE;
++}
++
++void hal_mpt_SetOFDMContinuousTx(PADAPTER pAdapter, u8 bStart)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++
++	if (bStart) {
++		if (!PHY_QueryBBReg(pAdapter, rFPGA0_RFMOD, bOFDMEn))
++			PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bOFDMEn, 1);/*/set OFDM block on*/
++
++		/*/ 2. set CCK test mode off, set to CCK normal mode*/
++		PHY_SetBBReg(pAdapter, rCCK0_System, bCCKBBMode, 0);
++
++		/*/ 3. turn on scramble setting*/
++		PHY_SetBBReg(pAdapter, rCCK0_System, bCCKScramble, 1);
++
++		if (!IS_HARDWARE_TYPE_JAGUAR(pAdapter) && !IS_HARDWARE_TYPE_8814A(pAdapter) /*&& !IS_HARDWARE_TYPE_8822B(pAdapter)*/) {
++			PHY_SetBBReg(pAdapter, 0xa14, 0x300, 0x3);			/* rCCK0_RxHP 0xa15[1:0] = 2b'11*/
++			PHY_SetBBReg(pAdapter, rOFDM0_TRMuxPar, 0x10000, 0x1);		/* 0xc08[16] = 1*/
++		}
++
++		/*/ 4. Turn On Continue Tx and turn off the other test modes.*/
++		if (IS_HARDWARE_TYPE_JAGUAR(pAdapter) || IS_HARDWARE_TYPE_8814A(pAdapter) /*|| IS_HARDWARE_TYPE_8822B(pAdapter)*/)
++			PHY_SetBBReg(pAdapter, 0x914, BIT18 | BIT17 | BIT16, OFDM_ContinuousTx); /*rSingleTone_ContTx_Jaguar*/
++		else
++			PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ContinuousTx);
++
++		write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000500);
++		write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000500);
++
++	} else {
++		if (IS_HARDWARE_TYPE_JAGUAR(pAdapter) || IS_HARDWARE_TYPE_8814A(pAdapter) /*|| IS_HARDWARE_TYPE_8822B(pAdapter)*/)
++			PHY_SetBBReg(pAdapter, 0x914, BIT18 | BIT17 | BIT16, OFDM_ALL_OFF);
++		else
++			PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ALL_OFF);
++		/*/Delay 10 ms*/
++		rtw_msleep_os(10);
++
++		if (!IS_HARDWARE_TYPE_JAGUAR(pAdapter) && !IS_HARDWARE_TYPE_8814A(pAdapter) /*&&! IS_HARDWARE_TYPE_8822B(pAdapter)*/) {
++			PHY_SetBBReg(pAdapter, 0xa14, 0x300, 0x0);/*/ 0xa15[1:0] = 0*/
++			PHY_SetBBReg(pAdapter, rOFDM0_TRMuxPar, 0x10000, 0x0);/*/ 0xc08[16] = 0*/
++		}
++
++		/*/BB Reset*/
++		PHY_SetBBReg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
++		PHY_SetBBReg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
++
++		write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000100);
++		write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000100);
++	}
++
++	pAdapter->mppriv.MptCtx.bCckContTx = _FALSE;
++	pAdapter->mppriv.MptCtx.bOfdmContTx = bStart;
++}
++
++void hal_mpt_SetContinuousTx(PADAPTER pAdapter, u8 bStart)
++{
++	u8 Rate;
++
++	Rate = HwRateToMPTRate(pAdapter->mppriv.rateidx);
++	pAdapter->mppriv.MptCtx.bStartContTx = bStart;
++
++	if (Rate <= MPT_RATE_11M)
++		hal_mpt_SetCCKContinuousTx(pAdapter, bStart);
++	else if (Rate >= MPT_RATE_6M)
++		hal_mpt_SetOFDMContinuousTx(pAdapter, bStart);
++}
++
++u32 hal_mpt_query_phytxok(PADAPTER	pAdapter)
++{
++	PMPT_CONTEXT pMptCtx = &(pAdapter->mppriv.MptCtx);
++	RT_PMAC_TX_INFO PMacTxInfo = pMptCtx->PMacTxInfo;
++	u16 count = 0;
++
++	if (IS_MPT_CCK_RATE(PMacTxInfo.TX_RATE))
++		count = PHY_QueryBBReg(pAdapter, 0xF50, bMaskLWord); /* [15:0]*/
++	else
++		count = PHY_QueryBBReg(pAdapter, 0xF50, bMaskHWord); /* [31:16]*/
++
++	if (count > 50000) {
++		rtw_reset_phy_trx_ok_counters(pAdapter);
++		pAdapter->mppriv.tx.sended += count;
++		count = 0;
++	}
++
++	return pAdapter->mppriv.tx.sended + count;
++
++}
++
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8821B) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++/* for HW TX mode */
++static	VOID mpt_StopCckContTx(
++	PADAPTER	pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);
++	u1Byte			u1bReg;
++
++	pMptCtx->bCckContTx = FALSE;
++	pMptCtx->bOfdmContTx = FALSE;
++
++	PHY_SetBBReg(pAdapter, rCCK0_System, bCCKBBMode, 0x0);	/*normal mode*/
++	PHY_SetBBReg(pAdapter, rCCK0_System, bCCKScramble, 0x1);	/*turn on scramble setting*/
++
++	if (!IS_HARDWARE_TYPE_JAGUAR(pAdapter) && !IS_HARDWARE_TYPE_JAGUAR2(pAdapter)) {
++		PHY_SetBBReg(pAdapter, 0xa14, 0x300, 0x0);			/* 0xa15[1:0] = 2b00*/
++		PHY_SetBBReg(pAdapter, rOFDM0_TRMuxPar, 0x10000, 0x0);		/* 0xc08[16] = 0*/
++
++		PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter2, BIT14, 0);
++		PHY_SetBBReg(pAdapter, 0x0B34, BIT14, 0);
++	}
++
++	/*BB Reset*/
++	PHY_SetBBReg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
++	PHY_SetBBReg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
++
++	PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000100);
++	PHY_SetBBReg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000100);
++
++}	/* mpt_StopCckContTx */
++
++
++static	VOID mpt_StopOfdmContTx(
++	PADAPTER	pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);
++	u1Byte			u1bReg;
++	u4Byte			data;
++
++	pMptCtx->bCckContTx = FALSE;
++	pMptCtx->bOfdmContTx = FALSE;
++
++	if (IS_HARDWARE_TYPE_JAGUAR(pAdapter) || IS_HARDWARE_TYPE_JAGUAR2(pAdapter))
++		PHY_SetBBReg(pAdapter, 0x914, BIT18 | BIT17 | BIT16, OFDM_ALL_OFF);
++	else
++		PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ALL_OFF);
++
++	rtw_mdelay_os(10);
++
++	if (!IS_HARDWARE_TYPE_JAGUAR(pAdapter) && !IS_HARDWARE_TYPE_JAGUAR2(pAdapter)) {
++		PHY_SetBBReg(pAdapter, 0xa14, 0x300, 0x0);			/* 0xa15[1:0] = 0*/
++		PHY_SetBBReg(pAdapter, rOFDM0_TRMuxPar, 0x10000, 0x0);		/* 0xc08[16] = 0*/
++	}
++
++	/*BB Reset*/
++	PHY_SetBBReg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
++	PHY_SetBBReg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
++
++	PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000100);
++	PHY_SetBBReg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000100);
++}	/* mpt_StopOfdmContTx */
++
++
++static	VOID mpt_StartCckContTx(
++	PADAPTER		pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);
++	u4Byte			cckrate;
++
++	/* 1. if CCK block on */
++	if (!PHY_QueryBBReg(pAdapter, rFPGA0_RFMOD, bCCKEn))
++		PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bCCKEn, 1);/*set CCK block on*/
++
++	/*Turn Off All Test Mode*/
++	if (IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(pAdapter))
++		PHY_SetBBReg(pAdapter, 0x914, BIT18 | BIT17 | BIT16, OFDM_ALL_OFF);
++	else
++		PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ALL_OFF);
++
++	cckrate  = pAdapter->mppriv.rateidx;
++
++	PHY_SetBBReg(pAdapter, rCCK0_System, bCCKTxRate, cckrate);
++
++	PHY_SetBBReg(pAdapter, rCCK0_System, bCCKBBMode, 0x2);	/*transmit mode*/
++	PHY_SetBBReg(pAdapter, rCCK0_System, bCCKScramble, 0x1);	/*turn on scramble setting*/
++
++	if (!IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(pAdapter)) {
++		PHY_SetBBReg(pAdapter, 0xa14, 0x300, 0x3);			/* 0xa15[1:0] = 11 force cck rxiq = 0*/
++		PHY_SetBBReg(pAdapter, rOFDM0_TRMuxPar, 0x10000, 0x1);		/* 0xc08[16] = 1 force ofdm rxiq = ofdm txiq*/
++		PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter2, BIT14, 1);
++		PHY_SetBBReg(pAdapter, 0x0B34, BIT14, 1);
++	}
++
++	PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000500);
++	PHY_SetBBReg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000500);
++
++	pMptCtx->bCckContTx = TRUE;
++	pMptCtx->bOfdmContTx = FALSE;
++
++}	/* mpt_StartCckContTx */
++
++
++static	VOID mpt_StartOfdmContTx(
++	PADAPTER		pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(pAdapter);
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);
++
++	/* 1. if OFDM block on?*/
++	if (!PHY_QueryBBReg(pAdapter, rFPGA0_RFMOD, bOFDMEn))
++		PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, bOFDMEn, 1);/*set OFDM block on*/
++
++	/* 2. set CCK test mode off, set to CCK normal mode*/
++	PHY_SetBBReg(pAdapter, rCCK0_System, bCCKBBMode, 0);
++
++	/* 3. turn on scramble setting*/
++	PHY_SetBBReg(pAdapter, rCCK0_System, bCCKScramble, 1);
++
++	if (!IS_HARDWARE_TYPE_JAGUAR(pAdapter) && !IS_HARDWARE_TYPE_JAGUAR2(pAdapter)) {
++		PHY_SetBBReg(pAdapter, 0xa14, 0x300, 0x3);			/* 0xa15[1:0] = 2b'11*/
++		PHY_SetBBReg(pAdapter, rOFDM0_TRMuxPar, 0x10000, 0x1);		/* 0xc08[16] = 1*/
++	}
++
++	/* 4. Turn On Continue Tx and turn off the other test modes.*/
++	if (IS_HARDWARE_TYPE_JAGUAR(pAdapter) || IS_HARDWARE_TYPE_JAGUAR2(pAdapter))
++		PHY_SetBBReg(pAdapter, 0x914, BIT18 | BIT17 | BIT16, OFDM_ContinuousTx);
++	else
++		PHY_SetBBReg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ContinuousTx);
++
++	PHY_SetBBReg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000500);
++	PHY_SetBBReg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000500);
++
++	pMptCtx->bCckContTx = FALSE;
++	pMptCtx->bOfdmContTx = TRUE;
++}	/* mpt_StartOfdmContTx */
++
++
++void mpt_ProSetPMacTx(PADAPTER	Adapter)
++{
++	PMPT_CONTEXT	pMptCtx		=	&(Adapter->mppriv.MptCtx);
++	RT_PMAC_TX_INFO	PMacTxInfo	=	pMptCtx->PMacTxInfo;
++	u32			u4bTmp;
++
++	DbgPrint("SGI %d bSPreamble %d bSTBC %d bLDPC %d NDP_sound %d\n", PMacTxInfo.bSGI, PMacTxInfo.bSPreamble, PMacTxInfo.bSTBC, PMacTxInfo.bLDPC, PMacTxInfo.NDP_sound);
++	DbgPrint("TXSC %d BandWidth %d PacketPeriod %d PacketCount %d PacketLength %d PacketPattern %d\n", PMacTxInfo.TX_SC, PMacTxInfo.BandWidth, PMacTxInfo.PacketPeriod, PMacTxInfo.PacketCount,
++		 PMacTxInfo.PacketLength, PMacTxInfo.PacketPattern);
++#if 0
++	PRINT_DATA("LSIG ", PMacTxInfo.LSIG, 3);
++	PRINT_DATA("HT_SIG", PMacTxInfo.HT_SIG, 6);
++	PRINT_DATA("VHT_SIG_A", PMacTxInfo.VHT_SIG_A, 6);
++	PRINT_DATA("VHT_SIG_B", PMacTxInfo.VHT_SIG_B, 4);
++	DbgPrint("VHT_SIG_B_CRC %x\n", PMacTxInfo.VHT_SIG_B_CRC);
++	PRINT_DATA("VHT_Delimiter", PMacTxInfo.VHT_Delimiter, 4);
++
++	PRINT_DATA("Src Address", Adapter->mac_addr, 6);
++	PRINT_DATA("Dest Address", PMacTxInfo.MacAddress, 6);
++#endif
++
++	if (PMacTxInfo.bEnPMacTx == FALSE) {
++		if (PMacTxInfo.Mode == CONTINUOUS_TX) {
++			PHY_SetBBReg(Adapter, 0xb04, 0xf, 2);			/*	TX Stop*/
++			if (IS_MPT_CCK_RATE(PMacTxInfo.TX_RATE))
++				mpt_StopCckContTx(Adapter);
++			else
++				mpt_StopOfdmContTx(Adapter);
++		} else if (IS_MPT_CCK_RATE(PMacTxInfo.TX_RATE)) {
++			u4bTmp = PHY_QueryBBReg(Adapter, 0xf50, bMaskLWord);
++			PHY_SetBBReg(Adapter, 0xb1c, bMaskLWord, u4bTmp + 50);
++			PHY_SetBBReg(Adapter, 0xb04, 0xf, 2);		/*TX Stop*/
++		} else
++			PHY_SetBBReg(Adapter, 0xb04, 0xf, 2);		/*	TX Stop*/
++
++		if (PMacTxInfo.Mode == OFDM_Single_Tone_TX) {
++			/* Stop HW TX -> Stop Continuous TX -> Stop RF Setting*/
++			if (IS_MPT_CCK_RATE(PMacTxInfo.TX_RATE))
++				mpt_StopCckContTx(Adapter);
++			else
++				mpt_StopOfdmContTx(Adapter);
++
++			mpt_SetSingleTone_8814A(Adapter, FALSE, TRUE);
++		}
++
++		return;
++	}
++
++	if (PMacTxInfo.Mode == CONTINUOUS_TX) {
++		PMacTxInfo.PacketCount = 1;
++
++		if (IS_MPT_CCK_RATE(PMacTxInfo.TX_RATE))
++			mpt_StartCckContTx(Adapter);
++		else
++			mpt_StartOfdmContTx(Adapter);
++	} else if (PMacTxInfo.Mode == OFDM_Single_Tone_TX) {
++		/* Continuous TX -> HW TX -> RF Setting */
++		PMacTxInfo.PacketCount = 1;
++
++		if (IS_MPT_CCK_RATE(PMacTxInfo.TX_RATE))
++			mpt_StartCckContTx(Adapter);
++		else
++			mpt_StartOfdmContTx(Adapter);
++	} else if (PMacTxInfo.Mode == PACKETS_TX) {
++		if (IS_MPT_CCK_RATE(PMacTxInfo.TX_RATE) && PMacTxInfo.PacketCount == 0)
++			PMacTxInfo.PacketCount = 0xffff;
++	}
++
++	if (IS_MPT_CCK_RATE(PMacTxInfo.TX_RATE)) {
++		/* 0xb1c[0:15] TX packet count 0xb1C[31:16]	SFD*/
++		u4bTmp = PMacTxInfo.PacketCount | (PMacTxInfo.SFD << 16);
++		PHY_SetBBReg(Adapter, 0xb1c, bMaskDWord, u4bTmp);
++		/* 0xb40 7:0 SIGNAL	15:8 SERVICE	31:16 LENGTH*/
++		u4bTmp = PMacTxInfo.SignalField | (PMacTxInfo.ServiceField << 8) | (PMacTxInfo.LENGTH << 16);
++		PHY_SetBBReg(Adapter, 0xb40, bMaskDWord, u4bTmp);
++		u4bTmp = PMacTxInfo.CRC16[0] | (PMacTxInfo.CRC16[1] << 8);
++		PHY_SetBBReg(Adapter, 0xb44, bMaskLWord, u4bTmp);
++
++		if (PMacTxInfo.bSPreamble)
++			PHY_SetBBReg(Adapter, 0xb0c, BIT27, 0);
++		else
++			PHY_SetBBReg(Adapter, 0xb0c, BIT27, 1);
++	} else {
++		PHY_SetBBReg(Adapter, 0xb18, 0xfffff, PMacTxInfo.PacketCount);
++
++		u4bTmp = PMacTxInfo.LSIG[0] | ((PMacTxInfo.LSIG[1]) << 8) | ((PMacTxInfo.LSIG[2]) << 16) | ((PMacTxInfo.PacketPattern) << 24);
++		PHY_SetBBReg(Adapter, 0xb08, bMaskDWord, u4bTmp);	/*	Set 0xb08[23:0] = LSIG, 0xb08[31:24] =  Data init octet*/
++
++		if (PMacTxInfo.PacketPattern == 0x12)
++			u4bTmp = 0x3000000;
++		else
++			u4bTmp = 0;
++	}
++
++	if (IS_MPT_HT_RATE(PMacTxInfo.TX_RATE)) {
++		u4bTmp |= PMacTxInfo.HT_SIG[0] | ((PMacTxInfo.HT_SIG[1]) << 8) | ((PMacTxInfo.HT_SIG[2]) << 16);
++		PHY_SetBBReg(Adapter, 0xb0c, bMaskDWord, u4bTmp);
++		u4bTmp = PMacTxInfo.HT_SIG[3] | ((PMacTxInfo.HT_SIG[4]) << 8) | ((PMacTxInfo.HT_SIG[5]) << 16);
++		PHY_SetBBReg(Adapter, 0xb10, 0xffffff, u4bTmp);
++	} else if (IS_MPT_VHT_RATE(PMacTxInfo.TX_RATE)) {
++		u4bTmp |= PMacTxInfo.VHT_SIG_A[0] | ((PMacTxInfo.VHT_SIG_A[1]) << 8) | ((PMacTxInfo.VHT_SIG_A[2]) << 16);
++		PHY_SetBBReg(Adapter, 0xb0c, bMaskDWord, u4bTmp);
++		u4bTmp = PMacTxInfo.VHT_SIG_A[3] | ((PMacTxInfo.VHT_SIG_A[4]) << 8) | ((PMacTxInfo.VHT_SIG_A[5]) << 16);
++		PHY_SetBBReg(Adapter, 0xb10, 0xffffff, u4bTmp);
++
++		_rtw_memcpy(&u4bTmp, PMacTxInfo.VHT_SIG_B, 4);
++		PHY_SetBBReg(Adapter, 0xb14, bMaskDWord, u4bTmp);
++	}
++
++	if (IS_MPT_VHT_RATE(PMacTxInfo.TX_RATE)) {
++		u4bTmp = (PMacTxInfo.VHT_SIG_B_CRC << 24) | PMacTxInfo.PacketPeriod;	/* for TX interval */
++		PHY_SetBBReg(Adapter, 0xb20, bMaskDWord, u4bTmp);
++
++		_rtw_memcpy(&u4bTmp, PMacTxInfo.VHT_Delimiter, 4);
++		PHY_SetBBReg(Adapter, 0xb24, bMaskDWord, u4bTmp);
++
++		/* 0xb28 - 0xb34 24 byte Probe Request MAC Header*/
++		/*& Duration & Frame control*/
++		PHY_SetBBReg(Adapter, 0xb28, bMaskDWord, 0x00000040);
++
++		/* Address1 [0:3]*/
++		u4bTmp = PMacTxInfo.MacAddress[0] | (PMacTxInfo.MacAddress[1] << 8) | (PMacTxInfo.MacAddress[2] << 16) | (PMacTxInfo.MacAddress[3] << 24);
++		PHY_SetBBReg(Adapter, 0xb2C, bMaskDWord, u4bTmp);
++
++		/* Address3 [3:0]*/
++		PHY_SetBBReg(Adapter, 0xb38, bMaskDWord, u4bTmp);
++
++		/* Address2[0:1] & Address1 [5:4]*/
++		u4bTmp = PMacTxInfo.MacAddress[4] | (PMacTxInfo.MacAddress[5] << 8) | (Adapter->mac_addr[0] << 16) | (Adapter->mac_addr[1] << 24);
++		PHY_SetBBReg(Adapter, 0xb30, bMaskDWord, u4bTmp);
++
++		/* Address2 [5:2]*/
++		u4bTmp = Adapter->mac_addr[2] | (Adapter->mac_addr[3] << 8) | (Adapter->mac_addr[4] << 16) | (Adapter->mac_addr[5] << 24);
++		PHY_SetBBReg(Adapter, 0xb34, bMaskDWord, u4bTmp);
++
++		/* Sequence Control & Address3 [5:4]*/
++		/*u4bTmp = PMacTxInfo.MacAddress[4]|(PMacTxInfo.MacAddress[5] << 8) ;*/
++		/*PHY_SetBBReg(Adapter, 0xb38, bMaskDWord, u4bTmp);*/
++	} else {
++		PHY_SetBBReg(Adapter, 0xb20, bMaskDWord, PMacTxInfo.PacketPeriod);	/* for TX interval*/
++		/* & Duration & Frame control */
++		PHY_SetBBReg(Adapter, 0xb24, bMaskDWord, 0x00000040);
++
++		/* 0xb24 - 0xb38 24 byte Probe Request MAC Header*/
++		/* Address1 [0:3]*/
++		u4bTmp = PMacTxInfo.MacAddress[0] | (PMacTxInfo.MacAddress[1] << 8) | (PMacTxInfo.MacAddress[2] << 16) | (PMacTxInfo.MacAddress[3] << 24);
++		PHY_SetBBReg(Adapter, 0xb28, bMaskDWord, u4bTmp);
++
++		/* Address3 [3:0]*/
++		PHY_SetBBReg(Adapter, 0xb34, bMaskDWord, u4bTmp);
++
++		/* Address2[0:1] & Address1 [5:4]*/
++		u4bTmp = PMacTxInfo.MacAddress[4] | (PMacTxInfo.MacAddress[5] << 8) | (Adapter->mac_addr[0] << 16) | (Adapter->mac_addr[1] << 24);
++		PHY_SetBBReg(Adapter, 0xb2c, bMaskDWord, u4bTmp);
++
++		/* Address2 [5:2] */
++		u4bTmp = Adapter->mac_addr[2] | (Adapter->mac_addr[3] << 8) | (Adapter->mac_addr[4] << 16) | (Adapter->mac_addr[5] << 24);
++		PHY_SetBBReg(Adapter, 0xb30, bMaskDWord, u4bTmp);
++
++		/* Sequence Control & Address3 [5:4]*/
++		u4bTmp = PMacTxInfo.MacAddress[4] | (PMacTxInfo.MacAddress[5] << 8);
++		PHY_SetBBReg(Adapter, 0xb38, bMaskDWord, u4bTmp);
++	}
++
++	PHY_SetBBReg(Adapter, 0xb48, bMaskByte3, PMacTxInfo.TX_RATE_HEX);
++
++	/* 0xb4c 3:0 TXSC	5:4	BW	7:6 m_STBC	8 NDP_Sound*/
++	u4bTmp = (PMacTxInfo.TX_SC) | ((PMacTxInfo.BandWidth) << 4) | ((PMacTxInfo.m_STBC - 1) << 6) | ((PMacTxInfo.NDP_sound) << 8);
++	PHY_SetBBReg(Adapter, 0xb4c, 0x1ff, u4bTmp);
++
++	if (IS_HARDWARE_TYPE_8814A(Adapter) || IS_HARDWARE_TYPE_8822B(Adapter)) {
++		u4Byte offset = 0xb44;
++
++		if (IS_MPT_OFDM_RATE(PMacTxInfo.TX_RATE))
++			PHY_SetBBReg(Adapter, offset, 0xc0000000, 0);
++		else if (IS_MPT_HT_RATE(PMacTxInfo.TX_RATE))
++			PHY_SetBBReg(Adapter, offset, 0xc0000000, 1);
++		else if (IS_MPT_VHT_RATE(PMacTxInfo.TX_RATE))
++			PHY_SetBBReg(Adapter, offset, 0xc0000000, 2);
++	}
++
++	PHY_SetBBReg(Adapter, 0xb00, BIT8, 1);		/*	Turn on PMAC*/
++	/* PHY_SetBBReg(Adapter, 0xb04, 0xf, 2);				 */ /* TX Stop */
++	if (IS_MPT_CCK_RATE(PMacTxInfo.TX_RATE)) {
++		PHY_SetBBReg(Adapter, 0xb04, 0xf, 8);		/*TX CCK ON*/
++		PHY_SetBBReg(Adapter, 0xA84, BIT31, 0);
++	} else
++		PHY_SetBBReg(Adapter, 0xb04, 0xf, 4);		/*	TX Ofdm ON	*/
++
++	if (PMacTxInfo.Mode == OFDM_Single_Tone_TX)
++		mpt_SetSingleTone_8814A(Adapter, TRUE, TRUE);
++
++}
++#endif
++
++#endif /* CONFIG_MP_INCLUDE*/
+diff --git a/drivers/net/wireless/rtl8812au/hal/hal_phy.c b/drivers/net/wireless/rtl8812au/hal/hal_phy.c
+new file mode 100644
+index 0000000..5c87dbb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/hal_phy.c
+@@ -0,0 +1,260 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HAL_PHY_C_
++
++#include <drv_types.h>
++
++/* ********************************************************************************
++ *	Constant.
++ * ********************************************************************************
++ * 2008/11/20 MH For Debug only, RF */
++static RF_SHADOW_T RF_Shadow[RF6052_MAX_PATH][RF6052_MAX_REG];
++
++/**
++* Function:	PHY_CalculateBitShift
++*
++* OverView:	Get shifted position of the BitMask
++*
++* Input:
++*			u4Byte		BitMask,
++*
++* Output:	none
++* Return:		u4Byte		Return the shift bit bit position of the mask
++*/
++u32
++PHY_CalculateBitShift(
++	u32 BitMask
++)
++{
++	u32 i;
++
++	for (i = 0; i <= 31; i++) {
++		if (((BitMask >> i) &  0x1) == 1)
++			break;
++	}
++
++	return i;
++}
++
++
++/*
++ * ==> RF shadow Operation API Code Section!!!
++ *
++ *-----------------------------------------------------------------------------
++ * Function:	PHY_RFShadowRead
++ *				PHY_RFShadowWrite
++ *				PHY_RFShadowCompare
++ *				PHY_RFShadowRecorver
++ *				PHY_RFShadowCompareAll
++ *				PHY_RFShadowRecorverAll
++ *				PHY_RFShadowCompareFlagSet
++ *				PHY_RFShadowRecorverFlagSet
++ *
++ * Overview:	When we set RF register, we must write shadow at first.
++ *			When we are running, we must compare shadow abd locate error addr.
++ *			Decide to recorver or not.
++ *
++ * Input:       NONE
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Revised History:
++ * When			Who		Remark
++ * 11/20/2008	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++u32
++PHY_RFShadowRead(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset)
++{
++	return	RF_Shadow[eRFPath][Offset].Value;
++
++}	/* PHY_RFShadowRead */
++
++
++VOID
++PHY_RFShadowWrite(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset,
++	IN	u32				Data)
++{
++	RF_Shadow[eRFPath][Offset].Value = (Data & bRFRegOffsetMask);
++	RF_Shadow[eRFPath][Offset].Driver_Write = _TRUE;
++
++}	/* PHY_RFShadowWrite */
++
++
++BOOLEAN
++PHY_RFShadowCompare(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset)
++{
++	u32	reg;
++	/* Check if we need to check the register */
++	if (RF_Shadow[eRFPath][Offset].Compare == _TRUE) {
++		reg = rtw_hal_read_rfreg(Adapter, eRFPath, Offset, bRFRegOffsetMask);
++		/* Compare shadow and real rf register for 20bits!! */
++		if (RF_Shadow[eRFPath][Offset].Value != reg) {
++			/* Locate error position. */
++			RF_Shadow[eRFPath][Offset].ErrorOrNot = _TRUE;
++		}
++		return RF_Shadow[eRFPath][Offset].ErrorOrNot ;
++	}
++	return _FALSE;
++}	/* PHY_RFShadowCompare */
++
++
++VOID
++PHY_RFShadowRecorver(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset)
++{
++	/* Check if the address is error */
++	if (RF_Shadow[eRFPath][Offset].ErrorOrNot == _TRUE) {
++		/* Check if we need to recorver the register. */
++		if (RF_Shadow[eRFPath][Offset].Recorver == _TRUE) {
++			rtw_hal_write_rfreg(Adapter, eRFPath, Offset, bRFRegOffsetMask,
++					    RF_Shadow[eRFPath][Offset].Value);
++		}
++	}
++
++}	/* PHY_RFShadowRecorver */
++
++
++VOID
++PHY_RFShadowCompareAll(
++	IN	PADAPTER			Adapter)
++{
++	u8		eRFPath = 0 ;
++	u32		Offset = 0, maxReg = GET_RF6052_REAL_MAX_REG(Adapter);
++
++	for (eRFPath = 0; eRFPath < RF6052_MAX_PATH; eRFPath++) {
++		for (Offset = 0; Offset < maxReg; Offset++)
++			PHY_RFShadowCompare(Adapter, eRFPath, Offset);
++	}
++
++}	/* PHY_RFShadowCompareAll */
++
++
++VOID
++PHY_RFShadowRecorverAll(
++	IN	PADAPTER			Adapter)
++{
++	u8		eRFPath = 0;
++	u32		Offset = 0, maxReg = GET_RF6052_REAL_MAX_REG(Adapter);
++
++	for (eRFPath = 0; eRFPath < RF6052_MAX_PATH; eRFPath++) {
++		for (Offset = 0; Offset < maxReg; Offset++)
++			PHY_RFShadowRecorver(Adapter, eRFPath, Offset);
++	}
++
++}	/* PHY_RFShadowRecorverAll */
++
++
++VOID
++PHY_RFShadowCompareFlagSet(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset,
++	IN	u8				Type)
++{
++	/* Set True or False!!! */
++	RF_Shadow[eRFPath][Offset].Compare = Type;
++
++}	/* PHY_RFShadowCompareFlagSet */
++
++
++VOID
++PHY_RFShadowRecorverFlagSet(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset,
++	IN	u8				Type)
++{
++	/* Set True or False!!! */
++	RF_Shadow[eRFPath][Offset].Recorver = Type;
++
++}	/* PHY_RFShadowRecorverFlagSet */
++
++
++VOID
++PHY_RFShadowCompareFlagSetAll(
++	IN	PADAPTER			Adapter)
++{
++	u8		eRFPath = 0;
++	u32		Offset = 0, maxReg = GET_RF6052_REAL_MAX_REG(Adapter);
++
++	for (eRFPath = 0; eRFPath < RF6052_MAX_PATH; eRFPath++) {
++		for (Offset = 0; Offset < maxReg; Offset++) {
++			/* 2008/11/20 MH For S3S4 test, we only check reg 26/27 now!!!! */
++			if (Offset != 0x26 && Offset != 0x27)
++				PHY_RFShadowCompareFlagSet(Adapter, eRFPath, Offset, _FALSE);
++			else
++				PHY_RFShadowCompareFlagSet(Adapter, eRFPath, Offset, _TRUE);
++		}
++	}
++
++}	/* PHY_RFShadowCompareFlagSetAll */
++
++
++VOID
++PHY_RFShadowRecorverFlagSetAll(
++	IN	PADAPTER			Adapter)
++{
++	u8		eRFPath = 0;
++	u32		Offset = 0, maxReg = GET_RF6052_REAL_MAX_REG(Adapter);
++
++	for (eRFPath = 0; eRFPath < RF6052_MAX_PATH; eRFPath++) {
++		for (Offset = 0; Offset < maxReg; Offset++) {
++			/* 2008/11/20 MH For S3S4 test, we only check reg 26/27 now!!!! */
++			if (Offset != 0x26 && Offset != 0x27)
++				PHY_RFShadowRecorverFlagSet(Adapter, eRFPath, Offset, _FALSE);
++			else
++				PHY_RFShadowRecorverFlagSet(Adapter, eRFPath, Offset, _TRUE);
++		}
++	}
++
++}	/* PHY_RFShadowCompareFlagSetAll */
++
++VOID
++PHY_RFShadowRefresh(
++	IN	PADAPTER			Adapter)
++{
++	u8		eRFPath = 0;
++	u32		Offset = 0, maxReg = GET_RF6052_REAL_MAX_REG(Adapter);
++
++	for (eRFPath = 0; eRFPath < RF6052_MAX_PATH; eRFPath++) {
++		for (Offset = 0; Offset < maxReg; Offset++) {
++			RF_Shadow[eRFPath][Offset].Value = 0;
++			RF_Shadow[eRFPath][Offset].Compare = _FALSE;
++			RF_Shadow[eRFPath][Offset].Recorver  = _FALSE;
++			RF_Shadow[eRFPath][Offset].ErrorOrNot = _FALSE;
++			RF_Shadow[eRFPath][Offset].Driver_Write = _FALSE;
++		}
++	}
++
++}	/* PHY_RFShadowRead */
+diff --git a/drivers/net/wireless/rtl8812au/hal/led/hal_usb_led.c b/drivers/net/wireless/rtl8812au/hal/led/hal_usb_led.c
+new file mode 100644
+index 0000000..44324f6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/led/hal_usb_led.c
+@@ -0,0 +1,4287 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++/*
++ *	Description:
++ *		Implementation of LED blinking behavior.
++ *		It toggle off LED and schedule corresponding timer if necessary.
++ *   */
++void
++SwLedBlink(
++	PLED_USB			pLed
++)
++{
++	_adapter			*padapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	u8				bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(padapter, pLed);
++	} else {
++		SwLedOff(padapter, pLed);
++	}
++
++	/* Determine if we shall change LED state again. */
++	pLed->BlinkTimes--;
++	switch (pLed->CurrLedState) {
++
++	case LED_BLINK_NORMAL:
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		break;
++
++	case LED_BLINK_StartToBlink:
++		if (check_fwstate(pmlmepriv, _FW_LINKED) && check_fwstate(pmlmepriv, WIFI_STATION_STATE))
++			bStopBlinking = _TRUE;
++		if (check_fwstate(pmlmepriv, _FW_LINKED) &&
++		    (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) || check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE)))
++			bStopBlinking = _TRUE;
++		else if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		break;
++
++	case LED_BLINK_WPS:
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		break;
++
++
++	default:
++		bStopBlinking = _TRUE;
++		break;
++
++	}
++
++	if (bStopBlinking) {
++		if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++			SwLedOff(padapter, pLed);
++		else if ((check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) && (pLed->bLedOn == _FALSE))
++			SwLedOn(padapter, pLed);
++		else if ((check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) &&  pLed->bLedOn == _TRUE)
++			SwLedOff(padapter, pLed);
++
++		pLed->BlinkTimes = 0;
++		pLed->bLedBlinkInProgress = _FALSE;
++	} else {
++		/* Assign LED state to toggle. */
++		if (pLed->BlinkingLedState == RTW_LED_ON)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++
++		/* Schedule a timer to toggle LED state. */
++		switch (pLed->CurrLedState) {
++		case LED_BLINK_NORMAL:
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++			break;
++
++		case LED_BLINK_SLOWLY:
++		case LED_BLINK_StartToBlink:
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++			break;
++
++		case LED_BLINK_WPS: {
++			if (pLed->BlinkingLedState == RTW_LED_ON)
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LONG_INTERVAL);
++			else
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LONG_INTERVAL);
++		}
++		break;
++
++		default:
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++			break;
++		}
++	}
++}
++
++void
++SwLedBlink1(
++	PLED_USB			pLed
++)
++{
++	_adapter				*padapter = pLed->padapter;
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(padapter);
++	struct led_priv		*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv		*pmlmepriv = &(padapter->mlmepriv);
++	PLED_USB			pLed1 = &(ledpriv->SwLed1);
++	u8					bStopBlinking = _FALSE;
++
++	u32 uLedBlinkNoLinkInterval = LED_BLINK_NO_LINK_INTERVAL_ALPHA; /* add by ylb 20121012 for customer led for alpha */
++	if (pHalData->CustomerID == RT_CID_819x_ALPHA_Dlink)
++		uLedBlinkNoLinkInterval = LED_BLINK_NO_LINK_INTERVAL_ALPHA_500MS;
++
++	if (pHalData->CustomerID == RT_CID_819x_CAMEO)
++		pLed = &(ledpriv->SwLed1);
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(padapter, pLed);
++	} else {
++		SwLedOff(padapter, pLed);
++	}
++
++
++	if (pHalData->CustomerID == RT_CID_DEFAULT) {
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++			if (!pLed1->bSWLedCtrl) {
++				SwLedOn(padapter, pLed1);
++				pLed1->bSWLedCtrl = _TRUE;
++			} else if (!pLed1->bLedOn)
++				SwLedOn(padapter, pLed1);
++		} else {
++			if (!pLed1->bSWLedCtrl) {
++				SwLedOff(padapter, pLed1);
++				pLed1->bSWLedCtrl = _TRUE;
++			} else if (pLed1->bLedOn)
++				SwLedOff(padapter, pLed1);
++		}
++	}
++
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_SLOWLY:
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), uLedBlinkNoLinkInterval);/* change by ylb 20121012 for customer led for alpha */
++		break;
++
++	case LED_BLINK_NORMAL:
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++		break;
++
++	case LED_BLINK_SCAN:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				pLed->bLedLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_NORMAL;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++
++			} else if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				pLed->bLedNoLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), uLedBlinkNoLinkInterval);
++			}
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_TXRX:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				pLed->bLedLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_NORMAL;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++			} else if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				pLed->bLedNoLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), uLedBlinkNoLinkInterval);
++			}
++			pLed->BlinkTimes = 0;
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_WPS:
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		break;
++
++	case LED_BLINK_WPS_STOP:	/* WPS success */
++		if (pLed->BlinkingLedState == RTW_LED_ON) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_WPS_SUCESS_INTERVAL_ALPHA);
++			bStopBlinking = _FALSE;
++		} else
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else {
++				pLed->bLedLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_NORMAL;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++			}
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++		break;
++
++	default:
++		break;
++	}
++
++}
++
++void
++SwLedBlink2(
++	PLED_USB			pLed
++)
++{
++	_adapter				*padapter = pLed->padapter;
++	struct mlme_priv		*pmlmepriv = &(padapter->mlmepriv);
++	u8					bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(padapter, pLed);
++	} else {
++		SwLedOff(padapter, pLed);
++	}
++
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_SCAN:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				SwLedOn(padapter, pLed);
++
++			} else if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				SwLedOff(padapter, pLed);
++			}
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_TXRX:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				SwLedOn(padapter, pLed);
++
++			} else if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				SwLedOff(padapter, pLed);
++			}
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	default:
++		break;
++	}
++
++}
++
++void
++SwLedBlink3(
++	PLED_USB			pLed
++)
++{
++	_adapter			*padapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	u8				bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(padapter, pLed);
++	} else {
++		if (pLed->CurrLedState != LED_BLINK_WPS_STOP)
++			SwLedOff(padapter, pLed);
++	}
++
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_SCAN:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				if (!pLed->bLedOn)
++					SwLedOn(padapter, pLed);
++
++			} else if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				if (pLed->bLedOn)
++					SwLedOff(padapter, pLed);
++
++			}
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_TXRX:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++
++				if (!pLed->bLedOn)
++					SwLedOn(padapter, pLed);
++
++			} else if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++
++				if (pLed->bLedOn)
++					SwLedOff(padapter, pLed);
++
++
++			}
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_WPS:
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		break;
++
++	case LED_BLINK_WPS_STOP:	/* WPS success */
++		if (pLed->BlinkingLedState == RTW_LED_ON) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_WPS_SUCESS_INTERVAL_ALPHA);
++			bStopBlinking = _FALSE;
++		} else
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on)
++				SwLedOff(padapter, pLed);
++			else {
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				SwLedOn(padapter, pLed);
++			}
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++		break;
++
++
++	default:
++		break;
++	}
++
++}
++
++
++void
++SwLedBlink4(
++	PLED_USB			pLed
++)
++{
++	_adapter			*padapter = pLed->padapter;
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	PLED_USB		pLed1 = &(ledpriv->SwLed1);
++	u8				bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(padapter, pLed);
++	} else {
++		SwLedOff(padapter, pLed);
++	}
++
++	if (!pLed1->bLedWPSBlinkInProgress && pLed1->BlinkingLedState == LED_UNKNOWN) {
++		pLed1->BlinkingLedState = RTW_LED_OFF;
++		pLed1->CurrLedState = RTW_LED_OFF;
++		SwLedOff(padapter, pLed1);
++	}
++
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_SLOWLY:
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++		break;
++
++	case LED_BLINK_StartToBlink:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		}
++		break;
++
++	case LED_BLINK_SCAN:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _FALSE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(padapter, pLed);
++			else {
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			}
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(padapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_TXRX:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(padapter, pLed);
++			else {
++				pLed->bLedNoLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			}
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(padapter, pLed);
++			else {
++
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_WPS:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		}
++		break;
++
++	case LED_BLINK_WPS_STOP:	/* WPS authentication fail */
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		break;
++
++	case LED_BLINK_WPS_STOP_OVERLAP:	/* WPS session overlap */
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0) {
++			if (pLed->bLedOn)
++				pLed->BlinkTimes = 1;
++			else
++				bStopBlinking = _TRUE;
++		}
++
++		if (bStopBlinking) {
++			pLed->BlinkTimes = 10;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++		} else {
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		}
++		break;
++
++	case LED_BLINK_ALWAYS_ON:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(padapter, pLed);
++			else {
++				pLed->bLedNoLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			}
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS) {
++				SwLedOff(padapter, pLed);
++			} else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	default:
++		break;
++	}
++
++
++
++}
++
++void
++SwLedBlink5(
++	PLED_USB			pLed
++)
++{
++	_adapter			*padapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	u8				bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(padapter, pLed);
++	} else {
++		SwLedOff(padapter, pLed);
++	}
++
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_SCAN:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS) {
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				if (pLed->bLedOn)
++					SwLedOff(padapter, pLed);
++			} else {
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				if (!pLed->bLedOn)
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(padapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++
++	case LED_BLINK_TXRX:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS) {
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				if (pLed->bLedOn)
++					SwLedOff(padapter, pLed);
++			} else {
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				if (!pLed->bLedOn)
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(padapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	default:
++		break;
++	}
++
++
++
++}
++
++void
++SwLedBlink6(
++	PLED_USB			pLed
++)
++{
++	_adapter			*padapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	u8				bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(padapter, pLed);
++	} else {
++		SwLedOff(padapter, pLed);
++	}
++
++}
++
++void
++SwLedBlink7(
++	PLED_USB			pLed
++)
++{
++	PADAPTER Adapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	BOOLEAN bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(Adapter, pLed);
++	} else {
++		if (pLed->CurrLedState != LED_BLINK_WPS_STOP)
++			SwLedOff(Adapter, pLed);
++	}
++
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_SCAN:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on)
++				SwLedOff(Adapter, pLed);
++			else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				if (!pLed->bLedOn)
++					SwLedOn(Adapter, pLed);
++
++			} else if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				if (pLed->bLedOn)
++					SwLedOff(Adapter, pLed);
++
++			}
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on)
++				SwLedOff(Adapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_NETGEAR);
++			}
++		}
++		break;
++
++	case LED_BLINK_WPS:
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_NETGEAR);
++		break;
++
++	case LED_BLINK_WPS_STOP:	/* WPS success */
++		if (pLed->BlinkingLedState == RTW_LED_ON) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_NETGEAR);
++			bStopBlinking = _FALSE;
++		} else
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on)
++				SwLedOff(Adapter, pLed);
++			else {
++				pLed->CurrLedState = RTW_LED_ON;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				SwLedOn(Adapter, pLed);
++			}
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++		break;
++
++
++	default:
++		break;
++	}
++
++
++}
++
++void
++SwLedBlink8(
++	PLED_USB			pLed
++)
++{
++	PADAPTER Adapter = pLed->padapter;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(Adapter, pLed);
++	} else {
++		SwLedOff(Adapter, pLed);
++	}
++
++
++}
++
++/* page added for Belkin AC950. 20120813 */
++void
++SwLedBlink9(
++	PLED_USB			pLed
++)
++{
++	PADAPTER Adapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	BOOLEAN bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(Adapter, pLed);
++	} else {
++		SwLedOff(Adapter, pLed);
++	}
++	/* RTW_INFO("%s, pLed->CurrLedState=%d, pLed->BlinkingLedState=%d\n", __FUNCTION__, pLed->CurrLedState, pLed->BlinkingLedState); */
++
++
++	switch (pLed->CurrLedState) {
++	case RTW_LED_ON:
++		SwLedOn(Adapter, pLed);
++		break;
++
++	case RTW_LED_OFF:
++		SwLedOff(Adapter, pLed);
++		break;
++
++	case LED_BLINK_SLOWLY:
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++		break;
++
++	case LED_BLINK_StartToBlink:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		}
++		break;
++
++	case LED_BLINK_SCAN:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on)
++				SwLedOff(Adapter, pLed);
++			else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				pLed->bLedLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++			} else if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				pLed->bLedNoLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			}
++			pLed->BlinkTimes = 0;
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_TXRX:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else {
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_WPS:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		}
++		break;
++
++	case LED_BLINK_WPS_STOP:	/* WPS authentication fail */
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		break;
++
++	case LED_BLINK_WPS_STOP_OVERLAP:	/* WPS session overlap		 */
++		pLed->BlinkTimes--;
++		pLed->BlinkCounter--;
++		if (pLed->BlinkCounter == 0) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			pLed->CurrLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		} else {
++			if (pLed->BlinkTimes == 0) {
++				if (pLed->bLedOn)
++					pLed->BlinkTimes = 1;
++				else
++					bStopBlinking = _TRUE;
++			}
++
++			if (bStopBlinking) {
++				pLed->BlinkTimes = 10;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++			} else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++			}
++		}
++		break;
++
++	case LED_BLINK_ALWAYS_ON:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else {
++				if (IS_HARDWARE_TYPE_8812AU(Adapter)) {
++					pLed->BlinkingLedState = RTW_LED_ON;
++					pLed->CurrLedState = LED_BLINK_ALWAYS_ON;
++				} else {
++					pLed->bLedNoLinkBlinkInProgress = _TRUE;
++					pLed->CurrLedState = LED_BLINK_SLOWLY;
++					if (pLed->bLedOn)
++						pLed->BlinkingLedState = RTW_LED_OFF;
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++				}
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			}
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS) {
++				SwLedOff(Adapter, pLed);
++			} else {
++				if (IS_HARDWARE_TYPE_8812AU(Adapter))
++					pLed->BlinkingLedState = RTW_LED_ON;
++				else {
++					if (pLed->bLedOn)
++						pLed->BlinkingLedState = RTW_LED_OFF;
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++				}
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_LINK_IN_PROCESS:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ON_BELKIN);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_OFF_BELKIN);
++		}
++		break;
++
++	case LED_BLINK_AUTH_ERROR:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking == _FALSE) {
++			if (pLed->bLedOn) {
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_ERROR_INTERVAL_BELKIN);
++			} else {
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_ERROR_INTERVAL_BELKIN);
++			}
++		} else {
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_ERROR_INTERVAL_BELKIN);
++		}
++		break;
++
++	default:
++		break;
++	}
++
++}
++
++/* page added for Netgear A6200V2. 20120827 */
++void
++SwLedBlink10(
++	PLED_USB			pLed
++)
++{
++	PADAPTER Adapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	BOOLEAN bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(Adapter, pLed);
++	} else {
++		SwLedOff(Adapter, pLed);
++	}
++
++
++	switch (pLed->CurrLedState) {
++	case RTW_LED_ON:
++		SwLedOn(Adapter, pLed);
++		break;
++
++	case RTW_LED_OFF:
++		SwLedOff(Adapter, pLed);
++		break;
++
++	case LED_BLINK_SLOWLY:
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++		break;
++
++	case LED_BLINK_StartToBlink:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		}
++		break;
++
++	case LED_BLINK_SCAN:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on)
++				SwLedOff(Adapter, pLed);
++			else if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			}
++			pLed->BlinkTimes = 0;
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else {
++				if (pLed->bLedOn) {
++					pLed->BlinkingLedState = RTW_LED_OFF;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_NETGEAR);
++				} else {
++					pLed->BlinkingLedState = RTW_LED_ON;
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_SLOWLY_INTERVAL_NETGEAR + LED_BLINK_LINK_INTERVAL_NETGEAR);
++				}
++			}
++		}
++		break;
++
++	case LED_BLINK_WPS:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_NETGEAR);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL + LED_BLINK_LINK_INTERVAL_NETGEAR);
++		}
++		break;
++
++	case LED_BLINK_WPS_STOP:	/* WPS authentication fail */
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		break;
++
++	case LED_BLINK_WPS_STOP_OVERLAP:	/* WPS session overlap */
++		pLed->BlinkTimes--;
++		pLed->BlinkCounter--;
++		if (pLed->BlinkCounter == 0) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			pLed->CurrLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		} else {
++			if (pLed->BlinkTimes == 0) {
++				if (pLed->bLedOn)
++					pLed->BlinkTimes = 1;
++				else
++					bStopBlinking = _TRUE;
++			}
++
++			if (bStopBlinking) {
++				pLed->BlinkTimes = 10;
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++			} else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++			}
++		}
++		break;
++
++	case LED_BLINK_ALWAYS_ON:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else {
++				if (IS_HARDWARE_TYPE_8812AU(Adapter)) {
++					pLed->BlinkingLedState = RTW_LED_ON;
++					pLed->CurrLedState = LED_BLINK_ALWAYS_ON;
++				} else {
++					pLed->bLedNoLinkBlinkInProgress = _TRUE;
++					pLed->CurrLedState = LED_BLINK_SLOWLY;
++					if (pLed->bLedOn)
++						pLed->BlinkingLedState = RTW_LED_OFF;
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++				}
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			}
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS) {
++				SwLedOff(Adapter, pLed);
++			} else {
++				if (IS_HARDWARE_TYPE_8812AU(Adapter))
++					pLed->BlinkingLedState = RTW_LED_ON;
++				else {
++					if (pLed->bLedOn)
++						pLed->BlinkingLedState = RTW_LED_OFF;
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++				}
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	case LED_BLINK_LINK_IN_PROCESS:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ON_BELKIN);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_OFF_BELKIN);
++		}
++		break;
++
++	case LED_BLINK_AUTH_ERROR:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking == _FALSE) {
++			if (pLed->bLedOn) {
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_ERROR_INTERVAL_BELKIN);
++			} else {
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_ERROR_INTERVAL_BELKIN);
++			}
++		} else {
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_ERROR_INTERVAL_BELKIN);
++		}
++		break;
++
++	default:
++		break;
++	}
++
++
++}
++
++void
++SwLedBlink11(
++	PLED_USB			pLed
++)
++{
++	PADAPTER Adapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	BOOLEAN bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(Adapter, pLed);
++	} else {
++		SwLedOff(Adapter, pLed);
++	}
++
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_TXRX:
++		if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++			SwLedOff(Adapter, pLed);
++		else {
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		}
++
++		break;
++
++	case LED_BLINK_WPS:
++		if (pLed->BlinkTimes == 5) {
++			SwLedOn(Adapter, pLed);
++			_set_timer(&(pLed->BlinkTimer), LED_CM11_LINK_ON_INTERVEL);
++		} else {
++			if (pLed->bLedOn) {
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_CM11_BLINK_INTERVAL);
++			} else {
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_CM11_BLINK_INTERVAL);
++			}
++		}
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking == _TRUE)
++			pLed->BlinkTimes = 5;
++		break;
++
++	case LED_BLINK_WPS_STOP:	/* WPS authentication fail */
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		} else {
++			pLed->CurrLedState = RTW_LED_ON;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			SwLedOn(Adapter, pLed);
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	default:
++		break;
++	}
++
++}
++
++void
++SwLedBlink12(
++	PLED_USB			pLed
++)
++{
++	PADAPTER Adapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	BOOLEAN bStopBlinking = _FALSE;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(Adapter, pLed);
++	} else {
++		SwLedOff(Adapter, pLed);
++	}
++
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_SLOWLY:
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++		break;
++
++	case LED_BLINK_TXRX:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS) {
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				if (pLed->bLedOn)
++					SwLedOff(Adapter, pLed);
++			} else {
++				pLed->bLedNoLinkBlinkInProgress = _TRUE;
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++			}
++
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	default:
++		break;
++	}
++
++
++
++}
++
++VOID
++SwLedBlink13(
++	IN PLED_USB			pLed
++)
++{
++	PADAPTER Adapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	BOOLEAN bStopBlinking = _FALSE;
++	static u8	LinkBlinkCnt = 0;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(Adapter, pLed);
++	} else {
++		if (pLed->CurrLedState != LED_BLINK_WPS_STOP)
++			SwLedOff(Adapter, pLed);
++	}
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_LINK_IN_PROCESS:
++		if (!pLed->bLedWPSBlinkInProgress)
++			LinkBlinkCnt++;
++
++		if (LinkBlinkCnt > 15) {
++			LinkBlinkCnt = 0;
++			pLed->bLedBlinkInProgress = _FALSE;
++			break;
++		}
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), 500);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), 500);
++		}
++
++		break;
++
++	case LED_BLINK_WPS:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_WPS_BLINK_ON_INTERVAL_NETGEAR);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_WPS_BLINK_OFF_INTERVAL_NETGEAR);
++		}
++
++		break;
++
++	case LED_BLINK_WPS_STOP:	/* WPS success */
++		SwLedOff(Adapter, pLed);
++		pLed->bLedWPSBlinkInProgress = _FALSE;
++		break;
++
++	default:
++		LinkBlinkCnt = 0;
++		break;
++	}
++
++
++}
++
++VOID
++SwLedBlink14(
++	IN PLED_USB			pLed
++)
++{
++	PADAPTER Adapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	BOOLEAN bStopBlinking = _FALSE;
++	static u8	LinkBlinkCnt = 0;
++
++	/* Change LED according to BlinkingLedState specified. */
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(Adapter, pLed);
++	} else {
++		if (pLed->CurrLedState != LED_BLINK_WPS_STOP)
++			SwLedOff(Adapter, pLed);
++	}
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_TXRX:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else
++				SwLedOn(Adapter, pLed);
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else {
++				if (pLed->bLedOn) {
++					pLed->BlinkingLedState = RTW_LED_OFF;
++					if (IS_HARDWARE_TYPE_8812AU(Adapter))
++						_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++					else
++						_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++				} else {
++					pLed->BlinkingLedState = RTW_LED_ON;
++					if (IS_HARDWARE_TYPE_8812AU(Adapter))
++						_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++					else
++						_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++				}
++			}
++		}
++
++		break;
++
++	default:
++		LinkBlinkCnt = 0;
++		break;
++	}
++
++}
++
++VOID
++SwLedBlink15(
++	IN PLED_USB			pLed
++)
++{
++	PADAPTER Adapter = pLed->padapter;
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	BOOLEAN bStopBlinking = _FALSE;
++	static u8	LinkBlinkCnt = 0;
++	/* Change LED according to BlinkingLedState specified. */
++
++	if (pLed->BlinkingLedState == RTW_LED_ON) {
++		SwLedOn(Adapter, pLed);
++	} else {
++		if (pLed->CurrLedState != LED_BLINK_WPS_STOP)
++			SwLedOff(Adapter, pLed);
++	}
++	switch (pLed->CurrLedState) {
++	case LED_BLINK_WPS:
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_WPS_BLINK_ON_INTERVAL_DLINK);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_WPS_BLINK_OFF_INTERVAL_DLINK);
++		}
++		break;
++
++	case LED_BLINK_WPS_STOP:	/* WPS success */
++
++		if (pLed->BlinkingLedState == RTW_LED_OFF) {
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++			return;
++		}
++
++		pLed->CurrLedState = LED_BLINK_WPS_STOP;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++
++		_set_timer(&(pLed->BlinkTimer), LED_WPS_BLINK_LINKED_ON_INTERVAL_DLINK);
++		break;
++
++	case LED_BLINK_NO_LINK: {
++		static BOOLEAN		bLedOn = _TRUE;
++		if (bLedOn) {
++			bLedOn = _FALSE;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		} else {
++			bLedOn = _TRUE;
++			pLed->BlinkingLedState = RTW_LED_ON;
++		}
++		pLed->bLedBlinkInProgress = _TRUE;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL);
++	}
++	break;
++
++	case LED_BLINK_LINK_IDEL: {
++		static BOOLEAN		bLedOn = _TRUE;
++		if (bLedOn) {
++			bLedOn = _FALSE;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		} else {
++			bLedOn = _TRUE;
++			pLed->BlinkingLedState = RTW_LED_ON;
++
++		}
++		pLed->bLedBlinkInProgress = _TRUE;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_IDEL_INTERVAL);
++	}
++	break;
++
++	case LED_BLINK_SCAN: {
++		static u8	BlinkTime = 0;
++		if (BlinkTime % 2 == 0)
++			pLed->BlinkingLedState = RTW_LED_ON;
++		else
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		BlinkTime++;
++
++		if (BlinkTime < 24) {
++			pLed->bLedBlinkInProgress = _TRUE;
++
++			if (pLed->BlinkingLedState == RTW_LED_ON)
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_OFF_INTERVAL);
++			else
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_ON_INTERVAL);
++		} else {
++			/* if(pLed->OLDLedState ==LED_NO_LINK_BLINK) */
++			if (check_fwstate(pmlmepriv, _FW_LINKED) == _FALSE) {
++				pLed->CurrLedState = LED_BLINK_NO_LINK;
++				pLed->BlinkingLedState = RTW_LED_ON;
++
++				_set_timer(&(pLed->BlinkTimer), 100);
++			}
++			BlinkTime = 0;
++		}
++	}
++	break;
++
++	case LED_BLINK_TXRX:
++		pLed->BlinkTimes--;
++		if (pLed->BlinkTimes == 0)
++			bStopBlinking = _TRUE;
++		if (bStopBlinking) {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else
++				SwLedOn(Adapter, pLed);
++			pLed->bLedBlinkInProgress = _FALSE;
++		} else {
++			if (adapter_to_pwrctl(Adapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(Adapter)->rfoff_reason > RF_CHANGE_BY_PS)
++				SwLedOff(Adapter, pLed);
++			else {
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	default:
++		LinkBlinkCnt = 0;
++		break;
++	}
++
++}
++
++/*
++ *	Description:
++ *		Handler function of LED Blinking.
++ *		We dispatch acture LED blink action according to LedStrategy.
++ *   */
++void BlinkHandler(PLED_USB pLed)
++{
++	_adapter		*padapter = pLed->padapter;
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++
++	/* RTW_INFO("%s (%s:%d)\n",__FUNCTION__, current->comm, current->pid); */
++
++	if (RTW_CANNOT_RUN(padapter) || (!rtw_is_hw_init_completed(padapter))) {
++		/*RTW_INFO("%s bDriverStopped:%s, bSurpriseRemoved:%s\n"
++		, __func__
++		, rtw_is_drv_stopped(padapter)?"True":"False"
++		, rtw_is_surprise_removed(padapter)?"True":"False" );*/
++		return;
++	}
++
++	switch (ledpriv->LedStrategy) {
++	case SW_LED_MODE0:
++		SwLedBlink(pLed);
++		break;
++
++	case SW_LED_MODE1:
++		SwLedBlink1(pLed);
++		break;
++
++	case SW_LED_MODE2:
++		SwLedBlink2(pLed);
++		break;
++
++	case SW_LED_MODE3:
++		SwLedBlink3(pLed);
++		break;
++
++	case SW_LED_MODE4:
++		SwLedBlink4(pLed);
++		break;
++
++	case SW_LED_MODE5:
++		SwLedBlink5(pLed);
++		break;
++
++	case SW_LED_MODE6:
++		SwLedBlink6(pLed);
++		break;
++
++	case SW_LED_MODE7:
++		SwLedBlink7(pLed);
++		break;
++
++	case SW_LED_MODE8:
++		SwLedBlink8(pLed);
++		break;
++
++	case SW_LED_MODE9:
++		SwLedBlink9(pLed);
++		break;
++
++	case SW_LED_MODE10:
++		SwLedBlink10(pLed);
++		break;
++
++	case SW_LED_MODE11:
++		SwLedBlink11(pLed);
++		break;
++
++	case SW_LED_MODE12:
++		SwLedBlink12(pLed);
++		break;
++
++	case SW_LED_MODE13:
++		SwLedBlink13(pLed);
++		break;
++
++	case SW_LED_MODE14:
++		SwLedBlink14(pLed);
++		break;
++
++	case SW_LED_MODE15:
++		SwLedBlink15(pLed);
++		break;
++
++	default:
++		/* SwLedBlink(pLed); */
++		break;
++	}
++}
++
++/*
++ *	Description:
++ *		Callback function of LED BlinkTimer,
++ *		it just schedules to corresponding BlinkWorkItem/led_blink_hdl
++ *   */
++void BlinkTimerCallback(void *data)
++{
++	PLED_USB	 pLed = (PLED_USB)data;
++	_adapter		*padapter = pLed->padapter;
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	if (RTW_CANNOT_RUN(padapter) || (!rtw_is_hw_init_completed(padapter))) {
++		/*RTW_INFO("%s bDriverStopped:%s, bSurpriseRemoved:%s\n"
++			, __func__
++			, rtw_is_drv_stopped(padapter)?"True":"False"
++			, rtw_is_surprise_removed(padapter)?"True":"False" );*/
++		return;
++	}
++
++#ifdef CONFIG_LED_HANDLED_BY_CMD_THREAD
++	rtw_led_blink_cmd(padapter, (PVOID)pLed);
++#else
++	_set_workitem(&(pLed->BlinkWorkItem));
++#endif
++}
++
++/*
++ *	Description:
++ *		Callback function of LED BlinkWorkItem.
++ *		We dispatch acture LED blink action according to LedStrategy.
++ *   */
++void BlinkWorkItemCallback(_workitem *work)
++{
++	PLED_USB	 pLed = container_of(work, LED_USB, BlinkWorkItem);
++	BlinkHandler(pLed);
++}
++
++static void
++SwLedControlMode0(
++	_adapter		*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	PLED_USB	pLed = &(ledpriv->SwLed1);
++
++	/* Decide led state */
++	switch (LedAction) {
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			pLed->bLedBlinkInProgress = _TRUE;
++
++			pLed->CurrLedState = LED_BLINK_NORMAL;
++			pLed->BlinkTimes = 2;
++
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++		}
++		break;
++
++	case LED_CTL_START_TO_LINK:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			pLed->bLedBlinkInProgress = _TRUE;
++
++			pLed->CurrLedState = LED_BLINK_StartToBlink;
++			pLed->BlinkTimes = 24;
++
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++		} else
++			pLed->CurrLedState = LED_BLINK_StartToBlink;
++		break;
++
++	case LED_CTL_LINK:
++		pLed->CurrLedState = RTW_LED_ON;
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_NO_LINK:
++		pLed->CurrLedState = RTW_LED_OFF;
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		SwLedOff(padapter, pLed);
++		break;
++
++	case LED_CTL_START_WPS:
++		if (pLed->bLedBlinkInProgress == _FALSE || pLed->CurrLedState == RTW_LED_ON) {
++			pLed->bLedBlinkInProgress = _TRUE;
++
++			pLed->CurrLedState = LED_BLINK_WPS;
++			pLed->BlinkTimes = 20;
++
++			if (pLed->bLedOn) {
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LONG_INTERVAL);
++			} else {
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_LONG_INTERVAL);
++			}
++		}
++		break;
++
++	case LED_CTL_STOP_WPS:
++		if (pLed->bLedBlinkInProgress) {
++			pLed->CurrLedState = RTW_LED_OFF;
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		break;
++
++
++	default:
++		break;
++	}
++
++
++}
++
++/* ALPHA, added by chiyoko, 20090106 */
++static void
++SwLedControlMode1(
++	_adapter		*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv		*ledpriv = &(padapter->ledpriv);
++	PLED_USB			pLed = &(ledpriv->SwLed0);
++	struct mlme_priv		*pmlmepriv = &(padapter->mlmepriv);
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(padapter);
++
++	u32 uLedBlinkNoLinkInterval = LED_BLINK_NO_LINK_INTERVAL_ALPHA; /* add by ylb 20121012 for customer led for alpha */
++	if (pHalData->CustomerID == RT_CID_819x_ALPHA_Dlink)
++		uLedBlinkNoLinkInterval = LED_BLINK_NO_LINK_INTERVAL_ALPHA_500MS;
++
++	if (pHalData->CustomerID == RT_CID_819x_CAMEO)
++		pLed = &(ledpriv->SwLed1);
++
++	switch (LedAction) {
++	case LED_CTL_POWER_ON:
++	case LED_CTL_START_TO_LINK:
++	case LED_CTL_NO_LINK:
++		if (pLed->bLedNoLinkBlinkInProgress == _FALSE) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++			if (pLed->bLedLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++
++			pLed->bLedNoLinkBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SLOWLY;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), uLedBlinkNoLinkInterval);/* change by ylb 20121012 for customer led for alpha */
++		}
++		break;
++
++	case LED_CTL_LINK:
++		if (pLed->bLedLinkBlinkInProgress == _FALSE) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			pLed->bLedLinkBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_NORMAL;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_SITE_SURVEY:
++		if ((pmlmepriv->LinkDetectInfo.bBusyTraffic) && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE))
++			;
++		else if (pLed->bLedScanBlinkInProgress == _FALSE) {
++			if (IS_LED_WPS_BLINKING(pLed))
++				return;
++
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			pLed->bLedScanBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SCAN;
++			pLed->BlinkTimes = 24;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++
++			if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on && adapter_to_pwrctl(padapter)->rfoff_reason == RF_CHANGE_BY_IPS)
++				_set_timer(&(pLed->BlinkTimer), LED_INITIAL_INTERVAL);
++			else
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++
++		}
++		break;
++
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedLinkBlinkInProgress = _FALSE;
++			}
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_TXRX;
++			pLed->BlinkTimes = 2;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		if (pLed->bLedWPSBlinkInProgress == _FALSE) {
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedScanBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_WPS;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		}
++		break;
++
++
++	case LED_CTL_STOP_WPS:
++		if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedNoLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedLinkBlinkInProgress == _TRUE) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedBlinkInProgress == _TRUE) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress == _TRUE) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedWPSBlinkInProgress)
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++		else
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++
++		pLed->CurrLedState = LED_BLINK_WPS_STOP;
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_WPS_SUCESS_INTERVAL_ALPHA);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_STOP_WPS_FAIL:
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		pLed->bLedNoLinkBlinkInProgress = _TRUE;
++		pLed->CurrLedState = LED_BLINK_SLOWLY;
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), uLedBlinkNoLinkInterval);/* change by ylb 20121012 for customer led for alpha */
++		break;
++
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		if (pLed->bLedNoLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedNoLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++
++		SwLedOff(padapter, pLed);
++		break;
++
++	default:
++		break;
++
++	}
++
++}
++
++/* Arcadyan/Sitecom , added by chiyoko, 20090216 */
++static void
++SwLedControlMode2(
++	_adapter				*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	PLED_USB		pLed = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_SITE_SURVEY:
++		if (pmlmepriv->LinkDetectInfo.bBusyTraffic)
++			;
++		else if (pLed->bLedScanBlinkInProgress == _FALSE) {
++			if (IS_LED_WPS_BLINKING(pLed))
++				return;
++
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			pLed->bLedScanBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SCAN;
++			pLed->BlinkTimes = 24;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if ((pLed->bLedBlinkInProgress == _FALSE) && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_TXRX;
++			pLed->BlinkTimes = 2;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_LINK:
++		pLed->CurrLedState = RTW_LED_ON;
++		pLed->BlinkingLedState = RTW_LED_ON;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		if (pLed->bLedWPSBlinkInProgress == _FALSE) {
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedScanBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++			pLed->CurrLedState = RTW_LED_ON;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_STOP_WPS:
++		pLed->bLedWPSBlinkInProgress = _FALSE;
++		if (adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on) {
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		} else {
++			pLed->CurrLedState = RTW_LED_ON;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_STOP_WPS_FAIL:
++		pLed->bLedWPSBlinkInProgress = _FALSE;
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_START_TO_LINK:
++	case LED_CTL_NO_LINK:
++		if (!IS_LED_BLINKING(pLed)) {
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		SwLedOff(padapter, pLed);
++		break;
++
++	default:
++		break;
++
++	}
++
++}
++
++/* COREGA, added by chiyoko, 20090316 */
++static void
++SwLedControlMode3(
++	_adapter				*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	PLED_USB		pLed = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_SITE_SURVEY:
++		if (pmlmepriv->LinkDetectInfo.bBusyTraffic)
++			;
++		else if (pLed->bLedScanBlinkInProgress == _FALSE) {
++			if (IS_LED_WPS_BLINKING(pLed))
++				return;
++
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			pLed->bLedScanBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SCAN;
++			pLed->BlinkTimes = 24;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if ((pLed->bLedBlinkInProgress == _FALSE) && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_TXRX;
++			pLed->BlinkTimes = 2;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_LINK:
++		if (IS_LED_WPS_BLINKING(pLed))
++			return;
++
++		pLed->CurrLedState = RTW_LED_ON;
++		pLed->BlinkingLedState = RTW_LED_ON;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		if (pLed->bLedWPSBlinkInProgress == _FALSE) {
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedScanBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_WPS;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_STOP_WPS:
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		} else
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++
++		pLed->CurrLedState = LED_BLINK_WPS_STOP;
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_WPS_SUCESS_INTERVAL_ALPHA);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++
++		break;
++
++	case LED_CTL_STOP_WPS_FAIL:
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_START_TO_LINK:
++	case LED_CTL_NO_LINK:
++		if (!IS_LED_BLINKING(pLed)) {
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		SwLedOff(padapter, pLed);
++		break;
++
++	default:
++		break;
++
++	}
++
++}
++
++
++/* Edimax-Belkin, added by chiyoko, 20090413 */
++static void
++SwLedControlMode4(
++	_adapter				*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	PLED_USB		pLed = &(ledpriv->SwLed0);
++	PLED_USB		pLed1 = &(ledpriv->SwLed1);
++
++	switch (LedAction) {
++	case LED_CTL_START_TO_LINK:
++		if (pLed1->bLedWPSBlinkInProgress) {
++			pLed1->bLedWPSBlinkInProgress = _FALSE;
++			_cancel_timer_ex(&(pLed1->BlinkTimer));
++
++			pLed1->BlinkingLedState = RTW_LED_OFF;
++			pLed1->CurrLedState = RTW_LED_OFF;
++
++			if (pLed1->bLedOn)
++				_set_timer(&(pLed->BlinkTimer), 0);
++		}
++
++		if (pLed->bLedStartToLinkBlinkInProgress == _FALSE) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++
++			pLed->bLedStartToLinkBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_StartToBlink;
++			if (pLed->bLedOn) {
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++			} else {
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++			}
++		}
++		break;
++
++	case LED_CTL_LINK:
++	case LED_CTL_NO_LINK:
++		/* LED1 settings */
++		if (LedAction == LED_CTL_LINK) {
++			if (pLed1->bLedWPSBlinkInProgress) {
++				pLed1->bLedWPSBlinkInProgress = _FALSE;
++				_cancel_timer_ex(&(pLed1->BlinkTimer));
++
++				pLed1->BlinkingLedState = RTW_LED_OFF;
++				pLed1->CurrLedState = RTW_LED_OFF;
++
++				if (pLed1->bLedOn)
++					_set_timer(&(pLed->BlinkTimer), 0);
++			}
++		}
++
++		if (pLed->bLedNoLinkBlinkInProgress == _FALSE) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++
++			pLed->bLedNoLinkBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SLOWLY;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_SITE_SURVEY:
++		if ((pmlmepriv->LinkDetectInfo.bBusyTraffic) && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE))
++			;
++		else if (pLed->bLedScanBlinkInProgress == _FALSE) {
++			if (IS_LED_WPS_BLINKING(pLed))
++				return;
++
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			pLed->bLedScanBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SCAN;
++			pLed->BlinkTimes = 24;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_TXRX;
++			pLed->BlinkTimes = 2;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		if (pLed1->bLedWPSBlinkInProgress) {
++			pLed1->bLedWPSBlinkInProgress = _FALSE;
++			_cancel_timer_ex(&(pLed1->BlinkTimer));
++
++			pLed1->BlinkingLedState = RTW_LED_OFF;
++			pLed1->CurrLedState = RTW_LED_OFF;
++
++			if (pLed1->bLedOn)
++				_set_timer(&(pLed->BlinkTimer), 0);
++		}
++
++		if (pLed->bLedWPSBlinkInProgress == _FALSE) {
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedScanBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_WPS;
++			if (pLed->bLedOn) {
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_SLOWLY_INTERVAL);
++			} else {
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++			}
++		}
++		break;
++
++	case LED_CTL_STOP_WPS:	/* WPS connect success */
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		pLed->bLedNoLinkBlinkInProgress = _TRUE;
++		pLed->CurrLedState = LED_BLINK_SLOWLY;
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++
++		break;
++
++	case LED_CTL_STOP_WPS_FAIL:		/* WPS authentication fail */
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		pLed->bLedNoLinkBlinkInProgress = _TRUE;
++		pLed->CurrLedState = LED_BLINK_SLOWLY;
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++
++		/* LED1 settings */
++		if (pLed1->bLedWPSBlinkInProgress)
++			_cancel_timer_ex(&(pLed1->BlinkTimer));
++		else
++			pLed1->bLedWPSBlinkInProgress = _TRUE;
++
++		pLed1->CurrLedState = LED_BLINK_WPS_STOP;
++		if (pLed1->bLedOn)
++			pLed1->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed1->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++
++		break;
++
++	case LED_CTL_STOP_WPS_FAIL_OVERLAP:	/* WPS session overlap */
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		pLed->bLedNoLinkBlinkInProgress = _TRUE;
++		pLed->CurrLedState = LED_BLINK_SLOWLY;
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++
++		/* LED1 settings */
++		if (pLed1->bLedWPSBlinkInProgress)
++			_cancel_timer_ex(&(pLed1->BlinkTimer));
++		else
++			pLed1->bLedWPSBlinkInProgress = _TRUE;
++
++		pLed1->CurrLedState = LED_BLINK_WPS_STOP_OVERLAP;
++		pLed1->BlinkTimes = 10;
++		if (pLed1->bLedOn)
++			pLed1->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed1->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++
++		break;
++
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++
++		if (pLed->bLedNoLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedNoLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedStartToLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedStartToLinkBlinkInProgress = _FALSE;
++		}
++
++		if (pLed1->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed1->BlinkTimer));
++			pLed1->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		pLed1->BlinkingLedState = LED_UNKNOWN;
++		SwLedOff(padapter, pLed);
++		SwLedOff(padapter, pLed1);
++		break;
++
++	case LED_CTL_CONNECTION_NO_TRANSFER:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			pLed->bLedBlinkInProgress = _TRUE;
++
++			pLed->CurrLedState = LED_BLINK_ALWAYS_ON;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++		}
++		break;
++
++	default:
++		break;
++
++	}
++
++}
++
++
++
++/* Sercomm-Belkin, added by chiyoko, 20090415 */
++static void
++SwLedControlMode5(
++	_adapter				*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	PLED_USB		pLed = &(ledpriv->SwLed0);
++
++	if (pHalData->CustomerID == RT_CID_819x_CAMEO)
++		pLed = &(ledpriv->SwLed1);
++
++	switch (LedAction) {
++	case LED_CTL_POWER_ON:
++	case LED_CTL_NO_LINK:
++	case LED_CTL_LINK:	/* solid blue */
++		pLed->CurrLedState = RTW_LED_ON;
++		pLed->BlinkingLedState = RTW_LED_ON;
++
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_SITE_SURVEY:
++		if ((pmlmepriv->LinkDetectInfo.bBusyTraffic) && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE))
++			;
++		else if (pLed->bLedScanBlinkInProgress == _FALSE) {
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			pLed->bLedScanBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SCAN;
++			pLed->BlinkTimes = 24;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN)
++				return;
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_TXRX;
++			pLed->BlinkTimes = 2;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++
++		SwLedOff(padapter, pLed);
++		break;
++
++	default:
++		break;
++
++	}
++
++}
++
++/* WNC-Corega, added by chiyoko, 20090902 */
++static void
++SwLedControlMode6(
++	_adapter				*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	PLED_USB	pLed0 = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_POWER_ON:
++	case LED_CTL_LINK:
++	case LED_CTL_NO_LINK:
++		_cancel_timer_ex(&(pLed0->BlinkTimer));
++		pLed0->CurrLedState = RTW_LED_ON;
++		pLed0->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed0->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_POWER_OFF:
++		SwLedOff(padapter, pLed0);
++		break;
++
++	default:
++		break;
++	}
++
++}
++
++/* Netgear, added by sinda, 2011/11/11 */
++void
++SwLedControlMode7(
++	PADAPTER			 Adapter,
++	LED_CTL_MODE		 LedAction
++)
++{
++	struct led_priv	*ledpriv = &(Adapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	PLED_USB	pLed = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_SITE_SURVEY:
++		if (pmlmepriv->LinkDetectInfo.bBusyTraffic)
++			;
++		else if (pLed->bLedScanBlinkInProgress == _FALSE) {
++			if (IS_LED_WPS_BLINKING(pLed))
++				return;
++
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			pLed->bLedScanBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SCAN;
++			pLed->BlinkTimes = 6;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_NETGEAR);
++		}
++		break;
++
++	case LED_CTL_LINK:
++		if (IS_LED_WPS_BLINKING(pLed))
++			return;
++
++		pLed->CurrLedState = RTW_LED_ON;
++		pLed->BlinkingLedState = RTW_LED_ON;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		if (pLed->bLedWPSBlinkInProgress == _FALSE) {
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedScanBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_WPS;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_NETGEAR);
++		}
++		break;
++
++	case LED_CTL_STOP_WPS:
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		} else
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++
++		pLed->CurrLedState = LED_BLINK_WPS_STOP;
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_NETGEAR);
++		} else {
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++
++		break;
++
++
++	case LED_CTL_STOP_WPS_FAIL:
++	case LED_CTL_STOP_WPS_FAIL_OVERLAP:	/* WPS session overlap			 */
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_START_TO_LINK:
++	case LED_CTL_NO_LINK:
++		if (!IS_LED_BLINKING(pLed)) {
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_POWER_OFF:
++	case LED_CTL_POWER_ON:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	default:
++		break;
++
++	}
++
++}
++
++void
++SwLedControlMode8(
++	PADAPTER			Adapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(Adapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	PLED_USB	pLed0 = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_LINK:
++		_cancel_timer_ex(&(pLed0->BlinkTimer));
++		pLed0->CurrLedState = RTW_LED_ON;
++		pLed0->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed0->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_NO_LINK:
++		_cancel_timer_ex(&(pLed0->BlinkTimer));
++		pLed0->CurrLedState = RTW_LED_OFF;
++		pLed0->BlinkingLedState = RTW_LED_OFF;
++		_set_timer(&(pLed0->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_POWER_OFF:
++		SwLedOff(Adapter, pLed0);
++		break;
++
++	default:
++		break;
++	}
++
++
++}
++
++/* page added for Belkin AC950, 20120813 */
++void
++SwLedControlMode9(
++	IN	PADAPTER			Adapter,
++	IN	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(Adapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	PLED_USB	pLed = &(ledpriv->SwLed0);
++	PLED_USB	pLed1 = &(ledpriv->SwLed1);
++	PLED_USB	pLed2 = &(ledpriv->SwLed2);
++	BOOLEAN  bWPSOverLap = _FALSE;
++	/* RTW_INFO("LedAction=%d\n", LedAction); */
++	switch (LedAction) {
++	case LED_CTL_START_TO_LINK:
++		if (pLed2->bLedBlinkInProgress == _FALSE) {
++			pLed2->bLedBlinkInProgress = _TRUE;
++			pLed2->BlinkingLedState = RTW_LED_ON;
++			pLed2->CurrLedState = LED_BLINK_LINK_IN_PROCESS;
++
++			_set_timer(&(pLed2->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_LINK:
++	case LED_CTL_NO_LINK:
++		/* LED1 settings */
++		if (LedAction == LED_CTL_NO_LINK) {
++			/* if(pMgntInfo->AuthStatus == AUTH_STATUS_FAILED) */
++			if (0) {
++				pLed1->CurrLedState = LED_BLINK_AUTH_ERROR;
++				if (pLed1->bLedOn)
++					pLed1->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed1->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed1->BlinkTimer), 0);
++			} else {
++				pLed1->CurrLedState = RTW_LED_OFF;
++				pLed1->BlinkingLedState = RTW_LED_OFF;
++				if (pLed1->bLedOn)
++					_set_timer(&(pLed1->BlinkTimer), 0);
++			}
++		} else {
++			pLed1->CurrLedState = RTW_LED_OFF;
++			pLed1->BlinkingLedState = RTW_LED_OFF;
++			if (pLed1->bLedOn)
++				_set_timer(&(pLed1->BlinkTimer), 0);
++		}
++
++		/* LED2 settings */
++		if (LedAction == LED_CTL_LINK) {
++			if (Adapter->securitypriv.dot11PrivacyAlgrthm != _NO_PRIVACY_) {
++				if (pLed2->bLedBlinkInProgress == _TRUE) {
++					_cancel_timer_ex(&(pLed2->BlinkTimer));
++					pLed2->bLedBlinkInProgress = _FALSE;
++				}
++				pLed2->CurrLedState = RTW_LED_ON;
++				pLed2->bLedNoLinkBlinkInProgress = _TRUE;
++				if (!pLed2->bLedOn)
++					_set_timer(&(pLed2->BlinkTimer), 0);
++			} else {
++				if (pLed2->bLedWPSBlinkInProgress != _TRUE) {
++					pLed2->CurrLedState = RTW_LED_OFF;
++					pLed2->BlinkingLedState = RTW_LED_OFF;
++					if (pLed2->bLedOn)
++						_set_timer(&(pLed2->BlinkTimer), 0);
++				}
++			}
++		} else { /* NO_LINK */
++			if (pLed2->bLedWPSBlinkInProgress == _FALSE) {
++				pLed2->CurrLedState = RTW_LED_OFF;
++				pLed2->BlinkingLedState = RTW_LED_OFF;
++				if (pLed2->bLedOn)
++					_set_timer(&(pLed2->BlinkTimer), 0);
++			}
++		}
++
++		/* LED0 settings			 */
++		if (pLed->bLedNoLinkBlinkInProgress == _FALSE) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++
++			pLed->bLedNoLinkBlinkInProgress = _TRUE;
++			if (IS_HARDWARE_TYPE_8812AU(Adapter)) {
++				if (LedAction == LED_CTL_LINK) {
++					pLed->BlinkingLedState = RTW_LED_ON;
++					pLed->CurrLedState = LED_BLINK_SLOWLY;
++				} else {
++					pLed->CurrLedState = LED_BLINK_SLOWLY;
++					if (pLed->bLedOn)
++						pLed->BlinkingLedState = RTW_LED_OFF;
++					else
++						pLed->BlinkingLedState = RTW_LED_ON;
++				}
++			} else {
++				pLed->CurrLedState = LED_BLINK_SLOWLY;
++				if (pLed->bLedOn)
++					pLed->BlinkingLedState = RTW_LED_OFF;
++				else
++					pLed->BlinkingLedState = RTW_LED_ON;
++			}
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++		}
++
++		break;
++
++	case LED_CTL_SITE_SURVEY:
++		if ((pmlmepriv->LinkDetectInfo.bBusyTraffic) && (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE))
++			;
++		else { /* if(pLed->bLedScanBlinkInProgress ==FALSE) */
++			if (IS_LED_WPS_BLINKING(pLed))
++				return;
++
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			pLed->bLedScanBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SCAN;
++			pLed->BlinkTimes = 24;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++
++		}
++		break;
++
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			if (pLed->CurrLedState == LED_BLINK_SCAN || IS_LED_WPS_BLINKING(pLed))
++				return;
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_TXRX;
++			pLed->BlinkTimes = 2;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		pLed2->bLedBlinkInProgress = _TRUE;
++		pLed2->BlinkingLedState = RTW_LED_ON;
++		pLed2->CurrLedState = LED_BLINK_LINK_IN_PROCESS;
++		pLed2->bLedWPSBlinkInProgress = _TRUE;
++
++		_set_timer(&(pLed2->BlinkTimer), 500);
++
++		break;
++
++	case LED_CTL_STOP_WPS:	/* WPS connect success	 */
++		/* LED2 settings */
++		if (pLed2->bLedWPSBlinkInProgress == _TRUE) {
++			_cancel_timer_ex(&(pLed2->BlinkTimer));
++			pLed2->bLedBlinkInProgress = _FALSE;
++			pLed2->bLedWPSBlinkInProgress = _FALSE;
++		}
++		pLed2->CurrLedState = RTW_LED_ON;
++		pLed2->bLedNoLinkBlinkInProgress = _TRUE;
++		if (!pLed2->bLedOn)
++			_set_timer(&(pLed2->BlinkTimer), 0);
++
++		/* LED1 settings */
++		_cancel_timer_ex(&(pLed1->BlinkTimer));
++		pLed1->CurrLedState = RTW_LED_OFF;
++		pLed1->BlinkingLedState = RTW_LED_OFF;
++		if (pLed1->bLedOn)
++			_set_timer(&(pLed1->BlinkTimer), 0);
++
++
++		break;
++
++	case LED_CTL_STOP_WPS_FAIL:		/* WPS authentication fail	 */
++		/* LED1 settings */
++		/* if(bWPSOverLap == _FALSE) */
++	{
++		pLed1->CurrLedState = LED_BLINK_AUTH_ERROR;
++		pLed1->BlinkTimes = 50;
++		if (pLed1->bLedOn)
++			pLed1->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed1->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed1->BlinkTimer), 0);
++	}
++		/* else */
++		/* { */
++		/*	bWPSOverLap = _FALSE; */
++		/*	pLed1->CurrLedState = RTW_LED_OFF; */
++		/*	pLed1->BlinkingLedState = RTW_LED_OFF;  */
++		/*	_set_timer(&(pLed1->BlinkTimer), 0); */
++		/* } */
++
++		/* LED2 settings */
++	pLed2->CurrLedState = RTW_LED_OFF;
++	pLed2->BlinkingLedState = RTW_LED_OFF;
++	pLed2->bLedWPSBlinkInProgress = _FALSE;
++	if (pLed2->bLedOn)
++		_set_timer(&(pLed2->BlinkTimer), 0);
++
++	break;
++
++	case LED_CTL_STOP_WPS_FAIL_OVERLAP:	/* WPS session overlap */
++		/* LED1 settings */
++		bWPSOverLap = _TRUE;
++		pLed1->CurrLedState = LED_BLINK_WPS_STOP_OVERLAP;
++		pLed1->BlinkTimes = 10;
++		pLed1->BlinkCounter = 50;
++		if (pLed1->bLedOn)
++			pLed1->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed1->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed1->BlinkTimer), 0);
++
++		/* LED2 settings */
++		pLed2->CurrLedState = RTW_LED_OFF;
++		pLed2->BlinkingLedState = RTW_LED_OFF;
++		pLed2->bLedWPSBlinkInProgress = _FALSE;
++		if (pLed2->bLedOn)
++			_set_timer(&(pLed2->BlinkTimer), 0);
++
++		break;
++
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++
++		if (pLed->bLedNoLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedNoLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedStartToLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedStartToLinkBlinkInProgress = _FALSE;
++		}
++
++		if (pLed1->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed1->BlinkTimer));
++			pLed1->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++
++		pLed1->BlinkingLedState = LED_UNKNOWN;
++		SwLedOff(Adapter, pLed);
++		SwLedOff(Adapter, pLed1);
++		break;
++
++	case LED_CTL_CONNECTION_NO_TRANSFER:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			pLed->bLedBlinkInProgress = _TRUE;
++
++			pLed->CurrLedState = LED_BLINK_ALWAYS_ON;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++		}
++		break;
++
++	default:
++		break;
++
++	}
++
++}
++
++/* page added for Netgear A6200V2, 20120827 */
++void
++SwLedControlMode10(
++	PADAPTER			Adapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct led_priv	*ledpriv = &(Adapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	PLED_USB	pLed = &(ledpriv->SwLed0);
++	PLED_USB	pLed1 = &(ledpriv->SwLed1);
++
++	switch (LedAction) {
++	case LED_CTL_START_TO_LINK:
++		if (pLed1->bLedBlinkInProgress == _FALSE) {
++			pLed1->bLedBlinkInProgress = _TRUE;
++			pLed1->BlinkingLedState = RTW_LED_ON;
++			pLed1->CurrLedState = LED_BLINK_LINK_IN_PROCESS;
++
++			_set_timer(&(pLed1->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_LINK:
++	case LED_CTL_NO_LINK:
++		if (LedAction == LED_CTL_LINK) {
++			if (pLed->bLedWPSBlinkInProgress == _TRUE || pLed1->bLedWPSBlinkInProgress == _TRUE)
++				;
++			else {
++				if (pHalData->CurrentBandType == BAND_ON_2_4G)
++					/* LED0 settings */
++				{
++					pLed->CurrLedState = RTW_LED_ON;
++					pLed->BlinkingLedState = RTW_LED_ON;
++					if (pLed->bLedBlinkInProgress == _TRUE) {
++						_cancel_timer_ex(&(pLed->BlinkTimer));
++						pLed->bLedBlinkInProgress = _FALSE;
++					}
++					_set_timer(&(pLed->BlinkTimer), 0);
++
++					pLed1->CurrLedState = RTW_LED_OFF;
++					pLed1->BlinkingLedState = RTW_LED_OFF;
++					_set_timer(&(pLed1->BlinkTimer), 0);
++				} else if (pHalData->CurrentBandType == BAND_ON_5G)
++					/* LED1 settings */
++				{
++					pLed1->CurrLedState = RTW_LED_ON;
++					pLed1->BlinkingLedState = RTW_LED_ON;
++					if (pLed1->bLedBlinkInProgress == _TRUE) {
++						_cancel_timer_ex(&(pLed1->BlinkTimer));
++						pLed1->bLedBlinkInProgress = _FALSE;
++					}
++					_set_timer(&(pLed1->BlinkTimer), 0);
++
++					pLed->CurrLedState = RTW_LED_OFF;
++					pLed->BlinkingLedState = RTW_LED_OFF;
++					_set_timer(&(pLed->BlinkTimer), 0);
++				}
++			}
++		} else if (LedAction == LED_CTL_NO_LINK) { /* TODO by page */
++			if (pLed->bLedWPSBlinkInProgress == _TRUE || pLed1->bLedWPSBlinkInProgress == _TRUE)
++				;
++			else {
++				pLed->CurrLedState = RTW_LED_OFF;
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				if (pLed->bLedOn)
++					_set_timer(&(pLed->BlinkTimer), 0);
++
++				pLed1->CurrLedState = RTW_LED_OFF;
++				pLed1->BlinkingLedState = RTW_LED_OFF;
++				if (pLed1->bLedOn)
++					_set_timer(&(pLed1->BlinkTimer), 0);
++			}
++		}
++
++		break;
++
++	case LED_CTL_SITE_SURVEY:
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++			;                                                                  /* don't blink when media connect */
++		else { /* if(pLed->bLedScanBlinkInProgress ==FALSE) */
++			if (IS_LED_WPS_BLINKING(pLed) || IS_LED_WPS_BLINKING(pLed1))
++				return;
++
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			pLed->bLedScanBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SCAN;
++			pLed->BlinkTimes = 12;
++			pLed->BlinkingLedState = LED_BLINK_SCAN;
++			_set_timer(&(pLed->BlinkTimer), 0);
++
++			if (pLed1->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed1->BlinkTimer));
++				pLed1->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			if (pLed1->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed1->BlinkTimer));
++				pLed1->bLedBlinkInProgress = _FALSE;
++			}
++			pLed1->bLedScanBlinkInProgress = _TRUE;
++			pLed1->CurrLedState = LED_BLINK_SCAN;
++			pLed1->BlinkTimes = 12;
++			pLed1->BlinkingLedState = LED_BLINK_SCAN;
++			_set_timer(&(pLed1->BlinkTimer), LED_BLINK_LINK_SLOWLY_INTERVAL_NETGEAR);
++
++		}
++		break;
++
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		/* LED0 settings */
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++			pLed->BlinkingLedState = LED_BLINK_WPS;
++			pLed->CurrLedState = LED_BLINK_WPS;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++
++		/* LED1 settings */
++		if (pLed1->bLedBlinkInProgress == _FALSE) {
++			pLed1->bLedBlinkInProgress = _TRUE;
++			pLed1->bLedWPSBlinkInProgress = _TRUE;
++			pLed1->BlinkingLedState = LED_BLINK_WPS;
++			pLed1->CurrLedState = LED_BLINK_WPS;
++			_set_timer(&(pLed1->BlinkTimer), LED_BLINK_NORMAL_INTERVAL + LED_BLINK_LINK_INTERVAL_NETGEAR);
++		}
++
++
++		break;
++
++	case LED_CTL_STOP_WPS:	/* WPS connect success */
++		if (pHalData->CurrentBandType == BAND_ON_2_4G)
++			/* LED0 settings */
++		{
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++			pLed->CurrLedState = RTW_LED_ON;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			_set_timer(&(pLed->BlinkTimer), 0);
++
++			pLed1->CurrLedState = RTW_LED_OFF;
++			pLed1->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed1->BlinkTimer), 0);
++		} else if (pHalData->CurrentBandType == BAND_ON_5G)
++			/* LED1 settings */
++		{
++			pLed1->bLedWPSBlinkInProgress = _FALSE;
++			pLed1->CurrLedState = RTW_LED_ON;
++			pLed1->BlinkingLedState = RTW_LED_ON;
++			if (pLed1->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed1->BlinkTimer));
++				pLed1->bLedBlinkInProgress = _FALSE;
++			}
++			_set_timer(&(pLed1->BlinkTimer), 0);
++
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++
++		break;
++
++	case LED_CTL_STOP_WPS_FAIL:		/* WPS authentication fail	 */
++		/* LED1 settings */
++		pLed1->bLedWPSBlinkInProgress = _FALSE;
++		pLed1->CurrLedState = RTW_LED_OFF;
++		pLed1->BlinkingLedState = RTW_LED_OFF;
++		_set_timer(&(pLed1->BlinkTimer), 0);
++
++		/* LED0 settings */
++		pLed->bLedWPSBlinkInProgress = _FALSE;
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		if (pLed->bLedOn)
++			_set_timer(&(pLed->BlinkTimer), 0);
++
++		break;
++
++
++	default:
++		break;
++
++	}
++
++}
++
++/* Edimax-ASUS, added by Page, 20121221 */
++void
++SwLedControlMode11(
++	PADAPTER			Adapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(Adapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	PLED_USB	pLed = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_POWER_ON:
++	case LED_CTL_START_TO_LINK:
++	case LED_CTL_NO_LINK:
++		pLed->CurrLedState = RTW_LED_ON;
++		pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_LINK:
++		if (pLed->bLedBlinkInProgress == _TRUE) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		pLed->bLedBlinkInProgress = _TRUE;
++		pLed->CurrLedState = LED_BLINK_TXRX;
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_SCAN_INTERVAL_ALPHA);
++		break;
++
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		if (pLed->bLedBlinkInProgress == _TRUE) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		pLed->bLedWPSBlinkInProgress = _TRUE;
++		pLed->bLedBlinkInProgress = _TRUE;
++		pLed->CurrLedState = LED_BLINK_WPS;
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		pLed->BlinkTimes = 5;
++		_set_timer(&(pLed->BlinkTimer), 0);
++
++		break;
++
++
++	case LED_CTL_STOP_WPS:
++	case LED_CTL_STOP_WPS_FAIL:
++		if (pLed->bLedBlinkInProgress == _TRUE) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		pLed->CurrLedState = LED_BLINK_WPS_STOP;
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++
++		if (pLed->bLedNoLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedNoLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedLinkBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedLinkBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++
++		SwLedOff(Adapter, pLed);
++		break;
++
++	default:
++		break;
++
++	}
++
++}
++
++/* page added for NEC */
++
++VOID
++SwLedControlMode12(
++	PADAPTER			Adapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(Adapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	PLED_USB	pLed = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_POWER_ON:
++	case LED_CTL_NO_LINK:
++	case LED_CTL_LINK:
++	case LED_CTL_SITE_SURVEY:
++
++		if (pLed->bLedNoLinkBlinkInProgress == _FALSE) {
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++
++			pLed->bLedNoLinkBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_SLOWLY;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_NO_LINK_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedNoLinkBlinkInProgress = _FALSE;
++			}
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_TXRX;
++			pLed->BlinkTimes = 2;
++			if (pLed->bLedOn)
++				pLed->BlinkingLedState = RTW_LED_OFF;
++			else
++				pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++		}
++		break;
++
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++
++		if (pLed->bLedNoLinkBlinkInProgress == _TRUE) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedNoLinkBlinkInProgress = _FALSE;
++		}
++
++		SwLedOff(Adapter, pLed);
++		break;
++
++	default:
++		break;
++
++	}
++
++}
++
++/* Maddest add for NETGEAR R6100 */
++
++VOID
++SwLedControlMode13(
++	IN	PADAPTER			Adapter,
++	IN	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(Adapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	PLED_USB	pLed = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_LINK:
++		if (pLed->bLedWPSBlinkInProgress)
++			return;
++
++
++		pLed->CurrLedState = RTW_LED_ON;
++		pLed->BlinkingLedState = RTW_LED_ON;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		if (pLed->bLedWPSBlinkInProgress == _FALSE) {
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedScanBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_WPS;
++			if (pLed->bLedOn) {
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_WPS_BLINK_OFF_INTERVAL_NETGEAR);
++			} else {
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_WPS_BLINK_ON_INTERVAL_NETGEAR);
++			}
++		}
++		break;
++
++	case LED_CTL_STOP_WPS:
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		} else
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++
++		pLed->bLedWPSBlinkInProgress = _FALSE;
++		pLed->CurrLedState = LED_BLINK_WPS_STOP;
++		if (pLed->bLedOn) {
++			pLed->BlinkingLedState = RTW_LED_OFF;
++
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++
++		break;
++
++
++	case LED_CTL_STOP_WPS_FAIL:
++	case LED_CTL_STOP_WPS_FAIL_OVERLAP: /* WPS session overlap */
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_START_TO_LINK:
++		if ((pLed->bLedBlinkInProgress == _FALSE) && (pLed->bLedWPSBlinkInProgress == _FALSE)) {
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			pLed->CurrLedState = LED_BLINK_LINK_IN_PROCESS;
++
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_NO_LINK:
++
++		if (pLed->bLedWPSBlinkInProgress)
++			return;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++		/* if(!IS_LED_BLINKING(pLed)) */
++		{
++			pLed->CurrLedState = RTW_LED_OFF;
++			pLed->BlinkingLedState = RTW_LED_OFF;
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++		break;
++
++	case LED_CTL_POWER_OFF:
++	case LED_CTL_POWER_ON:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		if (LedAction == LED_CTL_POWER_ON)
++			_set_timer(&(pLed->BlinkTimer), 0);
++		else
++			SwLedOff(Adapter, pLed);
++		break;
++
++	default:
++		break;
++
++	}
++
++
++}
++
++/* Maddest add for DNI Buffalo */
++
++VOID
++SwLedControlMode14(
++	IN	PADAPTER			Adapter,
++	IN	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(Adapter->ledpriv);
++	PLED_USB	pLed = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_POWER_OFF:
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		SwLedOff(Adapter, pLed);
++		break;
++
++	case LED_CTL_POWER_ON:
++		SwLedOn(Adapter, pLed);
++		break;
++
++	case LED_CTL_LINK:
++	case LED_CTL_NO_LINK:
++		if (IS_HARDWARE_TYPE_8812AU(Adapter))
++			SwLedOn(Adapter, pLed);
++		break;
++
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if (pLed->bLedBlinkInProgress == _FALSE) {
++			pLed->bLedBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_TXRX;
++			pLed->BlinkTimes = 2;
++			if (pLed->bLedOn) {
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				if (IS_HARDWARE_TYPE_8812AU(Adapter))
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_LINK_INTERVAL_ALPHA);
++				else
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			} else {
++				pLed->BlinkingLedState = RTW_LED_ON;
++				if (IS_HARDWARE_TYPE_8812AU(Adapter))
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_NORMAL_INTERVAL);
++				else
++					_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++			}
++		}
++		break;
++
++	default:
++		break;
++	}
++}
++
++/* Maddest add for Dlink */
++
++VOID
++SwLedControlMode15(
++	IN	PADAPTER			Adapter,
++	IN	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(Adapter->ledpriv);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++	PLED_USB	pLed = &(ledpriv->SwLed0);
++
++	switch (LedAction) {
++	case LED_CTL_START_WPS: /* wait until xinpin finish */
++	case LED_CTL_START_WPS_BOTTON:
++		if (pLed->bLedWPSBlinkInProgress == _FALSE) {
++			if (pLed->bLedBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedBlinkInProgress = _FALSE;
++			}
++			if (pLed->bLedScanBlinkInProgress == _TRUE) {
++				_cancel_timer_ex(&(pLed->BlinkTimer));
++				pLed->bLedScanBlinkInProgress = _FALSE;
++			}
++			pLed->bLedWPSBlinkInProgress = _TRUE;
++			pLed->CurrLedState = LED_BLINK_WPS;
++			if (pLed->bLedOn) {
++				pLed->BlinkingLedState = RTW_LED_OFF;
++				_set_timer(&(pLed->BlinkTimer), LED_WPS_BLINK_OFF_INTERVAL_NETGEAR);
++			} else {
++				pLed->BlinkingLedState = RTW_LED_ON;
++				_set_timer(&(pLed->BlinkTimer), LED_WPS_BLINK_ON_INTERVAL_NETGEAR);
++			}
++		}
++		break;
++
++	case LED_CTL_STOP_WPS:
++		if (pLed->bLedWPSBlinkInProgress)
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++
++		pLed->CurrLedState = LED_BLINK_WPS_STOP;
++		/* if(check_fwstate(pmlmepriv, _FW_LINKED)== _TRUE) */
++		{
++			pLed->BlinkingLedState = RTW_LED_ON;
++
++			_set_timer(&(pLed->BlinkTimer), 0);
++		}
++
++		break;
++
++	case LED_CTL_STOP_WPS_FAIL:
++	case LED_CTL_STOP_WPS_FAIL_OVERLAP: /* WPS session overlap */
++		if (pLed->bLedWPSBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedWPSBlinkInProgress = _FALSE;
++		}
++
++		pLed->CurrLedState = RTW_LED_OFF;
++		pLed->BlinkingLedState = RTW_LED_OFF;
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_NO_LINK:
++		if (pLed->bLedWPSBlinkInProgress)
++			return;
++
++		/*if(Adapter->securitypriv.dot11PrivacyAlgrthm > _NO_PRIVACY_)
++		{
++			if(SecIsTxKeyInstalled(Adapter, pMgntInfo->Bssid))
++			{
++			}
++			else
++			{
++				if(pMgntInfo->LEDAssocState ==LED_ASSOC_SECURITY_BEGIN)
++					return;
++			}
++		}*/
++
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		if (pLed->bLedScanBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedScanBlinkInProgress = _FALSE;
++		}
++		/* if(!IS_LED_BLINKING(pLed)) */
++		{
++			pLed->CurrLedState = LED_BLINK_NO_LINK;
++			pLed->BlinkingLedState = RTW_LED_ON;
++			_set_timer(&(pLed->BlinkTimer), 30);
++		}
++		break;
++
++	case LED_CTL_LINK:
++
++		if (pLed->bLedWPSBlinkInProgress)
++			return;
++
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++
++		pLed->CurrLedState = LED_BLINK_LINK_IDEL;
++		pLed->BlinkingLedState = RTW_LED_ON;
++
++		_set_timer(&(pLed->BlinkTimer), 30);
++		break;
++
++	case LED_CTL_SITE_SURVEY:
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++			return;
++
++		if (pLed->bLedWPSBlinkInProgress == _TRUE)
++			return;
++
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++		pLed->CurrLedState = LED_BLINK_SCAN;
++		pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), 0);
++		break;
++
++	case LED_CTL_TX:
++	case LED_CTL_RX:
++		if (pLed->bLedWPSBlinkInProgress)
++			return;
++
++		if (pLed->bLedBlinkInProgress) {
++			_cancel_timer_ex(&(pLed->BlinkTimer));
++			pLed->bLedBlinkInProgress = _FALSE;
++		}
++
++		pLed->bLedBlinkInProgress = _TRUE;
++		pLed->CurrLedState = LED_BLINK_TXRX;
++		pLed->BlinkTimes = 2;
++		if (pLed->bLedOn)
++			pLed->BlinkingLedState = RTW_LED_OFF;
++		else
++			pLed->BlinkingLedState = RTW_LED_ON;
++		_set_timer(&(pLed->BlinkTimer), LED_BLINK_FASTER_INTERVAL_ALPHA);
++		break;
++
++	default:
++		break;
++	}
++}
++
++void
++LedControlUSB(
++	_adapter				*padapter,
++	LED_CTL_MODE		LedAction
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++
++#if (MP_DRIVER == 1)
++	if (padapter->registrypriv.mp_mode == 1)
++		return;
++#endif
++
++	if (RTW_CANNOT_RUN(padapter) || (!rtw_is_hw_init_completed(padapter))) {
++		/*RTW_INFO("%s bDriverStopped:%s, bSurpriseRemoved:%s\n"
++		, __func__
++		, rtw_is_drv_stopped(padapter)?"True":"False"
++		, rtw_is_surprise_removed(padapter)?"True":"False" );*/
++		return;
++	}
++
++	if (ledpriv->bRegUseLed == _FALSE)
++		return;
++
++	/* if(priv->bInHctTest) */
++	/*	return; */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	/* Only do led action for PRIMARY_ADAPTER */
++	if (padapter->adapter_type != PRIMARY_ADAPTER)
++		return;
++#endif
++
++	if ((adapter_to_pwrctl(padapter)->rf_pwrstate != rf_on &&
++	     adapter_to_pwrctl(padapter)->rfoff_reason > RF_CHANGE_BY_PS) &&
++	    (LedAction == LED_CTL_TX || LedAction == LED_CTL_RX ||
++	     LedAction == LED_CTL_SITE_SURVEY ||
++	     LedAction == LED_CTL_LINK ||
++	     LedAction == LED_CTL_NO_LINK ||
++	     LedAction == LED_CTL_POWER_ON))
++		return;
++
++	switch (ledpriv->LedStrategy) {
++	case SW_LED_MODE0:
++		SwLedControlMode0(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE1:
++		SwLedControlMode1(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE2:
++		SwLedControlMode2(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE3:
++		SwLedControlMode3(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE4:
++		SwLedControlMode4(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE5:
++		SwLedControlMode5(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE6:
++		SwLedControlMode6(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE7:
++		SwLedControlMode7(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE8:
++		SwLedControlMode8(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE9:
++		SwLedControlMode9(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE10:
++		SwLedControlMode10(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE11:
++		SwLedControlMode11(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE12:
++		SwLedControlMode12(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE13:
++		SwLedControlMode13(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE14:
++		SwLedControlMode14(padapter, LedAction);
++		break;
++
++	case SW_LED_MODE15:
++		SwLedControlMode15(padapter, LedAction);
++		break;
++
++	default:
++		break;
++	}
++
++}
++
++/*
++ *	Description:
++ *		Reset status of LED_871x object.
++ *   */
++void ResetLedStatus(PLED_USB pLed)
++{
++
++	pLed->CurrLedState = RTW_LED_OFF; /* Current LED state. */
++	pLed->bLedOn = _FALSE; /* true if LED is ON, false if LED is OFF. */
++
++	pLed->bLedBlinkInProgress = _FALSE; /* true if it is blinking, false o.w.. */
++	pLed->bLedWPSBlinkInProgress = _FALSE;
++
++	pLed->BlinkTimes = 0; /* Number of times to toggle led state for blinking. */
++	pLed->BlinkCounter = 0;
++	pLed->BlinkingLedState = LED_UNKNOWN; /* Next state for blinking, either RTW_LED_ON or RTW_LED_OFF are. */
++
++	pLed->bLedNoLinkBlinkInProgress = _FALSE;
++	pLed->bLedLinkBlinkInProgress = _FALSE;
++	pLed->bLedStartToLinkBlinkInProgress = _FALSE;
++	pLed->bLedScanBlinkInProgress = _FALSE;
++}
++
++/*
++*	Description:
++*		Initialize an LED_871x object.
++*   */
++void
++InitLed(
++	_adapter			*padapter,
++	PLED_USB		pLed,
++	LED_PIN			LedPin
++)
++{
++	pLed->padapter = padapter;
++	pLed->LedPin = LedPin;
++
++	ResetLedStatus(pLed);
++	_init_timer(&(pLed->BlinkTimer), padapter->pnetdev, BlinkTimerCallback, pLed);
++	_init_workitem(&(pLed->BlinkWorkItem), BlinkWorkItemCallback, pLed);
++}
++
++
++/*
++ *	Description:
++ *		DeInitialize an LED_871x object.
++ *   */
++void
++DeInitLed(
++	PLED_USB		pLed
++)
++{
++	_cancel_workitem_sync(&(pLed->BlinkWorkItem));
++	_cancel_timer_ex(&(pLed->BlinkTimer));
++	ResetLedStatus(pLed);
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/halhwimg.h b/drivers/net/wireless/rtl8812au/hal/phydm/halhwimg.h
+new file mode 100644
+index 0000000..108f715
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/halhwimg.h
+@@ -0,0 +1,123 @@
++#pragma once
++#ifndef __INC_HW_IMG_H
++#define __INC_HW_IMG_H
++
++//
++// 2011/03/15 MH Add for different IC HW image file selection. code size consideration.
++//
++#if RT_PLATFORM == PLATFORM_LINUX
++
++	#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++	// For 92C
++	#define		RTL8192CE_HWIMG_SUPPORT					1
++	#define		RTL8192CE_TEST_HWIMG_SUPPORT			0
++	#define		RTL8192CU_HWIMG_SUPPORT					0
++	#define		RTL8192CU_TEST_HWIMG_SUPPORT			0
++
++	// For 92D
++	#define		RTL8192DE_HWIMG_SUPPORT					1
++	#define		RTL8192DE_TEST_HWIMG_SUPPORT			0
++	#define		RTL8192DU_HWIMG_SUPPORT					0
++	#define		RTL8192DU_TEST_HWIMG_SUPPORT			0
++
++	// For 8723
++	#define		RTL8723E_HWIMG_SUPPORT					1
++	#define		RTL8723U_HWIMG_SUPPORT					0
++	#define		RTL8723S_HWIMG_SUPPORT					0
++
++	//For 88E
++	#define		RTL8188EE_HWIMG_SUPPORT					0
++	#define		RTL8188EU_HWIMG_SUPPORT					0
++	#define		RTL8188ES_HWIMG_SUPPORT					0
++	
++	#elif (DEV_BUS_TYPE == RT_USB_INTERFACE)
++	// For 92C
++	#define 	RTL8192CE_HWIMG_SUPPORT 				0
++	#define 	RTL8192CE_TEST_HWIMG_SUPPORT			0
++	#define 	RTL8192CU_HWIMG_SUPPORT 				1
++	#define 	RTL8192CU_TEST_HWIMG_SUPPORT			0
++
++	//For 92D
++	#define 	RTL8192DE_HWIMG_SUPPORT 				0
++	#define 	RTL8192DE_TEST_HWIMG_SUPPORT			0
++	#define 	RTL8192DU_HWIMG_SUPPORT 				1
++	#define 	RTL8192DU_TEST_HWIMG_SUPPORT			0
++
++	// For 8723
++	#define 	RTL8723E_HWIMG_SUPPORT					0
++	#define 	RTL8723U_HWIMG_SUPPORT					1
++	#define 	RTL8723S_HWIMG_SUPPORT					0
++
++	//For 88E
++	#define		RTL8188EE_HWIMG_SUPPORT					0
++	#define		RTL8188EU_HWIMG_SUPPORT					0
++	#define		RTL8188ES_HWIMG_SUPPORT					0
++	
++	#elif (DEV_BUS_TYPE == RT_SDIO_INTERFACE)
++	// For 92C
++	#define 	RTL8192CE_HWIMG_SUPPORT 				0
++	#define 	RTL8192CE_TEST_HWIMG_SUPPORT			0
++	#define 	RTL8192CU_HWIMG_SUPPORT 				1
++	#define 	RTL8192CU_TEST_HWIMG_SUPPORT			0
++
++	//For 92D
++	#define 	RTL8192DE_HWIMG_SUPPORT 				0
++	#define 	RTL8192DE_TEST_HWIMG_SUPPORT			0
++	#define 	RTL8192DU_HWIMG_SUPPORT 				1
++	#define 	RTL8192DU_TEST_HWIMG_SUPPORT			0
++
++	// For 8723
++	#define 	RTL8723E_HWIMG_SUPPORT					0
++	#define 	RTL8723U_HWIMG_SUPPORT					0
++	#define 	RTL8723S_HWIMG_SUPPORT					1
++
++	//For 88E
++	#define		RTL8188EE_HWIMG_SUPPORT					0
++	#define		RTL8188EU_HWIMG_SUPPORT					0
++	#define		RTL8188ES_HWIMG_SUPPORT					0
++	#endif
++
++#else	// PLATFORM_WINDOWS & MacOSX
++
++//For 92C
++#define		RTL8192CE_HWIMG_SUPPORT						1
++#define		RTL8192CE_TEST_HWIMG_SUPPORT				1
++#define		RTL8192CU_HWIMG_SUPPORT						1
++#define		RTL8192CU_TEST_HWIMG_SUPPORT				1
++
++// For 92D
++#define		RTL8192DE_HWIMG_SUPPORT					1
++#define		RTL8192DE_TEST_HWIMG_SUPPORT				1
++#define		RTL8192DU_HWIMG_SUPPORT					1
++#define		RTL8192DU_TEST_HWIMG_SUPPORT				1
++
++	#if defined(UNDER_CE)
++	// For 8723
++	#define		RTL8723E_HWIMG_SUPPORT					0
++	#define		RTL8723U_HWIMG_SUPPORT					0
++	#define		RTL8723S_HWIMG_SUPPORT					1
++
++	// For 88E
++	#define		RTL8188EE_HWIMG_SUPPORT					0
++	#define		RTL8188EU_HWIMG_SUPPORT					0
++	#define		RTL8188ES_HWIMG_SUPPORT					0
++
++	#else 
++
++	// For 8723
++	#define		RTL8723E_HWIMG_SUPPORT					1
++	//#define		RTL_8723E_TEST_HWIMG_SUPPORT			1
++	#define		RTL8723U_HWIMG_SUPPORT					1
++	//#define		RTL_8723U_TEST_HWIMG_SUPPORT			1
++	#define		RTL8723S_HWIMG_SUPPORT					1
++	//#define		RTL_8723S_TEST_HWIMG_SUPPORT			1
++
++	//For 88E
++	#define		RTL8188EE_HWIMG_SUPPORT					1
++	#define		RTL8188EU_HWIMG_SUPPORT					1
++	#define		RTL8188ES_HWIMG_SUPPORT					1
++	#endif
++
++#endif
++
++#endif //__INC_HW_IMG_H
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/halphyrf_ap.c b/drivers/net/wireless/rtl8812au/hal/phydm/halphyrf_ap.c
+new file mode 100644
+index 0000000..5fc90d4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/halphyrf_ap.c
+@@ -0,0 +1,2790 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++ #include "mp_precomp.h"
++ #include "phydm_precomp.h"
++
++#ifndef index_mapping_NUM_88E
++ #define	index_mapping_NUM_88E	15
++#endif
++
++//#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++
++#define 	CALCULATE_SWINGTALBE_OFFSET(_offset, _direction, _size, _deltaThermal) \
++					do {\
++						for(_offset = 0; _offset < _size; _offset++)\
++						{\
++							if(_deltaThermal < thermalThreshold[_direction][_offset])\
++							{\
++								if(_offset != 0)\
++									_offset--;\
++								break;\
++							}\
++						}			\
++						if(_offset >= _size)\
++							_offset = _size-1;\
++					} while(0)
++
++
++void ConfigureTxpowerTrack(
++	IN	PVOID		pDM_VOID,
++	OUT	PTXPWRTRACK_CFG	pConfig
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if RTL8812A_SUPPORT
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	//if (IS_HARDWARE_TYPE_8812(pDM_Odm->Adapter))
++	if(pDM_Odm->SupportICType==ODM_RTL8812)
++		ConfigureTxpowerTrack_8812A(pConfig);
++	//else
++#endif
++#endif
++
++#if RTL8814A_SUPPORT
++	if(pDM_Odm->SupportICType== ODM_RTL8814A)
++		ConfigureTxpowerTrack_8814A(pConfig);
++#endif
++
++
++#if RTL8188E_SUPPORT
++	if(pDM_Odm->SupportICType==ODM_RTL8188E)
++		ConfigureTxpowerTrack_8188E(pConfig);
++#endif 
++
++#if RTL8197F_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8197F)
++		ConfigureTxpowerTrack_8197F(pConfig);
++#endif 
++
++#if RTL8822B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8822B)
++		ConfigureTxpowerTrack_8822B(pConfig);
++#endif
++
++
++}
++
++#if (RTL8192E_SUPPORT==1) 
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter_92E(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	ThermalValue = 0, delta, delta_IQK, delta_LCK, channel, is_decrease, rf_mimo_mode;
++	u1Byte	ThermalValue_AVG_count = 0;
++    	u1Byte     OFDM_min_index = 10; //OFDM BB Swing should be less than +2.5dB, which is required by Arthur
++	s1Byte	OFDM_index[2], index ;
++    	u4Byte	ThermalValue_AVG = 0, Reg0x18;
++	u4Byte	i = 0, j = 0, rf;
++	s4Byte	value32, CCK_index = 0, ele_A, ele_D, ele_C, X, Y;
++	prtl8192cd_priv 	priv = pDM_Odm->priv;
++
++	rf_mimo_mode = pDM_Odm->RFType;
++	//ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("%s:%d rf_mimo_mode:%d\n", __FUNCTION__, __LINE__, rf_mimo_mode));
++
++#ifdef MP_TEST
++	if ((OPMODE & WIFI_MP_STATE) || priv->pshare->rf_ft_var.mp_specific) {
++		channel = priv->pshare->working_channel;
++		if (priv->pshare->mp_txpwr_tracking == FALSE)
++			return;
++	} else
++#endif
++	{
++		channel = (priv->pmib->dot11RFEntry.dot11channel);
++	}
++
++	ThermalValue = (unsigned char)ODM_GetRFReg(pDM_Odm, RF_PATH_A, ODM_RF_T_METER_92E, 0xfc00);	//0x42: RF Reg[15:10] 88E
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("\nReadback Thermal Meter = 0x%x pre thermal meter 0x%x EEPROMthermalmeter 0x%x\n", ThermalValue, priv->pshare->ThermalValue, priv->pmib->dot11RFEntry.ther));
++
++
++	switch (rf_mimo_mode) {
++		case MIMO_1T1R:
++			rf = 1;      
++			break;
++		case MIMO_2T2R:
++			rf = 2;
++			break;
++		default:
++			rf = 2;
++			break;
++	}
++
++	//Query OFDM path A default setting 	Bit[31:21]
++	ele_D = PHY_QueryBBReg(priv, rOFDM0_XATxIQImbalance, bMaskOFDM_D);
++	for (i = 0; i < OFDM_TABLE_SIZE_92E; i++) {
++		if (ele_D == (OFDMSwingTable_92E[i] >> 22)) {
++			OFDM_index[0] = (unsigned char)i;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("PathA 0xC80[31:22] = 0x%x, OFDM_index=%d\n", ele_D, OFDM_index[0]));
++			break;
++		}
++	}
++
++	//Query OFDM path B default setting
++	if (rf_mimo_mode == MIMO_2T2R) {
++		ele_D = PHY_QueryBBReg(priv, rOFDM0_XBTxIQImbalance, bMaskOFDM_D);
++		for (i = 0; i < OFDM_TABLE_SIZE_92E; i++) {
++			if (ele_D == (OFDMSwingTable_92E[i] >> 22)) {
++				OFDM_index[1] = (unsigned char)i;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("PathB 0xC88[31:22] = 0x%x, OFDM_index=%d\n", ele_D, OFDM_index[1]));
++				break;
++			}
++		}
++	}
++
++	/* calculate average thermal meter */
++	{
++		priv->pshare->ThermalValue_AVG_88XX[priv->pshare->ThermalValue_AVG_index_88XX] = ThermalValue;
++		priv->pshare->ThermalValue_AVG_index_88XX++;
++		if (priv->pshare->ThermalValue_AVG_index_88XX == AVG_THERMAL_NUM_88XX)
++			priv->pshare->ThermalValue_AVG_index_88XX = 0;
++
++		for (i = 0; i < AVG_THERMAL_NUM_88XX; i++) {
++			if (priv->pshare->ThermalValue_AVG_88XX[i]) {
++				ThermalValue_AVG += priv->pshare->ThermalValue_AVG_88XX[i];
++				ThermalValue_AVG_count++;
++			}
++		}
++
++		if (ThermalValue_AVG_count) {
++			ThermalValue = (unsigned char)(ThermalValue_AVG / ThermalValue_AVG_count);
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("AVG Thermal Meter = 0x%x \n", ThermalValue));
++		}
++	}
++
++	/* Initialize */
++	if (!priv->pshare->ThermalValue) {
++		priv->pshare->ThermalValue = priv->pmib->dot11RFEntry.ther;
++		priv->pshare->ThermalValue_IQK = ThermalValue;
++		priv->pshare->ThermalValue_LCK = ThermalValue;
++	}
++
++	if (ThermalValue != priv->pshare->ThermalValue) {
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("\n******** START POWER TRACKING ********\n")); 					
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("\nReadback Thermal Meter = 0x%x pre thermal meter 0x%x EEPROMthermalmeter 0x%x\n", ThermalValue, priv->pshare->ThermalValue, priv->pmib->dot11RFEntry.ther)); 			
++
++		delta = RTL_ABS(ThermalValue, priv->pmib->dot11RFEntry.ther);
++		delta_IQK = RTL_ABS(ThermalValue, priv->pshare->ThermalValue_IQK);
++		delta_LCK = RTL_ABS(ThermalValue, priv->pshare->ThermalValue_LCK);
++		is_decrease = ((ThermalValue < priv->pmib->dot11RFEntry.ther) ? 1 : 0);
++		
++#ifdef _TRACKING_TABLE_FILE
++		if (priv->pshare->rf_ft_var.pwr_track_file) {				
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("Diff: (%s)%d ==> get index from table : %d)\n", (is_decrease?"-":"+"), delta, get_tx_tracking_index(priv, channel, i, delta, is_decrease, 0)));
++        
++            	if (is_decrease) {					
++                	for (i = 0; i < rf; i++) {
++				OFDM_index[i] = priv->pshare->OFDM_index0[i] + get_tx_tracking_index(priv, channel, i, delta, is_decrease, 0);
++				OFDM_index[i] = ((OFDM_index[i] > (OFDM_TABLE_SIZE_92E- 1)) ? (OFDM_TABLE_SIZE_92E - 1) : OFDM_index[i]);
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,(">>> decrese power ---> new OFDM_INDEX:%d (%d + %d)\n", OFDM_index[i], priv->pshare->OFDM_index0[i], get_tx_tracking_index(priv, channel, i, delta, is_decrease, 0)));
++	                        CCK_index = priv->pshare->CCK_index0 + get_tx_tracking_index(priv, channel, i, delta, is_decrease, 1);                        
++				CCK_index = ((CCK_index > (CCK_TABLE_SIZE_92E - 1)) ? (CCK_TABLE_SIZE_92E - 1) : CCK_index);				
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,(">>> Decrese power ---> new CCK_INDEX:%d (%d + %d)\n",  CCK_index, priv->pshare->CCK_index0, get_tx_tracking_index(priv, channel, i, delta, is_decrease, 1)));
++			}
++		} else {
++			for (i = 0; i < rf; i++) {
++				OFDM_index[i] = priv->pshare->OFDM_index0[i] - get_tx_tracking_index(priv, channel, i, delta, is_decrease, 0);
++				OFDM_index[i] = ((OFDM_index[i] < OFDM_min_index) ?  OFDM_min_index : OFDM_index[i]);
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,(">>> Increse power ---> new OFDM_INDEX:%d (%d - %d)\n", OFDM_index[i], priv->pshare->OFDM_index0[i], get_tx_tracking_index(priv, channel, i, delta, is_decrease, 0)));
++				CCK_index = priv->pshare->CCK_index0 - get_tx_tracking_index(priv, channel, i, delta, is_decrease, 1);						  
++	                        CCK_index = ((CCK_index < 0 )? 0 : CCK_index);  
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,(">>> Increse power ---> new CCK_INDEX:%d (%d - %d)\n", CCK_index, priv->pshare->CCK_index0, get_tx_tracking_index(priv, channel, i, delta, is_decrease, 1)));
++			}
++		}
++		}
++#endif //CFG_TRACKING_TABLE_FILE
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("OFDMSwingTable_92E[(unsigned int)OFDM_index[0]] = %x \n",OFDMSwingTable_92E[(unsigned int)OFDM_index[0]]));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("OFDMSwingTable_92E[(unsigned int)OFDM_index[1]] = %x \n",OFDMSwingTable_92E[(unsigned int)OFDM_index[1]]));
++
++		//Adujst OFDM Ant_A according to IQK result
++		ele_D = (OFDMSwingTable_92E[(unsigned int)OFDM_index[0]] & 0xFFC00000) >> 22;
++		X = priv->pshare->RegE94;
++		Y = priv->pshare->RegE9C;
++
++		if (X != 0) {
++			if ((X & 0x00000200) != 0)
++				X = X | 0xFFFFFC00;
++			ele_A = ((X * ele_D) >> 8) & 0x000003FF;
++
++			//new element C = element D x Y
++			if ((Y & 0x00000200) != 0)
++				Y = Y | 0xFFFFFC00;
++			ele_C = ((Y * ele_D) >> 8) & 0x000003FF;
++
++			//wirte new elements A, C, D to regC80 and regC94, element B is always 0
++			value32 = (ele_D << 22) | ((ele_C & 0x3F) << 16) | ele_A;
++			PHY_SetBBReg(priv, rOFDM0_XATxIQImbalance, bMaskDWord, value32);
++
++			value32 = (ele_C&0x000003C0)>>6;
++			PHY_SetBBReg(priv, rOFDM0_XCTxAFE, bMaskH4Bits, value32);
++			
++			value32 = ((X * ele_D)>>7)&0x01;
++			PHY_SetBBReg(priv, rOFDM0_ECCAThreshold, BIT(24), value32);
++		} else {
++			PHY_SetBBReg(priv, rOFDM0_XATxIQImbalance, bMaskDWord, OFDMSwingTable_92E[(unsigned int)OFDM_index[0]]);
++			PHY_SetBBReg(priv, rOFDM0_XCTxAFE, bMaskH4Bits, 0x00);
++			PHY_SetBBReg(priv, rOFDM0_ECCAThreshold, BIT(24), 0x00);
++		}
++
++		set_CCK_swing_index(priv, CCK_index);
++
++		if (rf == 2) {
++			ele_D = (OFDMSwingTable_92E[(unsigned int)OFDM_index[1]] & 0xFFC00000) >> 22;
++			X = priv->pshare->RegEB4;
++			Y = priv->pshare->RegEBC;
++
++			if (X != 0) {
++				if ((X & 0x00000200) != 0)	//consider minus
++					X = X | 0xFFFFFC00;
++				ele_A = ((X * ele_D) >> 8) & 0x000003FF;
++
++				//new element C = element D x Y
++				if ((Y & 0x00000200) != 0)
++					Y = Y | 0xFFFFFC00;
++				ele_C = ((Y * ele_D) >> 8) & 0x00003FF;
++
++				//wirte new elements A, C, D to regC88 and regC9C, element B is always 0
++				value32 = (ele_D << 22) | ((ele_C & 0x3F) << 16) | ele_A;
++				PHY_SetBBReg(priv, rOFDM0_XBTxIQImbalance, bMaskDWord, value32);
++				
++				value32 = (ele_C & 0x000003C0) >> 6;
++				PHY_SetBBReg(priv, rOFDM0_XDTxAFE, bMaskH4Bits, value32);
++
++				value32 = ((X * ele_D) >> 7) & 0x01;
++				PHY_SetBBReg(priv, rOFDM0_ECCAThreshold, BIT(28), value32);
++			} else {
++				PHY_SetBBReg(priv, rOFDM0_XBTxIQImbalance, bMaskDWord, OFDMSwingTable_92E[(unsigned int)OFDM_index[1]]);
++				PHY_SetBBReg(priv, rOFDM0_XDTxAFE, bMaskH4Bits, 0x00);
++				PHY_SetBBReg(priv, rOFDM0_ECCAThreshold, BIT(28), 0x00);
++			}
++
++		}
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("0xc80 = 0x%x \n", PHY_QueryBBReg(priv, rOFDM0_XATxIQImbalance, bMaskDWord)));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("0xc88 = 0x%x \n", PHY_QueryBBReg(priv, rOFDM0_XBTxIQImbalance, bMaskDWord)));
++
++		if (delta_IQK > 3) {
++			priv->pshare->ThermalValue_IQK = ThermalValue;
++#ifdef MP_TEST
++			if (!(priv->pshare->rf_ft_var.mp_specific && (OPMODE & (WIFI_MP_CTX_BACKGROUND | WIFI_MP_CTX_PACKET))))
++#endif	
++				PHY_IQCalibrate_8192E(pDM_Odm,false);
++		}
++
++		if (delta_LCK > 8) {
++			RTL_W8(0x522, 0xff);
++			Reg0x18 = PHY_QueryRFReg(priv, RF_PATH_A, 0x18, bMask20Bits, 1);
++			PHY_SetRFReg(priv, RF_PATH_A, 0xB4, BIT(14), 1);			
++			PHY_SetRFReg(priv, RF_PATH_A, 0x18, BIT(15), 1);
++			delay_ms(1);
++			PHY_SetRFReg(priv, RF_PATH_A, 0xB4, BIT(14), 0);
++			PHY_SetRFReg(priv, RF_PATH_A, 0x18, bMask20Bits, Reg0x18);		
++			RTL_W8(0x522, 0x0);
++			priv->pshare->ThermalValue_LCK = ThermalValue;
++		}	
++	}
++
++	//update thermal meter value
++	priv->pshare->ThermalValue = ThermalValue;
++	for (i = 0 ; i < rf ; i++)
++		priv->pshare->OFDM_index[i] = OFDM_index[i];
++	priv->pshare->CCK_index = CCK_index;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,  ("\n******** END:%s() ********\n", __FUNCTION__));	
++}
++#endif
++
++
++
++#if (RTL8197F_SUPPORT == 1 || RTL8822B_SUPPORT == 1)					
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter_JaguarSeries3(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	)
++{
++#if 1
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			ThermalValue = 0, delta, delta_LCK, delta_IQK, channel, is_increase;
++	u1Byte			ThermalValue_AVG_count = 0, p = 0, i = 0;
++	u4Byte			ThermalValue_AVG = 0;
++	prtl8192cd_priv		priv = pDM_Odm->priv;
++	TXPWRTRACK_CFG	c;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	/*4 1. The following TWO tables decide the final index of OFDM/CCK swing table.*/
++	pu1Byte			deltaSwingTableIdx_TUP_A = NULL, deltaSwingTableIdx_TDOWN_A = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_B = NULL, deltaSwingTableIdx_TDOWN_B = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_CCK_A = NULL, deltaSwingTableIdx_TDOWN_CCK_A = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_CCK_B = NULL, deltaSwingTableIdx_TDOWN_CCK_B = NULL;
++	/*for 8814 add by Yu Chen*/
++	pu1Byte			deltaSwingTableIdx_TUP_C = NULL, deltaSwingTableIdx_TDOWN_C = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_D = NULL, deltaSwingTableIdx_TDOWN_D = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_CCK_C = NULL, deltaSwingTableIdx_TDOWN_CCK_C = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_CCK_D = NULL, deltaSwingTableIdx_TDOWN_CCK_D = NULL;
++
++#ifdef MP_TEST
++	if ((OPMODE & WIFI_MP_STATE) || priv->pshare->rf_ft_var.mp_specific) {
++		channel = priv->pshare->working_channel;
++		if (priv->pshare->mp_txpwr_tracking == FALSE)
++			return;
++	} else
++#endif
++	{
++		channel = (priv->pmib->dot11RFEntry.dot11channel);
++	}
++
++	ConfigureTxpowerTrack(pDM_Odm, &c);
++	
++	(*c.GetDeltaAllSwingTable)(pDM_Odm, (pu1Byte *)&deltaSwingTableIdx_TUP_A, (pu1Byte *)&deltaSwingTableIdx_TDOWN_A,
++									  (pu1Byte *)&deltaSwingTableIdx_TUP_B, (pu1Byte *)&deltaSwingTableIdx_TDOWN_B,
++									  (pu1Byte *)&deltaSwingTableIdx_TUP_CCK_A, (pu1Byte *)&deltaSwingTableIdx_TDOWN_CCK_A,
++									  (pu1Byte *)&deltaSwingTableIdx_TUP_CCK_B, (pu1Byte *)&deltaSwingTableIdx_TDOWN_CCK_B);
++	
++	ThermalValue = (u1Byte)ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, c.ThermalRegAddr, 0xfc00); /*0x42: RF Reg[15:10] 88E*/
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++		("Readback Thermal Meter = 0x%x(%d) EEPROMthermalmeter 0x%x(%d)\n"
++		, ThermalValue, ThermalValue, priv->pmib->dot11RFEntry.ther, priv->pmib->dot11RFEntry.ther));
++
++	/* Initialize */
++	if (!pDM_Odm->RFCalibrateInfo.ThermalValue)
++		pDM_Odm->RFCalibrateInfo.ThermalValue = priv->pmib->dot11RFEntry.ther;
++	
++	if (!pDM_Odm->RFCalibrateInfo.ThermalValue_LCK)
++		pDM_Odm->RFCalibrateInfo.ThermalValue_LCK = priv->pmib->dot11RFEntry.ther;
++
++	if (!pDM_Odm->RFCalibrateInfo.ThermalValue_IQK)
++		pDM_Odm->RFCalibrateInfo.ThermalValue_IQK = priv->pmib->dot11RFEntry.ther;
++
++	/* calculate average thermal meter */
++	pDM_Odm->RFCalibrateInfo.ThermalValue_AVG[pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index] = ThermalValue;
++	pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index++;
++	
++	if (pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index == c.AverageThermalNum)   /*Average times =  c.AverageThermalNum*/
++		pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index = 0;
++
++	for (i = 0; i < c.AverageThermalNum; i++) {
++		if (pDM_Odm->RFCalibrateInfo.ThermalValue_AVG[i]) {
++			ThermalValue_AVG += pDM_Odm->RFCalibrateInfo.ThermalValue_AVG[i];
++			ThermalValue_AVG_count++;
++		}
++	}
++
++	if (ThermalValue_AVG_count) {/*Calculate Average ThermalValue after average enough times*/
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("ThermalValue_AVG=0x%x(%d)  ThermalValue_AVG_count = %d\n"
++			, ThermalValue_AVG, ThermalValue_AVG, ThermalValue_AVG_count));
++		
++		ThermalValue = (u1Byte)(ThermalValue_AVG / ThermalValue_AVG_count);
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("AVG Thermal Meter = 0x%X(%d), EEPROMthermalmeter = 0x%X(%d)\n", ThermalValue, ThermalValue, priv->pmib->dot11RFEntry.ther, priv->pmib->dot11RFEntry.ther));
++	}
++
++	/*4 Calculate delta, delta_LCK, delta_IQK.*/
++	delta = RTL_ABS(ThermalValue, priv->pmib->dot11RFEntry.ther);	
++	delta_LCK = RTL_ABS(ThermalValue, pDM_Odm->RFCalibrateInfo.ThermalValue_LCK);
++	delta_IQK = RTL_ABS(ThermalValue, pDM_Odm->RFCalibrateInfo.ThermalValue_IQK);
++	is_increase = ((ThermalValue < priv->pmib->dot11RFEntry.ther) ? 0 : 1);
++
++	if (delta > 29) { /* power track table index(thermal diff.) upper bound*/
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("delta(%d) > 29, set delta to 29\n", delta));
++		delta = 29;
++	}
++
++
++	/*4 if necessary, do LCK.*/
++	
++	if (delta_LCK > c.Threshold_IQK) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("delta_LCK(%d) >= Threshold_IQK(%d)\n", delta_LCK, c.Threshold_IQK));
++		pDM_Odm->RFCalibrateInfo.ThermalValue_LCK = ThermalValue;
++		if (c.PHY_LCCalibrate)
++			(*c.PHY_LCCalibrate)(pDM_Odm);
++	} 
++
++	if (delta_IQK > c.Threshold_IQK) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("delta_IQK(%d) >= Threshold_IQK(%d)\n", delta_IQK, c.Threshold_IQK));
++		pDM_Odm->RFCalibrateInfo.ThermalValue_IQK = ThermalValue;
++		if (c.DoIQK)
++			(*c.DoIQK)(pDM_Odm, TRUE, 0, 0);
++	} 
++
++	if (!priv->pmib->dot11RFEntry.ther)	/*Don't do power tracking since no calibrated thermal value*/
++		return;
++	
++	/*4 Do Power Tracking*/
++
++	if (ThermalValue != pDM_Odm->RFCalibrateInfo.ThermalValue) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("\n\n******** START POWER TRACKING ********\n"));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("Readback Thermal Meter = 0x%x pre thermal meter 0x%x EEPROMthermalmeter 0x%x\n",
++			ThermalValue, pDM_Odm->RFCalibrateInfo.ThermalValue, priv->pmib->dot11RFEntry.ther));
++				
++#ifdef _TRACKING_TABLE_FILE
++		if (priv->pshare->rf_ft_var.pwr_track_file) {				
++			if (is_increase) {			/*thermal is higher than base*/
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++					switch (p) {
++					case ODM_RF_PATH_B:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TUP_B[%d] = %d deltaSwingTableIdx_TUP_CCK_B[%d] = %d\n", delta, deltaSwingTableIdx_TUP_B[delta], delta, deltaSwingTableIdx_TUP_CCK_B[delta]));
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = deltaSwingTableIdx_TUP_B[delta];
++						pRFCalibrateInfo->Absolute_CCKSwingIdx[p] = deltaSwingTableIdx_TUP_CCK_B[delta]; 
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pRF->Absolute_OFDMSwingIdx[ODM_RF_PATH_B] = %d pRF->Absolute_CCKSwingIdx[ODM_RF_PATH_B] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p], pRFCalibrateInfo->Absolute_CCKSwingIdx[p]));
++					break;
++
++					case ODM_RF_PATH_C:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TUP_C[%d] = %d deltaSwingTableIdx_TUP_CCK_C[%d] = %d\n", delta, deltaSwingTableIdx_TUP_C[delta], delta, deltaSwingTableIdx_TUP_CCK_C[delta]));
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = deltaSwingTableIdx_TUP_C[delta];
++						pRFCalibrateInfo->Absolute_CCKSwingIdx[p] = deltaSwingTableIdx_TUP_CCK_C[delta];
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pRF->Absolute_OFDMSwingIdx[ODM_RF_PATH_C] = %d pRF->Absolute_CCKSwingIdx[ODM_RF_PATH_C] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p], pRFCalibrateInfo->Absolute_CCKSwingIdx[p]));
++					break;
++
++					case ODM_RF_PATH_D:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TUP_D[%d] = %d deltaSwingTableIdx_TUP_CCK_D[%d] = %d\n", delta, deltaSwingTableIdx_TUP_D[delta], delta, deltaSwingTableIdx_TUP_CCK_D[delta]));
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = deltaSwingTableIdx_TUP_D[delta];
++						pRFCalibrateInfo->Absolute_CCKSwingIdx[p] = deltaSwingTableIdx_TUP_CCK_D[delta]; 
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pRF->Absolute_OFDMSwingIdx[ODM_RF_PATH_D] = %d pRF->Absolute_CCKSwingIdx[ODM_RF_PATH_D] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p], pRFCalibrateInfo->Absolute_CCKSwingIdx[p]));
++						break;
++					default:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TUP_A[%d] = %d deltaSwingTableIdx_TUP_CCK_A[%d] = %d\n", delta, deltaSwingTableIdx_TUP_A[delta], delta, deltaSwingTableIdx_TUP_CCK_A[delta]));
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = deltaSwingTableIdx_TUP_A[delta];
++						pRFCalibrateInfo->Absolute_CCKSwingIdx[p] = deltaSwingTableIdx_TUP_CCK_A[delta]; 
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pRF->Absolute_OFDMSwingIdx[ODM_RF_PATH_A] = %d pRF->Absolute_CCKSwingIdx[ODM_RF_PATH_A] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p], pRFCalibrateInfo->Absolute_CCKSwingIdx[p])); 
++					break;
++					}
++				}
++			} else {			/* thermal is lower than base*/
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++					switch (p) {
++					case ODM_RF_PATH_B:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TDOWN_B[%d] = %d   deltaSwingTableIdx_TDOWN_CCK_B[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_B[delta], delta, deltaSwingTableIdx_TDOWN_CCK_B[delta]));  
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_B[delta];
++						pRFCalibrateInfo->Absolute_CCKSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_CCK_B[delta];
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is lower and pRF->Absolute_OFDMSwingIdx[ODM_RF_PATH_B] = %d   pRF->Absolute_CCKSwingIdx[ODM_RF_PATH_B] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p], pRFCalibrateInfo->Absolute_CCKSwingIdx[p])); 
++					break;
++
++					case ODM_RF_PATH_C:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TDOWN_C[%d] = %d   deltaSwingTableIdx_TDOWN_CCK_C[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_C[delta], delta, deltaSwingTableIdx_TDOWN_CCK_C[delta]));  
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_C[delta];
++						pRFCalibrateInfo->Absolute_CCKSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_CCK_C[delta];
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is lower and pRF->Absolute_OFDMSwingIdx[ODM_RF_PATH_C] = %d   pRF->Absolute_CCKSwingIdx[ODM_RF_PATH_C] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p], pRFCalibrateInfo->Absolute_CCKSwingIdx[p])); 
++					break;
++
++					case ODM_RF_PATH_D:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TDOWN_D[%d] = %d   deltaSwingTableIdx_TDOWN_CCK_D[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_D[delta], delta, deltaSwingTableIdx_TDOWN_CCK_D[delta]));  
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_D[delta];
++						pRFCalibrateInfo->Absolute_CCKSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_CCK_D[delta];
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is lower and pRF->Absolute_OFDMSwingIdx[ODM_RF_PATH_D] = %d   pRF->Absolute_CCKSwingIdx[ODM_RF_PATH_D] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p], pRFCalibrateInfo->Absolute_CCKSwingIdx[p])); 
++					break;
++
++					default:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TDOWN_A[%d] = %d   deltaSwingTableIdx_TDOWN_CCK_A[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_A[delta], delta, deltaSwingTableIdx_TDOWN_CCK_A[delta]));  
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_A[delta];
++						pRFCalibrateInfo->Absolute_CCKSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_CCK_A[delta];
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is lower and pRF->Absolute_OFDMSwingIdx[ODM_RF_PATH_A] = %d   pRF->Absolute_CCKSwingIdx[ODM_RF_PATH_A] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p], pRFCalibrateInfo->Absolute_CCKSwingIdx[p])); 
++					break;
++					}		
++				}
++			}
++				
++			if (is_increase) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, (">>> increse power --->\n"));
++					if (GET_CHIP_VER(priv) == VERSION_8197F) {
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) 
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, p, 0);
++					} else if (GET_CHIP_VER(priv) == VERSION_8822B) {
++						for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) 
++							(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, 0);
++					}
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, (">>> decrese power --->\n"));
++					if (GET_CHIP_VER(priv) == VERSION_8197F) {
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) 
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, p, 0);
++					} else if (GET_CHIP_VER(priv) == VERSION_8822B) {
++						for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) 
++							(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, 0);
++					}
++			}
++		}
++#endif		
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("\n******** END:%s() ********\n\n", __func__));
++	/*update thermal meter value*/
++	pDM_Odm->RFCalibrateInfo.ThermalValue =  ThermalValue;
++
++	}
++
++#endif
++}
++#endif
++
++/*#if (RTL8814A_SUPPORT == 1)*/
++#if (RTL8814A_SUPPORT == 1)
++		
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter_JaguarSeries2(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			ThermalValue = 0, delta, delta_LCK, delta_IQK, channel, is_increase;
++	u1Byte			ThermalValue_AVG_count = 0, p = 0, i = 0;
++	u4Byte			ThermalValue_AVG = 0, Reg0x18;
++	u4Byte 			BBSwingReg[4] = {rA_TxScale_Jaguar,rB_TxScale_Jaguar,rC_TxScale_Jaguar2,rD_TxScale_Jaguar2};
++	s4Byte			ele_D;
++	u4Byte			BBswingIdx;
++	prtl8192cd_priv	priv = pDM_Odm->priv;
++	TXPWRTRACK_CFG 	c;
++	BOOLEAN			bTSSIenable = FALSE;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	//4 1. The following TWO tables decide the final index of OFDM/CCK swing table.
++	pu1Byte			deltaSwingTableIdx_TUP_A = NULL, deltaSwingTableIdx_TDOWN_A = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_B = NULL, deltaSwingTableIdx_TDOWN_B = NULL;
++	//for 8814 add by Yu Chen
++	pu1Byte			deltaSwingTableIdx_TUP_C = NULL, deltaSwingTableIdx_TDOWN_C = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_D = NULL, deltaSwingTableIdx_TDOWN_D = NULL;
++
++#ifdef MP_TEST
++	if ((OPMODE & WIFI_MP_STATE) || priv->pshare->rf_ft_var.mp_specific) {
++		channel = priv->pshare->working_channel;
++		if (priv->pshare->mp_txpwr_tracking == FALSE)
++			return;
++	} else
++#endif
++	{
++		channel = (priv->pmib->dot11RFEntry.dot11channel);
++	}
++
++	ConfigureTxpowerTrack(pDM_Odm, &c);
++	pRFCalibrateInfo->DefaultOfdmIndex = priv->pshare->OFDM_index0[ODM_RF_PATH_A];
++
++	(*c.GetDeltaSwingTable)(pDM_Odm, (pu1Byte*)&deltaSwingTableIdx_TUP_A, (pu1Byte*)&deltaSwingTableIdx_TDOWN_A,
++									  (pu1Byte*)&deltaSwingTableIdx_TUP_B, (pu1Byte*)&deltaSwingTableIdx_TDOWN_B);
++
++	if(pDM_Odm->SupportICType & ODM_RTL8814A)	// for 8814 path C & D
++	(*c.GetDeltaSwingTable8814only)(pDM_Odm, (pu1Byte*)&deltaSwingTableIdx_TUP_C, (pu1Byte*)&deltaSwingTableIdx_TDOWN_C,
++									  (pu1Byte*)&deltaSwingTableIdx_TUP_D, (pu1Byte*)&deltaSwingTableIdx_TDOWN_D);
++	
++	ThermalValue = (u1Byte)ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, c.ThermalRegAddr, 0xfc00); //0x42: RF Reg[15:10] 88E
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++		("\nReadback Thermal Meter = 0x%x, pre thermal meter 0x%x, EEPROMthermalmeter 0x%x\n", ThermalValue, pDM_Odm->RFCalibrateInfo.ThermalValue, priv->pmib->dot11RFEntry.ther));
++
++	/* Initialize */
++	if (!pDM_Odm->RFCalibrateInfo.ThermalValue) {
++		pDM_Odm->RFCalibrateInfo.ThermalValue = priv->pmib->dot11RFEntry.ther;
++	}
++	
++	if (!pDM_Odm->RFCalibrateInfo.ThermalValue_LCK) {
++		pDM_Odm->RFCalibrateInfo.ThermalValue_LCK = priv->pmib->dot11RFEntry.ther;
++	}
++
++	if (!pDM_Odm->RFCalibrateInfo.ThermalValue_IQK) {
++		pDM_Odm->RFCalibrateInfo.ThermalValue_IQK = priv->pmib->dot11RFEntry.ther;
++	}
++	
++	bTSSIenable = (BOOLEAN)ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, rRF_TxGainOffset, BIT7);	// check TSSI enable
++	
++	//4 Query OFDM BB swing default setting 	Bit[31:21]	
++	for(p = ODM_RF_PATH_A ; p < c.RfPathCount ; p++)
++	{
++		ele_D = ODM_GetBBReg(pDM_Odm, BBSwingReg[p], 0xffe00000);	
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("0x%x:0x%x ([31:21] = 0x%x)\n", BBSwingReg[p], ODM_GetBBReg(pDM_Odm, BBSwingReg[p], bMaskDWord), ele_D));
++		
++		for (BBswingIdx = 0; BBswingIdx < TXSCALE_TABLE_SIZE; BBswingIdx++) {//4 
++			if (ele_D == TxScalingTable_Jaguar[BBswingIdx]) {
++				pDM_Odm->RFCalibrateInfo.OFDM_index[p] = (u1Byte)BBswingIdx;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++					("OFDM_index[%d]=%d\n",p, pDM_Odm->RFCalibrateInfo.OFDM_index[p]));				
++				break;
++			}
++		}
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("KfreeOffset[%d]=%d\n",p, pRFCalibrateInfo->KfreeOffset[p]));
++		
++	}
++
++	/* calculate average thermal meter */
++	pDM_Odm->RFCalibrateInfo.ThermalValue_AVG[pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index] = ThermalValue;
++	pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index++;
++	if(pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index == c.AverageThermalNum)   //Average times =  c.AverageThermalNum
++		pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index = 0;
++
++	for(i = 0; i < c.AverageThermalNum; i++)
++	{
++		if(pDM_Odm->RFCalibrateInfo.ThermalValue_AVG[i])
++		{
++			ThermalValue_AVG += pDM_Odm->RFCalibrateInfo.ThermalValue_AVG[i];
++			ThermalValue_AVG_count++;
++		}
++	}
++
++	if(ThermalValue_AVG_count)               //Calculate Average ThermalValue after average enough times
++	{
++		ThermalValue = (u1Byte)(ThermalValue_AVG / ThermalValue_AVG_count);
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("AVG Thermal Meter = 0x%X, EEPROMthermalmeter = 0x%X\n", ThermalValue, priv->pmib->dot11RFEntry.ther));					
++	}
++
++	//4 Calculate delta, delta_LCK, delta_IQK.
++	delta = RTL_ABS(ThermalValue, priv->pmib->dot11RFEntry.ther);	
++	delta_LCK = RTL_ABS(ThermalValue, pDM_Odm->RFCalibrateInfo.ThermalValue_LCK);
++	delta_IQK = RTL_ABS(ThermalValue, pDM_Odm->RFCalibrateInfo.ThermalValue_IQK);
++	is_increase = ((ThermalValue < priv->pmib->dot11RFEntry.ther) ? 0 : 1);
++
++	//4 if necessary, do LCK.
++	if (!(pDM_Odm->SupportICType & ODM_RTL8821)) {
++		if (delta_LCK > c.Threshold_IQK) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("delta_LCK(%d) >= Threshold_IQK(%d)\n", delta_LCK, c.Threshold_IQK));
++			pDM_Odm->RFCalibrateInfo.ThermalValue_LCK = ThermalValue;
++
++			/*Use RTLCK, so close power tracking driver LCK*/
++			#if (RTL8814A_SUPPORT != 1)
++				if (!(pDM_Odm->SupportICType & ODM_RTL8814A)) {
++					if (c.PHY_LCCalibrate)
++						(*c.PHY_LCCalibrate)(pDM_Odm);
++				}
++			#endif
++		}
++	}
++
++	if (delta_IQK > c.Threshold_IQK) 
++	{
++		panic_printk("%s(%d)\n", __FUNCTION__, __LINE__);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("delta_IQK(%d) >= Threshold_IQK(%d)\n", delta_IQK, c.Threshold_IQK));
++		pDM_Odm->RFCalibrateInfo.ThermalValue_IQK = ThermalValue;
++		if(c.DoIQK)
++			(*c.DoIQK)(pDM_Odm, TRUE, 0, 0);
++	} 
++
++	if(!priv->pmib->dot11RFEntry.ther)	/*Don't do power tracking since no calibrated thermal value*/
++		return;
++	
++	 //4 Do Power Tracking
++
++	 if(bTSSIenable == TRUE)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("**********Enter PURE TSSI MODE**********\n"));
++		for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++			(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, TSSI_MODE, p, 0);
++	}
++	else if (ThermalValue != pDM_Odm->RFCalibrateInfo.ThermalValue)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("\n******** START POWER TRACKING ********\n")); 					
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("\nReadback Thermal Meter = 0x%x pre thermal meter 0x%x EEPROMthermalmeter 0x%x\n", ThermalValue, pDM_Odm->RFCalibrateInfo.ThermalValue, priv->pmib->dot11RFEntry.ther)); 			
++				
++#ifdef _TRACKING_TABLE_FILE
++		if (priv->pshare->rf_ft_var.pwr_track_file)
++		{				
++			if (is_increase)			// thermal is higher than base
++			{
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) 
++				{
++					switch(p)
++					{
++					case ODM_RF_PATH_B:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TUP_B[%d] = %d\n", delta, deltaSwingTableIdx_TUP_B[delta])); 						
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = deltaSwingTableIdx_TUP_B[delta];       // Record delta swing for mix mode power tracking
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pDM_Odm->Absolute_OFDMSwingIdx[ODM_RF_PATH_B] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++					case ODM_RF_PATH_C:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TUP_C[%d] = %d\n", delta, deltaSwingTableIdx_TUP_C[delta]));								
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = deltaSwingTableIdx_TUP_C[delta];       // Record delta swing for mix mode power tracking
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pDM_Odm->Absolute_OFDMSwingIdx[ODM_RF_PATH_C] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++					case ODM_RF_PATH_D:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TUP_D[%d] = %d\n", delta, deltaSwingTableIdx_TUP_D[delta]));							
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = deltaSwingTableIdx_TUP_D[delta];       // Record delta swing for mix mode power tracking
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pDM_Odm->Absolute_OFDMSwingIdx[ODM_RF_PATH_D] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++					default:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++							("deltaSwingTableIdx_TUP_A[%d] = %d\n", delta, deltaSwingTableIdx_TUP_A[delta]));						
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = deltaSwingTableIdx_TUP_A[delta];        // Record delta swing for mix mode power tracking
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pDM_Odm->Absolute_OFDMSwingIdx[ODM_RF_PATH_A] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++					}		
++				}
++			}
++			else					// thermal is lower than base
++			{
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) 
++				{
++					switch(p)
++					{
++					case ODM_RF_PATH_B:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TDOWN_B[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_B[delta]));  
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_B[delta];        // Record delta swing for mix mode power tracking
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is lower and pDM_Odm->Absolute_OFDMSwingIdx[ODM_RF_PATH_B] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p])); 
++					break;
++
++					case ODM_RF_PATH_C:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TDOWN_C[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_C[delta]));  
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_C[delta];        // Record delta swing for mix mode power tracking
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is lower and pDM_Odm->Absolute_OFDMSwingIdx[ODM_RF_PATH_C] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));   
++					break;
++
++					case ODM_RF_PATH_D:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TDOWN_D[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_D[delta]));  
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_D[delta];        // Record delta swing for mix mode power tracking
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is lower and pDM_Odm->Absolute_OFDMSwingIdx[ODM_RF_PATH_D] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++					default:
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("deltaSwingTableIdx_TDOWN_A[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_A[delta]));  
++						pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = -1 * deltaSwingTableIdx_TDOWN_A[delta];        // Record delta swing for mix mode power tracking
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is lower and pDM_Odm->Absolute_OFDMSwingIdx[ODM_RF_PATH_A] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++					}		
++				}
++			}
++				
++			if (is_increase)
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,(">>> increse power ---> \n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) 
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, 0);
++			} 
++			else
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,(">>> decrese power --->\n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) 
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, 0);
++			}
++		}
++#endif		
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("\n******** END:%s() ********\n", __FUNCTION__));
++	//update thermal meter value
++	pDM_Odm->RFCalibrateInfo.ThermalValue =  ThermalValue;
++
++	}
++}
++#endif
++
++#if (RTL8812A_SUPPORT == 1 || RTL8881A_SUPPORT == 1)
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter_JaguarSeries(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	unsigned char			ThermalValue = 0, delta, delta_LCK, channel, is_decrease;
++	unsigned char			ThermalValue_AVG_count = 0;
++	unsigned int			ThermalValue_AVG = 0, Reg0x18;
++	unsigned int 			BBSwingReg[4]={0xc1c,0xe1c,0x181c,0x1a1c};
++	int 					ele_D, value32;
++	char					OFDM_index[2], index;
++	unsigned int			i = 0, j = 0, rf_path, max_rf_path =2 ,rf;
++	prtl8192cd_priv		priv = pDM_Odm->priv;
++	unsigned char			OFDM_min_index = 7; //OFDM BB Swing should be less than +2.5dB, which is required by Arthur and Mimic
++
++
++
++#ifdef MP_TEST
++	if ((OPMODE & WIFI_MP_STATE) || priv->pshare->rf_ft_var.mp_specific) {
++		channel = priv->pshare->working_channel;
++		if (priv->pshare->mp_txpwr_tracking == FALSE)
++			return;
++	} else
++#endif
++	{
++		channel = (priv->pmib->dot11RFEntry.dot11channel);
++	}
++
++#if RTL8881A_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8881A) {
++		max_rf_path = 1;
++		if ((get_bonding_type_8881A() == BOND_8881AM ||get_bonding_type_8881A() == BOND_8881AN) 			
++			&& priv->pshare->rf_ft_var.use_intpa8881A && (priv->pmib->dot11RFEntry.phyBandSelect == PHY_BAND_2G))			
++			OFDM_min_index = 6;		// intPA - upper bond set to +3 dB (base: -2 dB)ot11RFEntry.phyBandSelect == PHY_BAND_2G))
++		else
++			OFDM_min_index = 10;		//OFDM BB Swing should be less than +1dB, which is required by Arthur and Mimic
++	}
++#endif
++
++
++	ThermalValue = (unsigned char)PHY_QueryRFReg(priv, RF_PATH_A, 0x42, 0xfc00, 1); //0x42: RF Reg[15:10] 88E
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("\nReadback Thermal Meter = 0x%x pre thermal meter 0x%x EEPROMthermalmeter 0x%x\n", ThermalValue, priv->pshare->ThermalValue, priv->pmib->dot11RFEntry.ther));
++
++
++	//4 Query OFDM BB swing default setting 	Bit[31:21]
++	for(rf_path = 0 ; rf_path < max_rf_path ; rf_path++){
++		ele_D = PHY_QueryBBReg(priv, BBSwingReg[rf_path], 0xffe00000);	
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("0x%x:0x%x ([31:21] = 0x%x)\n",BBSwingReg[rf_path], PHY_QueryBBReg(priv, BBSwingReg[rf_path], bMaskDWord),ele_D)); 			
++		for (i = 0; i < OFDM_TABLE_SIZE_8812; i++) {//4 
++			if (ele_D == OFDMSwingTable_8812[i]) {
++				OFDM_index[rf_path] = (unsigned char)i;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("OFDM_index[%d]=%d\n",rf_path, OFDM_index[rf_path]));				
++				break;
++			}
++		}
++	}
++#if 0	
++	//Query OFDM path A default setting 	Bit[31:21]
++	ele_D = PHY_QueryBBReg(priv, 0xc1c, 0xffe00000);	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("0xc1c:0x%x ([31:21] = 0x%x)\n", PHY_QueryBBReg(priv, 0xc1c, bMaskDWord),ele_D)); 			
++	for (i = 0; i < OFDM_TABLE_SIZE_8812; i++) {//4 
++		if (ele_D == OFDMSwingTable_8812[i]) {
++			OFDM_index[0] = (unsigned char)i;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("OFDM_index[0]=%d\n", OFDM_index[0]));				
++			break;
++		}
++	}
++	//Query OFDM path B default setting
++	if (rf == 2) {
++		ele_D = PHY_QueryBBReg(priv, 0xe1c, 0xffe00000);		
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("0xe1c:0x%x ([32:21] = 0x%x)\n", PHY_QueryBBReg(priv, 0xe1c, bMaskDWord),ele_D)); 			
++		for (i = 0; i < OFDM_TABLE_SIZE_8812; i++) {
++			if (ele_D == OFDMSwingTable_8812[i]) {
++				OFDM_index[1] = (unsigned char)i;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("OFDM_index[1]=%d\n", OFDM_index[1])); 			
++				break;
++			}
++		}
++	}
++#endif
++	/* Initialize */
++	if (!priv->pshare->ThermalValue) {
++		priv->pshare->ThermalValue = priv->pmib->dot11RFEntry.ther;
++		priv->pshare->ThermalValue_LCK = ThermalValue;
++	}
++
++	/* calculate average thermal meter */
++	{
++		priv->pshare->ThermalValue_AVG_8812[priv->pshare->ThermalValue_AVG_index_8812] = ThermalValue;
++		priv->pshare->ThermalValue_AVG_index_8812++;
++		if (priv->pshare->ThermalValue_AVG_index_8812 == AVG_THERMAL_NUM_8812)
++			priv->pshare->ThermalValue_AVG_index_8812 = 0;
++
++		for (i = 0; i < AVG_THERMAL_NUM_8812; i++) {
++			if (priv->pshare->ThermalValue_AVG_8812[i]) {
++				ThermalValue_AVG += priv->pshare->ThermalValue_AVG_8812[i];
++				ThermalValue_AVG_count++;
++			}
++		}
++
++		if (ThermalValue_AVG_count) {
++			ThermalValue = (unsigned char)(ThermalValue_AVG / ThermalValue_AVG_count);
++			//printk("AVG Thermal Meter = 0x%x \n", ThermalValue);
++		}
++	}
++	
++
++	//4 If necessary,  do power tracking
++
++	if(!priv->pmib->dot11RFEntry.ther) /*Don't do power tracking since no calibrated thermal value*/
++		return;  
++
++	if (ThermalValue != priv->pshare->ThermalValue) {
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("\n******** START POWER TRACKING ********\n")); 					
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("\nReadback Thermal Meter = 0x%x pre thermal meter 0x%x EEPROMthermalmeter 0x%x\n", ThermalValue, priv->pshare->ThermalValue, priv->pmib->dot11RFEntry.ther)); 			
++		delta = RTL_ABS(ThermalValue, priv->pmib->dot11RFEntry.ther);
++		delta_LCK = RTL_ABS(ThermalValue, priv->pshare->ThermalValue_LCK);
++		is_decrease = ((ThermalValue < priv->pmib->dot11RFEntry.ther) ? 1 : 0);
++		//if (priv->pmib->dot11RFEntry.phyBandSelect == PHY_BAND_5G) 
++		{
++#ifdef _TRACKING_TABLE_FILE
++			if (priv->pshare->rf_ft_var.pwr_track_file) {				
++				for (rf_path = 0; rf_path < max_rf_path; rf_path++) {
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("Diff: (%s)%d ==> get index from table : %d)\n", (is_decrease?"-":"+"), delta, get_tx_tracking_index(priv, channel, rf_path, delta, is_decrease, 0)));
++					if (is_decrease) {
++						OFDM_index[rf_path] = priv->pshare->OFDM_index0[rf_path] + get_tx_tracking_index(priv, channel, rf_path, delta, is_decrease, 0);
++						OFDM_index[rf_path] = ((OFDM_index[rf_path] > (OFDM_TABLE_SIZE_8812 - 1)) ? (OFDM_TABLE_SIZE_8812 - 1) : OFDM_index[rf_path]);
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,(">>> decrese power ---> new OFDM_INDEX:%d (%d + %d)\n", OFDM_index[rf_path], priv->pshare->OFDM_index0[rf_path], get_tx_tracking_index(priv, channel, rf_path, delta, is_decrease, 0)));
++#if 0// RTL8881A_SUPPORT
++						if (pDM_Odm->SupportICType == ODM_RTL8881A){
++							if(priv->pshare->rf_ft_var.pwrtrk_TxAGC_enable){
++								if(priv->pshare->AddTxAGC){//TxAGC has been added
++									AddTxPower88XX_AC(priv,0); 
++									priv->pshare->AddTxAGC = 0;
++									priv->pshare->AddTxAGC_index = 0;
++								}
++							}
++						}
++#endif				
++					} else {
++
++						OFDM_index[rf_path] = priv->pshare->OFDM_index0[rf_path] - get_tx_tracking_index(priv, channel, rf_path, delta, is_decrease, 0);
++#if 0// RTL8881A_SUPPORT
++						if(pDM_Odm->SupportICType == ODM_RTL8881A){ 
++							if(priv->pshare->rf_ft_var.pwrtrk_TxAGC_enable){
++								if(OFDM_index[i] < OFDM_min_index){
++									priv->pshare->AddTxAGC_index = (OFDM_min_index - OFDM_index[i])/2;  // Calculate Remnant TxAGC Value,  2 index for 1 TxAGC 
++									AddTxPower88XX_AC(priv,priv->pshare->AddTxAGC_index);
++									priv->pshare->AddTxAGC = 1;     //AddTxAGC Flag = 1
++									OFDM_index[i] = OFDM_min_index;
++								}
++								else{
++									if(priv->pshare->AddTxAGC){// TxAGC been added
++										priv->pshare->AddTxAGC = 0;
++										priv->pshare->AddTxAGC_index = 0;
++										AddTxPower88XX_AC(priv,0); //minus the added TPI
++									}
++								}
++							}
++						}
++#else
++						OFDM_index[rf_path] = ((OFDM_index[rf_path] < OFDM_min_index) ?  OFDM_min_index : OFDM_index[rf_path]);
++#endif
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,(">>> increse power ---> new OFDM_INDEX:%d (%d - %d)\n", OFDM_index[rf_path], priv->pshare->OFDM_index0[rf_path], get_tx_tracking_index(priv, channel, rf_path, delta, is_decrease, 0)));
++					}
++				}
++			}
++#endif
++			//4 Set new BB swing index
++			for (rf_path = 0; rf_path < max_rf_path; rf_path++) {
++				PHY_SetBBReg(priv, BBSwingReg[rf_path], 0xffe00000, OFDMSwingTable_8812[(unsigned int)OFDM_index[rf_path]]);
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("Readback 0x%x[31:21] = 0x%x, OFDM_index:%d\n",BBSwingReg[rf_path], PHY_QueryBBReg(priv, BBSwingReg[rf_path], 0xffe00000), OFDM_index[rf_path]));				
++			}
++
++		}
++		if (delta_LCK > 8) {
++			RTL_W8(0x522, 0xff);
++			Reg0x18 = PHY_QueryRFReg(priv, RF_PATH_A, 0x18, bMask20Bits, 1);
++			PHY_SetRFReg(priv, RF_PATH_A, 0xB4, BIT(14), 1);			
++			PHY_SetRFReg(priv, RF_PATH_A, 0x18, BIT(15), 1);
++            delay_ms(200); // frequency deviation
++			PHY_SetRFReg(priv, RF_PATH_A, 0xB4, BIT(14), 0);
++			PHY_SetRFReg(priv, RF_PATH_A, 0x18, bMask20Bits, Reg0x18);
++			#ifdef CONFIG_RTL_8812_SUPPORT
++			if (GET_CHIP_VER(priv)== VERSION_8812E)			
++				UpdateBBRFVal8812(priv, priv->pmib->dot11RFEntry.dot11channel);	
++			#endif
++			RTL_W8(0x522, 0x0);
++			priv->pshare->ThermalValue_LCK = ThermalValue;
++		}	
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("\n******** END:%s() ********\n", __FUNCTION__));
++
++		//update thermal meter value
++		priv->pshare->ThermalValue = ThermalValue;
++		for (rf_path = 0; rf_path < max_rf_path; rf_path++)
++			priv->pshare->OFDM_index[rf_path] = OFDM_index[rf_path];
++	}
++}
++
++#endif
++
++
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	
++
++#if (RTL8197F_SUPPORT == 1 || RTL8822B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8197F || pDM_Odm->SupportICType == ODM_RTL8822B) {
++		ODM_TXPowerTrackingCallback_ThermalMeter_JaguarSeries3(pDM_Odm);
++		return;
++	}
++#endif    
++#if (RTL8814A_SUPPORT == 1)		/*use this function to do power tracking after 8814 by YuChen*/
++	if (pDM_Odm->SupportICType & ODM_RTL8814A) {
++		ODM_TXPowerTrackingCallback_ThermalMeter_JaguarSeries2(pDM_Odm);
++		return;
++		}
++#endif    
++#if (RTL8881A_SUPPORT || RTL8812A_SUPPORT == 1)    
++	if (pDM_Odm->SupportICType & ODM_RTL8812 || pDM_Odm->SupportICType & ODM_RTL8881A) {
++		ODM_TXPowerTrackingCallback_ThermalMeter_JaguarSeries(pDM_Odm);
++		return;
++	}
++#endif
++
++#if (RTL8192E_SUPPORT == 1)
++	if (pDM_Odm->SupportICType==ODM_RTL8192E) {
++		ODM_TXPowerTrackingCallback_ThermalMeter_92E(pDM_Odm);
++		return;
++	}
++#endif
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	//PMGNT_INFO      		pMgntInfo = &Adapter->MgntInfo;
++#endif
++	
++
++	u1Byte			ThermalValue = 0, delta, delta_LCK, delta_IQK, offset;
++	u1Byte			ThermalValue_AVG_count = 0;
++	u4Byte			ThermalValue_AVG = 0;	
++//	s4Byte			ele_A=0, ele_D, TempCCk, X, value32;
++//	s4Byte			Y, ele_C=0;
++//	s1Byte			OFDM_index[2], CCK_index=0, OFDM_index_old[2]={0,0}, CCK_index_old=0, index;
++//	s1Byte			deltaPowerIndex = 0;
++	u4Byte			i = 0;//, j = 0;
++	BOOLEAN 		is2T = FALSE;
++//	BOOLEAN 		bInteralPA = FALSE;
++
++	u1Byte			OFDM_max_index = 34, rf = (is2T) ? 2 : 1; //OFDM BB Swing should be less than +3.0dB, which is required by Arthur
++	u1Byte			Indexforchannel = 0;/*GetRightChnlPlaceforIQK(pHalData->CurrentChannel)*/
++    enum            _POWER_DEC_INC { POWER_DEC, POWER_INC };
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++
++	TXPWRTRACK_CFG 	c;
++
++
++	//4 1. The following TWO tables decide the final index of OFDM/CCK swing table.
++	s1Byte			deltaSwingTableIdx[2][index_mapping_NUM_88E] = { 
++                        // {{Power decreasing(lower temperature)}, {Power increasing(higher temperature)}}
++                        {0,0,2,3,4,4,5,6,7,7,8,9,10,10,11}, {0,0,1,2,3,4,4,4,4,5,7,8,9,9,10}
++                    };	
++	u1Byte			thermalThreshold[2][index_mapping_NUM_88E]={
++                        // {{Power decreasing(lower temperature)}, {Power increasing(higher temperature)}}
++					    {0,2,4,6,8,10,12,14,16,18,20,22,24,26,27}, {0,2,4,6,8,10,12,14,16,18,20,22,25,25,25}
++                    };		
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	prtl8192cd_priv	priv = pDM_Odm->priv;
++#endif	
++
++	//4 2. Initilization ( 7 steps in total )
++
++	ConfigureTxpowerTrack(pDM_Odm, &c);
++	
++	pDM_Odm->RFCalibrateInfo.TXPowerTrackingCallbackCnt++; //cosa add for debug
++	pDM_Odm->RFCalibrateInfo.bTXPowerTrackingInit = TRUE;
++    
++#if (MP_DRIVER == 1)      
++    pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = pHalData->TxPowerTrackControl; // <Kordan> We should keep updating the control variable according to HalData.
++    // <Kordan> RFCalibrateInfo.RegA24 will be initialized when ODM HW configuring, but MP configures with para files.
++    pDM_Odm->RFCalibrateInfo.RegA24 = 0x090e1317; 
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP) && defined(MP_TEST)
++	if ((OPMODE & WIFI_MP_STATE) || pDM_Odm->priv->pshare->rf_ft_var.mp_specific) {
++		if(pDM_Odm->priv->pshare->mp_txpwr_tracking == FALSE)
++			return;
++	}
++#endif
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("===>odm_TXPowerTrackingCallback_ThermalMeter_8188E, pDM_Odm->BbSwingIdxCckBase: %d, pDM_Odm->BbSwingIdxOfdmBase: %d \n", pRFCalibrateInfo->BbSwingIdxCckBase, pRFCalibrateInfo->BbSwingIdxOfdmBase));
++/*
++	if (!pDM_Odm->RFCalibrateInfo.TM_Trigger) {
++		ODM_SetRFReg(pDM_Odm, RF_PATH_A, c.ThermalRegAddr, BIT17 | BIT16, 0x3);
++		pDM_Odm->RFCalibrateInfo.TM_Trigger = 1;
++		return;
++	}
++*/	
++	ThermalValue = (u1Byte)ODM_GetRFReg(pDM_Odm, RF_PATH_A, c.ThermalRegAddr, 0xfc00);	//0x42: RF Reg[15:10] 88E
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	if( ! ThermalValue || ! pDM_Odm->RFCalibrateInfo.TxPowerTrackControl)
++#else
++	if( ! pDM_Odm->RFCalibrateInfo.TxPowerTrackControl)
++#endif		
++        return;
++
++	//4 3. Initialize ThermalValues of RFCalibrateInfo
++	
++	if( ! pDM_Odm->RFCalibrateInfo.ThermalValue)
++	{
++		pDM_Odm->RFCalibrateInfo.ThermalValue_LCK = ThermalValue;				
++		pDM_Odm->RFCalibrateInfo.ThermalValue_IQK = ThermalValue;										
++	}			
++
++	if(pDM_Odm->RFCalibrateInfo.bReloadtxpowerindex)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("reload ofdm index for band switch\n"));				
++	}
++
++	//4 4. Calculate average thermal meter
++	
++	pDM_Odm->RFCalibrateInfo.ThermalValue_AVG[pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index] = ThermalValue;
++	pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index++;
++	if(pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index == c.AverageThermalNum)
++		pDM_Odm->RFCalibrateInfo.ThermalValue_AVG_index = 0;
++
++	for(i = 0; i < c.AverageThermalNum; i++)
++	{
++		if(pDM_Odm->RFCalibrateInfo.ThermalValue_AVG[i])
++		{
++			ThermalValue_AVG += pDM_Odm->RFCalibrateInfo.ThermalValue_AVG[i];
++			ThermalValue_AVG_count++;
++		}
++	}
++
++	if(ThermalValue_AVG_count)
++	{
++		// Give the new thermo value a weighting
++		ThermalValue_AVG += (ThermalValue*4);
++		
++		ThermalValue = (u1Byte)(ThermalValue_AVG / (ThermalValue_AVG_count+4));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("AVG Thermal Meter = 0x%x \n", ThermalValue));					
++	}
++			
++	//4 5. Calculate delta, delta_LCK, delta_IQK.
++	
++	delta 	  = (ThermalValue > pDM_Odm->RFCalibrateInfo.ThermalValue)?(ThermalValue - pDM_Odm->RFCalibrateInfo.ThermalValue):(pDM_Odm->RFCalibrateInfo.ThermalValue - ThermalValue);
++	delta_LCK = (ThermalValue > pDM_Odm->RFCalibrateInfo.ThermalValue_LCK)?(ThermalValue - pDM_Odm->RFCalibrateInfo.ThermalValue_LCK):(pDM_Odm->RFCalibrateInfo.ThermalValue_LCK - ThermalValue);
++	delta_IQK = (ThermalValue > pDM_Odm->RFCalibrateInfo.ThermalValue_IQK)?(ThermalValue - pDM_Odm->RFCalibrateInfo.ThermalValue_IQK):(pDM_Odm->RFCalibrateInfo.ThermalValue_IQK - ThermalValue);
++		
++	//4 6. If necessary, do LCK.	
++	if (!(pDM_Odm->SupportICType & ODM_RTL8821)) {
++	/*if((delta_LCK > pHalData->Delta_LCK) && (pHalData->Delta_LCK != 0))*/
++		if (delta_LCK >= c.Threshold_IQK) { 
++			/*Delta temperature is equal to or larger than 20 centigrade.*/
++			pDM_Odm->RFCalibrateInfo.ThermalValue_LCK = ThermalValue;
++			(*c.PHY_LCCalibrate)(pDM_Odm);
++		}
++	}
++
++	//3 7. If necessary, move the index of swing table to adjust Tx power.	
++	
++	if (delta > 0 && pDM_Odm->RFCalibrateInfo.TxPowerTrackControl)
++	{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))			
++	    delta = ThermalValue > pHalData->EEPROMThermalMeter?(ThermalValue - pHalData->EEPROMThermalMeter):(pHalData->EEPROMThermalMeter - ThermalValue);		
++#else
++	    delta = (ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther)?(ThermalValue - pDM_Odm->priv->pmib->dot11RFEntry.ther):(pDM_Odm->priv->pmib->dot11RFEntry.ther - ThermalValue);		
++#endif
++
++
++		//4 7.1 The Final Power Index = BaseIndex + PowerIndexOffset
++		
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))				
++		if(ThermalValue > pHalData->EEPROMThermalMeter) {
++#else
++		if(ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther) {
++#endif
++			CALCULATE_SWINGTALBE_OFFSET(offset, POWER_INC, index_mapping_NUM_88E, delta);
++			pDM_Odm->RFCalibrateInfo.DeltaPowerIndexLast = pDM_Odm->RFCalibrateInfo.DeltaPowerIndex;
++			pDM_Odm->RFCalibrateInfo.DeltaPowerIndex =  deltaSwingTableIdx[POWER_INC][offset];
++
++        } else {
++        
++			CALCULATE_SWINGTALBE_OFFSET(offset, POWER_DEC, index_mapping_NUM_88E, delta);
++			pDM_Odm->RFCalibrateInfo.DeltaPowerIndexLast = pDM_Odm->RFCalibrateInfo.DeltaPowerIndex;
++			pDM_Odm->RFCalibrateInfo.DeltaPowerIndex = (-1)*deltaSwingTableIdx[POWER_DEC][offset];
++        }
++		
++		if (pDM_Odm->RFCalibrateInfo.DeltaPowerIndex == pDM_Odm->RFCalibrateInfo.DeltaPowerIndexLast)
++			pDM_Odm->RFCalibrateInfo.PowerIndexOffset = 0;
++		else
++			pDM_Odm->RFCalibrateInfo.PowerIndexOffset = pDM_Odm->RFCalibrateInfo.DeltaPowerIndex - pDM_Odm->RFCalibrateInfo.DeltaPowerIndexLast;
++		
++	    for(i = 0; i < rf; i++) 		
++	    	pDM_Odm->RFCalibrateInfo.OFDM_index[i] = pRFCalibrateInfo->BbSwingIdxOfdmBase + pDM_Odm->RFCalibrateInfo.PowerIndexOffset;
++		pDM_Odm->RFCalibrateInfo.CCK_index = pRFCalibrateInfo->BbSwingIdxCckBase + pDM_Odm->RFCalibrateInfo.PowerIndexOffset;
++
++		pRFCalibrateInfo->BbSwingIdxCck = pDM_Odm->RFCalibrateInfo.CCK_index;	
++		pRFCalibrateInfo->BbSwingIdxOfdm[RF_PATH_A] = pDM_Odm->RFCalibrateInfo.OFDM_index[RF_PATH_A];	
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("The 'CCK' final index(%d) = BaseIndex(%d) + PowerIndexOffset(%d)\n", pRFCalibrateInfo->BbSwingIdxCck, pRFCalibrateInfo->BbSwingIdxCckBase, pDM_Odm->RFCalibrateInfo.PowerIndexOffset));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("The 'OFDM' final index(%d) = BaseIndex(%d) + PowerIndexOffset(%d)\n", pRFCalibrateInfo->BbSwingIdxOfdm[RF_PATH_A], pRFCalibrateInfo->BbSwingIdxOfdmBase, pDM_Odm->RFCalibrateInfo.PowerIndexOffset));
++
++		//4 7.1 Handle boundary conditions of index.
++		
++		
++		for(i = 0; i < rf; i++)
++		{
++			if(pDM_Odm->RFCalibrateInfo.OFDM_index[i] > OFDM_max_index)
++			{
++				pDM_Odm->RFCalibrateInfo.OFDM_index[i] = OFDM_max_index;
++			}
++			else if (pDM_Odm->RFCalibrateInfo.OFDM_index[i] < 0)
++			{
++				pDM_Odm->RFCalibrateInfo.OFDM_index[i] = 0;
++			}
++		}
++
++		if(pDM_Odm->RFCalibrateInfo.CCK_index > c.SwingTableSize_CCK-1)
++			pDM_Odm->RFCalibrateInfo.CCK_index = c.SwingTableSize_CCK-1;
++		else if (pDM_Odm->RFCalibrateInfo.CCK_index < 0)
++			pDM_Odm->RFCalibrateInfo.CCK_index = 0;
++	}
++	else
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("The thermal meter is unchanged or TxPowerTracking OFF: ThermalValue: %d , pDM_Odm->RFCalibrateInfo.ThermalValue: %d)\n", ThermalValue, pDM_Odm->RFCalibrateInfo.ThermalValue));
++		pDM_Odm->RFCalibrateInfo.PowerIndexOffset = 0;
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++		("TxPowerTracking: [CCK] Swing Current Index: %d, Swing Base Index: %d\n", pDM_Odm->RFCalibrateInfo.CCK_index, pRFCalibrateInfo->BbSwingIdxCckBase));
++				
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++		("TxPowerTracking: [OFDM] Swing Current Index: %d, Swing Base Index: %d\n", pDM_Odm->RFCalibrateInfo.OFDM_index[RF_PATH_A], pRFCalibrateInfo->BbSwingIdxOfdmBase));
++	
++	if (pDM_Odm->RFCalibrateInfo.PowerIndexOffset != 0 && pDM_Odm->RFCalibrateInfo.TxPowerTrackControl)
++	{
++		//4 7.2 Configure the Swing Table to adjust Tx Power.
++		
++			pDM_Odm->RFCalibrateInfo.bTxPowerChanged = TRUE; // Always TRUE after Tx Power is adjusted by power tracking.			
++			//
++			// 2012/04/23 MH According to Luke's suggestion, we can not write BB digital
++			// to increase TX power. Otherwise, EVM will be bad.
++			//
++			// 2012/04/25 MH Add for tx power tracking to set tx power in tx agc for 88E.
++			if (ThermalValue > pDM_Odm->RFCalibrateInfo.ThermalValue)
++			{
++				//ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				//	("Temperature Increasing: delta_pi: %d , delta_t: %d, Now_t: %d, EFUSE_t: %d, Last_t: %d\n", 
++				//	pDM_Odm->RFCalibrateInfo.PowerIndexOffset, delta, ThermalValue, pHalData->EEPROMThermalMeter, pDM_Odm->RFCalibrateInfo.ThermalValue));	
++			}
++			else if (ThermalValue < pDM_Odm->RFCalibrateInfo.ThermalValue)// Low temperature
++			{
++				//ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				//	("Temperature Decreasing: delta_pi: %d , delta_t: %d, Now_t: %d, EFUSE_t: %d, Last_t: %d\n",
++				//		pDM_Odm->RFCalibrateInfo.PowerIndexOffset, delta, ThermalValue, pHalData->EEPROMThermalMeter, pDM_Odm->RFCalibrateInfo.ThermalValue));				
++			}
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			if (ThermalValue > pHalData->EEPROMThermalMeter)
++#else
++			if (ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther)
++#endif
++			{
++//				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("Temperature(%d) hugher than PG value(%d), increases the power by TxAGC\n", ThermalValue, pHalData->EEPROMThermalMeter));
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, TXAGC, 0, 0);							
++			}
++			else
++			{
++	//			ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("Temperature(%d) lower than PG value(%d), increases the power by TxAGC\n", ThermalValue, pHalData->EEPROMThermalMeter));
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, RF_PATH_A, Indexforchannel);	
++				if(is2T)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, RF_PATH_B, Indexforchannel);				
++			}
++			
++			pRFCalibrateInfo->BbSwingIdxCckBase = pRFCalibrateInfo->BbSwingIdxCck;
++			pRFCalibrateInfo->BbSwingIdxOfdmBase = pRFCalibrateInfo->BbSwingIdxOfdm[RF_PATH_A];
++			pDM_Odm->RFCalibrateInfo.ThermalValue = ThermalValue;
++
++	}
++		
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	// if((delta_IQK > pHalData->Delta_IQK) && (pHalData->Delta_IQK != 0))
++	if ((delta_IQK >= 8)) // Delta temperature is equal to or larger than 20 centigrade.
++		(*c.DoIQK)(pDM_Odm, delta_IQK, ThermalValue, 8);
++#endif		
++			
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("<===dm_TXPowerTrackingCallback_ThermalMeter_8188E\n"));
++
++	pDM_Odm->RFCalibrateInfo.TXPowercount = 0;
++}
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++
++
++VOID
++phy_PathAStandBy(
++	IN	PADAPTER	pAdapter
++	)
++{
++	RTPRINT(FINIT, INIT_IQK, ("Path-A standby mode!\n"));
++
++	PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0x0);
++	PHY_SetBBReg(pAdapter, 0x840, bMaskDWord, 0x00010000);
++	PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0x808000);
++}
++
++//1 7.	IQK
++//#define MAX_TOLERANCE		5
++//#define IQK_DELAY_TIME		1		//ms
++
++u1Byte			//bit0 = 1 => Tx OK, bit1 = 1 => Rx OK
++phy_PathA_IQK_8192C(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		configPathB
++	)
++{
++
++	u4Byte regEAC, regE94, regE9C, regEA4;
++	u1Byte result = 0x00;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	RTPRINT(FINIT, INIT_IQK, ("Path A IQK!\n"));
++
++	//path-A IQK setting
++	RTPRINT(FINIT, INIT_IQK, ("Path-A IQK setting!\n"));
++	if(pAdapter->interfaceIndex == 0)
++	{
++		PHY_SetBBReg(pAdapter, rTx_IQK_Tone_A, bMaskDWord, 0x10008c1f);
++		PHY_SetBBReg(pAdapter, rRx_IQK_Tone_A, bMaskDWord, 0x10008c1f);
++	}
++	else
++	{
++		PHY_SetBBReg(pAdapter, rTx_IQK_Tone_A, bMaskDWord, 0x10008c22);
++		PHY_SetBBReg(pAdapter, rRx_IQK_Tone_A, bMaskDWord, 0x10008c22);	
++	}
++
++	PHY_SetBBReg(pAdapter, rTx_IQK_PI_A, bMaskDWord, 0x82140102);
++
++	PHY_SetBBReg(pAdapter, rRx_IQK_PI_A, bMaskDWord, configPathB ? 0x28160202 : 
++		IS_81xxC_VENDOR_UMC_B_CUT(pHalData->VersionID)?0x28160202:0x28160502);
++
++	//path-B IQK setting
++	if(configPathB)
++	{
++		PHY_SetBBReg(pAdapter, rTx_IQK_Tone_B, bMaskDWord, 0x10008c22);
++		PHY_SetBBReg(pAdapter, rRx_IQK_Tone_B, bMaskDWord, 0x10008c22);
++		PHY_SetBBReg(pAdapter, rTx_IQK_PI_B, bMaskDWord, 0x82140102);
++		PHY_SetBBReg(pAdapter, rRx_IQK_PI_B, bMaskDWord, 0x28160202);
++	}
++
++	//LO calibration setting
++	RTPRINT(FINIT, INIT_IQK, ("LO calibration setting!\n"));
++	PHY_SetBBReg(pAdapter, rIQK_AGC_Rsp, bMaskDWord, 0x001028d1);
++
++	//One shot, path A LOK & IQK
++	RTPRINT(FINIT, INIT_IQK, ("One shot, path A LOK & IQK!\n"));
++	PHY_SetBBReg(pAdapter, rIQK_AGC_Pts, bMaskDWord, 0xf9000000);
++	PHY_SetBBReg(pAdapter, rIQK_AGC_Pts, bMaskDWord, 0xf8000000);
++	
++	// delay x ms
++	RTPRINT(FINIT, INIT_IQK, ("Delay %d ms for One shot, path A LOK & IQK.\n", IQK_DELAY_TIME));
++	PlatformStallExecution(IQK_DELAY_TIME*1000);
++
++	// Check failed
++	regEAC = PHY_QueryBBReg(pAdapter, rRx_Power_After_IQK_A_2, bMaskDWord);
++	RTPRINT(FINIT, INIT_IQK, ("0xeac = 0x%x\n", regEAC));
++	regE94 = PHY_QueryBBReg(pAdapter, rTx_Power_Before_IQK_A, bMaskDWord);
++	RTPRINT(FINIT, INIT_IQK, ("0xe94 = 0x%x\n", regE94));
++	regE9C= PHY_QueryBBReg(pAdapter, rTx_Power_After_IQK_A, bMaskDWord);
++	RTPRINT(FINIT, INIT_IQK, ("0xe9c = 0x%x\n", regE9C));
++	regEA4= PHY_QueryBBReg(pAdapter, rRx_Power_Before_IQK_A_2, bMaskDWord);
++	RTPRINT(FINIT, INIT_IQK, ("0xea4 = 0x%x\n", regEA4));
++
++	if(!(regEAC & BIT28) &&		
++		(((regE94 & 0x03FF0000)>>16) != 0x142) &&
++		(((regE9C & 0x03FF0000)>>16) != 0x42) )
++		result |= 0x01;
++	else							//if Tx not OK, ignore Rx
++		return result;
++
++	if(!(regEAC & BIT27) &&		//if Tx is OK, check whether Rx is OK
++		(((regEA4 & 0x03FF0000)>>16) != 0x132) &&
++		(((regEAC & 0x03FF0000)>>16) != 0x36))
++		result |= 0x02;
++	else
++		RTPRINT(FINIT, INIT_IQK, ("Path A Rx IQK fail!!\n"));
++	
++	return result;
++
++
++}
++
++u1Byte				//bit0 = 1 => Tx OK, bit1 = 1 => Rx OK
++phy_PathB_IQK_8192C(
++	IN	PADAPTER	pAdapter
++	)
++{
++	u4Byte regEAC, regEB4, regEBC, regEC4, regECC;
++	u1Byte	result = 0x00;
++	RTPRINT(FINIT, INIT_IQK, ("Path B IQK!\n"));
++
++	//One shot, path B LOK & IQK
++	RTPRINT(FINIT, INIT_IQK, ("One shot, path A LOK & IQK!\n"));
++	PHY_SetBBReg(pAdapter, rIQK_AGC_Cont, bMaskDWord, 0x00000002);
++	PHY_SetBBReg(pAdapter, rIQK_AGC_Cont, bMaskDWord, 0x00000000);
++
++	// delay x ms
++	RTPRINT(FINIT, INIT_IQK, ("Delay %d ms for One shot, path B LOK & IQK.\n", IQK_DELAY_TIME));
++	PlatformStallExecution(IQK_DELAY_TIME*1000);
++
++	// Check failed
++	regEAC = PHY_QueryBBReg(pAdapter, rRx_Power_After_IQK_A_2, bMaskDWord);
++	RTPRINT(FINIT, INIT_IQK, ("0xeac = 0x%x\n", regEAC));
++	regEB4 = PHY_QueryBBReg(pAdapter, rTx_Power_Before_IQK_B, bMaskDWord);
++	RTPRINT(FINIT, INIT_IQK, ("0xeb4 = 0x%x\n", regEB4));
++	regEBC= PHY_QueryBBReg(pAdapter, rTx_Power_After_IQK_B, bMaskDWord);
++	RTPRINT(FINIT, INIT_IQK, ("0xebc = 0x%x\n", regEBC));
++	regEC4= PHY_QueryBBReg(pAdapter, rRx_Power_Before_IQK_B_2, bMaskDWord);
++	RTPRINT(FINIT, INIT_IQK, ("0xec4 = 0x%x\n", regEC4));
++	regECC= PHY_QueryBBReg(pAdapter, rRx_Power_After_IQK_B_2, bMaskDWord);
++	RTPRINT(FINIT, INIT_IQK, ("0xecc = 0x%x\n", regECC));
++
++	if(!(regEAC & BIT31) &&
++		(((regEB4 & 0x03FF0000)>>16) != 0x142) &&
++		(((regEBC & 0x03FF0000)>>16) != 0x42))
++		result |= 0x01;
++	else
++		return result;
++
++	if(!(regEAC & BIT30) &&
++		(((regEC4 & 0x03FF0000)>>16) != 0x132) &&
++		(((regECC & 0x03FF0000)>>16) != 0x36))
++		result |= 0x02;
++	else
++		RTPRINT(FINIT, INIT_IQK, ("Path B Rx IQK fail!!\n"));
++	
++
++	return result;
++
++}
++
++VOID
++phy_PathAFillIQKMatrix(
++	IN	PADAPTER	pAdapter,
++	IN  BOOLEAN    	bIQKOK,
++	IN	s4Byte		result[][8],
++	IN	u1Byte		final_candidate,
++	IN  BOOLEAN		bTxOnly
++	)
++{
++	u4Byte	Oldval_0, X, TX0_A, reg;
++	s4Byte	Y, TX0_C;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);	
++	
++	RTPRINT(FINIT, INIT_IQK, ("Path A IQ Calibration %s !\n",(bIQKOK)?"Success":"Failed"));
++
++	if(final_candidate == 0xFF)
++		return;
++
++	else if(bIQKOK)
++	{
++		Oldval_0 = (PHY_QueryBBReg(pAdapter, rOFDM0_XATxIQImbalance, bMaskDWord) >> 22) & 0x3FF;
++
++		X = result[final_candidate][0];
++		if ((X & 0x00000200) != 0)
++			X = X | 0xFFFFFC00;				
++		TX0_A = (X * Oldval_0) >> 8;
++		RTPRINT(FINIT, INIT_IQK, ("X = 0x%x, TX0_A = 0x%x, Oldval_0 0x%x\n", X, TX0_A, Oldval_0));
++		PHY_SetBBReg(pAdapter, rOFDM0_XATxIQImbalance, 0x3FF, TX0_A);
++		PHY_SetBBReg(pAdapter, rOFDM0_ECCAThreshold, BIT(31), ((X * Oldval_0>>7) & 0x1));
++     
++		Y = result[final_candidate][1];
++		if ((Y & 0x00000200) != 0)
++			Y = Y | 0xFFFFFC00;		
++
++		//path B IQK result + 3
++		if(pAdapter->interfaceIndex == 1 && pHalData->CurrentBandType == BAND_ON_5G)
++			Y += 3;
++		
++		TX0_C = (Y * Oldval_0) >> 8;
++		RTPRINT(FINIT, INIT_IQK, ("Y = 0x%x, TX = 0x%x\n", Y, TX0_C));
++		PHY_SetBBReg(pAdapter, rOFDM0_XCTxAFE, 0xF0000000, ((TX0_C&0x3C0)>>6));
++		PHY_SetBBReg(pAdapter, rOFDM0_XATxIQImbalance, 0x003F0000, (TX0_C&0x3F));
++		PHY_SetBBReg(pAdapter, rOFDM0_ECCAThreshold, BIT(29), ((Y * Oldval_0>>7) & 0x1));
++
++		if(bTxOnly)
++		{
++			RTPRINT(FINIT, INIT_IQK, ("phy_PathAFillIQKMatrix only Tx OK\n"));		
++			return;
++		}
++
++		reg = result[final_candidate][2];
++		PHY_SetBBReg(pAdapter, rOFDM0_XARxIQImbalance, 0x3FF, reg);
++	
++		reg = result[final_candidate][3] & 0x3F;
++		PHY_SetBBReg(pAdapter, rOFDM0_XARxIQImbalance, 0xFC00, reg);
++
++		reg = (result[final_candidate][3] >> 6) & 0xF;
++		PHY_SetBBReg(pAdapter, rOFDM0_RxIQExtAnta, 0xF0000000, reg);
++	}
++}
++
++VOID
++phy_PathBFillIQKMatrix(
++	IN	PADAPTER	pAdapter,
++	IN  BOOLEAN   	bIQKOK,
++	IN	s4Byte		result[][8],
++	IN	u1Byte		final_candidate,
++	IN	BOOLEAN		bTxOnly			//do Tx only
++	)
++{
++	u4Byte	Oldval_1, X, TX1_A, reg;
++	s4Byte	Y, TX1_C;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);	
++	
++	RTPRINT(FINIT, INIT_IQK, ("Path B IQ Calibration %s !\n",(bIQKOK)?"Success":"Failed"));
++
++	if(final_candidate == 0xFF)
++		return;
++
++	else if(bIQKOK)
++	{
++		Oldval_1 = (PHY_QueryBBReg(pAdapter, rOFDM0_XBTxIQImbalance, bMaskDWord) >> 22) & 0x3FF;
++
++		X = result[final_candidate][4];
++		if ((X & 0x00000200) != 0)
++			X = X | 0xFFFFFC00;		
++		TX1_A = (X * Oldval_1) >> 8;
++		RTPRINT(FINIT, INIT_IQK, ("X = 0x%x, TX1_A = 0x%x\n", X, TX1_A));
++		PHY_SetBBReg(pAdapter, rOFDM0_XBTxIQImbalance, 0x3FF, TX1_A);
++		PHY_SetBBReg(pAdapter, rOFDM0_ECCAThreshold, BIT(27), ((X * Oldval_1>>7) & 0x1));
++
++		Y = result[final_candidate][5];
++		if ((Y & 0x00000200) != 0)
++			Y = Y | 0xFFFFFC00;		
++		if(pHalData->CurrentBandType == BAND_ON_5G)		
++			Y += 3;		//temp modify for preformance
++		TX1_C = (Y * Oldval_1) >> 8;
++		RTPRINT(FINIT, INIT_IQK, ("Y = 0x%x, TX1_C = 0x%x\n", Y, TX1_C));
++		PHY_SetBBReg(pAdapter, rOFDM0_XDTxAFE, 0xF0000000, ((TX1_C&0x3C0)>>6));
++		PHY_SetBBReg(pAdapter, rOFDM0_XBTxIQImbalance, 0x003F0000, (TX1_C&0x3F));
++		PHY_SetBBReg(pAdapter, rOFDM0_ECCAThreshold, BIT(25), ((Y * Oldval_1>>7) & 0x1));
++
++		if(bTxOnly)
++			return;
++
++		reg = result[final_candidate][6];
++		PHY_SetBBReg(pAdapter, rOFDM0_XBRxIQImbalance, 0x3FF, reg);
++	
++		reg = result[final_candidate][7] & 0x3F;
++		PHY_SetBBReg(pAdapter, rOFDM0_XBRxIQImbalance, 0xFC00, reg);
++
++		reg = (result[final_candidate][7] >> 6) & 0xF;
++		PHY_SetBBReg(pAdapter, rOFDM0_AGCRSSITable, 0x0000F000, reg);
++	}
++}
++
++
++BOOLEAN							
++phy_SimularityCompare_92C(
++	IN	PADAPTER	pAdapter,
++	IN	s4Byte 		result[][8],
++	IN	u1Byte		 c1,
++	IN	u1Byte		 c2
++	)
++{
++	u4Byte		i, j, diff, SimularityBitMap, bound = 0;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);	
++	u1Byte		final_candidate[2] = {0xFF, 0xFF};	//for path A and path B
++	BOOLEAN		bResult = TRUE, is2T = IS_92C_SERIAL( pHalData->VersionID);
++	
++	if(is2T)
++		bound = 8;
++	else
++		bound = 4;
++
++	SimularityBitMap = 0;
++	
++	for( i = 0; i < bound; i++ )
++	{
++		diff = (result[c1][i] > result[c2][i]) ? (result[c1][i] - result[c2][i]) : (result[c2][i] - result[c1][i]);
++		if (diff > MAX_TOLERANCE)
++		{
++			if((i == 2 || i == 6) && !SimularityBitMap)
++			{
++				if(result[c1][i]+result[c1][i+1] == 0)
++					final_candidate[(i/4)] = c2;
++				else if (result[c2][i]+result[c2][i+1] == 0)
++					final_candidate[(i/4)] = c1;
++				else
++					SimularityBitMap = SimularityBitMap|(1<<i);					
++			}
++			else
++				SimularityBitMap = SimularityBitMap|(1<<i);
++		}
++	}
++	
++	if ( SimularityBitMap == 0)
++	{
++		for( i = 0; i < (bound/4); i++ )
++		{
++			if(final_candidate[i] != 0xFF)
++			{
++				for( j = i*4; j < (i+1)*4-2; j++)
++					result[3][j] = result[final_candidate[i]][j];
++				bResult = FALSE;
++			}
++		}
++		return bResult;
++	}
++	else if (!(SimularityBitMap & 0x0F))			//path A OK
++	{
++		for(i = 0; i < 4; i++)
++			result[3][i] = result[c1][i];
++		return FALSE;
++	}
++	else if (!(SimularityBitMap & 0xF0) && is2T)	//path B OK
++	{
++		for(i = 4; i < 8; i++)
++			result[3][i] = result[c1][i];
++		return FALSE;
++	}	
++	else		
++		return FALSE;
++	
++}
++
++/*
++return FALSE => do IQK again
++*/
++BOOLEAN							
++phy_SimularityCompare(
++	IN	PADAPTER	pAdapter,
++	IN	s4Byte 		result[][8],
++	IN	u1Byte		 c1,
++	IN	u1Byte		 c2
++	)
++{	
++	return phy_SimularityCompare_92C(pAdapter, result, c1, c2);	
++
++}
++
++VOID	
++phy_IQCalibrate_8192C(
++	IN	PADAPTER	pAdapter,
++	IN	s4Byte 		result[][8],
++	IN	u1Byte		t,
++	IN	BOOLEAN		is2T
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u4Byte			i;
++	u1Byte			PathAOK, PathBOK;
++	u4Byte			ADDA_REG[IQK_ADDA_REG_NUM] = {	
++						rFPGA0_XCD_SwitchControl, 	rBlue_Tooth, 	
++						rRx_Wait_CCA, 		rTx_CCK_RFON,
++						rTx_CCK_BBON, 	rTx_OFDM_RFON, 	
++						rTx_OFDM_BBON, 	rTx_To_Rx,
++						rTx_To_Tx, 		rRx_CCK, 	
++						rRx_OFDM, 		rRx_Wait_RIFS,
++						rRx_TO_Rx, 		rStandby, 	
++						rSleep, 			rPMPD_ANAEN };
++	u4Byte			IQK_MAC_REG[IQK_MAC_REG_NUM] = {
++						REG_TXPAUSE, 		REG_BCN_CTRL,	
++						REG_BCN_CTRL_1,	REG_GPIO_MUXCFG};
++					
++	//since 92C & 92D have the different define in IQK_BB_REG	
++	u4Byte	IQK_BB_REG_92C[IQK_BB_REG_NUM] = {
++							rOFDM0_TRxPathEnable, 		rOFDM0_TRMuxPar,	
++							rFPGA0_XCD_RFInterfaceSW,	rConfig_AntA,	rConfig_AntB,
++							rFPGA0_XAB_RFInterfaceSW,	rFPGA0_XA_RFInterfaceOE,	
++							rFPGA0_XB_RFInterfaceOE,	/*rFPGA0_RFMOD*/ rCCK0_AFESetting	
++							};	
++
++	u4Byte	IQK_BB_REG_92D[IQK_BB_REG_NUM_92D] = {	//for normal
++							rFPGA0_XAB_RFInterfaceSW,	rFPGA0_XA_RFInterfaceOE,	
++							rFPGA0_XB_RFInterfaceOE,	rOFDM0_TRMuxPar,
++							rFPGA0_XCD_RFInterfaceSW,	rOFDM0_TRxPathEnable,	
++							/*rFPGA0_RFMOD*/ rCCK0_AFESetting,			rFPGA0_AnalogParameter4,
++							rOFDM0_XAAGCCore1,		rOFDM0_XBAGCCore1						
++						};		
++#if MP_DRIVER
++	const u4Byte	retryCount = 9;
++#else
++	const u4Byte	retryCount = 2;
++#endif
++	//Neil Chen--2011--05--19--
++       //3 Path Div	
++	u1Byte                 rfPathSwitch=0x0;
++
++	// Note: IQ calibration must be performed after loading 
++	// 		PHY_REG.txt , and radio_a, radio_b.txt	
++	
++	u4Byte bbvalue;
++
++	if(t==0)
++	{
++	 	 //bbvalue = PHY_QueryBBReg(pAdapter, rFPGA0_RFMOD, bMaskDWord);
++		//	RTPRINT(FINIT, INIT_IQK, ("phy_IQCalibrate_8192C()==>0x%08x\n",bbvalue));
++
++			RTPRINT(FINIT, INIT_IQK, ("IQ Calibration for %s\n", (is2T ? "2T2R" : "1T1R")));
++	
++	 	// Save ADDA parameters, turn Path A ADDA on
++	 	phy_SaveADDARegisters(pAdapter, ADDA_REG, pHalData->ADDA_backup, IQK_ADDA_REG_NUM);
++		phy_SaveMACRegisters(pAdapter, IQK_MAC_REG, pHalData->IQK_MAC_backup);
++		phy_SaveADDARegisters(pAdapter, IQK_BB_REG_92C, pHalData->IQK_BB_backup, IQK_BB_REG_NUM);
++	}
++	
++ 	phy_PathADDAOn(pAdapter, ADDA_REG, TRUE, is2T);
++	
++	if(t==0)
++	{
++		pHalData->bRfPiEnable = (u1Byte)PHY_QueryBBReg(pAdapter, rFPGA0_XA_HSSIParameter1, BIT(8));
++	}
++	
++	if(!pHalData->bRfPiEnable){
++		// Switch BB to PI mode to do IQ Calibration.
++		phy_PIModeSwitch(pAdapter, TRUE);
++	}
++	
++	//MAC settings
++	phy_MACSettingCalibration(pAdapter, IQK_MAC_REG, pHalData->IQK_MAC_backup);
++	
++	//PHY_SetBBReg(pAdapter, rFPGA0_RFMOD, BIT24, 0x00);		
++	PHY_SetBBReg(pAdapter, rCCK0_AFESetting, bMaskDWord, (0x0f000000 | (PHY_QueryBBReg(pAdapter, rCCK0_AFESetting, bMaskDWord))) );
++	PHY_SetBBReg(pAdapter, rOFDM0_TRxPathEnable, bMaskDWord, 0x03a05600);
++	PHY_SetBBReg(pAdapter, rOFDM0_TRMuxPar, bMaskDWord, 0x000800e4);
++	PHY_SetBBReg(pAdapter, rFPGA0_XCD_RFInterfaceSW, bMaskDWord, 0x22204000);
++	{
++		PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT10, 0x01);
++		PHY_SetBBReg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT26, 0x01);	
++		PHY_SetBBReg(pAdapter, rFPGA0_XA_RFInterfaceOE, BIT10, 0x00);
++		PHY_SetBBReg(pAdapter, rFPGA0_XB_RFInterfaceOE, BIT10, 0x00);	
++	}
++
++	if(is2T)
++	{
++		PHY_SetBBReg(pAdapter, rFPGA0_XA_LSSIParameter, bMaskDWord, 0x00010000);
++		PHY_SetBBReg(pAdapter, rFPGA0_XB_LSSIParameter, bMaskDWord, 0x00010000);
++	}
++
++	{
++		//Page B init
++		PHY_SetBBReg(pAdapter, rConfig_AntA, bMaskDWord, 0x00080000);
++		
++		if(is2T)
++		{
++			PHY_SetBBReg(pAdapter, rConfig_AntB, bMaskDWord, 0x00080000);
++		}
++	}
++	// IQ calibration setting
++	RTPRINT(FINIT, INIT_IQK, ("IQK setting!\n"));		
++	PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0x808000);
++	PHY_SetBBReg(pAdapter, rTx_IQK, bMaskDWord, 0x01007c00);
++	PHY_SetBBReg(pAdapter, rRx_IQK, bMaskDWord, 0x01004800);
++
++	for(i = 0 ; i < retryCount ; i++){
++		PathAOK = phy_PathA_IQK_8192C(pAdapter, is2T);
++		if(PathAOK == 0x03){
++			RTPRINT(FINIT, INIT_IQK, ("Path A IQK Success!!\n"));
++				result[t][0] = (PHY_QueryBBReg(pAdapter, rTx_Power_Before_IQK_A, bMaskDWord)&0x3FF0000)>>16;
++				result[t][1] = (PHY_QueryBBReg(pAdapter, rTx_Power_After_IQK_A, bMaskDWord)&0x3FF0000)>>16;
++				result[t][2] = (PHY_QueryBBReg(pAdapter, rRx_Power_Before_IQK_A_2, bMaskDWord)&0x3FF0000)>>16;
++				result[t][3] = (PHY_QueryBBReg(pAdapter, rRx_Power_After_IQK_A_2, bMaskDWord)&0x3FF0000)>>16;
++			break;
++		}
++		else if (i == (retryCount-1) && PathAOK == 0x01)	//Tx IQK OK
++		{
++			RTPRINT(FINIT, INIT_IQK, ("Path A IQK Only  Tx Success!!\n"));
++			
++			result[t][0] = (PHY_QueryBBReg(pAdapter, rTx_Power_Before_IQK_A, bMaskDWord)&0x3FF0000)>>16;
++			result[t][1] = (PHY_QueryBBReg(pAdapter, rTx_Power_After_IQK_A, bMaskDWord)&0x3FF0000)>>16;			
++		}
++	}
++
++	if(0x00 == PathAOK){		
++		RTPRINT(FINIT, INIT_IQK, ("Path A IQK failed!!\n"));		
++	}
++
++	if(is2T){
++		phy_PathAStandBy(pAdapter);
++
++		// Turn Path B ADDA on
++		phy_PathADDAOn(pAdapter, ADDA_REG, FALSE, is2T);
++
++		for(i = 0 ; i < retryCount ; i++){
++			PathBOK = phy_PathB_IQK_8192C(pAdapter);
++			if(PathBOK == 0x03){
++				RTPRINT(FINIT, INIT_IQK, ("Path B IQK Success!!\n"));
++				result[t][4] = (PHY_QueryBBReg(pAdapter, rTx_Power_Before_IQK_B, bMaskDWord)&0x3FF0000)>>16;
++				result[t][5] = (PHY_QueryBBReg(pAdapter, rTx_Power_After_IQK_B, bMaskDWord)&0x3FF0000)>>16;
++				result[t][6] = (PHY_QueryBBReg(pAdapter, rRx_Power_Before_IQK_B_2, bMaskDWord)&0x3FF0000)>>16;
++				result[t][7] = (PHY_QueryBBReg(pAdapter, rRx_Power_After_IQK_B_2, bMaskDWord)&0x3FF0000)>>16;
++				break;
++			}
++			else if (i == (retryCount - 1) && PathBOK == 0x01)	//Tx IQK OK
++			{
++				RTPRINT(FINIT, INIT_IQK, ("Path B Only Tx IQK Success!!\n"));
++				result[t][4] = (PHY_QueryBBReg(pAdapter, rTx_Power_Before_IQK_B, bMaskDWord)&0x3FF0000)>>16;
++				result[t][5] = (PHY_QueryBBReg(pAdapter, rTx_Power_After_IQK_B, bMaskDWord)&0x3FF0000)>>16;				
++			}
++		}
++
++		if(0x00 == PathBOK){		
++			RTPRINT(FINIT, INIT_IQK, ("Path B IQK failed!!\n"));		
++		}
++	}
++
++	//Back to BB mode, load original value
++	RTPRINT(FINIT, INIT_IQK, ("IQK:Back to BB mode, load original value!\n"));
++	PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0);
++
++	if(t!=0)
++	{
++		if(!pHalData->bRfPiEnable){
++			// Switch back BB to SI mode after finish IQ Calibration.
++			phy_PIModeSwitch(pAdapter, FALSE);
++		}
++
++	 	// Reload ADDA power saving parameters
++	 	phy_ReloadADDARegisters(pAdapter, ADDA_REG, pHalData->ADDA_backup, IQK_ADDA_REG_NUM);
++
++		// Reload MAC parameters
++		phy_ReloadMACRegisters(pAdapter, IQK_MAC_REG, pHalData->IQK_MAC_backup);
++		
++	 	// Reload BB parameters
++		phy_ReloadADDARegisters(pAdapter, IQK_BB_REG_92C, pHalData->IQK_BB_backup, IQK_BB_REG_NUM);
++		
++		/*Restore RX initial gain*/
++		PHY_SetBBReg(pAdapter, rFPGA0_XA_LSSIParameter, bMaskDWord, 0x00032ed3);
++		if (is2T)
++			PHY_SetBBReg(pAdapter, rFPGA0_XB_LSSIParameter, bMaskDWord, 0x00032ed3);
++		//load 0xe30 IQC default value
++		PHY_SetBBReg(pAdapter, rTx_IQK_Tone_A, bMaskDWord, 0x01008c00);		
++		PHY_SetBBReg(pAdapter, rRx_IQK_Tone_A, bMaskDWord, 0x01008c00);				
++		
++	}
++	RTPRINT(FINIT, INIT_IQK, ("phy_IQCalibrate_8192C() <==\n"));
++	
++}
++
++
++VOID	
++phy_LCCalibrate92C(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		is2T
++	)
++{
++	u1Byte	tmpReg;
++	u4Byte	RF_Amode=0, RF_Bmode=0, LC_Cal;
++//	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	//Check continuous TX and Packet TX
++	tmpReg = PlatformEFIORead1Byte(pAdapter, 0xd03);
++
++	if((tmpReg&0x70) != 0)			//Deal with contisuous TX case
++		PlatformEFIOWrite1Byte(pAdapter, 0xd03, tmpReg&0x8F);	//disable all continuous TX
++	else							// Deal with Packet TX case
++		PlatformEFIOWrite1Byte(pAdapter, REG_TXPAUSE, 0xFF);			// block all queues
++
++	if((tmpReg&0x70) != 0)
++	{
++		//1. Read original RF mode
++		//Path-A
++		RF_Amode = PHY_QueryRFReg(pAdapter, RF_PATH_A, RF_AC, bMask12Bits);
++
++		//Path-B
++		if(is2T)
++			RF_Bmode = PHY_QueryRFReg(pAdapter, RF_PATH_B, RF_AC, bMask12Bits);	
++
++		//2. Set RF mode = standby mode
++		//Path-A
++		PHY_SetRFReg(pAdapter, RF_PATH_A, RF_AC, bMask12Bits, (RF_Amode&0x8FFFF)|0x10000);
++
++		//Path-B
++		if(is2T)
++			PHY_SetRFReg(pAdapter, RF_PATH_B, RF_AC, bMask12Bits, (RF_Bmode&0x8FFFF)|0x10000);			
++	}
++	
++	//3. Read RF reg18
++	LC_Cal = PHY_QueryRFReg(pAdapter, RF_PATH_A, RF_CHNLBW, bMask12Bits);
++	
++	//4. Set LC calibration begin	bit15
++	PHY_SetRFReg(pAdapter, RF_PATH_A, RF_CHNLBW, bMask12Bits, LC_Cal|0x08000);
++
++	delay_ms(100);		
++
++
++	//Restore original situation
++	if((tmpReg&0x70) != 0)	//Deal with contisuous TX case 
++	{  
++		//Path-A
++		PlatformEFIOWrite1Byte(pAdapter, 0xd03, tmpReg);
++		PHY_SetRFReg(pAdapter, RF_PATH_A, RF_AC, bMask12Bits, RF_Amode);
++		
++		//Path-B
++		if(is2T)
++			PHY_SetRFReg(pAdapter, RF_PATH_B, RF_AC, bMask12Bits, RF_Bmode);
++	}
++	else // Deal with Packet TX case
++	{
++		PlatformEFIOWrite1Byte(pAdapter, REG_TXPAUSE, 0x00);	
++	}
++}
++
++
++VOID	
++phy_LCCalibrate(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		is2T
++	)
++{
++	phy_LCCalibrate92C(pAdapter, is2T);
++}
++
++
++
++//Analog Pre-distortion calibration
++#define		APK_BB_REG_NUM	8
++#define		APK_CURVE_REG_NUM 4
++#define		PATH_NUM		2
++
++VOID	
++phy_APCalibrate_8192C(
++	IN	PADAPTER	pAdapter,
++	IN	s1Byte 		delta,
++	IN	BOOLEAN		is2T
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	u4Byte 			regD[PATH_NUM];
++	u4Byte			tmpReg, index, offset, i, apkbound;
++	u1Byte			path, pathbound = PATH_NUM;
++	u4Byte			BB_backup[APK_BB_REG_NUM];
++	u4Byte			BB_REG[APK_BB_REG_NUM] = {	
++						rFPGA1_TxBlock, 	rOFDM0_TRxPathEnable, 
++						rFPGA0_RFMOD, 	rOFDM0_TRMuxPar, 
++						rFPGA0_XCD_RFInterfaceSW,	rFPGA0_XAB_RFInterfaceSW, 
++						rFPGA0_XA_RFInterfaceOE, 	rFPGA0_XB_RFInterfaceOE	};
++	u4Byte			BB_AP_MODE[APK_BB_REG_NUM] = {	
++						0x00000020, 0x00a05430, 0x02040000, 
++						0x000800e4, 0x00204000 };
++	u4Byte			BB_normal_AP_MODE[APK_BB_REG_NUM] = {	
++						0x00000020, 0x00a05430, 0x02040000, 
++						0x000800e4, 0x22204000 };						
++
++	u4Byte			AFE_backup[IQK_ADDA_REG_NUM];
++	u4Byte			AFE_REG[IQK_ADDA_REG_NUM] = {	
++						rFPGA0_XCD_SwitchControl, 	rBlue_Tooth, 	
++						rRx_Wait_CCA, 		rTx_CCK_RFON,
++						rTx_CCK_BBON, 	rTx_OFDM_RFON, 	
++						rTx_OFDM_BBON, 	rTx_To_Rx,
++						rTx_To_Tx, 		rRx_CCK, 	
++						rRx_OFDM, 		rRx_Wait_RIFS,
++						rRx_TO_Rx, 		rStandby, 	
++						rSleep, 			rPMPD_ANAEN };
++
++	u4Byte			MAC_backup[IQK_MAC_REG_NUM];
++	u4Byte			MAC_REG[IQK_MAC_REG_NUM] = {
++						REG_TXPAUSE, 		REG_BCN_CTRL,	
++						REG_BCN_CTRL_1,	REG_GPIO_MUXCFG};
++
++	u4Byte			APK_RF_init_value[PATH_NUM][APK_BB_REG_NUM] = {
++					{0x0852c, 0x1852c, 0x5852c, 0x1852c, 0x5852c},
++					{0x2852e, 0x0852e, 0x3852e, 0x0852e, 0x0852e}
++					};	
++
++	u4Byte			APK_normal_RF_init_value[PATH_NUM][APK_BB_REG_NUM] = {
++					{0x0852c, 0x0a52c, 0x3a52c, 0x5a52c, 0x5a52c},	//path settings equal to path b settings
++					{0x0852c, 0x0a52c, 0x5a52c, 0x5a52c, 0x5a52c}
++					};
++	
++	u4Byte			APK_RF_value_0[PATH_NUM][APK_BB_REG_NUM] = {
++					{0x52019, 0x52014, 0x52013, 0x5200f, 0x5208d},
++					{0x5201a, 0x52019, 0x52016, 0x52033, 0x52050}
++					};
++
++	u4Byte			APK_normal_RF_value_0[PATH_NUM][APK_BB_REG_NUM] = {
++					{0x52019, 0x52017, 0x52010, 0x5200d, 0x5206a},	//path settings equal to path b settings
++					{0x52019, 0x52017, 0x52010, 0x5200d, 0x5206a}
++					};
++#if 0	
++	u4Byte			APK_RF_value_A[PATH_NUM][APK_BB_REG_NUM] = {
++					{0x1adb0, 0x1adb0, 0x1ada0, 0x1ad90, 0x1ad80},		
++					{0x00fb0, 0x00fb0, 0x00fa0, 0x00f90, 0x00f80}						
++					};
++#endif
++	u4Byte			AFE_on_off[PATH_NUM] = {
++					0x04db25a4, 0x0b1b25a4};	//path A on path B off / path A off path B on
++
++	u4Byte			APK_offset[PATH_NUM] = {
++					rConfig_AntA, rConfig_AntB};
++
++	u4Byte			APK_normal_offset[PATH_NUM] = {
++					rConfig_Pmpd_AntA, rConfig_Pmpd_AntB};
++					
++	u4Byte			APK_value[PATH_NUM] = {
++					0x92fc0000, 0x12fc0000};					
++
++	u4Byte			APK_normal_value[PATH_NUM] = {
++					0x92680000, 0x12680000};					
++
++	s1Byte			APK_delta_mapping[APK_BB_REG_NUM][13] = {
++					{-4, -3, -2, -2, -1, -1, 0, 1, 2, 3, 4, 5, 6},
++					{-4, -3, -2, -2, -1, -1, 0, 1, 2, 3, 4, 5, 6},											
++					{-6, -4, -2, -2, -1, -1, 0, 1, 2, 3, 4, 5, 6},
++					{-1, -1, -1, -1, -1, -1, 0, 1, 2, 3, 4, 5, 6},
++					{-11, -9, -7, -5, -3, -1, 0, 0, 0, 0, 0, 0, 0}
++					};
++	
++	u4Byte			APK_normal_setting_value_1[13] = {
++					0x01017018, 0xf7ed8f84, 0x1b1a1816, 0x2522201e, 0x322e2b28,
++					0x433f3a36, 0x5b544e49, 0x7b726a62, 0xa69a8f84, 0xdfcfc0b3,
++					0x12680000, 0x00880000, 0x00880000
++					};
++
++	u4Byte			APK_normal_setting_value_2[16] = {
++					0x01c7021d, 0x01670183, 0x01000123, 0x00bf00e2, 0x008d00a3,
++					0x0068007b, 0x004d0059, 0x003a0042, 0x002b0031, 0x001f0025,
++					0x0017001b, 0x00110014, 0x000c000f, 0x0009000b, 0x00070008,
++					0x00050006
++					};
++	
++	u4Byte			APK_result[PATH_NUM][APK_BB_REG_NUM];	//val_1_1a, val_1_2a, val_2a, val_3a, val_4a
++//	u4Byte			AP_curve[PATH_NUM][APK_CURVE_REG_NUM];
++
++	s4Byte			BB_offset, delta_V, delta_offset;
++
++#if MP_DRIVER == 1
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->MptCtx);	
++
++	pMptCtx->APK_bound[0] = 45;
++	pMptCtx->APK_bound[1] = 52;		
++#endif
++
++	RTPRINT(FINIT, INIT_IQK, ("==>phy_APCalibrate_8192C() delta %d\n", delta));
++	RTPRINT(FINIT, INIT_IQK, ("AP Calibration for %s\n", (is2T ? "2T2R" : "1T1R")));
++	if(!is2T)
++		pathbound = 1;
++
++	//2 FOR NORMAL CHIP SETTINGS
++
++// Temporarily do not allow normal driver to do the following settings because these offset
++// and value will cause RF internal PA to be unpredictably disabled by HW, such that RF Tx signal
++// will disappear after disable/enable card many times on 88CU. RF SD and DD have not find the
++// root cause, so we remove these actions temporarily. Added by tynli and SD3 Allen. 2010.05.31.
++#if MP_DRIVER != 1
++	return;
++#endif
++	//settings adjust for normal chip
++	for(index = 0; index < PATH_NUM; index ++)
++	{
++		APK_offset[index] = APK_normal_offset[index];
++		APK_value[index] = APK_normal_value[index];
++		AFE_on_off[index] = 0x6fdb25a4;
++	}
++
++	for(index = 0; index < APK_BB_REG_NUM; index ++)
++	{
++		for(path = 0; path < pathbound; path++)
++		{
++			APK_RF_init_value[path][index] = APK_normal_RF_init_value[path][index];
++			APK_RF_value_0[path][index] = APK_normal_RF_value_0[path][index];
++		}
++		BB_AP_MODE[index] = BB_normal_AP_MODE[index];
++	}			
++
++	apkbound = 6;
++	
++	//save BB default value
++	for(index = 0; index < APK_BB_REG_NUM ; index++)
++	{
++		if(index == 0)		//skip 
++			continue;				
++		BB_backup[index] = PHY_QueryBBReg(pAdapter, BB_REG[index], bMaskDWord);
++	}
++	
++	//save MAC default value													
++	phy_SaveMACRegisters(pAdapter, MAC_REG, MAC_backup);
++	
++	//save AFE default value
++	phy_SaveADDARegisters(pAdapter, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);
++
++	for(path = 0; path < pathbound; path++)
++	{
++
++
++		if(path == RF_PATH_A)
++		{
++			//path A APK
++			//load APK setting
++			//path-A		
++			offset = rPdp_AntA;
++			for(index = 0; index < 11; index ++)			
++			{
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x%x value 0x%x\n", offset, PHY_QueryBBReg(pAdapter, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}
++			
++			PHY_SetBBReg(pAdapter, rConfig_Pmpd_AntB, bMaskDWord, 0x12680000);
++			
++			offset = rConfig_AntA;
++			for(; index < 13; index ++) 		
++			{
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x%x value 0x%x\n", offset, PHY_QueryBBReg(pAdapter, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}	
++			
++			//page-B1
++			PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0x400000);
++		
++			//path A
++			offset = rPdp_AntA;
++			for(index = 0; index < 16; index++)
++			{
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, APK_normal_setting_value_2[index]);		
++				RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x%x value 0x%x\n", offset, PHY_QueryBBReg(pAdapter, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}				
++			PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0);							
++		}
++		else if(path == RF_PATH_B)
++		{
++			//path B APK
++			//load APK setting
++			//path-B		
++			offset = rPdp_AntB;
++			for(index = 0; index < 10; index ++)			
++			{
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x%x value 0x%x\n", offset, PHY_QueryBBReg(pAdapter, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}
++			PHY_SetBBReg(pAdapter, rConfig_Pmpd_AntA, bMaskDWord, 0x12680000);
++			
++			PHY_SetBBReg(pAdapter, rConfig_Pmpd_AntB, bMaskDWord, 0x12680000);
++			
++			offset = rConfig_AntA;
++			index = 11;
++			for(; index < 13; index ++) //offset 0xb68, 0xb6c		
++			{
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x%x value 0x%x\n", offset, PHY_QueryBBReg(pAdapter, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}	
++			
++			//page-B1
++			PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0x400000);
++			
++			//path B
++			offset = 0xb60;
++			for(index = 0; index < 16; index++)
++			{
++				PHY_SetBBReg(pAdapter, offset, bMaskDWord, APK_normal_setting_value_2[index]);		
++				RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x%x value 0x%x\n", offset, PHY_QueryBBReg(pAdapter, offset, bMaskDWord))); 	
++				
++				offset += 0x04;
++			}				
++			PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0);							
++		}
++	
++		//save RF default value
++		regD[path] = PHY_QueryRFReg(pAdapter, path, RF_TXBIAS_A, bRFRegOffsetMask);
++		
++		//Path A AFE all on, path B AFE All off or vise versa
++		for(index = 0; index < IQK_ADDA_REG_NUM ; index++)
++			PHY_SetBBReg(pAdapter, AFE_REG[index], bMaskDWord, AFE_on_off[path]);
++		RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0xe70 %x\n", PHY_QueryBBReg(pAdapter, rRx_Wait_CCA, bMaskDWord)));		
++
++		//BB to AP mode
++		if(path == 0)
++		{				
++			for(index = 0; index < APK_BB_REG_NUM ; index++)
++			{
++
++				if(index == 0)		//skip 
++					continue;			
++				else if (index < 5)
++				PHY_SetBBReg(pAdapter, BB_REG[index], bMaskDWord, BB_AP_MODE[index]);
++				else if (BB_REG[index] == 0x870)
++					PHY_SetBBReg(pAdapter, BB_REG[index], bMaskDWord, BB_backup[index]|BIT10|BIT26);
++				else
++					PHY_SetBBReg(pAdapter, BB_REG[index], BIT10, 0x0);					
++			}
++
++			PHY_SetBBReg(pAdapter, rTx_IQK_Tone_A, bMaskDWord, 0x01008c00);			
++			PHY_SetBBReg(pAdapter, rRx_IQK_Tone_A, bMaskDWord, 0x01008c00);					
++		}
++		else		//path B
++		{
++			PHY_SetBBReg(pAdapter, rTx_IQK_Tone_B, bMaskDWord, 0x01008c00);			
++			PHY_SetBBReg(pAdapter, rRx_IQK_Tone_B, bMaskDWord, 0x01008c00);					
++		
++		}
++
++		RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x800 %x\n", PHY_QueryBBReg(pAdapter, 0x800, bMaskDWord)));				
++
++		//MAC settings
++		phy_MACSettingCalibration(pAdapter, MAC_REG, MAC_backup);
++		
++		if(path == RF_PATH_A)	//Path B to standby mode
++		{
++			PHY_SetRFReg(pAdapter, RF_PATH_B, RF_AC, bRFRegOffsetMask, 0x10000);			
++		}
++		else			//Path A to standby mode
++		{
++			PHY_SetRFReg(pAdapter, RF_PATH_A, RF_AC, bRFRegOffsetMask, 0x10000);			
++			PHY_SetRFReg(pAdapter, RF_PATH_A, RF_MODE1, bRFRegOffsetMask, 0x1000f);			
++			PHY_SetRFReg(pAdapter, RF_PATH_A, RF_MODE2, bRFRegOffsetMask, 0x20103);						
++		}
++
++		delta_offset = ((delta+14)/2);
++		if(delta_offset < 0)
++			delta_offset = 0;
++		else if (delta_offset > 12)
++			delta_offset = 12;
++			
++		//AP calibration
++		for(index = 0; index < APK_BB_REG_NUM; index++)
++		{
++			if(index != 1)	//only DO PA11+PAD01001, AP RF setting
++				continue;
++					
++			tmpReg = APK_RF_init_value[path][index];
++#if 1			
++			if(!pHalData->bAPKThermalMeterIgnore)
++			{
++				BB_offset = (tmpReg & 0xF0000) >> 16;
++
++				if(!(tmpReg & BIT15)) //sign bit 0
++				{
++					BB_offset = -BB_offset;
++				}
++
++				delta_V = APK_delta_mapping[index][delta_offset];
++				
++				BB_offset += delta_V;
++
++				RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() APK index %d tmpReg 0x%x delta_V %d delta_offset %d\n", index, tmpReg, delta_V, delta_offset));		
++				
++				if(BB_offset < 0)
++				{
++					tmpReg = tmpReg & (~BIT15);
++					BB_offset = -BB_offset;
++				}
++				else
++				{
++					tmpReg = tmpReg | BIT15;
++				}
++				tmpReg = (tmpReg & 0xFFF0FFFF) | (BB_offset << 16);
++			}
++#endif
++
++#if DEV_BUS_TYPE==RT_PCI_INTERFACE
++			if(IS_81xxC_VENDOR_UMC_B_CUT(pHalData->VersionID))
++				PHY_SetRFReg(pAdapter, path, RF_IPA_A, bRFRegOffsetMask, 0x894ae);
++			else
++#endif	
++				PHY_SetRFReg(pAdapter, path, RF_IPA_A, bRFRegOffsetMask, 0x8992e);
++			RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0xc %x\n", PHY_QueryRFReg(pAdapter, path, RF_IPA_A, bRFRegOffsetMask)));		
++			PHY_SetRFReg(pAdapter, path, RF_AC, bRFRegOffsetMask, APK_RF_value_0[path][index]);
++			RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x0 %x\n", PHY_QueryRFReg(pAdapter, path, RF_AC, bRFRegOffsetMask)));		
++			PHY_SetRFReg(pAdapter, path, RF_TXBIAS_A, bRFRegOffsetMask, tmpReg);
++			RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0xd %x\n", PHY_QueryRFReg(pAdapter, path, RF_TXBIAS_A, bRFRegOffsetMask)));					
++			
++			// PA11+PAD01111, one shot	
++			i = 0;
++			do
++			{
++				PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0x800000);
++				{
++					PHY_SetBBReg(pAdapter, APK_offset[path], bMaskDWord, APK_value[0]);		
++					RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x%x value 0x%x\n", APK_offset[path], PHY_QueryBBReg(pAdapter, APK_offset[path], bMaskDWord)));
++					delay_ms(3);				
++					PHY_SetBBReg(pAdapter, APK_offset[path], bMaskDWord, APK_value[1]);
++					RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0x%x value 0x%x\n", APK_offset[path], PHY_QueryBBReg(pAdapter, APK_offset[path], bMaskDWord)));
++
++					delay_ms(20);
++				}
++				PHY_SetBBReg(pAdapter, rFPGA0_IQK, 0xffffff00, 0);
++
++				if(path == RF_PATH_A)
++					tmpReg = PHY_QueryBBReg(pAdapter, rAPK, 0x03E00000);
++				else
++					tmpReg = PHY_QueryBBReg(pAdapter, rAPK, 0xF8000000);
++				RTPRINT(FINIT, INIT_IQK, ("phy_APCalibrate_8192C() offset 0xbd8[25:21] %x\n", tmpReg));		
++				
++
++				i++;
++			}
++			while(tmpReg > apkbound && i < 4);
++
++			APK_result[path][index] = tmpReg;
++		}
++	}
++
++	//reload MAC default value	
++	phy_ReloadMACRegisters(pAdapter, MAC_REG, MAC_backup);
++	
++	//reload BB default value	
++	for(index = 0; index < APK_BB_REG_NUM ; index++)
++	{
++
++		if(index == 0)		//skip 
++			continue;					
++		PHY_SetBBReg(pAdapter, BB_REG[index], bMaskDWord, BB_backup[index]);
++	}
++
++	//reload AFE default value
++	phy_ReloadADDARegisters(pAdapter, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);
++
++	//reload RF path default value
++	for(path = 0; path < pathbound; path++)
++	{
++		PHY_SetRFReg(pAdapter, path, RF_TXBIAS_A, bRFRegOffsetMask, regD[path]);
++		if(path == RF_PATH_B)
++		{
++			PHY_SetRFReg(pAdapter, RF_PATH_A, RF_MODE1, bRFRegOffsetMask, 0x1000f);			
++			PHY_SetRFReg(pAdapter, RF_PATH_A, RF_MODE2, bRFRegOffsetMask, 0x20101);						
++		}
++
++		//note no index == 0
++		if (APK_result[path][1] > 6)
++			APK_result[path][1] = 6;
++		RTPRINT(FINIT, INIT_IQK, ("apk path %d result %d 0x%x \t", path, 1, APK_result[path][1]));					
++	}
++
++	RTPRINT(FINIT, INIT_IQK, ("\n"));
++	
++
++	for(path = 0; path < pathbound; path++)
++	{
++		PHY_SetRFReg(pAdapter, path, RF_BS_PA_APSET_G1_G4, bRFRegOffsetMask, 
++		((APK_result[path][1] << 15) | (APK_result[path][1] << 10) | (APK_result[path][1] << 5) | APK_result[path][1]));
++		if(path == RF_PATH_A)
++			PHY_SetRFReg(pAdapter, path, RF_BS_PA_APSET_G5_G8, bRFRegOffsetMask, 
++			((APK_result[path][1] << 15) | (APK_result[path][1] << 10) | (0x00 << 5) | 0x05));		
++		else
++		PHY_SetRFReg(pAdapter, path, RF_BS_PA_APSET_G5_G8, bRFRegOffsetMask, 
++			((APK_result[path][1] << 15) | (APK_result[path][1] << 10) | (0x02 << 5) | 0x05));						
++			
++		PHY_SetRFReg(pAdapter, path, RF_BS_PA_APSET_G9_G11, bRFRegOffsetMask, ((0x08 << 15) | (0x08 << 10) | (0x08 << 5) | 0x08));			
++	}
++
++	pHalData->bAPKdone = TRUE;
++
++	RTPRINT(FINIT, INIT_IQK, ("<==phy_APCalibrate_8192C()\n"));
++}
++
++
++VOID
++PHY_IQCalibrate_8192C(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN 	bReCovery
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	s4Byte			result[4][8];	//last is final result
++	u1Byte			i, final_candidate, Indexforchannel;
++	BOOLEAN			bPathAOK, bPathBOK;
++	s4Byte			RegE94, RegE9C, RegEA4, RegEAC, RegEB4, RegEBC, RegEC4, RegECC, RegTmp = 0;
++	BOOLEAN			is12simular, is13simular, is23simular;	
++	BOOLEAN 		bStartContTx = FALSE, bSingleTone = FALSE, bCarrierSuppression = FALSE;
++	u4Byte			IQK_BB_REG_92C[IQK_BB_REG_NUM] = {
++					rOFDM0_XARxIQImbalance, 	rOFDM0_XBRxIQImbalance, 
++					rOFDM0_ECCAThreshold, 	rOFDM0_AGCRSSITable,
++					rOFDM0_XATxIQImbalance, 	rOFDM0_XBTxIQImbalance, 
++					rOFDM0_XCTxAFE, 			rOFDM0_XDTxAFE, 
++					rOFDM0_RxIQExtAnta};
++
++	if (ODM_CheckPowerStatus(pAdapter) == FALSE)
++		return;
++	
++#if MP_DRIVER == 1	
++	bStartContTx = pAdapter->MptCtx.bStartContTx;
++	bSingleTone = pAdapter->MptCtx.bSingleTone;
++	bCarrierSuppression = pAdapter->MptCtx.bCarrierSuppression;	
++#endif
++	
++	//ignore IQK when continuous Tx
++	if(bStartContTx || bSingleTone || bCarrierSuppression)
++		return;
++
++#ifdef DISABLE_BB_RF
++	return;
++#endif
++	if(pAdapter->bSlaveOfDMSP)
++		return;
++
++	if (bReCovery)
++		{
++			phy_ReloadADDARegisters(pAdapter, IQK_BB_REG_92C, pHalData->IQK_BB_backup_recover, 9);
++			return;		
++
++		}
++
++	RTPRINT(FINIT, INIT_IQK, ("IQK:Start!!!\n"));
++
++	for(i = 0; i < 8; i++)
++	{
++		result[0][i] = 0;
++		result[1][i] = 0;
++		result[2][i] = 0;
++		result[3][i] = 0;
++	}
++	final_candidate = 0xff;
++	bPathAOK = FALSE;
++	bPathBOK = FALSE;
++	is12simular = FALSE;
++	is23simular = FALSE;
++	is13simular = FALSE;
++
++	AcquireCCKAndRWPageAControl(pAdapter);
++	/*RT_TRACE(COMP_INIT,DBG_LOUD,("Acquire Mutex in IQCalibrate\n"));*/
++	for (i=0; i<3; i++)
++	{
++		/*For 88C 1T1R*/
++		phy_IQCalibrate_8192C(pAdapter, result, i, FALSE);
++		
++		if(i == 1)
++		{
++			is12simular = phy_SimularityCompare(pAdapter, result, 0, 1);
++			if(is12simular)
++			{
++				final_candidate = 0;
++				break;
++			}
++		}
++		
++		if(i == 2)
++		{
++			is13simular = phy_SimularityCompare(pAdapter, result, 0, 2);
++			if(is13simular)
++			{
++				final_candidate = 0;			
++				break;
++			}
++			
++			is23simular = phy_SimularityCompare(pAdapter, result, 1, 2);
++			if(is23simular)
++				final_candidate = 1;
++			else
++			{
++				for(i = 0; i < 8; i++)
++					RegTmp += result[3][i];
++
++				if(RegTmp != 0)
++					final_candidate = 3;			
++				else
++					final_candidate = 0xFF;
++			}
++		}
++	}
++//	RT_TRACE(COMP_INIT,DBG_LOUD,("Release Mutex in IQCalibrate \n"));
++	ReleaseCCKAndRWPageAControl(pAdapter);
++
++	for (i=0; i<4; i++)
++	{
++		RegE94 = result[i][0];
++		RegE9C = result[i][1];
++		RegEA4 = result[i][2];
++		RegEAC = result[i][3];
++		RegEB4 = result[i][4];
++		RegEBC = result[i][5];
++		RegEC4 = result[i][6];
++		RegECC = result[i][7];
++		RTPRINT(FINIT, INIT_IQK, ("IQK: RegE94=%x RegE9C=%x RegEA4=%x RegEAC=%x RegEB4=%x RegEBC=%x RegEC4=%x RegECC=%x\n ", RegE94, RegE9C, RegEA4, RegEAC, RegEB4, RegEBC, RegEC4, RegECC));
++	}
++	
++	if(final_candidate != 0xff)
++	{
++		pHalData->RegE94 = RegE94 = result[final_candidate][0];
++		pHalData->RegE9C = RegE9C = result[final_candidate][1];
++		RegEA4 = result[final_candidate][2];
++		RegEAC = result[final_candidate][3];
++		pHalData->RegEB4 = RegEB4 = result[final_candidate][4];
++		pHalData->RegEBC = RegEBC = result[final_candidate][5];
++		RegEC4 = result[final_candidate][6];
++		RegECC = result[final_candidate][7];
++		RTPRINT(FINIT, INIT_IQK, ("IQK: final_candidate is %x\n",final_candidate));
++		RTPRINT(FINIT, INIT_IQK, ("IQK: RegE94=%x RegE9C=%x RegEA4=%x RegEAC=%x RegEB4=%x RegEBC=%x RegEC4=%x RegECC=%x\n ", RegE94, RegE9C, RegEA4, RegEAC, RegEB4, RegEBC, RegEC4, RegECC));
++		bPathAOK = bPathBOK = TRUE;
++	}
++	else
++	{
++		RegE94 = RegEB4 = pHalData->RegE94 = pHalData->RegEB4 = 0x100;	//X default value
++		RegE9C = RegEBC = pHalData->RegE9C = pHalData->RegEBC = 0x0;		//Y default value
++	}
++	
++	if((RegE94 != 0)/*&&(RegEA4 != 0)*/)
++	{
++		if(pHalData->CurrentBandType == BAND_ON_5G)
++			phy_PathAFillIQKMatrix_5G_Normal(pAdapter, bPathAOK, result, final_candidate, (RegEA4 == 0));			
++		else		
++			phy_PathAFillIQKMatrix(pAdapter, bPathAOK, result, final_candidate, (RegEA4 == 0));
++
++	}
++	
++	if (IS_92C_SERIAL(pHalData->VersionID) || IS_92D_SINGLEPHY(pHalData->VersionID))
++	{
++		if((RegEB4 != 0)/*&&(RegEC4 != 0)*/)
++		{
++			if(pHalData->CurrentBandType == BAND_ON_5G)		
++				phy_PathBFillIQKMatrix_5G_Normal(pAdapter, bPathBOK, result, final_candidate, (RegEC4 == 0));
++			else
++				phy_PathBFillIQKMatrix(pAdapter, bPathBOK, result, final_candidate, (RegEC4 == 0));
++		}
++	}
++	
++	phy_SaveADDARegisters(pAdapter, IQK_BB_REG_92C, pHalData->IQK_BB_backup_recover, 9);
++
++}
++
++
++VOID
++PHY_LCCalibrate_8192C(
++	IN	PADAPTER	pAdapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	BOOLEAN 		bStartContTx = FALSE, bSingleTone = FALSE, bCarrierSuppression = FALSE;
++	PMGNT_INFO		pMgntInfo=&pAdapter->MgntInfo;
++	PMGNT_INFO		pMgntInfoBuddyAdapter;
++	u4Byte			timeout = 2000, timecount = 0;
++	PADAPTER	BuddyAdapter = pAdapter->BuddyAdapter;
++
++#if MP_DRIVER == 1	
++	bStartContTx = pAdapter->MptCtx.bStartContTx;
++	bSingleTone = pAdapter->MptCtx.bSingleTone;
++	bCarrierSuppression = pAdapter->MptCtx.bCarrierSuppression;		
++#endif
++
++#ifdef DISABLE_BB_RF
++	return;
++#endif
++
++	//ignore LCK when continuous Tx
++	if(bStartContTx || bSingleTone || bCarrierSuppression)
++		return;
++
++	if(BuddyAdapter != NULL &&
++		((pAdapter->interfaceIndex == 0 && pHalData->CurrentBandType == BAND_ON_2_4G) ||
++		(pAdapter->interfaceIndex == 1 && pHalData->CurrentBandType == BAND_ON_5G)))
++	{
++		pMgntInfoBuddyAdapter=&BuddyAdapter->MgntInfo;
++		while(pMgntInfoBuddyAdapter->bScanInProgress && timecount < timeout)
++		{
++			delay_ms(50);
++			timecount += 50;
++		}
++	}
++
++	while(pMgntInfo->bScanInProgress && timecount < timeout)
++	{
++		delay_ms(50);
++		timecount += 50;
++	}	
++	
++	pHalData->bLCKInProgress = TRUE;
++
++	RTPRINT(FINIT, INIT_IQK, ("LCK:Start!!!interface %d currentband %x delay %d ms\n", pAdapter->interfaceIndex, pHalData->CurrentBandType, timecount));
++	
++	//if(IS_92C_SERIAL(pHalData->VersionID) || IS_92D_SINGLEPHY(pHalData->VersionID))
++	if(IS_2T2R(pHalData->VersionID))
++	{
++		phy_LCCalibrate(pAdapter, TRUE);
++	}
++	else{
++		// For 88C 1T1R
++		phy_LCCalibrate(pAdapter, FALSE);
++	}
++
++	pHalData->bLCKInProgress = FALSE;
++
++	RTPRINT(FINIT, INIT_IQK, ("LCK:Finish!!!interface %d\n", pAdapter->interfaceIndex));
++	
++
++}
++
++VOID
++PHY_APCalibrate_8192C(
++	IN	PADAPTER	pAdapter,
++	IN	s1Byte 		delta	
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	//default disable APK, because Tx NG issue, suggest by Jenyu, 2011.11.25
++	return;
++
++#ifdef DISABLE_BB_RF
++	return;
++#endif
++
++#if FOR_BRAZIL_PRETEST != 1
++	if(pHalData->bAPKdone)
++#endif		
++		return;
++
++	if(IS_92C_SERIAL( pHalData->VersionID)){
++		phy_APCalibrate_8192C(pAdapter, delta, TRUE);
++	}
++	else{
++		// For 88C 1T1R
++		phy_APCalibrate_8192C(pAdapter, delta, FALSE);
++	}
++}
++
++
++#endif
++
++
++//3============================================================
++//3 IQ Calibration
++//3============================================================
++
++VOID
++ODM_ResetIQKResult(
++	IN	PVOID		pDM_VOID 
++)
++{
++	return;
++}
++#if 1//!(DM_ODM_SUPPORT_TYPE & ODM_AP)
++u1Byte ODM_GetRightChnlPlaceforIQK(u1Byte chnl)
++{
++	u1Byte	channel_all[ODM_TARGET_CHNL_NUM_2G_5G] = 
++	{1,2,3,4,5,6,7,8,9,10,11,12,13,14,36,38,40,42,44,46,48,50,52,54,56,58,60,62,64,100,102,104,106,108,110,112,114,116,118,120,122,124,126,128,130,132,134,136,138,140,149,151,153,155,157,159,161,163,165};
++	u1Byte	place = chnl;
++
++	
++	if(chnl > 14)
++	{
++		for(place = 14; place<sizeof(channel_all); place++)
++		{
++			if(channel_all[place] == chnl)
++			{
++				return place-13;
++			}
++		}
++	}	
++	return 0;
++
++}
++#endif
++
++VOID
++odm_IQCalibrate(
++		IN	PDM_ODM_T	pDM_Odm 
++		)
++{
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	if (*pDM_Odm->pIsFcsModeEnable)
++		return;
++#endif
++
++	
++
++	if (pDM_Odm->bLinked) {
++		if ((*pDM_Odm->pChannel != pDM_Odm->preChannel) && (!*pDM_Odm->pbScanInProcess)) {
++			pDM_Odm->preChannel = *pDM_Odm->pChannel;
++			pDM_Odm->LinkedInterval = 0;
++		}
++
++		if (pDM_Odm->LinkedInterval < 3)
++			pDM_Odm->LinkedInterval++;
++		
++		if (pDM_Odm->LinkedInterval == 2) {
++			
++			#if (RTL8814A_SUPPORT == 1)	
++			if (pDM_Odm->SupportICType == ODM_RTL8814A) 
++				PHY_IQCalibrate_8814A(pDM_Odm, FALSE);
++			#endif
++			
++			#if (RTL8822B_SUPPORT == 1)	
++			if (pDM_Odm->SupportICType == ODM_RTL8822B) 
++				PHY_IQCalibrate_8822B(pDM_Odm, FALSE);
++			#endif
++
++			#if (RTL8821C_SUPPORT == 1) 
++			if (pDM_Odm->SupportICType == ODM_RTL8821C) 
++				PHY_IQCalibrate_8821C(pDM_Odm, FALSE);
++			#endif
++
++			#if (RTL8821A_SUPPORT == 1)				
++			if (pDM_Odm->SupportICType == ODM_RTL8821) 
++				PHY_IQCalibrate_8821A(pDM_Odm, FALSE);
++			#endif
++			
++			#if (RTL8812A_SUPPORT == 1)	
++			if (pDM_Odm->SupportICType == ODM_RTL8812) 
++				phy_IQCalibrate_8812A(pDM_Odm, FALSE);
++			#endif
++		}
++	} else
++		pDM_Odm->LinkedInterval = 0;
++
++}
++
++void phydm_rf_init(IN	PVOID		pDM_VOID)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	odm_TXPowerTrackingInit(pDM_Odm);
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	ODM_ClearTxPowerTrackingState(pDM_Odm);	
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++#if (RTL8814A_SUPPORT == 1)		
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		PHY_IQCalibrate_8814A_Init(pDM_Odm);
++#endif	
++#endif
++
++}
++
++void phydm_rf_watchdog(IN	PVOID		pDM_VOID)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	ODM_TXPowerTrackingCheck(pDM_Odm);
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		odm_IQCalibrate(pDM_Odm);
++#endif
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/halphyrf_ap.h b/drivers/net/wireless/rtl8812au/hal/phydm/halphyrf_ap.h
+new file mode 100644
+index 0000000..e4813ce
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/halphyrf_ap.h
+@@ -0,0 +1,179 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++ #ifndef __HAL_PHY_RF_H__
++ #define __HAL_PHY_RF_H__
++
++#include "phydm_powertracking_ap.h"
++#if (RTL8814A_SUPPORT == 1)
++#include "rtl8814a/phydm_iqk_8814a.h"
++#endif
++
++#if (RTL8822B_SUPPORT == 1)
++#include "rtl8822b/phydm_iqk_8822b.h"
++#endif
++
++#if (RTL8821C_SUPPORT == 1)
++#include "rtl8822b/phydm_iqk_8821c.h"
++#endif
++
++typedef enum _PWRTRACK_CONTROL_METHOD {
++	BBSWING,
++	TXAGC,
++	MIX_MODE,
++	TSSI_MODE
++} PWRTRACK_METHOD;
++
++typedef VOID 	(*FuncSetPwr)(PVOID, PWRTRACK_METHOD, u1Byte, u1Byte);
++typedef VOID(*FuncIQK)(PVOID, u1Byte, u1Byte, u1Byte);
++typedef VOID 	(*FuncLCK)(PVOID);
++				//refine by YuChen for 8814A
++typedef VOID  	(*FuncSwing)(PVOID, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*);
++typedef VOID	(*FuncSwing8814only)(PVOID, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*);
++typedef VOID	(*FuncAllSwing)(PVOID, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*);
++
++
++typedef struct _TXPWRTRACK_CFG {
++	u1Byte 		SwingTableSize_CCK;	
++	u1Byte 		SwingTableSize_OFDM;
++	u1Byte 		Threshold_IQK;
++	u1Byte 		Threshold_DPK;	
++	u1Byte 		AverageThermalNum;
++	u1Byte 		RfPathCount;
++	u4Byte 		ThermalRegAddr;	
++	FuncSetPwr 	ODM_TxPwrTrackSetPwr;
++	FuncIQK 	DoIQK;
++	FuncLCK		PHY_LCCalibrate;
++	FuncSwing	GetDeltaSwingTable;
++	FuncSwing8814only	GetDeltaSwingTable8814only;
++	FuncAllSwing	GetDeltaAllSwingTable;
++} TXPWRTRACK_CFG, *PTXPWRTRACK_CFG;
++
++VOID 
++ConfigureTxpowerTrack(
++	IN	PVOID		pDM_VOID,
++	OUT	PTXPWRTRACK_CFG	pConfig
++	);
++
++
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	);
++
++#if (RTL8192E_SUPPORT==1) 
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter_92E(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	);
++#endif
++
++#if (RTL8814A_SUPPORT == 1)
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter_JaguarSeries2(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	);
++
++#elif ODM_IC_11AC_SERIES_SUPPORT
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter_JaguarSeries(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	);
++
++#elif (RTL8197F_SUPPORT == 1 || RTL8822B_SUPPORT == 1)
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter_JaguarSeries3(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN	PVOID		pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	);
++
++#endif
++
++#define IS_CCK_RATE(_rate) 				(ODM_MGN_1M == _rate || _rate == ODM_MGN_2M || _rate == ODM_MGN_5_5M || _rate == ODM_MGN_11M )
++
++
++#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++#define MAX_TOLERANCE          5
++#define IQK_DELAY_TIME         1               //ms
++
++ //
++// BB/MAC/RF other monitor API
++//
++
++void	PHY_SetMonitorMode8192C(IN	PADAPTER	pAdapter,
++										IN	BOOLEAN		bEnableMonitorMode	);
++										
++//
++// IQ calibrate
++//
++void	
++PHY_IQCalibrate_8192C(		IN	PADAPTER	pAdapter,	
++							IN	BOOLEAN 	bReCovery);
++							
++//
++// LC calibrate
++//
++void	
++PHY_LCCalibrate_8192C(		IN	PADAPTER	pAdapter);
++
++//
++// AP calibrate
++//
++void	
++PHY_APCalibrate_8192C(		IN	PADAPTER	pAdapter,
++								IN 	s1Byte		delta);
++#endif
++
++#define ODM_TARGET_CHNL_NUM_2G_5G	59
++
++
++VOID
++ODM_ResetIQKResult(
++	IN	PVOID		pDM_VOID
++);
++u1Byte 
++ODM_GetRightChnlPlaceforIQK(
++    IN u1Byte chnl
++);
++
++void phydm_rf_init(IN	PVOID		pDM_VOID);
++void phydm_rf_watchdog(IN	PVOID		pDM_VOID);
++								
++#endif	// #ifndef __HAL_PHY_RF_H__
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/halphyrf_ce.c b/drivers/net/wireless/rtl8812au/hal/phydm/halphyrf_ce.c
+new file mode 100644
+index 0000000..fa93177
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/halphyrf_ce.c
+@@ -0,0 +1,801 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#define 	CALCULATE_SWINGTALBE_OFFSET(_offset, _direction, _size, _deltaThermal) \
++					do {\
++						for(_offset = 0; _offset < _size; _offset++)\
++						{\
++							if(_deltaThermal < thermalThreshold[_direction][_offset])\
++							{\
++								if(_offset != 0)\
++									_offset--;\
++								break;\
++							}\
++						}			\
++						if(_offset >= _size)\
++							_offset = _size-1;\
++					} while(0)
++
++void ConfigureTxpowerTrack(
++	IN		PVOID					pDM_VOID,
++	OUT	PTXPWRTRACK_CFG	pConfig
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++#if RTL8192E_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8192E)
++		ConfigureTxpowerTrack_8192E(pConfig);
++#endif	
++#if RTL8821A_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8821)
++		ConfigureTxpowerTrack_8821A(pConfig);
++#endif
++#if RTL8812A_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8812)
++		ConfigureTxpowerTrack_8812A(pConfig);
++#endif
++#if RTL8188E_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8188E)
++		ConfigureTxpowerTrack_8188E(pConfig);
++#endif 
++
++#if RTL8723B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8723B)
++		ConfigureTxpowerTrack_8723B(pConfig);
++#endif
++
++#if RTL8814A_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8814A)
++		ConfigureTxpowerTrack_8814A(pConfig);
++#endif
++
++#if RTL8703B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8703B)
++		ConfigureTxpowerTrack_8703B(pConfig);
++#endif
++
++#if RTL8188F_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8188F)
++		ConfigureTxpowerTrack_8188F(pConfig);
++#endif 
++#if RTL8723D_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8723D)
++		ConfigureTxpowerTrack_8723D(pConfig);
++#endif 
++#if RTL8822B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8822B)
++		ConfigureTxpowerTrack_8822B(pConfig);
++#endif 
++
++}
++
++//======================================================================
++// <20121113, Kordan> This function should be called when TxAGC changed.
++// Otherwise the previous compensation is gone, because we record the 
++// delta of temperature between two TxPowerTracking watch dogs.
++//
++// NOTE: If Tx BB swing or Tx scaling is varified during run-time, still 
++//       need to call this function.
++//======================================================================
++VOID
++ODM_ClearTxPowerTrackingState(
++	IN		PVOID					pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(pDM_Odm->Adapter);
++	u1Byte 			p = 0;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	
++	pRFCalibrateInfo->BbSwingIdxCckBase = pRFCalibrateInfo->DefaultCckIndex;
++	pRFCalibrateInfo->BbSwingIdxCck = pRFCalibrateInfo->DefaultCckIndex;
++	pDM_Odm->RFCalibrateInfo.CCK_index = 0;
++	
++	for (p = ODM_RF_PATH_A; p < MAX_RF_PATH; ++p)
++	{
++		pRFCalibrateInfo->BbSwingIdxOfdmBase[p] = pRFCalibrateInfo->DefaultOfdmIndex;
++		pRFCalibrateInfo->BbSwingIdxOfdm[p] = pRFCalibrateInfo->DefaultOfdmIndex;
++		pRFCalibrateInfo->OFDM_index[p] = pRFCalibrateInfo->DefaultOfdmIndex;
++
++		pRFCalibrateInfo->PowerIndexOffset[p] = 0;
++		pRFCalibrateInfo->DeltaPowerIndex[p] = 0;
++		pRFCalibrateInfo->DeltaPowerIndexLast[p] = 0;
++
++		pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = 0;    /* Initial Mix mode power tracking*/
++		pRFCalibrateInfo->Remnant_OFDMSwingIdx[p] = 0;			  
++		pRFCalibrateInfo->KfreeOffset[p] = 0;
++	}
++	
++	pRFCalibrateInfo->Modify_TxAGC_Flag_PathA = FALSE;       /*Initial at Modify Tx Scaling Mode*/
++	pRFCalibrateInfo->Modify_TxAGC_Flag_PathB = FALSE;       /*Initial at Modify Tx Scaling Mode*/
++	pRFCalibrateInfo->Modify_TxAGC_Flag_PathC = FALSE;       /*Initial at Modify Tx Scaling Mode*/
++	pRFCalibrateInfo->Modify_TxAGC_Flag_PathD = FALSE;       /*Initial at Modify Tx Scaling Mode*/
++	pRFCalibrateInfo->Remnant_CCKSwingIdx = 0;
++	pRFCalibrateInfo->ThermalValue = pHalData->EEPROMThermalMeter;
++
++	pRFCalibrateInfo->Modify_TxAGC_Value_CCK=0;			//modify by Mingzhi.Guo
++	pRFCalibrateInfo->Modify_TxAGC_Value_OFDM=0;		//modify by Mingzhi.Guo
++
++}
++
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm
++#else
++	IN PADAPTER	Adapter
++#endif
++	)
++{
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#endif
++#endif
++
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	u1Byte			ThermalValue = 0, delta, delta_LCK, delta_IQK, p = 0, i = 0;
++	s1Byte			diff_DPK[4] = {0};
++	u1Byte			ThermalValue_AVG_count = 0;
++	u4Byte			ThermalValue_AVG = 0, RegC80, RegCd0, RegCd4, Regab4;	
++
++	u1Byte			OFDM_min_index = 0;  // OFDM BB Swing should be less than +3.0dB, which is required by Arthur
++	u1Byte			Indexforchannel = 0; // GetRightChnlPlaceforIQK(pHalData->CurrentChannel)
++	u1Byte			PowerTrackingType = pHalData->RfPowerTrackingType;
++	u1Byte			XtalOffsetEanble = 0;
++
++	TXPWRTRACK_CFG 	c;
++
++	//4 1. The following TWO tables decide the final index of OFDM/CCK swing table.
++	pu1Byte			deltaSwingTableIdx_TUP_A = NULL;
++	pu1Byte			deltaSwingTableIdx_TDOWN_A = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_B = NULL;
++	pu1Byte			deltaSwingTableIdx_TDOWN_B = NULL;
++	/*for 8814 add by Yu Chen*/
++	pu1Byte			deltaSwingTableIdx_TUP_C = NULL;
++	pu1Byte			deltaSwingTableIdx_TDOWN_C = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_D = NULL;
++	pu1Byte			deltaSwingTableIdx_TDOWN_D = NULL;
++	/*for Xtal Offset by James.Tung*/
++	ps1Byte			deltaSwingTableXtal_UP = NULL;
++	ps1Byte			deltaSwingTableXtal_DOWN = NULL;
++
++	//4 2. Initilization ( 7 steps in total )
++
++	ConfigureTxpowerTrack(pDM_Odm, &c);
++
++	(*c.GetDeltaSwingTable)(pDM_Odm, (pu1Byte *)&deltaSwingTableIdx_TUP_A, (pu1Byte *)&deltaSwingTableIdx_TDOWN_A,
++			(pu1Byte *)&deltaSwingTableIdx_TUP_B, (pu1Byte *)&deltaSwingTableIdx_TDOWN_B);
++
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)	/*for 8814 path C & D*/
++		(*c.GetDeltaSwingTable8814only)(pDM_Odm, (pu1Byte *)&deltaSwingTableIdx_TUP_C, (pu1Byte *)&deltaSwingTableIdx_TDOWN_C,
++			(pu1Byte *)&deltaSwingTableIdx_TUP_D, (pu1Byte *)&deltaSwingTableIdx_TDOWN_D);
++	
++	if (pDM_Odm->SupportICType & (ODM_RTL8703B | ODM_RTL8723D))	/*for Xtal Offset*/
++		(*c.GetDeltaSwingXtalTable)(pDM_Odm, (ps1Byte *)&deltaSwingTableXtal_UP, (ps1Byte *)&deltaSwingTableXtal_DOWN);
++	
++	pRFCalibrateInfo->TXPowerTrackingCallbackCnt++;	/*cosa add for debug*/
++	pRFCalibrateInfo->bTXPowerTrackingInit = TRUE;
++
++	/*pRFCalibrateInfo->TxPowerTrackControl = pHalData->TxPowerTrackControl;
++	<Kordan> We should keep updating the control variable according to HalData. 
++	<Kordan> RFCalibrateInfo.RegA24 will be initialized when ODM HW configuring, but MP configures with para files. */
++	#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	#if (MP_DRIVER == 1)
++		pRFCalibrateInfo->RegA24 = 0x090e1317;
++	#endif
++	#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++		if (pDM_Odm->mp_mode == TRUE)
++			pRFCalibrateInfo->RegA24 = 0x090e1317;
++	#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++		("===>ODM_TXPowerTrackingCallback_ThermalMeter\n pRFCalibrateInfo->BbSwingIdxCckBase: %d, pRFCalibrateInfo->BbSwingIdxOfdmBase[A]: %d, pRFCalibrateInfo->DefaultOfdmIndex: %d\n", 
++		pRFCalibrateInfo->BbSwingIdxCckBase, pRFCalibrateInfo->BbSwingIdxOfdmBase[ODM_RF_PATH_A], pRFCalibrateInfo->DefaultOfdmIndex));
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++		("pRFCalibrateInfo->TxPowerTrackControl=%d,  pHalData->EEPROMThermalMeter %d\n", pRFCalibrateInfo->TxPowerTrackControl,  pHalData->EEPROMThermalMeter));
++	ThermalValue = (u1Byte)ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, c.ThermalRegAddr, 0xfc00);	//0x42: RF Reg[15:10] 88E
++
++	/*add log by zhao he, check c80/c94/c14/ca0 value*/
++	if (pDM_Odm->SupportICType == ODM_RTL8723D) {	
++		RegC80 = ODM_GetBBReg(pDM_Odm, 0xc80, bMaskDWord);
++		RegCd0 = ODM_GetBBReg(pDM_Odm, 0xcd0, bMaskDWord);
++		RegCd4 = ODM_GetBBReg(pDM_Odm, 0xcd4, bMaskDWord);
++		Regab4 = ODM_GetBBReg(pDM_Odm, 0xab4, 0x000007FF);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xc80 = 0x%x 0xcd0 = 0x%x 0xcd4 = 0x%x 0xab4 = 0x%x\n", RegC80, RegCd0, RegCd4, Regab4));
++	}
++
++	if (!pRFCalibrateInfo->TxPowerTrackControl)
++		return;
++
++
++	/*4 3. Initialize ThermalValues of RFCalibrateInfo*/
++
++	if (pRFCalibrateInfo->bReloadtxpowerindex)
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("reload ofdm index for band switch\n"));				
++
++	/*4 4. Calculate average thermal meter*/
++	
++	pRFCalibrateInfo->ThermalValue_AVG[pRFCalibrateInfo->ThermalValue_AVG_index] = ThermalValue;
++	pRFCalibrateInfo->ThermalValue_AVG_index++;
++	if (pRFCalibrateInfo->ThermalValue_AVG_index == c.AverageThermalNum)   /*Average times =  c.AverageThermalNum*/
++		pRFCalibrateInfo->ThermalValue_AVG_index = 0;
++
++	for(i = 0; i < c.AverageThermalNum; i++)
++	{
++		if (pRFCalibrateInfo->ThermalValue_AVG[i]) {
++			ThermalValue_AVG += pRFCalibrateInfo->ThermalValue_AVG[i];
++			ThermalValue_AVG_count++;
++		}
++	}
++
++	if(ThermalValue_AVG_count)               //Calculate Average ThermalValue after average enough times
++	{
++		ThermalValue = (u1Byte)(ThermalValue_AVG / ThermalValue_AVG_count);
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("AVG Thermal Meter = 0x%X, EFUSE Thermal Base = 0x%X\n", ThermalValue, pHalData->EEPROMThermalMeter));					
++	}
++			
++	//4 5. Calculate delta, delta_LCK, delta_IQK.
++
++	//"delta" here is used to determine whether thermal value changes or not.
++	delta	= (ThermalValue > pRFCalibrateInfo->ThermalValue)?(ThermalValue - pRFCalibrateInfo->ThermalValue):(pRFCalibrateInfo->ThermalValue - ThermalValue);
++	delta_LCK = (ThermalValue > pRFCalibrateInfo->ThermalValue_LCK)?(ThermalValue - pRFCalibrateInfo->ThermalValue_LCK):(pRFCalibrateInfo->ThermalValue_LCK - ThermalValue);
++	delta_IQK = (ThermalValue > pRFCalibrateInfo->ThermalValue_IQK)?(ThermalValue - pRFCalibrateInfo->ThermalValue_IQK):(pRFCalibrateInfo->ThermalValue_IQK - ThermalValue);
++
++	if (pRFCalibrateInfo->ThermalValue_IQK == 0xff) {	/*no PG, use thermal value for IQK*/
++		pRFCalibrateInfo->ThermalValue_IQK = ThermalValue;
++		delta_IQK = (ThermalValue > pRFCalibrateInfo->ThermalValue_IQK)?(ThermalValue - pRFCalibrateInfo->ThermalValue_IQK):(pRFCalibrateInfo->ThermalValue_IQK - ThermalValue);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("no PG, use ThermalValue for IQK\n"));
++	}
++	
++	for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++		diff_DPK[p] = (s1Byte)ThermalValue - (s1Byte)pRFCalibrateInfo->DpkThermal[p];
++
++	/*4 6. If necessary, do LCK.*/
++
++	if (!(pDM_Odm->SupportICType & ODM_RTL8821)) {	/*no PG , do LCK at initial status*/
++		if (pRFCalibrateInfo->ThermalValue_LCK == 0xff) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("no PG, do LCK\n"));
++			pRFCalibrateInfo->ThermalValue_LCK = ThermalValue;
++
++			/*Use RTLCK, so close power tracking driver LCK*/
++			if (!(pDM_Odm->SupportICType & ODM_RTL8814A)) {
++				if (c.PHY_LCCalibrate)
++					(*c.PHY_LCCalibrate)(pDM_Odm);
++			}
++			
++			delta_LCK = (ThermalValue > pRFCalibrateInfo->ThermalValue_LCK)?(ThermalValue - pRFCalibrateInfo->ThermalValue_LCK):(pRFCalibrateInfo->ThermalValue_LCK - ThermalValue);
++		}
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("(delta, delta_LCK, delta_IQK) = (%d, %d, %d)\n", delta, delta_LCK, delta_IQK));
++
++		 /* Delta temperature is equal to or larger than 20 centigrade.*/
++		if (delta_LCK >= c.Threshold_IQK) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("delta_LCK(%d) >= Threshold_IQK(%d)\n", delta_LCK, c.Threshold_IQK));
++			pRFCalibrateInfo->ThermalValue_LCK = ThermalValue;
++
++			/*Use RTLCK, so close power tracking driver LCK*/
++			if (!(pDM_Odm->SupportICType & ODM_RTL8814A)) {
++				if (c.PHY_LCCalibrate)
++					(*c.PHY_LCCalibrate)(pDM_Odm);
++			}
++		}
++	}
++
++	/*3 7. If necessary, move the index of swing table to adjust Tx power.*/	
++	
++	if (delta > 0 && pRFCalibrateInfo->TxPowerTrackControl)
++	{
++		//"delta" here is used to record the absolute value of differrence.
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))			
++	    delta = ThermalValue > pHalData->EEPROMThermalMeter?(ThermalValue - pHalData->EEPROMThermalMeter):(pHalData->EEPROMThermalMeter - ThermalValue);		
++#else
++	    delta = (ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther)?(ThermalValue - pDM_Odm->priv->pmib->dot11RFEntry.ther):(pDM_Odm->priv->pmib->dot11RFEntry.ther - ThermalValue);		
++#endif
++		if (delta >= TXPWR_TRACK_TABLE_SIZE)
++			delta = TXPWR_TRACK_TABLE_SIZE - 1;
++
++		/*4 7.1 The Final Power Index = BaseIndex + PowerIndexOffset*/
++		
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))				
++		if(ThermalValue > pHalData->EEPROMThermalMeter) {
++#else
++		if(ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther) {
++#endif
++
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++				pRFCalibrateInfo->DeltaPowerIndexLast[p] = pRFCalibrateInfo->DeltaPowerIndex[p];	/*recording poer index offset*/
++				switch (p) {
++				case ODM_RF_PATH_B:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TUP_B[%d] = %d\n", delta, deltaSwingTableIdx_TUP_B[delta])); 
++
++					pRFCalibrateInfo->DeltaPowerIndex[p] = deltaSwingTableIdx_TUP_B[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  deltaSwingTableIdx_TUP_B[delta];       /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is higher and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_B] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++				case ODM_RF_PATH_C:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TUP_C[%d] = %d\n", delta, deltaSwingTableIdx_TUP_C[delta]));
++
++					pRFCalibrateInfo->DeltaPowerIndex[p] = deltaSwingTableIdx_TUP_C[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  deltaSwingTableIdx_TUP_C[delta];       /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_C] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++				case ODM_RF_PATH_D:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TUP_D[%d] = %d\n", delta, deltaSwingTableIdx_TUP_D[delta]));
++
++						pRFCalibrateInfo->DeltaPowerIndex[p] = deltaSwingTableIdx_TUP_D[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  deltaSwingTableIdx_TUP_D[delta];       /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is higher and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_D] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++				default:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++						("deltaSwingTableIdx_TUP_A[%d] = %d\n", delta, deltaSwingTableIdx_TUP_A[delta]));
++
++					pRFCalibrateInfo->DeltaPowerIndex[p] = deltaSwingTableIdx_TUP_A[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  deltaSwingTableIdx_TUP_A[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_A] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++				}
++			}
++
++			if (pDM_Odm->SupportICType & (ODM_RTL8703B | ODM_RTL8723D)) {
++				/*Save XtalOffset from Xtal table*/
++				pRFCalibrateInfo->XtalOffsetLast = pRFCalibrateInfo->XtalOffset;	/*recording last Xtal offset*/
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++								("[Xtal] deltaSwingTableXtal_UP[%d] = %d\n", delta, deltaSwingTableXtal_UP[delta]));
++				pRFCalibrateInfo->XtalOffset = deltaSwingTableXtal_UP[delta];
++
++				if (pRFCalibrateInfo->XtalOffsetLast == pRFCalibrateInfo->XtalOffset)
++					XtalOffsetEanble = 0;
++				else
++					XtalOffsetEanble = 1;
++			}
++		
++		} else {
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++				pRFCalibrateInfo->DeltaPowerIndexLast[p] = pRFCalibrateInfo->DeltaPowerIndex[p];	/*recording poer index offset*/
++
++				switch (p) {
++				case ODM_RF_PATH_B:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TDOWN_B[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_B[delta]));  
++					pRFCalibrateInfo->DeltaPowerIndex[p] = -1 * deltaSwingTableIdx_TDOWN_B[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  -1 * deltaSwingTableIdx_TDOWN_B[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is lower and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_B] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p])); 
++					break;
++
++				case ODM_RF_PATH_C:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TDOWN_C[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_C[delta]));  
++					pRFCalibrateInfo->DeltaPowerIndex[p] = -1 * deltaSwingTableIdx_TDOWN_C[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  -1 * deltaSwingTableIdx_TDOWN_C[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is lower and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_C] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));   
++					break;
++
++				case ODM_RF_PATH_D:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TDOWN_D[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_D[delta]));  
++					pRFCalibrateInfo->DeltaPowerIndex[p] = -1 * deltaSwingTableIdx_TDOWN_D[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  -1 * deltaSwingTableIdx_TDOWN_D[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is lower and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_D] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++				default:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TDOWN_A[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_A[delta]));  
++					pRFCalibrateInfo->DeltaPowerIndex[p] = -1 * deltaSwingTableIdx_TDOWN_A[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  -1 * deltaSwingTableIdx_TDOWN_A[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is lower and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_A] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++				}	
++			}
++
++			if (pDM_Odm->SupportICType & (ODM_RTL8703B | ODM_RTL8723D)) {
++				/*Save XtalOffset from Xtal table*/
++				pRFCalibrateInfo->XtalOffsetLast = pRFCalibrateInfo->XtalOffset;	/*recording last Xtal offset*/
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++								("[Xtal] deltaSwingTableXtal_DOWN[%d] = %d\n", delta, deltaSwingTableXtal_DOWN[delta]));
++				pRFCalibrateInfo->XtalOffset = deltaSwingTableXtal_DOWN[delta];
++
++				if (pRFCalibrateInfo->XtalOffsetLast == pRFCalibrateInfo->XtalOffset)
++					XtalOffsetEanble = 0;
++				else
++					XtalOffsetEanble = 1;
++			}
++
++		}
++		
++		for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("\n\n=========================== [Path-%d] Calculating PowerIndexOffset===========================\n", p));  
++
++			if (pRFCalibrateInfo->DeltaPowerIndex[p] == pRFCalibrateInfo->DeltaPowerIndexLast[p])         /*If Thermal value changes but lookup table value still the same*/
++				pRFCalibrateInfo->PowerIndexOffset[p] = 0;
++			else
++				pRFCalibrateInfo->PowerIndexOffset[p] = pRFCalibrateInfo->DeltaPowerIndex[p] - pRFCalibrateInfo->DeltaPowerIndexLast[p];      /*Power Index Diff between 2 times Power Tracking*/
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("[Path-%d] PowerIndexOffset(%d) = DeltaPowerIndex(%d) - DeltaPowerIndexLast(%d)\n", p, pRFCalibrateInfo->PowerIndexOffset[p], pRFCalibrateInfo->DeltaPowerIndex[p], pRFCalibrateInfo->DeltaPowerIndexLast[p]));
++		
++			pRFCalibrateInfo->OFDM_index[p] = pRFCalibrateInfo->BbSwingIdxOfdmBase[p] + pRFCalibrateInfo->PowerIndexOffset[p];
++			pRFCalibrateInfo->CCK_index = pRFCalibrateInfo->BbSwingIdxCckBase + pRFCalibrateInfo->PowerIndexOffset[p];
++
++			pRFCalibrateInfo->BbSwingIdxCck = pRFCalibrateInfo->CCK_index;	
++			pRFCalibrateInfo->BbSwingIdxOfdm[p] = pRFCalibrateInfo->OFDM_index[p];	
++
++			/*************Print BB Swing Base and Index Offset*************/
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("The 'CCK' final index(%d) = BaseIndex(%d) + PowerIndexOffset(%d)\n", pRFCalibrateInfo->BbSwingIdxCck, pRFCalibrateInfo->BbSwingIdxCckBase, pRFCalibrateInfo->PowerIndexOffset[p]));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("The 'OFDM' final index(%d) = BaseIndex[%d](%d) + PowerIndexOffset(%d)\n", pRFCalibrateInfo->BbSwingIdxOfdm[p], p, pRFCalibrateInfo->BbSwingIdxOfdmBase[p], pRFCalibrateInfo->PowerIndexOffset[p]));
++
++			/*4 7.1 Handle boundary conditions of index.*/
++		
++			if (pRFCalibrateInfo->OFDM_index[p] > c.SwingTableSize_OFDM-1)
++				pRFCalibrateInfo->OFDM_index[p] = c.SwingTableSize_OFDM-1;
++			else if (pRFCalibrateInfo->OFDM_index[p] <= OFDM_min_index)
++				pRFCalibrateInfo->OFDM_index[p] = OFDM_min_index;
++		}
++		
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("\n\n========================================================================================================\n"));  
++
++		if (pRFCalibrateInfo->CCK_index > c.SwingTableSize_CCK-1)
++			pRFCalibrateInfo->CCK_index = c.SwingTableSize_CCK-1;
++		else if (pRFCalibrateInfo->CCK_index <= 0)
++			pRFCalibrateInfo->CCK_index = 0;
++	} else {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("The thermal meter is unchanged or TxPowerTracking OFF(%d): ThermalValue: %d , pRFCalibrateInfo->ThermalValue: %d\n", 
++			pRFCalibrateInfo->TxPowerTrackControl, ThermalValue, pRFCalibrateInfo->ThermalValue));
++
++		for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++			pRFCalibrateInfo->PowerIndexOffset[p] = 0;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++		("TxPowerTracking: [CCK] Swing Current Index: %d, Swing Base Index: %d\n", 
++			pRFCalibrateInfo->CCK_index, pRFCalibrateInfo->BbSwingIdxCckBase));       /*Print Swing base & current*/
++
++	for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("TxPowerTracking: [OFDM] Swing Current Index: %d, Swing Base Index[%d]: %d\n",
++			pRFCalibrateInfo->OFDM_index[p], p, pRFCalibrateInfo->BbSwingIdxOfdmBase[p]));
++	}
++
++	if ((pDM_Odm->SupportICType & ODM_RTL8814A)) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("PowerTrackingType=%d\n", PowerTrackingType));
++		
++		if (PowerTrackingType == 0) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX_MODE**********\n"));
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, 0);
++		} else if (PowerTrackingType == 1) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX(2G) TSSI(5G) MODE**********\n"));
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_2G_TSSI_5G_MODE, p, 0);
++		} else if (PowerTrackingType == 2) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX(5G) TSSI(2G)MODE**********\n"));
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_5G_TSSI_2G_MODE, p, 0);
++		} else if (PowerTrackingType == 3) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking TSSI MODE**********\n"));
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, TSSI_MODE, p, 0);
++		}
++		pRFCalibrateInfo->ThermalValue = ThermalValue;         /*Record last Power Tracking Thermal Value*/
++	
++	} else if ((pRFCalibrateInfo->PowerIndexOffset[ODM_RF_PATH_A] != 0 ||
++		pRFCalibrateInfo->PowerIndexOffset[ODM_RF_PATH_B] != 0 ||
++		pRFCalibrateInfo->PowerIndexOffset[ODM_RF_PATH_C] != 0 ||
++		pRFCalibrateInfo->PowerIndexOffset[ODM_RF_PATH_D] != 0) && 
++		pRFCalibrateInfo->TxPowerTrackControl && (pHalData->EEPROMThermalMeter != 0xff)) {
++		//4 7.2 Configure the Swing Table to adjust Tx Power.
++		
++		pRFCalibrateInfo->bTxPowerChanged = TRUE;	/*Always TRUE after Tx Power is adjusted by power tracking.*/			
++		//
++		// 2012/04/23 MH According to Luke's suggestion, we can not write BB digital
++		// to increase TX power. Otherwise, EVM will be bad.
++		//
++		// 2012/04/25 MH Add for tx power tracking to set tx power in tx agc for 88E.
++		if (ThermalValue > pRFCalibrateInfo->ThermalValue) {
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++					("Temperature Increasing(%d): delta_pi: %d , delta_t: %d, Now_t: %d, EFUSE_t: %d, Last_t: %d\n", 
++					p, pRFCalibrateInfo->PowerIndexOffset[p], delta, ThermalValue, pHalData->EEPROMThermalMeter, pRFCalibrateInfo->ThermalValue));	
++			}
++		} else if (ThermalValue < pRFCalibrateInfo->ThermalValue) {	/*Low temperature*/
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++					("Temperature Decreasing(%d): delta_pi: %d , delta_t: %d, Now_t: %d, EFUSE_t: %d, Last_t: %d\n",
++					p, pRFCalibrateInfo->PowerIndexOffset[p], delta, ThermalValue, pHalData->EEPROMThermalMeter, pRFCalibrateInfo->ThermalValue));				
++			}
++		}
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		if (ThermalValue > pHalData->EEPROMThermalMeter)
++#else
++		if (ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther)
++#endif
++		{
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("Temperature(%d) higher than PG value(%d)\n", ThermalValue, pHalData->EEPROMThermalMeter));			
++
++			if (pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType == ODM_RTL8821 ||
++				pDM_Odm->SupportICType == ODM_RTL8812 || pDM_Odm->SupportICType == ODM_RTL8723B || pDM_Odm->SupportICType == ODM_RTL8814A ||
++				pDM_Odm->SupportICType == ODM_RTL8703B || pDM_Odm->SupportICType == ODM_RTL8188F || pDM_Odm->SupportICType == ODM_RTL8822B || pDM_Odm->SupportICType == ODM_RTL8723D) {
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX_MODE**********\n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, 0);
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking BBSWING_MODE**********\n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, p, Indexforchannel);
++			}
++		}
++		else
++		{
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("Temperature(%d) lower than PG value(%d)\n", ThermalValue, pHalData->EEPROMThermalMeter));
++
++			if (pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType == ODM_RTL8821 ||
++				pDM_Odm->SupportICType == ODM_RTL8812 || pDM_Odm->SupportICType == ODM_RTL8723B || pDM_Odm->SupportICType == ODM_RTL8814A ||
++				pDM_Odm->SupportICType == ODM_RTL8703B || pDM_Odm->SupportICType == ODM_RTL8188F || pDM_Odm->SupportICType == ODM_RTL8822B || pDM_Odm->SupportICType == ODM_RTL8723D) {
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX_MODE**********\n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, Indexforchannel);
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking BBSWING_MODE**********\n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, p, Indexforchannel);
++			}
++			
++		}
++
++		pRFCalibrateInfo->BbSwingIdxCckBase = pRFCalibrateInfo->BbSwingIdxCck;    /*Record last time Power Tracking result as base.*/
++		for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++			pRFCalibrateInfo->BbSwingIdxOfdmBase[p] = pRFCalibrateInfo->BbSwingIdxOfdm[p];
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("pRFCalibrateInfo->ThermalValue = %d ThermalValue= %d\n", pRFCalibrateInfo->ThermalValue, ThermalValue));
++		
++		pRFCalibrateInfo->ThermalValue = ThermalValue;         /*Record last Power Tracking Thermal Value*/
++
++	}
++
++
++	if (pDM_Odm->SupportICType == ODM_RTL8703B || pDM_Odm->SupportICType == ODM_RTL8723D) {
++
++		if (XtalOffsetEanble != 0 && pRFCalibrateInfo->TxPowerTrackControl && (pHalData->EEPROMThermalMeter != 0xff)) {
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter Xtal Tracking**********\n"));
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			if (ThermalValue > pHalData->EEPROMThermalMeter) {
++#else
++			if (ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther) {
++#endif
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++					("Temperature(%d) higher than PG value(%d)\n", ThermalValue, pHalData->EEPROMThermalMeter));			
++				(*c.ODM_TxXtalTrackSetXtal)(pDM_Odm);
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++					("Temperature(%d) lower than PG value(%d)\n", ThermalValue, pHalData->EEPROMThermalMeter));			
++				(*c.ODM_TxXtalTrackSetXtal)(pDM_Odm);
++			}
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********End Xtal Tracking**********\n"));
++	}
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++
++	if (!IS_HARDWARE_TYPE_8723B(Adapter)) {
++		/*Delta temperature is equal to or larger than 20 centigrade (When threshold is 8).*/
++		if (delta_IQK >= c.Threshold_IQK) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("delta_IQK(%d) >= Threshold_IQK(%d)\n", delta_IQK, c.Threshold_IQK));
++			if (!pRFCalibrateInfo->bIQKInProgress) 
++				(*c.DoIQK)(pDM_Odm, delta_IQK, ThermalValue, 8);
++		}
++	}
++	if (pRFCalibrateInfo->DpkThermal[ODM_RF_PATH_A] != 0) {
++		if (diff_DPK[ODM_RF_PATH_A] >= c.Threshold_DPK) { 
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xcc4, BIT14|BIT13|BIT12|BIT11|BIT10, (diff_DPK[ODM_RF_PATH_A] / c.Threshold_DPK));
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++		} else if ((diff_DPK[ODM_RF_PATH_A] <= -1 * c.Threshold_DPK)) {
++			s4Byte value = 0x20 + (diff_DPK[ODM_RF_PATH_A] / c.Threshold_DPK);	
++
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xcc4, BIT14|BIT13|BIT12|BIT11|BIT10, value);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++		} else {
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xcc4, BIT14|BIT13|BIT12|BIT11|BIT10, 0);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);	
++		}
++	}
++	if (pRFCalibrateInfo->DpkThermal[ODM_RF_PATH_B] != 0) {
++		if (diff_DPK[ODM_RF_PATH_B] >= c.Threshold_DPK) { 
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xec4, BIT14|BIT13|BIT12|BIT11|BIT10, (diff_DPK[ODM_RF_PATH_B] / c.Threshold_DPK));
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++		} else if ((diff_DPK[ODM_RF_PATH_B] <= -1 * c.Threshold_DPK)) {
++			s4Byte value = 0x20 + (diff_DPK[ODM_RF_PATH_B] / c.Threshold_DPK);	
++
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xec4, BIT14|BIT13|BIT12|BIT11|BIT10, value);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++		} else {
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xec4, BIT14|BIT13|BIT12|BIT11|BIT10, 0);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);	
++		}
++	}
++
++#endif		
++			
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("<===ODM_TXPowerTrackingCallback_ThermalMeter\n"));
++	
++	pRFCalibrateInfo->TXPowercount = 0;
++}
++
++
++
++//3============================================================
++//3 IQ Calibration
++//3============================================================
++
++VOID
++ODM_ResetIQKResult(
++	IN		PVOID					pDM_VOID
++)
++{
++	return;
++}
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++u1Byte ODM_GetRightChnlPlaceforIQK(u1Byte chnl)
++{
++	u1Byte	channel_all[ODM_TARGET_CHNL_NUM_2G_5G] = 
++	{1,2,3,4,5,6,7,8,9,10,11,12,13,14,36,38,40,42,44,46,48,50,52,54,56,58,60,62,64,100,102,104,106,108,110,112,114,116,118,120,122,124,126,128,130,132,134,136,138,140,149,151,153,155,157,159,161,163,165};
++	u1Byte	place = chnl;
++
++	
++	if(chnl > 14)
++	{
++		for(place = 14; place<sizeof(channel_all); place++)
++		{
++			if(channel_all[place] == chnl)
++			{
++				return place-13;
++			}
++		}
++	}	
++	return 0;
++
++}
++#endif
++
++VOID
++odm_IQCalibrate(
++		IN	PDM_ODM_T	pDM_Odm 
++		)
++{
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	if (*pDM_Odm->pIsFcsModeEnable)
++		return;
++#endif
++	
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++	if (IS_HARDWARE_TYPE_8812AU(Adapter))
++		return;
++#endif
++	
++	if (pDM_Odm->bLinked) {
++		if ((*pDM_Odm->pChannel != pDM_Odm->preChannel) && (!*pDM_Odm->pbScanInProcess)) {
++			pDM_Odm->preChannel = *pDM_Odm->pChannel;
++			pDM_Odm->LinkedInterval = 0;
++		}
++
++		if (pDM_Odm->LinkedInterval < 3)
++			pDM_Odm->LinkedInterval++;
++		
++		if (pDM_Odm->LinkedInterval == 2) {
++			if (IS_HARDWARE_TYPE_8814A(Adapter)) {
++				#if (RTL8814A_SUPPORT == 1)	
++				PHY_IQCalibrate_8814A(pDM_Odm, FALSE);
++				#endif
++			} 
++			
++			#if (RTL8822B_SUPPORT == 1)
++			else if (IS_HARDWARE_TYPE_8822B(Adapter))
++				PHY_IQCalibrate_8822B(pDM_Odm, FALSE);
++			#endif
++			
++			#if (RTL8821C_SUPPORT == 1)
++			else if (IS_HARDWARE_TYPE_8821C(Adapter))
++				PHY_IQCalibrate_8821C(pDM_Odm, FALSE);
++			#endif
++			
++			#if (RTL8821A_SUPPORT == 1)
++			else if (IS_HARDWARE_TYPE_8821(Adapter))
++				PHY_IQCalibrate_8821A(pDM_Odm, FALSE);
++			#endif
++		}
++	} else
++		pDM_Odm->LinkedInterval = 0;
++}
++
++void phydm_rf_init(IN	PVOID		pDM_VOID)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	odm_TXPowerTrackingInit(pDM_Odm);
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	ODM_ClearTxPowerTrackingState(pDM_Odm);	
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++#if (RTL8814A_SUPPORT == 1)		
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		PHY_IQCalibrate_8814A_Init(pDM_Odm);
++#endif	
++#endif
++
++}
++
++void phydm_rf_watchdog(IN	PVOID		pDM_VOID)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	ODM_TXPowerTrackingCheck(pDM_Odm);
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		odm_IQCalibrate(pDM_Odm);
++#endif
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/halphyrf_ce.h b/drivers/net/wireless/rtl8812au/hal/phydm/halphyrf_ce.h
+new file mode 100644
+index 0000000..2ed5764
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/halphyrf_ce.h
+@@ -0,0 +1,118 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++ #ifndef __HAL_PHY_RF_H__
++ #define __HAL_PHY_RF_H__
++
++#include "phydm_kfree.h"
++#if (RTL8814A_SUPPORT == 1)
++#include "rtl8814a/phydm_iqk_8814a.h"
++#endif
++
++#if (RTL8822B_SUPPORT == 1)
++#include "rtl8822b/phydm_iqk_8822b.h"
++#endif
++
++#if (RTL8821C_SUPPORT == 1)
++#include "rtl8821c/phydm_iqk_8821c.h"
++#endif
++
++#include "phydm_powertracking_ce.h"
++
++
++typedef enum _SPUR_CAL_METHOD {
++	PLL_RESET,
++	AFE_PHASE_SEL
++} SPUR_CAL_METHOD;
++
++typedef enum _PWRTRACK_CONTROL_METHOD {
++	BBSWING,
++	TXAGC,
++	MIX_MODE,
++	TSSI_MODE,
++	MIX_2G_TSSI_5G_MODE,
++	MIX_5G_TSSI_2G_MODE
++} PWRTRACK_METHOD;
++
++typedef VOID 	(*FuncSetPwr)(PVOID, PWRTRACK_METHOD, u1Byte, u1Byte);
++typedef VOID(*FuncIQK)(PVOID, u1Byte, u1Byte, u1Byte);
++typedef VOID 	(*FuncLCK)(PVOID);
++typedef VOID  	(*FuncSwing)(PVOID, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*);
++typedef VOID	(*FuncSwing8814only)(PVOID, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*);
++typedef VOID(*FuncSwingXtal)(PVOID, ps1Byte*, ps1Byte*);
++typedef VOID(*FuncSetXtal)(PVOID);
++
++typedef struct _TXPWRTRACK_CFG {
++	u1Byte 		SwingTableSize_CCK;	
++	u1Byte 		SwingTableSize_OFDM;
++	u1Byte		Threshold_IQK;
++	u1Byte		Threshold_DPK;
++	u1Byte 		AverageThermalNum;
++	u1Byte 		RfPathCount;
++	u4Byte 		ThermalRegAddr;	
++	FuncSetPwr 	ODM_TxPwrTrackSetPwr;
++	FuncIQK 	DoIQK;
++	FuncLCK		PHY_LCCalibrate;
++	FuncSwing	GetDeltaSwingTable;
++	FuncSwing8814only	GetDeltaSwingTable8814only;
++	FuncSwingXtal			GetDeltaSwingXtalTable;
++	FuncSetXtal			ODM_TxXtalTrackSetXtal;
++} TXPWRTRACK_CFG, *PTXPWRTRACK_CFG;
++
++VOID
++ConfigureTxpowerTrack(
++	IN		PVOID					pDM_VOID,
++	OUT	PTXPWRTRACK_CFG	pConfig
++	);
++
++
++VOID
++ODM_ClearTxPowerTrackingState(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN		PVOID					pDM_VOID
++#else
++	IN PADAPTER	Adapter
++#endif
++	);
++
++
++
++#define ODM_TARGET_CHNL_NUM_2G_5G	59
++
++
++VOID
++ODM_ResetIQKResult(
++	IN		PVOID					pDM_VOID
++);
++u1Byte 
++ODM_GetRightChnlPlaceforIQK(
++    IN u1Byte chnl
++);
++
++void phydm_rf_init(	IN		PVOID					pDM_VOID);
++void phydm_rf_watchdog(	IN		PVOID					pDM_VOID);
++								
++#endif	// #ifndef __HAL_PHY_RF_H__
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/halphyrf_win.c b/drivers/net/wireless/rtl8812au/hal/phydm/halphyrf_win.c
+new file mode 100644
+index 0000000..8f0d992
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/halphyrf_win.c
+@@ -0,0 +1,780 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#define 	CALCULATE_SWINGTALBE_OFFSET(_offset, _direction, _size, _deltaThermal) \
++					do {\
++						for(_offset = 0; _offset < _size; _offset++)\
++						{\
++							if(_deltaThermal < thermalThreshold[_direction][_offset])\
++							{\
++								if(_offset != 0)\
++									_offset--;\
++								break;\
++							}\
++						}			\
++						if(_offset >= _size)\
++							_offset = _size-1;\
++					} while(0)
++
++void ConfigureTxpowerTrack(
++	IN 	PDM_ODM_T		pDM_Odm,
++	OUT	PTXPWRTRACK_CFG	pConfig
++	)
++{
++#if RTL8192E_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8192E)
++		ConfigureTxpowerTrack_8192E(pConfig);
++#endif	
++#if RTL8821A_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8821)
++		ConfigureTxpowerTrack_8821A(pConfig);
++#endif
++#if RTL8812A_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8812)
++		ConfigureTxpowerTrack_8812A(pConfig);
++#endif
++#if RTL8188E_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8188E)
++		ConfigureTxpowerTrack_8188E(pConfig);
++#endif 
++
++#if RTL8188F_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8188F)
++		ConfigureTxpowerTrack_8188F(pConfig);
++#endif 
++
++#if RTL8723B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8723B)
++		ConfigureTxpowerTrack_8723B(pConfig);
++#endif
++
++#if RTL8814A_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8814A)
++		ConfigureTxpowerTrack_8814A(pConfig);
++#endif
++
++#if RTL8703B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8703B)
++		ConfigureTxpowerTrack_8703B(pConfig);
++#endif
++
++#if RTL8822B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8822B)
++		ConfigureTxpowerTrack_8822B(pConfig);
++#endif
++
++#if RTL8723D_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8723D)
++		ConfigureTxpowerTrack_8723D(pConfig);
++#endif
++}
++
++//======================================================================
++// <20121113, Kordan> This function should be called when TxAGC changed.
++// Otherwise the previous compensation is gone, because we record the 
++// delta of temperature between two TxPowerTracking watch dogs.
++//
++// NOTE: If Tx BB swing or Tx scaling is varified during run-time, still 
++//       need to call this function.
++//======================================================================
++VOID
++ODM_ClearTxPowerTrackingState(
++	IN PDM_ODM_T		pDM_Odm
++	)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(pDM_Odm->Adapter);
++	u1Byte 			p = 0;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	
++	pRFCalibrateInfo->BbSwingIdxCckBase = pRFCalibrateInfo->DefaultCckIndex;
++	pRFCalibrateInfo->BbSwingIdxCck = pRFCalibrateInfo->DefaultCckIndex;
++	pRFCalibrateInfo->CCK_index = 0;
++	
++	for (p = ODM_RF_PATH_A; p < MAX_RF_PATH; ++p)
++	{
++		pRFCalibrateInfo->BbSwingIdxOfdmBase[p] = pRFCalibrateInfo->DefaultOfdmIndex;
++		pRFCalibrateInfo->BbSwingIdxOfdm[p] = pRFCalibrateInfo->DefaultOfdmIndex;
++		pRFCalibrateInfo->OFDM_index[p] = pRFCalibrateInfo->DefaultOfdmIndex;
++
++		pRFCalibrateInfo->PowerIndexOffset[p] = 0;
++		pRFCalibrateInfo->DeltaPowerIndex[p] = 0;
++		pRFCalibrateInfo->DeltaPowerIndexLast[p] = 0;
++
++		pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] = 0;    /* Initial Mix mode power tracking*/
++		pRFCalibrateInfo->Remnant_OFDMSwingIdx[p] = 0;			  
++		pRFCalibrateInfo->KfreeOffset[p] = 0;
++	}
++	
++	pRFCalibrateInfo->Modify_TxAGC_Flag_PathA = FALSE;       /*Initial at Modify Tx Scaling Mode*/
++	pRFCalibrateInfo->Modify_TxAGC_Flag_PathB = FALSE;       /*Initial at Modify Tx Scaling Mode*/
++	pRFCalibrateInfo->Modify_TxAGC_Flag_PathC = FALSE;       /*Initial at Modify Tx Scaling Mode*/
++	pRFCalibrateInfo->Modify_TxAGC_Flag_PathD = FALSE;       /*Initial at Modify Tx Scaling Mode*/
++	pRFCalibrateInfo->Remnant_CCKSwingIdx = 0;
++	pRFCalibrateInfo->ThermalValue = pHalData->EEPROMThermalMeter;
++
++	pRFCalibrateInfo->Modify_TxAGC_Value_CCK=0;			//modify by Mingzhi.Guo
++	pRFCalibrateInfo->Modify_TxAGC_Value_OFDM=0;		//modify by Mingzhi.Guo
++
++}
++
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm
++#else
++	IN PADAPTER	Adapter
++#endif
++	)
++{
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#endif
++
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	u1Byte			ThermalValue = 0, delta, delta_LCK, delta_IQK, p = 0, i = 0;
++	s1Byte			diff_DPK[4] = {0};
++	u1Byte			ThermalValue_AVG_count = 0;
++	u4Byte			ThermalValue_AVG = 0, RegC80, RegCd0, RegCd4, Regab4;	
++
++	u1Byte			OFDM_min_index = 0;  // OFDM BB Swing should be less than +3.0dB, which is required by Arthur
++	u1Byte			Indexforchannel = 0; // GetRightChnlPlaceforIQK(pHalData->CurrentChannel)
++	u1Byte			PowerTrackingType = pHalData->RfPowerTrackingType;
++	u1Byte			XtalOffsetEanble = 0;
++
++	TXPWRTRACK_CFG 	c;
++
++	//4 1. The following TWO tables decide the final index of OFDM/CCK swing table.
++	pu1Byte			deltaSwingTableIdx_TUP_A = NULL;
++	pu1Byte			deltaSwingTableIdx_TDOWN_A = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_B = NULL;
++	pu1Byte			deltaSwingTableIdx_TDOWN_B = NULL;
++	/*for 8814 add by Yu Chen*/
++	pu1Byte			deltaSwingTableIdx_TUP_C = NULL;
++	pu1Byte			deltaSwingTableIdx_TDOWN_C = NULL;
++	pu1Byte			deltaSwingTableIdx_TUP_D = NULL;
++	pu1Byte			deltaSwingTableIdx_TDOWN_D = NULL;
++	/*for Xtal Offset by James.Tung*/
++	ps1Byte			deltaSwingTableXtal_UP = NULL;
++	ps1Byte			deltaSwingTableXtal_DOWN = NULL;
++
++	//4 2. Initilization ( 7 steps in total )
++
++	ConfigureTxpowerTrack(pDM_Odm, &c);
++
++	(*c.GetDeltaSwingTable)(pDM_Odm, (pu1Byte *)&deltaSwingTableIdx_TUP_A, (pu1Byte *)&deltaSwingTableIdx_TDOWN_A,
++			(pu1Byte *)&deltaSwingTableIdx_TUP_B, (pu1Byte *)&deltaSwingTableIdx_TDOWN_B);
++
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)	/*for 8814 path C & D*/
++		(*c.GetDeltaSwingTable8814only)(pDM_Odm, (pu1Byte *)&deltaSwingTableIdx_TUP_C, (pu1Byte *)&deltaSwingTableIdx_TDOWN_C,
++			(pu1Byte *)&deltaSwingTableIdx_TUP_D, (pu1Byte *)&deltaSwingTableIdx_TDOWN_D);
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8703B | ODM_RTL8723D))	/*for Xtal Offset*/
++		(*c.GetDeltaSwingXtalTable)(pDM_Odm, (ps1Byte *)&deltaSwingTableXtal_UP, (ps1Byte *)&deltaSwingTableXtal_DOWN);
++	
++
++	pRFCalibrateInfo->TXPowerTrackingCallbackCnt++;	/*cosa add for debug*/
++	pRFCalibrateInfo->bTXPowerTrackingInit = TRUE;
++
++	/*pRFCalibrateInfo->TxPowerTrackControl = pHalData->TxPowerTrackControl;
++	<Kordan> We should keep updating the control variable according to HalData. 
++	<Kordan> RFCalibrateInfo.RegA24 will be initialized when ODM HW configuring, but MP configures with para files. */
++	#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	#if (MP_DRIVER == 1)
++		pRFCalibrateInfo->RegA24 = 0x090e1317;
++	#endif
++	#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++		if (pDM_Odm->mp_mode == TRUE)
++			pRFCalibrateInfo->RegA24 = 0x090e1317;
++	#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++		("===>ODM_TXPowerTrackingCallback_ThermalMeter\n pRFCalibrateInfo->BbSwingIdxCckBase: %d, pRFCalibrateInfo->BbSwingIdxOfdmBase[A]: %d, pRFCalibrateInfo->DefaultOfdmIndex: %d\n", 
++		pRFCalibrateInfo->BbSwingIdxCckBase, pRFCalibrateInfo->BbSwingIdxOfdmBase[ODM_RF_PATH_A], pRFCalibrateInfo->DefaultOfdmIndex));
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++		("pRFCalibrateInfo->TxPowerTrackControl=%d,  pHalData->EEPROMThermalMeter %d\n", pRFCalibrateInfo->TxPowerTrackControl,  pHalData->EEPROMThermalMeter));
++	ThermalValue = (u1Byte)ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, c.ThermalRegAddr, 0xfc00);	//0x42: RF Reg[15:10] 88E
++
++	/*add log by zhao he, check c80/c94/c14/ca0 value*/
++	if (pDM_Odm->SupportICType == ODM_RTL8723D) {	
++		RegC80 = ODM_GetBBReg(pDM_Odm, 0xc80, bMaskDWord);
++		RegCd0 = ODM_GetBBReg(pDM_Odm, 0xcd0, bMaskDWord);
++		RegCd4 = ODM_GetBBReg(pDM_Odm, 0xcd4, bMaskDWord);
++		Regab4 = ODM_GetBBReg(pDM_Odm, 0xab4, 0x000007FF);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xc80 = 0x%x 0xcd0 = 0x%x 0xcd4 = 0x%x 0xab4 = 0x%x\n", RegC80, RegCd0, RegCd4, Regab4));
++	}
++
++	if (!pRFCalibrateInfo->TxPowerTrackControl)
++		return;
++
++
++	/*4 3. Initialize ThermalValues of RFCalibrateInfo*/
++
++	if (pRFCalibrateInfo->bReloadtxpowerindex)
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("reload ofdm index for band switch\n"));				
++
++	/*4 4. Calculate average thermal meter*/
++	
++	pRFCalibrateInfo->ThermalValue_AVG[pRFCalibrateInfo->ThermalValue_AVG_index] = ThermalValue;
++	pRFCalibrateInfo->ThermalValue_AVG_index++;
++	if (pRFCalibrateInfo->ThermalValue_AVG_index == c.AverageThermalNum)   /*Average times =  c.AverageThermalNum*/
++		pRFCalibrateInfo->ThermalValue_AVG_index = 0;
++
++	for(i = 0; i < c.AverageThermalNum; i++)
++	{
++		if (pRFCalibrateInfo->ThermalValue_AVG[i]) {
++			ThermalValue_AVG += pRFCalibrateInfo->ThermalValue_AVG[i];
++			ThermalValue_AVG_count++;
++		}
++	}
++
++	if(ThermalValue_AVG_count)               //Calculate Average ThermalValue after average enough times
++	{
++		ThermalValue = (u1Byte)(ThermalValue_AVG / ThermalValue_AVG_count);
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("AVG Thermal Meter = 0x%X, EFUSE Thermal Base = 0x%X\n", ThermalValue, pHalData->EEPROMThermalMeter));					
++	}
++			
++	//4 5. Calculate delta, delta_LCK, delta_IQK.
++
++	//"delta" here is used to determine whether thermal value changes or not.
++	delta	= (ThermalValue > pRFCalibrateInfo->ThermalValue)?(ThermalValue - pRFCalibrateInfo->ThermalValue):(pRFCalibrateInfo->ThermalValue - ThermalValue);
++	delta_LCK = (ThermalValue > pRFCalibrateInfo->ThermalValue_LCK)?(ThermalValue - pRFCalibrateInfo->ThermalValue_LCK):(pRFCalibrateInfo->ThermalValue_LCK - ThermalValue);
++	delta_IQK = (ThermalValue > pRFCalibrateInfo->ThermalValue_IQK)?(ThermalValue - pRFCalibrateInfo->ThermalValue_IQK):(pRFCalibrateInfo->ThermalValue_IQK - ThermalValue);
++
++	if (pRFCalibrateInfo->ThermalValue_IQK == 0xff) {	/*no PG, use thermal value for IQK*/
++		pRFCalibrateInfo->ThermalValue_IQK = ThermalValue;
++		delta_IQK = (ThermalValue > pRFCalibrateInfo->ThermalValue_IQK)?(ThermalValue - pRFCalibrateInfo->ThermalValue_IQK):(pRFCalibrateInfo->ThermalValue_IQK - ThermalValue);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("no PG, use ThermalValue for IQK\n"));
++	}
++	
++	for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++		diff_DPK[p] = (s1Byte)ThermalValue - (s1Byte)pRFCalibrateInfo->DpkThermal[p];
++
++	/*4 6. If necessary, do LCK.*/
++
++	if (!(pDM_Odm->SupportICType & ODM_RTL8821)) {	/*no PG , do LCK at initial status*/
++		if (pRFCalibrateInfo->ThermalValue_LCK == 0xff) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("no PG, do LCK\n"));
++			pRFCalibrateInfo->ThermalValue_LCK = ThermalValue;
++
++			/*Use RTLCK, so close power tracking driver LCK*/
++			if (!(pDM_Odm->SupportICType & ODM_RTL8814A)) {
++				if (c.PHY_LCCalibrate)
++					(*c.PHY_LCCalibrate)(pDM_Odm);
++			}
++			
++			delta_LCK = (ThermalValue > pRFCalibrateInfo->ThermalValue_LCK)?(ThermalValue - pRFCalibrateInfo->ThermalValue_LCK):(pRFCalibrateInfo->ThermalValue_LCK - ThermalValue);
++		}
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("(delta, delta_LCK, delta_IQK) = (%d, %d, %d)\n", delta, delta_LCK, delta_IQK));
++
++		 /* Delta temperature is equal to or larger than 20 centigrade.*/
++		if (delta_LCK >= c.Threshold_IQK) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("delta_LCK(%d) >= Threshold_IQK(%d)\n", delta_LCK, c.Threshold_IQK));
++			pRFCalibrateInfo->ThermalValue_LCK = ThermalValue;
++
++			/*Use RTLCK, so close power tracking driver LCK*/
++			if (!(pDM_Odm->SupportICType & ODM_RTL8814A)) {
++				if (c.PHY_LCCalibrate)
++					(*c.PHY_LCCalibrate)(pDM_Odm);
++			}
++		}
++	}
++
++	/*3 7. If necessary, move the index of swing table to adjust Tx power.*/	
++	
++	if (delta > 0 && pRFCalibrateInfo->TxPowerTrackControl)
++	{
++		//"delta" here is used to record the absolute value of differrence.
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))			
++	    delta = ThermalValue > pHalData->EEPROMThermalMeter?(ThermalValue - pHalData->EEPROMThermalMeter):(pHalData->EEPROMThermalMeter - ThermalValue);		
++#else
++	    delta = (ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther)?(ThermalValue - pDM_Odm->priv->pmib->dot11RFEntry.ther):(pDM_Odm->priv->pmib->dot11RFEntry.ther - ThermalValue);		
++#endif
++		if (delta >= TXPWR_TRACK_TABLE_SIZE)
++			delta = TXPWR_TRACK_TABLE_SIZE - 1;
++
++		/*4 7.1 The Final Power Index = BaseIndex + PowerIndexOffset*/
++		
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))				
++		if(ThermalValue > pHalData->EEPROMThermalMeter) {
++#else
++		if(ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther) {
++#endif
++
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++				pRFCalibrateInfo->DeltaPowerIndexLast[p] = pRFCalibrateInfo->DeltaPowerIndex[p];	/*recording poer index offset*/
++				switch (p) {
++				case ODM_RF_PATH_B:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TUP_B[%d] = %d\n", delta, deltaSwingTableIdx_TUP_B[delta])); 
++
++					pRFCalibrateInfo->DeltaPowerIndex[p] = deltaSwingTableIdx_TUP_B[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  deltaSwingTableIdx_TUP_B[delta];       /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is higher and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_B] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++				case ODM_RF_PATH_C:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TUP_C[%d] = %d\n", delta, deltaSwingTableIdx_TUP_C[delta]));
++
++					pRFCalibrateInfo->DeltaPowerIndex[p] = deltaSwingTableIdx_TUP_C[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  deltaSwingTableIdx_TUP_C[delta];       /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_C] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++				case ODM_RF_PATH_D:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TUP_D[%d] = %d\n", delta, deltaSwingTableIdx_TUP_D[delta]));
++
++						pRFCalibrateInfo->DeltaPowerIndex[p] = deltaSwingTableIdx_TUP_D[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  deltaSwingTableIdx_TUP_D[delta];       /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is higher and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_D] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++				default:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++						("deltaSwingTableIdx_TUP_A[%d] = %d\n", delta, deltaSwingTableIdx_TUP_A[delta]));
++
++					pRFCalibrateInfo->DeltaPowerIndex[p] = deltaSwingTableIdx_TUP_A[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  deltaSwingTableIdx_TUP_A[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++							("******Temp is higher and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_A] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++				}
++			}
++
++			if (pDM_Odm->SupportICType & (ODM_RTL8703B | ODM_RTL8723D)) {
++				/*Save XtalOffset from Xtal table*/
++				pRFCalibrateInfo->XtalOffsetLast = pRFCalibrateInfo->XtalOffset;	/*recording last Xtal offset*/
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++								("[Xtal] deltaSwingTableXtal_UP[%d] = %d\n", delta, deltaSwingTableXtal_UP[delta]));
++				pRFCalibrateInfo->XtalOffset = deltaSwingTableXtal_UP[delta];
++
++				if (pRFCalibrateInfo->XtalOffsetLast == pRFCalibrateInfo->XtalOffset)
++					XtalOffsetEanble = 0;
++				else
++					XtalOffsetEanble = 1;
++			}
++		
++		} else {
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++				pRFCalibrateInfo->DeltaPowerIndexLast[p] = pRFCalibrateInfo->DeltaPowerIndex[p];	/*recording poer index offset*/
++
++				switch (p) {
++				case ODM_RF_PATH_B:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TDOWN_B[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_B[delta]));  
++					pRFCalibrateInfo->DeltaPowerIndex[p] = -1 * deltaSwingTableIdx_TDOWN_B[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  -1 * deltaSwingTableIdx_TDOWN_B[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is lower and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_B] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p])); 
++					break;
++
++				case ODM_RF_PATH_C:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TDOWN_C[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_C[delta]));  
++					pRFCalibrateInfo->DeltaPowerIndex[p] = -1 * deltaSwingTableIdx_TDOWN_C[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  -1 * deltaSwingTableIdx_TDOWN_C[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is lower and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_C] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));   
++					break;
++
++				case ODM_RF_PATH_D:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TDOWN_D[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_D[delta]));  
++					pRFCalibrateInfo->DeltaPowerIndex[p] = -1 * deltaSwingTableIdx_TDOWN_D[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  -1 * deltaSwingTableIdx_TDOWN_D[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is lower and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_D] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++
++				default:
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("deltaSwingTableIdx_TDOWN_A[%d] = %d\n", delta, deltaSwingTableIdx_TDOWN_A[delta]));  
++					pRFCalibrateInfo->DeltaPowerIndex[p] = -1 * deltaSwingTableIdx_TDOWN_A[delta];
++					pRFCalibrateInfo->Absolute_OFDMSwingIdx[p] =  -1 * deltaSwingTableIdx_TDOWN_A[delta];        /*Record delta swing for mix mode power tracking*/
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++						("******Temp is lower and pRFCalibrateInfo->Absolute_OFDMSwingIdx[ODM_RF_PATH_A] = %d\n", pRFCalibrateInfo->Absolute_OFDMSwingIdx[p]));  
++					break;
++				}	
++			}
++
++			if (pDM_Odm->SupportICType & (ODM_RTL8703B | ODM_RTL8723D)) {
++				/*Save XtalOffset from Xtal table*/
++				pRFCalibrateInfo->XtalOffsetLast = pRFCalibrateInfo->XtalOffset;	/*recording last Xtal offset*/
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, 
++								("[Xtal] deltaSwingTableXtal_DOWN[%d] = %d\n", delta, deltaSwingTableXtal_DOWN[delta]));
++				pRFCalibrateInfo->XtalOffset = deltaSwingTableXtal_DOWN[delta];
++
++				if (pRFCalibrateInfo->XtalOffsetLast == pRFCalibrateInfo->XtalOffset)
++					XtalOffsetEanble = 0;
++				else
++					XtalOffsetEanble = 1;
++			}
++
++		}
++		
++		for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("\n\n=========================== [Path-%d] Calculating PowerIndexOffset===========================\n", p));  
++
++			if (pRFCalibrateInfo->DeltaPowerIndex[p] == pRFCalibrateInfo->DeltaPowerIndexLast[p])         /*If Thermal value changes but lookup table value still the same*/
++				pRFCalibrateInfo->PowerIndexOffset[p] = 0;
++			else
++				pRFCalibrateInfo->PowerIndexOffset[p] = pRFCalibrateInfo->DeltaPowerIndex[p] - pRFCalibrateInfo->DeltaPowerIndexLast[p];      /*Power Index Diff between 2 times Power Tracking*/
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("[Path-%d] PowerIndexOffset(%d) = DeltaPowerIndex(%d) - DeltaPowerIndexLast(%d)\n", p, pRFCalibrateInfo->PowerIndexOffset[p], pRFCalibrateInfo->DeltaPowerIndex[p], pRFCalibrateInfo->DeltaPowerIndexLast[p]));
++		
++			pRFCalibrateInfo->OFDM_index[p] = pRFCalibrateInfo->BbSwingIdxOfdmBase[p] + pRFCalibrateInfo->PowerIndexOffset[p];
++			pRFCalibrateInfo->CCK_index = pRFCalibrateInfo->BbSwingIdxCckBase + pRFCalibrateInfo->PowerIndexOffset[p];
++
++			pRFCalibrateInfo->BbSwingIdxCck = pRFCalibrateInfo->CCK_index;	
++			pRFCalibrateInfo->BbSwingIdxOfdm[p] = pRFCalibrateInfo->OFDM_index[p];	
++
++			/*************Print BB Swing Base and Index Offset*************/
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("The 'CCK' final index(%d) = BaseIndex(%d) + PowerIndexOffset(%d)\n", pRFCalibrateInfo->BbSwingIdxCck, pRFCalibrateInfo->BbSwingIdxCckBase, pRFCalibrateInfo->PowerIndexOffset[p]));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("The 'OFDM' final index(%d) = BaseIndex[%d](%d) + PowerIndexOffset(%d)\n", pRFCalibrateInfo->BbSwingIdxOfdm[p], p, pRFCalibrateInfo->BbSwingIdxOfdmBase[p], pRFCalibrateInfo->PowerIndexOffset[p]));
++
++			/*4 7.1 Handle boundary conditions of index.*/
++		
++			if (pRFCalibrateInfo->OFDM_index[p] > c.SwingTableSize_OFDM-1)
++				pRFCalibrateInfo->OFDM_index[p] = c.SwingTableSize_OFDM-1;
++			else if (pRFCalibrateInfo->OFDM_index[p] <= OFDM_min_index)
++				pRFCalibrateInfo->OFDM_index[p] = OFDM_min_index;
++		}
++		
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("\n\n========================================================================================================\n"));  
++
++		if (pRFCalibrateInfo->CCK_index > c.SwingTableSize_CCK-1)
++			pRFCalibrateInfo->CCK_index = c.SwingTableSize_CCK-1;
++		else if (pRFCalibrateInfo->CCK_index <= 0)
++			pRFCalibrateInfo->CCK_index = 0;
++	} else {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("The thermal meter is unchanged or TxPowerTracking OFF(%d): ThermalValue: %d , pRFCalibrateInfo->ThermalValue: %d\n", 
++			pRFCalibrateInfo->TxPowerTrackControl, ThermalValue, pRFCalibrateInfo->ThermalValue));
++
++		for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++			pRFCalibrateInfo->PowerIndexOffset[p] = 0;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++		("TxPowerTracking: [CCK] Swing Current Index: %d, Swing Base Index: %d\n", 
++			pRFCalibrateInfo->CCK_index, pRFCalibrateInfo->BbSwingIdxCckBase));       /*Print Swing base & current*/
++
++	for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("TxPowerTracking: [OFDM] Swing Current Index: %d, Swing Base Index[%d]: %d\n",
++			pRFCalibrateInfo->OFDM_index[p], p, pRFCalibrateInfo->BbSwingIdxOfdmBase[p]));
++	}
++
++	if ((pDM_Odm->SupportICType & ODM_RTL8814A)) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("PowerTrackingType=%d\n", PowerTrackingType));
++		
++		if (PowerTrackingType == 0) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX_MODE**********\n"));
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, 0);
++		} else if (PowerTrackingType == 1) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX(2G) TSSI(5G) MODE**********\n"));
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_2G_TSSI_5G_MODE, p, 0);
++		} else if (PowerTrackingType == 2) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX(5G) TSSI(2G)MODE**********\n"));
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_5G_TSSI_2G_MODE, p, 0);
++		} else if (PowerTrackingType == 3) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking TSSI MODE**********\n"));
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++				(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, TSSI_MODE, p, 0);
++		}
++		pRFCalibrateInfo->ThermalValue = ThermalValue;         /*Record last Power Tracking Thermal Value*/
++	
++	} else if ((pRFCalibrateInfo->PowerIndexOffset[ODM_RF_PATH_A] != 0 ||
++		pRFCalibrateInfo->PowerIndexOffset[ODM_RF_PATH_B] != 0 ||
++		pRFCalibrateInfo->PowerIndexOffset[ODM_RF_PATH_C] != 0 ||
++		pRFCalibrateInfo->PowerIndexOffset[ODM_RF_PATH_D] != 0) && 
++		pRFCalibrateInfo->TxPowerTrackControl && (pHalData->EEPROMThermalMeter != 0xff)) {
++		//4 7.2 Configure the Swing Table to adjust Tx Power.
++		
++		pRFCalibrateInfo->bTxPowerChanged = TRUE;	/*Always TRUE after Tx Power is adjusted by power tracking.*/			
++		//
++		// 2012/04/23 MH According to Luke's suggestion, we can not write BB digital
++		// to increase TX power. Otherwise, EVM will be bad.
++		//
++		// 2012/04/25 MH Add for tx power tracking to set tx power in tx agc for 88E.
++		if (ThermalValue > pRFCalibrateInfo->ThermalValue) {
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++					("Temperature Increasing(%d): delta_pi: %d , delta_t: %d, Now_t: %d, EFUSE_t: %d, Last_t: %d\n", 
++					p, pRFCalibrateInfo->PowerIndexOffset[p], delta, ThermalValue, pHalData->EEPROMThermalMeter, pRFCalibrateInfo->ThermalValue));	
++			}
++		} else if (ThermalValue < pRFCalibrateInfo->ThermalValue) {	/*Low temperature*/
++			for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++					("Temperature Decreasing(%d): delta_pi: %d , delta_t: %d, Now_t: %d, EFUSE_t: %d, Last_t: %d\n",
++					p, pRFCalibrateInfo->PowerIndexOffset[p], delta, ThermalValue, pHalData->EEPROMThermalMeter, pRFCalibrateInfo->ThermalValue));				
++			}
++		}
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		if (ThermalValue > pHalData->EEPROMThermalMeter)
++#else
++		if (ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther)
++#endif
++		{
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("Temperature(%d) higher than PG value(%d)\n", ThermalValue, pHalData->EEPROMThermalMeter));			
++
++			if (pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType == ODM_RTL8821 ||
++				pDM_Odm->SupportICType == ODM_RTL8812 || pDM_Odm->SupportICType == ODM_RTL8723B || pDM_Odm->SupportICType == ODM_RTL8814A ||
++				pDM_Odm->SupportICType == ODM_RTL8703B || pDM_Odm->SupportICType == ODM_RTL8188F || pDM_Odm->SupportICType == ODM_RTL8822B ||
++				pDM_Odm->SupportICType == ODM_RTL8723D) {
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX_MODE**********\n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, 0);
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking BBSWING_MODE**********\n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, p, Indexforchannel);
++			}
++		}
++		else
++		{
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++				("Temperature(%d) lower than PG value(%d)\n", ThermalValue, pHalData->EEPROMThermalMeter));
++
++			if (pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType == ODM_RTL8821 ||
++				pDM_Odm->SupportICType == ODM_RTL8812 || pDM_Odm->SupportICType == ODM_RTL8723B || pDM_Odm->SupportICType == ODM_RTL8814A ||
++				pDM_Odm->SupportICType == ODM_RTL8703B || pDM_Odm->SupportICType == ODM_RTL8188F || pDM_Odm->SupportICType == ODM_RTL8822B ||
++				pDM_Odm->SupportICType == ODM_RTL8723D) {
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking MIX_MODE**********\n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, MIX_MODE, p, Indexforchannel);
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter POWER Tracking BBSWING_MODE**********\n"));
++				for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++					(*c.ODM_TxPwrTrackSetPwr)(pDM_Odm, BBSWING, p, Indexforchannel);
++			}
++			
++		}
++
++		pRFCalibrateInfo->BbSwingIdxCckBase = pRFCalibrateInfo->BbSwingIdxCck;    /*Record last time Power Tracking result as base.*/
++		for (p = ODM_RF_PATH_A; p < c.RfPathCount; p++)
++			pRFCalibrateInfo->BbSwingIdxOfdmBase[p] = pRFCalibrateInfo->BbSwingIdxOfdm[p];
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++			("pRFCalibrateInfo->ThermalValue = %d ThermalValue= %d\n", pRFCalibrateInfo->ThermalValue, ThermalValue));
++		
++		pRFCalibrateInfo->ThermalValue = ThermalValue;         /*Record last Power Tracking Thermal Value*/
++
++	}
++
++
++	if (pDM_Odm->SupportICType == ODM_RTL8703B || pDM_Odm->SupportICType == ODM_RTL8723D) {
++
++		if (XtalOffsetEanble != 0 && pRFCalibrateInfo->TxPowerTrackControl && (pHalData->EEPROMThermalMeter != 0xff)) {
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********Enter Xtal Tracking**********\n"));
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			if (ThermalValue > pHalData->EEPROMThermalMeter) {
++#else
++			if (ThermalValue > pDM_Odm->priv->pmib->dot11RFEntry.ther) {
++#endif
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++					("Temperature(%d) higher than PG value(%d)\n", ThermalValue, pHalData->EEPROMThermalMeter));			
++				(*c.ODM_TxXtalTrackSetXtal)(pDM_Odm);
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,
++					("Temperature(%d) lower than PG value(%d)\n", ThermalValue, pHalData->EEPROMThermalMeter));			
++				(*c.ODM_TxXtalTrackSetXtal)(pDM_Odm);
++			}
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("**********End Xtal Tracking**********\n"));
++	}
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++
++	if (!IS_HARDWARE_TYPE_8723B(Adapter)) {
++		/*Delta temperature is equal to or larger than 20 centigrade (When threshold is 8).*/
++		if (delta_IQK >= c.Threshold_IQK) {
++			pRFCalibrateInfo->ThermalValue_IQK = ThermalValue;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("delta_IQK(%d) >= Threshold_IQK(%d)\n", delta_IQK, c.Threshold_IQK));
++			if (!pRFCalibrateInfo->bIQKInProgress) 
++				(*c.DoIQK)(pDM_Odm, delta_IQK, ThermalValue, 8);
++		}
++	}
++	if (pRFCalibrateInfo->DpkThermal[ODM_RF_PATH_A] != 0) {
++		if (diff_DPK[ODM_RF_PATH_A] >= c.Threshold_DPK) { 
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xcc4, BIT14|BIT13|BIT12|BIT11|BIT10, (diff_DPK[ODM_RF_PATH_A] / c.Threshold_DPK));
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++		} else if ((diff_DPK[ODM_RF_PATH_A] <= -1 * c.Threshold_DPK)) {
++			s4Byte value = 0x20 + (diff_DPK[ODM_RF_PATH_A] / c.Threshold_DPK);	
++
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xcc4, BIT14|BIT13|BIT12|BIT11|BIT10, value);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++		} else {
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xcc4, BIT14|BIT13|BIT12|BIT11|BIT10, 0);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);	
++		}
++	}
++	if (pRFCalibrateInfo->DpkThermal[ODM_RF_PATH_B] != 0) {
++		if (diff_DPK[ODM_RF_PATH_B] >= c.Threshold_DPK) { 
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xec4, BIT14|BIT13|BIT12|BIT11|BIT10, (diff_DPK[ODM_RF_PATH_B] / c.Threshold_DPK));
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++		} else if ((diff_DPK[ODM_RF_PATH_B] <= -1 * c.Threshold_DPK)) {
++			s4Byte value = 0x20 + (diff_DPK[ODM_RF_PATH_B] / c.Threshold_DPK);	
++
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xec4, BIT14|BIT13|BIT12|BIT11|BIT10, value);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++		} else {
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xec4, BIT14|BIT13|BIT12|BIT11|BIT10, 0);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);	
++		}
++	}
++
++#endif		
++			
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("<===ODM_TXPowerTrackingCallback_ThermalMeter\n"));
++	
++	pRFCalibrateInfo->TXPowercount = 0;
++}
++
++
++
++//3============================================================
++//3 IQ Calibration
++//3============================================================
++
++VOID
++ODM_ResetIQKResult(
++	IN PDM_ODM_T	pDM_Odm 
++)
++{
++	return;
++}
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++u1Byte ODM_GetRightChnlPlaceforIQK(u1Byte chnl)
++{
++	u1Byte	channel_all[ODM_TARGET_CHNL_NUM_2G_5G] = 
++	{1,2,3,4,5,6,7,8,9,10,11,12,13,14,36,38,40,42,44,46,48,50,52,54,56,58,60,62,64,100,102,104,106,108,110,112,114,116,118,120,122,124,126,128,130,132,134,136,138,140,149,151,153,155,157,159,161,163,165};
++	u1Byte	place = chnl;
++
++	
++	if(chnl > 14)
++	{
++		for(place = 14; place<sizeof(channel_all); place++)
++		{
++			if(channel_all[place] == chnl)
++			{
++				return place-13;
++			}
++		}
++	}	
++	return 0;
++
++}
++#endif
++
++VOID
++odm_IQCalibrate(
++		IN	PDM_ODM_T	pDM_Odm 
++		)
++{
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	if (*pDM_Odm->pIsFcsModeEnable)
++		return;
++#endif
++
++	if (pDM_Odm->bLinked) {
++
++		if ((*pDM_Odm->pChannel != pDM_Odm->preChannel) && (!*pDM_Odm->pbScanInProcess)) {
++			pDM_Odm->preChannel = *pDM_Odm->pChannel;
++			pDM_Odm->LinkedInterval = 0;
++		}
++
++		if (pDM_Odm->LinkedInterval < 3)
++			pDM_Odm->LinkedInterval++;
++			
++		if (pDM_Odm->LinkedInterval == 2) {
++			PHY_IQCalibrate(Adapter, FALSE);
++		}
++	} else
++		pDM_Odm->LinkedInterval = 0;
++		
++}
++
++void phydm_rf_init(IN		PDM_ODM_T		pDM_Odm)
++{
++
++	odm_TXPowerTrackingInit(pDM_Odm);
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	ODM_ClearTxPowerTrackingState(pDM_Odm);	
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++#if (RTL8814A_SUPPORT == 1)		
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		PHY_IQCalibrate_8814A_Init(pDM_Odm);
++#endif	
++#endif
++
++}
++
++void phydm_rf_watchdog(IN		PDM_ODM_T		pDM_Odm)
++{
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	ODM_TXPowerTrackingCheck(pDM_Odm);
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		odm_IQCalibrate(pDM_Odm);
++#endif
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/halphyrf_win.h b/drivers/net/wireless/rtl8812au/hal/phydm/halphyrf_win.h
+new file mode 100644
+index 0000000..bf14592
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/halphyrf_win.h
+@@ -0,0 +1,120 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++ #ifndef __HAL_PHY_RF_H__
++ #define __HAL_PHY_RF_H__
++
++#include "phydm_kfree.h"
++#if (RTL8814A_SUPPORT == 1)
++#include "rtl8814a/phydm_iqk_8814a.h"
++#endif
++
++#if (RTL8822B_SUPPORT == 1)
++#include "rtl8822b/phydm_iqk_8822b.h"
++#include "../mac/Halmac_type.h"
++#endif
++#include "phydm_powertracking_win.h"
++
++#if (RTL8821C_SUPPORT == 1)
++#include "rtl8821c/phydm_iqk_8821c.h"
++#endif
++
++typedef enum _SPUR_CAL_METHOD {
++	PLL_RESET,
++	AFE_PHASE_SEL
++} SPUR_CAL_METHOD;
++
++typedef enum _PWRTRACK_CONTROL_METHOD {
++	BBSWING,
++	TXAGC,
++	MIX_MODE,
++	TSSI_MODE,
++	MIX_2G_TSSI_5G_MODE,
++	MIX_5G_TSSI_2G_MODE
++} PWRTRACK_METHOD;
++
++typedef VOID(*FuncSetPwr)(PVOID, PWRTRACK_METHOD, u1Byte, u1Byte);
++typedef VOID(*FuncIQK)(PVOID, u1Byte, u1Byte, u1Byte);
++typedef VOID(*FuncLCK)(PVOID);
++typedef VOID(*FuncSwing)(PVOID, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*);
++typedef VOID(*FuncSwing8814only)(PVOID, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*);
++typedef VOID (*FuncSwingXtal)(PVOID, ps1Byte*, ps1Byte*);
++typedef VOID (*FuncSetXtal)(PVOID);
++typedef VOID(*FuncAllSwing)(PVOID, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*, pu1Byte*);
++
++typedef struct _TXPWRTRACK_CFG {
++	u1Byte 		SwingTableSize_CCK;	
++	u1Byte 		SwingTableSize_OFDM;
++	u1Byte		Threshold_IQK;
++	u1Byte		Threshold_DPK;
++	u1Byte 		AverageThermalNum;
++	u1Byte 		RfPathCount;
++	u4Byte 		ThermalRegAddr;	
++	FuncSetPwr 	ODM_TxPwrTrackSetPwr;
++	FuncIQK 	DoIQK;
++	FuncLCK		PHY_LCCalibrate;
++	FuncSwing	GetDeltaSwingTable;
++	FuncSwing8814only	GetDeltaSwingTable8814only;
++	FuncSwingXtal			GetDeltaSwingXtalTable;
++	FuncSetXtal			ODM_TxXtalTrackSetXtal;
++	FuncAllSwing	GetDeltaAllSwingTable;
++} TXPWRTRACK_CFG, *PTXPWRTRACK_CFG;
++
++VOID
++ConfigureTxpowerTrack(
++	IN 	PDM_ODM_T		pDM_Odm,
++	OUT	PTXPWRTRACK_CFG	pConfig
++	);
++
++
++VOID
++ODM_ClearTxPowerTrackingState(
++	IN PDM_ODM_T		pDM_Odm
++	);
++
++VOID
++ODM_TXPowerTrackingCallback_ThermalMeter(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm
++#else
++	IN PADAPTER	Adapter
++#endif
++	);
++
++
++
++#define ODM_TARGET_CHNL_NUM_2G_5G	59
++
++
++VOID
++ODM_ResetIQKResult(
++	IN PDM_ODM_T	pDM_Odm 
++);
++u1Byte 
++ODM_GetRightChnlPlaceforIQK(
++    IN u1Byte chnl
++);
++
++VOID odm_IQCalibrate(IN	PDM_ODM_T	pDM_Odm);
++VOID phydm_rf_init(	IN		PDM_ODM_T		pDM_Odm);
++VOID phydm_rf_watchdog(	IN		PDM_ODM_T		pDM_Odm);
++								
++#endif	// #ifndef __HAL_PHY_RF_H__
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/mp_precomp.h b/drivers/net/wireless/rtl8812au/hal/phydm/mp_precomp.h
+new file mode 100644
+index 0000000..2ae8110
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/mp_precomp.h
+@@ -0,0 +1,20 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm.c
+new file mode 100644
+index 0000000..697cd3e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm.c
+@@ -0,0 +1,2998 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++const u2Byte dB_Invert_Table[12][8] = {
++	{	1,		1,		1,		2,		2,		2,		2,		3},
++	{	3,		3,		4,		4,		4,		5,		6,		6},
++	{	7,		8,		9,		10,		11,		13,		14,		16},
++	{	18,		20,		22,		25,		28,		32,		35,		40},
++	{	45,		50,		56,		63,		71,		79,		89,		100},
++	{	112,		126,		141,		158,		178,		200,		224,		251},
++	{	282,		316,		355,		398,		447,		501,		562,		631},
++	{	708,		794,		891,		1000,	1122,	1259,	1413,	1585},
++	{	1778,	1995,	2239,	2512,	2818,	3162,	3548,	3981},
++	{	4467,	5012,	5623,	6310,	7079,	7943,	8913,	10000},
++	{	11220,	12589,	14125,	15849,	17783,	19953,	22387,	25119},
++	{	28184,	31623,	35481,	39811,	44668,	50119,	56234,	65535}
++};
++
++
++//============================================================
++// Local Function predefine.
++//============================================================
++
++/* START------------COMMON INFO RELATED--------------- */
++
++VOID
++odm_GlobalAdapterCheck(
++	IN		VOID
++	);
++
++//move to odm_PowerTacking.h by YuChen
++
++
++
++VOID
++odm_UpdatePowerTrainingState(
++	IN	PDM_ODM_T	pDM_Odm
++);
++
++//============================================================
++//3 Export Interface
++//============================================================
++
++/*Y = 10*log(X)*/
++s4Byte
++ODM_PWdB_Conversion(
++	IN  s4Byte X,
++	IN  u4Byte TotalBit,
++	IN  u4Byte DecimalBit
++	)
++{
++	s4Byte Y, integer = 0, decimal = 0;
++	u4Byte i;
++
++	if(X == 0)
++		X = 1; // log2(x), x can't be 0
++
++	for(i = (TotalBit-1); i > 0; i--)
++	{
++		if(X & BIT(i))
++		{
++			integer = i;
++			if(i > 0)
++				decimal = (X & BIT(i-1))?2:0; //decimal is 0.5dB*3=1.5dB~=2dB 
++			break;
++		}
++	}
++	
++	Y = 3*(integer-DecimalBit)+decimal; //10*log(x)=3*log2(x), 
++
++	return Y;
++}
++
++s4Byte
++ODM_SignConversion(
++    IN  s4Byte value,
++    IN  u4Byte TotalBit
++    )
++{
++	if(value&BIT(TotalBit-1))
++		value -= BIT(TotalBit);
++	return value;
++}
++
++void
++phydm_seq_sorting( 
++	IN		PVOID	pDM_VOID,
++	IN OUT	u4Byte	*p_value,
++	IN OUT	u4Byte	*rank_idx,
++	IN OUT	u4Byte	*p_idx_out,	
++	IN		u1Byte	seq_length
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte		i = 0 , j = 0;
++	u4Byte		tmp_a, tmp_b;
++	u4Byte		tmp_idx_a, tmp_idx_b;
++
++	for (i = 0; i < seq_length; i++) {
++		rank_idx[i] = i;
++		/**/
++	}
++
++	for (i = 0; i < (seq_length - 1); i++) {
++		
++		for (j = 0; j < (seq_length - 1 - i); j++) {
++		
++			tmp_a = p_value[j];
++			tmp_b = p_value[j+1];
++
++			tmp_idx_a = rank_idx[j];
++			tmp_idx_b = rank_idx[j+1];
++
++			if (tmp_a < tmp_b) {
++				p_value[j] = tmp_b;
++				p_value[j+1] = tmp_a;
++				
++				rank_idx[j] = tmp_idx_b;
++				rank_idx[j+1] = tmp_idx_a;
++			}
++		}		
++	}
++
++	for (i = 0; i < seq_length; i++) {
++		p_idx_out[rank_idx[i]] = i+1;
++		/**/
++	}
++	
++
++	
++}
++
++VOID
++ODM_InitMpDriverStatus(
++	IN		PDM_ODM_T		pDM_Odm
++)
++{
++#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++
++	// Decide when compile time
++	#if(MP_DRIVER == 1)
++	pDM_Odm->mp_mode = TRUE;
++	#else
++	pDM_Odm->mp_mode = FALSE;
++	#endif
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++
++	PADAPTER	Adapter =  pDM_Odm->Adapter;
++
++	// Update information every period
++	pDM_Odm->mp_mode = (BOOLEAN)Adapter->registrypriv.mp_mode;
++
++#else
++
++	prtl8192cd_priv	 priv = pDM_Odm->priv;
++
++	pDM_Odm->mp_mode = (BOOLEAN)priv->pshare->rf_ft_var.mp_specific;
++	
++#endif
++}
++
++VOID
++ODM_UpdateMpDriverStatus(
++	IN		PDM_ODM_T		pDM_Odm
++)
++{
++#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++
++	// Do nothing.
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PADAPTER	Adapter =  pDM_Odm->Adapter;
++
++	// Update information erery period
++	pDM_Odm->mp_mode = (BOOLEAN)Adapter->registrypriv.mp_mode;
++
++#else
++
++	// Do nothing.
++
++#endif
++}
++
++VOID
++PHYDM_InitTRXAntennaSetting(
++	IN		PDM_ODM_T		pDM_Odm
++)
++{
++/*#if (RTL8814A_SUPPORT == 1)*/
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8814A)) {
++		u1Byte	RxAnt = 0, TxAnt = 0;
++
++		RxAnt = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG(BB_RX_PATH, pDM_Odm), ODM_BIT(BB_RX_PATH, pDM_Odm));
++		TxAnt = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG(BB_TX_PATH, pDM_Odm), ODM_BIT(BB_TX_PATH, pDM_Odm));
++		pDM_Odm->TXAntStatus =  (TxAnt & 0xf);
++		pDM_Odm->RXAntStatus =  (RxAnt & 0xf);
++	} else if (pDM_Odm->SupportICType & (ODM_RTL8723D | ODM_RTL8821C)) {
++		pDM_Odm->TXAntStatus = 0x1;
++		pDM_Odm->RXAntStatus = 0x1;
++			
++	}
++/*#endif*/
++}
++
++void
++phydm_traffic_load_decision( 
++	IN		PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T		pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	
++	/*---trafic load decision---*/
++	pDM_Odm->curTxOkCnt =  *(pDM_Odm->pNumTxBytesUnicast) - pDM_Odm->lastTxOkCnt;
++	pDM_Odm->curRxOkCnt =  *(pDM_Odm->pNumRxBytesUnicast) - pDM_Odm->lastRxOkCnt;
++	pDM_Odm->lastTxOkCnt =  *(pDM_Odm->pNumTxBytesUnicast);
++	pDM_Odm->lastRxOkCnt =  *(pDM_Odm->pNumRxBytesUnicast);
++
++	#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	pDM_Odm->tx_tp = ((pDM_Odm->tx_tp)>>1) + (u4Byte)(((pDM_Odm->curTxOkCnt)>>17)>>1); /* <<3(8bit), >>20(10^6,M)*/
++	pDM_Odm->rx_tp = ((pDM_Odm->rx_tp)>>1) + (u4Byte)(((pDM_Odm->curRxOkCnt)>>17)>>1); /* <<3(8bit), >>20(10^6,M)*/
++	#else
++	pDM_Odm->tx_tp = ((pDM_Odm->tx_tp)>>1) + (u4Byte)(((pDM_Odm->curTxOkCnt)>>18)>>1); /* <<3(8bit), >>20(10^6,M), >>1(2sec)*/
++	pDM_Odm->rx_tp = ((pDM_Odm->rx_tp)>>1) + (u4Byte)(((pDM_Odm->curRxOkCnt)>>18)>>1); /* <<3(8bit), >>20(10^6,M), >>1(2sec)*/
++	#endif
++	pDM_Odm->total_tp = pDM_Odm->tx_tp + pDM_Odm->rx_tp; 
++	
++
++	pDM_Odm->pre_TrafficLoad = pDM_Odm->TrafficLoad;
++	
++	if (pDM_Odm->curTxOkCnt > 1875000 || pDM_Odm->curRxOkCnt > 1875000) {		/* ( 1.875M * 8bit ) / 2sec= 7.5M bits /sec )*/
++	
++		pDM_Odm->TrafficLoad = TRAFFIC_HIGH;
++		/**/
++	} else if (pDM_Odm->curTxOkCnt > 500000 || pDM_Odm->curRxOkCnt > 500000) { /*( 0.5M * 8bit ) / 2sec =  2M bits /sec )*/
++	
++		pDM_Odm->TrafficLoad = TRAFFIC_MID;
++		/**/
++	} else if (pDM_Odm->curTxOkCnt > 100000 || pDM_Odm->curRxOkCnt > 100000)  { /*( 0.1M * 8bit ) / 2sec =  0.4M bits /sec )*/
++	
++		pDM_Odm->TrafficLoad = TRAFFIC_LOW;
++		/**/
++	} else {
++	
++		pDM_Odm->TrafficLoad = TRAFFIC_ULTRA_LOW;
++		/**/
++	}
++}
++
++VOID
++phydm_config_ofdm_tx_path(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		u4Byte			path
++)
++{
++	u1Byte	ofdm_rx_path;
++
++	#if (RTL8192E_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & (ODM_RTL8192E)) {
++		
++		if (path == PHYDM_A) {
++			ODM_SetBBReg(pDM_Odm, 0x90c , bMaskDWord, 0x81321311);
++			/**/
++		} else if (path == PHYDM_B) {
++			ODM_SetBBReg(pDM_Odm, 0x90c , bMaskDWord, 0x82321322);
++			/**/
++		} else  if (path == PHYDM_AB) {
++			ODM_SetBBReg(pDM_Odm, 0x90c , bMaskDWord, 0x83321333);
++			/**/
++		}
++		
++		
++	}
++	#endif
++}
++
++VOID
++phydm_config_ofdm_rx_path(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		u4Byte			path
++)
++{
++	u1Byte	ofdm_rx_path = 0;
++
++	#if (RTL8192E_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & (ODM_RTL8192E)) {
++		
++		if (path == PHYDM_A) {
++			ofdm_rx_path = 1;
++			/**/
++		} else if (path == PHYDM_B) {
++			ofdm_rx_path = 2;
++			/**/
++		} else  if (path == PHYDM_AB) {
++			ofdm_rx_path = 3;
++			/**/
++		}
++		
++		ODM_SetBBReg(pDM_Odm, 0xC04 , 0xff, (((ofdm_rx_path)<<4)|ofdm_rx_path));
++		ODM_SetBBReg(pDM_Odm, 0xD04 , 0xf, ofdm_rx_path);
++	}
++	#endif
++}
++
++VOID
++phydm_config_cck_rx_antenna_init(
++	IN		PDM_ODM_T		pDM_Odm
++)
++{
++	#if (RTL8192E_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & (ODM_RTL8192E)) {
++	
++		/*CCK 2R CCA parameters*/
++		ODM_SetBBReg(pDM_Odm, 0xa2c , BIT18, 1); /*enable 2R Rx path*/
++		ODM_SetBBReg(pDM_Odm, 0xa2c , BIT22, 1); /*enable 2R MRC*/
++		ODM_SetBBReg(pDM_Odm, 0xa84 , BIT28, 1); /*1. pdx1[5:0] > 2*PD_lim 2. RXIQ_3 = 0 ( signed )*/
++		ODM_SetBBReg(pDM_Odm, 0xa70 , BIT7, 0); /*Concurrent CCA at LSB & USB*/
++		ODM_SetBBReg(pDM_Odm, 0xa74 , BIT8, 0); /*RX path diversity enable*/
++		ODM_SetBBReg(pDM_Odm, 0xa08 , BIT28, 1); /* r_cck_2nd_sel_eco*/
++		ODM_SetBBReg(pDM_Odm, 0xa14 , BIT7, 0); /* r_en_mrc_antsel*/
++	}
++	#endif
++}
++
++VOID
++phydm_config_cck_rx_path(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		u1Byte			path,
++	IN		u1Byte			path_div_en
++)
++{
++	u1Byte	path_div_select = 0;
++	u1Byte	cck_1_path = 0, cck_2_path = 0;
++
++	#if (RTL8192E_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & (ODM_RTL8192E)) {
++		
++		if (path == PHYDM_A) {
++			path_div_select = 0;
++			cck_1_path = 0;
++			cck_2_path = 0;
++		} else if (path == PHYDM_B) {
++			path_div_select = 0;
++			cck_1_path = 1;
++			cck_2_path = 1;			
++		} else  if (path == PHYDM_AB) {
++		
++			if (path_div_en == CCA_PATHDIV_ENABLE)
++				path_div_select = 1;
++			
++			cck_1_path = 0;
++			cck_2_path = 1;	
++			
++		}
++		
++		ODM_SetBBReg(pDM_Odm, 0xa04 , (BIT27|BIT26), cck_1_path);
++		ODM_SetBBReg(pDM_Odm, 0xa04 , (BIT25|BIT24), cck_2_path);
++		ODM_SetBBReg(pDM_Odm, 0xa74 , BIT8, path_div_select);
++		
++	}
++	#endif
++}
++
++VOID
++phydm_config_trx_path(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char			*output,
++	IN		u4Byte		*_out_len
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			pre_support_ability;
++	u4Byte used = *_used;
++	u4Byte out_len = *_out_len;
++
++	/* CCK */
++	if (dm_value[0] == 0) {
++		
++		if (dm_value[1] == 1) { /*TX*/
++			if (dm_value[2] == 1)
++				ODM_SetBBReg(pDM_Odm, 0xa04, 0xf0000000, 0x8);
++			else if (dm_value[2] == 2)
++				ODM_SetBBReg(pDM_Odm, 0xa04, 0xf0000000, 0x4);
++			else if (dm_value[2] == 3)
++				ODM_SetBBReg(pDM_Odm, 0xa04, 0xf0000000, 0xc);
++		} else if (dm_value[1] == 2) { /*RX*/
++		
++			phydm_config_cck_rx_antenna_init(pDM_Odm);
++			
++			if (dm_value[2] == 1) {
++				phydm_config_cck_rx_path(pDM_Odm, PHYDM_A, CCA_PATHDIV_DISABLE);
++			} else  if (dm_value[2] == 2) {
++				phydm_config_cck_rx_path(pDM_Odm, PHYDM_B, CCA_PATHDIV_DISABLE);
++			} else  if (dm_value[2] == 3) {
++				if (dm_value[3] == 1) /*enable path diversity*/
++					phydm_config_cck_rx_path(pDM_Odm, PHYDM_AB, CCA_PATHDIV_ENABLE);
++				else
++					phydm_config_cck_rx_path(pDM_Odm, PHYDM_B, CCA_PATHDIV_DISABLE);
++			}
++		}
++	} 
++	/* OFDM */
++	else if (dm_value[0] == 1) {
++
++		if (dm_value[1] == 1) { /*TX*/
++			phydm_config_ofdm_tx_path(pDM_Odm, dm_value[2]);
++			/**/
++		} else if (dm_value[1] == 2) { /*RX*/
++			phydm_config_ofdm_rx_path(pDM_Odm, dm_value[2]);
++			/**/
++		}
++	}
++
++	PHYDM_SNPRINTF((output+used, out_len-used, "PHYDM Set Path [%s] [%s] = [%s%s%s%s]\n", 
++		(dm_value[0] == 1) ? "CCK" : "OFDM",
++		(dm_value[1] == 1) ? "TX" : "RX",
++		(dm_value[2] & 0x1)?"A":"",
++		(dm_value[2] & 0x2)?"B":"",
++		(dm_value[2] & 0x4)?"C":"",
++		(dm_value[2] & 0x8)?"D":""
++		));
++		
++}
++
++VOID
++phydm_Init_cck_setting(
++	IN		PDM_ODM_T		pDM_Odm
++)
++{
++	u4Byte value_824,value_82c;
++
++	pDM_Odm->bCckHighPower = (BOOLEAN) ODM_GetBBReg(pDM_Odm, ODM_REG(CCK_RPT_FORMAT,pDM_Odm), ODM_BIT(CCK_RPT_FORMAT,pDM_Odm));
++
++	#if (RTL8192E_SUPPORT == 1)
++	if(pDM_Odm->SupportICType & (ODM_RTL8192E))
++	{
++		#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		phydm_config_cck_rx_antenna_init(pDM_Odm);
++		phydm_config_cck_rx_path(pDM_Odm, PHYDM_A, CCA_PATHDIV_DISABLE);
++		#endif
++	
++		/* 0x824[9] = 0x82C[9] = 0xA80[7]  those registers setting should be equal or CCK RSSI report may be incorrect */
++		value_824 = ODM_GetBBReg(pDM_Odm, 0x824, BIT9);
++		value_82c = ODM_GetBBReg(pDM_Odm, 0x82c, BIT9);
++		
++		if(value_824 != value_82c)
++		{
++			ODM_SetBBReg(pDM_Odm, 0x82c , BIT9, value_824);
++		}
++		ODM_SetBBReg(pDM_Odm, 0xa80 , BIT7, value_824);
++		pDM_Odm->cck_agc_report_type = (BOOLEAN)value_824;
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("cck_agc_report_type = (( %d )), ExtLNAGain = (( %d ))\n", pDM_Odm->cck_agc_report_type, pDM_Odm->ExtLNAGain));
++	}
++	#endif
++	
++#if ((RTL8703B_SUPPORT == 1) || (RTL8723D_SUPPORT == 1))
++	if (pDM_Odm->SupportICType & (ODM_RTL8703B|ODM_RTL8723D)) {
++
++		pDM_Odm->cck_agc_report_type = ODM_GetBBReg(pDM_Odm, 0x950, BIT11) ? 1 : 0; /*1: 4bit LNA , 0: 3bit LNA */
++		
++		if (pDM_Odm->cck_agc_report_type != 1) {
++			DbgPrint("[Warning] 8703B/8723D CCK should be 4bit LNA, ie. 0x950[11] = 1\n");
++			/**/
++		}
++	}
++#endif
++	
++#if ((RTL8723D_SUPPORT == 1) || (RTL8822B_SUPPORT == 1) || (RTL8197F_SUPPORT == 1))
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8723D|ODM_RTL8822B|ODM_RTL8197F)) {
++		pDM_Odm->cck_new_agc = ODM_GetBBReg(pDM_Odm, 0xa9c, BIT17)?TRUE:FALSE;              /*1: new agc  0: old agc*/
++	} else
++#endif
++		pDM_Odm->cck_new_agc = FALSE;
++	
++}
++
++VOID
++PHYDM_InitSoftMLSetting(
++	IN		PDM_ODM_T		pDM_Odm
++)
++{
++#if (RTL8822B_SUPPORT == 1)
++	if (pDM_Odm->mp_mode == FALSE) {
++		if (pDM_Odm->SupportICType & ODM_RTL8822B)
++			ODM_SetBBReg(pDM_Odm, 0x19a8, bMaskDWord, 0xc10a0000);
++	}
++#endif
++}
++
++VOID
++PHYDM_InitHwInfoByRfe(
++	IN		PDM_ODM_T		pDM_Odm
++)
++{
++#if (RTL8822B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		phydm_init_hw_info_by_rfe_type_8822b(pDM_Odm);
++#endif
++}
++
++VOID
++odm_CommonInfoSelfInit(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{
++	phydm_Init_cck_setting(pDM_Odm);
++	pDM_Odm->RFPathRxEnable = (u1Byte) ODM_GetBBReg(pDM_Odm, ODM_REG(BB_RX_PATH,pDM_Odm), ODM_BIT(BB_RX_PATH,pDM_Odm));
++#if (DM_ODM_SUPPORT_TYPE != ODM_CE)	
++	pDM_Odm->pbNet_closed = &pDM_Odm->BOOLEAN_temp;
++#endif
++
++	PHYDM_InitDebugSetting(pDM_Odm);
++	ODM_InitMpDriverStatus(pDM_Odm);
++	PHYDM_InitTRXAntennaSetting(pDM_Odm);
++	PHYDM_InitSoftMLSetting(pDM_Odm);
++
++	pDM_Odm->TxRate = 0xFF;
++
++	pDM_Odm->number_linked_client = 0;
++	pDM_Odm->pre_number_linked_client = 0;
++	pDM_Odm->number_active_client = 0;
++	pDM_Odm->pre_number_active_client = 0;
++
++	pDM_Odm->lastTxOkCnt = 0;
++	pDM_Odm->lastRxOkCnt = 0;
++	pDM_Odm->tx_tp = 0;
++	pDM_Odm->rx_tp = 0;
++	pDM_Odm->total_tp = 0;
++	pDM_Odm->TrafficLoad = TRAFFIC_LOW;
++
++	pDM_Odm->nbi_set_result = 0;
++	
++}
++
++VOID
++odm_CommonInfoSelfUpdate(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{
++	u1Byte	EntryCnt = 0, num_active_client = 0;
++	u4Byte	i, OneEntry_MACID = 0, ma_rx_tp = 0;
++	PSTA_INFO_T   	pEntry;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++	PADAPTER	Adapter =  pDM_Odm->Adapter;
++	PMGNT_INFO	pMgntInfo = &Adapter->MgntInfo;
++
++	pEntry = pDM_Odm->pODM_StaInfo[0];
++	if (pMgntInfo->mAssoc) {
++		pEntry->bUsed = TRUE;
++		for (i = 0; i < 6; i++)
++			pEntry->MacAddr[i] = pMgntInfo->Bssid[i];
++	} else if (GetFirstClientPort(Adapter)) {
++		PADAPTER	pClientAdapter = GetFirstClientPort(Adapter);
++
++		pEntry->bUsed = TRUE;
++		for (i = 0; i < 6; i++)
++			pEntry->MacAddr[i] = pClientAdapter->MgntInfo.Bssid[i];
++	} else {
++		pEntry->bUsed = FALSE;
++		for (i = 0; i < 6; i++)
++			pEntry->MacAddr[i] = 0;
++	}
++
++	//STA mode is linked to AP
++	if(IS_STA_VALID(pDM_Odm->pODM_StaInfo[0]) && !ACTING_AS_AP(Adapter))
++		pDM_Odm->bsta_state = TRUE;
++	else
++		pDM_Odm->bsta_state = FALSE;
++#endif
++
++/* THis variable cannot be used because it is wrong*/
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	if (*(pDM_Odm->pBandWidth) == ODM_BW40M)
++	{
++		if (*(pDM_Odm->pSecChOffset) == 1)
++			pDM_Odm->ControlChannel = *(pDM_Odm->pChannel) + 2;
++		else if (*(pDM_Odm->pSecChOffset) == 2)
++			pDM_Odm->ControlChannel = *(pDM_Odm->pChannel) - 2;
++	} else if (*(pDM_Odm->pBandWidth) == ODM_BW80M)	{
++		if (*(pDM_Odm->pSecChOffset) == 1)
++			pDM_Odm->ControlChannel = *(pDM_Odm->pChannel) + 6;
++		else if (*(pDM_Odm->pSecChOffset) == 2)
++			pDM_Odm->ControlChannel = *(pDM_Odm->pChannel) - 6;
++	} else
++		pDM_Odm->ControlChannel = *(pDM_Odm->pChannel);
++#else
++	if (*(pDM_Odm->pBandWidth) == ODM_BW40M) {
++		if (*(pDM_Odm->pSecChOffset) == 1)
++			pDM_Odm->ControlChannel = *(pDM_Odm->pChannel) - 2;
++		else if (*(pDM_Odm->pSecChOffset) == 2)
++			pDM_Odm->ControlChannel = *(pDM_Odm->pChannel) + 2;
++	} else
++		pDM_Odm->ControlChannel = *(pDM_Odm->pChannel);
++#endif
++
++	for (i=0; i<ODM_ASSOCIATE_ENTRY_NUM; i++)
++	{
++		pEntry = pDM_Odm->pODM_StaInfo[i];
++		if(IS_STA_VALID(pEntry))
++		{
++			EntryCnt++;
++			if(EntryCnt==1)
++			{
++				OneEntry_MACID=i;
++			}
++
++			#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++				ma_rx_tp =  (pEntry->rx_byte_cnt_LowMAW)<<3; /*  low moving average RX  TP   ( bit /sec)*/
++
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("ClientTP[%d]: ((%d )) bit/sec\n", i, ma_rx_tp));
++				
++				if (ma_rx_tp > ACTIVE_TP_THRESHOLD)
++					num_active_client++;
++			#endif
++                }
++	}
++	
++	if(EntryCnt == 1)
++	{
++		pDM_Odm->bOneEntryOnly = TRUE;
++		pDM_Odm->OneEntry_MACID=OneEntry_MACID;
++	}
++	else
++		pDM_Odm->bOneEntryOnly = FALSE;
++
++	pDM_Odm->pre_number_linked_client = pDM_Odm->number_linked_client;
++	pDM_Odm->pre_number_active_client = pDM_Odm->number_active_client;
++	
++	pDM_Odm->number_linked_client = EntryCnt;
++	pDM_Odm->number_active_client = num_active_client;	
++
++	/* Update MP driver status*/
++	ODM_UpdateMpDriverStatus(pDM_Odm);
++
++	/*Traffic load information update*/
++	phydm_traffic_load_decision(pDM_Odm);	
++}
++
++VOID
++odm_CommonInfoSelfReset(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{
++#if( DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	pDM_Odm->PhyDbgInfo.NumQryBeaconPkt = 0;
++#endif
++}
++
++PVOID
++PhyDM_Get_Structure(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		u1Byte			Structure_Type
++)
++
++{
++	PVOID	pStruct = NULL;
++#if RTL8195A_SUPPORT
++	switch (Structure_Type){
++		case	PHYDM_FALSEALMCNT:
++			pStruct = &FalseAlmCnt;
++		break;
++		
++		case	PHYDM_CFOTRACK:
++			pStruct = &DM_CfoTrack;
++		break;
++
++		case	PHYDM_ADAPTIVITY:
++			pStruct = &(pDM_Odm->Adaptivity);
++		break;
++		
++		default:
++		break;
++	}
++
++#else
++	switch (Structure_Type){
++		case	PHYDM_FALSEALMCNT:
++			pStruct = &(pDM_Odm->FalseAlmCnt);
++		break;
++		
++		case	PHYDM_CFOTRACK:
++			pStruct = &(pDM_Odm->DM_CfoTrack);
++		break;
++
++		case	PHYDM_ADAPTIVITY:
++			pStruct = &(pDM_Odm->Adaptivity);
++		break;
++		
++		default:
++		break;
++	}
++
++#endif
++	return	pStruct;
++}
++
++VOID
++odm_HWSetting(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{
++#if (RTL8821A_SUPPORT == 1)
++	if(pDM_Odm->SupportICType & ODM_RTL8821)
++		odm_HWSetting_8821A(pDM_Odm);
++#endif
++
++#if (RTL8814A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		phydm_hwsetting_8814a(pDM_Odm);
++#endif
++
++}
++
++//
++// 2011/09/21 MH Add to describe different team necessary resource allocate??
++//
++VOID
++ODM_DMInit(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++#endif
++
++	odm_CommonInfoSelfInit(pDM_Odm);
++	odm_DIGInit(pDM_Odm);
++	Phydm_NHMCounterStatisticsInit(pDM_Odm);
++	Phydm_AdaptivityInit(pDM_Odm);
++	phydm_ra_info_init(pDM_Odm);
++	odm_RateAdaptiveMaskInit(pDM_Odm);
++	ODM_CfoTrackingInit(pDM_Odm);
++	ODM_EdcaTurboInit(pDM_Odm);
++	odm_RSSIMonitorInit(pDM_Odm);
++	phydm_rf_init(pDM_Odm);
++	odm_TXPowerTrackingInit(pDM_Odm);
++	odm_AntennaDiversityInit(pDM_Odm);
++	odm_AutoChannelSelectInit(pDM_Odm);
++	odm_PathDiversityInit(pDM_Odm);
++	odm_DynamicTxPowerInit(pDM_Odm);
++	phydm_initRaInfo(pDM_Odm);
++	
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++#ifdef BEAMFORMING_VERSION_1
++	if (pHalData->BeamformingVersion == BEAMFORMING_VERSION_1)
++#endif
++	{
++		phydm_Beamforming_Init(pDM_Odm);
++	}
++#endif	
++
++	if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++	{
++		odm_DynamicBBPowerSavingInit(pDM_Odm);
++
++#if (RTL8188E_SUPPORT == 1)
++		if(pDM_Odm->SupportICType==ODM_RTL8188E)
++		{
++			ODM_PrimaryCCA_Init(pDM_Odm);
++			ODM_RAInfo_Init_all(pDM_Odm);
++		}
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	
++	#if (RTL8723B_SUPPORT == 1)
++		if(pDM_Odm->SupportICType == ODM_RTL8723B)
++			odm_SwAntDetectInit(pDM_Odm);
++	#endif
++
++	#if (RTL8192E_SUPPORT == 1)
++		if(pDM_Odm->SupportICType==ODM_RTL8192E)
++			odm_PrimaryCCA_Check_Init(pDM_Odm);
++	#endif
++
++#endif
++
++	}
++
++}
++
++VOID
++ODM_DMReset(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{
++	pDIG_T pDM_DigTable = &pDM_Odm->DM_DigTable;
++
++	ODM_AntDivReset(pDM_Odm);	
++	phydm_setEDCCAThresholdAPI(pDM_Odm, pDM_DigTable->CurIGValue);
++}
++
++
++VOID
++phydm_support_ability_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte			*_used,
++	OUT		char			*output,
++	IN		u4Byte			*_out_len
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			pre_support_ability;
++	u4Byte used = *_used;
++	u4Byte out_len = *_out_len;
++
++	pre_support_ability = pDM_Odm->SupportAbility ;	
++	PHYDM_SNPRINTF((output+used, out_len-used,"\n%s\n", "================================"));
++	if(dm_value[0] == 100)
++	{
++		PHYDM_SNPRINTF((output+used, out_len-used, "[Supportability] PhyDM Selection\n"));
++		PHYDM_SNPRINTF((output+used, out_len-used,"%s\n", "================================"));
++		PHYDM_SNPRINTF((output+used, out_len-used, "00. (( %s ))DIG\n", ((pDM_Odm->SupportAbility & ODM_BB_DIG)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "01. (( %s ))RA_MASK\n", ((pDM_Odm->SupportAbility & ODM_BB_RA_MASK)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "02. (( %s ))DYNAMIC_TXPWR\n", ((pDM_Odm->SupportAbility & ODM_BB_DYNAMIC_TXPWR)?("V"):("."))));		
++		PHYDM_SNPRINTF((output+used, out_len-used, "03. (( %s ))FA_CNT\n", ((pDM_Odm->SupportAbility & ODM_BB_FA_CNT)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "04. (( %s ))RSSI_MONITOR\n", ((pDM_Odm->SupportAbility & ODM_BB_RSSI_MONITOR)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "05. (( %s ))CCK_PD\n", ((pDM_Odm->SupportAbility & ODM_BB_CCK_PD)?("V"):("."))));	
++		PHYDM_SNPRINTF((output+used, out_len-used, "06. (( %s ))ANT_DIV\n", ((pDM_Odm->SupportAbility & ODM_BB_ANT_DIV)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "08. (( %s ))PWR_TRAIN\n", ((pDM_Odm->SupportAbility & ODM_BB_PWR_TRAIN)?("V"):("."))));	
++		PHYDM_SNPRINTF((output+used, out_len-used, "09. (( %s ))RATE_ADAPTIVE\n", ((pDM_Odm->SupportAbility & ODM_BB_RATE_ADAPTIVE)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "10. (( %s ))PATH_DIV\n", ((pDM_Odm->SupportAbility & ODM_BB_PATH_DIV)?("V"):(".")))); 
++		PHYDM_SNPRINTF((output+used, out_len-used, "13. (( %s ))ADAPTIVITY\n", ((pDM_Odm->SupportAbility & ODM_BB_ADAPTIVITY)?("V"):("."))));	
++		PHYDM_SNPRINTF((output+used, out_len-used, "14. (( %s ))CFO_TRACKING\n", ((pDM_Odm->SupportAbility & ODM_BB_CFO_TRACKING)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "15. (( %s ))NHM_CNT\n", ((pDM_Odm->SupportAbility & ODM_BB_NHM_CNT)?("V"):("."))));	
++		PHYDM_SNPRINTF((output+used, out_len-used, "16. (( %s ))PRIMARY_CCA\n", ((pDM_Odm->SupportAbility & ODM_BB_PRIMARY_CCA)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "17. (( %s ))TXBF\n", ((pDM_Odm->SupportAbility & ODM_BB_TXBF)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "18. (( %s ))DYNAMIC_ARFR\n", ((pDM_Odm->SupportAbility & ODM_BB_DYNAMIC_ARFR)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "20. (( %s ))EDCA_TURBO\n", ((pDM_Odm->SupportAbility & ODM_MAC_EDCA_TURBO)?("V"):("."))));	
++		PHYDM_SNPRINTF((output+used, out_len-used, "21. (( %s ))EARLY_MODE\n", ((pDM_Odm->SupportAbility & ODM_MAC_EARLY_MODE)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "24. (( %s ))TX_PWR_TRACK\n", ((pDM_Odm->SupportAbility & ODM_RF_TX_PWR_TRACK)?("V"):("."))));	
++		PHYDM_SNPRINTF((output+used, out_len-used, "25. (( %s ))RX_GAIN_TRACK\n", ((pDM_Odm->SupportAbility & ODM_RF_RX_GAIN_TRACK)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used, "26. (( %s ))RF_CALIBRATION\n", ((pDM_Odm->SupportAbility & ODM_RF_CALIBRATION)?("V"):("."))));
++		PHYDM_SNPRINTF((output+used, out_len-used,"%s\n", "================================"));
++	}
++	/*
++	else if(dm_value[0] == 101)
++	{
++		pDM_Odm->SupportAbility = 0 ;
++		DbgPrint("Disable all SupportAbility components \n");
++		PHYDM_SNPRINTF((output+used, out_len-used,"%s\n", "Disable all SupportAbility components"));	
++	}
++	*/
++	else
++	{
++
++		if(dm_value[1] == 1) //enable
++		{
++			pDM_Odm->SupportAbility |= BIT(dm_value[0]) ;
++			if(BIT(dm_value[0]) & ODM_BB_PATH_DIV)
++			{
++				odm_PathDiversityInit(pDM_Odm);
++			}
++		}
++		else if(dm_value[1] == 2) //disable
++		{
++			pDM_Odm->SupportAbility &= ~(BIT(dm_value[0])) ;
++		}
++		else
++		{
++			//DbgPrint("\n[Warning!!!]  1:enable,  2:disable \n\n");
++			PHYDM_SNPRINTF((output+used, out_len-used,"%s\n", "[Warning!!!]  1:enable,  2:disable"));
++		}
++	}
++	PHYDM_SNPRINTF((output+used, out_len-used,"pre-SupportAbility  =  0x%x\n",  pre_support_ability ));	
++	PHYDM_SNPRINTF((output+used, out_len-used,"Curr-SupportAbility =  0x%x\n", pDM_Odm->SupportAbility ));
++	PHYDM_SNPRINTF((output+used, out_len-used,"%s\n", "================================"));
++}
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++//
++//tmp modify for LC Only
++//
++VOID
++ODM_DMWatchdog_LPS(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{	
++	odm_CommonInfoSelfUpdate(pDM_Odm);
++	odm_FalseAlarmCounterStatistics(pDM_Odm);
++	odm_RSSIMonitorCheck(pDM_Odm);
++	odm_DIGbyRSSI_LPS(pDM_Odm);	
++	odm_CCKPacketDetectionThresh(pDM_Odm);
++	odm_CommonInfoSelfReset(pDM_Odm);
++
++	if(*(pDM_Odm->pbPowerSaving)==TRUE)
++		return;
++}
++#endif
++//
++// 2011/09/20 MH This is the entry pointer for all team to execute HW out source DM.
++// You can not add any dummy function here, be care, you can only use DM structure
++// to perform any new ODM_DM.
++//
++VOID
++ODM_DMWatchdog(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{
++	odm_CommonInfoSelfUpdate(pDM_Odm);
++	phydm_BasicDbgMessage(pDM_Odm);
++	odm_HWSetting(pDM_Odm);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	{
++	prtl8192cd_priv priv		= pDM_Odm->priv;
++	if( (priv->auto_channel != 0) && (priv->auto_channel != 2) )//if ACS running, do not do FA/CCA counter read
++		return;
++	}
++#endif	
++	odm_FalseAlarmCounterStatistics(pDM_Odm);
++	phydm_NoisyDetection(pDM_Odm);
++	
++	odm_RSSIMonitorCheck(pDM_Odm);
++
++	if(*(pDM_Odm->pbPowerSaving) == TRUE)
++	{
++		odm_DIGbyRSSI_LPS(pDM_Odm);
++		{
++			pDIG_T	pDM_DigTable = &pDM_Odm->DM_DigTable;
++			Phydm_Adaptivity(pDM_Odm, pDM_DigTable->CurIGValue);
++		}
++		#if (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++		odm_AntennaDiversity(pDM_Odm); /*enable AntDiv in PS mode, request from SD4 Jeff*/
++		#endif
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD, ("DMWatchdog in power saving mode\n"));
++		return;
++	}
++	
++	Phydm_CheckAdaptivity(pDM_Odm);
++	odm_UpdatePowerTrainingState(pDM_Odm);
++	odm_DIG(pDM_Odm);
++	{
++		pDIG_T	pDM_DigTable = &pDM_Odm->DM_DigTable;
++		Phydm_Adaptivity(pDM_Odm, pDM_DigTable->CurIGValue);
++	}
++	odm_CCKPacketDetectionThresh(pDM_Odm);
++	
++	phydm_ra_info_watchdog(pDM_Odm);
++	odm_EdcaTurboCheck(pDM_Odm);
++	odm_PathDiversity(pDM_Odm);
++	ODM_CfoTracking(pDM_Odm);
++	odm_DynamicTxPower(pDM_Odm);
++	odm_AntennaDiversity(pDM_Odm);
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++	phydm_Beamforming_Watchdog(pDM_Odm);
++#endif
++
++	phydm_rf_watchdog(pDM_Odm);
++
++	if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++	{
++	        
++#if (RTL8188E_SUPPORT == 1)
++		if (pDM_Odm->SupportICType == ODM_RTL8188E)
++			ODM_DynamicPrimaryCCA(pDM_Odm);
++#endif
++
++#if( DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++
++	#if (RTL8192E_SUPPORT == 1)
++		if(pDM_Odm->SupportICType==ODM_RTL8192E)
++			odm_DynamicPrimaryCCA_Check(pDM_Odm); 
++	#endif
++#endif
++	}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	odm_dtc(pDM_Odm);
++#endif
++
++	odm_CommonInfoSelfReset(pDM_Odm);
++	
++}
++
++
++//
++// Init /.. Fixed HW value. Only init time.
++//
++VOID
++ODM_CmnInfoInit(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		ODM_CMNINFO_E	CmnInfo,
++	IN		u4Byte			Value	
++	)
++{
++	//
++	// This section is used for init value
++	//
++	switch	(CmnInfo)
++	{
++		//
++		// Fixed ODM value.
++		//
++		case	ODM_CMNINFO_ABILITY:
++			pDM_Odm->SupportAbility = (u4Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_RF_TYPE:
++			pDM_Odm->RFType = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_PLATFORM:
++			pDM_Odm->SupportPlatform = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_INTERFACE:
++			pDM_Odm->SupportInterface = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_MP_TEST_CHIP:
++			pDM_Odm->bIsMPChip= (u1Byte)Value;
++			break;
++            
++		case	ODM_CMNINFO_IC_TYPE:
++			pDM_Odm->SupportICType = Value;
++			break;
++
++		case	ODM_CMNINFO_CUT_VER:
++			pDM_Odm->CutVersion = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_FAB_VER:
++			pDM_Odm->FabVersion = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_RFE_TYPE:
++			pDM_Odm->RFEType = (u1Byte)Value;
++			PHYDM_InitHwInfoByRfe(pDM_Odm);
++			break;
++
++		case    ODM_CMNINFO_RF_ANTENNA_TYPE:
++			pDM_Odm->AntDivType= (u1Byte)Value;
++			break;
++			
++		case	ODM_CMNINFO_WITH_EXT_ANTENNA_SWITCH:
++			pDM_Odm->with_extenal_ant_switch = (u1Byte)Value;
++			break;	
++			
++		case    ODM_CMNINFO_BE_FIX_TX_ANT:
++			pDM_Odm->DM_FatTable.b_fix_tx_ant = (u1Byte)Value;
++			break;	
++
++		case	ODM_CMNINFO_BOARD_TYPE:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->BoardType = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_PACKAGE_TYPE:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->PackageType = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_EXT_LNA:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->ExtLNA = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_5G_EXT_LNA:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->ExtLNA5G = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_EXT_PA:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->ExtPA = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_5G_EXT_PA:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->ExtPA5G = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_GPA:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->TypeGPA = (u2Byte)Value;
++			break;
++			
++		case	ODM_CMNINFO_APA:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->TypeAPA = (u2Byte)Value;
++			break;
++			
++		case	ODM_CMNINFO_GLNA:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->TypeGLNA = (u2Byte)Value;
++			break;
++			
++		case	ODM_CMNINFO_ALNA:
++			if (!pDM_Odm->bInitHwInfoByRfe)
++				pDM_Odm->TypeALNA = (u2Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_EXT_TRSW:
++			pDM_Odm->ExtTRSW = (u1Byte)Value;
++			break;
++		case	ODM_CMNINFO_EXT_LNA_GAIN:
++			pDM_Odm->ExtLNAGain = (u1Byte)Value;
++			break;
++		case 	ODM_CMNINFO_PATCH_ID:
++			pDM_Odm->PatchID = (u1Byte)Value;
++			break;
++		case 	ODM_CMNINFO_BINHCT_TEST:
++			pDM_Odm->bInHctTest = (BOOLEAN)Value;
++			break;
++		case 	ODM_CMNINFO_BWIFI_TEST:
++			pDM_Odm->WIFITest = (u1Byte)Value;
++			break;	
++		case	ODM_CMNINFO_SMART_CONCURRENT:
++			pDM_Odm->bDualMacSmartConcurrent = (BOOLEAN )Value;
++			break;
++		case	ODM_CMNINFO_DOMAIN_CODE_2G:
++			pDM_Odm->odm_Regulation2_4G = (u1Byte)Value;
++			break;
++		case	ODM_CMNINFO_DOMAIN_CODE_5G:
++			pDM_Odm->odm_Regulation5G = (u1Byte)Value;
++			break;
++		case	ODM_CMNINFO_CONFIG_BB_RF:
++			pDM_Odm->ConfigBBRF = (BOOLEAN)Value;
++			break;
++		case	ODM_CMNINFO_IQKFWOFFLOAD:
++			pDM_Odm->IQKFWOffload = (u1Byte)Value;
++			break;
++		case	ODM_CMNINFO_IQKPAOFF:
++			pDM_Odm->RFCalibrateInfo.bIQKPAoff = (BOOLEAN )Value;
++			break;
++		case	ODM_CMNINFO_REGRFKFREEENABLE:
++			pDM_Odm->RFCalibrateInfo.RegRfKFreeEnable = (u1Byte)Value;
++			break;
++		case	ODM_CMNINFO_RFKFREEENABLE:
++			pDM_Odm->RFCalibrateInfo.RfKFreeEnable = (u1Byte)Value;
++			break;
++#ifdef CONFIG_PHYDM_DFS_MASTER
++		case	ODM_CMNINFO_DFS_REGION_DOMAIN:
++			pDM_Odm->DFS_RegionDomain = (u1Byte)Value;
++			break;
++#endif
++		//To remove the compiler warning, must add an empty default statement to handle the other values.	
++		default:
++			//do nothing
++			break;	
++		
++	}
++
++}
++
++
++VOID
++ODM_CmnInfoHook(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		ODM_CMNINFO_E	CmnInfo,
++	IN		PVOID			pValue	
++	)
++{
++	//
++	// Hook call by reference pointer.
++	//
++	switch	(CmnInfo)
++	{
++		//
++		// Dynamic call by reference pointer.
++		//
++		case	ODM_CMNINFO_MAC_PHY_MODE:
++			pDM_Odm->pMacPhyMode = (u1Byte *)pValue;
++			break;
++		
++		case	ODM_CMNINFO_TX_UNI:
++			pDM_Odm->pNumTxBytesUnicast = (u8Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_RX_UNI:
++			pDM_Odm->pNumRxBytesUnicast = (u8Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_WM_MODE:
++			pDM_Odm->pWirelessMode = (u1Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_BAND:
++			pDM_Odm->pBandType = (u1Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_SEC_CHNL_OFFSET:
++			pDM_Odm->pSecChOffset = (u1Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_SEC_MODE:
++			pDM_Odm->pSecurity = (u1Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_BW:
++			pDM_Odm->pBandWidth = (u1Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_CHNL:
++			pDM_Odm->pChannel = (u1Byte *)pValue;
++			break;
++		
++		case	ODM_CMNINFO_DMSP_GET_VALUE:
++			pDM_Odm->pbGetValueFromOtherMac = (BOOLEAN *)pValue;
++			break;
++
++		case	ODM_CMNINFO_BUDDY_ADAPTOR:
++			pDM_Odm->pBuddyAdapter = (PADAPTER *)pValue;
++			break;
++
++		case	ODM_CMNINFO_DMSP_IS_MASTER:
++			pDM_Odm->pbMasterOfDMSP = (BOOLEAN *)pValue;
++			break;
++
++		case	ODM_CMNINFO_SCAN:
++			pDM_Odm->pbScanInProcess = (BOOLEAN *)pValue;
++			break;
++
++		case	ODM_CMNINFO_POWER_SAVING:
++			pDM_Odm->pbPowerSaving = (BOOLEAN *)pValue;
++			break;
++
++		case	ODM_CMNINFO_ONE_PATH_CCA:
++			pDM_Odm->pOnePathCCA = (u1Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_DRV_STOP:
++			pDM_Odm->pbDriverStopped =  (BOOLEAN *)pValue;
++			break;
++
++		case	ODM_CMNINFO_PNP_IN:
++			pDM_Odm->pbDriverIsGoingToPnpSetPowerSleep =  (BOOLEAN *)pValue;
++			break;
++
++		case	ODM_CMNINFO_INIT_ON:
++			pDM_Odm->pinit_adpt_in_progress =  (BOOLEAN *)pValue;
++			break;
++
++		case	ODM_CMNINFO_ANT_TEST:
++			pDM_Odm->pAntennaTest =  (u1Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_NET_CLOSED:
++			pDM_Odm->pbNet_closed = (BOOLEAN *)pValue;
++			break;
++
++		case 	ODM_CMNINFO_FORCED_RATE:
++			pDM_Odm->pForcedDataRate = (pu2Byte)pValue;
++			break;
++
++		case  ODM_CMNINFO_FORCED_IGI_LB:
++			pDM_Odm->pu1ForcedIgiLb = (u1Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_P2P_LINK:
++			pDM_Odm->DM_DigTable.bP2PInProcess = (u1Byte *)pValue;
++			break;
++
++		case 	ODM_CMNINFO_IS1ANTENNA:
++			pDM_Odm->pIs1Antenna = (BOOLEAN *)pValue;
++			break;
++			
++		case 	ODM_CMNINFO_RFDEFAULTPATH:
++			pDM_Odm->pRFDefaultPath= (u1Byte *)pValue;
++			break;
++
++		case	ODM_CMNINFO_FCS_MODE:
++			pDM_Odm->pIsFcsModeEnable = (BOOLEAN *)pValue;
++			break;
++		/*add by YuChen for beamforming PhyDM*/
++		case	ODM_CMNINFO_HUBUSBMODE:
++			pDM_Odm->HubUsbMode = (u1Byte *)pValue;
++			break;
++		case	ODM_CMNINFO_FWDWRSVDPAGEINPROGRESS:
++			pDM_Odm->pbFwDwRsvdPageInProgress = (BOOLEAN *)pValue;
++			break;
++		case	ODM_CMNINFO_TX_TP:
++			pDM_Odm->pCurrentTxTP = (u4Byte *)pValue;
++			break;
++		case	ODM_CMNINFO_RX_TP:
++			pDM_Odm->pCurrentRxTP = (u4Byte *)pValue;
++			break;
++		case	ODM_CMNINFO_SOUNDING_SEQ:
++			pDM_Odm->pSoundingSeq = (u1Byte *)pValue;
++			break;
++#ifdef CONFIG_PHYDM_DFS_MASTER
++		case	ODM_CMNINFO_DFS_MASTER_ENABLE:
++			pDM_Odm->dfs_master_enabled = (u1Byte *)pValue;
++			break;
++#endif
++		case	ODM_CMNINFO_FORCE_TX_ANT_BY_TXDESC:
++			pDM_Odm->DM_FatTable.pForceTxAntByDesc = (u1Byte *)pValue;
++			break;
++		//case	ODM_CMNINFO_RTSTA_AID:
++		//	pDM_Odm->pAidMap =  (u1Byte *)pValue;
++		//	break;
++
++		//case	ODM_CMNINFO_BT_COEXIST:
++		//	pDM_Odm->BTCoexist = (BOOLEAN *)pValue;		
++
++		//case	ODM_CMNINFO_STA_STATUS:
++			//pDM_Odm->pODM_StaInfo[] = (PSTA_INFO_T)pValue;
++			//break;
++
++		//case	ODM_CMNINFO_PHY_STATUS:
++		//	pDM_Odm->pPhyInfo = (ODM_PHY_INFO *)pValue;
++		//	break;
++
++		//case	ODM_CMNINFO_MAC_STATUS:
++		//	pDM_Odm->pMacInfo = (ODM_MAC_INFO *)pValue;
++		//	break;
++		//To remove the compiler warning, must add an empty default statement to handle the other values.				
++		default:
++			//do nothing
++			break;
++
++	}
++
++}
++
++
++VOID
++ODM_CmnInfoPtrArrayHook(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		ODM_CMNINFO_E	CmnInfo,
++	IN		u2Byte			Index,
++	IN		PVOID			pValue	
++	)
++{
++	//
++	// Hook call by reference pointer.
++	//
++	switch	(CmnInfo)
++	{
++		//
++		// Dynamic call by reference pointer.
++		//		
++		case	ODM_CMNINFO_STA_STATUS:
++			pDM_Odm->pODM_StaInfo[Index] = (PSTA_INFO_T)pValue;
++			
++			if (IS_STA_VALID(pDM_Odm->pODM_StaInfo[Index]))
++			#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++				pDM_Odm->platform2phydm_macid_table[((PSTA_INFO_T)pValue)->AssociatedMacId] = Index; /*AssociatedMacId are unique bttween different Adapter*/
++			#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++				pDM_Odm->platform2phydm_macid_table[((PSTA_INFO_T)pValue)->aid] = Index;
++			#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++				pDM_Odm->platform2phydm_macid_table[((PSTA_INFO_T)pValue)->mac_id] = Index;
++			#endif
++			
++			break;		
++		//To remove the compiler warning, must add an empty default statement to handle the other values.				
++		default:
++			//do nothing
++			break;
++	}
++	
++}
++
++
++//
++// Update Band/CHannel/.. The values are dynamic but non-per-packet.
++//
++VOID
++ODM_CmnInfoUpdate(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		u4Byte			CmnInfo,
++	IN		u8Byte			Value	
++	)
++{
++	//
++	// This init variable may be changed in run time.
++	//
++	switch	(CmnInfo)
++	{
++		case ODM_CMNINFO_LINK_IN_PROGRESS:
++			pDM_Odm->bLinkInProcess = (BOOLEAN)Value;
++			break;
++		
++		case	ODM_CMNINFO_ABILITY:
++			pDM_Odm->SupportAbility = (u4Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_RF_TYPE:
++			pDM_Odm->RFType = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_WIFI_DIRECT:
++			pDM_Odm->bWIFI_Direct = (BOOLEAN)Value;
++			break;
++
++		case	ODM_CMNINFO_WIFI_DISPLAY:
++			pDM_Odm->bWIFI_Display = (BOOLEAN)Value;
++			break;
++
++		case	ODM_CMNINFO_LINK:
++			pDM_Odm->bLinked = (BOOLEAN)Value;
++			break;
++
++		case	ODM_CMNINFO_STATION_STATE:
++			pDM_Odm->bsta_state = (BOOLEAN)Value;
++			break;
++			
++		case	ODM_CMNINFO_RSSI_MIN:
++			pDM_Odm->RSSI_Min= (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_DBG_COMP:
++			pDM_Odm->DebugComponents = (u4Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_DBG_LEVEL:
++			pDM_Odm->DebugLevel = (u4Byte)Value;
++			break;
++		case	ODM_CMNINFO_RA_THRESHOLD_HIGH:
++			pDM_Odm->RateAdaptive.HighRSSIThresh = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_RA_THRESHOLD_LOW:
++			pDM_Odm->RateAdaptive.LowRSSIThresh = (u1Byte)Value;
++			break;
++#if defined(BT_SUPPORT) && (BT_SUPPORT == 1)
++		// The following is for BT HS mode and BT coexist mechanism.
++		case ODM_CMNINFO_BT_ENABLED:
++			pDM_Odm->bBtEnabled = (BOOLEAN)Value;
++			break;
++			
++		case ODM_CMNINFO_BT_HS_CONNECT_PROCESS:
++			pDM_Odm->bBtConnectProcess = (BOOLEAN)Value;
++			break;
++		
++		case ODM_CMNINFO_BT_HS_RSSI:
++			pDM_Odm->btHsRssi = (u1Byte)Value;
++			break;
++			
++		case	ODM_CMNINFO_BT_OPERATION:
++			pDM_Odm->bBtHsOperation = (BOOLEAN)Value;
++			break;
++
++		case	ODM_CMNINFO_BT_LIMITED_DIG:
++			pDM_Odm->bBtLimitedDig = (BOOLEAN)Value;
++			break;	
++
++		case ODM_CMNINFO_BT_DIG:
++			pDM_Odm->btHsDigVal = (u1Byte)Value;
++			break;
++			
++		case	ODM_CMNINFO_BT_BUSY:
++			pDM_Odm->bBtBusy = (BOOLEAN)Value;
++			break;	
++
++		case	ODM_CMNINFO_BT_DISABLE_EDCA:
++			pDM_Odm->bBtDisableEdcaTurbo = (BOOLEAN)Value;
++			break;
++#endif
++
++#if(DM_ODM_SUPPORT_TYPE & ODM_AP)		// for repeater mode add by YuChen 2014.06.23
++#ifdef UNIVERSAL_REPEATER
++		case	ODM_CMNINFO_VXD_LINK:
++			pDM_Odm->VXD_bLinked= (BOOLEAN)Value;
++			break;
++#endif
++#endif
++
++		case	ODM_CMNINFO_AP_TOTAL_NUM:
++			pDM_Odm->APTotalNum = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_POWER_TRAINING:
++			pDM_Odm->bDisablePowerTraining = (BOOLEAN)Value;
++			break;
++
++#ifdef CONFIG_PHYDM_DFS_MASTER
++		case	ODM_CMNINFO_DFS_REGION_DOMAIN:
++			pDM_Odm->DFS_RegionDomain = (u1Byte)Value;
++			break;
++#endif
++
++/*
++		case	ODM_CMNINFO_OP_MODE:
++			pDM_Odm->OPMode = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_WM_MODE:
++			pDM_Odm->WirelessMode = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_BAND:
++			pDM_Odm->BandType = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_SEC_CHNL_OFFSET:
++			pDM_Odm->SecChOffset = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_SEC_MODE:
++			pDM_Odm->Security = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_BW:
++			pDM_Odm->BandWidth = (u1Byte)Value;
++			break;
++
++		case	ODM_CMNINFO_CHNL:
++			pDM_Odm->Channel = (u1Byte)Value;
++			break;			
++*/	
++                default:
++			//do nothing
++			break;
++	}
++
++	
++}
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++ODM_InitAllWorkItems(IN PDM_ODM_T	pDM_Odm )
++{
++
++	PADAPTER		pAdapter = pDM_Odm->Adapter;
++#if USE_WORKITEM
++	#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++	ODM_InitializeWorkItem(	pDM_Odm, 
++							&pDM_Odm->DM_SWAT_Table.phydm_SwAntennaSwitchWorkitem, 
++							(RT_WORKITEM_CALL_BACK)ODM_SW_AntDiv_WorkitemCallback,
++							(PVOID)pAdapter,
++							"AntennaSwitchWorkitem");
++	#endif
++	#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++	ODM_InitializeWorkItem(pDM_Odm, 
++						&pDM_Odm->dm_sat_table.hl_smart_antenna_workitem, 
++						(RT_WORKITEM_CALL_BACK)phydm_beam_switch_workitem_callback,
++						(PVOID)pAdapter,
++						"hl_smart_ant_workitem");
++
++	ODM_InitializeWorkItem(pDM_Odm, 
++						&pDM_Odm->dm_sat_table.hl_smart_antenna_decision_workitem, 
++						(RT_WORKITEM_CALL_BACK)phydm_beam_decision_workitem_callback,
++						(PVOID)pAdapter,
++						"hl_smart_ant_decision_workitem");
++	#endif
++	
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->PathDivSwitchWorkitem), 
++		(RT_WORKITEM_CALL_BACK)odm_PathDivChkAntSwitchWorkitemCallback, 
++		(PVOID)pAdapter,
++		"SWAS_WorkItem");
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->CCKPathDiversityWorkitem), 
++		(RT_WORKITEM_CALL_BACK)odm_CCKTXPathDiversityWorkItemCallback, 
++		(PVOID)pAdapter,
++		"CCKTXPathDiversityWorkItem");
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->MPT_DIGWorkitem), 
++		(RT_WORKITEM_CALL_BACK)odm_MPT_DIGWorkItemCallback, 
++		(PVOID)pAdapter,
++		"MPT_DIGWorkitem");
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->RaRptWorkitem), 
++		(RT_WORKITEM_CALL_BACK)ODM_UpdateInitRateWorkItemCallback, 
++		(PVOID)pAdapter,
++		"RaRptWorkitem");
++
++#if( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->FastAntTrainingWorkitem), 
++		(RT_WORKITEM_CALL_BACK)odm_FastAntTrainingWorkItemCallback, 
++		(PVOID)pAdapter,
++		"FastAntTrainingWorkitem");
++#endif
++
++#endif /*#if USE_WORKITEM*/
++
++#if (BEAMFORMING_SUPPORT == 1)
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_EnterWorkItem),
++		(RT_WORKITEM_CALL_BACK)halComTxbf_EnterWorkItemCallback,
++		(PVOID)pAdapter,
++		"Txbf_EnterWorkItem");
++	
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_LeaveWorkItem),
++		(RT_WORKITEM_CALL_BACK)halComTxbf_LeaveWorkItemCallback,
++		(PVOID)pAdapter,
++		"Txbf_LeaveWorkItem");
++	
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_FwNdpaWorkItem),
++		(RT_WORKITEM_CALL_BACK)halComTxbf_FwNdpaWorkItemCallback,
++		(PVOID)pAdapter,
++		"Txbf_FwNdpaWorkItem");
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_ClkWorkItem),
++		(RT_WORKITEM_CALL_BACK)halComTxbf_ClkWorkItemCallback,
++		(PVOID)pAdapter,
++		"Txbf_ClkWorkItem");
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_RateWorkItem),
++		(RT_WORKITEM_CALL_BACK)halComTxbf_RateWorkItemCallback,
++		(PVOID)pAdapter,
++		"Txbf_RateWorkItem");
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_StatusWorkItem),
++		(RT_WORKITEM_CALL_BACK)halComTxbf_StatusWorkItemCallback,
++		(PVOID)pAdapter,
++		"Txbf_StatusWorkItem");
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_ResetTxPathWorkItem),
++		(RT_WORKITEM_CALL_BACK)halComTxbf_ResetTxPathWorkItemCallback,
++		(PVOID)pAdapter,
++		"Txbf_ResetTxPathWorkItem");
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_GetTxRateWorkItem),
++		(RT_WORKITEM_CALL_BACK)halComTxbf_GetTxRateWorkItemCallback,
++		(PVOID)pAdapter,
++		"Txbf_GetTxRateWorkItem");
++#endif
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->Adaptivity.phydm_pauseEDCCAWorkItem),
++		(RT_WORKITEM_CALL_BACK)phydm_pauseEDCCA_WorkItemCallback,
++		(PVOID)pAdapter,
++		"phydm_pauseEDCCAWorkItem");
++
++	ODM_InitializeWorkItem(
++		pDM_Odm,
++		&(pDM_Odm->Adaptivity.phydm_resumeEDCCAWorkItem),
++		(RT_WORKITEM_CALL_BACK)phydm_resumeEDCCA_WorkItemCallback,
++		(PVOID)pAdapter,
++		"phydm_resumeEDCCAWorkItem");
++
++}
++
++VOID
++ODM_FreeAllWorkItems(IN PDM_ODM_T	pDM_Odm )
++{
++#if USE_WORKITEM
++
++#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++	ODM_FreeWorkItem(&(pDM_Odm->DM_SWAT_Table.phydm_SwAntennaSwitchWorkitem));
++#endif
++
++#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++	ODM_FreeWorkItem(&(pDM_Odm->dm_sat_table.hl_smart_antenna_workitem));
++	ODM_FreeWorkItem(&(pDM_Odm->dm_sat_table.hl_smart_antenna_decision_workitem));
++#endif
++
++	ODM_FreeWorkItem(&(pDM_Odm->PathDivSwitchWorkitem));      
++	ODM_FreeWorkItem(&(pDM_Odm->CCKPathDiversityWorkitem));
++#if (defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY)) || (defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY))
++	ODM_FreeWorkItem(&(pDM_Odm->FastAntTrainingWorkitem));
++#endif
++	ODM_FreeWorkItem(&(pDM_Odm->MPT_DIGWorkitem));
++	ODM_FreeWorkItem(&(pDM_Odm->RaRptWorkitem));
++	/*ODM_FreeWorkItem((&pDM_Odm->sbdcnt_workitem));*/
++#endif
++
++#if (BEAMFORMING_SUPPORT == 1)
++	ODM_FreeWorkItem((&pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_EnterWorkItem));
++	ODM_FreeWorkItem((&pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_LeaveWorkItem));
++	ODM_FreeWorkItem((&pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_FwNdpaWorkItem));
++	ODM_FreeWorkItem((&pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_ClkWorkItem));
++	ODM_FreeWorkItem((&pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_RateWorkItem));
++	ODM_FreeWorkItem((&pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_StatusWorkItem));
++	ODM_FreeWorkItem((&pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_ResetTxPathWorkItem));
++	ODM_FreeWorkItem((&pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_GetTxRateWorkItem));
++#endif
++
++	ODM_FreeWorkItem((&pDM_Odm->Adaptivity.phydm_pauseEDCCAWorkItem));
++	ODM_FreeWorkItem((&pDM_Odm->Adaptivity.phydm_resumeEDCCAWorkItem));
++
++}
++#endif /*#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)*/
++
++/*
++VOID
++odm_FindMinimumRSSI(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{
++	u4Byte	i;
++	u1Byte	RSSI_Min = 0xFF;
++
++	for(i=0; i<ODM_ASSOCIATE_ENTRY_NUM; i++)
++	{
++//		if(pDM_Odm->pODM_StaInfo[i] != NULL)
++		if(IS_STA_VALID(pDM_Odm->pODM_StaInfo[i]) )
++		{
++			if(pDM_Odm->pODM_StaInfo[i]->RSSI_Ave < RSSI_Min)
++			{
++				RSSI_Min = pDM_Odm->pODM_StaInfo[i]->RSSI_Ave;
++			}
++		}
++	}
++
++	pDM_Odm->RSSI_Min = RSSI_Min;
++
++}
++
++VOID
++odm_IsLinked(
++	IN		PDM_ODM_T		pDM_Odm
++	)
++{
++	u4Byte i;
++	BOOLEAN Linked = FALSE;
++	
++	for(i=0; i<ODM_ASSOCIATE_ENTRY_NUM; i++)
++	{
++			if(IS_STA_VALID(pDM_Odm->pODM_StaInfo[i]) )
++			{			
++				Linked = TRUE;
++				break;
++			}
++		
++	}
++
++	pDM_Odm->bLinked = Linked;
++}
++*/
++
++VOID
++ODM_InitAllTimers(
++	IN PDM_ODM_T	pDM_Odm 
++	)
++{
++#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++	ODM_AntDivTimers(pDM_Odm,INIT_ANTDIV_TIMMER);
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++#ifdef MP_TEST
++	if (pDM_Odm->priv->pshare->rf_ft_var.mp_specific) 
++		ODM_InitializeTimer(pDM_Odm, &pDM_Odm->MPT_DIGTimer, 
++			(RT_TIMER_CALL_BACK)odm_MPT_DIGCallback, NULL, "MPT_DIGTimer");	
++#endif
++#elif(DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	ODM_InitializeTimer(pDM_Odm, &pDM_Odm->MPT_DIGTimer, 
++		(RT_TIMER_CALL_BACK)odm_MPT_DIGCallback, NULL, "MPT_DIGTimer");
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	ODM_InitializeTimer(pDM_Odm, &pDM_Odm->PathDivSwitchTimer, 
++		(RT_TIMER_CALL_BACK)odm_PathDivChkAntSwitchCallback, NULL, "PathDivTimer");
++	ODM_InitializeTimer(pDM_Odm, &pDM_Odm->CCKPathDiversityTimer, 
++		(RT_TIMER_CALL_BACK)odm_CCKTXPathDiversityCallback, NULL, "CCKPathDiversityTimer"); 
++	ODM_InitializeTimer(pDM_Odm, &pDM_Odm->sbdcnt_timer,
++		(RT_TIMER_CALL_BACK)phydm_sbd_callback, NULL, "SbdTimer"); 
++#if (BEAMFORMING_SUPPORT == 1)
++	ODM_InitializeTimer(pDM_Odm, &pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_FwNdpaTimer,
++		(RT_TIMER_CALL_BACK)halComTxbf_FwNdpaTimerCallback, NULL, "Txbf_FwNdpaTimer");
++#endif
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++#if (BEAMFORMING_SUPPORT == 1)
++	ODM_InitializeTimer(pDM_Odm, &pDM_Odm->BeamformingInfo.BeamformingTimer,
++		(RT_TIMER_CALL_BACK)Beamforming_SWTimerCallback, NULL, "BeamformingTimer");
++#endif
++#endif
++}
++
++VOID
++ODM_CancelAllTimers(
++	IN PDM_ODM_T	pDM_Odm 
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	//
++	// 2012/01/12 MH Temp BSOD fix. We need to find NIC allocate mem fail reason in 
++	// win7 platform.
++	//
++	HAL_ADAPTER_STS_CHK(pDM_Odm)
++#endif	
++
++#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++	ODM_AntDivTimers(pDM_Odm,CANCEL_ANTDIV_TIMMER);
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++#ifdef MP_TEST
++	if (pDM_Odm->priv->pshare->rf_ft_var.mp_specific)
++		ODM_CancelTimer(pDM_Odm, &pDM_Odm->MPT_DIGTimer);
++#endif
++#elif (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	ODM_CancelTimer(pDM_Odm, &pDM_Odm->MPT_DIGTimer);
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	ODM_CancelTimer(pDM_Odm, &pDM_Odm->PathDivSwitchTimer);
++	ODM_CancelTimer(pDM_Odm, &pDM_Odm->CCKPathDiversityTimer);
++	ODM_CancelTimer(pDM_Odm, &pDM_Odm->MPT_DIGTimer);
++	ODM_CancelTimer(pDM_Odm, &pDM_Odm->sbdcnt_timer);
++#if (BEAMFORMING_SUPPORT == 1)
++	ODM_CancelTimer(pDM_Odm, &pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_FwNdpaTimer);
++#endif
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++#if (BEAMFORMING_SUPPORT == 1)
++	ODM_CancelTimer(pDM_Odm, &pDM_Odm->BeamformingInfo.BeamformingTimer);
++#endif
++#endif
++
++}
++
++
++VOID
++ODM_ReleaseAllTimers(
++	IN PDM_ODM_T	pDM_Odm 
++	)
++{
++#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++	ODM_AntDivTimers(pDM_Odm,RELEASE_ANTDIV_TIMMER);
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++    #ifdef MP_TEST
++	if (pDM_Odm->priv->pshare->rf_ft_var.mp_specific)
++		ODM_ReleaseTimer(pDM_Odm, &pDM_Odm->MPT_DIGTimer);
++    #endif
++#elif(DM_ODM_SUPPORT_TYPE == ODM_WIN)
++ODM_ReleaseTimer(pDM_Odm, &pDM_Odm->MPT_DIGTimer);
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	ODM_ReleaseTimer(pDM_Odm, &pDM_Odm->PathDivSwitchTimer);
++	ODM_ReleaseTimer(pDM_Odm, &pDM_Odm->CCKPathDiversityTimer);
++	ODM_ReleaseTimer(pDM_Odm, &pDM_Odm->MPT_DIGTimer);
++	ODM_ReleaseTimer(pDM_Odm, &pDM_Odm->sbdcnt_timer);
++#if (BEAMFORMING_SUPPORT == 1)
++	ODM_ReleaseTimer(pDM_Odm, &pDM_Odm->BeamformingInfo.TxbfInfo.Txbf_FwNdpaTimer);
++#endif
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++#if (BEAMFORMING_SUPPORT == 1)
++	ODM_ReleaseTimer(pDM_Odm, &pDM_Odm->BeamformingInfo.BeamformingTimer);
++#endif
++#endif
++}
++
++
++//3============================================================
++//3 Tx Power Tracking
++//3============================================================
++
++
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++VOID
++ODM_InitAllThreads(
++	IN PDM_ODM_T	pDM_Odm 
++	)
++{
++	#ifdef TPT_THREAD
++	kTPT_task_init(pDM_Odm->priv);
++	#endif
++}
++
++VOID
++ODM_StopAllThreads(
++	IN PDM_ODM_T	pDM_Odm 
++	)
++{
++	#ifdef TPT_THREAD
++	kTPT_task_stop(pDM_Odm->priv);
++	#endif
++}
++#endif	
++
++
++#if( DM_ODM_SUPPORT_TYPE == ODM_WIN) 
++//
++// 2011/07/26 MH Add an API for testing IQK fail case.
++//
++BOOLEAN
++ODM_CheckPowerStatus(
++	IN	PADAPTER		Adapter)
++{
++
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T			pDM_Odm = &pHalData->DM_OutSrc;
++	RT_RF_POWER_STATE 	rtState;
++	PMGNT_INFO			pMgntInfo	= &(Adapter->MgntInfo);
++
++	// 2011/07/27 MH We are not testing ready~~!! We may fail to get correct value when init sequence.
++	if (pMgntInfo->init_adpt_in_progress == TRUE)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ODM_CheckPowerStatus Return TRUE, due to initadapter\n"));
++		return	TRUE;
++	}
++	
++	//
++	//	2011/07/19 MH We can not execute tx pwoer tracking/ LLC calibrate or IQK.
++	//
++	Adapter->HalFunc.GetHwRegHandler(Adapter, HW_VAR_RF_STATE, (pu1Byte)(&rtState));	
++	if(Adapter->bDriverStopped || Adapter->bDriverIsGoingToPnpSetPowerSleep || rtState == eRfOff)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ODM_CheckPowerStatus Return FALSE, due to %d/%d/%d\n", 
++		Adapter->bDriverStopped, Adapter->bDriverIsGoingToPnpSetPowerSleep, rtState));
++		return	FALSE;
++	}
++	return	TRUE;
++}
++#elif( DM_ODM_SUPPORT_TYPE == ODM_AP)
++BOOLEAN
++ODM_CheckPowerStatus(
++		IN	PADAPTER		Adapter)
++{
++	/*
++	   HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	   PDM_ODM_T			pDM_Odm = &pHalData->DM_OutSrc;
++	   RT_RF_POWER_STATE 	rtState;
++	   PMGNT_INFO			pMgntInfo	= &(Adapter->MgntInfo);
++
++	// 2011/07/27 MH We are not testing ready~~!! We may fail to get correct value when init sequence.
++	if (pMgntInfo->init_adpt_in_progress == TRUE)
++	{
++	ODM_RT_TRACE(pDM_Odm,COMP_INIT, DBG_LOUD, ("ODM_CheckPowerStatus Return TRUE, due to initadapter"));
++	return	TRUE;
++	}
++
++	//
++	//	2011/07/19 MH We can not execute tx pwoer tracking/ LLC calibrate or IQK.
++	//
++	Adapter->HalFunc.GetHwRegHandler(Adapter, HW_VAR_RF_STATE, (pu1Byte)(&rtState));	
++	if(Adapter->bDriverStopped || Adapter->bDriverIsGoingToPnpSetPowerSleep || rtState == eRfOff)
++	{
++	ODM_RT_TRACE(pDM_Odm,COMP_INIT, DBG_LOUD, ("ODM_CheckPowerStatus Return FALSE, due to %d/%d/%d\n", 
++	Adapter->bDriverStopped, Adapter->bDriverIsGoingToPnpSetPowerSleep, rtState));
++	return	FALSE;
++	}
++	 */
++	return	TRUE;
++}
++#endif
++
++// need to ODM CE Platform
++//move to here for ANT detection mechanism using
++
++#if ((DM_ODM_SUPPORT_TYPE == ODM_WIN)||(DM_ODM_SUPPORT_TYPE == ODM_CE))
++u4Byte
++GetPSDData(
++	IN PDM_ODM_T	pDM_Odm,
++	unsigned int 	point,
++	u1Byte initial_gain_psd)
++{
++	//unsigned int	val, rfval;
++	//int	psd_report;
++	u4Byte	psd_report;
++	
++	//HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	//Debug Message
++	//val = PHY_QueryBBReg(Adapter,0x908, bMaskDWord);
++	//DbgPrint("Reg908 = 0x%x\n",val);
++	//val = PHY_QueryBBReg(Adapter,0xDF4, bMaskDWord);
++	//rfval = PHY_QueryRFReg(Adapter, ODM_RF_PATH_A, 0x00, bRFRegOffsetMask);
++	//DbgPrint("RegDF4 = 0x%x, RFReg00 = 0x%x\n",val, rfval);
++	//DbgPrint("PHYTXON = %x, OFDMCCA_PP = %x, CCKCCA_PP = %x, RFReg00 = %x\n",
++		//(val&BIT25)>>25, (val&BIT14)>>14, (val&BIT15)>>15, rfval);
++
++	//Set DCO frequency index, offset=(40MHz/SamplePts)*point
++	ODM_SetBBReg(pDM_Odm, 0x808, 0x3FF, point);
++
++	//Start PSD calculation, Reg808[22]=0->1
++	ODM_SetBBReg(pDM_Odm, 0x808, BIT22, 1);
++	//Need to wait for HW PSD report
++	ODM_StallExecution(1000);
++	ODM_SetBBReg(pDM_Odm, 0x808, BIT22, 0);
++	//Read PSD report, Reg8B4[15:0]
++	psd_report = ODM_GetBBReg(pDM_Odm,0x8B4, bMaskDWord) & 0x0000FFFF;
++	
++#if 1//(DEV_BUS_TYPE == RT_PCI_INTERFACE) && ( (RT_PLATFORM == PLATFORM_LINUX) || (RT_PLATFORM == PLATFORM_MACOSX))
++	psd_report = (u4Byte) (odm_ConvertTo_dB(psd_report))+(u4Byte)(initial_gain_psd-0x1c);
++#else
++	psd_report = (int) (20*log10((double)psd_report))+(int)(initial_gain_psd-0x1c);
++#endif
++
++	return psd_report;
++	
++}
++#endif
++
++u4Byte 
++odm_ConvertTo_dB(
++	u4Byte 	Value)
++{
++	u1Byte i;
++	u1Byte j;
++	u4Byte dB;
++
++	Value = Value & 0xFFFF;
++
++	for (i = 0; i < 12; i++)
++	{
++		if (Value <= dB_Invert_Table[i][7])
++		{
++			break;
++		}
++	}
++
++	if (i >= 12)
++	{
++		return (96);	// maximum 96 dB
++	}
++
++	for (j = 0; j < 8; j++)
++	{
++		if (Value <= dB_Invert_Table[i][j])
++		{
++			break;
++		}
++	}
++
++	dB = (i << 3) + j + 1;
++
++	return (dB);
++}
++
++u4Byte 
++odm_ConvertTo_linear(
++	u4Byte 	Value)
++{
++	u1Byte i;
++	u1Byte j;
++	u4Byte linear;
++	
++	/* 1dB~96dB */
++	
++	Value = Value & 0xFF;
++
++	i = (u1Byte)((Value - 1) >> 3);
++	j = (u1Byte)(Value - 1) - (i << 3);
++
++	linear = dB_Invert_Table[i][j];
++
++	return (linear);
++}
++
++//
++// ODM multi-port consideration, added by Roger, 2013.10.01.
++//
++VOID
++ODM_AsocEntry_Init(
++	IN	PDM_ODM_T	pDM_Odm
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER pLoopAdapter = GetDefaultAdapter(pDM_Odm->Adapter);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pLoopAdapter);
++	PDM_ODM_T		 pDM_OutSrc = &pHalData->DM_OutSrc;
++	u1Byte	TotalAssocEntryNum = 0;
++	u1Byte	index = 0;
++	u1Byte	adaptercount = 0;
++
++	ODM_CmnInfoPtrArrayHook(pDM_OutSrc, ODM_CMNINFO_STA_STATUS, 0, &pLoopAdapter->MgntInfo.DefaultPort[0]);
++	pLoopAdapter->MgntInfo.DefaultPort[0].MultiPortStationIdx = TotalAssocEntryNum;
++		
++	adaptercount += 1;
++	RT_TRACE(COMP_INIT, DBG_LOUD, ("adaptercount=%d\n", adaptercount));	
++	pLoopAdapter = GetNextExtAdapter(pLoopAdapter);
++	TotalAssocEntryNum +=1;
++
++	while(pLoopAdapter)
++	{
++		for (index = 0; index <ASSOCIATE_ENTRY_NUM; index++)
++		{
++			ODM_CmnInfoPtrArrayHook(pDM_OutSrc, ODM_CMNINFO_STA_STATUS, TotalAssocEntryNum+index, &pLoopAdapter->MgntInfo.AsocEntry[index]);
++			pLoopAdapter->MgntInfo.AsocEntry[index].MultiPortStationIdx = TotalAssocEntryNum+index;				
++		}
++		
++		TotalAssocEntryNum+= index;
++		if(IS_HARDWARE_TYPE_8188E((pDM_Odm->Adapter)))
++			pLoopAdapter->RASupport = TRUE;
++		adaptercount += 1;
++		RT_TRACE(COMP_INIT, DBG_LOUD, ("adaptercount=%d\n", adaptercount));
++		pLoopAdapter = GetNextExtAdapter(pLoopAdapter);
++	}
++
++	RT_TRACE(COMP_INIT, DBG_LOUD, ("TotalAssocEntryNum = %d\n", TotalAssocEntryNum));
++	if (TotalAssocEntryNum < (ODM_ASSOCIATE_ENTRY_NUM-1)) {
++	
++		RT_TRACE(COMP_INIT, DBG_LOUD, ("In hook null\n"));
++		for (index = TotalAssocEntryNum; index < ODM_ASSOCIATE_ENTRY_NUM; index++)
++			ODM_CmnInfoPtrArrayHook(pDM_OutSrc, ODM_CMNINFO_STA_STATUS, index, NULL);
++	}
++#endif
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++/* Justin: According to the current RRSI to adjust Response Frame TX power, 2012/11/05 */
++void odm_dtc(PDM_ODM_T pDM_Odm)
++{
++#ifdef CONFIG_DM_RESP_TXAGC
++	#define DTC_BASE            35	/* RSSI higher than this value, start to decade TX power */
++	#define DTC_DWN_BASE       (DTC_BASE-5)	/* RSSI lower than this value, start to increase TX power */
++
++	/* RSSI vs TX power step mapping: decade TX power */
++	static const u8 dtc_table_down[]={
++		DTC_BASE,
++		(DTC_BASE+5),
++		(DTC_BASE+10),
++		(DTC_BASE+15),
++		(DTC_BASE+20),
++		(DTC_BASE+25)
++	};
++
++	/* RSSI vs TX power step mapping: increase TX power */
++	static const u8 dtc_table_up[]={
++		DTC_DWN_BASE,
++		(DTC_DWN_BASE-5),
++		(DTC_DWN_BASE-10),
++		(DTC_DWN_BASE-15),
++		(DTC_DWN_BASE-15),
++		(DTC_DWN_BASE-20),
++		(DTC_DWN_BASE-20),
++		(DTC_DWN_BASE-25),
++		(DTC_DWN_BASE-25),
++		(DTC_DWN_BASE-30),
++		(DTC_DWN_BASE-35)
++	};
++
++	u8 i;
++	u8 dtc_steps=0;
++	u8 sign;
++	u8 resp_txagc=0;
++
++	#if 0
++	/* As DIG is disabled, DTC is also disable */
++	if(!(pDM_Odm->SupportAbility & ODM_XXXXXX))
++		return;
++	#endif
++
++	if (DTC_BASE < pDM_Odm->RSSI_Min) {
++		/* need to decade the CTS TX power */
++		sign = 1;
++		for (i=0;i<ARRAY_SIZE(dtc_table_down);i++)
++		{
++			if ((dtc_table_down[i] >= pDM_Odm->RSSI_Min) || (dtc_steps >= 6))
++				break;
++			else
++				dtc_steps++;
++		}
++	}
++#if 0
++	else if (DTC_DWN_BASE > pDM_Odm->RSSI_Min)
++	{
++		/* needs to increase the CTS TX power */
++		sign = 0;
++		dtc_steps = 1;
++		for (i=0;i<ARRAY_SIZE(dtc_table_up);i++)
++		{
++			if ((dtc_table_up[i] <= pDM_Odm->RSSI_Min) || (dtc_steps>=10))
++				break;
++			else
++				dtc_steps++;
++		}
++	}
++#endif
++	else
++	{
++		sign = 0;
++		dtc_steps = 0;
++	}
++
++	resp_txagc = dtc_steps | (sign << 4);
++	resp_txagc = resp_txagc | (resp_txagc << 5);
++	ODM_Write1Byte(pDM_Odm, 0x06d9, resp_txagc);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_PWR_TRAIN, ODM_DBG_LOUD, ("%s RSSI_Min:%u, set RESP_TXAGC to %s %u\n",
++		__func__, pDM_Odm->RSSI_Min, sign ? "minus" : "plus", dtc_steps));
++#endif /* CONFIG_RESP_TXAGC_ADJUST */
++}
++
++#endif /* #if (DM_ODM_SUPPORT_TYPE == ODM_CE) */
++
++VOID
++odm_UpdatePowerTrainingState(
++	IN	PDM_ODM_T	pDM_Odm
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PFALSE_ALARM_STATISTICS 	FalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure( pDM_Odm , PHYDM_FALSEALMCNT);
++	pDIG_T						pDM_DigTable = &pDM_Odm->DM_DigTable;
++	u4Byte						score = 0;
++
++	if(!(pDM_Odm->SupportAbility & ODM_BB_PWR_TRAIN))
++		return;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState()============>\n"));
++	pDM_Odm->bChangeState = FALSE;
++
++	// Debug command
++	if(pDM_Odm->ForcePowerTrainingState)
++	{
++		if(pDM_Odm->ForcePowerTrainingState == 1 && !pDM_Odm->bDisablePowerTraining)
++		{
++			pDM_Odm->bChangeState = TRUE;
++			pDM_Odm->bDisablePowerTraining = TRUE;
++		}
++		else if(pDM_Odm->ForcePowerTrainingState == 2 && pDM_Odm->bDisablePowerTraining)
++		{
++			pDM_Odm->bChangeState = TRUE;
++			pDM_Odm->bDisablePowerTraining = FALSE;
++		}
++
++		pDM_Odm->PT_score = 0;
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM = 0;
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK = 0;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): ForcePowerTrainingState = %d\n", 
++			pDM_Odm->ForcePowerTrainingState));
++		return;
++	}
++	
++	if(!pDM_Odm->bLinked)
++		return;
++	
++	// First connect
++	if((pDM_Odm->bLinked) && (pDM_DigTable->bMediaConnect_0 == FALSE))
++	{
++		pDM_Odm->PT_score = 0;
++		pDM_Odm->bChangeState = TRUE;
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM = 0;
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK = 0;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): First Connect\n"));
++		return;
++	}
++
++	// Compute score
++	if(pDM_Odm->NHM_cnt_0 >= 215)
++		score = 2;
++	else if(pDM_Odm->NHM_cnt_0 >= 190) 
++		score = 1;							// unknow state
++	else
++	{
++		u4Byte	RX_Pkt_Cnt;
++		
++		RX_Pkt_Cnt = (u4Byte)(pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM) + (u4Byte)(pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK);
++		
++		if((FalseAlmCnt->Cnt_CCA_all > 31 && RX_Pkt_Cnt > 31) && (FalseAlmCnt->Cnt_CCA_all >= RX_Pkt_Cnt))
++		{
++			if((RX_Pkt_Cnt + (RX_Pkt_Cnt >> 1)) <= FalseAlmCnt->Cnt_CCA_all)
++				score = 0;
++			else if((RX_Pkt_Cnt + (RX_Pkt_Cnt >> 2)) <= FalseAlmCnt->Cnt_CCA_all)
++				score = 1;
++			else
++				score = 2;
++		}
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): RX_Pkt_Cnt = %d, Cnt_CCA_all = %d\n", 
++			RX_Pkt_Cnt, FalseAlmCnt->Cnt_CCA_all));
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): NumQryPhyStatusOFDM = %d, NumQryPhyStatusCCK = %d\n",
++			(u4Byte)(pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM), (u4Byte)(pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK)));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): NHM_cnt_0 = %d, score = %d\n", 
++		pDM_Odm->NHM_cnt_0, score));
++
++	// smoothing
++	pDM_Odm->PT_score = (score << 4) + (pDM_Odm->PT_score>>1) + (pDM_Odm->PT_score>>2);
++	score = (pDM_Odm->PT_score + 32) >> 6;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): PT_score = %d, score after smoothing = %d\n", 
++		pDM_Odm->PT_score, score));
++
++	// Mode decision
++	if(score == 2)
++	{
++		if(pDM_Odm->bDisablePowerTraining)
++		{
++			pDM_Odm->bChangeState = TRUE;
++			pDM_Odm->bDisablePowerTraining = FALSE;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): Change state\n"));
++		}
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): Enable Power Training\n"));
++	}
++	else if(score == 0)
++	{
++		if(!pDM_Odm->bDisablePowerTraining)
++		{
++			pDM_Odm->bChangeState = TRUE;
++			pDM_Odm->bDisablePowerTraining = TRUE;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): Change state\n"));
++		}
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_RA_MASK, ODM_DBG_LOUD,("odm_UpdatePowerTrainingState(): Disable Power Training\n"));
++	}
++
++	pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM = 0;
++	pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK = 0;
++#endif
++}
++
++
++
++/*===========================================================*/
++/* The following is for compile only*/
++/*===========================================================*/
++/*#define TARGET_CHNL_NUM_2G_5G	59*/
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++u1Byte GetRightChnlPlaceforIQK(u1Byte chnl)
++{
++	u1Byte	channel_all[TARGET_CHNL_NUM_2G_5G] = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 36, 38, 40, 42, 44, 46, 48, 50, 52, 54, 56, 58, 60, 62, 64, 100, 
++		102, 104, 106, 108, 110, 112, 114, 116, 118, 120, 122, 124, 126, 128, 130, 132, 134, 136, 138, 140, 149, 151, 153, 155, 157, 159, 161, 163, 165};
++	u1Byte	place = chnl;
++
++	
++	if (chnl > 14) {
++		for (place = 14; place < sizeof(channel_all); place++) {
++			if (channel_all[place] == chnl)
++				return place-13;
++		}
++	}
++	
++	return 0;
++}
++
++#endif
++/*===========================================================*/
++
++VOID
++phydm_NoisyDetection(
++	IN	PDM_ODM_T	pDM_Odm
++	)
++{
++	u4Byte  Total_FA_Cnt, Total_CCA_Cnt;
++	u4Byte  Score = 0, i, Score_Smooth;
++    
++	Total_CCA_Cnt = pDM_Odm->FalseAlmCnt.Cnt_CCA_all;
++	Total_FA_Cnt  = pDM_Odm->FalseAlmCnt.Cnt_all;    
++
++/*
++    if( Total_FA_Cnt*16>=Total_CCA_Cnt*14 )         // 87.5
++    
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*12 )    // 75
++    
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*10 )    // 56.25
++    
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*8 )     // 50
++
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*7 )     // 43.75
++
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*6 )     // 37.5
++
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*5 )     // 31.25%
++        
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*4 )     // 25%
++
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*3 )     // 18.75%
++
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*2 )     // 12.5%
++
++    else if( Total_FA_Cnt*16>=Total_CCA_Cnt*1 )     // 6.25%
++*/
++    for(i=0;i<=16;i++)
++    {
++        if( Total_FA_Cnt*16>=Total_CCA_Cnt*(16-i) )
++        {
++            Score = 16-i;
++            break;
++        }
++    }
++
++    // NoisyDecision_Smooth = NoisyDecision_Smooth>>1 + (Score<<3)>>1;
++    pDM_Odm->NoisyDecision_Smooth = (pDM_Odm->NoisyDecision_Smooth>>1) + (Score<<2);
++
++    // Round the NoisyDecision_Smooth: +"3" comes from (2^3)/2-1
++    Score_Smooth = (Total_CCA_Cnt>=300)?((pDM_Odm->NoisyDecision_Smooth+3)>>3):0;
++
++    pDM_Odm->NoisyDecision = (Score_Smooth>=3)?1:0;
++/*
++    switch(Score_Smooth)
++    {
++        case 0:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=0%%\n"));
++            break;
++        case 1:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=6.25%%\n"));
++            break;
++        case 2:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=12.5%%\n"));
++            break;
++        case 3:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=18.75%%\n"));
++            break;
++        case 4:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=25%%\n"));
++            break;
++        case 5:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=31.25%%\n"));
++            break;
++        case 6:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=37.5%%\n"));
++            break;
++        case 7:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=43.75%%\n"));
++            break;
++        case 8:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=50%%\n"));
++            break;
++        case 9:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=56.25%%\n"));
++            break;
++        case 10:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=62.5%%\n"));
++            break;
++        case 11:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=68.75%%\n"));
++            break;
++        case 12:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=75%%\n"));
++            break;
++        case 13:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=81.25%%\n"));
++            break;
++        case 14:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=87.5%%\n"));
++            break;
++        case 15:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=93.75%%\n"));            
++            break;
++        case 16:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Total_FA_Cnt/Total_CCA_Cnt=100%%\n"));
++            break;
++        default:
++            ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,
++            ("[NoisyDetection] Unknown Value!! Need Check!!\n"));            
++    }
++*/        
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_NOISY_DETECT, ODM_DBG_LOUD,
++	("[NoisyDetection] Total_CCA_Cnt=%d, Total_FA_Cnt=%d, NoisyDecision_Smooth=%d, Score=%d, Score_Smooth=%d, pDM_Odm->NoisyDecision=%d\n",
++	Total_CCA_Cnt, Total_FA_Cnt, pDM_Odm->NoisyDecision_Smooth, Score, Score_Smooth, pDM_Odm->NoisyDecision));
++	
++}
++
++VOID
++phydm_csi_mask_enable(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		enable
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte		reg_value = 0;
++
++	reg_value = (enable == CSI_MASK_ENABLE) ? 1 : 0;
++	
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++
++		ODM_SetBBReg(pDM_Odm, 0xD2C, BIT28, reg_value);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_API, ODM_DBG_LOUD, ("Enable CSI Mask:  Reg 0xD2C[28] = ((0x%x))\n", reg_value));
++		
++	} else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++
++		ODM_SetBBReg(pDM_Odm, 0x874, BIT0, reg_value);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_API, ODM_DBG_LOUD, ("Enable CSI Mask:  Reg 0x874[0] = ((0x%x))\n", reg_value));
++	}
++	
++}
++
++VOID
++phydm_clean_all_csi_mask(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++		
++		ODM_SetBBReg(pDM_Odm, 0xD40, bMaskDWord, 0);
++		ODM_SetBBReg(pDM_Odm, 0xD44, bMaskDWord, 0);
++		ODM_SetBBReg(pDM_Odm, 0xD48, bMaskDWord, 0);
++		ODM_SetBBReg(pDM_Odm, 0xD4c, bMaskDWord, 0);
++		
++	} else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++	
++		ODM_SetBBReg(pDM_Odm, 0x880, bMaskDWord, 0);
++		ODM_SetBBReg(pDM_Odm, 0x884, bMaskDWord, 0);
++		ODM_SetBBReg(pDM_Odm, 0x888, bMaskDWord, 0);
++		ODM_SetBBReg(pDM_Odm, 0x88c, bMaskDWord, 0);
++		ODM_SetBBReg(pDM_Odm, 0x890, bMaskDWord, 0);
++		ODM_SetBBReg(pDM_Odm, 0x894, bMaskDWord, 0);
++		ODM_SetBBReg(pDM_Odm, 0x898, bMaskDWord, 0);
++		ODM_SetBBReg(pDM_Odm, 0x89c, bMaskDWord, 0);
++	}
++}
++
++VOID
++phydm_set_csi_mask_reg(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		tone_idx_tmp,
++	IN		u1Byte		tone_direction
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte		byte_offset, bit_offset;
++	u4Byte		target_reg;
++	u1Byte		reg_tmp_value;
++	u4Byte		tone_num = 64;
++	u4Byte		tone_num_shift = 0;
++	u4Byte		csi_mask_reg_p = 0, csi_mask_reg_n = 0;
++
++	/* calculate real tone idx*/
++	if ((tone_idx_tmp % 10) >= 5)
++		tone_idx_tmp += 10;
++
++	tone_idx_tmp = (tone_idx_tmp/10);
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++
++		tone_num = 64;
++		csi_mask_reg_p = 0xD40;
++		csi_mask_reg_n = 0xD48;		
++		
++	} else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++
++		tone_num = 128;
++		csi_mask_reg_p = 0x880;
++		csi_mask_reg_n = 0x890;	
++	}
++	
++	if (tone_direction == FREQ_POSITIVE) {
++
++		if (tone_idx_tmp >= (tone_num - 1))
++			tone_idx_tmp = (tone_num - 1);
++		
++		byte_offset = (u1Byte)(tone_idx_tmp >> 3);
++		bit_offset = (u1Byte)(tone_idx_tmp & 0x7);
++		target_reg = csi_mask_reg_p + byte_offset;
++		
++	} else {
++		tone_num_shift = tone_num;
++	
++		if (tone_idx_tmp >= tone_num)
++			tone_idx_tmp = tone_num;
++
++		tone_idx_tmp = tone_num - tone_idx_tmp;
++		
++		byte_offset = (u1Byte)(tone_idx_tmp >> 3);
++		bit_offset = (u1Byte)(tone_idx_tmp & 0x7);			
++		target_reg = csi_mask_reg_n + byte_offset;
++	}
++	
++	reg_tmp_value = ODM_Read1Byte(pDM_Odm, target_reg);
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_API, ODM_DBG_LOUD, ("Pre Mask tone idx[%d]:  Reg0x%x = ((0x%x))\n", (tone_idx_tmp + tone_num_shift), target_reg, reg_tmp_value));
++	reg_tmp_value |= BIT(bit_offset);
++	ODM_Write1Byte(pDM_Odm, target_reg, reg_tmp_value);
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_API, ODM_DBG_LOUD, ("New Mask tone idx[%d]:  Reg0x%x = ((0x%x))\n", (tone_idx_tmp + tone_num_shift), target_reg, reg_tmp_value));
++}
++
++VOID
++phydm_set_nbi_reg(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		tone_idx_tmp,
++	IN		u4Byte		bw
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte	nbi_table_128[NBI_TABLE_SIZE_128] = {25, 55, 85, 115, 135, 155, 185, 205, 225, 245,		/*1~10*/		/*tone_idx X 10*/
++												265, 285, 305, 335, 355, 375, 395, 415, 435, 455,	/*11~20*/
++												485, 505, 525, 555, 585, 615, 635};				/*21~27*/
++	
++	u4Byte	nbi_table_256[NBI_TABLE_SIZE_256] = { 25,   55,   85, 115, 135, 155, 175, 195, 225, 245,	/*1~10*/
++												265, 285, 305, 325, 345, 365, 385, 405, 425, 445,	/*11~20*/
++												465, 485, 505, 525, 545, 565, 585, 605, 625, 645,	/*21~30*/
++												665, 695, 715, 735, 755, 775, 795, 815, 835, 855,	/*31~40*/
++												875, 895, 915, 935, 955, 975, 995, 1015, 1035, 1055,	/*41~50*/
++												1085, 1105, 1125, 1145, 1175, 1195, 1225, 1255, 1275};	/*51~59*/
++
++	u4Byte	reg_idx = 0;
++	u4Byte	i;
++	u1Byte	nbi_table_idx = FFT_128_TYPE;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++		
++		nbi_table_idx = FFT_128_TYPE;
++	} else if (pDM_Odm->SupportICType & ODM_IC_11AC_1_SERIES) {
++	
++		nbi_table_idx = FFT_256_TYPE;
++	} else if (pDM_Odm->SupportICType & ODM_IC_11AC_2_SERIES) {
++	
++		if (bw == 80)
++			nbi_table_idx = FFT_256_TYPE;
++		else /*20M, 40M*/
++			nbi_table_idx = FFT_128_TYPE;
++	}
++
++	if (nbi_table_idx == FFT_128_TYPE) {
++		
++		for (i = 0; i < NBI_TABLE_SIZE_128; i++) {
++			if (tone_idx_tmp < nbi_table_128[i]) {
++				reg_idx = i+1;
++				break;
++			}
++		}
++		
++	} else if (nbi_table_idx == FFT_256_TYPE) {
++
++		for (i = 0; i < NBI_TABLE_SIZE_256; i++) {
++			if (tone_idx_tmp < nbi_table_256[i]) {
++				reg_idx = i+1;
++				break;
++			}
++		}	
++	}
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++		ODM_SetBBReg(pDM_Odm, 0xc40, 0x1f000000, reg_idx);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_API, ODM_DBG_LOUD, ("Set tone idx:  Reg0xC40[28:24] = ((0x%x))\n", reg_idx));
++		/**/
++	} else {
++		ODM_SetBBReg(pDM_Odm, 0x87c, 0xfc000, reg_idx);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_API, ODM_DBG_LOUD, ("Set tone idx: Reg0x87C[19:14] = ((0x%x))\n", reg_idx));
++		/**/
++	}
++}
++
++
++VOID
++phydm_nbi_enable(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		enable
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte		reg_value = 0;
++
++	reg_value = (enable == NBI_ENABLE) ? 1 : 0;
++	
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++
++		ODM_SetBBReg(pDM_Odm, 0xc40, BIT9, reg_value);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_API, ODM_DBG_LOUD, ("Enable NBI Reg0xC40[9] = ((0x%x))\n", reg_value));
++		
++	} else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++
++		ODM_SetBBReg(pDM_Odm, 0x87c, BIT13, reg_value);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_API, ODM_DBG_LOUD, ("Enable NBI Reg0x87C[13] = ((0x%x))\n", reg_value));
++	}
++}
++
++u1Byte
++phydm_calculate_fc(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		channel,
++	IN		u4Byte		bw,
++	IN		u4Byte		Second_ch,
++	IN OUT	u4Byte		*fc_in
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte		fc = *fc_in;
++	u4Byte		start_ch_per_40m[NUM_START_CH_40M] = {36, 44, 52, 60, 100, 108, 116, 124, 132, 140, 149, 157, 165, 173};
++	u4Byte		start_ch_per_80m[NUM_START_CH_80M] = {36, 52, 100, 116, 132, 149, 165}; 
++	pu4Byte		p_start_ch = &(start_ch_per_40m[0]);
++	u4Byte		num_start_channel = NUM_START_CH_40M;
++	u4Byte		channel_offset = 0;
++	u4Byte		i;
++
++	/*2.4G*/
++	if (channel <= 14 && channel > 0) {
++
++		if (bw == 80) {
++			return	SET_ERROR;
++		}
++
++		fc = 2412 + (channel - 1)*5;
++
++		if (bw == 40 && (Second_ch == PHYDM_ABOVE)) {
++			
++			if (channel >= 10) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_API, ODM_DBG_LOUD, ("CH = ((%d)), Scnd_CH = ((%d)) Error Setting\n", channel, Second_ch));
++				return	SET_ERROR;
++			}
++			fc += 10;
++		} else if (bw == 40 && (Second_ch == PHYDM_BELOW)) {
++		
++			if (channel <= 2) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_API, ODM_DBG_LOUD, ("CH = ((%d)), Scnd_CH = ((%d)) Error Setting\n", channel, Second_ch));
++				return	SET_ERROR;
++			}
++			fc -= 10;
++		}
++	}
++	/*5G*/
++	else if (channel >= 36 && channel <= 177) {
++
++		if (bw != 20) {
++			
++			if (bw == 40) {
++				num_start_channel = NUM_START_CH_40M;
++				p_start_ch = &(start_ch_per_40m[0]);
++				channel_offset = CH_OFFSET_40M;
++			} else if (bw == 80) {
++				num_start_channel = NUM_START_CH_80M;
++				p_start_ch = &(start_ch_per_80m[0]);
++				channel_offset = CH_OFFSET_80M;
++			}
++
++			for (i = 0; i < num_start_channel; i++) {
++				
++				if (channel < p_start_ch[i+1]) {
++					channel = p_start_ch[i] + channel_offset;
++					break;
++				}
++			}
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_API, ODM_DBG_LOUD, ("Mod_CH = ((%d))\n", channel));
++		}
++		
++		fc = 5180 + (channel-36)*5;
++		
++	} else {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_API, ODM_DBG_LOUD, ("CH = ((%d)) Error Setting\n", channel));
++		return	SET_ERROR;
++	}
++	
++	*fc_in = fc;
++	
++	return SET_SUCCESS;
++}
++
++
++u1Byte
++phydm_calculate_intf_distance(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		bw,
++	IN		u4Byte		fc,
++	IN		u4Byte		f_interference,
++	IN OUT	u4Byte		*p_tone_idx_tmp_in
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte		bw_up, bw_low;
++	u4Byte		int_distance;
++	u4Byte		tone_idx_tmp;
++	u1Byte		set_result = SET_NO_NEED;
++	
++	bw_up = fc + bw/2;
++	bw_low = fc - bw/2;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_API, ODM_DBG_LOUD, ("[f_l, fc, fh] = [ %d, %d, %d ], f_int = ((%d))\n", bw_low, fc, bw_up, f_interference));
++
++	if ((f_interference >= bw_low) && (f_interference <= bw_up)) {
++
++		int_distance = (fc >= f_interference) ? (fc - f_interference) : (f_interference - fc);
++		tone_idx_tmp = (int_distance<<5);  /* =10*(int_distance /0.3125) */
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_API, ODM_DBG_LOUD, ("int_distance = ((%d MHz)) Mhz, tone_idx_tmp = ((%d.%d))\n", int_distance, (tone_idx_tmp/10), (tone_idx_tmp%10)));
++		*p_tone_idx_tmp_in = tone_idx_tmp;
++		set_result = SET_SUCCESS;
++	}
++
++	return	set_result;
++
++}
++
++
++u1Byte
++phydm_csi_mask_setting(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		enable,
++	IN		u4Byte		channel,
++	IN		u4Byte		bw,
++	IN		u4Byte		f_interference,
++	IN		u4Byte		Second_ch
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte		fc;		
++	u4Byte		int_distance;
++	u1Byte		tone_direction;
++	u4Byte		tone_idx_tmp;
++	u1Byte		set_result = SET_SUCCESS;
++
++	if (enable == CSI_MASK_DISABLE) {
++		set_result = SET_SUCCESS;
++		phydm_clean_all_csi_mask(pDM_Odm);
++	
++	} else {
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_API, ODM_DBG_LOUD, ("[Set CSI MASK_] CH = ((%d)), BW = ((%d)), f_intf = ((%d)), Scnd_CH = ((%s))\n", 
++			channel, bw, f_interference, (((bw == 20) || (channel > 14)) ? "Don't care" : (Second_ch == PHYDM_ABOVE) ? "H" : "L")));
++
++		/*calculate fc*/
++		if (phydm_calculate_fc(pDM_Odm, channel, bw, Second_ch, &fc) == SET_ERROR)
++			set_result = SET_ERROR;
++			
++		else {
++			/*calculate interference distance*/
++			if (phydm_calculate_intf_distance(pDM_Odm, bw, fc, f_interference, &tone_idx_tmp) == SET_SUCCESS) {
++				
++				tone_direction = (f_interference >= fc) ? FREQ_POSITIVE : FREQ_NEGATIVE;
++				phydm_set_csi_mask_reg(pDM_Odm, tone_idx_tmp, tone_direction);
++				set_result = SET_SUCCESS;
++			} else
++				set_result = SET_NO_NEED;
++		}
++	}
++
++	if (set_result == SET_SUCCESS)
++		phydm_csi_mask_enable(pDM_Odm, enable);
++	else
++		phydm_csi_mask_enable(pDM_Odm, CSI_MASK_DISABLE);
++
++	return	set_result;
++}
++
++u1Byte
++phydm_nbi_setting(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		enable,
++	IN		u4Byte		channel,
++	IN		u4Byte		bw,
++	IN		u4Byte		f_interference,
++	IN		u4Byte		Second_ch
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte		fc;		
++	u4Byte		int_distance;
++	u4Byte		tone_idx_tmp;
++	u1Byte		set_result = SET_SUCCESS;
++	u4Byte		bw_max = 40;
++	
++	if (enable == NBI_DISABLE) 
++		set_result = SET_SUCCESS;
++	
++	else {
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_API, ODM_DBG_LOUD, ("[Set NBI] CH = ((%d)), BW = ((%d)), f_intf = ((%d)), Scnd_CH = ((%s))\n", 
++			channel, bw, f_interference, (((Second_ch == PHYDM_DONT_CARE) || (bw == 20) || (channel > 14)) ? "Don't care" : (Second_ch == PHYDM_ABOVE) ? "H" : "L")));			
++
++		/*calculate fc*/
++		if (phydm_calculate_fc(pDM_Odm, channel, bw, Second_ch, &fc) == SET_ERROR)
++			set_result = SET_ERROR;
++			
++		else {
++			/*calculate interference distance*/
++			if (phydm_calculate_intf_distance(pDM_Odm, bw, fc, f_interference, &tone_idx_tmp) == SET_SUCCESS) {
++				
++				phydm_set_nbi_reg(pDM_Odm, tone_idx_tmp, bw);
++				set_result = SET_SUCCESS;
++			} else
++				set_result = SET_NO_NEED;
++		}
++	}
++
++	if (set_result == SET_SUCCESS)
++		phydm_nbi_enable(pDM_Odm, enable);
++	else
++		phydm_nbi_enable(pDM_Odm, NBI_DISABLE);
++
++	return	set_result;
++}
++
++VOID
++phydm_api_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		function_map,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char			*output,
++	IN		u4Byte		*_out_len
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			used = *_used;
++	u4Byte			out_len = *_out_len;
++	u4Byte			channel =  dm_value[1];
++	u4Byte			bw =  dm_value[2];
++	u4Byte			f_interference =  dm_value[3];
++	u4Byte			Second_ch =  dm_value[4];
++	u1Byte			set_result = 0;
++
++	/*PHYDM_API_NBI*/
++	/*-------------------------------------------------------------------------------------------------------------------------------*/
++	if (function_map == PHYDM_API_NBI) {
++		
++		if (dm_value[0] == 100) {
++			
++			PHYDM_SNPRINTF((output+used, out_len-used, "[HELP-NBI]  EN(on=1, off=2)   CH   BW(20/40/80)  f_intf(Mhz)    Scnd_CH(L=1, H=2)\n"));
++			return;
++			
++		} else if (dm_value[0] == NBI_ENABLE) {
++		
++			PHYDM_SNPRINTF((output+used, out_len-used, "[Enable NBI] CH = ((%d)), BW = ((%d)), f_intf = ((%d)), Scnd_CH = ((%s))\n", 
++				channel, bw, f_interference, ((Second_ch == PHYDM_DONT_CARE) || (bw == 20) || (channel > 14)) ? "Don't care" : ((Second_ch == PHYDM_ABOVE) ? "H" : "L")));
++			set_result = phydm_nbi_setting(pDM_Odm, NBI_ENABLE, channel, bw, f_interference, Second_ch);
++			
++		} else if (dm_value[0] == NBI_DISABLE) {
++		
++			PHYDM_SNPRINTF((output+used, out_len-used, "[Disable NBI]\n"));
++			set_result = phydm_nbi_setting(pDM_Odm, NBI_DISABLE, channel, bw, f_interference, Second_ch);
++			
++		} else {
++		
++			set_result = SET_ERROR;
++		}
++		PHYDM_SNPRINTF((output+used, out_len-used, "[NBI set result: %s]\n", (set_result == SET_SUCCESS) ? "Success" : ((set_result == SET_NO_NEED) ? "No need" : "Error")));
++		
++	} 
++	
++	/*PHYDM_CSI_MASK*/
++	/*-------------------------------------------------------------------------------------------------------------------------------*/
++	else if (function_map == PHYDM_API_CSI_MASK) {
++		
++		if (dm_value[0] == 100) {
++			
++			PHYDM_SNPRINTF((output+used, out_len-used, "[HELP-CSI MASK]  EN(on=1, off=2)   CH   BW(20/40/80)  f_intf(Mhz)    Scnd_CH(L=1, H=2)\n"));
++			return;
++			
++		} else if (dm_value[0] == CSI_MASK_ENABLE) {
++		
++			PHYDM_SNPRINTF((output+used, out_len-used, "[Enable CSI MASK] CH = ((%d)), BW = ((%d)), f_intf = ((%d)), Scnd_CH = ((%s))\n", 
++				channel, bw, f_interference, (channel > 14)?"Don't care":(((Second_ch == PHYDM_DONT_CARE) || (bw == 20) || (channel > 14)) ? "H" : "L")));
++			set_result = phydm_csi_mask_setting(pDM_Odm,	CSI_MASK_ENABLE, channel, bw, f_interference, Second_ch);
++			
++		} else if (dm_value[0] == CSI_MASK_DISABLE) {
++		
++			PHYDM_SNPRINTF((output+used, out_len-used, "[Disable CSI MASK]\n"));
++			set_result = phydm_csi_mask_setting(pDM_Odm, CSI_MASK_DISABLE, channel, bw, f_interference, Second_ch);
++			
++		} else {
++		
++			set_result = SET_ERROR;
++		}
++		PHYDM_SNPRINTF((output+used, out_len-used, "[CSI MASK set result: %s]\n", (set_result == SET_SUCCESS) ? "Success" : ((set_result == SET_NO_NEED) ? "No need" : "Error")));
++	}
++}
++
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm.h
+new file mode 100644
+index 0000000..4c2669b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm.h
+@@ -0,0 +1,1397 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#ifndef	__HALDMOUTSRC_H__
++#define __HALDMOUTSRC_H__
++
++//============================================================
++// include files
++//============================================================
++#include "phydm_pre_define.h"
++#include "phydm_dig.h"
++#include "phydm_edcaturbocheck.h"
++#include "phydm_pathdiv.h"
++#include "phydm_antdiv.h"
++#include "phydm_antdect.h"
++#include "phydm_dynamicbbpowersaving.h"
++#include "phydm_rainfo.h"
++#include "phydm_dynamictxpower.h"
++#include "phydm_cfotracking.h"
++#include "phydm_acs.h"
++#include "phydm_adaptivity.h"
++#include "phydm_iqk.h"
++#include "phydm_dfs.h"
++#include "phydm_ccx.h"
++#include "txbf/phydm_hal_txbf_api.h"
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++#include "phydm_beamforming.h"
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++#include "halphyrf_ap.h"
++#include "phydm_adc_sampling.h"
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++#include "phydm_noisemonitor.h"
++#include "halphyrf_ce.h"
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN)) 
++#include "halphyrf_win.h"
++#include "phydm_noisemonitor.h"
++#endif
++
++//============================================================
++// Definition 
++//============================================================
++//
++// 2011/09/22 MH Define all team supprt ability.
++//
++
++/* Traffic load decision */
++#define	TRAFFIC_ULTRA_LOW	1
++#define	TRAFFIC_LOW			2
++#define	TRAFFIC_MID			3
++#define	TRAFFIC_HIGH			4
++
++#define	NONE			0
++
++/*NBI API------------------------------------*/
++#define	NBI_ENABLE 1
++#define	NBI_DISABLE 2
++
++#define	NBI_TABLE_SIZE_128	27
++#define	NBI_TABLE_SIZE_256	59
++
++#define	NUM_START_CH_80M	7
++#define	NUM_START_CH_40M	14
++
++#define	CH_OFFSET_40M		2
++#define	CH_OFFSET_80M		6
++
++/*CSI MASK API------------------------------------*/
++#define	CSI_MASK_ENABLE 1
++#define	CSI_MASK_DISABLE 2
++
++/*------------------------------------------------*/
++
++#define	FFT_128_TYPE	1
++#define	FFT_256_TYPE	2
++
++#define	SET_SUCCESS	1
++#define	SET_ERROR		2
++#define	SET_NO_NEED	3
++
++#define	FREQ_POSITIVE	1
++#define	FREQ_NEGATIVE	2
++
++
++
++//============================================================
++// structure and define
++//============================================================
++
++//
++// 2011/09/20 MH Add for AP/ADSLpseudo DM structuer requirement.
++// We need to remove to other position???
++//
++#if(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++typedef		struct rtl8192cd_priv {
++	u1Byte		temp;
++
++}rtl8192cd_priv, *prtl8192cd_priv;
++#endif
++
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++typedef		struct _ADAPTER{
++	u1Byte		temp;
++	#ifdef AP_BUILD_WORKAROUND
++	HAL_DATA_TYPE*		temp2;
++	prtl8192cd_priv		priv;
++	#endif
++}ADAPTER, *PADAPTER;
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++typedef		struct _WLAN_STA{
++	u1Byte		temp;
++} WLAN_STA, *PRT_WLAN_STA;
++
++#endif
++
++typedef struct _Dynamic_Primary_CCA{
++	u1Byte		PriCCA_flag;
++	u1Byte		intf_flag;
++	u1Byte		intf_type;  
++	u1Byte		DupRTS_flag;
++	u1Byte		Monitor_flag;
++	u1Byte		CH_offset;
++	u1Byte  	MF_state;
++}Pri_CCA_T, *pPri_CCA_T;
++
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	#ifdef ADSL_AP_BUILD_WORKAROUND
++	#define MAX_TOLERANCE			5
++	#define IQK_DELAY_TIME			1		/*ms*/
++	#endif
++#endif	/*#if(DM_ODM_SUPPORT_TYPE & (ODM_AP))*/
++
++#define		DM_Type_ByFW			0
++#define		DM_Type_ByDriver		1
++
++//
++// Declare for common info
++//
++
++#define IQK_THRESHOLD			8
++#define DPK_THRESHOLD			4
++
++
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_AP))
++__PACK typedef struct _ODM_Phy_Status_Info_
++{
++	u1Byte		RxPWDBAll;
++	u1Byte		SignalQuality;					/* in 0-100 index. */
++	u1Byte		RxMIMOSignalStrength[4];		/* in 0~100 index */
++	s1Byte		RxMIMOSignalQuality[4];		/* EVM */
++	s1Byte		RxSNR[4];					/* per-path's SNR */
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++	u1Byte		RxCount:2;					/* RX path counter---*/
++	u1Byte		BandWidth:2;
++	u1Byte		rxsc:4;						/* sub-channel---*/
++#else
++	u1Byte		BandWidth;
++#endif
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++	u1Byte		channel;						/* channel number---*/
++	BOOLEAN		bMuPacket;					/* is MU packet or not---*/
++	BOOLEAN		bBeamformed;				/* BF packet---*/
++#endif
++} __WLAN_ATTRIB_PACK__ ODM_PHY_INFO_T, *PODM_PHY_INFO_T;
++
++typedef struct _ODM_Phy_Status_Info_Append_
++{
++	u1Byte		MAC_CRC32;	
++
++}ODM_PHY_INFO_Append_T,*PODM_PHY_INFO_Append_T;
++
++#else
++
++typedef struct _ODM_Phy_Status_Info_
++{
++	//
++	// Be care, if you want to add any element please insert between 
++	// RxPWDBAll & SignalStrength.
++	//
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN))
++	u4Byte		RxPWDBAll;	
++#else
++	u1Byte		RxPWDBAll;	
++#endif
++	u1Byte		SignalQuality;				/* in 0-100 index. */
++	s1Byte		RxMIMOSignalQuality[4];		/* per-path's EVM */
++	u1Byte		RxMIMOEVMdbm[4];			/* per-path's EVM dbm */
++	u1Byte		RxMIMOSignalStrength[4];	/* in 0~100 index */
++	s2Byte		Cfo_short[4];				/* per-path's Cfo_short */
++	s2Byte		Cfo_tail[4];					/* per-path's Cfo_tail */
++	s1Byte		RxPower;					/* in dBm Translate from PWdB */
++	s1Byte		RecvSignalPower;			/* Real power in dBm for this packet, no beautification and aggregation. Keep this raw info to be used for the other procedures. */
++	u1Byte		BTRxRSSIPercentage;
++	u1Byte		SignalStrength;				/* in 0-100 index. */
++	s1Byte		RxPwr[4];					/* per-path's pwdb */
++	s1Byte		RxSNR[4];					/* per-path's SNR	*/
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++	u1Byte		RxCount:2;					/* RX path counter---*/
++	u1Byte		BandWidth:2;
++	u1Byte		rxsc:4;						/* sub-channel---*/
++#else
++	u1Byte		BandWidth;
++#endif
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++	u1Byte		btCoexPwrAdjust;
++#endif
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++	u1Byte		channel;						/* channel number---*/
++	BOOLEAN		bMuPacket;					/* is MU packet or not---*/
++	BOOLEAN		bBeamformed;				/* BF packet---*/
++#endif
++}ODM_PHY_INFO_T,*PODM_PHY_INFO_T;
++#endif
++
++typedef struct _ODM_Per_Pkt_Info_
++{
++	//u1Byte		Rate;	
++	u1Byte		DataRate;
++	u1Byte		StationID;
++	BOOLEAN		bPacketMatchBSSID;
++	BOOLEAN		bPacketToSelf;
++	BOOLEAN		bPacketBeacon;
++	BOOLEAN		bToSelf;
++}ODM_PACKET_INFO_T,*PODM_PACKET_INFO_T;
++
++
++typedef struct _ODM_Phy_Dbg_Info_
++{
++	//ODM Write,debug info
++	s1Byte		RxSNRdB[4];
++	u4Byte		NumQryPhyStatus;
++	u4Byte		NumQryPhyStatusCCK;
++	u4Byte		NumQryPhyStatusOFDM;
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++	u4Byte		NumQryMuPkt;
++	u4Byte		NumQryBfPkt;
++	u4Byte		NumQryMuVhtPkt[40];
++	u4Byte		NumQryVhtPkt[40];
++#endif
++	u1Byte		NumQryBeaconPkt;
++	//Others
++	s4Byte		RxEVM[4];	
++	
++}ODM_PHY_DBG_INFO_T;
++
++
++typedef struct _ODM_Mac_Status_Info_
++{
++	u1Byte	test;
++	
++}ODM_MAC_INFO;
++
++//
++// 2011/20/20 MH For MP driver RT_WLAN_STA =  STA_INFO_T
++// Please declare below ODM relative info in your STA info structure.
++//
++#if 1
++typedef		struct _ODM_STA_INFO{
++	// Driver Write
++	BOOLEAN		bUsed;				// record the sta status link or not?
++	//u1Byte		WirelessMode;		// 
++	u1Byte		IOTPeer;			// Enum value.	HT_IOT_PEER_E
++
++	// ODM Write
++	//1 PHY_STATUS_INFO
++	u1Byte		RSSI_Path[4];		// 
++	u1Byte		RSSI_Ave;
++	u1Byte		RXEVM[4];
++	u1Byte		RXSNR[4];
++
++	// ODM Write
++	//1 TX_INFO (may changed by IC)
++	//TX_INFO_T		pTxInfo;				// Define in IC folder. Move lower layer.
++#if 0
++	u1Byte		ANTSEL_A;			//in Jagar: 4bit; others: 2bit
++	u1Byte		ANTSEL_B;			//in Jagar: 4bit; others: 2bit
++	u1Byte		ANTSEL_C;			//only in Jagar: 4bit
++	u1Byte		ANTSEL_D;			//only in Jagar: 4bit
++	u1Byte		TX_ANTL;			//not in Jagar: 2bit
++	u1Byte		TX_ANT_HT;			//not in Jagar: 2bit
++	u1Byte		TX_ANT_CCK;			//not in Jagar: 2bit
++	u1Byte		TXAGC_A;			//not in Jagar: 4bit
++	u1Byte		TXAGC_B;			//not in Jagar: 4bit
++	u1Byte		TXPWR_OFFSET;		//only in Jagar: 3bit
++	u1Byte		TX_ANT;				//only in Jagar: 4bit for TX_ANTL/TX_ANTHT/TX_ANT_CCK
++#endif
++
++	//
++	// 	Please use compile flag to disabe the strcutrue for other IC except 88E.
++	//	Move To lower layer.
++	//
++	// ODM Write Wilson will handle this part(said by Luke.Lee)
++	//TX_RPT_T		pTxRpt;				// Define in IC folder. Move lower layer.
++#if 0	
++	//1 For 88E RA (don't redefine the naming)
++	u1Byte		rate_id;
++	u1Byte		rate_SGI;
++	u1Byte		rssi_sta_ra;
++	u1Byte		SGI_enable;
++	u1Byte		Decision_rate;
++	u1Byte		Pre_rate;
++	u1Byte		Active;
++
++	// Driver write Wilson handle.
++	//1 TX_RPT (don't redefine the naming)
++	u2Byte		RTY[4];				// ???
++	u2Byte		TOTAL;				// ???
++	u2Byte		DROP;				// ???
++	//
++	// Please use compile flag to disabe the strcutrue for other IC except 88E.
++	//
++#endif
++
++}ODM_STA_INFO_T, *PODM_STA_INFO_T;
++#endif
++
++//
++// 2011/10/20 MH Define Common info enum for all team.
++//
++typedef enum _ODM_Common_Info_Definition
++{
++//-------------REMOVED CASE-----------//
++	//ODM_CMNINFO_CCK_HP,
++	//ODM_CMNINFO_RFPATH_ENABLE,		// Define as ODM write???	
++	//ODM_CMNINFO_BT_COEXIST,				// ODM_BT_COEXIST_E
++	//ODM_CMNINFO_OP_MODE,				// ODM_OPERATION_MODE_E
++//-------------REMOVED CASE-----------//
++
++	//
++	// Fixed value:
++	//
++
++	//-----------HOOK BEFORE REG INIT-----------//
++	ODM_CMNINFO_PLATFORM = 0,
++	ODM_CMNINFO_ABILITY,					// ODM_ABILITY_E
++	ODM_CMNINFO_INTERFACE,				// ODM_INTERFACE_E
++	ODM_CMNINFO_MP_TEST_CHIP,
++	ODM_CMNINFO_IC_TYPE,					// ODM_IC_TYPE_E
++	ODM_CMNINFO_CUT_VER,					// ODM_CUT_VERSION_E
++	ODM_CMNINFO_FAB_VER,					// ODM_FAB_E
++	ODM_CMNINFO_RF_TYPE,					// ODM_RF_PATH_E or ODM_RF_TYPE_E?
++	ODM_CMNINFO_RFE_TYPE, 
++	ODM_CMNINFO_BOARD_TYPE,				// ODM_BOARD_TYPE_E
++	ODM_CMNINFO_PACKAGE_TYPE,
++	ODM_CMNINFO_EXT_LNA,					// TRUE
++	ODM_CMNINFO_5G_EXT_LNA,	
++	ODM_CMNINFO_EXT_PA,
++	ODM_CMNINFO_5G_EXT_PA,
++	ODM_CMNINFO_GPA,
++	ODM_CMNINFO_APA,
++	ODM_CMNINFO_GLNA,
++	ODM_CMNINFO_ALNA,
++	ODM_CMNINFO_EXT_TRSW,
++	ODM_CMNINFO_EXT_LNA_GAIN,
++	ODM_CMNINFO_PATCH_ID,				//CUSTOMER ID
++	ODM_CMNINFO_BINHCT_TEST,
++	ODM_CMNINFO_BWIFI_TEST,
++	ODM_CMNINFO_SMART_CONCURRENT,
++	ODM_CMNINFO_CONFIG_BB_RF,
++	ODM_CMNINFO_DOMAIN_CODE_2G,
++	ODM_CMNINFO_DOMAIN_CODE_5G,
++	ODM_CMNINFO_IQKFWOFFLOAD,
++	ODM_CMNINFO_IQKPAOFF,
++	ODM_CMNINFO_HUBUSBMODE,
++	ODM_CMNINFO_FWDWRSVDPAGEINPROGRESS,
++	ODM_CMNINFO_TX_TP,
++	ODM_CMNINFO_RX_TP,
++	ODM_CMNINFO_SOUNDING_SEQ,
++	ODM_CMNINFO_REGRFKFREEENABLE,
++	ODM_CMNINFO_RFKFREEENABLE,
++	//-----------HOOK BEFORE REG INIT-----------//	
++
++
++	//
++	// Dynamic value:
++	//
++//--------- POINTER REFERENCE-----------//
++	ODM_CMNINFO_MAC_PHY_MODE,			// ODM_MAC_PHY_MODE_E
++	ODM_CMNINFO_TX_UNI,
++	ODM_CMNINFO_RX_UNI,
++	ODM_CMNINFO_WM_MODE,				// ODM_WIRELESS_MODE_E
++	ODM_CMNINFO_BAND,					// ODM_BAND_TYPE_E
++	ODM_CMNINFO_SEC_CHNL_OFFSET,		// ODM_SEC_CHNL_OFFSET_E
++	ODM_CMNINFO_SEC_MODE,				// ODM_SECURITY_E
++	ODM_CMNINFO_BW,						// ODM_BW_E
++	ODM_CMNINFO_CHNL,
++	ODM_CMNINFO_FORCED_RATE,
++	
++	ODM_CMNINFO_DMSP_GET_VALUE,
++	ODM_CMNINFO_BUDDY_ADAPTOR,
++	ODM_CMNINFO_DMSP_IS_MASTER,
++	ODM_CMNINFO_SCAN,
++	ODM_CMNINFO_POWER_SAVING,
++	ODM_CMNINFO_ONE_PATH_CCA,			// ODM_CCA_PATH_E
++	ODM_CMNINFO_DRV_STOP,
++	ODM_CMNINFO_PNP_IN,
++	ODM_CMNINFO_INIT_ON,
++	ODM_CMNINFO_ANT_TEST,
++	ODM_CMNINFO_NET_CLOSED,
++	//ODM_CMNINFO_RTSTA_AID,				// For win driver only?
++	ODM_CMNINFO_FORCED_IGI_LB,
++	ODM_CMNINFO_P2P_LINK,
++	ODM_CMNINFO_FCS_MODE,
++	ODM_CMNINFO_IS1ANTENNA,
++	ODM_CMNINFO_RFDEFAULTPATH,
++	ODM_CMNINFO_DFS_MASTER_ENABLE,
++	ODM_CMNINFO_FORCE_TX_ANT_BY_TXDESC,
++//--------- POINTER REFERENCE-----------//
++
++//------------CALL BY VALUE-------------//
++	ODM_CMNINFO_WIFI_DIRECT,
++	ODM_CMNINFO_WIFI_DISPLAY,
++	ODM_CMNINFO_LINK_IN_PROGRESS,			
++	ODM_CMNINFO_LINK,
++	ODM_CMNINFO_STATION_STATE,
++	ODM_CMNINFO_RSSI_MIN,
++	ODM_CMNINFO_DBG_COMP,				/* u4SByte*/
++	ODM_CMNINFO_DBG_LEVEL,				/* u4Byte*/
++	ODM_CMNINFO_RA_THRESHOLD_HIGH,		/* u1Byte*/
++	ODM_CMNINFO_RA_THRESHOLD_LOW,		/* u1Byte*/
++	ODM_CMNINFO_RF_ANTENNA_TYPE,			/* u1Byte*/
++	ODM_CMNINFO_WITH_EXT_ANTENNA_SWITCH,
++	ODM_CMNINFO_BE_FIX_TX_ANT,
++	ODM_CMNINFO_BT_ENABLED,
++	ODM_CMNINFO_BT_HS_CONNECT_PROCESS,
++	ODM_CMNINFO_BT_HS_RSSI,
++	ODM_CMNINFO_BT_OPERATION,
++	ODM_CMNINFO_BT_LIMITED_DIG,					//Need to Limited Dig or not
++	ODM_CMNINFO_BT_DIG,
++	ODM_CMNINFO_BT_BUSY,					//Check Bt is using or not//neil	
++	ODM_CMNINFO_BT_DISABLE_EDCA,
++#if(DM_ODM_SUPPORT_TYPE & ODM_AP)		// for repeater mode add by YuChen 2014.06.23
++#ifdef UNIVERSAL_REPEATER
++	ODM_CMNINFO_VXD_LINK,
++#endif
++#endif
++	ODM_CMNINFO_AP_TOTAL_NUM,
++	ODM_CMNINFO_POWER_TRAINING,
++	ODM_CMNINFO_DFS_REGION_DOMAIN,
++//------------CALL BY VALUE-------------//
++
++	//
++	// Dynamic ptr array hook itms.
++	//
++	ODM_CMNINFO_STA_STATUS,
++	ODM_CMNINFO_PHY_STATUS,
++	ODM_CMNINFO_MAC_STATUS,
++	
++	ODM_CMNINFO_MAX,
++
++
++}ODM_CMNINFO_E;
++
++typedef enum _PHYDM_API_Definition {
++
++	PHYDM_API_NBI			= 1,
++	PHYDM_API_CSI_MASK,
++
++	
++} PHYDM_API_E;
++
++
++//
++// 2011/10/20 MH Define ODM support ability.  ODM_CMNINFO_ABILITY
++//
++typedef enum _ODM_Support_Ability_Definition
++{
++	//
++	// BB ODM section BIT 0-19
++	//
++	ODM_BB_DIG					= BIT0,
++	ODM_BB_RA_MASK				= BIT1,
++	ODM_BB_DYNAMIC_TXPWR		= BIT2,
++	ODM_BB_FA_CNT					= BIT3,
++	ODM_BB_RSSI_MONITOR			= BIT4,
++	ODM_BB_CCK_PD					= BIT5,
++	ODM_BB_ANT_DIV				= BIT6,
++	ODM_BB_PWR_TRAIN				= BIT8,
++	ODM_BB_RATE_ADAPTIVE			= BIT9,
++	ODM_BB_PATH_DIV				= BIT10,
++	ODM_BB_ADAPTIVITY				= BIT13,
++	ODM_BB_CFO_TRACKING			= BIT14,
++	ODM_BB_NHM_CNT				= BIT15,
++	ODM_BB_PRIMARY_CCA			= BIT16,
++	ODM_BB_TXBF					= BIT17,
++	ODM_BB_DYNAMIC_ARFR			= BIT18,
++	
++	//
++	// MAC DM section BIT 20-23
++	//
++	ODM_MAC_EDCA_TURBO			= BIT20,
++	ODM_MAC_EARLY_MODE			= BIT21,
++	
++	//
++	// RF ODM section BIT 24-31
++	//
++	ODM_RF_TX_PWR_TRACK			= BIT24,
++	ODM_RF_RX_GAIN_TRACK			= BIT25,
++	ODM_RF_CALIBRATION			= BIT26,
++	
++}ODM_ABILITY_E;
++
++
++// ODM_CMNINFO_ONE_PATH_CCA
++typedef enum tag_CCA_Path
++{
++	ODM_CCA_2R		= 0,
++	ODM_CCA_1R_A		= 1,
++	ODM_CCA_1R_B		= 2,
++}ODM_CCA_PATH_E;
++
++typedef enum CCA_PATHDIV_EN {
++	CCA_PATHDIV_DISABLE		= 0,
++	CCA_PATHDIV_ENABLE		= 1,
++
++} CCA_PATHDIV_EN_E;
++
++
++typedef enum _BASEBAND_CONFIG_PHY_REG_PG_VALUE_TYPE{
++	PHY_REG_PG_RELATIVE_VALUE = 0,
++	PHY_REG_PG_EXACT_VALUE = 1
++} PHY_REG_PG_TYPE;
++
++//
++// 2011/09/22 MH Copy from SD4 defined structure. We use to support PHY DM integration.
++//
++#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++#if (RT_PLATFORM != PLATFORM_LINUX)
++typedef 
++#endif
++	
++struct DM_Out_Source_Dynamic_Mechanism_Structure
++#else// for AP,ADSL,CE Team
++typedef  struct DM_Out_Source_Dynamic_Mechanism_Structure
++#endif
++{
++	//	Add for different team use temporarily
++	//
++	PADAPTER		Adapter;		// For CE/NIC team
++	prtl8192cd_priv	priv;			// For AP/ADSL team
++	// WHen you use Adapter or priv pointer, you must make sure the pointer is ready.
++	BOOLEAN			odm_ready;
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++	rtl8192cd_priv		fake_priv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	// ADSL_AP_BUILD_WORKAROUND
++	ADAPTER			fake_adapter;
++#endif
++	
++	PHY_REG_PG_TYPE		PhyRegPgValueType;
++	u1Byte				PhyRegPgVersion;
++
++	u4Byte			DebugComponents;
++	u4Byte			DebugLevel;
++	
++	u4Byte			NumQryPhyStatusAll; 	//CCK + OFDM
++	u4Byte			LastNumQryPhyStatusAll; 
++	u4Byte			RxPWDBAve;
++	BOOLEAN			MPDIG_2G; 		//off MPDIG
++	u1Byte			Times_2G;
++	BOOLEAN			bInitHwInfoByRfe;
++	
++//------ ODM HANDLE, DRIVER NEEDS NOT TO HOOK------//
++	BOOLEAN			bCckHighPower; 
++	u1Byte			RFPathRxEnable;		// ODM_CMNINFO_RFPATH_ENABLE
++	u1Byte			ControlChannel;
++//------ ODM HANDLE, DRIVER NEEDS NOT TO HOOK------//
++
++//--------REMOVED COMMON INFO----------//
++	//u1Byte				PseudoMacPhyMode;
++	//BOOLEAN			*BTCoexist;
++	//BOOLEAN			PseudoBtCoexist;
++	//u1Byte				OPMode;
++	//BOOLEAN			bAPMode;
++	//BOOLEAN			bClientMode;
++	//BOOLEAN			bAdHocMode;
++	//BOOLEAN			bSlaveOfDMSP;
++//--------REMOVED COMMON INFO----------//
++
++
++//1  COMMON INFORMATION
++
++	//
++	// Init Value
++	//
++//-----------HOOK BEFORE REG INIT-----------//	
++	// ODM Platform info AP/ADSL/CE/MP = 1/2/3/4
++	u1Byte			SupportPlatform;		
++	// ODM Support Ability DIG/RATR/TX_PWR_TRACK/ ¡K¡K = 1/2/3/¡K
++	u4Byte			SupportAbility;
++	// ODM PCIE/USB/SDIO = 1/2/3
++	u1Byte			SupportInterface;			
++	// ODM composite or independent. Bit oriented/ 92C+92D+ .... or any other type = 1/2/3/...
++	u4Byte			SupportICType;	
++	// Cut Version TestChip/A-cut/B-cut... = 0/1/2/3/...
++	u1Byte			CutVersion;
++	// Fab Version TSMC/UMC = 0/1
++	u1Byte			FabVersion;
++	// RF Type 4T4R/3T3R/2T2R/1T2R/1T1R/...
++	u1Byte			RFType;
++	u1Byte			RFEType;	
++	// Board Type Normal/HighPower/MiniCard/SLIM/Combo/... = 0/1/2/3/4/...
++	u1Byte			BoardType;
++	u1Byte			PackageType;
++	u2Byte			TypeGLNA;
++	u2Byte			TypeGPA;
++	u2Byte			TypeALNA;
++	u2Byte			TypeAPA;
++	// with external LNA  NO/Yes = 0/1
++	u1Byte			ExtLNA; // 2G
++	u1Byte			ExtLNA5G; //5G
++	// with external PA  NO/Yes = 0/1
++	u1Byte			ExtPA; // 2G
++	u1Byte			ExtPA5G; //5G
++	// with external TRSW  NO/Yes = 0/1
++	u1Byte			ExtTRSW;
++	u1Byte			ExtLNAGain; // 2G
++	u1Byte			PatchID; //Customer ID
++	BOOLEAN			bInHctTest;
++	u1Byte			WIFITest;
++
++	BOOLEAN			bDualMacSmartConcurrent;
++	u4Byte			BK_SupportAbility;
++	u1Byte			AntDivType;
++	u1Byte			with_extenal_ant_switch;
++	BOOLEAN			ConfigBBRF;
++	u1Byte			odm_Regulation2_4G;
++	u1Byte			odm_Regulation5G;
++	u1Byte			IQKFWOffload;
++	BOOLEAN			cck_new_agc;
++//-----------HOOK BEFORE REG INIT-----------//	
++
++	//
++	// Dynamic Value
++	//	
++//--------- POINTER REFERENCE-----------//
++
++	u1Byte			u1Byte_temp;
++	BOOLEAN			BOOLEAN_temp;
++	PADAPTER		PADAPTER_temp;
++	
++	// MAC PHY Mode SMSP/DMSP/DMDP = 0/1/2
++	u1Byte			*pMacPhyMode;
++	//TX Unicast byte count
++	u8Byte			*pNumTxBytesUnicast;
++	//RX Unicast byte count
++	u8Byte			*pNumRxBytesUnicast;
++	// Wireless mode B/G/A/N = BIT0/BIT1/BIT2/BIT3
++	u1Byte			*pWirelessMode; //ODM_WIRELESS_MODE_E
++	// Frequence band 2.4G/5G = 0/1
++	u1Byte			*pBandType;
++	// Secondary channel offset don't_care/below/above = 0/1/2
++	u1Byte			*pSecChOffset;
++	// Security mode Open/WEP/AES/TKIP = 0/1/2/3
++	u1Byte			*pSecurity;
++	// BW info 20M/40M/80M = 0/1/2
++	u1Byte			*pBandWidth;
++ 	// Central channel location Ch1/Ch2/....
++	u1Byte			*pChannel;	//central channel number
++	BOOLEAN			DPK_Done;
++	// Common info for 92D DMSP
++	
++	BOOLEAN			*pbGetValueFromOtherMac;
++	PADAPTER		*pBuddyAdapter;
++	BOOLEAN			*pbMasterOfDMSP; //MAC0: master, MAC1: slave
++	// Common info for Status
++	BOOLEAN			*pbScanInProcess;
++	BOOLEAN			*pbPowerSaving;
++	// CCA Path 2-path/path-A/path-B = 0/1/2; using ODM_CCA_PATH_E.
++	u1Byte			*pOnePathCCA;
++	//pMgntInfo->AntennaTest
++	u1Byte			*pAntennaTest;
++	BOOLEAN			*pbNet_closed;
++	//u1Byte			*pAidMap;
++	u1Byte			*pu1ForcedIgiLb;
++	BOOLEAN			*pIsFcsModeEnable;
++/*--------- For 8723B IQK-----------*/
++	BOOLEAN			*pIs1Antenna;
++	u1Byte			*pRFDefaultPath;
++	// 0:S1, 1:S0
++	
++//--------- POINTER REFERENCE-----------//
++	pu2Byte			pForcedDataRate;
++	pu1Byte			HubUsbMode;
++	BOOLEAN			*pbFwDwRsvdPageInProgress;
++	u4Byte			*pCurrentTxTP;
++	u4Byte			*pCurrentRxTP;
++	u1Byte			*pSoundingSeq;
++//------------CALL BY VALUE-------------//
++	BOOLEAN			bLinkInProcess;
++	BOOLEAN			bWIFI_Direct;
++	BOOLEAN			bWIFI_Display;
++	BOOLEAN			bLinked;
++	BOOLEAN			bsta_state;
++#if(DM_ODM_SUPPORT_TYPE & ODM_AP)		// for repeater mode add by YuChen 2014.06.23
++#ifdef UNIVERSAL_REPEATER
++	BOOLEAN			VXD_bLinked;
++#endif
++#endif									// for repeater mode add by YuChen 2014.06.23	
++	u1Byte			RSSI_Min;	
++	u1Byte			InterfaceIndex; /*Add for 92D  dual MAC: 0--Mac0 1--Mac1*/
++	BOOLEAN			bIsMPChip;
++	BOOLEAN			bOneEntryOnly;
++	BOOLEAN			mp_mode;
++	u4Byte			OneEntry_MACID;
++	u1Byte			pre_number_linked_client;	
++	u1Byte			number_linked_client;
++	u1Byte			pre_number_active_client;	
++	u1Byte			number_active_client;
++	// Common info for BTDM
++	BOOLEAN			bBtEnabled;			// BT is enabled
++	BOOLEAN			bBtConnectProcess;	// BT HS is under connection progress.
++	u1Byte			btHsRssi;				// BT HS mode wifi rssi value.
++	BOOLEAN			bBtHsOperation;		// BT HS mode is under progress
++	u1Byte			btHsDigVal;			// use BT rssi to decide the DIG value
++	BOOLEAN			bBtDisableEdcaTurbo;	// Under some condition, don't enable the EDCA Turbo
++	BOOLEAN			bBtBusy;   			// BT is busy.
++	BOOLEAN			bBtLimitedDig;   		// BT is busy.
++	BOOLEAN			bDisablePhyApi;
++//------------CALL BY VALUE-------------//
++	u1Byte			RSSI_A;
++	u1Byte			RSSI_B;
++	u1Byte			RSSI_C;
++	u1Byte			RSSI_D;
++	u8Byte			RSSI_TRSW;	
++	u8Byte			RSSI_TRSW_H;
++	u8Byte			RSSI_TRSW_L;	
++	u8Byte			RSSI_TRSW_iso;
++	u1Byte			TXAntStatus;
++	u1Byte			RXAntStatus;
++	u1Byte			cck_lna_idx;
++	u1Byte			cck_vga_idx;
++	u1Byte			curr_station_id;
++	u1Byte			ofdm_agc_idx[4];
++
++	u1Byte			RxRate;
++	BOOLEAN			bNoisyState;
++	u1Byte			TxRate;
++	u1Byte			LinkedInterval;
++	u1Byte			preChannel;
++	u4Byte			TxagcOffsetValueA;
++	BOOLEAN			IsTxagcOffsetPositiveA;
++	u4Byte			TxagcOffsetValueB;
++	BOOLEAN			IsTxagcOffsetPositiveB;
++	u4Byte			tx_tp;
++	u4Byte			rx_tp;
++	u4Byte			total_tp;
++	u8Byte			curTxOkCnt;
++	u8Byte			curRxOkCnt;	
++	u8Byte			lastTxOkCnt;
++	u8Byte			lastRxOkCnt;
++	u4Byte			BbSwingOffsetA;
++	BOOLEAN			IsBbSwingOffsetPositiveA;
++	u4Byte			BbSwingOffsetB;
++	BOOLEAN			IsBbSwingOffsetPositiveB;
++	u1Byte			IGI_LowerBound;
++	u1Byte			IGI_UpperBound;
++	u1Byte			antdiv_rssi;
++	u1Byte			fat_comb_a;
++	u1Byte			fat_comb_b;
++	u1Byte			antdiv_intvl;
++	u1Byte			AntType;
++	u1Byte			pre_AntType;
++	u1Byte			antdiv_period;
++	u1Byte			evm_antdiv_period;
++	u1Byte			antdiv_select;
++	u1Byte			path_select;	
++	u1Byte			antdiv_evm_en;
++	u1Byte			bdc_holdstate;
++	u1Byte			NdpaPeriod;
++	BOOLEAN			H2C_RARpt_connect;
++	BOOLEAN			cck_agc_report_type;
++	
++	u1Byte			dm_dig_max_TH;
++	u1Byte 			dm_dig_min_TH;
++	u1Byte 			print_agc;
++	u1Byte			TrafficLoad;
++	u1Byte			pre_TrafficLoad;
++
++
++	//For Adaptivtiy
++	u2Byte			NHM_cnt_0;
++	u2Byte			NHM_cnt_1;
++	s1Byte			TH_L2H_default;
++	s1Byte			TH_EDCCA_HL_diff_default;
++	s1Byte			TH_L2H_ini;
++	s1Byte			TH_EDCCA_HL_diff;
++	s1Byte			TH_L2H_ini_mode2;
++	s1Byte			TH_EDCCA_HL_diff_mode2;
++	BOOLEAN			Carrier_Sense_enable;
++	u1Byte			Adaptivity_IGI_upper;
++	BOOLEAN			adaptivity_flag;
++	u1Byte			DCbackoff;
++	BOOLEAN			Adaptivity_enable;
++	u1Byte			APTotalNum;
++	BOOLEAN			EDCCA_enable;
++	ADAPTIVITY_STATISTICS	Adaptivity;
++	//For Adaptivtiy
++	u1Byte			LastUSBHub;
++	u1Byte			TxBfDataRate;
++
++	u1Byte			nbi_set_result;
++	
++	u1Byte			c2h_cmd_start;
++	u1Byte			fw_debug_trace[60]; 
++	u1Byte			pre_c2h_seq;
++	BOOLEAN			fw_buff_is_enpty;
++	u4Byte			data_frame_num;
++
++	/*for noise detection*/
++	BOOLEAN			NoisyDecision; /*b_noisy*/
++	BOOLEAN			pre_b_noisy;	
++	u4Byte			NoisyDecision_Smooth;
++
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_CE|ODM_WIN))
++	ODM_NOISE_MONITOR noise_level;//[ODM_MAX_CHANNEL_NUM];
++#endif
++	//
++	//2 Define STA info.
++	// _ODM_STA_INFO
++	// 2012/01/12 MH For MP, we need to reduce one array pointer for default port.??
++	PSTA_INFO_T		pODM_StaInfo[ODM_ASSOCIATE_ENTRY_NUM];
++	u2Byte			platform2phydm_macid_table[ODM_ASSOCIATE_ENTRY_NUM];		/* platform_macid_table[platform_macid] = phydm_macid */
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++	s4Byte			AccumulatePWDB[ODM_ASSOCIATE_ENTRY_NUM];
++#endif
++
++#if (RATE_ADAPTIVE_SUPPORT == 1)
++	u2Byte 			CurrminRptTime;
++	ODM_RA_INFO_T   RAInfo[ODM_ASSOCIATE_ENTRY_NUM]; //Use MacID as array index. STA MacID=0, VWiFi Client MacID={1, ODM_ASSOCIATE_ENTRY_NUM-1} //YJ,add,120119
++#endif
++	//
++	// 2012/02/14 MH Add to share 88E ra with other SW team.
++	// We need to colelct all support abilit to a proper area.
++	//
++	BOOLEAN				RaSupport88E;
++
++	// Define ...........
++
++	// Latest packet phy info (ODM write)
++	ODM_PHY_DBG_INFO_T	 PhyDbgInfo;
++	//PHY_INFO_88E		PhyInfo;
++
++	// Latest packet phy info (ODM write)
++	ODM_MAC_INFO		*pMacInfo;
++	//MAC_INFO_88E		MacInfo;
++
++	// Different Team independt structure??
++
++	//
++	//TX_RTP_CMN		TX_retrpo;
++	//TX_RTP_88E		TX_retrpo;
++	//TX_RTP_8195		TX_retrpo;
++
++	//
++	//ODM Structure
++	//
++#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	BDC_T					DM_BdcTable;
++	#endif
++	
++	#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++	SAT_T						dm_sat_table;
++	#endif
++	
++#endif
++	FAT_T						DM_FatTable;
++	DIG_T						DM_DigTable;
++
++	PS_T						DM_PSTable;
++	Pri_CCA_T					DM_PriCCA;
++	RA_T						DM_RA_Table;  
++	FALSE_ALARM_STATISTICS		FalseAlmCnt;
++	FALSE_ALARM_STATISTICS		FlaseAlmCntBuddyAdapter;
++	SWAT_T						DM_SWAT_Table;
++	CFO_TRACKING    				DM_CfoTrack;
++	ACS							DM_ACS;
++	CCX_INFO					DM_CCX_INFO;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	RT_ADCSMP					adcsmp;
++#endif
++
++#if (RTL8814A_SUPPORT == 1 || RTL8822B_SUPPORT == 1 || RTL8821C_SUPPORT == 1)
++	IQK_INFO	IQK_info;
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	//Path Div Struct
++	PATHDIV_PARA	pathIQK;
++#endif
++#if(defined(CONFIG_PATH_DIVERSITY))
++	PATHDIV_T	DM_PathDiv;
++#endif	
++
++	EDCA_T		DM_EDCA_Table;
++	u4Byte		WMMEDCA_BE;
++
++	// Copy from SD4 structure
++	//
++	// ==================================================
++	//
++
++	//common
++	//u1Byte		DM_Type;	
++	//u1Byte    PSD_Report_RXHP[80];   // Add By Gary
++	//u1Byte    PSD_func_flag;               // Add By Gary
++	//for DIG
++	//u1Byte		bDMInitialGainEnable;
++	//u1Byte		binitialized; // for dm_initial_gain_Multi_STA use.
++
++	BOOLEAN			*pbDriverStopped;
++	BOOLEAN			*pbDriverIsGoingToPnpSetPowerSleep;
++	BOOLEAN			*pinit_adpt_in_progress;
++
++	//PSD
++	BOOLEAN			bUserAssignLevel;
++	u1Byte			RSSI_BT;				/*come from BT*/
++	BOOLEAN			bPSDinProcess;
++	BOOLEAN			bPSDactive;
++	BOOLEAN			bDMInitialGainEnable;
++
++	//MPT DIG
++	RT_TIMER 		MPT_DIGTimer;
++	
++	//for rate adaptive, in fact,  88c/92c fw will handle this
++	u1Byte			bUseRAMask;
++
++	ODM_RATE_ADAPTIVE	RateAdaptive;
++	#if (defined(CONFIG_ANT_DETECTION))
++	ANT_DETECTED_INFO	AntDetectedInfo;	/* Antenna detected information for RSSI tool*/
++	#endif
++	ODM_RF_CAL_T	RFCalibrateInfo;
++	u4Byte			nIQK_Cnt;
++	u4Byte			nIQK_OK_Cnt;
++	u4Byte			nIQK_Fail_Cnt;
++
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))	
++	//
++	// Power Training
++	//
++	u1Byte			ForcePowerTrainingState;
++	BOOLEAN			bChangeState;
++	u4Byte			PT_score;
++	u8Byte			OFDM_RX_Cnt;
++	u8Byte			CCK_RX_Cnt;
++#endif
++	BOOLEAN			bDisablePowerTraining;
++	u1Byte			DynamicTxHighPowerLvl;
++	u1Byte			LastDTPLvl;
++	u4Byte			tx_agc_ofdm_18_6;
++	u1Byte			rx_pkt_type;
++
++	//
++	// ODM system resource.
++	//
++
++	// ODM relative time.
++	RT_TIMER	PathDivSwitchTimer;
++	//2011.09.27 add for Path Diversity
++	RT_TIMER	CCKPathDiversityTimer;
++	RT_TIMER 	FastAntTrainingTimer;
++	#ifdef ODM_EVM_ENHANCE_ANTDIV
++	RT_TIMER 			EVM_FastAntTrainingTimer;
++	#endif
++	RT_TIMER		sbdcnt_timer;
++
++	// ODM relative workitem.
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#if USE_WORKITEM
++	RT_WORK_ITEM			PathDivSwitchWorkitem;
++	RT_WORK_ITEM			CCKPathDiversityWorkitem;
++	RT_WORK_ITEM			FastAntTrainingWorkitem;
++	RT_WORK_ITEM			MPT_DIGWorkitem;
++	RT_WORK_ITEM			RaRptWorkitem;
++	RT_WORK_ITEM			sbdcnt_workitem;
++#endif
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++#if (BEAMFORMING_SUPPORT == 1)
++	RT_BEAMFORMING_INFO BeamformingInfo;
++#endif 
++#endif
++
++#ifdef CONFIG_PHYDM_DFS_MASTER
++	u1Byte DFS_RegionDomain;
++	pu1Byte dfs_master_enabled;
++
++	/*====== phydm_radar_detect_with_dbg_parm start ======*/
++	u1Byte radar_detect_dbg_parm_en;
++	u4Byte radar_detect_reg_918;
++	u4Byte radar_detect_reg_91c;
++	u4Byte radar_detect_reg_920;
++	u4Byte radar_detect_reg_924;
++	/*====== phydm_radar_detect_with_dbg_parm end ======*/
++#endif
++
++#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	
++#if (RT_PLATFORM != PLATFORM_LINUX)
++} DM_ODM_T, *PDM_ODM_T;		// DM_Dynamic_Mechanism_Structure
++#else
++};
++#endif	
++
++#else// for AP,ADSL,CE Team
++} DM_ODM_T, *PDM_ODM_T;		// DM_Dynamic_Mechanism_Structure
++#endif
++
++
++typedef enum _PHYDM_STRUCTURE_TYPE{
++	PHYDM_FALSEALMCNT,
++	PHYDM_CFOTRACK,
++	PHYDM_ADAPTIVITY,
++	PHYDM_ROMINFO,
++	
++}PHYDM_STRUCTURE_TYPE;
++
++
++
++ typedef enum _ODM_RF_CONTENT{
++	odm_radioa_txt = 0x1000,
++	odm_radiob_txt = 0x1001,
++	odm_radioc_txt = 0x1002,
++	odm_radiod_txt = 0x1003
++} ODM_RF_CONTENT;
++
++typedef enum _ODM_BB_Config_Type{
++	CONFIG_BB_PHY_REG,   
++	CONFIG_BB_AGC_TAB,   
++	CONFIG_BB_AGC_TAB_2G,
++	CONFIG_BB_AGC_TAB_5G, 
++	CONFIG_BB_PHY_REG_PG,
++	CONFIG_BB_PHY_REG_MP,
++	CONFIG_BB_AGC_TAB_DIFF,
++} ODM_BB_Config_Type, *PODM_BB_Config_Type;
++
++typedef enum _ODM_RF_Config_Type{ 
++	CONFIG_RF_RADIO,
++    CONFIG_RF_TXPWR_LMT,
++} ODM_RF_Config_Type, *PODM_RF_Config_Type;
++
++typedef enum _ODM_FW_Config_Type{
++    CONFIG_FW_NIC,
++    CONFIG_FW_NIC_2,
++    CONFIG_FW_AP,
++    CONFIG_FW_AP_2,
++    CONFIG_FW_MP,
++    CONFIG_FW_WoWLAN,
++    CONFIG_FW_WoWLAN_2,
++    CONFIG_FW_AP_WoWLAN,
++    CONFIG_FW_BT,
++} ODM_FW_Config_Type;
++
++// Status code
++#if (DM_ODM_SUPPORT_TYPE != ODM_WIN)
++typedef enum _RT_STATUS{
++	RT_STATUS_SUCCESS,
++	RT_STATUS_FAILURE,
++	RT_STATUS_PENDING,
++	RT_STATUS_RESOURCE,
++	RT_STATUS_INVALID_CONTEXT,
++	RT_STATUS_INVALID_PARAMETER,
++	RT_STATUS_NOT_SUPPORT,
++	RT_STATUS_OS_API_FAILED,
++}RT_STATUS,*PRT_STATUS;
++#endif // end of RT_STATUS definition
++
++#ifdef REMOVE_PACK
++#pragma pack()
++#endif
++
++//3===========================================================
++//3 AGC RX High Power Mode
++//3===========================================================
++#define          LNA_Low_Gain_1                      0x64
++#define          LNA_Low_Gain_2                      0x5A
++#define          LNA_Low_Gain_3                      0x58
++
++#define          FA_RXHP_TH1                           5000
++#define          FA_RXHP_TH2                           1500
++#define          FA_RXHP_TH3                             800
++#define          FA_RXHP_TH4                             600
++#define          FA_RXHP_TH5                             500
++
++typedef enum tag_1R_CCA_Type_Definition
++{
++	CCA_1R =0,
++	CCA_2R = 1,
++	CCA_MAX = 2,
++}DM_1R_CCA_E;
++
++typedef enum tag_RF_Type_Definition
++{
++	RF_Save =0,
++	RF_Normal = 1,
++	RF_MAX = 2,
++}DM_RF_E;
++
++//
++// check Sta pointer valid or not
++//
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++#define IS_STA_VALID(pSta)		(pSta && pSta->expire_to)
++#elif (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++#define IS_STA_VALID(pSta)		(pSta && pSta->bUsed)
++#else
++#define IS_STA_VALID(pSta)		(pSta)
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_AP))
++
++BOOLEAN
++ODM_CheckPowerStatus(
++	IN	PADAPTER		Adapter
++	);
++
++#endif
++
++
++
++u4Byte odm_ConvertTo_dB(u4Byte Value);
++
++u4Byte odm_ConvertTo_linear(u4Byte Value);
++
++#if((DM_ODM_SUPPORT_TYPE==ODM_WIN)||(DM_ODM_SUPPORT_TYPE==ODM_CE))
++
++u4Byte
++GetPSDData(
++	PDM_ODM_T	pDM_Odm,
++	unsigned int 	point,
++	u1Byte initial_gain_psd);
++
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)	
++VOID
++ODM_DMWatchdog_LPS(
++	IN		PDM_ODM_T		pDM_Odm
++);
++#endif
++
++
++s4Byte
++ODM_PWdB_Conversion(
++    IN  s4Byte X,
++    IN  u4Byte TotalBit,
++    IN  u4Byte DecimalBit
++    );
++
++s4Byte
++ODM_SignConversion(
++    IN  s4Byte value,
++    IN  u4Byte TotalBit
++    );
++
++void
++phydm_seq_sorting( 
++	IN		PVOID	pDM_VOID,
++	IN OUT	u4Byte	*p_value,
++	IN OUT	u4Byte	*rank_idx,	
++	IN OUT	u4Byte	*p_idx_out,	
++	IN		u1Byte	seq_length
++);
++
++VOID 
++ODM_DMInit(
++ IN	PDM_ODM_T	pDM_Odm
++);
++
++VOID
++ODM_DMReset(
++	IN	PDM_ODM_T	pDM_Odm
++	);
++
++VOID
++phydm_support_ability_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++	);
++
++VOID
++phydm_config_trx_path(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte			*_used,
++	OUT		char			*output,
++	IN		u4Byte			*_out_len
++	);
++
++VOID
++ODM_DMWatchdog(
++	IN		PDM_ODM_T			pDM_Odm			// For common use in the future
++	);
++
++VOID
++ODM_CmnInfoInit(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		ODM_CMNINFO_E	CmnInfo,
++	IN		u4Byte			Value	
++	);
++
++VOID
++ODM_CmnInfoHook(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		ODM_CMNINFO_E	CmnInfo,
++	IN		PVOID			pValue	
++	);
++
++VOID
++ODM_CmnInfoPtrArrayHook(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		ODM_CMNINFO_E	CmnInfo,
++	IN		u2Byte			Index,
++	IN		PVOID			pValue	
++	);
++
++VOID
++ODM_CmnInfoUpdate(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		u4Byte			CmnInfo,
++	IN		u8Byte			Value	
++	);
++
++#if(DM_ODM_SUPPORT_TYPE==ODM_AP)
++VOID 
++ODM_InitAllThreads(
++    IN PDM_ODM_T	pDM_Odm 
++    );
++
++VOID
++ODM_StopAllThreads(
++	IN PDM_ODM_T	pDM_Odm 
++	);
++#endif
++
++VOID 
++ODM_InitAllTimers(
++    IN PDM_ODM_T	pDM_Odm 
++    );
++
++VOID 
++ODM_CancelAllTimers(
++    IN PDM_ODM_T    pDM_Odm 
++    );
++
++VOID
++ODM_ReleaseAllTimers(
++    IN PDM_ODM_T	pDM_Odm 
++    );
++
++
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID ODM_InitAllWorkItems(IN PDM_ODM_T	pDM_Odm );
++VOID ODM_FreeAllWorkItems(IN PDM_ODM_T	pDM_Odm );
++
++
++
++u8Byte
++PlatformDivision64(
++	IN u8Byte	x,
++	IN u8Byte	y
++);
++
++//====================================================
++//3 PathDiV End
++//====================================================
++
++
++#define DM_ChangeDynamicInitGainThresh		ODM_ChangeDynamicInitGainThresh
++
++typedef enum tag_DIG_Connect_Definition
++{
++	DIG_STA_DISCONNECT = 0,	
++	DIG_STA_CONNECT = 1,
++	DIG_STA_BEFORE_CONNECT = 2,
++	DIG_MultiSTA_DISCONNECT = 3,
++	DIG_MultiSTA_CONNECT = 4,
++	DIG_CONNECT_MAX
++}DM_DIG_CONNECT_E;
++
++
++//
++// 2012/01/12 MH Check afapter status. Temp fix BSOD.
++//
++#define	HAL_ADAPTER_STS_CHK(pDM_Odm)\
++	if (pDM_Odm->Adapter == NULL)\
++	{\
++		return;\
++	}\
++
++#endif	// #if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++VOID
++ODM_AsocEntry_Init(
++	IN		PDM_ODM_T		pDM_Odm
++	);
++
++
++PVOID
++PhyDM_Get_Structure(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		u1Byte			Structure_Type
++);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN) ||(DM_ODM_SUPPORT_TYPE == ODM_CE)
++/*===========================================================*/
++/* The following is for compile only*/
++/*===========================================================*/
++
++#define	IS_HARDWARE_TYPE_8723A(_Adapter)			FALSE
++#define	IS_HARDWARE_TYPE_8723AE(_Adapter)			FALSE
++#define	IS_HARDWARE_TYPE_8192C(_Adapter)			FALSE
++#define	IS_HARDWARE_TYPE_8192D(_Adapter)			FALSE
++#define	RF_T_METER_92D					0x42
++
++
++#define GET_RX_STATUS_DESC_RX_MCS(__pRxStatusDesc)				LE_BITS_TO_1BYTE( __pRxStatusDesc+12, 0, 6)
++
++#define		rConfig_ram64x16				0xb2c
++
++#define TARGET_CHNL_NUM_2G_5G	59
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++u1Byte GetRightChnlPlaceforIQK(u1Byte chnl);
++#endif
++
++//===========================================================
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++void odm_dtc(PDM_ODM_T pDM_Odm);
++#endif /* #if (DM_ODM_SUPPORT_TYPE == ODM_CE) */
++
++
++VOID phydm_NoisyDetection(IN	PDM_ODM_T	pDM_Odm	);
++
++
++#endif
++
++VOID
++phydm_api_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		function_map,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char			*output,
++	IN		u4Byte		*_out_len
++);
++
++u1Byte
++phydm_nbi_setting(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		enable,
++	IN		u4Byte		channel,
++	IN		u4Byte		bw,
++	IN		u4Byte		f_interference,
++	IN		u4Byte		Second_ch
++);
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_acs.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_acs.c
+new file mode 100644
+index 0000000..5227a3a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_acs.c
+@@ -0,0 +1,1226 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++
++u1Byte
++ODM_GetAutoChannelSelectResult(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Band
++)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PACS					pACS = &pDM_Odm->DM_ACS;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	if(Band == ODM_BAND_2_4G)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("[ACS] ODM_GetAutoChannelSelectResult(): CleanChannel_2G(%d)\n", pACS->CleanChannel_2G));
++		return (u1Byte)pACS->CleanChannel_2G;	
++	}
++	else
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("[ACS] ODM_GetAutoChannelSelectResult(): CleanChannel_5G(%d)\n", pACS->CleanChannel_5G));
++		return (u1Byte)pACS->CleanChannel_5G;	
++	}
++#else
++	return (u1Byte)pACS->CleanChannel_2G;
++#endif
++
++}
++
++VOID
++odm_AutoChannelSelectSetting(
++	IN		PVOID			pDM_VOID,
++	IN		BOOLEAN			IsEnable
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u2Byte						period = 0x2710;// 40ms in default
++	u2Byte						NHMType = 0x7;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("odm_AutoChannelSelectSetting()=========> \n"));
++
++	if(IsEnable)
++	{//20 ms
++		period = 0x1388;
++		NHMType = 0x1;
++	}
++
++	if(pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++	{
++		//PHY parameters initialize for ac series
++		ODM_Write2Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11AC+2, period);	//0x990[31:16]=0x2710	Time duration for NHM unit: 4us, 0x2710=40ms
++		//ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT8|BIT9|BIT10, NHMType);	//0x994[9:8]=3			enable CCX
++	}
++	else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++	{
++		//PHY parameters initialize for n series
++		ODM_Write2Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11N+2, period);	//0x894[31:16]=0x2710	Time duration for NHM unit: 4us, 0x2710=40ms
++		//ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT10|BIT9|BIT8, NHMType);	//0x890[9:8]=3			enable CCX		
++	}
++#endif
++}
++
++VOID
++odm_AutoChannelSelectInit(
++	IN		PVOID			pDM_VOID
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PACS						pACS = &pDM_Odm->DM_ACS;
++	u1Byte						i;
++
++	if(!(pDM_Odm->SupportAbility & ODM_BB_NHM_CNT))
++		return;
++
++	if(pACS->bForceACSResult)
++		return;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("odm_AutoChannelSelectInit()=========> \n"));
++
++	pACS->CleanChannel_2G = 1;
++	pACS->CleanChannel_5G = 36;
++
++	for (i = 0; i < ODM_MAX_CHANNEL_2G; ++i)
++	{
++		pACS->Channel_Info_2G[0][i] = 0;
++		pACS->Channel_Info_2G[1][i] = 0;
++	}
++
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++	{
++		for (i = 0; i < ODM_MAX_CHANNEL_5G; ++i)
++		{
++			pACS->Channel_Info_5G[0][i] = 0;
++			pACS->Channel_Info_5G[1][i] = 0;
++		}
++	}
++#endif
++}
++
++VOID
++odm_AutoChannelSelectReset(
++	IN		PVOID			pDM_VOID
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PACS						pACS = &pDM_Odm->DM_ACS;
++
++	if(!(pDM_Odm->SupportAbility & ODM_BB_NHM_CNT))
++		return;
++
++	if(pACS->bForceACSResult)
++		return;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("odm_AutoChannelSelectReset()=========> \n"));
++
++	odm_AutoChannelSelectSetting(pDM_Odm,TRUE);// for 20ms measurement
++	Phydm_NHMCounterStatisticsReset(pDM_Odm);
++#endif
++}
++
++VOID
++odm_AutoChannelSelect(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Channel
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PACS						pACS = &pDM_Odm->DM_ACS;
++	u1Byte						ChannelIDX = 0, SearchIDX = 0;
++	u2Byte						MaxScore=0;
++
++	if(!(pDM_Odm->SupportAbility & ODM_BB_NHM_CNT))
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_AutoChannelSelect(): Return: SupportAbility ODM_BB_NHM_CNT is disabled\n"));
++		return;
++	}
++
++	if(pACS->bForceACSResult)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_AutoChannelSelect(): Force 2G clean channel = %d, 5G clean channel = %d\n",
++			pACS->CleanChannel_2G, pACS->CleanChannel_5G));
++		return;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("odm_AutoChannelSelect(): Channel = %d=========> \n", Channel));
++
++	Phydm_GetNHMCounterStatistics(pDM_Odm);
++	odm_AutoChannelSelectSetting(pDM_Odm,FALSE);
++
++	if(Channel >=1 && Channel <=14)
++	{
++		ChannelIDX = Channel - 1;
++		pACS->Channel_Info_2G[1][ChannelIDX]++;
++		
++		if(pACS->Channel_Info_2G[1][ChannelIDX] >= 2)
++			pACS->Channel_Info_2G[0][ChannelIDX] = (pACS->Channel_Info_2G[0][ChannelIDX] >> 1) + 
++			(pACS->Channel_Info_2G[0][ChannelIDX] >> 2) + (pDM_Odm->NHM_cnt_0>>2);
++		else
++			pACS->Channel_Info_2G[0][ChannelIDX] = pDM_Odm->NHM_cnt_0;
++	
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("odm_AutoChannelSelect(): NHM_cnt_0 = %d \n", pDM_Odm->NHM_cnt_0));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("odm_AutoChannelSelect(): Channel_Info[0][%d] = %d, Channel_Info[1][%d] = %d\n", ChannelIDX, pACS->Channel_Info_2G[0][ChannelIDX], ChannelIDX, pACS->Channel_Info_2G[1][ChannelIDX]));
++
++		for(SearchIDX = 0; SearchIDX < ODM_MAX_CHANNEL_2G; SearchIDX++)
++		{
++			if(pACS->Channel_Info_2G[1][SearchIDX] != 0)
++			{
++				if(pACS->Channel_Info_2G[0][SearchIDX] >= MaxScore)
++				{
++					MaxScore = pACS->Channel_Info_2G[0][SearchIDX];
++					pACS->CleanChannel_2G = SearchIDX+1;
++				}
++			}
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("(1)odm_AutoChannelSelect(): 2G: CleanChannel_2G = %d, MaxScore = %d \n", 
++			pACS->CleanChannel_2G, MaxScore));
++
++	}
++	else if(Channel >= 36)
++	{
++		// Need to do
++		pACS->CleanChannel_5G = Channel;
++	}
++#endif
++}
++
++#if ( DM_ODM_SUPPORT_TYPE & ODM_AP )
++
++VOID
++phydm_AutoChannelSelectSettingAP(
++    IN  PVOID   pDM_VOID,
++    IN  u4Byte  setting,             // 0: STORE_DEFAULT_NHM_SETTING; 1: RESTORE_DEFAULT_NHM_SETTING, 2: ACS_NHM_SETTING
++    IN  u4Byte  acs_step
++)
++{
++    PDM_ODM_T           pDM_Odm = (PDM_ODM_T)pDM_VOID;
++    prtl8192cd_priv       priv           = pDM_Odm->priv;
++    PACS                    pACS         = &pDM_Odm->DM_ACS;
++
++    ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("odm_AutoChannelSelectSettingAP()=========> \n"));
++
++    //3 Store Default Setting
++    if(setting == STORE_DEFAULT_NHM_SETTING)
++    {
++        ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("STORE_DEFAULT_NHM_SETTING\n"));
++    
++        if(pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)     // store Reg0x990, Reg0x994, Reg0x998, Reg0x99C, Reg0x9a0
++        {
++            pACS->Reg0x990 = ODM_Read4Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11AC);                // Reg0x990
++            pACS->Reg0x994 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC);           // Reg0x994
++            pACS->Reg0x998 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC);       // Reg0x998
++            pACS->Reg0x99C = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC);       // Reg0x99c
++            pACS->Reg0x9A0 = ODM_Read1Byte(pDM_Odm, ODM_REG_NHM_TH8_11AC);                   // Reg0x9a0, u1Byte            
++        }
++        else if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++        {
++            pACS->Reg0x890 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N);             // Reg0x890
++            pACS->Reg0x894 = ODM_Read4Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11N);                  // Reg0x894
++            pACS->Reg0x898 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N);         // Reg0x898
++            pACS->Reg0x89C = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N);         // Reg0x89c
++            pACS->Reg0xE28 = ODM_Read1Byte(pDM_Odm, ODM_REG_NHM_TH8_11N);                     // Reg0xe28, u1Byte    
++        }
++    }
++
++    //3 Restore Default Setting
++    else if(setting == RESTORE_DEFAULT_NHM_SETTING)
++    {
++        ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("RESTORE_DEFAULT_NHM_SETTING\n"));
++        
++        if(pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)     // store Reg0x990, Reg0x994, Reg0x998, Reg0x99C, Reg0x9a0
++        {
++            ODM_Write4Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11AC,          pACS->Reg0x990);
++            ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC,     pACS->Reg0x994);
++            ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, pACS->Reg0x998);
++            ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, pACS->Reg0x99C);
++            ODM_Write1Byte(pDM_Odm, ODM_REG_NHM_TH8_11AC,             pACS->Reg0x9A0);   
++        }
++        else if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++        {
++            ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N,     pACS->Reg0x890);
++            ODM_Write4Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11AC,          pACS->Reg0x894);
++            ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, pACS->Reg0x898);
++            ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, pACS->Reg0x89C);
++            ODM_Write1Byte(pDM_Odm, ODM_REG_NHM_TH8_11N,             pACS->Reg0xE28); 
++        }        
++    }
++
++    //3 ACS Setting
++    else if(setting == ACS_NHM_SETTING)
++    {        
++        ODM_RT_TRACE(pDM_Odm, ODM_COMP_ACS, ODM_DBG_LOUD, ("ACS_NHM_SETTING\n"));
++        u2Byte  period;
++        period = 0x61a8;
++        pACS->ACS_Step = acs_step;
++            
++        if(pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++        {   
++            //4 Set NHM period, 0x990[31:16]=0x61a8, Time duration for NHM unit: 4us, 0x61a8=100ms
++            ODM_Write2Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11AC+2, period);
++            //4 Set NHM ignore_cca=1, ignore_txon=1, ccx_en=0
++            ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC,BIT8|BIT9|BIT10, 3);
++            
++            if(pACS->ACS_Step == 0)
++            {
++                //4 Set IGI
++                ODM_SetBBReg(pDM_Odm,0xc50,BIT0|BIT1|BIT2|BIT3|BIT4|BIT5|BIT6,0x3E);
++                if (get_rf_mimo_mode(priv) != MIMO_1T1R)
++					ODM_SetBBReg(pDM_Odm,0xe50,BIT0|BIT1|BIT2|BIT3|BIT4|BIT5|BIT6,0x3E);
++                    
++                //4 Set ACS NHM threshold
++                ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, 0x82786e64);
++                ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, 0xffffff8c);
++                ODM_Write1Byte(pDM_Odm, ODM_REG_NHM_TH8_11AC, 0xff);
++                ODM_Write2Byte(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC+2, 0xffff);
++                
++            }
++            else if(pACS->ACS_Step == 1)
++            {
++                //4 Set IGI
++                ODM_SetBBReg(pDM_Odm,0xc50,BIT0|BIT1|BIT2|BIT3|BIT4|BIT5|BIT6,0x2A);
++                if (get_rf_mimo_mode(priv) != MIMO_1T1R)
++					ODM_SetBBReg(pDM_Odm,0xe50,BIT0|BIT1|BIT2|BIT3|BIT4|BIT5|BIT6,0x2A);
++
++                //4 Set ACS NHM threshold
++                ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, 0x5a50463c);
++                ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, 0xffffff64);
++                
++            }
++
++        }
++        else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++        {
++            //4 Set NHM period, 0x894[31:16]=0x61a8, Time duration for NHM unit: 4us, 0x61a8=100ms
++            ODM_Write2Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11AC+2, period);
++            //4 Set NHM ignore_cca=1, ignore_txon=1, ccx_en=0
++            ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N,BIT8|BIT9|BIT10, 3);
++            
++            if(pACS->ACS_Step == 0)
++            {
++                //4 Set IGI
++                ODM_SetBBReg(pDM_Odm,0xc50,BIT0|BIT1|BIT2|BIT3|BIT4|BIT5|BIT6,0x3E);
++                if (get_rf_mimo_mode(priv) != MIMO_1T1R)
++					ODM_SetBBReg(pDM_Odm,0xc58,BIT0|BIT1|BIT2|BIT3|BIT4|BIT5|BIT6,0x3E);
++            
++                //4 Set ACS NHM threshold
++                ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, 0x82786e64);
++                ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, 0xffffff8c);
++                ODM_Write1Byte(pDM_Odm, ODM_REG_NHM_TH8_11N, 0xff);
++                ODM_Write2Byte(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N+2, 0xffff);
++                
++            }
++            else if(pACS->ACS_Step == 1)
++            {
++                //4 Set IGI
++                ODM_SetBBReg(pDM_Odm,0xc50,BIT0|BIT1|BIT2|BIT3|BIT4|BIT5|BIT6,0x2A);
++                if (get_rf_mimo_mode(priv) != MIMO_1T1R)
++					ODM_SetBBReg(pDM_Odm,0xc58,BIT0|BIT1|BIT2|BIT3|BIT4|BIT5|BIT6,0x2A);
++            
++                //4 Set ACS NHM threshold
++                ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, 0x5a50463c);
++                ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, 0xffffff64);
++
++            }            
++        }
++    }	
++	
++}
++
++VOID
++phydm_GetNHMStatisticsAP(
++    IN  PVOID       pDM_VOID,
++    IN  u4Byte      idx,                // @ 2G, Real channel number = idx+1
++    IN  u4Byte      acs_step
++)
++{
++    PDM_ODM_T	    pDM_Odm = (PDM_ODM_T)pDM_VOID;
++    prtl8192cd_priv     priv    = pDM_Odm->priv;
++    PACS                  pACS    = &pDM_Odm->DM_ACS;
++    u4Byte                value32 = 0;
++    u1Byte                i;
++
++    pACS->ACS_Step = acs_step;
++
++    if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++    {
++        //4 Check if NHM result is ready        
++        for (i=0; i<20; i++) {
++            
++            ODM_delay_ms(1);
++            if ( ODM_GetBBReg(pDM_Odm,rFPGA0_PSDReport,BIT17) )
++                break;
++        }
++        
++        //4 Get NHM Statistics        
++        if ( pACS->ACS_Step==1 ) {
++            
++            value32 = ODM_Read4Byte(pDM_Odm,ODM_REG_NHM_CNT7_TO_CNT4_11N);
++            
++            pACS->NHM_Cnt[idx][9] = (value32 & bMaskByte1) >> 8;
++            pACS->NHM_Cnt[idx][8] = (value32 & bMaskByte0);
++
++            value32 = ODM_Read4Byte(pDM_Odm,ODM_REG_NHM_CNT_11N);    // ODM_REG_NHM_CNT3_TO_CNT0_11N
++
++            pACS->NHM_Cnt[idx][7] = (value32 & bMaskByte3) >> 24;
++            pACS->NHM_Cnt[idx][6] = (value32 & bMaskByte2) >> 16;
++            pACS->NHM_Cnt[idx][5] = (value32 & bMaskByte1) >> 8;
++
++        } else if (pACS->ACS_Step==2) {
++        
++            value32 = ODM_Read4Byte(pDM_Odm,ODM_REG_NHM_CNT_11N);   // ODM_REG_NHM_CNT3_TO_CNT0_11N
++
++            pACS->NHM_Cnt[idx][4] = ODM_Read1Byte(pDM_Odm, ODM_REG_NHM_CNT7_TO_CNT4_11N);            
++            pACS->NHM_Cnt[idx][3] = (value32 & bMaskByte3) >> 24;
++            pACS->NHM_Cnt[idx][2] = (value32 & bMaskByte2) >> 16;
++            pACS->NHM_Cnt[idx][1] = (value32 & bMaskByte1) >> 8;
++            pACS->NHM_Cnt[idx][0] = (value32 & bMaskByte0);
++        }
++    }
++    else if(pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++    {
++        //4 Check if NHM result is ready        
++        for (i=0; i<20; i++) {
++            
++		ODM_delay_ms(1);
++		if (ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_DUR_READY_11AC, BIT16))
++			break;
++        }
++    
++        if ( pACS->ACS_Step==1 ) {
++            
++            value32 = ODM_Read4Byte(pDM_Odm,ODM_REG_NHM_CNT7_TO_CNT4_11AC);
++            
++            pACS->NHM_Cnt[idx][9] = (value32 & bMaskByte1) >> 8;
++            pACS->NHM_Cnt[idx][8] = (value32 & bMaskByte0);
++
++            value32 = ODM_Read4Byte(pDM_Odm,ODM_REG_NHM_CNT_11AC);     // ODM_REG_NHM_CNT3_TO_CNT0_11AC
++
++            pACS->NHM_Cnt[idx][7] = (value32 & bMaskByte3) >> 24;
++            pACS->NHM_Cnt[idx][6] = (value32 & bMaskByte2) >> 16;
++            pACS->NHM_Cnt[idx][5] = (value32 & bMaskByte1) >> 8;
++
++        } else if (pACS->ACS_Step==2) {
++        
++            value32 = ODM_Read4Byte(pDM_Odm,ODM_REG_NHM_CNT_11AC);      // ODM_REG_NHM_CNT3_TO_CNT0_11AC
++
++            pACS->NHM_Cnt[idx][4] = ODM_Read1Byte(pDM_Odm, ODM_REG_NHM_CNT7_TO_CNT4_11AC);            
++            pACS->NHM_Cnt[idx][3] = (value32 & bMaskByte3) >> 24;
++            pACS->NHM_Cnt[idx][2] = (value32 & bMaskByte2) >> 16;
++            pACS->NHM_Cnt[idx][1] = (value32 & bMaskByte1) >> 8;
++            pACS->NHM_Cnt[idx][0] = (value32 & bMaskByte0);
++        }            
++    }
++
++}
++
++
++//#define ACS_DEBUG_INFO //acs debug default off
++/*
++int phydm_AutoChannelSelectAP( 
++    IN   PVOID   pDM_VOID,
++    IN   u4Byte  ACS_Type,                      // 0: RXCount_Type, 1:NHM_Type
++    IN   u4Byte  available_chnl_num        // amount of all channels
++    )
++{
++    PDM_ODM_T               pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PACS                    pACS    = &pDM_Odm->DM_ACS;
++    prtl8192cd_priv			priv    = pDM_Odm->priv;
++    
++    static u4Byte           score2G[MAX_2G_CHANNEL_NUM], score5G[MAX_5G_CHANNEL_NUM];
++    u4Byte                  score[MAX_BSS_NUM], use_nhm = 0;
++    u4Byte                  minScore=0xffffffff;
++    u4Byte                  tmpScore, tmpIdx=0;
++    u4Byte                  traffic_check = 0;
++    u4Byte                  fa_count_weighting = 1;
++    int                     i, j, idx=0, idx_2G_end=-1, idx_5G_begin=-1, minChan=0;
++	struct bss_desc *pBss=NULL;
++
++#ifdef _DEBUG_RTL8192CD_
++	char tmpbuf[400];
++	int len=0;
++#endif
++
++	memset(score2G, '\0', sizeof(score2G));
++	memset(score5G, '\0', sizeof(score5G));
++
++	for (i=0; i<priv->available_chnl_num; i++) {
++		if (priv->available_chnl[i] <= 14)
++			idx_2G_end = i;
++		else
++			break;
++	}
++
++	for (i=0; i<priv->available_chnl_num; i++) {
++		if (priv->available_chnl[i] > 14) {
++			idx_5G_begin = i;
++			break;
++		}
++	}
++
++// DELETE
++#ifndef CONFIG_RTL_NEW_AUTOCH
++	for (i=0; i<priv->site_survey->count; i++) {
++		pBss = &priv->site_survey->bss[i];
++		for (idx=0; idx<priv->available_chnl_num; idx++) {
++			if (pBss->channel == priv->available_chnl[idx]) {
++				if (pBss->channel <= 14)
++					setChannelScore(idx, score2G, 0, MAX_2G_CHANNEL_NUM-1);
++				else
++					score5G[idx - idx_5G_begin] += 5;
++				break;
++			}
++		}
++	}
++#endif
++
++	if (idx_2G_end >= 0)
++		for (i=0; i<=idx_2G_end; i++)
++			score[i] = score2G[i];
++	if (idx_5G_begin >= 0)
++		for (i=idx_5G_begin; i<priv->available_chnl_num; i++)
++			score[i] = score5G[i - idx_5G_begin];
++		
++#ifdef CONFIG_RTL_NEW_AUTOCH
++	{
++		u4Byte y, ch_begin=0, ch_end= priv->available_chnl_num;
++
++		u4Byte do_ap_check = 1, ap_ratio = 0;
++		
++		if (idx_2G_end >= 0) 
++			ch_end = idx_2G_end+1;
++		if (idx_5G_begin >= 0)  
++			ch_begin = idx_5G_begin;
++
++#ifdef ACS_DEBUG_INFO//for debug
++		printk("\n");
++		for (y=ch_begin; y<ch_end; y++)
++			printk("1. init: chnl[%d] 20M_rx[%d] 40M_rx[%d] fa_cnt[%d] score[%d]\n",
++				priv->available_chnl[y], 
++				priv->chnl_ss_mac_rx_count[y], 
++				priv->chnl_ss_mac_rx_count_40M[y],
++				priv->chnl_ss_fa_count[y],
++				score[y]);
++		printk("\n");
++#endif
++
++#if defined(CONFIG_RTL_88E_SUPPORT) || defined(CONFIG_WLAN_HAL_8192EE)
++        if( pDM_Odm->SupportICType&(ODM_RTL8188E|ODM_RTL8192E)&& priv->pmib->dot11RFEntry.acs_type )
++		{
++			u4Byte tmp_score[MAX_BSS_NUM];
++			memcpy(tmp_score, score, sizeof(score));
++			if (find_clean_channel(priv, ch_begin, ch_end, tmp_score)) {
++				//memcpy(score, tmp_score, sizeof(score));
++#ifdef _DEBUG_RTL8192CD_
++				printk("!! Found clean channel, select minimum FA channel\n");
++#endif
++				goto USE_CLN_CH;
++			}
++#ifdef _DEBUG_RTL8192CD_
++			printk("!! Not found clean channel, use NHM algorithm\n");
++#endif
++			use_nhm = 1;
++USE_CLN_CH:
++			for (y=ch_begin; y<ch_end; y++) {
++				for (i=0; i<=9; i++) {
++					u4Byte val32 = priv->nhm_cnt[y][i];
++					for (j=0; j<i; j++)
++						val32 *= 3;
++					score[y] += val32;
++				}
++
++#ifdef _DEBUG_RTL8192CD_				
++				printk("nhm_cnt_%d: H<-[ %3d %3d %3d %3d %3d %3d %3d %3d %3d %3d]->L, score: %d\n", 
++					y+1, priv->nhm_cnt[y][9], priv->nhm_cnt[y][8], priv->nhm_cnt[y][7], 
++					priv->nhm_cnt[y][6], priv->nhm_cnt[y][5], priv->nhm_cnt[y][4],
++					priv->nhm_cnt[y][3], priv->nhm_cnt[y][2], priv->nhm_cnt[y][1],
++					priv->nhm_cnt[y][0], score[y]);
++#endif
++			}
++
++			if (!use_nhm)
++				memcpy(score, tmp_score, sizeof(score));
++			
++			goto choose_ch;
++		}
++#endif
++
++            // For each channel, weighting behind channels with MAC RX counter
++            //For each channel, weighting the channel with FA counter
++
++		for (y=ch_begin; y<ch_end; y++) {
++			score[y] += 8 * priv->chnl_ss_mac_rx_count[y];
++			if (priv->chnl_ss_mac_rx_count[y] > 30)
++				do_ap_check = 0;
++			if( priv->chnl_ss_mac_rx_count[y] > MAC_RX_COUNT_THRESHOLD )
++				traffic_check = 1;
++			
++#ifdef RTK_5G_SUPPORT
++			if (priv->pmib->dot11RFEntry.phyBandSelect == PHY_BAND_2G)
++#endif
++			{
++				if ((int)(y-4) >= (int)ch_begin)
++					score[y-4] += 2 * priv->chnl_ss_mac_rx_count[y];				
++				if ((int)(y-3) >= (int)ch_begin)
++					score[y-3] += 8 * priv->chnl_ss_mac_rx_count[y];
++				if ((int)(y-2) >= (int)ch_begin)
++					score[y-2] += 8 * priv->chnl_ss_mac_rx_count[y];
++				if ((int)(y-1) >= (int)ch_begin)
++					score[y-1] += 10 * priv->chnl_ss_mac_rx_count[y];
++				if ((int)(y+1) < (int)ch_end)
++					score[y+1] += 10 * priv->chnl_ss_mac_rx_count[y];
++				if ((int)(y+2) < (int)ch_end)
++					score[y+2] += 8 * priv->chnl_ss_mac_rx_count[y];
++				if ((int)(y+3) < (int)ch_end)
++					score[y+3] += 8 * priv->chnl_ss_mac_rx_count[y];
++				if ((int)(y+4) < (int)ch_end)
++					score[y+4] += 2 * priv->chnl_ss_mac_rx_count[y];
++			}
++
++			//this is for CH_LOAD caculation
++			if( priv->chnl_ss_cca_count[y] > priv->chnl_ss_fa_count[y])
++				priv->chnl_ss_cca_count[y]-= priv->chnl_ss_fa_count[y];
++			else
++				priv->chnl_ss_cca_count[y] = 0;
++		}
++
++#ifdef ACS_DEBUG_INFO//for debug
++		printk("\n");
++		for (y=ch_begin; y<ch_end; y++)
++			printk("2. after 20M check: chnl[%d] score[%d]\n",priv->available_chnl[y], score[y]);
++		printk("\n");
++#endif	
++
++		for (y=ch_begin; y<ch_end; y++) {
++			if (priv->chnl_ss_mac_rx_count_40M[y]) {
++				score[y] += 5 * priv->chnl_ss_mac_rx_count_40M[y];
++				if (priv->chnl_ss_mac_rx_count_40M[y] > 30)
++					do_ap_check = 0;
++				if( priv->chnl_ss_mac_rx_count_40M[y] > MAC_RX_COUNT_THRESHOLD )
++					traffic_check = 1;
++				
++#ifdef RTK_5G_SUPPORT
++				if (priv->pmib->dot11RFEntry.phyBandSelect == PHY_BAND_2G)
++#endif
++				{
++					if ((int)(y-6) >= (int)ch_begin)
++						score[y-6] += 1 * priv->chnl_ss_mac_rx_count_40M[y];
++					if ((int)(y-5) >= (int)ch_begin)
++						score[y-5] += 4 * priv->chnl_ss_mac_rx_count_40M[y];
++					if ((int)(y-4) >= (int)ch_begin)
++						score[y-4] += 4 * priv->chnl_ss_mac_rx_count_40M[y];
++					if ((int)(y-3) >= (int)ch_begin)
++						score[y-3] += 5 * priv->chnl_ss_mac_rx_count_40M[y];
++					if ((int)(y-2) >= (int)ch_begin)
++						score[y-2] += (5 * priv->chnl_ss_mac_rx_count_40M[y])/2;
++					if ((int)(y-1) >= (int)ch_begin)
++						score[y-1] += 5 * priv->chnl_ss_mac_rx_count_40M[y];
++					if ((int)(y+1) < (int)ch_end)
++						score[y+1] += 5 * priv->chnl_ss_mac_rx_count_40M[y];
++					if ((int)(y+2) < (int)ch_end)
++						score[y+2] += (5 * priv->chnl_ss_mac_rx_count_40M[y])/2;
++					if ((int)(y+3) < (int)ch_end)
++						score[y+3] += 5 * priv->chnl_ss_mac_rx_count_40M[y];
++					if ((int)(y+4) < (int)ch_end)
++						score[y+4] += 4 * priv->chnl_ss_mac_rx_count_40M[y];
++					if ((int)(y+5) < (int)ch_end)
++						score[y+5] += 4 * priv->chnl_ss_mac_rx_count_40M[y];
++					if ((int)(y+6) < (int)ch_end)
++						score[y+6] += 1 * priv->chnl_ss_mac_rx_count_40M[y];
++				}
++			}
++		}
++
++#ifdef ACS_DEBUG_INFO//for debug
++		printk("\n");
++		for (y=ch_begin; y<ch_end; y++)
++			printk("3. after 40M check: chnl[%d] score[%d]\n",priv->available_chnl[y], score[y]);
++		printk("\n");
++		printk("4. do_ap_check=%d traffic_check=%d\n", do_ap_check, traffic_check);
++		printk("\n");
++#endif
++
++		if( traffic_check == 0)
++			fa_count_weighting = 5;
++		else
++			fa_count_weighting = 1;
++
++		for (y=ch_begin; y<ch_end; y++) {
++			score[y] += fa_count_weighting * priv->chnl_ss_fa_count[y];
++		}
++
++#ifdef ACS_DEBUG_INFO//for debug
++		printk("\n");
++		for (y=ch_begin; y<ch_end; y++)
++			printk("5. after fa check: chnl[%d] score[%d]\n",priv->available_chnl[y], score[y]);
++		printk("\n");
++#endif			
++
++		if (do_ap_check) {
++			for (i=0; i<priv->site_survey->count; i++) {				
++				pBss = &priv->site_survey->bss[i];
++				for (y=ch_begin; y<ch_end; y++) {
++					if (pBss->channel == priv->available_chnl[y]) {
++						if (pBss->channel <= 14) {
++#ifdef ACS_DEBUG_INFO//for debug
++						printk("\n");
++						printk("chnl[%d] has ap rssi=%d bw[0x%02x]\n",
++							pBss->channel, pBss->rssi, pBss->t_stamp[1]);
++						printk("\n");
++#endif
++							if (pBss->rssi > 60)
++								ap_ratio = 4;
++							else if (pBss->rssi > 35)
++								ap_ratio = 2;
++							else
++								ap_ratio = 1;
++							
++							if ((pBss->t_stamp[1] & 0x6) == 0) {
++								score[y] += 50 * ap_ratio;
++								if ((int)(y-4) >= (int)ch_begin)
++									score[y-4] += 10 * ap_ratio;
++								if ((int)(y-3) >= (int)ch_begin)
++									score[y-3] += 20 * ap_ratio;
++								if ((int)(y-2) >= (int)ch_begin)
++									score[y-2] += 30 * ap_ratio;
++								if ((int)(y-1) >= (int)ch_begin)
++									score[y-1] += 40 * ap_ratio;
++								if ((int)(y+1) < (int)ch_end)
++									score[y+1] += 40 * ap_ratio;
++								if ((int)(y+2) < (int)ch_end)
++									score[y+2] += 30 * ap_ratio;
++								if ((int)(y+3) < (int)ch_end)
++									score[y+3] += 20 * ap_ratio;
++								if ((int)(y+4) < (int)ch_end)
++									score[y+4] += 10 * ap_ratio;
++							}	
++							else if ((pBss->t_stamp[1] & 0x4) == 0) {
++								score[y] += 50 * ap_ratio;
++								if ((int)(y-3) >= (int)ch_begin)
++									score[y-3] += 20 * ap_ratio;
++								if ((int)(y-2) >= (int)ch_begin)
++									score[y-2] += 30 * ap_ratio;
++								if ((int)(y-1) >= (int)ch_begin)
++									score[y-1] += 40 * ap_ratio;
++								if ((int)(y+1) < (int)ch_end)
++									score[y+1] += 50 * ap_ratio;
++								if ((int)(y+2) < (int)ch_end)
++									score[y+2] += 50 * ap_ratio;
++								if ((int)(y+3) < (int)ch_end)
++									score[y+3] += 50 * ap_ratio;
++								if ((int)(y+4) < (int)ch_end)
++									score[y+4] += 50 * ap_ratio;
++								if ((int)(y+5) < (int)ch_end)
++									score[y+5] += 40 * ap_ratio;
++								if ((int)(y+6) < (int)ch_end)
++									score[y+6] += 30 * ap_ratio;
++								if ((int)(y+7) < (int)ch_end)
++									score[y+7] += 20 * ap_ratio;	
++							}	
++							else {
++								score[y] += 50 * ap_ratio;
++								if ((int)(y-7) >= (int)ch_begin)
++									score[y-7] += 20 * ap_ratio;
++								if ((int)(y-6) >= (int)ch_begin)
++									score[y-6] += 30 * ap_ratio;
++								if ((int)(y-5) >= (int)ch_begin)
++									score[y-5] += 40 * ap_ratio;
++								if ((int)(y-4) >= (int)ch_begin)
++									score[y-4] += 50 * ap_ratio;
++								if ((int)(y-3) >= (int)ch_begin)
++									score[y-3] += 50 * ap_ratio;
++								if ((int)(y-2) >= (int)ch_begin)
++									score[y-2] += 50 * ap_ratio;
++								if ((int)(y-1) >= (int)ch_begin)
++									score[y-1] += 50 * ap_ratio;
++								if ((int)(y+1) < (int)ch_end)
++									score[y+1] += 40 * ap_ratio;
++								if ((int)(y+2) < (int)ch_end)
++									score[y+2] += 30 * ap_ratio;
++								if ((int)(y+3) < (int)ch_end)
++									score[y+3] += 20 * ap_ratio;
++							}	
++						}	
++						else {
++							if ((pBss->t_stamp[1] & 0x6) == 0) {
++								score[y] += 500;
++							}
++							else if ((pBss->t_stamp[1] & 0x4) == 0) {
++								score[y] += 500;
++								if ((int)(y+1) < (int)ch_end)
++									score[y+1] += 500;
++							}
++							else {	
++								score[y] += 500;
++								if ((int)(y-1) >= (int)ch_begin)
++									score[y-1] += 500;
++							}
++						}
++						break;
++					}
++				}
++			}
++		}
++
++#ifdef ACS_DEBUG_INFO//for debug
++		printk("\n");
++		for (y=ch_begin; y<ch_end; y++)
++			printk("6. after ap check: chnl[%d]:%d\n", priv->available_chnl[y],score[y]);
++		printk("\n");
++#endif		
++
++#ifdef 	SS_CH_LOAD_PROC
++
++		// caculate noise level -- suggested by wilson
++		for (y=ch_begin; y<ch_end; y++)  {
++			int fa_lv=0, cca_lv=0;
++			if (priv->chnl_ss_fa_count[y]>1000) {
++				fa_lv = 100;
++			} else if (priv->chnl_ss_fa_count[y]>500) {
++				fa_lv = 34 * (priv->chnl_ss_fa_count[y]-500) / 500 + 66;
++			} else if (priv->chnl_ss_fa_count[y]>200) {
++				fa_lv = 33 * (priv->chnl_ss_fa_count[y] - 200) / 300 + 33;
++			} else if (priv->chnl_ss_fa_count[y]>100) {
++				fa_lv = 18 * (priv->chnl_ss_fa_count[y] - 100) / 100 + 15;
++			} else {
++				fa_lv = 15 * priv->chnl_ss_fa_count[y] / 100;
++			} 
++			if (priv->chnl_ss_cca_count[y]>400) {
++				cca_lv = 100;
++			} else if (priv->chnl_ss_cca_count[y]>200) {
++				cca_lv = 34 * (priv->chnl_ss_cca_count[y] - 200) / 200 + 66;
++			} else if (priv->chnl_ss_cca_count[y]>80) {
++				cca_lv = 33 * (priv->chnl_ss_cca_count[y] - 80) / 120 + 33;
++			} else if (priv->chnl_ss_cca_count[y]>40) {
++				cca_lv = 18 * (priv->chnl_ss_cca_count[y] - 40) / 40 + 15;
++			} else {
++				cca_lv = 15 * priv->chnl_ss_cca_count[y] / 40;
++			}
++
++			priv->chnl_ss_load[y] = (((fa_lv > cca_lv)? fa_lv : cca_lv)*75+((score[y]>100)?100:score[y])*25)/100;
++
++			DEBUG_INFO("ch:%d f=%d (%d), c=%d (%d), fl=%d, cl=%d, sc=%d, cu=%d\n", 
++					priv->available_chnl[y],
++					priv->chnl_ss_fa_count[y], fa_thd,
++					priv->chnl_ss_cca_count[y], cca_thd,
++					fa_lv, 
++					cca_lv,
++					score[y],					
++					priv->chnl_ss_load[y]);
++			
++		}		
++#endif		
++	}
++#endif
++
++choose_ch:
++
++#ifdef DFS
++	// heavy weighted DFS channel
++	if (idx_5G_begin >= 0){
++		for (i=idx_5G_begin; i<priv->available_chnl_num; i++) {
++			if (!priv->pmib->dot11DFSEntry.disable_DFS && is_DFS_channel(priv->available_chnl[i]) 
++			&& (score[i]!= 0xffffffff)){
++					score[i] += 1600; 
++		}
++	}
++	}
++#endif
++
++
++//prevent Auto Channel selecting wrong channel in 40M mode-----------------
++	if ((priv->pmib->dot11BssType.net_work_type & WIRELESS_11N)
++		&& priv->pshare->is_40m_bw) {
++#if 0
++		if (GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset == 1) {
++			//Upper Primary Channel, cannot select the two lowest channels
++			if (priv->pmib->dot11BssType.net_work_type & WIRELESS_11G) {
++				score[0] = 0xffffffff;
++				score[1] = 0xffffffff;
++				score[2] = 0xffffffff;
++				score[3] = 0xffffffff;
++				score[4] = 0xffffffff;
++
++				score[13] = 0xffffffff;
++				score[12] = 0xffffffff;
++				score[11] = 0xffffffff;
++			}
++
++//			if (priv->pmib->dot11BssType.net_work_type & WIRELESS_11A) {
++//				score[idx_5G_begin] = 0xffffffff;
++//				score[idx_5G_begin + 1] = 0xffffffff;
++//			}
++		}
++		else if (GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset == 2) {
++			//Lower Primary Channel, cannot select the two highest channels
++			if (priv->pmib->dot11BssType.net_work_type & WIRELESS_11G) {
++				score[0] = 0xffffffff;
++				score[1] = 0xffffffff;
++				score[2] = 0xffffffff;
++
++				score[13] = 0xffffffff;
++				score[12] = 0xffffffff;
++				score[11] = 0xffffffff;
++				score[10] = 0xffffffff;
++				score[9] = 0xffffffff;
++			}
++
++//			if (priv->pmib->dot11BssType.net_work_type & WIRELESS_11A) {
++//				score[priv->available_chnl_num - 2] = 0xffffffff;
++//				score[priv->available_chnl_num - 1] = 0xffffffff;
++//			}
++		}
++#endif
++		for (i=0; i<=idx_2G_end; ++i)
++			if (priv->available_chnl[i] == 14)
++				score[i] = 0xffffffff;		// mask chan14
++
++#ifdef RTK_5G_SUPPORT
++		if (idx_5G_begin >= 0) {
++			for (i=idx_5G_begin; i<priv->available_chnl_num; i++) {
++				int ch = priv->available_chnl[i];
++				if(priv->available_chnl[i] > 144) 
++					--ch;
++				if((ch%4) || ch==140 || ch == 164 )	//mask ch 140, ch 165, ch 184...
++					score[i] = 0xffffffff;
++			}
++		}
++#endif
++
++		
++	}
++
++	if (priv->pmib->dot11RFEntry.disable_ch1213) {
++		for (i=0; i<=idx_2G_end; ++i) {
++			int ch = priv->available_chnl[i];
++			if ((ch == 12) || (ch == 13))
++				score[i] = 0xffffffff;
++		}
++	}
++
++	if (((priv->pmib->dot11StationConfigEntry.dot11RegDomain == DOMAIN_GLOBAL) ||
++			(priv->pmib->dot11StationConfigEntry.dot11RegDomain == DOMAIN_WORLD_WIDE)) &&
++		 (idx_2G_end >= 11) && (idx_2G_end < 14)) {
++		score[13] = 0xffffffff;	// mask chan14
++		score[12] = 0xffffffff; // mask chan13
++		score[11] = 0xffffffff; // mask chan12
++	}
++	
++//------------------------------------------------------------------
++
++#ifdef _DEBUG_RTL8192CD_
++	for (i=0; i<priv->available_chnl_num; i++) {
++		len += sprintf(tmpbuf+len, "ch%d:%u ", priv->available_chnl[i], score[i]);		
++	}
++	strcat(tmpbuf, "\n");
++	panic_printk("%s", tmpbuf);
++
++#endif
++
++	if ( (priv->pmib->dot11RFEntry.phyBandSelect == PHY_BAND_5G)
++		&& (priv->pmib->dot11nConfigEntry.dot11nUse40M == HT_CHANNEL_WIDTH_80)) 
++	{
++		for (i=0; i<priv->available_chnl_num; i++) {
++			if (is80MChannel(priv->available_chnl, priv->available_chnl_num, priv->available_chnl[i])) {
++				tmpScore = 0;
++				for (j=0; j<4; j++) {
++					if ((tmpScore != 0xffffffff) && (score[i+j] != 0xffffffff))
++						tmpScore += score[i+j];
++					else
++						tmpScore = 0xffffffff;
++				}
++				tmpScore = tmpScore / 4;
++				if (minScore > tmpScore) {
++					minScore = tmpScore;
++
++					tmpScore = 0xffffffff;
++					for (j=0; j<4; j++) {
++						if (score[i+j] < tmpScore) {
++							tmpScore = score[i+j];
++							tmpIdx = i+j;
++						}
++					}
++
++					idx = tmpIdx;
++				}
++				i += 3;
++			}
++		}
++		if (minScore == 0xffffffff) {
++			// there is no 80M channels
++			priv->pshare->is_40m_bw = HT_CHANNEL_WIDTH_20;
++			for (i=0; i<priv->available_chnl_num; i++) {
++				if (score[i] < minScore) {
++					minScore = score[i];
++					idx = i;
++				}
++			}
++		}
++	}
++	else if( (priv->pmib->dot11RFEntry.phyBandSelect == PHY_BAND_5G)
++			&& (priv->pmib->dot11nConfigEntry.dot11nUse40M == HT_CHANNEL_WIDTH_20_40))
++ 	{
++		for (i=0; i<priv->available_chnl_num; i++) {
++			if(is40MChannel(priv->available_chnl,priv->available_chnl_num,priv->available_chnl[i])) {
++				tmpScore = 0;
++				for(j=0;j<2;j++) {
++					if ((tmpScore != 0xffffffff) && (score[i+j] != 0xffffffff))
++						tmpScore += score[i+j];
++					else
++						tmpScore = 0xffffffff;
++				}
++				tmpScore = tmpScore / 2;
++				if(minScore > tmpScore) {
++					minScore = tmpScore;
++
++					tmpScore = 0xffffffff;
++					for (j=0; j<2; j++) {
++						if (score[i+j] < tmpScore) {
++							tmpScore = score[i+j];
++							tmpIdx = i+j;
++						}
++					}
++
++					idx = tmpIdx;
++				}
++				i += 1;
++			}
++		}
++		if (minScore == 0xffffffff) {
++			// there is no 40M channels
++			priv->pshare->is_40m_bw = HT_CHANNEL_WIDTH_20;
++			for (i=0; i<priv->available_chnl_num; i++) {
++				if (score[i] < minScore) {
++					minScore = score[i];
++					idx = i;
++				}
++			}
++		}
++	}
++	else if( (priv->pmib->dot11RFEntry.phyBandSelect == PHY_BAND_2G)
++			&& (priv->pmib->dot11nConfigEntry.dot11nUse40M == HT_CHANNEL_WIDTH_20_40)
++			&& (priv->available_chnl_num >= 8) )
++	{
++		u4Byte groupScore[14];
++
++		memset(groupScore, 0xff , sizeof(groupScore));
++		for (i=0; i<priv->available_chnl_num-4; i++) {
++			if (score[i] != 0xffffffff && score[i+4] != 0xffffffff) {
++				groupScore[i] = score[i] + score[i+4];
++				DEBUG_INFO("groupScore, ch %d,%d: %d\n", i+1, i+5, groupScore[i]);
++				if (groupScore[i] < minScore) {
++#ifdef AUTOCH_SS_SPEEDUP
++					if(priv->pmib->miscEntry.autoch_1611_enable)
++					{
++						if(priv->available_chnl[i]==1 || priv->available_chnl[i]==6 || priv->available_chnl[i]==11)
++						{
++							minScore = groupScore[i];
++							idx = i;
++						}
++					}
++					else
++#endif
++					{					
++						minScore = groupScore[i];
++						idx = i;
++					}
++				}
++			}
++		}
++
++		if (score[idx] < score[idx+4]) {
++			GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset = HT_2NDCH_OFFSET_ABOVE;
++			priv->pshare->offset_2nd_chan	= HT_2NDCH_OFFSET_ABOVE;			
++		} else {
++			idx = idx + 4;
++			GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset = HT_2NDCH_OFFSET_BELOW;
++			priv->pshare->offset_2nd_chan	= HT_2NDCH_OFFSET_BELOW;			
++		}
++	}
++	else 
++	{
++		for (i=0; i<priv->available_chnl_num; i++) {
++			if (score[i] < minScore) {
++#ifdef AUTOCH_SS_SPEEDUP
++				if(priv->pmib->miscEntry.autoch_1611_enable)
++				{
++					if(priv->available_chnl[i]==1 || priv->available_chnl[i]==6 || priv->available_chnl[i]==11)
++					{
++						minScore = score[i];
++						idx = i;
++					}
++				}
++				else
++#endif
++				{				
++					minScore = score[i];
++					idx = i;
++				}
++			}
++		}
++	}
++
++	if (IS_A_CUT_8881A(priv) &&
++		(priv->pmib->dot11nConfigEntry.dot11nUse40M == HT_CHANNEL_WIDTH_80)) {
++		if ((priv->available_chnl[idx] == 36) ||
++			(priv->available_chnl[idx] == 52) ||
++			(priv->available_chnl[idx] == 100) ||
++			(priv->available_chnl[idx] == 116) ||
++			(priv->available_chnl[idx] == 132) ||
++			(priv->available_chnl[idx] == 149) ||
++			(priv->available_chnl[idx] == 165))
++			idx++;
++		else if ((priv->available_chnl[idx] == 48) ||
++			(priv->available_chnl[idx] == 64) ||
++			(priv->available_chnl[idx] == 112) ||
++			(priv->available_chnl[idx] == 128) ||
++			(priv->available_chnl[idx] == 144) ||
++			(priv->available_chnl[idx] == 161) ||
++			(priv->available_chnl[idx] == 177))
++			idx--;
++	}
++
++	minChan = priv->available_chnl[idx];
++
++	// skip channel 14 if don't support ofdm
++	if ((priv->pmib->dot11RFEntry.disable_ch14_ofdm) &&
++			(minChan == 14)) {
++		score[idx] = 0xffffffff;
++		
++		minScore = 0xffffffff;
++		for (i=0; i<priv->available_chnl_num; i++) {
++			if (score[i] < minScore) {
++				minScore = score[i];
++				idx = i;
++			}
++		}
++		minChan = priv->available_chnl[idx];
++	}
++
++#if 0
++	//Check if selected channel available for 80M/40M BW or NOT ?
++	if(priv->pmib->dot11RFEntry.phyBandSelect == PHY_BAND_5G)
++	{
++		if(priv->pmib->dot11nConfigEntry.dot11nUse40M == HT_CHANNEL_WIDTH_80)
++		{
++			if(!is80MChannel(priv->available_chnl,priv->available_chnl_num,minChan))
++			{
++				//printk("BW=80M, selected channel = %d is unavaliable! reduce to 40M\n", minChan);
++				//priv->pmib->dot11nConfigEntry.dot11nUse40M = HT_CHANNEL_WIDTH_20_40;
++				priv->pshare->is_40m_bw = HT_CHANNEL_WIDTH_20_40;
++			}
++		}
++			
++		if(priv->pmib->dot11nConfigEntry.dot11nUse40M == HT_CHANNEL_WIDTH_20_40)
++		{
++			if(!is40MChannel(priv->available_chnl,priv->available_chnl_num,minChan))
++			{
++				//printk("BW=40M, selected channel = %d is unavaliable! reduce to 20M\n", minChan);
++				//priv->pmib->dot11nConfigEntry.dot11nUse40M = HT_CHANNEL_WIDTH_20;
++				priv->pshare->is_40m_bw = HT_CHANNEL_WIDTH_20;
++			}
++		}
++	}
++#endif
++
++#ifdef CONFIG_RTL_NEW_AUTOCH
++	RTL_W32(RXERR_RPT, RXERR_RPT_RST);
++#endif
++
++// auto adjust contro-sideband
++	if ((priv->pmib->dot11BssType.net_work_type & WIRELESS_11N)
++			&& (priv->pshare->is_40m_bw ==1 || priv->pshare->is_40m_bw ==2)) {
++
++#ifdef RTK_5G_SUPPORT
++		if (priv->pmib->dot11RFEntry.phyBandSelect & PHY_BAND_5G) {
++			if( (minChan>144) ? ((minChan-1)%8) : (minChan%8)) {
++				GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset = HT_2NDCH_OFFSET_ABOVE;
++				priv->pshare->offset_2nd_chan	= HT_2NDCH_OFFSET_ABOVE;
++			} else {
++				GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset = HT_2NDCH_OFFSET_BELOW;
++				priv->pshare->offset_2nd_chan	= HT_2NDCH_OFFSET_BELOW;
++			}
++
++		} else
++#endif		
++		{
++#if 0
++#ifdef CONFIG_RTL_NEW_AUTOCH
++			unsigned int ch_max;
++
++			if (priv->available_chnl[idx_2G_end] >= 13)
++				ch_max = 13;
++			else
++				ch_max = priv->available_chnl[idx_2G_end];
++
++			if ((minChan >= 5) && (minChan <= (ch_max-5))) {
++				if (score[minChan+4] > score[minChan-4]) { // what if some channels were cancelled?
++					GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset = HT_2NDCH_OFFSET_BELOW;
++					priv->pshare->offset_2nd_chan	= HT_2NDCH_OFFSET_BELOW;
++				} else {
++					GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset = HT_2NDCH_OFFSET_ABOVE;
++					priv->pshare->offset_2nd_chan	= HT_2NDCH_OFFSET_ABOVE;
++				}
++			} else
++#endif
++			{
++				if (minChan < 5) {
++					GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset = HT_2NDCH_OFFSET_ABOVE;
++					priv->pshare->offset_2nd_chan	= HT_2NDCH_OFFSET_ABOVE;
++				}
++				else if (minChan > 7) {
++					GET_MIB(priv)->dot11nConfigEntry.dot11n2ndChOffset = HT_2NDCH_OFFSET_BELOW;
++					priv->pshare->offset_2nd_chan	= HT_2NDCH_OFFSET_BELOW;
++				}
++			}
++#endif
++		}
++	}
++//-----------------------
++
++#if defined(__ECOS) && defined(CONFIG_SDIO_HCI)
++	panic_printk("Auto channel choose ch:%d\n", minChan);
++#else
++#ifdef _DEBUG_RTL8192CD_
++	panic_printk("Auto channel choose ch:%d\n", minChan);
++#endif
++#endif
++#ifdef ACS_DEBUG_INFO//for debug
++	printk("7. minChan:%d 2nd_offset:%d\n", minChan, priv->pshare->offset_2nd_chan);
++#endif
++
++	return minChan;
++}
++*/
++
++#endif
++
++
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_acs.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_acs.h
+new file mode 100644
+index 0000000..92efdf3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_acs.h
+@@ -0,0 +1,106 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMACS_H__
++#define    __PHYDMACS_H__
++
++#define ACS_VERSION	"1.1"	/*20150729 by YuChen*/
++#define CLM_VERSION "1.0"
++
++#define ODM_MAX_CHANNEL_2G			14
++#define ODM_MAX_CHANNEL_5G			24
++
++// For phydm_AutoChannelSelectSettingAP()
++#define STORE_DEFAULT_NHM_SETTING               0
++#define RESTORE_DEFAULT_NHM_SETTING             1
++#define ACS_NHM_SETTING                         2
++
++typedef struct _ACS_
++{
++	BOOLEAN		bForceACSResult;
++	u1Byte		CleanChannel_2G;
++	u1Byte		CleanChannel_5G;
++	u2Byte		Channel_Info_2G[2][ODM_MAX_CHANNEL_2G];		//Channel_Info[1]: Channel Score, Channel_Info[2]:Channel_Scan_Times
++	u2Byte		Channel_Info_5G[2][ODM_MAX_CHANNEL_5G];	
++
++#if ( DM_ODM_SUPPORT_TYPE & ODM_AP )    
++    u1Byte              ACS_Step;
++    // NHM Count 0-11
++    u1Byte              NHM_Cnt[14][11];
++
++    // AC-Series, for storing previous setting
++    u4Byte              Reg0x990; 
++    u4Byte              Reg0x994;
++    u4Byte              Reg0x998;
++    u4Byte              Reg0x99C;
++    u1Byte              Reg0x9A0;   // u1Byte
++
++    // N-Series, for storing previous setting
++    u4Byte              Reg0x890; 
++    u4Byte              Reg0x894;
++    u4Byte              Reg0x898;
++    u4Byte              Reg0x89C;
++    u1Byte              Reg0xE28;   // u1Byte
++#endif
++
++}ACS, *PACS;
++
++
++VOID
++odm_AutoChannelSelectInit(
++	IN		PVOID			pDM_VOID
++);
++
++VOID
++odm_AutoChannelSelectReset(
++	IN		PVOID			pDM_VOID
++);
++
++VOID
++odm_AutoChannelSelect(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Channel
++);
++
++u1Byte
++ODM_GetAutoChannelSelectResult(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Band
++);
++
++#if ( DM_ODM_SUPPORT_TYPE & ODM_AP )
++
++VOID
++phydm_AutoChannelSelectSettingAP(
++    IN  PVOID   pDM_VOID,
++    IN  u4Byte  Setting,             // 0: STORE_DEFAULT_NHM_SETTING; 1: RESTORE_DEFAULT_NHM_SETTING, 2: ACS_NHM_SETTING
++    IN  u4Byte  acs_step        
++);
++
++VOID
++phydm_GetNHMStatisticsAP(
++    IN  PVOID       pDM_VOID,
++    IN  u4Byte      idx,                // @ 2G, Real channel number = idx+1
++    IN  u4Byte      acs_step
++);
++
++#endif  //#if ( DM_ODM_SUPPORT_TYPE & ODM_AP )
++
++#endif  //#ifndef	__PHYDMACS_H__
+\ No newline at end of file
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_adaptivity.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_adaptivity.c
+new file mode 100644
+index 0000000..4676eaa
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_adaptivity.c
+@@ -0,0 +1,1097 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++#if WPP_SOFTWARE_TRACE
++#include "PhyDM_Adaptivity.tmh"
++#endif
++#endif
++
++
++VOID
++Phydm_CheckAdaptivity(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);
++	
++	if (pDM_Odm->SupportAbility & ODM_BB_ADAPTIVITY) {
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		if (pDM_Odm->APTotalNum > Adaptivity->APNumTH) {
++			pDM_Odm->Adaptivity_enable = FALSE;
++			pDM_Odm->adaptivity_flag = FALSE;
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("AP total num > %d!!, disable adaptivity\n", Adaptivity->APNumTH));
++		} else
++#endif
++		{
++			if (Adaptivity->DynamicLinkAdaptivity || Adaptivity->AcsForAdaptivity) {
++				if (pDM_Odm->bLinked && Adaptivity->bCheck == FALSE) {
++					Phydm_NHMCounterStatistics(pDM_Odm);
++					Phydm_CheckEnvironment(pDM_Odm);
++				} else if (!pDM_Odm->bLinked)
++					Adaptivity->bCheck = FALSE;
++			} else {
++				pDM_Odm->Adaptivity_enable = TRUE;
++
++				if (pDM_Odm->SupportICType & (ODM_IC_11AC_GAIN_IDX_EDCCA | ODM_IC_11N_GAIN_IDX_EDCCA))
++					pDM_Odm->adaptivity_flag = FALSE;
++				else
++					pDM_Odm->adaptivity_flag = TRUE;
++			}
++		}
++	} else {
++		pDM_Odm->Adaptivity_enable = FALSE;
++		pDM_Odm->adaptivity_flag = FALSE;
++	}
++
++	
++
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++BOOLEAN
++Phydm_CheckChannelPlan(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		pAdapter	= pDM_Odm->Adapter;
++	PMGNT_INFO		pMgntInfo = &(pAdapter->MgntInfo);
++	
++	if (pMgntInfo->RegEnableAdaptivity == 2) {
++		if (pDM_Odm->Carrier_Sense_enable == FALSE) {		/*check domain Code for Adaptivity or CarrierSense*/
++			if ((*pDM_Odm->pBandType == ODM_BAND_5G) &&
++			    !(pDM_Odm->odm_Regulation5G == REGULATION_ETSI || pDM_Odm->odm_Regulation5G == REGULATION_WW)) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("Adaptivity skip 5G domain code : %d\n", pDM_Odm->odm_Regulation5G));
++				pDM_Odm->Adaptivity_enable = FALSE;
++				pDM_Odm->adaptivity_flag = FALSE;
++				return TRUE;
++			} else if ((*pDM_Odm->pBandType == ODM_BAND_2_4G) &&
++				   !(pDM_Odm->odm_Regulation2_4G == REGULATION_ETSI || pDM_Odm->odm_Regulation2_4G == REGULATION_WW)) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("Adaptivity skip 2.4G domain code : %d\n", pDM_Odm->odm_Regulation2_4G));
++				pDM_Odm->Adaptivity_enable = FALSE;
++				pDM_Odm->adaptivity_flag = FALSE;
++				return TRUE;
++
++			} else if ((*pDM_Odm->pBandType != ODM_BAND_2_4G) && (*pDM_Odm->pBandType != ODM_BAND_5G)) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("Adaptivity neither 2G nor 5G band, return\n"));
++				pDM_Odm->Adaptivity_enable = FALSE;
++				pDM_Odm->adaptivity_flag = FALSE;
++				return TRUE;
++			}
++		} else {
++			if ((*pDM_Odm->pBandType == ODM_BAND_5G) &&
++			    !(pDM_Odm->odm_Regulation5G == REGULATION_MKK || pDM_Odm->odm_Regulation5G == REGULATION_WW)) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("CarrierSense skip 5G domain code : %d\n", pDM_Odm->odm_Regulation5G));
++				pDM_Odm->Adaptivity_enable = FALSE;
++				pDM_Odm->adaptivity_flag = FALSE;
++				return TRUE;
++			}
++
++			else if ((*pDM_Odm->pBandType == ODM_BAND_2_4G) &&
++				   !(pDM_Odm->odm_Regulation2_4G == REGULATION_MKK  || pDM_Odm->odm_Regulation2_4G == REGULATION_WW)) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("CarrierSense skip 2.4G domain code : %d\n", pDM_Odm->odm_Regulation2_4G));
++				pDM_Odm->Adaptivity_enable = FALSE;
++				pDM_Odm->adaptivity_flag = FALSE;
++				return TRUE;
++
++			} else if ((*pDM_Odm->pBandType != ODM_BAND_2_4G) && (*pDM_Odm->pBandType != ODM_BAND_5G)) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("CarrierSense neither 2G nor 5G band, return\n"));
++				pDM_Odm->Adaptivity_enable = FALSE;
++				pDM_Odm->adaptivity_flag = FALSE;
++				return TRUE;
++			}
++		}
++	}
++
++	return FALSE;
++
++}
++#endif
++
++VOID
++Phydm_NHMCounterStatisticsInit(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++		/*PHY parameters initialize for n series*/
++		ODM_Write2Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11N+ 2, 0xC350);			/*0x894[31:16]=0x0xC350	Time duration for NHM unit: us, 0xc350=200ms*/
++		ODM_Write2Byte(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N + 2, 0xffff);		/*0x890[31:16]=0xffff		th_9, th_10*/
++		ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, 0xffffff50);		/*0x898=0xffffff52			th_3, th_2, th_1, th_0*/
++		ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, 0xffffffff);		/*0x89c=0xffffffff			th_7, th_6, th_5, th_4*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_FPGA0_IQK_11N, bMaskByte0, 0xff);		/*0xe28[7:0]=0xff			th_8*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT10 | BIT9 | BIT8, 0x1);	/*0x890[10:8]=1			ignoreCCA ignore PHYTXON enable CCX*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_RSTC_11N, BIT7, 0x1);			/*0xc0c[7]=1				max power among all RX ants*/
++	}
++#if (RTL8195A_SUPPORT == 0)
++	else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++		/*PHY parameters initialize for ac series*/
++		ODM_Write2Byte(pDM_Odm, ODM_REG_CCX_PERIOD_11AC+ 2, 0xC350);			/*0x990[31:16]=0xC350	Time duration for NHM unit: us, 0xc350=200ms*/
++		ODM_Write2Byte(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC + 2, 0xffff);		/*0x994[31:16]=0xffff		th_9, th_10*/
++		ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, 0xffffff50);	/*0x998=0xffffff52			th_3, th_2, th_1, th_0*/
++		ODM_Write4Byte(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, 0xffffffff);	/*0x99c=0xffffffff			th_7, th_6, th_5, th_4*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH8_11AC, bMaskByte0, 0xff);		/*0x9a0[7:0]=0xff			th_8*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT8 | BIT9 | BIT10, 0x1); /*0x994[10:8]=1			ignoreCCA ignore PHYTXON	enable CCX*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_9E8_11AC, BIT0, 0x1);				/*0x9e8[7]=1				max power among all RX ants*/
++
++	}
++#endif
++}
++
++VOID
++Phydm_NHMCounterStatistics(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (!(pDM_Odm->SupportAbility & ODM_BB_NHM_CNT))
++		return;
++
++	/*Get NHM report*/
++	Phydm_GetNHMCounterStatistics(pDM_Odm);
++
++	/*Reset NHM counter*/
++	Phydm_NHMCounterStatisticsReset(pDM_Odm);
++}
++
++VOID
++Phydm_GetNHMCounterStatistics(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte		value32 = 0;
++#if (RTL8195A_SUPPORT == 0)
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_CNT_11AC, bMaskDWord);
++	else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++#endif
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_CNT_11N, bMaskDWord);
++
++	pDM_Odm->NHM_cnt_0 = (u1Byte)(value32 & bMaskByte0);
++	pDM_Odm->NHM_cnt_1 = (u1Byte)((value32 & bMaskByte1) >> 8);
++
++}
++
++VOID
++Phydm_NHMCounterStatisticsReset(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT1, 0);
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT1, 1);
++	}
++#if (RTL8195A_SUPPORT == 0)
++	else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT1, 0);
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT1, 1);
++	}
++
++#endif
++
++}
++
++VOID
++Phydm_SetEDCCAThreshold(
++	IN	PVOID	pDM_VOID,
++	IN	s1Byte	H2L,
++	IN	s1Byte	L2H
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		ODM_SetBBReg(pDM_Odm, rOFDM0_ECCAThreshold, bMaskByte2|bMaskByte0, (u4Byte)((u1Byte)L2H|(u1Byte)H2L<<16));
++#if (RTL8195A_SUPPORT == 0)
++	else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		ODM_SetBBReg(pDM_Odm, rFPGA0_XB_LSSIReadBack, bMaskLWord, (u2Byte)((u1Byte)L2H|(u1Byte)H2L<<8));
++#endif
++
++}
++
++VOID
++Phydm_SetLNA(
++	IN	PVOID				pDM_VOID,
++	IN	PhyDM_set_LNA	type
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	if (pDM_Odm->SupportICType & (ODM_RTL8188E | ODM_RTL8192E)) {
++		if (type == PhyDM_disable_LNA) {
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, 0xfffff, 0x0000f);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, 0xfffff, 0x37f82);	/*disable LNA*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x0);
++			if (pDM_Odm->RFType > ODM_1T1R) {
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, 0x80000, 0x1);
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x30, 0xfffff, 0x18000);
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x31, 0xfffff, 0x0000f);
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x32, 0xfffff, 0x37f82);
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, 0x80000, 0x0);
++			}
++		} else if (type == PhyDM_enable_LNA) {
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, 0xfffff, 0x0000f);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, 0xfffff, 0x77f82);	/*back to normal*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x0);
++			if (pDM_Odm->RFType > ODM_1T1R) {
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, 0x80000, 0x1);
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x30, 0xfffff, 0x18000);
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x31, 0xfffff, 0x0000f);
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x32, 0xfffff, 0x77f82);
++				ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, 0x80000, 0x0);
++			}
++		}
++	} else if (pDM_Odm->SupportICType & ODM_RTL8723B) {
++		if (type == PhyDM_disable_LNA) {
++			/*S0*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, 0xfffff, 0x0001f);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, 0xfffff, 0xe6137);	/*disable LNA*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x0);
++			/*S1*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xed, 0x00020, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x43, 0xfffff, 0x3008d);	/*select Rx mode and disable LNA*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xed, 0x00020, 0x0);
++		} else if (type == PhyDM_enable_LNA) {
++			/*S0*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, 0xfffff, 0x0001f);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, 0xfffff, 0xe6177);	/*disable LNA*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x0);
++			/*S1*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xed, 0x00020, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x43, 0xfffff, 0x300bd);	/*select Rx mode and disable LNA*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xed, 0x00020, 0x0);
++		}
++	
++	} else if (pDM_Odm->SupportICType & ODM_RTL8812) {
++		if (type == PhyDM_disable_LNA) {
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, 0xfffff, 0x3f7ff);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, 0xfffff, 0xc22bf);	/*disable LNA*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x0);
++				if (pDM_Odm->RFType > ODM_1T1R) {
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, 0x80000, 0x1);
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x31, 0xfffff, 0x3f7ff);
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x32, 0xfffff, 0xc22bf);	/*disable LNA*/
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, 0x80000, 0x0);
++				}
++		} else if (type == PhyDM_enable_LNA) {
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, 0xfffff, 0x3f7ff);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, 0xfffff, 0xc26bf);	/*disable LNA*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x0);
++				if (pDM_Odm->RFType > ODM_1T1R) {
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, 0x80000, 0x1);
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x31, 0xfffff, 0x3f7ff);
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x32, 0xfffff, 0xc26bf);	/*disable LNA*/
++					ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, 0x80000, 0x0);
++				}
++		}
++	} else if (pDM_Odm->SupportICType & (ODM_RTL8821 | ODM_RTL8881A)) {
++		if (type == PhyDM_disable_LNA) {
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, 0xfffff, 0x0002f);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, 0xfffff, 0xfb09b);	/*disable LNA*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x0);
++		} else if (type == PhyDM_enable_LNA) {
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x1);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, 0xfffff, 0x18000);	/*select Rx mode*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, 0xfffff, 0x0002f);
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, 0xfffff, 0xfb0bb);	/*disable LNA*/
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, 0x80000, 0x0);	
++		}
++	}
++}
++
++
++
++VOID
++Phydm_SetTRxMux(
++	IN	PVOID				pDM_VOID,
++	IN	PhyDM_Trx_MUX_Type	txMode,
++	IN	PhyDM_Trx_MUX_Type	rxMode
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_RPT_FORMAT_11N, BIT3 | BIT2 | BIT1, txMode);			/*set TXmod to standby mode to remove outside noise affect*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_RPT_FORMAT_11N, BIT22 | BIT21 | BIT20, rxMode);		/*set RXmod to standby mode to remove outside noise affect*/
++		if (pDM_Odm->RFType > ODM_1T1R) {
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_RPT_FORMAT_11N_B, BIT3 | BIT2 | BIT1, txMode);		/*set TXmod to standby mode to remove outside noise affect*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_RPT_FORMAT_11N_B, BIT22 | BIT21 | BIT20, rxMode);	/*set RXmod to standby mode to remove outside noise affect*/
++		}
++	}
++#if (RTL8195A_SUPPORT == 0)
++	else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++		ODM_SetBBReg(pDM_Odm, ODM_REG_TRMUX_11AC, BIT11 | BIT10 | BIT9 | BIT8, txMode);				/*set TXmod to standby mode to remove outside noise affect*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_TRMUX_11AC, BIT7 | BIT6 | BIT5 | BIT4, rxMode);				/*set RXmod to standby mode to remove outside noise affect*/
++		if (pDM_Odm->RFType > ODM_1T1R) {
++			ODM_SetBBReg(pDM_Odm, ODM_REG_TRMUX_11AC_B, BIT11 | BIT10 | BIT9 | BIT8, txMode);		/*set TXmod to standby mode to remove outside noise affect*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_TRMUX_11AC_B, BIT7 | BIT6 | BIT5 | BIT4, rxMode);			/*set RXmod to standby mode to remove outside noise affect*/
++		}
++	}
++#endif
++
++}
++
++VOID
++Phydm_MACEDCCAState(
++	IN	PVOID					pDM_VOID,
++	IN	PhyDM_MACEDCCA_Type		State
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	if (State == PhyDM_IGNORE_EDCCA) {
++		ODM_SetMACReg(pDM_Odm, REG_TX_PTCL_CTRL, BIT15, 1);	/*ignore EDCCA	reg520[15]=1*/
++/*		ODM_SetMACReg(pDM_Odm, REG_RD_CTRL, BIT11, 0);			*//*reg524[11]=0*/
++	} else {	/*don't set MAC ignore EDCCA signal*/
++		ODM_SetMACReg(pDM_Odm, REG_TX_PTCL_CTRL, BIT15, 0);	/*don't ignore EDCCA	 reg520[15]=0*/
++/*		ODM_SetMACReg(pDM_Odm, REG_RD_CTRL, BIT11, 1);			*//*reg524[11]=1	*/
++	}
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("EDCCA enable State = %d\n", State));
++
++}
++
++BOOLEAN
++Phydm_CalNHMcnt(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u2Byte			Base = 0;
++
++	Base = pDM_Odm->NHM_cnt_0 + pDM_Odm->NHM_cnt_1;
++
++	if (Base != 0) {
++		pDM_Odm->NHM_cnt_0 = ((pDM_Odm->NHM_cnt_0) << 8) / Base;
++		pDM_Odm->NHM_cnt_1 = ((pDM_Odm->NHM_cnt_1) << 8) / Base;
++	}
++	if ((pDM_Odm->NHM_cnt_0 - pDM_Odm->NHM_cnt_1) >= 100)
++		return TRUE;			/*clean environment*/
++	else
++		return FALSE;		/*noisy environment*/
++
++}
++
++
++VOID
++Phydm_CheckEnvironment(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);
++	BOOLEAN 	isCleanEnvironment = FALSE;
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	prtl8192cd_priv	priv = pDM_Odm->priv;
++#endif
++
++	if (Adaptivity->bFirstLink == TRUE) {
++		if (pDM_Odm->SupportICType & (ODM_IC_11AC_GAIN_IDX_EDCCA | ODM_IC_11N_GAIN_IDX_EDCCA))
++			pDM_Odm->adaptivity_flag = FALSE;
++		else
++			pDM_Odm->adaptivity_flag = TRUE;
++
++		Adaptivity->bFirstLink = FALSE;
++		return;
++	} else {
++		if (Adaptivity->NHMWait < 3) {		/*Start enter NHM after 4 NHMWait*/
++			Adaptivity->NHMWait++;
++			Phydm_NHMCounterStatistics(pDM_Odm);
++			return;
++		} else {
++			Phydm_NHMCounterStatistics(pDM_Odm);
++			isCleanEnvironment = Phydm_CalNHMcnt(pDM_Odm);
++			if (isCleanEnvironment == TRUE) {
++				pDM_Odm->TH_L2H_ini = Adaptivity->TH_L2H_ini_backup;			/*adaptivity mode*/
++				pDM_Odm->TH_EDCCA_HL_diff = Adaptivity->TH_EDCCA_HL_diff_backup;
++
++				pDM_Odm->Adaptivity_enable = TRUE;
++
++				if (pDM_Odm->SupportICType & (ODM_IC_11AC_GAIN_IDX_EDCCA | ODM_IC_11N_GAIN_IDX_EDCCA))
++					pDM_Odm->adaptivity_flag = FALSE;
++				else
++					pDM_Odm->adaptivity_flag = TRUE;
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)				
++				priv->pshare->rf_ft_var.isCleanEnvironment = TRUE;
++#endif
++			} else {
++				if (!Adaptivity->AcsForAdaptivity) {			
++					pDM_Odm->TH_L2H_ini = pDM_Odm->TH_L2H_ini_mode2;			/*mode2*/
++					pDM_Odm->TH_EDCCA_HL_diff = pDM_Odm->TH_EDCCA_HL_diff_mode2;
++
++					pDM_Odm->adaptivity_flag = FALSE;
++					pDM_Odm->Adaptivity_enable = FALSE;
++				}
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++				priv->pshare->rf_ft_var.isCleanEnvironment = FALSE;
++#endif
++			}
++			Adaptivity->NHMWait = 0;
++			Adaptivity->bFirstLink = TRUE;
++			Adaptivity->bCheck = TRUE;
++		}
++
++	}
++
++
++}
++
++VOID
++Phydm_SearchPwdBLowerBound(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);
++	u4Byte			value32 = 0;
++	u1Byte			cnt;
++	u1Byte			txEdcca1 = 0, txEdcca0 = 0;
++	BOOLEAN			bAdjust = TRUE;
++	s1Byte 			TH_L2H_dmc, TH_H2L_dmc, IGI_target = 0x32;
++	s1Byte 			Diff;
++	u1Byte			IGI = Adaptivity->IGI_Base + 30 + (u1Byte)pDM_Odm->TH_L2H_ini - (u1Byte)pDM_Odm->TH_EDCCA_HL_diff;
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8723B | ODM_RTL8188E | ODM_RTL8192E | ODM_RTL8812 | ODM_RTL8821 | ODM_RTL8881A))
++		Phydm_SetLNA(pDM_Odm, PhyDM_disable_LNA);
++	else {
++		Phydm_SetTRxMux(pDM_Odm, PhyDM_STANDBY_MODE, PhyDM_STANDBY_MODE);
++		odm_PauseDIG(pDM_Odm, PHYDM_PAUSE, PHYDM_PAUSE_LEVEL_0, 0x7e);
++	}
++
++	Diff = IGI_target - (s1Byte)IGI;
++	TH_L2H_dmc = pDM_Odm->TH_L2H_ini + Diff;
++	if (TH_L2H_dmc > 10)
++		TH_L2H_dmc = 10;
++	TH_H2L_dmc = TH_L2H_dmc - pDM_Odm->TH_EDCCA_HL_diff;
++
++	Phydm_SetEDCCAThreshold(pDM_Odm, TH_H2L_dmc, TH_L2H_dmc);
++	ODM_delay_ms(5);
++
++	while (bAdjust) {
++		for (cnt = 0; cnt < 20; cnt++) {
++			if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++				value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11N, bMaskDWord);
++#if (RTL8195A_SUPPORT == 0)
++			else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++				value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC, bMaskDWord);
++#endif
++			if (value32 & BIT30 && (pDM_Odm->SupportICType & (ODM_RTL8723B | ODM_RTL8188E)))
++				txEdcca1 = txEdcca1 + 1;
++			else if (value32 & BIT29)
++				txEdcca1 = txEdcca1 + 1;
++			else
++				txEdcca0 = txEdcca0 + 1;
++		}
++
++		if (txEdcca1 > 1) {
++			IGI = IGI - 1;
++			TH_L2H_dmc = TH_L2H_dmc + 1;
++			if (TH_L2H_dmc > 10)
++				TH_L2H_dmc = 10;
++			TH_H2L_dmc = TH_L2H_dmc - pDM_Odm->TH_EDCCA_HL_diff;
++
++			Phydm_SetEDCCAThreshold(pDM_Odm, TH_H2L_dmc, TH_L2H_dmc);
++			if (TH_L2H_dmc == 10) {
++				bAdjust = FALSE;
++				Adaptivity->H2L_lb = TH_H2L_dmc;
++				Adaptivity->L2H_lb = TH_L2H_dmc;
++				pDM_Odm->Adaptivity_IGI_upper = IGI;
++			}
++
++			txEdcca1 = 0;
++			txEdcca0 = 0;
++
++		} else {
++			bAdjust = FALSE;
++			Adaptivity->H2L_lb = TH_H2L_dmc;
++			Adaptivity->L2H_lb = TH_L2H_dmc;
++			pDM_Odm->Adaptivity_IGI_upper = IGI;
++			txEdcca1 = 0;
++			txEdcca0 = 0;
++		}
++	}
++
++	pDM_Odm->Adaptivity_IGI_upper = pDM_Odm->Adaptivity_IGI_upper - pDM_Odm->DCbackoff;
++	Adaptivity->H2L_lb = Adaptivity->H2L_lb + pDM_Odm->DCbackoff;
++	Adaptivity->L2H_lb = Adaptivity->L2H_lb + pDM_Odm->DCbackoff;
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8723B | ODM_RTL8188E | ODM_RTL8192E | ODM_RTL8812 | ODM_RTL8821 | ODM_RTL8881A))
++		Phydm_SetLNA(pDM_Odm, PhyDM_enable_LNA);
++	else {
++		Phydm_SetTRxMux(pDM_Odm, PhyDM_TX_MODE, PhyDM_RX_MODE);
++		odm_PauseDIG(pDM_Odm, PHYDM_RESUME, PHYDM_PAUSE_LEVEL_0, NONE);
++	}
++	
++	Phydm_SetEDCCAThreshold(pDM_Odm, 0x7f, 0x7f);				/*resume to no link state*/
++}
++
++BOOLEAN
++phydm_reSearchCondition(
++	IN	PVOID				pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	/*PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);*/
++	u1Byte			Adaptivity_IGI_upper;
++	/*s1Byte		TH_L2H_dmc, IGI_target = 0x32;*/
++	/*s1Byte		Diff;*/
++
++	Adaptivity_IGI_upper = pDM_Odm->Adaptivity_IGI_upper + pDM_Odm->DCbackoff;
++	
++	/*TH_L2H_dmc = 10;*/
++
++	/*Diff = TH_L2H_dmc - pDM_Odm->TH_L2H_ini;*/
++	/*lowest_IGI_upper = IGI_target - Diff;*/
++
++	/*if ((Adaptivity_IGI_upper - lowest_IGI_upper) <= 5)*/
++	if (Adaptivity_IGI_upper <= 0x26)
++		return TRUE;
++	else
++		return FALSE;
++	
++}
++
++VOID
++phydm_adaptivityInfoInit(
++	IN	PVOID				pDM_VOID,
++	IN	PHYDM_ADAPINFO_E	CmnInfo,
++	IN	u4Byte				Value	
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);
++
++	switch (CmnInfo)	{
++	case PHYDM_ADAPINFO_CARRIER_SENSE_ENABLE:
++		pDM_Odm->Carrier_Sense_enable = (BOOLEAN)Value;
++	break;
++
++	case PHYDM_ADAPINFO_DCBACKOFF:
++		pDM_Odm->DCbackoff = (u1Byte)Value;
++	break;
++
++	case PHYDM_ADAPINFO_DYNAMICLINKADAPTIVITY:
++		Adaptivity->DynamicLinkAdaptivity = (BOOLEAN)Value;
++	break;
++
++	case PHYDM_ADAPINFO_TH_L2H_INI:
++		pDM_Odm->TH_L2H_ini = (s1Byte)Value;
++	break;
++
++	case PHYDM_ADAPINFO_TH_EDCCA_HL_DIFF:
++		pDM_Odm->TH_EDCCA_HL_diff = (s1Byte)Value;
++	break;
++
++	case PHYDM_ADAPINFO_AP_NUM_TH:
++		Adaptivity->APNumTH = (u1Byte)Value;
++	break;
++
++	default:
++	break;	
++		
++	}
++
++}
++
++
++
++VOID
++Phydm_AdaptivityInit(
++	IN 	PVOID	 	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);
++	s1Byte	IGItarget = 0x32;
++	/*pDIG_T pDM_DigTable = &pDM_Odm->DM_DigTable;*/
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++
++	if (pDM_Odm->Carrier_Sense_enable == FALSE) {
++		if (pDM_Odm->TH_L2H_ini == 0)
++			pDM_Odm->TH_L2H_ini = 0xf5;
++	} else
++			pDM_Odm->TH_L2H_ini = 0xa;
++
++	if (pDM_Odm->TH_EDCCA_HL_diff == 0)
++		pDM_Odm->TH_EDCCA_HL_diff = 7;
++#if(DM_ODM_SUPPORT_TYPE & (ODM_CE))
++	if (pDM_Odm->WIFITest == TRUE || pDM_Odm->mp_mode == TRUE)
++#else
++	if ((pDM_Odm->WIFITest & RT_WIFI_LOGO) == TRUE)
++#endif
++		pDM_Odm->EDCCA_enable = FALSE;		/*even no adaptivity, we still enable EDCCA, AP side use mib control*/
++	else
++		pDM_Odm->EDCCA_enable = TRUE;
++
++#elif (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	prtl8192cd_priv	priv = pDM_Odm->priv;
++
++	if (pDM_Odm->Carrier_Sense_enable) {
++		pDM_Odm->TH_L2H_ini = 0xa;
++		pDM_Odm->TH_EDCCA_HL_diff = 7;
++	} else {
++		pDM_Odm->TH_L2H_ini = pDM_Odm->TH_L2H_default;	/*set by mib*/
++		pDM_Odm->TH_EDCCA_HL_diff = pDM_Odm->TH_EDCCA_HL_diff_default;
++	}
++
++	if (priv->pshare->rf_ft_var.adaptivity_enable == 3)
++		Adaptivity->AcsForAdaptivity = TRUE;
++	else 
++		Adaptivity->AcsForAdaptivity = FALSE;
++
++	if (priv->pshare->rf_ft_var.adaptivity_enable == 2)
++		Adaptivity->DynamicLinkAdaptivity = TRUE;
++	else
++		Adaptivity->DynamicLinkAdaptivity = FALSE;
++
++	priv->pshare->rf_ft_var.isCleanEnvironment = FALSE;
++
++#endif
++
++	pDM_Odm->Adaptivity_IGI_upper = 0;
++	pDM_Odm->Adaptivity_enable = FALSE;	/*use this flag to decide enable or disable*/
++
++	pDM_Odm->TH_L2H_ini_mode2 = 20;
++	pDM_Odm->TH_EDCCA_HL_diff_mode2 = 8;
++	Adaptivity->TH_L2H_ini_backup = pDM_Odm->TH_L2H_ini;
++	Adaptivity->TH_EDCCA_HL_diff_backup = pDM_Odm->TH_EDCCA_HL_diff;
++	
++	Adaptivity->IGI_Base = 0x32;
++	Adaptivity->IGI_target = 0x1c;
++	Adaptivity->H2L_lb = 0;
++	Adaptivity->L2H_lb = 0;
++	Adaptivity->NHMWait = 0;
++	Adaptivity->bCheck = FALSE;
++	Adaptivity->bFirstLink = TRUE;
++	Adaptivity->AdajustIGILevel = 0;
++	Adaptivity->bStopEDCCA = FALSE;
++	Adaptivity->backupH2L = 0;
++	Adaptivity->backupL2H = 0;
++
++	Phydm_MACEDCCAState(pDM_Odm, PhyDM_DONT_IGNORE_EDCCA);
++
++	/*Search pwdB lower bound*/
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11N, bMaskDWord, 0x208);
++#if (RTL8195A_SUPPORT == 0)
++	else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC, bMaskDWord, 0x209);
++#endif
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_GAIN_IDX_EDCCA) {
++		/*ODM_SetBBReg(pDM_Odm, ODM_REG_EDCCA_DOWN_OPT_11N, BIT12 | BIT11 | BIT10, 0x7);*/		/*interfernce need > 2^x us, and then EDCCA will be 1*/
++		if (pDM_Odm->SupportICType & ODM_RTL8197F) {
++			ODM_SetBBReg(pDM_Odm, ODM_REG_PAGE_B1_97F, BIT30, 0x1);								/*set to page B1*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_EDCCA_DCNF_97F, BIT27 | BIT26, 0x1);		/*0:rx_dfir, 1: dcnf_out, 2 :rx_iq, 3: rx_nbi_nf_out*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_PAGE_B1_97F, BIT30, 0x0);
++		} else
++		ODM_SetBBReg(pDM_Odm, ODM_REG_EDCCA_DCNF_11N, BIT21 | BIT20, 0x1);		/*0:rx_dfir, 1: dcnf_out, 2 :rx_iq, 3: rx_nbi_nf_out*/
++	}
++#if (RTL8195A_SUPPORT == 0)
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_GAIN_IDX_EDCCA) {		/*8814a no need to find pwdB lower bound, maybe*/
++		/*ODM_SetBBReg(pDM_Odm, ODM_REG_EDCCA_DOWN_OPT, BIT30 | BIT29 | BIT28, 0x7);*/		/*interfernce need > 2^x us, and then EDCCA will be 1*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_ACBB_EDCCA_ENHANCE, BIT29 | BIT28, 0x1);		/*0:rx_dfir, 1: dcnf_out, 2 :rx_iq, 3: rx_nbi_nf_out*/
++	}
++
++	if (!(pDM_Odm->SupportICType & (ODM_IC_11AC_GAIN_IDX_EDCCA | ODM_IC_11N_GAIN_IDX_EDCCA))) {
++		Phydm_SearchPwdBLowerBound(pDM_Odm);
++		if (phydm_reSearchCondition(pDM_Odm))
++			Phydm_SearchPwdBLowerBound(pDM_Odm);
++	}
++#endif
++
++/*we need to consider PwdB upper bound for 8814 later IC*/
++	Adaptivity->AdajustIGILevel = (u1Byte)((pDM_Odm->TH_L2H_ini + IGItarget) - PwdBUpperBound + DFIRloss);	/*IGI = L2H - PwdB - DFIRloss*/
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("TH_L2H_ini = 0x%x, TH_EDCCA_HL_diff = 0x%x, Adaptivity->AdajustIGILevel = 0x%x\n", pDM_Odm->TH_L2H_ini, pDM_Odm->TH_EDCCA_HL_diff, Adaptivity->AdajustIGILevel));
++
++	/*Check this later on Windows*/
++	/*phydm_setEDCCAThresholdAPI(pDM_Odm, pDM_DigTable->CurIGValue);*/
++
++}
++
++
++VOID
++Phydm_Adaptivity(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			IGI
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	s1Byte			TH_L2H_dmc, TH_H2L_dmc;
++	s1Byte			Diff = 0, IGI_target;
++	PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		pAdapter	= pDM_Odm->Adapter;
++	BOOLEAN			bFwCurrentInPSMode = FALSE;
++
++	pAdapter->HalFunc.GetHwRegHandler(pAdapter, HW_VAR_FW_PSMODE_STATUS, (pu1Byte)(&bFwCurrentInPSMode));
++
++	/*Disable EDCCA mode while under LPS mode, added by Roger, 2012.09.14.*/
++	if (bFwCurrentInPSMode)
++		return;
++#endif
++
++	if ((pDM_Odm->EDCCA_enable == FALSE) || (Adaptivity->bStopEDCCA == TRUE)) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("Disable EDCCA!!!\n"));
++		return;
++	}
++
++	if (!(pDM_Odm->SupportAbility & ODM_BB_ADAPTIVITY)) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("adaptivity disable, enable EDCCA mode!!!\n"));
++		pDM_Odm->TH_L2H_ini = pDM_Odm->TH_L2H_ini_mode2;
++		pDM_Odm->TH_EDCCA_HL_diff = pDM_Odm->TH_EDCCA_HL_diff_mode2;
++	}
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	else{
++		if (Phydm_CheckChannelPlan(pDM_Odm) || (pDM_Odm->APTotalNum > Adaptivity->APNumTH)) {
++			pDM_Odm->TH_L2H_ini = pDM_Odm->TH_L2H_ini_mode2;
++			pDM_Odm->TH_EDCCA_HL_diff = pDM_Odm->TH_EDCCA_HL_diff_mode2;
++		} else {
++			pDM_Odm->TH_L2H_ini = Adaptivity->TH_L2H_ini_backup;
++			pDM_Odm->TH_EDCCA_HL_diff = Adaptivity->TH_EDCCA_HL_diff_backup;
++		}
++	}
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("odm_Adaptivity() =====>\n"));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("IGI_Base=0x%x, TH_L2H_ini = %d, TH_EDCCA_HL_diff = %d\n",
++			 Adaptivity->IGI_Base, pDM_Odm->TH_L2H_ini, pDM_Odm->TH_EDCCA_HL_diff));
++#if (RTL8195A_SUPPORT == 0)
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++		/*fix AC series when enable EDCCA hang issue*/
++		ODM_SetBBReg(pDM_Odm, 0x800, BIT10, 1);	/*ADC_mask disable*/
++		ODM_SetBBReg(pDM_Odm, 0x800, BIT10, 0);	/*ADC_mask enable*/
++	}
++#endif
++	if (*pDM_Odm->pBandWidth == ODM_BW20M)		/*CHANNEL_WIDTH_20*/
++		IGI_target = Adaptivity->IGI_Base;
++	else if (*pDM_Odm->pBandWidth == ODM_BW40M)
++		IGI_target = Adaptivity->IGI_Base + 2;
++#if (RTL8195A_SUPPORT == 0)
++	else if (*pDM_Odm->pBandWidth == ODM_BW80M)
++		IGI_target = Adaptivity->IGI_Base + 2;
++#endif
++	else
++		IGI_target = Adaptivity->IGI_Base;
++	Adaptivity->IGI_target = (u1Byte) IGI_target;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("BandWidth=%s, IGI_target=0x%x, DynamicLinkAdaptivity = %d, AcsForAdaptivity = %d\n",
++			 (*pDM_Odm->pBandWidth == ODM_BW80M) ? "80M" : ((*pDM_Odm->pBandWidth == ODM_BW40M) ? "40M" : "20M"), IGI_target, Adaptivity->DynamicLinkAdaptivity, Adaptivity->AcsForAdaptivity));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("RSSI_min = %d, Adaptivity->AdajustIGILevel= 0x%x, adaptivity_flag = %d, Adaptivity_enable = %d\n",
++			 pDM_Odm->RSSI_Min, Adaptivity->AdajustIGILevel, pDM_Odm->adaptivity_flag, pDM_Odm->Adaptivity_enable));
++
++	if ((Adaptivity->DynamicLinkAdaptivity == TRUE) && (!pDM_Odm->bLinked) && (pDM_Odm->Adaptivity_enable == FALSE)) {
++		Phydm_SetEDCCAThreshold(pDM_Odm, 0x7f, 0x7f);
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("In DynamicLink mode(noisy) and No link, Turn off EDCCA!!\n"));
++		return;
++	}
++
++	if (pDM_Odm->SupportICType & (ODM_IC_11AC_GAIN_IDX_EDCCA | ODM_IC_11N_GAIN_IDX_EDCCA)) {
++		if ((Adaptivity->AdajustIGILevel > IGI) && (pDM_Odm->Adaptivity_enable == TRUE)) 
++			Diff = Adaptivity->AdajustIGILevel - IGI;
++		
++		TH_L2H_dmc = pDM_Odm->TH_L2H_ini - Diff + IGI_target;
++		TH_H2L_dmc = TH_L2H_dmc - pDM_Odm->TH_EDCCA_HL_diff;
++	}
++#if (RTL8195A_SUPPORT == 0)
++	else	{
++		Diff = IGI_target - (s1Byte)IGI;
++		TH_L2H_dmc = pDM_Odm->TH_L2H_ini + Diff;
++		if (TH_L2H_dmc > 10 && (pDM_Odm->Adaptivity_enable == TRUE))
++			TH_L2H_dmc = 10;
++
++		TH_H2L_dmc = TH_L2H_dmc - pDM_Odm->TH_EDCCA_HL_diff;
++
++		/*replace lower bound to prevent EDCCA always equal 1*/
++		if (TH_H2L_dmc < Adaptivity->H2L_lb)
++			TH_H2L_dmc = Adaptivity->H2L_lb;
++		if (TH_L2H_dmc < Adaptivity->L2H_lb)
++			TH_L2H_dmc = Adaptivity->L2H_lb;
++	}
++#endif
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("IGI=0x%x, TH_L2H_dmc = %d, TH_H2L_dmc = %d\n", IGI, TH_L2H_dmc, TH_H2L_dmc));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("Adaptivity_IGI_upper=0x%x, H2L_lb = 0x%x, L2H_lb = 0x%x\n", pDM_Odm->Adaptivity_IGI_upper, Adaptivity->H2L_lb, Adaptivity->L2H_lb));
++
++	Phydm_SetEDCCAThreshold(pDM_Odm, TH_H2L_dmc, TH_L2H_dmc);
++	
++	if (pDM_Odm->Adaptivity_enable == TRUE)
++		ODM_SetMACReg(pDM_Odm, REG_RD_CTRL, BIT11, 1);
++	
++	return;
++}
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++VOID
++Phydm_AdaptivityBSOD(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		pAdapter = pDM_Odm->Adapter;
++	PMGNT_INFO		pMgntInfo = &(pAdapter->MgntInfo);
++	u1Byte			count = 0;
++	u4Byte			u4Value;
++
++	/*
++	1. turn off RF (TRX Mux in standby mode)
++	2. H2C mac id drop
++	3. ignore EDCCA
++	4. wait for clear FIFO
++	5. don't ignore EDCCA
++	6. turn on RF (TRX Mux in TRx mdoe)
++	7. H2C mac id resume
++	*/
++
++	RT_TRACE(COMP_MLME, DBG_WARNING, ("MAC id drop packet!!!!!\n"));
++
++	pAdapter->dropPktByMacIdCnt++;
++	pMgntInfo->bDropPktInProgress = TRUE;
++
++	pAdapter->HalFunc.GetHwRegHandler(pAdapter, HW_VAR_MAX_Q_PAGE_NUM, (pu1Byte)(&u4Value));
++	RT_TRACE(COMP_INIT, DBG_LOUD, ("Queue Reserved Page Number = 0x%08x\n", u4Value));
++	pAdapter->HalFunc.GetHwRegHandler(pAdapter, HW_VAR_AVBL_Q_PAGE_NUM, (pu1Byte)(&u4Value));
++	RT_TRACE(COMP_INIT, DBG_LOUD, ("Available Queue Page Number = 0x%08x\n", u4Value));
++
++	/*Standby mode*/
++	Phydm_SetTRxMux(pDM_Odm, PhyDM_STANDBY_MODE, PhyDM_STANDBY_MODE);
++	ODM_Write_DIG(pDM_Odm, 0x20);
++
++	/*H2C mac id drop*/
++	MacIdIndicateDisconnect(pAdapter);
++
++	/*Ignore EDCCA*/
++	Phydm_MACEDCCAState(pDM_Odm, PhyDM_IGNORE_EDCCA);
++
++	delay_ms(50);
++	count = 5;
++
++	/*Resume EDCCA*/
++	Phydm_MACEDCCAState(pDM_Odm, PhyDM_DONT_IGNORE_EDCCA);
++
++	/*Turn on TRx mode*/
++	Phydm_SetTRxMux(pDM_Odm, PhyDM_TX_MODE, PhyDM_RX_MODE);
++	ODM_Write_DIG(pDM_Odm, 0x20);
++
++	/*Resume H2C macid*/
++	MacIdRecoverMediaStatus(pAdapter);
++
++	pAdapter->HalFunc.GetHwRegHandler(pAdapter, HW_VAR_AVBL_Q_PAGE_NUM, (pu1Byte)(&u4Value));
++	RT_TRACE(COMP_INIT, DBG_LOUD, ("Available Queue Page Number = 0x%08x\n", u4Value));
++
++	pMgntInfo->bDropPktInProgress = FALSE;
++	RT_TRACE(COMP_MLME, DBG_WARNING, ("End of MAC id drop packet, spent %dms\n", count * 10));
++
++}
++
++#endif
++
++/*This API is for solving USB can't Tx problem due to USB3.0 interference in 2.4G*/
++VOID
++phydm_pauseEDCCA(
++	IN	PVOID	pDM_VOID,
++	IN	BOOLEAN	bPasueEDCCA
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);
++	pDIG_T	pDM_DigTable = &pDM_Odm->DM_DigTable;
++	u1Byte	IGI = pDM_DigTable->CurIGValue;
++	s1Byte	Diff = 0;
++
++	if (bPasueEDCCA) {
++		Adaptivity->bStopEDCCA = TRUE;
++
++		if (pDM_Odm->SupportICType & (ODM_IC_11AC_GAIN_IDX_EDCCA | ODM_IC_11N_GAIN_IDX_EDCCA)) {
++				if (Adaptivity->AdajustIGILevel > IGI)
++					Diff = Adaptivity->AdajustIGILevel - IGI;
++				
++				Adaptivity->backupL2H = pDM_Odm->TH_L2H_ini - Diff + Adaptivity->IGI_target;
++				Adaptivity->backupH2L = Adaptivity->backupL2H - pDM_Odm->TH_EDCCA_HL_diff;
++			}
++#if (RTL8195A_SUPPORT == 0)
++			else {
++				Diff = Adaptivity->IGI_target - (s1Byte)IGI;
++				Adaptivity->backupL2H = pDM_Odm->TH_L2H_ini + Diff;
++				if (Adaptivity->backupL2H > 10)
++					Adaptivity->backupL2H = 10;
++
++				Adaptivity->backupH2L = Adaptivity->backupL2H - pDM_Odm->TH_EDCCA_HL_diff;
++
++				/*replace lower bound to prevent EDCCA always equal 1*/
++				if (Adaptivity->backupH2L < Adaptivity->H2L_lb)
++					Adaptivity->backupH2L = Adaptivity->H2L_lb;
++				if (Adaptivity->backupL2H < Adaptivity->L2H_lb)
++					Adaptivity->backupL2H = Adaptivity->L2H_lb;
++			}
++#endif
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("pauseEDCCA : L2Hbak = 0x%x, H2Lbak = 0x%x, IGI = 0x%x\n", Adaptivity->backupL2H, Adaptivity->backupH2L, IGI));
++
++		/*Disable EDCCA*/
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		if (PlatformIsWorkItemScheduled(&(Adaptivity->phydm_pauseEDCCAWorkItem)) == FALSE)
++			PlatformScheduleWorkItem(&(Adaptivity->phydm_pauseEDCCAWorkItem));
++#else
++		phydm_pauseEDCCA_WorkItemCallback(pDM_Odm);
++#endif
++	
++	} else {
++
++		Adaptivity->bStopEDCCA = FALSE;
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("resumeEDCCA : L2Hbak = 0x%x, H2Lbak = 0x%x, IGI = 0x%x\n", Adaptivity->backupL2H, Adaptivity->backupH2L, IGI));
++		/*Resume EDCCA*/
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		if (PlatformIsWorkItemScheduled(&(Adaptivity->phydm_resumeEDCCAWorkItem)) == FALSE)
++			PlatformScheduleWorkItem(&(Adaptivity->phydm_resumeEDCCAWorkItem));
++#else
++		phydm_resumeEDCCA_WorkItemCallback(pDM_Odm);
++#endif
++
++	}
++
++}
++
++
++VOID
++phydm_pauseEDCCA_WorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		ODM_SetBBReg(pDM_Odm, rOFDM0_ECCAThreshold, bMaskByte2|bMaskByte0, (u4Byte)(0x7f|0x7f<<16));
++#if (RTL8195A_SUPPORT == 0)
++	else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		ODM_SetBBReg(pDM_Odm, rFPGA0_XB_LSSIReadBack, bMaskLWord, (u2Byte)(0x7f|0x7f<<8));
++#endif
++
++}
++
++VOID
++phydm_resumeEDCCA_WorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++	PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);
++	
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		ODM_SetBBReg(pDM_Odm, rOFDM0_ECCAThreshold, bMaskByte2|bMaskByte0, (u4Byte)((u1Byte)Adaptivity->backupL2H|(u1Byte)Adaptivity->backupH2L<<16));
++#if (RTL8195A_SUPPORT == 0)
++	else if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		ODM_SetBBReg(pDM_Odm, rFPGA0_XB_LSSIReadBack, bMaskLWord, (u2Byte)((u1Byte)Adaptivity->backupL2H|(u1Byte)Adaptivity->backupH2L<<8));
++#endif
++
++}
++
++
++VOID
++phydm_setEDCCAThresholdAPI(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	IGI
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTIVITY_STATISTICS	Adaptivity = (PADAPTIVITY_STATISTICS)PhyDM_Get_Structure(pDM_Odm, PHYDM_ADAPTIVITY);
++	s1Byte			TH_L2H_dmc, TH_H2L_dmc;
++	s1Byte			Diff = 0, IGI_target = 0x32;
++
++	if (pDM_Odm->SupportAbility & ODM_BB_ADAPTIVITY) {
++		if (pDM_Odm->SupportICType & (ODM_IC_11AC_GAIN_IDX_EDCCA | ODM_IC_11N_GAIN_IDX_EDCCA)) {
++			if (Adaptivity->AdajustIGILevel > IGI) 
++				Diff = Adaptivity->AdajustIGILevel - IGI;
++			
++			TH_L2H_dmc = pDM_Odm->TH_L2H_ini - Diff + IGI_target;
++			TH_H2L_dmc = TH_L2H_dmc - pDM_Odm->TH_EDCCA_HL_diff;
++		}
++#if (RTL8195A_SUPPORT == 0)
++		else	{
++			Diff = IGI_target - (s1Byte)IGI;
++			TH_L2H_dmc = pDM_Odm->TH_L2H_ini + Diff;
++			if (TH_L2H_dmc > 10)
++				TH_L2H_dmc = 10;
++
++			TH_H2L_dmc = TH_L2H_dmc - pDM_Odm->TH_EDCCA_HL_diff;
++
++			/*replace lower bound to prevent EDCCA always equal 1*/
++			if (TH_H2L_dmc < Adaptivity->H2L_lb)
++				TH_H2L_dmc = Adaptivity->H2L_lb;
++			if (TH_L2H_dmc < Adaptivity->L2H_lb)
++				TH_L2H_dmc = Adaptivity->L2H_lb;
++		}
++#endif
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("API :IGI=0x%x, TH_L2H_dmc = %d, TH_H2L_dmc = %d\n", IGI, TH_L2H_dmc, TH_H2L_dmc));
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_ADAPTIVITY, ODM_DBG_LOUD, ("API :Adaptivity_IGI_upper=0x%x, H2L_lb = 0x%x, L2H_lb = 0x%x\n", pDM_Odm->Adaptivity_IGI_upper, Adaptivity->H2L_lb, Adaptivity->L2H_lb));
++
++		Phydm_SetEDCCAThreshold(pDM_Odm, TH_H2L_dmc, TH_L2H_dmc);
++	}
++
++}
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_adaptivity.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_adaptivity.h
+new file mode 100644
+index 0000000..75bc838
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_adaptivity.h
+@@ -0,0 +1,222 @@
++
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMADAPTIVITY_H__
++#define    __PHYDMADAPTIVITY_H__
++
++#define ADAPTIVITY_VERSION	"9.3.3"	/*20151230 changed by Kevin, modify 0x524[11] when adaptivity is enabled*/
++
++#define PwdBUpperBound	7
++#define DFIRloss	5
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))
++typedef enum _tag_PhyDM_REGULATION_Type {
++	REGULATION_FCC = 0,
++	REGULATION_MKK = 1,
++	REGULATION_ETSI = 2,
++	REGULATION_WW = 3,	
++	
++	MAX_REGULATION_NUM = 4
++} PhyDM_REGULATION_TYPE;
++#endif
++
++typedef enum _PHYDM_ADAPTIVITY_Info_Definition {
++	PHYDM_ADAPINFO_CARRIER_SENSE_ENABLE = 0,
++	PHYDM_ADAPINFO_DCBACKOFF,
++	PHYDM_ADAPINFO_DYNAMICLINKADAPTIVITY,
++	PHYDM_ADAPINFO_TH_L2H_INI,
++	PHYDM_ADAPINFO_TH_EDCCA_HL_DIFF,
++	PHYDM_ADAPINFO_AP_NUM_TH
++
++} PHYDM_ADAPINFO_E;
++
++
++
++typedef enum tag_PhyDM_set_LNA {
++	PhyDM_disable_LNA		= 0,
++	PhyDM_enable_LNA		= 1,
++} PhyDM_set_LNA;
++
++
++typedef enum tag_PhyDM_TRx_MUX_Type
++{
++	PhyDM_SHUTDOWN			= 0,
++	PhyDM_STANDBY_MODE		= 1,
++	PhyDM_TX_MODE			= 2,
++	PhyDM_RX_MODE			= 3
++}PhyDM_Trx_MUX_Type;
++
++typedef enum tag_PhyDM_MACEDCCA_Type
++{
++	PhyDM_IGNORE_EDCCA			= 0,
++	PhyDM_DONT_IGNORE_EDCCA	= 1
++}PhyDM_MACEDCCA_Type;
++
++typedef struct _ADAPTIVITY_STATISTICS {
++	s1Byte			TH_L2H_ini_backup;
++	s1Byte			TH_EDCCA_HL_diff_backup;
++	s1Byte			IGI_Base;
++	u1Byte			IGI_target;
++	u1Byte			NHMWait;
++	s1Byte			H2L_lb;
++	s1Byte			L2H_lb;
++	BOOLEAN			bFirstLink;
++	BOOLEAN			bCheck;
++	BOOLEAN			DynamicLinkAdaptivity;
++	u1Byte			APNumTH;
++	u1Byte			AdajustIGILevel;
++	BOOLEAN			AcsForAdaptivity;
++	s1Byte			backupL2H;
++	s1Byte			backupH2L;
++	BOOLEAN			bStopEDCCA;
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)	
++	RT_WORK_ITEM	phydm_pauseEDCCAWorkItem;
++	RT_WORK_ITEM	phydm_resumeEDCCAWorkItem;
++#endif
++} ADAPTIVITY_STATISTICS, *PADAPTIVITY_STATISTICS;
++
++VOID
++phydm_pauseEDCCA(
++	IN	PVOID	pDM_VOID,
++	IN	BOOLEAN	bPasueEDCCA
++);
++
++VOID
++Phydm_CheckAdaptivity(
++	IN		PVOID			pDM_VOID
++	);
++
++VOID
++Phydm_CheckEnvironment(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID
++Phydm_NHMCounterStatisticsInit(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID
++Phydm_NHMCounterStatistics(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID
++Phydm_NHMCounterStatisticsReset(
++	IN		PVOID			pDM_VOID
++);
++
++VOID
++Phydm_GetNHMCounterStatistics(
++	IN		PVOID			pDM_VOID
++);
++
++VOID
++Phydm_MACEDCCAState(
++	IN	PVOID					pDM_VOID,
++	IN	PhyDM_MACEDCCA_Type		State
++);
++
++VOID
++Phydm_SetEDCCAThreshold(
++	IN		PVOID		pDM_VOID,
++	IN		s1Byte		H2L,
++	IN		s1Byte		L2H
++);
++
++VOID
++Phydm_SetTRxMux(
++	IN		PVOID			pDM_VOID,
++	IN		PhyDM_Trx_MUX_Type			txMode,
++	IN		PhyDM_Trx_MUX_Type			rxMode
++);	
++
++BOOLEAN
++Phydm_CalNHMcnt(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++Phydm_SearchPwdBLowerBound(
++	IN		PVOID					pDM_VOID
++);
++
++VOID
++phydm_adaptivityInfoInit(
++	IN	PVOID			pDM_VOID,
++	IN	PHYDM_ADAPINFO_E	CmnInfo,
++	IN	u4Byte				Value	
++	);
++
++VOID 
++Phydm_AdaptivityInit(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID
++Phydm_Adaptivity(
++	IN		PVOID					pDM_VOID,
++	IN		u1Byte					IGI
++	);
++
++VOID
++phydm_setEDCCAThresholdAPI(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	IGI
++);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++Phydm_DisableEDCCA(
++	IN		PVOID					pDM_VOID
++);
++
++VOID
++Phydm_DynamicEDCCA(
++	IN		PVOID					pDM_VOID
++);
++
++VOID
++Phydm_AdaptivityBSOD(
++	IN		PVOID					pDM_VOID
++);
++
++#endif
++
++VOID 
++phydm_pauseEDCCA_WorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++VOID 
++phydm_resumeEDCCA_WorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_adc_sampling.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_adc_sampling.c
+new file mode 100644
+index 0000000..2f66f13
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_adc_sampling.c
+@@ -0,0 +1,426 @@
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++#include "rtl8197f/Hal8197FPhyReg.h"
++#if ((RTL8197F_SUPPORT == 1)||(RTL8822B_SUPPORT == 1))
++#include "WlanHAL/HalMac88XX/halmac_reg2.h"
++#else
++#include "WlanHAL/HalHeader/HalComReg.h"
++#endif
++
++#if (PHYDM_LA_MODE_SUPPORT == 1)
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++BOOLEAN
++ADCSmp_BufferAllocate(
++	IN	PADAPTER			Adapter,
++	IN	PRT_ADCSMP			AdcSmp
++	)
++{
++	PRT_ADCSMP_STRING	ADCSmpBuf = &(AdcSmp->ADCSmpBuf);
++
++	if (ADCSmpBuf->Length == 0) {
++		if (PlatformAllocateMemoryWithZero(Adapter, (void **)&(ADCSmpBuf->Octet), 0x10000) == RT_STATUS_SUCCESS)
++			ADCSmpBuf->Length = 0x10000;
++		else
++			return FALSE;
++	}
++
++	return TRUE;
++}
++#endif
++
++VOID
++ADCSmp_GetTxPktBuf(
++	IN		PVOID			pDM_VOID,
++	IN	PRT_ADCSMP_STRING	ADCSmpBuf
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte				i = 0, value32, DataL = 0, DataH = 0;
++	u4Byte				Addr, Finish_Addr;
++	u4Byte				End_Addr = (ADCSmpBuf->start_pos  + ADCSmpBuf->buffer_size)-1;	/*End_Addr = 0x3ffff;*/
++	BOOLEAN				bRoundUp;
++	static u4Byte			page = 0xFF;
++
++
++	PlatformZeroMemory(ADCSmpBuf->Octet, ADCSmpBuf->Length);
++
++	ODM_Write1Byte(pDM_Odm, REG_PKT_BUFF_ACCESS_CTRL, 0x69);
++	/*PlatformEFIOWrite1Byte(Adapter, REG_PKT_BUFF_ACCESS_CTRL_8814A, 0x69);*/
++	/*0x106[7:0]=0x69: access TXPKT Buffer*/
++	/*			0xA5: access RXPKT Buffer*/
++	/*			0x7F: access TXREPORT buffer*/
++
++	DbgPrint("%s\n", __func__);
++
++	value32 = ODM_Read4Byte(pDM_Odm, REG_IQ_DUMP);
++	bRoundUp = (BOOLEAN)((value32 & BIT31) >> 31);
++	Finish_Addr = (value32 & 0x7FFF0000) >> 16;	/*Reg7C0[30:16]: finish addr (unit: 8byte)*/
++
++	if (bRoundUp)
++		Addr = (Finish_Addr+1)<<3;
++	else	
++		Addr = ADCSmpBuf->start_pos;
++
++	DbgPrint("bRoundUp = %d, Finish_Addr=0x%x, value32=0x%x\n", bRoundUp, Finish_Addr, value32);
++	DbgPrint("End_Addr = %x, ADCSmpBuf->start_pos = 0x%x, ADCSmpBuf->buffer_size = 0x%x\n", End_Addr, ADCSmpBuf->start_pos, ADCSmpBuf->buffer_size);
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	watchdog_stop(pDM_Odm->priv);
++#endif
++
++	if (pDM_Odm->SupportICType & ODM_RTL8197F) {
++		for (Addr = 0x0, i = 0; Addr < End_Addr; Addr += 8, i += 2) {	/*64K byte*/
++			if ((Addr&0xfff) == 0)
++				ODM_Write2Byte(pDM_Odm, REG_PKTBUF_DBG_CTRL, 0x780+(Addr >> 12));
++			DataL = ODM_Read4Byte(pDM_Odm, 0x8000+(Addr&0xfff));
++			DataH = ODM_Read4Byte(pDM_Odm, 0x8000+(Addr&0xfff)+4);
++
++			DbgPrint("%08x%08x\n", DataH, DataL);		
++		}
++	} else {
++		while (Addr != (Finish_Addr<<3)) {
++			if (page != (Addr >> 12)) {
++				/*Reg140=0x780+(Addr>>12), Addr=0x30~0x3F, total 16 pages*/
++				page = (Addr >> 12);
++				ODM_Write2Byte(pDM_Odm, REG_PKTBUF_DBG_CTRL, 0x780+page);
++			}
++			/*pDataL = 0x8000+(Addr&0xfff);*/
++			DataL = ODM_Read4Byte(pDM_Odm, 0x8000+(Addr&0xfff));
++			DataH = ODM_Read4Byte(pDM_Odm, 0x8000+(Addr&0xfff)+4);
++
++			/*ADCSmpBuf->Octet[i] = DataH;*/
++			/*ADCSmpBuf->Octet[i+1] = DataL;*/
++			/*DbgPrint("%08x%08x\n", ADCSmpBuf->Octet[i], ADCSmpBuf->Octet[i+1]);*/
++			DbgPrint("%08x%08x\n", DataH, DataL);
++			i = i + 2;
++			
++			if ((Addr+8) >= End_Addr)
++				Addr = ADCSmpBuf->start_pos;
++			else
++				Addr = Addr + 8;
++		}
++	}
++	
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	watchdog_resume(pDM_Odm->priv);
++#endif
++}	
++
++
++VOID
++ADCSmp_Start(
++	IN		PVOID			pDM_VOID,
++	IN		PRT_ADCSMP		AdcSmp
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte					tmpU1b;
++	PRT_ADCSMP_STRING		Buffer = &(AdcSmp->ADCSmpBuf);
++	RT_ADCSMP_TRIG_SIG_SEL	TrigSigSel = AdcSmp->ADCSmpTrigSigSel;
++	u1Byte					backup_DMA;
++
++	DbgPrint("%s\n", __func__);
++
++	if (pDM_Odm->SupportICType & ODM_RTL8197F)
++		ODM_SetBBReg(pDM_Odm, r_dma_trigger_8197F, 0xf00, AdcSmp->ADCSmpDmaDataSigSel);	/*0x9A0[11:8]*/
++	else
++		ODM_SetBBReg(pDM_Odm , ODM_ADC_TRIGGER_Jaguar2, 0xf00, AdcSmp->ADCSmpDmaDataSigSel);	/*0x95C[11:8]*/
++
++	ODM_Write1Byte(pDM_Odm, REG_IQ_DUMP+1, AdcSmp->ADCSmpTriggerTime);
++
++
++	if (pDM_Odm->SupportICType & ODM_RTL8197F)
++		ODM_SetBBReg(pDM_Odm, r_reset_cfo_rpt_ctrl_8197F, BIT26, 0x1);
++	else {	/*for 8814A and 8822B?*/
++		ODM_Write1Byte(pDM_Odm, 0x198c, 0x7);
++		ODM_Write1Byte(pDM_Odm, 0x8b4, 0x80);
++	}
++	
++	if (AdcSmp->ADCSmpTrigSel == ADCSMP_MAC_TRIG) {	/* trigger by MAC*/
++		if (TrigSigSel == ADCSMP_TRIG_REG) {			/* manual trigger 0x7C0[5] = 0 -> 1*/
++			ODM_Write1Byte(pDM_Odm, REG_IQ_DUMP, 0xCB);		/*0x7C0[7:0]=8'b1100_1011*/
++			ODM_Write1Byte(pDM_Odm, REG_IQ_DUMP, 0xEB);		/*0x7C0[7:0]=8'b1110_1011*/
++		} else if (TrigSigSel == ADCSMP_TRIG_CCA)
++			ODM_Write1Byte(pDM_Odm, REG_IQ_DUMP, 0x8B);		/*0x7C0[7:0]=8'b1000_1011*/
++		else if (TrigSigSel == ADCSMP_TRIG_CRCFAIL)
++			ODM_Write1Byte(pDM_Odm, REG_IQ_DUMP, 0x4B);		/*0x7C0[7:0]=8'b0100_1011*/
++		else if (TrigSigSel == ADCSMP_TRIG_CRCOK)
++			ODM_Write1Byte(pDM_Odm, REG_IQ_DUMP, 0x0B);		/*0x7C0[7:0]=8'b0000_1011*/
++	} else {												/*trigger by BB*/
++		if (pDM_Odm->SupportICType & ODM_RTL8197F)
++			ODM_SetBBReg(pDM_Odm, r_dma_trigger_8197F, 0x1f, TrigSigSel);	/*0x9A0[4:0]*/
++		else
++			ODM_SetBBReg(pDM_Odm , ODM_ADC_TRIGGER_Jaguar2, 0x1f, TrigSigSel);	/*0x95C[4:0], 0x1F: trigger by CCA*/
++		ODM_Write1Byte(pDM_Odm, REG_IQ_DUMP, 0x03);	/*0x7C0[7:0]=8'b0000_0011*/
++	}
++	
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	watchdog_stop(pDM_Odm->priv);
++#endif
++
++	/*Polling*/
++	do {
++		tmpU1b = ODM_Read1Byte(pDM_Odm, REG_IQ_DUMP);
++
++		if (AdcSmp->ADCSmpState != ADCSMP_STATE_SET) {
++			DbgPrint("ADCSmpState != ADCSMP_STATE_SET\n");
++			break;
++			
++		} else if (tmpU1b & BIT1) {
++			ODM_delay_us(AdcSmp->ADCSmpPollingTime);
++			continue;
++		} else {
++			DbgPrint("%s Query OK\n", __func__);
++			if (pDM_Odm->SupportICType & ODM_RTL8197F)
++				ODM_SetBBReg(pDM_Odm, REG_IQ_DUMP, BIT0, 0x0);
++			break;
++		}
++	} while (1);
++	
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	watchdog_resume(pDM_Odm->priv);
++#if (RTL8197F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8197F) {
++		/*Stop DMA*/
++		backup_DMA = ODM_GetMACReg(pDM_Odm, 0x300, bMaskLWord);
++		ODM_SetMACReg(pDM_Odm, 0x300, 0x7fff, backup_DMA|0x7fff);
++		
++		/*move LA mode content from IMEM to TxPktBuffer 
++			Src : OCPBASE_IMEM 0x00000000
++			Dest : OCPBASE_TXBUF 0x18780000
++			Len : 64K*/
++		GET_HAL_INTERFACE(pDM_Odm->priv)->InitDDMAHandler(pDM_Odm->priv, OCPBASE_IMEM, OCPBASE_TXBUF, 0x10000);
++	}
++#endif
++#endif
++
++	if (AdcSmp->ADCSmpState == ADCSMP_STATE_SET)
++		ADCSmp_GetTxPktBuf(pDM_Odm, Buffer);
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	if (pDM_Odm->SupportICType & ODM_RTL8197F) 
++		ODM_SetMACReg(pDM_Odm, 0x300, 0x7fff, backup_DMA);	/*Resume DMA*/
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	if (AdcSmp->ADCSmpState == ADCSMP_STATE_SET)
++		AdcSmp->ADCSmpState = ADCSMP_STATE_QUERY;
++#endif
++
++	DbgPrint("%s Status %d\n", __func__, AdcSmp->ADCSmpState);
++}
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++VOID
++ADCSmpWorkItemCallback(
++	IN	PVOID	pContext
++	)
++{
++	PADAPTER			Adapter = (PADAPTER)pContext;
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(Adapter);
++	PRT_ADCSMP			AdcSmp = &(pHalData->ADCSmp);
++
++	ADCSmp_Start(Adapter, AdcSmp); 
++}
++#endif
++
++VOID
++ADCSmp_Set(
++	IN		PVOID			pDM_VOID,
++	IN	RT_ADCSMP_TRIG_SEL		TrigSel,
++	IN	RT_ADCSMP_TRIG_SIG_SEL	TrigSigSel,
++	IN	u1Byte					DmaDataSigSel,
++	IN	u1Byte					TriggerTime,
++	IN	u2Byte					PollingTime
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	BOOLEAN				retValue = TRUE;
++
++	PRT_ADCSMP			AdcSmp = &(pDM_Odm->adcsmp);
++/*	
++	DbgPrint("%s\n ADCSmpState %d ADCSmpTrigSig %d ADCSmpTrigSigSel %d\n", 
++			__FUNCTION__, AdcSmp->ADCSmpState, TrigSel, TrigSigSel);
++
++	DbgPrint("ADCSmpDmaDataSigSel %d, ADCSmpTriggerTime %d ADCSmpPollingTime %d\n", 
++			DmaDataSigSel, TriggerTime, PollingTime);
++*/
++	AdcSmp->ADCSmpTrigSel = TrigSel;
++	AdcSmp->ADCSmpTrigSigSel = TrigSigSel;
++	AdcSmp->ADCSmpDmaDataSigSel = DmaDataSigSel;
++	AdcSmp->ADCSmpTriggerTime = TriggerTime;
++	AdcSmp->ADCSmpPollingTime = PollingTime;
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	if (AdcSmp->ADCSmpState != ADCSMP_STATE_IDLE)
++		retValue = FALSE;
++	else if (AdcSmp->ADCSmpBuf.Length == 0)
++		retValue = ADCSmp_BufferAllocate(pDM_Odm, AdcSmp);
++#endif
++
++	if (retValue) {
++		AdcSmp->ADCSmpState = ADCSMP_STATE_SET;
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++		PlatformScheduleWorkItem(&(pHalData->ADCSmpWorkItem));
++#elif (DM_ODM_SUPPORT_TYPE & ODM_AP)
++		ADCSmp_Start(pDM_Odm, AdcSmp); 
++#endif
++	}	
++
++	DbgPrint("ADCSmpState %d Return Status %d\n", AdcSmp->ADCSmpState, retValue);
++}
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++RT_STATUS
++ADCSmp_Query(
++	IN	PADAPTER			Adapter,
++	IN	ULONG				InformationBufferLength, 
++	OUT	PVOID				InformationBuffer, 
++	OUT	PULONG				BytesWritten
++	)
++{
++	RT_STATUS			retStatus = RT_STATUS_SUCCESS;
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(Adapter);
++	PRT_ADCSMP			AdcSmp = &(pHalData->ADCSmp);
++	PRT_ADCSMP_STRING	ADCSmpBuf = &(AdcSmp->ADCSmpBuf);
++
++	DbgPrint("%s ADCSmpState %d", __func__, AdcSmp->ADCSmpState);
++
++	if (InformationBufferLength != ADCSmpBuf->buffer_size)	{
++		*BytesWritten = 0;
++		retStatus = RT_STATUS_RESOURCE;
++	} else if (ADCSmpBuf->Length != ADCSmpBuf->buffer_size) {
++		*BytesWritten = 0;
++		retStatus = RT_STATUS_RESOURCE;
++	} else if (AdcSmp->ADCSmpState != ADCSMP_STATE_QUERY) {
++		*BytesWritten = 0;
++		retStatus = RT_STATUS_PENDING;
++	} else {
++		PlatformMoveMemory(InformationBuffer, ADCSmpBuf->Octet, ADCSmpBuf->buffer_size);
++		*BytesWritten = ADCSmpBuf->buffer_size;
++
++		AdcSmp->ADCSmpState = ADCSMP_STATE_IDLE;
++	}
++
++	DbgPrint("Return Status %d\n", retStatus);
++
++	return retStatus;
++}
++#endif
++
++VOID
++ADCSmp_Stop(
++	IN		PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;	
++	PRT_ADCSMP			AdcSmp = &(pDM_Odm->adcsmp);
++
++	AdcSmp->ADCSmpState = ADCSMP_STATE_IDLE;
++
++	DbgPrint("%s status %d\n", __func__, AdcSmp->ADCSmpState);
++}
++
++
++
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++u1Byte ADC_buffer[0x20000];
++#endif
++
++VOID
++ADCSmp_Init(
++	IN		PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;	
++	PRT_ADCSMP			AdcSmp = &(pDM_Odm->adcsmp);
++	PRT_ADCSMP_STRING	ADCSmpBuf = &(AdcSmp->ADCSmpBuf);
++
++	AdcSmp->ADCSmpState = ADCSMP_STATE_IDLE;
++
++	if (pDM_Odm->SupportICType & ODM_RTL8814A) {
++		ADCSmpBuf->start_pos = 0x30000;
++		ADCSmpBuf->buffer_size = 0x10000;	
++	} else if (pDM_Odm->SupportICType & ODM_RTL8822B) {
++		ADCSmpBuf->start_pos = 0x20000;
++		ADCSmpBuf->buffer_size = 0x20000;	
++	} else if (pDM_Odm->SupportICType & ODM_RTL8197F) {
++		ADCSmpBuf->start_pos = 0x00000;
++		ADCSmpBuf->buffer_size = 0x10000;	
++	}
++	
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformInitializeWorkItem(
++		Adapter,
++		&(pHalData->ADCSmpWorkItem), 
++		(RT_WORKITEM_CALL_BACK)ADCSmpWorkItemCallback, 
++		(PVOID)Adapter,
++		"ADCSmpWorkItem");
++#endif
++}
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++VOID
++ADCSmp_DeInit(
++	PADAPTER		Adapter
++	)
++{
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(Adapter);
++	PRT_ADCSMP			AdcSmp = &(pHalData->ADCSmp);
++	PRT_ADCSMP_STRING	ADCSmpBuf = &(AdcSmp->ADCSmpBuf);
++
++	ADCSmp_Stop(Adapter);
++
++	PlatformFreeWorkItem(&(pHalData->ADCSmpWorkItem));
++
++	if (ADCSmpBuf->Length != 0x0) {
++		PlatformFreeMemory(ADCSmpBuf->Octet, ADCSmpBuf->Length);
++		ADCSmpBuf->Length = 0x0;
++	}
++}	
++
++
++VOID
++Dump_MAC(
++	PADAPTER		Adapter
++	)
++{
++
++	u4Byte	Addr = 0;
++	
++	for (Addr = 0; Addr < 0x1A3D; Addr++)
++		DbgPrint("%04x %04x\n", Addr, PlatformEFIORead4Byte(Adapter, Addr));
++}
++
++
++VOID
++Dump_BB(
++	PADAPTER		Adapter
++	)
++{
++	u4Byte	Addr = 0;
++	
++	for (Addr = 0; Addr < 0x1AFD; Addr++)
++		DbgPrint("%04x %04x\n", Addr, PHY_QueryBBReg(Adapter, Addr, bMaskDWord));
++}
++
++
++VOID
++Dump_RF(
++	PADAPTER		Adapter
++	)
++{
++	u1Byte	Addr = 0, Path = 0;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	
++	for (Path = ODM_RF_PATH_A; Path < pHalData->NumTotalRFPath; Path++) {
++		for (Addr = 0; Addr < 0xF6; Addr++)
++			DbgPrint("%04x %04x\n", Addr, PHY_QueryRFReg(Adapter, Path, Addr, bRFRegOffsetMask));
++	}
++}
++#endif
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_adc_sampling.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_adc_sampling.h
+new file mode 100644
+index 0000000..7664c16
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_adc_sampling.h
+@@ -0,0 +1,101 @@
++#ifndef __INC_ADCSMP_H
++#define __INC_ADCSMP_H
++
++typedef struct _RT_ADCSMP_STRING {
++	pu4Byte		Octet;
++	u4Byte		Length;
++	u4Byte		buffer_size;
++	u4Byte		start_pos;
++} RT_ADCSMP_STRING, *PRT_ADCSMP_STRING;
++
++
++typedef enum _RT_ADCSMP_TRIG_SEL {
++	ADCSMP_BB_TRIG, 
++	ADCSMP_MAC_TRIG, 
++} RT_ADCSMP_TRIG_SEL, *PRT_ADCSMP_TRIG_SEL;
++
++
++typedef enum _RT_ADCSMP_TRIG_SIG_SEL {
++	ADCSMP_TRIG_CRCOK, 
++	ADCSMP_TRIG_CRCFAIL, 
++	ADCSMP_TRIG_CCA,
++	ADCSMP_TRIG_REG,
++} RT_ADCSMP_TRIG_SIG_SEL, *PRT_ADCSMP_TRIG_SIG_SEL;
++
++
++typedef enum _RT_ADCSMP_STATE {
++	ADCSMP_STATE_IDLE, 
++	ADCSMP_STATE_SET, 
++	ADCSMP_STATE_QUERY,
++} RT_ADCSMP_STATE, *PRT_ADCSMP_STATE;
++
++
++typedef struct _RT_ADCSMP {
++	RT_ADCSMP_STRING		ADCSmpBuf;
++	RT_ADCSMP_STATE			ADCSmpState;
++	RT_ADCSMP_TRIG_SEL		ADCSmpTrigSel;
++	RT_ADCSMP_TRIG_SIG_SEL	ADCSmpTrigSigSel;
++	u1Byte					ADCSmpDmaDataSigSel;
++	u1Byte					ADCSmpTriggerTime;
++	u2Byte					ADCSmpPollingTime;
++} RT_ADCSMP, *PRT_ADCSMP;
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++VOID
++ADCSmpWorkItemCallback(
++	IN	PVOID	pContext
++);
++#endif
++
++VOID
++ADCSmp_Set(
++	IN	PVOID					pDM_VOID,
++	IN	RT_ADCSMP_TRIG_SEL		TrigSel,
++	IN	RT_ADCSMP_TRIG_SIG_SEL	TrigSigSel,
++	IN	u1Byte					DmaDataSigSel,
++	IN	u1Byte					TriggerTime,
++	IN	u2Byte					PollingTime
++);
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++RT_STATUS
++ADCSmp_Query(
++	IN	PADAPTER	Adapter,
++	IN	ULONG	InformationBufferLength, 
++	OUT	PVOID	InformationBuffer, 
++	OUT	PULONG	BytesWritten
++);
++#endif
++VOID
++ADCSmp_Stop(
++	IN	PVOID	pDM_VOID
++);
++
++VOID
++ADCSmp_Init(
++	IN	PVOID	pDM_VOID
++);
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++VOID
++ADCSmp_DeInit(
++	PADAPTER	Adapter
++);
++
++VOID
++Dump_MAC(
++	PADAPTER	Adapter
++);
++
++VOID
++Dump_BB(
++	PADAPTER	Adapter
++);
++
++VOID
++Dump_RF(
++	PADAPTER	Adapter
++);
++#endif
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_antdect.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_antdect.c
+new file mode 100644
+index 0000000..862c597
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_antdect.c
+@@ -0,0 +1,964 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++//#if( DM_ODM_SUPPORT_TYPE & (ODM_WIN |ODM_CE))
++#if(defined(CONFIG_ANT_DETECTION))
++
++//IS_ANT_DETECT_SUPPORT_SINGLE_TONE(Adapter)	
++//IS_ANT_DETECT_SUPPORT_RSSI(Adapter)		
++//IS_ANT_DETECT_SUPPORT_PSD(Adapter)
++
++//1 [1. Single Tone Method] ===================================================
++
++//
++// Description:
++//	Set Single/Dual Antenna default setting for products that do not do detection in advance.
++//
++// Added by Joseph, 2012.03.22
++//
++VOID
++ODM_SingleDualAntennaDefaultSetting(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T		pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	PADAPTER	pAdapter	 =  pDM_Odm->Adapter;
++
++	u1Byte btAntNum=BT_GetPgAntNum(pAdapter);
++	// Set default antenna A and B status
++	if(btAntNum == 2)
++	{
++		pDM_SWAT_Table->ANTA_ON=TRUE;
++		pDM_SWAT_Table->ANTB_ON=TRUE;
++	
++	}
++	else if(btAntNum == 1)
++	{// Set antenna A as default
++		pDM_SWAT_Table->ANTA_ON=TRUE;
++		pDM_SWAT_Table->ANTB_ON=FALSE;
++	
++	}
++	else
++	{
++		RT_ASSERT(FALSE, ("Incorrect antenna number!!\n"));
++	}
++}
++
++
++//2 8723A ANT DETECT
++//
++// Description:
++//	Implement IQK single tone for RF DPK loopback and BB PSD scanning. 
++//	This function is cooperated with BB team Neil. 
++//
++// Added by Roger, 2011.12.15
++//
++BOOLEAN
++ODM_SingleDualAntennaDetection(
++	IN		PVOID		pDM_VOID,
++	IN		u1Byte			mode
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER	pAdapter	 =  pDM_Odm->Adapter;
++	pSWAT_T		pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	u4Byte		CurrentChannel,RfLoopReg;
++	u1Byte		n;
++	u4Byte		Reg88c, Regc08, Reg874, Regc50, Reg948, Regb2c, Reg92c, Reg930, Reg064, AFE_rRx_Wait_CCA;
++	u1Byte		initial_gain = 0x5a;
++	u4Byte		PSD_report_tmp;
++	u4Byte		AntA_report = 0x0, AntB_report = 0x0, AntO_report = 0x0;
++	BOOLEAN		bResult = TRUE;
++	u4Byte		AFE_Backup[16];
++	u4Byte		AFE_REG_8723A[16] = {
++					rRx_Wait_CCA, 	rTx_CCK_RFON, 
++					rTx_CCK_BBON, 	rTx_OFDM_RFON,
++					rTx_OFDM_BBON, 	rTx_To_Rx,
++					rTx_To_Tx, 		rRx_CCK, 
++					rRx_OFDM, 		rRx_Wait_RIFS, 
++					rRx_TO_Rx,		rStandby,
++					rSleep,			rPMPD_ANAEN, 	
++					rFPGA0_XCD_SwitchControl, rBlue_Tooth};
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SingleDualAntennaDetection()============>\n"));	
++
++	
++	if (!(pDM_Odm->SupportICType & ODM_RTL8723B))
++		return bResult;
++
++	// Retrieve antenna detection registry info, added by Roger, 2012.11.27.
++	if(!IS_ANT_DETECT_SUPPORT_SINGLE_TONE(pAdapter))
++		return bResult;
++
++	//1 Backup Current RF/BB Settings	
++	
++	CurrentChannel = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, ODM_CHANNEL, bRFRegOffsetMask);
++	RfLoopReg = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x00, bRFRegOffsetMask);
++	if (pDM_Odm->SupportICType & ODM_RTL8723B) {
++		Reg92c = ODM_GetBBReg(pDM_Odm, rDPDT_control, bMaskDWord);	
++		Reg930 = ODM_GetBBReg(pDM_Odm, rfe_ctrl_anta_src, bMaskDWord);
++		Reg948 = ODM_GetBBReg(pDM_Odm, rS0S1_PathSwitch, bMaskDWord);
++		Regb2c = ODM_GetBBReg(pDM_Odm, rAGC_table_select, bMaskDWord);
++		Reg064 = ODM_GetMACReg(pDM_Odm, rSYM_WLBT_PAPE_SEL, BIT29);
++		ODM_SetBBReg(pDM_Odm, rDPDT_control, 0x3, 0x1);
++		ODM_SetBBReg(pDM_Odm, rfe_ctrl_anta_src, 0xff, 0x77);
++		ODM_SetMACReg(pDM_Odm, rSYM_WLBT_PAPE_SEL, BIT29, 0x1);  //dbg 7
++		ODM_SetBBReg(pDM_Odm, rS0S1_PathSwitch, 0x3c0, 0x0);//dbg 8
++		ODM_SetBBReg(pDM_Odm, rAGC_table_select, BIT31, 0x0);
++	}
++
++	ODM_StallExecution(10);
++	
++	//Store A Path Register 88c, c08, 874, c50
++	Reg88c = ODM_GetBBReg(pDM_Odm, rFPGA0_AnalogParameter4, bMaskDWord);
++	Regc08 = ODM_GetBBReg(pDM_Odm, rOFDM0_TRMuxPar, bMaskDWord);
++	Reg874 = ODM_GetBBReg(pDM_Odm, rFPGA0_XCD_RFInterfaceSW, bMaskDWord);
++	Regc50 = ODM_GetBBReg(pDM_Odm, rOFDM0_XAAGCCore1, bMaskDWord);	
++	
++	// Store AFE Registers
++	if (pDM_Odm->SupportICType & ODM_RTL8723B)
++		AFE_rRx_Wait_CCA = ODM_GetBBReg(pDM_Odm, rRx_Wait_CCA,bMaskDWord);
++	
++	//Set PSD 128 pts
++	ODM_SetBBReg(pDM_Odm, rFPGA0_PSDFunction, BIT14|BIT15, 0x0);  //128 pts
++	
++	// To SET CH1 to do
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, ODM_CHANNEL, bRFRegOffsetMask, 0x7401);     //Channel 1
++	
++	// AFE all on step
++	if (pDM_Odm->SupportICType & ODM_RTL8723B)
++		ODM_SetBBReg(pDM_Odm, rRx_Wait_CCA, bMaskDWord, 0x01c00016);
++
++	// 3 wire Disable
++	ODM_SetBBReg(pDM_Odm, rFPGA0_AnalogParameter4, bMaskDWord, 0xCCF000C0);
++	
++	//BB IQK Setting
++	ODM_SetBBReg(pDM_Odm, rOFDM0_TRMuxPar, bMaskDWord, 0x000800E4);
++	ODM_SetBBReg(pDM_Odm, rFPGA0_XCD_RFInterfaceSW, bMaskDWord, 0x22208000);
++
++	//IQK setting tone@ 4.34Mhz
++	ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_A, bMaskDWord, 0x10008C1C);
++	ODM_SetBBReg(pDM_Odm, rTx_IQK, bMaskDWord, 0x01007c00);	
++
++	//Page B init
++	ODM_SetBBReg(pDM_Odm, rConfig_AntA, bMaskDWord, 0x00080000);
++	ODM_SetBBReg(pDM_Odm, rConfig_AntA, bMaskDWord, 0x0f600000);
++	ODM_SetBBReg(pDM_Odm, rRx_IQK, bMaskDWord, 0x01004800);
++	ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_A, bMaskDWord, 0x10008c1f);
++	if (pDM_Odm->SupportICType & ODM_RTL8723B) {
++		ODM_SetBBReg(pDM_Odm, rTx_IQK_PI_A, bMaskDWord, 0x82150016);
++		ODM_SetBBReg(pDM_Odm, rRx_IQK_PI_A, bMaskDWord, 0x28150016);
++	}
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Rsp, bMaskDWord, 0x001028d0);	
++	ODM_SetBBReg(pDM_Odm, rOFDM0_XAAGCCore1, 0x7f, initial_gain);
++
++	//IQK Single tone start
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x808000);
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf9000000);
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf8000000);
++	
++	ODM_StallExecution(10000);
++
++	// PSD report of antenna A
++	PSD_report_tmp=0x0;
++	for (n=0;n<2;n++)
++ 	{
++ 		PSD_report_tmp =  GetPSDData(pDM_Odm, 14, initial_gain);	
++		if(PSD_report_tmp >AntA_report)
++			AntA_report=PSD_report_tmp;
++	}
++
++	 // change to Antenna B
++	if (pDM_Odm->SupportICType & ODM_RTL8723B) {
++		//ODM_SetBBReg(pDM_Odm, rDPDT_control, 0x3, 0x2);
++		ODM_SetBBReg(pDM_Odm, rS0S1_PathSwitch, 0xfff, 0x280);
++		ODM_SetBBReg(pDM_Odm, rAGC_table_select, BIT31, 0x1);
++	}
++
++	ODM_StallExecution(10);	
++
++	// PSD report of antenna B
++	PSD_report_tmp=0x0;
++	for (n=0;n<2;n++)
++ 	{
++ 		PSD_report_tmp =  GetPSDData(pDM_Odm, 14, initial_gain);	
++		if(PSD_report_tmp > AntB_report)
++			AntB_report=PSD_report_tmp;
++	}
++
++	//Close IQK Single Tone function
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x000000);
++
++	//1 Return to antanna A
++	if (pDM_Odm->SupportICType & ODM_RTL8723B) {
++		// external DPDT
++		ODM_SetBBReg(pDM_Odm, rDPDT_control, bMaskDWord, Reg92c);
++
++		//internal S0/S1
++		ODM_SetBBReg(pDM_Odm, rS0S1_PathSwitch, bMaskDWord, Reg948);
++		ODM_SetBBReg(pDM_Odm, rAGC_table_select, bMaskDWord, Regb2c);
++		ODM_SetBBReg(pDM_Odm, rfe_ctrl_anta_src, bMaskDWord, Reg930);
++		ODM_SetMACReg(pDM_Odm, rSYM_WLBT_PAPE_SEL, BIT29, Reg064);
++	}
++	
++	ODM_SetBBReg(pDM_Odm, rFPGA0_AnalogParameter4, bMaskDWord, Reg88c);
++	ODM_SetBBReg(pDM_Odm, rOFDM0_TRMuxPar, bMaskDWord, Regc08);
++	ODM_SetBBReg(pDM_Odm, rFPGA0_XCD_RFInterfaceSW, bMaskDWord, Reg874);
++	ODM_SetBBReg(pDM_Odm, rOFDM0_XAAGCCore1, 0x7F, 0x40);
++	ODM_SetBBReg(pDM_Odm, rOFDM0_XAAGCCore1, bMaskDWord, Regc50);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_CHNLBW, bRFRegOffsetMask,CurrentChannel);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x00, bRFRegOffsetMask,RfLoopReg);
++
++	//Reload AFE Registers
++	if (pDM_Odm->SupportICType & ODM_RTL8723B)
++		ODM_SetBBReg(pDM_Odm, rRx_Wait_CCA, bMaskDWord, AFE_rRx_Wait_CCA);
++
++	if (pDM_Odm->SupportICType & ODM_RTL8723B) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("psd_report_A[%d]= %d\n", 2416, AntA_report));	
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("psd_report_B[%d]= %d\n", 2416, AntB_report));	
++		
++		//2 Test Ant B based on Ant A is ON
++		if((AntA_report >= 100) && (AntB_report >= 100) && (AntA_report <= 135) && (AntB_report <= 135))
++		{
++			u1Byte TH1=2, TH2=6;
++		
++			if((AntA_report - AntB_report < TH1) || (AntB_report - AntA_report < TH1))
++			{
++				pDM_SWAT_Table->ANTA_ON=TRUE;
++				pDM_SWAT_Table->ANTB_ON=TRUE;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("ODM_SingleDualAntennaDetection(): Dual Antenna\n"));
++			}
++			else if(((AntA_report - AntB_report >= TH1) && (AntA_report - AntB_report <= TH2)) || 
++				((AntB_report - AntA_report >= TH1) && (AntB_report - AntA_report <= TH2)))
++			{
++				pDM_SWAT_Table->ANTA_ON=FALSE;
++				pDM_SWAT_Table->ANTB_ON=FALSE;
++				bResult = FALSE;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SingleDualAntennaDetection(): Need to check again\n"));
++			}
++			else
++			{
++				pDM_SWAT_Table->ANTA_ON = TRUE;
++				pDM_SWAT_Table->ANTB_ON=FALSE;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("ODM_SingleDualAntennaDetection(): Single Antenna\n"));
++			}
++			pDM_Odm->AntDetectedInfo.bAntDetected= TRUE;
++			pDM_Odm->AntDetectedInfo.dBForAntA = AntA_report;
++			pDM_Odm->AntDetectedInfo.dBForAntB = AntB_report;
++			pDM_Odm->AntDetectedInfo.dBForAntO = AntO_report;
++				
++		}
++		else
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("return FALSE!!\n"));
++			bResult = FALSE;
++		}
++	}
++	return bResult;
++
++}
++
++
++
++//1 [2. Scan AP RSSI Method] ==================================================
++
++
++
++
++BOOLEAN
++ODM_SwAntDivCheckBeforeLink(
++	IN		PVOID		pDM_VOID
++	)
++{
++
++#if (RT_MEM_SIZE_LEVEL != RT_MEM_SIZE_MINIMUM)
++
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE*	pHalData = GET_HAL_DATA(Adapter);
++	PMGNT_INFO		pMgntInfo = &Adapter->MgntInfo;
++	pSWAT_T			pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++	s1Byte			Score = 0;
++	PRT_WLAN_BSS	pTmpBssDesc, pTestBssDesc;
++	u1Byte			power_target_L = 9, power_target_H = 16;
++	u1Byte			tmp_power_diff = 0,power_diff = 0,avg_power_diff = 0,max_power_diff = 0,min_power_diff = 0xff;
++	u2Byte			index, counter = 0;
++	static u1Byte		ScanChannel;
++	u4Byte			tmp_SWAS_NoLink_BK_Reg948;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ANTA_ON = (( %d )) , ANTB_ON = (( %d ))\n", pDM_Odm->DM_SWAT_Table.ANTA_ON, pDM_Odm->DM_SWAT_Table.ANTB_ON));
++
++	//if(HP id)
++	{
++		if(pDM_Odm->DM_SWAT_Table.RSSI_AntDect_bResult==TRUE && pDM_Odm->SupportICType == ODM_RTL8723B)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("8723B RSSI-based Antenna Detection is done\n"));
++			return FALSE;
++		}
++		
++		if(pDM_Odm->SupportICType == ODM_RTL8723B)
++		{
++			if(pDM_SWAT_Table->SWAS_NoLink_BK_Reg948 == 0xff)
++				pDM_SWAT_Table->SWAS_NoLink_BK_Reg948 = ODM_Read4Byte(pDM_Odm, rS0S1_PathSwitch );
++		}
++	}
++
++	if (pDM_Odm->Adapter == NULL)  //For BSOD when plug/unplug fast.  //By YJ,120413
++	{	// The ODM structure is not initialized.
++		return FALSE;
++	}
++
++	// Retrieve antenna detection registry info, added by Roger, 2012.11.27.
++	if(!IS_ANT_DETECT_SUPPORT_RSSI(Adapter))
++	{
++		return FALSE;
++	}
++	else
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Antenna Detection: RSSI Method\n"));	
++	}
++
++	// Since driver is going to set BB register, it shall check if there is another thread controlling BB/RF.
++	PlatformAcquireSpinLock(Adapter, RT_RF_STATE_SPINLOCK);
++	if(pHalData->eRFPowerState!=eRfOn || pMgntInfo->RFChangeInProgress || pMgntInfo->bMediaConnect)
++	{
++		PlatformReleaseSpinLock(Adapter, RT_RF_STATE_SPINLOCK);
++	
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, 
++				("ODM_SwAntDivCheckBeforeLink(): RFChangeInProgress(%x), eRFPowerState(%x)\n", 
++				pMgntInfo->RFChangeInProgress, pHalData->eRFPowerState));
++	
++		pDM_SWAT_Table->SWAS_NoLink_State = 0;
++		
++		return FALSE;
++	}
++	else
++	{
++		PlatformReleaseSpinLock(Adapter, RT_RF_STATE_SPINLOCK);
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("pDM_SWAT_Table->SWAS_NoLink_State = %d\n", pDM_SWAT_Table->SWAS_NoLink_State));
++	//1 Run AntDiv mechanism "Before Link" part.
++	if(pDM_SWAT_Table->SWAS_NoLink_State == 0)
++	{
++		//1 Prepare to do Scan again to check current antenna state.
++
++		// Set check state to next step.
++		pDM_SWAT_Table->SWAS_NoLink_State = 1;
++	
++		// Copy Current Scan list.
++		pMgntInfo->tmpNumBssDesc = pMgntInfo->NumBssDesc;
++		PlatformMoveMemory((PVOID)Adapter->MgntInfo.tmpbssDesc, (PVOID)pMgntInfo->bssDesc, sizeof(RT_WLAN_BSS)*MAX_BSS_DESC);
++		
++		// Go back to scan function again.
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SwAntDivCheckBeforeLink: Scan one more time\n"));
++		pMgntInfo->ScanStep=0;
++		pMgntInfo->bScanAntDetect = TRUE;
++		ScanChannel = odm_SwAntDivSelectScanChnl(Adapter);
++
++		
++		if(pDM_Odm->SupportICType & (ODM_RTL8188E|ODM_RTL8821))
++		{
++			if(pDM_FatTable->RxIdleAnt == MAIN_ANT)
++				ODM_UpdateRxIdleAnt(pDM_Odm, AUX_ANT);
++			else
++				ODM_UpdateRxIdleAnt(pDM_Odm, MAIN_ANT);
++			if(ScanChannel == 0)
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, 
++					("ODM_SwAntDivCheckBeforeLink(): No AP List Avaiable, Using Ant(%s)\n", (pDM_FatTable->RxIdleAnt==MAIN_ANT)?"AUX_ANT":"MAIN_ANT"));
++
++				if(IS_5G_WIRELESS_MODE(pMgntInfo->dot11CurrentWirelessMode))
++				{
++					pDM_SWAT_Table->Ant5G = pDM_FatTable->RxIdleAnt;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("pDM_SWAT_Table->Ant5G=%s\n", (pDM_FatTable->RxIdleAnt==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++				}
++				else
++				{
++					pDM_SWAT_Table->Ant2G = pDM_FatTable->RxIdleAnt;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("pDM_SWAT_Table->Ant2G=%s\n", (pDM_FatTable->RxIdleAnt==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++				}
++				return FALSE;
++			}
++
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, 
++				("ODM_SwAntDivCheckBeforeLink: Change to %s for testing.\n", ((pDM_FatTable->RxIdleAnt == MAIN_ANT)?"MAIN_ANT":"AUX_ANT")));
++		} else if (pDM_Odm->SupportICType & (ODM_RTL8723B)) {
++			/*Switch Antenna to another one.*/
++				
++			tmp_SWAS_NoLink_BK_Reg948 = ODM_Read4Byte(pDM_Odm, rS0S1_PathSwitch);
++			
++			if ((pDM_SWAT_Table->CurAntenna == MAIN_ANT) && (tmp_SWAS_NoLink_BK_Reg948 == 0x200)) {
++				ODM_SetBBReg(pDM_Odm, rS0S1_PathSwitch, 0xfff, 0x280);
++				ODM_SetBBReg(pDM_Odm, rAGC_table_select, BIT31, 0x1);
++				pDM_SWAT_Table->CurAntenna = AUX_ANT;
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Reg[948]= (( %x )) was in wrong state\n", tmp_SWAS_NoLink_BK_Reg948));
++				return FALSE;
++			}
++			ODM_StallExecution(10);
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SwAntDivCheckBeforeLink: Change to (( %s-ant))  for testing.\n", (pDM_SWAT_Table->CurAntenna == MAIN_ANT)?"MAIN":"AUX"));
++		}
++		
++		odm_SwAntDivConstructScanChnl(Adapter, ScanChannel);
++		PlatformSetTimer(Adapter, &pMgntInfo->ScanTimer, 5);
++
++		return TRUE;
++	}
++	else //pDM_SWAT_Table->SWAS_NoLink_State == 1
++	{
++		//1 ScanComple() is called after antenna swiched.
++		//1 Check scan result and determine which antenna is going
++		//1 to be used.
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,(" tmpNumBssDesc= (( %d )) \n",pMgntInfo->tmpNumBssDesc));// debug for Dino
++		
++		for(index = 0; index < pMgntInfo->tmpNumBssDesc; index++)
++		{
++			pTmpBssDesc = &(pMgntInfo->tmpbssDesc[index]); // Antenna 1
++			pTestBssDesc = &(pMgntInfo->bssDesc[index]); // Antenna 2
++
++			if(PlatformCompareMemory(pTestBssDesc->bdBssIdBuf, pTmpBssDesc->bdBssIdBuf, 6)!=0)
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SwAntDivCheckBeforeLink(): ERROR!! This shall not happen.\n"));
++				continue;
++			}
++
++			if(pDM_Odm->SupportICType != ODM_RTL8723B)
++			{
++				if(pTmpBssDesc->ChannelNumber == ScanChannel)
++				{
++			if(pTmpBssDesc->RecvSignalPower > pTestBssDesc->RecvSignalPower)
++			{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SwAntDivCheckBeforeLink: Compare scan entry: Score++\n"));
++						RT_PRINT_STR(COMP_SCAN, DBG_WARNING, "GetScanInfo(): new Bss SSID:", pTmpBssDesc->bdSsIdBuf, pTmpBssDesc->bdSsIdLen);
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("at ch %d, Original: %d, Test: %d\n\n", pTmpBssDesc->ChannelNumber, pTmpBssDesc->RecvSignalPower, pTestBssDesc->RecvSignalPower));
++			
++				Score++;
++				PlatformMoveMemory(pTestBssDesc, pTmpBssDesc, sizeof(RT_WLAN_BSS));
++			}
++			else if(pTmpBssDesc->RecvSignalPower < pTestBssDesc->RecvSignalPower)
++			{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SwAntDivCheckBeforeLink: Compare scan entry: Score--\n"));
++						RT_PRINT_STR(COMP_SCAN, DBG_WARNING, "GetScanInfo(): new Bss SSID:", pTmpBssDesc->bdSsIdBuf, pTmpBssDesc->bdSsIdLen);
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("at ch %d, Original: %d, Test: %d\n\n", pTmpBssDesc->ChannelNumber, pTmpBssDesc->RecvSignalPower, pTestBssDesc->RecvSignalPower));
++				Score--;
++			}
++					else
++					{
++						if(pTestBssDesc->bdTstamp - pTmpBssDesc->bdTstamp < 5000)
++						{
++							RT_PRINT_STR(COMP_SCAN, DBG_WARNING, "GetScanInfo(): new Bss SSID:", pTmpBssDesc->bdSsIdBuf, pTmpBssDesc->bdSsIdLen);
++							ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("at ch %d, Original: %d, Test: %d\n", pTmpBssDesc->ChannelNumber, pTmpBssDesc->RecvSignalPower, pTestBssDesc->RecvSignalPower));
++							ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("The 2nd Antenna didn't get this AP\n\n"));
++						}
++					}
++				}
++			}
++			else // 8723B
++			{ 
++				if(pTmpBssDesc->ChannelNumber == ScanChannel)
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("ChannelNumber == ScanChannel -> (( %d )) \n", pTmpBssDesc->ChannelNumber ));
++				
++					if(pTmpBssDesc->RecvSignalPower > pTestBssDesc->RecvSignalPower) // Pow(Ant1) > Pow(Ant2)
++					{
++						counter++;
++						tmp_power_diff=(u1Byte)(pTmpBssDesc->RecvSignalPower - pTestBssDesc->RecvSignalPower);
++						power_diff = power_diff + tmp_power_diff;	
++						
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Original: %d, Test: %d\n", pTmpBssDesc->RecvSignalPower, pTestBssDesc->RecvSignalPower));
++						ODM_PRINT_ADDR(pDM_Odm,ODM_COMP_ANT_DIV, DBG_LOUD, ("SSID:"), pTmpBssDesc->bdSsIdBuf);
++						ODM_PRINT_ADDR(pDM_Odm,ODM_COMP_ANT_DIV, DBG_LOUD, ("BSSID:"), pTmpBssDesc->bdBssIdBuf);
++
++						//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("tmp_power_diff: (( %d)),max_power_diff: (( %d)),min_power_diff: (( %d))  \n", tmp_power_diff,max_power_diff,min_power_diff));
++						if(tmp_power_diff > max_power_diff)
++							max_power_diff=tmp_power_diff;
++						if(tmp_power_diff < min_power_diff)
++							min_power_diff=tmp_power_diff;
++						//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("max_power_diff: (( %d)),min_power_diff: (( %d))  \n",max_power_diff,min_power_diff));
++						
++						PlatformMoveMemory(pTestBssDesc, pTmpBssDesc, sizeof(RT_WLAN_BSS));
++					}
++					else if(pTestBssDesc->RecvSignalPower > pTmpBssDesc->RecvSignalPower) // Pow(Ant1) < Pow(Ant2)
++					{
++						counter++;
++						tmp_power_diff=(u1Byte)(pTestBssDesc->RecvSignalPower - pTmpBssDesc->RecvSignalPower);
++						power_diff = power_diff + tmp_power_diff;						
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Original: %d, Test: %d\n", pTmpBssDesc->RecvSignalPower, pTestBssDesc->RecvSignalPower));
++						ODM_PRINT_ADDR(pDM_Odm,ODM_COMP_ANT_DIV, DBG_LOUD, ("SSID:"), pTmpBssDesc->bdSsIdBuf);
++						ODM_PRINT_ADDR(pDM_Odm,ODM_COMP_ANT_DIV, DBG_LOUD, ("BSSID:"), pTmpBssDesc->bdBssIdBuf);							
++						if(tmp_power_diff > max_power_diff)
++							max_power_diff=tmp_power_diff;
++						if(tmp_power_diff < min_power_diff)
++							min_power_diff=tmp_power_diff;							
++					}
++					else // Pow(Ant1) = Pow(Ant2)
++					{
++						if(pTestBssDesc->bdTstamp > pTmpBssDesc->bdTstamp) //  Stamp(Ant1) < Stamp(Ant2) 
++					{
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("time_diff: %lld\n", (pTestBssDesc->bdTstamp-pTmpBssDesc->bdTstamp)/1000));
++						if(pTestBssDesc->bdTstamp - pTmpBssDesc->bdTstamp > 5000)
++						{
++							counter++;
++							ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Original: %d, Test: %d\n", pTmpBssDesc->RecvSignalPower, pTestBssDesc->RecvSignalPower));
++							ODM_PRINT_ADDR(pDM_Odm,ODM_COMP_ANT_DIV, DBG_LOUD, ("SSID:"), pTmpBssDesc->bdSsIdBuf);
++								ODM_PRINT_ADDR(pDM_Odm,ODM_COMP_ANT_DIV, DBG_LOUD, ("BSSID:"), pTmpBssDesc->bdBssIdBuf);
++								min_power_diff = 0;
++						}
++					}
++						else
++						{
++							ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Error !!!]: Time_diff: %lld\n", (pTestBssDesc->bdTstamp-pTmpBssDesc->bdTstamp)/1000));
++						}
++				}
++			}
++		}
++		}
++
++		if(pDM_Odm->SupportICType & (ODM_RTL8188E|ODM_RTL8821))
++		{
++			if(pMgntInfo->NumBssDesc!=0 && Score<0)
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,
++							("ODM_SwAntDivCheckBeforeLink(): Using Ant(%s)\n", (pDM_FatTable->RxIdleAnt==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++			}
++			else
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, 
++						("ODM_SwAntDivCheckBeforeLink(): Remain Ant(%s)\n", (pDM_FatTable->RxIdleAnt==MAIN_ANT)?"AUX_ANT":"MAIN_ANT"));
++
++				if(pDM_FatTable->RxIdleAnt == MAIN_ANT)
++					ODM_UpdateRxIdleAnt(pDM_Odm, AUX_ANT);
++				else
++					ODM_UpdateRxIdleAnt(pDM_Odm, MAIN_ANT);
++			}
++			
++			if(IS_5G_WIRELESS_MODE(pMgntInfo->dot11CurrentWirelessMode))
++			{
++				pDM_SWAT_Table->Ant5G = pDM_FatTable->RxIdleAnt;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("pDM_SWAT_Table->Ant5G=%s\n", (pDM_FatTable->RxIdleAnt==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++			}
++			else
++			{
++				pDM_SWAT_Table->Ant2G = pDM_FatTable->RxIdleAnt;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("pDM_SWAT_Table->Ant2G=%s\n", (pDM_FatTable->RxIdleAnt==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++			}
++		}
++		else if(pDM_Odm->SupportICType == ODM_RTL8723B)
++		{
++			if(counter == 0)
++			{	
++				if(pDM_Odm->DM_SWAT_Table.Pre_Aux_FailDetec == FALSE)
++				{
++					pDM_Odm->DM_SWAT_Table.Pre_Aux_FailDetec = TRUE;
++					pDM_Odm->DM_SWAT_Table.RSSI_AntDect_bResult=FALSE;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Counter=(( 0 )) , [[ Cannot find any AP with Aux-ant ]] ->  Scan Target-channel again  \n"));	
++
++                                        //3 [ Scan again ]
++					odm_SwAntDivConstructScanChnl(Adapter, ScanChannel);
++					PlatformSetTimer(Adapter, &pMgntInfo->ScanTimer, 5);
++					return TRUE;
++				}
++				else// Pre_Aux_FailDetec == TRUE
++				{
++					//2 [ Single Antenna ]
++					pDM_Odm->DM_SWAT_Table.Pre_Aux_FailDetec = FALSE;
++					pDM_Odm->DM_SWAT_Table.RSSI_AntDect_bResult=TRUE;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Counter=(( 0 )) , [[  Still cannot find any AP ]] \n"));
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SwAntDivCheckBeforeLink(): Single antenna\n"));	
++				}
++				pDM_Odm->DM_SWAT_Table.Aux_FailDetec_Counter++;
++			}
++			else
++			{
++				pDM_Odm->DM_SWAT_Table.Pre_Aux_FailDetec = FALSE;
++				
++				if(counter==3)
++				{
++					avg_power_diff = ((power_diff-max_power_diff - min_power_diff)>>1)+ ((max_power_diff + min_power_diff)>>2);
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("counter: (( %d )) ,  power_diff: (( %d )) \n", counter, power_diff));
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ counter==3 ] Modified avg_power_diff: (( %d )) , max_power_diff: (( %d )) ,  min_power_diff: (( %d )) \n", avg_power_diff,max_power_diff, min_power_diff));
++				}
++				else if(counter>=4)
++				{
++					avg_power_diff=(power_diff-max_power_diff - min_power_diff) / (counter - 2);
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("counter: (( %d )) ,  power_diff: (( %d )) \n", counter, power_diff));
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ counter>=4 ] Modified avg_power_diff: (( %d )) , max_power_diff: (( %d )) ,  min_power_diff: (( %d )) \n", avg_power_diff,max_power_diff, min_power_diff));
++					
++				}
++				else//counter==1,2
++				{
++					avg_power_diff=power_diff/counter;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("avg_power_diff: (( %d )) , counter: (( %d )) ,  power_diff: (( %d )) \n", avg_power_diff,counter, power_diff));
++				}
++
++				//2 [ Retry ]
++				if( (avg_power_diff >=power_target_L) && (avg_power_diff <=power_target_H)  )
++				{
++					pDM_Odm->DM_SWAT_Table.Retry_Counter++;
++					
++					if(pDM_Odm->DM_SWAT_Table.Retry_Counter<=3)
++					{
++						pDM_Odm->DM_SWAT_Table.RSSI_AntDect_bResult=FALSE;
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[[ Low confidence result ]] avg_power_diff= (( %d ))  ->  Scan Target-channel again ]] \n", avg_power_diff));	
++
++					         //3 [ Scan again ]
++						odm_SwAntDivConstructScanChnl(Adapter, ScanChannel);
++						PlatformSetTimer(Adapter, &pMgntInfo->ScanTimer, 5);
++						return TRUE;					         
++					}
++					else
++			{
++						pDM_Odm->DM_SWAT_Table.RSSI_AntDect_bResult=TRUE;
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[[ Still Low confidence result ]]  (( Retry_Counter > 3 )) \n"));
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SwAntDivCheckBeforeLink(): Single antenna\n"));
++					}
++					
++				}
++				//2 [ Dual Antenna ]
++				else if( (pMgntInfo->NumBssDesc != 0) && (avg_power_diff < power_target_L)   ) 
++				{
++					pDM_Odm->DM_SWAT_Table.RSSI_AntDect_bResult=TRUE;
++					if(pDM_Odm->DM_SWAT_Table.ANTB_ON == FALSE)
++					{
++						pDM_Odm->DM_SWAT_Table.ANTA_ON = TRUE;
++						pDM_Odm->DM_SWAT_Table.ANTB_ON = TRUE;
++					}
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("ODM_SwAntDivCheckBeforeLink(): Dual antenna\n"));
++					pDM_Odm->DM_SWAT_Table.Dual_Ant_Counter++;
++
++					// set bt coexDM from 1ant coexDM to 2ant coexDM
++					BT_SetBtCoexAntNum(Adapter, BT_COEX_ANT_TYPE_DETECTED, 2);
++					
++					//3 [ Init antenna diversity ]
++					pDM_Odm->SupportAbility |= ODM_BB_ANT_DIV; 
++					ODM_AntDivInit(pDM_Odm);
++				}
++				//2 [ Single Antenna ]
++				else if(avg_power_diff > power_target_H)
++				{
++					pDM_Odm->DM_SWAT_Table.RSSI_AntDect_bResult=TRUE;
++					if(pDM_Odm->DM_SWAT_Table.ANTB_ON == TRUE)
++					{
++						pDM_Odm->DM_SWAT_Table.ANTA_ON = TRUE;
++						pDM_Odm->DM_SWAT_Table.ANTB_ON = FALSE;
++						//BT_SetBtCoexAntNum(Adapter, BT_COEX_ANT_TYPE_DETECTED, 1);
++					}
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SwAntDivCheckBeforeLink(): Single antenna\n"));
++					pDM_Odm->DM_SWAT_Table.Single_Ant_Counter++;
++				}
++			}
++			//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("bResult=(( %d ))\n",pDM_Odm->DM_SWAT_Table.RSSI_AntDect_bResult));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("Dual_Ant_Counter = (( %d )), Single_Ant_Counter = (( %d )) , Retry_Counter = (( %d )) , Aux_FailDetec_Counter = (( %d ))\n\n\n",
++			pDM_Odm->DM_SWAT_Table.Dual_Ant_Counter,pDM_Odm->DM_SWAT_Table.Single_Ant_Counter,pDM_Odm->DM_SWAT_Table.Retry_Counter,pDM_Odm->DM_SWAT_Table.Aux_FailDetec_Counter));
++
++			//2 recover the antenna setting
++
++			if(pDM_Odm->DM_SWAT_Table.ANTB_ON == FALSE)
++				ODM_SetBBReg(pDM_Odm, rS0S1_PathSwitch, 0xfff, (pDM_SWAT_Table->SWAS_NoLink_BK_Reg948));
++			
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("bResult=(( %d )), Recover  Reg[948]= (( %x )) \n\n",pDM_Odm->DM_SWAT_Table.RSSI_AntDect_bResult, pDM_SWAT_Table->SWAS_NoLink_BK_Reg948 ));
++
++			
++		}
++		
++		// Check state reset to default and wait for next time.
++		pDM_SWAT_Table->SWAS_NoLink_State = 0;
++		pMgntInfo->bScanAntDetect = FALSE;
++
++		return FALSE;
++	}
++
++#else
++		return	FALSE;
++#endif
++
++return FALSE;
++}
++
++
++
++
++
++
++//1 [3. PSD Method] ==========================================================
++
++
++
++
++u4Byte
++odm_GetPSDData(
++	IN 	PVOID			pDM_VOID,
++	IN u2Byte			point,
++	IN u1Byte 		initial_gain)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			psd_report;
++	
++	ODM_SetBBReg(pDM_Odm, 0x808, 0x3FF, point);
++	ODM_SetBBReg(pDM_Odm, 0x808, BIT22, 1);  //Start PSD calculation, Reg808[22]=0->1
++	ODM_StallExecution(150);//Wait for HW PSD report
++	ODM_SetBBReg(pDM_Odm, 0x808, BIT22, 0);//Stop PSD calculation,  Reg808[22]=1->0
++	psd_report = ODM_GetBBReg(pDM_Odm,0x8B4, bMaskDWord) & 0x0000FFFF;//Read PSD report, Reg8B4[15:0]
++	
++	psd_report = (u4Byte) (odm_ConvertTo_dB(psd_report));//+(u4Byte)(initial_gain);
++	return psd_report;
++}
++
++
++
++VOID
++ODM_SingleDualAntennaDetection_PSD(
++	IN	 PVOID 	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte	Channel_ori;
++	u1Byte 	initial_gain = 0x36;
++	u1Byte	tone_idx;
++	u1Byte	Tone_lenth_1=7, Tone_lenth_2=4;
++	u2Byte	Tone_idx_1[7]={88, 104, 120, 8, 24, 40, 56};
++	u2Byte	Tone_idx_2[4]={8, 24, 40, 56};
++	u4Byte	PSD_report_Main[11]={0}, PSD_report_Aux[11]={0};
++	//u1Byte	Tone_lenth_1=4, Tone_lenth_2=2;
++	//u2Byte	Tone_idx_1[4]={88, 120, 24, 56};
++	//u2Byte	Tone_idx_2[2]={ 24,  56};
++	//u4Byte	PSD_report_Main[6]={0}, PSD_report_Aux[6]={0};
++
++	u4Byte	PSD_report_temp,MAX_PSD_report_Main=0,MAX_PSD_report_Aux=0;
++	u4Byte	PSD_power_threshold;
++	u4Byte	Main_psd_result=0, Aux_psd_result=0;
++	u4Byte	Regc50, Reg948, Regb2c,Regc14,Reg908;
++	u4Byte	i=0,test_num=8;
++	
++
++	if(pDM_Odm->SupportICType != ODM_RTL8723B)
++		return;
++	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SingleDualAntennaDetection_PSD()============> \n"));	
++	
++	//2 [ Backup Current RF/BB Settings ]	
++	
++	Channel_ori = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, ODM_CHANNEL, bRFRegOffsetMask);
++	Reg948 = ODM_GetBBReg(pDM_Odm, rS0S1_PathSwitch, bMaskDWord);
++	Regb2c =  ODM_GetBBReg(pDM_Odm, rAGC_table_select, bMaskDWord);
++	Regc50 = ODM_GetBBReg(pDM_Odm, rOFDM0_XAAGCCore1, bMaskDWord);
++	Regc14 = ODM_GetBBReg(pDM_Odm, 0xc14, bMaskDWord);
++	Reg908 = ODM_GetBBReg(pDM_Odm, 0x908, bMaskDWord);
++
++	//2 [ Setting for doing PSD function (CH4)]
++	ODM_SetBBReg(pDM_Odm, rFPGA0_RFMOD, BIT24, 0); //disable whole CCK block
++	ODM_Write1Byte(pDM_Odm, REG_TXPAUSE, 0xFF); // Turn off TX  ->  Pause TX Queue
++	ODM_SetBBReg(pDM_Odm, 0xC14, bMaskDWord, 0x0); // [ Set IQK Matrix = 0 ] equivalent to [ Turn off CCA]
++
++	// PHYTXON while loop
++	ODM_SetBBReg(pDM_Odm, 0x908, bMaskDWord, 0x803); 
++	while (ODM_GetBBReg(pDM_Odm, 0xdf4, BIT6)) 
++	{
++		i++;
++		if (i > 1000000) 
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Wait in %s() more than %d times!\n", __FUNCTION__, i));	
++			break;
++		}
++	}
++	
++	ODM_SetBBReg(pDM_Odm, 0xc50, 0x7f, initial_gain);  
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, ODM_CHANNEL, 0x7ff, 0x04);     // Set RF to CH4 & 40M
++	ODM_SetBBReg(pDM_Odm, rFPGA0_AnalogParameter4, 0xf00000, 0xf);	// 3 wire Disable    88c[23:20]=0xf
++	ODM_SetBBReg(pDM_Odm, rFPGA0_PSDFunction, BIT14|BIT15, 0x0);  //128 pt	//Set PSD 128 ptss
++	ODM_StallExecution(3000);	
++	
++	
++	//2 [ Doing PSD Function in (CH4)]
++	
++        //Antenna A
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Switch to Main-ant   (CH4)\n"));
++	ODM_SetBBReg(pDM_Odm, 0x948, 0xfff, 0x200);
++	ODM_StallExecution(10);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("dbg\n"));
++	for (i=0;i<test_num;i++)
++	{	
++		for (tone_idx=0;tone_idx<Tone_lenth_1;tone_idx++)
++		{
++			PSD_report_temp = odm_GetPSDData(pDM_Odm, Tone_idx_1[tone_idx], initial_gain);
++			//if(  PSD_report_temp>PSD_report_Main[tone_idx]  )
++				PSD_report_Main[tone_idx]+=PSD_report_temp;
++		}
++	}
++        //Antenna B
++       ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Switch to Aux-ant   (CH4)\n"));
++       ODM_SetBBReg(pDM_Odm, 0x948, 0xfff, 0x280);
++       ODM_StallExecution(10);	
++	for (i=0;i<test_num;i++)
++	{
++		for (tone_idx=0;tone_idx<Tone_lenth_1;tone_idx++)
++		{
++			PSD_report_temp = odm_GetPSDData(pDM_Odm, Tone_idx_1[tone_idx], initial_gain);
++			//if(  PSD_report_temp>PSD_report_Aux[tone_idx]  )
++				PSD_report_Aux[tone_idx]+=PSD_report_temp;
++		}
++	}
++	//2 [ Doing PSD Function in (CH8)]
++
++	ODM_SetBBReg(pDM_Odm, rFPGA0_AnalogParameter4, 0xf00000, 0x0);	// 3 wire enable    88c[23:20]=0x0
++	ODM_StallExecution(3000);	
++	
++	ODM_SetBBReg(pDM_Odm, 0xc50, 0x7f, initial_gain);  
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, ODM_CHANNEL, 0x7ff, 0x04);     // Set RF to CH8 & 40M
++	
++	ODM_SetBBReg(pDM_Odm, rFPGA0_AnalogParameter4, 0xf00000, 0xf);	// 3 wire Disable    88c[23:20]=0xf
++	ODM_StallExecution(3000);
++
++        //Antenna A
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Switch to Main-ant   (CH8)\n"));
++	ODM_SetBBReg(pDM_Odm, 0x948, 0xfff, 0x200);
++	ODM_StallExecution(10);
++
++	for (i=0;i<test_num;i++)
++	{
++		for (tone_idx=0;tone_idx<Tone_lenth_2;tone_idx++)
++		{
++			PSD_report_temp = odm_GetPSDData(pDM_Odm, Tone_idx_2[tone_idx], initial_gain);
++			//if(  PSD_report_temp>PSD_report_Main[tone_idx]  )
++				PSD_report_Main[Tone_lenth_1+tone_idx]+=PSD_report_temp;
++		}
++	}
++
++        //Antenna B
++        ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Switch to Aux-ant   (CH8)\n"));
++        ODM_SetBBReg(pDM_Odm, 0x948, 0xfff, 0x280);
++	ODM_StallExecution(10);	
++
++	for (i=0;i<test_num;i++)
++	{
++		for (tone_idx=0;tone_idx<Tone_lenth_2;tone_idx++)
++		{
++			PSD_report_temp = odm_GetPSDData(pDM_Odm, Tone_idx_2[tone_idx], initial_gain);
++			//if(  PSD_report_temp>PSD_report_Aux[tone_idx]  )
++				PSD_report_Aux[Tone_lenth_1+tone_idx]+=PSD_report_temp;
++		}
++	}
++
++        //2 [ Calculate Result ]
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("\nMain PSD Result: (ALL) \n"));
++	for (tone_idx=0;tone_idx<(Tone_lenth_1+Tone_lenth_2);tone_idx++)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Tone-%d]: %d, \n",(tone_idx+1), PSD_report_Main[tone_idx] ));
++		Main_psd_result+= PSD_report_Main[tone_idx];
++		if(PSD_report_Main[tone_idx]>MAX_PSD_report_Main)
++			MAX_PSD_report_Main=PSD_report_Main[tone_idx];
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("--------------------------- \nTotal_Main= (( %d ))\n", Main_psd_result));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("MAX_Main = (( %d ))\n", MAX_PSD_report_Main));
++	
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("\nAux PSD Result: (ALL) \n"));
++	for (tone_idx=0;tone_idx<(Tone_lenth_1+Tone_lenth_2);tone_idx++)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Tone-%d]: %d, \n",(tone_idx+1), PSD_report_Aux[tone_idx] ));
++		Aux_psd_result+= PSD_report_Aux[tone_idx];
++		if(PSD_report_Aux[tone_idx]>MAX_PSD_report_Aux)
++			MAX_PSD_report_Aux=PSD_report_Aux[tone_idx];
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("--------------------------- \nTotal_Aux= (( %d ))\n", Aux_psd_result));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("MAX_Aux = (( %d ))\n\n", MAX_PSD_report_Aux));
++		
++	//Main_psd_result=Main_psd_result-MAX_PSD_report_Main;
++	//Aux_psd_result=Aux_psd_result-MAX_PSD_report_Aux;
++	PSD_power_threshold=(Main_psd_result*7)>>3;
++	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Main_result , Aux_result ] = [ %d , %d ], PSD_power_threshold=(( %d ))\n", Main_psd_result, Aux_psd_result,PSD_power_threshold));
++	
++	//3 [ Dual Antenna ]
++	 if(Aux_psd_result >= PSD_power_threshold   ) 
++	{
++		if(pDM_Odm->DM_SWAT_Table.ANTB_ON == FALSE)
++		{
++			pDM_Odm->DM_SWAT_Table.ANTA_ON = TRUE;
++			pDM_Odm->DM_SWAT_Table.ANTB_ON = TRUE;
++		}
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("ODM_SwAntDivCheckBeforeLink(): Dual antenna\n"));
++		
++		// set bt coexDM from 1ant coexDM to 2ant coexDM
++		//BT_SetBtCoexAntNum(pAdapter, BT_COEX_ANT_TYPE_DETECTED, 2);
++					
++		// Init antenna diversity
++		pDM_Odm->SupportAbility |= ODM_BB_ANT_DIV; 
++		ODM_AntDivInit(pDM_Odm);
++		}
++	//3 [ Single Antenna ]
++	else
++	{
++		if(pDM_Odm->DM_SWAT_Table.ANTB_ON == TRUE)
++		{
++			pDM_Odm->DM_SWAT_Table.ANTA_ON = TRUE;
++			pDM_Odm->DM_SWAT_Table.ANTB_ON = FALSE;
++		}
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ODM_SwAntDivCheckBeforeLink(): Single antenna\n"));
++	}
++
++	//2 [ Recover all parameters ]
++	
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_CHNLBW, bRFRegOffsetMask,Channel_ori);	
++	ODM_SetBBReg(pDM_Odm, rFPGA0_AnalogParameter4, 0xf00000, 0x0);	// 3 wire enable    88c[23:20]=0x0
++	ODM_SetBBReg(pDM_Odm, 0xc50, 0x7f, Regc50);  	
++	
++	ODM_SetBBReg(pDM_Odm, rS0S1_PathSwitch, bMaskDWord, Reg948);
++	ODM_SetBBReg(pDM_Odm, rAGC_table_select, bMaskDWord, Regb2c);
++
++	ODM_SetBBReg(pDM_Odm, rFPGA0_RFMOD, BIT24, 1); //enable whole CCK block
++	ODM_Write1Byte(pDM_Odm, REG_TXPAUSE, 0x0); //Turn on TX 	// Resume TX Queue
++	ODM_SetBBReg(pDM_Odm, 0xC14, bMaskDWord, Regc14); // [ Set IQK Matrix = 0 ] equivalent to [ Turn on CCA]
++	ODM_SetBBReg(pDM_Odm, 0x908, bMaskDWord, Reg908); 
++	
++	return;
++
++}
++
++#endif
++void
++odm_SwAntDetectInit(
++	IN		PVOID		pDM_VOID
++	)
++{
++#if(defined(CONFIG_ANT_DETECTION))
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T		pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++
++	//pDM_SWAT_Table->PreAntenna = MAIN_ANT;
++	//pDM_SWAT_Table->CurAntenna = MAIN_ANT;
++	pDM_SWAT_Table->SWAS_NoLink_State = 0;
++	pDM_SWAT_Table->Pre_Aux_FailDetec = FALSE;
++	pDM_SWAT_Table->SWAS_NoLink_BK_Reg948 = 0xff;
++#endif
++}
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_antdect.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_antdect.h
+new file mode 100644
+index 0000000..419d9ea
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_antdect.h
+@@ -0,0 +1,98 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMANTDECT_H__
++#define    __PHYDMANTDECT_H__
++
++#define ANTDECT_VERSION	"2.1"	/*2015.07.29 by YuChen*/
++
++#if(defined(CONFIG_ANT_DETECTION))
++//#if( DM_ODM_SUPPORT_TYPE & (ODM_WIN |ODM_CE))
++//ANT Test
++#define		ANTTESTALL		0x00	/*Ant A or B will be Testing*/   
++#define		ANTTESTA		0x01	/*Ant A will be Testing*/	
++#define		ANTTESTB		0x02	/*Ant B will be testing*/
++
++#define	MAX_ANTENNA_DETECTION_CNT	10 
++
++
++typedef struct _ANT_DETECTED_INFO{
++	BOOLEAN			bAntDetected;
++	u4Byte			dBForAntA;
++	u4Byte			dBForAntB;
++	u4Byte			dBForAntO;
++}ANT_DETECTED_INFO, *PANT_DETECTED_INFO;
++
++
++typedef enum tag_SW_Antenna_Switch_Definition
++{
++	Antenna_A = 1,
++	Antenna_B = 2,	
++	Antenna_MAX = 3,
++}DM_SWAS_E;
++
++
++
++//1 [1. Single Tone Method] ===================================================
++
++
++
++VOID
++ODM_SingleDualAntennaDefaultSetting(
++	IN		PVOID		pDM_VOID
++	);
++
++BOOLEAN
++ODM_SingleDualAntennaDetection(
++	IN		PVOID		pDM_VOID,
++	IN		u1Byte			mode
++	);
++
++//1 [2. Scan AP RSSI Method] ==================================================
++
++#define SwAntDivCheckBeforeLink	ODM_SwAntDivCheckBeforeLink
++
++BOOLEAN 
++ODM_SwAntDivCheckBeforeLink(
++	IN		PVOID		pDM_VOID
++	);
++
++
++
++
++//1 [3. PSD Method] ==========================================================
++
++
++VOID
++ODM_SingleDualAntennaDetection_PSD(
++	IN		PVOID		pDM_VOID
++);
++
++#endif
++
++VOID
++odm_SwAntDetectInit(
++	IN		PVOID		pDM_VOID
++	);
++
++
++#endif
++
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_antdiv.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_antdiv.c
+new file mode 100644
+index 0000000..71e1cd5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_antdiv.c
+@@ -0,0 +1,5367 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++//======================================================
++// when antenna test utility is on or some testing need to disable antenna diversity
++// call this function to disable all ODM related mechanisms which will switch antenna.
++//======================================================
++VOID
++ODM_StopAntennaSwitchDm(
++	IN		PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	// disable ODM antenna diversity
++	pDM_Odm->SupportAbility &= ~ODM_BB_ANT_DIV;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("STOP Antenna Diversity \n"));
++}
++
++VOID
++phydm_enable_antenna_diversity(
++	IN		PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	pDM_Odm->SupportAbility |= ODM_BB_ANT_DIV;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("AntDiv is enabled & Re-Init AntDiv\n"));
++	odm_AntennaDiversityInit(pDM_Odm);
++}
++
++VOID
++ODM_SetAntConfig(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte		antSetting	// 0=A, 1=B, 2=C, ....
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++		if (antSetting == 0)		/* ant A*/
++			ODM_SetBBReg(pDM_Odm, 0x948, bMaskDWord, 0x00000000);
++		else if (antSetting == 1)
++			ODM_SetBBReg(pDM_Odm, 0x948, bMaskDWord, 0x00000280);
++	} else if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++		if (antSetting == 0)		/* ant A*/
++			ODM_SetBBReg(pDM_Odm, 0x948, bMaskLWord, 0x0000);
++		else if (antSetting == 1)
++			ODM_SetBBReg(pDM_Odm, 0x948, bMaskLWord, 0x0280);
++	}
++}
++
++//======================================================
++
++
++VOID
++ODM_SwAntDivRestAfterLink(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T		pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	pFAT_T		pDM_FatTable = &pDM_Odm->DM_FatTable;
++	u4Byte             i;
++
++	if (pDM_Odm->AntDivType == S0S1_SW_ANTDIV) {
++		
++		pDM_SWAT_Table->try_flag = SWAW_STEP_INIT;
++		pDM_SWAT_Table->RSSI_Trying = 0;
++		pDM_SWAT_Table->Double_chk_flag= 0;
++		
++		pDM_FatTable->RxIdleAnt=MAIN_ANT;
++		
++		for (i=0; i<ODM_ASSOCIATE_ENTRY_NUM; i++)
++		{
++			pDM_FatTable->MainAnt_Sum[i] = 0;
++			pDM_FatTable->AuxAnt_Sum[i] = 0;
++			pDM_FatTable->MainAnt_Cnt[i] = 0;
++			pDM_FatTable->AuxAnt_Cnt[i] = 0;
++		}
++
++	}
++}
++
++
++#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++VOID
++odm_AntDiv_on_off( 
++	IN 	PVOID		pDM_VOID ,
++	IN 	u1Byte 		swch
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++	
++	if(pDM_FatTable->AntDiv_OnOff != swch)
++	{
++		if (pDM_Odm->AntDivType == S0S1_SW_ANTDIV) 
++			return;
++
++		if(pDM_Odm->SupportICType & ODM_N_ANTDIV_SUPPORT)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("(( Turn %s )) N-Series HW-AntDiv block\n",(swch==ANTDIV_ON)?"ON" : "OFF"));
++			ODM_SetBBReg(pDM_Odm, 0xc50 , BIT7, swch); 
++			ODM_SetBBReg(pDM_Odm, 0xa00 , BIT15, swch); 
++			
++		}
++		else if(pDM_Odm->SupportICType & ODM_AC_ANTDIV_SUPPORT)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("(( Turn %s )) AC-Series HW-AntDiv block\n",(swch==ANTDIV_ON)?"ON" : "OFF"));
++			if (pDM_Odm->SupportICType == ODM_RTL8812) {
++				ODM_SetBBReg(pDM_Odm, 0xc50 , BIT7, swch); //OFDM AntDiv function block enable
++				ODM_SetBBReg(pDM_Odm, 0xa00 , BIT15, swch); //CCK AntDiv function block enable
++			} else {
++				ODM_SetBBReg(pDM_Odm, 0x8D4 , BIT24, swch); //OFDM AntDiv function block enable
++				
++				if( (pDM_Odm->CutVersion >= ODM_CUT_C) && (pDM_Odm->SupportICType == ODM_RTL8821) && ( pDM_Odm->AntDivType != S0S1_SW_ANTDIV))
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("(( Turn %s )) CCK HW-AntDiv block\n",(swch==ANTDIV_ON)?"ON" : "OFF"));
++					ODM_SetBBReg(pDM_Odm, 0x800 , BIT25, swch); 
++					ODM_SetBBReg(pDM_Odm, 0xA00 , BIT15, swch); //CCK AntDiv function block enable
++				}
++		        }
++		}
++	}
++	pDM_FatTable->AntDiv_OnOff =swch;
++	
++}
++
++VOID
++phydm_FastTraining_enable(
++	IN		PVOID		pDM_VOID, 
++	IN 		u1Byte  			swch
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			enable;
++
++	if (swch == FAT_ON)
++		enable=1;
++	else
++		enable=0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Fast Ant Training_en = ((%d))\n", enable));
++
++	if (pDM_Odm->SupportICType == ODM_RTL8188E) {
++		ODM_SetBBReg(pDM_Odm, 0xe08 , BIT16, enable);	/*enable fast training*/
++		/**/
++	} else if (pDM_Odm->SupportICType == ODM_RTL8192E) {
++		ODM_SetBBReg(pDM_Odm, 0xB34 , BIT28, enable);	/*enable fast training (path-A)*/
++		/*ODM_SetBBReg(pDM_Odm, 0xB34 , BIT29, enable);*/	/*enable fast training (path-B)*/
++	} else if (pDM_Odm->SupportICType == ODM_RTL8821) {
++		ODM_SetBBReg(pDM_Odm, 0x900 , BIT19, enable);	/*enable fast training */
++		/**/
++	}
++}
++
++phydm_keep_RxAckAnt_By_TxAnt_time(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		time
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	/* Timming issue: keep Rx ant after tx for ACK ( time x 3.2 mu sec)*/
++	if (pDM_Odm->SupportICType & ODM_N_ANTDIV_SUPPORT) {
++		
++		ODM_SetBBReg(pDM_Odm, 0xE20, BIT23|BIT22|BIT21|BIT20, time);
++		/**/
++	} else if(pDM_Odm->SupportICType & ODM_AC_ANTDIV_SUPPORT) {
++
++		ODM_SetBBReg(pDM_Odm, 0x818, BIT23|BIT22|BIT21|BIT20, time);
++		/**/
++	}
++}
++
++VOID
++odm_Tx_By_TxDesc_or_Reg( 
++	IN 		PVOID		pDM_VOID, 
++	IN 		u1Byte 			swch
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++	u1Byte enable;
++
++	if (pDM_FatTable->b_fix_tx_ant == NO_FIX_TX_ANT)
++		enable = (swch == TX_BY_DESC) ? 1 : 0;
++	else
++		enable = 0;/*Force TX by Reg*/
++
++	if(pDM_Odm->AntDivType != CGCS_RX_HW_ANTDIV)
++	{
++		if(pDM_Odm->SupportICType & ODM_N_ANTDIV_SUPPORT)
++		{
++				ODM_SetBBReg(pDM_Odm, 0x80c , BIT21, enable); 
++		}	
++		else if(pDM_Odm->SupportICType & ODM_AC_ANTDIV_SUPPORT)
++		{
++				ODM_SetBBReg(pDM_Odm, 0x900 , BIT18, enable); 
++		}
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[AntDiv] TX_Ant_BY (( %s ))\n", (enable == TX_BY_DESC) ? "DESC":"REG"));
++	}
++}
++
++VOID
++ODM_UpdateRxIdleAnt(
++	IN 		PVOID 		pDM_VOID, 
++	IN 		u1Byte 		Ant
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	u4Byte			DefaultAnt, OptionalAnt, value32, Default_tx_Ant;
++
++	if(pDM_FatTable->RxIdleAnt != Ant)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Ant ] RxIdleAnt =%s\n",(Ant==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++
++		if(!(pDM_Odm->SupportICType & ODM_RTL8723B))
++                	pDM_FatTable->RxIdleAnt = Ant;
++
++		if(Ant == MAIN_ANT)
++		{
++			DefaultAnt   =  ANT1_2G; 
++			OptionalAnt =  ANT2_2G; 
++		}
++		else
++		{
++			DefaultAnt  =   ANT2_2G;
++			OptionalAnt =  ANT1_2G;
++		}
++		
++		if (pDM_FatTable->b_fix_tx_ant != NO_FIX_TX_ANT)
++			Default_tx_Ant = (pDM_FatTable->b_fix_tx_ant == FIX_TX_AT_MAIN) ? 0 : 1;
++		else
++			Default_tx_Ant = DefaultAnt;
++	
++		if(pDM_Odm->SupportICType & ODM_N_ANTDIV_SUPPORT)
++		{
++			if(pDM_Odm->SupportICType==ODM_RTL8192E)
++			{
++				ODM_SetBBReg(pDM_Odm, 0xB38 , BIT5|BIT4|BIT3, DefaultAnt); //Default RX
++				ODM_SetBBReg(pDM_Odm, 0xB38 , BIT8|BIT7|BIT6, OptionalAnt);//Optional RX
++				ODM_SetBBReg(pDM_Odm, 0x860, BIT14|BIT13|BIT12, DefaultAnt);//Default TX	
++			}
++			#if (RTL8723B_SUPPORT == 1)
++			else if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++				
++				value32 = ODM_GetBBReg(pDM_Odm, 0x948, 0xFFF);
++			
++				if(value32 !=0x280)
++				ODM_UpdateRxIdleAnt_8723B(pDM_Odm, Ant, DefaultAnt, OptionalAnt);
++				else
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Ant ] 8723B: Fail to set RX antenna due to 0x948 = 0x280\n"));
++			}
++			#endif
++			else { /*8188E & 8188F*/
++
++				if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++					#if (RTL8723D_SUPPORT == 1)
++						phydm_set_tx_ant_pwr_8723d(pDM_Odm, Ant);
++					#endif
++				}
++				#if (RTL8188F_SUPPORT == 1)
++				else if (pDM_Odm->SupportICType == ODM_RTL8188F) {
++					phydm_update_rx_idle_antenna_8188F(pDM_Odm, DefaultAnt);
++					/**/
++				}
++				#endif
++				
++				ODM_SetBBReg(pDM_Odm, 0x864 , BIT5|BIT4|BIT3, DefaultAnt);		/*Default RX*/
++				ODM_SetBBReg(pDM_Odm, 0x864 , BIT8|BIT7|BIT6, OptionalAnt);	/*Optional RX*/		
++				ODM_SetBBReg(pDM_Odm, 0x860, BIT14|BIT13|BIT12, Default_tx_Ant);	/*Default TX*/
++			}
++		}
++		else if(pDM_Odm->SupportICType & ODM_AC_ANTDIV_SUPPORT)
++		{
++			u2Byte	value16 = ODM_Read2Byte(pDM_Odm, ODM_REG_TRMUX_11AC+2);
++			//
++			// 2014/01/14 MH/Luke.Lee Add direct write for register 0xc0a to prevnt 
++			// incorrect 0xc08 bit0-15 .We still not know why it is changed.
++			//
++			value16 &= ~(BIT11|BIT10|BIT9|BIT8|BIT7|BIT6|BIT5|BIT4|BIT3);
++			value16 |= ((u2Byte)DefaultAnt <<3);
++			value16 |= ((u2Byte)OptionalAnt <<6);
++			value16 |= ((u2Byte)DefaultAnt <<9);
++			ODM_Write2Byte(pDM_Odm, ODM_REG_TRMUX_11AC+2, value16);
++			/*
++			ODM_SetBBReg(pDM_Odm, ODM_REG_TRMUX_11AC , BIT21|BIT20|BIT19, DefaultAnt);	 //Default RX
++			ODM_SetBBReg(pDM_Odm, ODM_REG_TRMUX_11AC , BIT24|BIT23|BIT22, OptionalAnt);//Optional RX
++			ODM_SetBBReg(pDM_Odm, ODM_REG_TRMUX_11AC , BIT27|BIT26|BIT25, DefaultAnt);	 //Default TX
++			*/
++		}
++
++		if (pDM_Odm->SupportICType == ODM_RTL8188E)
++		{		
++			ODM_SetMACReg(pDM_Odm, 0x6D8 , BIT7|BIT6, Default_tx_Ant);		/*PathA Resp Tx*/
++			/**/
++		}
++		else
++		{
++			ODM_SetMACReg(pDM_Odm, 0x6D8 , BIT10|BIT9|BIT8, Default_tx_Ant);	/*PathA Resp Tx*/
++			/**/
++		}	
++
++	}
++	else// pDM_FatTable->RxIdleAnt == Ant
++        {
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Stay in Ori-Ant ]  RxIdleAnt =%s\n",(Ant==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++		pDM_FatTable->RxIdleAnt = Ant;
++	}
++}
++
++VOID
++odm_UpdateTxAnt(
++	IN 		PVOID 		pDM_VOID, 
++	IN 		u1Byte 		Ant, 
++	IN 		u4Byte 		MacId
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++	u1Byte	TxAnt;
++	
++	if (pDM_FatTable->b_fix_tx_ant != NO_FIX_TX_ANT)
++		Ant = (pDM_FatTable->b_fix_tx_ant == FIX_TX_AT_MAIN) ? MAIN_ANT : AUX_ANT;
++
++	if (pDM_Odm->AntDivType==CG_TRX_SMART_ANTDIV)
++	{
++		TxAnt=Ant;
++	}
++	else
++	{
++        	if(Ant == MAIN_ANT)
++        		TxAnt = ANT1_2G;
++        	else
++        		TxAnt = ANT2_2G;
++	}
++	
++	pDM_FatTable->antsel_a[MacId] = TxAnt&BIT0;
++	pDM_FatTable->antsel_b[MacId] = (TxAnt&BIT1)>>1;
++	pDM_FatTable->antsel_c[MacId] = (TxAnt&BIT2)>>2;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Set TX-DESC value]: MacID:(( %d )),  TxAnt = (( %s ))\n", MacId, (Ant == MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++	//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("antsel_tr_mux=(( 3'b%d%d%d ))\n",pDM_FatTable->antsel_c[MacId] , pDM_FatTable->antsel_b[MacId] , pDM_FatTable->antsel_a[MacId] ));
++	
++}
++
++#ifdef BEAMFORMING_SUPPORT
++#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++VOID
++odm_BDC_Init(
++	IN 		PVOID 		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pBDC_T	pDM_BdcTable=&pDM_Odm->DM_BdcTable;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("\n[ BDC Initialization......] \n"));
++	pDM_BdcTable->BDC_state=BDC_DIV_TRAIN_STATE;
++	pDM_BdcTable->BDC_Mode=BDC_MODE_NULL;
++	pDM_BdcTable->BDC_Try_flag=0;
++	pDM_BdcTable->BDCcoexType_wBfer=0;
++	pDM_Odm->bdc_holdstate=0xff;
++	
++	if(pDM_Odm->SupportICType == ODM_RTL8192E)
++	{
++		ODM_SetBBReg(pDM_Odm, 0xd7c , 0x0FFFFFFF, 0x1081008); 
++		ODM_SetBBReg(pDM_Odm, 0xd80 , 0x0FFFFFFF, 0); 
++	}
++	else if(pDM_Odm->SupportICType == ODM_RTL8812)
++	{
++		ODM_SetBBReg(pDM_Odm, 0x9b0 , 0x0FFFFFFF, 0x1081008);     //0x9b0[30:0] = 01081008
++		ODM_SetBBReg(pDM_Odm, 0x9b4 , 0x0FFFFFFF, 0);                 //0x9b4[31:0] = 00000000
++	}
++	
++}
++
++
++VOID
++odm_CSI_on_off(
++	IN 		PVOID 		pDM_VOID, 
++	IN 		u1Byte 			CSI_en
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	if(CSI_en==CSI_ON)
++	{
++		if(pDM_Odm->SupportICType == ODM_RTL8192E)
++		{
++			ODM_SetMACReg(pDM_Odm, 0xd84 , BIT11, 1);  //0xd84[11]=1
++		}
++		else if(pDM_Odm->SupportICType == ODM_RTL8812)
++		{
++			ODM_SetMACReg(pDM_Odm, 0x9b0 , BIT31, 1);  //0x9b0[31]=1
++		}
++	
++	}
++	else if(CSI_en==CSI_OFF)
++	{
++		if(pDM_Odm->SupportICType == ODM_RTL8192E)
++		{
++			ODM_SetMACReg(pDM_Odm, 0xd84 , BIT11, 0);  //0xd84[11]=0
++		}
++		else if(pDM_Odm->SupportICType == ODM_RTL8812)
++		{
++			ODM_SetMACReg(pDM_Odm, 0x9b0 , BIT31, 0);  //0x9b0[31]=0
++		}
++	}	
++}
++
++VOID
++odm_BDCcoexType_withBferClient(
++	IN 		PVOID 		pDM_VOID, 
++	IN 		u1Byte 			swch
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pBDC_T 	pDM_BdcTable = &pDM_Odm->DM_BdcTable;
++	u1Byte     BDCcoexType_wBfer;
++	
++	if(swch==DIVON_CSIOFF)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[BDCcoexType: 1] {DIV,CSI} ={1,0} \n"));
++		BDCcoexType_wBfer=1;
++
++		if(BDCcoexType_wBfer != pDM_BdcTable->BDCcoexType_wBfer)
++		{
++			odm_AntDiv_on_off(pDM_Odm, ANTDIV_ON);
++			odm_CSI_on_off(pDM_Odm,CSI_OFF);
++			pDM_BdcTable->BDCcoexType_wBfer=1;
++		}
++	}
++	else if(swch==DIVOFF_CSION)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[BDCcoexType: 2] {DIV,CSI} ={0,1}\n"));
++		BDCcoexType_wBfer=2;
++
++		if(BDCcoexType_wBfer != pDM_BdcTable->BDCcoexType_wBfer)
++		{
++			odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++			odm_CSI_on_off(pDM_Odm,CSI_ON);
++			pDM_BdcTable->BDCcoexType_wBfer=2;
++		}
++	}
++}
++
++VOID
++odm_BF_AntDiv_ModeArbitration(
++	IN 		PVOID 		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pBDC_T 			pDM_BdcTable = &pDM_Odm->DM_BdcTable;
++	u1Byte			current_BDC_Mode;
++
++	#if(DM_ODM_SUPPORT_TYPE  == ODM_AP)
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("\n"));
++	
++		//2 Mode 1
++		if((pDM_BdcTable->num_Txbfee_Client !=0) && (pDM_BdcTable->num_Txbfer_Client == 0))
++		{
++			current_BDC_Mode=BDC_MODE_1;
++			
++			if(current_BDC_Mode != pDM_BdcTable->BDC_Mode)
++			{
++				pDM_BdcTable->BDC_Mode=BDC_MODE_1;
++				odm_BDCcoexType_withBferClient( pDM_Odm, DIVON_CSIOFF);
++				pDM_BdcTable->BDC_RxIdleUpdate_counter=1;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Change to (( Mode1 ))\n"));
++			}
++
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Antdiv + BF coextance Mode] : (( Mode1 ))\n"));
++		}
++		//2 Mode 2
++		else if((pDM_BdcTable->num_Txbfee_Client ==0) && (pDM_BdcTable->num_Txbfer_Client != 0))
++		{
++			current_BDC_Mode=BDC_MODE_2;
++			
++			if(current_BDC_Mode != pDM_BdcTable->BDC_Mode)
++			{
++				pDM_BdcTable->BDC_Mode=BDC_MODE_2;
++				pDM_BdcTable->BDC_state=BDC_DIV_TRAIN_STATE;
++				pDM_BdcTable->BDC_Try_flag=0;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Change to (( Mode2 ))\n"));
++				
++			}
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Antdiv + BF coextance Mode] : (( Mode2 ))\n"));
++		}
++		//2 Mode 3
++		else if((pDM_BdcTable->num_Txbfee_Client !=0) && (pDM_BdcTable->num_Txbfer_Client != 0))
++		{
++			current_BDC_Mode=BDC_MODE_3;
++			
++			if(current_BDC_Mode != pDM_BdcTable->BDC_Mode)
++			{
++				pDM_BdcTable->BDC_Mode=BDC_MODE_3;
++				pDM_BdcTable->BDC_state=BDC_DIV_TRAIN_STATE;
++				pDM_BdcTable->BDC_Try_flag=0;
++				pDM_BdcTable->BDC_RxIdleUpdate_counter=1;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Change to (( Mode3 ))\n"));
++			}
++
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Antdiv + BF coextance Mode] : (( Mode3 ))\n"));
++		}
++		//2 Mode 4
++		else if((pDM_BdcTable->num_Txbfee_Client ==0) && (pDM_BdcTable->num_Txbfer_Client == 0))
++		{
++			current_BDC_Mode=BDC_MODE_4;
++			
++			if(current_BDC_Mode != pDM_BdcTable->BDC_Mode)
++			{
++				pDM_BdcTable->BDC_Mode=BDC_MODE_4;
++				odm_BDCcoexType_withBferClient( pDM_Odm, DIVON_CSIOFF);
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Change to (( Mode4 ))\n"));
++			}
++
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Antdiv + BF coextance Mode] : (( Mode4 ))\n"));
++		}
++	#endif
++
++}
++
++VOID
++odm_DivTrainState_setting( 
++	IN		PVOID 		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pBDC_T	pDM_BdcTable=&pDM_Odm->DM_BdcTable;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("\n*****[S T A R T ]*****  [2-0. DIV_TRAIN_STATE] \n"));
++	pDM_BdcTable->BDC_Try_counter =2;
++	pDM_BdcTable->BDC_Try_flag=1; 
++	pDM_BdcTable->BDC_state=BDC_BFer_TRAIN_STATE;					
++	odm_BDCcoexType_withBferClient( pDM_Odm, DIVON_CSIOFF);
++}
++
++VOID
++odm_BDCcoex_BFeeRxDiv_Arbitration(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pBDC_T    pDM_BdcTable = &pDM_Odm->DM_BdcTable;
++	BOOLEAN StopBF_flag;
++	u1Byte 	BDC_active_Mode;
++
++
++	#if(DM_ODM_SUPPORT_TYPE  == ODM_AP)
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***{ num_BFee,  num_BFer , num_Client}  = (( %d  ,  %d  ,  %d))  \n",pDM_BdcTable->num_Txbfee_Client,pDM_BdcTable->num_Txbfer_Client,pDM_BdcTable->num_Client));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***{ num_BF_tars,  num_DIV_tars }  = ((  %d  ,  %d ))  \n",pDM_BdcTable->num_BfTar , pDM_BdcTable->num_DivTar ));
++
++		//2 [ MIB control ]
++		if (pDM_Odm->bdc_holdstate==2) 
++		{
++			odm_BDCcoexType_withBferClient( pDM_Odm, DIVOFF_CSION); 
++			pDM_BdcTable->BDC_state=BDC_BF_HOLD_STATE;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Force in [ BF STATE] \n"));
++			return;	
++		}
++		else if (pDM_Odm->bdc_holdstate==1) 
++		{
++			pDM_BdcTable->BDC_state=BDC_DIV_HOLD_STATE;
++			odm_BDCcoexType_withBferClient( pDM_Odm, DIVON_CSIOFF); 
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Force in [ DIV STATE] \n"));
++			return;	
++		}
++
++		//------------------------------------------------------------
++
++
++		
++		//2 Mode 2 & 3
++		if(pDM_BdcTable->BDC_Mode==BDC_MODE_2 ||pDM_BdcTable->BDC_Mode==BDC_MODE_3)
++		{
++
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("\n{ Try_flag ,  Try_counter } = {  %d , %d  } \n",pDM_BdcTable->BDC_Try_flag,pDM_BdcTable->BDC_Try_counter));
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BDCcoexType = (( %d ))  \n\n", pDM_BdcTable->BDCcoexType_wBfer));
++			
++                        // All Client have Bfer-Cap-------------------------------
++			if(pDM_BdcTable->num_Txbfer_Client == pDM_BdcTable->num_Client) //BFer STA Only?: yes
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BFer STA only?  (( Yes ))\n"));
++				pDM_BdcTable->BDC_Try_flag=0;
++				pDM_BdcTable->BDC_state=BDC_DIV_TRAIN_STATE;
++				odm_BDCcoexType_withBferClient( pDM_Odm, DIVOFF_CSION);
++				return;
++			}
++			else
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BFer STA only?  (( No ))\n"));
++			}
++			//
++			if(pDM_BdcTable->bAll_BFSta_Idle==FALSE && pDM_BdcTable->bAll_DivSta_Idle==TRUE)
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("All DIV-STA are idle, but BF-STA not\n"));
++				pDM_BdcTable->BDC_Try_flag=0;
++				pDM_BdcTable->BDC_state=BDC_BFer_TRAIN_STATE;
++				odm_BDCcoexType_withBferClient( pDM_Odm, DIVOFF_CSION);
++				return;
++			}
++			else if(pDM_BdcTable->bAll_BFSta_Idle==TRUE && pDM_BdcTable->bAll_DivSta_Idle==FALSE)
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("All BF-STA are idle, but DIV-STA not\n"));
++				pDM_BdcTable->BDC_Try_flag=0;
++				pDM_BdcTable->BDC_state=BDC_DIV_TRAIN_STATE;
++				odm_BDCcoexType_withBferClient( pDM_Odm, DIVON_CSIOFF);
++				return;
++			}
++
++			//Select active mode--------------------------------------
++			if(pDM_BdcTable->num_BfTar ==0) //  Selsect_1,  Selsect_2
++			{
++				if(pDM_BdcTable->num_DivTar ==0)  // Selsect_3
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Select active mode (( 1 )) \n"));
++					pDM_BdcTable->BDC_active_Mode=1;
++				}
++				else
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Select active mode  (( 2 ))\n"));
++					pDM_BdcTable->BDC_active_Mode=2;
++				}
++				pDM_BdcTable->BDC_Try_flag=0;
++				pDM_BdcTable->BDC_state=BDC_DIV_TRAIN_STATE;
++				odm_BDCcoexType_withBferClient( pDM_Odm, DIVON_CSIOFF);
++				return;
++			}
++			else // num_BfTar > 0
++			{			
++				if(pDM_BdcTable->num_DivTar ==0)  // Selsect_3
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Select active mode (( 3 ))\n"));		
++					pDM_BdcTable->BDC_active_Mode=3;
++					pDM_BdcTable->BDC_Try_flag=0;
++					pDM_BdcTable->BDC_state=BDC_BFer_TRAIN_STATE;
++					odm_BDCcoexType_withBferClient( pDM_Odm, DIVOFF_CSION);
++					return;
++				}
++				else // Selsect_4
++				{
++					BDC_active_Mode=4;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Select active mode (( 4 ))\n"));	
++					
++					if(BDC_active_Mode!=pDM_BdcTable->BDC_active_Mode)
++					{
++						pDM_BdcTable->BDC_active_Mode=4;
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Change to active mode (( 4 ))  &  return!!! \n"));	
++						return;
++					}
++				}
++			}
++
++#if 1
++		if (pDM_Odm->bdc_holdstate==0xff) 
++		{
++			pDM_BdcTable->BDC_state=BDC_DIV_HOLD_STATE;
++			odm_BDCcoexType_withBferClient( pDM_Odm, DIVON_CSIOFF); 
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Force in [ DIV STATE] \n"));	
++			return;
++		}
++#endif
++
++			// Does Client number changed ? -------------------------------
++			if(pDM_BdcTable->num_Client !=pDM_BdcTable->pre_num_Client)
++			{ 
++				pDM_BdcTable->BDC_Try_flag=0;
++				pDM_BdcTable->BDC_state=BDC_DIV_TRAIN_STATE;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[  The number of client has been changed !!!]   return to (( BDC_DIV_TRAIN_STATE )) \n"));	
++			}
++			pDM_BdcTable->pre_num_Client=pDM_BdcTable->num_Client;
++
++			if( pDM_BdcTable->BDC_Try_flag==0)
++			{
++				//2 DIV_TRAIN_STATE (Mode 2-0)
++				if(pDM_BdcTable->BDC_state==BDC_DIV_TRAIN_STATE)
++				{
++					odm_DivTrainState_setting( pDM_Odm);
++				}
++				//2 BFer_TRAIN_STATE (Mode 2-1)
++				else if(pDM_BdcTable->BDC_state==BDC_BFer_TRAIN_STATE) 
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*****[2-1. BFer_TRAIN_STATE ]*****  \n"));
++					
++					//if(pDM_BdcTable->num_BfTar==0) 
++					//{
++					//	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BF_tars exist?  : (( No )),   [ BDC_BFer_TRAIN_STATE ] >> [BDC_DIV_TRAIN_STATE] \n"));
++					//	odm_DivTrainState_setting( pDM_Odm);
++					//}
++					//else //num_BfTar != 0
++					//{
++						pDM_BdcTable->BDC_Try_counter=2;
++						pDM_BdcTable->BDC_Try_flag=1;
++						pDM_BdcTable->BDC_state=BDC_DECISION_STATE;
++						odm_BDCcoexType_withBferClient( pDM_Odm, DIVOFF_CSION); 
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BF_tars exist?  : (( Yes )),   [ BDC_BFer_TRAIN_STATE ] >> [BDC_DECISION_STATE] \n"));
++					//}
++				}
++				//2 DECISION_STATE (Mode 2-2)
++				else if(pDM_BdcTable->BDC_state==BDC_DECISION_STATE)
++				{			
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*****[2-2. DECISION_STATE]***** \n"));
++					//if(pDM_BdcTable->num_BfTar==0) 
++					//{
++					//	ODM_AntDiv_Printk(("BF_tars exist?  : (( No )),   [ DECISION_STATE ] >> [BDC_DIV_TRAIN_STATE] \n"));
++					//	odm_DivTrainState_setting( pDM_Odm);
++					//}
++					//else //num_BfTar != 0
++					//{
++						if(pDM_BdcTable->BF_pass==FALSE || pDM_BdcTable->DIV_pass == FALSE)
++							StopBF_flag=TRUE;
++						else
++							StopBF_flag=FALSE;
++						
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BF_tars exist?  : (( Yes )),  {BF_pass, DIV_pass, StopBF_flag }  = { %d, %d, %d } \n" ,pDM_BdcTable->BF_pass,pDM_BdcTable->DIV_pass,StopBF_flag));
++					
++						if(StopBF_flag==TRUE) //DIV_en
++						{
++							pDM_BdcTable->BDC_Hold_counter=10; //20
++							odm_BDCcoexType_withBferClient( pDM_Odm, DIVON_CSIOFF); 
++							pDM_BdcTable->BDC_state=BDC_DIV_HOLD_STATE;
++							ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ StopBF_flag= ((TRUE)),   BDC_DECISION_STATE ] >> [BDC_DIV_HOLD_STATE] \n"));
++						}
++						else //BF_en
++						{
++							pDM_BdcTable->BDC_Hold_counter=10; //20
++							odm_BDCcoexType_withBferClient( pDM_Odm, DIVOFF_CSION); 
++							pDM_BdcTable->BDC_state=BDC_BF_HOLD_STATE;
++							ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[StopBF_flag= ((FALSE)),   BDC_DECISION_STATE ] >> [BDC_BF_HOLD_STATE] \n"));
++						}
++					//}
++				}
++				//2 BF-HOLD_STATE (Mode 2-3)
++				else if(pDM_BdcTable->BDC_state==BDC_BF_HOLD_STATE)
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*****[2-3. BF_HOLD_STATE ]*****\n"));	
++
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BDC_Hold_counter = (( %d )) \n",pDM_BdcTable->BDC_Hold_counter ));	
++
++					if(pDM_BdcTable->BDC_Hold_counter==1)
++					{
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ BDC_BF_HOLD_STATE ] >> [BDC_DIV_TRAIN_STATE] \n"));	
++						odm_DivTrainState_setting( pDM_Odm);
++					}
++					else
++					{
++						pDM_BdcTable->BDC_Hold_counter--;
++						
++						//if(pDM_BdcTable->num_BfTar==0) 
++						//{
++						//	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BF_tars exist?  : (( No )),   [ BDC_BF_HOLD_STATE ] >> [BDC_DIV_TRAIN_STATE] \n"));	
++						//	odm_DivTrainState_setting( pDM_Odm);
++						//}
++						//else //num_BfTar != 0
++						//{
++							//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BF_tars exist?  : (( Yes ))\n"));	
++							pDM_BdcTable->BDC_state=BDC_BF_HOLD_STATE;
++							odm_BDCcoexType_withBferClient( pDM_Odm, DIVOFF_CSION);
++							ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ BDC_BF_HOLD_STATE ] >> [BDC_BF_HOLD_STATE] \n"));	
++						//}
++					}
++				
++				}
++				//2 DIV-HOLD_STATE (Mode 2-4)
++				else if(pDM_BdcTable->BDC_state==BDC_DIV_HOLD_STATE)
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*****[2-4. DIV_HOLD_STATE ]*****\n"));	
++					
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("BDC_Hold_counter = (( %d )) \n",pDM_BdcTable->BDC_Hold_counter ));
++					
++					if(pDM_BdcTable->BDC_Hold_counter==1)
++					{
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ BDC_DIV_HOLD_STATE ] >> [BDC_DIV_TRAIN_STATE] \n"));	
++						odm_DivTrainState_setting( pDM_Odm);
++					}
++					else
++					{
++						pDM_BdcTable->BDC_Hold_counter--;
++						pDM_BdcTable->BDC_state=BDC_DIV_HOLD_STATE;
++						odm_BDCcoexType_withBferClient( pDM_Odm, DIVON_CSIOFF); 
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ BDC_DIV_HOLD_STATE ] >> [BDC_DIV_HOLD_STATE] \n"));	
++					}
++				
++				}
++				
++			}
++			else if( pDM_BdcTable->BDC_Try_flag==1)
++			{
++				//2 Set Training Counter
++				if(pDM_BdcTable->BDC_Try_counter >1)
++				{
++					pDM_BdcTable->BDC_Try_counter--;
++					if(pDM_BdcTable->BDC_Try_counter ==1)
++						pDM_BdcTable->BDC_Try_flag=0; 
++						
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Training !!\n"));
++					//return ;
++				}
++				
++			}
++			
++		}
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("\n[end]\n"));
++
++	#endif //#if(DM_ODM_SUPPORT_TYPE  == ODM_AP)
++
++
++
++
++	
++
++}
++
++#endif
++#endif //#ifdef BEAMFORMING_SUPPORT
++
++
++#if (RTL8188E_SUPPORT == 1)
++
++
++VOID
++odm_RX_HWAntDiv_Init_88E(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte	value32;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++
++	if(pDM_Odm->mp_mode == TRUE)
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_IGI_A_11N , BIT7, 0); // disable HW AntDiv 
++		ODM_SetBBReg(pDM_Odm, ODM_REG_LNA_SWITCH_11N , BIT31, 1);  // 1:CG, 0:CS
++        	return;
++	}
++	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8188E AntDiv_Init =>  AntDivType=[CGCS_RX_HW_ANTDIV]\n"));
++	
++	//MAC Setting
++	value32 = ODM_GetMACReg(pDM_Odm, ODM_REG_ANTSEL_PIN_11N, bMaskDWord);
++	ODM_SetMACReg(pDM_Odm, ODM_REG_ANTSEL_PIN_11N, bMaskDWord, value32|(BIT23|BIT25)); //Reg4C[25]=1, Reg4C[23]=1 for pin output
++	//Pin Settings
++	ODM_SetBBReg(pDM_Odm, ODM_REG_PIN_CTRL_11N , BIT9|BIT8, 0);//Reg870[8]=1'b0, Reg870[9]=1'b0 		//antsel antselb by HW
++	ODM_SetBBReg(pDM_Odm, ODM_REG_RX_ANT_CTRL_11N , BIT10, 0);	//Reg864[10]=1'b0 	//antsel2 by HW
++	ODM_SetBBReg(pDM_Odm, ODM_REG_LNA_SWITCH_11N , BIT22, 1);	//Regb2c[22]=1'b0 	//disable CS/CG switch
++	ODM_SetBBReg(pDM_Odm, ODM_REG_LNA_SWITCH_11N , BIT31, 1);	//Regb2c[31]=1'b1	//output at CG only
++	//OFDM Settings
++	ODM_SetBBReg(pDM_Odm, ODM_REG_ANTDIV_PARA1_11N , bMaskDWord, 0x000000a0);
++	//CCK Settings
++	ODM_SetBBReg(pDM_Odm, ODM_REG_BB_PWR_SAV4_11N , BIT7, 1); //Fix CCK PHY status report issue
++	ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_ANTDIV_PARA2_11N , BIT4, 1); //CCK complete HW AntDiv within 64 samples	
++	
++	ODM_SetBBReg(pDM_Odm, ODM_REG_ANT_MAPPING1_11N , 0xFFFF, 0x0001);	//antenna mapping table
++
++	pDM_FatTable->enable_ctrl_frame_antdiv = 1;
++}
++
++VOID
++odm_TRX_HWAntDiv_Init_88E(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte	value32;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++	
++	if(pDM_Odm->mp_mode == TRUE)
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_IGI_A_11N , BIT7, 0); // disable HW AntDiv 
++		ODM_SetBBReg(pDM_Odm, ODM_REG_RX_ANT_CTRL_11N , BIT5|BIT4|BIT3, 0); //Default RX   (0/1)
++		return;
++	}
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8188E AntDiv_Init =>  AntDivType=[CG_TRX_HW_ANTDIV (SPDT)]\n"));
++	
++	//MAC Setting
++	value32 = ODM_GetMACReg(pDM_Odm, ODM_REG_ANTSEL_PIN_11N, bMaskDWord);
++	ODM_SetMACReg(pDM_Odm, ODM_REG_ANTSEL_PIN_11N, bMaskDWord, value32|(BIT23|BIT25)); //Reg4C[25]=1, Reg4C[23]=1 for pin output
++	//Pin Settings
++	ODM_SetBBReg(pDM_Odm, ODM_REG_PIN_CTRL_11N , BIT9|BIT8, 0);//Reg870[8]=1'b0, Reg870[9]=1'b0 		//antsel antselb by HW
++	ODM_SetBBReg(pDM_Odm, ODM_REG_RX_ANT_CTRL_11N , BIT10, 0);	//Reg864[10]=1'b0 	//antsel2 by HW
++	ODM_SetBBReg(pDM_Odm, ODM_REG_LNA_SWITCH_11N , BIT22, 0);	//Regb2c[22]=1'b0 	//disable CS/CG switch
++	ODM_SetBBReg(pDM_Odm, ODM_REG_LNA_SWITCH_11N , BIT31, 1);	//Regb2c[31]=1'b1	//output at CG only
++	//OFDM Settings
++	ODM_SetBBReg(pDM_Odm, ODM_REG_ANTDIV_PARA1_11N , bMaskDWord, 0x000000a0);
++	//CCK Settings
++	ODM_SetBBReg(pDM_Odm, ODM_REG_BB_PWR_SAV4_11N , BIT7, 1); //Fix CCK PHY status report issue
++	ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_ANTDIV_PARA2_11N , BIT4, 1); //CCK complete HW AntDiv within 64 samples
++
++	//antenna mapping table
++	if(!pDM_Odm->bIsMPChip) //testchip
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_RX_DEFUALT_A_11N , BIT10|BIT9|BIT8, 1);	//Reg858[10:8]=3'b001
++		ODM_SetBBReg(pDM_Odm, ODM_REG_RX_DEFUALT_A_11N , BIT13|BIT12|BIT11, 2);	//Reg858[13:11]=3'b010
++	}
++	else //MPchip
++		ODM_SetBBReg(pDM_Odm, ODM_REG_ANT_MAPPING1_11N , bMaskDWord, 0x0201);	/*Reg914=3'b010, Reg915=3'b001*/
++
++	pDM_FatTable->enable_ctrl_frame_antdiv = 1;
++}
++
++
++#if( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++VOID
++odm_Smart_HWAntDiv_Init_88E(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte	value32, i;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8188E AntDiv_Init =>  AntDivType=[CG_TRX_SMART_ANTDIV]\n"));
++    
++	if(pDM_Odm->mp_mode == TRUE)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("pDM_Odm->AntDivType: %d\n", pDM_Odm->AntDivType));
++		return;
++	}
++
++	pDM_FatTable->TrainIdx = 0;
++	pDM_FatTable->FAT_State = FAT_PREPARE_STATE;
++	
++	pDM_Odm->fat_comb_a=5;
++	pDM_Odm->antdiv_intvl = 0x64; // 100ms
++
++	for(i=0; i<6; i++)
++	{
++		pDM_FatTable->Bssid[i] = 0;
++	}
++	for(i=0; i< (pDM_Odm->fat_comb_a) ; i++)
++	{
++		pDM_FatTable->antSumRSSI[i] = 0;
++		pDM_FatTable->antRSSIcnt[i] = 0;
++		pDM_FatTable->antAveRSSI[i] = 0;
++	}
++
++	//MAC Setting
++	value32 = ODM_GetMACReg(pDM_Odm, 0x4c, bMaskDWord);
++	ODM_SetMACReg(pDM_Odm, 0x4c, bMaskDWord, value32|(BIT23|BIT25)); //Reg4C[25]=1, Reg4C[23]=1 for pin output
++	value32 = ODM_GetMACReg(pDM_Odm,  0x7B4, bMaskDWord);
++	ODM_SetMACReg(pDM_Odm, 0x7b4, bMaskDWord, value32|(BIT16|BIT17)); //Reg7B4[16]=1 enable antenna training, Reg7B4[17]=1 enable A2 match
++	//value32 = PlatformEFIORead4Byte(Adapter, 0x7B4);
++	//PlatformEFIOWrite4Byte(Adapter, 0x7b4, value32|BIT18);	//append MACID in reponse packet
++
++	//Match MAC ADDR
++	ODM_SetMACReg(pDM_Odm, 0x7b4, 0xFFFF, 0);
++	ODM_SetMACReg(pDM_Odm, 0x7b0, bMaskDWord, 0);
++	
++	ODM_SetBBReg(pDM_Odm, 0x870 , BIT9|BIT8, 0);//Reg870[8]=1'b0, Reg870[9]=1'b0 		//antsel antselb by HW
++	ODM_SetBBReg(pDM_Odm, 0x864 , BIT10, 0);	//Reg864[10]=1'b0 	//antsel2 by HW
++	ODM_SetBBReg(pDM_Odm, 0xb2c , BIT22, 0);	//Regb2c[22]=1'b0 	//disable CS/CG switch
++	ODM_SetBBReg(pDM_Odm, 0xb2c , BIT31, 0);	//Regb2c[31]=1'b1	//output at CS only
++	ODM_SetBBReg(pDM_Odm, 0xca4 , bMaskDWord, 0x000000a0);
++	
++	//antenna mapping table
++	if(pDM_Odm->fat_comb_a == 2)
++	{
++		if(!pDM_Odm->bIsMPChip) //testchip
++		{
++			ODM_SetBBReg(pDM_Odm, 0x858 , BIT10|BIT9|BIT8, 1);	//Reg858[10:8]=3'b001
++			ODM_SetBBReg(pDM_Odm, 0x858 , BIT13|BIT12|BIT11, 2);	//Reg858[13:11]=3'b010
++		}
++		else //MPchip
++		{
++			ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte0, 1);
++			ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte1, 2);
++		}
++	}
++	else
++	{
++		if(!pDM_Odm->bIsMPChip) //testchip
++		{
++			ODM_SetBBReg(pDM_Odm, 0x858 , BIT10|BIT9|BIT8, 0);	//Reg858[10:8]=3'b000
++			ODM_SetBBReg(pDM_Odm, 0x858 , BIT13|BIT12|BIT11, 1);	//Reg858[13:11]=3'b001
++			ODM_SetBBReg(pDM_Odm, 0x878 , BIT16, 0);
++			ODM_SetBBReg(pDM_Odm, 0x858 , BIT15|BIT14, 2);	//(Reg878[0],Reg858[14:15])=3'b010
++			ODM_SetBBReg(pDM_Odm, 0x878 , BIT19|BIT18|BIT17, 3);//Reg878[3:1]=3b'011
++			ODM_SetBBReg(pDM_Odm, 0x878 , BIT22|BIT21|BIT20, 4);//Reg878[6:4]=3b'100
++			ODM_SetBBReg(pDM_Odm, 0x878 , BIT25|BIT24|BIT23, 5);//Reg878[9:7]=3b'101 
++			ODM_SetBBReg(pDM_Odm, 0x878 , BIT28|BIT27|BIT26, 6);//Reg878[12:10]=3b'110 
++			ODM_SetBBReg(pDM_Odm, 0x878 , BIT31|BIT30|BIT29, 7);//Reg878[15:13]=3b'111
++		}
++		else //MPchip
++		{
++			ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte0, 4);     // 0: 3b'000
++			ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte1, 2);     // 1: 3b'001	
++			ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte2, 0);     // 2: 3b'010
++			ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte3, 1);     // 3: 3b'011
++			ODM_SetBBReg(pDM_Odm, 0x918 , bMaskByte0, 3);     // 4: 3b'100
++			ODM_SetBBReg(pDM_Odm, 0x918 , bMaskByte1, 5);     // 5: 3b'101
++			ODM_SetBBReg(pDM_Odm, 0x918 , bMaskByte2, 6);     // 6: 3b'110
++			ODM_SetBBReg(pDM_Odm, 0x918 , bMaskByte3, 255); // 7: 3b'111
++		}
++	}
++
++	//Default Ant Setting when no fast training
++	ODM_SetBBReg(pDM_Odm, 0x864 , BIT5|BIT4|BIT3, 0);	//Default RX
++	ODM_SetBBReg(pDM_Odm, 0x864 , BIT8|BIT7|BIT6, 1);	//Optional RX
++	ODM_SetBBReg(pDM_Odm, 0x860 , BIT14|BIT13|BIT12, 0);//Default TX
++
++	//Enter Traing state
++	ODM_SetBBReg(pDM_Odm, 0x864 , BIT2|BIT1|BIT0, (pDM_Odm->fat_comb_a-1));	//Reg864[2:0]=3'd6	//ant combination=reg864[2:0]+1
++
++	//SW Control
++	//PHY_SetBBReg(Adapter, 0x864 , BIT10, 1);
++	//PHY_SetBBReg(Adapter, 0x870 , BIT9, 1);
++	//PHY_SetBBReg(Adapter, 0x870 , BIT8, 1);
++	//PHY_SetBBReg(Adapter, 0x864 , BIT11, 1);
++	//PHY_SetBBReg(Adapter, 0x860 , BIT9, 0);
++	//PHY_SetBBReg(Adapter, 0x860 , BIT8, 0);
++}
++#endif
++
++#endif //#if (RTL8188E_SUPPORT == 1)
++
++
++#if (RTL8192E_SUPPORT == 1)
++VOID
++odm_RX_HWAntDiv_Init_92E(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++	
++	if(pDM_Odm->mp_mode == TRUE)
++	{
++		odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++		ODM_SetBBReg(pDM_Odm, 0xc50 , BIT8, 0); //r_rxdiv_enable_anta  Regc50[8]=1'b0  0: control by c50[9]
++		ODM_SetBBReg(pDM_Odm, 0xc50 , BIT9, 1);  // 1:CG, 0:CS
++		return;
++	}
++	
++	 ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8192E AntDiv_Init =>  AntDivType=[CGCS_RX_HW_ANTDIV]\n"));
++	
++	 //Pin Settings
++	 ODM_SetBBReg(pDM_Odm, 0x870 , BIT8, 0);//Reg870[8]=1'b0,    // "antsel" is controled by HWs
++	 ODM_SetBBReg(pDM_Odm, 0xc50 , BIT8, 1); //Regc50[8]=1'b1  //" CS/CG switching" is controled by HWs
++
++	 //Mapping table
++	 ODM_SetBBReg(pDM_Odm, 0x914 , 0xFFFF, 0x0100); //antenna mapping table
++	  
++	 //OFDM Settings
++	 ODM_SetBBReg(pDM_Odm, 0xca4 , 0x7FF, 0xA0); //thershold
++	 ODM_SetBBReg(pDM_Odm, 0xca4 , 0x7FF000, 0x0); //bias
++	 
++	 //CCK Settings
++	 ODM_SetBBReg(pDM_Odm, 0xa04 , 0xF000000, 0); //Select which path to receive for CCK_1 & CCK_2
++	 ODM_SetBBReg(pDM_Odm, 0xb34 , BIT30, 0); //(92E) ANTSEL_CCK_opt = r_en_antsel_cck? ANTSEL_CCK: 1'b0
++	 ODM_SetBBReg(pDM_Odm, 0xa74 , BIT7, 1); //Fix CCK PHY status report issue
++	 ODM_SetBBReg(pDM_Odm, 0xa0c , BIT4, 1); //CCK complete HW AntDiv within 64 samples 	 
++	
++	 #ifdef ODM_EVM_ENHANCE_ANTDIV
++	//EVM enhance AntDiv method init----------------------------------------------------------------------
++	pDM_FatTable->EVM_method_enable=0;
++	pDM_FatTable->FAT_State = NORMAL_STATE_MIAN;
++	pDM_Odm->antdiv_intvl = 0x64; 
++	ODM_SetBBReg(pDM_Odm, 0x910 , 0x3f, 0xf );	   
++	pDM_Odm->antdiv_evm_en=1;
++	//pDM_Odm->antdiv_period=1;
++	pDM_Odm->evm_antdiv_period = 3;
++
++	#endif
++	 
++}
++
++VOID
++odm_TRX_HWAntDiv_Init_92E(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++	
++	if(pDM_Odm->mp_mode == TRUE)
++	{
++		odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++		ODM_SetBBReg(pDM_Odm, 0xc50 , BIT8, 0); //r_rxdiv_enable_anta  Regc50[8]=1'b0  0: control by c50[9]
++		ODM_SetBBReg(pDM_Odm, 0xc50 , BIT9, 1);  // 1:CG, 0:CS
++		return;
++	}
++
++	 ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8192E AntDiv_Init =>  AntDivType=[ Only for DIR605, CG_TRX_HW_ANTDIV]\n"));
++	
++	//3 --RFE pin setting---------
++	//[MAC]
++	ODM_SetMACReg(pDM_Odm, 0x38, BIT11, 1);            //DBG PAD Driving control (GPIO 8)
++	ODM_SetMACReg(pDM_Odm, 0x4c, BIT23, 0);            //path-A , RFE_CTRL_3 
++	ODM_SetMACReg(pDM_Odm, 0x4c, BIT29, 1);            //path-A , RFE_CTRL_8
++	//[BB]
++	ODM_SetBBReg(pDM_Odm, 0x944 , BIT3, 1);              //RFE_buffer
++	ODM_SetBBReg(pDM_Odm, 0x944 , BIT8, 1);	
++	ODM_SetBBReg(pDM_Odm, 0x940 , BIT7|BIT6, 0x0); // r_rfe_path_sel_   (RFE_CTRL_3)
++	ODM_SetBBReg(pDM_Odm, 0x940 , BIT17|BIT16, 0x0); // r_rfe_path_sel_   (RFE_CTRL_8)
++	ODM_SetBBReg(pDM_Odm, 0x944 , BIT31, 0);     //RFE_buffer
++	ODM_SetBBReg(pDM_Odm, 0x92C , BIT3, 0);     //rfe_inv  (RFE_CTRL_3)
++	ODM_SetBBReg(pDM_Odm, 0x92C , BIT8, 1);     //rfe_inv  (RFE_CTRL_8)
++	ODM_SetBBReg(pDM_Odm, 0x930 , 0xF000, 0x8);           //path-A , RFE_CTRL_3 
++	ODM_SetBBReg(pDM_Odm, 0x934 , 0xF, 0x8);           //path-A , RFE_CTRL_8
++	//3 -------------------------
++	
++	 //Pin Settings
++	ODM_SetBBReg(pDM_Odm, 0xC50 , BIT8, 0);	   //path-A   	//disable CS/CG switch
++
++/* Let it follows PHY_REG for bit9 setting
++	if(pDM_Odm->priv->pshare->rf_ft_var.use_ext_pa || pDM_Odm->priv->pshare->rf_ft_var.use_ext_lna)
++		ODM_SetBBReg(pDM_Odm, 0xC50 , BIT9, 1);//path-A 	//output at CS
++	else
++		ODM_SetBBReg(pDM_Odm, 0xC50 , BIT9, 0);    //path-A 	//output at CG ->normal power
++*/
++
++	ODM_SetBBReg(pDM_Odm, 0x870 , BIT9|BIT8, 0);  //path-A  	//antsel antselb by HW
++	ODM_SetBBReg(pDM_Odm, 0xB38 , BIT10, 0);	   //path-A    	//antsel2 by HW	
++ 
++	//Mapping table
++	 ODM_SetBBReg(pDM_Odm, 0x914 , 0xFFFF, 0x0100); //antenna mapping table
++	  
++	 //OFDM Settings
++	 ODM_SetBBReg(pDM_Odm, 0xca4 , 0x7FF, 0xA0); //thershold
++	 ODM_SetBBReg(pDM_Odm, 0xca4 , 0x7FF000, 0x0); //bias
++	 
++	 //CCK Settings
++	 ODM_SetBBReg(pDM_Odm, 0xa04 , 0xF000000, 0); //Select which path to receive for CCK_1 & CCK_2
++	 ODM_SetBBReg(pDM_Odm, 0xb34 , BIT30, 0); //(92E) ANTSEL_CCK_opt = r_en_antsel_cck? ANTSEL_CCK: 1'b0
++	 ODM_SetBBReg(pDM_Odm, 0xa74 , BIT7, 1); //Fix CCK PHY status report issue
++	 ODM_SetBBReg(pDM_Odm, 0xa0c , BIT4, 1); //CCK complete HW AntDiv within 64 samples 
++
++	#ifdef ODM_EVM_ENHANCE_ANTDIV
++	//EVM enhance AntDiv method init----------------------------------------------------------------------
++	pDM_FatTable->EVM_method_enable=0;
++	pDM_FatTable->FAT_State = NORMAL_STATE_MIAN;
++	pDM_Odm->antdiv_intvl = 0x64; 
++	ODM_SetBBReg(pDM_Odm, 0x910 , 0x3f, 0xf );	   
++	pDM_Odm->antdiv_evm_en=1;
++	//pDM_Odm->antdiv_period=1;
++	pDM_Odm->evm_antdiv_period = 3;
++	#endif
++}
++
++#if( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++VOID
++odm_Smart_HWAntDiv_Init_92E(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8192E AntDiv_Init =>  AntDivType=[CG_TRX_SMART_ANTDIV]\n"));
++}
++#endif
++
++#endif //#if (RTL8192E_SUPPORT == 1)
++
++#if (RTL8723D_SUPPORT == 1)
++VOID
++odm_TRX_HWAntDiv_Init_8723D(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[8723D] AntDiv_Init =>  AntDivType=[S0S1_HW_TRX_AntDiv]\n"));
++
++	/*BT Coexistence*/
++	/*keep antsel_map when GNT_BT = 1*/
++	ODM_SetBBReg(pDM_Odm, 0x864, BIT12, 1); 
++	/* //Disable hw antsw & fast_train.antsw when GNT_BT=1*/
++	ODM_SetBBReg(pDM_Odm, 0x874 , BIT23, 0);
++	/*//Disable hw antsw & fast_train.antsw when BT TX/RX*/
++	ODM_SetBBReg(pDM_Odm, 0xE64 , 0xFFFF0000, 0x000c); 
++
++
++	ODM_SetBBReg(pDM_Odm, 0x870 , BIT9|BIT8, 0); 
++	/*PTA setting: WL_BB_SEL_BTG_TRXG_anta,  (1: HW CTRL  0: SW CTRL)*/
++	/*ODM_SetBBReg(pDM_Odm, 0x948 , BIT6, 0);*/
++	/*ODM_SetBBReg(pDM_Odm, 0x948 , BIT8, 0);*/
++	/*GNT_WL tx*/
++	ODM_SetBBReg(pDM_Odm, 0x950 , BIT29, 0); 
++	
++	  
++	/*Mapping Table*/
++	ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte0, 0);
++	ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte1, 3);
++	ODM_SetBBReg(pDM_Odm, 0x864 , BIT5|BIT4|BIT3, 0);	
++	ODM_SetBBReg(pDM_Odm, 0x864 , BIT8|BIT7|BIT6, 1); 
++	
++	/*  //Set WLBB_SEL_RF_ON 1 if RXFIR_PWDB > 0xCcc[3:0]*/
++	ODM_SetBBReg(pDM_Odm, 0xCcc, BIT12, 0);     
++	/*  //Low-to-High threshold for WLBB_SEL_RF_ON when OFDM enable*/
++	ODM_SetBBReg(pDM_Odm, 0xCcc , 0x0F, 0x01);   
++	/*//High-to-Low threshold for WLBB_SEL_RF_ON when OFDM enable*/
++	ODM_SetBBReg(pDM_Odm, 0xCcc , 0xF0, 0x0);     
++	/* //b Low-to-High threshold for WLBB_SEL_RF_ON when OFDM disable ( only CCK )*/
++	ODM_SetBBReg(pDM_Odm, 0xAbc , 0xFF, 0x06);    
++	/* //High-to-Low threshold for WLBB_SEL_RF_ON when OFDM disable ( only CCK )*/
++	ODM_SetBBReg(pDM_Odm, 0xAbc , 0xFF00, 0x00);    
++	
++	
++	/*OFDM HW AntDiv Parameters*/
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , 0x7FF, 0xa0); 
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , 0x7FF000, 0x00); 
++	ODM_SetBBReg(pDM_Odm, 0xC5C , BIT20|BIT19|BIT18, 0x04); 
++		
++	/*CCK HW AntDiv Parameters*/
++	ODM_SetBBReg(pDM_Odm, 0xA74 , BIT7, 1); 
++	ODM_SetBBReg(pDM_Odm, 0xA0C , BIT4, 1); 
++	ODM_SetBBReg(pDM_Odm, 0xAA8 , BIT8, 0); 
++	
++	ODM_SetBBReg(pDM_Odm, 0xA0C , 0x0F, 0xf); 
++	ODM_SetBBReg(pDM_Odm, 0xA14 , 0x1F, 0x8);
++	ODM_SetBBReg(pDM_Odm, 0xA10 , BIT13, 0x1);  
++	ODM_SetBBReg(pDM_Odm, 0xA74 , BIT8, 0x0);   
++	ODM_SetBBReg(pDM_Odm, 0xB34 , BIT30, 0x1);   
++	
++	/*disable antenna training	*/
++	ODM_SetBBReg(pDM_Odm, 0xE08 , BIT16, 0); 
++	ODM_SetBBReg(pDM_Odm, 0xc50 , BIT8, 0);
++
++}
++
++VOID
++phydm_set_tx_ant_pwr_8723d(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Ant
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	PADAPTER		pAdapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	pDM_FatTable->RxIdleAnt = Ant;
++	
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		 pAdapter->HalFunc.SetTxPowerLevelHandler(pAdapter, pHalData->CurrentChannel);
++	#elif(DM_ODM_SUPPORT_TYPE == ODM_CE)
++		rtw_hal_set_tx_power_level(pAdapter, pHalData->CurrentChannel);
++	#endif
++	
++}
++#endif
++
++#if (RTL8723B_SUPPORT == 1)
++VOID
++odm_TRX_HWAntDiv_Init_8723B(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8723B AntDiv_Init =>  AntDivType=[CG_TRX_HW_ANTDIV(DPDT)]\n"));
++      
++	//Mapping Table
++	ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte0, 0);
++	ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte1, 1);
++	
++	//OFDM HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , 0x7FF, 0xa0); //thershold
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , 0x7FF000, 0x00); //bias
++		
++	//CCK HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0xA74 , BIT7, 1); //patch for clk from 88M to 80M
++	ODM_SetBBReg(pDM_Odm, 0xA0C , BIT4, 1); //do 64 samples
++	
++	//BT Coexistence
++	ODM_SetBBReg(pDM_Odm, 0x864, BIT12, 0); //keep antsel_map when GNT_BT = 1
++	ODM_SetBBReg(pDM_Odm, 0x874 , BIT23, 0); //Disable hw antsw & fast_train.antsw when GNT_BT=1
++
++        //Output Pin Settings
++	ODM_SetBBReg(pDM_Odm, 0x870 , BIT8, 0); //
++		
++	ODM_SetBBReg(pDM_Odm, 0x948 , BIT6, 0); //WL_BB_SEL_BTG_TRXG_anta,  (1: HW CTRL  0: SW CTRL)
++	ODM_SetBBReg(pDM_Odm, 0x948 , BIT7, 0);
++		
++	ODM_SetMACReg(pDM_Odm, 0x40 , BIT3, 1);
++	ODM_SetMACReg(pDM_Odm, 0x38 , BIT11, 1);
++	ODM_SetMACReg(pDM_Odm, 0x4C ,  BIT24|BIT23, 2); //select DPDT_P and DPDT_N as output pin
++		
++	ODM_SetBBReg(pDM_Odm, 0x944 , BIT0|BIT1, 3); //in/out
++	ODM_SetBBReg(pDM_Odm, 0x944 , BIT31, 0); //
++
++	ODM_SetBBReg(pDM_Odm, 0x92C , BIT1, 0); //DPDT_P non-inverse
++	ODM_SetBBReg(pDM_Odm, 0x92C , BIT0, 1); //DPDT_N inverse
++
++	ODM_SetBBReg(pDM_Odm, 0x930 , 0xF0, 8); // DPDT_P = ANTSEL[0]
++	ODM_SetBBReg(pDM_Odm, 0x930 , 0xF, 8); // DPDT_N = ANTSEL[0]
++
++	//2 [--For HW Bug Setting]
++	if(pDM_Odm->AntType == ODM_AUTO_ANT)
++		ODM_SetBBReg(pDM_Odm, 0xA00 , BIT15, 0); //CCK AntDiv function block enable
++
++}
++
++	
++
++VOID
++odm_S0S1_SWAntDiv_Init_8723B(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T		pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	pFAT_T		pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8723B AntDiv_Init => AntDivType=[ S0S1_SW_AntDiv] \n"));
++
++	//Mapping Table
++	ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte0, 0);
++	ODM_SetBBReg(pDM_Odm, 0x914 , bMaskByte1, 1);
++	
++	//Output Pin Settings
++	//ODM_SetBBReg(pDM_Odm, 0x948 , BIT6, 0x1); 
++	ODM_SetBBReg(pDM_Odm, 0x870 , BIT9|BIT8, 0); 
++
++	pDM_FatTable->bBecomeLinked  =FALSE;
++	pDM_SWAT_Table->try_flag = SWAW_STEP_INIT;	
++	pDM_SWAT_Table->Double_chk_flag = 0;
++	
++	//2 [--For HW Bug Setting]
++	ODM_SetBBReg(pDM_Odm, 0x80C , BIT21, 0); //TX Ant  by Reg
++
++}
++
++VOID
++ODM_UpdateRxIdleAnt_8723B(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Ant,
++	IN		u4Byte			DefaultAnt, 
++	IN		u4Byte			OptionalAnt
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	PADAPTER 		pAdapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u1Byte			count=0;
++	u1Byte			u1Temp;
++	u1Byte			H2C_Parameter;
++
++	if ((!pDM_Odm->bLinked) && (pDM_Odm->AntType == ODM_AUTO_ANT))
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Ant ] 8723B: Fail to set RX antenna due to no link\n"));
++		return;
++	}
++
++#if 0
++	// Send H2C command to FW
++	// Enable wifi calibration
++	H2C_Parameter = TRUE;
++	ODM_FillH2CCmd(pDM_Odm, ODM_H2C_WIFI_CALIBRATION, 1, &H2C_Parameter);
++
++	// Check if H2C command sucess or not (0x1e6)
++	u1Temp = ODM_Read1Byte(pDM_Odm, 0x1e6);
++	while((u1Temp != 0x1) && (count < 100))
++	{
++		ODM_delay_us(10);	
++		u1Temp = ODM_Read1Byte(pDM_Odm, 0x1e6);
++		count++;
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Ant ] 8723B: H2C command status = %d, count = %d\n", u1Temp, count));
++
++	if(u1Temp == 0x1)
++	{
++		// Check if BT is doing IQK (0x1e7)
++		count = 0;
++		u1Temp = ODM_Read1Byte(pDM_Odm, 0x1e7);
++		while((!(u1Temp & BIT0))  && (count < 100))
++		{
++			ODM_delay_us(50);	
++			u1Temp = ODM_Read1Byte(pDM_Odm, 0x1e7);
++			count++;
++		}
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Ant ] 8723B: BT IQK status = %d, count = %d\n", u1Temp, count));
++
++		if(u1Temp & BIT0)
++		{
++			ODM_SetBBReg(pDM_Odm, 0x948 , BIT6, 0x1);
++			ODM_SetBBReg(pDM_Odm, 0x948 , BIT9, DefaultAnt);	
++			ODM_SetBBReg(pDM_Odm, 0x864 , BIT5|BIT4|BIT3, DefaultAnt);	//Default RX
++			ODM_SetBBReg(pDM_Odm, 0x864 , BIT8|BIT7|BIT6, OptionalAnt);	//Optional RX
++			ODM_SetBBReg(pDM_Odm, 0x860, BIT14|BIT13|BIT12, DefaultAnt); //Default TX	
++			pDM_FatTable->RxIdleAnt = Ant;
++
++			// Set TX AGC by S0/S1
++			// Need to consider Linux driver
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++			 pAdapter->HalFunc.SetTxPowerLevelHandler(pAdapter, pHalData->CurrentChannel);
++#elif(DM_ODM_SUPPORT_TYPE == ODM_CE)
++			rtw_hal_set_tx_power_level(pAdapter, pHalData->CurrentChannel);
++#endif
++
++			// Set IQC by S0/S1
++			ODM_SetIQCbyRFpath(pDM_Odm,DefaultAnt);
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Ant ] 8723B: Sucess to set RX antenna\n"));
++		}
++		else
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Ant ] 8723B: Fail to set RX antenna due to BT IQK\n"));
++	}
++	else
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Ant ] 8723B: Fail to set RX antenna due to H2C command fail\n"));
++
++	// Send H2C command to FW
++	// Disable wifi calibration
++	H2C_Parameter = FALSE;
++	ODM_FillH2CCmd(pDM_Odm, ODM_H2C_WIFI_CALIBRATION, 1, &H2C_Parameter);
++#else
++
++	ODM_SetBBReg(pDM_Odm, 0x948 , BIT6, 0x1);
++	ODM_SetBBReg(pDM_Odm, 0x948 , BIT9, DefaultAnt);	
++	ODM_SetBBReg(pDM_Odm, 0x864 , BIT5|BIT4|BIT3, DefaultAnt);          /*Default RX*/
++	ODM_SetBBReg(pDM_Odm, 0x864 , BIT8|BIT7|BIT6, OptionalAnt);         /*Optional RX*/
++	ODM_SetBBReg(pDM_Odm, 0x860, BIT14|BIT13|BIT12, DefaultAnt);        /*Default TX*/
++	pDM_FatTable->RxIdleAnt = Ant;
++
++	/* Set TX AGC by S0/S1 */
++	/* Need to consider Linux driver */
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		 pAdapter->HalFunc.SetTxPowerLevelHandler(pAdapter, pHalData->CurrentChannel);
++	#elif(DM_ODM_SUPPORT_TYPE == ODM_CE)
++		rtw_hal_set_tx_power_level(pAdapter, pHalData->CurrentChannel);
++	#endif
++
++	/* Set IQC by S0/S1 */
++	ODM_SetIQCbyRFpath(pDM_Odm, DefaultAnt);
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Ant ] 8723B: Success to set RX antenna\n"));
++
++#endif
++}
++
++BOOLEAN
++phydm_IsBtEnable_8723b(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			bt_state;
++	/*u4Byte			reg75;*/
++
++	/*reg75 = ODM_GetBBReg(pDM_Odm, 0x74 , BIT8);*/
++	/*ODM_SetBBReg(pDM_Odm, 0x74 , BIT8, 0x0);*/
++	ODM_SetBBReg(pDM_Odm, 0xa0 , BIT24|BIT25|BIT26, 0x5);
++	bt_state = ODM_GetBBReg(pDM_Odm, 0xa0 , (BIT3|BIT2|BIT1|BIT0));
++	/*ODM_SetBBReg(pDM_Odm, 0x74 , BIT8, reg75);*/
++
++	if ((bt_state == 4) || (bt_state == 7) || (bt_state == 9) || (bt_state == 13))
++		return TRUE;
++	else
++		return FALSE;
++}
++#endif //#if (RTL8723B_SUPPORT == 1)
++
++#if (RTL8821A_SUPPORT == 1)
++#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++VOID
++phydm_hl_smart_ant_type1_init_8821a(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSAT_T			pdm_sat_table = &(pDM_Odm->dm_sat_table);
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	u4Byte			value32;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8821A SmartAnt_Init => AntDivType=[Hong-Lin Smart Ant Type1]\n"));
++	
++	/*----------------------------------------
++	GPIO 2-3 for Beam control 
++	    reg0x66[2]=0
++	    reg0x44[27:26] = 0
++	    reg0x44[23:16] //enable_output for P_GPIO[7:0]
++	    reg0x44[15:8] //output_value for P_GPIO[7:0]
++	    reg0x40[1:0] = 0 //GPIO function
++	------------------------------------------*/
++	
++	/*GPIO Setting*/
++	ODM_SetMACReg(pDM_Odm, 0x64 , BIT18, 0); 
++	ODM_SetMACReg(pDM_Odm, 0x44 , BIT27|BIT26, 0);
++	ODM_SetMACReg(pDM_Odm, 0x44 , BIT19|BIT18, 0x3);	/*enable_output for P_GPIO[3:2]*/
++	/*ODM_SetMACReg(pDM_Odm, 0x44 , BIT11|BIT10, 0);*/ /*output value*/
++	ODM_SetMACReg(pDM_Odm, 0x40 , BIT1|BIT0, 0);		/*GPIO function*/
++
++	/*Hong_lin smart antenna HW Setting*/
++	pdm_sat_table->data_codeword_bit_num  = 24;/*max=32*/
++	pdm_sat_table->beam_patten_num_each_ant = 4;
++
++	#if DEV_BUS_TYPE == RT_SDIO_INTERFACE
++	pdm_sat_table->latch_time = 100; /*mu sec*/
++	#elif DEV_BUS_TYPE == RT_USB_INTERFACE
++	pdm_sat_table->latch_time = 100; /*mu sec*/
++	#endif
++	pdm_sat_table->pkt_skip_statistic_en = 0;
++	
++	pdm_sat_table->ant_num = 1;/*max=8*/
++	pdm_sat_table->ant_num_total = NUM_ANTENNA_8821A;
++	pdm_sat_table->first_train_ant = MAIN_ANT;
++	
++	pdm_sat_table->rfu_codeword_table[0] = 0x0;
++	pdm_sat_table->rfu_codeword_table[1] = 0x4;
++	pdm_sat_table->rfu_codeword_table[2] = 0x8;
++	pdm_sat_table->rfu_codeword_table[3] = 0xc;
++
++	pdm_sat_table->rfu_codeword_table_5g[0] = 0x1;
++	pdm_sat_table->rfu_codeword_table_5g[1] = 0x2;
++	pdm_sat_table->rfu_codeword_table_5g[2] = 0x4;
++	pdm_sat_table->rfu_codeword_table_5g[3] = 0x8;
++
++	pdm_sat_table->fix_beam_pattern_en  = 0;
++	pdm_sat_table->decision_holding_period = 0;
++
++	/*beam training setting*/
++	pdm_sat_table->pkt_counter = 0;
++	pdm_sat_table->per_beam_training_pkt_num = 10;
++
++	/*set default beam*/
++	pdm_sat_table->fast_training_beam_num = 0;
++	pdm_sat_table->pre_fast_training_beam_num = pdm_sat_table->fast_training_beam_num;
++	phydm_set_all_ant_same_beam_num(pDM_Odm);
++
++	pDM_FatTable->FAT_State = FAT_BEFORE_LINK_STATE;
++
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskDWord, 0x01000100);
++	ODM_SetBBReg(pDM_Odm, 0xCA8 , bMaskDWord, 0x01000100);
++
++	/*[BB] FAT Setting*/
++	ODM_SetBBReg(pDM_Odm, 0xc08 , BIT18|BIT17|BIT16, pdm_sat_table->ant_num);
++	ODM_SetBBReg(pDM_Odm, 0xc08 , BIT31, 0); /*increase ant num every FAT period 0:+1, 1+2*/
++	ODM_SetBBReg(pDM_Odm, 0x8c4 , BIT2|BIT1, 1); /*change cca antenna timming threshold if no CCA occurred: 0:200ms / 1:100ms / 2:no use / 3: 300*/
++	ODM_SetBBReg(pDM_Odm, 0x8c4 , BIT0, 1); /*FAT_watchdog_en*/
++	
++	value32 = ODM_GetMACReg(pDM_Odm,  0x7B4, bMaskDWord);
++	ODM_SetMACReg(pDM_Odm, 0x7b4, bMaskDWord, value32|(BIT16|BIT17));	/*Reg7B4[16]=1 enable antenna training */
++																		/*Reg7B4[17]=1 enable  match MAC Addr*/
++	ODM_SetMACReg(pDM_Odm, 0x7b4, 0xFFFF, 0);/*Match MAC ADDR*/
++	ODM_SetMACReg(pDM_Odm, 0x7b0, bMaskDWord, 0);
++
++}
++#endif
++
++VOID
++odm_TRX_HWAntDiv_Init_8821A(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8821A AntDiv_Init => AntDivType=[ CG_TRX_HW_ANTDIV (DPDT)] \n"));
++
++	//Output Pin Settings
++	ODM_SetMACReg(pDM_Odm, 0x4C , BIT25, 0);
++
++	ODM_SetMACReg(pDM_Odm, 0x64 , BIT29, 1); //PAPE by WLAN control
++	ODM_SetMACReg(pDM_Odm, 0x64 , BIT28, 1); //LNAON by WLAN control
++
++	ODM_SetBBReg(pDM_Odm, 0xCB0 , bMaskDWord, 0x77775745);
++	ODM_SetBBReg(pDM_Odm, 0xCB8 , BIT16, 0);
++	
++	ODM_SetMACReg(pDM_Odm, 0x4C , BIT23, 0); //select DPDT_P and DPDT_N as output pin
++	ODM_SetMACReg(pDM_Odm, 0x4C , BIT24, 1); //by WLAN control
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , 0xF, 8); // DPDT_P = ANTSEL[0]
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , 0xF0, 8); // DPDT_N = ANTSEL[0]
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT29, 0); //DPDT_P non-inverse
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT28, 1); //DPDT_N inverse
++
++	//Mapping Table
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskByte0, 0);
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskByte1, 1);
++
++	//OFDM HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0x8D4 , 0x7FF, 0xA0); //thershold
++	ODM_SetBBReg(pDM_Odm, 0x8D4 , 0x7FF000, 0x10); //bias
++		
++	//CCK HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0xA74 , BIT7, 1); //patch for clk from 88M to 80M
++	ODM_SetBBReg(pDM_Odm, 0xA0C , BIT4, 1); //do 64 samples
++
++	ODM_SetBBReg(pDM_Odm, 0x800 , BIT25, 0); //ANTSEL_CCK sent to the smart_antenna circuit
++	ODM_SetBBReg(pDM_Odm, 0xA00 , BIT15, 0); //CCK AntDiv function block enable
++
++	//BT Coexistence
++	ODM_SetBBReg(pDM_Odm, 0xCAC , BIT9, 1); //keep antsel_map when GNT_BT = 1
++	ODM_SetBBReg(pDM_Odm, 0x804 , BIT4, 1); //Disable hw antsw & fast_train.antsw when GNT_BT=1
++
++	ODM_SetBBReg(pDM_Odm, 0x8CC , BIT20|BIT19|BIT18, 3); //settling time of antdiv by RF LNA = 100ns
++
++	//response TX ant by RX ant
++	ODM_SetMACReg(pDM_Odm, 0x668 , BIT3, 1);
++			
++}
++
++VOID
++odm_S0S1_SWAntDiv_Init_8821A(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T		pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8821A AntDiv_Init => AntDivType=[ S0S1_SW_AntDiv]\n"));
++
++	//Output Pin Settings
++	ODM_SetMACReg(pDM_Odm, 0x4C , BIT25, 0);
++
++	ODM_SetMACReg(pDM_Odm, 0x64 , BIT29, 1); //PAPE by WLAN control
++	ODM_SetMACReg(pDM_Odm, 0x64 , BIT28, 1); //LNAON by WLAN control
++
++	ODM_SetBBReg(pDM_Odm, 0xCB0 , bMaskDWord, 0x77775745);
++	ODM_SetBBReg(pDM_Odm, 0xCB8 , BIT16, 0);
++	
++	ODM_SetMACReg(pDM_Odm, 0x4C , BIT23, 0); //select DPDT_P and DPDT_N as output pin
++	ODM_SetMACReg(pDM_Odm, 0x4C , BIT24, 1); //by WLAN control
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , 0xF, 8); // DPDT_P = ANTSEL[0]
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , 0xF0, 8); // DPDT_N = ANTSEL[0]
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT29, 0); //DPDT_P non-inverse
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT28, 1); //DPDT_N inverse
++
++	//Mapping Table
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskByte0, 0);
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskByte1, 1);
++
++	//OFDM HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0x8D4 , 0x7FF, 0xA0); //thershold
++	ODM_SetBBReg(pDM_Odm, 0x8D4 , 0x7FF000, 0x10); //bias
++		
++	//CCK HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0xA74 , BIT7, 1); //patch for clk from 88M to 80M
++	ODM_SetBBReg(pDM_Odm, 0xA0C , BIT4, 1); //do 64 samples
++
++	ODM_SetBBReg(pDM_Odm, 0x800 , BIT25, 0); //ANTSEL_CCK sent to the smart_antenna circuit
++	ODM_SetBBReg(pDM_Odm, 0xA00 , BIT15, 0); //CCK AntDiv function block enable
++
++	//BT Coexistence
++	ODM_SetBBReg(pDM_Odm, 0xCAC , BIT9, 1); //keep antsel_map when GNT_BT = 1
++	ODM_SetBBReg(pDM_Odm, 0x804 , BIT4, 1); //Disable hw antsw & fast_train.antsw when GNT_BT=1
++
++	ODM_SetBBReg(pDM_Odm, 0x8CC , BIT20|BIT19|BIT18, 3); //settling time of antdiv by RF LNA = 100ns
++
++	//response TX ant by RX ant
++	ODM_SetMACReg(pDM_Odm, 0x668 , BIT3, 1);
++
++
++	ODM_SetBBReg(pDM_Odm, 0x900 , BIT18, 0); 
++	
++	pDM_SWAT_Table->try_flag = SWAW_STEP_INIT;	
++	pDM_SWAT_Table->Double_chk_flag = 0;
++	pDM_SWAT_Table->CurAntenna = MAIN_ANT;
++	pDM_SWAT_Table->PreAntenna = MAIN_ANT;
++	pDM_SWAT_Table->SWAS_NoLink_State = 0;
++
++}
++#endif //#if (RTL8821A_SUPPORT == 1)
++
++#if (RTL8821C_SUPPORT == 1)
++VOID
++odm_TRX_HWAntDiv_Init_8821C(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8821C AntDiv_Init => AntDivType=[ CG_TRX_HW_ANTDIV (DPDT)] \n"));
++	//Output Pin Settings
++	ODM_SetMACReg(pDM_Odm, 0x4C , BIT25, 0);
++
++	ODM_SetMACReg(pDM_Odm, 0x64 , BIT29, 1); //PAPE by WLAN control
++	ODM_SetMACReg(pDM_Odm, 0x64 , BIT28, 1); //LNAON by WLAN control
++
++	ODM_SetBBReg(pDM_Odm, 0xCB0 , bMaskDWord, 0x77775745);
++	ODM_SetBBReg(pDM_Odm, 0xCB8 , BIT16, 0);
++	
++	ODM_SetMACReg(pDM_Odm, 0x4C , BIT23, 0); //select DPDT_P and DPDT_N as output pin
++	ODM_SetMACReg(pDM_Odm, 0x4C , BIT24, 1); //by WLAN control
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , 0xF, 8); // DPDT_P = ANTSEL[0]
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , 0xF0, 8); // DPDT_N = ANTSEL[0]
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT29, 0); //DPDT_P non-inverse
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT28, 1); //DPDT_N inverse
++
++	//Mapping Table
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskByte0, 0);
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskByte1, 1);
++
++	//OFDM HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0x8D4 , 0x7FF, 0xA0); //thershold
++	ODM_SetBBReg(pDM_Odm, 0x8D4 , 0x7FF000, 0x10); //bias
++		
++	//CCK HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0xA74 , BIT7, 1); //patch for clk from 88M to 80M
++	ODM_SetBBReg(pDM_Odm, 0xA0C , BIT4, 1); //do 64 samples
++
++	ODM_SetBBReg(pDM_Odm, 0x800 , BIT25, 0); //ANTSEL_CCK sent to the smart_antenna circuit
++	ODM_SetBBReg(pDM_Odm, 0xA00 , BIT15, 0); //CCK AntDiv function block enable
++
++	//BT Coexistence
++	ODM_SetBBReg(pDM_Odm, 0xCAC , BIT9, 1); //keep antsel_map when GNT_BT = 1
++	ODM_SetBBReg(pDM_Odm, 0x804 , BIT4, 1); //Disable hw antsw & fast_train.antsw when GNT_BT=1
++
++	//Timming issue
++	ODM_SetBBReg(pDM_Odm, 0x818 , BIT23|BIT22|BIT21|BIT20, 8); /*keep antidx after tx for ACK ( unit x 3.2 mu sec)*/
++	ODM_SetBBReg(pDM_Odm, 0x8CC , BIT20|BIT19|BIT18, 3); //settling time of antdiv by RF LNA = 100ns
++
++	//response TX ant by RX ant
++	ODM_SetMACReg(pDM_Odm, 0x668 , BIT3, 1);
++			
++}
++#endif //#if (RTL8821C_SUPPORT == 1)
++
++
++#if (RTL8881A_SUPPORT == 1)
++VOID
++odm_TRX_HWAntDiv_Init_8881A(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8881A AntDiv_Init => AntDivType=[ CG_TRX_HW_ANTDIV (SPDT)] \n"));
++
++	//Output Pin Settings
++	// [SPDT related]
++	ODM_SetMACReg(pDM_Odm, 0x4C , BIT25, 0);
++	ODM_SetMACReg(pDM_Odm, 0x4C , BIT26, 0);
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT31, 0); //delay buffer
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT22, 0); 
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT24, 1);
++	ODM_SetBBReg(pDM_Odm, 0xCB0 , 0xF00, 8); // DPDT_P = ANTSEL[0]
++	ODM_SetBBReg(pDM_Odm, 0xCB0 , 0xF0000, 8); // DPDT_N = ANTSEL[0]	
++	
++	//Mapping Table
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskByte0, 0);
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskByte1, 1);
++
++	//OFDM HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0x8D4 , 0x7FF, 0xA0); //thershold
++	ODM_SetBBReg(pDM_Odm, 0x8D4 , 0x7FF000, 0x0); //bias
++	ODM_SetBBReg(pDM_Odm, 0x8CC , BIT20|BIT19|BIT18, 3); //settling time of antdiv by RF LNA = 100ns
++	
++	//CCK HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0xA74 , BIT7, 1); //patch for clk from 88M to 80M
++	ODM_SetBBReg(pDM_Odm, 0xA0C , BIT4, 1); //do 64 samples
++
++	//2 [--For HW Bug Setting]
++
++	ODM_SetBBReg(pDM_Odm, 0x900 , BIT18, 0); //TX Ant  by Reg //  A-cut bug
++}
++
++#endif //#if (RTL8881A_SUPPORT == 1)
++
++
++#if (RTL8812A_SUPPORT == 1)
++VOID
++odm_TRX_HWAntDiv_Init_8812A(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8812A AntDiv_Init => AntDivType=[ CG_TRX_HW_ANTDIV (SPDT)] \n"));
++
++	//3 //3 --RFE pin setting---------
++	//[BB]
++	ODM_SetBBReg(pDM_Odm, 0x900 , BIT10|BIT9|BIT8, 0x0);	  //disable SW switch
++	ODM_SetBBReg(pDM_Odm, 0x900 , BIT17|BIT16, 0x0);	 
++	ODM_SetBBReg(pDM_Odm, 0x974 , BIT7|BIT6, 0x3);     // in/out
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT31, 0); //delay buffer
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT26, 0); 
++	ODM_SetBBReg(pDM_Odm, 0xCB4 , BIT27, 1);
++	ODM_SetBBReg(pDM_Odm, 0xCB0 , 0xF000000, 8); // DPDT_P = ANTSEL[0]
++	ODM_SetBBReg(pDM_Odm, 0xCB0 , 0xF0000000, 8); // DPDT_N = ANTSEL[0]
++	//3 -------------------------
++
++	//Mapping Table
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskByte0, 0);
++	ODM_SetBBReg(pDM_Odm, 0xCA4 , bMaskByte1, 1);
++
++	//OFDM HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0x8D4 , 0x7FF, 0xA0); //thershold
++	ODM_SetBBReg(pDM_Odm, 0x8D4 , 0x7FF000, 0x0); //bias
++	ODM_SetBBReg(pDM_Odm, 0x8CC , BIT20|BIT19|BIT18, 3); //settling time of antdiv by RF LNA = 100ns
++	
++	//CCK HW AntDiv Parameters
++	ODM_SetBBReg(pDM_Odm, 0xA74 , BIT7, 1); //patch for clk from 88M to 80M
++	ODM_SetBBReg(pDM_Odm, 0xA0C , BIT4, 1); //do 64 samples
++
++	//2 [--For HW Bug Setting]
++
++	ODM_SetBBReg(pDM_Odm, 0x900 , BIT18, 0); //TX Ant  by Reg //  A-cut bug
++	
++}
++
++#endif //#if (RTL8812A_SUPPORT == 1)
++
++#if (RTL8188F_SUPPORT == 1)
++VOID
++odm_S0S1_SWAntDiv_Init_8188F(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T		pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	pFAT_T		pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***8188F AntDiv_Init => AntDivType=[ S0S1_SW_AntDiv]\n"));
++
++
++	/*GPIO Setting*/
++	/*ODM_SetMACReg(pDM_Odm, 0x64 , BIT18, 0); */
++	/*ODM_SetMACReg(pDM_Odm, 0x44 , BIT28|BIT27, 0);*/
++	ODM_SetMACReg(pDM_Odm, 0x44 , BIT20|BIT19, 0x3);	/*enable_output for P_GPIO[4:3]*/
++	/*ODM_SetMACReg(pDM_Odm, 0x44 , BIT12|BIT11, 0);*/ /*output value*/
++	/*ODM_SetMACReg(pDM_Odm, 0x40 , BIT1|BIT0, 0);*/		/*GPIO function*/
++
++	pDM_FatTable->bBecomeLinked  = FALSE;
++	pDM_SWAT_Table->try_flag = SWAW_STEP_INIT;	
++	pDM_SWAT_Table->Double_chk_flag = 0;
++}
++
++VOID
++phydm_update_rx_idle_antenna_8188F(
++	IN	PVOID	pDM_VOID,
++	IN	u4Byte	default_ant
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte		codeword;
++
++	if (default_ant == ANT1_2G)
++		codeword = 1; /*2'b01*/
++	else
++		codeword = 2;/*2'b10*/
++	
++	ODM_SetMACReg(pDM_Odm, 0x44 , (BIT12|BIT11), codeword); /*GPIO[4:3] output value*/
++}
++
++#endif
++
++
++
++#ifdef ODM_EVM_ENHANCE_ANTDIV
++
++VOID
++odm_EVM_FastAnt_Reset(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++		
++	pDM_FatTable->EVM_method_enable=0;
++	odm_AntDiv_on_off(pDM_Odm, ANTDIV_ON);
++	pDM_FatTable->FAT_State = NORMAL_STATE_MIAN;
++	pDM_Odm->antdiv_period=0;
++	ODM_SetMACReg(pDM_Odm, 0x608, BIT8, 0);
++}
++
++
++VOID
++odm_EVM_Enhance_AntDiv(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte	Main_RSSI, Aux_RSSI ;
++	u4Byte	Main_CRC_utility=0,Aux_CRC_utility=0,utility_ratio=1;
++	u4Byte	Main_EVM, Aux_EVM,Diff_RSSI=0,diff_EVM=0;	
++	u1Byte	score_EVM=0,score_CRC=0;
++	u1Byte	rssi_larger_ant = 0;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++	u4Byte	value32, i;
++	BOOLEAN Main_above1=FALSE,Aux_above1=FALSE;
++	BOOLEAN Force_antenna=FALSE;
++	PSTA_INFO_T   	pEntry;
++	pDM_FatTable->TargetAnt_enhance=0xFF;
++	
++	
++	if((pDM_Odm->SupportICType & ODM_EVM_ENHANCE_ANTDIV_SUPPORT_IC))
++	{
++		if(pDM_Odm->bOneEntryOnly)
++		{
++			//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[One Client only] \n"));
++			i = pDM_Odm->OneEntry_MACID;
++
++			Main_RSSI = (pDM_FatTable->MainAnt_Cnt[i]!=0)?(pDM_FatTable->MainAnt_Sum[i]/pDM_FatTable->MainAnt_Cnt[i]):0;
++			Aux_RSSI = (pDM_FatTable->AuxAnt_Cnt[i]!=0)?(pDM_FatTable->AuxAnt_Sum[i]/pDM_FatTable->AuxAnt_Cnt[i]):0;
++
++			if((Main_RSSI==0 && Aux_RSSI !=0 && Aux_RSSI>=FORCE_RSSI_DIFF) || (Main_RSSI!=0 && Aux_RSSI==0 && Main_RSSI>=FORCE_RSSI_DIFF))
++			{
++				Diff_RSSI=FORCE_RSSI_DIFF;
++			}
++			else if(Main_RSSI!=0 && Aux_RSSI !=0)
++			{
++				Diff_RSSI = (Main_RSSI>=Aux_RSSI)?(Main_RSSI-Aux_RSSI):(Aux_RSSI-Main_RSSI); 
++			}
++			
++			if (Main_RSSI >= Aux_RSSI)
++				rssi_larger_ant = MAIN_ANT;
++			else
++				rssi_larger_ant = AUX_ANT;
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, (" Main_Cnt = (( %d ))  , Main_RSSI= ((  %d ))\n", pDM_FatTable->MainAnt_Cnt[i], Main_RSSI));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, (" Aux_Cnt   = (( %d ))  , Aux_RSSI = ((  %d ))\n", pDM_FatTable->AuxAnt_Cnt[i], Aux_RSSI));
++						
++			if(  ((Main_RSSI>=Evm_RSSI_TH_High||Aux_RSSI>=Evm_RSSI_TH_High )|| (pDM_FatTable->EVM_method_enable==1)  )
++				//&& (Diff_RSSI <= FORCE_RSSI_DIFF + 1)
++                                    )
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[> TH_H || EVM_method_enable==1]  && "));
++				
++				if(((Main_RSSI>=Evm_RSSI_TH_Low)||(Aux_RSSI>=Evm_RSSI_TH_Low) ))
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[> TH_L ] \n"));
++
++					//2 [ Normal state Main]
++					if(pDM_FatTable->FAT_State == NORMAL_STATE_MIAN)
++					{
++
++						pDM_FatTable->EVM_method_enable=1;
++						odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++						pDM_Odm->antdiv_period = pDM_Odm->evm_antdiv_period;
++
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ start training: MIAN] \n"));
++						pDM_FatTable->MainAntEVM_Sum[i] = 0;
++						pDM_FatTable->AuxAntEVM_Sum[i] = 0;
++						pDM_FatTable->MainAntEVM_Cnt[i] = 0;
++						pDM_FatTable->AuxAntEVM_Cnt[i] = 0;
++
++						pDM_FatTable->FAT_State = NORMAL_STATE_AUX;
++						ODM_SetMACReg(pDM_Odm, 0x608, BIT8, 1); //Accept CRC32 Error packets.
++						ODM_UpdateRxIdleAnt(pDM_Odm, MAIN_ANT);
++						
++						pDM_FatTable->CRC32_Ok_Cnt=0;
++						pDM_FatTable->CRC32_Fail_Cnt=0;
++						ODM_SetTimer(pDM_Odm,&pDM_Odm->EVM_FastAntTrainingTimer, pDM_Odm->antdiv_intvl ); //m
++					}
++					//2 [ Normal state Aux ]
++					else if(pDM_FatTable->FAT_State == NORMAL_STATE_AUX)
++					{
++						pDM_FatTable->MainCRC32_Ok_Cnt=pDM_FatTable->CRC32_Ok_Cnt;
++						pDM_FatTable->MainCRC32_Fail_Cnt=pDM_FatTable->CRC32_Fail_Cnt;
++						
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ start training: AUX] \n"));
++						pDM_FatTable->FAT_State = TRAINING_STATE;
++						ODM_UpdateRxIdleAnt(pDM_Odm, AUX_ANT);
++
++						pDM_FatTable->CRC32_Ok_Cnt=0;
++						pDM_FatTable->CRC32_Fail_Cnt=0;
++						ODM_SetTimer(pDM_Odm,&pDM_Odm->EVM_FastAntTrainingTimer, pDM_Odm->antdiv_intvl ); //ms
++					}					
++					else if(pDM_FatTable->FAT_State == TRAINING_STATE)
++					{
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Training state ] \n"));
++						pDM_FatTable->FAT_State = NORMAL_STATE_MIAN;
++						
++						//3 [CRC32 statistic]
++						pDM_FatTable->AuxCRC32_Ok_Cnt=pDM_FatTable->CRC32_Ok_Cnt;
++						pDM_FatTable->AuxCRC32_Fail_Cnt=pDM_FatTable->CRC32_Fail_Cnt;
++
++						if ((pDM_FatTable->MainCRC32_Ok_Cnt > ((pDM_FatTable->AuxCRC32_Ok_Cnt)<<1)) || ((Diff_RSSI >= 20) && (rssi_larger_ant == MAIN_ANT))) {
++							pDM_FatTable->TargetAnt_CRC32=MAIN_ANT;
++							Force_antenna=TRUE;
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("CRC32 Force Main\n"));
++						} else if ((pDM_FatTable->AuxCRC32_Ok_Cnt > ((pDM_FatTable->MainCRC32_Ok_Cnt)<<1)) || ((Diff_RSSI >= 20) && (rssi_larger_ant == AUX_ANT))) {
++							pDM_FatTable->TargetAnt_CRC32=AUX_ANT;
++							Force_antenna=TRUE;
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("CRC32 Force Aux\n"));
++						}
++						else
++						{
++							if(pDM_FatTable->MainCRC32_Fail_Cnt<=5)
++								pDM_FatTable->MainCRC32_Fail_Cnt=5;
++							
++							if(pDM_FatTable->AuxCRC32_Fail_Cnt<=5)
++								pDM_FatTable->AuxCRC32_Fail_Cnt=5;
++						
++							if(pDM_FatTable->MainCRC32_Ok_Cnt >pDM_FatTable->MainCRC32_Fail_Cnt )
++								Main_above1=TRUE;
++						
++							if(pDM_FatTable->AuxCRC32_Ok_Cnt >pDM_FatTable->AuxCRC32_Fail_Cnt )
++								Aux_above1=TRUE;
++
++							if(Main_above1==TRUE && Aux_above1==FALSE)
++							{
++								Force_antenna=TRUE;
++								pDM_FatTable->TargetAnt_CRC32=MAIN_ANT;
++							}
++							else if(Main_above1==FALSE && Aux_above1==TRUE)
++							{
++								Force_antenna=TRUE;
++								pDM_FatTable->TargetAnt_CRC32=AUX_ANT;
++							}
++							else if(Main_above1==TRUE && Aux_above1==TRUE)
++							{
++								Main_CRC_utility=((pDM_FatTable->MainCRC32_Ok_Cnt)<<7)/pDM_FatTable->MainCRC32_Fail_Cnt;
++								Aux_CRC_utility=((pDM_FatTable->AuxCRC32_Ok_Cnt)<<7)/pDM_FatTable->AuxCRC32_Fail_Cnt;
++								pDM_FatTable->TargetAnt_CRC32 = (Main_CRC_utility==Aux_CRC_utility)?(pDM_FatTable->pre_TargetAnt_enhance):((Main_CRC_utility>=Aux_CRC_utility)?MAIN_ANT:AUX_ANT);
++								
++								if(Main_CRC_utility!=0 && Aux_CRC_utility!=0)
++								{
++									if(Main_CRC_utility>=Aux_CRC_utility)
++										utility_ratio=(Main_CRC_utility<<1)/Aux_CRC_utility;
++									else
++										utility_ratio=(Aux_CRC_utility<<1)/Main_CRC_utility;
++								}
++							}
++							else if(Main_above1==FALSE && Aux_above1==FALSE)
++							{
++								if(pDM_FatTable->MainCRC32_Ok_Cnt==0)
++									pDM_FatTable->MainCRC32_Ok_Cnt=1;
++								if(pDM_FatTable->AuxCRC32_Ok_Cnt==0)
++									pDM_FatTable->AuxCRC32_Ok_Cnt=1;
++								
++								Main_CRC_utility=((pDM_FatTable->MainCRC32_Fail_Cnt)<<7)/pDM_FatTable->MainCRC32_Ok_Cnt;
++								Aux_CRC_utility=((pDM_FatTable->AuxCRC32_Fail_Cnt)<<7)/pDM_FatTable->AuxCRC32_Ok_Cnt;
++								pDM_FatTable->TargetAnt_CRC32 = (Main_CRC_utility==Aux_CRC_utility)?(pDM_FatTable->pre_TargetAnt_enhance):((Main_CRC_utility<=Aux_CRC_utility)?MAIN_ANT:AUX_ANT);	
++
++								if(Main_CRC_utility!=0 && Aux_CRC_utility!=0)
++								{
++									if(Main_CRC_utility>=Aux_CRC_utility)
++										utility_ratio=(Main_CRC_utility<<1)/(Aux_CRC_utility);
++									else
++										utility_ratio=(Aux_CRC_utility<<1)/(Main_CRC_utility);
++								}
++							}
++						}
++						ODM_SetMACReg(pDM_Odm, 0x608, BIT8, 0);//NOT Accept CRC32 Error packets.
++
++						//3 [EVM statistic]			
++						Main_EVM = (pDM_FatTable->MainAntEVM_Cnt[i]!=0)?(pDM_FatTable->MainAntEVM_Sum[i]/pDM_FatTable->MainAntEVM_Cnt[i]):0;
++						Aux_EVM = (pDM_FatTable->AuxAntEVM_Cnt[i]!=0)?(pDM_FatTable->AuxAntEVM_Sum[i]/pDM_FatTable->AuxAntEVM_Cnt[i]):0;
++						pDM_FatTable->TargetAnt_EVM = (Main_EVM==Aux_EVM)?(pDM_FatTable->pre_TargetAnt_enhance):((Main_EVM>=Aux_EVM)?MAIN_ANT:AUX_ANT);
++
++						if((Main_EVM==0 || Aux_EVM==0))
++							diff_EVM=0;
++						else if(Main_EVM>=Aux_EVM)
++							diff_EVM=Main_EVM-Aux_EVM;
++						else
++							diff_EVM=Aux_EVM-Main_EVM;
++
++						//2 [ Decision state ]					
++						if (pDM_FatTable->TargetAnt_EVM == pDM_FatTable->TargetAnt_CRC32) {
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Decision Type 1, CRC_utility = ((%d)), EVM_diff = ((%d))\n", utility_ratio, diff_EVM));
++							
++							if ((utility_ratio < 2 && Force_antenna == FALSE) && diff_EVM <= 30)
++								pDM_FatTable->TargetAnt_enhance = pDM_FatTable->pre_TargetAnt_enhance;
++							else
++								pDM_FatTable->TargetAnt_enhance = pDM_FatTable->TargetAnt_EVM;
++						} else if ((diff_EVM <= 50 && (utility_ratio > 4 && Force_antenna == FALSE)) || (Force_antenna == TRUE)) {
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Decision Type 2, CRC_utility = ((%d)), EVM_diff = ((%d))\n", utility_ratio, diff_EVM));
++							pDM_FatTable->TargetAnt_enhance = pDM_FatTable->TargetAnt_CRC32;
++						} else if (diff_EVM >= 100) {
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Decision Type 3, CRC_utility = ((%d)), EVM_diff = ((%d))\n", utility_ratio, diff_EVM));
++							pDM_FatTable->TargetAnt_enhance = pDM_FatTable->TargetAnt_EVM;
++						} else if (utility_ratio >= 6 && Force_antenna == FALSE) {
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Decision Type 4, CRC_utility = ((%d)), EVM_diff = ((%d))\n", utility_ratio, diff_EVM));
++							pDM_FatTable->TargetAnt_enhance = pDM_FatTable->TargetAnt_CRC32;
++						} else {
++						
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Decision Type 5, CRC_utility = ((%d)), EVM_diff = ((%d))\n", utility_ratio, diff_EVM));
++						
++							if (Force_antenna == TRUE)
++								score_CRC = 3;
++							else if (utility_ratio >= 3) /*>0.5*/
++								score_CRC = 2;
++							else if (utility_ratio >= 2) /*>1*/
++								score_CRC = 1;
++							else
++								score_CRC = 0;
++							
++							if (diff_EVM >= 100)
++								score_EVM = 2;
++							else if (diff_EVM  >= 50)
++								score_EVM = 1;
++							else
++								score_EVM = 0;
++
++							if (score_CRC > score_EVM)
++								pDM_FatTable->TargetAnt_enhance = pDM_FatTable->TargetAnt_CRC32;
++							else if (score_CRC < score_EVM)
++								pDM_FatTable->TargetAnt_enhance = pDM_FatTable->TargetAnt_EVM;
++							else
++								pDM_FatTable->TargetAnt_enhance = pDM_FatTable->pre_TargetAnt_enhance;
++				}
++				pDM_FatTable->pre_TargetAnt_enhance=pDM_FatTable->TargetAnt_enhance;
++
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Client[ %d ] : MainEVM_Cnt = (( %d ))  , Main_EVM= ((  %d )) \n",i, pDM_FatTable->MainAntEVM_Cnt[i], Main_EVM));
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Client[ %d ] : AuxEVM_Cnt   = (( %d ))  , Aux_EVM = ((  %d )) \n" ,i, pDM_FatTable->AuxAntEVM_Cnt[i] , Aux_EVM));
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** TargetAnt_EVM = (( %s ))\n", ( pDM_FatTable->TargetAnt_EVM  ==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("M_CRC_Ok = (( %d ))  , M_CRC_Fail = ((  %d )), Main_CRC_utility = (( %d )) \n" , pDM_FatTable->MainCRC32_Ok_Cnt, pDM_FatTable->MainCRC32_Fail_Cnt,Main_CRC_utility));
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("A_CRC_Ok  = (( %d ))  , A_CRC_Fail = ((  %d )), Aux_CRC_utility   = ((  %d )) \n" , pDM_FatTable->AuxCRC32_Ok_Cnt, pDM_FatTable->AuxCRC32_Fail_Cnt,Aux_CRC_utility));
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** TargetAnt_CRC32 = (( %s ))\n", ( pDM_FatTable->TargetAnt_CRC32 ==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("****** TargetAnt_enhance = (( %s ))******\n", ( pDM_FatTable->TargetAnt_enhance ==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++				
++					
++					}
++				}
++				else // RSSI< = Evm_RSSI_TH_Low
++				{ 
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ <TH_L: escape from > TH_L ] \n"));
++					odm_EVM_FastAnt_Reset(pDM_Odm);
++				}
++			}
++			else 
++			{ 
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[escape from> TH_H || EVM_method_enable==1] \n"));
++				odm_EVM_FastAnt_Reset(pDM_Odm);
++			}
++		}
++		else
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[multi-Client] \n"));
++			odm_EVM_FastAnt_Reset(pDM_Odm);
++		}			
++	}
++}
++
++VOID
++odm_EVM_FastAntTrainingCallback(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("******odm_EVM_FastAntTrainingCallback****** \n"));
++	odm_HW_AntDiv(pDM_Odm);
++}
++#endif
++
++VOID
++odm_HW_AntDiv(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte	i,MinMaxRSSI=0xFF,  AntDivMaxRSSI=0, MaxRSSI=0, LocalMaxRSSI;
++	u4Byte	Main_RSSI, Aux_RSSI;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;	
++	u1Byte	RxIdleAnt = pDM_FatTable->RxIdleAnt, TargetAnt = 7;
++	pDIG_T	pDM_DigTable = &pDM_Odm->DM_DigTable;
++	PSTA_INFO_T   	pEntry;
++
++	#if (BEAMFORMING_SUPPORT == 1)
++	#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++	pBDC_T    pDM_BdcTable = &pDM_Odm->DM_BdcTable;
++	u4Byte	TH1=500000;
++	u4Byte	TH2=10000000; 
++	u4Byte	MA_rx_Temp, degrade_TP_temp, improve_TP_temp;
++	u1Byte	Monitor_RSSI_threshold=30;
++
++	pDM_BdcTable->BF_pass=TRUE;
++	pDM_BdcTable->DIV_pass=TRUE;
++	pDM_BdcTable->bAll_DivSta_Idle=TRUE;
++	pDM_BdcTable->bAll_BFSta_Idle=TRUE;
++	pDM_BdcTable->num_BfTar=0 ;
++	pDM_BdcTable->num_DivTar=0;
++	pDM_BdcTable->num_Client=0;
++	#endif
++	#endif
++
++	if(!pDM_Odm->bLinked) //bLinked==False
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[No Link!!!]\n"));
++		
++		if(pDM_FatTable->bBecomeLinked == TRUE)
++		{
++			odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++			ODM_UpdateRxIdleAnt(pDM_Odm, MAIN_ANT);
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++			pDM_Odm->antdiv_period=0;
++
++			pDM_FatTable->bBecomeLinked = pDM_Odm->bLinked;
++		}
++		return;
++	}	
++	else
++	{
++		if(pDM_FatTable->bBecomeLinked ==FALSE)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Linked !!!]\n"));
++			odm_AntDiv_on_off(pDM_Odm, ANTDIV_ON);
++			/*odm_Tx_By_TxDesc_or_Reg(pDM_Odm , TX_BY_DESC);*/
++			
++			//if(pDM_Odm->SupportICType == ODM_RTL8821 )
++				//ODM_SetBBReg(pDM_Odm, 0x800 , BIT25, 0); //CCK AntDiv function disable
++				
++			//#if(DM_ODM_SUPPORT_TYPE  == ODM_AP)
++			//else if(pDM_Odm->SupportICType == ODM_RTL8881A)
++			//	ODM_SetBBReg(pDM_Odm, 0x800 , BIT25, 0); //CCK AntDiv function disable
++			//#endif
++			
++			//else if(pDM_Odm->SupportICType == ODM_RTL8723B ||pDM_Odm->SupportICType == ODM_RTL8812)
++				//ODM_SetBBReg(pDM_Odm, 0xA00 , BIT15, 0); //CCK AntDiv function disable
++			
++			pDM_FatTable->bBecomeLinked = pDM_Odm->bLinked;
++
++			if(pDM_Odm->SupportICType==ODM_RTL8723B && pDM_Odm->AntDivType == CG_TRX_HW_ANTDIV)
++			{
++				ODM_SetBBReg(pDM_Odm, 0x930 , 0xF0, 8); // DPDT_P = ANTSEL[0]   // for 8723B AntDiv function patch.  BB  Dino  130412	
++				ODM_SetBBReg(pDM_Odm, 0x930 , 0xF, 8); // DPDT_N = ANTSEL[0]
++			}
++			
++			//2 BDC Init
++			#if (BEAMFORMING_SUPPORT == 1)
++			#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++				odm_BDC_Init(pDM_Odm);
++			#endif
++			#endif
++			
++			#ifdef ODM_EVM_ENHANCE_ANTDIV
++				odm_EVM_FastAnt_Reset(pDM_Odm);
++			#endif
++		}	
++	}	
++
++	if (*(pDM_FatTable->pForceTxAntByDesc) == FALSE) {
++		if (pDM_Odm->bOneEntryOnly == TRUE)
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++		else
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_DESC);
++	}
++		
++
++	//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("\n AntDiv Start =>\n"));
++
++	#ifdef ODM_EVM_ENHANCE_ANTDIV
++	if(pDM_Odm->antdiv_evm_en==1)
++	{
++		odm_EVM_Enhance_AntDiv(pDM_Odm);
++		if(pDM_FatTable->FAT_State !=NORMAL_STATE_MIAN)
++			return;
++	}
++	else
++	{
++		odm_EVM_FastAnt_Reset(pDM_Odm);
++	}
++	#endif
++	
++	//2 BDC Mode Arbitration
++	#if (BEAMFORMING_SUPPORT == 1)
++	#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++	if(pDM_Odm->antdiv_evm_en == 0 ||pDM_FatTable->EVM_method_enable==0)
++	{
++		odm_BF_AntDiv_ModeArbitration(pDM_Odm);
++	}
++	#endif
++	#endif
++
++	for (i=0; i<ODM_ASSOCIATE_ENTRY_NUM; i++)
++	{
++		pEntry = pDM_Odm->pODM_StaInfo[i];
++		if(IS_STA_VALID(pEntry))
++		{
++			//2 Caculate RSSI per Antenna
++			Main_RSSI = (pDM_FatTable->MainAnt_Cnt[i]!=0)?(pDM_FatTable->MainAnt_Sum[i]/pDM_FatTable->MainAnt_Cnt[i]):0;
++			Aux_RSSI = (pDM_FatTable->AuxAnt_Cnt[i]!=0)?(pDM_FatTable->AuxAnt_Sum[i]/pDM_FatTable->AuxAnt_Cnt[i]):0;
++			TargetAnt = (Main_RSSI==Aux_RSSI)?pDM_FatTable->RxIdleAnt:((Main_RSSI>=Aux_RSSI)?MAIN_ANT:AUX_ANT);
++		
++			//ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("*** SupportICType=[%d] \n",pDM_Odm->SupportICType));
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Client[ %d ] : Main_Cnt = (( %d ))  , Main_RSSI= ((  %d )) \n",i, pDM_FatTable->MainAnt_Cnt[i], Main_RSSI));
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Client[ %d ] : Aux_Cnt   = (( %d ))  , Aux_RSSI = ((  %d )) \n" ,i, pDM_FatTable->AuxAnt_Cnt[i] , Aux_RSSI));
++			//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** MAC ID:[ %d ] , TargetAnt = (( %s )) \n", i ,( TargetAnt ==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++			//ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("*** Phy_AntSel_A=[ %d, %d, %d] \n",((pDM_Odm->DM_FatTable.antsel_rx_keep_0)&BIT2)>>2,
++			//	                                                                              ((pDM_Odm->DM_FatTable.antsel_rx_keep_0)&BIT1) >>1, ((pDM_Odm->DM_FatTable.antsel_rx_keep_0)&BIT0)));
++
++			LocalMaxRSSI = (Main_RSSI>Aux_RSSI)?Main_RSSI:Aux_RSSI;
++			//2 Select MaxRSSI for DIG
++			if((LocalMaxRSSI > AntDivMaxRSSI) && (LocalMaxRSSI < 40))
++				AntDivMaxRSSI = LocalMaxRSSI;
++			if(LocalMaxRSSI > MaxRSSI)
++				MaxRSSI = LocalMaxRSSI;
++
++			//2 Select RX Idle Antenna
++			if ( (LocalMaxRSSI != 0) &&  (LocalMaxRSSI < MinMaxRSSI) )
++			{
++				RxIdleAnt = TargetAnt;
++				MinMaxRSSI = LocalMaxRSSI;
++			}
++
++			#ifdef ODM_EVM_ENHANCE_ANTDIV
++			if(pDM_Odm->antdiv_evm_en==1)
++			{
++				if(pDM_FatTable->TargetAnt_enhance!=0xFF)
++				{
++					TargetAnt=pDM_FatTable->TargetAnt_enhance;
++					RxIdleAnt = pDM_FatTable->TargetAnt_enhance;
++				}
++			}
++			#endif
++
++			//2 Select TX Antenna
++			if(pDM_Odm->AntDivType != CGCS_RX_HW_ANTDIV)
++			{
++				#if (BEAMFORMING_SUPPORT == 1)
++				#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++					if(pDM_BdcTable->w_BFee_Client[i]==0)
++				#endif	
++				#endif
++					{
++						odm_UpdateTxAnt(pDM_Odm, TargetAnt, i);
++					}
++			}
++
++			//------------------------------------------------------------
++
++			#if (BEAMFORMING_SUPPORT == 1)
++			#if(DM_ODM_SUPPORT_TYPE  == ODM_AP) 
++
++			pDM_BdcTable->num_Client++;
++
++			if(pDM_BdcTable->BDC_Mode==BDC_MODE_2 ||pDM_BdcTable->BDC_Mode==BDC_MODE_3)
++			{
++				//2 Byte Counter
++
++				MA_rx_Temp=  (pEntry->rx_byte_cnt_LowMAW)<<3 ; //  RX  TP   ( bit /sec)
++				
++				if(pDM_BdcTable->BDC_state==BDC_BFer_TRAIN_STATE)
++				{
++					pDM_BdcTable->MA_rx_TP_DIV[i]=  MA_rx_Temp ;
++				}
++				else
++				{
++					pDM_BdcTable->MA_rx_TP[i] =MA_rx_Temp ;
++				}
++
++				if( (MA_rx_Temp < TH2)   &&  (MA_rx_Temp > TH1) && (LocalMaxRSSI<=Monitor_RSSI_threshold))
++				{
++					if(pDM_BdcTable->w_BFer_Client[i]==1) // Bfer_Target
++					{
++						pDM_BdcTable->num_BfTar++;
++						
++						if(pDM_BdcTable->BDC_state==BDC_DECISION_STATE && pDM_BdcTable->BDC_Try_flag==0)
++						{
++						        improve_TP_temp = (pDM_BdcTable->MA_rx_TP_DIV[i] * 9)>>3 ; //* 1.125
++					        	pDM_BdcTable->BF_pass = (pDM_BdcTable->MA_rx_TP[i] > improve_TP_temp)?TRUE:FALSE;
++							ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Client[ %d ] :  { MA_rx_TP,improve_TP_temp , MA_rx_TP_DIV,  BF_pass}={ %d,  %d, %d , %d }  \n" ,i,pDM_BdcTable->MA_rx_TP[i],improve_TP_temp,pDM_BdcTable->MA_rx_TP_DIV[i], pDM_BdcTable->BF_pass ));
++						}		
++					}		
++					else// DIV_Target
++					{
++						pDM_BdcTable->num_DivTar++;
++						
++						if(pDM_BdcTable->BDC_state==BDC_DECISION_STATE && pDM_BdcTable->BDC_Try_flag==0)
++						{
++					        	degrade_TP_temp=(pDM_BdcTable->MA_rx_TP_DIV[i]*5)>>3;//* 0.625
++					        	pDM_BdcTable->DIV_pass = (pDM_BdcTable->MA_rx_TP[i] >degrade_TP_temp)?TRUE:FALSE;
++							ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Client[ %d ] :  { MA_rx_TP, degrade_TP_temp , MA_rx_TP_DIV,  DIV_pass}=\n{ %d,  %d, %d , %d }  \n" ,i,pDM_BdcTable->MA_rx_TP[i],degrade_TP_temp,pDM_BdcTable->MA_rx_TP_DIV[i], pDM_BdcTable->DIV_pass ));
++						}							
++					}
++				}
++
++				if(MA_rx_Temp > TH1)
++				{
++					if(pDM_BdcTable->w_BFer_Client[i]==1) // Bfer_Target
++					{
++						pDM_BdcTable->bAll_BFSta_Idle=FALSE;
++					}		
++					else// DIV_Target
++					{
++						pDM_BdcTable->bAll_DivSta_Idle=FALSE;
++					}
++				}
++		
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Client[ %d ] :  { BFmeeCap , BFmerCap}  = { %d , %d } \n" ,i, pDM_BdcTable->w_BFee_Client[i] , pDM_BdcTable->w_BFer_Client[i]));
++
++				if(pDM_BdcTable->BDC_state==BDC_BFer_TRAIN_STATE)
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Client[ %d ] :    MA_rx_TP_DIV = (( %d ))  \n",i,pDM_BdcTable->MA_rx_TP_DIV[i]  ));
++					
++				}
++				else
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Client[ %d ] :    MA_rx_TP = (( %d ))  \n",i,pDM_BdcTable->MA_rx_TP[i]  ));
++				}
++			
++			}
++			#endif
++			#endif
++
++		}
++
++		#if (BEAMFORMING_SUPPORT == 1)
++		#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++		if(pDM_BdcTable->BDC_Try_flag==0)
++		#endif
++		#endif	
++		{
++        		pDM_FatTable->MainAnt_Sum[i] = 0;
++        		pDM_FatTable->AuxAnt_Sum[i] = 0;
++        		pDM_FatTable->MainAnt_Cnt[i] = 0;
++         		pDM_FatTable->AuxAnt_Cnt[i] = 0;
++                }
++	}
++       
++
++	
++	//2 Set RX Idle Antenna & TX Antenna(Because of HW Bug )	
++	#if(DM_ODM_SUPPORT_TYPE  == ODM_AP ) 
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** RxIdleAnt = (( %s ))\n\n", ( RxIdleAnt ==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++		
++		#if (BEAMFORMING_SUPPORT == 1)
++		#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++			if(pDM_BdcTable->BDC_Mode==BDC_MODE_1 ||pDM_BdcTable->BDC_Mode==BDC_MODE_3)
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** BDC_RxIdleUpdate_counter = (( %d ))\n", pDM_BdcTable->BDC_RxIdleUpdate_counter));
++			
++				if(pDM_BdcTable->BDC_RxIdleUpdate_counter==1)
++				{
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***Update RxIdle Antenna!!! \n"));
++					pDM_BdcTable->BDC_RxIdleUpdate_counter=30;
++					ODM_UpdateRxIdleAnt(pDM_Odm, RxIdleAnt);
++				}
++				else
++				{
++					pDM_BdcTable->BDC_RxIdleUpdate_counter--;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***NOT update RxIdle Antenna because of BF  ( need to fix TX-ant)\n"));
++				}
++			}
++			else
++		#endif
++		#endif	
++				ODM_UpdateRxIdleAnt(pDM_Odm, RxIdleAnt);
++	#else
++	
++		ODM_UpdateRxIdleAnt(pDM_Odm, RxIdleAnt);
++	
++	#endif//#if(DM_ODM_SUPPORT_TYPE  == ODM_AP)
++
++
++
++	//2 BDC Main Algorithm
++	#if (BEAMFORMING_SUPPORT == 1)
++	#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++	if(pDM_Odm->antdiv_evm_en ==0 ||pDM_FatTable->EVM_method_enable==0)
++	{
++		odm_BDCcoex_BFeeRxDiv_Arbitration(pDM_Odm);
++	}
++	#endif
++	#endif
++
++	if(AntDivMaxRSSI == 0)
++		pDM_DigTable->AntDiv_RSSI_max = pDM_Odm->RSSI_Min;
++	else
++		pDM_DigTable->AntDiv_RSSI_max = AntDivMaxRSSI;
++	
++	pDM_DigTable->RSSI_max = MaxRSSI;
++}
++
++
++
++#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++
++VOID
++odm_S0S1_SWAntDiv_Reset(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T		pDM_SWAT_Table	= &pDM_Odm->DM_SWAT_Table;
++	pFAT_T		pDM_FatTable		= &pDM_Odm->DM_FatTable;
++
++	pDM_FatTable->bBecomeLinked  = FALSE;
++	pDM_SWAT_Table->try_flag = SWAW_STEP_INIT;	
++	pDM_SWAT_Table->Double_chk_flag = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("odm_S0S1_SWAntDiv_Reset(): pDM_FatTable->bBecomeLinked = %d\n", pDM_FatTable->bBecomeLinked));
++}
++
++VOID
++odm_S0S1_SwAntDiv(
++	IN		PVOID			pDM_VOID,	
++	IN		u1Byte			Step
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T			pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;	
++	u4Byte			i, MinMaxRSSI = 0xFF, LocalMaxRSSI, LocalMinRSSI;
++	u4Byte			Main_RSSI, Aux_RSSI;
++	u1Byte			HighTraffic_TrainTime_U = 0x32, HighTraffic_TrainTime_L = 0, Train_time_temp;
++	u1Byte			LowTraffic_TrainTime_U = 200, LowTraffic_TrainTime_L = 0;
++	u1Byte			RxIdleAnt = pDM_SWAT_Table->PreAntenna, TargetAnt, nextAnt = 0;
++	PSTA_INFO_T		pEntry = NULL;
++	u4Byte			value32;
++
++	
++	if(!pDM_Odm->bLinked) //bLinked==False
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[No Link!!!]\n"));
++		if(pDM_FatTable->bBecomeLinked == TRUE)
++		{
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++			if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Set REG 948[9:6]=0x0\n"));
++				ODM_SetBBReg(pDM_Odm, 0x948 , (BIT9|BIT8|BIT7|BIT6), 0x0); 
++			}
++			pDM_FatTable->bBecomeLinked = pDM_Odm->bLinked;
++		}
++		return;
++	}
++	else
++	{
++		if(pDM_FatTable->bBecomeLinked ==FALSE)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Linked !!!]\n"));
++			
++			if(pDM_Odm->SupportICType == ODM_RTL8723B)
++			{
++				value32 = ODM_GetBBReg(pDM_Odm, 0x864, BIT5|BIT4|BIT3);
++
++				#if (RTL8723B_SUPPORT == 1)
++					if (value32 == 0x0)
++						ODM_UpdateRxIdleAnt_8723B(pDM_Odm, MAIN_ANT, ANT1_2G, ANT2_2G);
++					else if (value32 == 0x1)
++						ODM_UpdateRxIdleAnt_8723B(pDM_Odm, AUX_ANT, ANT2_2G, ANT1_2G);
++				#endif
++				
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("8723B: First link! Force antenna to  %s\n",(value32 == 0x0?"MAIN":"AUX") ));
++			}			
++			pDM_FatTable->bBecomeLinked = pDM_Odm->bLinked;
++		}
++	}
++
++	if (*(pDM_FatTable->pForceTxAntByDesc) == FALSE) {
++		if (pDM_Odm->bOneEntryOnly == TRUE)
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++		else
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_DESC);
++	}
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[%d] { try_flag=(( %d )), Step=(( %d )), Double_chk_flag = (( %d )) }\n",
++		__LINE__,pDM_SWAT_Table->try_flag,Step,pDM_SWAT_Table->Double_chk_flag));
++
++	// Handling step mismatch condition.
++	// Peak step is not finished at last time. Recover the variable and check again.
++	if(	Step != pDM_SWAT_Table->try_flag	)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Step != try_flag]    Need to Reset After Link\n"));
++		ODM_SwAntDivRestAfterLink(pDM_Odm);
++	}
++
++	if (pDM_SWAT_Table->try_flag == SWAW_STEP_INIT) {
++		
++		pDM_SWAT_Table->try_flag = SWAW_STEP_PEEK;
++		pDM_SWAT_Table->Train_time_flag=0;
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[set try_flag = 0]  Prepare for peek!\n\n"));
++		return;
++		
++	} else {
++	
++		//1 Normal State (Begin Trying)
++		if (pDM_SWAT_Table->try_flag == SWAW_STEP_PEEK) {
++		
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("TxOkCnt=(( %llu )), RxOkCnt=(( %llu )), TrafficLoad = (%d))\n", pDM_Odm->curTxOkCnt, pDM_Odm->curRxOkCnt, pDM_Odm->TrafficLoad));
++			
++			if (pDM_Odm->TrafficLoad == TRAFFIC_HIGH)
++			{
++				Train_time_temp = pDM_SWAT_Table->Train_time ;
++				
++				if(pDM_SWAT_Table->Train_time_flag==3)
++				{
++					HighTraffic_TrainTime_L=0xa;
++					
++					if(Train_time_temp<=16)
++						Train_time_temp=HighTraffic_TrainTime_L;
++					else
++						Train_time_temp-=16;
++					
++				}				
++				else if(pDM_SWAT_Table->Train_time_flag==2)
++				{
++					Train_time_temp-=8;
++					HighTraffic_TrainTime_L=0xf;
++				}	
++				else if(pDM_SWAT_Table->Train_time_flag==1)
++				{
++					Train_time_temp-=4;
++					HighTraffic_TrainTime_L=0x1e;
++				}
++				else if(pDM_SWAT_Table->Train_time_flag==0)
++				{
++					Train_time_temp+=8;
++					HighTraffic_TrainTime_L=0x28;
++				}
++
++				
++				//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** Train_time_temp = ((%d))\n",Train_time_temp));
++
++				//--
++				if(Train_time_temp > HighTraffic_TrainTime_U)
++					Train_time_temp=HighTraffic_TrainTime_U;
++				
++				else if(Train_time_temp < HighTraffic_TrainTime_L)
++					Train_time_temp=HighTraffic_TrainTime_L;
++
++				pDM_SWAT_Table->Train_time = Train_time_temp; /*10ms~200ms*/
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Train_time_flag=((%d)), Train_time=((%d))\n", pDM_SWAT_Table->Train_time_flag, pDM_SWAT_Table->Train_time));
++
++			} else if ((pDM_Odm->TrafficLoad == TRAFFIC_MID) || (pDM_Odm->TrafficLoad == TRAFFIC_LOW)) { 
++			
++				Train_time_temp=pDM_SWAT_Table->Train_time ;
++				
++				if(pDM_SWAT_Table->Train_time_flag==3)
++				{
++					LowTraffic_TrainTime_L=10;
++					if(Train_time_temp<50)
++						Train_time_temp=LowTraffic_TrainTime_L;
++					else
++						Train_time_temp-=50;
++				}				
++				else if(pDM_SWAT_Table->Train_time_flag==2)
++				{
++					Train_time_temp-=30;
++					LowTraffic_TrainTime_L=36;
++				}	
++				else if(pDM_SWAT_Table->Train_time_flag==1)
++				{
++					Train_time_temp-=10;
++					LowTraffic_TrainTime_L=40;
++				} else {
++				
++					Train_time_temp += 10;
++					LowTraffic_TrainTime_L = 50;
++				}
++				
++				//--
++				if(Train_time_temp >= LowTraffic_TrainTime_U)
++					Train_time_temp=LowTraffic_TrainTime_U;
++				
++				else if(Train_time_temp <= LowTraffic_TrainTime_L)
++					Train_time_temp=LowTraffic_TrainTime_L;
++
++				pDM_SWAT_Table->Train_time = Train_time_temp; /*10ms~200ms*/
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Train_time_flag=((%d)) , Train_time=((%d))\n", pDM_SWAT_Table->Train_time_flag, pDM_SWAT_Table->Train_time));
++
++			} else {
++				pDM_SWAT_Table->Train_time = 0xc8; /*200ms*/
++
++			}
++				
++			//-----------------
++		
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Current MinMaxRSSI is ((%d))\n", pDM_FatTable->MinMaxRSSI));
++
++                        //---reset index---
++			if (pDM_SWAT_Table->reset_idx >= RSSI_CHECK_RESET_PERIOD) {
++				
++				pDM_FatTable->MinMaxRSSI = 0;
++				pDM_SWAT_Table->reset_idx = 0;
++			}
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("reset_idx = (( %d ))\n", pDM_SWAT_Table->reset_idx));
++
++			pDM_SWAT_Table->reset_idx++;
++
++			//---double check flag---
++			if ((pDM_FatTable->MinMaxRSSI > RSSI_CHECK_THRESHOLD) && (pDM_SWAT_Table->Double_chk_flag == 0))
++			{			
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, (" MinMaxRSSI is ((%d)), and > %d\n",
++					pDM_FatTable->MinMaxRSSI, RSSI_CHECK_THRESHOLD));
++
++				pDM_SWAT_Table->Double_chk_flag =1;
++				pDM_SWAT_Table->try_flag = SWAW_STEP_DETERMINE; 
++				pDM_SWAT_Table->RSSI_Trying = 0;
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Test the current Ant for (( %d )) ms again\n", pDM_SWAT_Table->Train_time));
++				ODM_UpdateRxIdleAnt(pDM_Odm, pDM_FatTable->RxIdleAnt);
++				ODM_SetTimer(pDM_Odm, &(pDM_SWAT_Table->phydm_SwAntennaSwitchTimer), pDM_SWAT_Table->Train_time); /*ms*/	
++				return;
++			}
++			
++			nextAnt = (pDM_FatTable->RxIdleAnt == MAIN_ANT)? AUX_ANT : MAIN_ANT;
++
++			pDM_SWAT_Table->try_flag = SWAW_STEP_DETERMINE;
++			
++			if(pDM_SWAT_Table->reset_idx<=1)
++				pDM_SWAT_Table->RSSI_Trying = 2;
++			else
++				pDM_SWAT_Table->RSSI_Trying = 1;
++
++			odm_S0S1_SwAntDivByCtrlFrame(pDM_Odm, SWAW_STEP_PEEK);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[set try_flag=1]  Normal State:  Begin Trying!!\n"));	
++			
++		} else if ((pDM_SWAT_Table->try_flag == SWAW_STEP_DETERMINE) && (pDM_SWAT_Table->Double_chk_flag == 0)) {
++			
++			nextAnt = (pDM_FatTable->RxIdleAnt  == MAIN_ANT)? AUX_ANT : MAIN_ANT;		
++			pDM_SWAT_Table->RSSI_Trying--;
++		}
++		
++		//1 Decision State
++		if ((pDM_SWAT_Table->try_flag == SWAW_STEP_DETERMINE) && (pDM_SWAT_Table->RSSI_Trying == 0)) {
++			
++			BOOLEAN bByCtrlFrame = FALSE;
++			u8Byte	pkt_cnt_total = 0;
++		
++			for (i=0; i<ODM_ASSOCIATE_ENTRY_NUM; i++)
++			{
++				pEntry = pDM_Odm->pODM_StaInfo[i];
++				if(IS_STA_VALID(pEntry))
++				{
++					//2 Caculate RSSI per Antenna
++					Main_RSSI = (pDM_FatTable->MainAnt_Cnt[i]!=0)?(pDM_FatTable->MainAnt_Sum[i]/pDM_FatTable->MainAnt_Cnt[i]):0;
++					Aux_RSSI = (pDM_FatTable->AuxAnt_Cnt[i]!=0)?(pDM_FatTable->AuxAnt_Sum[i]/pDM_FatTable->AuxAnt_Cnt[i]):0;
++					
++					if(pDM_FatTable->MainAnt_Cnt[i]<=1 && pDM_FatTable->CCK_counter_main>=1)
++						Main_RSSI=0;	
++					
++					if(pDM_FatTable->AuxAnt_Cnt[i]<=1 && pDM_FatTable->CCK_counter_aux>=1)
++						Aux_RSSI=0;
++					
++					TargetAnt = (Main_RSSI==Aux_RSSI)?pDM_SWAT_Table->PreAntenna:((Main_RSSI>=Aux_RSSI)?MAIN_ANT:AUX_ANT);
++					LocalMaxRSSI = (Main_RSSI>=Aux_RSSI) ? Main_RSSI : Aux_RSSI;
++					LocalMinRSSI = (Main_RSSI>=Aux_RSSI) ? Aux_RSSI : Main_RSSI;
++					
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***  CCK_counter_main = (( %d ))  , CCK_counter_aux= ((  %d )) \n", pDM_FatTable->CCK_counter_main, pDM_FatTable->CCK_counter_aux));
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***  OFDM_counter_main = (( %d ))  , OFDM_counter_aux= ((  %d )) \n", pDM_FatTable->OFDM_counter_main, pDM_FatTable->OFDM_counter_aux));
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***  Main_Cnt = (( %d ))  , Main_RSSI= ((  %d )) \n", pDM_FatTable->MainAnt_Cnt[i], Main_RSSI));
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***  Aux_Cnt   = (( %d ))  , Aux_RSSI = ((  %d )) \n", pDM_FatTable->AuxAnt_Cnt[i]  , Aux_RSSI ));
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** MAC ID:[ %d ] , TargetAnt = (( %s )) \n", i ,( TargetAnt ==MAIN_ANT)?"MAIN_ANT":"AUX_ANT"));
++					
++					//2 Select RX Idle Antenna
++					
++					if (LocalMaxRSSI != 0 && LocalMaxRSSI < MinMaxRSSI)
++					{
++						RxIdleAnt = TargetAnt;
++						MinMaxRSSI = LocalMaxRSSI;
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** LocalMaxRSSI-LocalMinRSSI = ((%d))\n",(LocalMaxRSSI-LocalMinRSSI)));
++				
++						if((LocalMaxRSSI-LocalMinRSSI)>8)
++						{
++							if(LocalMinRSSI != 0)
++								pDM_SWAT_Table->Train_time_flag=3;
++							else
++							{
++								if (MinMaxRSSI > RSSI_CHECK_THRESHOLD)
++									pDM_SWAT_Table->Train_time_flag=0;
++								else
++									pDM_SWAT_Table->Train_time_flag=3;
++							}
++						}
++						else if((LocalMaxRSSI-LocalMinRSSI)>5)
++							pDM_SWAT_Table->Train_time_flag=2;
++						else if((LocalMaxRSSI-LocalMinRSSI)>2)
++							pDM_SWAT_Table->Train_time_flag=1;
++						else
++							pDM_SWAT_Table->Train_time_flag=0;
++							
++					}
++					
++					//2 Select TX Antenna
++					if(TargetAnt == MAIN_ANT)
++						pDM_FatTable->antsel_a[i] = ANT1_2G;
++					else
++						pDM_FatTable->antsel_a[i] = ANT2_2G;
++			
++				}
++				pDM_FatTable->MainAnt_Sum[i] = 0;
++				pDM_FatTable->AuxAnt_Sum[i] = 0;
++				pDM_FatTable->MainAnt_Cnt[i] = 0;
++				pDM_FatTable->AuxAnt_Cnt[i] = 0;
++			}
++
++			if(pDM_SWAT_Table->bSWAntDivByCtrlFrame)
++			{
++				odm_S0S1_SwAntDivByCtrlFrame(pDM_Odm, SWAW_STEP_DETERMINE);
++				bByCtrlFrame = TRUE;
++			}
++
++			pkt_cnt_total = pDM_FatTable->CCK_counter_main + pDM_FatTable->CCK_counter_aux + 
++							pDM_FatTable->OFDM_counter_main + pDM_FatTable->OFDM_counter_aux;
++			pDM_FatTable->CCK_counter_main=0;
++			pDM_FatTable->CCK_counter_aux=0;
++			pDM_FatTable->OFDM_counter_main=0;
++			pDM_FatTable->OFDM_counter_aux=0;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("Control frame packet counter = %d, Data frame packet counter = %llu\n", 
++				pDM_SWAT_Table->PktCnt_SWAntDivByCtrlFrame, pkt_cnt_total));
++			
++			if(MinMaxRSSI == 0xff || ((pkt_cnt_total < (pDM_SWAT_Table->PktCnt_SWAntDivByCtrlFrame >> 1)) && pDM_Odm->PhyDbgInfo.NumQryBeaconPkt < 2))
++			{	
++				MinMaxRSSI = 0;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("Check RSSI of control frame because MinMaxRSSI == 0xff\n"));
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("bByCtrlFrame = %d\n", bByCtrlFrame));
++				
++				if(bByCtrlFrame)
++				{
++					Main_RSSI = (pDM_FatTable->MainAnt_CtrlFrame_Cnt!=0)?(pDM_FatTable->MainAnt_CtrlFrame_Sum/pDM_FatTable->MainAnt_CtrlFrame_Cnt):0;
++					Aux_RSSI = (pDM_FatTable->AuxAnt_CtrlFrame_Cnt!=0)?(pDM_FatTable->AuxAnt_CtrlFrame_Sum/pDM_FatTable->AuxAnt_CtrlFrame_Cnt):0;
++					
++					if(pDM_FatTable->MainAnt_CtrlFrame_Cnt<=1 && pDM_FatTable->CCK_CtrlFrame_Cnt_main>=1)
++						Main_RSSI=0;	
++					
++					if(pDM_FatTable->AuxAnt_CtrlFrame_Cnt<=1 && pDM_FatTable->CCK_CtrlFrame_Cnt_aux>=1)
++						Aux_RSSI=0;
++
++					if (Main_RSSI != 0 || Aux_RSSI != 0)
++					{
++						RxIdleAnt = (Main_RSSI==Aux_RSSI)?pDM_SWAT_Table->PreAntenna:((Main_RSSI>=Aux_RSSI)?MAIN_ANT:AUX_ANT);
++						LocalMaxRSSI = (Main_RSSI>=Aux_RSSI) ? Main_RSSI : Aux_RSSI;
++						LocalMinRSSI = (Main_RSSI>=Aux_RSSI) ? Aux_RSSI : Main_RSSI;
++
++						if((LocalMaxRSSI-LocalMinRSSI)>8)
++							pDM_SWAT_Table->Train_time_flag=3;
++						else if((LocalMaxRSSI-LocalMinRSSI)>5)
++							pDM_SWAT_Table->Train_time_flag=2;
++						else if((LocalMaxRSSI-LocalMinRSSI)>2)
++							pDM_SWAT_Table->Train_time_flag=1;
++						else
++							pDM_SWAT_Table->Train_time_flag=0;
++
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("Control frame: Main_RSSI = %d, Aux_RSSI = %d\n", Main_RSSI, Aux_RSSI));
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("RxIdleAnt decided by control frame = %s\n", (RxIdleAnt == MAIN_ANT?"MAIN":"AUX")));
++					}
++				}
++			}
++
++			pDM_FatTable->MinMaxRSSI = MinMaxRSSI;
++			pDM_SWAT_Table->try_flag = SWAW_STEP_PEEK;
++						
++			if( pDM_SWAT_Table->Double_chk_flag==1)
++			{
++				pDM_SWAT_Table->Double_chk_flag=0;
++				
++				if (pDM_FatTable->MinMaxRSSI > RSSI_CHECK_THRESHOLD) {
++					
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, (" [Double check] MinMaxRSSI ((%d)) > %d again!!\n",
++						pDM_FatTable->MinMaxRSSI, RSSI_CHECK_THRESHOLD));
++					
++					ODM_UpdateRxIdleAnt(pDM_Odm, RxIdleAnt);	
++					
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[reset try_flag = 0] Training accomplished !!!]\n\n\n"));
++					return;
++				}
++				else
++				{
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, (" [Double check] MinMaxRSSI ((%d)) <= %d !!\n",
++						pDM_FatTable->MinMaxRSSI, RSSI_CHECK_THRESHOLD));
++
++					nextAnt = (pDM_FatTable->RxIdleAnt  == MAIN_ANT)? AUX_ANT : MAIN_ANT;
++					pDM_SWAT_Table->try_flag = SWAW_STEP_PEEK; 
++					pDM_SWAT_Table->reset_idx = RSSI_CHECK_RESET_PERIOD;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[set try_flag=0]  Normal State:  Need to tryg again!!\n\n\n"));
++					return;
++				}
++			}
++			else
++			{
++				if (pDM_FatTable->MinMaxRSSI < RSSI_CHECK_THRESHOLD)
++					pDM_SWAT_Table->reset_idx = RSSI_CHECK_RESET_PERIOD;
++				
++				pDM_SWAT_Table->PreAntenna =RxIdleAnt;
++				ODM_UpdateRxIdleAnt(pDM_Odm, RxIdleAnt );
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("[reset try_flag = 0] Training accomplished !!!] \n\n\n"));
++				return;
++			}
++			
++		}
++
++	}
++
++	//1 4.Change TRX antenna
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("RSSI_Trying = (( %d )),    Ant: (( %s )) >>> (( %s )) \n",
++		pDM_SWAT_Table->RSSI_Trying, (pDM_FatTable->RxIdleAnt  == MAIN_ANT?"MAIN":"AUX"),(nextAnt == MAIN_ANT?"MAIN":"AUX")));
++		
++	ODM_UpdateRxIdleAnt(pDM_Odm, nextAnt);
++
++	//1 5.Reset Statistics
++
++	pDM_FatTable->RxIdleAnt  = nextAnt;
++
++	//1 6.Set next timer   (Trying State)
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, (" Test ((%s)) Ant for (( %d )) ms\n", (nextAnt == MAIN_ANT?"MAIN":"AUX"), pDM_SWAT_Table->Train_time));
++	ODM_SetTimer(pDM_Odm, &(pDM_SWAT_Table->phydm_SwAntennaSwitchTimer), pDM_SWAT_Table->Train_time); /*ms*/
++}
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++ODM_SW_AntDiv_Callback(
++	PRT_TIMER		pTimer
++)
++{
++	PADAPTER		Adapter = (PADAPTER)pTimer->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	pSWAT_T			pDM_SWAT_Table = &pHalData->DM_OutSrc.DM_SWAT_Table;
++
++	#if DEV_BUS_TYPE==RT_PCI_INTERFACE
++		#if USE_WORKITEM
++			ODM_ScheduleWorkItem(&pDM_SWAT_Table->phydm_SwAntennaSwitchWorkitem);
++		#else
++			{
++			//DbgPrint("SW_antdiv_Callback");
++			odm_S0S1_SwAntDiv(&pHalData->DM_OutSrc, SWAW_STEP_DETERMINE);
++			}
++		#endif
++	#else
++	ODM_ScheduleWorkItem(&pDM_SWAT_Table->phydm_SwAntennaSwitchWorkitem);
++	#endif
++}
++VOID
++ODM_SW_AntDiv_WorkitemCallback(
++    IN PVOID            pContext
++    )
++{
++	PADAPTER		pAdapter = (PADAPTER)pContext;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	
++	//DbgPrint("SW_antdiv_Workitem_Callback");
++	odm_S0S1_SwAntDiv(&pHalData->DM_OutSrc, SWAW_STEP_DETERMINE);
++}
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++VOID
++ODM_SW_AntDiv_WorkitemCallback(
++	IN PVOID	pContext
++)
++{
++	PADAPTER
++	pAdapter = (PADAPTER)pContext;
++	HAL_DATA_TYPE
++	*pHalData = GET_HAL_DATA(pAdapter);
++
++	/*DbgPrint("SW_antdiv_Workitem_Callback");*/
++	odm_S0S1_SwAntDiv(&pHalData->odmpriv, SWAW_STEP_DETERMINE);
++}
++
++VOID
++ODM_SW_AntDiv_Callback(void *FunctionContext)
++{
++	PDM_ODM_T	pDM_Odm= (PDM_ODM_T)FunctionContext;
++	PADAPTER	padapter = pDM_Odm->Adapter;
++	if(padapter->net_closed == _TRUE)
++		return;
++	
++	#if 0 /* Can't do I/O in timer callback*/
++	odm_S0S1_SwAntDiv(pDM_Odm, SWAW_STEP_DETERMINE);
++	#else
++	rtw_run_in_thread_cmd(padapter, ODM_SW_AntDiv_WorkitemCallback, padapter);
++	#endif
++}
++
++
++#endif
++
++VOID
++odm_S0S1_SwAntDivByCtrlFrame(
++	IN		PVOID			pDM_VOID,	
++	IN		u1Byte			Step
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSWAT_T	pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	pFAT_T		pDM_FatTable = &pDM_Odm->DM_FatTable;
++	
++	switch(Step)
++	{
++		case SWAW_STEP_PEEK:
++			pDM_SWAT_Table->PktCnt_SWAntDivByCtrlFrame = 0;
++			pDM_SWAT_Table->bSWAntDivByCtrlFrame = TRUE;
++			pDM_FatTable->MainAnt_CtrlFrame_Cnt = 0;
++			pDM_FatTable->AuxAnt_CtrlFrame_Cnt = 0;
++			pDM_FatTable->MainAnt_CtrlFrame_Sum = 0;
++			pDM_FatTable->AuxAnt_CtrlFrame_Sum = 0;
++			pDM_FatTable->CCK_CtrlFrame_Cnt_main = 0;
++			pDM_FatTable->CCK_CtrlFrame_Cnt_aux = 0;
++			pDM_FatTable->OFDM_CtrlFrame_Cnt_main = 0;
++			pDM_FatTable->OFDM_CtrlFrame_Cnt_aux = 0;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("odm_S0S1_SwAntDivForAPMode(): Start peek and reset counter\n"));
++			break;
++		case SWAW_STEP_DETERMINE:
++			pDM_SWAT_Table->bSWAntDivByCtrlFrame = FALSE;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("odm_S0S1_SwAntDivForAPMode(): Stop peek\n"));
++			break;
++		default:
++			pDM_SWAT_Table->bSWAntDivByCtrlFrame = FALSE;
++			break;
++	}			
++}
++
++VOID
++odm_AntselStatisticsOfCtrlFrame(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			antsel_tr_mux,
++	IN		u4Byte			RxPWDBAll
++	
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	if(antsel_tr_mux == ANT1_2G)
++	{
++		pDM_FatTable->MainAnt_CtrlFrame_Sum+=RxPWDBAll;
++		pDM_FatTable->MainAnt_CtrlFrame_Cnt++;
++	}
++	else
++	{
++		pDM_FatTable->AuxAnt_CtrlFrame_Sum+=RxPWDBAll;
++		pDM_FatTable->AuxAnt_CtrlFrame_Cnt++;
++	}
++}
++
++VOID
++odm_S0S1_SwAntDivByCtrlFrame_ProcessRSSI(
++	IN		PVOID			pDM_VOID,	
++	IN		PVOID			p_phy_info_void,
++	IN		PVOID			p_pkt_info_void
++	//IN		PODM_PHY_INFO_T		pPhyInfo,
++	//IN		PODM_PACKET_INFO_T		pPktinfo
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_PHY_INFO_T	 pPhyInfo=(PODM_PHY_INFO_T)p_phy_info_void;
++	PODM_PACKET_INFO_T 	pPktinfo=(PODM_PACKET_INFO_T)p_pkt_info_void;
++	pSWAT_T	pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	pFAT_T		pDM_FatTable = &pDM_Odm->DM_FatTable;
++	BOOLEAN		isCCKrate;
++
++	if(!(pDM_Odm->SupportAbility & ODM_BB_ANT_DIV))
++		return;
++
++	if(pDM_Odm->AntDivType != S0S1_SW_ANTDIV)
++		return;
++
++	// In try state
++	if(!pDM_SWAT_Table->bSWAntDivByCtrlFrame)
++		return;
++
++	// No HW error and match receiver address
++	if(!pPktinfo->bToSelf)
++		return;
++	
++	pDM_SWAT_Table->PktCnt_SWAntDivByCtrlFrame++;
++	isCCKrate = ((pPktinfo->DataRate >= DESC_RATE1M ) && (pPktinfo->DataRate <= DESC_RATE11M ))?TRUE :FALSE;
++
++	if(isCCKrate)
++	{
++	 	pDM_FatTable->antsel_rx_keep_0 = (pDM_FatTable->RxIdleAnt == MAIN_ANT) ? ANT1_2G : ANT2_2G;
++
++		if(pDM_FatTable->antsel_rx_keep_0==ANT1_2G)
++			pDM_FatTable->CCK_CtrlFrame_Cnt_main++;
++		else
++			pDM_FatTable->CCK_CtrlFrame_Cnt_aux++;
++
++		odm_AntselStatisticsOfCtrlFrame(pDM_Odm, pDM_FatTable->antsel_rx_keep_0, pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A]);
++	}
++	else
++	{
++		if(pDM_FatTable->antsel_rx_keep_0==ANT1_2G)
++			pDM_FatTable->OFDM_CtrlFrame_Cnt_main++;
++		else
++			pDM_FatTable->OFDM_CtrlFrame_Cnt_aux++;
++
++		odm_AntselStatisticsOfCtrlFrame(pDM_Odm, pDM_FatTable->antsel_rx_keep_0, pPhyInfo->RxPWDBAll);
++	}
++}
++
++#endif //#if (RTL8723B_SUPPORT == 1)||(RTL8821A_SUPPORT == 1)
++
++
++
++
++VOID
++odm_SetNextMACAddrTarget(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	PSTA_INFO_T   	pEntry;
++	u4Byte			value32, i;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("odm_SetNextMACAddrTarget() ==>\n"));
++	
++	if (pDM_Odm->bLinked)
++	{
++		for (i = 0; i < ODM_ASSOCIATE_ENTRY_NUM; i++) {
++			
++			if ((pDM_FatTable->TrainIdx+1) == ODM_ASSOCIATE_ENTRY_NUM)
++				pDM_FatTable->TrainIdx = 0;
++			else
++				pDM_FatTable->TrainIdx++;
++			
++			pEntry = pDM_Odm->pODM_StaInfo[pDM_FatTable->TrainIdx];
++			
++			if (IS_STA_VALID(pEntry)) {
++				
++				/*Match MAC ADDR*/
++				#if (DM_ODM_SUPPORT_TYPE & (ODM_AP | ODM_CE))
++				value32 = (pEntry->hwaddr[5]<<8)|pEntry->hwaddr[4];
++				#else
++				value32 = (pEntry->MacAddr[5]<<8)|pEntry->MacAddr[4];
++				#endif
++				
++				ODM_SetMACReg(pDM_Odm, 0x7b4, 0xFFFF, value32);/*0x7b4~0x7b5*/
++				
++				#if (DM_ODM_SUPPORT_TYPE & (ODM_AP | ODM_CE))
++				value32 = (pEntry->hwaddr[3]<<24)|(pEntry->hwaddr[2]<<16) |(pEntry->hwaddr[1]<<8) |pEntry->hwaddr[0];
++				#else
++				value32 = (pEntry->MacAddr[3]<<24)|(pEntry->MacAddr[2]<<16) |(pEntry->MacAddr[1]<<8) |pEntry->MacAddr[0];
++				#endif
++				ODM_SetMACReg(pDM_Odm, 0x7b0, bMaskDWord, value32);/*0x7b0~0x7b3*/
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("pDM_FatTable->TrainIdx=%d\n", pDM_FatTable->TrainIdx));
++				
++				#if (DM_ODM_SUPPORT_TYPE & (ODM_AP | ODM_CE))
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Training MAC Addr = %x:%x:%x:%x:%x:%x\n",
++					pEntry->hwaddr[5], pEntry->hwaddr[4], pEntry->hwaddr[3], pEntry->hwaddr[2], pEntry->hwaddr[1], pEntry->hwaddr[0]));
++				#else
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Training MAC Addr = %x:%x:%x:%x:%x:%x\n",
++					pEntry->MacAddr[5], pEntry->MacAddr[4], pEntry->MacAddr[3], pEntry->MacAddr[2], pEntry->MacAddr[1], pEntry->MacAddr[0]));
++				#endif
++
++				break;
++			}
++		}
++	}
++
++#if 0
++	//
++	//2012.03.26 LukeLee: This should be removed later, the MAC address is changed according to MACID in turn
++	//
++	#if( DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	{		
++		PADAPTER	Adapter =  pDM_Odm->Adapter;
++		PMGNT_INFO	pMgntInfo = &Adapter->MgntInfo;
++
++		for (i=0; i<6; i++)
++		{
++			Bssid[i] = pMgntInfo->Bssid[i];
++			//DbgPrint("Bssid[%d]=%x\n", i, Bssid[i]);
++		}
++	}
++	#endif
++
++	//odm_SetNextMACAddrTarget(pDM_Odm);
++	
++	//1 Select MAC Address Filter
++	for (i=0; i<6; i++)
++	{
++		if(Bssid[i] != pDM_FatTable->Bssid[i])
++		{
++			bMatchBSSID = FALSE;
++			break;
++		}
++	}
++	if(bMatchBSSID == FALSE)
++	{
++		//Match MAC ADDR
++		value32 = (Bssid[5]<<8)|Bssid[4];
++		ODM_SetMACReg(pDM_Odm, 0x7b4, 0xFFFF, value32);
++		value32 = (Bssid[3]<<24)|(Bssid[2]<<16) |(Bssid[1]<<8) |Bssid[0];
++		ODM_SetMACReg(pDM_Odm, 0x7b0, bMaskDWord, value32);
++	}
++
++	return bMatchBSSID;
++#endif
++				
++}
++
++#if (defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY)) || (defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY))
++
++VOID
++odm_FastAntTraining(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	u4Byte	MaxRSSI_pathA=0, Pckcnt_pathA=0;
++	u1Byte	i,TargetAnt_pathA=0;
++	BOOLEAN	bPktFilterMacth_pathA = FALSE;
++	#if(RTL8192E_SUPPORT == 1)
++	u4Byte	MaxRSSI_pathB=0, Pckcnt_pathB=0;
++	u1Byte	TargetAnt_pathB=0;
++	BOOLEAN	bPktFilterMacth_pathB = FALSE;
++	#endif
++
++
++	if(!pDM_Odm->bLinked) //bLinked==False
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[No Link!!!]\n"));
++		
++		if(pDM_FatTable->bBecomeLinked == TRUE)
++		{
++			odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++			phydm_FastTraining_enable(pDM_Odm , FAT_OFF);
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++			pDM_FatTable->bBecomeLinked = pDM_Odm->bLinked;
++		}
++		return;
++	}
++	else
++	{
++		if(pDM_FatTable->bBecomeLinked ==FALSE)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Linked!!!]\n"));
++			pDM_FatTable->bBecomeLinked = pDM_Odm->bLinked;
++		}
++	}
++
++	if (*(pDM_FatTable->pForceTxAntByDesc) == FALSE) {
++		if (pDM_Odm->bOneEntryOnly == TRUE)
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++		else
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_DESC);
++	}
++
++		
++        if(pDM_Odm->SupportICType == ODM_RTL8188E)
++	{
++           ODM_SetBBReg(pDM_Odm, 0x864 , BIT2|BIT1|BIT0, ((pDM_Odm->fat_comb_a)-1));
++        }
++	#if(RTL8192E_SUPPORT == 1)
++        else if(pDM_Odm->SupportICType == ODM_RTL8192E)
++        {
++           ODM_SetBBReg(pDM_Odm, 0xB38 , BIT2|BIT1|BIT0, ((pDM_Odm->fat_comb_a)-1) );	   //path-A  // ant combination=regB38[2:0]+1
++	   ODM_SetBBReg(pDM_Odm, 0xB38 , BIT18|BIT17|BIT16, ((pDM_Odm->fat_comb_b)-1) );  //path-B  // ant combination=regB38[18:16]+1
++        }
++	#endif
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("==>odm_FastAntTraining()\n"));
++
++	//1 TRAINING STATE
++	if(pDM_FatTable->FAT_State == FAT_TRAINING_STATE)
++	{
++		//2 Caculate RSSI per Antenna
++
++                //3 [path-A]---------------------------
++		for (i=0; i<(pDM_Odm->fat_comb_a); i++) // i : antenna index
++		{
++			if(pDM_FatTable->antRSSIcnt[i] == 0)
++				pDM_FatTable->antAveRSSI[i] = 0;
++			else
++			{
++			pDM_FatTable->antAveRSSI[i] = pDM_FatTable->antSumRSSI[i] /pDM_FatTable->antRSSIcnt[i];
++				bPktFilterMacth_pathA = TRUE;
++			}
++			
++			if(pDM_FatTable->antAveRSSI[i] > MaxRSSI_pathA)
++			{
++				MaxRSSI_pathA = pDM_FatTable->antAveRSSI[i];
++                                Pckcnt_pathA = pDM_FatTable ->antRSSIcnt[i];
++				TargetAnt_pathA =  i ; 
++			}
++                        else if(pDM_FatTable->antAveRSSI[i] == MaxRSSI_pathA)
++			{
++				if(  (pDM_FatTable->antRSSIcnt[i] )   >   Pckcnt_pathA)
++			{
++					MaxRSSI_pathA = pDM_FatTable->antAveRSSI[i];
++					Pckcnt_pathA = pDM_FatTable ->antRSSIcnt[i];
++				        TargetAnt_pathA = i ;
++			        }
++			}
++
++			ODM_RT_TRACE("*** Ant-Index : [ %d ],      Counter = (( %d )),     Avg RSSI = (( %d )) \n", i, pDM_FatTable->antRSSIcnt[i],  pDM_FatTable->antAveRSSI[i] );
++		}
++
++
++		/*
++		#if(RTL8192E_SUPPORT == 1)
++		//3 [path-B]---------------------------
++		for (i=0; i<(pDM_Odm->fat_comb_b); i++)
++		{
++			if(pDM_FatTable->antRSSIcnt_pathB[i] == 0)
++				pDM_FatTable->antAveRSSI_pathB[i] = 0;				
++			else // (antRSSIcnt[i] != 0)
++			{
++				pDM_FatTable->antAveRSSI_pathB[i] = pDM_FatTable->antSumRSSI_pathB[i] /pDM_FatTable->antRSSIcnt_pathB[i];
++				bPktFilterMacth_pathB = TRUE;
++			}
++			if(pDM_FatTable->antAveRSSI_pathB[i] > MaxRSSI_pathB)
++			{
++				MaxRSSI_pathB = pDM_FatTable->antAveRSSI_pathB[i];
++                                Pckcnt_pathB = pDM_FatTable ->antRSSIcnt_pathB[i];
++				TargetAnt_pathB = (u1Byte) i; 
++			}
++                        if(pDM_FatTable->antAveRSSI_pathB[i] == MaxRSSI_pathB)
++			{
++				if(pDM_FatTable ->antRSSIcnt_pathB > Pckcnt_pathB)
++		{
++					MaxRSSI_pathB = pDM_FatTable->antAveRSSI_pathB[i];
++					TargetAnt_pathB = (u1Byte) i;
++				} 
++		}
++			if (pDM_Odm->fat_print_rssi==1)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***{Path-B}: Sum RSSI[%d] = (( %d )),      cnt RSSI [%d] = (( %d )),     Avg RSSI[%d] = (( %d )) \n",
++				i, pDM_FatTable->antSumRSSI_pathB[i], i, pDM_FatTable->antRSSIcnt_pathB[i], i, pDM_FatTable->antAveRSSI_pathB[i]));
++			}
++		}
++		#endif
++		*/
++
++	//1 DECISION STATE
++
++		//2 Select TRX Antenna
++
++		phydm_FastTraining_enable(pDM_Odm, FAT_OFF);
++
++		//3 [path-A]---------------------------
++		if(bPktFilterMacth_pathA  == FALSE)
++		{
++			//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("{Path-A}: None Packet is matched\n"));
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("{Path-A}: None Packet is matched\n"));
++			odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++		}
++		else
++		{
++			ODM_RT_TRACE("TargetAnt_pathA = (( %d )) , MaxRSSI_pathA = (( %d )) \n",TargetAnt_pathA,MaxRSSI_pathA);
++
++			//3 [ update RX-optional ant ]        Default RX is Omni, Optional RX is the best decision by FAT
++			if(pDM_Odm->SupportICType == ODM_RTL8188E)
++			{
++				ODM_SetBBReg(pDM_Odm, 0x864 , BIT8|BIT7|BIT6, TargetAnt_pathA);	
++			}
++			else if(pDM_Odm->SupportICType == ODM_RTL8192E)
++			{
++				ODM_SetBBReg(pDM_Odm, 0xB38 , BIT8|BIT7|BIT6, TargetAnt_pathA);//Optional RX [pth-A]
++			}
++			//3 [ update TX ant ]
++			odm_UpdateTxAnt(pDM_Odm, TargetAnt_pathA, (pDM_FatTable->TrainIdx)); 
++
++			if(TargetAnt_pathA == 0)
++				odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++		}
++		/*
++		#if(RTL8192E_SUPPORT == 1)
++		//3 [path-B]---------------------------
++		if(bPktFilterMacth_pathB == FALSE)
++		{
++			if (pDM_Odm->fat_print_rssi==1)
++			{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("***[%d]{Path-B}: None Packet is matched\n\n\n",__LINE__));
++			}
++		}
++		else
++		{
++			if (pDM_Odm->fat_print_rssi==1)
++			{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, 
++				(" ***TargetAnt_pathB = (( %d )) *** MaxRSSI = (( %d ))***\n\n\n",TargetAnt_pathB,MaxRSSI_pathB));
++			}
++			ODM_SetBBReg(pDM_Odm, 0xB38 , BIT21|BIT20|BIT19, TargetAnt_pathB);	//Default RX is Omni, Optional RX is the best decision by FAT		
++			ODM_SetBBReg(pDM_Odm, 0x80c , BIT21, 1); //Reg80c[21]=1'b1		//from TX Info
++
++			pDM_FatTable->antsel_pathB[pDM_FatTable->TrainIdx] = TargetAnt_pathB;
++		}
++		#endif
++		*/
++
++		//2 Reset Counter
++		for(i=0; i<(pDM_Odm->fat_comb_a); i++)
++		{
++			pDM_FatTable->antSumRSSI[i] = 0;
++			pDM_FatTable->antRSSIcnt[i] = 0;
++		}
++		/*
++		#if(RTL8192E_SUPPORT == 1)
++		for(i=0; i<=(pDM_Odm->fat_comb_b); i++)
++		{
++			pDM_FatTable->antSumRSSI_pathB[i] = 0;
++			pDM_FatTable->antRSSIcnt_pathB[i] = 0;
++		}
++		#endif
++		*/
++		
++		pDM_FatTable->FAT_State = FAT_PREPARE_STATE;
++		return;
++	}
++
++	//1 NORMAL STATE
++	if (pDM_FatTable->FAT_State == FAT_PREPARE_STATE)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Start Prepare State ]\n"));
++
++		odm_SetNextMACAddrTarget(pDM_Odm);
++
++		//2 Prepare Training
++		pDM_FatTable->FAT_State = FAT_TRAINING_STATE;
++		phydm_FastTraining_enable(pDM_Odm , FAT_ON);
++		odm_AntDiv_on_off(pDM_Odm, ANTDIV_ON);		//enable HW AntDiv
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Start Training State]\n"));
++
++		ODM_SetTimer(pDM_Odm,&pDM_Odm->FastAntTrainingTimer, pDM_Odm->antdiv_intvl ); //ms
++	}
++		
++}
++
++VOID
++odm_FastAntTrainingCallback(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PADAPTER	padapter = pDM_Odm->Adapter;
++	if(padapter->net_closed == _TRUE)
++	    return;
++	//if(*pDM_Odm->pbNet_closed == TRUE)
++	   // return;
++#endif
++
++#if USE_WORKITEM
++	ODM_ScheduleWorkItem(&pDM_Odm->FastAntTrainingWorkitem);
++#else
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("******odm_FastAntTrainingCallback****** \n"));
++	odm_FastAntTraining(pDM_Odm);
++#endif
++}
++
++VOID
++odm_FastAntTrainingWorkItemCallback(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("******odm_FastAntTrainingWorkItemCallback****** \n"));
++	odm_FastAntTraining(pDM_Odm);
++}
++
++#endif
++
++#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++
++u4Byte
++phydm_construct_hl_beam_codeword(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*beam_pattern_idx,
++	IN		u4Byte		ant_num
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSAT_T		pdm_sat_table = &(pDM_Odm->dm_sat_table);
++	u4Byte		codeword = 0;
++	u4Byte		data_tmp;
++	u4Byte		i;
++	u4Byte		break_counter = 0;
++
++	if (ant_num < 8) {
++		for (i = 0; i < (pdm_sat_table->ant_num_total); i++) {
++			/*ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("beam_pattern_num[%x] = %x\n",i,beam_pattern_num[i] ));*/
++			if ((i < (pdm_sat_table->first_train_ant-1)) || (break_counter >= (pdm_sat_table->ant_num))) {
++				data_tmp = 0;
++				/**/
++			} else {
++
++				break_counter++;
++
++				if (beam_pattern_idx[i] == 0) {
++
++					if (*pDM_Odm->pBandType == ODM_BAND_5G)
++						data_tmp = pdm_sat_table->rfu_codeword_table_5g[0];
++					else
++						data_tmp = pdm_sat_table->rfu_codeword_table[0];
++					
++				} else if (beam_pattern_idx[i] == 1) {
++					
++					
++					if (*pDM_Odm->pBandType == ODM_BAND_5G)
++						data_tmp = pdm_sat_table->rfu_codeword_table_5g[1];
++					else
++						data_tmp = pdm_sat_table->rfu_codeword_table[1];
++					
++				} else if (beam_pattern_idx[i] == 2) {
++
++					if (*pDM_Odm->pBandType == ODM_BAND_5G)
++						data_tmp = pdm_sat_table->rfu_codeword_table_5g[2];
++					else
++						data_tmp = pdm_sat_table->rfu_codeword_table[2];
++					
++				} else if (beam_pattern_idx[i] == 3) {
++				
++					if (*pDM_Odm->pBandType == ODM_BAND_5G)
++						data_tmp = pdm_sat_table->rfu_codeword_table_5g[3];
++					else
++						data_tmp = pdm_sat_table->rfu_codeword_table[3];
++				}
++			}
++
++			
++			codeword |= (data_tmp<<(i*4));
++
++		}
++	}
++
++	return codeword;
++}
++
++VOID
++phydm_update_beam_pattern(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		codeword,
++	IN		u4Byte		codeword_length
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSAT_T			pdm_sat_table = &(pDM_Odm->dm_sat_table);
++	u1Byte			i;
++	BOOLEAN			beam_ctrl_signal;
++	u4Byte			one = 0x1;
++	u4Byte			reg44_tmp_p, reg44_tmp_n, reg44_ori;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ SmartAnt ] Set Beam Pattern =0x%x\n", codeword));
++	
++	reg44_ori = ODM_GetMACReg(pDM_Odm, 0x44, bMaskDWord);
++	/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("reg44_ori =0x%x\n", reg44_ori));*/
++	
++	for (i = 0; i <= (codeword_length-1); i++) {
++		beam_ctrl_signal = (BOOLEAN)((codeword&BIT(i)) >> i);
++
++		if (pDM_Odm->DebugComponents & ODM_COMP_ANT_DIV) {
++			
++			if (i == (codeword_length-1)) {
++				DbgPrint("%d ]\n", beam_ctrl_signal);
++				/**/
++			} else if (i == 0) {
++				DbgPrint("Send codeword[1:24] ---> [ %d ", beam_ctrl_signal);	
++				/**/
++			} else if ((i % 4) == 3) {
++				DbgPrint("%d  |  ", beam_ctrl_signal);	
++				/**/
++			} else {
++				DbgPrint("%d ", beam_ctrl_signal);
++				/**/
++			}
++		}
++		
++		#if 1
++		reg44_tmp_p = reg44_ori & (~(BIT11|BIT10)); /*clean bit 10 & 11*/
++		reg44_tmp_p |= ((1<<11) | (beam_ctrl_signal<<10));
++		reg44_tmp_n = reg44_ori & (~(BIT11|BIT10));
++
++		/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("reg44_tmp_p =(( 0x%x )), reg44_tmp_n = (( 0x%x ))\n", reg44_tmp_p, reg44_tmp_n));*/
++		ODM_SetMACReg(pDM_Odm, 0x44 , bMaskDWord, reg44_tmp_p);
++		ODM_SetMACReg(pDM_Odm, 0x44 , bMaskDWord, reg44_tmp_n); 
++		#else
++		ODM_SetMACReg(pDM_Odm, 0x44 , BIT11|BIT10, ((1<<1) | beam_ctrl_signal));
++		ODM_SetMACReg(pDM_Odm, 0x44 , BIT11, 0); 
++		#endif
++
++	}
++}
++
++VOID
++phydm_update_rx_idle_beam(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	pSAT_T			pdm_sat_table = &(pDM_Odm->dm_sat_table);
++	u4Byte			i;
++
++	pdm_sat_table->update_beam_codeword = phydm_construct_hl_beam_codeword(pDM_Odm, &(pdm_sat_table->rx_idle_beam[0]), pdm_sat_table->ant_num);
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Set target beam_pattern codeword = (( 0x%x ))\n", pdm_sat_table->update_beam_codeword));
++
++	for (i = 0; i < (pdm_sat_table->ant_num); i++) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Update Rx-Idle-Beam ] RxIdleBeam[%d] =%d\n", i, pdm_sat_table->rx_idle_beam[i]));
++		/**/
++	}
++	
++	#if DEV_BUS_TYPE == RT_PCI_INTERFACE
++	phydm_update_beam_pattern(pDM_Odm, pdm_sat_table->update_beam_codeword, pdm_sat_table->data_codeword_bit_num);
++	#else
++	ODM_ScheduleWorkItem(&pdm_sat_table->hl_smart_antenna_workitem);
++	/*ODM_StallExecution(1);*/
++	#endif
++	
++	pdm_sat_table->pre_codeword = pdm_sat_table->update_beam_codeword;
++}
++
++VOID
++phydm_hl_smart_ant_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char			*output,
++	IN		u4Byte		*_out_len
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSAT_T			pdm_sat_table = &(pDM_Odm->dm_sat_table);	
++	u4Byte			used = *_used;
++	u4Byte			out_len = *_out_len;
++	u4Byte			one = 0x1;
++	u4Byte			codeword_length = pdm_sat_table->data_codeword_bit_num;
++	u4Byte			beam_ctrl_signal, i;
++	
++	if (dm_value[0] == 1) { /*fix beam pattern*/
++		
++		pdm_sat_table->fix_beam_pattern_en = dm_value[1];
++		
++		if (pdm_sat_table->fix_beam_pattern_en == 1) {
++			
++			pdm_sat_table->fix_beam_pattern_codeword = dm_value[2];
++
++			if (pdm_sat_table->fix_beam_pattern_codeword  > (one<<codeword_length)) {
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ SmartAnt ] Codeword overflow, Current codeword is ((0x%x)), and should be less than ((%d))bit\n", 
++					pdm_sat_table->fix_beam_pattern_codeword, codeword_length));
++				(pdm_sat_table->fix_beam_pattern_codeword) &= 0xffffff;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ SmartAnt ] Auto modify to (0x%x)\n", pdm_sat_table->fix_beam_pattern_codeword));
++			}
++			
++			pdm_sat_table->update_beam_codeword = pdm_sat_table->fix_beam_pattern_codeword;
++
++			/*---------------------------------------------------------*/
++			PHYDM_SNPRINTF((output+used, out_len-used, "Fix Beam Pattern\n"));
++			for (i = 0; i <= (codeword_length-1); i++) {
++				beam_ctrl_signal = (BOOLEAN)((pdm_sat_table->update_beam_codeword&BIT(i)) >> i);
++				
++				if (i == (codeword_length-1)) {
++					PHYDM_SNPRINTF((output+used, out_len-used, "%d]\n", beam_ctrl_signal));
++					/**/
++				} else if (i == 0) {
++					PHYDM_SNPRINTF((output+used, out_len-used, "Send Codeword[1:24] to RFU -> [%d", beam_ctrl_signal));
++					/**/
++				} else if ((i % 4) == 3) {
++					PHYDM_SNPRINTF((output+used, out_len-used, "%d|", beam_ctrl_signal));
++					/**/
++				} else {
++					PHYDM_SNPRINTF((output+used, out_len-used, "%d", beam_ctrl_signal));
++					/**/
++				}
++			}
++			/*---------------------------------------------------------*/
++
++			
++			#if DEV_BUS_TYPE == RT_PCI_INTERFACE
++			phydm_update_beam_pattern(pDM_Odm, pdm_sat_table->update_beam_codeword, pdm_sat_table->data_codeword_bit_num);
++			#else
++			ODM_ScheduleWorkItem(&pdm_sat_table->hl_smart_antenna_workitem);
++			/*ODM_StallExecution(1);*/
++			#endif
++		} else if (pdm_sat_table->fix_beam_pattern_en == 0) {
++			PHYDM_SNPRINTF((output+used, out_len-used, "[ SmartAnt ] Smart Antenna: Enable\n"));
++		}
++		
++	} else if (dm_value[0] == 2) { /*set latch time*/
++		
++		pdm_sat_table->latch_time = dm_value[1];
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ SmartAnt ]  latch_time =0x%x\n", pdm_sat_table->latch_time));
++	} else if (dm_value[0] == 3) {
++	
++		pdm_sat_table->fix_training_num_en = dm_value[1];
++		
++		if (pdm_sat_table->fix_training_num_en == 1) {
++			pdm_sat_table->per_beam_training_pkt_num = (u1Byte)dm_value[2];
++			pdm_sat_table->decision_holding_period = (u1Byte)dm_value[3];
++			
++			PHYDM_SNPRINTF((output+used, out_len-used, "[SmartAnt][Dbg] Fix_train_en = (( %d )), train_pkt_num = (( %d )), holding_period = (( %d )),\n", 
++				pdm_sat_table->fix_training_num_en, pdm_sat_table->per_beam_training_pkt_num, pdm_sat_table->decision_holding_period));
++
++		} else if (pdm_sat_table->fix_training_num_en == 0) {
++			PHYDM_SNPRINTF((output+used, out_len-used, "[ SmartAnt ]  AUTO per_beam_training_pkt_num\n"));
++			/**/
++		}
++	} else if (dm_value[0] == 4) {
++
++		if (dm_value[1] == 1) {
++			pdm_sat_table->ant_num = 1;
++			pdm_sat_table->first_train_ant = MAIN_ANT;
++			
++		} else if (dm_value[1] == 2) {
++			pdm_sat_table->ant_num = 1;
++			pdm_sat_table->first_train_ant = AUX_ANT;
++			
++		} else if (dm_value[1] == 3) {
++			pdm_sat_table->ant_num = 2;
++			pdm_sat_table->first_train_ant = MAIN_ANT;
++		}
++
++		PHYDM_SNPRINTF((output+used, out_len-used, "[ SmartAnt ]  Set Ant Num = (( %d )), first_train_ant = (( %d ))\n", 
++			pdm_sat_table->ant_num, (pdm_sat_table->first_train_ant-1)));
++	} else if (dm_value[0] == 5) {
++
++		if (dm_value[1] <= 3) {
++			pdm_sat_table->rfu_codeword_table[dm_value[1]] = dm_value[2];
++			PHYDM_SNPRINTF((output+used, out_len-used, "[ SmartAnt ] Set Beam_2G: (( %d )), RFU codeword table = (( 0x%x ))\n", 
++					dm_value[1], dm_value[2]));
++		} else {
++			for (i = 0; i < 4; i++) {
++				PHYDM_SNPRINTF((output+used, out_len-used, "[ SmartAnt ] Show Beam_2G: (( %d )), RFU codeword table = (( 0x%x ))\n", 
++					i, pdm_sat_table->rfu_codeword_table[i]));
++			}
++		}
++	} else if (dm_value[0] == 6) {
++
++		if (dm_value[1] <= 3) {
++			pdm_sat_table->rfu_codeword_table_5g[dm_value[1]] = dm_value[2];
++			PHYDM_SNPRINTF((output+used, out_len-used, "[ SmartAnt ] Set Beam_5G: (( %d )), RFU codeword table = (( 0x%x ))\n", 
++					dm_value[1], dm_value[2]));
++		} else {
++			for (i = 0; i < 4; i++) {
++				PHYDM_SNPRINTF((output+used, out_len-used, "[ SmartAnt ] Show Beam_5G: (( %d )), RFU codeword table = (( 0x%x ))\n", 
++					i, pdm_sat_table->rfu_codeword_table_5g[i]));
++			}
++		}
++	} else if (dm_value[0] == 7) {
++
++		if (dm_value[1] <= 4) {
++			
++			pdm_sat_table->beam_patten_num_each_ant = dm_value[1];
++			PHYDM_SNPRINTF((output+used, out_len-used, "[ SmartAnt ] Set Beam number = (( %d ))\n", 
++					pdm_sat_table->beam_patten_num_each_ant));
++		} else {
++			
++			PHYDM_SNPRINTF((output+used, out_len-used, "[ SmartAnt ] Show Beam number = (( %d ))\n", 
++				pdm_sat_table->beam_patten_num_each_ant));
++		}
++	}
++		
++}
++
++
++void
++phydm_set_all_ant_same_beam_num(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSAT_T			pdm_sat_table = &(pDM_Odm->dm_sat_table);
++
++	if (pDM_Odm->AntDivType == HL_SW_SMART_ANT_TYPE1) { /*2Ant for 8821A*/
++		
++		pdm_sat_table->rx_idle_beam[0] = pdm_sat_table->fast_training_beam_num;
++		pdm_sat_table->rx_idle_beam[1] = pdm_sat_table->fast_training_beam_num;
++	}
++	
++	pdm_sat_table->update_beam_codeword = phydm_construct_hl_beam_codeword(pDM_Odm, &(pdm_sat_table->rx_idle_beam[0]), pdm_sat_table->ant_num);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ SmartAnt ] Set all ant beam_pattern: codeword = (( 0x%x ))\n", pdm_sat_table->update_beam_codeword));
++
++	#if DEV_BUS_TYPE == RT_PCI_INTERFACE
++	phydm_update_beam_pattern(pDM_Odm, pdm_sat_table->update_beam_codeword, pdm_sat_table->data_codeword_bit_num);
++	#else
++	ODM_ScheduleWorkItem(&pdm_sat_table->hl_smart_antenna_workitem);
++	/*ODM_StallExecution(1);*/
++	#endif
++}
++
++VOID
++odm_FastAntTraining_hl_smart_antenna_type1(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pSAT_T		pdm_sat_table = &(pDM_Odm->dm_sat_table);
++	pFAT_T		pDM_FatTable	 = &(pDM_Odm->DM_FatTable);
++	pSWAT_T		pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	u4Byte		codeword = 0, i, j;
++	u4Byte		TargetAnt;
++	u4Byte		avg_rssi_tmp, avg_rssi_tmp_ma;
++	u4Byte		target_ant_beam_max_rssi[SUPPORT_RF_PATH_NUM] = {0};
++	u4Byte		max_beam_ant_rssi = 0;
++	u4Byte		target_ant_beam[SUPPORT_RF_PATH_NUM] = {0};
++	u4Byte		beam_tmp;
++	u1Byte		next_ant;
++	u4Byte		rssi_sorting_seq[SUPPORT_BEAM_PATTERN_NUM] = {0};
++	u4Byte		rank_idx_seq[SUPPORT_BEAM_PATTERN_NUM] = {0};
++	u4Byte		rank_idx_out[SUPPORT_BEAM_PATTERN_NUM] = {0};
++	u1Byte		per_beam_rssi_diff_tmp = 0, training_pkt_num_offset;
++	u4Byte		break_counter = 0;
++	u4Byte		used_ant;
++
++
++	if (!pDM_Odm->bLinked) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[No Link!!!]\n"));
++				
++		if (pDM_FatTable->bBecomeLinked == TRUE) {
++			
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Link -> no Link\n"));
++			pDM_FatTable->FAT_State = FAT_BEFORE_LINK_STATE;
++			odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("change to (( %d )) FAT_state\n", pDM_FatTable->FAT_State));
++			
++			pDM_FatTable->bBecomeLinked = pDM_Odm->bLinked;
++		}
++		return;
++		
++	} else {
++		if (pDM_FatTable->bBecomeLinked == FALSE) {
++			
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Linked !!!]\n"));
++			
++			pDM_FatTable->FAT_State = FAT_PREPARE_STATE;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("change to (( %d )) FAT_state\n", pDM_FatTable->FAT_State));
++			
++			/*pdm_sat_table->fast_training_beam_num = 0;*/
++			/*phydm_set_all_ant_same_beam_num(pDM_Odm);*/
++			
++			pDM_FatTable->bBecomeLinked = pDM_Odm->bLinked;
++		}
++	}
++
++	if (*(pDM_FatTable->pForceTxAntByDesc) == FALSE) {
++		if (pDM_Odm->bOneEntryOnly == TRUE)
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++		else
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_DESC);
++	}		
++
++	/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("HL Smart Ant Training: State (( %d ))\n", pDM_FatTable->FAT_State));*/
++
++	/* [DECISION STATE] */
++	/*=======================================================================================*/
++	if (pDM_FatTable->FAT_State == FAT_DECISION_STATE) {
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 3. In Decision State]\n"));
++		phydm_FastTraining_enable(pDM_Odm , FAT_OFF);
++
++		break_counter = 0;
++		/*compute target beam in each antenna*/
++		for (i = (pdm_sat_table->first_train_ant-1); i < pdm_sat_table->ant_num_total; i++) {
++			for (j = 0; j < (pdm_sat_table->beam_patten_num_each_ant); j++) {
++
++				if (pdm_sat_table->pkt_rssi_cnt[i][j] == 0) {
++					avg_rssi_tmp = pdm_sat_table->pkt_rssi_pre[i][j];
++					avg_rssi_tmp = (avg_rssi_tmp >= 2) ? (avg_rssi_tmp - 2) : avg_rssi_tmp;
++					avg_rssi_tmp_ma = avg_rssi_tmp;
++				} else {
++					avg_rssi_tmp = (pdm_sat_table->pkt_rssi_sum[i][j]) / (pdm_sat_table->pkt_rssi_cnt[i][j]);
++					avg_rssi_tmp_ma = (avg_rssi_tmp + pdm_sat_table->pkt_rssi_pre[i][j])>>1;
++				}
++
++				rssi_sorting_seq[j] = avg_rssi_tmp;
++				pdm_sat_table->pkt_rssi_pre[i][j] = avg_rssi_tmp;
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Ant[%d], Beam[%d]: pkt_cnt=(( %d )), avg_rssi_MA=(( %d )), avg_rssi=(( %d ))\n", 
++					i, j, pdm_sat_table->pkt_rssi_cnt[i][j], avg_rssi_tmp_ma, avg_rssi_tmp));
++				
++				if (avg_rssi_tmp > target_ant_beam_max_rssi[i]) {
++					target_ant_beam[i] = j;
++					target_ant_beam_max_rssi[i] = avg_rssi_tmp;
++				}
++
++				/*reset counter value*/
++				pdm_sat_table->pkt_rssi_sum[i][j] = 0;
++				pdm_sat_table->pkt_rssi_cnt[i][j] = 0;
++								
++			}
++			pdm_sat_table->rx_idle_beam[i] = target_ant_beam[i];
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("---------> Target of Ant[%d]: Beam_num-(( %d )) RSSI= ((%d))\n", 
++					i,  target_ant_beam[i], target_ant_beam_max_rssi[i]));
++
++			/*sorting*/
++			/*
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Pre]rssi_sorting_seq = [%d, %d, %d, %d]\n", rssi_sorting_seq[0], rssi_sorting_seq[1], rssi_sorting_seq[2], rssi_sorting_seq[3]));
++			*/
++
++			/*phydm_seq_sorting(pDM_Odm, &rssi_sorting_seq[0], &rank_idx_seq[0], &rank_idx_out[0], SUPPORT_BEAM_PATTERN_NUM);*/
++			
++			/*
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Post]rssi_sorting_seq = [%d, %d, %d, %d]\n", rssi_sorting_seq[0], rssi_sorting_seq[1], rssi_sorting_seq[2], rssi_sorting_seq[3]));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Post]rank_idx_seq = [%d, %d, %d, %d]\n", rank_idx_seq[0], rank_idx_seq[1], rank_idx_seq[2], rank_idx_seq[3]));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Post]rank_idx_out = [%d, %d, %d, %d]\n", rank_idx_out[0], rank_idx_out[1], rank_idx_out[2], rank_idx_out[3]));
++			*/
++
++			if (target_ant_beam_max_rssi[i] > max_beam_ant_rssi) {
++				TargetAnt = i;
++				max_beam_ant_rssi = target_ant_beam_max_rssi[i];
++				/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Target of Ant = (( %d )) max_beam_ant_rssi = (( %d ))\n", 
++					TargetAnt,  max_beam_ant_rssi));*/
++			}
++			break_counter++;
++			if (break_counter >= (pdm_sat_table->ant_num))
++				break;
++		}
++		
++		#ifdef CONFIG_FAT_PATCH
++		break_counter = 0;
++		for (i = (pdm_sat_table->first_train_ant-1); i < pdm_sat_table->ant_num_total; i++) {
++			for (j = 0; j < (pdm_sat_table->beam_patten_num_each_ant); j++) {
++				
++				per_beam_rssi_diff_tmp = (u1Byte)(max_beam_ant_rssi - pdm_sat_table->pkt_rssi_pre[i][j]);
++				pdm_sat_table->beam_train_rssi_diff[i][j] = per_beam_rssi_diff_tmp;
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Ant[%d], Beam[%d]: RSSI_diff= ((%d))\n", 
++					i,  j, per_beam_rssi_diff_tmp));
++			}
++			break_counter++;
++			if (break_counter >= (pdm_sat_table->ant_num))
++				break;
++		}
++		#endif
++
++		if (TargetAnt == 0) 
++			TargetAnt = MAIN_ANT;
++		else if (TargetAnt == 1)
++			TargetAnt = AUX_ANT;
++
++		if (pdm_sat_table->ant_num > 1) {
++			/* [ update RX ant ]*/
++			ODM_UpdateRxIdleAnt(pDM_Odm, (u1Byte)TargetAnt);
++
++			/* [ update TX ant ]*/
++			odm_UpdateTxAnt(pDM_Odm, (u1Byte)TargetAnt, (pDM_FatTable->TrainIdx));
++		}
++		
++		/*set beam in each antenna*/
++		phydm_update_rx_idle_beam(pDM_Odm);
++
++		odm_AntDiv_on_off(pDM_Odm, ANTDIV_ON);		
++		pDM_FatTable->FAT_State = FAT_PREPARE_STATE;
++
++	} 
++	/* [TRAINING STATE] */
++	else if (pDM_FatTable->FAT_State == FAT_TRAINING_STATE) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 2. In Training State]\n"));
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("fat_beam_n = (( %d )), pre_fat_beam_n = (( %d ))\n", 
++			pdm_sat_table->fast_training_beam_num, pdm_sat_table->pre_fast_training_beam_num));
++		
++		if (pdm_sat_table->fast_training_beam_num > pdm_sat_table->pre_fast_training_beam_num) {
++			
++			pdm_sat_table->force_update_beam_en = 0;
++
++		} else {
++		
++			pdm_sat_table->force_update_beam_en = 1;
++			
++			pdm_sat_table->pkt_counter = 0;
++			beam_tmp = pdm_sat_table->fast_training_beam_num;
++			if (pdm_sat_table->fast_training_beam_num >= (pdm_sat_table->beam_patten_num_each_ant-1)) {
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Timeout Update]  Beam_num (( %d )) -> (( decision ))\n", pdm_sat_table->fast_training_beam_num));	
++				pDM_FatTable->FAT_State = FAT_DECISION_STATE;					
++				odm_FastAntTraining_hl_smart_antenna_type1(pDM_Odm);
++
++			} else {
++				pdm_sat_table->fast_training_beam_num++;
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Timeout Update]  Beam_num (( %d )) -> (( %d ))\n", beam_tmp, pdm_sat_table->fast_training_beam_num));
++				phydm_set_all_ant_same_beam_num(pDM_Odm);
++				pDM_FatTable->FAT_State = FAT_TRAINING_STATE;	
++				
++			}
++		}
++		pdm_sat_table->pre_fast_training_beam_num = pdm_sat_table->fast_training_beam_num;
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Update Pre_Beam =(( %d ))\n", pdm_sat_table->pre_fast_training_beam_num));
++	}
++	/*  [Prepare State] */
++	/*=======================================================================================*/
++	else if (pDM_FatTable->FAT_State == FAT_PREPARE_STATE) {
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("\n\n[ 1. In Prepare State]\n"));
++		
++		if (pDM_Odm->pre_TrafficLoad == (pDM_Odm->TrafficLoad)) {
++			if (pdm_sat_table->decision_holding_period != 0) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Holding_period = (( %d )), return!!!\n", pdm_sat_table->decision_holding_period));
++				pdm_sat_table->decision_holding_period--;
++				return;
++			}
++		}
++				
++		
++		/* Set training packet number*/
++		if (pdm_sat_table->fix_training_num_en == 0) {
++
++			switch (pDM_Odm->TrafficLoad) {
++
++			case TRAFFIC_HIGH: 
++				pdm_sat_table->per_beam_training_pkt_num = 8;
++				pdm_sat_table->decision_holding_period = 2;
++				break;
++			case TRAFFIC_MID: 
++				pdm_sat_table->per_beam_training_pkt_num = 6;
++				pdm_sat_table->decision_holding_period = 3;
++				break;
++			case TRAFFIC_LOW: 
++				pdm_sat_table->per_beam_training_pkt_num = 3; /*ping 60000*/
++				pdm_sat_table->decision_holding_period = 4;
++				break;
++			case TRAFFIC_ULTRA_LOW: 
++				pdm_sat_table->per_beam_training_pkt_num = 1;
++				pdm_sat_table->decision_holding_period = 6;
++				break;
++			default:
++				break;			
++			}
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Fix_training_en = (( %d )), training_pkt_num_base = (( %d )), holding_period = ((%d))\n",
++			pdm_sat_table->fix_training_num_en , pdm_sat_table->per_beam_training_pkt_num, pdm_sat_table->decision_holding_period));
++
++
++		#ifdef CONFIG_FAT_PATCH
++		break_counter = 0;
++		for (i = (pdm_sat_table->first_train_ant-1); i < pdm_sat_table->ant_num_total; i++) {
++			for (j = 0; j < (pdm_sat_table->beam_patten_num_each_ant); j++) {
++				
++				per_beam_rssi_diff_tmp = pdm_sat_table->beam_train_rssi_diff[i][j];
++				training_pkt_num_offset = per_beam_rssi_diff_tmp;
++
++				if ((pdm_sat_table->per_beam_training_pkt_num) > training_pkt_num_offset)
++					pdm_sat_table->beam_train_cnt[i][j] = pdm_sat_table->per_beam_training_pkt_num - training_pkt_num_offset;
++				else
++					pdm_sat_table->beam_train_cnt[i][j] = 1;
++					
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Ant[%d]: Beam_num-(( %d ))  training_pkt_num = ((%d))\n", 
++					i,  j, pdm_sat_table->beam_train_cnt[i][j]));
++			}
++			break_counter++;
++			if (break_counter >= (pdm_sat_table->ant_num))
++				break;
++		}
++		
++		
++			phydm_FastTraining_enable(pDM_Odm , FAT_OFF);
++			pdm_sat_table->pre_beacon_counter = pdm_sat_table->beacon_counter;
++			pdm_sat_table->update_beam_idx = 0;
++
++			if (*pDM_Odm->pBandType == ODM_BAND_5G) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Set 5G ant\n"));
++				/*used_ant = (pdm_sat_table->first_train_ant == MAIN_ANT) ? AUX_ANT : MAIN_ANT;*/
++				used_ant = pdm_sat_table->first_train_ant;
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Set 2.4G ant\n"));
++				used_ant = pdm_sat_table->first_train_ant;
++			}
++
++			ODM_UpdateRxIdleAnt(pDM_Odm, (u1Byte)used_ant);
++
++		#else
++			/* Set training MAC Addr. of target */
++			odm_SetNextMACAddrTarget(pDM_Odm);
++			phydm_FastTraining_enable(pDM_Odm , FAT_ON);
++		#endif
++
++		odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++		pdm_sat_table->pkt_counter = 0;
++		pdm_sat_table->fast_training_beam_num = 0;
++		phydm_set_all_ant_same_beam_num(pDM_Odm);
++		pdm_sat_table->pre_fast_training_beam_num = pdm_sat_table->fast_training_beam_num;
++		pDM_FatTable->FAT_State = FAT_TRAINING_STATE;
++	}
++		
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++VOID
++phydm_beam_switch_workitem_callback(
++	IN	PVOID	pContext
++	)
++{
++	PADAPTER		pAdapter = (PADAPTER)pContext;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	pSAT_T			pdm_sat_table = &(pDM_Odm->dm_sat_table);
++
++	#if DEV_BUS_TYPE != RT_PCI_INTERFACE
++	pdm_sat_table->pkt_skip_statistic_en = 1;
++	#endif
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ SmartAnt ] Beam Switch Workitem Callback, pkt_skip_statistic_en = (( %d ))\n", pdm_sat_table->pkt_skip_statistic_en));
++	
++	phydm_update_beam_pattern(pDM_Odm, pdm_sat_table->update_beam_codeword, pdm_sat_table->data_codeword_bit_num);
++
++	#if DEV_BUS_TYPE != RT_PCI_INTERFACE
++	/*ODM_StallExecution(pdm_sat_table->latch_time);*/
++	pdm_sat_table->pkt_skip_statistic_en = 0;
++	#endif
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("pkt_skip_statistic_en = (( %d )), latch_time = (( %d ))\n", pdm_sat_table->pkt_skip_statistic_en, pdm_sat_table->latch_time));
++}
++
++VOID
++phydm_beam_decision_workitem_callback(
++	IN	PVOID	pContext
++	)
++{
++	PADAPTER		pAdapter = (PADAPTER)pContext;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ SmartAnt ] Beam decision Workitem Callback\n"));
++	odm_FastAntTraining_hl_smart_antenna_type1(pDM_Odm);
++}
++#endif
++
++#endif /*#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1*/
++
++VOID
++ODM_AntDivInit(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	pSWAT_T			pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++
++
++	if(!(pDM_Odm->SupportAbility & ODM_BB_ANT_DIV))
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[Return!!!]   Not Support Antenna Diversity Function\n"));
++		return;
++	}
++        //---
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	if(pDM_FatTable->AntDiv_2G_5G == ODM_ANTDIV_2G)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[2G AntDiv Init]: Only Support 2G Antenna Diversity Function\n"));
++		if(!(pDM_Odm->SupportICType & ODM_ANTDIV_2G_SUPPORT_IC))
++			return;
++	}
++	else 	if(pDM_FatTable->AntDiv_2G_5G == ODM_ANTDIV_5G)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[5G AntDiv Init]: Only Support 5G Antenna Diversity Function\n"));
++		if(!(pDM_Odm->SupportICType & ODM_ANTDIV_5G_SUPPORT_IC))
++			return;
++	}
++	else 	if(pDM_FatTable->AntDiv_2G_5G == (ODM_ANTDIV_2G|ODM_ANTDIV_5G))
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[2G & 5G AntDiv Init]:Support Both 2G & 5G Antenna Diversity Function\n"));
++	}
++
++#endif	
++	//---
++
++	//2 [--General---]
++	pDM_Odm->antdiv_period=0;
++
++	pDM_FatTable->bBecomeLinked =FALSE;
++	pDM_FatTable->AntDiv_OnOff =0xff;
++
++	//3       -   AP   -
++	#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	
++		#if (BEAMFORMING_SUPPORT == 1)
++		#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++		odm_BDC_Init(pDM_Odm);
++		#endif
++		#endif
++		
++	//3     -   WIN   -
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		pDM_SWAT_Table->Ant5G = MAIN_ANT;
++		pDM_SWAT_Table->Ant2G = MAIN_ANT;
++		pDM_FatTable->CCK_counter_main=0;
++		pDM_FatTable->CCK_counter_aux=0;
++		pDM_FatTable->OFDM_counter_main=0;
++		pDM_FatTable->OFDM_counter_aux=0;
++	#endif
++
++	//2 [---Set MAIN_ANT as default antenna if Auto-Ant enable---]
++	odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++
++	pDM_Odm->AntType = ODM_AUTO_ANT;
++
++	pDM_FatTable->RxIdleAnt = 0xff; /*to make RX-idle-antenna will be updated absolutly*/
++	ODM_UpdateRxIdleAnt(pDM_Odm, MAIN_ANT);
++	phydm_keep_RxAckAnt_By_TxAnt_time( pDM_Odm, 5); /* Timming issue: keep Rx ant after tx for ACK ( 5 x 3.2 mu = 16mu sec)*/
++		
++	//2 [---Set TX Antenna---]
++	pDM_FatTable->ForceTxAntByDesc = 0;
++	pDM_FatTable->pForceTxAntByDesc = &(pDM_FatTable->ForceTxAntByDesc);
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("pForceTxAntByDesc = %d\n", *pDM_FatTable->pForceTxAntByDesc));
++
++	odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++
++		
++	//2 [--88E---]
++	if(pDM_Odm->SupportICType == ODM_RTL8188E)
++	{
++	#if (RTL8188E_SUPPORT == 1)
++		//pDM_Odm->AntDivType = CGCS_RX_HW_ANTDIV;
++		//pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++		//pDM_Odm->AntDivType = CG_TRX_SMART_ANTDIV;
++
++		if( (pDM_Odm->AntDivType != CGCS_RX_HW_ANTDIV)  && (pDM_Odm->AntDivType != CG_TRX_HW_ANTDIV) && (pDM_Odm->AntDivType != CG_TRX_SMART_ANTDIV))
++		{
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[Return!!!]  88E Not Supprrt This AntDiv Type\n"));
++			pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++			return;
++		}
++		
++		if(pDM_Odm->AntDivType == CGCS_RX_HW_ANTDIV)
++			odm_RX_HWAntDiv_Init_88E(pDM_Odm);
++		else if(pDM_Odm->AntDivType == CG_TRX_HW_ANTDIV)
++			odm_TRX_HWAntDiv_Init_88E(pDM_Odm);
++		#if( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++		else if(pDM_Odm->AntDivType == CG_TRX_SMART_ANTDIV)
++			odm_Smart_HWAntDiv_Init_88E(pDM_Odm);
++	        #endif	
++	#endif
++	}
++	
++	//2 [--92E---]
++	#if (RTL8192E_SUPPORT == 1)
++	else if(pDM_Odm->SupportICType == ODM_RTL8192E)
++	{	
++		//pDM_Odm->AntDivType = CGCS_RX_HW_ANTDIV;
++		//pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++		//pDM_Odm->AntDivType = CG_TRX_SMART_ANTDIV;
++
++		if( (pDM_Odm->AntDivType != CGCS_RX_HW_ANTDIV) && (pDM_Odm->AntDivType != CG_TRX_HW_ANTDIV)   && (pDM_Odm->AntDivType != CG_TRX_SMART_ANTDIV))
++		{
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[Return!!!]  8192E Not Supprrt This AntDiv Type\n"));
++			pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++			return;
++		}
++		
++		if(pDM_Odm->AntDivType == CGCS_RX_HW_ANTDIV)
++			odm_RX_HWAntDiv_Init_92E(pDM_Odm);
++		else if(pDM_Odm->AntDivType == CG_TRX_HW_ANTDIV)
++			odm_TRX_HWAntDiv_Init_92E(pDM_Odm);
++		#if( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++		else if(pDM_Odm->AntDivType == CG_TRX_SMART_ANTDIV)
++			odm_Smart_HWAntDiv_Init_92E(pDM_Odm);
++		#endif
++	
++	}
++	#endif	
++	
++	//2 [--8723B---]
++	#if (RTL8723B_SUPPORT == 1)
++	else if(pDM_Odm->SupportICType == ODM_RTL8723B)
++	{		
++		pDM_Odm->AntDivType = S0S1_SW_ANTDIV;
++		//pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++
++		if(pDM_Odm->AntDivType != S0S1_SW_ANTDIV && pDM_Odm->AntDivType != CG_TRX_HW_ANTDIV)
++		{
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[Return!!!] 8723B  Not Supprrt This AntDiv Type\n"));
++			pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++			return;
++		}
++			
++		if( pDM_Odm->AntDivType==S0S1_SW_ANTDIV)
++			odm_S0S1_SWAntDiv_Init_8723B(pDM_Odm);
++		else if(pDM_Odm->AntDivType==CG_TRX_HW_ANTDIV)
++			odm_TRX_HWAntDiv_Init_8723B(pDM_Odm);		
++	}
++	#endif
++	/*2 [--8723D---]*/
++	#if (RTL8723D_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8723D) {		
++		if (pDM_Odm->AntDivType == S0S1_TRX_HW_ANTDIV)
++			odm_TRX_HWAntDiv_Init_8723D(pDM_Odm);
++		else {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Return!!!] 8723D  Not Supprrt This AntDiv Type\n"));
++			pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++			return;
++		}
++
++	}
++	#endif	
++	//2 [--8811A 8821A---]
++	#if (RTL8821A_SUPPORT == 1)
++	else if(pDM_Odm->SupportICType == ODM_RTL8821)
++	{
++		#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++		pDM_Odm->AntDivType = HL_SW_SMART_ANT_TYPE1;
++		
++		if (pDM_Odm->AntDivType == HL_SW_SMART_ANT_TYPE1) {
++			
++			odm_TRX_HWAntDiv_Init_8821A(pDM_Odm);
++			phydm_hl_smart_ant_type1_init_8821a(pDM_Odm);
++		} else 
++		#endif
++		{
++			/*pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;*/
++			pDM_Odm->AntDivType = S0S1_SW_ANTDIV;
++				
++			if (pDM_Odm->AntDivType != CG_TRX_HW_ANTDIV && pDM_Odm->AntDivType != S0S1_SW_ANTDIV) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Return!!!] 8821A & 8811A  Not Supprrt This AntDiv Type\n"));
++				pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++				return;
++			}
++			if (pDM_Odm->AntDivType == CG_TRX_HW_ANTDIV)	
++				odm_TRX_HWAntDiv_Init_8821A(pDM_Odm);
++			else if (pDM_Odm->AntDivType == S0S1_SW_ANTDIV)
++				odm_S0S1_SWAntDiv_Init_8821A(pDM_Odm);
++		}
++	}
++	#endif
++       
++	//2 [--8821C---]
++	#if (RTL8821C_SUPPORT == 1)
++	else if(pDM_Odm->SupportICType == ODM_RTL8821C)
++	{
++		pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++		if (pDM_Odm->AntDivType != CG_TRX_HW_ANTDIV ) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[Return!!!] 8821C  Not Supprrt This AntDiv Type\n"));
++			pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++			return;
++		}
++		odm_TRX_HWAntDiv_Init_8821C(pDM_Odm);	
++	}
++	#endif
++	
++	//2 [--8881A---]
++	#if (RTL8881A_SUPPORT == 1)
++	else if(pDM_Odm->SupportICType == ODM_RTL8881A)
++	{
++			//pDM_Odm->AntDivType = CGCS_RX_HW_ANTDIV;
++			//pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++			
++			if (pDM_Odm->AntDivType == CG_TRX_HW_ANTDIV) {
++				
++				odm_TRX_HWAntDiv_Init_8881A(pDM_Odm);
++				/**/
++			} else {
++			
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[Return!!!] 8881A  Not Supprrt This AntDiv Type\n"));
++				pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++				return;
++			}
++
++			odm_TRX_HWAntDiv_Init_8881A(pDM_Odm);	
++	}
++	#endif
++	
++	//2 [--8812---]
++	#if (RTL8812A_SUPPORT == 1)
++	else if(pDM_Odm->SupportICType == ODM_RTL8812)
++	{	
++			//pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++			
++			if( pDM_Odm->AntDivType != CG_TRX_HW_ANTDIV)
++			{
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[Return!!!] 8812A  Not Supprrt This AntDiv Type\n"));
++				pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++				return;
++			}
++			odm_TRX_HWAntDiv_Init_8812A(pDM_Odm);
++	}
++	#endif
++
++	/*[--8188F---]*/
++	#if (RTL8188F_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8188F) {
++		
++		pDM_Odm->AntDivType = S0S1_SW_ANTDIV;
++		odm_S0S1_SWAntDiv_Init_8188F(pDM_Odm);
++	}
++	#endif
++	/*
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** SupportICType=[%lu]\n",pDM_Odm->SupportICType));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** AntDiv SupportAbility=[%lu]\n",(pDM_Odm->SupportAbility & ODM_BB_ANT_DIV)>>6));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("*** AntDiv Type=[%d]\n",pDM_Odm->AntDivType));
++	*/
++}
++
++VOID
++ODM_AntDiv(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		pAdapter	= pDM_Odm->Adapter;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++	pSAT_T			pdm_sat_table = &(pDM_Odm->dm_sat_table);
++	#endif
++
++	if(*pDM_Odm->pBandType == ODM_BAND_5G )
++	{
++		if(pDM_FatTable->idx_AntDiv_counter_5G <  pDM_Odm->antdiv_period )
++		{
++			pDM_FatTable->idx_AntDiv_counter_5G++;
++			return;
++		}
++		else
++			pDM_FatTable->idx_AntDiv_counter_5G=0;
++	}
++	else 	if(*pDM_Odm->pBandType == ODM_BAND_2_4G )
++	{
++		if(pDM_FatTable->idx_AntDiv_counter_2G <  pDM_Odm->antdiv_period )
++		{
++			pDM_FatTable->idx_AntDiv_counter_2G++;
++			return;
++		}
++		else
++			pDM_FatTable->idx_AntDiv_counter_2G=0;
++	}
++	
++	//----------
++	if(!(pDM_Odm->SupportAbility & ODM_BB_ANT_DIV))
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[Return!!!]   Not Support Antenna Diversity Function\n"));
++		return;
++	}
++
++	//----------
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++	if (pDM_FatTable->enable_ctrl_frame_antdiv) {
++		
++		if ((pDM_Odm->data_frame_num <= 10) && (pDM_Odm->bLinked))
++			pDM_FatTable->use_ctrl_frame_antdiv = 1;
++		else
++			pDM_FatTable->use_ctrl_frame_antdiv = 0;
++		
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("use_ctrl_frame_antdiv = (( %d )), data_frame_num = (( %d ))\n", pDM_FatTable->use_ctrl_frame_antdiv, pDM_Odm->data_frame_num));
++		pDM_Odm->data_frame_num = 0;
++	}
++
++	if(pAdapter->MgntInfo.AntennaTest)
++		return;
++	
++        {
++	#if (BEAMFORMING_SUPPORT == 1)
++	        BEAMFORMING_CAP		BeamformCap = (pDM_Odm->BeamformingInfo.BeamformCap);
++
++		if( BeamformCap & BEAMFORMEE_CAP ) //  BFmee On  &&   Div On ->  Div Off
++		{	
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[ AntDiv : OFF ]   BFmee ==1 \n"));
++			if(pDM_FatTable->fix_ant_bfee == 0)
++			{
++				odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++				pDM_FatTable->fix_ant_bfee = 1;
++			}
++			return;
++		}
++		else // BFmee Off   &&   Div Off ->  Div On
++		{
++			if((pDM_FatTable->fix_ant_bfee == 1)  &&  pDM_Odm->bLinked) 
++			{
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ AntDiv : ON ]   BFmee ==0\n"));
++				if((pDM_Odm->AntDivType!=S0S1_SW_ANTDIV) )
++					odm_AntDiv_on_off(pDM_Odm, ANTDIV_ON);
++
++				pDM_FatTable->fix_ant_bfee = 0;
++			}
++		}
++	#endif	
++	}
++#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	//----------just for fool proof
++
++	if(pDM_Odm->antdiv_rssi)
++		pDM_Odm->DebugComponents |= ODM_COMP_ANT_DIV;
++	else
++		pDM_Odm->DebugComponents &= ~ODM_COMP_ANT_DIV;
++
++	if(pDM_FatTable->AntDiv_2G_5G == ODM_ANTDIV_2G)
++	{
++		//ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[ 2G AntDiv Running ]\n"));
++		if(!(pDM_Odm->SupportICType & ODM_ANTDIV_2G_SUPPORT_IC))
++			return;
++	}
++	else if(pDM_FatTable->AntDiv_2G_5G == ODM_ANTDIV_5G)
++	{
++		//ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[ 5G AntDiv Running ]\n"));
++		if(!(pDM_Odm->SupportICType & ODM_ANTDIV_5G_SUPPORT_IC))
++			return;
++	}
++	//else 	if(pDM_FatTable->AntDiv_2G_5G == (ODM_ANTDIV_2G|ODM_ANTDIV_5G))
++	//{
++		//ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("[ 2G & 5G AntDiv Running ]\n"));
++	//}
++#endif
++
++	//----------
++
++	if (pDM_Odm->antdiv_select==1)
++		pDM_Odm->AntType = ODM_FIX_MAIN_ANT;
++	else if (pDM_Odm->antdiv_select==2)
++		pDM_Odm->AntType = ODM_FIX_AUX_ANT;
++	else  //if (pDM_Odm->antdiv_select==0)
++		pDM_Odm->AntType = ODM_AUTO_ANT;
++
++	//ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV,ODM_DBG_LOUD,("AntType= (( %d )) , pre_AntType= (( %d ))  \n",pDM_Odm->AntType,pDM_Odm->pre_AntType));
++	
++	if(pDM_Odm->AntType != ODM_AUTO_ANT)
++	{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Fix Antenna at (( %s ))\n",(pDM_Odm->AntType == ODM_FIX_MAIN_ANT)?"MAIN":"AUX"));
++			
++		if(pDM_Odm->AntType != pDM_Odm->pre_AntType)
++		{
++			odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_REG);
++						
++			if(pDM_Odm->AntType == ODM_FIX_MAIN_ANT)
++				ODM_UpdateRxIdleAnt(pDM_Odm, MAIN_ANT);
++			else if(pDM_Odm->AntType == ODM_FIX_AUX_ANT)
++				ODM_UpdateRxIdleAnt(pDM_Odm, AUX_ANT);
++		}
++		pDM_Odm->pre_AntType=pDM_Odm->AntType; 
++		return;
++	}
++	else
++	{
++		if(pDM_Odm->AntType != pDM_Odm->pre_AntType)
++		{
++			odm_AntDiv_on_off(pDM_Odm, ANTDIV_ON);
++			odm_Tx_By_TxDesc_or_Reg(pDM_Odm, TX_BY_DESC);
++		}
++		pDM_Odm->pre_AntType=pDM_Odm->AntType;
++	}
++	 
++	
++	//3 -----------------------------------------------------------------------------------------------------------
++	//2 [--88E---]
++	if(pDM_Odm->SupportICType == ODM_RTL8188E)
++	{
++		#if (RTL8188E_SUPPORT == 1)
++		if(pDM_Odm->AntDivType==CG_TRX_HW_ANTDIV ||pDM_Odm->AntDivType==CGCS_RX_HW_ANTDIV)
++			odm_HW_AntDiv(pDM_Odm);
++
++		#if( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++		else if (pDM_Odm->AntDivType==CG_TRX_SMART_ANTDIV)
++			odm_FastAntTraining(pDM_Odm);	
++		#endif
++		
++		#endif
++
++	}
++	//2 [--92E---]	
++	#if (RTL8192E_SUPPORT == 1)
++	else if(pDM_Odm->SupportICType == ODM_RTL8192E)
++	{
++		if(pDM_Odm->AntDivType==CGCS_RX_HW_ANTDIV || pDM_Odm->AntDivType==CG_TRX_HW_ANTDIV)
++			odm_HW_AntDiv(pDM_Odm);
++		
++		#if( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++		else if (pDM_Odm->AntDivType==CG_TRX_SMART_ANTDIV)
++			odm_FastAntTraining(pDM_Odm);	
++		#endif
++		
++	}
++	#endif
++
++	#if (RTL8723B_SUPPORT == 1)	
++	//2 [--8723B---]
++	else if(pDM_Odm->SupportICType == ODM_RTL8723B)
++	{
++		if (phydm_IsBtEnable_8723b(pDM_Odm)) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[BT is enable!!!]\n"));
++			if (pDM_FatTable->bBecomeLinked == TRUE) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Set REG 948[9:6]=0x0\n"));
++				if (pDM_Odm->SupportICType == ODM_RTL8723B)
++					ODM_SetBBReg(pDM_Odm, 0x948 , BIT9|BIT8|BIT7|BIT6, 0x0); 
++				
++				pDM_FatTable->bBecomeLinked = FALSE;
++			}
++		} else {
++			if (pDM_Odm->AntDivType == S0S1_SW_ANTDIV) {
++				
++				#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++				odm_S0S1_SwAntDiv(pDM_Odm, SWAW_STEP_PEEK);
++				#endif
++			} else if (pDM_Odm->AntDivType == CG_TRX_HW_ANTDIV)
++				odm_HW_AntDiv(pDM_Odm);
++		}
++	}
++	#endif
++     /*8723D*/
++	#if (RTL8723D_SUPPORT == 1)	
++	else if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++		
++		odm_HW_AntDiv(pDM_Odm);
++		/**/
++	}
++	#endif
++	
++	//2 [--8821A---]
++	#if (RTL8821A_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8821)
++	{
++		#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++		if (pDM_Odm->AntDivType == HL_SW_SMART_ANT_TYPE1) {
++
++			if (pdm_sat_table->fix_beam_pattern_en != 0) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, (" [ SmartAnt ] Fix SmartAnt Pattern = 0x%x\n", pdm_sat_table->fix_beam_pattern_codeword));
++				/*return;*/
++			} else {
++				/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ SmartAnt ] AntDivType = HL_SW_SMART_ANT_TYPE1\n"));*/
++				odm_FastAntTraining_hl_smart_antenna_type1(pDM_Odm);
++			}
++
++		} else 
++		#endif
++		{
++
++			if (!pDM_Odm->bBtEnabled)  /*BT disabled*/
++			{
++				if (pDM_Odm->AntDivType == S0S1_SW_ANTDIV) {
++					pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, (" [S0S1_SW_ANTDIV]  ->  [CG_TRX_HW_ANTDIV]\n"));
++					/*ODM_SetBBReg(pDM_Odm, 0x8D4 , BIT24, 1); */
++					if (pDM_FatTable->bBecomeLinked == TRUE)
++						odm_AntDiv_on_off(pDM_Odm, ANTDIV_ON);
++				}
++				
++			} else { /*BT enabled*/
++			
++				if (pDM_Odm->AntDivType == CG_TRX_HW_ANTDIV) {
++					pDM_Odm->AntDivType = S0S1_SW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, (" [CG_TRX_HW_ANTDIV]  ->  [S0S1_SW_ANTDIV]\n"));
++					/*ODM_SetBBReg(pDM_Odm, 0x8D4 , BIT24, 0);*/
++					odm_AntDiv_on_off(pDM_Odm, ANTDIV_OFF);
++				}	
++			}
++
++			if (pDM_Odm->AntDivType == S0S1_SW_ANTDIV) {
++
++				#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++				odm_S0S1_SwAntDiv(pDM_Odm, SWAW_STEP_PEEK);
++				#endif
++			} else if (pDM_Odm->AntDivType == CG_TRX_HW_ANTDIV)
++				odm_HW_AntDiv(pDM_Odm);
++		}
++	}
++	#endif
++
++	//2 [--8821C---]
++	#if (RTL8821C_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8821C)
++	{
++		odm_HW_AntDiv(pDM_Odm);
++	}
++	#endif
++	
++	//2 [--8881A---]
++	#if (RTL8881A_SUPPORT == 1)
++	else if(pDM_Odm->SupportICType == ODM_RTL8881A)		
++		odm_HW_AntDiv(pDM_Odm);
++	#endif
++	
++	//2 [--8812A---]
++	#if (RTL8812A_SUPPORT == 1)
++	else if(pDM_Odm->SupportICType == ODM_RTL8812)
++		odm_HW_AntDiv(pDM_Odm);
++	#endif
++
++	#if (RTL8188F_SUPPORT == 1)	
++	/* [--8188F---]*/
++	else if (pDM_Odm->SupportICType == ODM_RTL8188F)	{
++	
++		#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++		odm_S0S1_SwAntDiv(pDM_Odm, SWAW_STEP_PEEK);
++		#endif		
++	}
++	#endif
++
++}
++
++
++VOID
++odm_AntselStatistics(
++	IN		PVOID			pDM_VOID,	
++	IN		u1Byte			antsel_tr_mux,
++	IN		u4Byte			MacId,
++	IN		u4Byte			utility,
++	IN            u1Byte			method
++
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++	if(method==RSSI_METHOD)
++	{
++		if(antsel_tr_mux == ANT1_2G)
++		{
++			pDM_FatTable->MainAnt_Sum[MacId]+=utility;
++			pDM_FatTable->MainAnt_Cnt[MacId]++;
++		}
++		else
++		{
++			pDM_FatTable->AuxAnt_Sum[MacId]+=utility;
++			pDM_FatTable->AuxAnt_Cnt[MacId]++;
++		}
++	}
++	#ifdef ODM_EVM_ENHANCE_ANTDIV
++	else if(method==EVM_METHOD)
++	{
++		if(antsel_tr_mux == ANT1_2G)
++		{
++			pDM_FatTable->MainAntEVM_Sum[MacId]+=(utility<<5);
++			pDM_FatTable->MainAntEVM_Cnt[MacId]++;
++		}
++		else
++		{
++			pDM_FatTable->AuxAntEVM_Sum[MacId]+=(utility<<5);
++			pDM_FatTable->AuxAntEVM_Cnt[MacId]++;
++		}
++	}
++	else if(method==CRC32_METHOD)
++	{
++		if(utility==0)
++			pDM_FatTable->CRC32_Fail_Cnt++;
++		else
++			pDM_FatTable->CRC32_Ok_Cnt+=utility;
++	}
++	#endif
++}
++
++
++VOID
++ODM_Process_RSSIForAntDiv(	
++	IN OUT		PVOID			pDM_VOID,	
++	IN			PVOID			p_phy_info_void,
++	IN			PVOID			p_pkt_info_void
++	//IN		PODM_PHY_INFO_T				pPhyInfo,
++	//IN		PODM_PACKET_INFO_T			pPktinfo
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_PHY_INFO_T 	pPhyInfo=(PODM_PHY_INFO_T)p_phy_info_void;
++	PODM_PACKET_INFO_T	 pPktinfo=(PODM_PACKET_INFO_T)p_pkt_info_void;
++	u1Byte			isCCKrate=0,CCKMaxRate=ODM_RATE11M;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++	pSAT_T			pdm_sat_table = &(pDM_Odm->dm_sat_table);
++	u4Byte			beam_tmp;
++	u1Byte			next_ant;
++	u1Byte			train_pkt_number;
++	#endif
++
++	#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN))
++	u4Byte			RxPower_Ant0, RxPower_Ant1;	
++	u4Byte			RxEVM_Ant0, RxEVM_Ant1;
++	#else
++	u1Byte			RxPower_Ant0, RxPower_Ant1;	
++	u1Byte			RxEVM_Ant0, RxEVM_Ant1;
++	#endif
++
++	CCKMaxRate=ODM_RATE11M;
++	isCCKrate = (pPktinfo->DataRate <= CCKMaxRate)?TRUE:FALSE;
++		
++	if ((pDM_Odm->SupportICType & (ODM_RTL8192E|ODM_RTL8812)) && (pPktinfo->DataRate > CCKMaxRate))
++	{
++		RxPower_Ant0 = pPhyInfo->RxMIMOSignalStrength[0];
++		RxPower_Ant1= pPhyInfo->RxMIMOSignalStrength[1];
++
++		RxEVM_Ant0 =pPhyInfo->RxMIMOSignalQuality[0];
++		RxEVM_Ant1 =pPhyInfo->RxMIMOSignalQuality[1];
++	}
++	else
++		RxPower_Ant0=pPhyInfo->RxPWDBAll;
++
++	#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++	#ifdef CONFIG_FAT_PATCH
++	if ((pDM_Odm->AntDivType == HL_SW_SMART_ANT_TYPE1) && (pDM_FatTable->FAT_State == FAT_TRAINING_STATE)) {
++
++		/*[Beacon]*/		
++		if (pPktinfo->bPacketBeacon) {
++			
++			pdm_sat_table->beacon_counter++;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("MatchBSSID_beacon_counter = ((%d))\n", pdm_sat_table->beacon_counter));	
++			
++			if (pdm_sat_table->beacon_counter >= pdm_sat_table->pre_beacon_counter + 2) {
++
++				if (pdm_sat_table->ant_num > 1) {
++					next_ant = (pDM_FatTable->RxIdleAnt == MAIN_ANT) ? AUX_ANT : MAIN_ANT;
++					ODM_UpdateRxIdleAnt(pDM_Odm, next_ant);
++				}
++
++				pdm_sat_table->update_beam_idx++;
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("pre_beacon_counter = ((%d)), pkt_counter = ((%d)), update_beam_idx = ((%d))\n", 
++					pdm_sat_table->pre_beacon_counter, pdm_sat_table->pkt_counter, pdm_sat_table->update_beam_idx));
++
++				pdm_sat_table->pre_beacon_counter = pdm_sat_table->beacon_counter;
++				pdm_sat_table->pkt_counter = 0;
++			}
++		} 
++		/*[Data]*/
++		else if (pPktinfo->bPacketToSelf) {
++		
++			if (pdm_sat_table->pkt_skip_statistic_en == 0) {
++				/*
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("StaID[%d]:  antsel_pathA = ((%d)), hw_antsw_occur = ((%d)), Beam_num = ((%d)), RSSI = ((%d))\n",
++					pPktinfo->StationID, pDM_FatTable->antsel_rx_keep_0, pDM_FatTable->hw_antsw_occur, pdm_sat_table->fast_training_beam_num, RxPower_Ant0));
++				*/
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("ID[%d][pkt_cnt = %d]: {ANT, Beam} = {%d, %d}, RSSI = ((%d))\n",
++					pPktinfo->StationID, pdm_sat_table->pkt_counter, pDM_FatTable->antsel_rx_keep_0, pdm_sat_table->fast_training_beam_num, RxPower_Ant0));
++
++				pdm_sat_table->pkt_rssi_sum[pDM_FatTable->antsel_rx_keep_0][pdm_sat_table->fast_training_beam_num] += RxPower_Ant0;
++				pdm_sat_table->pkt_rssi_cnt[pDM_FatTable->antsel_rx_keep_0][pdm_sat_table->fast_training_beam_num]++;
++				pdm_sat_table->pkt_counter++;
++
++				#if 1
++				train_pkt_number = pdm_sat_table->beam_train_cnt[pDM_FatTable->RxIdleAnt-1][pdm_sat_table->fast_training_beam_num];
++				#else
++				train_pkt_number =  pdm_sat_table->per_beam_training_pkt_num;
++				#endif
++				
++				/*Swich Antenna erery N pkts*/
++				if (pdm_sat_table->pkt_counter == train_pkt_number) {
++
++					if (pdm_sat_table->ant_num > 1) {
++						
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("packet enugh ((%d ))pkts ---> Switch antenna\n", train_pkt_number));
++						next_ant = (pDM_FatTable->RxIdleAnt == MAIN_ANT) ? AUX_ANT : MAIN_ANT;
++						ODM_UpdateRxIdleAnt(pDM_Odm, next_ant);
++					}
++
++					pdm_sat_table->update_beam_idx++;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("pre_beacon_counter = ((%d)), update_beam_idx_counter = ((%d))\n", 
++						pdm_sat_table->pre_beacon_counter, pdm_sat_table->update_beam_idx));
++
++					pdm_sat_table->pre_beacon_counter = pdm_sat_table->beacon_counter;
++					pdm_sat_table->pkt_counter = 0;
++				}
++			}
++		}
++		
++		/*Swich Beam after switch "pdm_sat_table->ant_num" antennas*/
++		if (pdm_sat_table->update_beam_idx == pdm_sat_table->ant_num) {
++			
++			pdm_sat_table->update_beam_idx = 0;
++			pdm_sat_table->pkt_counter = 0;
++			beam_tmp = pdm_sat_table->fast_training_beam_num;
++							
++			if (pdm_sat_table->fast_training_beam_num >= (pdm_sat_table->beam_patten_num_each_ant-1)) {
++				
++				pDM_FatTable->FAT_State = FAT_DECISION_STATE;
++				
++				#if DEV_BUS_TYPE == RT_PCI_INTERFACE
++				odm_FastAntTraining_hl_smart_antenna_type1(pDM_Odm);
++				#else
++				ODM_ScheduleWorkItem(&pdm_sat_table->hl_smart_antenna_decision_workitem);
++				#endif
++
++
++			} else {
++				pdm_sat_table->fast_training_beam_num++;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Update Beam_num (( %d )) -> (( %d ))\n", beam_tmp, pdm_sat_table->fast_training_beam_num));
++				phydm_set_all_ant_same_beam_num(pDM_Odm);
++				
++				pDM_FatTable->FAT_State = FAT_TRAINING_STATE;	
++			}
++		}
++		
++	} 
++	#else
++
++	if (pDM_Odm->AntDivType == HL_SW_SMART_ANT_TYPE1)
++	{
++		if ((pDM_Odm->SupportICType & ODM_HL_SMART_ANT_TYPE1_SUPPORT) && 
++			(pPktinfo->bPacketToSelf)   && 
++			(pDM_FatTable->FAT_State == FAT_TRAINING_STATE)
++			) {
++			
++			if (pdm_sat_table->pkt_skip_statistic_en == 0) {
++				/*
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("StaID[%d]:  antsel_pathA = ((%d)), hw_antsw_occur = ((%d)), Beam_num = ((%d)), RSSI = ((%d))\n",
++					pPktinfo->StationID, pDM_FatTable->antsel_rx_keep_0, pDM_FatTable->hw_antsw_occur, pdm_sat_table->fast_training_beam_num, RxPower_Ant0));
++				*/
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("StaID[%d]:  antsel_pathA = ((%d)), bPacketToSelf = ((%d)), Beam_num = ((%d)), RSSI = ((%d))\n",
++					pPktinfo->StationID, pDM_FatTable->antsel_rx_keep_0, pPktinfo->bPacketToSelf, pdm_sat_table->fast_training_beam_num, RxPower_Ant0));
++
++				
++				pdm_sat_table->pkt_rssi_sum[pDM_FatTable->antsel_rx_keep_0][pdm_sat_table->fast_training_beam_num] += RxPower_Ant0;
++				pdm_sat_table->pkt_rssi_cnt[pDM_FatTable->antsel_rx_keep_0][pdm_sat_table->fast_training_beam_num]++;
++				pdm_sat_table->pkt_counter++;
++			
++				/*swich beam every N pkt*/
++				if ((pdm_sat_table->pkt_counter) >= (pdm_sat_table->per_beam_training_pkt_num)) {
++
++					pdm_sat_table->pkt_counter = 0;
++					beam_tmp = pdm_sat_table->fast_training_beam_num;
++									
++					if (pdm_sat_table->fast_training_beam_num >= (pdm_sat_table->beam_patten_num_each_ant-1)) {
++						
++						pDM_FatTable->FAT_State = FAT_DECISION_STATE;
++						
++						#if DEV_BUS_TYPE == RT_PCI_INTERFACE
++						odm_FastAntTraining_hl_smart_antenna_type1(pDM_Odm);
++						#else
++						ODM_ScheduleWorkItem(&pdm_sat_table->hl_smart_antenna_decision_workitem);
++						#endif
++
++
++					} else {
++						pdm_sat_table->fast_training_beam_num++;
++						phydm_set_all_ant_same_beam_num(pDM_Odm);
++						
++						pDM_FatTable->FAT_State = FAT_TRAINING_STATE;	
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Update  Beam_num (( %d )) -> (( %d ))\n", beam_tmp, pdm_sat_table->fast_training_beam_num));
++					}
++				}
++			}
++		}
++	}
++	#endif
++	else 
++	#endif
++	if (pDM_Odm->AntDivType == CG_TRX_SMART_ANTDIV) {
++		if( (pDM_Odm->SupportICType & ODM_SMART_ANT_SUPPORT) &&  (pPktinfo->bPacketToSelf)   && (pDM_FatTable->FAT_State == FAT_TRAINING_STATE) )//(pPktinfo->bPacketMatchBSSID && (!pPktinfo->bPacketBeacon))
++		{
++			u1Byte	antsel_tr_mux;
++			antsel_tr_mux = (pDM_FatTable->antsel_rx_keep_2<<2) |(pDM_FatTable->antsel_rx_keep_1 <<1) |pDM_FatTable->antsel_rx_keep_0;
++			pDM_FatTable->antSumRSSI[antsel_tr_mux] += RxPower_Ant0;
++			pDM_FatTable->antRSSIcnt[antsel_tr_mux]++;
++		}
++	}
++	else //AntDivType != CG_TRX_SMART_ANTDIV 
++	{
++		if ((pDM_Odm->SupportICType & ODM_ANTDIV_SUPPORT) && (pPktinfo->bPacketToSelf || pDM_FatTable->use_ctrl_frame_antdiv))
++		{
++			if(pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8192E)
++			{
++				odm_AntselStatistics(pDM_Odm, pDM_FatTable->antsel_rx_keep_0, pPktinfo->StationID,RxPower_Ant0,RSSI_METHOD);
++
++				#ifdef ODM_EVM_ENHANCE_ANTDIV
++				if(!isCCKrate)
++				{
++					odm_AntselStatistics(pDM_Odm, pDM_FatTable->antsel_rx_keep_0, pPktinfo->StationID,RxEVM_Ant0,EVM_METHOD);
++				}
++				#endif
++			}
++			else// SupportICType == ODM_RTL8821 and ODM_RTL8723B and ODM_RTL8812)
++			{
++				if(isCCKrate && (pDM_Odm->AntDivType == S0S1_SW_ANTDIV))
++				{
++				 	pDM_FatTable->antsel_rx_keep_0 = (pDM_FatTable->RxIdleAnt == MAIN_ANT) ? ANT1_2G : ANT2_2G;
++
++
++					if(pDM_FatTable->antsel_rx_keep_0==ANT1_2G)
++						pDM_FatTable->CCK_counter_main++;
++					else// if(pDM_FatTable->antsel_rx_keep_0==ANT2_2G)
++						pDM_FatTable->CCK_counter_aux++;
++
++					odm_AntselStatistics(pDM_Odm, pDM_FatTable->antsel_rx_keep_0, pPktinfo->StationID, RxPower_Ant0,RSSI_METHOD);
++				}
++				else
++				{
++					if(pDM_FatTable->antsel_rx_keep_0==ANT1_2G)
++						pDM_FatTable->OFDM_counter_main++;
++					else// if(pDM_FatTable->antsel_rx_keep_0==ANT2_2G)
++						pDM_FatTable->OFDM_counter_aux++;
++					odm_AntselStatistics(pDM_Odm, pDM_FatTable->antsel_rx_keep_0, pPktinfo->StationID, RxPower_Ant0,RSSI_METHOD);
++				}
++			}
++		}
++	}
++	//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("isCCKrate=%d, PWDB_ALL=%d\n",isCCKrate, pPhyInfo->RxPWDBAll));
++	//ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("antsel_tr_mux=3'b%d%d%d\n",pDM_FatTable->antsel_rx_keep_2, pDM_FatTable->antsel_rx_keep_1, pDM_FatTable->antsel_rx_keep_0));
++}
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++VOID
++ODM_SetTxAntByTxInfo(
++	IN		PVOID			pDM_VOID,	
++	IN		pu1Byte			pDesc,
++	IN		u1Byte			macId	
++
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T	pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	if (!(pDM_Odm->SupportAbility & ODM_BB_ANT_DIV))
++		return;
++
++	if (pDM_Odm->AntDivType == CGCS_RX_HW_ANTDIV)
++		return;
++
++
++	if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++#if (RTL8723B_SUPPORT == 1)
++		SET_TX_DESC_ANTSEL_A_8723B(pDesc, pDM_FatTable->antsel_a[macId]);
++		/*ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[8723B] SetTxAntByTxInfo_WIN: MacID=%d, antsel_tr_mux=3'b%d%d%d\n", 
++			macId, pDM_FatTable->antsel_c[macId], pDM_FatTable->antsel_b[macId], pDM_FatTable->antsel_a[macId]));*/
++#endif
++	} else if (pDM_Odm->SupportICType == ODM_RTL8821) {
++#if (RTL8821A_SUPPORT == 1)
++		SET_TX_DESC_ANTSEL_A_8812(pDesc, pDM_FatTable->antsel_a[macId]);
++		/*ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[8821A] SetTxAntByTxInfo_WIN: MacID=%d, antsel_tr_mux=3'b%d%d%d\n", 
++			macId, pDM_FatTable->antsel_c[macId], pDM_FatTable->antsel_b[macId], pDM_FatTable->antsel_a[macId]));*/
++#endif
++	} else if (pDM_Odm->SupportICType == ODM_RTL8188E) {
++#if (RTL8188E_SUPPORT == 1)
++		SET_TX_DESC_ANTSEL_A_88E(pDesc, pDM_FatTable->antsel_a[macId]);
++		SET_TX_DESC_ANTSEL_B_88E(pDesc, pDM_FatTable->antsel_b[macId]);
++		SET_TX_DESC_ANTSEL_C_88E(pDesc, pDM_FatTable->antsel_c[macId]);
++		/*ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[8188E] SetTxAntByTxInfo_WIN: MacID=%d, antsel_tr_mux=3'b%d%d%d\n", 
++			macId, pDM_FatTable->antsel_c[macId], pDM_FatTable->antsel_b[macId], pDM_FatTable->antsel_a[macId]));*/
++#endif
++	}
++}
++#elif(DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++VOID
++ODM_SetTxAntByTxInfo(
++	struct	rtl8192cd_priv		*priv,
++	struct	tx_desc	*pdesc,
++	unsigned short			aid	
++)
++{
++	PDM_ODM_T	pDM_Odm = &(priv->pshare->_dmODM);
++	pFAT_T		pDM_FatTable = &priv->pshare->_dmODM.DM_FatTable;
++	u4Byte		SupportICType = priv->pshare->_dmODM.SupportICType;
++
++	if (!(pDM_Odm->SupportAbility & ODM_BB_ANT_DIV))
++		return;
++
++	if (pDM_Odm->AntDivType == CGCS_RX_HW_ANTDIV)
++		return;
++
++	if (SupportICType == ODM_RTL8881A) {
++		/*panic_printk("[%s] [%d]   ******ODM_SetTxAntByTxInfo_8881E******\n",__FUNCTION__,__LINE__);	*/
++		pdesc->Dword6 &= set_desc(~(BIT(18)|BIT(17)|BIT(16)));	
++		pdesc->Dword6 |= set_desc(pDM_FatTable->antsel_a[aid]<<16);
++	} else if (SupportICType == ODM_RTL8192E) {
++		/*panic_printk("[%s] [%d]   ******ODM_SetTxAntByTxInfo_8192E******\n",__FUNCTION__,__LINE__);	*/
++		pdesc->Dword6 &= set_desc(~(BIT(18)|BIT(17)|BIT(16)));	
++		pdesc->Dword6 |= set_desc(pDM_FatTable->antsel_a[aid]<<16);
++	} else if (SupportICType == ODM_RTL8188E) {
++		/*panic_printk("[%s] [%d]   ******ODM_SetTxAntByTxInfo_8188E******\n",__FUNCTION__,__LINE__);*/
++		pdesc->Dword2 &= set_desc(~BIT(24));
++		pdesc->Dword2 &= set_desc(~BIT(25));
++		pdesc->Dword7 &= set_desc(~BIT(29));
++
++		pdesc->Dword2 |= set_desc(pDM_FatTable->antsel_a[aid]<<24);
++		pdesc->Dword2 |= set_desc(pDM_FatTable->antsel_b[aid]<<25);
++		pdesc->Dword7 |= set_desc(pDM_FatTable->antsel_c[aid]<<29);
++			
++		
++	} else if (SupportICType == ODM_RTL8812) {
++		/*[path-A]*/
++		/*panic_printk("[%s] [%d]   ******ODM_SetTxAntByTxInfo_8881E******\n",__FUNCTION__,__LINE__);*/
++			
++		pdesc->Dword6 &= set_desc(~BIT(16));
++		pdesc->Dword6 &= set_desc(~BIT(17));
++		pdesc->Dword6 &= set_desc(~BIT(18));
++
++		pdesc->Dword6 |= set_desc(pDM_FatTable->antsel_a[aid]<<16);
++		pdesc->Dword6 |= set_desc(pDM_FatTable->antsel_b[aid]<<17);
++		pdesc->Dword6 |= set_desc(pDM_FatTable->antsel_c[aid]<<18);
++			
++	}
++}
++
++
++#if 1 /*def CONFIG_WLAN_HAL*/
++VOID
++ODM_SetTxAntByTxInfo_HAL(
++	struct	rtl8192cd_priv		*priv,
++	PVOID	pdesc_data,
++	u2Byte					aid	
++)
++{
++	PDM_ODM_T	pDM_Odm = &(priv->pshare->_dmODM);
++	pFAT_T		pDM_FatTable = &priv->pshare->_dmODM.DM_FatTable;
++	u4Byte		SupportICType = priv->pshare->_dmODM.SupportICType;
++	PTX_DESC_DATA_88XX	pdescdata = (PTX_DESC_DATA_88XX)pdesc_data;
++
++	if (!(pDM_Odm->SupportAbility & ODM_BB_ANT_DIV))
++		return;
++
++	if (pDM_Odm->AntDivType == CGCS_RX_HW_ANTDIV)
++		return;
++	
++	if (SupportICType == ODM_RTL8881A || SupportICType == ODM_RTL8192E || SupportICType == ODM_RTL8814A) {
++		/*panic_printk("[%s] [%d] ******ODM_SetTxAntByTxInfo_HAL******\n",__FUNCTION__,__LINE__);*/
++		pdescdata->antSel = 1;
++		pdescdata->antSel_A = pDM_FatTable->antsel_a[aid];
++	}
++}
++#endif	/*#ifdef  CONFIG_WLAN_HAL*/
++
++#endif
++
++
++VOID
++ODM_AntDiv_Config(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))
++		ODM_RT_TRACE (pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("WIN Config Antenna Diversity\n"));
++		/*
++		if(pDM_Odm->SupportICType==ODM_RTL8723B)
++		{
++			if((!pDM_Odm->DM_SWAT_Table.ANTA_ON || !pDM_Odm->DM_SWAT_Table.ANTB_ON))
++				pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++		}
++		*/
++		if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++			
++			pDM_Odm->AntDivType = S0S1_TRX_HW_ANTDIV;
++			/**/
++		}	
++#elif (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("CE Config Antenna Diversity\n"));
++				
++		if(pDM_Odm->SupportICType==ODM_RTL8723B)
++		{
++			pDM_Odm->AntDivType = S0S1_SW_ANTDIV;
++			
++		
++		}			
++
++#elif (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("AP Config Antenna Diversity\n"));
++
++	//2 [ NOT_SUPPORT_ANTDIV ]
++	#if(defined(CONFIG_NOT_SUPPORT_ANTDIV)) 
++		pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Disable AntDiv function] : Not Support 2.4G & 5G Antenna Diversity\n"));
++		
++		//2 [ 2G&5G_SUPPORT_ANTDIV ]
++	#elif(defined(CONFIG_2G5G_SUPPORT_ANTDIV))
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Enable AntDiv function] : 2.4G & 5G Support Antenna Diversity Simultaneously \n"));
++		pDM_FatTable->AntDiv_2G_5G = (ODM_ANTDIV_2G|ODM_ANTDIV_5G);
++
++		if(pDM_Odm->SupportICType & ODM_ANTDIV_SUPPORT)
++			pDM_Odm->SupportAbility |= ODM_BB_ANT_DIV;
++		if(*pDM_Odm->pBandType == ODM_BAND_5G )
++		{
++				#if ( defined(CONFIG_5G_CGCS_RX_DIVERSITY) )
++					pDM_Odm->AntDivType = CGCS_RX_HW_ANTDIV; 
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 5G] : AntDiv Type = CGCS_RX_HW_ANTDIV\n"));
++					panic_printk("[ 5G] : AntDiv Type = CGCS_RX_HW_ANTDIV\n");
++				#elif( defined(CONFIG_5G_CG_TRX_DIVERSITY)||defined(CONFIG_2G5G_CG_TRX_DIVERSITY_8881A))
++					pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 5G] : AntDiv Type = CG_TRX_HW_ANTDIV\n"));				
++					panic_printk("[ 5G] : AntDiv Type = CG_TRX_HW_ANTDIV\n");
++				#elif( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) )
++					pDM_Odm->AntDivType = CG_TRX_SMART_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 5G] : AntDiv Type = CG_SMART_ANTDIV\n"));
++				#elif( defined(CONFIG_5G_S0S1_SW_ANT_DIVERSITY) )
++					pDM_Odm->AntDivType = S0S1_SW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 5G] : AntDiv Type = S0S1_SW_ANTDIV\n"));
++				#endif
++		}		
++		else if(*pDM_Odm->pBandType == ODM_BAND_2_4G )
++		 {
++				#if ( defined(CONFIG_2G_CGCS_RX_DIVERSITY) )
++						pDM_Odm->AntDivType = CGCS_RX_HW_ANTDIV;
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 2.4G] : AntDiv Type = CGCS_RX_HW_ANTDIV\n"));		
++				#elif( defined(CONFIG_2G_CG_TRX_DIVERSITY) || defined(CONFIG_2G5G_CG_TRX_DIVERSITY_8881A))
++						pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 2.4G] : AntDiv Type = CG_TRX_HW_ANTDIV\n"));
++				#elif( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++						pDM_Odm->AntDivType = CG_TRX_SMART_ANTDIV;
++						ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 2.4G] : AntDiv Type = CG_SMART_ANTDIV\n"));
++				#elif( defined(CONFIG_2G_S0S1_SW_ANT_DIVERSITY) )
++					pDM_Odm->AntDivType = S0S1_SW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 2.4G] : AntDiv Type = S0S1_SW_ANTDIV\n"));
++				#endif
++		}
++		
++		//2 [ 5G_SUPPORT_ANTDIV ]
++	#elif(defined(CONFIG_5G_SUPPORT_ANTDIV))
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Enable AntDiv function] : Only 5G Support Antenna Diversity\n"));
++		panic_printk("[ Enable AntDiv function] : Only 5G Support Antenna Diversity\n");
++		pDM_FatTable->AntDiv_2G_5G = (ODM_ANTDIV_5G);
++		if(*pDM_Odm->pBandType == ODM_BAND_5G )
++		{
++				if(pDM_Odm->SupportICType & ODM_ANTDIV_5G_SUPPORT_IC)
++				pDM_Odm->SupportAbility |= ODM_BB_ANT_DIV;	
++				#if ( defined(CONFIG_5G_CGCS_RX_DIVERSITY) )
++					pDM_Odm->AntDivType = CGCS_RX_HW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 5G] : AntDiv Type = CGCS_RX_HW_ANTDIV\n"));
++					panic_printk("[ 5G] : AntDiv Type = CGCS_RX_HW_ANTDIV\n");
++				#elif( defined(CONFIG_5G_CG_TRX_DIVERSITY) )
++					pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++					panic_printk("[ 5G] : AntDiv Type = CG_TRX_HW_ANTDIV\n");
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 5G] : AntDiv Type = CG_TRX_HW_ANTDIV\n"));
++				#elif( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) )
++					pDM_Odm->AntDivType = CG_TRX_SMART_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 5G] : AntDiv Type = CG_SMART_ANTDIV\n"));
++				#elif( defined(CONFIG_5G_S0S1_SW_ANT_DIVERSITY) )
++					pDM_Odm->AntDivType = S0S1_SW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 5G] : AntDiv Type = S0S1_SW_ANTDIV\n"));
++				#endif
++		}
++		else if(*pDM_Odm->pBandType == ODM_BAND_2_4G )
++		{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("Not Support 2G AntDivType\n"));
++				pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++		}
++		
++		//2 [ 2G_SUPPORT_ANTDIV ]
++	#elif(defined(CONFIG_2G_SUPPORT_ANTDIV)) 
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ Enable AntDiv function] : Only 2.4G Support Antenna Diversity\n"));
++		pDM_FatTable->AntDiv_2G_5G = (ODM_ANTDIV_2G);
++		if(*pDM_Odm->pBandType == ODM_BAND_2_4G )
++		{
++				if(pDM_Odm->SupportICType & ODM_ANTDIV_2G_SUPPORT_IC)
++					pDM_Odm->SupportAbility |= ODM_BB_ANT_DIV;
++				#if ( defined(CONFIG_2G_CGCS_RX_DIVERSITY) )
++					pDM_Odm->AntDivType = CGCS_RX_HW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 2.4G] : AntDiv Type = CGCS_RX_HW_ANTDIV\n"));		
++				#elif( defined(CONFIG_2G_CG_TRX_DIVERSITY) )
++					pDM_Odm->AntDivType = CG_TRX_HW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 2.4G] : AntDiv Type = CG_TRX_HW_ANTDIV\n"));
++				#elif( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++					pDM_Odm->AntDivType = CG_TRX_SMART_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 2.4G] : AntDiv Type = CG_SMART_ANTDIV\n"));
++				#elif( defined(CONFIG_2G_S0S1_SW_ANT_DIVERSITY) )
++					pDM_Odm->AntDivType = S0S1_SW_ANTDIV;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[ 2.4G] : AntDiv Type = S0S1_SW_ANTDIV\n"));
++				#endif
++		}
++		else if(*pDM_Odm->pBandType == ODM_BAND_5G )
++		{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("Not Support 5G AntDivType\n"));
++				pDM_Odm->SupportAbility &= ~(ODM_BB_ANT_DIV);
++		}
++	#endif	
++#endif	
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[AntDiv Config Info] AntDiv_SupportAbility = (( %x ))\n", ((pDM_Odm->SupportAbility & ODM_BB_ANT_DIV) ? 1 : 0)));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("[AntDiv Config Info] be_fix_tx_ant = ((%d))\n", pDM_Odm->DM_FatTable.b_fix_tx_ant));
++
++}
++
++
++VOID
++ODM_AntDivTimers(
++	IN		PVOID		pDM_VOID,	
++	IN 		u1Byte		state
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	if(state==INIT_ANTDIV_TIMMER)
++	{
++		#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++			ODM_InitializeTimer(pDM_Odm, &(pDM_Odm->DM_SWAT_Table.phydm_SwAntennaSwitchTimer),
++			(RT_TIMER_CALL_BACK)ODM_SW_AntDiv_Callback, NULL, "phydm_SwAntennaSwitchTimer");
++		#elif ( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++			ODM_InitializeTimer(pDM_Odm,&pDM_Odm->FastAntTrainingTimer,
++			(RT_TIMER_CALL_BACK)odm_FastAntTrainingCallback, NULL, "FastAntTrainingTimer");
++		#endif
++
++		#ifdef ODM_EVM_ENHANCE_ANTDIV
++			ODM_InitializeTimer(pDM_Odm,&pDM_Odm->EVM_FastAntTrainingTimer,
++			(RT_TIMER_CALL_BACK)odm_EVM_FastAntTrainingCallback, NULL, "EVM_FastAntTrainingTimer");
++		#endif
++	}
++	else if(state==CANCEL_ANTDIV_TIMMER)
++	{
++		#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++			ODM_CancelTimer(pDM_Odm, &(pDM_Odm->DM_SWAT_Table.phydm_SwAntennaSwitchTimer));
++		#elif ( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++			ODM_CancelTimer(pDM_Odm,&pDM_Odm->FastAntTrainingTimer);
++		#endif
++
++		#ifdef ODM_EVM_ENHANCE_ANTDIV
++			ODM_CancelTimer(pDM_Odm,&pDM_Odm->EVM_FastAntTrainingTimer);
++		#endif
++	}
++	else if(state==RELEASE_ANTDIV_TIMMER)
++	{
++		#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++			ODM_ReleaseTimer(pDM_Odm, &(pDM_Odm->DM_SWAT_Table.phydm_SwAntennaSwitchTimer));
++		#elif ( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++			ODM_ReleaseTimer(pDM_Odm,&pDM_Odm->FastAntTrainingTimer);
++		#endif
++
++		#ifdef ODM_EVM_ENHANCE_ANTDIV
++			ODM_ReleaseTimer(pDM_Odm,&pDM_Odm->EVM_FastAntTrainingTimer);
++		#endif
++	}
++
++}
++
++VOID
++phydm_antdiv_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char			*output,
++	IN		u4Byte		*_out_len
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	/*pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;*/
++	u4Byte used = *_used;
++	u4Byte out_len = *_out_len;
++
++	if (dm_value[0] == 1) { /*fixed or auto antenna*/
++	
++		if (dm_value[1] == 0) {
++			pDM_Odm->antdiv_select = 0;
++			PHYDM_SNPRINTF((output+used, out_len-used, "AntDiv: Auto\n"));
++		} else if (dm_value[1] == 1) {
++			pDM_Odm->antdiv_select = 1;
++			PHYDM_SNPRINTF((output+used, out_len-used, "AntDiv: Fix MAin\n"));
++		} else if (dm_value[1] == 2) {
++			pDM_Odm->antdiv_select = 2;
++			PHYDM_SNPRINTF((output+used, out_len-used, "AntDiv: Fix Aux\n"));
++		}
++	} else if (dm_value[0] == 2) { /*dynamic period for AntDiv*/
++	
++		pDM_Odm->antdiv_period = (u1Byte)dm_value[1];
++		PHYDM_SNPRINTF((output+used, out_len-used, "AntDiv_period = ((%d))\n", pDM_Odm->antdiv_period));
++	}	
++}
++
++#endif /*#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))*/
++
++VOID
++ODM_AntDivReset(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (pDM_Odm->AntDivType == S0S1_SW_ANTDIV)
++	{
++		#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++		odm_S0S1_SWAntDiv_Reset(pDM_Odm);
++		#endif
++	}
++
++}
++
++VOID
++odm_AntennaDiversityInit(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	if(pDM_Odm->mp_mode == TRUE)
++		return;
++	
++	#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++		ODM_AntDiv_Config(pDM_Odm);
++		ODM_AntDivInit(pDM_Odm);
++	#endif
++}
++
++VOID
++odm_AntennaDiversity(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	if(pDM_Odm->mp_mode == TRUE)
++		return;
++
++	#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++		ODM_AntDiv(pDM_Odm);
++	#endif
++}
++
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_antdiv.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_antdiv.h
+new file mode 100644
+index 0000000..9c0d10d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_antdiv.h
+@@ -0,0 +1,625 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef	__PHYDMANTDIV_H__
++#define    __PHYDMANTDIV_H__
++
++/*#define ANTDIV_VERSION	"2.0"  //2014.11.04*/
++/*#define ANTDIV_VERSION	"2.1"  //2015.01.13  Dino*/
++/*#define ANTDIV_VERSION	"2.2"  2015.01.16  Dino*/
++/*#define ANTDIV_VERSION	"3.1"  2015.07.29  YuChen, remove 92c 92d 8723a*/
++/*#define ANTDIV_VERSION	"3.2"  2015.08.11  Stanley, disable antenna diversity when BT is enable for 8723B*/
++/*#define ANTDIV_VERSION	"3.3"  2015.08.12  Stanley. 8723B does not need to check the antenna is control by BT, 
++							because antenna diversity only works when BT is disable or radio off*/
++/*#define ANTDIV_VERSION	"3.4"  2015.08.28  Dino  1.Add 8821A Smart Antenna 2. Add 8188F SW S0S1 Antenna Diversity*/
++/*#define ANTDIV_VERSION	"3.5"  2015.10.07  Stanley  Always check antenna detection result from BT-coex. for 8723B, not from PHYDM*/
++/*#define ANTDIV_VERSION	"3.6"*/  /*2015.11.16  Stanley  */
++/*#define ANTDIV_VERSION	"3.7"*/  /*2015.11.20  Dino Add SmartAnt FAT Patch */
++/*#define ANTDIV_VERSION	"3.8"  2015.12.21  Dino, Add SmartAnt dynamic training packet num */
++#define ANTDIV_VERSION	"3.9"  /*2016.01.05  Dino, Add SmartAnt cmd for converting single & two smtant, and add cmd for adjust truth table */
++
++//1 ============================================================
++//1  Definition 
++//1 ============================================================
++
++#define	ANTDIV_INIT		0xff
++#define	MAIN_ANT	1		/*Ant A or Ant Main   or S1*/
++#define	AUX_ANT		2		/*AntB or Ant Aux   or S0*/
++#define	MAX_ANT		3		/* 3 for AP using*/
++
++#define ANT1_2G 0 /* = ANT2_5G              for 8723D  BTG S1 RX S0S1 diversity for 8723D, TX fixed at S1 */ 
++#define ANT2_2G 1 /* = ANT1_5G             for 8723D  BTG S0  RX S0S1 diversity for 8723D, TX fixed at S1 */ 
++/*smart antenna*/
++#define SUPPORT_RF_PATH_NUM 4
++#define SUPPORT_BEAM_PATTERN_NUM 4
++#define NUM_ANTENNA_8821A	2
++
++#define	NO_FIX_TX_ANT		0
++#define	FIX_TX_AT_MAIN	1
++#define	FIX_AUX_AT_MAIN	2
++
++//Antenna Diversty Control Type
++#define	ODM_AUTO_ANT		0
++#define	ODM_FIX_MAIN_ANT	1
++#define	ODM_FIX_AUX_ANT	2
++
++#define ODM_N_ANTDIV_SUPPORT		(ODM_RTL8188E|ODM_RTL8192E|ODM_RTL8723B|ODM_RTL8188F|ODM_RTL8723D)
++#define ODM_AC_ANTDIV_SUPPORT	(ODM_RTL8821|ODM_RTL8881A|ODM_RTL8812|ODM_RTL8821C)
++#define ODM_ANTDIV_SUPPORT		(ODM_N_ANTDIV_SUPPORT|ODM_AC_ANTDIV_SUPPORT)
++#define ODM_SMART_ANT_SUPPORT	(ODM_RTL8188E|ODM_RTL8192E)
++#define ODM_HL_SMART_ANT_TYPE1_SUPPORT		(ODM_RTL8821)
++
++#define ODM_ANTDIV_2G_SUPPORT_IC			(ODM_RTL8188E|ODM_RTL8192E|ODM_RTL8723B|ODM_RTL8881A|ODM_RTL8188F|ODM_RTL8723D)
++#define ODM_ANTDIV_5G_SUPPORT_IC			(ODM_RTL8821|ODM_RTL8881A|ODM_RTL8812|ODM_RTL8821C)
++
++#define ODM_EVM_ENHANCE_ANTDIV_SUPPORT_IC	(ODM_RTL8192E)
++
++#define ODM_ANTDIV_2G	BIT0
++#define ODM_ANTDIV_5G	BIT1
++
++#define ANTDIV_ON	1
++#define ANTDIV_OFF	0
++
++#define FAT_ON	1
++#define FAT_OFF	0
++
++#define TX_BY_DESC	1
++#define TX_BY_REG	0
++
++#define RSSI_METHOD		0
++#define EVM_METHOD		1
++#define CRC32_METHOD	2
++
++#define INIT_ANTDIV_TIMMER		0
++#define CANCEL_ANTDIV_TIMMER	1
++#define RELEASE_ANTDIV_TIMMER	2
++
++#define CRC32_FAIL	1
++#define CRC32_OK	0
++
++#define Evm_RSSI_TH_High	25
++#define Evm_RSSI_TH_Low	20
++
++#define NORMAL_STATE_MIAN	1
++#define NORMAL_STATE_AUX	2
++#define TRAINING_STATE		3
++
++#define FORCE_RSSI_DIFF 10
++
++#define CSI_ON	1
++#define CSI_OFF	0
++
++#define DIVON_CSIOFF 1
++#define DIVOFF_CSION 2
++
++#define BDC_DIV_TRAIN_STATE	0
++#define BDC_BFer_TRAIN_STATE	1
++#define BDC_DECISION_STATE		2
++#define BDC_BF_HOLD_STATE		3
++#define BDC_DIV_HOLD_STATE		4
++
++#define BDC_MODE_1 1
++#define BDC_MODE_2 2
++#define BDC_MODE_3 3
++#define BDC_MODE_4 4
++#define BDC_MODE_NULL 0xff
++
++/*SW S0S1 antenna diversity*/
++#define SWAW_STEP_INIT			0xff
++#define SWAW_STEP_PEEK		0
++#define SWAW_STEP_DETERMINE	1
++
++#define RSSI_CHECK_RESET_PERIOD	10
++#define RSSI_CHECK_THRESHOLD		50
++
++/*Hong Lin Smart antenna*/
++#define HL_SMTANT_2WIRE_DATA_LEN 24
++
++//1 ============================================================
++//1  structure
++//1 ============================================================
++
++
++typedef struct _SW_Antenna_Switch_
++{
++	u1Byte		Double_chk_flag;	/*If current antenna RSSI > "RSSI_CHECK_THRESHOLD", than check this antenna again*/
++	u1Byte		try_flag;
++	s4Byte		PreRSSI;
++	u1Byte		CurAntenna;
++	u1Byte		PreAntenna;
++	u1Byte		RSSI_Trying;
++	u1Byte 		reset_idx;
++	u1Byte		Train_time;
++	u1Byte		Train_time_flag; /*base on RSSI difference between two antennas*/
++	RT_TIMER	phydm_SwAntennaSwitchTimer;
++	u4Byte		PktCnt_SWAntDivByCtrlFrame;
++	BOOLEAN		bSWAntDivByCtrlFrame;
++	
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	#if USE_WORKITEM
++	RT_WORK_ITEM	phydm_SwAntennaSwitchWorkitem;	
++	#endif
++	#endif	
++
++	/* AntDect (Before link Antenna Switch check) need to be moved*/
++	u2Byte		Single_Ant_Counter;
++	u2Byte		Dual_Ant_Counter;
++	u2Byte		Aux_FailDetec_Counter;
++	u2Byte		Retry_Counter;	
++	u1Byte		SWAS_NoLink_State;
++	u4Byte		SWAS_NoLink_BK_Reg948;
++	BOOLEAN		ANTA_ON;	/*To indicate Ant A is or not*/
++	BOOLEAN		ANTB_ON;	/*To indicate Ant B is on or not*/
++	BOOLEAN		Pre_Aux_FailDetec;
++	BOOLEAN		RSSI_AntDect_bResult;	
++	u1Byte		Ant5G;
++	u1Byte		Ant2G;
++
++	
++}SWAT_T, *pSWAT_T;
++
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++typedef struct _BF_DIV_COEX_
++{
++	BOOLEAN w_BFer_Client[ODM_ASSOCIATE_ENTRY_NUM];
++	BOOLEAN w_BFee_Client[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	MA_rx_TP[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	MA_rx_TP_DIV[ODM_ASSOCIATE_ENTRY_NUM];
++
++	u1Byte  BDCcoexType_wBfer;
++	u1Byte num_Txbfee_Client;
++	u1Byte num_Txbfer_Client;
++	u1Byte BDC_Try_counter;
++	u1Byte BDC_Hold_counter;
++	u1Byte BDC_Mode;
++	u1Byte BDC_active_Mode;
++	u1Byte BDC_state;
++	u1Byte BDC_RxIdleUpdate_counter;
++	u1Byte num_Client;
++	u1Byte pre_num_Client;
++	u1Byte num_BfTar;
++	u1Byte num_DivTar;
++	
++	BOOLEAN bAll_DivSta_Idle;
++	BOOLEAN bAll_BFSta_Idle;
++	BOOLEAN BDC_Try_flag;
++	BOOLEAN BF_pass;
++	BOOLEAN DIV_pass;	
++}BDC_T,*pBDC_T;
++#endif
++#endif
++
++#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++typedef struct _SMART_ANTENNA_TRAINNING_ {
++	u4Byte	latch_time;
++	BOOLEAN	pkt_skip_statistic_en;
++	u4Byte	fix_beam_pattern_en;
++	u4Byte	fix_training_num_en;
++	u4Byte	fix_beam_pattern_codeword;
++	u4Byte	update_beam_codeword;
++	u4Byte	ant_num; /*number of used smart beam antenna*/
++	u4Byte	ant_num_total;/*number of total smart beam antenna*/
++	u4Byte	first_train_ant; /*decide witch antenna to train first*/
++	u4Byte	rfu_codeword_table[4]; /*2G beam truth table*/
++	u4Byte	rfu_codeword_table_5g[4]; /*5G beam truth table*/
++	u4Byte	beam_patten_num_each_ant;/*number of  beam can be switched in each antenna*/
++	u4Byte	data_codeword_bit_num;
++	u1Byte	per_beam_training_pkt_num;
++	u1Byte	decision_holding_period;
++	u1Byte	pkt_counter;
++	u4Byte	fast_training_beam_num;
++	u4Byte	pre_fast_training_beam_num;
++	u4Byte	pkt_rssi_pre[SUPPORT_RF_PATH_NUM][SUPPORT_BEAM_PATTERN_NUM];
++	u1Byte	beam_train_cnt[SUPPORT_RF_PATH_NUM][SUPPORT_BEAM_PATTERN_NUM];
++	u1Byte	beam_train_rssi_diff[SUPPORT_RF_PATH_NUM][SUPPORT_BEAM_PATTERN_NUM];
++	u4Byte	pkt_rssi_sum[8][SUPPORT_BEAM_PATTERN_NUM];
++	u4Byte	pkt_rssi_cnt[8][SUPPORT_BEAM_PATTERN_NUM];
++	u4Byte	rx_idle_beam[SUPPORT_RF_PATH_NUM];
++	u4Byte	pre_codeword;
++	BOOLEAN	force_update_beam_en;
++	u4Byte	beacon_counter;
++	u4Byte	pre_beacon_counter;
++	u1Byte	update_beam_idx;
++
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	RT_WORK_ITEM	hl_smart_antenna_workitem;
++	RT_WORK_ITEM	hl_smart_antenna_decision_workitem;	
++	#endif
++
++} SAT_T, *pSAT_T;
++#endif
++
++typedef struct _FAST_ANTENNA_TRAINNING_
++{
++	u1Byte	Bssid[6];
++	u1Byte	antsel_rx_keep_0;
++	u1Byte	antsel_rx_keep_1;
++	u1Byte	antsel_rx_keep_2;
++	u1Byte	antsel_rx_keep_3;
++	u4Byte	antSumRSSI[7];
++	u4Byte	antRSSIcnt[7];
++	u4Byte	antAveRSSI[7];
++	u1Byte	FAT_State;
++	u4Byte	TrainIdx;
++	u1Byte	antsel_a[ODM_ASSOCIATE_ENTRY_NUM];
++	u1Byte	antsel_b[ODM_ASSOCIATE_ENTRY_NUM];
++	u1Byte	antsel_c[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	MainAnt_Sum[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	AuxAnt_Sum[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	MainAnt_Cnt[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	AuxAnt_Cnt[ODM_ASSOCIATE_ENTRY_NUM];
++	u1Byte	RxIdleAnt;
++	u1Byte	AntDiv_OnOff;
++	BOOLEAN	bBecomeLinked;
++	u4Byte	MinMaxRSSI;
++	u1Byte	idx_AntDiv_counter_2G;
++	u1Byte	idx_AntDiv_counter_5G;
++	u1Byte	AntDiv_2G_5G;
++	u4Byte    CCK_counter_main;
++	u4Byte    CCK_counter_aux;	
++	u4Byte    OFDM_counter_main;
++	u4Byte    OFDM_counter_aux;
++
++	#ifdef ODM_EVM_ENHANCE_ANTDIV
++	u4Byte	MainAntEVM_Sum[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	AuxAntEVM_Sum[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	MainAntEVM_Cnt[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	AuxAntEVM_Cnt[ODM_ASSOCIATE_ENTRY_NUM];
++	BOOLEAN	EVM_method_enable;
++	u1Byte	TargetAnt_EVM;
++	u1Byte	TargetAnt_CRC32;
++	u1Byte	TargetAnt_enhance;
++	u1Byte	pre_TargetAnt_enhance;
++	u2Byte	Main_MPDU_OK_cnt;
++	u2Byte	Aux_MPDU_OK_cnt;	
++
++	u4Byte	CRC32_Ok_Cnt;
++	u4Byte	CRC32_Fail_Cnt;
++	u4Byte	MainCRC32_Ok_Cnt;
++	u4Byte	AuxCRC32_Ok_Cnt;
++	u4Byte	MainCRC32_Fail_Cnt;
++	u4Byte	AuxCRC32_Fail_Cnt;
++	#endif	
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	u4Byte    CCK_CtrlFrame_Cnt_main;
++	u4Byte    CCK_CtrlFrame_Cnt_aux;
++	u4Byte    OFDM_CtrlFrame_Cnt_main;
++	u4Byte    OFDM_CtrlFrame_Cnt_aux;
++	u4Byte	MainAnt_CtrlFrame_Sum;
++	u4Byte	AuxAnt_CtrlFrame_Sum;
++	u4Byte	MainAnt_CtrlFrame_Cnt;
++	u4Byte	AuxAnt_CtrlFrame_Cnt;
++	#endif
++	u1Byte	b_fix_tx_ant;
++	BOOLEAN	fix_ant_bfee;
++	BOOLEAN	enable_ctrl_frame_antdiv;
++	BOOLEAN	use_ctrl_frame_antdiv;
++	u1Byte	hw_antsw_occur;
++	u1Byte	*pForceTxAntByDesc;
++	u1Byte	ForceTxAntByDesc; /*A temp value, will hook to driver team's outer parameter later*/
++}FAT_T,*pFAT_T;
++
++
++//1 ============================================================
++//1  enumeration
++//1 ============================================================
++
++
++
++typedef enum _FAT_STATE /*Fast antenna training*/
++{
++	FAT_BEFORE_LINK_STATE	= 0,
++	FAT_PREPARE_STATE			= 1,
++	FAT_TRAINING_STATE		= 2,
++	FAT_DECISION_STATE		= 3
++}FAT_STATE_E, *PFAT_STATE_E;
++
++typedef enum _ANT_DIV_TYPE
++{
++	NO_ANTDIV			= 0xFF,	
++	CG_TRX_HW_ANTDIV			= 0x01,
++	CGCS_RX_HW_ANTDIV		= 0x02,
++	FIXED_HW_ANTDIV		= 0x03,
++	CG_TRX_SMART_ANTDIV	= 0x04,
++	CGCS_RX_SW_ANTDIV	= 0x05,
++	S0S1_SW_ANTDIV          = 0x06, /*8723B intrnal switch S0 S1*/
++	S0S1_TRX_HW_ANTDIV     = 0x07, /*TRX S0S1 diversity for 8723D*/
++	HL_SW_SMART_ANT_TYPE1	= 0x10 /*Hong-Lin Smart antenna use for 8821AE which is a 2 Ant. entitys, and each Ant. is equipped with 4 antenna patterns*/
++}ANT_DIV_TYPE_E, *PANT_DIV_TYPE_E;
++
++
++//1 ============================================================
++//1  function prototype
++//1 ============================================================
++
++
++VOID
++ODM_StopAntennaSwitchDm(
++	IN	PVOID	pDM_VOID
++	);
++
++VOID
++phydm_enable_antenna_diversity(
++	IN		PVOID			pDM_VOID
++	);
++
++VOID
++ODM_SetAntConfig(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte		antSetting	// 0=A, 1=B, 2=C, ....
++	);
++
++
++#define SwAntDivRestAfterLink	ODM_SwAntDivRestAfterLink
++
++VOID ODM_SwAntDivRestAfterLink(	
++	IN	PVOID	pDM_VOID
++	);
++
++#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++
++VOID
++ODM_UpdateRxIdleAnt(
++	IN		PVOID		pDM_VOID, 
++	IN		 u1Byte		Ant
++);
++
++#if (RTL8723B_SUPPORT == 1)
++VOID
++ODM_UpdateRxIdleAnt_8723B(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Ant,
++	IN		u4Byte			DefaultAnt, 
++	IN		u4Byte			OptionalAnt
++);
++#endif
++
++#if (RTL8188F_SUPPORT == 1)
++VOID
++phydm_update_rx_idle_antenna_8188F(
++	IN	PVOID	pDM_VOID,
++	IN	u4Byte	default_ant
++);
++#endif
++
++#if (RTL8723D_SUPPORT == 1)
++
++VOID
++phydm_set_tx_ant_pwr_8723d(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Ant
++);
++
++#endif
++
++#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++ODM_SW_AntDiv_Callback(
++	IN 	PRT_TIMER		pTimer
++	);
++
++VOID
++ODM_SW_AntDiv_WorkitemCallback(
++	IN	PVOID	pContext
++	);
++
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++VOID
++ODM_SW_AntDiv_WorkitemCallback(
++	IN PVOID	pContext
++);
++
++VOID
++ODM_SW_AntDiv_Callback(
++	void 		*FunctionContext
++	);
++
++#endif
++
++VOID
++odm_S0S1_SwAntDivByCtrlFrame(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Step
++);
++
++VOID
++odm_AntselStatisticsOfCtrlFrame(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			antsel_tr_mux,
++	IN		u4Byte			RxPWDBAll
++);
++
++VOID
++odm_S0S1_SwAntDivByCtrlFrame_ProcessRSSI(
++	IN		PVOID				pDM_VOID,
++	IN		PVOID		p_phy_info_void,
++	IN		PVOID		p_pkt_info_void
++);
++
++#endif
++
++#ifdef ODM_EVM_ENHANCE_ANTDIV
++VOID
++odm_EVM_FastAntTrainingCallback(
++	IN		PVOID		pDM_VOID
++);
++#endif
++
++VOID
++odm_HW_AntDiv(
++	IN		PVOID		pDM_VOID
++);
++
++#if( defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY) ) ||( defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY) )
++VOID
++odm_FastAntTraining(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++odm_FastAntTrainingCallback(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++odm_FastAntTrainingWorkItemCallback(
++	IN		PVOID		pDM_VOID
++);
++#endif
++
++
++#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++phydm_beam_switch_workitem_callback(
++	IN	PVOID	pContext
++	);
++
++VOID
++phydm_beam_decision_workitem_callback(
++	IN	PVOID	pContext
++	);
++
++#endif
++
++VOID
++phydm_update_beam_pattern(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		codeword,
++	IN		u4Byte		codeword_length
++	);
++
++void
++phydm_set_all_ant_same_beam_num(
++	IN		PVOID		pDM_VOID
++	);
++
++VOID
++phydm_hl_smart_ant_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char			*output,
++	IN		u4Byte		*_out_len
++);
++
++#endif/*#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1*/
++
++VOID
++ODM_AntDivInit(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++ODM_AntDiv(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++odm_AntselStatistics(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			antsel_tr_mux,
++	IN		u4Byte			MacId,
++	IN		u4Byte			utility,
++	IN		u1Byte			method
++);
++
++VOID
++ODM_Process_RSSIForAntDiv(	
++	IN OUT	PVOID		pDM_VOID,
++	IN		PVOID		p_phy_info_void,
++	IN		PVOID		p_pkt_info_void
++);
++
++
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++VOID
++ODM_SetTxAntByTxInfo(
++	IN		PVOID			pDM_VOID,
++	IN		pu1Byte			pDesc,
++	IN		u1Byte			macId	
++);
++
++#elif(DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++VOID
++ODM_SetTxAntByTxInfo(
++	struct	rtl8192cd_priv		*priv,
++	struct 	tx_desc			*pdesc,
++	unsigned short			aid	
++);
++
++#if 1/*def def CONFIG_WLAN_HAL*/
++VOID
++ODM_SetTxAntByTxInfo_HAL(
++	struct	rtl8192cd_priv		*priv,
++	PVOID	pdesc_data,
++	u2Byte		aid	
++);
++#endif	/*#ifdef  CONFIG_WLAN_HAL*/
++#endif
++
++
++VOID
++ODM_AntDiv_Config(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++ODM_AntDivTimers(
++	IN		PVOID		pDM_VOID,
++	IN 		u1Byte		state
++);
++
++VOID
++phydm_antdiv_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char			*output,
++	IN		u4Byte		*_out_len
++);
++
++#endif /*#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))*/
++
++VOID
++ODM_AntDivReset(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++odm_AntennaDiversityInit(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++odm_AntennaDiversity(
++	IN		PVOID		pDM_VOID
++);
++
++#endif /*#ifndef	__ODMANTDIV_H__*/
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_beamforming.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_beamforming.c
+new file mode 100644
+index 0000000..1078cc9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_beamforming.c
+@@ -0,0 +1,1959 @@
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#if WPP_SOFTWARE_TRACE
++#include "phydm_beamforming.tmh"
++#endif
++#endif
++
++#if (BEAMFORMING_SUPPORT == 1)
++
++PRT_BEAMFORM_STAINFO
++phydm_staInfoInit(
++	IN PDM_ODM_T		pDM_Odm,
++	IN u2Byte			staIdx
++	)
++{
++	PRT_BEAMFORMING_INFO		pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORM_STAINFO		pEntry = &(pBeamInfo->BeamformSTAinfo);
++	PSTA_INFO_T					pSTA = pDM_Odm->pODM_StaInfo[staIdx];
++	PADAPTER					Adapter = pDM_Odm->Adapter;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PMGNT_INFO					pMgntInfo = &Adapter->MgntInfo;
++	PRT_HIGH_THROUGHPUT		pHTInfo = GET_HT_INFO(pMgntInfo);
++	PRT_VERY_HIGH_THROUGHPUT	pVHTInfo = GET_VHT_INFO(pMgntInfo);
++
++	ODM_MoveMemory(pDM_Odm, pEntry->MyMacAddr, Adapter->CurrentAddress, 6);
++	
++	pEntry->HtBeamformCap = pHTInfo->HtBeamformCap;
++	pEntry->VhtBeamformCap = pVHTInfo->VhtBeamformCap;
++
++	/*IBSS, AP mode*/
++	if (staIdx != 0) {
++		pEntry->AID = pSTA->AID;
++		pEntry->RA = pSTA->MacAddr;
++		pEntry->MacID = pSTA->AssociatedMacId;
++		pEntry->WirelessMode = pSTA->WirelessMode;
++		pEntry->BW = pSTA->BandWidth;
++		pEntry->CurBeamform = pSTA->HTInfo.HtCurBeamform;
++	} else {/*client mode*/
++		pEntry->AID = pMgntInfo->mAId;
++		pEntry->RA = pMgntInfo->Bssid;
++		pEntry->MacID = pMgntInfo->mMacId;
++		pEntry->WirelessMode = pMgntInfo->dot11CurrentWirelessMode;
++		pEntry->BW = pMgntInfo->dot11CurrentChannelBandWidth;
++		pEntry->CurBeamform = pHTInfo->HtCurBeamform;
++	}	
++
++	if ((pEntry->WirelessMode & WIRELESS_MODE_AC_5G) || (pEntry->WirelessMode & WIRELESS_MODE_AC_24G)) {
++		if (staIdx != 0)
++			pEntry->CurBeamformVHT = pSTA->VHTInfo.VhtCurBeamform;
++		else
++			pEntry->CurBeamformVHT = pVHTInfo->VhtCurBeamform;	
++		}
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("pSTA->wireless_mode = 0x%x, staidx = %d\n", pSTA->WirelessMode, staIdx));
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++	if (!IS_STA_VALID(pSTA)) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s => sta_info(mac_id:%d) failed\n", __func__, staIdx));
++		rtw_warn_on(1);
++		return pEntry;
++	}
++
++	ODM_MoveMemory(pDM_Odm, pEntry->MyMacAddr, adapter_mac_addr(pSTA->padapter), 6);
++	pEntry->HtBeamformCap = pSTA->htpriv.beamform_cap;
++
++	pEntry->AID = pSTA->aid;
++	pEntry->RA = pSTA->hwaddr;
++	pEntry->MacID = pSTA->mac_id;
++	pEntry->WirelessMode = pSTA->wireless_mode;
++	pEntry->BW = pSTA->bw_mode;
++
++	pEntry->CurBeamform = pSTA->htpriv.beamform_cap;
++#if	ODM_IC_11AC_SERIES_SUPPORT
++	if ((pEntry->WirelessMode & WIRELESS_MODE_AC_5G) || (pEntry->WirelessMode & WIRELESS_MODE_AC_24G)) {
++		pEntry->CurBeamformVHT = pSTA->vhtpriv.beamform_cap;
++		pEntry->VhtBeamformCap = pSTA->vhtpriv.beamform_cap;
++	}
++#endif
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("pSTA->wireless_mode = 0x%x, staidx = %d\n", pSTA->wireless_mode, staIdx));
++#endif
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("pEntry->CurBeamform = 0x%x, pEntry->CurBeamformVHT = 0x%x\n", pEntry->CurBeamform, pEntry->CurBeamformVHT));
++	return pEntry;
++
++}
++void phydm_staInfoUpdate(
++	IN PDM_ODM_T			pDM_Odm,
++	IN u2Byte				staIdx,
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry
++	)
++{
++	PSTA_INFO_T pSTA = pDM_Odm->pODM_StaInfo[staIdx];
++	
++	if (!IS_STA_VALID(pSTA))
++		return;
++	
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	pSTA->txbf_paid = pBeamformEntry->P_AID;
++	pSTA->txbf_gid = pBeamformEntry->G_ID;
++#endif	
++}
++	
++
++u1Byte
++Beamforming_GetHTNDPTxRate(
++	IN	PVOID	pDM_VOID,
++	u1Byte	CompSteeringNumofBFer
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte Nr_index = 0;
++	u1Byte NDPTxRate;
++	/*Find Nr*/
++	
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		Nr_index = TxBF_Nr(halTxbf8814A_GetNtx(pDM_Odm), CompSteeringNumofBFer);
++	else
++		Nr_index = TxBF_Nr(1, CompSteeringNumofBFer);
++	
++	switch (Nr_index) {
++	case 1:
++	NDPTxRate = MGN_MCS8;
++	break;
++
++	case 2:
++	NDPTxRate = MGN_MCS16;
++	break;
++
++	case 3:
++	NDPTxRate = MGN_MCS24;
++	break;
++			
++	default:
++	NDPTxRate = MGN_MCS8;
++	break;
++	}
++
++return NDPTxRate;
++
++}
++
++u1Byte
++Beamforming_GetVHTNDPTxRate(
++	IN	PVOID	pDM_VOID,
++	u1Byte	CompSteeringNumofBFer
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte Nr_index = 0;
++	u1Byte NDPTxRate;
++	/*Find Nr*/
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		Nr_index = TxBF_Nr(halTxbf8814A_GetNtx(pDM_Odm), CompSteeringNumofBFer);
++	else
++		Nr_index = TxBF_Nr(1, CompSteeringNumofBFer);
++	
++	switch (Nr_index) {
++	case 1:
++	NDPTxRate = MGN_VHT2SS_MCS0;
++	break;
++
++	case 2:
++	NDPTxRate = MGN_VHT3SS_MCS0;
++	break;
++
++	case 3:
++	NDPTxRate = MGN_VHT4SS_MCS0;
++	break;
++			
++	default:
++	NDPTxRate = MGN_VHT2SS_MCS0;
++	break;
++	}
++
++return NDPTxRate;
++
++}
++
++
++PRT_BEAMFORMEE_ENTRY
++phydm_Beamforming_GetBFeeEntryByAddr(
++	IN	PVOID		pDM_VOID,
++	IN	pu1Byte		RA,
++	OUT	pu1Byte		Idx
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	i = 0;
++	PRT_BEAMFORMING_INFO pBeamInfo = &pDM_Odm->BeamformingInfo;
++	
++	for (i = 0; i < BEAMFORMEE_ENTRY_NUM; i++) {
++		if (pBeamInfo->BeamformeeEntry[i].bUsed && (eqMacAddr(RA, pBeamInfo->BeamformeeEntry[i].MacAddr))) {
++			*Idx = i;
++			return &(pBeamInfo->BeamformeeEntry[i]);
++		}
++	}
++
++	return NULL;
++}
++
++PRT_BEAMFORMER_ENTRY
++phydm_Beamforming_GetBFerEntryByAddr(
++	IN	PVOID	pDM_VOID,
++	IN	pu1Byte 	TA,
++	OUT	pu1Byte	Idx
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte		i = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	
++	for (i = 0; i < BEAMFORMER_ENTRY_NUM; i++) {
++		if (pBeamInfo->BeamformerEntry[i].bUsed &&  (eqMacAddr(TA, pBeamInfo->BeamformerEntry[i].MacAddr))) {
++			*Idx = i;
++			return &(pBeamInfo->BeamformerEntry[i]);
++		}
++	}
++
++	return NULL;
++}
++
++
++PRT_BEAMFORMEE_ENTRY
++phydm_Beamforming_GetEntryByMacId(
++	IN	PVOID		pDM_VOID,
++	IN	u1Byte		MacId,
++	OUT	pu1Byte		Idx
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	i = 0;
++	PRT_BEAMFORMING_INFO pBeamInfo = &pDM_Odm->BeamformingInfo;
++	
++	for (i = 0; i < BEAMFORMEE_ENTRY_NUM; i++) {
++		if (pBeamInfo->BeamformeeEntry[i].bUsed && (MacId == pBeamInfo->BeamformeeEntry[i].MacId)) {
++			*Idx = i;
++			return &(pBeamInfo->BeamformeeEntry[i]);
++		}
++	}
++
++	return NULL;
++}
++
++
++BEAMFORMING_CAP
++phydm_Beamforming_GetEntryBeamCapByMacId(
++	IN	PVOID		pDM_VOID,
++	IN	u1Byte		MacId
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	i = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	BEAMFORMING_CAP			BeamformEntryCap = BEAMFORMING_CAP_NONE;
++	
++	for (i = 0; i < BEAMFORMEE_ENTRY_NUM; i++) {
++		if (pBeamInfo->BeamformeeEntry[i].bUsed && (MacId == pBeamInfo->BeamformeeEntry[i].MacId)) {
++			BeamformEntryCap =  pBeamInfo->BeamformeeEntry[i].BeamformEntryCap;
++			i = BEAMFORMEE_ENTRY_NUM;
++		}
++	}
++
++	return BeamformEntryCap;
++}
++
++
++PRT_BEAMFORMEE_ENTRY
++phydm_Beamforming_GetFreeBFeeEntry(
++	IN	PVOID		pDM_VOID,
++	OUT	pu1Byte		Idx
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	i = 0;
++	PRT_BEAMFORMING_INFO pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	for (i = 0; i < BEAMFORMEE_ENTRY_NUM; i++) {
++		if (pBeamInfo->BeamformeeEntry[i].bUsed == FALSE) {
++			*Idx = i;
++			return &(pBeamInfo->BeamformeeEntry[i]);
++		}	
++	}
++	return NULL;
++}
++
++PRT_BEAMFORMER_ENTRY
++phydm_Beamforming_GetFreeBFerEntry(
++	IN	PVOID		pDM_VOID,
++	OUT	pu1Byte		Idx
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	i = 0;
++	PRT_BEAMFORMING_INFO pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s ===>\n", __func__));
++
++	for (i = 0; i < BEAMFORMER_ENTRY_NUM; i++) {
++		if (pBeamInfo->BeamformerEntry[i].bUsed == FALSE) {
++			*Idx = i;
++			return &(pBeamInfo->BeamformerEntry[i]);
++		}	
++	}
++	return NULL;
++}
++
++/*
++// Description: Get the first entry index of MU Beamformee.
++//
++// Return Value: Index of the first MU sta.
++//
++// 2015.05.25. Created by tynli.
++//
++*/
++u1Byte
++phydm_Beamforming_GetFirstMUBFeeEntryIdx(
++	IN	PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte					idx = 0xFF;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	BOOLEAN					bFound = FALSE;
++
++	for (idx = 0; idx < BEAMFORMEE_ENTRY_NUM; idx++) {
++		if (pBeamInfo->BeamformeeEntry[idx].bUsed && pBeamInfo->BeamformeeEntry[idx].is_mu_sta) {			
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] idx=%d!\n", __func__, idx));
++			bFound = TRUE;
++			break;
++		}	
++	}
++
++	if (!bFound)
++		idx = 0xFF;
++
++	return idx;
++}
++
++
++/*Add SU BFee and MU BFee*/
++PRT_BEAMFORMEE_ENTRY
++Beamforming_AddBFeeEntry(
++	IN	PVOID					pDM_VOID,
++	IN	PRT_BEAMFORM_STAINFO	pSTA,
++	IN	BEAMFORMING_CAP		BeamformCap,
++	IN	u1Byte					NumofSoundingDim,
++	IN	u1Byte					CompSteeringNumofBFer,
++	OUT	pu1Byte					Idx
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMEE_ENTRY	pEntry = phydm_Beamforming_GetFreeBFeeEntry(pDM_Odm, Idx);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	if (pEntry != NULL) {	
++		pEntry->bUsed = TRUE;
++		pEntry->AID = pSTA->AID;
++		pEntry->MacId = pSTA->MacID;
++		pEntry->SoundBW = pSTA->BW;
++		ODM_MoveMemory(pDM_Odm, pEntry->MyMacAddr, pSTA->MyMacAddr, 6);
++		
++		if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_AP)) {
++			/*BSSID[44:47] xor BSSID[40:43]*/
++			u2Byte BSSID = ((pSTA->MyMacAddr[5] & 0xf0) >> 4) ^ (pSTA->MyMacAddr[5] & 0xf);
++			/*(dec(A) + dec(B)*32) mod 512*/
++			pEntry->P_AID = (pSTA->AID + BSSID * 32) & 0x1ff;
++			pEntry->G_ID = 63;
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: BFee P_AID addressed to STA=%d\n", __func__, pEntry->P_AID));
++		} else if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS)) {
++			/*ad hoc mode*/
++			pEntry->P_AID = 0;
++			pEntry->G_ID = 63;
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: BFee P_AID as IBSS=%d\n", __func__, pEntry->P_AID));
++		} else {
++			/*client mode*/
++			pEntry->P_AID =  pSTA->RA[5];
++			/*BSSID[39:47]*/
++			pEntry->P_AID = (pEntry->P_AID << 1) | (pSTA->RA[4] >> 7);
++			pEntry->G_ID = 0;
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: BFee P_AID addressed to AP=0x%X\n", __func__, pEntry->P_AID));
++		}
++		cpMacAddr(pEntry->MacAddr, pSTA->RA);
++		pEntry->bTxBF = FALSE;
++		pEntry->bSound = FALSE;
++		pEntry->SoundPeriod = 400;
++		pEntry->BeamformEntryCap = BeamformCap;
++		pEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_UNINITIALIZE;
++
++/*		pEntry->LogSeq = 0xff;				Move to Beamforming_AddBFerEntry*/
++/*		pEntry->LogRetryCnt = 0;			Move to Beamforming_AddBFerEntry*/
++/*		pEntry->LogSuccessCnt = 0;		Move to Beamforming_AddBFerEntry*/
++
++		pEntry->LogStatusFailCnt = 0;
++
++		pEntry->NumofSoundingDim = NumofSoundingDim;
++		pEntry->CompSteeringNumofBFer = CompSteeringNumofBFer;
++
++		if (BeamformCap & BEAMFORMER_CAP_VHT_MU) {
++			pDM_Odm->BeamformingInfo.beamformee_mu_cnt += 1;
++			pEntry->is_mu_sta = TRUE;
++			pDM_Odm->BeamformingInfo.FirstMUBFeeIndex = phydm_Beamforming_GetFirstMUBFeeEntryIdx(pDM_Odm);
++		} else if  (BeamformCap & (BEAMFORMER_CAP_VHT_SU|BEAMFORMER_CAP_HT_EXPLICIT)) {
++			pDM_Odm->BeamformingInfo.beamformee_su_cnt += 1;
++			pEntry->is_mu_sta = FALSE;
++		}
++
++		return pEntry;
++	}
++	else
++		return NULL;
++}
++
++/*Add SU BFee and MU BFer*/
++PRT_BEAMFORMER_ENTRY
++Beamforming_AddBFerEntry(
++	IN	PVOID					pDM_VOID,
++	IN	PRT_BEAMFORM_STAINFO	pSTA,
++	IN	BEAMFORMING_CAP		BeamformCap,
++	IN	u1Byte					NumofSoundingDim,
++	OUT	pu1Byte					Idx
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMER_ENTRY	pEntry = phydm_Beamforming_GetFreeBFerEntry(pDM_Odm, Idx);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	if (pEntry != NULL) {
++		pEntry->bUsed = TRUE;
++		ODM_MoveMemory(pDM_Odm, pEntry->MyMacAddr, pSTA->MyMacAddr, 6);
++		if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_AP)) {
++			/*BSSID[44:47] xor BSSID[40:43]*/
++			u2Byte BSSID = ((pSTA->MyMacAddr[5] & 0xf0) >> 4) ^ (pSTA->MyMacAddr[5] & 0xf);
++			
++			pEntry->P_AID = (pSTA->AID + BSSID * 32) & 0x1ff;
++			pEntry->G_ID = 63;
++			/*(dec(A) + dec(B)*32) mod 512*/
++		} else if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS)) {
++			pEntry->P_AID = 0;
++			pEntry->G_ID = 63;
++		} else {
++			pEntry->P_AID =  pSTA->RA[5];
++			/*BSSID[39:47]*/
++			pEntry->P_AID = (pEntry->P_AID << 1) | (pSTA->RA[4] >> 7);
++			pEntry->G_ID = 0;
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: P_AID addressed to AP=0x%X\n", __func__, pEntry->P_AID));
++		}
++		
++		cpMacAddr(pEntry->MacAddr, pSTA->RA);
++		pEntry->BeamformEntryCap = BeamformCap;
++
++		pEntry->PreLogSeq = 0;	/*Modified by Jeffery @2015-04-13*/
++		pEntry->LogSeq = 0;		/*Modified by Jeffery @2014-10-29*/
++		pEntry->LogRetryCnt = 0;	/*Modified by Jeffery @2014-10-29*/
++		pEntry->LogSuccess = 0;	/*LogSuccess is NOT needed to be accumulated, so  LogSuccessCnt->LogSuccess, 2015-04-13, Jeffery*/
++		pEntry->ClockResetTimes = 0;	/*Modified by Jeffery @2015-04-13*/
++
++		pEntry->NumofSoundingDim = NumofSoundingDim;
++
++		if (BeamformCap & BEAMFORMEE_CAP_VHT_MU) {
++			pDM_Odm->BeamformingInfo.beamformer_mu_cnt += 1;
++			pEntry->is_mu_ap = TRUE;
++			pEntry->AID = pSTA->AID;
++		} else if (BeamformCap & (BEAMFORMEE_CAP_VHT_SU|BEAMFORMEE_CAP_HT_EXPLICIT)) {
++			pDM_Odm->BeamformingInfo.beamformer_su_cnt += 1;
++			pEntry->is_mu_ap = FALSE;
++		}
++
++		return pEntry;
++	}
++	else
++		return NULL;
++}
++
++#if 0
++BOOLEAN
++Beamforming_RemoveEntry(
++	IN	PADAPTER			Adapter,
++	IN	pu1Byte		RA,
++	OUT	pu1Byte		Idx
++	)
++{
++	HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T				pDM_Odm = &pHalData->DM_OutSrc;
++
++	PRT_BEAMFORMER_ENTRY	pBFerEntry = phydm_Beamforming_GetBFerEntryByAddr(pDM_Odm, RA, Idx);
++	PRT_BEAMFORMEE_ENTRY	pEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, Idx);
++	BOOLEAN ret = FALSE;
++    
++	RT_DISP(FBEAM, FBEAM_FUN, ("[Beamforming]@%s Start!\n", __func__));
++	RT_DISP(FBEAM, FBEAM_FUN, ("[Beamforming]@%s, pBFerEntry=0x%x\n", __func__, pBFerEntry));
++	RT_DISP(FBEAM, FBEAM_FUN, ("[Beamforming]@%s, pEntry=0x%x\n", __func__, pEntry));
++	
++	if (pEntry != NULL) {	
++		pEntry->bUsed = FALSE;
++		pEntry->BeamformEntryCap = BEAMFORMING_CAP_NONE;
++		/*pEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_UNINITIALIZE;*/
++		pEntry->bBeamformingInProgress = FALSE;
++		ret = TRUE;
++	} 
++	if (pBFerEntry != NULL) {
++		pBFerEntry->bUsed = FALSE;
++		pBFerEntry->BeamformEntryCap = BEAMFORMING_CAP_NONE;
++		ret = TRUE;
++	}
++	return ret;
++
++}
++#endif
++
++/* Used for BeamformingStart_V1  */
++VOID
++phydm_Beamforming_NDPARate(
++	IN	PVOID		pDM_VOID,
++	CHANNEL_WIDTH 	BW, 
++	u1Byte			Rate
++)
++{
++	u2Byte			NDPARate = Rate;
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	if (NDPARate == 0) {
++		if(pDM_Odm->RSSI_Min > 30) // link RSSI > 30%
++			NDPARate = ODM_RATE24M;
++		else
++			NDPARate = ODM_RATE6M;
++	}
++
++	if (NDPARate < ODM_RATEMCS0)
++		BW = (CHANNEL_WIDTH)ODM_BW20M;
++
++	NDPARate = (NDPARate << 8) | BW;
++	HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_RATE, (pu1Byte)&NDPARate);
++
++}
++
++
++/* Used for BeamformingStart_SW and  BeamformingStart_FW */
++VOID
++phydm_Beamforming_DymNDPARate(
++	IN	PVOID		pDM_VOID
++)
++{
++	u2Byte			NDPARate = ODM_RATE6M, BW;
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	if (pDM_Odm->RSSI_Min > 30)	/*link RSSI > 30%*/
++		NDPARate = ODM_RATE24M;
++	else
++		NDPARate = ODM_RATE6M;
++
++	BW = ODM_BW20M;
++	NDPARate = NDPARate << 8 | BW;
++	HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_RATE, (pu1Byte)&NDPARate);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s End, NDPA Rate = 0x%X\n", __func__, NDPARate));
++}
++
++/*	
++*	SW Sounding : SW Timer unit 1ms 
++*				 HW Timer unit (1/32000) s  32k is clock. 
++*	FW Sounding : FW Timer unit 10ms
++*/
++VOID
++Beamforming_DymPeriod(
++	IN	PVOID		pDM_VOID,
++	IN  u8          status
++)
++{
++	u1Byte 					Idx;
++	BOOLEAN					bChangePeriod = FALSE;	
++	u2Byte					SoundPeriod_SW, SoundPeriod_FW;
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_SOUNDING_INFO		pSoundInfo = &(pBeamInfo->SoundingInfo);
++
++	PRT_BEAMFORMEE_ENTRY	pEntry = &(pBeamInfo->BeamformeeEntry[pBeamInfo->BeamformeeCurIdx]);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++	
++	//3 TODO  per-client throughput caculation.
++
++	if ((*(pDM_Odm->pCurrentTxTP) + *(pDM_Odm->pCurrentRxTP) > 2) && ((pEntry->LogStatusFailCnt <= 20) || status)) {
++		SoundPeriod_SW = 40;	/* 40ms */
++		SoundPeriod_FW = 40;	/* From  H2C cmd, unit = 10ms */
++	} else {
++		SoundPeriod_SW = 4000;/* 4s */
++		SoundPeriod_FW = 400;
++	}
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]SoundPeriod_SW=%d, SoundPeriod_FW=%d\n",	__func__, SoundPeriod_SW, SoundPeriod_FW));
++
++	for (Idx = 0; Idx < BEAMFORMEE_ENTRY_NUM; Idx++) {
++		pBeamformEntry = pBeamInfo->BeamformeeEntry+Idx;
++		
++		if (pBeamformEntry->DefaultCSICnt > 20) {
++			/*Modified by David*/
++			SoundPeriod_SW = 4000;
++			SoundPeriod_FW = 400;
++		}
++		
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Period = %d\n", __func__, SoundPeriod_SW));		
++		if (pBeamformEntry->BeamformEntryCap & (BEAMFORMER_CAP_HT_EXPLICIT | BEAMFORMER_CAP_VHT_SU)) {
++			if (pSoundInfo->SoundMode == SOUNDING_FW_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_FW_HT_TIMER) {				
++				if (pBeamformEntry->SoundPeriod != SoundPeriod_FW) {
++					pBeamformEntry->SoundPeriod = SoundPeriod_FW;
++					bChangePeriod = TRUE;		/*Only FW sounding need to send H2C packet to change sound period. */
++				}
++			} else if (pBeamformEntry->SoundPeriod != SoundPeriod_SW) {
++				pBeamformEntry->SoundPeriod = SoundPeriod_SW;
++			}
++		}
++	}
++
++	if (bChangePeriod)
++		HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_FW_NDPA, (pu1Byte)&Idx);
++}
++
++
++
++
++BOOLEAN
++Beamforming_SendHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW,
++	IN	u1Byte			QIdx
++	)
++{
++	BOOLEAN		ret = TRUE;
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (QIdx == BEACON_QUEUE)
++		ret = SendFWHTNDPAPacket(pDM_Odm, RA, BW);
++	else
++		ret = SendSWHTNDPAPacket(pDM_Odm, RA, BW);
++
++	return ret;
++}
++
++
++
++BOOLEAN
++Beamforming_SendVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW,
++	IN	u1Byte			QIdx
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	BOOLEAN		ret = TRUE;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++
++	HalComTxbf_Set(pDM_Odm, TXBF_SET_GET_TX_RATE, NULL);
++
++	if ((pDM_Odm->TxBfDataRate >= ODM_RATEVHTSS3MCS7) && (pDM_Odm->TxBfDataRate <= ODM_RATEVHTSS3MCS9) && (pBeamInfo->snding3SS == FALSE)) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s: 3SS VHT 789 don't sounding\n", __func__));
++
++	} else  {
++		if (QIdx == BEACON_QUEUE) /* Send to reserved page => FW NDPA */
++			ret = SendFWVHTNDPAPacket(pDM_Odm, RA, AID, BW);
++		else {
++#ifdef SUPPORT_MU_BF
++		#if (SUPPORT_MU_BF == 1)
++			pBeamInfo->is_mu_sounding = TRUE;
++			ret = SendSWVHTMUNDPAPacket(pDM_Odm, BW);
++		#else
++			pBeamInfo->is_mu_sounding = FALSE;
++			ret = SendSWVHTNDPAPacket(pDM_Odm, RA, AID, BW);
++		#endif
++#else
++			pBeamInfo->is_mu_sounding = FALSE;
++			ret = SendSWVHTNDPAPacket(pDM_Odm, RA, AID, BW);
++#endif
++		}
++	}
++		return ret;
++}
++
++
++BEAMFORMING_NOTIFY_STATE
++phydm_beamfomring_bSounding(
++	IN	PVOID				pDM_VOID,
++	PRT_BEAMFORMING_INFO 	pBeamInfo,
++	pu1Byte					Idx
++	)
++{
++	BEAMFORMING_NOTIFY_STATE	bSounding = BEAMFORMING_NOTIFY_NONE;
++	RT_BEAMFORMING_OID_INFO	BeamOidInfo = pBeamInfo->BeamformingOidInfo;
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	/*if(( Beamforming_GetBeamCap(pBeamInfo) & BEAMFORMER_CAP) == 0)*/
++	/*bSounding = BEAMFORMING_NOTIFY_RESET;*/
++	if (BeamOidInfo.SoundOidMode == SOUNDING_STOP_All_TIMER)
++		bSounding = BEAMFORMING_NOTIFY_RESET;
++	else {
++		u1Byte i;
++
++		for (i = 0 ; i < BEAMFORMEE_ENTRY_NUM ; i++) {
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s: BFee Entry %d bUsed=%d, bSound=%d\n", __func__, i, pBeamInfo->BeamformeeEntry[i].bUsed, pBeamInfo->BeamformeeEntry[i].bSound));
++			if (pBeamInfo->BeamformeeEntry[i].bUsed && (!pBeamInfo->BeamformeeEntry[i].bSound)) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: Add BFee entry %d\n", __func__, i));
++				*Idx = i;
++				if (pBeamInfo->BeamformeeEntry[i].is_mu_sta)
++					bSounding = BEAMFORMEE_NOTIFY_ADD_MU;
++				else
++					bSounding = BEAMFORMEE_NOTIFY_ADD_SU;
++			}
++
++			if ((!pBeamInfo->BeamformeeEntry[i].bUsed) && pBeamInfo->BeamformeeEntry[i].bSound) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: Delete BFee entry %d\n", __func__, i));
++				*Idx = i;
++				if (pBeamInfo->BeamformeeEntry[i].is_mu_sta)
++					bSounding = BEAMFORMEE_NOTIFY_DELETE_MU;
++				else
++					bSounding = BEAMFORMEE_NOTIFY_DELETE_SU;
++			}
++		}
++	}
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s End, bSounding = %d\n", __func__, bSounding));
++	return bSounding;
++}
++
++
++//This function is unused
++u1Byte
++phydm_beamforming_SoundingIdx(
++	IN	PVOID				pDM_VOID,
++	PRT_BEAMFORMING_INFO 		pBeamInfo
++	)
++{
++	u1Byte					Idx = 0;
++	RT_BEAMFORMING_OID_INFO	BeamOidInfo = pBeamInfo->BeamformingOidInfo;
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	if (BeamOidInfo.SoundOidMode == SOUNDING_SW_HT_TIMER || BeamOidInfo.SoundOidMode == SOUNDING_SW_VHT_TIMER ||
++		BeamOidInfo.SoundOidMode == SOUNDING_HW_HT_TIMER || BeamOidInfo.SoundOidMode == SOUNDING_HW_VHT_TIMER)
++		Idx = BeamOidInfo.SoundOidIdx;
++	else {
++		u1Byte	i;
++		for (i = 0; i < BEAMFORMEE_ENTRY_NUM; i++) {
++			if (pBeamInfo->BeamformeeEntry[i].bUsed && (FALSE == pBeamInfo->BeamformeeEntry[i].bSound)) {
++				Idx = i;
++				break;
++			}
++		}
++	}
++
++	return Idx;
++}
++
++
++SOUNDING_MODE
++phydm_beamforming_SoundingMode(
++	IN	PVOID				pDM_VOID,
++	PRT_BEAMFORMING_INFO 	pBeamInfo,
++	u1Byte					Idx
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte 			SupportInterface = pDM_Odm->SupportInterface;
++
++	RT_BEAMFORMEE_ENTRY		BeamEntry = pBeamInfo->BeamformeeEntry[Idx];
++	RT_BEAMFORMING_OID_INFO	BeamOidInfo = pBeamInfo->BeamformingOidInfo;
++	SOUNDING_MODE				Mode = BeamOidInfo.SoundOidMode;
++
++	if (BeamOidInfo.SoundOidMode == SOUNDING_SW_VHT_TIMER || BeamOidInfo.SoundOidMode == SOUNDING_HW_VHT_TIMER) {
++		if (BeamEntry.BeamformEntryCap & BEAMFORMER_CAP_VHT_SU)
++			Mode = BeamOidInfo.SoundOidMode;
++		else 
++			Mode = SOUNDING_STOP_All_TIMER;
++	} else if (BeamOidInfo.SoundOidMode == SOUNDING_SW_HT_TIMER || BeamOidInfo.SoundOidMode == SOUNDING_HW_HT_TIMER) {
++		if (BeamEntry.BeamformEntryCap & BEAMFORMER_CAP_HT_EXPLICIT)
++			Mode = BeamOidInfo.SoundOidMode;
++		else
++			Mode = SOUNDING_STOP_All_TIMER;
++	} else if (BeamEntry.BeamformEntryCap & BEAMFORMER_CAP_VHT_SU) {
++		if ((SupportInterface == ODM_ITRF_USB) && !(pDM_Odm->SupportICType & (ODM_RTL8814A | ODM_RTL8822B)))
++			Mode = SOUNDING_FW_VHT_TIMER;
++		else
++			Mode = SOUNDING_SW_VHT_TIMER;
++	} else if (BeamEntry.BeamformEntryCap & BEAMFORMER_CAP_HT_EXPLICIT) {
++		if ((SupportInterface == ODM_ITRF_USB) && !(pDM_Odm->SupportICType & (ODM_RTL8814A | ODM_RTL8822B)))
++			Mode = SOUNDING_FW_HT_TIMER;
++		else
++			Mode = SOUNDING_SW_HT_TIMER;
++	} else 
++		Mode = SOUNDING_STOP_All_TIMER;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] SupportInterface=%d, Mode=%d\n", __func__, SupportInterface, Mode));
++
++	return Mode;
++}
++
++
++u2Byte
++phydm_beamforming_SoundingTime(
++	IN	PVOID				pDM_VOID,
++	PRT_BEAMFORMING_INFO 	pBeamInfo,
++	SOUNDING_MODE			Mode,
++	u1Byte					Idx
++	)
++{
++	u2Byte						SoundingTime = 0xffff;
++	RT_BEAMFORMEE_ENTRY		BeamEntry = pBeamInfo->BeamformeeEntry[Idx];
++	RT_BEAMFORMING_OID_INFO	BeamOidInfo = pBeamInfo->BeamformingOidInfo;
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	if (Mode == SOUNDING_HW_HT_TIMER || Mode == SOUNDING_HW_VHT_TIMER)
++		SoundingTime = BeamOidInfo.SoundOidPeriod * 32;
++	else if (Mode == SOUNDING_SW_HT_TIMER || Mode == SOUNDING_SW_VHT_TIMER)
++		/*Modified by David*/
++		SoundingTime = BeamEntry.SoundPeriod;	/*BeamOidInfo.SoundOidPeriod;*/
++	else
++		SoundingTime = BeamEntry.SoundPeriod;
++
++	return SoundingTime;
++}
++
++
++CHANNEL_WIDTH
++phydm_beamforming_SoundingBW(
++	IN	PVOID				pDM_VOID,
++	PRT_BEAMFORMING_INFO 	pBeamInfo,
++	SOUNDING_MODE			Mode,
++	u1Byte					Idx
++	)
++{
++	CHANNEL_WIDTH				SoundingBW = CHANNEL_WIDTH_20;
++	RT_BEAMFORMEE_ENTRY		BeamEntry = pBeamInfo->BeamformeeEntry[Idx];
++	RT_BEAMFORMING_OID_INFO	BeamOidInfo = pBeamInfo->BeamformingOidInfo;
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (Mode == SOUNDING_HW_HT_TIMER || Mode == SOUNDING_HW_VHT_TIMER)
++		SoundingBW = BeamOidInfo.SoundOidBW;
++	else if (Mode == SOUNDING_SW_HT_TIMER || Mode == SOUNDING_SW_VHT_TIMER)
++		/*Modified by David*/
++		SoundingBW = BeamEntry.SoundBW;		/*BeamOidInfo.SoundOidBW;*/
++	else 
++		SoundingBW = BeamEntry.SoundBW;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s, SoundingBW=0x%X\n", __func__, SoundingBW));
++
++	return SoundingBW;
++}
++
++
++BOOLEAN
++phydm_Beamforming_SelectBeamEntry(
++	IN	PVOID				pDM_VOID,
++	PRT_BEAMFORMING_INFO 	pBeamInfo
++	)
++{
++	PRT_SOUNDING_INFO		pSoundInfo = &(pBeamInfo->SoundingInfo);
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	/*pEntry.bSound is different between first and latter NDPA, and should not be used as BFee entry selection*/
++	/*BTW, latter modification should sync to the selection mechanism of AP/ADSL instead of the fixed SoundIdx.*/
++	pSoundInfo->SoundIdx = phydm_beamforming_SoundingIdx(pDM_Odm, pBeamInfo);
++	/*pSoundInfo->SoundIdx = 0;*/
++
++	if (pSoundInfo->SoundIdx < BEAMFORMEE_ENTRY_NUM)
++		pSoundInfo->SoundMode = phydm_beamforming_SoundingMode(pDM_Odm, pBeamInfo, pSoundInfo->SoundIdx);
++	else
++		pSoundInfo->SoundMode = SOUNDING_STOP_All_TIMER;
++	
++	if (SOUNDING_STOP_All_TIMER == pSoundInfo->SoundMode) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Return because of SOUNDING_STOP_All_TIMER\n", __func__));
++		return FALSE;
++	} else {
++		pSoundInfo->SoundBW = phydm_beamforming_SoundingBW(pDM_Odm, pBeamInfo, pSoundInfo->SoundMode, pSoundInfo->SoundIdx );
++		pSoundInfo->SoundPeriod = phydm_beamforming_SoundingTime(pDM_Odm, pBeamInfo, pSoundInfo->SoundMode, pSoundInfo->SoundIdx );
++		return TRUE;
++	}
++}
++
++/*SU BFee Entry Only*/
++BOOLEAN
++phydm_beamforming_StartPeriod(
++	IN	PVOID				pDM_VOID
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER					Adapter = pDM_Odm->Adapter;
++	BOOLEAN						Ret = TRUE;
++	PRT_BEAMFORMING_INFO 		pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_SOUNDING_INFO			pSoundInfo = &(pBeamInfo->SoundingInfo); 
++	
++	phydm_Beamforming_DymNDPARate(pDM_Odm);
++
++	phydm_Beamforming_SelectBeamEntry(pDM_Odm, pBeamInfo);		// Modified
++
++	if (pSoundInfo->SoundMode == SOUNDING_SW_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_SW_HT_TIMER)
++		ODM_SetTimer(pDM_Odm, &pBeamInfo->BeamformingTimer, pSoundInfo->SoundPeriod);
++	else if (pSoundInfo->SoundMode == SOUNDING_HW_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_HW_HT_TIMER ||
++			pSoundInfo->SoundMode == SOUNDING_AUTO_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_AUTO_HT_TIMER) {
++		HAL_HW_TIMER_TYPE TimerType = HAL_TIMER_TXBF;
++		u4Byte	val = (pSoundInfo->SoundPeriod | (TimerType<<16));
++
++		//HW timer stop: All IC has the same setting
++		Adapter->HalFunc.SetHwRegHandler(Adapter, HW_VAR_HW_REG_TIMER_STOP,  (pu1Byte)(&TimerType));
++		//ODM_Write1Byte(pDM_Odm, 0x15F, 0);
++		//HW timer init: All IC has the same setting, but 92E & 8812A only write 2 bytes
++		Adapter->HalFunc.SetHwRegHandler(Adapter, HW_VAR_HW_REG_TIMER_INIT,  (pu1Byte)(&val));
++		//ODM_Write1Byte(pDM_Odm, 0x164, 1);
++		//ODM_Write4Byte(pDM_Odm, 0x15C, val);
++		//HW timer start: All IC has the same setting
++		Adapter->HalFunc.SetHwRegHandler(Adapter, HW_VAR_HW_REG_TIMER_START,  (pu1Byte)(&TimerType));
++		//ODM_Write1Byte(pDM_Odm, 0x15F, 0x5);
++	} else if (pSoundInfo->SoundMode == SOUNDING_FW_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_FW_HT_TIMER)
++		Ret = BeamformingStart_FW(pDM_Odm, pSoundInfo->SoundIdx);
++	else
++		Ret = FALSE;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] SoundIdx=%d, SoundMode=%d, SoundBW=%d, SoundPeriod=%d\n", __func__, 
++			pSoundInfo->SoundIdx, pSoundInfo->SoundMode, pSoundInfo->SoundBW, pSoundInfo->SoundPeriod));
++
++	return Ret;
++}
++
++// Used after Beamforming_Leave, and will clear the setting of the "already deleted" entry
++/*SU BFee Entry Only*/
++VOID
++phydm_beamforming_EndPeriod_SW(
++	IN	PVOID				pDM_VOID
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER					Adapter = pDM_Odm->Adapter;
++	PRT_BEAMFORMING_INFO 		pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_SOUNDING_INFO			pSoundInfo = &(pBeamInfo->SoundingInfo);
++	
++	HAL_HW_TIMER_TYPE TimerType = HAL_TIMER_TXBF;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	if (pSoundInfo->SoundMode == SOUNDING_SW_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_SW_HT_TIMER)
++		ODM_CancelTimer(pDM_Odm, &pBeamInfo->BeamformingTimer);
++	else if (pSoundInfo->SoundMode == SOUNDING_HW_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_HW_HT_TIMER ||
++				pSoundInfo->SoundMode == SOUNDING_AUTO_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_AUTO_HT_TIMER)
++		/*HW timer stop: All IC has the same setting*/
++		Adapter->HalFunc.SetHwRegHandler(Adapter, HW_VAR_HW_REG_TIMER_STOP,  (pu1Byte)(&TimerType));
++		/*ODM_Write1Byte(pDM_Odm, 0x15F, 0);*/
++}
++
++VOID
++phydm_beamforming_EndPeriod_FW(
++	IN	PVOID				pDM_VOID
++	)
++{
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte				Idx = 0;
++
++	HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_FW_NDPA, (pu1Byte)&Idx);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]\n", __func__));
++}
++
++
++/*SU BFee Entry Only*/
++VOID 
++phydm_beamforming_ClearEntry_SW(
++	IN	PVOID			pDM_VOID,
++	BOOLEAN				IsDelete,
++	u1Byte				DeleteIdx
++	)
++{
++	u1Byte						Idx = 0;
++	PRT_BEAMFORMEE_ENTRY		pBeamformEntry = NULL;
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO 		pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	if (IsDelete) {
++		if (DeleteIdx < BEAMFORMEE_ENTRY_NUM) {
++			pBeamformEntry = pBeamInfo->BeamformeeEntry + DeleteIdx;
++			if (!((!pBeamformEntry->bUsed) && pBeamformEntry->bSound)) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] SW DeleteIdx is wrong!!!!!\n", __func__));
++				return;
++			}
++		}
++
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] SW delete BFee entry %d\n", __func__, DeleteIdx));
++		if (pBeamformEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSING) {
++			pBeamformEntry->bBeamformingInProgress = FALSE;
++			pBeamformEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_UNINITIALIZE;
++		} else if (pBeamformEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++			pBeamformEntry->BeamformEntryState  = BEAMFORMING_ENTRY_STATE_UNINITIALIZE;
++			HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_STATUS, (pu1Byte)&DeleteIdx);
++		}
++		pBeamformEntry->bSound = FALSE;
++	} else {
++		for (Idx = 0; Idx < BEAMFORMEE_ENTRY_NUM; Idx++) {
++			pBeamformEntry = pBeamInfo->BeamformeeEntry+Idx;
++
++			/*Used after bSounding=RESET, and will clear the setting of "ever sounded" entry, which is not necessarily be deleted.*/
++			/*This function is mainly used in case "BeamOidInfo.SoundOidMode == SOUNDING_STOP_All_TIMER".*/
++			/*However, setting oid doesn't delete entries (bUsed is still TRUE), new entries may fail to be added in.*/
++		
++			if (pBeamformEntry->bSound) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] SW reset BFee entry %d\n", __func__, Idx));
++				/*	
++				*	If End procedure is 
++				*	1. Between (Send NDPA, C2H packet return), reset state to initialized.
++				*	After C2H packet return , status bit will be set to zero. 
++				*
++				*	2. After C2H packet, then reset state to initialized and clear status bit.
++				*/
++
++				if (pBeamformEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSING)
++					phydm_Beamforming_End_SW(pDM_Odm, 0);
++				else if (pBeamformEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++					pBeamformEntry->BeamformEntryState  = BEAMFORMING_ENTRY_STATE_INITIALIZED;
++					HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_STATUS, (pu1Byte)&Idx);
++				}
++
++				pBeamformEntry->bSound = FALSE;
++			}
++		}
++	}
++}
++
++VOID
++phydm_beamforming_ClearEntry_FW(
++	IN	PVOID			pDM_VOID,
++	BOOLEAN				IsDelete,
++	u1Byte				DeleteIdx
++	)
++{
++	u1Byte						Idx = 0;
++	PRT_BEAMFORMEE_ENTRY		pBeamformEntry = NULL;
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO 		pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	if (IsDelete) {
++		if (DeleteIdx < BEAMFORMEE_ENTRY_NUM) {
++			pBeamformEntry = pBeamInfo->BeamformeeEntry + DeleteIdx;
++
++			if (!((!pBeamformEntry->bUsed) && pBeamformEntry->bSound)) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] FW DeleteIdx is wrong!!!!!\n", __func__));
++				return;
++			}
++		}
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: FW delete BFee entry %d\n", __func__, DeleteIdx));
++		pBeamformEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_UNINITIALIZE;
++		pBeamformEntry->bSound = FALSE;
++	} else {
++		for (Idx = 0; Idx < BEAMFORMEE_ENTRY_NUM; Idx++) {
++			pBeamformEntry = pBeamInfo->BeamformeeEntry+Idx;
++
++			/*Used after bSounding=RESET, and will clear the setting of "ever sounded" entry, which is not necessarily be deleted.*/
++			/*This function is mainly used in case "BeamOidInfo.SoundOidMode == SOUNDING_STOP_All_TIMER".*/
++			/*However, setting oid doesn't delete entries (bUsed is still TRUE), new entries may fail to be added in.*/
++		
++			if (pBeamformEntry->bSound) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]FW reset BFee entry %d\n", __func__, Idx));
++				/*	
++				*	If End procedure is 
++				*	1. Between (Send NDPA, C2H packet return), reset state to initialized.
++				*	After C2H packet return , status bit will be set to zero. 
++				*
++				*	2. After C2H packet, then reset state to initialized and clear status bit.
++				*/
++				
++				pBeamformEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_INITIALIZED;
++				pBeamformEntry->bSound = FALSE;
++			}
++		}
++	}
++}
++
++/*
++* 	Called : 
++*	1. Add and delete entry : Beamforming_Enter/Beamforming_Leave
++*	2. FW trigger :  Beamforming_SetTxBFen
++*	3. Set OID_RT_BEAMFORMING_PERIOD : BeamformingControl_V2
++*/
++VOID
++phydm_Beamforming_Notify(
++	IN	PVOID			pDM_VOID
++	)
++{
++	u1Byte						Idx=BEAMFORMEE_ENTRY_NUM;
++	BEAMFORMING_NOTIFY_STATE	bSounding = BEAMFORMING_NOTIFY_NONE;
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO 		pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_SOUNDING_INFO			pSoundInfo = &(pBeamInfo->SoundingInfo);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	bSounding = phydm_beamfomring_bSounding(pDM_Odm, pBeamInfo, &Idx);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s, Before notify, bSounding=%d, Idx=%d\n", __func__, bSounding, Idx));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: pBeamInfo->beamformee_su_cnt = %d\n", __func__, pBeamInfo->beamformee_su_cnt));
++	
++
++	switch (bSounding) {
++	case BEAMFORMEE_NOTIFY_ADD_SU:
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: BEAMFORMEE_NOTIFY_ADD_SU\n", __func__));
++		phydm_beamforming_StartPeriod(pDM_Odm);
++	break;
++
++	case BEAMFORMEE_NOTIFY_DELETE_SU:
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: BEAMFORMEE_NOTIFY_DELETE_SU\n", __func__));
++		if (pSoundInfo->SoundMode == SOUNDING_FW_HT_TIMER || pSoundInfo->SoundMode == SOUNDING_FW_VHT_TIMER) {
++			phydm_beamforming_ClearEntry_FW(pDM_Odm, TRUE, Idx);
++			if (pBeamInfo->beamformee_su_cnt == 0) { /* For 2->1 entry, we should not cancel SW timer */
++				phydm_beamforming_EndPeriod_FW(pDM_Odm);
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: No BFee left\n", __func__));
++			}
++		} else {
++			phydm_beamforming_ClearEntry_SW(pDM_Odm, TRUE, Idx);
++			if (pBeamInfo->beamformee_su_cnt == 0) { /* For 2->1 entry, we should not cancel SW timer */
++				phydm_beamforming_EndPeriod_SW(pDM_Odm);
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: No BFee left\n", __func__));
++			}
++		}
++	break;
++
++	case BEAMFORMEE_NOTIFY_ADD_MU:
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: BEAMFORMEE_NOTIFY_ADD_MU\n", __func__));
++		if (pBeamInfo->beamformee_mu_cnt == 2) {
++			/*if (pSoundInfo->SoundMode == SOUNDING_SW_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_SW_HT_TIMER)
++				ODM_SetTimer(pDM_Odm, &pBeamInfo->BeamformingTimer, pSoundInfo->SoundPeriod);*/
++			ODM_SetTimer(pDM_Odm, &pBeamInfo->BeamformingTimer, 1000); /*Do MU sounding every 1sec*/
++		} else
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: Less or larger than 2 MU STAs, not to set timer\n", __func__));
++	break;
++
++	case BEAMFORMEE_NOTIFY_DELETE_MU:
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: BEAMFORMEE_NOTIFY_DELETE_MU\n", __func__));
++		if (pBeamInfo->beamformee_mu_cnt == 1) {
++			/*if (pSoundInfo->SoundMode == SOUNDING_SW_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_SW_HT_TIMER)*/{
++				ODM_CancelTimer(pDM_Odm, &pBeamInfo->BeamformingTimer);
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: Less than 2 MU STAs, stop sounding\n", __func__));
++			}
++		}
++	break;
++
++	case BEAMFORMING_NOTIFY_RESET:
++		if (pSoundInfo->SoundMode == SOUNDING_FW_HT_TIMER || pSoundInfo->SoundMode == SOUNDING_FW_VHT_TIMER) {	
++			phydm_beamforming_ClearEntry_FW(pDM_Odm, FALSE, Idx);
++			phydm_beamforming_EndPeriod_FW(pDM_Odm);
++		} else {
++			phydm_beamforming_ClearEntry_SW(pDM_Odm, FALSE, Idx);
++			phydm_beamforming_EndPeriod_SW(pDM_Odm);
++		}
++
++	break;
++
++	default:
++	break;
++	}
++
++}
++
++
++
++BOOLEAN
++Beamforming_InitEntry(
++	IN	PVOID		pDM_VOID,
++	IN	u2Byte		staIdx,
++	pu1Byte			BFerBFeeIdx
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMEE_ENTRY		pBeamformEntry = NULL;
++	PRT_BEAMFORMER_ENTRY		pBeamformerEntry = NULL;
++	PRT_BEAMFORM_STAINFO		pSTA = NULL;
++	BEAMFORMING_CAP			BeamformCap = BEAMFORMING_CAP_NONE;
++	u1Byte						BFerIdx=0xF, BFeeIdx=0xF;
++	u1Byte						NumofSoundingDim = 0, CompSteeringNumofBFer = 0;
++
++	pSTA = phydm_staInfoInit(pDM_Odm, staIdx);
++
++	/*The current setting does not support Beaforming*/
++	if (BEAMFORMING_CAP_NONE == pSTA->HtBeamformCap && BEAMFORMING_CAP_NONE == pSTA->VhtBeamformCap) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("The configuration disabled Beamforming! Skip...\n"));		
++		return FALSE;
++	}
++
++	if (pSTA->WirelessMode < WIRELESS_MODE_N_24G)
++		return FALSE;
++	else {
++		if (pSTA->WirelessMode & WIRELESS_MODE_N_5G || pSTA->WirelessMode & WIRELESS_MODE_N_24G) {/*HT*/
++			if (TEST_FLAG(pSTA->CurBeamform, BEAMFORMING_HT_BEAMFORMER_ENABLE)) {/*We are Beamformee because the STA is Beamformer*/
++				BeamformCap = (BEAMFORMING_CAP)(BeamformCap | BEAMFORMEE_CAP_HT_EXPLICIT);
++				NumofSoundingDim = (pSTA->CurBeamform&BEAMFORMING_HT_BEAMFORMEE_CHNL_EST_CAP)>>6;
++			}
++			/*We are Beamformer because the STA is Beamformee*/
++			if (TEST_FLAG(pSTA->CurBeamform, BEAMFORMING_HT_BEAMFORMEE_ENABLE) ||
++				TEST_FLAG(pSTA->HtBeamformCap, BEAMFORMING_HT_BEAMFORMER_TEST)) {
++				BeamformCap = (BEAMFORMING_CAP)(BeamformCap | BEAMFORMER_CAP_HT_EXPLICIT);
++				CompSteeringNumofBFer = (pSTA->CurBeamform & BEAMFORMING_HT_BEAMFORMER_STEER_NUM)>>4;
++			}
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] HT CurBeamform=0x%X, BeamformCap=0x%X\n", __func__, pSTA->CurBeamform, BeamformCap));
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] HT NumofSoundingDim=%d, CompSteeringNumofBFer=%d\n", __func__, NumofSoundingDim, CompSteeringNumofBFer));
++		}
++#if	(ODM_IC_11AC_SERIES_SUPPORT == 1)
++		if (pSTA->WirelessMode & WIRELESS_MODE_AC_5G || pSTA->WirelessMode & WIRELESS_MODE_AC_24G) {	/*VHT*/	
++
++			/* We are Beamformee because the STA is SU Beamformer*/
++			if (TEST_FLAG(pSTA->CurBeamformVHT, BEAMFORMING_VHT_BEAMFORMER_ENABLE)) {
++				BeamformCap =(BEAMFORMING_CAP)(BeamformCap |BEAMFORMEE_CAP_VHT_SU);
++				NumofSoundingDim = (pSTA->CurBeamformVHT & BEAMFORMING_VHT_BEAMFORMEE_SOUND_DIM)>>12;
++			}
++			/* We are Beamformer because the STA is SU Beamformee*/
++			if (TEST_FLAG(pSTA->CurBeamformVHT, BEAMFORMING_VHT_BEAMFORMEE_ENABLE) ||
++				TEST_FLAG(pSTA->VhtBeamformCap, BEAMFORMING_VHT_BEAMFORMER_TEST)) {
++				BeamformCap =(BEAMFORMING_CAP)(BeamformCap |BEAMFORMER_CAP_VHT_SU);
++				CompSteeringNumofBFer = (pSTA->CurBeamformVHT & BEAMFORMING_VHT_BEAMFORMER_STS_CAP)>>8;
++			}
++			/* We are Beamformee because the STA is MU Beamformer*/
++			if (TEST_FLAG(pSTA->CurBeamformVHT, BEAMFORMING_VHT_MU_MIMO_AP_ENABLE)) {
++				BeamformCap = (BEAMFORMING_CAP)(BeamformCap | BEAMFORMEE_CAP_VHT_MU);
++				NumofSoundingDim = (pSTA->CurBeamformVHT & BEAMFORMING_VHT_BEAMFORMEE_SOUND_DIM)>>12;
++			}
++			/* We are Beamformer because the STA is MU Beamformee*/
++			if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_AP)) { /* Only AP mode supports to act an MU beamformer */
++				if (TEST_FLAG(pSTA->CurBeamformVHT, BEAMFORMING_VHT_MU_MIMO_STA_ENABLE) ||
++					TEST_FLAG(pSTA->VhtBeamformCap, BEAMFORMING_VHT_BEAMFORMER_TEST)) {
++					BeamformCap = (BEAMFORMING_CAP)(BeamformCap | BEAMFORMER_CAP_VHT_MU);
++					CompSteeringNumofBFer = (pSTA->CurBeamformVHT & BEAMFORMING_VHT_BEAMFORMER_STS_CAP)>>8;
++				}
++			}
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]VHT CurBeamformVHT=0x%X, BeamformCap=0x%X\n", __func__, pSTA->CurBeamformVHT, BeamformCap));
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]VHT NumofSoundingDim=0x%X, CompSteeringNumofBFer=0x%X\n", __func__, NumofSoundingDim, CompSteeringNumofBFer));
++			
++		}
++#endif
++	}
++
++
++	if(BeamformCap == BEAMFORMING_CAP_NONE)
++		return FALSE;
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Self BF Entry Cap = 0x%02X\n", __func__, BeamformCap));
++
++	/*We are BFee, so the entry is BFer*/
++	if (BeamformCap & (BEAMFORMEE_CAP_VHT_MU | BEAMFORMEE_CAP_VHT_SU | BEAMFORMEE_CAP_HT_EXPLICIT)) {
++		pBeamformerEntry = phydm_Beamforming_GetBFerEntryByAddr(pDM_Odm, pSTA->RA, &BFerIdx);
++		
++		if (pBeamformerEntry == NULL) {
++			pBeamformerEntry = Beamforming_AddBFerEntry(pDM_Odm, pSTA, BeamformCap, NumofSoundingDim , &BFerIdx);
++			if (pBeamformerEntry == NULL)
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]Not enough BFer entry!!!!!\n", __func__));
++		}
++	}
++
++	/*We are BFer, so the entry is BFee*/
++	if (BeamformCap & (BEAMFORMER_CAP_VHT_MU | BEAMFORMER_CAP_VHT_SU | BEAMFORMER_CAP_HT_EXPLICIT)) {
++		pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, pSTA->RA, &BFeeIdx);
++
++		/*¦pªGBFeeIdx = 0xF «h¥Nªí¥Ø«eentry·í¤¤¨S¦³¬Û¦PªºMACID¦b¤º*/
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Get BFee entry 0x%X by address\n", __func__, BFeeIdx));
++		if (pBeamformEntry == NULL) {
++			pBeamformEntry = Beamforming_AddBFeeEntry(pDM_Odm, pSTA, BeamformCap, NumofSoundingDim, CompSteeringNumofBFer, &BFeeIdx);
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]: pSTA->AID=%d, pSTA->MacID=%d\n", __func__, pSTA->AID, pSTA->MacID));
++
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]: Add BFee entry %d\n", __func__, BFeeIdx));
++
++			if (pBeamformEntry == NULL)
++				return FALSE;
++			else
++				pBeamformEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_INITIALIZEING;
++		} else {
++			/*Entry has been created. If entry is initialing or progressing then errors occur.*/
++			if (pBeamformEntry->BeamformEntryState != BEAMFORMING_ENTRY_STATE_INITIALIZED && 
++				pBeamformEntry->BeamformEntryState != BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++				return FALSE;
++			} else
++				pBeamformEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_INITIALIZEING;
++		}
++		pBeamformEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_INITIALIZED;
++		phydm_staInfoUpdate(pDM_Odm, staIdx, pBeamformEntry);
++	}
++
++	*BFerBFeeIdx = (BFerIdx<<4) | BFeeIdx;
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] End: BFerIdx=0x%X, BFeeIdx=0x%X, BFerBFeeIdx=0x%X\n", __func__, BFerIdx, BFeeIdx, *BFerBFeeIdx));
++
++	return TRUE;
++}
++
++
++VOID
++Beamforming_DeInitEntry(
++	IN	PVOID		pDM_VOID,
++	pu1Byte			RA
++	)
++{
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte				Idx = 0;
++
++	PRT_BEAMFORMER_ENTRY	pBFerEntry = phydm_Beamforming_GetBFerEntryByAddr(pDM_Odm, RA, &Idx);
++	PRT_BEAMFORMEE_ENTRY	pBFeeEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++	BOOLEAN ret = FALSE;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n",  __func__));
++	
++	if (pBFeeEntry != NULL) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s, pBFeeEntry\n", __func__));
++		pBFeeEntry->bUsed = FALSE;
++		pBFeeEntry->BeamformEntryCap = BEAMFORMING_CAP_NONE;
++		pBFeeEntry->bBeamformingInProgress = FALSE;
++		if (pBFeeEntry->is_mu_sta) {
++			pDM_Odm->BeamformingInfo.beamformee_mu_cnt -= 1;
++			pDM_Odm->BeamformingInfo.FirstMUBFeeIndex = phydm_Beamforming_GetFirstMUBFeeEntryIdx(pDM_Odm);
++		} else {
++			pDM_Odm->BeamformingInfo.beamformee_su_cnt -= 1;
++		}
++		ret = TRUE;
++	} 
++	
++	if (pBFerEntry != NULL) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s, pBFerEntry\n", __func__));
++		pBFerEntry->bUsed = FALSE;
++		pBFerEntry->BeamformEntryCap = BEAMFORMING_CAP_NONE;
++		if (pBFerEntry->is_mu_ap)
++			pDM_Odm->BeamformingInfo.beamformer_mu_cnt -= 1;
++		else
++			pDM_Odm->BeamformingInfo.beamformer_su_cnt -= 1;
++		ret = TRUE;
++	}
++
++	if (ret == TRUE)
++		HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_LEAVE, (pu1Byte)&Idx);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s End, Idx = 0x%X\n", __func__, Idx));
++}
++
++
++BOOLEAN
++BeamformingStart_V1(
++	IN	PVOID		pDM_VOID,
++	pu1Byte			RA,
++	BOOLEAN			Mode,
++	CHANNEL_WIDTH	BW,
++	u1Byte			Rate
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte					Idx = 0;
++	PRT_BEAMFORMEE_ENTRY	pEntry;
++	BOOLEAN					ret = TRUE;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	
++	pEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++
++	if (pEntry->bUsed == FALSE) {
++		pEntry->bBeamformingInProgress = FALSE;
++		return FALSE;
++	} else {
++		if (pEntry->bBeamformingInProgress)
++			return FALSE;
++
++		pEntry->bBeamformingInProgress = TRUE;
++
++		if (Mode == 1) {	
++			if (!(pEntry->BeamformEntryCap & BEAMFORMER_CAP_HT_EXPLICIT)) {
++				pEntry->bBeamformingInProgress = FALSE;
++				return FALSE;
++			}
++		} else if (Mode == 0) {
++			if (!(pEntry->BeamformEntryCap & BEAMFORMER_CAP_VHT_SU)) {
++				pEntry->bBeamformingInProgress = FALSE;
++				return FALSE;
++			}
++		}
++
++		if (pEntry->BeamformEntryState != BEAMFORMING_ENTRY_STATE_INITIALIZED && pEntry->BeamformEntryState != BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++			pEntry->bBeamformingInProgress = FALSE;
++			return FALSE;
++		} else {
++			pEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_PROGRESSING;
++			pEntry->bSound = TRUE;
++		}
++	}
++
++	pEntry->SoundBW = BW;
++	pBeamInfo->BeamformeeCurIdx = Idx;
++	phydm_Beamforming_NDPARate(pDM_Odm, BW, Rate);
++	HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_STATUS, (pu1Byte)&Idx);
++
++	if (Mode == 1)
++		ret = Beamforming_SendHTNDPAPacket(pDM_Odm, RA, BW, NORMAL_QUEUE);	
++	else
++		ret = Beamforming_SendVHTNDPAPacket(pDM_Odm, RA, pEntry->AID, BW, NORMAL_QUEUE);
++
++	if (ret == FALSE) {
++		Beamforming_Leave(pDM_Odm, RA);
++		pEntry->bBeamformingInProgress = FALSE;
++		return FALSE;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s  Idx %d\n", __func__, Idx));
++	return TRUE;
++}
++
++
++BOOLEAN
++BeamformingStart_SW(
++	IN	PVOID		pDM_VOID,
++	u1Byte			Idx,
++	u1Byte			Mode, 
++	CHANNEL_WIDTH	BW
++	)
++{
++	pu1Byte					RA = NULL;
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMEE_ENTRY	pEntry;
++	BOOLEAN					ret = TRUE;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++
++	if (pBeamInfo->is_mu_sounding) {
++		pBeamInfo->is_mu_sounding_in_progress = TRUE;
++		pEntry = &(pBeamInfo->BeamformeeEntry[Idx]);
++		RA = pEntry->MacAddr;
++
++	} else {
++		pEntry = &(pBeamInfo->BeamformeeEntry[Idx]);
++
++		if (pEntry->bUsed == FALSE) {
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("Skip Beamforming, no entry for Idx =%d\n", Idx));
++			pEntry->bBeamformingInProgress = FALSE;
++			return FALSE;
++		} else {
++			if (pEntry->bBeamformingInProgress) {
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("bBeamformingInProgress, skip...\n"));
++				return FALSE;
++			}
++
++			pEntry->bBeamformingInProgress = TRUE;
++			RA = pEntry->MacAddr;
++			
++			if (Mode == SOUNDING_SW_HT_TIMER || Mode == SOUNDING_HW_HT_TIMER || Mode == SOUNDING_AUTO_HT_TIMER) {	
++				if (!(pEntry->BeamformEntryCap & BEAMFORMER_CAP_HT_EXPLICIT)) {
++					pEntry->bBeamformingInProgress = FALSE;
++					ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Return by not support BEAMFORMER_CAP_HT_EXPLICIT <==\n", __func__));
++					return FALSE;
++				}
++			} else if (Mode == SOUNDING_SW_VHT_TIMER || Mode == SOUNDING_HW_VHT_TIMER || Mode == SOUNDING_AUTO_VHT_TIMER) {
++				if (!(pEntry->BeamformEntryCap & BEAMFORMER_CAP_VHT_SU)) {
++					pEntry->bBeamformingInProgress = FALSE;
++					ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Return by not support BEAMFORMER_CAP_VHT_SU <==\n", __func__));
++					return FALSE;
++				}
++			}
++			if (pEntry->BeamformEntryState != BEAMFORMING_ENTRY_STATE_INITIALIZED && pEntry->BeamformEntryState != BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++				pEntry->bBeamformingInProgress = FALSE;
++				ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Return by incorrect BeamformEntryState(%d) <==\n", __func__, pEntry->BeamformEntryState));
++				return FALSE;
++			} else {
++				pEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_PROGRESSING;
++				pEntry->bSound = TRUE;
++			}
++		}
++
++		pBeamInfo->BeamformeeCurIdx = Idx;
++	}
++	
++	/*2014.12.22 Luke: Need to be checked*/
++	/*GET_TXBF_INFO(Adapter)->fTxbfSet(Adapter, TXBF_SET_SOUNDING_STATUS, (pu1Byte)&Idx);*/
++
++	if (Mode == SOUNDING_SW_HT_TIMER || Mode == SOUNDING_HW_HT_TIMER || Mode == SOUNDING_AUTO_HT_TIMER)
++		ret = Beamforming_SendHTNDPAPacket(pDM_Odm, RA , BW, NORMAL_QUEUE);	
++	else
++		ret = Beamforming_SendVHTNDPAPacket(pDM_Odm, RA , pEntry->AID, BW, NORMAL_QUEUE);
++
++	if (ret == FALSE) {
++		Beamforming_Leave(pDM_Odm, RA);
++		pEntry->bBeamformingInProgress = FALSE;
++		return FALSE;
++	}
++
++	
++	/*--------------------------
++	// Send BF Report Poll for MU BF
++	--------------------------*/
++#ifdef SUPPORT_MU_BF
++#if (SUPPORT_MU_BF == 1)
++{
++	u1Byte				idx, PollSTACnt = 0;
++	BOOLEAN				bGetFirstBFee = FALSE;
++	
++	if (pBeamInfo->beamformee_mu_cnt > 1) { /* More than 1 MU STA*/
++	
++		for (idx = 0; idx < BEAMFORMEE_ENTRY_NUM; idx++) {
++			pEntry = &(pBeamInfo->BeamformeeEntry[idx]);
++			if (pEntry->is_mu_sta) {
++				if (bGetFirstBFee) {
++					PollSTACnt++;
++					if (PollSTACnt == (pBeamInfo->beamformee_mu_cnt - 1))/* The last STA*/
++						SendSWVHTBFReportPoll(pDM_Odm, pEntry->MacAddr, TRUE);
++					else
++						SendSWVHTBFReportPoll(pDM_Odm, pEntry->MacAddr, FALSE);
++				} else {
++					bGetFirstBFee = TRUE;
++				}
++			}
++		}
++	}
++}
++#endif
++#endif
++	return TRUE;
++}
++
++
++BOOLEAN
++BeamformingStart_FW(
++	IN PVOID		pDM_VOID,
++	u1Byte			Idx
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMEE_ENTRY	pEntry;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++
++	pEntry = &(pBeamInfo->BeamformeeEntry[Idx]);
++	if (pEntry->bUsed == FALSE) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("Skip Beamforming, no entry for Idx =%d\n", Idx));
++		return FALSE;
++	}
++
++	pEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_PROGRESSING;
++	pEntry->bSound = TRUE;
++	HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_FW_NDPA, (pu1Byte)&Idx);
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] End, Idx=0x%X\n", __func__, Idx));
++	return TRUE;
++}
++
++VOID
++Beamforming_CheckSoundingSuccess(
++	IN PVOID			pDM_VOID,
++	BOOLEAN			Status	
++)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMEE_ENTRY	pEntry = &(pBeamInfo->BeamformeeEntry[pBeamInfo->BeamformeeCurIdx]);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[David]@%s Start!\n", __func__));
++
++	if (Status == 1) {
++		if (pEntry->LogStatusFailCnt == 21)
++			Beamforming_DymPeriod(pDM_Odm, Status);
++		pEntry->LogStatusFailCnt = 0;
++	} else if (pEntry->LogStatusFailCnt <= 20) {
++		pEntry->LogStatusFailCnt++;
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s LogStatusFailCnt %d\n", __func__, pEntry->LogStatusFailCnt));
++	}
++	if (pEntry->LogStatusFailCnt > 20) {
++		pEntry->LogStatusFailCnt = 21;
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s LogStatusFailCnt > 20, Stop SOUNDING\n", __func__));
++		Beamforming_DymPeriod(pDM_Odm, Status);
++	}
++}
++
++VOID
++phydm_Beamforming_End_SW(
++	IN PVOID		pDM_VOID,
++	BOOLEAN			Status	
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO 	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pEntry = &(pBeamInfo->BeamformeeEntry[pBeamInfo->BeamformeeCurIdx]);
++
++	if (pBeamInfo->is_mu_sounding) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: MU sounding done\n", __func__));
++		pBeamInfo->is_mu_sounding_in_progress = FALSE;
++		HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_STATUS, (pu1Byte)&(pBeamInfo->BeamformeeCurIdx));
++	} else {
++		if (pEntry->BeamformEntryState != BEAMFORMING_ENTRY_STATE_PROGRESSING) {
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] BeamformStatus %d\n", __func__, pEntry->BeamformEntryState));
++			return;
++		}
++
++		if ((pDM_Odm->TxBfDataRate >= ODM_RATEVHTSS3MCS7) && (pDM_Odm->TxBfDataRate <= ODM_RATEVHTSS3MCS9) && (pBeamInfo->snding3SS == FALSE)) {
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] VHT3SS 7,8,9, do not apply V matrix.\n", __func__));
++			pEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_INITIALIZED;
++			HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_STATUS, (pu1Byte)&(pBeamInfo->BeamformeeCurIdx));
++		} else if (Status == 1) {
++			pEntry->LogStatusFailCnt = 0;
++			pEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_PROGRESSED;
++			HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_STATUS, (pu1Byte)&(pBeamInfo->BeamformeeCurIdx));
++		} else {
++			pEntry->LogStatusFailCnt++;
++			pEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_INITIALIZED;
++			HalComTxbf_Set(pDM_Odm, TXBF_SET_TX_PATH_RESET, (pu1Byte)&(pBeamInfo->BeamformeeCurIdx));
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] LogStatusFailCnt %d\n", __func__, pEntry->LogStatusFailCnt));
++		}
++		
++		if (pEntry->LogStatusFailCnt > 50) {
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s LogStatusFailCnt > 50, Stop SOUNDING\n", __func__));
++			pEntry->bSound = FALSE;
++			Beamforming_DeInitEntry(pDM_Odm, pEntry->MacAddr); 
++
++			/*Modified by David - Every action of deleting entry should follow by Notify*/
++			phydm_Beamforming_Notify(pDM_Odm);
++		}	
++		
++		pEntry->bBeamformingInProgress = FALSE;
++	}
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: Status=%d\n", __func__, Status));
++}	
++
++
++VOID
++Beamforming_TimerCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN PVOID			pDM_VOID
++#elif(DM_ODM_SUPPORT_TYPE == ODM_CE)
++	IN PVOID            pContext
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER					Adapter = pDM_Odm->Adapter;
++#elif(DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PADAPTER					Adapter = (PADAPTER)pContext;
++	PHAL_DATA_TYPE				pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T					pDM_Odm = &pHalData->odmpriv;
++#endif
++	BOOLEAN						ret = FALSE;
++	PRT_BEAMFORMING_INFO		pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMEE_ENTRY		pEntry = &(pBeamInfo->BeamformeeEntry[pBeamInfo->BeamformeeCurIdx]);
++	PRT_SOUNDING_INFO			pSoundInfo = &(pBeamInfo->SoundingInfo);
++	BOOLEAN					bBeamformingInProgress;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	if (pBeamInfo->is_mu_sounding)
++		bBeamformingInProgress = pBeamInfo->is_mu_sounding_in_progress;
++	else
++		bBeamformingInProgress = pEntry->bBeamformingInProgress;
++
++	if (bBeamformingInProgress) {
++	 	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("bBeamformingInProgress, reset it\n"));
++		phydm_Beamforming_End_SW(pDM_Odm, 0);
++	 }
++
++	ret = phydm_Beamforming_SelectBeamEntry(pDM_Odm, pBeamInfo);
++#if (SUPPORT_MU_BF == 1)
++	if (ret && pBeamInfo->beamformee_mu_cnt > 1)
++		ret = 1;
++	else
++		ret = 0;
++#endif
++	if (ret)
++		ret = BeamformingStart_SW(pDM_Odm, pSoundInfo->SoundIdx, pSoundInfo->SoundMode, pSoundInfo->SoundBW);
++	else
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s, Error value return from BeamformingStart_V2\n", __func__));
++
++	if ((pBeamInfo->beamformee_su_cnt != 0) || (pBeamInfo->beamformee_mu_cnt > 1)) {
++		if (pSoundInfo->SoundMode == SOUNDING_SW_VHT_TIMER || pSoundInfo->SoundMode == SOUNDING_SW_HT_TIMER)
++			ODM_SetTimer(pDM_Odm, &pBeamInfo->BeamformingTimer, pSoundInfo->SoundPeriod);
++		else {
++			u4Byte	val = (pSoundInfo->SoundPeriod << 16) | HAL_TIMER_TXBF;
++			Adapter->HalFunc.SetHwRegHandler(Adapter, HW_VAR_HW_REG_TIMER_RESTART, (pu1Byte)(&val));
++		}
++	}
++}
++
++
++VOID
++Beamforming_SWTimerCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PRT_TIMER		pTimer
++#elif(DM_ODM_SUPPORT_TYPE == ODM_CE)
++	void *FunctionContext
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = (PADAPTER)pTimer->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++	Beamforming_TimerCallback(pDM_Odm);
++#elif(DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)FunctionContext;
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++	if (Adapter->net_closed == TRUE)
++		return;
++	rtw_run_in_thread_cmd(Adapter, Beamforming_TimerCallback, Adapter);
++#endif
++	
++}
++
++
++VOID
++phydm_Beamforming_Init(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO 		pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMING_OID_INFO	pBeamOidInfo = &(pBeamInfo->BeamformingOidInfo);
++	
++	pBeamOidInfo->SoundOidMode = SOUNDING_STOP_OID_TIMER;
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Mode (%d)\n", __func__, pBeamOidInfo->SoundOidMode));
++
++	pBeamInfo->beamformee_su_cnt = 0;
++	pBeamInfo->beamformer_su_cnt = 0;
++	pBeamInfo->beamformee_mu_cnt = 0;
++	pBeamInfo->beamformer_mu_cnt = 0;
++	pBeamInfo->beamformee_mu_reg_maping = 0;
++	pBeamInfo->mu_ap_index = 0;
++	pBeamInfo->is_mu_sounding = FALSE;
++	pBeamInfo->FirstMUBFeeIndex = 0xFF;
++	pBeamInfo->applyVmatrix = TRUE;
++	pBeamInfo->snding3SS = FALSE;
++	
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	pBeamInfo->SourceAdapter = pDM_Odm->Adapter;
++#endif
++	halComTxbf_beamformInit(pDM_Odm);
++}	
++
++
++BOOLEAN
++phydm_actingDetermine(
++	IN PVOID			pDM_VOID,
++	IN PHYDM_ACTING_TYPE	type
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	BOOLEAN		ret = FALSE;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER	Adapter = pDM_Odm->BeamformingInfo.SourceAdapter;
++#else
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	if (type == PhyDM_ACTING_AS_AP)
++		ret = ACTING_AS_AP(Adapter);
++	else if (type == PhyDM_ACTING_AS_IBSS)
++		ret = ACTING_AS_IBSS(Adapter);
++#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++	struct mlme_priv			*pmlmepriv = &(Adapter->mlmepriv);
++
++	if (type == PhyDM_ACTING_AS_AP)
++		ret = check_fwstate(pmlmepriv, WIFI_AP_STATE);
++	else if (type == PhyDM_ACTING_AS_IBSS)
++		ret = check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) || check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++#endif
++
++	return ret;
++
++}
++
++VOID
++Beamforming_Enter(
++	IN PVOID			pDM_VOID,
++	IN u2Byte		staIdx
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			BFerBFeeIdx = 0xff;
++	
++	if (Beamforming_InitEntry(pDM_Odm, staIdx, &BFerBFeeIdx))
++		HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_ENTER, (pu1Byte)&BFerBFeeIdx);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] End!\n", __func__));
++}
++
++
++VOID
++Beamforming_Leave(
++	IN PVOID			pDM_VOID,
++	pu1Byte			RA
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (RA != NULL) {
++		Beamforming_DeInitEntry(pDM_Odm, RA);
++		phydm_Beamforming_Notify(pDM_Odm);
++	}
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] End!!\n", __func__));
++}
++
++#if 0
++//Nobody calls this function
++VOID
++phydm_Beamforming_SetTxBFen(
++	IN	PVOID		pDM_VOID,
++	u1Byte			MacId,
++	BOOLEAN			bTxBF
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte					Idx = 0;
++	PRT_BEAMFORMEE_ENTRY	pEntry;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	pEntry = phydm_Beamforming_GetEntryByMacId(pDM_Odm, MacId, &Idx);
++
++	if(pEntry == NULL)
++		return;
++	else
++		pEntry->bTxBF = bTxBF;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s MacId %d TxBF %d\n", __func__, pEntry->MacId, pEntry->bTxBF));
++
++	phydm_Beamforming_Notify(pDM_Odm);
++}
++#endif
++
++BEAMFORMING_CAP
++phydm_Beamforming_GetBeamCap(
++	IN PVOID						pDM_VOID,
++	IN PRT_BEAMFORMING_INFO 	pBeamInfo
++	)
++{
++	u1Byte					i;
++	BOOLEAN 				bSelfBeamformer = FALSE;
++	BOOLEAN 				bSelfBeamformee = FALSE;
++	RT_BEAMFORMEE_ENTRY	BeamformeeEntry;
++	RT_BEAMFORMER_ENTRY	BeamformerEntry;
++	BEAMFORMING_CAP 		BeamformCap = BEAMFORMING_CAP_NONE;
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	for (i = 0; i < BEAMFORMEE_ENTRY_NUM; i++) {
++		BeamformeeEntry = pBeamInfo->BeamformeeEntry[i];
++
++		if (BeamformeeEntry.bUsed) {
++			bSelfBeamformer = TRUE;
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] BFee entry %d bUsed=TRUE\n", __func__, i));
++			break;
++		}
++	}
++
++	for (i = 0; i < BEAMFORMER_ENTRY_NUM; i++) {
++		BeamformerEntry = pBeamInfo->BeamformerEntry[i];
++
++		if (BeamformerEntry.bUsed) {
++			bSelfBeamformee = TRUE;
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]: BFer entry %d bUsed=TRUE\n", __func__, i));
++			break;
++		}
++	}
++
++	if (bSelfBeamformer)
++		BeamformCap = (BEAMFORMING_CAP)(BeamformCap | BEAMFORMER_CAP);
++	if (bSelfBeamformee)
++		BeamformCap = (BEAMFORMING_CAP)(BeamformCap | BEAMFORMEE_CAP);
++
++	return BeamformCap;
++}
++
++
++BOOLEAN
++BeamformingControl_V1(
++	IN PVOID			pDM_VOID,
++	pu1Byte			RA,
++	u1Byte			AID,
++	u1Byte			Mode, 
++	CHANNEL_WIDTH	BW,
++	u1Byte			Rate
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	BOOLEAN		ret = TRUE;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("AID (%d), Mode (%d), BW (%d)\n", AID, Mode, BW));
++
++	switch (Mode) {	
++	case 0:
++	ret = BeamformingStart_V1(pDM_Odm, RA, 0, BW, Rate);
++	break;
++	case 1:
++	ret = BeamformingStart_V1(pDM_Odm, RA, 1, BW, Rate);
++	break;
++	case 2:
++	phydm_Beamforming_NDPARate(pDM_Odm, BW, Rate);
++	ret = Beamforming_SendVHTNDPAPacket(pDM_Odm, RA, AID, BW, NORMAL_QUEUE);
++	break;
++	case 3:
++	phydm_Beamforming_NDPARate(pDM_Odm, BW, Rate);
++	ret = Beamforming_SendHTNDPAPacket(pDM_Odm, RA, BW, NORMAL_QUEUE);
++	break;
++	}
++	return ret;
++}
++
++/*Only OID uses this function*/
++BOOLEAN
++phydm_BeamformingControl_V2(
++	IN	PVOID		pDM_VOID,
++	u1Byte			Idx,
++	u1Byte			Mode, 
++	CHANNEL_WIDTH	BW,
++	u2Byte			Period
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO		pBeamInfo =  &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMING_OID_INFO	pBeamOidInfo = &(pBeamInfo->BeamformingOidInfo);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Start!\n", __func__));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("Idx (%d), Mode (%d), BW (%d), Period (%d)\n", Idx, Mode, BW, Period));
++
++	pBeamOidInfo->SoundOidIdx = Idx;
++	pBeamOidInfo->SoundOidMode = (SOUNDING_MODE) Mode;
++	pBeamOidInfo->SoundOidBW = BW;
++	pBeamOidInfo->SoundOidPeriod = Period;
++
++	phydm_Beamforming_Notify(pDM_Odm);
++
++	return TRUE;
++}
++
++
++VOID
++phydm_Beamforming_Watchdog(
++	IN	PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO 		pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_TRACE, ("%s Start!\n", __func__));
++
++	if (pBeamInfo->beamformee_su_cnt == 0)
++		return;
++
++	Beamforming_DymPeriod(pDM_Odm,0);
++	phydm_Beamforming_DymNDPARate(pDM_Odm);
++
++}
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_beamforming.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_beamforming.h
+new file mode 100644
+index 0000000..c844464
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_beamforming.h
+@@ -0,0 +1,379 @@
++#ifndef __INC_PHYDM_BEAMFORMING_H
++#define __INC_PHYDM_BEAMFORMING_H
++
++#ifndef BEAMFORMING_SUPPORT
++#define	BEAMFORMING_SUPPORT		0
++#endif
++
++/*Beamforming Related*/
++#include "txbf/halcomtxbf.h"
++#include "txbf/haltxbfjaguar.h"
++#include "txbf/haltxbf8192e.h"
++#include "txbf/haltxbf8814a.h"
++#include "txbf/haltxbf8822b.h"
++#include "txbf/haltxbfinterface.h"
++
++#if (BEAMFORMING_SUPPORT == 1)
++
++#define MAX_BEAMFORMEE_SU	2
++#define MAX_BEAMFORMER_SU	2
++#if (RTL8822B_SUPPORT == 1)
++#define MAX_BEAMFORMEE_MU	6
++#define MAX_BEAMFORMER_MU	1
++#else
++#define MAX_BEAMFORMEE_MU	0
++#define MAX_BEAMFORMER_MU	0
++#endif
++
++#define BEAMFORMEE_ENTRY_NUM		(MAX_BEAMFORMEE_SU + MAX_BEAMFORMEE_MU)
++#define BEAMFORMER_ENTRY_NUM		(MAX_BEAMFORMER_SU + MAX_BEAMFORMER_MU)
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++/*for different naming between WIN and CE*/
++#define BEACON_QUEUE	BCN_QUEUE_INX
++#define NORMAL_QUEUE	MGT_QUEUE_INX
++#define RT_DISABLE_FUNC RTW_DISABLE_FUNC
++#define RT_ENABLE_FUNC RTW_ENABLE_FUNC
++#endif
++
++typedef enum _BEAMFORMING_ENTRY_STATE {
++	BEAMFORMING_ENTRY_STATE_UNINITIALIZE, 
++	BEAMFORMING_ENTRY_STATE_INITIALIZEING, 
++	BEAMFORMING_ENTRY_STATE_INITIALIZED, 
++	BEAMFORMING_ENTRY_STATE_PROGRESSING, 
++	BEAMFORMING_ENTRY_STATE_PROGRESSED 
++} BEAMFORMING_ENTRY_STATE, *PBEAMFORMING_ENTRY_STATE;
++
++
++typedef enum _BEAMFORMING_NOTIFY_STATE {
++	BEAMFORMING_NOTIFY_NONE,
++	BEAMFORMING_NOTIFY_ADD,
++	BEAMFORMING_NOTIFY_DELETE,
++	BEAMFORMEE_NOTIFY_ADD_SU,
++	BEAMFORMEE_NOTIFY_DELETE_SU,
++	BEAMFORMEE_NOTIFY_ADD_MU,
++	BEAMFORMEE_NOTIFY_DELETE_MU,
++	BEAMFORMING_NOTIFY_RESET
++} BEAMFORMING_NOTIFY_STATE, *PBEAMFORMING_NOTIFY_STATE;
++
++typedef enum _BEAMFORMING_CAP {
++	BEAMFORMING_CAP_NONE = 0x0,
++	BEAMFORMER_CAP_HT_EXPLICIT = BIT1, 
++	BEAMFORMEE_CAP_HT_EXPLICIT = BIT2, 
++	BEAMFORMER_CAP_VHT_SU = BIT5,			/* Self has er Cap, because Reg er  & peer ee */
++	BEAMFORMEE_CAP_VHT_SU = BIT6,			/* Self has ee Cap, because Reg ee & peer er */
++	BEAMFORMER_CAP_VHT_MU = BIT7,			/* Self has er Cap, because Reg er  & peer ee */
++	BEAMFORMEE_CAP_VHT_MU = BIT8,			/* Self has ee Cap, because Reg ee & peer er */
++	BEAMFORMER_CAP = BIT9,
++	BEAMFORMEE_CAP = BIT10,
++}BEAMFORMING_CAP, *PBEAMFORMING_CAP;
++
++
++typedef enum _SOUNDING_MODE {
++	SOUNDING_SW_VHT_TIMER = 0x0,
++	SOUNDING_SW_HT_TIMER = 0x1, 
++	SOUNDING_STOP_All_TIMER = 0x2, 
++	SOUNDING_HW_VHT_TIMER = 0x3,			
++	SOUNDING_HW_HT_TIMER = 0x4,
++	SOUNDING_STOP_OID_TIMER = 0x5, 
++	SOUNDING_AUTO_VHT_TIMER = 0x6,
++	SOUNDING_AUTO_HT_TIMER = 0x7,
++	SOUNDING_FW_VHT_TIMER = 0x8,
++	SOUNDING_FW_HT_TIMER = 0x9,
++}SOUNDING_MODE, *PSOUNDING_MODE;
++
++typedef struct _RT_BEAMFORM_STAINFO {
++	pu1Byte						RA; 
++	u2Byte						AID; 
++	u2Byte						MacID;
++	u1Byte						MyMacAddr[6];
++	WIRELESS_MODE				WirelessMode;
++	CHANNEL_WIDTH				BW;
++	BEAMFORMING_CAP			BeamformCap;
++	u1Byte						HtBeamformCap;
++	u2Byte						VhtBeamformCap;
++	u1Byte						CurBeamform; 
++	u2Byte						CurBeamformVHT;
++} RT_BEAMFORM_STAINFO, *PRT_BEAMFORM_STAINFO;
++
++
++typedef struct _RT_BEAMFORMEE_ENTRY {
++	BOOLEAN bUsed;
++	BOOLEAN	bTxBF;
++	BOOLEAN bSound;
++	u2Byte	AID;				/*Used to construct AID field of NDPA packet.*/
++	u2Byte	MacId;				/*Used to Set Reg42C in IBSS mode. */
++	u2Byte	P_AID;				/*Used to fill Reg42C & Reg714 to compare with P_AID of Tx DESC. */
++	u2Byte	G_ID;				/*Used to fill Tx DESC*/
++	u1Byte	MyMacAddr[6];
++	u1Byte	MacAddr[6];			/*Used to fill Reg6E4 to fill Mac address of CSI report frame.*/
++	CHANNEL_WIDTH			SoundBW;		/*Sounding BandWidth*/
++	u2Byte					SoundPeriod;
++	BEAMFORMING_CAP			BeamformEntryCap;
++	BEAMFORMING_ENTRY_STATE	BeamformEntryState;	
++	BOOLEAN						bBeamformingInProgress;
++	/*u1Byte	LogSeq;									// Move to _RT_BEAMFORMER_ENTRY*/
++	/*u2Byte	LogRetryCnt:3;		// 0~4				// Move to _RT_BEAMFORMER_ENTRY*/
++	/*u2Byte	LogSuccessCnt:2;		// 0~2				// Move to _RT_BEAMFORMER_ENTRY*/
++	u2Byte	LogStatusFailCnt:5;	// 0~21
++	u2Byte	DefaultCSICnt:5;		// 0~21
++	u1Byte	CSIMatrix[327];
++	u2Byte	CSIMatrixLen;
++	u1Byte	NumofSoundingDim;
++	u1Byte	CompSteeringNumofBFer;
++	u1Byte	su_reg_index;
++	/*For MU-MIMO*/
++	BOOLEAN	is_mu_sta;
++	u1Byte	mu_reg_index;
++	u1Byte	gid_valid[8];
++	u1Byte	user_position[16];
++} RT_BEAMFORMEE_ENTRY, *PRT_BEAMFORMEE_ENTRY;
++
++typedef struct _RT_BEAMFORMER_ENTRY {
++	BOOLEAN 			bUsed;
++	/*P_AID of BFer entry is probably not used*/
++	u2Byte				P_AID;					/*Used to fill Reg42C & Reg714 to compare with P_AID of Tx DESC. */
++	u2Byte				G_ID;
++	u1Byte				MyMacAddr[6];
++	u1Byte				MacAddr[6];
++	BEAMFORMING_CAP		BeamformEntryCap;
++	u1Byte				NumofSoundingDim;
++	u1Byte				ClockResetTimes;		/*Modified by Jeffery @2015-04-10*/
++	u1Byte				PreLogSeq;				/*Modified by Jeffery @2015-03-30*/
++	u1Byte				LogSeq;					/*Modified by Jeffery @2014-10-29*/
++	u2Byte				LogRetryCnt:3;			/*Modified by Jeffery @2014-10-29*/
++	u2Byte				LogSuccess:2;			/*Modified by Jeffery @2014-10-29*/
++	u1Byte				su_reg_index;
++	 /*For MU-MIMO*/
++	BOOLEAN				is_mu_ap;
++	u1Byte				gid_valid[8];
++	u1Byte				user_position[16];
++	u2Byte				AID;
++} RT_BEAMFORMER_ENTRY, *PRT_BEAMFORMER_ENTRY;
++
++typedef struct _RT_SOUNDING_INFO {
++	u1Byte			SoundIdx;
++	CHANNEL_WIDTH	SoundBW;
++	SOUNDING_MODE	SoundMode; 
++	u2Byte			SoundPeriod;
++} RT_SOUNDING_INFO, *PRT_SOUNDING_INFO;
++
++
++
++typedef struct _RT_BEAMFORMING_OID_INFO {
++	u1Byte			SoundOidIdx;
++	CHANNEL_WIDTH	SoundOidBW;	
++	SOUNDING_MODE	SoundOidMode;
++	u2Byte			SoundOidPeriod;
++} RT_BEAMFORMING_OID_INFO, *PRT_BEAMFORMING_OID_INFO;
++
++
++typedef struct _RT_BEAMFORMING_INFO {
++	BEAMFORMING_CAP			BeamformCap;
++	RT_BEAMFORMEE_ENTRY		BeamformeeEntry[BEAMFORMEE_ENTRY_NUM];
++	RT_BEAMFORMER_ENTRY		BeamformerEntry[BEAMFORMER_ENTRY_NUM];
++	RT_BEAMFORM_STAINFO		BeamformSTAinfo;
++	u1Byte					BeamformeeCurIdx;
++	RT_TIMER					BeamformingTimer;
++	RT_TIMER					mu_timer;
++	RT_SOUNDING_INFO			SoundingInfo;
++	RT_BEAMFORMING_OID_INFO	BeamformingOidInfo;
++	HAL_TXBF_INFO			TxbfInfo;
++	u1Byte					SoundingSequence;
++	u1Byte					beamformee_su_cnt;
++	u1Byte					beamformer_su_cnt;
++	u4Byte					beamformee_su_reg_maping;
++	u4Byte					beamformer_su_reg_maping;
++	/*For MU-MINO*/
++	u1Byte					beamformee_mu_cnt;
++	u1Byte					beamformer_mu_cnt;
++	u4Byte					beamformee_mu_reg_maping;
++	u1Byte					mu_ap_index;
++	BOOLEAN					is_mu_sounding;
++	u1Byte					FirstMUBFeeIndex;
++	BOOLEAN					is_mu_sounding_in_progress;
++	BOOLEAN					dbg_disable_mu_tx;
++	BOOLEAN					applyVmatrix;
++	BOOLEAN					snding3SS;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER				SourceAdapter;
++#endif
++	/* Control register */
++	u4Byte					RegMUTxCtrl;		/* For USB/SDIO interfaces aync I/O  */
++} RT_BEAMFORMING_INFO, *PRT_BEAMFORMING_INFO;
++
++
++typedef struct _RT_NDPA_STA_INFO {
++	u2Byte	AID:12;	
++	u2Byte	FeedbackType:1;
++	u2Byte	NcIndex:3;	
++} RT_NDPA_STA_INFO, *PRT_NDPA_STA_INFO;
++
++typedef enum _PHYDM_ACTING_TYPE {
++	PhyDM_ACTING_AS_IBSS = 0,
++	PhyDM_ACTING_AS_AP = 1
++} PHYDM_ACTING_TYPE;
++
++
++BEAMFORMING_CAP
++phydm_Beamforming_GetEntryBeamCapByMacId(
++	IN	PVOID	pDM_VOID,
++	IN 	u1Byte 	MacId
++ );
++
++PRT_BEAMFORMEE_ENTRY
++phydm_Beamforming_GetBFeeEntryByAddr(
++	IN	PVOID		pDM_VOID,
++	IN	pu1Byte		RA,
++	OUT	pu1Byte		Idx
++	);
++
++PRT_BEAMFORMER_ENTRY
++phydm_Beamforming_GetBFerEntryByAddr(
++	IN	PVOID	pDM_VOID,
++	IN	pu1Byte	TA,
++	OUT	pu1Byte	Idx
++	);
++
++u1Byte
++Beamforming_GetHTNDPTxRate(
++	IN	PVOID	pDM_VOID,
++	u1Byte	CompSteeringNumofBFer
++);
++
++u1Byte
++Beamforming_GetVHTNDPTxRate(
++	IN	PVOID	pDM_VOID,
++	u1Byte	CompSteeringNumofBFer
++);
++
++VOID
++phydm_Beamforming_Notify(
++	IN	PVOID	pDM_VOID
++	);
++
++BOOLEAN
++phydm_actingDetermine(
++	IN PVOID		pDM_VOID,
++	IN	PHYDM_ACTING_TYPE	type
++	);
++
++VOID
++Beamforming_Enter(
++	IN PVOID		pDM_VOID,
++	IN u2Byte	staIdx
++	);
++
++VOID
++Beamforming_Leave(
++	IN PVOID		pDM_VOID,
++	pu1Byte			RA
++	);
++
++BOOLEAN
++BeamformingStart_FW(
++	IN PVOID			pDM_VOID,
++	u1Byte			Idx
++	);
++
++VOID
++Beamforming_CheckSoundingSuccess(
++	IN PVOID			pDM_VOID,
++	BOOLEAN			Status	
++);
++
++VOID
++phydm_Beamforming_End_SW(
++	IN PVOID		pDM_VOID,
++	BOOLEAN			Status	
++	);
++
++VOID
++Beamforming_TimerCallback(
++	IN PVOID			pDM_VOID
++	);
++
++VOID
++phydm_Beamforming_Init(
++	IN	PVOID		pDM_VOID
++	);
++
++
++
++BEAMFORMING_CAP
++phydm_Beamforming_GetBeamCap(
++	IN PVOID			pDM_VOID,
++	IN PRT_BEAMFORMING_INFO 	pBeamInfo
++	);
++
++
++BOOLEAN
++BeamformingControl_V1(
++	IN PVOID			pDM_VOID,
++	pu1Byte			RA,
++	u1Byte			AID,
++	u1Byte			Mode,
++	CHANNEL_WIDTH	BW,
++	u1Byte			Rate
++	);
++
++
++BOOLEAN
++phydm_BeamformingControl_V2(
++	IN	PVOID		pDM_VOID,
++	u1Byte			Idx,
++	u1Byte			Mode, 
++	CHANNEL_WIDTH	BW,
++	u2Byte			Period
++	);
++
++VOID
++phydm_Beamforming_Watchdog(
++	IN	PVOID		pDM_VOID
++	);
++
++VOID
++Beamforming_SWTimerCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PRT_TIMER		pTimer
++#elif(DM_ODM_SUPPORT_TYPE == ODM_CE)
++	void *FunctionContext
++#endif
++	);
++
++BOOLEAN
++Beamforming_SendHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW, 
++	IN	u1Byte			QIdx
++	);
++
++
++BOOLEAN
++Beamforming_SendVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW,
++	IN	u1Byte			QIdx
++	);
++
++#else
++#define Beamforming_GidPAid(Adapter, pTcb)
++#define	phydm_actingDetermine(pDM_Odm, type)	FALSE
++#define Beamforming_Enter(pDM_Odm, staIdx)
++#define Beamforming_Leave(pDM_Odm, RA)
++#define Beamforming_End_FW(pDMOdm)
++#define BeamformingControl_V1(pDM_Odm, RA, AID, Mode, BW, Rate)		TRUE
++#define BeamformingControl_V2(pDM_Odm, Idx, Mode, BW, Period)		TRUE
++#define phydm_Beamforming_End_SW(pDM_Odm, _Status)
++#define Beamforming_TimerCallback(pDM_Odm)
++#define phydm_Beamforming_Init(pDM_Odm)
++#define phydm_BeamformingControl_V2(pDM_Odm, _Idx, _Mode, _BW, _Period)	FALSE
++#define Beamforming_Watchdog(pDM_Odm)
++#define phydm_Beamforming_Watchdog(pDM_Odm)
++
++
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_ccx.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_ccx.c
+new file mode 100644
+index 0000000..7d81f22
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_ccx.c
+@@ -0,0 +1,400 @@
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++/*Set NHM period, threshold, disable ignore cca or not, disable ignore txon or not*/
++VOID
++phydm_NHMsetting(
++	IN		PVOID		pDM_VOID,
++	u1Byte	NHMsetting
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCCX_INFO	CCX_INFO = &pDM_Odm->DM_CCX_INFO;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++
++		if (NHMsetting == SET_NHM_SETTING){
++			
++			/*Set inexclude_cca, inexclude_txon*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT9, CCX_INFO->NHM_inexclude_cca);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT10, CCX_INFO->NHM_inexclude_txon);
++
++			/*Set NHM period*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCX_PERIOD_11AC, bMaskHWord, CCX_INFO->NHM_period);
++
++			/*Set NHM threshold*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte0, CCX_INFO->NHM_th[0]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte1, CCX_INFO->NHM_th[1]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte2, CCX_INFO->NHM_th[2]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte3, CCX_INFO->NHM_th[3]);		
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte0, CCX_INFO->NHM_th[4]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte1, CCX_INFO->NHM_th[5]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte2, CCX_INFO->NHM_th[6]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte3, CCX_INFO->NHM_th[7]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH8_11AC, bMaskByte0, CCX_INFO->NHM_th[8]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, bMaskByte2, CCX_INFO->NHM_th[9]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, bMaskByte3, CCX_INFO->NHM_th[10]);
++
++			/*CCX EN*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT8, CCX_EN);
++			
++		}
++		else if (NHMsetting == STORE_NHM_SETTING) {
++
++			/*Store pervious disable_ignore_cca, disable_ignore_txon*/
++			CCX_INFO->NHM_inexclude_cca_restore = (BOOLEAN)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT9);
++			CCX_INFO->NHM_inexclude_txon_restore = (BOOLEAN)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT10);
++
++			/*Store pervious NHM period*/
++			CCX_INFO->NHM_period_restore = (u2Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_CCX_PERIOD_11AC, bMaskHWord);
++
++			/*Store NHM threshold*/
++			CCX_INFO->NHM_th_restore[0] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte0);
++			CCX_INFO->NHM_th_restore[1] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte1);
++			CCX_INFO->NHM_th_restore[2] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte2);
++			CCX_INFO->NHM_th_restore[3] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte3);		
++			CCX_INFO->NHM_th_restore[4] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte0);
++			CCX_INFO->NHM_th_restore[5] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte1);
++			CCX_INFO->NHM_th_restore[6] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte2);
++			CCX_INFO->NHM_th_restore[7] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte3);
++			CCX_INFO->NHM_th_restore[8] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH8_11AC, bMaskByte0);
++			CCX_INFO->NHM_th_restore[9] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, bMaskByte2);
++			CCX_INFO->NHM_th_restore[10] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, bMaskByte3);
++		}
++		else if (NHMsetting == RESTORE_NHM_SETTING) {
++
++			/*Set disable_ignore_cca, disable_ignore_txon*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT9, CCX_INFO->NHM_inexclude_cca_restore);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT10, CCX_INFO->NHM_inexclude_txon_restore);
++
++			/*Set NHM period*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCX_PERIOD_11AC, bMaskHWord, CCX_INFO->NHM_period);
++
++			/*Set NHM threshold*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte0, CCX_INFO->NHM_th_restore[0]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte1, CCX_INFO->NHM_th_restore[1]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte2, CCX_INFO->NHM_th_restore[2]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11AC, bMaskByte3, CCX_INFO->NHM_th_restore[3]);		
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte0, CCX_INFO->NHM_th_restore[4]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte1, CCX_INFO->NHM_th_restore[5]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte2, CCX_INFO->NHM_th_restore[6]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11AC, bMaskByte3, CCX_INFO->NHM_th_restore[7]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH8_11AC, bMaskByte0, CCX_INFO->NHM_th_restore[8]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, bMaskByte2, CCX_INFO->NHM_th_restore[9]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, bMaskByte3, CCX_INFO->NHM_th_restore[10]);
++		}
++		else
++			return;
++	}
++
++	else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++
++		if (NHMsetting == SET_NHM_SETTING){
++		
++			/*Set disable_ignore_cca, disable_ignore_txon*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT9, CCX_INFO->NHM_inexclude_cca);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT10, CCX_INFO->NHM_inexclude_txon);
++
++			/*Set NHM period*/	
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCX_PERIOD_11N, bMaskHWord, CCX_INFO->NHM_period);
++
++			/*Set NHM threshold*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte0, CCX_INFO->NHM_th[0]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte1, CCX_INFO->NHM_th[1]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte2, CCX_INFO->NHM_th[2]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte3, CCX_INFO->NHM_th[3]);		
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte0, CCX_INFO->NHM_th[4]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte1, CCX_INFO->NHM_th[5]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte2, CCX_INFO->NHM_th[6]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte3, CCX_INFO->NHM_th[7]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH8_11N, bMaskByte0, CCX_INFO->NHM_th[8]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, bMaskByte2, CCX_INFO->NHM_th[9]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, bMaskByte3, CCX_INFO->NHM_th[10]);
++
++			/*CCX EN*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT8, CCX_EN);
++		}
++		else if (NHMsetting == STORE_NHM_SETTING) {
++
++			/*Store pervious disable_ignore_cca, disable_ignore_txon*/
++			CCX_INFO->NHM_inexclude_cca_restore = (BOOLEAN)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT9);
++			CCX_INFO->NHM_inexclude_txon_restore= (BOOLEAN)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT10);
++
++			/*Store pervious NHM period*/
++			CCX_INFO->NHM_period_restore= (u2Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_CCX_PERIOD_11N, bMaskHWord);
++
++			/*Store NHM threshold*/
++			CCX_INFO->NHM_th_restore[0] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte0);
++			CCX_INFO->NHM_th_restore[1] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte1);
++			CCX_INFO->NHM_th_restore[2] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte2);
++			CCX_INFO->NHM_th_restore[3] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte3);		
++			CCX_INFO->NHM_th_restore[4] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte0);
++			CCX_INFO->NHM_th_restore[5] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte1);
++			CCX_INFO->NHM_th_restore[6] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte2);
++			CCX_INFO->NHM_th_restore[7] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte3);
++			CCX_INFO->NHM_th_restore[8] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH8_11N, bMaskByte0);
++			CCX_INFO->NHM_th_restore[9] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, bMaskByte2);
++			CCX_INFO->NHM_th_restore[10] = (u1Byte)ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, bMaskByte3);			
++
++		}
++		else if (NHMsetting == RESTORE_NHM_SETTING) {
++
++			/*Set disable_ignore_cca, disable_ignore_txon*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT9, CCX_INFO->NHM_inexclude_cca_restore);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT10, CCX_INFO->NHM_inexclude_txon_restore);
++
++			/*Set NHM period*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCX_PERIOD_11N, bMaskHWord, CCX_INFO->NHM_period_restore);
++
++			/*Set NHM threshold*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte0, CCX_INFO->NHM_th_restore[0]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte1, CCX_INFO->NHM_th_restore[1]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte2, CCX_INFO->NHM_th_restore[2]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH3_TO_TH0_11N, bMaskByte3, CCX_INFO->NHM_th_restore[3]);		
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte0, CCX_INFO->NHM_th_restore[4]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte1, CCX_INFO->NHM_th_restore[5]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte2, CCX_INFO->NHM_th_restore[6]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH7_TO_TH4_11N, bMaskByte3, CCX_INFO->NHM_th_restore[7]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH8_11N, bMaskByte0, CCX_INFO->NHM_th_restore[8]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, bMaskByte2, CCX_INFO->NHM_th_restore[9]);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, bMaskByte3, CCX_INFO->NHM_th_restore[10]);
++		}
++		else
++			return;
++		
++	}
++}
++
++VOID
++phydm_NHMtrigger(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCCX_INFO		CCX_INFO = &pDM_Odm->DM_CCX_INFO;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++
++		/*Trigger NHM*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT1, 0);
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11AC, BIT1, 1);
++	}
++	else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++
++		/*Trigger NHM*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT1, 0);
++		ODM_SetBBReg(pDM_Odm, ODM_REG_NHM_TH9_TH10_11N, BIT1, 1);		
++	}
++}
++
++VOID
++phydm_getNHMresult(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			value32;
++	PCCX_INFO		CCX_INFO = &pDM_Odm->DM_CCX_INFO;
++	
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++
++			value32 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_CNT_11AC);
++			CCX_INFO->NHM_result[0] = (u1Byte)(value32 & bMaskByte0);
++			CCX_INFO->NHM_result[1] = (u1Byte)((value32 & bMaskByte1) >> 8);
++			CCX_INFO->NHM_result[2] = (u1Byte)((value32 & bMaskByte2) >> 16);
++			CCX_INFO->NHM_result[3] = (u1Byte)((value32 & bMaskByte3) >> 24);
++
++			value32 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_CNT7_TO_CNT4_11AC);
++			CCX_INFO->NHM_result[4] = (u1Byte)(value32 & bMaskByte0);
++			CCX_INFO->NHM_result[5] = (u1Byte)((value32 & bMaskByte1) >> 8);
++			CCX_INFO->NHM_result[6] = (u1Byte)((value32 & bMaskByte2) >> 16);
++			CCX_INFO->NHM_result[7] = (u1Byte)((value32 & bMaskByte3) >> 24);
++
++			value32 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_CNT11_TO_CNT8_11AC);
++			CCX_INFO->NHM_result[8] = (u1Byte)(value32 & bMaskByte0);
++			CCX_INFO->NHM_result[9] = (u1Byte)((value32 & bMaskByte1) >> 8);
++			CCX_INFO->NHM_result[10] = (u1Byte)((value32 & bMaskByte2) >> 16);
++			CCX_INFO->NHM_result[11] = (u1Byte)((value32 & bMaskByte3) >> 24);
++
++			/*Get NHM duration*/
++			value32 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_DUR_READY_11AC);
++			CCX_INFO->NHM_duration = (u2Byte)(value32 & bMaskLWord);
++			
++	}
++
++	else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++
++			value32 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_CNT_11N);
++			CCX_INFO->NHM_result[0] = (u1Byte)(value32 & bMaskByte0);
++			CCX_INFO->NHM_result[1] = (u1Byte)((value32 & bMaskByte1) >> 8);
++			CCX_INFO->NHM_result[2] = (u1Byte)((value32 & bMaskByte2) >> 16);
++			CCX_INFO->NHM_result[3] = (u1Byte)((value32 & bMaskByte3) >> 24);
++
++			value32 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_CNT7_TO_CNT4_11N);
++			CCX_INFO->NHM_result[4] = (u1Byte)(value32 & bMaskByte0);
++			CCX_INFO->NHM_result[5] = (u1Byte)((value32 & bMaskByte1) >> 8);
++			CCX_INFO->NHM_result[6] = (u1Byte)((value32 & bMaskByte2) >> 16);
++			CCX_INFO->NHM_result[7] = (u1Byte)((value32 & bMaskByte3) >> 24);
++
++			value32 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_CNT9_TO_CNT8_11N);
++			CCX_INFO->NHM_result[8] = (u1Byte)((value32 & bMaskByte2) >> 16);
++			CCX_INFO->NHM_result[9] = (u1Byte)((value32 & bMaskByte3) >> 24);
++
++			value32 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_CNT10_TO_CNT11_11N);
++			CCX_INFO->NHM_result[10] = (u1Byte)((value32 & bMaskByte2) >> 16);
++			CCX_INFO->NHM_result[11] = (u1Byte)((value32 & bMaskByte3) >> 24);
++
++			/*Get NHM duration*/
++			value32 = ODM_Read4Byte(pDM_Odm, ODM_REG_NHM_CNT10_TO_CNT11_11N);
++			CCX_INFO->NHM_duration = (u2Byte)(value32 & bMaskLWord);
++
++	}
++
++}
++
++BOOLEAN
++phydm_checkNHMready(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			value32 = 0;
++	u1Byte			i;
++	BOOLEAN			ret = FALSE;
++	
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_CLM_RESULT_11AC, bMaskDWord);
++		
++		for (i = 0; i < 200; i ++) {
++
++			ODM_delay_ms(1);
++			if (ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_DUR_READY_11AC, BIT17)) {
++				ret = 1;
++				break;
++			}
++		}
++	}
++	
++	else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_CLM_READY_11N, bMaskDWord);
++		
++		for (i = 0; i < 200; i ++) {
++
++			ODM_delay_ms(1);
++			if (ODM_GetBBReg(pDM_Odm, ODM_REG_NHM_DUR_READY_11AC, BIT17) ) {
++				ret = 1;
++				break;
++			}
++		}		
++	}
++	return ret;
++}
++
++VOID
++phydm_storeNHMsetting(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCCX_INFO	CCX_INFO = &pDM_Odm->DM_CCX_INFO;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++
++
++	}
++	else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++		
++
++		
++	}
++}
++
++VOID
++phydm_CLMsetting(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;		
++	PCCX_INFO	CCX_INFO = &pDM_Odm->DM_CCX_INFO;
++
++
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CCX_PERIOD_11AC, bMaskLWord, CCX_INFO->CLM_period);	/*4us sample 1 time*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CLM_11AC, BIT8, 0x1);										/*Enable CCX for CLM*/
++		
++	} else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CCX_PERIOD_11N, bMaskLWord, CCX_INFO->CLM_period);	/*4us sample 1 time*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CLM_11N, BIT8, 0x1);								/*Enable CCX for CLM*/	
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CCX, ODM_DBG_LOUD, ("[%s] : CLM period = %dus\n", __func__,  CCX_INFO->CLM_period*4));
++		
++}
++
++VOID
++phydm_CLMtrigger(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CLM_11AC, BIT0, 0x0);	/*Trigger CLM*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CLM_11AC, BIT0, 0x1);
++	} else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES) {
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CLM_11N, BIT0, 0x0);	/*Trigger CLM*/
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CLM_11N, BIT0, 0x1);
++	}
++}
++
++BOOLEAN
++phydm_checkCLMready(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			value32 = 0;
++	BOOLEAN			ret = FALSE;
++	
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_CLM_RESULT_11AC, bMaskDWord);				/*make sure CLM calc is ready*/
++	else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_CLM_READY_11N, bMaskDWord);				/*make sure CLM calc is ready*/
++
++	if ((pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) && (value32 & BIT16))
++		ret = TRUE;
++	else if ((pDM_Odm->SupportICType & ODM_IC_11N_SERIES) && (value32 & BIT17))
++		ret = TRUE;
++	else
++		ret = FALSE;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CCX, ODM_DBG_LOUD, ("[%s] : CLM ready = %d\n", __func__, ret));
++
++	return ret;
++}
++
++void
++phydm_getCLMresult(
++	IN		PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCCX_INFO	CCX_INFO = &pDM_Odm->DM_CCX_INFO;
++
++	u4Byte			value32 = 0;
++	u2Byte			results = 0;
++	
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_CLM_RESULT_11AC, bMaskDWord);				/*read CLM calc result*/
++	else if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_CLM_RESULT_11N, bMaskDWord);				/*read CLM calc result*/
++
++	CCX_INFO->CLM_result = (u2Byte)(value32 & bMaskLWord);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CCX, ODM_DBG_LOUD, ("[%s] : CLM result = %dus\n", __func__, CCX_INFO->CLM_result*4));
++	
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_ccx.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_ccx.h
+new file mode 100644
+index 0000000..18b0dd2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_ccx.h
+@@ -0,0 +1,102 @@
++#ifndef	__PHYDMCCX_H__
++#define    __PHYDMCCX_H__
++
++#define CCX_EN 1
++
++#define SET_NHM_SETTING 		0
++#define STORE_NHM_SETTING 		1
++#define RESTORE_NHM_SETTING 	2
++
++/*
++#define NHM_EXCLUDE_CCA 			0
++#define NHM_INCLUDE_CCA 			1
++#define NHM_EXCLUDE_TXON 			0
++#define NHM_INCLUDE_TXON			1
++*/
++
++typedef enum NHM_inexclude_cca {
++	NHM_EXCLUDE_CCA,
++	NHM_INCLUDE_CCA
++}NHM_INEXCLUDE_CCA;
++
++typedef enum NHM_inexclude_txon {
++	NHM_EXCLUDE_TXON,
++	NHM_INCLUDE_TXON
++}NHM_INEXCLUDE_TXON;
++
++
++typedef struct _CCX_INFO{
++
++	/*Settings*/
++	u1Byte					NHM_th[11];
++	u2Byte					NHM_period;				/* 4us per unit */
++	u2Byte					CLM_period;				/* 4us per unit */
++	NHM_INEXCLUDE_TXON		NHM_inexclude_txon;
++	NHM_INEXCLUDE_CCA		NHM_inexclude_cca;
++
++	/*Previous Settings*/
++	u1Byte					NHM_th_restore[11];
++	u2Byte					NHM_period_restore;				/* 4us per unit */
++	u2Byte					CLM_period_restore;				/* 4us per unit */
++	NHM_INEXCLUDE_TXON		NHM_inexclude_txon_restore;
++	NHM_INEXCLUDE_CCA		NHM_inexclude_cca_restore;
++	
++	/*Report*/
++	u1Byte		NHM_result[12];
++	u2Byte		NHM_duration;
++	u2Byte		CLM_result;
++
++
++	BOOLEAN		echo_NHM_en;
++	BOOLEAN		echo_CLM_en;
++	u1Byte		echo_IGI;
++	
++}CCX_INFO, *PCCX_INFO;
++
++/*NHM*/
++
++VOID
++phydm_NHMsetting(
++	IN		PVOID		pDM_VOID,
++	u1Byte	NHMsetting
++);
++
++VOID
++phydm_NHMtrigger(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++phydm_getNHMresult(
++	IN		PVOID		pDM_VOID
++);
++
++BOOLEAN
++phydm_checkNHMready(
++	IN		PVOID		pDM_VOID
++);
++
++/*CLM*/
++
++VOID
++phydm_CLMsetting(
++	IN		PVOID			pDM_VOID
++);
++
++VOID
++phydm_CLMtrigger(
++	IN		PVOID			pDM_VOID
++);
++
++BOOLEAN
++phydm_checkCLMready(
++	IN		PVOID			pDM_VOID
++);
++
++VOID
++phydm_getCLMresult(
++	IN		PVOID			pDM_VOID
++);
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_cfotracking.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_cfotracking.c
+new file mode 100644
+index 0000000..24bc9da
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_cfotracking.c
+@@ -0,0 +1,338 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++VOID
++odm_SetCrystalCap(
++	IN		PVOID					pDM_VOID,
++	IN		u1Byte					CrystalCap
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCFO_TRACKING				pCfoTrack = (PCFO_TRACKING)PhyDM_Get_Structure( pDM_Odm, PHYDM_CFOTRACK);
++
++	if(pCfoTrack->CrystalCap == CrystalCap)
++		return;
++
++	pCfoTrack->CrystalCap = CrystalCap;
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8188E | ODM_RTL8188F)) {
++		/* write 0x24[22:17] = 0x24[16:11] = CrystalCap */
++		CrystalCap = CrystalCap & 0x3F;
++		ODM_SetBBReg(pDM_Odm, REG_AFE_XTAL_CTRL, 0x007ff800, (CrystalCap|(CrystalCap << 6)));
++	} else if (pDM_Odm->SupportICType & ODM_RTL8812) {
++		/* write 0x2C[30:25] = 0x2C[24:19] = CrystalCap */
++		CrystalCap = CrystalCap & 0x3F;
++		ODM_SetBBReg(pDM_Odm, REG_MAC_PHY_CTRL, 0x7FF80000, (CrystalCap|(CrystalCap << 6)));
++	} else if ((pDM_Odm->SupportICType & (ODM_RTL8703B|ODM_RTL8723B|ODM_RTL8192E|ODM_RTL8821))) {
++		/* 0x2C[23:18] = 0x2C[17:12] = CrystalCap */
++		CrystalCap = CrystalCap & 0x3F;
++		ODM_SetBBReg(pDM_Odm, REG_MAC_PHY_CTRL, 0x00FFF000, (CrystalCap|(CrystalCap << 6)));	
++	}  else if (pDM_Odm->SupportICType & ODM_RTL8814A) {
++		/* write 0x2C[26:21] = 0x2C[20:15] = CrystalCap */
++		CrystalCap = CrystalCap & 0x3F;
++		ODM_SetBBReg(pDM_Odm, REG_MAC_PHY_CTRL, 0x07FF8000, (CrystalCap|(CrystalCap << 6)));
++	} else if (pDM_Odm->SupportICType & ODM_RTL8822B) {
++		/* write 0x24[30:25] = 0x28[6:1] = CrystalCap */
++		CrystalCap = CrystalCap & 0x3F;
++		ODM_SetBBReg(pDM_Odm, REG_AFE_XTAL_CTRL, 0x7e000000, CrystalCap);
++		ODM_SetBBReg(pDM_Odm, REG_AFE_PLL_CTRL, 0x7e, CrystalCap);
++	} else {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("odm_SetCrystalCap(): Use default setting.\n"));
++		ODM_SetBBReg(pDM_Odm, REG_MAC_PHY_CTRL, 0xFFF000, (CrystalCap|(CrystalCap << 6)));
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("odm_SetCrystalCap(): CrystalCap = 0x%x\n", CrystalCap));
++#endif
++}
++
++u1Byte
++odm_GetDefaultCrytaltalCap(
++	IN		PVOID					pDM_VOID
++)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte						CrystalCap = 0x20;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PADAPTER					Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE				*pHalData = GET_HAL_DATA(Adapter);
++
++	CrystalCap = pHalData->CrystalCap;
++#else
++	prtl8192cd_priv	priv		= pDM_Odm->priv;
++
++	if(priv->pmib->dot11RFEntry.xcap > 0)
++		CrystalCap = priv->pmib->dot11RFEntry.xcap;
++#endif
++
++	CrystalCap = CrystalCap & 0x3f;
++
++	return CrystalCap;
++}
++
++VOID
++odm_SetATCStatus(
++	IN		PVOID					pDM_VOID,
++	IN		BOOLEAN					ATCStatus
++)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCFO_TRACKING				pCfoTrack = (PCFO_TRACKING)PhyDM_Get_Structure( pDM_Odm, PHYDM_CFOTRACK);
++
++	if(pCfoTrack->bATCStatus == ATCStatus)
++		return;
++	
++	ODM_SetBBReg(pDM_Odm, ODM_REG(BB_ATC,pDM_Odm), ODM_BIT(BB_ATC,pDM_Odm), ATCStatus);
++	pCfoTrack->bATCStatus = ATCStatus;
++}
++
++BOOLEAN
++odm_GetATCStatus(
++	IN		PVOID					pDM_VOID
++)
++{
++	BOOLEAN						ATCStatus;
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ATCStatus = (BOOLEAN)ODM_GetBBReg(pDM_Odm, ODM_REG(BB_ATC,pDM_Odm), ODM_BIT(BB_ATC,pDM_Odm));
++	return ATCStatus;
++}
++
++VOID
++ODM_CfoTrackingReset(
++	IN		PVOID					pDM_VOID
++)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCFO_TRACKING				pCfoTrack = (PCFO_TRACKING)PhyDM_Get_Structure( pDM_Odm, PHYDM_CFOTRACK);
++
++	pCfoTrack->DefXCap = odm_GetDefaultCrytaltalCap(pDM_Odm);
++	pCfoTrack->bAdjust = TRUE;
++
++	if(pCfoTrack->CrystalCap > pCfoTrack->DefXCap)
++	{
++		odm_SetCrystalCap(pDM_Odm, pCfoTrack->CrystalCap - 1);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD,
++			("ODM_CfoTrackingReset(): approch default value (0x%x)\n", pCfoTrack->CrystalCap));
++	} else if (pCfoTrack->CrystalCap < pCfoTrack->DefXCap)
++	{
++		odm_SetCrystalCap(pDM_Odm, pCfoTrack->CrystalCap + 1);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD,
++			("ODM_CfoTrackingReset(): approch default value (0x%x)\n", pCfoTrack->CrystalCap));
++	}
++
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	odm_SetATCStatus(pDM_Odm, TRUE);
++	#endif
++}
++
++VOID
++ODM_CfoTrackingInit(
++	IN		PVOID					pDM_VOID
++)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCFO_TRACKING				pCfoTrack = (PCFO_TRACKING)PhyDM_Get_Structure( pDM_Odm, PHYDM_CFOTRACK);
++
++	pCfoTrack->DefXCap = pCfoTrack->CrystalCap = odm_GetDefaultCrytaltalCap(pDM_Odm);
++	pCfoTrack->bATCStatus = odm_GetATCStatus(pDM_Odm);
++	pCfoTrack->bAdjust = TRUE;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking_init()=========>\n"));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking_init(): bATCStatus = %d, CrystalCap = 0x%x\n", pCfoTrack->bATCStatus, pCfoTrack->DefXCap));
++
++#if RTL8822B_SUPPORT
++	/* Crystal cap. control by WiFi */
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		ODM_SetBBReg(pDM_Odm, 0x10, 0x40, 0x1);
++#endif
++}
++
++VOID
++ODM_CfoTracking(
++	IN		PVOID					pDM_VOID
++)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCFO_TRACKING				pCfoTrack = (PCFO_TRACKING)PhyDM_Get_Structure( pDM_Odm, PHYDM_CFOTRACK);
++	int							CFO_kHz_A, CFO_kHz_B, CFO_ave = 0;
++	int							CFO_ave_diff;
++	int							CrystalCap = (int)pCfoTrack->CrystalCap;
++	u1Byte						Adjust_Xtal = 1;
++
++	//4 Support ability
++	if(!(pDM_Odm->SupportAbility & ODM_BB_CFO_TRACKING))
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): Return: SupportAbility ODM_BB_CFO_TRACKING is disabled\n"));
++		return;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking()=========> \n"));
++
++	if(!pDM_Odm->bLinked || !pDM_Odm->bOneEntryOnly)
++	{	
++		//4 No link or more than one entry
++		ODM_CfoTrackingReset(pDM_Odm);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): Reset: bLinked = %d, bOneEntryOnly = %d\n", 
++			pDM_Odm->bLinked, pDM_Odm->bOneEntryOnly));
++	}
++	else
++	{
++		//3 1. CFO Tracking
++		//4 1.1 No new packet
++		if(pCfoTrack->packetCount == pCfoTrack->packetCount_pre)
++		{
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): packet counter doesn't change\n"));
++			return;
++		}
++		pCfoTrack->packetCount_pre = pCfoTrack->packetCount;
++	
++		//4 1.2 Calculate CFO
++		CFO_kHz_A =  (int)((pCfoTrack->CFO_tail[0] * 3125)  / 10)>>7; /* CFO_tail[1:0] is S(8,7),    (num_subcarrier>>7) x 312.5K = CFO value(K Hz)   */
++		CFO_kHz_B =  (int)((pCfoTrack->CFO_tail[1] * 3125)  / 10)>>7;
++		
++		if(pDM_Odm->RFType < ODM_2T2R)
++			CFO_ave = CFO_kHz_A;
++		else
++			CFO_ave = (int)(CFO_kHz_A + CFO_kHz_B) >> 1;
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): CFO_kHz_A = %dkHz, CFO_kHz_B = %dkHz, CFO_ave = %dkHz\n", 
++						CFO_kHz_A, CFO_kHz_B, CFO_ave));
++
++		//4 1.3 Avoid abnormal large CFO
++		CFO_ave_diff = (pCfoTrack->CFO_ave_pre >= CFO_ave)?(pCfoTrack->CFO_ave_pre - CFO_ave):(CFO_ave - pCfoTrack->CFO_ave_pre);
++		if(CFO_ave_diff > 20 && pCfoTrack->largeCFOHit == 0 && !pCfoTrack->bAdjust)
++		{
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): first large CFO hit\n"));
++			pCfoTrack->largeCFOHit = 1;
++			return;
++		}
++		else
++			pCfoTrack->largeCFOHit = 0;
++		pCfoTrack->CFO_ave_pre = CFO_ave;
++
++		//4 1.4 Dynamic Xtal threshold
++		if(pCfoTrack->bAdjust == FALSE)
++		{
++			if(CFO_ave > CFO_TH_XTAL_HIGH || CFO_ave < (-CFO_TH_XTAL_HIGH))
++				pCfoTrack->bAdjust = TRUE;
++		}
++		else
++		{
++			if(CFO_ave < CFO_TH_XTAL_LOW && CFO_ave > (-CFO_TH_XTAL_LOW))
++				pCfoTrack->bAdjust = FALSE;
++		}
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++		//4 1.5 BT case: Disable CFO tracking
++		if(pDM_Odm->bBtEnabled)
++		{
++			pCfoTrack->bAdjust = FALSE;
++			odm_SetCrystalCap(pDM_Odm, pCfoTrack->DefXCap);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): Disable CFO tracking for BT!!\n"));
++		}
++/*
++		//4 1.6 Big jump 
++		if(pCfoTrack->bAdjust)
++		{
++			if(CFO_ave > CFO_TH_XTAL_LOW)
++				Adjust_Xtal =  Adjust_Xtal + ((CFO_ave - CFO_TH_XTAL_LOW) >> 2);
++			else if(CFO_ave < (-CFO_TH_XTAL_LOW))
++				Adjust_Xtal =  Adjust_Xtal + ((CFO_TH_XTAL_LOW - CFO_ave) >> 2);
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): Crystal cap offset = %d\n", Adjust_Xtal));
++		}
++*/
++#endif
++		
++		//4 1.7 Adjust Crystal Cap.
++		if(pCfoTrack->bAdjust)
++		{
++			if(CFO_ave > CFO_TH_XTAL_LOW)
++				CrystalCap = CrystalCap + Adjust_Xtal;
++			else if(CFO_ave < (-CFO_TH_XTAL_LOW))
++				CrystalCap = CrystalCap - Adjust_Xtal;
++
++			if(CrystalCap > 0x3f)
++				CrystalCap = 0x3f;
++			else if (CrystalCap < 0)
++				CrystalCap = 0;
++
++			odm_SetCrystalCap(pDM_Odm, (u1Byte)CrystalCap);
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): Crystal cap = 0x%x, Default Crystal cap = 0x%x\n", 
++			pCfoTrack->CrystalCap, pCfoTrack->DefXCap));
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++		if(pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++			return;
++		
++		//3 2. Dynamic ATC switch
++		if(CFO_ave < CFO_TH_ATC && CFO_ave > -CFO_TH_ATC)
++		{
++			odm_SetATCStatus(pDM_Odm, FALSE);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): Disable ATC!!\n"));
++		}
++		else
++		{
++			odm_SetATCStatus(pDM_Odm, TRUE);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CFO_TRACKING, ODM_DBG_LOUD, ("ODM_CfoTracking(): Enable ATC!!\n"));
++		}
++#endif
++	}
++}
++
++VOID
++ODM_ParsingCFO(
++	IN		PVOID			pDM_VOID,
++	IN		PVOID			pPktinfo_VOID,
++	IN		s1Byte* 			pcfotail
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_PACKET_INFO_T		pPktinfo = (PODM_PACKET_INFO_T)pPktinfo_VOID;
++	PCFO_TRACKING			pCfoTrack = (PCFO_TRACKING)PhyDM_Get_Structure( pDM_Odm, PHYDM_CFOTRACK);
++	u1Byte					i;
++
++	if(!(pDM_Odm->SupportAbility & ODM_BB_CFO_TRACKING))
++		return;
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	if(pPktinfo->bPacketMatchBSSID)
++#else
++	if(pPktinfo->StationID != 0)
++#endif
++	{				
++		//3 Update CFO report for path-A & path-B
++		// Only paht-A and path-B have CFO tail and short CFO
++		for(i = ODM_RF_PATH_A; i <= ODM_RF_PATH_B; i++)   
++		{
++			pCfoTrack->CFO_tail[i] = (int)pcfotail[i];
++	 	}
++
++		//3 Update packet counter
++		if(pCfoTrack->packetCount == 0xffffffff)
++			pCfoTrack->packetCount = 0;
++		else
++	 		pCfoTrack->packetCount++;
++	}
++}
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_cfotracking.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_cfotracking.h
+new file mode 100644
+index 0000000..dbcbc1a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_cfotracking.h
+@@ -0,0 +1,68 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef	__PHYDMCFOTRACK_H__
++#define    __PHYDMCFOTRACK_H__
++
++#define CFO_TRACKING_VERSION	"1.4" /*2015.10.01	Stanley, Modify for 8822B*/
++
++#define		CFO_TH_XTAL_HIGH			20			// kHz
++#define		CFO_TH_XTAL_LOW			10			// kHz
++#define		CFO_TH_ATC					80			// kHz
++
++typedef struct _CFO_TRACKING_
++{
++	BOOLEAN			bATCStatus;
++	BOOLEAN			largeCFOHit;
++	BOOLEAN			bAdjust;
++	u1Byte			CrystalCap;
++	u1Byte			DefXCap;
++	int				CFO_tail[2];
++	int				CFO_ave_pre;
++	u4Byte			packetCount;
++	u4Byte			packetCount_pre;
++
++	BOOLEAN			bForceXtalCap;
++	BOOLEAN			bReset;
++}CFO_TRACKING, *PCFO_TRACKING;
++
++VOID
++ODM_CfoTrackingReset(
++	IN		PVOID					pDM_VOID
++);
++
++VOID
++ODM_CfoTrackingInit(
++	IN		PVOID					pDM_VOID
++);
++
++VOID
++ODM_CfoTracking(
++	IN		PVOID					pDM_VOID
++);
++
++VOID
++ODM_ParsingCFO(
++	IN		PVOID					pDM_VOID,
++	IN		PVOID					pPktinfo_VOID,
++	IN     	s1Byte* 					pcfotail
++);
++
++#endif
+\ No newline at end of file
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_debug.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_debug.c
+new file mode 100644
+index 0000000..6d6ea2e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_debug.c
+@@ -0,0 +1,2726 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++VOID
++PHYDM_InitDebugSetting(
++	IN		PDM_ODM_T		pDM_Odm
++)
++{
++	pDM_Odm->DebugLevel = ODM_DBG_TRACE;
++
++	pDM_Odm->DebugComponents			=
++		\
++#if DBG
++/*BB Functions*/
++/*									ODM_COMP_DIG					|*/
++/*									ODM_COMP_RA_MASK				|*/
++/*									ODM_COMP_DYNAMIC_TXPWR			|*/
++/*									ODM_COMP_FA_CNT				|*/
++/*									ODM_COMP_RSSI_MONITOR			|*/
++/*									ODM_COMP_SNIFFER				|*/
++/*									ODM_COMP_ANT_DIV				|*/
++/*									ODM_COMP_NOISY_DETECT			|*/
++/*									ODM_COMP_RATE_ADAPTIVE			|*/
++/*									ODM_COMP_PATH_DIV				|*/
++/*									ODM_COMP_DYNAMIC_PRICCA		|*/
++/*									ODM_COMP_MP					|*/
++/*									ODM_COMP_CFO_TRACKING			|*/
++/*									ODM_COMP_ACS					|*/
++/*									PHYDM_COMP_ADAPTIVITY			|*/
++/*									PHYDM_COMP_RA_DBG				|*/
++/*									PHYDM_COMP_TXBF					|*/
++
++/*MAC Functions*/
++/*									ODM_COMP_EDCA_TURBO			|*/
++/*									ODM_FW_DEBUG_TRACE				|*/
++
++/*RF Functions*/
++/*									ODM_COMP_TX_PWR_TRACK			|*/
++/*									ODM_COMP_RX_GAIN_TRACK			|*/
++/*									ODM_COMP_CALIBRATION			|*/
++
++/*Common*/
++/*									ODM_PHY_CONFIG					|*/
++/*									ODM_COMP_INIT					|*/
++/*									ODM_COMP_COMMON				|*/
++/*									ODM_COMP_API				|*/
++
++
++#endif
++		0;
++
++	pDM_Odm->fw_buff_is_enpty = TRUE;
++	pDM_Odm->pre_c2h_seq = 0;
++}
++
++VOID
++phydm_BB_RxHang_Info(
++	IN		PVOID			pDM_VOID,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++)
++{
++	u4Byte	value32 = 0;
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte used = *_used;
++	u4Byte out_len = *_out_len;
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		return;
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xF80 , bMaskDWord);
++	PHYDM_SNPRINTF((output + used, out_len - used,  "\r\n %-35s = 0x%x", "rptreg of sc/bw/ht/...", value32));
++
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		ODM_SetBBReg(pDM_Odm, 0x198c , BIT2|BIT1|BIT0, 7);
++
++	/* dbg_port = basic state machine */
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0x000);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "basic state machine", value32));
++	}
++
++	/* dbg_port = state machine */
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0x007);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "state machine", value32));
++	}
++
++	/* dbg_port = CCA-related*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0x204);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "CCA-related", value32));
++	}
++
++
++	/* dbg_port = edcca/rxd*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0x278);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "edcca/rxd", value32));
++	}
++
++	/* dbg_port = rx_state/mux_state/ADC_MASK_OFDM*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0x290);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "rx_state/mux_state/ADC_MASK_OFDM", value32));
++	}
++
++	/* dbg_port = bf-related*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0x2B2);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "bf-related", value32));
++	}
++
++	/* dbg_port = bf-related*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0x2B8);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "bf-related", value32));
++	}
++
++	/* dbg_port = txon/rxd*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0xA03);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "txon/rxd", value32));
++	}
++
++	/* dbg_port = l_rate/l_length*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0xA0B);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "l_rate/l_length", value32));
++	}
++
++	/* dbg_port = rxd/rxd_hit*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0xA0D);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "rxd/rxd_hit", value32));
++	}
++
++	/* dbg_port = dis_cca*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0xAA0);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "dis_cca", value32));
++	}
++
++
++	/* dbg_port = tx*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0xAB0);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "tx", value32));
++	}
++
++	/* dbg_port = rx plcp*/
++	{
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0xAD0);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "rx plcp", value32));
++
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0xAD1);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "rx plcp", value32));
++
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0xAD2);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "rx plcp", value32));
++
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord, 0xAD3);
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "0x8fc", value32));
++
++		value32 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC , bMaskDWord);
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = 0x%x", "rx plcp", value32));
++	}
++
++}
++
++VOID
++phydm_BB_Debug_Info(
++	IN		PVOID			pDM_VOID,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte used = *_used;
++	u4Byte out_len = *_out_len;
++	
++	char *tmp_string = NULL;
++
++	u1Byte	RX_HT_BW, RX_VHT_BW, RXSC, RX_HT, RX_BW;
++	static u1Byte vRX_BW ;
++	u4Byte	value32, value32_1, value32_2, value32_3;
++	s4Byte	SFO_A, SFO_B, SFO_C, SFO_D;
++	s4Byte	LFO_A, LFO_B, LFO_C, LFO_D;
++	static u1Byte	MCSS, Tail, Parity, rsv, vrsv, idx, smooth, htsound, agg, stbc, vstbc, fec, fecext, sgi, sgiext, htltf, vgid, vNsts, vtxops, vrsv2, vbrsv, bf, vbcrc;
++	static u2Byte	HLength, htcrc8, Length;
++	static u2Byte vpaid;
++	static u2Byte	vLength, vhtcrc8, vMCSS, vTail, vbTail;
++	static u1Byte	HMCSS, HRX_BW;
++
++	u1Byte    pwDB;
++	s1Byte    RXEVM_0, RXEVM_1, RXEVM_2 ;
++	u1Byte    RF_gain_pathA, RF_gain_pathB, RF_gain_pathC, RF_gain_pathD;
++	u1Byte    RX_SNR_pathA, RX_SNR_pathB, RX_SNR_pathC, RX_SNR_pathD;
++	s4Byte    sig_power;
++
++	const char *L_rate[8] = {"6M", "9M", "12M", "18M", "24M", "36M", "48M", "54M"};
++
++	/*
++	const double evm_comp_20M = 0.579919469776867; //10*log10(64.0/56.0)
++	const double evm_comp_40M = 0.503051183113957; //10*log10(128.0/114.0)
++	const double evm_comp_80M = 0.244245993314183; //10*log10(256.0/242.0)
++	const double evm_comp_160M = 0.244245993314183; //10*log10(512.0/484.0)
++	   */
++
++	if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		return;
++
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s\n", "BB Report Info"));
++
++	/*BW & Mode Detection*/
++	
++	value32 = ODM_GetBBReg(pDM_Odm, 0xf80 , bMaskDWord);
++	value32_2 = value32;
++	RX_HT_BW = (u1Byte)(value32 & 0x1);
++	RX_VHT_BW = (u1Byte)((value32 >> 1) & 0x3);
++	RXSC = (u1Byte)(value32 & 0x78);
++	value32_1 = (value32 & 0x180) >> 7;
++	RX_HT = (u1Byte)(value32_1);
++
++	RX_BW = 0;
++
++	if (RX_HT == 2) {
++		if (RX_VHT_BW == 0) {
++			tmp_string = "20M";
++		} else if (RX_VHT_BW == 1) {
++			tmp_string = "40M";
++		} else {
++			tmp_string = "80M";
++		}
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s %s %s", "Mode", "VHT", tmp_string));
++		RX_BW = RX_VHT_BW;
++	} else if (RX_HT == 1) {
++		if (RX_HT_BW == 0) {
++			tmp_string = "20M";
++		} else if (RX_HT_BW == 1) {
++			tmp_string = "40M";
++		}
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s %s %s", "Mode", "HT", tmp_string));
++		RX_BW = RX_HT_BW;
++	} else {
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s %s", "Mode", "Legacy"));
++	}
++
++	if (RX_HT != 0) {
++		if (RXSC == 0)
++			tmp_string = "duplicate/full bw";
++		else if (RXSC == 1)
++			tmp_string = "usc20-1";
++		else if (RXSC == 2)
++			tmp_string = "lsc20-1";
++		else if (RXSC == 3)
++			tmp_string = "usc20-2";
++		else if (RXSC == 4)
++			tmp_string = "lsc20-2";
++		else if (RXSC == 9)
++			tmp_string = "usc40";
++		else if (RXSC == 10)
++			tmp_string = "lsc40";
++		PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s", tmp_string));
++	}
++
++	/* RX signal power and AGC related info*/
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xF90 , bMaskDWord);
++	pwDB = (u1Byte)((value32 & bMaskByte1) >> 8);
++	pwDB = pwDB >> 1;
++	sig_power = -110 + pwDB;
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %d", "OFDM RX Signal Power(dB)", sig_power));
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xd14 , bMaskDWord);
++	RX_SNR_pathA = (u1Byte)(value32 & 0xFF) >> 1;
++	RF_gain_pathA = (s1Byte)((value32 & bMaskByte1) >> 8);
++	RF_gain_pathA *= 2;
++	value32 = ODM_GetBBReg(pDM_Odm, 0xd54 , bMaskDWord);
++	RX_SNR_pathB = (u1Byte)(value32 & 0xFF) >> 1;
++	RF_gain_pathB = (s1Byte)((value32 & bMaskByte1) >> 8);
++	RF_gain_pathB *= 2;
++	value32 = ODM_GetBBReg(pDM_Odm, 0xd94 , bMaskDWord);
++	RX_SNR_pathC = (u1Byte)(value32 & 0xFF) >> 1;
++	RF_gain_pathC = (s1Byte)((value32 & bMaskByte1) >> 8);
++	RF_gain_pathC *= 2;
++	value32 = ODM_GetBBReg(pDM_Odm, 0xdd4 , bMaskDWord);
++	RX_SNR_pathD = (u1Byte)(value32 & 0xFF) >> 1;
++	RF_gain_pathD = (s1Byte)((value32 & bMaskByte1) >> 8);
++	RF_gain_pathD *= 2;
++
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %d / %d / %d / %d", "OFDM RX RF Gain(A/B/C/D)", RF_gain_pathA, RF_gain_pathB, RF_gain_pathC, RF_gain_pathD));
++
++
++	/* RX Counter related info*/
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xF08, bMaskDWord);
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %d", "OFDM CCA Counter", ((value32&0xFFFF0000)>>16)));
++	
++	value32 = ODM_GetBBReg(pDM_Odm, 0xFD0, bMaskDWord);
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %d", "OFDM SBD Fail Counter", value32&0xFFFF));
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xFC4, bMaskDWord);
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %d / %d", "VHT SIGA/SIGB CRC8 Fail Counter", value32&0xFFFF, ((value32&0xFFFF0000)>>16)));
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xFCC, bMaskDWord);
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %d", "CCK CCA Counter", value32&0xFFFF));
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xFBC, bMaskDWord);
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %d / %d", "LSIG (Parity Fail/Rate Illegal) Counter", value32&0xFFFF, ((value32&0xFFFF0000)>>16)));
++
++	value32_1 = ODM_GetBBReg(pDM_Odm, 0xFC8, bMaskDWord);
++	value32_2 = ODM_GetBBReg(pDM_Odm, 0xFC0, bMaskDWord);
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %d / %d", "HT/VHT MCS NOT SUPPORT counter", ((value32_2&0xFFFF0000)>>16), value32_1&0xFFFF));
++
++	/* PostFFT related info*/
++	value32 = ODM_GetBBReg(pDM_Odm, 0xF8c , bMaskDWord);
++	RXEVM_0 = (s1Byte)((value32 & bMaskByte2) >> 16);
++	RXEVM_0 /= 2;
++	if (RXEVM_0 < -63)
++		RXEVM_0 = 0;
++
++	RXEVM_1 = (s1Byte)((value32 & bMaskByte3) >> 24);
++	RXEVM_1 /= 2;
++	value32 = ODM_GetBBReg(pDM_Odm, 0xF88 , bMaskDWord);
++	RXEVM_2 = (s1Byte)((value32 & bMaskByte2) >> 16);
++	RXEVM_2 /= 2;
++
++	if (RXEVM_1 < -63)
++		RXEVM_1 = 0;
++	if (RXEVM_2 < -63)
++		RXEVM_2 = 0;
++
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %d / %d / %d", "RXEVM (1ss/2ss/3ss)", RXEVM_0, RXEVM_1, RXEVM_2));
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %d / %d / %d / %d", "RXSNR(A/B/C/D, dB)", RX_SNR_pathA, RX_SNR_pathB, RX_SNR_pathC, RX_SNR_pathD));
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xF8C , bMaskDWord);
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %d / %d", "CSI_1st /CSI_2nd", value32&0xFFFF, ((value32&0xFFFF0000)>>16)));
++
++	/*BW & Mode Detection*/
++
++	/*Reset Page F Counter*/
++	ODM_SetBBReg(pDM_Odm, 0xB58 , BIT0, 1);
++	ODM_SetBBReg(pDM_Odm, 0xB58 , BIT0, 0);
++
++	/*CFO Report Info*/
++	/*Short CFO*/
++	value32 = ODM_GetBBReg(pDM_Odm, 0xd0c , bMaskDWord);
++	value32_1 = ODM_GetBBReg(pDM_Odm, 0xd4c , bMaskDWord);
++	value32_2 = ODM_GetBBReg(pDM_Odm, 0xd8c , bMaskDWord);
++	value32_3 = ODM_GetBBReg(pDM_Odm, 0xdcc , bMaskDWord);
++
++	SFO_A = (s4Byte)(value32 & 0xfff);
++	SFO_B = (s4Byte)(value32_1 & 0xfff);
++	SFO_C = (s4Byte)(value32_2 & 0xfff);
++	SFO_D = (s4Byte)(value32_3 & 0xfff);
++
++	LFO_A = (s4Byte)(value32 >> 16);
++	LFO_B = (s4Byte)(value32_1 >> 16);
++	LFO_C = (s4Byte)(value32_2 >> 16);
++	LFO_D = (s4Byte)(value32_3 >> 16);
++
++	/*SFO 2's to dec*/
++	if (SFO_A > 2047)
++		SFO_A = SFO_A - 4096;
++	SFO_A = (SFO_A * 312500) / 2048;
++	if (SFO_B > 2047)
++		SFO_B = SFO_B - 4096;
++	SFO_B = (SFO_B * 312500) / 2048;
++	if (SFO_C > 2047)
++		SFO_C = SFO_C - 4096;
++	SFO_C = (SFO_C * 312500) / 2048;
++	if (SFO_D > 2047)
++		SFO_D = SFO_D - 4096;
++	SFO_D = (SFO_D * 312500) / 2048;
++
++	/*LFO 2's to dec*/
++
++	if (LFO_A > 4095)
++		LFO_A = LFO_A - 8192;
++
++	if (LFO_B > 4095)
++		LFO_B = LFO_B - 8192;
++
++	if (LFO_C > 4095)
++		LFO_C = LFO_C - 8192;
++
++	if (LFO_D > 4095)
++		LFO_D = LFO_D - 8192;
++	LFO_A = LFO_A * 312500 / 4096;
++	LFO_B = LFO_B * 312500 / 4096;
++	LFO_C = LFO_C * 312500 / 4096;
++	LFO_D = LFO_D * 312500 / 4096;
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s", "CFO Report Info"));
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %d / %d / %d /%d", "Short CFO(Hz) <A/B/C/D>", SFO_A, SFO_B, SFO_C, SFO_D));
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %d / %d / %d /%d", "Long CFO(Hz) <A/B/C/D>", LFO_A, LFO_B, LFO_C, LFO_D));
++
++	/*SCFO*/
++	value32 = ODM_GetBBReg(pDM_Odm, 0xd10 , bMaskDWord);
++	value32_1 = ODM_GetBBReg(pDM_Odm, 0xd50 , bMaskDWord);
++	value32_2 = ODM_GetBBReg(pDM_Odm, 0xd90 , bMaskDWord);
++	value32_3 = ODM_GetBBReg(pDM_Odm, 0xdd0 , bMaskDWord);
++
++	SFO_A = (s4Byte)(value32 & 0x7ff);
++	SFO_B = (s4Byte)(value32_1 & 0x7ff);
++	SFO_C = (s4Byte)(value32_2 & 0x7ff);
++	SFO_D = (s4Byte)(value32_3 & 0x7ff);
++
++	if (SFO_A > 1023)
++		SFO_A = SFO_A - 2048;
++
++	if (SFO_B > 2047)
++		SFO_B = SFO_B - 4096;
++
++	if (SFO_C > 2047)
++		SFO_C = SFO_C - 4096;
++
++	if (SFO_D > 2047)
++		SFO_D = SFO_D - 4096;
++
++	SFO_A = SFO_A * 312500 / 1024;
++	SFO_B = SFO_B * 312500 / 1024;
++	SFO_C = SFO_C * 312500 / 1024;
++	SFO_D = SFO_D * 312500 / 1024;
++
++	LFO_A = (s4Byte)(value32 >> 16);
++	LFO_B = (s4Byte)(value32_1 >> 16);
++	LFO_C = (s4Byte)(value32_2 >> 16);
++	LFO_D = (s4Byte)(value32_3 >> 16);
++
++	if (LFO_A > 4095)
++		LFO_A = LFO_A - 8192;
++
++	if (LFO_B > 4095)
++		LFO_B = LFO_B - 8192;
++
++	if (LFO_C > 4095)
++		LFO_C = LFO_C - 8192;
++
++	if (LFO_D > 4095)
++		LFO_D = LFO_D - 8192;
++	LFO_A = LFO_A * 312500 / 4096;
++	LFO_B = LFO_B * 312500 / 4096;
++	LFO_C = LFO_C * 312500 / 4096;
++	LFO_D = LFO_D * 312500 / 4096;
++	
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %d / %d / %d /%d", "Value SCFO(Hz) <A/B/C/D>", SFO_A, SFO_B, SFO_C, SFO_D));
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %d / %d / %d /%d", "ACQ CFO(Hz) <A/B/C/D>", LFO_A, LFO_B, LFO_C, LFO_D));
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xd14 , bMaskDWord);
++	value32_1 = ODM_GetBBReg(pDM_Odm, 0xd54 , bMaskDWord);
++	value32_2 = ODM_GetBBReg(pDM_Odm, 0xd94 , bMaskDWord);
++	value32_3 = ODM_GetBBReg(pDM_Odm, 0xdd4 , bMaskDWord);
++
++	LFO_A = (s4Byte)(value32 >> 16);
++	LFO_B = (s4Byte)(value32_1 >> 16);
++	LFO_C = (s4Byte)(value32_2 >> 16);
++	LFO_D = (s4Byte)(value32_3 >> 16);
++
++	if (LFO_A > 4095)
++		LFO_A = LFO_A - 8192;
++
++	if (LFO_B > 4095)
++		LFO_B = LFO_B - 8192;
++
++	if (LFO_C > 4095)
++		LFO_C = LFO_C - 8192;
++
++	if (LFO_D > 4095)
++		LFO_D = LFO_D - 8192;
++
++	LFO_A = LFO_A * 312500 / 4096;
++	LFO_B = LFO_B * 312500 / 4096;
++	LFO_C = LFO_C * 312500 / 4096;
++	LFO_D = LFO_D * 312500 / 4096;
++
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %d / %d / %d /%d", "End CFO(Hz) <A/B/C/D>", LFO_A, LFO_B, LFO_C, LFO_D));
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xf20 , bMaskDWord);  /*L SIG*/
++
++	Tail = (u1Byte)((value32 & 0xfc0000) >> 16);
++	Parity = (u1Byte)((value32 & 0x20000) >> 16);
++	Length = (u2Byte)((value32 & 0x1ffe00) >> 8);
++	rsv = (u1Byte)(value32 & 0x10);
++	MCSS = (u1Byte)(value32 & 0x0f);
++
++	switch (MCSS) {
++	case 0x0b:
++		idx = 0;
++		break;
++	case 0x0f:
++		idx = 1;
++		break;
++	case 0x0a:
++		idx = 2;
++		break;
++	case 0x0e:
++		idx = 3;
++		break;
++	case 0x09:
++		idx = 4;
++		break;
++	case 0x08:
++		idx = 5;
++		break;
++	case 0x0c:
++		idx = 6;
++		break;
++	default:
++		idx = 6;
++		break;
++
++	}
++
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s", "L-SIG"));
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s : %s", "Rate", L_rate[idx]));
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %x / %x / %x", "Rsv/Length/Parity", rsv, RX_BW, Length));
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xf2c , bMaskDWord);  /*HT SIG*/
++	if (RX_HT == 1) {
++
++		HMCSS = (u1Byte)(value32 & 0x7F);
++		HRX_BW = (u1Byte)(value32 & 0x80);
++		HLength = (u2Byte)((value32 >> 8) & 0xffff);
++	}
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s", "HT-SIG1"));
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %x / %x / %x", "MCS/BW/Length", HMCSS, HRX_BW, HLength));
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xf30 , bMaskDWord);  /*HT SIG*/
++
++	if (RX_HT == 1) {
++		smooth = (u1Byte)(value32 & 0x01);
++		htsound = (u1Byte)(value32 & 0x02);
++		rsv = (u1Byte)(value32 & 0x04);
++		agg = (u1Byte)(value32 & 0x08);
++		stbc = (u1Byte)(value32 & 0x30);
++		fec = (u1Byte)(value32 & 0x40);
++		sgi = (u1Byte)(value32 & 0x80);
++		htltf = (u1Byte)((value32 & 0x300) >> 8);
++		htcrc8 = (u2Byte)((value32 & 0x3fc00) >> 8);
++		Tail = (u1Byte)((value32 & 0xfc0000) >> 16);
++	}
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s", "HT-SIG2"));
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %x / %x / %x / %x / %x / %x", "Smooth/NoSound/Rsv/Aggregate/STBC/LDPC", smooth, htsound, rsv, agg, stbc, fec));
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %x / %x / %x / %x", "SGI/E-HT-LTFs/CRC/Tail", sgi, htltf, htcrc8, Tail));
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xf2c , bMaskDWord);  /*VHT SIG A1*/
++	if (RX_HT == 2) {
++		/* value32 = ODM_GetBBReg(pDM_Odm, 0xf2c ,bMaskDWord);*/
++		vRX_BW = (u1Byte)(value32 & 0x03);
++		vrsv = (u1Byte)(value32 & 0x04);
++		vstbc = (u1Byte)(value32 & 0x08);
++		vgid = (u1Byte)((value32 & 0x3f0) >> 4);
++		vNsts = (u1Byte)(((value32 & 0x1c00) >> 8) + 1);
++		vpaid = (u2Byte)(value32 & 0x3fe);
++		vtxops = (u1Byte)((value32 & 0x400000) >> 20);
++		vrsv2 = (u1Byte)((value32 & 0x800000) >> 20);
++	}
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s", "VHT-SIG-A1"));
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %x / %x / %x / %x / %x / %x / %x / %x", "BW/Rsv1/STBC/GID/Nsts/PAID/TXOPPS/Rsv2", vRX_BW, vrsv, vstbc, vgid, vNsts, vpaid, vtxops, vrsv2));
++
++	value32 = ODM_GetBBReg(pDM_Odm, 0xf30 , bMaskDWord);  /*VHT SIG*/
++
++	if (RX_HT == 2) {
++		/*value32 = ODM_GetBBReg(pDM_Odm, 0xf30 ,bMaskDWord); */  /*VHT SIG*/
++
++		//sgi=(u1Byte)(value32&0x01);
++		sgiext = (u1Byte)(value32 & 0x03);
++		//fec = (u1Byte)(value32&0x04);
++		fecext = (u1Byte)(value32 & 0x0C);
++
++		vMCSS = (u1Byte)(value32 & 0xf0);
++		bf = (u1Byte)((value32 & 0x100) >> 8);
++		vrsv = (u1Byte)((value32 & 0x200) >> 8);
++		vhtcrc8 = (u2Byte)((value32 & 0x3fc00) >> 8);
++		vTail = (u1Byte)((value32 & 0xfc0000) >> 16);
++	}
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s", "VHT-SIG-A2"));
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %x / %x / %x / %x / %x / %x / %x", "SGI/FEC/MCS/BF/Rsv/CRC/Tail", sgiext, fecext, vMCSS, bf, vrsv, vhtcrc8, vTail));
++	
++	value32 = ODM_GetBBReg(pDM_Odm, 0xf34 , bMaskDWord);  /*VHT SIG*/
++	{
++		vLength = (u2Byte)(value32 & 0x1fffff);
++		vbrsv = (u1Byte)((value32 & 0x600000) >> 20);
++		vbTail = (u2Byte)((value32 & 0x1f800000) >> 20);
++		vbcrc = (u1Byte)((value32 & 0x80000000) >> 28);
++
++	}
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s", "VHT-SIG-B"));
++	PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %x / %x / %x / %x", "Length/Rsv/Tail/CRC", vLength, vbrsv, vbTail, vbcrc));
++
++	/*for Condition number*/
++	if (pDM_Odm->SupportICType & ODM_RTL8822B) {
++		s4Byte	condition_num = 0;
++		char *factor = NULL;
++		
++		ODM_SetBBReg(pDM_Odm, 0x1988 , BIT22, 0x1);	/*enable report condition number*/
++
++		condition_num = ODM_GetBBReg(pDM_Odm, 0xf84, bMaskDWord);
++		condition_num = (condition_num & 0x3ffff) >> 4;
++
++		if (*pDM_Odm->pBandWidth == ODM_BW80M)
++			factor = "256/234";
++		else if (*pDM_Odm->pBandWidth == ODM_BW40M)
++			factor = "128/108";
++		else if (*pDM_Odm->pBandWidth == ODM_BW20M) {
++			if (RX_HT != 2 || RX_HT != 1)
++				factor = "64/52";	/*HT or VHT*/
++			else
++				factor = "64/48";	/*legacy*/
++		}
++
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = %d (factor = %s)", "Condition Number", condition_num, factor));
++
++	}
++
++}
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++void phydm_sbd_check(
++	IN	PDM_ODM_T					pDM_Odm
++)
++{
++	static u4Byte	pkt_cnt = 0;
++	static BOOLEAN sbd_state = 0;
++	u4Byte	sym_count, count, value32;
++
++	if (sbd_state == 0) {
++		pkt_cnt++;
++		if (pkt_cnt % 5 == 0) { /*read SBD conter once every 5 packets*/
++			ODM_SetTimer(pDM_Odm, &pDM_Odm->sbdcnt_timer, 0); /*ms*/
++			sbd_state = 1;
++		}
++	} else { /*read counter*/
++		value32 = ODM_GetBBReg(pDM_Odm, 0xF98, bMaskDWord);
++		sym_count = (value32 & 0x7C000000) >> 26;
++		count = (value32 & 0x3F00000) >> 20;
++		DbgPrint("#SBD#    sym_count   %d   count   %d\n", sym_count, count);
++		sbd_state = 0;
++	}
++}
++
++void phydm_sbd_callback(
++	PRT_TIMER		pTimer
++)
++{
++	PADAPTER		Adapter = (PADAPTER)pTimer->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++
++#if USE_WORKITEM
++	ODM_ScheduleWorkItem(&pDM_Odm->sbdcnt_workitem);
++#else
++	phydm_sbd_check(pDM_Odm);
++#endif
++}
++
++void phydm_sbd_workitem_callback(
++	IN PVOID            pContext
++)
++{
++	PADAPTER	pAdapter = (PADAPTER)pContext;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++
++	phydm_sbd_check(pDM_Odm);
++}
++#endif
++VOID
++phydm_BasicDbgMessage
++(
++	IN		PVOID			pDM_VOID
++)
++{
++#if( DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PFALSE_ALARM_STATISTICS FalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure(pDM_Odm , PHYDM_FALSEALMCNT);
++	pDIG_T	pDM_DigTable = &pDM_Odm->DM_DigTable;
++	pRA_T	pRA_Table = &pDM_Odm->DM_RA_Table;
++	u2Byte	macid, phydm_macid, client_cnt = 0;
++	PSTA_INFO_T	pEntry;
++	s4Byte	ret_val = 0;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("[PHYDM Common MSG]-------------->\n"));
++
++	if (pDM_Odm->bLinked) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("Curr_STA_ID =  0x%x\n", pDM_Odm->curr_station_id));
++		
++		/*Print RX Rate*/
++		if (pDM_Odm->RxRate <= ODM_RATE11M) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("[CCK AGC Report] LNA_idx = 0x%x, VGA_idx = 0x%x\n",
++				pDM_Odm->cck_lna_idx, pDM_Odm->cck_vga_idx));		
++		} else {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("[OFDM AGC Report] { 0x%x, 0x%x, 0x%x, 0x%x }\n",
++				pDM_Odm->ofdm_agc_idx[0], pDM_Odm->ofdm_agc_idx[1], pDM_Odm->ofdm_agc_idx[2], pDM_Odm->ofdm_agc_idx[3]));	
++		}
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("RSSI: { %d,  %d,  %d,  %d },    RxRate:",
++			(pDM_Odm->RSSI_A == 0xff) ? 0 : pDM_Odm->RSSI_A , 
++			(pDM_Odm->RSSI_B == 0xff) ? 0 : pDM_Odm->RSSI_B , 
++			(pDM_Odm->RSSI_C == 0xff) ? 0 : pDM_Odm->RSSI_C, 
++			(pDM_Odm->RSSI_D == 0xff) ? 0 : pDM_Odm->RSSI_D));
++
++		phydm_print_rate(pDM_Odm, pDM_Odm->RxRate, ODM_COMP_COMMON);
++		
++		/*Print TX Rate*/
++		for (macid = 0; macid < ODM_ASSOCIATE_ENTRY_NUM; macid++) {
++			
++			pEntry = pDM_Odm->pODM_StaInfo[macid];
++			if (IS_STA_VALID(pEntry)) {
++				
++				phydm_macid = (pDM_Odm->platform2phydm_macid_table[macid]);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("TXRate [%d]:", macid));
++				phydm_print_rate(pDM_Odm, pRA_Table->link_tx_rate[macid], ODM_COMP_COMMON);
++				
++				client_cnt++;
++			
++				if (client_cnt == pDM_Odm->number_linked_client)
++					break;
++			}
++		}
++		
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("TP { TX, RX, total} = {%d, %d, %d }Mbps, TrafficLoad = (%d))\n", 
++			pDM_Odm->tx_tp, pDM_Odm->rx_tp, pDM_Odm->total_tp, pDM_Odm->TrafficLoad));
++
++		/* Condition number */
++		if (pDM_Odm->SupportICType == ODM_RTL8822B) {
++#if (RTL8822B_SUPPORT == 1)  
++			ret_val = phydm_get_condition_number_8822B(pDM_Odm);
++#endif
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("Condition number = %d\n", ret_val));
++		}
++	} else {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("No Link !!!\n"));
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("[CCA Cnt] {CCK, OFDM, Total} = {%d, %d, %d}\n",	
++		FalseAlmCnt->Cnt_CCK_CCA, FalseAlmCnt->Cnt_OFDM_CCA, FalseAlmCnt->Cnt_CCA_all));
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("[FA Cnt] {CCK, OFDM, Total} = {%d, %d, %d}\n",	
++		FalseAlmCnt->Cnt_Cck_fail, FalseAlmCnt->Cnt_Ofdm_fail, FalseAlmCnt->Cnt_all));
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("[OFDM FA Detail] Parity_Fail = (( %d )), Rate_Illegal = (( %d )), CRC8_fail = (( %d )), Mcs_fail = (( %d )), Fast_Fsync = (( %d )), SB_Search_fail = (( %d ))\n",	
++		FalseAlmCnt->Cnt_Parity_Fail, FalseAlmCnt->Cnt_Rate_Illegal, FalseAlmCnt->Cnt_Crc8_fail, FalseAlmCnt->Cnt_Mcs_fail, FalseAlmCnt->Cnt_Fast_Fsync, FalseAlmCnt->Cnt_SB_Search_fail));
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("bLinked = %d, Num_client = %d, RSSI_Min = %d, CurrentIGI = 0x%x, bNoisy=%d\n\n",
++		pDM_Odm->bLinked, pDM_Odm->number_linked_client, pDM_Odm->RSSI_Min, pDM_DigTable->CurIGValue, pDM_Odm->NoisyDecision));
++
++/*
++	temp_reg = ODM_GetBBReg(pDM_Odm, 0xDD0, bMaskByte0);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD, ("0xDD0 = 0x%x\n",temp_reg));
++		
++	temp_reg = ODM_GetBBReg(pDM_Odm, 0xDDc, bMaskByte1);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD, ("0xDDD = 0x%x\n",temp_reg));
++	
++	temp_reg = ODM_GetBBReg(pDM_Odm, 0xc50, bMaskByte0);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD, ("0xC50 = 0x%x\n",temp_reg));
++
++	temp_reg = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x0, 0x3fe0);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD, ("RF 0x0[13:5] = 0x%x\n\n",temp_reg));
++*/	
++
++#endif
++}
++
++
++VOID phydm_BasicProfile(
++	IN		PVOID			pDM_VOID,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	char  *Cut = NULL;
++	char *ICType = NULL;
++	u4Byte used = *_used;
++	u4Byte out_len = *_out_len;
++	u4Byte	commit_ver = 0;
++	u4Byte	date = 0;
++	char	*commit_by = NULL;
++	u4Byte	release_ver = 0;
++
++	PHYDM_SNPRINTF((output + used, out_len - used, "%-35s\n", "% Basic Profile %"));
++
++	if (pDM_Odm->SupportICType == ODM_RTL8188E) {
++		#if (RTL8188E_SUPPORT == 1)
++		ICType = "RTL8188E";
++		date = RELEASE_DATE_8188E;
++		commit_by = COMMIT_BY_8188E;
++		release_ver = RELEASE_VERSION_8188E;
++		#endif
++	}
++	#if (RTL8812A_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8812) {
++		ICType = "RTL8812A";
++		date = RELEASE_DATE_8812A;
++		commit_by = COMMIT_BY_8812A;
++		release_ver = RELEASE_VERSION_8812A;
++	}
++	#endif
++	#if (RTL8821A_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8821) {
++		ICType = "RTL8821A";
++		date = RELEASE_DATE_8821A;
++		commit_by = COMMIT_BY_8821A;
++		release_ver = RELEASE_VERSION_8821A;
++	}
++	#endif
++	#if (RTL8192E_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8192E) {
++		ICType = "RTL8192E";
++		date = RELEASE_DATE_8192E;
++		commit_by = COMMIT_BY_8192E;
++		release_ver = RELEASE_VERSION_8192E;
++	}
++	#endif
++	#if (RTL8723B_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++		ICType = "RTL8723B";
++		date = RELEASE_DATE_8723B;
++		commit_by = COMMIT_BY_8723B;
++		release_ver = RELEASE_VERSION_8723B;
++	}
++	#endif
++	#if (RTL8814A_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8814A) {
++		ICType = "RTL8814A";
++		date = RELEASE_DATE_8814A;
++		commit_by = COMMIT_BY_8814A;
++		release_ver = RELEASE_VERSION_8814A;
++	}
++	#endif
++	#if (RTL8881A_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8881A) {
++		ICType = "RTL8881A";
++		/**/
++	}
++	#endif
++	#if (RTL8822B_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8822B) {
++		ICType = "RTL8822B";
++		date = RELEASE_DATE_8822B;
++		commit_by = COMMIT_BY_8822B;
++		release_ver = RELEASE_VERSION_8822B;
++	}
++	#endif
++	#if (RTL8197F_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8197F) {
++		ICType = "RTL8197F";
++		date = RELEASE_DATE_8197F;
++		commit_by = COMMIT_BY_8197F;
++		release_ver = RELEASE_VERSION_8197F;
++	}
++	#endif
++
++	#if (RTL8703B_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8703B) {
++		
++		ICType = "RTL8703B";
++		date = RELEASE_DATE_8703B;
++		commit_by = COMMIT_BY_8703B;
++		release_ver = RELEASE_VERSION_8703B;
++		
++	} 
++	#endif
++	#if (RTL8195A_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8195A) {
++		ICType = "RTL8195A";
++		/**/		
++	}
++	#endif
++	#if (RTL8188F_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8188F) {
++		ICType = "RTL8188F";
++		date = RELEASE_DATE_8188F;
++		commit_by = COMMIT_BY_8188F;
++		release_ver = RELEASE_VERSION_8188F;
++	}
++	#endif
++	#if (RTL8723D_SUPPORT == 1)
++	else if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++		ICType = "RTL8723D";
++		/**/	
++	}
++	#endif
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s (MP Chip: %s)\n", "IC Type", ICType, pDM_Odm->bIsMPChip ? "Yes" : "No"));
++
++	if (pDM_Odm->CutVersion == ODM_CUT_A)			
++		Cut = "A";
++	else if (pDM_Odm->CutVersion == ODM_CUT_B)            
++		Cut = "B";
++	else if (pDM_Odm->CutVersion == ODM_CUT_C)            
++		Cut = "C";
++	else if (pDM_Odm->CutVersion == ODM_CUT_D)            
++		Cut = "D";
++	else if (pDM_Odm->CutVersion == ODM_CUT_E)            
++		Cut = "E";
++	else if (pDM_Odm->CutVersion == ODM_CUT_F)            
++		Cut = "F";
++	else if (pDM_Odm->CutVersion == ODM_CUT_I)            
++		Cut = "I";
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Cut Version", Cut));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %d\n", "PHY Parameter Version", ODM_GetHWImgVersion(pDM_Odm)));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %d\n", "PHY Parameter Commit date", date));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "PHY Parameter Commit by", commit_by));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %d\n", "PHY Parameter Release Version", release_ver));
++	
++#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	{
++		PADAPTER		       Adapter = pDM_Odm->Adapter;
++		PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %d (Subversion: %d)\n", "FW Version", Adapter->MgntInfo.FirmwareVersion, Adapter->MgntInfo.FirmwareSubVersion));
++	}
++#elif (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	{
++		struct rtl8192cd_priv *priv = pDM_Odm->priv;
++		PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %d (Subversion: %d)\n", "FW Version", priv->pshare->fw_version, priv->pshare->fw_sub_version));
++	}
++#else
++	{
++		PADAPTER		       Adapter = pDM_Odm->Adapter;
++		HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++		PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %d (Subversion: %d)\n", "FW Version", pHalData->FirmwareVersion, pHalData->FirmwareSubVersion));
++	}
++#endif
++	//1 PHY DM Version List
++	PHYDM_SNPRINTF((output + used, out_len - used, "%-35s\n", "% PHYDM Version %"));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Code Base", PHYDM_CODE_BASE));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Release Date", PHYDM_RELEASE_DATE));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Adaptivity", ADAPTIVITY_VERSION));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "DIG", DIG_VERSION));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Dynamic BB PowerSaving", DYNAMIC_BBPWRSAV_VERSION));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "CFO Tracking", CFO_TRACKING_VERSION));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Antenna Diversity", ANTDIV_VERSION));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Power Tracking", POWRTRACKING_VERSION));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Dynamic TxPower", DYNAMIC_TXPWR_VERSION));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "RA Info", RAINFO_VERSION));
++#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Antenna Detection", ANTDECT_VERSION));
++#endif
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Auto Channel Selection", ACS_VERSION));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "EDCA Turbo", EDCATURBO_VERSION));
++	PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "Path Diversity", PATHDIV_VERSION));
++
++#if (RTL8822B_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "PHY config 8822B", PHY_CONFIG_VERSION_8822B));
++	
++#endif
++#if (RTL8197F_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType & ODM_RTL8197F)
++		PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s: %s\n", "PHY config 8197F", PHY_CONFIG_VERSION_8197F));
++#endif
++	*_used = used;
++	*_out_len = out_len;
++
++}
++
++VOID
++phydm_fw_trace_en_h2c(
++	IN	PVOID	pDM_VOID,
++	IN	BOOLEAN		enable,
++	IN	u4Byte		monitor_mode,
++	IN	u4Byte		macid
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			H2C_Parameter[3] = {0};
++
++	H2C_Parameter[0] = enable;
++	H2C_Parameter[1] = (u1Byte)monitor_mode;
++	H2C_Parameter[2] = (u1Byte)macid;
++	ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("---->\n"));
++	if (monitor_mode == 0){
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[H2C] FW_debug_en: (( %d ))\n", enable));
++	} else {
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[H2C] FW_debug_en: (( %d )), mode: (( %d )), macid: (( %d ))\n", enable, monitor_mode, macid));
++	}
++	ODM_FillH2CCmd(pDM_Odm, PHYDM_H2C_FW_TRACE_EN, 3, H2C_Parameter);
++}
++
++
++#if (RTL8822B_SUPPORT == 1 || RTL8197F_SUPPORT == 1 || RTL8821C_SUPPORT == 1)
++BOOLEAN
++phydm_api_set_txagc(
++	IN	PDM_ODM_T				pDM_Odm,
++	IN	u4Byte					PowerIndex,
++	IN	ODM_RF_RADIO_PATH_E		Path,	
++	IN	u1Byte					HwRate,
++	IN	BOOLEAN					bSingleRate
++	)
++{
++	BOOLEAN		ret = FALSE;
++	
++#if ((RTL8822B_SUPPORT == 1) || (RTL8821C_SUPPORT == 1))
++	if (pDM_Odm->SupportICType & (ODM_RTL8822B|ODM_RTL8821C)) {
++		if (bSingleRate) {
++#if (RTL8822B_SUPPORT == 1)
++			if (pDM_Odm->SupportICType == ODM_RTL8822B)
++				ret = phydm_write_txagc_1byte_8822b(pDM_Odm, PowerIndex, Path, HwRate);
++#endif
++#if (RTL8821C_SUPPORT == 1)
++			if (pDM_Odm->SupportICType == ODM_RTL8821C)
++				ret = phydm_write_txagc_1byte_8821c(pDM_Odm, PowerIndex, Path, HwRate);
++#endif
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			SetCurrentTxAGC(pDM_Odm->priv, Path, HwRate, (u1Byte)PowerIndex);
++#endif
++
++		} else {
++			u1Byte	i;
++#if (RTL8822B_SUPPORT == 1)
++			if (pDM_Odm->SupportICType == ODM_RTL8822B)
++				ret = config_phydm_write_txagc_8822b(pDM_Odm, PowerIndex, Path, HwRate);
++#endif
++#if (RTL8821C_SUPPORT == 1)
++			if (pDM_Odm->SupportICType == ODM_RTL8821C)
++				ret = config_phydm_write_txagc_8821c(pDM_Odm, PowerIndex, Path, HwRate);
++#endif
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)		
++			for (i = 0; i < 4; i++)
++				SetCurrentTxAGC(pDM_Odm->priv, Path, (HwRate + i), (u1Byte)PowerIndex);
++#endif
++		}
++	}
++#endif
++
++
++#if (RTL8197F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8197F)
++		ret = config_phydm_write_txagc_8197f(pDM_Odm, PowerIndex, Path, HwRate);
++#endif
++
++	return ret;
++}
++
++u1Byte
++phydm_api_get_txagc(
++	IN	PDM_ODM_T				pDM_Odm,
++	IN	ODM_RF_RADIO_PATH_E	Path,
++	IN	u1Byte					HwRate
++	)
++{
++	u1Byte	ret = 0;
++	
++#if (RTL8822B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		ret = config_phydm_read_txagc_8822b(pDM_Odm, Path, HwRate);
++#endif
++
++#if (RTL8197F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8197F)
++		ret = config_phydm_read_txagc_8197f(pDM_Odm, Path, HwRate);
++#endif
++
++#if (RTL8821C_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8821C)
++		ret = config_phydm_read_txagc_8821c(pDM_Odm, Path, HwRate);
++#endif
++
++	return ret;
++}
++
++
++BOOLEAN
++phydm_api_switch_bw_channel(
++	IN	PDM_ODM_T				pDM_Odm,
++	IN	u1Byte					central_ch,
++	IN	u1Byte					primary_ch_idx,
++	IN	ODM_BW_E				bandwidth
++	)
++{
++	BOOLEAN		ret = FALSE;
++	
++#if (RTL8822B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		ret = config_phydm_switch_channel_bw_8822b(pDM_Odm, central_ch, primary_ch_idx, bandwidth);
++#endif
++
++#if (RTL8197F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8197F)
++		ret = config_phydm_switch_channel_bw_8197f(pDM_Odm, central_ch, primary_ch_idx, bandwidth);
++#endif
++
++#if (RTL8821C_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8821C)
++		ret = config_phydm_switch_channel_bw_8821c(pDM_Odm, central_ch, primary_ch_idx, bandwidth);
++#endif
++
++	return ret;
++}
++
++BOOLEAN
++phydm_api_trx_mode(
++	IN	PDM_ODM_T				pDM_Odm,
++	IN	ODM_RF_PATH_E			TxPath,
++	IN	ODM_RF_PATH_E			RxPath,
++	IN	BOOLEAN					bTx2Path
++	)
++{
++	BOOLEAN		ret = FALSE;
++	
++#if (RTL8822B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		ret = config_phydm_trx_mode_8822b(pDM_Odm, TxPath, RxPath, bTx2Path);
++#endif
++
++#if (RTL8197F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_RTL8197F)
++		ret = config_phydm_trx_mode_8197f(pDM_Odm, TxPath, RxPath, bTx2Path);
++#endif
++
++	return ret;
++}
++#endif
++
++VOID
++phydm_get_per_path_txagc(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			path,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			rate_idx;
++	u1Byte			txagc;
++	u4Byte			used = *_used;
++	u4Byte			out_len = *_out_len;
++
++#if ((RTL8822B_SUPPORT == 1) || (RTL8197F_SUPPORT == 1) || (RTL8821C_SUPPORT == 1))
++	if (((pDM_Odm->SupportICType & (ODM_RTL8822B|ODM_RTL8197F)) && (path <= ODM_RF_PATH_B)) ||
++		((pDM_Odm->SupportICType & (ODM_RTL8821C)) && (path <= ODM_RF_PATH_A))) {
++		for (rate_idx = 0; rate_idx <= 0x53; rate_idx++) {
++			if (rate_idx == ODM_RATE1M)
++				PHYDM_SNPRINTF((output + used, out_len - used, "  %-35s\n", "CCK====>"));
++			else if (rate_idx == ODM_RATE6M)
++				PHYDM_SNPRINTF((output + used, out_len - used, "\n  %-35s\n", "OFDM====>"));
++			else if (rate_idx == ODM_RATEMCS0)
++				PHYDM_SNPRINTF((output + used, out_len - used, "\n  %-35s\n", "HT 1ss====>"));
++			else if (rate_idx == ODM_RATEMCS8)
++				PHYDM_SNPRINTF((output + used, out_len - used, "\n  %-35s\n", "HT 2ss====>"));
++			else if (rate_idx == ODM_RATEMCS16)
++				PHYDM_SNPRINTF((output + used, out_len - used, "\n  %-35s\n", "HT 3ss====>"));
++			else if (rate_idx == ODM_RATEMCS24)
++				PHYDM_SNPRINTF((output + used, out_len - used, "\n  %-35s\n", "HT 4ss====>"));
++			else if (rate_idx == ODM_RATEVHTSS1MCS0)
++				PHYDM_SNPRINTF((output + used, out_len - used, "\n  %-35s\n", "VHT 1ss====>"));
++			else if (rate_idx == ODM_RATEVHTSS2MCS0)
++				PHYDM_SNPRINTF((output + used, out_len - used, "\n  %-35s\n", "VHT 2ss====>"));
++			else if (rate_idx == ODM_RATEVHTSS3MCS0)
++				PHYDM_SNPRINTF((output + used, out_len - used, "\n  %-35s\n", "VHT 3ss====>"));
++			else if (rate_idx == ODM_RATEVHTSS4MCS0)
++				PHYDM_SNPRINTF((output + used, out_len - used, "\n  %-35s\n", "VHT 4ss====>"));
++			
++			txagc = phydm_api_get_txagc(pDM_Odm, (ODM_RF_RADIO_PATH_E) path, rate_idx);
++			if (config_phydm_read_txagc_check(txagc))
++				PHYDM_SNPRINTF((output + used, out_len - used, "  0x%02x    ", txagc));
++			else
++				PHYDM_SNPRINTF((output + used, out_len - used, "  0x%s    ", "xx"));
++		}
++	}
++#endif
++}
++
++
++VOID
++phydm_get_txagc(
++	IN		PVOID			pDM_VOID,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			used = *_used;
++	u4Byte			out_len = *_out_len;
++	
++	/* Path-A */
++	PHYDM_SNPRINTF((output + used, out_len - used, "%-35s\n", "Path-A===================="));
++	phydm_get_per_path_txagc(pDM_Odm, ODM_RF_PATH_A, _used, output, _out_len);
++	
++	/* Path-B */
++	PHYDM_SNPRINTF((output + used, out_len - used, "\n%-35s\n", "Path-B===================="));
++	phydm_get_per_path_txagc(pDM_Odm, ODM_RF_PATH_B, _used, output, _out_len);
++
++	/* Path-C */
++	PHYDM_SNPRINTF((output + used, out_len - used, "\n%-35s\n", "Path-C===================="));
++	phydm_get_per_path_txagc(pDM_Odm, ODM_RF_PATH_C, _used, output, _out_len);
++
++	/* Path-D */
++	PHYDM_SNPRINTF((output + used, out_len - used, "\n%-35s\n", "Path-D===================="));
++	phydm_get_per_path_txagc(pDM_Odm, ODM_RF_PATH_D, _used, output, _out_len);
++
++}
++
++VOID
++phydm_set_txagc(
++	IN		PVOID			pDM_VOID,
++	IN		u4Byte			*const dm_value,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			used = *_used;
++	u4Byte			out_len = *_out_len;
++
++/*dm_value[1] = Path*/
++/*dm_value[2] = HwRate*/
++/*dm_value[3] = PowerIndex*/
++
++#if (RTL8822B_SUPPORT == 1 || RTL8197F_SUPPORT == 1 || RTL8821C_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & (ODM_RTL8822B|ODM_RTL8197F|ODM_RTL8821C)) {
++		if (dm_value[1] <= 1) {
++			if ((u1Byte)dm_value[2] != 0xff) {
++				if (phydm_api_set_txagc(pDM_Odm, dm_value[3], (ODM_RF_RADIO_PATH_E) dm_value[1], (u1Byte)dm_value[2], TRUE))
++					PHYDM_SNPRINTF((output + used, out_len - used, "  %s%d   %s%x%s%x\n", "Write path-", dm_value[1], "rate index-0x", dm_value[2], " = 0x", dm_value[3]));
++				else
++					PHYDM_SNPRINTF((output + used, out_len - used, "  %s%d   %s%x%s\n", "Write path-", (dm_value[1] & 0x1), "rate index-0x", (dm_value[2] & 0x7f), " fail"));
++			} else {
++				u1Byte	i;
++				u4Byte	power_index;
++				BOOLEAN	status = TRUE;
++
++				power_index = (dm_value[3] & 0x3f);
++
++				if (pDM_Odm->SupportICType & (ODM_RTL8822B|ODM_RTL8821C)) {
++					power_index = (power_index << 24)|(power_index << 16)|(power_index << 8)|(power_index);
++
++					for (i = 0; i < ODM_RATEVHTSS2MCS9; i += 4)
++						status = (status & phydm_api_set_txagc(pDM_Odm, power_index, (ODM_RF_RADIO_PATH_E) dm_value[1], i, FALSE));
++				} else if (pDM_Odm->SupportICType & ODM_RTL8197F) {
++					for (i = 0; i <= ODM_RATEMCS15; i++)
++						status = (status & phydm_api_set_txagc(pDM_Odm, power_index, (ODM_RF_RADIO_PATH_E) dm_value[1], i, FALSE));
++				}
++
++				if (status)
++					PHYDM_SNPRINTF((output + used, out_len - used, "  %s%d   %s%x\n", "Write all TXAGC of path-", dm_value[1], " = 0x", dm_value[3]));
++				else
++					PHYDM_SNPRINTF((output + used, out_len - used, "  %s%d   %s\n", "Write all TXAGC of path-", dm_value[1], " fail"));	
++			}
++		} else {
++			PHYDM_SNPRINTF((output + used, out_len - used, "  %s%d   %s%x%s\n", "Write path-", (dm_value[1] & 0x1), "rate index-0x", (dm_value[2] & 0x7f), " fail"));
++		}
++	}
++#endif
++}
++
++VOID
++odm_debug_trace(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char		*output,
++	IN		u4Byte		*_out_len
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			pre_debug_components, one = 1;
++	u4Byte			used = *_used;
++	u4Byte			out_len = *_out_len;
++
++	pre_debug_components = pDM_Odm->DebugComponents;
++
++	PHYDM_SNPRINTF((output + used, out_len - used, "\n%s\n", "================================"));
++	if (dm_value[0] == 100) {
++		PHYDM_SNPRINTF((output + used, out_len - used, "%s\n", "[Debug Message] PhyDM Selection"));
++		PHYDM_SNPRINTF((output + used, out_len - used, "%s\n", "================================"));
++		PHYDM_SNPRINTF((output + used, out_len - used, "00. (( %s ))DIG\n", ((pDM_Odm->DebugComponents & ODM_COMP_DIG) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "01. (( %s ))RA_MASK\n", ((pDM_Odm->DebugComponents & ODM_COMP_RA_MASK) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "02. (( %s ))DYNAMIC_TXPWR\n", ((pDM_Odm->DebugComponents & ODM_COMP_DYNAMIC_TXPWR) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "03. (( %s ))FA_CNT\n", ((pDM_Odm->DebugComponents & ODM_COMP_FA_CNT) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "04. (( %s ))RSSI_MONITOR\n", ((pDM_Odm->DebugComponents & ODM_COMP_RSSI_MONITOR) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "05. (( %s ))SNIFFER\n", ((pDM_Odm->DebugComponents & ODM_COMP_SNIFFER) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "06. (( %s ))ANT_DIV\n", ((pDM_Odm->DebugComponents & ODM_COMP_ANT_DIV) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "07. (( %s ))DFS\n", ((pDM_Odm->DebugComponents & ODM_COMP_DFS) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "08. (( %s ))NOISY_DETECT\n", ((pDM_Odm->DebugComponents & ODM_COMP_NOISY_DETECT) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "09. (( %s ))RATE_ADAPTIVE\n", ((pDM_Odm->DebugComponents & ODM_COMP_RATE_ADAPTIVE) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "10. (( %s ))PATH_DIV\n", ((pDM_Odm->DebugComponents & ODM_COMP_PATH_DIV) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "12. (( %s ))DYNAMIC_PRICCA\n", ((pDM_Odm->DebugComponents & ODM_COMP_DYNAMIC_PRICCA) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "14. (( %s ))MP\n", ((pDM_Odm->DebugComponents & ODM_COMP_MP) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "15. (( %s ))CFO_TRACKING\n", ((pDM_Odm->DebugComponents & ODM_COMP_CFO_TRACKING) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "16. (( %s ))ACS\n", ((pDM_Odm->DebugComponents & ODM_COMP_ACS) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "17. (( %s ))ADAPTIVITY\n", ((pDM_Odm->DebugComponents & PHYDM_COMP_ADAPTIVITY) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "18. (( %s ))RA_DBG\n", ((pDM_Odm->DebugComponents & PHYDM_COMP_RA_DBG) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "19. (( %s ))TXBF\n", ((pDM_Odm->DebugComponents & PHYDM_COMP_TXBF) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "20. (( %s ))EDCA_TURBO\n", ((pDM_Odm->DebugComponents & ODM_COMP_EDCA_TURBO) ? ("V") : ("."))));
++
++		PHYDM_SNPRINTF((output + used, out_len - used, "22. (( %s ))FW_DEBUG_TRACE\n", ((pDM_Odm->DebugComponents & ODM_FW_DEBUG_TRACE) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "24. (( %s ))TX_PWR_TRACK\n", ((pDM_Odm->DebugComponents & ODM_COMP_TX_PWR_TRACK) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "25. (( %s ))RX_GAIN_TRACK\n", ((pDM_Odm->DebugComponents & ODM_COMP_RX_GAIN_TRACK) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "26. (( %s ))CALIBRATION\n", ((pDM_Odm->DebugComponents & ODM_COMP_CALIBRATION) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "28. (( %s ))PHY_CONFIG\n", ((pDM_Odm->DebugComponents & ODM_PHY_CONFIG) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "29. (( %s ))INIT\n", ((pDM_Odm->DebugComponents & ODM_COMP_INIT) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "30. (( %s ))COMMON\n", ((pDM_Odm->DebugComponents & ODM_COMP_COMMON) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "31. (( %s ))API\n", ((pDM_Odm->DebugComponents & ODM_COMP_API) ? ("V") : ("."))));
++		PHYDM_SNPRINTF((output + used, out_len - used, "%s\n", "================================"));
++
++	} else if (dm_value[0] == 101) {
++		pDM_Odm->DebugComponents = 0;
++		PHYDM_SNPRINTF((output + used, out_len - used, "%s\n", "Disable all debug components"));
++	} else {
++		if (dm_value[1] == 1) { /*enable*/
++			pDM_Odm->DebugComponents |= (one << dm_value[0]);
++
++			if (dm_value[0] == 22) { /*FW trace function*/
++				phydm_fw_trace_en_h2c(pDM_Odm, 1, dm_value[2], dm_value[3]); /*H2C to enable C2H Msg*/
++			}
++		} else if (dm_value[1] == 2) { /*disable*/
++			pDM_Odm->DebugComponents &= ~(one << dm_value[0]);
++
++			if (dm_value[0] == 22) { /*FW trace function*/
++				phydm_fw_trace_en_h2c(pDM_Odm, 0, dm_value[2], dm_value[3]); /*H2C to disable C2H Msg*/
++			}
++		} else
++			PHYDM_SNPRINTF((output + used, out_len - used, "%s\n", "[Warning!!!]  1:enable,  2:disable"));
++	}
++	PHYDM_SNPRINTF((output + used, out_len - used, "pre-DbgComponents = 0x%x\n", pre_debug_components));
++	PHYDM_SNPRINTF((output + used, out_len - used, "Curr-DbgComponents = 0x%x\n", pDM_Odm->DebugComponents));
++	PHYDM_SNPRINTF((output + used, out_len - used, "%s\n", "================================"));
++}
++
++VOID
++phydm_DumpBbReg(
++	IN		PVOID			pDM_VOID,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			Addr = 0;
++	u4Byte			used = *_used;
++	u4Byte			out_len = *_out_len;
++
++	
++	/* BB Reg, For Nseries IC we only need to dump page8 to pageF using 3 digits*/
++	for (Addr = 0x800; Addr < 0xfff; Addr += 4) {
++		if (pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++			PHYDM_VAST_INFO_SNPRINTF((output+used, out_len-used, "0x%03x 0x%08x,\n", Addr, ODM_GetBBReg(pDM_Odm, Addr, bMaskDWord)));
++		else
++			PHYDM_VAST_INFO_SNPRINTF((output+used, out_len-used, "0x%04x 0x%08x,\n", Addr, ODM_GetBBReg(pDM_Odm, Addr, bMaskDWord)));
++	}
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8822B | ODM_RTL8814A | ODM_RTL8821C)) {
++
++		if (pDM_Odm->RFType > ODM_2T2R) {
++			for (Addr = 0x1800; Addr < 0x18ff; Addr += 4)
++				PHYDM_VAST_INFO_SNPRINTF((output+used, out_len-used, "0x%04x 0x%08x,\n", Addr, ODM_GetBBReg(pDM_Odm, Addr, bMaskDWord)));
++		}
++
++		if (pDM_Odm->RFType > ODM_3T3R) {
++			for (Addr = 0x1a00; Addr < 0x1aff; Addr += 4)
++				PHYDM_VAST_INFO_SNPRINTF((output+used, out_len-used, "0x%04x 0x%08x,\n", Addr, ODM_GetBBReg(pDM_Odm, Addr, bMaskDWord)));
++		}
++
++		for (Addr = 0x1900; Addr < 0x19ff; Addr += 4)
++			PHYDM_VAST_INFO_SNPRINTF((output+used, out_len-used, "0x%04x 0x%08x,\n", Addr, ODM_GetBBReg(pDM_Odm, Addr, bMaskDWord)));
++
++		for (Addr = 0x1c00; Addr < 0x1cff; Addr += 4)
++			PHYDM_VAST_INFO_SNPRINTF((output+used, out_len-used, "0x%04x 0x%08x,\n", Addr, ODM_GetBBReg(pDM_Odm, Addr, bMaskDWord)));
++
++		for (Addr = 0x1f00; Addr < 0x1fff; Addr += 4)
++			PHYDM_VAST_INFO_SNPRINTF((output+used, out_len-used, "0x%04x 0x%08x,\n", Addr, ODM_GetBBReg(pDM_Odm, Addr, bMaskDWord)));
++	}
++}
++
++VOID
++phydm_DumpAllReg(
++	IN		PVOID			pDM_VOID,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			Addr = 0;
++	u4Byte			used = *_used;
++	u4Byte			out_len = *_out_len;
++
++	/* dump MAC register */
++	PHYDM_VAST_INFO_SNPRINTF((output+used, out_len-used, "MAC==========\n"));
++	for (Addr = 0; Addr < 0x7ff; Addr += 4)
++		PHYDM_VAST_INFO_SNPRINTF((output+used, out_len-used, "0x%04x 0x%08x,\n", Addr, ODM_GetBBReg(pDM_Odm, Addr, bMaskDWord)));
++
++	for (Addr = 0x1000; Addr < 0x17ff; Addr += 4)
++		PHYDM_VAST_INFO_SNPRINTF((output+used, out_len-used, "0x%04x 0x%08x,\n", Addr, ODM_GetBBReg(pDM_Odm, Addr, bMaskDWord)));
++
++	/* dump BB register */
++	PHYDM_VAST_INFO_SNPRINTF((output+used, out_len-used, "BB==========\n"));
++	phydm_DumpBbReg(pDM_Odm, &used, output, &out_len);
++
++	/* dump RF register */
++	PHYDM_VAST_INFO_SNPRINTF((output+used, out_len-used, "RF-A==========\n"));
++	for (Addr = 0; Addr < 0xFF; Addr++)
++		PHYDM_VAST_INFO_SNPRINTF((output+used, out_len-used, "0x%02x 0x%05x,\n", Addr, ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, Addr, bRFRegOffsetMask)));
++
++	if (pDM_Odm->RFType > ODM_1T1R) {
++		PHYDM_VAST_INFO_SNPRINTF((output+used, out_len-used, "RF-B==========\n"));
++		for (Addr = 0; Addr < 0xFF; Addr++)
++			PHYDM_VAST_INFO_SNPRINTF((output+used, out_len-used, "0x%02x 0x%05x,\n", Addr, ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_B, Addr, bRFRegOffsetMask)));
++	}
++
++	if (pDM_Odm->RFType > ODM_2T2R) {
++		PHYDM_VAST_INFO_SNPRINTF((output+used, out_len-used, "RF-C==========\n"));
++		for (Addr = 0; Addr < 0xFF; Addr++)
++			PHYDM_VAST_INFO_SNPRINTF((output+used, out_len-used, "0x%02x 0x%05x,\n", Addr, ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_C, Addr, bRFRegOffsetMask)));
++	}
++
++	if (pDM_Odm->RFType > ODM_3T3R) {
++		PHYDM_VAST_INFO_SNPRINTF((output+used, out_len-used, "RF-D==========\n"));
++		for (Addr = 0; Addr < 0xFF; Addr++)
++			PHYDM_VAST_INFO_SNPRINTF((output+used, out_len-used, "0x%02x 0x%05x,\n", Addr, ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_D, Addr, bRFRegOffsetMask)));
++	}
++}
++
++VOID
++phydm_EnableBigJump(
++	IN	PDM_ODM_T	pDM_Odm,
++	IN	BOOLEAN		state
++	)
++{
++#if (RTL8822B_SUPPORT == 1)
++	pDIG_T			pDM_DigTable = &pDM_Odm->DM_DigTable;
++
++	if (state == FALSE) {
++		pDM_Odm->DM_DigTable.enableAdjustBigJump = FALSE;
++		ODM_SetBBReg(pDM_Odm, 0x8c8, 0xfe, ((pDM_DigTable->bigJumpStep3<<5)|(pDM_DigTable->bigJumpStep2<<3)|pDM_DigTable->bigJumpStep1));
++	} else
++		pDM_Odm->DM_DigTable.enableAdjustBigJump = TRUE;
++#endif
++}
++
++#if (RTL8822B_SUPPORT == 1)  
++
++VOID
++phydm_showRxRate(
++	IN	PDM_ODM_T			pDM_Odm,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++	)
++{
++	u4Byte			used = *_used;
++	u4Byte			out_len = *_out_len;
++
++	PHYDM_SNPRINTF((output+used, out_len-used, "=====Rx SU Rate Statistics=====\n"));
++	PHYDM_SNPRINTF((output+used, out_len-used, "1SS MCS0 = %d, 1SS MCS1 = %d, 1SS MCS2 = %d, 1SS MCS 3 = %d\n",
++		pDM_Odm->PhyDbgInfo.NumQryVhtPkt[0], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[1], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[2], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[3]));
++	PHYDM_SNPRINTF((output+used, out_len-used, "1SS MCS4 = %d, 1SS MCS5 = %d, 1SS MCS6 = %d, 1SS MCS 7 = %d\n",
++		pDM_Odm->PhyDbgInfo.NumQryVhtPkt[4], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[5], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[6], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[7]));
++	PHYDM_SNPRINTF((output+used, out_len-used, "1SS MCS8 = %d, 1SS MCS9 = %d\n",
++		pDM_Odm->PhyDbgInfo.NumQryVhtPkt[8], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[9]));
++	PHYDM_SNPRINTF((output+used, out_len-used, "2SS MCS0 = %d, 2SS MCS1 = %d, 2SS MCS2 = %d, 2SS MCS 3 = %d\n",
++		pDM_Odm->PhyDbgInfo.NumQryVhtPkt[10], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[11], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[12], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[13]));
++	PHYDM_SNPRINTF((output+used, out_len-used, "2SS MCS4 = %d, 2SS MCS5 = %d, 2SS MCS6 = %d, 2SS MCS 7 = %d\n",
++		pDM_Odm->PhyDbgInfo.NumQryVhtPkt[14], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[15], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[16], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[17]));
++	PHYDM_SNPRINTF((output+used, out_len-used, "2SS MCS8 = %d, 2SS MCS9 = %d\n",
++		pDM_Odm->PhyDbgInfo.NumQryVhtPkt[18], pDM_Odm->PhyDbgInfo.NumQryVhtPkt[19]));
++			
++	PHYDM_SNPRINTF((output+used, out_len-used, "=====Rx MU Rate Statistics=====\n"));
++	PHYDM_SNPRINTF((output+used, out_len-used, "1SS MCS0 = %d, 1SS MCS1 = %d, 1SS MCS2 = %d, 1SS MCS 3 = %d\n",
++		pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[0], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[1], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[2], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[3]));
++	PHYDM_SNPRINTF((output+used, out_len-used, "1SS MCS4 = %d, 1SS MCS5 = %d, 1SS MCS6 = %d, 1SS MCS 7 = %d\n",
++		pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[4], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[5], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[6], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[7]));
++	PHYDM_SNPRINTF((output+used, out_len-used, "1SS MCS8 = %d, 1SS MCS9 = %d\n",
++		pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[8], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[9]));
++	PHYDM_SNPRINTF((output+used, out_len-used, "2SS MCS0 = %d, 2SS MCS1 = %d, 2SS MCS2 = %d, 2SS MCS 3 = %d\n",
++		pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[10], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[11], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[12], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[13]));
++	PHYDM_SNPRINTF((output+used, out_len-used, "2SS MCS4 = %d, 2SS MCS5 = %d, 2SS MCS6 = %d, 2SS MCS 7 = %d\n",
++		pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[14], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[15], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[16], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[17]));
++	PHYDM_SNPRINTF((output+used, out_len-used, "2SS MCS8 = %d, 2SS MCS9 = %d\n",
++		pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[18], pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[19]));
++
++}
++
++#endif
++
++
++struct _PHYDM_COMMAND {
++	char name[16];
++	u1Byte id;
++};
++
++enum PHYDM_CMD_ID {
++	PHYDM_DEMO,
++	PHYDM_RA,
++	PHYDM_PROFILE,
++	PHYDM_ANTDIV,
++	PHYDM_PATHDIV,
++	PHYDM_DEBUG,
++	PHYDM_SUPPORT_ABILITY,
++	PHYDM_GET_TXAGC,
++	PHYDM_SET_TXAGC,
++	PHYDM_SMART_ANT,
++	PHYDM_API,
++	PHYDM_TRX_PATH,
++	PHYDM_LA_MODE,
++	PHYDM_DUMP_REG,
++	PHYDM_MU_MIMO,
++	PHYDM_HANG,
++	PHYDM_BIG_JUMP,
++	PHYDM_SHOW_RXRATE,
++	PHYDM_NBI_EN,
++	PHYDM_CSI_MASK_EN,
++	PHYDM_DFS,
++	PHYDM_IQK,
++	PHYDM_NHM,
++	PHYDM_CLM,
++	PHYDM_BB_INFO,
++	PHYDM_TXBF
++};
++
++struct _PHYDM_COMMAND phy_dm_ary[] = {
++	{"demo", PHYDM_DEMO},
++	{"ra", PHYDM_RA},
++	{"profile", PHYDM_PROFILE},
++	{"antdiv", PHYDM_ANTDIV},
++	{"pathdiv", PHYDM_PATHDIV},
++	{"dbg", PHYDM_DEBUG},
++	{"ability", PHYDM_SUPPORT_ABILITY},
++	{"get_txagc", PHYDM_GET_TXAGC},
++	{"set_txagc", PHYDM_SET_TXAGC},
++	{"smtant", PHYDM_SMART_ANT},
++	{"api", PHYDM_API},
++	{"trxpath", PHYDM_TRX_PATH},
++	{"lamode", PHYDM_LA_MODE},
++	{"dumpreg", PHYDM_DUMP_REG},
++	{"mu", PHYDM_MU_MIMO},
++	{"hang", PHYDM_HANG},
++	{"bigjump", PHYDM_BIG_JUMP},
++	{"rxrate", PHYDM_SHOW_RXRATE},
++	{"nbi", PHYDM_NBI_EN},
++	{"csi_mask", PHYDM_CSI_MASK_EN},
++	{"dfs", PHYDM_DFS},
++	{"iqk", PHYDM_IQK},
++	{"nhm", PHYDM_NHM},
++	{"clm", PHYDM_CLM},
++	{"bbinfo", PHYDM_BB_INFO},
++	{"txbf", PHYDM_TXBF}
++};
++
++VOID
++phydm_cmd_parser(
++	IN PDM_ODM_T	pDM_Odm,
++	IN char		input[][MAX_ARGV],
++	IN u4Byte	input_num,
++	IN u1Byte	flag,
++	OUT char	*output,
++	IN u4Byte	out_len
++)
++{
++	u4Byte used = 0;
++	u1Byte id = 0;
++	int var1[10] = {0};
++	int i, input_idx = 0;
++
++	if (flag == 0) {
++		PHYDM_SNPRINTF((output + used, out_len - used, "GET, nothing to print\n"));
++		return;
++	}
++
++	PHYDM_SNPRINTF((output + used, out_len - used, "\n"));
++
++	//Parsing Cmd ID
++	if (input_num) {
++		int n, i;
++
++		n = sizeof(phy_dm_ary) / sizeof(struct _PHYDM_COMMAND);
++		for (i = 0; i < n; i++) {
++			if (strcmp(phy_dm_ary[i].name, input[0]) == 0) {
++				id = phy_dm_ary[i].id;
++				break;
++			}
++		}
++		if (i == n) {
++			PHYDM_SNPRINTF((output + used, out_len - used, "SET, command not found!\n"));
++			return;
++		}
++	}
++
++	switch (id) {
++	case PHYDM_DEMO: /*echo demo 10 0x3a z abcde >cmd*/
++			{
++				u4Byte   directory = 0;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_AP))				
++				char   char_temp;
++#else
++				u4Byte char_temp = ' ';
++#endif
++		PHYDM_SSCANF(input[1], DCMD_DECIMAL, &directory);
++		PHYDM_SNPRINTF((output + used, out_len - used, "Decimal Value = %d\n", directory));
++		PHYDM_SSCANF(input[2], DCMD_HEX, &directory);
++		PHYDM_SNPRINTF((output + used, out_len - used, "Hex Value = 0x%x\n", directory));
++		PHYDM_SSCANF(input[3], DCMD_CHAR, &char_temp);
++		PHYDM_SNPRINTF((output + used, out_len - used, "Char = %c\n", char_temp));
++		PHYDM_SNPRINTF((output + used, out_len - used, "String = %s\n", input[4]));
++	}
++	break;
++
++	case PHYDM_RA:
++
++		for (i = 0; i < 5; i++) {
++			if (input[i + 1]) {
++				PHYDM_SSCANF(input[i + 1], DCMD_DECIMAL, &var1[i]);
++
++				/*PHYDM_SNPRINTF((output + used, out_len - used, "new SET, RA_var[%d]= (( %d ))\n", i , var1[i]));*/
++				input_idx++;
++			}
++		}
++
++		if (input_idx >= 1) {
++			/*PHYDM_SNPRINTF((output+used, out_len-used, "odm_RA_debug\n"));*/
++			#if (defined(CONFIG_RA_DBG_CMD))
++			odm_RA_debug((PVOID)pDM_Odm, (pu4Byte) var1);
++			#else
++			phydm_RA_debug_PCR(pDM_Odm, (u4Byte *)var1, &used, output, &out_len);
++			#endif
++		}
++
++
++		break;
++		
++	case PHYDM_ANTDIV:
++
++		for (i = 0; i < 5; i++) {
++			if (input[i + 1]) {
++				PHYDM_SSCANF(input[i + 1], DCMD_HEX, &var1[i]);
++
++				/*PHYDM_SNPRINTF((output+used, out_len-used, "new SET, PATHDIV_var[%d]= (( %d ))\n", i , var1[i]));*/
++				input_idx++;
++			}
++		}
++
++		if (input_idx >= 1) {
++			/*PHYDM_SNPRINTF((output+used, out_len-used, "odm_PATHDIV_debug\n"));*/
++			#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++			phydm_antdiv_debug(pDM_Odm, (u4Byte *)var1, &used, output, &out_len);
++			#endif
++		}
++
++		break;
++
++	case PHYDM_PATHDIV:
++
++		for (i = 0; i < 5; i++) {
++			if (input[i + 1]) {
++				PHYDM_SSCANF(input[i + 1], DCMD_HEX, &var1[i]);
++
++				/*PHYDM_SNPRINTF((output+used, out_len-used, "new SET, PATHDIV_var[%d]= (( %d ))\n", i , var1[i]));*/
++				input_idx++;
++			}
++		}
++
++		if (input_idx >= 1) {
++			/*PHYDM_SNPRINTF((output+used, out_len-used, "odm_PATHDIV_debug\n"));*/
++#if (defined(CONFIG_PATH_DIVERSITY))
++			odm_pathdiv_debug(pDM_Odm, (u4Byte *)var1, &used, output, &out_len);
++#endif
++		}
++
++		break;
++
++	case PHYDM_DEBUG:
++
++		for (i = 0; i < 5; i++) {
++			if (input[i + 1]) {
++				PHYDM_SSCANF(input[i + 1], DCMD_DECIMAL, &var1[i]);
++
++				/*PHYDM_SNPRINTF((output+used, out_len-used, "new SET, Debug_var[%d]= (( %d ))\n", i , var1[i]));*/
++				input_idx++;
++			}
++		}
++
++		if (input_idx >= 1) {
++			/*PHYDM_SNPRINTF((output+used, out_len-used, "odm_debug_comp\n"));*/
++			odm_debug_trace(pDM_Odm, (u4Byte *)var1, &used, output, &out_len);
++		}
++
++
++		break;
++
++	case PHYDM_SUPPORT_ABILITY:
++
++		for (i = 0; i < 5; i++) {
++			if (input[i + 1]) {
++				PHYDM_SSCANF(input[i + 1], DCMD_DECIMAL, &var1[i]);
++
++				/*PHYDM_SNPRINTF((output+used, out_len-used, "new SET, support ablity_var[%d]= (( %d ))\n", i , var1[i]));*/
++				input_idx++;
++			}
++		}
++
++		if (input_idx >= 1) {
++			/*PHYDM_SNPRINTF((output+used, out_len-used, "support ablity\n"));*/
++			phydm_support_ability_debug(pDM_Odm, (u4Byte *)var1, &used, output, &out_len);
++		}
++
++		break;
++		
++	case PHYDM_SMART_ANT:
++
++		for (i = 0; i < 5; i++) {
++			if (input[i + 1]) {
++				PHYDM_SSCANF(input[i + 1], DCMD_HEX, &var1[i]);
++				input_idx++;
++			}
++		}
++
++		if (input_idx >= 1) {
++			#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++			#ifdef CONFIG_HL_SMART_ANTENNA_TYPE1
++			phydm_hl_smart_ant_debug(pDM_Odm, (u4Byte *)var1, &used, output, &out_len);
++			#endif
++			#endif
++		}
++
++		break;
++
++	case PHYDM_API:
++#if (RTL8822B_SUPPORT == 1 || RTL8197F_SUPPORT == 1 || RTL8821C_SUPPORT == 1)
++	{
++		if (pDM_Odm->SupportICType & (ODM_RTL8822B|ODM_RTL8197F | ODM_RTL8821C)) {
++			BOOLEAN	bEnableDbgMode;
++			u1Byte central_ch, primary_ch_idx, bandwidth;
++			
++			for (i = 0; i < 4; i++) {
++				if (input[i + 1])
++					PHYDM_SSCANF(input[i + 1], DCMD_DECIMAL, &var1[i]);
++			}
++			
++			bEnableDbgMode = (BOOLEAN)var1[0];
++			central_ch = (u1Byte) var1[1];
++			primary_ch_idx = (u1Byte) var1[2];
++			bandwidth = (ODM_BW_E) var1[3];
++
++			if (bEnableDbgMode) {
++				pDM_Odm->bDisablePhyApi = FALSE;
++				phydm_api_switch_bw_channel(pDM_Odm, central_ch, primary_ch_idx, (ODM_BW_E) bandwidth);
++				pDM_Odm->bDisablePhyApi = TRUE;
++				PHYDM_SNPRINTF((output+used, out_len-used, "central_ch = %d, primary_ch_idx = %d, bandwidth = %d\n", central_ch, primary_ch_idx, bandwidth));
++			} else {
++				pDM_Odm->bDisablePhyApi = FALSE;
++				PHYDM_SNPRINTF((output+used, out_len-used, "Disable API debug mode\n"));
++			}
++		} else
++			PHYDM_SNPRINTF((output+used, out_len-used, "This IC doesn't support PHYDM API function\n"));
++	}
++#else
++		PHYDM_SNPRINTF((output+used, out_len-used, "This IC doesn't support PHYDM API function\n"));
++#endif
++		break;	
++		
++	case PHYDM_PROFILE: /*echo profile, >cmd*/
++		phydm_BasicProfile(pDM_Odm, &used, output, &out_len);
++		break;
++
++	case PHYDM_GET_TXAGC:
++		phydm_get_txagc(pDM_Odm, &used, output, &out_len);
++		break;
++		
++	case PHYDM_SET_TXAGC:
++	{
++		BOOLEAN		bEnableDbgMode;
++		
++		for (i = 0; i < 5; i++) {
++			if (input[i + 1]) {
++				PHYDM_SSCANF(input[i + 1], DCMD_DECIMAL, &var1[i]);
++				input_idx++;
++			}
++		}
++
++		bEnableDbgMode = (BOOLEAN)var1[0];
++		if (bEnableDbgMode) {
++			pDM_Odm->bDisablePhyApi = FALSE;
++			phydm_set_txagc(pDM_Odm, (u4Byte *)var1, &used, output, &out_len);
++			pDM_Odm->bDisablePhyApi = TRUE;
++		} else {
++			pDM_Odm->bDisablePhyApi = FALSE;
++			PHYDM_SNPRINTF((output+used, out_len-used, "Disable API debug mode\n"));
++		}
++	}
++		break;
++		
++	case PHYDM_TRX_PATH:
++
++		for (i = 0; i < 4; i++) {
++			if (input[i + 1])
++				PHYDM_SSCANF(input[i + 1], DCMD_DECIMAL, &var1[i]);
++		}
++		#if (RTL8822B_SUPPORT == 1 || RTL8197F_SUPPORT == 1)
++		if (pDM_Odm->SupportICType & (ODM_RTL8822B|ODM_RTL8197F)) {
++			u1Byte		TxPath, RxPath;
++			BOOLEAN		bEnableDbgMode, bTx2Path;
++			
++			bEnableDbgMode = (BOOLEAN)var1[0];
++			TxPath = (u1Byte) var1[1];
++			RxPath = (u1Byte) var1[2];
++			bTx2Path = (BOOLEAN) var1[3];
++
++			if (bEnableDbgMode) {
++				pDM_Odm->bDisablePhyApi = FALSE;
++				phydm_api_trx_mode(pDM_Odm, (ODM_RF_PATH_E) TxPath, (ODM_RF_PATH_E) RxPath, bTx2Path);
++				pDM_Odm->bDisablePhyApi = TRUE;
++				PHYDM_SNPRINTF((output+used, out_len-used, "TxPath = 0x%x, RxPath = 0x%x, bTx2Path = %d\n", TxPath, RxPath, bTx2Path));
++			} else {
++				pDM_Odm->bDisablePhyApi = FALSE;
++				PHYDM_SNPRINTF((output+used, out_len-used, "Disable API debug mode\n"));
++			}
++		} else
++		#endif
++			phydm_config_trx_path(pDM_Odm, (u4Byte *)var1, &used, output, &out_len);
++
++		break;
++
++	case PHYDM_LA_MODE:
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_AP))
++#if ((RTL8822B_SUPPORT == 1) || (RTL8814A_SUPPORT == 1) || (RTL8197F_SUPPORT == 1) || (RTL8821C_SUPPORT == 1))
++	{
++		if (pDM_Odm->SupportICType & PHYDM_IC_SUPPORT_LA_MODE) {
++			u2Byte		PollingTime;
++			u1Byte		TrigSel, TrigSigSel, DmaDataSigSel, TriggerTime;
++			BOOLEAN		bEnableLaMode, bTriggerEdge;
++			u4Byte		DbgPort;
++
++			for (i = 0; i < 6; i++) {
++				if (input[i + 1])
++					PHYDM_SSCANF(input[i + 1], DCMD_DECIMAL, &var1[i]);
++			}
++
++			bEnableLaMode = (BOOLEAN)var1[0];
++			if (bEnableLaMode) {
++				TrigSel = (u1Byte)var1[1]; /*0: BB, 1: MAC*/
++				TrigSigSel = (u1Byte)var1[2];
++				DmaDataSigSel = (u1Byte)var1[3];
++				TriggerTime = (u1Byte)var1[4]; /*unit: us*/
++				PollingTime = (((u1Byte)var1[5]) << 6); /*unit: ms*/
++				PHYDM_SSCANF(input[7], DCMD_HEX, &var1[6]);
++				PHYDM_SSCANF(input[8], DCMD_DECIMAL, &var1[7]);
++				if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) {
++					DbgPort = (u4Byte)var1[6];
++					ODM_SetBBReg(pDM_Odm, 0x198C , BIT2|BIT1|BIT0, 7); /*disable dbg clk gating*/
++					ODM_SetBBReg(pDM_Odm, 0x8FC, bMaskDWord, DbgPort);
++					bTriggerEdge = (BOOLEAN) var1[7];
++					ODM_SetBBReg(pDM_Odm, 0x95C , BIT31, bTriggerEdge); /*0: posedge, 1: negedge*/
++				} else {
++					DbgPort = (u4Byte)var1[6];
++					ODM_SetBBReg(pDM_Odm, 0x908, bMaskDWord, DbgPort);
++					bTriggerEdge = (BOOLEAN) var1[7];
++					ODM_SetBBReg(pDM_Odm, 0x9A0 , BIT31, bTriggerEdge); /*0: posedge, 1: negedge*/
++				}
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++				ADCSmp_Set(pDM_Odm->Adapter, (RT_ADCSMP_TRIG_SEL) TrigSel, (RT_ADCSMP_TRIG_SIG_SEL) TrigSigSel, DmaDataSigSel, TriggerTime, PollingTime);
++#else
++				ADCSmp_Set(pDM_Odm, (RT_ADCSMP_TRIG_SEL) TrigSel, (RT_ADCSMP_TRIG_SIG_SEL) TrigSigSel, DmaDataSigSel, TriggerTime, PollingTime);
++#endif
++				PHYDM_SNPRINTF((output+used, out_len-used, "TrigSel = %d, TrigSigSel = %d, DmaDataSigSel = %d\n", TrigSel, TrigSigSel, DmaDataSigSel));
++				PHYDM_SNPRINTF((output+used, out_len-used, "TriggerTime = %d, PollingTime = %d\n", TriggerTime, PollingTime));
++			} else {
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++				ADCSmp_Stop(pDM_Odm->Adapter);
++#else
++				ADCSmp_Stop(pDM_Odm);
++#endif
++				PHYDM_SNPRINTF((output+used, out_len-used, "Disable LA mode\n"));
++			}
++		} else
++			PHYDM_SNPRINTF((output+used, out_len-used, "This IC doesn't support LA mode\n"));
++	}
++#else
++		PHYDM_SNPRINTF((output+used, out_len-used, "This IC doesn't support LA mode\n"));
++#endif
++#else
++		PHYDM_SNPRINTF((output+used, out_len-used, "This IC doesn't support LA mode\n"));
++#endif
++		break;
++
++	case PHYDM_DUMP_REG:
++	{
++		u1Byte	type = 0;
++		
++		if (input[1]) {
++			PHYDM_SSCANF(input[1], DCMD_DECIMAL, &var1[0]);
++			type = (u1Byte)var1[0];
++		}
++
++		if (type == 0)
++			phydm_DumpBbReg(pDM_Odm, &used, output, &out_len);
++		else if (type == 1)
++			phydm_DumpAllReg(pDM_Odm, &used, output, &out_len);
++	}
++		break;
++
++	case PHYDM_MU_MIMO:
++#if (RTL8822B_SUPPORT == 1)
++		
++		if (input[1])
++			PHYDM_SSCANF(input[1], DCMD_DECIMAL, &var1[0]);
++		else
++			var1[0] = 0;
++		
++		if (var1[0] == 1) {
++			int index, ptr;
++			u4Byte Dword_H, Dword_L;
++
++			PHYDM_SNPRINTF((output+used, out_len-used, "Get MU BFee CSI\n"));
++			ODM_SetBBReg(pDM_Odm, 0x9e8, BIT17|BIT16, 2); /*Read BFee*/
++			ODM_SetBBReg(pDM_Odm, 0x1910, BIT15, 1); /*Select BFee's CSI report*/
++			ODM_SetBBReg(pDM_Odm, 0x19b8, BIT6, 1); /*set as CSI report*/
++			ODM_SetBBReg(pDM_Odm, 0x19a8, 0xFFFF, 0xFFFF); /*disable gated_clk*/
++
++			for (index = 0; index < 80; index++) {
++				ptr = index + 256;
++				if (ptr > 311)
++					ptr -= 312;
++				ODM_SetBBReg(pDM_Odm, 0x1910, 0x03FF0000, ptr); /*Select Address*/
++				Dword_H = ODM_GetBBReg(pDM_Odm, 0xF74, bMaskDWord);
++				Dword_L = ODM_GetBBReg(pDM_Odm, 0xF5C, bMaskDWord);
++				if (index % 2 == 0)
++					PHYDM_SNPRINTF((output+used, out_len-used, "%02x  %02x  %02x  %02x  %02x  %02x  %02x  %02x\n", 
++					Dword_L & bMaskByte0, (Dword_L & bMaskByte1) >> 8, (Dword_L & bMaskByte2) >> 16, (Dword_L & bMaskByte3) >> 24,
++					Dword_H & bMaskByte0, (Dword_H & bMaskByte1) >> 8, (Dword_H & bMaskByte2) >> 16, (Dword_H & bMaskByte3) >> 24));
++				else
++					PHYDM_SNPRINTF((output+used, out_len-used, "%02x  %02x  %02x  %02x  %02x  %02x  %02x  %02x\n", 
++					Dword_L & bMaskByte0, (Dword_L & bMaskByte1) >> 8, (Dword_L & bMaskByte2) >> 16, (Dword_L & bMaskByte3) >> 24,
++					Dword_H & bMaskByte0, (Dword_H & bMaskByte1) >> 8, (Dword_H & bMaskByte2) >> 16, (Dword_H & bMaskByte3) >> 24));
++			}
++		} else if (var1[0] == 2) {
++			int index, ptr;
++			u4Byte Dword_H, Dword_L;
++
++			PHYDM_SSCANF(input[2], DCMD_DECIMAL, &var1[1]);
++			PHYDM_SNPRINTF((output+used, out_len-used, "Get MU BFer's STA%d CSI\n", var1[1]));
++			ODM_SetBBReg(pDM_Odm, 0x9e8, BIT24, 0); /*Read BFer*/
++			ODM_SetBBReg(pDM_Odm, 0x9e8, BIT25, 1); /*enable Read/Write RAM*/
++			ODM_SetBBReg(pDM_Odm, 0x9e8, BIT30|BIT29|BIT28, var1[1]); /*read which STA's CSI report*/
++			ODM_SetBBReg(pDM_Odm, 0x1910, BIT15, 0); /*select BFer's CSI*/
++			ODM_SetBBReg(pDM_Odm, 0x19e0, 0x00003FC0, 0xFF); /*disable gated_clk*/
++
++			for (index = 0; index < 80; index++) {
++				ptr = index + 256;
++				if (ptr > 311)
++					ptr -= 312;
++				ODM_SetBBReg(pDM_Odm, 0x1910, 0x03FF0000, ptr); /*Select Address*/
++				Dword_H = ODM_GetBBReg(pDM_Odm, 0xF74, bMaskDWord);
++				Dword_L = ODM_GetBBReg(pDM_Odm, 0xF5C, bMaskDWord);
++				if (index % 2 == 0)
++					PHYDM_SNPRINTF((output+used, out_len-used, "%02x  %02x  %02x  %02x  %02x  %02x  %02x  %02x\n", 
++					Dword_L & bMaskByte0, (Dword_L & bMaskByte1) >> 8, (Dword_L & bMaskByte2) >> 16, (Dword_L & bMaskByte3) >> 24,
++					Dword_H & bMaskByte0, (Dword_H & bMaskByte1) >> 8, (Dword_H & bMaskByte2) >> 16, (Dword_H & bMaskByte3) >> 24));
++				else
++					PHYDM_SNPRINTF((output+used, out_len-used, "%02x  %02x  %02x  %02x  %02x  %02x  %02x  %02x\n", 
++					Dword_L & bMaskByte0, (Dword_L & bMaskByte1) >> 8, (Dword_L & bMaskByte2) >> 16, (Dword_L & bMaskByte3) >> 24,
++					Dword_H & bMaskByte0, (Dword_H & bMaskByte1) >> 8, (Dword_H & bMaskByte2) >> 16, (Dword_H & bMaskByte3) >> 24));
++				
++				PHYDM_SNPRINTF((output+used, out_len-used, "ptr=%d : 0x%8x  %8x\n", ptr, Dword_H, Dword_L));
++			}
++
++		}
++#endif
++		break;
++
++	case PHYDM_BIG_JUMP:
++	{
++#if (RTL8822B_SUPPORT == 1)
++		if (input[1]) {
++			PHYDM_SSCANF(input[1], DCMD_DECIMAL, &var1[0]);
++			phydm_EnableBigJump(pDM_Odm, (BOOLEAN)(var1[0]));
++		} else
++			PHYDM_SNPRINTF((output + used, out_len - used, "unknown command!\n"));
++#else
++		PHYDM_SNPRINTF((output + used, out_len - used, "The command is only for 8822B!\n"));
++#endif
++		break;
++	}
++	
++	case PHYDM_HANG:
++		phydm_BB_RxHang_Info(pDM_Odm, &used, output, &out_len);
++		break;
++
++	case PHYDM_SHOW_RXRATE:
++#if (RTL8822B_SUPPORT == 1)
++	{
++		u1Byte	rate_idx;
++	
++		if (input[1])
++			PHYDM_SSCANF(input[1], DCMD_DECIMAL, &var1[0]);
++
++		if (var1[0] == 1)
++			phydm_showRxRate(pDM_Odm, &used, output, &out_len);
++		else {
++			PHYDM_SNPRINTF((output+used, out_len-used, "Reset Rx rate counter\n"));
++
++			for (rate_idx = 0; rate_idx < 40; rate_idx++) {
++				pDM_Odm->PhyDbgInfo.NumQryVhtPkt[rate_idx] = 0;
++				pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[rate_idx] = 0;
++			}
++		}
++	}	
++#endif
++	break;
++
++	case PHYDM_NBI_EN:
++		
++		for (i = 0; i < 5; i++) {
++			if (input[i + 1]) {
++				PHYDM_SSCANF(input[i + 1], DCMD_DECIMAL, &var1[i]);
++				input_idx++;
++			}
++		}
++
++		if (input_idx >= 1) {
++			
++			phydm_api_debug(pDM_Odm, PHYDM_API_NBI, (u4Byte *)var1, &used, output, &out_len);
++			/**/
++		}
++
++
++		break;
++
++	case PHYDM_CSI_MASK_EN:
++		
++		for (i = 0; i < 5; i++) {
++			if (input[i + 1]) {
++				PHYDM_SSCANF(input[i + 1], DCMD_DECIMAL, &var1[i]);
++				input_idx++;
++			}
++		}
++
++		if (input_idx >= 1) {
++			
++			phydm_api_debug(pDM_Odm, PHYDM_API_CSI_MASK, (u4Byte *)var1, &used, output, &out_len);
++			/**/
++		}
++
++
++		break;	
++
++	case PHYDM_DFS:
++#if (DM_ODM_SUPPORT_TYPE & ODM_CE)
++	{
++		u4Byte var[6] = {0};
++
++		for (i = 0; i < 6; i++) {
++			if (input[i + 1]) {
++				PHYDM_SSCANF(input[i + 1], DCMD_HEX, &var[i]);
++				input_idx++;
++			}
++		}
++	
++		if (input_idx >= 1)
++			phydm_dfs_debug(pDM_Odm, var, &used, output, &out_len);
++	}
++#endif
++		break;
++
++	case PHYDM_IQK:
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++		PHY_IQCalibrate(pDM_Odm->priv);
++		PHYDM_SNPRINTF((output + used, out_len - used, "IQK !!\n"));
++#elif (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++		PHY_IQCalibrate(pDM_Odm->Adapter, FALSE);
++		PHYDM_SNPRINTF((output + used, out_len - used, "IQK !!\n"));
++#endif
++		break;
++
++	case PHYDM_NHM:
++	{	
++		u1Byte		target_rssi;
++		u4Byte		value32;
++		u2Byte		nhm_period = 0xC350;	//200ms
++		u1Byte		IGI;
++		PCCX_INFO	CCX_INFO = &pDM_Odm->DM_CCX_INFO;
++
++		PHYDM_SSCANF(input[1], DCMD_DECIMAL, &var1[0]);
++
++		if(input_num == 1) {
++
++			CCX_INFO->echo_NHM_en = FALSE;			
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r\n Trigger NHM: echo nhm 1\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r (Exclude CCA)\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r Trigger NHM: echo nhm 2\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r (Include CCA)\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r Get NHM results: echo nhm 3\n"));
++			
++			return;
++		}
++
++		/* NMH trigger */
++		if ((var1[0] <= 2) && (var1[0] != 0)) {
++
++			CCX_INFO->echo_NHM_en = TRUE;
++			CCX_INFO->echo_IGI = (u1Byte)ODM_GetBBReg(pDM_Odm, 0xC50, bMaskByte0);
++
++			target_rssi = CCX_INFO->echo_IGI - 10;
++
++			CCX_INFO->NHM_th[0] = (target_rssi -15 + 10) * 2;
++
++			for(i = 1; i <= 10; i ++) {
++				CCX_INFO->NHM_th[i] = CCX_INFO->NHM_th[0] + 6 * i;
++			}
++
++			//4 1. store previous NHM setting
++			phydm_NHMsetting(pDM_Odm, STORE_NHM_SETTING);
++
++			//4 2. Set NHM period, 0x990[31:16]=0xC350, Time duration for NHM unit: 4us, 0xC350=200ms
++			CCX_INFO->NHM_period = nhm_period;
++
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r\n Monitor NHM for %d us", nhm_period*4));
++
++			//4 3. Set NHM inexclude_txon, inexclude_cca, ccx_en
++
++			
++			CCX_INFO->NHM_inexclude_cca = (var1[0] == 1) ? NHM_EXCLUDE_CCA : NHM_INCLUDE_CCA;
++			CCX_INFO->NHM_inexclude_txon = NHM_EXCLUDE_TXON;
++			
++			phydm_NHMsetting(pDM_Odm, SET_NHM_SETTING);
++
++			for(i = 0; i <= 10; i ++) {
++				
++				if (i == 5) {
++					PHYDM_SNPRINTF((output + used, out_len - used, "\r\n NHM_th[%d] = 0x%x, echo_IGI = 0x%x", i, CCX_INFO->NHM_th[i], CCX_INFO->echo_IGI));
++				}
++				else if (i == 10)
++					PHYDM_SNPRINTF((output + used, out_len - used, "\r\n NHM_th[%d] = 0x%x\n", i, CCX_INFO->NHM_th[i]));
++				else
++					PHYDM_SNPRINTF((output + used, out_len - used, "\r\n NHM_th[%d] = 0x%x", i, CCX_INFO->NHM_th[i]));
++			}
++
++			//4 4. Trigger NHM
++			phydm_NHMtrigger(pDM_Odm);
++
++		}
++		
++		/*Get NHM results*/
++		else if (var1[0] == 3) {
++
++			IGI = (u1Byte)ODM_GetBBReg(pDM_Odm, 0xC50, bMaskByte0);
++
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r\n Cur_IGI = 0x%x", IGI));			
++
++			phydm_getNHMresult(pDM_Odm);
++			
++			//4 Resotre NHM setting
++			phydm_NHMsetting(pDM_Odm, RESTORE_NHM_SETTING);
++			
++			for(i = 0; i <= 11; i++) {
++				
++				if (i == 5) 			
++					PHYDM_SNPRINTF((output + used, out_len - used, "\r\n nhm_result[%d] = %d, echo_IGI = 0x%x", i, CCX_INFO->NHM_result[i], CCX_INFO->echo_IGI));
++				else if (i == 11)
++					PHYDM_SNPRINTF((output + used, out_len - used, "\r\n nhm_result[%d] = %d\n", i, CCX_INFO->NHM_result[i]));
++				else
++					PHYDM_SNPRINTF((output + used, out_len - used, "\r\n nhm_result[%d] = %d", i, CCX_INFO->NHM_result[i]));
++			}
++			
++			CCX_INFO->echo_NHM_en = FALSE;
++		}
++		else {
++					
++			CCX_INFO->echo_NHM_en = FALSE;
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r\n Trigger NHM: echo nhm 1\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r (Exclude CCA)\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r Trigger NHM: echo nhm 2\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r (Include CCA)\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r Get NHM results: echo nhm 3\n"));
++			
++			return;
++		}
++	}
++	break;
++
++	case PHYDM_CLM:
++	{
++		PCCX_INFO	CCX_INFO = &pDM_Odm->DM_CCX_INFO;
++		PHYDM_SSCANF(input[1], DCMD_DECIMAL, &var1[0]);
++
++		//PHYDM_SNPRINTF((output + used, out_len - used, "\r\n input_num = %d\n", input_num));
++
++		if (input_num == 1) {
++
++			CCX_INFO->echo_CLM_en = FALSE;
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r\n Trigger CLM: echo clm 1\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r Get CLM results: echo clm 2\n"));
++			return;
++		}
++
++		/* Set & trigger CLM */
++		if (var1[0] == 1) {
++
++			CCX_INFO->echo_CLM_en = TRUE;
++			CCX_INFO->CLM_period = 0xC350;		/*100ms*/
++			phydm_CLMsetting(pDM_Odm);
++			phydm_CLMtrigger(pDM_Odm);				
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r\n Monitor CLM for 200ms\n"));
++		}
++		
++		/* Get CLM results */
++		else if (var1[0] == 2) {
++
++			CCX_INFO->echo_CLM_en = FALSE;
++			phydm_getCLMresult(pDM_Odm);
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r\n CLM_result = %d us\n", CCX_INFO->CLM_result*4));
++			
++		} else {
++
++			CCX_INFO->echo_CLM_en = FALSE;
++			PHYDM_SNPRINTF((output + used, out_len - used, "\n\r Error command !\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r Trigger CLM: echo clm 1\n"));
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r Get CLM results: echo clm 2\n"));
++		}
++	}
++		break;
++	
++	case PHYDM_BB_INFO:
++	{
++		s4Byte value32 = 0;
++		
++		phydm_BB_Debug_Info(pDM_Odm, &used, output, &out_len);
++
++		if (pDM_Odm->SupportICType & ODM_RTL8822B && input[1]) {
++			PHYDM_SSCANF(input[1], DCMD_DECIMAL, &var1[0]);
++			ODM_SetBBReg(pDM_Odm, 0x1988, 0x003fff00, var1[0]);
++			value32 = ODM_GetBBReg(pDM_Odm, 0xf84, bMaskDWord);
++			value32 = (value32 & 0xff000000)>>24;
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r\n %-35s = condition num = %d, subcarriers = %d\n", "Over condition num subcarrier", var1[0], value32));
++			ODM_SetBBReg(pDM_Odm, 0x1988 , BIT22, 0x0);	/*disable report condition number*/
++		}
++	}
++		break;
++
++	case PHYDM_TXBF:
++	{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++#if (BEAMFORMING_SUPPORT == 1)
++		PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++
++		PHYDM_SSCANF(input[1], DCMD_DECIMAL, &var1[0]);
++		if (var1[0] == 1) {
++			pBeamformingInfo->applyVmatrix = TRUE;
++			pBeamformingInfo->snding3SS = FALSE;
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r\n apply V matrix and 3SS 789 dont snding\n"));
++		} else if (var1[0] == 0) {
++			pBeamformingInfo->applyVmatrix = FALSE;
++			pBeamformingInfo->snding3SS = TRUE;
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r\n dont apply V matrix and 3SS 789 snding\n"));
++		} else
++			PHYDM_SNPRINTF((output + used, out_len - used, "\r\n unknown cmd!!\n"));
++#else
++		PHYDM_SNPRINTF((output + used, out_len - used, "\r\n no TxBF !!\n"));
++#endif
++#endif
++	}
++		break;
++
++	default:
++		PHYDM_SNPRINTF((output + used, out_len - used, "SET, unknown command!\n"));
++		break;
++
++	}
++}
++
++#ifdef __ECOS
++char *strsep(char **s, const char *ct)
++{
++	char *sbegin = *s;
++	char *end;
++
++	if (sbegin == NULL)
++		return NULL;
++
++	end = strpbrk(sbegin, ct);
++	if (end)
++		*end++ = '\0';
++	*s = end;
++	return sbegin;
++}
++#endif
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_AP))
++s4Byte
++phydm_cmd(
++	IN PDM_ODM_T	pDM_Odm,
++	IN char		*input,
++	IN u4Byte	in_len,
++	IN u1Byte	flag,
++	OUT char	*output,
++	IN u4Byte	out_len
++)
++{
++	char *token;
++	u4Byte	Argc = 0;
++	char		Argv[MAX_ARGC][MAX_ARGV];
++
++	do {
++		token = strsep(&input, ", ");
++		if (token) {
++			strcpy(Argv[Argc], token);
++			Argc++;
++		} else
++			break;
++	} while (Argc < MAX_ARGC);
++
++	if (Argc == 1)
++		Argv[0][strlen(Argv[0]) - 1] = '\0';
++
++	phydm_cmd_parser(pDM_Odm, Argv, Argc, flag, output, out_len);
++
++	return 0;
++}
++#endif
++
++
++VOID
++phydm_fw_trace_handler(
++	IN	PVOID	pDM_VOID,
++	IN	pu1Byte	CmdBuf,
++	IN	u1Byte	CmdLen
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	/*u1Byte	debug_trace_11byte[60];*/
++	u1Byte		freg_num, c2h_seq, buf_0 = 0;
++
++	if (!(pDM_Odm->SupportICType & PHYDM_IC_3081_SERIES))
++		return;
++
++	if (CmdLen > 12)
++		return;
++	
++	buf_0 = CmdBuf[0];
++	freg_num = (buf_0 & 0xf);
++	c2h_seq = (buf_0 & 0xf0) >> 4;
++	/*ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE,ODM_DBG_LOUD,("[FW debug message] freg_num = (( %d )), c2h_seq = (( %d ))\n", freg_num,c2h_seq ));*/
++
++	/*strncpy(debug_trace_11byte,&CmdBuf[1],(CmdLen-1));*/
++	/*debug_trace_11byte[CmdLen-1] = '\0';*/
++	/*ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE,ODM_DBG_LOUD,("[FW debug message] %s\n", debug_trace_11byte));*/
++	/*ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE,ODM_DBG_LOUD,("[FW debug message] CmdLen = (( %d ))\n", CmdLen));*/
++	/*ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE,ODM_DBG_LOUD,("[FW debug message] c2h_cmd_start  = (( %d ))\n", pDM_Odm->c2h_cmd_start));*/
++
++
++
++	/*ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE,ODM_DBG_LOUD,("pre_seq = (( %d )), current_seq = (( %d ))\n", pDM_Odm->pre_c2h_seq, c2h_seq));*/
++	/*ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE,ODM_DBG_LOUD,("fw_buff_is_enpty = (( %d ))\n", pDM_Odm->fw_buff_is_enpty));*/
++
++	if ((c2h_seq != pDM_Odm->pre_c2h_seq)  &&  pDM_Odm->fw_buff_is_enpty == FALSE) {
++		pDM_Odm->fw_debug_trace[pDM_Odm->c2h_cmd_start] = '\0';
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW Dbg Queue Overflow] %s\n", pDM_Odm->fw_debug_trace));
++		pDM_Odm->c2h_cmd_start = 0;
++	}
++
++	if ((CmdLen - 1) > (60 - pDM_Odm->c2h_cmd_start)) {
++		pDM_Odm->fw_debug_trace[pDM_Odm->c2h_cmd_start] = '\0';
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW Dbg Queue error: wrong C2H length] %s\n", pDM_Odm->fw_debug_trace));
++		pDM_Odm->c2h_cmd_start = 0;
++		return;
++	}
++
++	strncpy((char *)&(pDM_Odm->fw_debug_trace[pDM_Odm->c2h_cmd_start]), (char *)&CmdBuf[1], (CmdLen-1));
++	pDM_Odm->c2h_cmd_start += (CmdLen - 1);
++	pDM_Odm->fw_buff_is_enpty = FALSE;	
++	
++	if (freg_num == 0 || pDM_Odm->c2h_cmd_start >= 60) {
++		if (pDM_Odm->c2h_cmd_start < 60)
++			pDM_Odm->fw_debug_trace[pDM_Odm->c2h_cmd_start] = '\0';
++		else
++			pDM_Odm->fw_debug_trace[59] = '\0';
++
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW DBG Msg] %s\n", pDM_Odm->fw_debug_trace));
++		/*DbgPrint("[FW DBG Msg] %s\n", pDM_Odm->fw_debug_trace);*/
++		pDM_Odm->c2h_cmd_start = 0;
++		pDM_Odm->fw_buff_is_enpty = TRUE;
++	}
++
++	pDM_Odm->pre_c2h_seq = c2h_seq;
++}
++
++VOID
++phydm_fw_trace_handler_code(
++	IN	PVOID	pDM_VOID,
++	IN	pu1Byte	Buffer,
++	IN	u1Byte	CmdLen
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	function = Buffer[0];
++	u1Byte	dbg_num = Buffer[1];
++	u2Byte	content_0 = (((u2Byte)Buffer[3])<<8)|((u2Byte)Buffer[2]);
++	u2Byte	content_1 = (((u2Byte)Buffer[5])<<8)|((u2Byte)Buffer[4]);		
++	u2Byte	content_2 = (((u2Byte)Buffer[7])<<8)|((u2Byte)Buffer[6]);	
++	u2Byte	content_3 = (((u2Byte)Buffer[9])<<8)|((u2Byte)Buffer[8]);
++	u2Byte	content_4 = (((u2Byte)Buffer[11])<<8)|((u2Byte)Buffer[10]);
++
++	if(CmdLen >12) {
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE,ODM_DBG_LOUD,("[FW Msg] Invalid cmd length (( %d )) >12 \n", CmdLen));
++	}
++	
++	//ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE,ODM_DBG_LOUD,("[FW Msg] Func=((%d)),  num=((%d)), ct_0=((%d)), ct_1=((%d)), ct_2=((%d)), ct_3=((%d)), ct_4=((%d))\n", 
++	//	function, dbg_num, content_0, content_1, content_2, content_3, content_4));
++	
++	/*--------------------------------------------*/
++#if (CONFIG_RA_FW_DBG_CODE)
++	if(function == RATE_DECISION) {
++		if(dbg_num == 0) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] RA_CNT=((%d))  Max_device=((%d))--------------------------->\n", content_1, content_2));
++			} else if(content_0 == 2) {
++				 ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] Check RA macid= ((%d)), MediaStatus=((%d)), Dis_RA=((%d)),  try_bit=((0x%x))\n", content_1, content_2, content_3, content_4));
++			} else if(content_0 == 3) {
++				 ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] Check RA  total=((%d)),  drop=((0x%x)), TXRPT_TRY_bit=((%x)), bNoisy=((%x))\n", content_1, content_2, content_3, content_4));
++			}
++		} else if(dbg_num == 1) {
++			if (content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] RTY[0,1,2,3]=[ %d , %d , %d , %d ]\n", content_1, content_2, content_3, content_4));
++			} else if (content_0 == 2) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] RTY[4]=[ %d ], drop=(( %d )), total=(( %d )), current_rate=((0x %x ))", content_1, content_2, content_3, content_4));
++				phydm_print_rate(pDM_Odm, (u1Byte)content_4, ODM_FW_DEBUG_TRACE);
++			} else if (content_0 == 3) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] penality_idx=(( %d ))\n", content_1));
++			} else if (content_0 == 4) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] RSSI=(( %d )), ra_stage = (( %d ))\n", content_1, content_2));
++			}
++		}
++		
++		else if(dbg_num == 3) {
++			if (content_0 == 1)
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] Fast_RA (( DOWN ))  total=((%d)),  total>>1=((%d)), R4+R3+R2 = ((%d)), RateDownHold = ((%d))\n", content_1, content_2, content_3, content_4));
++			else if (content_0 == 2)
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] Fast_RA (( UP ))  total_acc=((%d)),  total_acc>>1=((%d)), R4+R3+R2 = ((%d)), RateDownHold = ((%d))\n", content_1, content_2, content_3, content_4));
++			else if (content_0 == 3)
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] Fast_RA (( UP )) ((Rate Down Hold))  RA_CNT=((%d))\n", content_1));
++			else if (content_0 == 4)
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] Fast_RA (( UP )) ((tota_accl<5 skip))  RA_CNT=((%d))\n", content_1));
++			else if (content_0 == 8)
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] Fast_RA (( Reset Tx Rpt )) RA_CNT=((%d))\n", content_1));
++		}
++
++		else if (dbg_num == 4) {
++			if (content_0 == 3) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] RER_CNT   PCR_ori =(( %d )),  ratio_ori =(( %d )), pcr_updown_bitmap =(( 0x%x )), pcr_var_diff =(( %d ))\n", content_1, content_2, content_3, content_4));
++				/**/
++			} else if (content_0 == 4) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] pcr_shift_value =(( %s%d )), rate_down_threshold =(( %d )), rate_up_threshold =(( %d ))\n", ((content_1) ? "+" : "-"), content_2, content_3, content_4));
++				/**/
++			} else if (content_0 == 5) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] pcr_mean =(( %d )), PCR_VAR =(( %d )), offset =(( %d )), decision_offset_p =(( %d ))\n", content_1, content_2, content_3, content_4));
++				/**/
++			}
++		}
++		
++		else if(dbg_num == 5) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] (( UP))  Nsc=(( %d )), N_High=(( %d )), RateUp_Waiting=(( %d )), RateUp_Fail=(( %d ))\n", content_1, content_2, content_3, content_4));
++			} else if(content_0 == 2) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] ((DOWN))  Nsc=(( %d )), N_Low=(( %d ))\n", content_1, content_2));
++			} else if(content_0 == 3) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] ((HOLD))  Nsc=((%d)), N_High=((%d)), N_Low=((%d)), Reset_CNT=((%d))\n", content_1, content_2, content_3, content_4));
++			}
++		}
++		else if(dbg_num == 0x60) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] ((AP RPT))  macid=((%d)), BUPDATE[macid]=((%d))\n", content_1, content_2));
++			} else if(content_0 == 4) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] ((AP RPT))  pass=((%d)), rty_num=((%d)), drop=((%d)), total=((%d))\n", content_1, content_2, content_3, content_4));
++			} else if(content_0 == 5) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW] ((AP RPT))  PASS=((%d)), RTY_NUM=((%d)), DROP=((%d)), TOTAL=((%d))\n", content_1, content_2, content_3, content_4));
++			}
++		}
++	} 
++	/*--------------------------------------------*/
++	else if (function == INIT_RA_TABLE){
++		if(dbg_num == 3) {
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][INIT_RA_INFO] Ra_init, RA_SKIP_CNT = (( %d ))\n", content_0));
++		}
++		
++	} 
++	/*--------------------------------------------*/
++	else if (function == RATE_UP) {
++		if(dbg_num == 2) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][RateUp]  ((Highest rate -> return)), macid=((%d))  Nsc=((%d))\n", content_1, content_2));
++			}
++		} else if(dbg_num == 5) {
++			if (content_0 == 0)
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][RateUp]  ((Rate UP)), up_rate_tmp=((0x%x)), rate_idx=((0x%x)), SGI_en=((%d)),  SGI=((%d))\n", content_1, content_2, content_3, content_4));
++			else if (content_0 == 1)
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][RateUp]  ((Rate UP)), rate_1=((0x%x)), rate_2=((0x%x)), BW=((%d)), Try_Bit=((%d))\n", content_1, content_2, content_3, content_4));
++		}
++		
++	} 
++	/*--------------------------------------------*/
++	else if (function == RATE_DOWN) {
++		 if(dbg_num == 5) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][RateDownStep]  ((Rate Down)), macid=((%d)), rate1=((0x%x)),  rate2=((0x%x)), BW=((%d))\n", content_1, content_2, content_3, content_4));
++			}
++		}
++	} else if (function == TRY_DONE) {
++		if (dbg_num == 1) {
++			if (content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][Try Done]  ((try succsess )) macid=((%d)), Try_Done_cnt=((%d))\n", content_1, content_2));
++				/**/
++			}
++		} else if (dbg_num == 2) {
++			if (content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][Try Done]  ((try)) macid=((%d)), Try_Done_cnt=((%d)),  rate_2=((%d)),  try_succes=((%d))\n", content_1, content_2, content_3, content_4));
++				/**/
++			}
++		}
++	} 
++	/*--------------------------------------------*/
++	else if (function == RA_H2C) {
++		if (dbg_num == 1) {
++			if (content_0 == 0) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][H2C=0x49]  fw_trace_en=((%d)), mode =((%d)),  macid=((%d))\n", content_1, content_2, content_3));
++				/**/
++				/*C2H_RA_Dbg_code(F_RA_H2C,1,0, SysMib.ODM.DEBUG.fw_trace_en, mode, macid , 0);    //RA MASK*/
++			}
++			#if 0
++			else if (dbg_num == 2) {
++			
++				if (content_0 == 1) {
++					ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][H2C=0x40]  MACID=((%d)), Rate ID=((%d)),  SGI=((%d)),  BW=((%d))\n", content_1, content_2, content_3, content_4));
++					/**/
++				} else if (content_0 == 2) {
++					ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][H2C=0x40]   VHT_en=((%d)), Disable_PowerTraining=((%d)),  Disable_RA=((%d)),  No_Update=((%d))\n", content_1, content_2, content_3, content_4));
++					/**/
++				} else if (content_0 == 3) {
++					ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][H2C=0x40]   RA_MSK=[%x | %x | %x | %x ]\n", content_1, content_2, content_3, content_4));
++					/**/
++				}
++			}
++			#endif
++		}
++	}
++	/*--------------------------------------------*/
++	else if (function == F_RATE_AP_RPT) {
++		 if(dbg_num == 1) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][AP RPT]  ((1)), SPE_STATIS=((0x%x))---------->\n", content_3));				
++			} 
++		} else if(dbg_num == 2) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][AP RPT]  RTY_all=((%d))\n", content_1));				
++			} 
++		} else if(dbg_num == 3) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][AP RPT]  MACID1[%d], TOTAL=((%d)),  RTY=((%d))\n", content_3, content_1, content_2));
++			} 
++		} else if(dbg_num == 4) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][AP RPT]  MACID2[%d], TOTAL=((%d)),  RTY=((%d))\n", content_3, content_1, content_2));
++			} 
++		} else if(dbg_num == 5) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][AP RPT]  MACID1[%d], PASS=((%d)),  DROP=((%d))\n", content_3, content_1, content_2));
++			} 
++		} else if(dbg_num == 6) {
++			if(content_0 == 1) {
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][AP RPT]  MACID2[%d],, PASS=((%d)),  DROP=((%d))\n", content_3, content_1, content_2));
++			} 
++		}
++	} else {
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][general][%d, %d, %d] = {%d, %d, %d, %d}\n", function, dbg_num, content_0, content_1, content_2, content_3, content_4));
++		/**/
++	}
++#else
++	ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW][general][%d, %d, %d] = {%d, %d, %d, %d}\n", function, dbg_num, content_0, content_1, content_2, content_3, content_4));
++#endif
++	/*--------------------------------------------*/
++		
++
++}
++
++VOID
++phydm_fw_trace_handler_8051(
++	IN	PVOID	pDM_VOID,
++	IN	pu1Byte	Buffer,
++	IN	u1Byte	CmdLen
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if 0
++	if (CmdLen >= 3)
++		CmdBuf[CmdLen - 1] = '\0';
++	ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW DBG Msg] %s\n", &(CmdBuf[3])));
++#else
++
++	int i = 0;
++	u1Byte	Extend_c2hSubID = 0, Extend_c2hDbgLen = 0, Extend_c2hDbgSeq = 0;
++	u1Byte	fw_debug_trace[128];
++	pu1Byte	Extend_c2hDbgContent = 0;
++
++	if (CmdLen > 127)
++		return;
++
++	Extend_c2hSubID = Buffer[0];
++	Extend_c2hDbgLen = Buffer[1];
++	Extend_c2hDbgContent = Buffer + 2; /*DbgSeq+DbgContent  for show HEX*/
++
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	RT_DISP(FC2H, C2H_Summary, ("[Extend C2H packet], Extend_c2hSubId=0x%x, Extend_c2hDbgLen=%d\n", 
++			Extend_c2hSubID, Extend_c2hDbgLen));
++	
++	RT_DISP_DATA(FC2H, C2H_Summary, "[Extend C2H packet], Content Hex:", Extend_c2hDbgContent, CmdLen-2);
++	#endif
++
++GoBackforAggreDbgPkt:
++	i = 0;
++	Extend_c2hDbgSeq = Buffer[2];
++	Extend_c2hDbgContent = Buffer + 3;
++	
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	RT_DISP(FC2H, C2H_Summary, ("[RTKFW, SEQ= %d] :", Extend_c2hDbgSeq));
++	#endif	
++
++	for (; ; i++) {
++		fw_debug_trace[i] = Extend_c2hDbgContent[i];
++		if (Extend_c2hDbgContent[i + 1] == '\0') {
++			fw_debug_trace[i + 1] = '\0';
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW DBG Msg] %s", &(fw_debug_trace[0])));
++			break;
++		} else if (Extend_c2hDbgContent[i] == '\n') {
++			fw_debug_trace[i + 1] = '\0';
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("[FW DBG Msg] %s", &(fw_debug_trace[0])));
++			Buffer = Extend_c2hDbgContent + i + 3;
++			goto GoBackforAggreDbgPkt;
++		}
++	}
++
++
++#endif
++}
++
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_debug.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_debug.h
+new file mode 100644
+index 0000000..a01c50c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_debug.h
+@@ -0,0 +1,334 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#ifndef	__ODM_DBG_H__
++#define __ODM_DBG_H__
++
++/*#define DEBUG_VERSION	"1.1"*/  /*2015.07.29 YuChen*/
++/*#define DEBUG_VERSION	"1.2"*/  /*2015.08.28 Dino*/
++#define DEBUG_VERSION	"1.3"  /*2016.04.28 YuChen*/
++//-----------------------------------------------------------------------------
++//	Define the debug levels
++//
++//	1.	DBG_TRACE and DBG_LOUD are used for normal cases.
++//	So that, they can help SW engineer to develope or trace states changed 
++//	and also help HW enginner to trace every operation to and from HW, 
++//	e.g IO, Tx, Rx. 
++//
++//	2.	DBG_WARNNING and DBG_SERIOUS are used for unusual or error cases, 
++//	which help us to debug SW or HW.
++//
++//-----------------------------------------------------------------------------
++//
++//	Never used in a call to ODM_RT_TRACE()!
++//
++#define ODM_DBG_OFF					1
++
++//
++//	Fatal bug. 
++//	For example, Tx/Rx/IO locked up, OS hangs, memory access violation, 
++//	resource allocation failed, unexpected HW behavior, HW BUG and so on.
++//
++#define ODM_DBG_SERIOUS				2
++
++//
++//	Abnormal, rare, or unexpeted cases.
++//	For example, IRP/Packet/OID canceled, device suprisely unremoved and so on.
++//
++#define ODM_DBG_WARNING				3
++
++//
++//	Normal case with useful information about current SW or HW state. 
++//	For example, Tx/Rx descriptor to fill, Tx/Rx descriptor completed status, 
++//	SW protocol state change, dynamic mechanism state change and so on.
++//
++#define ODM_DBG_LOUD					4
++
++//
++//	Normal case with detail execution flow or information.
++//
++#define ODM_DBG_TRACE					5
++
++/*FW DBG MSG*/
++#define	RATE_DECISION	BIT0
++#define	INIT_RA_TABLE	BIT1
++#define	RATE_UP			BIT2
++#define	RATE_DOWN		BIT3
++#define	TRY_DONE		BIT4
++#define	RA_H2C		BIT5
++#define	F_RATE_AP_RPT	BIT7
++
++//-----------------------------------------------------------------------------
++// Define the tracing components
++//
++//-----------------------------------------------------------------------------
++//BB Functions
++#define	ODM_COMP_DIG					BIT0	
++#define	ODM_COMP_RA_MASK				BIT1	
++#define	ODM_COMP_DYNAMIC_TXPWR		BIT2
++#define	ODM_COMP_FA_CNT				BIT3
++#define	ODM_COMP_RSSI_MONITOR		BIT4
++#define	ODM_COMP_SNIFFER				BIT5
++#define	ODM_COMP_ANT_DIV				BIT6
++#define	ODM_COMP_DFS					BIT7
++#define	ODM_COMP_NOISY_DETECT		BIT8
++#define	ODM_COMP_RATE_ADAPTIVE		BIT9
++#define	ODM_COMP_PATH_DIV			BIT10
++#define	ODM_COMP_CCX					BIT11
++
++#define	ODM_COMP_DYNAMIC_PRICCA		BIT12
++									/*BIT13 TBD*/
++#define	ODM_COMP_MP					BIT14
++#define	ODM_COMP_CFO_TRACKING		BIT15
++#define	ODM_COMP_ACS					BIT16
++#define	PHYDM_COMP_ADAPTIVITY		BIT17
++#define	PHYDM_COMP_RA_DBG			BIT18
++#define	PHYDM_COMP_TXBF				BIT19
++//MAC Functions
++#define	ODM_COMP_EDCA_TURBO			BIT20
++									/*BIT21 TBD*/
++#define	ODM_FW_DEBUG_TRACE			BIT22
++//RF Functions
++									/*BIT23 TBD*/
++#define	ODM_COMP_TX_PWR_TRACK		BIT24
++#define	ODM_COMP_RX_GAIN_TRACK		BIT25
++#define	ODM_COMP_CALIBRATION			BIT26
++//Common Functions
++#define	ODM_PHY_CONFIG				BIT28
++#define	ODM_COMP_INIT					BIT29
++#define	ODM_COMP_COMMON				BIT30
++#define	ODM_COMP_API					BIT31
++
++
++/*------------------------Export Marco Definition---------------------------*/
++
++#define	config_phydm_read_txagc_check(data)		(data != INVALID_TXAGC_DATA)
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#define RT_PRINTK				DbgPrint
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#define DbgPrint	printk
++	#define RT_PRINTK(fmt, args...)	DbgPrint( "%s(): " fmt, __FUNCTION__, ## args);
++	#define	RT_DISP(dbgtype, dbgflag, printstr)
++#else
++	#define DbgPrint	panic_printk
++	#define RT_PRINTK(fmt, args...)	DbgPrint( "%s(): " fmt, __FUNCTION__, ## args);
++#endif
++
++#ifndef ASSERT
++	#define ASSERT(expr)
++#endif
++
++#if DBG
++#define ODM_RT_TRACE(pDM_Odm, comp, level, fmt)									\
++	do {	\
++		if(((comp) & pDM_Odm->DebugComponents) && (level <= pDM_Odm->DebugLevel || level == ODM_DBG_SERIOUS))	\
++		{																			\
++			if (pDM_Odm->SupportICType == ODM_RTL8188E)							\
++				DbgPrint("[PhyDM-8188E] ");											\
++			else if(pDM_Odm->SupportICType == ODM_RTL8192E) 						\
++				DbgPrint("[PhyDM-8192E] ");											\
++			else if(pDM_Odm->SupportICType == ODM_RTL8812)							\
++				DbgPrint("[PhyDM-8812A] ");											\
++			else if(pDM_Odm->SupportICType == ODM_RTL8821)							\
++				DbgPrint("[PhyDM-8821A] ");											\
++			else if(pDM_Odm->SupportICType == ODM_RTL8814A)							\
++				DbgPrint("[PhyDM-8814A] ");											\
++			else if(pDM_Odm->SupportICType == ODM_RTL8703B)							\
++				DbgPrint("[PhyDM-8703B] ");											\
++			else if(pDM_Odm->SupportICType == ODM_RTL8822B)							\
++				DbgPrint("[PhyDM-8822B] ");											\
++			else if (pDM_Odm->SupportICType == ODM_RTL8188F)							\
++				DbgPrint("[PhyDM-8188F] ");											\
++			RT_PRINTK fmt;															\
++		}	\
++	} while (0)
++
++#define ODM_RT_TRACE_F(pDM_Odm, comp, level, fmt)									\
++		if(((comp) & pDM_Odm->DebugComponents) && (level <= pDM_Odm->DebugLevel))	\
++		{																			\
++			RT_PRINTK fmt;															\
++		}
++
++#define ODM_RT_ASSERT(pDM_Odm, expr, fmt)											\
++		if(!(expr)) {																	\
++			DbgPrint( "Assertion failed! %s at ......\n", #expr);								\
++			DbgPrint( "      ......%s,%s,line=%d\n",__FILE__,__FUNCTION__,__LINE__);			\
++			RT_PRINTK fmt;															\
++			ASSERT(FALSE);															\
++		}
++#define ODM_dbg_enter() { DbgPrint("==> %s\n", __FUNCTION__); }
++#define ODM_dbg_exit() { DbgPrint("<== %s\n", __FUNCTION__); }
++#define ODM_dbg_trace(str) { DbgPrint("%s:%s\n", __FUNCTION__, str); }
++
++#define ODM_PRINT_ADDR(pDM_Odm, comp, level, title_str, ptr)							\
++			if(((comp) & pDM_Odm->DebugComponents) && (level <= pDM_Odm->DebugLevel))	\
++			{																		\
++				int __i;																\
++				pu1Byte	__ptr = (pu1Byte)ptr;											\
++				DbgPrint("[ODM] ");													\
++				DbgPrint(title_str);													\
++				DbgPrint(" ");														\
++				for( __i=0; __i<6; __i++ )												\
++					DbgPrint("%02X%s", __ptr[__i], (__i==5)?"":"-");						\
++				DbgPrint("\n");														\
++			}
++#else
++#define ODM_RT_TRACE(pDM_Odm, comp, level, fmt)
++#define ODM_RT_TRACE_F(pDM_Odm, comp, level, fmt)
++#define ODM_RT_ASSERT(pDM_Odm, expr, fmt)
++#define ODM_dbg_enter()
++#define ODM_dbg_exit()
++#define ODM_dbg_trace(str)
++#define ODM_PRINT_ADDR(pDM_Odm, comp, level, title_str, ptr)
++#endif
++
++
++VOID 
++PHYDM_InitDebugSetting(IN		PDM_ODM_T		pDM_Odm);
++
++VOID phydm_BasicDbgMessage(	IN		PVOID			pDM_VOID);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#define	PHYDM_DBGPRINT		0
++#define	PHYDM_SSCANF(x, y, z)	DCMD_Scanf(x, y, z)
++#define	PHYDM_VAST_INFO_SNPRINTF	PHYDM_SNPRINTF
++#if (PHYDM_DBGPRINT == 1)
++#define	PHYDM_SNPRINTF(msg)	\
++		do {\
++			rsprintf msg;\
++			DbgPrint(output);\
++		} while (0)
++#else
++#define	PHYDM_SNPRINTF(msg)	\
++		do {\
++			rsprintf msg;\
++			DCMD_Printf(output);\
++		} while (0)
++#endif
++#else
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE) || defined(__OSK__)
++#define	PHYDM_DBGPRINT		0
++#else
++#define	PHYDM_DBGPRINT		1
++#endif
++#define	MAX_ARGC				20
++#define	MAX_ARGV				16
++#define	DCMD_DECIMAL			"%d"
++#define	DCMD_CHAR				"%c"
++#define	DCMD_HEX				"%x"
++
++#define	PHYDM_SSCANF(x, y, z)	sscanf(x, y, z)
++
++#define	PHYDM_VAST_INFO_SNPRINTF(msg)\
++		do {\
++			snprintf msg;\
++			DbgPrint(output);\
++		} while (0)
++
++#if (PHYDM_DBGPRINT == 1)
++#define	PHYDM_SNPRINTF(msg)\
++		do {\
++			snprintf msg;\
++			DbgPrint(output);\
++		} while (0)
++#else
++#define	PHYDM_SNPRINTF(msg)\
++		do {\
++			if(out_len > used)\
++				used+=snprintf msg;\
++		} while (0)
++#endif
++#endif
++
++
++VOID phydm_BasicProfile(
++	IN		PVOID			pDM_VOID,
++	IN		u4Byte			*_used,
++	OUT		char				*output,
++	IN		u4Byte			*_out_len
++	);
++#if(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_AP))
++s4Byte
++phydm_cmd(
++	IN PDM_ODM_T	pDM_Odm,
++	IN char		*input,
++	IN u4Byte	in_len,
++	IN u1Byte	flag,
++	OUT char	*output,
++	IN u4Byte	out_len
++);
++#endif
++VOID
++phydm_cmd_parser(
++	IN PDM_ODM_T	pDM_Odm,
++	IN char		input[][16],
++	IN u4Byte	input_num,
++	IN u1Byte	flag,
++	OUT char	*output,
++	IN u4Byte	out_len
++);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++void phydm_sbd_check(
++	IN	PDM_ODM_T					pDM_Odm
++	);
++
++void phydm_sbd_callback(
++	PRT_TIMER		pTimer
++	);
++
++void phydm_sbd_workitem_callback(
++    IN PVOID            pContext
++	);
++#endif
++
++VOID
++phydm_fw_trace_en_h2c(
++	IN	PVOID	pDM_VOID,
++	IN	BOOLEAN		enable,
++	IN	u4Byte		monitor_mode,
++	IN	u4Byte		macid
++);
++
++VOID
++phydm_fw_trace_handler(
++	IN		PVOID	pDM_VOID,
++	IN		pu1Byte	CmdBuf,
++	IN		u1Byte	CmdLen
++);
++
++VOID
++phydm_fw_trace_handler_code(
++	IN	PVOID	pDM_VOID,
++	IN	pu1Byte	Buffer,
++	IN	u1Byte	CmdLen
++);
++
++VOID
++phydm_fw_trace_handler_8051(
++	IN	PVOID	pDM_VOID,
++	IN	pu1Byte	CmdBuf,
++	IN	u1Byte	CmdLen
++);
++
++#endif	// __ODM_DBG_H__
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dfs.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dfs.c
+new file mode 100644
+index 0000000..12f7e6f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dfs.c
+@@ -0,0 +1,258 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++/*
++============================================================
++ include files
++============================================================
++*/
++
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#if defined(CONFIG_PHYDM_DFS_MASTER)
++VOID phydm_radar_detect_reset(PVOID pDM_VOID)
++{
++	PDM_ODM_T pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ODM_SetBBReg(pDM_Odm, 0x924 , BIT15, 0);
++	ODM_SetBBReg(pDM_Odm, 0x924 , BIT15, 1);
++}
++
++VOID phydm_radar_detect_disable(PVOID pDM_VOID)
++{
++	PDM_ODM_T pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ODM_SetBBReg(pDM_Odm, 0x924 , BIT15, 0);
++}
++
++static VOID phydm_radar_detect_with_dbg_parm(PVOID pDM_VOID)
++{
++	PDM_ODM_T pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	ODM_SetBBReg(pDM_Odm, 0x918, bMaskDWord, pDM_Odm->radar_detect_reg_918);
++	ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, pDM_Odm->radar_detect_reg_91c);
++	ODM_SetBBReg(pDM_Odm, 0x920, bMaskDWord, pDM_Odm->radar_detect_reg_920);
++	ODM_SetBBReg(pDM_Odm, 0x924, bMaskDWord, pDM_Odm->radar_detect_reg_924);
++}
++
++/* Init radar detection parameters, called after ch, bw is set */
++VOID phydm_radar_detect_enable(PVOID pDM_VOID)
++{
++	PDM_ODM_T pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte region_domain = pDM_Odm->DFS_RegionDomain;
++	u1Byte c_channel = *(pDM_Odm->pChannel);
++
++	if (region_domain == PHYDM_DFS_DOMAIN_UNKNOWN) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DFS, ODM_DBG_LOUD, ("PHYDM_DFS_DOMAIN_UNKNOWN\n"));
++		return;
++	}
++
++	 if (pDM_Odm->SupportICType & (ODM_RTL8821 | ODM_RTL8812 | ODM_RTL8881A)) {
++
++		ODM_SetBBReg(pDM_Odm, 0x814, 0x3fffffff, 0x04cc4d10);
++		ODM_SetBBReg(pDM_Odm, 0x834, bMaskByte0, 0x06);
++
++		if (pDM_Odm->radar_detect_dbg_parm_en) {
++			phydm_radar_detect_with_dbg_parm(pDM_Odm);
++			goto exit;
++		}
++
++		if (region_domain == PHYDM_DFS_DOMAIN_ETSI) {
++			ODM_SetBBReg(pDM_Odm, 0x918, bMaskDWord, 0x1c17ecdf);
++			ODM_SetBBReg(pDM_Odm, 0x924, bMaskDWord, 0x01528500);
++			ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x0fa21a20);
++			ODM_SetBBReg(pDM_Odm, 0x920, bMaskDWord, 0xe0f69204);
++
++		} else if (region_domain == PHYDM_DFS_DOMAIN_MKK) {
++			ODM_SetBBReg(pDM_Odm, 0x924, bMaskDWord, 0x01528500);
++			ODM_SetBBReg(pDM_Odm, 0x920, bMaskDWord, 0xe0d67234);
++
++			if (c_channel >= 52 && c_channel <= 64) {
++				ODM_SetBBReg(pDM_Odm, 0x918, bMaskDWord, 0x1c16ecdf);
++				ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x0f141a20);
++			} else {
++				ODM_SetBBReg(pDM_Odm, 0x918, bMaskDWord, 0x1c16acdf);
++				if (pDM_Odm->pBandWidth == ODM_BW20M)
++					ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x64721a20);
++				else
++					ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x68721a20);
++			}
++
++		} else if (region_domain == PHYDM_DFS_DOMAIN_FCC) {
++			ODM_SetBBReg(pDM_Odm, 0x918, bMaskDWord, 0x1c16acdf);
++			ODM_SetBBReg(pDM_Odm, 0x924, bMaskDWord, 0x01528500);
++			ODM_SetBBReg(pDM_Odm, 0x920, bMaskDWord, 0xe0d67231);
++			if (pDM_Odm->pBandWidth == ODM_BW20M)
++				ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x64741a20);
++			else
++				ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x68741a20);
++		} else {
++			/* not supported */
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DFS, ODM_DBG_LOUD, ("Unsupported DFS_RegionDomain:%d\n", region_domain));
++		}
++
++	} else if (pDM_Odm->SupportICType & (ODM_RTL8814A | ODM_RTL8822B)) {
++	
++		ODM_SetBBReg(pDM_Odm, 0x814, 0x3fffffff, 0x04cc4d10);
++		ODM_SetBBReg(pDM_Odm, 0x834, bMaskByte0, 0x06);
++		
++		/* 8822B only, when BW = 20M, DFIR output is 40Mhz, but DFS input is 80MMHz, so it need to upgrade to 80MHz */
++		if (pDM_Odm->SupportICType & ODM_RTL8822B) {
++			if (pDM_Odm->pBandWidth == ODM_BW20M)
++				ODM_SetBBReg(pDM_Odm, 0x1984, BIT26, 1);
++			else
++				ODM_SetBBReg(pDM_Odm, 0x1984, BIT26, 0);
++		}
++
++		if (pDM_Odm->radar_detect_dbg_parm_en) {
++			phydm_radar_detect_with_dbg_parm(pDM_Odm);
++			goto exit;
++		}
++
++		if (region_domain == PHYDM_DFS_DOMAIN_ETSI) {
++			ODM_SetBBReg(pDM_Odm, 0x918, bMaskDWord, 0x1c16acdf);
++			ODM_SetBBReg(pDM_Odm, 0x924, bMaskDWord, 0x095a8500);
++			ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x0fa21a20);
++			ODM_SetBBReg(pDM_Odm, 0x920, bMaskDWord, 0xe0f57204);
++
++		} else if (region_domain == PHYDM_DFS_DOMAIN_MKK) {
++			ODM_SetBBReg(pDM_Odm, 0x924, bMaskDWord, 0x095a8500);
++			ODM_SetBBReg(pDM_Odm, 0x920, bMaskDWord, 0xe0d67234);
++
++			if (c_channel >= 52 && c_channel <= 64) {
++				ODM_SetBBReg(pDM_Odm, 0x918, bMaskDWord, 0x1c16ecdf);
++				ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x0f141a20);
++			} else {
++				ODM_SetBBReg(pDM_Odm, 0x918, bMaskDWord, 0x1c166cdf);
++				if (pDM_Odm->pBandWidth == ODM_BW20M)
++					ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x64721a20);
++				else
++					ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x68721a20);
++			}
++		} else if (region_domain == PHYDM_DFS_DOMAIN_FCC) {
++			ODM_SetBBReg(pDM_Odm, 0x918, bMaskDWord, 0x1c166cdf);
++			ODM_SetBBReg(pDM_Odm, 0x924, bMaskDWord, 0x095a8500);
++			ODM_SetBBReg(pDM_Odm, 0x920, bMaskDWord, 0xe0d67231);
++			if (pDM_Odm->pBandWidth == ODM_BW20M)
++				ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x64741a20);
++			else
++				ODM_SetBBReg(pDM_Odm, 0x91c, bMaskDWord, 0x68741a20);
++		} else {
++			/* not supported */
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DFS, ODM_DBG_LOUD, ("Unsupported DFS_RegionDomain:%d\n", region_domain));
++		}
++	} else {
++		/* not supported IC type*/
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DFS, ODM_DBG_LOUD, ("Unsupported IC Type:%d\n", pDM_Odm->SupportICType));
++	}
++
++exit:
++	phydm_radar_detect_reset(pDM_Odm);
++}
++
++BOOLEAN phydm_radar_detect(PVOID pDM_VOID)
++{
++	PDM_ODM_T pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	BOOLEAN enable_DFS = FALSE;
++	BOOLEAN radar_detected = FALSE;
++	u1Byte region_domain = pDM_Odm->DFS_RegionDomain;
++
++	if (region_domain == PHYDM_DFS_DOMAIN_UNKNOWN) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DFS, ODM_DBG_LOUD, ("PHYDM_DFS_DOMAIN_UNKNOWN\n"));
++		return FALSE;
++	}
++
++	if (ODM_GetBBReg(pDM_Odm , 0x924, BIT15))
++		enable_DFS = TRUE;
++
++	if ((ODM_GetBBReg(pDM_Odm , 0xf98, BIT17))
++		|| (!(region_domain == PHYDM_DFS_DOMAIN_ETSI) && (ODM_GetBBReg(pDM_Odm , 0xf98, BIT19))))
++		radar_detected = TRUE;
++
++	if (enable_DFS && radar_detected) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DFS, ODM_DBG_LOUD
++			, ("Radar detect: enable_DFS:%d, radar_detected:%d\n"
++				, enable_DFS, radar_detected));
++
++		phydm_radar_detect_reset(pDM_Odm);
++	}
++
++exit:
++	return (enable_DFS && radar_detected);
++}
++#endif /* defined(CONFIG_PHYDM_DFS_MASTER) */
++
++BOOLEAN
++phydm_dfs_master_enabled(
++	IN		PVOID		pDM_VOID
++	)
++{
++#ifdef CONFIG_PHYDM_DFS_MASTER
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	return *pDM_Odm->dfs_master_enabled ? TRUE : FALSE;
++#else
++	return FALSE;
++#endif
++}
++
++VOID
++phydm_dfs_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const argv,
++	IN		u4Byte		*_used,
++	OUT		char		*output,
++	IN		u4Byte		*_out_len
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte used = *_used;
++	u4Byte out_len = *_out_len;
++
++	switch (argv[0]) {
++	case 1:
++		#if defined(CONFIG_PHYDM_DFS_MASTER)
++		/* set dbg parameters for radar detection instead of the default value */
++		if (argv[1] == 1) {
++			pDM_Odm->radar_detect_reg_918 = argv[2];
++			pDM_Odm->radar_detect_reg_91c = argv[3];
++			pDM_Odm->radar_detect_reg_920 = argv[4];
++			pDM_Odm->radar_detect_reg_924 = argv[5];
++			pDM_Odm->radar_detect_dbg_parm_en = 1;
++
++			PHYDM_SNPRINTF((output+used, out_len-used, "Radar detection with dbg parameter\n"));
++			PHYDM_SNPRINTF((output+used, out_len-used, "reg918:0x%08X\n", pDM_Odm->radar_detect_reg_918));
++			PHYDM_SNPRINTF((output+used, out_len-used, "reg91c:0x%08X\n", pDM_Odm->radar_detect_reg_91c));
++			PHYDM_SNPRINTF((output+used, out_len-used, "reg920:0x%08X\n", pDM_Odm->radar_detect_reg_920));
++			PHYDM_SNPRINTF((output+used, out_len-used, "reg924:0x%08X\n", pDM_Odm->radar_detect_reg_924));
++		} else {
++			pDM_Odm->radar_detect_dbg_parm_en = 0;
++			PHYDM_SNPRINTF((output+used, out_len-used, "Radar detection with default parameter\n"));
++		}
++		phydm_radar_detect_enable(pDM_Odm);
++		#endif /* defined(CONFIG_PHYDM_DFS_MASTER) */
++
++		break;
++	default:
++		break;
++	}
++}
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dfs.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dfs.h
+new file mode 100644
+index 0000000..bc55a43
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dfs.h
+@@ -0,0 +1,76 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __PHYDM_DFS_H__
++#define __PHYDM_DFS_H__
++
++#define DFS_VERSION	"0.0"
++
++/* ============================================================
++  Definition 
++ ============================================================
++*/
++
++/*
++============================================================
++1  structure
++ ============================================================
++*/
++
++/* ============================================================
++  enumeration
++ ============================================================
++*/
++
++typedef enum _tag_PhyDM_DFS_REGION_DOMAIN {
++	PHYDM_DFS_DOMAIN_UNKNOWN = 0,
++	PHYDM_DFS_DOMAIN_FCC = 1,
++	PHYDM_DFS_DOMAIN_MKK = 2,
++	PHYDM_DFS_DOMAIN_ETSI = 3,
++} PHYDM_DFS_REGION_DOMAIN;
++
++/* 
++============================================================
++  function prototype
++============================================================
++*/
++#if defined(CONFIG_PHYDM_DFS_MASTER)
++VOID phydm_radar_detect_reset(PVOID pDM_VOID);
++VOID phydm_radar_detect_disable(PVOID pDM_VOID);
++VOID phydm_radar_detect_enable(PVOID pDM_VOID);
++BOOLEAN phydm_radar_detect(PVOID pDM_VOID);
++#endif /* defined(CONFIG_PHYDM_DFS_MASTER) */
++
++BOOLEAN
++phydm_dfs_master_enabled(
++	IN		PVOID		pDM_VOID
++	);
++
++VOID
++phydm_dfs_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const argv,
++	IN		u4Byte		*_used,
++	OUT		char		*output,
++	IN		u4Byte		*_out_len
++	);
++
++#endif /*#ifndef __PHYDM_DFS_H__ */
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dig.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dig.c
+new file mode 100644
+index 0000000..302c4ef
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dig.c
+@@ -0,0 +1,2277 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++
++VOID
++ODM_ChangeDynamicInitGainThresh(
++	IN	PVOID		pDM_VOID,
++	IN	u4Byte		DM_Type,
++	IN	u4Byte		DM_Value
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T			pDM_DigTable = &pDM_Odm->DM_DigTable;
++
++	if (DM_Type == DIG_TYPE_THRESH_HIGH)
++	{
++		pDM_DigTable->RssiHighThresh = DM_Value;		
++	}
++	else if (DM_Type == DIG_TYPE_THRESH_LOW)
++	{
++		pDM_DigTable->RssiLowThresh = DM_Value;
++	}
++	else if (DM_Type == DIG_TYPE_ENABLE)
++	{
++		pDM_DigTable->Dig_Enable_Flag	= TRUE;
++	}	
++	else if (DM_Type == DIG_TYPE_DISABLE)
++	{
++		pDM_DigTable->Dig_Enable_Flag = FALSE;
++	}	
++	else if (DM_Type == DIG_TYPE_BACKOFF)
++	{
++		if(DM_Value > 30)
++			DM_Value = 30;
++		pDM_DigTable->BackoffVal = (u1Byte)DM_Value;
++	}
++	else if(DM_Type == DIG_TYPE_RX_GAIN_MIN)
++	{
++		if(DM_Value == 0)
++			DM_Value = 0x1;
++		pDM_DigTable->rx_gain_range_min = (u1Byte)DM_Value;
++	}
++	else if(DM_Type == DIG_TYPE_RX_GAIN_MAX)
++	{
++		if(DM_Value > 0x50)
++			DM_Value = 0x50;
++		pDM_DigTable->rx_gain_range_max = (u1Byte)DM_Value;
++	}
++}	// DM_ChangeDynamicInitGainThresh //
++
++int 
++getIGIForDiff(int value_IGI)
++{
++	#define ONERCCA_LOW_TH		0x30
++	#define ONERCCA_LOW_DIFF		8
++
++	if (value_IGI < ONERCCA_LOW_TH) {
++		if ((ONERCCA_LOW_TH - value_IGI) < ONERCCA_LOW_DIFF)
++			return ONERCCA_LOW_TH;
++		else
++			return value_IGI + ONERCCA_LOW_DIFF;
++	} else {
++		return value_IGI;
++	}
++}
++
++VOID
++odm_FAThresholdCheck(
++	IN		PVOID			pDM_VOID,
++	IN		BOOLEAN			bDFSBand,
++	IN		BOOLEAN			bPerformance,
++	IN		u4Byte			RxTp,
++	IN		u4Byte			TxTp,
++	OUT		u4Byte*			dm_FA_thres
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	if(pDM_Odm->bLinked && (bPerformance||bDFSBand))
++	{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++		/*For AP*/
++		if ((RxTp>>2) > TxTp && RxTp < 10000 && RxTp > 500) {			/*10Mbps & 0.5Mbps*/
++			dm_FA_thres[0] = 0x080;
++			dm_FA_thres[1] = 0x100;
++			dm_FA_thres[2] = 0x200;
++		} else {
++			dm_FA_thres[0] = 0x100;
++			dm_FA_thres[1] = 0x200;
++			dm_FA_thres[2] = 0x300;
++		}
++#else
++		/*For NIC*/
++		dm_FA_thres[0] = DM_DIG_FA_TH0;
++		dm_FA_thres[1] = DM_DIG_FA_TH1;
++		dm_FA_thres[2] = DM_DIG_FA_TH2;
++#endif
++	} else {
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_CE))
++		if(bDFSBand)
++		{
++			// For DFS band and no link
++			dm_FA_thres[0] = 250;
++			dm_FA_thres[1] = 1000;
++			dm_FA_thres[2] = 2000;
++		}
++		else
++#endif
++		{
++			dm_FA_thres[0] = 2000;
++			dm_FA_thres[1] = 4000;
++			dm_FA_thres[2] = 5000;
++		}
++	}
++	return;
++}
++
++u1Byte
++odm_ForbiddenIGICheck(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			DIG_Dynamic_MIN,
++	IN		u1Byte			CurrentIGI
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T						pDM_DigTable = &pDM_Odm->DM_DigTable;
++	PFALSE_ALARM_STATISTICS 	pFalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure( pDM_Odm, PHYDM_FALSEALMCNT);
++	u1Byte						rx_gain_range_min = pDM_DigTable->rx_gain_range_min;
++
++	if (pDM_DigTable->LargeFA_Timeout) {
++		if (--pDM_DigTable->LargeFA_Timeout == 0)
++			pDM_DigTable->LargeFAHit = 0;
++	}
++
++	if (pFalseAlmCnt->Cnt_all > 10000) {
++		
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Abnormally false alarm case.\n"));
++
++		if(pDM_DigTable->LargeFAHit != 3)
++			pDM_DigTable->LargeFAHit++;
++		
++		if(pDM_DigTable->ForbiddenIGI < CurrentIGI)//if(pDM_DigTable->ForbiddenIGI < pDM_DigTable->CurIGValue)
++		{
++			pDM_DigTable->ForbiddenIGI = CurrentIGI;//pDM_DigTable->ForbiddenIGI = pDM_DigTable->CurIGValue;
++			pDM_DigTable->LargeFAHit = 1;
++			pDM_DigTable->LargeFA_Timeout = LARGE_FA_TIMEOUT;
++		}
++
++		if(pDM_DigTable->LargeFAHit >= 3)
++		{
++			if((pDM_DigTable->ForbiddenIGI + 2) > pDM_DigTable->rx_gain_range_max)
++				rx_gain_range_min = pDM_DigTable->rx_gain_range_max;
++			else
++				rx_gain_range_min = (pDM_DigTable->ForbiddenIGI + 2);
++			pDM_DigTable->Recover_cnt = 1800;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Abnormally false alarm case: Recover_cnt = %d\n", pDM_DigTable->Recover_cnt));
++		}
++	}
++
++	else if (pFalseAlmCnt->Cnt_all > 2000) {
++		
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("Abnormally false alarm case.\n"));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("Cnt_all=%d, Cnt_all_pre=%d, CurrentIGI=0x%x, PreIGValue=0x%x\n", 
++			pFalseAlmCnt->Cnt_all, pFalseAlmCnt->Cnt_all_pre, CurrentIGI, pDM_DigTable->PreIGValue));
++
++		/* pFalseAlmCnt->Cnt_all = 1.1875*pFalseAlmCnt->Cnt_all_pre */
++		if ((pFalseAlmCnt->Cnt_all > (pFalseAlmCnt->Cnt_all_pre + (pFalseAlmCnt->Cnt_all_pre >> 3) + (pFalseAlmCnt->Cnt_all_pre >> 4))) && (CurrentIGI < pDM_DigTable->PreIGValue)) {
++			if (pDM_DigTable->LargeFAHit != 3)
++				pDM_DigTable->LargeFAHit++;
++			
++			if (pDM_DigTable->ForbiddenIGI < CurrentIGI)	{	/*if(pDM_DigTable->ForbiddenIGI < pDM_DigTable->CurIGValue)*/
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("Updating ForbiddenIGI by CurrentIGI, ForbiddenIGI=0x%x, CurrentIGI=0x%x\n",
++					pDM_DigTable->ForbiddenIGI, CurrentIGI));
++				
++				pDM_DigTable->ForbiddenIGI = CurrentIGI;	/*pDM_DigTable->ForbiddenIGI = pDM_DigTable->CurIGValue;*/
++				pDM_DigTable->LargeFAHit = 1;
++				pDM_DigTable->LargeFA_Timeout = LARGE_FA_TIMEOUT;
++			}
++			
++		}
++		
++		if (pDM_DigTable->LargeFAHit >= 3) {
++			
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("FaHit is greater than 3, rx_gain_range_max=0x%x, rx_gain_range_min=0x%x, ForbiddenIGI=0x%x\n",
++				pDM_DigTable->rx_gain_range_max, rx_gain_range_min, pDM_DigTable->ForbiddenIGI));
++
++			if ((pDM_DigTable->ForbiddenIGI + 1) > pDM_DigTable->rx_gain_range_max)
++				rx_gain_range_min = pDM_DigTable->rx_gain_range_max;
++			else
++				rx_gain_range_min = (pDM_DigTable->ForbiddenIGI + 1);
++
++			pDM_DigTable->Recover_cnt = 1200;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("Abnormally false alarm case: Recover_cnt = %d,  rx_gain_range_min = 0x%x\n", pDM_DigTable->Recover_cnt, rx_gain_range_min));
++		}
++	}	
++	
++	else
++	{
++		if (pDM_DigTable->Recover_cnt != 0) {
++			
++			pDM_DigTable->Recover_cnt --;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Normal Case: Recover_cnt = %d\n", pDM_DigTable->Recover_cnt));
++		}
++		else
++		{
++			if(pDM_DigTable->LargeFAHit < 3)
++			{
++				if((pDM_DigTable->ForbiddenIGI - 2) < DIG_Dynamic_MIN) //DM_DIG_MIN)
++				{
++					pDM_DigTable->ForbiddenIGI = DIG_Dynamic_MIN; //DM_DIG_MIN;
++					rx_gain_range_min = DIG_Dynamic_MIN; //DM_DIG_MIN;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Normal Case: At Lower Bound\n"));
++				}
++				else
++				{
++					if (pDM_DigTable->LargeFAHit == 0) {
++						pDM_DigTable->ForbiddenIGI -= 2;
++						rx_gain_range_min = (pDM_DigTable->ForbiddenIGI + 2);
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Normal Case: Approach Lower Bound\n"));
++				}
++			}
++			}
++			else
++			{
++				pDM_DigTable->LargeFAHit = 0;
++			}
++		}
++	}
++	
++	return rx_gain_range_min;
++
++}
++
++VOID
++odm_InbandNoiseCalculate (	
++	IN		PVOID		pDM_VOID
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T				pDM_DigTable = &pDM_Odm->DM_DigTable;
++	u1Byte				IGIBackup, TimeCnt = 0, ValidCnt = 0;
++	BOOLEAN				bTimeout = TRUE;
++	s1Byte				sNoise_A, sNoise_B;
++	s4Byte				NoiseRpt_A = 0,NoiseRpt_B = 0;
++	u4Byte				tmp = 0;
++	static	u1Byte		failCnt = 0;
++
++	if(!(pDM_Odm->SupportICType & (ODM_RTL8192E)))
++		return;
++
++	if(pDM_Odm->RFType == ODM_1T1R || *(pDM_Odm->pOnePathCCA) != ODM_CCA_2R)
++		return;
++
++	if(!pDM_DigTable->bNoiseEst)
++		return;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_InbandNoiseEstimate()========>\n"));
++	
++	//1 Set initial gain.
++	IGIBackup = pDM_DigTable->CurIGValue;
++	pDM_DigTable->IGIOffset_A = 0;
++	pDM_DigTable->IGIOffset_B = 0;
++	ODM_Write_DIG(pDM_Odm, 0x24);
++
++	//1 Update idle time power report	
++	if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		ODM_SetBBReg(pDM_Odm, ODM_REG_TX_ANT_CTRL_11N, BIT25, 0x0);
++
++	delay_ms(2);
++
++	//1 Get noise power level
++	while(1)
++	{
++		//2 Read Noise Floor Report
++		if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++			tmp = ODM_GetBBReg(pDM_Odm, 0x8f8, bMaskLWord);
++
++		sNoise_A = (s1Byte)(tmp & 0xff);
++		sNoise_B = (s1Byte)((tmp & 0xff00)>>8);
++
++		//ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("sNoise_A = %d, sNoise_B = %d\n",sNoise_A, sNoise_B));
++
++		if((sNoise_A < 20 && sNoise_A >= -70) && (sNoise_B < 20 && sNoise_B >= -70))
++		{
++			ValidCnt++;
++			NoiseRpt_A += sNoise_A;
++			NoiseRpt_B += sNoise_B;
++			//ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("sNoise_A = %d, sNoise_B = %d\n",sNoise_A, sNoise_B));
++		}
++
++		TimeCnt++;
++		bTimeout = (TimeCnt >= 150)?TRUE:FALSE;
++		
++		if(ValidCnt == 20 || bTimeout)
++			break;
++
++		delay_ms(2);
++		
++	}
++
++	//1 Keep idle time power report	
++	if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++		ODM_SetBBReg(pDM_Odm, ODM_REG_TX_ANT_CTRL_11N, BIT25, 0x1);
++
++	//1 Recover IGI
++	ODM_Write_DIG(pDM_Odm, IGIBackup);
++	
++	//1 Calculate Noise Floor
++	if(ValidCnt != 0)
++	{
++		NoiseRpt_A  /= (ValidCnt<<1);
++		NoiseRpt_B  /= (ValidCnt<<1);
++	}
++	
++	if(bTimeout)
++	{
++		NoiseRpt_A = 0;
++		NoiseRpt_B = 0;
++
++		failCnt ++;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("Noise estimate fail time = %d\n", failCnt));
++		
++		if(failCnt == 3)
++		{
++			failCnt = 0;
++			pDM_DigTable->bNoiseEst = FALSE;
++		}
++	}
++	else
++	{
++		NoiseRpt_A = -110 + 0x24 + NoiseRpt_A -6;
++		NoiseRpt_B = -110 + 0x24 + NoiseRpt_B -6;
++		pDM_DigTable->bNoiseEst = FALSE;
++		failCnt = 0;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("NoiseRpt_A = %d, NoiseRpt_B = %d\n", NoiseRpt_A, NoiseRpt_B));
++	}
++
++	//1 Calculate IGI Offset
++	if(NoiseRpt_A > NoiseRpt_B)
++	{
++		pDM_DigTable->IGIOffset_A = NoiseRpt_A - NoiseRpt_B;
++		pDM_DigTable->IGIOffset_B = 0;
++	}
++	else
++	{
++		pDM_DigTable->IGIOffset_A = 0;
++		pDM_DigTable->IGIOffset_B = NoiseRpt_B - NoiseRpt_A;
++	}
++
++#endif
++	return;
++}
++
++VOID
++odm_DigForBtHsMode(
++	IN		PVOID		pDM_VOID
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T					pDM_DigTable=&pDM_Odm->DM_DigTable;
++	u1Byte					digForBtHs=0;
++	u1Byte					digUpBound=0x5a;
++	
++	if (pDM_Odm->bBtConnectProcess) {
++		digForBtHs = 0x22;
++	} else {
++		//
++		// Decide DIG value by BT HS RSSI.
++		//
++		digForBtHs = pDM_Odm->btHsRssi+4;
++		
++		//DIG Bound
++		if(digForBtHs > digUpBound)
++			digForBtHs = digUpBound;
++		if(digForBtHs < 0x1c)
++			digForBtHs = 0x1c;
++
++		// update Current IGI
++		pDM_DigTable->BT30_CurIGI = digForBtHs;
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DigForBtHsMode() : set DigValue=0x%x\n", digForBtHs));
++#endif
++}
++
++VOID
++phydm_setBigJumpStep(
++	IN	PVOID			pDM_VOID,
++	IN	u1Byte			CurrentIGI
++)
++{
++#if (RTL8822B_SUPPORT == 1 || RTL8197F_SUPPORT == 1)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T			pDM_DigTable = &pDM_Odm->DM_DigTable;
++	u1Byte			step1[8] = {24, 30, 40, 50, 60, 70, 80, 90};
++	u1Byte			i;
++
++	if (pDM_DigTable->enableAdjustBigJump == 0)
++		return;
++
++	for (i = 0; i <= pDM_DigTable->bigJumpStep1; i++) {
++		if ((CurrentIGI + step1[i]) > pDM_DigTable->bigJumpLmt[pDM_DigTable->agcTableIdx]) {
++			if (i != 0)
++				i = i - 1;
++			break;
++		} else if (i == pDM_DigTable->bigJumpStep1)
++			break;
++	}
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		ODM_SetBBReg(pDM_Odm, 0x8c8, 0xe, i);
++	else if (pDM_Odm->SupportICType & ODM_RTL8197F)
++		ODM_SetBBReg(pDM_Odm, ODM_REG_BB_AGC_SET_2_11N, 0xe, i);
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("phydm_setBigJumpStep(): bigjump = %d (ori = 0x%d), LMT=0x%x\n", i, pDM_DigTable->bigJumpStep1, pDM_DigTable->bigJumpLmt[pDM_DigTable->agcTableIdx]));
++#endif
++}
++
++VOID
++ODM_Write_DIG(
++	IN	PVOID			pDM_VOID,
++	IN	u1Byte			CurrentIGI
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T			pDM_DigTable = &pDM_Odm->DM_DigTable;
++
++	if (pDM_DigTable->bStopDIG) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("ODM_Write_DIG(): Stop Writing IGI\n"));
++		return;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_TRACE, ("ODM_Write_DIG(): ODM_REG(IGI_A,pDM_Odm)=0x%x, ODM_BIT(IGI,pDM_Odm)=0x%x\n",
++		ODM_REG(IGI_A,pDM_Odm),ODM_BIT(IGI,pDM_Odm)));
++
++	//1 Check initial gain by upper bound		
++	if ((!pDM_DigTable->bPSDInProgress) && pDM_Odm->bLinked)
++	{
++		if (CurrentIGI > pDM_DigTable->rx_gain_range_max) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_TRACE, ("ODM_Write_DIG(): CurrentIGI(0x%02x) is larger than upper bound !!\n", CurrentIGI));
++			CurrentIGI = pDM_DigTable->rx_gain_range_max;
++		}
++		if (pDM_Odm->SupportAbility & ODM_BB_ADAPTIVITY && pDM_Odm->adaptivity_flag == TRUE)
++		{
++			if(CurrentIGI > pDM_Odm->Adaptivity_IGI_upper)
++				CurrentIGI = pDM_Odm->Adaptivity_IGI_upper;
++	
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("ODM_Write_DIG(): Adaptivity case: Force upper bound to 0x%x !!!!!!\n", CurrentIGI));
++		}
++	}
++
++	if(pDM_DigTable->CurIGValue != CurrentIGI)
++	{
++
++#if (RTL8822B_SUPPORT == 1 | RTL8197F_SUPPORT == 1)
++		/* Modify big jump step for 8822B and 8197F */
++		if (pDM_Odm->SupportICType & (ODM_RTL8822B|ODM_RTL8197F))
++			phydm_setBigJumpStep(pDM_Odm, CurrentIGI);
++#endif
++
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++		/* Set IGI value of CCK for new CCK AGC */
++		if (pDM_Odm->cck_new_agc) {
++			if (pDM_Odm->SupportICType & ODM_IC_PHY_STATUE_NEW_TYPE)
++				ODM_SetBBReg(pDM_Odm, 0xa0c, 0x00003f00, (CurrentIGI>>1));
++		}
++#endif
++
++		/*Add by YuChen for USB IO too slow issue*/
++		if ((pDM_Odm->SupportAbility & ODM_BB_ADAPTIVITY) && (CurrentIGI > pDM_DigTable->CurIGValue))
++			Phydm_Adaptivity(pDM_Odm, CurrentIGI);
++
++		//1 Set IGI value
++		if (pDM_Odm->SupportPlatform & (ODM_WIN|ODM_CE)) {
++			ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_A,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++
++			if(pDM_Odm->RFType > ODM_1T1R)
++				ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_B,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++
++#if (RTL8814A_SUPPORT == 1)
++			if (pDM_Odm->SupportICType & ODM_RTL8814A) {
++				ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_C,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++				ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_D,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++			}
++#endif
++		} else if (pDM_Odm->SupportPlatform & (ODM_AP)) {
++			switch(*(pDM_Odm->pOnePathCCA))
++			{
++				case ODM_CCA_2R:
++					ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_A,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++
++					if(pDM_Odm->RFType > ODM_1T1R)
++						ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_B,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++#if (RTL8814A_SUPPORT == 1)					
++					if (pDM_Odm->SupportICType & ODM_RTL8814A) {
++						ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_C,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++						ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_D,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++					}
++#endif
++					break;
++				case ODM_CCA_1R_A:
++					ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_A,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++					if(pDM_Odm->RFType != ODM_1T1R)
++						ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_B,pDM_Odm), ODM_BIT(IGI,pDM_Odm), getIGIForDiff(CurrentIGI));
++					break;
++				case ODM_CCA_1R_B:
++					ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_A,pDM_Odm), ODM_BIT(IGI,pDM_Odm), getIGIForDiff(CurrentIGI));
++					if(pDM_Odm->RFType != ODM_1T1R)
++						ODM_SetBBReg(pDM_Odm, ODM_REG(IGI_B,pDM_Odm), ODM_BIT(IGI,pDM_Odm), CurrentIGI);
++					break;
++			}
++		}
++
++		pDM_DigTable->CurIGValue = CurrentIGI;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_TRACE, ("ODM_Write_DIG(): CurrentIGI(0x%02x).\n", CurrentIGI));
++	
++}
++
++VOID
++odm_PauseDIG(
++	IN		PVOID					pDM_VOID,
++	IN		PHYDM_PAUSE_TYPE		PauseType,
++	IN		PHYDM_PAUSE_LEVEL		pause_level,
++	IN		u1Byte					IGIValue
++)
++{
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T				pDM_DigTable = &pDM_Odm->DM_DigTable;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG()=========> level = %d\n", pause_level));
++
++	if ((pDM_DigTable->pause_dig_level == 0) && (!(pDM_Odm->SupportAbility & ODM_BB_DIG) || !(pDM_Odm->SupportAbility & ODM_BB_FA_CNT))) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, 
++			("odm_PauseDIG(): Return: SupportAbility DIG or FA is disabled !!\n"));
++		return;
++	}
++
++	if (pause_level > DM_DIG_MAX_PAUSE_TYPE) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, 
++			("odm_PauseDIG(): Return: Wrong pause level !!\n"));
++		return;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): pause level = 0x%x, Current value = 0x%x\n", pDM_DigTable->pause_dig_level, IGIValue));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): pause value = 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x\n", 
++		pDM_DigTable->pause_dig_value[7], pDM_DigTable->pause_dig_value[6], pDM_DigTable->pause_dig_value[5], pDM_DigTable->pause_dig_value[4],
++		pDM_DigTable->pause_dig_value[3], pDM_DigTable->pause_dig_value[2], pDM_DigTable->pause_dig_value[1], pDM_DigTable->pause_dig_value[0]));
++	
++	switch (PauseType) {
++	/* Pause DIG */
++	case PHYDM_PAUSE:
++	{
++		/* Disable DIG */
++		ODM_CmnInfoUpdate(pDM_Odm, ODM_CMNINFO_ABILITY, pDM_Odm->SupportAbility & (~ODM_BB_DIG));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): Pause DIG !!\n"));
++		
++		/* Backup IGI value */
++		if (pDM_DigTable->pause_dig_level == 0) {
++			pDM_DigTable->IGIBackup = pDM_DigTable->CurIGValue;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): Backup IGI  = 0x%x, new IGI = 0x%x\n", pDM_DigTable->IGIBackup, IGIValue));
++		}
++
++		/* Record IGI value */
++		pDM_DigTable->pause_dig_value[pause_level] = IGIValue;
++
++		/* Update pause level */
++		pDM_DigTable->pause_dig_level = (pDM_DigTable->pause_dig_level | BIT(pause_level));
++
++		/* Write new IGI value */
++		if (BIT(pause_level + 1) > pDM_DigTable->pause_dig_level) {
++			ODM_Write_DIG(pDM_Odm, IGIValue);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): IGI of higher level = 0x%x\n",  IGIValue));
++		}
++		break;
++	}
++	/* Resume DIG */
++	case PHYDM_RESUME:
++	{
++		/* check if the level is illegal or not */
++		if ((pDM_DigTable->pause_dig_level & (BIT(pause_level))) != 0) {
++			pDM_DigTable->pause_dig_level = pDM_DigTable->pause_dig_level & (~(BIT(pause_level)));
++			pDM_DigTable->pause_dig_value[pause_level] = 0;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): Resume DIG !!\n"));
++		} else {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): Wrong resume level !!\n"));
++			break;
++		}
++
++		/* Resume DIG */
++		if (pDM_DigTable->pause_dig_level == 0) {
++			/* Write backup IGI value */
++			ODM_Write_DIG(pDM_Odm, pDM_DigTable->IGIBackup);
++			pDM_DigTable->bIgnoreDIG = TRUE;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): Write original IGI = 0x%x\n", pDM_DigTable->IGIBackup));
++
++			/* Enable DIG */
++			ODM_CmnInfoUpdate(pDM_Odm, ODM_CMNINFO_ABILITY, pDM_Odm->SupportAbility | ODM_BB_DIG);	
++			break;
++		}
++
++		if (BIT(pause_level) > pDM_DigTable->pause_dig_level) {
++			s1Byte		max_level;
++		
++			/* Calculate the maximum level now */
++			for (max_level = (pause_level - 1); max_level >= 0; max_level--) {
++				if ((pDM_DigTable->pause_dig_level & BIT(max_level)) > 0)
++					break;
++			}
++		
++			/* write IGI of lower level */
++			ODM_Write_DIG(pDM_Odm, pDM_DigTable->pause_dig_value[max_level]);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): Write IGI (0x%x) of level (%d)\n",  
++				 pDM_DigTable->pause_dig_value[max_level], max_level));
++			break;
++		}
++		break;
++	}
++	default:
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): Wrong  type !!\n"));
++		break;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): pause level = 0x%x, Current value = 0x%x\n", pDM_DigTable->pause_dig_level, IGIValue));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseDIG(): pause value = 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x\n", 
++		pDM_DigTable->pause_dig_value[7], pDM_DigTable->pause_dig_value[6], pDM_DigTable->pause_dig_value[5], pDM_DigTable->pause_dig_value[4],
++		pDM_DigTable->pause_dig_value[3], pDM_DigTable->pause_dig_value[2], pDM_DigTable->pause_dig_value[1], pDM_DigTable->pause_dig_value[0]));
++
++}
++
++BOOLEAN 
++odm_DigAbort(
++	IN		PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T			pDM_DigTable = &pDM_Odm->DM_DigTable;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	prtl8192cd_priv	priv = pDM_Odm->priv;
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		pAdapter	= pDM_Odm->Adapter; 
++#endif
++
++	//SupportAbility
++	if(!(pDM_Odm->SupportAbility & ODM_BB_FA_CNT))
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Return: SupportAbility ODM_BB_FA_CNT is disabled\n"));
++		return	TRUE;
++	}
++
++	//SupportAbility
++	if(!(pDM_Odm->SupportAbility & ODM_BB_DIG))
++	{	
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Return: SupportAbility ODM_BB_DIG is disabled\n"));
++		return	TRUE;
++	}
++
++	//ScanInProcess
++	if(*(pDM_Odm->pbScanInProcess))
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Return: In Scan Progress \n"));
++	    	return	TRUE;
++	}
++
++	if(pDM_DigTable->bIgnoreDIG)
++	{
++		pDM_DigTable->bIgnoreDIG = FALSE;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Return: Ignore DIG \n"));
++	    	return	TRUE;
++	}
++
++	//add by Neil Chen to avoid PSD is processing
++	if(pDM_Odm->bDMInitialGainEnable == FALSE)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Return: PSD is Processing \n"));
++		return	TRUE;
++	}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#if OS_WIN_FROM_WIN7(OS_VERSION)
++	if(IsAPModeExist( pAdapter) && pAdapter->bInHctTest)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Return: Is AP mode or In HCT Test \n"));
++	    	return	TRUE;
++	}
++	#endif
++
++	if(pDM_Odm->bBtHsOperation)
++	{
++		odm_DigForBtHsMode(pDM_Odm);
++	}	
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#ifdef CONFIG_SPECIAL_SETTING_FOR_FUNAI_TV	
++	if((pDM_Odm->bLinked) && (pDM_Odm->Adapter->registrypriv.force_igi !=0))
++	{	
++		printk("pDM_Odm->RSSI_Min=%d \n",pDM_Odm->RSSI_Min);
++		ODM_Write_DIG(pDM_Odm,pDM_Odm->Adapter->registrypriv.force_igi);
++		return	TRUE;
++	}
++	#endif
++#else
++	if (!(priv->up_time > 5))
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Return: Not In DIG Operation Period \n"));
++		return	TRUE;
++	}
++#endif
++
++	return	FALSE;
++}
++
++VOID
++odm_DIGInit(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T						pDM_DigTable = &pDM_Odm->DM_DigTable;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	PFALSE_ALARM_STATISTICS 	FalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure( pDM_Odm, PHYDM_FALSEALMCNT);
++#endif
++	u4Byte						ret_value;
++	u1Byte						i;
++
++	pDM_DigTable->bStopDIG = FALSE;
++	pDM_DigTable->bIgnoreDIG = FALSE;
++	pDM_DigTable->bPSDInProgress = FALSE;
++	pDM_DigTable->CurIGValue = (u1Byte) ODM_GetBBReg(pDM_Odm, ODM_REG(IGI_A,pDM_Odm), ODM_BIT(IGI,pDM_Odm));
++	pDM_DigTable->PreIGValue = 0;
++	pDM_DigTable->RssiLowThresh 	= DM_DIG_THRESH_LOW;
++	pDM_DigTable->RssiHighThresh 	= DM_DIG_THRESH_HIGH;
++	pDM_DigTable->FALowThresh	= DM_FALSEALARM_THRESH_LOW;
++	pDM_DigTable->FAHighThresh	= DM_FALSEALARM_THRESH_HIGH;
++	pDM_DigTable->BackoffVal = DM_DIG_BACKOFF_DEFAULT;
++	pDM_DigTable->BackoffVal_range_max = DM_DIG_BACKOFF_MAX;
++	pDM_DigTable->BackoffVal_range_min = DM_DIG_BACKOFF_MIN;
++	pDM_DigTable->PreCCK_CCAThres = 0xFF;
++	pDM_DigTable->CurCCK_CCAThres = 0x83;
++	pDM_DigTable->ForbiddenIGI = DM_DIG_MIN_NIC;
++	pDM_DigTable->LargeFAHit = 0;
++	pDM_DigTable->LargeFA_Timeout = 0;
++	pDM_DigTable->Recover_cnt = 0;
++	pDM_DigTable->bMediaConnect_0 = FALSE;
++	pDM_DigTable->bMediaConnect_1 = FALSE;
++
++	//To Initialize pDM_Odm->bDMInitialGainEnable == FALSE to avoid DIG error
++	pDM_Odm->bDMInitialGainEnable = TRUE;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	pDM_DigTable->DIG_Dynamic_MIN_0 = 0x25;
++	pDM_DigTable->DIG_Dynamic_MIN_1 = 0x25;
++
++	// For AP\ ADSL modified DIG
++	pDM_DigTable->bTpTarget = FALSE;
++	pDM_DigTable->bNoiseEst = TRUE;
++	pDM_DigTable->IGIOffset_A = 0;
++	pDM_DigTable->IGIOffset_B = 0;
++	pDM_DigTable->TpTrainTH_min = 0;
++
++	// For RTL8881A
++	FalseAlmCnt->Cnt_Ofdm_fail_pre = 0;
++
++	//Dyanmic EDCCA
++	if(pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++	{
++		ODM_SetBBReg(pDM_Odm, 0xC50, 0xFFFF0000, 0xfafd);
++	}
++#else
++	pDM_DigTable->DIG_Dynamic_MIN_0 = DM_DIG_MIN_NIC;
++	pDM_DigTable->DIG_Dynamic_MIN_1 = DM_DIG_MIN_NIC;
++
++	//To Initi BT30 IGI
++	pDM_DigTable->BT30_CurIGI=0x32;
++
++	ODM_Memory_Set(pDM_Odm, pDM_DigTable->pause_dig_value, 0, (DM_DIG_MAX_PAUSE_TYPE + 1));
++	pDM_DigTable->pause_dig_level = 0;
++	ODM_Memory_Set(pDM_Odm, pDM_DigTable->pause_cckpd_value, 0, (DM_DIG_MAX_PAUSE_TYPE + 1));
++	pDM_DigTable->pause_cckpd_level = 0;
++#endif
++
++	if(pDM_Odm->BoardType & (ODM_BOARD_EXT_PA|ODM_BOARD_EXT_LNA))
++	{
++		pDM_DigTable->rx_gain_range_max = DM_DIG_MAX_NIC;
++		pDM_DigTable->rx_gain_range_min = DM_DIG_MIN_NIC;
++	}
++	else
++	{
++		pDM_DigTable->rx_gain_range_max = DM_DIG_MAX_NIC;
++		pDM_DigTable->rx_gain_range_min = DM_DIG_MIN_NIC;
++	}
++
++#if (RTL8822B_SUPPORT == 1 || RTL8197F_SUPPORT == 1)
++	pDM_DigTable->enableAdjustBigJump = 1;
++	if (pDM_Odm->SupportICType & ODM_RTL8822B) {
++		ret_value = ODM_GetBBReg(pDM_Odm, 0x8c8, bMaskLWord);
++		pDM_DigTable->bigJumpStep1 = (u1Byte)(ret_value & 0xe) >> 1;
++		pDM_DigTable->bigJumpStep2 = (u1Byte)(ret_value & 0x30)>>4;
++		pDM_DigTable->bigJumpStep3 = (u1Byte)(ret_value & 0xc0)>>6;
++
++	} else if (pDM_Odm->SupportICType & ODM_RTL8197F) {
++		ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_BB_AGC_SET_2_11N, bMaskLWord);
++		pDM_DigTable->bigJumpStep1 = (u1Byte)(ret_value & 0xe) >> 1;
++		pDM_DigTable->bigJumpStep2 = (u1Byte)(ret_value & 0x30)>>4;
++		pDM_DigTable->bigJumpStep3 = (u1Byte)(ret_value & 0xc0)>>6;
++	}
++	if (pDM_Odm->SupportICType & (ODM_RTL8822B|ODM_RTL8197F)) {
++		for (i = 0; i < sizeof(pDM_DigTable->bigJumpLmt); i++) {
++			if (pDM_DigTable->bigJumpLmt[i] == 0)
++				pDM_DigTable->bigJumpLmt[i] = 0x64;		/* Set -10dBm as default value */
++		}
++	}
++#endif
++}
++
++
++VOID 
++odm_DIG(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER					pAdapter	= pDM_Odm->Adapter;
++	HAL_DATA_TYPE				*pHalData = GET_HAL_DATA(pDM_Odm->Adapter);
++#elif (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	prtl8192cd_priv				priv = pDM_Odm->priv;
++	PSTA_INFO_T   				pEntry;
++#endif
++
++	// Common parameters
++	pDIG_T						pDM_DigTable = &pDM_Odm->DM_DigTable;
++	PFALSE_ALARM_STATISTICS		pFalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure( pDM_Odm, PHYDM_FALSEALMCNT);
++	BOOLEAN						FirstConnect,FirstDisConnect;
++	u1Byte						DIG_MaxOfMin, DIG_Dynamic_MIN;
++	u1Byte						dm_dig_max, dm_dig_min;
++	u1Byte						CurrentIGI = pDM_DigTable->CurIGValue;
++	u1Byte						offset;
++	u4Byte						dm_FA_thres[3];
++	u4Byte						TxTp = 0, RxTp = 0;
++	BOOLEAN						DIG_GoUpCheck = TRUE;
++	BOOLEAN						bDFSBand = FALSE;
++	BOOLEAN						bPerformance = TRUE, bFirstTpTarget = FALSE, bFirstCoverage = FALSE;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	u4Byte						TpTrainTH_MIN = DM_DIG_TP_Target_TH0;
++	static		u1Byte			TimeCnt = 0;
++	u1Byte						i;
++#endif
++
++	if(odm_DigAbort(pDM_Odm) == TRUE)
++		return;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG()===========================>\n\n"));
++	
++
++	//1 Update status
++	{
++		DIG_Dynamic_MIN = pDM_DigTable->DIG_Dynamic_MIN_0;
++		FirstConnect = (pDM_Odm->bLinked) && (pDM_DigTable->bMediaConnect_0 == FALSE);
++		FirstDisConnect = (!pDM_Odm->bLinked) && (pDM_DigTable->bMediaConnect_0 == TRUE);
++	}
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	//1 Noise Floor Estimate
++	//pDM_DigTable->bNoiseEst = (FirstConnect)?TRUE:pDM_DigTable->bNoiseEst;
++	//odm_InbandNoiseCalculate (pDM_Odm);
++	
++	//1 Mode decision
++	if(pDM_Odm->bLinked)
++	{
++		//2 Calculate total TP
++		for (i=0; i<ODM_ASSOCIATE_ENTRY_NUM; i++)
++		{
++			pEntry = pDM_Odm->pODM_StaInfo[i];
++			if(IS_STA_VALID(pEntry))
++			{
++				RxTp += (u4Byte)(pEntry->rx_byte_cnt_LowMAW>>7);
++				TxTp += (u4Byte)(pEntry->tx_byte_cnt_LowMAW>>7);			//Kbps
++			}
++		}
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): TX TP = %dkbps, RX TP = %dkbps\n", TxTp, RxTp));
++	}
++
++	switch(pDM_Odm->priv->pshare->rf_ft_var.dig_cov_enable)
++	{
++		case 0:
++		{
++			bPerformance = TRUE;
++			break;
++		}
++		case 1:
++		{
++			bPerformance = FALSE;
++			break;
++		}
++		case 2:
++		{
++			if(pDM_Odm->bLinked)
++			{
++				if(pDM_DigTable->TpTrainTH_min > DM_DIG_TP_Target_TH0)
++					TpTrainTH_MIN = pDM_DigTable->TpTrainTH_min;
++
++				if(pDM_DigTable->TpTrainTH_min > DM_DIG_TP_Target_TH1)
++					TpTrainTH_MIN = DM_DIG_TP_Target_TH1;
++
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): TP training mode lower bound = %dkbps\n", TpTrainTH_MIN));
++
++				//2 Decide DIG mode by total TP
++				if((TxTp + RxTp) > DM_DIG_TP_Target_TH1)			// change to performance mode
++				{
++					bFirstTpTarget = (!pDM_DigTable->bTpTarget)?TRUE:FALSE;
++					pDM_DigTable->bTpTarget = TRUE;
++					bPerformance = TRUE;
++				}
++				else if((TxTp + RxTp) < TpTrainTH_MIN)	// change to coverage mode
++				{
++					bFirstCoverage = (pDM_DigTable->bTpTarget)?TRUE:FALSE;
++					
++					if(TimeCnt < DM_DIG_TP_Training_Period)
++					{
++						pDM_DigTable->bTpTarget = FALSE;
++						bPerformance = FALSE;
++						TimeCnt++;
++					}
++					else
++					{
++						pDM_DigTable->bTpTarget = TRUE;
++						bPerformance = TRUE;
++						bFirstTpTarget = TRUE;
++						TimeCnt = 0;
++					}
++				}
++				else										// remain previous mode
++				{
++					bPerformance = pDM_DigTable->bTpTarget;
++
++					if(!bPerformance)
++					{
++						if(TimeCnt < DM_DIG_TP_Training_Period)
++							TimeCnt++;
++						else
++						{
++							pDM_DigTable->bTpTarget = TRUE;
++							bPerformance = TRUE;
++							bFirstTpTarget = TRUE;
++							TimeCnt = 0;
++						}
++					}
++				}
++
++				if(!bPerformance)
++					pDM_DigTable->TpTrainTH_min = RxTp + TxTp;
++
++			}
++			else
++			{
++				bPerformance = FALSE;
++				pDM_DigTable->TpTrainTH_min = 0;
++			}
++			break;
++		}
++		default:
++			bPerformance = TRUE;
++	}
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("====== DIG mode = %d  ======\n", pDM_Odm->priv->pshare->rf_ft_var.dig_cov_enable));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("====== bPerformance = %d ======\n", bPerformance));
++#endif
++
++	//1 Boundary Decision
++	{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++		//2 For AP\ADSL
++		if(!bPerformance)
++		{
++			dm_dig_max = DM_DIG_MAX_AP_COVERAGR;
++			dm_dig_min = DM_DIG_MIN_AP_COVERAGE;
++			DIG_MaxOfMin = DM_DIG_MAX_OF_MIN_COVERAGE;
++		}
++		else
++		{
++			if (pDM_Odm->RFType == ODM_1T1R)
++				dm_dig_max = DM_DIG_MAX_AP - 6;
++			else
++				dm_dig_max = DM_DIG_MAX_AP;
++			dm_dig_min = DM_DIG_MIN_AP;
++			DIG_MaxOfMin = DM_DIG_MAX_OF_MIN;
++		}
++		
++		//4 TX2path
++		if (priv->pmib->dot11RFEntry.tx2path && !bDFSBand && (*(pDM_Odm->pWirelessMode) == ODM_WM_B))
++				dm_dig_max = 0x2A;
++
++#if RTL8192E_SUPPORT
++#ifdef HIGH_POWER_EXT_LNA
++		if ((pDM_Odm->SupportICType & (ODM_RTL8192E)) && (pDM_Odm->ExtLNA))
++			dm_dig_max = 0x42;						
++#endif
++#endif
++		if (pDM_Odm->IGI_LowerBound) {
++			if (dm_dig_min < pDM_Odm->IGI_LowerBound)
++				dm_dig_min = pDM_Odm->IGI_LowerBound;
++			if (DIG_MaxOfMin < pDM_Odm->IGI_LowerBound)
++				DIG_MaxOfMin = pDM_Odm->IGI_LowerBound;			
++		}
++		if (pDM_Odm->IGI_UpperBound) {
++			if (dm_dig_max > pDM_Odm->IGI_UpperBound)
++				dm_dig_max = pDM_Odm->IGI_UpperBound;	
++			if (DIG_MaxOfMin > pDM_Odm->IGI_UpperBound)
++				DIG_MaxOfMin = pDM_Odm->IGI_UpperBound;
++		}
++#else
++		//2 For WIN\CE
++		if(pDM_Odm->SupportICType >= ODM_RTL8188E)
++			dm_dig_max = 0x5A;
++		else
++			dm_dig_max = DM_DIG_MAX_NIC;
++		
++		if(pDM_Odm->SupportICType != ODM_RTL8821)
++			dm_dig_min = DM_DIG_MIN_NIC;
++		else
++			dm_dig_min = 0x1C;
++
++		DIG_MaxOfMin = DM_DIG_MAX_AP;
++#endif
++
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_CE))
++		/* Modify lower bound for DFS band */
++		if ((((*pDM_Odm->pChannel >= 52) && (*pDM_Odm->pChannel <= 64)) ||
++			((*pDM_Odm->pChannel >= 100) && (*pDM_Odm->pChannel <= 140)))
++			#if (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++			&& phydm_dfs_master_enabled(pDM_Odm) == TRUE
++			#endif
++		) {
++			bDFSBand = TRUE;
++			if (*pDM_Odm->pBandWidth == ODM_BW20M)
++				dm_dig_min = DM_DIG_MIN_AP_DFS+2;
++			else
++				dm_dig_min = DM_DIG_MIN_AP_DFS;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): ====== In DFS band ======\n"));
++		}
++#endif
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Absolutly upper bound = 0x%x, lower bound = 0x%x\n",dm_dig_max, dm_dig_min));
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	if (pDM_Odm->pu1ForcedIgiLb && (0 < *pDM_Odm->pu1ForcedIgiLb)) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Force IGI lb to: 0x%02x !!!!!!\n", *pDM_Odm->pu1ForcedIgiLb));
++		dm_dig_min = *pDM_Odm->pu1ForcedIgiLb;
++		dm_dig_max = (dm_dig_min <= dm_dig_max) ? (dm_dig_max) : (dm_dig_min + 1);
++	}
++#endif
++
++	//1 Adjust boundary by RSSI
++	if(pDM_Odm->bLinked && bPerformance)
++	{
++		//2 Modify DIG upper bound
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++		offset = 15;
++#else
++		//4 Modify DIG upper bound for 92E, 8723A\B, 8821 & 8812 BT
++		if ((pDM_Odm->SupportICType & (ODM_RTL8192E|ODM_RTL8723B|ODM_RTL8812|ODM_RTL8821)) && (pDM_Odm->bBtLimitedDig == 1))
++		{
++			offset = 10;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Coex. case: Force upper bound to RSSI + %d !!!!!!\n", offset));		
++		}
++		else
++			offset = 15;
++#endif
++
++		if((pDM_Odm->RSSI_Min + offset) > dm_dig_max )
++			pDM_DigTable->rx_gain_range_max = dm_dig_max;
++		else if((pDM_Odm->RSSI_Min + offset) < dm_dig_min )
++			pDM_DigTable->rx_gain_range_max = dm_dig_min;
++		else
++			pDM_DigTable->rx_gain_range_max = pDM_Odm->RSSI_Min + offset;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++		//2 Modify DIG lower bound
++		//if(pDM_Odm->bOneEntryOnly)
++		{
++			if(pDM_Odm->RSSI_Min < dm_dig_min)
++				DIG_Dynamic_MIN = dm_dig_min;
++			else if (pDM_Odm->RSSI_Min > DIG_MaxOfMin)
++				DIG_Dynamic_MIN = DIG_MaxOfMin;
++			else
++				DIG_Dynamic_MIN = pDM_Odm->RSSI_Min;
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_CE)
++			if (bDFSBand) {
++				DIG_Dynamic_MIN = dm_dig_min;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): DFS band: Force lower bound to 0x%x after link !!!!!!\n", dm_dig_min));
++			}
++#endif
++		}
++#else
++		{
++			//4 For AP
++#ifdef __ECOS
++			HAL_REORDER_BARRIER();
++#else
++			rmb();
++#endif
++			if (bDFSBand)
++			{
++				DIG_Dynamic_MIN = dm_dig_min;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): DFS band: Force lower bound to 0x%x after link !!!!!!\n", dm_dig_min));
++			}
++			else 
++			{
++				if(pDM_Odm->RSSI_Min < dm_dig_min)
++					DIG_Dynamic_MIN = dm_dig_min;
++				else if (pDM_Odm->RSSI_Min > DIG_MaxOfMin)
++					DIG_Dynamic_MIN = DIG_MaxOfMin;
++				else
++					DIG_Dynamic_MIN = pDM_Odm->RSSI_Min;
++			}
++		}
++#endif
++	}
++	else
++	{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_CE))
++		if(bPerformance && bDFSBand)
++		{
++			pDM_DigTable->rx_gain_range_max = 0x28;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): DFS band: Force upper bound to 0x%x before link !!!!!!\n", pDM_DigTable->rx_gain_range_max));
++		}
++		else
++#endif
++		{
++			if (bPerformance)
++				pDM_DigTable->rx_gain_range_max = DM_DIG_MAX_OF_MIN;
++			else
++				pDM_DigTable->rx_gain_range_max = dm_dig_max;
++		}
++		DIG_Dynamic_MIN = dm_dig_min;
++	}
++	
++	//1 Force Lower Bound for AntDiv
++	if(pDM_Odm->bLinked && !pDM_Odm->bOneEntryOnly)
++	{
++		if((pDM_Odm->SupportICType & ODM_ANTDIV_SUPPORT) && (pDM_Odm->SupportAbility & ODM_BB_ANT_DIV))
++		{
++			if (pDM_Odm->AntDivType == CG_TRX_HW_ANTDIV || pDM_Odm->AntDivType == CG_TRX_SMART_ANTDIV) {
++				if (pDM_DigTable->AntDiv_RSSI_max > DIG_MaxOfMin)
++					DIG_Dynamic_MIN = DIG_MaxOfMin;
++				else
++					DIG_Dynamic_MIN = (u1Byte) pDM_DigTable->AntDiv_RSSI_max;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Antenna diversity case: Force lower bound to 0x%x !!!!!!\n", DIG_Dynamic_MIN));
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Antenna diversity case: RSSI_max = 0x%x !!!!!!\n", pDM_DigTable->AntDiv_RSSI_max));
++			}
++		}
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Adjust boundary by RSSI Upper bound = 0x%x, Lower bound = 0x%x\n",
++		pDM_DigTable->rx_gain_range_max, DIG_Dynamic_MIN));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Link status: bLinked = %d, RSSI = %d, bFirstConnect = %d, bFirsrDisConnect = %d\n\n",
++		pDM_Odm->bLinked, pDM_Odm->RSSI_Min, FirstConnect, FirstDisConnect));
++
++	//1 Modify DIG lower bound, deal with abnormal case
++	//2 Abnormal false alarm case
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_CE))
++	if(bDFSBand)
++	{
++		pDM_DigTable->rx_gain_range_min = DIG_Dynamic_MIN;
++	}
++	else
++#endif
++	{
++		if(!pDM_Odm->bLinked)
++		{
++			pDM_DigTable->rx_gain_range_min = DIG_Dynamic_MIN;
++
++			if (FirstDisConnect)
++				pDM_DigTable->ForbiddenIGI = DIG_Dynamic_MIN;
++		}
++		else
++			pDM_DigTable->rx_gain_range_min = odm_ForbiddenIGICheck(pDM_Odm, DIG_Dynamic_MIN, CurrentIGI);
++	}
++
++	//2 Abnormal # beacon case
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	if(pDM_Odm->bLinked && !FirstConnect)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("Beacon Num (%d)\n", pDM_Odm->PhyDbgInfo.NumQryBeaconPkt));
++		if((pDM_Odm->PhyDbgInfo.NumQryBeaconPkt < 5) && (pDM_Odm->bsta_state))
++		{
++			pDM_DigTable->rx_gain_range_min = 0x1c;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Abnrormal #beacon (%d) case in STA mode: Force lower bound to 0x%x !!!!!!\n\n",
++				pDM_Odm->PhyDbgInfo.NumQryBeaconPkt, pDM_DigTable->rx_gain_range_min));
++		}
++	}
++#endif
++
++	//2 Abnormal lower bound case
++	if(pDM_DigTable->rx_gain_range_min > pDM_DigTable->rx_gain_range_max)
++	{
++		pDM_DigTable->rx_gain_range_min = pDM_DigTable->rx_gain_range_max;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Abnrormal lower bound case: Force lower bound to 0x%x !!!!!!\n\n",pDM_DigTable->rx_gain_range_min));
++	}
++
++	
++	//1 False alarm threshold decision
++	odm_FAThresholdCheck(pDM_Odm, bDFSBand, bPerformance, RxTp, TxTp, dm_FA_thres);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): False alarm threshold = %d, %d, %d \n\n", dm_FA_thres[0], dm_FA_thres[1], dm_FA_thres[2]));
++
++	//1 Adjust initial gain by false alarm
++	if(pDM_Odm->bLinked && bPerformance)
++	{
++		//2 After link
++		ODM_RT_TRACE(pDM_Odm,	ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Adjust IGI after link\n"));
++
++		if(bFirstTpTarget || (FirstConnect && bPerformance))
++		{	
++			pDM_DigTable->LargeFAHit = 0;
++			
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP|ODM_CE))
++			if(bDFSBand)
++			{
++				if(pDM_Odm->RSSI_Min > 0x28)
++					CurrentIGI = 0x28;
++				else
++					CurrentIGI = pDM_Odm->RSSI_Min;
++				ODM_RT_TRACE(pDM_Odm,	ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): DFS band: One-shot to 0x28 upmost!!!!!!\n"));
++			}
++			else
++#endif
++			{
++				if(pDM_Odm->RSSI_Min < DIG_MaxOfMin)
++				{
++					if(CurrentIGI < pDM_Odm->RSSI_Min)
++						CurrentIGI = pDM_Odm->RSSI_Min;
++				}
++				else
++				{
++					if(CurrentIGI < DIG_MaxOfMin)
++						CurrentIGI = DIG_MaxOfMin;
++				}
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++#if (RTL8812A_SUPPORT==1) 
++				if(pDM_Odm->SupportICType == ODM_RTL8812)
++					ODM_ConfigBBWithHeaderFile(pDM_Odm, CONFIG_BB_AGC_TAB_DIFF);
++#endif
++#endif
++			}
++
++			ODM_RT_TRACE(pDM_Odm,	ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): First connect case: IGI does on-shot to 0x%x\n", CurrentIGI));
++
++		}
++		else
++		{
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++
++			if (priv->pshare->rf_ft_var.dig_upcheck_enable)
++				DIG_GoUpCheck = phydm_DIG_GoUpCheck(pDM_Odm);			
++#endif
++
++			if((pFalseAlmCnt->Cnt_all > dm_FA_thres[2]) && DIG_GoUpCheck)
++				CurrentIGI = CurrentIGI + 4;
++			else if ((pFalseAlmCnt->Cnt_all > dm_FA_thres[1]) && DIG_GoUpCheck)
++				CurrentIGI = CurrentIGI + 2;
++			else if(pFalseAlmCnt->Cnt_all < dm_FA_thres[0])
++				CurrentIGI = CurrentIGI - 2;
++
++			//4 Abnormal # beacon case
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++			if((pDM_Odm->PhyDbgInfo.NumQryBeaconPkt < 5) && (pFalseAlmCnt->Cnt_all < DM_DIG_FA_TH1) && (pDM_Odm->bsta_state))
++			{						
++				CurrentIGI = pDM_DigTable->rx_gain_range_min;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Abnormal #beacon (%d) case: IGI does one-shot to 0x%x\n", 
++					pDM_Odm->PhyDbgInfo.NumQryBeaconPkt, CurrentIGI));
++			}
++#endif
++		}
++	}	
++	else
++	{
++		//2 Before link
++		ODM_RT_TRACE(pDM_Odm,	ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): Adjust IGI before link\n"));
++		
++		if(FirstDisConnect || bFirstCoverage)
++		{
++			CurrentIGI = dm_dig_min;
++			ODM_RT_TRACE(pDM_Odm,	ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): First disconnect case: IGI does on-shot to lower bound\n"));
++		}
++		else
++		{
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++			if (priv->pshare->rf_ft_var.dig_upcheck_enable)
++				DIG_GoUpCheck = phydm_DIG_GoUpCheck(pDM_Odm);			
++#endif
++		
++			if((pFalseAlmCnt->Cnt_all > dm_FA_thres[2]) && DIG_GoUpCheck)
++				CurrentIGI = CurrentIGI + 4;
++			else if ((pFalseAlmCnt->Cnt_all > dm_FA_thres[1]) && DIG_GoUpCheck)
++				CurrentIGI = CurrentIGI + 2;
++			else if(pFalseAlmCnt->Cnt_all < dm_FA_thres[0])
++				CurrentIGI = CurrentIGI - 2;
++		}
++	}
++
++	//1 Check initial gain by upper/lower bound
++	if(CurrentIGI < pDM_DigTable->rx_gain_range_min)
++		CurrentIGI = pDM_DigTable->rx_gain_range_min;
++	
++	if(CurrentIGI > pDM_DigTable->rx_gain_range_max)
++		CurrentIGI = pDM_DigTable->rx_gain_range_max;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIG(): CurIGValue=0x%x, TotalFA = %d\n\n", CurrentIGI, pFalseAlmCnt->Cnt_all));	
++
++	//1 Update status
++	{
++#if ((DM_ODM_SUPPORT_TYPE & ODM_WIN) || ((DM_ODM_SUPPORT_TYPE & ODM_CE) && (ODM_CONFIG_BT_COEXIST == 1)))
++		if(pDM_Odm->bBtHsOperation)
++		{
++			if(pDM_Odm->bLinked)
++			{
++				if(pDM_DigTable->BT30_CurIGI > (CurrentIGI))
++					ODM_Write_DIG(pDM_Odm, CurrentIGI);
++				else
++					ODM_Write_DIG(pDM_Odm, pDM_DigTable->BT30_CurIGI);
++					
++				pDM_DigTable->bMediaConnect_0 = pDM_Odm->bLinked;
++				pDM_DigTable->DIG_Dynamic_MIN_0 = DIG_Dynamic_MIN;
++			}
++			else
++			{
++				if(pDM_Odm->bLinkInProcess)
++					ODM_Write_DIG(pDM_Odm, 0x1c);
++				else if(pDM_Odm->bBtConnectProcess)
++					ODM_Write_DIG(pDM_Odm, 0x28);
++				else
++					ODM_Write_DIG(pDM_Odm, pDM_DigTable->BT30_CurIGI);//ODM_Write_DIG(pDM_Odm, pDM_DigTable->CurIGValue);	
++			}
++		}
++		else		// BT is not using
++#endif
++		{
++			ODM_Write_DIG(pDM_Odm, CurrentIGI);//ODM_Write_DIG(pDM_Odm, pDM_DigTable->CurIGValue);
++			pDM_DigTable->bMediaConnect_0 = pDM_Odm->bLinked;
++			pDM_DigTable->DIG_Dynamic_MIN_0 = DIG_Dynamic_MIN;
++		}
++	}
++}
++
++VOID
++odm_DIGbyRSSI_LPS(
++	IN		PVOID		pDM_VOID
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PFALSE_ALARM_STATISTICS		pFalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure( pDM_Odm, PHYDM_FALSEALMCNT);
++
++	u1Byte	RSSI_Lower=DM_DIG_MIN_NIC;   //0x1E or 0x1C
++	u1Byte	CurrentIGI=pDM_Odm->RSSI_Min;
++
++	if(odm_DigAbort(pDM_Odm) == TRUE)
++		return;
++
++	CurrentIGI=CurrentIGI+RSSI_OFFSET_DIG;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIGbyRSSI_LPS()==>\n"));
++
++	// Using FW PS mode to make IGI
++	//Adjust by  FA in LPS MODE
++	if(pFalseAlmCnt->Cnt_all> DM_DIG_FA_TH2_LPS)
++		CurrentIGI = CurrentIGI+4;
++	else if (pFalseAlmCnt->Cnt_all > DM_DIG_FA_TH1_LPS)
++		CurrentIGI = CurrentIGI+2;
++	else if(pFalseAlmCnt->Cnt_all < DM_DIG_FA_TH0_LPS)
++		CurrentIGI = CurrentIGI-2;	
++
++
++	//Lower bound checking
++
++	//RSSI Lower bound check
++	if((pDM_Odm->RSSI_Min-10) > DM_DIG_MIN_NIC)
++		RSSI_Lower =(pDM_Odm->RSSI_Min-10);
++	else
++		RSSI_Lower =DM_DIG_MIN_NIC;
++
++	//Upper and Lower Bound checking
++	 if(CurrentIGI > DM_DIG_MAX_NIC)
++	 	CurrentIGI = DM_DIG_MAX_NIC;
++	 else if(CurrentIGI < RSSI_Lower)
++		CurrentIGI = RSSI_Lower;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIGbyRSSI_LPS(): pFalseAlmCnt->Cnt_all = %d\n",pFalseAlmCnt->Cnt_all));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIGbyRSSI_LPS(): pDM_Odm->RSSI_Min = %d\n",pDM_Odm->RSSI_Min));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_DIGbyRSSI_LPS(): CurrentIGI = 0x%x\n",CurrentIGI));
++
++	ODM_Write_DIG(pDM_Odm, CurrentIGI);//ODM_Write_DIG(pDM_Odm, pDM_DigTable->CurIGValue);
++#endif
++}
++
++//3============================================================
++//3 FASLE ALARM CHECK
++//3============================================================
++
++VOID 
++odm_FalseAlarmCounterStatistics(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PFALSE_ALARM_STATISTICS 	FalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure( pDM_Odm, PHYDM_FALSEALMCNT);
++	u4Byte 						ret_value;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++//Mark there, and check this in odm_DMWatchDog
++#if 0 //(DM_ODM_SUPPORT_TYPE == ODM_AP)
++	prtl8192cd_priv priv		= pDM_Odm->priv;
++	if( (priv->auto_channel != 0) && (priv->auto_channel != 2) )
++		return;
++#endif
++#endif
++
++	if(!(pDM_Odm->SupportAbility & ODM_BB_FA_CNT))
++		return;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics()======>\n"));
++
++#if (ODM_IC_11N_SERIES_SUPPORT == 1) 
++	if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES)
++	{
++
++		//hold ofdm counter
++		ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_HOLDC_11N, BIT31, 1); //hold page C counter
++		ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_RSTD_11N, BIT31, 1); //hold page D counter
++	
++		ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_OFDM_FA_TYPE1_11N, bMaskDWord);
++		FalseAlmCnt->Cnt_Fast_Fsync = (ret_value&0xffff);
++		FalseAlmCnt->Cnt_SB_Search_fail = ((ret_value&0xffff0000)>>16);		
++
++		ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_OFDM_FA_TYPE2_11N, bMaskDWord);
++		FalseAlmCnt->Cnt_OFDM_CCA = (ret_value&0xffff); 
++		FalseAlmCnt->Cnt_Parity_Fail = ((ret_value&0xffff0000)>>16);	
++
++		ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_OFDM_FA_TYPE3_11N, bMaskDWord);
++		FalseAlmCnt->Cnt_Rate_Illegal = (ret_value&0xffff);
++		FalseAlmCnt->Cnt_Crc8_fail = ((ret_value&0xffff0000)>>16);
++
++		ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_OFDM_FA_TYPE4_11N, bMaskDWord);
++		FalseAlmCnt->Cnt_Mcs_fail = (ret_value&0xffff);
++
++		FalseAlmCnt->Cnt_Ofdm_fail = 	FalseAlmCnt->Cnt_Parity_Fail + FalseAlmCnt->Cnt_Rate_Illegal +
++								FalseAlmCnt->Cnt_Crc8_fail + FalseAlmCnt->Cnt_Mcs_fail +
++								FalseAlmCnt->Cnt_Fast_Fsync + FalseAlmCnt->Cnt_SB_Search_fail;
++
++		/* read CCK CRC32 counter */
++		FalseAlmCnt->cnt_cck_crc32_error = ODM_GetBBReg(pDM_Odm, ODM_REG_CCK_CRC32_ERROR_CNT_11N, bMaskDWord);
++		FalseAlmCnt->cnt_cck_crc32_ok= ODM_GetBBReg(pDM_Odm, ODM_REG_CCK_CRC32_OK_CNT_11N, bMaskDWord);
++
++		/* read OFDM CRC32 counter */
++		ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_OFDM_CRC32_CNT_11N, bMaskDWord);
++		FalseAlmCnt->cnt_ofdm_crc32_error = (ret_value & 0xffff0000) >> 16;
++		FalseAlmCnt->cnt_ofdm_crc32_ok= ret_value & 0xffff;
++
++		/* read HT CRC32 counter */
++		ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_HT_CRC32_CNT_11N, bMaskDWord);
++		FalseAlmCnt->cnt_ht_crc32_error = (ret_value & 0xffff0000) >> 16;
++		FalseAlmCnt->cnt_ht_crc32_ok= ret_value & 0xffff;
++
++		/* read VHT CRC32 counter */
++		FalseAlmCnt->cnt_vht_crc32_error = 0;
++		FalseAlmCnt->cnt_vht_crc32_ok= 0;
++
++#if (RTL8188E_SUPPORT==1)
++		if(pDM_Odm->SupportICType == ODM_RTL8188E)
++		{
++			ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_SC_CNT_11N, bMaskDWord);
++			FalseAlmCnt->Cnt_BW_LSC = (ret_value&0xffff);
++			FalseAlmCnt->Cnt_BW_USC = ((ret_value&0xffff0000)>>16);
++		}
++#endif
++
++		{
++			//hold cck counter
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_FA_RST_11N, BIT12, 1); 
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_FA_RST_11N, BIT14, 1); 
++		
++			ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_CCK_FA_LSB_11N, bMaskByte0);
++			FalseAlmCnt->Cnt_Cck_fail = ret_value;
++
++			ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_CCK_FA_MSB_11N, bMaskByte3);
++			FalseAlmCnt->Cnt_Cck_fail +=  (ret_value& 0xff)<<8;
++
++			ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_CCK_CCA_CNT_11N, bMaskDWord);
++			FalseAlmCnt->Cnt_CCK_CCA = ((ret_value&0xFF)<<8) |((ret_value&0xFF00)>>8);
++		}
++	
++		FalseAlmCnt->Cnt_all_pre = FalseAlmCnt->Cnt_all;
++	
++		FalseAlmCnt->Cnt_all = (	FalseAlmCnt->Cnt_Fast_Fsync + 
++							FalseAlmCnt->Cnt_SB_Search_fail +
++							FalseAlmCnt->Cnt_Parity_Fail +
++							FalseAlmCnt->Cnt_Rate_Illegal +
++							FalseAlmCnt->Cnt_Crc8_fail +
++							FalseAlmCnt->Cnt_Mcs_fail +
++							FalseAlmCnt->Cnt_Cck_fail);	
++
++		FalseAlmCnt->Cnt_CCA_all = FalseAlmCnt->Cnt_OFDM_CCA + FalseAlmCnt->Cnt_CCK_CCA;
++
++		if (pDM_Odm->SupportICType >= ODM_RTL8188E) {
++			/*reset false alarm counter registers*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_RSTC_11N, BIT31, 1);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_RSTC_11N, BIT31, 0);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_RSTD_11N, BIT27, 1);
++			ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_RSTD_11N, BIT27, 0);
++
++			/*update ofdm counter*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_HOLDC_11N, BIT31, 0);	/*update page C counter*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_RSTD_11N, BIT31, 0);	/*update page D counter*/
++
++			/*reset CCK CCA counter*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_FA_RST_11N, BIT13|BIT12, 0); 
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_FA_RST_11N, BIT13|BIT12, 2); 
++
++			/*reset CCK FA counter*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_FA_RST_11N, BIT15|BIT14, 0); 
++			ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_FA_RST_11N, BIT15|BIT14, 2); 
++
++			/*reset CRC32 counter*/
++			ODM_SetBBReg(pDM_Odm, ODM_REG_PAGE_F_RST_11N, BIT16, 1); 
++			ODM_SetBBReg(pDM_Odm, ODM_REG_PAGE_F_RST_11N, BIT16, 0); 
++		}
++		
++		/* Get debug port 0 */
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11N, bMaskDWord, 0x0);
++		FalseAlmCnt->dbg_port0 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11N, bMaskDWord);
++
++		/* Get EDCCA flag */
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11N, bMaskDWord, 0x208);
++		FalseAlmCnt->edcca_flag = (BOOLEAN)ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11N, BIT30);
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_Fast_Fsync=%d, Cnt_SB_Search_fail=%d\n",
++			FalseAlmCnt->Cnt_Fast_Fsync, FalseAlmCnt->Cnt_SB_Search_fail));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_Parity_Fail=%d, Cnt_Rate_Illegal=%d\n",
++			FalseAlmCnt->Cnt_Parity_Fail, FalseAlmCnt->Cnt_Rate_Illegal));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_Crc8_fail=%d, Cnt_Mcs_fail=%d\n",
++		FalseAlmCnt->Cnt_Crc8_fail, FalseAlmCnt->Cnt_Mcs_fail));
++	}
++#endif
++
++#if (ODM_IC_11AC_SERIES_SUPPORT == 1) 
++	if(pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++	{
++		u4Byte CCKenable;
++		
++		/* read OFDM FA counter */
++		FalseAlmCnt->Cnt_Ofdm_fail = ODM_GetBBReg(pDM_Odm, ODM_REG_OFDM_FA_11AC, bMaskLWord);
++
++		/* Read CCK FA counter */
++		FalseAlmCnt->Cnt_Cck_fail = ODM_GetBBReg(pDM_Odm, ODM_REG_CCK_FA_11AC, bMaskLWord);
++
++		/* read CCK/OFDM CCA counter */
++		ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_CCK_CCA_CNT_11AC, bMaskDWord);
++		FalseAlmCnt->Cnt_OFDM_CCA = (ret_value & 0xffff0000) >> 16;
++		FalseAlmCnt->Cnt_CCK_CCA = ret_value & 0xffff;
++
++		/* read CCK CRC32 counter */
++		ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_CCK_CRC32_CNT_11AC, bMaskDWord);
++		FalseAlmCnt->cnt_cck_crc32_error = (ret_value & 0xffff0000) >> 16;
++		FalseAlmCnt->cnt_cck_crc32_ok= ret_value & 0xffff;
++
++		/* read OFDM CRC32 counter */
++		ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_OFDM_CRC32_CNT_11AC, bMaskDWord);
++		FalseAlmCnt->cnt_ofdm_crc32_error = (ret_value & 0xffff0000) >> 16;
++		FalseAlmCnt->cnt_ofdm_crc32_ok= ret_value & 0xffff;
++
++		/* read HT CRC32 counter */
++		ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_HT_CRC32_CNT_11AC, bMaskDWord);
++		FalseAlmCnt->cnt_ht_crc32_error = (ret_value & 0xffff0000) >> 16;
++		FalseAlmCnt->cnt_ht_crc32_ok= ret_value & 0xffff;
++
++		/* read VHT CRC32 counter */
++		ret_value = ODM_GetBBReg(pDM_Odm, ODM_REG_VHT_CRC32_CNT_11AC, bMaskDWord);
++		FalseAlmCnt->cnt_vht_crc32_error = (ret_value & 0xffff0000) >> 16;
++		FalseAlmCnt->cnt_vht_crc32_ok= ret_value & 0xffff;
++
++#if (RTL8881A_SUPPORT==1) 
++		/* For 8881A */
++		if(pDM_Odm->SupportICType == ODM_RTL8881A)
++		{
++			u4Byte Cnt_Ofdm_fail_temp = 0;
++		
++			if(FalseAlmCnt->Cnt_Ofdm_fail >= FalseAlmCnt->Cnt_Ofdm_fail_pre)
++			{
++				Cnt_Ofdm_fail_temp = FalseAlmCnt->Cnt_Ofdm_fail_pre;
++				FalseAlmCnt->Cnt_Ofdm_fail_pre = FalseAlmCnt->Cnt_Ofdm_fail;
++				FalseAlmCnt->Cnt_Ofdm_fail = FalseAlmCnt->Cnt_Ofdm_fail - Cnt_Ofdm_fail_temp;
++			}
++			else
++				FalseAlmCnt->Cnt_Ofdm_fail_pre = FalseAlmCnt->Cnt_Ofdm_fail;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_Ofdm_fail=%d\n",	FalseAlmCnt->Cnt_Ofdm_fail_pre));
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_Ofdm_fail_pre=%d\n",	Cnt_Ofdm_fail_temp));
++			
++			/* Reset FA counter by enable/disable OFDM */
++			if(FalseAlmCnt->Cnt_Ofdm_fail_pre >= 0x7fff)
++			{
++				// reset OFDM
++				ODM_SetBBReg(pDM_Odm, ODM_REG_BB_RX_PATH_11AC, BIT29,0);
++				ODM_SetBBReg(pDM_Odm, ODM_REG_BB_RX_PATH_11AC, BIT29,1);
++				FalseAlmCnt->Cnt_Ofdm_fail_pre = 0;
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Reset false alarm counter\n"));
++			}
++		}
++#endif
++
++		/* reset OFDM FA coutner */
++		ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_RST_11AC, BIT17, 1);
++		ODM_SetBBReg(pDM_Odm, ODM_REG_OFDM_FA_RST_11AC, BIT17, 0);
++
++		/* reset CCK FA counter */
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_FA_RST_11AC, BIT15, 0);
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CCK_FA_RST_11AC, BIT15, 1);
++
++		/* reset CCA counter */
++		ODM_SetBBReg(pDM_Odm, ODM_REG_RST_RPT_11AC, BIT0, 1);
++		ODM_SetBBReg(pDM_Odm, ODM_REG_RST_RPT_11AC, BIT0, 0);
++
++		CCKenable =  ODM_GetBBReg(pDM_Odm, ODM_REG_BB_RX_PATH_11AC, BIT28);
++		if(CCKenable)//if(*pDM_Odm->pBandType == ODM_BAND_2_4G)
++		{
++			FalseAlmCnt->Cnt_all = FalseAlmCnt->Cnt_Ofdm_fail + FalseAlmCnt->Cnt_Cck_fail;
++			FalseAlmCnt->Cnt_CCA_all = FalseAlmCnt->Cnt_CCK_CCA + FalseAlmCnt->Cnt_OFDM_CCA;
++		}
++		else
++		{
++			FalseAlmCnt->Cnt_all = FalseAlmCnt->Cnt_Ofdm_fail;
++			FalseAlmCnt->Cnt_CCA_all = FalseAlmCnt->Cnt_OFDM_CCA;
++		}
++
++		/* Get debug port 0 */
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC, bMaskDWord, 0x0);
++		FalseAlmCnt->dbg_port0 = ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC, bMaskDWord);
++
++		/* Get EDCCA flag */
++		ODM_SetBBReg(pDM_Odm, ODM_REG_DBG_RPT_11AC, bMaskDWord, 0x209);
++		FalseAlmCnt->edcca_flag = (BOOLEAN)ODM_GetBBReg(pDM_Odm, ODM_REG_RPT_11AC, BIT30);
++		
++	}
++#endif
++
++
++	FalseAlmCnt->cnt_crc32_error_all = FalseAlmCnt->cnt_vht_crc32_error + FalseAlmCnt->cnt_ht_crc32_error + FalseAlmCnt->cnt_ofdm_crc32_error + FalseAlmCnt->cnt_cck_crc32_error;
++	FalseAlmCnt->cnt_crc32_ok_all = FalseAlmCnt->cnt_vht_crc32_ok + FalseAlmCnt->cnt_ht_crc32_ok + FalseAlmCnt->cnt_ofdm_crc32_ok + FalseAlmCnt->cnt_cck_crc32_ok;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_OFDM_CCA=%d\n", FalseAlmCnt->Cnt_OFDM_CCA));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_CCK_CCA=%d\n", FalseAlmCnt->Cnt_CCK_CCA));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_CCA_all=%d\n", FalseAlmCnt->Cnt_CCA_all));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_Ofdm_fail=%d\n", FalseAlmCnt->Cnt_Ofdm_fail));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_Cck_fail=%d\n", FalseAlmCnt->Cnt_Cck_fail));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Cnt_Ofdm_fail=%d\n", FalseAlmCnt->Cnt_Ofdm_fail));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Total False Alarm=%d\n", FalseAlmCnt->Cnt_all));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): CCK CRC32 fail: %d, ok: %d\n", FalseAlmCnt->cnt_cck_crc32_error, FalseAlmCnt->cnt_cck_crc32_ok));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): OFDM CRC32 fail: %d, ok: %d\n", FalseAlmCnt->cnt_ofdm_crc32_error, FalseAlmCnt->cnt_ofdm_crc32_ok));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): HT CRC32 fail: %d, ok: %d\n", FalseAlmCnt->cnt_ht_crc32_error, FalseAlmCnt->cnt_ht_crc32_ok));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): VHT CRC32 fail: %d, ok: %d\n", FalseAlmCnt->cnt_vht_crc32_error, FalseAlmCnt->cnt_vht_crc32_ok));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): Total CRC32 fail: %d, ok: %d\n", FalseAlmCnt->cnt_crc32_error_all, FalseAlmCnt->cnt_crc32_ok_all));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_FA_CNT, ODM_DBG_LOUD, ("odm_FalseAlarmCounterStatistics(): dbg port 0x0 = 0x%x, EDCCA = %d\n\n", FalseAlmCnt->dbg_port0, FalseAlmCnt->edcca_flag));
++}
++
++//3============================================================
++//3 CCK Packet Detect Threshold
++//3============================================================
++
++VOID
++odm_PauseCCKPacketDetection(
++	IN		PVOID					pDM_VOID,
++	IN		PHYDM_PAUSE_TYPE		PauseType,
++	IN		PHYDM_PAUSE_LEVEL		pause_level,
++	IN		u1Byte					CCKPDThreshold
++)
++{
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T				pDM_DigTable = &pDM_Odm->DM_DigTable;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection()=========> level = %d\n", pause_level));
++
++	if ((pDM_DigTable->pause_cckpd_level == 0) && (!(pDM_Odm->SupportAbility & ODM_BB_CCK_PD) || !(pDM_Odm->SupportAbility & ODM_BB_FA_CNT))) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("Return: SupportAbility ODM_BB_CCK_PD or ODM_BB_FA_CNT is disabled\n"));
++		return;
++	}
++
++	if (pause_level > DM_DIG_MAX_PAUSE_TYPE) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, 
++			("odm_PauseCCKPacketDetection(): Return: Wrong pause level !!\n"));
++		return;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): pause level = 0x%x, Current value = 0x%x\n", pDM_DigTable->pause_cckpd_level, CCKPDThreshold));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): pause value = 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x\n", 
++		pDM_DigTable->pause_cckpd_value[7], pDM_DigTable->pause_cckpd_value[6], pDM_DigTable->pause_cckpd_value[5], pDM_DigTable->pause_cckpd_value[4],
++		pDM_DigTable->pause_cckpd_value[3], pDM_DigTable->pause_cckpd_value[2], pDM_DigTable->pause_cckpd_value[1], pDM_DigTable->pause_cckpd_value[0]));
++
++	switch (PauseType) {
++	/* Pause CCK Packet Detection Threshold */
++	case PHYDM_PAUSE:
++	{
++		/* Disable CCK PD */
++		ODM_CmnInfoUpdate(pDM_Odm, ODM_CMNINFO_ABILITY, pDM_Odm->SupportAbility & (~ODM_BB_CCK_PD));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): Pause CCK packet detection threshold !!\n"));
++
++		/* Backup original CCK PD threshold decided by CCK PD mechanism */
++		if (pDM_DigTable->pause_cckpd_level == 0) {
++			pDM_DigTable->CCKPDBackup = pDM_DigTable->CurCCK_CCAThres;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, 
++				("odm_PauseCCKPacketDetection(): Backup CCKPD  = 0x%x, new CCKPD = 0x%x\n", pDM_DigTable->CCKPDBackup, CCKPDThreshold));
++		}
++
++		/* Update pause level */
++		pDM_DigTable->pause_cckpd_level = (pDM_DigTable->pause_cckpd_level | BIT(pause_level));
++
++		/* Record CCK PD threshold */
++		pDM_DigTable->pause_cckpd_value[pause_level] = CCKPDThreshold;
++
++		/* Write new CCK PD threshold */
++		if (BIT(pause_level + 1) > pDM_DigTable->pause_cckpd_level) {
++			ODM_Write_CCK_CCA_Thres(pDM_Odm, CCKPDThreshold);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): CCKPD of higher level = 0x%x\n", CCKPDThreshold));
++		}
++		break;
++	}
++	/* Resume CCK Packet Detection Threshold */
++	case PHYDM_RESUME:
++	{	
++		/* check if the level is illegal or not */
++		if ((pDM_DigTable->pause_cckpd_level & (BIT(pause_level))) != 0) {
++			pDM_DigTable->pause_cckpd_level = pDM_DigTable->pause_cckpd_level & (~(BIT(pause_level)));
++			pDM_DigTable->pause_cckpd_value[pause_level] = 0;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): Resume CCK PD !!\n"));
++		} else {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): Wrong resume level !!\n"));
++			break;
++		}
++
++		/* Resume DIG */
++		if (pDM_DigTable->pause_cckpd_level == 0) {
++			/* Write backup IGI value */
++			ODM_Write_CCK_CCA_Thres(pDM_Odm, pDM_DigTable->CCKPDBackup);
++			/* pDM_DigTable->bIgnoreDIG = TRUE; */
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): Write original CCKPD = 0x%x\n", pDM_DigTable->CCKPDBackup));
++
++			/* Enable DIG */
++			ODM_CmnInfoUpdate(pDM_Odm, ODM_CMNINFO_ABILITY, pDM_Odm->SupportAbility | ODM_BB_CCK_PD);	
++			break;
++		}
++
++		if (BIT(pause_level) > pDM_DigTable->pause_cckpd_level) {
++			s1Byte	max_level;
++		
++			/* Calculate the maximum level now */
++			for (max_level = (pause_level - 1); max_level >= 0; max_level--) {
++				if ((pDM_DigTable->pause_cckpd_level & BIT(max_level)) > 0)
++					break;
++			}
++		
++			/* write CCKPD of lower level */
++			ODM_Write_CCK_CCA_Thres(pDM_Odm, pDM_DigTable->pause_cckpd_value[max_level]);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): Write CCKPD (0x%x) of level (%d)\n", 
++				pDM_DigTable->pause_cckpd_value[max_level], max_level));
++			break;
++		}
++		break;
++	}
++	default:
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): Wrong  type !!\n"));
++		break;
++	}	
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): pause level = 0x%x, Current value = 0x%x\n", pDM_DigTable->pause_cckpd_level, CCKPDThreshold));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_PauseCCKPacketDetection(): pause value = 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x\n", 
++		pDM_DigTable->pause_cckpd_value[7], pDM_DigTable->pause_cckpd_value[6], pDM_DigTable->pause_cckpd_value[5], pDM_DigTable->pause_cckpd_value[4],
++		pDM_DigTable->pause_cckpd_value[3], pDM_DigTable->pause_cckpd_value[2], pDM_DigTable->pause_cckpd_value[1], pDM_DigTable->pause_cckpd_value[0]));
++}
++
++
++VOID 
++odm_CCKPacketDetectionThresh(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T					pDM_DigTable = &pDM_Odm->DM_DigTable;
++	PFALSE_ALARM_STATISTICS 	FalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure( pDM_Odm, PHYDM_FALSEALMCNT);
++	u1Byte					CurCCK_CCAThres = pDM_DigTable->CurCCK_CCAThres, RSSI_thd = 35;
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++//modify by Guo.Mingzhi 2011-12-29
++	if (pDM_Odm->bDualMacSmartConcurrent == TRUE)
++//	if (pDM_Odm->bDualMacSmartConcurrent == FALSE)
++		return;
++	if(pDM_Odm->bBtHsOperation)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_CCKPacketDetectionThresh() write 0xcd for BT HS mode!!\n"));
++		ODM_Write_CCK_CCA_Thres(pDM_Odm, 0xcd);
++		return;
++	}
++#endif
++
++	if((!(pDM_Odm->SupportAbility & ODM_BB_CCK_PD)) ||(!(pDM_Odm->SupportAbility & ODM_BB_FA_CNT)))
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_CCKPacketDetectionThresh()  return==========\n"));
++#ifdef MCR_WIRELESS_EXTEND
++		ODM_Write_CCK_CCA_Thres(pDM_Odm, 0x43);
++#endif
++		return;
++	}
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	if(pDM_Odm->ExtLNA)
++		return;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_CCKPacketDetectionThresh()  ==========>\n"));
++
++	if (pDM_DigTable->cckFaMa == 0xffffffff)
++		pDM_DigTable->cckFaMa = FalseAlmCnt->Cnt_Cck_fail;
++	else
++		pDM_DigTable->cckFaMa = ((pDM_DigTable->cckFaMa<<1) + pDM_DigTable->cckFaMa + FalseAlmCnt->Cnt_Cck_fail) >> 2;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_CCKPacketDetectionThresh(): CCK FA moving average = %d\n", pDM_DigTable->cckFaMa));
++
++	if (pDM_Odm->bLinked) {
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++		if (pDM_Odm->RSSI_Min > (RSSI_thd + 14))
++			CurCCK_CCAThres = 0xed;
++		else if (pDM_Odm->RSSI_Min > (RSSI_thd + 6))
++			CurCCK_CCAThres = 0xdd;
++		else if (pDM_Odm->RSSI_Min > RSSI_thd)
++			CurCCK_CCAThres = 0xcd;
++		else if (pDM_Odm->RSSI_Min > 20) {
++			if (pDM_DigTable->cckFaMa > ((DM_DIG_FA_TH1>>1) + (DM_DIG_FA_TH1>>3)))
++				CurCCK_CCAThres = 0xcd;
++			else if (pDM_DigTable->cckFaMa < (DM_DIG_FA_TH0>>1))
++				CurCCK_CCAThres = 0x83;
++		} else if (pDM_Odm->RSSI_Min > 7)
++			CurCCK_CCAThres = 0x83;
++		else
++			CurCCK_CCAThres = 0x40;
++#else
++		if (pDM_DigTable->CurIGValue > (0x24 + 14))
++			CurCCK_CCAThres = 0xed;
++		else if (pDM_DigTable->CurIGValue > (0x24 + 6))
++			CurCCK_CCAThres = 0xdd;
++		else if (pDM_DigTable->CurIGValue > 0x24)
++			CurCCK_CCAThres = 0xcd;
++		else {
++			if (pDM_DigTable->cckFaMa > 0x400)
++				CurCCK_CCAThres = 0x83;
++			else if (pDM_DigTable->cckFaMa < 0x200)
++				CurCCK_CCAThres = 0x40;
++		}
++
++#endif
++	} else {
++		if (pDM_DigTable->cckFaMa > 0x400)
++			CurCCK_CCAThres = 0x83;
++		else if (pDM_DigTable->cckFaMa < 0x200)
++			CurCCK_CCAThres = 0x40;
++	}
++	
++	ODM_Write_CCK_CCA_Thres(pDM_Odm, CurCCK_CCAThres);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("odm_CCKPacketDetectionThresh()  CurCCK_CCAThres = 0x%x\n", CurCCK_CCAThres));
++}
++
++VOID
++ODM_Write_CCK_CCA_Thres(
++	IN	PVOID			pDM_VOID,
++	IN	u1Byte			CurCCK_CCAThres
++	)
++{
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T				pDM_DigTable = &pDM_Odm->DM_DigTable;
++
++	if(pDM_DigTable->CurCCK_CCAThres!=CurCCK_CCAThres)		//modify by Guo.Mingzhi 2012-01-03
++	{
++		ODM_Write1Byte(pDM_Odm, ODM_REG(CCK_CCA,pDM_Odm), CurCCK_CCAThres);
++		pDM_DigTable->cckFaMa = 0xffffffff;
++	}
++	pDM_DigTable->PreCCK_CCAThres = pDM_DigTable->CurCCK_CCAThres;
++	pDM_DigTable->CurCCK_CCAThres = CurCCK_CCAThres;
++}
++
++BOOLEAN
++phydm_DIG_GoUpCheck(
++	IN		PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PCCX_INFO				CCX_INFO = &pDM_Odm->DM_CCX_INFO;
++	pDIG_T					pDM_DigTable = &pDM_Odm->DM_DigTable;
++	u1Byte 					CurIGValue = pDM_DigTable->CurIGValue;
++	u1Byte					max_DIG_cover_bond;
++	u1Byte					current_IGI_MaxUp_resolution;
++	u1Byte					rx_gain_range_max;
++	u1Byte					i = 0;
++	
++	u4Byte					total_NHM_cnt;
++	u4Byte					DIG_cover_cnt;
++	u4Byte					over_DIG_cover_cnt;
++	BOOLEAN					ret = TRUE;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	prtl8192cd_priv				priv = pDM_Odm->priv;
++
++	max_DIG_cover_bond = DM_DIG_MAX_AP - priv->pshare->rf_ft_var.dig_upcheck_initial_value;
++	current_IGI_MaxUp_resolution = CurIGValue + 6;
++	rx_gain_range_max = pDM_DigTable->rx_gain_range_max;
++	
++	phydm_getNHMresult(pDM_Odm);
++
++	total_NHM_cnt = CCX_INFO->NHM_result[0] + CCX_INFO->NHM_result[1];
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("phydm_DIG_GoUpCheck(): *****Get NHM results*****\n"));
++	
++	if (total_NHM_cnt != 0) {
++
++		/* CurIGValue < max_DIG_cover_bond - 6 */
++		if (pDM_DigTable->DIG_GoUpCheck_Level == DIG_GOUPCHECK_LEVEL_0) {
++			DIG_cover_cnt = CCX_INFO->NHM_result[1];
++			ret = ((priv->pshare->rf_ft_var.dig_level0_ratio_reciprocal * DIG_cover_cnt) >= total_NHM_cnt) ? TRUE : FALSE;
++		}
++
++		/* (max_DIG_cover_bond - 6) <= CurIGValue < DM_DIG_MAX_AP */
++		else if (pDM_DigTable->DIG_GoUpCheck_Level == DIG_GOUPCHECK_LEVEL_1) {
++			over_DIG_cover_cnt = CCX_INFO->NHM_result[1];
++			ret = (priv->pshare->rf_ft_var.dig_level1_ratio_reciprocal * over_DIG_cover_cnt < total_NHM_cnt) ? TRUE : FALSE;
++
++			if (!ret) {
++				/* update pDM_DigTable->rx_gain_range_max */
++				pDM_DigTable->rx_gain_range_max = (rx_gain_range_max >= max_DIG_cover_bond - 6) ? (max_DIG_cover_bond - 6) : rx_gain_range_max;
++
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("phydm_DIG_GoUpCheck(): Noise power is beyond DIG can filter, lock rx_gain_range_max to 0x%x\n", 
++					pDM_DigTable->rx_gain_range_max));
++			}
++		}
++		
++		/* CurIGValue > DM_DIG_MAX_AP, foolproof */
++		else if (pDM_DigTable->DIG_GoUpCheck_Level == DIG_GOUPCHECK_LEVEL_2) {
++			ret = TRUE;
++		}
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("phydm_DIG_GoUpCheck(): DIG_GoUpCheck_level = %d\n, current_IGI_MaxUp_resolution = 0x%x\n, max_DIG_cover_bond = 0x%x\n, rx_gain_range_max = 0x%x, ret = %d\n", 
++			pDM_DigTable->DIG_GoUpCheck_Level, 
++			current_IGI_MaxUp_resolution, 
++			max_DIG_cover_bond,
++			pDM_DigTable->rx_gain_range_max,
++			ret));
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("phydm_DIG_GoUpCheck(): NHM_result = %d, %d, %d, %d\n", 
++			CCX_INFO->NHM_result[0], CCX_INFO->NHM_result[1], CCX_INFO->NHM_result[2], CCX_INFO->NHM_result[3]));
++		
++	}
++	else
++		ret = TRUE;
++
++	for (i = 0 ; i <= 10 ; i ++) {
++		CCX_INFO->NHM_th[i] = 0xFF;
++	}
++	
++	if (CurIGValue < max_DIG_cover_bond - 6){
++		CCX_INFO->NHM_th[0] = 2 * (CurIGValue - priv->pshare->rf_ft_var.dig_upcheck_initial_value);
++		pDM_DigTable->DIG_GoUpCheck_Level = DIG_GOUPCHECK_LEVEL_0;
++	}
++	else if (CurIGValue <= DM_DIG_MAX_AP) {
++		CCX_INFO->NHM_th[0] = 2 * max_DIG_cover_bond;
++		pDM_DigTable->DIG_GoUpCheck_Level = DIG_GOUPCHECK_LEVEL_1;
++	}
++	/* CurIGValue > DM_DIG_MAX_AP, foolproof */
++	else {
++		pDM_DigTable->DIG_GoUpCheck_Level = DIG_GOUPCHECK_LEVEL_2;
++		ret = TRUE;
++	}
++	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("phydm_DIG_GoUpCheck(): *****Set NHM settings*****\n"));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("phydm_DIG_GoUpCheck(): DIG_GoUpCheck_level = %d\n", 
++		pDM_DigTable->DIG_GoUpCheck_Level));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("phydm_DIG_GoUpCheck(): NHM_th = 0x%x, 0x%x, 0x%x\n", 
++		CCX_INFO->NHM_th[0], CCX_INFO->NHM_th[1], CCX_INFO->NHM_th[2]));
++	
++	CCX_INFO->NHM_inexclude_cca = NHM_EXCLUDE_CCA;	
++	CCX_INFO->NHM_inexclude_txon = NHM_EXCLUDE_TXON;
++	CCX_INFO->NHM_period = 0xC350;
++
++	phydm_NHMsetting(pDM_Odm, SET_NHM_SETTING);
++	phydm_NHMtrigger(pDM_Odm);
++#endif
++
++	return ret;
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++// <20130108, Kordan> E.g., With LNA used, we make the Rx power smaller to have a better EVM. (Asked by Willis)
++VOID
++odm_RFEControl(
++	IN	PDM_ODM_T	pDM_Odm,
++	IN  u8Byte		RSSIVal
++	)
++{
++	PADAPTER		Adapter = (PADAPTER)pDM_Odm->Adapter;
++    HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	static u1Byte 	TRSW_HighPwr = 0;
++	 
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("===> odm_RFEControl, RSSI = %d, TRSW_HighPwr = 0x%X, pHalData->RFEType = %d\n",
++		         RSSIVal, TRSW_HighPwr, pHalData->RFEType ));
++
++    if (pHalData->RFEType == 3) {	   
++		
++        pDM_Odm->RSSI_TRSW = RSSIVal;
++
++        if (pDM_Odm->RSSI_TRSW >= pDM_Odm->RSSI_TRSW_H) 
++		{				 
++            TRSW_HighPwr = 1; // Switch to
++            PHY_SetBBReg(Adapter, r_ANTSEL_SW_Jaguar, BIT1|BIT0, 0x1);  // Set ANTSW=1/ANTSWB=0  for SW control
++            PHY_SetBBReg(Adapter, r_ANTSEL_SW_Jaguar, BIT9|BIT8, 0x3);  // Set ANTSW=1/ANTSWB=0  for SW control
++            
++        } 
++		else if (pDM_Odm->RSSI_TRSW <= pDM_Odm->RSSI_TRSW_L) 
++        {	  
++            TRSW_HighPwr = 0; // Switched back
++            PHY_SetBBReg(Adapter, r_ANTSEL_SW_Jaguar, BIT1|BIT0, 0x1);  // Set ANTSW=1/ANTSWB=0  for SW control
++            PHY_SetBBReg(Adapter, r_ANTSEL_SW_Jaguar, BIT9|BIT8, 0x0);  // Set ANTSW=1/ANTSWB=0  for SW control
++
++        }
++    }  
++
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("(pDM_Odm->RSSI_TRSW_H, pDM_Odm->RSSI_TRSW_L) = (%d, %d)\n", pDM_Odm->RSSI_TRSW_H, pDM_Odm->RSSI_TRSW_L));		
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("(RSSIVal, RSSIVal, pDM_Odm->RSSI_TRSW_iso) = (%d, %d, %d)\n", 
++				 RSSIVal, pDM_Odm->RSSI_TRSW_iso, pDM_Odm->RSSI_TRSW));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DIG, ODM_DBG_LOUD, ("<=== odm_RFEControl, RSSI = %d, TRSW_HighPwr = 0x%X\n", RSSIVal, TRSW_HighPwr));	
++}
++
++VOID
++odm_MPT_DIGWorkItemCallback(
++    IN PVOID            pContext
++    )
++{
++	PADAPTER	Adapter = (PADAPTER)pContext;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++
++	ODM_MPT_DIG(pDM_Odm);
++}
++
++VOID
++odm_MPT_DIGCallback(
++	PRT_TIMER		pTimer
++)
++{
++	PADAPTER		Adapter = (PADAPTER)pTimer->Adapter;
++       HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	  PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++
++
++	#if DEV_BUS_TYPE==RT_PCI_INTERFACE
++		#if USE_WORKITEM
++			PlatformScheduleWorkItem(&pDM_Odm->MPT_DIGWorkitem);
++		#else
++			ODM_MPT_DIG(pDM_Odm);
++		#endif
++	#else
++		PlatformScheduleWorkItem(&pDM_Odm->MPT_DIGWorkitem);
++	#endif
++
++}
++
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++VOID
++odm_MPT_DIGCallback(
++	IN		PVOID					pDM_VOID
++)
++{
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if USE_WORKITEM
++	PlatformScheduleWorkItem(&pDM_Odm->MPT_DIGWorkitem);
++#else
++	ODM_MPT_DIG(pDM_Odm);
++#endif
++}
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE != ODM_CE)
++VOID
++odm_MPT_Write_DIG(
++	IN		PVOID					pDM_VOID,
++	IN		u1Byte					CurIGValue
++)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T						pDM_DigTable = &pDM_Odm->DM_DigTable;
++
++	ODM_Write1Byte( pDM_Odm, ODM_REG(IGI_A,pDM_Odm), CurIGValue);
++
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++	/* Set IGI value of CCK for new CCK AGC */
++		if (pDM_Odm->cck_new_agc) {
++			if (pDM_Odm->SupportICType & ODM_IC_PHY_STATUE_NEW_TYPE)
++				ODM_SetBBReg(pDM_Odm, 0xa0c, 0x00003f00, (CurIGValue>>1));
++		}
++
++#endif
++			
++	if(pDM_Odm->RFType > ODM_1T1R)
++		ODM_Write1Byte( pDM_Odm, ODM_REG(IGI_B,pDM_Odm), CurIGValue);
++
++	if((pDM_Odm->SupportICType & ODM_IC_11AC_SERIES) && (pDM_Odm->RFType > ODM_2T2R))
++	{
++		ODM_Write1Byte( pDM_Odm, ODM_REG(IGI_C,pDM_Odm), CurIGValue);
++		ODM_Write1Byte( pDM_Odm, ODM_REG(IGI_D,pDM_Odm), CurIGValue);	
++	}
++
++	pDM_DigTable->CurIGValue = CurIGValue;
++	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("CurIGValue = 0x%x\n", CurIGValue));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("pDM_Odm->RFType = 0x%x\n", pDM_Odm->RFType));
++}
++
++VOID
++ODM_MPT_DIG(
++	IN		PVOID					pDM_VOID
++	)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pDIG_T						pDM_DigTable = &pDM_Odm->DM_DigTable;
++	PFALSE_ALARM_STATISTICS		pFalseAlmCnt = (PFALSE_ALARM_STATISTICS)PhyDM_Get_Structure( pDM_Odm, PHYDM_FALSEALMCNT);
++	u1Byte						CurrentIGI = pDM_DigTable->CurIGValue;
++	u1Byte						DIG_Upper = 0x40, DIG_Lower = 0x20;
++	u4Byte						RXOK_cal;
++	u4Byte						RxPWDBAve_final;
++	u1Byte						IGI_A = 0x20, IGI_B = 0x20;
++	
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++	#if ODM_FIX_2G_DIG
++	IGI_A = 0x22;
++	IGI_B = 0x24;		
++	#endif
++	
++#else
++	if (!(pDM_Odm->priv->pshare->rf_ft_var.mp_specific && pDM_Odm->priv->pshare->mp_dig_on))
++		return;
++
++	if (*pDM_Odm->pBandType == ODM_BAND_5G)
++		DIG_Lower = 0x22;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("===> ODM_MPT_DIG, pBandType = %d\n", *pDM_Odm->pBandType));
++	
++#if (ODM_FIX_2G_DIG || (DM_ODM_SUPPORT_TYPE & ODM_AP))
++	if (*pDM_Odm->pBandType == ODM_BAND_5G || (pDM_Odm->SupportICType & (ODM_RTL8814A|ODM_RTL8822B))) // for 5G or 8814
++#else
++	if (1) // for both 2G/5G
++#endif
++		{
++		odm_FalseAlarmCounterStatistics(pDM_Odm);
++
++		RXOK_cal = pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK + pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM;
++		RxPWDBAve_final = (RXOK_cal != 0)?pDM_Odm->RxPWDBAve/RXOK_cal:0;
++
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK = 0;
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM = 0;
++		pDM_Odm->RxPWDBAve = 0;
++		pDM_Odm->MPDIG_2G = FALSE;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		pDM_Odm->Times_2G = 0;
++#endif
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("RX OK = %d\n", RXOK_cal));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("RSSI = %d\n", RxPWDBAve_final));
++	
++		if (RXOK_cal >= 70 && RxPWDBAve_final <= 40)
++		{
++			if (CurrentIGI > 0x24)
++				odm_MPT_Write_DIG(pDM_Odm, 0x24);
++		}
++		else
++		{
++			if(pFalseAlmCnt->Cnt_all > 1000){
++				CurrentIGI = CurrentIGI + 8;
++			}
++			else if(pFalseAlmCnt->Cnt_all > 200){
++				CurrentIGI = CurrentIGI + 4;
++			}
++			else if (pFalseAlmCnt->Cnt_all > 50){
++				CurrentIGI = CurrentIGI + 2;
++			}
++			else if (pFalseAlmCnt->Cnt_all < 2){
++				CurrentIGI = CurrentIGI - 2;
++			}
++			
++			if (CurrentIGI < DIG_Lower ){
++				CurrentIGI = DIG_Lower;
++			}
++
++			if(CurrentIGI > DIG_Upper){
++				CurrentIGI = DIG_Upper;
++			}
++
++			odm_MPT_Write_DIG(pDM_Odm, CurrentIGI);
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("DIG = 0x%x, Cnt_all = %d, Cnt_Ofdm_fail = %d, Cnt_Cck_fail = %d\n", 
++				CurrentIGI, pFalseAlmCnt->Cnt_all, pFalseAlmCnt->Cnt_Ofdm_fail, pFalseAlmCnt->Cnt_Cck_fail));
++		}
++	}
++	else
++	{
++		if(pDM_Odm->MPDIG_2G == FALSE)
++		{
++			if((pDM_Odm->SupportPlatform & ODM_WIN) && !(pDM_Odm->SupportICType & (ODM_RTL8814A|ODM_RTL8822B)))
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_DIG, ODM_DBG_LOUD, ("===> Fix IGI\n"));
++				ODM_Write1Byte( pDM_Odm, ODM_REG(IGI_A,pDM_Odm), IGI_A);
++				ODM_Write1Byte( pDM_Odm, ODM_REG(IGI_B,pDM_Odm), IGI_B);
++				pDM_DigTable->CurIGValue = IGI_B;
++			}
++			else
++				odm_MPT_Write_DIG(pDM_Odm, IGI_A);
++		}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		pDM_Odm->Times_2G++;
++
++		if (pDM_Odm->Times_2G == 3)
++#endif
++		{
++			pDM_Odm->MPDIG_2G = TRUE;
++		}
++	}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	if (pDM_Odm->SupportICType == ODM_RTL8812)
++		odm_RFEControl(pDM_Odm, RxPWDBAve_final);
++#endif
++
++	ODM_SetTimer(pDM_Odm, &pDM_Odm->MPT_DIGTimer, 700);
++}
++#endif
++
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dig.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dig.h
+new file mode 100644
+index 0000000..1de6054
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dig.h
+@@ -0,0 +1,370 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMDIG_H__
++#define    __PHYDMDIG_H__
++
++#define DIG_VERSION	"1.22"	/* 2016.04.28  Stanley. Add CRC32 information in FA statistic */
++
++/* Pause DIG & CCKPD */
++#define		DM_DIG_MAX_PAUSE_TYPE		0x7
++
++typedef enum tag_DIG_GoUpCheck_Level {
++
++	DIG_GOUPCHECK_LEVEL_0,
++	DIG_GOUPCHECK_LEVEL_1,
++	DIG_GOUPCHECK_LEVEL_2
++	
++} DIG_GOUPCHECK_LEVEL;
++
++typedef struct _Dynamic_Initial_Gain_Threshold_
++{
++	BOOLEAN		bStopDIG;		// for debug
++	BOOLEAN		bIgnoreDIG;
++	BOOLEAN		bPSDInProgress;
++
++	u1Byte		Dig_Enable_Flag;
++	u1Byte		Dig_Ext_Port_Stage;
++	
++	int		   	RssiLowThresh;
++	int		    	RssiHighThresh;
++
++	u4Byte		FALowThresh;
++	u4Byte		FAHighThresh;
++
++	u1Byte		CurSTAConnectState;
++	u1Byte		PreSTAConnectState;
++	u1Byte		CurMultiSTAConnectState;
++
++	u1Byte		PreIGValue;
++	u1Byte		CurIGValue;
++	u1Byte		BackupIGValue;		//MP DIG
++	u1Byte		BT30_CurIGI;
++	u1Byte		IGIBackup;
++
++	s1Byte		BackoffVal;
++	s1Byte		BackoffVal_range_max;
++	s1Byte		BackoffVal_range_min;
++	u1Byte		rx_gain_range_max;
++	u1Byte		rx_gain_range_min;
++	u1Byte		Rssi_val_min;
++
++	u1Byte		PreCCK_CCAThres;
++	u1Byte		CurCCK_CCAThres;
++	u1Byte		PreCCKPDState;
++	u1Byte		CurCCKPDState;
++	u1Byte		CCKPDBackup;
++	u1Byte		pause_cckpd_level;
++	u1Byte		pause_cckpd_value[DM_DIG_MAX_PAUSE_TYPE + 1];
++
++	u1Byte		LargeFAHit;
++	u1Byte		LargeFA_Timeout;		/*if (LargeFAHit), monitor "LargeFA_Timeout" sec, if timeout, LargeFAHit=0*/
++	u1Byte		ForbiddenIGI;
++	u4Byte		Recover_cnt;
++
++	u1Byte		DIG_Dynamic_MIN_0;
++	u1Byte		DIG_Dynamic_MIN_1;
++	BOOLEAN		bMediaConnect_0;
++	BOOLEAN		bMediaConnect_1;
++
++	u4Byte		AntDiv_RSSI_max;
++	u4Byte		RSSI_max;
++
++	u1Byte		*bP2PInProcess;
++
++	u1Byte		pause_dig_level;
++	u1Byte		pause_dig_value[DM_DIG_MAX_PAUSE_TYPE + 1];
++
++	u4Byte		cckFaMa;
++	DIG_GOUPCHECK_LEVEL		DIG_GoUpCheck_Level;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	BOOLEAN					bTpTarget;
++	BOOLEAN					bNoiseEst;
++	u4Byte					TpTrainTH_min;
++	u1Byte					IGIOffset_A;
++	u1Byte					IGIOffset_B;
++#endif
++
++#if (RTL8822B_SUPPORT == 1 || RTL8197F_SUPPORT == 1 || RTL8821C_SUPPORT == 1)
++	u1Byte		rfGainIdx;
++	u1Byte		agcTableIdx;
++	u1Byte		bigJumpLmt[16];
++	u1Byte		enableAdjustBigJump:1;
++	u1Byte		bigJumpStep1:3;
++	u1Byte		bigJumpStep2:2;
++	u1Byte		bigJumpStep3:2;
++#endif
++}DIG_T,*pDIG_T;
++
++typedef struct _FALSE_ALARM_STATISTICS{
++	u4Byte		Cnt_Parity_Fail;
++	u4Byte		Cnt_Rate_Illegal;
++	u4Byte		Cnt_Crc8_fail;
++	u4Byte		Cnt_Mcs_fail;
++	u4Byte		Cnt_Ofdm_fail;
++	u4Byte		Cnt_Ofdm_fail_pre;	//For RTL8881A
++	u4Byte		Cnt_Cck_fail;
++	u4Byte		Cnt_all;
++	u4Byte		Cnt_all_pre;
++	u4Byte		Cnt_Fast_Fsync;
++	u4Byte		Cnt_SB_Search_fail;
++	u4Byte		Cnt_OFDM_CCA;
++	u4Byte		Cnt_CCK_CCA;
++	u4Byte		Cnt_CCA_all;
++	u4Byte		Cnt_BW_USC;	//Gary
++	u4Byte		Cnt_BW_LSC;	//Gary
++	u4Byte		cnt_cck_crc32_error;
++	u4Byte		cnt_cck_crc32_ok;
++	u4Byte		cnt_ofdm_crc32_error;
++	u4Byte		cnt_ofdm_crc32_ok;
++	u4Byte		cnt_ht_crc32_error;
++	u4Byte		cnt_ht_crc32_ok;
++	u4Byte		cnt_vht_crc32_error;
++	u4Byte		cnt_vht_crc32_ok;
++	u4Byte		cnt_crc32_error_all;
++	u4Byte		cnt_crc32_ok_all;
++	BOOLEAN		cck_block_enable;
++	BOOLEAN		ofdm_block_enable;
++	u4Byte		dbg_port0;
++	BOOLEAN		edcca_flag;
++}FALSE_ALARM_STATISTICS, *PFALSE_ALARM_STATISTICS;
++
++typedef enum tag_Dynamic_Init_Gain_Operation_Type_Definition
++{
++	DIG_TYPE_THRESH_HIGH	= 0,
++	DIG_TYPE_THRESH_LOW	= 1,
++	DIG_TYPE_BACKOFF		= 2,
++	DIG_TYPE_RX_GAIN_MIN	= 3,
++	DIG_TYPE_RX_GAIN_MAX	= 4,
++	DIG_TYPE_ENABLE 		= 5,
++	DIG_TYPE_DISABLE 		= 6,	
++	DIG_OP_TYPE_MAX
++}DM_DIG_OP_E;
++
++/*
++typedef enum tag_CCK_Packet_Detection_Threshold_Type_Definition
++{
++	CCK_PD_STAGE_LowRssi = 0,
++	CCK_PD_STAGE_HighRssi = 1,
++	CCK_PD_STAGE_MAX = 3,
++}DM_CCK_PDTH_E;
++
++typedef enum tag_DIG_EXT_PORT_ALGO_Definition
++{
++	DIG_EXT_PORT_STAGE_0 = 0,
++	DIG_EXT_PORT_STAGE_1 = 1,
++	DIG_EXT_PORT_STAGE_2 = 2,
++	DIG_EXT_PORT_STAGE_3 = 3,
++	DIG_EXT_PORT_STAGE_MAX = 4,
++}DM_DIG_EXT_PORT_ALG_E;
++
++typedef enum tag_DIG_Connect_Definition
++{
++	DIG_STA_DISCONNECT = 0,	
++	DIG_STA_CONNECT = 1,
++	DIG_STA_BEFORE_CONNECT = 2,
++	DIG_MultiSTA_DISCONNECT = 3,
++	DIG_MultiSTA_CONNECT = 4,
++	DIG_CONNECT_MAX
++}DM_DIG_CONNECT_E;
++
++
++#define DM_MultiSTA_InitGainChangeNotify(Event) {DM_DigTable.CurMultiSTAConnectState = Event;}
++
++#define DM_MultiSTA_InitGainChangeNotify_CONNECT(_ADAPTER)	\
++	DM_MultiSTA_InitGainChangeNotify(DIG_MultiSTA_CONNECT)
++
++#define DM_MultiSTA_InitGainChangeNotify_DISCONNECT(_ADAPTER)	\
++	DM_MultiSTA_InitGainChangeNotify(DIG_MultiSTA_DISCONNECT)
++*/
++
++typedef enum tag_PHYDM_Pause_Type {
++	PHYDM_PAUSE = BIT0,
++	PHYDM_RESUME = BIT1
++} PHYDM_PAUSE_TYPE;
++
++typedef enum tag_PHYDM_Pause_Level {
++/* number of pause level can't exceed DM_DIG_MAX_PAUSE_TYPE */
++	PHYDM_PAUSE_LEVEL_0 = 0,
++	PHYDM_PAUSE_LEVEL_1 = 1,
++	PHYDM_PAUSE_LEVEL_2 = 2,
++	PHYDM_PAUSE_LEVEL_3 = 3,
++	PHYDM_PAUSE_LEVEL_4 = 4,
++	PHYDM_PAUSE_LEVEL_5 = 5,
++	PHYDM_PAUSE_LEVEL_6 = 6,
++	PHYDM_PAUSE_LEVEL_7 = DM_DIG_MAX_PAUSE_TYPE		/* maximum level */
++} PHYDM_PAUSE_LEVEL;
++
++#define		DM_DIG_THRESH_HIGH			40
++#define		DM_DIG_THRESH_LOW			35
++
++#define		DM_FALSEALARM_THRESH_LOW	400
++#define		DM_FALSEALARM_THRESH_HIGH	1000
++
++#define		DM_DIG_MAX_NIC				0x3e
++#define		DM_DIG_MIN_NIC				0x20
++#define		DM_DIG_MAX_OF_MIN_NIC		0x3e
++
++#define		DM_DIG_MAX_AP					0x3e
++#define		DM_DIG_MIN_AP					0x20
++#define		DM_DIG_MAX_OF_MIN			0x2A	//0x32
++#define		DM_DIG_MIN_AP_DFS				0x20
++
++#define		DM_DIG_MAX_NIC_HP			0x46
++#define		DM_DIG_MIN_NIC_HP				0x2e
++
++#define		DM_DIG_MAX_AP_HP				0x42
++#define		DM_DIG_MIN_AP_HP				0x30
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++#define		DM_DIG_MAX_AP_COVERAGR		0x26
++#define		DM_DIG_MIN_AP_COVERAGE		0x1c
++#define		DM_DIG_MAX_OF_MIN_COVERAGE	0x22
++
++#define		DM_DIG_TP_Target_TH0			500
++#define		DM_DIG_TP_Target_TH1			1000
++#define		DM_DIG_TP_Training_Period		10
++#endif
++
++//vivi 92c&92d has different definition, 20110504
++//this is for 92c
++#if (DM_ODM_SUPPORT_TYPE & ODM_CE)
++	#ifdef CONFIG_SPECIAL_SETTING_FOR_FUNAI_TV
++	#define		DM_DIG_FA_TH0				0x80//0x20
++	#else
++	#define		DM_DIG_FA_TH0				0x200//0x20
++	#endif
++#else
++	#define		DM_DIG_FA_TH0				0x200//0x20
++#endif
++
++#define		DM_DIG_FA_TH1					0x300
++#define		DM_DIG_FA_TH2					0x400
++//this is for 92d
++#define		DM_DIG_FA_TH0_92D				0x100
++#define		DM_DIG_FA_TH1_92D				0x400
++#define		DM_DIG_FA_TH2_92D				0x600
++
++#define		DM_DIG_BACKOFF_MAX			12
++#define		DM_DIG_BACKOFF_MIN			-4
++#define		DM_DIG_BACKOFF_DEFAULT		10
++
++#define 		DM_DIG_FA_TH0_LPS				4 //-> 4 in lps
++#define 		DM_DIG_FA_TH1_LPS				15 //-> 15 lps
++#define 		DM_DIG_FA_TH2_LPS				30 //-> 30 lps
++#define 		RSSI_OFFSET_DIG				0x05
++#define		LARGE_FA_TIMEOUT				60
++
++
++VOID
++ODM_ChangeDynamicInitGainThresh(
++	IN		PVOID					pDM_VOID,
++	IN		u4Byte  					DM_Type,
++	IN		u4Byte 					DM_Value
++	);
++
++VOID
++ODM_Write_DIG(
++	IN		PVOID					pDM_VOID, 	
++	IN		u1Byte					CurrentIGI
++	);
++
++VOID
++odm_PauseDIG(
++	IN		PVOID					pDM_VOID,
++	IN		PHYDM_PAUSE_TYPE		PauseType,
++	IN		PHYDM_PAUSE_LEVEL		pause_level,
++	IN		u1Byte					IGIValue
++	);
++
++VOID
++odm_DIGInit(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID	
++odm_DIG(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID
++odm_DIGbyRSSI_LPS(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID 
++odm_FalseAlarmCounterStatistics(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID
++odm_PauseCCKPacketDetection(
++	IN		PVOID					pDM_VOID,
++	IN		PHYDM_PAUSE_TYPE		PauseType,
++	IN		PHYDM_PAUSE_LEVEL		pause_level,
++	IN		u1Byte					CCKPDThreshold
++	);
++
++VOID 
++odm_CCKPacketDetectionThresh(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID 
++ODM_Write_CCK_CCA_Thres(
++	IN		PVOID					pDM_VOID, 
++	IN		u1Byte					CurCCK_CCAThres
++	);
++
++BOOLEAN
++phydm_DIG_GoUpCheck(
++	IN		PVOID		pDM_VOID
++	);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++odm_MPT_DIGCallback(
++	PRT_TIMER						pTimer
++);
++
++VOID
++odm_MPT_DIGWorkItemCallback(
++    IN 		PVOID            			pContext
++    );
++
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++VOID
++odm_MPT_DIGCallback(
++	IN		PVOID					pDM_VOID
++);
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE != ODM_CE)
++VOID
++ODM_MPT_DIG(
++	IN		PVOID					pDM_VOID
++);
++#endif
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dynamicbbpowersaving.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dynamicbbpowersaving.c
+new file mode 100644
+index 0000000..445b04b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dynamicbbpowersaving.c
+@@ -0,0 +1,121 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++VOID 
++odm_DynamicBBPowerSavingInit(
++	IN		PVOID					pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pPS_T	pDM_PSTable = &pDM_Odm->DM_PSTable;
++
++	pDM_PSTable->PreCCAState = CCA_MAX;
++	pDM_PSTable->CurCCAState = CCA_MAX;
++	pDM_PSTable->PreRFState = RF_MAX;
++	pDM_PSTable->CurRFState = RF_MAX;
++	pDM_PSTable->Rssi_val_min = 0;
++	pDM_PSTable->initialize = 0;
++}
++
++void
++ODM_RF_Saving(
++	IN		PVOID					pDM_VOID,
++	IN	u1Byte		bForceInNormal 
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE != ODM_AP)
++	pPS_T	pDM_PSTable = &pDM_Odm->DM_PSTable;
++	u1Byte	Rssi_Up_bound = 30 ;
++	u1Byte	Rssi_Low_bound = 25;
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	if(pDM_Odm->PatchID == 40 ) //RT_CID_819x_FUNAI_TV
++	{
++		Rssi_Up_bound = 50 ;
++		Rssi_Low_bound = 45;
++	}
++#endif
++	if(pDM_PSTable->initialize == 0){
++		
++		pDM_PSTable->Reg874 = (ODM_GetBBReg(pDM_Odm, 0x874, bMaskDWord)&0x1CC000)>>14;
++		pDM_PSTable->RegC70 = (ODM_GetBBReg(pDM_Odm, 0xc70, bMaskDWord)&BIT3)>>3;
++		pDM_PSTable->Reg85C = (ODM_GetBBReg(pDM_Odm, 0x85c, bMaskDWord)&0xFF000000)>>24;
++		pDM_PSTable->RegA74 = (ODM_GetBBReg(pDM_Odm, 0xa74, bMaskDWord)&0xF000)>>12;
++		//Reg818 = PHY_QueryBBReg(pAdapter, 0x818, bMaskDWord);
++		pDM_PSTable->initialize = 1;
++	}
++
++	if(!bForceInNormal)
++	{
++		if(pDM_Odm->RSSI_Min != 0xFF)
++		{			 
++			if(pDM_PSTable->PreRFState == RF_Normal)
++			{
++				if(pDM_Odm->RSSI_Min >= Rssi_Up_bound)
++					pDM_PSTable->CurRFState = RF_Save;
++				else
++					pDM_PSTable->CurRFState = RF_Normal;
++			}
++			else{
++				if(pDM_Odm->RSSI_Min <= Rssi_Low_bound)
++					pDM_PSTable->CurRFState = RF_Normal;
++				else
++					pDM_PSTable->CurRFState = RF_Save;
++			}
++		}
++		else
++			pDM_PSTable->CurRFState=RF_MAX;
++	}
++	else
++	{
++		pDM_PSTable->CurRFState = RF_Normal;
++	}
++	
++	if(pDM_PSTable->PreRFState != pDM_PSTable->CurRFState)
++	{
++		if(pDM_PSTable->CurRFState == RF_Save)
++		{
++			ODM_SetBBReg(pDM_Odm, 0x874  , 0x1C0000, 0x2); //Reg874[20:18]=3'b010
++			ODM_SetBBReg(pDM_Odm, 0xc70, BIT3, 0); //RegC70[3]=1'b0
++			ODM_SetBBReg(pDM_Odm, 0x85c, 0xFF000000, 0x63); //Reg85C[31:24]=0x63
++			ODM_SetBBReg(pDM_Odm, 0x874, 0xC000, 0x2); //Reg874[15:14]=2'b10
++			ODM_SetBBReg(pDM_Odm, 0xa74, 0xF000, 0x3); //RegA75[7:4]=0x3
++			ODM_SetBBReg(pDM_Odm, 0x818, BIT28, 0x0); //Reg818[28]=1'b0
++			ODM_SetBBReg(pDM_Odm, 0x818, BIT28, 0x1); //Reg818[28]=1'b1
++		}
++		else
++		{
++			ODM_SetBBReg(pDM_Odm, 0x874  , 0x1CC000, pDM_PSTable->Reg874); 
++			ODM_SetBBReg(pDM_Odm, 0xc70, BIT3, pDM_PSTable->RegC70); 
++			ODM_SetBBReg(pDM_Odm, 0x85c, 0xFF000000, pDM_PSTable->Reg85C);
++			ODM_SetBBReg(pDM_Odm, 0xa74, 0xF000, pDM_PSTable->RegA74); 
++			ODM_SetBBReg(pDM_Odm,0x818, BIT28, 0x0);  
++		}
++		pDM_PSTable->PreRFState =pDM_PSTable->CurRFState;
++	}
++#endif	
++}
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dynamicbbpowersaving.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dynamicbbpowersaving.h
+new file mode 100644
+index 0000000..506d97d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dynamicbbpowersaving.h
+@@ -0,0 +1,53 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMDYNAMICBBPOWERSAVING_H__
++#define    __PHYDMDYNAMICBBPOWERSAVING_H__
++
++#define DYNAMIC_BBPWRSAV_VERSION	"1.1"
++
++typedef struct _Dynamic_Power_Saving_
++{
++	u1Byte		PreCCAState;
++	u1Byte		CurCCAState;
++
++	u1Byte		PreRFState;
++	u1Byte		CurRFState;
++
++	int		    Rssi_val_min;
++	
++	u1Byte		initialize;
++	u4Byte		Reg874,RegC70,Reg85C,RegA74;
++	
++}PS_T,*pPS_T;
++
++#define dm_RF_Saving	ODM_RF_Saving
++
++void ODM_RF_Saving(
++	IN		PVOID					pDM_VOID,
++	IN	u1Byte		bForceInNormal
++);
++
++VOID 
++odm_DynamicBBPowerSavingInit(
++	IN		PVOID					pDM_VOID
++	);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dynamictxpower.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dynamictxpower.c
+new file mode 100644
+index 0000000..79c1729
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dynamictxpower.c
+@@ -0,0 +1,542 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++VOID 
++odm_DynamicTxPowerInit(
++	IN		PVOID					pDM_VOID	
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++	PMGNT_INFO			pMgntInfo = &Adapter->MgntInfo;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++
++	/*if (!IS_HARDWARE_TYPE_8814A(Adapter)) {*/
++	/*	ODM_RT_TRACE(pDM_Odm,ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, */
++	/*	("odm_DynamicTxPowerInit DynamicTxPowerEnable=%d\n", pMgntInfo->bDynamicTxPowerEnable));*/
++	/*	return;*/
++	/*} else*/
++	{
++		pMgntInfo->bDynamicTxPowerEnable = TRUE;
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, 
++		("odm_DynamicTxPowerInit DynamicTxPowerEnable=%d\n", pMgntInfo->bDynamicTxPowerEnable));
++	}
++		
++	#if DEV_BUS_TYPE==RT_USB_INTERFACE					
++	if(RT_GetInterfaceSelection(Adapter) == INTF_SEL1_USB_High_Power)
++	{
++		odm_DynamicTxPowerSavePowerIndex(pDM_Odm);
++		pMgntInfo->bDynamicTxPowerEnable = TRUE;
++	}		
++	else	
++	#else
++	//so 92c pci do not need dynamic tx power? vivi check it later
++	pMgntInfo->bDynamicTxPowerEnable = FALSE;
++	#endif
++	
++
++	pHalData->LastDTPLvl = TxHighPwrLevel_Normal;
++	pHalData->DynamicTxHighPowerLvl = TxHighPwrLevel_Normal;
++	
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++	pDM_Odm->LastDTPLvl = TxHighPwrLevel_Normal;
++	pDM_Odm->DynamicTxHighPowerLvl = TxHighPwrLevel_Normal;
++	pDM_Odm->tx_agc_ofdm_18_6 = ODM_GetBBReg(pDM_Odm, 0xC24, bMaskDWord); /*TXAGC {18M 12M 9M 6M}*/
++
++#endif
++	
++}
++
++VOID
++odm_DynamicTxPowerSavePowerIndex(
++	IN		PVOID					pDM_VOID	
++	)
++{	
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++	u1Byte		index;
++	u4Byte		Power_Index_REG[6] = {0xc90, 0xc91, 0xc92, 0xc98, 0xc99, 0xc9a};
++	
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);	
++	for(index = 0; index< 6; index++)
++		pHalData->PowerIndex_backup[index] = PlatformEFIORead1Byte(Adapter, Power_Index_REG[index]);
++	
++	
++#endif
++#endif
++}
++
++VOID
++odm_DynamicTxPowerRestorePowerIndex(
++	IN		PVOID					pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++	u1Byte			index;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u4Byte			Power_Index_REG[6] = {0xc90, 0xc91, 0xc92, 0xc98, 0xc99, 0xc9a};
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	for(index = 0; index< 6; index++)
++		PlatformEFIOWrite1Byte(Adapter, Power_Index_REG[index], pHalData->PowerIndex_backup[index]);
++
++
++#endif
++#endif
++}
++
++VOID
++odm_DynamicTxPowerWritePowerIndex(
++	IN		PVOID					pDM_VOID, 
++	IN 	u1Byte		Value)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			index;
++	u4Byte			Power_Index_REG[6] = {0xc90, 0xc91, 0xc92, 0xc98, 0xc99, 0xc9a};
++	
++	for(index = 0; index< 6; index++)
++		//PlatformEFIOWrite1Byte(Adapter, Power_Index_REG[index], Value);
++		ODM_Write1Byte(pDM_Odm, Power_Index_REG[index], Value);
++
++}
++
++VOID 
++odm_DynamicTxPowerNIC_CE(
++	IN		PVOID					pDM_VOID
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++#if (RTL8821A_SUPPORT == 1)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			val;
++	u1Byte			rssi_tmp = pDM_Odm->RSSI_Min;
++
++	if (!(pDM_Odm->SupportAbility & ODM_BB_DYNAMIC_TXPWR))
++		return;
++
++	if (rssi_tmp >= TX_POWER_NEAR_FIELD_THRESH_LVL2) {
++		pDM_Odm->DynamicTxHighPowerLvl = TxHighPwrLevel_Level2;
++		/**/
++	} else if (rssi_tmp >= TX_POWER_NEAR_FIELD_THRESH_LVL1) {
++		pDM_Odm->DynamicTxHighPowerLvl = TxHighPwrLevel_Level1;
++		/**/
++	} else if (rssi_tmp < (TX_POWER_NEAR_FIELD_THRESH_LVL1-5)) {
++		pDM_Odm->DynamicTxHighPowerLvl = TxHighPwrLevel_Normal;
++		/**/
++	}
++
++	if (pDM_Odm->LastDTPLvl != pDM_Odm->DynamicTxHighPowerLvl) {
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, ODM_DBG_LOUD, ("update_DTP_lv: ((%d)) -> ((%d))\n", pDM_Odm->LastDTPLvl, pDM_Odm->DynamicTxHighPowerLvl));
++
++		pDM_Odm->LastDTPLvl = pDM_Odm->DynamicTxHighPowerLvl;
++
++		if (pDM_Odm->SupportICType & (ODM_RTL8821)) {
++
++			if (pDM_Odm->DynamicTxHighPowerLvl == TxHighPwrLevel_Level2) {
++
++				ODM_SetMACReg(pDM_Odm, 0x6D8, BIT20|BIT19|BIT18, 1); /* Resp TXAGC offset = -3dB*/
++
++				val = pDM_Odm->tx_agc_ofdm_18_6 & 0xff;
++				if (val >= 0x20)
++					val -= 0x16;
++
++				ODM_SetBBReg(pDM_Odm, 0xC24, 0xff, val);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, ODM_DBG_LOUD, ("Set TX power: level 2\n"));
++			} else if (pDM_Odm->DynamicTxHighPowerLvl == TxHighPwrLevel_Level1) {
++
++				ODM_SetMACReg(pDM_Odm, 0x6D8, BIT20|BIT19|BIT18, 1); /* Resp TXAGC offset = -3dB*/
++
++				val = pDM_Odm->tx_agc_ofdm_18_6 & 0xff;
++				if (val >= 0x20)
++					val -= 0x10;
++
++				ODM_SetBBReg(pDM_Odm, 0xC24, 0xff, val);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, ODM_DBG_LOUD, ("Set TX power: level 1\n"));
++			} else if (pDM_Odm->DynamicTxHighPowerLvl == TxHighPwrLevel_Normal) {
++			
++				ODM_SetMACReg(pDM_Odm, 0x6D8, BIT20|BIT19|BIT18, 0); /* Resp TXAGC offset = 0dB*/
++				ODM_SetBBReg(pDM_Odm, 0xC24, bMaskDWord, pDM_Odm->tx_agc_ofdm_18_6);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, ODM_DBG_LOUD, ("Set TX power: normal\n"));
++			}
++		}
++	}
++
++#endif
++#endif
++}
++
++
++VOID 
++odm_DynamicTxPower(
++	IN		PVOID					pDM_VOID
++	)
++{
++	// 
++	// For AP/ADSL use prtl8192cd_priv
++	// For CE/NIC use PADAPTER
++	//
++	//PADAPTER		pAdapter = pDM_Odm->Adapter;
++//	prtl8192cd_priv	priv		= pDM_Odm->priv;
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	if (!(pDM_Odm->SupportAbility & ODM_BB_DYNAMIC_TXPWR))
++		return;
++	//
++	// 2011/09/29 MH In HW integration first stage, we provide 4 different handle to operate
++	// at the same time. In the stage2/3, we need to prive universal interface and merge all
++	// HW dynamic mechanism.
++	//
++	switch	(pDM_Odm->SupportPlatform)
++	{
++		case	ODM_WIN:
++			odm_DynamicTxPowerNIC(pDM_Odm);
++			break;
++		case	ODM_CE:
++			odm_DynamicTxPowerNIC_CE(pDM_Odm);
++			break;	
++		case	ODM_AP:
++			odm_DynamicTxPowerAP(pDM_Odm);
++			break;		
++		default:
++			break;
++	}
++
++	
++}
++
++
++VOID 
++odm_DynamicTxPowerNIC(
++	IN		PVOID					pDM_VOID
++	)
++{	
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	if (!(pDM_Odm->SupportAbility & ODM_BB_DYNAMIC_TXPWR))
++		return;
++	
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++
++	if (pDM_Odm->SupportICType == ODM_RTL8814A) {
++		odm_DynamicTxPower_8814A(pDM_Odm);
++	} else if (pDM_Odm->SupportICType & ODM_RTL8821) {
++		PADAPTER		Adapter	 =  pDM_Odm->Adapter;
++		PMGNT_INFO		pMgntInfo = GetDefaultMgntInfo(Adapter);
++
++		if (pMgntInfo->RegRspPwr == 1)	{
++			if (pDM_Odm->RSSI_Min > 60)
++				ODM_SetMACReg(pDM_Odm, ODM_REG_RESP_TX_11AC, BIT20|BIT19|BIT18, 1); /*Resp TXAGC offset = -3dB*/
++			else if (pDM_Odm->RSSI_Min < 55)
++				ODM_SetMACReg(pDM_Odm, ODM_REG_RESP_TX_11AC, BIT20|BIT19|BIT18, 0); /*Resp TXAGC offset = 0dB*/
++		}
++	}
++#endif	
++}
++
++VOID 
++odm_DynamicTxPowerAP(
++	IN		PVOID					pDM_VOID
++
++	)
++{	
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++//#if ((RTL8192C_SUPPORT==1) || (RTL8192D_SUPPORT==1) || (RTL8188E_SUPPORT==1) || (RTL8812E_SUPPORT==1))
++
++
++	prtl8192cd_priv	priv		= pDM_Odm->priv;
++	s4Byte i;
++	s2Byte pwr_thd = 63;
++
++	if(!priv->pshare->rf_ft_var.tx_pwr_ctrl)
++		return;
++	
++#if ((RTL8812A_SUPPORT == 1) || (RTL8881A_SUPPORT == 1) || (RTL8814A_SUPPORT == 1))
++	if (pDM_Odm->SupportICType & (ODM_RTL8812 | ODM_RTL8881A | ODM_RTL8814A))
++		pwr_thd = TX_POWER_NEAR_FIELD_THRESH_LVL1;
++#endif
++
++	/*
++	 *	Check if station is near by to use lower tx power
++	 */
++
++	if ((priv->up_time % 3) == 0 )  {
++		int disable_pwr_ctrl = ((pDM_Odm->FalseAlmCnt.Cnt_all > 1000 ) || ((pDM_Odm->FalseAlmCnt.Cnt_all > 300 ) && ((RTL_R8(0xc50) & 0x7f) >= 0x32))) ? 1 : 0;
++			
++		for(i=0; i<ODM_ASSOCIATE_ENTRY_NUM; i++){
++			PSTA_INFO_T pstat = pDM_Odm->pODM_StaInfo[i];
++			if(IS_STA_VALID(pstat) ) {
++					if(disable_pwr_ctrl)
++						pstat->hp_level = 0;
++					 else if ((pstat->hp_level == 0) && (pstat->rssi > pwr_thd))
++					pstat->hp_level = 1;
++						else if ((pstat->hp_level == 1) && (pstat->rssi < (pwr_thd-8)))
++					pstat->hp_level = 0;
++			}
++		}
++
++#if defined(CONFIG_WLAN_HAL_8192EE)
++		if (GET_CHIP_VER(priv) == VERSION_8192E) {
++			if( !disable_pwr_ctrl && (pDM_Odm->RSSI_Min != 0xff) ) {
++				if(pDM_Odm->RSSI_Min > pwr_thd)
++					RRSR_power_control_11n(priv,  1 );
++				else if(pDM_Odm->RSSI_Min < (pwr_thd-8))
++					RRSR_power_control_11n(priv,  0 );
++			} else {
++					RRSR_power_control_11n(priv,  0 );
++			}
++		}
++#endif			
++
++#ifdef CONFIG_WLAN_HAL_8814AE
++		if (GET_CHIP_VER(priv) == VERSION_8814A) {
++			if (!disable_pwr_ctrl && (pDM_Odm->RSSI_Min != 0xff)) {
++				if (pDM_Odm->RSSI_Min > pwr_thd)
++					RRSR_power_control_14(priv,  1);
++				else if (pDM_Odm->RSSI_Min < (pwr_thd-8))
++					RRSR_power_control_14(priv,  0);
++			} else {
++					RRSR_power_control_14(priv,  0);
++			}
++		}
++#endif		
++
++	}
++//#endif	
++
++#endif	
++}
++
++VOID 
++odm_DynamicTxPower_8821(
++	IN		PVOID			pDM_VOID,	
++	IN		pu1Byte			pDesc,
++	IN		u1Byte			macId	
++	)
++{
++#if (RTL8821A_SUPPORT == 1)
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PSTA_INFO_T		pEntry;
++	u1Byte			reg0xc56_byte;
++	u1Byte			txpwr_offset = 0;
++	
++	pEntry = pDM_Odm->pODM_StaInfo[macId];	
++
++	reg0xc56_byte = ODM_Read1Byte(pDM_Odm, 0xc56);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("reg0xc56_byte=%d\n", reg0xc56_byte));
++
++	if (pEntry[macId].rssi_stat.UndecoratedSmoothedPWDB > 85) {
++
++		/* Avoid TXAGC error after TX power offset is applied.
++		For example: Reg0xc56=0x6, if txpwr_offset=3( reduce 11dB )
++		Total power = 6-11= -5( overflow!! ), PA may be burned !
++		so txpwr_offset should be adjusted by Reg0xc56*/
++		
++		if (reg0xc56_byte < 7)
++			txpwr_offset = 1;
++		else if (reg0xc56_byte < 11)
++			txpwr_offset = 2;
++		else
++			txpwr_offset = 3;
++		
++		SET_TX_DESC_TX_POWER_OFFSET_8812(pDesc, txpwr_offset);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("odm_DynamicTxPower_8821: RSSI=%d, txpwr_offset=%d\n", pEntry[macId].rssi_stat.UndecoratedSmoothedPWDB, txpwr_offset));
++
++	} else{
++		SET_TX_DESC_TX_POWER_OFFSET_8812(pDesc, txpwr_offset);
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("odm_DynamicTxPower_8821: RSSI=%d, txpwr_offset=%d\n", pEntry[macId].rssi_stat.UndecoratedSmoothedPWDB, txpwr_offset));
++
++	}
++#endif	/*#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)*/
++#endif	/*#if (RTL8821A_SUPPORT==1)*/
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID 
++odm_DynamicTxPower_8814A(
++	IN		PVOID					pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER Adapter = pDM_Odm->Adapter;
++	PMGNT_INFO			pMgntInfo = &Adapter->MgntInfo;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	s4Byte				UndecoratedSmoothedPWDB;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, 
++	("TxLevel=%d pMgntInfo->IOTAction=%x pMgntInfo->bDynamicTxPowerEnable=%d\n", 
++	pHalData->DynamicTxHighPowerLvl, pMgntInfo->IOTAction, pMgntInfo->bDynamicTxPowerEnable));
++	
++	/*STA not connected and AP not connected*/
++	if ((!pMgntInfo->bMediaConnect) && (pHalData->EntryMinUndecoratedSmoothedPWDB == 0)) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("Not connected to any reset power lvl\n"));
++		pHalData->DynamicTxHighPowerLvl = TxHighPwrLevel_Normal;
++		return;
++	}
++
++
++	if ((pMgntInfo->bDynamicTxPowerEnable != TRUE) || pMgntInfo->IOTAction & HT_IOT_ACT_DISABLE_HIGH_POWER) {
++		pHalData->DynamicTxHighPowerLvl = TxHighPwrLevel_Normal;		
++	} else {
++		if (pMgntInfo->bMediaConnect) {	/*Default port*/
++			if (ACTING_AS_AP(Adapter) || ACTING_AS_IBSS(Adapter)) {
++				UndecoratedSmoothedPWDB = pHalData->EntryMinUndecoratedSmoothedPWDB;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("AP Client PWDB = 0x%x\n", UndecoratedSmoothedPWDB));
++			} else {
++				UndecoratedSmoothedPWDB = pHalData->UndecoratedSmoothedPWDB;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("STA Default Port PWDB = 0x%x\n", UndecoratedSmoothedPWDB));
++			}
++		} else {/*associated entry pwdb*/
++			UndecoratedSmoothedPWDB = pHalData->EntryMinUndecoratedSmoothedPWDB;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("AP Ext Port PWDB = 0x%x\n", UndecoratedSmoothedPWDB));
++			}
++
++		/*Should we separate as 2.4G/5G band?*/
++			
++		if (UndecoratedSmoothedPWDB >= TX_POWER_NEAR_FIELD_THRESH_LVL2) {
++			pHalData->DynamicTxHighPowerLvl = TxHighPwrLevel_Level2;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("TxHighPwrLevel_Level1 (TxPwr=0x0)\n"));
++		} else if ((UndecoratedSmoothedPWDB < (TX_POWER_NEAR_FIELD_THRESH_LVL2-3)) &&
++			(UndecoratedSmoothedPWDB >= TX_POWER_NEAR_FIELD_THRESH_LVL1)) {
++			pHalData->DynamicTxHighPowerLvl = TxHighPwrLevel_Level1;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("TxHighPwrLevel_Level1 (TxPwr=0x10)\n"));
++		} else if (UndecoratedSmoothedPWDB < (TX_POWER_NEAR_FIELD_THRESH_LVL1-5)) {
++			pHalData->DynamicTxHighPowerLvl = TxHighPwrLevel_Normal;
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("TxHighPwrLevel_Normal\n"));
++		}
++	}
++
++
++	if (pHalData->DynamicTxHighPowerLvl != pHalData->LastDTPLvl) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, ("odm_DynamicTxPower_8814A() Channel = %d\n" , pHalData->CurrentChannel));
++		odm_SetTxPowerLevel8814(Adapter, pHalData->CurrentChannel, pHalData->DynamicTxHighPowerLvl);	
++	}
++
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_DYNAMIC_TXPWR, DBG_LOUD, 
++	("odm_DynamicTxPower_8814A() Channel = %d  TXpower lvl=%d/%d\n" , 
++	pHalData->CurrentChannel, pHalData->LastDTPLvl, pHalData->DynamicTxHighPowerLvl));
++
++	pHalData->LastDTPLvl = pHalData->DynamicTxHighPowerLvl;
++
++}
++
++
++
++/**/
++/*For normal driver we always use the FW method to configure TX power index to reduce I/O transaction.*/
++/**/
++/**/
++VOID
++odm_SetTxPowerLevel8814(
++	IN	PADAPTER		Adapter,
++	IN	u1Byte			Channel,
++	IN	u1Byte			PwrLvl
++	)
++{
++#if (DEV_BUS_TYPE == RT_USB_INTERFACE)
++	u4Byte			i, j, k = 0;
++	u4Byte			value[264] = {0};
++	u4Byte			path = 0, PowerIndex, txagc_table_wd = 0x00801000;
++
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	u1Byte	jaguar2Rates[][4] = { {MGN_1M, MGN_2M, MGN_5_5M, MGN_11M}, 
++								{MGN_6M, MGN_9M, MGN_12M, MGN_18M}, 
++								{MGN_24M, MGN_36M, MGN_48M, MGN_54M}, 
++								{MGN_MCS0, MGN_MCS1, MGN_MCS2, MGN_MCS3},
++								{MGN_MCS4, MGN_MCS5, MGN_MCS6, MGN_MCS7}, 
++								{MGN_MCS8, MGN_MCS9, MGN_MCS10, MGN_MCS11},
++								{MGN_MCS12, MGN_MCS13, MGN_MCS14, MGN_MCS15},
++								{MGN_MCS16, MGN_MCS17, MGN_MCS18, MGN_MCS19}, 
++								{MGN_MCS20, MGN_MCS21, MGN_MCS22, MGN_MCS23},
++								{MGN_VHT1SS_MCS0, MGN_VHT1SS_MCS1, MGN_VHT1SS_MCS2, MGN_VHT1SS_MCS3}, 
++								{MGN_VHT1SS_MCS4, MGN_VHT1SS_MCS5, MGN_VHT1SS_MCS6, MGN_VHT1SS_MCS7}, 
++								{MGN_VHT2SS_MCS8, MGN_VHT2SS_MCS9, MGN_VHT2SS_MCS0, MGN_VHT2SS_MCS1}, 
++								{MGN_VHT2SS_MCS2, MGN_VHT2SS_MCS3, MGN_VHT2SS_MCS4, MGN_VHT2SS_MCS5}, 
++								{MGN_VHT2SS_MCS6, MGN_VHT2SS_MCS7, MGN_VHT2SS_MCS8, MGN_VHT2SS_MCS9},
++								{MGN_VHT3SS_MCS0, MGN_VHT3SS_MCS1, MGN_VHT3SS_MCS2, MGN_VHT3SS_MCS3}, 
++								{MGN_VHT3SS_MCS4, MGN_VHT3SS_MCS5, MGN_VHT3SS_MCS6, MGN_VHT3SS_MCS7}, 
++								{MGN_VHT3SS_MCS8, MGN_VHT3SS_MCS9, 0, 0} };	
++	
++	for (path = ODM_RF_PATH_A; path <= ODM_RF_PATH_D; ++path) {
++		
++		u1Byte	usb_host = UsbModeQueryHubUsbType(Adapter);
++		u1Byte	usb_rfset = UsbModeQueryRfSet(Adapter);
++		u1Byte	usb_rf_type = RT_GetRFType(Adapter);
++			
++		for (i = 0; i <= 16; i++) {
++			for (j = 0; j <= 3; j++) {
++				if (jaguar2Rates[i][j] == 0)
++					continue;
++				
++				txagc_table_wd =  0x00801000;
++				PowerIndex =  (u4Byte) PHY_GetTxPowerIndex(Adapter, (u1Byte)path, jaguar2Rates[i][j], pHalData->CurrentChannelBW, Channel);		
++
++				/*for Query bus type to recude tx power.*/
++				if (usb_host != USB_MODE_U3 && usb_rfset == 1 && IS_HARDWARE_TYPE_8814AU(Adapter) && usb_rf_type == RF_3T3R) {
++					if (Channel <= 14) {
++						if (PowerIndex >= 16)
++							PowerIndex -= 16;
++						else
++							PowerIndex = 0;
++					} else
++						PowerIndex = 0;
++				}
++
++				if (PwrLvl == TxHighPwrLevel_Level1) {
++					if (PowerIndex >= 0x10)
++						PowerIndex -= 0x10;
++					else
++						PowerIndex = 0;
++				} else if (PwrLvl == TxHighPwrLevel_Level2) {
++					PowerIndex = 0;
++				}
++				
++				txagc_table_wd |= (path << 8) | MRateToHwRate(jaguar2Rates[i][j]) | (PowerIndex << 24);
++
++				PHY_SetTxPowerIndexShadow(Adapter, (u1Byte)PowerIndex, (u1Byte)path, jaguar2Rates[i][j]);
++
++				value[k++] = txagc_table_wd;
++			}
++		}
++	}
++
++	if (Adapter->MgntInfo.bScanInProgress == FALSE &&  Adapter->MgntInfo.RegFWOffload == 2)
++		HalDownloadTxPowerLevel8814(Adapter, value);
++#endif
++}
++#endif
++
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dynamictxpower.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dynamictxpower.h
+new file mode 100644
+index 0000000..9d1c7f5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_dynamictxpower.h
+@@ -0,0 +1,110 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMDYNAMICTXPOWER_H__
++#define    __PHYDMDYNAMICTXPOWER_H__
++
++/*#define DYNAMIC_TXPWR_VERSION	"1.0"*/
++/*#define DYNAMIC_TXPWR_VERSION	"1.3" */ /*2015.08.26, Add 8814 Dynamic TX power*/
++#define DYNAMIC_TXPWR_VERSION	"1.4" /*2015.11.06, Add CE 8821A Dynamic TX power*/
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	#define		TX_POWER_NEAR_FIELD_THRESH_LVL2	74
++	#define		TX_POWER_NEAR_FIELD_THRESH_LVL1	60
++	#define		TX_POWER_NEAR_FIELD_THRESH_AP	0x3F
++#elif (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#define		TX_POWER_NEAR_FIELD_THRESH_LVL2	74
++	#define		TX_POWER_NEAR_FIELD_THRESH_LVL1	67
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#define		TX_POWER_NEAR_FIELD_THRESH_LVL2	74
++	#define		TX_POWER_NEAR_FIELD_THRESH_LVL1	60
++#endif
++
++#define		TxHighPwrLevel_Normal		0	
++#define		TxHighPwrLevel_Level1		1
++#define		TxHighPwrLevel_Level2		2
++
++#define		TxHighPwrLevel_BT1			3
++#define		TxHighPwrLevel_BT2			4
++#define		TxHighPwrLevel_15			5
++#define		TxHighPwrLevel_35			6
++#define		TxHighPwrLevel_50			7
++#define		TxHighPwrLevel_70			8
++#define		TxHighPwrLevel_100			9
++
++VOID 
++odm_DynamicTxPowerInit(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID
++odm_DynamicTxPowerRestorePowerIndex(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID 
++odm_DynamicTxPowerNIC(
++	IN		PVOID					pDM_VOID
++	);
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++VOID
++odm_DynamicTxPowerSavePowerIndex(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID
++odm_DynamicTxPowerWritePowerIndex(
++	IN		PVOID					pDM_VOID, 
++	IN 	u1Byte		Value);
++
++VOID 
++odm_DynamicTxPower_8821(
++	IN		PVOID					pDM_VOID,	
++	IN		pu1Byte					pDesc,
++	IN		u1Byte					macId
++	);
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID 
++odm_DynamicTxPower_8814A(
++	IN		PVOID					pDM_VOID
++	);
++
++	
++VOID
++odm_SetTxPowerLevel8814(
++	IN	PADAPTER		Adapter,
++	IN	u1Byte			Channel,
++	IN	u1Byte			PwrLvl
++	);
++#endif
++#endif
++
++VOID 
++odm_DynamicTxPower(
++	IN		PVOID					pDM_VOID
++	);
++
++VOID 
++odm_DynamicTxPowerAP(
++	IN		PVOID					pDM_VOID
++	);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_edcaturbocheck.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_edcaturbocheck.c
+new file mode 100644
+index 0000000..9020839
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_edcaturbocheck.c
+@@ -0,0 +1,763 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++VOID
++ODM_EdcaTurboInit(
++	IN 	PVOID	 	pDM_VOID)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++#if (DM_ODM_SUPPORT_TYPE==ODM_WIN)
++	PADAPTER	Adapter = NULL;
++	HAL_DATA_TYPE	*pHalData = NULL;
++
++	if(pDM_Odm->Adapter==NULL)	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("EdcaTurboInit fail!!!\n"));
++		return;
++	}
++
++	Adapter=pDM_Odm->Adapter;
++	pHalData=GET_HAL_DATA(Adapter);
++
++	pDM_Odm->DM_EDCA_Table.bCurrentTurboEDCA = FALSE;	
++	pDM_Odm->DM_EDCA_Table.bIsCurRDLState = FALSE;
++	pHalData->bIsAnyNonBEPkts = FALSE;
++	
++#elif(DM_ODM_SUPPORT_TYPE==ODM_CE)
++	PADAPTER	Adapter = pDM_Odm->Adapter;	
++	pDM_Odm->DM_EDCA_Table.bCurrentTurboEDCA = FALSE;	
++	pDM_Odm->DM_EDCA_Table.bIsCurRDLState = FALSE;
++	Adapter->recvpriv.bIsAnyNonBEPkts =FALSE;
++
++#endif	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Orginial VO PARAM: 0x%x\n",ODM_Read4Byte(pDM_Odm,ODM_EDCA_VO_PARAM)));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Orginial VI PARAM: 0x%x\n",ODM_Read4Byte(pDM_Odm,ODM_EDCA_VI_PARAM)));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Orginial BE PARAM: 0x%x\n",ODM_Read4Byte(pDM_Odm,ODM_EDCA_BE_PARAM)));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Orginial BK PARAM: 0x%x\n",ODM_Read4Byte(pDM_Odm,ODM_EDCA_BK_PARAM)));
++
++	
++}	// ODM_InitEdcaTurbo
++
++VOID
++odm_EdcaTurboCheck(
++	IN 	PVOID	 	pDM_VOID
++	)
++{
++	// 
++	// For AP/ADSL use prtl8192cd_priv
++	// For CE/NIC use PADAPTER
++	//
++
++	//
++	// 2011/09/29 MH In HW integration first stage, we provide 4 different handle to operate
++	// at the same time. In the stage2/3, we need to prive universal interface and merge all
++	// HW dynamic mechanism.
++	//
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("odm_EdcaTurboCheck========================>\n"));
++
++	if(!(pDM_Odm->SupportAbility& ODM_MAC_EDCA_TURBO ))
++		return;
++
++	switch	(pDM_Odm->SupportPlatform)
++	{
++		case	ODM_WIN:
++
++#if(DM_ODM_SUPPORT_TYPE==ODM_WIN)
++			odm_EdcaTurboCheckMP(pDM_Odm);
++#endif
++			break;
++
++		case	ODM_CE:
++#if(DM_ODM_SUPPORT_TYPE==ODM_CE)
++			odm_EdcaTurboCheckCE(pDM_Odm);
++#endif
++			break;
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("<========================odm_EdcaTurboCheck\n"));
++
++}	// odm_CheckEdcaTurbo
++
++#if(DM_ODM_SUPPORT_TYPE==ODM_CE)
++
++
++VOID
++odm_EdcaTurboCheckCE(
++	IN 	PVOID	 	pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		       Adapter = pDM_Odm->Adapter;
++	u32	EDCA_BE_UL = 0x5ea42b;//Parameter suggested by Scott  //edca_setting_UL[pMgntInfo->IOTPeer];
++	u32	EDCA_BE_DL = 0x5ea42b;//Parameter suggested by Scott  //edca_setting_DL[pMgntInfo->IOTPeer];
++	u32	ICType=pDM_Odm->SupportICType;
++	u32	IOTPeer=0;
++	u8	WirelessMode=0xFF;                   //invalid value
++	u32 	trafficIndex;
++	u32	edca_param;
++	u64	cur_tx_bytes = 0;
++	u64	cur_rx_bytes = 0;
++	u8	bbtchange = _FALSE;
++	u8	bBiasOnRx = _FALSE;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	struct dvobj_priv		*pdvobjpriv = adapter_to_dvobj(Adapter);
++	struct xmit_priv		*pxmitpriv = &(Adapter->xmitpriv);
++	struct recv_priv		*precvpriv = &(Adapter->recvpriv);
++	struct registry_priv	*pregpriv = &Adapter->registrypriv;
++	struct mlme_ext_priv	*pmlmeext = &(Adapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if(pDM_Odm->bLinked != _TRUE)
++	{
++		precvpriv->bIsAnyNonBEPkts = _FALSE;
++		return;
++	}
++
++	if ((pregpriv->wifi_spec == 1) )//|| (pmlmeinfo->HT_enable == 0))
++	{
++		precvpriv->bIsAnyNonBEPkts = _FALSE;
++		return;
++	}
++
++	if(pDM_Odm->pWirelessMode!=NULL)
++		WirelessMode=*(pDM_Odm->pWirelessMode);
++
++	IOTPeer = pmlmeinfo->assoc_AP_vendor;
++
++	if (IOTPeer >=  HT_IOT_PEER_MAX)
++	{
++		precvpriv->bIsAnyNonBEPkts = _FALSE;
++		return;
++	}
++
++	if (pDM_Odm->SupportICType & ODM_RTL8188E) {
++		if((IOTPeer == HT_IOT_PEER_RALINK)||(IOTPeer == HT_IOT_PEER_ATHEROS))
++			bBiasOnRx = _TRUE;
++	}
++
++	// Check if the status needs to be changed.
++	if((bbtchange) || (!precvpriv->bIsAnyNonBEPkts) )
++	{
++		cur_tx_bytes = pdvobjpriv->traffic_stat.cur_tx_bytes;
++		cur_rx_bytes = pdvobjpriv->traffic_stat.cur_rx_bytes;
++
++		//traffic, TX or RX
++		if(bBiasOnRx)
++		{
++			if (cur_tx_bytes > (cur_rx_bytes << 2))
++			{ // Uplink TP is present.
++				trafficIndex = UP_LINK; 
++			}
++			else
++			{ // Balance TP is present.
++				trafficIndex = DOWN_LINK;
++			}
++		}
++		else
++		{
++			if (cur_rx_bytes > (cur_tx_bytes << 2))
++			{ // Downlink TP is present.
++				trafficIndex = DOWN_LINK;
++			}
++			else
++			{ // Balance TP is present.
++				trafficIndex = UP_LINK;
++			}
++		}
++
++		//if ((pDM_Odm->DM_EDCA_Table.prv_traffic_idx != trafficIndex) || (!pDM_Odm->DM_EDCA_Table.bCurrentTurboEDCA))
++		{
++			if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE) {
++				EDCA_BE_UL = 0x6ea42b;
++				EDCA_BE_DL = 0x6ea42b;
++			}
++
++			//92D txop can't be set to 0x3e for cisco1250
++			if ((IOTPeer == HT_IOT_PEER_CISCO) && (WirelessMode == ODM_WM_N24G))
++			{
++				EDCA_BE_DL = edca_setting_DL[IOTPeer];
++				EDCA_BE_UL = edca_setting_UL[IOTPeer];
++			}
++			//merge from 92s_92c_merge temp brunch v2445    20120215 
++			else if((IOTPeer == HT_IOT_PEER_CISCO) &&((WirelessMode==ODM_WM_G)||(WirelessMode==(ODM_WM_B|ODM_WM_G))||(WirelessMode==ODM_WM_A)||(WirelessMode==ODM_WM_B)))
++			{
++				EDCA_BE_DL = edca_setting_DL_GMode[IOTPeer];
++			}
++			else if((IOTPeer== HT_IOT_PEER_AIRGO )&& ((WirelessMode==ODM_WM_G)||(WirelessMode==ODM_WM_A)))
++			{
++				EDCA_BE_DL = 0xa630;
++			}
++			else if(IOTPeer == HT_IOT_PEER_MARVELL)
++			{
++				EDCA_BE_DL = edca_setting_DL[IOTPeer];
++				EDCA_BE_UL = edca_setting_UL[IOTPeer];
++			}
++			else if(IOTPeer == HT_IOT_PEER_ATHEROS)
++			{
++				// Set DL EDCA for Atheros peer to 0x3ea42b. Suggested by SD3 Wilson for ASUS TP issue. 
++				EDCA_BE_DL = edca_setting_DL[IOTPeer];
++			}
++
++			if((ICType==ODM_RTL8812)||(ICType==ODM_RTL8821)||(ICType==ODM_RTL8192E))           //add 8812AU/8812AE
++			{
++				EDCA_BE_UL = 0x5ea42b;
++				EDCA_BE_DL = 0x5ea42b;
++
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("8812A: EDCA_BE_UL=0x%x EDCA_BE_DL =0x%x",EDCA_BE_UL,EDCA_BE_DL));
++			}
++
++			if (trafficIndex == DOWN_LINK)
++				edca_param = EDCA_BE_DL;
++			else
++				edca_param = EDCA_BE_UL;
++
++			rtw_write32(Adapter, REG_EDCA_BE_PARAM, edca_param);
++
++			pDM_Odm->DM_EDCA_Table.prv_traffic_idx = trafficIndex;
++		}
++		
++		pDM_Odm->DM_EDCA_Table.bCurrentTurboEDCA = _TRUE;
++	}
++	else
++	{
++		//
++		// Turn Off EDCA turbo here.
++		// Restore original EDCA according to the declaration of AP.
++		//
++		 if(pDM_Odm->DM_EDCA_Table.bCurrentTurboEDCA)
++		{
++			rtw_write32(Adapter, REG_EDCA_BE_PARAM, pHalData->AcParam_BE);
++			pDM_Odm->DM_EDCA_Table.bCurrentTurboEDCA = _FALSE;
++		}
++	}
++
++}
++
++
++#elif(DM_ODM_SUPPORT_TYPE==ODM_WIN)
++VOID
++odm_EdcaTurboCheckMP(
++	IN 	PVOID	 	pDM_VOID
++	)
++{
++
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		       Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++
++	PADAPTER 			pDefaultAdapter = GetDefaultAdapter(Adapter);
++	PADAPTER 			pExtAdapter = GetFirstExtAdapter(Adapter);//NULL;
++	PMGNT_INFO			pMgntInfo = &Adapter->MgntInfo;
++	PSTA_QOS			pStaQos = Adapter->MgntInfo.pStaQos;
++	//[Win7 Count Tx/Rx statistic for Extension Port] odm_CheckEdcaTurbo's Adapter is always Default. 2009.08.20, by Bohn
++	u8Byte				Ext_curTxOkCnt = 0;
++	u8Byte				Ext_curRxOkCnt = 0;	
++	//For future Win7  Enable Default Port to modify AMPDU size dynamically, 2009.08.20, Bohn.	
++	u1Byte TwoPortStatus = (u1Byte)TWO_PORT_STATUS__WITHOUT_ANY_ASSOCIATE;
++
++	// Keep past Tx/Rx packet count for RT-to-RT EDCA turbo.
++	u8Byte				curTxOkCnt = 0;
++	u8Byte				curRxOkCnt = 0;	
++	u4Byte				EDCA_BE_UL = 0x5ea42b;//Parameter suggested by Scott  //edca_setting_UL[pMgntInfo->IOTPeer];
++	u4Byte				EDCA_BE_DL = 0x5ea42b;//Parameter suggested by Scott  //edca_setting_DL[pMgntInfo->IOTPeer];
++	u4Byte                         EDCA_BE = 0x5ea42b;
++	u1Byte                         IOTPeer=0;
++	BOOLEAN                      *pbIsCurRDLState=NULL;
++	BOOLEAN                      bLastIsCurRDLState=FALSE;
++	BOOLEAN				 bBiasOnRx=FALSE;
++	BOOLEAN				bEdcaTurboOn=FALSE;
++	u1Byte				TxRate = 0xFF;
++	u8Byte				value64;	
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("odm_EdcaTurboCheckMP========================>"));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Orginial BE PARAM: 0x%x\n",ODM_Read4Byte(pDM_Odm,ODM_EDCA_BE_PARAM)));
++
++////===============================
++////list paramter for different platform
++////===============================
++	bLastIsCurRDLState=pDM_Odm->DM_EDCA_Table.bIsCurRDLState;
++	pbIsCurRDLState=&(pDM_Odm->DM_EDCA_Table.bIsCurRDLState);	
++
++	//2012/09/14 MH Add 
++	if (pMgntInfo->NumNonBePkt > pMgntInfo->RegEdcaThresh && !(Adapter->MgntInfo.bWiFiConfg & RT_WIFI_LOGO))
++		pHalData->bIsAnyNonBEPkts = TRUE;
++
++	pMgntInfo->NumNonBePkt = 0;
++
++       // Caculate TX/RX TP:
++	curTxOkCnt = pDM_Odm->curTxOkCnt;
++	curRxOkCnt = pDM_Odm->curRxOkCnt;
++
++
++	if(pExtAdapter == NULL) 
++		pExtAdapter = pDefaultAdapter;
++
++	Ext_curTxOkCnt = pExtAdapter->TxStats.NumTxBytesUnicast - pMgntInfo->Ext_lastTxOkCnt;
++	Ext_curRxOkCnt = pExtAdapter->RxStats.NumRxBytesUnicast - pMgntInfo->Ext_lastRxOkCnt;
++	GetTwoPortSharedResource(Adapter,TWO_PORT_SHARED_OBJECT__STATUS,NULL,&TwoPortStatus);
++	//For future Win7  Enable Default Port to modify AMPDU size dynamically, 2009.08.20, Bohn.
++	if(TwoPortStatus == TWO_PORT_STATUS__EXTENSION_ONLY)
++	{
++		curTxOkCnt = Ext_curTxOkCnt ;
++		curRxOkCnt = Ext_curRxOkCnt ;
++	}
++	//
++	IOTPeer=pMgntInfo->IOTPeer;
++	bBiasOnRx=(pMgntInfo->IOTAction & HT_IOT_ACT_EDCA_BIAS_ON_RX)?TRUE:FALSE;
++	bEdcaTurboOn=((!pHalData->bIsAnyNonBEPkts))?TRUE:FALSE;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("bIsAnyNonBEPkts : 0x%lx  \n",pHalData->bIsAnyNonBEPkts));
++
++
++////===============================
++////check if edca turbo is disabled
++////===============================
++	if(odm_IsEdcaTurboDisable(pDM_Odm))
++	{
++		pHalData->bIsAnyNonBEPkts = FALSE;
++		pMgntInfo->lastTxOkCnt = Adapter->TxStats.NumTxBytesUnicast;
++		pMgntInfo->lastRxOkCnt = Adapter->RxStats.NumRxBytesUnicast;
++		pMgntInfo->Ext_lastTxOkCnt = pExtAdapter->TxStats.NumTxBytesUnicast;
++		pMgntInfo->Ext_lastRxOkCnt = pExtAdapter->RxStats.NumRxBytesUnicast;
++
++	}
++
++////===============================
++////remove iot case out
++////===============================
++	ODM_EdcaParaSelByIot(pDM_Odm, &EDCA_BE_UL, &EDCA_BE_DL);
++
++
++////===============================
++////Check if the status needs to be changed.
++////===============================
++	if(bEdcaTurboOn)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("bEdcaTurboOn : 0x%x bBiasOnRx : 0x%x\n",bEdcaTurboOn,bBiasOnRx));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("curTxOkCnt : 0x%lx \n",curTxOkCnt));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("curRxOkCnt : 0x%lx \n",curRxOkCnt));
++		if(bBiasOnRx)
++			odm_EdcaChooseTrafficIdx(pDM_Odm,curTxOkCnt, curRxOkCnt,   TRUE,  pbIsCurRDLState);
++		else
++			odm_EdcaChooseTrafficIdx(pDM_Odm,curTxOkCnt, curRxOkCnt,   FALSE,  pbIsCurRDLState);
++
++//modify by Guo.Mingzhi 2011-12-29
++			EDCA_BE=((*pbIsCurRDLState)==TRUE)?EDCA_BE_DL:EDCA_BE_UL;
++			if(IS_HARDWARE_TYPE_8821U(Adapter))
++			{
++				if(pMgntInfo->RegTxDutyEnable)
++				{
++					//2013.01.23 LukeLee: debug for 8811AU thermal issue (reduce Tx duty cycle)
++					if(!pMgntInfo->ForcedDataRate) //auto rate
++					{
++						if(pDM_Odm->TxRate != 0xFF)
++							TxRate = Adapter->HalFunc.GetHwRateFromMRateHandler(pDM_Odm->TxRate); 
++					}
++					else //force rate
++					{
++						TxRate = (u1Byte) pMgntInfo->ForcedDataRate;
++					}
++
++					value64 = (curRxOkCnt<<2);
++					if(curTxOkCnt < value64) //Downlink
++						ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,EDCA_BE);
++					else //Uplink
++					{
++						/*DbgPrint("pRFCalibrateInfo->ThermalValue = 0x%X\n", pRFCalibrateInfo->ThermalValue);*/
++						/*if(pRFCalibrateInfo->ThermalValue < pHalData->EEPROMThermalMeter)*/
++						if((pDM_Odm->RFCalibrateInfo.ThermalValue < 0x2c) || (*pDM_Odm->pBandType == BAND_ON_2_4G))
++							ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,EDCA_BE);
++						else
++						{
++							switch (TxRate)
++							{
++								case MGN_VHT1SS_MCS6:
++								case MGN_VHT1SS_MCS5:
++								case MGN_MCS6:
++								case MGN_MCS5:
++								case MGN_48M:
++								case MGN_54M:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0x1ea42b);
++								break;
++								case MGN_VHT1SS_MCS4:
++								case MGN_MCS4:
++								case MGN_36M:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa42b);
++								break;
++								case MGN_VHT1SS_MCS3:
++								case MGN_MCS3:
++								case MGN_24M:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa47f);
++								break;
++								case MGN_VHT1SS_MCS2:
++								case MGN_MCS2:
++								case MGN_18M:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa57f);
++								break;
++								case MGN_VHT1SS_MCS1:
++								case MGN_MCS1:
++								case MGN_9M:
++								case MGN_12M:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa77f);
++								break;
++								case MGN_VHT1SS_MCS0:
++								case MGN_MCS0:
++								case MGN_6M:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa87f);
++								break;
++								default:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,EDCA_BE);
++								break;
++							}
++						}
++					}				
++				}
++				else
++				{
++					ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,EDCA_BE);
++				}
++
++			}
++			else if (IS_HARDWARE_TYPE_8812AU(Adapter)){
++				if(pMgntInfo->RegTxDutyEnable)
++				{
++					//2013.07.26 Wilson: debug for 8812AU thermal issue (reduce Tx duty cycle)
++					// it;s the same issue as 8811AU
++					if(!pMgntInfo->ForcedDataRate) //auto rate
++					{
++						if(pDM_Odm->TxRate != 0xFF)
++							TxRate = Adapter->HalFunc.GetHwRateFromMRateHandler(pDM_Odm->TxRate); 
++					}
++					else //force rate
++					{
++						TxRate = (u1Byte) pMgntInfo->ForcedDataRate;
++					}
++
++					value64 = (curRxOkCnt<<2);
++					if(curTxOkCnt < value64) //Downlink
++						ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,EDCA_BE);
++					else //Uplink
++					{
++						/*DbgPrint("pRFCalibrateInfo->ThermalValue = 0x%X\n", pRFCalibrateInfo->ThermalValue);*/
++						/*if(pRFCalibrateInfo->ThermalValue < pHalData->EEPROMThermalMeter)*/
++						if((pDM_Odm->RFCalibrateInfo.ThermalValue < 0x2c) || (*pDM_Odm->pBandType == BAND_ON_2_4G))
++							ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,EDCA_BE);
++						else
++						{
++							switch (TxRate)
++							{
++								case MGN_VHT2SS_MCS9:
++								case MGN_VHT1SS_MCS9:									
++								case MGN_VHT1SS_MCS8:
++								case MGN_MCS15:
++								case MGN_MCS7:									
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0x1ea44f);							
++								case MGN_VHT2SS_MCS8:
++								case MGN_VHT1SS_MCS7:
++								case MGN_MCS14:
++								case MGN_MCS6:
++								case MGN_54M:									
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa44f);
++								case MGN_VHT2SS_MCS7:
++								case MGN_VHT2SS_MCS6:
++								case MGN_VHT1SS_MCS6:
++								case MGN_VHT1SS_MCS5:
++								case MGN_MCS13:
++								case MGN_MCS5:
++								case MGN_48M:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa630);
++								break;
++								case MGN_VHT2SS_MCS5:
++								case MGN_VHT2SS_MCS4:
++								case MGN_VHT1SS_MCS4:
++								case MGN_VHT1SS_MCS3:	
++								case MGN_MCS12:
++								case MGN_MCS4:	
++								case MGN_MCS3:	
++								case MGN_36M:
++								case MGN_24M:	
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa730);
++								break;
++								case MGN_VHT2SS_MCS3:
++								case MGN_VHT2SS_MCS2:
++								case MGN_VHT2SS_MCS1:
++								case MGN_VHT1SS_MCS2:
++								case MGN_VHT1SS_MCS1:	
++								case MGN_MCS11:	
++								case MGN_MCS10:	
++								case MGN_MCS9:		
++								case MGN_MCS2:	
++								case MGN_MCS1:
++								case MGN_18M:	
++								case MGN_12M:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa830);
++								break;
++								case MGN_VHT2SS_MCS0:
++								case MGN_VHT1SS_MCS0:
++								case MGN_MCS0:	
++								case MGN_MCS8:
++								case MGN_9M:	
++								case MGN_6M:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,0xa87f);
++								break;
++								default:
++									ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,EDCA_BE);
++								break;
++							}
++						}
++					}				
++				}
++				else
++				{
++					ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,EDCA_BE);
++				}
++			}
++			else
++				ODM_Write4Byte(pDM_Odm,ODM_EDCA_BE_PARAM,EDCA_BE);
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("EDCA Turbo on: EDCA_BE:0x%lx\n",EDCA_BE));
++
++		pDM_Odm->DM_EDCA_Table.bCurrentTurboEDCA = TRUE;
++		
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("EDCA_BE_DL : 0x%lx  EDCA_BE_UL : 0x%lx  EDCA_BE : 0x%lx  \n",EDCA_BE_DL,EDCA_BE_UL,EDCA_BE));
++
++	}
++	else
++	{
++		// Turn Off EDCA turbo here.
++		// Restore original EDCA according to the declaration of AP.
++		 if(pDM_Odm->DM_EDCA_Table.bCurrentTurboEDCA)
++		{
++			Adapter->HalFunc.SetHwRegHandler(Adapter, HW_VAR_AC_PARAM, GET_WMM_PARAM_ELE_SINGLE_AC_PARAM(pStaQos->WMMParamEle, AC0_BE) );
++
++			pDM_Odm->DM_EDCA_Table.bCurrentTurboEDCA = FALSE;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Restore EDCA BE: 0x%lx  \n",pDM_Odm->WMMEDCA_BE));
++
++		}
++	}
++
++}
++
++
++//check if edca turbo is disabled
++BOOLEAN
++odm_IsEdcaTurboDisable(
++	IN 	PVOID	 	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		       Adapter = pDM_Odm->Adapter;
++	PMGNT_INFO			pMgntInfo = &Adapter->MgntInfo;
++	u4Byte				IOTPeer=pMgntInfo->IOTPeer;
++
++	if(pDM_Odm->bBtDisableEdcaTurbo)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD, ("EdcaTurboDisable for BT!!\n"));
++		return TRUE;
++	}
++
++	if((!(pDM_Odm->SupportAbility& ODM_MAC_EDCA_TURBO ))||
++		(pDM_Odm->WIFITest & RT_WIFI_LOGO)||
++		(IOTPeer>= HT_IOT_PEER_MAX))
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD, ("EdcaTurboDisable\n"));
++		return TRUE;
++	}
++
++
++	// 1. We do not turn on EDCA turbo mode for some AP that has IOT issue
++	// 2. User may disable EDCA Turbo mode with OID settings.
++	if(pMgntInfo->IOTAction & HT_IOT_ACT_DISABLE_EDCA_TURBO){
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD, ("IOTAction:EdcaTurboDisable\n"));
++		return	TRUE;
++		}
++		
++	return	FALSE;
++	
++
++}
++
++//add iot case here: for MP/CE
++VOID 
++ODM_EdcaParaSelByIot(
++	IN 	PVOID	 	pDM_VOID,
++	OUT	u4Byte		*EDCA_BE_UL,
++	OUT u4Byte		*EDCA_BE_DL
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		       Adapter = pDM_Odm->Adapter;
++	u4Byte                         IOTPeer=0;
++	u4Byte                         ICType=pDM_Odm->SupportICType;
++	u1Byte                         WirelessMode=0xFF;                   //invalid value
++	u4Byte                         IOTPeerSubType = 0;
++
++	PMGNT_INFO			pMgntInfo = &Adapter->MgntInfo;
++	u1Byte 				TwoPortStatus = (u1Byte)TWO_PORT_STATUS__WITHOUT_ANY_ASSOCIATE;
++
++	if(pDM_Odm->pWirelessMode!=NULL)
++		WirelessMode=*(pDM_Odm->pWirelessMode);
++		
++///////////////////////////////////////////////////////////
++////list paramter for different platform
++
++	IOTPeer=pMgntInfo->IOTPeer;
++	IOTPeerSubType=pMgntInfo->IOTPeerSubtype;
++	GetTwoPortSharedResource(Adapter,TWO_PORT_SHARED_OBJECT__STATUS,NULL,&TwoPortStatus);
++
++////============================
++/// IOT case for MP
++////============================	
++	if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE) {
++			(*EDCA_BE_UL) = 0x6ea42b;
++			(*EDCA_BE_DL) = 0x6ea42b;
++	}
++ 
++	if(TwoPortStatus == TWO_PORT_STATUS__EXTENSION_ONLY)
++	{
++		(*EDCA_BE_UL) = 0x5ea42b;//Parameter suggested by Scott  //edca_setting_UL[ExtAdapter->MgntInfo.IOTPeer];
++		(*EDCA_BE_DL) = 0x5ea42b;//Parameter suggested by Scott  //edca_setting_DL[ExtAdapter->MgntInfo.IOTPeer];
++	}
++     
++	#if (INTEL_PROXIMITY_SUPPORT == 1)
++	if(pMgntInfo->IntelClassModeInfo.bEnableCA == TRUE)
++	{
++		(*EDCA_BE_UL) = (*EDCA_BE_DL) = 0xa44f;
++	}
++	else
++	#endif		
++	{
++		if((pMgntInfo->IOTAction & (HT_IOT_ACT_FORCED_ENABLE_BE_TXOP|HT_IOT_ACT_AMSDU_ENABLE)))
++		{// To check whether we shall force turn on TXOP configuration.
++			if(!((*EDCA_BE_UL) & 0xffff0000))
++				(*EDCA_BE_UL) |= 0x005e0000; // Force TxOP limit to 0x005e for UL.
++			if(!((*EDCA_BE_DL) & 0xffff0000))
++				(*EDCA_BE_DL) |= 0x005e0000; // Force TxOP limit to 0x005e for DL.
++		}
++		
++		//92D txop can't be set to 0x3e for cisco1250
++		if ((IOTPeer == HT_IOT_PEER_CISCO) && (WirelessMode == ODM_WM_N24G))
++		{
++			(*EDCA_BE_DL) = edca_setting_DL[IOTPeer];
++			(*EDCA_BE_UL) = edca_setting_UL[IOTPeer];
++		}
++		//merge from 92s_92c_merge temp brunch v2445    20120215 
++		else if((IOTPeer == HT_IOT_PEER_CISCO) &&((WirelessMode==ODM_WM_G)||(WirelessMode==(ODM_WM_B|ODM_WM_G))||(WirelessMode==ODM_WM_A)||(WirelessMode==ODM_WM_B)))
++		{
++			(*EDCA_BE_DL) = edca_setting_DL_GMode[IOTPeer];
++		}
++		else if((IOTPeer== HT_IOT_PEER_AIRGO )&& ((WirelessMode==ODM_WM_G)||(WirelessMode==ODM_WM_A)))
++		{
++			(*EDCA_BE_DL) = 0xa630;
++		}
++
++		else if(IOTPeer == HT_IOT_PEER_MARVELL)
++		{
++			(*EDCA_BE_DL) = edca_setting_DL[IOTPeer];
++			(*EDCA_BE_UL) = edca_setting_UL[IOTPeer];
++		}
++		else if(IOTPeer == HT_IOT_PEER_ATHEROS && IOTPeerSubType != HT_IOT_PEER_TPLINK_AC1750)
++		{
++			// Set DL EDCA for Atheros peer to 0x3ea42b. Suggested by SD3 Wilson for ASUS TP issue. 
++			if(WirelessMode==ODM_WM_G)
++				(*EDCA_BE_DL) = edca_setting_DL_GMode[IOTPeer];
++			else
++				(*EDCA_BE_DL) = edca_setting_DL[IOTPeer];
++
++			if(ICType == ODM_RTL8821)
++				 (*EDCA_BE_DL) = 0x5ea630;
++			
++		}
++	}
++
++	if((ICType==ODM_RTL8812)||(ICType==ODM_RTL8192E))           //add 8812AU/8812AE
++	{
++		(*EDCA_BE_UL) = 0x5ea42b;
++		(*EDCA_BE_DL) = 0x5ea42b;
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("8812A: EDCA_BE_UL=0x%lx EDCA_BE_DL =0x%lx\n",(*EDCA_BE_UL),(*EDCA_BE_DL)));
++	}
++
++	if((ICType==ODM_RTL8814A) && (IOTPeer == HT_IOT_PEER_REALTEK))           /*8814AU and 8814AR*/
++	{
++		(*EDCA_BE_UL) = 0x5ea42b;
++		(*EDCA_BE_DL) = 0xa42b;
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("8814A: EDCA_BE_UL=0x%lx EDCA_BE_DL =0x%lx\n",(*EDCA_BE_UL),(*EDCA_BE_DL)));
++	}
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Special: EDCA_BE_UL=0x%lx EDCA_BE_DL =0x%lx, IOTPeer = %d\n",(*EDCA_BE_UL),(*EDCA_BE_DL), IOTPeer));
++
++}
++
++
++VOID
++odm_EdcaChooseTrafficIdx( 
++	IN 	PVOID	 	pDM_VOID,
++	IN	u8Byte  			cur_tx_bytes,  
++	IN	u8Byte  			cur_rx_bytes, 
++	IN	BOOLEAN 		bBiasOnRx,
++	OUT BOOLEAN 		*pbIsCurRDLState
++	)
++{	
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	if(bBiasOnRx)
++	{
++	  
++		if(cur_tx_bytes>(cur_rx_bytes*4))
++		{
++			*pbIsCurRDLState=FALSE;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Uplink Traffic\n "));
++
++		}
++		else
++		{
++			*pbIsCurRDLState=TRUE;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Balance Traffic\n"));
++
++		}
++	}
++	else
++	{
++		if(cur_rx_bytes>(cur_tx_bytes*4))
++		{
++			*pbIsCurRDLState=TRUE;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Downlink	Traffic\n"));
++
++		}
++		else
++		{
++			*pbIsCurRDLState=FALSE;
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_EDCA_TURBO,ODM_DBG_LOUD,("Balance Traffic\n"));
++		}
++	}
++
++	return ;
++}
++
++#endif
++
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_edcaturbocheck.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_edcaturbocheck.h
+new file mode 100644
+index 0000000..2671f86
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_edcaturbocheck.h
+@@ -0,0 +1,100 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMEDCATURBOCHECK_H__
++#define    __PHYDMEDCATURBOCHECK_H__
++
++/*#define EDCATURBO_VERSION	"2.1"*/
++#define EDCATURBO_VERSION	"2.3"	/*2015.07.29 by YuChen*/
++
++typedef struct _EDCA_TURBO_
++{
++	BOOLEAN bCurrentTurboEDCA;
++	BOOLEAN bIsCurRDLState;
++
++	#if(DM_ODM_SUPPORT_TYPE == ODM_CE	)
++	u4Byte	prv_traffic_idx; // edca turbo
++	#endif
++
++}EDCA_T,*pEDCA_T;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++static u4Byte edca_setting_UL[HT_IOT_PEER_MAX] = 
++// UNKNOWN		REALTEK_90	REALTEK_92SE	BROADCOM		RALINK		ATHEROS		CISCO		MERU        MARVELL	92U_AP		SELF_AP(DownLink/Tx)
++{ 0x5e4322, 		0xa44f, 		0x5e4322,		0x5ea32b,  		0x5ea422, 	0x5ea322,	0x3ea430,	0x5ea42b, 0x5ea44f,	0x5e4322,	0x5e4322};
++
++
++static u4Byte edca_setting_DL[HT_IOT_PEER_MAX] = 
++// UNKNOWN		REALTEK_90	REALTEK_92SE	BROADCOM		RALINK		ATHEROS		CISCO		MERU,       MARVELL	92U_AP		SELF_AP(UpLink/Rx)
++{ 0xa44f, 		0x5ea44f, 	0x5e4322, 		0x5ea42b, 		0xa44f, 		0xa630, 		0x5ea630,	0x5ea42b, 0xa44f,		0xa42b,		0xa42b};
++
++static u4Byte edca_setting_DL_GMode[HT_IOT_PEER_MAX] = 
++// UNKNOWN		REALTEK_90	REALTEK_92SE	BROADCOM		RALINK		ATHEROS		CISCO		MERU,       MARVELL	92U_AP		SELF_AP
++{ 0x4322, 		0xa44f, 		0x5e4322,		0xa42b, 			0x5e4322, 	0x4322, 		0xa42b,		0x5ea42b, 0xa44f,		0x5e4322,	0x5ea42b};
++
++#endif
++
++
++
++VOID
++odm_EdcaTurboCheck(
++	IN 	PVOID	 	pDM_VOID
++	);
++VOID
++ODM_EdcaTurboInit(
++	IN 	PVOID	 	pDM_VOID
++);
++
++#if(DM_ODM_SUPPORT_TYPE==ODM_WIN)
++VOID
++odm_EdcaTurboCheckMP(
++	IN 	PVOID	 	pDM_VOID
++	);
++
++//check if edca turbo is disabled
++BOOLEAN
++odm_IsEdcaTurboDisable(
++	IN 	PVOID	 	pDM_VOID
++);
++//choose edca paramter for special IOT case
++VOID 
++ODM_EdcaParaSelByIot(
++	IN		PVOID					pDM_VOID,
++	OUT	u4Byte		*EDCA_BE_UL,
++	OUT u4Byte		*EDCA_BE_DL
++	);
++//check if it is UL or DL
++VOID
++odm_EdcaChooseTrafficIdx( 
++	IN 	PVOID	 	pDM_VOID,
++	IN	u8Byte  			cur_tx_bytes,  
++	IN	u8Byte  			cur_rx_bytes, 
++	IN	BOOLEAN 		bBiasOnRx,
++	OUT BOOLEAN 		*pbIsCurRDLState
++	);
++
++#elif (DM_ODM_SUPPORT_TYPE==ODM_CE)
++VOID
++odm_EdcaTurboCheckCE(
++	IN 	PVOID	 	pDM_VOID
++	);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_features.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_features.h
+new file mode 100644
+index 0000000..3e3ec9c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_features.h
+@@ -0,0 +1,133 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef	__PHYDM_FEATURES_H__
++#define __PHYDM_FEATURES
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	/*Antenna Diversity*/
++	#define CONFIG_PHYDM_ANTENNA_DIVERSITY
++	#ifdef CONFIG_PHYDM_ANTENNA_DIVERSITY
++	
++		#if (RTL8723B_SUPPORT == 1) || (RTL8821A_SUPPORT == 1) || (RTL8188F_SUPPORT == 1)
++		#define	CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++		#endif
++		
++		#if (RTL8821A_SUPPORT == 1)
++		/*#define CONFIG_HL_SMART_ANTENNA_TYPE1*/
++		#define CONFIG_FAT_PATCH
++		#endif
++	#endif
++	
++	#define RA_MASK_PHYDMLIZE_WIN	1
++	/*#define CONFIG_PATH_DIVERSITY*/
++	/*#define CONFIG_RA_DYNAMIC_RTY_LIMIT*/
++	#define CONFIG_ANT_DETECTION
++	/*#define CONFIG_RA_DBG_CMD*/
++	#define	CONFIG_RA_FW_DBG_CODE	1
++	/*#define CONFIG_PHYDM_RX_SNIFFER_PARSING*/
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++	#define RA_MASK_PHYDMLIZE_AP	1
++
++	/* #define CONFIG_RA_DBG_CMD*/
++	#define	CONFIG_RA_FW_DBG_CODE	0
++	
++	/*#define CONFIG_PATH_DIVERSITY*/
++	/*#define CONFIG_RA_DYNAMIC_RTY_LIMIT*/
++	#define CONFIG_RA_DYNAMIC_RATE_ID
++	
++	/* [ Configure Antenna Diversity ] */
++	#if defined(CONFIG_RTL_8881A_ANT_SWITCH) || defined(CONFIG_SLOT_0_ANT_SWITCH) || defined(CONFIG_SLOT_1_ANT_SWITCH)
++		#define CONFIG_PHYDM_ANTENNA_DIVERSITY 
++		#define ODM_EVM_ENHANCE_ANTDIV
++
++		/*----------*/
++		
++		#if (!defined(CONFIG_NO_2G_DIVERSITY) && !defined(CONFIG_2G5G_CG_TRX_DIVERSITY_8881A) && !defined(CONFIG_2G_CGCS_RX_DIVERSITY) && !defined(CONFIG_2G_CG_TRX_DIVERSITY) && !defined(CONFIG_2G_CG_SMART_ANT_DIVERSITY))
++			#define CONFIG_NO_2G_DIVERSITY
++		#endif
++
++		#ifdef CONFIG_NO_5G_DIVERSITY_8881A
++			#define CONFIG_NO_5G_DIVERSITY
++		#elif defined(CONFIG_5G_CGCS_RX_DIVERSITY_8881A)
++			#define CONFIG_5G_CGCS_RX_DIVERSITY
++		#elif defined(CONFIG_5G_CG_TRX_DIVERSITY_8881A)
++			#define CONFIG_5G_CG_TRX_DIVERSITY
++		#elif defined(CONFIG_2G5G_CG_TRX_DIVERSITY_8881A)
++			#define CONFIG_2G5G_CG_TRX_DIVERSITY
++		#endif
++		#if (!defined(CONFIG_NO_5G_DIVERSITY) && !defined(CONFIG_5G_CGCS_RX_DIVERSITY) && !defined(CONFIG_5G_CG_TRX_DIVERSITY) && !defined(CONFIG_2G5G_CG_TRX_DIVERSITY) && !defined(CONFIG_5G_CG_SMART_ANT_DIVERSITY))
++			#define CONFIG_NO_5G_DIVERSITY
++		#endif	
++		 /*----------*/
++		#if (defined(CONFIG_NO_2G_DIVERSITY) && defined(CONFIG_NO_5G_DIVERSITY))
++			#define CONFIG_NOT_SUPPORT_ANTDIV 
++		#elif (!defined(CONFIG_NO_2G_DIVERSITY) && defined(CONFIG_NO_5G_DIVERSITY))
++			#define CONFIG_2G_SUPPORT_ANTDIV
++		#elif (defined(CONFIG_NO_2G_DIVERSITY) && !defined(CONFIG_NO_5G_DIVERSITY))
++			#define CONFIG_5G_SUPPORT_ANTDIV
++		#elif ((!defined(CONFIG_NO_2G_DIVERSITY) && !defined(CONFIG_NO_5G_DIVERSITY)) || defined(CONFIG_2G5G_CG_TRX_DIVERSITY))
++			#define CONFIG_2G5G_SUPPORT_ANTDIV 
++		#endif
++		 /*----------*/
++	#endif
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++	#define RA_MASK_PHYDMLIZE_CE	1
++
++	/*Antenna Diversity*/
++	#ifdef CONFIG_ANTENNA_DIVERSITY
++		#define CONFIG_PHYDM_ANTENNA_DIVERSITY
++		
++		#ifdef CONFIG_PHYDM_ANTENNA_DIVERSITY
++		
++			#if (RTL8723B_SUPPORT == 1) || (RTL8821A_SUPPORT == 1) || (RTL8188F_SUPPORT == 1)
++			#define	CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++			#endif
++			
++			#if (RTL8821A_SUPPORT == 1)
++			/*#define CONFIG_HL_SMART_ANTENNA_TYPE1*/
++			#endif
++		#endif
++	#endif
++	
++	#ifdef CONFIG_DFS_MASTER
++		#define CONFIG_PHYDM_DFS_MASTER
++	#endif
++
++	/*#define CONFIG_RA_DBG_CMD*/
++	#define	CONFIG_RA_FW_DBG_CODE	0
++	/*#define CONFIG_ANT_DETECTION*/
++	/*#define CONFIG_PATH_DIVERSITY*/
++	/*#define CONFIG_RA_DYNAMIC_RTY_LIMIT*/
++
++	#ifdef CONFIG_BT_COEXIST
++		#define BT_SUPPORT      1
++	#endif
++
++
++#endif
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_hwconfig.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_hwconfig.c
+new file mode 100644
+index 0000000..201b8ae
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_hwconfig.c
+@@ -0,0 +1,3540 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#define READ_AND_CONFIG_MP(ic, txt) (ODM_ReadAndConfig_MP_##ic##txt(pDM_Odm))
++#define READ_AND_CONFIG_TC(ic, txt) (ODM_ReadAndConfig_TC_##ic##txt(pDM_Odm))
++
++
++#if (PHYDM_TESTCHIP_SUPPORT == 1)
++#define READ_AND_CONFIG(ic, txt) do {\
++                                            if (pDM_Odm->bIsMPChip)\
++                                    		    READ_AND_CONFIG_MP(ic,txt);\
++                                            else\
++                                                READ_AND_CONFIG_TC(ic,txt);\
++                                    } while(0)
++#else
++  #define READ_AND_CONFIG     READ_AND_CONFIG_MP
++#endif
++
++
++#define READ_FIRMWARE_MP(ic, txt) 		(ODM_ReadFirmware_MP_##ic##txt(pDM_Odm, pFirmware, pSize))
++#define READ_FIRMWARE_TC(ic, txt) 		(ODM_ReadFirmware_TC_##ic##txt(pDM_Odm, pFirmware, pSize))		
++
++#if (PHYDM_TESTCHIP_SUPPORT == 1)
++#define READ_FIRMWARE(ic, txt) do {\
++						if (pDM_Odm->bIsMPChip)\
++							READ_FIRMWARE_MP(ic,txt);\
++						else\
++							READ_FIRMWARE_TC(ic,txt);\
++					} while(0) 
++#else
++#define READ_FIRMWARE     READ_FIRMWARE_MP
++#endif
++						
++#define GET_VERSION_MP(ic, txt) 		(ODM_GetVersion_MP_##ic##txt())
++#define GET_VERSION_TC(ic, txt) 		(ODM_GetVersion_TC_##ic##txt())
++#define GET_VERSION(ic, txt) (pDM_Odm->bIsMPChip?GET_VERSION_MP(ic,txt):GET_VERSION_TC(ic,txt))
++
++u1Byte
++odm_QueryRxPwrPercentage(
++	IN		s1Byte		AntPower
++	)
++{
++	if ((AntPower <= -100) || (AntPower >= 20))
++		return	0;
++	else if (AntPower >= 0)
++		return	100;
++	else
++		return	(100 + AntPower);
++}
++
++
++//
++// 2012/01/12 MH MOve some signal strength smooth method to MP HAL layer.
++// IF other SW team do not support the feature, remove this section.??
++//
++s4Byte
++odm_SignalScaleMapping_92CSeries_patch_RT_CID_819x_Lenovo(	
++	IN OUT PDM_ODM_T pDM_Odm,
++	s4Byte CurrSig 
++)
++{	
++	s4Byte RetSig = 0;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	//if(pDM_Odm->SupportInterface  == ODM_ITRF_PCIE) 
++	{
++		// Step 1. Scale mapping.
++		// 20100611 Joseph: Re-tunning RSSI presentation for Lenovo.
++		// 20100426 Joseph: Modify Signal strength mapping.
++		// This modification makes the RSSI indication similar to Intel solution.
++		// 20100414 Joseph: Tunning RSSI for Lenovo according to RTL8191SE.
++		if (CurrSig >= 54 && CurrSig <= 100)
++			RetSig = 100;
++		else if (CurrSig >= 42 && CurrSig <= 53)
++			RetSig = 95;
++		else if (CurrSig >= 36 && CurrSig <= 41)
++			RetSig = 74 + ((CurrSig - 36) * 20) / 6;
++		else if (CurrSig >= 33 && CurrSig <= 35)
++			RetSig = 65 + ((CurrSig - 33) * 8) / 2;
++		else if (CurrSig >= 18 && CurrSig <= 32)
++			RetSig = 62 + ((CurrSig - 18) * 2) / 15;
++		else if (CurrSig >= 15 && CurrSig <= 17)
++			RetSig = 33 + ((CurrSig - 15) * 28) / 2;
++		else if (CurrSig >= 10 && CurrSig <= 14)
++			RetSig = 39;
++		else if (CurrSig >= 8 && CurrSig <= 9)
++			RetSig = 33;
++		else if (CurrSig <= 8)
++			RetSig = 19;
++	}
++#endif //ENDIF (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	return RetSig;
++}
++
++s4Byte
++odm_SignalScaleMapping_92CSeries_patch_RT_CID_819x_Netcore(	
++	IN OUT PDM_ODM_T pDM_Odm,
++	s4Byte CurrSig 
++)
++{
++	s4Byte RetSig = 0;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	//if(pDM_Odm->SupportInterface  == ODM_ITRF_USB)
++	{
++		// Netcore request this modification because 2009.04.13 SU driver use it. 
++		if (CurrSig >= 31 && CurrSig <= 100)
++			RetSig = 100;
++		else if (CurrSig >= 21 && CurrSig <= 30)
++			RetSig = 90 + ((CurrSig - 20) / 1);
++		else if (CurrSig >= 11 && CurrSig <= 20)
++			RetSig = 80 + ((CurrSig - 10) / 1);
++		else if (CurrSig >= 7 && CurrSig <= 10)
++			RetSig = 69 + (CurrSig - 7);
++		else if (CurrSig == 6)
++			RetSig = 54;
++		else if (CurrSig == 5)
++			RetSig = 45;
++		else if (CurrSig == 4)
++			RetSig = 36;
++		else if (CurrSig == 3)
++			RetSig = 27;
++		else if (CurrSig == 2)
++			RetSig = 18;
++		else if (CurrSig == 1)
++			RetSig = 9;
++		else
++			RetSig = CurrSig;
++	}
++#endif //ENDIF (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	return RetSig;
++}
++
++
++s4Byte
++odm_SignalScaleMapping_92CSeries(	
++	IN OUT PDM_ODM_T pDM_Odm,
++	IN s4Byte CurrSig 
++)
++{
++	s4Byte RetSig = 0; 
++#if (DEV_BUS_TYPE == RT_PCI_INTERFACE) 
++	if (pDM_Odm->SupportInterface  == ODM_ITRF_PCIE) 
++	{
++		// Step 1. Scale mapping.
++		if(CurrSig >= 61 && CurrSig <= 100)
++		{
++			RetSig = 90 + ((CurrSig - 60) / 4);
++		}
++		else if(CurrSig >= 41 && CurrSig <= 60)
++		{
++			RetSig = 78 + ((CurrSig - 40) / 2);
++		}
++		else if(CurrSig >= 31 && CurrSig <= 40)
++		{
++			RetSig = 66 + (CurrSig - 30);
++		}
++		else if(CurrSig >= 21 && CurrSig <= 30)
++		{
++			RetSig = 54 + (CurrSig - 20);
++		}
++		else if(CurrSig >= 5 && CurrSig <= 20)
++		{
++			RetSig = 42 + (((CurrSig - 5) * 2) / 3);
++		}
++		else if(CurrSig == 4)
++		{
++			RetSig = 36;
++		}
++		else if(CurrSig == 3)
++		{
++			RetSig = 27;
++		}
++		else if(CurrSig == 2)
++		{
++			RetSig = 18;
++		}
++		else if(CurrSig == 1)
++		{
++			RetSig = 9;
++		}
++		else
++		{
++			RetSig = CurrSig;
++		}
++	}
++#endif
++
++#if ((DEV_BUS_TYPE == RT_USB_INTERFACE) ||(DEV_BUS_TYPE == RT_SDIO_INTERFACE))
++	if((pDM_Odm->SupportInterface  == ODM_ITRF_USB) || (pDM_Odm->SupportInterface  == ODM_ITRF_SDIO))
++	{
++		if(CurrSig >= 51 && CurrSig <= 100)
++		{
++			RetSig = 100;
++		}
++		else if(CurrSig >= 41 && CurrSig <= 50)
++		{
++			RetSig = 80 + ((CurrSig - 40)*2);
++		}
++		else if(CurrSig >= 31 && CurrSig <= 40)
++		{
++			RetSig = 66 + (CurrSig - 30);
++		}
++		else if(CurrSig >= 21 && CurrSig <= 30)
++		{
++			RetSig = 54 + (CurrSig - 20);
++		}
++		else if(CurrSig >= 10 && CurrSig <= 20)
++		{
++			RetSig = 42 + (((CurrSig - 10) * 2) / 3);
++		}
++		else if(CurrSig >= 5 && CurrSig <= 9)
++		{
++			RetSig = 22 + (((CurrSig - 5) * 3) / 2);
++		}
++		else if(CurrSig >= 1 && CurrSig <= 4)
++		{
++			RetSig = 6 + (((CurrSig - 1) * 3) / 2);
++		}
++		else
++		{
++			RetSig = CurrSig;
++		}
++	}
++
++#endif
++	return RetSig;
++}
++s4Byte
++odm_SignalScaleMapping(	
++	IN OUT PDM_ODM_T pDM_Odm,
++	IN	s4Byte CurrSig 
++)
++{	
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	if(	(pDM_Odm->SupportPlatform == ODM_WIN) && 
++		(pDM_Odm->SupportInterface  != ODM_ITRF_PCIE) && //USB & SDIO
++		(pDM_Odm->PatchID==10))//pMgntInfo->CustomerID == RT_CID_819x_Netcore
++	{
++		return odm_SignalScaleMapping_92CSeries_patch_RT_CID_819x_Netcore(pDM_Odm,CurrSig);
++	}
++	else if(	(pDM_Odm->SupportPlatform == ODM_WIN) && 
++			(pDM_Odm->SupportInterface  == ODM_ITRF_PCIE) &&
++			(pDM_Odm->PatchID==19))//pMgntInfo->CustomerID == RT_CID_819x_Lenovo)
++	{
++		return odm_SignalScaleMapping_92CSeries_patch_RT_CID_819x_Lenovo(pDM_Odm, CurrSig);
++	}else
++#endif
++		{
++#ifdef CONFIG_SIGNAL_SCALE_MAPPING		
++		return odm_SignalScaleMapping_92CSeries(pDM_Odm,CurrSig);
++#else
++		return CurrSig;
++#endif
++	}
++	
++}
++
++
++
++static u1Byte odm_SQ_process_patch_RT_CID_819x_Lenovo(
++	IN PDM_ODM_T	pDM_Odm,
++	IN u1Byte 		isCCKrate,
++	IN u1Byte 		PWDB_ALL,
++	IN u1Byte 		path,
++	IN u1Byte 		RSSI
++)
++{
++	u1Byte	SQ = 0;
++#if (DM_ODM_SUPPORT_TYPE &  ODM_WIN)			
++
++	if(isCCKrate){
++		
++		if (IS_HARDWARE_TYPE_8192E(pDM_Odm->Adapter)) {
++
++			//
++			// <Roger_Notes> Expected signal strength and bars indication at Lenovo lab. 2013.04.11
++			// 802.11n, 802.11b, 802.11g only at channel 6
++			//
++			//		Attenuation (dB)	OS Signal Bars	RSSI by Xirrus (dBm)
++			//			50				5			-49
++			//			55				5			-49
++			//			60				5			-50
++			//			65				5			-51
++			//			70				5			-52
++			//			75				5			-54
++			//			80				5			-55
++			//			85				4			-60
++			//			90				3			-63
++			//			95				3			-65
++			//			100				2			-67
++			//			102				2			-67
++			//			104				1			-70
++			//			
++
++			if(PWDB_ALL >= 50)
++				SQ = 100;
++			else if(PWDB_ALL >= 35 && PWDB_ALL < 50)				
++				SQ = 80;
++			else if(PWDB_ALL >= 31 && PWDB_ALL < 35)
++				SQ = 60;
++			else if(PWDB_ALL >= 22 && PWDB_ALL < 31)
++				SQ = 40;
++			else if(PWDB_ALL >= 18 && PWDB_ALL < 22)
++				SQ = 20;
++			else
++				SQ = 10;
++		} else {
++			if (PWDB_ALL >= 50)
++				SQ = 100;
++			else if (PWDB_ALL >= 35 && PWDB_ALL < 50)				
++				SQ = 80;
++			else if (PWDB_ALL >= 22 && PWDB_ALL < 35)
++				SQ = 60;
++			else if (PWDB_ALL >= 18 && PWDB_ALL < 22)
++				SQ = 40;
++			else
++				SQ = 10;
++		}
++		
++	}
++	else
++	{//OFDM rate		
++
++		if (IS_HARDWARE_TYPE_8192E(pDM_Odm->Adapter)) {
++			if(RSSI >= 45)
++				SQ = 100;
++			else if(RSSI >= 22 && RSSI < 45)
++				SQ = 80;
++			else if(RSSI >= 18 && RSSI < 22)
++				SQ = 40;
++			else
++			SQ = 20;
++		} else {
++			if(RSSI >= 45)
++			SQ = 100;
++			else if(RSSI >= 22 && RSSI < 45)
++			SQ = 80;
++		else if(RSSI >= 18 && RSSI < 22)
++			SQ = 40;
++		else
++			SQ = 20;			
++		}
++	}
++
++	RT_TRACE(COMP_DBG, DBG_TRACE, ("isCCKrate(%#d), PWDB_ALL(%#d), RSSI(%#d), SQ(%#d)\n", isCCKrate, PWDB_ALL, RSSI, SQ));
++	
++#endif
++	return SQ;
++}
++
++static u1Byte odm_SQ_process_patch_RT_CID_819x_Acer(
++	IN PDM_ODM_T	pDM_Odm,
++	IN u1Byte 		isCCKrate,
++	IN u1Byte 		PWDB_ALL,
++	IN u1Byte 		path,
++	IN u1Byte 		RSSI
++)
++{
++	u1Byte	SQ = 0;
++	
++#if (DM_ODM_SUPPORT_TYPE &  ODM_WIN)			
++
++	if(isCCKrate){
++
++			RT_TRACE(COMP_DBG, DBG_WARNING, ("odm_SQ_process_patch_RT_Acer\n"));
++			
++#if OS_WIN_FROM_WIN8(OS_VERSION)	
++
++			if(PWDB_ALL >= 50)
++				SQ = 100;
++			else if(PWDB_ALL >= 35 && PWDB_ALL < 50)				
++				SQ = 80;
++			else if(PWDB_ALL >= 30 && PWDB_ALL < 35)
++				SQ = 60;
++			else if(PWDB_ALL >= 25 && PWDB_ALL < 30)
++				SQ = 40;
++			else if(PWDB_ALL >= 20 && PWDB_ALL < 25)
++				SQ = 20;
++			else
++				SQ = 10;	
++#else
++			if(PWDB_ALL >= 50)
++				SQ = 100;
++			else if(PWDB_ALL >= 35 && PWDB_ALL < 50)				
++				SQ = 80;
++			else if(PWDB_ALL >= 30 && PWDB_ALL < 35)
++				SQ = 60;
++			else if(PWDB_ALL >= 25 && PWDB_ALL < 30)
++				SQ = 40;
++			else if(PWDB_ALL >= 20 && PWDB_ALL < 25)
++				SQ = 20;
++			else
++				SQ = 10;	
++
++			if(PWDB_ALL == 0)// Abnormal case, do not indicate the value above 20 on Win7
++				SQ = 20;
++#endif		
++
++		
++		
++	}
++	else
++	{//OFDM rate		
++
++		if (IS_HARDWARE_TYPE_8192E(pDM_Odm->Adapter)) {
++			if(RSSI >= 45)
++				SQ = 100;
++			else if(RSSI >= 22 && RSSI < 45)
++				SQ = 80;
++			else if(RSSI >= 18 && RSSI < 22)
++				SQ = 40;
++			else
++			SQ = 20;
++	}
++		else
++		{
++			if(RSSI >= 35)
++			SQ = 100;
++			else if(RSSI >= 30 && RSSI < 35)
++			SQ = 80;
++		else if(RSSI >= 25 && RSSI < 30)
++			SQ = 40;
++		else
++			SQ = 20;			
++	}
++	}
++
++	RT_TRACE(COMP_DBG, DBG_LOUD, ("isCCKrate(%#d), PWDB_ALL(%#d), RSSI(%#d), SQ(%#d)\n", isCCKrate, PWDB_ALL, RSSI, SQ));
++	
++#endif
++	return SQ;
++}
++			
++static u1Byte 
++odm_EVMdbToPercentage(
++    IN		s1Byte Value
++    )
++{
++	//
++	// -33dB~0dB to 0%~99%
++	//
++	s1Byte ret_val;
++    
++	ret_val = Value;
++	ret_val /= 2;
++
++	/*DbgPrint("Value=%d\n", Value);*/
++	/*ODM_RT_DISP(FRX, RX_PHY_SQ, ("EVMdbToPercentage92C Value=%d / %x\n", ret_val, ret_val));*/
++#ifdef ODM_EVM_ENHANCE_ANTDIV
++	if (ret_val >= 0)
++		ret_val = 0;
++
++	if (ret_val <= -40)
++		ret_val = -40;
++
++	ret_val = 0 - ret_val;
++	ret_val *= 3;
++#else
++	if (ret_val >= 0)
++		ret_val = 0;
++
++	if (ret_val <= -33)
++		ret_val = -33;
++
++	ret_val = 0 - ret_val;
++	ret_val *= 3;
++
++	if (ret_val == 99)
++		ret_val = 100;
++#endif
++
++	return (u1Byte)ret_val;
++}
++			
++static u1Byte 
++odm_EVMdbm_JaguarSeries(
++	IN  s1Byte Value
++	)
++{
++	s1Byte ret_val = Value;
++	
++	// -33dB~0dB to 33dB ~ 0dB
++	if(ret_val == -128)
++		ret_val = 127;
++	else if (ret_val < 0)
++		ret_val = 0 - ret_val;
++	
++	ret_val  = ret_val >> 1;
++	return (u1Byte)ret_val;
++}
++
++static s2Byte
++odm_Cfo(
++  IN s1Byte Value
++)
++{
++	s2Byte  ret_val;
++
++	if (Value < 0)
++	{
++		ret_val = 0 - Value;
++		ret_val = (ret_val << 1) + (ret_val >> 1) ;  //  *2.5~=312.5/2^7
++		ret_val = ret_val | BIT12;  // set bit12 as 1 for negative cfo
++	}
++	else
++	{
++		ret_val = Value;
++		ret_val = (ret_val << 1) + (ret_val>>1) ;  //  *2.5~=312.5/2^7
++	}
++	return ret_val;
++}
++
++#if(ODM_IC_11N_SERIES_SUPPORT == 1)
++
++s1Byte
++odm_CCKRSSI_8703B(
++	IN		u2Byte	LNA_idx,
++	IN		u1Byte	VGA_idx
++	)
++{
++	s1Byte	rx_pwr_all = 0x00;
++	
++	switch (LNA_idx) {
++	case 0xf:
++		rx_pwr_all = -48 - (2 * VGA_idx);
++		break;		
++	case 0xb:
++		rx_pwr_all = -42 - (2 * VGA_idx); /*TBD*/
++		break;
++	case 0xa:
++		rx_pwr_all = -36 - (2 * VGA_idx);
++		break;
++	case 8:
++		rx_pwr_all = -32 - (2 * VGA_idx);
++		break;
++	case 7:	
++		rx_pwr_all = -19 - (2 * VGA_idx);
++		break;		
++	case 4:	
++		rx_pwr_all = -6 - (2 * VGA_idx);
++		break;
++	case 0:	
++		rx_pwr_all = -2 - (2 * VGA_idx);
++		break;
++	default:
++	/*rx_pwr_all = -53+(2*(31-VGA_idx));*/
++	/*DbgPrint("wrong LNA index\n");*/
++		break;
++			
++	}
++	return	rx_pwr_all;
++}
++
++s1Byte
++odm_CCKRSSI_8192E(
++	IN OUT	PDM_ODM_T	pDM_Odm,
++	IN		u2Byte		LNA_idx,
++	IN		u1Byte		VGA_idx
++	)
++{
++	s1Byte	rx_pwr_all = 0;
++	s1Byte	lna_gain = 0;
++	s1Byte	lna_gain_table_0[8] = {15, 9, -10, -21, -23, -27, -43, -44};	
++	s1Byte	lna_gain_table_1[8] = {24, 18, 13, -4, -11, -18, -31, -36};/*use 8192EU to calibrate this table. 2015.12.15, Dino*/
++
++	if (pDM_Odm->cck_agc_report_type == 0)
++		lna_gain = lna_gain_table_0[LNA_idx];
++	else
++		lna_gain = lna_gain_table_1[LNA_idx];
++
++	rx_pwr_all = lna_gain - (2 * VGA_idx);
++	
++	return	rx_pwr_all;
++}
++
++s1Byte
++odm_CCKRSSI_8188E(
++	IN OUT	PDM_ODM_T	pDM_Odm,
++	IN		u2Byte		LNA_idx,
++	IN		u1Byte		VGA_idx
++	)
++{
++	s1Byte	rx_pwr_all = 0;
++	s1Byte	lna_gain = 0;
++	s1Byte	lna_gain_table_0[8] = {17, -1, -13, -29, -32, -35, -38, -41};/*only use lna0/1/2/3/7*/
++	s1Byte	lna_gain_table_1[8] = {29, 20, 12, 3, -6, -15, -24, -33}; /*only use lna3 /7*/
++
++	if (pDM_Odm->CutVersion >= ODM_CUT_I) /*SMIC*/
++		lna_gain = lna_gain_table_0[LNA_idx];
++	else	 /*TSMC*/		
++		lna_gain = lna_gain_table_1[LNA_idx];
++		
++	rx_pwr_all = lna_gain - (2 * VGA_idx);
++	
++	return	rx_pwr_all;
++}
++
++VOID
++odm_RxPhyStatus92CSeries_Parsing(
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	OUT		PODM_PHY_INFO_T			pPhyInfo,		
++	IN 		pu1Byte						pPhyStatus,
++	IN		PODM_PACKET_INFO_T			pPktinfo
++	)
++{							
++	SWAT_T				*pDM_SWAT_Table = &pDM_Odm->DM_SWAT_Table;
++	u1Byte				i, Max_spatial_stream;
++	s1Byte				rx_pwr[4], rx_pwr_all=0;
++	u1Byte				EVM, PWDB_ALL = 0, PWDB_ALL_BT;
++	u1Byte				RSSI, total_rssi=0;
++	BOOLEAN				isCCKrate=FALSE;	
++	u1Byte				rf_rx_num = 0;
++	u1Byte				cck_highpwr = 0;
++	u1Byte				LNA_idx = 0;
++	u1Byte				VGA_idx = 0;
++	u1Byte				cck_agc_rpt;
++	PPHY_STATUS_RPT_8192CD_T pPhyStaRpt = (PPHY_STATUS_RPT_8192CD_T)pPhyStatus;
++
++	isCCKrate = (pPktinfo->DataRate <= ODM_RATE11M) ? TRUE : FALSE;
++
++	if (pPktinfo->bToSelf)
++		pDM_Odm->curr_station_id = pPktinfo->StationID;
++	
++	pPhyInfo->RxMIMOSignalQuality[ODM_RF_PATH_A] = -1;
++	pPhyInfo->RxMIMOSignalQuality[ODM_RF_PATH_B] = -1;
++
++
++	if(isCCKrate)
++	{
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK++;
++		cck_agc_rpt =  pPhyStaRpt->cck_agc_rpt_ofdm_cfosho_a ;
++		
++		if (pDM_Odm->SupportICType & (ODM_RTL8703B)) {
++			
++			#if (RTL8703B_SUPPORT == 1)
++			if (pDM_Odm->cck_agc_report_type == 1) {  /*4 bit LNA*/
++
++				u1Byte cck_agc_rpt_b = (pPhyStaRpt->cck_rpt_b_ofdm_cfosho_b & BIT7) ? 1 : 0;
++								
++				LNA_idx = (cck_agc_rpt_b << 3) | ((cck_agc_rpt & 0xE0) >> 5);
++				VGA_idx = (cck_agc_rpt & 0x1F);
++				
++				rx_pwr_all = odm_CCKRSSI_8703B(LNA_idx, VGA_idx);			
++			}
++			#endif
++		} else { /*3 bit LNA*/
++		
++			LNA_idx = ((cck_agc_rpt & 0xE0) >>5);
++			VGA_idx = (cck_agc_rpt & 0x1F);
++			
++			if (pDM_Odm->SupportICType & (ODM_RTL8188E)) {
++			
++				#if (RTL8188E_SUPPORT == 1)	
++				rx_pwr_all = odm_CCKRSSI_8188E(pDM_Odm, LNA_idx, VGA_idx);
++				/**/
++				#endif
++			}	
++			#if (RTL8192E_SUPPORT == 1)	
++			else if (pDM_Odm->SupportICType & (ODM_RTL8192E)) {
++				
++				rx_pwr_all = odm_CCKRSSI_8192E(pDM_Odm, LNA_idx, VGA_idx);
++				/**/
++			}
++			#endif
++			#if (RTL8723B_SUPPORT == 1)
++			else if (pDM_Odm->SupportICType & (ODM_RTL8723B)) {
++							
++				rx_pwr_all = odm_CCKRSSI_8723B(LNA_idx,VGA_idx);
++				/**/
++			} 
++			#endif
++			#if (RTL8188F_SUPPORT == 1)
++			else if (pDM_Odm->SupportICType & (ODM_RTL8188F)) {
++				
++				rx_pwr_all = odm_CCKRSSI_8188F(LNA_idx, VGA_idx);
++				/**/
++			}
++			#endif
++		}
++			
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("ExtLNAGain (( %d )), LNA_idx: (( 0x%x )), VGA_idx: (( 0x%x )), rx_pwr_all: (( %d ))\n", 
++			pDM_Odm->ExtLNAGain, LNA_idx, VGA_idx, rx_pwr_all));
++		
++		if (pDM_Odm->BoardType & ODM_BOARD_EXT_LNA) 
++			rx_pwr_all -= pDM_Odm->ExtLNAGain;
++
++		PWDB_ALL = odm_QueryRxPwrPercentage(rx_pwr_all);
++		
++		if (pPktinfo->bToSelf) {
++			pDM_Odm->cck_lna_idx = LNA_idx;
++			pDM_Odm->cck_vga_idx = VGA_idx;
++		}
++		pPhyInfo->RxPWDBAll = PWDB_ALL;
++
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++		pPhyInfo->BTRxRSSIPercentage = PWDB_ALL;
++		pPhyInfo->RecvSignalPower = rx_pwr_all;
++#endif		
++		//
++		// (3) Get Signal Quality (EVM)
++		//
++		//if(pPktinfo->bPacketMatchBSSID)
++		{
++			u1Byte	SQ,SQ_rpt;			
++			
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)			
++			if((pDM_Odm->SupportPlatform == ODM_WIN) &&
++				(pDM_Odm->PatchID==RT_CID_819x_Lenovo)){
++				SQ = odm_SQ_process_patch_RT_CID_819x_Lenovo(pDM_Odm,isCCKrate,PWDB_ALL,0,0);
++			}else if((pDM_Odm->SupportPlatform == ODM_WIN) &&
++				(pDM_Odm->PatchID==RT_CID_819x_Acer))
++			{
++				SQ = odm_SQ_process_patch_RT_CID_819x_Acer(pDM_Odm,isCCKrate,PWDB_ALL,0,0);
++			}else 
++#endif
++			if(pPhyInfo->RxPWDBAll > 40 && !pDM_Odm->bInHctTest){
++				SQ = 100;
++			}
++			else{						
++				SQ_rpt = pPhyStaRpt->cck_sig_qual_ofdm_pwdb_all;
++					
++				if(SQ_rpt > 64)
++					SQ = 0;
++				else if (SQ_rpt < 20)
++					SQ = 100;
++				else
++					SQ = ((64-SQ_rpt) * 100) / 44;
++			
++			}
++			
++			//DbgPrint("cck SQ = %d\n", SQ);
++			pPhyInfo->SignalQuality = SQ;
++			pPhyInfo->RxMIMOSignalQuality[ODM_RF_PATH_A] = SQ;
++			pPhyInfo->RxMIMOSignalQuality[ODM_RF_PATH_B] = -1;
++		}
++
++		for (i = ODM_RF_PATH_A; i < ODM_RF_PATH_MAX; i++) {
++			if (i == 0)
++				pPhyInfo->RxMIMOSignalStrength[0] = PWDB_ALL;
++			else
++				pPhyInfo->RxMIMOSignalStrength[1] = 0;
++		}
++	}
++	else //2 is OFDM rate
++	{
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM++;
++
++		// 
++		// (1)Get RSSI for HT rate
++		//
++		
++       	 for(i = ODM_RF_PATH_A; i < ODM_RF_PATH_MAX; i++)   
++		{
++			// 2008/01/30 MH we will judge RF RX path now.
++			if (pDM_Odm->RFPathRxEnable & BIT(i))
++				rf_rx_num++;
++			//else
++				//continue;
++
++			rx_pwr[i] = ((pPhyStaRpt->path_agc[i].gain& 0x3F)*2) - 110;
++			
++			if (pPktinfo->bToSelf) {
++				pDM_Odm->ofdm_agc_idx[i] = (pPhyStaRpt->path_agc[i].gain & 0x3F);
++				/**/
++			}
++
++		#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++			pPhyInfo->RxPwr[i] = rx_pwr[i];
++		#endif	
++
++			/* Translate DBM to percentage. */
++			RSSI = odm_QueryRxPwrPercentage(rx_pwr[i]);
++			total_rssi += RSSI;
++			//RT_DISP(FRX, RX_PHY_SS, ("RF-%d RXPWR=%x RSSI=%d\n", i, rx_pwr[i], RSSI));
++	
++			pPhyInfo->RxMIMOSignalStrength[i] =(u1Byte) RSSI;
++
++		#if (DM_ODM_SUPPORT_TYPE &  (/*ODM_WIN|*/ODM_CE|ODM_AP))
++			//Get Rx snr value in DB		
++			pPhyInfo->RxSNR[i] = pDM_Odm->PhyDbgInfo.RxSNRdB[i] = (s4Byte)(pPhyStaRpt->path_rxsnr[i]/2);
++		#endif
++		
++			/* Record Signal Strength for next packet */
++			//if(pPktinfo->bPacketMatchBSSID)
++			{				
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)				
++				if((pDM_Odm->SupportPlatform == ODM_WIN) &&
++					(pDM_Odm->PatchID==RT_CID_819x_Lenovo))
++				{
++					if(i==ODM_RF_PATH_A)
++						pPhyInfo->SignalQuality = odm_SQ_process_patch_RT_CID_819x_Lenovo(pDM_Odm,isCCKrate,PWDB_ALL,i,RSSI);
++				
++				}		
++				else if((pDM_Odm->SupportPlatform == ODM_WIN) &&
++					(pDM_Odm->PatchID==RT_CID_819x_Acer))
++				{
++					pPhyInfo->SignalQuality = odm_SQ_process_patch_RT_CID_819x_Acer(pDM_Odm,isCCKrate,PWDB_ALL,0,RSSI);
++				}	
++#endif				
++			}
++		}
++		
++		
++		//
++		// (2)PWDB, Average PWDB cacluated by hardware (for rate adaptive)
++		//
++		rx_pwr_all = (((pPhyStaRpt->cck_sig_qual_ofdm_pwdb_all) >> 1 )& 0x7f) -110;		
++		
++		PWDB_ALL_BT = PWDB_ALL = odm_QueryRxPwrPercentage(rx_pwr_all);	
++	
++	
++		pPhyInfo->RxPWDBAll = PWDB_ALL;
++		//ODM_RT_TRACE(pDM_Odm,ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("ODM OFDM RSSI=%d\n",pPhyInfo->RxPWDBAll));
++	#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++		pPhyInfo->BTRxRSSIPercentage = PWDB_ALL_BT;
++		pPhyInfo->RxPower = rx_pwr_all;
++		pPhyInfo->RecvSignalPower = rx_pwr_all;
++	#endif
++		
++		if((pDM_Odm->SupportPlatform == ODM_WIN) &&(pDM_Odm->PatchID==19)){
++			//do nothing	
++		}else if((pDM_Odm->SupportPlatform == ODM_WIN) &&(pDM_Odm->PatchID==25)){
++			//do nothing	
++		}
++		else{//pMgntInfo->CustomerID != RT_CID_819x_Lenovo
++			//
++			// (3)EVM of HT rate
++			//
++			if(pPktinfo->DataRate >=ODM_RATEMCS8 && pPktinfo->DataRate <=ODM_RATEMCS15)
++				Max_spatial_stream = 2; //both spatial stream make sense
++			else
++				Max_spatial_stream = 1; //only spatial stream 1 makes sense
++
++			for(i=0; i<Max_spatial_stream; i++)
++			{
++				// Do not use shift operation like "rx_evmX >>= 1" because the compilor of free build environment
++				// fill most significant bit to "zero" when doing shifting operation which may change a negative 
++				// value to positive one, then the dbm value (which is supposed to be negative)  is not correct anymore.			
++				EVM = odm_EVMdbToPercentage( (pPhyStaRpt->stream_rxevm[i] ));	//dbm
++
++				//GET_RX_STATUS_DESC_RX_MCS(pDesc), pDrvInfo->rxevm[i], "%", EVM));
++				
++				//if(pPktinfo->bPacketMatchBSSID)
++				{
++					if(i==ODM_RF_PATH_A) // Fill value in RFD, Get the first spatial stream only
++					{						
++						pPhyInfo->SignalQuality = (u1Byte)(EVM & 0xff);
++					}					
++					pPhyInfo->RxMIMOSignalQuality[i] = (u1Byte)(EVM & 0xff);
++				}
++			}
++		}
++
++		ODM_ParsingCFO(pDM_Odm, pPktinfo, pPhyStaRpt->path_cfotail);
++		
++	}
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++	//UI BSS List signal strength(in percentage), make it good looking, from 0~100.
++	//It is assigned to the BSS List in GetValueFromBeaconOrProbeRsp().
++	if(isCCKrate)
++	{		
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		// 2012/01/12 MH Use customeris signal strength from HalComRxdDesc.c/	
++		pPhyInfo->SignalStrength = SignalScaleProc(pDM_Odm->Adapter, PWDB_ALL, TRUE, TRUE);
++#else
++		pPhyInfo->SignalStrength = (u1Byte)(odm_SignalScaleMapping(pDM_Odm, PWDB_ALL));/*PWDB_ALL;*/
++#endif /*#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)*/
++	}
++	else
++	{	
++		if (rf_rx_num != 0)
++		{			
++		#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++			// 2012/01/12 MH Use customeris signal strength from HalComRxdDesc.c/	
++			pPhyInfo->SignalStrength = SignalScaleProc(pDM_Odm->Adapter, (total_rssi /= rf_rx_num), TRUE, FALSE);
++		#else
++			pPhyInfo->SignalStrength = (u1Byte)(odm_SignalScaleMapping(pDM_Odm, total_rssi /= rf_rx_num));
++		#endif
++		}
++	}
++#endif /*#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))*/
++
++	//DbgPrint("isCCKrate = %d, pPhyInfo->RxPWDBAll = %d, pPhyStaRpt->cck_agc_rpt_ofdm_cfosho_a = 0x%x\n", 
++		//isCCKrate, pPhyInfo->RxPWDBAll, pPhyStaRpt->cck_agc_rpt_ofdm_cfosho_a);
++
++	//For 92C/92D HW (Hybrid) Antenna Diversity
++#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))	
++	//For 88E HW Antenna Diversity
++	pDM_Odm->DM_FatTable.antsel_rx_keep_0 = pPhyStaRpt->ant_sel;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_1 = pPhyStaRpt->ant_sel_b;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_2 = pPhyStaRpt->antsel_rx_keep_2;
++#endif
++}
++#endif
++
++#if	ODM_IC_11AC_SERIES_SUPPORT
++
++VOID
++odm_RxPhyBWJaguarSeries_Parsing(
++	OUT		PODM_PHY_INFO_T			pPhyInfo,
++	IN		PODM_PACKET_INFO_T			pPktinfo,
++	IN		PPHY_STATUS_RPT_8812_T		pPhyStaRpt
++)
++{
++
++	if(pPktinfo->DataRate <= ODM_RATE54M) {
++		switch (pPhyStaRpt->r_RFMOD) {
++		case 1:
++			if (pPhyStaRpt->sub_chnl == 0)
++				pPhyInfo->BandWidth = 1;
++			else
++				pPhyInfo->BandWidth = 0;
++			break;
++
++		case 2:
++			if (pPhyStaRpt->sub_chnl == 0)
++				pPhyInfo->BandWidth = 2;
++			else if (pPhyStaRpt->sub_chnl == 9 || pPhyStaRpt->sub_chnl == 10)
++				pPhyInfo->BandWidth = 1;
++			else
++				pPhyInfo->BandWidth = 0;
++			break;
++
++		default:
++		case 0:
++			pPhyInfo->BandWidth = 0;
++			break;
++		}
++	}
++
++}
++
++VOID
++odm_RxPhyStatusJaguarSeries_Parsing(
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	OUT		PODM_PHY_INFO_T			pPhyInfo,
++	IN 		pu1Byte						pPhyStatus,
++	IN		PODM_PACKET_INFO_T			pPktinfo
++)
++{
++	u1Byte					i, Max_spatial_stream;
++	s1Byte					rx_pwr[4], rx_pwr_all = 0;
++	u1Byte					EVM = 0, EVMdbm, PWDB_ALL = 0, PWDB_ALL_BT;
++	u1Byte					RSSI, avg_rssi = 0, best_rssi = 0, second_rssi = 0;
++	u1Byte					isCCKrate = 0;	
++	u1Byte					rf_rx_num = 0;
++	u1Byte					cck_highpwr = 0;
++	u1Byte					LNA_idx, VGA_idx;
++	PPHY_STATUS_RPT_8812_T pPhyStaRpt = (PPHY_STATUS_RPT_8812_T)pPhyStatus;
++	pFAT_T					pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	odm_RxPhyBWJaguarSeries_Parsing(pPhyInfo, pPktinfo, pPhyStaRpt);
++
++	if (pPktinfo->DataRate <= ODM_RATE11M)
++		isCCKrate = TRUE;
++	else
++		isCCKrate = FALSE;
++
++	if (pPktinfo->bToSelf)
++		pDM_Odm->curr_station_id = pPktinfo->StationID;
++	else
++		pDM_Odm->curr_station_id = 0xff;
++
++	pPhyInfo->RxMIMOSignalQuality[ODM_RF_PATH_A] = -1;
++	pPhyInfo->RxMIMOSignalQuality[ODM_RF_PATH_B] = -1;
++	pPhyInfo->RxMIMOSignalQuality[ODM_RF_PATH_C] = -1;
++	pPhyInfo->RxMIMOSignalQuality[ODM_RF_PATH_D] = -1;
++
++	if (isCCKrate) {
++		u1Byte cck_agc_rpt;
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK++;
++
++		/*(1)Hardware does not provide RSSI for CCK*/
++		/*(2)PWDB, Average PWDB calculated by hardware (for rate adaptive)*/
++
++		/*if(pHalData->eRFPowerState == eRfOn)*/
++		cck_highpwr = pDM_Odm->bCckHighPower;
++		/*else*/
++		/*cck_highpwr = FALSE;*/
++
++		cck_agc_rpt =  pPhyStaRpt->cfosho[0] ;
++		LNA_idx = ((cck_agc_rpt & 0xE0) >> 5);
++		VGA_idx = (cck_agc_rpt & 0x1F);
++
++		if (pDM_Odm->SupportICType == ODM_RTL8812) {
++			switch (LNA_idx) {
++			case 7:
++				if (VGA_idx <= 27)
++					rx_pwr_all = -100 + 2 * (27 - VGA_idx); /*VGA_idx = 27~2*/
++				else
++					rx_pwr_all = -100;
++				break;
++			case 6:
++				rx_pwr_all = -48 + 2 * (2 - VGA_idx); /*VGA_idx = 2~0*/
++				break;
++			case 5:
++				rx_pwr_all = -42 + 2 * (7 - VGA_idx); /*VGA_idx = 7~5*/
++				break;
++			case 4:
++				rx_pwr_all = -36 + 2 * (7 - VGA_idx); /*VGA_idx = 7~4*/
++				break;
++			case 3:
++				/*rx_pwr_all = -28 + 2*(7-VGA_idx); VGA_idx = 7~0*/
++				rx_pwr_all = -24 + 2 * (7 - VGA_idx); /*VGA_idx = 7~0*/
++				break;
++			case 2:
++				if (cck_highpwr)
++					rx_pwr_all = -12 + 2 * (5 - VGA_idx); /*VGA_idx = 5~0*/
++				else
++					rx_pwr_all = -6 + 2 * (5 - VGA_idx);
++				break;
++			case 1:
++				rx_pwr_all = 8 - 2 * VGA_idx;
++				break;
++			case 0:
++				rx_pwr_all = 14 - 2 * VGA_idx;
++				break;
++			default:
++				/*DbgPrint("CCK Exception default\n");*/
++				break;
++			}
++			rx_pwr_all += 6;
++			PWDB_ALL = odm_QueryRxPwrPercentage(rx_pwr_all);
++
++			if (cck_highpwr == FALSE) {
++				if (PWDB_ALL >= 80)
++					PWDB_ALL = ((PWDB_ALL - 80) << 1) + ((PWDB_ALL - 80) >> 1) + 80;
++				else if ((PWDB_ALL <= 78) && (PWDB_ALL >= 20))
++					PWDB_ALL += 3;
++				if (PWDB_ALL > 100)
++					PWDB_ALL = 100;
++			}
++		} else if (pDM_Odm->SupportICType & (ODM_RTL8821 | ODM_RTL8881A)) {
++			s1Byte Pout = -6;
++
++			switch (LNA_idx) {
++			case 5:
++				rx_pwr_all = Pout - 32 - (2 * VGA_idx);
++				break;
++			case 4:
++				rx_pwr_all = Pout - 24 - (2 * VGA_idx);
++				break;
++			case 2:
++				rx_pwr_all = Pout - 11 - (2 * VGA_idx);
++				break;
++			case 1:
++				rx_pwr_all = Pout + 5 - (2 * VGA_idx);
++				break;
++			case 0:
++				rx_pwr_all = Pout + 21 - (2 * VGA_idx);
++				break;
++			}
++			PWDB_ALL = odm_QueryRxPwrPercentage(rx_pwr_all);
++		} else if (pDM_Odm->SupportICType == ODM_RTL8814A || pDM_Odm->SupportICType == ODM_RTL8822B) {
++			s1Byte Pout = -6;
++
++			switch (LNA_idx) {
++			/*CCK only use LNA: 2, 3, 5, 7*/
++			case 7:
++				rx_pwr_all = Pout - 32 - (2 * VGA_idx);
++				break;
++			case 5:
++				rx_pwr_all = Pout - 22 - (2 * VGA_idx);
++				break;
++			case 3:
++				rx_pwr_all = Pout - 2 - (2 * VGA_idx);
++				break;
++			case 2:
++				rx_pwr_all = Pout + 5 - (2 * VGA_idx);
++				break;
++			/*case 6:*/
++			/*rx_pwr_all = Pout -26 - (2*VGA_idx);*/
++			/*break;*/
++			/*case 4:*/
++			/*rx_pwr_all = Pout - 8 - (2*VGA_idx);*/
++			/*break;*/
++			/*case 1:*/
++			/*rx_pwr_all = Pout + 21 - (2*VGA_idx);*/
++			/*break;*/
++			/*case 0:*/
++			/*rx_pwr_all = Pout + 10 - (2*VGA_idx);*/
++/*			//	break;*/
++			default:
++/*				//DbgPrint("CCK Exception default\n");*/
++				break;
++			}
++			PWDB_ALL = odm_QueryRxPwrPercentage(rx_pwr_all);
++		}
++
++		pDM_Odm->cck_lna_idx = LNA_idx;
++		pDM_Odm->cck_vga_idx = VGA_idx;
++		pPhyInfo->RxPWDBAll = PWDB_ALL;
++/*		//if(pPktinfo->StationID == 0)*/
++/*		//{*/
++/*		//	DbgPrint("CCK: LNA_idx = %d, VGA_idx = %d, pPhyInfo->RxPWDBAll = %d\n",*/
++/*		//		LNA_idx, VGA_idx, pPhyInfo->RxPWDBAll);*/
++/*		//}*/
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++		pPhyInfo->BTRxRSSIPercentage = PWDB_ALL;
++		pPhyInfo->RecvSignalPower = rx_pwr_all;
++#endif
++		/*(3) Get Signal Quality (EVM)*/
++		/*if (pPktinfo->bPacketMatchBSSID)*/
++		{
++			u1Byte	SQ, SQ_rpt;
++
++			if ((pDM_Odm->SupportPlatform == ODM_WIN) &&
++				(pDM_Odm->PatchID == RT_CID_819x_Lenovo)) {
++				SQ = odm_SQ_process_patch_RT_CID_819x_Lenovo(pDM_Odm, isCCKrate, PWDB_ALL, 0, 0);
++			} else if (pPhyInfo->RxPWDBAll > 40 && !pDM_Odm->bInHctTest) {
++				SQ = 100;
++			} else {
++				SQ_rpt = pPhyStaRpt->pwdb_all;
++
++				if (SQ_rpt > 64)
++					SQ = 0;
++				else if (SQ_rpt < 20)
++					SQ = 100;
++				else
++					SQ = ((64 - SQ_rpt) * 100) / 44;
++			}
++
++/*			//DbgPrint("cck SQ = %d\n", SQ);*/
++			pPhyInfo->SignalQuality = SQ;
++			pPhyInfo->RxMIMOSignalQuality[ODM_RF_PATH_A] = SQ;
++		}
++
++		for (i = ODM_RF_PATH_A; i < ODM_RF_PATH_MAX_JAGUAR; i++) {
++			if (i == 0)
++				pPhyInfo->RxMIMOSignalStrength[0] = PWDB_ALL;
++			else
++				pPhyInfo->RxMIMOSignalStrength[i] = 0;
++		}
++	} else {		 
++		/*is OFDM rate*/
++		pDM_FatTable->hw_antsw_occur = pPhyStaRpt->hw_antsw_occur;
++		
++		pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM++;
++
++		/*(1)Get RSSI for OFDM rate*/
++
++		for (i = ODM_RF_PATH_A; i < ODM_RF_PATH_MAX_JAGUAR; i++) {
++			/*2008/01/30 MH we will judge RF RX path now.*/
++/*			//DbgPrint("pDM_Odm->RFPathRxEnable = %x\n", pDM_Odm->RFPathRxEnable);*/
++			if (pDM_Odm->RFPathRxEnable & BIT(i))
++				rf_rx_num++;
++/*			//else*/
++/*			//continue;*/
++			/*2012.05.25 LukeLee: Testchip AGC report is wrong, it should be restored back to old formula in MP chip*/
++/*			//if((pDM_Odm->SupportICType & (ODM_RTL8812|ODM_RTL8821)) && (!pDM_Odm->bIsMPChip))*/
++			if (i < ODM_RF_PATH_C)
++				rx_pwr[i] = (pPhyStaRpt->gain_trsw[i] & 0x7F) - 110;
++			else
++				rx_pwr[i] = (pPhyStaRpt->gain_trsw_cd[i - 2] & 0x7F) - 110;
++/*			//else*/
++			/*rx_pwr[i] = ((pPhyStaRpt->gain_trsw[i]& 0x3F)*2) - 110;  OLD FORMULA*/
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++			pPhyInfo->RxPwr[i] = rx_pwr[i];
++#endif
++
++			/* Translate DBM to percentage. */
++			RSSI = odm_QueryRxPwrPercentage(rx_pwr[i]);	
++		
++			/*total_rssi += RSSI;*/
++			/*Get the best two RSSI*/
++			if (RSSI > best_rssi && RSSI > second_rssi) {
++				second_rssi = best_rssi;
++				best_rssi = RSSI;
++			} else if (RSSI > second_rssi && RSSI <= best_rssi)
++				second_rssi = RSSI;
++
++			/*RT_DISP(FRX, RX_PHY_SS, ("RF-%d RXPWR=%x RSSI=%d\n", i, rx_pwr[i], RSSI));*/
++
++			pPhyInfo->RxMIMOSignalStrength[i] = (u1Byte) RSSI;
++
++
++			/*Get Rx snr value in DB*/
++			if (i < ODM_RF_PATH_C)
++				pPhyInfo->RxSNR[i] = pDM_Odm->PhyDbgInfo.RxSNRdB[i] = pPhyStaRpt->rxsnr[i] / 2;
++			else if (pDM_Odm->SupportICType & (ODM_RTL8814A | ODM_RTL8822B))
++				pPhyInfo->RxSNR[i] = pDM_Odm->PhyDbgInfo.RxSNRdB[i] = pPhyStaRpt->csi_current[i - 2] / 2;
++
++#if (DM_ODM_SUPPORT_TYPE != ODM_AP)
++			/*(2) CFO_short  & CFO_tail*/
++			if (i < ODM_RF_PATH_C) {
++				pPhyInfo->Cfo_short[i] = odm_Cfo((pPhyStaRpt->cfosho[i]));
++				pPhyInfo->Cfo_tail[i] = odm_Cfo((pPhyStaRpt->cfotail[i]));
++			}
++#endif
++			/* Record Signal Strength for next packet */
++			if (pPktinfo->bPacketMatchBSSID) {
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++				if ((pDM_Odm->SupportPlatform == ODM_WIN) &&
++					(pDM_Odm->PatchID == RT_CID_819x_Lenovo)) {
++					if (i == ODM_RF_PATH_A)
++						pPhyInfo->SignalQuality = odm_SQ_process_patch_RT_CID_819x_Lenovo(pDM_Odm, isCCKrate, PWDB_ALL, i, RSSI);
++
++				}
++#endif
++			}
++		}
++
++		/*(3)PWDB, Average PWDB calculated by hardware (for rate adaptive)*/
++
++		/*2012.05.25 LukeLee: Testchip AGC report is wrong, it should be restored back to old formula in MP chip*/
++		if ((pDM_Odm->SupportICType & (ODM_RTL8812 | ODM_RTL8821 | ODM_RTL8881A)) && (!pDM_Odm->bIsMPChip))
++			rx_pwr_all = (pPhyStaRpt->pwdb_all & 0x7f) - 110;
++		else
++			rx_pwr_all = (((pPhyStaRpt->pwdb_all) >> 1) & 0x7f) - 110;	 /*OLD FORMULA*/
++
++		PWDB_ALL_BT = PWDB_ALL = odm_QueryRxPwrPercentage(rx_pwr_all);
++
++		pPhyInfo->RxPWDBAll = PWDB_ALL;
++		/*ODM_RT_TRACE(pDM_Odm,ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("ODM OFDM RSSI=%d\n",pPhyInfo->RxPWDBAll));*/
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++		pPhyInfo->BTRxRSSIPercentage = PWDB_ALL_BT;
++		pPhyInfo->RxPower = rx_pwr_all;
++		pPhyInfo->RecvSignalPower = rx_pwr_all;
++#endif
++
++		if ((pDM_Odm->SupportPlatform == ODM_WIN) && (pDM_Odm->PatchID == 19)) {
++			/*do nothing*/
++		} else {
++			/*pMgntInfo->CustomerID != RT_CID_819x_Lenovo*/
++
++			/*(4)EVM of OFDM rate*/
++			
++			if ((pPktinfo->DataRate >= ODM_RATEMCS8) &&
++				(pPktinfo->DataRate <= ODM_RATEMCS15))
++				Max_spatial_stream = 2;
++			else if ((pPktinfo->DataRate >= ODM_RATEVHTSS2MCS0) &&
++					 (pPktinfo->DataRate <= ODM_RATEVHTSS2MCS9))
++				Max_spatial_stream = 2;
++			else if ((pPktinfo->DataRate >= ODM_RATEMCS16) &&
++					 (pPktinfo->DataRate <= ODM_RATEMCS23))
++				Max_spatial_stream = 3;
++			else if ((pPktinfo->DataRate >= ODM_RATEVHTSS3MCS0) &&
++					 (pPktinfo->DataRate <= ODM_RATEVHTSS3MCS9))
++				Max_spatial_stream = 3;
++			else
++				Max_spatial_stream = 1;
++
++			/*if (pPktinfo->bPacketMatchBSSID) */
++			{
++				/*DbgPrint("pPktinfo->DataRate = %d\n", pPktinfo->DataRate);*/
++
++				for (i = 0; i < Max_spatial_stream; i++) {
++					/*Do not use shift operation like "rx_evmX >>= 1" because the compilor of free build environment*/
++					/*fill most significant bit to "zero" when doing shifting operation which may change a negative*/
++					/*value to positive one, then the dbm value (which is supposed to be negative)  is not correct anymore.*/
++
++					if (pPktinfo->DataRate >= ODM_RATE6M && pPktinfo->DataRate <= ODM_RATE54M) {
++						if (i == ODM_RF_PATH_A) {
++							EVM = odm_EVMdbToPercentage((pPhyStaRpt->sigevm));	/*dbm*/
++							EVM += 20;
++							if (EVM > 100)
++								EVM = 100;
++						}
++					} else {
++						if (i < ODM_RF_PATH_C) {
++							if (pPhyStaRpt->rxevm[i] == -128)
++								pPhyStaRpt->rxevm[i] = -25;
++							EVM = odm_EVMdbToPercentage((pPhyStaRpt->rxevm[i]));	/*dbm*/
++						} else {
++							if (pPhyStaRpt->rxevm_cd[i - 2] == -128){
++								pPhyStaRpt->rxevm_cd[i - 2] = -25;
++							}
++							EVM = odm_EVMdbToPercentage((pPhyStaRpt->rxevm_cd[i - 2]));	/*dbm*/
++						}
++					}
++
++					if (i < ODM_RF_PATH_C)
++						EVMdbm = odm_EVMdbm_JaguarSeries(pPhyStaRpt->rxevm[i]);
++					else
++						EVMdbm = odm_EVMdbm_JaguarSeries(pPhyStaRpt->rxevm_cd[i - 2]);
++					/*RT_DISP(FRX, RX_PHY_SQ, ("RXRATE=%x RXEVM=%x EVM=%s%d\n",*/
++					/*pPktinfo->DataRate, pPhyStaRpt->rxevm[i], "%", EVM));*/
++
++					{
++						if (i == ODM_RF_PATH_A) { 
++							/*Fill value in RFD, Get the first spatial stream only*/
++							pPhyInfo->SignalQuality = EVM;
++						}
++						pPhyInfo->RxMIMOSignalQuality[i] = EVM;
++#if (DM_ODM_SUPPORT_TYPE != ODM_AP)
++						pPhyInfo->RxMIMOEVMdbm[i] = EVMdbm;
++#endif
++					}
++				}
++			}
++		}
++
++		ODM_ParsingCFO(pDM_Odm, pPktinfo, pPhyStaRpt->cfotail);
++
++	}
++/*	//DbgPrint("isCCKrate= %d, pPhyInfo->SignalStrength=%d % PWDB_AL=%d rf_rx_num=%d\n", isCCKrate, pPhyInfo->SignalStrength, PWDB_ALL, rf_rx_num);*/
++
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++	/*UI BSS List signal strength(in percentage), make it good looking, from 0~100.*/
++	/*It is assigned to the BSS List in GetValueFromBeaconOrProbeRsp().*/
++	if (isCCKrate) {
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		/*2012/01/12 MH Use customeris signal strength from HalComRxdDesc.c/*/
++		pPhyInfo->SignalStrength = SignalScaleProc(pDM_Odm->Adapter, PWDB_ALL, FALSE, TRUE);
++#else
++		pPhyInfo->SignalStrength = (u1Byte)(odm_SignalScaleMapping(pDM_Odm, PWDB_ALL));/*PWDB_ALL;*/
++#endif
++	} else {	
++		if (rf_rx_num != 0) {
++			/* 2015/01 Sean, use the best two RSSI only, suggested by Ynlin and ChenYu.*/
++			if (rf_rx_num == 1)
++				avg_rssi = best_rssi;
++			else
++				avg_rssi = (best_rssi + second_rssi)/2;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++			/* 2012/01/12 MH Use customeris signal strength from HalComRxdDesc.c/*/	
++			pPhyInfo->SignalStrength = SignalScaleProc(pDM_Odm->Adapter, avg_rssi, FALSE, FALSE);
++#else
++			pPhyInfo->SignalStrength = (u1Byte)(odm_SignalScaleMapping(pDM_Odm, avg_rssi));
++#endif
++		}
++	}
++#endif
++	pDM_Odm->RxPWDBAve = pDM_Odm->RxPWDBAve + pPhyInfo->RxPWDBAll;
++
++	pDM_Odm->DM_FatTable.antsel_rx_keep_0 = pPhyStaRpt->antidx_anta;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_1 = pPhyStaRpt->antidx_antb;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_2 = pPhyStaRpt->antidx_antc;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_3 = pPhyStaRpt->antidx_antd;
++	/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("StaID[%d]:  antidx_anta = ((%d)), MatchBSSID =  ((%d))\n", pPktinfo->StationID, pPhyStaRpt->antidx_anta, pPktinfo->bPacketMatchBSSID));*/
++
++
++/*		DbgPrint("pPhyStaRpt->antidx_anta = %d, pPhyStaRpt->antidx_antb = %d\n",*/
++/*			pPhyStaRpt->antidx_anta, pPhyStaRpt->antidx_antb);*/
++/*		DbgPrint("----------------------------\n");*/
++/*		DbgPrint("pPktinfo->StationID=%d, pPktinfo->DataRate=0x%x\n",pPktinfo->StationID, pPktinfo->DataRate);*/
++/*		DbgPrint("pPhyStaRpt->r_RFMOD = %d\n", pPhyStaRpt->r_RFMOD);*/
++/*		DbgPrint("pPhyStaRpt->gain_trsw[0]=0x%x, pPhyStaRpt->gain_trsw[1]=0x%x\n",*/
++/*				pPhyStaRpt->gain_trsw[0],pPhyStaRpt->gain_trsw[1]);*/
++/*		DbgPrint("pPhyStaRpt->gain_trsw[2]=0x%x, pPhyStaRpt->gain_trsw[3]=0x%x\n",*/
++/*				pPhyStaRpt->gain_trsw_cd[0],pPhyStaRpt->gain_trsw_cd[1]);*/
++/*		DbgPrint("pPhyStaRpt->pwdb_all = 0x%x, pPhyInfo->RxPWDBAll = %d\n", pPhyStaRpt->pwdb_all, pPhyInfo->RxPWDBAll);*/
++/*		DbgPrint("pPhyStaRpt->cfotail[i] = 0x%x, pPhyStaRpt->CFO_tail[i] = 0x%x\n", pPhyStaRpt->cfotail[0], pPhyStaRpt->cfotail[1]);*/
++/*		DbgPrint("pPhyStaRpt->rxevm[0] = %d, pPhyStaRpt->rxevm[1] = %d\n", pPhyStaRpt->rxevm[0], pPhyStaRpt->rxevm[1]);*/
++/*		DbgPrint("pPhyStaRpt->rxevm[2] = %d, pPhyStaRpt->rxevm[3] = %d\n", pPhyStaRpt->rxevm_cd[0], pPhyStaRpt->rxevm_cd[1]);*/
++/*		DbgPrint("pPhyInfo->RxMIMOSignalStrength[0]=%d, pPhyInfo->RxMIMOSignalStrength[1]=%d, RxPWDBAll=%d\n",*/
++/*				pPhyInfo->RxMIMOSignalStrength[0], pPhyInfo->RxMIMOSignalStrength[1], pPhyInfo->RxPWDBAll);*/
++/*		DbgPrint("pPhyInfo->RxMIMOSignalStrength[2]=%d, pPhyInfo->RxMIMOSignalStrength[3]=%d\n",*/
++/*				pPhyInfo->RxMIMOSignalStrength[2], pPhyInfo->RxMIMOSignalStrength[3]);*/
++/*		DbgPrint("ppPhyInfo->RxMIMOSignalQuality[0]=%d, pPhyInfo->RxMIMOSignalQuality[1]=%d\n",*/
++/*				pPhyInfo->RxMIMOSignalQuality[0], pPhyInfo->RxMIMOSignalQuality[1]);*/
++/*		DbgPrint("ppPhyInfo->RxMIMOSignalQuality[2]=%d, pPhyInfo->RxMIMOSignalQuality[3]=%d\n",*/
++/*				pPhyInfo->RxMIMOSignalQuality[2], pPhyInfo->RxMIMOSignalQuality[3]);*/
++
++}
++
++#endif
++
++VOID
++phydm_reset_rssi_for_dm(
++	IN OUT	PDM_ODM_T	pDM_Odm,
++	IN		u1Byte		station_id
++	)
++{
++	PSTA_INFO_T			pEntry;
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	#endif
++
++	pEntry = pDM_Odm->pODM_StaInfo[station_id];
++
++	if (!IS_STA_VALID(pEntry)) {
++		/**/
++		return;
++	}
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("Reset RSSI for macid = (( %d ))\n", station_id));
++
++	
++	pEntry->rssi_stat.UndecoratedSmoothedCCK = -1;
++	pEntry->rssi_stat.UndecoratedSmoothedOFDM = -1;
++	pEntry->rssi_stat.UndecoratedSmoothedPWDB = -1;
++	pEntry->rssi_stat.OFDM_pkt = 0;
++	pEntry->rssi_stat.CCK_pkt = 0;
++	pEntry->rssi_stat.CCK_sum_power = 0;
++	pEntry->rssi_stat.bsend_rssi = RA_RSSI_STATE_INIT;
++	pEntry->rssi_stat.PacketMap = 0;
++	pEntry->rssi_stat.ValidBit = 0;
++
++	/*in WIN Driver: sta_ID==0 -> pEntry==NULL -> default port HAL_Data*/
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))
++	pEntry->bUsed = 0;
++	if (station_id == 0) { 
++		
++		pHalData->UndecoratedSmoothedPWDB = -1;
++		/**/
++	}
++	#endif
++
++}
++
++VOID
++odm_Init_RSSIForDM(
++	IN OUT	PDM_ODM_T	pDM_Odm
++	)
++{
++
++}
++
++VOID
++odm_Process_RSSIForDM(	
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	OUT		PODM_PHY_INFO_T			pPhyInfo,
++	IN		PODM_PACKET_INFO_T			pPktinfo
++	)
++{
++	
++	s4Byte			UndecoratedSmoothedPWDB, UndecoratedSmoothedCCK, UndecoratedSmoothedOFDM, RSSI_Ave, CCK_pkt;
++	u1Byte			i, isCCKrate=0;	
++	u1Byte			RSSI_max, RSSI_min;
++	u4Byte			Weighting=0;
++	u1Byte			send_rssi_2_fw = 0;
++	PSTA_INFO_T			pEntry;
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))	
++	pFAT_T			pDM_FatTable = &pDM_Odm->DM_FatTable;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	#endif
++
++	if (pPktinfo->StationID >= ODM_ASSOCIATE_ENTRY_NUM)
++		return;
++
++	#ifdef CONFIG_S0S1_SW_ANTENNA_DIVERSITY
++	odm_S0S1_SwAntDivByCtrlFrame_ProcessRSSI(pDM_Odm, pPhyInfo, pPktinfo);
++	#endif
++
++	//
++	// 2012/05/30 MH/Luke.Lee Add some description 
++	// In windows driver: AP/IBSS mode STA
++	//
++	//if (pDM_Odm->SupportPlatform == ODM_WIN)
++	//{
++	//	pEntry = pDM_Odm->pODM_StaInfo[pDM_Odm->pAidMap[pPktinfo->StationID-1]];			
++	//}
++	//else
++		pEntry = pDM_Odm->pODM_StaInfo[pPktinfo->StationID];							
++
++	if (!IS_STA_VALID(pEntry)) {	
++		return;
++		/**/
++	}
++		
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))	
++	if ((pDM_Odm->SupportAbility & ODM_BB_ANT_DIV) &&
++		(pDM_FatTable->enable_ctrl_frame_antdiv)
++	)
++	{
++		if (pPktinfo->bPacketMatchBSSID)
++			pDM_Odm->data_frame_num++;
++				
++		if ((pDM_FatTable->use_ctrl_frame_antdiv)) {
++			if (!pPktinfo->bToSelf)/*data frame + CTRL frame*/
++				return;
++		} else {
++			if ((!pPktinfo->bPacketMatchBSSID))/*data frame only*/
++				return;
++		}	
++	} else
++#endif
++	{
++		if ((!pPktinfo->bPacketMatchBSSID))/*data frame only*/
++			return;
++	}
++
++	if(pPktinfo->bPacketBeacon)
++		pDM_Odm->PhyDbgInfo.NumQryBeaconPkt++;
++	
++	isCCKrate = (pPktinfo->DataRate <= ODM_RATE11M )?TRUE :FALSE;
++	pDM_Odm->RxRate = pPktinfo->DataRate;
++
++	//--------------Statistic for antenna/path diversity------------------
++	if(pDM_Odm->SupportAbility & ODM_BB_ANT_DIV)
++	{
++		#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++			ODM_Process_RSSIForAntDiv(pDM_Odm,pPhyInfo,pPktinfo);
++		#endif
++	}
++	#if(defined(CONFIG_PATH_DIVERSITY))
++	else if(pDM_Odm->SupportAbility & ODM_BB_PATH_DIV)
++	{
++		phydm_process_rssi_for_path_div(pDM_Odm,pPhyInfo,pPktinfo);
++	}
++	#endif
++	//-----------------Smart Antenna Debug Message------------------//
++	
++	UndecoratedSmoothedCCK =  pEntry->rssi_stat.UndecoratedSmoothedCCK;
++	UndecoratedSmoothedOFDM = pEntry->rssi_stat.UndecoratedSmoothedOFDM;
++	UndecoratedSmoothedPWDB = pEntry->rssi_stat.UndecoratedSmoothedPWDB;	
++	
++	if(pPktinfo->bPacketToSelf || pPktinfo->bPacketBeacon)
++	{
++
++		if(!isCCKrate)//ofdm rate
++		{
++#if (RTL8814A_SUPPORT == 1) || (RTL8822B_SUPPORT == 1)
++			if (pDM_Odm->SupportICType & (ODM_RTL8814A|ODM_RTL8822B)) {
++				u1Byte RX_count = 0;
++				u4Byte RSSI_linear = 0;
++
++				if (pDM_Odm->RXAntStatus & ODM_RF_A) {
++					pDM_Odm->RSSI_A = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A];
++					RX_count++;
++					RSSI_linear += odm_ConvertTo_linear(pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A]);
++				} else
++					pDM_Odm->RSSI_A = 0;
++
++				if (pDM_Odm->RXAntStatus & ODM_RF_B) {
++					pDM_Odm->RSSI_B = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_B];
++					RX_count++;
++					RSSI_linear += odm_ConvertTo_linear(pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_B]);
++				} else
++					pDM_Odm->RSSI_B = 0;
++				
++				if (pDM_Odm->RXAntStatus & ODM_RF_C) {
++					pDM_Odm->RSSI_C = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_C];
++					RX_count++;
++					RSSI_linear += odm_ConvertTo_linear(pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_C]);
++				} else
++					pDM_Odm->RSSI_C = 0;
++
++				if (pDM_Odm->RXAntStatus & ODM_RF_D) {
++					pDM_Odm->RSSI_D = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_D];
++					RX_count++;
++					RSSI_linear += odm_ConvertTo_linear(pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_D]);
++				} else
++					pDM_Odm->RSSI_D = 0;
++
++				/* Calculate average RSSI */
++				switch (RX_count) {
++				case 2:
++					RSSI_linear = (RSSI_linear >> 1);
++					break;
++				case 3:
++					RSSI_linear = ((RSSI_linear) + (RSSI_linear << 1) + (RSSI_linear << 3)) >> 5;	/* RSSI_linear/3 ~ RSSI_linear*11/32 */
++					break;
++				case 4:
++					RSSI_linear = (RSSI_linear >> 2);
++					break;
++				}			
++				RSSI_Ave = odm_ConvertTo_dB(RSSI_linear);
++			} else
++#endif
++			{
++				if (pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_B] == 0) {
++					RSSI_Ave = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A];
++					pDM_Odm->RSSI_A = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A];
++					pDM_Odm->RSSI_B = 0;
++				} else {
++					/*DbgPrint("pRfd->Status.RxMIMOSignalStrength[0] = %d, pRfd->Status.RxMIMOSignalStrength[1] = %d\n",*/ 
++						/*pRfd->Status.RxMIMOSignalStrength[0], pRfd->Status.RxMIMOSignalStrength[1]);*/
++					pDM_Odm->RSSI_A =  pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A];
++					pDM_Odm->RSSI_B = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_B];
++				
++					if (pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A] > pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_B]) {
++						RSSI_max = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A];
++						RSSI_min = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_B];
++					} else {
++						RSSI_max = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_B];
++						RSSI_min = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A];
++					}
++					if ((RSSI_max - RSSI_min) < 3)
++						RSSI_Ave = RSSI_max;
++					else if ((RSSI_max - RSSI_min) < 6)
++						RSSI_Ave = RSSI_max - 1;
++					else if ((RSSI_max - RSSI_min) < 10)
++						RSSI_Ave = RSSI_max - 2;
++					else
++						RSSI_Ave = RSSI_max - 3;
++				}
++			}
++					
++			//1 Process OFDM RSSI
++			if(UndecoratedSmoothedOFDM <= 0)	// initialize
++			{
++				UndecoratedSmoothedOFDM = pPhyInfo->RxPWDBAll;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("OFDM_INIT: (( %d ))\n", UndecoratedSmoothedOFDM));
++			}
++			else
++			{
++				if(pPhyInfo->RxPWDBAll > (u4Byte)UndecoratedSmoothedOFDM)
++				{
++					UndecoratedSmoothedOFDM = 	
++							( ((UndecoratedSmoothedOFDM)*(Rx_Smooth_Factor-1)) + 
++							(RSSI_Ave)) /(Rx_Smooth_Factor);
++					UndecoratedSmoothedOFDM = UndecoratedSmoothedOFDM + 1;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("OFDM_1: (( %d ))\n", UndecoratedSmoothedOFDM));
++				}
++				else
++				{
++					UndecoratedSmoothedOFDM = 	
++							( ((UndecoratedSmoothedOFDM)*(Rx_Smooth_Factor-1)) + 
++							(RSSI_Ave)) /(Rx_Smooth_Factor);
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("OFDM_2: (( %d ))\n", UndecoratedSmoothedOFDM));
++				}
++			}				
++			if (pEntry->rssi_stat.OFDM_pkt != 64) {
++				i = 63;
++				pEntry->rssi_stat.OFDM_pkt -= (u1Byte)(((pEntry->rssi_stat.PacketMap>>i)&BIT0)-1);
++			}
++			pEntry->rssi_stat.PacketMap = (pEntry->rssi_stat.PacketMap<<1) | BIT0;			
++										
++		}
++		else
++		{
++			RSSI_Ave = pPhyInfo->RxPWDBAll;
++			pDM_Odm->RSSI_A = (u1Byte) pPhyInfo->RxPWDBAll;
++			pDM_Odm->RSSI_B = 0xFF;
++			pDM_Odm->RSSI_C = 0xFF;
++			pDM_Odm->RSSI_D = 0xFF;
++
++			if (pEntry->rssi_stat.CCK_pkt <= 63)
++				pEntry->rssi_stat.CCK_pkt++;
++
++			//1 Process CCK RSSI
++			if(UndecoratedSmoothedCCK <= 0)	// initialize
++			{
++				UndecoratedSmoothedCCK = pPhyInfo->RxPWDBAll;
++				pEntry->rssi_stat.CCK_sum_power = (u2Byte)pPhyInfo->RxPWDBAll ; /*reset*/
++				pEntry->rssi_stat.CCK_pkt = 1; /*reset*/
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("CCK_INIT: (( %d ))\n", UndecoratedSmoothedCCK));
++			} else if (pEntry->rssi_stat.CCK_pkt <= CCK_RSSI_INIT_COUNT) {
++				
++				pEntry->rssi_stat.CCK_sum_power = pEntry->rssi_stat.CCK_sum_power + (u2Byte)pPhyInfo->RxPWDBAll;
++				UndecoratedSmoothedCCK = pEntry->rssi_stat.CCK_sum_power/pEntry->rssi_stat.CCK_pkt;
++				
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("CCK_0: (( %d )), SumPow = (( %d )), CCK_pkt = (( %d ))\n", 
++					UndecoratedSmoothedCCK, pEntry->rssi_stat.CCK_sum_power, pEntry->rssi_stat.CCK_pkt));
++			}
++			else
++			{
++				if(pPhyInfo->RxPWDBAll > (u4Byte)UndecoratedSmoothedCCK)
++				{
++					UndecoratedSmoothedCCK = 	
++							( ((UndecoratedSmoothedCCK)*(Rx_Smooth_Factor-1)) + 
++							(pPhyInfo->RxPWDBAll)) /(Rx_Smooth_Factor);
++					UndecoratedSmoothedCCK = UndecoratedSmoothedCCK + 1;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("CCK_1: (( %d ))\n", UndecoratedSmoothedCCK));
++				}
++				else
++				{
++					UndecoratedSmoothedCCK = 	
++							( ((UndecoratedSmoothedCCK)*(Rx_Smooth_Factor-1)) + 
++							(pPhyInfo->RxPWDBAll)) /(Rx_Smooth_Factor);
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("CCK_2: (( %d ))\n", UndecoratedSmoothedCCK));
++				}
++			}
++			i = 63;
++			pEntry->rssi_stat.OFDM_pkt -= (u1Byte)((pEntry->rssi_stat.PacketMap>>i)&BIT0);			
++			pEntry->rssi_stat.PacketMap = pEntry->rssi_stat.PacketMap<<1;
++		}
++
++		//if(pEntry)
++		{
++			//2011.07.28 LukeLee: modified to prevent unstable CCK RSSI
++			if (pEntry->rssi_stat.OFDM_pkt == 64) { /* speed up when all packets are OFDM*/
++				UndecoratedSmoothedPWDB = UndecoratedSmoothedOFDM;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("PWDB_0[%d] = (( %d ))\n", pPktinfo->StationID, UndecoratedSmoothedCCK));
++			} else {
++				if (pEntry->rssi_stat.ValidBit < 64)
++					pEntry->rssi_stat.ValidBit++;
++
++				if (pEntry->rssi_stat.ValidBit == 64) {
++					Weighting = ((pEntry->rssi_stat.OFDM_pkt) > 4) ? 64 : (pEntry->rssi_stat.OFDM_pkt<<4);
++					UndecoratedSmoothedPWDB = (Weighting*UndecoratedSmoothedOFDM+(64-Weighting)*UndecoratedSmoothedCCK)>>6;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("PWDB_1[%d] = (( %d )), W = (( %d ))\n", pPktinfo->StationID, UndecoratedSmoothedCCK, Weighting));
++				} else {
++					if (pEntry->rssi_stat.ValidBit != 0)
++						UndecoratedSmoothedPWDB = (pEntry->rssi_stat.OFDM_pkt*UndecoratedSmoothedOFDM+(pEntry->rssi_stat.ValidBit-pEntry->rssi_stat.OFDM_pkt)*UndecoratedSmoothedCCK)/pEntry->rssi_stat.ValidBit;
++					else
++						UndecoratedSmoothedPWDB = 0;
++
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("PWDB_2[%d] = (( %d )), OFDM_pkt = (( %d )), Valid_Bit = (( %d ))\n", pPktinfo->StationID, UndecoratedSmoothedCCK, pEntry->rssi_stat.OFDM_pkt, pEntry->rssi_stat.ValidBit));
++				}
++			}
++			
++			
++			if ((pEntry->rssi_stat.OFDM_pkt >= 1 || pEntry->rssi_stat.CCK_pkt >= 5) && (pEntry->rssi_stat.bsend_rssi == RA_RSSI_STATE_INIT)) {
++			
++				send_rssi_2_fw = 1;
++				pEntry->rssi_stat.bsend_rssi = RA_RSSI_STATE_SEND;
++			}
++
++			pEntry->rssi_stat.UndecoratedSmoothedCCK = UndecoratedSmoothedCCK;
++			pEntry->rssi_stat.UndecoratedSmoothedOFDM = UndecoratedSmoothedOFDM;
++			pEntry->rssi_stat.UndecoratedSmoothedPWDB = UndecoratedSmoothedPWDB;
++
++
++			
++			if (send_rssi_2_fw) /* Trigger init rate by RSSI */ {
++				
++				if (pEntry->rssi_stat.OFDM_pkt != 0)
++					pEntry->rssi_stat.UndecoratedSmoothedPWDB = UndecoratedSmoothedOFDM;
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("[Send to FW] PWDB = (( %d )), OFDM_pkt = (( %d )), CCK_pkt = (( %d ))\n", 
++					UndecoratedSmoothedPWDB, pEntry->rssi_stat.OFDM_pkt, pEntry->rssi_stat.CCK_pkt));
++				
++				#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++				phydm_ra_rssi_rpt_wk(pDM_Odm);
++				#endif
++			}
++			
++
++			/*in WIN Driver: sta_ID==0 -> pEntry==NULL -> default port HAL_Data*/
++			#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))	
++				
++				if (pPktinfo->StationID == 0) { 
++					/**/
++					pHalData->UndecoratedSmoothedPWDB = UndecoratedSmoothedPWDB;
++				}
++			#endif
++			
++			//DbgPrint("OFDM_pkt=%d, Weighting=%d\n", OFDM_pkt, Weighting);
++			//DbgPrint("UndecoratedSmoothedOFDM=%d, UndecoratedSmoothedPWDB=%d, UndecoratedSmoothedCCK=%d\n", 
++			//	UndecoratedSmoothedOFDM, UndecoratedSmoothedPWDB, UndecoratedSmoothedCCK);
++			
++		}
++	
++	}
++}
++
++
++#if(ODM_IC_11N_SERIES_SUPPORT ==1)
++//
++// Endianness before calling this API
++//
++VOID
++ODM_PhyStatusQuery_92CSeries(
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	OUT		PODM_PHY_INFO_T				pPhyInfo,
++	IN 		pu1Byte						pPhyStatus,	
++	IN		PODM_PACKET_INFO_T			pPktinfo
++	)
++{
++	odm_RxPhyStatus92CSeries_Parsing(pDM_Odm, pPhyInfo, pPhyStatus, pPktinfo);
++	odm_Process_RSSIForDM(pDM_Odm, pPhyInfo, pPktinfo);
++}
++#endif
++
++
++//
++// Endianness before calling this API
++//
++#if	ODM_IC_11AC_SERIES_SUPPORT
++
++VOID
++ODM_PhyStatusQuery_JaguarSeries(
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	OUT		PODM_PHY_INFO_T			pPhyInfo,
++	IN 		pu1Byte						pPhyStatus,	
++	IN		PODM_PACKET_INFO_T			pPktinfo
++	)
++{
++	odm_RxPhyStatusJaguarSeries_Parsing(pDM_Odm, pPhyInfo,	pPhyStatus, pPktinfo);
++	odm_Process_RSSIForDM(pDM_Odm, pPhyInfo, pPktinfo);
++	
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	/*phydm_sbd_check(pDM_Odm);*/
++	#endif
++}
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++phydm_normal_driver_rx_sniffer(
++	IN OUT	PDM_ODM_T			pDM_Odm,
++	IN		pu1Byte				pDesc,
++	IN		PRT_RFD_STATUS		pRtRfdStatus,
++	IN		pu1Byte				pDrvInfo,
++	IN		u1Byte				PHYStatus
++	)
++{
++	#if (defined(CONFIG_PHYDM_RX_SNIFFER_PARSING)) 
++	u4Byte		*pMsg;
++	u2Byte		seq_num;
++	pFAT_T		pDM_FatTable = &pDM_Odm->DM_FatTable;
++
++	if (pRtRfdStatus->PacketReportType != NORMAL_RX)
++		return;
++	
++	if (!pDM_Odm->bLinked) {
++		if (pRtRfdStatus->bHwError)
++			return;
++	}
++
++	if (!(pDM_FatTable->FAT_State == FAT_TRAINING_STATE))
++		return;
++	
++	if (PHYStatus == TRUE) {
++
++		if ((pDM_Odm->rx_pkt_type == Type_BlockAck) || (pDM_Odm->rx_pkt_type == Type_RTS) || (pDM_Odm->rx_pkt_type == Type_CTS))
++			seq_num = 0;
++		else
++			seq_num = pRtRfdStatus->Seq_Num;
++
++		ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, ("%04d , %01s , Rate=0x%02x , L=%04d , %s , %s", 
++			seq_num,
++			/*pRtRfdStatus->MacID,*/
++			((pRtRfdStatus->bCRC) ? "C" : (pRtRfdStatus->bIsAMPDU) ? "A" : "_"),
++			pRtRfdStatus->DataRate,
++			pRtRfdStatus->Length,
++			((pRtRfdStatus->BandWidth == 0) ? "20M":((pRtRfdStatus->BandWidth == 1) ? "40M" : "80M")),
++			((pRtRfdStatus->bLDPC) ? "LDP" : "BCC")
++		));		
++		
++		if (pDM_Odm->rx_pkt_type == Type_Asoc_Req) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "AS_REQ"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_Asoc_Rsp) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "AS_RSP"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_Probe_Req) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "PR_REQ"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_Probe_Rsp) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "PR_RSP"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_Deauth) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "DEAUTH"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_Beacon) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "BEACON"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_BlockAckReq) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "BA_REQ"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_RTS) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "__RTS_"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_CTS) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "__CTS_"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_Ack) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "__ACK_"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_BlockAck) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "__BA__"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_Data) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "_DATA_"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_Data_Ack) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "Data_Ack"));
++			/**/
++		} else if (pDM_Odm->rx_pkt_type == Type_QosData) {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [%s]", "QoS_Data"));
++			/**/
++		} else {
++			ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [0x%x]", pDM_Odm->rx_pkt_type));
++			/**/
++		}
++
++		ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , [RSSI=%d,%d,%d,%d ]",
++			pDM_Odm->RSSI_A,
++			pDM_Odm->RSSI_B,
++			pDM_Odm->RSSI_C,
++			pDM_Odm->RSSI_D
++		));
++		
++		pMsg = (pu4Byte)pDrvInfo;
++		
++		ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, (" , P-STS[28:0]=%08x-%08x-%08x-%08x-%08x-%08x-%08x\n",
++			pMsg[6], pMsg[5], pMsg[4], pMsg[3], pMsg[2], pMsg[1], pMsg[1]));
++	} else {
++	
++		ODM_RT_TRACE_F(pDM_Odm, ODM_COMP_SNIFFER, ODM_DBG_LOUD, ("%04d , %01s , Rate=0x%02x , L=%04d , %s , %s\n", 
++			pRtRfdStatus->Seq_Num,
++			/*pRtRfdStatus->MacID,*/
++			((pRtRfdStatus->bCRC) ? "C" : (pRtRfdStatus->bIsAMPDU) ? "A" : "_"),
++			pRtRfdStatus->DataRate,
++			pRtRfdStatus->Length,
++			((pRtRfdStatus->BandWidth == 0) ? "20M" : ((pRtRfdStatus->BandWidth == 1) ? "40M" : "80M")),
++			((pRtRfdStatus->bLDPC) ? "LDP" : "BCC")
++		));		
++	}
++
++
++	#endif
++}
++#endif
++
++VOID
++ODM_PhyStatusQuery(
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	OUT		PODM_PHY_INFO_T			pPhyInfo,
++	IN 		pu1Byte						pPhyStatus,	
++	IN		PODM_PACKET_INFO_T			pPktinfo
++	)
++{
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++	if (pDM_Odm->SupportICType & ODM_IC_PHY_STATUE_NEW_TYPE) {
++		phydm_RxPhyStatusNewType(pDM_Odm, pPhyStatus, pPktinfo, pPhyInfo);
++		return;
++	}
++#endif
++
++#if	ODM_IC_11AC_SERIES_SUPPORT
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		ODM_PhyStatusQuery_JaguarSeries(pDM_Odm, pPhyInfo, pPhyStatus, pPktinfo);
++#endif
++
++#if	ODM_IC_11N_SERIES_SUPPORT
++	if(pDM_Odm->SupportICType & ODM_IC_11N_SERIES )
++		ODM_PhyStatusQuery_92CSeries(pDM_Odm,pPhyInfo,pPhyStatus,pPktinfo);
++#endif
++}
++	
++// For future use.
++VOID
++ODM_MacStatusQuery(
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	IN 		pu1Byte						pMacStatus,
++	IN		u1Byte						MacID,	
++	IN		BOOLEAN						bPacketMatchBSSID,
++	IN		BOOLEAN						bPacketToSelf,
++	IN		BOOLEAN						bPacketBeacon
++	)
++{
++	// 2011/10/19 Driver team will handle in the future.
++	
++}
++
++
++//
++// If you want to add a new IC, Please follow below template and generate a new one.
++// 
++//
++
++HAL_STATUS
++ODM_ConfigRFWithHeaderFile(
++	IN 	PDM_ODM_T	        	pDM_Odm,
++	IN 	ODM_RF_Config_Type 		ConfigType,
++	IN 	ODM_RF_RADIO_PATH_E 	eRFPath
++    )
++{
++#if (DM_ODM_SUPPORT_TYPE &  ODM_WIN)	
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PMGNT_INFO		pMgntInfo = &(Adapter->MgntInfo);	
++#endif
++
++   ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, 
++		 		("===>ODM_ConfigRFWithHeaderFile (%s)\n", (pDM_Odm->bIsMPChip) ? "MPChip" : "TestChip"));
++    ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, 
++				("pDM_Odm->SupportPlatform: 0x%X, pDM_Odm->SupportInterface: 0x%X, pDM_Odm->BoardType: 0x%X\n",
++				pDM_Odm->SupportPlatform, pDM_Odm->SupportInterface, pDM_Odm->BoardType));
++
++//1 AP doesn't use PHYDM power tracking table in these ICs
++#if (DM_ODM_SUPPORT_TYPE !=  ODM_AP)
++#if (RTL8812A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8812)
++	{
++		if(ConfigType == CONFIG_RF_RADIO) {
++			if(eRFPath == ODM_RF_PATH_A){
++				READ_AND_CONFIG_MP(8812A,_RadioA);
++			}
++			else if(eRFPath == ODM_RF_PATH_B){
++				READ_AND_CONFIG_MP(8812A,_RadioB);
++			}
++		}
++		else if(ConfigType == CONFIG_RF_TXPWR_LMT) {
++			#if (DM_ODM_SUPPORT_TYPE & ODM_WIN) && (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++			HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++			if ((pHalData->EEPROMSVID == 0x17AA && pHalData->EEPROMSMID == 0xA811) ||
++				(pHalData->EEPROMSVID == 0x10EC && pHalData->EEPROMSMID == 0xA812) ||
++				(pHalData->EEPROMSVID == 0x10EC && pHalData->EEPROMSMID == 0x8812))
++				READ_AND_CONFIG_MP(8812A,_TXPWR_LMT_HM812A03);
++			else
++			#endif				
++			READ_AND_CONFIG_MP(8812A,_TXPWR_LMT);
++		}
++	}
++#endif
++#if (RTL8821A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8821)
++	{
++		if(ConfigType == CONFIG_RF_RADIO) {
++	 		if(eRFPath == ODM_RF_PATH_A){
++				READ_AND_CONFIG_MP(8821A,_RadioA);
++			}
++		}
++		else if(ConfigType == CONFIG_RF_TXPWR_LMT) {
++			if (pDM_Odm->SupportInterface == ODM_ITRF_USB) {
++				if (pDM_Odm->ExtPA5G || pDM_Odm->ExtLNA5G)
++					READ_AND_CONFIG_MP(8821A,_TXPWR_LMT_8811AU_FEM);
++				else
++					READ_AND_CONFIG_MP(8821A,_TXPWR_LMT_8811AU_IPA);				
++			} 
++			else {
++				#if (DM_ODM_SUPPORT_TYPE &  ODM_WIN)
++				if (pMgntInfo->CustomerID == RT_CID_8821AE_ASUS_MB)
++					READ_AND_CONFIG_MP(8821A,_TXPWR_LMT_8821A_SAR_8mm);
++				else if (pMgntInfo->CustomerID == RT_CID_ASUS_NB)
++					READ_AND_CONFIG_MP(8821A,_TXPWR_LMT_8821A_SAR_5mm);
++				else
++				#endif
++					READ_AND_CONFIG_MP(8821A,_TXPWR_LMT_8821A);			
++			}
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("<===8821_ODM_ConfigRFWithHeaderFile\n"));
++	}
++#endif
++#if (RTL8192E_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8192E)
++	{
++		if(ConfigType == CONFIG_RF_RADIO) {
++		 	if(eRFPath == ODM_RF_PATH_A)
++				READ_AND_CONFIG_MP(8192E,_RadioA);
++			else if(eRFPath == ODM_RF_PATH_B)
++				READ_AND_CONFIG_MP(8192E,_RadioB);
++		} else if (ConfigType == CONFIG_RF_TXPWR_LMT) {
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN) && (DEV_BUS_TYPE == RT_PCI_INTERFACE)	/*Refine by Vincent Lan for 5mm SAR pwr limit*/
++			HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++			if ((pHalData->EEPROMSVID == 0x11AD && pHalData->EEPROMSMID == 0x8192) || 
++				(pHalData->EEPROMSVID == 0x11AD && pHalData->EEPROMSMID == 0x8193))
++				READ_AND_CONFIG_MP(8192E, _TXPWR_LMT_8192E_SAR_5mm);
++			else
++#endif	
++				READ_AND_CONFIG_MP(8192E, _TXPWR_LMT);
++		}
++	}
++#endif
++#if (RTL8723D_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++		if (ConfigType == CONFIG_RF_RADIO) {
++			if (eRFPath == ODM_RF_PATH_A)
++				READ_AND_CONFIG_MP(8723D, _RadioA);
++		} else if (ConfigType == CONFIG_RF_TXPWR_LMT) 
++			READ_AND_CONFIG_MP(8723D, _TXPWR_LMT);		
++	}
++#endif
++#endif//(DM_ODM_SUPPORT_TYPE !=  ODM_AP)
++
++//1 All platforms support
++#if (RTL8188E_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8188E)
++	{
++		if(ConfigType == CONFIG_RF_RADIO) {
++			if(eRFPath == ODM_RF_PATH_A)
++					READ_AND_CONFIG_MP(8188E,_RadioA);
++		}
++		else if(ConfigType == CONFIG_RF_TXPWR_LMT)
++			READ_AND_CONFIG_MP(8188E,_TXPWR_LMT);
++	}
++#endif
++#if (RTL8723B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++		if (ConfigType == CONFIG_RF_RADIO)
++			READ_AND_CONFIG_MP(8723B, _RadioA);
++		else if (ConfigType == CONFIG_RF_TXPWR_LMT)
++			READ_AND_CONFIG_MP(8723B, _TXPWR_LMT);
++	}
++#endif
++#if (RTL8814A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8814A)
++	{
++		if(ConfigType == CONFIG_RF_RADIO) {
++		 	if(eRFPath == ODM_RF_PATH_A)
++				READ_AND_CONFIG_MP(8814A,_RadioA);
++			else if(eRFPath == ODM_RF_PATH_B)
++				READ_AND_CONFIG_MP(8814A,_RadioB);
++			else if(eRFPath == ODM_RF_PATH_C)
++				READ_AND_CONFIG_MP(8814A,_RadioC);
++			else if(eRFPath == ODM_RF_PATH_D)
++				READ_AND_CONFIG_MP(8814A,_RadioD);
++		}	
++		else if(ConfigType == CONFIG_RF_TXPWR_LMT) 
++			READ_AND_CONFIG_MP(8814A,_TXPWR_LMT);
++	}
++#endif
++#if (RTL8703B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8703B) {
++		if (ConfigType == CONFIG_RF_RADIO) {
++			if (eRFPath == ODM_RF_PATH_A)
++				READ_AND_CONFIG_MP(8703B, _RadioA);
++		}	
++	}
++#endif
++#if (RTL8188F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8188F) {
++		if (ConfigType == CONFIG_RF_RADIO) {
++			if (eRFPath == ODM_RF_PATH_A)
++				READ_AND_CONFIG_MP(8188F, _RadioA);
++		} else if (ConfigType == CONFIG_RF_TXPWR_LMT)
++			READ_AND_CONFIG_MP(8188F, _TXPWR_LMT);
++	}
++#endif
++#if (RTL8822B_SUPPORT == 1)
++		if (pDM_Odm->SupportICType == ODM_RTL8822B) {
++			if (ConfigType == CONFIG_RF_RADIO) {
++				if (eRFPath == ODM_RF_PATH_A)
++					READ_AND_CONFIG_MP(8822B, _RadioA);
++				else if (eRFPath == ODM_RF_PATH_B)
++					READ_AND_CONFIG_MP(8822B, _RadioB);
++			}	
++		}
++#endif
++
++#if (RTL8197F_SUPPORT == 1)
++		if (pDM_Odm->SupportICType == ODM_RTL8197F) {
++			if (ConfigType == CONFIG_RF_RADIO) {
++				if (eRFPath == ODM_RF_PATH_A)
++					READ_AND_CONFIG_MP(8197F, _RadioA);
++				else if (eRFPath == ODM_RF_PATH_B)
++					READ_AND_CONFIG_MP(8197F, _RadioB);
++			}	
++		}
++#endif
++
++#if (RTL8821C_SUPPORT == 1)
++		if (pDM_Odm->SupportICType == ODM_RTL8821C) {
++			if (ConfigType == CONFIG_RF_RADIO) {
++				if (eRFPath == ODM_RF_PATH_A)
++					READ_AND_CONFIG_TC(8821C, _RadioA);
++			} else if (ConfigType == CONFIG_RF_TXPWR_LMT)
++				READ_AND_CONFIG_TC(8821C, _TXPWR_LMT);
++		}
++#endif
++
++	return HAL_STATUS_SUCCESS;
++}
++
++HAL_STATUS
++ODM_ConfigRFWithTxPwrTrackHeaderFile(
++	IN 	PDM_ODM_T	        	pDM_Odm
++    )
++{
++   	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, 
++		 		 ("===>ODM_ConfigRFWithTxPwrTrackHeaderFile (%s)\n", (pDM_Odm->bIsMPChip) ? "MPChip" : "TestChip"));
++   	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, 
++				 ("pDM_Odm->SupportPlatform: 0x%X, pDM_Odm->SupportInterface: 0x%X, pDM_Odm->BoardType: 0x%X\n",
++				 pDM_Odm->SupportPlatform, pDM_Odm->SupportInterface, pDM_Odm->BoardType));
++
++
++//1 AP doesn't use PHYDM power tracking table in these ICs
++#if (DM_ODM_SUPPORT_TYPE !=  ODM_AP)
++#if RTL8821A_SUPPORT
++	if(pDM_Odm->SupportICType == ODM_RTL8821)
++	{
++		if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE)
++			READ_AND_CONFIG_MP(8821A,_TxPowerTrack_PCIE);
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_USB)
++			READ_AND_CONFIG_MP(8821A,_TxPowerTrack_USB);			
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_SDIO)
++			READ_AND_CONFIG_MP(8821A,_TxPowerTrack_SDIO);
++	}
++#endif
++#if RTL8812A_SUPPORT	
++	if(pDM_Odm->SupportICType == ODM_RTL8812)
++	{
++		if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE)
++			READ_AND_CONFIG_MP(8812A,_TxPowerTrack_PCIE);
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_USB) {
++			if (pDM_Odm->RFEType == 3 && pDM_Odm->bIsMPChip) 
++				READ_AND_CONFIG_MP(8812A,_TxPowerTrack_RFE3);	
++			else
++				READ_AND_CONFIG_MP(8812A,_TxPowerTrack_USB);	
++		}
++		
++	}
++#endif	
++#if RTL8192E_SUPPORT 	
++	if(pDM_Odm->SupportICType == ODM_RTL8192E)
++	{
++		if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE)
++			READ_AND_CONFIG_MP(8192E,_TxPowerTrack_PCIE);
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_USB)
++			READ_AND_CONFIG_MP(8192E,_TxPowerTrack_USB); 
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_SDIO)
++			READ_AND_CONFIG_MP(8192E,_TxPowerTrack_SDIO); 
++	}
++#endif
++#if RTL8723D_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++		if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE)
++			READ_AND_CONFIG_MP(8723D, _TxPowerTrack_PCIE);
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_USB)
++			READ_AND_CONFIG_MP(8723D, _TxPowerTrack_USB); 
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_SDIO)
++			READ_AND_CONFIG_MP(8723D, _TxPowerTrack_SDIO); 
++		
++		READ_AND_CONFIG_MP(8723D, _TxXtalTrack);
++	}
++#endif
++#if RTL8188E_SUPPORT 	
++	if(pDM_Odm->SupportICType == ODM_RTL8188E)
++	{
++		if (PHY_QueryMacReg(pDM_Odm->Adapter, 0xF0, 0xF000) >= 8) {		/*if 0xF0[15:12] >= 8, SMIC*/
++			if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE)
++				READ_AND_CONFIG_MP(8188E, _TxPowerTrack_PCIE_ICUT);
++			else if (pDM_Odm->SupportInterface == ODM_ITRF_USB)
++				READ_AND_CONFIG_MP(8188E, _TxPowerTrack_USB_ICUT);
++			else if (pDM_Odm->SupportInterface == ODM_ITRF_SDIO)
++				READ_AND_CONFIG_MP(8188E, _TxPowerTrack_SDIO_ICUT);
++		} else {	/*else 0xF0[15:12] < 8, TSMC*/
++			if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE)
++				READ_AND_CONFIG_MP(8188E, _TxPowerTrack_PCIE);
++			else if (pDM_Odm->SupportInterface == ODM_ITRF_USB)
++				READ_AND_CONFIG_MP(8188E, _TxPowerTrack_USB);
++			else if (pDM_Odm->SupportInterface == ODM_ITRF_SDIO)
++				READ_AND_CONFIG_MP(8188E, _TxPowerTrack_SDIO);
++		}
++		
++	}
++#endif
++#endif//(DM_ODM_SUPPORT_TYPE !=  ODM_AP)
++
++//1 All platforms support
++#if RTL8723B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++		if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE)
++			READ_AND_CONFIG_MP(8723B, _TxPowerTrack_PCIE);
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_USB)
++			READ_AND_CONFIG_MP(8723B, _TxPowerTrack_USB);
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_SDIO)
++			READ_AND_CONFIG_MP(8723B, _TxPowerTrack_SDIO);
++	}
++#endif	
++#if RTL8814A_SUPPORT
++	if(pDM_Odm->SupportICType == ODM_RTL8814A) 
++	{
++		if(pDM_Odm->RFEType == 0)
++			READ_AND_CONFIG_MP(8814A,_TxPowerTrack_Type0);
++		else if(pDM_Odm->RFEType == 2)
++			READ_AND_CONFIG_MP(8814A,_TxPowerTrack_Type2);
++		else if (pDM_Odm->RFEType == 5)
++			READ_AND_CONFIG_MP(8814A, _TxPowerTrack_Type5);
++		else
++			READ_AND_CONFIG_MP(8814A,_TxPowerTrack);
++			
++		READ_AND_CONFIG_MP(8814A, _TxPowerTSSI);
++	}
++#endif
++#if RTL8703B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8703B) {
++		if (pDM_Odm->SupportInterface == ODM_ITRF_USB)
++			READ_AND_CONFIG_MP(8703B, _TxPowerTrack_USB);
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_SDIO)
++			READ_AND_CONFIG_MP(8703B, _TxPowerTrack_SDIO);		
++
++		READ_AND_CONFIG_MP(8703B, _TxXtalTrack);
++	}
++#endif
++
++#if RTL8188F_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8188F) {
++		if (pDM_Odm->SupportInterface == ODM_ITRF_USB)
++			READ_AND_CONFIG_MP(8188F, _TxPowerTrack_USB);
++		else if (pDM_Odm->SupportInterface == ODM_ITRF_SDIO)
++			READ_AND_CONFIG_MP(8188F, _TxPowerTrack_SDIO);
++	}
++#endif
++
++#if RTL8822B_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8822B) {
++		if (pDM_Odm->RFEType == 0)
++			READ_AND_CONFIG_MP(8822B, _TxPowerTrack_type0);
++		else if (pDM_Odm->RFEType == 1)
++			READ_AND_CONFIG_MP(8822B, _TxPowerTrack_type1);
++		else if ((pDM_Odm->RFEType == 3) || (pDM_Odm->RFEType == 5))
++			READ_AND_CONFIG_MP(8822B, _TxPowerTrack_Type3_Type5);
++		else if (pDM_Odm->RFEType == 6)
++			READ_AND_CONFIG_MP(8822B, _TxPowerTrack_type6);
++		else if (pDM_Odm->RFEType == 7)
++			READ_AND_CONFIG_MP(8822B, _TxPowerTrack_type7);
++		else
++			READ_AND_CONFIG_MP(8822B, _TxPowerTrack);
++	}
++#endif
++
++#if RTL8197F_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8197F) {
++		if (pDM_Odm->RFEType == 0)
++			READ_AND_CONFIG_MP(8197F, _TxPowerTrack_Type0);
++		else if (pDM_Odm->RFEType == 1)
++			READ_AND_CONFIG_MP(8197F, _TxPowerTrack_Type1);
++		else
++			READ_AND_CONFIG_MP(8197F, _TxPowerTrack);
++	}
++#endif	
++
++#if RTL8821C_SUPPORT
++	if (pDM_Odm->SupportICType == ODM_RTL8821C)
++			READ_AND_CONFIG_TC(8821C, _TxPowerTrack);
++#endif
++
++	return HAL_STATUS_SUCCESS;
++}
++
++HAL_STATUS
++ODM_ConfigBBWithHeaderFile(
++	IN 	PDM_ODM_T	             	pDM_Odm,
++	IN 	ODM_BB_Config_Type 		ConfigType
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE &  ODM_WIN)	
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PMGNT_INFO		pMgntInfo = &(Adapter->MgntInfo);	
++#endif
++
++//1 AP doesn't use PHYDM initialization in these ICs
++#if (DM_ODM_SUPPORT_TYPE !=  ODM_AP)	
++#if (RTL8812A_SUPPORT == 1) 
++	if(pDM_Odm->SupportICType == ODM_RTL8812)
++	{
++		if (ConfigType == CONFIG_BB_PHY_REG) {
++			READ_AND_CONFIG_MP(8812A, _PHY_REG);
++		} else if (ConfigType == CONFIG_BB_AGC_TAB) {
++			READ_AND_CONFIG_MP(8812A, _AGC_TAB);
++		} else if (ConfigType == CONFIG_BB_PHY_REG_PG) {
++			if (pDM_Odm->RFEType == 3 && pDM_Odm->bIsMPChip) 
++				READ_AND_CONFIG_MP(8812A, _PHY_REG_PG_ASUS);
++			#if (DM_ODM_SUPPORT_TYPE &  ODM_WIN)
++			else if (pMgntInfo->CustomerID == RT_CID_WNC_NEC && pDM_Odm->bIsMPChip) 
++				READ_AND_CONFIG_MP(8812A, _PHY_REG_PG_NEC);
++			#if RT_PLATFORM == PLATFORM_MACOSX
++			/*{1827}{1024} for BUFFALO power by rate table. Isaiah 2013-11-29*/
++			else if (pMgntInfo->CustomerID == RT_CID_DNI_BUFFALO)
++				READ_AND_CONFIG_MP(8812A, _PHY_REG_PG_DNI);
++			/* TP-Link T4UH, Isaiah 2015-03-16*/
++			else if (pMgntInfo->CustomerID == RT_CID_TPLINK_HPWR) {
++				DbgPrint("RT_CID_TPLINK_HPWR:: _PHY_REG_PG_TPLINK\n");
++				READ_AND_CONFIG_MP(8812A, _PHY_REG_PG_TPLINK);
++			}
++			#endif
++			#endif			
++			else
++				READ_AND_CONFIG_MP(8812A, _PHY_REG_PG);
++		}
++		else if(ConfigType == CONFIG_BB_PHY_REG_MP){
++			READ_AND_CONFIG_MP(8812A,_PHY_REG_MP);
++		}
++		else if(ConfigType == CONFIG_BB_AGC_TAB_DIFF)
++		{
++			if ((36 <= *pDM_Odm->pChannel)  && (*pDM_Odm->pChannel  <= 64)) 
++				AGC_DIFF_CONFIG_MP(8812A,LB);
++			else if (100 <= *pDM_Odm->pChannel) 
++				AGC_DIFF_CONFIG_MP(8812A,HB);
++		}
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, (" ===> phy_ConfigBBWithHeaderFile() phy:Rtl8812AGCTABArray\n"));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, (" ===> phy_ConfigBBWithHeaderFile() agc:Rtl8812PHY_REGArray\n"));
++	}		
++#endif
++#if (RTL8821A_SUPPORT == 1) 
++	if (pDM_Odm->SupportICType == ODM_RTL8821) {
++		if (ConfigType == CONFIG_BB_PHY_REG) {
++			READ_AND_CONFIG_MP(8821A, _PHY_REG);
++		} else if (ConfigType == CONFIG_BB_AGC_TAB) {
++			READ_AND_CONFIG_MP(8821A, _AGC_TAB);
++		} else if (ConfigType == CONFIG_BB_PHY_REG_PG) {
++			#if (DM_ODM_SUPPORT_TYPE & ODM_WIN) 
++			#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++			HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++			if ((pHalData->EEPROMSVID == 0x1043 && pHalData->EEPROMSMID == 0x207F))
++				READ_AND_CONFIG_MP(8821A, _PHY_REG_PG_E202SA);
++			else
++			#endif
++			#if (RT_PLATFORM == PLATFORM_MACOSX)
++			/*{1827}{1022} for BUFFALO power by rate table. Isaiah 2013-10-18*/
++			if (pMgntInfo->CustomerID == RT_CID_DNI_BUFFALO) {
++				/*{1024} for BUFFALO power by rate table. (JP/US)*/
++				if (pMgntInfo->ChannelPlan == RT_CHANNEL_DOMAIN_US_2G_CANADA_5G)
++					READ_AND_CONFIG_MP(8821A, _PHY_REG_PG_DNI_US);
++				else
++					READ_AND_CONFIG_MP(8821A, _PHY_REG_PG_DNI_JP);
++			} else
++			#endif
++			#endif
++			READ_AND_CONFIG_MP(8821A,_PHY_REG_PG);
++		}		
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, (" ===> phy_ConfigBBWithHeaderFile() phy:Rtl8821AGCTABArray\n"));
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, (" ===> phy_ConfigBBWithHeaderFile() agc:Rtl8821PHY_REGArray\n"));
++	}		
++#endif
++#if (RTL8192E_SUPPORT == 1)
++	if(pDM_Odm->SupportICType == ODM_RTL8192E)
++	{
++		if(ConfigType == CONFIG_BB_PHY_REG){
++			READ_AND_CONFIG_MP(8192E,_PHY_REG);
++		}else if(ConfigType == CONFIG_BB_AGC_TAB){
++			READ_AND_CONFIG_MP(8192E,_AGC_TAB);
++		}else if(ConfigType == CONFIG_BB_PHY_REG_PG){
++			READ_AND_CONFIG_MP(8192E,_PHY_REG_PG);
++		}
++	}
++#endif
++#if (RTL8723D_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++		if (ConfigType == CONFIG_BB_PHY_REG)
++			READ_AND_CONFIG_MP(8723D, _PHY_REG);
++		else if (ConfigType == CONFIG_BB_AGC_TAB)
++			READ_AND_CONFIG_MP(8723D, _AGC_TAB);
++		else if (ConfigType == CONFIG_BB_PHY_REG_PG)
++			READ_AND_CONFIG_MP(8723D, _PHY_REG_PG);
++	}
++#endif
++#endif//(DM_ODM_SUPPORT_TYPE !=  ODM_AP)
++
++
++//1 All platforms support
++#if (RTL8188E_SUPPORT == 1)
++	if(pDM_Odm->SupportICType == ODM_RTL8188E)
++	{
++		if(ConfigType == CONFIG_BB_PHY_REG)
++			READ_AND_CONFIG_MP(8188E,_PHY_REG);
++		else if(ConfigType == CONFIG_BB_AGC_TAB)
++			READ_AND_CONFIG_MP(8188E,_AGC_TAB);
++		else if(ConfigType == CONFIG_BB_PHY_REG_PG)
++			READ_AND_CONFIG_MP(8188E,_PHY_REG_PG);
++	}
++#endif
++#if (RTL8723B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++		if (ConfigType == CONFIG_BB_PHY_REG) {
++			READ_AND_CONFIG_MP(8723B, _PHY_REG);
++		} else if (ConfigType == CONFIG_BB_AGC_TAB) {
++			READ_AND_CONFIG_MP(8723B, _AGC_TAB);
++		} else if (ConfigType == CONFIG_BB_PHY_REG_PG) {
++			READ_AND_CONFIG_MP(8723B, _PHY_REG_PG);
++		}
++	}
++#endif
++#if (RTL8814A_SUPPORT == 1)
++	if(pDM_Odm->SupportICType == ODM_RTL8814A)
++	{
++		if(ConfigType == CONFIG_BB_PHY_REG){
++			READ_AND_CONFIG_MP(8814A,_PHY_REG);
++		}else if(ConfigType == CONFIG_BB_AGC_TAB){
++			READ_AND_CONFIG_MP(8814A,_AGC_TAB);
++		}else if(ConfigType == CONFIG_BB_PHY_REG_PG){
++			READ_AND_CONFIG_MP(8814A,_PHY_REG_PG);
++		}else if(ConfigType == CONFIG_BB_PHY_REG_MP){
++			READ_AND_CONFIG_MP(8814A,_PHY_REG_MP);
++		}
++	}
++#endif
++#if (RTL8703B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8703B) {
++		if (ConfigType == CONFIG_BB_PHY_REG)
++			READ_AND_CONFIG_MP(8703B, _PHY_REG);
++		else if (ConfigType == CONFIG_BB_AGC_TAB)
++			READ_AND_CONFIG_MP(8703B, _AGC_TAB);
++		else if (ConfigType == CONFIG_BB_PHY_REG_PG)
++			READ_AND_CONFIG_MP(8703B, _PHY_REG_PG);
++	}
++#endif
++#if (RTL8188F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8188F) {
++		if (ConfigType == CONFIG_BB_PHY_REG) 
++			READ_AND_CONFIG_MP(8188F, _PHY_REG);
++		else if (ConfigType == CONFIG_BB_AGC_TAB) 
++			READ_AND_CONFIG_MP(8188F, _AGC_TAB);
++		else if (ConfigType == CONFIG_BB_PHY_REG_PG) 
++			READ_AND_CONFIG_MP(8188F, _PHY_REG_PG);
++	}
++#endif
++#if (RTL8822B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8822B) {
++		if (ConfigType == CONFIG_BB_PHY_REG)
++			READ_AND_CONFIG_MP(8822B, _PHY_REG);
++		else if (ConfigType == CONFIG_BB_AGC_TAB)
++			READ_AND_CONFIG_MP(8822B, _AGC_TAB);
++		else if (ConfigType == CONFIG_BB_PHY_REG_PG)
++			READ_AND_CONFIG_MP(8822B, _PHY_REG_PG);
++		/*else if (ConfigType == CONFIG_BB_PHY_REG_MP)*/
++			/*READ_AND_CONFIG_MP(8822B, _PHY_REG_MP);*/
++	}
++#endif
++
++#if (RTL8197F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8197F) {
++		if (ConfigType == CONFIG_BB_PHY_REG) {
++			READ_AND_CONFIG_MP(8197F, _PHY_REG);
++			if (pDM_Odm->CutVersion == ODM_CUT_A)
++				phydm_phypara_a_cut(pDM_Odm);
++		} else if (ConfigType == CONFIG_BB_AGC_TAB)
++			READ_AND_CONFIG_MP(8197F, _AGC_TAB);
++/*		else if(ConfigType == CONFIG_BB_PHY_REG_PG)
++			READ_AND_CONFIG_MP(8197F, _PHY_REG_PG);
++		else if(ConfigType == CONFIG_BB_PHY_REG_MP)
++			READ_AND_CONFIG_MP(8197F, _PHY_REG_MP); */
++	}
++#endif
++
++#if (RTL8821C_SUPPORT == 1) 
++	if (pDM_Odm->SupportICType == ODM_RTL8821C)
++	{
++		if (ConfigType == CONFIG_BB_PHY_REG) {
++			READ_AND_CONFIG_TC(8821C, _PHY_REG);
++		} else if (ConfigType == CONFIG_BB_AGC_TAB) { 
++		    READ_AND_CONFIG_TC(8821C, _AGC_TAB);
++		} else if (ConfigType == CONFIG_BB_PHY_REG_PG) {
++			READ_AND_CONFIG_TC(8821C, _PHY_REG_PG);
++		}
++	}		
++#endif
++
++#if (RTL8195A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8195A)
++	{
++		if(ConfigType == CONFIG_BB_PHY_REG)
++			READ_AND_CONFIG(8195A, _PHY_REG);
++		else if(ConfigType == CONFIG_BB_AGC_TAB)
++			READ_AND_CONFIG(8195A, _AGC_TAB);
++		else if(ConfigType == CONFIG_BB_PHY_REG_PG)
++			READ_AND_CONFIG(8195A, _PHY_REG_PG);
++	}
++#endif
++
++	return HAL_STATUS_SUCCESS; 
++}                 
++
++HAL_STATUS
++ODM_ConfigMACWithHeaderFile(
++	IN 	PDM_ODM_T	pDM_Odm
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE &  ODM_WIN)	
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, 
++		 		("===>ODM_ConfigMACWithHeaderFile (%s)\n", (pDM_Odm->bIsMPChip) ? "MPChip" : "TestChip"));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, 
++				("pDM_Odm->SupportPlatform: 0x%X, pDM_Odm->SupportInterface: 0x%X, pDM_Odm->BoardType: 0x%X\n",
++				pDM_Odm->SupportPlatform, pDM_Odm->SupportInterface, pDM_Odm->BoardType));
++
++//1 AP doesn't use PHYDM initialization in these ICs
++#if (DM_ODM_SUPPORT_TYPE !=  ODM_AP)	
++#if (RTL8812A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8812){
++		READ_AND_CONFIG_MP(8812A, _MAC_REG);
++	}
++#endif
++#if (RTL8821A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8821){
++		READ_AND_CONFIG_MP(8821A, _MAC_REG);
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("<===8821_ODM_ConfigMACwithHeaderFile\n"));
++	}
++#endif
++#if (RTL8192E_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8192E){
++		READ_AND_CONFIG_MP(8192E, _MAC_REG);
++	}
++#endif
++#if (RTL8723D_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8723D)
++		READ_AND_CONFIG_MP(8723D, _MAC_REG);
++#endif
++#endif//(DM_ODM_SUPPORT_TYPE !=  ODM_AP)
++
++//1 All platforms support
++#if (RTL8188E_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8188E){
++		READ_AND_CONFIG_MP(8188E, _MAC_REG);
++	}
++#endif
++#if (RTL8723B_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++		READ_AND_CONFIG_MP(8723B, _MAC_REG);
++	}
++#endif
++#if (RTL8814A_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8814A){
++		READ_AND_CONFIG_MP(8814A, _MAC_REG);
++	}
++#endif
++#if (RTL8703B_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8703B)
++		READ_AND_CONFIG_MP(8703B, _MAC_REG);
++#endif
++#if (RTL8188F_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8188F) 
++		READ_AND_CONFIG_MP(8188F, _MAC_REG);
++#endif
++#if (RTL8822B_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8822B)
++		READ_AND_CONFIG_MP(8822B, _MAC_REG);
++#endif
++
++#if (RTL8197F_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8197F)
++		READ_AND_CONFIG_MP(8197F, _MAC_REG);
++#endif
++
++#if (RTL8821C_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8821C)
++		READ_AND_CONFIG_TC(8821C, _MAC_REG);
++#endif
++
++#if (RTL8195A_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8195A)
++		READ_AND_CONFIG_MP(8195A, _MAC_REG);
++#endif
++
++	return HAL_STATUS_SUCCESS;    
++} 
++
++HAL_STATUS
++ODM_ConfigFWWithHeaderFile(
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN 	ODM_FW_Config_Type 	ConfigType,
++	OUT u1Byte				*pFirmware,
++	OUT u4Byte				*pSize
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE != ODM_AP)
++
++#if (RTL8188E_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8188E)
++	{
++	#ifdef CONFIG_SFW_SUPPORTED
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8188E_T,_FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN)
++			READ_FIRMWARE_MP(8188E_T,_FW_WoWLAN);
++		else if(ConfigType == CONFIG_FW_NIC_2)
++			READ_FIRMWARE_MP(8188E_S,_FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN_2)
++			READ_FIRMWARE_MP(8188E_S,_FW_WoWLAN);
++		#ifdef CONFIG_AP_WOWLAN
++		if (ConfigType == CONFIG_FW_AP)
++			READ_FIRMWARE_MP(8188E_T,_FW_AP);
++		else if (ConfigType == CONFIG_FW_AP_2)
++			READ_FIRMWARE_MP(8188E_S,_FW_AP);
++		#endif //CONFIG_AP_WOWLAN
++	#else
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8188E_T,_FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN)
++			READ_FIRMWARE_MP(8188E_T,_FW_WoWLAN);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP)
++			READ_FIRMWARE_MP(8188E_T,_FW_AP);
++		#endif //CONFIG_AP_WOWLAN
++	#endif
++	}
++#endif
++#if (RTL8723B_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8723B)
++	{
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8723B,_FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN)
++			READ_FIRMWARE_MP(8723B,_FW_WoWLAN);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP_WoWLAN)
++			READ_FIRMWARE(8723B,_FW_AP_WoWLAN);
++		#endif
++		
++	}
++#endif //#if (RTL8723B_SUPPORT == 1)  
++#if (RTL8812A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8812)
++	{
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8812A,_FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN)
++			READ_FIRMWARE_MP(8812A,_FW_WoWLAN);
++		else if (ConfigType == CONFIG_FW_BT)
++			READ_FIRMWARE_MP(8812A,_FW_NIC_BT);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP_WoWLAN)
++			READ_FIRMWARE(8812A,_FW_AP);
++		#endif
++	}
++#endif
++#if (RTL8821A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8821){
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8821A,_FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN)
++			READ_FIRMWARE_MP(8821A,_FW_WoWLAN);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP_WoWLAN)
++			READ_FIRMWARE_MP(8821A , _FW_AP);
++		#endif /*CONFIG_AP_WOWLAN*/
++		else if (ConfigType == CONFIG_FW_BT)
++			READ_FIRMWARE_MP(8821A,_FW_NIC_BT);
++	}
++#endif
++#if (RTL8192E_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8192E)
++	{
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8192E,_FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN)
++			READ_FIRMWARE_MP(8192E,_FW_WoWLAN);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP_WoWLAN)
++			READ_FIRMWARE_MP(8192E,_FW_AP);
++		#endif
++	}
++#endif
++#if (RTL8723D_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8723D) {
++		if (ConfigType == CONFIG_FW_NIC) {
++			READ_FIRMWARE_MP(8723D, _FW_NIC);
++		} else if (ConfigType == CONFIG_FW_WoWLAN) {
++			READ_FIRMWARE_MP(8723D, _FW_WoWLAN);
++		}
++	}
++#endif
++/*#if (RTL8814A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8814A)
++	{
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8814A, _FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN)
++			READ_FIRMWARE_MP(8814A, _FW_WoWLAN);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP_WoWLAN)
++			READ_FIRMWARE_MP(8814A, _FW_AP);
++		#endif
++	}
++#endif */
++
++#if (RTL8814A_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8814A)
++	{
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8814A,_FW_NIC);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP_WoWLAN)
++			READ_FIRMWARE_MP(8814A,_FW_AP);
++		#endif
++	}
++#endif
++
++#if (RTL8703B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8703B) {
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8703B, _FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN)
++			READ_FIRMWARE_MP(8703B, _FW_WoWLAN);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP_WoWLAN)
++			READ_FIRMWARE(8703B, _FW_AP_WoWLAN);
++		#endif
++	}
++#endif
++
++#if (RTL8188F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8188F) {
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8188F, _FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN)
++			READ_FIRMWARE_MP(8188F, _FW_WoWLAN);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP)
++			READ_FIRMWARE_MP(8188F, _FW_AP);
++		#endif
++	}
++#endif
++
++#if (RTL8822B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8822B) {
++		
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8822B,_FW_NIC);
++		else if (ConfigType == CONFIG_FW_WoWLAN)
++                    READ_FIRMWARE_MP(8822B, _FW_WOWLAN);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP_WoWLAN)
++			READ_FIRMWARE(8822B,_FW_AP);
++		#endif
++	}
++#endif
++
++#if (RTL8197F_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8197F) {
++		if (ConfigType == CONFIG_FW_NIC)
++			READ_FIRMWARE_MP(8197F, _FW_NIC);
++		#ifdef CONFIG_AP_WOWLAN
++		else if (ConfigType == CONFIG_FW_AP_WoWLAN)
++			READ_FIRMWARE(8197F , _FW_AP);
++		#endif
++	}
++#endif
++
++#endif//(DM_ODM_SUPPORT_TYPE != ODM_AP)
++	return HAL_STATUS_SUCCESS;    
++} 
++
++u4Byte 
++ODM_GetHWImgVersion(
++	IN	PDM_ODM_T	pDM_Odm
++	)
++{
++    u4Byte  Version=0;
++
++//1 AP doesn't use PHYDM initialization in these ICs
++#if (DM_ODM_SUPPORT_TYPE != ODM_AP)
++#if (RTL8821A_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8821)
++		Version = GET_VERSION_MP(8821A,_MAC_REG);
++#endif
++#if (RTL8192E_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8192E)
++		Version = GET_VERSION_MP(8192E,_MAC_REG);
++#endif
++#if (RTL8812A_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8812)
++		Version = GET_VERSION_MP(8812A,_MAC_REG);
++#endif
++#if (RTL8723D_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8723D)
++		Version = GET_VERSION_MP(8723D, _MAC_REG);
++#endif
++#endif //(DM_ODM_SUPPORT_TYPE != ODM_AP)
++
++/*1 All platforms support*/
++#if (RTL8188E_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8188E)
++		Version = GET_VERSION_MP(8188E,_MAC_REG);
++#endif
++#if (RTL8723B_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8723B)
++		Version = GET_VERSION_MP(8723B, _MAC_REG);
++#endif
++#if (RTL8814A_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8814A)
++		Version = GET_VERSION_MP(8814A,_MAC_REG);
++#endif
++#if (RTL8703B_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8703B)
++		Version = GET_VERSION_MP(8703B, _MAC_REG);
++#endif
++#if (RTL8188F_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8188F)
++		Version = GET_VERSION_MP(8188F, _MAC_REG);
++#endif
++#if (RTL8822B_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8822B)
++		Version = GET_VERSION_MP(8822B, _MAC_REG);
++#endif
++
++#if (RTL8197F_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8197F)
++		Version = GET_VERSION_MP(8197F, _MAC_REG);
++#endif
++
++#if (RTL8821C_SUPPORT == 1)  
++	if (pDM_Odm->SupportICType == ODM_RTL8821C)
++		Version = GET_VERSION_TC(8821C, _MAC_REG);
++#endif
++
++	return Version;
++}
++
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++/* For 8822B only!! need to move to FW finally */
++/*==============================================*/
++
++VOID
++phydm_ResetPhyInfo(
++	IN		PDM_ODM_T					pPhydm,
++	OUT		PODM_PHY_INFO_T			pPhyInfo
++)
++{
++	pPhyInfo->RxPWDBAll = 0;
++	pPhyInfo->SignalQuality = 0;
++	pPhyInfo->BandWidth = 0;
++	pPhyInfo->RxCount = 0;
++	ODM_Memory_Set(pPhydm, pPhyInfo->RxMIMOSignalQuality, 0 , 4);
++	ODM_Memory_Set(pPhydm, pPhyInfo->RxMIMOSignalStrength, 0, 4);
++	ODM_Memory_Set(pPhydm, pPhyInfo->RxSNR, 0, 4);
++
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))	
++	pPhyInfo->RxPower = -110;
++	pPhyInfo->RecvSignalPower = -110;
++	pPhyInfo->BTRxRSSIPercentage = 0;
++	pPhyInfo->SignalStrength = 0;
++	pPhyInfo->btCoexPwrAdjust = 0;
++	pPhyInfo->channel = 0;
++	pPhyInfo->bMuPacket = 0;
++	pPhyInfo->bBeamformed = 0;
++	pPhyInfo->rxsc = 0;
++	ODM_Memory_Set(pPhydm, pPhyInfo->RxPwr, -110, 4);
++	ODM_Memory_Set(pPhydm, pPhyInfo->RxMIMOEVMdbm, 0, 4);
++	ODM_Memory_Set(pPhydm, pPhyInfo->Cfo_short, 0, 8);
++	ODM_Memory_Set(pPhydm, pPhyInfo->Cfo_tail, 0, 8);
++#endif
++}
++
++VOID
++phydm_SetPerPathPhyInfo(
++	IN		u1Byte							RxPath,
++	IN		s1Byte							RxPwr,
++	IN		s1Byte							RxEVM,
++	IN		s1Byte							Cfo_tail,
++	IN		s1Byte							RxSNR,
++	OUT		PODM_PHY_INFO_T				pPhyInfo
++)
++{
++	u1Byte			EVMdBm = 0;
++	u1Byte			EVMPercentage = 0;
++
++	/* SNR is S(8,1), EVM is S(8,1), CFO is S(8,7) */
++	
++	if (RxEVM < 0) {
++		/* Calculate EVM in dBm */
++		EVMdBm = ((u1Byte)(0 - RxEVM) >> 1);
++
++		/* Calculate EVM in percentage */
++		if (EVMdBm >= 33)
++			EVMPercentage = 100;
++		else 
++			EVMPercentage = (EVMdBm << 1) + (EVMdBm);
++	}
++	
++
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++	pPhyInfo->RxPwr[RxPath] = RxPwr;
++	pPhyInfo->RxMIMOEVMdbm[RxPath] = EVMdBm;
++
++	/* CFO = CFO_tail * 312.5 / 2^7 ~= CFO tail * 39/512 (kHz)*/
++	pPhyInfo->Cfo_tail[RxPath] = Cfo_tail;
++	pPhyInfo->Cfo_tail[RxPath] = ((pPhyInfo->Cfo_tail[RxPath] << 5) + (pPhyInfo->Cfo_tail[RxPath] << 2) +
++		(pPhyInfo->Cfo_tail[RxPath] << 1) + (pPhyInfo->Cfo_tail[RxPath])) >> 9;
++#endif
++
++	pPhyInfo->RxMIMOSignalStrength[RxPath] = odm_QueryRxPwrPercentage(RxPwr);
++	pPhyInfo->RxMIMOSignalQuality[RxPath] = EVMPercentage;
++	pPhyInfo->RxSNR[RxPath] = RxSNR >> 1;
++
++/*
++	//if (pPktinfo->bPacketMatchBSSID) 
++	{
++		DbgPrint("Path (%d)--------\n", RxPath);
++		DbgPrint("RxPwr = %d, Signal strength = %d\n", pPhyInfo->RxPwr[RxPath], pPhyInfo->RxMIMOSignalStrength[RxPath]);
++		DbgPrint("EVMdBm = %d, Signal quality = %d\n", pPhyInfo->RxMIMOEVMdbm[RxPath], pPhyInfo->RxMIMOSignalQuality[RxPath]);
++		DbgPrint("CFO = %d, SNR = %d\n", pPhyInfo->Cfo_tail[RxPath], pPhyInfo->RxSNR[RxPath]);
++	}	
++*/
++}
++
++VOID
++phydm_SetCommonPhyInfo(
++	IN		s1Byte							RxPower,
++	IN		u1Byte							channel,
++	IN		BOOLEAN							bBeamformed,
++	IN		BOOLEAN							bMuPacket,
++	IN		u1Byte							bandwidth,
++	IN		u1Byte							signalQuality,
++	IN		u1Byte							rxsc,
++	OUT		PODM_PHY_INFO_T				pPhyInfo
++)
++{
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++	pPhyInfo->RxPower = RxPower;											/* RSSI in dB */
++	pPhyInfo->RecvSignalPower = RxPower;										/* RSSI in dB */
++	pPhyInfo->channel = channel;												/* channel number */
++	pPhyInfo->bBeamformed = bBeamformed;									/* apply BF */
++	pPhyInfo->bMuPacket = bMuPacket;										/* MU packet */
++	pPhyInfo->rxsc = rxsc;
++#endif
++	pPhyInfo->RxPWDBAll = odm_QueryRxPwrPercentage(RxPower);				/* RSSI in percentage */
++	pPhyInfo->SignalQuality = signalQuality;										/* signal quality */
++	pPhyInfo->BandWidth = bandwidth;											/* bandwidth */
++
++/*
++	//if (pPktinfo->bPacketMatchBSSID)
++	{
++		DbgPrint("RxPWDBAll = %d, RxPower = %d, RecvSignalPower = %d\n", pPhyInfo->RxPWDBAll, pPhyInfo->RxPower, pPhyInfo->RecvSignalPower);
++		DbgPrint("SignalQuality = %d\n", pPhyInfo->SignalQuality);
++		DbgPrint("bBeamformed = %d, bMuPacket = %d, RxCount = %d\n", pPhyInfo->bBeamformed, pPhyInfo->bMuPacket, pPhyInfo->RxCount + 1);
++		DbgPrint("channel = %d, rxsc = %d, BandWidth = %d\n", channel, rxsc, bandwidth);
++	}
++*/
++}
++
++VOID
++phydm_GetRxPhyStatusType0(
++	IN		PDM_ODM_T						pDM_Odm,
++	IN		pu1Byte							pPhyStatus,
++	IN		PODM_PACKET_INFO_T				pPktinfo,
++	OUT		PODM_PHY_INFO_T				pPhyInfo
++)
++{
++	/* Type 0 is used for cck packet */
++	
++	PPHY_STATUS_RPT_JAGUAR2_TYPE0	pPhyStaRpt = (PPHY_STATUS_RPT_JAGUAR2_TYPE0)pPhyStatus;
++	u1Byte							i, SQ = 0;
++	s1Byte							RxPower = pPhyStaRpt->pwdb - 110;
++
++	/* Calculate Signal Quality*/
++	if (pPktinfo->bPacketMatchBSSID) {
++		if (pPhyStaRpt->signal_quality >= 64)
++			SQ = 0;
++		else if (pPhyStaRpt->signal_quality <= 20)
++			SQ = 100;
++		else {
++			/* mapping to 2~99% */
++			SQ = 64 - pPhyStaRpt->signal_quality;
++			SQ = ((SQ << 3) + SQ) >> 2;
++		}
++	}
++
++	/* Modify CCK PWDB if old AGC */
++	if (pDM_Odm->cck_new_agc == FALSE) {
++		u1Byte	LNA_idx, VGA_idx;
++
++#if (RTL8197F_SUPPORT == 1)		
++		if (pDM_Odm->SupportICType & ODM_RTL8197F)
++			LNA_idx = pPhyStaRpt->lna_l;
++		else
++#endif
++			LNA_idx = ((pPhyStaRpt->lna_h << 3) | pPhyStaRpt->lna_l);
++		VGA_idx = pPhyStaRpt->vga;
++	
++#if (RTL8723D_SUPPORT == 1)
++		if (pDM_Odm->SupportICType & ODM_RTL8723D)
++			RxPower = odm_CCKRSSI_8723D(LNA_idx, VGA_idx);
++#endif
++#if (RTL8822B_SUPPORT == 1)
++		/* Need to do !! */
++		/*if (pDM_Odm->SupportICType & ODM_RTL8822B) */
++			/*RxPower = odm_CCKRSSI_8822B(LNA_idx, VGA_idx);*/
++#endif
++#if (RTL8197F_SUPPORT == 1)
++		if (pDM_Odm->SupportICType & ODM_RTL8197F) 
++			RxPower = odm_CCKRSSI_8197F(pDM_Odm, LNA_idx, VGA_idx);
++#endif
++	}
++
++	/* Update CCK packet counter */
++	pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK++;
++
++	/* Update Common information */
++	phydm_SetCommonPhyInfo(RxPower, pPhyStaRpt->channel, FALSE, 
++		FALSE, ODM_BW20M, SQ, pPhyStaRpt->rxsc, pPhyInfo);
++
++	/* Update CCK pwdb */
++	phydm_SetPerPathPhyInfo(ODM_RF_PATH_A, RxPower, 0, 0, 0, pPhyInfo);					/* Update per-path information */
++
++	pDM_Odm->DM_FatTable.antsel_rx_keep_0 = pPhyStaRpt->antidx_a;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_1 = pPhyStaRpt->antidx_b;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_2 = pPhyStaRpt->antidx_c;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_3 = pPhyStaRpt->antidx_d;
++/*
++	//if (pPktinfo->bPacketMatchBSSID)
++	{
++		DbgPrint("pwdb = 0x%x, MP gain index = 0x%x, TRSW = 0x%x\n", pPhyStaRpt->pwdb, pPhyStaRpt->gain, pPhyStaRpt->trsw);
++		DbgPrint("channel = %d, band = %d, rxsc = %d\n", pPhyStaRpt->channel, pPhyStaRpt->band, pPhyStaRpt->rxsc);
++		DbgPrint("agc_table = 0x%x, agc_rpt 0x%x, bb_power = 0x%x\n", pPhyStaRpt->agc_table, pPhyStaRpt->agc_rpt, pPhyStaRpt->bb_power);
++		DbgPrint("length = %d, SQ = %d\n", pPhyStaRpt->length, pPhyStaRpt->signal_quality);
++		DbgPrint("antidx a = 0x%x, b = 0x%x, c = 0x%x, d = 0x%x\n", pPhyStaRpt->antidx_a, pPhyStaRpt->antidx_b, pPhyStaRpt->antidx_c, pPhyStaRpt->antidx_d);
++		DbgPrint("rsvd_0 = 0x%x, rsvd_1 = 0x%x, rsvd_2 = 0x%x\n", pPhyStaRpt->rsvd_0, pPhyStaRpt->rsvd_1, pPhyStaRpt->rsvd_2);
++		DbgPrint("rsvd_3 = 0x%x, rsvd_4 = 0x%x, rsvd_5 = 0x%x\n", pPhyStaRpt->rsvd_3, pPhyStaRpt->rsvd_4, pPhyStaRpt->rsvd_5);
++		DbgPrint("rsvd_6 = 0x%x, rsvd_7 = 0x%x, rsvd_8 = 0x%x\n", pPhyStaRpt->rsvd_6, pPhyStaRpt->rsvd_7, pPhyStaRpt->rsvd_8);
++	}
++*/
++}
++
++VOID
++phydm_GetRxPhyStatusType1(
++	IN		PDM_ODM_T						pDM_Odm,
++	IN		pu1Byte							pPhyStatus,
++	IN		PODM_PACKET_INFO_T				pPktinfo,
++	OUT		PODM_PHY_INFO_T				pPhyInfo
++)
++{
++	/* Type 1 is used for ofdm packet */
++
++	PPHY_STATUS_RPT_JAGUAR2_TYPE1	pPhyStaRpt = (PPHY_STATUS_RPT_JAGUAR2_TYPE1)pPhyStatus;
++	s1Byte							rx_pwr_db = -120;
++	u1Byte							i, rxsc, bw = ODM_BW20M, RxCount = 0;
++	BOOLEAN							bMU;
++
++	/* Update OFDM packet counter */
++	pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM++;
++
++	/* Update per-path information */
++	for (i = ODM_RF_PATH_A; i < ODM_RF_PATH_MAX_JAGUAR; i++) {
++		if (pDM_Odm->RXAntStatus & BIT(i)) {
++			s1Byte	rx_path_pwr_db;
++
++			/* RX path counter */
++			RxCount++;
++
++			/* Update per-path information (RSSI_dB RSSI_percentage EVM SNR CFO SQ) */
++			/* EVM report is reported by stream, not path */
++			rx_path_pwr_db = pPhyStaRpt->pwdb[i] - 110;					/* per-path pwdb in dB domain */
++			phydm_SetPerPathPhyInfo(i, rx_path_pwr_db, pPhyStaRpt->rxevm[RxCount - 1], 
++				pPhyStaRpt->cfo_tail[i], pPhyStaRpt->rxsnr[i], pPhyInfo);
++
++			/* search maximum pwdb */
++			if (rx_path_pwr_db > rx_pwr_db)
++				rx_pwr_db = rx_path_pwr_db;
++		}
++	}
++
++	/* mapping RX counter from 1~4 to 0~3 */
++	if (RxCount > 0)
++		pPhyInfo->RxCount = RxCount - 1;
++	
++	/* Check if MU packet or not */
++	if ((pPhyStaRpt->gid != 0) && (pPhyStaRpt->gid != 63)) {
++		bMU = TRUE;
++		pDM_Odm->PhyDbgInfo.NumQryMuPkt++;
++	} else
++		bMU = FALSE;
++
++	/* Count BF packet */
++	pDM_Odm->PhyDbgInfo.NumQryBfPkt = pDM_Odm->PhyDbgInfo.NumQryBfPkt + pPhyStaRpt->beamformed;
++
++	/* Check sub-channel */
++	if ((pPktinfo->DataRate > ODM_RATE11M) && (pPktinfo->DataRate < ODM_RATEMCS0))
++		rxsc = pPhyStaRpt->l_rxsc;
++	else
++		rxsc = pPhyStaRpt->ht_rxsc;
++
++	/* Check RX bandwidth */
++	if (pDM_Odm->SupportICType & ODM_RTL8822B) {
++		if ((rxsc >= 1) && (rxsc <= 8))
++			bw = ODM_BW20M;
++		else if ((rxsc >= 9) && (rxsc <= 12))
++			bw = ODM_BW40M;
++		else if (rxsc >= 13)
++			bw = ODM_BW80M;
++		else
++			bw = pPhyStaRpt->rf_mode;
++	} else if (pDM_Odm->SupportICType & (ODM_RTL8197F|ODM_RTL8723D)) {
++		if (pPhyStaRpt->rf_mode == 0)
++			bw = ODM_BW20M;
++		else if ((rxsc == 1) || (rxsc == 2))
++			bw = ODM_BW20M;
++		else
++			bw = ODM_BW40M;
++	}
++
++	/* Update packet information */
++	phydm_SetCommonPhyInfo(rx_pwr_db, pPhyStaRpt->channel, (BOOLEAN)pPhyStaRpt->beamformed,
++		bMU, bw, odm_EVMdbToPercentage(pPhyStaRpt->rxevm[0]), rxsc, pPhyInfo);
++	ODM_ParsingCFO(pDM_Odm, pPktinfo, pPhyStaRpt->cfo_tail);
++	pDM_Odm->DM_FatTable.antsel_rx_keep_0 = pPhyStaRpt->antidx_a;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_1 = pPhyStaRpt->antidx_b;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_2 = pPhyStaRpt->antidx_c;
++	pDM_Odm->DM_FatTable.antsel_rx_keep_3 = pPhyStaRpt->antidx_d;
++
++	if (pPktinfo->bPacketMatchBSSID) {
++/*
++		DbgPrint("channel = %d, band = %d, l_rxsc = %d, ht_rxsc = %d, rf_mode = %d\n", pPhyStaRpt->channel, pPhyStaRpt->band, pPhyStaRpt->l_rxsc, pPhyStaRpt->ht_rxsc, pPhyStaRpt->rf_mode);
++		DbgPrint("Antidx A = %d, B = %d, C = %d, D = %d\n", pPhyStaRpt->antidx_a, pPhyStaRpt->antidx_b, pPhyStaRpt->antidx_c, pPhyStaRpt->antidx_d);
++		DbgPrint("pwdb A: 0x%x, B: 0x%x, C: 0x%x, D: 0x%x\n", pPhyStaRpt->pwdb[0], pPhyStaRpt->pwdb[1], pPhyStaRpt->pwdb[2], pPhyStaRpt->pwdb[3]);
++		DbgPrint("EVM  A: %d, B: %d, C: %d, D: %d\n", pPhyStaRpt->rxevm[0], pPhyStaRpt->rxevm[1], pPhyStaRpt->rxevm[2], pPhyStaRpt->rxevm[3]);
++		DbgPrint("SNR  A: %d, B: %d, C: %d, D: %d\n", pPhyStaRpt->rxsnr[0], pPhyStaRpt->rxsnr[1], pPhyStaRpt->rxsnr[2], pPhyStaRpt->rxsnr[3]);
++		DbgPrint("CFO  A: %d, B: %d, C: %d, D: %d\n", pPhyStaRpt->cfo_tail[0], pPhyStaRpt->cfo_tail[1], pPhyStaRpt->cfo_tail[2], pPhyStaRpt->cfo_tail[3]);
++		DbgPrint("paid = %d, gid = %d, length = %d\n", (pPhyStaRpt->paid + (pPhyStaRpt->paid_msb<<8)), pPhyStaRpt->gid, pPhyStaRpt->lsig_length);
++		DbgPrint("ldpc: %d, stbc: %d, bf: %d, gnt_bt: %d, antsw: %d\n", pPhyStaRpt->ldpc, pPhyStaRpt->stbc, pPhyStaRpt->beamformed, pPhyStaRpt->gnt_bt, pPhyStaRpt->hw_antsw_occu);
++		DbgPrint("NBI: %d, pos: %d\n", pPhyStaRpt->nb_intf_flag, (pPhyStaRpt->intf_pos + (pPhyStaRpt->intf_pos_msb<<8)));
++		DbgPrint("rsvd_0 = %d, rsvd_1 = %d, rsvd_2 = %d, rsvd_3 = %d, rsvd_4 = %d, rsvd_5 = %d\n", pPhyStaRpt->rsvd_0, pPhyStaRpt->rsvd_1, pPhyStaRpt->rsvd_2, pPhyStaRpt->rsvd_3, pPhyStaRpt->rsvd_4, pPhyStaRpt->rsvd_5);
++*/
++		if ((pPhyStaRpt->gid != 0) && (pPhyStaRpt->gid != 63)) {
++			if (pPktinfo->DataRate >= ODM_RATEVHTSS1MCS0)
++				pDM_Odm->PhyDbgInfo.NumQryMuVhtPkt[pPktinfo->DataRate - 0x2C]++;
++		} else {
++			if (pPktinfo->DataRate >= ODM_RATEVHTSS1MCS0)
++				pDM_Odm->PhyDbgInfo.NumQryVhtPkt[pPktinfo->DataRate - 0x2C]++;
++		}
++	}
++/*
++	DbgPrint("phydm_GetRxPhyStatusType1   pPktinfo->bPacketMatchBSSID = %d\n", pPktinfo->bPacketMatchBSSID);
++	DbgPrint("pPktinfo->DataRate = 0x%x\n", pPktinfo->DataRate);
++*/
++}
++
++VOID
++phydm_GetRxPhyStatusType2(
++	IN		PDM_ODM_T						pDM_Odm,
++	IN		pu1Byte							pPhyStatus,
++	IN		PODM_PACKET_INFO_T				pPktinfo,
++	OUT		PODM_PHY_INFO_T				pPhyInfo
++)
++{
++	PPHY_STATUS_RPT_JAGUAR2_TYPE2	pPhyStaRpt = (PPHY_STATUS_RPT_JAGUAR2_TYPE2)pPhyStatus;
++	s1Byte							rx_pwr_db = -120;
++	u1Byte							i, rxsc, bw = ODM_BW20M, RxCount = 0;
++
++	/* Update OFDM packet counter */
++	pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM++;
++
++	/* Update per-path information */
++	for (i = ODM_RF_PATH_A; i < ODM_RF_PATH_MAX_JAGUAR; i++) {
++		if (pDM_Odm->RXAntStatus & BIT(i)) {
++			s1Byte	rx_path_pwr_db;
++
++			/* RX path counter */
++			RxCount++;
++
++			/* Update per-path information (RSSI_dB RSSI_percentage EVM SNR CFO SQ) */
++#if (RTL8197F_SUPPORT == 1)
++		if ((pDM_Odm->SupportICType & ODM_RTL8197F) && (pPhyStaRpt->pwdb[i] == 0x7f)) { /*for 97f workaround*/
++			
++			if (i == ODM_RF_PATH_A) {
++				rx_path_pwr_db = (pPhyStaRpt->gain_a)<<1;
++				rx_path_pwr_db = rx_path_pwr_db - 110;
++			} else if (i == ODM_RF_PATH_B) {
++				rx_path_pwr_db = (pPhyStaRpt->gain_b)<<1;
++				rx_path_pwr_db = rx_path_pwr_db - 110;
++			} else
++				rx_path_pwr_db = 0;
++		} else
++#endif
++			rx_path_pwr_db = pPhyStaRpt->pwdb[i] - 110;					/* per-path pwdb in dB domain */
++		
++			phydm_SetPerPathPhyInfo(i, rx_path_pwr_db, 0, 0, 0, pPhyInfo);
++
++			/* search maximum pwdb */
++			if (rx_path_pwr_db > rx_pwr_db)
++				rx_pwr_db = rx_path_pwr_db;
++		}
++	}
++
++	/* mapping RX counter from 1~4 to 0~3 */
++	if (RxCount > 0)
++		pPhyInfo->RxCount = RxCount - 1;
++	
++	/* Check RX sub-channel */
++	if ((pPktinfo->DataRate > ODM_RATE11M) && (pPktinfo->DataRate < ODM_RATEMCS0))
++		rxsc = pPhyStaRpt->l_rxsc;
++	else
++		rxsc = pPhyStaRpt->ht_rxsc;
++
++	/* Check RX bandwidth */
++	/* the BW information of sc=0 is useless, because there is no information of RF mode*/
++
++	if (pDM_Odm->SupportICType & ODM_RTL8822B) {
++		if ((rxsc >= 1) && (rxsc <= 8))
++			bw = ODM_BW20M;
++		else if ((rxsc >= 9) && (rxsc <= 12))
++			bw = ODM_BW40M;
++		else if (rxsc >= 13)
++			bw = ODM_BW80M;
++		else
++			bw = ODM_BW20M;
++	} else if (pDM_Odm->SupportICType & (ODM_RTL8197F|ODM_RTL8723D)) {
++		if (rxsc == 3)
++			bw = ODM_BW40M;
++		else if ((rxsc == 1) || (rxsc == 2))
++			bw = ODM_BW20M;
++		else
++			bw = ODM_BW20M;
++	}
++
++	/* Update packet information */
++	phydm_SetCommonPhyInfo(rx_pwr_db, pPhyStaRpt->channel, (BOOLEAN)pPhyStaRpt->beamformed,
++		FALSE, bw, 0, rxsc, pPhyInfo);
++
++/*
++	//if (pPktinfo->bPacketMatchBSSID)
++	{
++		DbgPrint("channel = %d, band = %d, l_rxsc = %d, ht_rxsc = %d\n", pPhyStaRpt->channel, pPhyStaRpt->band, pPhyStaRpt->l_rxsc, pPhyStaRpt->ht_rxsc);
++		DbgPrint("pwdb A: 0x%x, B: 0x%x, C: 0x%x, D: 0x%x\n", pPhyStaRpt->pwdb[0], pPhyStaRpt->pwdb[1], pPhyStaRpt->pwdb[2], pPhyStaRpt->pwdb[3]);
++		DbgPrint("Agc table A: 0x%x, B: 0x%x, C: 0x%x, D: 0x%x\n", pPhyStaRpt->agc_table_a, pPhyStaRpt->agc_table_b, pPhyStaRpt->agc_table_c, pPhyStaRpt->agc_table_d);
++		DbgPrint("Gain A: 0x%x, B: 0x%x, C: 0x%x, D: 0x%x\n", pPhyStaRpt->gain_a, pPhyStaRpt->gain_b, pPhyStaRpt->gain_c, pPhyStaRpt->gain_d);
++		DbgPrint("TRSW A: 0x%x, B: 0x%x, C: 0x%x, D: 0x%x\n", pPhyStaRpt->trsw_a, pPhyStaRpt->trsw_b, pPhyStaRpt->trsw_c, pPhyStaRpt->trsw_d);
++		DbgPrint("AAGC step A: 0x%x, B: 0x%x, C: 0x%x, D: 0x%x\n", pPhyStaRpt->aagc_step_a, pPhyStaRpt->aagc_step_b, pPhyStaRpt->aagc_step_c, pPhyStaRpt->aagc_step_d);
++		DbgPrint("HT AAGC gain A: 0x%x, B: 0x%x, C: 0x%x, D: 0x%x\n", pPhyStaRpt->ht_aagc_gain[0], pPhyStaRpt->ht_aagc_gain[1], pPhyStaRpt->ht_aagc_gain[2], pPhyStaRpt->ht_aagc_gain[3]);
++		DbgPrint("DAGC gain A: 0x%x, B: 0x%x, C: 0x%x, D: 0x%x\n", pPhyStaRpt->dagc_gain[0], pPhyStaRpt->dagc_gain[1], pPhyStaRpt->dagc_gain[2], pPhyStaRpt->dagc_gain[3]);
++		DbgPrint("ldpc: %d, stbc: %d, bf: %d, gnt_bt: %d, antsw: %d\n", pPhyStaRpt->ldpc, pPhyStaRpt->stbc, pPhyStaRpt->beamformed, pPhyStaRpt->gnt_bt, pPhyStaRpt->hw_antsw_occu);
++		DbgPrint("counter: %d, syn_count: %d\n", pPhyStaRpt->counter, pPhyStaRpt->syn_count);
++		DbgPrint("cnt_cca2agc_rdy: %d, cnt_pw2cca: %d, shift_l_map\n", pPhyStaRpt->cnt_cca2agc_rdy, pPhyStaRpt->cnt_pw2cca, pPhyStaRpt->shift_l_map);
++		DbgPrint("rsvd_0 = %d, rsvd_1 = %d, rsvd_2 = %d, rsvd_3 = %d, rsvd_4 = %d, rsvd_5 = %d\n", pPhyStaRpt->rsvd_0, pPhyStaRpt->rsvd_1, pPhyStaRpt->rsvd_2, pPhyStaRpt->rsvd_3, pPhyStaRpt->rsvd_4);
++		DbgPrint("rsvd_5 = %d, rsvd_6 = %d, rsvd_6 = %d\n", pPhyStaRpt->rsvd_5, pPhyStaRpt->rsvd_6, pPhyStaRpt->rsvd_7);
++	}
++*/
++}
++
++VOID
++phydm_GetRxPhyStatusType5(
++	IN		pu1Byte				pPhyStatus
++)
++{
++/*
++	DbgPrint("DW0: 0x%02x%02x%02x%02x\n", *(pPhyStatus + 3), *(pPhyStatus + 2), *(pPhyStatus + 1), *(pPhyStatus + 0));
++	DbgPrint("DW1: 0x%02x%02x%02x%02x\n", *(pPhyStatus + 7), *(pPhyStatus + 6), *(pPhyStatus + 5), *(pPhyStatus + 4));
++	DbgPrint("DW2: 0x%02x%02x%02x%02x\n", *(pPhyStatus + 11), *(pPhyStatus + 10), *(pPhyStatus + 9), *(pPhyStatus + 8));
++	DbgPrint("DW3: 0x%02x%02x%02x%02x\n", *(pPhyStatus + 15), *(pPhyStatus + 14), *(pPhyStatus + 13), *(pPhyStatus + 12));
++	DbgPrint("DW4: 0x%02x%02x%02x%02x\n", *(pPhyStatus + 19), *(pPhyStatus + 18), *(pPhyStatus + 17), *(pPhyStatus + 16));
++	DbgPrint("DW5: 0x%02x%02x%02x%02x\n", *(pPhyStatus + 23), *(pPhyStatus + 22), *(pPhyStatus + 21), *(pPhyStatus + 20));
++	DbgPrint("DW6: 0x%02x%02x%02x%02x\n", *(pPhyStatus + 27), *(pPhyStatus + 26), *(pPhyStatus + 25), *(pPhyStatus + 24));
++*/
++}
++
++VOID
++phydm_Process_RSSIForDMNewType(	
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	IN		PODM_PHY_INFO_T			pPhyInfo,
++	IN		PODM_PACKET_INFO_T			pPktinfo
++	)
++{
++	s4Byte				UndecoratedSmoothedPWDB, AccumulatePWDB;
++	u4Byte				RSSI_Ave;
++	u1Byte				i;
++	PSTA_INFO_T			pEntry;
++	u1Byte				scaling_factor = 4;
++	
++	if (pPktinfo->StationID >= ODM_ASSOCIATE_ENTRY_NUM)
++		return;
++
++	pEntry = pDM_Odm->pODM_StaInfo[pPktinfo->StationID];							
++
++	if (!IS_STA_VALID(pEntry))
++		return;
++
++	if ((!pPktinfo->bPacketMatchBSSID))/*data frame only*/
++		return;
++
++	if (pPktinfo->bPacketBeacon)
++		pDM_Odm->PhyDbgInfo.NumQryBeaconPkt++;
++	
++	if (pPktinfo->bPacketToSelf || pPktinfo->bPacketBeacon) {
++		u4Byte RSSI_linear = 0;
++
++		pDM_Odm->RxRate = pPktinfo->DataRate;
++		UndecoratedSmoothedPWDB = pEntry->rssi_stat.UndecoratedSmoothedPWDB;
++		AccumulatePWDB = pDM_Odm->AccumulatePWDB[pPktinfo->StationID];
++		pDM_Odm->RSSI_A = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_A];
++		pDM_Odm->RSSI_B = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_B];
++		pDM_Odm->RSSI_C = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_C];
++		pDM_Odm->RSSI_D = pPhyInfo->RxMIMOSignalStrength[ODM_RF_PATH_D];
++
++		for (i = ODM_RF_PATH_A; i < ODM_RF_PATH_MAX_JAGUAR; i++) {
++			if (pPhyInfo->RxMIMOSignalStrength[i] != 0)
++				RSSI_linear += odm_ConvertTo_linear(pPhyInfo->RxMIMOSignalStrength[i]);
++		}
++
++		switch (pPhyInfo->RxCount + 1) {
++		case 2:
++			RSSI_linear = (RSSI_linear >> 1);
++			break;
++		case 3:
++			RSSI_linear = ((RSSI_linear) + (RSSI_linear << 1) + (RSSI_linear << 3)) >> 5;	/* RSSI_linear/3 ~ RSSI_linear*11/32 */
++			break;
++		case 4:
++			RSSI_linear = (RSSI_linear >> 2);
++			break;
++		}
++		RSSI_Ave = odm_ConvertTo_dB(RSSI_linear);
++
++		if (UndecoratedSmoothedPWDB <= 0) {
++			AccumulatePWDB = (pPhyInfo->RxPWDBAll << scaling_factor);
++			UndecoratedSmoothedPWDB = pPhyInfo->RxPWDBAll;
++		} else {
++			AccumulatePWDB = AccumulatePWDB - (AccumulatePWDB>>scaling_factor) + RSSI_Ave;
++			UndecoratedSmoothedPWDB = (AccumulatePWDB + (1<<(scaling_factor - 1)))>>scaling_factor;
++		}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++		if (pEntry->rssi_stat.UndecoratedSmoothedPWDB == -1)
++			phydm_ra_rssi_rpt_wk(pDM_Odm);
++#endif
++		pEntry->rssi_stat.UndecoratedSmoothedPWDB = UndecoratedSmoothedPWDB;
++		pDM_Odm->AccumulatePWDB[pPktinfo->StationID] = AccumulatePWDB;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))		
++		if (pPktinfo->StationID == 0) { 
++			HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pDM_Odm->Adapter);
++			
++			pHalData->UndecoratedSmoothedPWDB = UndecoratedSmoothedPWDB;
++		}
++#endif
++	}
++}
++
++VOID
++phydm_RxPhyStatusNewType(
++	IN		PDM_ODM_T					pPhydm,
++	IN		pu1Byte						pPhyStatus,
++	IN		PODM_PACKET_INFO_T			pPktinfo,
++	OUT		PODM_PHY_INFO_T			pPhyInfo
++)
++{
++	u1Byte		phy_status_type = (*pPhyStatus & 0xf);
++
++	/*DbgPrint("phydm_RxPhyStatusNewType================> (page: %d)\n", phy_status_type);*/
++	
++	/* Memory reset */
++	phydm_ResetPhyInfo(pPhydm, pPhyInfo);
++
++	/* Phy status parsing */
++	switch (phy_status_type) {
++	case 0:
++	{
++		phydm_GetRxPhyStatusType0(pPhydm, pPhyStatus, pPktinfo, pPhyInfo);
++		break;
++	}
++	case 1:
++	{
++		phydm_GetRxPhyStatusType1(pPhydm, pPhyStatus, pPktinfo, pPhyInfo);
++		break;
++	}
++	case 2:
++	{
++		phydm_GetRxPhyStatusType2(pPhydm, pPhyStatus, pPktinfo, pPhyInfo);
++		break;
++	}
++/*
++	case 5:
++	{
++		phydm_GetRxPhyStatusType5(pPhyStatus);
++		return;
++	}
++*/
++	default:
++		return;
++	}
++
++	#if RTL8723D_SUPPORT == 1
++	if (pPhydm->SupportAbility & ODM_BB_ANT_DIV) {
++		#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++			ODM_Process_RSSIForAntDiv(pPhydm, pPhyInfo, pPktinfo);
++		#endif
++	}	
++	#endif
++	/* Update signal strength to UI, and pPhyInfo->RxPWDBAll is the maximum RSSI of all path */
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	pPhyInfo->SignalStrength = SignalScaleProc(pPhydm->Adapter, pPhyInfo->RxPWDBAll, FALSE, FALSE);
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	pPhyInfo->SignalStrength = (u1Byte)(odm_SignalScaleMapping(pPhydm, pPhyInfo->RxPWDBAll));
++#endif
++
++	/* Calculate average RSSI and smoothed RSSI */
++	phydm_Process_RSSIForDMNewType(pPhydm, pPhyInfo, pPktinfo);
++
++}
++/*==============================================*/
++#endif
++
++u4Byte
++query_phydm_trx_capability(
++	IN		PDM_ODM_T					pDM_Odm
++)
++{
++	u4Byte value32 = 0xFFFFFFFF;
++
++	#if (RTL8821C_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8821C)
++		value32 = query_phydm_trx_capability_8821c(pDM_Odm);
++	#endif
++
++	return value32;
++}
++
++u4Byte
++query_phydm_stbc_capability(
++	IN		PDM_ODM_T					pDM_Odm
++)
++{
++	u4Byte value32 = 0xFFFFFFFF;
++
++	#if (RTL8821C_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8821C)
++		value32 = query_phydm_stbc_capability_8821c(pDM_Odm);
++	#endif
++
++	return value32;
++}
++
++u4Byte
++query_phydm_ldpc_capability(
++	IN		PDM_ODM_T					pDM_Odm
++)
++{
++	u4Byte value32 = 0xFFFFFFFF;
++
++	#if (RTL8821C_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8821C)
++		value32 = query_phydm_ldpc_capability_8821c(pDM_Odm);
++	#endif
++
++	return value32;
++}
++
++u4Byte
++query_phydm_txbf_parameters(
++	IN		PDM_ODM_T					pDM_Odm
++)
++{
++	u4Byte value32 = 0xFFFFFFFF;
++
++	#if (RTL8821C_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8821C)
++		value32 = query_phydm_txbf_parameters_8821c(pDM_Odm);
++	#endif
++
++	return value32;
++}
++
++u4Byte
++query_phydm_txbf_capability(
++	IN		PDM_ODM_T					pDM_Odm
++)
++{
++	u4Byte value32 = 0xFFFFFFFF;
++
++	#if (RTL8821C_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8821C)
++		value32 = query_phydm_txbf_capability_8821c(pDM_Odm);
++	#endif
++
++	return value32;
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_hwconfig.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_hwconfig.h
+new file mode 100644
+index 0000000..ec31193
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_hwconfig.h
+@@ -0,0 +1,565 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#ifndef	__HALHWOUTSRC_H__
++#define __HALHWOUTSRC_H__
++
++
++/*--------------------------Define -------------------------------------------*/ 
++#define	CCK_RSSI_INIT_COUNT 5
++
++#define	RA_RSSI_STATE_INIT	0
++#define	RA_RSSI_STATE_SEND	1
++#define	RA_RSSI_STATE_HOLD	2
++
++#define AGC_DIFF_CONFIG_MP(ic, band) (ODM_ReadAndConfig_MP_##ic##_AGC_TAB_DIFF(pDM_Odm, Array_MP_##ic##_AGC_TAB_DIFF_##band, \
++                                                                              sizeof(Array_MP_##ic##_AGC_TAB_DIFF_##band)/sizeof(u4Byte)))
++#define AGC_DIFF_CONFIG_TC(ic, band) (ODM_ReadAndConfig_TC_##ic##_AGC_TAB_DIFF(pDM_Odm, Array_TC_##ic##_AGC_TAB_DIFF_##band, \
++                                                                              sizeof(Array_TC_##ic##_AGC_TAB_DIFF_##band)/sizeof(u4Byte)))
++
++#define AGC_DIFF_CONFIG(ic, band) do {\
++                                            if (pDM_Odm->bIsMPChip)\
++                                    		    AGC_DIFF_CONFIG_MP(ic,band);\
++                                            else\
++                                                AGC_DIFF_CONFIG_TC(ic,band);\
++                                    } while(0)
++
++
++//============================================================
++// structure and define
++//============================================================
++
++__PACK typedef struct _Phy_Rx_AGC_Info
++{
++	#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)	
++		u1Byte	gain:7,trsw:1;			
++	#else			
++		u1Byte	trsw:1,gain:7;
++	#endif
++} __WLAN_ATTRIB_PACK__ PHY_RX_AGC_INFO_T, *pPHY_RX_AGC_INFO_T;
++
++__PACK typedef struct _Phy_Status_Rpt_8192cd {
++	PHY_RX_AGC_INFO_T path_agc[2];
++	u1Byte	ch_corr[2];
++	u1Byte	cck_sig_qual_ofdm_pwdb_all;
++	u1Byte	cck_agc_rpt_ofdm_cfosho_a;
++	u1Byte	cck_rpt_b_ofdm_cfosho_b;
++	u1Byte	rsvd_1;/*ch_corr_msb;*/
++	u1Byte	noise_power_db_msb;
++	s1Byte	path_cfotail[2];
++	u1Byte	pcts_mask[2];
++	s1Byte	stream_rxevm[2];
++	u1Byte	path_rxsnr[2];
++	u1Byte	noise_power_db_lsb;
++	u1Byte	rsvd_2[3];
++	u1Byte	stream_csi[2];
++	u1Byte	stream_target_csi[2];
++	s1Byte	sig_evm;
++	u1Byte	rsvd_3;
++
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte	antsel_rx_keep_2: 1;	/*ex_intf_flg:1;*/
++	u1Byte	sgi_en: 1;
++	u1Byte	rxsc: 2;
++	u1Byte	idle_long: 1;
++	u1Byte	r_ant_train_en: 1;
++	u1Byte	ant_sel_b: 1;
++	u1Byte	ant_sel: 1;
++#else	/*_BIG_ENDIAN_	*/
++	u1Byte	ant_sel: 1;
++	u1Byte	ant_sel_b: 1;
++	u1Byte	r_ant_train_en: 1;
++	u1Byte	idle_long: 1;
++	u1Byte	rxsc: 2;
++	u1Byte	sgi_en: 1;
++	u1Byte	antsel_rx_keep_2: 1;/*ex_intf_flg:1;*/
++#endif
++} __WLAN_ATTRIB_PACK__ PHY_STATUS_RPT_8192CD_T, *PPHY_STATUS_RPT_8192CD_T;
++
++
++typedef struct _Phy_Status_Rpt_8812 {
++/*	DWORD 0*/
++	u1Byte			gain_trsw[2];							/*path-A and path-B {TRSW, gain[6:0] }*/
++	u1Byte			chl_num_LSB;							/*channel number[7:0]*/
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte			chl_num_MSB: 2;							/*channel number[9:8]*/
++	u1Byte			sub_chnl: 4;								/*sub-channel location[3:0]*/
++	u1Byte			r_RFMOD: 2;								/*RF mode[1:0]*/
++#else	/*_BIG_ENDIAN_	*/
++	u1Byte			r_RFMOD: 2;
++	u1Byte			sub_chnl: 4;
++	u1Byte			chl_num_MSB: 2;
++#endif
++
++/*	DWORD 1*/
++	u1Byte			pwdb_all;								/*CCK signal quality / OFDM pwdb all*/
++	s1Byte			cfosho[2];		/*DW1 byte 1 DW1 byte2	CCK AGC report and CCK_BB_Power / OFDM Path-A and Path-B short CFO*/
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	/*this should be checked again because the definition of 8812 and 8814 is different*/
++/*	u1Byte			r_cck_rx_enable_pathc:2;					cck rx enable pathc[1:0]*/
++/*	u1Byte			cck_rx_path:4;							cck rx path[3:0]*/
++	u1Byte			resvd_0: 6;
++	u1Byte			bt_RF_ch_MSB: 2;						/*8812A:2'b0			8814A: bt rf channel keep[7:6]*/
++#else	/*_BIG_ENDIAN_*/
++	u1Byte			bt_RF_ch_MSB: 2;
++	u1Byte			resvd_0: 6;
++#endif
++
++/*	DWORD 2*/
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte			ant_div_sw_a: 1;							/*8812A: ant_div_sw_a    8814A: 1'b0*/
++	u1Byte			ant_div_sw_b: 1;							/*8812A: ant_div_sw_b    8814A: 1'b0*/
++	u1Byte			bt_RF_ch_LSB: 6;						/*8812A: 6'b0                   8814A: bt rf channel keep[5:0]*/
++#else	/*_BIG_ENDIAN_	*/
++	u1Byte			bt_RF_ch_LSB: 6;
++	u1Byte			ant_div_sw_b: 1;
++	u1Byte			ant_div_sw_a: 1;
++#endif
++	s1Byte			cfotail[2];		   /*DW2 byte 1 DW2 byte 2	path-A and path-B CFO tail*/
++	u1Byte			PCTS_MSK_RPT_0;						/*PCTS mask report[7:0]*/
++	u1Byte			PCTS_MSK_RPT_1;						/*PCTS mask report[15:8]*/
++
++/*	DWORD 3*/
++	s1Byte			rxevm[2];	         /*DW3 byte 1 DW3 byte 2	stream 1 and stream 2 RX EVM*/
++	s1Byte			rxsnr[2];	         /*DW3 byte 3 DW4 byte 0	path-A and path-B RX SNR*/
++
++/*	DWORD 4*/
++	u1Byte			PCTS_MSK_RPT_2;						/*PCTS mask report[23:16]*/
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte			PCTS_MSK_RPT_3: 6;						/*PCTS mask report[29:24]*/
++	u1Byte			pcts_rpt_valid: 1;							/*pcts_rpt_valid*/
++	u1Byte			resvd_1: 1;								/*1'b0*/
++#else	/*_BIG_ENDIAN_*/
++	u1Byte			resvd_1: 1;
++	u1Byte			pcts_rpt_valid: 1;
++	u1Byte			PCTS_MSK_RPT_3: 6;
++#endif
++	s1Byte			rxevm_cd[2];	   /*DW 4 byte 3 DW5 byte 0  8812A: 16'b0	8814A: stream 3 and stream 4 RX EVM*/
++
++/*	DWORD 5*/
++	u1Byte			csi_current[2];	   /*DW5 byte 1 DW5 byte 2	8812A: stream 1 and 2 CSI	8814A:  path-C and path-D RX SNR*/
++	u1Byte			gain_trsw_cd[2];	   /*DW5 byte 3 DW6 byte 0	path-C and path-D {TRSW, gain[6:0] }*/
++
++/*	DWORD 6*/
++	s1Byte			sigevm;									/*signal field EVM*/
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte			antidx_antc: 3;							/*8812A: 3'b0		8814A: antidx_antc[2:0]*/
++	u1Byte			antidx_antd: 3;							/*8812A: 3'b0		8814A: antidx_antd[2:0]*/
++	u1Byte			dpdt_ctrl_keep: 1;						/*8812A: 1'b0		8814A: dpdt_ctrl_keep*/
++	u1Byte			GNT_BT_keep: 1;							/*8812A: 1'b0		8814A: GNT_BT_keep*/
++#else	/*_BIG_ENDIAN_*/
++	u1Byte			GNT_BT_keep: 1;
++	u1Byte			dpdt_ctrl_keep: 1;
++	u1Byte			antidx_antd: 3;
++	u1Byte			antidx_antc: 3;
++#endif
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte			antidx_anta: 3;							/*antidx_anta[2:0]*/
++	u1Byte			antidx_antb: 3;							/*antidx_antb[2:0]*/
++	u1Byte			hw_antsw_occur: 2;								/*1'b0*/
++#else	/*_BIG_ENDIAN_*/
++	u1Byte			hw_antsw_occur: 2;
++	u1Byte			antidx_antb: 3;
++	u1Byte			antidx_anta: 3;
++#endif
++} PHY_STATUS_RPT_8812_T, *PPHY_STATUS_RPT_8812_T;
++
++VOID
++phydm_reset_rssi_for_dm(
++	IN OUT	PDM_ODM_T	pDM_Odm,
++	IN		u1Byte		station_id
++);
++
++VOID
++odm_Init_RSSIForDM(
++	IN OUT	PDM_ODM_T	pDM_Odm
++);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++phydm_normal_driver_rx_sniffer(
++	IN OUT	PDM_ODM_T			pDM_Odm,
++	IN		pu1Byte				pDesc,
++	IN		PRT_RFD_STATUS		pRtRfdStatus,
++	IN		pu1Byte				pDrvInfo,
++	IN		u1Byte				PHYStatus
++	);
++#endif
++
++VOID
++ODM_PhyStatusQuery(
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	OUT		PODM_PHY_INFO_T			pPhyInfo,
++	IN 		pu1Byte						pPhyStatus,	
++	IN		PODM_PACKET_INFO_T			pPktinfo
++	);
++
++VOID
++ODM_MacStatusQuery(
++	IN OUT	PDM_ODM_T					pDM_Odm,
++	IN 		pu1Byte						pMacStatus,
++	IN		u1Byte						MacID,	
++	IN		BOOLEAN						bPacketMatchBSSID,
++	IN		BOOLEAN						bPacketToSelf,
++	IN		BOOLEAN						bPacketBeacon
++	);
++
++HAL_STATUS
++ODM_ConfigRFWithTxPwrTrackHeaderFile(
++	IN 	PDM_ODM_T	        	pDM_Odm
++    );
++    
++HAL_STATUS
++ODM_ConfigRFWithHeaderFile(
++	IN 	PDM_ODM_T	        	pDM_Odm,
++	IN 	ODM_RF_Config_Type 		ConfigType,
++	IN 	ODM_RF_RADIO_PATH_E 	eRFPath
++	);
++
++HAL_STATUS
++ODM_ConfigBBWithHeaderFile(
++	IN  	PDM_ODM_T	                pDM_Odm,
++	IN	ODM_BB_Config_Type		ConfigType
++    );
++
++HAL_STATUS
++ODM_ConfigMACWithHeaderFile(
++	IN  	PDM_ODM_T	pDM_Odm
++    );
++
++HAL_STATUS
++ODM_ConfigFWWithHeaderFile(
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN 	ODM_FW_Config_Type 	ConfigType,
++	OUT u1Byte				*pFirmware,
++	OUT u4Byte				*pSize
++	);
++
++u4Byte 
++ODM_GetHWImgVersion(
++	IN	PDM_ODM_T	pDM_Odm
++	);
++
++s4Byte
++odm_SignalScaleMapping(	
++	IN OUT PDM_ODM_T pDM_Odm,
++	IN	s4Byte CurrSig 
++	);
++
++#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
++/*For 8822B only!! need to move to FW finally */
++/*==============================================*/
++VOID
++phydm_RxPhyStatusNewType(
++	IN		PDM_ODM_T					pPhydm,
++	IN		pu1Byte						pPhyStatus,
++	IN		PODM_PACKET_INFO_T			pPktinfo,
++	OUT		PODM_PHY_INFO_T			pPhyInfo
++);
++
++typedef struct _Phy_Status_Rpt_Jaguar2_Type0 {
++	/* DW0 */
++	u1Byte		page_num;
++	u1Byte		pwdb;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		gain: 6;
++	u1Byte		rsvd_0: 1;
++	u1Byte		trsw: 1;
++#else
++	u1Byte		trsw: 1;
++	u1Byte		rsvd_0: 1;
++	u1Byte		gain: 6;
++#endif
++	u1Byte		rsvd_1;
++
++	/* DW1 */
++	u1Byte		rsvd_2;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		rxsc: 4;
++	u1Byte		agc_table: 4;
++#else
++	u1Byte		agc_table: 4;
++	u1Byte		rxsc: 4;
++#endif
++	u1Byte		channel;
++	u1Byte		band;
++
++	/* DW2 */
++	u2Byte		length;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		antidx_a: 3;
++	u1Byte		antidx_b: 3;
++	u1Byte		rsvd_3: 2;
++	u1Byte		antidx_c: 3;
++	u1Byte		antidx_d: 3;
++	u1Byte		rsvd_4:2;
++#else
++	u1Byte		rsvd_3: 2;
++	u1Byte		antidx_b: 3;
++	u1Byte		antidx_a: 3;
++	u1Byte		rsvd_4:2;
++	u1Byte		antidx_d: 3;
++	u1Byte		antidx_c: 3;
++#endif
++
++	/* DW3 */
++	u1Byte		signal_quality;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		vga:5;
++	u1Byte		lna_l:3;
++	u1Byte		bb_power:6;
++	u1Byte		rsvd_9:1;
++	u1Byte		lna_h:1;
++#else
++	u1Byte		lna_l:3;
++	u1Byte		vga:5;
++	u1Byte		lna_h:1;
++	u1Byte		rsvd_9:1;
++	u1Byte		bb_power:6;
++#endif
++	u1Byte		rsvd_5;
++
++	/* DW4 */
++	u4Byte		rsvd_6;
++
++	/* DW5 */
++	u4Byte		rsvd_7;
++
++	/* DW6 */
++	u4Byte		rsvd_8;
++} PHY_STATUS_RPT_JAGUAR2_TYPE0, *PPHY_STATUS_RPT_JAGUAR2_TYPE0;
++
++typedef struct _Phy_Status_Rpt_Jaguar2_Type1 {
++	/* DW0 and DW1 */
++	u1Byte		page_num;
++	u1Byte		pwdb[4];
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		l_rxsc: 4;
++	u1Byte		ht_rxsc: 4;
++#else
++	u1Byte		ht_rxsc: 4;
++	u1Byte		l_rxsc: 4;
++#endif
++	u1Byte		channel;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		band: 2;
++	u1Byte		rsvd_0: 1;
++	u1Byte		hw_antsw_occu: 1;
++	u1Byte		gnt_bt: 1;
++	u1Byte		ldpc: 1;
++	u1Byte		stbc: 1;
++	u1Byte		beamformed: 1;
++#else
++	u1Byte		beamformed: 1;
++	u1Byte		stbc: 1;
++	u1Byte		ldpc: 1;
++	u1Byte		gnt_bt: 1;
++	u1Byte		hw_antsw_occu: 1;
++	u1Byte		rsvd_0: 1;
++	u1Byte		band: 2;
++#endif
++
++	/* DW2 */
++	u2Byte		lsig_length;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		antidx_a: 3;
++	u1Byte		antidx_b: 3;
++	u1Byte		rsvd_1: 2;
++	u1Byte		antidx_c: 3;
++	u1Byte		antidx_d: 3;
++	u1Byte		rsvd_2: 2;
++#else
++	u1Byte		rsvd_1: 2;
++	u1Byte		antidx_b: 3;
++	u1Byte		antidx_a: 3;
++	u1Byte		rsvd_2: 2;
++	u1Byte		antidx_d: 3;
++	u1Byte		antidx_c: 3;
++#endif
++
++	/* DW3 */
++	u1Byte		paid;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		paid_msb: 1;
++	u1Byte		gid: 6;
++	u1Byte		rsvd_3: 1;
++#else
++	u1Byte		rsvd_3: 1;
++	u1Byte		gid: 6;
++	u1Byte		paid_msb: 1;
++#endif
++	u1Byte		intf_pos;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		intf_pos_msb: 1;
++	u1Byte		rsvd_4: 2;
++	u1Byte		nb_intf_flag: 1;
++	u1Byte		rf_mode: 2;
++	u1Byte		rsvd_5: 2;
++#else
++	u1Byte		rsvd_5: 2;
++	u1Byte		rf_mode: 2;
++	u1Byte		nb_intf_flag: 1;
++	u1Byte		rsvd_4: 2;
++	u1Byte		intf_pos_msb: 1;
++#endif
++
++	/* DW4 */
++	s1Byte		rxevm[4];			/* s(8,1) */
++
++	/* DW5 */
++	s1Byte		cfo_tail[4];			/* s(8,7) */
++
++	/* DW6 */
++	s1Byte		rxsnr[4];			/* s(8,1) */
++} PHY_STATUS_RPT_JAGUAR2_TYPE1, *PPHY_STATUS_RPT_JAGUAR2_TYPE1;
++
++typedef struct _Phy_Status_Rpt_Jaguar2_Type2 {
++	/* DW0 ane DW1 */
++	u1Byte		page_num;
++	u1Byte		pwdb[4];
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)	
++	u1Byte		l_rxsc: 4;
++	u1Byte		ht_rxsc: 4;
++#else
++	u1Byte		ht_rxsc: 4;
++	u1Byte		l_rxsc: 4;
++#endif
++	u1Byte		channel;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		band: 2;
++	u1Byte		rsvd_0: 1;
++	u1Byte		hw_antsw_occu: 1;
++	u1Byte		gnt_bt: 1;
++	u1Byte		ldpc: 1;
++	u1Byte		stbc: 1;
++	u1Byte		beamformed: 1;
++#else
++	u1Byte		beamformed: 1;
++	u1Byte		stbc: 1;
++	u1Byte		ldpc: 1;
++	u1Byte		gnt_bt: 1;
++	u1Byte		hw_antsw_occu: 1;
++	u1Byte		rsvd_0: 1;
++	u1Byte		band: 2;
++#endif
++
++	/* DW2 */
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		shift_l_map: 6;
++	u1Byte		rsvd_1: 2;
++#else
++	u1Byte		rsvd_1: 2;
++	u1Byte		shift_l_map: 6;
++#endif
++	u1Byte		cnt_pw2cca;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		agc_table_a: 4;
++	u1Byte		agc_table_b: 4;
++	u1Byte		agc_table_c: 4;
++	u1Byte		agc_table_d: 4;
++#else
++	u1Byte		agc_table_b: 4;
++	u1Byte		agc_table_a: 4;
++	u1Byte		agc_table_d: 4;
++	u1Byte		agc_table_c: 4;
++#endif
++
++	/* DW3 ~ DW6*/
++	u1Byte		cnt_cca2agc_rdy;
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		gain_a: 6;
++	u1Byte		rsvd_2: 1;
++	u1Byte		trsw_a: 1;
++	u1Byte		gain_b: 6;
++	u1Byte		rsvd_3: 1;
++	u1Byte		trsw_b: 1;
++	u1Byte		gain_c: 6;
++	u1Byte		rsvd_4: 1;
++	u1Byte		trsw_c: 1;
++	u1Byte		gain_d: 6;
++	u1Byte		rsvd_5: 1;
++	u1Byte		trsw_d: 1;
++	u1Byte		aagc_step_a: 2;
++	u1Byte		aagc_step_b: 2;
++	u1Byte		aagc_step_c: 2;
++	u1Byte		aagc_step_d: 2;
++#else
++	u1Byte		trsw_a: 1;
++	u1Byte		rsvd_2: 1;
++	u1Byte		gain_a: 6;
++	u1Byte		trsw_b: 1;
++	u1Byte		rsvd_3: 1;
++	u1Byte		gain_b: 6;
++	u1Byte		trsw_c: 1;
++	u1Byte		rsvd_4: 1;
++	u1Byte		gain_c: 6;
++	u1Byte		trsw_d: 1;
++	u1Byte		rsvd_5: 1;
++	u1Byte		gain_d: 6;
++	u1Byte		aagc_step_d: 2;
++	u1Byte		aagc_step_c: 2;
++	u1Byte		aagc_step_b: 2;
++	u1Byte		aagc_step_a: 2;
++#endif
++	u1Byte		ht_aagc_gain[4];
++	u1Byte		dagc_gain[4];
++#if (ODM_ENDIAN_TYPE == ODM_ENDIAN_LITTLE)
++	u1Byte		counter: 6;
++	u1Byte		rsvd_6: 2;
++	u1Byte		syn_count: 5;
++	u1Byte		rsvd_7:3;
++#else
++	u1Byte		rsvd_6: 2;
++	u1Byte		counter: 6;
++	u1Byte		rsvd_7:3;
++	u1Byte		syn_count: 5;
++#endif
++} PHY_STATUS_RPT_JAGUAR2_TYPE2, *PPHY_STATUS_RPT_JAGUAR2_TYPE2;
++/*==============================================*/
++#endif /*#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)*/
++
++u4Byte
++query_phydm_trx_capability(
++	IN		PDM_ODM_T					pDM_Odm
++);
++
++u4Byte
++query_phydm_stbc_capability(
++	IN		PDM_ODM_T					pDM_Odm
++);
++
++u4Byte
++query_phydm_ldpc_capability(
++	IN		PDM_ODM_T					pDM_Odm
++);
++
++u4Byte
++query_phydm_txbf_parameters(
++	IN		PDM_ODM_T					pDM_Odm
++);
++
++u4Byte
++query_phydm_txbf_capability(
++	IN		PDM_ODM_T					pDM_Odm
++);
++
++#endif /*#ifndef	__HALHWOUTSRC_H__*/
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_interface.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_interface.c
+new file mode 100644
+index 0000000..826672a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_interface.c
+@@ -0,0 +1,961 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++//
++// ODM IO Relative API.
++//
++
++u1Byte
++ODM_Read1Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	prtl8192cd_priv	priv	= pDM_Odm->priv;
++	return	RTL_R8(RegAddr);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	return rtw_read8(Adapter,RegAddr);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	return	PlatformEFIORead1Byte(Adapter, RegAddr);
++#endif	
++
++}
++
++
++u2Byte
++ODM_Read2Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	prtl8192cd_priv	priv	= pDM_Odm->priv;
++	return	RTL_R16(RegAddr);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	return rtw_read16(Adapter,RegAddr);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	return	PlatformEFIORead2Byte(Adapter, RegAddr);
++#endif	
++
++}
++
++
++u4Byte
++ODM_Read4Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	prtl8192cd_priv	priv	= pDM_Odm->priv;
++	return	RTL_R32(RegAddr);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	return rtw_read32(Adapter,RegAddr);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	return	PlatformEFIORead4Byte(Adapter, RegAddr);
++#endif	
++
++}
++
++
++VOID
++ODM_Write1Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr,
++	IN	u1Byte			Data
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	prtl8192cd_priv	priv	= pDM_Odm->priv;
++	RTL_W8(RegAddr, Data);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	rtw_write8(Adapter,RegAddr, Data);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PlatformEFIOWrite1Byte(Adapter, RegAddr, Data);
++#endif
++	
++}
++
++
++VOID
++ODM_Write2Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr,
++	IN	u2Byte			Data
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	prtl8192cd_priv	priv	= pDM_Odm->priv;
++	RTL_W16(RegAddr, Data);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	rtw_write16(Adapter,RegAddr, Data);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PlatformEFIOWrite2Byte(Adapter, RegAddr, Data);
++#endif	
++
++}
++
++
++VOID
++ODM_Write4Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr,
++	IN	u4Byte			Data
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	prtl8192cd_priv	priv	= pDM_Odm->priv;
++	RTL_W32(RegAddr, Data);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	rtw_write32(Adapter,RegAddr, Data);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PlatformEFIOWrite4Byte(Adapter, RegAddr, Data);
++#endif	
++
++}
++
++
++VOID
++ODM_SetMACReg(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	u4Byte		RegAddr,
++	IN	u4Byte		BitMask,
++	IN	u4Byte		Data
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	PHY_SetBBReg(pDM_Odm->priv, RegAddr, BitMask, Data);
++#elif(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PHY_SetBBReg(Adapter, RegAddr, BitMask, Data);
++#endif	
++}
++
++
++u4Byte 
++ODM_GetMACReg(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	u4Byte		RegAddr,
++	IN	u4Byte		BitMask
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	return PHY_QueryBBReg(pDM_Odm->priv, RegAddr, BitMask);
++#elif(DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	return PHY_QueryMacReg(pDM_Odm->Adapter, RegAddr, BitMask);
++#endif	
++}
++
++
++VOID
++ODM_SetBBReg(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	u4Byte		RegAddr,
++	IN	u4Byte		BitMask,
++	IN	u4Byte		Data
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	PHY_SetBBReg(pDM_Odm->priv, RegAddr, BitMask, Data);
++#elif(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PHY_SetBBReg(Adapter, RegAddr, BitMask, Data);
++#endif	
++}
++
++
++u4Byte 
++ODM_GetBBReg(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	u4Byte		RegAddr,
++	IN	u4Byte		BitMask
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	return PHY_QueryBBReg(pDM_Odm->priv, RegAddr, BitMask);
++#elif(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	return PHY_QueryBBReg(Adapter, RegAddr, BitMask);
++#endif	
++}
++
++
++VOID
++ODM_SetRFReg(	
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	ODM_RF_RADIO_PATH_E	eRFPath,
++	IN	u4Byte				RegAddr,
++	IN	u4Byte				BitMask,
++	IN	u4Byte				Data
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	PHY_SetRFReg(pDM_Odm->priv, eRFPath, RegAddr, BitMask, Data);
++#elif (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PHY_SetRFReg(Adapter, eRFPath, RegAddr, BitMask, Data);
++	ODM_delay_us(2);
++		
++#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PHY_SetRFReg(pDM_Odm->Adapter, eRFPath, RegAddr, BitMask, Data);
++#endif	
++}
++
++u4Byte 
++ODM_GetRFReg(	
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	ODM_RF_RADIO_PATH_E	eRFPath,
++	IN	u4Byte				RegAddr,
++	IN	u4Byte				BitMask
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	return PHY_QueryRFReg(pDM_Odm->priv, eRFPath, RegAddr, BitMask, 1);
++#elif(DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_WIN))
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	return PHY_QueryRFReg(Adapter, eRFPath, RegAddr, BitMask);
++#endif	
++}
++
++
++
++
++//
++// ODM Memory relative API.
++//
++VOID
++ODM_AllocateMemory(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	OUT	PVOID		*pPtr,
++	IN	u4Byte		length
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	*pPtr = kmalloc(length, GFP_ATOMIC);
++#elif (DM_ODM_SUPPORT_TYPE & ODM_CE )
++	*pPtr = rtw_zvmalloc(length);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PlatformAllocateMemory(Adapter, pPtr, length);
++#endif	
++}
++
++// length could be ignored, used to detect memory leakage.
++VOID
++ODM_FreeMemory(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	OUT	PVOID		pPtr,
++	IN	u4Byte		length
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	kfree(pPtr);
++#elif (DM_ODM_SUPPORT_TYPE & ODM_CE )	
++	rtw_vmfree(pPtr, length);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	//PADAPTER    Adapter = pDM_Odm->Adapter;
++	PlatformFreeMemory(pPtr, length);
++#endif	
++}
++
++VOID
++ODM_MoveMemory(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	OUT PVOID		pDest,
++	IN  PVOID		pSrc,
++	IN  u4Byte		Length
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	memcpy(pDest, pSrc, Length);
++#elif (DM_ODM_SUPPORT_TYPE & ODM_CE )	
++	_rtw_memcpy(pDest, pSrc, Length);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformMoveMemory(pDest, pSrc, Length);
++#endif	
++}
++
++void ODM_Memory_Set(
++	IN	PDM_ODM_T	pDM_Odm,
++	IN	PVOID		pbuf,
++	IN	s1Byte		value,
++	IN	u4Byte		length
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	memset(pbuf, value, length);
++#elif (DM_ODM_SUPPORT_TYPE & ODM_CE )	
++	_rtw_memset(pbuf,value, length);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformFillMemory(pbuf,length,value);
++#endif
++}
++s4Byte ODM_CompareMemory(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	PVOID           pBuf1,
++	IN	PVOID           pBuf2,
++	IN	u4Byte          length
++       )
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	return memcmp(pBuf1,pBuf2,length);
++#elif (DM_ODM_SUPPORT_TYPE & ODM_CE )	
++	return _rtw_memcmp(pBuf1,pBuf2,length);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)	
++	return PlatformCompareMemory(pBuf1,pBuf2,length);
++#endif	
++}
++
++
++
++//
++// ODM MISC relative API.
++//
++VOID
++ODM_AcquireSpinLock(	
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	RT_SPINLOCK_TYPE	type
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PADAPTER Adapter = pDM_Odm->Adapter;
++	rtw_odm_acquirespinlock(Adapter, type);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PlatformAcquireSpinLock(Adapter, type);
++#endif	
++}
++VOID
++ODM_ReleaseSpinLock(	
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	RT_SPINLOCK_TYPE	type
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++
++#elif (DM_ODM_SUPPORT_TYPE & ODM_CE )
++	PADAPTER Adapter = pDM_Odm->Adapter;
++	rtw_odm_releasespinlock(Adapter, type);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PlatformReleaseSpinLock(Adapter, type);
++#endif	
++}
++
++//
++// Work item relative API. FOr MP driver only~!
++//
++VOID
++ODM_InitializeWorkItem(	
++	IN 	PDM_ODM_T					pDM_Odm,
++	IN	PRT_WORK_ITEM				pRtWorkItem,
++	IN	RT_WORKITEM_CALL_BACK		RtWorkItemCallback,
++	IN	PVOID						pContext,
++	IN	const char*					szID
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PlatformInitializeWorkItem(Adapter, pRtWorkItem, RtWorkItemCallback, pContext, szID);
++#endif	
++}
++
++
++VOID
++ODM_StartWorkItem(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformStartWorkItem(pRtWorkItem);
++#endif	
++}
++
++
++VOID
++ODM_StopWorkItem(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformStopWorkItem(pRtWorkItem);
++#endif	
++}
++
++
++VOID
++ODM_FreeWorkItem(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformFreeWorkItem(pRtWorkItem);
++#endif	
++}
++
++
++VOID
++ODM_ScheduleWorkItem(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformScheduleWorkItem(pRtWorkItem);
++#endif	
++}
++
++
++VOID
++ODM_IsWorkItemScheduled(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformIsWorkItemScheduled(pRtWorkItem);
++#endif	
++}
++
++
++
++//
++// ODM Timer relative API.
++//
++VOID
++ODM_StallExecution(	
++	IN	u4Byte	usDelay
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	rtw_udelay_os(usDelay);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformStallExecution(usDelay);
++#endif	
++}
++
++VOID
++ODM_delay_ms(IN u4Byte	ms)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	delay_ms(ms);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	rtw_mdelay_os(ms);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	delay_ms(ms);
++#endif			
++}
++
++VOID
++ODM_delay_us(IN u4Byte	us)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	delay_us(us);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	rtw_udelay_os(us);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PlatformStallExecution(us);
++#endif			
++}
++
++VOID
++ODM_sleep_ms(IN u4Byte	ms)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	rtw_msleep_os(ms);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)	
++#endif		
++}
++
++VOID
++ODM_sleep_us(IN u4Byte	us)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	rtw_usleep_os(us);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)	
++#endif		
++}
++
++VOID
++ODM_SetTimer(	
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	PRT_TIMER 		pTimer, 
++	IN	u4Byte 			msDelay
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	mod_timer(pTimer, jiffies + RTL_MILISECONDS_TO_JIFFIES(msDelay));
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	_set_timer(pTimer,msDelay ); //ms
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PlatformSetTimer(Adapter, pTimer, msDelay);
++#endif	
++
++}
++
++VOID
++ODM_InitializeTimer(
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	PRT_TIMER 			pTimer, 
++	IN	RT_TIMER_CALL_BACK	CallBackFunc, 
++	IN	PVOID				pContext,
++	IN	const char*			szID
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	init_timer(pTimer);
++	pTimer->function = CallBackFunc;
++	pTimer->data = (unsigned long)pDM_Odm;
++	/*mod_timer(pTimer, jiffies+RTL_MILISECONDS_TO_JIFFIES(10));	*/
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	PADAPTER Adapter = pDM_Odm->Adapter;
++	_init_timer(pTimer,Adapter->pnetdev,CallBackFunc,pDM_Odm);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER Adapter = pDM_Odm->Adapter;
++	PlatformInitializeTimer(Adapter, pTimer, CallBackFunc,pContext,szID);
++#endif	
++}
++
++
++VOID
++ODM_CancelTimer(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	PRT_TIMER		pTimer
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	del_timer(pTimer);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	_cancel_timer_ex(pTimer);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	PADAPTER Adapter = pDM_Odm->Adapter;
++	PlatformCancelTimer(Adapter, pTimer);
++#endif
++}
++
++
++VOID
++ODM_ReleaseTimer(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	PRT_TIMER		pTimer
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++
++	PADAPTER Adapter = pDM_Odm->Adapter;
++
++    // <20120301, Kordan> If the initilization fails, InitializeAdapterXxx will return regardless of InitHalDm. 
++    // Hence, uninitialized timers cause BSOD when the driver releases resources since the init fail.
++    if (pTimer == 0) 
++    {
++        ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_SERIOUS, ("=====>ODM_ReleaseTimer(), The timer is NULL! Please check it!\n"));
++        return;
++    }
++        
++	PlatformReleaseTimer(Adapter, pTimer);
++#endif
++}
++
++
++u1Byte
++phydm_trans_h2c_id(
++	IN	PDM_ODM_T	pDM_Odm,
++	IN	u1Byte		phydm_h2c_id
++)
++{
++	u1Byte platform_h2c_id=0xff;
++
++	
++	switch(phydm_h2c_id)
++	{
++		//1 [0]
++		case ODM_H2C_RSSI_REPORT:
++
++			#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++				if(pDM_Odm->SupportICType == ODM_RTL8188E)
++					platform_h2c_id = H2C_88E_RSSI_REPORT;
++				else if(pDM_Odm->SupportICType == ODM_RTL8814A)
++					platform_h2c_id =H2C_8814A_RSSI_REPORT;                            
++				else
++					platform_h2c_id = H2C_RSSI_REPORT;
++				
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++				platform_h2c_id = H2C_RSSI_SETTING;
++				
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_AP)
++#if ((RTL8881A_SUPPORT == 1) || (RTL8192E_SUPPORT == 1) || (RTL8814A_SUPPORT == 1) || (RTL8822B_SUPPORT == 1) || (RTL8197F_SUPPORT == 1))
++			if (pDM_Odm->SupportICType == ODM_RTL8881A || pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType & PHYDM_IC_3081_SERIES) 
++				platform_h2c_id = H2C_88XX_RSSI_REPORT;	
++			else
++				#endif
++				#if (RTL8812A_SUPPORT == 1) 
++					if (pDM_Odm->SupportICType == ODM_RTL8812)
++						platform_h2c_id = H2C_8812_RSSI_REPORT;
++			else
++				#endif				
++					{}
++			#endif
++			
++				break;
++
++		//1 [3]	
++		case ODM_H2C_WIFI_CALIBRATION:
++			#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++					platform_h2c_id =H2C_WIFI_CALIBRATION;
++			
++			#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++				#if (RTL8723B_SUPPORT == 1) 
++					platform_h2c_id = H2C_8723B_BT_WLAN_CALIBRATION;
++				#endif
++				
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			#endif
++				break;		
++	
++			
++		//1 [4]
++		case ODM_H2C_IQ_CALIBRATION:
++			#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++				platform_h2c_id =H2C_IQ_CALIBRATION;
++			
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++				#if((RTL8812A_SUPPORT==1) ||(RTL8821A_SUPPORT==1))
++				platform_h2c_id = H2C_8812_IQ_CALIBRATION;
++				#endif
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			#endif
++			
++				break;
++		//1 [5]
++		case ODM_H2C_RA_PARA_ADJUST:
++
++			#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++				if (pDM_Odm->SupportICType & (ODM_RTL8814A | ODM_RTL8822B))
++					platform_h2c_id =H2C_8814A_RA_PARA_ADJUST;                            
++				else
++					platform_h2c_id = H2C_RA_PARA_ADJUST;
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++				#if((RTL8812A_SUPPORT==1) ||(RTL8821A_SUPPORT==1))
++					platform_h2c_id = H2C_8812_RA_PARA_ADJUST;
++				#elif ((RTL8814A_SUPPORT == 1) || (RTL8822B_SUPPORT == 1))
++					platform_h2c_id = H2C_RA_PARA_ADJUST;
++				#elif(RTL8192E_SUPPORT==1)
++					platform_h2c_id =H2C_8192E_RA_PARA_ADJUST;
++				#elif(RTL8723B_SUPPORT==1) 
++					platform_h2c_id =H2C_8723B_RA_PARA_ADJUST;
++				#endif
++				
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_AP)
++#if ((RTL8881A_SUPPORT == 1) || (RTL8192E_SUPPORT == 1) || (RTL8814A_SUPPORT == 1) || (RTL8822B_SUPPORT == 1) || (RTL8197F_SUPPORT == 1)) 
++			if (pDM_Odm->SupportICType == ODM_RTL8881A || pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType & PHYDM_IC_3081_SERIES) 
++				platform_h2c_id = H2C_88XX_RA_PARA_ADJUST;
++			else
++				#endif
++				#if(RTL8812A_SUPPORT==1) 
++					if(pDM_Odm->SupportICType == ODM_RTL8812)
++						platform_h2c_id = H2C_8812_RA_PARA_ADJUST;
++			else
++				#endif
++					{}
++			#endif
++			
++				break;
++
++
++		//1 [6]
++		case PHYDM_H2C_DYNAMIC_TX_PATH:
++
++			#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++				if(pDM_Odm->SupportICType == ODM_RTL8814A)
++				{
++					platform_h2c_id =H2C_8814A_DYNAMIC_TX_PATH;
++				}
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++				#if (RTL8814A_SUPPORT == 1)
++				if (pDM_Odm->SupportICType == ODM_RTL8814A)
++					platform_h2c_id = H2C_DYNAMIC_TX_PATH;
++				#endif
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_AP)
++				#if(RTL8814A_SUPPORT==1)
++					if( pDM_Odm->SupportICType == ODM_RTL8814A)
++					{
++						platform_h2c_id = H2C_88XX_DYNAMIC_TX_PATH;				
++					} 
++				#endif
++
++			#endif
++			
++				break;
++
++		/* [7]*/
++		case PHYDM_H2C_FW_TRACE_EN:
++
++			#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++				if (pDM_Odm->SupportICType & (ODM_RTL8814A|ODM_RTL8822B))
++					platform_h2c_id = H2C_8814A_FW_TRACE_EN;
++				else 
++					platform_h2c_id = H2C_FW_TRACE_EN;
++				
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++
++				
++			#elif(DM_ODM_SUPPORT_TYPE & ODM_AP)
++#if ((RTL8881A_SUPPORT == 1) || (RTL8192E_SUPPORT == 1) || (RTL8814A_SUPPORT == 1) || (RTL8822B_SUPPORT == 1) || (RTL8197F_SUPPORT == 1))
++			if (pDM_Odm->SupportICType == ODM_RTL8881A || pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType & PHYDM_IC_3081_SERIES)
++						platform_h2c_id  = H2C_88XX_FW_TRACE_EN;
++					else
++				#endif
++				#if (RTL8812A_SUPPORT == 1) 
++			if (pDM_Odm->SupportICType == ODM_RTL8812)
++						platform_h2c_id = H2C_8812_FW_TRACE_EN;
++			else
++				#endif
++					{}
++
++			#endif
++			
++				break;
++
++		case PHYDM_H2C_TXBF:
++#if ((RTL8192E_SUPPORT == 1) || (RTL8812A_SUPPORT == 1))
++			platform_h2c_id  = 0x41;	/*H2C_TxBF*/
++#endif
++		break;
++
++		case PHYDM_H2C_MU:
++#if (RTL8822B_SUPPORT == 1) 
++			platform_h2c_id  = 0x4a;	/*H2C_MU*/
++#endif			
++		break;
++
++		default:
++			platform_h2c_id=0xff;
++			break;	
++	}	
++	
++	return platform_h2c_id;
++	
++}
++
++/*ODM FW relative API.*/
++
++VOID
++ODM_FillH2CCmd(
++	IN	PDM_ODM_T		pDM_Odm,
++	IN	u1Byte 			phydm_h2c_id,
++	IN	u4Byte 			CmdLen,
++	IN	pu1Byte			pCmdBuffer
++)
++{
++	PADAPTER 	Adapter = pDM_Odm->Adapter;
++	u1Byte		platform_h2c_id;
++
++	platform_h2c_id=phydm_trans_h2c_id(pDM_Odm, phydm_h2c_id);
++
++	if (platform_h2c_id == 0xff) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("[H2C] Wrong H2C CMD-ID !! platform_h2c_id==0xff ,  PHYDM_ElementID=((%d ))\n", phydm_h2c_id));
++		return;
++	}
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++		if (pDM_Odm->SupportICType == ODM_RTL8188E)	{
++			if (!pDM_Odm->RaSupport88E)
++				FillH2CCmd88E(Adapter, platform_h2c_id, CmdLen, pCmdBuffer);
++		} else if (pDM_Odm->SupportICType == ODM_RTL8814A)		
++			FillH2CCmd8814A(Adapter, platform_h2c_id, CmdLen, pCmdBuffer);		
++		else if (pDM_Odm->SupportICType == ODM_RTL8822B)		
++#if (RTL8822B_SUPPORT == 1)
++			FillH2CCmd8822B(Adapter, platform_h2c_id, CmdLen, pCmdBuffer);
++#endif		
++		else				
++			FillH2CCmd(Adapter, platform_h2c_id, CmdLen, pCmdBuffer);
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++		rtw_hal_fill_h2c_cmd(Adapter, platform_h2c_id, CmdLen, pCmdBuffer);
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_AP)	
++#if ((RTL8881A_SUPPORT == 1) || (RTL8192E_SUPPORT == 1) || (RTL8814A_SUPPORT == 1) || (RTL8822B_SUPPORT == 1) || (RTL8197F_SUPPORT == 1)) 
++		if (pDM_Odm->SupportICType == ODM_RTL8881A || pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType & PHYDM_IC_3081_SERIES) 
++			GET_HAL_INTERFACE(pDM_Odm->priv)->FillH2CCmdHandler(pDM_Odm->priv, platform_h2c_id, CmdLen, pCmdBuffer);
++		else
++#endif
++#if (RTL8812A_SUPPORT == 1) 
++		if (pDM_Odm->SupportICType == ODM_RTL8812)
++			FillH2CCmd8812(pDM_Odm->priv, platform_h2c_id, CmdLen, pCmdBuffer);
++		else
++#endif
++		{}
++#endif
++}
++
++u1Byte
++phydm_c2H_content_parsing(
++	IN	PVOID			pDM_VOID,
++	IN	u1Byte			c2hCmdId,
++	IN	u1Byte			c2hCmdLen,
++	IN	pu1Byte			tmpBuf
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++	#endif
++	u1Byte	Extend_c2hSubID = 0;
++	u1Byte	find_c2h_cmd = TRUE;
++
++	switch (c2hCmdId) {
++	case PHYDM_C2H_DBG:
++		phydm_fw_trace_handler(pDM_Odm, tmpBuf, c2hCmdLen);
++		break;
++
++	case PHYDM_C2H_RA_RPT:
++		phydm_c2h_ra_report_handler(pDM_Odm, tmpBuf, c2hCmdLen);
++		break;
++
++	case PHYDM_C2H_RA_PARA_RPT:
++		ODM_C2HRaParaReportHandler(pDM_Odm, tmpBuf, c2hCmdLen);
++		break;
++		
++	case PHYDM_C2H_DYNAMIC_TX_PATH_RPT:
++		if (pDM_Odm->SupportICType & (ODM_RTL8814A))
++			phydm_c2h_dtp_handler(pDM_Odm, tmpBuf, c2hCmdLen);
++		break;
++		
++	case PHYDM_C2H_IQK_FINISH:
++		#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		
++		if (pDM_Odm->SupportICType & (ODM_RTL8812|ODM_RTL8821)) {
++			
++			RT_TRACE(COMP_MP, DBG_LOUD, ("== FW IQK Finish ==\n"));
++			PlatformAcquireSpinLock(Adapter, RT_IQK_SPINLOCK);
++			pDM_Odm->RFCalibrateInfo.bIQKInProgress = FALSE;
++			PlatformReleaseSpinLock(Adapter, RT_IQK_SPINLOCK);
++			pDM_Odm->RFCalibrateInfo.IQK_ProgressingTime = 0;
++			pDM_Odm->RFCalibrateInfo.IQK_ProgressingTime = ODM_GetProgressingTime(pDM_Odm, pDM_Odm->RFCalibrateInfo.IQK_StartTime);
++		}
++		
++		#endif
++		break;
++
++	case PHYDM_C2H_DBG_CODE:
++		phydm_fw_trace_handler_code(pDM_Odm, tmpBuf, c2hCmdLen);
++		break;	
++
++	case PHYDM_C2H_EXTEND:
++		Extend_c2hSubID= tmpBuf[0];
++		if (Extend_c2hSubID == PHYDM_EXTEND_C2H_DBG_PRINT)
++			phydm_fw_trace_handler_8051(pDM_Odm, tmpBuf, c2hCmdLen);
++		
++		break;
++
++	default:
++		find_c2h_cmd = FALSE;
++		break;
++	}
++
++	return find_c2h_cmd;
++
++}
++
++u8Byte
++ODM_GetCurrentTime(	
++	IN 	PDM_ODM_T		pDM_Odm
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	return  0;
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	return (u8Byte)rtw_get_current_time();
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)	
++	return  PlatformGetCurrentTime();
++#endif
++}
++
++u8Byte
++ODM_GetProgressingTime(	
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u8Byte			Start_Time
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	return  0;
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	return rtw_get_passing_time_ms((u4Byte)Start_Time);
++#elif(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	return   ((PlatformGetCurrentTime() - Start_Time)>>10);
++#endif
++}
++
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_interface.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_interface.h
+new file mode 100644
+index 0000000..fb68142
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_interface.h
+@@ -0,0 +1,428 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#ifndef	__ODM_INTERFACE_H__
++#define __ODM_INTERFACE_H__
++
++#define INTERFACE_VERSION	"1.1"		/*2015.07.29  YuChen*/
++
++//
++// =========== Constant/Structure/Enum/... Define
++//
++
++
++
++//
++// =========== Macro Define
++//
++
++#define _reg_all(_name)			ODM_##_name
++#define _reg_ic(_name, _ic)		ODM_##_name##_ic
++#define _bit_all(_name)			BIT_##_name
++#define _bit_ic(_name, _ic)		BIT_##_name##_ic
++
++// _cat: implemented by Token-Pasting Operator.
++#if 0
++#define _cat(_name, _ic_type, _func)								\
++	( 															\
++		_func##_all(_name)										\
++	)
++#endif
++
++/*===================================
++
++#define ODM_REG_DIG_11N		0xC50
++#define ODM_REG_DIG_11AC	0xDDD
++
++ODM_REG(DIG,_pDM_Odm)
++=====================================*/
++
++#define _reg_11N(_name)			ODM_REG_##_name##_11N 
++#define _reg_11AC(_name)		ODM_REG_##_name##_11AC
++#define _bit_11N(_name)			ODM_BIT_##_name##_11N 
++#define _bit_11AC(_name)		ODM_BIT_##_name##_11AC
++
++#ifdef __ECOS
++#define _rtk_cat(_name, _ic_type, _func)		\
++	( 					\
++		((_ic_type) & ODM_IC_11N_SERIES)? _func##_11N(_name):		\
++		_func##_11AC(_name)	\
++	)
++#else
++
++#define _cat(_name, _ic_type, _func)									\
++	( 															\
++		((_ic_type) & ODM_IC_11N_SERIES)? _func##_11N(_name):		\
++		_func##_11AC(_name)									\
++	)
++#endif
++/* 
++// only sample code
++//#define _cat(_name, _ic_type, _func)									\
++//	( 															\
++//		((_ic_type) & ODM_RTL8188E)? _func##_ic(_name, _8188E):		\
++//		_func##_ic(_name, _8195)									\
++//	)
++*/
++
++// _name: name of register or bit.
++// Example: "ODM_REG(R_A_AGC_CORE1, pDM_Odm)" 
++//        gets "ODM_R_A_AGC_CORE1" or "ODM_R_A_AGC_CORE1_8192C", depends on SupportICType.
++#ifdef __ECOS
++#define ODM_REG(_name, _pDM_Odm)	_rtk_cat(_name, _pDM_Odm->SupportICType, _reg)
++#define ODM_BIT(_name, _pDM_Odm)	_rtk_cat(_name, _pDM_Odm->SupportICType, _bit)
++#else
++#define ODM_REG(_name, _pDM_Odm)	_cat(_name, _pDM_Odm->SupportICType, _reg)
++#define ODM_BIT(_name, _pDM_Odm)	_cat(_name, _pDM_Odm->SupportICType, _bit)
++#endif
++typedef enum _PHYDM_H2C_CMD {
++	ODM_H2C_RSSI_REPORT = 0,
++	ODM_H2C_PSD_RESULT = 1,	
++	ODM_H2C_PathDiv = 2,
++	ODM_H2C_WIFI_CALIBRATION = 3,
++	ODM_H2C_IQ_CALIBRATION = 4,
++	ODM_H2C_RA_PARA_ADJUST = 5,
++	PHYDM_H2C_DYNAMIC_TX_PATH = 6,
++	PHYDM_H2C_FW_TRACE_EN = 7,
++	PHYDM_H2C_TXBF = 8,
++	PHYDM_H2C_MU = 9,
++	ODM_MAX_H2CCMD
++}PHYDM_H2C_CMD;
++
++typedef enum _PHYDM_C2H_EVT {
++	PHYDM_C2H_DBG = 0,
++	PHYDM_C2H_LB = 1,
++	PHYDM_C2H_XBF = 2,
++	PHYDM_C2H_TX_REPORT = 3,
++	PHYDM_C2H_INFO = 9,
++	PHYDM_C2H_BT_MP = 11,
++	PHYDM_C2H_RA_RPT = 12,
++	PHYDM_C2H_RA_PARA_RPT=14,
++	PHYDM_C2H_DYNAMIC_TX_PATH_RPT = 15,
++	PHYDM_C2H_IQK_FINISH = 17, /*0x11*/
++	PHYDM_C2H_DBG_CODE = 0xFE,
++	PHYDM_C2H_EXTEND = 0xFF,
++}PHYDM_C2H_EVT;
++
++typedef enum _PHYDM_EXTEND_C2H_EVT {
++	PHYDM_EXTEND_C2H_DBG_PRINT = 0
++
++}PHYDM_EXTEND_C2H_EVT;
++
++
++//
++// 2012/02/17 MH For non-MP compile pass only. Linux does not support workitem.
++// Suggest HW team to use thread instead of workitem. Windows also support the feature.
++//
++#if (DM_ODM_SUPPORT_TYPE != ODM_WIN)
++typedef  void *PRT_WORK_ITEM ;
++typedef  void RT_WORKITEM_HANDLE,*PRT_WORKITEM_HANDLE;
++typedef VOID (*RT_WORKITEM_CALL_BACK)(PVOID pContext);
++
++#if 0
++typedef struct tasklet_struct RT_WORKITEM_HANDLE, *PRT_WORKITEM_HANDLE;
++
++typedef struct _RT_WORK_ITEM
++{
++	
++	RT_WORKITEM_HANDLE			Handle;			// Platform-dependent handle for this workitem, e.g. Ndis Workitem object.
++	PVOID						Adapter;		// Pointer to Adapter object.
++	PVOID						pContext;		// Parameter to passed to CallBackFunc(). 
++	RT_WORKITEM_CALL_BACK		CallbackFunc;	// Callback function of the workitem.
++	u1Byte						RefCount;		// 0: driver is going to unload, 1: No such workitem scheduled, 2: one workitem is schedueled. 
++	PVOID						pPlatformExt;	// Pointer to platform-dependent extension.	
++	BOOLEAN						bFree;
++	char						szID[36];		// An identity string of this workitem.
++}RT_WORK_ITEM, *PRT_WORK_ITEM;
++
++#endif
++
++
++#endif
++
++//
++// =========== Extern Variable ??? It should be forbidden.
++//
++
++
++//
++// =========== EXtern Function Prototype
++//
++
++
++u1Byte
++ODM_Read1Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr
++	);
++
++u2Byte
++ODM_Read2Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr
++	);
++
++u4Byte
++ODM_Read4Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr
++	);
++
++VOID
++ODM_Write1Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr,
++	IN	u1Byte			Data
++	);
++
++VOID
++ODM_Write2Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr,
++	IN	u2Byte			Data
++	);
++
++VOID
++ODM_Write4Byte(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u4Byte			RegAddr,
++	IN	u4Byte			Data
++	);
++
++VOID
++ODM_SetMACReg(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	u4Byte		RegAddr,
++	IN	u4Byte		BitMask,
++	IN	u4Byte		Data
++	);
++
++u4Byte 
++ODM_GetMACReg(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	u4Byte		RegAddr,
++	IN	u4Byte		BitMask
++	);
++
++VOID
++ODM_SetBBReg(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	u4Byte		RegAddr,
++	IN	u4Byte		BitMask,
++	IN	u4Byte		Data
++	);
++
++u4Byte 
++ODM_GetBBReg(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	u4Byte		RegAddr,
++	IN	u4Byte		BitMask
++	);
++
++VOID
++ODM_SetRFReg(	
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	ODM_RF_RADIO_PATH_E	eRFPath,
++	IN	u4Byte				RegAddr,
++	IN	u4Byte				BitMask,
++	IN	u4Byte				Data
++	);
++
++u4Byte 
++ODM_GetRFReg(	
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	ODM_RF_RADIO_PATH_E	eRFPath,
++	IN	u4Byte				RegAddr,
++	IN	u4Byte				BitMask
++	);
++
++
++//
++// Memory Relative Function.
++//
++VOID
++ODM_AllocateMemory(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	OUT	PVOID		*pPtr,
++	IN	u4Byte		length
++	);
++VOID
++ODM_FreeMemory(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	OUT	PVOID		pPtr,
++	IN	u4Byte		length
++	);
++
++VOID
++ODM_MoveMemory(	
++	IN 	PDM_ODM_T	pDM_Odm,
++	OUT PVOID		pDest,
++	IN  PVOID		pSrc,
++	IN  u4Byte		Length
++	);
++
++s4Byte ODM_CompareMemory(
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	PVOID           pBuf1,
++      IN	PVOID           pBuf2,
++      IN	u4Byte          length
++       );
++
++void ODM_Memory_Set
++	(IN 	PDM_ODM_T	pDM_Odm,
++		IN  PVOID	pbuf,
++		IN  s1Byte	value,
++		IN  u4Byte	length);
++	
++//
++// ODM MISC-spin lock relative API.
++//
++VOID
++ODM_AcquireSpinLock(	
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	RT_SPINLOCK_TYPE	type
++	);
++
++VOID
++ODM_ReleaseSpinLock(	
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	RT_SPINLOCK_TYPE	type
++	);
++
++
++//
++// ODM MISC-workitem relative API.
++//
++VOID
++ODM_InitializeWorkItem(	
++	IN 	PDM_ODM_T					pDM_Odm,
++	IN	PRT_WORK_ITEM				pRtWorkItem,
++	IN	RT_WORKITEM_CALL_BACK		RtWorkItemCallback,
++	IN	PVOID						pContext,
++	IN	const char*					szID
++	);
++
++VOID
++ODM_StartWorkItem(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	);
++
++VOID
++ODM_StopWorkItem(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	);
++
++VOID
++ODM_FreeWorkItem(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	);
++
++VOID
++ODM_ScheduleWorkItem(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	);
++
++VOID
++ODM_IsWorkItemScheduled(	
++	IN	PRT_WORK_ITEM	pRtWorkItem
++	);
++
++//
++// ODM Timer relative API.
++//
++VOID
++ODM_StallExecution(	
++	IN	u4Byte	usDelay
++	);
++
++VOID
++ODM_delay_ms(IN u4Byte	ms);
++
++
++
++VOID
++ODM_delay_us(IN u4Byte	us);
++
++VOID
++ODM_sleep_ms(IN u4Byte	ms);
++
++VOID
++ODM_sleep_us(IN u4Byte	us);
++
++VOID
++ODM_SetTimer(	
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	PRT_TIMER 		pTimer, 
++	IN	u4Byte 			msDelay
++	);
++
++VOID
++ODM_InitializeTimer(
++	IN 	PDM_ODM_T			pDM_Odm,
++	IN	PRT_TIMER 			pTimer, 
++	IN	RT_TIMER_CALL_BACK	CallBackFunc, 
++	IN	PVOID				pContext,
++	IN	const char*			szID
++	);
++
++VOID
++ODM_CancelTimer(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	PRT_TIMER		pTimer
++	);
++
++VOID
++ODM_ReleaseTimer(
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	PRT_TIMER		pTimer
++	);
++
++//
++// ODM FW relative API.
++//
++VOID
++ODM_FillH2CCmd(
++	IN	PDM_ODM_T		pDM_Odm,
++	IN	u1Byte 			ElementID,
++	IN	u4Byte 			CmdLen,
++	IN	pu1Byte			pCmdBuffer
++);
++
++u1Byte
++phydm_c2H_content_parsing(
++	IN	PVOID			pDM_VOID,
++	IN	u1Byte			c2hCmdId,
++	IN	u1Byte			c2hCmdLen,
++	IN	pu1Byte			tmpBuf
++);
++
++u8Byte
++ODM_GetCurrentTime(	
++	IN 	PDM_ODM_T		pDM_Odm
++	);
++u8Byte
++ODM_GetProgressingTime(	
++	IN 	PDM_ODM_T		pDM_Odm,
++	IN	u8Byte			Start_Time
++	);
++
++#endif	// __ODM_INTERFACE_H__
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_iqk.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_iqk.h
+new file mode 100644
+index 0000000..2c4c2eb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_iqk.h
+@@ -0,0 +1,50 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef	__PHYDMIQK_H__
++#define __PHYDMIQK_H__
++
++/*--------------------------Define Parameters-------------------------------*/
++#define	LOK_delay 1
++#define	WBIQK_delay 10
++#define	TX_IQK 0
++#define	RX_IQK 1
++#define	NUM 4	
++/*---------------------------End Define Parameters-------------------------------*/
++
++typedef struct _IQK_INFORMATION {
++	BOOLEAN		LOK_fail[NUM];
++	BOOLEAN		IQK_fail[2][NUM];
++	u4Byte		IQC_Matrix[2][NUM];
++	u1Byte      IQKtimes;
++	u4Byte		RFReg18;
++	
++	u4Byte		IQK_Channel[2];
++	BOOLEAN		IQK_fail_report[2][4][2]; /*channel/path/TRX(TX:0, RX:1) */
++	u4Byte		IQK_CFIR_real[2][4][2][8]; /*channel / path / TRX(TX:0, RX:1) / CFIR_real*/
++	u4Byte		IQK_CFIR_imag[2][4][2][8]; /*channel / path / TRX(TX:0, RX:1) / CFIR_imag*/
++	u1Byte		retry_count[2][4][2]; /* channel / path / TRX(TX:0, RX:1) */	
++	u4Byte		LOK_IDAC[2][4];		/*channel / path*/
++	u4Byte		RXIQK_AGC[2][4];	 /*channel / path*/
++
++
++} IQK_INFO, *PIQK_INFO;
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_kfree.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_kfree.c
+new file mode 100644
+index 0000000..a91cdee
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_kfree.c
+@@ -0,0 +1,191 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++/*============================================================*/
++/*include files*/
++/*============================================================*/
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++
++/*<YuChen, 150720> Add for KFree Feature Requested by RF David.*/
++/*This is a phydm API*/
++
++VOID
++phydm_SetKfreeToRF_8814A(
++	IN	PVOID		pDM_VOID,
++	IN	u1Byte		eRFPath,
++	IN	u1Byte		Data
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	BOOLEAN bOdd;
++	
++	if ((Data%2) != 0) {	/*odd -> positive*/
++		Data = Data - 1;
++		ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT19, 1);
++		bOdd = TRUE;
++	} else {		/*even -> negative*/
++		ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT19, 0);
++		bOdd = FALSE;
++	}
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_MP, ODM_DBG_LOUD, ("phy_ConfigKFree8814A(): RF_0x55[19]= %d\n", bOdd));
++		switch (Data) {
++		case 0:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 0);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 0);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 0;
++		break;
++		case 2:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 1);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 0);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 0;
++		break;
++		case 4:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 0);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 1);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 1;
++		break;
++		case 6:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 1);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 1);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 1;
++		break;
++		case 8:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 0);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 2);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 2;
++		break;
++		case 10:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 1);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 2);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 2;
++		break;
++		case 12:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 0);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 3);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 3;
++		break;
++		case 14:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 1);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 3);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 3;
++		break;
++		case 16:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 0);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 4);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 4;
++		break;
++		case 18:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 1);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 4);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 4;
++		break;
++		case 20:
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT14, 0);
++			ODM_SetRFReg(pDM_Odm, eRFPath, rRF_TxGainOffset, BIT17|BIT16|BIT15, 5);
++			pRFCalibrateInfo->KfreeOffset[eRFPath] = 5;
++		break;
++
++		default:
++		break;
++	}
++
++	if (bOdd == FALSE) {
++	/*that means Kfree offset is negative, we need to record it.*/
++		pRFCalibrateInfo->KfreeOffset[eRFPath] = (-1)*pRFCalibrateInfo->KfreeOffset[eRFPath];
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_MP, ODM_DBG_LOUD, ("phy_ConfigKFree8814A(): KfreeOffset = %d\n", pRFCalibrateInfo->KfreeOffset[eRFPath]));
++	} else
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_MP, ODM_DBG_LOUD, ("phy_ConfigKFree8814A(): KfreeOffset = %d\n", pRFCalibrateInfo->KfreeOffset[eRFPath]));
++	
++}
++
++
++VOID
++phydm_SetKfreeToRF(
++	IN	PVOID		pDM_VOID,
++	IN	u1Byte		eRFPath,
++	IN	u1Byte		Data
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		phydm_SetKfreeToRF_8814A(pDM_Odm, eRFPath, Data);
++}
++
++VOID
++phydm_ConfigKFree(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	channelToSW,
++	IN	pu1Byte	kfreeTable
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	u1Byte			rfpath = 0, maxRFpath = 0;
++	u1Byte			channelIdx = 0;
++
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		maxRFpath = 4;	/*0~3*/
++	else if (pDM_Odm->SupportICType & (ODM_RTL8812 | ODM_RTL8192E | ODM_RTL8822B))
++		maxRFpath = 2;	/*0~1*/
++	else
++		maxRFpath = 1;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_MP, ODM_DBG_LOUD, ("===>phy_ConfigKFree8814A()\n"));
++	
++	if (pRFCalibrateInfo->RegRfKFreeEnable == 2) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_MP, ODM_DBG_LOUD, ("phy_ConfigKFree8814A(): RegRfKFreeEnable == 2, Disable\n"));
++		return;
++	} else if (pRFCalibrateInfo->RegRfKFreeEnable == 1 || pRFCalibrateInfo->RegRfKFreeEnable == 0) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_MP, ODM_DBG_LOUD, ("phy_ConfigKFree8814A(): RegRfKFreeEnable == TRUE\n"));
++		/*Make sure the targetval is defined*/
++		if (((pRFCalibrateInfo->RegRfKFreeEnable == 1) && (kfreeTable[0] != 0xFF)) || (pRFCalibrateInfo->RfKFreeEnable == TRUE)) {
++			/*if kfreeTable[0] == 0xff, means no Kfree*/
++			if (*pDM_Odm->pBandType == ODM_BAND_2_4G) {
++				if (channelToSW <= 14 && channelToSW >= 1)
++					channelIdx = PHYDM_2G;
++			} else if (*pDM_Odm->pBandType == ODM_BAND_5G) {
++				if (channelToSW >= 36 && channelToSW <= 48)
++					channelIdx = PHYDM_5GLB1;
++				if (channelToSW >= 52 && channelToSW <= 64)
++					channelIdx = PHYDM_5GLB2;
++				if (channelToSW >= 100 && channelToSW <= 120)
++					channelIdx = PHYDM_5GMB1;
++				if (channelToSW >= 124 && channelToSW <= 144)
++					channelIdx = PHYDM_5GMB2;
++				if (channelToSW >= 149 && channelToSW <= 177)
++					channelIdx = PHYDM_5GHB;
++			}
++
++			for (rfpath = ODM_RF_PATH_A;  rfpath < maxRFpath; rfpath++) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_MP, ODM_DBG_LOUD, ("phydm_kfree(): PATH_%d: %#x\n", rfpath, kfreeTable[channelIdx*maxRFpath + rfpath]));
++				phydm_SetKfreeToRF(pDM_Odm, rfpath, kfreeTable[channelIdx*maxRFpath + rfpath]);
++			}
++		} else {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_MP, ODM_DBG_LOUD, ("phy_ConfigKFree8814A(): targetval not defined, Don't execute KFree Process.\n"));
++			return;
++		}
++	}
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_MP, ODM_DBG_LOUD, ("<===phy_ConfigKFree8814A()\n"));
++}
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_kfree.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_kfree.h
+new file mode 100644
+index 0000000..d95e7cb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_kfree.h
+@@ -0,0 +1,45 @@
++
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef	__PHYDMKFREE_H__
++#define    __PHYDKFREE_H__
++
++#define KFREE_VERSION	"1.0"
++
++typedef enum tag_phydm_kfree_channeltosw {
++	PHYDM_2G = 0,
++	PHYDM_5GLB1 = 1,
++	PHYDM_5GLB2 = 2,
++	PHYDM_5GMB1 = 3,
++	PHYDM_5GMB2 = 4,
++	PHYDM_5GHB = 5,
++} PHYDM_KFREE_CHANNELTOSW;
++
++
++VOID
++phydm_ConfigKFree(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	channelToSW,
++	IN	pu1Byte	kfreeTable
++);
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_noisemonitor.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_noisemonitor.c
+new file mode 100644
+index 0000000..f9fd923
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_noisemonitor.c
+@@ -0,0 +1,305 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++#include "phydm_noisemonitor.h"
++
++//=================================================
++// This function is for inband noise test utility only
++// To obtain the inband noise level(dbm), do the following.
++// 1. disable DIG and Power Saving 
++// 2. Set initial gain = 0x1a
++// 3. Stop updating idle time pwer report (for driver read)
++//	- 0x80c[25]
++//
++//=================================================
++
++#define Valid_Min				-35
++#define Valid_Max			10
++#define ValidCnt				5	
++
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_CE|ODM_WIN))
++
++s2Byte odm_InbandNoise_Monitor_NSeries(PDM_ODM_T	pDM_Odm,u8 bPauseDIG,u8 IGIValue,u32 max_time)
++{
++	u4Byte				tmp4b;	
++	u1Byte				max_rf_path=0,rf_path;	
++	u1Byte				reg_c50, reg_c58,valid_done=0;	
++	struct noise_level		noise_data;
++	u8Byte	start  = 0, func_start = 0,	func_end = 0;
++
++	func_start = ODM_GetCurrentTime(pDM_Odm);
++	pDM_Odm->noise_level.noise_all = 0;
++	
++	if((pDM_Odm->RFType == ODM_1T2R) ||(pDM_Odm->RFType == ODM_2T2R))	
++		max_rf_path = 2;
++	else
++		max_rf_path = 1;
++	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,("odm_DebugControlInbandNoise_Nseries() ==> \n"));
++
++	ODM_Memory_Set(pDM_Odm,&noise_data,0,sizeof(struct noise_level));
++	
++	//
++	// Step 1. Disable DIG && Set initial gain.
++	//
++	
++	if(bPauseDIG)
++	{
++		odm_PauseDIG(pDM_Odm, PHYDM_PAUSE, PHYDM_PAUSE_LEVEL_1, IGIValue);
++	}
++	//
++	// Step 2. Disable all power save for read registers
++	//
++	//dcmd_DebugControlPowerSave(pAdapter, PSDisable);
++
++	//
++	// Step 3. Get noise power level
++	//
++	start = ODM_GetCurrentTime(pDM_Odm);
++	while(1)
++	{
++		
++		//Stop updating idle time pwer report (for driver read)
++		ODM_SetBBReg(pDM_Odm, rFPGA0_TxGainStage, BIT25, 1);	
++		
++		//Read Noise Floor Report
++		tmp4b = ODM_GetBBReg(pDM_Odm, 0x8f8,bMaskDWord );
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,("Noise Floor Report (0x8f8) = 0x%08x\n", tmp4b));
++		
++		//ODM_SetBBReg(pDM_Odm, rOFDM0_XAAGCCore1, bMaskByte0, TestInitialGain);
++		//if(max_rf_path == 2)
++		//	ODM_SetBBReg(pDM_Odm, rOFDM0_XBAGCCore1, bMaskByte0, TestInitialGain);
++		
++		//update idle time pwer report per 5us
++		ODM_SetBBReg(pDM_Odm, rFPGA0_TxGainStage, BIT25, 0);
++		
++		noise_data.value[ODM_RF_PATH_A] = (u1Byte)(tmp4b&0xff);		
++		noise_data.value[ODM_RF_PATH_B]  = (u1Byte)((tmp4b&0xff00)>>8);
++	
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD, ("value_a = 0x%x(%d), value_b = 0x%x(%d)\n", 
++			noise_data.value[ODM_RF_PATH_A], noise_data.value[ODM_RF_PATH_A], noise_data.value[ODM_RF_PATH_B], noise_data.value[ODM_RF_PATH_B]));
++
++		 for(rf_path = ODM_RF_PATH_A; rf_path < max_rf_path; rf_path++) 
++		 {
++		 	noise_data.sval[rf_path] = (s1Byte)noise_data.value[rf_path];
++			noise_data.sval[rf_path] /= 2;
++		 }	
++		 	
++		
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,("sval_a = %d, sval_b = %d\n", 
++			noise_data.sval[ODM_RF_PATH_A], noise_data.sval[ODM_RF_PATH_B]));
++		//ODM_delay_ms(10);
++		//ODM_sleep_ms(10);
++
++		for(rf_path = ODM_RF_PATH_A; rf_path < max_rf_path; rf_path++) 
++		{
++			if( (noise_data.valid_cnt[rf_path] < ValidCnt) && (noise_data.sval[rf_path] < Valid_Max && noise_data.sval[rf_path] >= Valid_Min))
++			{
++				noise_data.valid_cnt[rf_path]++;
++				noise_data.sum[rf_path] += noise_data.sval[rf_path];
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,("RF_Path:%d Valid sval = %d\n", rf_path,noise_data.sval[rf_path]));
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,("Sum of sval = %d, \n", noise_data.sum[rf_path]));
++				if(noise_data.valid_cnt[rf_path] == ValidCnt)
++				{				
++					valid_done++;
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,("After divided, RF_Path:%d ,sum = %d \n", rf_path,noise_data.sum[rf_path]));
++				}				
++			
++			}
++			
++		}
++
++		//printk("####### valid_done:%d #############\n",valid_done);
++		if ((valid_done==max_rf_path) || (ODM_GetProgressingTime(pDM_Odm,start) > max_time))
++		{
++			for(rf_path = ODM_RF_PATH_A; rf_path < max_rf_path; rf_path++)
++			{ 
++				//printk("%s PATH_%d - sum = %d, valid_cnt = %d \n",__FUNCTION__,rf_path,noise_data.sum[rf_path], noise_data.valid_cnt[rf_path]);
++				if(noise_data.valid_cnt[rf_path])
++					noise_data.sum[rf_path] /= noise_data.valid_cnt[rf_path];		
++				else
++					noise_data.sum[rf_path]  = 0;
++			}
++			break;
++		}
++	}
++	reg_c50 = (u1Byte)ODM_GetBBReg(pDM_Odm, rOFDM0_XAAGCCore1, bMaskByte0);
++	reg_c50 &= ~BIT7;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,("0x%x = 0x%02x(%d)\n", rOFDM0_XAAGCCore1, reg_c50, reg_c50));
++	pDM_Odm->noise_level.noise[ODM_RF_PATH_A] = (u1Byte)(-110 + reg_c50 + noise_data.sum[ODM_RF_PATH_A]);
++	pDM_Odm->noise_level.noise_all += pDM_Odm->noise_level.noise[ODM_RF_PATH_A];
++		
++	if(max_rf_path == 2){
++		reg_c58 = (u1Byte)ODM_GetBBReg(pDM_Odm, rOFDM0_XBAGCCore1, bMaskByte0);
++		reg_c58 &= ~BIT7;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,("0x%x = 0x%02x(%d)\n", rOFDM0_XBAGCCore1, reg_c58, reg_c58));
++		pDM_Odm->noise_level.noise[ODM_RF_PATH_B] = (u1Byte)(-110 + reg_c58 + noise_data.sum[ODM_RF_PATH_B]);
++		pDM_Odm->noise_level.noise_all += pDM_Odm->noise_level.noise[ODM_RF_PATH_B];
++	}
++	pDM_Odm->noise_level.noise_all /= max_rf_path;
++	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_COMMON, ODM_DBG_LOUD,("noise_a = %d, noise_b = %d\n", 
++		pDM_Odm->noise_level.noise[ODM_RF_PATH_A],
++		pDM_Odm->noise_level.noise[ODM_RF_PATH_B]));
++
++	//
++	// Step 4. Recover the Dig
++	//
++	if(bPauseDIG)
++	{
++		odm_PauseDIG(pDM_Odm, PHYDM_RESUME, PHYDM_PAUSE_LEVEL_1, IGIValue);
++	}	
++	func_end = ODM_GetProgressingTime(pDM_Odm,func_start) ;	
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("odm_DebugControlInbandNoise_Nseries() <==\n"));
++	return pDM_Odm->noise_level.noise_all;
++
++}
++
++s2Byte	
++odm_InbandNoise_Monitor_ACSeries(PDM_ODM_T	pDM_Odm, u8 bPauseDIG, u8 IGIValue, u32 max_time
++	)
++{
++	s4Byte          rxi_buf_anta, rxq_buf_anta; /*rxi_buf_antb, rxq_buf_antb;*/
++	s4Byte	        value32, pwdb_A = 0, sval, noise, sum;
++	BOOLEAN	        pd_flag;
++	u1Byte			i, valid_cnt;
++	u8Byte	start = 0, func_start = 0, func_end = 0;
++
++
++	if (!(pDM_Odm->SupportICType & (ODM_RTL8812 | ODM_RTL8821 | ODM_RTL8814A)))
++		return 0;
++	
++	func_start = ODM_GetCurrentTime(pDM_Odm);
++	pDM_Odm->noise_level.noise_all = 0;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("odm_InbandNoise_Monitor_ACSeries() ==>\n"));
++	
++	/* Step 1. Disable DIG && Set initial gain. */
++	if (bPauseDIG)
++		odm_PauseDIG(pDM_Odm, PHYDM_PAUSE, PHYDM_PAUSE_LEVEL_1, IGIValue);
++
++	/* Step 2. Disable all power save for read registers */
++	/*dcmd_DebugControlPowerSave(pAdapter, PSDisable); */
++
++	/* Step 3. Get noise power level */
++	start = ODM_GetCurrentTime(pDM_Odm);
++
++	/* reset counters */
++	sum = 0;
++	valid_cnt = 0;
++
++	/* Step 3. Get noise power level */
++	while (1) {
++		/*Set IGI=0x1C */
++		ODM_Write_DIG(pDM_Odm, 0x1C);
++		/*stop CK320&CK88 */
++		ODM_SetBBReg(pDM_Odm, 0x8B4, BIT6, 1);
++		/*Read Path-A */
++		ODM_SetBBReg(pDM_Odm, 0x8FC, bMaskDWord, 0x200); /*set debug port*/
++		value32 = ODM_GetBBReg(pDM_Odm, 0xFA0, bMaskDWord); /*read debug port*/
++		
++		rxi_buf_anta = (value32 & 0xFFC00) >> 10; /*rxi_buf_anta=RegFA0[19:10]*/
++		rxq_buf_anta = value32 & 0x3FF; /*rxq_buf_anta=RegFA0[19:10]*/
++
++		pd_flag = (BOOLEAN) ((value32 & BIT31) >> 31);
++
++		/*Not in packet detection period or Tx state */
++		if ((!pd_flag) || (rxi_buf_anta != 0x200)) {
++			/*sign conversion*/
++			rxi_buf_anta = ODM_SignConversion(rxi_buf_anta, 10);
++			rxq_buf_anta = ODM_SignConversion(rxq_buf_anta, 10);
++
++			pwdb_A = ODM_PWdB_Conversion(rxi_buf_anta * rxi_buf_anta + rxq_buf_anta * rxq_buf_anta, 20, 18); /*S(10,9)*S(10,9)=S(20,18)*/
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("pwdb_A= %d dB, rxi_buf_anta= 0x%x, rxq_buf_anta= 0x%x\n", pwdb_A, rxi_buf_anta & 0x3FF, rxq_buf_anta & 0x3FF));
++		}
++		/*Start CK320&CK88*/
++		ODM_SetBBReg(pDM_Odm, 0x8B4, BIT6, 0);
++		/*BB Reset*/
++		ODM_Write1Byte(pDM_Odm, 0x02, ODM_Read1Byte(pDM_Odm, 0x02) & (~BIT0));
++		ODM_Write1Byte(pDM_Odm, 0x02, ODM_Read1Byte(pDM_Odm, 0x02) | BIT0);
++		/*PMAC Reset*/
++		ODM_Write1Byte(pDM_Odm, 0xB03, ODM_Read1Byte(pDM_Odm, 0xB03) & (~BIT0));
++		ODM_Write1Byte(pDM_Odm, 0xB03, ODM_Read1Byte(pDM_Odm, 0xB03) | BIT0);
++		/*CCK Reset*/
++		if (ODM_Read1Byte(pDM_Odm, 0x80B) & BIT4) {
++			ODM_Write1Byte(pDM_Odm, 0x80B, ODM_Read1Byte(pDM_Odm, 0x80B) & (~BIT4));
++			ODM_Write1Byte(pDM_Odm, 0x80B, ODM_Read1Byte(pDM_Odm, 0x80B) | BIT4);		
++		}
++
++		sval = pwdb_A;
++
++		if (sval < 0 && sval >= -27) {
++			if (valid_cnt < ValidCnt) {
++				valid_cnt++;
++				sum += sval;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("Valid sval = %d\n", sval));
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("Sum of sval = %d,\n", sum));
++				if ((valid_cnt >= ValidCnt) || (ODM_GetProgressingTime(pDM_Odm, start) > max_time)) {
++					sum /= valid_cnt;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("After divided, sum = %d\n", sum)); 
++					break;
++				}
++			}
++		}
++	}
++
++	/*ADC backoff is 12dB,*/ 
++	/*Ptarget=0x1C-110=-82dBm*/
++	noise = sum + 12 + 0x1C - 110; 
++	
++	/*Offset*/
++	noise = noise - 3;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("noise = %d\n", noise));
++	pDM_Odm->noise_level.noise_all = (s2Byte)noise;
++
++	/* Step 4. Recover the Dig*/
++	if (bPauseDIG)
++		odm_PauseDIG(pDM_Odm, PHYDM_RESUME, PHYDM_PAUSE_LEVEL_1, IGIValue);
++	
++	func_end = ODM_GetProgressingTime(pDM_Odm, func_start);
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("odm_InbandNoise_Monitor_ACSeries() <==\n"));
++
++	return pDM_Odm->noise_level.noise_all;
++}
++
++
++
++s2Byte
++ODM_InbandNoise_Monitor(PVOID pDM_VOID, u8 bPauseDIG, u8 IGIValue, u32 max_time)
++{
++
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	if (pDM_Odm->SupportICType & ODM_IC_11AC_SERIES)
++		return odm_InbandNoise_Monitor_ACSeries(pDM_Odm, bPauseDIG, IGIValue, max_time);
++	else
++		return odm_InbandNoise_Monitor_NSeries(pDM_Odm, bPauseDIG, IGIValue, max_time);
++}
++
++#endif
++
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_noisemonitor.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_noisemonitor.h
+new file mode 100644
+index 0000000..6625be6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_noisemonitor.h
+@@ -0,0 +1,49 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ *****************************************************************************/
++#ifndef	__ODMNOISEMONITOR_H__
++#define __ODMNOISEMONITOR_H__
++
++#define	ODM_MAX_CHANNEL_NUM					38//14+24
++struct noise_level
++{
++	//u1Byte				value_a, value_b;
++	u1Byte				value[MAX_RF_PATH];
++	//s1Byte				sval_a, sval_b;
++	s1Byte				sval[MAX_RF_PATH];
++	
++	//s4Byte				noise_a=0, noise_b=0,sum_a=0, sum_b=0;
++	//s4Byte				noise[ODM_RF_PATH_MAX];
++	s4Byte				sum[MAX_RF_PATH];
++	//u1Byte				valid_cnt_a=0, valid_cnt_b=0, 
++	u1Byte				valid[MAX_RF_PATH];
++	u1Byte				valid_cnt[MAX_RF_PATH];
++
++};
++
++
++typedef struct _ODM_NOISE_MONITOR_
++{
++	s1Byte			noise[MAX_RF_PATH];
++	s2Byte			noise_all;	
++}ODM_NOISE_MONITOR;
++
++s2Byte ODM_InbandNoise_Monitor(PVOID pDM_VOID,u8 bPauseDIG,u8 IGIValue,u32 max_time);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_pathdiv.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_pathdiv.c
+new file mode 100644
+index 0000000..0ddeba3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_pathdiv.c
+@@ -0,0 +1,810 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#if(defined(CONFIG_PATH_DIVERSITY))
++#if RTL8814A_SUPPORT
++
++VOID
++phydm_dtp_fix_tx_path(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	path
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pPATHDIV_T		pDM_PathDiv = &pDM_Odm->DM_PathDiv;
++	u1Byte			i,num_enable_path=0;
++
++	if(path==pDM_PathDiv->pre_tx_path)
++	{
++		return;
++	}
++	else
++	{
++		pDM_PathDiv->pre_tx_path=path;
++	}
++
++	ODM_SetBBReg( pDM_Odm, 0x93c, BIT18|BIT19, 3);
++
++	for(i=0; i<4; i++)
++	{
++		if(path&BIT(i))
++			num_enable_path++;
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Number of trun-on path : (( %d ))\n", num_enable_path));
++
++	if(num_enable_path == 1)
++	{
++		ODM_SetBBReg( pDM_Odm, 0x93c, 0xf00000, path);
++	
++		if(path==PHYDM_A)//1-1
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( A ))\n"));
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT25|BIT24, 0);
++		}
++		else 	if(path==PHYDM_B)//1-2
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( B ))\n"));
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT27|BIT26, 0);
++		}
++		else 	if(path==PHYDM_C)//1-3
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( C ))\n"));
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT29|BIT28, 0);
++
++		}
++		else 	if(path==PHYDM_D)//1-4
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( D ))\n"));
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT31|BIT30, 0);
++		}
++
++	}
++	else 	if(num_enable_path == 2)
++	{
++		ODM_SetBBReg( pDM_Odm, 0x93c, 0xf00000, path);
++		ODM_SetBBReg( pDM_Odm, 0x940, 0xf0, path);
++	
++		if(path==PHYDM_AB)//2-1
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( A B ))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT25|BIT24, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT27|BIT26, 1);
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT9|BIT8, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT11|BIT10, 1);			
++		}
++		else 	if(path==PHYDM_AC)//2-2
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( A C ))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT25|BIT24, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT29|BIT28, 1);
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT9|BIT8, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT13|BIT12, 1);	
++		}
++		else 	if(path==PHYDM_AD)//2-3
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( A D ))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT25|BIT24, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT31|BIT30, 1);
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT9|BIT8, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT15|BIT14, 1);	
++		}
++		else 	if(path==PHYDM_BC)//2-4
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( B C ))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT27|BIT26, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT29|BIT28, 1);
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT11|BIT10, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT13|BIT12, 1);	
++		}
++		else 	if(path==PHYDM_BD)//2-5
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( B D ))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT27|BIT26, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT31|BIT30, 1);
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT11|BIT10, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT15|BIT14, 1);	
++		}
++		else 	if(path==PHYDM_CD)//2-6
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( C D ))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT29|BIT28, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT31|BIT30, 1);
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT13|BIT12, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT15|BIT14, 1);	
++		}
++
++	}
++	else 	if(num_enable_path == 3)
++	{
++		ODM_SetBBReg( pDM_Odm, 0x93c, 0xf00000, path);
++		ODM_SetBBReg( pDM_Odm, 0x940, 0xf0, path);
++		ODM_SetBBReg( pDM_Odm, 0x940, 0xf0000, path);
++	
++		if(path==PHYDM_ABC)//3-1
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( A B C))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT25|BIT24, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT27|BIT26, 1);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT29|BIT28, 2);			
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT9|BIT8, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT11|BIT10, 1);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT13|BIT12, 2);
++			//set for 3ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT21|BIT20, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT23|BIT22, 1);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT25|BIT24, 2);
++		}
++		else 	if(path==PHYDM_ABD)//3-2
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( A B D ))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT25|BIT24, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT27|BIT26, 1);		
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT31|BIT30, 2);
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT9|BIT8, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT11|BIT10, 1);		
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT15|BIT14, 2);
++			//set for 3ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT21|BIT20, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT23|BIT22, 1);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT27|BIT26, 2);
++
++		}
++		else 	if(path==PHYDM_ACD)//3-3
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( A C D ))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT25|BIT24, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT29|BIT28, 1);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT31|BIT30, 2);			
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT9|BIT8, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT13|BIT12, 1);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT15|BIT14, 2);
++			//set for 3ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT21|BIT20, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT25|BIT24, 1);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT27|BIT26, 2);
++		}
++		else 	if(path==PHYDM_BCD)//3-4
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path (( B C D))\n"));
++			//set for 1ss
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT27|BIT26, 0);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT29|BIT28, 1);
++			ODM_SetBBReg( pDM_Odm, 0x93c, BIT31|BIT30, 2);			
++			//set for 2ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT11|BIT10, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT13|BIT12, 1);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT15|BIT14, 2);
++			//set for 3ss
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT23|BIT22, 0);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT25|BIT24, 1);
++			ODM_SetBBReg( pDM_Odm, 0x940, BIT27|BIT26, 2);
++		}
++	}
++	else 	if(num_enable_path == 4)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" Trun on path ((A  B C D))\n"));
++	}
++
++}
++
++VOID
++phydm_find_default_path(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pPATHDIV_T		pDM_PathDiv = &pDM_Odm->DM_PathDiv;
++	u4Byte	rssi_avg_a=0, rssi_avg_b=0, rssi_avg_c=0, rssi_avg_d=0, rssi_avg_bcd=0;
++	u4Byte	rssi_total_a=0, rssi_total_b=0, rssi_total_c=0, rssi_total_d=0;
++
++	//2 Default Path Selection By RSSI
++
++	rssi_avg_a = (pDM_PathDiv->path_a_cnt_all > 0)? (pDM_PathDiv->path_a_sum_all / pDM_PathDiv->path_a_cnt_all) :0 ;
++	rssi_avg_b = (pDM_PathDiv->path_b_cnt_all > 0)? (pDM_PathDiv->path_b_sum_all / pDM_PathDiv->path_b_cnt_all) :0 ;
++	rssi_avg_c = (pDM_PathDiv->path_c_cnt_all > 0)? (pDM_PathDiv->path_c_sum_all / pDM_PathDiv->path_c_cnt_all) :0 ;
++	rssi_avg_d = (pDM_PathDiv->path_d_cnt_all > 0)? (pDM_PathDiv->path_d_sum_all / pDM_PathDiv->path_d_cnt_all) :0 ;
++
++
++	pDM_PathDiv->path_a_sum_all = 0;
++ 	pDM_PathDiv->path_a_cnt_all = 0;
++	pDM_PathDiv->path_b_sum_all = 0;
++ 	pDM_PathDiv->path_b_cnt_all = 0;
++	pDM_PathDiv->path_c_sum_all = 0;
++ 	pDM_PathDiv->path_c_cnt_all = 0;
++	pDM_PathDiv->path_d_sum_all = 0;
++ 	pDM_PathDiv->path_d_cnt_all = 0;
++
++	if(pDM_PathDiv->use_path_a_as_default_ant == 1)
++	{
++		rssi_avg_bcd=(rssi_avg_b+rssi_avg_c+rssi_avg_d)/3;
++
++		if( (rssi_avg_a + ANT_DECT_RSSI_TH) > rssi_avg_bcd  )
++		{
++			pDM_PathDiv->is_pathA_exist=TRUE;
++			pDM_PathDiv->default_path=PATH_A;
++		}
++		else
++		{
++			pDM_PathDiv->is_pathA_exist=FALSE;
++		}
++	}
++	else
++	{
++		if( (rssi_avg_a >=rssi_avg_b) && (rssi_avg_a >=rssi_avg_c)&&(rssi_avg_a >=rssi_avg_d))
++			pDM_PathDiv->default_path=PATH_A;
++		else if(  (rssi_avg_b >=rssi_avg_c)&&(rssi_avg_b >=rssi_avg_d))
++			pDM_PathDiv->default_path=PATH_B;
++		else if(  rssi_avg_c >=rssi_avg_d)
++			pDM_PathDiv->default_path=PATH_C;
++		else
++			pDM_PathDiv->default_path=PATH_D;
++	}
++
++
++}
++
++
++VOID
++phydm_candidate_dtp_update(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pPATHDIV_T		pDM_PathDiv = &pDM_Odm->DM_PathDiv;
++
++	pDM_PathDiv->num_candidate=3;
++	
++	if(pDM_PathDiv->use_path_a_as_default_ant == 1)
++	{
++		if(pDM_PathDiv->num_tx_path==3)
++		{
++			if(pDM_PathDiv->is_pathA_exist)
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_ABC; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_ABD; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_ACD;
++			}
++			else // use path BCD 
++			{
++				pDM_PathDiv->num_candidate=1;
++				phydm_dtp_fix_tx_path(pDM_Odm, PHYDM_BCD);
++				return;
++			}
++		}
++		else 	if(pDM_PathDiv->num_tx_path==2)
++		{
++			if(pDM_PathDiv->is_pathA_exist)
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_AB; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_AC; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_AD; 
++			}
++			else
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_BC; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_BD; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_CD; 
++			}	
++		}
++	}
++	else
++	{
++		//2 3 TX Mode 
++		if(pDM_PathDiv->num_tx_path==3)//choose 3 ant form 4 
++		{
++			if(pDM_PathDiv->default_path == PATH_A) //choose 2 ant form 3
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_ABC; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_ABD; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_ACD; 
++			}
++			else if(pDM_PathDiv->default_path==PATH_B)
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_ABC; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_ABD; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_BCD; 
++			}
++			else if(pDM_PathDiv->default_path == PATH_C)
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_ABC; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_ACD; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_BCD; 
++			}
++			else if(pDM_PathDiv->default_path == PATH_D)
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_ABD; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_ACD; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_BCD; 
++			}
++		}
++		
++		//2 2 TX Mode 
++		else if(pDM_PathDiv->num_tx_path==2)//choose 2 ant form 4 
++		{
++			if(pDM_PathDiv->default_path == PATH_A) //choose 2 ant form 3
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_AB; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_AC; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_AD; 
++			}
++			else if(pDM_PathDiv->default_path==PATH_B)
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_AB; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_BC; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_BD; 
++			}
++			else if(pDM_PathDiv->default_path == PATH_C)
++			{
++				pDM_PathDiv->ant_candidate_1 =  PHYDM_AC; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_BC; 
++				pDM_PathDiv->ant_candidate_3 =  PHYDM_CD; 
++			}
++			else if(pDM_PathDiv->default_path == PATH_D)
++			{
++				pDM_PathDiv->ant_candidate_1=  PHYDM_AD; 
++				pDM_PathDiv->ant_candidate_2 =  PHYDM_BD; 
++				pDM_PathDiv->ant_candidate_3=  PHYDM_CD; 
++			}
++		}
++	}
++}
++
++
++VOID
++phydm_dynamic_tx_path(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pPATHDIV_T		pDM_PathDiv = &pDM_Odm->DM_PathDiv;	
++	
++	PSTA_INFO_T   	pEntry;
++	u4Byte	i;
++	u1Byte	num_client=0;
++	u1Byte	H2C_Parameter[6] ={0};
++
++
++	if(!pDM_Odm->bLinked) //bLinked==False
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, ("DTP_8814 [No Link!!!]\n"));
++		
++		if(pDM_PathDiv->bBecomeLinked == TRUE)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" [Be disconnected]----->\n"));
++			pDM_PathDiv->bBecomeLinked = pDM_Odm->bLinked;
++		}
++		return;
++	}	
++	else
++	{
++		if(pDM_PathDiv->bBecomeLinked ==FALSE)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, (" [Be Linked !!!]----->\n"));
++			pDM_PathDiv->bBecomeLinked = pDM_Odm->bLinked;
++		}	
++	}	
++	
++	//2 [Period CTRL]
++	if(pDM_PathDiv->dtp_period >=2)
++	{
++		pDM_PathDiv->dtp_period=0;	
++	}
++	else
++	{	
++		//ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, ("Phydm_Dynamic_Tx_Path_8814A()  Stay = (( %d ))\n",pDM_PathDiv->dtp_period));
++		pDM_PathDiv->dtp_period++;		
++		return;
++	}
++	
++
++	//2 [Fix Path]
++	if (pDM_Odm->path_select != PHYDM_AUTO_PATH)
++	{
++		return;
++	}
++	
++	//2 [Check Bfer]	
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#if (BEAMFORMING_SUPPORT == 1)
++	{
++		BEAMFORMING_CAP		BeamformCap = (pDM_Odm->BeamformingInfo.BeamformCap);
++
++		if( BeamformCap & BEAMFORMER_CAP ) //  BFmer On  &&   Div On ->  Div Off
++		{	
++			if( pDM_PathDiv->fix_path_bfer == 0) 
++			{
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_PATH_DIV,ODM_DBG_LOUD,("[ PathDiv : OFF ]   BFmer ==1  \n"));
++				pDM_PathDiv->fix_path_bfer = 1 ;			
++			}
++			return;
++		}
++		else // BFmer Off   &&   Div Off ->  Div On
++		{
++			if( pDM_PathDiv->fix_path_bfer == 1 ) 
++			{
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_PATH_DIV,ODM_DBG_LOUD,("[ PathDiv : ON ]   BFmer ==0 \n"));
++				pDM_PathDiv->fix_path_bfer = 0;
++			}
++		}
++	}
++	#endif	
++	#endif
++
++	if(pDM_PathDiv->use_path_a_as_default_ant ==1)
++	{
++		phydm_find_default_path(pDM_Odm);
++		phydm_candidate_dtp_update(pDM_Odm);	
++	}
++	else
++	{
++		if( pDM_PathDiv->dtp_state == PHYDM_DTP_INIT)
++		{
++			phydm_find_default_path(pDM_Odm);
++			phydm_candidate_dtp_update(pDM_Odm);
++			pDM_PathDiv->dtp_state = PHYDM_DTP_RUNNING_1;
++		}
++		
++		else 	if( pDM_PathDiv->dtp_state == PHYDM_DTP_RUNNING_1)
++		{
++			pDM_PathDiv->dtp_check_patha_counter++;
++			
++			if(pDM_PathDiv->dtp_check_patha_counter>=NUM_RESET_DTP_PERIOD)
++			{
++				pDM_PathDiv->dtp_check_patha_counter=0;
++				pDM_PathDiv->dtp_state = PHYDM_DTP_INIT;
++			}
++			//2 Search space update		
++			else
++			{
++				// 1.  find the worst candidate
++				
++
++				// 2. repalce the worst candidate
++			}
++		}
++	}
++
++	//2 Dynamic Path Selection H2C
++
++	if(pDM_PathDiv->num_candidate == 1)
++	{
++		return;
++	}
++	else
++	{	
++		H2C_Parameter[0] =  pDM_PathDiv->num_candidate;
++		H2C_Parameter[1] =  pDM_PathDiv->num_tx_path;	
++		H2C_Parameter[2] =  pDM_PathDiv->ant_candidate_1; 
++		H2C_Parameter[3] =  pDM_PathDiv->ant_candidate_2; 
++		H2C_Parameter[4] =  pDM_PathDiv->ant_candidate_3; 
++
++		ODM_FillH2CCmd(pDM_Odm, PHYDM_H2C_DYNAMIC_TX_PATH, 6, H2C_Parameter);
++	}
++
++}
++
++
++
++VOID
++phydm_dynamic_tx_path_init(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pPATHDIV_T		pDM_PathDiv  = &(pDM_Odm->DM_PathDiv);
++	PADAPTER		pAdapter = pDM_Odm->Adapter;
++	#if ((DM_ODM_SUPPORT_TYPE == ODM_WIN) && USB_SWITCH_SUPPORT)
++	USB_MODE_MECH	*pUsbModeMech = &pAdapter->UsbModeMechanism;
++	#endif
++	u1Byte 			search_space_2[NUM_CHOOSE2_FROM4]= {PHYDM_AB, PHYDM_AC, PHYDM_AD, PHYDM_BC, PHYDM_BD, PHYDM_CD };
++	u1Byte 			search_space_3[NUM_CHOOSE3_FROM4]= {PHYDM_BCD, PHYDM_ACD,  PHYDM_ABD, PHYDM_ABC};
++
++	#if ((DM_ODM_SUPPORT_TYPE == ODM_WIN) && USB_SWITCH_SUPPORT)
++		pDM_PathDiv->is_u3_mode = (pUsbModeMech->CurUsbMode==USB_MODE_U3)? 1 : 0 ;
++	#else
++		pDM_PathDiv->is_u3_mode = 1;
++	#endif
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_PATH_DIV, ODM_DBG_LOUD, ("Dynamic TX Path Init 8814\n"));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_PATH_DIV, ODM_DBG_LOUD, ("is_u3_mode = (( %d ))\n", pDM_PathDiv->is_u3_mode));
++
++	memcpy(&(pDM_PathDiv->search_space_2[0]), &(search_space_2[0]), NUM_CHOOSE2_FROM4);
++	memcpy(&(pDM_PathDiv->search_space_3[0]), &(search_space_3[0]), NUM_CHOOSE3_FROM4);
++
++	pDM_PathDiv->use_path_a_as_default_ant= 1;
++	pDM_PathDiv->dtp_state = PHYDM_DTP_INIT;	
++	pDM_Odm->path_select = PHYDM_AUTO_PATH;
++	pDM_PathDiv->path_div_type = PHYDM_4R_PATH_DIV;
++
++	
++	if(pDM_PathDiv->is_u3_mode )
++	{
++		pDM_PathDiv->num_tx_path=3;
++		phydm_dtp_fix_tx_path(pDM_Odm, PHYDM_BCD);/* 3TX  Set Init TX Path*/
++		
++	}
++	else
++	{
++		pDM_PathDiv->num_tx_path=2;
++		phydm_dtp_fix_tx_path(pDM_Odm, PHYDM_BC);/* 2TX // Set Init TX Path*/
++	}
++	
++}
++
++
++VOID
++phydm_process_rssi_for_path_div(	
++	IN OUT		PVOID			pDM_VOID,	
++	IN			PVOID			p_phy_info_void,
++	IN			PVOID			p_pkt_info_void
++	)
++{
++	PDM_ODM_T			pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_PHY_INFO_T 		pPhyInfo=(PODM_PHY_INFO_T)p_phy_info_void;
++	PODM_PACKET_INFO_T	 pPktinfo=(PODM_PACKET_INFO_T)p_pkt_info_void;
++	pPATHDIV_T			pDM_PathDiv  = &(pDM_Odm->DM_PathDiv);
++
++	if(pPktinfo->bPacketToSelf || pPktinfo->bPacketMatchBSSID)
++	{
++		if(pPktinfo->DataRate > ODM_RATE11M)
++		{
++			if(pDM_PathDiv->path_div_type == PHYDM_4R_PATH_DIV)
++			{
++				#if RTL8814A_SUPPORT
++				if(pDM_Odm->SupportICType & ODM_RTL8814A)
++				{
++					pDM_PathDiv->path_a_sum_all+=pPhyInfo->RxMIMOSignalStrength[0];
++					pDM_PathDiv->path_a_cnt_all++;
++					
++					pDM_PathDiv->path_b_sum_all+=pPhyInfo->RxMIMOSignalStrength[1];
++					pDM_PathDiv->path_b_cnt_all++;
++					
++					pDM_PathDiv->path_c_sum_all+=pPhyInfo->RxMIMOSignalStrength[2];
++					pDM_PathDiv->path_c_cnt_all++;
++					
++					pDM_PathDiv->path_d_sum_all+=pPhyInfo->RxMIMOSignalStrength[3];
++					pDM_PathDiv->path_d_cnt_all++;
++				}
++				#endif
++			}
++			else
++			{
++				pDM_PathDiv->PathA_Sum[pPktinfo->StationID]+=pPhyInfo->RxMIMOSignalStrength[0];
++				pDM_PathDiv->PathA_Cnt[pPktinfo->StationID]++;
++
++				pDM_PathDiv->PathB_Sum[pPktinfo->StationID]+=pPhyInfo->RxMIMOSignalStrength[1];
++				pDM_PathDiv->PathB_Cnt[pPktinfo->StationID]++;
++			}
++		}
++	}
++	
++	
++}
++
++#endif //#if RTL8814A_SUPPORT
++
++VOID
++odm_pathdiv_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char			*output,
++	IN		u4Byte		*_out_len
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pPATHDIV_T			pDM_PathDiv  = &(pDM_Odm->DM_PathDiv);
++	u4Byte used = *_used;
++	u4Byte out_len = *_out_len;
++	
++	pDM_Odm->path_select = (dm_value[0] & 0xf);
++	PHYDM_SNPRINTF((output+used, out_len-used,"Path_select = (( 0x%x ))\n",pDM_Odm->path_select ));
++	
++	//2 [Fix Path]
++	if (pDM_Odm->path_select != PHYDM_AUTO_PATH)
++	{
++		PHYDM_SNPRINTF((output+used, out_len-used,"Trun on path  [%s%s%s%s]\n",
++			((pDM_Odm->path_select) & 0x1)?"A":"",
++			((pDM_Odm->path_select) & 0x2)?"B":"",
++			((pDM_Odm->path_select) & 0x4)?"C":"",
++			((pDM_Odm->path_select) & 0x8)?"D":"" ));
++		
++		phydm_dtp_fix_tx_path( pDM_Odm, pDM_Odm->path_select );
++	}
++	else
++	{
++		PHYDM_SNPRINTF((output+used, out_len-used,"%s\n","Auto Path"));
++	}
++}
++
++#endif // #if(defined(CONFIG_PATH_DIVERSITY))
++
++VOID
++phydm_c2h_dtp_handler(
++ IN	PVOID	pDM_VOID,
++ IN 	pu1Byte   CmdBuf,
++ IN 	u1Byte	CmdLen
++)
++{
++#if(defined(CONFIG_PATH_DIVERSITY))
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pPATHDIV_T		pDM_PathDiv  = &(pDM_Odm->DM_PathDiv);
++
++	u1Byte  macid = CmdBuf[0]; 
++	u1Byte  target = CmdBuf[1];	
++	u1Byte  nsc_1 = CmdBuf[2];
++	u1Byte  nsc_2 = CmdBuf[3];
++	u1Byte  nsc_3 = CmdBuf[4];
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_PATH_DIV,ODM_DBG_LOUD,("Target_candidate = (( %d ))\n", target));
++	/*
++	if( (nsc_1 >= nsc_2) &&  (nsc_1 >= nsc_3))
++	{
++		phydm_dtp_fix_tx_path(pDM_Odm, pDM_PathDiv->ant_candidate_1);
++	}
++	else 	if( nsc_2 >= nsc_3)
++	{
++		phydm_dtp_fix_tx_path(pDM_Odm, pDM_PathDiv->ant_candidate_2);
++	}
++	else
++	{
++		phydm_dtp_fix_tx_path(pDM_Odm, pDM_PathDiv->ant_candidate_3);	
++	}
++	*/
++#endif	
++}
++
++VOID
++odm_PathDiversity(
++	IN	PVOID	pDM_VOID
++)
++{
++#if(defined(CONFIG_PATH_DIVERSITY))
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	if(!(pDM_Odm->SupportAbility & ODM_BB_PATH_DIV))
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_PATH_DIV,ODM_DBG_LOUD,("Return: Not Support PathDiv\n"));
++		return;
++	}
++
++	#if RTL8812A_SUPPORT
++
++	if(pDM_Odm->SupportICType & ODM_RTL8812)
++			ODM_PathDiversity_8812A(pDM_Odm);
++		else
++	#endif
++
++	#if RTL8814A_SUPPORT
++		if(pDM_Odm->SupportICType & ODM_RTL8814A)
++			phydm_dynamic_tx_path(pDM_Odm);
++		else
++	#endif
++    		{}
++#endif
++}
++
++VOID
++odm_PathDiversityInit(
++	IN	PVOID	pDM_VOID
++)
++{
++#if(defined(CONFIG_PATH_DIVERSITY))
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	/*pDM_Odm->SupportAbility |= ODM_BB_PATH_DIV;*/
++	
++	if(pDM_Odm->mp_mode == TRUE)
++		return;
++
++	if(!(pDM_Odm->SupportAbility & ODM_BB_PATH_DIV))
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_PATH_DIV,ODM_DBG_LOUD,("Return: Not Support PathDiv\n"));
++		return;
++	}
++
++#if RTL8812A_SUPPORT
++		if(pDM_Odm->SupportICType & ODM_RTL8812)
++			ODM_PathDiversityInit_8812A(pDM_Odm);
++		else
++	#endif
++
++	#if RTL8814A_SUPPORT
++		if(pDM_Odm->SupportICType & ODM_RTL8814A)
++			phydm_dynamic_tx_path_init(pDM_Odm);
++		else
++	#endif	
++		{}
++#endif
++}
++
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++//
++// 2011/12/02 MH Copy from MP oursrc for temporarily test.
++//
++
++VOID
++odm_PathDivChkAntSwitchCallback(
++	PRT_TIMER		pTimer
++)
++{
++}
++
++VOID
++odm_PathDivChkAntSwitchWorkitemCallback(
++    IN PVOID            pContext
++    )
++{
++}
++
++VOID
++odm_CCKTXPathDiversityCallback(
++	PRT_TIMER		pTimer
++)
++{
++}
++
++VOID
++odm_CCKTXPathDiversityWorkItemCallback(
++    IN PVOID            pContext
++    )
++{
++}
++u1Byte
++odm_SwAntDivSelectScanChnl(
++	IN	PADAPTER	Adapter
++	)
++{
++	return	0;
++}
++VOID
++odm_SwAntDivConstructScanChnl(
++	IN	PADAPTER	Adapter,
++	IN	u1Byte		ScanChnl
++	)
++{
++}
++
++#endif	// #if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_pathdiv.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_pathdiv.h
+new file mode 100644
+index 0000000..63a2641
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_pathdiv.h
+@@ -0,0 +1,324 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMPATHDIV_H__
++#define    __PHYDMPATHDIV_H__
++/*#define PATHDIV_VERSION "2.0" //2014.11.04*/
++#define PATHDIV_VERSION	"3.1" /*2015.07.29 by YuChen*/
++
++#if(defined(CONFIG_PATH_DIVERSITY))
++#define USE_PATH_A_AS_DEFAULT_ANT   //for 8814 dynamic TX path selection
++
++#define	NUM_RESET_DTP_PERIOD 5
++#define	ANT_DECT_RSSI_TH 3 
++
++#define PATH_A 1
++#define PATH_B 2
++#define PATH_C 3
++#define PATH_D 4
++
++#define PHYDM_AUTO_PATH	0
++#define PHYDM_FIX_PATH		1
++
++#define NUM_CHOOSE2_FROM4 6
++#define NUM_CHOOSE3_FROM4 4
++
++
++#define		PHYDM_A		 BIT0
++#define		PHYDM_B		 BIT1
++#define		PHYDM_C		 BIT2
++#define		PHYDM_D		 BIT3
++#define		PHYDM_AB	 (BIT0 | BIT1)  // 0
++#define		PHYDM_AC	 (BIT0 | BIT2)  // 1
++#define		PHYDM_AD	 (BIT0 | BIT3)  // 2
++#define		PHYDM_BC	 (BIT1 | BIT2)  // 3
++#define		PHYDM_BD	 (BIT1 | BIT3)  // 4
++#define		PHYDM_CD	 (BIT2 | BIT3)  // 5
++
++#define		PHYDM_ABC	 (BIT0 | BIT1 | BIT2) /* 0*/
++#define		PHYDM_ABD	 (BIT0 | BIT1 | BIT3) /* 1*/
++#define		PHYDM_ACD	 (BIT0 | BIT2 | BIT3) /* 2*/
++#define		PHYDM_BCD	 (BIT1 | BIT2 | BIT3) /* 3*/
++
++#define		PHYDM_ABCD	 (BIT0 | BIT1 | BIT2 | BIT3)
++
++
++typedef enum dtp_state
++{
++	PHYDM_DTP_INIT=1,
++	PHYDM_DTP_RUNNING_1
++
++}PHYDM_DTP_STATE;
++
++typedef enum path_div_type
++{
++	PHYDM_2R_PATH_DIV = 1,
++	PHYDM_4R_PATH_DIV = 2
++}PHYDM_PATH_DIV_TYPE;
++
++VOID
++phydm_process_rssi_for_path_div(	
++	IN OUT		PVOID			pDM_VOID,	
++	IN			PVOID			p_phy_info_void,
++	IN			PVOID			p_pkt_info_void
++	);
++
++typedef struct _ODM_PATH_DIVERSITY_
++{
++	u1Byte	RespTxPath;
++	u1Byte	PathSel[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	PathA_Sum[ODM_ASSOCIATE_ENTRY_NUM];
++	u4Byte	PathB_Sum[ODM_ASSOCIATE_ENTRY_NUM];
++	u2Byte	PathA_Cnt[ODM_ASSOCIATE_ENTRY_NUM];
++	u2Byte	PathB_Cnt[ODM_ASSOCIATE_ENTRY_NUM];
++	u1Byte	path_div_type;
++  #if RTL8814A_SUPPORT
++	
++	u4Byte	path_a_sum_all;
++	u4Byte	path_b_sum_all;
++	u4Byte	path_c_sum_all;
++	u4Byte	path_d_sum_all;
++
++	u4Byte	path_a_cnt_all;
++	u4Byte	path_b_cnt_all;
++	u4Byte	path_c_cnt_all;
++	u4Byte	path_d_cnt_all;
++	
++	u1Byte	dtp_period;
++	BOOLEAN	bBecomeLinked;
++	BOOLEAN	is_u3_mode;
++	u1Byte	num_tx_path;
++	u1Byte	default_path;
++	u1Byte	num_candidate;
++	u1Byte	ant_candidate_1;
++	u1Byte	ant_candidate_2;
++	u1Byte	ant_candidate_3;
++	u1Byte     dtp_state;
++	u1Byte	dtp_check_patha_counter;
++	BOOLEAN	fix_path_bfer;
++	u1Byte	search_space_2[NUM_CHOOSE2_FROM4];
++	u1Byte	search_space_3[NUM_CHOOSE3_FROM4];
++	
++	u1Byte	pre_tx_path;
++	u1Byte	use_path_a_as_default_ant;
++	BOOLEAN is_pathA_exist;
++
++  #endif
++}PATHDIV_T, *pPATHDIV_T;
++
++
++#endif //#if(defined(CONFIG_PATH_DIVERSITY))
++
++VOID
++phydm_c2h_dtp_handler(
++	 IN	PVOID	pDM_VOID,
++	 IN 	pu1Byte   CmdBuf,
++	 IN 	u1Byte	CmdLen
++	);
++
++VOID
++odm_PathDiversityInit(
++	IN	PVOID	pDM_VOID
++	);
++
++VOID
++odm_PathDiversity(
++	IN	PVOID	pDM_VOID
++	);
++
++VOID
++odm_pathdiv_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char		*output,
++	IN		u4Byte		*_out_len
++	);
++
++
++
++//1 [OLD IC]--------------------------------------------------------------------------------
++
++
++
++
++
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_WIN)) 
++
++//#define   PATHDIV_ENABLE 	 1
++#define dm_PathDiv_RSSI_Check	ODM_PathDivChkPerPktRssi
++#define PathDivCheckBeforeLink8192C	ODM_PathDiversityBeforeLink92C
++
++
++
++
++typedef struct _PathDiv_Parameter_define_
++{
++	u4Byte org_5g_RegE30;
++	u4Byte org_5g_RegC14;
++	u4Byte org_5g_RegCA0;
++	u4Byte swt_5g_RegE30;
++	u4Byte swt_5g_RegC14;
++	u4Byte swt_5g_RegCA0;
++	//for 2G IQK information
++	u4Byte org_2g_RegC80;
++	u4Byte org_2g_RegC4C;
++	u4Byte org_2g_RegC94;
++	u4Byte org_2g_RegC14;
++	u4Byte org_2g_RegCA0;
++
++	u4Byte swt_2g_RegC80;
++	u4Byte swt_2g_RegC4C;
++	u4Byte swt_2g_RegC94;
++	u4Byte swt_2g_RegC14;
++	u4Byte swt_2g_RegCA0;
++}PATHDIV_PARA,*pPATHDIV_PARA;
++
++VOID	
++odm_PathDiversityInit_92C(
++	IN	PADAPTER	Adapter
++	);
++
++VOID	
++odm_2TPathDiversityInit_92C(
++	IN	PADAPTER	Adapter
++	);
++
++VOID	
++odm_1TPathDiversityInit_92C(	
++	IN	PADAPTER	Adapter
++	);
++
++BOOLEAN
++odm_IsConnected_92C(
++	IN	PADAPTER	Adapter
++	);
++
++BOOLEAN 
++ODM_PathDiversityBeforeLink92C(
++	//IN	PADAPTER	Adapter
++	IN		PDM_ODM_T		pDM_Odm
++	);
++
++VOID	
++odm_PathDiversityAfterLink_92C(
++	IN	PADAPTER	Adapter
++	);
++
++VOID
++odm_SetRespPath_92C(	
++	IN	PADAPTER	Adapter, 	
++	IN	u1Byte	DefaultRespPath
++	);
++
++VOID	
++odm_OFDMTXPathDiversity_92C(
++	IN	PADAPTER	Adapter
++	);
++
++VOID	
++odm_CCKTXPathDiversity_92C(	
++	IN	PADAPTER	Adapter
++	);
++
++VOID	
++odm_ResetPathDiversity_92C(	
++	IN	PADAPTER	Adapter
++	);
++
++VOID
++odm_CCKTXPathDiversityCallback(
++	PRT_TIMER		pTimer
++	);
++
++VOID
++odm_CCKTXPathDiversityWorkItemCallback(
++	IN PVOID            pContext
++	);
++
++VOID
++odm_PathDivChkAntSwitchCallback(
++	PRT_TIMER		pTimer
++	);
++
++VOID
++odm_PathDivChkAntSwitchWorkitemCallback(
++	IN PVOID            pContext
++	);
++
++
++VOID 
++odm_PathDivChkAntSwitch(
++	PDM_ODM_T    pDM_Odm
++	);
++
++VOID
++ODM_CCKPathDiversityChkPerPktRssi(
++	PADAPTER		Adapter,
++	BOOLEAN			bIsDefPort,
++	BOOLEAN			bMatchBSSID,
++	PRT_WLAN_STA	pEntry,
++	PRT_RFD			pRfd,
++	pu1Byte			pDesc
++	);
++
++VOID 
++ODM_PathDivChkPerPktRssi(
++	PADAPTER		Adapter,
++	BOOLEAN			bIsDefPort,
++	BOOLEAN			bMatchBSSID,
++	PRT_WLAN_STA	pEntry,
++	PRT_RFD			pRfd	
++	);
++
++VOID
++ODM_PathDivRestAfterLink(
++	IN	PDM_ODM_T		pDM_Odm
++	);
++
++VOID
++ODM_FillTXPathInTXDESC(
++		IN	PADAPTER	Adapter,
++		IN	PRT_TCB		pTcb,
++		IN	pu1Byte		pDesc
++	);
++
++VOID
++odm_PathDivInit_92D(
++	IN	PDM_ODM_T 	pDM_Odm
++	);
++
++u1Byte
++odm_SwAntDivSelectScanChnl(
++	IN	PADAPTER	Adapter
++	);
++
++VOID
++odm_SwAntDivConstructScanChnl(
++	IN	PADAPTER	Adapter,
++	IN	u1Byte		ScanChnl
++	);
++	
++ #endif       //#if(DM_ODM_SUPPORT_TYPE & (ODM_WIN)) 
++ 
++ 
++ #endif		 //#ifndef  __ODMPATHDIV_H__
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_powertracking_ap.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_powertracking_ap.c
+new file mode 100644
+index 0000000..b5a4a30
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_powertracking_ap.c
+@@ -0,0 +1,1216 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#if !defined(_OUTSRC_COEXIST)
++//============================================================
++// Global var
++//============================================================
++
++
++u4Byte OFDMSwingTable_New[OFDM_TABLE_SIZE_92D] = {
++	0x0b40002d, // 0,  -15.0dB	
++	0x0c000030, // 1,  -14.5dB
++	0x0cc00033, // 2,  -14.0dB
++	0x0d800036, // 3,  -13.5dB
++	0x0e400039, // 4,  -13.0dB    
++	0x0f00003c, // 5,  -12.5dB
++	0x10000040, // 6,  -12.0dB
++	0x11000044, // 7,  -11.5dB
++	0x12000048, // 8,  -11.0dB
++	0x1300004c, // 9,  -10.5dB
++	0x14400051, // 10, -10.0dB
++	0x15800056, // 11, -9.5dB
++	0x16c0005b, // 12, -9.0dB
++	0x18000060, // 13, -8.5dB
++	0x19800066, // 14, -8.0dB
++	0x1b00006c, // 15, -7.5dB
++	0x1c800072, // 16, -7.0dB
++	0x1e400079, // 17, -6.5dB
++	0x20000080, // 18, -6.0dB
++	0x22000088, // 19, -5.5dB
++	0x24000090, // 20, -5.0dB
++	0x26000098, // 21, -4.5dB
++	0x288000a2, // 22, -4.0dB
++	0x2ac000ab, // 23, -3.5dB
++	0x2d4000b5, // 24, -3.0dB
++	0x300000c0, // 25, -2.5dB
++	0x32c000cb, // 26, -2.0dB
++	0x35c000d7, // 27, -1.5dB
++	0x390000e4, // 28, -1.0dB
++	0x3c8000f2, // 29, -0.5dB
++	0x40000100, // 30, +0dB
++	0x43c0010f, // 31, +0.5dB
++	0x47c0011f, // 32, +1.0dB
++	0x4c000130, // 33, +1.5dB
++	0x50800142, // 34, +2.0dB
++	0x55400155, // 35, +2.5dB
++	0x5a400169, // 36, +3.0dB
++	0x5fc0017f, // 37, +3.5dB
++	0x65400195, // 38, +4.0dB
++	0x6b8001ae, // 39, +4.5dB
++	0x71c001c7, // 40, +5.0dB
++	0x788001e2, // 41, +5.5dB
++	0x7f8001fe  // 42, +6.0dB
++};               
++
++u1Byte CCKSwingTable_Ch1_Ch13_New[CCK_TABLE_SIZE][8] = {
++	{0x09, 0x08, 0x07, 0x06, 0x04, 0x03, 0x01, 0x01},	//  0, -16.0dB
++	{0x09, 0x09, 0x08, 0x06, 0x05, 0x03, 0x01, 0x01},	//  1, -15.5dB
++	{0x0a, 0x09, 0x08, 0x07, 0x05, 0x03, 0x02, 0x01},	//  2, -15.0dB
++	{0x0a, 0x0a, 0x09, 0x07, 0x05, 0x03, 0x02, 0x01},	//  3, -14.5dB
++	{0x0b, 0x0a, 0x09, 0x08, 0x06, 0x04, 0x02, 0x01},	//  4, -14.0dB
++	{0x0b, 0x0b, 0x0a, 0x08, 0x06, 0x04, 0x02, 0x01},	//  5, -13.5dB
++	{0x0c, 0x0c, 0x0a, 0x09, 0x06, 0x04, 0x02, 0x01},	//  6, -13.0dB
++	{0x0d, 0x0c, 0x0b, 0x09, 0x07, 0x04, 0x02, 0x01},	//  7, -12.5dB
++	{0x0d, 0x0d, 0x0c, 0x0a, 0x07, 0x05, 0x02, 0x01},	//  8, -12.0dB
++	{0x0e, 0x0e, 0x0c, 0x0a, 0x08, 0x05, 0x02, 0x01},	//  9, -11.5dB
++	{0x0f, 0x0f, 0x0d, 0x0b, 0x08, 0x05, 0x03, 0x01},	// 10, -11.0dB
++	{0x10, 0x10, 0x0e, 0x0b, 0x08, 0x05, 0x03, 0x01},	// 11, -10.5dB
++	{0x11, 0x11, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	// 12, -10.0dB
++	{0x12, 0x12, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	// 13, -9.5dB
++	{0x13, 0x13, 0x10, 0x0d, 0x0a, 0x06, 0x03, 0x01},	// 14, -9.0dB 
++	{0x14, 0x14, 0x11, 0x0e, 0x0b, 0x07, 0x03, 0x02},	// 15, -8.5dB
++	{0x16, 0x15, 0x12, 0x0f, 0x0b, 0x07, 0x04, 0x01},	// 16, -8.0dB 
++	{0x17, 0x16, 0x13, 0x10, 0x0c, 0x08, 0x04, 0x02},	// 17, -7.5dB
++	{0x18, 0x17, 0x15, 0x11, 0x0c, 0x08, 0x04, 0x02},	// 18, -7.0dB 
++	{0x1a, 0x19, 0x16, 0x12, 0x0d, 0x09, 0x04, 0x02},	// 19, -6.5dB
++    	{0x1c, 0x1a, 0x18, 0x12, 0x0e, 0x08, 0x04, 0x02},	// 20, -6.0dB 
++	{0x1d, 0x1c, 0x18, 0x14, 0x0f, 0x0a, 0x05, 0x02},	// 21, -5.5dB
++	{0x1f, 0x1e, 0x1a, 0x15, 0x10, 0x0a, 0x05, 0x02},	// 22, -5.0dB 
++	{0x20, 0x20, 0x1b, 0x16, 0x11, 0x08, 0x05, 0x02},	// 23, -4.5dB
++	{0x22, 0x21, 0x1d, 0x18, 0x11, 0x0b, 0x06, 0x02},	// 24, -4.0dB 
++	{0x24, 0x23, 0x1f, 0x19, 0x13, 0x0c, 0x06, 0x03},	// 25, -3.5dB
++	{0x26, 0x25, 0x21, 0x1b, 0x14, 0x0d, 0x06, 0x03},	// 26, -3.0dB
++	{0x28, 0x28, 0x22, 0x1c, 0x15, 0x0d, 0x07, 0x03},	// 27, -2.5dB
++	{0x2b, 0x2a, 0x25, 0x1e, 0x16, 0x0e, 0x07, 0x03},	// 28, -2.0dB 
++	{0x2d, 0x2d, 0x27, 0x1f, 0x18, 0x0f, 0x08, 0x03},	// 29, -1.5dB
++	{0x30, 0x2f, 0x29, 0x21, 0x19, 0x10, 0x08, 0x03},	// 30, -1.0dB
++	{0x33, 0x32, 0x2b, 0x23, 0x1a, 0x11, 0x08, 0x04},	// 31, -0.5dB
++	{0x36, 0x35, 0x2e, 0x25, 0x1c, 0x12, 0x09, 0x04} 	// 32, +0dB
++};                                                                  
++
++
++u1Byte CCKSwingTable_Ch14_New[CCK_TABLE_SIZE][8]= {
++	{0x09, 0x08, 0x07, 0x04, 0x00, 0x00, 0x00, 0x00},	//  0, -16.0dB
++	{0x09, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	//  1, -15.5dB
++	{0x0a, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	//  2, -15.0dB
++	{0x0a, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	//  3, -14.5dB
++	{0x0b, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	//  4, -14.0dB
++	{0x0b, 0x0b, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	//  5, -13.5dB
++	{0x0c, 0x0c, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	//  6, -13.0dB
++	{0x0d, 0x0c, 0x0b, 0x06, 0x00, 0x00, 0x00, 0x00},	//  7, -12.5dB
++	{0x0d, 0x0d, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	//  8, -12.0dB
++	{0x0e, 0x0e, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	//  9, -11.5dB
++	{0x0f, 0x0f, 0x0d, 0x08, 0x00, 0x00, 0x00, 0x00},	// 10, -11.0dB
++	{0x10, 0x10, 0x0e, 0x08, 0x00, 0x00, 0x00, 0x00},	// 11, -10.5dB
++	{0x11, 0x11, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	// 12, -10.0dB
++	{0x12, 0x12, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	// 13, -9.5dB
++	{0x13, 0x13, 0x10, 0x0a, 0x00, 0x00, 0x00, 0x00},	// 14, -9.0dB  
++	{0x14, 0x14, 0x11, 0x0a, 0x00, 0x00, 0x00, 0x00},	// 15, -8.5dB
++	{0x16, 0x15, 0x12, 0x0b, 0x00, 0x00, 0x00, 0x00},	// 16, -8.0dB  
++	{0x17, 0x16, 0x13, 0x0b, 0x00, 0x00, 0x00, 0x00},	// 17, -7.5dB
++	{0x18, 0x17, 0x15, 0x0c, 0x00, 0x00, 0x00, 0x00},	// 18, -7.0dB  
++	{0x1a, 0x19, 0x16, 0x0d, 0x00, 0x00, 0x00, 0x00},	// 19, -6.5dB 
++	{0x1c, 0x1a, 0x18, 0x0e, 0x00, 0x00, 0x00, 0x00},	// 20, -6.0dB  
++	{0x1d, 0x1c, 0x18, 0x0e, 0x00, 0x00, 0x00, 0x00},	// 21, -5.5dB
++	{0x1f, 0x1e, 0x1a, 0x0f, 0x00, 0x00, 0x00, 0x00},	// 22, -5.0dB  
++	{0x20, 0x20, 0x1b, 0x10, 0x00, 0x00, 0x00, 0x00},	// 23, -4.5dB
++	{0x22, 0x21, 0x1d, 0x11, 0x00, 0x00, 0x00, 0x00},	// 24, -4.0dB  
++	{0x24, 0x23, 0x1f, 0x12, 0x00, 0x00, 0x00, 0x00},	// 25, -3.5dB  
++	{0x26, 0x25, 0x21, 0x13, 0x00, 0x00, 0x00, 0x00},	// 26, -3.0dB  
++	{0x28, 0x28, 0x24, 0x14, 0x00, 0x00, 0x00, 0x00},	// 27, -2.5dB
++	{0x2b, 0x2a, 0x25, 0x15, 0x00, 0x00, 0x00, 0x00},	// 28, -2.0dB  
++	{0x2d, 0x2d, 0x17, 0x17, 0x00, 0x00, 0x00, 0x00},	// 29, -1.5dB
++	{0x30, 0x2f, 0x29, 0x18, 0x00, 0x00, 0x00, 0x00},	// 30, -1.0dB  
++	{0x33, 0x32, 0x2b, 0x19, 0x00, 0x00, 0x00, 0x00},	// 31, -0.5dB 
++	{0x36, 0x35, 0x2e, 0x1b, 0x00, 0x00, 0x00, 0x00} 	// 32, +0dB	
++};
++
++u4Byte OFDMSwingTable[OFDM_TABLE_SIZE_92D] = {
++	0x0b40002d, // 0,  -15.0dB	
++	0x0c000030, // 1,  -14.5dB
++	0x0cc00033, // 2,  -14.0dB
++	0x0d800036, // 3,  -13.5dB
++	0x0e400039, // 4,  -13.0dB    
++	0x0f00003c, // 5,  -12.5dB
++	0x10000040, // 6,  -12.0dB
++	0x11000044, // 7,  -11.5dB
++	0x12000048, // 8,  -11.0dB
++	0x1300004c, // 9,  -10.5dB
++	0x14400051, // 10, -10.0dB
++	0x15800056, // 11, -9.5dB
++	0x16c0005b, // 12, -9.0dB
++	0x18000060, // 13, -8.5dB
++	0x19800066, // 14, -8.0dB
++	0x1b00006c, // 15, -7.5dB
++	0x1c800072, // 16, -7.0dB
++	0x1e400079, // 17, -6.5dB
++	0x20000080, // 18, -6.0dB
++	0x22000088, // 19, -5.5dB
++	0x24000090, // 20, -5.0dB
++	0x26000098, // 21, -4.5dB
++	0x288000a2, // 22, -4.0dB
++	0x2ac000ab, // 23, -3.5dB
++	0x2d4000b5, // 24, -3.0dB
++	0x300000c0, // 25, -2.5dB
++	0x32c000cb, // 26, -2.0dB
++	0x35c000d7, // 27, -1.5dB
++	0x390000e4, // 28, -1.0dB
++	0x3c8000f2, // 29, -0.5dB
++	0x40000100, // 30, +0dB
++	0x43c0010f, // 31, +0.5dB
++	0x47c0011f, // 32, +1.0dB
++	0x4c000130, // 33, +1.5dB
++	0x50800142, // 34, +2.0dB
++	0x55400155, // 35, +2.5dB
++	0x5a400169, // 36, +3.0dB
++	0x5fc0017f, // 37, +3.5dB
++	0x65400195, // 38, +4.0dB
++	0x6b8001ae, // 39, +4.5dB
++	0x71c001c7, // 40, +5.0dB
++	0x788001e2, // 41, +5.5dB
++	0x7f8001fe  // 42, +6.0dB
++};               
++
++
++u1Byte CCKSwingTable_Ch1_Ch13[CCK_TABLE_SIZE][8] = {
++	{0x09, 0x08, 0x07, 0x06, 0x04, 0x03, 0x01, 0x01},	//  0, -16.0dB
++	{0x09, 0x09, 0x08, 0x06, 0x05, 0x03, 0x01, 0x01},	//  1, -15.5dB
++	{0x0a, 0x09, 0x08, 0x07, 0x05, 0x03, 0x02, 0x01},	//  2, -15.0dB
++	{0x0a, 0x0a, 0x09, 0x07, 0x05, 0x03, 0x02, 0x01},	//  3, -14.5dB
++	{0x0b, 0x0a, 0x09, 0x08, 0x06, 0x04, 0x02, 0x01},	//  4, -14.0dB
++	{0x0b, 0x0b, 0x0a, 0x08, 0x06, 0x04, 0x02, 0x01},	//  5, -13.5dB
++	{0x0c, 0x0c, 0x0a, 0x09, 0x06, 0x04, 0x02, 0x01},	//  6, -13.0dB
++	{0x0d, 0x0c, 0x0b, 0x09, 0x07, 0x04, 0x02, 0x01},	//  7, -12.5dB
++	{0x0d, 0x0d, 0x0c, 0x0a, 0x07, 0x05, 0x02, 0x01},	//  8, -12.0dB
++	{0x0e, 0x0e, 0x0c, 0x0a, 0x08, 0x05, 0x02, 0x01},	//  9, -11.5dB
++	{0x0f, 0x0f, 0x0d, 0x0b, 0x08, 0x05, 0x03, 0x01},	// 10, -11.0dB
++	{0x10, 0x10, 0x0e, 0x0b, 0x08, 0x05, 0x03, 0x01},	// 11, -10.5dB
++	{0x11, 0x11, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	// 12, -10.0dB
++	{0x12, 0x12, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	// 13, -9.5dB
++	{0x13, 0x13, 0x10, 0x0d, 0x0a, 0x06, 0x03, 0x01},	// 14, -9.0dB 
++	{0x14, 0x14, 0x11, 0x0e, 0x0b, 0x07, 0x03, 0x02},	// 15, -8.5dB
++	{0x16, 0x15, 0x12, 0x0f, 0x0b, 0x07, 0x04, 0x01},	// 16, -8.0dB 
++	{0x17, 0x16, 0x13, 0x10, 0x0c, 0x08, 0x04, 0x02},	// 17, -7.5dB
++	{0x18, 0x17, 0x15, 0x11, 0x0c, 0x08, 0x04, 0x02},	// 18, -7.0dB 
++	{0x1a, 0x19, 0x16, 0x12, 0x0d, 0x09, 0x04, 0x02},	// 19, -6.5dB
++    	{0x1c, 0x1a, 0x18, 0x12, 0x0e, 0x08, 0x04, 0x02},	// 20, -6.0dB 
++	{0x1d, 0x1c, 0x18, 0x14, 0x0f, 0x0a, 0x05, 0x02},	// 21, -5.5dB
++	{0x1f, 0x1e, 0x1a, 0x15, 0x10, 0x0a, 0x05, 0x02},	// 22, -5.0dB 
++	{0x20, 0x20, 0x1b, 0x16, 0x11, 0x08, 0x05, 0x02},	// 23, -4.5dB
++	{0x22, 0x21, 0x1d, 0x18, 0x11, 0x0b, 0x06, 0x02},	// 24, -4.0dB 
++	{0x24, 0x23, 0x1f, 0x19, 0x13, 0x0c, 0x06, 0x03},	// 25, -3.5dB
++	{0x26, 0x25, 0x21, 0x1b, 0x14, 0x0d, 0x06, 0x03},	// 26, -3.0dB
++	{0x28, 0x28, 0x22, 0x1c, 0x15, 0x0d, 0x07, 0x03},	// 27, -2.5dB
++	{0x2b, 0x2a, 0x25, 0x1e, 0x16, 0x0e, 0x07, 0x03},	// 28, -2.0dB 
++	{0x2d, 0x2d, 0x27, 0x1f, 0x18, 0x0f, 0x08, 0x03},	// 29, -1.5dB
++	{0x30, 0x2f, 0x29, 0x21, 0x19, 0x10, 0x08, 0x03},	// 30, -1.0dB
++	{0x33, 0x32, 0x2b, 0x23, 0x1a, 0x11, 0x08, 0x04},	// 31, -0.5dB
++	{0x36, 0x35, 0x2e, 0x25, 0x1c, 0x12, 0x09, 0x04} 	// 32, +0dB
++};                                                                  
++
++
++u1Byte CCKSwingTable_Ch14 [CCK_TABLE_SIZE][8]= {
++	{0x09, 0x08, 0x07, 0x04, 0x00, 0x00, 0x00, 0x00},	//  0, -16.0dB
++	{0x09, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	//  1, -15.5dB
++	{0x0a, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	//  2, -15.0dB
++	{0x0a, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	//  3, -14.5dB
++	{0x0b, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	//  4, -14.0dB
++	{0x0b, 0x0b, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	//  5, -13.5dB
++	{0x0c, 0x0c, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	//  6, -13.0dB
++	{0x0d, 0x0c, 0x0b, 0x06, 0x00, 0x00, 0x00, 0x00},	//  7, -12.5dB
++	{0x0d, 0x0d, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	//  8, -12.0dB
++	{0x0e, 0x0e, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	//  9, -11.5dB
++	{0x0f, 0x0f, 0x0d, 0x08, 0x00, 0x00, 0x00, 0x00},	// 10, -11.0dB
++	{0x10, 0x10, 0x0e, 0x08, 0x00, 0x00, 0x00, 0x00},	// 11, -10.5dB
++	{0x11, 0x11, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	// 12, -10.0dB
++	{0x12, 0x12, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	// 13, -9.5dB
++	{0x13, 0x13, 0x10, 0x0a, 0x00, 0x00, 0x00, 0x00},	// 14, -9.0dB  
++	{0x14, 0x14, 0x11, 0x0a, 0x00, 0x00, 0x00, 0x00},	// 15, -8.5dB
++	{0x16, 0x15, 0x12, 0x0b, 0x00, 0x00, 0x00, 0x00},	// 16, -8.0dB  
++	{0x17, 0x16, 0x13, 0x0b, 0x00, 0x00, 0x00, 0x00},	// 17, -7.5dB
++	{0x18, 0x17, 0x15, 0x0c, 0x00, 0x00, 0x00, 0x00},	// 18, -7.0dB  
++	{0x1a, 0x19, 0x16, 0x0d, 0x00, 0x00, 0x00, 0x00},	// 19, -6.5dB 
++	{0x1c, 0x1a, 0x18, 0x0e, 0x00, 0x00, 0x00, 0x00},	// 20, -6.0dB  
++	{0x1d, 0x1c, 0x18, 0x0e, 0x00, 0x00, 0x00, 0x00},	// 21, -5.5dB
++	{0x1f, 0x1e, 0x1a, 0x0f, 0x00, 0x00, 0x00, 0x00},	// 22, -5.0dB  
++	{0x20, 0x20, 0x1b, 0x10, 0x00, 0x00, 0x00, 0x00},	// 23, -4.5dB
++	{0x22, 0x21, 0x1d, 0x11, 0x00, 0x00, 0x00, 0x00},	// 24, -4.0dB  
++	{0x24, 0x23, 0x1f, 0x12, 0x00, 0x00, 0x00, 0x00},	// 25, -3.5dB  
++	{0x26, 0x25, 0x21, 0x13, 0x00, 0x00, 0x00, 0x00},	// 26, -3.0dB  
++	{0x28, 0x28, 0x24, 0x14, 0x00, 0x00, 0x00, 0x00},	// 27, -2.5dB
++	{0x2b, 0x2a, 0x25, 0x15, 0x00, 0x00, 0x00, 0x00},	// 28, -2.0dB  
++	{0x2d, 0x2d, 0x17, 0x17, 0x00, 0x00, 0x00, 0x00},	// 29, -1.5dB
++	{0x30, 0x2f, 0x29, 0x18, 0x00, 0x00, 0x00, 0x00},	// 30, -1.0dB  
++	{0x33, 0x32, 0x2b, 0x19, 0x00, 0x00, 0x00, 0x00},	// 31, -0.5dB 
++	{0x36, 0x35, 0x2e, 0x1b, 0x00, 0x00, 0x00, 0x00} 	// 32, +0dB	
++};
++
++u1Byte CCKSwingTable_Ch1_Ch14_88F[CCK_TABLE_SIZE_88F][16] = {
++{0x16, 0x15, 0x13, 0x10, 0xD, 0x9, 0x6, 0x3, 0x2, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 0  -16dB */
++{0x18, 0x17, 0x15, 0x12, 0xE, 0xA, 0x7, 0x4, 0x2, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 1  -15.5dB */
++{0x1B, 0x1A, 0x18, 0x14, 0x10, 0xB, 0x7, 0x4, 0x2, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 2  -15dB */
++{0x1F, 0x1E, 0x1B, 0x17, 0x12, 0xD, 0x8, 0x5, 0x2, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 3  -14.5dB */
++{0x22, 0x21, 0x1E, 0x19, 0x14, 0xE, 0x9, 0x5, 0x3, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 4  -14dB */
++{0x26, 0x25, 0x22, 0x1C, 0x16, 0x10, 0xA, 0x6, 0x3, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 5  -13.5dB */
++{0x2B, 0x2A, 0x26, 0x20, 0x19, 0x12, 0xC, 0x7, 0x3, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 6  -13dB */
++{0x30, 0x2F, 0x2A, 0x24, 0x1C, 0x14, 0xD, 0x8, 0x4, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 7  -12.5dB */
++{0x36, 0x34, 0x2F, 0x28, 0x1F, 0x17, 0xF, 0x9, 0x4, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 8  -12dB */
++{0x3D, 0x3B, 0x35, 0x2D, 0x23, 0x19, 0x11, 0xA, 0x5, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 9  -11.5dB */
++{0x44, 0x42, 0x3C, 0x33, 0x28, 0x1C, 0x13, 0xB, 0x5, 0x2, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 10  -11dB */
++{0x4D, 0x4A, 0x43, 0x39, 0x2C, 0x20, 0x15, 0xC, 0x6, 0x2, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 11  -10.5dB */
++{0x56, 0x53, 0x4B, 0x40, 0x32, 0x24, 0x17, 0xE, 0x6, 0x2, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 12  -10dB */
++{0x60, 0x5D, 0x54, 0x47, 0x38, 0x28, 0x1A, 0xF, 0x7, 0x2, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 13  -9.5dB */
++{0x6C, 0x69, 0x5F, 0x50, 0x3F, 0x2D, 0x1E, 0x11, 0x8, 0x3, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 14  -9dB */
++{0x79, 0x76, 0x6A, 0x5A, 0x46, 0x33, 0x21, 0x13, 0x9, 0x3, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 15  -8.5dB */
++{0x88, 0x84, 0x77, 0x65, 0x4F, 0x39, 0x25, 0x15, 0xA, 0x3, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 16  -8dB */
++{0x99, 0x94, 0x86, 0x71, 0x58, 0x40, 0x2A, 0x18, 0xB, 0x4, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 17  -7.5dB */
++{0xAC, 0xA6, 0x96, 0x7F, 0x63, 0x47, 0x2F, 0x1B, 0xD, 0x4, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 18  -7dB */
++{0xC1, 0xBA, 0xA8, 0x8F, 0x6F, 0x50, 0x35, 0x1E, 0xE, 0x4, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 19  -6.5dB */
++{0xD8, 0xD1, 0xBD, 0xA0, 0x7D, 0x5A, 0x3B, 0x22, 0x10, 0x5, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0}      /* 20  -6dB */
++};
++
++
++u1Byte CCKSwingTable_Ch1_Ch13_88F[CCK_TABLE_SIZE_88F][16] = {
++{0x16, 0x15, 0x13, 0x10, 0xD, 0x9, 0x6, 0x3, 0x2, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 0  -16dB */
++{0x18, 0x17, 0x15, 0x12, 0xE, 0xA, 0x7, 0x4, 0x2, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 1  -15.5dB */
++{0x1B, 0x1A, 0x18, 0x14, 0x10, 0xB, 0x7, 0x4, 0x2, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 2  -15dB */
++{0x1F, 0x1E, 0x1B, 0x17, 0x12, 0xD, 0x8, 0x5, 0x2, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 3  -14.5dB */
++{0x22, 0x21, 0x1E, 0x19, 0x14, 0xE, 0x9, 0x5, 0x3, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 4  -14dB */
++{0x26, 0x25, 0x22, 0x1C, 0x16, 0x10, 0xA, 0x6, 0x3, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 5  -13.5dB */
++{0x2B, 0x2A, 0x26, 0x20, 0x19, 0x12, 0xC, 0x7, 0x3, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 6  -13dB */
++{0x30, 0x2F, 0x2A, 0x24, 0x1C, 0x14, 0xD, 0x8, 0x4, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 7  -12.5dB */
++{0x36, 0x34, 0x2F, 0x28, 0x1F, 0x17, 0xF, 0x9, 0x4, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 8  -12dB */
++{0x3D, 0x3B, 0x35, 0x2D, 0x23, 0x19, 0x11, 0xA, 0x5, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 9  -11.5dB */
++{0x44, 0x42, 0x3C, 0x33, 0x28, 0x1C, 0x13, 0xB, 0x5, 0x2, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 10  -11dB */
++{0x4D, 0x4A, 0x43, 0x39, 0x2C, 0x20, 0x15, 0xC, 0x6, 0x2, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 11  -10.5dB */
++{0x56, 0x53, 0x4B, 0x40, 0x32, 0x24, 0x17, 0xE, 0x6, 0x2, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 12  -10dB */
++{0x60, 0x5D, 0x54, 0x47, 0x38, 0x28, 0x1A, 0xF, 0x7, 0x2, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 13  -9.5dB */
++{0x6C, 0x69, 0x5F, 0x50, 0x3F, 0x2D, 0x1E, 0x11, 0x8, 0x3, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 14  -9dB */
++{0x79, 0x76, 0x6A, 0x5A, 0x46, 0x33, 0x21, 0x13, 0x9, 0x3, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 15  -8.5dB */
++{0x88, 0x84, 0x77, 0x65, 0x4F, 0x39, 0x25, 0x15, 0xA, 0x3, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 16  -8dB */
++{0x99, 0x94, 0x86, 0x71, 0x58, 0x40, 0x2A, 0x18, 0xB, 0x4, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 17  -7.5dB */
++{0xAC, 0xA6, 0x96, 0x7F, 0x63, 0x47, 0x2F, 0x1B, 0xD, 0x4, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 18  -7dB */
++{0xC1, 0xBA, 0xA8, 0x8F, 0x6F, 0x50, 0x35, 0x1E, 0xE, 0x4, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0},        /* 19  -6.5dB */
++{0xD8, 0xD1, 0xBD, 0xA0, 0x7D, 0x5A, 0x3B, 0x22, 0x10, 0x5, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0}      /* 20  -6dB */
++};
++
++
++u1Byte CCKSwingTable_Ch14_88F[CCK_TABLE_SIZE_88F][16] = {
++{0x44,	 0x42, 0x3C, 0x28, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-16dB*/
++{0x48, 0x46, 0x3F, 0x2A, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15.5dB*/
++{0x4D, 0x4A, 0x43, 0x2C, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15dB*/
++{0x51, 0x4F, 0x47, 0x2F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},	    /*-14.5dB*/
++{0x56, 0x53, 0x4B, 0x32, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14dB*/
++{0x5B, 0x58, 0x50, 0x35, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13.5dB*/
++{0x60, 0x5D, 0x54, 0x38, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13dB*/
++{0x66, 0x63, 0x59, 0x3B, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12.5dB*/
++{0x6C, 0x69, 0x5F, 0x3F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12dB*/
++{0x73, 0x6F, 0x64, 0x42, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11.5dB*/
++{0x79, 0x76, 0x6A, 0x46, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11dB*/
++{0x81, 0x7C, 0x71, 0x4A, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10.5dB*/
++{0x88, 0x84, 0x77, 0x4F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10dB*/
++{0x90, 0x8C, 0x7E, 0x54, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9.5dB*/
++{0x99, 0x94, 0x86, 0x58, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9dB*/
++{0xA2, 0x9D, 0x8E, 0x5E, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8.5dB*/
++{0xAC, 0xA6, 0x96, 0x63, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8dB*/
++{0xB6, 0xB0, 0x9F, 0x69, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7.5dB*/
++{0xC1, 0xBA, 0xA8, 0x6F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7dB*/
++{0xCC, 0xC5, 0xB2, 0x76, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-6.5dB*/
++{0xD8, 0xD1, 0xBD, 0x7D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}     /*-6dB*/
++};
++
++
++
++#if 0
++u4Byte OFDMSwingTable_92E[OFDM_TABLE_SIZE_92E] = {
++	/* Index0   6  dB */ 0x7fc001ff,
++	/* Index1   5.7dB */ 0x7b4001ed,
++	/* Index2   5.4dB */ 0x774001dd,
++	/* Index3   5.1dB */ 0x734001cd,
++	/* Index4   4.8dB */ 0x6f4001bd,
++	/* Index5   4.5dB */ 0x6b8001ae,
++	/* Index6   4.2dB */ 0x67c0019f,
++	/* Index7   3.9dB */ 0x64400191,
++	/* Index8   3.6dB */ 0x60c00183,
++	/* Index9   3.3dB */ 0x5d800176,
++	/* Index10  3  dB */ 0x5a80016a,
++	/* Index11  2.7dB */ 0x5740015d,
++	/* Index12  2.4dB */ 0x54400151,
++	/* Index13  2.1dB */ 0x51800146,
++	/* Index14  1.8dB */ 0x4ec0013b,
++	/* Index15  1.5dB */ 0x4c000130,
++	/* Index16  1.2dB */ 0x49800126,
++	/* Index17  0.9dB */ 0x4700011c,
++	/* Index18  0.6dB */ 0x44800112,
++	/* Index19  0.3dB */ 0x42000108,
++	/* Index20  0  dB */ 0x40000100, // 20 This is OFDM base index
++	/* Index21 -0.3dB */ 0x3dc000f7,
++	/* Index22 -0.6dB */ 0x3bc000ef,
++	/* Index23 -0.9dB */ 0x39c000e7,
++	/* Index24 -1.2dB */ 0x37c000df,
++	/* Index25 -1.5dB */ 0x35c000d7,
++	/* Index26 -1.8dB */ 0x340000d0,
++	/* Index27 -2.1dB */ 0x324000c9,
++	/* Index28 -2.4dB */ 0x308000c2,
++	/* Index29 -2.7dB */ 0x2f0000bc,
++	/* Index30 -3  dB */ 0x2d4000b5,
++	/* Index31 -3.3dB */ 0x2bc000af,
++	/* Index32 -3.6dB */ 0x2a4000a9,
++	/* Index33 -3.9dB */ 0x28c000a3,
++	/* Index34 -4.2dB */ 0x2780009e,
++	/* Index35 -4.5dB */ 0x26000098,
++	/* Index36 -4.8dB */ 0x24c00093,
++	/* Index37 -5.1dB */ 0x2380008e,
++	/* Index38 -5.4dB */ 0x22400089,
++	/* Index39 -5.7dB */ 0x21400085,
++	/* Index40 -6  dB */ 0x20000080,
++	/* Index41 -6.3dB */ 0x1f00007c,
++	/* Index42 -6.6dB */ 0x1e000078,
++	/* Index43 -6.9dB */ 0x1d000074,
++	/* Index44 -7.2dB */ 0x1c000070,
++	/* Index45 -7.5dB */ 0x1b00006c,
++	/* Index46 -7.8dB */ 0x1a000068,
++	/* Index47 -8.1dB */ 0x19400065,
++	/* Index48 -8.4dB */ 0x18400061,
++	/* Index49 -8.7dB */ 0x1780005e,
++	/* Index50 -9  dB */ 0x16c0005b,
++	/* Index51 -9.3dB */ 0x16000058,
++	/* Index52 -9.6dB */ 0x15400055,
++	/* Index53 -9.9dB */ 0x14800052
++};
++u1Byte CCKSwingTable_Ch1_Ch13_92E[CCK_TABLE_SIZE_92E][8] = {
++	/* Index0    0  dB */    {0x36, 0x34 , 0x2E , 0x26 , 0x1C , 0x12 , 0x08 , 0x04},
++	/* Index1   -0.3dB */    {0x34, 0x32 , 0x2C , 0x25 , 0x1B , 0x11 , 0x08 , 0x04},
++	/* Index2   -0.6dB */    {0x32, 0x30 , 0x2B , 0x23 , 0x1A , 0x11 , 0x07 , 0x04},
++	/* Index3   -0.9dB */    {0x31, 0x2F , 0x29 , 0x22 , 0x19 , 0x10 , 0x07 , 0x04},
++	/* Index4   -1.2dB */    {0x2F, 0x2D , 0x28 , 0x21 , 0x18 , 0x10 , 0x07 , 0x03},
++	/* Index5   -1.5dB */    {0x2D, 0x2C , 0x27 , 0x20 , 0x18 , 0x0F , 0x07 , 0x03},
++	/* Index6   -1.8dB */    {0x2C, 0x2A , 0x25 , 0x1F , 0x17 , 0x0F , 0x06 , 0x03},
++	/* Index7   -2.1dB */    {0x2A, 0x29 , 0x24 , 0x1E , 0x16 , 0x0E , 0x06 , 0x03},
++	/* Index8   -2.4dB */    {0x29, 0x27 , 0x23 , 0x1D , 0x15 , 0x0E , 0x06 , 0x03},
++	/* Index9   -2.7dB */    {0x27, 0x26 , 0x22 , 0x1C , 0x14 , 0x0D , 0x06 , 0x03},
++	/* Index10  -3  dB */    {0x26, 0x25 , 0x20 , 0x1B , 0x14 , 0x0D , 0x06 , 0x03},
++	/* Index11  -3.3dB */    {0x25, 0x23 , 0x1F , 0x1A , 0x13 , 0x0C , 0x05 , 0x03},
++	/* Index12  -3.6dB */    {0x24, 0x22 , 0x1E , 0x19 , 0x12 , 0x0C , 0x05 , 0x03},
++	/* Index13  -3.9dB */    {0x22, 0x21 , 0x1D , 0x18 , 0x12 , 0x0B , 0x05 , 0x03},
++	/* Index14  -4.2dB */    {0x21, 0x20 , 0x1C , 0x17 , 0x11 , 0x0B , 0x05 , 0x02},
++	/* Index15  -4.5dB */    {0x20, 0x1F , 0x1B , 0x17 , 0x11 , 0x0B , 0x05 , 0x02},
++	/* Index16  -4.8dB */    {0x1F, 0x1E , 0x1A , 0x16 , 0x10 , 0x0A , 0x05 , 0x02},
++	/* Index17  -5.1dB */    {0x1E, 0x1D , 0x1A , 0x15 , 0x10 , 0x0A , 0x04 , 0x02},
++	/* Index18  -5.4dB */    {0x1D, 0x1C , 0x19 , 0x14 , 0x0F , 0x0A , 0x04 , 0x02},
++	/* Index19  -5.7dB */    {0x1C, 0x1B , 0x18 , 0x14 , 0x0E , 0x09 , 0x04 , 0x02},
++	/* Index20  -6.0dB */    {0x1B, 0x1A , 0x17 , 0x13 , 0x0E , 0x09 , 0x04 , 0x02}, // 20 This is CCK base index
++	/* Index21  -6.3dB */    {0x1A, 0x19 , 0x16 , 0x12 , 0x0E , 0x09 , 0x04 , 0x02},
++	/* Index22  -6.6dB */    {0x19, 0x18 , 0x15 , 0x12 , 0x0D , 0x08 , 0x04 , 0x02},
++	/* Index23  -6.9dB */    {0x18, 0x17 , 0x15 , 0x11 , 0x0D , 0x08 , 0x04 , 0x02},
++	/* Index24  -7.2dB */    {0x18, 0x17 , 0x14 , 0x11 , 0x0C , 0x08 , 0x03 , 0x02},
++	/* Index25  -7.5dB */    {0x17, 0x16 , 0x13 , 0x10 , 0x0C , 0x08 , 0x03 , 0x02},
++	/* Index26  -7.8dB */    {0x16, 0x15 , 0x13 , 0x0F , 0x0B , 0x07 , 0x03 , 0x02},
++	/* Index27  -8.1dB */    {0x15, 0x14 , 0x12 , 0x0F , 0x0B , 0x07 , 0x03 , 0x02},
++	/* Index28  -8.4dB */    {0x14, 0x14 , 0x11 , 0x0E , 0x0B , 0x07 , 0x03 , 0x02},
++	/* Index29  -8.7dB */    {0x14, 0x13 , 0x11 , 0x0E , 0x0A , 0x07 , 0x03 , 0x01},
++	/* Index30  -9.0dB */    {0x13, 0x12 , 0x10 , 0x0D , 0x0A , 0x06 , 0x03 , 0x01}, // 30 This is hp CCK base index
++	/* Index31  -9.3dB */    {0x12, 0x12 , 0x0F , 0x0D , 0x0A , 0x06 , 0x03 , 0x01},
++	/* Index32  -9.6dB */    {0x12, 0x11 , 0x0F , 0x0D , 0x09 , 0x06 , 0x03 , 0x01},
++	/* Index33  -9.9dB */    {0x11, 0x11 , 0x0F , 0x0C , 0x09 , 0x06 , 0x03 , 0x01},
++	/* Index34 -10.2dB */    {0x11, 0x11 , 0x0E , 0x0C , 0x09 , 0x06 , 0x02 , 0x01},
++	/* Index35 -10.5dB */    {0x10, 0x0F , 0x0E , 0x0B , 0x08 , 0x05 , 0x02 , 0x01},
++	/* Index36 -10.8dB */    {0x10, 0x0F , 0x0D , 0x0B , 0x08 , 0x05 , 0x02 , 0x01},
++	/* Index37 -11.1dB */    {0x0F, 0x0E , 0x0D , 0x0A , 0x08 , 0x05 , 0x02 , 0x01},
++	/* Index38 -11.4dB */    {0x0E, 0x0E , 0x0C , 0x0A , 0x07 , 0x05 , 0x02 , 0x01},
++	/* Index39 -11.7dB */    {0x0E, 0x0D , 0x0C , 0x0A , 0x07 , 0x05 , 0x02 , 0x01},
++	/* Index40 -12  dB */    {0x0E, 0x0D , 0x0C , 0x0A , 0x07 , 0x05 , 0x02 , 0x01},
++	/* Index41 -12.3dB */    {0x0D, 0x0D , 0x0B , 0x09 , 0x07 , 0x04 , 0x02 , 0x01},
++	/* Index42 -12.6dB */    {0x0D, 0x0C , 0x0B , 0x09 , 0x07 , 0x04 , 0x02 , 0x01},
++	/* Index43 -12.9dB */    {0x0C, 0x0C , 0x0A , 0x09 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index44 -13.2dB */    {0x0C, 0x0B , 0x0A , 0x08 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index45 -13.5dB */    {0x0B, 0x0B , 0x0A , 0x08 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index46 -13.8dB */    {0x0B, 0x0B , 0x09 , 0x08 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index47 -14.1dB */    {0x0B, 0x0A , 0x09 , 0x07 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index48 -14.4dB */    {0x0A, 0x0A , 0x09 , 0x07 , 0x05 , 0x03 , 0x02 , 0x01},
++	/* Index49 -14.7dB */    {0x0A, 0x0A , 0x08 , 0x07 , 0x05 , 0x03 , 0x01 , 0x01},
++	/* Index50 -15  dB */    {0x0A, 0x09 , 0x08 , 0x07 , 0x05 , 0x03 , 0x01 , 0x01},
++	/* Index51 -15.3dB */    {0x09, 0x09 , 0x08 , 0x06 , 0x05 , 0x03 , 0x01 , 0x01},
++	/* Index52 -15.6dB */    {0x09, 0x09 , 0x08 , 0x06 , 0x05 , 0x03 , 0x01 , 0x01},
++	/* Index53 -15.9dB */    {0x09, 0x08 , 0x07 , 0x06 , 0x04 , 0x03 , 0x01 , 0x01}
++};
++u1Byte CCKSwingTable_Ch14_92E[CCK_TABLE_SIZE_92E][8] = {
++	/* Index0    0  dB */    {0x36, 0x34 , 0x2E , 0x26 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index1   -0.3dB */    {0x34, 0x32 , 0x2C , 0x25 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index2   -0.6dB */    {0x32, 0x30 , 0x2B , 0x23 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index3   -0.9dB */    {0x31, 0x2F , 0x29 , 0x22 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index4   -1.2dB */    {0x2F, 0x2D , 0x28 , 0x21 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index5   -1.5dB */    {0x2D, 0x2C , 0x27 , 0x20 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index6   -1.8dB */    {0x2C, 0x2A , 0x25 , 0x1F , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index7   -2.1dB */    {0x2A, 0x29 , 0x24 , 0x1E , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index8   -2.4dB */    {0x29, 0x27 , 0x23 , 0x1D , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index9   -2.7dB */    {0x27, 0x26 , 0x22 , 0x1C , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index10  -3  dB */    {0x26, 0x25 , 0x20 , 0x1B , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index11  -3.3dB */    {0x25, 0x23 , 0x1F , 0x1A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index12  -3.6dB */    {0x24, 0x22 , 0x1E , 0x19 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index13  -3.9dB */    {0x22, 0x21 , 0x1D , 0x18 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index14  -4.2dB */    {0x21, 0x20 , 0x1C , 0x17 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index15  -4.5dB */    {0x20, 0x1F , 0x1B , 0x17 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index16  -4.8dB */    {0x1F, 0x1E , 0x1A , 0x16 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index17  -5.1dB */    {0x1E, 0x1D , 0x1A , 0x15 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index18  -5.4dB */    {0x1D, 0x1C , 0x19 , 0x14 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index19  -5.7dB */    {0x1C, 0x1B , 0x18 , 0x14 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index20  -6  dB */     {0x1B, 0x1A , 0x17 , 0x13 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index21  -6.3dB */    {0x1A, 0x19 , 0x16 , 0x12 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index22  -6.6dB */    {0x19, 0x18 , 0x15 , 0x12 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index23  -6.9dB */    {0x18, 0x17 , 0x15 , 0x11 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index24  -7.2dB */    {0x18, 0x17 , 0x14 , 0x11 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index25  -7.5dB */    {0x17, 0x16 , 0x13 , 0x10 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index26  -7.8dB */    {0x16, 0x15 , 0x13 , 0x0F , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index27  -8.1dB */    {0x15, 0x14 , 0x12 , 0x0F , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index28  -8.4dB */    {0x14, 0x14 , 0x11 , 0x0E , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index29  -8.7dB */    {0x14, 0x13 , 0x11 , 0x0E , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index30  -9  dB */    {0x13, 0x12 , 0x10 , 0x0D , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index31  -9.3dB */    {0x12, 0x12 , 0x0F , 0x0D , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index32  -9.6dB */    {0x12, 0x11 , 0x0F , 0x0D , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index33  -9.9dB */    {0x11, 0x11 , 0x0F , 0x0C , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index34 -10.2dB */    {0x11, 0x11 , 0x0E , 0x0C , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index35 -10.5dB */    {0x10, 0x0F , 0x0E , 0x0B , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index36 -10.8dB */    {0x10, 0x0F , 0x0D , 0x0B , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index37 -11.1dB */    {0x0F, 0x0E , 0x0D , 0x0A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index38 -11.4dB */    {0x0E, 0x0E , 0x0C , 0x0A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index39 -11.7dB */    {0x0E, 0x0D , 0x0C , 0x0A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index40 -12  dB */    {0x0E, 0x0D , 0x0C , 0x0A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index41 -12.3dB */    {0x0D, 0x0D , 0x0B , 0x09 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index42 -12.6dB */    {0x0D, 0x0C , 0x0B , 0x09 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index43 -12.9dB */    {0x0C, 0x0C , 0x0A , 0x09 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index44 -13.2dB */    {0x0C, 0x0B , 0x0A , 0x08 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index45 -13.5dB */    {0x0B, 0x0B , 0x0A , 0x08 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index46 -13.8dB */    {0x0B, 0x0B , 0x09 , 0x08 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index47 -14.1dB */    {0x0B, 0x0A , 0x09 , 0x07 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index48 -14.4dB */    {0x0A, 0x0A , 0x09 , 0x07 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index49 -14.7dB */    {0x0A, 0x0A , 0x08 , 0x07 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index50 -15  dB */    {0x0A, 0x09 , 0x08 , 0x07 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index51 -15.3dB */    {0x09, 0x09 , 0x08 , 0x06 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index52 -15.6dB */    {0x09, 0x09 , 0x08 , 0x06 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index53 -15.9dB */    {0x09, 0x08 , 0x07 , 0x06 , 0x00 , 0x00 , 0x00 , 0x00}
++};
++#endif
++
++#ifdef AP_BUILD_WORKAROUND
++
++unsigned int TxPwrTrk_OFDM_SwingTbl[TxPwrTrk_OFDM_SwingTbl_Len] = {
++	/*  +6.0dB */ 0x7f8001fe,
++	/*  +5.5dB */ 0x788001e2,
++	/*  +5.0dB */ 0x71c001c7,
++	/*  +4.5dB */ 0x6b8001ae,
++	/*  +4.0dB */ 0x65400195,
++	/*  +3.5dB */ 0x5fc0017f,
++	/*  +3.0dB */ 0x5a400169,
++	/*  +2.5dB */ 0x55400155,
++	/*  +2.0dB */ 0x50800142,
++	/*  +1.5dB */ 0x4c000130,
++	/*  +1.0dB */ 0x47c0011f,
++	/*  +0.5dB */ 0x43c0010f,
++	/*   0.0dB */ 0x40000100,
++	/*  -0.5dB */ 0x3c8000f2,
++	/*  -1.0dB */ 0x390000e4,
++	/*  -1.5dB */ 0x35c000d7,
++	/*  -2.0dB */ 0x32c000cb,
++	/*  -2.5dB */ 0x300000c0,
++	/*  -3.0dB */ 0x2d4000b5,
++	/*  -3.5dB */ 0x2ac000ab,
++	/*  -4.0dB */ 0x288000a2,
++	/*  -4.5dB */ 0x26000098,
++	/*  -5.0dB */ 0x24000090,
++	/*  -5.5dB */ 0x22000088,
++	/*  -6.0dB */ 0x20000080,
++	/*  -6.5dB */ 0x1a00006c,
++	/*  -7.0dB */ 0x1c800072,
++	/*  -7.5dB */ 0x18000060,
++	/*  -8.0dB */ 0x19800066,
++	/*  -8.5dB */ 0x15800056,
++	/*  -9.0dB */ 0x26c0005b,
++	/*  -9.5dB */ 0x14400051,
++	/* -10.0dB */ 0x24400051,
++	/* -10.5dB */ 0x1300004c,
++	/* -11.0dB */ 0x12000048,
++	/* -11.5dB */ 0x11000044,
++	/* -12.0dB */ 0x10000040
++};
++#endif
++
++#endif
++
++
++u1Byte DeltaSwingTableIdx_2GA_P_DEFAULT[DELTA_SWINGIDX_SIZE] = {0, 0, 0, 0, 1, 1, 2, 2, 3, 3
++, 4, 4, 4,  4,  4,  4,  4,  4,  5,  5,  7,  7,  8,  8,  8,  9,  9,  9,  9,  9};
++u1Byte DeltaSwingTableIdx_2GA_N_DEFAULT[DELTA_SWINGIDX_SIZE] = {0, 0, 0, 2, 2, 3, 3, 4, 4, 4
++, 4, 5, 5,  6,  6,  7,  7,  7,  7,  8,  8,  9,  9, 10, 10, 10, 11, 11, 11, 11}; 
++
++
++#ifdef CONFIG_WLAN_HAL_8192EE
++u4Byte OFDMSwingTable_92E[OFDM_TABLE_SIZE_92E] = {
++	/* Index0   6  dB */ 0x7fc001ff,
++	/* Index1   5.7dB */ 0x7b4001ed,
++	/* Index2   5.4dB */ 0x774001dd,
++	/* Index3   5.1dB */ 0x734001cd,
++	/* Index4   4.8dB */ 0x6f4001bd,
++	/* Index5   4.5dB */ 0x6b8001ae,
++	/* Index6   4.2dB */ 0x67c0019f,
++	/* Index7   3.9dB */ 0x64400191,
++	/* Index8   3.6dB */ 0x60c00183,
++	/* Index9   3.3dB */ 0x5d800176,
++	/* Index10  3  dB */ 0x5a80016a,
++	/* Index11  2.7dB */ 0x5740015d,
++	/* Index12  2.4dB */ 0x54400151,
++	/* Index13  2.1dB */ 0x51800146,
++	/* Index14  1.8dB */ 0x4ec0013b,
++	/* Index15  1.5dB */ 0x4c000130,
++	/* Index16  1.2dB */ 0x49800126,
++	/* Index17  0.9dB */ 0x4700011c,
++	/* Index18  0.6dB */ 0x44800112,
++	/* Index19  0.3dB */ 0x42000108,
++	/* Index20  0  dB */ 0x40000100, // 20 This is OFDM base index
++	/* Index21 -0.3dB */ 0x3dc000f7,
++	/* Index22 -0.6dB */ 0x3bc000ef,
++	/* Index23 -0.9dB */ 0x39c000e7,
++	/* Index24 -1.2dB */ 0x37c000df,
++	/* Index25 -1.5dB */ 0x35c000d7,
++	/* Index26 -1.8dB */ 0x340000d0,
++	/* Index27 -2.1dB */ 0x324000c9,
++	/* Index28 -2.4dB */ 0x308000c2,
++	/* Index29 -2.7dB */ 0x2f0000bc,
++	/* Index30 -3  dB */ 0x2d4000b5,
++	/* Index31 -3.3dB */ 0x2bc000af,
++	/* Index32 -3.6dB */ 0x2a4000a9,
++	/* Index33 -3.9dB */ 0x28c000a3,
++	/* Index34 -4.2dB */ 0x2780009e,
++	/* Index35 -4.5dB */ 0x26000098,
++	/* Index36 -4.8dB */ 0x24c00093,
++	/* Index37 -5.1dB */ 0x2380008e,
++	/* Index38 -5.4dB */ 0x22400089,
++	/* Index39 -5.7dB */ 0x21400085,
++	/* Index40 -6  dB */ 0x20000080,
++	/* Index41 -6.3dB */ 0x1f00007c,
++	/* Index42 -6.6dB */ 0x1e000078,
++	/* Index43 -6.9dB */ 0x1d000074,
++	/* Index44 -7.2dB */ 0x1c000070,
++	/* Index45 -7.5dB */ 0x1b00006c,
++	/* Index46 -7.8dB */ 0x1a000068,
++	/* Index47 -8.1dB */ 0x19400065,
++	/* Index48 -8.4dB */ 0x18400061,
++	/* Index49 -8.7dB */ 0x1780005e,
++	/* Index50 -9  dB */ 0x16c0005b,
++	/* Index51 -9.3dB */ 0x16000058,
++	/* Index52 -9.6dB */ 0x15400055,
++	/* Index53 -9.9dB */ 0x14800052
++};
++u1Byte CCKSwingTable_Ch1_Ch13_92E[CCK_TABLE_SIZE_92E][8] = {
++	/* Index0    0  dB */    {0x36, 0x34 , 0x2E , 0x26 , 0x1C , 0x12 , 0x08 , 0x04},
++	/* Index1   -0.3dB */    {0x34, 0x32 , 0x2C , 0x25 , 0x1B , 0x11 , 0x08 , 0x04},
++	/* Index2   -0.6dB */    {0x32, 0x30 , 0x2B , 0x23 , 0x1A , 0x11 , 0x07 , 0x04},
++	/* Index3   -0.9dB */    {0x31, 0x2F , 0x29 , 0x22 , 0x19 , 0x10 , 0x07 , 0x04},
++	/* Index4   -1.2dB */    {0x2F, 0x2D , 0x28 , 0x21 , 0x18 , 0x10 , 0x07 , 0x03},
++	/* Index5   -1.5dB */    {0x2D, 0x2C , 0x27 , 0x20 , 0x18 , 0x0F , 0x07 , 0x03},
++	/* Index6   -1.8dB */    {0x2C, 0x2A , 0x25 , 0x1F , 0x17 , 0x0F , 0x06 , 0x03},
++	/* Index7   -2.1dB */    {0x2A, 0x29 , 0x24 , 0x1E , 0x16 , 0x0E , 0x06 , 0x03},
++	/* Index8   -2.4dB */    {0x29, 0x27 , 0x23 , 0x1D , 0x15 , 0x0E , 0x06 , 0x03},
++	/* Index9   -2.7dB */    {0x27, 0x26 , 0x22 , 0x1C , 0x14 , 0x0D , 0x06 , 0x03},
++	/* Index10  -3  dB */    {0x26, 0x25 , 0x20 , 0x1B , 0x14 , 0x0D , 0x06 , 0x03},
++	/* Index11  -3.3dB */    {0x25, 0x23 , 0x1F , 0x1A , 0x13 , 0x0C , 0x05 , 0x03},
++	/* Index12  -3.6dB */    {0x24, 0x22 , 0x1E , 0x19 , 0x12 , 0x0C , 0x05 , 0x03},
++	/* Index13  -3.9dB */    {0x22, 0x21 , 0x1D , 0x18 , 0x12 , 0x0B , 0x05 , 0x03},
++	/* Index14  -4.2dB */    {0x21, 0x20 , 0x1C , 0x17 , 0x11 , 0x0B , 0x05 , 0x02},
++	/* Index15  -4.5dB */    {0x20, 0x1F , 0x1B , 0x17 , 0x11 , 0x0B , 0x05 , 0x02},
++	/* Index16  -4.8dB */    {0x1F, 0x1E , 0x1A , 0x16 , 0x10 , 0x0A , 0x05 , 0x02},
++	/* Index17  -5.1dB */    {0x1E, 0x1D , 0x1A , 0x15 , 0x10 , 0x0A , 0x04 , 0x02},
++	/* Index18  -5.4dB */    {0x1D, 0x1C , 0x19 , 0x14 , 0x0F , 0x0A , 0x04 , 0x02},
++	/* Index19  -5.7dB */    {0x1C, 0x1B , 0x18 , 0x14 , 0x0E , 0x09 , 0x04 , 0x02},
++	/* Index20  -6.0dB */    {0x1B, 0x1A , 0x17 , 0x13 , 0x0E , 0x09 , 0x04 , 0x02}, // 20 This is CCK base index
++	/* Index21  -6.3dB */    {0x1A, 0x19 , 0x16 , 0x12 , 0x0E , 0x09 , 0x04 , 0x02},
++	/* Index22  -6.6dB */    {0x19, 0x18 , 0x15 , 0x12 , 0x0D , 0x08 , 0x04 , 0x02},
++	/* Index23  -6.9dB */    {0x18, 0x17 , 0x15 , 0x11 , 0x0D , 0x08 , 0x04 , 0x02},
++	/* Index24  -7.2dB */    {0x18, 0x17 , 0x14 , 0x11 , 0x0C , 0x08 , 0x03 , 0x02},
++	/* Index25  -7.5dB */    {0x17, 0x16 , 0x13 , 0x10 , 0x0C , 0x08 , 0x03 , 0x02},
++	/* Index26  -7.8dB */    {0x16, 0x15 , 0x13 , 0x0F , 0x0B , 0x07 , 0x03 , 0x02},
++	/* Index27  -8.1dB */    {0x15, 0x14 , 0x12 , 0x0F , 0x0B , 0x07 , 0x03 , 0x02},
++	/* Index28  -8.4dB */    {0x14, 0x14 , 0x11 , 0x0E , 0x0B , 0x07 , 0x03 , 0x02},
++	/* Index29  -8.7dB */    {0x14, 0x13 , 0x11 , 0x0E , 0x0A , 0x07 , 0x03 , 0x01},
++	/* Index30  -9.0dB */    {0x13, 0x12 , 0x10 , 0x0D , 0x0A , 0x06 , 0x03 , 0x01}, // 30 This is hp CCK base index
++	/* Index31  -9.3dB */    {0x12, 0x12 , 0x0F , 0x0D , 0x0A , 0x06 , 0x03 , 0x01},
++	/* Index32  -9.6dB */    {0x12, 0x11 , 0x0F , 0x0D , 0x09 , 0x06 , 0x03 , 0x01},
++	/* Index33  -9.9dB */    {0x11, 0x11 , 0x0F , 0x0C , 0x09 , 0x06 , 0x03 , 0x01},
++	/* Index34 -10.2dB */    {0x11, 0x11 , 0x0E , 0x0C , 0x09 , 0x06 , 0x02 , 0x01},
++	/* Index35 -10.5dB */    {0x10, 0x0F , 0x0E , 0x0B , 0x08 , 0x05 , 0x02 , 0x01},
++	/* Index36 -10.8dB */    {0x10, 0x0F , 0x0D , 0x0B , 0x08 , 0x05 , 0x02 , 0x01},
++	/* Index37 -11.1dB */    {0x0F, 0x0E , 0x0D , 0x0A , 0x08 , 0x05 , 0x02 , 0x01},
++	/* Index38 -11.4dB */    {0x0E, 0x0E , 0x0C , 0x0A , 0x07 , 0x05 , 0x02 , 0x01},
++	/* Index39 -11.7dB */    {0x0E, 0x0D , 0x0C , 0x0A , 0x07 , 0x05 , 0x02 , 0x01},
++	/* Index40 -12  dB */    {0x0E, 0x0D , 0x0C , 0x0A , 0x07 , 0x05 , 0x02 , 0x01},
++	/* Index41 -12.3dB */    {0x0D, 0x0D , 0x0B , 0x09 , 0x07 , 0x04 , 0x02 , 0x01},
++	/* Index42 -12.6dB */    {0x0D, 0x0C , 0x0B , 0x09 , 0x07 , 0x04 , 0x02 , 0x01},
++	/* Index43 -12.9dB */    {0x0C, 0x0C , 0x0A , 0x09 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index44 -13.2dB */    {0x0C, 0x0B , 0x0A , 0x08 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index45 -13.5dB */    {0x0B, 0x0B , 0x0A , 0x08 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index46 -13.8dB */    {0x0B, 0x0B , 0x09 , 0x08 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index47 -14.1dB */    {0x0B, 0x0A , 0x09 , 0x07 , 0x06 , 0x04 , 0x02 , 0x01},
++	/* Index48 -14.4dB */    {0x0A, 0x0A , 0x09 , 0x07 , 0x05 , 0x03 , 0x02 , 0x01},
++	/* Index49 -14.7dB */    {0x0A, 0x0A , 0x08 , 0x07 , 0x05 , 0x03 , 0x01 , 0x01},
++	/* Index50 -15  dB */    {0x0A, 0x09 , 0x08 , 0x07 , 0x05 , 0x03 , 0x01 , 0x01},
++	/* Index51 -15.3dB */    {0x09, 0x09 , 0x08 , 0x06 , 0x05 , 0x03 , 0x01 , 0x01},
++	/* Index52 -15.6dB */    {0x09, 0x09 , 0x08 , 0x06 , 0x05 , 0x03 , 0x01 , 0x01},
++	/* Index53 -15.9dB */    {0x09, 0x08 , 0x07 , 0x06 , 0x04 , 0x03 , 0x01 , 0x01}
++};
++u1Byte CCKSwingTable_Ch14_92E[CCK_TABLE_SIZE_92E][8] = {
++	/* Index0    0  dB */    {0x36, 0x34 , 0x2E , 0x26 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index1   -0.3dB */    {0x34, 0x32 , 0x2C , 0x25 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index2   -0.6dB */    {0x32, 0x30 , 0x2B , 0x23 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index3   -0.9dB */    {0x31, 0x2F , 0x29 , 0x22 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index4   -1.2dB */    {0x2F, 0x2D , 0x28 , 0x21 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index5   -1.5dB */    {0x2D, 0x2C , 0x27 , 0x20 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index6   -1.8dB */    {0x2C, 0x2A , 0x25 , 0x1F , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index7   -2.1dB */    {0x2A, 0x29 , 0x24 , 0x1E , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index8   -2.4dB */    {0x29, 0x27 , 0x23 , 0x1D , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index9   -2.7dB */    {0x27, 0x26 , 0x22 , 0x1C , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index10  -3  dB */    {0x26, 0x25 , 0x20 , 0x1B , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index11  -3.3dB */    {0x25, 0x23 , 0x1F , 0x1A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index12  -3.6dB */    {0x24, 0x22 , 0x1E , 0x19 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index13  -3.9dB */    {0x22, 0x21 , 0x1D , 0x18 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index14  -4.2dB */    {0x21, 0x20 , 0x1C , 0x17 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index15  -4.5dB */    {0x20, 0x1F , 0x1B , 0x17 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index16  -4.8dB */    {0x1F, 0x1E , 0x1A , 0x16 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index17  -5.1dB */    {0x1E, 0x1D , 0x1A , 0x15 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index18  -5.4dB */    {0x1D, 0x1C , 0x19 , 0x14 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index19  -5.7dB */    {0x1C, 0x1B , 0x18 , 0x14 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index20  -6  dB */     {0x1B, 0x1A , 0x17 , 0x13 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index21  -6.3dB */    {0x1A, 0x19 , 0x16 , 0x12 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index22  -6.6dB */    {0x19, 0x18 , 0x15 , 0x12 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index23  -6.9dB */    {0x18, 0x17 , 0x15 , 0x11 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index24  -7.2dB */    {0x18, 0x17 , 0x14 , 0x11 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index25  -7.5dB */    {0x17, 0x16 , 0x13 , 0x10 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index26  -7.8dB */    {0x16, 0x15 , 0x13 , 0x0F , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index27  -8.1dB */    {0x15, 0x14 , 0x12 , 0x0F , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index28  -8.4dB */    {0x14, 0x14 , 0x11 , 0x0E , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index29  -8.7dB */    {0x14, 0x13 , 0x11 , 0x0E , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index30  -9  dB */    {0x13, 0x12 , 0x10 , 0x0D , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index31  -9.3dB */    {0x12, 0x12 , 0x0F , 0x0D , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index32  -9.6dB */    {0x12, 0x11 , 0x0F , 0x0D , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index33  -9.9dB */    {0x11, 0x11 , 0x0F , 0x0C , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index34 -10.2dB */    {0x11, 0x11 , 0x0E , 0x0C , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index35 -10.5dB */    {0x10, 0x0F , 0x0E , 0x0B , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index36 -10.8dB */    {0x10, 0x0F , 0x0D , 0x0B , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index37 -11.1dB */    {0x0F, 0x0E , 0x0D , 0x0A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index38 -11.4dB */    {0x0E, 0x0E , 0x0C , 0x0A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index39 -11.7dB */    {0x0E, 0x0D , 0x0C , 0x0A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index40 -12  dB */    {0x0E, 0x0D , 0x0C , 0x0A , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index41 -12.3dB */    {0x0D, 0x0D , 0x0B , 0x09 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index42 -12.6dB */    {0x0D, 0x0C , 0x0B , 0x09 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index43 -12.9dB */    {0x0C, 0x0C , 0x0A , 0x09 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index44 -13.2dB */    {0x0C, 0x0B , 0x0A , 0x08 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index45 -13.5dB */    {0x0B, 0x0B , 0x0A , 0x08 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index46 -13.8dB */    {0x0B, 0x0B , 0x09 , 0x08 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index47 -14.1dB */    {0x0B, 0x0A , 0x09 , 0x07 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index48 -14.4dB */    {0x0A, 0x0A , 0x09 , 0x07 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index49 -14.7dB */    {0x0A, 0x0A , 0x08 , 0x07 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index50 -15  dB */    {0x0A, 0x09 , 0x08 , 0x07 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index51 -15.3dB */    {0x09, 0x09 , 0x08 , 0x06 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index52 -15.6dB */    {0x09, 0x09 , 0x08 , 0x06 , 0x00 , 0x00 , 0x00 , 0x00},
++	/* Index53 -15.9dB */    {0x09, 0x08 , 0x07 , 0x06 , 0x00 , 0x00 , 0x00 , 0x00}
++};
++#endif
++
++#if (RTL8814A_SUPPORT == 1 || RTL8822B_SUPPORT == 1)
++u4Byte TxScalingTable_Jaguar[TXSCALE_TABLE_SIZE] =
++{
++	0x081, // 0,  -12.0dB
++	0x088, // 1,  -11.5dB
++	0x090, // 2,  -11.0dB
++	0x099, // 3,  -10.5dB
++	0x0A2, // 4,  -10.0dB
++	0x0AC, // 5,  -9.5dB
++	0x0B6, // 6,  -9.0dB
++	0x0C0, // 7,  -8.5dB
++	0x0CC, // 8,  -8.0dB
++	0x0D8, // 9,  -7.5dB
++	0x0E5, // 10, -7.0dB
++	0x0F2, // 11, -6.5dB
++	0x101, // 12, -6.0dB
++	0x110, // 13, -5.5dB
++	0x120, // 14, -5.0dB
++	0x131, // 15, -4.5dB
++	0x143, // 16, -4.0dB
++	0x156, // 17, -3.5dB
++	0x16A, // 18, -3.0dB
++	0x180, // 19, -2.5dB
++	0x197, // 20, -2.0dB
++	0x1AF, // 21, -1.5dB
++	0x1C8, // 22, -1.0dB
++	0x1E3, // 23, -0.5dB
++	0x200, // 24, +0  dB
++	0x21E, // 25, +0.5dB
++	0x23E, // 26, +1.0dB
++	0x261, // 27, +1.5dB
++	0x285, // 28, +2.0dB
++	0x2AB, // 29, +2.5dB
++	0x2D3, // 30, +3.0dB
++	0x2FE, // 31, +3.5dB
++	0x32B, // 32, +4.0dB
++	0x35C, // 33, +4.5dB
++	0x38E, // 34, +5.0dB
++	0x3C4, // 35, +5.5dB
++	0x3FE  // 36, +6.0dB	
++};
++#elif(ODM_IC_11AC_SERIES_SUPPORT)
++u4Byte OFDMSwingTable_8812[OFDM_TABLE_SIZE_8812] = {	
++	0x3FE, // 0,  (6dB) 
++	0x3C4, // 1,  (5.5dB) 
++	0x38E, // 2,  (5dB)
++	0x35C, // 3,  (4.5dB)
++	0x32B, // 4,  (4dB)
++	0x2FE, // 5,  (3.5dB)
++	0x2D3, // 6,  (3dB)
++	0x2AB, // 7,  (2.5dB)
++	0x285, // 8,  (2dB)
++	0x261, // 9,  (1.5dB
++	0x23E, // 10, (1dB)
++	0x21E, // 11, (0.5dB)
++	0x200, // 12, (0dB)		8814 int PA 2G default
++	0x1E3, // 13, (-0.5dB)
++	0x1C8, // 14, (-1dB)
++	0x1AF, // 15, (-1.5dB)
++	0x197, // 16, (-2dB)
++	0x180, // 17, (-2.5dB)
++	0x16A, // 18, (-3dB)		8812 / 8814 int PA 5G / 8814 ext PA 2G5G default
++	0x156, // 19, (-3.5dB)
++	0x143, // 20, (-4dB)		8812 HP default
++	0x131, // 21, (-4.5dB)
++	0x120, // 22, (-5dB)
++	0x110, // 23, (-5.5dB)
++	0x101, // 24, (-6dB)
++	0x0F2, // 25, (-6.5dB)
++	0x0E5, // 26, (-7dB)
++	0x0D8, // 27, (-7.5dB)
++	0x0CC, // 28, (-8dB)
++	0x0C0, // 29, (-8.5dB)
++	0x0B6, // 30, (-9dB)
++	0x0AC, // 31, (-9.5dB)
++	0x0A2, // 32, (-10dB)
++	0x099, // 33, (-10.5dB)
++	0x090, // 34, (-11dB)
++	0x088, // 35, (-11.5dB)
++	0x081, // 36, (-12dB)	
++	0x079, // 37, (-12.5dB)
++	0x072, // 38, (-13dB)
++	0x06c, // 39, (-13.5dB)
++	0x066, // 40, (-14dB)
++	0x060, // 41, (-14.5dB)
++	0x05B  // 42, (-15dB)
++};
++#endif
++
++u4Byte CCKSwingTable_Ch1_Ch14_8723D[CCK_TABLE_SIZE_8723D] = {
++	0x0CD,         
++	0x0D9,        
++	0x0E6,         
++	0x0F3,      
++	0x102,         
++	0x111,         
++	0x121,         
++	0x132,        
++	0x144,         
++	0x158,      
++	0x16C,        
++	0x182,        
++	0x198,        
++	0x1B1,        
++	0x1CA,      
++	0x1E5,         
++	0x202,        
++	0x221,        
++	0x241,        
++	0x263,        
++	0x287,       
++	0x2AE,        
++	0x2D6,         
++	0x301,        
++	0x32F,       
++	0x35F,       
++	0x392,        
++	0x3C9,        
++	0x402,        
++	0x43F,      
++	0x47F,      
++	0x4C3,        
++	0x50C,         
++	0x558,      
++	0x5A9,         
++	0x5FF,         
++	0x65A,        
++	0x6BA,       
++	0x720,        
++	0x78C,        
++	0x7FF,        
++};
++
++
++//#endif
++//3============================================================
++//3 Tx Power Tracking
++//3============================================================
++
++VOID
++odm_TXPowerTrackingInit(
++	IN	PVOID		pDM_VOID 
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	if (!(pDM_Odm->SupportICType & (ODM_RTL8814A | ODM_RTL8822B | ODM_IC_11N_SERIES)))
++		return;
++#endif
++
++	odm_TXPowerTrackingThermalMeterInit(pDM_Odm);
++}	
++
++
++u1Byte 
++getSwingIndex(
++	IN	PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			i = 0, BBswingMask = 0;
++	u4Byte			bbSwing = 0;
++	u4Byte			swingTableSize = 0;
++	pu4Byte			pSwingTable = 0;
++	prtl8192cd_priv	priv = pDM_Odm->priv;
++
++#if (RTL8197F_SUPPORT == 1)
++	if (GET_CHIP_VER(priv) == VERSION_8197F) {
++		bbSwing = PHY_QueryBBReg(priv, rOFDM0_XATxIQImbalance, bMaskOFDM_D);
++		pSwingTable = OFDMSwingTable_New;
++		swingTableSize = OFDM_TABLE_SIZE_92D;
++		BBswingMask = 22;
++	}
++#endif
++
++#if (RTL8822B_SUPPORT == 1)
++	if (GET_CHIP_VER(priv) == VERSION_8822B) {
++		bbSwing = PHY_QueryBBReg(priv, rA_TxScale_Jaguar, 0xFFE00000);
++		pSwingTable = TxScalingTable_Jaguar;
++		swingTableSize = TXSCALE_TABLE_SIZE;
++		BBswingMask = 0;
++	}
++#endif
++
++	for (i = 0; i < swingTableSize-1; i++) {
++		u4Byte tableValue = pSwingTable[i] >> BBswingMask;
++		
++		if (bbSwing == tableValue)
++			break;
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("bbSwing=0x%x bbswing_index=%d\n", bbSwing, i));
++
++	
++	return i;
++}
++
++
++VOID
++odm_TXPowerTrackingThermalMeterInit(
++	IN	PVOID		pDM_VOID 
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	prtl8192cd_priv		priv = pDM_Odm->priv;
++	u1Byte p;
++	u1Byte defaultSwingIndex;
++#if (RTL8197F_SUPPORT == 1 || RTL8822B_SUPPORT == 1)
++	if ((GET_CHIP_VER(priv) == VERSION_8197F) || (GET_CHIP_VER(priv) == VERSION_8822B))
++		defaultSwingIndex = getSwingIndex(pDM_Odm);
++#endif
++	
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PMGNT_INFO      	pMgntInfo = &Adapter->MgntInfo;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	
++	pMgntInfo->bTXPowerTracking = TRUE;
++	pHalData->TXPowercount       = 0;
++	pHalData->bTXPowerTrackingInit = FALSE;
++
++	if(pDM_Odm->mp_mode == FALSE)
++		pHalData->TxPowerTrackControl = TRUE;
++	ODM_RT_TRACE(pDM_Odm,COMP_POWER_TRACKING, DBG_LOUD, ("pMgntInfo->bTXPowerTracking = %d\n", pMgntInfo->bTXPowerTracking));
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#ifdef CONFIG_RTL8188E
++	{
++		pDM_Odm->RFCalibrateInfo.bTXPowerTracking = _TRUE;
++		pDM_Odm->RFCalibrateInfo.TXPowercount = 0;
++		pDM_Odm->RFCalibrateInfo.bTXPowerTrackingInit = _FALSE;
++
++		if(pDM_Odm->mp_mode == FALSE)
++			pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = _TRUE;
++		
++		MSG_8192C("pDM_Odm TxPowerTrackControl = %d\n", pDM_Odm->RFCalibrateInfo.TxPowerTrackControl);
++	}
++	#else
++	{
++		PADAPTER		Adapter = pDM_Odm->Adapter;
++		HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++		struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++
++		//if(IS_HARDWARE_TYPE_8192C(pHalData))
++		{
++			pdmpriv->bTXPowerTracking = _TRUE;
++			pdmpriv->TXPowercount = 0;
++			pdmpriv->bTXPowerTrackingInit = _FALSE;
++
++			if(pDM_Odm->mp_mode == FALSE)		//for mp driver, turn off txpwrtracking as default
++				pdmpriv->TxPowerTrackControl = _TRUE;
++
++		}
++		MSG_8192C("pdmpriv->TxPowerTrackControl = %d\n", pdmpriv->TxPowerTrackControl);
++	
++	}	
++	#endif//endif (CONFIG_RTL8188E==1)	
++#elif (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++
++	#ifdef RTL8188E_SUPPORT
++	{
++		pDM_Odm->RFCalibrateInfo.bTXPowerTracking = _TRUE;
++		pDM_Odm->RFCalibrateInfo.TXPowercount = 0;
++		pDM_Odm->RFCalibrateInfo.bTXPowerTrackingInit = _FALSE;
++		pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = _TRUE;
++		pDM_Odm->RFCalibrateInfo.TM_Trigger = 0;
++	}
++	#endif
++#endif
++
++       pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = TRUE;
++	pDM_Odm->RFCalibrateInfo.DeltaPowerIndex = 0;
++	pDM_Odm->RFCalibrateInfo.DeltaPowerIndexLast = 0;
++	pDM_Odm->RFCalibrateInfo.PowerIndexOffset = 0;
++	pDM_Odm->RFCalibrateInfo.ThermalValue = 0;
++	pRFCalibrateInfo->DefaultOfdmIndex = 28;
++
++#if (RTL8197F_SUPPORT == 1)
++	if (GET_CHIP_VER(priv) == VERSION_8197F) {
++		pRFCalibrateInfo->DefaultOfdmIndex = (defaultSwingIndex >= (OFDM_TABLE_SIZE_92D - 1)) ? 30 : defaultSwingIndex;
++		pRFCalibrateInfo->DefaultCckIndex = 28;	
++	}
++#endif
++
++#if (RTL8822B_SUPPORT == 1)
++	if (GET_CHIP_VER(priv) == VERSION_8822B) {
++		pRFCalibrateInfo->DefaultOfdmIndex = (defaultSwingIndex >= (TXSCALE_TABLE_SIZE - 1)) ? 24 : defaultSwingIndex;
++		pRFCalibrateInfo->DefaultCckIndex = 20;
++	}
++#endif
++
++	
++#if RTL8188E_SUPPORT	
++	pRFCalibrateInfo->DefaultCckIndex = 20;	// -6 dB	
++#elif RTL8192E_SUPPORT
++	pRFCalibrateInfo->DefaultCckIndex = 8;	// -12 dB
++#endif
++	pRFCalibrateInfo->BbSwingIdxOfdmBase = pRFCalibrateInfo->DefaultOfdmIndex;
++	pRFCalibrateInfo->BbSwingIdxCckBase = pRFCalibrateInfo->DefaultCckIndex;
++	pDM_Odm->RFCalibrateInfo.CCK_index = pRFCalibrateInfo->DefaultCckIndex;
++	
++	for (p = 0; p < MAX_RF_PATH; p++) {
++ 	pDM_Odm->RFCalibrateInfo.OFDM_index[p] = pRFCalibrateInfo->DefaultOfdmIndex;		
++	pRFCalibrateInfo->BbSwingIdxOfdm[p] = pRFCalibrateInfo->DefaultOfdmIndex;
++		pRFCalibrateInfo->KfreeOffset[p] = 0;	/* for 8814 kfree*/
++	}
++	pRFCalibrateInfo->BbSwingIdxCck = pRFCalibrateInfo->DefaultCckIndex;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("pRFCalibrateInfo->DefaultOfdmIndex=%d pRFCalibrateInfo->DefaultCckIndex=%d\n", pRFCalibrateInfo->DefaultOfdmIndex , pRFCalibrateInfo->DefaultCckIndex));
++
++
++}
++
++
++VOID
++ODM_TXPowerTrackingCheck(
++	IN	PVOID		pDM_VOID
++	)
++{
++	// 
++	// For AP/ADSL use prtl8192cd_priv
++	// For CE/NIC use PADAPTER
++	//
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++
++
++	if (!(pDM_Odm->SupportAbility & ODM_RF_TX_PWR_TRACK))
++		return;
++
++	//
++	// 2011/09/29 MH In HW integration first stage, we provide 4 different handle to operate
++	// at the same time. In the stage2/3, we need to prive universal interface and merge all
++	// HW dynamic mechanism.
++	//
++	switch	(pDM_Odm->SupportPlatform)
++	{
++		case	ODM_WIN:
++			odm_TXPowerTrackingCheckMP(pDM_Odm);
++			break;
++
++		case	ODM_CE:
++			odm_TXPowerTrackingCheckCE(pDM_Odm);
++			break;
++
++		case	ODM_AP:
++			odm_TXPowerTrackingCheckAP(pDM_Odm);		
++			break;		
++
++		case	ODM_ADSL:
++			/*odm_DIGAP(pDM_Odm);*/
++			break;
++	}
++
++}
++
++VOID
++odm_TXPowerTrackingCheckCE(
++	IN	PVOID		pDM_VOID
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++	#if(RTL8188E_SUPPORT==1)
++
++	//if(!pMgntInfo->bTXPowerTracking /*|| (!pdmpriv->TxPowerTrackControl && pdmpriv->bAPKdone)*/)
++	if(!(pDM_Odm->SupportAbility & ODM_RF_TX_PWR_TRACK))
++	{
++		return;
++	}
++
++	if(!pDM_Odm->RFCalibrateInfo.TM_Trigger)		//at least delay 1 sec
++	{
++		//pHalData->TxPowerCheckCnt++;	//cosa add for debug
++		ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_T_METER, bRFRegOffsetMask, 0x60);
++		//DBG_8192C("Trigger 92C Thermal Meter!!\n");
++		
++		pDM_Odm->RFCalibrateInfo.TM_Trigger = 1;
++		return;
++		
++	}
++	else
++	{
++		//DBG_8192C("Schedule TxPowerTracking direct call!!\n");
++		odm_TXPowerTrackingCallback_ThermalMeter_8188E(Adapter);
++		pDM_Odm->RFCalibrateInfo.TM_Trigger = 0;
++	}
++	#endif
++	
++#endif	
++}
++
++VOID
++odm_TXPowerTrackingCheckMP(
++	IN	PVOID		pDM_VOID 
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++	if (ODM_CheckPowerStatus(Adapter) == FALSE)
++		return;
++
++	if(!Adapter->bSlaveOfDMSP || Adapter->DualMacSmartConcurrent == FALSE)
++		odm_TXPowerTrackingThermalMeterCheck(Adapter);
++#endif
++	
++}
++
++
++VOID
++odm_TXPowerTrackingCheckAP(
++	IN	PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	prtl8192cd_priv	priv		= pDM_Odm->priv;
++
++#if ((RTL8188E_SUPPORT == 1) || (RTL8192E_SUPPORT == 1) || (RTL8812A_SUPPORT == 1) || (RTL8881A_SUPPORT == 1) || (RTL8814A_SUPPORT == 1) || (RTL8197F_SUPPORT == 1))	
++	if (pDM_Odm->SupportICType & (ODM_RTL8188E | ODM_RTL8192E | ODM_RTL8812 | ODM_RTL8881A | ODM_RTL8814A | ODM_RTL8197F | ODM_RTL8822B))
++		ODM_TXPowerTrackingCallback_ThermalMeter(pDM_Odm);
++	else
++#endif
++	{
++	}
++#endif	
++
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++VOID
++odm_TXPowerTrackingThermalMeterCheck(
++	IN	PADAPTER		Adapter
++	)
++{
++#ifndef AP_BUILD_WORKAROUND
++#if (HAL_CODE_BASE==RTL8192_C)
++	PMGNT_INFO      		pMgntInfo = &Adapter->MgntInfo;
++	//HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(Adapter);
++	static u1Byte			TM_Trigger = 0;
++	//u1Byte					TxPowerCheckCnt = 5;	//10 sec
++
++	if(!pMgntInfo->bTXPowerTracking /*|| (!pHalData->TxPowerTrackControl && pHalData->bAPKdone)*/)
++	{
++		return;
++	}
++
++	if(!TM_Trigger)		//at least delay 1 sec
++	{
++		if (IS_HARDWARE_TYPE_8188E(Adapter) || IS_HARDWARE_TYPE_8812(Adapter))
++			PHY_SetRFReg(Adapter, RF_PATH_A, RF_T_METER_88E, BIT17 | BIT16, 0x03);
++		else
++			PHY_SetRFReg(Adapter, RF_PATH_A, RF_T_METER, bRFRegOffsetMask, 0x60);
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD,("Trigger 92C Thermal Meter!!\n"));
++		
++		TM_Trigger = 1;
++		return;
++	}
++	else
++	{
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD,("Schedule TxPowerTracking direct call!!\n"));		
++		odm_TXPowerTrackingDirectCall(Adapter); //Using direct call is instead, added by Roger, 2009.06.18.
++		TM_Trigger = 0;
++	}
++#endif
++#endif
++}
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_powertracking_ap.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_powertracking_ap.h
+new file mode 100644
+index 0000000..57bcad1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_powertracking_ap.h
+@@ -0,0 +1,351 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMPOWERTRACKING_H__
++#define    __PHYDMPOWERTRACKING_H__
++
++#define POWRTRACKING_VERSION	"1.1"
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++#ifdef RTK_AC_SUPPORT
++#define ODM_IC_11AC_SERIES_SUPPORT		1
++#else
++#define ODM_IC_11AC_SERIES_SUPPORT		0
++#endif
++#else
++#define ODM_IC_11AC_SERIES_SUPPORT		1
++#endif
++
++#define		DPK_DELTA_MAPPING_NUM	13
++#define		index_mapping_HP_NUM	15
++#define		DELTA_SWINGIDX_SIZE     30
++#define		DELTA_SWINTSSI_SIZE     61
++#define		BAND_NUM 				3
++#define		MAX_RF_PATH	4
++#define 		TXSCALE_TABLE_SIZE 		37
++#define		CCK_TABLE_SIZE_8723D		41
++
++#define IQK_MAC_REG_NUM		4
++#define IQK_ADDA_REG_NUM		16
++#define IQK_BB_REG_NUM_MAX	10
++
++#define IQK_BB_REG_NUM		9
++
++#define HP_THERMAL_NUM		8
++
++#define AVG_THERMAL_NUM		8
++#define IQK_Matrix_REG_NUM	8
++//#define IQK_Matrix_Settings_NUM	1+24+21
++#define IQK_Matrix_Settings_NUM	(14+24+21) // Channels_2_4G_NUM + Channels_5G_20M_NUM + Channels_5G
++
++#if !defined(_OUTSRC_COEXIST)
++#define	OFDM_TABLE_SIZE_92D 	43
++#define	OFDM_TABLE_SIZE 	37
++#define	CCK_TABLE_SIZE		33
++#define	CCK_TABLE_SIZE_88F	21
++
++
++
++//#define	OFDM_TABLE_SIZE_92E 	54
++//#define 	CCK_TABLE_SIZE_92E     	54
++extern	u4Byte OFDMSwingTable[OFDM_TABLE_SIZE_92D];
++extern	u1Byte CCKSwingTable_Ch1_Ch13[CCK_TABLE_SIZE][8];
++extern	u1Byte CCKSwingTable_Ch14 [CCK_TABLE_SIZE][8];
++
++
++extern	u4Byte OFDMSwingTable_New[OFDM_TABLE_SIZE_92D];
++extern	u1Byte CCKSwingTable_Ch1_Ch13_New[CCK_TABLE_SIZE][8];
++extern	u1Byte CCKSwingTable_Ch14_New [CCK_TABLE_SIZE][8];
++extern	u1Byte CCKSwingTable_Ch1_Ch14_88F[CCK_TABLE_SIZE_88F][16];
++extern	u1Byte CCKSwingTable_Ch1_Ch13_88F[CCK_TABLE_SIZE_88F][16];
++extern	u1Byte CCKSwingTable_Ch14_88F[CCK_TABLE_SIZE_88F][16];
++
++#endif
++
++#define	ODM_OFDM_TABLE_SIZE 	37
++#define	ODM_CCK_TABLE_SIZE		33
++// <20140613, YuChen> In case fail to read TxPowerTrack.txt, we use the table of 88E as the default table.
++extern u1Byte DeltaSwingTableIdx_2GA_P_DEFAULT[DELTA_SWINGIDX_SIZE];
++extern u1Byte DeltaSwingTableIdx_2GA_N_DEFAULT[DELTA_SWINGIDX_SIZE]; 
++
++static u1Byte DeltaSwingTableIdx_2GA_P_8188E[] = {0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 4,  4,  4,  4,  4,  4,  5,  5,  7,  7,  8,  8,  8,  9,  9,  9,  9,  9};
++static u1Byte DeltaSwingTableIdx_2GA_N_8188E[] = {0, 0, 0, 2, 2, 3, 3, 4, 4, 4, 4, 5, 5,  6,  6,  7,  7,  7,  7,  8,  8,  9,  9, 10, 10, 10, 11, 11, 11, 11}; 
++
++//extern	u4Byte OFDMSwingTable_92E[OFDM_TABLE_SIZE_92E];
++//extern	u1Byte CCKSwingTable_Ch1_Ch13_92E[CCK_TABLE_SIZE_92E][8];
++//extern	u1Byte CCKSwingTable_Ch14_92E[CCK_TABLE_SIZE_92E][8];
++
++#ifdef CONFIG_WLAN_HAL_8192EE
++#define	OFDM_TABLE_SIZE_92E 	54
++#define	CCK_TABLE_SIZE_92E     	54
++extern	u4Byte OFDMSwingTable_92E[OFDM_TABLE_SIZE_92E];
++extern	u1Byte CCKSwingTable_Ch1_Ch13_92E[CCK_TABLE_SIZE_92E][8];
++extern	u1Byte CCKSwingTable_Ch14_92E[CCK_TABLE_SIZE_92E][8];
++#endif
++
++#define	OFDM_TABLE_SIZE_8812 	43
++#define	AVG_THERMAL_NUM_8812	4
++
++#if (RTL8814A_SUPPORT == 1 || RTL8822B_SUPPORT == 1)
++extern u4Byte TxScalingTable_Jaguar[TXSCALE_TABLE_SIZE];
++#elif(ODM_IC_11AC_SERIES_SUPPORT)
++extern unsigned int OFDMSwingTable_8812[OFDM_TABLE_SIZE_8812];
++#endif
++
++extern u4Byte CCKSwingTable_Ch1_Ch14_8723D[CCK_TABLE_SIZE_8723D];
++
++#define dm_CheckTXPowerTracking 	ODM_TXPowerTrackingCheck
++
++typedef struct _IQK_MATRIX_REGS_SETTING{
++	BOOLEAN 	bIQKDone;
++	s4Byte		Value[1][IQK_Matrix_REG_NUM];
++}IQK_MATRIX_REGS_SETTING,*PIQK_MATRIX_REGS_SETTING;
++
++typedef struct ODM_RF_Calibration_Structure
++{
++	//for tx power tracking
++	
++	u4Byte	RegA24; // for TempCCK
++	s4Byte	RegE94;
++	s4Byte 	RegE9C;
++	s4Byte	RegEB4;
++	s4Byte	RegEBC;	
++
++	//u1Byte bTXPowerTracking;
++	u1Byte  	TXPowercount;
++	BOOLEAN bTXPowerTrackingInit; 
++	BOOLEAN bTXPowerTracking;
++	u1Byte  	TxPowerTrackControl; //for mp mode, turn off txpwrtracking as default
++	u1Byte  	TM_Trigger;
++    	u1Byte  	InternalPA5G[2];	//pathA / pathB
++	
++	u1Byte  	ThermalMeter[2];    // ThermalMeter, index 0 for RFIC0, and 1 for RFIC1
++	u1Byte  	ThermalValue;
++	u1Byte  	ThermalValue_LCK;
++	u1Byte  	ThermalValue_IQK;
++	u1Byte	ThermalValue_DPK;		
++	u1Byte	ThermalValue_AVG[AVG_THERMAL_NUM];
++	u1Byte	ThermalValue_AVG_index;		
++	u1Byte	ThermalValue_RxGain;
++	u1Byte	ThermalValue_Crystal;
++	u1Byte	ThermalValue_DPKstore;
++	u1Byte	ThermalValue_DPKtrack;
++	BOOLEAN	TxPowerTrackingInProgress;
++	BOOLEAN	bDPKenable;
++	
++	BOOLEAN	bReloadtxpowerindex;	
++	u1Byte 	bRfPiEnable;
++	u4Byte 	TXPowerTrackingCallbackCnt; //cosa add for debug
++
++	u1Byte 	bCCKinCH14;
++	u1Byte 	CCK_index;
++	u1Byte 	OFDM_index[MAX_RF_PATH];
++	s1Byte	PowerIndexOffset;
++	s1Byte	DeltaPowerIndex;
++	s1Byte	DeltaPowerIndexLast;	
++	BOOLEAN bTxPowerChanged;
++		
++	u1Byte 	ThermalValue_HP[HP_THERMAL_NUM];
++	u1Byte 	ThermalValue_HP_index;
++	IQK_MATRIX_REGS_SETTING IQKMatrixRegSetting[IQK_Matrix_Settings_NUM];
++	u1Byte	Delta_LCK;
++	u1Byte  DeltaSwingTableIdx_2GCCKA_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKA_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKB_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKB_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKC_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKC_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKD_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKD_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GB_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GB_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GC_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GC_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GD_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GD_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GA_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GA_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GB_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GB_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GC_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GC_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GD_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GD_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTSSITable_2GCCKA[DELTA_SWINTSSI_SIZE];         
++	u1Byte  DeltaSwingTSSITable_2GCCKB[DELTA_SWINTSSI_SIZE];           
++	u1Byte  DeltaSwingTSSITable_2GCCKC[DELTA_SWINTSSI_SIZE];            
++	u1Byte  DeltaSwingTSSITable_2GCCKD[DELTA_SWINTSSI_SIZE];            
++	u1Byte  DeltaSwingTSSITable_2GA[DELTA_SWINTSSI_SIZE];                
++	u1Byte  DeltaSwingTSSITable_2GB[DELTA_SWINTSSI_SIZE];              
++	u1Byte  DeltaSwingTSSITable_2GC[DELTA_SWINTSSI_SIZE];                   
++	u1Byte  DeltaSwingTSSITable_2GD[DELTA_SWINTSSI_SIZE];                
++	u1Byte  DeltaSwingTSSITable_5GA[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTSSITable_5GB[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTSSITable_5GC[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTSSITable_5GD[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_P_8188E[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_N_8188E[DELTA_SWINGIDX_SIZE];
++	
++	u1Byte			BbSwingIdxOfdm[MAX_RF_PATH];
++	u1Byte			BbSwingIdxOfdmCurrent;
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))	
++	u1Byte			BbSwingIdxOfdmBase[MAX_RF_PATH];
++#else
++	u1Byte			BbSwingIdxOfdmBase;
++#endif
++	BOOLEAN			BbSwingFlagOfdm;
++	u1Byte			BbSwingIdxCck;
++	u1Byte			BbSwingIdxCckCurrent;
++	u1Byte			BbSwingIdxCckBase;
++	u1Byte			DefaultOfdmIndex;
++	u1Byte			DefaultCckIndex;	
++	BOOLEAN			BbSwingFlagCck;
++	
++	s1Byte			Absolute_OFDMSwingIdx[MAX_RF_PATH];   
++	s1Byte			Remnant_OFDMSwingIdx[MAX_RF_PATH];   
++	s1Byte			Absolute_CCKSwingIdx[MAX_RF_PATH]; 
++	s1Byte			Remnant_CCKSwingIdx;
++	s1Byte			Modify_TxAGC_Value;       /*Remnat compensate value at TxAGC */
++	BOOLEAN			Modify_TxAGC_Flag_PathA;
++	BOOLEAN			Modify_TxAGC_Flag_PathB;
++	BOOLEAN			Modify_TxAGC_Flag_PathC;
++	BOOLEAN			Modify_TxAGC_Flag_PathD;
++	BOOLEAN			Modify_TxAGC_Flag_PathA_CCK;
++	
++	s1Byte			KfreeOffset[MAX_RF_PATH];
++    
++	//--------------------------------------------------------------------//	
++	
++	//for IQK	
++	u4Byte 	RegC04;
++	u4Byte 	Reg874;
++	u4Byte 	RegC08;
++	u4Byte 	RegB68;
++	u4Byte 	RegB6C;
++	u4Byte 	Reg870;
++	u4Byte 	Reg860;
++	u4Byte 	Reg864;
++	
++	BOOLEAN	bIQKInitialized;
++	BOOLEAN bLCKInProgress;
++	BOOLEAN	bAntennaDetected;
++	BOOLEAN	bNeedIQK;
++	BOOLEAN	bIQKInProgress;
++	BOOLEAN	bIQKPAoff;
++	u1Byte	Delta_IQK;
++	u4Byte	ADDA_backup[IQK_ADDA_REG_NUM];
++	u4Byte	IQK_MAC_backup[IQK_MAC_REG_NUM];
++	u4Byte	IQK_BB_backup_recover[9];
++	u4Byte	IQK_BB_backup[IQK_BB_REG_NUM];	
++	u4Byte	TxIQC_8723B[2][3][2]; /* { {S1: 0xc94, 0xc80, 0xc4c} , {S0: 0xc9c, 0xc88, 0xc4c}} */
++	u4Byte	RxIQC_8723B[2][2][2]; /* { {S1: 0xc14, 0xca0} ,           {S0: 0xc14, 0xca0}} */
++	u4Byte	TxIQC_8703B[3][2];	/* { {S1: 0xc94, 0xc80, 0xc4c} , {S0: 0xc9c, 0xc88, 0xc4c}}*/
++	u4Byte	RxIQC_8703B[2][2];	/* { {S1: 0xc14, 0xca0} ,           {S0: 0xc14, 0xca0}}*/
++
++	u8Byte	IQK_StartTime;
++	u8Byte	IQK_TotalProgressingTime;
++	u8Byte	IQK_ProgressingTime;
++	u4Byte  LOK_Result;
++	u1Byte	IQKstep;
++	u1Byte	Kcount;
++	u1Byte	retry_count[4][2]; /* [4]: path ABCD, [2] TXK, RXK */
++	BOOLEAN	isMPmode;
++
++	//for APK
++	u4Byte 	APKoutput[2][2]; //path A/B; output1_1a/output1_2a
++	u1Byte 	bAPKdone;
++	u1Byte 	bAPKThermalMeterIgnore;
++	u1Byte 	bDPdone;
++	u1Byte 	bDPPathAOK;
++	u1Byte 	bDPPathBOK;
++
++	/*Add by Yuchen for Kfree Phydm*/
++	u1Byte			RegRfKFreeEnable;	/*for registry*/
++	u1Byte			RfKFreeEnable;		/*for efuse enable check*/
++	u4Byte	TxLOK[2];
++}ODM_RF_CAL_T,*PODM_RF_CAL_T;
++
++VOID
++odm_TXPowerTrackingCheckAP(
++	IN	PVOID		pDM_VOID
++	);
++
++VOID
++ODM_TXPowerTrackingCheck(
++	IN	PVOID		pDM_VOID
++	);
++
++
++VOID
++odm_TXPowerTrackingThermalMeterInit(
++	IN	PVOID		pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingInit(
++	IN	PVOID		pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingCheckMP(
++	IN	PVOID		pDM_VOID
++	);
++
++
++VOID
++odm_TXPowerTrackingCheckCE(
++	IN	PVOID		pDM_VOID
++	);
++
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_WIN)) 
++
++VOID 
++odm_TXPowerTrackingCallbackThermalMeter92C(
++            IN PADAPTER	Adapter
++            );
++
++VOID
++odm_TXPowerTrackingCallbackRXGainThermalMeter92D(
++	IN PADAPTER 	Adapter
++	);
++
++VOID
++odm_TXPowerTrackingCallbackThermalMeter92D(
++            IN PADAPTER	Adapter
++            );
++
++VOID
++odm_TXPowerTrackingDirectCall92C(
++            IN	PADAPTER		Adapter
++            );
++
++VOID
++odm_TXPowerTrackingThermalMeterCheck(
++	IN	PADAPTER		Adapter
++	);
++
++#endif
++
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_powertracking_ce.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_powertracking_ce.c
+new file mode 100644
+index 0000000..0fef250
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_powertracking_ce.c
+@@ -0,0 +1,756 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++/*============================================================	*/
++/* include files												*/
++/*============================================================	*/
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++//============================================================
++// Global var
++//============================================================
++
++u4Byte	OFDMSwingTable[OFDM_TABLE_SIZE] = {
++	0x7f8001fe,	/* 0, +6.0dB  */
++	0x788001e2,	/* 1, +5.5dB */
++	0x71c001c7,	/* 2, +5.0dB*/
++	0x6b8001ae,	/* 3, +4.5dB*/
++	0x65400195,	/* 4, +4.0dB*/
++	0x5fc0017f,	/* 5, +3.5dB*/
++	0x5a400169,	/* 6, +3.0dB*/
++	0x55400155,	/* 7, +2.5dB*/
++	0x50800142,	/* 8, +2.0dB*/
++	0x4c000130,	/* 9, +1.5dB*/
++	0x47c0011f,	/* 10, +1.0dB*/
++	0x43c0010f,	/* 11, +0.5dB*/
++	0x40000100,	/* 12, +0dB*/
++	0x3c8000f2,	/* 13, -0.5dB*/
++	0x390000e4,	/* 14, -1.0dB*/
++	0x35c000d7,	/* 15, -1.5dB*/
++	0x32c000cb,	/* 16, -2.0dB*/
++	0x300000c0,	/* 17, -2.5dB*/
++	0x2d4000b5,	/* 18, -3.0dB*/
++	0x2ac000ab,	/* 19, -3.5dB*/
++	0x288000a2,	/* 20, -4.0dB*/
++	0x26000098,	/* 21, -4.5dB*/
++	0x24000090,	/* 22, -5.0dB*/
++	0x22000088,	/* 23, -5.5dB*/
++	0x20000080,	/* 24, -6.0dB*/
++	0x1e400079,	/* 25, -6.5dB*/
++	0x1c800072,	/* 26, -7.0dB*/
++	0x1b00006c,	/* 27. -7.5dB*/
++	0x19800066,	/* 28, -8.0dB*/
++	0x18000060,	/* 29, -8.5dB*/
++	0x16c0005b,	/* 30, -9.0dB*/
++	0x15800056,	/* 31, -9.5dB*/
++	0x14400051,	/* 32, -10.0dB*/
++	0x1300004c,	/* 33, -10.5dB*/
++	0x12000048,	/* 34, -11.0dB*/
++	0x11000044,	/* 35, -11.5dB*/
++	0x10000040,	/* 36, -12.0dB*/
++};
++
++u1Byte	CCKSwingTable_Ch1_Ch13[CCK_TABLE_SIZE][8] = {
++	{0x36, 0x35, 0x2e, 0x25, 0x1c, 0x12, 0x09, 0x04},	/* 0, +0dB  */
++	{0x33, 0x32, 0x2b, 0x23, 0x1a, 0x11, 0x08, 0x04},	/* 1, -0.5dB */
++	{0x30, 0x2f, 0x29, 0x21, 0x19, 0x10, 0x08, 0x03},	/* 2, -1.0dB*/
++	{0x2d, 0x2d, 0x27, 0x1f, 0x18, 0x0f, 0x08, 0x03},	/* 3, -1.5dB*/
++	{0x2b, 0x2a, 0x25, 0x1e, 0x16, 0x0e, 0x07, 0x03},	/* 4, -2.0dB */
++	{0x28, 0x28, 0x22, 0x1c, 0x15, 0x0d, 0x07, 0x03},	/* 5, -2.5dB*/
++	{0x26, 0x25, 0x21, 0x1b, 0x14, 0x0d, 0x06, 0x03},	/* 6, -3.0dB*/
++	{0x24, 0x23, 0x1f, 0x19, 0x13, 0x0c, 0x06, 0x03},	/* 7, -3.5dB*/
++	{0x22, 0x21, 0x1d, 0x18, 0x11, 0x0b, 0x06, 0x02},	/* 8, -4.0dB */
++	{0x20, 0x20, 0x1b, 0x16, 0x11, 0x08, 0x05, 0x02},	/* 9, -4.5dB*/
++	{0x1f, 0x1e, 0x1a, 0x15, 0x10, 0x0a, 0x05, 0x02},	/* 10, -5.0dB */
++	{0x1d, 0x1c, 0x18, 0x14, 0x0f, 0x0a, 0x05, 0x02},	/* 11, -5.5dB*/
++	{0x1b, 0x1a, 0x17, 0x13, 0x0e, 0x09, 0x04, 0x02},	/* 12, -6.0dB <== default */
++	{0x1a, 0x19, 0x16, 0x12, 0x0d, 0x09, 0x04, 0x02},	/* 13, -6.5dB*/
++	{0x18, 0x17, 0x15, 0x11, 0x0c, 0x08, 0x04, 0x02},	/* 14, -7.0dB */
++	{0x17, 0x16, 0x13, 0x10, 0x0c, 0x08, 0x04, 0x02},	/* 15, -7.5dB*/
++	{0x16, 0x15, 0x12, 0x0f, 0x0b, 0x07, 0x04, 0x01},	/* 16, -8.0dB */
++	{0x14, 0x14, 0x11, 0x0e, 0x0b, 0x07, 0x03, 0x02},	/* 17, -8.5dB*/
++	{0x13, 0x13, 0x10, 0x0d, 0x0a, 0x06, 0x03, 0x01},	/* 18, -9.0dB */
++	{0x12, 0x12, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	/* 19, -9.5dB*/
++	{0x11, 0x11, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	/* 20, -10.0dB*/
++	{0x10, 0x10, 0x0e, 0x0b, 0x08, 0x05, 0x03, 0x01},	/* 21, -10.5dB*/
++	{0x0f, 0x0f, 0x0d, 0x0b, 0x08, 0x05, 0x03, 0x01},	/* 22, -11.0dB*/
++	{0x0e, 0x0e, 0x0c, 0x0a, 0x08, 0x05, 0x02, 0x01},	/* 23, -11.5dB*/
++	{0x0d, 0x0d, 0x0c, 0x0a, 0x07, 0x05, 0x02, 0x01},	/* 24, -12.0dB*/
++	{0x0d, 0x0c, 0x0b, 0x09, 0x07, 0x04, 0x02, 0x01},	/* 25, -12.5dB*/
++	{0x0c, 0x0c, 0x0a, 0x09, 0x06, 0x04, 0x02, 0x01},	/* 26, -13.0dB*/
++	{0x0b, 0x0b, 0x0a, 0x08, 0x06, 0x04, 0x02, 0x01},	/* 27, -13.5dB*/
++	{0x0b, 0x0a, 0x09, 0x08, 0x06, 0x04, 0x02, 0x01},	/* 28, -14.0dB*/
++	{0x0a, 0x0a, 0x09, 0x07, 0x05, 0x03, 0x02, 0x01},	/* 29, -14.5dB*/
++	{0x0a, 0x09, 0x08, 0x07, 0x05, 0x03, 0x02, 0x01},	/* 30, -15.0dB*/
++	{0x09, 0x09, 0x08, 0x06, 0x05, 0x03, 0x01, 0x01},	/* 31, -15.5dB*/
++	{0x09, 0x08, 0x07, 0x06, 0x04, 0x03, 0x01, 0x01}	/* 32, -16.0dB*/
++};
++
++
++u1Byte	CCKSwingTable_Ch14[CCK_TABLE_SIZE][8] = {
++	{0x36, 0x35, 0x2e, 0x1b, 0x00, 0x00, 0x00, 0x00},	/* 0, +0dB  */
++	{0x33, 0x32, 0x2b, 0x19, 0x00, 0x00, 0x00, 0x00},	/* 1, -0.5dB */
++	{0x30, 0x2f, 0x29, 0x18, 0x00, 0x00, 0x00, 0x00},	/* 2, -1.0dB  */
++	{0x2d, 0x2d, 0x17, 0x17, 0x00, 0x00, 0x00, 0x00},	/* 3, -1.5dB*/
++	{0x2b, 0x2a, 0x25, 0x15, 0x00, 0x00, 0x00, 0x00},	/* 4, -2.0dB  */
++	{0x28, 0x28, 0x24, 0x14, 0x00, 0x00, 0x00, 0x00},	/* 5, -2.5dB*/
++	{0x26, 0x25, 0x21, 0x13, 0x00, 0x00, 0x00, 0x00},	/* 6, -3.0dB  */
++	{0x24, 0x23, 0x1f, 0x12, 0x00, 0x00, 0x00, 0x00},	/* 7, -3.5dB  */
++	{0x22, 0x21, 0x1d, 0x11, 0x00, 0x00, 0x00, 0x00},	/* 8, -4.0dB  */
++	{0x20, 0x20, 0x1b, 0x10, 0x00, 0x00, 0x00, 0x00},	/* 9, -4.5dB*/
++	{0x1f, 0x1e, 0x1a, 0x0f, 0x00, 0x00, 0x00, 0x00},	/* 10, -5.0dB */ 
++	{0x1d, 0x1c, 0x18, 0x0e, 0x00, 0x00, 0x00, 0x00},	/* 11, -5.5dB*/
++	{0x1b, 0x1a, 0x17, 0x0e, 0x00, 0x00, 0x00, 0x00},	/* 12, -6.0dB  <== default*/
++	{0x1a, 0x19, 0x16, 0x0d, 0x00, 0x00, 0x00, 0x00},	/* 13, -6.5dB */
++	{0x18, 0x17, 0x15, 0x0c, 0x00, 0x00, 0x00, 0x00},	/* 14, -7.0dB  */
++	{0x17, 0x16, 0x13, 0x0b, 0x00, 0x00, 0x00, 0x00},	/* 15, -7.5dB*/
++	{0x16, 0x15, 0x12, 0x0b, 0x00, 0x00, 0x00, 0x00},	/* 16, -8.0dB  */
++	{0x14, 0x14, 0x11, 0x0a, 0x00, 0x00, 0x00, 0x00},	/* 17, -8.5dB*/
++	{0x13, 0x13, 0x10, 0x0a, 0x00, 0x00, 0x00, 0x00},	/* 18, -9.0dB  */
++	{0x12, 0x12, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	/* 19, -9.5dB*/
++	{0x11, 0x11, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	/* 20, -10.0dB*/
++	{0x10, 0x10, 0x0e, 0x08, 0x00, 0x00, 0x00, 0x00},	/* 21, -10.5dB*/
++	{0x0f, 0x0f, 0x0d, 0x08, 0x00, 0x00, 0x00, 0x00},	/* 22, -11.0dB*/
++	{0x0e, 0x0e, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	/* 23, -11.5dB*/
++	{0x0d, 0x0d, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	/* 24, -12.0dB*/
++	{0x0d, 0x0c, 0x0b, 0x06, 0x00, 0x00, 0x00, 0x00},	/* 25, -12.5dB*/
++	{0x0c, 0x0c, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	/* 26, -13.0dB*/
++	{0x0b, 0x0b, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	/* 27, -13.5dB*/
++	{0x0b, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	/* 28, -14.0dB*/
++	{0x0a, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	/* 29, -14.5dB*/
++	{0x0a, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	/* 30, -15.0dB*/
++	{0x09, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	/* 31, -15.5dB*/
++	{0x09, 0x08, 0x07, 0x04, 0x00, 0x00, 0x00, 0x00}	/* 32, -16.0dB*/
++};
++
++
++u4Byte OFDMSwingTable_New[OFDM_TABLE_SIZE] = {
++	0x0b40002d, /* 0,  -15.0dB	*/
++	0x0c000030, /* 1,  -14.5dB*/
++	0x0cc00033, /* 2,  -14.0dB*/
++	0x0d800036, /* 3,  -13.5dB*/
++	0x0e400039, /* 4,  -13.0dB  */  
++	0x0f00003c, /* 5,  -12.5dB*/
++	0x10000040, /* 6,  -12.0dB*/
++	0x11000044, /* 7,  -11.5dB*/
++	0x12000048, /* 8,  -11.0dB*/
++	0x1300004c, /* 9,  -10.5dB*/
++	0x14400051, /* 10, -10.0dB*/
++	0x15800056, /* 11, -9.5dB*/
++	0x16c0005b, /* 12, -9.0dB*/
++	0x18000060, /* 13, -8.5dB*/
++	0x19800066, /* 14, -8.0dB*/
++	0x1b00006c, /* 15, -7.5dB*/
++	0x1c800072, /* 16, -7.0dB*/
++	0x1e400079, /* 17, -6.5dB*/
++	0x20000080, /* 18, -6.0dB*/
++	0x22000088, /* 19, -5.5dB*/
++	0x24000090, /* 20, -5.0dB*/
++	0x26000098, /* 21, -4.5dB*/
++	0x288000a2, /* 22, -4.0dB*/
++	0x2ac000ab, /* 23, -3.5dB*/
++	0x2d4000b5, /* 24, -3.0dB*/
++	0x300000c0, /* 25, -2.5dB*/
++	0x32c000cb, /* 26, -2.0dB*/
++	0x35c000d7, /* 27, -1.5dB*/
++	0x390000e4, /* 28, -1.0dB*/
++	0x3c8000f2, /* 29, -0.5dB*/
++	0x40000100, /* 30, +0dB*/
++	0x43c0010f, /* 31, +0.5dB*/
++	0x47c0011f, /* 32, +1.0dB*/
++	0x4c000130, /* 33, +1.5dB*/
++	0x50800142, /* 34, +2.0dB*/
++	0x55400155, /* 35, +2.5dB*/
++	0x5a400169, /* 36, +3.0dB*/
++	0x5fc0017f, /* 37, +3.5dB*/
++	0x65400195, /* 38, +4.0dB*/
++	0x6b8001ae, /* 39, +4.5dB*/
++	0x71c001c7, /* 40, +5.0dB*/
++	0x788001e2, /* 41, +5.5dB*/
++	0x7f8001fe  /* 42, +6.0dB*/
++};               
++
++
++u1Byte CCKSwingTable_Ch1_Ch14_88F[CCK_TABLE_SIZE_88F][16] = {
++{0x44, 0x42, 0x3C, 0x33, 0x28, 0x1C, 0x13, 0x0B, 0x05, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-16dB*/
++{0x48, 0x46, 0x3F, 0x36, 0x2A, 0x1E, 0x14, 0x0B, 0x05, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15.5dB*/
++{0x4D, 0x4A, 0x43, 0x39, 0x2C, 0x20, 0x15, 0x0C, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15dB*/
++{0x51, 0x4F, 0x47, 0x3C, 0x2F, 0x22, 0x16, 0x0D, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14.5dB*/
++{0x56, 0x53, 0x4B, 0x40, 0x32, 0x24, 0x17, 0x0E, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14dB*/
++{0x5B, 0x58, 0x50, 0x43, 0x35, 0x26, 0x19, 0x0E, 0x07, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13.5dB*/
++{0x60, 0x5D, 0x54, 0x47, 0x38, 0x28, 0x1A, 0x0F, 0x07, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13dB*/
++{0x66, 0x63, 0x59, 0x4C, 0x3B, 0x2B, 0x1C, 0x10, 0x08, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12.5dB*/
++{0x6C, 0x69, 0x5F, 0x50, 0x3F, 0x2D, 0x1E, 0x11, 0x08, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12dB*/
++{0x73, 0x6F, 0x64, 0x55, 0x42, 0x30, 0x1F, 0x12, 0x08, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11.5dB*/
++{0x79, 0x76, 0x6A, 0x5A, 0x46, 0x33, 0x21, 0x13, 0x09, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11dB*/
++{0x81, 0x7C, 0x71, 0x5F, 0x4A, 0x36, 0x23, 0x14, 0x0A, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10.5dB*/
++{0x88, 0x84, 0x77, 0x65, 0x4F, 0x39, 0x25, 0x15, 0x0A, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10dB*/
++{0x90, 0x8C, 0x7E, 0x6B, 0x54, 0x3C, 0x27, 0x17, 0x0B, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9.5dB*/
++{0x99, 0x94, 0x86, 0x71, 0x58, 0x40, 0x2A, 0x18, 0x0B, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9dB*/
++{0xA2, 0x9D, 0x8E, 0x78, 0x5E, 0x43, 0x2C, 0x19, 0x0C, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8.5dB*/
++{0xAC, 0xA6, 0x96, 0x7F, 0x63, 0x47, 0x2F, 0x1B, 0x0D, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8dB*/
++{0xB6, 0xB0, 0x9F, 0x87, 0x69, 0x4C, 0x32, 0x1D, 0x0D, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7.5dB*/
++{0xC1, 0xBA, 0xA8, 0x8F, 0x6F, 0x50, 0x35, 0x1E, 0x0E, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7dB*/
++{0xCC, 0xC5, 0xB2, 0x97, 0x76, 0x55, 0x38, 0x20, 0x0F, 0x05, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-6.5dB*/
++{0xD8, 0xD1, 0xBD, 0xA0, 0x7D, 0x5A, 0x3B, 0x22, 0x10, 0x05, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}     /*-6dB*/
++};
++
++
++u1Byte CCKSwingTable_Ch1_Ch13_88F[CCK_TABLE_SIZE_88F][16] = {
++{0x44, 0x42, 0x3C, 0x33, 0x28, 0x1C, 0x13, 0x0B, 0x05, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-16dB*/
++{0x48, 0x46, 0x3F, 0x36, 0x2A, 0x1E, 0x14, 0x0B, 0x05, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15.5dB*/
++{0x4D, 0x4A, 0x43, 0x39, 0x2C, 0x20, 0x15, 0x0C, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15dB*/
++{0x51, 0x4F, 0x47, 0x3C, 0x2F, 0x22, 0x16, 0x0D, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14.5dB*/
++{0x56, 0x53, 0x4B, 0x40, 0x32, 0x24, 0x17, 0x0E, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14dB*/
++{0x5B, 0x58, 0x50, 0x43, 0x35, 0x26, 0x19, 0x0E, 0x07, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13.5dB*/
++{0x60, 0x5D, 0x54, 0x47, 0x38, 0x28, 0x1A, 0x0F, 0x07, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13dB*/
++{0x66, 0x63, 0x59, 0x4C, 0x3B, 0x2B, 0x1C, 0x10, 0x08, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12.5dB*/
++{0x6C, 0x69, 0x5F, 0x50, 0x3F, 0x2D, 0x1E, 0x11, 0x08, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12dB*/
++{0x73, 0x6F, 0x64, 0x55, 0x42, 0x30, 0x1F, 0x12, 0x08, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11.5dB*/
++{0x79, 0x76, 0x6A, 0x5A, 0x46, 0x33, 0x21, 0x13, 0x09, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11dB*/
++{0x81, 0x7C, 0x71, 0x5F, 0x4A, 0x36, 0x23, 0x14, 0x0A, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10.5dB*/
++{0x88, 0x84, 0x77, 0x65, 0x4F, 0x39, 0x25, 0x15, 0x0A, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10dB*/
++{0x90, 0x8C, 0x7E, 0x6B, 0x54, 0x3C, 0x27, 0x17, 0x0B, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9.5dB*/
++{0x99, 0x94, 0x86, 0x71, 0x58, 0x40, 0x2A, 0x18, 0x0B, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9dB*/
++{0xA2, 0x9D, 0x8E, 0x78, 0x5E, 0x43, 0x2C, 0x19, 0x0C, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8.5dB*/
++{0xAC, 0xA6, 0x96, 0x7F, 0x63, 0x47, 0x2F, 0x1B, 0x0D, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8dB*/
++{0xB6, 0xB0, 0x9F, 0x87, 0x69, 0x4C, 0x32, 0x1D, 0x0D, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7.5dB*/
++{0xC1, 0xBA, 0xA8, 0x8F, 0x6F, 0x50, 0x35, 0x1E, 0x0E, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7dB*/
++{0xCC, 0xC5, 0xB2, 0x97, 0x76, 0x55, 0x38, 0x20, 0x0F, 0x05, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-6.5dB*/
++{0xD8, 0xD1, 0xBD, 0xA0, 0x7D, 0x5A, 0x3B, 0x22, 0x10, 0x05, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}     /*-6dB*/
++};
++
++
++u1Byte CCKSwingTable_Ch14_88F[CCK_TABLE_SIZE_88F][16] = {
++{0x44,	 0x42, 0x3C, 0x28, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-16dB*/
++{0x48, 0x46, 0x3F, 0x2A, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15.5dB*/
++{0x4D, 0x4A, 0x43, 0x2C, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15dB*/
++{0x51, 0x4F, 0x47, 0x2F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},	    /*-14.5dB*/
++{0x56, 0x53, 0x4B, 0x32, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14dB*/
++{0x5B, 0x58, 0x50, 0x35, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13.5dB*/
++{0x60, 0x5D, 0x54, 0x38, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13dB*/
++{0x66, 0x63, 0x59, 0x3B, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12.5dB*/
++{0x6C, 0x69, 0x5F, 0x3F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12dB*/
++{0x73, 0x6F, 0x64, 0x42, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11.5dB*/
++{0x79, 0x76, 0x6A, 0x46, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11dB*/
++{0x81, 0x7C, 0x71, 0x4A, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10.5dB*/
++{0x88, 0x84, 0x77, 0x4F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10dB*/
++{0x90, 0x8C, 0x7E, 0x54, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9.5dB*/
++{0x99, 0x94, 0x86, 0x58, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9dB*/
++{0xA2, 0x9D, 0x8E, 0x5E, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8.5dB*/
++{0xAC, 0xA6, 0x96, 0x63, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8dB*/
++{0xB6, 0xB0, 0x9F, 0x69, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7.5dB*/
++{0xC1, 0xBA, 0xA8, 0x6F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7dB*/
++{0xCC, 0xC5, 0xB2, 0x76, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-6.5dB*/
++{0xD8, 0xD1, 0xBD, 0x7D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}     /*-6dB*/
++};
++
++
++u1Byte CCKSwingTable_Ch1_Ch13_New[CCK_TABLE_SIZE][8] = {
++	{0x09, 0x08, 0x07, 0x06, 0x04, 0x03, 0x01, 0x01},	/*  0, -16.0dB*/
++	{0x09, 0x09, 0x08, 0x06, 0x05, 0x03, 0x01, 0x01},	/*   1, -15.5dB*/
++	{0x0a, 0x09, 0x08, 0x07, 0x05, 0x03, 0x02, 0x01},	/*  2, -15.0dB*/
++	{0x0a, 0x0a, 0x09, 0x07, 0x05, 0x03, 0x02, 0x01},	/*   3, -14.5dB*/
++	{0x0b, 0x0a, 0x09, 0x08, 0x06, 0x04, 0x02, 0x01},	/*   4, -14.0dB*/
++	{0x0b, 0x0b, 0x0a, 0x08, 0x06, 0x04, 0x02, 0x01},	/*   5, -13.5dB*/
++	{0x0c, 0x0c, 0x0a, 0x09, 0x06, 0x04, 0x02, 0x01},	/*   6, -13.0dB*/
++	{0x0d, 0x0c, 0x0b, 0x09, 0x07, 0x04, 0x02, 0x01},	/*   7, -12.5dB*/
++	{0x0d, 0x0d, 0x0c, 0x0a, 0x07, 0x05, 0x02, 0x01},	/*  8, -12.0dB*/
++	{0x0e, 0x0e, 0x0c, 0x0a, 0x08, 0x05, 0x02, 0x01},	/*   9, -11.5dB*/
++	{0x0f, 0x0f, 0x0d, 0x0b, 0x08, 0x05, 0x03, 0x01},	/*  10, -11.0dB*/
++	{0x10, 0x10, 0x0e, 0x0b, 0x08, 0x05, 0x03, 0x01},	/*  11, -10.5dB*/
++	{0x11, 0x11, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	/*  12, -10.0dB*/
++	{0x12, 0x12, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	/*  13, -9.5dB*/
++	{0x13, 0x13, 0x10, 0x0d, 0x0a, 0x06, 0x03, 0x01},	/*  14, -9.0dB */
++	{0x14, 0x14, 0x11, 0x0e, 0x0b, 0x07, 0x03, 0x02},	/*  15, -8.5dB*/
++	{0x16, 0x15, 0x12, 0x0f, 0x0b, 0x07, 0x04, 0x01},	/*  16, -8.0dB */
++	{0x17, 0x16, 0x13, 0x10, 0x0c, 0x08, 0x04, 0x02},	/*  17, -7.5dB*/
++	{0x18, 0x17, 0x15, 0x11, 0x0c, 0x08, 0x04, 0x02},	/*  18, -7.0dB */
++	{0x1a, 0x19, 0x16, 0x12, 0x0d, 0x09, 0x04, 0x02},	/*  19, -6.5dB*/
++    {0x1b, 0x1a, 0x17, 0x13, 0x0e, 0x09, 0x04, 0x02},	/*20, -6.0dB */
++	{0x1d, 0x1c, 0x18, 0x14, 0x0f, 0x0a, 0x05, 0x02},	/*  21, -5.5dB*/
++	{0x1f, 0x1e, 0x1a, 0x15, 0x10, 0x0a, 0x05, 0x02},	/* 22, -5.0dB */
++	{0x20, 0x20, 0x1b, 0x16, 0x11, 0x08, 0x05, 0x02},	/*  23, -4.5dB*/
++	{0x22, 0x21, 0x1d, 0x18, 0x11, 0x0b, 0x06, 0x02},	/*  24, -4.0dB */
++	{0x24, 0x23, 0x1f, 0x19, 0x13, 0x0c, 0x06, 0x03},	/*  25, -3.5dB*/
++	{0x26, 0x25, 0x21, 0x1b, 0x14, 0x0d, 0x06, 0x03},	/*  26, -3.0dB*/
++	{0x28, 0x28, 0x22, 0x1c, 0x15, 0x0d, 0x07, 0x03},	/*  27, -2.5dB*/
++	{0x2b, 0x2a, 0x25, 0x1e, 0x16, 0x0e, 0x07, 0x03},	/*  28, -2.0dB */
++	{0x2d, 0x2d, 0x27, 0x1f, 0x18, 0x0f, 0x08, 0x03},	/*  29, -1.5dB*/
++	{0x30, 0x2f, 0x29, 0x21, 0x19, 0x10, 0x08, 0x03},	/*  30, -1.0dB*/
++	{0x33, 0x32, 0x2b, 0x23, 0x1a, 0x11, 0x08, 0x04},	/*  31, -0.5dB*/
++	{0x36, 0x35, 0x2e, 0x25, 0x1c, 0x12, 0x09, 0x04} 	/*  32, +0dB*/
++};                                                                  
++
++
++u1Byte CCKSwingTable_Ch14_New[CCK_TABLE_SIZE][8]= {
++	{0x09, 0x08, 0x07, 0x04, 0x00, 0x00, 0x00, 0x00},	/*  0, -16.0dB*/
++	{0x09, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	/* 1, -15.5dB*/
++	{0x0a, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	/*  2, -15.0dB*/
++	{0x0a, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	/* 3, -14.5dB*/
++	{0x0b, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	/*  4, -14.0dB*/
++	{0x0b, 0x0b, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	/*5, -13.5dB*/
++	{0x0c, 0x0c, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	/* 6, -13.0dB*/
++	{0x0d, 0x0c, 0x0b, 0x06, 0x00, 0x00, 0x00, 0x00},	/*  7, -12.5dB*/
++	{0x0d, 0x0d, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	/* 8, -12.0dB*/
++	{0x0e, 0x0e, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	/* 9, -11.5dB*/
++	{0x0f, 0x0f, 0x0d, 0x08, 0x00, 0x00, 0x00, 0x00},	/* 10, -11.0dB*/
++	{0x10, 0x10, 0x0e, 0x08, 0x00, 0x00, 0x00, 0x00},	/*11, -10.5dB*/
++	{0x11, 0x11, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	/* 12, -10.0dB*/
++	{0x12, 0x12, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	/* 13, -9.5dB*/
++	{0x13, 0x13, 0x10, 0x0a, 0x00, 0x00, 0x00, 0x00},	/*14, -9.0dB  */
++	{0x14, 0x14, 0x11, 0x0a, 0x00, 0x00, 0x00, 0x00},	/* 15, -8.5dB*/
++	{0x16, 0x15, 0x12, 0x0b, 0x00, 0x00, 0x00, 0x00},	/* 16, -8.0dB  */
++	{0x17, 0x16, 0x13, 0x0b, 0x00, 0x00, 0x00, 0x00},	/* 17, -7.5dB*/
++	{0x18, 0x17, 0x15, 0x0c, 0x00, 0x00, 0x00, 0x00},	/* 18, -7.0dB  */
++	{0x1a, 0x19, 0x16, 0x0d, 0x00, 0x00, 0x00, 0x00},	/* 19, -6.5dB */
++	{0x1b, 0x1a, 0x17, 0x0e, 0x00, 0x00, 0x00, 0x00},	/* 20, -6.0dB  */
++	{0x1d, 0x1c, 0x18, 0x0e, 0x00, 0x00, 0x00, 0x00},	/* 21, -5.5dB*/
++	{0x1f, 0x1e, 0x1a, 0x0f, 0x00, 0x00, 0x00, 0x00},	/* 22, -5.0dB  */
++	{0x20, 0x20, 0x1b, 0x10, 0x00, 0x00, 0x00, 0x00},	/*23, -4.5dB*/
++	{0x22, 0x21, 0x1d, 0x11, 0x00, 0x00, 0x00, 0x00},	/* 24, -4.0dB  */
++	{0x24, 0x23, 0x1f, 0x12, 0x00, 0x00, 0x00, 0x00},	/* 25, -3.5dB  */
++	{0x26, 0x25, 0x21, 0x13, 0x00, 0x00, 0x00, 0x00},	/* 26, -3.0dB  */
++	{0x28, 0x28, 0x24, 0x14, 0x00, 0x00, 0x00, 0x00},	/*27, -2.5dB*/
++	{0x2b, 0x2a, 0x25, 0x15, 0x00, 0x00, 0x00, 0x00},	/* 28, -2.0dB  */
++	{0x2d, 0x2d, 0x17, 0x17, 0x00, 0x00, 0x00, 0x00},	/*29, -1.5dB*/
++	{0x30, 0x2f, 0x29, 0x18, 0x00, 0x00, 0x00, 0x00},	/* 30, -1.0dB  */
++	{0x33, 0x32, 0x2b, 0x19, 0x00, 0x00, 0x00, 0x00},	/* 31, -0.5dB */
++	{0x36, 0x35, 0x2e, 0x1b, 0x00, 0x00, 0x00, 0x00} 	/* 32, +0dB	*/
++};
++u4Byte CCKSwingTable_Ch1_Ch14_8723D[CCK_TABLE_SIZE_8723D] = {
++	0x0CD,          /*0 ,    -20dB*/
++	0x0D9,         
++	0x0E6,         
++	0x0F3,        
++	0x102,        
++	0x111,        
++	0x121,         
++	0x132,        
++	0x144,         
++	0x158,        
++	0x16C,        
++	0x182,         
++	0x198,        
++	0x1B1,        
++	0x1CA,        
++	0x1E5,        
++	0x202,        
++	0x221,         
++	0x241,        
++	0x263,        
++	0x287,         
++	0x2AE,        
++	0x2D6,         
++	0x301,        
++	0x32F,         
++	0x35F,    
++	0x392,         
++	0x3C9,      
++	0x402,       
++	0x43F,        
++	0x47F,         
++	0x4C3,         
++	0x50C,         
++	0x558,      
++	0x5A9,         
++	0x5FF,        
++	0x65A,         
++	0x6BA,         
++	0x720,        
++	0x78C,        
++	0x7FF,         
++};
++
++
++u4Byte TxScalingTable_Jaguar[TXSCALE_TABLE_SIZE] =
++{
++	0x081, /* 0,  -12.0dB*/
++	0x088, /* 1,  -11.5dB*/
++	0x090, /* 2,  -11.0dB*/
++	0x099, /* 3,  -10.5dB*/
++	0x0A2, /* 4,  -10.0dB*/
++	0x0AC, /* 5,  -9.5dB*/
++	0x0B6, /* 6,  -9.0dB*/
++	0x0C0, /*7,  -8.5dB*/
++	0x0CC, /* 8,  -8.0dB*/
++	0x0D8, /* 9,  -7.5dB*/
++	0x0E5, /* 10, -7.0dB*/
++	0x0F2, /* 11, -6.5dB*/
++	0x101, /* 12, -6.0dB*/
++	0x110, /* 13, -5.5dB*/
++	0x120, /* 14, -5.0dB*/
++	0x131, /* 15, -4.5dB*/
++	0x143, /* 16, -4.0dB*/
++	0x156, /* 17, -3.5dB*/
++	0x16A, /* 18, -3.0dB*/
++	0x180, /* 19, -2.5dB*/
++	0x197, /* 20, -2.0dB*/
++	0x1AF, /* 21, -1.5dB*/
++	0x1C8, /* 22, -1.0dB*/
++	0x1E3, /* 23, -0.5dB*/
++	0x200, /* 24, +0  dB*/
++	0x21E, /* 25, +0.5dB*/
++	0x23E, /* 26, +1.0dB*/
++	0x261, /* 27, +1.5dB*/
++	0x285,/* 28, +2.0dB*/
++	0x2AB, /* 29, +2.5dB*/
++	0x2D3, /*30, +3.0dB*/
++	0x2FE, /* 31, +3.5dB*/
++	0x32B, /* 32, +4.0dB*/
++	0x35C, /* 33, +4.5dB*/
++	0x38E, /* 34, +5.0dB*/
++	0x3C4, /* 35, +5.5dB*/
++	0x3FE  /* 36, +6.0dB	*/
++};
++
++#ifdef AP_BUILD_WORKAROUND
++
++unsigned int TxPwrTrk_OFDM_SwingTbl[TxPwrTrk_OFDM_SwingTbl_Len] = {
++	/*  +6.0dB */ 0x7f8001fe,
++	/*  +5.5dB */ 0x788001e2,
++	/*  +5.0dB */ 0x71c001c7,
++	/*  +4.5dB */ 0x6b8001ae,
++	/*  +4.0dB */ 0x65400195,
++	/*  +3.5dB */ 0x5fc0017f,
++	/*  +3.0dB */ 0x5a400169,
++	/*  +2.5dB */ 0x55400155,
++	/*  +2.0dB */ 0x50800142,
++	/*  +1.5dB */ 0x4c000130,
++	/*  +1.0dB */ 0x47c0011f,
++	/*  +0.5dB */ 0x43c0010f,
++	/*   0.0dB */ 0x40000100,
++	/*  -0.5dB */ 0x3c8000f2,
++	/*  -1.0dB */ 0x390000e4,
++	/*  -1.5dB */ 0x35c000d7,
++	/*  -2.0dB */ 0x32c000cb,
++	/*  -2.5dB */ 0x300000c0,
++	/*  -3.0dB */ 0x2d4000b5,
++	/*  -3.5dB */ 0x2ac000ab,
++	/*  -4.0dB */ 0x288000a2,
++	/*  -4.5dB */ 0x26000098,
++	/*  -5.0dB */ 0x24000090,
++	/*  -5.5dB */ 0x22000088,
++	/*  -6.0dB */ 0x20000080,
++	/*  -6.5dB */ 0x1a00006c,
++	/*  -7.0dB */ 0x1c800072,
++	/*  -7.5dB */ 0x18000060,
++	/*  -8.0dB */ 0x19800066,
++	/*  -8.5dB */ 0x15800056,
++	/*  -9.0dB */ 0x26c0005b,
++	/*  -9.5dB */ 0x14400051,
++	/* -10.0dB */ 0x24400051,
++	/* -10.5dB */ 0x1300004c,
++	/* -11.0dB */ 0x12000048,
++	/* -11.5dB */ 0x11000044,
++	/* -12.0dB */ 0x10000040
++};
++#endif
++
++
++
++VOID
++odm_TXPowerTrackingInit(
++	IN	PVOID	pDM_VOID 
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	if (!(pDM_Odm->SupportICType & (ODM_RTL8814A | ODM_IC_11N_SERIES)))
++		return;
++#endif
++
++	odm_TXPowerTrackingThermalMeterInit(pDM_Odm);
++}	
++
++u1Byte 
++getSwingIndex(
++	IN	PVOID	pDM_VOID 
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u1Byte 			i = 0;
++	u4Byte 			bbSwing;
++	u4Byte 			swingTableSize;
++	pu4Byte 			pSwingTable;
++
++	if (pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8723B
++		|| pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType == ODM_RTL8188F || pDM_Odm->SupportICType == ODM_RTL8703B
++	) {
++		bbSwing = PHY_QueryBBReg(Adapter, rOFDM0_XATxIQImbalance, 0xFFC00000);
++
++		pSwingTable = OFDMSwingTable_New;
++		swingTableSize = OFDM_TABLE_SIZE;
++	} else {
++#if ((RTL8812A_SUPPORT==1)||(RTL8821A_SUPPORT==1))
++		if (pDM_Odm->SupportICType == ODM_RTL8812 || pDM_Odm->SupportICType == ODM_RTL8821)
++		{
++			bbSwing = PHY_GetTxBBSwing_8812A(Adapter, pHalData->CurrentBandType, ODM_RF_PATH_A);
++			pSwingTable = TxScalingTable_Jaguar;
++			swingTableSize = TXSCALE_TABLE_SIZE;
++		}
++		else
++#endif
++		{
++			bbSwing = 0;
++			pSwingTable = OFDMSwingTable;
++			swingTableSize = OFDM_TABLE_SIZE;
++		}
++	}
++
++	for (i = 0; i < swingTableSize; ++i) {
++		u4Byte tableValue = pSwingTable[i];
++		
++		if (tableValue >= 0x100000 )
++			tableValue >>= 22;
++		if (bbSwing == tableValue)
++			break;
++	}
++	return i;
++}
++
++VOID
++odm_TXPowerTrackingThermalMeterInit(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte defaultSwingIndex = getSwingIndex(pDM_Odm);
++	u1Byte 			p = 0;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	if(pDM_Odm->mp_mode == FALSE)
++		pHalData->TxPowerTrackControl = TRUE;
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	pRFCalibrateInfo->bTXPowerTracking = _TRUE;
++	pRFCalibrateInfo->TXPowercount = 0;
++	pRFCalibrateInfo->bTXPowerTrackingInit = _FALSE;
++
++	if(pDM_Odm->mp_mode == FALSE)
++		pRFCalibrateInfo->TxPowerTrackControl = _TRUE;
++	else
++		pRFCalibrateInfo->TxPowerTrackControl = _FALSE;	
++
++	if(pDM_Odm->mp_mode == FALSE)
++		pRFCalibrateInfo->TxPowerTrackControl = _TRUE;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("pDM_Odm TxPowerTrackControl = %d\n", pRFCalibrateInfo->TxPowerTrackControl));
++	
++#elif (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	#ifdef RTL8188E_SUPPORT
++	{
++		pRFCalibrateInfo->bTXPowerTracking = _TRUE;
++		pRFCalibrateInfo->TXPowercount = 0;
++		pRFCalibrateInfo->bTXPowerTrackingInit = _FALSE;
++		pRFCalibrateInfo->TxPowerTrackControl = _TRUE;
++	}
++	#endif
++#endif
++
++	//pDM_Odm->RFCalibrateInfo.TxPowerTrackControl = TRUE;
++	pRFCalibrateInfo->ThermalValue = pHalData->EEPROMThermalMeter;
++	pRFCalibrateInfo->ThermalValue_IQK = pHalData->EEPROMThermalMeter;
++	pRFCalibrateInfo->ThermalValue_LCK = pHalData->EEPROMThermalMeter;	
++
++	if (pRFCalibrateInfo->DefaultBbSwingIndexFlag != TRUE) {
++		/*The index of "0 dB" in SwingTable.*/
++		if (pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8723B ||
++			pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType == ODM_RTL8703B) {
++			pRFCalibrateInfo->DefaultOfdmIndex = (defaultSwingIndex >= OFDM_TABLE_SIZE) ? 30 : defaultSwingIndex;
++			pRFCalibrateInfo->DefaultCckIndex = 20;	
++		} else if (pDM_Odm->SupportICType == ODM_RTL8188F) {          /*add by Mingzhi.Guo  2015-03-23*/
++			pRFCalibrateInfo->DefaultOfdmIndex = 28;							/*OFDM: -1dB*/
++			pRFCalibrateInfo->DefaultCckIndex = 20;							/*CCK:-6dB*/
++		} else if (pDM_Odm->SupportICType == ODM_RTL8723D) {			 /*add by zhaohe  2015-10-27*/
++			pRFCalibrateInfo->DefaultOfdmIndex = 28;						 	   /*OFDM: -1dB*/
++			pRFCalibrateInfo->DefaultCckIndex = 28;							/*CCK:   -6dB*/
++		} else {
++			pRFCalibrateInfo->DefaultOfdmIndex = (defaultSwingIndex >= TXSCALE_TABLE_SIZE) ? 24 : defaultSwingIndex;
++			pRFCalibrateInfo->DefaultCckIndex = 24;	
++		}
++		pRFCalibrateInfo->DefaultBbSwingIndexFlag = TRUE;
++	}
++
++	pRFCalibrateInfo->BbSwingIdxCckBase = pRFCalibrateInfo->DefaultCckIndex;
++	pRFCalibrateInfo->CCK_index = pRFCalibrateInfo->DefaultCckIndex;
++	
++	for (p = ODM_RF_PATH_A; p < MAX_RF_PATH; ++p)
++	{
++		pRFCalibrateInfo->BbSwingIdxOfdmBase[p] = pRFCalibrateInfo->DefaultOfdmIndex;		
++		pRFCalibrateInfo->OFDM_index[p] = pRFCalibrateInfo->DefaultOfdmIndex;		
++		pRFCalibrateInfo->DeltaPowerIndex[p] = 0;
++		pRFCalibrateInfo->DeltaPowerIndexLast[p] = 0;
++		pRFCalibrateInfo->PowerIndexOffset[p] = 0;
++	}
++	pRFCalibrateInfo->Modify_TxAGC_Value_OFDM = 0;			
++	pRFCalibrateInfo->Modify_TxAGC_Value_CCK = 0;			
++
++}
++
++
++VOID
++ODM_TXPowerTrackingCheck(
++	IN	PVOID	pDM_VOID
++	)
++{
++	/* 2011/09/29 MH In HW integration first stage, we provide 4 different handle to operate
++	at the same time. In the stage2/3, we need to prive universal interface and merge all
++	HW dynamic mechanism. */
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	switch	(pDM_Odm->SupportPlatform)
++	{
++		case	ODM_WIN:
++			odm_TXPowerTrackingCheckMP(pDM_Odm);
++			break;
++
++		case	ODM_CE:
++			odm_TXPowerTrackingCheckCE(pDM_Odm);
++			break;
++
++		case	ODM_AP:
++			odm_TXPowerTrackingCheckAP(pDM_Odm);		
++			break;		
++
++		default:
++			break;	
++	}
++
++}
++
++VOID
++odm_TXPowerTrackingCheckCE(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++	if (!(pDM_Odm->SupportAbility & ODM_RF_TX_PWR_TRACK))
++		return;
++
++	if (!pDM_Odm->RFCalibrateInfo.TM_Trigger) {
++		
++		if (IS_HARDWARE_TYPE_8188E(Adapter) || IS_HARDWARE_TYPE_8188F(Adapter) || IS_HARDWARE_TYPE_8192E(Adapter)
++			|| IS_HARDWARE_TYPE_8723B(Adapter)
++			|| IS_HARDWARE_TYPE_JAGUAR(Adapter) || IS_HARDWARE_TYPE_8814A(Adapter)
++			|| IS_HARDWARE_TYPE_8703B(Adapter)
++		) {
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_T_METER_NEW, (BIT17 | BIT16), 0x03);
++		} else {
++			ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_T_METER_OLD, bRFRegOffsetMask, 0x60);
++		}
++		
++	
++		
++		pDM_Odm->RFCalibrateInfo.TM_Trigger = 1;
++		return;
++	}
++	else
++	{
++		
++		ODM_TXPowerTrackingCallback_ThermalMeter(Adapter);
++		pDM_Odm->RFCalibrateInfo.TM_Trigger = 0;
++	}
++
++#endif	
++}
++
++VOID
++odm_TXPowerTrackingCheckMP(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++	if (ODM_CheckPowerStatus(Adapter) == FALSE) 
++	{
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD, ("===>ODM_CheckPowerStatus() return FALSE\n"));
++		return;
++	}
++
++	odm_TXPowerTrackingThermalMeterCheck(Adapter);
++#endif
++	
++}
++
++
++VOID
++odm_TXPowerTrackingCheckAP(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	prtl8192cd_priv	priv		= pDM_Odm->priv;
++
++	return;
++	
++#endif
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++odm_TXPowerTrackingThermalMeterCheck(
++	IN	PADAPTER		Adapter
++	)
++{
++#ifndef AP_BUILD_WORKAROUND
++	static u1Byte			TM_Trigger = 0;
++
++	if (!(GET_HAL_DATA(Adapter)->DM_OutSrc.SupportAbility & ODM_RF_TX_PWR_TRACK)) {
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD,
++			("===>odm_TXPowerTrackingThermalMeterCheck(),pMgntInfo->bTXPowerTracking is FALSE, return!!\n"));
++		return;
++	}
++
++	if (!TM_Trigger) {
++		if (IS_HARDWARE_TYPE_8188E(Adapter) || IS_HARDWARE_TYPE_JAGUAR(Adapter) || IS_HARDWARE_TYPE_8192E(Adapter) ||
++				IS_HARDWARE_TYPE_8723B(Adapter) || IS_HARDWARE_TYPE_8814A(Adapter) || IS_HARDWARE_TYPE_8188F(Adapter) 
++				|| IS_HARDWARE_TYPE_8703B(Adapter) || IS_HARDWARE_TYPE_8723D(Adapter))
++			PHY_SetRFReg(Adapter, ODM_RF_PATH_A, RF_T_METER_88E, BIT17 | BIT16, 0x03);
++		else
++			PHY_SetRFReg(Adapter, ODM_RF_PATH_A, RF_T_METER, bRFRegOffsetMask, 0x60);
++		
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD,("Trigger Thermal Meter!!\n"));
++		
++		TM_Trigger = 1;
++		return;
++	} else {
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD,("Schedule TxPowerTracking direct call!!\n"));		
++		odm_TXPowerTrackingDirectCall(Adapter); 
++		TM_Trigger = 0;
++	}
++#endif
++}
++#endif
++
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_powertracking_ce.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_powertracking_ce.h
+new file mode 100644
+index 0000000..47ecf4f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_powertracking_ce.h
+@@ -0,0 +1,334 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMPOWERTRACKING_H__
++#define    __PHYDMPOWERTRACKING_H__
++
++#define POWRTRACKING_VERSION	"1.1"
++
++#define		DPK_DELTA_MAPPING_NUM	13
++#define		index_mapping_HP_NUM	15	
++#define	OFDM_TABLE_SIZE 	43
++#define	CCK_TABLE_SIZE			33
++#define	CCK_TABLE_SIZE_88F	21
++#define TXSCALE_TABLE_SIZE 		37
++#define CCK_TABLE_SIZE_8723D	41
++
++#define TXPWR_TRACK_TABLE_SIZE 	30
++#define DELTA_SWINGIDX_SIZE     30
++#define DELTA_SWINTSSI_SIZE     61
++#define BAND_NUM 				4
++
++#define AVG_THERMAL_NUM		8
++#define HP_THERMAL_NUM		8
++#define IQK_MAC_REG_NUM		4
++#define IQK_ADDA_REG_NUM		16
++#define IQK_BB_REG_NUM_MAX	10
++
++#define IQK_BB_REG_NUM		9
++
++
++
++#define IQK_Matrix_REG_NUM	8
++#define IQK_Matrix_Settings_NUM	14+24+21 // Channels_2_4G_NUM + Channels_5G_20M_NUM + Channels_5G
++
++extern	u4Byte OFDMSwingTable[OFDM_TABLE_SIZE];
++extern	u1Byte CCKSwingTable_Ch1_Ch13[CCK_TABLE_SIZE][8];
++extern	u1Byte CCKSwingTable_Ch14 [CCK_TABLE_SIZE][8];
++
++extern	u4Byte OFDMSwingTable_New[OFDM_TABLE_SIZE];
++extern	u1Byte CCKSwingTable_Ch1_Ch13_New[CCK_TABLE_SIZE][8];
++extern	u1Byte CCKSwingTable_Ch14_New [CCK_TABLE_SIZE][8];
++extern	u1Byte CCKSwingTable_Ch1_Ch14_88F[CCK_TABLE_SIZE_88F][16];
++extern	u1Byte CCKSwingTable_Ch1_Ch13_88F[CCK_TABLE_SIZE_88F][16];
++extern	u1Byte CCKSwingTable_Ch14_88F[CCK_TABLE_SIZE_88F][16];
++extern	u4Byte CCKSwingTable_Ch1_Ch14_8723D[CCK_TABLE_SIZE_8723D];
++
++extern  u4Byte TxScalingTable_Jaguar[TXSCALE_TABLE_SIZE];
++
++// <20121018, Kordan> In case fail to read TxPowerTrack.txt, we use the table of 88E as the default table.
++static u1Byte DeltaSwingTableIdx_2GA_P_8188E[] = {0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 4,  4,  4,  4,  4,  4,  5,  5,  7,  7,  8,  8,  8,  9,  9,  9,  9,  9};
++static u1Byte DeltaSwingTableIdx_2GA_N_8188E[] = {0, 0, 0, 2, 2, 3, 3, 4, 4, 4, 4, 5, 5,  6,  6,  7,  7,  7,  7,  8,  8,  9,  9, 10, 10, 10, 11, 11, 11, 11}; 
++
++#define dm_CheckTXPowerTracking 	ODM_TXPowerTrackingCheck
++
++typedef struct _IQK_MATRIX_REGS_SETTING{
++	BOOLEAN 	bIQKDone;
++	s4Byte		Value[3][IQK_Matrix_REG_NUM];
++	BOOLEAN 	bBWIqkResultSaved[3];	
++}IQK_MATRIX_REGS_SETTING,*PIQK_MATRIX_REGS_SETTING;
++
++typedef struct ODM_RF_Calibration_Structure
++{
++	//for tx power tracking
++	
++	u4Byte	RegA24; // for TempCCK
++	s4Byte	RegE94;
++	s4Byte 	RegE9C;
++	s4Byte	RegEB4;
++	s4Byte	RegEBC;	
++
++	u1Byte  	TXPowercount;
++	BOOLEAN bTXPowerTrackingInit; 
++	BOOLEAN bTXPowerTracking;
++	u1Byte  	TxPowerTrackControl; //for mp mode, turn off txpwrtracking as default
++	u1Byte  	TM_Trigger;
++    	u1Byte  	InternalPA5G[2];	//pathA / pathB
++	
++	u1Byte  	ThermalMeter[2];    // ThermalMeter, index 0 for RFIC0, and 1 for RFIC1
++	u1Byte  	ThermalValue;
++	u1Byte  	ThermalValue_LCK;
++	u1Byte  	ThermalValue_IQK;
++	u1Byte	ThermalValue_DPK;		
++	u1Byte	ThermalValue_AVG[AVG_THERMAL_NUM];
++	u1Byte	ThermalValue_AVG_index;		
++	u1Byte	ThermalValue_RxGain;
++	u1Byte	ThermalValue_Crystal;
++	u1Byte	ThermalValue_DPKstore;
++	u1Byte	ThermalValue_DPKtrack;
++	BOOLEAN	TxPowerTrackingInProgress;
++	
++	BOOLEAN	bReloadtxpowerindex;	
++	u1Byte 	bRfPiEnable;
++	u4Byte 	TXPowerTrackingCallbackCnt; //cosa add for debug
++
++
++	//------------------------- Tx power Tracking -------------------------//
++	u1Byte 	bCCKinCH14;
++	u1Byte 	CCK_index;
++	u1Byte 	OFDM_index[MAX_RF_PATH];
++	s1Byte	PowerIndexOffset[MAX_RF_PATH];
++	s1Byte	DeltaPowerIndex[MAX_RF_PATH];
++	s1Byte	DeltaPowerIndexLast[MAX_RF_PATH];	
++	BOOLEAN bTxPowerChanged;
++	s1Byte	XtalOffset;
++	s1Byte	XtalOffsetLast;
++		
++	u1Byte 	ThermalValue_HP[HP_THERMAL_NUM];
++	u1Byte 	ThermalValue_HP_index;
++	IQK_MATRIX_REGS_SETTING IQKMatrixRegSetting[IQK_Matrix_Settings_NUM];
++	u1Byte	Delta_LCK;
++	s1Byte  BBSwingDiff2G, BBSwingDiff5G; // Unit: dB
++	u1Byte  DeltaSwingTableIdx_2GCCKA_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKA_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKB_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKB_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKC_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKC_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKD_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKD_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GB_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GB_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GC_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GC_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GD_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GD_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GA_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GA_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GB_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GB_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GC_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GC_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GD_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GD_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTSSITable_2GCCKA[DELTA_SWINTSSI_SIZE];         
++	u1Byte  DeltaSwingTSSITable_2GCCKB[DELTA_SWINTSSI_SIZE];           
++	u1Byte  DeltaSwingTSSITable_2GCCKC[DELTA_SWINTSSI_SIZE];            
++	u1Byte  DeltaSwingTSSITable_2GCCKD[DELTA_SWINTSSI_SIZE];            
++	u1Byte  DeltaSwingTSSITable_2GA[DELTA_SWINTSSI_SIZE];                
++	u1Byte  DeltaSwingTSSITable_2GB[DELTA_SWINTSSI_SIZE];              
++	u1Byte  DeltaSwingTSSITable_2GC[DELTA_SWINTSSI_SIZE];                   
++	u1Byte  DeltaSwingTSSITable_2GD[DELTA_SWINTSSI_SIZE];                
++	u1Byte  DeltaSwingTSSITable_5GA[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTSSITable_5GB[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTSSITable_5GC[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTSSITable_5GD[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	s1Byte  DeltaSwingTableXtal_P[DELTA_SWINGIDX_SIZE];
++	s1Byte  DeltaSwingTableXtal_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_P_8188E[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_N_8188E[DELTA_SWINGIDX_SIZE];
++    
++	u1Byte			BbSwingIdxOfdm[MAX_RF_PATH];
++	u1Byte			BbSwingIdxOfdmCurrent;
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))	
++	u1Byte			BbSwingIdxOfdmBase[MAX_RF_PATH];
++#else
++	u1Byte			BbSwingIdxOfdmBase;
++#endif
++	BOOLEAN		DefaultBbSwingIndexFlag;
++	BOOLEAN			BbSwingFlagOfdm;
++	u1Byte			BbSwingIdxCck;
++	u1Byte			BbSwingIdxCckCurrent;
++	u1Byte			BbSwingIdxCckBase;
++	u1Byte			DefaultOfdmIndex;
++	u1Byte			DefaultCckIndex;	
++	BOOLEAN			BbSwingFlagCck;
++	
++	s1Byte			Absolute_OFDMSwingIdx[MAX_RF_PATH];   
++	s1Byte			Remnant_OFDMSwingIdx[MAX_RF_PATH];   
++	s1Byte			Absolute_CCKSwingIdx[MAX_RF_PATH]; 
++	s1Byte			Remnant_CCKSwingIdx;
++	s1Byte			Modify_TxAGC_Value;       /*Remnat compensate value at TxAGC */
++	BOOLEAN			Modify_TxAGC_Flag_PathA;
++	BOOLEAN			Modify_TxAGC_Flag_PathB;
++	BOOLEAN			Modify_TxAGC_Flag_PathC;
++	BOOLEAN			Modify_TxAGC_Flag_PathD;
++	BOOLEAN			Modify_TxAGC_Flag_PathA_CCK;
++	
++	s1Byte			KfreeOffset[MAX_RF_PATH];
++    
++	//--------------------------------------------------------------------//	
++	
++	//for IQK	
++	u4Byte 	RegC04;
++	u4Byte 	Reg874;
++	u4Byte 	RegC08;
++	u4Byte 	RegB68;
++	u4Byte 	RegB6C;
++	u4Byte 	Reg870;
++	u4Byte 	Reg860;
++	u4Byte 	Reg864;
++	
++	BOOLEAN	bIQKInitialized;
++	BOOLEAN bLCKInProgress;
++	BOOLEAN	bAntennaDetected;
++	BOOLEAN	bNeedIQK;
++	BOOLEAN	bIQKInProgress;	
++	BOOLEAN bIQKPAoff;
++	u1Byte	Delta_IQK;
++	u4Byte	ADDA_backup[IQK_ADDA_REG_NUM];
++	u4Byte	IQK_MAC_backup[IQK_MAC_REG_NUM];
++	u4Byte	IQK_BB_backup_recover[9];
++	u4Byte	IQK_BB_backup[IQK_BB_REG_NUM];	
++	u4Byte 	TxIQC_8723B[2][3][2]; // { {S1: 0xc94, 0xc80, 0xc4c} , {S0: 0xc9c, 0xc88, 0xc4c}}
++	u4Byte 	RxIQC_8723B[2][2][2]; // { {S1: 0xc14, 0xca0} ,           {S0: 0xc14, 0xca0}}
++	u4Byte	TxIQC_8703B[3][2];	/* { {S1: 0xc94, 0xc80, 0xc4c} , {S0: 0xc9c, 0xc88, 0xc4c}}*/
++	u4Byte	RxIQC_8703B[2][2];	/* { {S1: 0xc14, 0xca0} ,           {S0: 0xc14, 0xca0}}*/
++	u4Byte	TxIQC_8723D[2][3][2];	/* { {S1: 0xc94, 0xc80, 0xc4c} , {S0: 0xc9c, 0xc88, 0xc4c}}*/
++	u4Byte	RxIQC_8723D[2][2][2];	/* { {S1: 0xc14, 0xca0} ,           {S0: 0xc14, 0xca0}}*/
++
++	u1Byte	IQKstep;
++	u1Byte	Kcount;
++	u1Byte	retry_count[4][2]; /* [4]: path ABCD, [2] TXK, RXK */
++	BOOLEAN	isMPmode;
++
++	
++
++	// <James> IQK time measurement 
++	u8Byte	IQK_StartTime;
++	u8Byte	IQK_ProgressingTime;
++	u8Byte	IQK_TotalProgressingTime;
++
++	u4Byte  LOK_Result;
++
++	//for APK
++	u4Byte 	APKoutput[2][2]; //path A/B; output1_1a/output1_2a
++	u1Byte 	bAPKdone;
++	u1Byte 	bAPKThermalMeterIgnore;
++	
++	// DPK
++	BOOLEAN bDPKFail;	
++	u1Byte 	bDPdone;
++	u1Byte 	bDPPathAOK;
++	u1Byte 	bDPPathBOK;
++
++	u4Byte	TxLOK[2];
++	u4Byte  DpkTxAGC;
++	s4Byte  DpkGain;
++	u4Byte  DpkThermal[4];
++	s1Byte Modify_TxAGC_Value_OFDM;
++	s1Byte Modify_TxAGC_Value_CCK;
++
++	/*Add by Yuchen for Kfree Phydm*/
++	u1Byte			RegRfKFreeEnable;	/*for registry*/
++	u1Byte			RfKFreeEnable;		/*for efuse enable check*/
++	
++}ODM_RF_CAL_T,*PODM_RF_CAL_T;
++
++
++VOID	
++ODM_TXPowerTrackingCheck(
++	IN 	PVOID	 	pDM_VOID
++	);
++
++
++VOID
++odm_TXPowerTrackingInit(
++	IN 	PVOID	 	pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingCheckAP(
++	IN 	PVOID	 	pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingThermalMeterInit(
++	IN 	PVOID	 	pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingInit(
++	IN 	PVOID	 	pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingCheckMP(
++	IN 	PVOID	 	pDM_VOID
++	);
++
++
++VOID
++odm_TXPowerTrackingCheckCE(
++	IN 	PVOID	 	pDM_VOID
++	);
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_WIN)) 
++
++VOID 
++odm_TXPowerTrackingCallbackThermalMeter92C(
++            IN PADAPTER	Adapter
++            );
++
++VOID
++odm_TXPowerTrackingCallbackRXGainThermalMeter92D(
++	IN PADAPTER 	Adapter
++	);
++
++VOID
++odm_TXPowerTrackingCallbackThermalMeter92D(
++            IN PADAPTER	Adapter
++            );
++
++VOID
++odm_TXPowerTrackingDirectCall92C(
++            IN	PADAPTER		Adapter
++            );
++
++VOID
++odm_TXPowerTrackingThermalMeterCheck(
++	IN	PADAPTER		Adapter
++	);
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_powertracking_win.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_powertracking_win.c
+new file mode 100644
+index 0000000..9935007
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_powertracking_win.c
+@@ -0,0 +1,788 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++//============================================================
++// Global var
++//============================================================
++
++u4Byte	OFDMSwingTable[OFDM_TABLE_SIZE] = {
++	0x7f8001fe,	// 0, +6.0dB
++	0x788001e2,	// 1, +5.5dB
++	0x71c001c7,	// 2, +5.0dB
++	0x6b8001ae,	// 3, +4.5dB
++	0x65400195,	// 4, +4.0dB
++	0x5fc0017f,	// 5, +3.5dB
++	0x5a400169,	// 6, +3.0dB
++	0x55400155,	// 7, +2.5dB
++	0x50800142,	// 8, +2.0dB
++	0x4c000130,	// 9, +1.5dB
++	0x47c0011f,	// 10, +1.0dB
++	0x43c0010f,	// 11, +0.5dB
++	0x40000100,	// 12, +0dB
++	0x3c8000f2,	// 13, -0.5dB
++	0x390000e4,	// 14, -1.0dB
++	0x35c000d7,	// 15, -1.5dB
++	0x32c000cb,	// 16, -2.0dB
++	0x300000c0,	// 17, -2.5dB
++	0x2d4000b5,	// 18, -3.0dB
++	0x2ac000ab,	// 19, -3.5dB
++	0x288000a2,	// 20, -4.0dB
++	0x26000098,	// 21, -4.5dB
++	0x24000090,	// 22, -5.0dB
++	0x22000088,	// 23, -5.5dB
++	0x20000080,	// 24, -6.0dB
++	0x1e400079,	// 25, -6.5dB
++	0x1c800072,	// 26, -7.0dB
++	0x1b00006c,	// 27. -7.5dB
++	0x19800066,	// 28, -8.0dB
++	0x18000060,	// 29, -8.5dB
++	0x16c0005b,	// 30, -9.0dB
++	0x15800056,	// 31, -9.5dB
++	0x14400051,	// 32, -10.0dB
++	0x1300004c,	// 33, -10.5dB
++	0x12000048,	// 34, -11.0dB
++	0x11000044,	// 35, -11.5dB
++	0x10000040,	// 36, -12.0dB
++};
++
++u1Byte	CCKSwingTable_Ch1_Ch13[CCK_TABLE_SIZE][8] = {
++	{0x36, 0x35, 0x2e, 0x25, 0x1c, 0x12, 0x09, 0x04},	// 0, +0dB
++	{0x33, 0x32, 0x2b, 0x23, 0x1a, 0x11, 0x08, 0x04},	// 1, -0.5dB
++	{0x30, 0x2f, 0x29, 0x21, 0x19, 0x10, 0x08, 0x03},	// 2, -1.0dB
++	{0x2d, 0x2d, 0x27, 0x1f, 0x18, 0x0f, 0x08, 0x03},	// 3, -1.5dB
++	{0x2b, 0x2a, 0x25, 0x1e, 0x16, 0x0e, 0x07, 0x03},	// 4, -2.0dB 
++	{0x28, 0x28, 0x22, 0x1c, 0x15, 0x0d, 0x07, 0x03},	// 5, -2.5dB
++	{0x26, 0x25, 0x21, 0x1b, 0x14, 0x0d, 0x06, 0x03},	// 6, -3.0dB
++	{0x24, 0x23, 0x1f, 0x19, 0x13, 0x0c, 0x06, 0x03},	// 7, -3.5dB
++	{0x22, 0x21, 0x1d, 0x18, 0x11, 0x0b, 0x06, 0x02},	// 8, -4.0dB 
++	{0x20, 0x20, 0x1b, 0x16, 0x11, 0x08, 0x05, 0x02},	// 9, -4.5dB
++	{0x1f, 0x1e, 0x1a, 0x15, 0x10, 0x0a, 0x05, 0x02},	// 10, -5.0dB 
++	{0x1d, 0x1c, 0x18, 0x14, 0x0f, 0x0a, 0x05, 0x02},	// 11, -5.5dB
++	{0x1b, 0x1a, 0x17, 0x13, 0x0e, 0x09, 0x04, 0x02},	// 12, -6.0dB <== default
++	{0x1a, 0x19, 0x16, 0x12, 0x0d, 0x09, 0x04, 0x02},	// 13, -6.5dB
++	{0x18, 0x17, 0x15, 0x11, 0x0c, 0x08, 0x04, 0x02},	// 14, -7.0dB 
++	{0x17, 0x16, 0x13, 0x10, 0x0c, 0x08, 0x04, 0x02},	// 15, -7.5dB
++	{0x16, 0x15, 0x12, 0x0f, 0x0b, 0x07, 0x04, 0x01},	// 16, -8.0dB 
++	{0x14, 0x14, 0x11, 0x0e, 0x0b, 0x07, 0x03, 0x02},	// 17, -8.5dB
++	{0x13, 0x13, 0x10, 0x0d, 0x0a, 0x06, 0x03, 0x01},	// 18, -9.0dB 
++	{0x12, 0x12, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	// 19, -9.5dB
++	{0x11, 0x11, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	// 20, -10.0dB
++	{0x10, 0x10, 0x0e, 0x0b, 0x08, 0x05, 0x03, 0x01},	// 21, -10.5dB
++	{0x0f, 0x0f, 0x0d, 0x0b, 0x08, 0x05, 0x03, 0x01},	// 22, -11.0dB
++	{0x0e, 0x0e, 0x0c, 0x0a, 0x08, 0x05, 0x02, 0x01},	// 23, -11.5dB
++	{0x0d, 0x0d, 0x0c, 0x0a, 0x07, 0x05, 0x02, 0x01},	// 24, -12.0dB
++	{0x0d, 0x0c, 0x0b, 0x09, 0x07, 0x04, 0x02, 0x01},	// 25, -12.5dB
++	{0x0c, 0x0c, 0x0a, 0x09, 0x06, 0x04, 0x02, 0x01},	// 26, -13.0dB
++	{0x0b, 0x0b, 0x0a, 0x08, 0x06, 0x04, 0x02, 0x01},	// 27, -13.5dB
++	{0x0b, 0x0a, 0x09, 0x08, 0x06, 0x04, 0x02, 0x01},	// 28, -14.0dB
++	{0x0a, 0x0a, 0x09, 0x07, 0x05, 0x03, 0x02, 0x01},	// 29, -14.5dB
++	{0x0a, 0x09, 0x08, 0x07, 0x05, 0x03, 0x02, 0x01},	// 30, -15.0dB
++	{0x09, 0x09, 0x08, 0x06, 0x05, 0x03, 0x01, 0x01},	// 31, -15.5dB
++	{0x09, 0x08, 0x07, 0x06, 0x04, 0x03, 0x01, 0x01}	// 32, -16.0dB
++};
++
++
++u1Byte	CCKSwingTable_Ch14[CCK_TABLE_SIZE][8] = {
++	{0x36, 0x35, 0x2e, 0x1b, 0x00, 0x00, 0x00, 0x00},	// 0, +0dB  
++	{0x33, 0x32, 0x2b, 0x19, 0x00, 0x00, 0x00, 0x00},	// 1, -0.5dB 
++	{0x30, 0x2f, 0x29, 0x18, 0x00, 0x00, 0x00, 0x00},	// 2, -1.0dB  
++	{0x2d, 0x2d, 0x17, 0x17, 0x00, 0x00, 0x00, 0x00},	// 3, -1.5dB
++	{0x2b, 0x2a, 0x25, 0x15, 0x00, 0x00, 0x00, 0x00},	// 4, -2.0dB  
++	{0x28, 0x28, 0x24, 0x14, 0x00, 0x00, 0x00, 0x00},	// 5, -2.5dB
++	{0x26, 0x25, 0x21, 0x13, 0x00, 0x00, 0x00, 0x00},	// 6, -3.0dB  
++	{0x24, 0x23, 0x1f, 0x12, 0x00, 0x00, 0x00, 0x00},	// 7, -3.5dB  
++	{0x22, 0x21, 0x1d, 0x11, 0x00, 0x00, 0x00, 0x00},	// 8, -4.0dB  
++	{0x20, 0x20, 0x1b, 0x10, 0x00, 0x00, 0x00, 0x00},	// 9, -4.5dB
++	{0x1f, 0x1e, 0x1a, 0x0f, 0x00, 0x00, 0x00, 0x00},	// 10, -5.0dB  
++	{0x1d, 0x1c, 0x18, 0x0e, 0x00, 0x00, 0x00, 0x00},	// 11, -5.5dB
++	{0x1b, 0x1a, 0x17, 0x0e, 0x00, 0x00, 0x00, 0x00},	// 12, -6.0dB  <== default
++	{0x1a, 0x19, 0x16, 0x0d, 0x00, 0x00, 0x00, 0x00},	// 13, -6.5dB 
++	{0x18, 0x17, 0x15, 0x0c, 0x00, 0x00, 0x00, 0x00},	// 14, -7.0dB  
++	{0x17, 0x16, 0x13, 0x0b, 0x00, 0x00, 0x00, 0x00},	// 15, -7.5dB
++	{0x16, 0x15, 0x12, 0x0b, 0x00, 0x00, 0x00, 0x00},	// 16, -8.0dB  
++	{0x14, 0x14, 0x11, 0x0a, 0x00, 0x00, 0x00, 0x00},	// 17, -8.5dB
++	{0x13, 0x13, 0x10, 0x0a, 0x00, 0x00, 0x00, 0x00},	// 18, -9.0dB  
++	{0x12, 0x12, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	// 19, -9.5dB
++	{0x11, 0x11, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	// 20, -10.0dB
++	{0x10, 0x10, 0x0e, 0x08, 0x00, 0x00, 0x00, 0x00},	// 21, -10.5dB
++	{0x0f, 0x0f, 0x0d, 0x08, 0x00, 0x00, 0x00, 0x00},	// 22, -11.0dB
++	{0x0e, 0x0e, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	// 23, -11.5dB
++	{0x0d, 0x0d, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	// 24, -12.0dB
++	{0x0d, 0x0c, 0x0b, 0x06, 0x00, 0x00, 0x00, 0x00},	// 25, -12.5dB
++	{0x0c, 0x0c, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	// 26, -13.0dB
++	{0x0b, 0x0b, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	// 27, -13.5dB
++	{0x0b, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	// 28, -14.0dB
++	{0x0a, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	// 29, -14.5dB
++	{0x0a, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	// 30, -15.0dB
++	{0x09, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	// 31, -15.5dB
++	{0x09, 0x08, 0x07, 0x04, 0x00, 0x00, 0x00, 0x00}	// 32, -16.0dB
++};
++
++
++u4Byte OFDMSwingTable_New[OFDM_TABLE_SIZE] = {
++	0x0b40002d, // 0,  -15.0dB	
++	0x0c000030, // 1,  -14.5dB
++	0x0cc00033, // 2,  -14.0dB
++	0x0d800036, // 3,  -13.5dB
++	0x0e400039, // 4,  -13.0dB    
++	0x0f00003c, // 5,  -12.5dB
++	0x10000040, // 6,  -12.0dB
++	0x11000044, // 7,  -11.5dB
++	0x12000048, // 8,  -11.0dB
++	0x1300004c, // 9,  -10.5dB
++	0x14400051, // 10, -10.0dB
++	0x15800056, // 11, -9.5dB
++	0x16c0005b, // 12, -9.0dB
++	0x18000060, // 13, -8.5dB
++	0x19800066, // 14, -8.0dB
++	0x1b00006c, // 15, -7.5dB
++	0x1c800072, // 16, -7.0dB
++	0x1e400079, // 17, -6.5dB
++	0x20000080, // 18, -6.0dB
++	0x22000088, // 19, -5.5dB
++	0x24000090, // 20, -5.0dB
++	0x26000098, // 21, -4.5dB
++	0x288000a2, // 22, -4.0dB
++	0x2ac000ab, // 23, -3.5dB
++	0x2d4000b5, // 24, -3.0dB
++	0x300000c0, // 25, -2.5dB
++	0x32c000cb, // 26, -2.0dB
++	0x35c000d7, // 27, -1.5dB
++	0x390000e4, // 28, -1.0dB
++	0x3c8000f2, // 29, -0.5dB
++	0x40000100, // 30, +0dB
++	0x43c0010f, // 31, +0.5dB
++	0x47c0011f, // 32, +1.0dB
++	0x4c000130, // 33, +1.5dB
++	0x50800142, // 34, +2.0dB
++	0x55400155, // 35, +2.5dB
++	0x5a400169, // 36, +3.0dB
++	0x5fc0017f, // 37, +3.5dB
++	0x65400195, // 38, +4.0dB
++	0x6b8001ae, // 39, +4.5dB
++	0x71c001c7, // 40, +5.0dB
++	0x788001e2, // 41, +5.5dB
++	0x7f8001fe  // 42, +6.0dB
++};               
++
++
++u1Byte CCKSwingTable_Ch1_Ch14_88F[CCK_TABLE_SIZE_88F][16] = {
++{0x44, 0x42, 0x3C, 0x33, 0x28, 0x1C, 0x13, 0x0B, 0x05, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-16dB*/
++{0x48, 0x46, 0x3F, 0x36, 0x2A, 0x1E, 0x14, 0x0B, 0x05, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15.5dB*/
++{0x4D, 0x4A, 0x43, 0x39, 0x2C, 0x20, 0x15, 0x0C, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15dB*/
++{0x51, 0x4F, 0x47, 0x3C, 0x2F, 0x22, 0x16, 0x0D, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14.5dB*/
++{0x56, 0x53, 0x4B, 0x40, 0x32, 0x24, 0x17, 0x0E, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14dB*/
++{0x5B, 0x58, 0x50, 0x43, 0x35, 0x26, 0x19, 0x0E, 0x07, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13.5dB*/
++{0x60, 0x5D, 0x54, 0x47, 0x38, 0x28, 0x1A, 0x0F, 0x07, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13dB*/
++{0x66, 0x63, 0x59, 0x4C, 0x3B, 0x2B, 0x1C, 0x10, 0x08, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12.5dB*/
++{0x6C, 0x69, 0x5F, 0x50, 0x3F, 0x2D, 0x1E, 0x11, 0x08, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12dB*/
++{0x73, 0x6F, 0x64, 0x55, 0x42, 0x30, 0x1F, 0x12, 0x08, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11.5dB*/
++{0x79, 0x76, 0x6A, 0x5A, 0x46, 0x33, 0x21, 0x13, 0x09, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11dB*/
++{0x81, 0x7C, 0x71, 0x5F, 0x4A, 0x36, 0x23, 0x14, 0x0A, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10.5dB*/
++{0x88, 0x84, 0x77, 0x65, 0x4F, 0x39, 0x25, 0x15, 0x0A, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10dB*/
++{0x90, 0x8C, 0x7E, 0x6B, 0x54, 0x3C, 0x27, 0x17, 0x0B, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9.5dB*/
++{0x99, 0x94, 0x86, 0x71, 0x58, 0x40, 0x2A, 0x18, 0x0B, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9dB*/
++{0xA2, 0x9D, 0x8E, 0x78, 0x5E, 0x43, 0x2C, 0x19, 0x0C, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8.5dB*/
++{0xAC, 0xA6, 0x96, 0x7F, 0x63, 0x47, 0x2F, 0x1B, 0x0D, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8dB*/
++{0xB6, 0xB0, 0x9F, 0x87, 0x69, 0x4C, 0x32, 0x1D, 0x0D, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7.5dB*/
++{0xC1, 0xBA, 0xA8, 0x8F, 0x6F, 0x50, 0x35, 0x1E, 0x0E, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7dB*/
++{0xCC, 0xC5, 0xB2, 0x97, 0x76, 0x55, 0x38, 0x20, 0x0F, 0x05, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-6.5dB*/
++{0xD8, 0xD1, 0xBD, 0xA0, 0x7D, 0x5A, 0x3B, 0x22, 0x10, 0x05, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}     /*-6dB*/
++};
++
++
++u1Byte CCKSwingTable_Ch1_Ch13_88F[CCK_TABLE_SIZE_88F][16] = {
++{0x44, 0x42, 0x3C, 0x33, 0x28, 0x1C, 0x13, 0x0B, 0x05, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-16dB*/
++{0x48, 0x46, 0x3F, 0x36, 0x2A, 0x1E, 0x14, 0x0B, 0x05, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15.5dB*/
++{0x4D, 0x4A, 0x43, 0x39, 0x2C, 0x20, 0x15, 0x0C, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15dB*/
++{0x51, 0x4F, 0x47, 0x3C, 0x2F, 0x22, 0x16, 0x0D, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14.5dB*/
++{0x56, 0x53, 0x4B, 0x40, 0x32, 0x24, 0x17, 0x0E, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14dB*/
++{0x5B, 0x58, 0x50, 0x43, 0x35, 0x26, 0x19, 0x0E, 0x07, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13.5dB*/
++{0x60, 0x5D, 0x54, 0x47, 0x38, 0x28, 0x1A, 0x0F, 0x07, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13dB*/
++{0x66, 0x63, 0x59, 0x4C, 0x3B, 0x2B, 0x1C, 0x10, 0x08, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12.5dB*/
++{0x6C, 0x69, 0x5F, 0x50, 0x3F, 0x2D, 0x1E, 0x11, 0x08, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12dB*/
++{0x73, 0x6F, 0x64, 0x55, 0x42, 0x30, 0x1F, 0x12, 0x08, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11.5dB*/
++{0x79, 0x76, 0x6A, 0x5A, 0x46, 0x33, 0x21, 0x13, 0x09, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11dB*/
++{0x81, 0x7C, 0x71, 0x5F, 0x4A, 0x36, 0x23, 0x14, 0x0A, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10.5dB*/
++{0x88, 0x84, 0x77, 0x65, 0x4F, 0x39, 0x25, 0x15, 0x0A, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10dB*/
++{0x90, 0x8C, 0x7E, 0x6B, 0x54, 0x3C, 0x27, 0x17, 0x0B, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9.5dB*/
++{0x99, 0x94, 0x86, 0x71, 0x58, 0x40, 0x2A, 0x18, 0x0B, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9dB*/
++{0xA2, 0x9D, 0x8E, 0x78, 0x5E, 0x43, 0x2C, 0x19, 0x0C, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8.5dB*/
++{0xAC, 0xA6, 0x96, 0x7F, 0x63, 0x47, 0x2F, 0x1B, 0x0D, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8dB*/
++{0xB6, 0xB0, 0x9F, 0x87, 0x69, 0x4C, 0x32, 0x1D, 0x0D, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7.5dB*/
++{0xC1, 0xBA, 0xA8, 0x8F, 0x6F, 0x50, 0x35, 0x1E, 0x0E, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7dB*/
++{0xCC, 0xC5, 0xB2, 0x97, 0x76, 0x55, 0x38, 0x20, 0x0F, 0x05, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-6.5dB*/
++{0xD8, 0xD1, 0xBD, 0xA0, 0x7D, 0x5A, 0x3B, 0x22, 0x10, 0x05, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}     /*-6dB*/
++};
++
++
++u1Byte CCKSwingTable_Ch14_88F[CCK_TABLE_SIZE_88F][16] = {
++{0x44,	 0x42, 0x3C, 0x28, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-16dB*/
++{0x48, 0x46, 0x3F, 0x2A, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15.5dB*/
++{0x4D, 0x4A, 0x43, 0x2C, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-15dB*/
++{0x51, 0x4F, 0x47, 0x2F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},	    /*-14.5dB*/
++{0x56, 0x53, 0x4B, 0x32, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-14dB*/
++{0x5B, 0x58, 0x50, 0x35, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13.5dB*/
++{0x60, 0x5D, 0x54, 0x38, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-13dB*/
++{0x66, 0x63, 0x59, 0x3B, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12.5dB*/
++{0x6C, 0x69, 0x5F, 0x3F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-12dB*/
++{0x73, 0x6F, 0x64, 0x42, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11.5dB*/
++{0x79, 0x76, 0x6A, 0x46, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-11dB*/
++{0x81, 0x7C, 0x71, 0x4A, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10.5dB*/
++{0x88, 0x84, 0x77, 0x4F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-10dB*/
++{0x90, 0x8C, 0x7E, 0x54, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9.5dB*/
++{0x99, 0x94, 0x86, 0x58, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-9dB*/
++{0xA2, 0x9D, 0x8E, 0x5E, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8.5dB*/
++{0xAC, 0xA6, 0x96, 0x63, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-8dB*/
++{0xB6, 0xB0, 0x9F, 0x69, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7.5dB*/
++{0xC1, 0xBA, 0xA8, 0x6F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-7dB*/
++{0xCC, 0xC5, 0xB2, 0x76, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},    /*-6.5dB*/
++{0xD8, 0xD1, 0xBD, 0x7D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}     /*-6dB*/
++};
++
++
++
++
++u1Byte CCKSwingTable_Ch1_Ch13_New[CCK_TABLE_SIZE][8] = {
++	{0x09, 0x08, 0x07, 0x06, 0x04, 0x03, 0x01, 0x01},	//  0, -16.0dB
++	{0x09, 0x09, 0x08, 0x06, 0x05, 0x03, 0x01, 0x01},	//  1, -15.5dB
++	{0x0a, 0x09, 0x08, 0x07, 0x05, 0x03, 0x02, 0x01},	//  2, -15.0dB
++	{0x0a, 0x0a, 0x09, 0x07, 0x05, 0x03, 0x02, 0x01},	//  3, -14.5dB
++	{0x0b, 0x0a, 0x09, 0x08, 0x06, 0x04, 0x02, 0x01},	//  4, -14.0dB
++	{0x0b, 0x0b, 0x0a, 0x08, 0x06, 0x04, 0x02, 0x01},	//  5, -13.5dB
++	{0x0c, 0x0c, 0x0a, 0x09, 0x06, 0x04, 0x02, 0x01},	//  6, -13.0dB
++	{0x0d, 0x0c, 0x0b, 0x09, 0x07, 0x04, 0x02, 0x01},	//  7, -12.5dB
++	{0x0d, 0x0d, 0x0c, 0x0a, 0x07, 0x05, 0x02, 0x01},	//  8, -12.0dB
++	{0x0e, 0x0e, 0x0c, 0x0a, 0x08, 0x05, 0x02, 0x01},	//  9, -11.5dB
++	{0x0f, 0x0f, 0x0d, 0x0b, 0x08, 0x05, 0x03, 0x01},	// 10, -11.0dB
++	{0x10, 0x10, 0x0e, 0x0b, 0x08, 0x05, 0x03, 0x01},	// 11, -10.5dB
++	{0x11, 0x11, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	// 12, -10.0dB
++	{0x12, 0x12, 0x0f, 0x0c, 0x09, 0x06, 0x03, 0x01},	// 13, -9.5dB
++	{0x13, 0x13, 0x10, 0x0d, 0x0a, 0x06, 0x03, 0x01},	// 14, -9.0dB 
++	{0x14, 0x14, 0x11, 0x0e, 0x0b, 0x07, 0x03, 0x02},	// 15, -8.5dB
++	{0x16, 0x15, 0x12, 0x0f, 0x0b, 0x07, 0x04, 0x01},	// 16, -8.0dB 
++	{0x17, 0x16, 0x13, 0x10, 0x0c, 0x08, 0x04, 0x02},	// 17, -7.5dB
++	{0x18, 0x17, 0x15, 0x11, 0x0c, 0x08, 0x04, 0x02},	// 18, -7.0dB 
++	{0x1a, 0x19, 0x16, 0x12, 0x0d, 0x09, 0x04, 0x02},	// 19, -6.5dB
++    {0x1b, 0x1a, 0x17, 0x13, 0x0e, 0x09, 0x04, 0x02},	// 20, -6.0dB 
++	{0x1d, 0x1c, 0x18, 0x14, 0x0f, 0x0a, 0x05, 0x02},	// 21, -5.5dB
++	{0x1f, 0x1e, 0x1a, 0x15, 0x10, 0x0a, 0x05, 0x02},	// 22, -5.0dB 
++	{0x20, 0x20, 0x1b, 0x16, 0x11, 0x08, 0x05, 0x02},	// 23, -4.5dB
++	{0x22, 0x21, 0x1d, 0x18, 0x11, 0x0b, 0x06, 0x02},	// 24, -4.0dB 
++	{0x24, 0x23, 0x1f, 0x19, 0x13, 0x0c, 0x06, 0x03},	// 25, -3.5dB
++	{0x26, 0x25, 0x21, 0x1b, 0x14, 0x0d, 0x06, 0x03},	// 26, -3.0dB
++	{0x28, 0x28, 0x22, 0x1c, 0x15, 0x0d, 0x07, 0x03},	// 27, -2.5dB
++	{0x2b, 0x2a, 0x25, 0x1e, 0x16, 0x0e, 0x07, 0x03},	// 28, -2.0dB 
++	{0x2d, 0x2d, 0x27, 0x1f, 0x18, 0x0f, 0x08, 0x03},	// 29, -1.5dB
++	{0x30, 0x2f, 0x29, 0x21, 0x19, 0x10, 0x08, 0x03},	// 30, -1.0dB
++	{0x33, 0x32, 0x2b, 0x23, 0x1a, 0x11, 0x08, 0x04},	// 31, -0.5dB
++	{0x36, 0x35, 0x2e, 0x25, 0x1c, 0x12, 0x09, 0x04} 	// 32, +0dB
++};                                                                  
++
++
++u1Byte CCKSwingTable_Ch14_New[CCK_TABLE_SIZE][8]= {
++	{0x09, 0x08, 0x07, 0x04, 0x00, 0x00, 0x00, 0x00},	//  0, -16.0dB
++	{0x09, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	//  1, -15.5dB
++	{0x0a, 0x09, 0x08, 0x05, 0x00, 0x00, 0x00, 0x00},	//  2, -15.0dB
++	{0x0a, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	//  3, -14.5dB
++	{0x0b, 0x0a, 0x09, 0x05, 0x00, 0x00, 0x00, 0x00},	//  4, -14.0dB
++	{0x0b, 0x0b, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	//  5, -13.5dB
++	{0x0c, 0x0c, 0x0a, 0x06, 0x00, 0x00, 0x00, 0x00},	//  6, -13.0dB
++	{0x0d, 0x0c, 0x0b, 0x06, 0x00, 0x00, 0x00, 0x00},	//  7, -12.5dB
++	{0x0d, 0x0d, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	//  8, -12.0dB
++	{0x0e, 0x0e, 0x0c, 0x07, 0x00, 0x00, 0x00, 0x00},	//  9, -11.5dB
++	{0x0f, 0x0f, 0x0d, 0x08, 0x00, 0x00, 0x00, 0x00},	// 10, -11.0dB
++	{0x10, 0x10, 0x0e, 0x08, 0x00, 0x00, 0x00, 0x00},	// 11, -10.5dB
++	{0x11, 0x11, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	// 12, -10.0dB
++	{0x12, 0x12, 0x0f, 0x09, 0x00, 0x00, 0x00, 0x00},	// 13, -9.5dB
++	{0x13, 0x13, 0x10, 0x0a, 0x00, 0x00, 0x00, 0x00},	// 14, -9.0dB  
++	{0x14, 0x14, 0x11, 0x0a, 0x00, 0x00, 0x00, 0x00},	// 15, -8.5dB
++	{0x16, 0x15, 0x12, 0x0b, 0x00, 0x00, 0x00, 0x00},	// 16, -8.0dB  
++	{0x17, 0x16, 0x13, 0x0b, 0x00, 0x00, 0x00, 0x00},	// 17, -7.5dB
++	{0x18, 0x17, 0x15, 0x0c, 0x00, 0x00, 0x00, 0x00},	// 18, -7.0dB  
++	{0x1a, 0x19, 0x16, 0x0d, 0x00, 0x00, 0x00, 0x00},	// 19, -6.5dB 
++	{0x1b, 0x1a, 0x17, 0x0e, 0x00, 0x00, 0x00, 0x00},	// 20, -6.0dB  
++	{0x1d, 0x1c, 0x18, 0x0e, 0x00, 0x00, 0x00, 0x00},	// 21, -5.5dB
++	{0x1f, 0x1e, 0x1a, 0x0f, 0x00, 0x00, 0x00, 0x00},	// 22, -5.0dB  
++	{0x20, 0x20, 0x1b, 0x10, 0x00, 0x00, 0x00, 0x00},	// 23, -4.5dB
++	{0x22, 0x21, 0x1d, 0x11, 0x00, 0x00, 0x00, 0x00},	// 24, -4.0dB  
++	{0x24, 0x23, 0x1f, 0x12, 0x00, 0x00, 0x00, 0x00},	// 25, -3.5dB  
++	{0x26, 0x25, 0x21, 0x13, 0x00, 0x00, 0x00, 0x00},	// 26, -3.0dB  
++	{0x28, 0x28, 0x24, 0x14, 0x00, 0x00, 0x00, 0x00},	// 27, -2.5dB
++	{0x2b, 0x2a, 0x25, 0x15, 0x00, 0x00, 0x00, 0x00},	// 28, -2.0dB  
++	{0x2d, 0x2d, 0x17, 0x17, 0x00, 0x00, 0x00, 0x00},	// 29, -1.5dB
++	{0x30, 0x2f, 0x29, 0x18, 0x00, 0x00, 0x00, 0x00},	// 30, -1.0dB  
++	{0x33, 0x32, 0x2b, 0x19, 0x00, 0x00, 0x00, 0x00},	// 31, -0.5dB 
++	{0x36, 0x35, 0x2e, 0x1b, 0x00, 0x00, 0x00, 0x00} 	// 32, +0dB	
++};
++u4Byte CCKSwingTable_Ch1_Ch14_8723D[CCK_TABLE_SIZE_8723D] = {
++	0x0CD,         
++	0x0D9,        
++	0x0E6,         
++	0x0F3,      
++	0x102,         
++	0x111,         
++	0x121,         
++	0x132,        
++	0x144,         
++	0x158,      
++	0x16C,        
++	0x182,        
++	0x198,        
++	0x1B1,        
++	0x1CA,      
++	0x1E5,         
++	0x202,        
++	0x221,        
++	0x241,        
++	0x263,        
++	0x287,       
++	0x2AE,        
++	0x2D6,         
++	0x301,        
++	0x32F,       
++	0x35F,       
++	0x392,        
++	0x3C9,        
++	0x402,        
++	0x43F,      
++	0x47F,      
++	0x4C3,        
++	0x50C,         
++	0x558,      
++	0x5A9,         
++	0x5FF,         
++	0x65A,        
++	0x6BA,       
++	0x720,        
++	0x78C,        
++	0x7FF,        
++};
++
++
++u4Byte TxScalingTable_Jaguar[TXSCALE_TABLE_SIZE] =
++{
++	0x081, // 0,  -12.0dB
++	0x088, // 1,  -11.5dB
++	0x090, // 2,  -11.0dB
++	0x099, // 3,  -10.5dB
++	0x0A2, // 4,  -10.0dB
++	0x0AC, // 5,  -9.5dB
++	0x0B6, // 6,  -9.0dB
++	0x0C0, // 7,  -8.5dB
++	0x0CC, // 8,  -8.0dB
++	0x0D8, // 9,  -7.5dB
++	0x0E5, // 10, -7.0dB
++	0x0F2, // 11, -6.5dB
++	0x101, // 12, -6.0dB
++	0x110, // 13, -5.5dB
++	0x120, // 14, -5.0dB
++	0x131, // 15, -4.5dB
++	0x143, // 16, -4.0dB
++	0x156, // 17, -3.5dB
++	0x16A, // 18, -3.0dB
++	0x180, // 19, -2.5dB
++	0x197, // 20, -2.0dB
++	0x1AF, // 21, -1.5dB
++	0x1C8, // 22, -1.0dB
++	0x1E3, // 23, -0.5dB
++	0x200, // 24, +0  dB
++	0x21E, // 25, +0.5dB
++	0x23E, // 26, +1.0dB
++	0x261, // 27, +1.5dB
++	0x285, // 28, +2.0dB
++	0x2AB, // 29, +2.5dB
++	0x2D3, // 30, +3.0dB
++	0x2FE, // 31, +3.5dB
++	0x32B, // 32, +4.0dB
++	0x35C, // 33, +4.5dB
++	0x38E, // 34, +5.0dB
++	0x3C4, // 35, +5.5dB
++	0x3FE  // 36, +6.0dB	
++};
++u1Byte DeltaSwingTableIdx_2GA_P_DEFAULT[DELTA_SWINGIDX_SIZE] = {0, 0, 0, 0, 1, 1, 2, 2, 3, 3
++, 4, 4, 4,  4,  4,  4,  4,  4,  5,  5,  7,  7,  8,  8,  8,  9,  9,  9,  9,  9};
++u1Byte DeltaSwingTableIdx_2GA_N_DEFAULT[DELTA_SWINGIDX_SIZE] = {0, 0, 0, 2, 2, 3, 3, 4, 4, 4
++, 4, 5, 5,  6,  6,  7,  7,  7,  7,  8,  8,  9,  9, 10, 10, 10, 11, 11, 11, 11}; 
++
++
++#ifdef AP_BUILD_WORKAROUND
++
++unsigned int TxPwrTrk_OFDM_SwingTbl[TxPwrTrk_OFDM_SwingTbl_Len] = {
++	/*  +6.0dB */ 0x7f8001fe,
++	/*  +5.5dB */ 0x788001e2,
++	/*  +5.0dB */ 0x71c001c7,
++	/*  +4.5dB */ 0x6b8001ae,
++	/*  +4.0dB */ 0x65400195,
++	/*  +3.5dB */ 0x5fc0017f,
++	/*  +3.0dB */ 0x5a400169,
++	/*  +2.5dB */ 0x55400155,
++	/*  +2.0dB */ 0x50800142,
++	/*  +1.5dB */ 0x4c000130,
++	/*  +1.0dB */ 0x47c0011f,
++	/*  +0.5dB */ 0x43c0010f,
++	/*   0.0dB */ 0x40000100,
++	/*  -0.5dB */ 0x3c8000f2,
++	/*  -1.0dB */ 0x390000e4,
++	/*  -1.5dB */ 0x35c000d7,
++	/*  -2.0dB */ 0x32c000cb,
++	/*  -2.5dB */ 0x300000c0,
++	/*  -3.0dB */ 0x2d4000b5,
++	/*  -3.5dB */ 0x2ac000ab,
++	/*  -4.0dB */ 0x288000a2,
++	/*  -4.5dB */ 0x26000098,
++	/*  -5.0dB */ 0x24000090,
++	/*  -5.5dB */ 0x22000088,
++	/*  -6.0dB */ 0x20000080,
++	/*  -6.5dB */ 0x1a00006c,
++	/*  -7.0dB */ 0x1c800072,
++	/*  -7.5dB */ 0x18000060,
++	/*  -8.0dB */ 0x19800066,
++	/*  -8.5dB */ 0x15800056,
++	/*  -9.0dB */ 0x26c0005b,
++	/*  -9.5dB */ 0x14400051,
++	/* -10.0dB */ 0x24400051,
++	/* -10.5dB */ 0x1300004c,
++	/* -11.0dB */ 0x12000048,
++	/* -11.5dB */ 0x11000044,
++	/* -12.0dB */ 0x10000040
++};
++
++#endif
++
++VOID
++odm_TXPowerTrackingInit(
++	IN	PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	if(!(pDM_Odm->SupportICType & (ODM_RTL8814A|ODM_IC_11N_SERIES|ODM_RTL8822B)))
++		return;
++#endif
++
++	odm_TXPowerTrackingThermalMeterInit(pDM_Odm);
++}	
++
++u1Byte 
++getSwingIndex(
++	IN	PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u1Byte 			i = 0;
++	u4Byte 			bbSwing;
++	u4Byte 			swingTableSize;
++	pu4Byte 			pSwingTable;
++
++	if (pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8723B ||
++		pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType == ODM_RTL8188F || pDM_Odm->SupportICType == ODM_RTL8703B) 
++	{
++		bbSwing = PHY_QueryBBReg(Adapter, rOFDM0_XATxIQImbalance, 0xFFC00000);
++
++		pSwingTable = OFDMSwingTable_New;
++		swingTableSize = OFDM_TABLE_SIZE;
++	} else {
++		bbSwing = PHY_GetTxBBSwing_8812A(Adapter, pHalData->CurrentBandType, ODM_RF_PATH_A);
++		pSwingTable = TxScalingTable_Jaguar;
++		swingTableSize = TXSCALE_TABLE_SIZE;		
++	}
++
++	for (i = 0; i < swingTableSize; ++i) {
++		u4Byte tableValue = pSwingTable[i];
++		
++		if (tableValue >= 0x100000 )
++			tableValue >>= 22;
++		if (bbSwing == tableValue)
++			break;
++	}
++	return i;
++}
++
++VOID
++odm_TXPowerTrackingThermalMeterInit(
++	IN	PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte defaultSwingIndex = getSwingIndex(pDM_Odm);
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u1Byte 			p = 0;
++
++	if(pDM_Odm->mp_mode == FALSE)
++		pRFCalibrateInfo->TxPowerTrackControl = TRUE;
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#ifdef CONFIG_RTL8188E
++	{
++		pRFCalibrateInfo->bTXPowerTracking = _TRUE;
++		pRFCalibrateInfo->TXPowercount = 0;
++		pRFCalibrateInfo->bTXPowerTrackingInit = _FALSE;
++
++		if(pDM_Odm->mp_mode == FALSE)
++			pRFCalibrateInfo->TxPowerTrackControl = _TRUE;
++		
++		MSG_8192C("pDM_Odm TxPowerTrackControl = %d\n", pRFCalibrateInfo->TxPowerTrackControl);
++	}
++	#else
++	{
++		PADAPTER		Adapter = pDM_Odm->Adapter;
++		HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++		struct dm_priv	*pdmpriv = &pHalData->dmpriv;
++
++		pdmpriv->bTXPowerTracking = _TRUE;
++		pdmpriv->TXPowercount = 0;
++		pdmpriv->bTXPowerTrackingInit = _FALSE;
++
++		if(pDM_Odm->mp_mode == FALSE)
++			pdmpriv->TxPowerTrackControl = _TRUE;
++
++		MSG_8192C("pdmpriv->TxPowerTrackControl = %d\n", pdmpriv->TxPowerTrackControl);
++	
++	}	
++	#endif
++#elif (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	#ifdef RTL8188E_SUPPORT
++	{
++		pRFCalibrateInfo->bTXPowerTracking = _TRUE;
++		pRFCalibrateInfo->TXPowercount = 0;
++		pRFCalibrateInfo->bTXPowerTrackingInit = _FALSE;
++		pRFCalibrateInfo->TxPowerTrackControl = _TRUE;
++	}
++	#endif
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#if (MP_DRIVER == 1)
++		pRFCalibrateInfo->TxPowerTrackControl = FALSE;
++	#else
++		pRFCalibrateInfo->TxPowerTrackControl = TRUE;
++	#endif
++#else
++	pRFCalibrateInfo->TxPowerTrackControl = TRUE;
++#endif
++
++	pRFCalibrateInfo->ThermalValue 		= pHalData->EEPROMThermalMeter;
++	pRFCalibrateInfo->ThermalValue_IQK 	= pHalData->EEPROMThermalMeter;
++	pRFCalibrateInfo->ThermalValue_LCK	= pHalData->EEPROMThermalMeter;
++
++	if (pRFCalibrateInfo->DefaultBbSwingIndexFlag != TRUE) {
++		/*The index of "0 dB" in SwingTable.*/
++		if (pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8723B ||
++			pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType == ODM_RTL8703B) {
++			pRFCalibrateInfo->DefaultOfdmIndex = (defaultSwingIndex >= OFDM_TABLE_SIZE) ? 30 : defaultSwingIndex;
++			pRFCalibrateInfo->DefaultCckIndex = 20;	
++		} else if (pDM_Odm->SupportICType == ODM_RTL8188F) {          /*add by Mingzhi.Guo  2015-03-23*/
++			pRFCalibrateInfo->DefaultOfdmIndex = 28;							/*OFDM: -1dB*/
++			pRFCalibrateInfo->DefaultCckIndex = 20;							/*CCK:-6dB*/
++		} else if (pDM_Odm->SupportICType == ODM_RTL8723D) {			 /*add by zhaohe  2015-10-27*/
++			pRFCalibrateInfo->DefaultOfdmIndex = 28;						 	   /*OFDM: -1dB*/
++			pRFCalibrateInfo->DefaultCckIndex = 28;							/*CCK:   -6dB*/
++		} else {
++			pRFCalibrateInfo->DefaultOfdmIndex = (defaultSwingIndex >= TXSCALE_TABLE_SIZE) ? 24 : defaultSwingIndex;
++			pRFCalibrateInfo->DefaultCckIndex = 24;	
++		}
++		pRFCalibrateInfo->DefaultBbSwingIndexFlag = TRUE;
++	}
++
++	pRFCalibrateInfo->BbSwingIdxCckBase = pRFCalibrateInfo->DefaultCckIndex;
++	pRFCalibrateInfo->CCK_index = pRFCalibrateInfo->DefaultCckIndex;
++	
++	for (p = ODM_RF_PATH_A; p < MAX_RF_PATH; ++p)
++	{
++		pRFCalibrateInfo->BbSwingIdxOfdmBase[p] = pRFCalibrateInfo->DefaultOfdmIndex;		
++	   	pRFCalibrateInfo->OFDM_index[p] = pRFCalibrateInfo->DefaultOfdmIndex;		
++		pRFCalibrateInfo->DeltaPowerIndex[p] = 0;
++		pRFCalibrateInfo->DeltaPowerIndexLast[p] = 0;
++		pRFCalibrateInfo->PowerIndexOffset[p] = 0;
++		pRFCalibrateInfo->KfreeOffset[p] = 0;
++	}
++	pRFCalibrateInfo->Modify_TxAGC_Value_OFDM = 0;			
++	pRFCalibrateInfo->Modify_TxAGC_Value_CCK = 0;			
++
++}
++
++
++VOID
++ODM_TXPowerTrackingCheck(
++	IN	PVOID		pDM_VOID
++	)
++{
++	
++	/* 2011/09/29 MH In HW integration first stage, we provide 4 different handle to operate
++	// at the same time. In the stage2/3, we need to prive universal interface and merge all
++	// HW dynamic mechanism.*/
++	
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	switch	(pDM_Odm->SupportPlatform)
++	{
++		case	ODM_WIN:
++			odm_TXPowerTrackingCheckMP(pDM_Odm);
++			break;
++
++		case	ODM_CE:
++			odm_TXPowerTrackingCheckCE(pDM_Odm);
++			break;
++
++		case	ODM_AP:
++			odm_TXPowerTrackingCheckAP(pDM_Odm);		
++			break;		
++
++		default:
++			break;	
++	}
++
++}
++
++VOID
++odm_TXPowerTrackingCheckCE(
++	IN	PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++	#if ((RTL8188F_SUPPORT == 1))
++	rtl8192c_odm_CheckTXPowerTracking(Adapter);
++	#endif
++
++	#if(RTL8188E_SUPPORT==1)
++
++	if (!(pDM_Odm->SupportAbility & ODM_RF_TX_PWR_TRACK)) {
++		return;
++	}
++
++	if (!pRFCalibrateInfo->TM_Trigger) {
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_T_METER, bRFRegOffsetMask, 0x60);
++		/*DBG_8192C("Trigger 92C Thermal Meter!!\n");*/
++		
++		pRFCalibrateInfo->TM_Trigger = 1;
++		return;
++		
++	} else {
++		/*DBG_8192C("Schedule TxPowerTracking direct call!!\n");*/
++		odm_TXPowerTrackingCallback_ThermalMeter_8188E(Adapter);
++		pRFCalibrateInfo->TM_Trigger = 0;
++	}
++	#endif
++#endif	
++}
++
++VOID
++odm_TXPowerTrackingCheckMP(
++	IN	PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++	if (*pDM_Odm->pIsFcsModeEnable)
++		return;
++
++	if (ODM_CheckPowerStatus(Adapter) == FALSE) 
++	{
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD, ("===>ODM_CheckPowerStatus() return FALSE\n"));
++		return;
++	}
++
++	if (IS_HARDWARE_TYPE_8821B(Adapter)) /* TODO: Don't Do PowerTracking*/
++		return;
++	
++	odm_TXPowerTrackingThermalMeterCheck(Adapter);
++	
++
++#endif
++	
++}
++
++
++VOID
++odm_TXPowerTrackingCheckAP(
++	IN	PVOID		pDM_VOID
++	)
++{
++return;
++
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++VOID
++odm_TXPowerTrackingDirectCall(
++	IN	PADAPTER		Adapter
++	)
++{
++	HAL_DATA_TYPE		*pHalData	= GET_HAL_DATA(Adapter);
++	PDM_ODM_T			pDM_Odm = &pHalData->DM_OutSrc;
++	
++	ODM_TXPowerTrackingCallback_ThermalMeter(Adapter);
++}
++
++VOID
++odm_TXPowerTrackingThermalMeterCheck(
++	IN	PADAPTER		Adapter
++	)
++{
++#ifndef AP_BUILD_WORKAROUND
++	static u1Byte			TM_Trigger = 0;
++
++	if (!(GET_HAL_DATA(Adapter)->DM_OutSrc.SupportAbility & ODM_RF_TX_PWR_TRACK))
++	{
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD,
++			("===>odm_TXPowerTrackingThermalMeterCheck(),pMgntInfo->bTXPowerTracking is FALSE, return!!\n"));
++		return;
++	}
++
++	if (!TM_Trigger)		
++	{
++		if (IS_HARDWARE_TYPE_8188E(Adapter) || IS_HARDWARE_TYPE_JAGUAR(Adapter) || IS_HARDWARE_TYPE_8192E(Adapter) ||
++			    IS_HARDWARE_TYPE_8723B(Adapter) || IS_HARDWARE_TYPE_8814A(Adapter) || IS_HARDWARE_TYPE_8188F(Adapter) || IS_HARDWARE_TYPE_8703B(Adapter)
++			    || IS_HARDWARE_TYPE_8822B(Adapter) || IS_HARDWARE_TYPE_8723D(Adapter))
++			PHY_SetRFReg(Adapter, ODM_RF_PATH_A, RF_T_METER_88E, BIT17 | BIT16, 0x03);
++		else
++			PHY_SetRFReg(Adapter, ODM_RF_PATH_A, RF_T_METER, bRFRegOffsetMask, 0x60);
++		
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD,("Trigger Thermal Meter!!\n"));
++		
++		TM_Trigger = 1;
++		return;
++	} else {
++		RT_TRACE(COMP_POWER_TRACKING, DBG_LOUD,("Schedule TxPowerTracking direct call!!\n"));		
++		odm_TXPowerTrackingDirectCall(Adapter); 
++		TM_Trigger = 0;
++	}
++#endif
++}
++
++#endif 
++
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_powertracking_win.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_powertracking_win.h
+new file mode 100644
+index 0000000..27e0253
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_powertracking_win.h
+@@ -0,0 +1,299 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__PHYDMPOWERTRACKING_H__
++#define    __PHYDMPOWERTRACKING_H__
++
++#define POWRTRACKING_VERSION	"1.1"
++
++#define	DPK_DELTA_MAPPING_NUM	13
++#define	index_mapping_HP_NUM	15	
++#define	TXSCALE_TABLE_SIZE 		37
++#define	CCK_TABLE_SIZE_8723D    41
++#define	TXPWR_TRACK_TABLE_SIZE 	30
++#define	DELTA_SWINGIDX_SIZE     30
++#define DELTA_SWINTSSI_SIZE     61
++#define	BAND_NUM 				3
++#define	MAX_RF_PATH	4
++#define	CCK_TABLE_SIZE_88F	21
++
++
++#define	dm_CheckTXPowerTracking 	ODM_TXPowerTrackingCheck
++
++#define IQK_Matrix_Settings_NUM	14+24+21 // Channels_2_4G_NUM + Channels_5G_20M_NUM + Channels_5G
++#define	AVG_THERMAL_NUM		8
++#define	HP_THERMAL_NUM		8
++#define	IQK_Matrix_REG_NUM	8
++#define	IQK_MAC_REG_NUM		4
++#define	IQK_ADDA_REG_NUM		16
++
++#define	IQK_BB_REG_NUM		9
++
++
++extern	u4Byte OFDMSwingTable[OFDM_TABLE_SIZE];
++extern	u1Byte CCKSwingTable_Ch1_Ch13[CCK_TABLE_SIZE][8];
++extern	u1Byte CCKSwingTable_Ch14 [CCK_TABLE_SIZE][8];
++
++extern	u4Byte OFDMSwingTable_New[OFDM_TABLE_SIZE];
++extern	u1Byte CCKSwingTable_Ch1_Ch13_New[CCK_TABLE_SIZE][8];
++extern	u1Byte CCKSwingTable_Ch14_New [CCK_TABLE_SIZE][8];
++extern	u1Byte CCKSwingTable_Ch1_Ch14_88F[CCK_TABLE_SIZE_88F][16];
++extern	u1Byte CCKSwingTable_Ch1_Ch13_88F[CCK_TABLE_SIZE_88F][16];
++extern	u1Byte CCKSwingTable_Ch14_88F[CCK_TABLE_SIZE_88F][16];
++extern	u4Byte CCKSwingTable_Ch1_Ch14_8723D[CCK_TABLE_SIZE_8723D];
++
++extern  u4Byte TxScalingTable_Jaguar[TXSCALE_TABLE_SIZE];
++
++// <20121018, Kordan> In case fail to read TxPowerTrack.txt, we use the table of 88E as the default table.
++static u1Byte DeltaSwingTableIdx_2GA_P_8188E[] = {0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 4,  4,  4,  4,  4,  4,  5,  5,  7,  7,  8,  8,  8,  9,  9,  9,  9,  9};
++static u1Byte DeltaSwingTableIdx_2GA_N_8188E[] = {0, 0, 0, 2, 2, 3, 3, 4, 4, 4, 4, 5, 5,  6,  6,  7,  7,  7,  7,  8,  8,  9,  9, 10, 10, 10, 11, 11, 11, 11}; 
++
++VOID
++ODM_TXPowerTrackingCheck(
++	IN	PVOID		pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingCheckAP(
++	IN	PVOID		pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingThermalMeterInit(
++	IN	PVOID		pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingInit(
++	IN	PVOID		pDM_VOID
++	);
++
++VOID
++odm_TXPowerTrackingCheckMP(
++	IN	PVOID		pDM_VOID
++	);
++
++
++VOID
++odm_TXPowerTrackingCheckCE(
++	IN	PVOID		pDM_VOID
++	);
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_WIN)) 
++
++
++VOID
++odm_TXPowerTrackingThermalMeterCheck(
++	IN	PADAPTER		Adapter
++	);
++
++#endif
++
++typedef struct _IQK_MATRIX_REGS_SETTING{
++	BOOLEAN 	bIQKDone;
++	s4Byte		Value[3][IQK_Matrix_REG_NUM];
++	BOOLEAN 	bBWIqkResultSaved[3];	
++}IQK_MATRIX_REGS_SETTING,*PIQK_MATRIX_REGS_SETTING;
++
++typedef struct ODM_RF_Calibration_Structure
++{
++	//for tx power tracking
++	
++	u4Byte	RegA24; // for TempCCK
++	s4Byte	RegE94;
++	s4Byte 	RegE9C;
++	s4Byte	RegEB4;
++	s4Byte	RegEBC;	
++	//u1Byte bTXPowerTracking;
++	u1Byte  	TXPowercount;
++	BOOLEAN bTXPowerTrackingInit; 
++	BOOLEAN bTXPowerTracking;
++	u1Byte  	TxPowerTrackControl; //for mp mode, turn off txpwrtracking as default
++	u1Byte  	TM_Trigger;
++    	u1Byte  	InternalPA5G[2];	//pathA / pathB
++	
++	u1Byte  	ThermalMeter[2];    // ThermalMeter, index 0 for RFIC0, and 1 for RFIC1
++	u1Byte  	ThermalValue;
++	u1Byte  	ThermalValue_LCK;
++	u1Byte  	ThermalValue_IQK;
++	u1Byte	ThermalValue_AVG[AVG_THERMAL_NUM];
++	u1Byte	ThermalValue_AVG_index;		
++	u1Byte	ThermalValue_RxGain;
++	
++	BOOLEAN	bReloadtxpowerindex;	
++	u1Byte 	bRfPiEnable;
++	u4Byte 	TXPowerTrackingCallbackCnt; //cosa add for debug
++
++
++	//------------------------- Tx power Tracking -------------------------//
++	u1Byte 	bCCKinCH14;
++	u1Byte 	CCK_index;
++	u1Byte 	OFDM_index[MAX_RF_PATH];
++	s1Byte	PowerIndexOffset[MAX_RF_PATH];
++	s1Byte	DeltaPowerIndex[MAX_RF_PATH];
++	s1Byte	DeltaPowerIndexLast[MAX_RF_PATH];	
++	BOOLEAN bTxPowerChanged;
++	s1Byte	XtalOffset;
++	s1Byte	XtalOffsetLast;
++		
++	u1Byte 	ThermalValue_HP[HP_THERMAL_NUM];
++	u1Byte 	ThermalValue_HP_index;
++	IQK_MATRIX_REGS_SETTING IQKMatrixRegSetting[IQK_Matrix_Settings_NUM];
++	u1Byte	Delta_LCK;
++	s1Byte  BBSwingDiff2G, BBSwingDiff5G; // Unit: dB
++	u1Byte  DeltaSwingTableIdx_2GCCKA_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKA_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKB_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKB_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKC_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKC_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKD_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GCCKD_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GB_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GB_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GC_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GC_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GD_P[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GD_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GA_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GA_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GB_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GB_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GC_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GC_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GD_P[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_5GD_N[BAND_NUM][DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTSSITable_2GCCKA[DELTA_SWINTSSI_SIZE];         
++	u1Byte  DeltaSwingTSSITable_2GCCKB[DELTA_SWINTSSI_SIZE];           
++	u1Byte  DeltaSwingTSSITable_2GCCKC[DELTA_SWINTSSI_SIZE];            
++	u1Byte  DeltaSwingTSSITable_2GCCKD[DELTA_SWINTSSI_SIZE];            
++	u1Byte  DeltaSwingTSSITable_2GA[DELTA_SWINTSSI_SIZE];                
++	u1Byte  DeltaSwingTSSITable_2GB[DELTA_SWINTSSI_SIZE];              
++	u1Byte  DeltaSwingTSSITable_2GC[DELTA_SWINTSSI_SIZE];                   
++	u1Byte  DeltaSwingTSSITable_2GD[DELTA_SWINTSSI_SIZE];                
++	u1Byte  DeltaSwingTSSITable_5GA[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTSSITable_5GB[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTSSITable_5GC[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	u1Byte  DeltaSwingTSSITable_5GD[BAND_NUM][DELTA_SWINTSSI_SIZE];
++	s1Byte  DeltaSwingTableXtal_P[DELTA_SWINGIDX_SIZE];
++	s1Byte  DeltaSwingTableXtal_N[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_P_8188E[DELTA_SWINGIDX_SIZE];
++	u1Byte  DeltaSwingTableIdx_2GA_N_8188E[DELTA_SWINGIDX_SIZE];
++	
++	u1Byte			BbSwingIdxOfdm[MAX_RF_PATH];
++	u1Byte			BbSwingIdxOfdmCurrent;
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))	
++	u1Byte			BbSwingIdxOfdmBase[MAX_RF_PATH];
++#else
++	u1Byte			BbSwingIdxOfdmBase;
++#endif
++	BOOLEAN		DefaultBbSwingIndexFlag;
++	BOOLEAN			BbSwingFlagOfdm;
++	u1Byte			BbSwingIdxCck;
++	u1Byte			BbSwingIdxCckCurrent;
++	u1Byte			BbSwingIdxCckBase;
++	u1Byte			DefaultOfdmIndex;
++	u1Byte			DefaultCckIndex;	
++	BOOLEAN			BbSwingFlagCck;
++	
++	s1Byte			Absolute_OFDMSwingIdx[MAX_RF_PATH];   
++	s1Byte			Remnant_OFDMSwingIdx[MAX_RF_PATH];
++	s1Byte			Absolute_CCKSwingIdx[MAX_RF_PATH]; 
++	s1Byte			Remnant_CCKSwingIdx;
++	s1Byte			Modify_TxAGC_Value;       /*Remnat compensate value at TxAGC */
++	BOOLEAN			Modify_TxAGC_Flag_PathA;
++	BOOLEAN			Modify_TxAGC_Flag_PathB;
++	BOOLEAN			Modify_TxAGC_Flag_PathC;
++	BOOLEAN			Modify_TxAGC_Flag_PathD;
++	BOOLEAN			Modify_TxAGC_Flag_PathA_CCK;
++	
++	s1Byte			KfreeOffset[MAX_RF_PATH];
++    
++	//--------------------------------------------------------------------//	
++	
++	//for IQK	
++	u4Byte 	RegC04;
++	u4Byte 	Reg874;
++	u4Byte 	RegC08;
++	u4Byte 	RegB68;
++	u4Byte 	RegB6C;
++	u4Byte 	Reg870;
++	u4Byte 	Reg860;
++	u4Byte 	Reg864;
++	
++	BOOLEAN	bIQKInitialized;
++	BOOLEAN bLCKInProgress;
++	BOOLEAN	bAntennaDetected;
++	BOOLEAN	bNeedIQK;
++	BOOLEAN	bIQKInProgress;
++	BOOLEAN	bIQKPAoff;
++	u1Byte	Delta_IQK;
++	u4Byte	ADDA_backup[IQK_ADDA_REG_NUM];
++	u4Byte	IQK_MAC_backup[IQK_MAC_REG_NUM];
++	u4Byte	IQK_BB_backup_recover[9];
++	u4Byte	IQK_BB_backup[IQK_BB_REG_NUM];	
++	u4Byte	TxIQC_8723B[2][3][2]; /* { {S1: 0xc94, 0xc80, 0xc4c} , {S0: 0xc9c, 0xc88, 0xc4c}} */
++	u4Byte	RxIQC_8723B[2][2][2]; /* { {S1: 0xc14, 0xca0} ,           {S0: 0xc14, 0xca0}} */
++	u4Byte	TxIQC_8703B[3][2];	/* { {S1: 0xc94, 0xc80, 0xc4c} , {S0: 0xc9c, 0xc88, 0xc4c}}*/
++	u4Byte	RxIQC_8703B[2][2];	/* { {S1: 0xc14, 0xca0} ,           {S0: 0xc14, 0xca0}}*/
++	u4Byte	TxIQC_8723D[2][3][2];	/* { {S1: 0xc94, 0xc80, 0xc4c} , {S0: 0xc9c, 0xc88, 0xc4c}}*/
++	u4Byte	RxIQC_8723D[2][2][2];	/* { {S1: 0xc14, 0xca0} ,           {S0: 0xc14, 0xca0}}*/
++	
++	u8Byte	IQK_StartTime;
++	u8Byte	IQK_TotalProgressingTime;
++	u8Byte	IQK_ProgressingTime;
++	u4Byte  LOK_Result;
++	u1Byte	IQKstep;
++	u1Byte	Kcount;
++	u1Byte	retry_count[4][2]; /* [4]: path ABCD, [2] TXK, RXK */
++	BOOLEAN	isMPmode;
++
++	//for APK
++	u4Byte 	APKoutput[2][2]; //path A/B; output1_1a/output1_2a
++	u1Byte 	bAPKdone;
++	u1Byte 	bAPKThermalMeterIgnore;
++	
++	// DPK
++	BOOLEAN bDPKFail;	
++	u1Byte 	bDPdone;
++	u1Byte 	bDPPathAOK;
++	u1Byte 	bDPPathBOK;
++
++	u4Byte	TxLOK[2];
++	u4Byte  DpkTxAGC;
++	s4Byte  DpkGain;
++	u4Byte  DpkThermal[4];	
++
++	s1Byte Modify_TxAGC_Value_OFDM;
++	s1Byte Modify_TxAGC_Value_CCK;
++
++	/*Add by Yuchen for Kfree Phydm*/
++	u1Byte			RegRfKFreeEnable;	/*for registry*/
++	u1Byte			RfKFreeEnable;		/*for efuse enable check*/
++
++	HALMAC_PWR_TRACKING_OPTION	HALMAC_PWR_TRACKING_INFO;
++}ODM_RF_CAL_T,*PODM_RF_CAL_T;
++
++
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_pre_define.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_pre_define.h
+new file mode 100644
+index 0000000..509fccb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_pre_define.h
+@@ -0,0 +1,656 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#ifndef	__PHYDMPREDEFINE_H__
++#define    __PHYDMPREDEFINE_H__
++
++//1 ============================================================
++//1  Definition 
++//1 ============================================================
++
++#define PHYDM_CODE_BASE		"PHYDM_008"
++#define PHYDM_RELEASE_DATE		"20160518"
++
++//Max path of IC
++#define MAX_PATH_NUM_8188E		1
++#define MAX_PATH_NUM_8192E		2
++#define MAX_PATH_NUM_8723B		1
++#define MAX_PATH_NUM_8812A		2
++#define MAX_PATH_NUM_8821A		1
++#define MAX_PATH_NUM_8814A		4
++#define MAX_PATH_NUM_8822B		2
++#define MAX_PATH_NUM_8821B		2
++#define MAX_PATH_NUM_8703B		1
++#define MAX_PATH_NUM_8188F		1
++#define MAX_PATH_NUM_8723D		1
++#define MAX_PATH_NUM_8197F		2
++
++//Max RF path
++#define ODM_RF_PATH_MAX 2
++#define ODM_RF_PATH_MAX_JAGUAR 4
++
++/*Bit define path*/
++#define	PHYDM_A		 BIT0
++#define	PHYDM_B		 BIT1
++#define	PHYDM_C		 BIT2
++#define	PHYDM_D		 BIT3
++#define	PHYDM_AB	 (BIT0 | BIT1)
++#define	PHYDM_AC	 (BIT0 | BIT2)
++#define	PHYDM_AD	 (BIT0 | BIT3)
++#define	PHYDM_BC	 (BIT1 | BIT2)
++#define	PHYDM_BD	 (BIT1 | BIT3)
++#define	PHYDM_CD	 (BIT2 | BIT3)
++#define	PHYDM_ABC	 (BIT0 | BIT1 | BIT2)
++#define	PHYDM_ABD	 (BIT0 | BIT1 | BIT3)
++#define	PHYDM_ACD	 (BIT0 | BIT2 | BIT3)
++#define	PHYDM_BCD	 (BIT1 | BIT2 | BIT3)
++#define	PHYDM_ABCD	 (BIT0 | BIT1 | BIT2 | BIT3)
++
++//number of entry
++#if(DM_ODM_SUPPORT_TYPE & (ODM_CE))
++	#define	ASSOCIATE_ENTRY_NUM					MACID_NUM_SW_LIMIT  /* Max size of AsocEntry[].*/
++	#define	ODM_ASSOCIATE_ENTRY_NUM				ASSOCIATE_ENTRY_NUM
++#elif(DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	#define ASSOCIATE_ENTRY_NUM					NUM_STAT
++	#define	ODM_ASSOCIATE_ENTRY_NUM				(ASSOCIATE_ENTRY_NUM+1)
++#else
++	#define ODM_ASSOCIATE_ENTRY_NUM				((ASSOCIATE_ENTRY_NUM*3)+1)
++#endif
++
++/* -----MGN rate--------------------------------- */
++
++#define	ODM_MGN_1M			0x02
++#define	ODM_MGN_2M			0x04
++#define	ODM_MGN_5_5M			0x0b
++#define	ODM_MGN_11M			0x16
++
++#define	ODM_MGN_6M			0x0c
++#define	ODM_MGN_9M			0x12
++#define	ODM_MGN_12M			0x18
++#define	ODM_MGN_18M			0x24
++#define	ODM_MGN_24M			0x30
++#define	ODM_MGN_36M			0x48
++#define	ODM_MGN_48M			0x60
++#define	ODM_MGN_54M			0x6c
++
++/*TxHT = 1*/
++#define	ODM_MGN_MCS0			0x80
++#define	ODM_MGN_MCS1			0x81
++#define	ODM_MGN_MCS2			0x82
++#define	ODM_MGN_MCS3			0x83
++#define	ODM_MGN_MCS4			0x84
++#define	ODM_MGN_MCS5			0x85
++#define	ODM_MGN_MCS6			0x86
++#define	ODM_MGN_MCS7			0x87
++#define	ODM_MGN_MCS8			0x88
++#define	ODM_MGN_MCS9			0x89
++#define	ODM_MGN_MCS10		0x8a
++#define	ODM_MGN_MCS11		0x8b
++#define	ODM_MGN_MCS12		0x8c
++#define	ODM_MGN_MCS13		0x8d
++#define	ODM_MGN_MCS14		0x8e
++#define	ODM_MGN_MCS15		0x8f
++#define	ODM_MGN_VHT1SS_MCS0	0x90
++#define	ODM_MGN_VHT1SS_MCS1	0x91
++#define	ODM_MGN_VHT1SS_MCS2	0x92
++#define	ODM_MGN_VHT1SS_MCS3	0x93
++#define	ODM_MGN_VHT1SS_MCS4	0x94
++#define	ODM_MGN_VHT1SS_MCS5	0x95
++#define	ODM_MGN_VHT1SS_MCS6	0x96
++#define	ODM_MGN_VHT1SS_MCS7	0x97
++#define	ODM_MGN_VHT1SS_MCS8	0x98
++#define	ODM_MGN_VHT1SS_MCS9	0x99
++#define	ODM_MGN_VHT2SS_MCS0	0x9a
++#define	ODM_MGN_VHT2SS_MCS1	0x9b
++#define	ODM_MGN_VHT2SS_MCS2	0x9c
++#define	ODM_MGN_VHT2SS_MCS3	0x9d
++#define	ODM_MGN_VHT2SS_MCS4	0x9e
++#define	ODM_MGN_VHT2SS_MCS5	0x9f
++#define	ODM_MGN_VHT2SS_MCS6	0xa0
++#define	ODM_MGN_VHT2SS_MCS7	0xa1
++#define	ODM_MGN_VHT2SS_MCS8	0xa2
++#define	ODM_MGN_VHT2SS_MCS9	0xa3
++
++#define	ODM_MGN_MCS0_SG		0xc0
++#define	ODM_MGN_MCS1_SG		0xc1
++#define	ODM_MGN_MCS2_SG		0xc2
++#define	ODM_MGN_MCS3_SG		0xc3
++#define	ODM_MGN_MCS4_SG		0xc4
++#define	ODM_MGN_MCS5_SG		0xc5
++#define	ODM_MGN_MCS6_SG		0xc6
++#define	ODM_MGN_MCS7_SG		0xc7
++#define	ODM_MGN_MCS8_SG		0xc8
++#define	ODM_MGN_MCS9_SG		0xc9
++#define	ODM_MGN_MCS10_SG		0xca
++#define	ODM_MGN_MCS11_SG		0xcb
++#define	ODM_MGN_MCS12_SG		0xcc
++#define	ODM_MGN_MCS13_SG		0xcd
++#define	ODM_MGN_MCS14_SG		0xce
++#define	ODM_MGN_MCS15_SG		0xcf
++
++/* -----DESC rate--------------------------------- */
++
++#define ODM_RATEMCS15_SG		0x1c
++#define ODM_RATEMCS32			0x20
++
++
++// CCK Rates, TxHT = 0
++#define ODM_RATE1M				0x00
++#define ODM_RATE2M				0x01
++#define ODM_RATE5_5M			0x02
++#define ODM_RATE11M				0x03
++// OFDM Rates, TxHT = 0
++#define ODM_RATE6M				0x04
++#define ODM_RATE9M				0x05
++#define ODM_RATE12M				0x06
++#define ODM_RATE18M				0x07
++#define ODM_RATE24M				0x08
++#define ODM_RATE36M				0x09
++#define ODM_RATE48M				0x0A
++#define ODM_RATE54M				0x0B
++// MCS Rates, TxHT = 1
++#define ODM_RATEMCS0			0x0C
++#define ODM_RATEMCS1			0x0D
++#define ODM_RATEMCS2			0x0E
++#define ODM_RATEMCS3			0x0F
++#define ODM_RATEMCS4			0x10
++#define ODM_RATEMCS5			0x11
++#define ODM_RATEMCS6			0x12
++#define ODM_RATEMCS7			0x13
++#define ODM_RATEMCS8			0x14
++#define ODM_RATEMCS9			0x15
++#define ODM_RATEMCS10			0x16
++#define ODM_RATEMCS11			0x17
++#define ODM_RATEMCS12			0x18
++#define ODM_RATEMCS13			0x19
++#define ODM_RATEMCS14			0x1A
++#define ODM_RATEMCS15			0x1B
++#define ODM_RATEMCS16			0x1C
++#define ODM_RATEMCS17			0x1D
++#define ODM_RATEMCS18			0x1E
++#define ODM_RATEMCS19			0x1F
++#define ODM_RATEMCS20			0x20
++#define ODM_RATEMCS21			0x21
++#define ODM_RATEMCS22			0x22
++#define ODM_RATEMCS23			0x23
++#define ODM_RATEMCS24			0x24
++#define ODM_RATEMCS25			0x25
++#define ODM_RATEMCS26			0x26
++#define ODM_RATEMCS27			0x27
++#define ODM_RATEMCS28			0x28
++#define ODM_RATEMCS29			0x29
++#define ODM_RATEMCS30			0x2A
++#define ODM_RATEMCS31			0x2B
++#define ODM_RATEVHTSS1MCS0		0x2C
++#define ODM_RATEVHTSS1MCS1		0x2D
++#define ODM_RATEVHTSS1MCS2		0x2E
++#define ODM_RATEVHTSS1MCS3		0x2F
++#define ODM_RATEVHTSS1MCS4		0x30
++#define ODM_RATEVHTSS1MCS5		0x31
++#define ODM_RATEVHTSS1MCS6		0x32
++#define ODM_RATEVHTSS1MCS7		0x33
++#define ODM_RATEVHTSS1MCS8		0x34
++#define ODM_RATEVHTSS1MCS9		0x35
++#define ODM_RATEVHTSS2MCS0		0x36
++#define ODM_RATEVHTSS2MCS1		0x37
++#define ODM_RATEVHTSS2MCS2		0x38
++#define ODM_RATEVHTSS2MCS3		0x39
++#define ODM_RATEVHTSS2MCS4		0x3A
++#define ODM_RATEVHTSS2MCS5		0x3B
++#define ODM_RATEVHTSS2MCS6		0x3C
++#define ODM_RATEVHTSS2MCS7		0x3D
++#define ODM_RATEVHTSS2MCS8		0x3E
++#define ODM_RATEVHTSS2MCS9		0x3F
++#define ODM_RATEVHTSS3MCS0		0x40
++#define ODM_RATEVHTSS3MCS1		0x41
++#define ODM_RATEVHTSS3MCS2		0x42
++#define ODM_RATEVHTSS3MCS3		0x43
++#define ODM_RATEVHTSS3MCS4		0x44
++#define ODM_RATEVHTSS3MCS5		0x45
++#define ODM_RATEVHTSS3MCS6		0x46
++#define ODM_RATEVHTSS3MCS7		0x47
++#define ODM_RATEVHTSS3MCS8		0x48
++#define ODM_RATEVHTSS3MCS9		0x49
++#define ODM_RATEVHTSS4MCS0		0x4A
++#define ODM_RATEVHTSS4MCS1		0x4B
++#define ODM_RATEVHTSS4MCS2		0x4C
++#define ODM_RATEVHTSS4MCS3		0x4D
++#define ODM_RATEVHTSS4MCS4		0x4E
++#define ODM_RATEVHTSS4MCS5		0x4F
++#define ODM_RATEVHTSS4MCS6		0x50
++#define ODM_RATEVHTSS4MCS7		0x51
++#define ODM_RATEVHTSS4MCS8		0x52
++#define ODM_RATEVHTSS4MCS9		0x53
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#define ODM_NUM_RATE_IDX (ODM_RATEVHTSS4MCS9+1)
++#else
++	#if (RTL8192E_SUPPORT == 1) || (RTL8197F_SUPPORT == 1)
++		#define ODM_NUM_RATE_IDX (ODM_RATEMCS15+1)
++	#elif (RTL8723B_SUPPORT == 1) || (RTL8188E_SUPPORT == 1) || (RTL8188F_SUPPORT == 1) 
++		#define ODM_NUM_RATE_IDX (ODM_RATEMCS7+1)
++	#elif (RTL8821A_SUPPORT == 1) || (RTL8881A_SUPPORT == 1) 
++		#define ODM_NUM_RATE_IDX (ODM_RATEVHTSS1MCS9+1)
++	#elif (RTL8812A_SUPPORT == 1)
++		#define ODM_NUM_RATE_IDX (ODM_RATEVHTSS2MCS9+1)
++	#elif(RTL8814A_SUPPORT == 1)
++		#define ODM_NUM_RATE_IDX (ODM_RATEVHTSS3MCS9+1)
++	#else
++		#define ODM_NUM_RATE_IDX (ODM_RATEVHTSS4MCS9+1)
++	#endif
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#define CONFIG_SFW_SUPPORTED
++#endif
++
++//1 ============================================================
++//1  enumeration
++//1 ============================================================
++
++
++//	ODM_CMNINFO_INTERFACE
++typedef enum tag_ODM_Support_Interface_Definition
++{
++	ODM_ITRF_PCIE 	=	0x1,
++	ODM_ITRF_USB 	=	0x2,
++	ODM_ITRF_SDIO 	=	0x4,
++	ODM_ITRF_ALL 	=	0x7,
++}ODM_INTERFACE_E;
++
++// ODM_CMNINFO_IC_TYPE
++typedef enum tag_ODM_Support_IC_Type_Definition
++{
++	ODM_RTL8188E	=	BIT0,
++	ODM_RTL8812	=	BIT1,
++	ODM_RTL8821	=	BIT2,
++	ODM_RTL8192E	=	BIT3,	
++	ODM_RTL8723B	=	BIT4,
++	ODM_RTL8814A	=	BIT5,	
++	ODM_RTL8881A	=	BIT6,
++	ODM_RTL8822B	=	BIT7,
++	ODM_RTL8703B	=	BIT8,
++	ODM_RTL8195A	=	BIT9,
++	ODM_RTL8188F	=	BIT10,
++	ODM_RTL8723D	=	BIT11,
++	ODM_RTL8197F	=	BIT12,
++	ODM_RTL8821C	=	BIT13,
++}ODM_IC_TYPE_E;
++
++
++#define ODM_IC_1SS	(ODM_RTL8188E | ODM_RTL8188F | ODM_RTL8723B | ODM_RTL8703B | ODM_RTL8723D | ODM_RTL8881A | ODM_RTL8821 | ODM_RTL8821C | ODM_RTL8195A)
++#define ODM_IC_2SS	(ODM_RTL8192E | ODM_RTL8197F | ODM_RTL8812 | ODM_RTL8822B)
++#define ODM_IC_3SS	(ODM_RTL8814A)
++
++
++#define ODM_IC_11N_SERIES		(ODM_RTL8188E|ODM_RTL8192E|ODM_RTL8723B|ODM_RTL8703B|ODM_RTL8188F|ODM_RTL8723D|ODM_RTL8197F)
++#define ODM_IC_11AC_SERIES		(ODM_RTL8812|ODM_RTL8821|ODM_RTL8814A|ODM_RTL8881A|ODM_RTL8822B|ODM_RTL8821C)
++#define ODM_IC_11AC_1_SERIES		(ODM_RTL8812|ODM_RTL8821|ODM_RTL8881A)
++#define ODM_IC_11AC_2_SERIES		(ODM_RTL8814A|ODM_RTL8822B|ODM_RTL8821C)
++#define ODM_IC_TXBF_SUPPORT		(ODM_RTL8192E|ODM_RTL8812|ODM_RTL8821|ODM_RTL8814A|ODM_RTL8881A|ODM_RTL8822B|ODM_RTL8197F|ODM_RTL8821C)
++#define ODM_IC_11N_GAIN_IDX_EDCCA		(ODM_RTL8195A|ODM_RTL8703B|ODM_RTL8188F|ODM_RTL8723D|ODM_RTL8197F)
++#define ODM_IC_11AC_GAIN_IDX_EDCCA		(ODM_RTL8814A|ODM_RTL8822B|ODM_RTL8821C)
++#define ODM_IC_PHY_STATUE_NEW_TYPE		(ODM_RTL8197F|ODM_RTL8822B|ODM_RTL8723D|ODM_RTL8821C)
++
++#define PHYDM_IC_8051_SERIES		(ODM_RTL8881A|ODM_RTL8812|ODM_RTL8821|ODM_RTL8188E|ODM_RTL8192E|ODM_RTL8723B|ODM_RTL8703B|ODM_RTL8188F)
++#define PHYDM_IC_3081_SERIES		(ODM_RTL8814A|ODM_RTL8822B|ODM_RTL8197F|ODM_RTL8821C)
++
++#define PHYDM_IC_SUPPORT_LA_MODE	(ODM_RTL8814A|ODM_RTL8822B|ODM_RTL8197F|ODM_RTL8821C)
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++#ifdef RTK_AC_SUPPORT
++#define ODM_IC_11AC_SERIES_SUPPORT		1
++#else
++#define ODM_IC_11AC_SERIES_SUPPORT		0
++#endif
++
++#define ODM_IC_11N_SERIES_SUPPORT			1
++#define ODM_CONFIG_BT_COEXIST				0
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++#define ODM_IC_11AC_SERIES_SUPPORT		1
++#define ODM_IC_11N_SERIES_SUPPORT			1
++#define ODM_CONFIG_BT_COEXIST				1
++
++#else 
++
++#if ((RTL8188E_SUPPORT == 1) || \
++(RTL8723B_SUPPORT == 1) || (RTL8192E_SUPPORT == 1) || (RTL8195A_SUPPORT == 1) || (RTL8703B_SUPPORT == 1) || \
++(RTL8188F_SUPPORT == 1) || (RTL8723D_SUPPORT == 1) || (RTL8197F_SUPPORT == 1))
++#define ODM_IC_11N_SERIES_SUPPORT			1
++#define ODM_IC_11AC_SERIES_SUPPORT		0
++#else
++#define ODM_IC_11N_SERIES_SUPPORT			0
++#define ODM_IC_11AC_SERIES_SUPPORT		1
++#endif
++
++#ifdef CONFIG_BT_COEXIST
++#define ODM_CONFIG_BT_COEXIST				1
++#else
++#define ODM_CONFIG_BT_COEXIST				0
++#endif
++
++#endif
++
++#if ((RTL8814A_SUPPORT == 1) || (RTL8821C_SUPPORT == 1) || (RTL8822B_SUPPORT == 1) || (RTL8197F_SUPPORT == 1))
++#define PHYDM_LA_MODE_SUPPORT			1
++#else
++#define PHYDM_LA_MODE_SUPPORT			0
++#endif
++
++#if ((RTL8197F_SUPPORT == 1) || (RTL8723D_SUPPORT == 1) || (RTL8822B_SUPPORT == 1) || (RTL8821C_SUPPORT == 1))
++#define ODM_PHY_STATUS_NEW_TYPE_SUPPORT			1
++#else
++#define ODM_PHY_STATUS_NEW_TYPE_SUPPORT			0
++#endif
++
++//ODM_CMNINFO_CUT_VER
++typedef enum tag_ODM_Cut_Version_Definition
++{
++	ODM_CUT_A 		=	0,
++	ODM_CUT_B 		=	1,
++	ODM_CUT_C 		=	2,
++	ODM_CUT_D 		=	3,
++	ODM_CUT_E 		=	4,
++	ODM_CUT_F 		=	5,
++
++	ODM_CUT_I 		=	8,
++	ODM_CUT_J 		=	9,
++	ODM_CUT_K 		=	10,	
++	ODM_CUT_TEST 	=	15,
++}ODM_CUT_VERSION_E;
++
++// ODM_CMNINFO_FAB_VER
++typedef enum tag_ODM_Fab_Version_Definition
++{
++	ODM_TSMC 	=	0,
++	ODM_UMC 	=	1,
++}ODM_FAB_E;
++
++// ODM_CMNINFO_RF_TYPE
++//
++// For example 1T2R (A+AB = BIT0|BIT4|BIT5)
++//
++typedef enum tag_ODM_RF_Path_Bit_Definition
++{
++	ODM_RF_A = BIT0,
++	ODM_RF_B = BIT1,
++	ODM_RF_C = BIT2,
++	ODM_RF_D = BIT3,
++}ODM_RF_PATH_E;
++
++typedef enum tag_PHYDM_RF_TX_NUM {
++	ODM_1T	=	1,
++	ODM_2T	=	2,
++	ODM_3T	=	3,
++	ODM_4T	=	4,
++} ODM_RF_TX_NUM_E;
++
++typedef enum tag_ODM_RF_Type_Definition {
++	ODM_1T1R,
++	ODM_1T2R,
++	ODM_2T2R,
++	ODM_2T2R_GREEN,
++	ODM_2T3R,
++	ODM_2T4R,
++	ODM_3T3R,
++	ODM_3T4R,
++	ODM_4T4R,
++	ODM_XTXR
++}ODM_RF_TYPE_E;
++
++
++typedef enum tag_ODM_MAC_PHY_Mode_Definition
++{
++	ODM_SMSP	= 0,
++	ODM_DMSP	= 1,
++	ODM_DMDP	= 2,
++}ODM_MAC_PHY_MODE_E;
++
++
++typedef enum tag_BT_Coexist_Definition
++{	
++	ODM_BT_BUSY 		= 1,
++	ODM_BT_ON 			= 2,
++	ODM_BT_OFF 		= 3,
++	ODM_BT_NONE 		= 4,
++}ODM_BT_COEXIST_E;
++
++// ODM_CMNINFO_OP_MODE
++typedef enum tag_Operation_Mode_Definition
++{
++	ODM_NO_LINK 		= BIT0,
++	ODM_LINK 			= BIT1,
++	ODM_SCAN 			= BIT2,
++	ODM_POWERSAVE 	= BIT3,
++	ODM_AP_MODE 		= BIT4,
++	ODM_CLIENT_MODE	= BIT5,
++	ODM_AD_HOC 		= BIT6,
++	ODM_WIFI_DIRECT	= BIT7,
++	ODM_WIFI_DISPLAY	= BIT8,
++}ODM_OPERATION_MODE_E;
++
++// ODM_CMNINFO_WM_MODE
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++typedef enum tag_Wireless_Mode_Definition
++{
++	ODM_WM_UNKNOW	= 0x0,
++	ODM_WM_B			= BIT0,
++	ODM_WM_G			= BIT1,
++	ODM_WM_A			= BIT2,
++	ODM_WM_N24G		= BIT3,
++	ODM_WM_N5G		= BIT4,
++	ODM_WM_AUTO		= BIT5,
++	ODM_WM_AC		= BIT6,
++}ODM_WIRELESS_MODE_E;
++#else
++typedef enum tag_Wireless_Mode_Definition
++{
++	ODM_WM_UNKNOWN	= 0x00,/*0x0*/
++	ODM_WM_A			= BIT0, /* 0x1*/
++	ODM_WM_B			= BIT1, /* 0x2*/
++	ODM_WM_G			= BIT2,/* 0x4*/
++	ODM_WM_AUTO		= BIT3,/* 0x8*/
++	ODM_WM_N24G		= BIT4,/* 0x10*/
++	ODM_WM_N5G		= BIT5,/* 0x20*/
++	ODM_WM_AC_5G		= BIT6,/* 0x40*/
++	ODM_WM_AC_24G	= BIT7,/* 0x80*/
++	ODM_WM_AC_ONLY	= BIT8,/* 0x100*/
++	ODM_WM_MAX		= BIT11/* 0x800*/
++
++}ODM_WIRELESS_MODE_E;
++#endif
++
++// ODM_CMNINFO_BAND
++typedef enum tag_Band_Type_Definition
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	ODM_BAND_2_4G 	= BIT0,
++	ODM_BAND_5G 		= BIT1,
++#else
++	ODM_BAND_2_4G = 0,
++	ODM_BAND_5G,
++	ODM_BAND_ON_BOTH,
++	ODM_BANDMAX
++#endif
++}ODM_BAND_TYPE_E;
++
++
++// ODM_CMNINFO_SEC_CHNL_OFFSET
++typedef enum tag_Secondary_Channel_Offset_Definition {
++
++	PHYDM_DONT_CARE	= 0,
++	PHYDM_BELOW		= 1,
++	PHYDM_ABOVE		= 2
++} PHYDM_SEC_CHNL_OFFSET_E;
++
++// ODM_CMNINFO_SEC_MODE
++typedef enum tag_Security_Definition
++{
++	ODM_SEC_OPEN 			= 0,
++	ODM_SEC_WEP40 		= 1,
++	ODM_SEC_TKIP 			= 2,
++	ODM_SEC_RESERVE 		= 3,
++	ODM_SEC_AESCCMP 		= 4,
++	ODM_SEC_WEP104 		= 5,
++	ODM_WEP_WPA_MIXED    = 6, // WEP + WPA
++	ODM_SEC_SMS4 			= 7,
++}ODM_SECURITY_E;
++
++// ODM_CMNINFO_BW
++typedef enum tag_Bandwidth_Definition
++{	
++	ODM_BW20M 		= 0,
++	ODM_BW40M 		= 1,
++	ODM_BW80M 		= 2,
++	ODM_BW160M 		= 3,
++	ODM_BW5M			= 4,
++	ODM_BW10M			= 5,
++	ODM_BW_MAX		= 6
++}ODM_BW_E;
++
++// ODM_CMNINFO_CHNL
++
++// ODM_CMNINFO_BOARD_TYPE
++typedef enum tag_Board_Definition
++{
++    ODM_BOARD_DEFAULT  	= 0, 	  // The DEFAULT case.
++    ODM_BOARD_MINICARD  = BIT(0), // 0 = non-mini card, 1= mini card.
++    ODM_BOARD_SLIM      = BIT(1), // 0 = non-slim card, 1 = slim card
++    ODM_BOARD_BT        = BIT(2), // 0 = without BT card, 1 = with BT
++    ODM_BOARD_EXT_PA    = BIT(3), // 0 = no 2G ext-PA, 1 = existing 2G ext-PA
++    ODM_BOARD_EXT_LNA   = BIT(4), // 0 = no 2G ext-LNA, 1 = existing 2G ext-LNA
++    ODM_BOARD_EXT_TRSW  = BIT(5), // 0 = no ext-TRSW, 1 = existing ext-TRSW
++    ODM_BOARD_EXT_PA_5G	= BIT(6), // 0 = no 5G ext-PA, 1 = existing 5G ext-PA
++    ODM_BOARD_EXT_LNA_5G= BIT(7), // 0 = no 5G ext-LNA, 1 = existing 5G ext-LNA
++}ODM_BOARD_TYPE_E;
++
++typedef enum tag_ODM_Package_Definition
++{
++    ODM_PACKAGE_DEFAULT  	 = 0, 	  
++    ODM_PACKAGE_QFN68        = BIT(0), 
++    ODM_PACKAGE_TFBGA90      = BIT(1), 
++    ODM_PACKAGE_TFBGA79      = BIT(2),	
++}ODM_Package_TYPE_E;
++
++typedef enum tag_ODM_TYPE_GPA_Definition {
++	TYPE_GPA0 = 0x0000,
++	TYPE_GPA1 = 0x0055,
++	TYPE_GPA2 = 0x00AA,
++	TYPE_GPA3 = 0x00FF,
++	TYPE_GPA4 = 0x5500,
++	TYPE_GPA5 = 0x5555,
++	TYPE_GPA6 = 0x55AA,
++	TYPE_GPA7 = 0x55FF,
++	TYPE_GPA8 = 0xAA00,
++	TYPE_GPA9 = 0xAA55,
++	TYPE_GPA10 = 0xAAAA,
++	TYPE_GPA11 = 0xAAFF,
++	TYPE_GPA12 = 0xFF00,
++	TYPE_GPA13 = 0xFF55,
++	TYPE_GPA14 = 0xFFAA,
++	TYPE_GPA15 = 0xFFFF,
++}ODM_TYPE_GPA_E;
++
++typedef enum tag_ODM_TYPE_APA_Definition {
++	TYPE_APA0 = 0x0000,
++	TYPE_APA1 = 0x0055,
++	TYPE_APA2 = 0x00AA,
++	TYPE_APA3 = 0x00FF,
++	TYPE_APA4 = 0x5500,
++	TYPE_APA5 = 0x5555,
++	TYPE_APA6 = 0x55AA,
++	TYPE_APA7 = 0x55FF,
++	TYPE_APA8 = 0xAA00,
++	TYPE_APA9 = 0xAA55,
++	TYPE_APA10 = 0xAAAA,
++	TYPE_APA11 = 0xAAFF,
++	TYPE_APA12 = 0xFF00,
++	TYPE_APA13 = 0xFF55,
++	TYPE_APA14 = 0xFFAA,
++	TYPE_APA15 = 0xFFFF,
++}ODM_TYPE_APA_E;
++
++typedef enum tag_ODM_TYPE_GLNA_Definition {
++	TYPE_GLNA0 = 0x0000,
++	TYPE_GLNA1 = 0x0055,
++	TYPE_GLNA2 = 0x00AA,
++	TYPE_GLNA3 = 0x00FF,
++	TYPE_GLNA4 = 0x5500,
++	TYPE_GLNA5 = 0x5555,
++	TYPE_GLNA6 = 0x55AA,
++	TYPE_GLNA7 = 0x55FF,
++	TYPE_GLNA8 = 0xAA00,
++	TYPE_GLNA9 = 0xAA55,
++	TYPE_GLNA10 = 0xAAAA,
++	TYPE_GLNA11 = 0xAAFF,
++	TYPE_GLNA12 = 0xFF00,
++	TYPE_GLNA13 = 0xFF55,
++	TYPE_GLNA14 = 0xFFAA,
++	TYPE_GLNA15 = 0xFFFF,
++}ODM_TYPE_GLNA_E;
++
++typedef enum tag_ODM_TYPE_ALNA_Definition {
++	TYPE_ALNA0 = 0x0000,
++	TYPE_ALNA1 = 0x0055,
++	TYPE_ALNA2 = 0x00AA,
++	TYPE_ALNA3 = 0x00FF,
++	TYPE_ALNA4 = 0x5500,
++	TYPE_ALNA5 = 0x5555,
++	TYPE_ALNA6 = 0x55AA,
++	TYPE_ALNA7 = 0x55FF,
++	TYPE_ALNA8 = 0xAA00,
++	TYPE_ALNA9 = 0xAA55,
++	TYPE_ALNA10 = 0xAAAA,
++	TYPE_ALNA11 = 0xAAFF,
++	TYPE_ALNA12 = 0xFF00,
++	TYPE_ALNA13 = 0xFF55,
++	TYPE_ALNA14 = 0xFFAA,
++	TYPE_ALNA15 = 0xFFFF,
++}ODM_TYPE_ALNA_E;
++
++
++typedef enum _ODM_RF_RADIO_PATH {
++    ODM_RF_PATH_A = 0,   //Radio Path A
++    ODM_RF_PATH_B = 1,   //Radio Path B
++    ODM_RF_PATH_C = 2,   //Radio Path C
++    ODM_RF_PATH_D = 3,   //Radio Path D
++    ODM_RF_PATH_AB,
++    ODM_RF_PATH_AC,
++    ODM_RF_PATH_AD,
++    ODM_RF_PATH_BC,
++    ODM_RF_PATH_BD,
++    ODM_RF_PATH_CD,
++    ODM_RF_PATH_ABC,
++    ODM_RF_PATH_ACD,
++    ODM_RF_PATH_BCD,
++    ODM_RF_PATH_ABCD,
++  //  ODM_RF_PATH_MAX,    //Max RF number 90 support
++} ODM_RF_RADIO_PATH_E, *PODM_RF_RADIO_PATH_E;
++
++typedef enum _ODM_PARAMETER_INIT {
++	ODM_PRE_SETTING = 0,
++	ODM_POST_SETTING = 1,
++} ODM_PARAMETER_INIT_E;
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_precomp.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_precomp.h
+new file mode 100644
+index 0000000..6dab342
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_precomp.h
+@@ -0,0 +1,348 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef	__ODM_PRECOMP_H__
++#define __ODM_PRECOMP_H__
++
++#include "phydm_types.h"
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#include "Precomp.h"		// We need to include mp_precomp.h due to batch file setting.
++#else
++#define		TEST_FALG___		1
++#endif
++
++//2 Config Flags and Structs - defined by each ODM Type
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	#include "../8192cd_cfg.h"
++	#include "../odm_inc.h"
++
++	#include "../8192cd.h"
++	#include "../8192cd_util.h"
++	#ifdef _BIG_ENDIAN_
++	#define	ODM_ENDIAN_TYPE				ODM_ENDIAN_BIG
++	#else
++	#define	ODM_ENDIAN_TYPE				ODM_ENDIAN_LITTLE
++	#endif
++
++	#ifdef AP_BUILD_WORKAROUND
++	#include "../8192cd_headers.h"
++	#include "../8192cd_debug.h"		
++	#endif
++
++#elif (DM_ODM_SUPPORT_TYPE ==ODM_CE)
++	#define __PACK
++	#define __WLAN_ATTRIB_PACK__
++#elif (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#include "mp_precomp.h"
++	#define	ODM_ENDIAN_TYPE				ODM_ENDIAN_LITTLE
++	#define __PACK
++	#define __WLAN_ATTRIB_PACK__
++#endif
++
++//2 OutSrc Header Files
++ 
++#include "phydm.h" 
++#include "phydm_hwconfig.h"
++#include "phydm_debug.h"
++#include "phydm_regdefine11ac.h"
++#include "phydm_regdefine11n.h"
++#include "phydm_interface.h"
++#include "phydm_reg.h"
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++#include "phydm_adc_sampling.h"
++#endif
++
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_CE)
++VOID
++PHY_SetTxPowerLimit(
++	IN	PDM_ODM_T	pDM_Odm,
++	IN	u8	*Regulation,
++	IN	u8	*Band,
++	IN	u8	*Bandwidth,
++	IN	u8	*RateSection,
++	IN	u8	*RfPath,
++	IN	u8	*Channel,
++	IN	u8	*PowerLimit
++);
++
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++#define RTL8703B_SUPPORT		0
++#define RTL8188F_SUPPORT		0
++#define RTL8723D_SUPPORT		0
++#endif
++
++#if RTL8188E_SUPPORT == 1
++#define RTL8188E_T_SUPPORT 1
++#ifdef CONFIG_SFW_SUPPORTED
++#define RTL8188E_S_SUPPORT 1
++#else
++#define RTL8188E_S_SUPPORT 0
++#endif
++#endif
++
++#if (RTL8188E_SUPPORT==1) 
++#include "rtl8188e/hal8188erateadaptive.h"//for  RA,Power training
++#include "rtl8188e/halhwimg8188e_mac.h"
++#include "rtl8188e/halhwimg8188e_rf.h"
++#include "rtl8188e/halhwimg8188e_bb.h"
++#include "rtl8188e/halhwimg8188e_t_fw.h"
++#include "rtl8188e/halhwimg8188e_s_fw.h"
++#include "rtl8188e/phydm_regconfig8188e.h"
++#include "rtl8188e/phydm_rtl8188e.h"
++#include "rtl8188e/hal8188ereg.h"
++#include "rtl8188e/version_rtl8188e.h"
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#include "rtl8188e_hal.h" 
++	#include "rtl8188e/halphyrf_8188e_ce.h"
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#include "rtl8188e/halphyrf_8188e_win.h"
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	#include "rtl8188e/halphyrf_8188e_ap.h"
++#endif
++#endif  //88E END
++
++#if (RTL8192E_SUPPORT==1) 
++
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		#include "rtl8192e/halphyrf_8192e_win.h" /*FOR_8192E_IQK*/
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++		#include "rtl8192e/halphyrf_8192e_ap.h" /*FOR_8192E_IQK*/
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++		#include "rtl8192e/halphyrf_8192e_ce.h" /*FOR_8192E_IQK*/
++	#endif
++	
++#include "rtl8192e/phydm_rtl8192e.h" //FOR_8192E_IQK
++#include "rtl8192e/version_rtl8192e.h"
++#if (DM_ODM_SUPPORT_TYPE != ODM_AP)
++	#include "rtl8192e/halhwimg8192e_bb.h"
++	#include "rtl8192e/halhwimg8192e_mac.h"
++	#include "rtl8192e/halhwimg8192e_rf.h"
++	#include "rtl8192e/phydm_regconfig8192e.h"
++	#include "rtl8192e/halhwimg8192e_fw.h"
++	#include "rtl8192e/hal8192ereg.h"
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#include "rtl8192e_hal.h"
++#endif
++#endif  //92E END
++
++#if (RTL8812A_SUPPORT==1)
++
++    #if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++        #include "rtl8812a/halphyrf_8812a_win.h"
++    #elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++        #include "rtl8812a/halphyrf_8812a_ap.h"
++    #elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++        #include "rtl8812a/halphyrf_8812a_ce.h"
++    #endif
++
++    //#include "rtl8812a/HalPhyRf_8812A.h" //FOR_8812_IQK
++    #if (DM_ODM_SUPPORT_TYPE != ODM_AP)
++        #include "rtl8812a/halhwimg8812a_bb.h"
++        #include "rtl8812a/halhwimg8812a_mac.h"
++        #include "rtl8812a/halhwimg8812a_rf.h"
++        #include "rtl8812a/phydm_regconfig8812a.h"
++        #include "rtl8812a/halhwimg8812a_fw.h"
++        #include "rtl8812a/phydm_rtl8812a.h"
++    #endif
++
++    #if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	    #include "rtl8812a_hal.h"
++    #endif
++	#include "rtl8812a/version_rtl8812a.h"
++
++#endif //8812 END
++
++#if (RTL8814A_SUPPORT==1)
++
++#include "rtl8814a/halhwimg8814a_mac.h"
++#include "rtl8814a/halhwimg8814a_rf.h"
++#include "rtl8814a/halhwimg8814a_bb.h"
++#include "rtl8814a/version_rtl8814a.h"
++#include "rtl8814a/phydm_rtl8814a.h"
++#if (DM_ODM_SUPPORT_TYPE != ODM_AP)
++	#include "rtl8814a/halhwimg8814a_fw.h"
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#include "rtl8814a/halphyrf_8814a_win.h"
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#include "rtl8814a/halphyrf_8814a_ce.h"
++#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	#include "rtl8814a/halphyrf_8814a_ap.h"
++#endif
++	#include "rtl8814a/phydm_regconfig8814a.h"
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#include "rtl8814a_hal.h"
++	#include "rtl8814a/phydm_iqk_8814a.h"
++#endif
++#endif //8814 END
++
++#if (RTL8881A_SUPPORT==1)//FOR_8881_IQK
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#include "rtl8821a/phydm_iqk_8821a_win.h"
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++#include "rtl8821a/phydm_iqk_8821a_ce.h"
++#else
++#include "rtl8821a/phydm_iqk_8821a_ap.h"
++#endif
++//#include "rtl8881a/HalHWImg8881A_BB.h"
++//#include "rtl8881a/HalHWImg8881A_MAC.h"
++//#include "rtl8881a/HalHWImg8881A_RF.h"
++//#include "rtl8881a/odm_RegConfig8881A.h"
++#endif
++
++#if (RTL8723B_SUPPORT==1) 
++#include "rtl8723b/halhwimg8723b_mac.h"
++#include "rtl8723b/halhwimg8723b_rf.h"
++#include "rtl8723b/halhwimg8723b_bb.h"
++#include "rtl8723b/halhwimg8723b_fw.h"
++#include "rtl8723b/phydm_regconfig8723b.h"
++#include "rtl8723b/phydm_rtl8723b.h"
++#include "rtl8723b/hal8723breg.h"
++#include "rtl8723b/version_rtl8723b.h"
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++    #include "rtl8723b/halphyrf_8723b_win.h"
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++    #include "rtl8723b/halphyrf_8723b_ce.h"
++    #include "rtl8723b/halhwimg8723b_mp.h"
++    #include "rtl8723b_hal.h"
++#else
++     #include "rtl8723b/halphyrf_8723b_ap.h"
++#endif
++#endif
++
++#if (RTL8821A_SUPPORT==1) 
++#include "rtl8821a/halhwimg8821a_mac.h"
++#include "rtl8821a/halhwimg8821a_rf.h"
++#include "rtl8821a/halhwimg8821a_bb.h"
++#include "rtl8821a/halhwimg8821a_fw.h"
++#include "rtl8821a/phydm_regconfig8821a.h"
++#include "rtl8821a/phydm_rtl8821a.h"
++#include "rtl8821a/version_rtl8821a.h"
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#include "rtl8821a/halphyrf_8821a_win.h"
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#include "rtl8821a/halphyrf_8821a_ce.h"
++	#include "rtl8821a/phydm_iqk_8821a_ce.h"/*for IQK*/
++	#include "rtl8812a/halphyrf_8812a_ce.h"/*for IQK,LCK,Power-tracking*/
++	#include "rtl8812a_hal.h"
++#else
++#endif
++#endif
++
++#if (RTL8822B_SUPPORT==1) 
++#include "rtl8822b/halhwimg8822b_mac.h"
++#include "rtl8822b/halhwimg8822b_rf.h"
++#include "rtl8822b/halhwimg8822b_bb.h"
++#include "rtl8822b/halhwimg8822b_fw.h"
++#include "rtl8822b/phydm_regconfig8822b.h"
++#include "rtl8822b/halphyrf_8822b.h"
++#include "rtl8822b/phydm_rtl8822b.h"
++#include "rtl8822b/phydm_hal_api8822b.h"
++#include "rtl8822b/version_rtl8822b.h"
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++#include <hal_data.h>		/* struct HAL_DATA_TYPE */
++#include <rtl8822b_hal.h>	/* Rx_Smooth_Factor, reg definition and etc.*/
++#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++#endif
++
++#endif
++
++#if (RTL8703B_SUPPORT==1) 
++#include "rtl8703b/phydm_regconfig8703b.h"
++#include "rtl8703b/halhwimg8703b_mac.h"
++#include "rtl8703b/halhwimg8703b_rf.h"
++#include "rtl8703b/halhwimg8703b_bb.h"
++#include "rtl8703b/halhwimg8703b_fw.h"
++#include "rtl8703b/halphyrf_8703b.h"
++#include "rtl8703b/version_rtl8703b.h"
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++#include "rtl8703b_hal.h"
++#endif
++#endif
++
++#if (RTL8188F_SUPPORT == 1) 
++#include "rtl8188f/halhwimg8188f_mac.h"
++#include "rtl8188f/halhwimg8188f_rf.h"
++#include "rtl8188f/halhwimg8188f_bb.h"
++#include "rtl8188f/halhwimg8188f_fw.h"
++#include "rtl8188f/hal8188freg.h"
++#include "rtl8188f/phydm_rtl8188f.h"
++#include "rtl8188f/phydm_regconfig8188f.h"
++#include "rtl8188f/halphyrf_8188f.h" /* for IQK,LCK,Power-tracking */
++#include "rtl8188f/version_rtl8188f.h"
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++#include "rtl8188f_hal.h"
++#endif
++#endif
++
++#if (RTL8723D_SUPPORT==1)
++  #if (DM_ODM_SUPPORT_TYPE != ODM_AP)
++	
++	#include "rtl8723d/halhwimg8723d_bb.h"
++	#include "rtl8723d/halhwimg8723d_mac.h"
++	#include "rtl8723d/halhwimg8723d_rf.h"
++	#include "rtl8723d/phydm_regconfig8723d.h"
++	#include "rtl8723d/halhwimg8723d_fw.h"
++	#include "rtl8723d/hal8723dreg.h"
++	#include "rtl8723d/phydm_rtl8723d.h"
++	#include "rtl8723d/halphyrf_8723d.h"
++	#include "rtl8723d/version_rtl8723d.h"
++  #endif
++  #if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#include "rtl8723d_hal.h"
++  #endif
++#endif	//8723D End
++
++#if (RTL8197F_SUPPORT == 1) 
++#include "rtl8197f/halhwimg8197f_mac.h"
++#include "rtl8197f/halhwimg8197f_rf.h"
++#include "rtl8197f/halhwimg8197f_bb.h"
++#include "rtl8197f/phydm_hal_api8197f.h"
++#include "rtl8197f/version_rtl8197f.h"
++#include "rtl8197f/phydm_rtl8197f.h"
++#include "rtl8197f/phydm_regconfig8197f.h"
++#include "rtl8197f/halphyrf_8197f.h"
++#include "rtl8197f/phydm_iqk_8197f.h"
++#endif
++
++#if (RTL8821C_SUPPORT==1)
++#include "rtl8821c/phydm_hal_api8821c.h"
++#include "rtl8821c/halhwimg8821c_testchip_mac.h"
++#include "rtl8821c/halhwimg8821c_testchip_rf.h"
++#include "rtl8821c/halhwimg8821c_testchip_bb.h"
++#include "rtl8821c/phydm_regconfig8821c.h"
++#include "rtl8821c/version_rtl8821c.h"
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#include "rtl8821c_hal.h"
++#endif
++#endif
++
++#endif	// __ODM_PRECOMP_H__
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_rainfo.c b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_rainfo.c
+new file mode 100644
+index 0000000..b3ffedf
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_rainfo.c
+@@ -0,0 +1,3358 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#if (defined(CONFIG_RA_DBG_CMD))
++VOID
++odm_RA_ParaAdjust_Send_H2C(
++	IN	PVOID	pDM_VOID
++)
++{
++
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++	u1Byte			H2C_Parameter[6] = {0};
++
++	H2C_Parameter[0] = RA_FIRST_MACID;
++
++	if (pRA_Table->RA_Para_feedback_req) { /*H2C_Parameter[5]=1 ; ask FW for all RA parameters*/
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("[H2C] Ask FW for RA parameter\n"));
++		H2C_Parameter[5] |= BIT1; /*ask FW to report RA parameters*/
++		H2C_Parameter[1] = pRA_Table->para_idx; /*pRA_Table->para_idx;*/
++		pRA_Table->RA_Para_feedback_req = 0;
++	} else {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("[H2C] Send H2C to FW for modifying RA parameter\n"));
++
++		H2C_Parameter[1] =  pRA_Table->para_idx;
++		H2C_Parameter[2] =  pRA_Table->rate_idx;
++		/* [8 bit]*/
++		if (pRA_Table->para_idx == RADBG_RTY_PENALTY || pRA_Table->para_idx == RADBG_RATE_UP_RTY_RATIO || pRA_Table->para_idx == RADBG_RATE_DOWN_RTY_RATIO) {
++			H2C_Parameter[3] = pRA_Table->value;
++			H2C_Parameter[4] = 0;
++		}
++		/* [16 bit]*/
++		else {
++			H2C_Parameter[3] = (u1Byte)(((pRA_Table->value_16) & 0xf0) >> 4); /*byte1*/
++			H2C_Parameter[4] = (u1Byte)((pRA_Table->value_16) & 0x0f);	/*byte0*/
++		}
++	}
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" H2C_Parameter[1] = 0x%x\n", H2C_Parameter[1]));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" H2C_Parameter[2] = 0x%x\n", H2C_Parameter[2]));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" H2C_Parameter[3] = 0x%x\n", H2C_Parameter[3]));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" H2C_Parameter[4] = 0x%x\n", H2C_Parameter[4]));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" H2C_Parameter[5] = 0x%x\n", H2C_Parameter[5]));
++
++	ODM_FillH2CCmd(pDM_Odm, ODM_H2C_RA_PARA_ADJUST, 6, H2C_Parameter);
++
++}
++
++
++VOID
++odm_RA_ParaAdjust(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++	u1Byte			rate_idx = pRA_Table->rate_idx;
++	u1Byte			value = pRA_Table->value;
++	u1Byte			Pre_value = 0xff;
++
++	if (pRA_Table->para_idx == RADBG_RTY_PENALTY) {
++		Pre_value = pRA_Table->RTY_P[rate_idx];
++		pRA_Table->RTY_P[rate_idx] = value;
++		pRA_Table->RTY_P_modify_note[rate_idx] = 1;
++	} else if (pRA_Table->para_idx == RADBG_N_HIGH) {
++
++	} else if (pRA_Table->para_idx == RADBG_N_LOW) {
++
++	} else if (pRA_Table->para_idx == RADBG_RATE_UP_RTY_RATIO) {
++		Pre_value = pRA_Table->RATE_UP_RTY_RATIO[rate_idx];
++		pRA_Table->RATE_UP_RTY_RATIO[rate_idx] = value;
++		pRA_Table->RATE_UP_RTY_RATIO_modify_note[rate_idx] = 1;
++	} else if (pRA_Table->para_idx == RADBG_RATE_DOWN_RTY_RATIO) {
++		Pre_value = pRA_Table->RATE_DOWN_RTY_RATIO[rate_idx];
++		pRA_Table->RATE_DOWN_RTY_RATIO[rate_idx] = value;
++		pRA_Table->RATE_DOWN_RTY_RATIO_modify_note[rate_idx] = 1;
++	}
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("Change RA Papa[%d], Rate[ %d ],   ((%d))  ->  ((%d))\n", pRA_Table->para_idx, rate_idx, Pre_value, value));
++	odm_RA_ParaAdjust_Send_H2C(pDM_Odm);
++}
++
++VOID
++phydm_ra_print_msg(
++	IN		PVOID		pDM_VOID,
++	IN		u1Byte		*value,
++	IN		u1Byte		*value_default,
++	IN		u1Byte		*modify_note
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++	u4Byte i;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" |Rate index| |Current-value| |Default-value| |Modify?|\n"));
++	for (i = 0 ; i <= (pRA_Table->rate_length); i++) {
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("     [ %d ]  %20d  %25d  %20s\n", i, value[i], value_default[i], ((modify_note[i] == 1) ? "V" : " .  ")));
++#else
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("     [ %d ]  %10d  %14d  %14s\n", i, value[i], value_default[i], ((modify_note[i] == 1) ? "V" : " .  ")));
++#endif
++	}
++
++}
++
++VOID
++odm_RA_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++
++	pRA_Table->is_ra_dbg_init = FALSE;
++
++	if (dm_value[0] == 100) { /*1 Print RA Parameters*/
++		u1Byte	default_pointer_value;
++		u1Byte	*pvalue;
++		u1Byte	*pvalue_default;
++		u1Byte	*pmodify_note;
++
++		pvalue = pvalue_default = pmodify_note = &default_pointer_value;
++
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("\n------------------------------------------------------------------------------------\n"));
++
++		if (dm_value[1] == RADBG_RTY_PENALTY) { /* [1]*/
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" [1] RTY_PENALTY\n"));
++			pvalue		=	&(pRA_Table->RTY_P[0]);
++			pvalue_default	=	&(pRA_Table->RTY_P_default[0]);
++			pmodify_note	=	(u1Byte *)&(pRA_Table->RTY_P_modify_note[0]);
++		} else if (dm_value[1] == RADBG_N_HIGH) { /* [2]*/
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" [2] N_HIGH\n"));
++
++		} else if (dm_value[1] == RADBG_N_LOW) { /*[3]*/
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" [3] N_LOW\n"));
++
++		} else if (dm_value[1] == RADBG_RATE_UP_RTY_RATIO) { /* [8]*/
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" [8] RATE_UP_RTY_RATIO\n"));
++			pvalue		=	&(pRA_Table->RATE_UP_RTY_RATIO[0]);
++			pvalue_default	=	&(pRA_Table->RATE_UP_RTY_RATIO_default[0]);
++			pmodify_note	=	(u1Byte *)&(pRA_Table->RATE_UP_RTY_RATIO_modify_note[0]);
++		} else if (dm_value[1] == RADBG_RATE_DOWN_RTY_RATIO) { /* [9]*/
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" [9] RATE_DOWN_RTY_RATIO\n"));
++			pvalue		=	&(pRA_Table->RATE_DOWN_RTY_RATIO[0]);
++			pvalue_default	=	&(pRA_Table->RATE_DOWN_RTY_RATIO_default[0]);
++			pmodify_note	=	(u1Byte *)&(pRA_Table->RATE_DOWN_RTY_RATIO_modify_note[0]);
++		}
++
++		phydm_ra_print_msg(pDM_Odm, pvalue, pvalue_default, pmodify_note);
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("\n------------------------------------------------------------------------------------\n\n"));
++
++	} else if (dm_value[0] == 101) {
++		pRA_Table->para_idx = (u1Byte)dm_value[1];
++
++		pRA_Table->RA_Para_feedback_req = 1;
++		odm_RA_ParaAdjust_Send_H2C(pDM_Odm);
++	} else {
++		pRA_Table->para_idx = (u1Byte)dm_value[0];
++		pRA_Table->rate_idx  = (u1Byte)dm_value[1];
++		pRA_Table->value = (u1Byte)dm_value[2];
++
++		odm_RA_ParaAdjust(pDM_Odm);
++	}
++}
++
++VOID
++odm_RA_ParaAdjust_init(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++	u1Byte			i;
++	u1Byte			ra_para_pool_u8[3] = { RADBG_RTY_PENALTY,  RADBG_RATE_UP_RTY_RATIO, RADBG_RATE_DOWN_RTY_RATIO};
++	u1Byte			RateSize_HT_1ss = 20, RateSize_HT_2ss = 28, RateSize_HT_3ss = 36;	 /*4+8+8+8+8 =36*/
++	u1Byte			RateSize_VHT_1ss = 10, RateSize_VHT_2ss = 20, RateSize_VHT_3ss = 30;	 /*10 + 10 +10 =30*/
++	/*
++		RTY_PENALTY		=	1,  //u8
++		N_HIGH 				=	2,
++		N_LOW				=	3,
++		RATE_UP_TABLE		=	4,
++		RATE_DOWN_TABLE	=	5,
++		TRYING_NECESSARY	=	6,
++		DROPING_NECESSARY =	7,
++		RATE_UP_RTY_RATIO	=	8, //u8
++		RATE_DOWN_RTY_RATIO=	9, //u8
++		ALL_PARA		=	0xff
++
++	*/
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("odm_RA_ParaAdjust_init\n"));
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8188F | ODM_RTL8195A | ODM_RTL8703B | ODM_RTL8723B | ODM_RTL8188E | ODM_RTL8723D))
++		pRA_Table->rate_length = RateSize_HT_1ss;
++	else if (pDM_Odm->SupportICType & (ODM_RTL8192E | ODM_RTL8197F))
++		pRA_Table->rate_length = RateSize_HT_2ss;
++	else if (pDM_Odm->SupportICType & (ODM_RTL8821 | ODM_RTL8881A | ODM_RTL8821C))
++		pRA_Table->rate_length = RateSize_HT_1ss + RateSize_VHT_1ss;
++	else if (pDM_Odm->SupportICType & (ODM_RTL8812 | ODM_RTL8822B))
++		pRA_Table->rate_length = RateSize_HT_2ss + RateSize_VHT_2ss;
++	else if (pDM_Odm->SupportICType == ODM_RTL8814A)
++		pRA_Table->rate_length = RateSize_HT_3ss + RateSize_VHT_3ss;
++	else
++		pRA_Table->rate_length = RateSize_HT_1ss;
++
++	pRA_Table->is_ra_dbg_init = TRUE;
++	for (i = 0; i < 3; i++) {
++		pRA_Table->RA_Para_feedback_req = 1;
++		pRA_Table->para_idx	=	ra_para_pool_u8[i];
++		odm_RA_ParaAdjust_Send_H2C(pDM_Odm);
++	}
++}
++
++#else
++
++VOID
++phydm_RA_debug_PCR(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char			*output,
++	IN		u4Byte		*_out_len
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++	u4Byte used = *_used;
++	u4Byte out_len = *_out_len;
++
++	if (dm_value[0] == 100) {
++		PHYDM_SNPRINTF((output+used, out_len-used, "[Get] PCR RA_threshold_offset = (( %s%d ))\n", ((pRA_Table->RA_threshold_offset == 0) ? " " : ((pRA_Table->RA_offset_direction) ? "+" : "-")), pRA_Table->RA_threshold_offset));
++		/**/
++	} else if (dm_value[0] == 0) {
++		pRA_Table->RA_offset_direction = 0;
++		pRA_Table->RA_threshold_offset = (u1Byte)dm_value[1];
++		PHYDM_SNPRINTF((output+used, out_len-used, "[Set] PCR RA_threshold_offset = (( -%d ))\n", pRA_Table->RA_threshold_offset));
++	} else if (dm_value[0] == 1) {
++		pRA_Table->RA_offset_direction = 1;
++		pRA_Table->RA_threshold_offset = (u1Byte)dm_value[1];
++		PHYDM_SNPRINTF((output+used, out_len-used, "[Set] PCR RA_threshold_offset = (( +%d ))\n", pRA_Table->RA_threshold_offset));
++	} else {
++		PHYDM_SNPRINTF((output+used, out_len-used, "[Set] Error\n"));
++		/**/
++	}
++	
++}
++
++#endif /*#if (defined(CONFIG_RA_DBG_CMD))*/
++
++VOID
++ODM_C2HRaParaReportHandler(
++	IN	PVOID	pDM_VOID,
++	IN	pu1Byte	CmdBuf,
++	IN	u1Byte	CmdLen
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++
++	u1Byte	para_idx = CmdBuf[0]; /*Retry Penalty, NH, NL*/
++	u1Byte	RateTypeStart = CmdBuf[1];
++	u1Byte	RateTypeLength = CmdLen - 2;
++	u1Byte	i;
++
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("[ From FW C2H RA Para ]  CmdBuf[0]= (( %d ))\n", CmdBuf[0]));
++	
++#if (defined(CONFIG_RA_DBG_CMD))
++	if (para_idx == RADBG_RTY_PENALTY) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" |Rate Index|   |RTY Penality Index|\n"));
++
++		for (i = 0 ; i < (RateTypeLength) ; i++) {
++			if (pRA_Table->is_ra_dbg_init)
++				pRA_Table->RTY_P_default[RateTypeStart + i] = CmdBuf[2 + i];
++
++			pRA_Table->RTY_P[RateTypeStart + i] = CmdBuf[2 + i];
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("%8d  %15d \n", (RateTypeStart + i), pRA_Table->RTY_P[RateTypeStart + i]));
++		}
++
++	} else	if (para_idx == RADBG_N_HIGH) {
++		/**/
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" |Rate Index|    |N-High|\n"));
++
++
++	} else if (para_idx == RADBG_N_LOW) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" |Rate Index|   |N-Low|\n"));
++		/**/
++	}
++	else if (para_idx == RADBG_RATE_UP_RTY_RATIO) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" |Rate Index|   |Rate Up RTY Ratio|\n"));
++
++		for (i = 0; i < (RateTypeLength); i++) {
++			if (pRA_Table->is_ra_dbg_init)
++				pRA_Table->RATE_UP_RTY_RATIO_default[RateTypeStart + i] = CmdBuf[2 + i];
++
++			pRA_Table->RATE_UP_RTY_RATIO[RateTypeStart + i] = CmdBuf[2 + i];
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("%8d  %15d\n", (RateTypeStart + i), pRA_Table->RATE_UP_RTY_RATIO[RateTypeStart + i]));
++		}
++	} else	 if (para_idx == RADBG_RATE_DOWN_RTY_RATIO) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" |Rate Index|   |Rate Down RTY Ratio|\n"));
++
++		for (i = 0; i < (RateTypeLength); i++) {
++			if (pRA_Table->is_ra_dbg_init)
++				pRA_Table->RATE_DOWN_RTY_RATIO_default[RateTypeStart + i] = CmdBuf[2 + i];
++
++			pRA_Table->RATE_DOWN_RTY_RATIO[RateTypeStart + i] = CmdBuf[2 + i];
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("%8d  %15d\n", (RateTypeStart + i), pRA_Table->RATE_DOWN_RTY_RATIO[RateTypeStart + i]));
++		}
++	} else	 
++#endif
++	if (para_idx == RADBG_DEBUG_MONITOR1) {
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("-------------------------------\n"));
++		if (pDM_Odm->SupportICType & PHYDM_IC_3081_SERIES) {
++
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "RSSI =", CmdBuf[1]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "Rate =", CmdBuf[2] & 0x7f));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "SGI =", (CmdBuf[2] & 0x80) >> 7));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "BW =", CmdBuf[3]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "BW_max =", CmdBuf[4]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "multi_rate0 =", CmdBuf[5]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "multi_rate1 =", CmdBuf[6]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "DISRA =",	CmdBuf[7]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "VHT_EN =", CmdBuf[8]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "SGI_support =",	CmdBuf[9]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "try_ness =", CmdBuf[10]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "pre_rate =", CmdBuf[11]));
++		} else {
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "RSSI =", CmdBuf[1]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %x\n", "BW =", CmdBuf[2]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "DISRA =", CmdBuf[3]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "VHT_EN =", CmdBuf[4]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "Hightest Rate =", CmdBuf[5]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "Lowest Rate =", CmdBuf[6]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "SGI_support =", CmdBuf[7]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "Rate_ID =",	CmdBuf[8]));;
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("-------------------------------\n"));
++	} else	 if (para_idx == RADBG_DEBUG_MONITOR2) {
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("-------------------------------\n"));
++		if (pDM_Odm->SupportICType & PHYDM_IC_3081_SERIES) {
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "RateID =", CmdBuf[1]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "highest_rate =", CmdBuf[2]));
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "lowest_rate =", CmdBuf[3]));
++
++			for (i = 4; i <= 11; i++)
++				ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("RAMASK =  0x%x\n", CmdBuf[i]));
++		} else {
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %x%x  %x%x  %x%x  %x%x\n", "RA Mask:",
++						CmdBuf[8], CmdBuf[7], CmdBuf[6], CmdBuf[5], CmdBuf[4], CmdBuf[3], CmdBuf[2], CmdBuf[1]));
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("-------------------------------\n"));
++	} else	 if (para_idx == RADBG_DEBUG_MONITOR3) {
++
++		for (i = 0; i < (CmdLen - 1); i++)
++			ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("content[%d] = %d\n", i, CmdBuf[1 + i]));
++	} else	 if (para_idx == RADBG_DEBUG_MONITOR4)
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  {%d.%d}\n", "RA Version =", CmdBuf[1], CmdBuf[2]));
++		else if (para_idx == RADBG_DEBUG_MONITOR5) {
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "Current rate =", CmdBuf[1]));
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "Retry ratio =", CmdBuf[2]));
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  %d\n", "Rate down ratio =", CmdBuf[3]));
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x\n", "highest rate =", CmdBuf[4]));
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  {0x%x 0x%x}\n", "Muti-try =", CmdBuf[5], CmdBuf[6]));
++		ODM_RT_TRACE(pDM_Odm, ODM_FW_DEBUG_TRACE, ODM_DBG_LOUD, ("%5s  0x%x%x%x%x%x\n", "RA mask =", CmdBuf[11], CmdBuf[10], CmdBuf[9], CmdBuf[8], CmdBuf[7]));
++	}
++}
++
++VOID
++phydm_ra_dynamic_retry_count(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T		        pRA_Table = &pDM_Odm->DM_RA_Table;
++	PSTA_INFO_T		pEntry;
++	u1Byte	i, retry_offset;
++	u4Byte	ma_rx_tp;
++
++	if (!(pDM_Odm->SupportAbility & ODM_BB_DYNAMIC_ARFR)) {
++		return;
++	}
++
++	/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("pDM_Odm->pre_b_noisy = %d\n", pDM_Odm->pre_b_noisy ));*/
++	if (pDM_Odm->pre_b_noisy != pDM_Odm->NoisyDecision) {
++
++		if (pDM_Odm->NoisyDecision) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("->Noisy Env. RA fallback value\n"));
++			ODM_SetMACReg(pDM_Odm, 0x430, bMaskDWord, 0x0);
++			ODM_SetMACReg(pDM_Odm, 0x434, bMaskDWord, 0x04030201);		
++		} else {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("->Clean Env. RA fallback value\n"));
++			ODM_SetMACReg(pDM_Odm, 0x430, bMaskDWord, 0x01000000);
++			ODM_SetMACReg(pDM_Odm, 0x434, bMaskDWord, 0x06050402);		
++		}
++		pDM_Odm->pre_b_noisy = pDM_Odm->NoisyDecision;
++	}
++}
++
++#if (defined(CONFIG_RA_DYNAMIC_RTY_LIMIT))
++
++VOID
++phydm_retry_limit_table_bound(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	*retry_limit,
++	IN	u1Byte	offset
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T		        pRA_Table = &pDM_Odm->DM_RA_Table;
++
++	if (*retry_limit >  offset) {
++		
++		*retry_limit -= offset;
++		
++		if (*retry_limit < pRA_Table->retrylimit_low)
++			*retry_limit = pRA_Table->retrylimit_low;
++		else if (*retry_limit > pRA_Table->retrylimit_high)
++			*retry_limit = pRA_Table->retrylimit_high;
++	} else
++		*retry_limit = pRA_Table->retrylimit_low;
++}
++
++VOID
++phydm_reset_retry_limit_table(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T		        pRA_Table = &pDM_Odm->DM_RA_Table;
++	u1Byte			i;
++
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN) /*support all IC platform*/
++
++	#else
++		#if ((RTL8192E_SUPPORT == 1) || (RTL8723B_SUPPORT == 1) || (RTL8188E_SUPPORT == 1)) 
++			u1Byte per_rate_retrylimit_table_20M[ODM_RATEMCS15+1] = {
++				1, 1, 2, 4,					/*CCK*/
++				2, 2, 4, 6, 8, 12, 16, 18,		/*OFDM*/
++				2, 4, 6, 8, 12, 18, 20, 22,		/*20M HT-1SS*/
++				2, 4, 6, 8, 12, 18, 20, 22		/*20M HT-2SS*/
++			};
++			u1Byte per_rate_retrylimit_table_40M[ODM_RATEMCS15+1] = {
++				1, 1, 2, 4,					/*CCK*/
++				2, 2, 4, 6, 8, 12, 16, 18,		/*OFDM*/
++				4, 8, 12, 16, 24, 32, 32, 32,		/*40M HT-1SS*/
++				4, 8, 12, 16, 24, 32, 32, 32		/*40M HT-2SS*/
++			};
++
++		#elif (RTL8821A_SUPPORT == 1) || (RTL8881A_SUPPORT == 1) 
++
++		#elif (RTL8812A_SUPPORT == 1)
++
++		#elif(RTL8814A_SUPPORT == 1)
++
++		#else
++
++		#endif
++	#endif
++
++	memcpy(&(pRA_Table->per_rate_retrylimit_20M[0]), &(per_rate_retrylimit_table_20M[0]), ODM_NUM_RATE_IDX);
++	memcpy(&(pRA_Table->per_rate_retrylimit_40M[0]), &(per_rate_retrylimit_table_40M[0]), ODM_NUM_RATE_IDX);
++
++	for (i = 0; i < ODM_NUM_RATE_IDX; i++) {
++		phydm_retry_limit_table_bound(pDM_Odm, &(pRA_Table->per_rate_retrylimit_20M[i]), 0);
++		phydm_retry_limit_table_bound(pDM_Odm, &(pRA_Table->per_rate_retrylimit_40M[i]), 0);
++	}	
++}
++
++VOID
++phydm_ra_dynamic_retry_limit_init(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++
++	pRA_Table->retry_descend_num = RA_RETRY_DESCEND_NUM;
++	pRA_Table->retrylimit_low = RA_RETRY_LIMIT_LOW;
++	pRA_Table->retrylimit_high = RA_RETRY_LIMIT_HIGH;
++	
++	phydm_reset_retry_limit_table(pDM_Odm);
++	
++}
++
++#endif
++
++VOID
++phydm_ra_dynamic_retry_limit(
++	IN	PVOID	pDM_VOID
++)
++{
++#if (defined(CONFIG_RA_DYNAMIC_RTY_LIMIT))
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T		        pRA_Table = &pDM_Odm->DM_RA_Table;
++	PSTA_INFO_T		pEntry;
++	u1Byte	i, retry_offset;
++	u4Byte	ma_rx_tp;
++
++
++	if (pDM_Odm->pre_number_active_client == pDM_Odm->number_active_client) {
++		
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, (" pre_number_active_client ==  number_active_client\n"));
++		return;
++		
++	} else {
++		if (pDM_Odm->number_active_client == 1) {
++			phydm_reset_retry_limit_table(pDM_Odm);
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("one client only->reset to default value\n"));
++		} else {
++
++			retry_offset = pDM_Odm->number_active_client * pRA_Table->retry_descend_num;
++			
++			for (i = 0; i < ODM_NUM_RATE_IDX; i++) {
++
++				phydm_retry_limit_table_bound(pDM_Odm, &(pRA_Table->per_rate_retrylimit_20M[i]), retry_offset);
++				phydm_retry_limit_table_bound(pDM_Odm, &(pRA_Table->per_rate_retrylimit_40M[i]), retry_offset);	
++			}				
++		}
++	}
++#endif
++}
++
++#if (defined(CONFIG_RA_DYNAMIC_RATE_ID))
++VOID
++phydm_ra_dynamic_rate_id_on_assoc(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	wireless_mode,
++	IN	u1Byte	init_rate_id
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("[ON ASSOC] rf_mode = ((0x%x)), wireless_mode = ((0x%x)), init_rate_id = ((0x%x))\n", pDM_Odm->RFType, wireless_mode, init_rate_id));
++	
++	if ((pDM_Odm->RFType == ODM_2T2R) | (pDM_Odm->RFType == ODM_2T2R_GREEN) | (pDM_Odm->RFType == ODM_2T3R) | (pDM_Odm->RFType == ODM_2T4R)) {
++		
++		if ((pDM_Odm->SupportICType & (ODM_RTL8812|ODM_RTL8192E)) &&
++			(wireless_mode & (ODM_WM_N24G | ODM_WM_N5G))
++			){
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("[ON ASSOC] set N-2SS ARFR5 table\n"));
++			ODM_SetMACReg(pDM_Odm, 0x4a4, bMaskDWord, 0xfc1ffff);	/*N-2SS, ARFR5, rate_id = 0xe*/
++			ODM_SetMACReg(pDM_Odm, 0x4a8, bMaskDWord, 0x0);		/*N-2SS, ARFR5, rate_id = 0xe*/
++		} else if ((pDM_Odm->SupportICType & (ODM_RTL8812)) &&
++			(wireless_mode & (ODM_WM_AC_5G | ODM_WM_AC_24G | ODM_WM_AC_ONLY))
++			){
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("[ON ASSOC] set AC-2SS ARFR0 table\n"));
++			ODM_SetMACReg(pDM_Odm, 0x444, bMaskDWord, 0x0fff);	/*AC-2SS, ARFR0, rate_id = 0x9*/
++			ODM_SetMACReg(pDM_Odm, 0x448, bMaskDWord, 0xff01f000);		/*AC-2SS, ARFR0, rate_id = 0x9*/
++		}
++	}
++
++}
++
++VOID
++phydm_ra_dynamic_rate_id_init(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	if (pDM_Odm->SupportICType & (ODM_RTL8812|ODM_RTL8192E)) {
++		
++		ODM_SetMACReg(pDM_Odm, 0x4a4, bMaskDWord, 0xfc1ffff);	/*N-2SS, ARFR5, rate_id = 0xe*/
++		ODM_SetMACReg(pDM_Odm, 0x4a8, bMaskDWord, 0x0);		/*N-2SS, ARFR5, rate_id = 0xe*/
++		
++		ODM_SetMACReg(pDM_Odm, 0x444, bMaskDWord, 0x0fff);		/*AC-2SS, ARFR0, rate_id = 0x9*/
++		ODM_SetMACReg(pDM_Odm, 0x448, bMaskDWord, 0xff01f000);	/*AC-2SS, ARFR0, rate_id = 0x9*/
++	}
++}
++
++VOID
++phydm_update_rate_id(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	rate,
++	IN	u1Byte	platform_macid
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T		pRA_Table = &pDM_Odm->DM_RA_Table;
++	u1Byte		current_tx_ss;
++	u1Byte		rate_idx = rate & 0x7f; /*remove bit7 SGI*/
++	u1Byte		wireless_mode;
++	u1Byte		phydm_macid;
++	PSTA_INFO_T	pEntry;
++	
++	
++#if	0
++	if (rate_idx >= ODM_RATEVHTSS2MCS0) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("Rate[%d]: (( VHT2SS-MCS%d ))\n", platform_macid, (rate_idx-ODM_RATEVHTSS2MCS0)));
++		/*dummy for SD4 check patch*/
++	} else if (rate_idx >= ODM_RATEVHTSS1MCS0) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("Rate[%d]: (( VHT1SS-MCS%d ))\n", platform_macid, (rate_idx-ODM_RATEVHTSS1MCS0)));
++		/*dummy for SD4 check patch*/
++	} else if (rate_idx >= ODM_RATEMCS0) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("Rate[%d]: (( HT-MCS%d ))\n", platform_macid, (rate_idx-ODM_RATEMCS0)));
++		/*dummy for SD4 check patch*/
++	} else {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("Rate[%d]: (( HT-MCS%d ))\n", platform_macid, rate_idx));
++		/*dummy for SD4 check patch*/
++	}
++#endif
++		
++	phydm_macid = pDM_Odm->platform2phydm_macid_table[platform_macid];
++	pEntry = pDM_Odm->pODM_StaInfo[phydm_macid];
++	
++	if (IS_STA_VALID(pEntry)) {
++		wireless_mode = pEntry->WirelessMode;
++
++		if ((pDM_Odm->RFType  == ODM_2T2R) | (pDM_Odm->RFType  == ODM_2T2R_GREEN) | (pDM_Odm->RFType  == ODM_2T3R) | (pDM_Odm->RFType  == ODM_2T4R)) {
++			
++			pEntry->ratr_idx = pEntry->ratr_idx_init;
++			if (wireless_mode & (ODM_WM_N24G | ODM_WM_N5G)) { /*N mode*/
++				if (rate_idx >= ODM_RATEMCS8 && rate_idx <= ODM_RATEMCS15) { /*2SS mode*/
++					
++					pEntry->ratr_idx = ARFR_5_RATE_ID;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("ARFR_5\n"));
++				}
++			} else if (wireless_mode & (ODM_WM_AC_5G | ODM_WM_AC_24G | ODM_WM_AC_ONLY)) {/*AC mode*/
++				if (rate_idx >= ODM_RATEVHTSS2MCS0 && rate_idx <= ODM_RATEVHTSS2MCS9) {/*2SS mode*/
++					
++					pEntry->ratr_idx = ARFR_0_RATE_ID;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("ARFR_0\n"));
++				}
++			}
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("UPdate_RateID[%d]: (( 0x%x ))\n", platform_macid, pEntry->ratr_idx));
++		}
++	}
++
++}
++#endif
++
++VOID
++phydm_print_rate(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	rate,
++	IN	u4Byte	dbg_component
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte		legacy_table[12] = {1, 2, 5, 11, 6, 9, 12, 18, 24, 36, 48, 54};
++	u1Byte		rate_idx = rate & 0x7f; /*remove bit7 SGI*/
++	u1Byte		vht_en = (rate_idx >= ODM_RATEVHTSS1MCS0) ? 1 : 0;	
++	u1Byte		b_sgi = (rate & 0x80)>>7;
++	
++	ODM_RT_TRACE_F(pDM_Odm, dbg_component, ODM_DBG_LOUD, ("( %s%s%s%s%d%s%s)\n",
++		((rate_idx >= ODM_RATEVHTSS1MCS0) && (rate_idx <= ODM_RATEVHTSS1MCS9)) ? "VHT 1ss  " : "",
++		((rate_idx >= ODM_RATEVHTSS2MCS0) && (rate_idx <= ODM_RATEVHTSS2MCS9)) ? "VHT 2ss " : "",
++		((rate_idx >= ODM_RATEVHTSS3MCS0) && (rate_idx <= ODM_RATEVHTSS3MCS9)) ? "VHT 3ss " : "",
++		(rate_idx >= ODM_RATEMCS0) ? "MCS " : "",
++		(vht_en) ? ((rate_idx - ODM_RATEVHTSS1MCS0)%10) : ((rate_idx >= ODM_RATEMCS0) ? (rate_idx - ODM_RATEMCS0) : ((rate_idx <= ODM_RATE54M)?legacy_table[rate_idx]:0)),
++		(b_sgi) ? "-S" : "  ",
++		(rate_idx >= ODM_RATEMCS0) ? "" : "M"));
++}
++
++VOID
++phydm_c2h_ra_report_handler(
++	IN PVOID	pDM_VOID,
++	IN pu1Byte   CmdBuf,
++	IN u1Byte   CmdLen
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T		pRA_Table = &pDM_Odm->DM_RA_Table;
++	u1Byte	legacy_table[12] = {1,2,5,11,6,9,12,18,24,36,48,54};
++	u1Byte	macid = CmdBuf[1];
++	u1Byte	rate = CmdBuf[0];
++	u1Byte	rate_idx = rate & 0x7f; /*remove bit7 SGI*/
++	u1Byte	pre_rate = pRA_Table->link_tx_rate[macid];
++	u1Byte	rate_order;
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++
++	GET_HAL_DATA(Adapter)->CurrentRARate = HwRateToMRate(rate_idx);
++	#endif
++	
++	
++	if (CmdLen >= 4) {
++		if (CmdBuf[3] == 0) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("TX Init-Rate Update[%d]:", macid));
++			/**/
++		} else if (CmdBuf[3] == 0xff) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("FW Level: Fix rate[%d]:", macid));
++			/**/
++		} else if (CmdBuf[3] == 1) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("Try Success[%d]:", macid));
++			/**/
++		} else if (CmdBuf[3] == 2) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("Try Fail & Try Again[%d]:", macid));
++			/**/
++		} else if (CmdBuf[3] == 3) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("Rate Back[%d]:", macid));
++			/**/
++		} else if (CmdBuf[3] == 4) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("start rate by RSSI[%d]:", macid));
++			/**/
++		} else if (CmdBuf[3] == 5) {
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("Try rate[%d]:", macid));
++			/**/
++		}
++	} else {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("Tx Rate Update[%d]:", macid));
++		/**/
++	}
++	
++	/*phydm_print_rate(pDM_Odm, pre_rate_idx, ODM_COMP_RATE_ADAPTIVE);*/
++	/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, (">\n",macid );*/
++	phydm_print_rate(pDM_Odm, rate, ODM_COMP_RATE_ADAPTIVE);
++
++	pRA_Table->link_tx_rate[macid] = rate;
++
++	/*trigger power training*/
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++
++	rate_order = phydm_rate_order_compute(pDM_Odm, rate_idx);
++	
++	if ((pDM_Odm->bOneEntryOnly) ||
++		((rate_order > pRA_Table->highest_client_tx_order) && (pRA_Table->power_tracking_flag == 1))
++		) {
++		phydm_update_pwr_track(pDM_Odm, rate_idx);
++		pRA_Table->power_tracking_flag = 0;
++	}
++	
++	#endif
++	
++	/*trigger dynamic rate ID*/
++	#if (defined(CONFIG_RA_DYNAMIC_RATE_ID))
++	if (pDM_Odm->SupportICType & (ODM_RTL8812|ODM_RTL8192E))
++		phydm_update_rate_id(pDM_Odm, rate, macid);
++	#endif
++
++}
++
++VOID
++odm_RSSIMonitorInit(
++	IN		PVOID		pDM_VOID
++)
++{
++#if(DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T		pRA_Table = &pDM_Odm->DM_RA_Table;
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN))
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	pRA_Table->PT_collision_pre = TRUE;	/*used in ODM_DynamicARFBSelect(WIN only)*/
++	
++	pHalData->UndecoratedSmoothedPWDB = -1;
++	pHalData->ra_rpt_linked = FALSE;
++	#endif
++
++	pRA_Table->firstconnect = FALSE;
++
++	
++#endif
++}
++
++VOID
++ODM_RAPostActionOnAssoc(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++/*
++	pDM_Odm->H2C_RARpt_connect = 1;
++	odm_RSSIMonitorCheck(pDM_Odm);
++	pDM_Odm->H2C_RARpt_connect = 0;
++*/
++}
++
++VOID
++phydm_initRaInfo(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++#if (RTL8822B_SUPPORT == 1)
++	if (pDM_Odm->SupportICType == ODM_RTL8822B) {
++		u4Byte	ret_value;
++
++		ret_value = ODM_GetBBReg(pDM_Odm, 0x4c8, bMaskByte2);
++		ODM_SetBBReg(pDM_Odm, 0x4cc, bMaskByte3, (ret_value - 1));
++	}
++#endif
++}
++
++VOID
++odm_RSSIMonitorCheckMP(
++	IN	PVOID	pDM_VOID
++)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++	u1Byte			H2C_Parameter[H2C_0X42_LENGTH] = {0};
++	u4Byte			i;
++	BOOLEAN			bExtRAInfo = TRUE;
++	u1Byte			cmdlen = H2C_0X42_LENGTH;
++	u1Byte			TxBF_EN = 0, stbc_en = 0;
++
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PSTA_INFO_T		pEntry = NULL;
++	s4Byte			tmpEntryMaxPWDB = 0, tmpEntryMinPWDB = 0xff;
++	PMGNT_INFO		pMgntInfo = &Adapter->MgntInfo;
++	PMGNT_INFO		pDefaultMgntInfo = &Adapter->MgntInfo;
++	u8Byte			curTxOkCnt = 0, curRxOkCnt = 0;
++#if (BEAMFORMING_SUPPORT == 1)
++#ifndef BEAMFORMING_VERSION_1
++	BEAMFORMING_CAP Beamform_cap = BEAMFORMING_CAP_NONE;
++#endif
++#endif
++	PADAPTER	pLoopAdapter = GetDefaultAdapter(Adapter);
++
++	if (pDM_Odm->SupportICType == ODM_RTL8188E) {
++		bExtRAInfo = FALSE;
++		cmdlen = 3;
++	}
++
++	while (pLoopAdapter) {
++
++		if (pLoopAdapter != NULL) {
++			pMgntInfo = &pLoopAdapter->MgntInfo;
++			curTxOkCnt = pLoopAdapter->TxStats.NumTxBytesUnicast - pMgntInfo->lastTxOkCnt;
++			curRxOkCnt = pLoopAdapter->RxStats.NumRxBytesUnicast - pMgntInfo->lastRxOkCnt;
++			pMgntInfo->lastTxOkCnt = curTxOkCnt;
++			pMgntInfo->lastRxOkCnt = curRxOkCnt;
++		}
++
++		for (i = 0; i < ASSOCIATE_ENTRY_NUM; i++) {
++
++			if (IsAPModeExist(pLoopAdapter)) {
++				if (GetFirstExtAdapter(pLoopAdapter) != NULL &&
++					GetFirstExtAdapter(pLoopAdapter) == pLoopAdapter)
++					pEntry = AsocEntry_EnumStation(pLoopAdapter, i);
++				else if (GetFirstGOPort(pLoopAdapter) != NULL &&
++						 IsFirstGoAdapter(pLoopAdapter))
++					pEntry = AsocEntry_EnumStation(pLoopAdapter, i);
++			} else {
++				if (GetDefaultAdapter(pLoopAdapter) == pLoopAdapter)
++					pEntry = AsocEntry_EnumStation(pLoopAdapter, i);
++			}
++
++			if (pEntry != NULL) {
++				if (pEntry->bAssociated) {
++
++					RT_DISP_ADDR(FDM, DM_PWDB, ("pEntry->MacAddr ="), pEntry->MacAddr);
++					RT_DISP(FDM, DM_PWDB, ("pEntry->rssi = 0x%x(%d)\n",
++										   pEntry->rssi_stat.UndecoratedSmoothedPWDB, pEntry->rssi_stat.UndecoratedSmoothedPWDB));
++
++					//2 BF_en
++#if (BEAMFORMING_SUPPORT == 1)
++#ifndef BEAMFORMING_VERSION_1
++					Beamform_cap = phydm_Beamforming_GetEntryBeamCapByMacId(pDM_Odm, pEntry->AssociatedMacId);
++					if (Beamform_cap & (BEAMFORMER_CAP_HT_EXPLICIT | BEAMFORMER_CAP_VHT_SU))
++						TxBF_EN = 1;
++#else
++					if(Beamform_GetSupportBeamformerCap(GetDefaultAdapter(Adapter), pEntry))
++						TxBF_EN = 1;
++#endif
++#endif
++					//2 STBC_en
++					if ((IS_WIRELESS_MODE_AC(Adapter) && TEST_FLAG(pEntry->VHTInfo.STBC, STBC_VHT_ENABLE_TX)) ||
++						TEST_FLAG(pEntry->HTInfo.STBC, STBC_HT_ENABLE_TX))
++						stbc_en = 1;
++
++					if (pEntry->rssi_stat.UndecoratedSmoothedPWDB < tmpEntryMinPWDB)
++						tmpEntryMinPWDB = pEntry->rssi_stat.UndecoratedSmoothedPWDB;
++					if (pEntry->rssi_stat.UndecoratedSmoothedPWDB > tmpEntryMaxPWDB)
++						tmpEntryMaxPWDB = pEntry->rssi_stat.UndecoratedSmoothedPWDB;
++
++					H2C_Parameter[4] = (pRA_Table->RA_threshold_offset & 0x7f) | (pRA_Table->RA_offset_direction<<8); 
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("RA_threshold_offset = (( %s%d ))\n", ((pRA_Table->RA_threshold_offset == 0) ? " " : ((pRA_Table->RA_offset_direction) ? "+" : "-")),pRA_Table->RA_threshold_offset));
++
++					if (bExtRAInfo) {
++						if (curRxOkCnt > (curTxOkCnt * 6))
++							H2C_Parameter[3] |= RAINFO_BE_RX_STATE;
++
++						if (TxBF_EN)
++							H2C_Parameter[3] |= RAINFO_BF_STATE;
++						else {
++							if (stbc_en)
++								H2C_Parameter[3] |= RAINFO_STBC_STATE;
++						}
++
++						if (pDM_Odm->NoisyDecision)
++							H2C_Parameter[3] |= RAINFO_NOISY_STATE; 
++						else
++							H2C_Parameter[3] &= (~RAINFO_NOISY_STATE);
++						#if 1
++						if (pDM_Odm->H2C_RARpt_connect) {
++							H2C_Parameter[3] |= RAINFO_INIT_RSSI_RATE_STATE;
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("H2C_RARpt_connect = (( %d ))\n", pDM_Odm->H2C_RARpt_connect));
++						}
++						#else
++						
++						if (pEntry->rssi_stat.ra_rpt_linked == FALSE) {
++							H2C_Parameter[3] |= RAINFO_INIT_RSSI_RATE_STATE;
++							pEntry->rssi_stat.ra_rpt_linked = TRUE;
++
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("RA First Link, RSSI[%d] = ((%d))\n", 
++								pEntry->AssociatedMacId, pEntry->rssi_stat.UndecoratedSmoothedPWDB));
++						}
++						#endif
++					}
++
++					H2C_Parameter[2] = (u1Byte)(pEntry->rssi_stat.UndecoratedSmoothedPWDB & 0xFF);
++					//H2C_Parameter[1] = 0x20;   // fw v12 cmdid 5:use max macid ,for nic ,default macid is 0 ,max macid is 1
++					H2C_Parameter[0] = (pEntry->AssociatedMacId);
++
++					ODM_FillH2CCmd(pDM_Odm, ODM_H2C_RSSI_REPORT, cmdlen, H2C_Parameter);
++				}
++			} else
++				break;
++		}
++
++		pLoopAdapter = GetNextExtAdapter(pLoopAdapter);
++	}
++
++
++	/*Default port*/
++	if (tmpEntryMaxPWDB != 0) {	// If associated entry is found
++		pHalData->EntryMaxUndecoratedSmoothedPWDB = tmpEntryMaxPWDB;
++		RT_DISP(FDM, DM_PWDB, ("EntryMaxPWDB = 0x%x(%d)\n",	tmpEntryMaxPWDB, tmpEntryMaxPWDB));
++	} else
++		pHalData->EntryMaxUndecoratedSmoothedPWDB = 0;
++
++	if (tmpEntryMinPWDB != 0xff) { // If associated entry is found
++		pHalData->EntryMinUndecoratedSmoothedPWDB = tmpEntryMinPWDB;
++		RT_DISP(FDM, DM_PWDB, ("EntryMinPWDB = 0x%x(%d)\n", tmpEntryMinPWDB, tmpEntryMinPWDB));
++
++	} else
++		pHalData->EntryMinUndecoratedSmoothedPWDB = 0;
++
++	/* Default porti sent RSSI to FW */
++	if (pHalData->bUseRAMask) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("1 RA First Link, RSSI[%d] = ((%d)) , ra_rpt_linked = ((%d))\n", 
++			WIN_DEFAULT_PORT_MACID, pHalData->UndecoratedSmoothedPWDB, pHalData->ra_rpt_linked));		
++		if (pHalData->UndecoratedSmoothedPWDB > 0) {
++			
++			PRT_HIGH_THROUGHPUT			pHTInfo = GET_HT_INFO(pDefaultMgntInfo);
++			PRT_VERY_HIGH_THROUGHPUT	pVHTInfo = GET_VHT_INFO(pDefaultMgntInfo);
++
++			/* BF_en*/
++			#if (BEAMFORMING_SUPPORT == 1)
++			#ifndef BEAMFORMING_VERSION_1
++			Beamform_cap = phydm_Beamforming_GetEntryBeamCapByMacId(pDM_Odm, pDefaultMgntInfo->mMacId);
++
++			if (Beamform_cap & (BEAMFORMER_CAP_HT_EXPLICIT | BEAMFORMER_CAP_VHT_SU))
++				TxBF_EN = 1;
++			#else
++			if(Beamform_GetSupportBeamformerCap(GetDefaultAdapter(Adapter), NULL))
++				TxBF_EN = 1;
++			#endif
++			#endif
++
++			/* STBC_en*/
++			if ((IS_WIRELESS_MODE_AC(Adapter) && TEST_FLAG(pVHTInfo->VhtCurStbc, STBC_VHT_ENABLE_TX)) ||
++				TEST_FLAG(pHTInfo->HtCurStbc, STBC_HT_ENABLE_TX))
++				stbc_en = 1;
++
++			H2C_Parameter[4] = (pRA_Table->RA_threshold_offset & 0x7f) | (pRA_Table->RA_offset_direction<<8); 
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("RA_threshold_offset = (( %s%d ))\n", ((pRA_Table->RA_threshold_offset == 0) ? " " : ((pRA_Table->RA_offset_direction) ? "+" : "-")), pRA_Table->RA_threshold_offset));
++
++			if (bExtRAInfo) {
++				if (TxBF_EN)
++					H2C_Parameter[3] |= RAINFO_BF_STATE;
++				else {
++					if (stbc_en)
++						H2C_Parameter[3] |= RAINFO_STBC_STATE;
++				}
++
++				#if 1
++				if (pDM_Odm->H2C_RARpt_connect) {
++					H2C_Parameter[3] |= RAINFO_INIT_RSSI_RATE_STATE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("H2C_RARpt_connect = (( %d ))\n", pDM_Odm->H2C_RARpt_connect));
++				}
++				#else
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("2 RA First Link, RSSI[%d] = ((%d)) , ra_rpt_linked = ((%d))\n", 
++						WIN_DEFAULT_PORT_MACID, pHalData->UndecoratedSmoothedPWDB, pHalData->ra_rpt_linked));
++				
++				if (pHalData->ra_rpt_linked == FALSE) {
++				
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RSSI_MONITOR, ODM_DBG_LOUD, ("3 RA First Link, RSSI[%d] = ((%d)) , ra_rpt_linked = ((%d))\n", 
++						WIN_DEFAULT_PORT_MACID, pHalData->UndecoratedSmoothedPWDB, pHalData->ra_rpt_linked));
++					
++					H2C_Parameter[3] |= RAINFO_INIT_RSSI_RATE_STATE;
++					pHalData->ra_rpt_linked = TRUE;
++
++
++				}
++				#endif
++				
++				if (pDM_Odm->NoisyDecision == 1) {
++					H2C_Parameter[3] |= RAINFO_NOISY_STATE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_NOISY_DETECT, ODM_DBG_LOUD, ("[RSSIMonitorCheckMP] Send H2C to FW\n"));
++				} else
++					H2C_Parameter[3] &= (~RAINFO_NOISY_STATE);
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_NOISY_DETECT, ODM_DBG_LOUD, ("[RSSIMonitorCheckMP] H2C_Parameter=%x\n", H2C_Parameter[3]));
++			}
++
++			H2C_Parameter[2] = (u1Byte)(pHalData->UndecoratedSmoothedPWDB & 0xFF);
++			/*H2C_Parameter[1] = 0x20;*/	/* fw v12 cmdid 5:use max macid ,for nic ,default macid is 0 ,max macid is 1*/
++			H2C_Parameter[0] = WIN_DEFAULT_PORT_MACID;		/* fw v12 cmdid 5:use max macid ,for nic ,default macid is 0 ,max macid is 1*/
++
++			ODM_FillH2CCmd(pDM_Odm, ODM_H2C_RSSI_REPORT, cmdlen, H2C_Parameter);
++		}
++		
++		// BT 3.0 HS mode Rssi
++		if (pDM_Odm->bBtHsOperation) {
++			H2C_Parameter[2] = pDM_Odm->btHsRssi;
++			//H2C_Parameter[1] = 0x0;
++			H2C_Parameter[0] = WIN_BT_PORT_MACID;
++
++			ODM_FillH2CCmd(pDM_Odm, ODM_H2C_RSSI_REPORT, cmdlen, H2C_Parameter);
++		}
++	} else
++		PlatformEFIOWrite1Byte(Adapter, 0x4fe, (u1Byte)pHalData->UndecoratedSmoothedPWDB);
++
++	if ((pDM_Odm->SupportICType == ODM_RTL8812) || (pDM_Odm->SupportICType == ODM_RTL8192E))
++		odm_RSSIDumpToRegister(pDM_Odm);
++
++
++	{
++		PADAPTER pLoopAdapter = GetDefaultAdapter(Adapter);
++		BOOLEAN		default_pointer_value, *pbLink_temp = &default_pointer_value;
++		s4Byte	GlobalRSSI_min = 0xFF, LocalRSSI_Min;
++		BOOLEAN		bLink = FALSE;
++
++		while (pLoopAdapter) {
++			LocalRSSI_Min = phydm_FindMinimumRSSI(pDM_Odm, pLoopAdapter, pbLink_temp);
++			//DbgPrint("pHalData->bLinked=%d, LocalRSSI_Min=%d\n", pHalData->bLinked, LocalRSSI_Min);
++
++			if (*pbLink_temp)
++				bLink = TRUE;
++			
++			if ((LocalRSSI_Min < GlobalRSSI_min) && (*pbLink_temp))
++				GlobalRSSI_min = LocalRSSI_Min;
++
++			pLoopAdapter = GetNextExtAdapter(pLoopAdapter);
++		}
++
++		pHalData->bLinked = bLink;
++		ODM_CmnInfoUpdate(&pHalData->DM_OutSrc , ODM_CMNINFO_LINK, (u8Byte)bLink);
++
++		if (bLink)
++			ODM_CmnInfoUpdate(&pHalData->DM_OutSrc, ODM_CMNINFO_RSSI_MIN, (u8Byte)GlobalRSSI_min);
++		else
++			ODM_CmnInfoUpdate(&pHalData->DM_OutSrc, ODM_CMNINFO_RSSI_MIN, 0);
++
++	}
++
++#endif	// #if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++/*H2C_RSSI_REPORT*/
++s8 phydm_rssi_report(PDM_ODM_T pDM_Odm, u8 mac_id)
++{
++	PADAPTER Adapter = pDM_Odm->Adapter;
++	struct dvobj_priv *pdvobjpriv = adapter_to_dvobj(Adapter);
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	u8 H2C_Parameter[4] = {0};
++	u8 UL_DL_STATE = 0, STBC_TX = 0, TxBF_EN = 0;
++	u8 cmdlen = 4, first_connect = _FALSE;
++	u64	curTxOkCnt = 0, curRxOkCnt = 0;
++	PSTA_INFO_T pEntry = pDM_Odm->pODM_StaInfo[mac_id];
++	
++	if (!IS_STA_VALID(pEntry))
++		return _FAIL;
++
++	if (mac_id != pEntry->mac_id) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("%s mac_id:%u:%u invalid\n", __func__, mac_id, pEntry->mac_id));
++		rtw_warn_on(1);
++		return _FAIL;
++	}	
++	
++	if (IS_MCAST(pEntry->hwaddr))  /*if(psta->mac_id ==1)*/
++		return _FAIL;
++
++	if (pEntry->rssi_stat.UndecoratedSmoothedPWDB == (-1)) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("%s mac_id:%u, mac:"MAC_FMT", rssi == -1\n", __func__, pEntry->mac_id, MAC_ARG(pEntry->hwaddr)));
++		return _FAIL;
++	}
++
++	curTxOkCnt = pdvobjpriv->traffic_stat.cur_tx_bytes;
++	curRxOkCnt = pdvobjpriv->traffic_stat.cur_rx_bytes;
++	if (curRxOkCnt > (curTxOkCnt * 6))
++		UL_DL_STATE = 1;
++	else
++		UL_DL_STATE = 0;
++	
++	#ifdef CONFIG_BEAMFORMING
++	{
++		#if (BEAMFORMING_SUPPORT == 1)
++		BEAMFORMING_CAP Beamform_cap = phydm_Beamforming_GetEntryBeamCapByMacId(pDM_Odm, pEntry->mac_id);
++		#else/*for drv beamforming*/
++		BEAMFORMING_CAP Beamform_cap = beamforming_get_entry_beam_cap_by_mac_id(&Adapter->mlmepriv, pEntry->mac_id);
++		#endif
++
++		if (Beamform_cap & (BEAMFORMER_CAP_HT_EXPLICIT | BEAMFORMER_CAP_VHT_SU))
++			TxBF_EN = 1;
++		else
++			TxBF_EN = 0;
++	}
++	#endif /*#ifdef CONFIG_BEAMFORMING*/
++		
++	if (TxBF_EN)
++		STBC_TX = 0;
++	else {
++		#ifdef CONFIG_80211AC_VHT
++		if (IsSupportedVHT(pEntry->wireless_mode))
++			STBC_TX = TEST_FLAG(pEntry->vhtpriv.stbc_cap, STBC_VHT_ENABLE_TX);
++		else
++		#endif
++			STBC_TX = TEST_FLAG(pEntry->htpriv.stbc_cap, STBC_HT_ENABLE_TX);
++	}
++		
++	H2C_Parameter[0] = (u8)(pEntry->mac_id & 0xFF);
++	H2C_Parameter[2] = pEntry->rssi_stat.UndecoratedSmoothedPWDB & 0x7F;
++		
++	if (UL_DL_STATE)
++		H2C_Parameter[3] |= RAINFO_BE_RX_STATE;
++		
++	if (TxBF_EN)
++		H2C_Parameter[3] |= RAINFO_BF_STATE;
++	if (STBC_TX)
++		H2C_Parameter[3] |= RAINFO_STBC_STATE;
++	if (pDM_Odm->NoisyDecision)
++		H2C_Parameter[3] |= RAINFO_NOISY_STATE;
++		
++	if ((pEntry->ra_rpt_linked == _FALSE) && (pEntry->rssi_stat.bsend_rssi == RA_RSSI_STATE_SEND)) {
++		H2C_Parameter[3] |= RAINFO_INIT_RSSI_RATE_STATE;
++		pEntry->ra_rpt_linked = _TRUE;
++		pEntry->rssi_stat.bsend_rssi = RA_RSSI_STATE_HOLD;
++		first_connect = _TRUE;
++	}
++		
++	#if 1
++	if (first_connect) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("%s mac_id:%u, mac:"MAC_FMT", rssi:%d\n", __func__,
++			pEntry->mac_id, MAC_ARG(pEntry->hwaddr), pEntry->rssi_stat.UndecoratedSmoothedPWDB));
++			
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("%s RAINFO - TP:%s, TxBF:%s, STBC:%s, Noisy:%s, Firstcont:%s\n", __func__,
++			(UL_DL_STATE) ? "DL" : "UL", (TxBF_EN) ? "EN" : "DIS", (STBC_TX) ? "EN" : "DIS",
++			(pDM_Odm->NoisyDecision) ? "True" : "False", (first_connect) ? "True" : "False"));
++	}
++	#endif
++		
++	if (pHalData->fw_ractrl == _TRUE) {
++		#if (RTL8188E_SUPPORT == 1)
++		if (pDM_Odm->SupportICType == ODM_RTL8188E)
++			cmdlen = 3;
++		#endif
++		ODM_FillH2CCmd(pDM_Odm, ODM_H2C_RSSI_REPORT, cmdlen, H2C_Parameter);
++	} else {
++		#if ((RTL8188E_SUPPORT == 1) && (RATE_ADAPTIVE_SUPPORT == 1))
++		if (pDM_Odm->SupportICType == ODM_RTL8188E)
++			ODM_RA_SetRSSI_8188E(pDM_Odm, (u8)(pEntry->mac_id & 0xFF), pEntry->rssi_stat.UndecoratedSmoothedPWDB & 0x7F);
++		#endif
++	}
++	return _SUCCESS;
++}
++
++void phydm_ra_rssi_rpt_wk_hdl(PVOID pContext)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pContext;
++	int i;
++	u8 mac_id = 0xFF;
++	PSTA_INFO_T	pEntry = NULL;	
++	
++	for (i = 0; i < ODM_ASSOCIATE_ENTRY_NUM; i++) {
++		pEntry = pDM_Odm->pODM_StaInfo[i];
++		if (IS_STA_VALID(pEntry)) {
++			if (IS_MCAST(pEntry->hwaddr))  /*if(psta->mac_id ==1)*/
++				continue;
++			if (pEntry->ra_rpt_linked == _FALSE) {
++				mac_id = i;
++				break;
++			}
++		}
++	}
++	if (mac_id != 0xFF)
++		phydm_rssi_report(pDM_Odm, mac_id);
++}
++void phydm_ra_rssi_rpt_wk(PVOID pContext)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pContext;
++	
++	rtw_run_in_thread_cmd(pDM_Odm->Adapter, phydm_ra_rssi_rpt_wk_hdl, pDM_Odm);
++}
++#endif
++
++VOID
++odm_RSSIMonitorCheckCE(
++	IN		PVOID		pDM_VOID
++)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);	
++	PSTA_INFO_T           pEntry;
++	int	i;
++	int	tmpEntryMaxPWDB = 0, tmpEntryMinPWDB = 0xff;
++	u8	sta_cnt = 0;
++	
++	if (pDM_Odm->bLinked != _TRUE)
++		return;	
++
++	for (i = 0; i < ODM_ASSOCIATE_ENTRY_NUM; i++) {
++		pEntry = pDM_Odm->pODM_StaInfo[i];
++		if (IS_STA_VALID(pEntry)) {
++			if (IS_MCAST(pEntry->hwaddr))  /*if(psta->mac_id ==1)*/
++				continue;
++
++			if (pEntry->rssi_stat.UndecoratedSmoothedPWDB == (-1))
++				continue;
++
++			if (pEntry->rssi_stat.UndecoratedSmoothedPWDB < tmpEntryMinPWDB)
++				tmpEntryMinPWDB = pEntry->rssi_stat.UndecoratedSmoothedPWDB;
++
++			if (pEntry->rssi_stat.UndecoratedSmoothedPWDB > tmpEntryMaxPWDB)
++				tmpEntryMaxPWDB = pEntry->rssi_stat.UndecoratedSmoothedPWDB;
++
++			if (phydm_rssi_report(pDM_Odm, i))
++				sta_cnt++;
++		}
++	}
++
++	if (tmpEntryMaxPWDB != 0)	// If associated entry is found
++		pHalData->EntryMaxUndecoratedSmoothedPWDB = tmpEntryMaxPWDB;
++	else
++		pHalData->EntryMaxUndecoratedSmoothedPWDB = 0;
++
++	if (tmpEntryMinPWDB != 0xff) // If associated entry is found
++		pHalData->EntryMinUndecoratedSmoothedPWDB = tmpEntryMinPWDB;
++	else
++		pHalData->EntryMinUndecoratedSmoothedPWDB = 0;
++
++	FindMinimumRSSI(Adapter);//get pdmpriv->MinUndecoratedPWDBForDM
++
++	pDM_Odm->RSSI_Min = pHalData->MinUndecoratedPWDBForDM;
++	//ODM_CmnInfoUpdate(&pHalData->odmpriv ,ODM_CMNINFO_RSSI_MIN, pdmpriv->MinUndecoratedPWDBForDM);
++#endif//if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++}
++
++
++VOID
++odm_RSSIMonitorCheckAP(
++	IN		PVOID		pDM_VOID
++)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP)
++#if (RTL8812A_SUPPORT || RTL8881A_SUPPORT || RTL8192E_SUPPORT || RTL8814A_SUPPORT || RTL8197F_SUPPORT)
++
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte 			H2C_Parameter[H2C_0X42_LENGTH] = {0};
++	u4Byte			 i;
++	BOOLEAN			bExtRAInfo = TRUE;
++	u1Byte			cmdlen = H2C_0X42_LENGTH;
++	u1Byte			TxBF_EN = 0, stbc_en = 0;
++
++	prtl8192cd_priv	priv		= pDM_Odm->priv;
++	PSTA_INFO_T 	pstat;
++	BOOLEAN			act_bfer = FALSE;
++
++#if (BEAMFORMING_SUPPORT == 1)
++	u1Byte	Idx=0xff;
++#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY))
++	pBDC_T	pDM_BdcTable = &pDM_Odm->DM_BdcTable;
++	pDM_BdcTable->num_Txbfee_Client = 0;
++	pDM_BdcTable->num_Txbfer_Client = 0;
++#endif
++#endif
++	if (!pDM_Odm->H2C_RARpt_connect && (priv->up_time % 2))
++		return;
++
++	if (pDM_Odm->SupportICType == ODM_RTL8188E) {
++		bExtRAInfo = FALSE;
++		cmdlen = 3;
++	}
++
++	for (i = 0; i < ODM_ASSOCIATE_ENTRY_NUM; i++) {
++		pstat = pDM_Odm->pODM_StaInfo[i];
++
++		if (IS_STA_VALID(pstat)) {
++			if (pstat->sta_in_firmware != 1)
++				continue;
++
++			//2 BF_en
++		#if (BEAMFORMING_SUPPORT == 1)
++			BEAMFORMING_CAP Beamform_cap = Beamforming_GetEntryBeamCapByMacId(priv, pstat->aid);
++			PRT_BEAMFORMING_ENTRY	pEntry = Beamforming_GetEntryByMacId(priv, pstat->aid, &Idx);
++
++			if (Beamform_cap & (BEAMFORMER_CAP_HT_EXPLICIT | BEAMFORMER_CAP_VHT_SU))	{
++				
++				if (pEntry->Sounding_En)
++					TxBF_EN = 1;
++				else
++					TxBF_EN = 0;
++				
++				act_bfer = TRUE;
++			}
++
++			#if (defined(CONFIG_PHYDM_ANTENNA_DIVERSITY)) /*BDC*/
++			if (act_bfer == TRUE) {
++				pDM_BdcTable->w_BFee_Client[i] = 1; //AP act as BFer
++				pDM_BdcTable->num_Txbfee_Client++;
++			} else {
++				pDM_BdcTable->w_BFee_Client[i] = 0; //AP act as BFer
++			}
++
++			if ((Beamform_cap & BEAMFORMEE_CAP_HT_EXPLICIT) || (Beamform_cap & BEAMFORMEE_CAP_VHT_SU)) {
++				pDM_BdcTable->w_BFer_Client[i] = 1; //AP act as BFee
++				pDM_BdcTable->num_Txbfer_Client++;
++			} else {
++				pDM_BdcTable->w_BFer_Client[i] = 0; //AP act as BFer
++			}
++			#endif
++		#endif
++
++			//2 STBC_en
++			if ((priv->pmib->dot11nConfigEntry.dot11nSTBC) &&
++				((pstat->ht_cap_buf.ht_cap_info & cpu_to_le16(_HTCAP_RX_STBC_CAP_))
++				#ifdef RTK_AC_SUPPORT
++				|| (pstat->vht_cap_buf.vht_cap_info & cpu_to_le32(_VHTCAP_RX_STBC_CAP_))
++				#endif
++				))
++				stbc_en = 1;
++
++			//2 RAINFO
++
++			if (bExtRAInfo) {
++				if ((pstat->rx_avarage)  > ((pstat->tx_avarage) * 6))
++					H2C_Parameter[3] |= RAINFO_BE_RX_STATE;
++
++				if (TxBF_EN)
++					H2C_Parameter[3] |= RAINFO_BF_STATE;
++				else {
++					if (stbc_en)
++						H2C_Parameter[3] |= RAINFO_STBC_STATE;
++				}
++
++				if (pDM_Odm->NoisyDecision)
++					H2C_Parameter[3] |= RAINFO_NOISY_STATE;
++				else
++					H2C_Parameter[3] &= (~RAINFO_NOISY_STATE);
++				
++				if (pstat->H2C_rssi_rpt) {
++					H2C_Parameter[3] |= RAINFO_INIT_RSSI_RATE_STATE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("[RA Init] set Init rate by RSSI, STA %d\n", pstat->aid));
++				}
++
++				/*ODM_RT_TRACE(pDM_Odm,PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("[RAINFO] H2C_Para[3] = %x\n",H2C_Parameter[3]));*/
++			}
++
++			H2C_Parameter[2] = (u1Byte)(pstat->rssi & 0xFF);
++			H2C_Parameter[0] = REMAP_AID(pstat);
++
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("H2C_Parameter[3]=%d\n", H2C_Parameter[3]));
++
++			//ODM_RT_TRACE(pDM_Odm,PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("[RSSI] H2C_Para[2] = %x,  \n",H2C_Parameter[2]));
++			//ODM_RT_TRACE(pDM_Odm,PHYDM_COMP_RA_DBG, ODM_DBG_LOUD, ("[MACID] H2C_Para[0] = %x,  \n",H2C_Parameter[0]));
++
++			ODM_FillH2CCmd(pDM_Odm, ODM_H2C_RSSI_REPORT, cmdlen, H2C_Parameter);
++
++		}
++	}
++
++#endif
++#endif
++
++}
++
++VOID
++odm_RSSIMonitorCheck(
++	IN		PVOID		pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	if (!(pDM_Odm->SupportAbility & ODM_BB_RSSI_MONITOR))
++		return;
++
++	switch	(pDM_Odm->SupportPlatform) {
++	case	ODM_WIN:
++		odm_RSSIMonitorCheckMP(pDM_Odm);
++		break;
++
++	case	ODM_CE:
++		odm_RSSIMonitorCheckCE(pDM_Odm);
++		break;
++
++	case	ODM_AP:
++		odm_RSSIMonitorCheckAP(pDM_Odm);
++		break;
++
++	default:
++		break;
++	}
++
++}
++
++VOID
++odm_RateAdaptiveMaskInit(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_RATE_ADAPTIVE	pOdmRA = &pDM_Odm->RateAdaptive;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PMGNT_INFO		pMgntInfo = &pDM_Odm->Adapter->MgntInfo;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pDM_Odm->Adapter);
++
++	pMgntInfo->Ratr_State = DM_RATR_STA_INIT;
++
++	if (pMgntInfo->DM_Type == DM_Type_ByDriver)
++		pHalData->bUseRAMask = TRUE;
++	else
++		pHalData->bUseRAMask = FALSE;
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	pOdmRA->Type = DM_Type_ByDriver;
++	if (pOdmRA->Type == DM_Type_ByDriver)
++		pDM_Odm->bUseRAMask = _TRUE;
++	else
++		pDM_Odm->bUseRAMask = _FALSE;
++#endif
++
++	pOdmRA->RATRState = DM_RATR_STA_INIT;
++
++#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	if (pDM_Odm->SupportICType == ODM_RTL8812)
++		pOdmRA->LdpcThres = 50;
++	else
++		pOdmRA->LdpcThres = 35;
++
++	pOdmRA->RtsThres = 35;
++
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	pOdmRA->LdpcThres = 35;
++	pOdmRA->bUseLdpc = FALSE;
++
++#else
++	pOdmRA->UltraLowRSSIThresh = 9;
++
++#endif
++
++	pOdmRA->HighRSSIThresh = 50;
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP) && \
++	((DEV_BUS_TYPE == RT_USB_INTERFACE) || (DEV_BUS_TYPE == RT_SDIO_INTERFACE))
++	pOdmRA->LowRSSIThresh = 23;
++#else
++	pOdmRA->LowRSSIThresh = 20;
++#endif
++}
++/*-----------------------------------------------------------------------------
++ * Function:	odm_RefreshRateAdaptiveMask()
++ *
++ * Overview:	Update rate table mask according to rssi
++ *
++ * Input:		NONE
++ *
++ * Output:		NONE
++ *
++ * Return:		NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	05/27/2009	hpfan	Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++odm_RefreshRateAdaptiveMask(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (!pDM_Odm->bLinked)
++		return;
++		
++	if (!(pDM_Odm->SupportAbility & ODM_BB_RA_MASK)) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_TRACE, ("odm_RefreshRateAdaptiveMask(): Return cos not supported\n"));
++		return;
++	}
++	//
++	// 2011/09/29 MH In HW integration first stage, we provide 4 different handle to operate
++	// at the same time. In the stage2/3, we need to prive universal interface and merge all
++	// HW dynamic mechanism.
++	//
++	switch	(pDM_Odm->SupportPlatform) {
++	case	ODM_WIN:
++		odm_RefreshRateAdaptiveMaskMP(pDM_Odm);
++		break;
++
++	case	ODM_CE:
++		odm_RefreshRateAdaptiveMaskCE(pDM_Odm);
++		break;
++
++	case	ODM_AP:
++		odm_RefreshRateAdaptiveMaskAPADSL(pDM_Odm);
++		break;
++	}
++
++}
++
++u1Byte
++phydm_trans_platform_bw(
++	IN	PVOID		pDM_VOID,
++	IN	u1Byte		BW
++)
++{
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		if (BW == CHANNEL_WIDTH_20)
++			BW = PHYDM_BW_20;
++			
++		else if (BW == CHANNEL_WIDTH_40)
++			BW = PHYDM_BW_40;
++			
++		else if (BW == CHANNEL_WIDTH_80)
++			BW = PHYDM_BW_80;
++			
++		else if (BW == CHANNEL_WIDTH_160)
++			BW = PHYDM_BW_160;
++			
++		else if (BW == CHANNEL_WIDTH_80_80)
++			BW = PHYDM_BW_80_80;
++
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++	
++		if (BW == HT_CHANNEL_WIDTH_20)
++			BW = PHYDM_BW_20;
++			
++		else if (BW == HT_CHANNEL_WIDTH_20_40)
++			BW = PHYDM_BW_40;
++			
++		else if (BW == HT_CHANNEL_WIDTH_80)
++			BW = PHYDM_BW_80;
++			
++		else if (BW == HT_CHANNEL_WIDTH_160)
++			BW = PHYDM_BW_160;
++			
++		else if (BW == HT_CHANNEL_WIDTH_10)
++			BW = PHYDM_BW_10;
++		
++		else if (BW == HT_CHANNEL_WIDTH_5)
++			BW = PHYDM_BW_5;
++
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++		if (BW == CHANNEL_WIDTH_20)
++			BW = PHYDM_BW_20;
++			
++		else if (BW == CHANNEL_WIDTH_40)
++			BW = PHYDM_BW_40;
++			
++		else if (BW == CHANNEL_WIDTH_80)
++			BW = PHYDM_BW_80;
++			
++		else if (BW == CHANNEL_WIDTH_160)
++			BW = PHYDM_BW_160;
++			
++		else if (BW == CHANNEL_WIDTH_80_80)
++			BW = PHYDM_BW_80_80;
++	#endif
++
++	return BW;
++
++}
++
++u1Byte
++phydm_trans_platform_rf_type(
++	IN	PVOID		pDM_VOID,
++	IN	u1Byte		RfType
++)
++{
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		if (RfType == RF_1T2R)
++			RfType = PHYDM_RF_1T2R;
++			
++		else if (RfType == RF_2T4R)
++			RfType = PHYDM_RF_2T4R;
++			
++		else if (RfType == RF_2T2R)
++			RfType = PHYDM_RF_2T2R;
++			
++		else if (RfType == RF_1T1R)
++			RfType = PHYDM_RF_1T1R;
++			
++		else if (RfType == RF_2T2R_GREEN)
++			RfType = PHYDM_RF_2T2R_GREEN;
++			
++		else if (RfType == RF_3T3R)
++			RfType = PHYDM_RF_3T3R;
++			
++		else if (RfType == RF_4T4R)
++			RfType = PHYDM_RF_4T4R;
++			
++		else if (RfType == RF_2T3R)
++			RfType = PHYDM_RF_1T2R;
++
++		else if (RfType == RF_3T4R)
++			RfType = PHYDM_RF_3T4R;
++
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++		if (RfType == MIMO_1T2R)
++			RfType = PHYDM_RF_1T2R;
++			
++		else if (RfType == MIMO_2T4R)
++			RfType = PHYDM_RF_2T4R;
++			
++		else if (RfType == MIMO_2T2R)
++			RfType = PHYDM_RF_2T2R;
++			
++		else if (RfType == MIMO_1T1R)
++			RfType = PHYDM_RF_1T1R;
++			
++		else if (RfType == MIMO_3T3R)
++			RfType = PHYDM_RF_3T3R;
++			
++		else if (RfType == MIMO_4T4R)
++			RfType = PHYDM_RF_4T4R;
++			
++		else if (RfType == MIMO_2T3R)
++			RfType = PHYDM_RF_1T2R;
++
++		else if (RfType == MIMO_3T4R)
++			RfType = PHYDM_RF_3T4R;
++
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	
++		if (RfType == RF_1T2R)
++			RfType = PHYDM_RF_1T2R;
++			
++		else if (RfType == RF_2T4R)
++			RfType = PHYDM_RF_2T4R;
++			
++		else if (RfType == RF_2T2R)
++			RfType = PHYDM_RF_2T2R;
++			
++		else if (RfType == RF_1T1R)
++			RfType = PHYDM_RF_1T1R;
++		
++		else if (RfType == RF_2T2R_GREEN)
++			RfType = PHYDM_RF_2T2R_GREEN;
++		
++		else if (RfType == RF_3T3R)
++			RfType = PHYDM_RF_3T3R;
++			
++		else if (RfType == RF_4T4R)
++			RfType = PHYDM_RF_4T4R;
++			
++		else if (RfType == RF_2T3R)
++			RfType = PHYDM_RF_1T2R;
++
++		else if (RfType == RF_3T4R)
++			RfType = PHYDM_RF_3T4R;
++
++	#endif
++
++	return RfType;
++
++}
++
++u4Byte
++phydm_trans_platform_wireless_mode(
++	IN	PVOID		pDM_VOID,
++	IN	u4Byte		wireless_mode
++)
++{
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	
++	if (wireless_mode == WIRELESS_11A)
++			wireless_mode = PHYDM_WIRELESS_MODE_A;
++			
++		else if (wireless_mode == WIRELESS_11B)
++			wireless_mode = PHYDM_WIRELESS_MODE_B;
++			
++		else if ((wireless_mode == WIRELESS_11G) || (wireless_mode == WIRELESS_11BG))
++			wireless_mode = PHYDM_WIRELESS_MODE_G;
++			
++		else if (wireless_mode == WIRELESS_AUTO)
++			wireless_mode = PHYDM_WIRELESS_MODE_AUTO;
++			
++		else if ((wireless_mode == WIRELESS_11_24N) || (wireless_mode == WIRELESS_11G_24N) || (wireless_mode == WIRELESS_11B_24N) ||
++			(wireless_mode == WIRELESS_11BG_24N) || (wireless_mode == WIRELESS_MODE_24G) || (wireless_mode == WIRELESS_11ABGN) || (wireless_mode == WIRELESS_11AGN))
++			wireless_mode = PHYDM_WIRELESS_MODE_N_24G;
++			
++		else if ((wireless_mode == WIRELESS_11_5N) || (wireless_mode == WIRELESS_11A_5N))
++			wireless_mode = PHYDM_WIRELESS_MODE_N_5G;
++			
++		else if ((wireless_mode == WIRELESS_11AC) || (wireless_mode == WIRELESS_11_5AC) || (wireless_mode == WIRELESS_MODE_5G))
++			wireless_mode = PHYDM_WIRELESS_MODE_AC_5G;
++			
++		else if (wireless_mode == WIRELESS_11_24AC)
++			wireless_mode = PHYDM_WIRELESS_MODE_AC_24G;
++
++		else if (wireless_mode == WIRELESS_11AC)
++			wireless_mode = PHYDM_WIRELESS_MODE_AC_ONLY;
++		
++		else if (wireless_mode == WIRELESS_MODE_MAX)
++			wireless_mode = PHYDM_WIRELESS_MODE_MAX;
++		else
++			wireless_mode = PHYDM_WIRELESS_MODE_UNKNOWN;	
++	#endif
++
++	return wireless_mode;
++
++}
++
++u1Byte
++phydm_vht_en_mapping(
++	IN	PVOID			pDM_VOID,
++	IN	u4Byte			WirelessMode
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			vht_en_out = 0;
++
++	if ((WirelessMode == PHYDM_WIRELESS_MODE_AC_5G) ||
++		(WirelessMode == PHYDM_WIRELESS_MODE_AC_24G) ||
++		(WirelessMode == PHYDM_WIRELESS_MODE_AC_ONLY)
++		) {
++		vht_en_out = 1;
++		/**/
++	}
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("WirelessMode= (( 0x%x )), VHT_EN= (( %d ))\n", WirelessMode, vht_en_out));
++	return vht_en_out;
++}
++
++u1Byte
++phydm_rate_id_mapping(
++	IN	PVOID			pDM_VOID,
++	IN	u4Byte			WirelessMode,
++	IN	u1Byte			RfType,
++	IN	u1Byte			bw
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			rate_id_idx = 0;
++	u1Byte			phydm_BW;
++	u1Byte			phydm_RfType;
++	
++	phydm_BW = phydm_trans_platform_bw(pDM_Odm, bw);
++	phydm_RfType = phydm_trans_platform_rf_type(pDM_Odm, RfType);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	WirelessMode = phydm_trans_platform_wireless_mode(pDM_Odm, WirelessMode);
++	#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("wirelessMode= (( 0x%x )), RfType = (( 0x%x )), BW = (( 0x%x ))\n", 
++		WirelessMode, phydm_RfType, phydm_BW));
++
++	
++	switch (WirelessMode) {
++	
++	case PHYDM_WIRELESS_MODE_N_24G:
++		{
++	
++			if (phydm_BW == PHYDM_BW_40) {
++			
++				if (phydm_RfType == PHYDM_RF_1T1R)
++					rate_id_idx = PHYDM_BGN_40M_1SS;
++				else
++					rate_id_idx = PHYDM_BGN_40M_2SS;
++				
++			} else {
++			
++				if (phydm_RfType == PHYDM_RF_1T1R)
++					rate_id_idx = PHYDM_BGN_20M_1SS;
++				else 
++					rate_id_idx = PHYDM_BGN_20M_2SS;
++			}
++		}
++		break;
++		
++	case PHYDM_WIRELESS_MODE_N_5G:
++		{
++			if (phydm_RfType == PHYDM_RF_1T1R)
++				rate_id_idx = PHYDM_GN_N1SS;
++			else
++				rate_id_idx = PHYDM_GN_N2SS;
++		}
++		
++		break;
++	
++	case PHYDM_WIRELESS_MODE_G:
++		rate_id_idx = PHYDM_BG;
++		break;
++				
++	case PHYDM_WIRELESS_MODE_A:
++		rate_id_idx = PHYDM_G;
++		break;	
++	
++	case PHYDM_WIRELESS_MODE_B:
++		rate_id_idx = PHYDM_B_20M;
++		break;
++	
++	
++	case PHYDM_WIRELESS_MODE_AC_5G:
++	case PHYDM_WIRELESS_MODE_AC_ONLY:
++		{
++			if (phydm_RfType == PHYDM_RF_1T1R)
++				rate_id_idx = PHYDM_ARFR1_AC_1SS;
++			else if (phydm_RfType == PHYDM_RF_2T2R)
++				rate_id_idx = PHYDM_ARFR0_AC_2SS;
++			else
++				rate_id_idx = PHYDM_ARFR4_AC_3SS;
++		}
++		break;
++	
++	case PHYDM_WIRELESS_MODE_AC_24G:
++		{
++			if (phydm_BW >= PHYDM_BW_80) {
++				if (phydm_RfType == PHYDM_RF_1T1R)
++					rate_id_idx = PHYDM_ARFR1_AC_1SS;
++				else if (phydm_RfType == PHYDM_RF_2T2R)
++					rate_id_idx = PHYDM_ARFR0_AC_2SS;
++				else
++					rate_id_idx = PHYDM_ARFR5_N_3SS;
++			} else {
++				
++				if (phydm_RfType == PHYDM_RF_1T1R)
++					rate_id_idx = PHYDM_ARFR2_AC_2G_1SS;
++				else
++					rate_id_idx = PHYDM_ARFR3_AC_2G_2SS;
++			}
++		}
++		break;
++	
++	default:
++		rate_id_idx = 0;
++		break;
++	}
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("RA Rate ID = (( 0x%d ))\n", rate_id_idx));
++	
++	return rate_id_idx;
++}
++
++VOID
++phydm_UpdateHalRAMask(
++	IN	PVOID			pDM_VOID,
++	IN	u4Byte			wirelessMode,
++	IN	u1Byte			RfType,
++	IN	u1Byte			BW,
++	IN	u1Byte			MimoPs_enable,
++	IN	u1Byte			disable_cck_rate,
++	IN	u4Byte			*ratr_bitmap_msb_in,
++	IN	u4Byte			*ratr_bitmap_lsb_in,
++	IN	u1Byte			tx_rate_level
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte			mask_rate_threshold;
++	u1Byte			phydm_RfType;
++	u1Byte			phydm_BW;
++	u4Byte			ratr_bitmap = *ratr_bitmap_lsb_in, ratr_bitmap_msb = *ratr_bitmap_msb_in;
++	/*PODM_RATE_ADAPTIVE		pRA = &(pDM_Odm->RateAdaptive);*/
++
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	wirelessMode = phydm_trans_platform_wireless_mode(pDM_Odm, wirelessMode);
++	#endif
++	
++	phydm_RfType = phydm_trans_platform_rf_type(pDM_Odm, RfType);
++	phydm_BW = phydm_trans_platform_bw(pDM_Odm, BW);
++	
++	/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("phydm_RfType = (( %x )), RfType = (( %x ))\n", phydm_RfType, RfType));*/
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Platfoem original RA Mask = (( 0x %x | %x ))\n", ratr_bitmap_msb, ratr_bitmap));
++	
++	switch (wirelessMode) {
++		
++	case PHYDM_WIRELESS_MODE_B:
++		{
++			ratr_bitmap &= 0x0000000f;
++		}
++		break;
++
++	case PHYDM_WIRELESS_MODE_G:
++		{			
++			ratr_bitmap &= 0x00000ff5;
++		}
++		break;
++		
++	case PHYDM_WIRELESS_MODE_A:
++		{
++			ratr_bitmap &= 0x00000ff0;
++		}
++		break;
++		
++	case PHYDM_WIRELESS_MODE_N_24G:
++	case PHYDM_WIRELESS_MODE_N_5G:
++		{
++			if (MimoPs_enable)
++				phydm_RfType = PHYDM_RF_1T1R;
++			
++			if (phydm_RfType == PHYDM_RF_1T1R) {
++				
++				if (phydm_BW == PHYDM_BW_40)
++					ratr_bitmap &= 0x000ff015;
++				else
++					ratr_bitmap &= 0x000ff005;
++			} else if (phydm_RfType == PHYDM_RF_2T2R || phydm_RfType == PHYDM_RF_2T4R || phydm_RfType == PHYDM_RF_2T3R) {
++			
++				if (phydm_BW == PHYDM_BW_40)
++					ratr_bitmap &= 0x0ffff015;
++				else
++					ratr_bitmap &= 0x0ffff005;
++			} else { /*3T*/
++			
++				ratr_bitmap &= 0xfffff015;
++				ratr_bitmap_msb &= 0xf;
++			}
++		}
++		break;
++
++	case PHYDM_WIRELESS_MODE_AC_24G:
++		{
++			if (phydm_RfType == PHYDM_RF_1T1R)
++				ratr_bitmap &= 0x003ff015;	
++			else if (phydm_RfType == PHYDM_RF_2T2R || phydm_RfType == PHYDM_RF_2T4R || phydm_RfType == PHYDM_RF_2T3R) 
++				ratr_bitmap &= 0xfffff015;
++			else {/*3T*/
++				
++				ratr_bitmap &= 0xfffff010;
++				ratr_bitmap_msb &= 0x3ff;
++			}
++
++			if (phydm_BW == PHYDM_BW_20) {/* AC 20MHz doesn't support MCS9 */
++				ratr_bitmap &= 0x7fdfffff;
++				ratr_bitmap_msb &= 0x1ff;
++			}
++		}
++		break;
++
++	case PHYDM_WIRELESS_MODE_AC_5G:
++		{
++			if (phydm_RfType == PHYDM_RF_1T1R)
++				ratr_bitmap &= 0x003ff010;
++			else if (phydm_RfType == PHYDM_RF_2T2R || phydm_RfType == PHYDM_RF_2T4R || phydm_RfType == PHYDM_RF_2T3R) 
++				ratr_bitmap &= 0xfffff010;
++			else {/*3T*/
++				
++				ratr_bitmap &= 0xfffff010;
++				ratr_bitmap_msb &= 0x3ff;
++			}
++
++			if (phydm_BW == PHYDM_BW_20) {/* AC 20MHz doesn't support MCS9 */
++				ratr_bitmap &= 0x7fdfffff;
++				ratr_bitmap_msb &= 0x1ff;
++			}
++		}
++		break;
++
++	default:
++		break;
++	}
++
++	if (wirelessMode != PHYDM_WIRELESS_MODE_B) {
++		
++		if (tx_rate_level == 0) 
++			ratr_bitmap &=  0xffffffff;
++		else if (tx_rate_level == 1) 
++			ratr_bitmap &=  0xfffffff0;
++		 else if (tx_rate_level == 2) 
++			ratr_bitmap &=  0xffffefe0;
++		else if (tx_rate_level == 3) 
++			ratr_bitmap &=  0xffffcfc0;
++		else if (tx_rate_level == 4) 
++			ratr_bitmap &=  0xffff8f80;
++		else if (tx_rate_level >= 5) 
++			ratr_bitmap &=  0xffff0f00;
++		
++	}
++	
++	if (disable_cck_rate)
++		ratr_bitmap &= 0xfffffff0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("wirelessMode= (( 0x%x )), RfType = (( 0x%x )), BW = (( 0x%x )), MimoPs_en = (( %d )), tx_rate_level= (( 0x%d ))\n", 
++		wirelessMode, phydm_RfType, phydm_BW, MimoPs_enable, tx_rate_level));
++
++	/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("111 Phydm modified RA Mask = (( 0x %x | %x ))\n", ratr_bitmap_msb, ratr_bitmap));*/
++
++	*ratr_bitmap_lsb_in = ratr_bitmap;
++	*ratr_bitmap_msb_in = ratr_bitmap_msb;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Phydm modified RA Mask = (( 0x %x | %x ))\n", *ratr_bitmap_msb_in, *ratr_bitmap_lsb_in));
++
++}
++
++u1Byte 
++phydm_RA_level_decision(
++	IN		PVOID			pDM_VOID,
++	IN		u4Byte			rssi,
++	IN		u1Byte			Ratr_State
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	ra_lowest_rate;
++	u1Byte	ra_rate_floor_table[RA_FLOOR_TABLE_SIZE] = {20, 34, 38, 42, 46, 50, 100}; /*MCS0 ~ MCS4 , VHT1SS MCS0 ~ MCS4 , G 6M~24M*/
++	u1Byte	new_Ratr_State = 0;
++	u1Byte	i;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("curr RA level = ((%d)), Rate_floor_table ori [ %d , %d, %d , %d, %d, %d]\n", Ratr_State, 
++		ra_rate_floor_table[0], ra_rate_floor_table[1], ra_rate_floor_table[2], ra_rate_floor_table[3], ra_rate_floor_table[4], ra_rate_floor_table[5]));
++
++	for (i = 0; i < RA_FLOOR_TABLE_SIZE; i++) {
++
++		if (i >= (Ratr_State))
++			ra_rate_floor_table[i] += RA_FLOOR_UP_GAP;
++	}
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("RSSI = ((%d)), Rate_floor_table_mod [ %d , %d, %d , %d, %d, %d]\n", 
++		rssi, ra_rate_floor_table[0], ra_rate_floor_table[1], ra_rate_floor_table[2], ra_rate_floor_table[3], ra_rate_floor_table[4], ra_rate_floor_table[5]));
++	
++	for (i = 0; i < RA_FLOOR_TABLE_SIZE; i++) {
++
++		if (rssi < ra_rate_floor_table[i]) {
++			new_Ratr_State = i;
++			break;
++		}
++	}
++
++
++
++	return	new_Ratr_State;		
++
++}
++
++VOID
++odm_RefreshRateAdaptiveMaskMP(
++	IN		PVOID		pDM_VOID
++)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER				pAdapter	 =  pDM_Odm->Adapter;
++	PADAPTER 				pTargetAdapter = NULL;
++	HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(pAdapter);
++	PMGNT_INFO				pMgntInfo = GetDefaultMgntInfo(pAdapter);
++	u4Byte		i;
++	PSTA_INFO_T pEntry;
++	u1Byte		Ratr_State_new;
++
++	if (pAdapter->bDriverStopped) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_TRACE, ("<---- odm_RefreshRateAdaptiveMask(): driver is going to unload\n"));
++		return;
++	}
++
++	if (!pHalData->bUseRAMask) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("<---- odm_RefreshRateAdaptiveMask(): driver does not control rate adaptive mask\n"));
++		return;
++	}
++
++	// if default port is connected, update RA table for default port (infrastructure mode only)
++	if (pMgntInfo->mAssoc && (!ACTING_AS_AP(pAdapter))) {
++		odm_RefreshLdpcRtsMP(pAdapter, pDM_Odm, pMgntInfo->mMacId,  pMgntInfo->IOTPeer, pHalData->UndecoratedSmoothedPWDB);
++		/*ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Infrasture Mode\n"));*/
++
++		#if RA_MASK_PHYDMLIZE_WIN
++			Ratr_State_new = phydm_RA_level_decision(pDM_Odm, pHalData->UndecoratedSmoothedPWDB, pMgntInfo->Ratr_State);
++
++			if (pMgntInfo->Ratr_State != Ratr_State_new) {
++				
++				ODM_PRINT_ADDR(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Target AP addr :"), pMgntInfo->Bssid);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Update RA Level: ((%x)) -> ((%x)),  RSSI = ((%d))\n\n", 
++					pMgntInfo->Ratr_State, Ratr_State_new, pHalData->UndecoratedSmoothedPWDB));
++				
++				pMgntInfo->Ratr_State = Ratr_State_new;
++				pAdapter->HalFunc.UpdateHalRAMaskHandler(pAdapter, pMgntInfo->mMacId, NULL, Ratr_State_new);
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Stay in RA level  = (( %d ))\n\n", Ratr_State_new));
++				/**/
++			}
++			
++		#else
++			if (ODM_RAStateCheck(pDM_Odm, pHalData->UndecoratedSmoothedPWDB, pMgntInfo->bSetTXPowerTrainingByOid, &pMgntInfo->Ratr_State)) {
++				ODM_PRINT_ADDR(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Target AP addr : "), pMgntInfo->Bssid);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("RSSI:%d, RSSI_LEVEL:%d\n", pHalData->UndecoratedSmoothedPWDB, pMgntInfo->Ratr_State));
++				pAdapter->HalFunc.UpdateHalRAMaskHandler(pAdapter, pMgntInfo->mMacId, NULL, pMgntInfo->Ratr_State);
++			} else if (pDM_Odm->bChangeState) {
++				ODM_PRINT_ADDR(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Target AP addr : "), pMgntInfo->Bssid);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Change Power Training State, bDisablePowerTraining = %d\n", pDM_Odm->bDisablePowerTraining));
++				pAdapter->HalFunc.UpdateHalRAMaskHandler(pAdapter, pMgntInfo->mMacId, NULL, pMgntInfo->Ratr_State);
++			}
++		#endif
++	}
++
++	//
++	// The following part configure AP/VWifi/IBSS rate adaptive mask.
++	//
++
++	if (pMgntInfo->mIbss) 	// Target: AP/IBSS peer.
++		pTargetAdapter = GetDefaultAdapter(pAdapter);
++	else
++		pTargetAdapter = GetFirstAPAdapter(pAdapter);
++
++	// if extension port (softap) is started, updaet RA table for more than one clients associate
++	if (pTargetAdapter != NULL) {
++		for (i = 0; i < ODM_ASSOCIATE_ENTRY_NUM; i++) {
++			
++			pEntry = AsocEntry_EnumStation(pTargetAdapter, i);
++			
++			if (IS_STA_VALID(pEntry)) {
++
++				odm_RefreshLdpcRtsMP(pAdapter, pDM_Odm, pEntry->AssociatedMacId, pEntry->IOTPeer, pEntry->rssi_stat.UndecoratedSmoothedPWDB);
++
++				#if RA_MASK_PHYDMLIZE_WIN
++				Ratr_State_new = phydm_RA_level_decision(pDM_Odm, pEntry->rssi_stat.UndecoratedSmoothedPWDB, pEntry->Ratr_State);
++
++				if (pEntry->Ratr_State != Ratr_State_new) {
++					
++					ODM_PRINT_ADDR(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Target AP addr :"), pEntry->MacAddr);
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Update Tx RA Level: ((%x)) -> ((%x)),  RSSI = ((%d))\n", 
++						pEntry->Ratr_State, Ratr_State_new,  pEntry->rssi_stat.UndecoratedSmoothedPWDB));
++					
++					pEntry->Ratr_State = Ratr_State_new;
++					pAdapter->HalFunc.UpdateHalRAMaskHandler(pAdapter, pEntry->AssociatedMacId, NULL, Ratr_State_new);
++				} else {
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Stay in RA level  = (( %d ))\n\n", Ratr_State_new));
++					/**/
++				}
++			
++				
++				#else
++				
++				if (ODM_RAStateCheck(pDM_Odm, pEntry->rssi_stat.UndecoratedSmoothedPWDB, pMgntInfo->bSetTXPowerTrainingByOid, &pEntry->Ratr_State)) {
++					ODM_PRINT_ADDR(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Target STA addr : "), pEntry->MacAddr);
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("RSSI:%d, RSSI_LEVEL:%d\n", pEntry->rssi_stat.UndecoratedSmoothedPWDB, pEntry->Ratr_State));
++					pAdapter->HalFunc.UpdateHalRAMaskHandler(pTargetAdapter, pEntry->AssociatedMacId, pEntry, pEntry->Ratr_State);
++				} else if (pDM_Odm->bChangeState) {
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Change Power Training State, bDisablePowerTraining = %d\n", pDM_Odm->bDisablePowerTraining));
++					pAdapter->HalFunc.UpdateHalRAMaskHandler(pAdapter, pMgntInfo->mMacId, NULL, pMgntInfo->Ratr_State);
++				}
++				#endif
++				
++			}
++		}
++	}
++	
++	#if RA_MASK_PHYDMLIZE_WIN
++
++	#else
++		if (pMgntInfo->bSetTXPowerTrainingByOid)
++			pMgntInfo->bSetTXPowerTrainingByOid = FALSE;
++	#endif
++#endif	// #if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++}
++
++
++VOID
++odm_RefreshRateAdaptiveMaskCE(
++	IN	PVOID	pDM_VOID
++)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER	pAdapter	 =  pDM_Odm->Adapter;
++	PODM_RATE_ADAPTIVE		pRA = &pDM_Odm->RateAdaptive;
++	u4Byte		i;
++	PSTA_INFO_T pEntry;
++	u1Byte		Ratr_State_new;
++
++	if (RTW_CANNOT_RUN(pAdapter)) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_TRACE, ("<---- odm_RefreshRateAdaptiveMask(): driver is going to unload\n"));
++		return;
++	}
++
++	if (!pDM_Odm->bUseRAMask) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("<---- odm_RefreshRateAdaptiveMask(): driver does not control rate adaptive mask\n"));
++		return;
++	}
++
++	for (i = 0; i < ODM_ASSOCIATE_ENTRY_NUM; i++) {
++		
++		pEntry = pDM_Odm->pODM_StaInfo[i];
++		
++		if (IS_STA_VALID(pEntry)) {
++
++			if (IS_MCAST(pEntry->hwaddr))
++				continue;
++
++			#if ((RTL8812A_SUPPORT == 1) || (RTL8821A_SUPPORT == 1))
++			if ((pDM_Odm->SupportICType == ODM_RTL8812) || (pDM_Odm->SupportICType == ODM_RTL8821)) {
++				if (pEntry->rssi_stat.UndecoratedSmoothedPWDB < pRA->LdpcThres) {
++					pRA->bUseLdpc = TRUE;
++					pRA->bLowerRtsRate = TRUE;
++					if ((pDM_Odm->SupportICType == ODM_RTL8821) && (pDM_Odm->CutVersion == ODM_CUT_A))
++						Set_RA_LDPC_8812(pEntry, TRUE);
++					//DbgPrint("RSSI=%d, bUseLdpc = TRUE\n", pHalData->UndecoratedSmoothedPWDB);
++				} else if (pEntry->rssi_stat.UndecoratedSmoothedPWDB > (pRA->LdpcThres - 5)) {
++					pRA->bUseLdpc = FALSE;
++					pRA->bLowerRtsRate = FALSE;
++					if ((pDM_Odm->SupportICType == ODM_RTL8821) && (pDM_Odm->CutVersion == ODM_CUT_A))
++						Set_RA_LDPC_8812(pEntry, FALSE);
++					//DbgPrint("RSSI=%d, bUseLdpc = FALSE\n", pHalData->UndecoratedSmoothedPWDB);
++				}
++			}
++			#endif
++			
++		#if RA_MASK_PHYDMLIZE_CE
++			Ratr_State_new = phydm_RA_level_decision(pDM_Odm, pEntry->rssi_stat.UndecoratedSmoothedPWDB, pEntry->rssi_level);
++
++			if (pEntry->rssi_level != Ratr_State_new) {
++				
++				/*ODM_PRINT_ADDR(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Target AP addr :"), pstat->hwaddr);*/
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Update Tx RA Level: ((%x)) -> ((%x)),  RSSI = ((%d))\n", 
++					 pEntry->rssi_level, Ratr_State_new, pEntry->rssi_stat.UndecoratedSmoothedPWDB));
++				
++				pEntry->rssi_level = Ratr_State_new;
++				rtw_hal_update_ra_mask(pEntry, pEntry->rssi_level);
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Stay in RA level  = (( %d ))\n\n", Ratr_State_new));
++				/**/
++			}
++		#else
++			if (TRUE == ODM_RAStateCheck(pDM_Odm, pEntry->rssi_stat.UndecoratedSmoothedPWDB, FALSE , &pEntry->rssi_level)) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("RSSI:%d, RSSI_LEVEL:%d\n", pEntry->rssi_stat.UndecoratedSmoothedPWDB, pEntry->rssi_level));
++				//printk("RSSI:%d, RSSI_LEVEL:%d\n", pstat->rssi_stat.UndecoratedSmoothedPWDB, pstat->rssi_level);
++				rtw_hal_update_ra_mask(pEntry, pEntry->rssi_level);
++			} else if (pDM_Odm->bChangeState) {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Change Power Training State, bDisablePowerTraining = %d\n", pDM_Odm->bDisablePowerTraining));
++				rtw_hal_update_ra_mask(pEntry, pEntry->rssi_level);
++			}
++		#endif
++
++		}
++	}
++
++#endif
++}
++
++VOID
++odm_RefreshRateAdaptiveMaskAPADSL(
++	IN	PVOID	pDM_VOID
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	struct rtl8192cd_priv *priv = pDM_Odm->priv;
++	struct aid_obj *aidarray;
++	u4Byte		i;
++	PSTA_INFO_T pEntry;
++	u1Byte		Ratr_State_new;
++	
++	if (priv->up_time % 2)
++		return;
++
++	for (i = 0; i < ODM_ASSOCIATE_ENTRY_NUM; i++) {
++		pEntry = pDM_Odm->pODM_StaInfo[i];
++
++		if (IS_STA_VALID(pEntry)) {
++			
++			#if defined(UNIVERSAL_REPEATER) || defined(MBSSID)
++			aidarray = container_of(pEntry, struct aid_obj, station);
++			priv = aidarray->priv;
++			#endif
++
++			if (!priv->pmib->dot11StationConfigEntry.autoRate)
++				continue;
++
++#if RA_MASK_PHYDMLIZE_AP
++			Ratr_State_new = phydm_RA_level_decision(pDM_Odm, (u4Byte)pEntry->rssi, pEntry->rssi_level);
++
++			if (pEntry->rssi_level != Ratr_State_new) {
++				
++				ODM_PRINT_ADDR(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Target AP addr :"), pEntry->hwaddr);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Update Tx RA Level: ((%x)) -> ((%x)),  RSSI = ((%d))\n", pEntry->rssi_level, Ratr_State_new, pEntry->rssi));
++				
++				pEntry->rssi_level = Ratr_State_new;
++				phydm_gen_ramask_h2c_AP(pDM_Odm, priv, pEntry, pEntry->rssi_level);
++			} else {
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Stay in RA level  = (( %d ))\n\n", Ratr_State_new));
++				/**/
++			}
++
++#else
++			if (ODM_RAStateCheck(pDM_Odm, (s4Byte)pEntry->rssi, FALSE, &pEntry->rssi_level)) {
++				ODM_PRINT_ADDR(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("Target STA addr : "), pEntry->hwaddr);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("RSSI:%d, RSSI_LEVEL:%d\n", pEntry->rssi, pEntry->rssi_level));
++
++	#ifdef CONFIG_WLAN_HAL
++				if (IS_HAL_CHIP(priv)) {
++	#ifdef WDS
++			/*if(!(pstat->state & WIFI_WDS))*/	/*if WDS donot setting*/
++	#endif
++					GET_HAL_INTERFACE(priv)->UpdateHalRAMaskHandler(priv, pEntry, pEntry->rssi_level);
++				} else
++	#endif
++
++	#ifdef CONFIG_RTL_8812_SUPPORT
++					if (GET_CHIP_VER(priv) == VERSION_8812E)
++						UpdateHalRAMask8812(priv, pEntry, 3);
++					else
++	#endif
++					{
++	#ifdef CONFIG_RTL_88E_SUPPORT
++						if (GET_CHIP_VER(priv) == VERSION_8188E) {
++	#ifdef TXREPORT
++							add_RATid(priv, pEntry);
++	#endif
++						}
++	#endif
++
++
++					}
++				}
++#endif /*#ifdef RA_MASK_PHYDMLIZE*/
++			
++		}
++	}
++#endif /*#if (DM_ODM_SUPPORT_TYPE & ODM_AP)*/
++}
++
++VOID
++odm_RefreshBasicRateMask(
++	IN	PVOID	pDM_VOID
++)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		Adapter	 =  pDM_Odm->Adapter;
++	static u1Byte		Stage = 0;
++	u1Byte			CurStage = 0;
++	OCTET_STRING 	osRateSet;
++	PMGNT_INFO		pMgntInfo = GetDefaultMgntInfo(Adapter);
++	u1Byte 			RateSet[5] = {MGN_1M, MGN_2M, MGN_5_5M, MGN_11M, MGN_6M};
++
++	if (pDM_Odm->SupportICType != ODM_RTL8812 && pDM_Odm->SupportICType != ODM_RTL8821)
++		return;
++
++	if (pDM_Odm->bLinked == FALSE)	// unlink Default port information
++		CurStage = 0;
++	else if (pDM_Odm->RSSI_Min < 40)	// link RSSI  < 40%
++		CurStage = 1;
++	else if (pDM_Odm->RSSI_Min > 45)	// link RSSI > 45%
++		CurStage = 3;
++	else
++		CurStage = 2;					// link  25% <= RSSI <= 30%
++
++	if (CurStage != Stage) {
++		if (CurStage == 1) {
++			FillOctetString(osRateSet, RateSet, 5);
++			FilterSupportRate(pMgntInfo->mBrates, &osRateSet, FALSE);
++			Adapter->HalFunc.SetHwRegHandler(Adapter, HW_VAR_BASIC_RATE, (pu1Byte)&osRateSet);
++		} else if (CurStage == 3 && (Stage == 1 || Stage == 2))
++			Adapter->HalFunc.SetHwRegHandler(Adapter, HW_VAR_BASIC_RATE, (pu1Byte)(&pMgntInfo->mBrates));
++	}
++
++	Stage = CurStage;
++#endif
++}
++
++u1Byte
++phydm_rate_order_compute(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	rate_idx
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte		rate_order = 0;
++
++	if (rate_idx >= ODM_RATEVHTSS4MCS0) {
++		
++		rate_idx -= ODM_RATEVHTSS4MCS0;
++		/**/
++	} else if (rate_idx >= ODM_RATEVHTSS3MCS0) {
++	
++		rate_idx -= ODM_RATEVHTSS3MCS0;
++		/**/	
++	} else if (rate_idx >= ODM_RATEVHTSS2MCS0) {
++	
++		rate_idx -= ODM_RATEVHTSS2MCS0;
++		/**/	
++	} else if (rate_idx >= ODM_RATEVHTSS1MCS0) {
++	
++		rate_idx -= ODM_RATEVHTSS1MCS0;
++		/**/
++	} else if (rate_idx >= ODM_RATEMCS24) {
++	
++		rate_idx -= ODM_RATEMCS24;
++		/**/
++	} else if (rate_idx >= ODM_RATEMCS16) {
++	
++		rate_idx -= ODM_RATEMCS16;
++		/**/
++	} else if (rate_idx >= ODM_RATEMCS8) {
++	
++		rate_idx -= ODM_RATEMCS8;	
++		/**/
++	}
++	rate_order = rate_idx;
++
++	return rate_order;
++
++}
++
++VOID
++phydm_ra_common_info_update(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T		pRA_Table = &pDM_Odm->DM_RA_Table;
++	u2Byte		macid;
++	u1Byte		rate_order_tmp;
++	u1Byte		cnt = 0;
++
++	pRA_Table->highest_client_tx_order = 0;
++	pRA_Table->power_tracking_flag = 1;
++
++	if (pDM_Odm->number_linked_client != 0) {
++		for (macid = 0; macid < ODM_ASSOCIATE_ENTRY_NUM; macid++) {
++			
++			rate_order_tmp = phydm_rate_order_compute(pDM_Odm, ((pRA_Table->link_tx_rate[macid]) & 0x7f));
++
++			if (rate_order_tmp >= (pRA_Table->highest_client_tx_order)) {
++				pRA_Table->highest_client_tx_order = rate_order_tmp;
++				pRA_Table->highest_client_tx_rate_order = macid;
++			}
++			
++			cnt++;
++		
++			if (cnt == pDM_Odm->number_linked_client)
++				break;
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("MACID[%d], Highest Tx order Update for power traking: %d\n", (pRA_Table->highest_client_tx_rate_order), (pRA_Table->highest_client_tx_order)));
++	}
++}
++
++VOID
++phydm_ra_info_watchdog(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	phydm_ra_common_info_update(pDM_Odm);
++	phydm_ra_dynamic_retry_limit(pDM_Odm);
++	phydm_ra_dynamic_retry_count(pDM_Odm);
++	odm_RefreshRateAdaptiveMask(pDM_Odm);
++	odm_RefreshBasicRateMask(pDM_Odm);
++}
++
++VOID
++phydm_ra_info_init(
++	IN	PVOID	pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T		pRA_Table = &pDM_Odm->DM_RA_Table;
++
++	pRA_Table->highest_client_tx_rate_order = 0;
++	pRA_Table->highest_client_tx_order = 0;
++	pRA_Table->RA_threshold_offset = 0;
++	pRA_Table->RA_offset_direction = 0;
++
++	#if (defined(CONFIG_RA_DYNAMIC_RTY_LIMIT))
++	phydm_ra_dynamic_retry_limit_init(pDM_Odm);
++	#endif
++	
++	#if (defined(CONFIG_RA_DYNAMIC_RATE_ID))
++	phydm_ra_dynamic_rate_id_init(pDM_Odm);
++	#endif
++	#if (defined(CONFIG_RA_DBG_CMD))
++	odm_RA_ParaAdjust_init(pDM_Odm);
++	#endif
++
++}
++
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++u1Byte
++odm_Find_RTS_Rate(
++	IN		PVOID			pDM_VOID,
++	IN		u1Byte			Tx_Rate,
++	IN		BOOLEAN			bErpProtect
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	RTS_Ini_Rate = ODM_RATE6M;
++	
++	if (bErpProtect) /* use CCK rate as RTS*/
++		RTS_Ini_Rate = ODM_RATE1M;
++	else {
++		switch (Tx_Rate) {
++		case ODM_RATEVHTSS3MCS9:
++		case ODM_RATEVHTSS3MCS8:
++		case ODM_RATEVHTSS3MCS7:
++		case ODM_RATEVHTSS3MCS6:
++		case ODM_RATEVHTSS3MCS5:
++		case ODM_RATEVHTSS3MCS4:
++		case ODM_RATEVHTSS3MCS3:
++		case ODM_RATEVHTSS2MCS9:
++		case ODM_RATEVHTSS2MCS8:
++		case ODM_RATEVHTSS2MCS7:
++		case ODM_RATEVHTSS2MCS6:
++		case ODM_RATEVHTSS2MCS5:
++		case ODM_RATEVHTSS2MCS4:
++		case ODM_RATEVHTSS2MCS3:
++		case ODM_RATEVHTSS1MCS9:
++		case ODM_RATEVHTSS1MCS8:
++		case ODM_RATEVHTSS1MCS7:
++		case ODM_RATEVHTSS1MCS6:
++		case ODM_RATEVHTSS1MCS5:
++		case ODM_RATEVHTSS1MCS4:
++		case ODM_RATEVHTSS1MCS3:
++		case ODM_RATEMCS15:
++		case ODM_RATEMCS14:
++		case ODM_RATEMCS13:
++		case ODM_RATEMCS12:
++		case ODM_RATEMCS11:
++		case ODM_RATEMCS7:
++		case ODM_RATEMCS6:
++		case ODM_RATEMCS5:
++		case ODM_RATEMCS4:
++		case ODM_RATEMCS3:
++		case ODM_RATE54M:
++		case ODM_RATE48M:
++		case ODM_RATE36M:
++		case ODM_RATE24M:		
++			RTS_Ini_Rate = ODM_RATE24M;
++			break;
++		case ODM_RATEVHTSS3MCS2:
++		case ODM_RATEVHTSS3MCS1:
++		case ODM_RATEVHTSS2MCS2:
++		case ODM_RATEVHTSS2MCS1:
++		case ODM_RATEVHTSS1MCS2:
++		case ODM_RATEVHTSS1MCS1:
++		case ODM_RATEMCS10:
++		case ODM_RATEMCS9:
++		case ODM_RATEMCS2:
++		case ODM_RATEMCS1:
++		case ODM_RATE18M:
++		case ODM_RATE12M:
++			RTS_Ini_Rate = ODM_RATE12M;
++			break;
++		case ODM_RATEVHTSS3MCS0:
++		case ODM_RATEVHTSS2MCS0:
++		case ODM_RATEVHTSS1MCS0:
++		case ODM_RATEMCS8:
++		case ODM_RATEMCS0:
++		case ODM_RATE9M:
++		case ODM_RATE6M:
++			RTS_Ini_Rate = ODM_RATE6M;
++			break;
++		case ODM_RATE11M:
++		case ODM_RATE5_5M:
++		case ODM_RATE2M:
++		case ODM_RATE1M:
++			RTS_Ini_Rate = ODM_RATE1M;
++			break;
++		default:
++			RTS_Ini_Rate = ODM_RATE6M;
++			break;
++		}
++	}
++
++	if (*pDM_Odm->pBandType == 1) {
++		if (RTS_Ini_Rate < ODM_RATE6M)
++			RTS_Ini_Rate = ODM_RATE6M;
++	}
++	return RTS_Ini_Rate;
++
++}
++
++VOID
++odm_Set_RA_DM_ARFB_by_Noisy(
++	IN	PDM_ODM_T	pDM_Odm
++)
++{
++#if 0
++
++	/*DbgPrint("DM_ARFB ====>\n");*/
++	if (pDM_Odm->bNoisyState) {
++		ODM_Write4Byte(pDM_Odm, 0x430, 0x00000000);
++		ODM_Write4Byte(pDM_Odm, 0x434, 0x05040200);
++		/*DbgPrint("DM_ARFB ====> Noisy State\n");*/
++	} else {
++		ODM_Write4Byte(pDM_Odm, 0x430, 0x02010000);
++		ODM_Write4Byte(pDM_Odm, 0x434, 0x07050403);
++		/*DbgPrint("DM_ARFB ====> Clean State\n");*/
++	}
++#endif
++}
++
++VOID
++ODM_UpdateNoisyState(
++	IN	PVOID		pDM_VOID,
++	IN	BOOLEAN		bNoisyStateFromC2H
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	/*DbgPrint("Get C2H Command! NoisyState=0x%x\n ", bNoisyStateFromC2H);*/
++	if (pDM_Odm->SupportICType == ODM_RTL8821  || pDM_Odm->SupportICType == ODM_RTL8812  ||
++		pDM_Odm->SupportICType == ODM_RTL8723B || pDM_Odm->SupportICType == ODM_RTL8192E || pDM_Odm->SupportICType == ODM_RTL8188E || pDM_Odm->SupportICType == ODM_RTL8723D)
++		pDM_Odm->bNoisyState = bNoisyStateFromC2H;
++	odm_Set_RA_DM_ARFB_by_Noisy(pDM_Odm);
++};
++
++VOID
++phydm_update_pwr_track(
++	IN	PVOID		pDM_VOID,
++	IN	u1Byte		Rate
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			pathIdx = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("Pwr Track Get Rate=0x%x\n", Rate));
++
++	pDM_Odm->TxRate = Rate;
++		
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		#if DEV_BUS_TYPE == RT_PCI_INTERFACE
++			#if USE_WORKITEM
++			PlatformScheduleWorkItem(&pDM_Odm->RaRptWorkitem);
++			#else
++			if (pDM_Odm->SupportICType == ODM_RTL8821) {
++				#if (RTL8821A_SUPPORT == 1)
++				ODM_TxPwrTrackSetPwr8821A(pDM_Odm, MIX_MODE, ODM_RF_PATH_A, 0);
++				#endif
++			} else if (pDM_Odm->SupportICType == ODM_RTL8812) {
++				for (pathIdx = ODM_RF_PATH_A; pathIdx < MAX_PATH_NUM_8812A; pathIdx++) {
++					#if (RTL8812A_SUPPORT == 1)
++					ODM_TxPwrTrackSetPwr8812A(pDM_Odm, MIX_MODE, pathIdx, 0);
++					#endif
++				}
++			} else if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++				#if (RTL8723B_SUPPORT == 1)
++				ODM_TxPwrTrackSetPwr_8723B(pDM_Odm, MIX_MODE, ODM_RF_PATH_A, 0);
++				#endif
++			} else if (pDM_Odm->SupportICType == ODM_RTL8192E) {
++				for (pathIdx = ODM_RF_PATH_A; pathIdx < MAX_PATH_NUM_8192E; pathIdx++) {
++					#if (RTL8192E_SUPPORT == 1)
++					ODM_TxPwrTrackSetPwr92E(pDM_Odm, MIX_MODE, pathIdx, 0);
++					#endif
++				}
++			} else if (pDM_Odm->SupportICType == ODM_RTL8188E) {
++				#if (RTL8188E_SUPPORT == 1)
++				ODM_TxPwrTrackSetPwr88E(pDM_Odm, MIX_MODE, ODM_RF_PATH_A, 0);
++				#endif
++			}
++			#endif
++		#else
++			PlatformScheduleWorkItem(&pDM_Odm->RaRptWorkitem);
++		#endif
++	#endif
++
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++s4Byte
++phydm_FindMinimumRSSI(
++IN		PDM_ODM_T		pDM_Odm,
++IN		PADAPTER		pAdapter,
++IN	OUT	BOOLEAN			*pbLink_temp
++
++	)
++{	
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PMGNT_INFO		pMgntInfo = &(pAdapter->MgntInfo);
++	BOOLEAN			act_as_ap = ACTING_AS_AP(pAdapter);
++	
++	/* 1.Determine the minimum RSSI */
++	if ((!pMgntInfo->bMediaConnect) ||	
++		(act_as_ap && (pHalData->EntryMinUndecoratedSmoothedPWDB == 0))) {/* We should check AP mode and Entry info.into consideration, revised by Roger, 2013.10.18*/
++	
++		pHalData->MinUndecoratedPWDBForDM = 0;
++		*pbLink_temp = FALSE;
++
++	} else
++		*pbLink_temp = TRUE; 
++	
++
++	if (pMgntInfo->bMediaConnect) {	/* Default port*/
++	
++		if (act_as_ap || pMgntInfo->mIbss) {
++			pHalData->MinUndecoratedPWDBForDM = pHalData->EntryMinUndecoratedSmoothedPWDB;
++			/**/
++		} else {
++			pHalData->MinUndecoratedPWDBForDM = pHalData->UndecoratedSmoothedPWDB;
++			/**/
++		}
++	} else { /* associated entry pwdb*/
++		pHalData->MinUndecoratedPWDBForDM = pHalData->EntryMinUndecoratedSmoothedPWDB;
++		/**/
++	}
++
++	return pHalData->MinUndecoratedPWDBForDM;
++}
++
++VOID
++ODM_UpdateInitRateWorkItemCallback(
++	IN	PVOID	pContext
++)
++{
++	PADAPTER	Adapter = (PADAPTER)pContext;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	u1Byte		p = 0;	
++
++	if (pDM_Odm->SupportICType == ODM_RTL8821) {
++		ODM_TxPwrTrackSetPwr8821A(pDM_Odm, MIX_MODE, ODM_RF_PATH_A, 0);
++		/**/
++	} else if (pDM_Odm->SupportICType == ODM_RTL8812) {
++		for (p = ODM_RF_PATH_A; p < MAX_PATH_NUM_8812A; p++) {    /*DOn't know how to include &c*/
++		
++			ODM_TxPwrTrackSetPwr8812A(pDM_Odm, MIX_MODE, p, 0);
++			/**/
++		}
++	} else if (pDM_Odm->SupportICType == ODM_RTL8723B) {
++			ODM_TxPwrTrackSetPwr_8723B(pDM_Odm, MIX_MODE, ODM_RF_PATH_A, 0);
++			/**/
++	} else if (pDM_Odm->SupportICType == ODM_RTL8192E) {
++		for (p = ODM_RF_PATH_A; p < MAX_PATH_NUM_8192E; p++) {   /*DOn't know how to include &c*/
++			ODM_TxPwrTrackSetPwr92E(pDM_Odm, MIX_MODE, p, 0);
++			/**/
++		}
++	} else if (pDM_Odm->SupportICType == ODM_RTL8188E) {
++		ODM_TxPwrTrackSetPwr88E(pDM_Odm, MIX_MODE, ODM_RF_PATH_A, 0);
++		/**/
++	}
++}
++
++VOID
++odm_RSSIDumpToRegister(
++	IN	PVOID	pDM_VOID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++
++	if (pDM_Odm->SupportICType == ODM_RTL8812) {
++		PlatformEFIOWrite1Byte(Adapter, rA_RSSIDump_Jaguar, Adapter->RxStats.RxRSSIPercentage[0]);
++		PlatformEFIOWrite1Byte(Adapter, rB_RSSIDump_Jaguar, Adapter->RxStats.RxRSSIPercentage[1]);
++
++		/* Rx EVM*/
++		PlatformEFIOWrite1Byte(Adapter, rS1_RXevmDump_Jaguar, Adapter->RxStats.RxEVMdbm[0]);
++		PlatformEFIOWrite1Byte(Adapter, rS2_RXevmDump_Jaguar, Adapter->RxStats.RxEVMdbm[1]);
++
++		/* Rx SNR*/
++		PlatformEFIOWrite1Byte(Adapter, rA_RXsnrDump_Jaguar, (u1Byte)(Adapter->RxStats.RxSNRdB[0]));
++		PlatformEFIOWrite1Byte(Adapter, rB_RXsnrDump_Jaguar, (u1Byte)(Adapter->RxStats.RxSNRdB[1]));
++
++		/* Rx Cfo_Short*/
++		PlatformEFIOWrite2Byte(Adapter, rA_CfoShortDump_Jaguar, Adapter->RxStats.RxCfoShort[0]);
++		PlatformEFIOWrite2Byte(Adapter, rB_CfoShortDump_Jaguar, Adapter->RxStats.RxCfoShort[1]);
++
++		/* Rx Cfo_Tail*/
++		PlatformEFIOWrite2Byte(Adapter, rA_CfoLongDump_Jaguar, Adapter->RxStats.RxCfoTail[0]);
++		PlatformEFIOWrite2Byte(Adapter, rB_CfoLongDump_Jaguar, Adapter->RxStats.RxCfoTail[1]);
++	} else if (pDM_Odm->SupportICType == ODM_RTL8192E) {
++		PlatformEFIOWrite1Byte(Adapter, rA_RSSIDump_92E, Adapter->RxStats.RxRSSIPercentage[0]);
++		PlatformEFIOWrite1Byte(Adapter, rB_RSSIDump_92E, Adapter->RxStats.RxRSSIPercentage[1]);
++		/* Rx EVM*/
++		PlatformEFIOWrite1Byte(Adapter, rS1_RXevmDump_92E, Adapter->RxStats.RxEVMdbm[0]);
++		PlatformEFIOWrite1Byte(Adapter, rS2_RXevmDump_92E, Adapter->RxStats.RxEVMdbm[1]);
++		/* Rx SNR*/
++		PlatformEFIOWrite1Byte(Adapter, rA_RXsnrDump_92E, (u1Byte)(Adapter->RxStats.RxSNRdB[0]));
++		PlatformEFIOWrite1Byte(Adapter, rB_RXsnrDump_92E, (u1Byte)(Adapter->RxStats.RxSNRdB[1]));
++		/* Rx Cfo_Short*/
++		PlatformEFIOWrite2Byte(Adapter, rA_CfoShortDump_92E, Adapter->RxStats.RxCfoShort[0]);
++		PlatformEFIOWrite2Byte(Adapter, rB_CfoShortDump_92E, Adapter->RxStats.RxCfoShort[1]);
++		/* Rx Cfo_Tail*/
++		PlatformEFIOWrite2Byte(Adapter, rA_CfoLongDump_92E, Adapter->RxStats.RxCfoTail[0]);
++		PlatformEFIOWrite2Byte(Adapter, rB_CfoLongDump_92E, Adapter->RxStats.RxCfoTail[1]);
++	}
++}
++
++VOID
++odm_RefreshLdpcRtsMP(
++	IN	PADAPTER			pAdapter,
++	IN	PDM_ODM_T			pDM_Odm,
++	IN	u1Byte				mMacId,
++	IN	u1Byte				IOTPeer,
++	IN	s4Byte				UndecoratedSmoothedPWDB
++)
++{
++	BOOLEAN					bCtlLdpc = FALSE;
++	PODM_RATE_ADAPTIVE		pRA = &pDM_Odm->RateAdaptive;
++
++	if (pDM_Odm->SupportICType != ODM_RTL8821 && pDM_Odm->SupportICType != ODM_RTL8812)
++		return;
++
++	if ((pDM_Odm->SupportICType == ODM_RTL8821) && (pDM_Odm->CutVersion == ODM_CUT_A))
++		bCtlLdpc = TRUE;
++	else if (pDM_Odm->SupportICType == ODM_RTL8812 &&
++			 IOTPeer == HT_IOT_PEER_REALTEK_JAGUAR_CCUTAP)
++		bCtlLdpc = TRUE;
++
++	if (bCtlLdpc) {
++		if (UndecoratedSmoothedPWDB < (pRA->LdpcThres - 5))
++			MgntSet_TX_LDPC(pAdapter, mMacId, TRUE);
++		else if (UndecoratedSmoothedPWDB > pRA->LdpcThres)
++			MgntSet_TX_LDPC(pAdapter, mMacId, FALSE);
++	}
++
++	if (UndecoratedSmoothedPWDB < (pRA->RtsThres - 5))
++		pRA->bLowerRtsRate = TRUE;
++	else if (UndecoratedSmoothedPWDB > pRA->RtsThres)
++		pRA->bLowerRtsRate = FALSE;
++}
++
++#if 0
++VOID
++ODM_DynamicARFBSelect(
++	IN		PVOID		pDM_VOID,
++	IN 		u1Byte			rate,
++	IN  		BOOLEAN			Collision_State
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pRA_T			pRA_Table = &pDM_Odm->DM_RA_Table;
++
++	if (pDM_Odm->SupportICType != ODM_RTL8192E)
++		return;
++
++	if (Collision_State == pRA_Table->PT_collision_pre)
++		return;
++
++	if (rate >= DESC_RATEMCS8  && rate <= DESC_RATEMCS12) {
++		if (Collision_State == 1) {
++			if (rate == DESC_RATEMCS12) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x0);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x07060501);
++			} else if (rate == DESC_RATEMCS11) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x0);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x07070605);
++			} else if (rate == DESC_RATEMCS10) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x0);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x08080706);
++			} else if (rate == DESC_RATEMCS9) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x0);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x08080707);
++			} else {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x0);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x09090808);
++			}
++		} else { /* Collision_State == 0*/
++			if (rate == DESC_RATEMCS12) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x05010000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x09080706);
++			} else if (rate == DESC_RATEMCS11) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x06050000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x09080807);
++			} else if (rate == DESC_RATEMCS10) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x07060000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x0a090908);
++			} else if (rate == DESC_RATEMCS9) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x07070000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x0a090808);
++			} else {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x08080000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x0b0a0909);
++			}
++		}
++	} else { /* MCS13~MCS15,  1SS, G-mode*/
++		if (Collision_State == 1) {
++			if (rate == DESC_RATEMCS15) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x00000000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x05040302);
++			} else if (rate == DESC_RATEMCS14) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x00000000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x06050302);
++			} else if (rate == DESC_RATEMCS13) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x00000000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x07060502);
++			} else {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x00000000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x06050402);
++			}
++		} else { // Collision_State == 0
++			if (rate == DESC_RATEMCS15) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x03020000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x07060504);
++			} else if (rate == DESC_RATEMCS14) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x03020000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x08070605);
++			} else if (rate == DESC_RATEMCS13) {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x05020000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x09080706);
++			} else {
++
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E, 0x04020000);
++				ODM_Write4Byte(pDM_Odm, REG_DARFRC_8192E+4, 0x08070605);
++			}
++		}
++	}
++	pRA_Table->PT_collision_pre = Collision_State;
++}
++#endif
++
++VOID
++ODM_RateAdaptiveStateApInit(
++	IN	PVOID		PADAPTER_VOID,
++	IN	PRT_WLAN_STA  	pEntry
++)
++{
++	PADAPTER		Adapter = (PADAPTER)PADAPTER_VOID;
++	pEntry->Ratr_State = DM_RATR_STA_INIT;
++}
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE) /*#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)*/
++
++static void
++FindMinimumRSSI(
++	IN	PADAPTER	pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++
++	/*Determine the minimum RSSI*/
++
++	if ((pDM_Odm->bLinked != _TRUE) &&
++		(pHalData->EntryMinUndecoratedSmoothedPWDB == 0)) {
++		pHalData->MinUndecoratedPWDBForDM = 0;
++		/*ODM_RT_TRACE(pDM_Odm,COMP_BB_POWERSAVING, DBG_LOUD, ("Not connected to any\n"));*/
++	} else
++		pHalData->MinUndecoratedPWDBForDM = pHalData->EntryMinUndecoratedSmoothedPWDB;
++
++	/*DBG_8192C("%s=>MinUndecoratedPWDBForDM(%d)\n",__FUNCTION__,pdmpriv->MinUndecoratedPWDBForDM);*/
++	/*ODM_RT_TRACE(pDM_Odm,COMP_DIG, DBG_LOUD, ("MinUndecoratedPWDBForDM =%d\n",pHalData->MinUndecoratedPWDBForDM));*/
++}
++
++u8Byte
++PhyDM_Get_Rate_Bitmap_Ex(
++	IN	PVOID		pDM_VOID,
++	IN	u4Byte		macid,
++	IN	u8Byte		ra_mask,
++	IN	u1Byte		rssi_level,
++	OUT		u8Byte	*dm_RA_Mask,
++	OUT		u1Byte	*dm_RteID
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PSTA_INFO_T	pEntry;
++	u8Byte	rate_bitmap = 0;
++	u1Byte	WirelessMode;
++
++	pEntry = pDM_Odm->pODM_StaInfo[macid];
++	if (!IS_STA_VALID(pEntry))
++		return ra_mask;
++	WirelessMode = pEntry->wireless_mode;
++	switch (WirelessMode) {
++	case ODM_WM_B:
++		if (ra_mask & 0x000000000000000c) /* 11M or 5.5M enable */
++			rate_bitmap = 0x000000000000000d;
++		else
++			rate_bitmap = 0x000000000000000f;
++		break;
++
++	case (ODM_WM_G):
++	case (ODM_WM_A):
++		if (rssi_level == DM_RATR_STA_HIGH)
++			rate_bitmap = 0x0000000000000f00;
++		else
++			rate_bitmap = 0x0000000000000ff0;
++		break;
++
++	case (ODM_WM_B|ODM_WM_G):
++		if (rssi_level == DM_RATR_STA_HIGH)
++			rate_bitmap = 0x0000000000000f00;
++		else if (rssi_level == DM_RATR_STA_MIDDLE)
++			rate_bitmap = 0x0000000000000ff0;
++		else
++			rate_bitmap = 0x0000000000000ff5;
++		break;
++
++	case (ODM_WM_B|ODM_WM_G|ODM_WM_N24G):
++	case (ODM_WM_B|ODM_WM_N24G):
++	case (ODM_WM_G|ODM_WM_N24G):
++	case (ODM_WM_A|ODM_WM_N5G): {
++		if (pDM_Odm->RFType == ODM_1T2R || pDM_Odm->RFType == ODM_1T1R) {
++			if (rssi_level == DM_RATR_STA_HIGH)
++				rate_bitmap = 0x00000000000f0000;
++			else if (rssi_level == DM_RATR_STA_MIDDLE)
++				rate_bitmap = 0x00000000000ff000;
++			else {
++				if (*(pDM_Odm->pBandWidth) == ODM_BW40M)
++					rate_bitmap = 0x00000000000ff015;
++				else
++					rate_bitmap = 0x00000000000ff005;
++			}
++		} else if (pDM_Odm->RFType == ODM_2T2R  || pDM_Odm->RFType == ODM_2T3R  || pDM_Odm->RFType == ODM_2T4R) {
++			if (rssi_level == DM_RATR_STA_HIGH)
++				rate_bitmap = 0x000000000f8f0000;
++			else if (rssi_level == DM_RATR_STA_MIDDLE)
++				rate_bitmap = 0x000000000f8ff000;
++			else {
++				if (*(pDM_Odm->pBandWidth) == ODM_BW40M)
++					rate_bitmap = 0x000000000f8ff015;
++				else
++					rate_bitmap = 0x000000000f8ff005;
++			}
++		} else {
++			if (rssi_level == DM_RATR_STA_HIGH)
++				rate_bitmap = 0x0000000f0f0f0000;
++			else if (rssi_level == DM_RATR_STA_MIDDLE)
++				rate_bitmap = 0x0000000fcfcfe000;
++			else {
++				if (*(pDM_Odm->pBandWidth) == ODM_BW40M)
++					rate_bitmap = 0x0000000ffffff015;
++				else
++					rate_bitmap = 0x0000000ffffff005;
++			}
++		}
++	}
++	break;
++
++	case (ODM_WM_AC|ODM_WM_G):
++		if (rssi_level == 1)
++			rate_bitmap = 0x00000000fc3f0000;
++		else if (rssi_level == 2)
++			rate_bitmap = 0x00000000fffff000;
++		else
++			rate_bitmap = 0x00000000ffffffff;
++		break;
++
++	case (ODM_WM_AC|ODM_WM_A):
++
++		if (pDM_Odm->RFType == ODM_1T2R || pDM_Odm->RFType == ODM_1T1R) {
++			if (rssi_level == 1)				/* add by Gary for ac-series */
++				rate_bitmap = 0x00000000003f8000;
++			else if (rssi_level == 2)
++				rate_bitmap = 0x00000000003fe000;
++			else
++				rate_bitmap = 0x00000000003ff010;
++		} else if (pDM_Odm->RFType == ODM_2T2R  || pDM_Odm->RFType == ODM_2T3R  || pDM_Odm->RFType == ODM_2T4R) {
++			if (rssi_level == 1)				/* add by Gary for ac-series */
++				rate_bitmap = 0x00000000fe3f8000;       /* VHT 2SS MCS3~9 */
++			else if (rssi_level == 2)
++				rate_bitmap = 0x00000000fffff000;       /* VHT 2SS MCS0~9 */
++			else
++				rate_bitmap = 0x00000000fffff010;       /* All */
++		} else {
++			if (rssi_level == 1)				/* add by Gary for ac-series */
++				rate_bitmap = 0x000003f8fe3f8000ULL;       /* VHT 3SS MCS3~9 */
++			else if (rssi_level == 2)
++				rate_bitmap = 0x000003fffffff000ULL;       /* VHT3SS MCS0~9 */
++			else
++				rate_bitmap = 0x000003fffffff010ULL;       /* All */
++		}
++		break;
++
++	default:
++		if (pDM_Odm->RFType == ODM_1T2R || pDM_Odm->RFType == ODM_1T1R)
++			rate_bitmap = 0x00000000000fffff;
++		else if (pDM_Odm->RFType == ODM_2T2R  || pDM_Odm->RFType == ODM_2T3R  || pDM_Odm->RFType == ODM_2T4R)
++			rate_bitmap = 0x000000000fffffff;
++		else
++			rate_bitmap = 0x0000003fffffffffULL;
++		break;
++
++	}
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, (" ==> rssi_level:0x%02x, WirelessMode:0x%02x, rate_bitmap:0x%016llx\n", rssi_level, WirelessMode, rate_bitmap));
++
++	return (ra_mask & rate_bitmap);
++}
++
++
++u4Byte
++ODM_Get_Rate_Bitmap(
++	IN	PVOID		pDM_VOID,
++	IN	u4Byte		macid,
++	IN	u4Byte 		ra_mask,
++	IN	u1Byte 		rssi_level
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PSTA_INFO_T   	pEntry;
++	u4Byte 	rate_bitmap = 0;
++	u1Byte 	WirelessMode;
++	//u1Byte 	WirelessMode =*(pDM_Odm->pWirelessMode);
++
++
++	pEntry = pDM_Odm->pODM_StaInfo[macid];
++	if (!IS_STA_VALID(pEntry))
++		return ra_mask;
++
++	WirelessMode = pEntry->wireless_mode;
++
++	switch (WirelessMode) {
++	case ODM_WM_B:
++		if (ra_mask & 0x0000000c)		//11M or 5.5M enable
++			rate_bitmap = 0x0000000d;
++		else
++			rate_bitmap = 0x0000000f;
++		break;
++
++	case (ODM_WM_G):
++	case (ODM_WM_A):
++		if (rssi_level == DM_RATR_STA_HIGH)
++			rate_bitmap = 0x00000f00;
++		else
++			rate_bitmap = 0x00000ff0;
++		break;
++
++	case (ODM_WM_B|ODM_WM_G):
++		if (rssi_level == DM_RATR_STA_HIGH)
++			rate_bitmap = 0x00000f00;
++		else if (rssi_level == DM_RATR_STA_MIDDLE)
++			rate_bitmap = 0x00000ff0;
++		else
++			rate_bitmap = 0x00000ff5;
++		break;
++
++	case (ODM_WM_B|ODM_WM_G|ODM_WM_N24G)	:
++	case (ODM_WM_B|ODM_WM_N24G)	:
++	case (ODM_WM_G|ODM_WM_N24G)	:
++	case (ODM_WM_A|ODM_WM_N5G)	: {
++		if (pDM_Odm->RFType == ODM_1T2R || pDM_Odm->RFType == ODM_1T1R) {
++			if (rssi_level == DM_RATR_STA_HIGH)
++				rate_bitmap = 0x000f0000;
++			else if (rssi_level == DM_RATR_STA_MIDDLE)
++				rate_bitmap = 0x000ff000;
++			else {
++				if (*(pDM_Odm->pBandWidth) == ODM_BW40M)
++					rate_bitmap = 0x000ff015;
++				else
++					rate_bitmap = 0x000ff005;
++			}
++		} else {
++			if (rssi_level == DM_RATR_STA_HIGH)
++				rate_bitmap = 0x0f8f0000;
++			else if (rssi_level == DM_RATR_STA_MIDDLE)
++				rate_bitmap = 0x0f8ff000;
++			else {
++				if (*(pDM_Odm->pBandWidth) == ODM_BW40M)
++					rate_bitmap = 0x0f8ff015;
++				else
++					rate_bitmap = 0x0f8ff005;
++			}
++		}
++	}
++	break;
++
++	case (ODM_WM_AC|ODM_WM_G):
++		if (rssi_level == 1)
++			rate_bitmap = 0xfc3f0000;
++		else if (rssi_level == 2)
++			rate_bitmap = 0xfffff000;
++		else
++			rate_bitmap = 0xffffffff;
++		break;
++
++	case (ODM_WM_AC|ODM_WM_A):
++
++		if (pDM_Odm->RFType == RF_1T1R) {
++			if (rssi_level == 1)				// add by Gary for ac-series
++				rate_bitmap = 0x003f8000;
++			else if (rssi_level == 2)
++				rate_bitmap = 0x003ff000;
++			else
++				rate_bitmap = 0x003ff010;
++		} else {
++			if (rssi_level == 1)				// add by Gary for ac-series
++				rate_bitmap = 0xfe3f8000;       // VHT 2SS MCS3~9
++			else if (rssi_level == 2)
++				rate_bitmap = 0xfffff000;       // VHT 2SS MCS0~9
++			else
++				rate_bitmap = 0xfffff010;       // All
++		}
++		break;
++
++	default:
++		if (pDM_Odm->RFType == RF_1T2R)
++			rate_bitmap = 0x000fffff;
++		else
++			rate_bitmap = 0x0fffffff;
++		break;
++
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RATE_ADAPTIVE, ODM_DBG_LOUD, ("%s ==> rssi_level:0x%02x, WirelessMode:0x%02x, rate_bitmap:0x%08x\n", __func__, rssi_level, WirelessMode, rate_bitmap));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, (" ==> rssi_level:0x%02x, WirelessMode:0x%02x, rate_bitmap:0x%08x\n", rssi_level, WirelessMode, rate_bitmap));
++
++	return (ra_mask & rate_bitmap);
++
++}
++
++#endif //#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++#elif (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++
++VOID
++phydm_gen_ramask_h2c_AP(
++	IN		PVOID			pDM_VOID,
++	IN		struct rtl8192cd_priv *priv,
++	IN		PSTA_INFO_T		*pEntry,
++	IN		u1Byte			rssi_level
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8192E | ODM_RTL8881A)) {
++		
++		#ifdef CONFIG_WLAN_HAL
++		GET_HAL_INTERFACE(priv)->UpdateHalRAMaskHandler(priv, pEntry, rssi_level);
++		#endif
++		
++	} else if (pDM_Odm->SupportICType == ODM_RTL8812) {
++	
++		#if (RTL8812A_SUPPORT == 1)
++		UpdateHalRAMask8812(priv, pEntry, rssi_level);
++		/**/
++		#endif
++	} else if (pDM_Odm->SupportICType == ODM_RTL8188E) {
++	
++		#if (RTL8188E_SUPPORT == 1)
++		#ifdef TXREPORT
++		add_RATid(priv, pEntry);
++		/**/
++		#endif
++		#endif
++	}
++}
++
++
++#endif /*#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN| ODM_CE))*/
++
++
++/* RA_MASK_PHYDMLIZE, will delete it later*/
++
++#if (RA_MASK_PHYDMLIZE_CE || RA_MASK_PHYDMLIZE_AP || RA_MASK_PHYDMLIZE_WIN)
++
++BOOLEAN
++ODM_RAStateCheck(
++	IN		PVOID			pDM_VOID,
++	IN		s4Byte			RSSI,
++	IN		BOOLEAN			bForceUpdate,
++	OUT		pu1Byte			pRATRState
++)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PODM_RATE_ADAPTIVE pRA = &pDM_Odm->RateAdaptive;
++	const u1Byte GoUpGap = 5;
++	u1Byte HighRSSIThreshForRA = pRA->HighRSSIThresh;
++	u1Byte LowRSSIThreshForRA = pRA->LowRSSIThresh;
++	u1Byte RATRState;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("RSSI= (( %d )), Current_RSSI_level = (( %d ))\n", RSSI, *pRATRState));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("[Ori RA RSSI Thresh]  High= (( %d )), Low = (( %d ))\n", HighRSSIThreshForRA, LowRSSIThreshForRA));
++	/* Threshold Adjustment:*/
++	/* when RSSI state trends to go up one or two levels, make sure RSSI is high enough.*/
++	/* Here GoUpGap is added to solve the boundary's level alternation issue.*/
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	u1Byte UltraLowRSSIThreshForRA = pRA->UltraLowRSSIThresh;
++
++	if (pDM_Odm->SupportICType == ODM_RTL8881A)
++		LowRSSIThreshForRA = 30;		/* for LDPC / BCC switch*/
++#endif
++
++	switch (*pRATRState) {
++	case DM_RATR_STA_INIT:
++	case DM_RATR_STA_HIGH:
++		break;
++
++	case DM_RATR_STA_MIDDLE:
++		HighRSSIThreshForRA += GoUpGap;
++		break;
++
++	case DM_RATR_STA_LOW:
++		HighRSSIThreshForRA += GoUpGap;
++		LowRSSIThreshForRA += GoUpGap;
++		break;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	case DM_RATR_STA_ULTRA_LOW:
++		HighRSSIThreshForRA += GoUpGap;
++		LowRSSIThreshForRA += GoUpGap;
++		UltraLowRSSIThreshForRA += GoUpGap;
++		break;
++#endif
++
++	default:
++		ODM_RT_ASSERT(pDM_Odm, FALSE, ("wrong rssi level setting %d !", *pRATRState));
++		break;
++	}
++
++	/* Decide RATRState by RSSI.*/
++	if (RSSI > HighRSSIThreshForRA)
++		RATRState = DM_RATR_STA_HIGH;
++	else if (RSSI > LowRSSIThreshForRA)
++		RATRState = DM_RATR_STA_MIDDLE;
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	else if (RSSI > UltraLowRSSIThreshForRA)
++		RATRState = DM_RATR_STA_LOW;
++	else
++		RATRState = DM_RATR_STA_ULTRA_LOW;
++#else
++	else
++		RATRState = DM_RATR_STA_LOW;
++#endif
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("[Mod RA RSSI Thresh]  High= (( %d )), Low = (( %d ))\n", HighRSSIThreshForRA, LowRSSIThreshForRA));
++	/*printk("==>%s,RATRState:0x%02x ,RSSI:%d\n",__FUNCTION__,RATRState,RSSI);*/
++
++	if (*pRATRState != RATRState || bForceUpdate) {
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_RA_MASK, ODM_DBG_LOUD, ("[RSSI Level Update] %d -> %d\n", *pRATRState, RATRState));
++		*pRATRState = RATRState;
++		return TRUE;
++	}
++
++	return FALSE;
++}
++
++#endif
++
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_rainfo.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_rainfo.h
+new file mode 100644
+index 0000000..4c5ce8e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_rainfo.h
+@@ -0,0 +1,565 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef	__PHYDMRAINFO_H__
++#define    __PHYDMRAINFO_H__
++
++/*#define RAINFO_VERSION	"2.0"  //2014.11.04*/
++/*#define RAINFO_VERSION	"3.0"  //2015.01.13 Dino*/
++/*#define RAINFO_VERSION	"3.1"  //2015.01.14 Dino*/
++/*#define RAINFO_VERSION	"3.3"  2015.07.29 YuChen*/
++/*#define RAINFO_VERSION	"3.4"*/  /*2015.12.15 Stanley*/
++/*#define RAINFO_VERSION	"4.0"*/  /*2016.03.24 Dino, Add more RA mask state and Phydm-lize partial ra mask function  */
++#define RAINFO_VERSION	"4.1"  /*2016.04.20 Dino, Add new function to adjust PCR RA threshold  */
++
++#define	H2C_0X42_LENGTH	5
++
++#define	RA_FLOOR_UP_GAP				3
++#define	RA_FLOOR_TABLE_SIZE	7
++
++#define	ACTIVE_TP_THRESHOLD	150
++#define	RA_RETRY_DESCEND_NUM	2
++#define	RA_RETRY_LIMIT_LOW	4
++#define	RA_RETRY_LIMIT_HIGH	32
++
++#define RAINFO_BE_RX_STATE			BIT0  // 1:RX    //ULDL
++#define RAINFO_STBC_STATE			BIT1
++//#define RAINFO_LDPC_STATE 			BIT2
++#define RAINFO_NOISY_STATE 			BIT2    // set by Noisy_Detection
++#define RAINFO_SHURTCUT_STATE 		BIT3
++#define RAINFO_SHURTCUT_FLAG 		BIT4
++#define RAINFO_INIT_RSSI_RATE_STATE  BIT5
++#define RAINFO_BF_STATE 				BIT6
++#define RAINFO_BE_TX_STATE 			BIT7 // 1:TX
++
++#define	RA_MASK_CCK		0xf
++#define	RA_MASK_OFDM		0xff0
++#define	RA_MASK_HT1SS		0xff000
++#define	RA_MASK_HT2SS		0xff00000
++/*#define	RA_MASK_MCS3SS	*/
++#define	RA_MASK_HT4SS		0xff0
++#define	RA_MASK_VHT1SS	0x3ff000
++#define	RA_MASK_VHT2SS	0xffc00000
++
++#if(DM_ODM_SUPPORT_TYPE == ODM_AP)
++#define		RA_FIRST_MACID 	1
++#elif (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#define	RA_FIRST_MACID	0
++#define	WIN_DEFAULT_PORT_MACID	0
++#define	WIN_BT_PORT_MACID	2
++#else /*if (DM_ODM_SUPPORT_TYPE == ODM_CE)*/
++#define		RA_FIRST_MACID 	0
++#endif
++
++#define AP_InitRateAdaptiveState	ODM_RateAdaptiveStateApInit
++
++#if (RA_MASK_PHYDMLIZE_CE || RA_MASK_PHYDMLIZE_AP || RA_MASK_PHYDMLIZE_WIN)
++#define		DM_RATR_STA_INIT			0
++#define		DM_RATR_STA_HIGH			1
++#define 		DM_RATR_STA_MIDDLE		2
++#define 		DM_RATR_STA_LOW			3
++#define		DM_RATR_STA_ULTRA_LOW	4
++#endif
++
++typedef enum _phydm_arfr_num {
++	ARFR_0_RATE_ID	=	0x9,
++	ARFR_1_RATE_ID	=	0xa,
++	ARFR_2_RATE_ID	=	0xb,
++	ARFR_3_RATE_ID	=	0xc,
++	ARFR_4_RATE_ID	=	0xd,
++	ARFR_5_RATE_ID	=	0xe
++} PHYDM_RA_ARFR_NUM_E;
++
++typedef enum _Phydm_ra_dbg_para {
++	RADBG_PCR_TH_OFFSET		=	0,
++	RADBG_RTY_PENALTY		=	1,
++	RADBG_N_HIGH 				=	2,
++	RADBG_N_LOW				=	3,
++	RADBG_TRATE_UP_TABLE		=	4,
++	RADBG_TRATE_DOWN_TABLE	=	5,
++	RADBG_TRYING_NECESSARY	=	6,
++	RADBG_TDROPING_NECESSARY =	7,
++	RADBG_RATE_UP_RTY_RATIO	=	8,
++	RADBG_RATE_DOWN_RTY_RATIO =	9, //u8
++
++	RADBG_DEBUG_MONITOR1 = 0xc,
++	RADBG_DEBUG_MONITOR2 = 0xd,
++	RADBG_DEBUG_MONITOR3 = 0xe,
++	RADBG_DEBUG_MONITOR4 = 0xf,
++	RADBG_DEBUG_MONITOR5 = 0x10,
++	NUM_RA_PARA
++} PHYDM_RA_DBG_PARA_E;
++
++typedef enum PHYDM_WIRELESS_MODE {
++	
++	PHYDM_WIRELESS_MODE_UNKNOWN = 0x00,
++	PHYDM_WIRELESS_MODE_A		= 0x01,
++	PHYDM_WIRELESS_MODE_B		= 0x02,
++	PHYDM_WIRELESS_MODE_G		= 0x04,
++	PHYDM_WIRELESS_MODE_AUTO	= 0x08,
++	PHYDM_WIRELESS_MODE_N_24G	= 0x10,
++	PHYDM_WIRELESS_MODE_N_5G	= 0x20,
++	PHYDM_WIRELESS_MODE_AC_5G	= 0x40,
++	PHYDM_WIRELESS_MODE_AC_24G	= 0x80,
++	PHYDM_WIRELESS_MODE_AC_ONLY	= 0x100,
++	PHYDM_WIRELESS_MODE_MAX		= 0x800,
++	PHYDM_WIRELESS_MODE_ALL		= 0xFFFF
++} PHYDM_WIRELESS_MODE_E;
++
++typedef enum PHYDM_RATEID_IDX_ {
++	
++	PHYDM_BGN_40M_2SS	= 0,
++	PHYDM_BGN_40M_1SS	= 1,
++	PHYDM_BGN_20M_2SS	= 2,
++	PHYDM_BGN_20M_1SS	= 3,
++	PHYDM_GN_N2SS			= 4,
++	PHYDM_GN_N1SS			= 5,
++	PHYDM_BG				= 6,
++	PHYDM_G				= 7,
++	PHYDM_B_20M			= 8,
++	PHYDM_ARFR0_AC_2SS	= 9,
++	PHYDM_ARFR1_AC_1SS	= 10,
++	PHYDM_ARFR2_AC_2G_1SS	= 11,
++	PHYDM_ARFR3_AC_2G_2SS	= 12,
++	PHYDM_ARFR4_AC_3SS	= 13,
++	PHYDM_ARFR5_N_3SS		= 14
++} PHYDM_RATEID_IDX_E;
++
++typedef	enum _PHYDM_RF_TYPE_DEFINITION {
++	PHYDM_RF_1T1R = 0,
++	PHYDM_RF_1T2R,			
++	PHYDM_RF_2T2R,
++	PHYDM_RF_2T2R_GREEN,
++	PHYDM_RF_2T3R,
++	PHYDM_RF_2T4R,
++	PHYDM_RF_3T3R,
++	PHYDM_RF_3T4R,
++	PHYDM_RF_4T4R,
++	PHYDM_RF_MAX_TYPE
++} PHYDM_RF_TYPE_DEF_E;
++
++typedef	enum _PHYDM_BW {
++	PHYDM_BW_20	= 0,
++	PHYDM_BW_40,
++	PHYDM_BW_80,
++	PHYDM_BW_80_80,	
++	PHYDM_BW_160,
++	PHYDM_BW_10,
++	PHYDM_BW_5
++} PHYDM_BW_E;
++
++
++#if (RATE_ADAPTIVE_SUPPORT == 1)//88E RA
++typedef struct _ODM_RA_Info_ {
++	u1Byte RateID;
++	u4Byte RateMask;
++	u4Byte RAUseRate;
++	u1Byte RateSGI;
++	u1Byte RssiStaRA;
++	u1Byte PreRssiStaRA;
++	u1Byte SGIEnable;
++	u1Byte DecisionRate;
++	u1Byte PreRate;
++	u1Byte HighestRate;
++	u1Byte LowestRate;
++	u4Byte NscUp;
++	u4Byte NscDown;
++	u2Byte RTY[5];
++	u4Byte TOTAL;
++	u2Byte DROP;
++	u1Byte Active;
++	u2Byte RptTime;
++	u1Byte RAWaitingCounter;
++	u1Byte RAPendingCounter;
++	u1Byte RADropAfterDown;
++#if 1 //POWER_TRAINING_ACTIVE == 1 // For compile  pass only~!
++	u1Byte PTActive;  // on or off
++	u1Byte PTTryState;  // 0 trying state, 1 for decision state
++	u1Byte PTStage;  // 0~6
++	u1Byte PTStopCount; //Stop PT counter
++	u1Byte PTPreRate;  // if rate change do PT
++	u1Byte PTPreRssi; // if RSSI change 5% do PT
++	u1Byte PTModeSS;  // decide whitch rate should do PT
++	u1Byte RAstage;  // StageRA, decide how many times RA will be done between PT
++	u1Byte PTSmoothFactor;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_AP) && 	((DEV_BUS_TYPE == RT_USB_INTERFACE) || (DEV_BUS_TYPE == RT_SDIO_INTERFACE))
++	u1Byte RateDownCounter;
++	u1Byte RateUpCounter;
++	u1Byte RateDirection;
++	u1Byte BoundingType;
++	u1Byte BoundingCounter;
++	u1Byte BoundingLearningTime;
++	u1Byte RateDownStartTime;
++#endif
++} ODM_RA_INFO_T, *PODM_RA_INFO_T;
++#endif
++
++
++typedef struct _Rate_Adaptive_Table_ {
++	u1Byte		firstconnect;
++#if(DM_ODM_SUPPORT_TYPE==ODM_WIN)
++	BOOLEAN		PT_collision_pre;
++#endif
++
++#if (defined(CONFIG_RA_DBG_CMD))
++	BOOLEAN		is_ra_dbg_init;
++
++	u1Byte	RTY_P[ODM_NUM_RATE_IDX];
++	u1Byte	RTY_P_default[ODM_NUM_RATE_IDX];
++	BOOLEAN	RTY_P_modify_note[ODM_NUM_RATE_IDX];
++
++	u1Byte	RATE_UP_RTY_RATIO[ODM_NUM_RATE_IDX];
++	u1Byte	RATE_UP_RTY_RATIO_default[ODM_NUM_RATE_IDX];
++	BOOLEAN	RATE_UP_RTY_RATIO_modify_note[ODM_NUM_RATE_IDX];
++
++	u1Byte	RATE_DOWN_RTY_RATIO[ODM_NUM_RATE_IDX];
++	u1Byte	RATE_DOWN_RTY_RATIO_default[ODM_NUM_RATE_IDX];
++	BOOLEAN	RATE_DOWN_RTY_RATIO_modify_note[ODM_NUM_RATE_IDX];
++
++	BOOLEAN RA_Para_feedback_req;
++
++	u1Byte   para_idx;
++	u1Byte	rate_idx;
++	u1Byte	value;
++	u2Byte	value_16;
++	u1Byte	rate_length;
++#endif
++	u1Byte	link_tx_rate[ODM_ASSOCIATE_ENTRY_NUM];
++	u1Byte	highest_client_tx_order;
++	u2Byte	highest_client_tx_rate_order;
++	u1Byte	power_tracking_flag;
++	u1Byte	RA_threshold_offset;
++	u1Byte	RA_offset_direction;
++
++	#if (defined(CONFIG_RA_DYNAMIC_RTY_LIMIT))
++	u1Byte per_rate_retrylimit_20M[ODM_NUM_RATE_IDX];
++	u1Byte per_rate_retrylimit_40M[ODM_NUM_RATE_IDX];	
++	u1Byte			retry_descend_num;
++	u1Byte			retrylimit_low;
++	u1Byte			retrylimit_high;
++	#endif
++
++
++} RA_T, *pRA_T;
++
++typedef struct _ODM_RATE_ADAPTIVE {
++	u1Byte				Type;				// DM_Type_ByFW/DM_Type_ByDriver
++	u1Byte				HighRSSIThresh;		// if RSSI > HighRSSIThresh	=> RATRState is DM_RATR_STA_HIGH
++	u1Byte				LowRSSIThresh;		// if RSSI <= LowRSSIThresh	=> RATRState is DM_RATR_STA_LOW
++	u1Byte				RATRState;			// Current RSSI level, DM_RATR_STA_HIGH/DM_RATR_STA_MIDDLE/DM_RATR_STA_LOW
++
++#if(DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	u1Byte				LdpcThres;			// if RSSI > LdpcThres => switch from LPDC to BCC
++	BOOLEAN				bLowerRtsRate;
++#endif
++
++#if(DM_ODM_SUPPORT_TYPE & ODM_WIN)
++	u1Byte				RtsThres;
++#elif(DM_ODM_SUPPORT_TYPE & ODM_CE)
++	BOOLEAN				bUseLdpc;
++#else
++	u1Byte				UltraLowRSSIThresh;
++	u4Byte				LastRATR;			// RATR Register Content
++#endif
++
++} ODM_RATE_ADAPTIVE, *PODM_RATE_ADAPTIVE;
++
++#if (defined(CONFIG_RA_DBG_CMD))
++
++VOID
++odm_RA_debug(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value
++);
++
++VOID
++odm_RA_ParaAdjust_init(
++	IN		PVOID		pDM_VOID
++);
++
++#else
++
++VOID
++phydm_RA_debug_PCR(
++	IN		PVOID		pDM_VOID,
++	IN		u4Byte		*const dm_value,
++	IN		u4Byte		*_used,
++	OUT		char			*output,
++	IN		u4Byte		*_out_len
++);
++
++#endif
++
++VOID
++ODM_C2HRaParaReportHandler(
++	IN	PVOID	pDM_VOID,
++	IN	pu1Byte	CmdBuf,
++	IN	u1Byte	CmdLen
++);
++
++VOID
++odm_RA_ParaAdjust(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++phydm_ra_dynamic_retry_count(
++	IN	PVOID	pDM_VOID
++);
++
++VOID
++phydm_ra_dynamic_retry_limit(
++	IN	PVOID	pDM_VOID
++);
++
++VOID
++phydm_ra_dynamic_rate_id_on_assoc(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	wireless_mode,
++	IN	u1Byte	init_rate_id
++);
++
++VOID
++phydm_print_rate(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	rate,
++	IN	u4Byte	dbg_component
++);
++
++VOID
++phydm_c2h_ra_report_handler(
++	IN PVOID	pDM_VOID,
++	IN pu1Byte   CmdBuf,
++	IN u1Byte   CmdLen
++);
++
++u1Byte
++phydm_rate_order_compute(
++	IN	PVOID	pDM_VOID,
++	IN	u1Byte	rate_idx
++	);
++
++VOID
++phydm_ra_info_watchdog(
++	IN	PVOID	pDM_VOID
++);
++
++VOID
++phydm_ra_info_init(
++	IN	PVOID	pDM_VOID
++);
++
++VOID
++odm_RSSIMonitorInit(
++	IN	PVOID	pDM_VOID
++);
++
++VOID
++odm_RSSIMonitorCheck(
++	IN	PVOID	pDM_VOID
++);
++
++VOID
++phydm_initRaInfo(
++	IN		PVOID		pDM_VOID
++);
++
++u1Byte
++phydm_vht_en_mapping(
++	IN	PVOID			pDM_VOID,
++	IN	u4Byte			WirelessMode
++);
++
++u1Byte
++phydm_rate_id_mapping(
++	IN	PVOID			pDM_VOID,
++	IN	u4Byte			WirelessMode,
++	IN	u1Byte			RfType,
++	IN	u1Byte			bw
++);
++
++VOID
++phydm_UpdateHalRAMask(
++	IN	PVOID			pDM_VOID,
++	IN	u4Byte			wirelessMode,
++	IN	u1Byte			RfType,
++	IN	u1Byte			BW,
++	IN	u1Byte			MimoPs_enable,
++	IN	u1Byte			disable_cck_rate,
++	IN	u4Byte			*ratr_bitmap_msb_in,
++	IN	u4Byte			*ratr_bitmap_in,
++	IN	u1Byte			tx_rate_level
++);
++
++VOID
++odm_RateAdaptiveMaskInit(
++	IN 	PVOID	pDM_VOID
++);
++
++VOID
++odm_RefreshRateAdaptiveMask(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++odm_RefreshRateAdaptiveMaskMP(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++odm_RefreshRateAdaptiveMaskCE(
++	IN		PVOID		pDM_VOID
++);
++
++VOID
++odm_RefreshRateAdaptiveMaskAPADSL(
++	IN		PVOID		pDM_VOID
++);
++
++u1Byte 
++phydm_RA_level_decision(
++	IN		PVOID			pDM_VOID,
++	IN		u4Byte			rssi,
++	IN		u1Byte			Ratr_State
++);
++
++BOOLEAN
++ODM_RAStateCheck(
++	IN		PVOID		    pDM_VOID,
++	IN		s4Byte			RSSI,
++	IN		BOOLEAN			bForceUpdate,
++	OUT		pu1Byte			pRATRState
++);
++
++VOID
++odm_RefreshBasicRateMask(
++	IN		PVOID		pDM_VOID
++);
++VOID
++ODM_RAPostActionOnAssoc(
++	IN		PVOID	pDM_Odm
++);
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++
++u1Byte
++odm_Find_RTS_Rate(
++	IN	PVOID		pDM_VOID,
++	IN		u1Byte			Tx_Rate,
++	IN		BOOLEAN			bErpProtect
++);
++
++VOID
++ODM_UpdateNoisyState(
++	IN	PVOID		pDM_VOID,
++	IN	BOOLEAN		bNoisyStateFromC2H
++);
++
++VOID
++phydm_update_pwr_track(
++	IN	PVOID		pDM_VOID,
++	IN	u1Byte		Rate
++);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++
++s4Byte
++phydm_FindMinimumRSSI(
++IN		PDM_ODM_T		pDM_Odm,
++IN		PADAPTER		pAdapter,
++IN OUT	BOOLEAN	*pbLink_temp
++);
++
++VOID
++ODM_UpdateInitRateWorkItemCallback(
++	IN	PVOID	pContext
++);
++
++VOID
++odm_RSSIDumpToRegister(
++	IN	PVOID	pDM_VOID
++);
++
++VOID
++odm_RefreshLdpcRtsMP(
++	IN	PADAPTER			pAdapter,
++	IN	PDM_ODM_T			pDM_Odm,
++	IN	u1Byte				mMacId,
++	IN	u1Byte				IOTPeer,
++	IN	s4Byte				UndecoratedSmoothedPWDB
++);
++
++#if 0
++VOID
++ODM_DynamicARFBSelect(
++	IN		PVOID		pDM_VOID,
++	IN 		u1Byte		rate,
++	IN  	BOOLEAN		Collision_State
++);
++#endif
++
++VOID
++ODM_RateAdaptiveStateApInit(
++	IN	PVOID			PADAPTER_VOID,
++	IN	PRT_WLAN_STA  	pEntry
++);
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++static void
++FindMinimumRSSI(
++	IN	PADAPTER	pAdapter
++);
++
++u8Byte
++PhyDM_Get_Rate_Bitmap_Ex(
++	IN	PVOID		pDM_VOID,
++	IN	u4Byte		macid,
++	IN	u8Byte		ra_mask,
++	IN	u1Byte		rssi_level,
++	OUT		u8Byte	*dm_RA_Mask,
++	OUT		u1Byte	*dm_RteID
++);
++u4Byte
++ODM_Get_Rate_Bitmap(
++	IN	PVOID	    pDM_VOID,
++	IN	u4Byte		macid,
++	IN	u4Byte 		ra_mask,
++	IN	u1Byte 		rssi_level
++);
++
++void phydm_ra_rssi_rpt_wk(PVOID pContext);
++#endif/*#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)*/
++
++#elif (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++
++VOID
++phydm_gen_ramask_h2c_AP(
++	IN		PVOID			pDM_VOID,
++	IN		struct rtl8192cd_priv *priv,
++	IN		PSTA_INFO_T		*pEntry,
++	IN		u1Byte			rssi_level
++);
++
++#endif/*#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN| ODM_CE))*/
++
++#endif /*#ifndef	__ODMRAINFO_H__*/
++
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_reg.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_reg.h
+new file mode 100644
+index 0000000..019b28e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_reg.h
+@@ -0,0 +1,215 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++//============================================================
++// File Name: odm_reg.h
++//
++// Description:
++//
++// This file is for general register definition.
++//
++//
++//============================================================
++#ifndef	__HAL_ODM_REG_H__
++#define __HAL_ODM_REG_H__
++
++//
++// Register Definition
++//
++
++//MAC REG
++#define	ODM_BB_RESET					0x002
++#define	ODM_DUMMY						0x4fe
++#define	RF_T_METER_OLD				0x24
++#define	RF_T_METER_NEW				0x42
++
++#define	ODM_EDCA_VO_PARAM			0x500
++#define	ODM_EDCA_VI_PARAM			0x504
++#define	ODM_EDCA_BE_PARAM			0x508
++#define	ODM_EDCA_BK_PARAM			0x50C
++#define	ODM_TXPAUSE					0x522
++
++/* LTE_COEX */
++#define REG_LTECOEX_CTRL			0x07C0
++#define REG_LTECOEX_WRITE_DATA		0x07C4
++#define REG_LTECOEX_READ_DATA		0x07C8
++#define REG_LTECOEX_PATH_CONTROL	0x70
++
++//BB REG
++#define	ODM_FPGA_PHY0_PAGE8			0x800
++#define	ODM_PSD_SETTING				0x808
++#define	ODM_AFE_SETTING				0x818
++#define	ODM_TXAGC_B_6_18				0x830
++#define	ODM_TXAGC_B_24_54			0x834
++#define	ODM_TXAGC_B_MCS32_5			0x838
++#define	ODM_TXAGC_B_MCS0_MCS3		0x83c
++#define	ODM_TXAGC_B_MCS4_MCS7		0x848
++#define	ODM_TXAGC_B_MCS8_MCS11		0x84c
++#define	ODM_ANALOG_REGISTER			0x85c
++#define	ODM_RF_INTERFACE_OUTPUT		0x860
++#define	ODM_TXAGC_B_MCS12_MCS15	0x868
++#define	ODM_TXAGC_B_11_A_2_11		0x86c
++#define	ODM_AD_DA_LSB_MASK			0x874
++#define	ODM_ENABLE_3_WIRE			0x88c
++#define	ODM_PSD_REPORT				0x8b4
++#define	ODM_R_ANT_SELECT				0x90c
++#define	ODM_CCK_ANT_SELECT			0xa07
++#define	ODM_CCK_PD_THRESH			0xa0a
++#define	ODM_CCK_RF_REG1				0xa11
++#define	ODM_CCK_MATCH_FILTER			0xa20
++#define	ODM_CCK_RAKE_MAC				0xa2e
++#define	ODM_CCK_CNT_RESET			0xa2d
++#define	ODM_CCK_TX_DIVERSITY			0xa2f
++#define	ODM_CCK_FA_CNT_MSB			0xa5b
++#define	ODM_CCK_FA_CNT_LSB			0xa5c
++#define	ODM_CCK_NEW_FUNCTION		0xa75
++#define	ODM_OFDM_PHY0_PAGE_C		0xc00
++#define	ODM_OFDM_RX_ANT				0xc04
++#define	ODM_R_A_RXIQI					0xc14
++#define	ODM_R_A_AGC_CORE1			0xc50
++#define	ODM_R_A_AGC_CORE2			0xc54
++#define	ODM_R_B_AGC_CORE1			0xc58
++#define	ODM_R_AGC_PAR					0xc70
++#define	ODM_R_HTSTF_AGC_PAR			0xc7c
++#define	ODM_TX_PWR_TRAINING_A		0xc90
++#define	ODM_TX_PWR_TRAINING_B		0xc98
++#define	ODM_OFDM_FA_CNT1				0xcf0
++#define	ODM_OFDM_PHY0_PAGE_D		0xd00
++#define	ODM_OFDM_FA_CNT2				0xda0
++#define	ODM_OFDM_FA_CNT3				0xda4
++#define	ODM_OFDM_FA_CNT4				0xda8
++#define	ODM_TXAGC_A_6_18				0xe00
++#define	ODM_TXAGC_A_24_54			0xe04
++#define	ODM_TXAGC_A_1_MCS32			0xe08
++#define	ODM_TXAGC_A_MCS0_MCS3		0xe10
++#define	ODM_TXAGC_A_MCS4_MCS7		0xe14
++#define	ODM_TXAGC_A_MCS8_MCS11		0xe18
++#define	ODM_TXAGC_A_MCS12_MCS15		0xe1c
++
++//RF REG
++#define	ODM_GAIN_SETTING				0x00
++#define	ODM_CHANNEL					0x18
++#define	ODM_RF_T_METER				0x24
++#define	ODM_RF_T_METER_92D			0x42
++#define	ODM_RF_T_METER_88E			0x42
++#define	ODM_RF_T_METER_92E			0x42
++#define	ODM_RF_T_METER_8812			0x42
++#define	rRF_TxGainOffset				0x55
++
++//Ant Detect Reg
++#define	ODM_DPDT						0x300
++
++//PSD Init
++#define	ODM_PSDREG					0x808
++
++//92D Path Div
++#define	PATHDIV_REG					0xB30
++#define	PATHDIV_TRI					0xBA0
++
++
++//
++// Bitmap Definition
++//
++#if(DM_ODM_SUPPORT_TYPE & (ODM_AP))
++// TX AGC 
++#define		rTxAGC_A_CCK11_CCK1_JAguar	0xc20
++#define		rTxAGC_A_Ofdm18_Ofdm6_JAguar	0xc24
++#define		rTxAGC_A_Ofdm54_Ofdm24_JAguar	0xc28
++#define		rTxAGC_A_MCS3_MCS0_JAguar	0xc2c
++#define		rTxAGC_A_MCS7_MCS4_JAguar	0xc30
++#define		rTxAGC_A_MCS11_MCS8_JAguar	0xc34
++#define		rTxAGC_A_MCS15_MCS12_JAguar	0xc38
++#define		rTxAGC_A_Nss1Index3_Nss1Index0_JAguar	0xc3c
++#define		rTxAGC_A_Nss1Index7_Nss1Index4_JAguar	0xc40
++#define		rTxAGC_A_Nss2Index1_Nss1Index8_JAguar	0xc44
++#define		rTxAGC_A_Nss2Index5_Nss2Index2_JAguar	0xc48
++#define		rTxAGC_A_Nss2Index9_Nss2Index6_JAguar	0xc4c
++#if defined(CONFIG_WLAN_HAL_8814AE)
++#define		rTxAGC_A_MCS19_MCS16_JAguar	0xcd8
++#define		rTxAGC_A_MCS23_MCS20_JAguar	0xcdc
++#define		rTxAGC_A_Nss3Index3_Nss3Index0_JAguar	0xce0
++#define		rTxAGC_A_Nss3Index7_Nss3Index4_JAguar	0xce4
++#define		rTxAGC_A_Nss3Index9_Nss3Index8_JAguar	0xce8
++#endif
++#define		rTxAGC_B_CCK11_CCK1_JAguar	0xe20
++#define		rTxAGC_B_Ofdm18_Ofdm6_JAguar	0xe24
++#define		rTxAGC_B_Ofdm54_Ofdm24_JAguar	0xe28
++#define		rTxAGC_B_MCS3_MCS0_JAguar	0xe2c
++#define		rTxAGC_B_MCS7_MCS4_JAguar	0xe30
++#define		rTxAGC_B_MCS11_MCS8_JAguar	0xe34
++#define		rTxAGC_B_MCS15_MCS12_JAguar	0xe38
++#define		rTxAGC_B_Nss1Index3_Nss1Index0_JAguar	0xe3c
++#define		rTxAGC_B_Nss1Index7_Nss1Index4_JAguar	0xe40
++#define		rTxAGC_B_Nss2Index1_Nss1Index8_JAguar	0xe44
++#define		rTxAGC_B_Nss2Index5_Nss2Index2_JAguar	0xe48
++#define		rTxAGC_B_Nss2Index9_Nss2Index6_JAguar	0xe4c
++#if defined(CONFIG_WLAN_HAL_8814AE)
++#define		rTxAGC_B_MCS19_MCS16_JAguar	0xed8
++#define		rTxAGC_B_MCS23_MCS20_JAguar	0xedc
++#define		rTxAGC_B_Nss3Index3_Nss3Index0_JAguar	0xee0
++#define		rTxAGC_B_Nss3Index7_Nss3Index4_JAguar	0xee4
++#define		rTxAGC_B_Nss3Index9_Nss3Index8_JAguar	0xee8
++#define		rTxAGC_C_CCK11_CCK1_JAguar	0x1820
++#define		rTxAGC_C_Ofdm18_Ofdm6_JAguar	0x1824
++#define		rTxAGC_C_Ofdm54_Ofdm24_JAguar	0x1828
++#define		rTxAGC_C_MCS3_MCS0_JAguar	0x182c
++#define		rTxAGC_C_MCS7_MCS4_JAguar	0x1830
++#define		rTxAGC_C_MCS11_MCS8_JAguar	0x1834
++#define		rTxAGC_C_MCS15_MCS12_JAguar	0x1838
++#define		rTxAGC_C_Nss1Index3_Nss1Index0_JAguar	0x183c
++#define		rTxAGC_C_Nss1Index7_Nss1Index4_JAguar	0x1840
++#define		rTxAGC_C_Nss2Index1_Nss1Index8_JAguar	0x1844
++#define		rTxAGC_C_Nss2Index5_Nss2Index2_JAguar	0x1848
++#define		rTxAGC_C_Nss2Index9_Nss2Index6_JAguar	0x184c
++#define		rTxAGC_C_MCS19_MCS16_JAguar	0x18d8
++#define		rTxAGC_C_MCS23_MCS20_JAguar	0x18dc
++#define		rTxAGC_C_Nss3Index3_Nss3Index0_JAguar	0x18e0
++#define		rTxAGC_C_Nss3Index7_Nss3Index4_JAguar	0x18e4
++#define		rTxAGC_C_Nss3Index9_Nss3Index8_JAguar	0x18e8
++#define		rTxAGC_D_CCK11_CCK1_JAguar	0x1a20
++#define		rTxAGC_D_Ofdm18_Ofdm6_JAguar	0x1a24
++#define		rTxAGC_D_Ofdm54_Ofdm24_JAguar	0x1a28
++#define		rTxAGC_D_MCS3_MCS0_JAguar	0x1a2c
++#define		rTxAGC_D_MCS7_MCS4_JAguar	0x1a30
++#define		rTxAGC_D_MCS11_MCS8_JAguar	0x1a34
++#define		rTxAGC_D_MCS15_MCS12_JAguar	0x1a38
++#define		rTxAGC_D_Nss1Index3_Nss1Index0_JAguar	0x1a3c
++#define		rTxAGC_D_Nss1Index7_Nss1Index4_JAguar	0x1a40
++#define		rTxAGC_D_Nss2Index1_Nss1Index8_JAguar	0x1a44
++#define		rTxAGC_D_Nss2Index5_Nss2Index2_JAguar	0x1a48
++#define		rTxAGC_D_Nss2Index9_Nss2Index6_JAguar	0x1a4c
++#define		rTxAGC_D_MCS19_MCS16_JAguar	0x1ad8
++#define		rTxAGC_D_MCS23_MCS20_JAguar	0x1adc
++#define		rTxAGC_D_Nss3Index3_Nss3Index0_JAguar	0x1ae0
++#define		rTxAGC_D_Nss3Index7_Nss3Index4_JAguar	0x1ae4
++#define		rTxAGC_D_Nss3Index9_Nss3Index8_JAguar	0x1ae8
++#endif
++
++#define		bTxAGC_byte0_Jaguar	0xff
++#define		bTxAGC_byte1_Jaguar	0xff00
++#define		bTxAGC_byte2_Jaguar	0xff0000
++#define		bTxAGC_byte3_Jaguar	0xff000000
++#endif
++
++#define	BIT_FA_RESET					BIT0
++
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_regdefine11ac.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_regdefine11ac.h
+new file mode 100644
+index 0000000..854ec3c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_regdefine11ac.h
+@@ -0,0 +1,94 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__ODM_REGDEFINE11AC_H__
++#define __ODM_REGDEFINE11AC_H__
++
++//2 RF REG LIST
++
++
++
++//2 BB REG LIST
++//PAGE 8
++#define	ODM_REG_CCK_RPT_FORMAT_11AC	0x804
++#define	ODM_REG_BB_RX_PATH_11AC			0x808
++#define	ODM_REG_BB_TX_PATH_11AC			0x80c
++#define	ODM_REG_BB_ATC_11AC				0x860
++#define	ODM_REG_EDCCA_POWER_CAL		0x8dc
++#define	ODM_REG_DBG_RPT_11AC			0x8fc
++//PAGE 9
++#define	ODM_REG_EDCCA_DOWN_OPT			0x900
++#define	ODM_REG_ACBB_EDCCA_ENHANCE		0x944
++#define	ODM_ADC_TRIGGER_Jaguar2			0x95C	/*ADC sample mode*/
++#define	ODM_REG_OFDM_FA_RST_11AC		0x9A4
++#define	ODM_REG_CCX_PERIOD_11AC			0x990
++#define	ODM_REG_NHM_TH9_TH10_11AC		0x994
++#define	ODM_REG_CLM_11AC					0x994
++#define	ODM_REG_NHM_TH3_TO_TH0_11AC	0x998
++#define	ODM_REG_NHM_TH7_TO_TH4_11AC	0x99c
++#define	ODM_REG_NHM_TH8_11AC			0x9a0
++#define	ODM_REG_NHM_9E8_11AC			0x9e8
++#define	ODM_REG_CSI_CONTENT_VALUE		0x9b4
++//PAGE A
++#define	ODM_REG_CCK_CCA_11AC			0xA0A
++#define	ODM_REG_CCK_FA_RST_11AC			0xA2C
++#define	ODM_REG_CCK_FA_11AC				0xA5C
++//PAGE B
++#define	ODM_REG_RST_RPT_11AC				0xB58
++//PAGE C
++#define	ODM_REG_TRMUX_11AC				0xC08
++#define	ODM_REG_IGI_A_11AC				0xC50
++//PAGE E
++#define	ODM_REG_IGI_B_11AC				0xE50
++#define	ODM_REG_TRMUX_11AC_B			0xE08
++//PAGE F
++#define	ODM_REG_CCK_CRC32_CNT_11AC		0xF04
++#define	ODM_REG_CCK_CCA_CNT_11AC		0xF08
++#define	ODM_REG_VHT_CRC32_CNT_11AC		0xF0c
++#define	ODM_REG_HT_CRC32_CNT_11AC		0xF10
++#define	ODM_REG_OFDM_CRC32_CNT_11AC	0xF14
++#define	ODM_REG_OFDM_FA_11AC			0xF48
++#define	ODM_REG_RPT_11AC					0xfa0
++#define	ODM_REG_CLM_RESULT_11AC			0xfa4
++#define	ODM_REG_NHM_CNT_11AC			0xfa8
++#define ODM_REG_NHM_DUR_READY_11AC      0xfb4
++
++#define	ODM_REG_NHM_CNT7_TO_CNT4_11AC   0xfac
++#define	ODM_REG_NHM_CNT11_TO_CNT8_11AC  0xfb0
++#define	ODM_REG_OFDM_FA_TYPE2_11AC		0xFD0
++//PAGE 18
++#define	ODM_REG_IGI_C_11AC				0x1850
++//PAGE 1A
++#define	ODM_REG_IGI_D_11AC				0x1A50
++
++//2 MAC REG LIST
++#define	ODM_REG_RESP_TX_11AC				0x6D8
++
++
++
++//DIG Related
++#define	ODM_BIT_IGI_11AC					0xFFFFFFFF
++#define	ODM_BIT_CCK_RPT_FORMAT_11AC		BIT16
++#define	ODM_BIT_BB_RX_PATH_11AC			0xF
++#define	ODM_BIT_BB_TX_PATH_11AC			0xF
++#define	ODM_BIT_BB_ATC_11AC				BIT14
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_regdefine11n.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_regdefine11n.h
+new file mode 100644
+index 0000000..ec8c6fa
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_regdefine11n.h
+@@ -0,0 +1,213 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++ 
++#ifndef	__ODM_REGDEFINE11N_H__
++#define __ODM_REGDEFINE11N_H__
++
++
++//2 RF REG LIST
++#define	ODM_REG_RF_MODE_11N				0x00
++#define	ODM_REG_RF_0B_11N				0x0B
++#define	ODM_REG_CHNBW_11N				0x18
++#define	ODM_REG_T_METER_11N				0x24
++#define	ODM_REG_RF_25_11N				0x25
++#define	ODM_REG_RF_26_11N				0x26
++#define	ODM_REG_RF_27_11N				0x27
++#define	ODM_REG_RF_2B_11N				0x2B
++#define	ODM_REG_RF_2C_11N				0x2C
++#define	ODM_REG_RXRF_A3_11N				0x3C
++#define	ODM_REG_T_METER_92D_11N			0x42
++#define	ODM_REG_T_METER_88E_11N			0x42
++
++
++
++//2 BB REG LIST
++//PAGE 8
++#define	ODM_REG_BB_CTRL_11N				0x800
++#define	ODM_REG_RF_PIN_11N				0x804
++#define	ODM_REG_PSD_CTRL_11N				0x808
++#define	ODM_REG_TX_ANT_CTRL_11N			0x80C
++#define	ODM_REG_BB_PWR_SAV5_11N			0x818
++#define	ODM_REG_CCK_RPT_FORMAT_11N		0x824
++#define	ODM_REG_CCK_RPT_FORMAT_11N_B	0x82C
++#define	ODM_REG_RX_DEFUALT_A_11N		0x858
++#define	ODM_REG_RX_DEFUALT_B_11N		0x85A
++#define	ODM_REG_BB_PWR_SAV3_11N			0x85C
++#define	ODM_REG_ANTSEL_CTRL_11N			0x860
++#define	ODM_REG_RX_ANT_CTRL_11N			0x864
++#define	ODM_REG_PIN_CTRL_11N				0x870
++#define	ODM_REG_BB_PWR_SAV1_11N			0x874
++#define	ODM_REG_ANTSEL_PATH_11N			0x878
++#define	ODM_REG_BB_3WIRE_11N			0x88C
++#define	ODM_REG_SC_CNT_11N				0x8C4
++#define	ODM_REG_PSD_DATA_11N				0x8B4
++#define	ODM_REG_CCX_PERIOD_11N			0x894
++#define	ODM_REG_NHM_TH9_TH10_11N		0x890
++#define	ODM_REG_CLM_11N					0x890
++#define	ODM_REG_NHM_TH3_TO_TH0_11N		0x898
++#define	ODM_REG_NHM_TH7_TO_TH4_11N		0x89c
++#define ODM_REG_NHM_TH8_11N				0xe28
++#define	ODM_REG_CLM_READY_11N			0x8b4
++#define	ODM_REG_CLM_RESULT_11N			0x8d0
++#define	ODM_REG_NHM_CNT_11N				0x8d8
++
++// For ACS, Jeffery, 2014-12-26
++#define	ODM_REG_NHM_CNT7_TO_CNT4_11N    		0x8dc
++#define	ODM_REG_NHM_CNT9_TO_CNT8_11N    		0x8d0
++#define	ODM_REG_NHM_CNT10_TO_CNT11_11N           	0x8d4
++
++//PAGE 9
++#define	ODM_REG_BB_CTRL_PAGE9_11N		0x900
++#define	ODM_REG_DBG_RPT_11N				0x908
++#define	ODM_REG_BB_TX_PATH_11N			0x90c
++#define	ODM_REG_ANT_MAPPING1_11N		0x914
++#define	ODM_REG_ANT_MAPPING2_11N		0x918
++#define	ODM_REG_EDCCA_DOWN_OPT_11N	0x948
++#define	ODM_REG_RX_DFIR_MOD_97F			0x948
++
++//PAGE A
++#define	ODM_REG_CCK_ANTDIV_PARA1_11N	0xA00
++#define	ODM_REG_CCK_ANT_SEL_11N			0xA04
++#define	ODM_REG_CCK_CCA_11N				0xA0A
++#define	ODM_REG_CCK_ANTDIV_PARA2_11N	0xA0C
++#define	ODM_REG_CCK_ANTDIV_PARA3_11N	0xA10
++#define	ODM_REG_CCK_ANTDIV_PARA4_11N	0xA14
++#define	ODM_REG_CCK_FILTER_PARA1_11N	0xA22
++#define	ODM_REG_CCK_FILTER_PARA2_11N	0xA23
++#define	ODM_REG_CCK_FILTER_PARA3_11N	0xA24
++#define	ODM_REG_CCK_FILTER_PARA4_11N	0xA25
++#define	ODM_REG_CCK_FILTER_PARA5_11N	0xA26
++#define	ODM_REG_CCK_FILTER_PARA6_11N	0xA27
++#define	ODM_REG_CCK_FILTER_PARA7_11N	0xA28
++#define	ODM_REG_CCK_FILTER_PARA8_11N	0xA29
++#define	ODM_REG_CCK_FA_RST_11N			0xA2C
++#define	ODM_REG_CCK_FA_MSB_11N			0xA58
++#define	ODM_REG_CCK_FA_LSB_11N			0xA5C
++#define	ODM_REG_CCK_CCA_CNT_11N			0xA60
++#define	ODM_REG_BB_PWR_SAV4_11N			0xA74
++//PAGE B
++#define	ODM_REG_LNA_SWITCH_11N			0xB2C
++#define	ODM_REG_PATH_SWITCH_11N			0xB30
++#define	ODM_REG_RSSI_CTRL_11N			0xB38
++#define	ODM_REG_CONFIG_ANTA_11N			0xB68
++#define	ODM_REG_RSSI_BT_11N				0xB9C
++#define	ODM_REG_RXCK_RFMOD				0xBB0
++#define	ODM_REG_EDCCA_DCNF_97F			0xBC0
++
++//PAGE C
++#define	ODM_REG_OFDM_FA_HOLDC_11N		0xC00
++#define	ODM_REG_BB_RX_PATH_11N			0xC04
++#define	ODM_REG_TRMUX_11N				0xC08
++#define	ODM_REG_OFDM_FA_RSTC_11N		0xC0C
++#define	ODM_REG_DOWNSAM_FACTOR_11N	0xC10
++#define	ODM_REG_RXIQI_MATRIX_11N		0xC14
++#define	ODM_REG_TXIQK_MATRIX_LSB1_11N	0xC4C
++#define	ODM_REG_IGI_A_11N				0xC50
++#define	ODM_REG_ANTDIV_PARA2_11N		0xC54
++#define	ODM_REG_IGI_B_11N					0xC58
++#define	ODM_REG_ANTDIV_PARA3_11N		0xC5C
++#define   ODM_REG_L1SBD_PD_CH_11N			0XC6C
++#define	ODM_REG_BB_PWR_SAV2_11N		0xC70
++#define	ODM_REG_BB_AGC_SET_2_11N		0xc74
++#define	ODM_REG_RX_OFF_11N				0xC7C
++#define	ODM_REG_TXIQK_MATRIXA_11N		0xC80
++#define	ODM_REG_TXIQK_MATRIXB_11N		0xC88
++#define	ODM_REG_TXIQK_MATRIXA_LSB2_11N	0xC94
++#define	ODM_REG_TXIQK_MATRIXB_LSB2_11N	0xC9C
++#define	ODM_REG_RXIQK_MATRIX_LSB_11N	0xCA0
++#define	ODM_REG_ANTDIV_PARA1_11N		0xCA4
++#define	ODM_REG_SMALL_BANDWIDTH_11N	0xCE4
++#define	ODM_REG_OFDM_FA_TYPE1_11N		0xCF0
++//PAGE D
++#define	ODM_REG_OFDM_FA_RSTD_11N		0xD00
++#define	ODM_REG_BB_RX_ANT_11N			0xD04
++#define	ODM_REG_BB_ATC_11N				0xD2C
++#define	ODM_REG_OFDM_FA_TYPE2_11N		0xDA0
++#define	ODM_REG_OFDM_FA_TYPE3_11N		0xDA4
++#define	ODM_REG_OFDM_FA_TYPE4_11N		0xDA8
++#define	ODM_REG_RPT_11N					0xDF4
++//PAGE E
++#define	ODM_REG_TXAGC_A_6_18_11N		0xE00
++#define	ODM_REG_TXAGC_A_24_54_11N		0xE04
++#define	ODM_REG_TXAGC_A_1_MCS32_11N	0xE08
++#define	ODM_REG_TXAGC_A_MCS0_3_11N		0xE10
++#define	ODM_REG_TXAGC_A_MCS4_7_11N		0xE14
++#define	ODM_REG_TXAGC_A_MCS8_11_11N	0xE18
++#define	ODM_REG_TXAGC_A_MCS12_15_11N	0xE1C
++#define	ODM_REG_EDCCA_DCNF_11N			0xE24
++#define	ODM_REG_TAP_UPD_97F				0xE24
++#define	ODM_REG_FPGA0_IQK_11N			0xE28
++#define	ODM_REG_PAGE_B1_97F				0xE28
++#define	ODM_REG_TXIQK_TONE_A_11N		0xE30
++#define	ODM_REG_RXIQK_TONE_A_11N		0xE34
++#define	ODM_REG_TXIQK_PI_A_11N			0xE38
++#define	ODM_REG_RXIQK_PI_A_11N			0xE3C
++#define	ODM_REG_TXIQK_11N				0xE40
++#define	ODM_REG_RXIQK_11N				0xE44
++#define	ODM_REG_IQK_AGC_PTS_11N			0xE48
++#define	ODM_REG_IQK_AGC_RSP_11N			0xE4C
++#define	ODM_REG_BLUETOOTH_11N			0xE6C
++#define	ODM_REG_RX_WAIT_CCA_11N			0xE70
++#define	ODM_REG_TX_CCK_RFON_11N			0xE74
++#define	ODM_REG_TX_CCK_BBON_11N			0xE78
++#define	ODM_REG_OFDM_RFON_11N			0xE7C
++#define	ODM_REG_OFDM_BBON_11N			0xE80
++#define 	ODM_REG_TX2RX_11N				0xE84
++#define	ODM_REG_TX2TX_11N				0xE88
++#define	ODM_REG_RX_CCK_11N				0xE8C
++#define	ODM_REG_RX_OFDM_11N				0xED0
++#define	ODM_REG_RX_WAIT_RIFS_11N		0xED4
++#define	ODM_REG_RX2RX_11N				0xED8
++#define	ODM_REG_STANDBY_11N				0xEDC
++#define	ODM_REG_SLEEP_11N				0xEE0
++#define	ODM_REG_PMPD_ANAEN_11N			0xEEC
++/* PAGE F */
++#define	ODM_REG_PAGE_F_RST_11N			0xF14
++#define	ODM_REG_IGI_C_11N					0xF84
++#define	ODM_REG_IGI_D_11N				0xF88
++#define	ODM_REG_CCK_CRC32_ERROR_CNT_11N	0xF84
++#define	ODM_REG_CCK_CRC32_OK_CNT_11N		0xF88
++#define	ODM_REG_HT_CRC32_CNT_11N		0xF90
++#define	ODM_REG_OFDM_CRC32_CNT_11N		0xF94
++
++//2 MAC REG LIST
++#define	ODM_REG_BB_RST_11N				0x02
++#define	ODM_REG_ANTSEL_PIN_11N			0x4C
++#define	ODM_REG_EARLY_MODE_11N			0x4D0
++#define	ODM_REG_RSSI_MONITOR_11N		0x4FE
++#define	ODM_REG_EDCA_VO_11N				0x500
++#define	ODM_REG_EDCA_VI_11N				0x504
++#define	ODM_REG_EDCA_BE_11N				0x508
++#define	ODM_REG_EDCA_BK_11N				0x50C
++#define	ODM_REG_TXPAUSE_11N				0x522
++#define	ODM_REG_RESP_TX_11N				0x6D8
++#define	ODM_REG_ANT_TRAIN_PARA1_11N	0x7b0
++#define	ODM_REG_ANT_TRAIN_PARA2_11N	0x7b4
++
++
++//DIG Related
++#define	ODM_BIT_IGI_11N					0x0000007F
++#define	ODM_BIT_CCK_RPT_FORMAT_11N		BIT9
++#define	ODM_BIT_BB_RX_PATH_11N			0xF
++#define	ODM_BIT_BB_TX_PATH_11N			0xF
++#define	ODM_BIT_BB_ATC_11N				BIT11
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/phydm_types.h b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_types.h
+new file mode 100644
+index 0000000..a5382fb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/phydm_types.h
+@@ -0,0 +1,261 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __ODM_TYPES_H__
++#define __ODM_TYPES_H__
++
++
++/*Define Different SW team support*/
++#define	ODM_AP			0x01	/*BIT0*/
++#define	ODM_CE			0x04	/*BIT2*/
++#define	ODM_WIN		0x08	/*BIT3*/
++#define	ODM_ADSL		0x10	/*BIT4*/
++#define	ODM_IOT		0x20	/*BIT5*/
++
++/*Deifne HW endian support*/
++#define	ODM_ENDIAN_BIG	0
++#define	ODM_ENDIAN_LITTLE	1
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#define GET_PDM_ODM(__pAdapter)	((PDM_ODM_T)(&((GET_HAL_DATA(__pAdapter))->DM_OutSrc)))
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++#define GET_PDM_ODM(__pAdapter)	((PDM_ODM_T)(&((GET_HAL_DATA(__pAdapter))->odmpriv)))
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE != ODM_WIN)
++#define 	RT_PCI_INTERFACE				1
++#define 	RT_USB_INTERFACE				2
++#define 	RT_SDIO_INTERFACE				3
++#endif
++
++typedef enum _HAL_STATUS{
++	HAL_STATUS_SUCCESS,
++	HAL_STATUS_FAILURE,
++	/*RT_STATUS_PENDING,
++	RT_STATUS_RESOURCE,
++	RT_STATUS_INVALID_CONTEXT,
++	RT_STATUS_INVALID_PARAMETER,
++	RT_STATUS_NOT_SUPPORT,
++	RT_STATUS_OS_API_FAILED,*/
++}HAL_STATUS,*PHAL_STATUS;
++
++#if( DM_ODM_SUPPORT_TYPE == ODM_AP)
++#define		MP_DRIVER		0
++#endif
++#if(DM_ODM_SUPPORT_TYPE != ODM_WIN)
++
++#define		VISTA_USB_RX_REVISE			0
++
++//
++// Declare for ODM spin lock defintion temporarily fro compile pass.
++//
++typedef enum _RT_SPINLOCK_TYPE{
++	RT_TX_SPINLOCK = 1,
++	RT_RX_SPINLOCK = 2,
++	RT_RM_SPINLOCK = 3,
++	RT_CAM_SPINLOCK = 4,
++	RT_SCAN_SPINLOCK = 5,
++	RT_LOG_SPINLOCK = 7, 
++	RT_BW_SPINLOCK = 8,
++	RT_CHNLOP_SPINLOCK = 9,
++	RT_RF_OPERATE_SPINLOCK = 10,
++	RT_INITIAL_SPINLOCK = 11,
++	RT_RF_STATE_SPINLOCK = 12, // For RF state. Added by Bruce, 2007-10-30.
++#if VISTA_USB_RX_REVISE
++	RT_USBRX_CONTEXT_SPINLOCK = 13,
++	RT_USBRX_POSTPROC_SPINLOCK = 14, // protect data of Adapter->IndicateW/ IndicateR
++#endif
++	//Shall we define Ndis 6.2 SpinLock Here ?
++	RT_PORT_SPINLOCK=16,
++	RT_VNIC_SPINLOCK=17,
++	RT_HVL_SPINLOCK=18,	
++	RT_H2C_SPINLOCK = 20, // For H2C cmd. Added by tynli. 2009.11.09.
++
++	RT_BTData_SPINLOCK=25,
++
++	RT_WAPI_OPTION_SPINLOCK=26,
++	RT_WAPI_RX_SPINLOCK=27,
++
++      // add for 92D CCK control issue  
++	RT_CCK_PAGEA_SPINLOCK = 28,
++	RT_BUFFER_SPINLOCK = 29,
++	RT_CHANNEL_AND_BANDWIDTH_SPINLOCK = 30,
++	RT_GEN_TEMP_BUF_SPINLOCK = 31,
++	RT_AWB_SPINLOCK = 32,
++	RT_FW_PS_SPINLOCK = 33,
++	RT_HW_TIMER_SPIN_LOCK = 34,
++	RT_MPT_WI_SPINLOCK = 35,
++	RT_P2P_SPIN_LOCK = 36,	// Protect P2P context
++	RT_DBG_SPIN_LOCK = 37,
++	RT_IQK_SPINLOCK = 38,
++	RT_PENDED_OID_SPINLOCK = 39,
++	RT_CHNLLIST_SPINLOCK = 40,	
++	RT_INDIC_SPINLOCK = 41,	//protect indication	
++	RT_RFD_SPINLOCK = 42,
++	RT_SYNC_IO_CNT_SPINLOCK = 43,
++	RT_LAST_SPINLOCK,
++}RT_SPINLOCK_TYPE;
++
++#endif
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	#define	STA_INFO_T			RT_WLAN_STA
++	#define	PSTA_INFO_T			PRT_WLAN_STA
++	#define	__func__		__FUNCTION__
++	#define	PHYDM_TESTCHIP_SUPPORT	TESTCHIP_SUPPORT
++	#define bMaskH3Bytes			0xffffff00
++	#define SUCCESS	0
++	#define FAIL	(-1)
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_AP)
++
++	// To let ADSL/AP project compile ok; it should be removed after all conflict are solved. Added by Annie, 2011-10-07.
++	#define ADSL_AP_BUILD_WORKAROUND
++	#define AP_BUILD_WORKAROUND
++	
++	#ifdef AP_BUILD_WORKAROUND
++	#include "../typedef.h"
++	#else
++	typedef void					VOID,*PVOID;
++	typedef unsigned char			BOOLEAN,*PBOOLEAN;
++	typedef unsigned char			u1Byte,*pu1Byte;
++	typedef unsigned short			u2Byte,*pu2Byte;
++	typedef unsigned int			u4Byte,*pu4Byte;
++	typedef unsigned long long		u8Byte,*pu8Byte;
++#if 1
++/* In ARM platform, system would use the type -- "char" as "unsigned char"
++ * And we only use s1Byte/ps1Byte as INT8 now, so changes the type of s1Byte.*/
++    typedef signed char				s1Byte,*ps1Byte;
++#else
++	typedef char					s1Byte,*ps1Byte;
++#endif
++	typedef short					s2Byte,*ps2Byte;
++	typedef long					s4Byte,*ps4Byte;
++	typedef long long				s8Byte,*ps8Byte;
++	#endif
++
++	typedef struct rtl8192cd_priv	*prtl8192cd_priv;
++	typedef struct stat_info		STA_INFO_T,*PSTA_INFO_T;
++	typedef struct timer_list		RT_TIMER, *PRT_TIMER;
++	typedef  void *				RT_TIMER_CALL_BACK;
++
++#ifdef CONFIG_PCI_HCI
++	#define DEV_BUS_TYPE		RT_PCI_INTERFACE
++#endif
++
++	#define _TRUE				1
++	#define _FALSE				0
++
++	#if (defined(TESTCHIP_SUPPORT))
++		#define	PHYDM_TESTCHIP_SUPPORT 1
++	#else
++		#define	PHYDM_TESTCHIP_SUPPORT 0
++	#endif
++	
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	#include <drv_types.h>
++#if 0
++	typedef u8					u1Byte, *pu1Byte;
++	typedef u16					u2Byte,*pu2Byte;
++	typedef u32					u4Byte,*pu4Byte;
++	typedef u64					u8Byte,*pu8Byte;
++	typedef s8					s1Byte,*ps1Byte;
++	typedef s16					s2Byte,*ps2Byte;
++	typedef s32					s4Byte,*ps4Byte;
++	typedef s64					s8Byte,*ps8Byte;
++#else
++	#define u1Byte 		u8
++	#define	pu1Byte 	u8*	
++
++	#define u2Byte 		u16
++	#define	pu2Byte 	u16*		
++
++	#define u4Byte 		u32
++	#define	pu4Byte 	u32*	
++
++	#define u8Byte 		u64
++	#define	pu8Byte 	u64*
++
++	#define s1Byte 		s8
++	#define	ps1Byte 	s8*	
++
++	#define s2Byte 		s16
++	#define	ps2Byte 	s16*	
++
++	#define s4Byte 		s32
++	#define	ps4Byte 	s32*	
++
++	#define s8Byte 		s64
++	#define	ps8Byte 	s64*	
++	
++#endif
++	#ifdef CONFIG_USB_HCI
++		#define DEV_BUS_TYPE  	RT_USB_INTERFACE
++	#elif defined(CONFIG_PCI_HCI)
++		#define DEV_BUS_TYPE  	RT_PCI_INTERFACE
++	#elif defined(CONFIG_SDIO_HCI)
++		#define DEV_BUS_TYPE  	RT_SDIO_INTERFACE
++	#elif defined(CONFIG_GSPI_HCI)
++		#define DEV_BUS_TYPE  	RT_SDIO_INTERFACE
++	#endif
++	
++
++	#if defined(CONFIG_LITTLE_ENDIAN)	
++		#define	ODM_ENDIAN_TYPE			ODM_ENDIAN_LITTLE
++	#elif defined (CONFIG_BIG_ENDIAN)
++		#define	ODM_ENDIAN_TYPE			ODM_ENDIAN_BIG
++	#endif
++	
++	typedef struct timer_list		RT_TIMER, *PRT_TIMER;
++	typedef  void *				RT_TIMER_CALL_BACK;
++	#define	STA_INFO_T			struct sta_info
++	#define	PSTA_INFO_T		struct sta_info *
++		
++
++
++	#define TRUE 	_TRUE	
++	#define FALSE	_FALSE
++
++
++	#define SET_TX_DESC_ANTSEL_A_88E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 24, 1, __Value)
++	#define SET_TX_DESC_ANTSEL_B_88E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 25, 1, __Value)
++	#define SET_TX_DESC_ANTSEL_C_88E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 29, 1, __Value)
++
++	//define useless flag to avoid compile warning
++	#define	USE_WORKITEM 0
++	#define	FOR_BRAZIL_PRETEST 0
++	#define	FPGA_TWO_MAC_VERIFICATION	0
++	#define	RTL8881A_SUPPORT	0
++
++	#if (defined(TESTCHIP_SUPPORT))
++		#define	PHYDM_TESTCHIP_SUPPORT 1
++	#else
++		#define	PHYDM_TESTCHIP_SUPPORT 0
++	#endif
++#endif
++
++#define READ_NEXT_PAIR(v1, v2, i) do { if (i+2 >= ArrayLen) break; i += 2; v1 = Array[i]; v2 = Array[i+1]; } while(0)
++#define COND_ELSE  2
++#define COND_ENDIF 3
++
++#include "phydm_features.h"
++
++#endif // __ODM_TYPES_H__
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtchnlplan.c b/drivers/net/wireless/rtl8812au/hal/phydm/rtchnlplan.c
+new file mode 100644
+index 0000000..4b41ff1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtchnlplan.c
+@@ -0,0 +1,481 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++/******************************************************************************
++     
++ History:
++	Data		Who		Remark (Internal History)
++	
++	05/14/2012	MH		Collect RTK inernal infromation and generate channel plan draft.
++	
++******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++#include "rtchnlplan.h"
++
++
++
++//
++//	Channel Plan Domain Code
++//
++
++/*
++	Channel Plan Contents					
++	Domain Code		EEPROM	Countries in Specific Domain		
++			2G RD		5G RD		Bit[6:0]	2G	5G	
++	Case	Old Define				00h~1Fh	Old Define	Old Define	
++	1		2G_WORLD	5G_NULL		20h		Worldwird 13	NA	
++	2		2G_ETSI1	5G_NULL		21h		Europe 2G		NA	
++	3		2G_FCC1		5G_NULL		22h		US 2G			NA	
++	4		2G_MKK1		5G_NULL		23h		Japan 2G		NA	
++	5		2G_ETSI2	5G_NULL		24h		France 2G		NA	
++	6		2G_FCC1		5G_FCC1		25h		US 2G			US 5G					¤K¤j°ê»{ÃÒ
++	7		2G_WORLD	5G_ETSI1	26h		Worldwird 13	Europe					¤K¤j°ê»{ÃÒ
++	8		2G_MKK1		5G_MKK1		27h		Japan 2G		Japan 5G				¤K¤j°ê»{ÃÒ
++	9		2G_WORLD	5G_KCC1		28h		Worldwird 13	Korea					¤K¤j°ê»{ÃÒ
++	10		2G_WORLD	5G_FCC2		29h		Worldwird 13	US o/w DFS Channels		
++	11		2G_WORLD	5G_FCC3		30h		Worldwird 13	India, Mexico	    	
++	12		2G_WORLD	5G_FCC4		31h		Worldwird 13	Venezuela	        	
++	13		2G_WORLD	5G_FCC5		32h		Worldwird 13	China	            	
++	14		2G_WORLD	5G_FCC6		33h		Worldwird 13	Israel	            	
++	15		2G_FCC1		5G_FCC7		34h		US 2G			US/Canada				¤K¤j°ê»{ÃÒ
++	16		2G_WORLD	5G_ETSI2	35h		Worldwird 13	Australia, New Zealand	¤K¤j°ê»{ÃÒ
++	17		2G_WORLD	5G_ETSI3	36h		Worldwird 13	Russia	
++	18		2G_MKK1		5G_MKK2		37h		Japan 2G		Japan (W52, W53)	
++	19		2G_MKK1		5G_MKK3		38h		Japan 2G		Japan (W56)	
++	20		2G_FCC1		5G_NCC1		39h		US 2G			Taiwan					¤K¤j°ê»{ÃÒ
++						
++	NA		2G_WORLD	5G_FCC1		7F		FCC	FCC DFS Channels	Realtek Define
++						
++						
++						
++						
++						
++	2.4G 	Regulatory 	Domains					
++	Case	2G RD		Regulation	Channels	Frequencyes		Note					Countries in Specific Domain
++	1		2G_WORLD	ETSI		1~13		2412~2472		Passive scan CH 12, 13	Worldwird 13
++	2		2G_ETSI1	ETSI		1~13		2412~2472								Europe
++	3		2G_FCC1		FCC			1~11		2412~2462								US
++	4		2G_MKK1		MKK			1~13, 14	2412~2472, 2484							Japan
++	5		2G_ETSI2	ETSI		10~13		2457~2472								France
++						
++						
++						
++						
++	5G Regulatory Domains					
++	Case	5G RD		Regulation	Channels			Frequencyes					Note											Countries in Specific Domain
++	1		5G_NULL		NA			NA					NA							Do not support 5GHz	
++	2		5G_ETSI1	ETSI		"36~48, 52~64,  	
++									100~140"			"5180~5240, 5260~5230
++														5500~5700"					Band1, Ban2, Band3								Europe
++	3		5G_ETSI2	ETSI		"36~48, 52~64, 
++									100~140, 149~165"	"5180~5240, 5260~5230
++														5500~5700, 5745~5825"		Band1, Ban2, Band3, Band4						Australia, New Zealand
++	4		5G_ETSI3	ETSI		"36~48, 52~64, 
++														100~132, 149~165"	
++														"5180~5240, 5260~5230
++														5500~5660, 5745~5825"		Band1, Ban2, Band3(except CH 136, 140), Band4"	Russia
++	5		5G_FCC1		FCC			"36~48, 52~64, 
++									100~140, 149~165"	
++														"5180~5240, 5260~5230
++														5500~5700, 5745~5825"		Band1(5150~5250MHz), 
++																					Band2(5250~5350MHz),
++																					Band3(5470~5725MHz),
++																					Band4(5725~5850MHz)"							US
++	6		5G_FCC2		FCC			36~48, 149~165		5180~5240, 5745~5825		Band1, Band4	FCC o/w DFS Channels
++	7		5G_FCC3		FCC			"36~48, 52~64, 
++									149~165"			"5180~5240, 5260~5230
++														5745~5825"					Band1, Ban2, Band4								India, Mexico
++	8		5G_FCC4		FCC			"36~48, 52~64, 
++									149~161"			"5180~5240, 5260~5230
++														5745~5805"					Band1, Ban2,
++																					Band4(except CH 165)"							Venezuela
++	9		5G_FCC5		FCC			149~165				5745~5825					Band4											China
++	10		5G_FCC6		FCC			36~48, 52~64		5180~5240, 5260~5230		Band1, Band2									Israel
++	11		5G_FCC7
++			5G_IC1		FCC
++						IC"			"36~48, 52~64, 
++									100~116, 136, 140, 
++									149~165"			"5180~5240, 5260~5230
++														5500~5580, 5680, 5700, 
++														5745~5825"					"Band1, Band2, 
++																					Band3(except 5600~5650MHz),
++																					Band4"											"US
++																																	Canada"
++	12		5G_KCC1		KCC			"36~48, 52~64, 
++									100~124, 149~165"	"5180~5240, 5260~5230
++														5500~5620, 5745~5825"		"Band1, Ban2, 
++																					Band3(5470~5650MHz),
++																					Band4"											Korea
++	13		5G_MKK1		MKK			"36~48, 52~64, 
++									100~140"			"5180~5240, 5260~5230
++														5500~5700"					W52, W53, W56									Japan
++	14		5G_MKK2		MKK			36~48, 52~64		5180~5240, 5260~5230		W52, W53										Japan (W52, W53)
++	15		5G_MKK3		MKK			100~140				5500~5700					W56	Japan (W56)
++	16		5G_NCC1		NCC			"56~64,
++									100~116, 136, 140,
++									149~165"			"5260~5320
++														5500~5580, 5680, 5700, 
++														5745~5825"					"Band2(except CH 52), 
++																					Band3(except 5600~5650MHz),
++																					Band4"											Taiwan
++						
++						
++*/						
++						
++//
++// 2.4G CHannel 
++//						
++/*
++
++	2.4G Band		Regulatory Domains																RTL8192D	
++	Channel Number	Channel Frequency	US		Canada	Europe	Spain	France	Japan	Japan		20M		40M
++					(MHz)				(FCC)	(IC)	(ETSI)							(MPHPT)				
++	1				2412				v		v		v								v			v		
++	2				2417				v		v		v								v			v		
++	3				2422				v		v		v								v			v		v
++	4				2427				v		v		v								v			v		v
++	5				2432				v		v		v								v			v		v
++	6				2437				v		v		v								v			v		v
++	7				2442				v		v		v								v			v		v
++	8				2447				v		v		v								v			v		v
++	9				2452				v		v		v								v			v		v
++	10				2457				v		v		v		v		v				v			v		v
++	11				2462				v		v		v		v		v				v			v		v
++	12				2467								v				v				v			v		v
++	13				2472								v				v				v			v	
++	14				2484														v					v	
++
++
++*/
++
++
++//
++// 5G Operating Channel
++//
++/*
++
++	5G Band		RTL8192D	RTL8195 (Jaguar)				Jaguar 2	Regulatory Domains											
++	Channel Number	Channel Frequency	Global	Global				Global	"US
++(FCC 15.407)"	"Canada
++(FCC, except 5.6~5.65GHz)"	Argentina, Australia, New Zealand, Brazil, S. Africa (FCC/ETSI)	"Europe
++(CE 301 893)"	China	India, Mexico, Singapore	Israel, Turkey	"Japan
++(MIC Item 19-3, 19-3-2)"	Korea	Russia, Ukraine	"Taiwan
++(NCC)"	Venezuela
++		(MHz)	(20MHz)	(20MHz)	(40MHz)	(80MHz)	(160MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)	(20MHz)
++"Band 1
++5.15GHz
++~
++5.25GHz"	36	5180	v	v	v	v		v	Indoor	Indoor	v	Indoor		v	Indoor	Indoor	v	v		v
++	40	5200	v	v				v	Indoor	Indoor	v	Indoor		v	Indoor	Indoor	v	v		v
++	44	5220	v	v	v			v	Indoor	Indoor	v	Indoor		v	Indoor	Indoor	v	v		v
++	48	5240	v	v				v	Indoor	Indoor	v	Indoor		v	Indoor	Indoor	v	v		v
++"Band 2
++5.25GHz
++~
++5.35GHz
++(DFS)"	52	5260	v	v	v	v		v	v	v	v	Indoor		v	Indoor	Indoor	v	v		v
++	56	5280	v	v				v	v	v	v	Indoor		v	Indoor	Indoor	v	v	Indoor	v
++	60	5300	v	v	v			v	v	v	v	Indoor		v	Indoor	Indoor	v	v	Indoor	v
++	64	5320	v	v				v	v	v	v	Indoor		v	Indoor	Indoor	v	v	Indoor	v
++																				
++"Band 3
++5.47GHz
++~
++5.725GHz
++(DFS)"	100	5500	v	v	v	v		v	v	v	v	v				v	v	v	v	
++	104	5520	v	v				v	v	v	v	v				v	v	v	v	
++	108	5540	v	v	v			v	v	v	v	v				v	v	v	v	
++	112	5560	v	v				v	v	v	v	v				v	v	v	v	
++	116	5580	v	v	v	v		v	v	v	v	v				v	v	v	v	
++	120	5600	v	v				v	Indoor		v	Indoor				v	v	v		
++	124	5620	v	v	v			v	Indoor		v	Indoor				v	v	v		
++	128	5640	v	v				v	Indoor		v	Indoor				v		v		
++	132	5660	v	v	v	E		v	Indoor		v	Indoor				v		v		
++	136	5680	v	v				v	v	v	v	v				v			v	
++	140	5700	v	v	E			v	v	v	v	v				v			v	
++	144	5720	E	E				E												
++"Band 4
++5.725GHz
++~
++5.85GHz
++(~5.9GHz)"	149	5745	v	v	v	v		v	v	v	v		v	v			v	v	v	v
++	153	5765	v	v				v	v	v	v		v	v			v	v	v	v
++	157	5785	v	v	v			v	v	v	v		v	v			v	v	v	v
++	161	5805	v	v				v	v	v	v		v	v			v	v	v	v
++	165	5825	v	v	P	P		v	v	v	v		v	v			v	v	v	
++	169	5845	P	P				P												
++	173	5865	P	P	P			P												
++	177	5885	P	P				P												
++Channel Count			28	28	14	7	0	28	24	20	24	19	5	13	8	19	20	22	15	12
++			E: FCC accepted the ask for CH144 from Accord.					PS: 160MHz ¥Î 80MHz+80MHz¹ê²{¡H			Argentina	Belgium (¤ñ§Q®É)		India	Israel			Russia		
++			P: Customer's requirement from James.								Australia	The Netherlands (²üÄõ)		Mexico	Turkey			Ukraine		
++											New Zealand	UK (­^°ê)		Singapore						
++											Brazil	Switzerland (·ç¤h)								
++
++
++*/
++
++/*---------------------------Define Local Constant---------------------------*/
++
++
++// define Maximum Power v.s each band for each region 
++// ISRAEL
++// Format:
++// RT_CHANNEL_DOMAIN_Region ={{{Chnl_Start, Chnl_end, Pwr_dB_Max}, {Chn2_Start, Chn2_end, Pwr_dB_Max}, {Chn3_Start, Chn3_end, Pwr_dB_Max}, {Chn4_Start, Chn4_end, Pwr_dB_Max}, {Chn5_Start, Chn5_end, Pwr_dB_Max}}, Limit_Num} */
++// RT_CHANNEL_DOMAIN_FCC ={{{01,11,30}, {36,48,17}, {52,64,24}, {100,140,24}, {149,165,30}}, 5} 
++// "NR" is non-release channle.
++// Issue--- Israel--Russia--New Zealand
++// DOMAIN_01= (2G_WORLD, 5G_NULL)
++// DOMAIN_02= (2G_ETSI1, 5G_NULL)
++// DOMAIN_03= (2G_FCC1, 5G_NULL)
++// DOMAIN_04= (2G_MKK1, 5G_NULL)
++// DOMAIN_05= (2G_ETSI2, 5G_NULL)
++// DOMAIN_06= (2G_FCC1, 5G_FCC1)
++// DOMAIN_07= (2G_WORLD, 5G_ETSI1)
++// DOMAIN_08= (2G_MKK1, 5G_MKK1)
++// DOMAIN_09= (2G_WORLD, 5G_KCC1)
++// DOMAIN_10= (2G_WORLD, 5G_FCC2)
++// DOMAIN_11= (2G_WORLD, 5G_FCC3)----india
++// DOMAIN_12= (2G_WORLD, 5G_FCC4)----Venezuela
++// DOMAIN_13= (2G_WORLD, 5G_FCC5)----China
++// DOMAIN_14= (2G_WORLD, 5G_FCC6)----Israel
++// DOMAIN_15= (2G_FCC1, 5G_FCC7)-----Canada
++// DOMAIN_16= (2G_WORLD, 5G_ETSI2)---Australia
++// DOMAIN_17= (2G_WORLD, 5G_ETSI3)---Russia
++// DOMAIN_18= (2G_MKK1, 5G_MKK2)-----Japan
++// DOMAIN_19= (2G_MKK1, 5G_MKK3)-----Japan
++// DOMAIN_20= (2G_FCC1, 5G_NCC1)-----Taiwan
++// DOMAIN_21= (2G_FCC1, 5G_NCC1)-----Taiwan
++
++
++static	RT_CHANNEL_PLAN_MAXPWR	ChnlPlanPwrMax_2G[] = {
++
++	// 2G_WORLD, 
++	{{1, 13, 20}, 1},	
++
++	// 2G_ETSI1
++	{{1, 13, 20}, 1},
++
++	/* RT_CHANNEL_DOMAIN_ETSI */
++	{{{1, 11, 17}, {40, 56, 17}, {60, 128, 17}, {0, 0, 0}, {149, 165, 17}}, 4},
++
++	// RT_CHANNEL_DOMAIN_MKK
++	{{{1, 11, 17}, {0, 0, 0}, {0, 0, 0}, {0, 0, 0}, {0, 0, 0}}, 1},
++
++	// Add new channel plan mex power table.
++	// ......
++	};
++
++
++/*
++//===========================================1:(2G_WORLD, 5G_NULL)
++
++RT_CHANNEL_PLAN_MAXPWR	RT_DOMAIN_01 ={{{01,13,20}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}}, 1} 
++
++//===========================================2:(2G_ETSI1, 5G_NULL)
++
++RT_DOMAIN_02 ={{{01,13,20}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}}, 1}
++
++//===========================================3:(2G_FCC1, 5G_NULL)
++
++RT_DOMAIN_03 ={{{01,11,30}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}}, 1}
++
++//===========================================4:(2G_MKK1, 5G_NULL)
++
++RT_DOMAIN_04 ={{{01,14,23}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}}, 1}
++
++//===========================================5:(2G_ETSI2, 5G_NULL)
++
++RT_DOMAIN_05 ={{{10,13,20}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}}, 1}
++
++//===========================================6:(2G_FCC1, 5G_FCC1)
++
++RT_DOMAIN_06 ={{{01,13,30}, {36,48,17}, {52,64,24}, {100,140,24}, {149,165,30}}, 5}
++
++//===========================================7:(2G_WORLD, 5G_ETSI1)
++
++RT_DOMAIN_07 ={{{01,13,20}, {36,48,23}, {52,64,23}, {100,140,30}, {NR,NR,0}}, 4}
++
++//===========================================8:(2G_MKK1, 5G_MKK1)
++
++RT_DOMAIN_08 ={{{01,14,23}, {36,48,23}, {52,64,23}, {100,140,23}, {NR,NR,0}}, 4}
++
++//===========================================9:(2G_WORLD, 5G_KCC1)
++
++RT_DOMAIN_09 ={{{01,13,20}, {36,48,17}, {52,64,23}, {100,124,23}, {149,165,23}}, 5}
++
++//===========================================10:(2G_WORLD, 5G_FCC2)
++
++RT_DOMAIN_10 ={{{01,13,20}, {36,48,17}, {NR,NR,0}, {NR,NR,0}, {149,165,30}}, 3}
++
++//===========================================11:(2G_WORLD, 5G_FCC3)
++RT_DOMAIN_11 ={{{01,13,20}, {36,48,23}, {52,64,23}, {NR,NR,0}, {149,165,23}}, 4}
++
++//===========================================12:(2G_WORLD, 5G_FCC4)
++RT_DOMAIN_12 ={{{01,13,20}, {36,48,24}, {52,64,24}, {NR,NR,0}, {149,161,27}}, 4}
++
++//===========================================13:(2G_WORLD, 5G_FCC5)
++RT_DOMAIN_13 ={{{01,13,20}, {NR,NR,0}, {NR,NR,0}, {NR,NR,0}, {149,165,27}}, 2}
++
++//===========================================14:(2G_WORLD, 5G_FCC6)
++RT_DOMAIN_14 ={{{01,13,20}, {36,48,17}, {52,64,17}, {NR,NR,0}, {NR,NR,0}}, 3}
++
++//===========================================15:(2G_FCC1, 5G_FCC7)
++RT_DOMAIN_15 ={{{01,11,30}, {36,48,23}, {52,64,24}, {100,140,24}, {149,165,30}}, 5}
++
++//===========================================16:(2G_WORLD, 5G_ETSI2)
++RT_DOMAIN_16 ={{{01,13,20}, {36,48,23}, {52,64,23}, {100,140,30}, {149,165,30}}, 5}
++
++//===========================================17:(2G_WORLD, 5G_ETSI3)
++RT_DOMAIN_17 ={{{01,13,20}, {36,48,23}, {52,64,23}, {100,132,30}, {149,165,20}}, 5}
++
++//===========================================18:(2G_MKK1, 5G_MKK2)
++RT_DOMAIN_18 ={{{01,14,23}, {36,48,23}, {52,64,23}, {NR,NR,0}, {NR,NR,0}}, 3}
++
++//===========================================19:(2G_MKK1, 5G_MKK3)
++RT_DOMAIN_19 ={{{01,14,23}, {NR,NR,0}, {NR,NR,0}, {100,140,23}, {NR,NR,0}}, 2}
++
++//===========================================20:(2G_FCC1, 5G_NCC1)
++RT_DOMAIN_20 ={{{01,11,30}, {NR,NR,0}, {56,64,23}, {100,140,24}, {149,165,30}}, 4}
++
++//===========================================21:(2G_FCC1, 5G_NCC2)
++RT_DOMAIN_21 ={{{01,11,30}, {NR,NR,0}, {56,64,23}, {NR,NR,0}, {149,165,30}}, 3}
++
++//===========================================22:(2G_WORLD, 5G_FCC3)
++RT_DOMAIN_22 ={{{01,13,24}, {36,48,20}, {52,64,24}, {NR,NR,0}, {149,165,30}}, 4}
++
++//===========================================23:(2G_WORLD, 5G_ETSI2)
++RT_DOMAIN_23 ={{{01,13,20}, {36,48,23}, {52,64,23}, {100,140,30}, {149,165,30}}, 5}
++
++*/
++
++//
++// Counter & Realtek Channel plan transfer table.
++//
++RT_CHNL_CTRY_TBL	RtCtryChnlTbl[] = 
++{
++
++	{
++		RT_CTRY_AL,							//	"Albaniaªüº¸¤Ú¥§¨È"					
++		"AL",
++		RT_2G_WORLD,
++		RT_5G_WORLD,		
++		RT_CHANNEL_DOMAIN_UNDEFINED			// 2G/5G world.
++	},
++#if 0	
++	{
++		RT_CTRY_BB,							//  "Barbados¤Ú¤Ú¦h´µ"				
++		"BB",
++		RT_2G_WORLD,
++		RT_5G_NULL,		
++		RT_CHANNEL_DOMAIN_EFUSE_0x20		// 2G world. 5G_NULL
++	},
++	
++	{
++		RT_CTRY_DE,							//  "Germany¼w°ê"					
++		"DE",
++		RT_2G_WORLD,
++		RT_5G_ETSI1,		
++		RT_CHANNEL_DOMAIN_EFUSE_0x26
++	},
++	
++	{
++		RT_CTRY_US,							//  "Germany¼w°ê"					
++		"US",
++		RT_2G_FCC1,
++		RT_5G_FCC7,		
++		RT_CHANNEL_DOMAIN_EFUSE_0x34
++	},
++
++	{
++		RT_CTRY_JP,							//  "Germany¼w°ê"					
++		"JP",
++		RT_2G_MKK1,
++		RT_5G_MKK1,		
++		RT_CHANNEL_DOMAIN_EFUSE_0x34
++	},
++		
++	{
++		RT_CTRY_TW,							//  "Germany¼w°ê"					
++		"TW",
++		RT_2G_FCC1,
++		RT_5G_NCC1,		
++		RT_CHANNEL_DOMAIN_EFUSE_0x39
++	},	
++#endif
++
++};	// RtCtryChnlTbl
++
++//
++// Realtek Defined Channel plan.
++//
++#if 0
++
++static	RT_CHANNEL_PLAN_NEW		RtChnlPlan[] =
++{
++	// Channel Plan   0x20.
++	{
++		&RtCtryChnlTbl[1],					// RT_CHNL_CTRY_TBL Country & channel plan transfer table.		
++		RT_CHANNEL_DOMAIN_EFUSE_0x20,		// RT_CHANNEL_DOMAIN RT Channel Plan Define 
++		RT_2G_WORLD,						// RT_REGULATION_2G
++		RT_5G_NULL,							// RT_REGULATION_5G
++		RT_WORLD,							// RT_REGULATION_CMN RT Regulatory domain definition.
++		RT_SREQ_NA,							// RT Channel plan special & customerize requirement.
++		
++		CHNL_RT_2G_WORLD,
++		CHNL_RT_2G_WORLD_SCAN_TYPE,
++		&ChnlPlanPwrMax_2G[0],
++
++		CHNL_RT_5G_NULL,
++		CHNL_RT_5G_NULL_SCAN_TYPE,
++
++		
++	},
++	
++	// Channel Plan   0x26.
++	{
++		&RtCtryChnlTbl[1],					// RT_CHNL_CTRY_TBL Country & channel plan transfer table.		
++		RT_CHANNEL_DOMAIN_EFUSE_0x26,		// RT_CHANNEL_DOMAIN RT Channel Plan Define 
++		RT_2G_WORLD,						// RT_REGULATION_2G
++		RT_5G_ETSI1,						// RT_REGULATION_5G
++		RT_WORLD,							// RT_REGULATION_CMN RT Regulatory domain definition.
++		RT_SREQ_NA,							// RT Channel plan special & customerize requirement.
++		
++		CHNL_RT_2G_WORLD,					// 2G workd cannel
++		CHNL_RT_2G_WORLD_SCAN_TYPE,
++		&ChnlPlanPwrMax_2G[1],
++		
++		CHNL_RT_5G_ETSI1,
++		CHNL_RT_5G_ETSI1_SCAN_TYPE,
++		
++	}
++	
++	
++};
++#endif
++
++
++
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtchnlplan.h b/drivers/net/wireless/rtl8812au/hal/phydm/rtchnlplan.h
+new file mode 100644
+index 0000000..37786cf
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtchnlplan.h
+@@ -0,0 +1,699 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#ifndef	__RT_CHANNELPLAN_H__
++#define __RT_CHANNELPLAN_H__
++
++typedef enum _RT_CHANNEL_DOMAIN_NEW
++{
++
++	//===== Add new channel plan above this line ===============//
++
++	// For new architecture we define different 2G/5G CH area for all country.
++	// 2.4 G only
++	RT_CHANNEL_DOMAIN_2G_WORLD_5G_NULL				= 0x20,
++	RT_CHANNEL_DOMAIN_2G_ETSI1_5G_NULL				= 0x21,
++	RT_CHANNEL_DOMAIN_2G_FCC1_5G_NULL				= 0x22,
++	RT_CHANNEL_DOMAIN_2G_MKK1_5G_NULL				= 0x23,
++	RT_CHANNEL_DOMAIN_2G_ETSI2_5G_NULL				= 0x24,
++	// 2.4 G + 5G type 1
++	RT_CHANNEL_DOMAIN_2G_FCC1_5G_FCC1				= 0x25,
++	RT_CHANNEL_DOMAIN_2G_WORLD_5G_ETSI1				= 0x26,
++	//RT_CHANNEL_DOMAIN_2G_WORLD_5G_ETSI1				= 0x27,
++	// .....
++
++	RT_CHANNEL_DOMAIN_MAX_NEW,
++	
++}RT_CHANNEL_DOMAIN_NEW, *PRT_CHANNEL_DOMAIN_NEW;
++
++
++#if 0
++#define DOMAIN_CODE_2G_WORLD \
++        {1,2,3,4,5,6,7,8,9,10,11,12,13}, 13
++#define DOMAIN_CODE_2G_ETSI1 \
++        {1,2,3,4,5,6,7,8,9,10,11,12,13}, 13
++#define DOMAIN_CODE_2G_ETSI2 \
++        {1,2,3,4,5,6,7,8,9,10,11}, 11
++#define DOMAIN_CODE_2G_FCC1 \
++        {1,2,3,4,5,6,7,8,9,10,11,12,13,14}, 14
++#define DOMAIN_CODE_2G_MKK1 \
++        {10,11,12,13}, 4
++
++#define DOMAIN_CODE_5G_ETSI1 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140}, 19
++#define DOMAIN_CODE_5G_ETSI2 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140,149,153,157,161,165}, 24
++#define DOMAIN_CODE_5G_ETSI3 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,149,153,157,161,165}, 22
++#define DOMAIN_CODE_5G_FCC1 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140,149,153,157,161,165}, 24
++#define DOMAIN_CODE_5G_FCC2 \
++        {36,40,44,48,149,153,157,161,165}, 9
++#define DOMAIN_CODE_5G_FCC3 \
++        {36,40,44,48,52,56,60,64,149,153,157,161,165}, 13
++#define DOMAIN_CODE_5G_FCC4 \
++        {36,40,44,48,52,56,60,64,149,153,157,161}, 12
++#define DOMAIN_CODE_5G_FCC5 \
++        {149,153,157,161,165}, 5
++#define DOMAIN_CODE_5G_FCC6 \
++        {36,40,44,48,52,56,60,64}, 8
++#define DOMAIN_CODE_5G_FCC7 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,136,140,149,153,157,161,165}, 20
++#define DOMAIN_CODE_5G_IC1 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,136,140,149,153,157,161,165}, 20
++#define DOMAIN_CODE_5G_KCC1 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,149,153,157,161,165}, 20
++#define DOMAIN_CODE_5G_MKK1 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140}, 19
++#define DOMAIN_CODE_5G_MKK2 \
++        {36,40,44,48,52,56,60,64}, 8
++#define DOMAIN_CODE_5G_MKK3 \
++        {100,104,108,112,116,120,124,128,132,136,140}, 11
++#define DOMAIN_CODE_5G_NCC1 \
++        {56,60,64,100,104,108,112,116,136,140,149,153,157,161,165}, 24
++#define DOMAIN_CODE_5G_NCC2 \
++        {56,60,64,149,153,157,161,165}, 8  			
++#define UNDEFINED \
++        {0}, 0
++#endif
++
++//
++//
++//
++/*
++
++Countries							"Country Abbreviation"	Domain Code					SKU's	Ch# of 20MHz
++															2G			5G						Ch# of 40MHz
++"Albaniaªüº¸¤Ú¥§¨È"					AL													Local Test	
++									    					        	            	
++"Algeriaªüº¸¤Î§Q¨È"					DZ									CE TCF	    	
++					                    					        	            	
++"Antigua & Barbuda¦w´£¥Ê®q&¤Ú¥¬¹F"	AG						2G_WORLD					FCC TCF	
++					                    					        	        		
++"Argentinaªü®Ú§Ê"					AR						2G_WORLD					Local Test	
++									    					        	        		
++"Armenia¨È¬ü¥§¨È"					AM						2G_WORLD					ETSI	
++									    					        	        		
++"Arubaªü¾|¤Ú®q"						AW						2G_WORLD					FCC TCF	
++															        	
++"Australia¿D¬w"						AU						2G_WORLD		5G_ETSI2		
++															        	
++"Austria¶ø¦a§Q"						AT						2G_WORLD		5G_ETSI1	CE	
++					    			    					        	
++"Azerbaijanªü¶ë«ô¾Ê"				AZ						2G_WORLD					CE TCF	
++					                    					        	
++"Bahamas¤Ú«¢°¨"						BS						2G_WORLD				
++									    					        	
++"Barbados¤Ú¤Ú¦h´µ"					BB						2G_WORLD					FCC TCF	
++									    					        	
++"Belgium¤ñ§Q®É"						BE						2G_WORLD		5G_ETSI1	CE	
++															        	
++"Bermuda¦Ê¼}¹F"						BM						2G_WORLD					FCC TCF	
++															        	        		
++"Brazil¤Ú¦è"						BR						2G_WORLD					Local Test	
++									    					        	
++"Bulgaria«O¥[§Q¨È"					BG						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"Canada¥[®³¤j"						CA						2G_FCC1			5G_FCC7		IC / FCC	IC / FCC
++					                    					        	
++"Cayman Islands¶}°Ò¸s®q"			KY						2G_WORLD		5G_ETSI1	CE	
++					                    					        	
++"Chile´¼§Q"							CL						2G_WORLD					FCC TCF	
++																    	
++"China¤¤°ê"							CN						2G_WORLD		5G_FCC5		«H³¡?¡i2002¡j353? 	
++					                    					        	
++"Columbia­ô­Û¤ñ¨È"					CO						2G_WORLD					Voluntary 	
++					    			    					        	
++"Costa Rica­ô´µ¹F¾¤¥["				CR						2G_WORLD					FCC TCF	
++					    			    					        	
++"Cyprus¶ë®ú¸ô´µ"					CY						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"Czech ±¶§J"						CZ						2G_WORLD		5G_ETSI1	CE	
++															        	
++"Denmark¤¦³Á"						DK						2G_WORLD		5G_ETSI1	CE	
++					                    					        	
++"Dominican Republic¦h©ú¥§¥[¦@©M°ê"	DO						2G_WORLD					FCC TCF	
++					                    					        	
++"Egypt®J¤Î"	EG	2G_WORLD			CE T												CF	    	
++					                    					        	
++"El SalvadorÂĺ¸¥Ë¦h"				SV						2G_WORLD					Voluntary	
++					        		    					        	
++"Estonia·R¨F¥§¨È"					EE						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"FinlandªâÄõ"						FI						2G_WORLD		5G_ETSI1	CE	
++															        	
++"Franceªk°ê"						FR										5G_E		TSI1	CE	
++															        	
++"Germany¼w°ê"						DE						2G_WORLD		5G_ETSI1	CE	
++															        	
++"Greece §Æþ"						GR						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"GuamÃö®q"							GU						2G_WORLD				
++									    					        	
++"Guatemala¥Ê¦a°¨©Ô"					GT						2G_WORLD				
++									    					        	
++"Haiti®ü¦a"							HT						2G_WORLD					FCC TCF	
++									    					        	
++"Honduras§»³£©Ô´µ"					HN						2G_WORLD					FCC TCF	
++									    					        	
++"Hungary¦I¤ú§Q"						HU						2G_WORLD		5G_ETSI1	CE	
++															        	
++"Iceland¦B®q"						IS						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"India¦L«×"							IN						2G_WORLD		5G_FCC3		FCC/CE TCF	
++															        	
++"Ireland·Rº¸Äõ"						IE						2G_WORLD		5G_ETSI1	CE	
++															        	
++"Israel¥H¦â¦C"						IL										5G_F		CC6	CE TCF	
++															        	
++"Italy¸q¤j§Q"						IT						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"Japan¤é¥»"							JP						2G_MKK1			5G_MKK1		MKK	MKK
++																    	
++"KoreaÁú°ê"							KR						2G_WORLD		5G_KCC1		KCC	KCC
++									    					        	
++"Latvia©Ô²æºû¨È"					LV						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"Lithuania¥ß³³©{"					LT						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"Luxembourg¿c´Ë³ù"					LU						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"Malaysia°¨¨Ó¦è¨È"					MY						2G_WORLD					Local Test	
++									    					        	
++"Malta°¨º¸¥L"						MT						2G_WORLD		5G_ETSI1	CE	
++															        	
++"Mexico¾¥¦è­ô"						MX						2G_WORLD		5G_FCC3		Local Test	
++															        	
++"Morocco¼¯¬¥­ô"						MA													CE TCF	
++									    					        	
++"Netherlands²üÄõ"					NL						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"New Zealand¯Ã¦èÄõ"					NZ						2G_WORLD		5G_ETSI2		
++									    					        	
++"Norway®¿«Â"						NO						2G_WORLD		5G_ETSI1	CE	
++															        	
++"Panama¤Ú®³°¨ "						PA						2G_FCC1						Voluntary	
++									    					        	
++"Philippines栮ᯮ"					PH						2G_WORLD					FCC TCF	
++									    					        	
++"PolandªiÄõ"						PL						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"Portugal¸²µå¤ú"					PT						2G_WORLD		5G_ETSI1	CE	
++									    					        	
++"Romaniaù°¨¥§¨È"					RO						2G_WORLD		5G_ETSI1	CE	
++					        		    					        	
++"Russia«Xù´µ"						RU						2G_WORLD		5G_ETSI3	CE TCF	
++					        		    					        	
++"Saudi Arabia¨F¦aªü©Ô§B"			SA						2G_WORLD					CE TCF	
++					        		    					        	
++"Singapore·s¥[©Y"					SG						2G_WORLD				
++									    					        	
++"Slovakia´µ¬¥¥ï§J"					SK						2G_WORLD		5G_ETSI1	CE	
++					    			    					        	
++"Slovenia´µ¬¥ºû¥§¨È"				SI						2G_WORLD		5G_ETSI1	CE	
++					    			    					        	
++"South Africa«n«D"					ZA						2G_WORLD					CE TCF	
++					        		    					        	
++"Spain¦è¯Z¤ú"						ES										5G_ETSI1	CE	
++															        	
++"Sweden·ç¨å"						SE						2G_WORLD		5G_ETSI1	CE	
++					        		    					        	
++"Switzerland·ç¤h"					CH						2G_WORLD		5G_ETSI1	CE	
++					        		    					        	
++"Taiwan»OÆW"						TW						2G_FCC1			5G_NCC1	NCC	
++															        	
++"Thailand®õ°ê"						TH						2G_WORLD					FCC/CE TCF	
++															        	
++"Turkey¤g¦Õ¨ä"						TR						2G_WORLD				
++															        	
++"Ukraine¯Q§JÄõ"						UA						2G_WORLD					Local Test	
++					        		    					        	
++"United Kingdom­^°ê"				GB						2G_WORLD		5G_ETSI1	CE	ETSI
++					    			    					        	
++"United States¬ü°ê"					US						2G_FCC1			5G_FCC7		FCC	FCC
++					    			    					        	
++"Venezuela©e¤º·ç©Ô"					VE						2G_WORLD		5G_FCC4		FCC TCF	
++					    			    					        	
++"Vietnam¶V«n"						VN						2G_WORLD					FCC/CE TCF	
++					
++
++
++*/
++
++// Counter abbervation.
++typedef enum _RT_COUNTRY_DEFINE_NUM
++{
++	RT_CTRY_AL,				//	"Albaniaªüº¸¤Ú¥§¨È"					
++	RT_CTRY_DZ,             //  "Algeriaªüº¸¤Î§Q¨È"					
++	RT_CTRY_AG,             //  "Antigua & Barbuda¦w´£¥Ê®q&¤Ú¥¬¹F"	
++	RT_CTRY_AR,             //  "Argentinaªü®Ú§Ê"					
++	RT_CTRY_AM,             //  "Armenia¨È¬ü¥§¨È"					
++	RT_CTRY_AW,             //  "Arubaªü¾|¤Ú®q"						
++	RT_CTRY_AU,             //  "Australia¿D¬w"						
++	RT_CTRY_AT,             //  "Austria¶ø¦a§Q"						
++	RT_CTRY_AZ,             //  "Azerbaijanªü¶ë«ô¾Ê"				
++	RT_CTRY_BS,             //  "Bahamas¤Ú«¢°¨"					
++	RT_CTRY_BB,             //  "Barbados¤Ú¤Ú¦h´µ"				
++	RT_CTRY_BE,             //  "Belgium¤ñ§Q®É"					
++	RT_CTRY_BM,             //  "Bermuda¦Ê¼}¹F"					
++	RT_CTRY_BR,             //  "Brazil¤Ú¦è"						
++	RT_CTRY_BG,             //  "Bulgaria«O¥[§Q¨È"				
++	RT_CTRY_CA,             //  "Canada¥[®³¤j"					
++	RT_CTRY_KY,             //  "Cayman Islands¶}°Ò¸s®q"			
++	RT_CTRY_CL,             //  "Chile´¼§Q"						
++	RT_CTRY_CN,             //  "China¤¤°ê"						
++	RT_CTRY_CO,             //  "Columbia­ô­Û¤ñ¨È"				
++	RT_CTRY_CR,             //  "Costa Rica­ô´µ¹F¾¤¥["			
++	RT_CTRY_CY,             //  "Cyprus¶ë®ú¸ô´µ"					
++	RT_CTRY_CZ,             //  "Czech ±¶§J"						
++	RT_CTRY_DK,             //  "Denmark¤¦³Á"					
++	RT_CTRY_DO,             //  "Dominican Republic¦h©ú¥§¥[¦@©M°ê"	
++	RT_CTRY_CE,             //  "Egypt®J¤Î"	EG	2G_WORLD			
++	RT_CTRY_SV,             //  "El SalvadorÂĺ¸¥Ë¦h"				
++	RT_CTRY_EE,             //  "Estonia·R¨F¥§¨È"					
++	RT_CTRY_FI,             //  "FinlandªâÄõ"						
++	RT_CTRY_FR,             //  "Franceªk°ê"						
++	RT_CTRY_DE,             //  "Germany¼w°ê"					
++	RT_CTRY_GR,             //  "Greece §Æþ"					
++	RT_CTRY_GU,             //  "GuamÃö®q"						
++	RT_CTRY_GT,             //  "Guatemala¥Ê¦a°¨©Ô"				
++	RT_CTRY_HT,             //  "Haiti®ü¦a"						
++	RT_CTRY_HN,             //  "Honduras§»³£©Ô´µ"				
++	RT_CTRY_HU,             //  "Hungary¦I¤ú§Q"					
++	RT_CTRY_IS,             //  "Iceland¦B®q"					
++	RT_CTRY_IN,             //  "India¦L«×"						
++	RT_CTRY_IE,             //  "Ireland·Rº¸Äõ"					
++	RT_CTRY_IL,             //  "Israel¥H¦â¦C"					
++	RT_CTRY_IT,             //  "Italy¸q¤j§Q"					
++	RT_CTRY_JP,             //  "Japan¤é¥»"						
++	RT_CTRY_KR,             //  "KoreaÁú°ê"						
++	RT_CTRY_LV,             //  "Latvia©Ô²æºû¨È"					
++	RT_CTRY_LT,             //  "Lithuania¥ß³³©{"				
++	RT_CTRY_LU,             //  "Luxembourg¿c´Ë³ù"				
++	RT_CTRY_MY,             //  "Malaysia°¨¨Ó¦è¨È"				
++	RT_CTRY_MT,             //  "Malta°¨º¸¥L"					
++	RT_CTRY_MX,             //  "Mexico¾¥¦è­ô"					
++	RT_CTRY_MA,             //  "Morocco¼¯¬¥­ô"					
++	RT_CTRY_NL,             //  "Netherlands²üÄõ"				
++	RT_CTRY_NZ,             //  "New Zealand¯Ã¦èÄõ"				
++	RT_CTRY_NO,             //  "Norway®¿«Â"						
++	RT_CTRY_PA,             //  "Panama¤Ú®³°¨ "					
++	RT_CTRY_PH,             //  "Philippines栮ᯮ"				
++	RT_CTRY_PL,             //  "PolandªiÄõ"						
++	RT_CTRY_PT,             //  "Portugal¸²µå¤ú"					
++	RT_CTRY_RO,             //  "Romaniaù°¨¥§¨È"				
++	RT_CTRY_RU,             //  "Russia«Xù´µ"					
++	RT_CTRY_SA,             //  "Saudi Arabia¨F¦aªü©Ô§B"			
++	RT_CTRY_SG,             //  "Singapore·s¥[©Y"				
++	RT_CTRY_SK,             //  "Slovakia´µ¬¥¥ï§J"				
++	RT_CTRY_SI,             //  "Slovenia´µ¬¥ºû¥§¨È"				
++	RT_CTRY_ZA,             //  "South Africa«n«D"				
++	RT_CTRY_ES,             //  "Spain¦è¯Z¤ú"					
++	RT_CTRY_SE,             //  "Sweden·ç¨å"						
++	RT_CTRY_CH,             //  "Switzerland·ç¤h"				
++	RT_CTRY_TW,             //  "Taiwan»OÆW"						
++	RT_CTRY_TH,             //  "Thailand®õ°ê"					
++	RT_CTRY_TR,             //  "Turkey¤g¦Õ¨ä"					
++	RT_CTRY_UA,             //  "Ukraine¯Q§JÄõ"					
++	RT_CTRY_GB,             //  "United Kingdom­^°ê"				
++	RT_CTRY_US,             //  "United States¬ü°ê"				
++	RT_CTRY_VE,             //  "Venezuela©e¤º·ç©Ô"				
++	RT_CTRY_VN,             //  "Vietnam¶V«n"					
++	RT_CTRY_MAX,            //  
++	
++}RT_COUNTRY_NAME, *PRT_COUNTRY_NAME;
++    
++// Scan type including active and passive scan.
++typedef enum _RT_SCAN_TYPE_NEW
++{
++	SCAN_NULL,
++	SCAN_ACT,
++	SCAN_PAS,
++	SCAN_BOTH,
++}RT_SCAN_TYPE_NEW, *PRT_SCAN_TYPE_NEW;
++    
++
++// Power table sample.
++
++typedef struct _RT_CHNL_PLAN_LIMIT
++{
++	u2Byte	Chnl_Start;
++	u2Byte	Chnl_end;	
++	
++	u2Byte	Freq_Start;
++	u2Byte	Freq_end;	
++}RT_CHNL_PLAN_LIMIT, *PRT_CHNL_PLAN_LIMIT;
++
++    
++//    
++// 2.4G Regulatory Domains
++//
++typedef enum _RT_REGULATION_DOMAIN_2G
++{
++	RT_2G_NULL,   
++	RT_2G_WORLD,
++	RT_2G_ETSI1,
++	RT_2G_FCC1,
++	RT_2G_MKK1,
++	RT_2G_ETSI2	
++	
++}RT_REGULATION_2G, *PRT_REGULATION_2G;
++
++
++//typedef struct _RT_CHANNEL_BEHAVIOR
++//{
++//	u1Byte	Chnl;
++//	RT_SCAN_TYPE_NEW
++//	
++//}RT_CHANNEL_BEHAVIOR, *PRT_CHANNEL_BEHAVIOR;
++
++//typedef struct _RT_CHANNEL_PLAN_TYPE
++//{
++//	RT_CHANNEL_BEHAVIOR		
++//	u1Byte					Chnl_num;
++//}RT_CHNL_PLAN_TYPE, *PRT_CHNL_PLAN_TYPE;
++
++//
++// 2.4G Channel Number
++// Channel definition & number
++//
++#define CHNL_RT_2G_NULL \
++        {0}, 0
++#define CHNL_RT_2G_WORLD \
++        {1,2,3,4,5,6,7,8,9,10,11,12,13}, 13
++#define CHNL_RT_2G_WORLD_TEST \
++        {1,2,3,4,5,6,7,8,9,10,11,12,13}, 13
++
++#define CHNL_RT_2G_EFSI1 \
++        {1,2,3,4,5,6,7,8,9,10,11,12,13}, 13
++#define CHNL_RT_2G_FCC1 \
++        {1,2,3,4,5,6,7,8,9,10,11}, 11
++#define CHNL_RT_2G_MKK1 \
++        {1,2,3,4,5,6,7,8,9,10,11,12,13,14}, 14
++#define CHNL_RT_2G_ETSI2 \
++        {10,11,12,13}, 4
++
++//
++// 2.4G Channel Active or passive scan.
++//
++#define CHNL_RT_2G_NULL_SCAN_TYPE \
++        {SCAN_NULL}
++#define CHNL_RT_2G_WORLD_SCAN_TYPE \
++        {1,1,1,1,1,1,1,1,1,1,1,0,0}
++#define CHNL_RT_2G_EFSI1_SCAN_TYPE \
++        {1,1,1,1,1,1,1,1,1,1,1,1,1}
++#define CHNL_RT_2G_FCC1_SCAN_TYPE \
++        {1,1,1,1,1,1,1,1,1,1,1}
++#define CHNL_RT_2G_MKK1_SCAN_TYPE \
++        {1,1,1,1,1,1,1,1,1,1,1,1,1,1}
++#define CHNL_RT_2G_ETSI2_SCAN_TYPE \
++        {1,1,1,1}
++
++
++//
++// 2.4G Band & Frequency Section
++// Freqency start & end / band number
++//
++#define FREQ_RT_2G_NULL \
++        {0}, 0
++        // Passive scan CH 12, 13
++#define FREQ_RT_2G_WORLD \
++        {2412, 2472}, 1
++#define FREQ_RT_2G_EFSI1 \
++        {2412, 2472}, 1
++#define FREQ_RT_2G_FCC1 \
++        {2412, 2462}, 1
++#define FREQ_RT_2G_MKK1 \
++        {2412, 2484}, 1
++#define FREQ_RT_2G_ETSI2 \
++        {2457, 2472}, 1
++
++
++//    
++// 5G Regulatory Domains
++//
++typedef enum _RT_REGULATION_DOMAIN_5G
++{   
++	RT_5G_NULL,
++	RT_5G_WORLD,
++	RT_5G_ETSI1,
++	RT_5G_ETSI2,
++	RT_5G_ETSI3,
++	RT_5G_FCC1,	
++	RT_5G_FCC2,
++	RT_5G_FCC3,
++	RT_5G_FCC4,
++	RT_5G_FCC5,
++	RT_5G_FCC6,
++	RT_5G_FCC7,
++	RT_5G_IC1,
++	RT_5G_KCC1,
++	RT_5G_MKK1,
++	RT_5G_MKK2,
++	RT_5G_MKK3,
++	RT_5G_NCC1,
++	
++}RT_REGULATION_5G, *PRT_REGULATION_5G;
++
++//
++// 5G Channel Number
++//
++#define CHNL_RT_5G_NULL \
++        {0}, 0
++#define CHNL_RT_5G_WORLD \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140}, 19
++#define CHNL_RT_5G_ETSI1 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140,149,153,157,161,165}, 24
++#define CHNL_RT_5G_ETSI2 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,149,153,157,161,165}, 22
++#define CHNL_RT_5G_ETSI3 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140,149,153,157,161,165}, 24
++#define CHNL_RT_5G_FCC1 \
++        {36,40,44,48,149,153,157,161,165}, 9
++#define CHNL_RT_5G_FCC2 \
++        {36,40,44,48,52,56,60,64,149,153,157,161,165}, 13
++#define CHNL_RT_5G_FCC3 \
++        {36,40,44,48,52,56,60,64,149,153,157,161}, 12
++#define CHNL_RT_5G_FCC4 \
++        {149,153,157,161,165}, 5
++#define CHNL_RT_5G_FCC5 \
++        {36,40,44,48,52,56,60,64}, 8
++#define CHNL_RT_5G_FCC6 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,136,140,149,153,157,161,165}, 20
++#define CHNL_RT_5G_FCC7 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,136,140,149,153,157,161,165}, 20
++#define CHNL_RT_5G_IC1 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,149,153,157,161,165}, 20
++#define CHNL_RT_5G_KCC1 \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140}, 19
++#define CHNL_RT_5G_MKK1 \
++        {36,40,44,48,52,56,60,64}, 8
++#define CHNL_RT_5G_MKK2 \
++        {100,104,108,112,116,120,124,128,132,136,140}, 11
++#define CHNL_RT_5G_MKK3 \
++        {56,60,64,100,104,108,112,116,136,140,149,153,157,161,165}, 24
++#define CHNL_RT_5G_NCC1 \
++        {56,60,64,149,153,157,161,165}, 8  	
++
++//
++// 5G Channel Active or passive scan.
++//
++#define CHNL_RT_5G_NULL_SCAN_TYPE \
++        {SCAN_NULL}
++#define CHNL_RT_5G_WORLD_SCAN_TYPE \
++        {1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1}
++#define CHNL_RT_5G_ETSI1_SCAN_TYPE \
++        {1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1}
++#define CHNL_RT_5G_ETSI2_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,149,153,157,161,165}, 22
++#define CHNL_RT_5G_ETSI3_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140,149,153,157,161,165}, 24
++#define CHNL_RT_5G_FCC1_SCAN_TYPE \
++        {36,40,44,48,149,153,157,161,165}, 9
++#define CHNL_RT_5G_FCC2_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64,149,153,157,161,165}, 13
++#define CHNL_RT_5G_FCC3_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64,149,153,157,161}, 12
++#define CHNL_RT_5G_FCC4_SCAN_TYPE \
++        {149,153,157,161,165}, 5
++#define CHNL_RT_5G_FCC5_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64}, 8
++#define CHNL_RT_5G_FCC6_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,136,140,149,153,157,161,165}, 20
++#define CHNL_RT_5G_FCC7_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,136,140,149,153,157,161,165}, 20
++#define CHNL_RT_5G_IC1_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,149,153,157,161,165}, 20
++#define CHNL_RT_5G_KCC1_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140}, 19
++#define CHNL_RT_5G_MKK1_SCAN_TYPE \
++        {36,40,44,48,52,56,60,64}, 8
++#define CHNL_RT_5G_MKK2_SCAN_TYPE \
++        {100,104,108,112,116,120,124,128,132,136,140}, 11
++#define CHNL_RT_5G_MKK3_SCAN_TYPE \
++        {56,60,64,100,104,108,112,116,136,140,149,153,157,161,165}, 24
++#define CHNL_RT_5G_NCC1_SCAN_TYPE \
++        {56,60,64,149,153,157,161,165}, 8  	
++
++//    
++// Global Regulation
++//
++typedef enum _RT_REGULATION_COMMON
++{
++	RT_WORLD,   
++	RT_FCC,   
++	RT_MKK,
++	RT_ETSI,
++	RT_IC,
++	RT_CE,
++	RT_NCC,
++	
++}RT_REGULATION_CMN, *PRT_REGULATION_CMN;
++
++
++
++//    
++// Special requirement for different regulation domain.
++// For internal test or customerize special request.
++//
++typedef enum _RT_CHNLPLAN_SREQ
++{
++	RT_SREQ_NA						= 0x0,
++	RT_SREQ_2G_ADHOC_11N			= 0x00000001,
++	RT_SREQ_2G_ADHOC_11B			= 0x00000002,
++	RT_SREQ_2G_ALL_PASS				= 0x00000004,
++	RT_SREQ_2G_ALL_ACT				= 0x00000008,	
++	RT_SREQ_5G_ADHOC_11N			= 0x00000010,
++	RT_SREQ_5G_ADHOC_11AC			= 0x00000020,
++	RT_SREQ_5G_ALL_PASS				= 0x00000040,
++	RT_SREQ_5G_ALL_ACT				= 0x00000080,
++	RT_SREQ_C1_PLAN					= 0x00000100,	
++	RT_SREQ_C2_PLAN					= 0x00000200,	
++	RT_SREQ_C3_PLAN					= 0x00000400,	
++	RT_SREQ_C4_PLAN					= 0x00000800,	
++	RT_SREQ_NFC_ON					= 0x00001000,	
++	RT_SREQ_MASK					= 0x0000FFFF,   /* Requirements bit mask */
++	
++}RT_CHNLPLAN_SREQ, *PRT_CHNLPLAN_SREQ;
++
++
++//
++// RT_COUNTRY_NAME & RT_REGULATION_2G & RT_REGULATION_5G transfer table
++// 
++//
++typedef struct _RT_CHANNEL_PLAN_COUNTRY_TRANSFER_TABLE
++{   
++	//
++	// Define countery domain and corresponding 
++	//	
++	RT_COUNTRY_NAME		Country_Enum;
++	char				Country_Name[3];
++	
++	//char		Domain_Name[12];
++	RT_REGULATION_2G	Domain_2G;	
++
++	RT_REGULATION_5G	Domain_5G;	
++
++	RT_CHANNEL_DOMAIN	RtChDomain;
++	//u1Byte		Country_Area;
++    
++}RT_CHNL_CTRY_TBL, *PRT_CHNL_CTRY_TBL;
++    
++
++#define		RT_MAX_CHNL_NUM_2G		13
++#define		RT_MAX_CHNL_NUM_5G		44	
++
++// Power table sample.
++
++typedef struct _RT_CHNL_PLAN_PWR_LIMIT
++{
++	u2Byte	Chnl_Start;
++	u2Byte	Chnl_end;
++	u1Byte	dB_Max;
++	u2Byte	mW_Max;
++}RT_CHNL_PWR_LIMIT, *PRT_CHNL_PWR_LIMIT;
++
++
++#define		RT_MAX_BAND_NUM			5
++
++typedef struct _RT_CHANNEL_PLAN_MAXPWR
++{
++//	STRING_T
++	RT_CHNL_PWR_LIMIT	Chnl[RT_MAX_BAND_NUM];
++	u1Byte				Band_Useful_Num;
++
++	
++}RT_CHANNEL_PLAN_MAXPWR, *PRT_CHANNEL_PLAN_MAXPWR;
++
++
++//
++// Power By Rate Table.
++//
++
++
++
++typedef struct _RT_CHANNEL_PLAN_NEW
++{   
++	//
++	// Define countery domain and corresponding 
++	//
++	//char		Country_Name[36];
++	//u1Byte		Country_Enum;
++	
++	//char		Domain_Name[12];
++
++	
++	PRT_CHNL_CTRY_TBL		pCtryTransfer;
++	
++	RT_CHANNEL_DOMAIN		RtChDomain;	
++
++	RT_REGULATION_2G		Domain_2G;
++
++	RT_REGULATION_5G		Domain_5G;	
++
++	RT_REGULATION_CMN		Regulator;
++
++	RT_CHNLPLAN_SREQ		ChnlSreq;
++	
++	//RT_CHNL_PLAN_LIMIT		RtChnl;
++		
++	u1Byte	Chnl2G[MAX_CHANNEL_NUM];				// CHNL_RT_2G_WORLD
++	u1Byte	Len2G;
++	u1Byte	Chnl2GScanTp[MAX_CHANNEL_NUM];			// CHNL_RT_2G_WORLD_SCAN_TYPE
++	//u1Byte	Freq2G[2];								// FREQ_RT_2G_WORLD
++
++	u1Byte	Chnl5G[MAX_CHANNEL_NUM];				
++	u1Byte	Len5G;
++	u1Byte	Chnl5GScanTp[MAX_CHANNEL_NUM];
++	//u1Byte	Freq2G[2];								// FREQ_RT_2G_WORLD
++
++	RT_CHANNEL_PLAN_MAXPWR	ChnlMaxPwr;
++	
++    
++}RT_CHANNEL_PLAN_NEW, *PRT_CHANNEL_PLAN_NEW;
++    
++    
++#endif	// __RT_CHANNELPLAN_H__
++    
++    
++    
++    
++ 
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_bb.c b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_bb.c
+new file mode 100644
+index 0000000..ee380a8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_bb.c
+@@ -0,0 +1,1483 @@
++/****************************************************************************** 
++* 
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved. 
++* 
++* This program is free software; you can redistribute it and/or modify it 
++* under the terms of version 2 of the GNU General Public License as 
++* published by the Free Software Foundation. 
++* 
++* This program is distributed in the hope that it will be useful, but WITHOUT 
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for 
++* more details. 
++* 
++* You should have received a copy of the GNU General Public License along with 
++* this program; if not, write to the Free Software Foundation, Inc., 
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA 
++* 
++* 
++******************************************************************************/
++
++/*Image2HeaderVersion: 2.18*/
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#if (RTL8812A_SUPPORT == 1)
++static BOOLEAN
++CheckPositive(
++	IN  PDM_ODM_T     pDM_Odm,
++	IN  const u4Byte  Condition1,
++	IN  const u4Byte  Condition2,
++	IN	const u4Byte  Condition3,
++	IN	const u4Byte  Condition4
++)
++{
++	u1Byte    _BoardType = ((pDM_Odm->BoardType & BIT4) >> 4) << 0 | /* _GLNA*/
++				((pDM_Odm->BoardType & BIT3) >> 3) << 1 | /* _GPA*/ 
++				((pDM_Odm->BoardType & BIT7) >> 7) << 2 | /* _ALNA*/
++				((pDM_Odm->BoardType & BIT6) >> 6) << 3 | /* _APA */
++				((pDM_Odm->BoardType & BIT2) >> 2) << 4;  /* _BT*/  
++
++	u4Byte	cond1   = Condition1, cond2 = Condition2, cond3 = Condition3, cond4 = Condition4;
++	u4Byte    driver1 = pDM_Odm->CutVersion       << 24 | 
++				(pDM_Odm->SupportInterface & 0xF0) << 16 | 
++				pDM_Odm->SupportPlatform  << 16 | 
++				pDM_Odm->PackageType      << 12 | 
++				(pDM_Odm->SupportInterface & 0x0F) << 8  |
++				_BoardType;
++
++	u4Byte    driver2 = (pDM_Odm->TypeGLNA & 0xFF) <<  0 |  
++				(pDM_Odm->TypeGPA & 0xFF)  <<  8 | 
++				(pDM_Odm->TypeALNA & 0xFF) << 16 | 
++				(pDM_Odm->TypeAPA & 0xFF)  << 24; 
++
++u4Byte    driver3 = 0;
++
++	u4Byte    driver4 = (pDM_Odm->TypeGLNA & 0xFF00) >>  8 |
++				(pDM_Odm->TypeGPA & 0xFF00) |
++				(pDM_Odm->TypeALNA & 0xFF00) << 8 |
++				(pDM_Odm->TypeAPA & 0xFF00)  << 16;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("===> CheckPositive (cond1, cond2, cond3, cond4) = (0x%X 0x%X 0x%X 0x%X)\n", cond1, cond2, cond3, cond4));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("===> CheckPositive (driver1, driver2, driver3, driver4) = (0x%X 0x%X 0x%X 0x%X)\n", driver1, driver2, driver3, driver4));
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("	(Platform, Interface) = (0x%X, 0x%X)\n", pDM_Odm->SupportPlatform, pDM_Odm->SupportInterface));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("	(Board, Package) = (0x%X, 0x%X)\n", pDM_Odm->BoardType, pDM_Odm->PackageType));
++
++
++	/*============== Value Defined Check ===============*/
++	/*QFN Type [15:12] and Cut Version [27:24] need to do value check*/
++	
++	if (((cond1 & 0x0000F000) != 0) && ((cond1 & 0x0000F000) != (driver1 & 0x0000F000)))
++		return FALSE;
++	if (((cond1 & 0x0F000000) != 0) && ((cond1 & 0x0F000000) != (driver1 & 0x0F000000)))
++		return FALSE;
++
++	/*=============== Bit Defined Check ================*/
++	/* We don't care [31:28] */
++
++	cond1   &= 0x00FF0FFF; 
++	driver1 &= 0x00FF0FFF; 
++
++	if ((cond1 & driver1) == cond1) {
++		u4Byte bitMask = 0;
++
++		if ((cond1 & 0x0F) == 0) /* BoardType is DONTCARE*/
++			return TRUE;
++
++		if ((cond1 & BIT0) != 0) /*GLNA*/
++			bitMask |= 0x000000FF;
++		if ((cond1 & BIT1) != 0) /*GPA*/
++			bitMask |= 0x0000FF00;
++		if ((cond1 & BIT2) != 0) /*ALNA*/
++			bitMask |= 0x00FF0000;
++		if ((cond1 & BIT3) != 0) /*APA*/
++			bitMask |= 0xFF000000;
++
++		if (((cond2 & bitMask) == (driver2 & bitMask)) && ((cond4 & bitMask) == (driver4 & bitMask)))  /* BoardType of each RF path is matched*/
++			return TRUE;
++		else
++			return FALSE;
++	} else
++		return FALSE;
++}
++static BOOLEAN
++CheckNegative(
++	IN  PDM_ODM_T     pDM_Odm,
++	IN  const u4Byte  Condition1,
++	IN  const u4Byte  Condition2
++)
++{
++	return TRUE;
++}
++
++/******************************************************************************
++*                           AGC_TAB.TXT
++******************************************************************************/
++
++u4Byte Array_MP_8812A_AGC_TAB[] = { 
++	0x80000001,	0x00000000,	0x40000000,	0x00000000,
++		0x81C, 0xFC000001,
++		0x81C, 0xFB020001,
++		0x81C, 0xFA040001,
++		0x81C, 0xF9060001,
++		0x81C, 0xF8080001,
++		0x81C, 0xF70A0001,
++		0x81C, 0xF60C0001,
++		0x81C, 0xF50E0001,
++		0x81C, 0xF4100001,
++		0x81C, 0xF3120001,
++		0x81C, 0xF2140001,
++		0x81C, 0xF1160001,
++		0x81C, 0xF0180001,
++		0x81C, 0xEF1A0001,
++		0x81C, 0xEE1C0001,
++		0x81C, 0xED1E0001,
++		0x81C, 0xEC200001,
++		0x81C, 0xEB220001,
++		0x81C, 0xEA240001,
++		0x81C, 0xCD260001,
++		0x81C, 0xCC280001,
++		0x81C, 0xCB2A0001,
++		0x81C, 0xCA2C0001,
++		0x81C, 0xC92E0001,
++		0x81C, 0xC8300001,
++		0x81C, 0xA6320001,
++		0x81C, 0xA5340001,
++		0x81C, 0xA4360001,
++		0x81C, 0xA3380001,
++		0x81C, 0xA23A0001,
++		0x81C, 0x883C0001,
++		0x81C, 0x873E0001,
++		0x81C, 0x86400001,
++		0x81C, 0x85420001,
++		0x81C, 0x84440001,
++		0x81C, 0x83460001,
++		0x81C, 0x82480001,
++		0x81C, 0x814A0001,
++		0x81C, 0x484C0001,
++		0x81C, 0x474E0001,
++		0x81C, 0x46500001,
++		0x81C, 0x45520001,
++		0x81C, 0x44540001,
++		0x81C, 0x43560001,
++		0x81C, 0x42580001,
++		0x81C, 0x415A0001,
++		0x81C, 0x255C0001,
++		0x81C, 0x245E0001,
++		0x81C, 0x23600001,
++		0x81C, 0x22620001,
++		0x81C, 0x21640001,
++		0x81C, 0x21660001,
++		0x81C, 0x21680001,
++		0x81C, 0x216A0001,
++		0x81C, 0x216C0001,
++		0x81C, 0x216E0001,
++		0x81C, 0x21700001,
++		0x81C, 0x21720001,
++		0x81C, 0x21740001,
++		0x81C, 0x21760001,
++		0x81C, 0x21780001,
++		0x81C, 0x217A0001,
++		0x81C, 0x217C0001,
++		0x81C, 0x217E0001,
++	0x90000001,	0x00000005,	0x40000000,	0x00000000,
++		0x81C, 0xF9000001,
++		0x81C, 0xF8020001,
++		0x81C, 0xF7040001,
++		0x81C, 0xF6060001,
++		0x81C, 0xF5080001,
++		0x81C, 0xF40A0001,
++		0x81C, 0xF30C0001,
++		0x81C, 0xF20E0001,
++		0x81C, 0xF1100001,
++		0x81C, 0xF0120001,
++		0x81C, 0xEF140001,
++		0x81C, 0xEE160001,
++		0x81C, 0xED180001,
++		0x81C, 0xEC1A0001,
++		0x81C, 0xEB1C0001,
++		0x81C, 0xEA1E0001,
++		0x81C, 0xCD200001,
++		0x81C, 0xCC220001,
++		0x81C, 0xCB240001,
++		0x81C, 0xCA260001,
++		0x81C, 0xC9280001,
++		0x81C, 0xC82A0001,
++		0x81C, 0xC72C0001,
++		0x81C, 0xC62E0001,
++		0x81C, 0xA5300001,
++		0x81C, 0xA4320001,
++		0x81C, 0xA3340001,
++		0x81C, 0xA2360001,
++		0x81C, 0x88380001,
++		0x81C, 0x873A0001,
++		0x81C, 0x863C0001,
++		0x81C, 0x853E0001,
++		0x81C, 0x84400001,
++		0x81C, 0x83420001,
++		0x81C, 0x82440001,
++		0x81C, 0x81460001,
++		0x81C, 0x48480001,
++		0x81C, 0x474A0001,
++		0x81C, 0x464C0001,
++		0x81C, 0x454E0001,
++		0x81C, 0x44500001,
++		0x81C, 0x43520001,
++		0x81C, 0x42540001,
++		0x81C, 0x41560001,
++		0x81C, 0x25580001,
++		0x81C, 0x245A0001,
++		0x81C, 0x235C0001,
++		0x81C, 0x225E0001,
++		0x81C, 0x21600001,
++		0x81C, 0x21620001,
++		0x81C, 0x21640001,
++		0x81C, 0x21660001,
++		0x81C, 0x21680001,
++		0x81C, 0x216A0001,
++		0x81C, 0x236C0001,
++		0x81C, 0x226E0001,
++		0x81C, 0x21700001,
++		0x81C, 0x21720001,
++		0x81C, 0x21740001,
++		0x81C, 0x21760001,
++		0x81C, 0x21780001,
++		0x81C, 0x217A0001,
++		0x81C, 0x217C0001,
++		0x81C, 0x217E0001,
++	0xA0000000,	0x00000000,
++		0x81C, 0xFF000001,
++		0x81C, 0xFF020001,
++		0x81C, 0xFF040001,
++		0x81C, 0xFF060001,
++		0x81C, 0xFF080001,
++		0x81C, 0xFE0A0001,
++		0x81C, 0xFD0C0001,
++		0x81C, 0xFC0E0001,
++		0x81C, 0xFB100001,
++		0x81C, 0xFA120001,
++		0x81C, 0xF9140001,
++		0x81C, 0xF8160001,
++		0x81C, 0xF7180001,
++		0x81C, 0xF61A0001,
++		0x81C, 0xF51C0001,
++		0x81C, 0xF41E0001,
++		0x81C, 0xF3200001,
++		0x81C, 0xF2220001,
++		0x81C, 0xF1240001,
++		0x81C, 0xF0260001,
++		0x81C, 0xEF280001,
++		0x81C, 0xEE2A0001,
++		0x81C, 0xED2C0001,
++		0x81C, 0xEC2E0001,
++		0x81C, 0xEB300001,
++		0x81C, 0xEA320001,
++		0x81C, 0xE9340001,
++		0x81C, 0xE8360001,
++		0x81C, 0xE7380001,
++		0x81C, 0xE63A0001,
++		0x81C, 0xE53C0001,
++		0x81C, 0xC73E0001,
++		0x81C, 0xC6400001,
++		0x81C, 0xC5420001,
++		0x81C, 0xC4440001,
++		0x81C, 0xC3460001,
++		0x81C, 0xC2480001,
++		0x81C, 0xC14A0001,
++		0x81C, 0xA74C0001,
++		0x81C, 0xA64E0001,
++		0x81C, 0xA5500001,
++		0x81C, 0xA4520001,
++		0x81C, 0xA3540001,
++		0x81C, 0xA2560001,
++		0x81C, 0xA1580001,
++		0x81C, 0x675A0001,
++		0x81C, 0x665C0001,
++		0x81C, 0x655E0001,
++		0x81C, 0x64600001,
++		0x81C, 0x63620001,
++		0x81C, 0x48640001,
++		0x81C, 0x47660001,
++		0x81C, 0x46680001,
++		0x81C, 0x456A0001,
++		0x81C, 0x446C0001,
++		0x81C, 0x436E0001,
++		0x81C, 0x42700001,
++		0x81C, 0x41720001,
++		0x81C, 0x41740001,
++		0x81C, 0x41760001,
++		0x81C, 0x41780001,
++		0x81C, 0x417A0001,
++		0x81C, 0x417C0001,
++		0x81C, 0x417E0001,
++	0xB0000000,	0x00000000,
++	0x80000004,	0x00000000,	0x40000000,	0x00000000,
++		0x81C, 0xFC800001,
++		0x81C, 0xFB820001,
++		0x81C, 0xFA840001,
++		0x81C, 0xF9860001,
++		0x81C, 0xF8880001,
++		0x81C, 0xF78A0001,
++		0x81C, 0xF68C0001,
++		0x81C, 0xF58E0001,
++		0x81C, 0xF4900001,
++		0x81C, 0xF3920001,
++		0x81C, 0xF2940001,
++		0x81C, 0xF1960001,
++		0x81C, 0xF0980001,
++		0x81C, 0xEF9A0001,
++		0x81C, 0xEE9C0001,
++		0x81C, 0xED9E0001,
++		0x81C, 0xECA00001,
++		0x81C, 0xEBA20001,
++		0x81C, 0xEAA40001,
++		0x81C, 0xE9A60001,
++		0x81C, 0xE8A80001,
++		0x81C, 0xE7AA0001,
++		0x81C, 0xE6AC0001,
++		0x81C, 0xE5AE0001,
++		0x81C, 0xE4B00001,
++		0x81C, 0xE3B20001,
++		0x81C, 0xA8B40001,
++		0x81C, 0xA7B60001,
++		0x81C, 0xA6B80001,
++		0x81C, 0xA5BA0001,
++		0x81C, 0xA4BC0001,
++		0x81C, 0xA3BE0001,
++		0x81C, 0xA2C00001,
++		0x81C, 0xA1C20001,
++		0x81C, 0x68C40001,
++		0x81C, 0x67C60001,
++		0x81C, 0x66C80001,
++		0x81C, 0x65CA0001,
++		0x81C, 0x64CC0001,
++		0x81C, 0x47CE0001,
++		0x81C, 0x46D00001,
++		0x81C, 0x45D20001,
++		0x81C, 0x44D40001,
++		0x81C, 0x43D60001,
++		0x81C, 0x42D80001,
++		0x81C, 0x08DA0001,
++		0x81C, 0x07DC0001,
++		0x81C, 0x06DE0001,
++		0x81C, 0x05E00001,
++		0x81C, 0x04E20001,
++		0x81C, 0x03E40001,
++		0x81C, 0x02E60001,
++		0x81C, 0x01E80001,
++		0x81C, 0x01EA0001,
++		0x81C, 0x01EC0001,
++		0x81C, 0x01EE0001,
++		0x81C, 0x01F00001,
++		0x81C, 0x01F20001,
++		0x81C, 0x01F40001,
++		0x81C, 0x01F60001,
++		0x81C, 0x01F80001,
++		0x81C, 0x01FA0001,
++		0x81C, 0x01FC0001,
++		0x81C, 0x01FE0001,
++	0xA0000000,	0x00000000,
++		0x81C, 0xFF800001,
++		0x81C, 0xFF820001,
++		0x81C, 0xFF840001,
++		0x81C, 0xFE860001,
++		0x81C, 0xFD880001,
++		0x81C, 0xFC8A0001,
++		0x81C, 0xFB8C0001,
++		0x81C, 0xFA8E0001,
++		0x81C, 0xF9900001,
++		0x81C, 0xF8920001,
++		0x81C, 0xF7940001,
++		0x81C, 0xF6960001,
++		0x81C, 0xF5980001,
++		0x81C, 0xF49A0001,
++		0x81C, 0xF39C0001,
++		0x81C, 0xF29E0001,
++		0x81C, 0xF1A00001,
++		0x81C, 0xF0A20001,
++		0x81C, 0xEFA40001,
++		0x81C, 0xEEA60001,
++		0x81C, 0xEDA80001,
++		0x81C, 0xECAA0001,
++		0x81C, 0xEBAC0001,
++		0x81C, 0xEAAE0001,
++		0x81C, 0xE9B00001,
++		0x81C, 0xE8B20001,
++		0x81C, 0xE7B40001,
++		0x81C, 0xE6B60001,
++		0x81C, 0xE5B80001,
++		0x81C, 0xE4BA0001,
++		0x81C, 0xE3BC0001,
++		0x81C, 0xA8BE0001,
++		0x81C, 0xA7C00001,
++		0x81C, 0xA6C20001,
++		0x81C, 0xA5C40001,
++		0x81C, 0xA4C60001,
++		0x81C, 0xA3C80001,
++		0x81C, 0xA2CA0001,
++		0x81C, 0xA1CC0001,
++		0x81C, 0x68CE0001,
++		0x81C, 0x67D00001,
++		0x81C, 0x66D20001,
++		0x81C, 0x65D40001,
++		0x81C, 0x64D60001,
++		0x81C, 0x47D80001,
++		0x81C, 0x46DA0001,
++		0x81C, 0x45DC0001,
++		0x81C, 0x44DE0001,
++		0x81C, 0x43E00001,
++		0x81C, 0x42E20001,
++		0x81C, 0x08E40001,
++		0x81C, 0x07E60001,
++		0x81C, 0x06E80001,
++		0x81C, 0x05EA0001,
++		0x81C, 0x04EC0001,
++		0x81C, 0x03EE0001,
++		0x81C, 0x02F00001,
++		0x81C, 0x01F20001,
++		0x81C, 0x01F40001,
++		0x81C, 0x01F60001,
++		0x81C, 0x01F80001,
++		0x81C, 0x01FA0001,
++		0x81C, 0x01FC0001,
++		0x81C, 0x01FE0001,
++	0xB0000000,	0x00000000,
++		0xC50, 0x00000022,
++		0xC50, 0x00000020,
++		0xE50, 0x00000022,
++		0xE50, 0x00000020,
++
++};
++
++void
++ODM_ReadAndConfig_MP_8812A_AGC_TAB(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i         = 0;
++	u1Byte     cCond;
++	BOOLEAN bMatched = TRUE, bSkipped = FALSE;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8812A_AGC_TAB)/sizeof(u4Byte);
++	pu4Byte    Array       = Array_MP_8812A_AGC_TAB;
++	
++	u4Byte	v1 = 0, v2 = 0, pre_v1 = 0, pre_v2 = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8812A_AGC_TAB\n"));
++
++	while ((i + 1) < ArrayLen) {
++		v1 = Array[i];
++		v2 = Array[i + 1];
++
++		if (v1 & (BIT31 | BIT30)) {/*positive & negative condition*/
++			if (v1 & BIT31) {/* positive condition*/
++				cCond  = (u1Byte)((v1 & (BIT29|BIT28)) >> 28);
++				if (cCond == COND_ENDIF) {/*end*/
++					bMatched = TRUE;
++					bSkipped = FALSE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ENDIF\n"));
++				} else if (cCond == COND_ELSE) { /*else*/
++					bMatched = bSkipped?FALSE:TRUE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ELSE\n"));
++				} else {/*if , else if*/
++					pre_v1 = v1;
++					pre_v2 = v2;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("IF or ELSE IF\n"));
++				}
++			} else if (v1 & BIT30) { /*negative condition*/
++				if (bSkipped == FALSE) {
++					if (CheckPositive(pDM_Odm, pre_v1, pre_v2, v1, v2)) {
++						bMatched = TRUE;
++						bSkipped = TRUE;
++					} else {
++						bMatched = FALSE;
++						bSkipped = FALSE;
++					}
++				} else
++					bMatched = FALSE;
++			}
++		} else {
++			if (bMatched)
++				odm_ConfigBB_AGC_8812A(pDM_Odm, v1, bMaskDWord, v2);
++		}
++		i = i + 2;
++	}
++}
++
++u4Byte
++ODM_GetVersion_MP_8812A_AGC_TAB(void)
++{
++	   return 57;
++}
++
++/******************************************************************************
++*                           AGC_TAB_DIFF.TXT
++******************************************************************************/
++
++u4Byte Array_MP_8812A_AGC_TAB_DIFF_LB[] = { 
++	0x80000004,	0x00000000,	0x40000000,	0x00000000,
++		0x81C, 0x47CE0001,
++		0x81C, 0x46D00001,
++		0x81C, 0x45D20001,
++		0x81C, 0x44D40001,
++		0x81C, 0x43D60001,
++		0x81C, 0x42D80001,
++		0x81C, 0x08DA0001,
++		0x81C, 0x07DC0001,
++		0x81C, 0x06DE0001,
++		0x81C, 0x05E00001,
++		0x81C, 0x04E20001,
++		0x81C, 0x03E40001,
++		0x81C, 0x02E60001,
++	0xA0000000,	0x00000000,
++		0x81C, 0x47D80001,
++		0x81C, 0x46DA0001,
++		0x81C, 0x45DC0001,
++		0x81C, 0x44DE0001,
++		0x81C, 0x43E00001,
++		0x81C, 0x42E20001,
++		0x81C, 0x08E40001,
++		0x81C, 0x07E60001,
++		0x81C, 0x06E80001,
++		0x81C, 0x05EA0001,
++		0x81C, 0x04EC0001,
++		0x81C, 0x03EE0001,
++		0x81C, 0x02F00001,
++	0xB0000000,	0x00000000,
++};
++
++u4Byte Array_MP_8812A_AGC_TAB_DIFF_HB[] = { 
++	0x80000004,	0x00000000,	0x40000000,	0x00000000,
++		0x81C, 0x45CE0001,
++		0x81C, 0x44D00001,
++		0x81C, 0x43D20001,
++		0x81C, 0x42D40001,
++		0x81C, 0x08D60001,
++		0x81C, 0x07D80001,
++		0x81C, 0x06DA0001,
++		0x81C, 0x05DC0001,
++		0x81C, 0x04DE0001,
++		0x81C, 0x03E00001,
++		0x81C, 0x02E20001,
++		0x81C, 0x01E40001,
++		0x81C, 0x01E60001,
++	0xA0000000,	0x00000000,
++		0x81C, 0x45D80001,
++		0x81C, 0x44DA0001,
++		0x81C, 0x43DC0001,
++		0x81C, 0x42DE0001,
++		0x81C, 0x08E00001,
++		0x81C, 0x07E20001,
++		0x81C, 0x06E40001,
++		0x81C, 0x05E60001,
++		0x81C, 0x04E80001,
++		0x81C, 0x03EA0001,
++		0x81C, 0x02EC0001,
++		0x81C, 0x01EE0001,
++		0x81C, 0x01F00001,
++	0xB0000000,	0x00000000,
++};
++
++void
++ODM_ReadAndConfig_MP_8812A_AGC_TAB_DIFF(
++	IN   PDM_ODM_T  pDM_Odm,
++ 	IN   u4Byte  	Array[],
++ 	IN   u4Byte  	ArrayLen 
++)
++{
++	u4Byte     i         = 0;
++	u1Byte     cCond;
++	BOOLEAN bMatched = TRUE, bSkipped = FALSE;
++	
++	u4Byte	v1 = 0, v2 = 0, pre_v1 = 0, pre_v2 = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8812A_AGC_TAB_DIFF\n"));
++
++	while ((i + 1) < ArrayLen) {
++		v1 = Array[i];
++		v2 = Array[i + 1];
++
++		if (v1 & (BIT31 | BIT30)) {/*positive & negative condition*/
++			if (v1 & BIT31) {/* positive condition*/
++				cCond  = (u1Byte)((v1 & (BIT29|BIT28)) >> 28);
++				if (cCond == COND_ENDIF) {/*end*/
++					bMatched = TRUE;
++					bSkipped = FALSE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ENDIF\n"));
++				} else if (cCond == COND_ELSE) { /*else*/
++					bMatched = bSkipped?FALSE:TRUE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ELSE\n"));
++				} else {/*if , else if*/
++					pre_v1 = v1;
++					pre_v2 = v2;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("IF or ELSE IF\n"));
++				}
++			} else if (v1 & BIT30) { /*negative condition*/
++				if (bSkipped == FALSE) {
++					if (CheckPositive(pDM_Odm, pre_v1, pre_v2, v1, v2)) {
++						bMatched = TRUE;
++						bSkipped = TRUE;
++					} else {
++						bMatched = FALSE;
++						bSkipped = FALSE;
++					}
++				} else
++					bMatched = FALSE;
++			}
++		} else {
++			if (bMatched)
++				odm_ConfigBB_AGC_8812A(pDM_Odm, v1, bMaskDWord, v2);
++		}
++		i = i + 2;
++	}
++}
++
++u4Byte
++ODM_GetVersion_MP_8812A_AGC_TAB_DIFF(void)
++{
++	   return 57;
++}
++
++/******************************************************************************
++*                           PHY_REG.TXT
++******************************************************************************/
++
++u4Byte Array_MP_8812A_PHY_REG[] = { 
++		0x800, 0x8020D010,
++		0x804, 0x080112E0,
++		0x808, 0x0E028233,
++		0x80C, 0x12131113,
++		0x810, 0x20101263,
++		0x814, 0x020C3D10,
++		0x818, 0x03A00385,
++		0x820, 0x00000000,
++		0x824, 0x00030FE0,
++		0x828, 0x00000000,
++		0x82C, 0x002083DD,
++		0x830, 0x2EAAEEB8,
++		0x834, 0x0037A706,
++		0x838, 0x06C89B44,
++		0x83C, 0x0000095B,
++		0x840, 0xC0000001,
++		0x844, 0x40003CDE,
++		0x848, 0x6210FF8B,
++		0x84C, 0x6CFDFFB8,
++		0x850, 0x28874706,
++		0x854, 0x0001520C,
++		0x858, 0x8060E000,
++		0x85C, 0x74210168,
++		0x860, 0x6929C321,
++		0x864, 0x79727432,
++		0x868, 0x8CA7A314,
++		0x86C, 0x338C2878,
++		0x870, 0x03333333,
++		0x874, 0x31602C2E,
++		0x878, 0x00003152,
++		0x87C, 0x000FC000,
++		0x8A0, 0x00000013,
++		0x8A4, 0x7F7F7F7F,
++		0x8A8, 0xA202033E,
++		0x8AC, 0x0FF0FA0A,
++		0x8B0, 0x00000600,
++		0x8B4, 0x000FC080,
++		0x8B8, 0x6C0057FF,
++		0x8BC, 0x4CA520A3,
++		0x8C0, 0x27F00020,
++		0x8C4, 0x00000000,
++		0x8C8, 0x00012D69,
++		0x8CC, 0x08248492,
++		0x8D0, 0x0000B800,
++		0x8DC, 0x00000000,
++		0x8D4, 0x940008A0,
++		0x8D8, 0x290B5612,
++		0x8F8, 0x400002C0,
++		0x8FC, 0x00000000,
++		0x900, 0x00000701,
++		0x90C, 0x00000000,
++		0x910, 0x0000FC00,
++		0x914, 0x00000404,
++		0x918, 0x1C1028C0,
++		0x91C, 0x64B11A1C,
++		0x920, 0xE0767233,
++		0x924, 0x055AA500,
++		0x928, 0x00000004,
++		0x92C, 0xFFFE0000,
++		0x930, 0xFFFFFFFE,
++		0x934, 0x001FFFFF,
++		0x960, 0x00000000,
++		0x964, 0x00000000,
++		0x968, 0x00000000,
++		0x96C, 0x00000000,
++		0x970, 0x801FFFFF,
++		0x978, 0x00000000,
++		0x97C, 0x00000000,
++		0x980, 0x00000000,
++		0x984, 0x00000000,
++		0x988, 0x00000000,
++		0x990, 0x27100000,
++		0x994, 0xFFFF0100,
++		0x998, 0xFFFFFF5C,
++		0x99C, 0xFFFFFFFF,
++		0x9A0, 0x000000FF,
++		0x9A4, 0x00080080,
++		0x9A8, 0x00000000,
++		0x9AC, 0x00000000,
++		0x9B0, 0x81081008,
++		0x9B4, 0x00000000,
++		0x9B8, 0x01081008,
++		0x9BC, 0x01081008,
++		0x9D0, 0x00000000,
++		0x9D4, 0x00000000,
++		0x9D8, 0x00000000,
++		0x9DC, 0x00000000,
++		0x9E4, 0x00000003,
++		0x9E8, 0x000002D5,
++		0xA00, 0x00D047C8,
++		0xA04, 0x01FF000C,
++		0xA08, 0x8C838300,
++		0xA0C, 0x2E7F000F,
++		0xA10, 0x9500BB78,
++		0xA14, 0x11144028,
++		0xA18, 0x00881117,
++		0xA1C, 0x89140F00,
++		0xA20, 0x1A1B0000,
++		0xA24, 0x090E1217,
++		0xA28, 0x00000305,
++		0xA2C, 0x00900000,
++		0xA70, 0x101FFF00,
++		0xA74, 0x00000008,
++		0xA78, 0x00000900,
++		0xA7C, 0x225B0606,
++		0xA80, 0x218075B2,
++		0xA84, 0x001F8C80,
++		0xB00, 0x03100000,
++		0xB04, 0x0000B000,
++		0xB08, 0xAE0201EB,
++		0xB0C, 0x01003207,
++		0xB10, 0x00009807,
++		0xB14, 0x01000000,
++		0xB18, 0x00000002,
++		0xB1C, 0x00000002,
++		0xB20, 0x0000001F,
++		0xB24, 0x03020100,
++		0xB28, 0x07060504,
++		0xB2C, 0x0B0A0908,
++		0xB30, 0x0F0E0D0C,
++		0xB34, 0x13121110,
++		0xB38, 0x17161514,
++		0xB3C, 0x0000003A,
++		0xB40, 0x00000000,
++		0xB44, 0x00000000,
++		0xB48, 0x13000032,
++		0xB4C, 0x48080000,
++		0xB50, 0x00000000,
++		0xB54, 0x00000000,
++		0xB58, 0x00000000,
++		0xB5C, 0x00000000,
++		0xC00, 0x00000007,
++		0xC04, 0x00042020,
++		0xC08, 0x80410231,
++		0xC0C, 0x00000000,
++		0xC10, 0x00000100,
++		0xC14, 0x01000000,
++		0xC1C, 0x40000003,
++		0xC20, 0x12121212,
++		0xC24, 0x12121212,
++		0xC28, 0x12121212,
++		0xC2C, 0x12121212,
++		0xC30, 0x12121212,
++		0xC34, 0x12121212,
++		0xC38, 0x12121212,
++		0xC3C, 0x12121212,
++		0xC40, 0x12121212,
++		0xC44, 0x12121212,
++		0xC48, 0x12121212,
++		0xC4C, 0x12121212,
++		0xC50, 0x00000020,
++		0xC54, 0x0008121C,
++		0xC58, 0x30000C1C,
++		0xC5C, 0x00000058,
++		0xC60, 0x34344443,
++		0xC64, 0x07003333,
++	0x80000008,	0x00000000,	0x40000000,	0x00000000,
++		0xC68, 0x59791979,
++	0x90000008,	0x05000000,	0x40000000,	0x00000000,
++		0xC68, 0x59791979,
++	0x90000002,	0x00000000,	0x40000000,	0x00000000,
++		0xC68, 0x59791979,
++	0x90000004,	0x00000000,	0x40000000,	0x00000000,
++		0xC68, 0x59791979,
++	0x90000001,	0x00000000,	0x40000000,	0x00000000,
++		0xC68, 0x59791979,
++	0x90000001,	0x00000005,	0x40000000,	0x00000000,
++		0xC68, 0x59791979,
++	0xA0000000,	0x00000000,
++		0xC68, 0x59799979,
++	0xB0000000,	0x00000000,
++		0xC6C, 0x59795979,
++		0xC70, 0x19795979,
++		0xC74, 0x19795979,
++		0xC78, 0x19791979,
++		0xC7C, 0x19791979,
++		0xC80, 0x19791979,
++		0xC84, 0x19791979,
++		0xC94, 0x0100005C,
++		0xC98, 0x00000000,
++		0xC9C, 0x00000000,
++		0xCA0, 0x00000029,
++		0xCA4, 0x08040201,
++		0xCA8, 0x80402010,
++		0xCB0, 0x77547777,
++		0xCB4, 0x00000077,
++		0xCB8, 0x00508242,
++		0xE00, 0x00000007,
++		0xE04, 0x00042020,
++		0xE08, 0x80410231,
++		0xE0C, 0x00000000,
++		0xE10, 0x00000100,
++		0xE14, 0x01000000,
++		0xE1C, 0x40000003,
++		0xE20, 0x12121212,
++		0xE24, 0x12121212,
++		0xE28, 0x12121212,
++		0xE2C, 0x12121212,
++		0xE30, 0x12121212,
++		0xE34, 0x12121212,
++		0xE38, 0x12121212,
++		0xE3C, 0x12121212,
++		0xE40, 0x12121212,
++		0xE44, 0x12121212,
++		0xE48, 0x12121212,
++		0xE4C, 0x12121212,
++		0xE50, 0x00000020,
++		0xE54, 0x0008121C,
++		0xE58, 0x30000C1C,
++		0xE5C, 0x00000058,
++		0xE60, 0x34344443,
++		0xE64, 0x07003333,
++		0xE68, 0x59791979,
++		0xE6C, 0x59795979,
++		0xE70, 0x19795979,
++		0xE74, 0x19795979,
++		0xE78, 0x19791979,
++		0xE7C, 0x19791979,
++		0xE80, 0x19791979,
++		0xE84, 0x19791979,
++		0xE94, 0x0100005C,
++		0xE98, 0x00000000,
++		0xE9C, 0x00000000,
++		0xEA0, 0x00000029,
++		0xEA4, 0x08040201,
++		0xEA8, 0x80402010,
++		0xEB0, 0x77547777,
++		0xEB4, 0x00000077,
++		0xEB8, 0x00508242,
++
++};
++
++void
++ODM_ReadAndConfig_MP_8812A_PHY_REG(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i         = 0;
++	u1Byte     cCond;
++	BOOLEAN bMatched = TRUE, bSkipped = FALSE;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8812A_PHY_REG)/sizeof(u4Byte);
++	pu4Byte    Array       = Array_MP_8812A_PHY_REG;
++	
++	u4Byte	v1 = 0, v2 = 0, pre_v1 = 0, pre_v2 = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8812A_PHY_REG\n"));
++
++	while ((i + 1) < ArrayLen) {
++		v1 = Array[i];
++		v2 = Array[i + 1];
++
++		if (v1 & (BIT31 | BIT30)) {/*positive & negative condition*/
++			if (v1 & BIT31) {/* positive condition*/
++				cCond  = (u1Byte)((v1 & (BIT29|BIT28)) >> 28);
++				if (cCond == COND_ENDIF) {/*end*/
++					bMatched = TRUE;
++					bSkipped = FALSE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ENDIF\n"));
++				} else if (cCond == COND_ELSE) { /*else*/
++					bMatched = bSkipped?FALSE:TRUE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ELSE\n"));
++				} else {/*if , else if*/
++					pre_v1 = v1;
++					pre_v2 = v2;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("IF or ELSE IF\n"));
++				}
++			} else if (v1 & BIT30) { /*negative condition*/
++				if (bSkipped == FALSE) {
++					if (CheckPositive(pDM_Odm, pre_v1, pre_v2, v1, v2)) {
++						bMatched = TRUE;
++						bSkipped = TRUE;
++					} else {
++						bMatched = FALSE;
++						bSkipped = FALSE;
++					}
++				} else
++					bMatched = FALSE;
++			}
++		} else {
++			if (bMatched)
++				odm_ConfigBB_PHY_8812A(pDM_Odm, v1, bMaskDWord, v2);
++		}
++		i = i + 2;
++	}
++}
++
++u4Byte
++ODM_GetVersion_MP_8812A_PHY_REG(void)
++{
++	   return 57;
++}
++
++/******************************************************************************
++*                           PHY_REG_MP.TXT
++******************************************************************************/
++
++u4Byte Array_MP_8812A_PHY_REG_MP[] = { 
++		0x800, 0x8020D410,
++		0x830, 0x2EAA8EB8,
++
++};
++
++void
++ODM_ReadAndConfig_MP_8812A_PHY_REG_MP(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i         = 0;
++	u1Byte     cCond;
++	BOOLEAN bMatched = TRUE, bSkipped = FALSE;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8812A_PHY_REG_MP)/sizeof(u4Byte);
++	pu4Byte    Array       = Array_MP_8812A_PHY_REG_MP;
++	
++	u4Byte	v1 = 0, v2 = 0, pre_v1 = 0, pre_v2 = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8812A_PHY_REG_MP\n"));
++
++	while ((i + 1) < ArrayLen) {
++		v1 = Array[i];
++		v2 = Array[i + 1];
++
++		if (v1 & (BIT31 | BIT30)) {/*positive & negative condition*/
++			if (v1 & BIT31) {/* positive condition*/
++				cCond  = (u1Byte)((v1 & (BIT29|BIT28)) >> 28);
++				if (cCond == COND_ENDIF) {/*end*/
++					bMatched = TRUE;
++					bSkipped = FALSE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ENDIF\n"));
++				} else if (cCond == COND_ELSE) { /*else*/
++					bMatched = bSkipped?FALSE:TRUE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ELSE\n"));
++				} else {/*if , else if*/
++					pre_v1 = v1;
++					pre_v2 = v2;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("IF or ELSE IF\n"));
++				}
++			} else if (v1 & BIT30) { /*negative condition*/
++				if (bSkipped == FALSE) {
++					if (CheckPositive(pDM_Odm, pre_v1, pre_v2, v1, v2)) {
++						bMatched = TRUE;
++						bSkipped = TRUE;
++					} else {
++						bMatched = FALSE;
++						bSkipped = FALSE;
++					}
++				} else
++					bMatched = FALSE;
++			}
++		} else {
++			if (bMatched)
++				odm_ConfigBB_PHY_8812A(pDM_Odm, v1, bMaskDWord, v2);
++		}
++		i = i + 2;
++	}
++}
++
++u4Byte
++ODM_GetVersion_MP_8812A_PHY_REG_MP(void)
++{
++	   return 57;
++}
++
++/******************************************************************************
++*                           PHY_REG_PG.TXT
++******************************************************************************/
++
++u4Byte Array_MP_8812A_PHY_REG_PG[] = { 
++	0, 0, 0, 0x00000c20, 0xffffffff, 0x34363840,
++	0, 0, 0, 0x00000c24, 0xffffffff, 0x42424444,
++	0, 0, 0, 0x00000c28, 0xffffffff, 0x30323638,
++	0, 0, 0, 0x00000c2c, 0xffffffff, 0x40424444,
++	0, 0, 0, 0x00000c30, 0xffffffff, 0x28303236,
++	0, 0, 1, 0x00000c34, 0xffffffff, 0x38404242,
++	0, 0, 1, 0x00000c38, 0xffffffff, 0x26283034,
++	0, 0, 0, 0x00000c3c, 0xffffffff, 0x40424444,
++	0, 0, 0, 0x00000c40, 0xffffffff, 0x28303236,
++	0, 0, 0, 0x00000c44, 0xffffffff, 0x42422426,
++	0, 0, 1, 0x00000c48, 0xffffffff, 0x30343840,
++	0, 0, 1, 0x00000c4c, 0xffffffff, 0x22242628,
++	0, 1, 0, 0x00000e20, 0xffffffff, 0x34363840,
++	0, 1, 0, 0x00000e24, 0xffffffff, 0x42424444,
++	0, 1, 0, 0x00000e28, 0xffffffff, 0x30323638,
++	0, 1, 0, 0x00000e2c, 0xffffffff, 0x40424444,
++	0, 1, 0, 0x00000e30, 0xffffffff, 0x28303236,
++	0, 1, 1, 0x00000e34, 0xffffffff, 0x38404242,
++	0, 1, 1, 0x00000e38, 0xffffffff, 0x26283034,
++	0, 1, 0, 0x00000e3c, 0xffffffff, 0x40424444,
++	0, 1, 0, 0x00000e40, 0xffffffff, 0x28303236,
++	0, 1, 0, 0x00000e44, 0xffffffff, 0x42422426,
++	0, 1, 1, 0x00000e48, 0xffffffff, 0x30343840,
++	0, 1, 1, 0x00000e4c, 0xffffffff, 0x22242628,
++	1, 0, 0, 0x00000c24, 0xffffffff, 0x42424444,
++	1, 0, 0, 0x00000c28, 0xffffffff, 0x30323640,
++	1, 0, 0, 0x00000c2c, 0xffffffff, 0x40424444,
++	1, 0, 0, 0x00000c30, 0xffffffff, 0x28303236,
++	1, 0, 1, 0x00000c34, 0xffffffff, 0x38404242,
++	1, 0, 1, 0x00000c38, 0xffffffff, 0x26283034,
++	1, 0, 0, 0x00000c3c, 0xffffffff, 0x40424444,
++	1, 0, 0, 0x00000c40, 0xffffffff, 0x28303236,
++	1, 0, 0, 0x00000c44, 0xffffffff, 0x42422426,
++	1, 0, 1, 0x00000c48, 0xffffffff, 0x30343840,
++	1, 0, 1, 0x00000c4c, 0xffffffff, 0x22242628,
++	1, 1, 0, 0x00000e24, 0xffffffff, 0x42424444,
++	1, 1, 0, 0x00000e28, 0xffffffff, 0x30323640,
++	1, 1, 0, 0x00000e2c, 0xffffffff, 0x40424444,
++	1, 1, 0, 0x00000e30, 0xffffffff, 0x28303236,
++	1, 1, 1, 0x00000e34, 0xffffffff, 0x38404242,
++	1, 1, 1, 0x00000e38, 0xffffffff, 0x26283034,
++	1, 1, 0, 0x00000e3c, 0xffffffff, 0x40424444,
++	1, 1, 0, 0x00000e40, 0xffffffff, 0x28303236,
++	1, 1, 0, 0x00000e44, 0xffffffff, 0x42422426,
++	1, 1, 1, 0x00000e48, 0xffffffff, 0x30343840,
++	1, 1, 1, 0x00000e4c, 0xffffffff, 0x22242628
++};
++
++void
++ODM_ReadAndConfig_MP_8812A_PHY_REG_PG(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i         = 0;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8812A_PHY_REG_PG)/sizeof(u4Byte);
++	pu4Byte    Array       = Array_MP_8812A_PHY_REG_PG;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	PlatformZeroMemory(pHalData->BufOfLinesPwrByRate, MAX_LINES_HWCONFIG_TXT*MAX_BYTES_LINE_HWCONFIG_TXT);
++	pHalData->nLinesReadPwrByRate = ArrayLen/6;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8812A_PHY_REG_PG\n"));
++
++	pDM_Odm->PhyRegPgVersion = 1;
++	pDM_Odm->PhyRegPgValueType = PHY_REG_PG_EXACT_VALUE;
++
++	for (i = 0; i < ArrayLen; i += 6) {
++		u4Byte v1 = Array[i];
++		u4Byte v2 = Array[i+1];
++		u4Byte v3 = Array[i+2];
++		u4Byte v4 = Array[i+3];
++		u4Byte v5 = Array[i+4];
++		u4Byte v6 = Array[i+5];
++
++	    odm_ConfigBB_PHY_REG_PG_8812A(pDM_Odm, v1, v2, v3, v4, v5, v6);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	rsprintf((char *)pHalData->BufOfLinesPwrByRate[i/6], 100, "%s, %s, %s, 0x%X, 0x%08X, 0x%08X,",
++		(v1 == 0?"2.4G":"  5G"), (v2 == 0?"A":"B"), (v3 == 0?"1Tx":"2Tx"), v4, v5, v6);
++#endif
++	}
++}
++
++
++
++/******************************************************************************
++*                           PHY_REG_PG_ASUS.TXT
++******************************************************************************/
++
++u4Byte Array_MP_8812A_PHY_REG_PG_ASUS[] = { 
++	0, 0, 0, 0x00000c20, 0xffffffff, 0x34343434,
++	0, 0, 0, 0x00000c24, 0xffffffff, 0x32323232,
++	0, 0, 0, 0x00000c28, 0xffffffff, 0x28303232,
++	0, 0, 0, 0x00000c2c, 0xffffffff, 0x32323232,
++	0, 0, 0, 0x00000c30, 0xffffffff, 0x28303232,
++	0, 0, 1, 0x00000c34, 0xffffffff, 0x32323232,
++	0, 0, 1, 0x00000c38, 0xffffffff, 0x26283032,
++	0, 0, 0, 0x00000c3c, 0xffffffff, 0x32323232,
++	0, 0, 0, 0x00000c40, 0xffffffff, 0x28303232,
++	0, 0, 0, 0x00000c44, 0xffffffff, 0x32322426,
++	0, 0, 1, 0x00000c48, 0xffffffff, 0x32323232,
++	0, 0, 1, 0x00000c4c, 0xffffffff, 0x24262830,
++	0, 1, 0, 0x00000e20, 0xffffffff, 0x34343434,
++	0, 1, 0, 0x00000e24, 0xffffffff, 0x32323232,
++	0, 1, 0, 0x00000e28, 0xffffffff, 0x28303232,
++	0, 1, 0, 0x00000e2c, 0xffffffff, 0x32323232,
++	0, 1, 0, 0x00000e30, 0xffffffff, 0x28303232,
++	0, 1, 1, 0x00000e34, 0xffffffff, 0x32323232,
++	0, 1, 1, 0x00000e38, 0xffffffff, 0x26283032,
++	0, 1, 0, 0x00000e3c, 0xffffffff, 0x32323232,
++	0, 1, 0, 0x00000e40, 0xffffffff, 0x28303232,
++	0, 1, 0, 0x00000e44, 0xffffffff, 0x32322426,
++	0, 1, 1, 0x00000e48, 0xffffffff, 0x32323232,
++	0, 1, 1, 0x00000e4c, 0xffffffff, 0x24262830,
++	1, 0, 0, 0x00000c24, 0xffffffff, 0x32323232,
++	1, 0, 0, 0x00000c28, 0xffffffff, 0x28303232,
++	1, 0, 0, 0x00000c2c, 0xffffffff, 0x32323232,
++	1, 0, 0, 0x00000c30, 0xffffffff, 0x24262830,
++	1, 0, 1, 0x00000c34, 0xffffffff, 0x32323232,
++	1, 0, 1, 0x00000c38, 0xffffffff, 0x24262830,
++	1, 0, 0, 0x00000c3c, 0xffffffff, 0x32323232,
++	1, 0, 0, 0x00000c40, 0xffffffff, 0x24262830,
++	1, 0, 0, 0x00000c44, 0xffffffff, 0x32322222,
++	1, 0, 1, 0x00000c48, 0xffffffff, 0x28303232,
++	1, 0, 1, 0x00000c4c, 0xffffffff, 0x22222426,
++	1, 1, 0, 0x00000e24, 0xffffffff, 0x32323232,
++	1, 1, 0, 0x00000e28, 0xffffffff, 0x28303232,
++	1, 1, 0, 0x00000e2c, 0xffffffff, 0x32323232,
++	1, 1, 0, 0x00000e30, 0xffffffff, 0x24262830,
++	1, 1, 1, 0x00000e34, 0xffffffff, 0x32323232,
++	1, 1, 1, 0x00000e38, 0xffffffff, 0x24262830,
++	1, 1, 0, 0x00000e3c, 0xffffffff, 0x32323232,
++	1, 1, 0, 0x00000e40, 0xffffffff, 0x24262830,
++	1, 1, 0, 0x00000e44, 0xffffffff, 0x32322222,
++	1, 1, 1, 0x00000e48, 0xffffffff, 0x28303232,
++	1, 1, 1, 0x00000e4c, 0xffffffff, 0x22222426
++};
++
++void
++ODM_ReadAndConfig_MP_8812A_PHY_REG_PG_ASUS(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i         = 0;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8812A_PHY_REG_PG_ASUS)/sizeof(u4Byte);
++	pu4Byte    Array       = Array_MP_8812A_PHY_REG_PG_ASUS;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	PlatformZeroMemory(pHalData->BufOfLinesPwrByRate, MAX_LINES_HWCONFIG_TXT*MAX_BYTES_LINE_HWCONFIG_TXT);
++	pHalData->nLinesReadPwrByRate = ArrayLen/6;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8812A_PHY_REG_PG_ASUS\n"));
++
++	pDM_Odm->PhyRegPgVersion = 1;
++	pDM_Odm->PhyRegPgValueType = PHY_REG_PG_EXACT_VALUE;
++
++	for (i = 0; i < ArrayLen; i += 6) {
++		u4Byte v1 = Array[i];
++		u4Byte v2 = Array[i+1];
++		u4Byte v3 = Array[i+2];
++		u4Byte v4 = Array[i+3];
++		u4Byte v5 = Array[i+4];
++		u4Byte v6 = Array[i+5];
++
++	    odm_ConfigBB_PHY_REG_PG_8812A(pDM_Odm, v1, v2, v3, v4, v5, v6);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	rsprintf((char *)pHalData->BufOfLinesPwrByRate[i/6], 100, "%s, %s, %s, 0x%X, 0x%08X, 0x%08X,",
++		(v1 == 0?"2.4G":"  5G"), (v2 == 0?"A":"B"), (v3 == 0?"1Tx":"2Tx"), v4, v5, v6);
++#endif
++	}
++}
++
++
++
++/******************************************************************************
++*                           PHY_REG_PG_DNI.TXT
++******************************************************************************/
++
++u4Byte Array_MP_8812A_PHY_REG_PG_DNI[] = { 
++	0, 0, 0, 0x00000c20, 0xffffffff, 0x33333333,
++	0, 0, 0, 0x00000c24, 0xffffffff, 0x28282828,
++	0, 0, 0, 0x00000c28, 0xffffffff, 0x28282828,
++	0, 0, 0, 0x00000c2c, 0xffffffff, 0x28282828,
++	0, 0, 0, 0x00000c30, 0xffffffff, 0x28282828,
++	0, 0, 1, 0x00000c34, 0xffffffff, 0x28282828,
++	0, 0, 1, 0x00000c38, 0xffffffff, 0x28282828,
++	0, 0, 0, 0x00000c3c, 0xffffffff, 0x28282828,
++	0, 0, 0, 0x00000c40, 0xffffffff, 0x28282828,
++	0, 0, 0, 0x00000c44, 0xffffffff, 0x28282828,
++	0, 0, 1, 0x00000c48, 0xffffffff, 0x28282828,
++	0, 0, 1, 0x00000c4c, 0xffffffff, 0x28282828,
++	0, 1, 0, 0x00000e20, 0xffffffff, 0x33333333,
++	0, 1, 0, 0x00000e24, 0xffffffff, 0x28282828,
++	0, 1, 0, 0x00000e28, 0xffffffff, 0x28282828,
++	0, 1, 0, 0x00000e2c, 0xffffffff, 0x28282828,
++	0, 1, 0, 0x00000e30, 0xffffffff, 0x28282828,
++	0, 1, 1, 0x00000e34, 0xffffffff, 0x28282828,
++	0, 1, 1, 0x00000e38, 0xffffffff, 0x28282828,
++	0, 1, 0, 0x00000e3c, 0xffffffff, 0x28282828,
++	0, 1, 0, 0x00000e40, 0xffffffff, 0x28282828,
++	0, 1, 0, 0x00000e44, 0xffffffff, 0x28282828,
++	0, 1, 1, 0x00000e48, 0xffffffff, 0x28282828,
++	0, 1, 1, 0x00000e4c, 0xffffffff, 0x28282828,
++	1, 0, 0, 0x00000c24, 0xffffffff, 0x24242424,
++	1, 0, 0, 0x00000c28, 0xffffffff, 0x24242424,
++	1, 0, 0, 0x00000c2c, 0xffffffff, 0x24242424,
++	1, 0, 0, 0x00000c30, 0xffffffff, 0x24242424,
++	1, 0, 1, 0x00000c34, 0xffffffff, 0x24242424,
++	1, 0, 1, 0x00000c38, 0xffffffff, 0x24242424,
++	1, 0, 0, 0x00000c3c, 0xffffffff, 0x24242424,
++	1, 0, 0, 0x00000c40, 0xffffffff, 0x24242424,
++	1, 0, 0, 0x00000c44, 0xffffffff, 0x24242424,
++	1, 0, 1, 0x00000c48, 0xffffffff, 0x24242424,
++	1, 0, 1, 0x00000c4c, 0xffffffff, 0x24242424,
++	1, 1, 0, 0x00000e24, 0xffffffff, 0x24242424,
++	1, 1, 0, 0x00000e28, 0xffffffff, 0x24242424,
++	1, 1, 0, 0x00000e2c, 0xffffffff, 0x24242424,
++	1, 1, 0, 0x00000e30, 0xffffffff, 0x24242424,
++	1, 1, 1, 0x00000e34, 0xffffffff, 0x24242424,
++	1, 1, 1, 0x00000e38, 0xffffffff, 0x24242424,
++	1, 1, 0, 0x00000e3c, 0xffffffff, 0x24242424,
++	1, 1, 0, 0x00000e40, 0xffffffff, 0x24242424,
++	1, 1, 0, 0x00000e44, 0xffffffff, 0x24242424,
++	1, 1, 1, 0x00000e48, 0xffffffff, 0x24242424,
++	1, 1, 1, 0x00000e4c, 0xffffffff, 0x24242424
++};
++
++void
++ODM_ReadAndConfig_MP_8812A_PHY_REG_PG_DNI(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i         = 0;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8812A_PHY_REG_PG_DNI)/sizeof(u4Byte);
++	pu4Byte    Array       = Array_MP_8812A_PHY_REG_PG_DNI;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	PlatformZeroMemory(pHalData->BufOfLinesPwrByRate, MAX_LINES_HWCONFIG_TXT*MAX_BYTES_LINE_HWCONFIG_TXT);
++	pHalData->nLinesReadPwrByRate = ArrayLen/6;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8812A_PHY_REG_PG_DNI\n"));
++
++	pDM_Odm->PhyRegPgVersion = 1;
++	pDM_Odm->PhyRegPgValueType = PHY_REG_PG_EXACT_VALUE;
++
++	for (i = 0; i < ArrayLen; i += 6) {
++		u4Byte v1 = Array[i];
++		u4Byte v2 = Array[i+1];
++		u4Byte v3 = Array[i+2];
++		u4Byte v4 = Array[i+3];
++		u4Byte v5 = Array[i+4];
++		u4Byte v6 = Array[i+5];
++
++	    odm_ConfigBB_PHY_REG_PG_8812A(pDM_Odm, v1, v2, v3, v4, v5, v6);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	rsprintf((char *)pHalData->BufOfLinesPwrByRate[i/6], 100, "%s, %s, %s, 0x%X, 0x%08X, 0x%08X,",
++		(v1 == 0?"2.4G":"  5G"), (v2 == 0?"A":"B"), (v3 == 0?"1Tx":"2Tx"), v4, v5, v6);
++#endif
++	}
++}
++
++
++
++/******************************************************************************
++*                           PHY_REG_PG_NEC.TXT
++******************************************************************************/
++
++u4Byte Array_MP_8812A_PHY_REG_PG_NEC[] = { 
++	0, 0, 0, 0x00000c20, 0xffffffff, 0x32323232,
++	0, 0, 0, 0x00000c24, 0xffffffff, 0x32343434,
++	0, 0, 0, 0x00000c28, 0xffffffff, 0x24262830,
++	0, 0, 0, 0x00000c2c, 0xffffffff, 0x32343434,
++	0, 0, 0, 0x00000c30, 0xffffffff, 0x24262830,
++	0, 0, 1, 0x00000c34, 0xffffffff, 0x32343434,
++	0, 0, 1, 0x00000c38, 0xffffffff, 0x24262830,
++	0, 0, 0, 0x00000c3c, 0xffffffff, 0x32343434,
++	0, 0, 0, 0x00000c40, 0xffffffff, 0x24262830,
++	0, 0, 0, 0x00000c44, 0xffffffff, 0x34342022,
++	0, 0, 1, 0x00000c48, 0xffffffff, 0x28303234,
++	0, 0, 1, 0x00000c4c, 0xffffffff, 0x20222426,
++	0, 1, 0, 0x00000e20, 0xffffffff, 0x32323232,
++	0, 1, 0, 0x00000e24, 0xffffffff, 0x32343434,
++	0, 1, 0, 0x00000e28, 0xffffffff, 0x24262830,
++	0, 1, 0, 0x00000e2c, 0xffffffff, 0x32343434,
++	0, 1, 0, 0x00000e30, 0xffffffff, 0x24262830,
++	0, 1, 1, 0x00000e34, 0xffffffff, 0x32343434,
++	0, 1, 1, 0x00000e38, 0xffffffff, 0x24262830,
++	0, 1, 0, 0x00000e3c, 0xffffffff, 0x32343434,
++	0, 1, 0, 0x00000e40, 0xffffffff, 0x24262830,
++	0, 1, 0, 0x00000e44, 0xffffffff, 0x34342022,
++	0, 1, 1, 0x00000e48, 0xffffffff, 0x28303234,
++	0, 1, 1, 0x00000e4c, 0xffffffff, 0x20222426,
++	1, 0, 0, 0x00000c24, 0xffffffff, 0x32343434,
++	1, 0, 0, 0x00000c28, 0xffffffff, 0x24262830,
++	1, 0, 0, 0x00000c2c, 0xffffffff, 0x32343434,
++	1, 0, 0, 0x00000c30, 0xffffffff, 0x24262830,
++	1, 0, 1, 0x00000c34, 0xffffffff, 0x28282828,
++	1, 0, 1, 0x00000c38, 0xffffffff, 0x24262828,
++	1, 0, 0, 0x00000c3c, 0xffffffff, 0x32343434,
++	1, 0, 0, 0x00000c40, 0xffffffff, 0x24262830,
++	1, 0, 0, 0x00000c44, 0xffffffff, 0x28282022,
++	1, 0, 1, 0x00000c48, 0xffffffff, 0x28282828,
++	1, 0, 1, 0x00000c4c, 0xffffffff, 0x20222426,
++	1, 1, 0, 0x00000e24, 0xffffffff, 0x32343434,
++	1, 1, 0, 0x00000e28, 0xffffffff, 0x24262830,
++	1, 1, 0, 0x00000e2c, 0xffffffff, 0x32343434,
++	1, 1, 0, 0x00000e30, 0xffffffff, 0x24262830,
++	1, 1, 1, 0x00000e34, 0xffffffff, 0x28282828,
++	1, 1, 1, 0x00000e38, 0xffffffff, 0x24262828,
++	1, 1, 0, 0x00000e3c, 0xffffffff, 0x32343434,
++	1, 1, 0, 0x00000e40, 0xffffffff, 0x24262830,
++	1, 1, 0, 0x00000e44, 0xffffffff, 0x28282022,
++	1, 1, 1, 0x00000e48, 0xffffffff, 0x28282828,
++	1, 1, 1, 0x00000e4c, 0xffffffff, 0x20222426
++};
++
++void
++ODM_ReadAndConfig_MP_8812A_PHY_REG_PG_NEC(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i         = 0;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8812A_PHY_REG_PG_NEC)/sizeof(u4Byte);
++	pu4Byte    Array       = Array_MP_8812A_PHY_REG_PG_NEC;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	PlatformZeroMemory(pHalData->BufOfLinesPwrByRate, MAX_LINES_HWCONFIG_TXT*MAX_BYTES_LINE_HWCONFIG_TXT);
++	pHalData->nLinesReadPwrByRate = ArrayLen/6;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8812A_PHY_REG_PG_NEC\n"));
++
++	pDM_Odm->PhyRegPgVersion = 1;
++	pDM_Odm->PhyRegPgValueType = PHY_REG_PG_EXACT_VALUE;
++
++	for (i = 0; i < ArrayLen; i += 6) {
++		u4Byte v1 = Array[i];
++		u4Byte v2 = Array[i+1];
++		u4Byte v3 = Array[i+2];
++		u4Byte v4 = Array[i+3];
++		u4Byte v5 = Array[i+4];
++		u4Byte v6 = Array[i+5];
++
++	    odm_ConfigBB_PHY_REG_PG_8812A(pDM_Odm, v1, v2, v3, v4, v5, v6);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	rsprintf((char *)pHalData->BufOfLinesPwrByRate[i/6], 100, "%s, %s, %s, 0x%X, 0x%08X, 0x%08X,",
++		(v1 == 0?"2.4G":"  5G"), (v2 == 0?"A":"B"), (v3 == 0?"1Tx":"2Tx"), v4, v5, v6);
++#endif
++	}
++}
++
++
++
++/******************************************************************************
++*                           PHY_REG_PG_TPLINK.TXT
++******************************************************************************/
++
++u4Byte Array_MP_8812A_PHY_REG_PG_TPLINK[] = { 
++	0, 0, 0, 0x00000c20, 0xffffffff, 0x36363840,
++	0, 0, 0, 0x00000c24, 0xffffffff, 0x38404040,
++	0, 0, 0, 0x00000c28, 0xffffffff, 0x30323638,
++	0, 0, 0, 0x00000c2c, 0xffffffff, 0x36383840,
++	0, 0, 0, 0x00000c30, 0xffffffff, 0x28303236,
++	0, 0, 1, 0x00000c34, 0xffffffff, 0x34363638,
++	0, 0, 1, 0x00000c38, 0xffffffff, 0x26283034,
++	0, 0, 0, 0x00000c3c, 0xffffffff, 0x36363840,
++	0, 0, 0, 0x00000c40, 0xffffffff, 0x28303234,
++	0, 0, 0, 0x00000c44, 0xffffffff, 0x36382426,
++	0, 0, 1, 0x00000c48, 0xffffffff, 0x30323434,
++	0, 0, 1, 0x00000c4c, 0xffffffff, 0x22242628,
++	0, 1, 0, 0x00000e20, 0xffffffff, 0x36363840,
++	0, 1, 0, 0x00000e24, 0xffffffff, 0x38404040,
++	0, 1, 0, 0x00000e28, 0xffffffff, 0x30323638,
++	0, 1, 0, 0x00000e2c, 0xffffffff, 0x36383840,
++	0, 1, 0, 0x00000e30, 0xffffffff, 0x28303236,
++	0, 1, 1, 0x00000e34, 0xffffffff, 0x34363638,
++	0, 1, 1, 0x00000e38, 0xffffffff, 0x26283034,
++	0, 1, 0, 0x00000e3c, 0xffffffff, 0x36363840,
++	0, 1, 0, 0x00000e40, 0xffffffff, 0x28303234,
++	0, 1, 0, 0x00000e44, 0xffffffff, 0x36382426,
++	0, 1, 1, 0x00000e48, 0xffffffff, 0x30323434,
++	0, 1, 1, 0x00000e4c, 0xffffffff, 0x22242628,
++	1, 0, 0, 0x00000c24, 0xffffffff, 0x38404040,
++	1, 0, 0, 0x00000c28, 0xffffffff, 0x30323638,
++	1, 0, 0, 0x00000c2c, 0xffffffff, 0x36383840,
++	1, 0, 0, 0x00000c30, 0xffffffff, 0x28303236,
++	1, 0, 1, 0x00000c34, 0xffffffff, 0x34363638,
++	1, 0, 1, 0x00000c38, 0xffffffff, 0x26283034,
++	1, 0, 0, 0x00000c3c, 0xffffffff, 0x36363840,
++	1, 0, 0, 0x00000c40, 0xffffffff, 0x28303234,
++	1, 0, 0, 0x00000c44, 0xffffffff, 0x36382426,
++	1, 0, 1, 0x00000c48, 0xffffffff, 0x30323434,
++	1, 0, 1, 0x00000c4c, 0xffffffff, 0x22242628,
++	1, 1, 0, 0x00000e24, 0xffffffff, 0x38404040,
++	1, 1, 0, 0x00000e28, 0xffffffff, 0x30323638,
++	1, 1, 0, 0x00000e2c, 0xffffffff, 0x36383840,
++	1, 1, 0, 0x00000e30, 0xffffffff, 0x28303236,
++	1, 1, 1, 0x00000e34, 0xffffffff, 0x34363638,
++	1, 1, 1, 0x00000e38, 0xffffffff, 0x26283034,
++	1, 1, 0, 0x00000e3c, 0xffffffff, 0x36363840,
++	1, 1, 0, 0x00000e40, 0xffffffff, 0x28303234,
++	1, 1, 0, 0x00000e44, 0xffffffff, 0x36382426,
++	1, 1, 1, 0x00000e48, 0xffffffff, 0x30323434,
++	1, 1, 1, 0x00000e4c, 0xffffffff, 0x22242628
++};
++
++void
++ODM_ReadAndConfig_MP_8812A_PHY_REG_PG_TPLINK(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i         = 0;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8812A_PHY_REG_PG_TPLINK)/sizeof(u4Byte);
++	pu4Byte    Array       = Array_MP_8812A_PHY_REG_PG_TPLINK;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	PlatformZeroMemory(pHalData->BufOfLinesPwrByRate, MAX_LINES_HWCONFIG_TXT*MAX_BYTES_LINE_HWCONFIG_TXT);
++	pHalData->nLinesReadPwrByRate = ArrayLen/6;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8812A_PHY_REG_PG_TPLINK\n"));
++
++	pDM_Odm->PhyRegPgVersion = 1;
++	pDM_Odm->PhyRegPgValueType = PHY_REG_PG_EXACT_VALUE;
++
++	for (i = 0; i < ArrayLen; i += 6) {
++		u4Byte v1 = Array[i];
++		u4Byte v2 = Array[i+1];
++		u4Byte v3 = Array[i+2];
++		u4Byte v4 = Array[i+3];
++		u4Byte v5 = Array[i+4];
++		u4Byte v6 = Array[i+5];
++
++	    odm_ConfigBB_PHY_REG_PG_8812A(pDM_Odm, v1, v2, v3, v4, v5, v6);
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	rsprintf((char *)pHalData->BufOfLinesPwrByRate[i/6], 100, "%s, %s, %s, 0x%X, 0x%08X, 0x%08X,",
++		(v1 == 0?"2.4G":"  5G"), (v2 == 0?"A":"B"), (v3 == 0?"1Tx":"2Tx"), v4, v5, v6);
++#endif
++	}
++}
++
++
++
++#endif /* end of HWIMG_SUPPORT*/
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_bb.h b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_bb.h
+new file mode 100644
+index 0000000..0e5b31a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_bb.h
+@@ -0,0 +1,123 @@
++/****************************************************************************** 
++* 
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved. 
++* 
++* This program is free software; you can redistribute it and/or modify it 
++* under the terms of version 2 of the GNU General Public License as 
++* published by the Free Software Foundation. 
++* 
++* This program is distributed in the hope that it will be useful, but WITHOUT 
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for 
++* more details. 
++* 
++* You should have received a copy of the GNU General Public License along with 
++* this program; if not, write to the Free Software Foundation, Inc., 
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA 
++* 
++* 
++******************************************************************************/
++
++/*Image2HeaderVersion: 2.18*/
++#if (RTL8812A_SUPPORT == 1)
++#ifndef __INC_MP_BB_HW_IMG_8812A_H
++#define __INC_MP_BB_HW_IMG_8812A_H
++
++
++/******************************************************************************
++*                           AGC_TAB.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_AGC_TAB(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_AGC_TAB(void);
++
++/******************************************************************************
++*                           AGC_TAB_DIFF.TXT
++******************************************************************************/
++
++extern u4Byte Array_MP_8812A_AGC_TAB_DIFF_LB[60];
++extern u4Byte Array_MP_8812A_AGC_TAB_DIFF_HB[60];
++void
++ODM_ReadAndConfig_MP_8812A_AGC_TAB_DIFF(
++     IN   PDM_ODM_T    pDM_Odm,
++ 	 IN   u4Byte  	   Array[],
++ 	 IN   u4Byte  	   ArrayLen 
++);
++u4Byte ODM_GetVersion_MP_8812A_AGC_TAB_DIFF(void);
++
++/******************************************************************************
++*                           PHY_REG.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_PHY_REG(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_PHY_REG(void);
++
++/******************************************************************************
++*                           PHY_REG_MP.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_PHY_REG_MP(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_PHY_REG_MP(void);
++
++/******************************************************************************
++*                           PHY_REG_PG.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_PHY_REG_PG(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_PHY_REG_PG(void);
++
++/******************************************************************************
++*                           PHY_REG_PG_ASUS.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_PHY_REG_PG_ASUS(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_PHY_REG_PG_ASUS(void);
++
++/******************************************************************************
++*                           PHY_REG_PG_DNI.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_PHY_REG_PG_DNI(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_PHY_REG_PG_DNI(void);
++
++/******************************************************************************
++*                           PHY_REG_PG_NEC.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_PHY_REG_PG_NEC(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_PHY_REG_PG_NEC(void);
++
++/******************************************************************************
++*                           PHY_REG_PG_TPLINK.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_PHY_REG_PG_TPLINK(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_PHY_REG_PG_TPLINK(void);
++
++#endif
++#endif /* end of HWIMG_SUPPORT*/
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_fw.c b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_fw.c
+new file mode 100644
+index 0000000..4a4f480
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_fw.c
+@@ -0,0 +1,7369 @@
++/****************************************************************************** 
++* 
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved. 
++* 
++* This program is free software; you can redistribute it and/or modify it 
++* under the terms of version 2 of the GNU General Public License as 
++* published by the Free Software Foundation. 
++* 
++* This program is distributed in the hope that it will be useful, but WITHOUT 
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for 
++* more details. 
++* 
++* You should have received a copy of the GNU General Public License along with 
++* this program; if not, write to the Free Software Foundation, Inc., 
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA 
++* 
++* 
++******************************************************************************/
++
++/*Image2HeaderVersion: 2.16*/
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#ifdef LOAD_FW_HEADER_FROM_DRIVER
++#include "../../rtl8812a/hal8812a_fw.h"
++#endif
++
++
++#if (RTL8812A_SUPPORT == 1)
++#if (defined(CONFIG_AP_WOWLAN) || (DM_ODM_SUPPORT_TYPE & (ODM_AP)))
++
++
++#ifndef LOAD_FW_HEADER_FROM_DRIVER
++u1Byte Array_MP_8812A_FW_AP[] = {
++0x01, 0x95, 0x20, 0x00, 0x31, 0x00, 0x00, 0x00, 0x03, 0x09, 0x21, 0x01, 0x84, 0x5C, 0x00, 0x00, 
++0xC9, 0x2D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x02, 0x4A, 0xB8, 0x02, 0x8F, 0x5F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x85, 0xAE, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x90, 0x6B, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x8F, 0xE2, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x83, 0x11, 0x00, 0x00, 
++0x0A, 0x08, 0x03, 0x03, 0x00, 0x04, 0x09, 0x07, 0x03, 0x03, 0x00, 0x04, 0x08, 0x06, 0x03, 0x02, 
++0x00, 0x04, 0x08, 0x05, 0x03, 0x01, 0x00, 0x04, 0x0D, 0x0A, 0x07, 0x05, 0x00, 0x08, 0x0C, 0x0A, 
++0x07, 0x04, 0x00, 0x08, 0x0B, 0x0A, 0x06, 0x05, 0x00, 0x08, 0x0B, 0x0A, 0x05, 0x03, 0x00, 0x08, 
++0x0B, 0x0A, 0x03, 0x02, 0x00, 0x08, 0x14, 0x12, 0x0C, 0x04, 0x00, 0x10, 0x14, 0x12, 0x09, 0x04, 
++0x00, 0x10, 0x24, 0x22, 0x1C, 0x12, 0x00, 0x20, 0x24, 0x22, 0x18, 0x0C, 0x00, 0x20, 0x24, 0x22, 
++0x14, 0x06, 0x00, 0x20, 0x24, 0x22, 0x0F, 0x04, 0x00, 0x20, 0x24, 0x21, 0x0A, 0x04, 0x00, 0x20, 
++0x23, 0x21, 0x0C, 0x04, 0x00, 0x20, 0x23, 0x1F, 0x0A, 0x04, 0x00, 0x20, 0x22, 0x1F, 0x0F, 0x04, 
++0x00, 0x20, 0x21, 0x1F, 0x16, 0x0C, 0x00, 0x20, 0x31, 0x2F, 0x20, 0x14, 0x00, 0x30, 0x31, 0x2F, 
++0x18, 0x10, 0x00, 0x30, 0x31, 0x2C, 0x18, 0x0C, 0x00, 0x30, 0x31, 0x2A, 0x14, 0x0C, 0x00, 0x30, 
++0x31, 0x28, 0x14, 0x00, 0x00, 0x30, 0x31, 0x24, 0x14, 0x00, 0x00, 0x30, 0x31, 0x1E, 0x14, 0x00, 
++0x00, 0x30, 0x15, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x15, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 
++0x05, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x05, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x10, 0xF0, 
++0xFF, 0x0F, 0x00, 0x00, 0x00, 0x10, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0xF5, 0x0F, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0D, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x10, 0xF0, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x10, 0xF0, 0x3F, 0x00, 0x00, 0x00, 0x00, 0x15, 
++0xF0, 0x3F, 0x00, 0x00, 0x00, 0x00, 0x15, 0xF0, 0xCF, 0xFF, 0x00, 0x00, 0x00, 0x16, 0x0D, 0x17, 
++0x0E, 0x17, 0x0F, 0x18, 0x10, 0x19, 0x11, 0x1A, 0x12, 0x1A, 0x13, 0x1A, 0x14, 0x1A, 0x15, 0x1B, 
++0xFF, 0x17, 0x0E, 0x18, 0x10, 0x19, 0x11, 0x1A, 0x12, 0x1B, 0x15, 0x1C, 0xFF, 0x1D, 0xFF, 0x1E, 
++0xFF, 0x1F, 0xFF, 0xFF, 0xFF, 0x14, 0x0D, 0x0E, 0x15, 0x15, 0x0F, 0x16, 0x10, 0x17, 0x11, 0x18, 
++0x12, 0x18, 0x13, 0x18, 0xFF, 0x15, 0x0D, 0x16, 0x10, 0x10, 0x17, 0x18, 0x12, 0x19, 0xFF, 0x1A, 
++0xFF, 0x1B, 0xFF, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00, 0x04, 0x04, 0x0C, 0x0C, 0x0D, 0x0C, 0x0E, 
++0x0D, 0x0F, 0x17, 0x18, 0x10, 0x19, 0x11, 0x19, 0x11, 0x19, 0x12, 0x1A, 0x14, 0x0C, 0x0C, 0x16, 
++0x0D, 0x17, 0x0F, 0x18, 0x10, 0x19, 0x13, 0x1A, 0x14, 0x1B, 0x15, 0x1C, 0x1B, 0x1D, 0x1C, 0x1E, 
++0x1D, 0x04, 0x04, 0x0C, 0x14, 0x0D, 0x14, 0x0E, 0x14, 0x0F, 0x15, 0x10, 0x16, 0x17, 0x11, 0x12, 
++0x17, 0x0C, 0x0C, 0x14, 0x0E, 0x15, 0x0F, 0x16, 0x10, 0x17, 0x12, 0x18, 0x18, 0x19, 0x19, 0x1A, 
++0x19, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x24, 0x26, 0x2A, 0x00, 0x00, 0x00, 
++0x1F, 0x21, 0x25, 0x27, 0x28, 0x00, 0x00, 0x00, 0x00, 0x23, 0x26, 0x28, 0x2A, 0x00, 0x00, 0x00, 
++0x00, 0x23, 0x26, 0x28, 0x2A, 0x00, 0x00, 0x00, 0x00, 0x23, 0x26, 0x28, 0x2A, 0x00, 0x00, 0x00, 
++0x00, 0x20, 0x25, 0x27, 0x29, 0x29, 0x2A, 0x00, 0x00, 0x00, 0x00, 0x20, 0x25, 0x27, 0x29, 0x29, 
++0x2A, 0x00, 0x00, 0x00, 0x00, 0x23, 0x26, 0x28, 0x2A, 0x2A, 0x2A, 0x00, 0x00, 0x00, 0x1F, 0x23, 
++0x26, 0x28, 0x2A, 0x2A, 0x2A, 0x00, 0x04, 0x00, 0x04, 0x00, 0x08, 0x00, 0x10, 0x00, 0x18, 0x00, 
++0x24, 0x00, 0x30, 0x00, 0x48, 0x00, 0x60, 0x00, 0x90, 0x00, 0xC0, 0x00, 0xD8, 0x00, 0x3C, 0x00, 
++0x64, 0x00, 0x78, 0x00, 0xA0, 0x00, 0xF0, 0x01, 0x40, 0x01, 0x90, 0x01, 0xE0, 0x00, 0xA0, 0x00, 
++0xF0, 0x01, 0x40, 0x01, 0x90, 0x02, 0x58, 0x03, 0x20, 0x04, 0xB0, 0x06, 0x40, 0x00, 0xC8, 0x01, 
++0x18, 0x01, 0xE0, 0x02, 0xD0, 0x03, 0xE8, 0x04, 0xB0, 0x06, 0x40, 0x07, 0xD0, 0x00, 0xC8, 0x01, 
++0x18, 0x01, 0xE0, 0x02, 0xD0, 0x03, 0xE8, 0x04, 0xB0, 0x06, 0x40, 0x07, 0xD0, 0x00, 0x3C, 0x00, 
++0x50, 0x00, 0x64, 0x00, 0xA0, 0x00, 0xF0, 0x01, 0x40, 0x01, 0x90, 0x01, 0x90, 0x02, 0x58, 0x03, 
++0x20, 0x00, 0x78, 0x00, 0xF0, 0x01, 0x90, 0x02, 0x58, 0x03, 0xE8, 0x07, 0xD0, 0x09, 0x60, 0x0F, 
++0xA0, 0x12, 0xC0, 0x15, 0x18, 0x00, 0xC8, 0x01, 0x18, 0x01, 0xE0, 0x02, 0xD0, 0x03, 0xE8, 0x04, 
++0xB0, 0x06, 0x40, 0x07, 0xD0, 0x07, 0xD0, 0x07, 0xD0, 0x00, 0xC8, 0x01, 0x18, 0x01, 0xE0, 0x02, 
++0xD0, 0x03, 0xE8, 0x04, 0xB0, 0x06, 0x40, 0x07, 0xD0, 0x07, 0xD0, 0x07, 0xD0, 0x00, 0x02, 0x00, 
++0x02, 0x00, 0x04, 0x00, 0x08, 0x00, 0x0C, 0x00, 0x12, 0x00, 0x18, 0x00, 0x24, 0x00, 0x30, 0x00, 
++0x48, 0x00, 0x60, 0x00, 0x6C, 0x00, 0x14, 0x00, 0x32, 0x00, 0x3C, 0x00, 0x50, 0x00, 0x78, 0x00, 
++0xA0, 0x00, 0xC8, 0x00, 0xF0, 0x00, 0x50, 0x00, 0x78, 0x00, 0xA0, 0x00, 0xC8, 0x01, 0x2C, 0x01, 
++0x90, 0x02, 0x58, 0x03, 0x20, 0x00, 0x64, 0x00, 0x8C, 0x00, 0xF0, 0x01, 0x68, 0x01, 0xF4, 0x02, 
++0x58, 0x03, 0x20, 0x03, 0xE8, 0x00, 0x64, 0x00, 0x8C, 0x00, 0xF0, 0x01, 0x68, 0x01, 0xF4, 0x02, 
++0x58, 0x03, 0x20, 0x03, 0xE8, 0x00, 0x1E, 0x00, 0x28, 0x00, 0x32, 0x00, 0x50, 0x00, 0x78, 0x00, 
++0xA0, 0x00, 0xC8, 0x00, 0xF0, 0x01, 0x7C, 0x01, 0x90, 0x00, 0x3C, 0x00, 0x78, 0x00, 0xC8, 0x01, 
++0x2C, 0x01, 0xF4, 0x03, 0xE8, 0x04, 0xB0, 0x07, 0xD0, 0x09, 0x60, 0x0A, 0xF0, 0x00, 0x64, 0x00, 
++0x8C, 0x00, 0xF0, 0x01, 0x68, 0x01, 0xF4, 0x02, 0x58, 0x03, 0x20, 0x03, 0xE8, 0x03, 0xE8, 0x03, 
++0xE8, 0x00, 0x64, 0x00, 0x8C, 0x00, 0xF0, 0x01, 0x68, 0x01, 0xF4, 0x02, 0x58, 0x03, 0x20, 0x03, 
++0xE8, 0x03, 0xE8, 0x03, 0xE8, 0x01, 0x01, 0x01, 0x02, 0x01, 0x02, 0x03, 0x03, 0x04, 0x04, 0x05, 
++0x05, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 
++0x0A, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 
++0x0A, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x0A, 0x0B, 0x05, 0x06, 0x06, 0x07, 0x07, 
++0x08, 0x09, 0x0A, 0x0B, 0x0B, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x0A, 0x0B, 0x05, 
++0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x0A, 0x0B, 0x01, 0x01, 0x01, 0x01, 0x01, 0x02, 0x03, 
++0x04, 0x05, 0x06, 0x07, 0x08, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x02, 0x04, 0x06, 
++0x07, 0x08, 0x0A, 0x0B, 0x0C, 0x03, 0x05, 0x06, 0x07, 0x08, 0x0A, 0x0B, 0x0C, 0x05, 0x06, 0x07, 
++0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x02, 0x04, 0x06, 0x07, 0x08, 0x09, 0x0B, 0x0C, 0x0C, 0x0C, 0x03, 
++0x05, 0x06, 0x07, 0x08, 0x09, 0x0B, 0x0C, 0x0C, 0x0C, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0A, 0x0B, 
++0x0C, 0x0C, 0x0C, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x0C, 0x0C, 0x19, 0x06, 0x04, 
++0x02, 0x00, 0x18, 0x00, 0x04, 0x0C, 0x14, 0x2C, 0x36, 0x04, 0x08, 0x08, 0x08, 0x0A, 0x0A, 0x04, 
++0x04, 0x04, 0x05, 0x04, 0x04, 0x05, 0x07, 0x07, 0x07, 0x08, 0x0A, 0x04, 0x07, 0x0A, 0x0E, 0x11, 
++0x13, 0x14, 0x15, 0x03, 0x04, 0x07, 0x07, 0x08, 0x0B, 0x0D, 0x0F, 0x05, 0x05, 0x07, 0x07, 0x08, 
++0x0B, 0x0D, 0x0F, 0x05, 0x05, 0x07, 0x07, 0x08, 0x0B, 0x0D, 0x0F, 0x07, 0x08, 0x08, 0x0A, 0x0A, 
++0x0C, 0x0E, 0x10, 0x11, 0x11, 0x07, 0x09, 0x09, 0x0B, 0x0B, 0x0D, 0x0F, 0x13, 0x13, 0x14, 0x05, 
++0x05, 0x07, 0x07, 0x08, 0x0B, 0x0D, 0x0F, 0x0F, 0x0F, 0x05, 0x05, 0x07, 0x07, 0x08, 0x0B, 0x0D, 
++0x0F, 0x0F, 0x0F, 0x04, 0x04, 0x04, 0x05, 0x07, 0x07, 0x09, 0x09, 0x0C, 0x0E, 0x10, 0x12, 0x05, 
++0x06, 0x07, 0x0D, 0x10, 0x11, 0x12, 0x12, 0x07, 0x08, 0x09, 0x09, 0x0C, 0x0E, 0x11, 0x13, 0x09, 
++0x09, 0x09, 0x09, 0x0C, 0x0E, 0x11, 0x13, 0x09, 0x09, 0x09, 0x09, 0x0C, 0x0E, 0x11, 0x13, 0x05, 
++0x06, 0x08, 0x09, 0x0C, 0x0E, 0x12, 0x12, 0x13, 0x14, 0x07, 0x08, 0x09, 0x0A, 0x0C, 0x0F, 0x12, 
++0x12, 0x14, 0x16, 0x09, 0x09, 0x09, 0x09, 0x0C, 0x0E, 0x11, 0x13, 0x13, 0x13, 0x09, 0x09, 0x09, 
++0x09, 0x0C, 0x0E, 0x11, 0x13, 0x13, 0x13, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0xC2, 0xAF, 0x80, 0xFE, 0x32, 0x12, 0x45, 0xE4, 0x85, 0xD0, 0x0B, 0x75, 0xD0, 0x08, 0xAA, 0xE0, 
++0xC2, 0x8C, 0xE5, 0x8A, 0x24, 0x67, 0xF5, 0x8A, 0xE5, 0x8C, 0x34, 0x79, 0xF5, 0x8C, 0xD2, 0x8C, 
++0xEC, 0x24, 0x87, 0xF8, 0xE6, 0xBC, 0x02, 0x02, 0x74, 0xFF, 0xC3, 0x95, 0x81, 0xB4, 0x40, 0x00, 
++0x40, 0xCE, 0x79, 0x03, 0x78, 0x80, 0x16, 0xE6, 0x08, 0x70, 0x0B, 0xC2, 0xAF, 0xE6, 0x30, 0xE1, 
++0x03, 0x44, 0x18, 0xF6, 0xD2, 0xAF, 0x08, 0xD9, 0xED, 0xEA, 0x8B, 0xD0, 0x22, 0xE5, 0x0C, 0xFF, 
++0x23, 0x24, 0x81, 0xF8, 0x0F, 0x08, 0x08, 0xBF, 0x03, 0x04, 0x7F, 0x00, 0x78, 0x81, 0xE6, 0x30, 
++0xE4, 0xF2, 0x00, 0xE5, 0x0C, 0xC3, 0x9F, 0x50, 0x20, 0x05, 0x0C, 0x74, 0x86, 0x25, 0x0C, 0xF8, 
++0xE6, 0xFD, 0xA6, 0x81, 0x08, 0xE6, 0xAE, 0x0C, 0xBE, 0x02, 0x02, 0x74, 0xFF, 0xCD, 0xF8, 0xE8, 
++0x6D, 0x60, 0xE0, 0x08, 0xE6, 0xC0, 0xE0, 0x80, 0xF6, 0xE5, 0x0C, 0xD3, 0x9F, 0x40, 0x27, 0xE5, 
++0x0C, 0x24, 0x87, 0xF8, 0xE6, 0xAE, 0x0C, 0xBE, 0x02, 0x02, 0x74, 0xFF, 0xFD, 0x18, 0xE6, 0xCD, 
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++0xC8, 0xF6, 0x15, 0x0C, 0x80, 0xD3, 0xE5, 0x0C, 0x23, 0x24, 0x81, 0xF8, 0x7F, 0x04, 0xC2, 0xAF, 
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++0xF5, 0x82, 0xE4, 0x34, 0x41, 0x80, 0x32, 0xF1, 0xB5, 0x70, 0x18, 0xE0, 0x25, 0xE0, 0x24, 0xC1, 
++0xF5, 0x82, 0xE4, 0x34, 0x41, 0xF1, 0x98, 0xE0, 0x25, 0xE0, 0x24, 0xC2, 0xF5, 0x82, 0xE4, 0x34, 
++0x41, 0x80, 0x16, 0xE0, 0x25, 0xE0, 0x24, 0x99, 0xF5, 0x82, 0xE4, 0x34, 0x41, 0xF1, 0x98, 0xE0, 
++0x25, 0xE0, 0x24, 0x9A, 0xF5, 0x82, 0xE4, 0x34, 0x41, 0xF5, 0x83, 0xE4, 0x93, 0xFF, 0x90, 0xA7, 
++0xAE, 0xE0, 0xFD, 0xD1, 0x5D, 0xA9, 0x07, 0x7F, 0x0C, 0x7E, 0x12, 0x7D, 0x10, 0x90, 0xA7, 0xB0, 
++0xE0, 0xFC, 0xF4, 0x60, 0x2E, 0xE9, 0xF4, 0x60, 0x2A, 0xE9, 0xC3, 0x9F, 0x40, 0x25, 0xE9, 0xD3, 
++0x9D, 0x50, 0x20, 0xF1, 0xAD, 0x12, 0x5D, 0xCF, 0xE0, 0x30, 0xE1, 0x17, 0x74, 0xA6, 0x2D, 0x12, 
++0x5F, 0xDD, 0xE0, 0xC3, 0x94, 0x02, 0x40, 0x0B, 0x90, 0xA7, 0xB1, 0xE9, 0xF0, 0xA9, 0x04, 0x90, 
++0xA7, 0xB0, 0xF0, 0xF1, 0xAD, 0x12, 0x5D, 0xCF, 0xE0, 0x30, 0xE6, 0x2A, 0x74, 0xA6, 0x2D, 0x12, 
++0x5F, 0xDD, 0xE0, 0xC3, 0x94, 0x02, 0x40, 0x1E, 0x90, 0xA7, 0xB0, 0xE0, 0xFD, 0xF4, 0x60, 0x16, 
++0xE9, 0xF4, 0x60, 0x12, 0xE9, 0x9F, 0x40, 0x0E, 0xE9, 0xD3, 0x9E, 0x50, 0x09, 0xA3, 0xE9, 0xF0, 
++0xA9, 0x05, 0x90, 0xA7, 0xB0, 0xF0, 0x90, 0xA7, 0xB0, 0xE0, 0xB4, 0xFF, 0x0D, 0xE9, 0xF0, 0x90, 
++0xA7, 0xAE, 0x12, 0x64, 0x45, 0x74, 0xFF, 0xF0, 0x80, 0x08, 0x90, 0xA7, 0xAE, 0x12, 0x64, 0x45, 
++0xE9, 0xF0, 0x90, 0xA7, 0xB0, 0xE0, 0xFF, 0x22, 0xF5, 0x83, 0xE4, 0x93, 0xFF, 0x90, 0xA7, 0xAE, 
++0xE0, 0xFD, 0xD1, 0x5D, 0x90, 0xA7, 0xB0, 0xEF, 0xF0, 0x90, 0xA7, 0xB2, 0x22, 0x90, 0xA7, 0xAE, 
++0xE0, 0xFD, 0x24, 0x95, 0x22, 0x90, 0xA7, 0xAF, 0xE0, 0x90, 0xA7, 0xB2, 0x22, 0xE0, 0xFB, 0x7A, 
++0x00, 0xEC, 0x54, 0x07, 0x22, 0x13, 0x13, 0x13, 0x54, 0x1F, 0xFF, 0x75, 0xF0, 0x08, 0x22, 0x7E, 
++0xFF, 0xED, 0x54, 0x7F, 0xFC, 0xED, 0x54, 0x80, 0x60, 0x04, 0xAE, 0x04, 0x80, 0x1B, 0xEC, 0x64, 
++0x3D, 0x60, 0x04, 0xEC, 0xB4, 0x3F, 0x12, 0x75, 0xF0, 0x04, 0xEF, 0x12, 0x4F, 0xDA, 0xC4, 0x13, 
++0x54, 0x07, 0x30, 0xE0, 0x04, 0xEC, 0x44, 0x80, 0xFE, 0xAF, 0x06, 0x22, 0x12, 0x7D, 0x42, 0xF5, 
++0x0E, 0x12, 0x4F, 0xE3, 0xF5, 0x0F, 0x12, 0x26, 0x1E, 0xF5, 0x10, 0x90, 0xA5, 0x2E, 0xF0, 0xE5, 
++0x0E, 0x60, 0x06, 0xFD, 0xAF, 0x0F, 0x12, 0x5E, 0x8C, 0x22, 0x90, 0xA7, 0x84, 0xE0, 0x54, 0x7F, 
++0xF0, 0x54, 0xBF, 0xF0, 0x54, 0xDF, 0xF0, 0x54, 0xF0, 0xF0, 0xE4, 0x90, 0xA7, 0x86, 0xF0, 0x90, 
++0xA7, 0x84, 0xE0, 0x54, 0xEF, 0xF0, 0x22, 0x90, 0xA7, 0x95, 0xE0, 0xFE, 0xA3, 0xE0, 0xFF, 0x90, 
++0x02, 0x84, 0xEF, 0xF0, 0xEE, 0xA3, 0xF0, 0xA3, 0xE0, 0x44, 0x01, 0xF0, 0x22, 0x7D, 0x07, 0xEF, 
++0x5D, 0xC3, 0x60, 0x0B, 0x11, 0x64, 0x5F, 0x24, 0x08, 0xFF, 0xE4, 0x3E, 0xFE, 0x80, 0x04, 0x11, 
++0x64, 0x5F, 0xFF, 0x22, 0x74, 0xFF, 0x9D, 0xFD, 0x74, 0xFF, 0x94, 0x00, 0x5E, 0xFE, 0xED, 0x22, 
++0x90, 0x04, 0x1A, 0xE0, 0xF4, 0x60, 0x03, 0x7F, 0x00, 0x22, 0x90, 0x04, 0x1B, 0xE0, 0x54, 0x07, 
++0x64, 0x07, 0x7F, 0x01, 0x60, 0x02, 0x7F, 0x00, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 
++0x11, 0x70, 0xEF, 0x64, 0x01, 0x70, 0x33, 0x90, 0xA7, 0x18, 0xE0, 0xFF, 0x54, 0x03, 0x70, 0x2A, 
++0x90, 0xA7, 0x16, 0xE0, 0xFE, 0xE4, 0xC3, 0x9E, 0x40, 0x20, 0xEF, 0x20, 0xE2, 0x1C, 0x90, 0xA7, 
++0x18, 0xE0, 0x20, 0xE4, 0x15, 0x90, 0xA7, 0x10, 0xE0, 0x13, 0x13, 0x54, 0x3F, 0x30, 0xE0, 0x0A, 
++0x90, 0xA7, 0x77, 0xE0, 0x70, 0x04, 0x7F, 0x01, 0x80, 0x02, 0x7F, 0x00, 0xD0, 0xD0, 0x92, 0xAF, 
++0x22, 0xEF, 0x24, 0xFE, 0x60, 0x0B, 0x04, 0x70, 0x24, 0x90, 0xA7, 0x1A, 0x74, 0x02, 0xF0, 0x80, 
++0x13, 0xED, 0x70, 0x06, 0x90, 0xA7, 0x74, 0xE0, 0x80, 0x02, 0xED, 0x14, 0x90, 0xA7, 0x1A, 0xF0, 
++0x90, 0xA7, 0x1A, 0xE0, 0xA3, 0xF0, 0x90, 0xA7, 0x10, 0xE0, 0x44, 0x08, 0xF0, 0x22, 0xEF, 0x60, 
++0x2E, 0x12, 0x6F, 0xDC, 0x70, 0x29, 0x90, 0xA7, 0x10, 0xE0, 0x54, 0xFE, 0xF0, 0x7D, 0x2B, 0x7F, 
++0x0F, 0x12, 0x57, 0xA8, 0x90, 0x06, 0x04, 0xE0, 0x54, 0xBF, 0xF0, 0x12, 0x56, 0xF7, 0xBF, 0x01, 
++0x0E, 0x90, 0xA7, 0x0F, 0xE0, 0x44, 0x40, 0xF0, 0x7D, 0x06, 0x7F, 0x01, 0x12, 0x6A, 0x2A, 0x22, 
++0x7D, 0x2E, 0x7F, 0x6F, 0x12, 0x57, 0xA8, 0x7D, 0x02, 0x7F, 0x01, 0x02, 0x6A, 0x2A, 0xE4, 0x90, 
++0xA8, 0x2D, 0xF0, 0x90, 0xA7, 0x14, 0xE0, 0x60, 0x2D, 0x12, 0x6F, 0xDC, 0x70, 0x28, 0x31, 0x77, 
++0xF0, 0x90, 0xA8, 0x2D, 0x74, 0x01, 0xF0, 0xE4, 0x90, 0xA7, 0x1B, 0xF0, 0x04, 0x60, 0x17, 0x31, 
++0x7F, 0xE4, 0x90, 0xA9, 0x1E, 0xF0, 0x90, 0xA7, 0x1C, 0x12, 0x77, 0xFA, 0x90, 0xA7, 0x17, 0xE0, 
++0x20, 0xE2, 0x03, 0x12, 0x68, 0x55, 0x22, 0x90, 0xA7, 0x1A, 0xE0, 0x90, 0x05, 0x73, 0x22, 0x90, 
++0xA7, 0x18, 0xE0, 0x44, 0x10, 0xF0, 0x22, 0x90, 0xA7, 0x78, 0xE0, 0x54, 0xFE, 0xF0, 0x54, 0xFD, 
++0xF0, 0x54, 0xEF, 0xF0, 0x44, 0x08, 0xF0, 0x90, 0xA5, 0x2D, 0xE0, 0xFF, 0x64, 0x02, 0x70, 0x29, 
++0x51, 0x28, 0x30, 0xE0, 0x02, 0x7E, 0x01, 0x90, 0xA7, 0x7E, 0x51, 0x26, 0x30, 0xE1, 0x02, 0x7E, 
++0x01, 0x90, 0xA7, 0x7C, 0x51, 0x26, 0x30, 0xE2, 0x02, 0x7E, 0x01, 0x90, 0xA7, 0x7D, 0xEE, 0xF0, 
++0x90, 0xFD, 0x80, 0xE0, 0x90, 0x02, 0xFB, 0xF0, 0x22, 0xEF, 0x64, 0x01, 0x70, 0x1D, 0x51, 0x1F, 
++0x30, 0xE0, 0x02, 0x7F, 0x01, 0x90, 0xA7, 0x7E, 0x51, 0x1D, 0x30, 0xE1, 0x02, 0x7F, 0x01, 0x90, 
++0xA7, 0x7C, 0x51, 0x1D, 0x30, 0xE2, 0x02, 0x7F, 0x01, 0x80, 0x23, 0x90, 0xA5, 0x2D, 0xE0, 0x64, 
++0x03, 0x70, 0x20, 0x51, 0x16, 0x30, 0xE0, 0x02, 0x7F, 0x01, 0x90, 0xA7, 0x7E, 0x51, 0x14, 0x30, 
++0xE1, 0x02, 0x7F, 0x01, 0x90, 0xA7, 0x7C, 0x51, 0x14, 0x30, 0xE2, 0x02, 0x7F, 0x01, 0x90, 0xA7, 
++0x7D, 0xEF, 0xF0, 0x22, 0xEF, 0xF0, 0x90, 0xFD, 0x78, 0xE0, 0x7F, 0x00, 0x22, 0xEF, 0xF0, 0x90, 
++0xFD, 0x70, 0xE0, 0x7F, 0x00, 0x22, 0xEE, 0xF0, 0x90, 0xFD, 0x80, 0xE0, 0x7E, 0x00, 0x22, 0x90, 
++0xA7, 0x78, 0xE0, 0x30, 0xE0, 0x34, 0xC4, 0x13, 0x54, 0x07, 0x30, 0xE0, 0x2D, 0x90, 0xA9, 0x73, 
++0xE0, 0x04, 0xF0, 0xE0, 0xD3, 0x94, 0xC8, 0x40, 0x21, 0x90, 0xA7, 0x78, 0xE0, 0x54, 0xDF, 0xF0, 
++0xE4, 0x90, 0xA9, 0x73, 0xF0, 0x90, 0xA7, 0x78, 0xE0, 0x13, 0x30, 0xE0, 0x0D, 0x90, 0xA7, 0x0F, 
++0xE0, 0x44, 0x01, 0xF0, 0x90, 0xA7, 0x1F, 0x74, 0xD0, 0xF0, 0x22, 0x90, 0xA9, 0x36, 0xE0, 0xFF, 
++0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0x90, 0xA9, 0x74, 0xEF, 0xF0, 0xC3, 0x94, 0x02, 0x50, 
++0x4D, 0x90, 0xA5, 0xE7, 0xE0, 0xFF, 0x90, 0x04, 0x1C, 0xE0, 0x6F, 0x70, 0x41, 0x90, 0xA7, 0x17, 
++0xE0, 0x64, 0x0E, 0x70, 0x19, 0x90, 0xA9, 0x74, 0xE0, 0x70, 0x33, 0x90, 0xA7, 0x0F, 0xE0, 0x54, 
++0x7F, 0xF0, 0x12, 0x6F, 0xCC, 0x7D, 0x0C, 0x7F, 0x01, 0x12, 0x6A, 0x2A, 0x80, 0x1D, 0x90, 0xA7, 
++0x17, 0xE0, 0x64, 0x06, 0x70, 0x18, 0x90, 0xA9, 0x74, 0xE0, 0x60, 0x12, 0x90, 0xA7, 0x0F, 0xE0, 
++0x54, 0xBF, 0xF0, 0x51, 0xD3, 0x90, 0xA7, 0x17, 0x74, 0x04, 0xF0, 0x12, 0x6E, 0xCA, 0xD0, 0xD0, 
++0x92, 0xAF, 0x22, 0x90, 0x06, 0x04, 0xE0, 0x44, 0x40, 0xF0, 0xE0, 0x44, 0x80, 0xF0, 0x22, 0x90, 
++0xA6, 0xD8, 0xE0, 0x54, 0xFE, 0x12, 0x77, 0xEA, 0x90, 0xA6, 0xDF, 0x12, 0x50, 0x71, 0x90, 0xA6, 
++0xFA, 0xF0, 0xA3, 0xF0, 0xA3, 0xF0, 0x22, 0xC2, 0xAF, 0x90, 0xA6, 0xD8, 0xE0, 0x54, 0xFE, 0xF0, 
++0x7D, 0x08, 0xE4, 0xFF, 0x12, 0x6F, 0x01, 0x90, 0x02, 0x09, 0xE0, 0x90, 0x04, 0x24, 0xF0, 0x90, 
++0x02, 0x09, 0xE0, 0x90, 0x04, 0x25, 0xF0, 0xE4, 0x90, 0xA6, 0xE4, 0xF0, 0xA3, 0xF0, 0xD2, 0xAF, 
++0x22, 0x90, 0x04, 0x24, 0xEF, 0xF0, 0x22, 0x90, 0xA6, 0xE3, 0xE0, 0xFD, 0x7C, 0x00, 0xA3, 0xE0, 
++0xFE, 0xA3, 0xE0, 0xFF, 0x12, 0x26, 0xAA, 0xED, 0x4C, 0x70, 0x05, 0x90, 0xA6, 0xF0, 0x80, 0x2A, 
++0xED, 0x64, 0x01, 0x4C, 0x70, 0x05, 0x90, 0xA6, 0xF1, 0x80, 0x1F, 0xED, 0x64, 0x02, 0x4C, 0x70, 
++0x05, 0x90, 0xA6, 0xF2, 0x80, 0x14, 0xED, 0x64, 0x03, 0x4C, 0x70, 0x05, 0x90, 0xA6, 0xF3, 0x80, 
++0x09, 0xED, 0x64, 0x04, 0x4C, 0x70, 0x0D, 0x90, 0xA6, 0xF4, 0xE0, 0xFF, 0x71, 0x21, 0x90, 0xA6, 
++0xE4, 0x12, 0x77, 0x99, 0x22, 0x75, 0xF0, 0x03, 0xA4, 0x24, 0xE9, 0xF5, 0x82, 0xE4, 0x34, 0xA7, 
++0xF5, 0x83, 0x22, 0x75, 0xF0, 0x03, 0xA4, 0x24, 0xA7, 0xF5, 0x82, 0xE4, 0x34, 0xA7, 0xF5, 0x83, 
++0x22, 0x7F, 0x00, 0x7E, 0x0C, 0x12, 0x37, 0x5D, 0x7F, 0x00, 0x7E, 0x0E, 0x22, 0xEF, 0x13, 0x13, 
++0x13, 0x54, 0x1F, 0xFE, 0xEF, 0x54, 0x07, 0xFF, 0x22, 0x90, 0x8D, 0x01, 0x12, 0x4A, 0x48, 0x75, 
++0xF0, 0x02, 0xEF, 0x22, 0xE0, 0xFF, 0xAE, 0x22, 0x74, 0x01, 0xA8, 0x06, 0x08, 0x22, 0x90, 0xA7, 
++0x9B, 0x74, 0x0D, 0xF0, 0x90, 0xA7, 0xA9, 0x22, 0xE4, 0xFD, 0x7F, 0xE3, 0x12, 0x3A, 0x96, 0x7F, 
++0x01, 0x22, 0xE0, 0x13, 0x13, 0x13, 0x54, 0x1F, 0x22, 0x90, 0x01, 0xC7, 0x74, 0x66, 0xF0, 0xE4, 
++0xFF, 0x22, 0xF5, 0x82, 0xE4, 0x34, 0xA7, 0xF5, 0x83, 0xE0, 0x22, 0xE4, 0x90, 0xA9, 0x1E, 0xF0, 
++0x90, 0xA7, 0x7A, 0x22, 0x54, 0x01, 0xC4, 0x33, 0x33, 0x33, 0x54, 0x80, 0x22, 0x12, 0x4A, 0x48, 
++0xEE, 0xF0, 0xA3, 0xEF, 0xF0, 0x22, 0xF0, 0xEE, 0xA3, 0xF0, 0x75, 0xF0, 0x10, 0xED, 0x22, 0xE5, 
++0x6F, 0x75, 0xF0, 0x08, 0xA4, 0x25, 0x6E, 0x22, 0xFF, 0x90, 0xA9, 0x5D, 0xE0, 0xFB, 0xEF, 0x5B, 
++0x22, 0xE0, 0xFE, 0xA3, 0xE0, 0xF5, 0x82, 0x8E, 0x83, 0x22, 0xE0, 0xFD, 0x75, 0xF0, 0x04, 0xE5, 
++0x20, 0x22, 0xE4, 0x93, 0xFE, 0x74, 0x01, 0x93, 0xFF, 0x22, 0x7D, 0x01, 0x7F, 0x02, 0x02, 0x6F, 
++0x01, 0x2F, 0xF8, 0xE6, 0xFE, 0xED, 0xF4, 0x5E, 0x22, 0x90, 0x89, 0x07, 0x12, 0x4A, 0x48, 0xE0, 
++0x22, 0x90, 0xA7, 0x99, 0xE0, 0xD3, 0x94, 0x80, 0x22, 0x74, 0x01, 0x7E, 0x00, 0xA8, 0x6E, 0x08, 
++0x22, 0xFE, 0x33, 0x33, 0x33, 0x54, 0xF8, 0x4F, 0x22, 0x54, 0x03, 0x4F, 0xFF, 0x75, 0xF0, 0x10, 
++0x22, 0x74, 0x01, 0x7E, 0x00, 0xA8, 0x22, 0x08, 0x22, 0x90, 0x05, 0x21, 0xE0, 0x54, 0x7F, 0xF0, 
++0x22, 0x00, 0xB3, 0xD2, 
++};
++u4Byte ArrayLength_MP_8812A_FW_AP = 23716;
++
++#endif
++
++void
++ODM_ReadFirmware_MP_8812A_FW_AP(
++	IN   PDM_ODM_T    pDM_Odm,
++	OUT  u1Byte       *pFirmware,
++	OUT  u4Byte       *pFirmwareSize
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++	*((SIZE_PTR *)pFirmware) = (SIZE_PTR)Array_MP_8812A_FW_AP;
++#else
++	ODM_MoveMemory(pDM_Odm, pFirmware, Array_MP_8812A_FW_AP, ArrayLength_MP_8812A_FW_AP);
++#endif
++	*pFirmwareSize = ArrayLength_MP_8812A_FW_AP;
++}
++
++
++#endif /* #if (defined(CONFIG_AP_WOWLAN)||(DM_ODM_SUPPORT_TYPE & (ODM_AP)) */
++
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN)) || (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++
++#ifndef LOAD_FW_HEADER_FROM_DRIVER
++u1Byte Array_MP_8812A_FW_NIC[] = {
++0x01, 0x95, 0x10, 0x00, 0x31, 0x00, 0x00, 0x00, 0x03, 0x09, 0x21, 0x01, 0x6E, 0x7F, 0x00, 0x00, 
++0xC9, 0x2D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x02, 0x4B, 0xBE, 0x02, 0x8F, 0xCB, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x90, 0xD8, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xA7, 0xD2, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x90, 0x4F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x9F, 0xB5, 0x00, 0x00, 
++0x0A, 0x08, 0x03, 0x03, 0x00, 0x04, 0x09, 0x07, 0x03, 0x03, 0x00, 0x04, 0x08, 0x06, 0x03, 0x02, 
++0x00, 0x04, 0x08, 0x05, 0x03, 0x01, 0x00, 0x04, 0x0D, 0x0A, 0x07, 0x05, 0x00, 0x08, 0x0C, 0x0A, 
++0x07, 0x04, 0x00, 0x08, 0x0B, 0x0A, 0x06, 0x05, 0x00, 0x08, 0x0B, 0x0A, 0x05, 0x03, 0x00, 0x08, 
++0x0B, 0x0A, 0x03, 0x02, 0x00, 0x08, 0x14, 0x12, 0x0C, 0x04, 0x00, 0x10, 0x14, 0x12, 0x09, 0x04, 
++0x00, 0x10, 0x24, 0x22, 0x1C, 0x12, 0x00, 0x20, 0x24, 0x22, 0x18, 0x0C, 0x00, 0x20, 0x24, 0x22, 
++0x14, 0x06, 0x00, 0x20, 0x24, 0x22, 0x0F, 0x04, 0x00, 0x20, 0x24, 0x21, 0x0A, 0x04, 0x00, 0x20, 
++0x23, 0x21, 0x0C, 0x04, 0x00, 0x20, 0x23, 0x1F, 0x0A, 0x04, 0x00, 0x20, 0x22, 0x1F, 0x0F, 0x04, 
++0x00, 0x20, 0x21, 0x1F, 0x16, 0x0C, 0x00, 0x20, 0x31, 0x2F, 0x20, 0x14, 0x00, 0x30, 0x31, 0x2F, 
++0x18, 0x10, 0x00, 0x30, 0x31, 0x2C, 0x18, 0x0C, 0x00, 0x30, 0x31, 0x2A, 0x14, 0x0C, 0x00, 0x30, 
++0x31, 0x28, 0x14, 0x00, 0x00, 0x30, 0x31, 0x24, 0x14, 0x00, 0x00, 0x30, 0x31, 0x1E, 0x14, 0x00, 
++0x00, 0x30, 0x15, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x15, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 
++0x05, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x05, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x10, 0xF0, 
++0xFF, 0x0F, 0x00, 0x00, 0x00, 0x10, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0xF5, 0x0F, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0D, 0x00, 0x00, 0x00, 0x00, 0x00, 
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++0xBA, 0xE0, 0x75, 0xF0, 0x08, 0xA4, 0x24, 0xBF, 0xF5, 0x82, 0xE4, 0x34, 0xA4, 0x22, 0x75, 0xF0, 
++0x08, 0xA4, 0x24, 0xBB, 0xF5, 0x82, 0xE4, 0x34, 0xA4, 0x22, 0x12, 0x36, 0xCE, 0xEF, 0x44, 0x03, 
++0xFF, 0xEC, 0x90, 0xA6, 0x60, 0x12, 0x27, 0x48, 0x90, 0xA6, 0x60, 0x22, 0x7F, 0x64, 0x7E, 0x08, 
++0x12, 0x65, 0xB5, 0x90, 0xA6, 0x5C, 0x12, 0x48, 0x4D, 0xE4, 0xFF, 0xFE, 0xFD, 0xEC, 0x54, 0x04, 
++0xFC, 0x90, 0xA6, 0x0F, 0x22, 0x12, 0x37, 0x5D, 0x90, 0xA4, 0xB7, 0xE0, 0x75, 0xF0, 0x0C, 0xA4, 
++0x22, 0x90, 0xA4, 0x4F, 0x12, 0x48, 0x71, 0x90, 0x00, 0x08, 0x02, 0x47, 0x17, 0x74, 0x01, 0x25, 
++0x0E, 0xF5, 0x82, 0xE4, 0x34, 0x94, 0xF5, 0x83, 0x22, 0x74, 0x91, 0x25, 0x0E, 0xF5, 0x82, 0xE4, 
++0x34, 0x9A, 0xF5, 0x83, 0x22, 0x75, 0xF0, 0x04, 0xE5, 0x0E, 0x90, 0x9B, 0x14, 0x12, 0x48, 0x65, 
++0xE0, 0x22, 0x90, 0xA4, 0xB7, 0xE0, 0xFF, 0x7D, 0xEF, 0x22, 0x90, 0xA6, 0xA3, 0xE0, 0xFF, 0xA3, 
++0xE0, 0xFD, 0x12, 0xB6, 0x33, 0x90, 0xA6, 0x0F, 0x22, 0x90, 0xA3, 0x65, 0x12, 0x48, 0x65, 0xE0, 
++0xFF, 0x7E, 0x00, 0xE4, 0xFB, 0x7D, 0x01, 0x22, 0x90, 0xA2, 0xEE, 0xE0, 0xFF, 0xC4, 0x54, 0x0F, 
++0x22, 0xFD, 0x75, 0xF0, 0x0E, 0x90, 0xA3, 0x59, 0x02, 0x48, 0x65, 0xE0, 0x75, 0xF0, 0x0C, 0xA4, 
++0x24, 0x3F, 0xF5, 0x82, 0xE4, 0x34, 0x45, 0x22, 0x75, 0xF0, 0x0E, 0x90, 0xA3, 0x5B, 0x02, 0x48, 
++0x65, 0x7F, 0x00, 0x7E, 0x0C, 0x12, 0x37, 0x5D, 0x7F, 0x00, 0x7E, 0x0E, 0x22, 0x7D, 0x01, 0x7F, 
++0x02, 0x12, 0x6A, 0xCE, 0x7D, 0x02, 0x7F, 0x02, 0x22, 0x90, 0xA4, 0xB7, 0xE0, 0xFF, 0x7D, 0x31, 
++0x22, 0x12, 0x48, 0x65, 0xE0, 0xFC, 0xA3, 0xE0, 0xF5, 0x82, 0x8C, 0x83, 0x22, 0xEF, 0x13, 0x13, 
++0x13, 0x54, 0x1F, 0xFE, 0xEF, 0x54, 0x07, 0xFF, 0x22, 0x90, 0x06, 0x04, 0xE0, 0x44, 0x40, 0xF0, 
++0xE0, 0x44, 0x80, 0x22, 0xF0, 0x90, 0x01, 0x3F, 0x74, 0x10, 0xF0, 0xFD, 0x7F, 0x03, 0x22, 0xFE, 
++0x54, 0x03, 0xFD, 0xEE, 0x13, 0x13, 0x54, 0x07, 0xFB, 0x22, 0xFC, 0xE5, 0x13, 0xC3, 0x13, 0xFE, 
++0xE5, 0x14, 0x13, 0xFF, 0x22, 0x7F, 0xB0, 0x7E, 0x0C, 0x12, 0x36, 0xCE, 0x90, 0xA2, 0xFE, 0x22, 
++0x90, 0xA4, 0x55, 0xF0, 0x75, 0xF0, 0x10, 0xE5, 0x0E, 0x22, 0x90, 0xA6, 0x87, 0xE0, 0xFF, 0x74, 
++0x64, 0xD3, 0x9F, 0x22, 0x90, 0xA6, 0x87, 0xE0, 0xFF, 0x74, 0x24, 0xD3, 0x9F, 0x22, 0x90, 0xA3, 
++0x56, 0xE0, 0xFE, 0xC3, 0x13, 0x54, 0x07, 0x22, 0x90, 0xA6, 0x86, 0xE0, 0xFF, 0x90, 0xA6, 0x84, 
++0xE0, 0x22, 0x74, 0x01, 0x93, 0x95, 0x12, 0xE4, 0x93, 0x95, 0x11, 0x22, 0x7E, 0x0E, 0x12, 0x37, 
++0x5D, 0x90, 0x00, 0xFF, 0xE0, 0x22, 0xD2, 0xAF, 0xC2, 0xAF, 0x90, 0xA1, 0x23, 0xE0, 0xFF, 0x22, 
++0x90, 0x00, 0x04, 0x12, 0x48, 0x29, 0xE4, 0xFD, 0x22, 0xFF, 0x90, 0xA4, 0xB7, 0xE0, 0x75, 0xF0, 
++0x1E, 0x22, 0x12, 0x47, 0x17, 0xAE, 0xF0, 0xA8, 0x16, 0x08, 0x22, 0x54, 0x01, 0xC4, 0x33, 0x33, 
++0x33, 0x54, 0x80, 0x22, 0xE4, 0x90, 0xA6, 0x58, 0xF0, 0xA3, 0x74, 0x03, 0x22, 0x7F, 0xB4, 0x7E, 
++0x08, 0x12, 0x36, 0xCE, 0xEF, 0x22, 0x90, 0x06, 0x0A, 0xE0, 0x54, 0xF8, 0xF0, 0x22, 0x90, 0xA4, 
++0xB7, 0xE0, 0xFF, 0x7D, 0x65, 0x22, 0x90, 0xA4, 0xB7, 0xE0, 0xFF, 0x7D, 0x8F, 0x22, 0x24, 0xED, 
++0xF5, 0x82, 0xE4, 0x34, 0x44, 0x22, 0x7F, 0xB4, 0x7E, 0x08, 0x02, 0x37, 0x5D, 0x90, 0xA2, 0xF6, 
++0xE0, 0xFF, 0xA3, 0xE0, 0x22, 0x90, 0xA4, 0xB7, 0xE0, 0xFF, 0x7D, 0x30, 0x22, 0x7F, 0x60, 0x7E, 
++0x08, 0x02, 0x65, 0xB5, 0x2F, 0xF8, 0xE6, 0xFE, 0xED, 0xF4, 0x5E, 0x22, 0xFE, 0x33, 0x33, 0x33, 
++0x54, 0xF8, 0x4F, 0x22, 0x90, 0x00, 0x06, 0x12, 0x47, 0x17, 0x2F, 0x22, 0xB4, 0xA4, 
++};
++u4Byte ArrayLength_MP_8812A_FW_NIC = 32654;
++
++
++#endif
++
++void
++ODM_ReadFirmware_MP_8812A_FW_NIC(
++	IN   PDM_ODM_T    pDM_Odm,
++	OUT  u1Byte       *pFirmware,
++	OUT  u4Byte       *pFirmwareSize
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++	*((SIZE_PTR *)pFirmware) = (SIZE_PTR)Array_MP_8812A_FW_NIC;
++#else
++	ODM_MoveMemory(pDM_Odm, pFirmware, Array_MP_8812A_FW_NIC, ArrayLength_MP_8812A_FW_NIC);
++#endif
++	*pFirmwareSize = ArrayLength_MP_8812A_FW_NIC;
++}
++
++#ifndef LOAD_FW_HEADER_FROM_DRIVER
++u1Byte Array_MP_8812A_FW_NIC_BT[] = {
++0x01, 0x95, 0x13, 0x00, 0x31, 0x00, 0x00, 0x00, 0x03, 0x09, 0x21, 0x01, 0xB6, 0x72, 0x00, 0x00, 
++0xC9, 0x2D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x02, 0x4A, 0x9A, 0x02, 0x88, 0x5D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x89, 0x69, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x97, 0xE8, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x88, 0xE0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x8F, 0xF3, 0x00, 0x00, 
++0x0A, 0x08, 0x03, 0x03, 0x00, 0x04, 0x09, 0x07, 0x03, 0x03, 0x00, 0x04, 0x08, 0x06, 0x03, 0x02, 
++0x00, 0x04, 0x08, 0x05, 0x03, 0x01, 0x00, 0x04, 0x0D, 0x0A, 0x07, 0x05, 0x00, 0x08, 0x0C, 0x0A, 
++0x07, 0x04, 0x00, 0x08, 0x0B, 0x0A, 0x06, 0x05, 0x00, 0x08, 0x0B, 0x0A, 0x05, 0x03, 0x00, 0x08, 
++0x0B, 0x0A, 0x03, 0x02, 0x00, 0x08, 0x14, 0x12, 0x0C, 0x04, 0x00, 0x10, 0x14, 0x12, 0x09, 0x04, 
++0x00, 0x10, 0x24, 0x22, 0x1C, 0x12, 0x00, 0x20, 0x24, 0x22, 0x18, 0x0C, 0x00, 0x20, 0x24, 0x22, 
++0x14, 0x06, 0x00, 0x20, 0x24, 0x22, 0x0F, 0x04, 0x00, 0x20, 0x24, 0x21, 0x0A, 0x04, 0x00, 0x20, 
++0x23, 0x21, 0x0C, 0x04, 0x00, 0x20, 0x23, 0x1F, 0x0A, 0x04, 0x00, 0x20, 0x22, 0x1F, 0x0F, 0x04, 
++0x00, 0x20, 0x21, 0x1F, 0x16, 0x0C, 0x00, 0x20, 0x31, 0x2F, 0x20, 0x14, 0x00, 0x30, 0x31, 0x2F, 
++0x18, 0x10, 0x00, 0x30, 0x31, 0x2C, 0x18, 0x0C, 0x00, 0x30, 0x31, 0x2A, 0x14, 0x0C, 0x00, 0x30, 
++0x31, 0x28, 0x14, 0x00, 0x00, 0x30, 0x31, 0x24, 0x14, 0x00, 0x00, 0x30, 0x31, 0x1E, 0x14, 0x00, 
++0x00, 0x30, 0x15, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x15, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 
++0x05, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x05, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x10, 0xF0, 
++0xFF, 0x0F, 0x00, 0x00, 0x00, 0x10, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0xF5, 0x0F, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0D, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x10, 0xF0, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x10, 0xF0, 0x3F, 0x00, 0x00, 0x00, 0x00, 0x15, 
++0xF0, 0x3F, 0x00, 0x00, 0x00, 0x00, 0x15, 0xF0, 0xCF, 0xFF, 0x00, 0x00, 0x00, 0x16, 0x0D, 0x17, 
++0x0E, 0x17, 0x0F, 0x18, 0x10, 0x19, 0x11, 0x1A, 0x12, 0x1A, 0x13, 0x1A, 0x14, 0x1A, 0x15, 0x1B, 
++0xFF, 0x17, 0x0E, 0x18, 0x10, 0x19, 0x11, 0x1A, 0x12, 0x1B, 0x15, 0x1C, 0xFF, 0x1D, 0xFF, 0x1E, 
++0xFF, 0x1F, 0xFF, 0xFF, 0xFF, 0x14, 0x0D, 0x0E, 0x15, 0x15, 0x0F, 0x16, 0x10, 0x17, 0x11, 0x18, 
++0x12, 0x18, 0x13, 0x18, 0xFF, 0x15, 0x0D, 0x16, 0x10, 0x10, 0x17, 0x18, 0x12, 0x19, 0xFF, 0x1A, 
++0xFF, 0x1B, 0xFF, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00, 0x04, 0x04, 0x0C, 0x0C, 0x0D, 0x0C, 0x0E, 
++0x0D, 0x0F, 0x17, 0x18, 0x10, 0x19, 0x11, 0x19, 0x11, 0x19, 0x12, 0x1A, 0x14, 0x0C, 0x0C, 0x16, 
++0x0D, 0x17, 0x0F, 0x18, 0x10, 0x19, 0x13, 0x1A, 0x14, 0x1B, 0x15, 0x1C, 0x1B, 0x1D, 0x1C, 0x1E, 
++0x1D, 0x04, 0x04, 0x0C, 0x14, 0x0D, 0x14, 0x0E, 0x14, 0x0F, 0x15, 0x10, 0x16, 0x17, 0x11, 0x12, 
++0x17, 0x0C, 0x0C, 0x14, 0x0E, 0x15, 0x0F, 0x16, 0x10, 0x17, 0x12, 0x18, 0x18, 0x19, 0x19, 0x1A, 
++0x19, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x24, 0x26, 0x2A, 0x00, 0x00, 0x00, 
++0x1F, 0x21, 0x25, 0x27, 0x28, 0x00, 0x00, 0x00, 0x00, 0x23, 0x26, 0x28, 0x2A, 0x00, 0x00, 0x00, 
++0x00, 0x23, 0x26, 0x28, 0x2A, 0x00, 0x00, 0x00, 0x00, 0x23, 0x26, 0x28, 0x2A, 0x00, 0x00, 0x00, 
++0x00, 0x20, 0x25, 0x27, 0x29, 0x29, 0x2A, 0x00, 0x00, 0x00, 0x00, 0x20, 0x25, 0x27, 0x29, 0x29, 
++0x2A, 0x00, 0x00, 0x00, 0x00, 0x23, 0x26, 0x28, 0x2A, 0x2A, 0x2A, 0x00, 0x00, 0x00, 0x1F, 0x23, 
++0x26, 0x28, 0x2A, 0x2A, 0x2A, 0x00, 0x04, 0x00, 0x04, 0x00, 0x08, 0x00, 0x10, 0x00, 0x18, 0x00, 
++0x24, 0x00, 0x30, 0x00, 0x48, 0x00, 0x60, 0x00, 0x90, 0x00, 0xC0, 0x00, 0xD8, 0x00, 0x3C, 0x00, 
++0x64, 0x00, 0x78, 0x00, 0xA0, 0x00, 0xF0, 0x01, 0x40, 0x01, 0x90, 0x01, 0xE0, 0x00, 0xA0, 0x00, 
++0xF0, 0x01, 0x40, 0x01, 0x90, 0x02, 0x58, 0x03, 0x20, 0x04, 0xB0, 0x06, 0x40, 0x00, 0xC8, 0x01, 
++0x18, 0x01, 0xE0, 0x02, 0xD0, 0x03, 0xE8, 0x04, 0xB0, 0x06, 0x40, 0x07, 0xD0, 0x00, 0xC8, 0x01, 
++0x18, 0x01, 0xE0, 0x02, 0xD0, 0x03, 0xE8, 0x04, 0xB0, 0x06, 0x40, 0x07, 0xD0, 0x00, 0x3C, 0x00, 
++0x50, 0x00, 0x64, 0x00, 0xA0, 0x00, 0xF0, 0x01, 0x40, 0x01, 0x90, 0x01, 0x90, 0x02, 0x58, 0x03, 
++0x20, 0x00, 0x78, 0x00, 0xF0, 0x01, 0x90, 0x02, 0x58, 0x03, 0xE8, 0x07, 0xD0, 0x09, 0x60, 0x0F, 
++0xA0, 0x12, 0xC0, 0x15, 0x18, 0x00, 0xC8, 0x01, 0x18, 0x01, 0xE0, 0x02, 0xD0, 0x03, 0xE8, 0x04, 
++0xB0, 0x06, 0x40, 0x07, 0xD0, 0x07, 0xD0, 0x07, 0xD0, 0x00, 0xC8, 0x01, 0x18, 0x01, 0xE0, 0x02, 
++0xD0, 0x03, 0xE8, 0x04, 0xB0, 0x06, 0x40, 0x07, 0xD0, 0x07, 0xD0, 0x07, 0xD0, 0x00, 0x02, 0x00, 
++0x02, 0x00, 0x04, 0x00, 0x08, 0x00, 0x0C, 0x00, 0x12, 0x00, 0x18, 0x00, 0x24, 0x00, 0x30, 0x00, 
++0x48, 0x00, 0x60, 0x00, 0x6C, 0x00, 0x14, 0x00, 0x32, 0x00, 0x3C, 0x00, 0x50, 0x00, 0x78, 0x00, 
++0xA0, 0x00, 0xC8, 0x00, 0xF0, 0x00, 0x50, 0x00, 0x78, 0x00, 0xA0, 0x00, 0xC8, 0x01, 0x2C, 0x01, 
++0x90, 0x02, 0x58, 0x03, 0x20, 0x00, 0x64, 0x00, 0x8C, 0x00, 0xF0, 0x01, 0x68, 0x01, 0xF4, 0x02, 
++0x58, 0x03, 0x20, 0x03, 0xE8, 0x00, 0x64, 0x00, 0x8C, 0x00, 0xF0, 0x01, 0x68, 0x01, 0xF4, 0x02, 
++0x58, 0x03, 0x20, 0x03, 0xE8, 0x00, 0x1E, 0x00, 0x28, 0x00, 0x32, 0x00, 0x50, 0x00, 0x78, 0x00, 
++0xA0, 0x00, 0xC8, 0x00, 0xF0, 0x01, 0x7C, 0x01, 0x90, 0x00, 0x3C, 0x00, 0x78, 0x00, 0xC8, 0x01, 
++0x2C, 0x01, 0xF4, 0x03, 0xE8, 0x04, 0xB0, 0x07, 0xD0, 0x09, 0x60, 0x0A, 0xF0, 0x00, 0x64, 0x00, 
++0x8C, 0x00, 0xF0, 0x01, 0x68, 0x01, 0xF4, 0x02, 0x58, 0x03, 0x20, 0x03, 0xE8, 0x03, 0xE8, 0x03, 
++0xE8, 0x00, 0x64, 0x00, 0x8C, 0x00, 0xF0, 0x01, 0x68, 0x01, 0xF4, 0x02, 0x58, 0x03, 0x20, 0x03, 
++0xE8, 0x03, 0xE8, 0x03, 0xE8, 0x01, 0x01, 0x01, 0x02, 0x01, 0x02, 0x03, 0x03, 0x04, 0x04, 0x05, 
++0x05, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 
++0x0A, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 
++0x0A, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x0A, 0x0B, 0x05, 0x06, 0x06, 0x07, 0x07, 
++0x08, 0x09, 0x0A, 0x0B, 0x0B, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x0A, 0x0B, 0x05, 
++0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x0A, 0x0B, 0x01, 0x01, 0x01, 0x01, 0x01, 0x02, 0x03, 
++0x04, 0x05, 0x06, 0x07, 0x08, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x02, 0x04, 0x06, 
++0x07, 0x08, 0x0A, 0x0B, 0x0C, 0x03, 0x05, 0x06, 0x07, 0x08, 0x0A, 0x0B, 0x0C, 0x05, 0x06, 0x07, 
++0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x02, 0x04, 0x06, 0x07, 0x08, 0x09, 0x0B, 0x0C, 0x0C, 0x0C, 0x03, 
++0x05, 0x06, 0x07, 0x08, 0x09, 0x0B, 0x0C, 0x0C, 0x0C, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0A, 0x0B, 
++0x0C, 0x0C, 0x0C, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x0C, 0x0C, 0x19, 0x06, 0x04, 
++0x02, 0x00, 0x18, 0x00, 0x04, 0x0C, 0x14, 0x2C, 0x36, 0x04, 0x08, 0x08, 0x08, 0x0A, 0x0A, 0x04, 
++0x04, 0x04, 0x05, 0x04, 0x04, 0x05, 0x07, 0x07, 0x07, 0x08, 0x0A, 0x04, 0x07, 0x0A, 0x0E, 0x11, 
++0x13, 0x14, 0x15, 0x03, 0x04, 0x07, 0x07, 0x08, 0x0B, 0x0D, 0x0F, 0x05, 0x05, 0x07, 0x07, 0x08, 
++0x0B, 0x0D, 0x0F, 0x05, 0x05, 0x07, 0x07, 0x08, 0x0B, 0x0D, 0x0F, 0x07, 0x08, 0x08, 0x0A, 0x0A, 
++0x0C, 0x0E, 0x10, 0x11, 0x11, 0x07, 0x09, 0x09, 0x0B, 0x0B, 0x0D, 0x0F, 0x13, 0x13, 0x14, 0x05, 
++0x05, 0x07, 0x07, 0x08, 0x0B, 0x0D, 0x0F, 0x0F, 0x0F, 0x05, 0x05, 0x07, 0x07, 0x08, 0x0B, 0x0D, 
++0x0F, 0x0F, 0x0F, 0x04, 0x04, 0x04, 0x05, 0x07, 0x07, 0x09, 0x09, 0x0C, 0x0E, 0x10, 0x12, 0x05, 
++0x06, 0x07, 0x0D, 0x10, 0x11, 0x12, 0x12, 0x07, 0x08, 0x09, 0x09, 0x0C, 0x0E, 0x11, 0x13, 0x09, 
++0x09, 0x09, 0x09, 0x0C, 0x0E, 0x11, 0x13, 0x09, 0x09, 0x09, 0x09, 0x0C, 0x0E, 0x11, 0x13, 0x05, 
++0x06, 0x08, 0x09, 0x0C, 0x0E, 0x12, 0x12, 0x13, 0x14, 0x07, 0x08, 0x09, 0x0A, 0x0C, 0x0F, 0x12, 
++0x12, 0x14, 0x16, 0x09, 0x09, 0x09, 0x09, 0x0C, 0x0E, 0x11, 0x13, 0x13, 0x13, 0x09, 0x09, 0x09, 
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++0xE0, 0xFF, 0xC3, 0x94, 0x20, 0x22, 0x54, 0x01, 0xC4, 0x33, 0x33, 0x33, 0x54, 0x80, 0x22, 0x90, 
++0xA3, 0x57, 0xE0, 0xC4, 0x13, 0x54, 0x07, 0x22, 0x90, 0xA3, 0x5A, 0xE0, 0x54, 0xDF, 0xF0, 0xE4, 
++0x22, 0xE0, 0xFF, 0xA3, 0xE0, 0xFD, 0xA3, 0xE0, 0xFB, 0x22, 0xE5, 0x6F, 0x75, 0xF0, 0x08, 0xA4, 
++0x25, 0x6E, 0x22, 0xFF, 0x90, 0xA5, 0x8E, 0xE0, 0xFB, 0xEF, 0x5B, 0x22, 0xE0, 0xFE, 0xA3, 0xE0, 
++0xF5, 0x82, 0x8E, 0x83, 0x22, 0xE0, 0xFB, 0x7A, 0x00, 0xEC, 0x54, 0x07, 0x22, 0xE4, 0x93, 0xFE, 
++0x74, 0x01, 0x93, 0xFF, 0x22, 0x7D, 0x01, 0x7F, 0x0C, 0x02, 0x68, 0x4B, 0xF0, 0xA3, 0xF0, 0x90, 
++0x05, 0x22, 0xE0, 0x22, 0x90, 0x89, 0x07, 0x12, 0x4A, 0x2A, 0xE0, 0x22, 0x74, 0x01, 0x7E, 0x00, 
++0xA8, 0x6E, 0x08, 0x22, 0xFE, 0x33, 0x33, 0x33, 0x54, 0xF8, 0x4F, 0x22, 0x54, 0x03, 0x4F, 0xFF, 
++0x75, 0xF0, 0x10, 0x22, 0x90, 0xA4, 0x98, 0xE0, 0xFD, 0x24, 0x91, 0x22, 0x90, 0xA4, 0x99, 0xE0, 
++0x90, 0xA4, 0x9C, 0x22, 0xE9, 0x42, 
++};
++u4Byte ArrayLength_MP_8812A_FW_NIC_BT = 29398;
++
++#endif
++
++void
++ODM_ReadFirmware_MP_8812A_FW_NIC_BT(
++	IN   PDM_ODM_T    pDM_Odm,
++	OUT  u1Byte       *pFirmware,
++	OUT  u4Byte       *pFirmwareSize
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++	*((SIZE_PTR *)pFirmware) = (SIZE_PTR)Array_MP_8812A_FW_NIC_BT;
++#else
++	ODM_MoveMemory(pDM_Odm, pFirmware, Array_MP_8812A_FW_NIC_BT, ArrayLength_MP_8812A_FW_NIC_BT);
++#endif
++	*pFirmwareSize = ArrayLength_MP_8812A_FW_NIC_BT;
++}
++
++#ifndef LOAD_FW_HEADER_FROM_DRIVER 
++u1Byte Array_MP_8812A_FW_WoWLAN[] = {
++0x01, 0x95, 0x30, 0x00, 0x31, 0x00, 0x00, 0x00, 0x03, 0x09, 0x21, 0x01, 0xE4, 0x74, 0x00, 0x00, 
++0xC9, 0x2D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x02, 0x4D, 0x2A, 0x02, 0x80, 0x2E, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x81, 0x3A, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x8F, 0xD8, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x80, 0xB1, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x87, 0xEC, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xFF, 0xFF, 
++0xFF, 0xFF, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0xE7, 0x09, 0xF6, 0x08, 0xDF, 0xFA, 0x80, 0x46, 0xE7, 0x09, 0xF2, 0x08, 0xDF, 0xFA, 0x80, 0x3E, 
++0x88, 0x82, 0x8C, 0x83, 0xE7, 0x09, 0xF0, 0xA3, 0xDF, 0xFA, 0x80, 0x32, 0xE3, 0x09, 0xF6, 0x08, 
++0xDF, 0xFA, 0x80, 0x78, 0xE3, 0x09, 0xF2, 0x08, 0xDF, 0xFA, 0x80, 0x70, 0x88, 0x82, 0x8C, 0x83, 
++0xE3, 0x09, 0xF0, 0xA3, 0xDF, 0xFA, 0x80, 0x64, 0x89, 0x82, 0x8A, 0x83, 0xE0, 0xA3, 0xF6, 0x08, 
++0xDF, 0xFA, 0x80, 0x58, 0x89, 0x82, 0x8A, 0x83, 0xE0, 0xA3, 0xF2, 0x08, 0xDF, 0xFA, 0x80, 0x4C, 
++0x80, 0xD2, 0x80, 0xFA, 0x80, 0xC6, 0x80, 0xD4, 0x80, 0x69, 0x80, 0xF2, 0x80, 0x33, 0x80, 0x10, 
++0x80, 0xA6, 0x80, 0xEA, 0x80, 0x9A, 0x80, 0xA8, 0x80, 0xDA, 0x80, 0xE2, 0x80, 0xCA, 0x80, 0x33, 
++0x89, 0x82, 0x8A, 0x83, 0xEC, 0xFA, 0xE4, 0x93, 0xA3, 0xC8, 0xC5, 0x82, 0xC8, 0xCC, 0xC5, 0x83, 
++0xCC, 0xF0, 0xA3, 0xC8, 0xC5, 0x82, 0xC8, 0xCC, 0xC5, 0x83, 0xCC, 0xDF, 0xE9, 0xDE, 0xE7, 0x80, 
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++0x0C, 0x12, 0x37, 0x5D, 0x7F, 0x00, 0x7E, 0x0E, 0x22, 0x90, 0x93, 0xA4, 0xE0, 0xFD, 0x90, 0x93, 
++0xA3, 0xE0, 0x2D, 0x22, 0x90, 0x93, 0xCB, 0xE4, 0x75, 0xF0, 0x02, 0x02, 0x46, 0xD6, 0x7F, 0xB0, 
++0x7E, 0x0C, 0x12, 0x36, 0xCE, 0x90, 0x8E, 0x25, 0x22, 0x90, 0x94, 0xA4, 0xEE, 0xF0, 0xA3, 0xEF, 
++0xF0, 0x22, 0x90, 0x8E, 0x7D, 0xE0, 0x90, 0x05, 0x73, 0xF0, 0x22, 0x90, 0x8E, 0x15, 0xE0, 0xFF, 
++0xC4, 0x54, 0x0F, 0x22, 0x7E, 0x00, 0x7F, 0x08, 0x7D, 0x00, 0x7B, 0x01, 0x22, 0xF0, 0xEE, 0x54, 
++0x80, 0xFE, 0xEF, 0x54, 0x7F, 0x22, 0x90, 0x93, 0x8D, 0xE0, 0xFE, 0xA3, 0xE0, 0xFF, 0x22, 0x90, 
++0x93, 0x8D, 0xE0, 0xFC, 0xA3, 0xE0, 0xFD, 0x22, 0x90, 0x93, 0x8F, 0xE0, 0xFE, 0xA3, 0xE0, 0xFF, 
++0x22, 0x7E, 0x0E, 0x12, 0x37, 0x5D, 0x90, 0x00, 0xFF, 0x22, 0x7F, 0xB4, 0x7E, 0x08, 0x12, 0x36, 
++0xCE, 0xEF, 0x22, 0xE4, 0x75, 0xF0, 0x04, 0x02, 0x46, 0xD6, 0x90, 0x8D, 0xFA, 0xF0, 0xA3, 0xEF, 
++0xF0, 0x22, 0x54, 0x04, 0xFD, 0xEF, 0x54, 0xFB, 0x4D, 0x22, 0xE4, 0x75, 0xF0, 0x20, 0x02, 0x46, 
++0xD6, 0xE0, 0xFF, 0xC4, 0x13, 0x13, 0x54, 0x03, 0x22, 0xF0, 0x90, 0x93, 0xC8, 0xE0, 0x04, 0xF0, 
++0x22, 0x90, 0x8E, 0x7D, 0xE0, 0x90, 0x01, 0x3F, 0x22, 0x90, 0x8E, 0x13, 0xE0, 0x44, 0x04, 0xF0, 
++0x22, 0x90, 0x8E, 0x1D, 0xE0, 0xFF, 0xA3, 0xE0, 0x22, 0x90, 0x8E, 0x15, 0xE0, 0xC4, 0x54, 0x0F, 
++0x22, 0x90, 0x8D, 0xFD, 0xE0, 0xFF, 0xC3, 0x13, 0x22, 0x90, 0x00, 0x01, 0x12, 0x26, 0x37, 0xFD, 
++0x22, 0x12, 0x37, 0x5D, 0x90, 0x00, 0x02, 0xE0, 0x22, 0x90, 0x01, 0xC2, 0xE0, 0x44, 0x01, 0xF0, 
++0x22, 0x00, 0x59, 0xEF, 
++};
++u4Byte ArrayLength_MP_8812A_FW_WoWLAN = 29956;
++
++#endif
++
++void
++ODM_ReadFirmware_MP_8812A_FW_WoWLAN(
++	IN   PDM_ODM_T    pDM_Odm,
++	OUT  u1Byte       *pFirmware,
++	OUT  u4Byte       *pFirmwareSize
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++	*((SIZE_PTR *)pFirmware) = (SIZE_PTR)Array_MP_8812A_FW_WoWLAN;
++#else
++	ODM_MoveMemory(pDM_Odm, pFirmware, Array_MP_8812A_FW_WoWLAN, ArrayLength_MP_8812A_FW_WoWLAN);
++#endif
++	*pFirmwareSize = ArrayLength_MP_8812A_FW_WoWLAN;
++}
++
++
++
++#endif /* end of (defined(CONFIG_AP_WOWLAN) || (DM_ODM_SUPPORT_TYPE & (ODM_AP)))*/
++
++#endif /* end of HWIMG_SUPPORT*/
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_fw.h b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_fw.h
+new file mode 100644
+index 0000000..6bab5a8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_fw.h
+@@ -0,0 +1,73 @@
++/****************************************************************************** 
++* 
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved. 
++* 
++* This program is free software; you can redistribute it and/or modify it 
++* under the terms of version 2 of the GNU General Public License as 
++* published by the Free Software Foundation. 
++* 
++* This program is distributed in the hope that it will be useful, but WITHOUT 
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for 
++* more details. 
++* 
++* You should have received a copy of the GNU General Public License along with 
++* this program; if not, write to the Free Software Foundation, Inc., 
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA 
++* 
++* 
++******************************************************************************/
++
++/*Image2HeaderVersion: 2.16*/
++#if (RTL8812A_SUPPORT == 1)
++#ifndef __INC_MP_FW_HW_IMG_8812A_H
++#define __INC_MP_FW_HW_IMG_8812A_H
++
++
++/******************************************************************************
++*                           FW_AP.TXT
++******************************************************************************/
++
++void
++ODM_ReadFirmware_MP_8812A_FW_AP(
++	IN   PDM_ODM_T    pDM_Odm,
++	OUT  u1Byte       *pFirmware,
++	OUT  u4Byte       *pFirmwareSize
++);
++
++/******************************************************************************
++*                           FW_NIC.TXT
++******************************************************************************/
++
++void
++ODM_ReadFirmware_MP_8812A_FW_NIC(
++	IN   PDM_ODM_T    pDM_Odm,
++	OUT  u1Byte       *pFirmware,
++	OUT  u4Byte       *pFirmwareSize
++);
++
++/******************************************************************************
++*                           FW_NIC_BT.TXT
++******************************************************************************/
++
++void
++ODM_ReadFirmware_MP_8812A_FW_NIC_BT(
++	IN   PDM_ODM_T    pDM_Odm,
++	OUT  u1Byte       *pFirmware,
++	OUT  u4Byte       *pFirmwareSize
++);
++
++/******************************************************************************
++*                           FW_WoWLAN.TXT
++******************************************************************************/
++
++void
++ODM_ReadFirmware_MP_8812A_FW_WoWLAN(
++	IN   PDM_ODM_T    pDM_Odm,
++	OUT  u1Byte       *pFirmware,
++	OUT  u4Byte       *pFirmwareSize
++);
++
++#endif
++#endif /* end of HWIMG_SUPPORT*/
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_mac.c b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_mac.c
+new file mode 100644
+index 0000000..d71ca54
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_mac.c
+@@ -0,0 +1,294 @@
++/****************************************************************************** 
++* 
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved. 
++* 
++* This program is free software; you can redistribute it and/or modify it 
++* under the terms of version 2 of the GNU General Public License as 
++* published by the Free Software Foundation. 
++* 
++* This program is distributed in the hope that it will be useful, but WITHOUT 
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for 
++* more details. 
++* 
++* You should have received a copy of the GNU General Public License along with 
++* this program; if not, write to the Free Software Foundation, Inc., 
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA 
++* 
++* 
++******************************************************************************/
++
++/*Image2HeaderVersion: 2.18*/
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#if (RTL8812A_SUPPORT == 1)
++static BOOLEAN
++CheckPositive(
++	IN  PDM_ODM_T     pDM_Odm,
++	IN  const u4Byte  Condition1,
++	IN  const u4Byte  Condition2,
++	IN	const u4Byte  Condition3,
++	IN	const u4Byte  Condition4
++)
++{
++	u1Byte    _BoardType = ((pDM_Odm->BoardType & BIT4) >> 4) << 0 | /* _GLNA*/
++				((pDM_Odm->BoardType & BIT3) >> 3) << 1 | /* _GPA*/ 
++				((pDM_Odm->BoardType & BIT7) >> 7) << 2 | /* _ALNA*/
++				((pDM_Odm->BoardType & BIT6) >> 6) << 3 | /* _APA */
++				((pDM_Odm->BoardType & BIT2) >> 2) << 4;  /* _BT*/  
++
++	u4Byte	cond1   = Condition1, cond2 = Condition2, cond3 = Condition3, cond4 = Condition4;
++	u4Byte    driver1 = pDM_Odm->CutVersion       << 24 | 
++				(pDM_Odm->SupportInterface & 0xF0) << 16 | 
++				pDM_Odm->SupportPlatform  << 16 | 
++				pDM_Odm->PackageType      << 12 | 
++				(pDM_Odm->SupportInterface & 0x0F) << 8  |
++				_BoardType;
++
++	u4Byte    driver2 = (pDM_Odm->TypeGLNA & 0xFF) <<  0 |  
++				(pDM_Odm->TypeGPA & 0xFF)  <<  8 | 
++				(pDM_Odm->TypeALNA & 0xFF) << 16 | 
++				(pDM_Odm->TypeAPA & 0xFF)  << 24; 
++
++u4Byte    driver3 = 0;
++
++	u4Byte    driver4 = (pDM_Odm->TypeGLNA & 0xFF00) >>  8 |
++				(pDM_Odm->TypeGPA & 0xFF00) |
++				(pDM_Odm->TypeALNA & 0xFF00) << 8 |
++				(pDM_Odm->TypeAPA & 0xFF00)  << 16;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("===> CheckPositive (cond1, cond2, cond3, cond4) = (0x%X 0x%X 0x%X 0x%X)\n", cond1, cond2, cond3, cond4));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("===> CheckPositive (driver1, driver2, driver3, driver4) = (0x%X 0x%X 0x%X 0x%X)\n", driver1, driver2, driver3, driver4));
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("	(Platform, Interface) = (0x%X, 0x%X)\n", pDM_Odm->SupportPlatform, pDM_Odm->SupportInterface));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("	(Board, Package) = (0x%X, 0x%X)\n", pDM_Odm->BoardType, pDM_Odm->PackageType));
++
++
++	/*============== Value Defined Check ===============*/
++	/*QFN Type [15:12] and Cut Version [27:24] need to do value check*/
++	
++	if (((cond1 & 0x0000F000) != 0) && ((cond1 & 0x0000F000) != (driver1 & 0x0000F000)))
++		return FALSE;
++	if (((cond1 & 0x0F000000) != 0) && ((cond1 & 0x0F000000) != (driver1 & 0x0F000000)))
++		return FALSE;
++
++	/*=============== Bit Defined Check ================*/
++	/* We don't care [31:28] */
++
++	cond1   &= 0x00FF0FFF; 
++	driver1 &= 0x00FF0FFF; 
++
++	if ((cond1 & driver1) == cond1) {
++		u4Byte bitMask = 0;
++
++		if ((cond1 & 0x0F) == 0) /* BoardType is DONTCARE*/
++			return TRUE;
++
++		if ((cond1 & BIT0) != 0) /*GLNA*/
++			bitMask |= 0x000000FF;
++		if ((cond1 & BIT1) != 0) /*GPA*/
++			bitMask |= 0x0000FF00;
++		if ((cond1 & BIT2) != 0) /*ALNA*/
++			bitMask |= 0x00FF0000;
++		if ((cond1 & BIT3) != 0) /*APA*/
++			bitMask |= 0xFF000000;
++
++		if (((cond2 & bitMask) == (driver2 & bitMask)) && ((cond4 & bitMask) == (driver4 & bitMask)))  /* BoardType of each RF path is matched*/
++			return TRUE;
++		else
++			return FALSE;
++	} else
++		return FALSE;
++}
++static BOOLEAN
++CheckNegative(
++	IN  PDM_ODM_T     pDM_Odm,
++	IN  const u4Byte  Condition1,
++	IN  const u4Byte  Condition2
++)
++{
++	return TRUE;
++}
++
++/******************************************************************************
++*                           MAC_REG.TXT
++******************************************************************************/
++
++u4Byte Array_MP_8812A_MAC_REG[] = { 
++		0x010, 0x0000000C,
++	0x80000200,	0x00000000,	0x40000000,	0x00000000,
++		0x011, 0x00000066,
++	0xA0000000,	0x00000000,
++		0x011, 0x0000005A,
++	0xB0000000,	0x00000000,
++		0x025, 0x0000000F,
++		0x072, 0x00000000,
++		0x420, 0x00000080,
++		0x428, 0x0000000A,
++		0x429, 0x00000010,
++		0x430, 0x00000000,
++		0x431, 0x00000000,
++		0x432, 0x00000000,
++		0x433, 0x00000001,
++		0x434, 0x00000004,
++		0x435, 0x00000005,
++		0x436, 0x00000007,
++		0x437, 0x00000008,
++		0x43C, 0x00000004,
++		0x43D, 0x00000005,
++		0x43E, 0x00000007,
++		0x43F, 0x00000008,
++		0x440, 0x0000005D,
++		0x441, 0x00000001,
++		0x442, 0x00000000,
++		0x444, 0x00000010,
++		0x445, 0x00000000,
++		0x446, 0x00000000,
++		0x447, 0x00000000,
++		0x448, 0x00000000,
++		0x449, 0x000000F0,
++		0x44A, 0x0000000F,
++		0x44B, 0x0000003E,
++		0x44C, 0x00000010,
++		0x44D, 0x00000000,
++		0x44E, 0x00000000,
++		0x44F, 0x00000000,
++		0x450, 0x00000000,
++		0x451, 0x000000F0,
++		0x452, 0x0000000F,
++		0x453, 0x00000000,
++		0x45B, 0x00000080,
++		0x460, 0x00000066,
++		0x461, 0x00000066,
++		0x4C8, 0x000000FF,
++		0x4C9, 0x00000008,
++		0x4CC, 0x000000FF,
++		0x4CD, 0x000000FF,
++		0x4CE, 0x00000001,
++		0x500, 0x00000026,
++		0x501, 0x000000A2,
++		0x502, 0x0000002F,
++		0x503, 0x00000000,
++		0x504, 0x00000028,
++		0x505, 0x000000A3,
++		0x506, 0x0000005E,
++		0x507, 0x00000000,
++		0x508, 0x0000002B,
++		0x509, 0x000000A4,
++		0x50A, 0x0000005E,
++		0x50B, 0x00000000,
++		0x50C, 0x0000004F,
++		0x50D, 0x000000A4,
++		0x50E, 0x00000000,
++		0x50F, 0x00000000,
++		0x512, 0x0000001C,
++		0x514, 0x0000000A,
++		0x516, 0x0000000A,
++		0x525, 0x0000004F,
++		0x550, 0x00000010,
++		0x551, 0x00000010,
++		0x559, 0x00000002,
++		0x55C, 0x00000050,
++		0x55D, 0x000000FF,
++		0x604, 0x00000009,
++		0x605, 0x00000030,
++		0x607, 0x00000003,
++		0x608, 0x0000000E,
++		0x609, 0x0000002A,
++		0x620, 0x000000FF,
++		0x621, 0x000000FF,
++		0x622, 0x000000FF,
++		0x623, 0x000000FF,
++		0x624, 0x000000FF,
++		0x625, 0x000000FF,
++		0x626, 0x000000FF,
++		0x627, 0x000000FF,
++		0x638, 0x00000050,
++		0x63C, 0x0000000A,
++		0x63D, 0x0000000A,
++		0x63E, 0x0000000E,
++		0x63F, 0x0000000E,
++		0x640, 0x00000080,
++		0x642, 0x00000040,
++		0x643, 0x00000000,
++		0x652, 0x000000C8,
++		0x66E, 0x00000005,
++		0x700, 0x00000021,
++		0x701, 0x00000043,
++		0x702, 0x00000065,
++		0x703, 0x00000087,
++		0x708, 0x00000021,
++		0x709, 0x00000043,
++		0x70A, 0x00000065,
++		0x70B, 0x00000087,
++		0x718, 0x00000040,
++
++};
++
++void
++ODM_ReadAndConfig_MP_8812A_MAC_REG(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i         = 0;
++	u1Byte     cCond;
++	BOOLEAN bMatched = TRUE, bSkipped = FALSE;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8812A_MAC_REG)/sizeof(u4Byte);
++	pu4Byte    Array       = Array_MP_8812A_MAC_REG;
++	
++	u4Byte	v1 = 0, v2 = 0, pre_v1 = 0, pre_v2 = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8812A_MAC_REG\n"));
++
++	while ((i + 1) < ArrayLen) {
++		v1 = Array[i];
++		v2 = Array[i + 1];
++
++		if (v1 & (BIT31 | BIT30)) {/*positive & negative condition*/
++			if (v1 & BIT31) {/* positive condition*/
++				cCond  = (u1Byte)((v1 & (BIT29|BIT28)) >> 28);
++				if (cCond == COND_ENDIF) {/*end*/
++					bMatched = TRUE;
++					bSkipped = FALSE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ENDIF\n"));
++				} else if (cCond == COND_ELSE) { /*else*/
++					bMatched = bSkipped?FALSE:TRUE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ELSE\n"));
++				} else {/*if , else if*/
++					pre_v1 = v1;
++					pre_v2 = v2;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("IF or ELSE IF\n"));
++				}
++			} else if (v1 & BIT30) { /*negative condition*/
++				if (bSkipped == FALSE) {
++					if (CheckPositive(pDM_Odm, pre_v1, pre_v2, v1, v2)) {
++						bMatched = TRUE;
++						bSkipped = TRUE;
++					} else {
++						bMatched = FALSE;
++						bSkipped = FALSE;
++					}
++				} else
++					bMatched = FALSE;
++			}
++		} else {
++			if (bMatched)
++				odm_ConfigMAC_8812A(pDM_Odm, v1, (u1Byte)v2);
++		}
++		i = i + 2;
++	}
++}
++
++u4Byte
++ODM_GetVersion_MP_8812A_MAC_REG(void)
++{
++	   return 57;
++}
++
++#endif /* end of HWIMG_SUPPORT*/
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_mac.h b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_mac.h
+new file mode 100644
+index 0000000..0b0101d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_mac.h
+@@ -0,0 +1,39 @@
++/****************************************************************************** 
++* 
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved. 
++* 
++* This program is free software; you can redistribute it and/or modify it 
++* under the terms of version 2 of the GNU General Public License as 
++* published by the Free Software Foundation. 
++* 
++* This program is distributed in the hope that it will be useful, but WITHOUT 
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for 
++* more details. 
++* 
++* You should have received a copy of the GNU General Public License along with 
++* this program; if not, write to the Free Software Foundation, Inc., 
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA 
++* 
++* 
++******************************************************************************/
++
++/*Image2HeaderVersion: 2.18*/
++#if (RTL8812A_SUPPORT == 1)
++#ifndef __INC_MP_MAC_HW_IMG_8812A_H
++#define __INC_MP_MAC_HW_IMG_8812A_H
++
++
++/******************************************************************************
++*                           MAC_REG.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_MAC_REG(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_MAC_REG(void);
++
++#endif
++#endif /* end of HWIMG_SUPPORT*/
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_rf.c b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_rf.c
+new file mode 100644
+index 0000000..a2c0186
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_rf.c
+@@ -0,0 +1,3809 @@
++/****************************************************************************** 
++* 
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved. 
++* 
++* This program is free software; you can redistribute it and/or modify it 
++* under the terms of version 2 of the GNU General Public License as 
++* published by the Free Software Foundation. 
++* 
++* This program is distributed in the hope that it will be useful, but WITHOUT 
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for 
++* more details. 
++* 
++* You should have received a copy of the GNU General Public License along with 
++* this program; if not, write to the Free Software Foundation, Inc., 
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA 
++* 
++* 
++******************************************************************************/
++
++/*Image2HeaderVersion: 2.18*/
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#if (RTL8812A_SUPPORT == 1)
++static BOOLEAN
++CheckPositive(
++	IN  PDM_ODM_T     pDM_Odm,
++	IN  const u4Byte  Condition1,
++	IN  const u4Byte  Condition2,
++	IN	const u4Byte  Condition3,
++	IN	const u4Byte  Condition4
++)
++{
++	u1Byte    _BoardType = ((pDM_Odm->BoardType & BIT4) >> 4) << 0 | /* _GLNA*/
++				((pDM_Odm->BoardType & BIT3) >> 3) << 1 | /* _GPA*/ 
++				((pDM_Odm->BoardType & BIT7) >> 7) << 2 | /* _ALNA*/
++				((pDM_Odm->BoardType & BIT6) >> 6) << 3 | /* _APA */
++				((pDM_Odm->BoardType & BIT2) >> 2) << 4;  /* _BT*/  
++
++	u4Byte	cond1   = Condition1, cond2 = Condition2, cond3 = Condition3, cond4 = Condition4;
++	u4Byte    driver1 = pDM_Odm->CutVersion       << 24 | 
++				(pDM_Odm->SupportInterface & 0xF0) << 16 | 
++				pDM_Odm->SupportPlatform  << 16 | 
++				pDM_Odm->PackageType      << 12 | 
++				(pDM_Odm->SupportInterface & 0x0F) << 8  |
++				_BoardType;
++
++	u4Byte    driver2 = (pDM_Odm->TypeGLNA & 0xFF) <<  0 |  
++				(pDM_Odm->TypeGPA & 0xFF)  <<  8 | 
++				(pDM_Odm->TypeALNA & 0xFF) << 16 | 
++				(pDM_Odm->TypeAPA & 0xFF)  << 24; 
++
++u4Byte    driver3 = 0;
++
++	u4Byte    driver4 = (pDM_Odm->TypeGLNA & 0xFF00) >>  8 |
++				(pDM_Odm->TypeGPA & 0xFF00) |
++				(pDM_Odm->TypeALNA & 0xFF00) << 8 |
++				(pDM_Odm->TypeAPA & 0xFF00)  << 16;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("===> CheckPositive (cond1, cond2, cond3, cond4) = (0x%X 0x%X 0x%X 0x%X)\n", cond1, cond2, cond3, cond4));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("===> CheckPositive (driver1, driver2, driver3, driver4) = (0x%X 0x%X 0x%X 0x%X)\n", driver1, driver2, driver3, driver4));
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("	(Platform, Interface) = (0x%X, 0x%X)\n", pDM_Odm->SupportPlatform, pDM_Odm->SupportInterface));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, 
++	("	(Board, Package) = (0x%X, 0x%X)\n", pDM_Odm->BoardType, pDM_Odm->PackageType));
++
++
++	/*============== Value Defined Check ===============*/
++	/*QFN Type [15:12] and Cut Version [27:24] need to do value check*/
++	
++	if (((cond1 & 0x0000F000) != 0) && ((cond1 & 0x0000F000) != (driver1 & 0x0000F000)))
++		return FALSE;
++	if (((cond1 & 0x0F000000) != 0) && ((cond1 & 0x0F000000) != (driver1 & 0x0F000000)))
++		return FALSE;
++
++	/*=============== Bit Defined Check ================*/
++	/* We don't care [31:28] */
++
++	cond1   &= 0x00FF0FFF; 
++	driver1 &= 0x00FF0FFF; 
++
++	if ((cond1 & driver1) == cond1) {
++		u4Byte bitMask = 0;
++
++		if ((cond1 & 0x0F) == 0) /* BoardType is DONTCARE*/
++			return TRUE;
++
++		if ((cond1 & BIT0) != 0) /*GLNA*/
++			bitMask |= 0x000000FF;
++		if ((cond1 & BIT1) != 0) /*GPA*/
++			bitMask |= 0x0000FF00;
++		if ((cond1 & BIT2) != 0) /*ALNA*/
++			bitMask |= 0x00FF0000;
++		if ((cond1 & BIT3) != 0) /*APA*/
++			bitMask |= 0xFF000000;
++
++		if (((cond2 & bitMask) == (driver2 & bitMask)) && ((cond4 & bitMask) == (driver4 & bitMask)))  /* BoardType of each RF path is matched*/
++			return TRUE;
++		else
++			return FALSE;
++	} else
++		return FALSE;
++}
++static BOOLEAN
++CheckNegative(
++	IN  PDM_ODM_T     pDM_Odm,
++	IN  const u4Byte  Condition1,
++	IN  const u4Byte  Condition2
++)
++{
++	return TRUE;
++}
++
++/******************************************************************************
++*                           RadioA.TXT
++******************************************************************************/
++
++u4Byte Array_MP_8812A_RadioA[] = { 
++		0x000, 0x00010000,
++		0x018, 0x0001712A,
++		0x056, 0x00051CF2,
++		0x066, 0x00040000,
++		0x01E, 0x00080000,
++		0x089, 0x00000080,
++	0x80000001,	0x00000000,	0x40000000,	0x00000000,
++		0x086, 0x00014B3A,
++	0x90000001,	0x00000005,	0x40000000,	0x00000000,
++		0x086, 0x00014B3A,
++	0xA0000000,	0x00000000,
++		0x086, 0x00014B38,
++	0xB0000000,	0x00000000,
++	0x80000004,	0x00000000,	0x40000000,	0x00000000,
++		0x08B, 0x00080180,
++	0xA0000000,	0x00000000,
++		0x08B, 0x00087180,
++	0xB0000000,	0x00000000,
++		0x0B1, 0x0001FC1A,
++		0x0B3, 0x000F0810,
++		0x0B4, 0x0001A78D,
++		0x0BA, 0x00086180,
++		0x018, 0x00000006,
++		0x0EF, 0x00002000,
++	0x80000001,	0x00000000,	0x40000000,	0x00000000,
++		0x03B, 0x0003F218,
++		0x03B, 0x00030A58,
++		0x03B, 0x0002FA58,
++		0x03B, 0x00022590,
++		0x03B, 0x0001FA50,
++		0x03B, 0x00010248,
++		0x03B, 0x00008240,
++	0x90000001,	0x00000005,	0x40000000,	0x00000000,
++		0x03B, 0x0003F218,
++		0x03B, 0x00030A58,
++		0x03B, 0x0002FA58,
++		0x03B, 0x00022590,
++		0x03B, 0x0001FA50,
++		0x03B, 0x00010248,
++		0x03B, 0x00008240,
++	0xA0000000,	0x00000000,
++		0x03B, 0x00038A58,
++		0x03B, 0x00037A58,
++		0x03B, 0x0002A590,
++		0x03B, 0x00027A50,
++		0x03B, 0x00018248,
++		0x03B, 0x00010240,
++		0x03B, 0x00008240,
++	0xB0000000,	0x00000000,
++		0x0EF, 0x00000100,
++	0x80000002,	0x00000000,	0x40000000,	0x00000000,
++		0x034, 0x0000A4EE,
++		0x034, 0x00009076,
++		0x034, 0x00008073,
++		0x034, 0x00007070,
++		0x034, 0x0000606D,
++		0x034, 0x0000506A,
++		0x034, 0x00004049,
++		0x034, 0x00003046,
++		0x034, 0x00002028,
++		0x034, 0x00001025,
++		0x034, 0x00000022,
++	0xA0000000,	0x00000000,
++		0x034, 0x0000ADF4,
++		0x034, 0x00009DF1,
++		0x034, 0x00008DEE,
++		0x034, 0x00007DEB,
++		0x034, 0x00006DE8,
++		0x034, 0x00005DE5,
++		0x034, 0x00004DE2,
++		0x034, 0x00003CE6,
++		0x034, 0x000024E7,
++		0x034, 0x000014E4,
++		0x034, 0x000004E1,
++	0xB0000000,	0x00000000,
++		0x0EF, 0x00000000,
++		0x0EF, 0x000020A2,
++		0x0DF, 0x00000080,
++		0x035, 0x00000192,
++		0x035, 0x00008192,
++		0x035, 0x00010192,
++		0x036, 0x00000024,
++		0x036, 0x00008024,
++		0x036, 0x00010024,
++		0x036, 0x00018024,
++		0x0EF, 0x00000000,
++		0x051, 0x00000C21,
++		0x052, 0x000006D9,
++		0x053, 0x000FC649,
++		0x054, 0x0000017E,
++		0x0EF, 0x00000002,
++		0x008, 0x00008400,
++		0x018, 0x0001712A,
++		0x0EF, 0x00001000,
++		0x03A, 0x00000080,
++		0x03B, 0x0003A02C,
++		0x03C, 0x00004000,
++		0x03A, 0x00000400,
++		0x03B, 0x0003202C,
++		0x03C, 0x00010000,
++		0x03A, 0x000000A0,
++		0x03B, 0x0002B064,
++		0x03C, 0x00004000,
++		0x03A, 0x000000D8,
++		0x03B, 0x00023070,
++		0x03C, 0x00004000,
++		0x03A, 0x00000468,
++		0x03B, 0x0001B870,
++		0x03C, 0x00010000,
++		0x03A, 0x00000098,
++		0x03B, 0x00012085,
++		0x03C, 0x000E4000,
++		0x03A, 0x00000418,
++		0x03B, 0x0000A080,
++		0x03C, 0x000F0000,
++		0x03A, 0x00000418,
++		0x03B, 0x00002080,
++		0x03C, 0x00010000,
++		0x03A, 0x00000080,
++		0x03B, 0x0007A02C,
++		0x03C, 0x00004000,
++		0x03A, 0x00000400,
++		0x03B, 0x0007202C,
++		0x03C, 0x00010000,
++		0x03A, 0x000000A0,
++		0x03B, 0x0006B064,
++		0x03C, 0x00004000,
++		0x03A, 0x000000D8,
++		0x03B, 0x00063070,
++		0x03C, 0x00004000,
++		0x03A, 0x00000468,
++		0x03B, 0x0005B870,
++		0x03C, 0x00010000,
++		0x03A, 0x00000098,
++		0x03B, 0x00052085,
++		0x03C, 0x000E4000,
++		0x03A, 0x00000418,
++		0x03B, 0x0004A080,
++		0x03C, 0x000F0000,
++		0x03A, 0x00000418,
++		0x03B, 0x00042080,
++		0x03C, 0x00010000,
++		0x03A, 0x00000080,
++		0x03B, 0x000BA02C,
++		0x03C, 0x00004000,
++		0x03A, 0x00000400,
++		0x03B, 0x000B202C,
++		0x03C, 0x00010000,
++		0x03A, 0x000000A0,
++		0x03B, 0x000AB064,
++		0x03C, 0x00004000,
++		0x03A, 0x000000D8,
++		0x03B, 0x000A3070,
++		0x03C, 0x00004000,
++		0x03A, 0x00000468,
++		0x03B, 0x0009B870,
++		0x03C, 0x00010000,
++		0x03A, 0x00000098,
++		0x03B, 0x00092085,
++		0x03C, 0x000E4000,
++		0x03A, 0x00000418,
++		0x03B, 0x0008A080,
++		0x03C, 0x000F0000,
++		0x03A, 0x00000418,
++		0x03B, 0x00082080,
++		0x03C, 0x00010000,
++		0x0EF, 0x00001100,
++	0x80000008,	0x00000000,	0x40000000,	0x00000000,
++		0x034, 0x0004A0B2,
++		0x034, 0x000490AF,
++		0x034, 0x00048070,
++		0x034, 0x0004706D,
++		0x034, 0x00046050,
++		0x034, 0x0004504D,
++		0x034, 0x0004404A,
++		0x034, 0x00043047,
++		0x034, 0x0004200A,
++		0x034, 0x00041007,
++		0x034, 0x00040004,
++	0x90000008,	0x05000000,	0x40000000,	0x00000000,
++		0x034, 0x0004A0B2,
++		0x034, 0x000490AF,
++		0x034, 0x00048070,
++		0x034, 0x0004706D,
++		0x034, 0x0004604D,
++		0x034, 0x0004504A,
++		0x034, 0x00044047,
++		0x034, 0x00043044,
++		0x034, 0x00042007,
++		0x034, 0x00041004,
++		0x034, 0x00040001,
++	0xA0000000,	0x00000000,
++		0x034, 0x0004ADF5,
++		0x034, 0x00049DF2,
++		0x034, 0x00048DEF,
++		0x034, 0x00047DEC,
++		0x034, 0x00046DE9,
++		0x034, 0x00045DE6,
++		0x034, 0x00044DE3,
++		0x034, 0x000438C8,
++		0x034, 0x000428C5,
++		0x034, 0x000418C2,
++		0x034, 0x000408C0,
++	0xB0000000,	0x00000000,
++	0x80000008,	0x00000000,	0x40000000,	0x00000000,
++		0x034, 0x0002A0B2,
++		0x034, 0x000290AF,
++		0x034, 0x00028070,
++		0x034, 0x0002706D,
++		0x034, 0x00026050,
++		0x034, 0x0002504D,
++		0x034, 0x0002404A,
++		0x034, 0x00023047,
++		0x034, 0x0002200A,
++		0x034, 0x00021007,
++		0x034, 0x00020004,
++	0x90000008,	0x05000000,	0x40000000,	0x00000000,
++		0x034, 0x0002A0B4,
++		0x034, 0x000290B1,
++		0x034, 0x00028072,
++		0x034, 0x0002706F,
++		0x034, 0x0002604F,
++		0x034, 0x0002504C,
++		0x034, 0x00024049,
++		0x034, 0x00023046,
++		0x034, 0x00022009,
++		0x034, 0x00021006,
++		0x034, 0x00020003,
++	0xA0000000,	0x00000000,
++		0x034, 0x0002ADF5,
++		0x034, 0x00029DF2,
++		0x034, 0x00028DEF,
++		0x034, 0x00027DEC,
++		0x034, 0x00026DE9,
++		0x034, 0x00025DE6,
++		0x034, 0x00024DE3,
++		0x034, 0x000238C8,
++		0x034, 0x000228C5,
++		0x034, 0x000218C2,
++		0x034, 0x000208C0,
++	0xB0000000,	0x00000000,
++	0x80000008,	0x00000000,	0x40000000,	0x00000000,
++		0x034, 0x0000A0B2,
++		0x034, 0x000090AF,
++		0x034, 0x00008070,
++		0x034, 0x0000706D,
++		0x034, 0x00006050,
++		0x034, 0x0000504D,
++		0x034, 0x0000404A,
++		0x034, 0x00003047,
++		0x034, 0x0000200A,
++		0x034, 0x00001007,
++		0x034, 0x00000004,
++	0x90000008,	0x05000000,	0x40000000,	0x00000000,
++		0x034, 0x0000A0B2,
++		0x034, 0x000090AF,
++		0x034, 0x00008070,
++		0x034, 0x0000706D,
++		0x034, 0x0000604D,
++		0x034, 0x0000504A,
++		0x034, 0x00004047,
++		0x034, 0x00003044,
++		0x034, 0x00002007,
++		0x034, 0x00001004,
++		0x034, 0x00000001,
++	0xA0000000,	0x00000000,
++		0x034, 0x0000AFF7,
++		0x034, 0x00009DF7,
++		0x034, 0x00008DF4,
++		0x034, 0x00007DF1,
++		0x034, 0x00006DEE,
++		0x034, 0x00005DEB,
++		0x034, 0x00004DE8,
++		0x034, 0x000038CC,
++		0x034, 0x000028C9,
++		0x034, 0x000018C6,
++		0x034, 0x000008C3,
++	0xB0000000,	0x00000000,
++		0x0EF, 0x00000000,
++	0x80000008,	0x00000000,	0x40000000,	0x00000000,
++		0x018, 0x0001712A,
++		0x0EF, 0x00000040,
++		0x035, 0x000001D4,
++		0x035, 0x000081D4,
++		0x035, 0x000101D4,
++		0x035, 0x000201B4,
++		0x035, 0x000281B4,
++		0x035, 0x000301B4,
++		0x035, 0x000401B4,
++		0x035, 0x000481B4,
++		0x035, 0x000501B4,
++	0x90000008,	0x05000000,	0x40000000,	0x00000000,
++		0x018, 0x0001712A,
++		0x0EF, 0x00000040,
++		0x035, 0x000001D4,
++		0x035, 0x000081D4,
++		0x035, 0x000101D4,
++		0x035, 0x000201B4,
++		0x035, 0x000281B4,
++		0x035, 0x000301B4,
++		0x035, 0x000401B4,
++		0x035, 0x000481B4,
++		0x035, 0x000501B4,
++	0xA0000000,	0x00000000,
++		0x018, 0x0001712A,
++		0x0EF, 0x00000040,
++		0x035, 0x00000188,
++		0x035, 0x00008147,
++		0x035, 0x00010147,
++		0x035, 0x000201D7,
++		0x035, 0x000281D7,
++		0x035, 0x000301D7,
++		0x035, 0x000401D8,
++		0x035, 0x000481D8,
++		0x035, 0x000501D8,
++	0xB0000000,	0x00000000,
++		0x0EF, 0x00000000,
++	0x80000008,	0x00000000,	0x40000000,	0x00000000,
++		0x018, 0x0001712A,
++		0x0EF, 0x00000010,
++		0x036, 0x00004BFB,
++		0x036, 0x0000CBFB,
++		0x036, 0x00014BFB,
++		0x036, 0x0001CBFB,
++		0x036, 0x00024F4B,
++		0x036, 0x0002CF4B,
++		0x036, 0x00034F4B,
++		0x036, 0x0003CF4B,
++		0x036, 0x00044F4B,
++		0x036, 0x0004CF4B,
++		0x036, 0x00054F4B,
++		0x036, 0x0005CF4B,
++	0x90000008,	0x05000000,	0x40000000,	0x00000000,
++		0x018, 0x0001712A,
++		0x0EF, 0x00000010,
++		0x036, 0x00004BFB,
++		0x036, 0x0000CBFB,
++		0x036, 0x00014BFB,
++		0x036, 0x0001CBFB,
++		0x036, 0x00024F4B,
++		0x036, 0x0002CF4B,
++		0x036, 0x00034F4B,
++		0x036, 0x0003CF4B,
++		0x036, 0x00044F4B,
++		0x036, 0x0004CF4B,
++		0x036, 0x00054F4B,
++		0x036, 0x0005CF4B,
++	0xA0000000,	0x00000000,
++		0x018, 0x0001712A,
++		0x0EF, 0x00000010,
++		0x036, 0x00084EB4,
++		0x036, 0x0008CC35,
++		0x036, 0x00094C35,
++		0x036, 0x0009CC35,
++		0x036, 0x000A4C35,
++		0x036, 0x000ACC35,
++		0x036, 0x000B4C35,
++		0x036, 0x000BCC35,
++		0x036, 0x000C4C34,
++		0x036, 0x000CCC35,
++		0x036, 0x000D4C35,
++		0x036, 0x000DCC35,
++	0xB0000000,	0x00000000,
++		0x0EF, 0x00000000,
++		0x0EF, 0x00000008,
++	0x80000008,	0x00000000,	0x40000000,	0x00000000,
++		0x03C, 0x000002CC,
++		0x03C, 0x00000522,
++		0x03C, 0x00000902,
++	0x90000008,	0x05000000,	0x40000000,	0x00000000,
++		0x03C, 0x000002CC,
++		0x03C, 0x00000522,
++		0x03C, 0x00000902,
++	0xA0000000,	0x00000000,
++		0x03C, 0x000002A8,
++		0x03C, 0x000005A2,
++		0x03C, 0x00000880,
++	0xB0000000,	0x00000000,
++		0x0EF, 0x00000000,
++		0x018, 0x0001712A,
++		0x0EF, 0x00000002,
++		0x0DF, 0x00000080,
++		0x01F, 0x00000064,
++	0x80000008,	0x00000000,	0x40000000,	0x00000000,
++		0x061, 0x000FDD43,
++		0x062, 0x00038F4B,
++		0x063, 0x00032117,
++		0x064, 0x000194AC,
++		0x065, 0x000931D1,
++	0x90000008,	0x05000000,	0x40000000,	0x00000000,
++		0x061, 0x000FDD43,
++		0x062, 0x00038F4B,
++		0x063, 0x00032117,
++		0x064, 0x000194AC,
++		0x065, 0x000931D2,
++	0xA0000000,	0x00000000,
++		0x061, 0x000E5D53,
++		0x062, 0x00038FCD,
++		0x063, 0x000114EB,
++		0x064, 0x000196AC,
++		0x065, 0x000911D7,
++	0xB0000000,	0x00000000,
++		0x008, 0x00008400,
++		0x01C, 0x000739D2,
++		0x0B4, 0x0001E78D,
++		0x018, 0x0001F12A,
++		0xFFE, 0x00000000,
++		0xFFE, 0x00000000,
++		0xFFE, 0x00000000,
++		0xFFE, 0x00000000,
++		0x0B4, 0x0001A78D,
++		0x018, 0x0001712A,
++
++};
++
++void
++ODM_ReadAndConfig_MP_8812A_RadioA(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i         = 0;
++	u1Byte     cCond;
++	BOOLEAN bMatched = TRUE, bSkipped = FALSE;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8812A_RadioA)/sizeof(u4Byte);
++	pu4Byte    Array       = Array_MP_8812A_RadioA;
++	
++	u4Byte	v1 = 0, v2 = 0, pre_v1 = 0, pre_v2 = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8812A_RadioA\n"));
++
++	while ((i + 1) < ArrayLen) {
++		v1 = Array[i];
++		v2 = Array[i + 1];
++
++		if (v1 & (BIT31 | BIT30)) {/*positive & negative condition*/
++			if (v1 & BIT31) {/* positive condition*/
++				cCond  = (u1Byte)((v1 & (BIT29|BIT28)) >> 28);
++				if (cCond == COND_ENDIF) {/*end*/
++					bMatched = TRUE;
++					bSkipped = FALSE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ENDIF\n"));
++				} else if (cCond == COND_ELSE) { /*else*/
++					bMatched = bSkipped?FALSE:TRUE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ELSE\n"));
++				} else {/*if , else if*/
++					pre_v1 = v1;
++					pre_v2 = v2;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("IF or ELSE IF\n"));
++				}
++			} else if (v1 & BIT30) { /*negative condition*/
++				if (bSkipped == FALSE) {
++					if (CheckPositive(pDM_Odm, pre_v1, pre_v2, v1, v2)) {
++						bMatched = TRUE;
++						bSkipped = TRUE;
++					} else {
++						bMatched = FALSE;
++						bSkipped = FALSE;
++					}
++				} else
++					bMatched = FALSE;
++			}
++		} else {
++			if (bMatched)
++				odm_ConfigRF_RadioA_8812A(pDM_Odm, v1, v2);
++		}
++		i = i + 2;
++	}
++}
++
++u4Byte
++ODM_GetVersion_MP_8812A_RadioA(void)
++{
++	   return 57;
++}
++
++/******************************************************************************
++*                           RadioB.TXT
++******************************************************************************/
++
++u4Byte Array_MP_8812A_RadioB[] = { 
++		0x056, 0x00051CF2,
++		0x066, 0x00040000,
++		0x089, 0x00000080,
++	0x80000001,	0x00000000,	0x40000000,	0x00000000,
++		0x086, 0x00014B3A,
++	0x90000001,	0x00000005,	0x40000000,	0x00000000,
++		0x086, 0x00014B3A,
++	0xA0000000,	0x00000000,
++		0x086, 0x00014B38,
++	0xB0000000,	0x00000000,
++	0x80000004,	0x00000000,	0x40000000,	0x00000000,
++		0x08B, 0x00080180,
++	0xA0000000,	0x00000000,
++		0x08B, 0x00087180,
++	0xB0000000,	0x00000000,
++		0x018, 0x00000006,
++		0x0EF, 0x00002000,
++	0x80000001,	0x00000000,	0x40000000,	0x00000000,
++		0x03B, 0x0003F218,
++		0x03B, 0x00030A58,
++		0x03B, 0x0002FA58,
++		0x03B, 0x00022590,
++		0x03B, 0x0001FA50,
++		0x03B, 0x00010248,
++		0x03B, 0x00008240,
++	0x90000001,	0x00000005,	0x40000000,	0x00000000,
++		0x03B, 0x0003F218,
++		0x03B, 0x00030A58,
++		0x03B, 0x0002FA58,
++		0x03B, 0x00022590,
++		0x03B, 0x0001FA50,
++		0x03B, 0x00010248,
++		0x03B, 0x00008240,
++	0xA0000000,	0x00000000,
++		0x03B, 0x00038A58,
++		0x03B, 0x00037A58,
++		0x03B, 0x0002A590,
++		0x03B, 0x00027A50,
++		0x03B, 0x00018248,
++		0x03B, 0x00010240,
++		0x03B, 0x00008240,
++	0xB0000000,	0x00000000,
++		0x0EF, 0x00000100,
++	0x80000002,	0x00000000,	0x40000000,	0x00000000,
++		0x034, 0x0000A4EE,
++		0x034, 0x00009076,
++		0x034, 0x00008073,
++		0x034, 0x00007070,
++		0x034, 0x0000606D,
++		0x034, 0x0000506A,
++		0x034, 0x00004049,
++		0x034, 0x00003046,
++		0x034, 0x00002028,
++		0x034, 0x00001025,
++		0x034, 0x00000022,
++	0xA0000000,	0x00000000,
++		0x034, 0x0000ADF4,
++		0x034, 0x00009DF1,
++		0x034, 0x00008DEE,
++		0x034, 0x00007DEB,
++		0x034, 0x00006DE8,
++		0x034, 0x00005DE5,
++		0x034, 0x00004DE2,
++		0x034, 0x00003CE6,
++		0x034, 0x000024E7,
++		0x034, 0x000014E4,
++		0x034, 0x000004E1,
++	0xB0000000,	0x00000000,
++		0x0EF, 0x00000000,
++		0x0EF, 0x000020A2,
++		0x0DF, 0x00000080,
++		0x035, 0x00000192,
++		0x035, 0x00008192,
++		0x035, 0x00010192,
++		0x036, 0x00000024,
++		0x036, 0x00008024,
++		0x036, 0x00010024,
++		0x036, 0x00018024,
++		0x0EF, 0x00000000,
++		0x051, 0x00000C21,
++		0x052, 0x000006D9,
++		0x053, 0x000FC649,
++		0x054, 0x0000017E,
++		0x0EF, 0x00000002,
++		0x008, 0x00008400,
++		0x018, 0x0001712A,
++		0x0EF, 0x00001000,
++		0x03A, 0x00000080,
++		0x03B, 0x0003A02C,
++		0x03C, 0x00004000,
++		0x03A, 0x00000400,
++		0x03B, 0x0003202C,
++		0x03C, 0x00010000,
++		0x03A, 0x000000A0,
++		0x03B, 0x0002B064,
++		0x03C, 0x00004000,
++		0x03A, 0x000000D8,
++		0x03B, 0x00023070,
++		0x03C, 0x00004000,
++		0x03A, 0x00000468,
++		0x03B, 0x0001B870,
++		0x03C, 0x00010000,
++		0x03A, 0x00000098,
++		0x03B, 0x00012085,
++		0x03C, 0x000E4000,
++		0x03A, 0x00000418,
++		0x03B, 0x0000A080,
++		0x03C, 0x000F0000,
++		0x03A, 0x00000418,
++		0x03B, 0x00002080,
++		0x03C, 0x00010000,
++		0x03A, 0x00000080,
++		0x03B, 0x0007A02C,
++		0x03C, 0x00004000,
++		0x03A, 0x00000400,
++		0x03B, 0x0007202C,
++		0x03C, 0x00010000,
++		0x03A, 0x000000A0,
++		0x03B, 0x0006B064,
++		0x03C, 0x00004000,
++		0x03A, 0x000000D8,
++		0x03B, 0x00063070,
++		0x03C, 0x00004000,
++		0x03A, 0x00000468,
++		0x03B, 0x0005B870,
++		0x03C, 0x00010000,
++		0x03A, 0x00000098,
++		0x03B, 0x00052085,
++		0x03C, 0x000E4000,
++		0x03A, 0x00000418,
++		0x03B, 0x0004A080,
++		0x03C, 0x000F0000,
++		0x03A, 0x00000418,
++		0x03B, 0x00042080,
++		0x03C, 0x00010000,
++		0x03A, 0x00000080,
++		0x03B, 0x000BA02C,
++		0x03C, 0x00004000,
++		0x03A, 0x00000400,
++		0x03B, 0x000B202C,
++		0x03C, 0x00010000,
++		0x03A, 0x000000A0,
++		0x03B, 0x000AB064,
++		0x03C, 0x00004000,
++		0x03A, 0x000000D8,
++		0x03B, 0x000A3070,
++		0x03C, 0x00004000,
++		0x03A, 0x00000468,
++		0x03B, 0x0009B870,
++		0x03C, 0x00010000,
++		0x03A, 0x00000098,
++		0x03B, 0x00092085,
++		0x03C, 0x000E4000,
++		0x03A, 0x00000418,
++		0x03B, 0x0008A080,
++		0x03C, 0x000F0000,
++		0x03A, 0x00000418,
++		0x03B, 0x00082080,
++		0x03C, 0x00010000,
++		0x0EF, 0x00001100,
++	0x80000008,	0x00000000,	0x40000000,	0x00000000,
++		0x034, 0x0004A0B2,
++		0x034, 0x000490AF,
++		0x034, 0x00048070,
++		0x034, 0x0004706D,
++		0x034, 0x00046050,
++		0x034, 0x0004504D,
++		0x034, 0x0004404A,
++		0x034, 0x00043047,
++		0x034, 0x0004200A,
++		0x034, 0x00041007,
++		0x034, 0x00040004,
++	0x90000008,	0x05000000,	0x40000000,	0x00000000,
++		0x034, 0x0004A0B1,
++		0x034, 0x000490AE,
++		0x034, 0x0004806F,
++		0x034, 0x0004706C,
++		0x034, 0x0004604C,
++		0x034, 0x00045049,
++		0x034, 0x00044046,
++		0x034, 0x00043043,
++		0x034, 0x00042006,
++		0x034, 0x00041003,
++		0x034, 0x00040000,
++	0xA0000000,	0x00000000,
++		0x034, 0x0004ADF5,
++		0x034, 0x00049DF2,
++		0x034, 0x00048DEF,
++		0x034, 0x00047DEC,
++		0x034, 0x00046DE9,
++		0x034, 0x00045DE6,
++		0x034, 0x00044DE3,
++		0x034, 0x000438C8,
++		0x034, 0x000428C5,
++		0x034, 0x000418C2,
++		0x034, 0x000408C0,
++	0xB0000000,	0x00000000,
++	0x80000008,	0x00000000,	0x40000000,	0x00000000,
++		0x034, 0x0002A0B2,
++		0x034, 0x000290AF,
++		0x034, 0x00028070,
++		0x034, 0x0002706D,
++		0x034, 0x00026050,
++		0x034, 0x0002504D,
++		0x034, 0x0002404A,
++		0x034, 0x00023047,
++		0x034, 0x0002200A,
++		0x034, 0x00021007,
++		0x034, 0x00020004,
++	0x90000008,	0x05000000,	0x40000000,	0x00000000,
++		0x034, 0x0002A0B3,
++		0x034, 0x000290B0,
++		0x034, 0x00028071,
++		0x034, 0x0002706E,
++		0x034, 0x0002604E,
++		0x034, 0x0002504B,
++		0x034, 0x00024048,
++		0x034, 0x00023045,
++		0x034, 0x00022008,
++		0x034, 0x00021005,
++		0x034, 0x00020002,
++	0xA0000000,	0x00000000,
++		0x034, 0x0002ADF5,
++		0x034, 0x00029DF2,
++		0x034, 0x00028DEF,
++		0x034, 0x00027DEC,
++		0x034, 0x00026DE9,
++		0x034, 0x00025DE6,
++		0x034, 0x00024DE3,
++		0x034, 0x000238C8,
++		0x034, 0x000228C5,
++		0x034, 0x000218C2,
++		0x034, 0x000208C0,
++	0xB0000000,	0x00000000,
++	0x80000008,	0x00000000,	0x40000000,	0x00000000,
++		0x034, 0x0000A0B2,
++		0x034, 0x000090AF,
++		0x034, 0x00008070,
++		0x034, 0x0000706D,
++		0x034, 0x00006050,
++		0x034, 0x0000504D,
++		0x034, 0x0000404A,
++		0x034, 0x00003047,
++		0x034, 0x0000200A,
++		0x034, 0x00001007,
++		0x034, 0x00000004,
++	0x90000008,	0x05000000,	0x40000000,	0x00000000,
++		0x034, 0x0000A0B3,
++		0x034, 0x000090B0,
++		0x034, 0x00008070,
++		0x034, 0x0000706D,
++		0x034, 0x0000604D,
++		0x034, 0x0000504A,
++		0x034, 0x00004047,
++		0x034, 0x00003044,
++		0x034, 0x00002007,
++		0x034, 0x00001004,
++		0x034, 0x00000001,
++	0xA0000000,	0x00000000,
++		0x034, 0x0000AFF7,
++		0x034, 0x00009DF7,
++		0x034, 0x00008DF4,
++		0x034, 0x00007DF1,
++		0x034, 0x00006DEE,
++		0x034, 0x00005DEB,
++		0x034, 0x00004DE8,
++		0x034, 0x000038CC,
++		0x034, 0x000028C9,
++		0x034, 0x000018C6,
++		0x034, 0x000008C3,
++	0xB0000000,	0x00000000,
++		0x0EF, 0x00000000,
++	0x80000008,	0x00000000,	0x40000000,	0x00000000,
++		0x018, 0x0001712A,
++		0x0EF, 0x00000040,
++		0x035, 0x000001C5,
++		0x035, 0x000081C5,
++		0x035, 0x000101C5,
++		0x035, 0x00020174,
++		0x035, 0x00028174,
++		0x035, 0x00030174,
++		0x035, 0x00040185,
++		0x035, 0x00048185,
++		0x035, 0x00050185,
++		0x0EF, 0x00000000,
++	0x90000008,	0x05000000,	0x40000000,	0x00000000,
++		0x018, 0x0001712A,
++		0x0EF, 0x00000040,
++		0x035, 0x000001C5,
++		0x035, 0x000081C5,
++		0x035, 0x000101C5,
++		0x035, 0x00020174,
++		0x035, 0x00028174,
++		0x035, 0x00030174,
++		0x035, 0x00040185,
++		0x035, 0x00048185,
++		0x035, 0x00050185,
++		0x0EF, 0x00000000,
++	0xA0000000,	0x00000000,
++		0x018, 0x0001712A,
++		0x0EF, 0x00000040,
++		0x035, 0x00000188,
++		0x035, 0x00008147,
++		0x035, 0x00010147,
++		0x035, 0x000201D7,
++		0x035, 0x000281D7,
++		0x035, 0x000301D7,
++		0x035, 0x000401D8,
++		0x035, 0x000481D8,
++		0x035, 0x000501D8,
++		0x0EF, 0x00000000,
++	0xB0000000,	0x00000000,
++	0x80000008,	0x00000000,	0x40000000,	0x00000000,
++		0x018, 0x0001712A,
++		0x0EF, 0x00000010,
++		0x036, 0x00005B8B,
++		0x036, 0x0000DB8B,
++		0x036, 0x00015B8B,
++		0x036, 0x0001DB8B,
++		0x036, 0x000262DB,
++		0x036, 0x0002E2DB,
++		0x036, 0x000362DB,
++		0x036, 0x0003E2DB,
++		0x036, 0x0004553B,
++		0x036, 0x0004D53B,
++		0x036, 0x0005553B,
++		0x036, 0x0005D53B,
++	0x90000008,	0x05000000,	0x40000000,	0x00000000,
++		0x018, 0x0001712A,
++		0x0EF, 0x00000010,
++		0x036, 0x00005B8B,
++		0x036, 0x0000DB8B,
++		0x036, 0x00015B8B,
++		0x036, 0x0001DB8B,
++		0x036, 0x000262DB,
++		0x036, 0x0002E2DB,
++		0x036, 0x000362DB,
++		0x036, 0x0003E2DB,
++		0x036, 0x0004553B,
++		0x036, 0x0004D53B,
++		0x036, 0x0005553B,
++		0x036, 0x0005D53B,
++	0xA0000000,	0x00000000,
++		0x018, 0x0001712A,
++		0x0EF, 0x00000010,
++		0x036, 0x00084EB4,
++		0x036, 0x0008CC35,
++		0x036, 0x00094C35,
++		0x036, 0x0009CC35,
++		0x036, 0x000A4C35,
++		0x036, 0x000ACC35,
++		0x036, 0x000B4C35,
++		0x036, 0x000BCC35,
++		0x036, 0x000C4C34,
++		0x036, 0x000CCC35,
++		0x036, 0x000D4C35,
++		0x036, 0x000DCC35,
++	0xB0000000,	0x00000000,
++		0x0EF, 0x00000000,
++		0x0EF, 0x00000008,
++	0x80000008,	0x00000000,	0x40000000,	0x00000000,
++		0x03C, 0x000002DC,
++		0x03C, 0x00000524,
++		0x03C, 0x00000902,
++	0x90000008,	0x05000000,	0x40000000,	0x00000000,
++		0x03C, 0x000002DC,
++		0x03C, 0x00000524,
++		0x03C, 0x00000902,
++	0xA0000000,	0x00000000,
++		0x03C, 0x000002A8,
++		0x03C, 0x000005A2,
++		0x03C, 0x00000880,
++	0xB0000000,	0x00000000,
++		0x0EF, 0x00000000,
++		0x018, 0x0001712A,
++		0x0EF, 0x00000002,
++		0x0DF, 0x00000080,
++	0x80000008,	0x00000000,	0x40000000,	0x00000000,
++		0x061, 0x000EAC43,
++		0x062, 0x00038F47,
++		0x063, 0x00031157,
++		0x064, 0x0001C4AC,
++		0x065, 0x000931D1,
++	0x90000008,	0x05000000,	0x40000000,	0x00000000,
++		0x061, 0x000EAC43,
++		0x062, 0x00038F47,
++		0x063, 0x00031157,
++		0x064, 0x0001C4AC,
++		0x065, 0x000931D2,
++	0x90000002,	0x00000000,	0x40000000,	0x00000000,
++		0x061, 0x000EAC43,
++		0x062, 0x00038F47,
++		0x063, 0x00031157,
++		0x064, 0x0001C4AC,
++		0x065, 0x000931D1,
++	0xA0000000,	0x00000000,
++		0x061, 0x000E5D53,
++		0x062, 0x00038FCD,
++		0x063, 0x000114EB,
++		0x064, 0x000196AC,
++		0x065, 0x000911D7,
++	0xB0000000,	0x00000000,
++		0x008, 0x00008400,
++
++};
++
++void
++ODM_ReadAndConfig_MP_8812A_RadioB(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i         = 0;
++	u1Byte     cCond;
++	BOOLEAN bMatched = TRUE, bSkipped = FALSE;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8812A_RadioB)/sizeof(u4Byte);
++	pu4Byte    Array       = Array_MP_8812A_RadioB;
++	
++	u4Byte	v1 = 0, v2 = 0, pre_v1 = 0, pre_v2 = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8812A_RadioB\n"));
++
++	while ((i + 1) < ArrayLen) {
++		v1 = Array[i];
++		v2 = Array[i + 1];
++
++		if (v1 & (BIT31 | BIT30)) {/*positive & negative condition*/
++			if (v1 & BIT31) {/* positive condition*/
++				cCond  = (u1Byte)((v1 & (BIT29|BIT28)) >> 28);
++				if (cCond == COND_ENDIF) {/*end*/
++					bMatched = TRUE;
++					bSkipped = FALSE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ENDIF\n"));
++				} else if (cCond == COND_ELSE) { /*else*/
++					bMatched = bSkipped?FALSE:TRUE;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("ELSE\n"));
++				} else {/*if , else if*/
++					pre_v1 = v1;
++					pre_v2 = v2;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("IF or ELSE IF\n"));
++				}
++			} else if (v1 & BIT30) { /*negative condition*/
++				if (bSkipped == FALSE) {
++					if (CheckPositive(pDM_Odm, pre_v1, pre_v2, v1, v2)) {
++						bMatched = TRUE;
++						bSkipped = TRUE;
++					} else {
++						bMatched = FALSE;
++						bSkipped = FALSE;
++					}
++				} else
++					bMatched = FALSE;
++			}
++		} else {
++			if (bMatched)
++				odm_ConfigRF_RadioB_8812A(pDM_Odm, v1, v2);
++		}
++		i = i + 2;
++	}
++}
++
++u4Byte
++ODM_GetVersion_MP_8812A_RadioB(void)
++{
++	   return 57;
++}
++
++/******************************************************************************
++*                           TxPowerTrack_AP.TXT
++******************************************************************************/
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++u1Byte gDeltaSwingTableIdx_MP_5GB_N_TxPowerTrack_AP_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 2, 2, 3, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 11, 12, 12, 13, 13, 14, 14, 14, 14, 14, 14, 14},
++	{0, 1, 2, 3, 3, 4, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, 14, 14, 14, 14, 14, 14, 14},
++	{0, 1, 2, 3, 3, 4, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, 14, 14, 14, 14, 14, 14, 14},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GB_P_TxPowerTrack_AP_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 2, 3, 3, 4, 5, 6, 6, 7, 8, 9, 9, 10, 11, 12, 12, 13, 14, 15, 15, 16, 16, 17, 17, 18, 19, 20, 20, 20},
++	{0, 1, 2, 3, 3, 4, 5, 6, 6, 7, 8, 9, 9, 10, 11, 12, 12, 13, 14, 15, 15, 16, 17, 18, 18, 19, 19, 20, 20, 20},
++	{0, 1, 2, 3, 3, 4, 5, 6, 6, 7, 8, 9, 9, 10, 11, 12, 12, 13, 14, 15, 15, 16, 17, 18, 18, 19, 20, 21, 21, 21},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GA_N_TxPowerTrack_AP_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 2, 3, 3, 4, 4, 5, 5, 6, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, 14, 14, 14, 14, 14, 14, 14},
++	{0, 1, 2, 3, 3, 4, 5, 6, 6, 6, 7, 7, 8, 8, 9, 10, 11, 11, 12, 13, 13, 14, 15, 16, 16, 16, 16, 16, 16, 16},
++	{0, 1, 2, 3, 3, 4, 5, 6, 6, 7, 8, 9, 9, 10, 10, 11, 11, 12, 13, 14, 14, 15, 15, 16, 16, 16, 16, 16, 16, 16},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GA_P_TxPowerTrack_AP_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 2, 2, 3, 4, 5, 5, 6, 7, 8, 8, 9, 10, 11, 11, 12, 13, 14, 14, 15, 15, 16, 16, 17, 18, 19, 19, 19},
++	{0, 1, 2, 3, 3, 4, 5, 6, 6, 7, 8, 9, 9, 10, 11, 12, 12, 13, 14, 15, 15, 16, 17, 18, 18, 19, 20, 21, 21, 21},
++	{0, 1, 2, 3, 3, 4, 5, 6, 6, 7, 8, 9, 9, 10, 11, 12, 12, 13, 14, 15, 15, 16, 17, 18, 18, 19, 20, 21, 21, 21},
++};
++u1Byte gDeltaSwingTableIdx_MP_2GB_N_TxPowerTrack_AP_8812A[]    = {0, 1, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 5, 6, 6, 6, 7, 8, 9, 9, 9, 9, 10, 10, 10, 10, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GB_P_TxPowerTrack_AP_8812A[]    = {0, 0, 1, 1, 2, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 8, 9, 9, 9, 9, 9, 9};
++u1Byte gDeltaSwingTableIdx_MP_2GA_N_TxPowerTrack_AP_8812A[]    = {0, 1, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 5, 6, 6, 6, 7, 8, 8, 9, 9, 9, 10, 10, 10, 10, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GA_P_TxPowerTrack_AP_8812A[]    = {0, 0, 1, 1, 2, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 8, 9, 9, 9, 9, 9, 9};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKB_N_TxPowerTrack_AP_8812A[] = {0, 1, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 5, 6, 6, 6, 7, 8, 9, 9, 9, 9, 10, 10, 10, 10, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKB_P_TxPowerTrack_AP_8812A[] = {0, 0, 1, 1, 2, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 8, 9, 9, 9, 9, 9, 9};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKA_N_TxPowerTrack_AP_8812A[] = {0, 1, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 5, 6, 6, 6, 7, 8, 8, 9, 9, 9, 10, 10, 10, 10, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKA_P_TxPowerTrack_AP_8812A[] = {0, 0, 1, 1, 2, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 8, 9, 9, 9, 9, 9, 9};
++#endif
++
++void
++ODM_ReadAndConfig_MP_8812A_TxPowerTrack_AP(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_AP))
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_MP_8812A\n"));
++
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_P, gDeltaSwingTableIdx_MP_2GA_P_TxPowerTrack_AP_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_N, gDeltaSwingTableIdx_MP_2GA_N_TxPowerTrack_AP_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_P, gDeltaSwingTableIdx_MP_2GB_P_TxPowerTrack_AP_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_N, gDeltaSwingTableIdx_MP_2GB_N_TxPowerTrack_AP_8812A, DELTA_SWINGIDX_SIZE);
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_P, gDeltaSwingTableIdx_MP_2GCCKA_P_TxPowerTrack_AP_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_N, gDeltaSwingTableIdx_MP_2GCCKA_N_TxPowerTrack_AP_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_P, gDeltaSwingTableIdx_MP_2GCCKB_P_TxPowerTrack_AP_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_N, gDeltaSwingTableIdx_MP_2GCCKB_N_TxPowerTrack_AP_8812A, DELTA_SWINGIDX_SIZE);
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P, gDeltaSwingTableIdx_MP_5GA_P_TxPowerTrack_AP_8812A, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N, gDeltaSwingTableIdx_MP_5GA_N_TxPowerTrack_AP_8812A, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P, gDeltaSwingTableIdx_MP_5GB_P_TxPowerTrack_AP_8812A, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N, gDeltaSwingTableIdx_MP_5GB_N_TxPowerTrack_AP_8812A, DELTA_SWINGIDX_SIZE*3);
++#endif
++}
++
++/******************************************************************************
++*                           TxPowerTrack_PCIE.TXT
++******************************************************************************/
++
++#if DEV_BUS_TYPE == RT_PCI_INTERFACE
++u1Byte gDeltaSwingTableIdx_MP_5GB_N_TxPowerTrack_PCIE_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 2, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 9, 9, 9, 10, 10, 11, 11, 12, 12, 13},
++	{0, 1, 1, 2, 2, 2, 3, 3, 4, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 12, 13, 13},
++	{0, 1, 1, 2, 3, 3, 4, 4, 5, 6, 6, 7, 8, 9, 10, 11, 12, 12, 13, 14, 14, 14, 15, 16, 17, 17, 17, 18, 18, 18},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GB_P_TxPowerTrack_PCIE_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11},
++	{0, 1, 1, 2, 2, 3, 3, 4, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11},
++	{0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GA_N_TxPowerTrack_PCIE_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 2, 2, 3, 3, 4, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 12, 13, 13, 13},
++	{0, 1, 1, 2, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 8, 9, 9, 10, 10, 11, 11, 11, 12, 12, 12, 12, 12, 13, 13},
++	{0, 1, 1, 2, 2, 3, 3, 4, 5, 6, 7, 8, 8, 9, 10, 11, 12, 13, 14, 14, 15, 15, 15, 16, 16, 16, 17, 17, 18, 18},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GA_P_TxPowerTrack_PCIE_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 2, 2, 3, 3, 4, 4, 4, 4, 5, 5, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11},
++	{0, 1, 1, 2, 2, 3, 3, 4, 4, 4, 5, 5, 6, 6, 7, 7, 8, 9, 9, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11},
++	{0, 1, 1, 2, 3, 3, 4, 4, 5, 6, 6, 7, 7, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11},
++};
++u1Byte gDeltaSwingTableIdx_MP_2GB_N_TxPowerTrack_PCIE_8812A[]    = {0, 1, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 5, 6, 6, 6, 7, 8, 9, 9, 9, 9, 10, 10, 10, 10, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GB_P_TxPowerTrack_PCIE_8812A[]    = {0, 0, 1, 1, 2, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 8, 9, 9, 9, 9, 9, 9};
++u1Byte gDeltaSwingTableIdx_MP_2GA_N_TxPowerTrack_PCIE_8812A[]    = {0, 1, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 5, 6, 6, 6, 7, 8, 8, 9, 9, 9, 10, 10, 10, 10, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GA_P_TxPowerTrack_PCIE_8812A[]    = {0, 0, 1, 1, 2, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 8, 9, 9, 9, 9, 9, 9};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKB_N_TxPowerTrack_PCIE_8812A[] = {0, 1, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 5, 6, 6, 6, 7, 8, 9, 9, 9, 9, 10, 10, 10, 10, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKB_P_TxPowerTrack_PCIE_8812A[] = {0, 0, 1, 1, 2, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 8, 9, 9, 9, 9, 9, 9};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKA_N_TxPowerTrack_PCIE_8812A[] = {0, 1, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 5, 6, 6, 6, 7, 8, 8, 9, 9, 9, 10, 10, 10, 10, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKA_P_TxPowerTrack_PCIE_8812A[] = {0, 0, 1, 1, 2, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 8, 9, 9, 9, 9, 9, 9};
++#endif
++
++void
++ODM_ReadAndConfig_MP_8812A_TxPowerTrack_PCIE(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++#if DEV_BUS_TYPE == RT_PCI_INTERFACE
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_MP_8812A\n"));
++
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_P, gDeltaSwingTableIdx_MP_2GA_P_TxPowerTrack_PCIE_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_N, gDeltaSwingTableIdx_MP_2GA_N_TxPowerTrack_PCIE_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_P, gDeltaSwingTableIdx_MP_2GB_P_TxPowerTrack_PCIE_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_N, gDeltaSwingTableIdx_MP_2GB_N_TxPowerTrack_PCIE_8812A, DELTA_SWINGIDX_SIZE);
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_P, gDeltaSwingTableIdx_MP_2GCCKA_P_TxPowerTrack_PCIE_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_N, gDeltaSwingTableIdx_MP_2GCCKA_N_TxPowerTrack_PCIE_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_P, gDeltaSwingTableIdx_MP_2GCCKB_P_TxPowerTrack_PCIE_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_N, gDeltaSwingTableIdx_MP_2GCCKB_N_TxPowerTrack_PCIE_8812A, DELTA_SWINGIDX_SIZE);
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P, gDeltaSwingTableIdx_MP_5GA_P_TxPowerTrack_PCIE_8812A, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N, gDeltaSwingTableIdx_MP_5GA_N_TxPowerTrack_PCIE_8812A, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P, gDeltaSwingTableIdx_MP_5GB_P_TxPowerTrack_PCIE_8812A, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N, gDeltaSwingTableIdx_MP_5GB_N_TxPowerTrack_PCIE_8812A, DELTA_SWINGIDX_SIZE*3);
++#endif
++}
++
++/******************************************************************************
++*                           TxPowerTrack_RFE3.TXT
++******************************************************************************/
++
++u1Byte gDeltaSwingTableIdx_MP_5GB_N_TxPowerTrack_RFE3_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 2, 3, 3, 4, 5, 5, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 12, 13, 13, 14, 15, 16, 16, 17, 17, 18, 18},
++	{0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 6, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 12, 14, 13, 13, 14, 14, 14, 15, 15},
++	{0, 1, 1, 2, 2, 3, 4, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, 14, 14, 15, 15, 16, 16},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GB_P_TxPowerTrack_RFE3_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 2, 3, 3, 4, 5, 6, 7, 7, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11},
++	{0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 6, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11},
++	{0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 6, 6, 7, 7, 8, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GA_N_TxPowerTrack_RFE3_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 2, 3, 3, 4, 5, 5, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 13, 14, 15, 16, 16, 17, 17, 18, 18},
++	{0, 1, 1, 2, 3, 3, 4, 4, 5, 6, 6, 7, 7, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, 14, 15, 16, 16, 17, 17},
++	{0, 1, 1, 2, 3, 3, 4, 4, 5, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 12, 13, 13, 14, 14, 15, 15, 16, 17, 18, 18},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GA_P_TxPowerTrack_RFE3_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 2, 2, 3, 4, 5, 6, 7, 7, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11},
++	{0, 1, 2, 3, 4, 4, 5, 5, 6, 7, 7, 8, 9, 9, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11},
++	{0, 1, 2, 3, 4, 4, 5, 5, 6, 7, 7, 8, 9, 9, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11},
++};
++u1Byte gDeltaSwingTableIdx_MP_2GB_N_TxPowerTrack_RFE3_8812A[]    = {0, 1, 1, 2, 2, 3, 3, 4, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 9, 9, 10, 11, 12, 12, 13, 14, 15, 15};
++u1Byte gDeltaSwingTableIdx_MP_2GB_P_TxPowerTrack_RFE3_8812A[]    = {0, 1, 1, 2, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 5, 6, 6, 7, 7, 8, 9, 10, 10, 10, 10, 11, 11, 11, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GA_N_TxPowerTrack_RFE3_8812A[]    = {0, 1, 1, 2, 2, 3, 4, 5, 6, 6, 6, 7, 7, 8, 8, 9, 10, 10, 11, 11, 12, 12, 13, 13, 13, 13, 14, 14, 15, 15};
++u1Byte gDeltaSwingTableIdx_MP_2GA_P_TxPowerTrack_RFE3_8812A[]    = {0, 0, 1, 1, 1, 2, 2, 3, 3, 4, 4, 4, 5, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKB_N_TxPowerTrack_RFE3_8812A[] = {0, 1, 1, 2, 2, 3, 3, 4, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 9, 9, 10, 11, 12, 12, 13, 14, 15, 15};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKB_P_TxPowerTrack_RFE3_8812A[] = {0, 1, 1, 2, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 5, 6, 6, 7, 7, 8, 9, 10, 10, 10, 10, 11, 11, 11, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKA_N_TxPowerTrack_RFE3_8812A[] = {0, 1, 1, 2, 2, 3, 4, 5, 6, 6, 6, 7, 7, 8, 8, 9, 10, 10, 11, 11, 12, 12, 13, 13, 13, 13, 14, 14, 15, 15};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKA_P_TxPowerTrack_RFE3_8812A[] = {0, 0, 1, 1, 1, 2, 2, 3, 3, 4, 4, 4, 5, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11};
++
++void
++ODM_ReadAndConfig_MP_8812A_TxPowerTrack_RFE3(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_MP_8812A\n"));
++
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_P, gDeltaSwingTableIdx_MP_2GA_P_TxPowerTrack_RFE3_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_N, gDeltaSwingTableIdx_MP_2GA_N_TxPowerTrack_RFE3_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_P, gDeltaSwingTableIdx_MP_2GB_P_TxPowerTrack_RFE3_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_N, gDeltaSwingTableIdx_MP_2GB_N_TxPowerTrack_RFE3_8812A, DELTA_SWINGIDX_SIZE);
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_P, gDeltaSwingTableIdx_MP_2GCCKA_P_TxPowerTrack_RFE3_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_N, gDeltaSwingTableIdx_MP_2GCCKA_N_TxPowerTrack_RFE3_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_P, gDeltaSwingTableIdx_MP_2GCCKB_P_TxPowerTrack_RFE3_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_N, gDeltaSwingTableIdx_MP_2GCCKB_N_TxPowerTrack_RFE3_8812A, DELTA_SWINGIDX_SIZE);
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P, gDeltaSwingTableIdx_MP_5GA_P_TxPowerTrack_RFE3_8812A, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N, gDeltaSwingTableIdx_MP_5GA_N_TxPowerTrack_RFE3_8812A, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P, gDeltaSwingTableIdx_MP_5GB_P_TxPowerTrack_RFE3_8812A, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N, gDeltaSwingTableIdx_MP_5GB_N_TxPowerTrack_RFE3_8812A, DELTA_SWINGIDX_SIZE*3);
++}
++
++/******************************************************************************
++*                           TxPowerTrack_RFE4.TXT
++******************************************************************************/
++
++u1Byte gDeltaSwingTableIdx_MP_5GB_N_TxPowerTrack_RFE4_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 2, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 9, 9, 9, 10, 10, 11, 11, 12, 12, 13},
++	{0, 1, 1, 2, 2, 2, 3, 3, 4, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 12, 13, 13},
++	{0, 1, 1, 2, 3, 3, 4, 4, 5, 6, 6, 7, 8, 9, 10, 11, 12, 12, 13, 14, 14, 14, 15, 16, 17, 17, 17, 18, 18, 18},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GB_P_TxPowerTrack_RFE4_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11},
++	{0, 1, 1, 2, 2, 3, 3, 4, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11},
++	{0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GA_N_TxPowerTrack_RFE4_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 2, 2, 3, 3, 4, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 12, 13, 13, 13},
++	{0, 1, 1, 2, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 8, 9, 9, 10, 10, 11, 11, 11, 12, 12, 12, 12, 12, 13, 13},
++	{0, 1, 1, 2, 2, 3, 3, 4, 5, 6, 7, 8, 8, 9, 10, 11, 12, 13, 14, 14, 15, 15, 15, 16, 16, 16, 17, 17, 18, 18},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GA_P_TxPowerTrack_RFE4_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 2, 2, 3, 3, 4, 4, 4, 4, 5, 5, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11},
++	{0, 1, 1, 2, 2, 3, 3, 4, 4, 4, 5, 5, 6, 6, 7, 7, 8, 9, 9, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11},
++	{0, 1, 1, 2, 3, 3, 4, 4, 5, 6, 6, 7, 7, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11},
++};
++u1Byte gDeltaSwingTableIdx_MP_2GB_N_TxPowerTrack_RFE4_8812A[]    = {0, 1, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 5, 6, 6, 6, 7, 8, 9, 9, 9, 9, 10, 10, 10, 10, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GB_P_TxPowerTrack_RFE4_8812A[]    = {0, 0, 1, 1, 2, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 8, 9, 9, 9, 9, 9, 9};
++u1Byte gDeltaSwingTableIdx_MP_2GA_N_TxPowerTrack_RFE4_8812A[]    = {0, 1, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 5, 6, 6, 6, 7, 8, 8, 9, 9, 9, 10, 10, 10, 10, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GA_P_TxPowerTrack_RFE4_8812A[]    = {0, 0, 1, 1, 2, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 8, 9, 9, 9, 9, 9, 9};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKB_N_TxPowerTrack_RFE4_8812A[] = {0, 1, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 5, 6, 6, 6, 7, 8, 9, 9, 9, 9, 10, 10, 10, 10, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKB_P_TxPowerTrack_RFE4_8812A[] = {0, 0, 1, 1, 2, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 8, 9, 9, 9, 9, 9, 9};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKA_N_TxPowerTrack_RFE4_8812A[] = {0, 1, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 5, 6, 6, 6, 7, 8, 8, 9, 9, 9, 10, 10, 10, 10, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKA_P_TxPowerTrack_RFE4_8812A[] = {0, 0, 1, 1, 2, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 8, 9, 9, 9, 9, 9, 9};
++
++void
++ODM_ReadAndConfig_MP_8812A_TxPowerTrack_RFE4(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_MP_8812A\n"));
++
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_P, gDeltaSwingTableIdx_MP_2GA_P_TxPowerTrack_RFE4_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_N, gDeltaSwingTableIdx_MP_2GA_N_TxPowerTrack_RFE4_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_P, gDeltaSwingTableIdx_MP_2GB_P_TxPowerTrack_RFE4_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_N, gDeltaSwingTableIdx_MP_2GB_N_TxPowerTrack_RFE4_8812A, DELTA_SWINGIDX_SIZE);
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_P, gDeltaSwingTableIdx_MP_2GCCKA_P_TxPowerTrack_RFE4_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_N, gDeltaSwingTableIdx_MP_2GCCKA_N_TxPowerTrack_RFE4_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_P, gDeltaSwingTableIdx_MP_2GCCKB_P_TxPowerTrack_RFE4_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_N, gDeltaSwingTableIdx_MP_2GCCKB_N_TxPowerTrack_RFE4_8812A, DELTA_SWINGIDX_SIZE);
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P, gDeltaSwingTableIdx_MP_5GA_P_TxPowerTrack_RFE4_8812A, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N, gDeltaSwingTableIdx_MP_5GA_N_TxPowerTrack_RFE4_8812A, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P, gDeltaSwingTableIdx_MP_5GB_P_TxPowerTrack_RFE4_8812A, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N, gDeltaSwingTableIdx_MP_5GB_N_TxPowerTrack_RFE4_8812A, DELTA_SWINGIDX_SIZE*3);
++}
++
++/******************************************************************************
++*                           TxPowerTrack_USB.TXT
++******************************************************************************/
++
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++u1Byte gDeltaSwingTableIdx_MP_5GB_N_TxPowerTrack_USB_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 2, 2, 3, 4, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, 14, 14, 14, 14, 14, 14},
++	{0, 1, 1, 2, 2, 3, 4, 4, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, 14, 14, 14, 14, 14, 14},
++	{0, 1, 1, 2, 2, 3, 4, 5, 6, 6, 7, 8, 8, 9, 10, 10, 11, 11, 12, 12, 13, 13, 14, 14, 15, 16, 16, 16, 16, 16},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GB_P_TxPowerTrack_USB_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 2, 2, 3, 3, 4, 5, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11},
++	{0, 1, 1, 2, 3, 3, 4, 5, 5, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11},
++	{0, 1, 1, 2, 3, 3, 4, 5, 6, 7, 7, 8, 8, 9, 9, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GA_N_TxPowerTrack_USB_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 2, 2, 3, 4, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, 14, 15, 15, 15, 15, 15},
++	{0, 1, 1, 2, 2, 3, 4, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, 14, 15, 15, 15, 15, 15},
++	{0, 1, 1, 2, 2, 3, 4, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, 14, 15, 15, 15, 15, 15},
++};
++u1Byte gDeltaSwingTableIdx_MP_5GA_P_TxPowerTrack_USB_8812A[][DELTA_SWINGIDX_SIZE] = {
++	{0, 1, 1, 2, 2, 3, 4, 5, 6, 7, 7, 8, 8, 9, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11},
++	{0, 1, 1, 2, 3, 3, 4, 5, 6, 7, 7, 8, 8, 9, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11},
++	{0, 1, 1, 2, 3, 3, 4, 5, 6, 7, 7, 8, 8, 9, 10, 11, 11, 12, 12, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11},
++};
++u1Byte gDeltaSwingTableIdx_MP_2GB_N_TxPowerTrack_USB_8812A[]    = {0, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GB_P_TxPowerTrack_USB_8812A[]    = {0, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 4, 5, 5, 5, 6, 6, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7};
++u1Byte gDeltaSwingTableIdx_MP_2GA_N_TxPowerTrack_USB_8812A[]    = {0, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 4, 5, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 9, 10, 10, 10, 10, 10, 10};
++u1Byte gDeltaSwingTableIdx_MP_2GA_P_TxPowerTrack_USB_8812A[]    = {0, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 4, 5, 5, 5, 6, 6, 6, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKB_N_TxPowerTrack_USB_8812A[] = {0, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 5, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 11, 11, 11, 11};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKB_P_TxPowerTrack_USB_8812A[] = {0, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 4, 5, 5, 5, 6, 6, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKA_N_TxPowerTrack_USB_8812A[] = {0, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 4, 5, 5, 5, 6, 6, 6, 7, 7, 7, 8, 8, 9, 10, 10, 10, 10, 10, 10};
++u1Byte gDeltaSwingTableIdx_MP_2GCCKA_P_TxPowerTrack_USB_8812A[] = {0, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 4, 5, 5, 5, 6, 6, 6, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7};
++#endif
++
++void
++ODM_ReadAndConfig_MP_8812A_TxPowerTrack_USB(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_MP_8812A\n"));
++
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_P, gDeltaSwingTableIdx_MP_2GA_P_TxPowerTrack_USB_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GA_N, gDeltaSwingTableIdx_MP_2GA_N_TxPowerTrack_USB_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_P, gDeltaSwingTableIdx_MP_2GB_P_TxPowerTrack_USB_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GB_N, gDeltaSwingTableIdx_MP_2GB_N_TxPowerTrack_USB_8812A, DELTA_SWINGIDX_SIZE);
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_P, gDeltaSwingTableIdx_MP_2GCCKA_P_TxPowerTrack_USB_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_N, gDeltaSwingTableIdx_MP_2GCCKA_N_TxPowerTrack_USB_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_P, gDeltaSwingTableIdx_MP_2GCCKB_P_TxPowerTrack_USB_8812A, DELTA_SWINGIDX_SIZE);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_N, gDeltaSwingTableIdx_MP_2GCCKB_N_TxPowerTrack_USB_8812A, DELTA_SWINGIDX_SIZE);
++
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P, gDeltaSwingTableIdx_MP_5GA_P_TxPowerTrack_USB_8812A, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N, gDeltaSwingTableIdx_MP_5GA_N_TxPowerTrack_USB_8812A, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P, gDeltaSwingTableIdx_MP_5GB_P_TxPowerTrack_USB_8812A, DELTA_SWINGIDX_SIZE*3);
++	ODM_MoveMemory(pDM_Odm, pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N, gDeltaSwingTableIdx_MP_5GB_N_TxPowerTrack_USB_8812A, DELTA_SWINGIDX_SIZE*3);
++#endif
++}
++
++/******************************************************************************
++*                           TXPWR_LMT.TXT
++******************************************************************************/
++
++const char *Array_MP_8812A_TXPWR_LMT[] = { 
++	"FCC", "2.4G", "20M", "CCK", "1T", "01", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "01", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "01", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "02", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "02", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "02", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "03", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "03", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "03", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "04", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "04", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "04", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "05", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "05", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "05", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "06", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "06", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "06", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "07", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "07", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "07", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "08", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "08", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "08", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "09", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "09", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "09", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "10", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "10", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "10", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "11", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "11", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "11", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "12", "63", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "12", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "12", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "13", "63", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "13", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "13", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "14", "63", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "14", "63", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "14", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "01", "34", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "01", "32", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "01", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "02", "36", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "02", "32", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "02", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "03", "36", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "03", "32", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "03", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "04", "36", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "04", "32", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "04", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "05", "36", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "05", "32", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "05", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "06", "36", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "06", "32", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "06", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "07", "36", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "07", "32", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "07", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "08", "36", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "08", "32", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "08", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "09", "36", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "09", "32", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "09", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "10", "36", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "10", "32", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "10", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "11", "32", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "11", "32", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "11", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "12", "63", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "12", "32", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "12", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "13", "63", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "13", "32", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "13", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "14", "63", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "14", "63", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "14", "63",
++	"FCC", "2.4G", "20M", "HT", "1T", "01", "34", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "01", "32", 
++	"MKK", "2.4G", "20M", "HT", "1T", "01", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "02", "36", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "02", "32", 
++	"MKK", "2.4G", "20M", "HT", "1T", "02", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "03", "36", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "03", "32", 
++	"MKK", "2.4G", "20M", "HT", "1T", "03", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "04", "36", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "04", "32", 
++	"MKK", "2.4G", "20M", "HT", "1T", "04", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "05", "36", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "05", "32", 
++	"MKK", "2.4G", "20M", "HT", "1T", "05", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "06", "36", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "06", "32", 
++	"MKK", "2.4G", "20M", "HT", "1T", "06", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "07", "36", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "07", "32", 
++	"MKK", "2.4G", "20M", "HT", "1T", "07", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "08", "36", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "08", "32", 
++	"MKK", "2.4G", "20M", "HT", "1T", "08", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "09", "36", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "09", "32", 
++	"MKK", "2.4G", "20M", "HT", "1T", "09", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "10", "36", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "10", "32", 
++	"MKK", "2.4G", "20M", "HT", "1T", "10", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "11", "32", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "11", "32", 
++	"MKK", "2.4G", "20M", "HT", "1T", "11", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "12", "63", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "12", "32", 
++	"MKK", "2.4G", "20M", "HT", "1T", "12", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "13", "63", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "13", "32", 
++	"MKK", "2.4G", "20M", "HT", "1T", "13", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "14", "63", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "14", "63", 
++	"MKK", "2.4G", "20M", "HT", "1T", "14", "63",
++	"FCC", "2.4G", "20M", "HT", "2T", "01", "32", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "01", "32", 
++	"MKK", "2.4G", "20M", "HT", "2T", "01", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "02", "34", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "02", "32", 
++	"MKK", "2.4G", "20M", "HT", "2T", "02", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "03", "34", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "03", "32", 
++	"MKK", "2.4G", "20M", "HT", "2T", "03", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "04", "34", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "04", "32", 
++	"MKK", "2.4G", "20M", "HT", "2T", "04", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "05", "34", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "05", "32", 
++	"MKK", "2.4G", "20M", "HT", "2T", "05", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "06", "34", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "06", "32", 
++	"MKK", "2.4G", "20M", "HT", "2T", "06", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "07", "34", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "07", "32", 
++	"MKK", "2.4G", "20M", "HT", "2T", "07", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "08", "34", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "08", "32", 
++	"MKK", "2.4G", "20M", "HT", "2T", "08", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "09", "34", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "09", "32", 
++	"MKK", "2.4G", "20M", "HT", "2T", "09", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "10", "34", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "10", "32", 
++	"MKK", "2.4G", "20M", "HT", "2T", "10", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "11", "30", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "11", "32", 
++	"MKK", "2.4G", "20M", "HT", "2T", "11", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "12", "63", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "12", "32", 
++	"MKK", "2.4G", "20M", "HT", "2T", "12", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "13", "63", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "13", "32", 
++	"MKK", "2.4G", "20M", "HT", "2T", "13", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "14", "63", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "14", "63", 
++	"MKK", "2.4G", "20M", "HT", "2T", "14", "63",
++	"FCC", "2.4G", "40M", "HT", "1T", "01", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "01", "63", 
++	"MKK", "2.4G", "40M", "HT", "1T", "01", "63",
++	"FCC", "2.4G", "40M", "HT", "1T", "02", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "02", "63", 
++	"MKK", "2.4G", "40M", "HT", "1T", "02", "63",
++	"FCC", "2.4G", "40M", "HT", "1T", "03", "32", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "03", "32", 
++	"MKK", "2.4G", "40M", "HT", "1T", "03", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "04", "36", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "04", "32", 
++	"MKK", "2.4G", "40M", "HT", "1T", "04", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "05", "36", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "05", "32", 
++	"MKK", "2.4G", "40M", "HT", "1T", "05", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "06", "36", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "06", "32", 
++	"MKK", "2.4G", "40M", "HT", "1T", "06", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "07", "36", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "07", "32", 
++	"MKK", "2.4G", "40M", "HT", "1T", "07", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "08", "36", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "08", "32", 
++	"MKK", "2.4G", "40M", "HT", "1T", "08", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "09", "36", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "09", "32", 
++	"MKK", "2.4G", "40M", "HT", "1T", "09", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "10", "36", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "10", "32", 
++	"MKK", "2.4G", "40M", "HT", "1T", "10", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "11", "32", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "11", "32", 
++	"MKK", "2.4G", "40M", "HT", "1T", "11", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "12", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "12", "32", 
++	"MKK", "2.4G", "40M", "HT", "1T", "12", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "13", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "13", "32", 
++	"MKK", "2.4G", "40M", "HT", "1T", "13", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "14", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "14", "63", 
++	"MKK", "2.4G", "40M", "HT", "1T", "14", "63",
++	"FCC", "2.4G", "40M", "HT", "2T", "01", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "01", "63", 
++	"MKK", "2.4G", "40M", "HT", "2T", "01", "63",
++	"FCC", "2.4G", "40M", "HT", "2T", "02", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "02", "63", 
++	"MKK", "2.4G", "40M", "HT", "2T", "02", "63",
++	"FCC", "2.4G", "40M", "HT", "2T", "03", "30", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "03", "30", 
++	"MKK", "2.4G", "40M", "HT", "2T", "03", "30",
++	"FCC", "2.4G", "40M", "HT", "2T", "04", "34", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "04", "30", 
++	"MKK", "2.4G", "40M", "HT", "2T", "04", "30",
++	"FCC", "2.4G", "40M", "HT", "2T", "05", "34", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "05", "30", 
++	"MKK", "2.4G", "40M", "HT", "2T", "05", "30",
++	"FCC", "2.4G", "40M", "HT", "2T", "06", "34", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "06", "30", 
++	"MKK", "2.4G", "40M", "HT", "2T", "06", "30",
++	"FCC", "2.4G", "40M", "HT", "2T", "07", "34", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "07", "30", 
++	"MKK", "2.4G", "40M", "HT", "2T", "07", "30",
++	"FCC", "2.4G", "40M", "HT", "2T", "08", "34", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "08", "30", 
++	"MKK", "2.4G", "40M", "HT", "2T", "08", "30",
++	"FCC", "2.4G", "40M", "HT", "2T", "09", "34", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "09", "30", 
++	"MKK", "2.4G", "40M", "HT", "2T", "09", "30",
++	"FCC", "2.4G", "40M", "HT", "2T", "10", "34", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "10", "30", 
++	"MKK", "2.4G", "40M", "HT", "2T", "10", "30",
++	"FCC", "2.4G", "40M", "HT", "2T", "11", "30", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "11", "30", 
++	"MKK", "2.4G", "40M", "HT", "2T", "11", "30",
++	"FCC", "2.4G", "40M", "HT", "2T", "12", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "12", "32", 
++	"MKK", "2.4G", "40M", "HT", "2T", "12", "32",
++	"FCC", "2.4G", "40M", "HT", "2T", "13", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "13", "32", 
++	"MKK", "2.4G", "40M", "HT", "2T", "13", "32",
++	"FCC", "2.4G", "40M", "HT", "2T", "14", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "14", "63", 
++	"MKK", "2.4G", "40M", "HT", "2T", "14", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "36", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "36", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "36", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "40", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "40", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "40", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "44", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "44", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "44", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "48", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "48", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "48", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "52", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "52", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "52", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "56", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "56", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "56", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "60", "32", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "60", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "60", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "64", "28", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "64", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "64", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "100", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "100", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "100", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "104", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "104", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "104", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "108", "32", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "108", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "108", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "112", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "112", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "112", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "116", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "116", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "116", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "120", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "120", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "120", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "124", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "124", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "124", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "128", "32", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "128", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "128", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "132", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "132", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "132", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "136", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "136", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "136", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "140", "28", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "140", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "140", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "149", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "149", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "149", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "153", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "153", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "153", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "157", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "157", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "157", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "161", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "161", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "161", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "165", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "165", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "165", "63",
++	"FCC", "5G", "20M", "HT", "1T", "36", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "36", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "36", "32",
++	"FCC", "5G", "20M", "HT", "1T", "40", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "40", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "40", "32",
++	"FCC", "5G", "20M", "HT", "1T", "44", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "44", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "44", "32",
++	"FCC", "5G", "20M", "HT", "1T", "48", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "48", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "48", "32",
++	"FCC", "5G", "20M", "HT", "1T", "52", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "52", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "52", "32",
++	"FCC", "5G", "20M", "HT", "1T", "56", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "56", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "56", "32",
++	"FCC", "5G", "20M", "HT", "1T", "60", "32", 
++	"ETSI", "5G", "20M", "HT", "1T", "60", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "60", "32",
++	"FCC", "5G", "20M", "HT", "1T", "64", "28", 
++	"ETSI", "5G", "20M", "HT", "1T", "64", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "64", "32",
++	"FCC", "5G", "20M", "HT", "1T", "100", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "100", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "100", "32",
++	"FCC", "5G", "20M", "HT", "1T", "104", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "104", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "104", "32",
++	"FCC", "5G", "20M", "HT", "1T", "108", "32", 
++	"ETSI", "5G", "20M", "HT", "1T", "108", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "108", "32",
++	"FCC", "5G", "20M", "HT", "1T", "112", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "112", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "112", "32",
++	"FCC", "5G", "20M", "HT", "1T", "116", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "116", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "116", "32",
++	"FCC", "5G", "20M", "HT", "1T", "120", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "120", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "120", "32",
++	"FCC", "5G", "20M", "HT", "1T", "124", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "124", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "124", "32",
++	"FCC", "5G", "20M", "HT", "1T", "128", "32", 
++	"ETSI", "5G", "20M", "HT", "1T", "128", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "128", "32",
++	"FCC", "5G", "20M", "HT", "1T", "132", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "132", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "132", "32",
++	"FCC", "5G", "20M", "HT", "1T", "136", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "136", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "136", "32",
++	"FCC", "5G", "20M", "HT", "1T", "140", "28", 
++	"ETSI", "5G", "20M", "HT", "1T", "140", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "140", "32",
++	"FCC", "5G", "20M", "HT", "1T", "149", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "149", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "149", "63",
++	"FCC", "5G", "20M", "HT", "1T", "153", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "153", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "153", "63",
++	"FCC", "5G", "20M", "HT", "1T", "157", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "157", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "157", "63",
++	"FCC", "5G", "20M", "HT", "1T", "161", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "161", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "161", "63",
++	"FCC", "5G", "20M", "HT", "1T", "165", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "165", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "165", "63",
++	"FCC", "5G", "20M", "HT", "2T", "36", "28", 
++	"ETSI", "5G", "20M", "HT", "2T", "36", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "36", "30",
++	"FCC", "5G", "20M", "HT", "2T", "40", "28", 
++	"ETSI", "5G", "20M", "HT", "2T", "40", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "40", "30",
++	"FCC", "5G", "20M", "HT", "2T", "44", "28", 
++	"ETSI", "5G", "20M", "HT", "2T", "44", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "44", "30",
++	"FCC", "5G", "20M", "HT", "2T", "48", "28", 
++	"ETSI", "5G", "20M", "HT", "2T", "48", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "48", "30",
++	"FCC", "5G", "20M", "HT", "2T", "52", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "52", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "52", "30",
++	"FCC", "5G", "20M", "HT", "2T", "56", "32", 
++	"ETSI", "5G", "20M", "HT", "2T", "56", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "56", "30",
++	"FCC", "5G", "20M", "HT", "2T", "60", "30", 
++	"ETSI", "5G", "20M", "HT", "2T", "60", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "60", "30",
++	"FCC", "5G", "20M", "HT", "2T", "64", "26", 
++	"ETSI", "5G", "20M", "HT", "2T", "64", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "64", "30",
++	"FCC", "5G", "20M", "HT", "2T", "100", "28", 
++	"ETSI", "5G", "20M", "HT", "2T", "100", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "100", "30",
++	"FCC", "5G", "20M", "HT", "2T", "104", "28", 
++	"ETSI", "5G", "20M", "HT", "2T", "104", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "104", "30",
++	"FCC", "5G", "20M", "HT", "2T", "108", "30", 
++	"ETSI", "5G", "20M", "HT", "2T", "108", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "108", "30",
++	"FCC", "5G", "20M", "HT", "2T", "112", "32", 
++	"ETSI", "5G", "20M", "HT", "2T", "112", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "112", "30",
++	"FCC", "5G", "20M", "HT", "2T", "116", "32", 
++	"ETSI", "5G", "20M", "HT", "2T", "116", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "116", "30",
++	"FCC", "5G", "20M", "HT", "2T", "120", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "120", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "120", "30",
++	"FCC", "5G", "20M", "HT", "2T", "124", "32", 
++	"ETSI", "5G", "20M", "HT", "2T", "124", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "124", "30",
++	"FCC", "5G", "20M", "HT", "2T", "128", "30", 
++	"ETSI", "5G", "20M", "HT", "2T", "128", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "128", "30",
++	"FCC", "5G", "20M", "HT", "2T", "132", "28", 
++	"ETSI", "5G", "20M", "HT", "2T", "132", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "132", "30",
++	"FCC", "5G", "20M", "HT", "2T", "136", "28", 
++	"ETSI", "5G", "20M", "HT", "2T", "136", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "136", "30",
++	"FCC", "5G", "20M", "HT", "2T", "140", "26", 
++	"ETSI", "5G", "20M", "HT", "2T", "140", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "140", "30",
++	"FCC", "5G", "20M", "HT", "2T", "149", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "149", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "149", "63",
++	"FCC", "5G", "20M", "HT", "2T", "153", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "153", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "153", "63",
++	"FCC", "5G", "20M", "HT", "2T", "157", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "157", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "157", "63",
++	"FCC", "5G", "20M", "HT", "2T", "161", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "161", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "161", "63",
++	"FCC", "5G", "20M", "HT", "2T", "165", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "165", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "165", "63",
++	"FCC", "5G", "40M", "HT", "1T", "38", "30", 
++	"ETSI", "5G", "40M", "HT", "1T", "38", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "38", "32",
++	"FCC", "5G", "40M", "HT", "1T", "46", "30", 
++	"ETSI", "5G", "40M", "HT", "1T", "46", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "46", "32",
++	"FCC", "5G", "40M", "HT", "1T", "54", "32", 
++	"ETSI", "5G", "40M", "HT", "1T", "54", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "54", "32",
++	"FCC", "5G", "40M", "HT", "1T", "62", "32", 
++	"ETSI", "5G", "40M", "HT", "1T", "62", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "62", "32",
++	"FCC", "5G", "40M", "HT", "1T", "102", "28", 
++	"ETSI", "5G", "40M", "HT", "1T", "102", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "102", "32",
++	"FCC", "5G", "40M", "HT", "1T", "110", "32", 
++	"ETSI", "5G", "40M", "HT", "1T", "110", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "110", "32",
++	"FCC", "5G", "40M", "HT", "1T", "118", "36", 
++	"ETSI", "5G", "40M", "HT", "1T", "118", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "118", "32",
++	"FCC", "5G", "40M", "HT", "1T", "126", "34", 
++	"ETSI", "5G", "40M", "HT", "1T", "126", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "126", "32",
++	"FCC", "5G", "40M", "HT", "1T", "134", "32", 
++	"ETSI", "5G", "40M", "HT", "1T", "134", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "134", "32",
++	"FCC", "5G", "40M", "HT", "1T", "151", "36", 
++	"ETSI", "5G", "40M", "HT", "1T", "151", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "151", "63",
++	"FCC", "5G", "40M", "HT", "1T", "159", "36", 
++	"ETSI", "5G", "40M", "HT", "1T", "159", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "159", "63",
++	"FCC", "5G", "40M", "HT", "2T", "38", "28", 
++	"ETSI", "5G", "40M", "HT", "2T", "38", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "38", "30",
++	"FCC", "5G", "40M", "HT", "2T", "46", "28", 
++	"ETSI", "5G", "40M", "HT", "2T", "46", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "46", "30",
++	"FCC", "5G", "40M", "HT", "2T", "54", "30", 
++	"ETSI", "5G", "40M", "HT", "2T", "54", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "54", "30",
++	"FCC", "5G", "40M", "HT", "2T", "62", "30", 
++	"ETSI", "5G", "40M", "HT", "2T", "62", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "62", "30",
++	"FCC", "5G", "40M", "HT", "2T", "102", "26", 
++	"ETSI", "5G", "40M", "HT", "2T", "102", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "102", "30",
++	"FCC", "5G", "40M", "HT", "2T", "110", "30", 
++	"ETSI", "5G", "40M", "HT", "2T", "110", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "110", "30",
++	"FCC", "5G", "40M", "HT", "2T", "118", "34", 
++	"ETSI", "5G", "40M", "HT", "2T", "118", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "118", "30",
++	"FCC", "5G", "40M", "HT", "2T", "126", "32", 
++	"ETSI", "5G", "40M", "HT", "2T", "126", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "126", "30",
++	"FCC", "5G", "40M", "HT", "2T", "134", "30", 
++	"ETSI", "5G", "40M", "HT", "2T", "134", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "134", "30",
++	"FCC", "5G", "40M", "HT", "2T", "151", "34", 
++	"ETSI", "5G", "40M", "HT", "2T", "151", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "151", "63",
++	"FCC", "5G", "40M", "HT", "2T", "159", "34", 
++	"ETSI", "5G", "40M", "HT", "2T", "159", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "159", "63",
++	"FCC", "5G", "80M", "VHT", "1T", "42", "30", 
++	"ETSI", "5G", "80M", "VHT", "1T", "42", "32", 
++	"MKK", "5G", "80M", "VHT", "1T", "42", "32",
++	"FCC", "5G", "80M", "VHT", "1T", "58", "28", 
++	"ETSI", "5G", "80M", "VHT", "1T", "58", "32", 
++	"MKK", "5G", "80M", "VHT", "1T", "58", "32",
++	"FCC", "5G", "80M", "VHT", "1T", "106", "30", 
++	"ETSI", "5G", "80M", "VHT", "1T", "106", "32", 
++	"MKK", "5G", "80M", "VHT", "1T", "106", "32",
++	"FCC", "5G", "80M", "VHT", "1T", "122", "34", 
++	"ETSI", "5G", "80M", "VHT", "1T", "122", "32", 
++	"MKK", "5G", "80M", "VHT", "1T", "122", "32",
++	"FCC", "5G", "80M", "VHT", "1T", "155", "36", 
++	"ETSI", "5G", "80M", "VHT", "1T", "155", "32", 
++	"MKK", "5G", "80M", "VHT", "1T", "155", "63",
++	"FCC", "5G", "80M", "VHT", "2T", "42", "28", 
++	"ETSI", "5G", "80M", "VHT", "2T", "42", "30", 
++	"MKK", "5G", "80M", "VHT", "2T", "42", "30",
++	"FCC", "5G", "80M", "VHT", "2T", "58", "26", 
++	"ETSI", "5G", "80M", "VHT", "2T", "58", "30", 
++	"MKK", "5G", "80M", "VHT", "2T", "58", "30",
++	"FCC", "5G", "80M", "VHT", "2T", "106", "28", 
++	"ETSI", "5G", "80M", "VHT", "2T", "106", "30", 
++	"MKK", "5G", "80M", "VHT", "2T", "106", "30",
++	"FCC", "5G", "80M", "VHT", "2T", "122", "32", 
++	"ETSI", "5G", "80M", "VHT", "2T", "122", "30", 
++	"MKK", "5G", "80M", "VHT", "2T", "122", "30",
++	"FCC", "5G", "80M", "VHT", "2T", "155", "34", 
++	"ETSI", "5G", "80M", "VHT", "2T", "155", "30", 
++	"MKK", "5G", "80M", "VHT", "2T", "155", "63"
++};
++
++void
++ODM_ReadAndConfig_MP_8812A_TXPWR_LMT(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i           = 0;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8812A_TXPWR_LMT)/sizeof(pu1Byte);
++	pu1Byte    *Array      = (pu1Byte *)Array_MP_8812A_TXPWR_LMT;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	PlatformZeroMemory(pHalData->BufOfLinesPwrLmt, MAX_LINES_HWCONFIG_TXT*MAX_BYTES_LINE_HWCONFIG_TXT);
++	pHalData->nLinesReadPwrLmt = ArrayLen/7;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8812A_TXPWR_LMT\n"));
++
++	for (i = 0; i < ArrayLen; i += 7) {
++		pu1Byte regulation = Array[i];
++		pu1Byte band = Array[i+1];
++		pu1Byte bandwidth = Array[i+2];
++		pu1Byte rate = Array[i+3];
++		pu1Byte rfPath = Array[i+4];
++		pu1Byte chnl = Array[i+5];
++		pu1Byte val = Array[i+6];
++	
++		odm_ConfigBB_TXPWR_LMT_8812A(pDM_Odm, regulation, band, bandwidth, rate, rfPath, chnl, val);
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		rsprintf((char *)pHalData->BufOfLinesPwrLmt[i/7], 100, "\"%s\", \"%s\", \"%s\", \"%s\", \"%s\", \"%s\", \"%s\",",
++			regulation, band, bandwidth, rate, rfPath, chnl, val);
++#endif
++	}
++
++}
++
++/******************************************************************************
++*                           TXPWR_LMT_HM812A03.TXT
++******************************************************************************/
++
++const char *Array_MP_8812A_TXPWR_LMT_HM812A03[] = { 
++	"FCC", "2.4G", "20M", "CCK", "1T", "01", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "01", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "01", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "02", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "02", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "02", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "03", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "03", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "03", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "04", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "04", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "04", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "05", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "05", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "05", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "06", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "06", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "06", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "07", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "07", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "07", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "08", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "08", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "08", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "09", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "09", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "09", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "10", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "10", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "10", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "11", "36", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "11", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "11", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "12", "63", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "12", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "12", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "13", "63", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "13", "30", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "13", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "14", "63", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "14", "63", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "14", "36",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "01", "30", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "01", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "01", "36",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "02", "36", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "02", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "02", "36",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "03", "36", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "03", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "03", "36",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "04", "36", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "04", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "04", "36",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "05", "36", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "05", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "05", "36",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "06", "36", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "06", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "06", "36",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "07", "36", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "07", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "07", "36",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "08", "36", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "08", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "08", "36",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "09", "36", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "09", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "09", "36",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "10", "36", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "10", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "10", "36",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "11", "30", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "11", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "11", "36",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "12", "63", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "12", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "12", "36",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "13", "63", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "13", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "13", "36",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "14", "63", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "14", "63", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "14", "63",
++	"FCC", "2.4G", "20M", "HT", "1T", "01", "30", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "01", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "01", "36",
++	"FCC", "2.4G", "20M", "HT", "1T", "02", "36", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "02", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "02", "36",
++	"FCC", "2.4G", "20M", "HT", "1T", "03", "36", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "03", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "03", "36",
++	"FCC", "2.4G", "20M", "HT", "1T", "04", "36", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "04", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "04", "36",
++	"FCC", "2.4G", "20M", "HT", "1T", "05", "36", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "05", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "05", "36",
++	"FCC", "2.4G", "20M", "HT", "1T", "06", "36", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "06", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "06", "36",
++	"FCC", "2.4G", "20M", "HT", "1T", "07", "36", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "07", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "07", "36",
++	"FCC", "2.4G", "20M", "HT", "1T", "08", "36", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "08", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "08", "36",
++	"FCC", "2.4G", "20M", "HT", "1T", "09", "36", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "09", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "09", "36",
++	"FCC", "2.4G", "20M", "HT", "1T", "10", "36", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "10", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "10", "36",
++	"FCC", "2.4G", "20M", "HT", "1T", "11", "30", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "11", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "11", "36",
++	"FCC", "2.4G", "20M", "HT", "1T", "12", "63", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "12", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "12", "36",
++	"FCC", "2.4G", "20M", "HT", "1T", "13", "63", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "13", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "13", "36",
++	"FCC", "2.4G", "20M", "HT", "1T", "14", "63", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "14", "63", 
++	"MKK", "2.4G", "20M", "HT", "1T", "14", "63",
++	"FCC", "2.4G", "20M", "HT", "2T", "01", "28", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "01", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "01", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "02", "36", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "02", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "02", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "03", "36", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "03", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "03", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "04", "36", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "04", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "04", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "05", "36", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "05", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "05", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "06", "36", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "06", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "06", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "07", "36", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "07", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "07", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "08", "36", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "08", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "08", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "09", "36", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "09", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "09", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "10", "36", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "10", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "10", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "11", "28", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "11", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "11", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "12", "63", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "12", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "12", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "13", "63", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "13", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "13", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "14", "63", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "14", "63", 
++	"MKK", "2.4G", "20M", "HT", "2T", "14", "63",
++	"FCC", "2.4G", "40M", "HT", "1T", "01", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "01", "63", 
++	"MKK", "2.4G", "40M", "HT", "1T", "01", "63",
++	"FCC", "2.4G", "40M", "HT", "1T", "02", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "02", "63", 
++	"MKK", "2.4G", "40M", "HT", "1T", "02", "63",
++	"FCC", "2.4G", "40M", "HT", "1T", "03", "24", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "03", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "03", "34",
++	"FCC", "2.4G", "40M", "HT", "1T", "04", "30", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "04", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "04", "34",
++	"FCC", "2.4G", "40M", "HT", "1T", "05", "30", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "05", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "05", "34",
++	"FCC", "2.4G", "40M", "HT", "1T", "06", "30", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "06", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "06", "34",
++	"FCC", "2.4G", "40M", "HT", "1T", "07", "30", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "07", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "07", "34",
++	"FCC", "2.4G", "40M", "HT", "1T", "08", "30", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "08", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "08", "34",
++	"FCC", "2.4G", "40M", "HT", "1T", "09", "26", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "09", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "09", "34",
++	"FCC", "2.4G", "40M", "HT", "1T", "10", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "10", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "10", "34",
++	"FCC", "2.4G", "40M", "HT", "1T", "11", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "11", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "11", "34",
++	"FCC", "2.4G", "40M", "HT", "1T", "12", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "12", "63", 
++	"MKK", "2.4G", "40M", "HT", "1T", "12", "63",
++	"FCC", "2.4G", "40M", "HT", "1T", "13", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "13", "63", 
++	"MKK", "2.4G", "40M", "HT", "1T", "13", "63",
++	"FCC", "2.4G", "40M", "HT", "1T", "14", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "14", "63", 
++	"MKK", "2.4G", "40M", "HT", "1T", "14", "63",
++	"FCC", "2.4G", "40M", "HT", "2T", "01", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "01", "63", 
++	"MKK", "2.4G", "40M", "HT", "2T", "01", "63",
++	"FCC", "2.4G", "40M", "HT", "2T", "02", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "02", "63", 
++	"MKK", "2.4G", "40M", "HT", "2T", "02", "63",
++	"FCC", "2.4G", "40M", "HT", "2T", "03", "24", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "03", "24", 
++	"MKK", "2.4G", "40M", "HT", "2T", "03", "34",
++	"FCC", "2.4G", "40M", "HT", "2T", "04", "30", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "04", "24", 
++	"MKK", "2.4G", "40M", "HT", "2T", "04", "34",
++	"FCC", "2.4G", "40M", "HT", "2T", "05", "30", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "05", "24", 
++	"MKK", "2.4G", "40M", "HT", "2T", "05", "34",
++	"FCC", "2.4G", "40M", "HT", "2T", "06", "30", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "06", "24", 
++	"MKK", "2.4G", "40M", "HT", "2T", "06", "34",
++	"FCC", "2.4G", "40M", "HT", "2T", "07", "30", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "07", "24", 
++	"MKK", "2.4G", "40M", "HT", "2T", "07", "34",
++	"FCC", "2.4G", "40M", "HT", "2T", "08", "30", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "08", "24", 
++	"MKK", "2.4G", "40M", "HT", "2T", "08", "34",
++	"FCC", "2.4G", "40M", "HT", "2T", "09", "26", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "09", "24", 
++	"MKK", "2.4G", "40M", "HT", "2T", "09", "34",
++	"FCC", "2.4G", "40M", "HT", "2T", "10", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "10", "24", 
++	"MKK", "2.4G", "40M", "HT", "2T", "10", "34",
++	"FCC", "2.4G", "40M", "HT", "2T", "11", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "11", "24", 
++	"MKK", "2.4G", "40M", "HT", "2T", "11", "34",
++	"FCC", "2.4G", "40M", "HT", "2T", "12", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "12", "63", 
++	"MKK", "2.4G", "40M", "HT", "2T", "12", "63",
++	"FCC", "2.4G", "40M", "HT", "2T", "13", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "13", "63", 
++	"MKK", "2.4G", "40M", "HT", "2T", "13", "63",
++	"FCC", "2.4G", "40M", "HT", "2T", "14", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "14", "63", 
++	"MKK", "2.4G", "40M", "HT", "2T", "14", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "36", "32", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "36", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "36", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "40", "32", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "40", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "40", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "44", "32", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "44", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "44", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "48", "32", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "48", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "48", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "52", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "52", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "52", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "56", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "56", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "56", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "60", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "60", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "60", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "64", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "64", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "64", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "100", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "100", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "100", "36",
++	"FCC", "5G", "20M", "OFDM", "1T", "104", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "104", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "104", "36",
++	"FCC", "5G", "20M", "OFDM", "1T", "108", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "108", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "108", "36",
++	"FCC", "5G", "20M", "OFDM", "1T", "112", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "112", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "112", "36",
++	"FCC", "5G", "20M", "OFDM", "1T", "116", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "116", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "116", "36",
++	"FCC", "5G", "20M", "OFDM", "1T", "120", "63", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "120", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "120", "36",
++	"FCC", "5G", "20M", "OFDM", "1T", "124", "63", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "124", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "124", "36",
++	"FCC", "5G", "20M", "OFDM", "1T", "128", "63", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "128", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "128", "36",
++	"FCC", "5G", "20M", "OFDM", "1T", "132", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "132", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "132", "36",
++	"FCC", "5G", "20M", "OFDM", "1T", "136", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "136", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "136", "36",
++	"FCC", "5G", "20M", "OFDM", "1T", "140", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "140", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "140", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "149", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "149", "63", 
++	"MKK", "5G", "20M", "OFDM", "1T", "149", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "153", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "153", "63", 
++	"MKK", "5G", "20M", "OFDM", "1T", "153", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "157", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "157", "63", 
++	"MKK", "5G", "20M", "OFDM", "1T", "157", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "161", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "161", "63", 
++	"MKK", "5G", "20M", "OFDM", "1T", "161", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "165", "36", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "165", "63", 
++	"MKK", "5G", "20M", "OFDM", "1T", "165", "63",
++	"FCC", "5G", "20M", "HT", "1T", "36", "32", 
++	"ETSI", "5G", "20M", "HT", "1T", "36", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "36", "32",
++	"FCC", "5G", "20M", "HT", "1T", "40", "32", 
++	"ETSI", "5G", "20M", "HT", "1T", "40", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "40", "32",
++	"FCC", "5G", "20M", "HT", "1T", "44", "32", 
++	"ETSI", "5G", "20M", "HT", "1T", "44", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "44", "32",
++	"FCC", "5G", "20M", "HT", "1T", "48", "32", 
++	"ETSI", "5G", "20M", "HT", "1T", "48", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "48", "32",
++	"FCC", "5G", "20M", "HT", "1T", "52", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "52", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "52", "32",
++	"FCC", "5G", "20M", "HT", "1T", "56", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "56", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "56", "32",
++	"FCC", "5G", "20M", "HT", "1T", "60", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "60", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "60", "32",
++	"FCC", "5G", "20M", "HT", "1T", "64", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "64", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "64", "32",
++	"FCC", "5G", "20M", "HT", "1T", "100", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "100", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "100", "36",
++	"FCC", "5G", "20M", "HT", "1T", "104", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "104", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "104", "36",
++	"FCC", "5G", "20M", "HT", "1T", "108", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "108", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "108", "36",
++	"FCC", "5G", "20M", "HT", "1T", "112", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "112", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "112", "36",
++	"FCC", "5G", "20M", "HT", "1T", "116", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "116", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "116", "36",
++	"FCC", "5G", "20M", "HT", "1T", "120", "63", 
++	"ETSI", "5G", "20M", "HT", "1T", "120", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "120", "36",
++	"FCC", "5G", "20M", "HT", "1T", "124", "63", 
++	"ETSI", "5G", "20M", "HT", "1T", "124", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "124", "36",
++	"FCC", "5G", "20M", "HT", "1T", "128", "63", 
++	"ETSI", "5G", "20M", "HT", "1T", "128", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "128", "36",
++	"FCC", "5G", "20M", "HT", "1T", "132", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "132", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "132", "36",
++	"FCC", "5G", "20M", "HT", "1T", "136", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "136", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "136", "36",
++	"FCC", "5G", "20M", "HT", "1T", "140", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "140", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "140", "32",
++	"FCC", "5G", "20M", "HT", "1T", "149", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "149", "63", 
++	"MKK", "5G", "20M", "HT", "1T", "149", "63",
++	"FCC", "5G", "20M", "HT", "1T", "153", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "153", "63", 
++	"MKK", "5G", "20M", "HT", "1T", "153", "63",
++	"FCC", "5G", "20M", "HT", "1T", "157", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "157", "63", 
++	"MKK", "5G", "20M", "HT", "1T", "157", "63",
++	"FCC", "5G", "20M", "HT", "1T", "161", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "161", "63", 
++	"MKK", "5G", "20M", "HT", "1T", "161", "63",
++	"FCC", "5G", "20M", "HT", "1T", "165", "36", 
++	"ETSI", "5G", "20M", "HT", "1T", "165", "63", 
++	"MKK", "5G", "20M", "HT", "1T", "165", "63",
++	"FCC", "5G", "20M", "HT", "2T", "36", "22", 
++	"ETSI", "5G", "20M", "HT", "2T", "36", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "36", "26",
++	"FCC", "5G", "20M", "HT", "2T", "40", "22", 
++	"ETSI", "5G", "20M", "HT", "2T", "40", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "40", "26",
++	"FCC", "5G", "20M", "HT", "2T", "44", "22", 
++	"ETSI", "5G", "20M", "HT", "2T", "44", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "44", "26",
++	"FCC", "5G", "20M", "HT", "2T", "48", "22", 
++	"ETSI", "5G", "20M", "HT", "2T", "48", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "48", "26",
++	"FCC", "5G", "20M", "HT", "2T", "52", "36", 
++	"ETSI", "5G", "20M", "HT", "2T", "52", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "52", "26",
++	"FCC", "5G", "20M", "HT", "2T", "56", "36", 
++	"ETSI", "5G", "20M", "HT", "2T", "56", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "56", "26",
++	"FCC", "5G", "20M", "HT", "2T", "60", "36", 
++	"ETSI", "5G", "20M", "HT", "2T", "60", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "60", "26",
++	"FCC", "5G", "20M", "HT", "2T", "64", "30", 
++	"ETSI", "5G", "20M", "HT", "2T", "64", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "64", "26",
++	"FCC", "5G", "20M", "HT", "2T", "100", "32", 
++	"ETSI", "5G", "20M", "HT", "2T", "100", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "100", "34",
++	"FCC", "5G", "20M", "HT", "2T", "104", "36", 
++	"ETSI", "5G", "20M", "HT", "2T", "104", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "104", "34",
++	"FCC", "5G", "20M", "HT", "2T", "108", "36", 
++	"ETSI", "5G", "20M", "HT", "2T", "108", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "108", "34",
++	"FCC", "5G", "20M", "HT", "2T", "112", "36", 
++	"ETSI", "5G", "20M", "HT", "2T", "112", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "112", "34",
++	"FCC", "5G", "20M", "HT", "2T", "116", "36", 
++	"ETSI", "5G", "20M", "HT", "2T", "116", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "116", "34",
++	"FCC", "5G", "20M", "HT", "2T", "120", "63", 
++	"ETSI", "5G", "20M", "HT", "2T", "120", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "120", "34",
++	"FCC", "5G", "20M", "HT", "2T", "124", "63", 
++	"ETSI", "5G", "20M", "HT", "2T", "124", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "124", "34",
++	"FCC", "5G", "20M", "HT", "2T", "128", "63", 
++	"ETSI", "5G", "20M", "HT", "2T", "128", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "128", "34",
++	"FCC", "5G", "20M", "HT", "2T", "132", "36", 
++	"ETSI", "5G", "20M", "HT", "2T", "132", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "132", "34",
++	"FCC", "5G", "20M", "HT", "2T", "136", "36", 
++	"ETSI", "5G", "20M", "HT", "2T", "136", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "136", "34",
++	"FCC", "5G", "20M", "HT", "2T", "140", "30", 
++	"ETSI", "5G", "20M", "HT", "2T", "140", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "140", "34",
++	"FCC", "5G", "20M", "HT", "2T", "149", "36", 
++	"ETSI", "5G", "20M", "HT", "2T", "149", "63", 
++	"MKK", "5G", "20M", "HT", "2T", "149", "63",
++	"FCC", "5G", "20M", "HT", "2T", "153", "36", 
++	"ETSI", "5G", "20M", "HT", "2T", "153", "63", 
++	"MKK", "5G", "20M", "HT", "2T", "153", "63",
++	"FCC", "5G", "20M", "HT", "2T", "157", "36", 
++	"ETSI", "5G", "20M", "HT", "2T", "157", "63", 
++	"MKK", "5G", "20M", "HT", "2T", "157", "63",
++	"FCC", "5G", "20M", "HT", "2T", "161", "36", 
++	"ETSI", "5G", "20M", "HT", "2T", "161", "63", 
++	"MKK", "5G", "20M", "HT", "2T", "161", "63",
++	"FCC", "5G", "20M", "HT", "2T", "165", "36", 
++	"ETSI", "5G", "20M", "HT", "2T", "165", "63", 
++	"MKK", "5G", "20M", "HT", "2T", "165", "63",
++	"FCC", "5G", "40M", "HT", "1T", "38", "20", 
++	"ETSI", "5G", "40M", "HT", "1T", "38", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "38", "34",
++	"FCC", "5G", "40M", "HT", "1T", "46", "32", 
++	"ETSI", "5G", "40M", "HT", "1T", "46", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "46", "34",
++	"FCC", "5G", "40M", "HT", "1T", "54", "34", 
++	"ETSI", "5G", "40M", "HT", "1T", "54", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "54", "34",
++	"FCC", "5G", "40M", "HT", "1T", "62", "20", 
++	"ETSI", "5G", "40M", "HT", "1T", "62", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "62", "34",
++	"FCC", "5G", "40M", "HT", "1T", "102", "22", 
++	"ETSI", "5G", "40M", "HT", "1T", "102", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "102", "36",
++	"FCC", "5G", "40M", "HT", "1T", "110", "36", 
++	"ETSI", "5G", "40M", "HT", "1T", "110", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "110", "34",
++	"FCC", "5G", "40M", "HT", "1T", "118", "36", 
++	"ETSI", "5G", "40M", "HT", "1T", "118", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "118", "34",
++	"FCC", "5G", "40M", "HT", "1T", "126", "63", 
++	"ETSI", "5G", "40M", "HT", "1T", "126", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "126", "34",
++	"FCC", "5G", "40M", "HT", "1T", "134", "30", 
++	"ETSI", "5G", "40M", "HT", "1T", "134", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "134", "34",
++	"FCC", "5G", "40M", "HT", "1T", "151", "36", 
++	"ETSI", "5G", "40M", "HT", "1T", "151", "63", 
++	"MKK", "5G", "40M", "HT", "1T", "151", "63",
++	"FCC", "5G", "40M", "HT", "1T", "159", "36", 
++	"ETSI", "5G", "40M", "HT", "1T", "159", "63", 
++	"MKK", "5G", "40M", "HT", "1T", "159", "63",
++	"FCC", "5G", "40M", "HT", "2T", "38", "20", 
++	"ETSI", "5G", "40M", "HT", "2T", "38", "26", 
++	"MKK", "5G", "40M", "HT", "2T", "38", "26",
++	"FCC", "5G", "40M", "HT", "2T", "46", "22", 
++	"ETSI", "5G", "40M", "HT", "2T", "46", "26", 
++	"MKK", "5G", "40M", "HT", "2T", "46", "26",
++	"FCC", "5G", "40M", "HT", "2T", "54", "34", 
++	"ETSI", "5G", "40M", "HT", "2T", "54", "26", 
++	"MKK", "5G", "40M", "HT", "2T", "54", "26",
++	"FCC", "5G", "40M", "HT", "2T", "62", "20", 
++	"ETSI", "5G", "40M", "HT", "2T", "62", "26", 
++	"MKK", "5G", "40M", "HT", "2T", "62", "26",
++	"FCC", "5G", "40M", "HT", "2T", "102", "22", 
++	"ETSI", "5G", "40M", "HT", "2T", "102", "26", 
++	"MKK", "5G", "40M", "HT", "2T", "102", "36",
++	"FCC", "5G", "40M", "HT", "2T", "110", "36", 
++	"ETSI", "5G", "40M", "HT", "2T", "110", "26", 
++	"MKK", "5G", "40M", "HT", "2T", "110", "34",
++	"FCC", "5G", "40M", "HT", "2T", "118", "36", 
++	"ETSI", "5G", "40M", "HT", "2T", "118", "26", 
++	"MKK", "5G", "40M", "HT", "2T", "118", "34",
++	"FCC", "5G", "40M", "HT", "2T", "126", "63", 
++	"ETSI", "5G", "40M", "HT", "2T", "126", "26", 
++	"MKK", "5G", "40M", "HT", "2T", "126", "34",
++	"FCC", "5G", "40M", "HT", "2T", "134", "30", 
++	"ETSI", "5G", "40M", "HT", "2T", "134", "26", 
++	"MKK", "5G", "40M", "HT", "2T", "134", "34",
++	"FCC", "5G", "40M", "HT", "2T", "151", "36", 
++	"ETSI", "5G", "40M", "HT", "2T", "151", "63", 
++	"MKK", "5G", "40M", "HT", "2T", "151", "63",
++	"FCC", "5G", "40M", "HT", "2T", "159", "36", 
++	"ETSI", "5G", "40M", "HT", "2T", "159", "63", 
++	"MKK", "5G", "40M", "HT", "2T", "159", "63",
++	"FCC", "5G", "80M", "VHT", "1T", "42", "20", 
++	"ETSI", "5G", "80M", "VHT", "1T", "42", "32", 
++	"MKK", "5G", "80M", "VHT", "1T", "42", "32",
++	"FCC", "5G", "80M", "VHT", "1T", "58", "16", 
++	"ETSI", "5G", "80M", "VHT", "1T", "58", "32", 
++	"MKK", "5G", "80M", "VHT", "1T", "58", "32",
++	"FCC", "5G", "80M", "VHT", "1T", "106", "22", 
++	"ETSI", "5G", "80M", "VHT", "1T", "106", "32", 
++	"MKK", "5G", "80M", "VHT", "1T", "106", "32",
++	"FCC", "5G", "80M", "VHT", "1T", "122", "63", 
++	"ETSI", "5G", "80M", "VHT", "1T", "122", "32", 
++	"MKK", "5G", "80M", "VHT", "1T", "122", "32",
++	"FCC", "5G", "80M", "VHT", "1T", "155", "36", 
++	"ETSI", "5G", "80M", "VHT", "1T", "155", "63", 
++	"MKK", "5G", "80M", "VHT", "1T", "155", "63",
++	"FCC", "5G", "80M", "VHT", "2T", "42", "18", 
++	"ETSI", "5G", "80M", "VHT", "2T", "42", "26", 
++	"MKK", "5G", "80M", "VHT", "2T", "42", "28",
++	"FCC", "5G", "80M", "VHT", "2T", "58", "16", 
++	"ETSI", "5G", "80M", "VHT", "2T", "58", "26", 
++	"MKK", "5G", "80M", "VHT", "2T", "58", "28",
++	"FCC", "5G", "80M", "VHT", "2T", "106", "22", 
++	"ETSI", "5G", "80M", "VHT", "2T", "106", "26", 
++	"MKK", "5G", "80M", "VHT", "2T", "106", "32",
++	"FCC", "5G", "80M", "VHT", "2T", "122", "63", 
++	"ETSI", "5G", "80M", "VHT", "2T", "122", "26", 
++	"MKK", "5G", "80M", "VHT", "2T", "122", "32",
++	"FCC", "5G", "80M", "VHT", "2T", "155", "36", 
++	"ETSI", "5G", "80M", "VHT", "2T", "155", "63", 
++	"MKK", "5G", "80M", "VHT", "2T", "155", "63"
++};
++
++void
++ODM_ReadAndConfig_MP_8812A_TXPWR_LMT_HM812A03(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i           = 0;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8812A_TXPWR_LMT_HM812A03)/sizeof(pu1Byte);
++	pu1Byte    *Array      = (pu1Byte *)Array_MP_8812A_TXPWR_LMT_HM812A03;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	PlatformZeroMemory(pHalData->BufOfLinesPwrLmt, MAX_LINES_HWCONFIG_TXT*MAX_BYTES_LINE_HWCONFIG_TXT);
++	pHalData->nLinesReadPwrLmt = ArrayLen/7;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8812A_TXPWR_LMT_HM812A03\n"));
++
++	for (i = 0; i < ArrayLen; i += 7) {
++		pu1Byte regulation = Array[i];
++		pu1Byte band = Array[i+1];
++		pu1Byte bandwidth = Array[i+2];
++		pu1Byte rate = Array[i+3];
++		pu1Byte rfPath = Array[i+4];
++		pu1Byte chnl = Array[i+5];
++		pu1Byte val = Array[i+6];
++	
++		odm_ConfigBB_TXPWR_LMT_8812A(pDM_Odm, regulation, band, bandwidth, rate, rfPath, chnl, val);
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		rsprintf((char *)pHalData->BufOfLinesPwrLmt[i/7], 100, "\"%s\", \"%s\", \"%s\", \"%s\", \"%s\", \"%s\", \"%s\",",
++			regulation, band, bandwidth, rate, rfPath, chnl, val);
++#endif
++	}
++
++}
++
++/******************************************************************************
++*                           TXPWR_LMT_NFA812A00.TXT
++******************************************************************************/
++
++const char *Array_MP_8812A_TXPWR_LMT_NFA812A00[] = { 
++	"FCC", "2.4G", "20M", "CCK", "1T", "01", "34", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "01", "28", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "01", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "02", "34", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "02", "28", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "02", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "03", "34", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "03", "28", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "03", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "04", "34", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "04", "28", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "04", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "05", "34", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "05", "28", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "05", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "06", "34", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "06", "28", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "06", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "07", "34", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "07", "28", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "07", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "08", "34", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "08", "28", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "08", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "09", "34", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "09", "28", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "09", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "10", "34", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "10", "28", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "10", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "11", "34", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "11", "28", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "11", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "12", "63", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "12", "28", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "12", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "13", "63", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "13", "28", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "13", "36",
++	"FCC", "2.4G", "20M", "CCK", "1T", "14", "63", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "14", "63", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "14", "36",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "01", "30", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "01", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "01", "34",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "02", "34", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "02", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "02", "34",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "03", "34", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "03", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "03", "34",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "04", "34", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "04", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "04", "34",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "05", "34", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "05", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "05", "34",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "06", "34", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "06", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "06", "34",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "07", "34", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "07", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "07", "34",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "08", "34", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "08", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "08", "34",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "09", "34", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "09", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "09", "34",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "10", "34", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "10", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "10", "34",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "11", "30", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "11", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "11", "34",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "12", "63", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "12", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "12", "34",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "13", "63", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "13", "30", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "13", "34",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "14", "63", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "14", "63", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "14", "63",
++	"FCC", "2.4G", "20M", "HT", "1T", "01", "30", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "01", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "01", "34",
++	"FCC", "2.4G", "20M", "HT", "1T", "02", "34", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "02", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "02", "34",
++	"FCC", "2.4G", "20M", "HT", "1T", "03", "34", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "03", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "03", "34",
++	"FCC", "2.4G", "20M", "HT", "1T", "04", "34", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "04", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "04", "34",
++	"FCC", "2.4G", "20M", "HT", "1T", "05", "34", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "05", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "05", "34",
++	"FCC", "2.4G", "20M", "HT", "1T", "06", "34", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "06", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "06", "34",
++	"FCC", "2.4G", "20M", "HT", "1T", "07", "34", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "07", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "07", "34",
++	"FCC", "2.4G", "20M", "HT", "1T", "08", "34", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "08", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "08", "34",
++	"FCC", "2.4G", "20M", "HT", "1T", "09", "34", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "09", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "09", "34",
++	"FCC", "2.4G", "20M", "HT", "1T", "10", "34", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "10", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "10", "34",
++	"FCC", "2.4G", "20M", "HT", "1T", "11", "30", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "11", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "11", "34",
++	"FCC", "2.4G", "20M", "HT", "1T", "12", "63", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "12", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "12", "34",
++	"FCC", "2.4G", "20M", "HT", "1T", "13", "63", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "13", "30", 
++	"MKK", "2.4G", "20M", "HT", "1T", "13", "34",
++	"FCC", "2.4G", "20M", "HT", "1T", "14", "63", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "14", "63", 
++	"MKK", "2.4G", "20M", "HT", "1T", "14", "63",
++	"FCC", "2.4G", "20M", "HT", "2T", "01", "30", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "01", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "01", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "02", "34", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "02", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "02", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "03", "34", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "03", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "03", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "04", "34", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "04", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "04", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "05", "34", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "05", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "05", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "06", "34", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "06", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "06", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "07", "34", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "07", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "07", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "08", "34", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "08", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "08", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "09", "34", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "09", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "09", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "10", "34", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "10", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "10", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "11", "28", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "11", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "11", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "12", "63", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "12", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "12", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "13", "63", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "13", "24", 
++	"MKK", "2.4G", "20M", "HT", "2T", "13", "34",
++	"FCC", "2.4G", "20M", "HT", "2T", "14", "63", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "14", "63", 
++	"MKK", "2.4G", "20M", "HT", "2T", "14", "63",
++	"FCC", "2.4G", "40M", "HT", "1T", "01", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "01", "63", 
++	"MKK", "2.4G", "40M", "HT", "1T", "01", "63",
++	"FCC", "2.4G", "40M", "HT", "1T", "02", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "02", "63", 
++	"MKK", "2.4G", "40M", "HT", "1T", "02", "63",
++	"FCC", "2.4G", "40M", "HT", "1T", "03", "24", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "03", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "03", "34",
++	"FCC", "2.4G", "40M", "HT", "1T", "04", "28", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "04", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "04", "34",
++	"FCC", "2.4G", "40M", "HT", "1T", "05", "28", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "05", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "05", "34",
++	"FCC", "2.4G", "40M", "HT", "1T", "06", "28", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "06", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "06", "34",
++	"FCC", "2.4G", "40M", "HT", "1T", "07", "28", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "07", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "07", "34",
++	"FCC", "2.4G", "40M", "HT", "1T", "08", "28", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "08", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "08", "34",
++	"FCC", "2.4G", "40M", "HT", "1T", "09", "26", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "09", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "09", "34",
++	"FCC", "2.4G", "40M", "HT", "1T", "10", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "10", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "10", "34",
++	"FCC", "2.4G", "40M", "HT", "1T", "11", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "11", "30", 
++	"MKK", "2.4G", "40M", "HT", "1T", "11", "34",
++	"FCC", "2.4G", "40M", "HT", "1T", "12", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "12", "63", 
++	"MKK", "2.4G", "40M", "HT", "1T", "12", "63",
++	"FCC", "2.4G", "40M", "HT", "1T", "13", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "13", "63", 
++	"MKK", "2.4G", "40M", "HT", "1T", "13", "63",
++	"FCC", "2.4G", "40M", "HT", "1T", "14", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "14", "63", 
++	"MKK", "2.4G", "40M", "HT", "1T", "14", "63",
++	"FCC", "2.4G", "40M", "HT", "2T", "01", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "01", "63", 
++	"MKK", "2.4G", "40M", "HT", "2T", "01", "63",
++	"FCC", "2.4G", "40M", "HT", "2T", "02", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "02", "63", 
++	"MKK", "2.4G", "40M", "HT", "2T", "02", "63",
++	"FCC", "2.4G", "40M", "HT", "2T", "03", "24", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "03", "24", 
++	"MKK", "2.4G", "40M", "HT", "2T", "03", "34",
++	"FCC", "2.4G", "40M", "HT", "2T", "04", "30", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "04", "24", 
++	"MKK", "2.4G", "40M", "HT", "2T", "04", "34",
++	"FCC", "2.4G", "40M", "HT", "2T", "05", "30", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "05", "24", 
++	"MKK", "2.4G", "40M", "HT", "2T", "05", "34",
++	"FCC", "2.4G", "40M", "HT", "2T", "06", "30", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "06", "24", 
++	"MKK", "2.4G", "40M", "HT", "2T", "06", "34",
++	"FCC", "2.4G", "40M", "HT", "2T", "07", "30", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "07", "24", 
++	"MKK", "2.4G", "40M", "HT", "2T", "07", "34",
++	"FCC", "2.4G", "40M", "HT", "2T", "08", "30", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "08", "24", 
++	"MKK", "2.4G", "40M", "HT", "2T", "08", "34",
++	"FCC", "2.4G", "40M", "HT", "2T", "09", "26", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "09", "24", 
++	"MKK", "2.4G", "40M", "HT", "2T", "09", "34",
++	"FCC", "2.4G", "40M", "HT", "2T", "10", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "10", "24", 
++	"MKK", "2.4G", "40M", "HT", "2T", "10", "34",
++	"FCC", "2.4G", "40M", "HT", "2T", "11", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "11", "24", 
++	"MKK", "2.4G", "40M", "HT", "2T", "11", "34",
++	"FCC", "2.4G", "40M", "HT", "2T", "12", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "12", "63", 
++	"MKK", "2.4G", "40M", "HT", "2T", "12", "63",
++	"FCC", "2.4G", "40M", "HT", "2T", "13", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "13", "63", 
++	"MKK", "2.4G", "40M", "HT", "2T", "13", "63",
++	"FCC", "2.4G", "40M", "HT", "2T", "14", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "14", "63", 
++	"MKK", "2.4G", "40M", "HT", "2T", "14", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "36", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "36", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "36", "34",
++	"FCC", "5G", "20M", "OFDM", "1T", "40", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "40", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "40", "34",
++	"FCC", "5G", "20M", "OFDM", "1T", "44", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "44", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "44", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "48", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "48", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "48", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "52", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "52", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "52", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "56", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "56", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "56", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "60", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "60", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "60", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "64", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "64", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "64", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "100", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "100", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "100", "34",
++	"FCC", "5G", "20M", "OFDM", "1T", "114", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "114", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "114", "34",
++	"FCC", "5G", "20M", "OFDM", "1T", "108", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "108", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "108", "34",
++	"FCC", "5G", "20M", "OFDM", "1T", "112", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "112", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "112", "34",
++	"FCC", "5G", "20M", "OFDM", "1T", "116", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "116", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "116", "34",
++	"FCC", "5G", "20M", "OFDM", "1T", "120", "63", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "120", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "120", "34",
++	"FCC", "5G", "20M", "OFDM", "1T", "124", "63", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "124", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "124", "34",
++	"FCC", "5G", "20M", "OFDM", "1T", "128", "63", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "128", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "128", "34",
++	"FCC", "5G", "20M", "OFDM", "1T", "132", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "132", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "132", "34",
++	"FCC", "5G", "20M", "OFDM", "1T", "136", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "136", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "136", "34",
++	"FCC", "5G", "20M", "OFDM", "1T", "140", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "140", "32", 
++	"MKK", "5G", "20M", "OFDM", "1T", "140", "34",
++	"FCC", "5G", "20M", "OFDM", "1T", "149", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "149", "63", 
++	"MKK", "5G", "20M", "OFDM", "1T", "149", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "153", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "153", "63", 
++	"MKK", "5G", "20M", "OFDM", "1T", "153", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "157", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "157", "63", 
++	"MKK", "5G", "20M", "OFDM", "1T", "157", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "161", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "161", "63", 
++	"MKK", "5G", "20M", "OFDM", "1T", "161", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "165", "34", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "165", "63", 
++	"MKK", "5G", "20M", "OFDM", "1T", "165", "63",
++	"FCC", "5G", "20M", "HT", "1T", "36", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "36", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "36", "34",
++	"FCC", "5G", "20M", "HT", "1T", "40", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "40", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "40", "34",
++	"FCC", "5G", "20M", "HT", "1T", "44", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "44", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "44", "32",
++	"FCC", "5G", "20M", "HT", "1T", "48", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "48", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "48", "32",
++	"FCC", "5G", "20M", "HT", "1T", "52", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "52", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "52", "32",
++	"FCC", "5G", "20M", "HT", "1T", "56", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "56", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "56", "32",
++	"FCC", "5G", "20M", "HT", "1T", "60", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "60", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "60", "32",
++	"FCC", "5G", "20M", "HT", "1T", "64", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "64", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "64", "32",
++	"FCC", "5G", "20M", "HT", "1T", "100", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "100", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "100", "34",
++	"FCC", "5G", "20M", "HT", "1T", "114", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "114", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "114", "34",
++	"FCC", "5G", "20M", "HT", "1T", "108", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "108", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "108", "34",
++	"FCC", "5G", "20M", "HT", "1T", "112", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "112", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "112", "34",
++	"FCC", "5G", "20M", "HT", "1T", "116", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "116", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "116", "34",
++	"FCC", "5G", "20M", "HT", "1T", "120", "63", 
++	"ETSI", "5G", "20M", "HT", "1T", "120", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "120", "34",
++	"FCC", "5G", "20M", "HT", "1T", "124", "63", 
++	"ETSI", "5G", "20M", "HT", "1T", "124", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "124", "34",
++	"FCC", "5G", "20M", "HT", "1T", "128", "63", 
++	"ETSI", "5G", "20M", "HT", "1T", "128", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "128", "34",
++	"FCC", "5G", "20M", "HT", "1T", "132", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "132", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "132", "34",
++	"FCC", "5G", "20M", "HT", "1T", "136", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "136", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "136", "34",
++	"FCC", "5G", "20M", "HT", "1T", "140", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "140", "32", 
++	"MKK", "5G", "20M", "HT", "1T", "140", "34",
++	"FCC", "5G", "20M", "HT", "1T", "149", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "149", "63", 
++	"MKK", "5G", "20M", "HT", "1T", "149", "63",
++	"FCC", "5G", "20M", "HT", "1T", "153", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "153", "63", 
++	"MKK", "5G", "20M", "HT", "1T", "153", "63",
++	"FCC", "5G", "20M", "HT", "1T", "157", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "157", "63", 
++	"MKK", "5G", "20M", "HT", "1T", "157", "63",
++	"FCC", "5G", "20M", "HT", "1T", "161", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "161", "63", 
++	"MKK", "5G", "20M", "HT", "1T", "161", "63",
++	"FCC", "5G", "20M", "HT", "1T", "165", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "165", "63", 
++	"MKK", "5G", "20M", "HT", "1T", "165", "63",
++	"FCC", "5G", "20M", "HT", "2T", "36", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "36", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "36", "28",
++	"FCC", "5G", "20M", "HT", "2T", "40", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "40", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "40", "28",
++	"FCC", "5G", "20M", "HT", "2T", "44", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "44", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "44", "28",
++	"FCC", "5G", "20M", "HT", "2T", "48", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "48", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "48", "28",
++	"FCC", "5G", "20M", "HT", "2T", "52", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "52", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "52", "28",
++	"FCC", "5G", "20M", "HT", "2T", "56", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "56", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "56", "28",
++	"FCC", "5G", "20M", "HT", "2T", "60", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "60", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "60", "28",
++	"FCC", "5G", "20M", "HT", "2T", "64", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "64", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "64", "28",
++	"FCC", "5G", "20M", "HT", "2T", "100", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "100", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "100", "34",
++	"FCC", "5G", "20M", "HT", "2T", "114", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "114", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "114", "34",
++	"FCC", "5G", "20M", "HT", "2T", "108", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "108", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "108", "34",
++	"FCC", "5G", "20M", "HT", "2T", "112", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "112", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "112", "34",
++	"FCC", "5G", "20M", "HT", "2T", "116", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "116", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "116", "34",
++	"FCC", "5G", "20M", "HT", "2T", "120", "63", 
++	"ETSI", "5G", "20M", "HT", "2T", "120", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "120", "34",
++	"FCC", "5G", "20M", "HT", "2T", "124", "63", 
++	"ETSI", "5G", "20M", "HT", "2T", "124", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "124", "34",
++	"FCC", "5G", "20M", "HT", "2T", "128", "63", 
++	"ETSI", "5G", "20M", "HT", "2T", "128", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "128", "34",
++	"FCC", "5G", "20M", "HT", "2T", "132", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "132", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "132", "34",
++	"FCC", "5G", "20M", "HT", "2T", "136", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "136", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "136", "34",
++	"FCC", "5G", "20M", "HT", "2T", "140", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "140", "26", 
++	"MKK", "5G", "20M", "HT", "2T", "140", "34",
++	"FCC", "5G", "20M", "HT", "2T", "149", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "149", "63", 
++	"MKK", "5G", "20M", "HT", "2T", "149", "63",
++	"FCC", "5G", "20M", "HT", "2T", "153", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "153", "63", 
++	"MKK", "5G", "20M", "HT", "2T", "153", "63",
++	"FCC", "5G", "20M", "HT", "2T", "157", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "157", "63", 
++	"MKK", "5G", "20M", "HT", "2T", "157", "63",
++	"FCC", "5G", "20M", "HT", "2T", "161", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "161", "63", 
++	"MKK", "5G", "20M", "HT", "2T", "161", "63",
++	"FCC", "5G", "20M", "HT", "2T", "165", "34", 
++	"ETSI", "5G", "20M", "HT", "2T", "165", "63", 
++	"MKK", "5G", "20M", "HT", "2T", "165", "63",
++	"FCC", "5G", "40M", "HT", "1T", "38", "28", 
++	"ETSI", "5G", "40M", "HT", "1T", "38", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "38", "34",
++	"FCC", "5G", "40M", "HT", "1T", "46", "34", 
++	"ETSI", "5G", "40M", "HT", "1T", "46", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "46", "34",
++	"FCC", "5G", "40M", "HT", "1T", "54", "34", 
++	"ETSI", "5G", "40M", "HT", "1T", "54", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "54", "34",
++	"FCC", "5G", "40M", "HT", "1T", "62", "32", 
++	"ETSI", "5G", "40M", "HT", "1T", "62", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "62", "34",
++	"FCC", "5G", "40M", "HT", "1T", "102", "28", 
++	"ETSI", "5G", "40M", "HT", "1T", "102", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "102", "34",
++	"FCC", "5G", "40M", "HT", "1T", "110", "34", 
++	"ETSI", "5G", "40M", "HT", "1T", "110", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "110", "34",
++	"FCC", "5G", "40M", "HT", "1T", "118", "34", 
++	"ETSI", "5G", "40M", "HT", "1T", "118", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "118", "34",
++	"FCC", "5G", "40M", "HT", "1T", "126", "63", 
++	"ETSI", "5G", "40M", "HT", "1T", "126", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "126", "34",
++	"FCC", "5G", "40M", "HT", "1T", "134", "34", 
++	"ETSI", "5G", "40M", "HT", "1T", "134", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "134", "34",
++	"FCC", "5G", "40M", "HT", "1T", "151", "34", 
++	"ETSI", "5G", "40M", "HT", "1T", "151", "63", 
++	"MKK", "5G", "40M", "HT", "1T", "151", "63",
++	"FCC", "5G", "40M", "HT", "1T", "159", "34", 
++	"ETSI", "5G", "40M", "HT", "1T", "159", "63", 
++	"MKK", "5G", "40M", "HT", "1T", "159", "63",
++	"FCC", "5G", "40M", "HT", "2T", "38", "28", 
++	"ETSI", "5G", "40M", "HT", "2T", "38", "26", 
++	"MKK", "5G", "40M", "HT", "2T", "38", "28",
++	"FCC", "5G", "40M", "HT", "2T", "46", "34", 
++	"ETSI", "5G", "40M", "HT", "2T", "46", "26", 
++	"MKK", "5G", "40M", "HT", "2T", "46", "28",
++	"FCC", "5G", "40M", "HT", "2T", "54", "34", 
++	"ETSI", "5G", "40M", "HT", "2T", "54", "26", 
++	"MKK", "5G", "40M", "HT", "2T", "54", "28",
++	"FCC", "5G", "40M", "HT", "2T", "62", "30", 
++	"ETSI", "5G", "40M", "HT", "2T", "62", "26", 
++	"MKK", "5G", "40M", "HT", "2T", "62", "28",
++	"FCC", "5G", "40M", "HT", "2T", "102", "28", 
++	"ETSI", "5G", "40M", "HT", "2T", "102", "26", 
++	"MKK", "5G", "40M", "HT", "2T", "102", "34",
++	"FCC", "5G", "40M", "HT", "2T", "110", "34", 
++	"ETSI", "5G", "40M", "HT", "2T", "110", "26", 
++	"MKK", "5G", "40M", "HT", "2T", "110", "34",
++	"FCC", "5G", "40M", "HT", "2T", "118", "34", 
++	"ETSI", "5G", "40M", "HT", "2T", "118", "26", 
++	"MKK", "5G", "40M", "HT", "2T", "118", "34",
++	"FCC", "5G", "40M", "HT", "2T", "126", "63", 
++	"ETSI", "5G", "40M", "HT", "2T", "126", "26", 
++	"MKK", "5G", "40M", "HT", "2T", "126", "34",
++	"FCC", "5G", "40M", "HT", "2T", "134", "34", 
++	"ETSI", "5G", "40M", "HT", "2T", "134", "26", 
++	"MKK", "5G", "40M", "HT", "2T", "134", "34",
++	"FCC", "5G", "40M", "HT", "2T", "151", "34", 
++	"ETSI", "5G", "40M", "HT", "2T", "151", "63", 
++	"MKK", "5G", "40M", "HT", "2T", "151", "63",
++	"FCC", "5G", "40M", "HT", "2T", "159", "34", 
++	"ETSI", "5G", "40M", "HT", "2T", "159", "63", 
++	"MKK", "5G", "40M", "HT", "2T", "159", "63",
++	"FCC", "5G", "80M", "VHT", "1T", "42", "24", 
++	"ETSI", "5G", "80M", "VHT", "1T", "42", "32", 
++	"MKK", "5G", "80M", "VHT", "1T", "42", "32",
++	"FCC", "5G", "80M", "VHT", "1T", "58", "32", 
++	"ETSI", "5G", "80M", "VHT", "1T", "58", "32", 
++	"MKK", "5G", "80M", "VHT", "1T", "58", "32",
++	"FCC", "5G", "80M", "VHT", "1T", "106", "26", 
++	"ETSI", "5G", "80M", "VHT", "1T", "106", "32", 
++	"MKK", "5G", "80M", "VHT", "1T", "106", "34",
++	"FCC", "5G", "80M", "VHT", "1T", "122", "63", 
++	"ETSI", "5G", "80M", "VHT", "1T", "122", "32", 
++	"MKK", "5G", "80M", "VHT", "1T", "122", "34",
++	"FCC", "5G", "80M", "VHT", "1T", "155", "34", 
++	"ETSI", "5G", "80M", "VHT", "1T", "155", "63", 
++	"MKK", "5G", "80M", "VHT", "1T", "155", "63",
++	"FCC", "5G", "80M", "VHT", "2T", "42", "24", 
++	"ETSI", "5G", "80M", "VHT", "2T", "42", "26", 
++	"MKK", "5G", "80M", "VHT", "2T", "42", "24",
++	"FCC", "5G", "80M", "VHT", "2T", "58", "30", 
++	"ETSI", "5G", "80M", "VHT", "2T", "58", "26", 
++	"MKK", "5G", "80M", "VHT", "2T", "58", "26",
++	"FCC", "5G", "80M", "VHT", "2T", "106", "26", 
++	"ETSI", "5G", "80M", "VHT", "2T", "106", "26", 
++	"MKK", "5G", "80M", "VHT", "2T", "106", "34",
++	"FCC", "5G", "80M", "VHT", "2T", "122", "63", 
++	"ETSI", "5G", "80M", "VHT", "2T", "122", "26", 
++	"MKK", "5G", "80M", "VHT", "2T", "122", "34",
++	"FCC", "5G", "80M", "VHT", "2T", "155", "34", 
++	"ETSI", "5G", "80M", "VHT", "2T", "155", "63", 
++	"MKK", "5G", "80M", "VHT", "2T", "155", "63"
++};
++
++void
++ODM_ReadAndConfig_MP_8812A_TXPWR_LMT_NFA812A00(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i           = 0;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8812A_TXPWR_LMT_NFA812A00)/sizeof(pu1Byte);
++	pu1Byte    *Array      = (pu1Byte *)Array_MP_8812A_TXPWR_LMT_NFA812A00;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	PlatformZeroMemory(pHalData->BufOfLinesPwrLmt, MAX_LINES_HWCONFIG_TXT*MAX_BYTES_LINE_HWCONFIG_TXT);
++	pHalData->nLinesReadPwrLmt = ArrayLen/7;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8812A_TXPWR_LMT_NFA812A00\n"));
++
++	for (i = 0; i < ArrayLen; i += 7) {
++		pu1Byte regulation = Array[i];
++		pu1Byte band = Array[i+1];
++		pu1Byte bandwidth = Array[i+2];
++		pu1Byte rate = Array[i+3];
++		pu1Byte rfPath = Array[i+4];
++		pu1Byte chnl = Array[i+5];
++		pu1Byte val = Array[i+6];
++	
++		odm_ConfigBB_TXPWR_LMT_8812A(pDM_Odm, regulation, band, bandwidth, rate, rfPath, chnl, val);
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		rsprintf((char *)pHalData->BufOfLinesPwrLmt[i/7], 100, "\"%s\", \"%s\", \"%s\", \"%s\", \"%s\", \"%s\", \"%s\",",
++			regulation, band, bandwidth, rate, rfPath, chnl, val);
++#endif
++	}
++
++}
++
++/******************************************************************************
++*                           TXPWR_LMT_TPLINK.TXT
++******************************************************************************/
++
++const char *Array_MP_8812A_TXPWR_LMT_TPLINK[] = { 
++	"FCC", "2.4G", "20M", "CCK", "1T", "01", "35", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "01", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "01", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "02", "35", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "02", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "02", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "03", "35", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "03", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "03", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "04", "35", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "04", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "04", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "05", "35", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "05", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "05", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "06", "35", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "06", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "06", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "07", "35", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "07", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "07", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "08", "35", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "08", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "08", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "09", "35", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "09", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "09", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "10", "35", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "10", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "10", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "11", "35", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "11", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "11", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "12", "63", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "12", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "12", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "13", "63", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "13", "32", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "13", "32",
++	"FCC", "2.4G", "20M", "CCK", "1T", "14", "63", 
++	"ETSI", "2.4G", "20M", "CCK", "1T", "14", "63", 
++	"MKK", "2.4G", "20M", "CCK", "1T", "14", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "01", "31", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "01", "34", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "01", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "02", "35", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "02", "34", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "02", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "03", "35", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "03", "34", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "03", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "04", "35", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "04", "34", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "04", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "05", "35", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "05", "34", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "05", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "06", "35", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "06", "34", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "06", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "07", "35", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "07", "34", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "07", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "08", "35", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "08", "34", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "08", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "09", "35", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "09", "34", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "09", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "10", "35", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "10", "34", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "10", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "11", "28", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "11", "32", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "11", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "12", "63", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "12", "32", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "12", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "13", "63", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "13", "32", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "13", "32",
++	"FCC", "2.4G", "20M", "OFDM", "1T", "14", "63", 
++	"ETSI", "2.4G", "20M", "OFDM", "1T", "14", "63", 
++	"MKK", "2.4G", "20M", "OFDM", "1T", "14", "63",
++	"FCC", "2.4G", "20M", "HT", "1T", "01", "33", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "01", "34", 
++	"MKK", "2.4G", "20M", "HT", "1T", "01", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "02", "33", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "02", "34", 
++	"MKK", "2.4G", "20M", "HT", "1T", "02", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "03", "33", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "03", "34", 
++	"MKK", "2.4G", "20M", "HT", "1T", "03", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "04", "33", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "04", "34", 
++	"MKK", "2.4G", "20M", "HT", "1T", "04", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "05", "33", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "05", "34", 
++	"MKK", "2.4G", "20M", "HT", "1T", "05", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "06", "33", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "06", "34", 
++	"MKK", "2.4G", "20M", "HT", "1T", "06", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "07", "33", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "07", "34", 
++	"MKK", "2.4G", "20M", "HT", "1T", "07", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "08", "33", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "08", "34", 
++	"MKK", "2.4G", "20M", "HT", "1T", "08", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "09", "33", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "09", "34", 
++	"MKK", "2.4G", "20M", "HT", "1T", "09", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "10", "33", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "10", "34", 
++	"MKK", "2.4G", "20M", "HT", "1T", "10", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "11", "33", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "11", "32", 
++	"MKK", "2.4G", "20M", "HT", "1T", "11", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "12", "63", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "12", "32", 
++	"MKK", "2.4G", "20M", "HT", "1T", "12", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "13", "63", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "13", "32", 
++	"MKK", "2.4G", "20M", "HT", "1T", "13", "32",
++	"FCC", "2.4G", "20M", "HT", "1T", "14", "63", 
++	"ETSI", "2.4G", "20M", "HT", "1T", "14", "63", 
++	"MKK", "2.4G", "20M", "HT", "1T", "14", "63",
++	"FCC", "2.4G", "20M", "HT", "2T", "01", "33", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "01", "34", 
++	"MKK", "2.4G", "20M", "HT", "2T", "01", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "02", "33", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "02", "34", 
++	"MKK", "2.4G", "20M", "HT", "2T", "02", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "03", "33", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "03", "34", 
++	"MKK", "2.4G", "20M", "HT", "2T", "03", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "04", "33", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "04", "34", 
++	"MKK", "2.4G", "20M", "HT", "2T", "04", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "05", "33", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "05", "34", 
++	"MKK", "2.4G", "20M", "HT", "2T", "05", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "06", "33", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "06", "34", 
++	"MKK", "2.4G", "20M", "HT", "2T", "06", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "07", "33", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "07", "34", 
++	"MKK", "2.4G", "20M", "HT", "2T", "07", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "08", "33", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "08", "34", 
++	"MKK", "2.4G", "20M", "HT", "2T", "08", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "09", "33", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "09", "34", 
++	"MKK", "2.4G", "20M", "HT", "2T", "09", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "10", "33", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "10", "34", 
++	"MKK", "2.4G", "20M", "HT", "2T", "10", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "11", "33", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "11", "34", 
++	"MKK", "2.4G", "20M", "HT", "2T", "11", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "12", "63", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "12", "34", 
++	"MKK", "2.4G", "20M", "HT", "2T", "12", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "13", "63", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "13", "34", 
++	"MKK", "2.4G", "20M", "HT", "2T", "13", "32",
++	"FCC", "2.4G", "20M", "HT", "2T", "14", "63", 
++	"ETSI", "2.4G", "20M", "HT", "2T", "14", "63", 
++	"MKK", "2.4G", "20M", "HT", "2T", "14", "63",
++	"FCC", "2.4G", "40M", "HT", "1T", "01", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "01", "63", 
++	"MKK", "2.4G", "40M", "HT", "1T", "01", "63",
++	"FCC", "2.4G", "40M", "HT", "1T", "02", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "02", "63", 
++	"MKK", "2.4G", "40M", "HT", "1T", "02", "63",
++	"FCC", "2.4G", "40M", "HT", "1T", "03", "34", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "03", "34", 
++	"MKK", "2.4G", "40M", "HT", "1T", "03", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "04", "33", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "04", "34", 
++	"MKK", "2.4G", "40M", "HT", "1T", "04", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "05", "33", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "05", "34", 
++	"MKK", "2.4G", "40M", "HT", "1T", "05", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "06", "33", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "06", "34", 
++	"MKK", "2.4G", "40M", "HT", "1T", "06", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "07", "33", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "07", "34", 
++	"MKK", "2.4G", "40M", "HT", "1T", "07", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "08", "33", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "08", "34", 
++	"MKK", "2.4G", "40M", "HT", "1T", "08", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "09", "33", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "09", "34", 
++	"MKK", "2.4G", "40M", "HT", "1T", "09", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "10", "33", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "10", "34", 
++	"MKK", "2.4G", "40M", "HT", "1T", "10", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "11", "33", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "11", "34", 
++	"MKK", "2.4G", "40M", "HT", "1T", "11", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "12", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "12", "34", 
++	"MKK", "2.4G", "40M", "HT", "1T", "12", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "13", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "13", "34", 
++	"MKK", "2.4G", "40M", "HT", "1T", "13", "32",
++	"FCC", "2.4G", "40M", "HT", "1T", "14", "63", 
++	"ETSI", "2.4G", "40M", "HT", "1T", "14", "63", 
++	"MKK", "2.4G", "40M", "HT", "1T", "14", "63",
++	"FCC", "2.4G", "40M", "HT", "2T", "01", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "01", "63", 
++	"MKK", "2.4G", "40M", "HT", "2T", "01", "63",
++	"FCC", "2.4G", "40M", "HT", "2T", "02", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "02", "63", 
++	"MKK", "2.4G", "40M", "HT", "2T", "02", "63",
++	"FCC", "2.4G", "40M", "HT", "2T", "03", "33", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "03", "32", 
++	"MKK", "2.4G", "40M", "HT", "2T", "03", "30",
++	"FCC", "2.4G", "40M", "HT", "2T", "04", "33", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "04", "32", 
++	"MKK", "2.4G", "40M", "HT", "2T", "04", "30",
++	"FCC", "2.4G", "40M", "HT", "2T", "05", "33", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "05", "32", 
++	"MKK", "2.4G", "40M", "HT", "2T", "05", "30",
++	"FCC", "2.4G", "40M", "HT", "2T", "06", "33", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "06", "32", 
++	"MKK", "2.4G", "40M", "HT", "2T", "06", "30",
++	"FCC", "2.4G", "40M", "HT", "2T", "07", "33", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "07", "32", 
++	"MKK", "2.4G", "40M", "HT", "2T", "07", "30",
++	"FCC", "2.4G", "40M", "HT", "2T", "08", "33", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "08", "32", 
++	"MKK", "2.4G", "40M", "HT", "2T", "08", "30",
++	"FCC", "2.4G", "40M", "HT", "2T", "09", "33", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "09", "32", 
++	"MKK", "2.4G", "40M", "HT", "2T", "09", "30",
++	"FCC", "2.4G", "40M", "HT", "2T", "10", "33", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "10", "32", 
++	"MKK", "2.4G", "40M", "HT", "2T", "10", "30",
++	"FCC", "2.4G", "40M", "HT", "2T", "11", "31", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "11", "32", 
++	"MKK", "2.4G", "40M", "HT", "2T", "11", "30",
++	"FCC", "2.4G", "40M", "HT", "2T", "12", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "12", "32", 
++	"MKK", "2.4G", "40M", "HT", "2T", "12", "32",
++	"FCC", "2.4G", "40M", "HT", "2T", "13", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "13", "32", 
++	"MKK", "2.4G", "40M", "HT", "2T", "13", "32",
++	"FCC", "2.4G", "40M", "HT", "2T", "14", "63", 
++	"ETSI", "2.4G", "40M", "HT", "2T", "14", "63", 
++	"MKK", "2.4G", "40M", "HT", "2T", "14", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "36", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "36", "36", 
++	"MKK", "5G", "20M", "OFDM", "1T", "36", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "40", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "40", "36", 
++	"MKK", "5G", "20M", "OFDM", "1T", "40", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "44", "29", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "44", "36", 
++	"MKK", "5G", "20M", "OFDM", "1T", "44", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "48", "30", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "48", "36", 
++	"MKK", "5G", "20M", "OFDM", "1T", "48", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "52", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "52", "36", 
++	"MKK", "5G", "20M", "OFDM", "1T", "52", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "56", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "56", "36", 
++	"MKK", "5G", "20M", "OFDM", "1T", "56", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "60", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "60", "36", 
++	"MKK", "5G", "20M", "OFDM", "1T", "60", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "64", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "64", "36", 
++	"MKK", "5G", "20M", "OFDM", "1T", "64", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "100", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "100", "36", 
++	"MKK", "5G", "20M", "OFDM", "1T", "100", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "114", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "114", "36", 
++	"MKK", "5G", "20M", "OFDM", "1T", "114", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "108", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "108", "36", 
++	"MKK", "5G", "20M", "OFDM", "1T", "108", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "112", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "112", "36", 
++	"MKK", "5G", "20M", "OFDM", "1T", "112", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "116", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "116", "36", 
++	"MKK", "5G", "20M", "OFDM", "1T", "116", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "120", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "120", "36", 
++	"MKK", "5G", "20M", "OFDM", "1T", "120", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "124", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "124", "36", 
++	"MKK", "5G", "20M", "OFDM", "1T", "124", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "128", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "128", "36", 
++	"MKK", "5G", "20M", "OFDM", "1T", "128", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "132", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "132", "36", 
++	"MKK", "5G", "20M", "OFDM", "1T", "132", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "136", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "136", "36", 
++	"MKK", "5G", "20M", "OFDM", "1T", "136", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "140", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "140", "36", 
++	"MKK", "5G", "20M", "OFDM", "1T", "140", "32",
++	"FCC", "5G", "20M", "OFDM", "1T", "149", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "149", "63", 
++	"MKK", "5G", "20M", "OFDM", "1T", "149", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "153", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "153", "63", 
++	"MKK", "5G", "20M", "OFDM", "1T", "153", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "157", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "157", "63", 
++	"MKK", "5G", "20M", "OFDM", "1T", "157", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "161", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "161", "63", 
++	"MKK", "5G", "20M", "OFDM", "1T", "161", "63",
++	"FCC", "5G", "20M", "OFDM", "1T", "165", "35", 
++	"ETSI", "5G", "20M", "OFDM", "1T", "165", "63", 
++	"MKK", "5G", "20M", "OFDM", "1T", "165", "63",
++	"FCC", "5G", "20M", "HT", "1T", "36", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "36", "36", 
++	"MKK", "5G", "20M", "HT", "1T", "36", "32",
++	"FCC", "5G", "20M", "HT", "1T", "40", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "40", "36", 
++	"MKK", "5G", "20M", "HT", "1T", "40", "32",
++	"FCC", "5G", "20M", "HT", "1T", "44", "29", 
++	"ETSI", "5G", "20M", "HT", "1T", "44", "36", 
++	"MKK", "5G", "20M", "HT", "1T", "44", "32",
++	"FCC", "5G", "20M", "HT", "1T", "48", "30", 
++	"ETSI", "5G", "20M", "HT", "1T", "48", "36", 
++	"MKK", "5G", "20M", "HT", "1T", "48", "32",
++	"FCC", "5G", "20M", "HT", "1T", "52", "33", 
++	"ETSI", "5G", "20M", "HT", "1T", "52", "36", 
++	"MKK", "5G", "20M", "HT", "1T", "52", "32",
++	"FCC", "5G", "20M", "HT", "1T", "56", "33", 
++	"ETSI", "5G", "20M", "HT", "1T", "56", "36", 
++	"MKK", "5G", "20M", "HT", "1T", "56", "32",
++	"FCC", "5G", "20M", "HT", "1T", "60", "33", 
++	"ETSI", "5G", "20M", "HT", "1T", "60", "36", 
++	"MKK", "5G", "20M", "HT", "1T", "60", "32",
++	"FCC", "5G", "20M", "HT", "1T", "64", "33", 
++	"ETSI", "5G", "20M", "HT", "1T", "64", "36", 
++	"MKK", "5G", "20M", "HT", "1T", "64", "32",
++	"FCC", "5G", "20M", "HT", "1T", "100", "33", 
++	"ETSI", "5G", "20M", "HT", "1T", "100", "36", 
++	"MKK", "5G", "20M", "HT", "1T", "100", "32",
++	"FCC", "5G", "20M", "HT", "1T", "114", "33", 
++	"ETSI", "5G", "20M", "HT", "1T", "114", "36", 
++	"MKK", "5G", "20M", "HT", "1T", "114", "32",
++	"FCC", "5G", "20M", "HT", "1T", "108", "33", 
++	"ETSI", "5G", "20M", "HT", "1T", "108", "36", 
++	"MKK", "5G", "20M", "HT", "1T", "108", "32",
++	"FCC", "5G", "20M", "HT", "1T", "112", "33", 
++	"ETSI", "5G", "20M", "HT", "1T", "112", "36", 
++	"MKK", "5G", "20M", "HT", "1T", "112", "32",
++	"FCC", "5G", "20M", "HT", "1T", "116", "33", 
++	"ETSI", "5G", "20M", "HT", "1T", "116", "36", 
++	"MKK", "5G", "20M", "HT", "1T", "116", "32",
++	"FCC", "5G", "20M", "HT", "1T", "120", "33", 
++	"ETSI", "5G", "20M", "HT", "1T", "120", "36", 
++	"MKK", "5G", "20M", "HT", "1T", "120", "32",
++	"FCC", "5G", "20M", "HT", "1T", "124", "33", 
++	"ETSI", "5G", "20M", "HT", "1T", "124", "36", 
++	"MKK", "5G", "20M", "HT", "1T", "124", "32",
++	"FCC", "5G", "20M", "HT", "1T", "128", "33", 
++	"ETSI", "5G", "20M", "HT", "1T", "128", "36", 
++	"MKK", "5G", "20M", "HT", "1T", "128", "32",
++	"FCC", "5G", "20M", "HT", "1T", "132", "33", 
++	"ETSI", "5G", "20M", "HT", "1T", "132", "36", 
++	"MKK", "5G", "20M", "HT", "1T", "132", "32",
++	"FCC", "5G", "20M", "HT", "1T", "136", "33", 
++	"ETSI", "5G", "20M", "HT", "1T", "136", "36", 
++	"MKK", "5G", "20M", "HT", "1T", "136", "32",
++	"FCC", "5G", "20M", "HT", "1T", "140", "33", 
++	"ETSI", "5G", "20M", "HT", "1T", "140", "36", 
++	"MKK", "5G", "20M", "HT", "1T", "140", "32",
++	"FCC", "5G", "20M", "HT", "1T", "149", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "149", "63", 
++	"MKK", "5G", "20M", "HT", "1T", "149", "63",
++	"FCC", "5G", "20M", "HT", "1T", "153", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "153", "63", 
++	"MKK", "5G", "20M", "HT", "1T", "153", "63",
++	"FCC", "5G", "20M", "HT", "1T", "157", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "157", "63", 
++	"MKK", "5G", "20M", "HT", "1T", "157", "63",
++	"FCC", "5G", "20M", "HT", "1T", "161", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "161", "63", 
++	"MKK", "5G", "20M", "HT", "1T", "161", "63",
++	"FCC", "5G", "20M", "HT", "1T", "165", "34", 
++	"ETSI", "5G", "20M", "HT", "1T", "165", "63", 
++	"MKK", "5G", "20M", "HT", "1T", "165", "63",
++	"FCC", "5G", "20M", "HT", "2T", "36", "24", 
++	"ETSI", "5G", "20M", "HT", "2T", "36", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "36", "30",
++	"FCC", "5G", "20M", "HT", "2T", "40", "24", 
++	"ETSI", "5G", "20M", "HT", "2T", "40", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "40", "30",
++	"FCC", "5G", "20M", "HT", "2T", "44", "24", 
++	"ETSI", "5G", "20M", "HT", "2T", "44", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "44", "30",
++	"FCC", "5G", "20M", "HT", "2T", "48", "24", 
++	"ETSI", "5G", "20M", "HT", "2T", "48", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "48", "30",
++	"FCC", "5G", "20M", "HT", "2T", "52", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "52", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "52", "30",
++	"FCC", "5G", "20M", "HT", "2T", "56", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "56", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "56", "30",
++	"FCC", "5G", "20M", "HT", "2T", "60", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "60", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "60", "30",
++	"FCC", "5G", "20M", "HT", "2T", "64", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "64", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "64", "30",
++	"FCC", "5G", "20M", "HT", "2T", "100", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "100", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "100", "30",
++	"FCC", "5G", "20M", "HT", "2T", "114", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "114", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "114", "30",
++	"FCC", "5G", "20M", "HT", "2T", "108", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "108", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "108", "30",
++	"FCC", "5G", "20M", "HT", "2T", "112", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "112", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "112", "30",
++	"FCC", "5G", "20M", "HT", "2T", "116", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "116", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "116", "30",
++	"FCC", "5G", "20M", "HT", "2T", "120", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "120", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "120", "30",
++	"FCC", "5G", "20M", "HT", "2T", "124", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "124", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "124", "30",
++	"FCC", "5G", "20M", "HT", "2T", "128", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "128", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "128", "30",
++	"FCC", "5G", "20M", "HT", "2T", "132", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "132", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "132", "30",
++	"FCC", "5G", "20M", "HT", "2T", "136", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "136", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "136", "30",
++	"FCC", "5G", "20M", "HT", "2T", "140", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "140", "30", 
++	"MKK", "5G", "20M", "HT", "2T", "140", "30",
++	"FCC", "5G", "20M", "HT", "2T", "149", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "149", "63", 
++	"MKK", "5G", "20M", "HT", "2T", "149", "63",
++	"FCC", "5G", "20M", "HT", "2T", "153", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "153", "63", 
++	"MKK", "5G", "20M", "HT", "2T", "153", "63",
++	"FCC", "5G", "20M", "HT", "2T", "157", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "157", "63", 
++	"MKK", "5G", "20M", "HT", "2T", "157", "63",
++	"FCC", "5G", "20M", "HT", "2T", "161", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "161", "63", 
++	"MKK", "5G", "20M", "HT", "2T", "161", "63",
++	"FCC", "5G", "20M", "HT", "2T", "165", "33", 
++	"ETSI", "5G", "20M", "HT", "2T", "165", "63", 
++	"MKK", "5G", "20M", "HT", "2T", "165", "63",
++	"FCC", "5G", "40M", "HT", "1T", "38", "33", 
++	"ETSI", "5G", "40M", "HT", "1T", "38", "33", 
++	"MKK", "5G", "40M", "HT", "1T", "38", "32",
++	"FCC", "5G", "40M", "HT", "1T", "46", "33", 
++	"ETSI", "5G", "40M", "HT", "1T", "46", "33", 
++	"MKK", "5G", "40M", "HT", "1T", "46", "32",
++	"FCC", "5G", "40M", "HT", "1T", "54", "33", 
++	"ETSI", "5G", "40M", "HT", "1T", "54", "33", 
++	"MKK", "5G", "40M", "HT", "1T", "54", "32",
++	"FCC", "5G", "40M", "HT", "1T", "62", "33", 
++	"ETSI", "5G", "40M", "HT", "1T", "62", "33", 
++	"MKK", "5G", "40M", "HT", "1T", "62", "32",
++	"FCC", "5G", "40M", "HT", "1T", "102", "33", 
++	"ETSI", "5G", "40M", "HT", "1T", "102", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "102", "32",
++	"FCC", "5G", "40M", "HT", "1T", "110", "33", 
++	"ETSI", "5G", "40M", "HT", "1T", "110", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "110", "32",
++	"FCC", "5G", "40M", "HT", "1T", "118", "33", 
++	"ETSI", "5G", "40M", "HT", "1T", "118", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "118", "32",
++	"FCC", "5G", "40M", "HT", "1T", "126", "33", 
++	"ETSI", "5G", "40M", "HT", "1T", "126", "32", 
++	"MKK", "5G", "40M", "HT", "1T", "126", "32",
++	"FCC", "5G", "40M", "HT", "1T", "134", "33", 
++	"ETSI", "5G", "40M", "HT", "1T", "134", "36", 
++	"MKK", "5G", "40M", "HT", "1T", "134", "32",
++	"FCC", "5G", "40M", "HT", "1T", "151", "34", 
++	"ETSI", "5G", "40M", "HT", "1T", "151", "63", 
++	"MKK", "5G", "40M", "HT", "1T", "151", "63",
++	"FCC", "5G", "40M", "HT", "1T", "159", "34", 
++	"ETSI", "5G", "40M", "HT", "1T", "159", "63", 
++	"MKK", "5G", "40M", "HT", "1T", "159", "63",
++	"FCC", "5G", "40M", "HT", "2T", "38", "24", 
++	"ETSI", "5G", "40M", "HT", "2T", "38", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "38", "30",
++	"FCC", "5G", "40M", "HT", "2T", "46", "24", 
++	"ETSI", "5G", "40M", "HT", "2T", "46", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "46", "30",
++	"FCC", "5G", "40M", "HT", "2T", "54", "33", 
++	"ETSI", "5G", "40M", "HT", "2T", "54", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "54", "30",
++	"FCC", "5G", "40M", "HT", "2T", "62", "33", 
++	"ETSI", "5G", "40M", "HT", "2T", "62", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "62", "30",
++	"FCC", "5G", "40M", "HT", "2T", "102", "33", 
++	"ETSI", "5G", "40M", "HT", "2T", "102", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "102", "30",
++	"FCC", "5G", "40M", "HT", "2T", "110", "33", 
++	"ETSI", "5G", "40M", "HT", "2T", "110", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "110", "30",
++	"FCC", "5G", "40M", "HT", "2T", "118", "33", 
++	"ETSI", "5G", "40M", "HT", "2T", "118", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "118", "30",
++	"FCC", "5G", "40M", "HT", "2T", "126", "33", 
++	"ETSI", "5G", "40M", "HT", "2T", "126", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "126", "30",
++	"FCC", "5G", "40M", "HT", "2T", "134", "33", 
++	"ETSI", "5G", "40M", "HT", "2T", "134", "30", 
++	"MKK", "5G", "40M", "HT", "2T", "134", "30",
++	"FCC", "5G", "40M", "HT", "2T", "151", "33", 
++	"ETSI", "5G", "40M", "HT", "2T", "151", "63", 
++	"MKK", "5G", "40M", "HT", "2T", "151", "63",
++	"FCC", "5G", "40M", "HT", "2T", "159", "33", 
++	"ETSI", "5G", "40M", "HT", "2T", "159", "63", 
++	"MKK", "5G", "40M", "HT", "2T", "159", "63",
++	"FCC", "5G", "80M", "VHT", "1T", "42", "33", 
++	"ETSI", "5G", "80M", "VHT", "1T", "42", "33", 
++	"MKK", "5G", "80M", "VHT", "1T", "42", "32",
++	"FCC", "5G", "80M", "VHT", "1T", "58", "33", 
++	"ETSI", "5G", "80M", "VHT", "1T", "58", "36", 
++	"MKK", "5G", "80M", "VHT", "1T", "58", "32",
++	"FCC", "5G", "80M", "VHT", "1T", "106", "33", 
++	"ETSI", "5G", "80M", "VHT", "1T", "106", "31", 
++	"MKK", "5G", "80M", "VHT", "1T", "106", "32",
++	"FCC", "5G", "80M", "VHT", "1T", "122", "33", 
++	"ETSI", "5G", "80M", "VHT", "1T", "122", "36", 
++	"MKK", "5G", "80M", "VHT", "1T", "122", "32",
++	"FCC", "5G", "80M", "VHT", "1T", "155", "33", 
++	"ETSI", "5G", "80M", "VHT", "1T", "155", "63", 
++	"MKK", "5G", "80M", "VHT", "1T", "155", "63",
++	"FCC", "5G", "80M", "VHT", "2T", "42", "33", 
++	"ETSI", "5G", "80M", "VHT", "2T", "42", "30", 
++	"MKK", "5G", "80M", "VHT", "2T", "42", "30",
++	"FCC", "5G", "80M", "VHT", "2T", "58", "33", 
++	"ETSI", "5G", "80M", "VHT", "2T", "58", "30", 
++	"MKK", "5G", "80M", "VHT", "2T", "58", "30",
++	"FCC", "5G", "80M", "VHT", "2T", "106", "33", 
++	"ETSI", "5G", "80M", "VHT", "2T", "106", "30", 
++	"MKK", "5G", "80M", "VHT", "2T", "106", "30",
++	"FCC", "5G", "80M", "VHT", "2T", "122", "33", 
++	"ETSI", "5G", "80M", "VHT", "2T", "122", "30", 
++	"MKK", "5G", "80M", "VHT", "2T", "122", "30",
++	"FCC", "5G", "80M", "VHT", "2T", "155", "33", 
++	"ETSI", "5G", "80M", "VHT", "2T", "155", "63", 
++	"MKK", "5G", "80M", "VHT", "2T", "155", "63"
++};
++
++void
++ODM_ReadAndConfig_MP_8812A_TXPWR_LMT_TPLINK(
++	IN   PDM_ODM_T  pDM_Odm
++)
++{
++	u4Byte     i           = 0;
++	u4Byte     ArrayLen    = sizeof(Array_MP_8812A_TXPWR_LMT_TPLINK)/sizeof(pu1Byte);
++	pu1Byte    *Array      = (pu1Byte *)Array_MP_8812A_TXPWR_LMT_TPLINK;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	PlatformZeroMemory(pHalData->BufOfLinesPwrLmt, MAX_LINES_HWCONFIG_TXT*MAX_BYTES_LINE_HWCONFIG_TXT);
++	pHalData->nLinesReadPwrLmt = ArrayLen/7;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ReadAndConfig_MP_8812A_TXPWR_LMT_TPLINK\n"));
++
++	for (i = 0; i < ArrayLen; i += 7) {
++		pu1Byte regulation = Array[i];
++		pu1Byte band = Array[i+1];
++		pu1Byte bandwidth = Array[i+2];
++		pu1Byte rate = Array[i+3];
++		pu1Byte rfPath = Array[i+4];
++		pu1Byte chnl = Array[i+5];
++		pu1Byte val = Array[i+6];
++	
++		odm_ConfigBB_TXPWR_LMT_8812A(pDM_Odm, regulation, band, bandwidth, rate, rfPath, chnl, val);
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		rsprintf((char *)pHalData->BufOfLinesPwrLmt[i/7], 100, "\"%s\", \"%s\", \"%s\", \"%s\", \"%s\", \"%s\", \"%s\",",
++			regulation, band, bandwidth, rate, rfPath, chnl, val);
++#endif
++	}
++
++}
++
++#endif /* end of HWIMG_SUPPORT*/
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_rf.h b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_rf.h
+new file mode 100644
+index 0000000..3fb3706
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halhwimg8812a_rf.h
+@@ -0,0 +1,139 @@
++/****************************************************************************** 
++* 
++* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved. 
++* 
++* This program is free software; you can redistribute it and/or modify it 
++* under the terms of version 2 of the GNU General Public License as 
++* published by the Free Software Foundation. 
++* 
++* This program is distributed in the hope that it will be useful, but WITHOUT 
++* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 
++* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for 
++* more details. 
++* 
++* You should have received a copy of the GNU General Public License along with 
++* this program; if not, write to the Free Software Foundation, Inc., 
++* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA 
++* 
++* 
++******************************************************************************/
++
++/*Image2HeaderVersion: 2.18*/
++#if (RTL8812A_SUPPORT == 1)
++#ifndef __INC_MP_RF_HW_IMG_8812A_H
++#define __INC_MP_RF_HW_IMG_8812A_H
++
++
++/******************************************************************************
++*                           RadioA.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_RadioA(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_RadioA(void);
++
++/******************************************************************************
++*                           RadioB.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_RadioB(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_RadioB(void);
++
++/******************************************************************************
++*                           TxPowerTrack_AP.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_TxPowerTrack_AP(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_TxPowerTrack_AP(void);
++
++/******************************************************************************
++*                           TxPowerTrack_PCIE.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_TxPowerTrack_PCIE(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_TxPowerTrack_PCIE(void);
++
++/******************************************************************************
++*                           TxPowerTrack_RFE3.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_TxPowerTrack_RFE3(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_TxPowerTrack_RFE3(void);
++
++/******************************************************************************
++*                           TxPowerTrack_RFE4.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_TxPowerTrack_RFE4(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_TxPowerTrack_RFE4(void);
++
++/******************************************************************************
++*                           TxPowerTrack_USB.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_TxPowerTrack_USB(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_TxPowerTrack_USB(void);
++
++/******************************************************************************
++*                           TXPWR_LMT.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_TXPWR_LMT(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_TXPWR_LMT(void);
++
++/******************************************************************************
++*                           TXPWR_LMT_HM812A03.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_TXPWR_LMT_HM812A03(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_TXPWR_LMT_HM812A03(void);
++
++/******************************************************************************
++*                           TXPWR_LMT_NFA812A00.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_TXPWR_LMT_NFA812A00(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_TXPWR_LMT_NFA812A00(void);
++
++/******************************************************************************
++*                           TXPWR_LMT_TPLINK.TXT
++******************************************************************************/
++
++void
++ODM_ReadAndConfig_MP_8812A_TXPWR_LMT_TPLINK(/* TC: Test Chip, MP: MP Chip*/
++	IN   PDM_ODM_T  pDM_Odm
++);
++u4Byte ODM_GetVersion_MP_8812A_TXPWR_LMT_TPLINK(void);
++
++#endif
++#endif /* end of HWIMG_SUPPORT*/
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halphyrf_8812a_ap.c b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halphyrf_8812a_ap.c
+new file mode 100644
+index 0000000..c88546f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halphyrf_8812a_ap.c
+@@ -0,0 +1,3710 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include "../mp_precomp.h"
++#include "../phydm_precomp.h"
++
++
++
++/*---------------------------Define Local Constant---------------------------*/
++// 2010/04/25 MH Define the max tx power tracking tx agc power.
++#define		ODM_TXPWRTRACK_MAX_IDX8812A		6
++
++/*---------------------------Define Local Constant---------------------------*/
++
++
++//3============================================================
++//3 Tx Power Tracking
++//3============================================================
++
++#if 0
++
++
++
++	//new element A = element D x X
++
++		//new element C = element D x Y
++
++
++void DoIQK_8812A(
++	PVOID		pDM_VOID,
++	u1Byte 		DeltaThermalIndex,
++	u1Byte		ThermalValue,	
++	u1Byte 		Threshold
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	PADAPTER 		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++#endif
++
++	ODM_ResetIQKResult(pDM_Odm);		
++
++#if(DM_ODM_SUPPORT_TYPE  & ODM_WIN)
++#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)	
++#if USE_WORKITEM
++	PlatformAcquireMutex(&pHalData->mxChnlBwControl);
++#else
++	PlatformAcquireSpinLock(Adapter, RT_CHANNEL_AND_BANDWIDTH_SPINLOCK);
++#endif
++#elif((DEV_BUS_TYPE == RT_USB_INTERFACE) || (DEV_BUS_TYPE == RT_SDIO_INTERFACE))
++	PlatformAcquireMutex(&pHalData->mxChnlBwControl);
++#endif
++#endif			
++
++
++	pDM_Odm->RFCalibrateInfo.ThermalValue_IQK= ThermalValue;
++	PHY_IQCalibrate_8812A(Adapter, FALSE);
++
++
++#if(DM_ODM_SUPPORT_TYPE  & ODM_WIN)
++#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)	
++#if USE_WORKITEM
++	PlatformReleaseMutex(&pHalData->mxChnlBwControl);
++#else
++	PlatformReleaseSpinLock(Adapter, RT_CHANNEL_AND_BANDWIDTH_SPINLOCK);
++#endif
++#elif((DEV_BUS_TYPE == RT_USB_INTERFACE) || (DEV_BUS_TYPE == RT_SDIO_INTERFACE))
++	PlatformReleaseMutex(&pHalData->mxChnlBwControl);
++#endif
++#endif
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	odm_TxPwrTrackSetPwr88E()
++ *
++ * Overview:	88E change all channel tx power accordign to flag.
++ *				OFDM & CCK are all different.
++ *
++ * Input:		NONE
++ *
++ * Output:		NONE
++ *
++ * Return:		NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	04/23/2012	MHC		Create Version 0.  
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++ODM_TxPwrTrackSetPwr8812A(
++		PDM_ODM_T			pDM_Odm,
++		PWRTRACK_METHOD 	Method,
++		u1Byte 				RFPath,
++		u1Byte 				ChannelMappedIndex
++		)
++{
++	if (Method == TXAGC) 
++	{
++		u1Byte	cckPowerLevel[MAX_TX_COUNT], ofdmPowerLevel[MAX_TX_COUNT];
++		u1Byte	BW20PowerLevel[MAX_TX_COUNT], BW40PowerLevel[MAX_TX_COUNT];
++		u1Byte	rf = 0;
++		u4Byte 	pwr = 0, TxAGC = 0;
++		PADAPTER Adapter = pDM_Odm->Adapter;
++
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("odm_TxPwrTrackSetPwr88E CH=%d\n", *(pDM_Odm->pChannel)));
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE ))
++
++		pwr = PHY_QueryBBReg(Adapter, rTxAGC_A_Rate18_06, 0xFF);
++		pwr += (pDM_Odm->BbSwingIdxCck - pDM_Odm->BbSwingIdxCckBase);
++		TxAGC = (pwr<<16)|(pwr<<8)|(pwr);
++		PHY_SetBBReg(Adapter, rTxAGC_A_CCK1_Mcs32, bMaskByte1, TxAGC);
++		PHY_SetBBReg(Adapter, rTxAGC_B_CCK11_A_CCK2_11, 0xffffff00, TxAGC);
++		RTPRINT(FPHY, PHY_TXPWR, ("ODM_TxPwrTrackSetPwr88E: CCK Tx-rf(A) Power = 0x%x\n", TxAGC));		
++
++		pwr = PHY_QueryBBReg(Adapter, rTxAGC_A_Rate18_06, 0xFF);
++		pwr += (pDM_Odm->BbSwingIdxOfdm[RF_PATH_A] - pDM_Odm->BbSwingIdxOfdmBase);
++		TxAGC |= ((pwr<<24)|(pwr<<16)|(pwr<<8)|pwr);
++		PHY_SetBBReg(Adapter, rTxAGC_A_Rate18_06, bMaskDWord, TxAGC);
++		PHY_SetBBReg(Adapter, rTxAGC_A_Rate54_24, bMaskDWord, TxAGC);
++		PHY_SetBBReg(Adapter, rTxAGC_A_Mcs03_Mcs00, bMaskDWord, TxAGC);
++		PHY_SetBBReg(Adapter, rTxAGC_A_Mcs07_Mcs04, bMaskDWord, TxAGC);
++		PHY_SetBBReg(Adapter, rTxAGC_A_Mcs11_Mcs08, bMaskDWord, TxAGC);
++		PHY_SetBBReg(Adapter, rTxAGC_A_Mcs15_Mcs12, bMaskDWord, TxAGC);
++		RTPRINT(FPHY, PHY_TXPWR, ("ODM_TxPwrTrackSetPwr88E: OFDM Tx-rf(A) Power = 0x%x\n", TxAGC));		
++#endif
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++		PHY_RF6052SetCCKTxPower(pDM_Odm->priv, *(pDM_Odm->pChannel));
++		PHY_RF6052SetOFDMTxPower(pDM_Odm->priv, *(pDM_Odm->pChannel));
++#endif
++
++	} 
++	else if (Method == BBSWING)
++	{
++		// Adjust BB swing by OFDM IQ matrix
++		if (RFPath == RF_PATH_A)
++			ODM_SetBBReg(pDM_Odm, rA_TxScale_Jaguar, bMaskDWord, pDM_Odm->BbSwingIdxOfdm[RF_PATH_A]);
++		else if (RFPath == RF_PATH_B)
++			ODM_SetBBReg(pDM_Odm, rB_TxScale_Jaguar, bMaskDWord, pDM_Odm->BbSwingIdxOfdm[RF_PATH_B]);
++	}
++	else
++	{
++		return;
++	}
++}	// odm_TxPwrTrackSetPwr88E
++
++void ConfigureTxpowerTrack_8812A(
++		PTXPWRTRACK_CFG	pConfig
++		)
++{
++	pConfig->SwingTableSize_CCK = CCK_TABLE_SIZE;
++	pConfig->SwingTableSize_OFDM = OFDM_TABLE_SIZE;
++	pConfig->Threshold_IQK = 8;
++	pConfig->AverageThermalNum = AVG_THERMAL_NUM_8812A;
++	pConfig->RfPathCount = 2;
++	pConfig->ThermalRegAddr = RF_T_METER_8812A;
++
++	pConfig->ODM_TxPwrTrackSetPwr = ODM_TxPwrTrackSetPwr8812A;
++	pConfig->DoIQK = DoIQK_8812A;
++	pConfig->PHY_LCCalibrate = PHY_LCCalibrate_8812A;
++}
++
++#endif
++
++//1 7.	IQK
++#define MAX_TOLERANCE		5
++#define IQK_DELAY_TIME		1		//ms
++
++u1Byte			//bit0 = 1 => Tx OK, bit1 = 1 => Rx OK
++	phy_PathA_IQK_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm,
++#else
++			IN	PADAPTER	pAdapter,
++#endif
++			IN	BOOLEAN		configPathB
++			)
++{
++	u4Byte regEAC, regE94, regE9C, regEA4;
++	u1Byte result = 0x00;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);	
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Path A IQK!\n"));
++
++	//1 Tx IQK
++	//path-A IQK setting
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Path-A IQK setting!\n"));
++	ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_A, bMaskDWord, 0x10008c1c);
++	ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_A, bMaskDWord, 0x30008c1c);
++	ODM_SetBBReg(pDM_Odm, rTx_IQK_PI_A, bMaskDWord, 0x8214032a);
++	ODM_SetBBReg(pDM_Odm, rRx_IQK_PI_A, bMaskDWord, 0x28160000);
++
++	//LO calibration setting
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("LO calibration setting!\n"));
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Rsp, bMaskDWord, 0x00462911);
++
++	//One shot, path A LOK & IQK
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("One shot, path A LOK & IQK!\n"));
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf9000000);
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf8000000);
++
++	// delay x ms
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Delay %d ms for One shot, path A LOK & IQK.\n", IQK_DELAY_TIME_8812A));
++	//PlatformStallExecution(IQK_DELAY_TIME_8812A*1000);
++	ODM_delay_ms(IQK_DELAY_TIME_8812A);
++
++	// Check failed
++	regEAC = ODM_GetBBReg(pDM_Odm, rRx_Power_After_IQK_A_2, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xeac = 0x%x\n", regEAC));
++	regE94 = ODM_GetBBReg(pDM_Odm, rTx_Power_Before_IQK_A, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xe94 = 0x%x\n", regE94));
++	regE9C= ODM_GetBBReg(pDM_Odm, rTx_Power_After_IQK_A, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("0xe9c = 0x%x\n", regE9C));
++	regEA4= ODM_GetBBReg(pDM_Odm, rRx_Power_Before_IQK_A_2, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xea4 = 0x%x\n", regEA4));
++
++	if(!(regEAC & BIT28) &&		
++			(((regE94 & 0x03FF0000)>>16) != 0x142) &&
++			(((regE9C & 0x03FF0000)>>16) != 0x42) )
++		result |= 0x01;
++	else							//if Tx not OK, ignore Rx
++		return result;
++
++#if 0
++	if(!(regEAC & BIT27) &&		//if Tx is OK, check whether Rx is OK
++			(((regEA4 & 0x03FF0000)>>16) != 0x132) &&
++			(((regEAC & 0x03FF0000)>>16) != 0x36))
++		result |= 0x02;
++	else
++		RTPRINT(FINIT, INIT_IQK, ("Path A Rx IQK fail!!\n"));
++#endif	
++
++	return result;
++
++
++}
++
++u1Byte			//bit0 = 1 => Tx OK, bit1 = 1 => Rx OK
++	phy_PathA_RxIQK_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm,
++#else
++			IN	PADAPTER	pAdapter,
++#endif
++			IN	BOOLEAN		configPathB
++			)
++{
++	u4Byte regEAC, regE94, regE9C, regEA4, u4tmp;
++	u1Byte result = 0x00;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Path A Rx IQK!\n"));
++
++	//1 Get TXIMR setting
++	//modify RXIQK mode table
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Path-A Rx IQK modify RXIQK mode table!\n"));
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0);	
++	ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_WE_LUT, bRFRegOffsetMask, 0x800a0 );
++	ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_RCK_OS, bRFRegOffsetMask, 0x30000 );
++	ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_TXPA_G1, bRFRegOffsetMask, 0x0000f );
++	ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_TXPA_G2, bRFRegOffsetMask, 0xf117B );
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x808000);
++
++	//IQK setting
++	ODM_SetBBReg(pDM_Odm, rTx_IQK, bMaskDWord, 0x01007c00);
++	ODM_SetBBReg(pDM_Odm, rRx_IQK, bMaskDWord, 0x81004800);
++
++	//path-A IQK setting
++	ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_A, bMaskDWord, 0x10008c1c);
++	ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_A, bMaskDWord, 0x30008c1c);
++	ODM_SetBBReg(pDM_Odm, rTx_IQK_PI_A, bMaskDWord, 0x82160804);
++	ODM_SetBBReg(pDM_Odm, rRx_IQK_PI_A, bMaskDWord, 0x28160000);	
++
++	//LO calibration setting
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("LO calibration setting!\n"));
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Rsp, bMaskDWord, 0x0046a911);
++
++	//One shot, path A LOK & IQK
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("One shot, path A LOK & IQK!\n"));
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf9000000);
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf8000000);
++
++	// delay x ms
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Delay %d ms for One shot, path A LOK & IQK.\n", IQK_DELAY_TIME_8812A));
++	//PlatformStallExecution(IQK_DELAY_TIME_8812A*1000);
++	ODM_delay_ms(IQK_DELAY_TIME_8812A);
++
++
++	// Check failed
++	regEAC = ODM_GetBBReg(pDM_Odm, rRx_Power_After_IQK_A_2, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xeac = 0x%x\n", regEAC));	
++	regE94 = ODM_GetBBReg(pDM_Odm, rTx_Power_Before_IQK_A, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xe94 = 0x%x\n", regE94));
++	regE9C= ODM_GetBBReg(pDM_Odm, rTx_Power_After_IQK_A, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xe9c = 0x%x\n", regE9C));
++
++	if(!(regEAC & BIT28) &&		
++			(((regE94 & 0x03FF0000)>>16) != 0x142) &&
++			(((regE9C & 0x03FF0000)>>16) != 0x42) )
++		result |= 0x01;
++	else							//if Tx not OK, ignore Rx
++		return result;
++
++	u4tmp = 0x80007C00 | (regE94&0x3FF0000)  | ((regE9C&0x3FF0000) >> 16);	
++	ODM_SetBBReg(pDM_Odm, rTx_IQK, bMaskDWord, u4tmp);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xe40 = 0x%x u4tmp = 0x%x \n", ODM_GetBBReg(pDM_Odm, rTx_IQK, bMaskDWord), u4tmp));	
++
++
++	//1 RX IQK
++	//modify RXIQK mode table
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Path-A Rx IQK modify RXIQK mode table 2!\n"));
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0);		
++	ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_WE_LUT, bRFRegOffsetMask, 0x800a0 );
++	ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_RCK_OS, bRFRegOffsetMask, 0x30000 );
++	ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_TXPA_G1, bRFRegOffsetMask, 0x0000f );
++	ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_TXPA_G2, bRFRegOffsetMask, 0xf7ffa );
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x808000);
++
++	//IQK setting
++	ODM_SetBBReg(pDM_Odm, rRx_IQK, bMaskDWord, 0x01004800);
++
++	//path-A IQK setting
++	ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_A, bMaskDWord, 0x30008c1c);
++	ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_A, bMaskDWord, 0x10008c1c);
++	ODM_SetBBReg(pDM_Odm, rTx_IQK_PI_A, bMaskDWord, 0x82160c05);
++	ODM_SetBBReg(pDM_Odm, rRx_IQK_PI_A, bMaskDWord, 0x28160c05);	
++
++	//LO calibration setting
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("LO calibration setting!\n"));
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Rsp, bMaskDWord, 0x0046a911);
++
++	//One shot, path A LOK & IQK
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("One shot, path A LOK & IQK!\n"));
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf9000000);
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Pts, bMaskDWord, 0xf8000000);
++
++	// delay x ms
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Delay %d ms for One shot, path A LOK & IQK.\n", IQK_DELAY_TIME_8812A));
++	//PlatformStallExecution(IQK_DELAY_TIME_8812A*1000);
++	ODM_delay_ms(IQK_DELAY_TIME_8812A);
++
++	// Check failed
++	regEAC = ODM_GetBBReg(pDM_Odm, rRx_Power_After_IQK_A_2, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("0xeac = 0x%x\n", regEAC));
++	regE94 = ODM_GetBBReg(pDM_Odm, rTx_Power_Before_IQK_A, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("0xe94 = 0x%x\n", regE94));
++	regE9C= ODM_GetBBReg(pDM_Odm, rTx_Power_After_IQK_A, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("0xe9c = 0x%x\n", regE9C));
++	regEA4= ODM_GetBBReg(pDM_Odm, rRx_Power_Before_IQK_A_2, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("0xea4 = 0x%x\n", regEA4));
++
++#if 0	
++	if(!(regEAC & BIT28) &&		
++			(((regE94 & 0x03FF0000)>>16) != 0x142) &&
++			(((regE9C & 0x03FF0000)>>16) != 0x42) )
++		result |= 0x01;
++	else							//if Tx not OK, ignore Rx
++		return result;
++#endif	
++
++	if(!(regEAC & BIT27) &&		//if Tx is OK, check whether Rx is OK
++			(((regEA4 & 0x03FF0000)>>16) != 0x132) &&
++			(((regEAC & 0x03FF0000)>>16) != 0x36))
++		result |= 0x02;
++	else
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("Path A Rx IQK fail!!\n"));
++
++	return result;
++
++
++}
++
++u1Byte				//bit0 = 1 => Tx OK, bit1 = 1 => Rx OK
++	phy_PathB_IQK_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm
++#else
++			IN	PADAPTER	pAdapter
++#endif
++			)
++{
++	u4Byte regEAC, regEB4, regEBC, regEC4, regECC;
++	u1Byte	result = 0x00;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("Path B IQK!\n"));
++
++	//One shot, path B LOK & IQK
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("One shot, path A LOK & IQK!\n"));
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Cont, bMaskDWord, 0x00000002);
++	ODM_SetBBReg(pDM_Odm, rIQK_AGC_Cont, bMaskDWord, 0x00000000);
++
++	// delay x ms
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Delay %d ms for One shot, path B LOK & IQK.\n", IQK_DELAY_TIME_8812A));
++	//PlatformStallExecution(IQK_DELAY_TIME_8812A*1000);
++	ODM_delay_ms(IQK_DELAY_TIME_8812A);
++
++	// Check failed
++	regEAC = ODM_GetBBReg(pDM_Odm, rRx_Power_After_IQK_A_2, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("0xeac = 0x%x\n", regEAC));
++	regEB4 = ODM_GetBBReg(pDM_Odm, rTx_Power_Before_IQK_B, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("0xeb4 = 0x%x\n", regEB4));
++	regEBC= ODM_GetBBReg(pDM_Odm, rTx_Power_After_IQK_B, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("0xebc = 0x%x\n", regEBC));
++	regEC4= ODM_GetBBReg(pDM_Odm, rRx_Power_Before_IQK_B_2, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xec4 = 0x%x\n", regEC4));
++	regECC= ODM_GetBBReg(pDM_Odm, rRx_Power_After_IQK_B_2, bMaskDWord);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xecc = 0x%x\n", regECC));
++
++	if(!(regEAC & BIT31) &&
++			(((regEB4 & 0x03FF0000)>>16) != 0x142) &&
++			(((regEBC & 0x03FF0000)>>16) != 0x42))
++		result |= 0x01;
++	else
++		return result;
++
++	if(!(regEAC & BIT30) &&
++			(((regEC4 & 0x03FF0000)>>16) != 0x132) &&
++			(((regECC & 0x03FF0000)>>16) != 0x36))
++		result |= 0x02;
++	else
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("Path B Rx IQK fail!!\n"));
++
++
++	return result;
++
++}
++
++VOID
++	_PHY_PathAFillIQKMatrix_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm,
++#else
++			IN	PADAPTER	pAdapter,
++#endif
++			IN  BOOLEAN    	bIQKOK,
++			IN	s4Byte		result[][8],
++			IN	u1Byte		final_candidate,
++			IN  BOOLEAN		bTxOnly
++			)
++{
++	u4Byte	Oldval_0, X, TX0_A, reg;
++	s4Byte	Y, TX0_C;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);		
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("Path A IQ Calibration %s !\n",(bIQKOK)?"Success":"Failed"));
++
++	if(final_candidate == 0xFF)
++		return;
++
++	else if(bIQKOK)
++	{
++		Oldval_0 = (ODM_GetBBReg(pDM_Odm, rOFDM0_XATxIQImbalance, bMaskDWord) >> 22) & 0x3FF;
++
++		X = result[final_candidate][0];
++		if ((X & 0x00000200) != 0)
++			X = X | 0xFFFFFC00;				
++		TX0_A = (X * Oldval_0) >> 8;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("X = 0x%x, TX0_A = 0x%x, Oldval_0 0x%x\n", X, TX0_A, Oldval_0));
++		ODM_SetBBReg(pDM_Odm, rOFDM0_XATxIQImbalance, 0x3FF, TX0_A);
++
++		ODM_SetBBReg(pDM_Odm, rOFDM0_ECCAThreshold, BIT(31), ((X* Oldval_0>>7) & 0x1));
++
++		Y = result[final_candidate][1];
++		if ((Y & 0x00000200) != 0)
++			Y = Y | 0xFFFFFC00;		
++
++
++		TX0_C = (Y * Oldval_0) >> 8;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("Y = 0x%x, TX = 0x%x\n", (u4Byte)Y, (u4Byte)TX0_C));
++		ODM_SetBBReg(pDM_Odm, rOFDM0_XCTxAFE, 0xF0000000, ((TX0_C&0x3C0)>>6));
++		ODM_SetBBReg(pDM_Odm, rOFDM0_XATxIQImbalance, 0x003F0000, (TX0_C&0x3F));
++
++		ODM_SetBBReg(pDM_Odm, rOFDM0_ECCAThreshold, BIT(29), ((Y* Oldval_0>>7) & 0x1));
++
++		if(bTxOnly)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("_PHY_PathAFillIQKMatrix_8812A only Tx OK\n"));		
++			return;
++		}
++
++		reg = result[final_candidate][2];
++#if (DM_ODM_SUPPORT_TYPE==ODM_AP)		
++		if( RTL_ABS(reg ,0x100) >= 16) 
++			reg = 0x100;
++#endif
++		ODM_SetBBReg(pDM_Odm, rOFDM0_XARxIQImbalance, 0x3FF, reg);
++
++		reg = result[final_candidate][3] & 0x3F;
++		ODM_SetBBReg(pDM_Odm, rOFDM0_XARxIQImbalance, 0xFC00, reg);
++
++		reg = (result[final_candidate][3] >> 6) & 0xF;
++		ODM_SetBBReg(pDM_Odm, rOFDM0_RxIQExtAnta, 0xF0000000, reg);
++	}
++}
++
++VOID
++	_PHY_PathBFillIQKMatrix_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm,
++#else
++			IN	PADAPTER	pAdapter,
++#endif
++			IN  BOOLEAN   	bIQKOK,
++			IN	s4Byte		result[][8],
++			IN	u1Byte		final_candidate,
++			IN	BOOLEAN		bTxOnly			//do Tx only
++			)
++{
++	u4Byte	Oldval_1, X, TX1_A, reg;
++	s4Byte	Y, TX1_C;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);		
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Path B IQ Calibration %s !\n",(bIQKOK)?"Success":"Failed"));
++
++	if(final_candidate == 0xFF)
++		return;
++
++	else if(bIQKOK)
++	{
++		Oldval_1 = (ODM_GetBBReg(pDM_Odm, rOFDM0_XBTxIQImbalance, bMaskDWord) >> 22) & 0x3FF;
++
++		X = result[final_candidate][4];
++		if ((X & 0x00000200) != 0)
++			X = X | 0xFFFFFC00;		
++		TX1_A = (X * Oldval_1) >> 8;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("X = 0x%x, TX1_A = 0x%x\n", X, TX1_A));
++		ODM_SetBBReg(pDM_Odm, rOFDM0_XBTxIQImbalance, 0x3FF, TX1_A);
++
++		ODM_SetBBReg(pDM_Odm, rOFDM0_ECCAThreshold, BIT(27), ((X* Oldval_1>>7) & 0x1));
++
++		Y = result[final_candidate][5];
++		if ((Y & 0x00000200) != 0)
++			Y = Y | 0xFFFFFC00;		
++
++		TX1_C = (Y * Oldval_1) >> 8;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("Y = 0x%x, TX1_C = 0x%x\n", (u4Byte)Y, (u4Byte)TX1_C));
++		ODM_SetBBReg(pDM_Odm, rOFDM0_XDTxAFE, 0xF0000000, ((TX1_C&0x3C0)>>6));
++		ODM_SetBBReg(pDM_Odm, rOFDM0_XBTxIQImbalance, 0x003F0000, (TX1_C&0x3F));
++
++		ODM_SetBBReg(pDM_Odm, rOFDM0_ECCAThreshold, BIT(25), ((Y* Oldval_1>>7) & 0x1));
++
++		if(bTxOnly)
++			return;
++
++		reg = result[final_candidate][6];
++		ODM_SetBBReg(pDM_Odm, rOFDM0_XBRxIQImbalance, 0x3FF, reg);
++
++		reg = result[final_candidate][7] & 0x3F;
++		ODM_SetBBReg(pDM_Odm, rOFDM0_XBRxIQImbalance, 0xFC00, reg);
++
++		reg = (result[final_candidate][7] >> 6) & 0xF;
++		ODM_SetBBReg(pDM_Odm, rOFDM0_AGCRSSITable, 0x0000F000, reg);
++	}
++}
++
++//
++// 2011/07/26 MH Add an API for testing IQK fail case.
++//
++// MP Already declare in odm.c 
++#if 0	//!(DM_ODM_SUPPORT_TYPE & ODM_WIN) 
++BOOLEAN
++ODM_CheckPowerStatus(
++		IN	PADAPTER		Adapter)
++{
++	/*
++	   HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	   PDM_ODM_T			pDM_Odm = &pHalData->DM_OutSrc;
++	   RT_RF_POWER_STATE 	rtState;
++	   PMGNT_INFO			pMgntInfo	= &(Adapter->MgntInfo);
++
++	// 2011/07/27 MH We are not testing ready~~!! We may fail to get correct value when init sequence.
++	if (pMgntInfo->init_adpt_in_progress == TRUE)
++	{
++	ODM_RT_TRACE(pDM_Odm,COMP_INIT, DBG_LOUD, ("ODM_CheckPowerStatus Return TRUE, due to initadapter"));
++	return	TRUE;
++	}
++
++	//
++	//	2011/07/19 MH We can not execute tx pwoer tracking/ LLC calibrate or IQK.
++	//
++	Adapter->HalFunc.GetHwRegHandler(Adapter, HW_VAR_RF_STATE, (pu1Byte)(&rtState));	
++	if(Adapter->bDriverStopped || Adapter->bDriverIsGoingToPnpSetPowerSleep || rtState == eRfOff)
++	{
++	ODM_RT_TRACE(pDM_Odm,COMP_INIT, DBG_LOUD, ("ODM_CheckPowerStatus Return FALSE, due to %d/%d/%d\n", 
++	Adapter->bDriverStopped, Adapter->bDriverIsGoingToPnpSetPowerSleep, rtState));
++	return	FALSE;
++	}
++	 */
++	return	TRUE;
++}
++#endif
++
++VOID
++	_PHY_SaveADDARegisters_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm,
++#else
++			IN	PADAPTER	pAdapter,
++#endif
++			IN	pu4Byte		ADDAReg,
++			IN	pu4Byte		ADDABackup,
++			IN	u4Byte		RegisterNum
++			)
++{
++	u4Byte	i;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++
++	if (ODM_CheckPowerStatus(pAdapter) == FALSE)
++		return;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Save ADDA parameters.\n"));
++	for( i = 0 ; i < RegisterNum ; i++){
++		ADDABackup[i] = ODM_GetBBReg(pDM_Odm, ADDAReg[i], bMaskDWord);
++	}
++}
++
++
++VOID
++	_PHY_SaveMACRegisters_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm,
++#else
++			IN	PADAPTER	pAdapter,
++#endif
++			IN	pu4Byte		MACReg,
++			IN	pu4Byte		MACBackup
++			)
++{
++	u4Byte	i;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Save MAC parameters.\n"));
++	for( i = 0 ; i < (IQK_MAC_REG_NUM - 1); i++){
++		MACBackup[i] = ODM_Read1Byte(pDM_Odm, MACReg[i]);		
++	}
++	MACBackup[i] = ODM_Read4Byte(pDM_Odm, MACReg[i]);		
++
++}
++
++
++VOID
++	_PHY_ReloadADDARegisters_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm,
++#else
++			IN	PADAPTER	pAdapter,
++#endif
++			IN	pu4Byte		ADDAReg,
++			IN	pu4Byte		ADDABackup,
++			IN	u4Byte		RegiesterNum
++			)
++{
++	u4Byte	i;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Reload ADDA power saving parameters !\n"));
++	for(i = 0 ; i < RegiesterNum; i++)
++	{
++		ODM_SetBBReg(pDM_Odm, ADDAReg[i], bMaskDWord, ADDABackup[i]);
++	}
++}
++
++VOID
++	_PHY_ReloadMACRegisters_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm,
++#else
++			IN	PADAPTER	pAdapter,
++#endif
++			IN	pu4Byte		MACReg,
++			IN	pu4Byte		MACBackup
++			)
++{
++	u4Byte	i;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("Reload MAC parameters !\n"));
++	for(i = 0 ; i < (IQK_MAC_REG_NUM - 1); i++){
++		ODM_Write1Byte(pDM_Odm, MACReg[i], (u1Byte)MACBackup[i]);
++	}
++	ODM_Write4Byte(pDM_Odm, MACReg[i], MACBackup[i]);	
++}
++
++
++VOID
++	_PHY_PathADDAOn_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm,
++#else
++			IN	PADAPTER	pAdapter,
++#endif
++			IN	pu4Byte		ADDAReg,
++			IN	BOOLEAN		isPathAOn,
++			IN	BOOLEAN		is2T
++			)
++{
++	u4Byte	pathOn;
++	u4Byte	i;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("ADDA ON.\n"));
++
++	pathOn = isPathAOn ? 0x04db25a4 : 0x0b1b25a4;
++	if(FALSE == is2T){
++		pathOn = 0x0bdb25a0;
++		ODM_SetBBReg(pDM_Odm, ADDAReg[0], bMaskDWord, 0x0b1b25a0);
++	}
++	else{
++		ODM_SetBBReg(pDM_Odm,ADDAReg[0], bMaskDWord, pathOn);
++	}
++
++	for( i = 1 ; i < IQK_ADDA_REG_NUM ; i++){
++		ODM_SetBBReg(pDM_Odm,ADDAReg[i], bMaskDWord, pathOn);
++	}
++
++}
++
++VOID
++	_PHY_MACSettingCalibration_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm,
++#else
++			IN	PADAPTER	pAdapter,
++#endif
++			IN	pu4Byte		MACReg,
++			IN	pu4Byte		MACBackup	
++			)
++{
++	u4Byte	i = 0;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("MAC settings for Calibration.\n"));
++
++	ODM_Write1Byte(pDM_Odm, MACReg[i], 0x3F);
++
++	for(i = 1 ; i < (IQK_MAC_REG_NUM - 1); i++){
++		ODM_Write1Byte(pDM_Odm, MACReg[i], (u1Byte)(MACBackup[i]&(~BIT3)));
++	}
++	ODM_Write1Byte(pDM_Odm, MACReg[i], (u1Byte)(MACBackup[i]&(~BIT5)));	
++
++}
++
++VOID
++	_PHY_PathAStandBy_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm
++#else
++			IN PADAPTER	pAdapter
++#endif
++			)
++{
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("Path-A standby mode!\n"));
++
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x0);
++	ODM_SetBBReg(pDM_Odm, 0x840, bMaskDWord, 0x00010000);
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x808000);
++}
++
++VOID
++	_PHY_PIModeSwitch_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm,
++#else
++			IN	PADAPTER	pAdapter,
++#endif
++			IN	BOOLEAN		PIMode
++			)
++{
++	u4Byte	mode;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("BB Switch to %s mode!\n", (PIMode ? "PI" : "SI")));
++
++	mode = PIMode ? 0x01000100 : 0x01000000;
++	ODM_SetBBReg(pDM_Odm, rFPGA0_XA_HSSIParameter1, bMaskDWord, mode);
++	ODM_SetBBReg(pDM_Odm, rFPGA0_XB_HSSIParameter1, bMaskDWord, mode);
++}
++
++BOOLEAN							
++	phy_SimularityCompare_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm,
++#else
++			IN	PADAPTER	pAdapter,
++#endif
++			IN	s4Byte 		result[][8],
++			IN	u1Byte		 c1,
++			IN	u1Byte		 c2
++			)
++{
++	u4Byte		i, j, diff, SimularityBitMap, bound = 0;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);	
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif	
++	u1Byte		final_candidate[2] = {0xFF, 0xFF};	//for path A and path B
++	BOOLEAN		bResult = TRUE;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	BOOLEAN		is2T = IS_92C_SERIAL( pHalData->VersionID);
++#else
++	BOOLEAN		is2T = 0;
++#endif
++
++	if(is2T)
++		bound = 8;
++	else
++		bound = 4;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> IQK:phy_SimularityCompare_8812A c1 %d c2 %d!!!\n", c1, c2));
++
++
++	SimularityBitMap = 0;
++
++	for( i = 0; i < bound; i++ )
++	{
++		diff = (result[c1][i] > result[c2][i]) ? (result[c1][i] - result[c2][i]) : (result[c2][i] - result[c1][i]);
++		if (diff > MAX_TOLERANCE)
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("IQK:phy_SimularityCompare_8812A differnece overflow index %d compare1 0x%x compare2 0x%x!!!\n",  i, (u4Byte)result[c1][i], (u4Byte)result[c2][i]));
++
++			if((i == 2 || i == 6) && !SimularityBitMap)
++			{
++				if(result[c1][i]+result[c1][i+1] == 0)
++					final_candidate[(i/4)] = c2;
++				else if (result[c2][i]+result[c2][i+1] == 0)
++					final_candidate[(i/4)] = c1;
++				else
++					SimularityBitMap = SimularityBitMap|(1<<i);					
++			}
++			else
++				SimularityBitMap = SimularityBitMap|(1<<i);
++		}
++	}
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("IQK:phy_SimularityCompare_8812A SimularityBitMap   %d !!!\n", SimularityBitMap));
++
++	if ( SimularityBitMap == 0)
++	{
++		for( i = 0; i < (bound/4); i++ )
++		{
++			if(final_candidate[i] != 0xFF)
++			{
++				for( j = i*4; j < (i+1)*4-2; j++)
++					result[3][j] = result[final_candidate[i]][j];
++				bResult = FALSE;
++			}
++		}
++		return bResult;
++	}
++	else if (!(SimularityBitMap & 0x0F))			//path A OK
++	{
++		for(i = 0; i < 4; i++)
++			result[3][i] = result[c1][i];
++		return FALSE;
++	}
++	else if (!(SimularityBitMap & 0xF0) && is2T)	//path B OK
++	{
++		for(i = 4; i < 8; i++)
++			result[3][i] = result[c1][i];
++		return FALSE;
++	}	
++	else		
++		return FALSE;
++
++}
++#if 0
++#define BW_20M 	0
++#define	BW_40M  1
++#define	BW_80M	2
++#endif
++
++void _IQK_RX_FillIQC_8812A(
++		IN PDM_ODM_T			pDM_Odm,
++		IN ODM_RF_RADIO_PATH_E 	Path,
++		IN unsigned int			RX_X,
++		IN unsigned int			RX_Y
++		) 
++{
++	switch (Path) {
++		case ODM_RF_PATH_A:
++			{
++				ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++				ODM_SetBBReg(pDM_Odm, 0xc10, 0x000003ff, RX_X>>1);
++				ODM_SetBBReg(pDM_Odm, 0xc10, 0x03ff0000, RX_Y>>1);
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX_X = %x;;RX_Y = %x ====>fill to IQC\n", RX_X>>1&0x000003ff, RX_Y>>1&0x000003ff));
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xc10 = %x ====>fill to IQC\n", ODM_Read4Byte(pDM_Odm, 0xc10)));
++			}
++			break;
++		case ODM_RF_PATH_B:
++			{
++				ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++				ODM_SetBBReg(pDM_Odm, 0xe10, 0x000003ff, RX_X>>1);
++				ODM_SetBBReg(pDM_Odm, 0xe10, 0x03ff0000, RX_Y>>1);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX_X = %x;;RX_Y = %x====>fill to IQC\n ", RX_X>>1&0x000003ff, RX_Y>>1&0x000003ff));
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xe10 = %x====>fill to IQC\n", ODM_Read4Byte(pDM_Odm, 0xe10)));
++			}
++			break;		
++		default:
++			break;					
++	};	
++}
++
++void _IQK_TX_FillIQC_8812A(
++		IN PDM_ODM_T			pDM_Odm,
++		IN ODM_RF_RADIO_PATH_E 	Path,
++		IN unsigned int			TX_X,
++		IN unsigned int			TX_Y
++		) 
++{
++	switch (Path) {
++		case ODM_RF_PATH_A:
++			{
++				ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++				ODM_Write4Byte(pDM_Odm, 0xc90, 0x00000080);
++				ODM_Write4Byte(pDM_Odm, 0xcc4, 0x20040000);
++				ODM_Write4Byte(pDM_Odm, 0xcc8, 0x20000000);
++				ODM_SetBBReg(pDM_Odm, 0xccc, 0x000007ff, TX_Y);
++				ODM_SetBBReg(pDM_Odm, 0xcd4, 0x000007ff, TX_X);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TX_X = %x;;TX_Y = %x =====> fill to IQC\n", TX_X&0x000007ff, TX_Y&0x000007ff));
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xcd4 = %x;;0xccc = %x ====>fill to IQC\n", ODM_GetBBReg(pDM_Odm, 0xcd4, 0x000007ff), ODM_GetBBReg(pDM_Odm, 0xccc, 0x000007ff)));
++			}
++			break;
++		case ODM_RF_PATH_B:
++			{
++				ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++				ODM_Write4Byte(pDM_Odm, 0xe90, 0x00000080);
++				ODM_Write4Byte(pDM_Odm, 0xec4, 0x20040000);
++				ODM_Write4Byte(pDM_Odm, 0xec8, 0x20000000);
++				ODM_SetBBReg(pDM_Odm, 0xecc, 0x000007ff, TX_Y);
++				ODM_SetBBReg(pDM_Odm, 0xed4, 0x000007ff, TX_X);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TX_X = %x;;TX_Y = %x =====> fill to IQC\n", TX_X&0x000007ff, TX_Y&0x000007ff));
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xed4 = %x;;0xecc = %x ====>fill to IQC\n", ODM_GetBBReg(pDM_Odm, 0xed4, 0x000007ff), ODM_GetBBReg(pDM_Odm, 0xecc, 0x000007ff)));
++			}
++			break;		
++		default:
++			break;					
++	};	
++}
++
++void _IQK_BackupMacBB_8812A(
++		IN PDM_ODM_T		pDM_Odm,
++	IN pu4Byte		MACBB_backup,
++	IN pu4Byte		Backup_MACBB_REG, 
++	IN u4Byte		MACBB_NUM
++		)
++{
++	u4Byte i;
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	//save MACBB default value
++	for (i = 0; i < MACBB_NUM; i++){
++		MACBB_backup[i] = ODM_Read4Byte(pDM_Odm, Backup_MACBB_REG[i]);
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("BackupMacBB Success!!!!\n"));
++}
++void _IQK_BackupRF_8812A(
++		IN PDM_ODM_T		pDM_Odm,
++	IN pu4Byte		RFA_backup,
++	IN pu4Byte		RFB_backup, 
++	IN pu4Byte		Backup_RF_REG, 
++	IN u4Byte		RF_NUM
++		)	
++{
++
++	u4Byte i;
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	//Save RF Parameters
++	for (i = 0; i < RF_NUM; i++){
++		RFA_backup[i] = ODM_GetRFReg(pDM_Odm, RF_PATH_A, Backup_RF_REG[i], bMaskDWord);
++		RFB_backup[i] = ODM_GetRFReg(pDM_Odm, RF_PATH_B, Backup_RF_REG[i], bMaskDWord);
++	}
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("BackupRF Success!!!!\n"));
++}
++void _IQK_BackupAFE_8812A(
++		IN PDM_ODM_T		pDM_Odm,
++	IN pu4Byte		AFE_backup,
++	IN pu4Byte		Backup_AFE_REG, 
++	IN u4Byte		AFE_NUM
++		)
++{
++	u4Byte i;
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	//Save AFE Parameters 
++    	for (i = 0; i < AFE_NUM; i++){
++		AFE_backup[i] = ODM_Read4Byte(pDM_Odm, Backup_AFE_REG[i]);	
++	}
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("BackupAFE Success!!!!\n"));
++}
++void _IQK_RestoreMacBB_8812A(
++		IN PDM_ODM_T		pDM_Odm,
++	IN pu4Byte		MACBB_backup,
++	IN pu4Byte		Backup_MACBB_REG, 
++	IN u4Byte		MACBB_NUM
++		)	
++{
++	u4Byte i;
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	//Reload MacBB Parameters 
++    	for (i = 0; i < MACBB_NUM; i++){
++		ODM_Write4Byte(pDM_Odm, Backup_MACBB_REG[i], MACBB_backup[i]);
++	}
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RestoreMacBB Success!!!!\n"));
++}
++void _IQK_RestoreRF_8812A(
++		IN PDM_ODM_T			pDM_Odm,
++		IN ODM_RF_RADIO_PATH_E 	Path,
++	IN pu4Byte			Backup_RF_REG,
++	IN pu4Byte 			RF_backup,
++	IN u4Byte			RF_REG_NUM
++		)
++{	
++	u4Byte i;
++
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	for (i = 0; i < RF_REG_NUM; i++)
++		ODM_SetRFReg(pDM_Odm, Path, Backup_RF_REG[i], bRFRegOffsetMask, RF_backup[i]);
++	ODM_SetRFReg(pDM_Odm, Path, 0xef, bRFRegOffsetMask, 0x0);
++
++	switch(Path){
++		case ODM_RF_PATH_A:
++			{
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RestoreRF Path A Success!!!!\n"));
++			}
++			break;
++		case ODM_RF_PATH_B:
++			{
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RestoreRF Path B Success!!!!\n"));
++			}
++			break;
++		default:
++			break;
++	}
++}
++void _IQK_RestoreAFE_8812A(
++		IN PDM_ODM_T		pDM_Odm,
++	IN pu4Byte		AFE_backup,
++	IN pu4Byte		Backup_AFE_REG, 
++	IN u4Byte		AFE_NUM
++		)
++{
++	u4Byte i;
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	//Reload AFE Parameters 
++    	for (i = 0; i < AFE_NUM; i++){
++		ODM_Write4Byte(pDM_Odm, Backup_AFE_REG[i], AFE_backup[i]);
++	}
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++	ODM_Write4Byte(pDM_Odm, 0xc80, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xc84, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xc88, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xc8c, 0x3c000000);
++	ODM_Write4Byte(pDM_Odm, 0xcb8, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xe80, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xe84, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xe88, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xe8c, 0x3c000000);
++	ODM_Write4Byte(pDM_Odm, 0xeb8, 0x0);
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RestoreAFE Success!!!!\n"));
++}
++
++
++void _IQK_ConfigureMAC_8812A(
++		IN PDM_ODM_T		pDM_Odm
++		)
++{
++	// ========MAC register setting========
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	ODM_Write1Byte(pDM_Odm, 0x522, 0x3f);
++	ODM_SetBBReg(pDM_Odm, 0x550, BIT(11)|BIT(3), 0x0);
++	ODM_SetBBReg(pDM_Odm, 0x808, BIT(28), 0x0);	//		CCK Off
++	ODM_Write1Byte(pDM_Odm, 0x808, 0x00);		//		RX ante off
++	ODM_SetBBReg(pDM_Odm, 0x838, 0xf, 0xc);		//		CCA off
++}
++
++#define cal_num 3
++
++void _IQK_Tx_8812A(
++	IN PDM_ODM_T		pDM_Odm,
++	IN ODM_RF_RADIO_PATH_E Path,
++	IN u1Byte chnlIdx
++	)
++{
++	u4Byte 		TX_fail,RX_fail, delay_count, IQK_ready, cal_retry, cal = 0, temp_reg65;
++    int 			TX_X = 0, TX_Y = 0, RX_X = 0, RX_Y = 0, TX_Average = 0, RX_Average = 0;
++    int 			TX_X0[cal_num], TX_Y0[cal_num], RX_X0[cal_num], RX_Y0[cal_num];
++    	BOOLEAN 	TX0IQKOK = FALSE, RX0IQKOK = FALSE;
++	int 			TX_X1[cal_num], TX_Y1[cal_num], RX_X1[cal_num], RX_Y1[cal_num];
++	BOOLEAN  	TX1IQKOK = FALSE, RX1IQKOK = FALSE, VDF_enable = FALSE;
++	int 			i, k, VDF_Y[3], VDF_X[3], Tx_dt[3], Rx_dt[3], ii, dx = 0, dy = 0, TX_finish = 0, RX_finish = 0;
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	prtl8192cd_priv		priv = pDM_Odm->priv;
++
++	pDM_Odm->priv->pshare->IQK_total_cnt++;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("BandWidth = %d ExtPA = %d pBand = %d\n", *pDM_Odm->pBandWidth, pDM_Odm->ExtPA, *pDM_Odm->pBandType));
++	if (*pDM_Odm->pBandWidth == 2){
++		VDF_enable = TRUE;
++	}
++	temp_reg65 = ODM_GetRFReg(pDM_Odm, Path, 0x65, bMaskDWord);
++		switch (Path) {
++		case ODM_RF_PATH_A:
++			{
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++				// ========Path-A AFE all on========
++				// Port 0 DAC/ADC on
++				ODM_Write4Byte(pDM_Odm, 0xc60, 0x77777777);
++				ODM_Write4Byte(pDM_Odm, 0xc64, 0x77777777);
++				 
++				// Port 1 DAC/ADC off
++				ODM_Write4Byte(pDM_Odm, 0xe60, 0x00000000);
++				ODM_Write4Byte(pDM_Odm, 0xe64, 0x00000000);
++
++					ODM_Write4Byte(pDM_Odm, 0xc68, 0x19791979);
++
++					ODM_SetBBReg(pDM_Odm, 0xc00, 0xf, 0x4);// 	hardware 3-wire off
++
++					// IQK Setting
++					//====== TX IQK ======
++					// 1. DAC/ADC sampling rate (160 MHz)
++					ODM_SetBBReg(pDM_Odm, 0xc5c, BIT(26)|BIT(25)|BIT(24), 0x7);
++			ODM_SetBBReg(pDM_Odm, 0x8c4, BIT(30), 0x1);
++			//ODM_SetBBReg(pDM_Odm, 0xcb0, 0x000000f0, 0x7);
++			ODM_SetBBReg(pDM_Odm, 0xcb0, 0x00ff0000, 0x77);
++			ODM_SetBBReg(pDM_Odm, 0xcb4, 0x03000000, 0x0);
++			}
++			break;
++		case ODM_RF_PATH_B:
++			{ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++			// Port 0 DAC/ADC off
++			ODM_Write4Byte(pDM_Odm, 0xc60, 0x00000000);
++			ODM_Write4Byte(pDM_Odm, 0xc64, 0x00000000);
++			 
++			// Port 1 DAC/ADC on
++			ODM_Write4Byte(pDM_Odm, 0xe60, 0x77777777);
++			ODM_Write4Byte(pDM_Odm, 0xe64, 0x77777777);
++
++			ODM_Write4Byte(pDM_Odm, 0xe68, 0x19791979);
++
++			ODM_SetBBReg(pDM_Odm, 0xe00, 0xf, 0x4);// 	hardware 3-wire off
++
++			// DAC/ADC sampling rate (160 MHz)
++			ODM_SetBBReg(pDM_Odm, 0xe5c, BIT(26)|BIT(25)|BIT(24), 0x7);
++			ODM_SetBBReg(pDM_Odm, 0x8c4, BIT(30), 0x1);
++			//ODM_SetBBReg(pDM_Odm, 0xeb0, 0x000000f0, 0x7);
++			ODM_SetBBReg(pDM_Odm, 0xeb0, 0x00ff0000, 0x77);
++			ODM_SetBBReg(pDM_Odm, 0xeb4, 0x03000000, 0x0);			
++			}
++			break;
++		default:
++			break;
++			}
++	while (cal < cal_num){
++		switch (Path) {
++			case ODM_RF_PATH_A:
++			{	
++				//====== TX IQK ======
++				ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++				ODM_SetRFReg(pDM_Odm, Path, 0xef, bRFRegOffsetMask, 0x80002);
++				ODM_SetRFReg(pDM_Odm, Path, 0x30, bRFRegOffsetMask, 0x20000);
++				ODM_SetRFReg(pDM_Odm, Path, 0x31, bRFRegOffsetMask, 0x3fffd);
++				ODM_SetRFReg(pDM_Odm, Path, 0x32, bRFRegOffsetMask, 0xfe83f);
++				ODM_SetRFReg(pDM_Odm, Path, 0x65, bRFRegOffsetMask, 0x931d5);
++				ODM_SetRFReg(pDM_Odm, Path, 0x8f, bRFRegOffsetMask, 0x8a001);
++				ODM_Write4Byte(pDM_Odm, 0x90c, 0x00008000);
++				ODM_Write4Byte(pDM_Odm, 0xb00, 0x03000100);
++				ODM_SetBBReg(pDM_Odm, 0xc94, BIT(0), 0x1);
++				ODM_Write4Byte(pDM_Odm, 0x978, 0x29002000);// TX (X,Y)
++				ODM_Write4Byte(pDM_Odm, 0x97c, 0xa9002000);// RX (X,Y)
++				ODM_Write4Byte(pDM_Odm, 0x984, 0x00462910);// [0]:AGC_en, [15]:idac_K_Mask
++				
++				ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++
++				if (pDM_Odm->ExtPA)
++					ODM_Write4Byte(pDM_Odm, 0xc88, 0x821403e3);
++				else
++					ODM_Write4Byte(pDM_Odm, 0xc88, 0x821403f1);
++				
++				if (*pDM_Odm->pBandType)
++					ODM_Write4Byte(pDM_Odm, 0xc8c, 0x68163e96);
++				else
++					ODM_Write4Byte(pDM_Odm, 0xc8c, 0x28163e96);
++				
++				if (VDF_enable == 1){
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TXVDF Start\n"));
++					for (k = 0;k <= 2; k++){
++						switch (k){
++							case 0:
++								{
++								ODM_Write4Byte(pDM_Odm, 0xc80, 0x18008c38);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++								ODM_Write4Byte(pDM_Odm, 0xc84, 0x38008c38);// RX_Tone_idx[9:0], RxK_Mask[29]
++								ODM_Write4Byte(pDM_Odm, 0x984, 0x00462910);// [0]:AGC_en, [15]:idac_K_Mask
++								ODM_SetBBReg(pDM_Odm, 0xce8, BIT(31), 0x0);
++								}
++								break;
++							case 1:
++								{
++								ODM_SetBBReg(pDM_Odm, 0xc80, BIT(28), 0x0);
++								ODM_SetBBReg(pDM_Odm, 0xc84, BIT(28), 0x0);
++								ODM_Write4Byte(pDM_Odm, 0x984, 0x0046a910);// [0]:AGC_en, [15]:idac_K_Mask
++								}
++								break;
++							case 2:
++								{
++								ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("VDF_Y[1] = %x;;;VDF_Y[0] = %x\n", VDF_Y[1]>>21 & 0x00007ff, VDF_Y[0]>>21 & 0x00007ff));
++								ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("VDF_X[1] = %x;;;VDF_X[0] = %x\n", VDF_X[1]>>21 & 0x00007ff, VDF_X[0]>>21 & 0x00007ff));
++								Tx_dt[cal] = (VDF_Y[1]>>20)-(VDF_Y[0]>>20);
++								ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Tx_dt = %d\n", Tx_dt[cal]));
++								Tx_dt[cal] = ((16*Tx_dt[cal])*10000/15708);
++								Tx_dt[cal] = (Tx_dt[cal] >> 1 )+(Tx_dt[cal] & BIT(0));
++								ODM_Write4Byte(pDM_Odm, 0xc80, 0x18008c20);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++								ODM_Write4Byte(pDM_Odm, 0xc84, 0x38008c20);// RX_Tone_idx[9:0], RxK_Mask[29]
++								ODM_SetBBReg(pDM_Odm, 0xce8, BIT(31), 0x1);
++								ODM_SetBBReg(pDM_Odm, 0xce8, 0x3fff0000, Tx_dt[cal] & 0x00003fff);
++								}
++								break;
++							default:
++								break;
++						}
++				ODM_Write4Byte(pDM_Odm, 0xcb8, 0x00100000);// cb8[20] ±N SI/PI ¨?¥??v¤?µ¹ iqk_dpk module
++				cal_retry = 0;
++				while(1){
++					// one shot
++					ODM_Write4Byte(pDM_Odm, 0x980, 0xfa000000);
++					ODM_Write4Byte(pDM_Odm, 0x980, 0xf8000000);
++
++								delay_ms(10); //Delay 10ms
++								ODM_Write4Byte(pDM_Odm, 0xcb8, 0x00000000);
++								delay_count = 0;
++				                    while (1){
++									IQK_ready = ODM_GetBBReg(pDM_Odm, 0xd00, BIT(10));
++				                        	if ((IQK_ready) || (delay_count>20)){
++										break;
++				                        	}
++								else{
++										delay_ms(1);
++										delay_count++;
++									}
++								}
++
++					if (delay_count < 20){							// If 20ms No Result, then cal_retry++
++			                     // ============TXIQK Check==============
++						TX_fail = ODM_GetBBReg(pDM_Odm, 0xd00, BIT(12));
++						
++						if (~TX_fail){
++							ODM_Write4Byte(pDM_Odm, 0xcb8, 0x02000000);
++									VDF_X[k] = ODM_GetBBReg(pDM_Odm, 0xd00, 0x07ff0000)<<21;
++							ODM_Write4Byte(pDM_Odm, 0xcb8, 0x04000000);
++									VDF_Y[k] = ODM_GetBBReg(pDM_Odm, 0xd00, 0x07ff0000)<<21;
++							TX0IQKOK = TRUE;
++							break;
++						}
++								else{
++							TX0IQKOK = FALSE;
++							cal_retry++;
++							if (cal_retry == 10) {
++								break;
++							}
++						}
++					}
++                    else{
++                        TX0IQKOK = FALSE;
++                        cal_retry++;
++                        if (cal_retry == 10){
++                            break;
++                        }
++                    }
++                }
++					}
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TXA_VDF_cal_retry = %d\n", cal_retry));
++						TX_X0[cal] = VDF_X[k-1] ;
++						TX_Y0[cal] = VDF_Y[k-1];
++				}
++				else{
++					ODM_Write4Byte(pDM_Odm, 0xc80, 0x18008c10);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++					ODM_Write4Byte(pDM_Odm, 0xc84, 0x38008c10);// RX_Tone_idx[9:0], RxK_Mask[29]
++					ODM_Write4Byte(pDM_Odm, 0xce8, 0x00000000);
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x00100000);// cb8[20] ±N SI/PI ¨?¥??v¤?µ¹ iqk_dpk module
++					cal_retry = 0;
++					while(1){
++						ODM_Write4Byte(pDM_Odm, 0x980, 0xfa000000);
++						ODM_Write4Byte(pDM_Odm, 0x980, 0xf8000000);
++
++						delay_ms(10); //Delay 25ms
++						ODM_Write4Byte(pDM_Odm, 0xcb8, 0x00000000);
++						delay_count = 0;
++						while (1){
++							IQK_ready = ODM_GetBBReg(pDM_Odm, 0xd00, BIT(10));
++							if ((IQK_ready) || (delay_count>20)) {
++						       	break;
++						}
++						else{
++							delay_ms(1);
++						       delay_count++;
++						}
++						}
++
++						if (delay_count < 20){							// If 20ms No Result, then cal_retry++
++						TX_fail = ODM_GetBBReg(pDM_Odm, 0xd00, BIT(12));
++							if (~TX_fail){
++								ODM_Write4Byte(pDM_Odm, 0xcb8, 0x02000000);
++								TX_X0[cal] = ODM_GetBBReg(pDM_Odm, 0xd00, 0x07ff0000)<<21;
++								ODM_Write4Byte(pDM_Odm, 0xcb8, 0x04000000);
++								TX_Y0[cal] = ODM_GetBBReg(pDM_Odm, 0xd00, 0x07ff0000)<<21;
++								TX0IQKOK = TRUE;
++								/*
++									
++									ODM_Write4Byte(pDM_Odm, 0xcb8, 0x01000000);
++									reg1 = ODM_GetBBReg(pDM_Odm, 0xd00, 0xffffffff);
++									ODM_Write4Byte(pDM_Odm, 0xcb8, 0x02000000);
++									reg2 = ODM_GetBBReg(pDM_Odm, 0xd00, 0x0000001f);
++									Image_Power = (reg2<<32)+reg1;
++									DbgPrint("Before PW = %d\n", Image_Power);
++									ODM_Write4Byte(pDM_Odm, 0xcb8, 0x03000000);
++									reg1 = ODM_GetBBReg(pDM_Odm, 0xd00, 0xffffffff);
++									ODM_Write4Byte(pDM_Odm, 0xcb8, 0x04000000);
++									reg2 = ODM_GetBBReg(pDM_Odm, 0xd00, 0x0000001f);
++									Image_Power = (reg2<<32)+reg1;
++									DbgPrint("After PW = %d\n", Image_Power);
++								*/
++								break;
++							}
++							else{
++								TX0IQKOK = FALSE;
++								cal_retry++;
++								if (cal_retry == 10) {
++									break;
++								}
++							}
++						}
++		                    		else{
++		                        		TX0IQKOK = FALSE;
++		                        		cal_retry++;
++		                        		if (cal_retry == 10)
++		                            		break;	
++		                    		}
++		                	}
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TXA_cal_retry = %d\n", cal_retry));
++				}
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++			ODM_SetRFReg(pDM_Odm, Path, 0x58, 0x7fe00, ODM_GetRFReg(pDM_Odm, Path, 0x8, 0xffc00)); // Load LOK
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++				if (TX0IQKOK == FALSE)
++					break;				// TXK fail, Don't do RXK
++
++
++			if (VDF_enable == 1){
++				ODM_SetBBReg(pDM_Odm, 0xce8, BIT(31), 0x0);    // TX VDF Disable
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RXVDF Start\n"));
++				
++					//====== RX mode TXK (RXK Step 1) ======
++					ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++					ODM_SetRFReg(pDM_Odm, Path, 0xef, bRFRegOffsetMask, 0x80000);
++					ODM_SetRFReg(pDM_Odm, Path, 0x30, bRFRegOffsetMask, 0x30000);
++					ODM_SetRFReg(pDM_Odm, Path, 0x31, bRFRegOffsetMask, 0x3f7ff);
++					ODM_SetRFReg(pDM_Odm, Path, 0x32, bRFRegOffsetMask, 0xfe7bf);
++					ODM_SetRFReg(pDM_Odm, Path, 0x8f, bRFRegOffsetMask, 0x88001);
++					ODM_SetRFReg(pDM_Odm, Path, 0x65, bRFRegOffsetMask, 0x931d0);
++					ODM_SetRFReg(pDM_Odm, Path, 0xef, bRFRegOffsetMask, 0x00000);
++					ODM_SetBBReg(pDM_Odm, 0x978, BIT(31), 0x1);
++					ODM_SetBBReg(pDM_Odm, 0x97c, BIT(31), 0x0);
++					ODM_Write4Byte(pDM_Odm, 0x984, 0x0046a911);
++					
++					ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++					ODM_Write4Byte(pDM_Odm, 0xc88, 0x02140119);
++					ODM_Write4Byte(pDM_Odm, 0xc8c, 0x28161420);
++					
++				for (k = 0;k <= 2; k++){	
++					ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++					ODM_SetBBReg(pDM_Odm, 0x978, 0x03FF8000, (VDF_X[k])>>21&0x000007ff);
++			              ODM_SetBBReg(pDM_Odm, 0x978, 0x000007FF, (VDF_Y[k])>>21&0x000007ff);
++					
++					
++					ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++					switch (k){
++						case 0:
++							{
++							ODM_Write4Byte(pDM_Odm, 0xc80, 0x38008c38);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++							ODM_Write4Byte(pDM_Odm, 0xc84, 0x18008c38);// RX_Tone_idx[9:0], RxK_Mask[29]
++							ODM_SetBBReg(pDM_Odm, 0xce8, BIT(30), 0x0);
++							}
++							break;
++						case 1:
++							{
++							ODM_Write4Byte(pDM_Odm, 0xc80, 0x28008c38);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++							ODM_Write4Byte(pDM_Odm, 0xc84, 0x08008c38);// RX_Tone_idx[9:0], RxK_Mask[29]
++							}
++							break;
++						case 2:
++							{
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("VDF_Y[1] = %x;;;VDF_Y[0] = %x\n", VDF_Y[1]>>21 & 0x00007ff, VDF_Y[0]>>21 & 0x00007ff));
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("VDF_X[1] = %x;;;VDF_X[0] = %x\n", VDF_X[1]>>21 & 0x00007ff, VDF_X[0]>>21 & 0x00007ff));
++							Rx_dt[cal] = (VDF_Y[1]>>20)-(VDF_Y[0]>>20);
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Rx_dt = %d\n", Rx_dt[cal]));
++							Rx_dt[cal] = ((16*Rx_dt[cal])*10000/13823);
++							Rx_dt[cal] = (Rx_dt[cal] >> 1 )+(Rx_dt[cal] & BIT(0));
++							ODM_Write4Byte(pDM_Odm, 0xc80, 0x38008c20);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++							ODM_Write4Byte(pDM_Odm, 0xc84, 0x18008c20);// RX_Tone_idx[9:0], RxK_Mask[29]
++							ODM_SetBBReg(pDM_Odm, 0xce8, 0x00003fff, Rx_dt[cal] & 0x00003fff);
++							}
++							break;
++						default:
++							break;
++					}
++	
++					
++					if (k==2){
++						ODM_SetBBReg(pDM_Odm, 0xce8, BIT(30), 0x1);  //RX VDF Enable
++						}
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x00100000);// cb8[20] ±N SI/PI ¨?¥??v¤?µ¹ iqk_dpk module
++					
++					cal_retry = 0;
++					while(1){
++						// one shot
++						ODM_Write4Byte(pDM_Odm, 0x980, 0xfa000000);
++						ODM_Write4Byte(pDM_Odm, 0x980, 0xf8000000);
++
++						delay_ms(10); //Delay 10ms
++						ODM_Write4Byte(pDM_Odm, 0xcb8, 0x00000000);
++						delay_count = 0;
++						while (1){
++							IQK_ready = ODM_GetBBReg(pDM_Odm, 0xd00, BIT(10));
++							if ((IQK_ready)||(delay_count>20)){
++								break;
++							}
++							else{
++								delay_ms(1);
++								delay_count++;
++							}
++						}
++							
++						if (delay_count < 20){	// If 20ms No Result, then cal_retry++
++							// ============RXIQK Check==============
++							RX_fail = ODM_GetBBReg(pDM_Odm, 0xd00, BIT(11));
++							if (RX_fail == 0){
++								ODM_Write4Byte(pDM_Odm, 0xcb8, 0x06000000);
++								VDF_X[k] = ODM_GetBBReg(pDM_Odm, 0xd00, 0x07ff0000)<<21;
++								ODM_Write4Byte(pDM_Odm, 0xcb8, 0x08000000);
++								VDF_Y[k] = ODM_GetBBReg(pDM_Odm, 0xd00, 0x07ff0000)<<21;
++								RX0IQKOK = TRUE;
++								break;
++							}
++							else{
++								ODM_SetBBReg(pDM_Odm, 0xc10, 0x000003ff, 0x200>>1);
++								ODM_SetBBReg(pDM_Odm, 0xc10, 0x03ff0000, 0x0>>1);
++								RX0IQKOK = FALSE;
++								cal_retry++;
++								if (cal_retry == 10)
++									break;
++									
++							}
++						}
++						else{
++				                    	RX0IQKOK = FALSE;
++				                    	cal_retry++;
++				                    	if (cal_retry == 10)
++				                     	break;
++			                		}
++			            	}
++					
++				}
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RXA_VDF_cal_retry = %d\n", cal_retry));
++					RX_X0[cal] = VDF_X[k-1] ;
++					RX_Y0[cal] = VDF_Y[k-1];
++			ODM_SetBBReg(pDM_Odm, 0xce8, BIT(31), 0x1);    // TX VDF Enable
++			}
++			else{
++				//====== RX mode TXK (RXK Step 1) ======
++				ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++				// 1. TX RF Setting
++					ODM_SetRFReg(pDM_Odm, Path, 0xef, bRFRegOffsetMask, 0x80000);
++					ODM_SetRFReg(pDM_Odm, Path, 0x30, bRFRegOffsetMask, 0x30000);
++				ODM_SetRFReg(pDM_Odm, Path, 0x31, bRFRegOffsetMask, 0x3f7ff);
++				ODM_SetRFReg(pDM_Odm, Path, 0x32, bRFRegOffsetMask, 0xfe7bf);
++				ODM_SetRFReg(pDM_Odm, Path, 0x8f, bRFRegOffsetMask, 0x88001);
++				ODM_SetRFReg(pDM_Odm, Path, 0x65, bRFRegOffsetMask, 0x931d0);
++					ODM_SetRFReg(pDM_Odm, Path, 0xef, bRFRegOffsetMask, 0x00000);
++				ODM_SetBBReg(pDM_Odm, 0x978, 0x03FF8000, (TX_X0[cal])>>21&0x000007ff);
++		              ODM_SetBBReg(pDM_Odm, 0x978, 0x000007FF, (TX_Y0[cal])>>21&0x000007ff);
++				ODM_SetBBReg(pDM_Odm, 0x978, BIT(31), 0x1);
++				ODM_SetBBReg(pDM_Odm, 0x97c, BIT(31), 0x0);
++					ODM_Write4Byte(pDM_Odm, 0x90c, 0x00008000);
++				ODM_Write4Byte(pDM_Odm, 0x984, 0x0046a910);
++
++					ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++				ODM_Write4Byte(pDM_Odm, 0xc80, 0x38008c10);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++				ODM_Write4Byte(pDM_Odm, 0xc84, 0x18008c10);// RX_Tone_idx[9:0], RxK_Mask[29]
++				ODM_Write4Byte(pDM_Odm, 0xc88, 0x02140119);
++				ODM_Write4Byte(pDM_Odm, 0xc8c, 0x28161cc0);
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x00100000);// cb8[20] ±N SI/PI ¨?¥??v¤?µ¹ iqk_dpk module
++					cal_retry = 0;
++				while(1){
++						// one shot
++						ODM_Write4Byte(pDM_Odm, 0x980, 0xfa000000);
++						ODM_Write4Byte(pDM_Odm, 0x980, 0xf8000000);
++
++					delay_ms(10); //Delay 10ms
++						ODM_Write4Byte(pDM_Odm, 0xcb8, 0x00000000);
++						delay_count = 0;
++						while (1){
++							IQK_ready = ODM_GetBBReg(pDM_Odm, 0xd00, BIT(10));
++						if ((IQK_ready)||(delay_count>20)){
++								break;
++						}
++						else{
++								delay_ms(1);
++								delay_count++;
++							}
++						}
++						
++					if (delay_count < 20){	// If 20ms No Result, then cal_retry++
++							// ============RXIQK Check==============
++							RX_fail = ODM_GetBBReg(pDM_Odm, 0xd00, BIT(11));
++						if (RX_fail == 0){
++								ODM_Write4Byte(pDM_Odm, 0xcb8, 0x06000000);
++								RX_X0[cal] = ODM_GetBBReg(pDM_Odm, 0xd00, 0x07ff0000)<<21;
++								ODM_Write4Byte(pDM_Odm, 0xcb8, 0x08000000);
++								RX_Y0[cal] = ODM_GetBBReg(pDM_Odm, 0xd00, 0x07ff0000)<<21;
++								RX0IQKOK = TRUE;
++/*
++							ODM_Write4Byte(pDM_Odm, 0xcb8, 0x05000000);
++							reg1 = ODM_GetBBReg(pDM_Odm, 0xd00, 0xffffffff);
++							ODM_Write4Byte(pDM_Odm, 0xcb8, 0x06000000);
++							reg2 = ODM_GetBBReg(pDM_Odm, 0xd00, 0x0000001f);
++							Image_Power = (reg2<<32)+reg1;
++							DbgPrint("Before PW = %d\n", Image_Power);
++							ODM_Write4Byte(pDM_Odm, 0xcb8, 0x07000000);
++							reg1 = ODM_GetBBReg(pDM_Odm, 0xd00, 0xffffffff);
++							ODM_Write4Byte(pDM_Odm, 0xcb8, 0x08000000);
++							reg2 = ODM_GetBBReg(pDM_Odm, 0xd00, 0x0000001f);
++							Image_Power = (reg2<<32)+reg1;
++							DbgPrint("After PW = %d\n", Image_Power);
++*/
++								break;
++							}
++						else{
++								ODM_SetBBReg(pDM_Odm, 0xc10, 0x000003ff, 0x200>>1);
++								ODM_SetBBReg(pDM_Odm, 0xc10, 0x03ff0000, 0x0>>1);
++								RX0IQKOK = FALSE;
++								cal_retry++;
++							if (cal_retry == 10)
++									break;
++								
++							}
++						}
++					else{
++							RX0IQKOK = FALSE;
++							cal_retry++;
++							if (cal_retry == 10)
++								break;
++						}
++					}	
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RXA_cal_retry = %d\n", cal_retry));
++			}
++					if (TX0IQKOK)
++						TX_Average++;
++					if (RX0IQKOK)
++						RX_Average++;
++				}
++				break;
++			case ODM_RF_PATH_B:
++				{
++			//Path-B TX/RX IQK
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++			ODM_SetRFReg(pDM_Odm, Path, 0xef, bRFRegOffsetMask, 0x80002);
++			ODM_SetRFReg(pDM_Odm, Path, 0x30, bRFRegOffsetMask, 0x20000);
++			ODM_SetRFReg(pDM_Odm, Path, 0x31, bRFRegOffsetMask, 0x3fffd);
++			ODM_SetRFReg(pDM_Odm, Path, 0x32, bRFRegOffsetMask, 0xfe83f);
++			ODM_SetRFReg(pDM_Odm, Path, 0x65, bRFRegOffsetMask, 0x931d5);
++			ODM_SetRFReg(pDM_Odm, Path, 0x8f, bRFRegOffsetMask, 0x8a001);
++					ODM_Write4Byte(pDM_Odm, 0x90c, 0x00008000);
++					ODM_Write4Byte(pDM_Odm, 0xb00, 0x03000100);
++					ODM_SetBBReg(pDM_Odm, 0xe94, BIT(0), 0x1);
++					ODM_Write4Byte(pDM_Odm, 0x978, 0x29002000);// TX (X,Y)
++					ODM_Write4Byte(pDM_Odm, 0x97c, 0xa9002000);// RX (X,Y)
++					ODM_Write4Byte(pDM_Odm, 0x984, 0x00462910);// [0]:AGC_en, [15]:idac_K_Mask
++
++
++                ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++			
++			
++
++			if (pDM_Odm->ExtPA)
++				ODM_Write4Byte(pDM_Odm, 0xe88, 0x821403e3);
++			else
++				ODM_Write4Byte(pDM_Odm, 0xe88, 0x821403f1);
++
++                if (*pDM_Odm->pBandType)
++                    ODM_Write4Byte(pDM_Odm, 0xe8c, 0x68163e96);
++                else
++                    ODM_Write4Byte(pDM_Odm, 0xe8c, 0x28163e96);
++
++			if (VDF_enable == 1){
++				for (k = 0;k <= 2; k++){
++					switch (k){
++						case 0:
++                {
++                    // one shot
++							ODM_Write4Byte(pDM_Odm, 0xe80, 0x18008c38);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++							ODM_Write4Byte(pDM_Odm, 0xe84, 0x38008c38);// RX_Tone_idx[9:0], RxK_Mask[29]
++							ODM_Write4Byte(pDM_Odm, 0x984, 0x00462910);
++							ODM_SetBBReg(pDM_Odm, 0xee8, BIT(31), 0x0);
++								}
++                            break;
++						case 1:
++							{
++							ODM_SetBBReg(pDM_Odm, 0xe80, BIT(28), 0x0);
++							ODM_SetBBReg(pDM_Odm, 0xe84, BIT(28), 0x0);
++							ODM_Write4Byte(pDM_Odm, 0x984, 0x0046a910);
++							ODM_SetBBReg(pDM_Odm, 0xee8, BIT(31), 0x0);
++                    }
++							break;
++						case 2:
++							{
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("VDF_Y[1] = %x;;;VDF_Y[0] = %x\n", VDF_Y[1]>>21 & 0x00007ff, VDF_Y[0]>>21 & 0x00007ff));
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("VDF_X[1] = %x;;;VDF_X[0] = %x\n", VDF_X[1]>>21 & 0x00007ff, VDF_X[0]>>21 & 0x00007ff));
++							Tx_dt[cal] = (VDF_Y[1]>>20)-(VDF_Y[0]>>20);
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Tx_dt = %d\n", Tx_dt[cal]));
++							Tx_dt[cal] = ((16*Tx_dt[cal])*10000/15708);
++							Tx_dt[cal] = (Tx_dt[cal] >> 1 )+(Tx_dt[cal] & BIT(0));
++							ODM_Write4Byte(pDM_Odm, 0xe80, 0x18008c20);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++							ODM_Write4Byte(pDM_Odm, 0xe84, 0x38008c20);// RX_Tone_idx[9:0], RxK_Mask[29]
++							ODM_SetBBReg(pDM_Odm, 0xee8, BIT(31), 0x1);
++							ODM_SetBBReg(pDM_Odm, 0xee8, 0x3fff0000, Tx_dt[cal] & 0x00003fff);
++								}
++							break;
++						default:
++							break;
++						}
++						ODM_Write4Byte(pDM_Odm, 0xeb8, 0x00100000);// cb8[20] ±N SI/PI ¨?¥??v¤?µ¹ iqk_dpk module
++						cal_retry = 0;
++						while(1){
++							// one shot
++							ODM_Write4Byte(pDM_Odm, 0x980, 0xfa000000);
++							ODM_Write4Byte(pDM_Odm, 0x980, 0xf8000000);
++
++							delay_ms(10); //Delay 10ms
++							ODM_Write4Byte(pDM_Odm, 0xeb8, 0x00000000);
++							delay_count = 0;
++							while (1){
++								IQK_ready = ODM_GetBBReg(pDM_Odm, 0xd40, BIT(10));
++			                        	if ((IQK_ready) || (delay_count>20)) {
++									break;
++			                        	}
++							else {
++									delay_ms(1);
++									delay_count++;
++								}
++							}
++
++							if (delay_count < 20){							// If 20ms No Result, then cal_retry++
++								// ============TXIQK Check==============
++								TX_fail = ODM_GetBBReg(pDM_Odm, 0xd40, BIT(12));
++
++								if (~TX_fail){
++									ODM_Write4Byte(pDM_Odm, 0xeb8, 0x02000000);
++								VDF_X[k] = ODM_GetBBReg(pDM_Odm, 0xd40, 0x07ff0000)<<21;
++									ODM_Write4Byte(pDM_Odm, 0xeb8, 0x04000000);
++								VDF_Y[k] = ODM_GetBBReg(pDM_Odm, 0xd40, 0x07ff0000)<<21;
++									TX1IQKOK = TRUE;
++									break;
++								}
++							else{
++									TX1IQKOK = FALSE;
++									cal_retry++;
++									if (cal_retry == 10){
++										break;
++									}
++								}
++							}
++			                     else{
++			                    		TX1IQKOK = FALSE;
++			                        	cal_retry++;
++			                        	if (cal_retry == 10){
++			                            	break;
++			                        	}
++			                    	}
++			       	}
++				}
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TXB_VDF_cal_retry = %d\n", cal_retry));
++					TX_X1[cal] = VDF_X[k-1] ;
++					TX_Y1[cal] = VDF_Y[k-1];
++			}
++			else{
++				ODM_Write4Byte(pDM_Odm, 0xe80, 0x18008c10);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++				ODM_Write4Byte(pDM_Odm, 0xe84, 0x38008c10);// RX_Tone_idx[9:0], RxK_Mask[29]
++				ODM_Write4Byte(pDM_Odm, 0xee8, 0x00000000);
++				ODM_Write4Byte(pDM_Odm, 0xeb8, 0x00100000);// cb8[20] ±N SI/PI ¨?¥??v¤?µ¹ iqk_dpk module
++				cal_retry = 0;
++	                	while(1){
++	                    	// one shot
++	                    		ODM_Write4Byte(pDM_Odm, 0x980, 0xfa000000);
++	                    		ODM_Write4Byte(pDM_Odm, 0x980, 0xf8000000);
++
++	                    		delay_ms(10); //Delay 25ms
++	                    		ODM_Write4Byte(pDM_Odm, 0xeb8, 0x00000000);
++	                    		delay_count = 0;
++	                    		while (1){
++	                        		IQK_ready = ODM_GetBBReg(pDM_Odm, 0xd40, BIT(10));
++	                        		if ((IQK_ready)||(delay_count>20)){
++	                            		break;
++	                        		}
++						else{
++	                            		delay_ms(1);
++	                            		delay_count++;
++	                        		}
++	                    		}
++
++		                    	if (delay_count < 20){							// If 20ms No Result, then cal_retry++
++		                        	// ============TXIQK Check==============
++		                        	TX_fail = ODM_GetBBReg(pDM_Odm, 0xd40, BIT(12));
++		                        	if (~TX_fail){
++		                            	ODM_Write4Byte(pDM_Odm, 0xeb8, 0x02000000);
++			                            TX_X1[cal] = ODM_GetBBReg(pDM_Odm, 0xd40, 0x07ff0000)<<21;
++			                            ODM_Write4Byte(pDM_Odm, 0xeb8, 0x04000000);
++			                            TX_Y1[cal] = ODM_GetBBReg(pDM_Odm, 0xd40, 0x07ff0000)<<21;
++			                            TX1IQKOK = TRUE;
++							/*
++								int			reg1 = 0, reg2 = 0, Image_Power = 0;
++								ODM_Write4Byte(pDM_Odm, 0xeb8, 0x01000000);
++								reg1 = ODM_GetBBReg(pDM_Odm, 0xd40, 0xffffffff);
++								ODM_Write4Byte(pDM_Odm, 0xeb8, 0x02000000);
++								reg2 = ODM_GetBBReg(pDM_Odm, 0xd40, 0x0000001f);
++								Image_Power = (reg2<<32)+reg1;
++								DbgPrint("Before PW = %d\n", Image_Power);
++								ODM_Write4Byte(pDM_Odm, 0xeb8, 0x03000000);
++								reg1 = ODM_GetBBReg(pDM_Odm, 0xd40, 0xffffffff);
++								ODM_Write4Byte(pDM_Odm, 0xeb8, 0x04000000);
++								reg2 = ODM_GetBBReg(pDM_Odm, 0xd40, 0x0000001f);
++								Image_Power = (reg2<<32)+reg1;
++								DbgPrint("After PW = %d\n", Image_Power);
++							*/
++			                            break;
++						}
++						else{
++					        	TX1IQKOK = FALSE;
++					        	cal_retry++;
++					        	if (cal_retry == 10){
++						       	break;
++						       }
++						}
++					}
++		                    	else {
++		                   		TX1IQKOK = FALSE;
++		                        	cal_retry++;
++		                        	if (cal_retry == 10){
++		                            	break;
++		                        	}
++		                    	}
++		        	}
++						ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TXB_cal_retry = %d\n", cal_retry));
++			}
++
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++			ODM_SetRFReg(pDM_Odm, Path, 0x58, 0x7fe00, ODM_GetRFReg(pDM_Odm, Path, 0x8, 0xffc00)); // Load LOK
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++			
++			if (TX1IQKOK == FALSE)
++			    	break;				// TXK fail, Don't do RXK
++			
++
++
++				if (VDF_enable == 1){
++				ODM_SetBBReg(pDM_Odm, 0xee8, BIT(31), 0x0);    // TX VDF Disable
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RXVDF Start\n"));
++				
++					//====== RX IQK ======
++			            	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++					ODM_SetRFReg(pDM_Odm, Path, 0xef, bRFRegOffsetMask, 0x80000);
++					ODM_SetRFReg(pDM_Odm, Path, 0x30, bRFRegOffsetMask, 0x30000);
++					ODM_SetRFReg(pDM_Odm, Path, 0x31, bRFRegOffsetMask, 0x3f7ff);
++					ODM_SetRFReg(pDM_Odm, Path, 0x32, bRFRegOffsetMask, 0xfe7bf);
++					ODM_SetRFReg(pDM_Odm, Path, 0x8f, bRFRegOffsetMask, 0x88001);
++					ODM_SetRFReg(pDM_Odm, Path, 0x65, bRFRegOffsetMask, 0x931d0);
++					ODM_SetRFReg(pDM_Odm, Path, 0xef, bRFRegOffsetMask, 0x00000);
++					
++					ODM_SetBBReg(pDM_Odm, 0x978, BIT(31), 0x1);
++					ODM_SetBBReg(pDM_Odm, 0x97c, BIT(31), 0x0);
++					ODM_Write4Byte(pDM_Odm, 0x984, 0x0046a911);
++					ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++					ODM_Write4Byte(pDM_Odm, 0xe88, 0x02140119);
++					ODM_Write4Byte(pDM_Odm, 0xe8c, 0x28161420);
++					
++				for (k = 0;k <= 2; k++){
++					ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++					ODM_SetBBReg(pDM_Odm, 0x978, 0x03FF8000, (VDF_X[k])>>21&0x000007ff);
++			              ODM_SetBBReg(pDM_Odm, 0x978, 0x000007FF, (VDF_Y[k])>>21&0x000007ff);
++					ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++					switch (k){
++						case 0:
++							{
++							ODM_Write4Byte(pDM_Odm, 0xe80, 0x38008c38);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++							ODM_Write4Byte(pDM_Odm, 0xe84, 0x18008c38);// RX_Tone_idx[9:0], RxK_Mask[29]
++							ODM_SetBBReg(pDM_Odm, 0xee8, BIT(30), 0x0);
++							}
++							break;
++						case 1:
++							{
++							ODM_Write4Byte(pDM_Odm, 0xe80, 0x28008c38);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++							ODM_Write4Byte(pDM_Odm, 0xe84, 0x08008c38);// RX_Tone_idx[9:0], RxK_Mask[29]
++							ODM_SetBBReg(pDM_Odm, 0xee8, BIT(30), 0x0);
++							}
++							break;
++						case 2:
++							{
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("VDF_Y[1] = %x;;;VDF_Y[0] = %x\n", VDF_Y[1]>>21 & 0x00007ff, VDF_Y[0]>>21 & 0x00007ff));
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("VDF_X[1] = %x;;;VDF_X[0] = %x\n", VDF_X[1]>>21 & 0x00007ff, VDF_X[0]>>21 & 0x00007ff));
++							Rx_dt[cal] = (VDF_Y[1]>>20)-(VDF_Y[0]>>20);
++							ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Rx_dt = %d\n", Rx_dt[cal]));
++							Rx_dt[cal] = ((16*Rx_dt[cal])*10000/13823);
++							Rx_dt[cal] = (Rx_dt[cal] >> 1 )+(Rx_dt[cal] & BIT(0));
++							ODM_Write4Byte(pDM_Odm, 0xe80, 0x38008c20);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++							ODM_Write4Byte(pDM_Odm, 0xe84, 0x18008c20);// RX_Tone_idx[9:0], RxK_Mask[29]
++							ODM_SetBBReg(pDM_Odm, 0xee8, 0x00003fff, Rx_dt[cal] & 0x00003fff);
++							}
++							break;
++						default:
++							break;
++					}
++					
++					
++					if (k==2){
++						ODM_SetBBReg(pDM_Odm, 0xee8, BIT(30), 0x1);  //RX VDF Enable
++						}
++					ODM_Write4Byte(pDM_Odm, 0xeb8, 0x00100000);// cb8[20] ±N SI/PI ¨?¥??v¤?µ¹ iqk_dpk module
++					
++					cal_retry = 0;
++					while(1){
++						// one shot
++						ODM_Write4Byte(pDM_Odm, 0x980, 0xfa000000);
++						ODM_Write4Byte(pDM_Odm, 0x980, 0xf8000000);
++
++						delay_ms(10); //Delay 10ms
++						ODM_Write4Byte(pDM_Odm, 0xeb8, 0x00000000);
++						delay_count = 0;
++						while (1){
++							IQK_ready = ODM_GetBBReg(pDM_Odm, 0xd40, BIT(10));
++							if ((IQK_ready)||(delay_count>20)){
++								break;
++							}
++							else{
++								delay_ms(1);
++								delay_count++;
++							}
++						}
++							
++						if (delay_count < 20){	// If 20ms No Result, then cal_retry++
++							// ============RXIQK Check==============
++							RX_fail = ODM_GetBBReg(pDM_Odm, 0xd40, BIT(11));
++							if (RX_fail == 0){
++								ODM_Write4Byte(pDM_Odm, 0xeb8, 0x06000000);
++								VDF_X[k] = ODM_GetBBReg(pDM_Odm, 0xd40, 0x07ff0000)<<21;
++								ODM_Write4Byte(pDM_Odm, 0xeb8, 0x08000000);
++								VDF_Y[k] = ODM_GetBBReg(pDM_Odm, 0xd40, 0x07ff0000)<<21;
++								RX1IQKOK = TRUE;
++								break;
++							}
++							else{
++								ODM_SetBBReg(pDM_Odm, 0xe10, 0x000003ff, 0x200>>1);
++								ODM_SetBBReg(pDM_Odm, 0xe10, 0x03ff0000, 0x0>>1);
++								RX1IQKOK = FALSE;
++								cal_retry++;
++								if (cal_retry == 10)
++									break;
++									
++							}
++						}
++						else{
++				                    	RX1IQKOK = FALSE;
++				                    	cal_retry++;
++				                    	if (cal_retry == 10)
++				                     	break;
++			                		}
++			            	}
++					
++				}
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RXB_VDF_cal_retry = %d\n", cal_retry));
++					RX_X1[cal] = VDF_X[k-1] ;
++					RX_Y1[cal] = VDF_Y[k-1];
++				ODM_SetBBReg(pDM_Odm, 0xee8, BIT(31), 0x1);    // TX VDF Enable
++				}
++				else{
++					//====== RX mode TXK (RXK Step 1) ======
++					ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++					ODM_SetRFReg(pDM_Odm, Path, 0xef, bRFRegOffsetMask, 0x80000);
++					ODM_SetRFReg(pDM_Odm, Path, 0x30, bRFRegOffsetMask, 0x30000);
++					ODM_SetRFReg(pDM_Odm, Path, 0x31, bRFRegOffsetMask, 0x3f7ff);
++					ODM_SetRFReg(pDM_Odm, Path, 0x32, bRFRegOffsetMask, 0xfe7bf);
++					ODM_SetRFReg(pDM_Odm, Path, 0x8f, bRFRegOffsetMask, 0x88001);
++					ODM_SetRFReg(pDM_Odm, Path, 0x65, bRFRegOffsetMask, 0x931d0);
++					ODM_SetRFReg(pDM_Odm, Path, 0xef, bRFRegOffsetMask, 0x00000);
++
++					ODM_SetBBReg(pDM_Odm, 0x978, 0x03FF8000, (TX_X1[cal])>>21&0x000007ff);
++					ODM_SetBBReg(pDM_Odm, 0x978, 0x000007FF, (TX_Y1[cal])>>21&0x000007ff);
++					ODM_SetBBReg(pDM_Odm, 0x978, BIT(31), 0x1);
++					ODM_SetBBReg(pDM_Odm, 0x97c, BIT(31), 0x0);
++					ODM_Write4Byte(pDM_Odm, 0x90c, 0x00008000);
++					ODM_Write4Byte(pDM_Odm, 0x984, 0x0046a911);
++
++					ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++					ODM_Write4Byte(pDM_Odm, 0xe80, 0x38008c15);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++					ODM_Write4Byte(pDM_Odm, 0xe84, 0x18008c15);// RX_Tone_idx[9:0], RxK_Mask[29]
++					ODM_Write4Byte(pDM_Odm, 0xe88, 0x02140119);
++					ODM_Write4Byte(pDM_Odm, 0xe8c, 0x28161cc0);
++					ODM_Write4Byte(pDM_Odm, 0xeb8, 0x00100000);// cb8[20] ???SI/PI 使用�????iqk_dpk module
++
++					cal_retry = 0;
++	                    		while(1){
++		                        	// one shot
++		                        	ODM_Write4Byte(pDM_Odm, 0x980, 0xfa000000);
++		                        	ODM_Write4Byte(pDM_Odm, 0x980, 0xf8000000);
++
++						delay_ms(10); //Delay 10ms
++	                        		ODM_Write4Byte(pDM_Odm, 0xeb8, 0x00000000);
++	                        		delay_count = 0;
++	                        		while (1){
++			                            IQK_ready = ODM_GetBBReg(pDM_Odm, 0xd40, BIT(10));
++			                            if ((IQK_ready)||(delay_count>20)){
++			                                	break;
++		                            	}
++							else{
++		                                		delay_ms(1);
++		                                		delay_count++;
++		                            	}
++		                        	}
++
++		                        	if (delay_count < 20){							// If 20ms No Result, then cal_retry++
++		                            // ============TXIQK Check==============
++								RX_fail = ODM_GetBBReg(pDM_Odm, 0xd40, BIT(11));
++								if (RX_fail == 0){
++									ODM_Write4Byte(pDM_Odm, 0xeb8, 0x06000000);
++									RX_X1[cal] = ODM_GetBBReg(pDM_Odm, 0xd40, 0x07ff0000)<<21;
++									ODM_Write4Byte(pDM_Odm, 0xeb8, 0x08000000);
++									RX_Y1[cal] = ODM_GetBBReg(pDM_Odm, 0xd40, 0x07ff0000)<<21;
++									RX1IQKOK = TRUE;
++									break;
++								}
++		                            	else{
++									ODM_SetBBReg(pDM_Odm, 0xe10, 0x000003ff, 0x200>>1);
++									ODM_SetBBReg(pDM_Odm, 0xe10, 0x03ff0000, 0x0>>1);
++									RX1IQKOK = FALSE;
++									cal_retry++;
++		                                		if (cal_retry == 10)
++										break;
++									}
++								}
++							else{
++								RX1IQKOK = FALSE;
++								cal_retry++;
++	                            		if (cal_retry == 10)
++									break;
++								}
++							}
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RXB_cal_retry = %d\n", cal_retry));
++						}
++
++
++            		if (RX1IQKOK)
++							RX_Average++;
++            		
++                	
++			if (TX1IQKOK)
++						TX_Average++;
++			
++				}
++				break;		
++			default:
++				break;					
++		}
++		cal++;
++	}
++	// FillIQK Result
++	switch (Path){
++		case ODM_RF_PATH_A:
++			{
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("========Path_A =======\n"));
++		if (TX_Average == 0){
++			_IQK_TX_FillIQC_8812A(pDM_Odm, Path, 0x200, 0x0);
++					break;
++		}
++				for (i = 0; i < TX_Average; i++){
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TX_X0[%d] = %x ;; TX_Y0[%d] = %x\n", i, (TX_X0[i])>>21&0x000007ff, i, (TX_Y0[i])>>21&0x000007ff));
++		}
++		for (i = 0; i < TX_Average; i++){
++			for (ii = i+1; ii <TX_Average; ii++){
++				dx = (TX_X0[i]>>21) - (TX_X0[ii]>>21);
++				if (dx < 4 && dx > -4){
++					dy = (TX_Y0[i]>>21) - (TX_Y0[ii]>>21);
++						if (dy < 4 && dy > -4){
++							TX_X = ((TX_X0[i]>>21) + (TX_X0[ii]>>21))/2;
++							TX_Y = ((TX_Y0[i]>>21) + (TX_Y0[ii]>>21))/2;
++							if (*pDM_Odm->pBandWidth == 2){
++								Tx_dt[0] = (Tx_dt[i] + Tx_dt[ii])/2;
++							}
++							TX_finish = 1;
++							break;
++						}
++				}
++			}
++			if (TX_finish == 1)
++				break;
++		}	
++		if (*pDM_Odm->pBandWidth == 2){
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 0 --> Page C
++			ODM_SetBBReg(pDM_Odm, 0xce8, 0x3fff0000, Tx_dt[0] & 0x00003fff);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++		}
++		if (TX_finish == 1){
++				_IQK_TX_FillIQC_8812A(pDM_Odm, Path, TX_X, TX_Y);
++		}
++		else{
++			_IQK_TX_FillIQC_8812A(pDM_Odm, Path, 0x200, 0x0);
++		}
++		if (RX_Average == 0){
++			_IQK_RX_FillIQC_8812A(pDM_Odm, Path, 0x200, 0x0);
++			break;
++		}
++
++				for (i = 0; i < RX_Average; i++){
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX_X0[%d] = %x ;; RX_Y0[%d] = %x\n", i, (RX_X0[i])>>21&0x000007ff, i, (RX_Y0[i])>>21&0x000007ff));
++		}
++		for (i = 0; i < RX_Average; i++){
++			for (ii = i+1; ii <RX_Average; ii++){
++				dx = (RX_X0[i]>>21) - (RX_X0[ii]>>21);
++				if (dx < 4 && dx > -4){
++					dy = (RX_Y0[i]>>21) - (RX_Y0[ii]>>21);
++						if (dy < 4 && dy > -4){
++							RX_X = ((RX_X0[i]>>21) + (RX_X0[ii]>>21))/2;
++							RX_Y = ((RX_Y0[i]>>21) + (RX_Y0[ii]>>21))/2;
++							if (*pDM_Odm->pBandWidth == 2){
++								Rx_dt[0] = (Rx_dt[i] + Rx_dt[ii])/2;
++							}
++							RX_finish = 1;
++							break;
++						}
++				}
++			}
++			if (RX_finish == 1)
++				break;
++		}
++		if (*pDM_Odm->pBandWidth == 2){
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 0 --> Page C
++			ODM_SetBBReg(pDM_Odm, 0xce8, 0x00003fff, Rx_dt[0] & 0x00003fff);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++		}
++		if (RX_finish == 1){
++				_IQK_RX_FillIQC_8812A(pDM_Odm, Path, RX_X, RX_Y);
++			}
++		else{
++			_IQK_RX_FillIQC_8812A(pDM_Odm, Path, 0x200, 0x0);
++		}
++		if (TX_finish && RX_finish){
++			pRFCalibrateInfo->bNeedIQK = FALSE;
++			pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][0] = ((TX_X & 0x000007ff) << 16) + (TX_Y & 0x000007ff); 	//Path A TX
++			pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][1] = ((RX_X & 0x000007ff) << 16) + (RX_Y & 0x000007ff); 	//Path A RX
++			
++			if (*pDM_Odm->pBandWidth == 2){
++				ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 0 --> Page C
++				pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][4] = ODM_Read4Byte( pDM_Odm, 0xce8);	//Path B VDF
++				ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++			}	
++		}
++		
++	}
++			break;
++		case ODM_RF_PATH_B:
++			{
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("========Path_B =======\n"));
++		if (TX_Average == 0){
++			_IQK_TX_FillIQC_8812A(pDM_Odm, Path, 0x200, 0x0);
++		    	break;
++		}
++
++				for (i = 0; i < TX_Average; i++){
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TX_X1[%d] = %x ;; TX_Y1[%d] = %x\n", i, (TX_X1[i])>>21&0x000007ff, i, (TX_Y1[i])>>21&0x000007ff));
++			}
++		for (i = 0; i < TX_Average; i++){
++			for (ii = i+1; ii <TX_Average; ii++){
++				dx = (TX_X1[i]>>21) - (TX_X1[ii]>>21);
++				if (dx < 4 && dx > -4){
++					dy = (TX_Y1[i]>>21) - (TX_Y1[ii]>>21);
++						if (dy < 4 && dy > -4){
++							TX_X = ((TX_X1[i]>>21) + (TX_X1[ii]>>21))/2;
++							TX_Y = ((TX_Y1[i]>>21) + (TX_Y1[ii]>>21))/2;
++							if (*pDM_Odm->pBandWidth == 2){
++								Tx_dt[0] = (Tx_dt[i] + Tx_dt[ii])/2;
++							}
++							TX_finish = 1;
++							break;
++						}
++				}
++			}
++			if (TX_finish == 1)
++				break;
++		}	
++		if (*pDM_Odm->pBandWidth == 2){
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 0 --> Page C
++			ODM_SetBBReg(pDM_Odm, 0xee8, 0x3fff0000, Tx_dt[0] & 0x00003fff);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++		}
++		if (TX_finish == 1){
++		_IQK_TX_FillIQC_8812A(pDM_Odm, Path, TX_X, TX_Y);
++		}
++		else{
++			_IQK_TX_FillIQC_8812A(pDM_Odm, Path, 0x200, 0x0);
++		}
++		if (RX_Average == 0){
++			_IQK_RX_FillIQC_8812A(pDM_Odm, Path, 0x200, 0x0);
++			break;
++		}
++			
++                for (i = 0; i < RX_Average; i++){
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX_X1[%d] = %x ;; RX_Y1[%d] = %x\n", i, (RX_X1[i])>>21&0x000007ff, i, (RX_Y1[i])>>21&0x000007ff));
++		}
++		for (i = 0; i < RX_Average; i++){
++			for (ii = i+1; ii <RX_Average; ii++){
++				dx = (RX_X1[i]>>21) - (RX_X1[ii]>>21);
++				if (dx < 4 && dx > -4){
++					dy = (RX_Y1[i]>>21) - (RX_Y1[ii]>>21);
++						if (dy < 4 && dy > -4){
++							RX_X = ((RX_X1[i]>>21) + (RX_X1[ii]>>21))/2;
++							RX_Y = ((RX_Y1[i]>>21) + (RX_Y1[ii]>>21))/2;
++							if (*pDM_Odm->pBandWidth == 2){
++								Rx_dt[0] = (Rx_dt[i] + Rx_dt[ii])/2;
++							}
++							RX_finish = 1;
++							break;
++                }
++				}
++			}
++			if (RX_finish == 1)
++				break;
++		}	
++		if (*pDM_Odm->pBandWidth == 2){
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 0 --> Page C
++			ODM_SetBBReg(pDM_Odm, 0xee8, 0x00003fff, Rx_dt[0] & 0x00003fff);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++		}
++		if (RX_finish == 1){
++                _IQK_RX_FillIQC_8812A(pDM_Odm, Path, RX_X, RX_Y);
++            }
++		else{
++			_IQK_RX_FillIQC_8812A(pDM_Odm, Path, 0x200, 0x0);
++		}
++		if (TX_finish && RX_finish){
++			pRFCalibrateInfo->bNeedIQK = FALSE;
++			pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][2] = ((TX_X & 0x000007ff) << 16) + (TX_Y & 0x000007ff); 	//Path B TX
++			pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][3] = ((RX_X & 0x000007ff) << 16) + (RX_Y & 0x000007ff); 	//Path B RX
++			
++			if (*pDM_Odm->pBandWidth == 2){
++				ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 0 --> Page C
++				pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][5] = ODM_Read4Byte( pDM_Odm, 0xee8);	//Path B VDF
++				ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++			}	
++		}
++		
++	}
++			break;
++		default:
++			break;
++	}
++
++	if (!TX_finish && !RX_finish)
++		priv->pshare->IQK_fail_cnt++;
++}
++
++#define MACBB_REG_NUM 10
++#define AFE_REG_NUM 14
++#define RF_REG_NUM 3
++/*
++IQK v1.0 update TXIQK high power parameter 
++*/
++VOID	
++phy_IQCalibrate_8812A(
++	IN PDM_ODM_T		pDM_Odm,
++	IN u1Byte		Channel
++		)
++{
++	u4Byte	MACBB_backup[MACBB_REG_NUM], AFE_backup[AFE_REG_NUM], RFA_backup[RF_REG_NUM], RFB_backup[RF_REG_NUM];
++	u4Byte 	Backup_MACBB_REG[MACBB_REG_NUM] = {0x520, 0x550, 0x808, 0x838, 0x90c, 0xb00, 0xc00, 0xe00, 0x8c4, 0x82c}; 
++	u4Byte 	Backup_AFE_REG[AFE_REG_NUM] = {0xc5c, 0xc60, 0xc64, 0xc68, 0xcb8, 0xcb0, 0xcb4,
++		       	                                                   0xe5c, 0xe60, 0xe64, 0xe68, 0xeb8, 0xeb0, 0xeb4}; 
++	u4Byte 	Backup_RF_REG[RF_REG_NUM] = {0x65, 0x8f, 0x0}; 
++	u1Byte 	chnlIdx = ODM_GetRightChnlPlaceforIQK(Channel);
++
++	_IQK_BackupMacBB_8812A(pDM_Odm, MACBB_backup, Backup_MACBB_REG, MACBB_REG_NUM);
++	_IQK_BackupAFE_8812A(pDM_Odm, AFE_backup, Backup_AFE_REG, AFE_REG_NUM);
++	_IQK_BackupRF_8812A(pDM_Odm, RFA_backup, RFB_backup, Backup_RF_REG, RF_REG_NUM);
++
++	_IQK_ConfigureMAC_8812A(pDM_Odm);
++	_IQK_Tx_8812A(pDM_Odm, ODM_RF_PATH_A, chnlIdx);
++	_IQK_RestoreRF_8812A(pDM_Odm, ODM_RF_PATH_A, Backup_RF_REG, RFA_backup, RF_REG_NUM);
++
++	_IQK_Tx_8812A(pDM_Odm, ODM_RF_PATH_B, chnlIdx);
++	_IQK_RestoreRF_8812A(pDM_Odm, ODM_RF_PATH_B, Backup_RF_REG, RFB_backup, RF_REG_NUM);
++
++	_IQK_RestoreAFE_8812A(pDM_Odm, AFE_backup, Backup_AFE_REG, AFE_REG_NUM);
++	_IQK_RestoreMacBB_8812A(pDM_Odm, MACBB_backup, Backup_MACBB_REG, MACBB_REG_NUM);
++
++	//_IQK_Exit_8812A(pDM_Odm);
++	//_IQK_TX_CheckResult_8812A
++
++}
++
++
++VOID	
++	phy_LCCalibrate_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm,
++#else
++			IN	PADAPTER	pAdapter,
++#endif
++			IN	BOOLEAN		is2T
++			)
++{
++	u1Byte	tmpReg;
++	u4Byte	RF_Amode=0, RF_Bmode=0, LC_Cal;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif	
++	//Check continuous TX and Packet TX
++	tmpReg = ODM_Read1Byte(pDM_Odm, 0xd03);
++
++	if((tmpReg&0x70) != 0)			//Deal with contisuous TX case
++		ODM_Write1Byte(pDM_Odm, 0xd03, tmpReg&0x8F);	//disable all continuous TX
++	else							// Deal with Packet TX case
++		ODM_Write1Byte(pDM_Odm, REG_TXPAUSE, 0xFF);			// block all queues
++
++	if((tmpReg&0x70) != 0)
++	{
++		//1. Read original RF mode
++		//Path-A
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		RF_Amode = PHY_QueryRFReg(pAdapter, RF_PATH_A, RF_AC, bMask12Bits);
++
++		//Path-B
++		if(is2T)
++			RF_Bmode = PHY_QueryRFReg(pAdapter, RF_PATH_B, RF_AC, bMask12Bits);	
++#else
++		RF_Amode = ODM_GetRFReg(pDM_Odm, RF_PATH_A, RF_AC, bMask12Bits);
++
++		//Path-B
++		if(is2T)
++			RF_Bmode = ODM_GetRFReg(pDM_Odm, RF_PATH_B, RF_AC, bMask12Bits);	
++#endif	
++
++		//2. Set RF mode = standby mode
++		//Path-A
++		ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_AC, bMask12Bits, (RF_Amode&0x8FFFF)|0x10000);
++
++		//Path-B
++		if(is2T)
++			ODM_SetRFReg(pDM_Odm, RF_PATH_B, RF_AC, bMask12Bits, (RF_Bmode&0x8FFFF)|0x10000);			
++	}
++
++	//3. Read RF reg18
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	LC_Cal = PHY_QueryRFReg(pAdapter, RF_PATH_A, RF_CHNLBW, bMask12Bits);
++#else
++	LC_Cal = ODM_GetRFReg(pDM_Odm, RF_PATH_A, RF_CHNLBW, bMask12Bits);
++#endif	
++
++	//4. Set LC calibration begin	bit15
++	ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_CHNLBW, bMask12Bits, LC_Cal|0x08000);
++
++	ODM_delay_ms(100);		
++
++
++	//Restore original situation
++	if((tmpReg&0x70) != 0)	//Deal with contisuous TX case 
++	{  
++		//Path-A
++		ODM_Write1Byte(pDM_Odm, 0xd03, tmpReg);
++		ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_AC, bMask12Bits, RF_Amode);
++
++		//Path-B
++		if(is2T)
++			ODM_SetRFReg(pDM_Odm, RF_PATH_B, RF_AC, bMask12Bits, RF_Bmode);
++	}
++	else // Deal with Packet TX case
++	{
++		ODM_Write1Byte(pDM_Odm, REG_TXPAUSE, 0x00);	
++	}
++}
++
++//Analog Pre-distortion calibration
++#define		APK_BB_REG_NUM	8
++#define		APK_CURVE_REG_NUM 4
++#define		PATH_NUM		2
++
++VOID	
++	phy_APCalibrate_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm,
++#else
++			IN	PADAPTER	pAdapter,
++#endif
++			IN	s1Byte 		delta,
++			IN	BOOLEAN		is2T
++			)
++{
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif
++	u4Byte 			regD[PATH_NUM];
++	u4Byte			tmpReg, index, offset,  apkbound;
++	u1Byte			path, i, pathbound = PATH_NUM;		
++	u4Byte			BB_backup[APK_BB_REG_NUM];
++	u4Byte			BB_REG[APK_BB_REG_NUM] = {	
++		rFPGA1_TxBlock, 	rOFDM0_TRxPathEnable, 
++		rFPGA0_RFMOD, 	rOFDM0_TRMuxPar, 
++		rFPGA0_XCD_RFInterfaceSW,	rFPGA0_XAB_RFInterfaceSW, 
++		rFPGA0_XA_RFInterfaceOE, 	rFPGA0_XB_RFInterfaceOE	};
++	u4Byte			BB_AP_MODE[APK_BB_REG_NUM] = {	
++		0x00000020, 0x00a05430, 0x02040000, 
++		0x000800e4, 0x00204000 };
++	u4Byte			BB_normal_AP_MODE[APK_BB_REG_NUM] = {	
++		0x00000020, 0x00a05430, 0x02040000, 
++		0x000800e4, 0x22204000 };						
++
++	u4Byte			AFE_backup[IQK_ADDA_REG_NUM];
++	u4Byte			AFE_REG[IQK_ADDA_REG_NUM] = {	
++		rFPGA0_XCD_SwitchControl, 	rBlue_Tooth, 	
++		rRx_Wait_CCA, 		rTx_CCK_RFON,
++		rTx_CCK_BBON, 	rTx_OFDM_RFON, 	
++		rTx_OFDM_BBON, 	rTx_To_Rx,
++		rTx_To_Tx, 		rRx_CCK, 	
++		rRx_OFDM, 		rRx_Wait_RIFS,
++		rRx_TO_Rx, 		rStandby, 	
++		rSleep, 			rPMPD_ANAEN };
++
++	u4Byte			MAC_backup[IQK_MAC_REG_NUM];
++	u4Byte			MAC_REG[IQK_MAC_REG_NUM] = {
++		REG_TXPAUSE, 		REG_BCN_CTRL,	
++		REG_BCN_CTRL_1,	REG_GPIO_MUXCFG};
++
++	u4Byte			APK_RF_init_value[PATH_NUM][APK_BB_REG_NUM] = {
++		{0x0852c, 0x1852c, 0x5852c, 0x1852c, 0x5852c},
++		{0x2852e, 0x0852e, 0x3852e, 0x0852e, 0x0852e}
++	};	
++
++	u4Byte			APK_normal_RF_init_value[PATH_NUM][APK_BB_REG_NUM] = {
++		{0x0852c, 0x0a52c, 0x3a52c, 0x5a52c, 0x5a52c},	//path settings equal to path b settings
++		{0x0852c, 0x0a52c, 0x5a52c, 0x5a52c, 0x5a52c}
++	};
++
++	u4Byte			APK_RF_value_0[PATH_NUM][APK_BB_REG_NUM] = {
++		{0x52019, 0x52014, 0x52013, 0x5200f, 0x5208d},
++		{0x5201a, 0x52019, 0x52016, 0x52033, 0x52050}
++	};
++
++	u4Byte			APK_normal_RF_value_0[PATH_NUM][APK_BB_REG_NUM] = {
++		{0x52019, 0x52017, 0x52010, 0x5200d, 0x5206a},	//path settings equal to path b settings
++		{0x52019, 0x52017, 0x52010, 0x5200d, 0x5206a}
++	};
++
++	u4Byte			AFE_on_off[PATH_NUM] = {
++		0x04db25a4, 0x0b1b25a4};	//path A on path B off / path A off path B on
++
++	u4Byte			APK_offset[PATH_NUM] = {
++		rConfig_AntA, rConfig_AntB};
++
++	u4Byte			APK_normal_offset[PATH_NUM] = {
++		rConfig_Pmpd_AntA, rConfig_Pmpd_AntB};
++
++	u4Byte			APK_value[PATH_NUM] = {
++		0x92fc0000, 0x12fc0000};					
++
++	u4Byte			APK_normal_value[PATH_NUM] = {
++		0x92680000, 0x12680000};					
++
++	s1Byte			APK_delta_mapping[APK_BB_REG_NUM][13] = {
++		{-4, -3, -2, -2, -1, -1, 0, 1, 2, 3, 4, 5, 6},
++		{-4, -3, -2, -2, -1, -1, 0, 1, 2, 3, 4, 5, 6},											
++		{-6, -4, -2, -2, -1, -1, 0, 1, 2, 3, 4, 5, 6},
++		{-1, -1, -1, -1, -1, -1, 0, 1, 2, 3, 4, 5, 6},
++		{-11, -9, -7, -5, -3, -1, 0, 0, 0, 0, 0, 0, 0}
++	};
++
++	u4Byte			APK_normal_setting_value_1[13] = {
++		0x01017018, 0xf7ed8f84, 0x1b1a1816, 0x2522201e, 0x322e2b28,
++		0x433f3a36, 0x5b544e49, 0x7b726a62, 0xa69a8f84, 0xdfcfc0b3,
++		0x12680000, 0x00880000, 0x00880000
++	};
++
++	u4Byte			APK_normal_setting_value_2[16] = {
++		0x01c7021d, 0x01670183, 0x01000123, 0x00bf00e2, 0x008d00a3,
++		0x0068007b, 0x004d0059, 0x003a0042, 0x002b0031, 0x001f0025,
++		0x0017001b, 0x00110014, 0x000c000f, 0x0009000b, 0x00070008,
++		0x00050006
++	};
++
++	u4Byte			APK_result[PATH_NUM][APK_BB_REG_NUM];	//val_1_1a, val_1_2a, val_2a, val_3a, val_4a
++	//	u4Byte			AP_curve[PATH_NUM][APK_CURVE_REG_NUM];
++
++	s4Byte			BB_offset, delta_V, delta_offset;
++
++#if defined(MP_DRIVER) && (MP_DRIVER == 1)
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);	
++#else
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->MptCtx);	
++#endif
++	pMptCtx->APK_bound[0] = 45;
++	pMptCtx->APK_bound[1] = 52;		
++
++#endif
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("==>phy_APCalibrate_8812A() delta %d\n", delta));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("AP Calibration for %s\n", (is2T ? "2T2R" : "1T1R")));
++	if(!is2T)
++		pathbound = 1;
++
++	//2 FOR NORMAL CHIP SETTINGS
++
++	// Temporarily do not allow normal driver to do the following settings because these offset
++	// and value will cause RF internal PA to be unpredictably disabled by HW, such that RF Tx signal
++	// will disappear after disable/enable card many times on 88CU. RF SD and DD have not find the
++	// root cause, so we remove these actions temporarily. Added by tynli and SD3 Allen. 2010.05.31.
++#if !defined(MP_DRIVER) || (MP_DRIVER != 1)
++	return;
++#endif
++	//settings adjust for normal chip
++	for(index = 0; index < PATH_NUM; index ++)
++	{
++		APK_offset[index] = APK_normal_offset[index];
++		APK_value[index] = APK_normal_value[index];
++		AFE_on_off[index] = 0x6fdb25a4;
++	}
++
++	for(index = 0; index < APK_BB_REG_NUM; index ++)
++	{
++		for(path = 0; path < pathbound; path++)
++		{
++			APK_RF_init_value[path][index] = APK_normal_RF_init_value[path][index];
++			APK_RF_value_0[path][index] = APK_normal_RF_value_0[path][index];
++		}
++		BB_AP_MODE[index] = BB_normal_AP_MODE[index];
++	}			
++
++	apkbound = 6;
++
++	//save BB default value
++	for(index = 0; index < APK_BB_REG_NUM ; index++)
++	{
++		if(index == 0)		//skip 
++			continue;				
++		BB_backup[index] = ODM_GetBBReg(pDM_Odm, BB_REG[index], bMaskDWord);
++	}
++
++	//save MAC default value													
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	_PHY_SaveMACRegisters_8812A(pAdapter, MAC_REG, MAC_backup);
++
++	//save AFE default value
++	_PHY_SaveADDARegisters_8812A(pAdapter, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);
++#else
++	_PHY_SaveMACRegisters_8812A(pDM_Odm, MAC_REG, MAC_backup);
++
++	//save AFE default value
++	_PHY_SaveADDARegisters_8812A(pDM_Odm, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);
++#endif
++
++	for(path = 0; path < pathbound; path++)
++	{
++
++
++		if(path == RF_PATH_A)
++		{
++			//path A APK
++			//load APK setting
++			//path-A		
++			offset = rPdp_AntA;
++			for(index = 0; index < 11; index ++)			
++			{
++				ODM_SetBBReg(pDM_Odm, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8812A() offset 0x%x value 0x%x\n", offset, ODM_GetBBReg(pDM_Odm, offset, bMaskDWord))); 	
++
++				offset += 0x04;
++			}
++
++			ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x12680000);
++
++			offset = rConfig_AntA;
++			for(; index < 13; index ++) 		
++			{
++				ODM_SetBBReg(pDM_Odm, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8812A() offset 0x%x value 0x%x\n", offset, ODM_GetBBReg(pDM_Odm, offset, bMaskDWord))); 	
++
++				offset += 0x04;
++			}	
++
++			//page-B1
++			ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x400000);
++
++			//path A
++			offset = rPdp_AntA;
++			for(index = 0; index < 16; index++)
++			{
++				ODM_SetBBReg(pDM_Odm, offset, bMaskDWord, APK_normal_setting_value_2[index]);		
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8812A() offset 0x%x value 0x%x\n", offset, ODM_GetBBReg(pDM_Odm, offset, bMaskDWord))); 	
++
++				offset += 0x04;
++			}				
++			ODM_SetBBReg(pDM_Odm,  rFPGA0_IQK, 0xffffff00, 0);							
++		}
++		else if(path == RF_PATH_B)
++		{
++			//path B APK
++			//load APK setting
++			//path-B		
++			offset = rPdp_AntB;
++			for(index = 0; index < 10; index ++)			
++			{
++				ODM_SetBBReg(pDM_Odm, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8812A() offset 0x%x value 0x%x\n", offset, ODM_GetBBReg(pDM_Odm, offset, bMaskDWord))); 	
++
++				offset += 0x04;
++			}
++			ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntA, bMaskDWord, 0x12680000);			
++			ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x12680000);
++
++			offset = rConfig_AntA;
++			index = 11;
++			for(; index < 13; index ++) //offset 0xb68, 0xb6c		
++			{
++				ODM_SetBBReg(pDM_Odm, offset, bMaskDWord, APK_normal_setting_value_1[index]);
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("phy_APCalibrate_8812A() offset 0x%x value 0x%x\n", offset, ODM_GetBBReg(pDM_Odm, offset, bMaskDWord))); 	
++
++				offset += 0x04;
++			}	
++
++			//page-B1
++			ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x400000);
++
++			//path B
++			offset = 0xb60;
++			for(index = 0; index < 16; index++)
++			{
++				ODM_SetBBReg(pDM_Odm, offset, bMaskDWord, APK_normal_setting_value_2[index]);		
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("phy_APCalibrate_8812A() offset 0x%x value 0x%x\n", offset, ODM_GetBBReg(pDM_Odm, offset, bMaskDWord))); 	
++
++				offset += 0x04;
++			}				
++			ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0);							
++		}
++
++		//save RF default value
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		regD[path] = PHY_QueryRFReg(pAdapter, path, RF_TXBIAS_A, bMaskDWord);
++#else
++		regD[path] = ODM_GetRFReg(pDM_Odm, path, RF_TXBIAS_A, bMaskDWord);
++#endif
++
++		//Path A AFE all on, path B AFE All off or vise versa
++		for(index = 0; index < IQK_ADDA_REG_NUM ; index++)
++			ODM_SetBBReg(pDM_Odm, AFE_REG[index], bMaskDWord, AFE_on_off[path]);
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8812A() offset 0xe70 %x\n", ODM_GetBBReg(pDM_Odm, rRx_Wait_CCA, bMaskDWord)));		
++
++		//BB to AP mode
++		if(path == 0)
++		{				
++			for(index = 0; index < APK_BB_REG_NUM ; index++)
++			{
++
++				if(index == 0)		//skip 
++					continue;			
++				else if (index < 5)
++					ODM_SetBBReg(pDM_Odm, BB_REG[index], bMaskDWord, BB_AP_MODE[index]);
++				else if (BB_REG[index] == 0x870)
++					ODM_SetBBReg(pDM_Odm, BB_REG[index], bMaskDWord, BB_backup[index]|BIT10|BIT26);
++				else
++					ODM_SetBBReg(pDM_Odm, BB_REG[index], BIT10, 0x0);					
++			}
++
++			ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_A, bMaskDWord, 0x01008c00);			
++			ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_A, bMaskDWord, 0x01008c00);					
++		}
++		else		//path B
++		{
++			ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_B, bMaskDWord, 0x01008c00);			
++			ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_B, bMaskDWord, 0x01008c00);					
++
++		}
++
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8812A() offset 0x800 %x\n", ODM_GetBBReg(pDM_Odm, 0x800, bMaskDWord)));				
++
++		//MAC settings
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		_PHY_MACSettingCalibration_8812A(pAdapter, MAC_REG, MAC_backup);
++#else
++		_PHY_MACSettingCalibration_8812A(pDM_Odm, MAC_REG, MAC_backup);
++#endif
++
++		if(path == RF_PATH_A)	//Path B to standby mode
++		{
++			ODM_SetRFReg(pDM_Odm, RF_PATH_B, RF_AC, bMaskDWord, 0x10000);			
++		}
++		else			//Path A to standby mode
++		{
++			ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_AC, bMaskDWord, 0x10000);			
++			ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_MODE1, bMaskDWord, 0x1000f);			
++			ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_MODE2, bMaskDWord, 0x20103);						
++		}
++
++		delta_offset = ((delta+14)/2);
++		if(delta_offset < 0)
++			delta_offset = 0;
++		else if (delta_offset > 12)
++			delta_offset = 12;
++
++		//AP calibration
++		for(index = 0; index < APK_BB_REG_NUM; index++)
++		{
++			if(index != 1)	//only DO PA11+PAD01001, AP RF setting
++				continue;
++
++			tmpReg = APK_RF_init_value[path][index];
++#if 1			
++			if(!pDM_Odm->RFCalibrateInfo.bAPKThermalMeterIgnore)
++			{
++				BB_offset = (tmpReg & 0xF0000) >> 16;
++
++				if(!(tmpReg & BIT15)) //sign bit 0
++				{
++					BB_offset = -BB_offset;
++				}
++
++				delta_V = APK_delta_mapping[index][delta_offset];
++
++				BB_offset += delta_V;
++
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8812A() APK index %d tmpReg 0x%x delta_V %d delta_offset %d\n", index, tmpReg, (int)delta_V, (int)delta_offset));
++
++				if(BB_offset < 0)
++				{
++					tmpReg = tmpReg & (~BIT15);
++					BB_offset = -BB_offset;
++				}
++				else
++				{
++					tmpReg = tmpReg | BIT15;
++				}
++				tmpReg = (tmpReg & 0xFFF0FFFF) | (BB_offset << 16);
++			}
++#endif
++
++			ODM_SetRFReg(pDM_Odm, path, RF_IPA_A, bMaskDWord, 0x8992e);
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8812A() offset 0xc %x\n", PHY_QueryRFReg(pAdapter, path, RF_IPA_A, bMaskDWord)));		
++			ODM_SetRFReg(pDM_Odm, path, RF_AC, bMaskDWord, APK_RF_value_0[path][index]);
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("phy_APCalibrate_8812A() offset 0x0 %x\n", PHY_QueryRFReg(pAdapter, path, RF_AC, bMaskDWord)));		
++			ODM_SetRFReg(pDM_Odm, path, RF_TXBIAS_A, bMaskDWord, tmpReg);
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8812A() offset 0xd %x\n", PHY_QueryRFReg(pAdapter, path, RF_TXBIAS_A, bMaskDWord)));					
++#else
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8812A() offset 0xc %x\n", ODM_GetRFReg(pDM_Odm, path, RF_IPA_A, bMaskDWord)));		
++			ODM_SetRFReg(pDM_Odm, path, RF_AC, bMaskDWord, APK_RF_value_0[path][index]);
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("phy_APCalibrate_8812A() offset 0x0 %x\n", ODM_GetRFReg(pDM_Odm, path, RF_AC, bMaskDWord)));		
++			ODM_SetRFReg(pDM_Odm, path, RF_TXBIAS_A, bMaskDWord, tmpReg);
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8812A() offset 0xd %x\n", ODM_GetRFReg(pDM_Odm, path, RF_TXBIAS_A, bMaskDWord)));					
++#endif
++
++			// PA11+PAD01111, one shot	
++			i = 0;
++			do
++			{
++				ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x800000);
++				{
++					ODM_SetBBReg(pDM_Odm, APK_offset[path], bMaskDWord, APK_value[0]);		
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8812A() offset 0x%x value 0x%x\n", APK_offset[path], ODM_GetBBReg(pDM_Odm, APK_offset[path], bMaskDWord)));
++					ODM_delay_ms(3);				
++					ODM_SetBBReg(pDM_Odm, APK_offset[path], bMaskDWord, APK_value[1]);
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8812A() offset 0x%x value 0x%x\n", APK_offset[path], ODM_GetBBReg(pDM_Odm, APK_offset[path], bMaskDWord)));
++
++					ODM_delay_ms(20);
++				}
++				ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0);
++
++				if(path == RF_PATH_A)
++					tmpReg = ODM_GetBBReg(pDM_Odm, rAPK, 0x03E00000);
++				else
++					tmpReg = ODM_GetBBReg(pDM_Odm, rAPK, 0xF8000000);
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_APCalibrate_8812A() offset 0xbd8[25:21] %x\n", tmpReg));		
++
++
++				i++;
++			}
++			while(tmpReg > apkbound && i < 4);
++
++			APK_result[path][index] = tmpReg;
++		}
++	}
++
++	//reload MAC default value	
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	_PHY_ReloadMACRegisters_8812A(pAdapter, MAC_REG, MAC_backup);
++#else
++	_PHY_ReloadMACRegisters_8812A(pDM_Odm, MAC_REG, MAC_backup);
++#endif
++
++	//reload BB default value	
++	for(index = 0; index < APK_BB_REG_NUM ; index++)
++	{
++
++		if(index == 0)		//skip 
++			continue;					
++		ODM_SetBBReg(pDM_Odm, BB_REG[index], bMaskDWord, BB_backup[index]);
++	}
++
++	//reload AFE default value
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	_PHY_ReloadADDARegisters_8812A(pAdapter, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);
++#else
++	_PHY_ReloadADDARegisters_8812A(pDM_Odm, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);
++#endif
++
++	//reload RF path default value
++	for(path = 0; path < pathbound; path++)
++	{
++		ODM_SetRFReg(pDM_Odm, path, 0xd, bMaskDWord, regD[path]);
++		if(path == RF_PATH_B)
++		{
++			ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_MODE1, bMaskDWord, 0x1000f);			
++			ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_MODE2, bMaskDWord, 0x20101);						
++		}
++
++		//note no index == 0
++		if (APK_result[path][1] > 6)
++			APK_result[path][1] = 6;
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("apk path %d result %d 0x%x \t", path, 1, APK_result[path][1]));					
++	}
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("\n"));
++
++
++	for(path = 0; path < pathbound; path++)
++	{
++		ODM_SetRFReg(pDM_Odm, path, 0x3, bMaskDWord, 
++				((APK_result[path][1] << 15) | (APK_result[path][1] << 10) | (APK_result[path][1] << 5) | APK_result[path][1]));
++		if(path == RF_PATH_A)
++			ODM_SetRFReg(pDM_Odm, path, 0x4, bMaskDWord, 
++					((APK_result[path][1] << 15) | (APK_result[path][1] << 10) | (0x00 << 5) | 0x05));		
++		else
++			ODM_SetRFReg(pDM_Odm, path, 0x4, bMaskDWord, 
++					((APK_result[path][1] << 15) | (APK_result[path][1] << 10) | (0x02 << 5) | 0x05));							
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			ODM_SetRFReg(pDM_Odm, path, RF_BS_PA_APSET_G9_G11, bMaskDWord, 
++					((0x08 << 15) | (0x08 << 10) | (0x08 << 5) | 0x08));			
++#endif		
++	}
++
++	pDM_Odm->RFCalibrateInfo.bAPKdone = TRUE;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<==phy_APCalibrate_8812A()\n"));
++}
++
++
++
++#define		DP_BB_REG_NUM		7
++#define		DP_RF_REG_NUM		1
++#define		DP_RETRY_LIMIT		10
++#define		DP_PATH_NUM		2
++#define		DP_DPK_NUM			3
++#define		DP_DPK_VALUE_NUM	2
++
++
++#if 0 //FOR_8812_IQK
++VOID
++PHY_IQCalibrate_8812A(
++		IN	PADAPTER	pAdapter,
++		IN	BOOLEAN 	bReCovery
++		)
++{
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);	
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;	
++#else  // (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;	
++#endif
++#endif	
++#if (MP_DRIVER == 1)
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->MptCtx);	
++	#else// (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);		
++	#endif	
++#endif//(MP_DRIVER == 1)
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE) )
++	if (ODM_CheckPowerStatus(pAdapter) == FALSE)
++		return;
++#endif
++
++#if MP_DRIVER == 1	
++	if( ! (pMptCtx->bSingleTone || pMptCtx->bCarrierSuppression) )
++#endif		
++	phy_IQCalibrate_8812A(pDM_Odm);
++
++
++}
++#endif
++
++VOID
++PHY_LCCalibrate_8812A(
++		IN PDM_ODM_T		pDM_Odm
++		)
++{
++#if 0
++	BOOLEAN 		bStartContTx = FALSE, bSingleTone = FALSE, bCarrierSuppression = FALSE;
++	u4Byte			timeout = 2000, timecount = 0;
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);	
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;	
++#else  // (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;	
++#endif
++
++#if (MP_DRIVER == 1)
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->MptCtx);	
++#else// (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);		
++#endif	
++#endif//(MP_DRIVER == 1)
++#endif	
++
++
++
++
++#if MP_DRIVER == 1	
++	bStartContTx = pMptCtx->bStartContTx;
++	bSingleTone = pMptCtx->bSingleTone;
++	bCarrierSuppression = pMptCtx->bCarrierSuppression;	
++#endif
++
++
++#ifdef DISABLE_BB_RF
++	return;
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_AP))
++	if(!(pDM_Odm->SupportAbility & ODM_RF_CALIBRATION))
++	{
++		return;
++	}
++#endif	
++	// 20120213<Kordan> Turn on when continuous Tx to pass lab testing. (required by Edlu)
++	if(bSingleTone || bCarrierSuppression)
++		return;
++
++	while(*(pDM_Odm->pbScanInProcess) && timecount < timeout)
++	{
++		ODM_delay_ms(50);
++		timecount += 50;
++	}	
++
++	pDM_Odm->RFCalibrateInfo.bLCKInProgress = TRUE;
++
++	//ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("LCK:Start!!!interface %d currentband %x delay %d ms\n", pDM_Odm->interfaceIndex, pHalData->CurrentBandType92D, timecount));
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++
++	if(IS_2T2R(pHalData->VersionID))
++	{
++		phy_LCCalibrate_8812A(pAdapter, TRUE);
++	}
++	else
++#endif		
++	{
++		// For 88C 1T1R
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		phy_LCCalibrate_8812A(pAdapter, FALSE);
++#else
++		phy_LCCalibrate_8812A(pDM_Odm, FALSE);
++#endif		
++	}
++
++	pDM_Odm->RFCalibrateInfo.bLCKInProgress = FALSE;
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("LCK:Finish!!!interface %d\n", pDM_Odm->InterfaceIndex));
++#endif
++}
++
++VOID
++	PHY_APCalibrate_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm,
++#else
++			IN	PADAPTER	pAdapter,
++#endif
++			IN	s1Byte 		delta	
++			)
++{
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif	
++#ifdef DISABLE_BB_RF
++	return;
++#endif
++
++	return;
++#if (DM_ODM_SUPPORT_TYPE & (ODM_CE|ODM_AP))
++	if(!(pDM_Odm->SupportAbility & ODM_RF_CALIBRATION))
++	{
++		return;
++	}
++#endif	
++
++#if defined(FOR_BRAZIL_PRETEST) && (FOR_BRAZIL_PRETEST != 1)
++	if(pDM_Odm->RFCalibrateInfo.bAPKdone)
++#endif		
++		return;
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	if(IS_92C_SERIAL( pHalData->VersionID)){
++		phy_APCalibrate_8812A(pAdapter, delta, TRUE);
++	}
++	else
++#endif
++	{
++		// For 88C 1T1R
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		phy_APCalibrate_8812A(pAdapter, delta, FALSE);
++#else
++		phy_APCalibrate_8812A(pDM_Odm, delta, FALSE);
++#endif
++	}
++}
++	VOID phy_SetRFPathSwitch_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm,
++#else
++			IN	PADAPTER	pAdapter,
++#endif
++			IN	BOOLEAN		bMain,
++			IN	BOOLEAN		is2T
++			)
++{
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#elif (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	if(!pAdapter->bHWInitReady)	
++#elif  (DM_ODM_SUPPORT_TYPE == ODM_CE)
++		if(pAdapter->hw_init_completed == _FALSE)
++#endif
++		{
++			u1Byte	u1bTmp;
++			u1bTmp = ODM_Read1Byte(pDM_Odm, REG_LEDCFG2) | BIT7;
++			ODM_Write1Byte(pDM_Odm, REG_LEDCFG2, u1bTmp);
++			//ODM_SetBBReg(pDM_Odm, REG_LEDCFG0, BIT23, 0x01);
++			ODM_SetBBReg(pDM_Odm, rFPGA0_XAB_RFParameter, BIT13, 0x01);
++		}
++
++#endif		
++
++	if(is2T)	//92C
++	{
++		if(bMain)
++			ODM_SetBBReg(pDM_Odm, rFPGA0_XB_RFInterfaceOE, BIT5|BIT6, 0x1);	//92C_Path_A			
++		else
++			ODM_SetBBReg(pDM_Odm, rFPGA0_XB_RFInterfaceOE, BIT5|BIT6, 0x2);	//BT							
++	}
++	else			//88C
++	{
++
++		if(bMain)
++			ODM_SetBBReg(pDM_Odm, rFPGA0_XA_RFInterfaceOE, BIT8|BIT9, 0x2);	//Main
++		else
++			ODM_SetBBReg(pDM_Odm, rFPGA0_XA_RFInterfaceOE, BIT8|BIT9, 0x1);	//Aux		
++	}	
++}
++	VOID PHY_SetRFPathSwitch_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm,
++#else
++			IN	PADAPTER	pAdapter,
++#endif
++			IN	BOOLEAN		bMain
++			)
++{
++	//HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++#ifdef DISABLE_BB_RF
++	return;
++#endif
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	if (IS_92C_SERIAL(pHalData->VersionID))
++	{
++		phy_SetRFPathSwitch_8812A(pAdapter, bMain, TRUE);
++	}
++	else
++#endif		
++	{
++		// For 88C 1T1R
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		phy_SetRFPathSwitch_8812A(pAdapter, bMain, FALSE);
++#else
++		phy_SetRFPathSwitch_8812A(pDM_Odm, bMain, FALSE);
++#endif
++	}
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++//digital predistortion
++VOID	
++	phy_DigitalPredistortion_8812A(
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN	PADAPTER	pAdapter,
++#else
++			IN PDM_ODM_T	pDM_Odm,
++#endif
++			IN	BOOLEAN		is2T
++			)
++{
++#if (RT_PLATFORM == PLATFORM_WINDOWS)
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif	
++
++	u4Byte			tmpReg, tmpReg2, index,  i;		
++	u1Byte			path, pathbound = PATH_NUM;
++	u4Byte			AFE_backup[IQK_ADDA_REG_NUM];
++	u4Byte			AFE_REG[IQK_ADDA_REG_NUM] = {	
++		rFPGA0_XCD_SwitchControl, 	rBlue_Tooth, 	
++		rRx_Wait_CCA, 		rTx_CCK_RFON,
++		rTx_CCK_BBON, 	rTx_OFDM_RFON, 	
++		rTx_OFDM_BBON, 	rTx_To_Rx,
++		rTx_To_Tx, 		rRx_CCK, 	
++		rRx_OFDM, 		rRx_Wait_RIFS,
++		rRx_TO_Rx, 		rStandby, 	
++		rSleep, 			rPMPD_ANAEN };
++
++	u4Byte			BB_backup[DP_BB_REG_NUM];	
++	u4Byte			BB_REG[DP_BB_REG_NUM] = {
++		rOFDM0_TRxPathEnable, rFPGA0_RFMOD, 
++		rOFDM0_TRMuxPar, 	rFPGA0_XCD_RFInterfaceSW,
++		rFPGA0_XAB_RFInterfaceSW, rFPGA0_XA_RFInterfaceOE, 
++		rFPGA0_XB_RFInterfaceOE};						
++	u4Byte			BB_settings[DP_BB_REG_NUM] = {
++		0x00a05430, 0x02040000, 0x000800e4, 0x22208000, 
++		0x0, 0x0, 0x0};	
++
++	u4Byte			RF_backup[DP_PATH_NUM][DP_RF_REG_NUM];
++	u4Byte			RF_REG[DP_RF_REG_NUM] = {
++		RF_TXBIAS_A};
++
++	u4Byte			MAC_backup[IQK_MAC_REG_NUM];
++	u4Byte			MAC_REG[IQK_MAC_REG_NUM] = {
++		REG_TXPAUSE, 		REG_BCN_CTRL,	
++		REG_BCN_CTRL_1,	REG_GPIO_MUXCFG};
++
++	u4Byte			Tx_AGC[DP_DPK_NUM][DP_DPK_VALUE_NUM] = {
++		{0x1e1e1e1e, 0x03901e1e},
++		{0x18181818, 0x03901818},
++		{0x0e0e0e0e, 0x03900e0e}
++	};
++
++	u4Byte			AFE_on_off[PATH_NUM] = {
++		0x04db25a4, 0x0b1b25a4};	//path A on path B off / path A off path B on
++
++	u1Byte			RetryCount = 0;
++
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("==>phy_DigitalPredistortion_8812A()\n"));
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("phy_DigitalPredistortion_8812A for %s %s\n", (is2T ? "2T2R" : "1T1R")));
++
++	//save BB default value
++	for(index=0; index<DP_BB_REG_NUM; index++)
++		BB_backup[index] = ODM_GetBBReg(pDM_Odm, BB_REG[index], bMaskDWord);
++
++	//save MAC default value
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	_PHY_SaveMACRegisters_8812A(pAdapter, BB_REG, MAC_backup);
++#else
++	_PHY_SaveMACRegisters_8812A(pDM_Odm, BB_REG, MAC_backup);
++#endif	
++
++	//save RF default value
++	for(path=0; path<DP_PATH_NUM; path++)
++	{
++		for(index=0; index<DP_RF_REG_NUM; index++)
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			RF_backup[path][index] = PHY_QueryRFReg(pAdapter, path, RF_REG[index], bMaskDWord);	
++#else
++		RF_backup[path][index] = ODM_GetRFReg(pAdapter, path, RF_REG[index], bMaskDWord);	
++#endif	
++	}	
++
++	//save AFE default value
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	_PHY_SaveADDARegisters_8812A(pAdapter, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);
++#else
++	RF_backup[path][index] = ODM_GetRFReg(pAdapter, path, RF_REG[index], bMaskDWord);	
++#endif	
++
++	//Path A/B AFE all on
++	for(index = 0; index < IQK_ADDA_REG_NUM ; index++)
++		ODM_SetBBReg(pDM_Odm, AFE_REG[index], bMaskDWord, 0x6fdb25a4);
++
++	//BB register setting
++	for(index = 0; index < DP_BB_REG_NUM; index++)
++	{
++		if(index < 4)
++			ODM_SetBBReg(pDM_Odm, BB_REG[index], bMaskDWord, BB_settings[index]);
++		else if (index == 4)
++			ODM_SetBBReg(pDM_Odm,BB_REG[index], bMaskDWord, BB_backup[index]|BIT10|BIT26);			
++		else
++			ODM_SetBBReg(pDM_Odm, BB_REG[index], BIT10, 0x00);			
++	}
++
++	//MAC register setting
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	_PHY_MACSettingCalibration_8812A(pAdapter, MAC_REG, MAC_backup);
++#else
++	_PHY_MACSettingCalibration_8812A(pDM_Odm, MAC_REG, MAC_backup);
++#endif	
++
++	//PAGE-E IQC setting	
++	ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_A, bMaskDWord, 0x01008c00); 		
++	ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_A, bMaskDWord, 0x01008c00);	
++	ODM_SetBBReg(pDM_Odm, rTx_IQK_Tone_B, bMaskDWord, 0x01008c00);	
++	ODM_SetBBReg(pDM_Odm, rRx_IQK_Tone_B, bMaskDWord, 0x01008c00);	
++
++	//path_A DPK
++	//Path B to standby mode
++	ODM_SetRFReg(pDM_Odm, RF_PATH_B, RF_AC, bMaskDWord, 0x10000);
++
++	// PA gain = 11 & PAD1 => tx_agc 1f ~11
++	// PA gain = 11 & PAD2 => tx_agc 10~0e
++	// PA gain = 01 => tx_agc 0b~0d
++	// PA gain = 00 => tx_agc 0a~00
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x400000);	
++	ODM_SetBBReg(pDM_Odm, 0xbc0, bMaskDWord, 0x0005361f);		
++	ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0);	
++
++	//do inner loopback DPK 3 times 
++	for(i = 0; i < 3; i++)
++	{
++		//PA gain = 11 & PAD2 => tx_agc = 0x0f/0x0c/0x07
++		for(index = 0; index < 3; index++)
++			ODM_SetBBReg(pDM_Odm, 0xe00+index*4, bMaskDWord, Tx_AGC[i][0]);			
++		ODM_SetBBReg(pDM_Odm,0xe00+index*4, bMaskDWord, Tx_AGC[i][1]);			
++		for(index = 0; index < 4; index++)
++			ODM_SetBBReg(pDM_Odm,0xe10+index*4, bMaskDWord, Tx_AGC[i][0]);			
++
++		// PAGE_B for Path-A inner loopback DPK setting
++		ODM_SetBBReg(pDM_Odm,rPdp_AntA, bMaskDWord, 0x02097098);
++		ODM_SetBBReg(pDM_Odm,rPdp_AntA_4, bMaskDWord, 0xf76d9f84);
++		ODM_SetBBReg(pDM_Odm,rConfig_Pmpd_AntA, bMaskDWord, 0x0004ab87);
++		ODM_SetBBReg(pDM_Odm,rConfig_AntA, bMaskDWord, 0x00880000);		
++
++		//----send one shot signal----//
++		// Path A
++		ODM_SetBBReg(pDM_Odm,rConfig_Pmpd_AntA, bMaskDWord, 0x80047788);
++		ODM_delay_ms(1);
++		ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntA, bMaskDWord, 0x00047788);
++		ODM_delay_ms(50);
++	}
++
++	//PA gain = 11 => tx_agc = 1a
++	for(index = 0; index < 3; index++)		
++		ODM_SetBBReg(pDM_Odm,0xe00+index*4, bMaskDWord, 0x34343434);	
++	ODM_SetBBReg(pDM_Odm,0xe08+index*4, bMaskDWord, 0x03903434);	
++	for(index = 0; index < 4; index++)		
++		ODM_SetBBReg(pDM_Odm,0xe10+index*4, bMaskDWord, 0x34343434);	
++
++	//====================================
++	// PAGE_B for Path-A DPK setting
++	//====================================
++	// open inner loopback @ b00[19]:10 od 0xb00 0x01097018
++	ODM_SetBBReg(pDM_Odm,rPdp_AntA, bMaskDWord, 0x02017098);
++	ODM_SetBBReg(pDM_Odm,rPdp_AntA_4, bMaskDWord, 0xf76d9f84);
++	ODM_SetBBReg(pDM_Odm,rConfig_Pmpd_AntA, bMaskDWord, 0x0004ab87);
++	ODM_SetBBReg(pDM_Odm,rConfig_AntA, bMaskDWord, 0x00880000);		
++
++	//rf_lpbk_setup
++	//1.rf 00:5205a, rf 0d:0e52c
++	ODM_SetRFReg(pDM_Odm, RF_PATH_A, 0x0c, bMaskDWord, 0x8992b);
++	ODM_SetRFReg(pDM_Odm, RF_PATH_A, 0x0d, bMaskDWord, 0x0e52c); 	
++	ODM_SetRFReg(pDM_Odm, RF_PATH_A, 0x00, bMaskDWord, 0x5205a );		
++
++	//----send one shot signal----//
++	// Path A
++	ODM_SetBBReg(pDM_Odm,rConfig_Pmpd_AntA, bMaskDWord, 0x800477c0);
++	ODM_delay_ms(1);
++	ODM_SetBBReg(pDM_Odm,rConfig_Pmpd_AntA, bMaskDWord, 0x000477c0);
++	ODM_delay_ms(50);
++
++	while(RetryCount < DP_RETRY_LIMIT && !pDM_Odm->RFCalibrateInfo.bDPPathAOK)
++	{
++		//----read back measurement results----//
++		ODM_SetBBReg(pDM_Odm, rPdp_AntA, bMaskDWord, 0x0c297018);
++		tmpReg = ODM_GetBBReg(pDM_Odm, 0xbe0, bMaskDWord);
++		ODM_delay_ms(10);
++		ODM_SetBBReg(pDM_Odm, rPdp_AntA, bMaskDWord, 0x0c29701f);
++		tmpReg2 = ODM_GetBBReg(pDM_Odm, 0xbe8, bMaskDWord);
++		ODM_delay_ms(10);
++
++		tmpReg = (tmpReg & bMaskHWord) >> 16;
++		tmpReg2 = (tmpReg2 & bMaskHWord) >> 16;		
++		if(tmpReg < 0xf0 || tmpReg > 0x105 || tmpReg2 > 0xff )
++		{
++			ODM_SetBBReg(pDM_Odm, rPdp_AntA, bMaskDWord, 0x02017098);
++
++			ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x800000);
++			ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0);
++			ODM_delay_ms(1);
++			ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntA, bMaskDWord, 0x800477c0);
++			ODM_delay_ms(1);			
++			ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntA, bMaskDWord, 0x000477c0);			
++			ODM_delay_ms(50);			
++			RetryCount++;			
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("path A DPK RetryCount %d 0xbe0[31:16] %x 0xbe8[31:16] %x\n", RetryCount, tmpReg, tmpReg2));										
++		}
++		else
++		{
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("path A DPK Sucess\n"));		
++			pDM_Odm->RFCalibrateInfo.bDPPathAOK = TRUE;
++			break;
++		}		
++	}
++	RetryCount = 0;
++
++	//DPP path A
++	if(pDM_Odm->RFCalibrateInfo.bDPPathAOK)
++	{	
++		// DP settings
++		ODM_SetBBReg(pDM_Odm, rPdp_AntA, bMaskDWord, 0x01017098);
++		ODM_SetBBReg(pDM_Odm, rPdp_AntA_4, bMaskDWord, 0x776d9f84);
++		ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntA, bMaskDWord, 0x0004ab87);
++		ODM_SetBBReg(pDM_Odm, rConfig_AntA, bMaskDWord, 0x00880000);
++		ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x400000);
++
++		for(i=rPdp_AntA; i<=0xb3c; i+=4)
++		{
++			ODM_SetBBReg(pDM_Odm, i, bMaskDWord, 0x40004000);	
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("path A ofsset = 0x%x\n", i));		
++		}
++
++		//pwsf
++		ODM_SetBBReg(pDM_Odm, 0xb40, bMaskDWord, 0x40404040);	
++		ODM_SetBBReg(pDM_Odm, 0xb44, bMaskDWord, 0x28324040);			
++		ODM_SetBBReg(pDM_Odm, 0xb48, bMaskDWord, 0x10141920);					
++
++		for(i=0xb4c; i<=0xb5c; i+=4)
++		{
++			ODM_SetBBReg(pDM_Odm, i, bMaskDWord, 0x0c0c0c0c);	
++		}		
++
++		//TX_AGC boundary
++		ODM_SetBBReg(pDM_Odm, 0xbc0, bMaskDWord, 0x0005361f);	
++		ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0);					
++	}
++	else
++	{
++		ODM_SetBBReg(pDM_Odm, rPdp_AntA, bMaskDWord, 0x00000000);	
++		ODM_SetBBReg(pDM_Odm, rPdp_AntA_4, bMaskDWord, 0x00000000);			
++	}
++
++	//DPK path B
++	if(is2T)
++	{
++		//Path A to standby mode
++		ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_AC, bMaskDWord, 0x10000);
++
++		// LUTs => tx_agc
++		// PA gain = 11 & PAD1, => tx_agc 1f ~11
++		// PA gain = 11 & PAD2, => tx_agc 10 ~0e
++		// PA gain = 01 => tx_agc 0b ~0d
++		// PA gain = 00 => tx_agc 0a ~00
++		ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x400000);	
++		ODM_SetBBReg(pDM_Odm, 0xbc4, bMaskDWord, 0x0005361f);		
++		ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0);	
++
++		//do inner loopback DPK 3 times 
++		for(i = 0; i < 3; i++)
++		{
++			//PA gain = 11 & PAD2 => tx_agc = 0x0f/0x0c/0x07
++			for(index = 0; index < 4; index++)
++				ODM_SetBBReg(pDM_Odm, 0x830+index*4, bMaskDWord, Tx_AGC[i][0]);			
++			for(index = 0; index < 2; index++)
++				ODM_SetBBReg(pDM_Odm, 0x848+index*4, bMaskDWord, Tx_AGC[i][0]);			
++			for(index = 0; index < 2; index++)
++				ODM_SetBBReg(pDM_Odm, 0x868+index*4, bMaskDWord, Tx_AGC[i][0]);			
++
++			// PAGE_B for Path-A inner loopback DPK setting
++			ODM_SetBBReg(pDM_Odm, rPdp_AntB, bMaskDWord, 0x02097098);
++			ODM_SetBBReg(pDM_Odm, rPdp_AntB_4, bMaskDWord, 0xf76d9f84);
++			ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x0004ab87);
++			ODM_SetBBReg(pDM_Odm, rConfig_AntB, bMaskDWord, 0x00880000);		
++
++			//----send one shot signal----//
++			// Path B
++			ODM_SetBBReg(pDM_Odm,rConfig_Pmpd_AntB, bMaskDWord, 0x80047788);
++			ODM_delay_ms(1);
++			ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x00047788);
++			ODM_delay_ms(50);
++		}
++
++		// PA gain = 11 => tx_agc = 1a	
++		for(index = 0; index < 4; index++)
++			ODM_SetBBReg(pDM_Odm, 0x830+index*4, bMaskDWord, 0x34343434);	
++		for(index = 0; index < 2; index++)
++			ODM_SetBBReg(pDM_Odm, 0x848+index*4, bMaskDWord, 0x34343434);	
++		for(index = 0; index < 2; index++)
++			ODM_SetBBReg(pDM_Odm, 0x868+index*4, bMaskDWord, 0x34343434);	
++
++		// PAGE_B for Path-B DPK setting
++		ODM_SetBBReg(pDM_Odm, rPdp_AntB, bMaskDWord, 0x02017098);		
++		ODM_SetBBReg(pDM_Odm, rPdp_AntB_4, bMaskDWord, 0xf76d9f84);		
++		ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x0004ab87);		
++		ODM_SetBBReg(pDM_Odm, rConfig_AntB, bMaskDWord, 0x00880000);		
++
++		// RF lpbk switches on
++		ODM_SetBBReg(pDM_Odm, 0x840, bMaskDWord, 0x0101000f);		
++		ODM_SetBBReg(pDM_Odm, 0x840, bMaskDWord, 0x01120103);		
++
++		//Path-B RF lpbk
++		ODM_SetRFReg(pDM_Odm, RF_PATH_B, 0x0c, bMaskDWord, 0x8992b);
++		ODM_SetRFReg(pDM_Odm, RF_PATH_B, 0x0d, bMaskDWord, 0x0e52c);
++		ODM_SetRFReg(pDM_Odm, RF_PATH_B, RF_AC, bMaskDWord, 0x5205a); 
++
++		//----send one shot signal----//
++		ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x800477c0);		
++		ODM_delay_ms(1);	
++		ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x000477c0);		
++		ODM_delay_ms(50);
++
++		while(RetryCount < DP_RETRY_LIMIT && !pDM_Odm->RFCalibrateInfo.bDPPathBOK)
++		{
++			//----read back measurement results----//
++			ODM_SetBBReg(pDM_Odm, rPdp_AntB, bMaskDWord, 0x0c297018);		
++			tmpReg = ODM_GetBBReg(pDM_Odm, 0xbf0, bMaskDWord);
++			ODM_SetBBReg(pDM_Odm, rPdp_AntB, bMaskDWord, 0x0c29701f);		
++			tmpReg2 = ODM_GetBBReg(pDM_Odm, 0xbf8, bMaskDWord);
++
++			tmpReg = (tmpReg & bMaskHWord) >> 16;
++			tmpReg2 = (tmpReg2 & bMaskHWord) >> 16;
++
++			if(tmpReg < 0xf0 || tmpReg > 0x105 || tmpReg2 > 0xff)
++			{
++				ODM_SetBBReg(pDM_Odm, rPdp_AntB, bMaskDWord, 0x02017098);		
++
++				ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x800000);
++				ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0);
++				ODM_delay_ms(1);
++				ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x800477c0);		
++				ODM_delay_ms(1);	
++				ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x000477c0);		
++				ODM_delay_ms(50);			
++				RetryCount++;			
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("path B DPK RetryCount %d 0xbf0[31:16] %x, 0xbf8[31:16] %x\n", RetryCount , tmpReg, tmpReg2));														
++			}
++			else
++			{
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("path B DPK Success\n"));						
++				pDM_Odm->RFCalibrateInfo.bDPPathBOK = TRUE;
++				break;
++			}						
++		}
++
++		//DPP path B
++		if(pDM_Odm->RFCalibrateInfo.bDPPathBOK)
++		{
++			// DP setting
++			// LUT by SRAM
++			ODM_SetBBReg(pDM_Odm, rPdp_AntB, bMaskDWord, 0x01017098);
++			ODM_SetBBReg(pDM_Odm, rPdp_AntB_4, bMaskDWord, 0x776d9f84);
++			ODM_SetBBReg(pDM_Odm, rConfig_Pmpd_AntB, bMaskDWord, 0x0004ab87);
++			ODM_SetBBReg(pDM_Odm, rConfig_AntB, bMaskDWord, 0x00880000);
++
++			ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0x400000);
++			for(i=0xb60; i<=0xb9c; i+=4)
++			{
++				ODM_SetBBReg(pDM_Odm, i, bMaskDWord, 0x40004000);	
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("path B ofsset = 0x%x\n", i));
++			}
++
++			// PWSF
++			ODM_SetBBReg(pDM_Odm, 0xba0, bMaskDWord, 0x40404040);	
++			ODM_SetBBReg(pDM_Odm, 0xba4, bMaskDWord, 0x28324050);			
++			ODM_SetBBReg(pDM_Odm, 0xba8, bMaskDWord, 0x0c141920);					
++
++			for(i=0xbac; i<=0xbbc; i+=4)
++			{
++				ODM_SetBBReg(pDM_Odm, i, bMaskDWord, 0x0c0c0c0c);	
++			}		
++
++			// tx_agc boundary
++			ODM_SetBBReg(pDM_Odm, 0xbc4, bMaskDWord, 0x0005361f);	
++			ODM_SetBBReg(pDM_Odm, rFPGA0_IQK, 0xffffff00, 0);			
++
++		}
++		else
++		{
++			ODM_SetBBReg(pDM_Odm, rPdp_AntB, bMaskDWord, 0x00000000);	
++			ODM_SetBBReg(pDM_Odm, rPdp_AntB_4, bMaskDWord, 0x00000000);					
++		}
++	}
++
++	//reload BB default value
++	for(index=0; index<DP_BB_REG_NUM; index++)
++		ODM_SetBBReg(pDM_Odm, BB_REG[index], bMaskDWord, BB_backup[index]);
++
++	//reload RF default value
++	for(path = 0; path<DP_PATH_NUM; path++)
++	{
++		for( i = 0 ; i < DP_RF_REG_NUM ; i++){
++			ODM_SetRFReg(pDM_Odm, path, RF_REG[i], bMaskDWord, RF_backup[path][i]);
++		}
++	}
++	ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_MODE1, bMaskDWord, 0x1000f);	//standby mode
++	ODM_SetRFReg(pDM_Odm, RF_PATH_A, RF_MODE2, bMaskDWord, 0x20101);		//RF lpbk switches off
++
++	//reload AFE default value
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	_PHY_ReloadADDARegisters_8812A(pAdapter, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);	
++
++	//reload MAC default value	
++	_PHY_ReloadMACRegisters_8812A(pAdapter, MAC_REG, MAC_backup);
++#else
++	_PHY_ReloadADDARegisters_8812A(pDM_Odm, AFE_REG, AFE_backup, IQK_ADDA_REG_NUM);	
++
++	//reload MAC default value	
++	_PHY_ReloadMACRegisters_8812A(pDM_Odm, MAC_REG, MAC_backup);
++#endif		
++
++	pDM_Odm->RFCalibrateInfo.bDPdone = TRUE;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<==phy_DigitalPredistortion_8812A()\n"));
++#endif		
++}
++
++VOID
++	phy_DigitalPredistortion_8812A_8812A(
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN	PADAPTER	pAdapter
++#else
++			IN PDM_ODM_T	pDM_Odm
++#endif		
++			)
++{
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif	
++#ifdef DISABLE_BB_RF
++	return;
++#endif
++
++	return;
++
++	if(pDM_Odm->RFCalibrateInfo.bDPdone)
++		return;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++
++	if(IS_92C_SERIAL( pHalData->VersionID)){
++		phy_DigitalPredistortion_8812A(pAdapter, TRUE);
++	}
++	else
++#endif		
++	{
++		// For 88C 1T1R
++		phy_DigitalPredistortion_8812A(pAdapter, FALSE);
++	}
++}
++
++
++
++//return value TRUE => Main; FALSE => Aux
++
++	BOOLEAN phy_QueryRFPathSwitch_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm,
++#else
++			IN	PADAPTER	pAdapter,
++#endif
++			IN	BOOLEAN		is2T
++			)
++{
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++#endif
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#endif
++#endif	
++	if(!pAdapter->bHWInitReady)
++	{
++		u1Byte	u1bTmp;
++		u1bTmp = ODM_Read1Byte(pDM_Odm, REG_LEDCFG2) | BIT7;
++		ODM_Write1Byte(pDM_Odm, REG_LEDCFG2, u1bTmp);
++		//ODM_SetBBReg(pDM_Odm, REG_LEDCFG0, BIT23, 0x01);
++		ODM_SetBBReg(pDM_Odm, rFPGA0_XAB_RFParameter, BIT13, 0x01);
++	}
++
++	if(is2T)		//
++	{
++		if(ODM_GetBBReg(pDM_Odm, rFPGA0_XB_RFInterfaceOE, BIT5|BIT6) == 0x01)
++			return TRUE;
++		else 
++			return FALSE;
++	}
++	else
++	{
++		if((ODM_GetBBReg(pDM_Odm, rFPGA0_XB_RFInterfaceOE, BIT5|BIT4|BIT3) == 0x0) ||
++				(ODM_GetBBReg(pDM_Odm, rConfig_ram64x16, BIT31) == 0x0))
++			return TRUE;
++		else 
++			return FALSE;
++	}
++}
++
++
++
++//return value TRUE => Main; FALSE => Aux
++	BOOLEAN PHY_QueryRFPathSwitch_8812A(	
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++			IN PDM_ODM_T		pDM_Odm
++#else
++			IN	PADAPTER	pAdapter
++#endif
++			)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++#ifdef DISABLE_BB_RF
++	return TRUE;
++#endif
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++
++	//if(IS_92C_SERIAL( pHalData->VersionID)){
++	if(IS_2T2R( pHalData->VersionID)){
++		return phy_QueryRFPathSwitch_8812A(pAdapter, TRUE);
++	}
++	else
++#endif		
++	{
++		// For 88C 1T1R
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++		return phy_QueryRFPathSwitch_8812A(pAdapter, FALSE);
++#else
++		return phy_QueryRFPathSwitch_8812A(pDM_Odm, FALSE);
++#endif
++	}
++}
++#endif
++
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halphyrf_8812a_ap.h b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halphyrf_8812a_ap.h
+new file mode 100644
+index 0000000..dcbc927
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halphyrf_8812a_ap.h
+@@ -0,0 +1,153 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __HAL_PHY_RF_8812A_H__
++#define __HAL_PHY_RF_8812A_H__
++
++/*--------------------------Define Parameters-------------------------------*/
++#define	IQK_DELAY_TIME_8812A		10		//ms
++#define	index_mapping_NUM_8812A	15
++#define AVG_THERMAL_NUM_8812A	4
++#define RF_T_METER_8812A 		0x42
++
++
++#if 0
++void ConfigureTxpowerTrack_8812A(
++	PTXPWRTRACK_CFG	pConfig
++	);
++
++
++
++
++void DoIQK_8812A(
++	PVOID		pDM_VOID,
++	u1Byte 		DeltaThermalIndex,
++	u1Byte		ThermalValue,	
++	u1Byte 		Threshold
++	);
++
++VOID
++ODM_TxPwrTrackSetPwr8812A(
++	PDM_ODM_T			pDM_Odm,
++	PWRTRACK_METHOD 	Method,
++	u1Byte 				RFPath,
++	u1Byte 				ChannelMappedIndex
++	);
++
++#endif
++
++
++//1 7.	IQK
++
++#if 0
++
++void	
++PHY_IQCalibrate_8812A(	
++	IN	PADAPTER	pAdapter,	
++	IN	BOOLEAN 	bReCovery
++);
++
++#else
++
++                         
++VOID	
++phy_IQCalibrate_8812A(
++	IN PDM_ODM_T		pDM_Odm,
++	IN u1Byte		Channel
++);
++
++#endif
++
++
++//
++// LC calibrate
++//
++void	
++PHY_LCCalibrate_8812A(
++	IN PDM_ODM_T		pDM_Odm
++);
++
++//
++// AP calibrate
++//
++void	
++PHY_APCalibrate_8812A(		
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++							IN 	s1Byte		delta);
++void	
++PHY_DigitalPredistortion_8812A(		IN	PADAPTER	pAdapter);
++
++
++#if 0 //FOR_8812_IQK
++VOID
++_PHY_SaveADDARegisters(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	pu4Byte		ADDAReg,
++	IN	pu4Byte		ADDABackup,
++	IN	u4Byte		RegisterNum
++	);
++
++VOID
++_PHY_PathADDAOn(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	pu4Byte		ADDAReg,
++	IN	BOOLEAN		isPathAOn,
++	IN	BOOLEAN		is2T
++	);
++
++VOID
++_PHY_MACSettingCalibration(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	pu4Byte		MACReg,
++	IN	pu4Byte		MACBackup	
++	);
++
++
++
++VOID
++_PHY_PathAStandBy(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm
++#else
++	IN	PADAPTER	pAdapter
++#endif
++	);
++
++#endif
++
++								
++#endif	// #ifndef __HAL_PHY_RF_8812A_H__								
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halphyrf_8812a_ce.c b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halphyrf_8812a_ce.c
+new file mode 100644
+index 0000000..1555b69
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halphyrf_8812a_ce.c
+@@ -0,0 +1,2200 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++
++
++/*---------------------------Define Local Constant---------------------------*/
++// 2010/04/25 MH Define the max tx power tracking tx agc power.
++#define		ODM_TXPWRTRACK_MAX_IDX8812A		6
++
++/*---------------------------Define Local Constant---------------------------*/
++
++
++//3============================================================
++//3 Tx Power Tracking
++//3============================================================
++
++
++void DoIQK_8812A(
++	PVOID		pDM_VOID,
++	u1Byte 		DeltaThermalIndex,
++	u1Byte		ThermalValue,	
++	u1Byte 		Threshold
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	PADAPTER 		Adapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++#endif
++
++	ODM_ResetIQKResult(pDM_Odm);		
++
++	pDM_Odm->RFCalibrateInfo.ThermalValue_IQK= ThermalValue;
++	PHY_IQCalibrate_8812A(Adapter, FALSE);
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	odm_TxPwrTrackSetPwr88E()
++ *
++ * Overview:	88E change all channel tx power accordign to flag.
++ *				OFDM & CCK are all different.
++ *
++ * Input:		NONE
++ *
++ * Output:		NONE
++ *
++ * Return:		NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	04/23/2012	MHC		Create Version 0.  
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++ODM_TxPwrTrackSetPwr8812A(
++	IN	PVOID		pDM_VOID,
++	PWRTRACK_METHOD 	Method,
++	u1Byte 				RFPath,
++	u1Byte 				ChannelMappedIndex
++	)
++{
++	u4Byte 	finalBbSwingIdx[2];
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;	
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++
++	u1Byte			PwrTrackingLimit = 26; //+1.0dB
++	u1Byte			TxRate = 0xFF;
++	u1Byte			Final_OFDM_Swing_Index = 0; 
++	u1Byte			Final_CCK_Swing_Index = 0; 
++	u1Byte			i = 0;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	if (pDM_Odm->mp_mode == TRUE) {
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++		#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++			#if (MP_DRIVER == 1)
++					PMPT_CONTEXT pMptCtx = &(Adapter->MptCtx);
++					
++					TxRate = MptToMgntRate(pMptCtx->MptRateIndex);
++			#endif
++		#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++				PMPT_CONTEXT pMptCtx = &(Adapter->mppriv.MptCtx);
++				
++				TxRate = MptToMgntRate(pMptCtx->MptRateIndex);
++		#endif	
++	#endif
++	} else {
++		u2Byte	rate	 = *(pDM_Odm->pForcedDataRate);
++		
++		if (!rate) { /*auto rate*/
++			if (rate != 0xFF) {
++			#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++						TxRate = Adapter->HalFunc.GetHwRateFromMRateHandler(pDM_Odm->TxRate);
++			#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++				if (pDM_Odm->number_linked_client != 0)
++					TxRate = HwRateToMRate(pDM_Odm->TxRate);
++			#endif
++			}
++		} else { /*force rate*/
++			TxRate = (u1Byte)rate;
++		}
++	}
++		
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("Power Tracking TxRate=0x%X\n", TxRate));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("===>ODM_TxPwrTrackSetPwr8812A\n"));
++
++	if(TxRate != 0xFF)   //20130429 Mimic Modify High Rate BBSwing Limit.
++	{
++		//2 CCK
++		if (((TxRate >= MGN_1M) && (TxRate <= MGN_5_5M)) || (TxRate == MGN_11M))
++			PwrTrackingLimit = 32; //+4dB
++		//2 OFDM
++		else if((TxRate >= MGN_6M)&&(TxRate <= MGN_48M))
++			PwrTrackingLimit = 30; //+3dB
++		else if(TxRate == MGN_54M)
++			PwrTrackingLimit = 28; //+2dB
++		//2 HT
++		else if((TxRate >= MGN_MCS0)&&(TxRate <= MGN_MCS2)) //QPSK/BPSK
++			PwrTrackingLimit = 34; //+5dB
++		else if((TxRate >= MGN_MCS3)&&(TxRate <= MGN_MCS4)) //16QAM
++			PwrTrackingLimit = 30; //+3dB
++		else if((TxRate >= MGN_MCS5)&&(TxRate <= MGN_MCS7)) //64QAM
++			PwrTrackingLimit = 28; //+2dB
++
++		else if((TxRate >= MGN_MCS8)&&(TxRate <= MGN_MCS10)) //QPSK/BPSK
++			PwrTrackingLimit = 34; //+5dB
++		else if((TxRate >= MGN_MCS11)&&(TxRate <= MGN_MCS12)) //16QAM
++			PwrTrackingLimit = 30; //+3dB
++		else if((TxRate >= MGN_MCS13)&&(TxRate <= MGN_MCS15)) //64QAM
++			PwrTrackingLimit = 28; //+2dB
++			
++		//2 VHT
++		else if((TxRate >= MGN_VHT1SS_MCS0)&&(TxRate <= MGN_VHT1SS_MCS2)) //QPSK/BPSK
++			PwrTrackingLimit = 34; //+5dB
++		else if((TxRate >= MGN_VHT1SS_MCS3)&&(TxRate <= MGN_VHT1SS_MCS4)) //16QAM
++			PwrTrackingLimit = 30; //+3dB
++		else if((TxRate >= MGN_VHT1SS_MCS5)&&(TxRate <= MGN_VHT1SS_MCS6)) //64QAM
++			PwrTrackingLimit = 28; //+2dB
++		else if(TxRate == MGN_VHT1SS_MCS7) //64QAM
++			PwrTrackingLimit = 26; //+1dB
++		else if(TxRate == MGN_VHT1SS_MCS8) //256QAM
++			PwrTrackingLimit = 24; //+0dB
++		else if(TxRate == MGN_VHT1SS_MCS9) //256QAM
++			PwrTrackingLimit = 22; //-1dB
++			
++		else if((TxRate >= MGN_VHT2SS_MCS0)&&(TxRate <= MGN_VHT2SS_MCS2)) //QPSK/BPSK
++			PwrTrackingLimit = 34; //+5dB
++		else if((TxRate >= MGN_VHT2SS_MCS3)&&(TxRate <= MGN_VHT2SS_MCS4)) //16QAM
++			PwrTrackingLimit = 30; //+3dB
++		else if((TxRate >= MGN_VHT2SS_MCS5)&&(TxRate <= MGN_VHT2SS_MCS6)) //64QAM
++			PwrTrackingLimit = 28; //+2dB
++		else if(TxRate == MGN_VHT2SS_MCS7) //64QAM
++			PwrTrackingLimit = 26; //+1dB
++		else if(TxRate == MGN_VHT2SS_MCS8) //256QAM
++			PwrTrackingLimit = 24; //+0dB
++		else if(TxRate == MGN_VHT2SS_MCS9) //256QAM
++			PwrTrackingLimit = 22; //-1dB
++
++		else			
++			PwrTrackingLimit = 24;
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("TxRate=0x%x, PwrTrackingLimit=%d\n", TxRate, PwrTrackingLimit));
++
++	
++	if (Method == BBSWING)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("===>ODM_TxPwrTrackSetPwr8812A\n"));		
++
++		if (RFPath == ODM_RF_PATH_A)
++		{		
++			finalBbSwingIdx[ODM_RF_PATH_A] = (pDM_Odm->RFCalibrateInfo.OFDM_index[ODM_RF_PATH_A] > PwrTrackingLimit) ? PwrTrackingLimit : pDM_Odm->RFCalibrateInfo.OFDM_index[ODM_RF_PATH_A];
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("pDM_Odm->RFCalibrateInfo.OFDM_index[ODM_RF_PATH_A]=%d, pDM_Odm->RealBbSwingIdx[ODM_RF_PATH_A]=%d\n",
++				pDM_Odm->RFCalibrateInfo.OFDM_index[ODM_RF_PATH_A], finalBbSwingIdx[ODM_RF_PATH_A]));
++			
++			ODM_SetBBReg(pDM_Odm, rA_TxScale_Jaguar, 0xFFE00000, TxScalingTable_Jaguar[finalBbSwingIdx[ODM_RF_PATH_A]]);
++		}
++		else
++		{
++			finalBbSwingIdx[ODM_RF_PATH_B] = (pDM_Odm->RFCalibrateInfo.OFDM_index[ODM_RF_PATH_B] > PwrTrackingLimit) ? PwrTrackingLimit : pDM_Odm->RFCalibrateInfo.OFDM_index[ODM_RF_PATH_B];
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("pDM_Odm->RFCalibrateInfo.OFDM_index[ODM_RF_PATH_B]=%d, pDM_Odm->RealBbSwingIdx[ODM_RF_PATH_B]=%d\n",
++				pDM_Odm->RFCalibrateInfo.OFDM_index[ODM_RF_PATH_B], finalBbSwingIdx[ODM_RF_PATH_B]));
++			
++			ODM_SetBBReg(pDM_Odm, rB_TxScale_Jaguar, 0xFFE00000, TxScalingTable_Jaguar[finalBbSwingIdx[ODM_RF_PATH_B]]);
++		}
++	}
++
++	else if (Method == MIX_MODE)
++	{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("pRFCalibrateInfo->DefaultOfdmIndex=%d, pRFCalibrateInfo->Absolute_OFDMSwingIdx[RFPath]=%d, RF_Path = %d\n",
++			pRFCalibrateInfo->DefaultOfdmIndex, pRFCalibrateInfo->Absolute_OFDMSwingIdx[RFPath], RFPath));
++
++		Final_CCK_Swing_Index = pRFCalibrateInfo->DefaultCckIndex + pRFCalibrateInfo->Absolute_OFDMSwingIdx[RFPath];
++		Final_OFDM_Swing_Index = pRFCalibrateInfo->DefaultOfdmIndex + pRFCalibrateInfo->Absolute_OFDMSwingIdx[RFPath];
++
++		if (RFPath == ODM_RF_PATH_A)  
++		{
++			if(Final_OFDM_Swing_Index > PwrTrackingLimit)     //BBSwing higher then Limit
++			{
++				pRFCalibrateInfo->Remnant_CCKSwingIdx = Final_CCK_Swing_Index - PwrTrackingLimit;            /*CCK Follow the same compensate value as Path A*/
++				pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath] = Final_OFDM_Swing_Index - PwrTrackingLimit;            
++
++				ODM_SetBBReg(pDM_Odm, rA_TxScale_Jaguar, 0xFFE00000, TxScalingTable_Jaguar[PwrTrackingLimit]);
++
++				pRFCalibrateInfo->Modify_TxAGC_Flag_PathA = TRUE;
++
++				PHY_SetTxPowerLevelByPath(Adapter, pHalData->CurrentChannel, ODM_RF_PATH_A);
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_A Over BBSwing Limit , PwrTrackingLimit = %d , Remnant TxAGC Value = %d\n", PwrTrackingLimit, pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath]));
++			}
++			else if (Final_OFDM_Swing_Index <= 0)
++			{
++				pRFCalibrateInfo->Remnant_CCKSwingIdx = Final_CCK_Swing_Index;            /*CCK Follow the same compensate value as Path A*/
++				pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath] = Final_OFDM_Swing_Index;     
++
++				ODM_SetBBReg(pDM_Odm, rA_TxScale_Jaguar, 0xFFE00000, TxScalingTable_Jaguar[0]);
++
++				pRFCalibrateInfo->Modify_TxAGC_Flag_PathA = TRUE;
++
++				PHY_SetTxPowerLevelByPath(Adapter, pHalData->CurrentChannel, ODM_RF_PATH_A);
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_A Lower then BBSwing lower bound  0 , Remnant TxAGC Value = %d\n", pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath]));
++			}
++			else
++			{
++				ODM_SetBBReg(pDM_Odm, rA_TxScale_Jaguar, 0xFFE00000, TxScalingTable_Jaguar[Final_OFDM_Swing_Index]);
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_A Compensate with BBSwing , Final_OFDM_Swing_Index = %d\n", Final_OFDM_Swing_Index));
++
++				if (pRFCalibrateInfo->Modify_TxAGC_Flag_PathA)  /*If TxAGC has changed, reset TxAGC again*/
++				{
++					pRFCalibrateInfo->Remnant_CCKSwingIdx = 0;
++					pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath] = 0;     
++
++					PHY_SetTxPowerLevelByPath(Adapter, pHalData->CurrentChannel, ODM_RF_PATH_A);
++
++					pRFCalibrateInfo->Modify_TxAGC_Flag_PathA = FALSE;
++
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_A pDM_Odm->Modify_TxAGC_Flag = FALSE\n"));
++				}
++			}
++		}
++
++		if (RFPath == ODM_RF_PATH_B)  
++		{
++			if(Final_OFDM_Swing_Index > PwrTrackingLimit)     //BBSwing higher then Limit
++			{
++				pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath] = Final_OFDM_Swing_Index - PwrTrackingLimit;            
++
++				ODM_SetBBReg(pDM_Odm, rB_TxScale_Jaguar, 0xFFE00000, TxScalingTable_Jaguar[PwrTrackingLimit]);
++
++				pRFCalibrateInfo->Modify_TxAGC_Flag_PathB = TRUE;
++
++				PHY_SetTxPowerLevelByPath(Adapter, pHalData->CurrentChannel, ODM_RF_PATH_B);
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_B Over BBSwing Limit , PwrTrackingLimit = %d , Remnant TxAGC Value = %d\n", PwrTrackingLimit, pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath]));
++			}
++			else if (Final_OFDM_Swing_Index <= 0)
++			{
++				pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath] = Final_OFDM_Swing_Index;     
++
++				ODM_SetBBReg(pDM_Odm, rB_TxScale_Jaguar, 0xFFE00000, TxScalingTable_Jaguar[0]);
++
++				pRFCalibrateInfo->Modify_TxAGC_Flag_PathB = TRUE;
++
++				PHY_SetTxPowerLevelByPath(Adapter, pHalData->CurrentChannel, ODM_RF_PATH_B);
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_B Lower then BBSwing lower bound  0 , Remnant TxAGC Value = %d\n", pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath]));
++			}
++			else
++			{
++				ODM_SetBBReg(pDM_Odm, rB_TxScale_Jaguar, 0xFFE00000, TxScalingTable_Jaguar[Final_OFDM_Swing_Index]);
++
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_B Compensate with BBSwing , Final_OFDM_Swing_Index = %d\n", Final_OFDM_Swing_Index));
++
++				if (pRFCalibrateInfo->Modify_TxAGC_Flag_PathB)  /*If TxAGC has changed, reset TxAGC again*/
++				{
++					pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath] = 0;     
++
++					PHY_SetTxPowerLevelByPath(Adapter, pHalData->CurrentChannel, ODM_RF_PATH_B);
++
++					pRFCalibrateInfo->Modify_TxAGC_Flag_PathB = FALSE;
++
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("******Path_B pDM_Odm->Modify_TxAGC_Flag = FALSE\n"));
++				}
++			}
++		}
++		
++	}
++	else
++	{
++		return;
++	}
++}
++
++VOID
++GetDeltaSwingTable_8812A(
++	IN	PVOID		pDM_VOID,
++	OUT pu1Byte 			*TemperatureUP_A,
++	OUT pu1Byte 			*TemperatureDOWN_A,
++	OUT pu1Byte 			*TemperatureUP_B,
++	OUT pu1Byte 			*TemperatureDOWN_B	
++	)
++{
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER			Adapter = pDM_Odm->Adapter;
++	PODM_RF_CAL_T  	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	HAL_DATA_TYPE  	*pHalData  		 = GET_HAL_DATA(Adapter);
++	u1Byte		TxRate			= 0xFF;
++	u1Byte         	channel   		 = pHalData->CurrentChannel;
++
++	if (pDM_Odm->mp_mode == TRUE) {
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++		#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++			#if (MP_DRIVER == 1)
++					PMPT_CONTEXT pMptCtx = &(Adapter->MptCtx);
++					
++					TxRate = MptToMgntRate(pMptCtx->MptRateIndex);
++			#endif
++		#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++				PMPT_CONTEXT pMptCtx = &(Adapter->mppriv.MptCtx);
++				
++				TxRate = MptToMgntRate(pMptCtx->MptRateIndex);
++		#endif	
++	#endif
++	} else {
++		u2Byte	rate	 = *(pDM_Odm->pForcedDataRate);
++		
++		if (!rate) { /*auto rate*/
++			if (rate != 0xFF) {
++			#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++						TxRate = Adapter->HalFunc.GetHwRateFromMRateHandler(pDM_Odm->TxRate);
++			#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++				if (pDM_Odm->number_linked_client != 0)
++					TxRate = HwRateToMRate(pDM_Odm->TxRate);
++			#endif
++			}
++		} else { /*force rate*/
++			TxRate = (u1Byte)rate;
++		}
++	}
++		
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("Power Tracking TxRate=0x%X\n", TxRate));
++
++	if ( 1 <= channel && channel <= 14) {
++		if (IS_CCK_RATE(TxRate)) {
++	        *TemperatureUP_A   = pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_P;
++	        *TemperatureDOWN_A = pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_N;
++	        *TemperatureUP_B   = pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_P;
++	        *TemperatureDOWN_B = pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_N;		
++		} else {
++	        *TemperatureUP_A   = pRFCalibrateInfo->DeltaSwingTableIdx_2GA_P;
++	        *TemperatureDOWN_A = pRFCalibrateInfo->DeltaSwingTableIdx_2GA_N;
++	        *TemperatureUP_B   = pRFCalibrateInfo->DeltaSwingTableIdx_2GB_P;
++	        *TemperatureDOWN_B = pRFCalibrateInfo->DeltaSwingTableIdx_2GB_N;			
++		}
++	} else if (36 <= channel && channel <= 64) {
++		*TemperatureUP_A   = pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P[0];
++		*TemperatureDOWN_A = pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N[0];
++		*TemperatureUP_B   = pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P[0];
++		*TemperatureDOWN_B = pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N[0];
++	} else if (100 <= channel && channel <= 144) {
++		*TemperatureUP_A   = pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P[1];
++		*TemperatureDOWN_A = pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N[1];
++		*TemperatureUP_B   = pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P[1];
++		*TemperatureDOWN_B = pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N[1];
++	} else if (149 <= channel && channel <= 177) {
++		*TemperatureUP_A   = pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P[2]; 
++		*TemperatureDOWN_A = pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N[2]; 
++		*TemperatureUP_B   = pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P[2]; 
++		*TemperatureDOWN_B = pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N[2]; 
++	} else {
++		*TemperatureUP_A   = (pu1Byte)DeltaSwingTableIdx_2GA_P_8188E;
++		*TemperatureDOWN_A = (pu1Byte)DeltaSwingTableIdx_2GA_N_8188E;	
++		*TemperatureUP_B   = (pu1Byte)DeltaSwingTableIdx_2GA_P_8188E;
++		*TemperatureDOWN_B = (pu1Byte)DeltaSwingTableIdx_2GA_N_8188E;		
++	}
++	
++	return;
++}
++
++void ConfigureTxpowerTrack_8812A(
++	PTXPWRTRACK_CFG	pConfig
++	)
++{
++	pConfig->SwingTableSize_CCK = TXSCALE_TABLE_SIZE;
++	pConfig->SwingTableSize_OFDM = TXSCALE_TABLE_SIZE;
++	pConfig->Threshold_IQK = IQK_THRESHOLD;
++	pConfig->AverageThermalNum = AVG_THERMAL_NUM_8812A;
++	pConfig->RfPathCount = MAX_PATH_NUM_8812A;
++	pConfig->ThermalRegAddr = RF_T_METER_8812A;
++		
++	pConfig->ODM_TxPwrTrackSetPwr = ODM_TxPwrTrackSetPwr8812A;
++	pConfig->DoIQK = DoIQK_8812A;
++	pConfig->PHY_LCCalibrate = PHY_LCCalibrate_8812A;
++	pConfig->GetDeltaSwingTable = GetDeltaSwingTable_8812A;
++}
++
++
++#define BW_20M 	0
++#define	BW_40M  1
++#define	BW_80M	2
++
++void _IQK_RX_FillIQC_8812A(
++	IN PDM_ODM_T			pDM_Odm,
++	IN ODM_RF_RADIO_PATH_E 	Path,
++	IN unsigned int			RX_X,
++	IN unsigned int			RX_Y
++	) 
++{
++	switch (Path) {
++	case ODM_RF_PATH_A:
++		{
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++			if (RX_X>>1 >=0x112 || (RX_Y>>1 >= 0x12 && RX_Y>>1 <= 0x3ee)){
++				ODM_SetBBReg(pDM_Odm, 0xc10, 0x000003ff, 0x100);
++				ODM_SetBBReg(pDM_Odm, 0xc10, 0x03ff0000, 0);
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX_X = %x;;RX_Y = %x ====>fill to IQC\n", RX_X>>1&0x000003ff, RX_Y>>1&0x000003ff));
++			}
++			else{
++				ODM_SetBBReg(pDM_Odm, 0xc10, 0x000003ff, RX_X>>1);
++				ODM_SetBBReg(pDM_Odm, 0xc10, 0x03ff0000, RX_Y>>1);
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX_X = %x;;RX_Y = %x ====>fill to IQC\n", RX_X>>1&0x000003ff, RX_Y>>1&0x000003ff));
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xc10 = %x ====>fill to IQC\n", ODM_Read4Byte(pDM_Odm, 0xc10)));
++			}
++		}
++		break;
++	case ODM_RF_PATH_B:
++		{	
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C	
++			if (RX_X>>1 >=0x112 || (RX_Y>>1 >= 0x12 && RX_Y>>1 <= 0x3ee)){
++				ODM_SetBBReg(pDM_Odm, 0xe10, 0x000003ff, 0x100);
++				ODM_SetBBReg(pDM_Odm, 0xe10, 0x03ff0000, 0);
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX_X = %x;;RX_Y = %x ====>fill to IQC\n", RX_X>>1&0x000003ff, RX_Y>>1&0x000003ff));
++			}
++			else{
++				ODM_SetBBReg(pDM_Odm, 0xe10, 0x000003ff, RX_X>>1);
++				ODM_SetBBReg(pDM_Odm, 0xe10, 0x03ff0000, RX_Y>>1);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX_X = %x;;RX_Y = %x====>fill to IQC\n ", RX_X>>1&0x000003ff, RX_Y>>1&0x000003ff));
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xe10 = %x====>fill to IQC\n", ODM_Read4Byte(pDM_Odm, 0xe10)));
++			}
++		}
++		break;		
++	default:
++		break;					
++	};	
++}
++
++void _IQK_TX_FillIQC_8812A(
++	IN PDM_ODM_T			pDM_Odm,
++	IN ODM_RF_RADIO_PATH_E 	Path,
++	IN unsigned int			TX_X,
++	IN unsigned int			TX_Y
++	) 
++{
++	switch (Path) {
++	case ODM_RF_PATH_A:
++		{
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++			ODM_SetBBReg(pDM_Odm, 0xc90, BIT(7), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xcc4, BIT(18), 0x1);
++			if (!pDM_Odm->DPK_Done)
++				ODM_SetBBReg(pDM_Odm, 0xcc4, BIT(29), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xcc8, BIT(29), 0x1);	
++			ODM_SetBBReg(pDM_Odm, 0xccc, 0x000007ff, TX_Y);
++			ODM_SetBBReg(pDM_Odm, 0xcd4, 0x000007ff, TX_X);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TX_X = %x;;TX_Y = %x =====> fill to IQC\n", TX_X&0x000007ff, TX_Y&0x000007ff));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xcd4 = %x;;0xccc = %x ====>fill to IQC\n", ODM_GetBBReg(pDM_Odm, 0xcd4, 0x000007ff), ODM_GetBBReg(pDM_Odm, 0xccc, 0x000007ff)));
++		}
++		break;
++	case ODM_RF_PATH_B:
++		{
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++			ODM_SetBBReg(pDM_Odm, 0xe90, BIT(7), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xec4, BIT(18), 0x1);
++			if (!pDM_Odm->DPK_Done)
++				ODM_SetBBReg(pDM_Odm, 0xec4, BIT(29), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xec8, BIT(29), 0x1);	
++			ODM_SetBBReg(pDM_Odm, 0xecc, 0x000007ff, TX_Y);
++			ODM_SetBBReg(pDM_Odm, 0xed4, 0x000007ff, TX_X);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TX_X = %x;;TX_Y = %x =====> fill to IQC\n", TX_X&0x000007ff, TX_Y&0x000007ff));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xed4 = %x;;0xecc = %x ====>fill to IQC\n", ODM_GetBBReg(pDM_Odm, 0xed4, 0x000007ff), ODM_GetBBReg(pDM_Odm, 0xecc, 0x000007ff)));
++		}
++		break;		
++	default:
++		break;					
++	};	
++}
++
++void _IQK_BackupMacBB_8812A(
++	IN PDM_ODM_T	pDM_Odm,
++	IN pu4Byte		MACBB_backup,
++	IN pu4Byte		Backup_MACBB_REG, 
++	IN u4Byte		MACBB_NUM
++	)
++{
++	u4Byte i;
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	 //save MACBB default value
++	for (i = 0; i < MACBB_NUM; i++){
++		MACBB_backup[i] = ODM_Read4Byte(pDM_Odm, Backup_MACBB_REG[i]);
++	}
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("BackupMacBB Success!!!!\n"));
++}
++void _IQK_BackupRF_8812A(
++	IN PDM_ODM_T	pDM_Odm,
++	IN pu4Byte		RFA_backup,
++	IN pu4Byte		RFB_backup, 
++	IN pu4Byte		Backup_RF_REG, 
++	IN u4Byte		RF_NUM
++	)	
++{
++
++	u4Byte i;
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	//Save RF Parameters
++    	for (i = 0; i < RF_NUM; i++){
++        	RFA_backup[i] = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, Backup_RF_REG[i], bMaskDWord);
++        	RFB_backup[i] = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_B, Backup_RF_REG[i], bMaskDWord);
++    	}
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("BackupRF Success!!!!\n"));
++}
++void _IQK_BackupAFE_8812A(
++	IN PDM_ODM_T		pDM_Odm,
++	IN pu4Byte		AFE_backup,
++	IN pu4Byte		Backup_AFE_REG, 
++	IN u4Byte		AFE_NUM
++	)
++{
++	u4Byte i;
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	//Save AFE Parameters 
++    	for (i = 0; i < AFE_NUM; i++){
++        	AFE_backup[i] = ODM_Read4Byte(pDM_Odm, Backup_AFE_REG[i]);	
++    	}
++    	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("BackupAFE Success!!!!\n"));
++}
++void _IQK_RestoreMacBB_8812A(
++	IN PDM_ODM_T		pDM_Odm,
++	IN pu4Byte		MACBB_backup,
++	IN pu4Byte		Backup_MACBB_REG, 
++	IN u4Byte		MACBB_NUM
++	)	
++{
++	u4Byte i;
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	//Reload MacBB Parameters 
++    	for (i = 0; i < MACBB_NUM; i++){
++        	ODM_Write4Byte(pDM_Odm, Backup_MACBB_REG[i], MACBB_backup[i]);
++    	}
++    	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RestoreMacBB Success!!!!\n"));
++}
++void _IQK_RestoreRF_8812A(
++	IN PDM_ODM_T			pDM_Odm,
++	IN ODM_RF_RADIO_PATH_E 	Path,
++	IN pu4Byte			Backup_RF_REG,
++	IN pu4Byte 			RF_backup,
++	IN u4Byte			RF_REG_NUM
++	)
++{	
++	u4Byte i;
++
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++    	for (i = 0; i < RF_REG_NUM; i++)
++        	ODM_SetRFReg(pDM_Odm, Path, Backup_RF_REG[i], bRFRegOffsetMask, RF_backup[i]);
++
++	ODM_SetRFReg(pDM_Odm, Path, 0xef, bRFRegOffsetMask, 0x0);
++
++	switch(Path){
++	case ODM_RF_PATH_A:
++       {
++       	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RestoreRF Path A Success!!!!\n"));
++       }
++		break;
++	case ODM_RF_PATH_B:
++       {
++       	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RestoreRF Path B Success!!!!\n"));
++       }
++		break;
++	default:
++		break;
++	}
++}
++void _IQK_RestoreAFE_8812A(
++	IN PDM_ODM_T		pDM_Odm,
++	IN pu4Byte		AFE_backup,
++	IN pu4Byte		Backup_AFE_REG, 
++	IN u4Byte		AFE_NUM
++	)
++{
++	u4Byte i;
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	//Reload AFE Parameters 
++    	for (i = 0; i < AFE_NUM; i++){
++        	ODM_Write4Byte(pDM_Odm, Backup_AFE_REG[i], AFE_backup[i]);
++    	}
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++	ODM_Write4Byte(pDM_Odm, 0xc80, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xc84, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xc88, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xc8c, 0x3c000000);
++	ODM_SetBBReg(pDM_Odm, 0xc90, BIT(7), 0x1);
++	ODM_SetBBReg(pDM_Odm, 0xcc4, BIT(18), 0x1);
++	if (!pDM_Odm->DPK_Done)
++		ODM_SetBBReg(pDM_Odm, 0xcc4, BIT(29), 0x1);
++	ODM_SetBBReg(pDM_Odm, 0xcc8, BIT(29), 0x1);	
++	//ODM_Write4Byte(pDM_Odm, 0xcb8, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xe80, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xe84, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xe88, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xe8c, 0x3c000000);
++	ODM_SetBBReg(pDM_Odm, 0xe90, BIT(7), 0x1);
++	ODM_SetBBReg(pDM_Odm, 0xec4, BIT(18), 0x1);
++	if (!pDM_Odm->DPK_Done)
++		ODM_SetBBReg(pDM_Odm, 0xec4, BIT(29), 0x1);
++	ODM_SetBBReg(pDM_Odm, 0xec8, BIT(29), 0x1);	
++	//ODM_Write4Byte(pDM_Odm, 0xeb8, 0x0);
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RestoreAFE Success!!!!\n"));
++}
++
++
++void _IQK_ConfigureMAC_8812A(
++	IN PDM_ODM_T		pDM_Odm
++	)
++{
++	// ========MAC register setting========
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C	
++	ODM_Write1Byte(pDM_Odm, 0x522, 0x3f);
++	ODM_SetBBReg(pDM_Odm, 0x550, BIT(11)|BIT(3), 0x0);
++	ODM_Write1Byte(pDM_Odm, 0x808, 0x00);		//		RX ante off
++	ODM_SetBBReg(pDM_Odm, 0x838, 0xf, 0xc);		//		CCA off
++	ODM_Write1Byte(pDM_Odm, 0xa07, 0xf);		//  		CCK RX Path off
++}
++
++#define cal_num 10
++
++void _IQK_Tx_8812A(
++	IN PDM_ODM_T		pDM_Odm,
++	IN u1Byte chnlIdx
++	)
++{
++	u1Byte 		delay_count, cal = 0;
++	u1Byte		cal0_retry, cal1_retry, TX0_Average = 0, TX1_Average = 0, RX0_Average = 0, RX1_Average = 0;
++	int			TX_IQC_temp[10][4], TX_IQC[4]={};		//TX_IQC = [TX0_X, TX0_Y,TX1_X,TX1_Y]; for 3 times
++	int			RX_IQC_temp[10][4], RX_IQC[4]={};		//RX_IQC = [RX0_X, RX0_Y,RX1_X,RX1_Y]; for 3 times
++	BOOLEAN 	TX0_fail = TRUE, RX0_fail = TRUE, IQK0_ready = FALSE, TX0_finish = FALSE, RX0_finish = FALSE;
++	BOOLEAN  	TX1_fail = TRUE, RX1_fail = TRUE, IQK1_ready = FALSE, TX1_finish = FALSE, RX1_finish = FALSE, VDF_enable = FALSE;
++	int			i, ii, dx = 0, dy = 0;
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("BandWidth = %d, ExtPA5G = %d, ExtPA2G = %d\n", *pDM_Odm->pBandWidth, pDM_Odm->ExtPA5G, pDM_Odm->ExtPA));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Interface = %d, RFE_Type = %d\n", pDM_Odm->SupportInterface, pDM_Odm->RFEType));
++	if (*pDM_Odm->pBandWidth == 2){
++		VDF_enable = TRUE;
++	}
++	VDF_enable = FALSE;
++
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	// ========Path-A AFE all on========
++	// Port 0 DAC/ADC on
++	ODM_Write4Byte(pDM_Odm, 0xc60, 0x77777777);
++	ODM_Write4Byte(pDM_Odm, 0xc64, 0x77777777);
++	 
++	// Port 1 DAC/ADC on
++	ODM_Write4Byte(pDM_Odm, 0xe60, 0x77777777);
++	ODM_Write4Byte(pDM_Odm, 0xe64, 0x77777777);
++
++	ODM_Write4Byte(pDM_Odm, 0xc68, 0x19791979);
++	ODM_Write4Byte(pDM_Odm, 0xe68, 0x19791979);
++	ODM_SetBBReg(pDM_Odm, 0xc00, 0xf, 0x4);// 	hardware 3-wire off
++	ODM_SetBBReg(pDM_Odm, 0xe00, 0xf, 0x4);// 	hardware 3-wire off
++
++	// DAC/ADC sampling rate (160 MHz)
++	ODM_SetBBReg(pDM_Odm, 0xc5c, BIT(26)|BIT(25)|BIT(24), 0x7);
++	ODM_SetBBReg(pDM_Odm, 0xe5c, BIT(26)|BIT(25)|BIT(24), 0x7);
++			
++        //====== Path A TX IQK RF Setting ======
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, bRFRegOffsetMask, 0x80002);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, bRFRegOffsetMask, 0x20000);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, bRFRegOffsetMask, 0x3fffd);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, bRFRegOffsetMask, 0xfe83f);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x65, bRFRegOffsetMask, 0x931d5);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x8f, bRFRegOffsetMask, 0x8a001);
++	//====== Path B TX IQK RF Setting ======
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, bRFRegOffsetMask, 0x80002);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x30, bRFRegOffsetMask, 0x20000);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x31, bRFRegOffsetMask, 0x3fffd);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x32, bRFRegOffsetMask, 0xfe83f);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x65, bRFRegOffsetMask, 0x931d5);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x8f, bRFRegOffsetMask, 0x8a001);
++	ODM_Write4Byte(pDM_Odm, 0x90c, 0x00008000);
++	ODM_SetBBReg(pDM_Odm, 0xc94, BIT(0), 0x1);
++	ODM_SetBBReg(pDM_Odm, 0xe94, BIT(0), 0x1);
++	ODM_Write4Byte(pDM_Odm, 0x978, 0x29002000);// TX (X,Y)
++	ODM_Write4Byte(pDM_Odm, 0x97c, 0xa9002000);// RX (X,Y)
++	ODM_Write4Byte(pDM_Odm, 0x984, 0x00462910);// [0]:AGC_en, [15]:idac_K_Mask
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++
++	if (pDM_Odm->ExtPA5G){
++		if (pDM_Odm->RFEType == 1){
++			ODM_Write4Byte(pDM_Odm, 0xc88, 0x821403e3);
++			ODM_Write4Byte(pDM_Odm, 0xe88, 0x821403e3);
++		}
++		else{
++			ODM_Write4Byte(pDM_Odm, 0xc88, 0x821403f7);
++			ODM_Write4Byte(pDM_Odm, 0xe88, 0x821403f7);
++		}
++	}
++	else{
++		ODM_Write4Byte(pDM_Odm, 0xc88, 0x821403f1);
++		ODM_Write4Byte(pDM_Odm, 0xe88, 0x821403f1);
++	}
++	if (*pDM_Odm->pBandType){
++		ODM_Write4Byte(pDM_Odm, 0xc8c, 0x68163e96);
++		ODM_Write4Byte(pDM_Odm, 0xe8c, 0x68163e96);
++	}
++	else{
++		ODM_Write4Byte(pDM_Odm, 0xc8c, 0x28163e96);
++		ODM_Write4Byte(pDM_Odm, 0xe8c, 0x28163e96);
++		if (pDM_Odm->RFEType == 3){	
++			if (pDM_Odm->ExtPA)
++				ODM_Write4Byte(pDM_Odm, 0xc88, 0x821403e3);
++			else
++				ODM_Write4Byte(pDM_Odm, 0xc88, 0x821403f7);
++		}
++	}
++
++	if (VDF_enable){}
++	else{
++		ODM_Write4Byte(pDM_Odm, 0xc80, 0x18008c10);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++		ODM_Write4Byte(pDM_Odm, 0xc84, 0x38008c10);// RX_Tone_idx[9:0], RxK_Mask[29]
++		ODM_Write4Byte(pDM_Odm, 0xce8, 0x00000000);
++		ODM_Write4Byte(pDM_Odm, 0xe80, 0x18008c10);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++		ODM_Write4Byte(pDM_Odm, 0xe84, 0x38008c10);// RX_Tone_idx[9:0], RxK_Mask[29]
++		ODM_Write4Byte(pDM_Odm, 0xee8, 0x00000000);
++
++		cal0_retry = 0;
++		cal1_retry = 0;
++		while(1){
++			// one shot
++			ODM_Write4Byte(pDM_Odm, 0xcb8, 0x00100000);// cb8[20] ±N SI/PI ¨Ï¥ÎÅv¤Áµ¹ iqk_dpk module
++			ODM_Write4Byte(pDM_Odm, 0xeb8, 0x00100000);// cb8[20] ±N SI/PI ¨Ï¥ÎÅv¤Áµ¹ iqk_dpk module
++			ODM_Write4Byte(pDM_Odm, 0x980, 0xfa000000);
++			ODM_Write4Byte(pDM_Odm, 0x980, 0xf8000000);
++			
++			ODM_delay_ms(10); //Delay 10ms
++			ODM_Write4Byte(pDM_Odm, 0xcb8, 0x00000000);
++			ODM_Write4Byte(pDM_Odm, 0xeb8, 0x00000000);
++			delay_count = 0;
++			while (1){
++				if (!TX0_finish)
++					IQK0_ready = (BOOLEAN) ODM_GetBBReg(pDM_Odm, 0xd00, BIT(10));
++				if (!TX1_finish)
++					IQK1_ready = (BOOLEAN) ODM_GetBBReg(pDM_Odm, 0xd40, BIT(10));
++				if ((IQK0_ready && IQK1_ready) || (delay_count>20))
++					break;
++				else{
++				ODM_delay_ms(1);
++				delay_count++;
++				}
++			}
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TX delay_count = %d\n", delay_count));
++			if (delay_count < 20){							// If 20ms No Result, then cal_retry++
++				// ============TXIQK Check==============
++				TX0_fail = (BOOLEAN) ODM_GetBBReg(pDM_Odm, 0xd00, BIT(12));
++				TX1_fail = (BOOLEAN) ODM_GetBBReg(pDM_Odm, 0xd40, BIT(12));
++				if (!(TX0_fail || TX0_finish)){
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x02000000);
++					TX_IQC_temp[TX0_Average][0] = ODM_GetBBReg(pDM_Odm, 0xd00, 0x07ff0000)<<21;
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x04000000);
++					TX_IQC_temp[TX0_Average][1] = ODM_GetBBReg(pDM_Odm, 0xd00, 0x07ff0000)<<21;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TX_X0[%d] = %x ;; TX_Y0[%d] = %x\n", TX0_Average, (TX_IQC_temp[TX0_Average][0])>>21&0x000007ff, TX0_Average, (TX_IQC_temp[TX0_Average][1])>>21&0x000007ff));
++					/*
++
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x01000000);
++					reg1 = ODM_GetBBReg(pDM_Odm, 0xd00, 0xffffffff);
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x02000000);
++					reg2 = ODM_GetBBReg(pDM_Odm, 0xd00, 0x0000001f);
++					Image_Power = (reg2<<32)+reg1;
++					DbgPrint("Before PW = %d\n", Image_Power);
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x03000000);
++					reg1 = ODM_GetBBReg(pDM_Odm, 0xd00, 0xffffffff);
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x04000000);
++					reg2 = ODM_GetBBReg(pDM_Odm, 0xd00, 0x0000001f);
++					Image_Power = (reg2<<32)+reg1;
++					DbgPrint("After PW = %d\n", Image_Power);
++					*/
++					TX0_Average++;
++			}
++			else{
++				cal0_retry++;
++				if (cal0_retry == 10)
++					break;
++				}
++			if (!(TX1_fail || TX1_finish)){
++				ODM_Write4Byte(pDM_Odm, 0xeb8, 0x02000000);
++				TX_IQC_temp[TX1_Average][2] = ODM_GetBBReg(pDM_Odm, 0xd40, 0x07ff0000)<<21;
++				ODM_Write4Byte(pDM_Odm, 0xeb8, 0x04000000);
++				TX_IQC_temp[TX1_Average][3] = ODM_GetBBReg(pDM_Odm, 0xd40, 0x07ff0000)<<21;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TX_X1[%d] = %x ;; TX_Y1[%d] = %x\n", TX1_Average, (TX_IQC_temp[TX1_Average][2])>>21&0x000007ff, TX1_Average, (TX_IQC_temp[TX1_Average][3])>>21&0x000007ff));
++				/*
++				int			reg1 = 0, reg2 = 0, Image_Power = 0;
++				ODM_Write4Byte(pDM_Odm, 0xeb8, 0x01000000);
++				reg1 = ODM_GetBBReg(pDM_Odm, 0xd40, 0xffffffff);
++				ODM_Write4Byte(pDM_Odm, 0xeb8, 0x02000000);
++				reg2 = ODM_GetBBReg(pDM_Odm, 0xd40, 0x0000001f);
++				Image_Power = (reg2<<32)+reg1;
++				DbgPrint("Before PW = %d\n", Image_Power);
++				ODM_Write4Byte(pDM_Odm, 0xeb8, 0x03000000);
++				reg1 = ODM_GetBBReg(pDM_Odm, 0xd40, 0xffffffff);
++				ODM_Write4Byte(pDM_Odm, 0xeb8, 0x04000000);
++				reg2 = ODM_GetBBReg(pDM_Odm, 0xd40, 0x0000001f);
++				Image_Power = (reg2<<32)+reg1;
++				DbgPrint("After PW = %d\n", Image_Power);
++				*/
++				TX1_Average++;
++				}
++			else{
++				cal1_retry++;
++				if (cal1_retry == 10)
++					break;
++				}
++			}
++			else{
++				cal0_retry++;
++				cal1_retry++;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Delay 20ms TX IQK Not Ready!!!!!\n"));
++				if (cal0_retry == 10)
++					break;	
++			}
++			if (TX0_Average >= 2){
++				for (i = 0; i < TX0_Average; i++){
++					for (ii = i+1; ii <TX0_Average; ii++){
++						dx = (TX_IQC_temp[i][0]>>21) - (TX_IQC_temp[ii][0]>>21);
++						if (dx < 4 && dx > -4){
++							dy = (TX_IQC_temp[i][1]>>21) - (TX_IQC_temp[ii][1]>>21);
++							if (dy < 4 && dy > -4){
++								TX_IQC[0] = ((TX_IQC_temp[i][0]>>21) + (TX_IQC_temp[ii][0]>>21))/2;
++								TX_IQC[1] = ((TX_IQC_temp[i][1]>>21) + (TX_IQC_temp[ii][1]>>21))/2;
++								ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TXA_X = %x;;TXA_Y = %x\n", TX_IQC[0]&0x000007ff, TX_IQC[1]&0x000007ff));
++								TX0_finish = TRUE;
++							}
++						}
++					}
++				}
++			}
++			if (TX1_Average >= 2){
++				for (i = 0; i < TX1_Average; i++){
++					for (ii = i+1; ii <TX1_Average; ii++){
++						dx = (TX_IQC_temp[i][2]>>21) - (TX_IQC_temp[ii][2]>>21);
++						if (dx < 4 && dx > -4){
++							dy = (TX_IQC_temp[i][3]>>21) - (TX_IQC_temp[ii][3]>>21);
++							if (dy < 4 && dy > -4){
++								TX_IQC[2] = ((TX_IQC_temp[i][2]>>21) + (TX_IQC_temp[ii][2]>>21))/2;
++								TX_IQC[3] = ((TX_IQC_temp[i][3]>>21) + (TX_IQC_temp[ii][3]>>21))/2;
++								ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TXB_X = %x;;TXB_Y = %x\n", TX_IQC[2]&0x000007ff, TX_IQC[3]&0x000007ff));
++								TX1_finish = TRUE;
++							}
++						}
++					}
++				}
++			}
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TX0_Average = %d, TX1_Average = %d\n", TX0_Average, TX1_Average));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TX0_finish = %d, TX1_finish = %d\n", TX0_finish, TX1_finish));
++			if (TX0_finish && TX1_finish)
++				break;
++			if ((cal0_retry + TX0_Average) >= 10 || (cal1_retry + TX1_Average) >= 10 )
++				break;
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TXA_cal_retry = %d\n", cal0_retry));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TXB_cal_retry = %d\n", cal1_retry));
++
++	}
++
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x58, 0x7fe00, ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x8, 0xffc00)); // Load LOK
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x58, 0x7fe00, ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x8, 0xffc00)); // Load LOK
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++	
++	if (VDF_enable == 1){}
++	else{
++		ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++		if (TX0_finish){
++		//====== Path A RX IQK RF Setting======
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, bRFRegOffsetMask, 0x80000);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, bRFRegOffsetMask, 0x30000);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, bRFRegOffsetMask, 0x3f7ff);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, bRFRegOffsetMask, 0xfe7bf);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x8f, bRFRegOffsetMask, 0x88001);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x65, bRFRegOffsetMask, 0x931d1);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, bRFRegOffsetMask, 0x00000);
++		}
++		if (TX1_finish){
++		//====== Path B RX IQK RF Setting======
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, bRFRegOffsetMask, 0x80000);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x30, bRFRegOffsetMask, 0x30000);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x31, bRFRegOffsetMask, 0x3f7ff);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x32, bRFRegOffsetMask, 0xfe7bf);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x8f, bRFRegOffsetMask, 0x88001);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x65, bRFRegOffsetMask, 0x931d1);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, bRFRegOffsetMask, 0x00000);
++		}
++		ODM_SetBBReg(pDM_Odm, 0x978, BIT(31), 0x1);
++		ODM_SetBBReg(pDM_Odm, 0x97c, BIT(31), 0x0);
++		ODM_Write4Byte(pDM_Odm, 0x90c, 0x00008000);
++                if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE)
++		     ODM_Write4Byte(pDM_Odm, 0x984, 0x0046a911);
++                else
++                     ODM_Write4Byte(pDM_Odm, 0x984, 0x0046a890);
++		//ODM_Write4Byte(pDM_Odm, 0x984, 0x0046a890);
++		if (pDM_Odm->RFEType == 1){
++		ODM_Write4Byte(pDM_Odm, 0xcb0, 0x77777717);
++		ODM_Write4Byte(pDM_Odm, 0xcb4, 0x00000077);
++		ODM_Write4Byte(pDM_Odm, 0xeb0, 0x77777717);
++		ODM_Write4Byte(pDM_Odm, 0xeb4, 0x00000077);
++		}
++		else{
++			ODM_Write4Byte(pDM_Odm, 0xcb0, 0x77777717);
++			ODM_Write4Byte(pDM_Odm, 0xcb4, 0x02000077);
++			ODM_Write4Byte(pDM_Odm, 0xeb0, 0x77777717);
++			ODM_Write4Byte(pDM_Odm, 0xeb4, 0x02000077);
++		}
++		
++		
++		ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++		if (TX0_finish){
++		ODM_Write4Byte(pDM_Odm, 0xc80, 0x38008c10);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++		ODM_Write4Byte(pDM_Odm, 0xc84, 0x18008c10);// RX_Tone_idx[9:0], RxK_Mask[29]
++		ODM_Write4Byte(pDM_Odm, 0xc88, 0x82140119);
++		}
++		if (TX1_finish){
++		ODM_Write4Byte(pDM_Odm, 0xe80, 0x38008c10);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++		ODM_Write4Byte(pDM_Odm, 0xe84, 0x18008c10);// RX_Tone_idx[9:0], RxK_Mask[29]
++		ODM_Write4Byte(pDM_Odm, 0xe88, 0x82140119);
++		}
++              cal0_retry = 0;
++		cal1_retry = 0;
++		while(1){
++		    // one shot
++		    	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++		    	if (TX0_finish){
++			ODM_SetBBReg(pDM_Odm, 0x978, 0x03FF8000, (TX_IQC[0])&0x000007ff);
++			ODM_SetBBReg(pDM_Odm, 0x978, 0x000007FF, (TX_IQC[1])&0x000007ff);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++			if (pDM_Odm->RFEType == 1){
++				ODM_Write4Byte(pDM_Odm, 0xc8c, 0x28161500);
++			}
++			else{
++				ODM_Write4Byte(pDM_Odm, 0xc8c, 0x28160cc0);
++			}
++			ODM_Write4Byte(pDM_Odm, 0xcb8, 0x00300000);// cb8[20] ±N SI/PI ¨Ï¥ÎÅv¤Áµ¹ iqk_dpk module
++			ODM_Write4Byte(pDM_Odm, 0xcb8, 0x00100000);
++			ODM_delay_ms(5); //Delay 5ms
++			ODM_Write4Byte(pDM_Odm, 0xc8c, 0x3c000000);
++			ODM_Write4Byte(pDM_Odm, 0xcb8, 0x00000000);
++		    	}
++			if (TX1_finish){
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++			ODM_SetBBReg(pDM_Odm, 0x978, 0x03FF8000, (TX_IQC[2])&0x000007ff);
++			ODM_SetBBReg(pDM_Odm, 0x978, 0x000007FF, (TX_IQC[3])&0x000007ff);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++			if (pDM_Odm->RFEType == 1){
++				ODM_Write4Byte(pDM_Odm, 0xe8c, 0x28161500);
++			}
++			else{
++				ODM_Write4Byte(pDM_Odm, 0xe8c, 0x28160ca0);
++			}
++			ODM_Write4Byte(pDM_Odm, 0xeb8, 0x00300000);// cb8[20] ±N SI/PI ¨Ï¥ÎÅv¤Áµ¹ iqk_dpk module
++			ODM_Write4Byte(pDM_Odm, 0xeb8, 0x00100000);// cb8[20] ±N SI/PI ¨Ï¥ÎÅv¤Áµ¹ iqk_dpk module
++			ODM_delay_ms(5); //Delay 5ms
++			ODM_Write4Byte(pDM_Odm, 0xe8c, 0x3c000000);
++			ODM_Write4Byte(pDM_Odm, 0xeb8, 0x00000000);
++			}
++			delay_count = 0;
++			while (1){
++				if (!RX0_finish && TX0_finish)
++					IQK0_ready = (BOOLEAN) ODM_GetBBReg(pDM_Odm, 0xd00, BIT(10));
++				if (!RX1_finish && TX1_finish)
++					IQK1_ready = (BOOLEAN) ODM_GetBBReg(pDM_Odm, 0xd40, BIT(10));
++				if ((IQK0_ready && IQK1_ready)||(delay_count>20))
++					break;
++				else{
++					ODM_delay_ms(1);
++					delay_count++;
++				}
++			}
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX delay_count = %d\n", delay_count));
++			if (delay_count < 20){	// If 20ms No Result, then cal_retry++
++				// ============RXIQK Check==============
++				RX0_fail = (BOOLEAN) ODM_GetBBReg(pDM_Odm, 0xd00, BIT(11));
++				RX1_fail = (BOOLEAN) ODM_GetBBReg(pDM_Odm, 0xd40, BIT(11));
++				if (!(RX0_fail || RX0_finish) && TX0_finish){
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x06000000);
++					RX_IQC_temp[RX0_Average][0] = ODM_GetBBReg(pDM_Odm, 0xd00, 0x07ff0000)<<21;
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x08000000);
++					RX_IQC_temp[RX0_Average][1] = ODM_GetBBReg(pDM_Odm, 0xd00, 0x07ff0000)<<21;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX_X0[%d] = %x ;; RX_Y0[%d] = %x\n", RX0_Average, (RX_IQC_temp[RX0_Average][0])>>21&0x000007ff, RX0_Average, (RX_IQC_temp[RX0_Average][1])>>21&0x000007ff));
++/*					
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x05000000);
++					reg1 = ODM_GetBBReg(pDM_Odm, 0xd00, 0xffffffff);
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x06000000);
++					reg2 = ODM_GetBBReg(pDM_Odm, 0xd00, 0x0000001f);
++					DbgPrint("reg1 = %d, reg2 = %d", reg1, reg2);
++					Image_Power = (reg2<<32)+reg1;
++					DbgPrint("Before PW = %d\n", Image_Power);
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x07000000);
++					reg1 = ODM_GetBBReg(pDM_Odm, 0xd00, 0xffffffff);
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x08000000);
++					reg2 = ODM_GetBBReg(pDM_Odm, 0xd00, 0x0000001f);
++					Image_Power = (reg2<<32)+reg1;
++					DbgPrint("After PW = %d\n", Image_Power);
++*/					
++					RX0_Average++;
++				}
++				else{
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("1. RXA_cal_retry = %d\n", cal0_retry));
++					cal0_retry++;
++					if (cal0_retry == 10)
++					break;
++				}
++				if (!(RX1_fail || RX1_finish) && TX1_finish){
++                            		ODM_Write4Byte(pDM_Odm, 0xeb8, 0x06000000);
++                            		RX_IQC_temp[RX1_Average][2] = ODM_GetBBReg(pDM_Odm, 0xd40, 0x07ff0000)<<21;
++                            		ODM_Write4Byte(pDM_Odm, 0xeb8, 0x08000000);
++                            		RX_IQC_temp[RX1_Average][3] = ODM_GetBBReg(pDM_Odm, 0xd40, 0x07ff0000)<<21;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX_X1[%d] = %x ;; RX_Y1[%d] = %x\n", RX1_Average, (RX_IQC_temp[RX1_Average][2])>>21&0x000007ff, RX1_Average, (RX_IQC_temp[RX1_Average][3])>>21&0x000007ff));
++/*					
++					ODM_Write4Byte(pDM_Odm, 0xeb8, 0x05000000);
++					reg1 = ODM_GetBBReg(pDM_Odm, 0xd40, 0xffffffff);
++					ODM_Write4Byte(pDM_Odm, 0xeb8, 0x06000000);
++					reg2 = ODM_GetBBReg(pDM_Odm, 0xd40, 0x0000001f);
++					DbgPrint("reg1 = %d, reg2 = %d", reg1, reg2);
++					Image_Power = (reg2<<32)+reg1;
++					DbgPrint("Before PW = %d\n", Image_Power);
++					ODM_Write4Byte(pDM_Odm, 0xeb8, 0x07000000);
++					reg1 = ODM_GetBBReg(pDM_Odm, 0xd40, 0xffffffff);
++					ODM_Write4Byte(pDM_Odm, 0xeb8, 0x08000000);
++					reg2 = ODM_GetBBReg(pDM_Odm, 0xd40, 0x0000001f);
++					Image_Power = (reg2<<32)+reg1;
++					DbgPrint("After PW = %d\n", Image_Power);
++*/				
++					RX1_Average++;
++                        	}
++                        	else{
++                            		cal1_retry++;
++                            		if (cal1_retry == 10)
++                                		break;
++                    		}
++				
++			}
++			else{
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("2. RXA_cal_retry = %d\n", cal0_retry));
++				cal0_retry++;
++				cal1_retry++;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Delay 20ms RX IQK Not Ready!!!!!\n"));
++			    if (cal0_retry == 10)
++			        break;
++			}
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("3. RXA_cal_retry = %d\n", cal0_retry));
++			if (RX0_Average >= 2){
++				for (i = 0; i < RX0_Average; i++){
++					for (ii = i+1; ii <RX0_Average; ii++){
++					dx = (RX_IQC_temp[i][0]>>21) - (RX_IQC_temp[ii][0]>>21);
++						if (dx < 4 && dx > -4){
++						dy = (RX_IQC_temp[i][1]>>21) - (RX_IQC_temp[ii][1]>>21);
++							if (dy < 4 && dy > -4){
++								RX_IQC[0]= ((RX_IQC_temp[i][0]>>21) + (RX_IQC_temp[ii][0]>>21))/2;
++								RX_IQC[1] = ((RX_IQC_temp[i][1]>>21) + (RX_IQC_temp[ii][1]>>21))/2;
++								RX0_finish = TRUE;
++								break;
++							}
++						}
++					}
++				}
++			}
++			if (RX1_Average >= 2){
++				for (i = 0; i < RX1_Average; i++){
++					for (ii = i+1; ii <RX1_Average; ii++){
++					dx = (RX_IQC_temp[i][2]>>21) - (RX_IQC_temp[ii][2]>>21);
++						if (dx < 4 && dx > -4){
++						dy = (RX_IQC_temp[i][3]>>21) - (RX_IQC_temp[ii][3]>>21);
++							if (dy < 4 && dy > -4){
++								RX_IQC[2] = ((RX_IQC_temp[i][2]>>21) + (RX_IQC_temp[ii][2]>>21))/2;
++								RX_IQC[3] = ((RX_IQC_temp[i][3]>>21) + (RX_IQC_temp[ii][3]>>21))/2;
++								RX1_finish = TRUE;
++								break;
++							}
++						}
++					}
++				}
++			}
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX0_Average = %d, RX1_Average = %d\n", RX0_Average, RX1_Average));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX0_finish = %d, RX1_finish = %d\n", RX0_finish, RX1_finish));
++			if ((RX0_finish|| !TX0_finish) && (RX1_finish || !TX1_finish) )
++				break;
++			if ((cal0_retry + RX0_Average) >= 10 || (cal1_retry + RX1_Average) >= 10 || RX0_Average == 3 || RX1_Average == 3)
++				break;
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RXA_cal_retry = %d\n", cal0_retry));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RXB_cal_retry = %d\n", cal1_retry));
++	}
++
++	// FillIQK Result
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("========Path_A =======\n"));
++
++	if (TX0_finish){
++		_IQK_TX_FillIQC_8812A(pDM_Odm, ODM_RF_PATH_A, TX_IQC[0], TX_IQC[1]);
++	}
++	else{
++		_IQK_TX_FillIQC_8812A(pDM_Odm, ODM_RF_PATH_A, 0x200, 0x0);
++	}
++
++
++
++	if (RX0_finish){
++		_IQK_RX_FillIQC_8812A(pDM_Odm, ODM_RF_PATH_A, RX_IQC[0], RX_IQC[1]);
++	}
++	else{
++		_IQK_RX_FillIQC_8812A(pDM_Odm, ODM_RF_PATH_A, 0x200, 0x0);
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("========Path_B =======\n"));
++
++	if (TX1_finish){
++		_IQK_TX_FillIQC_8812A(pDM_Odm, ODM_RF_PATH_B, TX_IQC[2], TX_IQC[3]);
++	}
++	else{
++		_IQK_TX_FillIQC_8812A(pDM_Odm, ODM_RF_PATH_B, 0x200, 0x0);
++	}
++
++
++
++	if (RX1_finish){
++		_IQK_RX_FillIQC_8812A(pDM_Odm, ODM_RF_PATH_B, RX_IQC[2], RX_IQC[3]);
++	}
++	else{
++		_IQK_RX_FillIQC_8812A(pDM_Odm, ODM_RF_PATH_B, 0x200, 0x0);
++	}
++
++
++		
++}
++
++#define MACBB_REG_NUM 9
++#define AFE_REG_NUM 12
++#define RF_REG_NUM 3
++
++// Maintained by BB James.
++VOID	
++phy_IQCalibrate_8812A(
++	IN PDM_ODM_T		pDM_Odm,
++	IN u1Byte		Channel
++	)
++{
++	u4Byte	MACBB_backup[MACBB_REG_NUM], AFE_backup[AFE_REG_NUM] = {0}, RFA_backup[RF_REG_NUM] = {0}, RFB_backup[RF_REG_NUM] = {0};
++	u4Byte 	Backup_MACBB_REG[MACBB_REG_NUM] = {0x520, 0x550, 0x808, 0xa04, 0x90c, 0xc00, 0xe00, 0x838,  0x82c}; 
++	u4Byte 	Backup_AFE_REG[AFE_REG_NUM] = {0xc5c, 0xc60, 0xc64, 0xc68, 0xcb0, 0xcb4,
++		       	                                                   0xe5c, 0xe60, 0xe64, 0xe68, 0xeb0, 0xeb4}; 
++	u4Byte	Reg_C1B8, Reg_E1B8;
++	u4Byte 	Backup_RF_REG[RF_REG_NUM] = {0x65, 0x8f, 0x0}; 
++	u1Byte 	chnlIdx = ODM_GetRightChnlPlaceforIQK(Channel);
++	
++	_IQK_BackupMacBB_8812A(pDM_Odm, MACBB_backup, Backup_MACBB_REG, MACBB_REG_NUM);
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++	Reg_C1B8 = ODM_Read4Byte(pDM_Odm, 0xcb8);
++	Reg_E1B8 = ODM_Read4Byte(pDM_Odm, 0xeb8);
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++	_IQK_BackupAFE_8812A(pDM_Odm, AFE_backup, Backup_AFE_REG, AFE_REG_NUM);
++	_IQK_BackupRF_8812A(pDM_Odm, RFA_backup, RFB_backup, Backup_RF_REG, RF_REG_NUM);
++	
++	_IQK_ConfigureMAC_8812A(pDM_Odm);
++	_IQK_Tx_8812A(pDM_Odm, chnlIdx);
++	_IQK_RestoreRF_8812A(pDM_Odm, ODM_RF_PATH_A, Backup_RF_REG, RFA_backup, RF_REG_NUM);
++	_IQK_RestoreRF_8812A(pDM_Odm, ODM_RF_PATH_B, Backup_RF_REG, RFB_backup, RF_REG_NUM);
++	
++	_IQK_RestoreAFE_8812A(pDM_Odm, AFE_backup, Backup_AFE_REG, AFE_REG_NUM);
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++	ODM_Write4Byte(pDM_Odm, 0xcb8, Reg_C1B8);
++	ODM_Write4Byte(pDM_Odm, 0xeb8, Reg_E1B8);
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++	_IQK_RestoreMacBB_8812A(pDM_Odm, MACBB_backup, Backup_MACBB_REG, MACBB_REG_NUM);
++
++
++}
++
++VOID	
++phy_LCCalibrate_8812A(
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	BOOLEAN		is2T
++	)
++{
++	u4Byte	/*RF_Amode=0, RF_Bmode=0,*/ LC_Cal = 0, tmp = 0;
++	
++	//Check continuous TX and Packet TX
++	u4Byte	reg0x914 = ODM_Read4Byte(pDM_Odm, rSingleTone_ContTx_Jaguar);;
++
++	// Backup RF reg18.
++	LC_Cal = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_CHNLBW, bRFRegOffsetMask);
++
++	if((reg0x914 & 0x70000) != 0)	//If contTx, disable all continuous TX. 0x914[18:16]
++		// <20121121, Kordan> A workaround: If we set 0x914[18:16] as zero, BB turns off ContTx
++		// until another packet comes in. To avoid ContTx being turned off, we skip this step.
++		;//ODM_Write4Byte(pDM_Odm, rSingleTone_ContTx_Jaguar, reg0x914 & (~0x70000));	
++	else							// If packet Tx-ing, pause Tx.
++		ODM_Write1Byte(pDM_Odm, REG_TXPAUSE, 0xFF);			
++
++
++/*
++	//3 1. Read original RF mode
++	RF_Amode = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_AC, bRFRegOffsetMask);
++	if(is2T)
++		RF_Bmode = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_AC, bRFRegOffsetMask);	
++
++
++	//3 2. Set RF mode = standby mode
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_AC, bRFRegOffsetMask, (RF_Amode&0x8FFFF)|0x10000);
++	if(is2T)
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_AC, bRFRegOffsetMask, (RF_Bmode&0x8FFFF)|0x10000);			
++*/
++
++	// Enter LCK mode
++	tmp = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_LCK, bRFRegOffsetMask);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_LCK, bRFRegOffsetMask, tmp | BIT14);
++
++	//3 3. Read RF reg18
++	LC_Cal = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_CHNLBW, bRFRegOffsetMask);
++	
++	//3 4. Set LC calibration begin bit15
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_CHNLBW, bRFRegOffsetMask, LC_Cal|0x08000);
++
++	ODM_delay_ms(150);		// suggest by RFSI Binson
++	
++	// Leave LCK mode
++	tmp = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_LCK, bRFRegOffsetMask);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_LCK, bRFRegOffsetMask, tmp & ~BIT14);
++	
++	
++
++	//3 Restore original situation
++	if((reg0x914 & 70000) != 0) 	//Deal with contisuous TX case, 0x914[18:16]
++	{  
++		// <20121121, Kordan> A workaround: If we set 0x914[18:16] as zero, BB turns off ContTx
++		// until another packet comes in. To avoid ContTx being turned off, we skip this step.
++		//ODM_Write4Byte(pDM_Odm, rSingleTone_ContTx_Jaguar, reg0x914); 
++	}
++	else // Deal with Packet TX case
++	{
++		ODM_Write1Byte(pDM_Odm, REG_TXPAUSE, 0x00);	
++	}
++
++	// Recover channel number
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_CHNLBW, bRFRegOffsetMask, LC_Cal);
++
++	/*
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_AC, bRFRegOffsetMask, RF_Amode);
++	if(is2T)
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_AC, bRFRegOffsetMask, RF_Bmode);
++		*/
++
++}
++
++
++
++
++
++#define		DP_BB_REG_NUM		7
++#define		DP_RF_REG_NUM		1
++#define		DP_RETRY_LIMIT		10
++#define		DP_PATH_NUM		2
++#define		DP_DPK_NUM			3
++#define		DP_DPK_VALUE_NUM	2
++
++VOID	
++phy_ReloadIQKSetting_8812A(
++ 	IN	PDM_ODM_T	pDM_Odm,
++	IN	u1Byte		Channel
++ 	)
++{
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	u1Byte chnlIdx = ODM_GetRightChnlPlaceforIQK(Channel);
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++	ODM_SetBBReg(pDM_Odm, 0xccc, 0x000007ff, pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][0]&0x7ff);
++	ODM_SetBBReg(pDM_Odm, 0xcd4, 0x000007ff, (pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][0]&0x7ff0000)>>16);
++	ODM_SetBBReg(pDM_Odm, 0xecc, 0x000007ff, pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][2]&0x7ff);
++	ODM_SetBBReg(pDM_Odm, 0xed4, 0x000007ff, (pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][2]&0x7ff0000)>>16);
++
++	if (*pDM_Odm->pBandWidth != 2){
++		ODM_Write4Byte(pDM_Odm, 0xce8, 0x0);
++		ODM_Write4Byte(pDM_Odm, 0xee8, 0x0);
++	}
++	else{
++		ODM_Write4Byte(pDM_Odm, 0xce8, pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][4]);
++		ODM_Write4Byte(pDM_Odm, 0xee8, pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][5]);
++	}
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	ODM_SetBBReg(pDM_Odm, 0xc10, 0x000003ff, (pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][1]&0x7ff0000)>>17);
++	ODM_SetBBReg(pDM_Odm, 0xc10, 0x03ff0000, (pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][1]&0x7ff)>>1);
++	ODM_SetBBReg(pDM_Odm, 0xe10, 0x000003ff, (pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][3]&0x7ff0000)>>17);
++	ODM_SetBBReg(pDM_Odm, 0xe10, 0x03ff0000, (pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][3]&0x7ff)>>1);
++	
++
++}
++
++VOID 
++PHY_ResetIQKResult_8812A(
++	IN	PDM_ODM_T	pDM_Odm
++)
++{
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++	ODM_SetBBReg(pDM_Odm, 0xccc, 0x000007ff, 0x0);
++	ODM_SetBBReg(pDM_Odm, 0xcd4, 0x000007ff, 0x200);
++	ODM_SetBBReg(pDM_Odm, 0xecc, 0x000007ff, 0x0);
++	ODM_SetBBReg(pDM_Odm, 0xed4, 0x000007ff, 0x200);
++	ODM_Write4Byte(pDM_Odm, 0xce8, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xee8, 0x0);
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	ODM_SetBBReg(pDM_Odm, 0xc10, 0x000003ff, 0x100);
++	ODM_SetBBReg(pDM_Odm, 0xe10, 0x000003ff, 0x100);
++}
++
++VOID
++phy_IQCalibrate_By_FW_8812A(
++	IN	PADAPTER	pAdapter
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++	u1Byte			IQKcmd[3] = {pHalData->CurrentChannel, 0x0, 0x0};
++	u1Byte			Buf1 = 0x0;
++	u1Byte			Buf2 = 0x0;
++
++//Byte 2, Bit 4 ~ Bit 5 : BandType
++	if(pHalData->CurrentBandType)
++		Buf1 = 0x2<<4;
++	else
++		Buf1 = 0x1<<4;
++	
++//Byte 2, Bit 0 ~ Bit 3 : Bandwidth
++	if(pHalData->CurrentChannelBW == CHANNEL_WIDTH_20)
++		Buf2 = 0x1;
++	else if(pHalData->CurrentChannelBW == CHANNEL_WIDTH_40)
++		Buf2 = 0x1<<1;
++	else if(pHalData->CurrentChannelBW == CHANNEL_WIDTH_80)
++		Buf2 = 0x1<<2;
++	else
++		Buf2 = 0x1<<3;
++	
++	IQKcmd[1] = Buf1 | Buf2;
++	IQKcmd[2] = pHalData->ExternalPA_5G | pHalData->ExternalLNA_5G<<1;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("== IQK Start ==\n"));
++
++	FillH2CCmd_8812(pAdapter, 0x45, 3, IQKcmd);
++
++	rtl8812_iqk_wait(pAdapter, 500);
++}
++
++VOID
++PHY_IQCalibrate_8812A(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN 	bReCovery
++	)
++{
++	u4Byte			counter = 0;
++	u4Byte			StartTime; 
++	s4Byte			ProgressingTime;
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);	
++
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	PMGNT_INFO		pMgntInfo = &(pAdapter->MgntInfo);
++	#else  // (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;	
++	#endif
++#endif	
++
++#if (MP_DRIVER == 1)
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->MptCtx);	
++	#else// (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);		
++	#endif	
++#endif//(MP_DRIVER == 1)
++
++//#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE) )
++	//if (ODM_CheckPowerStatus(pAdapter) == FALSE)
++		//return;
++//#endif
++	pDM_Odm->IQKFWOffload = 0;
++	StartTime = ODM_GetCurrentTime( pDM_Odm);
++
++#if MP_DRIVER == 1	
++	if( ! (pMptCtx->bSingleTone || pMptCtx->bCarrierSuppression) )
++#endif		
++	{
++
++		if(pDM_Odm->IQKFWOffload)
++		{
++			phy_IQCalibrate_By_FW_8812A(pAdapter);
++		}
++		else
++		{
++			phy_IQCalibrate_8812A(pDM_Odm, pHalData->CurrentChannel);
++		}
++	}
++	ProgressingTime = ODM_GetProgressingTime( pDM_Odm, StartTime);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("IQK ProgressingTime = %d\n", ProgressingTime));
++}
++
++
++VOID
++PHY_LCCalibrate_8812A(
++	IN	PVOID		pDM_VOID
++	)
++{
++	BOOLEAN 		bStartContTx = FALSE, bSingleTone = FALSE, bCarrierSuppression = FALSE;
++	u4Byte			StartTime; 
++	s4Byte			ProgressingTime;
++	PDM_ODM_T		pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	PADAPTER 		pAdapter = pDM_Odm->Adapter;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);	
++
++	#if (MP_DRIVER == 1)
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->MptCtx);	
++	#else// (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);		
++	#endif
++	bStartContTx = pMptCtx->bStartContTx;
++	bSingleTone = pMptCtx->bSingleTone;
++	bCarrierSuppression = pMptCtx->bCarrierSuppression;
++	#endif//(MP_DRIVER == 1)
++#endif	
++
++	StartTime = ODM_GetCurrentTime( pDM_Odm);
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> PHY_LCCalibrate_8812A\n"));
++	
++	phy_LCCalibrate_8812A(pDM_Odm, TRUE);
++
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== PHY_LCCalibrate_8812A\n"));
++	ProgressingTime = ODM_GetProgressingTime( pDM_Odm, StartTime);
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD,  ("LCK ProgressingTime = %d\n", ProgressingTime));
++
++}
++
++VOID phy_SetRFPathSwitch_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	BOOLEAN		bMain,
++	IN	BOOLEAN		is2T
++	)
++{
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++
++#endif		
++
++	if (IS_HARDWARE_TYPE_8821(pAdapter)) 
++	{
++		if(bMain)
++			ODM_SetBBReg(pDM_Odm, rA_RFE_Pinmux_Jaguar+4, BIT29|BIT28, 0x1);	//Main
++		else
++			ODM_SetBBReg(pDM_Odm, rA_RFE_Pinmux_Jaguar+4, BIT29|BIT28, 0x2);	//Aux
++	}
++	else if (IS_HARDWARE_TYPE_8812(pAdapter)) 
++	{
++		if (pHalData->RFEType == 5)
++		{
++			if(bMain) {
++				//WiFi 
++				ODM_SetBBReg(pDM_Odm, r_ANTSEL_SW_Jaguar, BIT1|BIT0, 0x2);  
++            	ODM_SetBBReg(pDM_Odm, r_ANTSEL_SW_Jaguar, BIT9|BIT8, 0x3);  
++			} else {
++				// BT
++				ODM_SetBBReg(pDM_Odm, r_ANTSEL_SW_Jaguar, BIT1|BIT0, 0x1);  
++            	ODM_SetBBReg(pDM_Odm, r_ANTSEL_SW_Jaguar, BIT9|BIT8, 0x3);  
++			}
++		}
++	}
++
++}
++
++VOID PHY_SetRFPathSwitch_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	BOOLEAN		bMain
++	)
++{
++
++#if DISABLE_BB_RF
++	return;
++#endif
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++
++		phy_SetRFPathSwitch_8812A(pAdapter, bMain, TRUE);
++
++#endif		
++}
++
++
++VOID
++_DPK_ThermalCompensation(
++	IN 	PDM_ODM_T	pDM_Odm
++	)
++{
++}
++
++VOID
++_DPK_parareload(
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN pu4Byte		MACBB_backup,
++	IN pu4Byte		Backup_MACBB_REG, 
++	IN u4Byte		MACBB_NUM
++
++	
++	)
++{
++	u4Byte i;
++
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	 //save MACBB default value
++	for (i = 0; i < MACBB_NUM; i++){
++		ODM_Write4Byte(pDM_Odm, Backup_MACBB_REG[i], MACBB_backup[i]);
++	}
++}
++
++
++VOID
++_DPK_parabackup(
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN pu4Byte		MACBB_backup,
++	IN pu4Byte		Backup_MACBB_REG, 
++	IN u4Byte		MACBB_NUM
++
++	
++	)
++{
++	u4Byte i;
++
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	 //save MACBB default value
++	for (i = 0; i < MACBB_NUM; i++){
++		MACBB_backup[i] = ODM_Read4Byte(pDM_Odm, Backup_MACBB_REG[i]);
++	}
++}
++
++VOID
++_DPK_Globalparaset(
++	IN 	PDM_ODM_T	pDM_Odm	
++	)
++{
++
++    //***************************************//
++	//set MAC register
++	//***************************************//
++	
++	//TX pause
++	ODM_Write4Byte(pDM_Odm, 0x520, 0x007f3F0F);
++
++	//***************************************//
++	//set BB register
++	//***************************************//
++	
++	// reg82c[31] = b'0, ¤Á´«¨ì page C
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083d5);
++
++	// test pin in/out control
++	ODM_Write4Byte(pDM_Odm, 0x970, 0x00000000);
++
++	// path A regcb8[3:0] = h'd, TRSW to TX
++	ODM_Write4Byte(pDM_Odm, 0xcb8, 0x0050824d);	
++
++	// path B regeb8[3:0] = h'd, TRSW to TX
++	ODM_Write4Byte(pDM_Odm, 0xeb8, 0x0050824d);	
++	
++	// reg838[3:0] = h'c, CCA off
++	ODM_Write4Byte(pDM_Odm, 0x838, 0x06c8d24c);	
++
++	// path A 3-wire off
++	ODM_Write4Byte(pDM_Odm, 0xc00, 0x00000004);	
++	
++	// path B 3-wire off
++	ODM_Write4Byte(pDM_Odm, 0xe00, 0x00000004);	
++	
++	// reg90c[15] = b'1, DAC fifo reset by CSWU
++	ODM_Write4Byte(pDM_Odm, 0x90c, 0x00008000);	
++	
++	// reset DPK circuit
++	ODM_Write4Byte(pDM_Odm, 0xb00, 0x03000100);		
++	
++	// path A regc94[0] = b'1 (r_gothrough_iqkdpk), ±N DPK ¤Á¶i normal path
++	ODM_Write4Byte(pDM_Odm, 0xc94, 0x01000001);	
++
++	// path B rege94[0] = b'1 (r_gothrough_iqkdpk), ±N DPK ¤Á¶i normal path
++	ODM_Write4Byte(pDM_Odm, 0xe94, 0x01000001);			
++
++	//***************************************//
++	//set AFE register
++	//***************************************//
++
++	//path A
++ 	//regc68 ¨ì regc84À³¸Ó¬O­n¸ò¥¿±` Tx mode ®Éªº³]©w¤@­P
++
++	ODM_Write4Byte(pDM_Odm, 0xc68, 0x19791979);	
++	ODM_Write4Byte(pDM_Odm, 0xc6c, 0x19791979);	
++	ODM_Write4Byte(pDM_Odm, 0xc70, 0x19791979);	
++	ODM_Write4Byte(pDM_Odm, 0xc74, 0x19791979);	
++	ODM_Write4Byte(pDM_Odm, 0xc78, 0x19791979);	
++	ODM_Write4Byte(pDM_Odm, 0xc7c, 0x19791979);	
++	ODM_Write4Byte(pDM_Odm, 0xc80, 0x19791979);	
++	ODM_Write4Byte(pDM_Odm, 0xc84, 0x19791979);	
++
++	// force DAC/ADC power on
++	ODM_Write4Byte(pDM_Odm, 0xc60, 0x77777777);	
++	ODM_Write4Byte(pDM_Odm, 0xc64, 0x77777777);	
++
++	//path B
++ 	//rege68 ¨ì rege84À³¸Ó¬O­n¸ò¥¿±` Tx mode ®Éªº³]©w¤@­P
++
++	ODM_Write4Byte(pDM_Odm, 0xe68, 0x19791979);	
++	ODM_Write4Byte(pDM_Odm, 0xe6c, 0x19791979);	
++	ODM_Write4Byte(pDM_Odm, 0xe70, 0x19791979);	
++	ODM_Write4Byte(pDM_Odm, 0xe74, 0x19791979);	
++	ODM_Write4Byte(pDM_Odm, 0xe78, 0x19791979);	
++	ODM_Write4Byte(pDM_Odm, 0xe7c, 0x19791979);	
++	ODM_Write4Byte(pDM_Odm, 0xe80, 0x19791979);	
++	ODM_Write4Byte(pDM_Odm, 0xe84, 0x19791979);	
++
++	// force DAC/ADC power on
++	ODM_Write4Byte(pDM_Odm, 0xe60, 0x77777777);	
++	ODM_Write4Byte(pDM_Odm, 0xe64, 0x77777777);	
++
++}
++
++
++VOID
++_DPK_GetGainLoss(
++	IN 	PDM_ODM_T	pDM_Odm, 
++	IN u1Byte path
++	)
++{
++	u4Byte GL_I=0,GL_Q=0;
++	u4Byte GL_I_tmp=0,GL_Q_tmp=0;
++	
++	u4Byte Power_GL;
++	u2Byte Scaler[]={0x4000, 0x41db, 0x43c7, 0x45c3, 0x47cf, 0x49ec, 0x4c19, 0x4e46, 0x5093,0x52f2,  //10
++					 0x5560, 0x57cf, 0x5a7f, 0x5d0e, 0x5fbe
++						};
++	u1Byte sindex=0;
++	u4Byte pagesel = 0,regsel = 0;
++
++	if(path == 0)  //pathA
++		{
++		pagesel = 0;
++		regsel = 0;
++		}
++	else	//pathB
++		{
++		pagesel = 0x200;
++		regsel = 0x40;
++		}
++
++	ODM_Write4Byte(pDM_Odm, 0xc90+pagesel, 0x0601f0bf);	
++	ODM_Write4Byte(pDM_Odm, 0xcb8+pagesel, 0x0c000000);	
++
++
++
++	GL_I_tmp = ODM_GetBBReg(pDM_Odm, 0xd00+regsel, 0xffff0000);
++	GL_Q_tmp = ODM_GetBBReg(pDM_Odm, 0xd00+regsel, 0x0000ffff);
++
++    if(GL_I_tmp >= 0x8000)
++		GL_I = (GL_I_tmp-0x8000+0x1);
++	else
++		GL_I = GL_I_tmp;
++
++
++    if(GL_Q_tmp >= 0x8000)
++		GL_Q = (GL_Q_tmp-0x8000+0x1);
++	else
++		GL_Q = GL_Q_tmp;	
++	
++ 	Power_GL = ((GL_I*GL_I)+(GL_Q*GL_Q))/4;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Power_GL = 0x%x", Power_GL));
++
++	if (Power_GL > 63676){
++		sindex = 0;
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Gainloss = 0 dB\n"));
++		}
++	else if (63676 >= Power_GL && Power_GL > 60114){
++		sindex = 1;	
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Gainloss = 	0.25 dB\n"));
++		}		
++	else if (60114 >= Power_GL && Power_GL> 56751){
++		sindex = 2;	
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Gainloss = 	0.5 dB\n"));
++		}
++	else if (56751 >= Power_GL && Power_GL> 53577){
++		sindex = 3;	
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Gainloss = 	0.75 dB\n"));
++		}
++	else if (53577 >= Power_GL && Power_GL> 49145){
++		sindex = 4;	
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Gainloss = 	1 dB\n"));
++		}
++	else if (49145 >= Power_GL && Power_GL> 47750){
++		sindex = 5;	
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Gainloss = 	1.25 dB\n"));
++		}
++	else if (47750 >= Power_GL && Power_GL> 45079){
++		sindex = 6;	
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Gainloss = 	1.5 dB\n"));
++		}
++	else if (45079 >= Power_GL && Power_GL> 42557){
++		sindex = 7;	
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Gainloss = 	1.75 dB\n"));
++		}
++	else if (42557 >= Power_GL && Power_GL> 40177){
++		sindex = 8;	
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Gainloss = 	2 dB\n"));
++		}
++	else if (40177 >= Power_GL && Power_GL> 37929){
++		sindex = 9;	
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Gainloss = 	2.25 dB\n"));
++		}
++	else if (37929 >= Power_GL && Power_GL> 35807){
++		sindex = 10;	
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Gainloss = 	2.5 dB\n"));
++		}
++	else if (35807 >= Power_GL && Power_GL> 33804){
++		sindex = 11;	
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Gainloss = 	2.75 dB\n"));
++		}
++	else if (33804 >= Power_GL && Power_GL> 31913){
++		sindex = 12;	
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Gainloss = 	3 dB\n"));
++		}
++	else if (31913 >= Power_GL && Power_GL> 30128){
++		sindex = 13;	
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Gainloss = 	3.25 dB\n"));
++		}
++	else if (30128 >= Power_GL){
++		sindex = 14;	
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Gainloss = 	3.5 dB\n"));
++		}
++
++
++	ODM_Write4Byte(pDM_Odm, 0xc98+pagesel, (Scaler[sindex] << 16) | Scaler[sindex]);
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Set Gainloss reg 0xc98(0xe98)= 0x%x\n",ODM_Read4Byte(pDM_Odm, 0xc98+pagesel)));
++
++}
++
++
++VOID	
++_DPK_EnableDP(
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN u1Byte path,
++	IN u4Byte TXindex
++	)
++{
++
++	//***************************************//
++	//Enable DP
++	//***************************************// 
++
++	//PWSF[6] = 0x40 = 0dB, set the address represented TXindex as 0dB
++	u1Byte PWSF[] = { 0xff, 0xca, 0xa1, 0x80, 0x65, 0x51, 0x40,  //6~0dB
++				  0x33, 0x28, 0x20, 0x19, 0x14, 0x10, 0x0d,  //-1~-7dB
++				  0x0a, 0x08, 0x06, 0x05, 0x04, 0x03, 0x03,  //-8~-14dB
++				  0x02, 0x02, 0x01, 0x01,
++				  };
++	u1Byte zeropoint;
++	u1Byte pwsf1,pwsf2;
++	u1Byte i;
++	u4Byte pagesel = 0,regsel = 0;
++
++	if(path == 0)
++		{
++		pagesel = 0;
++		regsel = 0;
++		}
++	else
++		{
++		pagesel = 0x200;
++		regsel = 0x40;
++		}
++
++
++	//=========//
++	// DPK setting	//
++	//=========//
++	// reg82c[31] = b'1, ¤Á´«¨ì page C1
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x802083d5); 
++
++
++	ODM_Write4Byte(pDM_Odm, 0xc90+pagesel, 0x0000f098); 
++	ODM_Write4Byte(pDM_Odm, 0xc94+pagesel, 0x776c9f84); 
++	ODM_Write4Byte(pDM_Odm, 0xcc4+pagesel, 0x08840000); 
++	ODM_Write4Byte(pDM_Odm, 0xcc8+pagesel, 0x20000000); 		
++	ODM_Write4Byte(pDM_Odm, 0xc8c+pagesel, 0x3c000000); 
++
++
++	// ¼gPWSF table in 1st SRAM for PA = 11 use
++	ODM_Write4Byte(pDM_Odm, 0xc20+pagesel, 0x00000800); 
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Write PWSF table\n"));
++
++
++	if(TXindex == 0x1f)
++		zeropoint = 0;
++	else if(TXindex == 0x1e)
++		zeropoint = 1;
++	else if(TXindex == 0x1d)
++		zeropoint = 2;
++	else if(TXindex == 0x1c)
++		zeropoint = 3;
++	else if(TXindex == 0x1b)
++		zeropoint = 4;
++	else if(TXindex == 0x1a)
++		zeropoint = 5;
++	else if(TXindex == 0x19)
++		zeropoint = 6;
++	else
++		zeropoint = 6;
++
++	
++
++	for(i=0;i<16;i++)
++		{
++			pwsf1 = (6-zeropoint)+i*2;
++			if(pwsf1 > 24)
++				pwsf1 = 24;
++
++			pwsf2 = (6-zeropoint-1)+i*2;
++			if(pwsf2 > 24)
++				pwsf2 = 24;
++
++			ODM_Write4Byte(pDM_Odm, 0xce4+pagesel, 0x00000001 | i<<1 | (PWSF[pwsf1]<<8) | (PWSF[pwsf2]<<16));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0x%x\n", ODM_Read4Byte(pDM_Odm, 0xce4+pagesel)));
++			ODM_SetBBReg(pDM_Odm, 0xce4+pagesel, 0xff, 0x0);	
++	}
++
++	ODM_Write4Byte(pDM_Odm, 0xce4+pagesel, 0x00000000); 
++
++	// reg82c[31] = b'0, ¤Á´«¨ì page C
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083d5); 
++
++}
++
++
++VOID
++_DPK_pathABDPK(
++	IN 	PDM_ODM_T	pDM_Odm	
++	)
++{
++	u4Byte TXindex = 0;
++	u1Byte path = 0;
++	u4Byte pagesel = 0,regsel = 0;
++	u4Byte i=0,j=0;
++	
++	for(path=0;path<2;path ++)	//path A = 0; path B = 1;
++		{
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("path %s DPK start!!!\n", (path==0)?"A":"B"));
++
++		if(path == 0)
++			{
++			pagesel = 0;
++			regsel = 0;
++			}
++		else
++			{
++			pagesel = 0x200;
++			regsel = 0x40;
++			}
++		
++    //***************************************//
++	//find compress-2.5dB TX index
++	//***************************************//
++
++	
++	// reg82c[31] = b'1, ¤Á´«¨ì page C1
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x802083d5);
++
++	// regc20[15:13] = dB sel, §i¶D Gain Loss function ¥h´M§ä dB_sel ©Ò³]©wªºPA gain loss¥Ø¼Ð©Ò¹ïÀ³ªº Tx AGC ¬°¦ó.
++	// dB_sel = b'000 ' 1.0 dB PA gain loss
++	// dB_sel = b'001 ' 1.5 dB PA gain loss
++	// dB_sel = b'010 ' 2.0 dB PA gain loss
++	// dB_sel = b'011 ' 2.5 dB PA gain loss
++	// dB_sel = b'100 ' 3.0 dB PA gain loss
++	// dB_sel = b'101 ' 3.5 dB PA gain loss
++	// dB_sel = b'110 ' 4.0 dB PA gain loss
++	ODM_Write4Byte(pDM_Odm, 0xc20+pagesel, 0x00006000);
++
++	ODM_Write4Byte(pDM_Odm, 0xc90+pagesel, 0x0401e038);	
++	ODM_Write4Byte(pDM_Odm, 0xc94+pagesel, 0xf76c9f84);	
++	ODM_Write4Byte(pDM_Odm, 0xcc8+pagesel, 0x000c5599);	
++	ODM_Write4Byte(pDM_Odm, 0xcc4+pagesel, 0x148b0000);	
++	ODM_Write4Byte(pDM_Odm, 0xc8c+pagesel, 0x3c000000);	
++
++	// tx_amp ' ¨M©w Ramp ¤¤¦U©¶ªiªº®¶´T¤j¤p
++	ODM_Write4Byte(pDM_Odm, 0xc98+pagesel, 0x41382e21);	
++	ODM_Write4Byte(pDM_Odm, 0xc9c+pagesel, 0x5b554f48);	
++	ODM_Write4Byte(pDM_Odm, 0xca0+pagesel, 0x6f6b6661);	
++	ODM_Write4Byte(pDM_Odm, 0xca4+pagesel, 0x817d7874);	
++	ODM_Write4Byte(pDM_Odm, 0xca8+pagesel, 0x908c8884);	
++	ODM_Write4Byte(pDM_Odm, 0xcac+pagesel, 0x9d9a9793);	
++	ODM_Write4Byte(pDM_Odm, 0xcb0+pagesel, 0xaaa7a4a1);	
++	ODM_Write4Byte(pDM_Odm, 0xcb4+pagesel, 0xb6b3b0ad);
++	
++	// tx_inverse ' Ramp ¤¤¦U©¶ªipower ªº­Ë¼Æ, ¥H­pºâ¥X PA ªº gain report??
++	ODM_Write4Byte(pDM_Odm, 0xc40+pagesel, 0x02ce03e9);	
++	ODM_Write4Byte(pDM_Odm, 0xc44+pagesel, 0x01fd0249);	
++	ODM_Write4Byte(pDM_Odm, 0xc48+pagesel, 0x01a101c9);	
++	ODM_Write4Byte(pDM_Odm, 0xc4c+pagesel, 0x016a0181);	
++	ODM_Write4Byte(pDM_Odm, 0xc50+pagesel, 0x01430155);	
++	ODM_Write4Byte(pDM_Odm, 0xc54+pagesel, 0x01270135);	
++	ODM_Write4Byte(pDM_Odm, 0xc58+pagesel, 0x0112011c);	
++	ODM_Write4Byte(pDM_Odm, 0xc5c+pagesel, 0x01000108);
++	ODM_Write4Byte(pDM_Odm, 0xc60+pagesel, 0x00f100f8);	
++	ODM_Write4Byte(pDM_Odm, 0xc64+pagesel, 0x00e500eb);	
++	ODM_Write4Byte(pDM_Odm, 0xc68+pagesel, 0x00db00e0);	
++	ODM_Write4Byte(pDM_Odm, 0xc6c+pagesel, 0x00d100d5);	
++	ODM_Write4Byte(pDM_Odm, 0xc70+pagesel, 0x00c900cd);	
++	ODM_Write4Byte(pDM_Odm, 0xc74+pagesel, 0x00c200c5);	
++	ODM_Write4Byte(pDM_Odm, 0xc78+pagesel, 0x00bb00be);	
++	ODM_Write4Byte(pDM_Odm, 0xc7c+pagesel, 0x00b500b8);
++
++	//============//
++	// RF setting for DPK //
++	//============//
++
++	//pathA,pathB standby mode
++    ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)0x0, 0x0, bRFRegOffsetMask, 0x10000);
++	ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)0x1, 0x0, bRFRegOffsetMask, 0x10000);
++		
++	// 00[4:0] = Tx AGC, 00[9:5] = Rx AGC (BB), 00[12:10] = Rx AGC (LNA)
++    ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)(0x0+path), 0x0, bRFRegOffsetMask, 0x50bff);
++
++
++	// 64[14:12] = loop back attenuation
++	ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)(0x0+path), 0x64, bRFRegOffsetMask, 0x19aac);
++
++	// 8f[14:13] = PGA2 gain
++	ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)(0x0+path), 0x8f, bRFRegOffsetMask, 0x8e001);
++
++	
++	// one shot
++	ODM_Write4Byte(pDM_Odm, 0xcc8+pagesel, 0x800c5599);	
++	ODM_Write4Byte(pDM_Odm, 0xcc8+pagesel, 0x000c5599);	
++
++	
++	// delay 100 ms
++	ODM_delay_ms(100);
++
++	
++	// read back
++	ODM_Write4Byte(pDM_Odm, 0xc90+pagesel, 0x0109f018);	
++	ODM_Write4Byte(pDM_Odm, 0xcb8+pagesel, 0x09000000);		
++	// ¥i¥H¦b d00[3:0] ¤¤Åª¦^, dB_sel ¤¤©Ò³]©wªº gain loss ·|¸¨¦b­þ¤@­Ó Tx AGC ³]©w
++	// Ū¦^d00[3:0] = h'1 ' Tx AGC = 15
++	// Ū¦^d00[3:0] = h'2 ' Tx AGC = 16
++	// Ū¦^d00[3:0] = h'3 ' Tx AGC = 17
++	// Ū¦^d00[3:0] = h'4 ' Tx AGC = 18
++	// Ū¦^d00[3:0] = h'5 ' Tx AGC = 19
++	// Ū¦^d00[3:0] = h'6 ' Tx AGC = 1a
++	// Ū¦^d00[3:0] = h'7 ' Tx AGC = 1b
++	// Ū¦^d00[3:0] = h'8 ' Tx AGC = 1c
++	// Ū¦^d00[3:0] = h'9 ' Tx AGC = 1d
++	// Ū¦^d00[3:0] = h'a ' Tx AGC = 1e
++	// Ū¦^d00[3:0] = h'b ' Tx AGC = 1f
++
++	TXindex = ODM_GetBBReg(pDM_Odm, 0xd00+regsel, 0x0000000f);
++
++
++	//***************************************//
++	//get LUT
++	//***************************************//
++
++	ODM_Write4Byte(pDM_Odm, 0xc90+pagesel, 0x0001e038);	
++	ODM_Write4Byte(pDM_Odm, 0xc94+pagesel, 0xf76c9f84);	
++	ODM_Write4Byte(pDM_Odm, 0xcc8+pagesel, 0x400c5599);	
++	ODM_Write4Byte(pDM_Odm, 0xcc4+pagesel, 0x11930080);		//0xcc4[9:4]= DPk fail threshold
++	ODM_Write4Byte(pDM_Odm, 0xc8c+pagesel, 0x3c000000);	
++
++	
++	// tx_amp ' ¨M©w Ramp ¤¤¦U©¶ªiªº®¶´T¤j¤p
++
++	ODM_Write4Byte(pDM_Odm, 0xc98+pagesel, 0x41382e21);	
++	ODM_Write4Byte(pDM_Odm, 0xc9c+pagesel, 0x5b554f48);	
++	ODM_Write4Byte(pDM_Odm, 0xca0+pagesel, 0x6f6b6661);	
++	ODM_Write4Byte(pDM_Odm, 0xca4+pagesel, 0x817d7874);	
++	ODM_Write4Byte(pDM_Odm, 0xca8+pagesel, 0x908c8884);	
++	ODM_Write4Byte(pDM_Odm, 0xcac+pagesel, 0x9d9a9793);	
++	ODM_Write4Byte(pDM_Odm, 0xcb0+pagesel, 0xaaa7a4a1);	
++	ODM_Write4Byte(pDM_Odm, 0xcb4+pagesel, 0xb6b3b0ad);	
++	
++	// tx_inverse ' Ramp ¤¤¦U©¶ªipower ªº­Ë¼Æ, ¥H­pºâ¥X PA ªº gain 
++	ODM_Write4Byte(pDM_Odm, 0xc40+pagesel, 0x02ce03e9);	
++	ODM_Write4Byte(pDM_Odm, 0xc44+pagesel, 0x01fd0249);	
++	ODM_Write4Byte(pDM_Odm, 0xc48+pagesel, 0x01a101c9);	
++	ODM_Write4Byte(pDM_Odm, 0xc4c+pagesel, 0x016a0181);	
++	ODM_Write4Byte(pDM_Odm, 0xc50+pagesel, 0x01430155);	
++	ODM_Write4Byte(pDM_Odm, 0xc54+pagesel, 0x01270135);	
++	ODM_Write4Byte(pDM_Odm, 0xc58+pagesel, 0x0112011c);	
++	ODM_Write4Byte(pDM_Odm, 0xc5c+pagesel, 0x01000108);	
++	ODM_Write4Byte(pDM_Odm, 0xc60+pagesel, 0x00f100f8);	
++	ODM_Write4Byte(pDM_Odm, 0xc64+pagesel, 0x00e500eb);	
++	ODM_Write4Byte(pDM_Odm, 0xc68+pagesel, 0x00db00e0);	
++	ODM_Write4Byte(pDM_Odm, 0xc6c+pagesel, 0x00d100d5);	
++	ODM_Write4Byte(pDM_Odm, 0xc70+pagesel, 0x00c900cd);	
++	ODM_Write4Byte(pDM_Odm, 0xc74+pagesel, 0x00c200c5);	
++	ODM_Write4Byte(pDM_Odm, 0xc78+pagesel, 0x00bb00be);	
++	ODM_Write4Byte(pDM_Odm, 0xc7c+pagesel, 0x00b500b8);	
++	
++	//fill BB TX index for the DPK reference 
++	// reg82c[31] =1b'0, ¤Á´«¨ì page C
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083d5);	
++
++	ODM_Write4Byte(pDM_Odm, 0xc20+pagesel, 0x3c3c3c3c);	
++	ODM_Write4Byte(pDM_Odm, 0xc24+pagesel, 0x3c3c3c3c);	
++	ODM_Write4Byte(pDM_Odm, 0xc28+pagesel, 0x3c3c3c3c);	
++	ODM_Write4Byte(pDM_Odm, 0xc2c+pagesel, 0x3c3c3c3c);	
++	ODM_Write4Byte(pDM_Odm, 0xc30+pagesel, 0x3c3c3c3c);	
++	ODM_Write4Byte(pDM_Odm, 0xc34+pagesel, 0x3c3c3c3c);	
++	ODM_Write4Byte(pDM_Odm, 0xc38+pagesel, 0x3c3c3c3c);	
++	ODM_Write4Byte(pDM_Odm, 0xc3c+pagesel, 0x3c3c3c3c);	
++	ODM_Write4Byte(pDM_Odm, 0xc40+pagesel, 0x3c3c3c3c);	
++	ODM_Write4Byte(pDM_Odm, 0xc44+pagesel, 0x3c3c3c3c);	
++	ODM_Write4Byte(pDM_Odm, 0xc48+pagesel, 0x3c3c3c3c);	
++	ODM_Write4Byte(pDM_Odm, 0xc4c+pagesel, 0x3c3c3c3c);	
++
++	// reg82c[31] =1b'1, ¤Á´«¨ì page C1
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x802083d5);	
++
++	
++	
++	// r_agc_boudary
++	// PA gain = 11 ¹ïÀ³ tx_agc ±q1f ¨ì11  boundary = b'11111 ' PageC1 ªº bc0[4:0] = 11111
++	// PA gain = 10 ¹ïÀ³ tx_agc ±q11 ¨ì11 ? boundary = b'10011 ' PageC1 ªº bc0[9:5] = 10001
++	// PA gain = 01 ¹ïÀ³ tx_agc ±q10 ¨ì0e ? boundary = b'10000 ' PageC1 ªº bc0[14:10] = 10000
++	// PA gain = 00 ¹ïÀ³ tx_agc ±q0d ¨ì00 ? boundary = b'01101 ' PageC1 ªº bc0[19:15] = 01101
++	ODM_Write4Byte(pDM_Odm, 0xcbc+pagesel, 0x0006c23f);	
++	
++	// r_bnd, ¥t¥~4¶ô PWSF (power scaling factor) ªº boundary, ¦]¬°¥Ø«e¥u¦³¦b PA gain = 11 ®É¤~°µ¸ÉÀv, ©Ò¥H³]¦¨ h'fffff §Y¥i.
++	ODM_Write4Byte(pDM_Odm, 0xcb8+pagesel, 0x000fffff);
++
++	//============//
++	// RF setting for DPK //
++	//============//
++	// 00[4:0] = Tx AGC, 00[9:5] = Rx AGC (BB), 00[12:10] = Rx AGC (LNA)
++	// ¦¹³B reg00[4:0] = h'1d, ¬O¥Ñ«e­± gain loss function ±o¨ìªºµ²ªG.
++    ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)(0x0+path), 0x0, bRFRegOffsetMask, 0x517e0 | TXindex);
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RF 0x0 = 0x%x\n", 0x517e0 | TXindex));
++
++	// one shot
++	ODM_Write4Byte(pDM_Odm, 0xcc8+pagesel, 0xc00c5599);
++	ODM_Write4Byte(pDM_Odm, 0xcc8+pagesel, 0x400c5599);
++
++	// delay 100 ms
++	ODM_delay_ms(100);
++	
++	// read back dp_fail report
++	ODM_Write4Byte(pDM_Odm, 0xcb8+pagesel, 0x00000000);
++
++	//if d00[6] = 1, DPK fail
++	if(ODM_GetBBReg(pDM_Odm, 0xd00+regsel, BIT6))
++		{
++			//bypass DPK
++			ODM_Write4Byte(pDM_Odm, 0xcc4+pagesel, 0x28848000);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("path %s DPK fail!!!!!!!!!!!!!!!!!!!!!\n", (path==0)?"A":"B"));
++
++			return;
++		}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("path %s DPK ok!!!!!!!!!!!!!!!!!!!!!\n", (path==0)?"A":"B"));
++
++
++
++	//read LMS table -->debug message only 
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("read LMS\n"));
++	
++	for(i=0;i<8;i++){
++		ODM_Write4Byte(pDM_Odm, 0xc90+pagesel, 0x0601f0b8+i);
++		for(j=0;j<4;j++){
++			ODM_Write4Byte(pDM_Odm, 0xcb8+pagesel, 0x09000000+(j<<24));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0x%x", ODM_Read4Byte(pDM_Odm, 0xd00+regsel)));
++			}
++		}
++		
++	 
++	//***************************************//
++	//get gain loss
++	//***************************************//
++
++	_DPK_GetGainLoss(pDM_Odm,path);
++
++
++	//***************************************//
++	//Enable DP
++	//***************************************//	
++
++	_DPK_EnableDP(pDM_Odm, path, TXindex);
++
++
++}
++
++    
++}
++
++
++
++VOID	
++phy_DPCalibrate_8812A(
++	IN 	PDM_ODM_T	pDM_Odm
++	)
++{
++    u4Byte backupRegAddrs[] = {
++        0x970, 0xcb8, 0x838, 0xc00, 0x90c, 0xb00, 0xc94, 0x82c, 0x520, 0xc60, // 10
++        0xc64, 0xc68, 0xc6c, 0xc70, 0xc74, 0xc78, 0xc7c, 0xc80, 0xc84, 0xc50, // 20
++        0xc20, 0xc24, 0xc28, 0xc2c, 0xc30, 0xc34, 0xc38, 0xc3c, 0xc40, 0xc44, // 30
++        0xc48, 0xc4c, 0xe50, 0xe20, 0xe24, 0xe28, 0xe2c, 0xe30, 0xe34, 0xe38, // 40
++        0xe3c, 0xe40, 0xe44, 0xe48, 0xe4c, 0xeb8, 0xe00, 0xe94, 0xe60, 0xe64, //50
++        0xe68, 0xe6c, 0xe70, 0xe74, 0xe78, 0xe7c, 0xe80, 0xe84                      
++    };
++
++    u4Byte backupRegData[sizeof(backupRegAddrs)/sizeof(u4Byte)];
++
++
++	//backup BB&MAC default value
++
++	_DPK_parabackup(pDM_Odm, backupRegData, backupRegAddrs, sizeof(backupRegAddrs)/sizeof(u4Byte));
++
++	//set global parameters
++	_DPK_Globalparaset(pDM_Odm);
++
++	//DPK
++	_DPK_pathABDPK(pDM_Odm);
++
++	// TH_DPK=thermalmeter
++
++
++	//reload BB&MAC defaul value;
++	_DPK_parareload(pDM_Odm, backupRegData, backupRegAddrs, sizeof(backupRegAddrs)/sizeof(u4Byte));
++                                                         
++}                                                        
++                                                         
++VOID	                                                 
++PHY_DPCalibrate_8812A(                                   
++	IN 	PDM_ODM_T	pDM_Odm                             
++	)                                                    
++{   
++	pDM_Odm->DPK_Done = TRUE;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> PHY_DPCalibrate_8812A\n"));
++	phy_DPCalibrate_8812A(pDM_Odm);  
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== PHY_DPCalibrate_8812A\n"));
++}                                               
++                                   
++                                                          
++                                                          
++                                                          
++                                                          
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halphyrf_8812a_ce.h b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halphyrf_8812a_ce.h
+new file mode 100644
+index 0000000..7d1909c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halphyrf_8812a_ce.h
+@@ -0,0 +1,106 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __HAL_PHY_RF_8812A_H__
++#define __HAL_PHY_RF_8812A_H__
++
++/*--------------------------Define Parameters-------------------------------*/
++#define	IQK_DELAY_TIME_8812A		10		//ms
++#define	IQK_DEFERRED_TIME_8812A		4		//sec
++#define	index_mapping_NUM_8812A	15
++#define AVG_THERMAL_NUM_8812A	4
++#define RF_T_METER_8812A 		0x42
++
++
++void ConfigureTxpowerTrack_8812A(
++	PTXPWRTRACK_CFG	pConfig
++	);
++
++VOID
++GetDeltaSwingTable_8812A(
++	IN	PVOID		pDM_VOID,
++	OUT pu1Byte 			*TemperatureUP_A,
++	OUT pu1Byte 			*TemperatureDOWN_A,
++	OUT pu1Byte 			*TemperatureUP_B,
++	OUT pu1Byte 			*TemperatureDOWN_B	
++	);
++
++void DoIQK_8812A(
++	PVOID		pDM_VOID,
++	u1Byte 		DeltaThermalIndex,
++	u1Byte		ThermalValue,	
++	u1Byte 		Threshold
++	);
++
++VOID
++ODM_TxPwrTrackSetPwr8812A(
++	PVOID		pDM_VOID,
++	PWRTRACK_METHOD 	Method,
++	u1Byte 				RFPath,
++	u1Byte 				ChannelMappedIndex
++	);
++
++//1 7.	IQK
++
++void	
++PHY_IQCalibrate_8812A(	
++	IN	PADAPTER	pAdapter,	
++	IN	BOOLEAN 	bReCovery
++);
++
++
++//
++// LC calibrate
++//
++void	
++PHY_LCCalibrate_8812A(
++	PVOID		pDM_VOID
++);
++
++//
++// AP calibrate
++//
++void	
++PHY_APCalibrate_8812A(		
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++							IN 	s1Byte		delta);
++void	
++PHY_DigitalPredistortion_8812A(		IN	PADAPTER	pAdapter);
++
++VOID	                                                 
++PHY_DPCalibrate_8812A(                                   
++	IN 	PDM_ODM_T	pDM_Odm                          
++);           
++VOID PHY_SetRFPathSwitch_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	BOOLEAN		bMain
++	);
++
++								
++#endif	// #ifndef __HAL_PHY_RF_8812A_H__								
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halphyrf_8812a_win.c b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halphyrf_8812a_win.c
+new file mode 100644
+index 0000000..5dd25fb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halphyrf_8812a_win.c
+@@ -0,0 +1,2979 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++
++
++/*---------------------------Define Local Constant---------------------------*/
++// 2010/04/25 MH Define the max tx power tracking tx agc power.
++#define		ODM_TXPWRTRACK_MAX_IDX8812A		6
++
++/*---------------------------Define Local Constant---------------------------*/
++
++//3============================================================
++//3 Tx Power Tracking
++//3============================================================
++
++
++void DoIQK_8812A(
++	PVOID		pDM_VOID,
++	u1Byte 		DeltaThermalIndex,
++	u1Byte		ThermalValue,	
++	u1Byte 		Threshold
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	PADAPTER 		Adapter = pDM_Odm->Adapter;
++#endif
++
++	ODM_ResetIQKResult(pDM_Odm);		
++
++
++	pDM_Odm->RFCalibrateInfo.ThermalValue_IQK= ThermalValue;
++	PHY_IQCalibrate_8812A(Adapter, FALSE);
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	odm_TxPwrTrackSetPwr88E()
++ *
++ * Overview:	88E change all channel tx power accordign to flag.
++ *				OFDM & CCK are all different.
++ *
++ * Input:		NONE
++ *
++ * Output:		NONE
++ *
++ * Return:		NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	04/23/2012	MHC		Create Version 0.  
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++ODM_TxPwrTrackSetPwr8812A(
++	PVOID		pDM_VOID,
++	PWRTRACK_METHOD 	Method,
++	u1Byte 				RFPath,
++	u1Byte 				ChannelMappedIndex
++	)
++{
++	u4Byte 	finalBbSwingIdx[2];
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++
++	u1Byte			PwrTrackingLimit = 26; //+1.0dB
++	u1Byte			TxRate = 0xFF;
++	u1Byte			Final_OFDM_Swing_Index = 0; 
++	u1Byte			Final_CCK_Swing_Index = 0; 
++	PODM_RF_CAL_T  	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	if (pDM_Odm->mp_mode == TRUE) {
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++		#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++			#if (MP_DRIVER == 1)
++					PMPT_CONTEXT pMptCtx = &(Adapter->MptCtx);
++					
++					TxRate = MptToMgntRate(pMptCtx->MptRateIndex);
++			#endif
++		#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++				PMPT_CONTEXT pMptCtx = &(Adapter->mppriv.MptCtx);
++				
++				TxRate = MptToMgntRate(pMptCtx->MptRateIndex);
++		#endif	
++	#endif
++	} else {
++		u2Byte	rate	 = *(pDM_Odm->pForcedDataRate);
++		
++		if (!rate) { /*auto rate*/
++			if (rate != 0xFF) {
++			#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++						TxRate = Adapter->HalFunc.GetHwRateFromMRateHandler(pDM_Odm->TxRate);
++			#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++						TxRate = HwRateToMRate(pDM_Odm->TxRate);
++			#endif
++			}
++		} else { /*force rate*/
++			TxRate = (u1Byte)rate;
++		}
++	}
++		
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("Power Tracking TxRate=0x%X\n", TxRate));
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("===>ODM_TxPwrTrackSetPwr8812A\n"));
++
++	if(TxRate != 0xFF)   //20130429 Mimic Modify High Rate BBSwing Limit.
++    {
++        //2 CCK
++	if (((TxRate >= MGN_1M) && (TxRate <= MGN_5_5M)) || (TxRate == MGN_11M))
++		PwrTrackingLimit = 32; /*+4dB*/
++	/*2 OFDM*/
++        else if((TxRate >= MGN_6M)&&(TxRate <= MGN_48M))
++            PwrTrackingLimit = 30; //+3dB
++        else if(TxRate == MGN_54M)
++            PwrTrackingLimit = 28; //+2dB
++        //2 HT
++        else if((TxRate >= MGN_MCS0)&&(TxRate <= MGN_MCS2)) //QPSK/BPSK
++            PwrTrackingLimit = 34; //+5dB
++        else if((TxRate >= MGN_MCS3)&&(TxRate <= MGN_MCS4)) //16QAM
++            PwrTrackingLimit = 30; //+3dB
++        else if((TxRate >= MGN_MCS5)&&(TxRate <= MGN_MCS7)) //64QAM
++            PwrTrackingLimit = 28; //+2dB
++
++        else if((TxRate >= MGN_MCS8)&&(TxRate <= MGN_MCS10)) //QPSK/BPSK
++            PwrTrackingLimit = 34; //+5dB
++        else if((TxRate >= MGN_MCS11)&&(TxRate <= MGN_MCS12)) //16QAM
++            PwrTrackingLimit = 30; //+3dB
++        else if((TxRate >= MGN_MCS13)&&(TxRate <= MGN_MCS15)) //64QAM
++            PwrTrackingLimit = 28; //+2dB
++
++        //2 VHT
++        else if((TxRate >= MGN_VHT1SS_MCS0)&&(TxRate <= MGN_VHT1SS_MCS2)) //QPSK/BPSK
++            PwrTrackingLimit = 34; //+5dB
++        else if((TxRate >= MGN_VHT1SS_MCS3)&&(TxRate <= MGN_VHT1SS_MCS4)) //16QAM
++            PwrTrackingLimit = 30; //+3dB
++        else if((TxRate >= MGN_VHT1SS_MCS5)&&(TxRate <= MGN_VHT1SS_MCS6)) //64QAM
++            PwrTrackingLimit = 28; //+2dB
++        else if(TxRate == MGN_VHT1SS_MCS7) //64QAM
++            PwrTrackingLimit = 26; //+1dB
++        else if(TxRate == MGN_VHT1SS_MCS8) //256QAM
++            PwrTrackingLimit = 24; //+0dB
++        else if(TxRate == MGN_VHT1SS_MCS9) //256QAM
++            PwrTrackingLimit = 22; //-1dB
++
++        else if((TxRate >= MGN_VHT2SS_MCS0)&&(TxRate <= MGN_VHT2SS_MCS2)) //QPSK/BPSK
++            PwrTrackingLimit = 34; //+5dB
++        else if((TxRate >= MGN_VHT2SS_MCS3)&&(TxRate <= MGN_VHT2SS_MCS4)) //16QAM
++            PwrTrackingLimit = 30; //+3dB
++        else if((TxRate >= MGN_VHT2SS_MCS5)&&(TxRate <= MGN_VHT2SS_MCS6)) //64QAM
++            PwrTrackingLimit = 28; //+2dB
++        else if(TxRate == MGN_VHT2SS_MCS7) //64QAM
++            PwrTrackingLimit = 26; //+1dB
++        else if(TxRate == MGN_VHT2SS_MCS8) //256QAM
++            PwrTrackingLimit = 24; //+0dB
++        else if(TxRate == MGN_VHT2SS_MCS9) //256QAM
++            PwrTrackingLimit = 22; //-1dB
++
++        else			
++            PwrTrackingLimit = 24;
++    }
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("TxRate=0x%x, PwrTrackingLimit=%d\n", TxRate, PwrTrackingLimit));
++
++	
++	if (Method == BBSWING)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("===>ODM_TxPwrTrackSetPwr8812A\n"));		
++
++		if (RFPath == ODM_RF_PATH_A)
++		{		
++			finalBbSwingIdx[ODM_RF_PATH_A] = (pRFCalibrateInfo->OFDM_index[ODM_RF_PATH_A] > PwrTrackingLimit) ? PwrTrackingLimit : pRFCalibrateInfo->OFDM_index[ODM_RF_PATH_A];
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("pRFCalibrateInfo->OFDM_index[ODM_RF_PATH_A]=%d, pDM_Odm->RealBbSwingIdx[ODM_RF_PATH_A]=%d\n",
++				pRFCalibrateInfo->OFDM_index[ODM_RF_PATH_A], finalBbSwingIdx[ODM_RF_PATH_A]));
++			
++			ODM_SetBBReg(pDM_Odm, rA_TxScale_Jaguar, 0xFFE00000, TxScalingTable_Jaguar[finalBbSwingIdx[ODM_RF_PATH_A]]);
++		}
++		else
++		{
++			finalBbSwingIdx[ODM_RF_PATH_B] = (pRFCalibrateInfo->OFDM_index[ODM_RF_PATH_B] > PwrTrackingLimit) ? PwrTrackingLimit : pRFCalibrateInfo->OFDM_index[ODM_RF_PATH_B];
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("pRFCalibrateInfo->OFDM_index[ODM_RF_PATH_B]=%d, pDM_Odm->RealBbSwingIdx[ODM_RF_PATH_B]=%d\n",
++				pRFCalibrateInfo->OFDM_index[ODM_RF_PATH_B], finalBbSwingIdx[ODM_RF_PATH_B]));
++			
++			ODM_SetBBReg(pDM_Odm, rB_TxScale_Jaguar, 0xFFE00000, TxScalingTable_Jaguar[finalBbSwingIdx[ODM_RF_PATH_B]]);
++		}
++	}
++
++	else if (Method == MIX_MODE)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("pRFCalibrateInfo->DefaultOfdmIndex=%d, pRFCalibrateInfo->Absolute_OFDMSwingIdx[RFPath]=%d, RF_Path = %d\n",
++			pRFCalibrateInfo->DefaultOfdmIndex, pRFCalibrateInfo->Absolute_OFDMSwingIdx[RFPath],RFPath ));
++		
++		Final_CCK_Swing_Index = pRFCalibrateInfo->DefaultCckIndex + pRFCalibrateInfo->Absolute_OFDMSwingIdx[RFPath];	
++		Final_OFDM_Swing_Index = pRFCalibrateInfo->DefaultOfdmIndex + pRFCalibrateInfo->Absolute_OFDMSwingIdx[RFPath];
++		
++		if (RFPath == ODM_RF_PATH_A)  
++        {
++
++            if(Final_OFDM_Swing_Index > PwrTrackingLimit)     //BBSwing higher then Limit
++            {
++                pRFCalibrateInfo->Remnant_CCKSwingIdx= Final_CCK_Swing_Index - PwrTrackingLimit;            // CCK Follow the same compensate value as Path A
++                pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath] = Final_OFDM_Swing_Index - PwrTrackingLimit;            
++
++                ODM_SetBBReg(pDM_Odm, rA_TxScale_Jaguar, 0xFFE00000, TxScalingTable_Jaguar[PwrTrackingLimit]);
++
++                pRFCalibrateInfo->Modify_TxAGC_Flag_PathA= TRUE;
++
++                PHY_SetTxPowerLevelByPath(Adapter, pHalData->CurrentChannel, ODM_RF_PATH_A);
++
++                ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("******Path_A Over BBSwing Limit , PwrTrackingLimit = %d , Remnant TxAGC Value = %d \n", PwrTrackingLimit, pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath]));
++            }
++            else if (Final_OFDM_Swing_Index < 0)
++            {
++                pRFCalibrateInfo->Remnant_CCKSwingIdx= Final_CCK_Swing_Index;            // CCK Follow the same compensate value as Path A
++                pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath] = Final_OFDM_Swing_Index;     
++
++                ODM_SetBBReg(pDM_Odm, rA_TxScale_Jaguar, 0xFFE00000, TxScalingTable_Jaguar[0]);
++
++                pRFCalibrateInfo->Modify_TxAGC_Flag_PathA= TRUE;
++
++                PHY_SetTxPowerLevelByPath(Adapter, pHalData->CurrentChannel, ODM_RF_PATH_A);
++
++                ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("******Path_A Lower then BBSwing lower bound  0 , Remnant TxAGC Value = %d \n", pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath]));
++            }
++            else
++            {
++                ODM_SetBBReg(pDM_Odm, rA_TxScale_Jaguar, 0xFFE00000, TxScalingTable_Jaguar[Final_OFDM_Swing_Index]);
++
++                ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("******Path_A Compensate with BBSwing , Final_OFDM_Swing_Index = %d \n", Final_OFDM_Swing_Index));
++
++                if(pRFCalibrateInfo->Modify_TxAGC_Flag_PathA)  //If TxAGC has changed, reset TxAGC again
++                {
++                    pRFCalibrateInfo->Remnant_CCKSwingIdx= 0;
++                    pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath] = 0;     
++
++                    PHY_SetTxPowerLevelByPath(Adapter, pHalData->CurrentChannel, ODM_RF_PATH_A);
++
++                    pRFCalibrateInfo->Modify_TxAGC_Flag_PathA= FALSE;
++
++                    ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("******Path_A pDM_Odm->Modify_TxAGC_Flag = FALSE \n"));
++                }
++            }	
++        }
++		
++		if (RFPath == ODM_RF_PATH_B)  
++		{
++			if(Final_OFDM_Swing_Index > PwrTrackingLimit)     //BBSwing higher then Limit
++			{
++				pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath] = Final_OFDM_Swing_Index - PwrTrackingLimit;            
++
++				ODM_SetBBReg(pDM_Odm, rB_TxScale_Jaguar, 0xFFE00000, TxScalingTable_Jaguar[PwrTrackingLimit]);
++
++				pRFCalibrateInfo->Modify_TxAGC_Flag_PathB= TRUE;
++
++				PHY_SetTxPowerLevelByPath(Adapter, pHalData->CurrentChannel, ODM_RF_PATH_B);
++
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("******Path_B Over BBSwing Limit , PwrTrackingLimit = %d , Remnant TxAGC Value = %d \n", PwrTrackingLimit, pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath]));
++			}
++			else if (Final_OFDM_Swing_Index < 0)
++			{
++				pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath] = Final_OFDM_Swing_Index;     
++
++				ODM_SetBBReg(pDM_Odm, rB_TxScale_Jaguar, 0xFFE00000, TxScalingTable_Jaguar[0]);
++
++				pRFCalibrateInfo->Modify_TxAGC_Flag_PathB = TRUE;
++
++				PHY_SetTxPowerLevelByPath(Adapter, pHalData->CurrentChannel, ODM_RF_PATH_B);
++
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("******Path_B Lower then BBSwing lower bound  0 , Remnant TxAGC Value = %d \n", pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath]));
++			}
++			else
++			{
++				ODM_SetBBReg(pDM_Odm, rB_TxScale_Jaguar, 0xFFE00000, TxScalingTable_Jaguar[Final_OFDM_Swing_Index]);
++
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("******Path_B Compensate with BBSwing , Final_OFDM_Swing_Index = %d \n", Final_OFDM_Swing_Index));
++
++				if(pRFCalibrateInfo->Modify_TxAGC_Flag_PathB)  //If TxAGC has changed, reset TxAGC again
++				{
++					pRFCalibrateInfo->Remnant_OFDMSwingIdx[RFPath] = 0;     
++
++					PHY_SetTxPowerLevelByPath(Adapter, pHalData->CurrentChannel, ODM_RF_PATH_B);
++
++					pRFCalibrateInfo->Modify_TxAGC_Flag_PathB = FALSE;
++
++					ODM_RT_TRACE(pDM_Odm,ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD,("******Path_B pDM_Odm->Modify_TxAGC_Flag = FALSE \n"));
++				}
++			}
++		}
++		
++	}
++	else
++	{
++		return;
++	}
++}
++
++VOID
++GetDeltaSwingTable_8812A(
++	PVOID		pDM_VOID,
++	OUT pu1Byte 			*TemperatureUP_A,
++	OUT pu1Byte 			*TemperatureDOWN_A,
++	OUT pu1Byte 			*TemperatureUP_B,
++	OUT pu1Byte 			*TemperatureDOWN_B	
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	PODM_RF_CAL_T  	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	HAL_DATA_TYPE  	*pHalData  		 = GET_HAL_DATA(Adapter);
++	u1Byte		TxRate			= 0xFF;
++	u1Byte         	channel   		 = pHalData->CurrentChannel;
++
++	
++	if (pDM_Odm->mp_mode == TRUE) {
++	#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
++		#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++			#if (MP_DRIVER == 1)
++					PMPT_CONTEXT pMptCtx = &(Adapter->MptCtx);
++					
++					TxRate = MptToMgntRate(pMptCtx->MptRateIndex);
++			#endif
++		#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++				PMPT_CONTEXT pMptCtx = &(Adapter->mppriv.MptCtx);
++				
++				TxRate = MptToMgntRate(pMptCtx->MptRateIndex);
++		#endif	
++	#endif
++	} else {
++		u2Byte	rate	 = *(pDM_Odm->pForcedDataRate);
++		
++		if (!rate) { /*auto rate*/
++			if (rate != 0xFF) {
++			#if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
++						TxRate = Adapter->HalFunc.GetHwRateFromMRateHandler(pDM_Odm->TxRate);
++			#elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
++						TxRate = HwRateToMRate(pDM_Odm->TxRate);
++			#endif
++			}
++		} else { /*force rate*/
++			TxRate = (u1Byte)rate;
++		}
++	}
++		
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_TX_PWR_TRACK, ODM_DBG_LOUD, ("Power Tracking TxRate=0x%X\n", TxRate));
++
++	if ( 1 <= channel && channel <= 14) {
++		if (IS_CCK_RATE(TxRate)) {
++	        *TemperatureUP_A   = pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_P;
++	        *TemperatureDOWN_A = pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKA_N;
++	        *TemperatureUP_B   = pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_P;
++	        *TemperatureDOWN_B = pRFCalibrateInfo->DeltaSwingTableIdx_2GCCKB_N;		
++		} else {
++	        *TemperatureUP_A   = pRFCalibrateInfo->DeltaSwingTableIdx_2GA_P;
++	        *TemperatureDOWN_A = pRFCalibrateInfo->DeltaSwingTableIdx_2GA_N;
++	        *TemperatureUP_B   = pRFCalibrateInfo->DeltaSwingTableIdx_2GB_P;
++	        *TemperatureDOWN_B = pRFCalibrateInfo->DeltaSwingTableIdx_2GB_N;			
++		}
++	} else if (36 <= channel && channel <= 64) {
++		*TemperatureUP_A   = pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P[0];
++		*TemperatureDOWN_A = pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N[0];
++		*TemperatureUP_B   = pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P[0];
++		*TemperatureDOWN_B = pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N[0];
++	} else if (100 <= channel && channel <= 144) {
++		*TemperatureUP_A   = pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P[1];
++		*TemperatureDOWN_A = pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N[1];
++		*TemperatureUP_B   = pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P[1];
++		*TemperatureDOWN_B = pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N[1];
++	} else if (149 <= channel && channel <= 177) {
++		*TemperatureUP_A   = pRFCalibrateInfo->DeltaSwingTableIdx_5GA_P[2]; 
++		*TemperatureDOWN_A = pRFCalibrateInfo->DeltaSwingTableIdx_5GA_N[2]; 
++		*TemperatureUP_B   = pRFCalibrateInfo->DeltaSwingTableIdx_5GB_P[2]; 
++		*TemperatureDOWN_B = pRFCalibrateInfo->DeltaSwingTableIdx_5GB_N[2]; 
++	} else {
++		*TemperatureUP_A   = (pu1Byte)DeltaSwingTableIdx_2GA_P_8188E;
++		*TemperatureDOWN_A = (pu1Byte)DeltaSwingTableIdx_2GA_N_8188E;	
++		*TemperatureUP_B   = (pu1Byte)DeltaSwingTableIdx_2GA_P_8188E;
++		*TemperatureDOWN_B = (pu1Byte)DeltaSwingTableIdx_2GA_N_8188E;		
++	}
++
++	
++	return;
++}
++
++void ConfigureTxpowerTrack_8812A(
++	PTXPWRTRACK_CFG	pConfig
++	)
++{
++	pConfig->SwingTableSize_CCK = TXSCALE_TABLE_SIZE;
++	pConfig->SwingTableSize_OFDM = TXSCALE_TABLE_SIZE;
++	pConfig->Threshold_IQK = IQK_THRESHOLD;
++	pConfig->Threshold_DPK = DPK_THRESHOLD;	
++	pConfig->AverageThermalNum = AVG_THERMAL_NUM_8812A;
++	pConfig->RfPathCount = MAX_PATH_NUM_8812A;
++	pConfig->ThermalRegAddr = RF_T_METER_8812A;
++		
++	pConfig->ODM_TxPwrTrackSetPwr = ODM_TxPwrTrackSetPwr8812A;
++	pConfig->DoIQK = DoIQK_8812A;
++	pConfig->PHY_LCCalibrate = PHY_LCCalibrate_8812A;
++	pConfig->GetDeltaSwingTable = GetDeltaSwingTable_8812A;
++}
++
++
++#define BW_20M 	0
++#define	BW_40M  1
++#define	BW_80M	2
++
++void _IQK_RX_FillIQC_8812A(
++	IN PDM_ODM_T			pDM_Odm,
++	IN ODM_RF_RADIO_PATH_E 	Path,
++	IN unsigned int			RX_X,
++	IN unsigned int			RX_Y
++	) 
++{
++	switch (Path) {
++	case ODM_RF_PATH_A:
++		{
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++			if (RX_X>>1 >=0x112 || (RX_Y>>1 >= 0x12 && RX_Y>>1 <= 0x3ee)){
++				ODM_SetBBReg(pDM_Odm, 0xc10, 0x000003ff, 0x100);
++				ODM_SetBBReg(pDM_Odm, 0xc10, 0x03ff0000, 0);
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX_X = %x;;RX_Y = %x ====>fill to IQC\n", RX_X>>1&0x000003ff, RX_Y>>1&0x000003ff));
++			}
++			else{
++				ODM_SetBBReg(pDM_Odm, 0xc10, 0x000003ff, RX_X>>1);
++				ODM_SetBBReg(pDM_Odm, 0xc10, 0x03ff0000, RX_Y>>1);
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX_X = %x;;RX_Y = %x ====>fill to IQC\n", RX_X>>1&0x000003ff, RX_Y>>1&0x000003ff));
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xc10 = %x ====>fill to IQC\n", ODM_Read4Byte(pDM_Odm, 0xc10)));
++			}
++		}
++		break;
++	case ODM_RF_PATH_B:
++		{	
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C	
++			if (RX_X>>1 >=0x112 || (RX_Y>>1 >= 0x12 && RX_Y>>1 <= 0x3ee)){
++				ODM_SetBBReg(pDM_Odm, 0xe10, 0x000003ff, 0x100);
++				ODM_SetBBReg(pDM_Odm, 0xe10, 0x03ff0000, 0);
++				ODM_RT_TRACE(pDM_Odm,ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX_X = %x;;RX_Y = %x ====>fill to IQC\n", RX_X>>1&0x000003ff, RX_Y>>1&0x000003ff));
++			}
++			else{
++				ODM_SetBBReg(pDM_Odm, 0xe10, 0x000003ff, RX_X>>1);
++				ODM_SetBBReg(pDM_Odm, 0xe10, 0x03ff0000, RX_Y>>1);
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX_X = %x;;RX_Y = %x====>fill to IQC\n ", RX_X>>1&0x000003ff, RX_Y>>1&0x000003ff));
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xe10 = %x====>fill to IQC\n", ODM_Read4Byte(pDM_Odm, 0xe10)));
++			}
++		}
++		break;		
++	default:
++		break;					
++	};	
++}
++
++void _IQK_TX_FillIQC_8812A(
++	IN PDM_ODM_T			pDM_Odm,
++	IN ODM_RF_RADIO_PATH_E 	Path,
++	IN unsigned int			TX_X,
++	IN unsigned int			TX_Y
++	) 
++{
++	switch (Path) {
++	case ODM_RF_PATH_A:
++		{
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++			ODM_SetBBReg(pDM_Odm, 0xc90, BIT(7), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xcc4, BIT(18), 0x1);
++			if (!pDM_Odm->DPK_Done)
++				ODM_SetBBReg(pDM_Odm, 0xcc4, BIT(29), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xcc8, BIT(29), 0x1);	
++			ODM_SetBBReg(pDM_Odm, 0xccc, 0x000007ff, TX_Y);
++			ODM_SetBBReg(pDM_Odm, 0xcd4, 0x000007ff, TX_X);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TX_X = %x;;TX_Y = %x =====> fill to IQC\n", TX_X&0x000007ff, TX_Y&0x000007ff));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xcd4 = %x;;0xccc = %x ====>fill to IQC\n", ODM_GetBBReg(pDM_Odm, 0xcd4, 0x000007ff), ODM_GetBBReg(pDM_Odm, 0xccc, 0x000007ff)));
++		}
++		break;
++	case ODM_RF_PATH_B:
++		{
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++			ODM_SetBBReg(pDM_Odm, 0xe90, BIT(7), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xec4, BIT(18), 0x1);
++			if (!pDM_Odm->DPK_Done)
++				ODM_SetBBReg(pDM_Odm, 0xec4, BIT(29), 0x1);
++			ODM_SetBBReg(pDM_Odm, 0xec8, BIT(29), 0x1);	
++			ODM_SetBBReg(pDM_Odm, 0xecc, 0x000007ff, TX_Y);
++			ODM_SetBBReg(pDM_Odm, 0xed4, 0x000007ff, TX_X);
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TX_X = %x;;TX_Y = %x =====> fill to IQC\n", TX_X&0x000007ff, TX_Y&0x000007ff));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("0xed4 = %x;;0xecc = %x ====>fill to IQC\n", ODM_GetBBReg(pDM_Odm, 0xed4, 0x000007ff), ODM_GetBBReg(pDM_Odm, 0xecc, 0x000007ff)));
++		}
++		break;		
++	default:
++		break;					
++	};	
++}
++
++void _IQK_BackupMacBB_8812A(
++	IN PDM_ODM_T	pDM_Odm,
++	IN pu4Byte		MACBB_backup,
++	IN pu4Byte		Backup_MACBB_REG, 
++	IN u4Byte		MACBB_NUM
++	)
++{
++	u4Byte i;
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	 //save MACBB default value
++	for (i = 0; i < MACBB_NUM; i++){
++		MACBB_backup[i] = ODM_Read4Byte(pDM_Odm, Backup_MACBB_REG[i]);
++	}
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("BackupMacBB Success!!!!\n"));
++}
++void _IQK_BackupRF_8812A(
++	IN PDM_ODM_T	pDM_Odm,
++	IN pu4Byte		RFA_backup,
++	IN pu4Byte		RFB_backup, 
++	IN pu4Byte		Backup_RF_REG, 
++	IN u4Byte		RF_NUM
++	)	
++{
++
++	u4Byte i;
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	//Save RF Parameters
++    	for (i = 0; i < RF_NUM; i++){
++        	RFA_backup[i] = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, Backup_RF_REG[i], bMaskDWord);
++        	RFB_backup[i] = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_B, Backup_RF_REG[i], bMaskDWord);
++    	}
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("BackupRF Success!!!!\n"));
++}
++void _IQK_BackupAFE_8812A(
++	IN PDM_ODM_T		pDM_Odm,
++	IN pu4Byte		AFE_backup,
++	IN pu4Byte		Backup_AFE_REG, 
++	IN u4Byte		AFE_NUM
++	)
++{
++	u4Byte i;
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	//Save AFE Parameters 
++    	for (i = 0; i < AFE_NUM; i++){
++        	AFE_backup[i] = ODM_Read4Byte(pDM_Odm, Backup_AFE_REG[i]);	
++    	}
++    	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("BackupAFE Success!!!!\n"));
++}
++void _IQK_RestoreMacBB_8812A(
++	IN PDM_ODM_T		pDM_Odm,
++	IN pu4Byte		MACBB_backup,
++	IN pu4Byte		Backup_MACBB_REG, 
++	IN u4Byte		MACBB_NUM
++	)	
++{
++	u4Byte i;
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	//Reload MacBB Parameters 
++    	for (i = 0; i < MACBB_NUM; i++){
++        	ODM_Write4Byte(pDM_Odm, Backup_MACBB_REG[i], MACBB_backup[i]);
++    	}
++    	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RestoreMacBB Success!!!!\n"));
++}
++void _IQK_RestoreRF_8812A(
++	IN PDM_ODM_T			pDM_Odm,
++	IN ODM_RF_RADIO_PATH_E 	Path,
++	IN pu4Byte			Backup_RF_REG,
++	IN pu4Byte 			RF_backup,
++	IN u4Byte			RF_REG_NUM
++	)
++{	
++	u4Byte i;
++
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++    	for (i = 0; i < RF_REG_NUM; i++)
++        	ODM_SetRFReg(pDM_Odm, Path, Backup_RF_REG[i], bRFRegOffsetMask, RF_backup[i]);
++
++	ODM_SetRFReg(pDM_Odm, Path, 0xef, bRFRegOffsetMask, 0x0);
++
++	switch(Path){
++	case ODM_RF_PATH_A:
++       {
++       	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RestoreRF Path A Success!!!!\n"));
++       }
++		break;
++	case ODM_RF_PATH_B:
++       {
++       	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RestoreRF Path B Success!!!!\n"));
++       }
++		break;
++	default:
++		break;
++	}
++}
++void _IQK_RestoreAFE_8812A(
++	IN PDM_ODM_T		pDM_Odm,
++	IN pu4Byte		AFE_backup,
++	IN pu4Byte		Backup_AFE_REG, 
++	IN u4Byte		AFE_NUM
++	)
++{
++	u4Byte i;
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	//Reload AFE Parameters 
++    	for (i = 0; i < AFE_NUM; i++){
++        	ODM_Write4Byte(pDM_Odm, Backup_AFE_REG[i], AFE_backup[i]);
++    	}
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++	ODM_Write4Byte(pDM_Odm, 0xc80, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xc84, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xc88, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xc8c, 0x3c000000);
++	ODM_SetBBReg(pDM_Odm, 0xc90, BIT(7), 0x1);
++	ODM_SetBBReg(pDM_Odm, 0xcc4, BIT(18), 0x1);
++	if (!pDM_Odm->DPK_Done)
++		ODM_SetBBReg(pDM_Odm, 0xcc4, BIT(29), 0x1);
++	ODM_SetBBReg(pDM_Odm, 0xcc8, BIT(29), 0x1);	
++	//ODM_Write4Byte(pDM_Odm, 0xcb8, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xe80, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xe84, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xe88, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xe8c, 0x3c000000);
++	ODM_SetBBReg(pDM_Odm, 0xe90, BIT(7), 0x1);
++	ODM_SetBBReg(pDM_Odm, 0xec4, BIT(18), 0x1);
++	if (!pDM_Odm->DPK_Done)
++		ODM_SetBBReg(pDM_Odm, 0xec4, BIT(29), 0x1);
++	ODM_SetBBReg(pDM_Odm, 0xec8, BIT(29), 0x1);	
++	//ODM_Write4Byte(pDM_Odm, 0xeb8, 0x0);
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RestoreAFE Success!!!!\n"));
++}
++
++
++void _IQK_ConfigureMAC_8812A(
++	IN PDM_ODM_T		pDM_Odm
++	)
++{
++	// ========MAC register setting========
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C	
++	ODM_Write1Byte(pDM_Odm, 0x522, 0x3f);
++	ODM_SetBBReg(pDM_Odm, 0x550, BIT(11)|BIT(3), 0x0);
++	ODM_Write1Byte(pDM_Odm, 0x808, 0x00);		//		RX ante off
++	ODM_SetBBReg(pDM_Odm, 0x838, 0xf, 0xc);		//		CCA off
++	ODM_Write1Byte(pDM_Odm, 0xa07, 0xf);		//  		CCK RX Path off
++}
++
++#define cal_num 10
++
++void _IQK_Tx_8812A(
++	IN PDM_ODM_T		pDM_Odm,
++	IN u1Byte chnlIdx
++	)
++{
++	u1Byte 		delay_count;
++	u1Byte		cal0_retry, cal1_retry, TX0_Average = 0, TX1_Average = 0, RX0_Average = 0, RX1_Average = 0;
++	int			TX_IQC_temp[10][4], TX_IQC[4];		//TX_IQC = [TX0_X, TX0_Y,TX1_X,TX1_Y]; for 3 times
++	int			RX_IQC_temp[10][4], RX_IQC[4];		//RX_IQC = [RX0_X, RX0_Y,RX1_X,RX1_Y]; for 3 times
++	BOOLEAN 	TX0_fail = TRUE, RX0_fail = TRUE, IQK0_ready = FALSE, TX0_finish = FALSE, RX0_finish = FALSE;
++	BOOLEAN  	TX1_fail = TRUE, RX1_fail = TRUE, IQK1_ready = FALSE, TX1_finish = FALSE, RX1_finish = FALSE;
++	int			i, ii, dx = 0, dy = 0;
++	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("BandWidth = %d, ExtPA5G = %d, ExtPA2G = %d\n", *pDM_Odm->pBandWidth, pDM_Odm->ExtPA5G, pDM_Odm->ExtPA));
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Interface = %d, RFE_Type = %d\n", pDM_Odm->SupportInterface, pDM_Odm->RFEType));
++
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	// ========Path-A AFE all on========
++	// Port 0 DAC/ADC on
++	ODM_Write4Byte(pDM_Odm, 0xc60, 0x77777777);
++	ODM_Write4Byte(pDM_Odm, 0xc64, 0x77777777);
++	 
++	// Port 1 DAC/ADC on
++	ODM_Write4Byte(pDM_Odm, 0xe60, 0x77777777);
++	ODM_Write4Byte(pDM_Odm, 0xe64, 0x77777777);
++
++	ODM_Write4Byte(pDM_Odm, 0xc68, 0x19791979);
++	ODM_Write4Byte(pDM_Odm, 0xe68, 0x19791979);
++	ODM_SetBBReg(pDM_Odm, 0xc00, 0xf, 0x4);// 	hardware 3-wire off
++	ODM_SetBBReg(pDM_Odm, 0xe00, 0xf, 0x4);// 	hardware 3-wire off
++
++	// DAC/ADC sampling rate (160 MHz)
++	ODM_SetBBReg(pDM_Odm, 0xc5c, BIT(26)|BIT(25)|BIT(24), 0x7);
++	ODM_SetBBReg(pDM_Odm, 0xe5c, BIT(26)|BIT(25)|BIT(24), 0x7);
++			
++        //====== Path A TX IQK RF Setting ======
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, bRFRegOffsetMask, 0x80002);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, bRFRegOffsetMask, 0x20000);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, bRFRegOffsetMask, 0x3fffd);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, bRFRegOffsetMask, 0xfe83f);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x65, bRFRegOffsetMask, 0x931d5);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x8f, bRFRegOffsetMask, 0x8a001);
++	//====== Path B TX IQK RF Setting ======
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, bRFRegOffsetMask, 0x80002);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x30, bRFRegOffsetMask, 0x20000);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x31, bRFRegOffsetMask, 0x3fffd);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x32, bRFRegOffsetMask, 0xfe83f);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x65, bRFRegOffsetMask, 0x931d5);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x8f, bRFRegOffsetMask, 0x8a001);
++	ODM_Write4Byte(pDM_Odm, 0x90c, 0x00008000);
++	ODM_SetBBReg(pDM_Odm, 0xc94, BIT(0), 0x1);
++	ODM_SetBBReg(pDM_Odm, 0xe94, BIT(0), 0x1);
++	ODM_Write4Byte(pDM_Odm, 0x978, 0x29002000);// TX (X,Y)
++	ODM_Write4Byte(pDM_Odm, 0x97c, 0xa9002000);// RX (X,Y)
++	ODM_Write4Byte(pDM_Odm, 0x984, 0x00462910);// [0]:AGC_en, [15]:idac_K_Mask
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++
++	if (pDM_Odm->ExtPA5G){
++		if (pDM_Odm->RFEType == 1){
++			ODM_Write4Byte(pDM_Odm, 0xc88, 0x821403e3);
++			ODM_Write4Byte(pDM_Odm, 0xe88, 0x821403e3);
++		}
++		else{
++			ODM_Write4Byte(pDM_Odm, 0xc88, 0x821403f7);
++			ODM_Write4Byte(pDM_Odm, 0xe88, 0x821403f7);
++		}
++	}
++	else{
++		ODM_Write4Byte(pDM_Odm, 0xc88, 0x821403f1);
++		ODM_Write4Byte(pDM_Odm, 0xe88, 0x821403f1);
++	}
++	if (*pDM_Odm->pBandType){
++		ODM_Write4Byte(pDM_Odm, 0xc8c, 0x68163e96);
++		ODM_Write4Byte(pDM_Odm, 0xe8c, 0x68163e96);
++	}
++	else{
++		ODM_Write4Byte(pDM_Odm, 0xc8c, 0x28163e96);
++		ODM_Write4Byte(pDM_Odm, 0xe8c, 0x28163e96);
++		if (pDM_Odm->RFEType == 3){	
++			if (pDM_Odm->ExtPA)
++				ODM_Write4Byte(pDM_Odm, 0xc88, 0x821403e3);
++			else
++				ODM_Write4Byte(pDM_Odm, 0xc88, 0x821403f7);
++		}
++	}
++
++	
++		ODM_Write4Byte(pDM_Odm, 0xc80, 0x18008c10);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++		ODM_Write4Byte(pDM_Odm, 0xc84, 0x38008c10);// RX_Tone_idx[9:0], RxK_Mask[29]
++		ODM_Write4Byte(pDM_Odm, 0xce8, 0x00000000);
++		ODM_Write4Byte(pDM_Odm, 0xe80, 0x18008c10);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++		ODM_Write4Byte(pDM_Odm, 0xe84, 0x38008c10);// RX_Tone_idx[9:0], RxK_Mask[29]
++		ODM_Write4Byte(pDM_Odm, 0xee8, 0x00000000);
++
++		cal0_retry = 0;
++		cal1_retry = 0;
++		while(1){
++			// one shot
++			ODM_Write4Byte(pDM_Odm, 0xcb8, 0x00100000);// cb8[20] ±N SI/PI ¨Ï¥ÎÅv¤Áµ¹ iqk_dpk module
++			ODM_Write4Byte(pDM_Odm, 0xeb8, 0x00100000);// cb8[20] ±N SI/PI ¨Ï¥ÎÅv¤Áµ¹ iqk_dpk module
++			ODM_Write4Byte(pDM_Odm, 0x980, 0xfa000000);
++			ODM_Write4Byte(pDM_Odm, 0x980, 0xf8000000);
++			
++		ODM_delay_ms(10); //Delay 10ms
++			ODM_Write4Byte(pDM_Odm, 0xcb8, 0x00000000);
++			ODM_Write4Byte(pDM_Odm, 0xeb8, 0x00000000);
++			delay_count = 0;
++			while (1){
++				if (!TX0_finish)
++					IQK0_ready = (BOOLEAN) ODM_GetBBReg(pDM_Odm, 0xd00, BIT(10));
++				if (!TX1_finish)
++					IQK1_ready = (BOOLEAN) ODM_GetBBReg(pDM_Odm, 0xd40, BIT(10));
++				if ((IQK0_ready && IQK1_ready) || (delay_count>20))
++					break;
++				else{
++			ODM_delay_ms(1);
++				delay_count++;
++				}
++			}
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TX delay_count = %d\n", delay_count));
++			if (delay_count < 20){							// If 20ms No Result, then cal_retry++
++				// ============TXIQK Check==============
++				TX0_fail = (BOOLEAN) ODM_GetBBReg(pDM_Odm, 0xd00, BIT(12));
++				TX1_fail = (BOOLEAN) ODM_GetBBReg(pDM_Odm, 0xd40, BIT(12));
++				if (!(TX0_fail || TX0_finish)){
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x02000000);
++					TX_IQC_temp[TX0_Average][0] = ODM_GetBBReg(pDM_Odm, 0xd00, 0x07ff0000)<<21;
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x04000000);
++					TX_IQC_temp[TX0_Average][1] = ODM_GetBBReg(pDM_Odm, 0xd00, 0x07ff0000)<<21;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TX_X0[%d] = %x ;; TX_Y0[%d] = %x\n", TX0_Average, (TX_IQC_temp[TX0_Average][0])>>21&0x000007ff, TX0_Average, (TX_IQC_temp[TX0_Average][1])>>21&0x000007ff));
++					/*
++
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x01000000);
++					reg1 = ODM_GetBBReg(pDM_Odm, 0xd00, 0xffffffff);
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x02000000);
++					reg2 = ODM_GetBBReg(pDM_Odm, 0xd00, 0x0000001f);
++					Image_Power = (reg2<<32)+reg1;
++					DbgPrint("Before PW = %d\n", Image_Power);
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x03000000);
++					reg1 = ODM_GetBBReg(pDM_Odm, 0xd00, 0xffffffff);
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x04000000);
++					reg2 = ODM_GetBBReg(pDM_Odm, 0xd00, 0x0000001f);
++					Image_Power = (reg2<<32)+reg1;
++					DbgPrint("After PW = %d\n", Image_Power);
++					*/
++					TX0_Average++;
++			}
++			else{
++				cal0_retry++;
++				if (cal0_retry == 10)
++					break;
++				}
++			if (!(TX1_fail || TX1_finish)){
++				ODM_Write4Byte(pDM_Odm, 0xeb8, 0x02000000);
++				TX_IQC_temp[TX1_Average][2] = ODM_GetBBReg(pDM_Odm, 0xd40, 0x07ff0000)<<21;
++				ODM_Write4Byte(pDM_Odm, 0xeb8, 0x04000000);
++				TX_IQC_temp[TX1_Average][3] = ODM_GetBBReg(pDM_Odm, 0xd40, 0x07ff0000)<<21;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TX_X1[%d] = %x ;; TX_Y1[%d] = %x\n", TX1_Average, (TX_IQC_temp[TX1_Average][2])>>21&0x000007ff, TX1_Average, (TX_IQC_temp[TX1_Average][3])>>21&0x000007ff));
++				/*
++				int			reg1 = 0, reg2 = 0, Image_Power = 0;
++				ODM_Write4Byte(pDM_Odm, 0xeb8, 0x01000000);
++				reg1 = ODM_GetBBReg(pDM_Odm, 0xd40, 0xffffffff);
++				ODM_Write4Byte(pDM_Odm, 0xeb8, 0x02000000);
++				reg2 = ODM_GetBBReg(pDM_Odm, 0xd40, 0x0000001f);
++				Image_Power = (reg2<<32)+reg1;
++				DbgPrint("Before PW = %d\n", Image_Power);
++				ODM_Write4Byte(pDM_Odm, 0xeb8, 0x03000000);
++				reg1 = ODM_GetBBReg(pDM_Odm, 0xd40, 0xffffffff);
++				ODM_Write4Byte(pDM_Odm, 0xeb8, 0x04000000);
++				reg2 = ODM_GetBBReg(pDM_Odm, 0xd40, 0x0000001f);
++				Image_Power = (reg2<<32)+reg1;
++				DbgPrint("After PW = %d\n", Image_Power);
++				*/
++				TX1_Average++;
++				}
++			else{
++				cal1_retry++;
++				if (cal1_retry == 10)
++					break;
++				}
++			}
++			else{
++				cal0_retry++;
++				cal1_retry++;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Delay 20ms TX IQK Not Ready!!!!!\n"));
++				if (cal0_retry == 10)
++					break;	
++			}
++			if (TX0_Average >= 2){
++				for (i = 0; i < TX0_Average; i++){
++					for (ii = i+1; ii <TX0_Average; ii++){
++						dx = (TX_IQC_temp[i][0]>>21) - (TX_IQC_temp[ii][0]>>21);
++						if (dx < 4 && dx > -4){
++							dy = (TX_IQC_temp[i][1]>>21) - (TX_IQC_temp[ii][1]>>21);
++							if (dy < 4 && dy > -4){
++								TX_IQC[0] = ((TX_IQC_temp[i][0]>>21) + (TX_IQC_temp[ii][0]>>21))/2;
++								TX_IQC[1] = ((TX_IQC_temp[i][1]>>21) + (TX_IQC_temp[ii][1]>>21))/2;
++								ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TXA_X = %x;;TXA_Y = %x\n", TX_IQC[0]&0x000007ff, TX_IQC[1]&0x000007ff));
++								TX0_finish = TRUE;
++							}
++						}
++					}
++				}
++			}
++			if (TX1_Average >= 2){
++				for (i = 0; i < TX1_Average; i++){
++					for (ii = i+1; ii <TX1_Average; ii++){
++						dx = (TX_IQC_temp[i][2]>>21) - (TX_IQC_temp[ii][2]>>21);
++						if (dx < 4 && dx > -4){
++							dy = (TX_IQC_temp[i][3]>>21) - (TX_IQC_temp[ii][3]>>21);
++							if (dy < 4 && dy > -4){
++								TX_IQC[2] = ((TX_IQC_temp[i][2]>>21) + (TX_IQC_temp[ii][2]>>21))/2;
++								TX_IQC[3] = ((TX_IQC_temp[i][3]>>21) + (TX_IQC_temp[ii][3]>>21))/2;
++								ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TXB_X = %x;;TXB_Y = %x\n", TX_IQC[2]&0x000007ff, TX_IQC[3]&0x000007ff));
++								TX1_finish = TRUE;
++							}
++						}
++					}
++				}
++			}
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TX0_Average = %d, TX1_Average = %d\n", TX0_Average, TX1_Average));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TX0_finish = %d, TX1_finish = %d\n", TX0_finish, TX1_finish));
++			if (TX0_finish && TX1_finish)
++				break;
++			if ((cal0_retry + TX0_Average) >= 10 || (cal1_retry + TX1_Average) >= 10 )
++				break;
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TXA_cal_retry = %d\n", cal0_retry));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("TXB_cal_retry = %d\n", cal1_retry));
++
++	
++
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x58, 0x7fe00, ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x8, 0xffc00)); // Load LOK
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x58, 0x7fe00, ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x8, 0xffc00)); // Load LOK
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++	
++		ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++		if (TX0_finish){
++		//====== Path A RX IQK RF Setting======
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, bRFRegOffsetMask, 0x80000);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x30, bRFRegOffsetMask, 0x30000);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x31, bRFRegOffsetMask, 0x3f7ff);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x32, bRFRegOffsetMask, 0xfe7bf);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x8f, bRFRegOffsetMask, 0x88001);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x65, bRFRegOffsetMask, 0x931d1);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0xef, bRFRegOffsetMask, 0x00000);
++		}
++		if (TX1_finish){
++		//====== Path B RX IQK RF Setting======
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, bRFRegOffsetMask, 0x80000);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x30, bRFRegOffsetMask, 0x30000);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x31, bRFRegOffsetMask, 0x3f7ff);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x32, bRFRegOffsetMask, 0xfe7bf);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x8f, bRFRegOffsetMask, 0x88001);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x65, bRFRegOffsetMask, 0x931d1);
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0xef, bRFRegOffsetMask, 0x00000);
++		}
++		ODM_SetBBReg(pDM_Odm, 0x978, BIT(31), 0x1);
++		ODM_SetBBReg(pDM_Odm, 0x97c, BIT(31), 0x0);
++		ODM_Write4Byte(pDM_Odm, 0x90c, 0x00008000);
++            if (pDM_Odm->SupportInterface == ODM_ITRF_PCIE)
++		     ODM_Write4Byte(pDM_Odm, 0x984, 0x0046a911);
++                else
++                     ODM_Write4Byte(pDM_Odm, 0x984, 0x0046a890);
++		//ODM_Write4Byte(pDM_Odm, 0x984, 0x0046a890);
++	if (pDM_Odm->RFEType == 1){
++			ODM_Write4Byte(pDM_Odm, 0xcb0, 0x77777717);
++			ODM_Write4Byte(pDM_Odm, 0xcb4, 0x00000077);
++			ODM_Write4Byte(pDM_Odm, 0xeb0, 0x77777717);
++			ODM_Write4Byte(pDM_Odm, 0xeb4, 0x00000077);
++		}
++		else{
++		ODM_Write4Byte(pDM_Odm, 0xcb0, 0x77777717);
++		ODM_Write4Byte(pDM_Odm, 0xcb4, 0x02000077);
++		ODM_Write4Byte(pDM_Odm, 0xeb0, 0x77777717);
++		ODM_Write4Byte(pDM_Odm, 0xeb4, 0x02000077);
++		}
++		
++		
++		ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++		if (TX0_finish){
++		ODM_Write4Byte(pDM_Odm, 0xc80, 0x38008c10);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++		ODM_Write4Byte(pDM_Odm, 0xc84, 0x18008c10);// RX_Tone_idx[9:0], RxK_Mask[29]
++		ODM_Write4Byte(pDM_Odm, 0xc88, 0x82140119);
++		}
++		if (TX1_finish){
++		ODM_Write4Byte(pDM_Odm, 0xe80, 0x38008c10);// TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16
++		ODM_Write4Byte(pDM_Odm, 0xe84, 0x18008c10);// RX_Tone_idx[9:0], RxK_Mask[29]
++		ODM_Write4Byte(pDM_Odm, 0xe88, 0x82140119);
++		}
++              cal0_retry = 0;
++		cal1_retry = 0;
++		while(1){
++		    // one shot
++		    	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++		    	if (TX0_finish){
++			ODM_SetBBReg(pDM_Odm, 0x978, 0x03FF8000, (TX_IQC[0])&0x000007ff);
++			ODM_SetBBReg(pDM_Odm, 0x978, 0x000007FF, (TX_IQC[1])&0x000007ff);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++		if (pDM_Odm->RFEType == 1){
++				ODM_Write4Byte(pDM_Odm, 0xc8c, 0x28161500);
++			}
++			else{
++				ODM_Write4Byte(pDM_Odm, 0xc8c, 0x28160cc0);
++			}
++			ODM_Write4Byte(pDM_Odm, 0xcb8, 0x00300000);// cb8[20] ±N SI/PI ¨Ï¥ÎÅv¤Áµ¹ iqk_dpk module
++			ODM_Write4Byte(pDM_Odm, 0xcb8, 0x00100000);
++		ODM_delay_ms(5); //Delay 5ms
++			ODM_Write4Byte(pDM_Odm, 0xc8c, 0x3c000000);
++			ODM_Write4Byte(pDM_Odm, 0xcb8, 0x00000000);
++		    	}
++			if (TX1_finish){
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++			ODM_SetBBReg(pDM_Odm, 0x978, 0x03FF8000, (TX_IQC[2])&0x000007ff);
++			ODM_SetBBReg(pDM_Odm, 0x978, 0x000007FF, (TX_IQC[3])&0x000007ff);
++			ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++		if (pDM_Odm->RFEType == 1){
++				ODM_Write4Byte(pDM_Odm, 0xe8c, 0x28161500);
++			}
++			else{
++				ODM_Write4Byte(pDM_Odm, 0xe8c, 0x28160ca0);
++			}
++			ODM_Write4Byte(pDM_Odm, 0xeb8, 0x00300000);// cb8[20] ±N SI/PI ¨Ï¥ÎÅv¤Áµ¹ iqk_dpk module
++			ODM_Write4Byte(pDM_Odm, 0xeb8, 0x00100000);// cb8[20] ±N SI/PI ¨Ï¥ÎÅv¤Áµ¹ iqk_dpk module
++		ODM_delay_ms(5); //Delay 5ms
++			ODM_Write4Byte(pDM_Odm, 0xe8c, 0x3c000000);
++			ODM_Write4Byte(pDM_Odm, 0xeb8, 0x00000000);
++			}
++			delay_count = 0;
++			while (1){
++				if (!RX0_finish && TX0_finish)
++					IQK0_ready = (BOOLEAN) ODM_GetBBReg(pDM_Odm, 0xd00, BIT(10));
++				if (!RX1_finish && TX1_finish)
++					IQK1_ready = (BOOLEAN) ODM_GetBBReg(pDM_Odm, 0xd40, BIT(10));
++				if ((IQK0_ready && IQK1_ready)||(delay_count>20))
++					break;
++				else{
++				ODM_delay_ms(1);
++					delay_count++;
++				}
++			}
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX delay_count = %d\n", delay_count));
++			if (delay_count < 20){	// If 20ms No Result, then cal_retry++
++				// ============RXIQK Check==============
++				RX0_fail = (BOOLEAN) ODM_GetBBReg(pDM_Odm, 0xd00, BIT(11));
++				RX1_fail = (BOOLEAN) ODM_GetBBReg(pDM_Odm, 0xd40, BIT(11));
++				if (!(RX0_fail || RX0_finish) && TX0_finish){
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x06000000);
++					RX_IQC_temp[RX0_Average][0] = ODM_GetBBReg(pDM_Odm, 0xd00, 0x07ff0000)<<21;
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x08000000);
++					RX_IQC_temp[RX0_Average][1] = ODM_GetBBReg(pDM_Odm, 0xd00, 0x07ff0000)<<21;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX_X0[%d] = %x ;; RX_Y0[%d] = %x\n", RX0_Average, (RX_IQC_temp[RX0_Average][0])>>21&0x000007ff, RX0_Average, (RX_IQC_temp[RX0_Average][1])>>21&0x000007ff));
++/*					
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x05000000);
++					reg1 = ODM_GetBBReg(pDM_Odm, 0xd00, 0xffffffff);
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x06000000);
++					reg2 = ODM_GetBBReg(pDM_Odm, 0xd00, 0x0000001f);
++					DbgPrint("reg1 = %d, reg2 = %d", reg1, reg2);
++					Image_Power = (reg2<<32)+reg1;
++					DbgPrint("Before PW = %d\n", Image_Power);
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x07000000);
++					reg1 = ODM_GetBBReg(pDM_Odm, 0xd00, 0xffffffff);
++					ODM_Write4Byte(pDM_Odm, 0xcb8, 0x08000000);
++					reg2 = ODM_GetBBReg(pDM_Odm, 0xd00, 0x0000001f);
++					Image_Power = (reg2<<32)+reg1;
++					DbgPrint("After PW = %d\n", Image_Power);
++*/					
++					RX0_Average++;
++				}
++				else{
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("1. RXA_cal_retry = %d\n", cal0_retry));
++					cal0_retry++;
++					if (cal0_retry == 10)
++					break;
++				}
++				if (!(RX1_fail || RX1_finish) && TX1_finish){
++                            		ODM_Write4Byte(pDM_Odm, 0xeb8, 0x06000000);
++                            		RX_IQC_temp[RX1_Average][2] = ODM_GetBBReg(pDM_Odm, 0xd40, 0x07ff0000)<<21;
++                            		ODM_Write4Byte(pDM_Odm, 0xeb8, 0x08000000);
++                            		RX_IQC_temp[RX1_Average][3] = ODM_GetBBReg(pDM_Odm, 0xd40, 0x07ff0000)<<21;
++					ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX_X1[%d] = %x ;; RX_Y1[%d] = %x\n", RX1_Average, (RX_IQC_temp[RX1_Average][2])>>21&0x000007ff, RX1_Average, (RX_IQC_temp[RX1_Average][3])>>21&0x000007ff));
++/*					
++					ODM_Write4Byte(pDM_Odm, 0xeb8, 0x05000000);
++					reg1 = ODM_GetBBReg(pDM_Odm, 0xd40, 0xffffffff);
++					ODM_Write4Byte(pDM_Odm, 0xeb8, 0x06000000);
++					reg2 = ODM_GetBBReg(pDM_Odm, 0xd40, 0x0000001f);
++					DbgPrint("reg1 = %d, reg2 = %d", reg1, reg2);
++					Image_Power = (reg2<<32)+reg1;
++					DbgPrint("Before PW = %d\n", Image_Power);
++					ODM_Write4Byte(pDM_Odm, 0xeb8, 0x07000000);
++					reg1 = ODM_GetBBReg(pDM_Odm, 0xd40, 0xffffffff);
++					ODM_Write4Byte(pDM_Odm, 0xeb8, 0x08000000);
++					reg2 = ODM_GetBBReg(pDM_Odm, 0xd40, 0x0000001f);
++					Image_Power = (reg2<<32)+reg1;
++					DbgPrint("After PW = %d\n", Image_Power);
++*/				
++					RX1_Average++;
++                        	}
++                        	else{
++                            		cal1_retry++;
++                            		if (cal1_retry == 10)
++                                		break;
++                    		}
++				
++			}
++			else{
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("2. RXA_cal_retry = %d\n", cal0_retry));
++				cal0_retry++;
++				cal1_retry++;
++				ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("Delay 20ms RX IQK Not Ready!!!!!\n"));
++			    if (cal0_retry == 10)
++			        break;
++			}
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("3. RXA_cal_retry = %d\n", cal0_retry));
++			if (RX0_Average >= 2){
++				for (i = 0; i < RX0_Average; i++){
++					for (ii = i+1; ii <RX0_Average; ii++){
++					dx = (RX_IQC_temp[i][0]>>21) - (RX_IQC_temp[ii][0]>>21);
++						if (dx < 4 && dx > -4){
++						dy = (RX_IQC_temp[i][1]>>21) - (RX_IQC_temp[ii][1]>>21);
++							if (dy < 4 && dy > -4){
++								RX_IQC[0]= ((RX_IQC_temp[i][0]>>21) + (RX_IQC_temp[ii][0]>>21))/2;
++								RX_IQC[1] = ((RX_IQC_temp[i][1]>>21) + (RX_IQC_temp[ii][1]>>21))/2;
++								RX0_finish = TRUE;
++								break;
++							}
++						}
++					}
++				}
++			}
++			if (RX1_Average >= 2){
++				for (i = 0; i < RX1_Average; i++){
++					for (ii = i+1; ii <RX1_Average; ii++){
++					dx = (RX_IQC_temp[i][2]>>21) - (RX_IQC_temp[ii][2]>>21);
++						if (dx < 4 && dx > -4){
++						dy = (RX_IQC_temp[i][3]>>21) - (RX_IQC_temp[ii][3]>>21);
++							if (dy < 4 && dy > -4){
++								RX_IQC[2] = ((RX_IQC_temp[i][2]>>21) + (RX_IQC_temp[ii][2]>>21))/2;
++								RX_IQC[3] = ((RX_IQC_temp[i][3]>>21) + (RX_IQC_temp[ii][3]>>21))/2;
++								RX1_finish = TRUE;
++								break;
++							}
++						}
++					}
++				}
++			}
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX0_Average = %d, RX1_Average = %d\n", RX0_Average, RX1_Average));
++			ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RX0_finish = %d, RX1_finish = %d\n", RX0_finish, RX1_finish));
++			if ((RX0_finish|| !TX0_finish) && (RX1_finish || !TX1_finish) )
++				break;
++			if ((cal0_retry + RX0_Average) >= 10 || (cal1_retry + RX1_Average) >= 10 || RX0_Average == 3 || RX1_Average == 3)
++				break;
++		}
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RXA_cal_retry = %d\n", cal0_retry));
++		ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("RXB_cal_retry = %d\n", cal1_retry));
++
++
++	// FillIQK Result
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("========Path_A =======\n"));
++
++	if (TX0_finish){
++		_IQK_TX_FillIQC_8812A(pDM_Odm, ODM_RF_PATH_A, TX_IQC[0], TX_IQC[1]);
++	}
++	else{
++		_IQK_TX_FillIQC_8812A(pDM_Odm, ODM_RF_PATH_A, 0x200, 0x0);
++	}
++
++
++
++	if (RX0_finish){
++		_IQK_RX_FillIQC_8812A(pDM_Odm, ODM_RF_PATH_A, RX_IQC[0], RX_IQC[1]);
++	}
++	else{
++		_IQK_RX_FillIQC_8812A(pDM_Odm, ODM_RF_PATH_A, 0x200, 0x0);
++	}
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("========Path_B =======\n"));
++
++	if (TX1_finish){
++		_IQK_TX_FillIQC_8812A(pDM_Odm, ODM_RF_PATH_B, TX_IQC[2], TX_IQC[3]);
++	}
++	else{
++		_IQK_TX_FillIQC_8812A(pDM_Odm, ODM_RF_PATH_B, 0x200, 0x0);
++	}
++
++
++
++	if (RX1_finish){
++		_IQK_RX_FillIQC_8812A(pDM_Odm, ODM_RF_PATH_B, RX_IQC[2], RX_IQC[3]);
++	}
++	else{
++		_IQK_RX_FillIQC_8812A(pDM_Odm, ODM_RF_PATH_B, 0x200, 0x0);
++	}
++
++
++		
++}
++
++#define MACBB_REG_NUM 9
++#define AFE_REG_NUM 12
++#define RF_REG_NUM 3
++
++// Maintained by BB James.
++VOID	
++phy_IQCalibrate_8812A(
++	IN PDM_ODM_T		pDM_Odm,
++	IN u1Byte		Channel
++	)
++{
++	u4Byte	MACBB_backup[MACBB_REG_NUM], AFE_backup[AFE_REG_NUM], RFA_backup[RF_REG_NUM], RFB_backup[RF_REG_NUM];
++	u4Byte 	Backup_MACBB_REG[MACBB_REG_NUM] = {0x520, 0x550, 0x808, 0xa04, 0x90c, 0xc00, 0xe00, 0x838,  0x82c}; 
++	u4Byte 	Backup_AFE_REG[AFE_REG_NUM] = {0xc5c, 0xc60, 0xc64, 0xc68, 0xcb0, 0xcb4,
++		       	                                                   0xe5c, 0xe60, 0xe64, 0xe68, 0xeb0, 0xeb4}; 
++	u4Byte	Reg_C1B8, Reg_E1B8;
++	u4Byte 	Backup_RF_REG[RF_REG_NUM] = {0x65, 0x8f, 0x0}; 
++	u1Byte 	chnlIdx = GetRightChnlPlaceforIQK(Channel);
++
++	_IQK_BackupMacBB_8812A(pDM_Odm, MACBB_backup, Backup_MACBB_REG, MACBB_REG_NUM);
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++	Reg_C1B8 = ODM_Read4Byte(pDM_Odm, 0xcb8);
++	Reg_E1B8 = ODM_Read4Byte(pDM_Odm, 0xeb8);
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++	_IQK_BackupAFE_8812A(pDM_Odm, AFE_backup, Backup_AFE_REG, AFE_REG_NUM);
++	_IQK_BackupRF_8812A(pDM_Odm, RFA_backup, RFB_backup, Backup_RF_REG, RF_REG_NUM);
++	
++	_IQK_ConfigureMAC_8812A(pDM_Odm);
++	_IQK_Tx_8812A(pDM_Odm, chnlIdx);
++	_IQK_RestoreRF_8812A(pDM_Odm, ODM_RF_PATH_A, Backup_RF_REG, RFA_backup, RF_REG_NUM);
++	_IQK_RestoreRF_8812A(pDM_Odm, ODM_RF_PATH_B, Backup_RF_REG, RFB_backup, RF_REG_NUM);
++	
++	_IQK_RestoreAFE_8812A(pDM_Odm, AFE_backup, Backup_AFE_REG, AFE_REG_NUM);
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1);
++	ODM_Write4Byte(pDM_Odm, 0xcb8, Reg_C1B8);
++	ODM_Write4Byte(pDM_Odm, 0xeb8, Reg_E1B8);
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0);
++	_IQK_RestoreMacBB_8812A(pDM_Odm, MACBB_backup, Backup_MACBB_REG, MACBB_REG_NUM);
++
++
++}
++
++VOID	
++phy_LCCalibrate_8812A(
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN	BOOLEAN		is2T
++	)
++{
++	u4Byte	/*RF_Amode=0, RF_Bmode=0,*/ LC_Cal = 0, tmp = 0;
++	
++	//Check continuous TX and Packet TX
++	u4Byte	reg0x914 = ODM_Read4Byte(pDM_Odm, rSingleTone_ContTx_Jaguar);;
++
++	// Backup RF reg18.
++	LC_Cal = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_CHNLBW, bRFRegOffsetMask);
++
++	if((reg0x914 & 0x70000) != 0)	//If contTx, disable all continuous TX. 0x914[18:16]
++		// <20121121, Kordan> A workaround: If we set 0x914[18:16] as zero, BB turns off ContTx
++		// until another packet comes in. To avoid ContTx being turned off, we skip this step.
++		;//ODM_Write4Byte(pDM_Odm, rSingleTone_ContTx_Jaguar, reg0x914 & (~0x70000));	
++	else							// If packet Tx-ing, pause Tx.
++		ODM_Write1Byte(pDM_Odm, REG_TXPAUSE_8812A, 0xFF);			
++
++
++/*
++	//3 1. Read original RF mode
++	RF_Amode = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_AC, bRFRegOffsetMask);
++	if(is2T)
++		RF_Bmode = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_AC, bRFRegOffsetMask);	
++
++
++	//3 2. Set RF mode = standby mode
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_AC, bRFRegOffsetMask, (RF_Amode&0x8FFFF)|0x10000);
++	if(is2T)
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_AC, bRFRegOffsetMask, (RF_Bmode&0x8FFFF)|0x10000);			
++*/
++
++	// Enter LCK mode
++	tmp = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_LCK, bRFRegOffsetMask);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_LCK, bRFRegOffsetMask, tmp | BIT14);
++
++	//3 3. Read RF reg18
++	LC_Cal = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_CHNLBW, bRFRegOffsetMask);
++	
++	//3 4. Set LC calibration begin bit15
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_CHNLBW, bRFRegOffsetMask, LC_Cal|0x08000);
++
++	ODM_delay_ms(150);		// suggest by RFSI Binson
++
++	// Leave LCK mode
++	tmp = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_LCK, bRFRegOffsetMask);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_LCK, bRFRegOffsetMask, tmp & ~BIT14);
++	
++	//3 Restore original situation
++	if((reg0x914 & 70000) != 0) 	//Deal with contisuous TX case, 0x914[18:16]
++	{  
++		// <20121121, Kordan> A workaround: If we set 0x914[18:16] as zero, BB turns off ContTx
++		// until another packet comes in. To avoid ContTx being turned off, we skip this step.
++		//ODM_Write4Byte(pDM_Odm, rSingleTone_ContTx_Jaguar, reg0x914); 
++	}
++	else // Deal with Packet TX case
++	{
++		ODM_Write1Byte(pDM_Odm, REG_TXPAUSE_8812A, 0x00);	
++	}
++
++	// Recover channel number
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_CHNLBW, bRFRegOffsetMask, LC_Cal);
++
++	/*
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_AC, bRFRegOffsetMask, RF_Amode);
++	if(is2T)
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_AC, bRFRegOffsetMask, RF_Bmode);
++		*/
++
++}
++
++
++
++
++
++#define		DP_BB_REG_NUM		7
++#define		DP_RF_REG_NUM		1
++#define		DP_RETRY_LIMIT		10
++#define		DP_PATH_NUM		2
++#define		DP_DPK_NUM			3
++#define		DP_DPK_VALUE_NUM	2
++
++VOID	
++phy_ReloadIQKSetting_8812A(
++ 	IN	PDM_ODM_T	pDM_Odm,
++	IN	u1Byte		Channel
++ 	)
++{
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	u1Byte chnlIdx = GetRightChnlPlaceforIQK(Channel);
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++	ODM_SetBBReg(pDM_Odm, 0xccc, 0x000007ff, pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][0]&0x7ff);
++	ODM_SetBBReg(pDM_Odm, 0xcd4, 0x000007ff, (pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][0]&0x7ff0000)>>16);
++	ODM_SetBBReg(pDM_Odm, 0xecc, 0x000007ff, pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][2]&0x7ff);
++	ODM_SetBBReg(pDM_Odm, 0xed4, 0x000007ff, (pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][2]&0x7ff0000)>>16);
++
++	if (*pDM_Odm->pBandWidth != 2){
++		ODM_Write4Byte(pDM_Odm, 0xce8, 0x0);
++		ODM_Write4Byte(pDM_Odm, 0xee8, 0x0);
++	}
++	else{
++		ODM_Write4Byte(pDM_Odm, 0xce8, pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][4]);
++		ODM_Write4Byte(pDM_Odm, 0xee8, pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][5]);
++	}
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	ODM_SetBBReg(pDM_Odm, 0xc10, 0x000003ff, (pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][1]&0x7ff0000)>>17);
++	ODM_SetBBReg(pDM_Odm, 0xc10, 0x03ff0000, (pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][1]&0x7ff)>>1);
++	ODM_SetBBReg(pDM_Odm, 0xe10, 0x000003ff, (pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][3]&0x7ff0000)>>17);
++	ODM_SetBBReg(pDM_Odm, 0xe10, 0x03ff0000, (pRFCalibrateInfo->IQKMatrixRegSetting[chnlIdx].Value[*pDM_Odm->pBandWidth][3]&0x7ff)>>1);
++	
++
++}
++
++VOID 
++PHY_ResetIQKResult_8812A(
++	IN	PDM_ODM_T	pDM_Odm
++)
++{
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x1); // [31] = 1 --> Page C1
++	ODM_SetBBReg(pDM_Odm, 0xccc, 0x000007ff, 0x0);
++	ODM_SetBBReg(pDM_Odm, 0xcd4, 0x000007ff, 0x200);
++	ODM_SetBBReg(pDM_Odm, 0xecc, 0x000007ff, 0x0);
++	ODM_SetBBReg(pDM_Odm, 0xed4, 0x000007ff, 0x200);
++	ODM_Write4Byte(pDM_Odm, 0xce8, 0x0);
++	ODM_Write4Byte(pDM_Odm, 0xee8, 0x0);
++	ODM_SetBBReg(pDM_Odm, 0x82c, BIT(31), 0x0); // [31] = 0 --> Page C
++	ODM_SetBBReg(pDM_Odm, 0xc10, 0x000003ff, 0x100);
++	ODM_SetBBReg(pDM_Odm, 0xe10, 0x000003ff, 0x100);
++}
++
++VOID
++phy_IQCalibrate_By_FW_8812A(
++	IN 	PDM_ODM_T	pDM_Odm
++	)
++{
++	
++	u1Byte			IQKcmd[3] = {*pDM_Odm->pChannel, 0x0, 0x0};
++	u1Byte			Buf1 = 0x0;
++	u1Byte			Buf2 = 0x0;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++//Byte 2, Bit 4 ~ Bit 5 : BandType
++	if(*pDM_Odm->pBandType)
++		Buf1 = 0x2<<4;
++	else
++		Buf1 = 0x1<<4;
++	
++//Byte 2, Bit 0 ~ Bit 3 : Bandwidth
++	if(*pDM_Odm->pBandWidth == ODM_BW20M)
++		Buf2 = 0x1;
++	else if(*pDM_Odm->pBandWidth == ODM_BW40M)
++		Buf2 = 0x1<<1;
++	else if(*pDM_Odm->pBandWidth == ODM_BW80M)
++		Buf2 = 0x1<<2;
++	else
++		Buf2 = 0x1<<3;
++	
++	IQKcmd[1] = Buf1 | Buf2;
++	IQKcmd[2] =  pDM_Odm->ExtPA5G | pDM_Odm->ExtPA<<1 | pDM_Odm->SupportInterface<<2 | pDM_Odm->RFEType<<5;
++
++	RT_TRACE(COMP_MP, DBG_LOUD, ("== FW IQK Start ==\n"));
++	pRFCalibrateInfo->IQK_StartTime = 0;
++	pRFCalibrateInfo->IQK_StartTime = ODM_GetCurrentTime(pDM_Odm);
++	RT_TRACE(COMP_MP, DBG_LOUD, ("== StartTime: %u\n", pRFCalibrateInfo->IQK_StartTime));
++	
++	ODM_FillH2CCmd(pDM_Odm, ODM_H2C_IQ_CALIBRATION, 3, IQKcmd);
++
++
++}
++
++VOID
++PHY_IQCalibrate_8812A(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN 	bReCovery
++	)
++{
++	u4Byte			counter = 0;
++	PMGNT_INFO		pMgntInfo = &(pAdapter->MgntInfo);
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);	
++
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;	
++	#else  // (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;	
++	#endif
++#endif	
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++#if (MP_DRIVER == 1)
++	#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->MptCtx);	
++	#else// (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);		
++	#endif	
++#endif//(MP_DRIVER == 1)
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE) )
++	if (ODM_CheckPowerStatus(pAdapter) == FALSE)
++		return;
++#endif
++	//pMgntInfo->RegIQKFWOffload = (u1Byte)ODM_GetBBReg( pDM_Odm, 0x444, BIT8);
++#if MP_DRIVER == 1	
++	
++	// <VincentL, 131231> Add to determine IQK ON/OFF in certain case, Suggested by Cheng.
++	if (!pHalData->IQK_MP_Switch)
++		return;
++
++
++	if( ! (pMptCtx->bSingleTone || pMptCtx->bCarrierSuppression) )
++#endif		
++	{
++
++		//3 == FW IQK ==
++		if(pMgntInfo->RegIQKFWOffload)
++		{
++			if ( ! pRFCalibrateInfo->bIQKInProgress) 
++			{
++				PlatformAcquireSpinLock(pAdapter, RT_IQK_SPINLOCK);
++				pRFCalibrateInfo->bIQKInProgress = TRUE;
++				PlatformReleaseSpinLock(pAdapter, RT_IQK_SPINLOCK);
++
++				phy_IQCalibrate_By_FW_8812A(pDM_Odm);
++			}
++			else
++			{
++				for(counter = 0; counter < 10; counter++){
++					RT_TRACE(COMP_MP, DBG_LOUD, ("== FW IQK IN PROGRESS == #%d\n", counter));
++					delay_ms(50);
++					if ( ! pRFCalibrateInfo->bIQKInProgress)
++					{
++						RT_TRACE(COMP_MP, DBG_LOUD, ("== FW IQK RETURN FROM WAITING ==\n"));
++						break;
++					}
++				}
++
++				if (pRFCalibrateInfo->bIQKInProgress)
++				{
++					RT_TRACE(COMP_MP, DBG_LOUD, ("== FW IQK TIMEOUT (Still in progress after 500ms) ==\n"));
++					PlatformAcquireSpinLock(pAdapter, RT_IQK_SPINLOCK);
++					pRFCalibrateInfo->bIQKInProgress = FALSE;
++					PlatformReleaseSpinLock(pAdapter, RT_IQK_SPINLOCK);
++				}
++				else
++				{
++					PlatformAcquireSpinLock(pAdapter, RT_IQK_SPINLOCK);
++					pRFCalibrateInfo->bIQKInProgress = TRUE;
++					PlatformReleaseSpinLock(pAdapter, RT_IQK_SPINLOCK);
++					phy_IQCalibrate_By_FW_8812A(pDM_Odm);
++				}
++				
++				
++			}
++		}
++		//3 == Driver IQK ==
++		else 
++		{
++			if ( ! pRFCalibrateInfo->bIQKInProgress) 
++			{
++				PlatformAcquireSpinLock(pAdapter, RT_IQK_SPINLOCK);
++				pRFCalibrateInfo->bIQKInProgress = TRUE;
++				PlatformReleaseSpinLock(pAdapter, RT_IQK_SPINLOCK);
++				
++				//RT_TRACE(COMP_P2P, DBG_LOUD, ("1 %s: KeGetCurrentIrql(): %d\n", __FUNCTION__, KeGetCurrentIrql()));
++				phy_IQCalibrate_8812A(pDM_Odm, pHalData->CurrentChannel);
++				//RT_TRACE(COMP_P2P, DBG_LOUD, ("3 %s: KeGetCurrentIrql(): %d\n", __FUNCTION__, KeGetCurrentIrql()));
++
++				PlatformAcquireSpinLock(pAdapter, RT_IQK_SPINLOCK);
++				pRFCalibrateInfo->bIQKInProgress = FALSE;
++				PlatformReleaseSpinLock(pAdapter, RT_IQK_SPINLOCK);
++			}
++		}
++
++		
++	}
++	
++}
++
++
++VOID
++PHY_LCCalibrate_8812A(
++	IN PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	PADAPTER 		pAdapter = pDM_Odm->Adapter;
++	
++#if (MP_DRIVER == 1)
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->MptCtx);
++#else
++	PMPT_CONTEXT	pMptCtx = &(pAdapter->mppriv.MptCtx);		
++#endif	
++#endif
++#endif	
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> PHY_LCCalibrate_8812A\n"));
++
++#if (MP_DRIVER == 1)	
++	phy_LCCalibrate_8812A(pDM_Odm, TRUE);
++#endif 
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== PHY_LCCalibrate_8812A\n"));
++
++}
++
++VOID phy_SetRFPathSwitch_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	BOOLEAN		bMain,
++	IN	BOOLEAN		is2T
++	)
++{
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	#elif (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	#endif
++
++#endif		
++
++	if (IS_HARDWARE_TYPE_8821(pAdapter)) 
++	{
++		if(bMain)
++			ODM_SetBBReg(pDM_Odm, rA_RFE_Pinmux_Jaguar+4, BIT29|BIT28, 0x1);	//Main
++		else
++			ODM_SetBBReg(pDM_Odm, rA_RFE_Pinmux_Jaguar+4, BIT29|BIT28, 0x2);	//Aux
++	}
++	else if (pDM_Odm->SupportICType & ODM_RTL8812) 
++	{
++		if (pHalData->RFEType == 5)
++		{
++			if(bMain) {
++				// WiFi 
++				ODM_SetBBReg(pDM_Odm, r_ANTSEL_SW_Jaguar, BIT1|BIT0, 0x2);  
++            	ODM_SetBBReg(pDM_Odm, r_ANTSEL_SW_Jaguar, BIT9|BIT8, 0x3);  
++			} else {
++				// BT
++				ODM_SetBBReg(pDM_Odm, r_ANTSEL_SW_Jaguar, BIT1|BIT0, 0x1);  
++            	ODM_SetBBReg(pDM_Odm, r_ANTSEL_SW_Jaguar, BIT9|BIT8, 0x3);  
++			}
++		}
++		else if (pHalData->RFEType == 1)
++		{ // <131224, VincentL> When RFEType == 1 also Set 0x900, suggested by RF Binson.
++			if(bMain) {
++				// WiFi 
++				ODM_SetBBReg(pDM_Odm, r_ANTSEL_SW_Jaguar, BIT1|BIT0, 0x2);  
++            	ODM_SetBBReg(pDM_Odm, r_ANTSEL_SW_Jaguar, BIT9|BIT8, 0x3);  
++			} else {
++				// BT
++				ODM_SetBBReg(pDM_Odm, r_ANTSEL_SW_Jaguar, BIT1|BIT0, 0x1);  
++            	ODM_SetBBReg(pDM_Odm, r_ANTSEL_SW_Jaguar, BIT9|BIT8, 0x3);  
++			}
++		}
++		
++	}
++
++}
++VOID PHY_SetRFPathSwitch_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	BOOLEAN		bMain
++	)
++{
++
++#if DISABLE_BB_RF
++	return;
++#endif
++
++#if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
++
++		phy_SetRFPathSwitch_8812A(pAdapter, bMain, TRUE);
++
++#endif		
++}
++
++s4Byte
++_Sign(
++	IN u4Byte Number
++	)
++{
++	if ((Number & BIT10) == BIT10) {// Negative
++	    Number &= (~0xFFFFFC00);         // [9:0]
++		Number = ~Number;
++	    Number &= (~0xFFFFFC00);         // [9:0]
++	    Number += 1;
++	    Number &= (~0xFFFFF800);		  // [10:0]	
++	    return -1 * Number;
++    } else { // Positive
++        return (s4Byte)Number;
++    }
++}
++
++
++VOID
++_DPK_MacBBBackup_PathA(
++	IN 		PDM_ODM_T	pDM_Odm,
++	IN  	pu4Byte		BackupRegAddr,
++	IN OUT  pu4Byte		BackupRegData, 
++	IN  	u4Byte		Number
++	)
++{
++	u4Byte i;
++	
++	for (i = 0; i < Number; i++)
++		BackupRegData[i] = ODM_Read4Byte(pDM_Odm, BackupRegAddr[i]);
++}
++VOID
++_DPK_MacBBRestore_PathA(
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN  pu4Byte		BackupRegAddr,
++	IN  pu4Byte		BackupRegData, 
++	IN  u4Byte		Number
++	)
++{
++	u4Byte i;
++	
++	for (i = 0; i < Number; i++)
++		ODM_Write4Byte(pDM_Odm, BackupRegAddr[i], BackupRegData[i]);
++}
++
++
++VOID
++_DPK_RFBackup_PathA(
++	IN 		PDM_ODM_T	        pDM_Odm,
++	IN  	pu4Byte				BackupRegAddr,
++	IN		ODM_RF_RADIO_PATH_E	RFPath,
++	IN OUT  pu4Byte				BackupRegData, 
++	IN  	u4Byte		        Number
++	)
++{
++	u4Byte i;
++	
++	for (i = 0; i < Number; i++)
++		BackupRegData[i] = ODM_GetRFReg(pDM_Odm, RFPath, BackupRegAddr[i], bRFRegOffsetMask);
++}
++
++VOID
++_DPK_RFRestore_PathA(
++	IN 	PDM_ODM_T	        pDM_Odm,
++	IN  pu4Byte				BackupRegAddr,
++	IN	ODM_RF_RADIO_PATH_E	RFPath,
++	IN  pu4Byte		        BackupRegData, 
++	IN  u4Byte		        Number
++	)
++{
++	u4Byte i;
++	
++	for (i = 0; i < Number; i++)
++		ODM_SetRFReg(pDM_Odm, RFPath, BackupRegAddr[i], bRFRegOffsetMask, BackupRegData[i]);
++}
++
++
++
++s4Byte
++_ComputeLoopBackGain_PathA(
++	IN	PDM_ODM_T			pDM_Odm
++)
++{
++	// compute loopback gain
++	// ­pºâtmpLBGain ¥Î¨ìªºfunction hex2dec() ¬O±N twos complementªº¤Q¤»¶i¦ìÂন¤Q¶i¦ì, ¤Q¤»¶i¦ìªº®æ¦¡¬°s11.10 
++    // Á|¨Ò1, d00[10:0] = h'3ff, ¸g¹L hex2dec(h'3ff) = 1023,
++    // Á|¨Ò2, d00[10:0] = h'400, ¸g¹L hex2dec(h'400) = -1024,
++    // Á|¨Ò3, d00[10:0] = h'0A9, ¸g¹L hex2dec(h'0A9) = 169,
++    // Á|¨Ò4, d00[10:0] = h'54c, ¸g¹L hex2dec(h'54c) = -692,
++    // Á|¨Ò5, d00[10:0] = h'7ff, ¸g¹L hex2dec(h'7ff) = -1,
++    u4Byte reg0xD00_26_16 = ODM_GetBBReg(pDM_Odm, 0xD00, 0x7FF0000);
++    u4Byte reg0xD00_10_0  = ODM_GetBBReg(pDM_Odm, 0xD00, 0x7FF);
++	
++    s4Byte tmpLBGain = _Sign(reg0xD00_26_16)*_Sign(reg0xD00_26_16) + _Sign(reg0xD00_10_0)*_Sign(reg0xD00_10_0);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== _ComputeLoopBackGain_PathA, tmpLBGain = 0x%X\n", tmpLBGain));
++
++	return tmpLBGain;
++}
++
++
++BOOLEAN
++_FineTuneLoopBackGain_PathA(
++	IN		PDM_ODM_T			pDM_Odm, 
++	IN		u4Byte 				DpkTxAGC	
++	)
++{
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);	
++	s4Byte tmpLBGain = 0;
++
++    u4Byte rf0x64_orig = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x64, 0x7);
++    u4Byte rf0x64_new = rf0x64_orig;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> _FineTuneLoopBackGain\n"));
++
++    do {
++        // RF setting
++        ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x00, bRFRegOffsetMask, DpkTxAGC);
++		ODM_Write4Byte(pDM_Odm, 0x82c, 0x802083dd);
++        // ª`·Npage c1ªºc90¦bDPK¹Lµ{¤¤¤d¸U¤£¯à³Q¨ä¥Lthread or process§ï¼g¦¨page cªºc90­È
++        ODM_Write4Byte(pDM_Odm, 0xc90, 0x0101f018);
++        
++        // one shot
++        ODM_Write4Byte(pDM_Odm, 0xcc8, 0x800c5599);
++        ODM_Write4Byte(pDM_Odm, 0xcc8, 0x000c5599);
++        // delay 50 ms,Åý delay ®É¶¡ªø¤@ÂI, ½T©w PA Scan function ¦³°µ§¹
++        delay_ms(50);
++        
++        // reg82c[31] = 0 --> ¤Á¨ì page C
++        ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd);
++        ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x00, bRFRegOffsetMask, 0x33d8d);	
++
++		tmpLBGain = _ComputeLoopBackGain_PathA(pDM_Odm);
++		
++	    if ((rf0x64_new == (BIT2|BIT1|BIT0)) || (rf0x64_new == 0)) {
++	        //printf('DPK Phase 1 failed');
++	        pRFCalibrateInfo->bDPKFail = TRUE;
++			break;
++	        //Go to DPK Phase 5
++	    } else {
++	        if (tmpLBGain < 263390) {// fine tune loopback path gain: newReg64[2:0] = reg64[2:0] - 3b'001
++	        	rf0x64_new -= 1;
++	            ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x64, 0x7, rf0x64_new);
++
++	        } else if (tmpLBGain > 661607) {// fine tune loopback path gain: newReg64 [2:0] = reg64[2:0] + 3b'001
++	        	rf0x64_new += 1;
++	            ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x64, 0x7, rf0x64_new);
++
++	        } else {
++				pRFCalibrateInfo->bDPKFail = FALSE;
++	        }
++	    }
++
++	} while (tmpLBGain < 263390 || 661607 < tmpLBGain);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== _FineTuneLoopBackGain\n"));
++
++	return pRFCalibrateInfo->bDPKFail ? FALSE : TRUE;
++            
++}
++
++
++
++VOID
++_DPK_Init_PathA(
++	IN 	PDM_ODM_T	pDM_Odm	
++	)
++{
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> _DPK_Init\n"));
++	
++	//TX pause
++	ODM_Write1Byte(pDM_Odm, 0x522, 0x7f); 
++	
++	// reg82c[31] = b'0, ¤Á´«¨ì page C
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd);
++	
++	// AFE setting
++	ODM_Write4Byte(pDM_Odm, 0xc68, 0x19791979);
++	ODM_Write4Byte(pDM_Odm, 0xc60, 0x77777777);
++	ODM_Write4Byte(pDM_Odm, 0xc64, 0x77777777);
++	
++	// external TRSW ¤Á¨ì T
++	ODM_Write4Byte(pDM_Odm, 0xcb0, 0x77777777);
++	ODM_Write4Byte(pDM_Odm, 0xcb4, 0x01000077);
++	
++	// hardware 3-wire off
++	ODM_Write4Byte(pDM_Odm, 0xc00, 0x00000004);
++	
++	// CCA off
++	ODM_Write4Byte(pDM_Odm, 0x838, 0x16C89B4c);
++	 
++	//90c[15]: dac fifo reset by CSWU
++	ODM_Write4Byte(pDM_Odm, 0x90c, 0x00008000);
++	
++	// r_gothrough_iqkdpk
++	ODM_Write4Byte(pDM_Odm, 0xc94, 0x0100005D);
++	
++	// reg82c[31] = 1 --> ¤Á¨ì page C1
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x802083dd);
++	
++	// IQK Amp off
++	ODM_Write4Byte(pDM_Odm, 0xc8c, 0x3c000000);
++	
++	// tx_amp
++	ODM_Write4Byte(pDM_Odm, 0xc98, 0x41382e21);
++	ODM_Write4Byte(pDM_Odm, 0xc9c, 0x5b554f48);
++	ODM_Write4Byte(pDM_Odm, 0xca0, 0x6f6b6661);
++	ODM_Write4Byte(pDM_Odm, 0xca4, 0x817d7874);
++	ODM_Write4Byte(pDM_Odm, 0xca8, 0x908c8884);
++	ODM_Write4Byte(pDM_Odm, 0xcac, 0x9d9a9793);
++	ODM_Write4Byte(pDM_Odm, 0xcb0, 0xaaa7a4a1);
++	ODM_Write4Byte(pDM_Odm, 0xcb4, 0xb6b3b0ad);
++	
++	// tx_inverse
++	ODM_Write4Byte(pDM_Odm, 0xc40, 0x02ce03e9);
++	ODM_Write4Byte(pDM_Odm, 0xc44, 0x01fd0249);
++	ODM_Write4Byte(pDM_Odm, 0xc48, 0x01a101c9);
++	ODM_Write4Byte(pDM_Odm, 0xc4c, 0x016a0181);
++	ODM_Write4Byte(pDM_Odm, 0xc50, 0x01430155);
++	ODM_Write4Byte(pDM_Odm, 0xc54, 0x01270135);
++	ODM_Write4Byte(pDM_Odm, 0xc58, 0x0112011c);
++	ODM_Write4Byte(pDM_Odm, 0xc5c, 0x01000108);
++	ODM_Write4Byte(pDM_Odm, 0xc60, 0x00f100f8);
++	ODM_Write4Byte(pDM_Odm, 0xc64, 0x00e500eb);
++	ODM_Write4Byte(pDM_Odm, 0xc68, 0x00db00e0);
++	ODM_Write4Byte(pDM_Odm, 0xc6c, 0x00d100d5);
++	ODM_Write4Byte(pDM_Odm, 0xc70, 0x00c900cd);
++	ODM_Write4Byte(pDM_Odm, 0xc74, 0x00c200c5);
++	ODM_Write4Byte(pDM_Odm, 0xc78, 0x00bb00be);
++	ODM_Write4Byte(pDM_Odm, 0xc7c, 0x00b500b8);
++	
++	// reg82c[31] = b'0, ¤Á´«¨ì page C
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd); 
++	
++	pRFCalibrateInfo->bDPKFail = FALSE;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== _DPK_Init\n"));
++
++}
++
++
++BOOLEAN
++_DPK_AdjustRFGain_PathA(
++	IN 	PDM_ODM_T	pDM_Odm
++	)
++{
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);	
++	s4Byte tmpLBGain = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> _DPK_AdjustRFGain\n"));
++	
++	// RF setting
++    ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x00, bRFRegOffsetMask, 0x50bfc);
++    // Attn: A mode @ reg64[2:0], G mode @ reg56
++    ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x64, bRFRegOffsetMask, 0x19aac); 
++    // PGA gain: RF reg8f[14:13]
++    ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x8f, bRFRegOffsetMask, 0x8a001); 
++    
++    // reg82c[31] = 1 --> ¤Á¨ì page C1
++    ODM_Write4Byte(pDM_Odm, 0x82c, 0x802083dd);
++    
++    // DPK setting
++    ODM_Write4Byte(pDM_Odm, 0xc94, 0xf76c9f84);
++    ODM_Write4Byte(pDM_Odm, 0xcc8, 0x000c5599);
++    ODM_Write4Byte(pDM_Odm, 0xcc4, 0x11838000);
++    ODM_SetBBReg(pDM_Odm, 0xcd4, 0xFFF000, 0x100);  // ±Ncd4[23:12] §ï¦¨ h'100, ¨ä¥¦¦ì¤¸½Ð«O¯d­ì­È¤£­n¼g¨ì
++    // ª`·Npage c1ªºc90¦bDPK¹Lµ{¤¤¤d¸U¤£¯à³Q¨ä¥Lthread or process§ï¼g¦¨page cªºc90­È
++    ODM_Write4Byte(pDM_Odm, 0xc90, 0x0101f018);
++    
++    // one shot
++    ODM_Write4Byte(pDM_Odm, 0xcc8, 0x800c5599);
++    ODM_Write4Byte(pDM_Odm, 0xcc8, 0x000c5599);
++    // delay 50 ms,Åý delay ®É¶¡ªø¤@ÂI, ½T©w PA Scan function ¦³°µ§¹
++    delay_ms(50);
++    
++    // read back Loopback Gain
++    ODM_Write4Byte(pDM_Odm, 0xcb8, 0x09000000);
++
++    // reg82c[31] = 0 --> ¤Á¨ì page C
++    ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd);
++    ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x00, bRFRegOffsetMask, 0x33d8d);
++    
++    tmpLBGain = _ComputeLoopBackGain_PathA(pDM_Odm);
++    
++    // coarse tune loopback gain by RF reg8f[14:13] = 2b'11
++    if (tmpLBGain < 263390) 
++    {
++        ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x8f, bRFRegOffsetMask, 0x8e001);
++        _FineTuneLoopBackGain_PathA(pDM_Odm, 0x50bfc);
++
++    } 
++    else if (tmpLBGain > 661607)
++    {
++        // coarse tune loopback gain by RF reg8f[14:13] = 2b'00
++    	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x8f, bRFRegOffsetMask, 0x88001);
++		_FineTuneLoopBackGain_PathA(pDM_Odm, 0x50bfc);
++    }
++    else
++    	pRFCalibrateInfo->bDPKFail = FALSE;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== _DPK_AdjustRFGain\n"));
++
++	return pRFCalibrateInfo->bDPKFail ? FALSE : TRUE;
++
++}
++
++
++
++VOID
++_DPK_GainLossToFindTxAGC_PathA(
++	IN 	PDM_ODM_T	pDM_Odm	
++	)
++{
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	u4Byte Reg0xD00 = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> _DPK_GainLossToFindTxAGC\n"));
++	
++	// RF setting
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x00, bRFRegOffsetMask, 0x50bfc);
++	
++	// reg82c[31] = 1 --> ¤Á¨ì page C1
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x802083dd); 
++	
++	// regc20[15:13] = dB sel, §i¶D Gain Loss function ¥h´M§ä dB_sel ©Ò³]©wªºPA gain loss¥Ø¼Ð©Ò¹ïÀ³ªº Tx AGC ¬°¦ó.
++	// dB_sel = b'000 ' 1.0 dB PA gain loss
++	// dB_sel = b'001 ' 1.5 dB PA gain loss
++	// dB_sel = b'010 ' 2.0 dB PA gain loss
++	// dB_sel = b'011 ' 2.5 dB PA gain loss
++	// dB_sel = b'100 ' 3.0 dB PA gain loss
++	// dB_sel = b'101 ' 3.5 dB PA gain loss
++	// dB_sel = b'110 ' 4.0 dB PA gain loss
++	ODM_Write4Byte(pDM_Odm, 0xc20, 0x00002000);
++	
++	// DPK setting
++	ODM_Write4Byte(pDM_Odm, 0xc94, 0xf76c9f84);
++	ODM_Write4Byte(pDM_Odm, 0xcc8, 0x000c5599);
++	ODM_Write4Byte(pDM_Odm, 0xcc4, 0x148b8000);
++	
++	// ª`·Npage c1ªºc90¦bDPK¹Lµ{¤¤¤d¸U¤£¯à³Q¨ä¥Lthread or process§ï¼g¦¨page cªºc90­È
++	ODM_Write4Byte(pDM_Odm, 0xc90, 0x0401f018);
++	
++	// one shot
++	ODM_Write4Byte(pDM_Odm, 0xcc8, 0x800c5599);
++	ODM_Write4Byte(pDM_Odm, 0xcc8, 0x000c5599);
++	// delay 50 ms,Åý delay ®É¶¡ªø¤@ÂI, ½T©w PA Scan function ¦³°µ§¹
++	delay_ms(50);
++	
++	// read back Loopback Gain
++	// ¥i¥H¦b d00[3:0] ¤¤Åª¦^, dB_sel ¤¤©Ò³]©wªº gain loss ·|¸¨¦b­þ¤@­Ó Tx AGC ³]©w
++	// Ū¦^d00[3:0] = h'1 ' Tx AGC = h'13
++	// Ū¦^d00[3:0] = h'2 ' Tx AGC = h'14
++	// Ū¦^d00[3:0] = h'3 ' Tx AGC = h'15
++	// Ū¦^d00[3:0] = h'4 ' Tx AGC = h'16
++	// Ū¦^d00[3:0] = h'5 ' Tx AGC = h'17
++	// Ū¦^d00[3:0] = h'6 ' Tx AGC = h'18
++	// Ū¦^d00[3:0] = h'7 ' Tx AGC = h'19
++	// Ū¦^d00[3:0] = h'8 ' Tx AGC = h'1a
++	// Ū¦^d00[3:0] = h'9 ' Tx AGC = h'1b
++	// Ū¦^d00[3:0] = h'a ' Tx AGC = h'1c
++	//
++	Reg0xD00 = ODM_Read4Byte(pDM_Odm, 0xd00);
++	switch (ODM_Read4Byte(pDM_Odm, 0xd00) & (BIT3|BIT2|BIT1|BIT0))
++	{
++		case 0x0:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0x2; break;
++		case 0x1:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0x3; break;
++		case 0x2:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0x4; break;
++		case 0x3:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0x5; break;
++		case 0x4:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0x6; break;
++		case 0x5:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0x7; break;
++		case 0x6:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0x8; break;
++		case 0x7:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0x9; break;
++		case 0x8:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0xa; break;
++		case 0x9:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0xb; break;
++		case 0xa:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0xc; break;
++	}
++	// reg82c[31] = 0 --> ¤Á¨ì page C
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x00, bRFRegOffsetMask, 0x33d8d);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== _DPK_GainLossToFindTxAGC\n"));
++}
++
++
++BOOLEAN
++_DPK_AdjustRFGainByFoundTxAGC_PathA
++(
++	IN 	PDM_ODM_T	pDM_Odm
++	)
++{
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);	
++	s4Byte tmpLBGain = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> _DPK_AdjustRFGainByFoundTxAGC\n"));
++	
++	// RF setting, ­«·s³]©wRF reg00, Á|¨Ò¥ÎDPK Phase 2±o¨ìªº d00[3:0] = 0x6 ' TX AGC= 0x18 ' RF reg00[4:0] = 0x18
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x00, bRFRegOffsetMask, pRFCalibrateInfo->DpkTxAGC);
++	// Attn: A mode @ reg64[2:0], G mode @ reg56
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x64, bRFRegOffsetMask, 0x19aac); 
++	// PGA gain: RF reg8f[14:13]
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x8f, bRFRegOffsetMask, 0x8a001); 
++	
++	// reg82c[31] = 1 --> ¤Á¨ì page C1
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x802083dd); 
++	
++	// DPK setting
++	ODM_Write4Byte(pDM_Odm, 0xc94, 0xf76c9f84);
++	ODM_Write4Byte(pDM_Odm, 0xcc8, 0x000c5599);
++	ODM_Write4Byte(pDM_Odm, 0xcc4, 0x11838000);
++	
++	// ª`·Npage c1ªºc90¦bDPK¹Lµ{¤¤¤d¸U¤£¯à³Q¨ä¥Lthread or process§ï¼g¦¨page cªºc90­È
++	ODM_Write4Byte(pDM_Odm, 0xc90, 0x0101f018);
++	
++	// one shot
++	ODM_Write4Byte(pDM_Odm, 0xcc8, 0x800c5599);
++	ODM_Write4Byte(pDM_Odm, 0xcc8, 0x000c5599);
++	// delay 50 ms,Åý delay ®É¶¡ªø¤@ÂI, ½T©w PA Scan function ¦³°µ§¹
++	delay_ms(50);
++	
++	// reg82c[31] = 0 --> ¤Á¨ì page C
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x00, bRFRegOffsetMask, 0x33d8d);
++	
++
++	tmpLBGain = _ComputeLoopBackGain_PathA(pDM_Odm);
++	
++	if (tmpLBGain < 263390)
++	{
++		// coarse tune loopback gain by RF reg8f[14:13] = 2b'11
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x8f, bRFRegOffsetMask, 0x8e001);
++		_FineTuneLoopBackGain_PathA(pDM_Odm, pRFCalibrateInfo->DpkTxAGC);
++	} 
++	else if (tmpLBGain > 661607) 
++	{
++		// coarse tune loopback gain by RF reg8f[14:13] = 2b'00
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x8f, bRFRegOffsetMask, 0x88001);
++		_FineTuneLoopBackGain_PathA(pDM_Odm, pRFCalibrateInfo->DpkTxAGC);
++	} 
++	else
++		pRFCalibrateInfo->bDPKFail = FALSE;//Go to DPK Phase 4
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== _DPK_AdjustRFGainByFoundTxAGC\n"));
++
++	return pRFCalibrateInfo->bDPKFail ? FALSE : TRUE;
++
++}
++
++
++VOID
++_DPK_DoAutoDPK_PathA(
++	IN 	PDM_ODM_T	pDM_Odm	
++	)
++{	
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	u4Byte tmpLBGain = 0, reg0xD00 = 0;
++	
++ 	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> _DPK_DoAutoDPK\n"));
++	
++	
++	// reg82c[31] = 0 --> ¤Á¨ì page C
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd);
++	// RF setting, ¦¹³BRF reg00, »P DPK Phase 3 ¤@­P
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x00, bRFRegOffsetMask, pRFCalibrateInfo->DpkTxAGC);
++	// Baseband Data Rate setting
++	ODM_Write4Byte(pDM_Odm, 0xc20, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xc24, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xc28, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xc2c, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xc30, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xc34, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xc38, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xc3c, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xc40, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xc44, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xc48, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xc4c, 0x3c3c3c3c);
++
++	// reg82c[31] = 1 --> ¤Á¨ì page C1
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x802083dd); 
++
++	// DPK setting
++	ODM_Write4Byte(pDM_Odm, 0xc94, 0xf76C9f84);
++	ODM_Write4Byte(pDM_Odm, 0xcc8, 0x400C5599);
++	ODM_Write4Byte(pDM_Odm, 0xcc4, 0x11938080);    //0xcc4[9:4]= DPk fail threshold
++
++	if ( 36 <= *(pDM_Odm->pChannel) && *(pDM_Odm->pChannel) <= 53)//Channelchannel at low band)
++		// r_agc
++		ODM_Write4Byte(pDM_Odm, 0xcbc, 0x00022a1f);
++	else
++		// r_agc
++		ODM_Write4Byte(pDM_Odm, 0xcbc, 0x00009dbf);
++
++	// ª`·Npage c1ªºc90¦bDPK¹Lµ{¤¤¤d¸U¤£¯à³Q¨ä¥Lthread or process§ï¼g¦¨page cªºc90­È
++	ODM_Write4Byte(pDM_Odm, 0xc90, 0x0101f018); // TODO: 0xC90(rA_LSSIWrite_Jaguar) can not be overwritten.
++
++	// one shot
++	ODM_Write4Byte(pDM_Odm, 0xcc8, 0xc00c5599);
++	ODM_Write4Byte(pDM_Odm, 0xcc8, 0x400c5599);
++	// delay 50 ms,Åý delay ®É¶¡ªø¤@ÂI, ½T©w PA Scan function ¦³°µ§¹
++	delay_ms(50);
++
++	// reg82c[31] = 0 --> ¤Á¨ì page C
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd);
++	// T-meter RFReg42[17] = 1 to enable read T-meter, [15:10] ' T-meter value
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x42, BIT17, 1);
++	pRFCalibrateInfo->DpkThermal[ODM_RF_PATH_A] = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x42, 0xFC00);					// Ū¥X42[15:10] ­È¨Ã¦s¨ìÅܼÆTMeter
++	DbgPrint("pRFCalibrateInfo->DpkThermal[ODM_RF_PATH_A] = 0x%X\n", pRFCalibrateInfo->DpkThermal[ODM_RF_PATH_A]);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x00, bRFRegOffsetMask, 0x33D8D);
++
++	// reg82c[31] = 1 --> ¤Á¨ì page C1
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x802083dd);
++	// read back dp_fail report
++	ODM_Write4Byte(pDM_Odm, 0xcb8, 0x00000000);
++	//dp_fail³o­Óbit¦bd00[6], ·í d00[6] = 1, ªí¥Ücalibration¥¢±Ñ.
++	reg0xD00 = ODM_Read4Byte(pDM_Odm, 0xd00);
++
++	if ((reg0xD00 & BIT6) == BIT6) {
++		//printf('DPK fail')
++		pRFCalibrateInfo->bDPKFail = TRUE;
++		//Go to DPK Phase 5
++	} else {
++		//printf('DPK success')
++	}
++
++	
++	// read back
++	ODM_Write4Byte(pDM_Odm, 0xc90, 0x0201f01f);
++	ODM_Write4Byte(pDM_Odm, 0xcb8, 0x0c000000);
++
++	// reg82c[31] = 1 --> ¤Á¨ì page C1
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd);
++
++	// ­pºâtmpGainLoss ¥Î¨ìªºfunction hex2dec() ¬O±N twos complementªº¤Q¤»¶i¦ìÂন¤Q¶i¦ì, ¤Q¤»¶i¦ìªº®æ¦¡¬°s11.9 
++	// Á|¨Ò1, d00[10:0] = h'3ff, ¸g¹L hex2dec(h'3ff) = 1023,
++	// Á|¨Ò2, d00[10:0] = h'400, ¸g¹L hex2dec(h'400) = -1024,
++	// Á|¨Ò3, d00[10:0] = h'0A9, ¸g¹L hex2dec(h'0A9) = 169,
++	// Á|¨Ò4, d00[10:0] = h'54c, ¸g¹L hex2dec(h'54c) = -692,
++	// Á|¨Ò4, d00[10:0] = h'7ff, ¸g¹L hex2dec(h'7ff) = -1,
++	tmpLBGain = _ComputeLoopBackGain_PathA(pDM_Odm);
++
++
++	// Gain Scaling
++    if (227007 < tmpLBGain) 
++	    pRFCalibrateInfo->DpkGain = 0x43ca43ca;
++    else if (214309 < tmpLBGain && tmpLBGain <= 227007) 
++	    pRFCalibrateInfo->DpkGain = 0x45c545c5;
++    else if (202321 < tmpLBGain && tmpLBGain <= 214309) 
++	    pRFCalibrateInfo->DpkGain = 0x47cf47cf;
++    else if (191003 < tmpLBGain && tmpLBGain <= 202321) 
++	    pRFCalibrateInfo->DpkGain = 0x49e749e7;
++    else if (180318 < tmpLBGain && tmpLBGain <= 191003) 
++	    pRFCalibrateInfo->DpkGain = 0x4c104c10;
++    else if (170231 < tmpLBGain && tmpLBGain <= 180318) 
++	    pRFCalibrateInfo->DpkGain = 0x4e494e49;
++    else if (160709 < tmpLBGain && tmpLBGain <= 170231) 
++	    pRFCalibrateInfo->DpkGain = 0x50925092;
++    else if (151719 < tmpLBGain && tmpLBGain <= 160709) 
++	    pRFCalibrateInfo->DpkGain = 0x52ec52ec;
++    else if (151719 <= tmpLBGain) 
++	    pRFCalibrateInfo->DpkGain = 0x55585558;
++
++ 	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== _DPK_DoAutoDPK\n"));	
++}
++
++
++VOID	
++_DPK_EnableDP_PathA(
++	IN 	PDM_ODM_T	pDM_Odm
++	)
++{
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> _DPK_EnableDP\n"));
++
++	// [31] = 1 --> switch to page C1
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x802083dd);
++
++	// enable IQC matrix --> ¦]¬° BB «H¸¹·|¥ý¸g¹L predistortion module, ¤~¸g¹L IQC matrix ¨ì DAC ¥´¥X¥h
++	// ©Ò¥H­n¥ý enable predistortion module {c90[7] = 1 (enable_predis) cc4[18] = 1 (½T©wÅý IQK/DPK module ¦³clock), cc8[29] = 1 (¤@­ÓIQK/DPK module ¸Ìªºmux, ½T»{ data path ¨«IQK/DPK)}
++	ODM_Write4Byte(pDM_Odm, 0xc90, 0x0000f098);
++	ODM_Write4Byte(pDM_Odm, 0xc94, 0x776d9f84);
++	ODM_Write4Byte(pDM_Odm, 0xcc8, 0x20000000);
++	ODM_Write4Byte(pDM_Odm, 0xc8c, 0x3c000000);
++	// r_bnd
++	ODM_Write4Byte(pDM_Odm, 0xcb8, 0x000fffff);
++	
++	if (pRFCalibrateInfo->bDPKFail)
++	{
++		// cc4[29] = 1 (bypass DP LUT)
++		ODM_Write4Byte(pDM_Odm, 0xc98, 0x40004000);
++		ODM_Write4Byte(pDM_Odm, 0xcc4, 0x28840000);
++	}
++	else
++	{
++		ODM_Write4Byte(pDM_Odm, 0xc98, pRFCalibrateInfo->DpkGain);
++		ODM_Write4Byte(pDM_Odm, 0xcc4, 0x08840000);
++
++		// PWSF
++		// ¼gPWSF table in 1st SRAM for PA = 11 use
++		ODM_Write4Byte(pDM_Odm, 0xc20, 0x00000800);
++
++		//*******************************************************
++		//0xce4[0]¬Owrite enable¡A0xce4[7:1]¬Oaddress¡A0xce4[15:8]©M0xce4[23:16]¹ïÀ³¨ìTX index¡A
++		//­Y¦ì¸m¬°0(0xce4[7:1] = 0x0)¦¹®É0xce4[15:8]¹ïÀ³¨ìªºTX RF index ¬O0x1f,¡A
++		//0xce4[23:16]¹ïÀ³¨ìªº¬O0x1e¡A­Y¦ì¸m¬°1(0xce4[7:1] = 0x1)¡A¦¹®É0xce4 [15:8]¹ïÀ³¨ì0x1d¡A
++		//0xce4[23:16]¹ïÀ³0x1c¡A¨ä¥L¨Ì¦¹Ãþ±À¡A¨C­ÓdataÄæ¦ì³£¬O¬Û®t1dB¡C­Ygainloss§ä¨ìªºRF TX index=0x18¡A
++		//«h¦b0xce4 address¹ïÀ³¨ì0x18ªº¦a¤è­n¶ñ0x40(¤]´N¬O0dB)¡A¨ä¥L«h·Ó¤U­±tableªº¶¶§Ç¨C®æ1dB¨Ì§Ç±Æ¦C
++		//±N©Ò¦³ªº0xce4cªºdataÄæ¦ì³£¶ñ¤J¬Û¹ïÀ³ªº­È¡C
++		//*************************************************************//
++
++		{
++			const s4Byte LEN = 25;
++		    u4Byte baseIdx = 6; // 0 dB: 0x40			
++		    u4Byte TablePWSF[] = {
++		        0xff, 0xca, 0xa1, 0x80, 0x65, 0x51, 0x40/* 0 dB */, 
++		        0x33, 0x28, 0x20, 0x19, 0x14, 0x10, 
++		        0x0d, 0x0a, 0x08, 0x06, 0x05, 0x04, 
++		        0x03, 0x03, 0x02, 0x02, 0x01, 0x01
++		    };
++
++		    u4Byte centerTxIdx = pRFCalibrateInfo->DpkTxAGC & 0x1F;
++		    u4Byte centerAddr = (0x1F-centerTxIdx) / 2;
++		    s4Byte i = 0, j = 0, value = 0, startIdx = 0;
++
++			// Upper
++		    startIdx = (((0x1F-centerTxIdx)%2 == 0) ? baseIdx+1 : baseIdx);
++			
++		    for (i = startIdx, j = 0; (centerAddr-j+1) >= 1; i -= 2, j++) {
++		        if (i-1 < 0) 
++		            value = (TablePWSF[0] << 16) | (TablePWSF[0] << 8) | ((centerAddr-j) << 1) | 0x1;
++		        else 
++		            value = (TablePWSF[i] << 16) | (TablePWSF[i-1] << 8) | ((centerAddr-j) << 1) | 0x1;
++		        
++				ODM_Write4Byte(pDM_Odm, 0xce4, value);
++				ODM_Write1Byte(pDM_Odm, 0xce4, 0x0);		//write disable
++		    }
++
++		    // Lower
++		    startIdx = (((0x1F-centerTxIdx)%2 == 0) ? baseIdx+2 : baseIdx+1);
++		    centerAddr++; // Skip centerTxIdx
++		    for (i = startIdx, j = 0; (centerAddr+j) < 16; i += 2, j++) { // Total: 16*2 = 32 values (Upper+Lower)
++		        if (i+1 >= LEN) 
++		            value = (TablePWSF[LEN-1] << 16) | (TablePWSF[LEN-1] << 8) | ((centerAddr+j) << 1) | 0x1;
++		        else
++		            value = (TablePWSF[i+1] << 16) | (TablePWSF[i] << 8) | ((centerAddr+j) << 1) | 0x1;
++				ODM_Write4Byte(pDM_Odm, 0xce4, value);
++				ODM_Write1Byte(pDM_Odm, 0xce4, 0x0);		//write disable
++		    }
++		}
++	}
++	// [31] = 0 --> switch to page C
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd); 
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== _DPK_EnableDP\n"));
++
++}
++
++
++
++
++
++VOID	
++phy_DPCalibrate_PathA_8812A(
++	IN 	PDM_ODM_T	pDM_Odm
++	)
++{	
++    u4Byte backupMacBBRegAddrs[] = {
++        0xC60, 0xC64, 0xC68, 0x82C, 0x838, 0x90C, 0x522, 0xC00, 0xC20, 0xC24, // 10
++	    0xC28, 0xC2C, 0xC30, 0xC34, 0xC38, 0xC3C, 0xC40, 0xC44, 0xC48, 0xC4C, // 20
++	    0xC94, 0xCB0, 0xCB4
++	};	
++    u4Byte backupRFRegAddrs[] = {0x00, 0x64, 0x8F};
++
++    u4Byte backupMacBBRegData[sizeof(backupMacBBRegAddrs)/sizeof(u4Byte)];
++    u4Byte backupRFRegData_A[sizeof(backupRFRegAddrs)/sizeof(u4Byte)];
++    //u4Byte backupRFRegData_B[sizeof(backupRFRegAddrs)/sizeof(u4Byte)];	
++
++
++	_DPK_MacBBBackup_PathA(pDM_Odm, backupMacBBRegAddrs, backupMacBBRegData, sizeof(backupMacBBRegAddrs)/sizeof(u4Byte));
++	_DPK_RFBackup_PathA(pDM_Odm, backupRFRegAddrs, ODM_RF_PATH_A, backupRFRegData_A, sizeof(backupRFRegAddrs)/sizeof(u4Byte));
++
++	_DPK_Init_PathA(pDM_Odm);
++
++	if (_DPK_AdjustRFGain_PathA(pDM_Odm)) {               // Phase 1
++	    _DPK_GainLossToFindTxAGC_PathA(pDM_Odm);          // Phase 2
++	    if (_DPK_AdjustRFGainByFoundTxAGC_PathA(pDM_Odm)) // Phase 3
++	        _DPK_DoAutoDPK_PathA(pDM_Odm);                // Phase 4
++	}
++    _DPK_EnableDP_PathA(pDM_Odm);                         // Phase 5
++
++	_DPK_MacBBRestore_PathA(pDM_Odm, backupMacBBRegAddrs, backupMacBBRegData, sizeof(backupMacBBRegAddrs)/sizeof(u4Byte));
++	_DPK_RFRestore_PathA(pDM_Odm, backupRFRegAddrs, ODM_RF_PATH_A, backupRFRegData_A, sizeof(backupRFRegAddrs)/sizeof(u4Byte));	
++}                                                        
++
++														 
++VOID
++_DPK_MacBBBackup_PathB(
++	IN 		PDM_ODM_T	pDM_Odm,
++	IN  	pu4Byte		BackupRegAddr,
++	IN OUT  pu4Byte		BackupRegData, 
++	IN  	u4Byte		Number
++	)
++{
++	u4Byte i;
++	
++	for (i = 0; i < Number; i++)
++		BackupRegData[i] = ODM_Read4Byte(pDM_Odm, BackupRegAddr[i]);
++}
++
++VOID
++_DPK_MacBBRestore_PathB(
++	IN 	PDM_ODM_T	pDM_Odm,
++	IN  pu4Byte		BackupRegAddr,
++	IN  pu4Byte		BackupRegData, 
++	IN  u4Byte		Number
++	)
++{
++	u4Byte i;
++	
++	for (i = 0; i < Number; i++)
++		ODM_Write4Byte(pDM_Odm, BackupRegAddr[i], BackupRegData[i]);
++}
++
++
++VOID
++_DPK_RFBackup_PathB(
++	IN 		PDM_ODM_T	        pDM_Odm,
++	IN  	pu4Byte				BackupRegAddr,
++	IN		ODM_RF_RADIO_PATH_E	RFPath,
++	IN OUT  pu4Byte				BackupRegData, 
++	IN  	u4Byte		        Number
++	)
++{
++	u4Byte i;
++	
++	for (i = 0; i < Number; i++)
++		BackupRegData[i] = ODM_GetRFReg(pDM_Odm, RFPath, BackupRegAddr[i], bRFRegOffsetMask);
++}
++
++VOID
++_DPK_RFRestore_PathB(
++	IN 	PDM_ODM_T	        pDM_Odm,
++	IN  pu4Byte				BackupRegAddr,
++	IN	ODM_RF_RADIO_PATH_E	RFPath,
++	IN  pu4Byte		        BackupRegData, 
++	IN  u4Byte		        Number
++	)
++{
++	u4Byte i;
++	
++	for (i = 0; i < Number; i++)
++		ODM_SetRFReg(pDM_Odm, RFPath, BackupRegAddr[i], bRFRegOffsetMask, BackupRegData[i]);
++}
++
++
++
++s4Byte
++_ComputeLoopBackGain_PathB(
++	IN	PDM_ODM_T			pDM_Odm
++)
++{
++	// compute loopback gain
++	// ­pºâtmpLBGain ¥Î¨ìªºfunction hex2dec() ¬O±N twos complementªº¤Q¤»¶i¦ìÂন¤Q¶i¦ì, ¤Q¤»¶i¦ìªº®æ¦¡¬°s11.10 
++    // Á|¨Ò1, d00[10:0] = h'3ff, ¸g¹L hex2dec(h'3ff) = 1023,
++    // Á|¨Ò2, d00[10:0] = h'400, ¸g¹L hex2dec(h'400) = -1024,
++    // Á|¨Ò3, d00[10:0] = h'0A9, ¸g¹L hex2dec(h'0A9) = 169,
++    // Á|¨Ò4, d00[10:0] = h'54c, ¸g¹L hex2dec(h'54c) = -692,
++    // Á|¨Ò5, d00[10:0] = h'7ff, ¸g¹L hex2dec(h'7ff) = -1,
++    u4Byte reg0xD40_26_16 = ODM_GetBBReg(pDM_Odm, 0xD40, 0x7FF0000);
++    u4Byte reg0xD40_10_0  = ODM_GetBBReg(pDM_Odm, 0xD40, 0x7FF);
++	
++    s4Byte tmpLBGain = _Sign(reg0xD40_26_16)*_Sign(reg0xD40_26_16) + _Sign(reg0xD40_10_0)*_Sign(reg0xD40_10_0);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== _ComputeLoopBackGain_PathB, tmpLBGain = 0x%X\n", tmpLBGain));
++
++	return tmpLBGain;
++}
++
++
++BOOLEAN
++_FineTuneLoopBackGain_PathB(
++	IN		PDM_ODM_T			pDM_Odm, 
++	IN		u4Byte 				DpkTxAGC	
++	)
++{
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);	
++	s4Byte tmpLBGain = 0;
++
++    u4Byte rf0x64_orig = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x64, 0x7);
++    u4Byte rf0x64_new = rf0x64_orig;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> _FineTuneLoopBackGain_PathB\n"));
++
++    do {
++        // RF setting
++        ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x00, bRFRegOffsetMask, DpkTxAGC);
++		ODM_Write4Byte(pDM_Odm, 0x82c, 0x802083dd);
++        // ª`·Npage c1ªºc90¦bDPK¹Lµ{¤¤¤d¸U¤£¯à³Q¨ä¥Lthread or process§ï¼g¦¨page cªºc90­È
++        ODM_Write4Byte(pDM_Odm, 0xe90, 0x0101f018);
++        
++        // one shot
++        ODM_Write4Byte(pDM_Odm, 0xec8, 0x800c5599);
++        ODM_Write4Byte(pDM_Odm, 0xec8, 0x000c5599);
++        // delay 50 ms,Åý delay ®É¶¡ªø¤@ÂI, ½T©w PA Scan function ¦³°µ§¹
++        delay_ms(50);
++        
++        // reg82c[31] = 0 --> ¤Á¨ì page C
++        ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd);
++        ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x00, bRFRegOffsetMask, 0x33d8d);	
++
++		tmpLBGain = _ComputeLoopBackGain_PathB(pDM_Odm);
++		
++	    if ((rf0x64_new == (BIT2|BIT1|BIT0)) || (rf0x64_new == 0)) {
++	        //printf('DPK Phase 1 failed');
++	        pRFCalibrateInfo->bDPKFail = TRUE;
++			break;
++	        //Go to DPK Phase 5
++	    } else {
++	        if (tmpLBGain < 263390) {// fine tune loopback path gain: newReg64[2:0] = reg64[2:0] - 3b'001
++	        	rf0x64_new -= 1;
++	            ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x64, 0x7, rf0x64_new);
++
++	        } else if (tmpLBGain > 661607) {// fine tune loopback path gain: newReg64 [2:0] = reg64[2:0] + 3b'001
++	        	rf0x64_new += 1;
++	            ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x64, 0x7, rf0x64_new);
++
++	        } else {
++				pRFCalibrateInfo->bDPKFail = FALSE;
++	        }
++	    }
++
++	} while (tmpLBGain < 263390 || 661607 < tmpLBGain);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== _FineTuneLoopBackGain_PathB\n"));
++
++	return pRFCalibrateInfo->bDPKFail ? FALSE : TRUE;
++            
++}
++
++
++
++VOID
++_DPK_Init_PathB(
++	IN 	PDM_ODM_T	pDM_Odm	
++	)
++{
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> _DPK_Init\n"));
++	
++	//TX pause
++	ODM_Write1Byte(pDM_Odm, 0x522, 0x7f); 
++	
++	// reg82c[31] = b'0, ¤Á´«¨ì page C
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd);
++	
++	// AFE setting
++	ODM_Write4Byte(pDM_Odm, 0xc68, 0x59791979);
++	ODM_Write4Byte(pDM_Odm, 0xe60, 0x77777777);
++	ODM_Write4Byte(pDM_Odm, 0xe64, 0x77777777);
++	
++	// external TRSW ¤Á¨ì T
++	ODM_Write4Byte(pDM_Odm, 0xeb0, 0x77777777);
++	ODM_Write4Byte(pDM_Odm, 0xeb4, 0x01000077);
++	
++	// hardware 3-wire off
++	ODM_Write4Byte(pDM_Odm, 0xe00, 0x00000004);
++	
++	// CCA off
++	ODM_Write4Byte(pDM_Odm, 0x838, 0x16C89B4c);
++	 
++	//90c[15]: dac fifo reset by CSWU
++	ODM_Write4Byte(pDM_Odm, 0x90c, 0x00008000);
++	
++	// r_gothrough_iqkdpk
++	ODM_Write4Byte(pDM_Odm, 0xe94, 0x0100005D);
++	
++	// reg82c[31] = 1 --> ¤Á¨ì page C1
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x802083dd);
++	
++	// IQK Amp off
++	ODM_Write4Byte(pDM_Odm, 0xe8c, 0x3c000000);
++	
++	// tx_amp
++	ODM_Write4Byte(pDM_Odm, 0xe98, 0x41382e21);
++	ODM_Write4Byte(pDM_Odm, 0xe9c, 0x5b554f48);
++	ODM_Write4Byte(pDM_Odm, 0xea0, 0x6f6b6661);
++	ODM_Write4Byte(pDM_Odm, 0xea4, 0x817d7874);
++	ODM_Write4Byte(pDM_Odm, 0xea8, 0x908c8884);
++	ODM_Write4Byte(pDM_Odm, 0xeac, 0x9d9a9793);
++	ODM_Write4Byte(pDM_Odm, 0xeb0, 0xaaa7a4a1);
++	ODM_Write4Byte(pDM_Odm, 0xeb4, 0xb6b3b0ad);
++	
++	// tx_inverse
++	ODM_Write4Byte(pDM_Odm, 0xe40, 0x02ce03e9);
++	ODM_Write4Byte(pDM_Odm, 0xe44, 0x01fd0249);
++	ODM_Write4Byte(pDM_Odm, 0xe48, 0x01a101c9);
++	ODM_Write4Byte(pDM_Odm, 0xe4c, 0x016a0181);
++	ODM_Write4Byte(pDM_Odm, 0xe50, 0x01430155);
++	ODM_Write4Byte(pDM_Odm, 0xe54, 0x01270135);
++	ODM_Write4Byte(pDM_Odm, 0xe58, 0x0112011c);
++	ODM_Write4Byte(pDM_Odm, 0xe5c, 0x01000108);
++	ODM_Write4Byte(pDM_Odm, 0xe60, 0x00f100f8);
++	ODM_Write4Byte(pDM_Odm, 0xe64, 0x00e500eb);
++	ODM_Write4Byte(pDM_Odm, 0xe68, 0x00db00e0);
++	ODM_Write4Byte(pDM_Odm, 0xe6c, 0x00d100d5);
++	ODM_Write4Byte(pDM_Odm, 0xe70, 0x00c900cd);
++	ODM_Write4Byte(pDM_Odm, 0xe74, 0x00c200c5);
++	ODM_Write4Byte(pDM_Odm, 0xe78, 0x00bb00be);
++	ODM_Write4Byte(pDM_Odm, 0xe7c, 0x00b500b8);
++	
++	// reg82c[31] = b'0, ¤Á´«¨ì page C
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd); 
++	
++	pRFCalibrateInfo->bDPKFail = FALSE;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== _DPK_Init\n"));
++
++}
++
++
++BOOLEAN
++_DPK_AdjustRFGain_PathB(
++	IN 	PDM_ODM_T	pDM_Odm
++	)
++{
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);	
++	s4Byte tmpLBGain = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> _DPK_AdjustRFGain\n"));
++	
++	// RF setting
++    ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x00, bRFRegOffsetMask, 0x50bfc);
++    // Attn: A mode @ reg64[2:0], G mode @ reg56
++    ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x64, bRFRegOffsetMask, 0x19aac); 
++    // PGA gain: RF reg8f[14:13]
++    ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x8f, bRFRegOffsetMask, 0x8a001); 
++    
++    // reg82c[31] = 1 --> ¤Á¨ì page C1
++    ODM_Write4Byte(pDM_Odm, 0x82c, 0x802083dd);
++    
++    // DPK setting
++    ODM_Write4Byte(pDM_Odm, 0xe94, 0xf76c9f84);
++    ODM_Write4Byte(pDM_Odm, 0xec8, 0x000c5599);
++    ODM_Write4Byte(pDM_Odm, 0xec4, 0x11838000);
++    ODM_SetBBReg(pDM_Odm, 0xed4, 0xFFF000, 0x100);  // ±Ncd4[23:12] §ï¦¨ h'100, ¨ä¥¦¦ì¤¸½Ð«O¯d­ì­È¤£­n¼g¨ì
++    // ª`·Npage c1ªºc90¦bDPK¹Lµ{¤¤¤d¸U¤£¯à³Q¨ä¥Lthread or process§ï¼g¦¨page cªºc90­È
++    ODM_Write4Byte(pDM_Odm, 0xe90, 0x0101f018);
++    
++    // one shot
++    ODM_Write4Byte(pDM_Odm, 0xec8, 0x800c5599);
++    ODM_Write4Byte(pDM_Odm, 0xec8, 0x000c5599);
++    // delay 50 ms,Åý delay ®É¶¡ªø¤@ÂI, ½T©w PA Scan function ¦³°µ§¹
++    delay_ms(50);
++    
++    // read back Loopback Gain
++    ODM_Write4Byte(pDM_Odm, 0xeb8, 0x09000000);
++
++    // reg82c[31] = 0 --> ¤Á¨ì page C
++    ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd);
++    ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x00, bRFRegOffsetMask, 0x33d8d);
++    
++    tmpLBGain = _ComputeLoopBackGain_PathB(pDM_Odm);
++    
++    // coarse tune loopback gain by RF reg8f[14:13] = 2b'11
++    if (tmpLBGain < 263390) 
++    {
++        ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x8f, bRFRegOffsetMask, 0x8e001);
++        _FineTuneLoopBackGain_PathB(pDM_Odm, 0x50bfc);
++
++    } 
++    else if (tmpLBGain > 661607)
++    {
++        // coarse tune loopback gain by RF reg8f[14:13] = 2b'00
++    	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x8f, bRFRegOffsetMask, 0x88001);
++		_FineTuneLoopBackGain_PathB(pDM_Odm, 0x50bfc);
++    }
++    else
++    	pRFCalibrateInfo->bDPKFail = FALSE;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== _DPK_AdjustRFGain\n"));
++
++	return pRFCalibrateInfo->bDPKFail ? FALSE : TRUE;
++
++}
++
++
++
++VOID
++_DPK_GainLossToFindTxAGC_PathB(
++	IN 	PDM_ODM_T	pDM_Odm	
++	)
++{
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	u4Byte Reg0xD40 = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> _DPK_GainLossToFindTxAGC\n"));
++	
++	// RF setting
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x00, bRFRegOffsetMask, 0x50bfc);
++	
++	// reg82c[31] = 1 --> ¤Á¨ì page C1
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x802083dd); 
++	
++	// regc20[15:13] = dB sel, §i¶D Gain Loss function ¥h´M§ä dB_sel ©Ò³]©wªºPA gain loss¥Ø¼Ð©Ò¹ïÀ³ªº Tx AGC ¬°¦ó.
++	// dB_sel = b'000 ' 1.0 dB PA gain loss
++	// dB_sel = b'001 ' 1.5 dB PA gain loss
++	// dB_sel = b'010 ' 2.0 dB PA gain loss
++	// dB_sel = b'011 ' 2.5 dB PA gain loss
++	// dB_sel = b'100 ' 3.0 dB PA gain loss
++	// dB_sel = b'101 ' 3.5 dB PA gain loss
++	// dB_sel = b'110 ' 4.0 dB PA gain loss
++	ODM_Write4Byte(pDM_Odm, 0xe20, 0x00002000);
++	
++	// DPK setting
++	ODM_Write4Byte(pDM_Odm, 0xe94, 0xf76c9f84);
++	ODM_Write4Byte(pDM_Odm, 0xec8, 0x000c5599);
++	ODM_Write4Byte(pDM_Odm, 0xec4, 0x148b8000);
++	
++	// ª`·Npage c1ªºc90¦bDPK¹Lµ{¤¤¤d¸U¤£¯à³Q¨ä¥Lthread or process§ï¼g¦¨page cªºc90­È
++	ODM_Write4Byte(pDM_Odm, 0xe90, 0x0401f018);
++	
++	// one shot
++	ODM_Write4Byte(pDM_Odm, 0xec8, 0x800c5599);
++	ODM_Write4Byte(pDM_Odm, 0xec8, 0x000c5599);
++	// delay 50 ms,Åý delay ®É¶¡ªø¤@ÂI, ½T©w PA Scan function ¦³°µ§¹
++	delay_ms(50);
++	
++	// read back Loopback Gain
++	// ¥i¥H¦b d40[3:0] ¤¤Åª¦^, dB_sel ¤¤©Ò³]©wªº gain loss ·|¸¨¦b­þ¤@­Ó Tx AGC ³]©w
++	// Ū¦^d00[3:0] = h'1 ' Tx AGC = h'13
++	// Ū¦^d00[3:0] = h'2 ' Tx AGC = h'14
++	// Ū¦^d00[3:0] = h'3 ' Tx AGC = h'15
++	// Ū¦^d00[3:0] = h'4 ' Tx AGC = h'16
++	// Ū¦^d00[3:0] = h'5 ' Tx AGC = h'17
++	// Ū¦^d00[3:0] = h'6 ' Tx AGC = h'18
++	// Ū¦^d00[3:0] = h'7 ' Tx AGC = h'19
++	// Ū¦^d00[3:0] = h'8 ' Tx AGC = h'1a
++	// Ū¦^d00[3:0] = h'9 ' Tx AGC = h'1b
++	// Ū¦^d00[3:0] = h'a ' Tx AGC = h'1c
++	//
++	Reg0xD40 = ODM_Read4Byte(pDM_Odm, 0xd40);
++	switch (ODM_Read4Byte(pDM_Odm, 0xd40) & (BIT3|BIT2|BIT1|BIT0))
++	{
++		case 0x0:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0x2; break;
++		case 0x1:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0x3; break;
++		case 0x2:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0x4; break;
++		case 0x3:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0x5; break;
++		case 0x4:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0x6; break;
++		case 0x5:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0x7; break;
++		case 0x6:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0x8; break;
++		case 0x7:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0x9; break;
++		case 0x8:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0xa; break;
++		case 0x9:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0xb; break;
++		case 0xa:	pRFCalibrateInfo->DpkTxAGC = 0x50bf0 | 0xc; break;
++	}
++	// reg82c[31] = 0 --> ¤Á¨ì page C
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x00, bRFRegOffsetMask, 0x33d8d);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== _DPK_GainLossToFindTxAGC\n"));
++}
++
++
++BOOLEAN
++_DPK_AdjustRFGainByFoundTxAGC_PathB
++(
++	IN 	PDM_ODM_T	pDM_Odm
++	)
++{
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);	
++	s4Byte tmpLBGain = 0;
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> _DPK_AdjustRFGainByFoundTxAGC\n"));
++	
++	// RF setting, ­«·s³]©wRF reg00, Á|¨Ò¥ÎDPK Phase 2±o¨ìªº d40[3:0] = 0x6 ' TX AGC= 0x18 ' RF reg00[4:0] = 0x18
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x00, bRFRegOffsetMask, pRFCalibrateInfo->DpkTxAGC);
++	// Attn: A mode @ reg64[2:0], G mode @ reg56
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x64, bRFRegOffsetMask, 0x19aac); 
++	// PGA gain: RF reg8f[14:13]
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x8f, bRFRegOffsetMask, 0x8a001); 
++	
++	// reg82c[31] = 1 --> ¤Á¨ì page C1
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x802083dd); 
++	
++	// DPK setting
++	ODM_Write4Byte(pDM_Odm, 0xe94, 0xf76c9f84);
++	ODM_Write4Byte(pDM_Odm, 0xec8, 0x000c5599);
++	ODM_Write4Byte(pDM_Odm, 0xec4, 0x11838000);
++	
++	// ª`·Npage c1ªºc90¦bDPK¹Lµ{¤¤¤d¸U¤£¯à³Q¨ä¥Lthread or process§ï¼g¦¨page cªºc90­È
++	ODM_Write4Byte(pDM_Odm, 0xe90, 0x0101f018);
++	
++	// one shot
++	ODM_Write4Byte(pDM_Odm, 0xec8, 0x800c5599);
++	ODM_Write4Byte(pDM_Odm, 0xec8, 0x000c5599);
++	// delay 50 ms,Åý delay ®É¶¡ªø¤@ÂI, ½T©w PA Scan function ¦³°µ§¹
++	delay_ms(50);
++	
++	// reg82c[31] = 0 --> ¤Á¨ì page C
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd);
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x00, bRFRegOffsetMask, 0x33d8d);
++	
++
++	tmpLBGain = _ComputeLoopBackGain_PathB(pDM_Odm);
++	
++	if (tmpLBGain < 263390)
++	{
++		// coarse tune loopback gain by RF reg8f[14:13] = 2b'11
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x8f, bRFRegOffsetMask, 0x8e001);
++		_FineTuneLoopBackGain_PathB(pDM_Odm, pRFCalibrateInfo->DpkTxAGC);
++	} 
++	else if (tmpLBGain > 661607) 
++	{
++		// coarse tune loopback gain by RF reg8f[14:13] = 2b'00
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x8f, bRFRegOffsetMask, 0x88001);
++		_FineTuneLoopBackGain_PathB(pDM_Odm, pRFCalibrateInfo->DpkTxAGC);
++	} 
++	else
++		pRFCalibrateInfo->bDPKFail = FALSE;//Go to DPK Phase 4
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== _DPK_AdjustRFGainByFoundTxAGC\n"));
++
++	return pRFCalibrateInfo->bDPKFail ? FALSE : TRUE;
++
++}
++
++
++VOID
++_DPK_DoAutoDPK_PathB(
++	IN 	PDM_ODM_T	pDM_Odm	
++	)
++{	
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++	u4Byte tmpLBGain = 0, reg0xD40 = 0;
++	
++ 	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> _DPK_DoAutoDPK\n"));
++	
++	
++	// reg82c[31] = 0 --> ¤Á¨ì page C
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd);
++	// RF setting, ¦¹³BRF reg00, »P DPK Phase 3 ¤@­P
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x00, bRFRegOffsetMask, pRFCalibrateInfo->DpkTxAGC);
++	// Baseband Data Rate setting
++	ODM_Write4Byte(pDM_Odm, 0xe20, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xe24, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xe28, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xe2c, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xe30, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xe34, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xe38, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xe3c, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xe40, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xe44, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xe48, 0x3c3c3c3c);
++	ODM_Write4Byte(pDM_Odm, 0xe4c, 0x3c3c3c3c);
++
++	// reg82c[31] = 1 --> ¤Á¨ì page C1
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x802083dd); 
++
++	// DPK setting
++	ODM_Write4Byte(pDM_Odm, 0xe94, 0xf76C9f84);
++	ODM_Write4Byte(pDM_Odm, 0xec8, 0x400C5599);
++	ODM_Write4Byte(pDM_Odm, 0xec4, 0x11938080);    //0xec4[9:4]= DPk fail threshold
++
++	if ( 36 <= *(pDM_Odm->pChannel) && *(pDM_Odm->pChannel) <= 53)//Channelchannel at low band)
++		// r_agc
++		ODM_Write4Byte(pDM_Odm, 0xebc, 0x00022a1f);
++	else
++		// r_agc
++		ODM_Write4Byte(pDM_Odm, 0xebc, 0x00009dbf);
++
++	// ª`·Npage c1ªºc90¦bDPK¹Lµ{¤¤¤d¸U¤£¯à³Q¨ä¥Lthread or process§ï¼g¦¨page cªºc90­È
++	ODM_Write4Byte(pDM_Odm, 0xe90, 0x0101f018); // TODO: 0xe90(rA_LSSIWrite_Jaguar) can not be overwritten.
++
++	// one shot
++	ODM_Write4Byte(pDM_Odm, 0xec8, 0xc00c5599);
++	ODM_Write4Byte(pDM_Odm, 0xec8, 0x400c5599);
++	// delay 50 ms,Åý delay ®É¶¡ªø¤@ÂI, ½T©w PA Scan function ¦³°µ§¹
++	delay_ms(50);
++
++	// reg82c[31] = 0 --> ¤Á¨ì page C
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd);
++	// T-meter RFReg42[17] = 1 to enable read T-meter, [15:10] ' T-meter value
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x42, BIT17, 1);
++	pRFCalibrateInfo->DpkThermal[ODM_RF_PATH_B] = ODM_GetRFReg(pDM_Odm, ODM_RF_PATH_A, 0x42, 0xFC00);					// Ū¥X42[15:10] ­È¨Ã¦s¨ìÅܼÆTMeter
++	DbgPrint("pRFCalibrateInfo->DpkThermal[ODM_RF_PATH_B] = 0x%X\n", pRFCalibrateInfo->DpkThermal[ODM_RF_PATH_B]);	
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, 0x00, bRFRegOffsetMask, 0x33D8D);
++
++	// reg82c[31] = 1 --> ¤Á¨ì page C1
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x802083dd);
++	// read back dp_fail report
++	ODM_Write4Byte(pDM_Odm, 0xeb8, 0x00000000);
++	//dp_fail³o­Óbit¦bd40[6], ·í d40[6] = 1, ªí¥Ücalibration¥¢±Ñ.
++	reg0xD40 = ODM_Read4Byte(pDM_Odm, 0xd40);
++
++	if ((reg0xD40 & BIT6) == BIT6) {
++		//printf('DPK fail')
++		pRFCalibrateInfo->bDPKFail = TRUE;
++		//Go to DPK Phase 5
++	} else {
++		//printf('DPK success')
++	}
++
++	
++	// read back
++	ODM_Write4Byte(pDM_Odm, 0xe90, 0x0201f01f);
++	ODM_Write4Byte(pDM_Odm, 0xeb8, 0x0c000000);
++
++	// reg82c[31] = 1 --> ¤Á¨ì page C1
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd);
++
++	// ­pºâtmpGainLoss ¥Î¨ìªºfunction hex2dec() ¬O±N twos complementªº¤Q¤»¶i¦ìÂন¤Q¶i¦ì, ¤Q¤»¶i¦ìªº®æ¦¡¬°s11.9 
++	// Á|¨Ò1, d00[10:0] = h'3ff, ¸g¹L hex2dec(h'3ff) = 1023,
++	// Á|¨Ò2, d00[10:0] = h'400, ¸g¹L hex2dec(h'400) = -1024,
++	// Á|¨Ò3, d00[10:0] = h'0A9, ¸g¹L hex2dec(h'0A9) = 169,
++	// Á|¨Ò4, d00[10:0] = h'54c, ¸g¹L hex2dec(h'54c) = -692,
++	// Á|¨Ò4, d00[10:0] = h'7ff, ¸g¹L hex2dec(h'7ff) = -1,
++	tmpLBGain = _ComputeLoopBackGain_PathB(pDM_Odm);
++
++
++	// Gain Scaling
++    if (227007 < tmpLBGain) 
++	    pRFCalibrateInfo->DpkGain = 0x43ca43ca;
++    else if (214309 < tmpLBGain && tmpLBGain <= 227007) 
++	    pRFCalibrateInfo->DpkGain = 0x45c545c5;
++    else if (202321 < tmpLBGain && tmpLBGain <= 214309) 
++	    pRFCalibrateInfo->DpkGain = 0x47cf47cf;
++    else if (191003 < tmpLBGain && tmpLBGain <= 202321) 
++	    pRFCalibrateInfo->DpkGain = 0x49e749e7;
++    else if (180318 < tmpLBGain && tmpLBGain <= 191003) 
++	    pRFCalibrateInfo->DpkGain = 0x4c104c10;
++    else if (170231 < tmpLBGain && tmpLBGain <= 180318) 
++	    pRFCalibrateInfo->DpkGain = 0x4e494e49;
++    else if (160709 < tmpLBGain && tmpLBGain <= 170231) 
++	    pRFCalibrateInfo->DpkGain = 0x50925092;
++    else if (151719 < tmpLBGain && tmpLBGain <= 160709) 
++	    pRFCalibrateInfo->DpkGain = 0x52ec52ec;
++    else if (151719 <= tmpLBGain) 
++	    pRFCalibrateInfo->DpkGain = 0x55585558;
++
++ 	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== _DPK_DoAutoDPK\n"));	
++}
++
++
++VOID	
++_DPK_EnableDP_PathB(
++	IN 	PDM_ODM_T	pDM_Odm
++	)
++{
++	PODM_RF_CAL_T  pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> _DPK_EnableDP\n"));
++
++	// [31] = 1 --> switch to page C1
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x802083dd);
++
++	// enable IQC matrix --> ¦]¬° BB «H¸¹·|¥ý¸g¹L predistortion module, ¤~¸g¹L IQC matrix ¨ì DAC ¥´¥X¥h
++	// ©Ò¥H­n¥ý enable predistortion module {c90[7] = 1 (enable_predis) cc4[18] = 1 (½T©wÅý IQK/DPK module ¦³clock), cc8[29] = 1 (¤@­ÓIQK/DPK module ¸Ìªºmux, ½T»{ data path ¨«IQK/DPK)}
++	ODM_Write4Byte(pDM_Odm, 0xe90, 0x0000f098);
++	ODM_Write4Byte(pDM_Odm, 0xe94, 0x776d9f84);
++	ODM_Write4Byte(pDM_Odm, 0xec8, 0x20000000);
++	ODM_Write4Byte(pDM_Odm, 0xe8c, 0x3c000000);
++	// r_bnd
++	ODM_Write4Byte(pDM_Odm, 0xeb8, 0x000fffff);
++	
++	if (pRFCalibrateInfo->bDPKFail)
++	{
++		// cc4[29] = 1 (bypass DP LUT)
++		ODM_Write4Byte(pDM_Odm, 0xe98, 0x40004000);
++		ODM_Write4Byte(pDM_Odm, 0xec4, 0x28840000);
++	}
++	else
++	{
++		ODM_Write4Byte(pDM_Odm, 0xe98, pRFCalibrateInfo->DpkGain);
++		ODM_Write4Byte(pDM_Odm, 0xec4, 0x08840000);
++
++		// PWSF
++		// ¼gPWSF table in 1st SRAM for PA = 11 use
++		ODM_Write4Byte(pDM_Odm, 0xe20, 0x00000800);
++
++		//*******************************************************
++		//0xee4[0]¬Owrite enable¡A0xee4[7:1]¬Oaddress¡A0xee4[15:8]©M0xee4[23:16]¹ïÀ³¨ìTX index¡A
++		//­Y¦ì¸m¬°0(0xee4[7:1] = 0x0)¦¹®É0xee4[15:8]¹ïÀ³¨ìªºTX RF index ¬O0x1f,¡A
++		//0xee4[23:16]¹ïÀ³¨ìªº¬O0x1e¡A­Y¦ì¸m¬°1(0xee4[7:1] = 0x1)¡A¦¹®É0xee4 [15:8]¹ïÀ³¨ì0x1d¡A
++		//0xee4[23:16]¹ïÀ³0x1c¡A¨ä¥L¨Ì¦¹Ãþ±À¡A¨C­ÓdataÄæ¦ì³£¬O¬Û®t1dB¡C­Ygainloss§ä¨ìªºRF TX index=0x18¡A
++		//«h¦b0xee4 address¹ïÀ³¨ì0x18ªº¦a¤è­n¶ñ0x40(¤]´N¬O0dB)¡A¨ä¥L«h·Ó¤U­±tableªº¶¶§Ç¨C®æ1dB¨Ì§Ç±Æ¦C
++		//±N©Ò¦³ªº0xee4cªºdataÄæ¦ì³£¶ñ¤J¬Û¹ïÀ³ªº­È¡C
++		//*************************************************************//
++
++		{
++			const s4Byte LEN = 25;
++		    u4Byte baseIdx = 6; // 0 dB: 0x40			
++		    u4Byte TablePWSF[] = {
++		        0xff, 0xca, 0xa1, 0x80, 0x65, 0x51, 0x40/* 0 dB */, 
++		        0x33, 0x28, 0x20, 0x19, 0x14, 0x10, 
++		        0x0d, 0x0a, 0x08, 0x06, 0x05, 0x04, 
++		        0x03, 0x03, 0x02, 0x02, 0x01, 0x01
++		    };
++
++		    u4Byte centerTxIdx = pRFCalibrateInfo->DpkTxAGC & 0x1F;
++		    u4Byte centerAddr = (0x1F-centerTxIdx) / 2;
++		    s4Byte i = 0, j = 0, value = 0, startIdx = 0;
++
++			// Upper
++		    startIdx = (((0x1F-centerTxIdx)%2 == 0) ? baseIdx+1 : baseIdx);
++			
++		    for (i = startIdx, j = 0; (centerAddr-j+1) >= 1; i -= 2, j++) {
++		        if (i-1 < 0) 
++		            value = (TablePWSF[0] << 16) | (TablePWSF[0] << 8) | ((centerAddr-j) << 1) | 0x1;
++		        else 
++		            value = (TablePWSF[i] << 16) | (TablePWSF[i-1] << 8) | ((centerAddr-j) << 1) | 0x1;
++		        
++				ODM_Write4Byte(pDM_Odm, 0xee4, value);
++				ODM_Write1Byte(pDM_Odm, 0xee4, 0x0);		//write disable
++		    }
++
++		    // Lower
++		    startIdx = (((0x1F-centerTxIdx)%2 == 0) ? baseIdx+2 : baseIdx+1);
++		    centerAddr++; // Skip centerTxIdx
++		    for (i = startIdx, j = 0; (centerAddr+j) < 16; i += 2, j++) { // Total: 16*2 = 32 values (Upper+Lower)
++		        if (i+1 >= LEN) 
++		            value = (TablePWSF[LEN-1] << 16) | (TablePWSF[LEN-1] << 8) | ((centerAddr+j) << 1) | 0x1;
++		        else
++		            value = (TablePWSF[i+1] << 16) | (TablePWSF[i] << 8) | ((centerAddr+j) << 1) | 0x1;
++				ODM_Write4Byte(pDM_Odm, 0xee4, value);
++				ODM_Write1Byte(pDM_Odm, 0xee4, 0x0);		//write disable
++		    }
++		}
++	}
++	// [31] = 0 --> switch to page C
++	ODM_Write4Byte(pDM_Odm, 0x82c, 0x002083dd); 
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== _DPK_EnableDP\n"));
++
++}
++
++
++
++
++
++VOID	
++phy_DPCalibrate_PathB_8812A(
++	IN 	PDM_ODM_T	pDM_Odm
++	)
++{	
++    u4Byte backupMacBBRegAddrs[] = {
++        0xE60, 0xE64, 0xC68, 0x82C, 0x838, 0x90C, 0x522, 0xE00, 0xE20, 0xE24, // 10
++	    0xE28, 0xE2C, 0xE30, 0xE34, 0xE38, 0xE3C, 0xE40, 0xE44, 0xE48, 0xE4C, // 20
++	    0xE94, 0xEB0, 0xEB4
++	};	
++    u4Byte backupRFRegAddrs[] = {0x00, 0x64, 0x8F};
++
++    u4Byte backupMacBBRegData[sizeof(backupMacBBRegAddrs)/sizeof(u4Byte)];
++    u4Byte backupRFRegData_A[sizeof(backupRFRegAddrs)/sizeof(u4Byte)];
++    //u4Byte backupRFRegData_B[sizeof(backupRFRegAddrs)/sizeof(u4Byte)];	
++
++
++	_DPK_MacBBBackup_PathB(pDM_Odm, backupMacBBRegAddrs, backupMacBBRegData, sizeof(backupMacBBRegAddrs)/sizeof(u4Byte));
++	_DPK_RFBackup_PathB(pDM_Odm, backupRFRegAddrs, ODM_RF_PATH_B, backupRFRegData_A, sizeof(backupRFRegAddrs)/sizeof(u4Byte));
++
++	_DPK_Init_PathB(pDM_Odm);
++
++	if (_DPK_AdjustRFGain_PathB(pDM_Odm)) {               // Phase 1
++	    _DPK_GainLossToFindTxAGC_PathB(pDM_Odm);          // Phase 2
++	    if (_DPK_AdjustRFGainByFoundTxAGC_PathB(pDM_Odm)) // Phase 3
++	        _DPK_DoAutoDPK_PathB(pDM_Odm);                // Phase 4
++	}
++    _DPK_EnableDP_PathB(pDM_Odm);                         // Phase 5
++
++	_DPK_MacBBRestore_PathB(pDM_Odm, backupMacBBRegAddrs, backupMacBBRegData, sizeof(backupMacBBRegAddrs)/sizeof(u4Byte));
++	_DPK_RFRestore_PathB(pDM_Odm, backupRFRegAddrs, ODM_RF_PATH_B, backupRFRegData_A, sizeof(backupRFRegAddrs)/sizeof(u4Byte));	
++}                                                        
++VOID	                                                 
++PHY_DPCalibrate_8812A(                                   
++	IN 	PDM_ODM_T	pDM_Odm                             
++	)                                                    
++{   
++	pDM_Odm->DPK_Done = TRUE;
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("===> PHY_DPCalibrate_8812A\n"));
++	phy_DPCalibrate_PathA_8812A(pDM_Odm);
++	phy_DPCalibrate_PathB_8812A(pDM_Odm);	
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_CALIBRATION, ODM_DBG_LOUD, ("<=== PHY_DPCalibrate_8812A\n"));
++}                                               
++                                   
++                                                          
++                                                          
++                                                          
++                                                          
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halphyrf_8812a_win.h b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halphyrf_8812a_win.h
+new file mode 100644
+index 0000000..ec218b9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/halphyrf_8812a_win.h
+@@ -0,0 +1,106 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __HAL_PHY_RF_8812A_H__
++#define __HAL_PHY_RF_8812A_H__
++
++/*--------------------------Define Parameters-------------------------------*/
++#define	IQK_DELAY_TIME_8812A		10		//ms
++#define	IQK_DEFERRED_TIME_8812A		4		//sec
++#define	index_mapping_NUM_8812A	15
++#define AVG_THERMAL_NUM_8812A	4
++#define RF_T_METER_8812A 		0x42
++
++
++void ConfigureTxpowerTrack_8812A(
++	PTXPWRTRACK_CFG	pConfig
++	);
++
++VOID
++GetDeltaSwingTable_8812A(
++	IN	PVOID		pDM_VOID,
++	OUT pu1Byte 			*TemperatureUP_A,
++	OUT pu1Byte 			*TemperatureDOWN_A,
++	OUT pu1Byte 			*TemperatureUP_B,
++	OUT pu1Byte 			*TemperatureDOWN_B	
++	);
++
++void DoIQK_8812A(
++	PVOID		pDM_VOID,
++	u1Byte 		DeltaThermalIndex,
++	u1Byte		ThermalValue,	
++	u1Byte 		Threshold
++	);
++
++VOID
++ODM_TxPwrTrackSetPwr8812A(
++	PVOID		pDM_VOID,
++	PWRTRACK_METHOD 	Method,
++	u1Byte 				RFPath,
++	u1Byte 				ChannelMappedIndex
++	);
++
++//1 7.	IQK
++
++void	
++PHY_IQCalibrate_8812A(	
++	IN	PADAPTER	pAdapter,	
++	IN	BOOLEAN 	bReCovery
++);
++
++
++//
++// LC calibrate
++//
++void	
++PHY_LCCalibrate_8812A(
++	IN PVOID		pDM_VOID
++);
++
++//
++// AP calibrate
++//
++void	
++PHY_APCalibrate_8812A(		
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++							IN 	s1Byte		delta);
++void	
++PHY_DigitalPredistortion_8812A(		IN	PADAPTER	pAdapter);
++
++VOID	                                                 
++PHY_DPCalibrate_8812A(                                   
++	IN 	PDM_ODM_T	pDM_Odm                          
++);           
++VOID PHY_SetRFPathSwitch_8812A(
++#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
++	IN PDM_ODM_T		pDM_Odm,
++#else
++	IN	PADAPTER	pAdapter,
++#endif
++	IN	BOOLEAN		bMain
++	);
++
++								
++#endif	// #ifndef __HAL_PHY_RF_8812A_H__								
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/phydm_regconfig8812a.c b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/phydm_regconfig8812a.c
+new file mode 100644
+index 0000000..5e74ffa
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/phydm_regconfig8812a.c
+@@ -0,0 +1,195 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#if (RTL8812A_SUPPORT == 1)  
++
++void
++odm_ConfigRFReg_8812A(
++	IN 	PDM_ODM_T 				pDM_Odm,
++	IN 	u4Byte 					Addr,
++	IN 	u4Byte 					Data,
++	IN  ODM_RF_RADIO_PATH_E     RF_PATH,
++	IN	u4Byte				    RegAddr
++	)
++{
++	if (Addr == 0xfe || Addr == 0xffe) {
++		#ifdef CONFIG_LONG_DELAY_ISSUE
++		ODM_sleep_ms(50);
++		#else		
++		ODM_delay_ms(50);
++		#endif
++	} else {
++		ODM_SetRFReg(pDM_Odm, RF_PATH, RegAddr, bRFRegOffsetMask, Data);
++		// Add 1us delay between BB/RF register setting.
++		ODM_delay_us(1);
++	}	
++}
++
++
++void 
++odm_ConfigRF_RadioA_8812A(
++	IN 	PDM_ODM_T 				pDM_Odm,
++	IN 	u4Byte 					Addr,
++	IN 	u4Byte 					Data
++	)
++{
++	u4Byte  content = 0x1000; // RF_Content: radioa_txt
++	u4Byte	maskforPhySet= (u4Byte)(content&0xE000);
++
++    odm_ConfigRFReg_8812A(pDM_Odm, Addr, Data, ODM_RF_PATH_A, Addr|maskforPhySet);
++
++    ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_TRACE, ("===> ODM_ConfigRFWithHeaderFile: [RadioA] %08X %08X\n", Addr, Data));
++}
++
++void 
++odm_ConfigRF_RadioB_8812A(
++	IN 	PDM_ODM_T 				pDM_Odm,
++	IN 	u4Byte 					Addr,
++	IN 	u4Byte 					Data
++	)
++{
++	u4Byte  content = 0x1001; // RF_Content: radiob_txt
++	u4Byte	maskforPhySet= (u4Byte)(content&0xE000);
++
++    odm_ConfigRFReg_8812A(pDM_Odm, Addr, Data, ODM_RF_PATH_B, Addr|maskforPhySet);
++	
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_TRACE, ("===> ODM_ConfigRFWithHeaderFile: [RadioB] %08X %08X\n", Addr, Data));
++    
++}
++
++void 
++odm_ConfigMAC_8812A(
++ 	IN 	PDM_ODM_T 	pDM_Odm,
++ 	IN 	u4Byte 		Addr,
++ 	IN 	u1Byte 		Data
++ 	)
++{
++	ODM_Write1Byte(pDM_Odm, Addr, Data);
++    ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_TRACE, ("===> ODM_ConfigMACWithHeaderFile: [MAC_REG] %08X %08X\n", Addr, Data));
++}
++
++void 
++odm_ConfigBB_AGC_8812A(
++    IN 	PDM_ODM_T 	pDM_Odm,
++    IN 	u4Byte 		Addr,
++    IN 	u4Byte 		Bitmask,
++    IN 	u4Byte 		Data
++    )
++{
++	ODM_SetBBReg(pDM_Odm, Addr, Bitmask, Data);		
++	// Add 1us delay between BB/RF register setting.
++	ODM_delay_us(1);
++
++    ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_TRACE, ("===> ODM_ConfigBBWithHeaderFile: [AGC_TAB] %08X %08X\n", Addr, Data));
++}
++
++void
++odm_ConfigBB_PHY_REG_PG_8812A(
++	IN 	PDM_ODM_T 	pDM_Odm,
++	IN	u4Byte		Band,
++	IN	u4Byte		RfPath,
++	IN	u4Byte		TxNum,
++    IN 	u4Byte 		Addr,
++    IN 	u4Byte 		Bitmask,
++    IN 	u4Byte 		Data
++    )
++{    
++	if (Addr == 0xfe || Addr == 0xffe)
++		#ifdef CONFIG_LONG_DELAY_ISSUE
++		ODM_sleep_ms(50);
++		#else		
++		ODM_delay_ms(50);
++		#endif
++	    else {
++#if	!(DM_ODM_SUPPORT_TYPE&ODM_AP)
++	    PHY_StoreTxPowerByRate(pDM_Odm->Adapter, Band, RfPath, TxNum, Addr, Bitmask, Data);
++#endif
++	}
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_INIT, ODM_DBG_LOUD, ("===> ODM_ConfigBBWithHeaderFile: [PHY_REG] %08X %08X %08X\n", Addr, Bitmask, Data));
++}
++
++void 
++odm_ConfigBB_PHY_8812A(
++	IN 	PDM_ODM_T 	pDM_Odm,
++    IN 	u4Byte 		Addr,
++    IN 	u4Byte 		Bitmask,
++    IN 	u4Byte 		Data
++    )
++{    
++	if (Addr == 0xfe)
++		#ifdef CONFIG_LONG_DELAY_ISSUE
++		ODM_sleep_ms(50);
++		#else		
++		ODM_delay_ms(50);
++		#endif
++	else if (Addr == 0xfd)
++		ODM_delay_ms(5);
++	else if (Addr == 0xfc)
++		ODM_delay_ms(1);
++	else if (Addr == 0xfb)
++		ODM_delay_us(50);
++	else if (Addr == 0xfa)
++		ODM_delay_us(5);
++	else if (Addr == 0xf9)
++		ODM_delay_us(1);
++	else 
++	{
++		ODM_SetBBReg(pDM_Odm, Addr, Bitmask, Data);
++		// Add 1us delay between BB/RF register setting.
++		ODM_delay_us(1);
++	}
++	
++
++	ODM_RT_TRACE(pDM_Odm, ODM_COMP_INIT, ODM_DBG_TRACE, ("===> ODM_ConfigBBWithHeaderFile: [PHY_REG] %08X %08X\n", Addr, Data));
++}
++
++void
++odm_ConfigBB_TXPWR_LMT_8812A(
++	IN 	PDM_ODM_T 	pDM_Odm,
++	IN	pu1Byte		Regulation,
++	IN	pu1Byte		Band,
++	IN	pu1Byte		Bandwidth,
++	IN	pu1Byte		RateSection,
++	IN	pu1Byte		RfPath,
++	IN	pu1Byte 	Channel,
++	IN	pu1Byte		PowerLimit
++    )
++{
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++	PHY_SetTxPowerLimit(pDM_Odm, Regulation, Band,
++		Bandwidth, RateSection, RfPath, Channel, PowerLimit);
++#endif
++}
++
++#else	/* #if (RTL8812A_SUPPORT == 1)  */
++void
++odm_ConfigRFReg_8812A(
++	IN	PDM_ODM_T				pDM_Odm,
++	IN	u4Byte					Addr,
++	IN	u4Byte					Data,
++	IN  ODM_RF_RADIO_PATH_E     RF_PATH,
++	IN	u4Byte				    RegAddr
++	){}
++
++#endif	/* #if (RTL8812A_SUPPORT == 1)  */
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/phydm_regconfig8812a.h b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/phydm_regconfig8812a.h
+new file mode 100644
+index 0000000..7db8233
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/phydm_regconfig8812a.h
+@@ -0,0 +1,96 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_ODM_REGCONFIG_H_8812A
++#define __INC_ODM_REGCONFIG_H_8812A
++ 
++#if (RTL8812A_SUPPORT == 1)
++
++void
++odm_ConfigRFReg_8812A(
++	IN 	PDM_ODM_T 				pDM_Odm,
++	IN 	u4Byte 					Addr,
++	IN 	u4Byte 					Data,
++	IN  ODM_RF_RADIO_PATH_E     RF_PATH,
++	IN	u4Byte				    RegAddr
++	);
++
++void 
++odm_ConfigRF_RadioA_8812A(
++	IN 	PDM_ODM_T 				pDM_Odm,
++	IN 	u4Byte 					Addr,
++	IN 	u4Byte 					Data
++	);
++
++void 
++odm_ConfigRF_RadioB_8812A(
++	IN 	PDM_ODM_T 				pDM_Odm,
++	IN 	u4Byte 					Addr,
++	IN 	u4Byte 					Data
++	);
++
++void 
++odm_ConfigMAC_8812A(
++ 	IN 	PDM_ODM_T 	pDM_Odm,
++ 	IN 	u4Byte 		Addr,
++ 	IN 	u1Byte 		Data
++ 	);
++
++void 
++odm_ConfigBB_AGC_8812A(
++    IN 	PDM_ODM_T 	pDM_Odm,
++    IN 	u4Byte 		Addr,
++    IN 	u4Byte 		Bitmask,
++    IN 	u4Byte 		Data
++    );
++
++void
++odm_ConfigBB_PHY_REG_PG_8812A(
++	IN 	PDM_ODM_T 	pDM_Odm,
++	IN	u4Byte		Band,
++	IN	u4Byte		RfPath,
++	IN	u4Byte		TxNum,
++    IN 	u4Byte 		Addr,
++    IN 	u4Byte 		Bitmask,
++    IN 	u4Byte 		Data
++    );
++
++void 
++odm_ConfigBB_PHY_8812A(
++	IN 	PDM_ODM_T 	pDM_Odm,
++    IN 	u4Byte 		Addr,
++    IN 	u4Byte 		Bitmask,
++    IN 	u4Byte 		Data
++    );
++
++void
++odm_ConfigBB_TXPWR_LMT_8812A(
++	IN 	PDM_ODM_T 	pDM_Odm,
++	IN	pu1Byte		Regulation,
++	IN	pu1Byte		Band,
++	IN	pu1Byte		Bandwidth,
++	IN	pu1Byte		RateSection,
++	IN	pu1Byte		RfPath,
++	IN	pu1Byte 	Channel,
++	IN	pu1Byte		PowerLimit
++    );
++
++#endif
++#endif // end of SUPPORT
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/phydm_rtl8812a.c b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/phydm_rtl8812a.c
+new file mode 100644
+index 0000000..28d3c91
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/phydm_rtl8812a.c
+@@ -0,0 +1,161 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++//============================================================
++// include files
++//============================================================
++
++#include "mp_precomp.h"
++
++#include "../phydm_precomp.h"
++
++#if (RTL8812A_SUPPORT == 1)
++
++#if(defined(CONFIG_PATH_DIVERSITY))
++VOID
++odm_UpdateTxPath_8812A(IN PDM_ODM_T pDM_Odm, IN u1Byte Path)
++{
++	pPATHDIV_T	pDM_PathDiv = &pDM_Odm->DM_PathDiv;
++
++	if(pDM_PathDiv->RespTxPath != Path)
++	{
++		ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, ("Need to Update Tx Path\n"));
++		
++		if(Path == ODM_RF_PATH_A)
++		{
++			ODM_SetBBReg(pDM_Odm, 0x80c , 0xFFF0, 0x111); //Tx by Reg
++			ODM_SetBBReg(pDM_Odm, 0x6d8 , BIT7|BIT6, 1); //Resp Tx by Txinfo
++		}
++		else
++		{
++			ODM_SetBBReg(pDM_Odm, 0x80c , 0xFFF0, 0x222); //Tx by Reg
++			ODM_SetBBReg(pDM_Odm, 0x6d8 , BIT7|BIT6, 2); //Resp Tx by Txinfo
++		}
++	}
++	pDM_PathDiv->RespTxPath = Path;
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, ("Path=%s\n",(Path==ODM_RF_PATH_A)?"ODM_RF_PATH_A":"ODM_RF_PATH_B"));
++}
++
++
++VOID
++ODM_PathDiversityInit_8812A(
++	IN	PDM_ODM_T 	pDM_Odm
++)
++{
++	u4Byte	i;
++	pPATHDIV_T	pDM_PathDiv = &pDM_Odm->DM_PathDiv;
++	
++	ODM_SetBBReg(pDM_Odm, 0x80c , BIT29, 1); //Tx path from Reg
++	ODM_SetBBReg(pDM_Odm, 0x80c , 0xFFF0, 0x111); //Tx by Reg
++	ODM_SetBBReg(pDM_Odm, 0x6d8 , BIT7|BIT6, 1); //Resp Tx by Txinfo
++	odm_UpdateTxPath_8812A(pDM_Odm, ODM_RF_PATH_A);
++
++	for (i=0; i<ODM_ASSOCIATE_ENTRY_NUM; i++)
++	{
++		pDM_PathDiv->PathSel[i] = 1; // TxInfo default at path-A
++	}
++}
++
++
++
++VOID
++ODM_PathDiversity_8812A(
++	IN	PDM_ODM_T 	pDM_Odm
++	)
++{
++	u4Byte	i, RssiAvgA=0, RssiAvgB=0, LocalMinRSSI, MinRSSI=0xFF;
++	u1Byte	TxRespPath=0, TargetPath;
++	pPATHDIV_T	pDM_PathDiv = &pDM_Odm->DM_PathDiv;
++	PSTA_INFO_T   	pEntry;
++
++
++	ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, ("Odm_PathDiversity_8812A() =>\n"));
++	   
++	for (i=0; i<ODM_ASSOCIATE_ENTRY_NUM; i++)
++	{
++		pEntry = pDM_Odm->pODM_StaInfo[i];
++		if(IS_STA_VALID(pEntry))
++		{
++			//2 Caculate RSSI per Path
++			RssiAvgA = (pDM_PathDiv->PathA_Cnt[i]!=0)?(pDM_PathDiv->PathA_Sum[i]/pDM_PathDiv->PathA_Cnt[i]):0;
++			RssiAvgB = (pDM_PathDiv->PathB_Cnt[i]!=0)?(pDM_PathDiv->PathB_Sum[i]/pDM_PathDiv->PathB_Cnt[i]):0;
++			TargetPath = (RssiAvgA==RssiAvgB)?pDM_PathDiv->RespTxPath:((RssiAvgA>=RssiAvgB)?ODM_RF_PATH_A:ODM_RF_PATH_B);
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, ("MacID=%d, PathA_Sum=%d, PathA_Cnt=%d\n", i, pDM_PathDiv->PathA_Sum[i], pDM_PathDiv->PathA_Cnt[i]));
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, ("MacID=%d, PathB_Sum=%d, PathB_Cnt=%d\n",i, pDM_PathDiv->PathB_Sum[i], pDM_PathDiv->PathB_Cnt[i]));
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_PATH_DIV, ODM_DBG_LOUD, ("MacID=%d, RssiAvgA= %d, RssiAvgB= %d\n", i, RssiAvgA, RssiAvgB));
++
++			//2 Select Resp Tx Path
++			LocalMinRSSI = (RssiAvgA>RssiAvgB)?RssiAvgB:RssiAvgA;
++			if(LocalMinRSSI < MinRSSI)
++			{
++				MinRSSI = LocalMinRSSI;
++				TxRespPath = TargetPath;
++			}	
++
++			//2 Select Tx DESC
++			if(TargetPath == ODM_RF_PATH_A)
++				pDM_PathDiv->PathSel[i] = 1;
++			else
++				pDM_PathDiv->PathSel[i] = 2;
++
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD, ("Tx from TxInfo, TargetPath=%s\n", 
++								(TargetPath==ODM_RF_PATH_A)?"ODM_RF_PATH_A":"ODM_RF_PATH_B"));
++			ODM_RT_TRACE(pDM_Odm,ODM_COMP_ANT_DIV, ODM_DBG_LOUD,("pDM_PathDiv->PathSel[%d] = %d\n", i, pDM_PathDiv->PathSel[i]));
++				
++		}
++		pDM_PathDiv->PathA_Cnt[i] = 0;
++		pDM_PathDiv->PathA_Sum[i] = 0;
++		pDM_PathDiv->PathB_Cnt[i] = 0;
++		pDM_PathDiv->PathB_Sum[i] = 0;
++	}
++       
++	//2 Update Tx Path
++	odm_UpdateTxPath_8812A(pDM_Odm, TxRespPath);
++
++}
++
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN|ODM_CE))
++VOID
++ODM_SetTxPathByTxInfo_8812A(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		pu1Byte			pDesc,
++	IN		u1Byte			macId	
++)
++{
++	pPATHDIV_T	pDM_PathDiv = &pDM_Odm->DM_PathDiv;
++
++	if((pDM_Odm->SupportICType != ODM_RTL8812)||(!(pDM_Odm->SupportAbility & ODM_BB_PATH_DIV)))
++		return;
++
++	SET_TX_DESC_TX_ANT_8812(pDesc, pDM_PathDiv->PathSel[macId]);
++}
++#else// (DM_ODM_SUPPORT_TYPE == ODM_AP)
++VOID
++ODM_SetTxPathByTxInfo_8812A(
++	IN		PDM_ODM_T		pDM_Odm	
++)
++{
++
++}
++#endif
++
++#endif // CONFIG_PATH_DIVERSITY
++#endif //#if (RTL8812A_SUPPORT == 1)
+\ No newline at end of file
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/phydm_rtl8812a.h b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/phydm_rtl8812a.h
+new file mode 100644
+index 0000000..2c3f15a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/phydm_rtl8812a.h
+@@ -0,0 +1,46 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef	__ODM_RTL8812A_H__
++#define __ODM_RTL8812A_H__
++#if(defined(CONFIG_PATH_DIVERSITY))
++
++VOID
++ODM_PathStatistics_8812A(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		u4Byte			MacId,
++	IN		u4Byte			RSSI_A,
++	IN		u4Byte			RSSI_B
++);
++
++VOID
++ODM_PathDiversityInit_8812A(	IN	PDM_ODM_T 	pDM_Odm);
++
++VOID
++ODM_PathDiversity_8812A(	IN	PDM_ODM_T 	pDM_Odm);
++
++VOID
++ODM_SetTxPathByTxInfo_8812A(
++	IN		PDM_ODM_T		pDM_Odm,
++	IN		pu1Byte			pDesc,
++	IN		u1Byte			macId	
++);
++ #endif
++ #endif
+\ No newline at end of file
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/version_rtl8812a.h b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/version_rtl8812a.h
+new file mode 100644
+index 0000000..2a7954c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/rtl8812a/version_rtl8812a.h
+@@ -0,0 +1,10 @@
++/*RTL8812A PHY Parameters*/
++/* 
++[Caution] 
++  Since 01/Aug/2015, the commit rules will be simplified. 
++  You do not need to fill up the version.h anymore, 
++  only the maintenance supervisor fills it before formal release.
++*/
++#define	RELEASE_DATE_8812A		20150920
++#define	COMMIT_BY_8812A		"BB_LUKE"
++#define	RELEASE_VERSION_8812A		57
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/txbf/halcomtxbf.c b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/halcomtxbf.c
+new file mode 100644
+index 0000000..395a217
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/halcomtxbf.c
+@@ -0,0 +1,536 @@
++//============================================================
++// Description:
++//
++// This file is for TXBF mechanism
++//
++//============================================================
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#if (BEAMFORMING_SUPPORT == 1)
++/*Beamforming halcomtxbf API create by YuChen 2015/05*/
++
++VOID
++halComTxbf_beamformInit(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		HalTxbf8822B_Init(pDM_Odm);
++}
++
++/*Only used for MU BFer Entry when get GID management frame (self is as MU STA)*/
++VOID
++halComTxbf_ConfigGtab(
++	IN PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		HalTxbf8822B_ConfigGtab(pDM_Odm);
++}
++
++VOID
++phydm_beamformSetSoundingEnter(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	if (PlatformIsWorkItemScheduled(&(pTxbfInfo->Txbf_EnterWorkItem)) == FALSE)
++		PlatformScheduleWorkItem(&(pTxbfInfo->Txbf_EnterWorkItem));
++#else
++	halComTxbf_EnterWorkItemCallback(pDM_Odm);
++#endif
++}
++
++VOID
++phydm_beamformSetSoundingLeave(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	if (PlatformIsWorkItemScheduled(&(pTxbfInfo->Txbf_LeaveWorkItem)) == FALSE)
++		PlatformScheduleWorkItem(&(pTxbfInfo->Txbf_LeaveWorkItem));
++#else
++	halComTxbf_LeaveWorkItemCallback(pDM_Odm);
++#endif
++}
++
++VOID
++phydm_beamformSetSoundingRate(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	if (PlatformIsWorkItemScheduled(&(pTxbfInfo->Txbf_RateWorkItem)) == FALSE)
++		PlatformScheduleWorkItem(&(pTxbfInfo->Txbf_RateWorkItem));
++#else
++	halComTxbf_RateWorkItemCallback(pDM_Odm);
++#endif
++}
++
++VOID
++phydm_beamformSetSoundingStatus(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	if (PlatformIsWorkItemScheduled(&(pTxbfInfo->Txbf_StatusWorkItem)) == FALSE)
++		PlatformScheduleWorkItem(&(pTxbfInfo->Txbf_StatusWorkItem));
++#else
++	halComTxbf_StatusWorkItemCallback(pDM_Odm);
++#endif
++}
++
++VOID
++phydm_beamformSetSoundingFwNdpa(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	if (*pDM_Odm->pbFwDwRsvdPageInProgress)
++		ODM_SetTimer(pDM_Odm, &(pTxbfInfo->Txbf_FwNdpaTimer), 5);
++	else
++		PlatformScheduleWorkItem(&(pTxbfInfo->Txbf_FwNdpaWorkItem));
++#else
++	halComTxbf_FwNdpaWorkItemCallback(pDM_Odm);
++#endif
++}
++
++VOID
++phydm_beamformSetSoundingClk(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	if (PlatformIsWorkItemScheduled(&(pTxbfInfo->Txbf_ClkWorkItem)) == FALSE)
++			PlatformScheduleWorkItem(&(pTxbfInfo->Txbf_ClkWorkItem));
++#elif(DM_ODM_SUPPORT_TYPE == ODM_CE)
++	PADAPTER	padapter = pDM_Odm->Adapter;
++
++	rtw_run_in_thread_cmd(padapter, halComTxbf_ClkWorkItemCallback, padapter);
++#else
++	halComTxbf_ClkWorkItemCallback(pDM_Odm);
++#endif
++}
++
++VOID
++phydm_beamformSetResetTxPath(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	if (PlatformIsWorkItemScheduled(&(pTxbfInfo->Txbf_ResetTxPathWorkItem)) == FALSE)
++		PlatformScheduleWorkItem(&(pTxbfInfo->Txbf_ResetTxPathWorkItem));
++#else
++	halComTxbf_ResetTxPathWorkItemCallback(pDM_Odm);
++#endif
++}
++
++VOID
++phydm_beamformSetGetTxRate(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	if (PlatformIsWorkItemScheduled(&(pTxbfInfo->Txbf_GetTxRateWorkItem)) == FALSE)
++		PlatformScheduleWorkItem(&(pTxbfInfo->Txbf_GetTxRateWorkItem));
++#else
++	halComTxbf_GetTxRateWorkItemCallback(pDM_Odm);
++#endif
++}
++
++VOID 
++halComTxbf_EnterWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++	u1Byte			Idx = pTxbfInfo->TXBFIdx;
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++	
++	if (pDM_Odm->SupportICType & (ODM_RTL8812|ODM_RTL8821))
++		HalTxbfJaguar_Enter(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8192E)
++		HalTxbf8192E_Enter(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		HalTxbf8814A_Enter(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		HalTxbf8822B_Enter(pDM_Odm, Idx);
++}
++
++VOID 
++halComTxbf_LeaveWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	u1Byte			Idx = pTxbfInfo->TXBFIdx;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8812|ODM_RTL8821))
++		HalTxbfJaguar_Leave(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8192E)
++		HalTxbf8192E_Leave(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		HalTxbf8814A_Leave(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		HalTxbf8822B_Leave(pDM_Odm, Idx);
++}
++
++
++VOID 
++halComTxbf_FwNdpaWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++	u1Byte	Idx = pTxbfInfo->NdpaIdx;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8812|ODM_RTL8821))
++		HalTxbfJaguar_FwTxBF(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8192E)
++		HalTxbf8192E_FwTxBF(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		HalTxbf8814A_FwTxBF(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		HalTxbf8822B_FwTxBF(pDM_Odm, Idx);
++}
++
++VOID
++halComTxbf_ClkWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pDM_Odm->SupportICType & ODM_RTL8812)
++		HalTxbfJaguar_Clk_8812A(pDM_Odm);
++}
++
++
++
++VOID
++halComTxbf_RateWorkItemCallback(	
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++	u1Byte			BW = pTxbfInfo->BW;
++	u1Byte			Rate = pTxbfInfo->Rate;	
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pDM_Odm->SupportICType & ODM_RTL8812)
++		HalTxbf8812A_setNDPArate(pDM_Odm, BW, Rate);
++	else if (pDM_Odm->SupportICType & ODM_RTL8192E)
++		HalTxbf8192E_setNDPArate(pDM_Odm, BW, Rate);
++	else if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		HalTxbf8814A_setNDPArate(pDM_Odm, BW, Rate);
++	
++}
++
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID 
++halComTxbf_FwNdpaTimerCallback(
++	IN	PRT_TIMER		pTimer
++	)
++{
++
++	PADAPTER		Adapter = (PADAPTER)pTimer->Adapter;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (*pDM_Odm->pbFwDwRsvdPageInProgress)
++		ODM_SetTimer(pDM_Odm, &(pTxbfInfo->Txbf_FwNdpaTimer), 5);
++	else
++		PlatformScheduleWorkItem(&(pTxbfInfo->Txbf_FwNdpaWorkItem));
++}
++#endif
++
++
++VOID
++halComTxbf_StatusWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	u1Byte			Idx = pTxbfInfo->TXBFIdx;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pDM_Odm->SupportICType & (ODM_RTL8812|ODM_RTL8821))
++		HalTxbfJaguar_Status(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8192E)
++		HalTxbf8192E_Status(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		HalTxbf8814A_Status(pDM_Odm, Idx);
++	else if (pDM_Odm->SupportICType & ODM_RTL8822B)
++		HalTxbf8822B_Status(pDM_Odm, Idx);
++}
++
++VOID
++halComTxbf_ResetTxPathWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	u1Byte			Idx = pTxbfInfo->TXBFIdx;
++
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		HalTxbf8814A_ResetTxPath(pDM_Odm, Idx);
++	
++}
++
++VOID
++halComTxbf_GetTxRateWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	)
++{
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++#else
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#endif
++	
++	if (pDM_Odm->SupportICType & ODM_RTL8814A)
++		HalTxbf8814A_GetTxRate(pDM_Odm);
++}
++
++
++BOOLEAN
++HalComTxbf_Set(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte			setType,
++	IN	PVOID			pInBuf
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	pu1Byte			pU1Tmp=(pu1Byte)pInBuf;
++	PHAL_TXBF_INFO	pTxbfInfo = &pDM_Odm->BeamformingInfo.TxbfInfo;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] setType = 0x%X\n", __func__, setType));
++	
++	switch(setType){
++	case TXBF_SET_SOUNDING_ENTER:
++	pTxbfInfo->TXBFIdx = *pU1Tmp;
++	phydm_beamformSetSoundingEnter(pDM_Odm);
++	break;
++
++	case TXBF_SET_SOUNDING_LEAVE:
++	pTxbfInfo->TXBFIdx = *pU1Tmp;
++	phydm_beamformSetSoundingLeave(pDM_Odm);
++	break;
++
++	case TXBF_SET_SOUNDING_RATE:
++	pTxbfInfo->BW = pU1Tmp[0];
++	pTxbfInfo->Rate = pU1Tmp[1];
++	phydm_beamformSetSoundingRate(pDM_Odm);
++	break;
++
++	case TXBF_SET_SOUNDING_STATUS:
++	pTxbfInfo->TXBFIdx = *pU1Tmp;
++	phydm_beamformSetSoundingStatus(pDM_Odm);
++	break;
++
++	case TXBF_SET_SOUNDING_FW_NDPA:
++	pTxbfInfo->NdpaIdx = *pU1Tmp;
++	phydm_beamformSetSoundingFwNdpa(pDM_Odm);
++	break;
++
++	case TXBF_SET_SOUNDING_CLK:
++	phydm_beamformSetSoundingClk(pDM_Odm);
++	break;
++		
++	case TXBF_SET_TX_PATH_RESET:
++	pTxbfInfo->TXBFIdx = *pU1Tmp;
++	phydm_beamformSetResetTxPath(pDM_Odm);
++	break;
++
++	case TXBF_SET_GET_TX_RATE:
++	phydm_beamformSetGetTxRate(pDM_Odm);
++	break;
++	
++	}
++
++	return TRUE;
++}
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++BOOLEAN
++HalComTxbf_Get(
++	IN 	PADAPTER		Adapter,
++	IN	u1Byte			getType,
++	OUT	PVOID			pOutBuf
++	)
++{
++	PHAL_DATA_TYPE		pHalData=GET_HAL_DATA(Adapter);
++	PDM_ODM_T			pDM_Odm = &pHalData->DM_OutSrc;
++	PBOOLEAN			pBoolean=(PBOOLEAN)pOutBuf;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (getType == TXBF_GET_EXPLICIT_BEAMFORMEE) {
++		if (IS_HARDWARE_TYPE_OLDER_THAN_8812A(Adapter))
++			*pBoolean = FALSE;
++		else if (/*IS_HARDWARE_TYPE_8822B(Adapter)	||*/
++				IS_HARDWARE_TYPE_8821B(Adapter) 	||
++				IS_HARDWARE_TYPE_8192E(Adapter) 	||
++				IS_HARDWARE_TYPE_JAGUAR(Adapter) || IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(Adapter))
++			*pBoolean = TRUE;
++		else
++			*pBoolean = FALSE;
++	} else if (getType == TXBF_GET_EXPLICIT_BEAMFORMER) {
++		if (IS_HARDWARE_TYPE_OLDER_THAN_8812A(Adapter))
++			*pBoolean = FALSE;		
++		else	if (/*IS_HARDWARE_TYPE_8822B(Adapter)	||*/
++				IS_HARDWARE_TYPE_8821B(Adapter) 	||
++				IS_HARDWARE_TYPE_8192E(Adapter) 	||
++				IS_HARDWARE_TYPE_JAGUAR(Adapter) || IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(Adapter)) {
++			if(pHalData->RF_Type == RF_2T2R || pHalData->RF_Type == RF_3T3R)
++				*pBoolean = TRUE;
++			else
++				*pBoolean = FALSE;
++		} else
++			*pBoolean = FALSE;
++	} else if (getType == TXBF_GET_MU_MIMO_STA) {
++#if ((RTL8822B_SUPPORT == 1) || (RTL8821C_SUPPORT == 1))
++		if (IS_HARDWARE_TYPE_8822B(Adapter) || IS_HARDWARE_TYPE_8821C(Adapter))
++			*pBoolean = TRUE;
++		else
++#endif
++			*pBoolean = FALSE;
++
++
++	} else if (getType == TXBF_GET_MU_MIMO_AP) {
++#if (RTL8822B_SUPPORT == 1)	
++		if (IS_HARDWARE_TYPE_8822B(Adapter))
++			*pBoolean = TRUE;
++		else
++#endif
++			*pBoolean = FALSE;
++	}
++	
++	return TRUE;
++}	
++#endif
++
++
++#endif 
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/txbf/halcomtxbf.h b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/halcomtxbf.h
+new file mode 100644
+index 0000000..abb9d59
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/halcomtxbf.h
+@@ -0,0 +1,181 @@
++#ifndef __HAL_COM_TXBF_H__
++#define __HAL_COM_TXBF_H__
++
++/*
++typedef	BOOLEAN
++(*TXBF_GET)(
++	IN	PVOID			pAdapter,
++	IN	u1Byte			getType,
++	OUT	PVOID			pOutBuf
++	);
++
++typedef	BOOLEAN
++(*TXBF_SET)(
++	IN	PVOID			pAdapter,
++	IN	u1Byte			setType,
++	OUT	PVOID			pInBuf
++	);
++*/
++#define TxBF_Nr(a, b) ((a > b) ? (b) : (a))
++
++typedef enum _TXBF_SET_TYPE{
++	TXBF_SET_SOUNDING_ENTER,
++	TXBF_SET_SOUNDING_LEAVE,
++	TXBF_SET_SOUNDING_RATE,
++	TXBF_SET_SOUNDING_STATUS,
++	TXBF_SET_SOUNDING_FW_NDPA,
++	TXBF_SET_SOUNDING_CLK,
++	TXBF_SET_TX_PATH_RESET,
++	TXBF_SET_GET_TX_RATE
++}TXBF_SET_TYPE,*PTXBF_SET_TYPE;
++
++
++typedef enum _TXBF_GET_TYPE{
++	TXBF_GET_EXPLICIT_BEAMFORMEE,
++	TXBF_GET_EXPLICIT_BEAMFORMER,
++	TXBF_GET_MU_MIMO_STA,
++	TXBF_GET_MU_MIMO_AP
++}TXBF_GET_TYPE,*PTXBF_GET_TYPE;
++
++
++
++//2 HAL TXBF related
++typedef struct _HAL_TXBF_INFO {
++	u1Byte				TXBFIdx;
++	u1Byte				NdpaIdx;
++	u1Byte				BW;
++	u1Byte				Rate;
++
++	RT_TIMER			Txbf_FwNdpaTimer;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)	
++	RT_WORK_ITEM		Txbf_EnterWorkItem;  
++	RT_WORK_ITEM		Txbf_LeaveWorkItem;
++	RT_WORK_ITEM		Txbf_FwNdpaWorkItem;
++	RT_WORK_ITEM		Txbf_ClkWorkItem;
++	RT_WORK_ITEM		Txbf_StatusWorkItem;
++	RT_WORK_ITEM		Txbf_RateWorkItem;
++	RT_WORK_ITEM		Txbf_ResetTxPathWorkItem;
++	RT_WORK_ITEM		Txbf_GetTxRateWorkItem;
++#endif
++
++} HAL_TXBF_INFO, *PHAL_TXBF_INFO;
++
++#if (BEAMFORMING_SUPPORT == 1)
++
++VOID
++halComTxbf_beamformInit(
++	IN PVOID			pDM_VOID
++	);
++
++VOID
++halComTxbf_ConfigGtab(
++	IN PVOID			pDM_VOID
++	);
++
++VOID 
++halComTxbf_EnterWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++VOID 
++halComTxbf_LeaveWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++VOID 
++halComTxbf_FwNdpaWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++VOID
++halComTxbf_ClkWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++VOID
++halComTxbf_ResetTxPathWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++VOID
++halComTxbf_GetTxRateWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++VOID
++halComTxbf_RateWorkItemCallback(	
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++VOID 
++halComTxbf_FwNdpaTimerCallback(
++	IN	PRT_TIMER		pTimer
++	);
++
++VOID
++halComTxbf_StatusWorkItemCallback(
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	PADAPTER		Adapter
++#else
++	IN PVOID			pDM_VOID
++#endif
++	);
++
++BOOLEAN
++HalComTxbf_Set(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte			setType,
++	IN	PVOID			pInBuf
++	);
++
++BOOLEAN
++HalComTxbf_Get(
++	IN	PADAPTER		Adapter,
++	IN	u1Byte			getType,
++	OUT	PVOID			pOutBuf
++	);
++
++#else
++#define halComTxbf_beamformInit(pDM_VOID)					NULL
++#define halComTxbf_ConfigGtab(pDM_VOID)				NULL
++#define halComTxbf_EnterWorkItemCallback(_Adapter)		NULL
++#define halComTxbf_LeaveWorkItemCallback(_Adapter)		NULL
++#define halComTxbf_FwNdpaWorkItemCallback(_Adapter)		NULL
++#define halComTxbf_ClkWorkItemCallback(_Adapter)			NULL
++#define halComTxbf_RateWorkItemCallback(_Adapter)		NULL
++#define halComTxbf_FwNdpaTimerCallback(_Adapter)		NULL
++#define halComTxbf_StatusWorkItemCallback(_Adapter)		NULL
++#define HalComTxbf_Get(_Adapter, _getType, _pOutBuf)
++
++#endif
++							
++#endif	// #ifndef __HAL_COM_TXBF_H__								
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbf8192e.c b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbf8192e.c
+new file mode 100644
+index 0000000..778eb91
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbf8192e.c
+@@ -0,0 +1,392 @@
++//============================================================
++// Description:
++//
++// This file is for 8192E TXBF mechanism
++//
++//============================================================
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#if (BEAMFORMING_SUPPORT == 1)
++#if (RTL8192E_SUPPORT == 1)
++
++VOID
++HalTxbf8192E_setNDPArate(
++	IN PVOID			pDM_VOID,
++	IN u1Byte	BW,
++	IN u1Byte	Rate
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	ODM_Write1Byte(pDM_Odm, REG_NDPA_OPT_CTRL_8192E,  (Rate << 2 | BW));	
++
++}
++
++VOID
++halTxbf8192E_RfMode(
++	IN PVOID			pDM_VOID,
++	IN PRT_BEAMFORMING_INFO	pBeamInfo
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	BOOLEAN				bSelfBeamformer = FALSE;
++	BOOLEAN				bSelfBeamformee = FALSE;
++	BEAMFORMING_CAP	BeamformCap = BEAMFORMING_CAP_NONE;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pDM_Odm->RFType == ODM_1T1R)
++		return;
++
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_WE_LUT, 0x80000, 0x1); /*RF Mode table write enable*/
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_WE_LUT, 0x80000, 0x1); /*RF Mode table write enable*/
++	
++	if (pBeamInfo->beamformee_su_cnt > 0) {
++		/*Path_A*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableAddr, 0xfffff, 0x18000);	/*Select RX mode  0x30=0x18000*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData0, 0xfffff, 0x0000f);	/*Set Table data*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData1, 0xfffff, 0x77fc2);	/*Enable TXIQGEN in RX mode*/
++		/*Path_B*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableAddr, 0xfffff, 0x18000);	/*Select RX mode*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableData0, 0xfffff, 0x0000f);	/*Set Table data*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableData1, 0xfffff, 0x77fc2);	/*Enable TXIQGEN in RX mode*/
++	} else {
++		/*Path_A*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableAddr, 0xfffff, 0x18000);	/*Select RX mode*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData0, 0xfffff, 0x0000f);	/*Set Table data*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData1, 0xfffff, 0x77f82);	/*Disable TXIQGEN in RX mode*/
++		/*Path_B*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableAddr, 0xfffff, 0x18000);	/*Select RX mode*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableData0, 0xfffff, 0x0000f);	/*Set Table data*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableData1, 0xfffff, 0x77f82);	/*Disable TXIQGEN in RX mode*/
++	}
++
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_WE_LUT, 0x80000, 0x0);	/*RF Mode table write disable*/
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_WE_LUT, 0x80000, 0x0);	/*RF Mode table write disable*/
++
++	if (pBeamInfo->beamformee_su_cnt > 0) {
++		ODM_SetBBReg(pDM_Odm, rFPGA1_TxInfo, bMaskDWord, 0x83321333);
++		ODM_SetBBReg(pDM_Odm, rCCK0_AFESetting, bMaskByte3, 0xc1);
++	} else
++		ODM_SetBBReg(pDM_Odm, rFPGA1_TxInfo, bMaskDWord, 0x81121313);
++}
++
++
++
++VOID
++halTxbf8192E_FwTxBFCmd(
++	IN PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	Idx, Period0 = 0, Period1 = 0;
++	u1Byte	PageNum0 = 0xFF, PageNum1 = 0xFF;
++	u1Byte	u1TxBFParm[3] = {0};
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	for (Idx = 0; Idx < BEAMFORMEE_ENTRY_NUM; Idx++) {
++		if (pBeamInfo->BeamformeeEntry[Idx].BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++			if (Idx == 0) {
++				if (pBeamInfo->BeamformeeEntry[Idx].bSound)
++					PageNum0 = 0xFE;
++				else
++					PageNum0 = 0xFF; //stop sounding
++				Period0 = (u1Byte)(pBeamInfo->BeamformeeEntry[Idx].SoundPeriod);
++			} else if (Idx == 1) {
++				if (pBeamInfo->BeamformeeEntry[Idx].bSound)
++					PageNum1 = 0xFE;
++				else
++					PageNum1 = 0xFF; //stop sounding
++				Period1 = (u1Byte)(pBeamInfo->BeamformeeEntry[Idx].SoundPeriod);
++			}
++		}
++	}
++
++	u1TxBFParm[0] = PageNum0;
++	u1TxBFParm[1] = PageNum1;
++	u1TxBFParm[2] = (Period1 << 4) | Period0;
++	ODM_FillH2CCmd(pDM_Odm, PHYDM_H2C_TXBF, 3, u1TxBFParm);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, 
++		("[%s] PageNum0 = %d Period0 = %d, PageNum1 = %d Period1 %d\n", __func__, PageNum0, Period0, PageNum1, Period1));
++}
++
++
++VOID
++halTxbf8192E_DownloadNDPA(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			u1bTmp = 0, tmpReg422 = 0, Head_Page;
++	u1Byte			BcnValidReg = 0, count = 0, DLBcnCount = 0;
++	BOOLEAN			bSendBeacon = FALSE;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++	u1Byte			TxPageBndy = LAST_ENTRY_OF_TX_PKT_BUFFER_8812;	
++	/*default reseved 1 page for the IC type which is undefined.*/
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pBeamEntry = pBeamInfo->BeamformeeEntry + Idx;
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	*pDM_Odm->pbFwDwRsvdPageInProgress = TRUE;
++#endif
++	if (Idx == 0)
++		Head_Page = 0xFE;
++	else
++		Head_Page = 0xFE;
++
++	Adapter->HalFunc.GetHalDefVarHandler(Adapter, HAL_DEF_TX_PAGE_BOUNDARY, (pu1Byte)&TxPageBndy);
++
++	/*Set REG_CR bit 8. DMA beacon by SW.*/
++	u1bTmp = ODM_Read1Byte(pDM_Odm, REG_CR_8192E+1);
++	ODM_Write1Byte(pDM_Odm,  REG_CR_8192E+1, (u1bTmp | BIT0));
++
++	/*Set FWHW_TXQ_CTRL 0x422[6]=0 to tell Hw the packet is not a real beacon frame.*/
++	tmpReg422 = ODM_Read1Byte(pDM_Odm, REG_FWHW_TXQ_CTRL_8192E+2);
++	ODM_Write1Byte(pDM_Odm, REG_FWHW_TXQ_CTRL_8192E+2,  tmpReg422 & (~BIT6));
++
++	if (tmpReg422 & BIT6) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_WARNING, ("%s There is an Adapter is sending beacon.\n", __func__));
++		bSendBeacon = TRUE;
++	}
++
++	/*TDECTRL[15:8] 0x209[7:0] = 0xFE/0xFD	NDPA Head for TXDMA*/
++	ODM_Write1Byte(pDM_Odm, REG_DWBCN0_CTRL_8192E+1, Head_Page);
++
++	do {
++		/*Clear beacon valid check bit.*/
++		BcnValidReg = ODM_Read1Byte(pDM_Odm, REG_DWBCN0_CTRL_8192E+2);
++		ODM_Write1Byte(pDM_Odm, REG_DWBCN0_CTRL_8192E+2, (BcnValidReg | BIT0));
++
++		// download NDPA rsvd page.
++		Beamforming_SendHTNDPAPacket(pDM_Odm, pBeamEntry->MacAddr, pBeamEntry->SoundBW, BEACON_QUEUE);
++
++#if(DEV_BUS_TYPE == RT_PCI_INTERFACE)
++		u1bTmp = ODM_Read1Byte(pDM_Odm, REG_MGQ_TXBD_NUM_8192E+3);
++		count = 0;
++		while ((count < 20) && (u1bTmp & BIT4)) {
++			count++;
++			ODM_delay_us(10);
++			u1bTmp = ODM_Read1Byte(pDM_Odm, REG_MGQ_TXBD_NUM_8192E+3);
++		}
++		ODM_Write1Byte(pDM_Odm, REG_MGQ_TXBD_NUM_8192E+3, u1bTmp | BIT4);
++#endif
++
++		/*check rsvd page download OK.*/
++		BcnValidReg = ODM_Read1Byte(pDM_Odm, REG_DWBCN0_CTRL_8192E+2);
++		count = 0;
++		while (!(BcnValidReg & BIT0) && count < 20) {
++			count++;
++			ODM_delay_us(10);
++			BcnValidReg = ODM_Read1Byte(pDM_Odm, REG_DWBCN0_CTRL_8192E+2);
++		}
++		DLBcnCount++;
++	} while (!(BcnValidReg & BIT0) && DLBcnCount < 5);
++
++	if (!(BcnValidReg & BIT0))
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_WARNING, ("%s Download RSVD page failed!\n", __func__));
++
++	/*TDECTRL[15:8] 0x209[7:0] = 0xF9	Beacon Head for TXDMA*/
++	ODM_Write1Byte(pDM_Odm, REG_DWBCN0_CTRL_8192E+1, TxPageBndy);
++
++	/*To make sure that if there exists an adapter which would like to send beacon.*/
++	/*If exists, the origianl value of 0x422[6] will be 1, we should check this to*/
++	/*prevent from setting 0x422[6] to 0 after download reserved page, or it will cause*/
++	/*the beacon cannot be sent by HW.*/
++	/*2010.06.23. Added by tynli.*/
++	if (bSendBeacon)
++		ODM_Write1Byte(pDM_Odm, REG_FWHW_TXQ_CTRL_8192E+2, tmpReg422);
++
++	/*Do not enable HW DMA BCN or it will cause Pcie interface hang by timing issue. 2011.11.24. by tynli.*/
++	/*Clear CR[8] or beacon packet will not be send to TxBuf anymore.*/
++	u1bTmp = ODM_Read1Byte(pDM_Odm, REG_CR_8192E+1);
++	ODM_Write1Byte(pDM_Odm, REG_CR_8192E+1, (u1bTmp & (~BIT0)));
++
++	pBeamEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_PROGRESSED;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	*pDM_Odm->pbFwDwRsvdPageInProgress = FALSE;
++#endif
++}
++
++
++VOID
++HalTxbf8192E_Enter(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				BFerBFeeIdx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte					i = 0;
++	u1Byte					BFerIdx = (BFerBFeeIdx & 0xF0) >> 4;
++	u1Byte					BFeeIdx = (BFerBFeeIdx & 0xF);
++	u4Byte					CSI_Param;
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	RT_BEAMFORMEE_ENTRY	BeamformeeEntry;
++	RT_BEAMFORMER_ENTRY	BeamformerEntry;
++	u2Byte					STAid = 0;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	halTxbf8192E_RfMode(pDM_Odm, pBeamformingInfo);
++
++	if (pDM_Odm->RFType == ODM_2T2R)
++		ODM_Write4Byte(pDM_Odm, 0xd80, 0x00000000);		/*Nc =2*/
++
++	if ((pBeamformingInfo->beamformer_su_cnt > 0) && (BFerIdx < BEAMFORMER_ENTRY_NUM)) {
++		BeamformerEntry = pBeamformingInfo->BeamformerEntry[BFerIdx];
++
++		/*Sounding protocol control*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8192E, 0xCB);
++
++		/*MAC address/Partial AID of Beamformer*/
++		if (BFerIdx == 0) {
++			for (i = 0; i < 6 ; i++)
++				ODM_Write1Byte(pDM_Odm, (REG_ASSOCIATED_BFMER0_INFO_8192E+i), BeamformerEntry.MacAddr[i]);
++		} else {
++			for (i = 0; i < 6 ; i++)
++				ODM_Write1Byte(pDM_Odm, (REG_ASSOCIATED_BFMER1_INFO_8192E+i), BeamformerEntry.MacAddr[i]);
++		}
++
++		/*CSI report parameters of Beamformer Default use Nc = 2*/
++		CSI_Param = 0x03090309;
++
++		ODM_Write4Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW20_8192E, CSI_Param);
++		ODM_Write4Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW40_8192E, CSI_Param);
++		ODM_Write4Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW80_8192E, CSI_Param);
++
++		/*Timeout value for MAC to leave NDP_RX_standby_state (60 us, Test chip) (80 us,  MP chip)*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8192E+3, 0x50);
++
++	}
++
++	if ((pBeamformingInfo->beamformee_su_cnt > 0) && (BFeeIdx < BEAMFORMEE_ENTRY_NUM)) {
++		BeamformeeEntry = pBeamformingInfo->BeamformeeEntry[BFeeIdx];
++
++		if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS))
++			STAid = BeamformeeEntry.MacId;
++		else
++			STAid = BeamformeeEntry.P_AID;
++
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s], STAid=0x%X\n", __func__, STAid));
++
++		/*P_AID of Beamformee & enable NDPA transmission & enable NDPA interrupt*/
++		if (BFeeIdx == 0) {
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8192E, STAid);
++			ODM_Write1Byte(pDM_Odm, REG_TXBF_CTRL_8192E+3, ODM_Read1Byte(pDM_Odm, REG_TXBF_CTRL_8192E+3) | BIT4 | BIT6 | BIT7);
++		} else
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8192E+2, STAid | BIT12 | BIT14 | BIT15);
++
++		/*CSI report parameters of Beamformee*/
++		if (BFeeIdx == 0) {
++			/*Get BIT24 & BIT25*/
++			u1Byte tmp = ODM_Read1Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8192E+3) & 0x3;
++			
++			ODM_Write1Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8192E+3, tmp | 0x60);
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8192E, STAid | BIT9);
++		} else {
++			/*Set BIT25*/
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8192E+2, STAid | 0xE200);
++		}
++			phydm_Beamforming_Notify(pDM_Odm);
++
++	}
++}
++
++
++VOID
++HalTxbf8192E_Leave(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	halTxbf8192E_RfMode(pDM_Odm, pBeamInfo);
++
++	/*	Clear P_AID of Beamformee
++	* 	Clear MAC addresss of Beamformer
++	*	Clear Associated Bfmee Sel
++	*/
++	if (pBeamInfo->BeamformCap == BEAMFORMING_CAP_NONE)
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8192E, 0xC8);
++
++	if (Idx == 0) {
++		ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8192E, 0);
++		ODM_Write4Byte(pDM_Odm, REG_ASSOCIATED_BFMER0_INFO_8192E, 0);
++		ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMER0_INFO_8192E+4, 0);
++		ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8192E, 0);
++	} else {
++		ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8192E+2, ODM_Read1Byte(pDM_Odm, REG_TXBF_CTRL_8192E+2) & 0xF000);
++		ODM_Write4Byte(pDM_Odm, REG_ASSOCIATED_BFMER1_INFO_8192E, 0);
++		ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMER1_INFO_8192E+4, 0);
++		ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8192E+2, ODM_Read2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8192E+2) & 0x60);
++	}
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Idx %d\n", __func__, Idx));
++}
++
++
++VOID
++HalTxbf8192E_Status(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u2Byte					BeamCtrlVal;
++	u4Byte					BeamCtrlReg;
++	PRT_BEAMFORMING_INFO	pBeamInfo =  &pDM_Odm->BeamformingInfo;
++	RT_BEAMFORMEE_ENTRY	BeamformEntry = pBeamInfo->BeamformeeEntry[Idx];
++
++	if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS))
++		BeamCtrlVal = BeamformEntry.MacId;
++	else
++		BeamCtrlVal = BeamformEntry.P_AID;
++
++	if (Idx == 0)
++		BeamCtrlReg = REG_TXBF_CTRL_8192E;
++	else {
++		BeamCtrlReg = REG_TXBF_CTRL_8192E+2;
++		BeamCtrlVal |= BIT12 | BIT14 | BIT15;
++	}
++
++	if ((BeamformEntry.BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) && (pBeamInfo->applyVmatrix == TRUE)) {
++		if (BeamformEntry.SoundBW == CHANNEL_WIDTH_20)
++			BeamCtrlVal |= BIT9;
++		else if (BeamformEntry.SoundBW == CHANNEL_WIDTH_40)
++			BeamCtrlVal |= BIT10;
++	} else
++		BeamCtrlVal &= ~(BIT9 | BIT10 | BIT11);
++
++	ODM_Write2Byte(pDM_Odm, BeamCtrlReg, BeamCtrlVal);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Idx %d BeamCtrlReg %x BeamCtrlVal %x\n", __func__, Idx, BeamCtrlReg, BeamCtrlVal));
++}
++
++
++VOID
++HalTxbf8192E_FwTxBF(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pBeamEntry = pBeamInfo->BeamformeeEntry + Idx;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pBeamEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSING)
++		halTxbf8192E_DownloadNDPA(pDM_Odm, Idx);
++
++	halTxbf8192E_FwTxBFCmd(pDM_Odm);
++}
++
++#endif	/* #if (RTL8192E_SUPPORT == 1)*/
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbf8192e.h b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbf8192e.h
+new file mode 100644
+index 0000000..406c2d6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbf8192e.h
+@@ -0,0 +1,52 @@
++#ifndef __HAL_TXBF_8192E_H__
++#define __HAL_TXBF_8192E_H__
++
++#if (BEAMFORMING_SUPPORT == 1)
++#if (RTL8192E_SUPPORT == 1)
++VOID
++HalTxbf8192E_setNDPArate(
++	IN PVOID			pDM_VOID,
++	IN u1Byte	BW,
++	IN u1Byte	Rate
++);
++
++VOID
++HalTxbf8192E_Enter(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbf8192E_Leave(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbf8192E_Status(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbf8192E_FwTxBF(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++	);
++#else
++
++#define HalTxbf8192E_setNDPArate(pDM_VOID, BW, Rate)
++#define HalTxbf8192E_Enter(pDM_VOID, Idx)
++#define HalTxbf8192E_Leave(pDM_VOID, Idx)
++#define HalTxbf8192E_Status(pDM_VOID, Idx)
++#define HalTxbf8192E_FwTxBF(pDM_VOID, Idx)
++
++#endif
++
++#endif
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbf8814a.c b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbf8814a.c
+new file mode 100644
+index 0000000..1c66708
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbf8814a.c
+@@ -0,0 +1,677 @@
++//============================================================
++// Description:
++//
++// This file is for 8814A TXBF mechanism
++//
++//============================================================
++
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#if (BEAMFORMING_SUPPORT == 1)
++#if (RTL8814A_SUPPORT == 1)
++
++VOID
++HalTxbf8814A_setNDPArate(
++	IN PVOID			pDM_VOID,
++	IN u1Byte	BW,
++	IN u1Byte	Rate
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	ODM_Write1Byte(pDM_Odm, REG_NDPA_OPT_CTRL_8814A, BW);
++	ODM_Write1Byte(pDM_Odm, REG_NDPA_RATE_8814A, (u1Byte) Rate);
++
++}
++
++#define PHYDM_MEMORY_MAP_BUF_READ	0x8000
++#define PHYDM_CTRL_INFO_PAGE			0x660
++
++VOID
++phydm_DataRate_8814A(
++	IN	PDM_ODM_T			pDM_Odm,
++	IN	u1Byte				macId,	
++	OUT	pu4Byte				data,
++	IN	u1Byte				dataLen
++	)
++{
++	u1Byte	i = 0;
++	u2Byte	XReadDataAddr = 0;
++
++	ODM_Write2Byte(pDM_Odm, REG_PKTBUF_DBG_CTRL_8814A, PHYDM_CTRL_INFO_PAGE);
++	XReadDataAddr = PHYDM_MEMORY_MAP_BUF_READ + macId*32; /*Ctrl Info: 32Bytes for each macid(n)*/
++	
++	if ((XReadDataAddr < PHYDM_MEMORY_MAP_BUF_READ) || (XReadDataAddr > 0x8FFF)) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("XReadDataAddr(0x%x) is not correct!\n", XReadDataAddr));
++		return;	
++	}
++	
++	/* Read data */
++	for (i = 0; i < dataLen; i++)
++		*(data+i) = ODM_Read2Byte(pDM_Odm, XReadDataAddr+i);	
++	
++}
++
++VOID
++HalTxbf8814A_GetTxRate(
++	IN PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pEntry;
++	u4Byte	TxRptData = 0;
++	u1Byte	DataRate = 0xFF;
++
++	pEntry = &(pBeamInfo->BeamformeeEntry[pBeamInfo->BeamformeeCurIdx]);
++	
++	phydm_DataRate_8814A(pDM_Odm, (u1Byte)pEntry->MacId, &TxRptData, 1);
++	DataRate = (u1Byte)TxRptData;
++	DataRate &= bMask7bits;   /*Bit7 indicates SGI*/
++
++	pDM_Odm->TxBfDataRate = DataRate;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] pDM_Odm->TxBfDataRate = 0x%x\n", __func__, pDM_Odm->TxBfDataRate));
++}
++
++VOID
++HalTxbf8814A_ResetTxPath(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	RT_BEAMFORMEE_ENTRY	BeamformeeEntry;
++	u1Byte	Nr_index = 0, txSS = 0;
++
++	if (idx < BEAMFORMEE_ENTRY_NUM)
++		BeamformeeEntry = pBeamformingInfo->BeamformeeEntry[idx];
++	else
++		return;
++
++	if ((pDM_Odm->LastUSBHub) != (*pDM_Odm->HubUsbMode)) {
++		Nr_index = TxBF_Nr(halTxbf8814A_GetNtx(pDM_Odm), BeamformeeEntry.CompSteeringNumofBFer);
++
++		if (*pDM_Odm->HubUsbMode == 2) {
++			if (pDM_Odm->RFType == ODM_4T4R)
++				txSS = 0xf;
++			else if (pDM_Odm->RFType == ODM_3T3R)
++				txSS = 0xe;
++			else
++				txSS = 0x6;
++		} else if (*pDM_Odm->HubUsbMode == 1)	/*USB 2.0 always 2Tx*/
++			txSS = 0x6;
++		else
++			txSS = 0x6;
++
++		if (txSS == 0xf) {
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x93f);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskDWord, 0x93f93f0);
++		} else if (txSS == 0xe) {
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x93e);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8814A, bMaskDWord, 0x93e93e0);
++		} else if (txSS == 0x6) {
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x936);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8814A, bMaskLWord, 0x9360);
++		}
++
++		if (idx == 0) {
++			switch (Nr_index) {
++			case 0:
++			break;
++
++			case 1:			/*Nsts = 2	BC*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF0_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x9366);		/*tx2path, BC*/
++			break;
++
++			case 2:			/*Nsts = 3	BCD*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF0_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x93e93ee);	/*tx3path, BCD*/
++			break;
++
++			default:			/*Nr>3, same as Case 3*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF0_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x93f93ff);	/*tx4path, ABCD*/
++			break;
++			}
++		} else	{
++			switch (Nr_index) {
++			case 0:
++				break;
++
++			case 1:			/*Nsts = 2	BC*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x9366);		/*tx2path, BC*/
++			break;
++
++			case 2:			/*Nsts = 3	BCD*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x93e93ee);	/*tx3path, BCD*/
++			break;
++
++			default:			/*Nr>3, same as Case 3*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x93f93ff);	/*tx4path, ABCD*/
++			break;
++			}
++		}
++
++		pDM_Odm->LastUSBHub = *pDM_Odm->HubUsbMode;
++	} else
++		return;
++#endif
++}
++
++
++u1Byte
++halTxbf8814A_GetNtx(
++	IN PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte		Ntx = 0, txSS = 3;
++
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++	txSS = *pDM_Odm->HubUsbMode;
++#endif
++	if (txSS == 3 || txSS == 2) {
++		if (pDM_Odm->RFType == ODM_4T4R)
++			Ntx = 3;
++		else if (pDM_Odm->RFType == ODM_3T3R)
++			Ntx = 2;
++		else
++			Ntx = 1;
++	} else if (txSS == 1)	/*USB 2.0 always 2Tx*/
++		Ntx = 1;
++	else
++		Ntx = 1;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Ntx = %d\n", __func__, Ntx));
++	return Ntx;
++}
++
++u1Byte
++halTxbf8814A_GetNrx(
++	IN PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			Nrx = 0;
++
++	if (pDM_Odm->RFType == ODM_4T4R)
++		Nrx = 3;
++	else if (pDM_Odm->RFType == ODM_3T3R)
++		Nrx = 2;
++	else if (pDM_Odm->RFType == ODM_2T2R)
++		Nrx = 1;
++	else if (pDM_Odm->RFType == ODM_2T3R)
++		Nrx = 2;
++	else if (pDM_Odm->RFType == ODM_2T4R)
++		Nrx = 3;
++	else if (pDM_Odm->RFType == ODM_1T1R)
++		Nrx = 0;
++	else if (pDM_Odm->RFType == ODM_1T2R)
++		Nrx = 1;
++	else
++		Nrx = 0;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Nrx = %d\n", __func__, Nrx));
++	return Nrx;
++}
++
++VOID
++halTxbf8814A_RfMode(
++	IN PVOID			pDM_VOID,
++	IN	PRT_BEAMFORMING_INFO	pBeamformingInfo,
++	IN	u1Byte					idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte				i, Nr_index = 0;
++	u1Byte				txSS = 3;		/*default use 3 Tx*/
++	RT_BEAMFORMEE_ENTRY	BeamformeeEntry;
++
++	if (idx < BEAMFORMEE_ENTRY_NUM)
++		BeamformeeEntry = pBeamformingInfo->BeamformeeEntry[idx];
++	else
++		return;
++
++	Nr_index = TxBF_Nr(halTxbf8814A_GetNtx(pDM_Odm), BeamformeeEntry.CompSteeringNumofBFer);
++
++	if (pDM_Odm->RFType == ODM_1T1R)
++		return;
++
++	for (i = ODM_RF_PATH_A; i < MAX_RF_PATH; i++) {
++		ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_WeLut_Jaguar, 0x80000, 0x1);
++		/*RF Mode table write enable*/
++	}
++
++	if (pBeamformingInfo->beamformee_su_cnt > 0) {
++		for (i = ODM_RF_PATH_A; i < MAX_RF_PATH; i++) {
++			ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_ModeTableAddr, 0xfffff, 0x18000);
++			/*Select RX mode*/
++			ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_ModeTableData0, 0xfffff, 0xBE77F);
++			/*Set Table data*/
++			ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_ModeTableData1, 0xfffff, 0x226BF);
++			/*Enable TXIQGEN in RX mode*/
++		}
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData1, 0xfffff, 0xE26BF);
++		/*Enable TXIQGEN in RX mode*/
++	}
++
++	for (i = ODM_RF_PATH_A; i < MAX_RF_PATH; i++) {
++		ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_WeLut_Jaguar, 0x80000, 0x0);
++		/*RF Mode table write disable*/
++	}
++
++	if (pBeamformingInfo->beamformee_su_cnt > 0) {
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++		pDM_Odm->LastUSBHub = *pDM_Odm->HubUsbMode;
++		txSS = *pDM_Odm->HubUsbMode;
++#endif
++		if (txSS == 3 || txSS == 2) {
++			if (pDM_Odm->RFType == ODM_4T4R)
++				txSS = 0xf;
++			else if (pDM_Odm->RFType == ODM_3T3R)
++				txSS = 0xe;
++			else
++				txSS = 0x6;
++		} else if (txSS == 1)	/*USB 2.0 always 2Tx*/
++			txSS = 0x6;
++		else
++			txSS = 0x6;
++
++		if (txSS == 0xf) {
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x93f);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskDWord, 0x93f93f0);
++		} else if (txSS == 0xe) {
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x93e);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8814A, bMaskDWord, 0x93e93e0);
++		} else if (txSS == 0x6) {
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x936);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8814A, bMaskLWord, 0x9360);
++		}
++
++		/*for 8814 19ac(idx 1), 19b4(idx 0), different Tx ant setting*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8814A, BIT28 | BIT29, 0x2);			/*enable BB TxBF ant mapping register*/
++		
++		if (idx == 0) {
++			switch (Nr_index) {
++			case 0:
++			break;
++
++			case 1:			/*Nsts = 2	BC*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF0_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x9366);		/*tx2path, BC*/
++			break;
++
++			case 2:			/*Nsts = 3	BCD*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF0_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x93e93ee);	/*tx3path, BCD*/
++			break;
++
++			default:			/*Nr>3, same as Case 3*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF0_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x93f93ff);	/*tx4path, ABCD*/
++			
++			break;
++			}
++		} else {
++			switch (Nr_index) {
++			case 0:
++			break;
++
++			case 1:			/*Nsts = 2	BC*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x9366);		/*tx2path, BC*/
++			break;
++
++			case 2:			/*Nsts = 3	BCD*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x93e93ee);	/*tx3path, BCD*/
++			break;
++
++			default:			/*Nr>3, same as Case 3*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8814A, bMaskByte3LowNibble | bMaskL3Bytes, 0x93f93ff);	/*tx4path, ABCD*/
++			break;
++			}
++		}
++	}
++
++	if ((pBeamformingInfo->beamformee_su_cnt == 0) && (pBeamformingInfo->beamformer_su_cnt == 0)) {
++		ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8814A, bMaskByte3 | bMaskByte2HighNibble, 0x932);	/*set TxPath selection for 8814a BFer bug refine*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8814A, bMaskDWord, 0x93e9360);
++	}
++}
++#if 0
++VOID
++halTxbf8814A_DownloadNDPA(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			u1bTmp = 0, tmpReg422 = 0;
++	u1Byte			BcnValidReg = 0, count = 0, DLBcnCount = 0;
++	u2Byte			Head_Page = 0x7FE;
++	BOOLEAN			bSendBeacon = FALSE;
++	u2Byte			TxPageBndy = LAST_ENTRY_OF_TX_PKT_BUFFER_8814A; /*default reseved 1 page for the IC type which is undefined.*/
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pBeamEntry = pBeamInfo->BeamformeeEntry + Idx;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	*pDM_Odm->pbFwDwRsvdPageInProgress = TRUE;
++#endif
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	Adapter->HalFunc.GetHalDefVarHandler(Adapter, HAL_DEF_TX_PAGE_BOUNDARY, (pu2Byte)&TxPageBndy);
++
++	/*Set REG_CR bit 8. DMA beacon by SW.*/
++	u1bTmp = ODM_Read1Byte(pDM_Odm, REG_CR_8814A + 1);
++	ODM_Write1Byte(pDM_Odm,  REG_CR_8814A + 1, (u1bTmp | BIT0));
++
++
++	/*Set FWHW_TXQ_CTRL 0x422[6]=0 to tell Hw the packet is not a real beacon frame.*/
++	tmpReg422 = ODM_Read1Byte(pDM_Odm, REG_FWHW_TXQ_CTRL_8814A + 2);
++	ODM_Write1Byte(pDM_Odm, REG_FWHW_TXQ_CTRL_8814A + 2,  tmpReg422 & (~BIT6));
++
++	if (tmpReg422 & BIT6) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: There is an Adapter is sending beacon.\n", __func__));
++		bSendBeacon = TRUE;
++	}
++
++	/*0x204[11:0]	Beacon Head for TXDMA*/
++	ODM_Write2Byte(pDM_Odm, REG_FIFOPAGE_CTRL_2_8814A, Head_Page);
++
++	do {
++		/*Clear beacon valid check bit.*/
++		BcnValidReg = ODM_Read1Byte(pDM_Odm, REG_FIFOPAGE_CTRL_2_8814A + 1);
++		ODM_Write1Byte(pDM_Odm, REG_FIFOPAGE_CTRL_2_8814A + 1, (BcnValidReg | BIT7));
++
++		/*download NDPA rsvd page.*/
++		if (pBeamEntry->BeamformEntryCap & BEAMFORMER_CAP_VHT_SU)
++			Beamforming_SendVHTNDPAPacket(pDM_Odm, pBeamEntry->MacAddr, pBeamEntry->AID, pBeamEntry->SoundBW, BEACON_QUEUE);
++		else
++			Beamforming_SendHTNDPAPacket(pDM_Odm, pBeamEntry->MacAddr, pBeamEntry->SoundBW, BEACON_QUEUE);
++
++		/*check rsvd page download OK.*/
++		BcnValidReg = ODM_Read1Byte(pDM_Odm, REG_FIFOPAGE_CTRL_2_8814A + 1);
++		count = 0;
++		while (!(BcnValidReg & BIT7) && count < 20) {
++			count++;
++			ODM_delay_ms(10);
++			BcnValidReg = ODM_Read1Byte(pDM_Odm, REG_FIFOPAGE_CTRL_2_8814A + 2);
++		}
++		DLBcnCount++;
++	} while (!(BcnValidReg & BIT7) && DLBcnCount < 5);
++
++	if (!(BcnValidReg & BIT7))
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Download RSVD page failed!\n", __func__));
++
++	/*0x204[11:0]	Beacon Head for TXDMA*/
++	ODM_Write2Byte(pDM_Odm, REG_FIFOPAGE_CTRL_2_8814A, TxPageBndy);
++
++	/*To make sure that if there exists an adapter which would like to send beacon.*/
++	/*If exists, the origianl value of 0x422[6] will be 1, we should check this to*/
++	/*prevent from setting 0x422[6] to 0 after download reserved page, or it will cause */
++	/*the beacon cannot be sent by HW.*/
++	/*2010.06.23. Added by tynli.*/
++	if (bSendBeacon)
++		ODM_Write1Byte(pDM_Odm, REG_FWHW_TXQ_CTRL_8814A + 2, tmpReg422);
++
++	/*Do not enable HW DMA BCN or it will cause Pcie interface hang by timing issue. 2011.11.24. by tynli.*/
++	/*Clear CR[8] or beacon packet will not be send to TxBuf anymore.*/
++	u1bTmp = ODM_Read1Byte(pDM_Odm, REG_CR_8814A + 1);
++	ODM_Write1Byte(pDM_Odm, REG_CR_8814A + 1, (u1bTmp & (~BIT0)));
++
++	pBeamEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_PROGRESSED;
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	*pDM_Odm->pbFwDwRsvdPageInProgress = FALSE;
++#endif
++}
++
++VOID
++halTxbf8814A_FwTxBFCmd(
++	IN PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	Idx, Period = 0;
++	u1Byte	PageNum0 = 0xFF, PageNum1 = 0xFF;
++	u1Byte	u1TxBFParm[3] = {0};
++	PRT_BEAMFORMING_INFO pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	for (Idx = 0; Idx < BEAMFORMEE_ENTRY_NUM; Idx++) {
++		if (pBeamInfo->BeamformeeEntry[Idx].bUsed && pBeamInfo->BeamformeeEntry[Idx].BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++			if (pBeamInfo->BeamformeeEntry[Idx].bSound) {
++				PageNum0 = 0xFE;
++				PageNum1 = 0x07;
++				Period = (u1Byte)(pBeamInfo->BeamformeeEntry[Idx].SoundPeriod);
++			} else if (PageNum0 == 0xFF) {
++				PageNum0 = 0xFF; /*stop sounding*/
++				PageNum1 = 0x0F;
++			}
++		}
++	}
++
++	u1TxBFParm[0] = PageNum0;
++	u1TxBFParm[1] = PageNum1;
++	u1TxBFParm[2] = Period;
++	ODM_FillH2CCmd(pDM_Odm, PHYDM_H2C_TXBF, 3, u1TxBFParm);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, 
++		("[%s] PageNum0 = %d, PageNum1 = %d Period = %d\n", __func__, PageNum0, PageNum1, Period));
++}
++#endif
++VOID
++HalTxbf8814A_Enter(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				BFerBFeeIdx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte					i = 0;
++	u1Byte					BFerIdx = (BFerBFeeIdx & 0xF0) >> 4;
++	u1Byte					BFeeIdx = (BFerBFeeIdx & 0xF);
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	RT_BEAMFORMEE_ENTRY	BeamformeeEntry;
++	RT_BEAMFORMER_ENTRY	BeamformerEntry;
++	u2Byte					STAid = 0, CSI_Param = 0;
++	u1Byte					Nc_index = 0, Nr_index = 0, grouping = 0, codebookinfo = 0, coefficientsize = 0;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] BFerIdx=%d, BFeeIdx=%d\n", __func__, BFerIdx, BFeeIdx));
++	ODM_SetMACReg(pDM_Odm, REG_SND_PTCL_CTRL_8814A, bMaskByte1 | bMaskByte2, 0x0202);
++
++	if ((pBeamformingInfo->beamformer_su_cnt > 0) && (BFerIdx < BEAMFORMER_ENTRY_NUM)) {
++		BeamformerEntry = pBeamformingInfo->BeamformerEntry[BFerIdx];
++		/*Sounding protocol control*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8814A, 0xDB);
++
++		/*MAC address/Partial AID of Beamformer*/
++		if (BFerIdx == 0) {
++			for (i = 0; i < 6 ; i++)
++				ODM_Write1Byte(pDM_Odm, (REG_ASSOCIATED_BFMER0_INFO_8814A + i), BeamformerEntry.MacAddr[i]);
++		} else {
++			for (i = 0; i < 6 ; i++)
++				ODM_Write1Byte(pDM_Odm, (REG_ASSOCIATED_BFMER1_INFO_8814A + i), BeamformerEntry.MacAddr[i]);
++		}
++
++		/*CSI report parameters of Beamformer*/
++		Nc_index = halTxbf8814A_GetNrx(pDM_Odm);	/*for 8814A Nrx = 3(4 Ant), min=0(1 Ant)*/
++		Nr_index = BeamformerEntry.NumofSoundingDim;	/*0x718[7] = 1 use Nsts, 0x718[7] = 0 use reg setting. as Bfee, we use Nsts, so Nr_index don't care*/
++
++		grouping = 0;
++
++		/*for ac = 1, for n = 3*/
++		if (BeamformerEntry.BeamformEntryCap & BEAMFORMEE_CAP_VHT_SU)
++			codebookinfo = 1;
++		else if (BeamformerEntry.BeamformEntryCap & BEAMFORMEE_CAP_HT_EXPLICIT)
++			codebookinfo = 3;
++
++		coefficientsize = 3;
++
++		CSI_Param = (u2Byte)((coefficientsize << 10) | (codebookinfo << 8) | (grouping << 6) | (Nr_index << 3) | (Nc_index));
++
++		if (BFerIdx == 0)
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW20_8814A, CSI_Param);
++		else
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW20_8814A + 2, CSI_Param);
++		/*ndp_rx_standby_timer, 8814 need > 0x56, suggest from Dvaid*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8814A + 3, 0x40);
++
++	}
++
++	if ((pBeamformingInfo->beamformee_su_cnt > 0) && (BFeeIdx < BEAMFORMEE_ENTRY_NUM)) {
++		BeamformeeEntry = pBeamformingInfo->BeamformeeEntry[BFeeIdx];
++
++		halTxbf8814A_RfMode(pDM_Odm, pBeamformingInfo, BFeeIdx);
++
++		if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS))
++			STAid = BeamformeeEntry.MacId;
++		else
++			STAid = BeamformeeEntry.P_AID;
++
++		/*P_AID of Beamformee & enable NDPA transmission & enable NDPA interrupt*/
++		if (BFeeIdx == 0) {
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8814A, STAid);
++			ODM_Write1Byte(pDM_Odm, REG_TXBF_CTRL_8814A + 3, ODM_Read1Byte(pDM_Odm, REG_TXBF_CTRL_8814A + 3) | BIT4 | BIT6 | BIT7);
++		} else
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8814A + 2, STAid | BIT14 | BIT15 | BIT12);
++
++		/*CSI report parameters of Beamformee*/
++		if (BFeeIdx == 0) {
++			/*Get BIT24 & BIT25*/
++			u1Byte	tmp = ODM_Read1Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8814A + 3) & 0x3;
++
++			ODM_Write1Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8814A + 3, tmp | 0x60);
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8814A, STAid | BIT9);
++		} else
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8814A + 2, STAid | 0xE200);	/*Set BIT25*/
++
++		phydm_Beamforming_Notify(pDM_Odm);
++	}
++
++}
++
++
++VOID
++HalTxbf8814A_Leave(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	RT_BEAMFORMER_ENTRY	BeamformerEntry;
++	RT_BEAMFORMEE_ENTRY	BeamformeeEntry;
++
++	if (Idx < BEAMFORMER_ENTRY_NUM) {
++		BeamformerEntry = pBeamformingInfo->BeamformerEntry[Idx];
++		BeamformeeEntry = pBeamformingInfo->BeamformeeEntry[Idx];
++	} else
++		return;
++
++	/*Clear P_AID of Beamformee*/
++	/*Clear MAC address of Beamformer*/
++	/*Clear Associated Bfmee Sel*/
++
++	if (BeamformerEntry.BeamformEntryCap == BEAMFORMING_CAP_NONE) {
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8814A, 0xD8);
++		if (Idx == 0) {
++			ODM_Write4Byte(pDM_Odm, REG_ASSOCIATED_BFMER0_INFO_8814A, 0);
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMER0_INFO_8814A + 4, 0);
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW20_8814A, 0);
++		} else {
++			ODM_Write4Byte(pDM_Odm, REG_ASSOCIATED_BFMER1_INFO_8814A, 0);
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMER1_INFO_8814A + 4, 0);
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW20_8814A + 2, 0);
++		}
++	}
++
++	if (BeamformeeEntry.BeamformEntryCap == BEAMFORMING_CAP_NONE) {
++		halTxbf8814A_RfMode(pDM_Odm, pBeamformingInfo, Idx);
++		if (Idx == 0) {
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8814A, 0x0);
++			ODM_Write1Byte(pDM_Odm, REG_TXBF_CTRL_8814A + 3, ODM_Read1Byte(pDM_Odm, REG_TXBF_CTRL_8814A + 3) | BIT4 | BIT6 | BIT7);
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8814A, 0);
++		} else {
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8814A + 2, 0x0 | BIT14 | BIT15 | BIT12);
++
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8814A + 2, ODM_Read2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8814A + 2) & 0x60);
++		}
++	}
++}
++
++VOID
++HalTxbf8814A_Status(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u2Byte					BeamCtrlVal, tmpVal;
++	u4Byte					BeamCtrlReg;
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	RT_BEAMFORMEE_ENTRY	BeamformEntry;
++
++	if (Idx < BEAMFORMEE_ENTRY_NUM)
++		BeamformEntry = pBeamformingInfo->BeamformeeEntry[Idx];
++	else
++		return;
++
++	if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS))
++		BeamCtrlVal = BeamformEntry.MacId;
++	else
++		BeamCtrlVal = BeamformEntry.P_AID;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s, BeamformEntry.BeamformEntryState = %d", __func__, BeamformEntry.BeamformEntryState));
++
++	if (Idx == 0)
++		BeamCtrlReg = REG_TXBF_CTRL_8814A;
++	else {
++		BeamCtrlReg = REG_TXBF_CTRL_8814A + 2;
++		BeamCtrlVal |= BIT12 | BIT14 | BIT15;
++	}
++
++	if ((BeamformEntry.BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) && (pBeamformingInfo->applyVmatrix == TRUE)) {
++		if (BeamformEntry.SoundBW == CHANNEL_WIDTH_20)
++			BeamCtrlVal |= BIT9;
++		else if (BeamformEntry.SoundBW == CHANNEL_WIDTH_40)
++			BeamCtrlVal |= (BIT9 | BIT10);
++		else if (BeamformEntry.SoundBW == CHANNEL_WIDTH_80)
++			BeamCtrlVal |= (BIT9 | BIT10 | BIT11);
++	} else {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s, Don't apply Vmatrix",  __func__));
++		BeamCtrlVal &= ~(BIT9 | BIT10 | BIT11);
++	}
++
++	ODM_Write2Byte(pDM_Odm, BeamCtrlReg, BeamCtrlVal);
++	/*disable NDP packet use beamforming */
++	tmpVal = ODM_Read2Byte(pDM_Odm, REG_TXBF_CTRL_8814A);
++	ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8814A, tmpVal | BIT15);
++
++}
++
++
++
++
++
++VOID
++HalTxbf8814A_FwTxBF(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++)
++{
++#if 0
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pBeamEntry = pBeamInfo->BeamformeeEntry + Idx;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pBeamEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSING)
++		halTxbf8814A_DownloadNDPA(pDM_Odm, Idx);
++
++	halTxbf8814A_FwTxBFCmd(pDM_Odm);
++#endif
++}
++
++#endif	/* (RTL8814A_SUPPORT == 1)*/
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbf8814a.h b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbf8814a.h
+new file mode 100644
+index 0000000..7efdc02
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbf8814a.h
+@@ -0,0 +1,70 @@
++#ifndef __HAL_TXBF_8814A_H__
++#define __HAL_TXBF_8814A_H__
++
++#if (BEAMFORMING_SUPPORT == 1)
++#if (RTL8814A_SUPPORT == 1)
++VOID
++HalTxbf8814A_setNDPArate(
++	IN PVOID			pDM_VOID,
++	IN u1Byte	BW,
++	IN u1Byte	Rate
++);
++
++u1Byte
++halTxbf8814A_GetNtx(
++	IN PVOID			pDM_VOID
++	);
++
++VOID
++HalTxbf8814A_Enter(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbf8814A_Leave(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbf8814A_Status(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++VOID
++HalTxbf8814A_ResetTxPath(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbf8814A_GetTxRate(
++	IN PVOID			pDM_VOID
++	);
++
++VOID
++HalTxbf8814A_FwTxBF(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++	);
++#else
++
++#define HalTxbf8814A_setNDPArate(pDM_VOID,	BW,	Rate)
++#define halTxbf8814A_GetNtx(pDM_VOID) 0
++#define HalTxbf8814A_Enter(pDM_VOID, Idx)
++#define HalTxbf8814A_Leave(pDM_VOID, Idx)
++#define HalTxbf8814A_Status(pDM_VOID, Idx)
++#define HalTxbf8814A_ResetTxPath(pDM_VOID,	Idx)
++#define HalTxbf8814A_GetTxRate(pDM_VOID)
++#define HalTxbf8814A_FwTxBF(pDM_VOID,	Idx)
++#endif
++
++#endif
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbf8822b.c b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbf8822b.c
+new file mode 100644
+index 0000000..59ac2c6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbf8822b.c
+@@ -0,0 +1,1101 @@
++/*============================================================*/
++/* Description:                                               */
++/*                                                            */
++/* This file is for 8814A TXBF mechanism                      */
++/*                                                            */
++/*============================================================*/
++
++#include "mp_precomp.h"
++
++#if (BEAMFORMING_SUPPORT == 1)
++#if (RTL8822B_SUPPORT == 1)
++
++u1Byte
++halTxbf8822B_GetNtx(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			Ntx = 0;
++
++#if DEV_BUS_TYPE == RT_USB_INTERFACE
++	if (pDM_Odm->SupportInterface == ODM_ITRF_USB) {
++		if (*pDM_Odm->HubUsbMode == 2) {/*USB3.0*/
++			if (pDM_Odm->RFType == ODM_4T4R)
++				Ntx = 3;
++			else if (pDM_Odm->RFType == ODM_3T3R)
++				Ntx = 2;
++			else
++				Ntx = 1;
++		} else if (*pDM_Odm->HubUsbMode == 1)	/*USB 2.0 always 2Tx*/
++			Ntx = 1;
++		else
++			Ntx = 1;
++	} else
++#endif
++	{
++		if (pDM_Odm->RFType == ODM_4T4R)
++			Ntx = 3;
++		else if (pDM_Odm->RFType == ODM_3T3R)
++			Ntx = 2;
++		else
++			Ntx = 1;
++	}
++
++	return Ntx;
++
++}
++
++u1Byte
++halTxbf8822B_GetNrx(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			Nrx = 0;
++
++	if (pDM_Odm->RFType == ODM_4T4R)
++		Nrx = 3;
++	else if (pDM_Odm->RFType == ODM_3T3R)
++		Nrx = 2;
++	else if (pDM_Odm->RFType == ODM_2T2R)
++		Nrx = 1;
++	else if (pDM_Odm->RFType == ODM_2T3R)
++		Nrx = 2;
++	else if (pDM_Odm->RFType == ODM_2T4R)
++		Nrx = 3;
++	else if (pDM_Odm->RFType == ODM_1T1R)
++		Nrx = 0;
++	else if (pDM_Odm->RFType == ODM_1T2R)
++		Nrx = 1;
++	else
++		Nrx = 0;
++
++	return Nrx;
++	
++}
++
++/***************SU & MU BFee Entry********************/
++VOID
++halTxbf8822B_RfMode(
++	IN PVOID			pDM_VOID,
++	IN	PRT_BEAMFORMING_INFO	pBeamformingInfo,
++	IN	u1Byte					idx
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte				i, Nr_index = 0;
++	BOOLEAN				bSelfBeamformer = FALSE;
++	BOOLEAN				bSelfBeamformee = FALSE;
++	RT_BEAMFORMEE_ENTRY	BeamformeeEntry;
++
++	if (idx < BEAMFORMEE_ENTRY_NUM)
++		BeamformeeEntry = pBeamformingInfo->BeamformeeEntry[idx];
++	else
++		return;
++
++	if (pDM_Odm->RFType == ODM_1T1R)
++		return;
++
++	for (i = ODM_RF_PATH_A; i < ODM_RF_PATH_B; i++) {
++		ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_WeLut_Jaguar, 0x80000, 0x1);
++		/*RF Mode table write enable*/
++	}
++
++	if ((pBeamformingInfo->beamformee_su_cnt > 0) || (pBeamformingInfo->beamformee_mu_cnt > 0)) {
++		for (i = ODM_RF_PATH_A; i < ODM_RF_PATH_B; i++) {
++			ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_ModeTableAddr, 0xfffff, 0x18000);
++			/*Select RX mode*/
++			ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_ModeTableData0, 0xfffff, 0xBE77F);
++			/*Set Table data*/
++			ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_ModeTableData1, 0xfffff, 0x226BF);
++			/*Enable TXIQGEN in RX mode*/
++		}
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData1, 0xfffff, 0xE26BF);
++		/*Enable TXIQGEN in RX mode*/
++	}
++
++	for (i = ODM_RF_PATH_A; i < ODM_RF_PATH_B; i++) {
++		ODM_SetRFReg(pDM_Odm, (ODM_RF_RADIO_PATH_E)i, RF_WeLut_Jaguar, 0x80000, 0x0);
++		/*RF Mode table write disable*/
++	}
++
++	if (pBeamformingInfo->beamformee_su_cnt > 0) {
++
++		/*for 8814 19ac(idx 1), 19b4(idx 0), different Tx ant setting*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8822B, BIT28|BIT29, 0x2);			/*enable BB TxBF ant mapping register*/
++		
++		if (idx == 0) {
++			/*Nsts = 2	AB*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF0_8822B, 0xffff, 0x0433);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8822B, 0xfff00000, 0x043);
++			/*ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2, bMaskLWord, 0x430);*/
++
++		} else {/*IDX =1*/
++			ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8822B, 0xffff, 0x0433);
++			ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8822B, 0xfff00000, 0x043);
++			/*ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2, bMaskLWord, 0x430;*/
++		}
++	} else {
++		ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8822B, 0xfff00000, 0x1); /*1SS by path-A*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8822B, bMaskLWord, 0x430); /*2SS by path-A,B*/
++	}
++	
++	if (pBeamformingInfo->beamformee_mu_cnt > 0) {
++		/*MU STAs share the common setting*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8822B, BIT31, 1);
++		ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8822B, 0xffff, 0x0433);
++		ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8822B, 0xfff00000, 0x043);
++	}
++
++}
++#if 0
++VOID
++halTxbf8822B_DownloadNDPA(
++	IN	PADAPTER			Adapter,
++	IN	u1Byte				Idx
++	)
++{
++	u1Byte			u1bTmp = 0, tmpReg422 = 0;
++	u1Byte			BcnValidReg = 0, count = 0, DLBcnCount = 0;
++	u2Byte			Head_Page = 0x7FE;
++	BOOLEAN			bSendBeacon = FALSE;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u2Byte			TxPageBndy = LAST_ENTRY_OF_TX_PKT_BUFFER_8814A; /*default reseved 1 page for the IC type which is undefined.*/
++	PRT_BEAMFORMING_INFO	pBeamInfo = GET_BEAMFORM_INFO(Adapter);
++	PRT_BEAMFORMEE_ENTRY	pBeamEntry = pBeamInfo->BeamformeeEntry+Idx;
++
++	pHalData->bFwDwRsvdPageInProgress = TRUE;
++	Adapter->HalFunc.GetHalDefVarHandler(Adapter, HAL_DEF_TX_PAGE_BOUNDARY, (pu2Byte)&TxPageBndy);
++	
++	/*Set REG_CR bit 8. DMA beacon by SW.*/
++	u1bTmp = PlatformEFIORead1Byte(Adapter, REG_CR_8814A+1);
++	PlatformEFIOWrite1Byte(Adapter,  REG_CR_8814A+1, (u1bTmp|BIT0));
++
++
++	/*Set FWHW_TXQ_CTRL 0x422[6]=0 to tell Hw the packet is not a real beacon frame.*/
++	tmpReg422 = PlatformEFIORead1Byte(Adapter, REG_FWHW_TXQ_CTRL_8814A+2);
++	PlatformEFIOWrite1Byte(Adapter, REG_FWHW_TXQ_CTRL_8814A+2,  tmpReg422&(~BIT6));
++
++	if (tmpReg422 & BIT6) {
++		RT_TRACE(COMP_INIT, DBG_LOUD, ("SetBeamformDownloadNDPA_8814A(): There is an Adapter is sending beacon.\n"));
++		bSendBeacon = TRUE;
++	}
++
++	/*0x204[11:0]	Beacon Head for TXDMA*/
++	PlatformEFIOWrite2Byte(Adapter, REG_FIFOPAGE_CTRL_2_8814A, Head_Page);
++	
++	do {		
++		/*Clear beacon valid check bit.*/
++		BcnValidReg = PlatformEFIORead1Byte(Adapter, REG_FIFOPAGE_CTRL_2_8814A+1);
++		PlatformEFIOWrite1Byte(Adapter, REG_FIFOPAGE_CTRL_2_8814A+1, (BcnValidReg|BIT7));
++		
++		/*download NDPA rsvd page.*/
++		if (pBeamEntry->BeamformEntryCap & BEAMFORMER_CAP_VHT_SU)
++			Beamforming_SendVHTNDPAPacket(pDM_Odm, pBeamEntry->MacAddr, pBeamEntry->AID, pBeamEntry->SoundBW, BEACON_QUEUE);
++		else 
++			Beamforming_SendHTNDPAPacket(pDM_Odm, pBeamEntry->MacAddr, pBeamEntry->SoundBW, BEACON_QUEUE);
++	
++		/*check rsvd page download OK.*/
++		BcnValidReg = PlatformEFIORead1Byte(Adapter, REG_FIFOPAGE_CTRL_2_8814A + 1);
++		count = 0;
++		while (!(BcnValidReg & BIT7) && count < 20) {
++			count++;
++			delay_us(10);
++			BcnValidReg = PlatformEFIORead1Byte(Adapter, REG_FIFOPAGE_CTRL_2_8814A+2);
++		}
++		DLBcnCount++;
++	} while (!(BcnValidReg & BIT7) && DLBcnCount < 5);
++	
++	if (!(BcnValidReg & BIT0))
++		RT_DISP(FBEAM, FBEAM_ERROR, ("%s Download RSVD page failed!\n", __func__));
++
++	/*0x204[11:0]	Beacon Head for TXDMA*/
++	PlatformEFIOWrite2Byte(Adapter, REG_FIFOPAGE_CTRL_2_8814A, TxPageBndy);
++
++	/*To make sure that if there exists an adapter which would like to send beacon.*/
++	/*If exists, the origianl value of 0x422[6] will be 1, we should check this to*/
++	/*prevent from setting 0x422[6] to 0 after download reserved page, or it will cause */
++	/*the beacon cannot be sent by HW.*/
++	/*2010.06.23. Added by tynli.*/
++	if (bSendBeacon)
++		PlatformEFIOWrite1Byte(Adapter, REG_FWHW_TXQ_CTRL_8814A+2, tmpReg422);
++
++	/*Do not enable HW DMA BCN or it will cause Pcie interface hang by timing issue. 2011.11.24. by tynli.*/
++	/*Clear CR[8] or beacon packet will not be send to TxBuf anymore.*/
++	u1bTmp = PlatformEFIORead1Byte(Adapter, REG_CR_8814A+1);
++	PlatformEFIOWrite1Byte(Adapter, REG_CR_8814A+1, (u1bTmp&(~BIT0)));
++
++	pBeamEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_PROGRESSED;
++
++	pHalData->bFwDwRsvdPageInProgress = FALSE;
++}
++
++VOID
++halTxbf8822B_FwTxBFCmd(
++	IN	PADAPTER	Adapter
++	)
++{
++	u1Byte	Idx, Period = 0;
++	u1Byte	PageNum0 = 0xFF, PageNum1 = 0xFF;
++	u1Byte	u1TxBFParm[3] = {0};
++
++	PMGNT_INFO				pMgntInfo = &(Adapter->MgntInfo);
++	PRT_BEAMFORMING_INFO	pBeamInfo = GET_BEAMFORM_INFO(Adapter);
++
++	for (Idx = 0; Idx < BEAMFORMEE_ENTRY_NUM; Idx++) {
++		if (pBeamInfo->BeamformeeEntry[Idx].bUsed && pBeamInfo->BeamformeeEntry[Idx].BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++			if (pBeamInfo->BeamformeeEntry[Idx].bSound) {
++				PageNum0 = 0xFE;
++				PageNum1 = 0x07;
++				Period = (u1Byte)(pBeamInfo->BeamformeeEntry[Idx].SoundPeriod);
++			} else if (PageNum0 == 0xFF) {
++				PageNum0 = 0xFF; /*stop sounding*/
++				PageNum1 = 0x0F;
++			}
++		}
++	}
++
++	u1TxBFParm[0] = PageNum0;
++	u1TxBFParm[1] = PageNum1;
++	u1TxBFParm[2] = Period;
++	FillH2CCmd(Adapter, PHYDM_H2C_TXBF, 3, u1TxBFParm);
++	
++	RT_DISP(FBEAM, FBEAM_FUN, ("@%s End, PageNum0 = 0x%x, PageNum1 = 0x%x Period = %d", __func__, PageNum0, PageNum1, Period));
++}
++#endif
++
++VOID
++HalTxbf8822B_Init(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte		u1bTmp;
++	PRT_BEAMFORMING_INFO		pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++
++	ODM_SetBBReg(pDM_Odm, 0x14c0 , BIT16, 1); /*Enable P1 aggr new packet according to P0 transfer time*/
++	ODM_SetBBReg(pDM_Odm, 0x14c0 , BIT15|BIT14|BIT13|BIT12, 10); /*MU Retry Limit*/
++	ODM_SetBBReg(pDM_Odm, 0x14c0 , BIT7, 0); /*Disable Tx MU-MIMO until sounding done*/	
++	ODM_SetBBReg(pDM_Odm, 0x14c0 , 0x3F, 0); /* Clear validity of MU STAs */
++	ODM_Write1Byte(pDM_Odm, 0x167c , 0x70); /*MU-MIMO Option as default value*/
++	ODM_Write2Byte(pDM_Odm, 0x1680 , 0); /*MU-MIMO Control as default value*/
++
++	/* Set MU NDPA rate & BW source */
++	/* 0x42C[30] = 1 (0: from Tx desc, 1: from 0x45F) */
++	u1bTmp = ODM_Read1Byte(pDM_Odm, 0x42C);
++	ODM_Write1Byte(pDM_Odm, REG_TXBF_CTRL_8822B, (u1bTmp|BIT6));
++	/* 0x45F[7:0] = 0x10 (Rate=OFDM_6M, BW20) */
++	ODM_Write1Byte(pDM_Odm, REG_NDPA_OPT_CTRL_8822B, 0x10);
++
++	/*Temp Settings*/
++	ODM_SetBBReg(pDM_Odm, 0x6DC , 0x3F000000, 4); /*STA2's CSI rate is fixed at 6M*/
++	ODM_SetBBReg(pDM_Odm, 0x1C94 , bMaskDWord, 0xAFFFAFFF); /*Grouping bitmap parameters*/
++
++	/* Init HW variable */
++	pBeamformingInfo->RegMUTxCtrl = ODM_Read4Byte(pDM_Odm, 0x14c0);
++
++	if (pDM_Odm->RFType == ODM_2T2R) { /*2T2R*/
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: RFType is 2T2R\n", __func__));
++		config_phydm_trx_mode_8822b(pDM_Odm, (ODM_RF_PATH_E)3, (ODM_RF_PATH_E)3, TRUE);/*Tx2path*/
++	}
++
++#if (OMNIPEEK_SNIFFER_ENABLED == 1)
++	/* Config HW to receive packet on the user position from registry for sniffer mode. */
++	/* ODM_SetBBReg(pDM_Odm, 0xB00 , BIT9, 1);*/ /* For A-cut only. RegB00[9] = 1 (enable PMAC Rx) */
++	ODM_SetBBReg(pDM_Odm, 0xB54 , BIT30, 1); /* RegB54[30] = 1 (force user position) */
++	ODM_SetBBReg(pDM_Odm, 0xB54 , (BIT29|BIT28), Adapter->MgntInfo.SniffUserPosition); /* RegB54[29:28] = user position (0~3) */
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("Set Adapter->MgntInfo.SniffUserPosition=%#X\n", Adapter->MgntInfo.SniffUserPosition));
++#endif
++}
++
++VOID
++HalTxbf8822B_Enter(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				BFerBFeeIdx
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte					i = 0;
++	u1Byte					BFerIdx = (BFerBFeeIdx & 0xF0)>>4;
++	u1Byte					BFeeIdx = (BFerBFeeIdx & 0xF);
++	u2Byte					CSI_Param = 0;
++	PRT_BEAMFORMING_INFO		pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pBeamformeeEntry;
++	PRT_BEAMFORMER_ENTRY	pBeamformerEntry;
++	u2Byte					value16, STAid = 0;
++	u1Byte					Nc_index = 0, Nr_index = 0, grouping = 0, codebookinfo = 0, coefficientsize = 0;
++	u4Byte					gid_valid, user_position_l, user_position_h;
++	u4Byte					mu_reg[6] = {0x1684, 0x1686, 0x1688, 0x168a, 0x168c, 0x168e};
++	u1Byte					u1bTmp;
++	u4Byte					u4bTmp;
++	
++	RT_DISP(FBEAM, FBEAM_FUN, ("%s: BFerBFeeIdx=%d, BFerIdx=%d, BFeeIdx=%d\n", __func__, BFerBFeeIdx, BFerIdx, BFeeIdx));
++
++	/*************SU BFer Entry Init*************/
++	if ((pBeamformingInfo->beamformer_su_cnt > 0) && (BFerIdx < BEAMFORMER_ENTRY_NUM)) {
++		pBeamformerEntry = &pBeamformingInfo->BeamformerEntry[BFerIdx];
++		pBeamformerEntry->is_mu_ap = FALSE;
++		/*Sounding protocol control*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8822B, 0xDB);	
++	
++		
++		for (i = 0; i < MAX_BEAMFORMER_SU; i++) {
++			if ((pBeamformingInfo->beamformer_su_reg_maping & BIT(i)) == 0) {
++				pBeamformingInfo->beamformer_su_reg_maping |= BIT(i);
++				pBeamformerEntry->su_reg_index = i;
++				break;
++			}
++		}
++		
++		/*MAC address/Partial AID of Beamformer*/
++		if (pBeamformerEntry->su_reg_index == 0) {
++			for (i = 0; i < 6 ; i++)
++				ODM_Write1Byte(pDM_Odm, (REG_ASSOCIATED_BFMER0_INFO_8822B+i), pBeamformerEntry->MacAddr[i]);
++		} else {
++			for (i = 0; i < 6 ; i++)
++				ODM_Write1Byte(pDM_Odm, (REG_ASSOCIATED_BFMER1_INFO_8822B+i), pBeamformerEntry->MacAddr[i]);
++		}
++
++		/*CSI report parameters of Beamformer*/
++		Nc_index = halTxbf8822B_GetNrx(pDM_Odm);	/*for 8814A Nrx = 3(4 Ant), min=0(1 Ant)*/
++		Nr_index = pBeamformerEntry->NumofSoundingDim;	/*0x718[7] = 1 use Nsts, 0x718[7] = 0 use reg setting. as Bfee, we use Nsts, so Nr_index don't care*/
++		
++		grouping = 0;
++
++		/*for ac = 1, for n = 3*/
++		if (pBeamformerEntry->BeamformEntryCap & BEAMFORMEE_CAP_VHT_SU)
++			codebookinfo = 1;	
++		else if (pBeamformerEntry->BeamformEntryCap & BEAMFORMEE_CAP_HT_EXPLICIT)
++			codebookinfo = 3;	
++
++		coefficientsize = 3;
++
++		CSI_Param = (u2Byte)((coefficientsize<<10)|(codebookinfo<<8)|(grouping<<6)|(Nr_index<<3)|(Nc_index));
++
++		if (BFerIdx == 0)
++			ODM_Write2Byte(pDM_Odm, REG_TX_CSI_RPT_PARAM_BW20_8822B, CSI_Param);
++		else
++			ODM_Write2Byte(pDM_Odm, REG_TX_CSI_RPT_PARAM_BW20_8822B+2, CSI_Param);
++		/*ndp_rx_standby_timer, 8814 need > 0x56, suggest from Dvaid*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8822B+3, 0x70);
++	
++	}
++
++	/*************SU BFee Entry Init*************/
++	if ((pBeamformingInfo->beamformee_su_cnt > 0) && (BFeeIdx < BEAMFORMEE_ENTRY_NUM)) {
++		pBeamformeeEntry = &pBeamformingInfo->BeamformeeEntry[BFeeIdx];
++		pBeamformeeEntry->is_mu_sta = FALSE;
++		halTxbf8822B_RfMode(pDM_Odm, pBeamformingInfo, BFeeIdx);
++		
++		if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS))
++			STAid = pBeamformeeEntry->MacId;
++		else 
++			STAid = pBeamformeeEntry->P_AID;
++
++		for (i = 0; i < MAX_BEAMFORMEE_SU; i++) {
++			if ((pBeamformingInfo->beamformee_su_reg_maping & BIT(i)) == 0) {
++				pBeamformingInfo->beamformee_su_reg_maping |= BIT(i);
++				pBeamformeeEntry->su_reg_index = i;
++				break;
++			}
++		}
++		
++		/*P_AID of Beamformee & enable NDPA transmission & enable NDPA interrupt*/
++		if (pBeamformeeEntry->su_reg_index == 0) {	
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8822B, STAid);	
++			ODM_Write1Byte(pDM_Odm, REG_TXBF_CTRL_8822B+3, ODM_Read1Byte(pDM_Odm, REG_TXBF_CTRL_8822B+3)|BIT4|BIT6|BIT7);
++		} else {
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8822B+2, STAid | BIT14 | BIT15 | BIT12);
++		}	
++
++		/*CSI report parameters of Beamformee*/
++		if (pBeamformeeEntry->su_reg_index == 0) {
++			/*Get BIT24 & BIT25*/
++			u1Byte	tmp = ODM_Read1Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8822B+3) & 0x3;
++			
++			ODM_Write1Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8822B + 3, tmp | 0x60);
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8822B, STAid | BIT9);
++		} else		
++			ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8822B+2, STAid | 0xE200);	/*Set BIT25*/
++			
++			phydm_Beamforming_Notify(pDM_Odm);
++	}
++
++	/*************MU BFer Entry Init*************/
++	if ((pBeamformingInfo->beamformer_mu_cnt > 0) && (BFerIdx < BEAMFORMER_ENTRY_NUM)) {
++		pBeamformerEntry = &pBeamformingInfo->BeamformerEntry[BFerIdx];
++		pBeamformingInfo->mu_ap_index = BFerIdx;
++		pBeamformerEntry->is_mu_ap = TRUE;
++		for (i = 0; i < 8; i++)
++			pBeamformerEntry->gid_valid[i] = 0;
++		for (i = 0; i < 16; i++)
++			pBeamformerEntry->user_position[i] = 0;
++		
++		/*Sounding protocol control*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8822B, 0xDB);	
++
++		/* MAC address */
++		for (i = 0; i < 6 ; i++)
++			ODM_Write1Byte(pDM_Odm, (REG_ASSOCIATED_BFMER0_INFO_8822B+i), pBeamformerEntry->MacAddr[i]);
++
++		/* Set partial AID */
++		ODM_Write2Byte(pDM_Odm, (REG_ASSOCIATED_BFMER0_INFO_8822B+6), pBeamformerEntry->P_AID);
++
++		/* Fill our AID to 0x1680[11:0] and [13:12] = 2b'00, BF report segment select to 3895 bytes*/
++		u1bTmp = ODM_Read1Byte(pDM_Odm, 0x1680);
++		u1bTmp = (pBeamformerEntry->AID)&0xFFF;
++		ODM_Write1Byte(pDM_Odm, 0x1680, u1bTmp);
++
++		/* Set 80us for leaving ndp_rx_standby_state */
++		ODM_Write1Byte(pDM_Odm, 0x71B, 0x50);
++		
++		/* Set 0x6A0[14] = 1 to accept action_no_ack */
++		u1bTmp = ODM_Read1Byte(pDM_Odm, REG_RXFLTMAP0_8822B+1);
++		u1bTmp |= 0x40;
++		ODM_Write1Byte(pDM_Odm, REG_RXFLTMAP0_8822B+1, u1bTmp);
++		/* Set 0x6A2[5:4] = 1 to NDPA and BF report poll */
++		u1bTmp = ODM_Read1Byte(pDM_Odm, REG_RXFLTMAP1_8822B);
++		u1bTmp |= 0x30;
++		ODM_Write1Byte(pDM_Odm, REG_RXFLTMAP1_8822B, u1bTmp);
++		
++		/*CSI report parameters of Beamformer*/
++		Nc_index = halTxbf8822B_GetNrx(pDM_Odm);	/* Depend on RF type */
++		Nr_index = 1;	/*0x718[7] = 1 use Nsts, 0x718[7] = 0 use reg setting. as Bfee, we use Nsts, so Nr_index don't care*/
++		grouping = 0; /*no grouping*/
++		codebookinfo = 1; /*7 bit for psi, 9 bit for phi*/
++		coefficientsize = 0; /*This is nothing really matter*/ 
++		CSI_Param = (u2Byte)((coefficientsize<<10)|(codebookinfo<<8)|(grouping<<6)|(Nr_index<<3)|(Nc_index));
++		ODM_Write2Byte(pDM_Odm, 0x6F4, CSI_Param);
++
++		/*for B-Cut*/
++		ODM_SetBBReg(pDM_Odm, 0x6A0 , BIT20, 0);
++		ODM_SetBBReg(pDM_Odm, 0x688 , BIT20, 0);
++
++	}
++	

++	/*************MU BFee Entry Init*************/
++	if ((pBeamformingInfo->beamformee_mu_cnt > 0) && (BFeeIdx < BEAMFORMEE_ENTRY_NUM)) {
++		pBeamformeeEntry = &pBeamformingInfo->BeamformeeEntry[BFeeIdx];
++		pBeamformeeEntry->is_mu_sta = TRUE;
++		for (i = 0; i < MAX_BEAMFORMEE_MU; i++) {
++			if ((pBeamformingInfo->beamformee_mu_reg_maping & BIT(i)) == 0) {
++				pBeamformingInfo->beamformee_mu_reg_maping |= BIT(i);
++				pBeamformeeEntry->mu_reg_index = i;
++				break;
++			}
++		}
++
++		if (pBeamformeeEntry->mu_reg_index == 0xFF) {
++			/* There is no valid bit in beamformee_mu_reg_maping */
++			RT_DISP(FBEAM, FBEAM_FUN, ("%s: ERROR! There is no valid bit in beamformee_mu_reg_maping!\n", __func__));
++			return;
++		}
++		
++		/*User position table*/
++		switch (pBeamformeeEntry->mu_reg_index) {
++		case 0:
++			gid_valid = 0x7fe;
++			user_position_l = 0x111110;
++			user_position_h = 0x0;
++			break;
++		case 1:
++			gid_valid = 0x7f806;
++			user_position_l = 0x11000004;
++			user_position_h = 0x11;
++			break;
++		case 2:
++			gid_valid = 0x1f81818;
++			user_position_l = 0x400040;
++			user_position_h = 0x11100;
++			break;
++		case 3:
++			gid_valid = 0x1e186060;
++			user_position_l = 0x4000400;
++			user_position_h = 0x1100040;
++			break;
++		case 4:
++			gid_valid = 0x66618180;
++			user_position_l = 0x40004000;
++			user_position_h = 0x10040400;
++			break;
++		case 5:
++			gid_valid = 0x79860600;
++			user_position_l = 0x40000;
++			user_position_h = 0x4404004;
++			break;
++		}
++
++		for (i = 0; i < 8; i++) {
++			if (i < 4) {
++				pBeamformeeEntry->gid_valid[i] = (u1Byte)(gid_valid & 0xFF);
++				gid_valid = (gid_valid >> 8);
++			} else
++				pBeamformeeEntry->gid_valid[i] = 0;
++		}
++		for (i = 0; i < 16; i++) {
++			if (i < 4)
++				pBeamformeeEntry->user_position[i] = (u1Byte)((user_position_l >>(i*8)) & 0xFF);
++			else if (i < 8)
++				pBeamformeeEntry->user_position[i] = (u1Byte)((user_position_h >>((i-4)*8)) & 0xFF);
++			else
++				pBeamformeeEntry->user_position[i] = 0;
++		}
++
++		/*Sounding protocol control*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8822B, 0xDB);	
++
++		/*select MU STA table*/
++		pBeamformingInfo->RegMUTxCtrl &= ~(BIT8|BIT9|BIT10);
++		pBeamformingInfo->RegMUTxCtrl |= (pBeamformeeEntry->mu_reg_index << 8)&(BIT8|BIT9|BIT10);
++		ODM_Write4Byte(pDM_Odm, 0x14c0, pBeamformingInfo->RegMUTxCtrl);	
++		
++		ODM_SetBBReg(pDM_Odm, 0x14c4 , bMaskDWord, 0); /*Reset gid_valid table*/
++		ODM_SetBBReg(pDM_Odm, 0x14c8 , bMaskDWord, user_position_l);
++		ODM_SetBBReg(pDM_Odm, 0x14cc , bMaskDWord, user_position_h);
++
++		/*set validity of MU STAs*/		
++		pBeamformingInfo->RegMUTxCtrl &= 0xFFFFFFC0;
++		pBeamformingInfo->RegMUTxCtrl |= pBeamformingInfo->beamformee_mu_reg_maping&0x3F;
++		ODM_Write4Byte(pDM_Odm, 0x14c0, pBeamformingInfo->RegMUTxCtrl);
++
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s, RegMUTxCtrl = 0x%x, user_position_l = 0x%x, user_position_h = 0x%x\n", 
++			__func__, pBeamformingInfo->RegMUTxCtrl, user_position_l, user_position_h));
++
++		value16 = ODM_Read2Byte(pDM_Odm, mu_reg[pBeamformeeEntry->mu_reg_index]);
++		value16 &= 0xFE00; /*Clear PAID*/
++		value16 |= BIT9; /*Enable MU BFee*/
++		value16 |= pBeamformeeEntry->P_AID;
++		ODM_Write2Byte(pDM_Odm, mu_reg[pBeamformeeEntry->mu_reg_index] , value16);
++		
++		/* 0x42C[30] = 1 (0: from Tx desc, 1: from 0x45F) */
++		u1bTmp = ODM_Read1Byte(pDM_Odm, REG_TXBF_CTRL_8822B+3);
++		u1bTmp |= 0xD0; /* Set bit 28, 30, 31 to 3b'111*/
++		ODM_Write1Byte(pDM_Odm, REG_TXBF_CTRL_8822B+3, u1bTmp);
++		/* Set NDPA to 6M*/
++		ODM_Write1Byte(pDM_Odm, REG_NDPA_RATE_8822B, 0x4); 
++
++		u1bTmp = ODM_Read1Byte(pDM_Odm, REG_NDPA_OPT_CTRL_8822B);
++		u1bTmp &= 0xFC; /* Clear bit 0, 1*/
++		ODM_Write1Byte(pDM_Odm, REG_NDPA_OPT_CTRL_8822B, u1bTmp);
++
++		u4bTmp = ODM_Read4Byte(pDM_Odm, REG_SND_PTCL_CTRL_8822B);
++		u4bTmp = ((u4bTmp & 0xFF0000FF) | 0x020200); /* Set [23:8] to 0x0202*/
++		ODM_Write4Byte(pDM_Odm, REG_SND_PTCL_CTRL_8822B, u4bTmp);	
++
++		/* Set 0x6A0[14] = 1 to accept action_no_ack */
++		u1bTmp = ODM_Read1Byte(pDM_Odm, REG_RXFLTMAP0_8822B+1);
++		u1bTmp |= 0x40;
++		ODM_Write1Byte(pDM_Odm, REG_RXFLTMAP0_8822B+1, u1bTmp);
++		/* End of MAC registers setting */
++		
++		halTxbf8822B_RfMode(pDM_Odm, pBeamformingInfo, BFeeIdx);
++#if (SUPPORT_MU_BF == 1)
++		/*Special for plugfest*/
++		delay_ms(50); /* wait for 4-way handshake ending*/
++		SendSWVHTGIDMgntFrame(pDM_Odm, pBeamformeeEntry->MacAddr, BFeeIdx);
++#endif		
++
++		phydm_Beamforming_Notify(pDM_Odm);
++#if 1
++		{
++			u4Byte ctrl_info_offset, index;
++			/*Set Ctrl Info*/
++			ODM_Write2Byte(pDM_Odm, 0x140, 0x660);
++			ctrl_info_offset = 0x8000 + 32 * pBeamformeeEntry->MacId;
++			/*Reset Ctrl Info*/
++			for (index = 0; index < 8; index++)
++				ODM_Write4Byte(pDM_Odm, ctrl_info_offset + index*4, 0);
++			
++			ODM_Write4Byte(pDM_Odm, ctrl_info_offset, (pBeamformeeEntry->mu_reg_index + 1) << 16);
++			ODM_Write1Byte(pDM_Odm, 0x81, 0x80); /*RPTBUF ready*/
++
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s, MacId = %d, ctrl_info_offset = 0x%x, mu_reg_index = %x\n", 
++			__func__, pBeamformeeEntry->MacId, ctrl_info_offset, pBeamformeeEntry->mu_reg_index));
++		}
++#endif
++	}
++
++}
++
++
++VOID
++HalTxbf8822B_Leave(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMER_ENTRY	pBeamformerEntry; 
++	PRT_BEAMFORMEE_ENTRY	pBeamformeeEntry;
++	u4Byte					mu_reg[6] = {0x1684, 0x1686, 0x1688, 0x168a, 0x168c, 0x168e};
++
++	if (Idx < BEAMFORMER_ENTRY_NUM) {
++		pBeamformerEntry = &pBeamformingInfo->BeamformerEntry[Idx];
++		pBeamformeeEntry = &pBeamformingInfo->BeamformeeEntry[Idx];
++	} else
++		return;
++
++	/*Clear P_AID of Beamformee*/
++	/*Clear MAC address of Beamformer*/
++	/*Clear Associated Bfmee Sel*/
++
++	if (pBeamformerEntry->BeamformEntryCap == BEAMFORMING_CAP_NONE) {
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8822B, 0xD8);	
++		if (pBeamformerEntry->is_mu_ap == 0) { /*SU BFer */
++			if (pBeamformerEntry->su_reg_index == 0) {	
++				ODM_Write4Byte(pDM_Odm, REG_ASSOCIATED_BFMER0_INFO_8822B, 0);
++				ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMER0_INFO_8822B+4, 0);
++				ODM_Write2Byte(pDM_Odm, REG_TX_CSI_RPT_PARAM_BW20_8822B, 0);
++			} else {
++				ODM_Write4Byte(pDM_Odm, REG_ASSOCIATED_BFMER1_INFO_8822B, 0);
++				ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMER1_INFO_8822B+4, 0);
++				ODM_Write2Byte(pDM_Odm, REG_TX_CSI_RPT_PARAM_BW20_8822B+2, 0);
++			}
++			pBeamformingInfo->beamformer_su_reg_maping &= ~(BIT(pBeamformerEntry->su_reg_index));
++			pBeamformerEntry->su_reg_index = 0xFF;
++		} else { /*MU BFer */
++			/*set validity of MU STA0 and MU STA1*/
++			pBeamformingInfo->RegMUTxCtrl &= 0xFFFFFFC0;
++			ODM_Write4Byte(pDM_Odm, 0x14c0, pBeamformingInfo->RegMUTxCtrl);
++
++			ODM_Memory_Set(pDM_Odm, pBeamformerEntry->gid_valid, 0, 8);
++			ODM_Memory_Set(pDM_Odm, pBeamformerEntry->user_position, 0, 16);
++			pBeamformerEntry->is_mu_ap = FALSE;
++		}
++	}
++
++	if (pBeamformeeEntry->BeamformEntryCap == BEAMFORMING_CAP_NONE) {
++		halTxbf8822B_RfMode(pDM_Odm, pBeamformingInfo, Idx);
++		if (pBeamformeeEntry->is_mu_sta == 0) { /*SU BFee*/
++			if (pBeamformeeEntry->su_reg_index == 0) {	
++				ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8822B, 0x0);	
++				ODM_Write1Byte(pDM_Odm, REG_TXBF_CTRL_8822B+3, ODM_Read1Byte(pDM_Odm, REG_TXBF_CTRL_8822B+3)|BIT4|BIT6|BIT7);
++				ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8822B, 0);
++			} else {
++				ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8822B+2, 0x0 | BIT14 | BIT15 | BIT12);
++
++				ODM_Write2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8822B+2, 
++				ODM_Read2Byte(pDM_Odm, REG_ASSOCIATED_BFMEE_SEL_8822B+2) & 0x60);
++			}
++			pBeamformingInfo->beamformee_su_reg_maping &= ~(BIT(pBeamformeeEntry->su_reg_index));
++			pBeamformeeEntry->su_reg_index = 0xFF;
++		} else { /*MU BFee */
++			/*Disable sending NDPA & BF-rpt-poll to this BFee*/
++			ODM_Write2Byte(pDM_Odm, mu_reg[pBeamformeeEntry->mu_reg_index] , 0);
++			/*set validity of MU STA*/
++			pBeamformingInfo->RegMUTxCtrl &= ~(BIT(pBeamformeeEntry->mu_reg_index));
++			ODM_Write4Byte(pDM_Odm, 0x14c0, pBeamformingInfo->RegMUTxCtrl);
++
++			
++			pBeamformeeEntry->is_mu_sta = FALSE;
++			pBeamformingInfo->beamformee_mu_reg_maping &= ~(BIT(pBeamformeeEntry->mu_reg_index));
++			pBeamformeeEntry->mu_reg_index = 0xFF;
++		}
++	}
++}
++
++
++/***********SU & MU BFee Entry Only when souding done****************/
++VOID
++HalTxbf8822B_Status(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u2Byte					BeamCtrlVal, tmpVal;
++	u4Byte					BeamCtrlReg;
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry;
++	BOOLEAN	is_mu_sounding = pBeamformingInfo->is_mu_sounding, is_bitmap_ready = FALSE;
++	u16 bitmap;
++	u8 idx, gid, i;
++	u8 id1, id0;
++	u32 gid_valid[6] = {0};
++	u32 user_position_lsb[6] = {0};
++	u32 user_position_msb[6] = {0};
++	u32 value32;
++	BOOLEAN is_sounding_success[6] = {FALSE};
++
++	if (Idx < BEAMFORMEE_ENTRY_NUM)
++		pBeamformEntry = &pBeamformingInfo->BeamformeeEntry[Idx];
++	else
++		return;
++	
++	/*SU sounding done */
++	if (is_mu_sounding == FALSE) {
++
++		if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS))
++			BeamCtrlVal = pBeamformEntry->MacId;
++		else 
++			BeamCtrlVal = pBeamformEntry->P_AID;
++
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s, BeamformEntry.BeamformEntryState = %d", __func__, pBeamformEntry->BeamformEntryState));
++
++		if (pBeamformEntry->su_reg_index == 0) {
++			BeamCtrlReg = REG_TXBF_CTRL_8822B;
++		} else {
++			BeamCtrlReg = REG_TXBF_CTRL_8822B+2;
++			BeamCtrlVal |= BIT12|BIT14|BIT15;
++		}
++
++		if (pBeamformEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++			if (pBeamformEntry->SoundBW == CHANNEL_WIDTH_20)
++				BeamCtrlVal |= BIT9;
++			else if (pBeamformEntry->SoundBW == CHANNEL_WIDTH_40)
++				BeamCtrlVal |= (BIT9|BIT10);
++			else if (pBeamformEntry->SoundBW == CHANNEL_WIDTH_80)
++				BeamCtrlVal |= (BIT9|BIT10|BIT11);		
++		} else {
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s, Don't apply Vmatrix",  __func__));
++			BeamCtrlVal &= ~(BIT9|BIT10|BIT11);
++		}
++
++		ODM_Write2Byte(pDM_Odm, BeamCtrlReg, BeamCtrlVal);
++		/*disable NDP packet use beamforming */
++		tmpVal = ODM_Read2Byte(pDM_Odm, REG_TXBF_CTRL_8822B);
++		ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8822B, tmpVal|BIT15);
++	} else {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s, MU Sounding Done\n",  __func__));
++		/*MU sounding done */
++		if (1){//(pBeamformEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s, BEAMFORMING_ENTRY_STATE_PROGRESSED\n",  __func__));
++
++			value32 = ODM_GetBBReg(pDM_Odm, 0x1684, bMaskDWord);
++			is_sounding_success[0] = (value32 & BIT10)?1:0;
++			is_sounding_success[1] = (value32 & BIT26)?1:0;
++			value32 = ODM_GetBBReg(pDM_Odm, 0x1688, bMaskDWord);
++			is_sounding_success[2] = (value32 & BIT10)?1:0;
++			is_sounding_success[3] = (value32 & BIT26)?1:0;
++			value32 = ODM_GetBBReg(pDM_Odm, 0x168C, bMaskDWord);
++			is_sounding_success[4] = (value32 & BIT10)?1:0;
++			is_sounding_success[5] = (value32 & BIT26)?1:0;
++
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("@%s, is_sounding_success STA1:%d,  STA2:%d, STA3:%d, STA4:%d, STA5:%d, STA6:%d\n", 
++				__func__, is_sounding_success[0], is_sounding_success[1] , is_sounding_success[2] , is_sounding_success[3] , is_sounding_success[4] , is_sounding_success[5] ));
++			
++			value32 = ODM_GetBBReg(pDM_Odm, 0xF4C, 0xFFFF0000);
++			//ODM_SetBBReg(pDM_Odm, 0x19E0, bMaskHWord, 0xFFFF);/*Let MAC ignore bitmap*/
++			
++			is_bitmap_ready = (BOOLEAN)((value32 & BIT15) >> 15);
++			bitmap = (u16)(value32 & 0x3FFF);
++		
++			for (idx = 0; idx < 15; idx++) {
++				if (idx < 5) {/*bit0~4*/
++					id0 = 0;
++					id1 = (u8)(idx + 1);
++				} else if (idx < 9) { /*bit5~8*/
++					id0 = 1;
++					id1 = (u8)(idx - 3);
++				} else if (idx < 12) { /*bit9~11*/
++					id0 = 2;
++					id1 = (u8)(idx - 6);
++				} else if (idx < 14) { /*bit12~13*/	
++					id0 = 3;
++					id1 = (u8)(idx - 8);
++				} else { /*bit14*/
++					id0 = 4;
++					id1 = (u8)(idx - 9);
++				}
++				if (bitmap & BIT(idx)) {
++					/*Pair 1*/
++					gid = (idx << 1) + 1;
++					gid_valid[id0] |= (BIT(gid));
++					gid_valid[id1] |= (BIT(gid));
++					/*Pair 2*/
++					gid += 1;
++					gid_valid[id0] |= (BIT(gid));
++					gid_valid[id1] |= (BIT(gid));
++				} else {
++					/*Pair 1*/
++					gid = (idx << 1) + 1;
++					gid_valid[id0] &= ~(BIT(gid));
++					gid_valid[id1] &= ~(BIT(gid));
++					/*Pair 2*/
++					gid += 1;
++					gid_valid[id0] &= ~(BIT(gid));
++					gid_valid[id1] &= ~(BIT(gid));
++				}
++			}
++
++			for (i = 0; i < BEAMFORMEE_ENTRY_NUM; i++) {
++				pBeamformEntry = &pBeamformingInfo->BeamformeeEntry[i];
++				if ((pBeamformEntry->is_mu_sta) && (pBeamformEntry->mu_reg_index < 6)) {
++					value32 = gid_valid[pBeamformEntry->mu_reg_index];
++					for (idx = 0; idx < 4; idx++) {
++						pBeamformEntry->gid_valid[idx] = (u8)(value32 & 0xFF);
++						value32 = (value32 >> 8);
++					}
++				}
++			}
++
++			for (idx = 0; idx < 6; idx++) {
++				pBeamformingInfo->RegMUTxCtrl &= ~(BIT8|BIT9|BIT10);
++				pBeamformingInfo->RegMUTxCtrl |= ((idx<<8)&(BIT8|BIT9|BIT10));
++				ODM_Write4Byte(pDM_Odm, 0x14c0, pBeamformingInfo->RegMUTxCtrl);
++				ODM_SetMACReg(pDM_Odm, 0x14C4, bMaskDWord, gid_valid[idx]); /*set MU STA gid valid table*/
++			}
++
++			/*Enable TxMU PPDU*/
++			if (pBeamformingInfo->dbg_disable_mu_tx == FALSE)
++				pBeamformingInfo->RegMUTxCtrl |= BIT7;
++			else
++				pBeamformingInfo->RegMUTxCtrl &= ~BIT7;
++			ODM_Write4Byte(pDM_Odm, 0x14c0, pBeamformingInfo->RegMUTxCtrl);
++		}
++	}
++}
++
++/*Only used for MU BFer Entry when get GID management frame (self is as MU STA)*/
++VOID
++HalTxbf8822B_ConfigGtab(
++	IN PVOID			pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMER_ENTRY	pBeamformerEntry = NULL;
++	u4Byte		gid_valid = 0, user_position_l = 0, user_position_h = 0, i;
++
++	if (pBeamformingInfo->mu_ap_index < BEAMFORMER_ENTRY_NUM)
++		pBeamformerEntry = &pBeamformingInfo->BeamformerEntry[pBeamformingInfo->mu_ap_index];
++	else
++		return;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s==>\n", __func__));
++
++	/*For GID 0~31*/
++	for (i = 0; i < 4; i++)
++		gid_valid |= (pBeamformerEntry->gid_valid[i] << (i<<3));
++	for (i = 0; i < 8; i++) {
++		if (i < 4)
++			user_position_l |= (pBeamformerEntry->user_position[i] << (i << 3));
++		else
++			user_position_h |= (pBeamformerEntry->user_position[i] << ((i - 4)<<3));
++	}
++	/*select MU STA0 table*/
++	pBeamformingInfo->RegMUTxCtrl &= ~(BIT8|BIT9|BIT10);
++	ODM_Write4Byte(pDM_Odm, 0x14c0, pBeamformingInfo->RegMUTxCtrl);
++	ODM_SetBBReg(pDM_Odm, 0x14c4, bMaskDWord, gid_valid); 
++	ODM_SetBBReg(pDM_Odm, 0x14c8, bMaskDWord, user_position_l);
++	ODM_SetBBReg(pDM_Odm, 0x14cc, bMaskDWord, user_position_h);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: STA0: gid_valid = 0x%x, user_position_l = 0x%x, user_position_h = 0x%x\n",
++		__func__, gid_valid, user_position_l, user_position_h));
++
++	gid_valid = 0;
++	user_position_l = 0;
++	user_position_h = 0;
++
++	/*For GID 32~64*/
++	for (i = 4; i < 8; i++)
++		gid_valid |= (pBeamformerEntry->gid_valid[i] << ((i - 4)<<3));
++	for (i = 8; i < 16; i++) {
++		if (i < 4)
++			user_position_l |= (pBeamformerEntry->user_position[i] << ((i - 8) << 3));
++		else
++			user_position_h |= (pBeamformerEntry->user_position[i] << ((i - 12) << 3));
++	}
++	/*select MU STA1 table*/
++	pBeamformingInfo->RegMUTxCtrl &= ~(BIT8|BIT9|BIT10);
++	pBeamformingInfo->RegMUTxCtrl |= BIT8;
++	ODM_Write4Byte(pDM_Odm, 0x14c0, pBeamformingInfo->RegMUTxCtrl);
++	ODM_SetBBReg(pDM_Odm, 0x14c4, bMaskDWord, gid_valid); 
++	ODM_SetBBReg(pDM_Odm, 0x14c8, bMaskDWord, user_position_l);
++	ODM_SetBBReg(pDM_Odm, 0x14cc, bMaskDWord, user_position_h);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s: STA1: gid_valid = 0x%x, user_position_l = 0x%x, user_position_h = 0x%x\n",
++		__func__, gid_valid, user_position_l, user_position_h));
++
++	/* Set validity of MU STA0 and MU STA1*/
++	pBeamformingInfo->RegMUTxCtrl &= 0xFFFFFFC0;
++	pBeamformingInfo->RegMUTxCtrl |= 0x3; /* STA0, STA1*/
++	ODM_Write4Byte(pDM_Odm, 0x14c0, pBeamformingInfo->RegMUTxCtrl);
++	
++}
++
++
++
++#if 0
++/*This function translate the bitmap to GTAB*/
++VOID
++haltxbf8822b_gtab_translation(
++	IN PDM_ODM_T			pDM_Odm
++) 
++{
++	u8 idx, gid;
++	u8 id1, id0;
++	u32 gid_valid[6] = {0};
++	u32 user_position_lsb[6] = {0};
++	u32 user_position_msb[6] = {0};
++	
++	for (idx = 0; idx < 15; idx++) {
++		if (idx < 5) {/*bit0~4*/
++			id0 = 0;
++			id1 = (u8)(idx + 1);
++		} else if (idx < 9) { /*bit5~8*/
++			id0 = 1;
++			id1 = (u8)(idx - 3);
++		} else if (idx < 12) { /*bit9~11*/
++			id0 = 2;
++			id1 = (u8)(idx - 6);
++		} else if (idx < 14) { /*bit12~13*/	
++			id0 = 3;
++			id1 = (u8)(idx - 8);
++		} else { /*bit14*/
++			id0 = 4;
++			id1 = (u8)(idx - 9);
++		}
++
++		/*Pair 1*/
++		gid = (idx << 1) + 1;
++		gid_valid[id0] |= (1 << gid);
++		gid_valid[id1] |= (1 << gid);
++		if (gid < 16) {
++			/*user_position_lsb[id0] |= (0 << (gid << 1));*/
++			user_position_lsb[id1] |= (1 << (gid << 1));
++		} else {
++			/*user_position_msb[id0] |= (0 << ((gid - 16) << 1));*/
++			user_position_msb[id1] |= (1 << ((gid - 16) << 1));
++		}
++		
++		/*Pair 2*/
++		gid += 1;
++		gid_valid[id0] |= (1 << gid);
++		gid_valid[id1] |= (1 << gid);
++		if (gid < 16) {
++			user_position_lsb[id0] |= (1 << (gid << 1));
++			/*user_position_lsb[id1] |= (0 << (gid << 1));*/
++		} else {
++			user_position_msb[id0] |= (1 << ((gid - 16) << 1));
++			/*user_position_msb[id1] |= (0 << ((gid - 16) << 1));*/
++		}
++
++	}
++
++
++	for (idx = 0; idx < 6; idx++) {
++		/*DbgPrint("gid_valid[%d] = 0x%x\n", idx, gid_valid[idx]);
++		DbgPrint("user_position[%d] = 0x%x   %x\n", idx, user_position_msb[idx], user_position_lsb[idx]);*/
++	}
++}
++#endif
++
++VOID
++HalTxbf8822B_FwTxBF(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++	)
++{
++#if 0
++	PRT_BEAMFORMING_INFO 	pBeamInfo = GET_BEAMFORM_INFO(Adapter);
++	PRT_BEAMFORMEE_ENTRY	pBeamEntry = pBeamInfo->BeamformeeEntry+Idx;
++
++	if (pBeamEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSING)
++		halTxbf8822B_DownloadNDPA(Adapter, Idx);
++
++	halTxbf8822B_FwTxBFCmd(Adapter);
++#endif
++}
++
++
++/*this function is only used for BFer*/
++VOID
++phydm_8822btxbf_rfmode(
++	IN PVOID		pDM_VOID,
++	IN u1Byte	SUBFeeCnt,
++	IN u1Byte	MUBFeeCnt
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte		i, Nr_index = 0;
++
++	if (pDM_Odm->RFType == ODM_1T1R)
++		return;
++
++	if ((SUBFeeCnt > 0) || (MUBFeeCnt > 0)) {
++		for (i = ODM_RF_PATH_A; i <= ODM_RF_PATH_B; i++) {
++			ODM_SetRFReg(pDM_Odm, i, 0xEF, BIT19, 0x1); /*RF Mode table write enable*/
++			ODM_SetRFReg(pDM_Odm, i, 0x33, 0xF, 3); /*Select RX mode*/
++			ODM_SetRFReg(pDM_Odm, i, 0x3E, 0xfffff, 0x00036); /*Set Table data*/	
++			ODM_SetRFReg(pDM_Odm, i, 0x3F, 0xfffff, 0x5AFCE); /*Set Table data*/
++			ODM_SetRFReg(pDM_Odm, i, 0xEF, BIT19, 0x0); /*RF Mode table write disable*/
++		}
++	}
++
++	if (SUBFeeCnt > 0 || MUBFeeCnt > 0) {
++		/*for 8814 19ac(idx 1), 19b4(idx 0), different Tx ant setting*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8822B, BIT28|BIT29, 0x2);	/*enable BB TxBF ant mapping register*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8822B, BIT31, 1);			/*ignore user since 8822B only 2Tx*/
++		
++		/*Nsts = 2	AB*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8822B, 0xffff, 0x0433);
++		ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8822B, 0xfff00000, 0x043);
++
++	} else {
++		ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8822B, BIT28|BIT29, 0x0);	/*enable BB TxBF ant mapping register*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TXBF_ANT_SET_BF1_8822B, BIT31, 0);			/*ignore user since 8822B only 2Tx*/
++		
++		ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_1_8822B, 0xfff00000, 0x1); /*1SS by path-A*/
++		ODM_SetBBReg(pDM_Odm, REG_BB_TX_PATH_SEL_2_8822B, bMaskLWord, 0x430); /*2SS by path-A,B*/
++	}
++
++}
++
++
++/*this function is for BFer bug workaround*/
++VOID
++phydm_8822b_sutxbfer_workaroud(
++	IN PVOID		pDM_VOID,
++	IN BOOLEAN	EnableSUBfer,
++	IN u1Byte	Nc,
++	IN u1Byte	Nr,
++	IN u1Byte	Ng,
++	IN u1Byte	CB,
++	IN u1Byte	BW,
++	IN BOOLEAN	isVHT
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	if (EnableSUBfer) {
++		ODM_SetBBReg(pDM_Odm, 0x19f8, BIT22|BIT21|BIT20, 0x1);
++		ODM_SetBBReg(pDM_Odm, 0x19f8, BIT25|BIT24|BIT23, 0x0);
++		ODM_SetBBReg(pDM_Odm, 0x19f8, BIT16, 0x1);
++
++		if (isVHT)
++			ODM_SetBBReg(pDM_Odm, 0x19f0, BIT5|BIT4|BIT3|BIT2|BIT1|BIT0, 0x1f);
++		else
++			ODM_SetBBReg(pDM_Odm, 0x19f0, BIT5|BIT4|BIT3|BIT2|BIT1|BIT0, 0x22);
++		
++		ODM_SetBBReg(pDM_Odm, 0x19f0, BIT7|BIT6, Nc);
++		ODM_SetBBReg(pDM_Odm, 0x19f0, BIT9|BIT8, Nr);
++		ODM_SetBBReg(pDM_Odm, 0x19f0, BIT11|BIT10, Ng);
++		ODM_SetBBReg(pDM_Odm, 0x19f0, BIT13|BIT12, CB);
++
++		ODM_SetBBReg(pDM_Odm, 0xb58, BIT3|BIT2, BW);
++		ODM_SetBBReg(pDM_Odm, 0xb58, BIT7|BIT6|BIT5|BIT4, 0x0);
++		ODM_SetBBReg(pDM_Odm, 0xb58, BIT9|BIT8, BW);
++		ODM_SetBBReg(pDM_Odm, 0xb58, BIT13|BIT12|BIT11|BIT10, 0x0);
++	} else
++		ODM_SetBBReg(pDM_Odm, 0x19f8, BIT16, 0x0);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_TRACE, ("[%s] EnableSUBfer = %d, isVHT = %d\n", __func__, EnableSUBfer, isVHT));
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_TRACE, ("[%s] Nc = %d, Nr = %d, Ng = %d, CB = %d, BW = %d\n", __func__, Nc, Nr, Ng, CB, BW));
++	
++
++}
++
++
++
++
++#else	/* (RTL8822B_SUPPORT == 1)*/
++
++#endif	/* (RTL8822B_SUPPORT == 1)*/
++
++#endif 
++
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbf8822b.h b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbf8822b.h
+new file mode 100644
+index 0000000..d90b360
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbf8822b.h
+@@ -0,0 +1,73 @@
++#ifndef __HAL_TXBF_8822B_H__
++#define __HAL_TXBF_8822B_H__
++#if (BEAMFORMING_SUPPORT == 1)
++#if (RTL8822B_SUPPORT == 1)
++
++VOID
++HalTxbf8822B_Init(
++	IN PVOID			pDM_VOID
++	);
++
++VOID
++HalTxbf8822B_Enter(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbf8822B_Leave(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbf8822B_Status(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++VOID
++HalTxbf8822B_ConfigGtab(
++	IN PVOID			pDM_VOID
++	);
++
++VOID
++HalTxbf8822B_FwTxBF(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++	);
++
++VOID
++phydm_8822btxbf_rfmode(
++	IN PVOID		pDM_VOID,
++	IN u1Byte	SUBFeeCnt,
++	IN u1Byte	MUBFeeCnt
++	);
++
++VOID
++phydm_8822b_sutxbfer_workaroud(
++	IN PVOID		pDM_VOID,
++	IN BOOLEAN	EnableSUBfer,
++	IN u1Byte	Nc,
++	IN u1Byte	Nr,
++	IN u1Byte	Ng,
++	IN u1Byte	CB,
++	IN u1Byte	BW,
++	IN BOOLEAN	isVHT
++	);
++
++#else
++#define HalTxbf8822B_Init(pDM_VOID)		
++#define HalTxbf8822B_Enter(pDM_VOID, Idx)
++#define HalTxbf8822B_Leave(pDM_VOID, Idx)
++#define HalTxbf8822B_Status(pDM_VOID, Idx)
++#define HalTxbf8822B_FwTxBF(pDM_VOID, Idx)
++#define HalTxbf8822B_ConfigGtab(pDM_VOID)
++#endif
++
++
++#endif
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbfinterface.c b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbfinterface.c
+new file mode 100644
+index 0000000..4fbad2d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbfinterface.c
+@@ -0,0 +1,1502 @@
++//============================================================
++// Description:
++//
++// This file is for TXBF interface mechanism
++//
++//============================================================
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#if (BEAMFORMING_SUPPORT == 1)
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++Beamforming_GidPAid(
++	PADAPTER	Adapter,
++	PRT_TCB		pTcb
++)
++{
++	u1Byte		Idx = 0;
++	u1Byte		RA[6] ={0};
++	pu1Byte		pHeader = GET_FRAME_OF_FIRST_FRAG(Adapter, pTcb);
++	HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T				pDM_Odm = &pHalData->DM_OutSrc;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++
++	if (Adapter->HardwareType < HARDWARE_TYPE_RTL8192EE)
++		return;
++	else if (IS_WIRELESS_MODE_N(Adapter) == FALSE)
++		return;
++
++#if (SUPPORT_MU_BF == 1)
++	if (pTcb->TxBFPktType == RT_BF_PKT_TYPE_BROADCAST_NDPA) { /* MU NDPA */
++#else
++	if (0) {
++#endif
++		/* Fill G_ID and P_AID */
++		pTcb->G_ID = 63;
++		if (pBeamInfo->FirstMUBFeeIndex < BEAMFORMEE_ENTRY_NUM) {
++			pTcb->P_AID = pBeamInfo->BeamformeeEntry[pBeamInfo->FirstMUBFeeIndex].P_AID;			
++			RT_DISP(FBEAM, FBEAM_FUN, ("[David]@%s End, G_ID=0x%X, P_AID=0x%X\n", __func__, pTcb->G_ID, pTcb->P_AID));
++		}
++	} else {
++		GET_80211_HDR_ADDRESS1(pHeader, &RA);
++
++		// VHT SU PPDU carrying one or more group addressed MPDUs or
++		// Transmitting a VHT NDP intended for multiple recipients
++		if (MacAddr_isBcst(RA) || MacAddr_isMulticast(RA)	|| pTcb->macId == MAC_ID_STATIC_FOR_BROADCAST_MULTICAST) {
++			pTcb->G_ID = 63;
++			pTcb->P_AID = 0;
++		} else if (ACTING_AS_AP(Adapter)) {
++			u2Byte	AID = (u2Byte) (MacIdGetOwnerAssociatedClientAID(Adapter, pTcb->macId) & 0x1ff);		/*AID[0:8]*/
++	
++			/*RT_DISP(FBEAM, FBEAM_FUN, ("@%s  pTcb->macId=0x%X, AID=0x%X\n", __func__, pTcb->macId, AID));*/
++			pTcb->G_ID = 63;
++
++			if (AID == 0)		/*A PPDU sent by an AP to a non associated STA*/
++				pTcb->P_AID = 0;
++			else {				/*Sent by an AP and addressed to a STA associated with that AP*/
++				u2Byte	BSSID = 0;
++				GET_80211_HDR_ADDRESS2(pHeader, &RA);
++				BSSID = ((RA[5] & 0xf0) >> 4) ^ (RA[5] & 0xf);	/*BSSID[44:47] xor BSSID[40:43]*/
++				pTcb->P_AID = (AID + BSSID *32) & 0x1ff;		/*(dec(A) + dec(B)*32) mod 512*/
++			}
++		} else if (ACTING_AS_IBSS(Adapter)) {
++			pTcb->G_ID = 63;
++			/*P_AID for infrasturcture mode; MACID for ad-hoc mode. */
++			pTcb->P_AID = pTcb->macId;
++		} else if (MgntLinkStatusQuery(Adapter)) {				/*Addressed to AP*/
++			pTcb->G_ID = 0;
++			GET_80211_HDR_ADDRESS1(pHeader, &RA);
++			pTcb->P_AID =  RA[5];							/*RA[39:47]*/
++			pTcb->P_AID = (pTcb->P_AID << 1) | (RA[4] >> 7 );
++		} else {
++			pTcb->G_ID = 63;
++			pTcb->P_AID = 0;
++		}
++		/*RT_DISP(FBEAM, FBEAM_FUN, ("[David]@%s End, G_ID=0x%X, P_AID=0x%X\n", __func__, pTcb->G_ID, pTcb->P_AID));*/
++	}
++}
++
++
++RT_STATUS
++Beamforming_GetReportFrame(
++	IN	PADAPTER		Adapter,
++	IN	PRT_RFD			pRfd,
++	IN	POCTET_STRING	pPduOS
++	)
++{
++	HAL_DATA_TYPE				*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T					pDM_Odm = &pHalData->DM_OutSrc;
++	PRT_BEAMFORMEE_ENTRY		pBeamformEntry = NULL;
++	pu1Byte						pMIMOCtrlField, pCSIReport, pCSIMatrix;
++	u1Byte						Idx, Nc, Nr, CH_W;
++	u2Byte						CSIMatrixLen = 0;
++
++	ACT_PKT_TYPE				pktType = ACT_PKT_TYPE_UNKNOWN;
++
++	//Memory comparison to see if CSI report is the same with previous one
++	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, Frame_Addr2(*pPduOS), &Idx);
++
++	if (pBeamformEntry == NULL) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("Beamforming_GetReportFrame: Cannot find entry by addr\n"));
++		return RT_STATUS_FAILURE;
++	}
++
++	pktType = PacketGetActionFrameType(pPduOS);
++	
++	//-@ Modified by David
++	if (pktType == ACT_PKT_VHT_COMPRESSED_BEAMFORMING) {
++		pMIMOCtrlField = pPduOS->Octet + 26; 
++		Nc = ((*pMIMOCtrlField) & 0x7) + 1;
++		Nr = (((*pMIMOCtrlField) & 0x38) >> 3) + 1;
++		CH_W =  (((*pMIMOCtrlField) & 0xC0) >> 6);
++		pCSIMatrix = pMIMOCtrlField + 3 + Nc; //24+(1+1+3)+2  MAC header+(Category+ActionCode+MIMOControlField) +SNR(Nc=2)
++		CSIMatrixLen = pPduOS->Length  - 26 -3 -Nc;
++	} else if (pktType == ACT_PKT_HT_COMPRESSED_BEAMFORMING) {
++		pMIMOCtrlField = pPduOS->Octet + 26; 
++		Nc = ((*pMIMOCtrlField) & 0x3) + 1;
++		Nr =  (((*pMIMOCtrlField) & 0xC) >> 2) + 1;
++		CH_W =  (((*pMIMOCtrlField) & 0x10) >> 4);
++		pCSIMatrix = pMIMOCtrlField + 6 + Nr;	//24+(1+1+6)+2  MAC header+(Category+ActionCode+MIMOControlField) +SNR(Nc=2)
++		CSIMatrixLen = pPduOS->Length  - 26 -6 -Nr;
++	} else
++		return RT_STATUS_SUCCESS;	
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] idx=%d, pkt type=%d, Nc=%d, Nr=%d, CH_W=%d\n", __func__, Idx, pktType, Nc, Nr, CH_W));		
++
++	return RT_STATUS_SUCCESS;
++}
++
++
++VOID
++ConstructHTNDPAPacket(
++	PADAPTER		Adapter,
++	pu1Byte			RA,
++	pu1Byte			Buffer,
++	pu4Byte			pLength,
++	CHANNEL_WIDTH	BW
++	)
++{
++	u2Byte					Duration= 0;
++	PMGNT_INFO				pMgntInfo = &(Adapter->MgntInfo);
++	OCTET_STRING			pNDPAFrame,ActionContent;
++	u1Byte					ActionHdr[4] = {ACT_CAT_VENDOR, 0x00, 0xe0, 0x4c};
++
++	PlatformZeroMemory(Buffer, 32);
++
++	SET_80211_HDR_FRAME_CONTROL(Buffer,0);
++
++	SET_80211_HDR_ORDER(Buffer, 1);
++	SET_80211_HDR_TYPE_AND_SUBTYPE(Buffer,Type_Action_No_Ack);
++
++	SET_80211_HDR_ADDRESS1(Buffer, RA);
++	SET_80211_HDR_ADDRESS2(Buffer, Adapter->CurrentAddress);
++	SET_80211_HDR_ADDRESS3(Buffer, pMgntInfo->Bssid);
++
++	Duration = 2*aSifsTime + 40;
++	
++	if (BW == CHANNEL_WIDTH_40)
++		Duration+= 87;
++	else	
++		Duration+= 180;
++
++	SET_80211_HDR_DURATION(Buffer, Duration);
++
++	//HT control field
++	SET_HT_CTRL_CSI_STEERING(Buffer+sMacHdrLng, 3);
++	SET_HT_CTRL_NDP_ANNOUNCEMENT(Buffer+sMacHdrLng, 1);
++	
++	FillOctetString(pNDPAFrame, Buffer, sMacHdrLng+sHTCLng);
++
++	FillOctetString(ActionContent, ActionHdr, 4);
++	PacketAppendData(&pNDPAFrame, ActionContent);	
++
++	*pLength = 32;
++}
++
++
++
++
++BOOLEAN
++SendFWHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++	PRT_TCB 				pTcb;
++	PRT_TX_LOCAL_BUFFER 	pBuf;
++	BOOLEAN 				ret = TRUE;
++	u4Byte					BufLen;
++	pu1Byte					BufAddr;
++	u1Byte					DescLen = 0, Idx = 0, NDPTxRate;
++	PADAPTER				pDefAdapter = GetDefaultAdapter(Adapter);
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(Adapter);
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pBeamformEntry == NULL)
++		return FALSE;
++
++	NDPTxRate = Beamforming_GetHTNDPTxRate(pDM_Odm, pBeamformEntry->CompSteeringNumofBFer);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] NDPTxRate =%d\n", __func__, NDPTxRate));
++	PlatformAcquireSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (MgntGetFWBuffer(pDefAdapter, &pTcb, &pBuf)) {
++#if(DEV_BUS_TYPE != RT_PCI_INTERFACE)
++		DescLen = Adapter->HWDescHeadLength - pHalData->USBALLDummyLength;
++#endif
++		BufAddr = pBuf->Buffer.VirtualAddress + DescLen;
++
++		ConstructHTNDPAPacket(
++				Adapter, 
++				RA,
++				BufAddr, 
++				&BufLen,
++				BW
++				);
++
++		pTcb->PacketLength = BufLen + DescLen;
++
++		pTcb->bTxEnableSwCalcDur = TRUE;
++		
++		pTcb->BWOfPacket = BW;
++
++		if(ACTING_AS_IBSS(Adapter) || ACTING_AS_AP(Adapter))
++			pTcb->G_ID = 63;
++
++		pTcb->P_AID = pBeamformEntry->P_AID;
++		pTcb->DataRate = NDPTxRate;	/*rate of NDP decide by Nr*/
++
++		Adapter->HalFunc.CmdSendPacketHandler(Adapter, pTcb, pBuf, pTcb->PacketLength, DESC_PACKET_TYPE_NORMAL, FALSE);
++	} else
++		ret = FALSE;
++
++	PlatformReleaseSpinLock(Adapter, RT_TX_SPINLOCK);
++	
++	if (ret)
++		RT_DISP_DATA(FBEAM, FBEAM_DATA, "", pBuf->Buffer.VirtualAddress, pTcb->PacketLength);
++
++	return ret;
++}
++
++
++BOOLEAN
++SendSWHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++	PRT_TCB					pTcb;
++	PRT_TX_LOCAL_BUFFER		pBuf;
++	BOOLEAN					ret = TRUE;
++	u1Byte					Idx = 0, NDPTxRate = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	NDPTxRate = Beamforming_GetHTNDPTxRate(pDM_Odm, pBeamformEntry->CompSteeringNumofBFer);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] NDPTxRate =%d\n", __func__, NDPTxRate));
++	
++	PlatformAcquireSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (MgntGetBuffer(Adapter, &pTcb, &pBuf)) {
++		ConstructHTNDPAPacket(
++				Adapter, 
++				RA,
++				pBuf->Buffer.VirtualAddress, 
++				&pTcb->PacketLength,
++				BW
++				);
++
++		pTcb->bTxEnableSwCalcDur = TRUE;
++
++		pTcb->BWOfPacket = BW;
++
++		MgntSendPacket(Adapter, pTcb, pBuf, pTcb->PacketLength, NORMAL_QUEUE, NDPTxRate);
++	} else
++		ret = FALSE;
++	
++	PlatformReleaseSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (ret)
++		RT_DISP_DATA(FBEAM, FBEAM_DATA, "", pBuf->Buffer.VirtualAddress, pTcb->PacketLength);
++
++	return ret;
++}
++
++
++
++VOID
++ConstructVHTNDPAPacket(
++	IN PDM_ODM_T	pDM_Odm,
++	pu1Byte			RA,
++	u2Byte			AID,
++	pu1Byte			Buffer,
++	pu4Byte			pLength,
++	CHANNEL_WIDTH	BW
++	)
++{
++	u2Byte					Duration= 0;
++	u1Byte					Sequence = 0;
++	pu1Byte					pNDPAFrame = Buffer;
++	RT_NDPA_STA_INFO		STAInfo;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++	u1Byte	Idx = 0;
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++	// Frame control.
++	SET_80211_HDR_FRAME_CONTROL(pNDPAFrame, 0);
++	SET_80211_HDR_TYPE_AND_SUBTYPE(pNDPAFrame, Type_NDPA);
++
++	SET_80211_HDR_ADDRESS1(pNDPAFrame, RA);
++	SET_80211_HDR_ADDRESS2(pNDPAFrame, pBeamformEntry->MyMacAddr);
++
++	Duration = 2*aSifsTime + 44;
++	
++	if (BW == CHANNEL_WIDTH_80)
++		Duration += 40;
++	else if(BW == CHANNEL_WIDTH_40)
++		Duration+= 87;
++	else	
++		Duration+= 180;
++
++	SET_80211_HDR_DURATION(pNDPAFrame, Duration);
++
++	Sequence = *(pDM_Odm->pSoundingSeq) << 2;
++	ODM_MoveMemory(pDM_Odm, pNDPAFrame+16, &Sequence, 1);
++
++	if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS) || phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_AP) == FALSE)
++		AID = 0;
++
++	STAInfo.AID = AID;
++	STAInfo.FeedbackType = 0;
++	STAInfo.NcIndex = 0;
++	
++	ODM_MoveMemory(pDM_Odm, pNDPAFrame+17, (pu1Byte)&STAInfo, 2);
++
++	*pLength = 19;
++}
++
++
++BOOLEAN
++SendFWVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++	PRT_TCB					pTcb;
++	PRT_TX_LOCAL_BUFFER		pBuf;
++	BOOLEAN					ret = TRUE;
++	u4Byte					BufLen;
++	pu1Byte					BufAddr;
++	u1Byte					DescLen = 0, Idx = 0, NDPTxRate = 0;
++	PADAPTER				pDefAdapter = GetDefaultAdapter(Adapter);
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(Adapter);
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry =phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pBeamformEntry == NULL)
++		return FALSE;
++
++	NDPTxRate = Beamforming_GetVHTNDPTxRate(pDM_Odm, pBeamformEntry->CompSteeringNumofBFer);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] NDPTxRate =%d\n", __func__, NDPTxRate));
++	
++	PlatformAcquireSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (MgntGetFWBuffer(pDefAdapter, &pTcb, &pBuf)) {
++#if(DEV_BUS_TYPE != RT_PCI_INTERFACE)
++		DescLen = Adapter->HWDescHeadLength - pHalData->USBALLDummyLength;
++#endif
++		BufAddr = pBuf->Buffer.VirtualAddress + DescLen;
++
++		ConstructVHTNDPAPacket(
++				pDM_Odm, 
++				RA,
++				AID,
++				BufAddr, 
++				&BufLen,
++				BW
++				);
++		
++		pTcb->PacketLength = BufLen + DescLen;
++
++		pTcb->bTxEnableSwCalcDur = TRUE;
++		
++		pTcb->BWOfPacket = BW;
++
++		if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS) || phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_AP))
++			pTcb->G_ID = 63;
++
++		pTcb->P_AID = pBeamformEntry->P_AID;
++		pTcb->DataRate = NDPTxRate;	/*decide by Nr*/
++
++		Adapter->HalFunc.CmdSendPacketHandler(Adapter, pTcb, pBuf, pTcb->PacketLength, DESC_PACKET_TYPE_NORMAL, FALSE);
++	} else
++		ret = FALSE;
++	
++	PlatformReleaseSpinLock(Adapter, RT_TX_SPINLOCK);	
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] End, ret=%d\n", __func__, ret));
++
++	if (ret)
++		RT_DISP_DATA(FBEAM, FBEAM_DATA, "", pBuf->Buffer.VirtualAddress, pTcb->PacketLength);
++
++	return ret;
++}
++
++
++
++BOOLEAN
++SendSWVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++	PRT_TCB					pTcb;
++	PRT_TX_LOCAL_BUFFER		pBuf;
++	BOOLEAN					ret = TRUE;
++	u1Byte					Idx = 0, NDPTxRate = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++
++	NDPTxRate = Beamforming_GetVHTNDPTxRate(pDM_Odm, pBeamformEntry->CompSteeringNumofBFer);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] NDPTxRate =%d\n", __func__, NDPTxRate));
++
++	PlatformAcquireSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (MgntGetBuffer(Adapter, &pTcb, &pBuf)) {
++		ConstructVHTNDPAPacket(
++				pDM_Odm, 
++				RA,
++				AID,
++				pBuf->Buffer.VirtualAddress, 
++				&pTcb->PacketLength,
++				BW
++				);
++
++		pTcb->bTxEnableSwCalcDur = TRUE;
++		pTcb->BWOfPacket = BW;
++
++		/*rate of NDP decide by Nr*/
++		MgntSendPacket(Adapter, pTcb, pBuf, pTcb->PacketLength, NORMAL_QUEUE, NDPTxRate);
++	} else
++		ret = FALSE;
++	
++	PlatformReleaseSpinLock(Adapter, RT_TX_SPINLOCK);	
++
++	if (ret)
++		RT_DISP_DATA(FBEAM, FBEAM_DATA, "", pBuf->Buffer.VirtualAddress, pTcb->PacketLength);
++
++	return ret;
++}
++
++#ifdef SUPPORT_MU_BF
++#if (SUPPORT_MU_BF == 1)
++/*
++// Description: On VHT GID management frame by an MU beamformee.
++//
++// 2015.05.20. Created by tynli.
++*/
++RT_STATUS
++Beamforming_GetVHTGIDMgntFrame(
++	IN	PADAPTER		Adapter,
++	IN	PRT_RFD			pRfd,
++	IN	POCTET_STRING	pPduOS
++	)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->DM_OutSrc;
++	RT_STATUS		rtStatus = RT_STATUS_SUCCESS;
++	pu1Byte			pBuffer = NULL;
++	pu1Byte			pRaddr = NULL;
++	u1Byte			MemStatus[8] = {0}, UserPos[16] = {0};
++	u1Byte			idx;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMER_ENTRY	pBeamformEntry = &pBeamInfo->BeamformerEntry[pBeamInfo->mu_ap_index];
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] On VHT GID mgnt frame!\n", __func__));		
++
++	/* Check length*/
++	if (pPduOS->Length < (FRAME_OFFSET_VHT_GID_MGNT_USER_POSITION_ARRAY+16)) {	
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("Beamforming_GetVHTGIDMgntFrame(): Invalid length (%d)\n", pPduOS->Length));
++		return RT_STATUS_INVALID_LENGTH;
++	}
++
++	/* Check RA*/
++	pRaddr = (pu1Byte)(pPduOS->Octet)+4;
++	if (!eqMacAddr(pRaddr, Adapter->CurrentAddress)) {		
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("Beamforming_GetVHTGIDMgntFrame(): Drop because of RA error.\n"));
++		return RT_STATUS_PKT_DROP;
++	}
++
++	RT_DISP_DATA(FBEAM, FBEAM_DATA, "On VHT GID Mgnt Frame ==>:\n", pPduOS->Octet, pPduOS->Length);
++
++	/*Parsing Membership Status Array*/
++	pBuffer = pPduOS->Octet + FRAME_OFFSET_VHT_GID_MGNT_MEMBERSHIP_STATUS_ARRAY;
++	for (idx = 0; idx < 8; idx++) {
++		MemStatus[idx] = GET_VHT_GID_MGNT_INFO_MEMBERSHIP_STATUS(pBuffer+idx);
++		pBeamformEntry->gid_valid[idx] = GET_VHT_GID_MGNT_INFO_MEMBERSHIP_STATUS(pBuffer+idx);
++	}
++
++	RT_DISP_DATA(FBEAM, FBEAM_DATA, "MemStatus: ", MemStatus, 8);
++
++	/* Parsing User Position Array*/
++	pBuffer = pPduOS->Octet + FRAME_OFFSET_VHT_GID_MGNT_USER_POSITION_ARRAY;
++	for (idx = 0; idx < 16; idx++) {
++		UserPos[idx] = GET_VHT_GID_MGNT_INFO_USER_POSITION(pBuffer+idx);
++		pBeamformEntry->user_position[idx] = GET_VHT_GID_MGNT_INFO_USER_POSITION(pBuffer+idx);
++	}
++
++	RT_DISP_DATA(FBEAM, FBEAM_DATA, "UserPos: ", UserPos, 16);
++
++	/* Group ID detail printed*/
++	{
++		u1Byte	i, j;
++		u1Byte	tmpVal;
++		u2Byte	tmpVal2;
++
++		for (i = 0; i < 8; i++) {
++			tmpVal = MemStatus[i];
++			tmpVal2 = ((UserPos[i*2 + 1] << 8) & 0xFF00) + (UserPos[i * 2] & 0xFF);
++			for (j = 0; j < 8; j++) {
++				if ((tmpVal >> j) & BIT0) {
++					ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("Use Group ID (%d), User Position (%d)\n",
++						(i*8+j), (tmpVal2 >> 2 * j)&0x3));
++				}
++			}
++		}
++	}
++
++	/* Indicate GID frame to IHV service. */
++	{
++		u1Byte	Indibuffer[24] = {0};
++		u1Byte	Indioffset = 0;
++			
++		PlatformMoveMemory(Indibuffer + Indioffset, pBeamformEntry->gid_valid, 8);
++		Indioffset += 8;
++		PlatformMoveMemory(Indibuffer + Indioffset, pBeamformEntry->user_position, 16);
++		Indioffset += 16;
++
++		PlatformIndicateCustomStatus(
++			Adapter,
++			RT_CUSTOM_EVENT_VHT_RECV_GID_MGNT_FRAME,
++			RT_CUSTOM_INDI_TARGET_IHV,
++			Indibuffer,
++			Indioffset);
++	}
++
++	/* Config HW GID table */
++	halComTxbf_ConfigGtab(pDM_Odm);
++
++	return rtStatus;
++}
++
++/*
++// Description: Construct VHT Group ID (GID) management frame.
++//
++// 2015.05.20. Created by tynli.
++*/
++VOID
++ConstructVHTGIDMgntFrame(
++	IN	PDM_ODM_T		pDM_Odm,
++	IN	pu1Byte			RA,
++	IN	PRT_BEAMFORMEE_ENTRY	pBeamformEntry,
++	OUT	pu1Byte			Buffer,
++	OUT	pu4Byte			pLength
++	
++)
++{
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PADAPTER				Adapter = pBeamInfo->SourceAdapter;
++	OCTET_STRING		osFTMFrame, tmp;
++
++	FillOctetString(osFTMFrame, Buffer, 0);
++	*pLength = 0;
++
++	ConstructMaFrameHdr(
++					Adapter, 
++					RA, 
++					ACT_CAT_VHT, 
++					ACT_VHT_GROUPID_MANAGEMENT, 
++					&osFTMFrame);
++
++	/* Membership Status Array*/
++	FillOctetString(tmp, pBeamformEntry->gid_valid, 8);
++	PacketAppendData(&osFTMFrame, tmp);
++
++	/* User Position Array*/
++	FillOctetString(tmp, pBeamformEntry->user_position, 16);
++	PacketAppendData(&osFTMFrame, tmp);
++
++	*pLength = osFTMFrame.Length;
++
++	RT_DISP_DATA(FBEAM, FBEAM_DATA, "ConstructVHTGIDMgntFrame():\n", Buffer, *pLength);
++}
++
++BOOLEAN
++SendSWVHTGIDMgntFrame(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u1Byte			Idx
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_TCB					pTcb;
++	PRT_TX_LOCAL_BUFFER		pBuf;
++	BOOLEAN					ret = TRUE;
++	u1Byte					DataRate = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = &pBeamInfo->BeamformeeEntry[Idx];
++	PADAPTER				Adapter = pBeamInfo->SourceAdapter;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++	
++	PlatformAcquireSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (MgntGetBuffer(Adapter, &pTcb, &pBuf)) {
++		ConstructVHTGIDMgntFrame(
++				pDM_Odm, 
++				RA,
++				pBeamformEntry,
++				pBuf->Buffer.VirtualAddress, 
++				&pTcb->PacketLength
++				);
++
++		pTcb->BWOfPacket = CHANNEL_WIDTH_20;
++		DataRate = MGN_6M;
++		MgntSendPacket(Adapter, pTcb, pBuf, pTcb->PacketLength, NORMAL_QUEUE, DataRate);
++	} else
++		ret = FALSE;
++	
++	PlatformReleaseSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (ret)
++		RT_DISP_DATA(FBEAM, FBEAM_DATA, "", pBuf->Buffer.VirtualAddress, pTcb->PacketLength);
++
++	return ret;
++}
++
++
++/*
++// Description: Construct VHT beamforming report poll.
++//
++// 2015.05.20. Created by tynli.
++*/
++VOID
++ConstructVHTBFReportPoll(
++	IN	PDM_ODM_T		pDM_Odm,
++	IN	pu1Byte			RA,
++	OUT	pu1Byte			Buffer,
++	OUT	pu4Byte			pLength
++)
++{
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PADAPTER				Adapter = pBeamInfo->SourceAdapter;
++	pu1Byte			pBFRptPoll = Buffer;
++	
++	/* Frame control*/
++	SET_80211_HDR_FRAME_CONTROL(pBFRptPoll, 0);
++	SET_80211_HDR_TYPE_AND_SUBTYPE(pBFRptPoll, Type_Beamforming_Report_Poll);
++
++	/* Duration*/	
++	SET_80211_HDR_DURATION(pBFRptPoll, 100);
++
++	/* RA*/
++	SET_VHT_BF_REPORT_POLL_RA(pBFRptPoll, RA);
++
++	/* TA*/
++	SET_VHT_BF_REPORT_POLL_TA(pBFRptPoll, Adapter->CurrentAddress);
++
++	/* Feedback Segment Retransmission Bitmap*/
++	SET_VHT_BF_REPORT_POLL_FEEDBACK_SEG_RETRAN_BITMAP(pBFRptPoll, 0xFF);
++
++	*pLength = 17;
++
++	RT_DISP_DATA(FBEAM, FBEAM_DATA, "ConstructVHTBFReportPoll():\n", Buffer, *pLength);
++
++}
++
++BOOLEAN
++SendSWVHTBFReportPoll(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	BOOLEAN			bFinalPoll
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_TCB					pTcb;
++	PRT_TX_LOCAL_BUFFER		pBuf;
++	BOOLEAN					ret = TRUE;
++	u1Byte					Idx = 0, DataRate = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++	PADAPTER				Adapter = pBeamInfo->SourceAdapter;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	PlatformAcquireSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (MgntGetBuffer(Adapter, &pTcb, &pBuf)) {
++		ConstructVHTBFReportPoll(
++				pDM_Odm, 
++				RA,
++				pBuf->Buffer.VirtualAddress, 
++				&pTcb->PacketLength
++				);
++
++		pTcb->bTxEnableSwCalcDur = TRUE; /* <tynli_note> need?*/
++		pTcb->BWOfPacket = CHANNEL_WIDTH_20;
++
++		if (bFinalPoll)
++			pTcb->TxBFPktType = RT_BF_PKT_TYPE_FINAL_BF_REPORT_POLL;
++		else
++			pTcb->TxBFPktType = RT_BF_PKT_TYPE_BF_REPORT_POLL;
++		
++		DataRate = MGN_6M;	/* Legacy OFDM rate*/
++		MgntSendPacket(Adapter, pTcb, pBuf, pTcb->PacketLength, NORMAL_QUEUE, DataRate);
++	} else
++		ret = FALSE;
++	
++	PlatformReleaseSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (ret)
++		RT_DISP_DATA(FBEAM, FBEAM_DATA, "SendSWVHTBFReportPoll():\n", pBuf->Buffer.VirtualAddress, pTcb->PacketLength);
++
++	return ret;
++
++}
++
++
++/*
++// Description: Construct VHT MU NDPA packet.
++//	<Note> We should combine this function with ConstructVHTNDPAPacket() in the future.
++//
++// 2015.05.21. Created by tynli.
++*/
++VOID
++ConstructVHTMUNDPAPacket(
++	IN PDM_ODM_T		pDM_Odm,
++	IN CHANNEL_WIDTH	BW,
++	OUT pu1Byte			Buffer,
++	OUT pu4Byte			pLength
++	)
++{	
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PADAPTER				Adapter = pBeamInfo->SourceAdapter;
++	u2Byte					Duration = 0;
++	u1Byte					Sequence = 0;
++	pu1Byte					pNDPAFrame = Buffer;
++	RT_NDPA_STA_INFO		STAInfo;
++	u1Byte					idx;
++	u1Byte					DestAddr[6] = {0};
++	PRT_BEAMFORMEE_ENTRY	pEntry = NULL;
++
++	/* Fill the first MU BFee entry (STA1) MAC addr to destination address then
++	     HW will change A1 to broadcast addr. 2015.05.28. Suggested by SD1 Chunchu. */
++	for (idx = 0; idx < BEAMFORMEE_ENTRY_NUM; idx++) {		
++		pEntry = &(pBeamInfo->BeamformeeEntry[idx]);
++		if (pEntry->is_mu_sta) {
++			cpMacAddr(DestAddr, pEntry->MacAddr);
++			break;
++		}
++	}
++	if (pEntry == NULL)
++		return;
++	
++	/* Frame control.*/
++	SET_80211_HDR_FRAME_CONTROL(pNDPAFrame, 0);
++	SET_80211_HDR_TYPE_AND_SUBTYPE(pNDPAFrame, Type_NDPA);
++
++	SET_80211_HDR_ADDRESS1(pNDPAFrame, DestAddr);
++	SET_80211_HDR_ADDRESS2(pNDPAFrame, pEntry->MyMacAddr);
++
++	/*--------------------------------------------*/
++	/* <Note> Need to modify "Duration" to MU consideration. */
++	Duration = 2*aSifsTime + 44;
++	
++	if (BW == CHANNEL_WIDTH_80)
++		Duration += 40;
++	else if(BW == CHANNEL_WIDTH_40)
++		Duration+= 87;
++	else	
++		Duration+= 180;
++	/*--------------------------------------------*/
++
++	SET_80211_HDR_DURATION(pNDPAFrame, Duration);
++
++	Sequence = *(pDM_Odm->pSoundingSeq) << 2;
++	ODM_MoveMemory(pDM_Odm, pNDPAFrame + 16, &Sequence, 1);
++
++	*pLength = 17;
++
++	/* Construct STA info. for multiple STAs*/
++	for (idx = 0; idx < BEAMFORMEE_ENTRY_NUM; idx++) {		
++		pEntry = &(pBeamInfo->BeamformeeEntry[idx]);
++		if (pEntry->is_mu_sta) {
++			STAInfo.AID = pEntry->AID;
++			STAInfo.FeedbackType = 1; /* 1'b1: MU*/
++			STAInfo.NcIndex = 0;
++
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Get BeamformeeEntry idx(%d), AID =%d\n", __func__, idx, pEntry->AID));
++			
++			ODM_MoveMemory(pDM_Odm, pNDPAFrame+(*pLength), (pu1Byte)&STAInfo, 2);
++			*pLength += 2;
++		}
++	}
++
++}
++
++BOOLEAN
++SendSWVHTMUNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_TCB					pTcb;
++	PRT_TX_LOCAL_BUFFER		pBuf;
++	BOOLEAN					ret = TRUE;
++	u1Byte					NDPTxRate = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PADAPTER				Adapter = pBeamInfo->SourceAdapter;
++
++	NDPTxRate = MGN_VHT2SS_MCS0;
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] NDPTxRate =%d\n", __func__, NDPTxRate));
++
++	PlatformAcquireSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (MgntGetBuffer(Adapter, &pTcb, &pBuf)) {
++		ConstructVHTMUNDPAPacket(
++				pDM_Odm,
++				BW,
++				pBuf->Buffer.VirtualAddress, 
++				&pTcb->PacketLength
++				);
++
++		pTcb->bTxEnableSwCalcDur = TRUE;
++		pTcb->BWOfPacket = BW;
++		pTcb->TxBFPktType = RT_BF_PKT_TYPE_BROADCAST_NDPA;
++
++		/*rate of NDP decide by Nr*/
++		MgntSendPacket(Adapter, pTcb, pBuf, pTcb->PacketLength, NORMAL_QUEUE, NDPTxRate);
++	} else
++		ret = FALSE;
++	
++	PlatformReleaseSpinLock(Adapter, RT_TX_SPINLOCK);	
++
++	if (ret)
++		RT_DISP_DATA(FBEAM, FBEAM_DATA, "", pBuf->Buffer.VirtualAddress, pTcb->PacketLength);
++
++	return ret;
++}
++
++
++VOID
++DBG_ConstructVHTMUNDPAPacket(
++	IN PDM_ODM_T		pDM_Odm,
++	IN CHANNEL_WIDTH	BW,
++	OUT pu1Byte			Buffer,
++	OUT pu4Byte			pLength
++	)
++{	
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PADAPTER				Adapter = pBeamInfo->SourceAdapter;
++	u2Byte					Duration = 0;
++	u1Byte					Sequence = 0;
++	pu1Byte					pNDPAFrame = Buffer;
++	RT_NDPA_STA_INFO		STAInfo;
++	u1Byte					idx;
++	u1Byte					DestAddr[6] = {0};
++	PRT_BEAMFORMEE_ENTRY	pEntry = NULL;
++
++	BOOLEAN	is_STA1 = FALSE;
++
++
++	/* Fill the first MU BFee entry (STA1) MAC addr to destination address then
++	     HW will change A1 to broadcast addr. 2015.05.28. Suggested by SD1 Chunchu. */
++	for (idx = 0; idx < BEAMFORMEE_ENTRY_NUM; idx++) {		
++		pEntry = &(pBeamInfo->BeamformeeEntry[idx]);
++		if (pEntry->is_mu_sta) {
++			if (is_STA1 == FALSE) {
++				is_STA1 = TRUE;
++				continue;
++			} else {
++				cpMacAddr(DestAddr, pEntry->MacAddr);
++				break;
++			}
++		}
++	}
++
++	/* Frame control.*/
++	SET_80211_HDR_FRAME_CONTROL(pNDPAFrame, 0);
++	SET_80211_HDR_TYPE_AND_SUBTYPE(pNDPAFrame, Type_NDPA);
++
++	SET_80211_HDR_ADDRESS1(pNDPAFrame, DestAddr);
++	SET_80211_HDR_ADDRESS2(pNDPAFrame, pDM_Odm->CurrentAddress);
++
++	/*--------------------------------------------*/
++	/* <Note> Need to modify "Duration" to MU consideration. */
++	Duration = 2*aSifsTime + 44;
++	
++	if (BW == CHANNEL_WIDTH_80)
++		Duration += 40;
++	else if (BW == CHANNEL_WIDTH_40)
++		Duration += 87;
++	else	
++		Duration += 180;
++	/*--------------------------------------------*/
++
++	SET_80211_HDR_DURATION(pNDPAFrame, Duration);
++
++	Sequence = *(pDM_Odm->pSoundingSeq) << 2;
++	ODM_MoveMemory(pDM_Odm, pNDPAFrame + 16, &Sequence, 1);
++
++	*pLength = 17;
++
++	/*STA2's STA Info*/
++	STAInfo.AID = pEntry->AID;
++	STAInfo.FeedbackType = 1; /* 1'b1: MU */
++	STAInfo.NcIndex = 0;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Get BeamformeeEntry idx(%d), AID =%d\n", __func__, idx, pEntry->AID));
++	
++	ODM_MoveMemory(pDM_Odm, pNDPAFrame+(*pLength), (pu1Byte)&STAInfo, 2);
++	*pLength += 2;
++
++}
++
++BOOLEAN
++DBG_SendSWVHTMUNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_TCB					pTcb;
++	PRT_TX_LOCAL_BUFFER		pBuf;
++	BOOLEAN					ret = TRUE;
++	u1Byte					NDPTxRate = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PADAPTER				Adapter = pBeamInfo->SourceAdapter;
++
++	NDPTxRate = MGN_VHT2SS_MCS0;
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] NDPTxRate =%d\n", __func__, NDPTxRate));
++
++	PlatformAcquireSpinLock(Adapter, RT_TX_SPINLOCK);
++
++	if (MgntGetBuffer(Adapter, &pTcb, &pBuf)) {
++		DBG_ConstructVHTMUNDPAPacket(
++				pDM_Odm,
++				BW,
++				pBuf->Buffer.VirtualAddress, 
++				&pTcb->PacketLength
++				);
++
++		pTcb->bTxEnableSwCalcDur = TRUE;
++		pTcb->BWOfPacket = BW;
++		pTcb->TxBFPktType = RT_BF_PKT_TYPE_UNICAST_NDPA;
++
++		/*rate of NDP decide by Nr*/
++		MgntSendPacket(Adapter, pTcb, pBuf, pTcb->PacketLength, NORMAL_QUEUE, NDPTxRate);
++	} else
++		ret = FALSE;
++	
++	PlatformReleaseSpinLock(Adapter, RT_TX_SPINLOCK);	
++
++	if (ret)
++		RT_DISP_DATA(FBEAM, FBEAM_DATA, "", pBuf->Buffer.VirtualAddress, pTcb->PacketLength);
++
++	return ret;
++}
++
++
++#endif	/*#if (SUPPORT_MU_BF == 1)*/
++#endif	/*#ifdef SUPPORT_MU_BF*/
++
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++u4Byte
++Beamforming_GetReportFrame(
++	IN	PVOID			pDM_VOID,
++	union recv_frame *precv_frame
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u4Byte					ret = _SUCCESS;
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = NULL;
++	pu1Byte					pframe = precv_frame->u.hdr.rx_data;
++	u4Byte					frame_len = precv_frame->u.hdr.len;
++	pu1Byte					TA;
++	u1Byte					Idx, offset;
++	
++
++	/*Memory comparison to see if CSI report is the same with previous one*/
++	TA = GetAddr2Ptr(pframe);
++	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, TA, &Idx);
++	if(pBeamformEntry->BeamformEntryCap & BEAMFORMER_CAP_VHT_SU)
++		offset = 31;		/*24+(1+1+3)+2  MAC header+(Category+ActionCode+MIMOControlField)+SNR(Nc=2)*/
++	else if(pBeamformEntry->BeamformEntryCap & BEAMFORMER_CAP_HT_EXPLICIT)
++		offset = 34;		/*24+(1+1+6)+2  MAC header+(Category+ActionCode+MIMOControlField)+SNR(Nc=2)*/
++	else
++		return ret;
++
++	
++	return ret;
++}
++
++
++BOOLEAN
++SendFWHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct xmit_priv		*pxmitpriv = &(Adapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u1Byte	ActionHdr[4] = {ACT_CAT_VENDOR, 0x00, 0xe0, 0x4c};
++	u1Byte	*pframe;
++	u2Byte	*fctrl;
++	u2Byte	duration = 0;
++	u1Byte	aSifsTime = 0, NDPTxRate = 0, Idx = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	
++	if (pmgntframe == NULL) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s, alloc mgnt frame fail\n", __func__));
++		return _FALSE;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(Adapter, pattrib);
++
++	pattrib->qsel = QSLT_BEACON;
++	NDPTxRate = Beamforming_GetHTNDPTxRate(pDM_Odm, pBeamformEntry->CompSteeringNumofBFer);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] NDPTxRate =%d\n", __func__, NDPTxRate));
++	pattrib->rate = NDPTxRate;
++	pattrib->bwmode = BW;
++	pattrib->order = 1;
++	pattrib->subtype = WIFI_ACTION_NOACK;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr*)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	SetOrderBit(pframe);
++	SetFrameSubType(pframe, WIFI_ACTION_NOACK);
++
++	_rtw_memcpy(pwlanhdr->addr1, RA, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pBeamformEntry->MyMacAddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	if( pmlmeext->cur_wireless_mode == WIRELESS_11B)
++		aSifsTime = 10;
++	else
++		aSifsTime = 16;
++
++	duration = 2*aSifsTime + 40;
++	
++	if(BW == CHANNEL_WIDTH_40)
++		duration+= 87;
++	else	
++		duration+= 180;
++
++	SetDuration(pframe, duration);
++
++	//HT control field
++	SET_HT_CTRL_CSI_STEERING(pframe+24, 3);
++	SET_HT_CTRL_NDP_ANNOUNCEMENT(pframe+24, 1);
++
++	_rtw_memcpy(pframe+28, ActionHdr, 4);
++
++	pattrib->pktlen = 32;
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(Adapter, pmgntframe);
++
++	return _TRUE;
++}
++
++
++BOOLEAN
++SendSWHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct xmit_priv		*pxmitpriv = &(Adapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u1Byte	ActionHdr[4] = {ACT_CAT_VENDOR, 0x00, 0xe0, 0x4c};
++	pu1Byte	pframe;
++	pu2Byte	fctrl;
++	u2Byte	duration = 0;
++	u1Byte	aSifsTime = 0, NDPTxRate = 0, Idx = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++
++	NDPTxRate = Beamforming_GetHTNDPTxRate(pDM_Odm, pBeamformEntry->CompSteeringNumofBFer);
++	
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	
++	if (pmgntframe == NULL) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s, alloc mgnt frame fail\n", __func__));
++		return _FALSE;
++	}
++
++	/*update attribute*/
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(Adapter, pattrib);
++	pattrib->qsel = QSLT_MGNT;
++	pattrib->rate = NDPTxRate;
++	pattrib->bwmode = BW;
++	pattrib->order = 1;
++	pattrib->subtype = WIFI_ACTION_NOACK;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	SetOrderBit(pframe);
++	SetFrameSubType(pframe, WIFI_ACTION_NOACK);
++
++	_rtw_memcpy(pwlanhdr->addr1, RA, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pBeamformEntry->MyMacAddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	if (pmlmeext->cur_wireless_mode == WIRELESS_11B)
++		aSifsTime = 10;
++	else
++		aSifsTime = 16;
++
++	duration = 2*aSifsTime + 40;
++	
++	if (BW == CHANNEL_WIDTH_40)
++		duration += 87;
++	else	
++		duration += 180;
++
++	SetDuration(pframe, duration);
++
++	/*HT control field*/
++	SET_HT_CTRL_CSI_STEERING(pframe+24, 3);
++	SET_HT_CTRL_NDP_ANNOUNCEMENT(pframe+24, 1);
++
++	_rtw_memcpy(pframe+28, ActionHdr, 4);
++
++	pattrib->pktlen = 32;
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(Adapter, pmgntframe);
++
++	return _TRUE;
++}
++
++
++BOOLEAN
++SendFWVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct xmit_priv		*pxmitpriv = &(Adapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv		*pmlmepriv = &(Adapter->mlmepriv);
++	pu1Byte	pframe;
++	pu2Byte	fctrl;
++	u2Byte	duration = 0;
++	u1Byte	sequence = 0, aSifsTime = 0, NDPTxRate= 0, Idx = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++	RT_NDPA_STA_INFO	sta_info;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	
++	if (pmgntframe == NULL) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s, alloc mgnt frame fail\n", __func__));
++		return _FALSE;
++	}
++
++	//update attribute
++	pattrib = &pmgntframe->attrib;
++	_rtw_memcpy(pattrib->ra, RA, ETH_ALEN);
++	update_mgntframe_attrib(Adapter, pattrib);
++
++	pattrib->qsel = QSLT_BEACON;
++	NDPTxRate = Beamforming_GetVHTNDPTxRate(pDM_Odm, pBeamformEntry->CompSteeringNumofBFer);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] NDPTxRate =%d\n", __func__, NDPTxRate));
++	pattrib->rate = NDPTxRate;
++	pattrib->bwmode = BW;
++	pattrib->subtype = WIFI_NDPA;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr*)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	SetFrameSubType(pframe, WIFI_NDPA);
++
++	_rtw_memcpy(pwlanhdr->addr1, RA, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pBeamformEntry->MyMacAddr, ETH_ALEN);
++
++	if (IsSupported5G(pmlmeext->cur_wireless_mode) || IsSupportedHT(pmlmeext->cur_wireless_mode))
++		aSifsTime = 16;
++	else
++		aSifsTime = 10;
++
++	duration = 2*aSifsTime + 44;
++	
++	if(BW == CHANNEL_WIDTH_80)
++		duration += 40;
++	else if(BW == CHANNEL_WIDTH_40)
++		duration+= 87;
++	else	
++		duration+= 180;
++
++	SetDuration(pframe, duration);
++
++	sequence = pBeamInfo->SoundingSequence<< 2;
++	if (pBeamInfo->SoundingSequence >= 0x3f)
++		pBeamInfo->SoundingSequence = 0;
++	else
++		pBeamInfo->SoundingSequence++;
++
++	_rtw_memcpy(pframe+16, &sequence,1);
++
++	if (((pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE) || ((pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE))
++		AID = 0;		
++
++	sta_info.AID = AID;
++	sta_info.FeedbackType = 0;
++	sta_info.NcIndex= 0;
++	
++	_rtw_memcpy(pframe+17, (u8 *)&sta_info, 2);
++
++	pattrib->pktlen = 19;
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(Adapter, pmgntframe);
++
++	return _TRUE;
++}
++
++
++
++BOOLEAN
++SendSWVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW
++	)
++{
++	PDM_ODM_T				pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER				Adapter = pDM_Odm->Adapter;
++	struct xmit_frame		*pmgntframe;
++	struct pkt_attrib		*pattrib;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	struct xmit_priv		*pxmitpriv = &(Adapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct mlme_priv		*pmlmepriv = &(Adapter->mlmepriv);
++	RT_NDPA_STA_INFO	ndpa_sta_info;
++	u1Byte	NDPTxRate = 0, sequence = 0, aSifsTime = 0, Idx = 0;
++	pu1Byte	pframe;
++	pu2Byte	fctrl;
++	u2Byte	duration = 0;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &(pDM_Odm->BeamformingInfo);
++	PRT_BEAMFORMEE_ENTRY	pBeamformEntry = phydm_Beamforming_GetBFeeEntryByAddr(pDM_Odm, RA, &Idx);
++
++	NDPTxRate = Beamforming_GetVHTNDPTxRate(pDM_Odm, pBeamformEntry->CompSteeringNumofBFer);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] NDPTxRate =%d\n", __func__, NDPTxRate));
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	
++	if (pmgntframe == NULL) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s, alloc mgnt frame fail\n", __func__));
++		return _FALSE;
++	}
++	
++	/*update attribute*/
++	pattrib = &pmgntframe->attrib;
++	_rtw_memcpy(pattrib->ra, RA, ETH_ALEN);
++	update_mgntframe_attrib(Adapter, pattrib);
++	pattrib->qsel = QSLT_MGNT;
++	pattrib->rate = NDPTxRate;
++	pattrib->bwmode = BW;
++	pattrib->subtype = WIFI_NDPA;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	SetFrameSubType(pframe, WIFI_NDPA);
++
++	_rtw_memcpy(pwlanhdr->addr1, RA, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, pBeamformEntry->MyMacAddr, ETH_ALEN);
++
++	if (IsSupported5G(pmlmeext->cur_wireless_mode) || IsSupportedHT(pmlmeext->cur_wireless_mode))
++		aSifsTime = 16;
++	else
++		aSifsTime = 10;
++
++	duration = 2*aSifsTime + 44;
++	
++	if (BW == CHANNEL_WIDTH_80)
++		duration += 40;
++	else if (BW == CHANNEL_WIDTH_40)
++		duration += 87;
++	else	
++		duration += 180;
++
++	SetDuration(pframe, duration);
++	
++	sequence = pBeamInfo->SoundingSequence << 2;
++	if (pBeamInfo->SoundingSequence >= 0x3f)
++		pBeamInfo->SoundingSequence = 0;
++	else
++		pBeamInfo->SoundingSequence++;
++
++	_rtw_memcpy(pframe+16, &sequence, 1);
++	if (((pmlmeinfo->state&0x03) == WIFI_FW_ADHOC_STATE) || ((pmlmeinfo->state&0x03) == WIFI_FW_AP_STATE))
++		AID = 0;		
++
++	ndpa_sta_info.AID = AID;
++	ndpa_sta_info.FeedbackType = 0;
++	ndpa_sta_info.NcIndex = 0;
++	
++	_rtw_memcpy(pframe+17, (u8 *)&ndpa_sta_info, 2);
++
++	pattrib->pktlen = 19;
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	dump_mgntframe(Adapter, pmgntframe);
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] [%d]\n", __func__, __LINE__));
++	
++	return _TRUE;
++}
++
++
++#endif
++
++
++VOID
++Beamforming_GetNDPAFrame(
++	IN	PVOID			pDM_VOID,
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	OCTET_STRING	pduOS
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	union recv_frame *precv_frame
++#endif
++)
++{
++	PDM_ODM_T					pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PADAPTER					Adapter = pDM_Odm->Adapter;
++	pu1Byte						TA ;
++	u1Byte						Idx, Sequence;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	pu1Byte						pNDPAFrame = pduOS.Octet;
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	pu1Byte						pNDPAFrame = precv_frame->u.hdr.rx_data;
++#endif
++	PRT_BEAMFORMER_ENTRY		pBeamformerEntry = NULL;		/*Modified By Jeffery @2014-10-29*/
++	
++
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++		RT_DISP_DATA(FBEAM, FBEAM_DATA, "Beamforming_GetNDPAFrame\n", pduOS.Octet, pduOS.Length);
++	if (IsCtrlNDPA(pNDPAFrame) == FALSE)
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	if (GetFrameSubType(pNDPAFrame) != WIFI_NDPA)
++#endif
++		return;
++	else if (!(pDM_Odm->SupportICType & (ODM_RTL8812 | ODM_RTL8821))) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] not 8812 or 8821A, return\n", __func__));
++		return;
++	}
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	TA = Frame_Addr2(pduOS);
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	TA = GetAddr2Ptr(pNDPAFrame);
++#endif
++	/*Remove signaling TA. */
++	TA[0] = TA[0] & 0xFE;
++    
++	pBeamformerEntry = phydm_Beamforming_GetBFerEntryByAddr(pDM_Odm, TA, &Idx);		// Modified By Jeffery @2014-10-29
++
++	/*Break options for Clock Reset*/    
++	if (pBeamformerEntry == NULL)
++		return;
++	else if (!(pBeamformerEntry->BeamformEntryCap & BEAMFORMEE_CAP_VHT_SU))
++		return;
++	/*LogSuccess: As long as 8812A receive NDPA and feedback CSI succeed once, clock reset is NO LONGER needed !2015-04-10, Jeffery*/
++	/*ClockResetTimes: While BFer entry always doesn't receive our CSI, clock will reset again and again.So ClockResetTimes is limited to 5 times.2015-04-13, Jeffery*/
++	else if ((pBeamformerEntry->LogSuccess == 1) || (pBeamformerEntry->ClockResetTimes == 5)) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] LogSeq=%d, PreLogSeq=%d, LogRetryCnt=%d, LogSuccess=%d, ClockResetTimes=%d, clock reset is no longer needed.\n", 
++			__func__, pBeamformerEntry->LogSeq, pBeamformerEntry->PreLogSeq, pBeamformerEntry->LogRetryCnt, pBeamformerEntry->LogSuccess, pBeamformerEntry->ClockResetTimes));
++
++        return;
++	}
++
++	Sequence = (pNDPAFrame[16]) >> 2;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start, Sequence=%d, LogSeq=%d, PreLogSeq=%d, LogRetryCnt=%d, ClockResetTimes=%d, LogSuccess=%d\n", 
++		__func__, Sequence, pBeamformerEntry->LogSeq, pBeamformerEntry->PreLogSeq, pBeamformerEntry->LogRetryCnt, pBeamformerEntry->ClockResetTimes, pBeamformerEntry->LogSuccess));
++
++	if ((pBeamformerEntry->LogSeq != 0) && (pBeamformerEntry->PreLogSeq != 0)) {
++		/*Success condition*/
++		if ((pBeamformerEntry->LogSeq != Sequence) && (pBeamformerEntry->PreLogSeq != pBeamformerEntry->LogSeq)) {
++			/* break option for clcok reset, 2015-03-30, Jeffery */
++			pBeamformerEntry->LogRetryCnt = 0;
++			/*As long as 8812A receive NDPA and feedback CSI succeed once, clock reset is no longer needed.*/
++			/*That is, LogSuccess is NOT needed to be reset to zero, 2015-04-13, Jeffery*/
++			pBeamformerEntry->LogSuccess = 1;
++
++		} else {/*Fail condition*/
++
++			if (pBeamformerEntry->LogRetryCnt == 5) {
++				pBeamformerEntry->ClockResetTimes++;
++				pBeamformerEntry->LogRetryCnt = 0;
++
++			ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Clock Reset!!! ClockResetTimes=%d\n", 
++				__func__, pBeamformerEntry->ClockResetTimes));
++			HalComTxbf_Set(pDM_Odm, TXBF_SET_SOUNDING_CLK, NULL);
++
++			} else
++				pBeamformerEntry->LogRetryCnt++;
++		}
++	}
++
++	/*Update LogSeq & PreLogSeq*/
++	pBeamformerEntry->PreLogSeq = pBeamformerEntry->LogSeq;
++	pBeamformerEntry->LogSeq = Sequence;
++	
++}
++
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbfinterface.h b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbfinterface.h
+new file mode 100644
+index 0000000..0e51347
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbfinterface.h
+@@ -0,0 +1,162 @@
++#ifndef __HAL_TXBF_INTERFACE_H__
++#define __HAL_TXBF_INTERFACE_H__
++
++#if (BEAMFORMING_SUPPORT == 1)
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++VOID
++Beamforming_GidPAid(
++	PADAPTER	Adapter,
++	PRT_TCB		pTcb
++	);
++
++RT_STATUS
++Beamforming_GetReportFrame(
++	IN	PADAPTER		Adapter,
++	IN	PRT_RFD			pRfd,
++	IN	POCTET_STRING	pPduOS
++	);
++
++VOID
++Beamforming_GetNDPAFrame(
++	IN	PVOID			pDM_VOID,
++	IN	OCTET_STRING	pduOS
++	);
++
++BOOLEAN
++SendFWHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW
++	);
++
++BOOLEAN
++SendFWVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW
++	);
++
++BOOLEAN
++SendSWVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW
++	);
++
++BOOLEAN
++SendSWHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW
++	);
++
++#if (SUPPORT_MU_BF == 1)
++RT_STATUS
++Beamforming_GetVHTGIDMgntFrame(
++	IN	PADAPTER		Adapter,
++	IN	PRT_RFD			pRfd,
++	IN	POCTET_STRING	pPduOS
++	);
++
++BOOLEAN
++SendSWVHTGIDMgntFrame(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u1Byte			Idx
++	);
++
++BOOLEAN
++SendSWVHTBFReportPoll(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	BOOLEAN			bFinalPoll
++	);
++
++BOOLEAN
++SendSWVHTMUNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	CHANNEL_WIDTH	BW
++	);
++#else
++#define Beamforming_GetVHTGIDMgntFrame(Adapter, pRfd, pPduOS) RT_STATUS_FAILURE
++#define SendSWVHTGIDMgntFrame(pDM_VOID, RA)
++#define SendSWVHTBFReportPoll(pDM_VOID, RA, bFinalPoll)
++#define SendSWVHTMUNDPAPacket(pDM_VOID, BW)
++#endif
++
++
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++
++u4Byte
++Beamforming_GetReportFrame(
++	IN	PVOID			pDM_VOID,
++	union recv_frame *precv_frame
++	);
++
++BOOLEAN
++SendFWHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW
++	);
++
++BOOLEAN
++SendSWHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	CHANNEL_WIDTH	BW
++	);
++
++BOOLEAN
++SendFWVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW
++	);
++
++BOOLEAN
++SendSWVHTNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	pu1Byte			RA,
++	IN	u2Byte			AID,
++	IN	CHANNEL_WIDTH	BW
++	);
++#endif
++
++VOID
++Beamforming_GetNDPAFrame(
++	IN	PVOID			pDM_VOID,
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	IN	OCTET_STRING	pduOS
++#elif (DM_ODM_SUPPORT_TYPE == ODM_CE)
++	union recv_frame *precv_frame
++#endif
++);
++
++BOOLEAN
++DBG_SendSWVHTMUNDPAPacket(
++	IN	PVOID			pDM_VOID,
++	IN	CHANNEL_WIDTH	BW
++	);
++
++#else
++#define Beamforming_GetNDPAFrame(pDM_Odm, _PduOS)
++#if (DM_ODM_SUPPORT_TYPE == ODM_CE)
++#define Beamforming_GetReportFrame(Adapter, precv_frame)		RT_STATUS_FAILURE
++#elif (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++#define Beamforming_GetReportFrame(Adapter, pRfd, pPduOS)		RT_STATUS_FAILURE
++#define Beamforming_GetVHTGIDMgntFrame(Adapter, pRfd, pPduOS) RT_STATUS_FAILURE
++#endif
++#define SendFWHTNDPAPacket(pDM_VOID, RA, BW)
++#define SendSWHTNDPAPacket(pDM_VOID, RA, BW)
++#define SendFWVHTNDPAPacket(pDM_VOID, RA, AID, BW)
++#define SendSWVHTNDPAPacket(pDM_VOID, RA,	AID, BW)
++#define SendSWVHTGIDMgntFrame(pDM_VOID, RA, idx)
++#define SendSWVHTBFReportPoll(pDM_VOID, RA, bFinalPoll)
++#define SendSWVHTMUNDPAPacket(pDM_VOID, BW)
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbfjaguar.c b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbfjaguar.c
+new file mode 100644
+index 0000000..e125371
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbfjaguar.c
+@@ -0,0 +1,527 @@
++//============================================================
++// Description:
++//
++// This file is for 8812/8821/8811 TXBF mechanism
++//
++//============================================================
++#include "mp_precomp.h"
++#include "../phydm_precomp.h"
++
++#if (BEAMFORMING_SUPPORT == 1)
++#if ((RTL8812A_SUPPORT == 1) || (RTL8821A_SUPPORT == 1))
++VOID
++HalTxbf8812A_setNDPArate(
++	IN PVOID			pDM_VOID,
++	IN u1Byte	BW,
++	IN u1Byte	Rate
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	ODM_Write1Byte(pDM_Odm, REG_NDPA_OPT_CTRL_8812A,  (Rate << 2 | BW));	
++
++}
++
++VOID
++halTxbfJaguar_RfMode(
++	IN PVOID			pDM_VOID,
++	IN PRT_BEAMFORMING_INFO	pBeamInfo
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	
++	if (pDM_Odm->RFType == ODM_1T1R)
++		return;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] set TxIQGen\n", __func__));
++
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_WeLut_Jaguar, 0x80000, 0x1);	/*RF Mode table write enable*/
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_WeLut_Jaguar, 0x80000, 0x1);	/*RF Mode table write enable*/
++
++	if (pBeamInfo->beamformee_su_cnt > 0) {
++		// Paath_A
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableAddr, 0x78000, 0x3);		/*Select RX mode*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData0, 0xfffff, 0x3F7FF);	/*Set Table data*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData1, 0xfffff, 0xE26BF);	/*Enable TXIQGEN in RX mode*/
++		// Path_B
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableAddr, 0x78000, 0x3);		/*Select RX mode*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableData0, 0xfffff, 0x3F7FF);	/*Set Table data*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableData1, 0xfffff, 0xE26BF);	/*Enable TXIQGEN in RX mode*/
++	} else {
++		// Paath_A
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableAddr, 0x78000, 0x3);		/*Select RX mode*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData0, 0xfffff, 0x3F7FF);	/*Set Table data*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_ModeTableData1, 0xfffff, 0xC26BF);	/*Disable TXIQGEN in RX mode*/
++		// Path_B
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableAddr, 0x78000, 0x3);		/*Select RX mode*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableData0, 0xfffff, 0x3F7FF);	/*Set Table data*/
++		ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_ModeTableData1, 0xfffff, 0xC26BF);	/*Disable TXIQGEN in RX mode*/
++	}
++
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_A, RF_WeLut_Jaguar, 0x80000, 0x0);	/*RF Mode table write disable*/
++	ODM_SetRFReg(pDM_Odm, ODM_RF_PATH_B, RF_WeLut_Jaguar, 0x80000, 0x0);	/*RF Mode table write disable*/
++
++	if (pBeamInfo->beamformee_su_cnt > 0)
++		ODM_SetBBReg(pDM_Odm, rTxPath_Jaguar, bMaskByte1, 0x33);
++	else
++		ODM_SetBBReg(pDM_Odm, rTxPath_Jaguar, bMaskByte1, 0x11);
++}
++
++
++VOID
++halTxbfJaguar_DownloadNDPA(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte			u1bTmp = 0, tmpReg422 = 0, Head_Page;
++	u1Byte			BcnValidReg = 0, count = 0, DLBcnCount = 0;
++	BOOLEAN			bSendBeacon = FALSE;
++	u1Byte			TxPageBndy = LAST_ENTRY_OF_TX_PKT_BUFFER_8812;	/*default reseved 1 page for the IC type which is undefined.*/
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pBeamEntry = pBeamInfo->BeamformeeEntry + Idx;
++	PADAPTER		Adapter = pDM_Odm->Adapter;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	*pDM_Odm->pbFwDwRsvdPageInProgress = TRUE;
++#endif
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (Idx == 0)
++		Head_Page = 0xFE;
++	else
++		Head_Page = 0xFE;
++
++	Adapter->HalFunc.GetHalDefVarHandler(Adapter, HAL_DEF_TX_PAGE_BOUNDARY, (pu1Byte)&TxPageBndy);
++
++	/*Set REG_CR bit 8. DMA beacon by SW.*/
++	u1bTmp = ODM_Read1Byte(pDM_Odm, REG_CR_8812A + 1);
++	ODM_Write1Byte(pDM_Odm,  REG_CR_8812A + 1, (u1bTmp | BIT0));
++
++
++	/*Set FWHW_TXQ_CTRL 0x422[6]=0 to tell Hw the packet is not a real beacon frame.*/
++	tmpReg422 = ODM_Read1Byte(pDM_Odm, REG_FWHW_TXQ_CTRL_8812A + 2);
++	ODM_Write1Byte(pDM_Odm, REG_FWHW_TXQ_CTRL_8812A + 2,  tmpReg422 & (~BIT6));
++
++	if (tmpReg422 & BIT6) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("SetBeamformDownloadNDPA_8812(): There is an Adapter is sending beacon.\n"));
++		bSendBeacon = TRUE;
++	}
++
++	/*TDECTRL[15:8] 0x209[7:0] = 0xF6	Beacon Head for TXDMA*/
++	ODM_Write1Byte(pDM_Odm, REG_TDECTRL_8812A + 1, Head_Page);
++
++	do {
++		/*Clear beacon valid check bit.*/
++		BcnValidReg = ODM_Read1Byte(pDM_Odm, REG_TDECTRL_8812A + 2);
++		ODM_Write1Byte(pDM_Odm, REG_TDECTRL_8812A + 2, (BcnValidReg | BIT0));
++
++		/*download NDPA rsvd page.*/
++		if (pBeamEntry->BeamformEntryCap & BEAMFORMER_CAP_VHT_SU)
++			Beamforming_SendVHTNDPAPacket(pDM_Odm, pBeamEntry->MacAddr, pBeamEntry->AID, pBeamEntry->SoundBW, BEACON_QUEUE);
++		else
++			Beamforming_SendHTNDPAPacket(pDM_Odm, pBeamEntry->MacAddr, pBeamEntry->SoundBW, BEACON_QUEUE);
++
++		/*check rsvd page download OK.*/
++		BcnValidReg = ODM_Read1Byte(pDM_Odm, REG_TDECTRL_8812A + 2);
++		count = 0;
++		while (!(BcnValidReg & BIT0) && count < 20) {
++			count++;
++			ODM_delay_ms(10);
++			BcnValidReg = ODM_Read1Byte(pDM_Odm, REG_TDECTRL_8812A + 2);
++		}
++		DLBcnCount++;
++	} while (!(BcnValidReg & BIT0) && DLBcnCount < 5);
++
++	if (!(BcnValidReg & BIT0))
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("%s Download RSVD page failed!\n", __func__));
++
++	/*TDECTRL[15:8] 0x209[7:0] = 0xF6	Beacon Head for TXDMA*/
++	ODM_Write1Byte(pDM_Odm, REG_TDECTRL_8812A + 1, TxPageBndy);
++
++	/*To make sure that if there exists an adapter which would like to send beacon.*/
++	/*If exists, the origianl value of 0x422[6] will be 1, we should check this to*/
++	/*prevent from setting 0x422[6] to 0 after download reserved page, or it will cause*/
++	/*the beacon cannot be sent by HW.*/
++	/*2010.06.23. Added by tynli.*/
++	if (bSendBeacon)
++		ODM_Write1Byte(pDM_Odm, REG_FWHW_TXQ_CTRL_8812A + 2, tmpReg422);
++
++	/*Do not enable HW DMA BCN or it will cause Pcie interface hang by timing issue. 2011.11.24. by tynli.*/
++	/*Clear CR[8] or beacon packet will not be send to TxBuf anymore.*/
++	u1bTmp = ODM_Read1Byte(pDM_Odm, REG_CR_8812A + 1);
++	ODM_Write1Byte(pDM_Odm, REG_CR_8812A + 1, (u1bTmp & (~BIT0)));
++
++	pBeamEntry->BeamformEntryState = BEAMFORMING_ENTRY_STATE_PROGRESSED;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	*pDM_Odm->pbFwDwRsvdPageInProgress = FALSE;
++#endif
++}
++
++
++VOID
++halTxbfJaguar_FwTxBFCmd(
++	IN PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte	Idx, Period0 = 0, Period1 = 0;
++	u1Byte	PageNum0 = 0xFF, PageNum1 = 0xFF;
++	u1Byte	u1TxBFParm[3] = {0};
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	for (Idx = 0; Idx < BEAMFORMEE_ENTRY_NUM; Idx++) {
++		/*Modified by David*/
++		if (pBeamInfo->BeamformeeEntry[Idx].bUsed && pBeamInfo->BeamformeeEntry[Idx].BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++			if (Idx == 0) {
++				if (pBeamInfo->BeamformeeEntry[Idx].bSound)
++					PageNum0 = 0xFE;
++				else
++					PageNum0 = 0xFF; /*stop sounding*/
++				Period0 = (u1Byte)(pBeamInfo->BeamformeeEntry[Idx].SoundPeriod);
++			} else if (Idx == 1) {
++				if (pBeamInfo->BeamformeeEntry[Idx].bSound)
++					PageNum1 = 0xFE;
++				else
++					PageNum1 = 0xFF; /*stop sounding*/
++				Period1 = (u1Byte)(pBeamInfo->BeamformeeEntry[Idx].SoundPeriod);
++			}
++		}
++	}
++
++	u1TxBFParm[0] = PageNum0;
++	u1TxBFParm[1] = PageNum1;
++	u1TxBFParm[2] = (Period1 << 4) | Period0;
++	ODM_FillH2CCmd(pDM_Odm, PHYDM_H2C_TXBF, 3, u1TxBFParm);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, 
++		("[%s] PageNum0 = %d Period0 = %d, PageNum1 = %d Period1 %d\n", __func__, PageNum0, Period0, PageNum1, Period1));
++}
++
++
++VOID
++HalTxbfJaguar_Enter(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				BFerBFeeIdx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte					i = 0;
++	u1Byte					BFerIdx = (BFerBFeeIdx & 0xF0) >> 4;
++	u1Byte					BFeeIdx = (BFerBFeeIdx & 0xF);
++	u4Byte					CSI_Param;
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	RT_BEAMFORMEE_ENTRY	BeamformeeEntry;
++	RT_BEAMFORMER_ENTRY	BeamformerEntry;
++	u2Byte					STAid = 0;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]Start!\n", __func__));
++
++	halTxbfJaguar_RfMode(pDM_Odm, pBeamformingInfo);
++
++	if (pDM_Odm->RFType == ODM_2T2R)
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CSI_CONTENT_VALUE, bMaskDWord, 0x00000000);	/*Nc =2*/
++	else
++		ODM_SetBBReg(pDM_Odm, ODM_REG_CSI_CONTENT_VALUE, bMaskDWord, 0x01081008);	/*Nc =1*/
++
++	if ((pBeamformingInfo->beamformer_su_cnt > 0) && (BFerIdx < BEAMFORMER_ENTRY_NUM)) {
++		BeamformerEntry = pBeamformingInfo->BeamformerEntry[BFerIdx];
++
++		/*Sounding protocol control*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8812A, 0xCB);
++
++		/*MAC address/Partial AID of Beamformer*/
++		if (BFerIdx == 0) {
++			for (i = 0; i < 6 ; i++)
++				ODM_Write1Byte(pDM_Odm, (REG_BFMER0_INFO_8812A + i), BeamformerEntry.MacAddr[i]);
++			/*CSI report use legacy ofdm so don't need to fill P_AID. */
++			/*PlatformEFIOWrite2Byte(Adapter, REG_BFMER0_INFO_8812A+6, BeamformEntry.P_AID); */
++		} else {
++			for (i = 0; i < 6 ; i++)
++				ODM_Write1Byte(pDM_Odm, (REG_BFMER1_INFO_8812A + i), BeamformerEntry.MacAddr[i]);
++			/*CSI report use legacy ofdm so don't need to fill P_AID.*/
++			/*PlatformEFIOWrite2Byte(Adapter, REG_BFMER1_INFO_8812A+6, BeamformEntry.P_AID);*/
++		}
++
++		/*CSI report parameters of Beamformee*/
++		if (BeamformerEntry.BeamformEntryCap & BEAMFORMEE_CAP_VHT_SU) {
++			if (pDM_Odm->RFType == ODM_2T2R)
++				CSI_Param = 0x01090109;
++			else
++				CSI_Param = 0x01080108;
++		} else {
++			if (pDM_Odm->RFType == ODM_2T2R)
++				CSI_Param = 0x03090309;
++			else
++				CSI_Param = 0x03080308;
++		}
++
++		ODM_Write4Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW20_8812A, CSI_Param);
++		ODM_Write4Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW40_8812A, CSI_Param);
++		ODM_Write4Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW80_8812A, CSI_Param);
++
++		/*Timeout value for MAC to leave NDP_RX_standby_state (60 us, Test chip) (80 us,  MP chip)*/
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8812A + 3, 0x50);
++	}
++
++
++	if ((pBeamformingInfo->beamformee_su_cnt > 0) && (BFeeIdx < BEAMFORMEE_ENTRY_NUM)) {
++		BeamformeeEntry = pBeamformingInfo->BeamformeeEntry[BFeeIdx];
++
++		if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS))
++			STAid = BeamformeeEntry.MacId;
++		else
++			STAid = BeamformeeEntry.P_AID;
++
++		/*P_AID of Beamformee & enable NDPA transmission & enable NDPA interrupt*/
++		if (BFeeIdx == 0) {
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8812A, STAid);
++			ODM_Write1Byte(pDM_Odm, REG_TXBF_CTRL_8812A + 3, ODM_Read1Byte(pDM_Odm, REG_TXBF_CTRL_8812A + 3) | BIT4 | BIT6 | BIT7);
++		} else
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8812A + 2, STAid | BIT12 | BIT14 | BIT15);
++
++		/*CSI report parameters of Beamformee*/
++		if (BFeeIdx == 0) {
++			/*Get BIT24 & BIT25*/
++			u1Byte	tmp = ODM_Read1Byte(pDM_Odm, REG_BFMEE_SEL_8812A + 3) & 0x3;
++
++			ODM_Write1Byte(pDM_Odm, REG_BFMEE_SEL_8812A + 3, tmp | 0x60);
++			ODM_Write2Byte(pDM_Odm, REG_BFMEE_SEL_8812A, STAid | BIT9);
++		} else {
++			/*Set BIT25*/
++			ODM_Write2Byte(pDM_Odm, REG_BFMEE_SEL_8812A + 2, STAid | 0xE200);
++		}
++			phydm_Beamforming_Notify(pDM_Odm);
++	}
++}
++
++
++VOID
++HalTxbfJaguar_Leave(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamformingInfo = &pDM_Odm->BeamformingInfo;
++	RT_BEAMFORMER_ENTRY	BeamformerEntry;
++	RT_BEAMFORMEE_ENTRY	BeamformeeEntry;
++	
++	if (Idx < BEAMFORMER_ENTRY_NUM) {
++		BeamformerEntry = pBeamformingInfo->BeamformerEntry[Idx];
++		BeamformeeEntry = pBeamformingInfo->BeamformeeEntry[Idx];
++	} else
++		return;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s]Start!, IDx = %d\n", __func__, Idx));
++
++	/*Clear P_AID of Beamformee*/
++	/*Clear MAC address of Beamformer*/
++	/*Clear Associated Bfmee Sel*/
++	
++	if (BeamformerEntry.BeamformEntryCap == BEAMFORMING_CAP_NONE) {
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8812A, 0xC8);
++		if (Idx == 0) {
++			ODM_Write4Byte(pDM_Odm, REG_BFMER0_INFO_8812A, 0);
++			ODM_Write2Byte(pDM_Odm, REG_BFMER0_INFO_8812A + 4, 0);
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW20_8812A, 0);
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW40_8812A, 0);
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW80_8812A, 0);
++		} else {
++			ODM_Write4Byte(pDM_Odm, REG_BFMER1_INFO_8812A, 0);
++			ODM_Write2Byte(pDM_Odm, REG_BFMER1_INFO_8812A + 4, 0);
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW20_8812A, 0);
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW40_8812A, 0);
++			ODM_Write2Byte(pDM_Odm, REG_CSI_RPT_PARAM_BW80_8812A, 0);
++		}
++	}
++
++	if (BeamformeeEntry.BeamformEntryCap == BEAMFORMING_CAP_NONE) {
++		halTxbfJaguar_RfMode(pDM_Odm, pBeamformingInfo);
++		if (Idx == 0) {
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8812A, 0x0);
++			ODM_Write2Byte(pDM_Odm, REG_BFMEE_SEL_8812A, 0);
++		} else {
++			ODM_Write2Byte(pDM_Odm, REG_TXBF_CTRL_8812A + 2, ODM_Read2Byte(pDM_Odm, REG_TXBF_CTRL_8812A + 2) & 0xF000);
++			ODM_Write2Byte(pDM_Odm, REG_BFMEE_SEL_8812A + 2, ODM_Read2Byte(pDM_Odm, REG_BFMEE_SEL_8812A + 2) & 0x60);
++		}
++	}
++	
++}
++
++
++VOID
++HalTxbfJaguar_Status(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u2Byte					BeamCtrlVal;
++	u4Byte					BeamCtrlReg;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	RT_BEAMFORMEE_ENTRY	BeamformEntry = pBeamInfo->BeamformeeEntry[Idx];
++
++	if (phydm_actingDetermine(pDM_Odm, PhyDM_ACTING_AS_IBSS))
++		BeamCtrlVal = BeamformEntry.MacId;
++	else
++		BeamCtrlVal = BeamformEntry.P_AID;
++
++	if (Idx == 0)
++		BeamCtrlReg = REG_TXBF_CTRL_8812A;
++	else {
++		BeamCtrlReg = REG_TXBF_CTRL_8812A + 2;
++		BeamCtrlVal |= BIT12 | BIT14 | BIT15;
++	}
++
++	if ((BeamformEntry.BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSED) && (pBeamInfo->applyVmatrix == TRUE)) {
++		if (BeamformEntry.SoundBW == CHANNEL_WIDTH_20)
++			BeamCtrlVal |= BIT9;
++		else if (BeamformEntry.SoundBW == CHANNEL_WIDTH_40)
++			BeamCtrlVal |= (BIT9 | BIT10);
++		else if (BeamformEntry.SoundBW == CHANNEL_WIDTH_80)
++			BeamCtrlVal |= (BIT9 | BIT10 | BIT11);
++	} else
++		BeamCtrlVal &= ~(BIT9 | BIT10 | BIT11);
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] BeamCtrlVal = 0x%x!\n", __func__, BeamCtrlVal));
++
++	ODM_Write2Byte(pDM_Odm, BeamCtrlReg, BeamCtrlVal);
++}
++
++
++
++VOID
++HalTxbfJaguar_FwTxBF(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_BEAMFORMEE_ENTRY	pBeamEntry = pBeamInfo->BeamformeeEntry + Idx;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pBeamEntry->BeamformEntryState == BEAMFORMING_ENTRY_STATE_PROGRESSING)
++		halTxbfJaguar_DownloadNDPA(pDM_Odm, Idx);
++
++	halTxbfJaguar_FwTxBFCmd(pDM_Odm);
++}
++
++
++VOID
++HalTxbfJaguar_Patch(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Operation
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (pBeamInfo->BeamformCap == BEAMFORMING_CAP_NONE)
++		return;
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	if (Operation == SCAN_OPT_BACKUP_BAND0)
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8812A, 0xC8);
++	else if (Operation == SCAN_OPT_RESTORE)
++		ODM_Write1Byte(pDM_Odm, REG_SND_PTCL_CTRL_8812A, 0xCB);
++#endif
++}
++
++VOID
++HalTxbfJaguar_Clk_8812A(
++	IN PVOID			pDM_VOID
++)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u2Byte	u2btmp;
++	u1Byte	Count = 0, u1btmp;
++	PADAPTER	Adapter = pDM_Odm->Adapter;
++	
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] Start!\n", __func__));
++
++	if (*(pDM_Odm->pbScanInProcess)) {
++		ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_LOUD, ("[%s] return by Scan\n", __func__));
++		return;
++	}
++#if DEV_BUS_TYPE == RT_PCI_INTERFACE	
++	/*Stop PCIe TxDMA*/
++	ODM_Write1Byte(pDM_Odm, REG_PCIE_CTRL_REG_8812A + 1, 0xFE);
++#endif
++
++	/*Stop Usb TxDMA*/
++#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
++	RT_DISABLE_FUNC(Adapter, DF_TX_BIT);
++	PlatformReturnAllPendingTxPackets(Adapter);
++#else
++	rtw_write_port_cancel(Adapter);
++#endif
++
++	/*Wait TXFF empty*/
++	for (Count = 0; Count < 100; Count++) {
++		u2btmp = ODM_Read2Byte(pDM_Odm, REG_TXPKT_EMPTY_8812A);
++		u2btmp = u2btmp & 0xfff;
++		if (u2btmp != 0xfff) {
++			ODM_delay_ms(10);
++			continue;
++		} else
++			break;
++	}
++
++	/*TX pause*/
++	ODM_Write1Byte(pDM_Odm, REG_TXPAUSE_8812A, 0xFF);
++
++	/*Wait TX State Machine OK*/
++	for (Count = 0; Count < 100; Count++) {
++		if (ODM_Read4Byte(pDM_Odm, REG_SCH_TXCMD_8812A) != 0)
++			continue;
++		else
++			break;
++	}
++
++
++	/*Stop RX DMA path*/
++	u1btmp = ODM_Read1Byte(pDM_Odm, REG_RXDMA_CONTROL_8812A);
++	ODM_Write1Byte(pDM_Odm, REG_RXDMA_CONTROL_8812A, u1btmp | BIT2);
++
++	for (Count = 0; Count < 100; Count++) {
++		u1btmp = ODM_Read1Byte(pDM_Odm, REG_RXDMA_CONTROL_8812A);
++		if (u1btmp & BIT1)
++			break;
++		else
++			ODM_delay_ms(10);
++	}
++
++	/*Disable clock*/
++	ODM_Write1Byte(pDM_Odm, REG_SYS_CLKR_8812A + 1, 0xf0);
++	/*Disable 320M*/
++	ODM_Write1Byte(pDM_Odm, REG_AFE_PLL_CTRL_8812A + 3, 0x8);
++	/*Enable 320M*/
++	ODM_Write1Byte(pDM_Odm, REG_AFE_PLL_CTRL_8812A + 3, 0xa);
++	/*Enable clock*/
++	ODM_Write1Byte(pDM_Odm, REG_SYS_CLKR_8812A + 1, 0xfc);
++
++
++	/*Release Tx pause*/
++	ODM_Write1Byte(pDM_Odm, REG_TXPAUSE_8812A, 0);
++
++	/*Enable RX DMA path*/
++	u1btmp = ODM_Read1Byte(pDM_Odm, REG_RXDMA_CONTROL_8812A);
++	ODM_Write1Byte(pDM_Odm, REG_RXDMA_CONTROL_8812A, u1btmp & (~BIT2));
++#if DEV_BUS_TYPE == RT_PCI_INTERFACE
++	/*Enable PCIe TxDMA*/
++	ODM_Write1Byte(pDM_Odm, REG_PCIE_CTRL_REG_8812A + 1, 0);
++#endif
++	/*Start Usb TxDMA*/
++	RT_ENABLE_FUNC(Adapter, DF_TX_BIT);
++}
++
++#endif
++
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbfjaguar.h b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbfjaguar.h
+new file mode 100644
+index 0000000..49a5fdf
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/haltxbfjaguar.h
+@@ -0,0 +1,67 @@
++#ifndef __HAL_TXBF_JAGUAR_H__
++#define __HAL_TXBF_JAGUAR_H__
++
++#if (BEAMFORMING_SUPPORT == 1)
++#if ((RTL8812A_SUPPORT == 1) || (RTL8821A_SUPPORT == 1))
++VOID
++HalTxbf8812A_setNDPArate(
++	IN PVOID			pDM_VOID,
++	IN u1Byte	BW,
++	IN u1Byte	Rate
++);
++
++
++VOID
++HalTxbfJaguar_Enter(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbfJaguar_Leave(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbfJaguar_Status(
++	IN PVOID			pDM_VOID,
++	IN u1Byte				Idx
++	);
++
++
++VOID
++HalTxbfJaguar_FwTxBF(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Idx
++	);
++
++
++VOID
++HalTxbfJaguar_Patch(
++	IN PVOID			pDM_VOID,
++	IN	u1Byte				Operation
++	);
++
++
++VOID
++HalTxbfJaguar_Clk_8812A(
++	IN PVOID			pDM_VOID
++	);
++
++#else
++
++#define HalTxbf8812A_setNDPArate(pDM_VOID,	BW,	Rate)
++#define HalTxbfJaguar_Enter(pDM_VOID, Idx)
++#define HalTxbfJaguar_Leave(pDM_VOID, Idx)
++#define HalTxbfJaguar_Status(pDM_VOID, Idx)
++#define HalTxbfJaguar_FwTxBF(pDM_VOID,	Idx)
++#define HalTxbfJaguar_Patch(pDM_VOID, Operation)
++#define HalTxbfJaguar_Clk_8812A(pDM_VOID)
++#endif
++
++#endif				
++#endif	// #ifndef __HAL_TXBF_JAGUAR_H__								
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/txbf/phydm_hal_txbf_api.c b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/phydm_hal_txbf_api.c
+new file mode 100644
+index 0000000..2cfe670
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/phydm_hal_txbf_api.c
+@@ -0,0 +1,60 @@
++#include "mp_precomp.h"
++#include "phydm_precomp.h"
++
++#if (BEAMFORMING_SUPPORT == 1)
++
++/*Add by YuChen for 8822B MU-MIMO API*/
++
++/*this function is only used for BFer*/
++u1Byte
++phydm_get_ndpa_rate(
++	IN PVOID		pDM_VOID
++	)
++{
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++	u1Byte		NDPARate = ODM_RATE6M;
++
++	if (pDM_Odm->RSSI_Min >= 30)	/*link RSSI > 30%*/
++		NDPARate = ODM_RATE24M;
++	else if (pDM_Odm->RSSI_Min <= 25)
++		NDPARate = ODM_RATE6M;
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_TRACE, ("[%s] NDPARate = 0x%x\n", __func__, NDPARate));
++
++	return NDPARate;
++
++}
++
++/*this function is only used for BFer*/
++u1Byte
++phydm_get_beamforming_sounding_info(
++	IN PVOID		pDM_VOID,
++	IN pu2Byte	Troughput,
++	IN u1Byte	Total_BFee_Num,
++	IN pu1Byte	TxRate
++	)
++{
++	u1Byte	idx = 0;
++	u1Byte	soundingdecision = 0xff;
++	PDM_ODM_T	pDM_Odm = (PDM_ODM_T)pDM_VOID;
++
++	for (idx = 0; idx < Total_BFee_Num; idx++) {
++		if (((TxRate[idx] >= ODM_RATEVHTSS3MCS7) && (TxRate[idx] <= ODM_RATEVHTSS3MCS9)))
++			soundingdecision = soundingdecision & ~(1<<idx);
++	}
++
++	for (idx = 0; idx < Total_BFee_Num; idx++) {
++		if (Troughput[idx] <= 10)
++			soundingdecision = soundingdecision & ~(1<<idx);
++	}
++
++	ODM_RT_TRACE(pDM_Odm, PHYDM_COMP_TXBF, ODM_DBG_TRACE, ("[%s] soundingdecision = 0x%x\n", __func__, soundingdecision));
++
++	return soundingdecision;
++
++}
++
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/phydm/txbf/phydm_hal_txbf_api.h b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/phydm_hal_txbf_api.h
+new file mode 100644
+index 0000000..72adb52
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/phydm/txbf/phydm_hal_txbf_api.h
+@@ -0,0 +1,36 @@
++/********************************************************************************/
++/**/
++/*Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.*/
++/**/                                      
++/*This program is free software; you can redistribute it and/or modify it*/
++/*under the terms of version 2 of the GNU General Public License as*/
++/*published by the Free Software Foundation.*/
++/**/
++/*This program is distributed in the hope that it will be useful, but WITHOUT*/
++/*ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or*/
++/*FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for*/
++/*more details.*/
++/*You should have received a copy of the GNU General Public License along with*/
++/*this program; if not, write to the Free Software Foundation, Inc.,*/
++/*51 Franklin Street, Fifth Floor, Boston, MA 02110, USA*/
++/**/
++/**/
++/********************************************************************************/
++#ifndef	__PHYDM_HAL_TXBF_API_H__
++#define __PHYDM_HAL_TXBF_API_H__
++
++u1Byte
++phydm_get_beamforming_sounding_info(
++	IN PVOID		pDM_VOID,
++	IN pu2Byte	Troughput,
++	IN u1Byte	Total_BFee_Num,
++	IN pu1Byte	TxRate
++	);
++
++
++u1Byte
++phydm_get_ndpa_rate(
++	IN PVOID		pDM_VOID
++	);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/rtl8812a/Hal8812PwrSeq.c b/drivers/net/wireless/rtl8812au/hal/rtl8812a/Hal8812PwrSeq.c
+new file mode 100644
+index 0000000..b48f7bb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/rtl8812a/Hal8812PwrSeq.c
+@@ -0,0 +1,88 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include "Hal8812PwrSeq.h"
++#include <rtl8812a_hal.h>
++
++/*
++    drivers should parse below arrays and do the corresponding actions
++*/
++/* 3 Power on  Array */
++WLAN_PWR_CFG rtl8812_power_on_flow[RTL8812_TRANS_CARDEMU_TO_ACT_STEPS + RTL8812_TRANS_END_STEPS] = {
++	RTL8812_TRANS_CARDEMU_TO_ACT
++	RTL8812_TRANS_END
++};
++
++/* 3Radio off GPIO Array */
++WLAN_PWR_CFG rtl8812_radio_off_flow[RTL8812_TRANS_ACT_TO_CARDEMU_STEPS + RTL8812_TRANS_END_STEPS] = {
++	RTL8812_TRANS_ACT_TO_CARDEMU
++	RTL8812_TRANS_END
++};
++
++/* 3Card Disable Array */
++WLAN_PWR_CFG rtl8812_card_disable_flow[RTL8812_TRANS_ACT_TO_CARDEMU_STEPS + RTL8812_TRANS_CARDEMU_TO_PDN_STEPS + RTL8812_TRANS_END_STEPS] = {
++	RTL8812_TRANS_ACT_TO_CARDEMU
++	RTL8812_TRANS_CARDEMU_TO_CARDDIS
++	RTL8812_TRANS_END
++};
++
++/* 3 Card Enable Array */
++WLAN_PWR_CFG rtl8812_card_enable_flow[RTL8812_TRANS_ACT_TO_CARDEMU_STEPS + RTL8812_TRANS_CARDEMU_TO_PDN_STEPS + RTL8812_TRANS_END_STEPS] = {
++	RTL8812_TRANS_CARDDIS_TO_CARDEMU
++	RTL8812_TRANS_CARDEMU_TO_ACT
++	RTL8812_TRANS_END
++};
++
++/* 3Suspend Array */
++WLAN_PWR_CFG rtl8812_suspend_flow[RTL8812_TRANS_ACT_TO_CARDEMU_STEPS + RTL8812_TRANS_CARDEMU_TO_SUS_STEPS + RTL8812_TRANS_END_STEPS] = {
++	RTL8812_TRANS_ACT_TO_CARDEMU
++	RTL8812_TRANS_CARDEMU_TO_SUS
++	RTL8812_TRANS_END
++};
++
++/* 3 Resume Array */
++WLAN_PWR_CFG rtl8812_resume_flow[RTL8812_TRANS_ACT_TO_CARDEMU_STEPS + RTL8812_TRANS_CARDEMU_TO_SUS_STEPS + RTL8812_TRANS_END_STEPS] = {
++	RTL8812_TRANS_SUS_TO_CARDEMU
++	RTL8812_TRANS_CARDEMU_TO_ACT
++	RTL8812_TRANS_END
++};
++
++
++
++/* 3HWPDN Array */
++WLAN_PWR_CFG rtl8812_hwpdn_flow[RTL8812_TRANS_ACT_TO_CARDEMU_STEPS + RTL8812_TRANS_CARDEMU_TO_PDN_STEPS + RTL8812_TRANS_END_STEPS] = {
++	RTL8812_TRANS_ACT_TO_CARDEMU
++	RTL8812_TRANS_CARDEMU_TO_PDN
++	RTL8812_TRANS_END
++};
++
++/* 3 Enter LPS */
++WLAN_PWR_CFG rtl8812_enter_lps_flow[RTL8812_TRANS_ACT_TO_LPS_STEPS + RTL8812_TRANS_END_STEPS] = {
++	/* FW behavior */
++	RTL8812_TRANS_ACT_TO_LPS
++	RTL8812_TRANS_END
++};
++
++/* 3 Leave LPS */
++WLAN_PWR_CFG rtl8812_leave_lps_flow[RTL8812_TRANS_LPS_TO_ACT_STEPS + RTL8812_TRANS_END_STEPS] = {
++	/* FW behavior */
++	RTL8812_TRANS_LPS_TO_ACT
++	RTL8812_TRANS_END
++};
+diff --git a/drivers/net/wireless/rtl8812au/hal/rtl8812a/Hal8821APwrSeq.c b/drivers/net/wireless/rtl8812au/hal/rtl8812a/Hal8821APwrSeq.c
+new file mode 100644
+index 0000000..be0f18c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/rtl8812a/Hal8821APwrSeq.c
+@@ -0,0 +1,87 @@
++
++/*++
++Copyright (c) Realtek Semiconductor Corp. All rights reserved.
++
++Module Name:
++	Hal8821PwrSeq.c
++
++Abstract:
++	This file includes all kinds of Power Action event for RTL8821A and corresponding hardware configurtions which are released from HW SD.
++
++Major Change History:
++	When       Who               What
++	---------- ---------------   -------------------------------
++	2011-08-08 Roger            Create.
++
++--*/
++
++
++#include "Hal8821APwrSeq.h"
++#include <rtl8812a_hal.h>
++
++
++/*
++    drivers should parse below arrays and do the corresponding actions
++*/
++/* 3 Power on  Array */
++WLAN_PWR_CFG rtl8821A_power_on_flow[RTL8821A_TRANS_CARDEMU_TO_ACT_STEPS + RTL8821A_TRANS_END_STEPS] = {
++	RTL8821A_TRANS_CARDEMU_TO_ACT
++	RTL8821A_TRANS_END
++};
++
++/* 3Radio off GPIO Array */
++WLAN_PWR_CFG rtl8821A_radio_off_flow[RTL8821A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8821A_TRANS_END_STEPS] = {
++	RTL8821A_TRANS_ACT_TO_CARDEMU
++	RTL8821A_TRANS_END
++};
++
++/* 3Card Disable Array */
++WLAN_PWR_CFG rtl8821A_card_disable_flow[RTL8821A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8821A_TRANS_CARDEMU_TO_PDN_STEPS + RTL8821A_TRANS_END_STEPS] = {
++	RTL8821A_TRANS_ACT_TO_CARDEMU
++	RTL8821A_TRANS_CARDEMU_TO_CARDDIS
++	RTL8821A_TRANS_END
++};
++
++/* 3 Card Enable Array */
++WLAN_PWR_CFG rtl8821A_card_enable_flow[RTL8821A_TRANS_CARDDIS_TO_CARDEMU_STEPS + RTL8821A_TRANS_CARDEMU_TO_ACT_STEPS + RTL8821A_TRANS_END_STEPS] = {
++	RTL8821A_TRANS_CARDDIS_TO_CARDEMU
++	RTL8821A_TRANS_CARDEMU_TO_ACT
++	RTL8821A_TRANS_END
++};
++
++/* 3Suspend Array */
++WLAN_PWR_CFG rtl8821A_suspend_flow[RTL8821A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8821A_TRANS_CARDEMU_TO_SUS_STEPS + RTL8821A_TRANS_END_STEPS] = {
++	RTL8821A_TRANS_ACT_TO_CARDEMU
++	RTL8821A_TRANS_CARDEMU_TO_SUS
++	RTL8821A_TRANS_END
++};
++
++/* 3 Resume Array */
++WLAN_PWR_CFG rtl8821A_resume_flow[RTL8821A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8821A_TRANS_CARDEMU_TO_SUS_STEPS + RTL8821A_TRANS_END_STEPS] = {
++	RTL8821A_TRANS_SUS_TO_CARDEMU
++	RTL8821A_TRANS_CARDEMU_TO_ACT
++	RTL8821A_TRANS_END
++};
++
++
++
++/* 3HWPDN Array */
++WLAN_PWR_CFG rtl8821A_hwpdn_flow[RTL8821A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8821A_TRANS_CARDEMU_TO_PDN_STEPS + RTL8821A_TRANS_END_STEPS] = {
++	RTL8821A_TRANS_ACT_TO_CARDEMU
++	RTL8821A_TRANS_CARDEMU_TO_PDN
++	RTL8821A_TRANS_END
++};
++
++/* 3 Enter LPS */
++WLAN_PWR_CFG rtl8821A_enter_lps_flow[RTL8821A_TRANS_ACT_TO_LPS_STEPS + RTL8821A_TRANS_END_STEPS] = {
++	/* FW behavior */
++	RTL8821A_TRANS_ACT_TO_LPS
++	RTL8821A_TRANS_END
++};
++
++/* 3 Leave LPS */
++WLAN_PWR_CFG rtl8821A_leave_lps_flow[RTL8821A_TRANS_LPS_TO_ACT_STEPS + RTL8821A_TRANS_END_STEPS] = {
++	/* FW behavior */
++	RTL8821A_TRANS_LPS_TO_ACT
++	RTL8821A_TRANS_END
++};
+diff --git a/drivers/net/wireless/rtl8812au/hal/rtl8812a/hal8812a_fw.c b/drivers/net/wireless/rtl8812au/hal/rtl8812a/hal8812a_fw.c
+new file mode 100644
+index 0000000..fb8155b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/rtl8812a/hal8812a_fw.c
+@@ -0,0 +1,7266 @@
++#ifdef CONFIG_RTL8812A
++
++#include "drv_types.h"
++#ifdef LOAD_FW_HEADER_FROM_DRIVER
++
++#if (defined(CONFIG_AP_WOWLAN) || (DM_ODM_SUPPORT_TYPE & (ODM_AP)))
++u1Byte Array_MP_8812A_FW_AP[] = {
++0x01, 0x95, 0x20, 0x00, 0x31, 0x00, 0x00, 0x00, 0x03, 0x09, 0x21, 0x01, 0x84, 0x5C, 0x00, 0x00, 
++0xC9, 0x2D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x02, 0x4A, 0xB8, 0x02, 0x8F, 0x5F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x85, 0xAE, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x90, 0x6B, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x8F, 0xE2, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x83, 0x11, 0x00, 0x00, 
++0x0A, 0x08, 0x03, 0x03, 0x00, 0x04, 0x09, 0x07, 0x03, 0x03, 0x00, 0x04, 0x08, 0x06, 0x03, 0x02, 
++0x00, 0x04, 0x08, 0x05, 0x03, 0x01, 0x00, 0x04, 0x0D, 0x0A, 0x07, 0x05, 0x00, 0x08, 0x0C, 0x0A, 
++0x07, 0x04, 0x00, 0x08, 0x0B, 0x0A, 0x06, 0x05, 0x00, 0x08, 0x0B, 0x0A, 0x05, 0x03, 0x00, 0x08, 
++0x0B, 0x0A, 0x03, 0x02, 0x00, 0x08, 0x14, 0x12, 0x0C, 0x04, 0x00, 0x10, 0x14, 0x12, 0x09, 0x04, 
++0x00, 0x10, 0x24, 0x22, 0x1C, 0x12, 0x00, 0x20, 0x24, 0x22, 0x18, 0x0C, 0x00, 0x20, 0x24, 0x22, 
++0x14, 0x06, 0x00, 0x20, 0x24, 0x22, 0x0F, 0x04, 0x00, 0x20, 0x24, 0x21, 0x0A, 0x04, 0x00, 0x20, 
++0x23, 0x21, 0x0C, 0x04, 0x00, 0x20, 0x23, 0x1F, 0x0A, 0x04, 0x00, 0x20, 0x22, 0x1F, 0x0F, 0x04, 
++0x00, 0x20, 0x21, 0x1F, 0x16, 0x0C, 0x00, 0x20, 0x31, 0x2F, 0x20, 0x14, 0x00, 0x30, 0x31, 0x2F, 
++0x18, 0x10, 0x00, 0x30, 0x31, 0x2C, 0x18, 0x0C, 0x00, 0x30, 0x31, 0x2A, 0x14, 0x0C, 0x00, 0x30, 
++0x31, 0x28, 0x14, 0x00, 0x00, 0x30, 0x31, 0x24, 0x14, 0x00, 0x00, 0x30, 0x31, 0x1E, 0x14, 0x00, 
++0x00, 0x30, 0x15, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x15, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 
++0x05, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x05, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x10, 0xF0, 
++0xFF, 0x0F, 0x00, 0x00, 0x00, 0x10, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0xF5, 0x0F, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0D, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x10, 0xF0, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x10, 0xF0, 0x3F, 0x00, 0x00, 0x00, 0x00, 0x15, 
++0xF0, 0x3F, 0x00, 0x00, 0x00, 0x00, 0x15, 0xF0, 0xCF, 0xFF, 0x00, 0x00, 0x00, 0x16, 0x0D, 0x17, 
++0x0E, 0x17, 0x0F, 0x18, 0x10, 0x19, 0x11, 0x1A, 0x12, 0x1A, 0x13, 0x1A, 0x14, 0x1A, 0x15, 0x1B, 
++0xFF, 0x17, 0x0E, 0x18, 0x10, 0x19, 0x11, 0x1A, 0x12, 0x1B, 0x15, 0x1C, 0xFF, 0x1D, 0xFF, 0x1E, 
++0xFF, 0x1F, 0xFF, 0xFF, 0xFF, 0x14, 0x0D, 0x0E, 0x15, 0x15, 0x0F, 0x16, 0x10, 0x17, 0x11, 0x18, 
++0x12, 0x18, 0x13, 0x18, 0xFF, 0x15, 0x0D, 0x16, 0x10, 0x10, 0x17, 0x18, 0x12, 0x19, 0xFF, 0x1A, 
++0xFF, 0x1B, 0xFF, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00, 0x04, 0x04, 0x0C, 0x0C, 0x0D, 0x0C, 0x0E, 
++0x0D, 0x0F, 0x17, 0x18, 0x10, 0x19, 0x11, 0x19, 0x11, 0x19, 0x12, 0x1A, 0x14, 0x0C, 0x0C, 0x16, 
++0x0D, 0x17, 0x0F, 0x18, 0x10, 0x19, 0x13, 0x1A, 0x14, 0x1B, 0x15, 0x1C, 0x1B, 0x1D, 0x1C, 0x1E, 
++0x1D, 0x04, 0x04, 0x0C, 0x14, 0x0D, 0x14, 0x0E, 0x14, 0x0F, 0x15, 0x10, 0x16, 0x17, 0x11, 0x12, 
++0x17, 0x0C, 0x0C, 0x14, 0x0E, 0x15, 0x0F, 0x16, 0x10, 0x17, 0x12, 0x18, 0x18, 0x19, 0x19, 0x1A, 
++0x19, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x24, 0x26, 0x2A, 0x00, 0x00, 0x00, 
++0x1F, 0x21, 0x25, 0x27, 0x28, 0x00, 0x00, 0x00, 0x00, 0x23, 0x26, 0x28, 0x2A, 0x00, 0x00, 0x00, 
++0x00, 0x23, 0x26, 0x28, 0x2A, 0x00, 0x00, 0x00, 0x00, 0x23, 0x26, 0x28, 0x2A, 0x00, 0x00, 0x00, 
++0x00, 0x20, 0x25, 0x27, 0x29, 0x29, 0x2A, 0x00, 0x00, 0x00, 0x00, 0x20, 0x25, 0x27, 0x29, 0x29, 
++0x2A, 0x00, 0x00, 0x00, 0x00, 0x23, 0x26, 0x28, 0x2A, 0x2A, 0x2A, 0x00, 0x00, 0x00, 0x1F, 0x23, 
++0x26, 0x28, 0x2A, 0x2A, 0x2A, 0x00, 0x04, 0x00, 0x04, 0x00, 0x08, 0x00, 0x10, 0x00, 0x18, 0x00, 
++0x24, 0x00, 0x30, 0x00, 0x48, 0x00, 0x60, 0x00, 0x90, 0x00, 0xC0, 0x00, 0xD8, 0x00, 0x3C, 0x00, 
++0x64, 0x00, 0x78, 0x00, 0xA0, 0x00, 0xF0, 0x01, 0x40, 0x01, 0x90, 0x01, 0xE0, 0x00, 0xA0, 0x00, 
++0xF0, 0x01, 0x40, 0x01, 0x90, 0x02, 0x58, 0x03, 0x20, 0x04, 0xB0, 0x06, 0x40, 0x00, 0xC8, 0x01, 
++0x18, 0x01, 0xE0, 0x02, 0xD0, 0x03, 0xE8, 0x04, 0xB0, 0x06, 0x40, 0x07, 0xD0, 0x00, 0xC8, 0x01, 
++0x18, 0x01, 0xE0, 0x02, 0xD0, 0x03, 0xE8, 0x04, 0xB0, 0x06, 0x40, 0x07, 0xD0, 0x00, 0x3C, 0x00, 
++0x50, 0x00, 0x64, 0x00, 0xA0, 0x00, 0xF0, 0x01, 0x40, 0x01, 0x90, 0x01, 0x90, 0x02, 0x58, 0x03, 
++0x20, 0x00, 0x78, 0x00, 0xF0, 0x01, 0x90, 0x02, 0x58, 0x03, 0xE8, 0x07, 0xD0, 0x09, 0x60, 0x0F, 
++0xA0, 0x12, 0xC0, 0x15, 0x18, 0x00, 0xC8, 0x01, 0x18, 0x01, 0xE0, 0x02, 0xD0, 0x03, 0xE8, 0x04, 
++0xB0, 0x06, 0x40, 0x07, 0xD0, 0x07, 0xD0, 0x07, 0xD0, 0x00, 0xC8, 0x01, 0x18, 0x01, 0xE0, 0x02, 
++0xD0, 0x03, 0xE8, 0x04, 0xB0, 0x06, 0x40, 0x07, 0xD0, 0x07, 0xD0, 0x07, 0xD0, 0x00, 0x02, 0x00, 
++0x02, 0x00, 0x04, 0x00, 0x08, 0x00, 0x0C, 0x00, 0x12, 0x00, 0x18, 0x00, 0x24, 0x00, 0x30, 0x00, 
++0x48, 0x00, 0x60, 0x00, 0x6C, 0x00, 0x14, 0x00, 0x32, 0x00, 0x3C, 0x00, 0x50, 0x00, 0x78, 0x00, 
++0xA0, 0x00, 0xC8, 0x00, 0xF0, 0x00, 0x50, 0x00, 0x78, 0x00, 0xA0, 0x00, 0xC8, 0x01, 0x2C, 0x01, 
++0x90, 0x02, 0x58, 0x03, 0x20, 0x00, 0x64, 0x00, 0x8C, 0x00, 0xF0, 0x01, 0x68, 0x01, 0xF4, 0x02, 
++0x58, 0x03, 0x20, 0x03, 0xE8, 0x00, 0x64, 0x00, 0x8C, 0x00, 0xF0, 0x01, 0x68, 0x01, 0xF4, 0x02, 
++0x58, 0x03, 0x20, 0x03, 0xE8, 0x00, 0x1E, 0x00, 0x28, 0x00, 0x32, 0x00, 0x50, 0x00, 0x78, 0x00, 
++0xA0, 0x00, 0xC8, 0x00, 0xF0, 0x01, 0x7C, 0x01, 0x90, 0x00, 0x3C, 0x00, 0x78, 0x00, 0xC8, 0x01, 
++0x2C, 0x01, 0xF4, 0x03, 0xE8, 0x04, 0xB0, 0x07, 0xD0, 0x09, 0x60, 0x0A, 0xF0, 0x00, 0x64, 0x00, 
++0x8C, 0x00, 0xF0, 0x01, 0x68, 0x01, 0xF4, 0x02, 0x58, 0x03, 0x20, 0x03, 0xE8, 0x03, 0xE8, 0x03, 
++0xE8, 0x00, 0x64, 0x00, 0x8C, 0x00, 0xF0, 0x01, 0x68, 0x01, 0xF4, 0x02, 0x58, 0x03, 0x20, 0x03, 
++0xE8, 0x03, 0xE8, 0x03, 0xE8, 0x01, 0x01, 0x01, 0x02, 0x01, 0x02, 0x03, 0x03, 0x04, 0x04, 0x05, 
++0x05, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 
++0x0A, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 
++0x0A, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x0A, 0x0B, 0x05, 0x06, 0x06, 0x07, 0x07, 
++0x08, 0x09, 0x0A, 0x0B, 0x0B, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x0A, 0x0B, 0x05, 
++0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x0A, 0x0B, 0x01, 0x01, 0x01, 0x01, 0x01, 0x02, 0x03, 
++0x04, 0x05, 0x06, 0x07, 0x08, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x02, 0x04, 0x06, 
++0x07, 0x08, 0x0A, 0x0B, 0x0C, 0x03, 0x05, 0x06, 0x07, 0x08, 0x0A, 0x0B, 0x0C, 0x05, 0x06, 0x07, 
++0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x02, 0x04, 0x06, 0x07, 0x08, 0x09, 0x0B, 0x0C, 0x0C, 0x0C, 0x03, 
++0x05, 0x06, 0x07, 0x08, 0x09, 0x0B, 0x0C, 0x0C, 0x0C, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0A, 0x0B, 
++0x0C, 0x0C, 0x0C, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x0C, 0x0C, 0x19, 0x06, 0x04, 
++0x02, 0x00, 0x18, 0x00, 0x04, 0x0C, 0x14, 0x2C, 0x36, 0x04, 0x08, 0x08, 0x08, 0x0A, 0x0A, 0x04, 
++0x04, 0x04, 0x05, 0x04, 0x04, 0x05, 0x07, 0x07, 0x07, 0x08, 0x0A, 0x04, 0x07, 0x0A, 0x0E, 0x11, 
++0x13, 0x14, 0x15, 0x03, 0x04, 0x07, 0x07, 0x08, 0x0B, 0x0D, 0x0F, 0x05, 0x05, 0x07, 0x07, 0x08, 
++0x0B, 0x0D, 0x0F, 0x05, 0x05, 0x07, 0x07, 0x08, 0x0B, 0x0D, 0x0F, 0x07, 0x08, 0x08, 0x0A, 0x0A, 
++0x0C, 0x0E, 0x10, 0x11, 0x11, 0x07, 0x09, 0x09, 0x0B, 0x0B, 0x0D, 0x0F, 0x13, 0x13, 0x14, 0x05, 
++0x05, 0x07, 0x07, 0x08, 0x0B, 0x0D, 0x0F, 0x0F, 0x0F, 0x05, 0x05, 0x07, 0x07, 0x08, 0x0B, 0x0D, 
++0x0F, 0x0F, 0x0F, 0x04, 0x04, 0x04, 0x05, 0x07, 0x07, 0x09, 0x09, 0x0C, 0x0E, 0x10, 0x12, 0x05, 
++0x06, 0x07, 0x0D, 0x10, 0x11, 0x12, 0x12, 0x07, 0x08, 0x09, 0x09, 0x0C, 0x0E, 0x11, 0x13, 0x09, 
++0x09, 0x09, 0x09, 0x0C, 0x0E, 0x11, 0x13, 0x09, 0x09, 0x09, 0x09, 0x0C, 0x0E, 0x11, 0x13, 0x05, 
++0x06, 0x08, 0x09, 0x0C, 0x0E, 0x12, 0x12, 0x13, 0x14, 0x07, 0x08, 0x09, 0x0A, 0x0C, 0x0F, 0x12, 
++0x12, 0x14, 0x16, 0x09, 0x09, 0x09, 0x09, 0x0C, 0x0E, 0x11, 0x13, 0x13, 0x13, 0x09, 0x09, 0x09, 
++0x09, 0x0C, 0x0E, 0x11, 0x13, 0x13, 0x13, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0xC2, 0xAF, 0x80, 0xFE, 0x32, 0x12, 0x45, 0xE4, 0x85, 0xD0, 0x0B, 0x75, 0xD0, 0x08, 0xAA, 0xE0, 
++0xC2, 0x8C, 0xE5, 0x8A, 0x24, 0x67, 0xF5, 0x8A, 0xE5, 0x8C, 0x34, 0x79, 0xF5, 0x8C, 0xD2, 0x8C, 
++0xEC, 0x24, 0x87, 0xF8, 0xE6, 0xBC, 0x02, 0x02, 0x74, 0xFF, 0xC3, 0x95, 0x81, 0xB4, 0x40, 0x00, 
++0x40, 0xCE, 0x79, 0x03, 0x78, 0x80, 0x16, 0xE6, 0x08, 0x70, 0x0B, 0xC2, 0xAF, 0xE6, 0x30, 0xE1, 
++0x03, 0x44, 0x18, 0xF6, 0xD2, 0xAF, 0x08, 0xD9, 0xED, 0xEA, 0x8B, 0xD0, 0x22, 0xE5, 0x0C, 0xFF, 
++0x23, 0x24, 0x81, 0xF8, 0x0F, 0x08, 0x08, 0xBF, 0x03, 0x04, 0x7F, 0x00, 0x78, 0x81, 0xE6, 0x30, 
++0xE4, 0xF2, 0x00, 0xE5, 0x0C, 0xC3, 0x9F, 0x50, 0x20, 0x05, 0x0C, 0x74, 0x86, 0x25, 0x0C, 0xF8, 
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++0x33, 0xCE, 0xD8, 0xF9, 0xFF, 0xEE, 0x5A, 0xFE, 0xEF, 0x5B, 0x4E, 0x7F, 0xFF, 0x60, 0x02, 0xAF, 
++0x04, 0x22, 0x90, 0xA7, 0xAE, 0xEB, 0xF0, 0xEF, 0x54, 0x7F, 0x24, 0xF4, 0x90, 0xA7, 0xB2, 0xF0, 
++0xED, 0x70, 0x34, 0xF1, 0xB5, 0x70, 0x18, 0xE0, 0x25, 0xE0, 0x24, 0x75, 0xF5, 0x82, 0xE4, 0x34, 
++0x41, 0xF1, 0x98, 0xE0, 0x25, 0xE0, 0x24, 0x76, 0xF5, 0x82, 0xE4, 0x34, 0x41, 0x80, 0x4A, 0xE0, 
++0x25, 0xE0, 0x24, 0x4D, 0xF5, 0x82, 0xE4, 0x34, 0x41, 0xF1, 0x98, 0xE0, 0x25, 0xE0, 0x24, 0x4E, 
++0xF5, 0x82, 0xE4, 0x34, 0x41, 0x80, 0x32, 0xF1, 0xB5, 0x70, 0x18, 0xE0, 0x25, 0xE0, 0x24, 0xC1, 
++0xF5, 0x82, 0xE4, 0x34, 0x41, 0xF1, 0x98, 0xE0, 0x25, 0xE0, 0x24, 0xC2, 0xF5, 0x82, 0xE4, 0x34, 
++0x41, 0x80, 0x16, 0xE0, 0x25, 0xE0, 0x24, 0x99, 0xF5, 0x82, 0xE4, 0x34, 0x41, 0xF1, 0x98, 0xE0, 
++0x25, 0xE0, 0x24, 0x9A, 0xF5, 0x82, 0xE4, 0x34, 0x41, 0xF5, 0x83, 0xE4, 0x93, 0xFF, 0x90, 0xA7, 
++0xAE, 0xE0, 0xFD, 0xD1, 0x5D, 0xA9, 0x07, 0x7F, 0x0C, 0x7E, 0x12, 0x7D, 0x10, 0x90, 0xA7, 0xB0, 
++0xE0, 0xFC, 0xF4, 0x60, 0x2E, 0xE9, 0xF4, 0x60, 0x2A, 0xE9, 0xC3, 0x9F, 0x40, 0x25, 0xE9, 0xD3, 
++0x9D, 0x50, 0x20, 0xF1, 0xAD, 0x12, 0x5D, 0xCF, 0xE0, 0x30, 0xE1, 0x17, 0x74, 0xA6, 0x2D, 0x12, 
++0x5F, 0xDD, 0xE0, 0xC3, 0x94, 0x02, 0x40, 0x0B, 0x90, 0xA7, 0xB1, 0xE9, 0xF0, 0xA9, 0x04, 0x90, 
++0xA7, 0xB0, 0xF0, 0xF1, 0xAD, 0x12, 0x5D, 0xCF, 0xE0, 0x30, 0xE6, 0x2A, 0x74, 0xA6, 0x2D, 0x12, 
++0x5F, 0xDD, 0xE0, 0xC3, 0x94, 0x02, 0x40, 0x1E, 0x90, 0xA7, 0xB0, 0xE0, 0xFD, 0xF4, 0x60, 0x16, 
++0xE9, 0xF4, 0x60, 0x12, 0xE9, 0x9F, 0x40, 0x0E, 0xE9, 0xD3, 0x9E, 0x50, 0x09, 0xA3, 0xE9, 0xF0, 
++0xA9, 0x05, 0x90, 0xA7, 0xB0, 0xF0, 0x90, 0xA7, 0xB0, 0xE0, 0xB4, 0xFF, 0x0D, 0xE9, 0xF0, 0x90, 
++0xA7, 0xAE, 0x12, 0x64, 0x45, 0x74, 0xFF, 0xF0, 0x80, 0x08, 0x90, 0xA7, 0xAE, 0x12, 0x64, 0x45, 
++0xE9, 0xF0, 0x90, 0xA7, 0xB0, 0xE0, 0xFF, 0x22, 0xF5, 0x83, 0xE4, 0x93, 0xFF, 0x90, 0xA7, 0xAE, 
++0xE0, 0xFD, 0xD1, 0x5D, 0x90, 0xA7, 0xB0, 0xEF, 0xF0, 0x90, 0xA7, 0xB2, 0x22, 0x90, 0xA7, 0xAE, 
++0xE0, 0xFD, 0x24, 0x95, 0x22, 0x90, 0xA7, 0xAF, 0xE0, 0x90, 0xA7, 0xB2, 0x22, 0xE0, 0xFB, 0x7A, 
++0x00, 0xEC, 0x54, 0x07, 0x22, 0x13, 0x13, 0x13, 0x54, 0x1F, 0xFF, 0x75, 0xF0, 0x08, 0x22, 0x7E, 
++0xFF, 0xED, 0x54, 0x7F, 0xFC, 0xED, 0x54, 0x80, 0x60, 0x04, 0xAE, 0x04, 0x80, 0x1B, 0xEC, 0x64, 
++0x3D, 0x60, 0x04, 0xEC, 0xB4, 0x3F, 0x12, 0x75, 0xF0, 0x04, 0xEF, 0x12, 0x4F, 0xDA, 0xC4, 0x13, 
++0x54, 0x07, 0x30, 0xE0, 0x04, 0xEC, 0x44, 0x80, 0xFE, 0xAF, 0x06, 0x22, 0x12, 0x7D, 0x42, 0xF5, 
++0x0E, 0x12, 0x4F, 0xE3, 0xF5, 0x0F, 0x12, 0x26, 0x1E, 0xF5, 0x10, 0x90, 0xA5, 0x2E, 0xF0, 0xE5, 
++0x0E, 0x60, 0x06, 0xFD, 0xAF, 0x0F, 0x12, 0x5E, 0x8C, 0x22, 0x90, 0xA7, 0x84, 0xE0, 0x54, 0x7F, 
++0xF0, 0x54, 0xBF, 0xF0, 0x54, 0xDF, 0xF0, 0x54, 0xF0, 0xF0, 0xE4, 0x90, 0xA7, 0x86, 0xF0, 0x90, 
++0xA7, 0x84, 0xE0, 0x54, 0xEF, 0xF0, 0x22, 0x90, 0xA7, 0x95, 0xE0, 0xFE, 0xA3, 0xE0, 0xFF, 0x90, 
++0x02, 0x84, 0xEF, 0xF0, 0xEE, 0xA3, 0xF0, 0xA3, 0xE0, 0x44, 0x01, 0xF0, 0x22, 0x7D, 0x07, 0xEF, 
++0x5D, 0xC3, 0x60, 0x0B, 0x11, 0x64, 0x5F, 0x24, 0x08, 0xFF, 0xE4, 0x3E, 0xFE, 0x80, 0x04, 0x11, 
++0x64, 0x5F, 0xFF, 0x22, 0x74, 0xFF, 0x9D, 0xFD, 0x74, 0xFF, 0x94, 0x00, 0x5E, 0xFE, 0xED, 0x22, 
++0x90, 0x04, 0x1A, 0xE0, 0xF4, 0x60, 0x03, 0x7F, 0x00, 0x22, 0x90, 0x04, 0x1B, 0xE0, 0x54, 0x07, 
++0x64, 0x07, 0x7F, 0x01, 0x60, 0x02, 0x7F, 0x00, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 
++0x11, 0x70, 0xEF, 0x64, 0x01, 0x70, 0x33, 0x90, 0xA7, 0x18, 0xE0, 0xFF, 0x54, 0x03, 0x70, 0x2A, 
++0x90, 0xA7, 0x16, 0xE0, 0xFE, 0xE4, 0xC3, 0x9E, 0x40, 0x20, 0xEF, 0x20, 0xE2, 0x1C, 0x90, 0xA7, 
++0x18, 0xE0, 0x20, 0xE4, 0x15, 0x90, 0xA7, 0x10, 0xE0, 0x13, 0x13, 0x54, 0x3F, 0x30, 0xE0, 0x0A, 
++0x90, 0xA7, 0x77, 0xE0, 0x70, 0x04, 0x7F, 0x01, 0x80, 0x02, 0x7F, 0x00, 0xD0, 0xD0, 0x92, 0xAF, 
++0x22, 0xEF, 0x24, 0xFE, 0x60, 0x0B, 0x04, 0x70, 0x24, 0x90, 0xA7, 0x1A, 0x74, 0x02, 0xF0, 0x80, 
++0x13, 0xED, 0x70, 0x06, 0x90, 0xA7, 0x74, 0xE0, 0x80, 0x02, 0xED, 0x14, 0x90, 0xA7, 0x1A, 0xF0, 
++0x90, 0xA7, 0x1A, 0xE0, 0xA3, 0xF0, 0x90, 0xA7, 0x10, 0xE0, 0x44, 0x08, 0xF0, 0x22, 0xEF, 0x60, 
++0x2E, 0x12, 0x6F, 0xDC, 0x70, 0x29, 0x90, 0xA7, 0x10, 0xE0, 0x54, 0xFE, 0xF0, 0x7D, 0x2B, 0x7F, 
++0x0F, 0x12, 0x57, 0xA8, 0x90, 0x06, 0x04, 0xE0, 0x54, 0xBF, 0xF0, 0x12, 0x56, 0xF7, 0xBF, 0x01, 
++0x0E, 0x90, 0xA7, 0x0F, 0xE0, 0x44, 0x40, 0xF0, 0x7D, 0x06, 0x7F, 0x01, 0x12, 0x6A, 0x2A, 0x22, 
++0x7D, 0x2E, 0x7F, 0x6F, 0x12, 0x57, 0xA8, 0x7D, 0x02, 0x7F, 0x01, 0x02, 0x6A, 0x2A, 0xE4, 0x90, 
++0xA8, 0x2D, 0xF0, 0x90, 0xA7, 0x14, 0xE0, 0x60, 0x2D, 0x12, 0x6F, 0xDC, 0x70, 0x28, 0x31, 0x77, 
++0xF0, 0x90, 0xA8, 0x2D, 0x74, 0x01, 0xF0, 0xE4, 0x90, 0xA7, 0x1B, 0xF0, 0x04, 0x60, 0x17, 0x31, 
++0x7F, 0xE4, 0x90, 0xA9, 0x1E, 0xF0, 0x90, 0xA7, 0x1C, 0x12, 0x77, 0xFA, 0x90, 0xA7, 0x17, 0xE0, 
++0x20, 0xE2, 0x03, 0x12, 0x68, 0x55, 0x22, 0x90, 0xA7, 0x1A, 0xE0, 0x90, 0x05, 0x73, 0x22, 0x90, 
++0xA7, 0x18, 0xE0, 0x44, 0x10, 0xF0, 0x22, 0x90, 0xA7, 0x78, 0xE0, 0x54, 0xFE, 0xF0, 0x54, 0xFD, 
++0xF0, 0x54, 0xEF, 0xF0, 0x44, 0x08, 0xF0, 0x90, 0xA5, 0x2D, 0xE0, 0xFF, 0x64, 0x02, 0x70, 0x29, 
++0x51, 0x28, 0x30, 0xE0, 0x02, 0x7E, 0x01, 0x90, 0xA7, 0x7E, 0x51, 0x26, 0x30, 0xE1, 0x02, 0x7E, 
++0x01, 0x90, 0xA7, 0x7C, 0x51, 0x26, 0x30, 0xE2, 0x02, 0x7E, 0x01, 0x90, 0xA7, 0x7D, 0xEE, 0xF0, 
++0x90, 0xFD, 0x80, 0xE0, 0x90, 0x02, 0xFB, 0xF0, 0x22, 0xEF, 0x64, 0x01, 0x70, 0x1D, 0x51, 0x1F, 
++0x30, 0xE0, 0x02, 0x7F, 0x01, 0x90, 0xA7, 0x7E, 0x51, 0x1D, 0x30, 0xE1, 0x02, 0x7F, 0x01, 0x90, 
++0xA7, 0x7C, 0x51, 0x1D, 0x30, 0xE2, 0x02, 0x7F, 0x01, 0x80, 0x23, 0x90, 0xA5, 0x2D, 0xE0, 0x64, 
++0x03, 0x70, 0x20, 0x51, 0x16, 0x30, 0xE0, 0x02, 0x7F, 0x01, 0x90, 0xA7, 0x7E, 0x51, 0x14, 0x30, 
++0xE1, 0x02, 0x7F, 0x01, 0x90, 0xA7, 0x7C, 0x51, 0x14, 0x30, 0xE2, 0x02, 0x7F, 0x01, 0x90, 0xA7, 
++0x7D, 0xEF, 0xF0, 0x22, 0xEF, 0xF0, 0x90, 0xFD, 0x78, 0xE0, 0x7F, 0x00, 0x22, 0xEF, 0xF0, 0x90, 
++0xFD, 0x70, 0xE0, 0x7F, 0x00, 0x22, 0xEE, 0xF0, 0x90, 0xFD, 0x80, 0xE0, 0x7E, 0x00, 0x22, 0x90, 
++0xA7, 0x78, 0xE0, 0x30, 0xE0, 0x34, 0xC4, 0x13, 0x54, 0x07, 0x30, 0xE0, 0x2D, 0x90, 0xA9, 0x73, 
++0xE0, 0x04, 0xF0, 0xE0, 0xD3, 0x94, 0xC8, 0x40, 0x21, 0x90, 0xA7, 0x78, 0xE0, 0x54, 0xDF, 0xF0, 
++0xE4, 0x90, 0xA9, 0x73, 0xF0, 0x90, 0xA7, 0x78, 0xE0, 0x13, 0x30, 0xE0, 0x0D, 0x90, 0xA7, 0x0F, 
++0xE0, 0x44, 0x01, 0xF0, 0x90, 0xA7, 0x1F, 0x74, 0xD0, 0xF0, 0x22, 0x90, 0xA9, 0x36, 0xE0, 0xFF, 
++0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0x90, 0xA9, 0x74, 0xEF, 0xF0, 0xC3, 0x94, 0x02, 0x50, 
++0x4D, 0x90, 0xA5, 0xE7, 0xE0, 0xFF, 0x90, 0x04, 0x1C, 0xE0, 0x6F, 0x70, 0x41, 0x90, 0xA7, 0x17, 
++0xE0, 0x64, 0x0E, 0x70, 0x19, 0x90, 0xA9, 0x74, 0xE0, 0x70, 0x33, 0x90, 0xA7, 0x0F, 0xE0, 0x54, 
++0x7F, 0xF0, 0x12, 0x6F, 0xCC, 0x7D, 0x0C, 0x7F, 0x01, 0x12, 0x6A, 0x2A, 0x80, 0x1D, 0x90, 0xA7, 
++0x17, 0xE0, 0x64, 0x06, 0x70, 0x18, 0x90, 0xA9, 0x74, 0xE0, 0x60, 0x12, 0x90, 0xA7, 0x0F, 0xE0, 
++0x54, 0xBF, 0xF0, 0x51, 0xD3, 0x90, 0xA7, 0x17, 0x74, 0x04, 0xF0, 0x12, 0x6E, 0xCA, 0xD0, 0xD0, 
++0x92, 0xAF, 0x22, 0x90, 0x06, 0x04, 0xE0, 0x44, 0x40, 0xF0, 0xE0, 0x44, 0x80, 0xF0, 0x22, 0x90, 
++0xA6, 0xD8, 0xE0, 0x54, 0xFE, 0x12, 0x77, 0xEA, 0x90, 0xA6, 0xDF, 0x12, 0x50, 0x71, 0x90, 0xA6, 
++0xFA, 0xF0, 0xA3, 0xF0, 0xA3, 0xF0, 0x22, 0xC2, 0xAF, 0x90, 0xA6, 0xD8, 0xE0, 0x54, 0xFE, 0xF0, 
++0x7D, 0x08, 0xE4, 0xFF, 0x12, 0x6F, 0x01, 0x90, 0x02, 0x09, 0xE0, 0x90, 0x04, 0x24, 0xF0, 0x90, 
++0x02, 0x09, 0xE0, 0x90, 0x04, 0x25, 0xF0, 0xE4, 0x90, 0xA6, 0xE4, 0xF0, 0xA3, 0xF0, 0xD2, 0xAF, 
++0x22, 0x90, 0x04, 0x24, 0xEF, 0xF0, 0x22, 0x90, 0xA6, 0xE3, 0xE0, 0xFD, 0x7C, 0x00, 0xA3, 0xE0, 
++0xFE, 0xA3, 0xE0, 0xFF, 0x12, 0x26, 0xAA, 0xED, 0x4C, 0x70, 0x05, 0x90, 0xA6, 0xF0, 0x80, 0x2A, 
++0xED, 0x64, 0x01, 0x4C, 0x70, 0x05, 0x90, 0xA6, 0xF1, 0x80, 0x1F, 0xED, 0x64, 0x02, 0x4C, 0x70, 
++0x05, 0x90, 0xA6, 0xF2, 0x80, 0x14, 0xED, 0x64, 0x03, 0x4C, 0x70, 0x05, 0x90, 0xA6, 0xF3, 0x80, 
++0x09, 0xED, 0x64, 0x04, 0x4C, 0x70, 0x0D, 0x90, 0xA6, 0xF4, 0xE0, 0xFF, 0x71, 0x21, 0x90, 0xA6, 
++0xE4, 0x12, 0x77, 0x99, 0x22, 0x75, 0xF0, 0x03, 0xA4, 0x24, 0xE9, 0xF5, 0x82, 0xE4, 0x34, 0xA7, 
++0xF5, 0x83, 0x22, 0x75, 0xF0, 0x03, 0xA4, 0x24, 0xA7, 0xF5, 0x82, 0xE4, 0x34, 0xA7, 0xF5, 0x83, 
++0x22, 0x7F, 0x00, 0x7E, 0x0C, 0x12, 0x37, 0x5D, 0x7F, 0x00, 0x7E, 0x0E, 0x22, 0xEF, 0x13, 0x13, 
++0x13, 0x54, 0x1F, 0xFE, 0xEF, 0x54, 0x07, 0xFF, 0x22, 0x90, 0x8D, 0x01, 0x12, 0x4A, 0x48, 0x75, 
++0xF0, 0x02, 0xEF, 0x22, 0xE0, 0xFF, 0xAE, 0x22, 0x74, 0x01, 0xA8, 0x06, 0x08, 0x22, 0x90, 0xA7, 
++0x9B, 0x74, 0x0D, 0xF0, 0x90, 0xA7, 0xA9, 0x22, 0xE4, 0xFD, 0x7F, 0xE3, 0x12, 0x3A, 0x96, 0x7F, 
++0x01, 0x22, 0xE0, 0x13, 0x13, 0x13, 0x54, 0x1F, 0x22, 0x90, 0x01, 0xC7, 0x74, 0x66, 0xF0, 0xE4, 
++0xFF, 0x22, 0xF5, 0x82, 0xE4, 0x34, 0xA7, 0xF5, 0x83, 0xE0, 0x22, 0xE4, 0x90, 0xA9, 0x1E, 0xF0, 
++0x90, 0xA7, 0x7A, 0x22, 0x54, 0x01, 0xC4, 0x33, 0x33, 0x33, 0x54, 0x80, 0x22, 0x12, 0x4A, 0x48, 
++0xEE, 0xF0, 0xA3, 0xEF, 0xF0, 0x22, 0xF0, 0xEE, 0xA3, 0xF0, 0x75, 0xF0, 0x10, 0xED, 0x22, 0xE5, 
++0x6F, 0x75, 0xF0, 0x08, 0xA4, 0x25, 0x6E, 0x22, 0xFF, 0x90, 0xA9, 0x5D, 0xE0, 0xFB, 0xEF, 0x5B, 
++0x22, 0xE0, 0xFE, 0xA3, 0xE0, 0xF5, 0x82, 0x8E, 0x83, 0x22, 0xE0, 0xFD, 0x75, 0xF0, 0x04, 0xE5, 
++0x20, 0x22, 0xE4, 0x93, 0xFE, 0x74, 0x01, 0x93, 0xFF, 0x22, 0x7D, 0x01, 0x7F, 0x02, 0x02, 0x6F, 
++0x01, 0x2F, 0xF8, 0xE6, 0xFE, 0xED, 0xF4, 0x5E, 0x22, 0x90, 0x89, 0x07, 0x12, 0x4A, 0x48, 0xE0, 
++0x22, 0x90, 0xA7, 0x99, 0xE0, 0xD3, 0x94, 0x80, 0x22, 0x74, 0x01, 0x7E, 0x00, 0xA8, 0x6E, 0x08, 
++0x22, 0xFE, 0x33, 0x33, 0x33, 0x54, 0xF8, 0x4F, 0x22, 0x54, 0x03, 0x4F, 0xFF, 0x75, 0xF0, 0x10, 
++0x22, 0x74, 0x01, 0x7E, 0x00, 0xA8, 0x22, 0x08, 0x22, 0x90, 0x05, 0x21, 0xE0, 0x54, 0x7F, 0xF0, 
++0x22, 0x00, 0xB3, 0xD2, 
++};
++u4Byte ArrayLength_MP_8812A_FW_AP = 23716;
++#endif /*defined(CONFIG_AP_WOWLAN) || (DM_ODM_SUPPORT_TYPE & (ODM_AP))*/
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN)) || (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++
++u1Byte Array_MP_8812A_FW_NIC[] = {
++0x01, 0x95, 0x10, 0x00, 0x31, 0x00, 0x00, 0x00, 0x03, 0x09, 0x21, 0x01, 0x6E, 0x7F, 0x00, 0x00, 
++0xC9, 0x2D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x02, 0x4B, 0xBE, 0x02, 0x8F, 0xCB, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x90, 0xD8, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0xA7, 0xD2, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x90, 0x4F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x9F, 0xB5, 0x00, 0x00, 
++0x0A, 0x08, 0x03, 0x03, 0x00, 0x04, 0x09, 0x07, 0x03, 0x03, 0x00, 0x04, 0x08, 0x06, 0x03, 0x02, 
++0x00, 0x04, 0x08, 0x05, 0x03, 0x01, 0x00, 0x04, 0x0D, 0x0A, 0x07, 0x05, 0x00, 0x08, 0x0C, 0x0A, 
++0x07, 0x04, 0x00, 0x08, 0x0B, 0x0A, 0x06, 0x05, 0x00, 0x08, 0x0B, 0x0A, 0x05, 0x03, 0x00, 0x08, 
++0x0B, 0x0A, 0x03, 0x02, 0x00, 0x08, 0x14, 0x12, 0x0C, 0x04, 0x00, 0x10, 0x14, 0x12, 0x09, 0x04, 
++0x00, 0x10, 0x24, 0x22, 0x1C, 0x12, 0x00, 0x20, 0x24, 0x22, 0x18, 0x0C, 0x00, 0x20, 0x24, 0x22, 
++0x14, 0x06, 0x00, 0x20, 0x24, 0x22, 0x0F, 0x04, 0x00, 0x20, 0x24, 0x21, 0x0A, 0x04, 0x00, 0x20, 
++0x23, 0x21, 0x0C, 0x04, 0x00, 0x20, 0x23, 0x1F, 0x0A, 0x04, 0x00, 0x20, 0x22, 0x1F, 0x0F, 0x04, 
++0x00, 0x20, 0x21, 0x1F, 0x16, 0x0C, 0x00, 0x20, 0x31, 0x2F, 0x20, 0x14, 0x00, 0x30, 0x31, 0x2F, 
++0x18, 0x10, 0x00, 0x30, 0x31, 0x2C, 0x18, 0x0C, 0x00, 0x30, 0x31, 0x2A, 0x14, 0x0C, 0x00, 0x30, 
++0x31, 0x28, 0x14, 0x00, 0x00, 0x30, 0x31, 0x24, 0x14, 0x00, 0x00, 0x30, 0x31, 0x1E, 0x14, 0x00, 
++0x00, 0x30, 0x15, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x15, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 
++0x05, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x05, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x10, 0xF0, 
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++0xF0, 0x80, 0x03, 0x74, 0x01, 0xF0, 0x90, 0xFD, 0x10, 0xED, 0xF0, 0xAF, 0x06, 0x22, 0x90, 0xA4, 
++0xBA, 0xE0, 0x75, 0xF0, 0x08, 0xA4, 0x24, 0xBF, 0xF5, 0x82, 0xE4, 0x34, 0xA4, 0x22, 0x75, 0xF0, 
++0x08, 0xA4, 0x24, 0xBB, 0xF5, 0x82, 0xE4, 0x34, 0xA4, 0x22, 0x12, 0x36, 0xCE, 0xEF, 0x44, 0x03, 
++0xFF, 0xEC, 0x90, 0xA6, 0x60, 0x12, 0x27, 0x48, 0x90, 0xA6, 0x60, 0x22, 0x7F, 0x64, 0x7E, 0x08, 
++0x12, 0x65, 0xB5, 0x90, 0xA6, 0x5C, 0x12, 0x48, 0x4D, 0xE4, 0xFF, 0xFE, 0xFD, 0xEC, 0x54, 0x04, 
++0xFC, 0x90, 0xA6, 0x0F, 0x22, 0x12, 0x37, 0x5D, 0x90, 0xA4, 0xB7, 0xE0, 0x75, 0xF0, 0x0C, 0xA4, 
++0x22, 0x90, 0xA4, 0x4F, 0x12, 0x48, 0x71, 0x90, 0x00, 0x08, 0x02, 0x47, 0x17, 0x74, 0x01, 0x25, 
++0x0E, 0xF5, 0x82, 0xE4, 0x34, 0x94, 0xF5, 0x83, 0x22, 0x74, 0x91, 0x25, 0x0E, 0xF5, 0x82, 0xE4, 
++0x34, 0x9A, 0xF5, 0x83, 0x22, 0x75, 0xF0, 0x04, 0xE5, 0x0E, 0x90, 0x9B, 0x14, 0x12, 0x48, 0x65, 
++0xE0, 0x22, 0x90, 0xA4, 0xB7, 0xE0, 0xFF, 0x7D, 0xEF, 0x22, 0x90, 0xA6, 0xA3, 0xE0, 0xFF, 0xA3, 
++0xE0, 0xFD, 0x12, 0xB6, 0x33, 0x90, 0xA6, 0x0F, 0x22, 0x90, 0xA3, 0x65, 0x12, 0x48, 0x65, 0xE0, 
++0xFF, 0x7E, 0x00, 0xE4, 0xFB, 0x7D, 0x01, 0x22, 0x90, 0xA2, 0xEE, 0xE0, 0xFF, 0xC4, 0x54, 0x0F, 
++0x22, 0xFD, 0x75, 0xF0, 0x0E, 0x90, 0xA3, 0x59, 0x02, 0x48, 0x65, 0xE0, 0x75, 0xF0, 0x0C, 0xA4, 
++0x24, 0x3F, 0xF5, 0x82, 0xE4, 0x34, 0x45, 0x22, 0x75, 0xF0, 0x0E, 0x90, 0xA3, 0x5B, 0x02, 0x48, 
++0x65, 0x7F, 0x00, 0x7E, 0x0C, 0x12, 0x37, 0x5D, 0x7F, 0x00, 0x7E, 0x0E, 0x22, 0x7D, 0x01, 0x7F, 
++0x02, 0x12, 0x6A, 0xCE, 0x7D, 0x02, 0x7F, 0x02, 0x22, 0x90, 0xA4, 0xB7, 0xE0, 0xFF, 0x7D, 0x31, 
++0x22, 0x12, 0x48, 0x65, 0xE0, 0xFC, 0xA3, 0xE0, 0xF5, 0x82, 0x8C, 0x83, 0x22, 0xEF, 0x13, 0x13, 
++0x13, 0x54, 0x1F, 0xFE, 0xEF, 0x54, 0x07, 0xFF, 0x22, 0x90, 0x06, 0x04, 0xE0, 0x44, 0x40, 0xF0, 
++0xE0, 0x44, 0x80, 0x22, 0xF0, 0x90, 0x01, 0x3F, 0x74, 0x10, 0xF0, 0xFD, 0x7F, 0x03, 0x22, 0xFE, 
++0x54, 0x03, 0xFD, 0xEE, 0x13, 0x13, 0x54, 0x07, 0xFB, 0x22, 0xFC, 0xE5, 0x13, 0xC3, 0x13, 0xFE, 
++0xE5, 0x14, 0x13, 0xFF, 0x22, 0x7F, 0xB0, 0x7E, 0x0C, 0x12, 0x36, 0xCE, 0x90, 0xA2, 0xFE, 0x22, 
++0x90, 0xA4, 0x55, 0xF0, 0x75, 0xF0, 0x10, 0xE5, 0x0E, 0x22, 0x90, 0xA6, 0x87, 0xE0, 0xFF, 0x74, 
++0x64, 0xD3, 0x9F, 0x22, 0x90, 0xA6, 0x87, 0xE0, 0xFF, 0x74, 0x24, 0xD3, 0x9F, 0x22, 0x90, 0xA3, 
++0x56, 0xE0, 0xFE, 0xC3, 0x13, 0x54, 0x07, 0x22, 0x90, 0xA6, 0x86, 0xE0, 0xFF, 0x90, 0xA6, 0x84, 
++0xE0, 0x22, 0x74, 0x01, 0x93, 0x95, 0x12, 0xE4, 0x93, 0x95, 0x11, 0x22, 0x7E, 0x0E, 0x12, 0x37, 
++0x5D, 0x90, 0x00, 0xFF, 0xE0, 0x22, 0xD2, 0xAF, 0xC2, 0xAF, 0x90, 0xA1, 0x23, 0xE0, 0xFF, 0x22, 
++0x90, 0x00, 0x04, 0x12, 0x48, 0x29, 0xE4, 0xFD, 0x22, 0xFF, 0x90, 0xA4, 0xB7, 0xE0, 0x75, 0xF0, 
++0x1E, 0x22, 0x12, 0x47, 0x17, 0xAE, 0xF0, 0xA8, 0x16, 0x08, 0x22, 0x54, 0x01, 0xC4, 0x33, 0x33, 
++0x33, 0x54, 0x80, 0x22, 0xE4, 0x90, 0xA6, 0x58, 0xF0, 0xA3, 0x74, 0x03, 0x22, 0x7F, 0xB4, 0x7E, 
++0x08, 0x12, 0x36, 0xCE, 0xEF, 0x22, 0x90, 0x06, 0x0A, 0xE0, 0x54, 0xF8, 0xF0, 0x22, 0x90, 0xA4, 
++0xB7, 0xE0, 0xFF, 0x7D, 0x65, 0x22, 0x90, 0xA4, 0xB7, 0xE0, 0xFF, 0x7D, 0x8F, 0x22, 0x24, 0xED, 
++0xF5, 0x82, 0xE4, 0x34, 0x44, 0x22, 0x7F, 0xB4, 0x7E, 0x08, 0x02, 0x37, 0x5D, 0x90, 0xA2, 0xF6, 
++0xE0, 0xFF, 0xA3, 0xE0, 0x22, 0x90, 0xA4, 0xB7, 0xE0, 0xFF, 0x7D, 0x30, 0x22, 0x7F, 0x60, 0x7E, 
++0x08, 0x02, 0x65, 0xB5, 0x2F, 0xF8, 0xE6, 0xFE, 0xED, 0xF4, 0x5E, 0x22, 0xFE, 0x33, 0x33, 0x33, 
++0x54, 0xF8, 0x4F, 0x22, 0x90, 0x00, 0x06, 0x12, 0x47, 0x17, 0x2F, 0x22, 0xB4, 0xA4, 
++};
++u4Byte ArrayLength_MP_8812A_FW_NIC = 32654;
++
++u1Byte Array_MP_8812A_FW_NIC_BT[] = {
++0x01, 0x95, 0x13, 0x00, 0x31, 0x00, 0x00, 0x00, 0x03, 0x09, 0x21, 0x01, 0xB6, 0x72, 0x00, 0x00, 
++0xC9, 0x2D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x02, 0x4A, 0x9A, 0x02, 0x88, 0x5D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x89, 0x69, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x97, 0xE8, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x88, 0xE0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x8F, 0xF3, 0x00, 0x00, 
++0x0A, 0x08, 0x03, 0x03, 0x00, 0x04, 0x09, 0x07, 0x03, 0x03, 0x00, 0x04, 0x08, 0x06, 0x03, 0x02, 
++0x00, 0x04, 0x08, 0x05, 0x03, 0x01, 0x00, 0x04, 0x0D, 0x0A, 0x07, 0x05, 0x00, 0x08, 0x0C, 0x0A, 
++0x07, 0x04, 0x00, 0x08, 0x0B, 0x0A, 0x06, 0x05, 0x00, 0x08, 0x0B, 0x0A, 0x05, 0x03, 0x00, 0x08, 
++0x0B, 0x0A, 0x03, 0x02, 0x00, 0x08, 0x14, 0x12, 0x0C, 0x04, 0x00, 0x10, 0x14, 0x12, 0x09, 0x04, 
++0x00, 0x10, 0x24, 0x22, 0x1C, 0x12, 0x00, 0x20, 0x24, 0x22, 0x18, 0x0C, 0x00, 0x20, 0x24, 0x22, 
++0x14, 0x06, 0x00, 0x20, 0x24, 0x22, 0x0F, 0x04, 0x00, 0x20, 0x24, 0x21, 0x0A, 0x04, 0x00, 0x20, 
++0x23, 0x21, 0x0C, 0x04, 0x00, 0x20, 0x23, 0x1F, 0x0A, 0x04, 0x00, 0x20, 0x22, 0x1F, 0x0F, 0x04, 
++0x00, 0x20, 0x21, 0x1F, 0x16, 0x0C, 0x00, 0x20, 0x31, 0x2F, 0x20, 0x14, 0x00, 0x30, 0x31, 0x2F, 
++0x18, 0x10, 0x00, 0x30, 0x31, 0x2C, 0x18, 0x0C, 0x00, 0x30, 0x31, 0x2A, 0x14, 0x0C, 0x00, 0x30, 
++0x31, 0x28, 0x14, 0x00, 0x00, 0x30, 0x31, 0x24, 0x14, 0x00, 0x00, 0x30, 0x31, 0x1E, 0x14, 0x00, 
++0x00, 0x30, 0x15, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x15, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 
++0x05, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x05, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x10, 0xF0, 
++0xFF, 0x0F, 0x00, 0x00, 0x00, 0x10, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0xF5, 0x0F, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0D, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x10, 0xF0, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x10, 0xF0, 0x3F, 0x00, 0x00, 0x00, 0x00, 0x15, 
++0xF0, 0x3F, 0x00, 0x00, 0x00, 0x00, 0x15, 0xF0, 0xCF, 0xFF, 0x00, 0x00, 0x00, 0x16, 0x0D, 0x17, 
++0x0E, 0x17, 0x0F, 0x18, 0x10, 0x19, 0x11, 0x1A, 0x12, 0x1A, 0x13, 0x1A, 0x14, 0x1A, 0x15, 0x1B, 
++0xFF, 0x17, 0x0E, 0x18, 0x10, 0x19, 0x11, 0x1A, 0x12, 0x1B, 0x15, 0x1C, 0xFF, 0x1D, 0xFF, 0x1E, 
++0xFF, 0x1F, 0xFF, 0xFF, 0xFF, 0x14, 0x0D, 0x0E, 0x15, 0x15, 0x0F, 0x16, 0x10, 0x17, 0x11, 0x18, 
++0x12, 0x18, 0x13, 0x18, 0xFF, 0x15, 0x0D, 0x16, 0x10, 0x10, 0x17, 0x18, 0x12, 0x19, 0xFF, 0x1A, 
++0xFF, 0x1B, 0xFF, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00, 0x04, 0x04, 0x0C, 0x0C, 0x0D, 0x0C, 0x0E, 
++0x0D, 0x0F, 0x17, 0x18, 0x10, 0x19, 0x11, 0x19, 0x11, 0x19, 0x12, 0x1A, 0x14, 0x0C, 0x0C, 0x16, 
++0x0D, 0x17, 0x0F, 0x18, 0x10, 0x19, 0x13, 0x1A, 0x14, 0x1B, 0x15, 0x1C, 0x1B, 0x1D, 0x1C, 0x1E, 
++0x1D, 0x04, 0x04, 0x0C, 0x14, 0x0D, 0x14, 0x0E, 0x14, 0x0F, 0x15, 0x10, 0x16, 0x17, 0x11, 0x12, 
++0x17, 0x0C, 0x0C, 0x14, 0x0E, 0x15, 0x0F, 0x16, 0x10, 0x17, 0x12, 0x18, 0x18, 0x19, 0x19, 0x1A, 
++0x19, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x24, 0x26, 0x2A, 0x00, 0x00, 0x00, 
++0x1F, 0x21, 0x25, 0x27, 0x28, 0x00, 0x00, 0x00, 0x00, 0x23, 0x26, 0x28, 0x2A, 0x00, 0x00, 0x00, 
++0x00, 0x23, 0x26, 0x28, 0x2A, 0x00, 0x00, 0x00, 0x00, 0x23, 0x26, 0x28, 0x2A, 0x00, 0x00, 0x00, 
++0x00, 0x20, 0x25, 0x27, 0x29, 0x29, 0x2A, 0x00, 0x00, 0x00, 0x00, 0x20, 0x25, 0x27, 0x29, 0x29, 
++0x2A, 0x00, 0x00, 0x00, 0x00, 0x23, 0x26, 0x28, 0x2A, 0x2A, 0x2A, 0x00, 0x00, 0x00, 0x1F, 0x23, 
++0x26, 0x28, 0x2A, 0x2A, 0x2A, 0x00, 0x04, 0x00, 0x04, 0x00, 0x08, 0x00, 0x10, 0x00, 0x18, 0x00, 
++0x24, 0x00, 0x30, 0x00, 0x48, 0x00, 0x60, 0x00, 0x90, 0x00, 0xC0, 0x00, 0xD8, 0x00, 0x3C, 0x00, 
++0x64, 0x00, 0x78, 0x00, 0xA0, 0x00, 0xF0, 0x01, 0x40, 0x01, 0x90, 0x01, 0xE0, 0x00, 0xA0, 0x00, 
++0xF0, 0x01, 0x40, 0x01, 0x90, 0x02, 0x58, 0x03, 0x20, 0x04, 0xB0, 0x06, 0x40, 0x00, 0xC8, 0x01, 
++0x18, 0x01, 0xE0, 0x02, 0xD0, 0x03, 0xE8, 0x04, 0xB0, 0x06, 0x40, 0x07, 0xD0, 0x00, 0xC8, 0x01, 
++0x18, 0x01, 0xE0, 0x02, 0xD0, 0x03, 0xE8, 0x04, 0xB0, 0x06, 0x40, 0x07, 0xD0, 0x00, 0x3C, 0x00, 
++0x50, 0x00, 0x64, 0x00, 0xA0, 0x00, 0xF0, 0x01, 0x40, 0x01, 0x90, 0x01, 0x90, 0x02, 0x58, 0x03, 
++0x20, 0x00, 0x78, 0x00, 0xF0, 0x01, 0x90, 0x02, 0x58, 0x03, 0xE8, 0x07, 0xD0, 0x09, 0x60, 0x0F, 
++0xA0, 0x12, 0xC0, 0x15, 0x18, 0x00, 0xC8, 0x01, 0x18, 0x01, 0xE0, 0x02, 0xD0, 0x03, 0xE8, 0x04, 
++0xB0, 0x06, 0x40, 0x07, 0xD0, 0x07, 0xD0, 0x07, 0xD0, 0x00, 0xC8, 0x01, 0x18, 0x01, 0xE0, 0x02, 
++0xD0, 0x03, 0xE8, 0x04, 0xB0, 0x06, 0x40, 0x07, 0xD0, 0x07, 0xD0, 0x07, 0xD0, 0x00, 0x02, 0x00, 
++0x02, 0x00, 0x04, 0x00, 0x08, 0x00, 0x0C, 0x00, 0x12, 0x00, 0x18, 0x00, 0x24, 0x00, 0x30, 0x00, 
++0x48, 0x00, 0x60, 0x00, 0x6C, 0x00, 0x14, 0x00, 0x32, 0x00, 0x3C, 0x00, 0x50, 0x00, 0x78, 0x00, 
++0xA0, 0x00, 0xC8, 0x00, 0xF0, 0x00, 0x50, 0x00, 0x78, 0x00, 0xA0, 0x00, 0xC8, 0x01, 0x2C, 0x01, 
++0x90, 0x02, 0x58, 0x03, 0x20, 0x00, 0x64, 0x00, 0x8C, 0x00, 0xF0, 0x01, 0x68, 0x01, 0xF4, 0x02, 
++0x58, 0x03, 0x20, 0x03, 0xE8, 0x00, 0x64, 0x00, 0x8C, 0x00, 0xF0, 0x01, 0x68, 0x01, 0xF4, 0x02, 
++0x58, 0x03, 0x20, 0x03, 0xE8, 0x00, 0x1E, 0x00, 0x28, 0x00, 0x32, 0x00, 0x50, 0x00, 0x78, 0x00, 
++0xA0, 0x00, 0xC8, 0x00, 0xF0, 0x01, 0x7C, 0x01, 0x90, 0x00, 0x3C, 0x00, 0x78, 0x00, 0xC8, 0x01, 
++0x2C, 0x01, 0xF4, 0x03, 0xE8, 0x04, 0xB0, 0x07, 0xD0, 0x09, 0x60, 0x0A, 0xF0, 0x00, 0x64, 0x00, 
++0x8C, 0x00, 0xF0, 0x01, 0x68, 0x01, 0xF4, 0x02, 0x58, 0x03, 0x20, 0x03, 0xE8, 0x03, 0xE8, 0x03, 
++0xE8, 0x00, 0x64, 0x00, 0x8C, 0x00, 0xF0, 0x01, 0x68, 0x01, 0xF4, 0x02, 0x58, 0x03, 0x20, 0x03, 
++0xE8, 0x03, 0xE8, 0x03, 0xE8, 0x01, 0x01, 0x01, 0x02, 0x01, 0x02, 0x03, 0x03, 0x04, 0x04, 0x05, 
++0x05, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 
++0x0A, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 
++0x0A, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x0A, 0x0B, 0x05, 0x06, 0x06, 0x07, 0x07, 
++0x08, 0x09, 0x0A, 0x0B, 0x0B, 0x05, 0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x0A, 0x0B, 0x05, 
++0x06, 0x06, 0x07, 0x07, 0x08, 0x09, 0x0A, 0x0A, 0x0B, 0x01, 0x01, 0x01, 0x01, 0x01, 0x02, 0x03, 
++0x04, 0x05, 0x06, 0x07, 0x08, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x02, 0x04, 0x06, 
++0x07, 0x08, 0x0A, 0x0B, 0x0C, 0x03, 0x05, 0x06, 0x07, 0x08, 0x0A, 0x0B, 0x0C, 0x05, 0x06, 0x07, 
++0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x02, 0x04, 0x06, 0x07, 0x08, 0x09, 0x0B, 0x0C, 0x0C, 0x0C, 0x03, 
++0x05, 0x06, 0x07, 0x08, 0x09, 0x0B, 0x0C, 0x0C, 0x0C, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0A, 0x0B, 
++0x0C, 0x0C, 0x0C, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x0C, 0x0C, 0x19, 0x06, 0x04, 
++0x02, 0x00, 0x18, 0x00, 0x04, 0x0C, 0x14, 0x2C, 0x36, 0x04, 0x08, 0x08, 0x08, 0x0A, 0x0A, 0x04, 
++0x04, 0x04, 0x05, 0x04, 0x04, 0x05, 0x07, 0x07, 0x07, 0x08, 0x0A, 0x04, 0x07, 0x0A, 0x0E, 0x11, 
++0x13, 0x14, 0x15, 0x03, 0x04, 0x07, 0x07, 0x08, 0x0B, 0x0D, 0x0F, 0x05, 0x05, 0x07, 0x07, 0x08, 
++0x0B, 0x0D, 0x0F, 0x05, 0x05, 0x07, 0x07, 0x08, 0x0B, 0x0D, 0x0F, 0x07, 0x08, 0x08, 0x0A, 0x0A, 
++0x0C, 0x0E, 0x10, 0x11, 0x11, 0x07, 0x09, 0x09, 0x0B, 0x0B, 0x0D, 0x0F, 0x13, 0x13, 0x14, 0x05, 
++0x05, 0x07, 0x07, 0x08, 0x0B, 0x0D, 0x0F, 0x0F, 0x0F, 0x05, 0x05, 0x07, 0x07, 0x08, 0x0B, 0x0D, 
++0x0F, 0x0F, 0x0F, 0x04, 0x04, 0x04, 0x05, 0x07, 0x07, 0x09, 0x09, 0x0C, 0x0E, 0x10, 0x12, 0x05, 
++0x06, 0x07, 0x0D, 0x10, 0x11, 0x12, 0x12, 0x07, 0x08, 0x09, 0x09, 0x0C, 0x0E, 0x11, 0x13, 0x09, 
++0x09, 0x09, 0x09, 0x0C, 0x0E, 0x11, 0x13, 0x09, 0x09, 0x09, 0x09, 0x0C, 0x0E, 0x11, 0x13, 0x05, 
++0x06, 0x08, 0x09, 0x0C, 0x0E, 0x12, 0x12, 0x13, 0x14, 0x07, 0x08, 0x09, 0x0A, 0x0C, 0x0F, 0x12, 
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++0x25, 0x6E, 0x22, 0xFF, 0x90, 0xA5, 0x8E, 0xE0, 0xFB, 0xEF, 0x5B, 0x22, 0xE0, 0xFE, 0xA3, 0xE0, 
++0xF5, 0x82, 0x8E, 0x83, 0x22, 0xE0, 0xFB, 0x7A, 0x00, 0xEC, 0x54, 0x07, 0x22, 0xE4, 0x93, 0xFE, 
++0x74, 0x01, 0x93, 0xFF, 0x22, 0x7D, 0x01, 0x7F, 0x0C, 0x02, 0x68, 0x4B, 0xF0, 0xA3, 0xF0, 0x90, 
++0x05, 0x22, 0xE0, 0x22, 0x90, 0x89, 0x07, 0x12, 0x4A, 0x2A, 0xE0, 0x22, 0x74, 0x01, 0x7E, 0x00, 
++0xA8, 0x6E, 0x08, 0x22, 0xFE, 0x33, 0x33, 0x33, 0x54, 0xF8, 0x4F, 0x22, 0x54, 0x03, 0x4F, 0xFF, 
++0x75, 0xF0, 0x10, 0x22, 0x90, 0xA4, 0x98, 0xE0, 0xFD, 0x24, 0x91, 0x22, 0x90, 0xA4, 0x99, 0xE0, 
++0x90, 0xA4, 0x9C, 0x22, 0xE9, 0x42, 
++};
++u4Byte ArrayLength_MP_8812A_FW_NIC_BT = 29398;
++
++u1Byte Array_MP_8812A_FW_WoWLAN[] = {
++0x01, 0x95, 0x30, 0x00, 0x31, 0x00, 0x00, 0x00, 0x03, 0x09, 0x21, 0x01, 0xE4, 0x74, 0x00, 0x00, 
++0xC9, 0x2D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x02, 0x4D, 0x2A, 0x02, 0x80, 0x2E, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x81, 0x3A, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x8F, 0xD8, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x80, 0xB1, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x87, 0xEC, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xFF, 0xFF, 
++0xFF, 0xFF, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
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++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
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++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
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++0xE7, 0x09, 0xF6, 0x08, 0xDF, 0xFA, 0x80, 0x46, 0xE7, 0x09, 0xF2, 0x08, 0xDF, 0xFA, 0x80, 0x3E, 
++0x88, 0x82, 0x8C, 0x83, 0xE7, 0x09, 0xF0, 0xA3, 0xDF, 0xFA, 0x80, 0x32, 0xE3, 0x09, 0xF6, 0x08, 
++0xDF, 0xFA, 0x80, 0x78, 0xE3, 0x09, 0xF2, 0x08, 0xDF, 0xFA, 0x80, 0x70, 0x88, 0x82, 0x8C, 0x83, 
++0xE3, 0x09, 0xF0, 0xA3, 0xDF, 0xFA, 0x80, 0x64, 0x89, 0x82, 0x8A, 0x83, 0xE0, 0xA3, 0xF6, 0x08, 
++0xDF, 0xFA, 0x80, 0x58, 0x89, 0x82, 0x8A, 0x83, 0xE0, 0xA3, 0xF2, 0x08, 0xDF, 0xFA, 0x80, 0x4C, 
++0x80, 0xD2, 0x80, 0xFA, 0x80, 0xC6, 0x80, 0xD4, 0x80, 0x69, 0x80, 0xF2, 0x80, 0x33, 0x80, 0x10, 
++0x80, 0xA6, 0x80, 0xEA, 0x80, 0x9A, 0x80, 0xA8, 0x80, 0xDA, 0x80, 0xE2, 0x80, 0xCA, 0x80, 0x33, 
++0x89, 0x82, 0x8A, 0x83, 0xEC, 0xFA, 0xE4, 0x93, 0xA3, 0xC8, 0xC5, 0x82, 0xC8, 0xCC, 0xC5, 0x83, 
++0xCC, 0xF0, 0xA3, 0xC8, 0xC5, 0x82, 0xC8, 0xCC, 0xC5, 0x83, 0xCC, 0xDF, 0xE9, 0xDE, 0xE7, 0x80, 
++0x0D, 0x89, 0x82, 0x8A, 0x83, 0xE4, 0x93, 0xA3, 0xF6, 0x08, 0xDF, 0xF9, 0xEC, 0xFA, 0xA9, 0xF0, 
++0xED, 0xFB, 0x22, 0x89, 0x82, 0x8A, 0x83, 0xEC, 0xFA, 0xE0, 0xA3, 0xC8, 0xC5, 0x82, 0xC8, 0xCC, 
++0xC5, 0x83, 0xCC, 0xF0, 0xA3, 0xC8, 0xC5, 0x82, 0xC8, 0xCC, 0xC5, 0x83, 0xCC, 0xDF, 0xEA, 0xDE, 
++0xE8, 0x80, 0xDB, 0x89, 0x82, 0x8A, 0x83, 0xE4, 0x93, 0xA3, 0xF2, 0x08, 0xDF, 0xF9, 0x80, 0xCC, 
++0x88, 0xF0, 0xEF, 0x60, 0x01, 0x0E, 0x4E, 0x60, 0xC3, 0x88, 0xF0, 0xED, 0x24, 0x02, 0xB4, 0x04, 
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++0xF0, 0x22, 0x90, 0x8E, 0x7D, 0xE0, 0x90, 0x05, 0x73, 0xF0, 0x22, 0x90, 0x8E, 0x15, 0xE0, 0xFF, 
++0xC4, 0x54, 0x0F, 0x22, 0x7E, 0x00, 0x7F, 0x08, 0x7D, 0x00, 0x7B, 0x01, 0x22, 0xF0, 0xEE, 0x54, 
++0x80, 0xFE, 0xEF, 0x54, 0x7F, 0x22, 0x90, 0x93, 0x8D, 0xE0, 0xFE, 0xA3, 0xE0, 0xFF, 0x22, 0x90, 
++0x93, 0x8D, 0xE0, 0xFC, 0xA3, 0xE0, 0xFD, 0x22, 0x90, 0x93, 0x8F, 0xE0, 0xFE, 0xA3, 0xE0, 0xFF, 
++0x22, 0x7E, 0x0E, 0x12, 0x37, 0x5D, 0x90, 0x00, 0xFF, 0x22, 0x7F, 0xB4, 0x7E, 0x08, 0x12, 0x36, 
++0xCE, 0xEF, 0x22, 0xE4, 0x75, 0xF0, 0x04, 0x02, 0x46, 0xD6, 0x90, 0x8D, 0xFA, 0xF0, 0xA3, 0xEF, 
++0xF0, 0x22, 0x54, 0x04, 0xFD, 0xEF, 0x54, 0xFB, 0x4D, 0x22, 0xE4, 0x75, 0xF0, 0x20, 0x02, 0x46, 
++0xD6, 0xE0, 0xFF, 0xC4, 0x13, 0x13, 0x54, 0x03, 0x22, 0xF0, 0x90, 0x93, 0xC8, 0xE0, 0x04, 0xF0, 
++0x22, 0x90, 0x8E, 0x7D, 0xE0, 0x90, 0x01, 0x3F, 0x22, 0x90, 0x8E, 0x13, 0xE0, 0x44, 0x04, 0xF0, 
++0x22, 0x90, 0x8E, 0x1D, 0xE0, 0xFF, 0xA3, 0xE0, 0x22, 0x90, 0x8E, 0x15, 0xE0, 0xC4, 0x54, 0x0F, 
++0x22, 0x90, 0x8D, 0xFD, 0xE0, 0xFF, 0xC3, 0x13, 0x22, 0x90, 0x00, 0x01, 0x12, 0x26, 0x37, 0xFD, 
++0x22, 0x12, 0x37, 0x5D, 0x90, 0x00, 0x02, 0xE0, 0x22, 0x90, 0x01, 0xC2, 0xE0, 0x44, 0x01, 0xF0, 
++0x22, 0x00, 0x59, 0xEF, 
++};
++u4Byte ArrayLength_MP_8812A_FW_WoWLAN = 29956;
++
++#endif /* end of (DM_ODM_SUPPORT_TYPE & (ODM_WIN)) || (DM_ODM_SUPPORT_TYPE & (ODM_CE)) */
++
++#endif /* end of LOAD_FW_HEADER_FROM_DRIVER*/
++
++#endif /* end of HWIMG_SUPPORT*/
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/rtl8812a/hal8812a_fw.h b/drivers/net/wireless/rtl8812au/hal/rtl8812a/hal8812a_fw.h
+new file mode 100644
+index 0000000..a8d573e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/rtl8812a/hal8812a_fw.h
+@@ -0,0 +1,27 @@
++
++#ifdef CONFIG_RTL8812A
++#ifndef _FW_HEADER_8812A_H
++#define _FW_HEADER_8812A_H
++
++#ifdef LOAD_FW_HEADER_FROM_DRIVER
++#if (defined(CONFIG_AP_WOWLAN) || (DM_ODM_SUPPORT_TYPE & (ODM_AP)))
++extern u1Byte Array_MP_8812A_FW_AP[23716];
++extern u4Byte ArrayLength_MP_8812A_FW_AP;
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN)) || (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++extern u1Byte Array_MP_8812A_FW_NIC[32654];
++extern u4Byte ArrayLength_MP_8812A_FW_NIC;
++
++extern u1Byte Array_MP_8812A_FW_NIC_BT[29398];
++extern u4Byte ArrayLength_MP_8812A_FW_NIC_BT;
++
++extern u1Byte Array_MP_8812A_FW_WoWLAN[29956];
++extern u4Byte ArrayLength_MP_8812A_FW_WoWLAN;
++#endif
++#endif /* end of LOAD_FW_HEADER_FROM_DRIVER*/
++
++#endif
++#endif /* end of HWIMG_SUPPORT*/
++
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/rtl8812a/hal8821a_fw.c b/drivers/net/wireless/rtl8812au/hal/rtl8812a/hal8821a_fw.c
+new file mode 100644
+index 0000000..f900e69
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/rtl8812a/hal8821a_fw.c
+@@ -0,0 +1,6900 @@
++#ifdef CONFIG_RTL8821A
++
++#include "drv_types.h"
++#ifdef LOAD_FW_HEADER_FROM_DRIVER
++
++#if (defined(CONFIG_AP_WOWLAN) || (DM_ODM_SUPPORT_TYPE & (ODM_AP)))
++u1Byte Array_MP_8821A_FW_AP[] = {
++0x01, 0x21, 0x20, 0x00, 0x27, 0x00, 0x01, 0x00, 0x02, 0x25, 0x17, 0x06, 0xE2, 0x42, 0x00, 0x00, 
++0x92, 0x2E, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x02, 0x48, 0x21, 0x02, 0x5F, 0xF5, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x60, 0x31, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x6F, 0xED, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x5F, 0xF6, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x67, 0xEF, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x6F, 0xEC, 0x1F, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x0F, 0xF0, 0x0F, 
++0x00, 0x00, 0x00, 0x00, 0x0F, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x0F, 0xF0, 0x0F, 0x00, 0x00, 
++0x00, 0x00, 0x10, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x10, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 
++0xF5, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x00, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0D, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x10, 0xF0, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x10, 0xF0, 0x3F, 0x00, 
++0x00, 0x00, 0x00, 0x06, 0x07, 0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x0D, 0x0E, 0x0E, 0x32, 0x32, 0x24, 
++0x32, 0x32, 0x43, 0x4B, 0x43, 0x4B, 0x43, 0x4B, 0x59, 0x32, 0x32, 0x43, 0x4B, 0x43, 0x4B, 0x59, 
++0x5A, 0x32, 0x32, 0x43, 0x4B, 0x43, 0x4B, 0x59, 0x5A, 0x53, 0x5A, 0x32, 0x32, 0x24, 0x32, 0x32, 
++0x43, 0x4B, 0x43, 0x4B, 0x43, 0x4B, 0x59, 0x58, 0x58, 0x58, 0x58, 0x58, 0x58, 0x58, 0x58, 0x58, 
++0x58, 0x58, 0x53, 0x58, 0x58, 0x58, 0x63, 0x5A, 0x5C, 0x52, 0x53, 0x54, 0x55, 0x53, 0x54, 0x55, 
++0x56, 0x57, 0x58, 0x59, 0x5A, 0x56, 0x57, 0x58, 0x59, 0x5A, 0x5B, 0x5C, 0x5D, 0x56, 0x57, 0x58, 
++0x59, 0x5A, 0x5B, 0x5C, 0x5D, 0x5D, 0x5D, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x01, 0x01, 0x01, 
++0x02, 0x02, 0x03, 0x00, 0x01, 0x01, 0x01, 0x01, 0x02, 0x02, 0x03, 0x00, 0x01, 0x01, 0x02, 0x02, 
++0x03, 0x03, 0x04, 0x05, 0x06, 0x01, 0x01, 0x01, 0x01, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 
++0x08, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x01, 0x02, 0x02, 0x03, 0x03, 0x04, 0x04, 
++0x04, 0x05, 0x05, 0x02, 0x04, 0x08, 0x10, 0x10, 0x14, 0x18, 0x1C, 0x1C, 0x20, 0x20, 0x20, 0x10, 
++0x14, 0x18, 0x1C, 0x1C, 0x20, 0x20, 0x20, 0x10, 0x14, 0x18, 0x1C, 0x1C, 0x20, 0x20, 0x20, 0x24, 
++0x28, 0x01, 0x04, 0x02, 0x04, 0x04, 0x03, 0x0C, 0x04, 0x0C, 0x03, 0xB3, 0x33, 0x34, 0xB4, 0xB5, 
++0x35, 0xB2, 0x33, 0x34, 0xB3, 0xB4, 0x35, 0x19, 0x06, 0x04, 0x02, 0x00, 0x18, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0xC2, 0xAF, 0x80, 0xFE, 0x32, 0x12, 0x44, 0xE4, 0x85, 0xD0, 0x0B, 0x75, 0xD0, 0x08, 0xAA, 0xE0, 
++0xC2, 0x8C, 0xE5, 0x8A, 0x24, 0x67, 0xF5, 0x8A, 0xE5, 0x8C, 0x34, 0x79, 0xF5, 0x8C, 0xD2, 0x8C, 
++0xEC, 0x24, 0x87, 0xF8, 0xE6, 0xBC, 0x02, 0x02, 0x74, 0xFF, 0xC3, 0x95, 0x81, 0xB4, 0x40, 0x00, 
++0x40, 0xCE, 0x79, 0x03, 0x78, 0x80, 0x16, 0xE6, 0x08, 0x70, 0x0B, 0xC2, 0xAF, 0xE6, 0x30, 0xE1, 
++0x03, 0x44, 0x18, 0xF6, 0xD2, 0xAF, 0x08, 0xD9, 0xED, 0xEA, 0x8B, 0xD0, 0x22, 0xE5, 0x0C, 0xFF, 
++0x23, 0x24, 0x81, 0xF8, 0x0F, 0x08, 0x08, 0xBF, 0x03, 0x04, 0x7F, 0x00, 0x78, 0x81, 0xE6, 0x30, 
++0xE4, 0xF2, 0x00, 0xE5, 0x0C, 0xC3, 0x9F, 0x50, 0x20, 0x05, 0x0C, 0x74, 0x86, 0x25, 0x0C, 0xF8, 
++0xE6, 0xFD, 0xA6, 0x81, 0x08, 0xE6, 0xAE, 0x0C, 0xBE, 0x02, 0x02, 0x74, 0xFF, 0xCD, 0xF8, 0xE8, 
++0x6D, 0x60, 0xE0, 0x08, 0xE6, 0xC0, 0xE0, 0x80, 0xF6, 0xE5, 0x0C, 0xD3, 0x9F, 0x40, 0x27, 0xE5, 
++0x0C, 0x24, 0x87, 0xF8, 0xE6, 0xAE, 0x0C, 0xBE, 0x02, 0x02, 0x74, 0xFF, 0xFD, 0x18, 0xE6, 0xCD, 
++0xF8, 0xE5, 0x81, 0x6D, 0x60, 0x06, 0xD0, 0xE0, 0xF6, 0x18, 0x80, 0xF5, 0xE5, 0x0C, 0x24, 0x86, 
++0xC8, 0xF6, 0x15, 0x0C, 0x80, 0xD3, 0xE5, 0x0C, 0x23, 0x24, 0x81, 0xF8, 0x7F, 0x04, 0xC2, 0xAF, 
++0xE6, 0x30, 0xE0, 0x03, 0x10, 0xE2, 0x0C, 0x7F, 0x00, 0x30, 0xE1, 0x07, 0x30, 0xE3, 0x04, 0x7F, 
++0x08, 0x54, 0xF4, 0x54, 0x7C, 0xC6, 0xD2, 0xAF, 0x54, 0x80, 0x42, 0x07, 0x22, 0x78, 0x86, 0xA6, 
++0x81, 0x74, 0x02, 0x60, 0x06, 0xFF, 0x08, 0x76, 0xFF, 0xDF, 0xFB, 0x7F, 0x03, 0xE4, 0x78, 0x80, 
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++0x90, 0xA1, 0x94, 0xE0, 0x94, 0x14, 0x40, 0x02, 0x21, 0x25, 0x31, 0x32, 0xE4, 0xF0, 0xEE, 0xFD, 
++0x12, 0x67, 0x3F, 0xED, 0xF0, 0x31, 0x4F, 0xE4, 0x12, 0x56, 0x44, 0x7B, 0x02, 0xFA, 0x12, 0x61, 
++0x86, 0x7B, 0x01, 0x7D, 0x01, 0xAF, 0x53, 0x12, 0x63, 0x3C, 0x21, 0x25, 0x90, 0xA1, 0x96, 0xE0, 
++0xF9, 0x90, 0xA1, 0x8A, 0xE0, 0xC3, 0x99, 0x50, 0x08, 0x31, 0x3D, 0xE0, 0xC3, 0x94, 0x1E, 0x40, 
++0x5D, 0x31, 0x32, 0x12, 0x6A, 0xD7, 0x12, 0x5E, 0x97, 0xC4, 0x54, 0x0F, 0xFD, 0x12, 0x67, 0x77, 
++0xED, 0xF0, 0x12, 0x67, 0x6E, 0x90, 0xA1, 0x8A, 0xE0, 0xFF, 0x12, 0x67, 0x3F, 0xEF, 0xF0, 0xE9, 
++0xFF, 0x31, 0x4F, 0x7B, 0x01, 0x12, 0x61, 0x84, 0x75, 0xF0, 0x10, 0xE5, 0x53, 0x90, 0x93, 0x90, 
++0x12, 0x47, 0xDD, 0x12, 0x6A, 0xD7, 0x12, 0x6A, 0x83, 0xE0, 0xC3, 0x9F, 0xD3, 0x94, 0x04, 0x50, 
++0x05, 0x31, 0x32, 0xE0, 0x70, 0x11, 0x31, 0x3D, 0xE4, 0xF0, 0x31, 0x32, 0xE4, 0xF0, 0x7D, 0x01, 
++0xAF, 0x53, 0x12, 0x65, 0x60, 0x80, 0x5E, 0x31, 0x32, 0xE0, 0x14, 0xF0, 0x80, 0x57, 0x31, 0x32, 
++0xE0, 0xFF, 0xC3, 0x94, 0x02, 0x40, 0x08, 0x31, 0x32, 0xE0, 0x24, 0xFE, 0xF0, 0x80, 0x0B, 0xEF, 
++0xD3, 0x94, 0x00, 0x40, 0x05, 0x31, 0x32, 0xE0, 0x14, 0xF0, 0x31, 0x3D, 0xE0, 0x04, 0x31, 0x48, 
++0x12, 0x4F, 0xA4, 0x54, 0xCF, 0x31, 0x48, 0x12, 0x5E, 0x97, 0x54, 0xF0, 0x31, 0x48, 0x12, 0x5E, 
++0x97, 0x54, 0x0F, 0xF0, 0x31, 0x3D, 0x31, 0x56, 0x90, 0xA1, 0x8A, 0xE0, 0xFF, 0x12, 0x67, 0x3F, 
++0xEF, 0xF0, 0x90, 0xA1, 0x96, 0x12, 0x67, 0x61, 0x90, 0xA1, 0x95, 0x12, 0x67, 0x6C, 0x7B, 0x03, 
++0x12, 0x61, 0x84, 0x80, 0x07, 0x7D, 0x01, 0xAF, 0x53, 0x12, 0x5A, 0x68, 0x05, 0x53, 0x02, 0x79, 
++0x0A, 0x22, 0x75, 0xF0, 0x10, 0xE5, 0x53, 0x90, 0x93, 0x8F, 0x02, 0x47, 0xDD, 0x75, 0xF0, 0x10, 
++0xE5, 0x53, 0x90, 0x93, 0x94, 0x02, 0x47, 0xDD, 0xF0, 0x75, 0xF0, 0x10, 0xE5, 0x53, 0x22, 0xA3, 
++0xE4, 0xF0, 0xA3, 0xEF, 0xF0, 0x22, 0xE0, 0xFF, 0x90, 0xA2, 0xB6, 0xE4, 0xF0, 0xA3, 0xEF, 0xF0, 
++0x22, 0xE0, 0xFF, 0x90, 0xA1, 0x8A, 0xE0, 0xFE, 0x22, 0x7D, 0x07, 0xEF, 0x5D, 0xC3, 0x60, 0x0A, 
++0x31, 0x7E, 0x24, 0x08, 0xFF, 0xE4, 0x3E, 0xFE, 0x80, 0x03, 0x31, 0x7E, 0xFF, 0x22, 0x74, 0xFF, 
++0x9D, 0xFD, 0x74, 0xFF, 0x94, 0x00, 0x5E, 0xFE, 0xED, 0x5F, 0x22, 0xC2, 0xAF, 0x90, 0xA1, 0x3E, 
++0xE0, 0x54, 0xFE, 0xF0, 0x7D, 0x08, 0xE4, 0xFF, 0x12, 0x77, 0xBC, 0x90, 0x02, 0x09, 0xE0, 0x90, 
++0x04, 0x24, 0xF0, 0x90, 0x02, 0x09, 0xE0, 0x90, 0x04, 0x25, 0xF0, 0xE4, 0x90, 0xA1, 0x4A, 0xF0, 
++0xA3, 0xF0, 0xD2, 0xAF, 0x22, 0x90, 0xA2, 0xB0, 0xE5, 0x59, 0xF0, 0xA3, 0xE5, 0x5A, 0xF0, 0xE5, 
++0x59, 0x13, 0xA3, 0xF0, 0xE5, 0x5A, 0x13, 0xA3, 0xF0, 0x90, 0x00, 0x06, 0x12, 0x07, 0xAB, 0xFF, 
++0xAE, 0xF0, 0x90, 0x00, 0x08, 0x12, 0x07, 0xAB, 0x2F, 0xFF, 0xE5, 0xF0, 0x3E, 0xFE, 0x90, 0x00, 
++0x04, 0x12, 0x07, 0xAB, 0x2F, 0xFF, 0xEE, 0x35, 0xF0, 0x22, 0x74, 0x2C, 0x25, 0x55, 0xF5, 0x82, 
++0xE4, 0x34, 0xA0, 0xF5, 0x83, 0x22, 0x90, 0xA1, 0x90, 0xF0, 0x75, 0xF0, 0x10, 0xE5, 0x53, 0x90, 
++0x93, 0x8E, 0x02, 0x47, 0xDD, 0xF5, 0x83, 0xE0, 0xFC, 0xA3, 0xE0, 0xFD, 0xD3, 0x9F, 0xEC, 0x9E, 
++0x22, 0xE5, 0x53, 0x25, 0xE0, 0x24, 0x01, 0xF5, 0x82, 0xE4, 0x34, 0x92, 0x22, 0xE0, 0xFE, 0xA3, 
++0xE0, 0xFF, 0xC3, 0x74, 0xFF, 0x9F, 0xFF, 0x74, 0xFF, 0x22, 0xFC, 0x90, 0x00, 0x04, 0x12, 0x07, 
++0xAB, 0x25, 0xE0, 0xFF, 0xE5, 0xF0, 0x33, 0xFE, 0x22, 0x90, 0x00, 0x02, 0x12, 0x07, 0xAB, 0xFF, 
++0xAE, 0xF0, 0x02, 0x07, 0x80, 0xE5, 0x53, 0x25, 0xE0, 0x24, 0x05, 0xF5, 0x82, 0xE4, 0x34, 0x9C, 
++0x22, 0xE0, 0xFE, 0xA3, 0xE0, 0xFF, 0xED, 0x2F, 0xFF, 0xEC, 0x3E, 0xFE, 0x22, 0xEF, 0x13, 0x13, 
++0x13, 0x54, 0x1F, 0xFE, 0xEF, 0x54, 0x07, 0xFF, 0x22, 0xE0, 0xFD, 0x90, 0xA2, 0xB2, 0xE4, 0xF0, 
++0xA3, 0xED, 0x22, 0x90, 0x00, 0x06, 0x02, 0x07, 0xAB, 0x90, 0x00, 0x08, 0x02, 0x07, 0xAB, 0x7A, 
++0x00, 0x7D, 0x04, 0x7F, 0x01, 0x02, 0x61, 0x8A, 0x90, 0xA1, 0x92, 0xE0, 0xFE, 0xA3, 0xE0, 0x78, 
++0x03, 0x22, 0x90, 0x01, 0xC7, 0x74, 0x66, 0xF0, 0xE4, 0xFF, 0x22, 0x90, 0xA1, 0x90, 0xE0, 0xFD, 
++0x75, 0xF0, 0x10, 0x22, 0xE5, 0x54, 0x75, 0xF0, 0x08, 0xA4, 0x25, 0x53, 0x22, 0xFF, 0x90, 0xA1, 
++0x92, 0xE0, 0xFB, 0xEF, 0x5B, 0x22, 0x12, 0x07, 0xAB, 0x2F, 0xFD, 0xEE, 0x35, 0xF0, 0x22, 0xEF, 
++0xF0, 0xA3, 0xED, 0xF0, 0xA3, 0xEB, 0xF0, 0x22, 0x74, 0x01, 0x7E, 0x00, 0xA8, 0x53, 0x08, 0x22, 
++0x7D, 0x03, 0x7F, 0x01, 0x02, 0x61, 0x8A, 0x90, 0xA1, 0x9D, 0xE0, 0xFE, 0xA3, 0xE0, 0x22, 0x00, 
++0x40, 0xB8, 
++};
++u4Byte ArrayLength_MP_8821A_FW_AP = 17154;
++#endif /*defined(CONFIG_AP_WOWLAN) || (DM_ODM_SUPPORT_TYPE & (ODM_AP))*/
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN)) || (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++
++u1Byte Array_MP_8821A_FW_NIC[] = {
++0x01, 0x21, 0x10, 0x00, 0x27, 0x00, 0x01, 0x00, 0x02, 0x25, 0x17, 0x05, 0x94, 0x7C, 0x00, 0x00, 
++0x92, 0x2E, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x02, 0x49, 0x62, 0x02, 0x67, 0xEE, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x68, 0x2A, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x78, 0x60, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x67, 0xEF, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x6F, 0xE9, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x78, 0x5F, 0x1F, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x0F, 0xF0, 0x0F, 
++0x00, 0x00, 0x00, 0x00, 0x0F, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x0F, 0xF0, 0x0F, 0x00, 0x00, 
++0x00, 0x00, 0x10, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x10, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 
++0xF5, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x00, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0D, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x10, 0xF0, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x10, 0xF0, 0x3F, 0x00, 
++0x00, 0x00, 0x00, 0x06, 0x07, 0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x0D, 0x0E, 0x0E, 0x32, 0x32, 0x24, 
++0x32, 0x32, 0x43, 0x4B, 0x43, 0x4B, 0x43, 0x4B, 0x59, 0x32, 0x32, 0x43, 0x4B, 0x43, 0x4B, 0x59, 
++0x5A, 0x32, 0x32, 0x43, 0x4B, 0x43, 0x4B, 0x59, 0x5A, 0x53, 0x5A, 0x32, 0x32, 0x24, 0x32, 0x32, 
++0x43, 0x4B, 0x43, 0x4B, 0x43, 0x4B, 0x59, 0x58, 0x58, 0x58, 0x58, 0x58, 0x58, 0x58, 0x58, 0x58, 
++0x58, 0x58, 0x53, 0x58, 0x58, 0x58, 0x63, 0x5A, 0x5C, 0x52, 0x53, 0x54, 0x55, 0x53, 0x54, 0x55, 
++0x56, 0x57, 0x58, 0x59, 0x5A, 0x56, 0x57, 0x58, 0x59, 0x5A, 0x5B, 0x5C, 0x5D, 0x56, 0x57, 0x58, 
++0x59, 0x5A, 0x5B, 0x5C, 0x5D, 0x5D, 0x5D, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x01, 0x01, 0x01, 
++0x02, 0x02, 0x03, 0x00, 0x01, 0x01, 0x01, 0x01, 0x02, 0x02, 0x03, 0x00, 0x01, 0x01, 0x02, 0x02, 
++0x03, 0x03, 0x04, 0x05, 0x06, 0x01, 0x01, 0x01, 0x01, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 
++0x08, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x01, 0x02, 0x02, 0x03, 0x03, 0x04, 0x04, 
++0x04, 0x05, 0x05, 0x02, 0x04, 0x08, 0x10, 0x10, 0x14, 0x18, 0x1C, 0x1C, 0x20, 0x20, 0x20, 0x10, 
++0x14, 0x18, 0x1C, 0x1C, 0x20, 0x20, 0x20, 0x10, 0x14, 0x18, 0x1C, 0x1C, 0x20, 0x20, 0x20, 0x24, 
++0x28, 0x01, 0x04, 0x02, 0x04, 0x04, 0x03, 0x0C, 0x04, 0x0C, 0x03, 0xB3, 0x33, 0x34, 0xB4, 0xB5, 
++0x35, 0xB2, 0x33, 0x34, 0xB3, 0xB4, 0x35, 0x19, 0x06, 0x04, 0x02, 0x00, 0x18, 0x0C, 0x00, 0x0C, 
++0x94, 0x0C, 0x88, 0x0C, 0x8C, 0x0C, 0xE8, 0x0C, 0x10, 0x0D, 0x00, 0x0C, 0x90, 0x0C, 0xC4, 0x0C, 
++0xC8, 0x0C, 0xCC, 0x0C, 0xD4, 0x0C, 0x80, 0x0C, 0x84, 0x0C, 0xB8, 0x0E, 0x00, 0x0E, 0x94, 0x0E, 
++0x88, 0x0E, 0x8C, 0x0E, 0xE8, 0x0E, 0x10, 0x0D, 0x40, 0x0E, 0x90, 0x0E, 0xC4, 0x0E, 0xC8, 0x0E, 
++0xCC, 0x0E, 0xD4, 0x0E, 0x80, 0x0E, 0x84, 0x0E, 0xB8, 0x05, 0x22, 0x05, 0x50, 0x05, 0x51, 0x08, 
++0x08, 0x0A, 0x04, 0x09, 0x0C, 0x0C, 0x00, 0x0E, 0x00, 0x08, 0x38, 0x08, 0x2C, 0x0C, 0x5C, 0x0C, 
++0x60, 0x0C, 0x64, 0x0C, 0x68, 0x0C, 0xB0, 0x0C, 0xB4, 0x0E, 0x5C, 0x0E, 0x60, 0x0E, 0x64, 0x0E, 
++0x68, 0x0E, 0xB0, 0x0E, 0xB4, 0x00, 0x01, 0x04, 0x02, 0x03, 0x05, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
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++0x0E, 0x70, 0x15, 0x90, 0xA4, 0x1A, 0xE0, 0x70, 0x2F, 0x90, 0x9F, 0xD1, 0xE0, 0x54, 0x7F, 0xF0, 
++0x12, 0x8F, 0xD8, 0x12, 0x5B, 0x03, 0x80, 0x1D, 0x90, 0x9F, 0xD9, 0xE0, 0x64, 0x06, 0x70, 0x18, 
++0x90, 0xA4, 0x1A, 0xE0, 0x60, 0x12, 0x90, 0x9F, 0xD1, 0xE0, 0x54, 0xBF, 0xF0, 0x31, 0x8D, 0x90, 
++0x9F, 0xD9, 0x74, 0x04, 0xF0, 0x12, 0x5F, 0xD7, 0xD0, 0xD0, 0x92, 0xAF, 0x22, 0x90, 0x06, 0x04, 
++0xE0, 0x44, 0x40, 0xF0, 0xE0, 0x44, 0x80, 0xF0, 0x22, 0x90, 0xFD, 0x10, 0xEF, 0xF0, 0x7F, 0x00, 
++0x22, 0x90, 0xA3, 0x44, 0xE5, 0x57, 0xF0, 0xA3, 0xE5, 0x58, 0xF0, 0xE5, 0x57, 0x13, 0xA3, 0xF0, 
++0xE5, 0x58, 0x13, 0xA3, 0xF0, 0x90, 0x00, 0x06, 0x12, 0x07, 0xAB, 0xFF, 0xAE, 0xF0, 0x90, 0x00, 
++0x08, 0x12, 0x07, 0xAB, 0x2F, 0xFF, 0xE5, 0xF0, 0x3E, 0xFE, 0x90, 0x00, 0x04, 0x12, 0x07, 0xAB, 
++0x2F, 0xFF, 0xEE, 0x35, 0xF0, 0x22, 0x25, 0xE0, 0x25, 0xE0, 0x24, 0xEE, 0xF5, 0x82, 0xE4, 0x34, 
++0xA2, 0xF5, 0x83, 0x12, 0x48, 0xC6, 0x78, 0x10, 0x02, 0x08, 0x47, 0x12, 0x38, 0x07, 0x90, 0xA1, 
++0xDB, 0xE0, 0x75, 0xF0, 0x1E, 0xA4, 0x22, 0x25, 0xE0, 0x24, 0x11, 0xF5, 0x82, 0xE4, 0x34, 0xA2, 
++0xF5, 0x83, 0xE0, 0xFE, 0xA3, 0xE0, 0xFF, 0x90, 0xA1, 0xDD, 0xE0, 0x22, 0xF5, 0x83, 0xE0, 0xFC, 
++0xA3, 0xE0, 0x2F, 0xFF, 0xEC, 0x3E, 0xA2, 0xE7, 0x13, 0xFE, 0xEF, 0x13, 0xFF, 0xEE, 0x33, 0x22, 
++0xF5, 0x83, 0xE0, 0xFC, 0xA3, 0xE0, 0xC3, 0x9F, 0xFF, 0xEC, 0x9E, 0xFE, 0x33, 0x95, 0xE0, 0xFD, 
++0xFC, 0x22, 0x78, 0x08, 0x12, 0x08, 0x5A, 0xA8, 0x04, 0xA9, 0x05, 0xAA, 0x06, 0xAB, 0x07, 0x22, 
++0xEF, 0xF0, 0x90, 0xA2, 0x2F, 0x12, 0x48, 0xC6, 0x78, 0x08, 0x02, 0x08, 0x47, 0x90, 0xA2, 0x2F, 
++0x12, 0x48, 0xC6, 0xEF, 0x24, 0x01, 0xFF, 0xE4, 0x3E, 0xFE, 0xE4, 0x3D, 0xFD, 0xE4, 0x3C, 0xFC, 
++0x22, 0xEB, 0x25, 0xE0, 0x24, 0x17, 0xF5, 0x82, 0xE4, 0x34, 0xA2, 0x22, 0xEB, 0x25, 0xE0, 0x24, 
++0x0B, 0xF5, 0x82, 0xE4, 0x34, 0xA2, 0x22, 0x25, 0xE0, 0x24, 0x05, 0xF5, 0x82, 0xE4, 0x34, 0xA2, 
++0x22, 0xF5, 0x83, 0xEE, 0xF0, 0xA3, 0xEF, 0xF0, 0x90, 0xA1, 0xDE, 0xE0, 0x22, 0x74, 0xFF, 0x7F, 
++0xFC, 0xFE, 0xFD, 0xFC, 0x90, 0xA1, 0xF4, 0x12, 0x48, 0xD2, 0xD3, 0x02, 0x48, 0x11, 0x90, 0xA1, 
++0xF0, 0x12, 0x08, 0x6D, 0xE4, 0x7F, 0x04, 0xFE, 0xFD, 0xFC, 0x22, 0x7F, 0x64, 0x7E, 0x08, 0x12, 
++0x56, 0xCB, 0x90, 0xA3, 0xC6, 0x12, 0x48, 0xC6, 0xE4, 0xFF, 0xFE, 0xFD, 0xEC, 0x54, 0x04, 0xFC, 
++0x90, 0xA3, 0x70, 0x22, 0x12, 0x38, 0x07, 0x90, 0xA1, 0xDB, 0xE0, 0x75, 0xF0, 0x0C, 0xA4, 0x22, 
++0xFF, 0x90, 0xA3, 0x44, 0xE5, 0xF0, 0xF0, 0xA3, 0xEF, 0xF0, 0x22, 0x25, 0xE0, 0x25, 0xE0, 0x24, 
++0xE2, 0xF5, 0x82, 0xE4, 0x34, 0xA2, 0x22, 0xF5, 0x83, 0x12, 0x08, 0x6D, 0x90, 0xA3, 0x16, 0x12, 
++0x48, 0xC6, 0xEA, 0x25, 0xE0, 0x25, 0xE0, 0x22, 0x25, 0xE0, 0x24, 0x11, 0xF5, 0x82, 0xE4, 0x34, 
++0xA2, 0x22, 0xF0, 0x90, 0x9F, 0xF3, 0xE0, 0x24, 0x04, 0x90, 0x9F, 0xEE, 0xF0, 0xA3, 0x74, 0x0A, 
++0xF0, 0x22, 0x12, 0x48, 0x04, 0x90, 0xA2, 0x2F, 0x02, 0x08, 0x6D, 0x90, 0x01, 0x34, 0x74, 0x40, 
++0xF0, 0xFD, 0xE4, 0xFF, 0x12, 0x5F, 0x8B, 0x43, 0x54, 0x08, 0x22, 0x7A, 0x00, 0x7D, 0x01, 0x7F, 
++0x01, 0x02, 0x66, 0x22, 0x12, 0x08, 0x6D, 0x90, 0xA2, 0x2B, 0x02, 0x48, 0xC6, 0x7F, 0x00, 0x7E, 
++0x0C, 0x12, 0x38, 0x07, 0x7F, 0x00, 0x7E, 0x0E, 0x22, 0x24, 0x83, 0xF5, 0x82, 0xE4, 0x34, 0x41, 
++0x22, 0x25, 0xE0, 0x25, 0xE0, 0x24, 0xFA, 0xF5, 0x82, 0xE4, 0x34, 0xA2, 0x22, 0x75, 0xF0, 0x0F, 
++0xA4, 0x24, 0x20, 0xF9, 0x74, 0x9F, 0x35, 0xF0, 0x22, 0x74, 0xFF, 0x7F, 0xFC, 0xFE, 0xFD, 0xFC, 
++0x90, 0xA1, 0xF0, 0x22, 0x7F, 0x84, 0x7E, 0x09, 0x12, 0x38, 0x07, 0x90, 0xA3, 0x70, 0x22, 0xE0, 
++0xFD, 0x90, 0xA3, 0x46, 0xE4, 0xF0, 0xA3, 0xED, 0x22, 0x90, 0x00, 0x02, 0x02, 0x07, 0xAB, 0x90, 
++0x00, 0x04, 0x02, 0x07, 0xAB, 0x54, 0x01, 0xC4, 0x33, 0x33, 0x33, 0x54, 0x80, 0xFF, 0x22, 0x90, 
++0xA1, 0x7C, 0xE0, 0xFE, 0xA3, 0xE0, 0x78, 0x03, 0x22, 0xE0, 0xFF, 0x90, 0xA1, 0xDF, 0xE0, 0xFE, 
++0xC3, 0x9F, 0x22, 0xEF, 0xF0, 0xFB, 0x90, 0xA3, 0x12, 0x02, 0x48, 0xC6, 0x90, 0xA3, 0xE7, 0xE0, 
++0xFF, 0x74, 0x64, 0xD3, 0x9F, 0x22, 0x90, 0xA3, 0xE7, 0xE0, 0xFF, 0x74, 0x24, 0xD3, 0x9F, 0x22, 
++0x12, 0x48, 0xDE, 0xE0, 0xFB, 0xE4, 0xFD, 0x0F, 0x22, 0xFB, 0x7A, 0x04, 0xF9, 0xF8, 0x02, 0x47, 
++0xA8, 0xEF, 0xF0, 0x90, 0xA2, 0x2F, 0x02, 0x48, 0xC6, 0x54, 0x01, 0xC4, 0x33, 0x33, 0x54, 0xC0, 
++0xFF, 0x22, 0xE0, 0x7C, 0x00, 0x24, 0x00, 0xFF, 0xEC, 0x3E, 0x22, 0x7F, 0xB4, 0x7E, 0x08, 0x12, 
++0x37, 0xBC, 0xEF, 0x22, 0xE0, 0xFE, 0xA3, 0xE0, 0xF5, 0x82, 0x8E, 0x83, 0x22, 0x90, 0x9F, 0xCC, 
++0xE0, 0x13, 0x13, 0x54, 0x3F, 0x22, 0xF0, 0x7F, 0x10, 0x7E, 0x00, 0x02, 0x3D, 0x7A, 0x90, 0xA1, 
++0xDB, 0xE0, 0xFF, 0x7D, 0x8F, 0x22, 0x24, 0x06, 0xF5, 0x82, 0xE4, 0x34, 0xA3, 0x22, 0x54, 0x3F, 
++0xF0, 0x75, 0xF0, 0x10, 0xEE, 0x22, 0x54, 0xCF, 0xF0, 0x75, 0xF0, 0x10, 0xEE, 0x22, 0x24, 0x81, 
++0xF5, 0x82, 0xE4, 0x34, 0x41, 0x22, 0x24, 0x95, 0xF5, 0x82, 0xE4, 0x34, 0x41, 0x22, 0x7F, 0x00, 
++0x7E, 0x0E, 0x02, 0x38, 0x07, 0x24, 0x97, 0xF5, 0x82, 0xE4, 0x34, 0x41, 0x22, 0x7D, 0x03, 0x7F, 
++0x01, 0x02, 0x66, 0x22, 0x12, 0x48, 0xD2, 0xD3, 0x02, 0x48, 0x27, 0xE0, 0x04, 0xF0, 0xE0, 0xC3, 
++0x94, 0x03, 0x22, 0x90, 0xA1, 0xDB, 0xE0, 0xFF, 0x7D, 0x32, 0x22, 0x90, 0xA1, 0xDB, 0xE0, 0xFF, 
++0x7D, 0x31, 0x22, 0x90, 0xA1, 0xDB, 0xE0, 0xFF, 0x7D, 0x30, 0x22, 0x7F, 0x60, 0x7E, 0x08, 0x02, 
++0x56, 0xCB, 0xBC, 0x8C, 
++};
++u4Byte ArrayLength_MP_8821A_FW_NIC = 31924;
++
++u1Byte Array_MP_8821A_FW_NIC_BT[] = {
++0x01, 0x21, 0x13, 0x00, 0x27, 0x00, 0x01, 0x00, 0x02, 0x25, 0x17, 0x06, 0x2E, 0x7E, 0x00, 0x00, 
++0x92, 0x2E, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x02, 0x48, 0x7E, 0x02, 0x77, 0xDF, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x78, 0x1B, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x8B, 0xC8, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x77, 0xE0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x7F, 0xE3, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x87, 0xF7, 0x1F, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x0F, 0xF0, 0x0F, 
++0x00, 0x00, 0x00, 0x00, 0x0F, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x0F, 0xF0, 0x0F, 0x00, 0x00, 
++0x00, 0x00, 0x10, 0xF0, 0xFF, 0x0F, 0x00, 0x00, 0x00, 0x10, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 
++0xF5, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x00, 0xF0, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0D, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x10, 0xF0, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x10, 0xF0, 0x3F, 0x00, 
++0x00, 0x00, 0x00, 0x06, 0x07, 0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x0D, 0x0E, 0x0E, 0x32, 0x32, 0x24, 
++0x32, 0x32, 0x43, 0x4B, 0x43, 0x4B, 0x43, 0x4B, 0x59, 0x32, 0x32, 0x43, 0x4B, 0x43, 0x4B, 0x59, 
++0x5A, 0x32, 0x32, 0x43, 0x4B, 0x43, 0x4B, 0x59, 0x5A, 0x53, 0x5A, 0x32, 0x32, 0x24, 0x32, 0x32, 
++0x43, 0x4B, 0x43, 0x4B, 0x43, 0x4B, 0x59, 0x58, 0x58, 0x58, 0x58, 0x58, 0x58, 0x58, 0x58, 0x58, 
++0x58, 0x58, 0x53, 0x58, 0x58, 0x58, 0x63, 0x5A, 0x5C, 0x52, 0x53, 0x54, 0x55, 0x53, 0x54, 0x55, 
++0x56, 0x57, 0x58, 0x59, 0x5A, 0x56, 0x57, 0x58, 0x59, 0x5A, 0x5B, 0x5C, 0x5D, 0x56, 0x57, 0x58, 
++0x59, 0x5A, 0x5B, 0x5C, 0x5D, 0x5D, 0x5D, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x01, 0x01, 0x01, 
++0x02, 0x02, 0x03, 0x00, 0x01, 0x01, 0x01, 0x01, 0x02, 0x02, 0x03, 0x00, 0x01, 0x01, 0x02, 0x02, 
++0x03, 0x03, 0x04, 0x05, 0x06, 0x01, 0x01, 0x01, 0x01, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 
++0x08, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x01, 0x02, 0x02, 0x03, 0x03, 0x04, 0x04, 
++0x04, 0x05, 0x05, 0x02, 0x04, 0x08, 0x10, 0x10, 0x14, 0x18, 0x1C, 0x1C, 0x20, 0x20, 0x20, 0x10, 
++0x14, 0x18, 0x1C, 0x1C, 0x20, 0x20, 0x20, 0x10, 0x14, 0x18, 0x1C, 0x1C, 0x20, 0x20, 0x20, 0x24, 
++0x28, 0x01, 0x04, 0x02, 0x04, 0x04, 0x03, 0x0C, 0x04, 0x0C, 0x03, 0xB3, 0x33, 0x34, 0xB4, 0xB5, 
++0x35, 0xB2, 0x33, 0x34, 0xB3, 0xB4, 0x35, 0x19, 0x06, 0x04, 0x02, 0x00, 0x18, 0x0C, 0x00, 0x0C, 
++0x94, 0x0C, 0x88, 0x0C, 0x8C, 0x0C, 0xE8, 0x0C, 0x10, 0x0D, 0x00, 0x0C, 0x90, 0x0C, 0xC4, 0x0C, 
++0xC8, 0x0C, 0xCC, 0x0C, 0xD4, 0x0C, 0x80, 0x0C, 0x84, 0x0C, 0xB8, 0x0E, 0x00, 0x0E, 0x94, 0x0E, 
++0x88, 0x0E, 0x8C, 0x0E, 0xE8, 0x0E, 0x10, 0x0D, 0x40, 0x0E, 0x90, 0x0E, 0xC4, 0x0E, 0xC8, 0x0E, 
++0xCC, 0x0E, 0xD4, 0x0E, 0x80, 0x0E, 0x84, 0x0E, 0xB8, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
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++0x74, 0x02, 0xF0, 0x80, 0x13, 0xED, 0x70, 0x06, 0x90, 0xA0, 0x36, 0xE0, 0x80, 0x02, 0xED, 0x14, 
++0x90, 0x9F, 0xDC, 0xF0, 0x90, 0x9F, 0xDC, 0xE0, 0xA3, 0xF0, 0x90, 0x9F, 0xD2, 0xE0, 0x44, 0x08, 
++0xF0, 0x22, 0x90, 0xA0, 0x3A, 0xE0, 0xC3, 0x13, 0x20, 0xE0, 0x22, 0x90, 0x02, 0x87, 0xE0, 0x70, 
++0x1F, 0x90, 0x01, 0x00, 0xE0, 0x64, 0x3F, 0x70, 0x17, 0x90, 0x02, 0x96, 0xE0, 0x70, 0x11, 0x90, 
++0x02, 0x86, 0xE0, 0x30, 0xE1, 0x0A, 0x90, 0x02, 0x86, 0xE0, 0x20, 0xE3, 0x03, 0x7F, 0x01, 0x22, 
++0x7F, 0x00, 0x22, 0xEF, 0x60, 0x35, 0x12, 0x57, 0xCE, 0x64, 0x01, 0x70, 0x2E, 0x90, 0x9F, 0xD2, 
++0xE0, 0x54, 0xFE, 0xF0, 0x7D, 0x2B, 0x7F, 0x0F, 0x12, 0x5A, 0xE8, 0x90, 0x06, 0x04, 0xE0, 0x54, 
++0xBF, 0xF0, 0x31, 0x4C, 0xBF, 0x01, 0x14, 0x90, 0x9F, 0xD1, 0xE0, 0x44, 0x40, 0xF0, 0x7D, 0x06, 
++0x7F, 0x01, 0x12, 0x5A, 0x79, 0x90, 0x9F, 0xD0, 0x74, 0x06, 0xF0, 0x22, 0x7D, 0x08, 0xE4, 0xFF, 
++0x02, 0x5A, 0xF7, 0x7D, 0x2D, 0x12, 0x5E, 0xFA, 0x90, 0x01, 0x37, 0x74, 0x02, 0xF0, 0xFD, 0x7F, 
++0x03, 0x12, 0x7D, 0x02, 0x12, 0x4A, 0x60, 0xE4, 0xFD, 0x7F, 0x01, 0x12, 0x5A, 0x79, 0xE4, 0x90, 
++0x9F, 0xD0, 0xF0, 0x22, 0x7D, 0x2E, 0x7F, 0x6F, 0x12, 0x5A, 0xE8, 0x7D, 0x02, 0x12, 0x5F, 0xDE, 
++0x54, 0xBF, 0xF0, 0x90, 0x9F, 0xD0, 0x74, 0x02, 0xF0, 0x22, 0x12, 0x7F, 0xC2, 0x7D, 0x04, 0x12, 
++0x5F, 0xDE, 0x44, 0x40, 0xF0, 0x90, 0x9F, 0xD0, 0x74, 0x04, 0xF0, 0x22, 0x12, 0x52, 0xEA, 0x12, 
++0x48, 0x04, 0xC0, 0x04, 0xC0, 0x05, 0xC0, 0x06, 0xC0, 0x07, 0x90, 0x05, 0x62, 0x12, 0x53, 0x03, 
++0x78, 0x10, 0x12, 0x08, 0x5A, 0xD0, 0x03, 0xD0, 0x02, 0xD0, 0x01, 0xD0, 0x00, 0x12, 0x48, 0x04, 
++0xC0, 0x04, 0xC0, 0x05, 0xC0, 0x06, 0xC0, 0x07, 0xA3, 0x12, 0x53, 0x03, 0x78, 0x18, 0x12, 0x08, 
++0x5A, 0xD0, 0x03, 0xD0, 0x02, 0xD0, 0x01, 0xD0, 0x00, 0x12, 0x48, 0x04, 0x90, 0xA0, 0x25, 0x12, 
++0x08, 0x6D, 0x90, 0xA0, 0x29, 0x12, 0x48, 0x22, 0x90, 0xA0, 0x25, 0x12, 0x48, 0x2E, 0xC3, 0x12, 
++0x48, 0x11, 0x40, 0x44, 0x90, 0x9F, 0xD1, 0xE0, 0x90, 0xA0, 0x29, 0x30, 0xE0, 0x0F, 0x71, 0x15, 
++0x90, 0x9F, 0xF3, 0xE0, 0x24, 0x04, 0x2F, 0xFF, 0x90, 0xA0, 0x2D, 0x80, 0x05, 0x71, 0x15, 0x90, 
++0xA0, 0x2E, 0xE0, 0xFE, 0xC3, 0xEF, 0x9E, 0x90, 0xA1, 0x60, 0xF0, 0x90, 0xA1, 0x60, 0xE0, 0xFF, 
++0xC3, 0x94, 0x2D, 0x50, 0x13, 0x74, 0xF4, 0x2F, 0xF5, 0x82, 0xE4, 0x34, 0x9F, 0xF5, 0x83, 0xE0, 
++0x04, 0xF0, 0x90, 0x9F, 0xEC, 0xE0, 0x04, 0xF0, 0x90, 0x9F, 0xEC, 0xE0, 0xFF, 0xD3, 0x90, 0xA0, 
++0x30, 0xE0, 0x9F, 0x90, 0xA0, 0x2F, 0xE0, 0x94, 0x00, 0x40, 0x02, 0x41, 0xF9, 0xE4, 0xFF, 0xFE, 
++0x71, 0x02, 0xEF, 0xD3, 0x9D, 0x40, 0x07, 0x90, 0xA1, 0x61, 0xEE, 0xF0, 0x80, 0x05, 0x0E, 0xEE, 
++0xB4, 0x2D, 0xED, 0xE4, 0xFF, 0xFE, 0x71, 0x02, 0xC3, 0x90, 0xA0, 0x30, 0xE0, 0x9D, 0xFD, 0x90, 
++0xA0, 0x2F, 0xE0, 0x94, 0x00, 0xFC, 0xEF, 0xD3, 0x9D, 0xE4, 0x9C, 0x40, 0x07, 0x90, 0xA1, 0x62, 
++0xEE, 0xF0, 0x80, 0x05, 0x0E, 0xEE, 0xB4, 0x2D, 0xDD, 0x90, 0xA1, 0x61, 0xE0, 0x90, 0x9F, 0xF1, 
++0xF0, 0x90, 0xA1, 0x62, 0xE0, 0x90, 0x9F, 0xF2, 0x51, 0xFA, 0x94, 0x0A, 0x40, 0x0A, 0xEF, 0x24, 
++0xF6, 0x90, 0x9F, 0xE9, 0xF0, 0xE4, 0x80, 0x09, 0xE4, 0x90, 0x9F, 0xE9, 0x51, 0xFA, 0x74, 0x0A, 
++0x9F, 0x90, 0x9F, 0xE8, 0xF0, 0x90, 0x9F, 0xF1, 0xE0, 0xFF, 0xA3, 0xE0, 0xC3, 0x9F, 0x90, 0x9F, 
++0xEF, 0xF0, 0x90, 0x9F, 0xD1, 0xE0, 0x30, 0xE0, 0x05, 0x90, 0xA0, 0x2D, 0x80, 0x03, 0x90, 0xA0, 
++0x2E, 0xE0, 0x04, 0xFF, 0x90, 0x9F, 0xEF, 0xE0, 0x2F, 0xF0, 0x90, 0x9F, 0xEF, 0xE0, 0xC3, 0x94, 
++0x0A, 0x50, 0x03, 0x74, 0x0A, 0xF0, 0x90, 0x9F, 0xEF, 0xE0, 0x24, 0x02, 0xF0, 0x71, 0x32, 0x74, 
++0x03, 0xF0, 0x12, 0xA7, 0xA4, 0xE4, 0xFF, 0x71, 0x43, 0x22, 0xF0, 0x90, 0x9F, 0xF1, 0xE0, 0xFF, 
++0xC3, 0x22, 0x74, 0xF4, 0x2E, 0xF5, 0x82, 0xE4, 0x34, 0x9F, 0xF5, 0x83, 0xE0, 0x2F, 0xFF, 0x90, 
++0xA0, 0x31, 0xE0, 0xFD, 0x22, 0x12, 0x48, 0x2E, 0x90, 0xA0, 0x25, 0x12, 0x48, 0x22, 0x12, 0x47, 
++0x9A, 0x78, 0x0A, 0x12, 0x08, 0x47, 0x90, 0x9F, 0xEE, 0xE0, 0xFE, 0xC3, 0x74, 0x0A, 0x9E, 0x2F, 
++0xFF, 0x22, 0x90, 0x9F, 0xE8, 0xE0, 0xFF, 0xA3, 0xE0, 0xFD, 0x90, 0x9F, 0xEF, 0xE0, 0xFB, 0x90, 
++0xA2, 0xED, 0x22, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0x90, 0xA3, 0x1D, 0xEF, 0xF0, 0x7E, 
++0x00, 0x7F, 0x2D, 0x7D, 0x00, 0x7B, 0x01, 0x7A, 0x9F, 0x79, 0xF4, 0x12, 0x08, 0xAA, 0xE4, 0x90, 
++0x9F, 0xED, 0xF0, 0x90, 0x9F, 0xEC, 0xF0, 0x90, 0x9F, 0xF0, 0xF0, 0x90, 0xA3, 0x1D, 0xE0, 0xB4, 
++0x01, 0x09, 0x90, 0x9F, 0xF1, 0x74, 0x2D, 0xF0, 0xE4, 0xA3, 0xF0, 0xD0, 0xD0, 0x92, 0xAF, 0x22, 
++0x71, 0xD1, 0x40, 0x33, 0x90, 0x9F, 0xF0, 0xE0, 0x04, 0xF0, 0x90, 0xA0, 0x32, 0xE0, 0xFF, 0x90, 
++0x9F, 0xF0, 0xE0, 0xD3, 0x9F, 0x50, 0x20, 0x90, 0x9F, 0xE8, 0xE0, 0x04, 0x71, 0xB8, 0x12, 0x56, 
++0x53, 0x90, 0x9F, 0xEF, 0xF0, 0xFB, 0x90, 0x9F, 0xE8, 0xE0, 0xFF, 0xA3, 0xE0, 0xFD, 0x90, 0xA2, 
++0xED, 0x74, 0x04, 0xF0, 0x12, 0xA7, 0xA4, 0x22, 0xF0, 0x90, 0x9F, 0xDF, 0xE0, 0x75, 0xF0, 0x03, 
++0xA4, 0x24, 0xFE, 0x22, 0x90, 0x9F, 0xDF, 0xE0, 0x04, 0xF0, 0x90, 0x9F, 0xDA, 0xE0, 0x54, 0xEF, 
++0xF0, 0x90, 0xA0, 0x33, 0xE0, 0xFF, 0x90, 0x9F, 0xDF, 0xE0, 0xD3, 0x9F, 0x22, 0x12, 0x7F, 0xBF, 
++0x12, 0x5A, 0x75, 0x90, 0x9F, 0xD0, 0x74, 0x0C, 0xF0, 0x22, 0x90, 0xFD, 0x10, 0xEF, 0xF0, 0x7F, 
++0x00, 0x22, 0x90, 0x9E, 0xCB, 0xE0, 0xFF, 0x90, 0xA2, 0xE1, 0x74, 0x01, 0xF0, 0x7B, 0x08, 0xFD, 
++0x12, 0x5C, 0x20, 0x90, 0xA1, 0x7D, 0xEE, 0xF0, 0xFC, 0xA3, 0xEF, 0xF0, 0xFD, 0x90, 0xA1, 0x7A, 
++0xE0, 0xFF, 0xA3, 0xE0, 0xFB, 0xA3, 0xE0, 0x90, 0xA1, 0x84, 0xF0, 0x22, 0x90, 0x9E, 0xCA, 0xE0, 
++0xFF, 0x90, 0xA2, 0xE1, 0x74, 0x0B, 0xF0, 0x7B, 0x08, 0x7D, 0x01, 0x12, 0x5C, 0x20, 0x90, 0xA2, 
++0xEF, 0xEE, 0xF0, 0xFC, 0xA3, 0xEF, 0xF0, 0xFD, 0x90, 0xA2, 0xEE, 0xE0, 0xFF, 0x22, 0x90, 0xA1, 
++0x2E, 0xF0, 0x75, 0xF0, 0x10, 0xE5, 0x51, 0x90, 0x95, 0x0A, 0x02, 0x48, 0x3A, 0x12, 0x37, 0xBC, 
++0xEF, 0x44, 0x03, 0xFF, 0xEC, 0x90, 0xA2, 0xAE, 0x12, 0x08, 0x6D, 0x90, 0xA2, 0xAE, 0x22, 0x7F, 
++0x64, 0x7E, 0x08, 0x12, 0x4C, 0xA6, 0x90, 0xA2, 0xBC, 0x12, 0x48, 0x22, 0xE4, 0xFF, 0xFE, 0xFD, 
++0xEC, 0x54, 0x04, 0xFC, 0x90, 0xA2, 0x2D, 0x22, 0x35, 0xF0, 0xFE, 0x90, 0x00, 0x06, 0x12, 0x07, 
++0xAB, 0x2F, 0xFF, 0xEE, 0x35, 0xF0, 0xFE, 0x22, 0xF0, 0x74, 0x09, 0x2D, 0xF5, 0x82, 0xE4, 0x34, 
++0xFC, 0xF5, 0x83, 0xE0, 0x22, 0x75, 0xF0, 0x10, 0xE5, 0x51, 0x90, 0x95, 0x10, 0x02, 0x48, 0x3A, 
++0x74, 0x01, 0x25, 0x51, 0xF5, 0x82, 0xE4, 0x34, 0x9E, 0xF5, 0x83, 0x22, 0x2F, 0xF5, 0x82, 0x74, 
++0x01, 0x3E, 0xF5, 0x83, 0xE0, 0xFF, 0x90, 0x9F, 0x1F, 0xE0, 0x75, 0xF0, 0x08, 0x22, 0x74, 0x29, 
++0x2D, 0xF5, 0x82, 0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 0x22, 0x90, 0xA1, 0x30, 0xE0, 0xFE, 0xA3, 
++0xE0, 0x78, 0x03, 0x22, 0xF0, 0x90, 0xA2, 0xF9, 0xE0, 0x75, 0xF0, 0x04, 0x22, 0x7F, 0x00, 0x7E, 
++0x0C, 0x12, 0x38, 0x07, 0x7F, 0x00, 0x7E, 0x0E, 0x22, 0x74, 0x01, 0x25, 0x51, 0xF5, 0x82, 0xE4, 
++0x34, 0x94, 0xF5, 0x83, 0x22, 0x74, 0x05, 0x2D, 0xF5, 0x82, 0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 
++0x22, 0x74, 0x21, 0x2F, 0xF5, 0x82, 0xE4, 0x34, 0xFC, 0xF5, 0x83, 0xE0, 0x22, 0x75, 0xF0, 0x0F, 
++0xA4, 0x24, 0x20, 0xF9, 0x74, 0x9F, 0x35, 0xF0, 0x22, 0xE5, 0x51, 0x90, 0x95, 0x0B, 0x12, 0x48, 
++0x3A, 0xE4, 0xF0, 0x22, 0xE0, 0xFF, 0x90, 0xA1, 0x5F, 0xE0, 0xFE, 0x75, 0xF0, 0x10, 0x22, 0x90, 
++0xA2, 0xCE, 0x02, 0x48, 0x22, 0x90, 0xA2, 0xE2, 0xE0, 0xFF, 0x74, 0x64, 0xD3, 0x9F, 0x22, 0x90, 
++0xA2, 0xE2, 0xE0, 0xFF, 0x74, 0x24, 0xD3, 0x9F, 0x22, 0x78, 0x18, 0x12, 0x08, 0x47, 0x90, 0x05, 
++0x8B, 0x22, 0x78, 0x10, 0x12, 0x08, 0x47, 0x90, 0x05, 0x8A, 0x22, 0x78, 0x08, 0x12, 0x08, 0x47, 
++0x90, 0x05, 0x89, 0x22, 0x78, 0x18, 0x12, 0x08, 0x47, 0x90, 0x05, 0x87, 0x22, 0x78, 0x10, 0x12, 
++0x08, 0x47, 0x90, 0x05, 0x86, 0x22, 0x78, 0x08, 0x12, 0x08, 0x47, 0x90, 0x05, 0x85, 0x22, 0x90, 
++0xA0, 0x55, 0xE0, 0xFF, 0xC3, 0x94, 0x20, 0x22, 0xE5, 0x52, 0x75, 0xF0, 0x08, 0xA4, 0x25, 0x51, 
++0x22, 0xFF, 0x90, 0xA1, 0x31, 0xE0, 0xFD, 0xEF, 0x5D, 0x22, 0x75, 0xF0, 0x10, 0xE5, 0x51, 0x90, 
++0x81, 0x01, 0x22, 0x90, 0xA1, 0x5F, 0xE0, 0xFD, 0x75, 0xF0, 0x10, 0x22, 0x90, 0x05, 0x22, 0xE0, 
++0x90, 0xA1, 0x87, 0xF0, 0x22, 0x7F, 0xB4, 0x7E, 0x08, 0x12, 0x37, 0xBC, 0xEF, 0x22, 0x90, 0xA0, 
++0x44, 0xE0, 0x54, 0xDF, 0xF0, 0xE4, 0x22, 0xF0, 0x7F, 0x10, 0x7E, 0x00, 0x02, 0x3D, 0x7A, 0xE0, 
++0xFD, 0x75, 0xF0, 0x10, 0xE5, 0x69, 0x22, 0x90, 0xA1, 0x2E, 0xE0, 0x75, 0xF0, 0x10, 0x22, 0x12, 
++0x48, 0x3A, 0xE0, 0xFB, 0xE4, 0xFD, 0x22, 0x7F, 0xB4, 0x7E, 0x08, 0x02, 0x38, 0x07, 0x7F, 0x00, 
++0x7E, 0x0E, 0x02, 0x38, 0x07, 0x90, 0x05, 0x22, 0xE0, 0x54, 0x6F, 0xFF, 0x22, 0x90, 0x9F, 0xDC, 
++0xE0, 0x90, 0x05, 0x73, 0x22, 0x74, 0x01, 0x7E, 0x00, 0xA8, 0x51, 0x08, 0x22, 0x93, 0xFD, 0x7C, 
++0x00, 0x02, 0x07, 0x03, 0x7D, 0x00, 0x25, 0xE0, 0x25, 0xE0, 0xFC, 0x22, 0x90, 0x05, 0x00, 0x74, 
++0x1C, 0xF0, 0xA3, 0x22, 0x4D, 0xFF, 0x90, 0xA0, 0x38, 0xF0, 0xEE, 0x22, 0x90, 0xBB, 
++};
++u4Byte ArrayLength_MP_8821A_FW_NIC_BT = 32334;
++
++u1Byte Array_MP_8821A_FW_WoWLAN[] = {
++0x01, 0x21, 0x30, 0x00, 0x27, 0x00, 0x01, 0x00, 0x02, 0x25, 0x17, 0x06, 0x0C, 0x6F, 0x00, 0x00, 
++0x92, 0x2E, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x02, 0x4A, 0x28, 0x02, 0x78, 0x36, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x78, 0x72, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x7F, 0xE5, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x78, 0x37, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x7C, 0x71, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x02, 0x7F, 0xE4, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
++0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
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++0x12, 0x4C, 0x18, 0x12, 0x67, 0xF2, 0x7D, 0x0C, 0x7F, 0x01, 0x02, 0x60, 0x4D, 0x90, 0x93, 0x8C, 
++0xED, 0xF0, 0x90, 0x93, 0x8A, 0xEE, 0xF0, 0xA3, 0xEF, 0xF0, 0xF1, 0xF6, 0x90, 0x93, 0x8A, 0x12, 
++0x6F, 0x36, 0xFD, 0x02, 0x53, 0x70, 0xD3, 0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0x90, 0x93, 0x8D, 
++0xEE, 0xF0, 0xA3, 0xEF, 0xF0, 0x90, 0x93, 0x5D, 0xE0, 0xFF, 0xB4, 0x02, 0x07, 0x31, 0x65, 0x74, 
++0x08, 0xF0, 0x80, 0x09, 0xEF, 0xB4, 0x04, 0x05, 0x31, 0x65, 0x74, 0x10, 0xF0, 0x90, 0x93, 0x8D, 
++0xE0, 0xFE, 0xA3, 0xE0, 0xFF, 0x64, 0x02, 0x4E, 0x60, 0x08, 0xEF, 0x64, 0x01, 0x4E, 0x60, 0x02, 
++0x21, 0x58, 0x90, 0x8F, 0x8D, 0xE0, 0xFF, 0x64, 0xFE, 0x70, 0x02, 0x21, 0x58, 0xEF, 0x64, 0x02, 
++0x60, 0x07, 0xEF, 0x64, 0x03, 0x60, 0x02, 0x21, 0x58, 0x90, 0x8F, 0xED, 0x51, 0x49, 0x90, 0x94, 
++0x1A, 0xEE, 0xF0, 0xA3, 0xEF, 0xF0, 0x7E, 0x00, 0x7F, 0x28, 0x7D, 0x00, 0x7B, 0x01, 0x7A, 0x93, 
++0x79, 0xB0, 0x12, 0x08, 0xAA, 0x7E, 0x00, 0x7F, 0x40, 0x7D, 0x00, 0x7B, 0x01, 0x7A, 0x93, 0x79, 
++0xD8, 0x12, 0x08, 0xAA, 0x90, 0x93, 0x8D, 0xE0, 0x70, 0x04, 0xA3, 0xE0, 0x64, 0x01, 0x70, 0x50, 
++0x75, 0x40, 0x01, 0x75, 0x41, 0x8F, 0x75, 0x42, 0xBD, 0x75, 0x43, 0x10, 0x7B, 0x01, 0x7A, 0x94, 
++0x79, 0x1C, 0x12, 0x34, 0x62, 0x75, 0x40, 0x01, 0x75, 0x41, 0x8F, 0x75, 0x42, 0x5C, 0x75, 0x43, 
++0x10, 0x7B, 0x01, 0x7A, 0x94, 0x79, 0x2C, 0x12, 0x34, 0x62, 0x31, 0x76, 0x74, 0x20, 0x31, 0x80, 
++0x90, 0xAC, 0xC1, 0x31, 0x5D, 0x90, 0xAC, 0xC4, 0x31, 0x6D, 0x90, 0xAC, 0xC7, 0xF0, 0x7A, 0x94, 
++0x79, 0x1C, 0x12, 0x26, 0x06, 0x75, 0x40, 0x01, 0x75, 0x41, 0x93, 0x75, 0x42, 0xD8, 0x80, 0x24, 
++0x31, 0x76, 0x74, 0x10, 0x31, 0x80, 0x90, 0xAC, 0x89, 0x31, 0x5D, 0x90, 0xAC, 0x8C, 0x31, 0x6D, 
++0x90, 0xAC, 0x8F, 0xF0, 0x7A, 0x8F, 0x79, 0x5C, 0x12, 0x33, 0x97, 0x75, 0x40, 0x01, 0x75, 0x41, 
++0x93, 0x75, 0x42, 0xE0, 0x75, 0x43, 0x28, 0x7B, 0x01, 0x7A, 0x93, 0x79, 0xB0, 0x12, 0x34, 0x62, 
++0x75, 0x40, 0x01, 0x75, 0x41, 0x93, 0x75, 0x42, 0xB8, 0x75, 0x43, 0x20, 0x7B, 0x01, 0x7A, 0x93, 
++0x79, 0x8F, 0x12, 0x34, 0x62, 0x90, 0x93, 0xB6, 0xE0, 0x54, 0x03, 0x90, 0x93, 0xAF, 0xF0, 0xC3, 
++0x94, 0x04, 0x50, 0x1C, 0xE0, 0x90, 0x90, 0xB6, 0xF0, 0x75, 0x40, 0x01, 0x75, 0x41, 0x93, 0x75, 
++0x42, 0x8F, 0x75, 0x43, 0x20, 0x7B, 0x01, 0x7A, 0x90, 0x79, 0x96, 0x12, 0x34, 0x62, 0x80, 0x06, 
++0x90, 0x90, 0xB6, 0x74, 0x05, 0xF0, 0x90, 0x93, 0xAF, 0xE0, 0xFF, 0x90, 0x93, 0x5D, 0xE0, 0xFD, 
++0x7B, 0x01, 0x7A, 0x93, 0x79, 0x8F, 0x31, 0x94, 0xD0, 0xD0, 0x92, 0xAF, 0x22, 0x12, 0x48, 0x4F, 
++0x7A, 0x93, 0x79, 0xD8, 0x22, 0x90, 0x94, 0x18, 0x74, 0x80, 0xF0, 0xA3, 0x22, 0x12, 0x48, 0x4F, 
++0x90, 0x94, 0x1A, 0xA3, 0xE0, 0x22, 0x90, 0x94, 0x1A, 0xA3, 0xE0, 0xFB, 0x90, 0xAC, 0x7A, 0x22, 
++0xF0, 0xE4, 0xA3, 0xF0, 0xA3, 0xF0, 0xFD, 0xFC, 0xFF, 0xFE, 0x12, 0x38, 0xC6, 0x7B, 0x01, 0x7A, 
++0x8F, 0x79, 0xEF, 0x22, 0x90, 0x94, 0x3C, 0x12, 0x7F, 0xCF, 0x12, 0x48, 0x4F, 0x90, 0x94, 0x3E, 
++0x12, 0x65, 0x90, 0x51, 0x27, 0x75, 0xF0, 0x08, 0xA4, 0x24, 0x02, 0x12, 0x77, 0x3E, 0x51, 0x38, 
++0x24, 0x04, 0x51, 0x1E, 0x75, 0xF0, 0x08, 0xA4, 0x24, 0x03, 0x12, 0x77, 0x3E, 0x51, 0x38, 0x24, 
++0x08, 0x51, 0x1E, 0x75, 0xF0, 0x08, 0xA4, 0x24, 0x04, 0x12, 0x77, 0x3E, 0x51, 0x38, 0x24, 0x0C, 
++0x51, 0x1E, 0x75, 0xF0, 0x08, 0xA4, 0x24, 0x05, 0x12, 0x77, 0x3E, 0x90, 0x94, 0x3D, 0xE0, 0xFD, 
++0xB4, 0x02, 0x08, 0x90, 0x94, 0x3C, 0xE0, 0x44, 0x48, 0x80, 0x0A, 0xED, 0xB4, 0x04, 0x0A, 0x90, 
++0x94, 0x3C, 0xE0, 0x44, 0x50, 0x90, 0x94, 0x42, 0xF0, 0x90, 0x94, 0x43, 0x74, 0x80, 0xF0, 0xA3, 
++0x74, 0xFF, 0xF0, 0xA3, 0xF0, 0x51, 0x40, 0x12, 0x77, 0x3E, 0x90, 0x94, 0x42, 0x74, 0xFF, 0x12, 
++0x4F, 0xCA, 0x51, 0x40, 0x04, 0x12, 0x77, 0x3E, 0x90, 0x06, 0x72, 0xE4, 0xF0, 0x22, 0xF9, 0xE4, 
++0x3A, 0x8B, 0x40, 0xF5, 0x41, 0x89, 0x42, 0x75, 0x43, 0x04, 0x7B, 0x01, 0x7A, 0x94, 0x79, 0x42, 
++0x12, 0x34, 0x62, 0x90, 0x94, 0x3C, 0xE0, 0x22, 0x90, 0x94, 0x3E, 0x12, 0x48, 0x46, 0xE9, 0x22, 
++0x90, 0x94, 0x3C, 0xE0, 0x75, 0xF0, 0x08, 0xA4, 0x22, 0xE0, 0xFE, 0xA3, 0xE0, 0xFD, 0xED, 0xFF, 
++0x22, 0x12, 0x7D, 0xE0, 0xE4, 0x90, 0x93, 0x68, 0x12, 0x4F, 0xCA, 0x90, 0x90, 0xBA, 0x12, 0x4F, 
++0xCA, 0xA3, 0x12, 0x4F, 0xCA, 0xA3, 0xF0, 0xA3, 0xF0, 0x90, 0x90, 0xCC, 0xF0, 0xA3, 0xF0, 0x90, 
++0x91, 0x0E, 0xF0, 0xA3, 0xF0, 0x22, 0x12, 0x87, 0x80, 0xA3, 0xED, 0xF0, 0x90, 0x90, 0xC0, 0xE0, 
++0x70, 0x02, 0xA3, 0xE0, 0x60, 0x23, 0xE4, 0x90, 0x93, 0x88, 0xF0, 0x51, 0xBD, 0x50, 0x1D, 0x71, 
++0x02, 0x24, 0xCE, 0xF5, 0x82, 0xE4, 0x34, 0x90, 0xF5, 0x83, 0xE0, 0x6F, 0x60, 0x03, 0x7F, 0x00, 
++0x22, 0x90, 0x93, 0x88, 0xE0, 0x04, 0xF0, 0x80, 0xE2, 0x7F, 0x00, 0x22, 0x90, 0x06, 0x32, 0xE0, 
++0x44, 0x40, 0xF0, 0xE4, 0x90, 0x90, 0xCC, 0xF0, 0xA3, 0xF0, 0x7F, 0x01, 0x22, 0x90, 0x93, 0x88, 
++0xE0, 0xFD, 0xC3, 0x94, 0x02, 0x22, 0x12, 0x87, 0x80, 0xA3, 0xED, 0xF0, 0xE4, 0xA3, 0xF0, 0x51, 
++0xBD, 0x50, 0x17, 0x71, 0x02, 0x24, 0xEE, 0xF5, 0x82, 0xE4, 0x34, 0x90, 0xF5, 0x83, 0xE0, 0xB5, 
++0x07, 0x1D, 0x90, 0x93, 0x88, 0xE0, 0x04, 0xF0, 0x80, 0xE5, 0x90, 0x06, 0x32, 0xE0, 0x44, 0x80, 
++0xF0, 0x90, 0x01, 0xC7, 0x74, 0x30, 0xF0, 0x7F, 0x01, 0x12, 0x7D, 0x97, 0x7F, 0x01, 0x22, 0x7F, 
++0x00, 0x22, 0x90, 0x93, 0x85, 0xE0, 0xFE, 0xA3, 0xE0, 0xFF, 0xED, 0x24, 0x1C, 0xFD, 0x12, 0x6D, 
++0xCA, 0x90, 0x93, 0x88, 0xE0, 0x22, 0x12, 0x87, 0x80, 0xE4, 0xA3, 0xF0, 0x90, 0x93, 0x87, 0xE0, 
++0xFD, 0xC3, 0x94, 0x04, 0x50, 0x26, 0x90, 0x93, 0x86, 0xE0, 0x24, 0x10, 0x12, 0x87, 0x3F, 0xFE, 
++0x12, 0x6D, 0xCA, 0x90, 0x93, 0x87, 0xE0, 0x24, 0xC6, 0xF5, 0x82, 0xE4, 0x34, 0x90, 0xF5, 0x83, 
++0xE0, 0x6F, 0x60, 0x03, 0x7F, 0x00, 0x22, 0x12, 0x5F, 0x18, 0x80, 0xD0, 0x7F, 0x01, 0x22, 0xD3, 
++0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0x90, 0x93, 0x97, 0xEF, 0xF0, 0x12, 0x8E, 0xA6, 0x74, 0x10, 
++0x2F, 0xFF, 0x90, 0x93, 0x97, 0xE0, 0x25, 0xE0, 0x25, 0xE0, 0x2F, 0xFF, 0x12, 0x8F, 0x8B, 0x12, 
++0x67, 0x87, 0x75, 0x43, 0x04, 0x7B, 0x01, 0x7A, 0x94, 0x79, 0xBE, 0x12, 0x34, 0x62, 0xD0, 0xD0, 
++0x92, 0xAF, 0x22, 0x7F, 0x50, 0x7E, 0x0C, 0x12, 0x37, 0xBC, 0x90, 0x94, 0xAC, 0xEF, 0xF0, 0x7F, 
++0x58, 0x7E, 0x0C, 0x12, 0x37, 0xBC, 0x90, 0x94, 0xAD, 0xEF, 0xF0, 0x90, 0x94, 0xF1, 0x12, 0x08, 
++0x79, 0x00, 0x00, 0x00, 0x7F, 0x90, 0x94, 0xF5, 0x12, 0x08, 0x79, 0x00, 0x00, 0x00, 0x17, 0x7F, 
++0x50, 0x7E, 0x0C, 0x12, 0x4F, 0x33, 0x12, 0x08, 0x79, 0x00, 0x00, 0x00, 0x7F, 0x90, 0x94, 0xF5, 
++0x12, 0x08, 0x79, 0x00, 0x00, 0x00, 0x17, 0x12, 0x4E, 0x0A, 0x90, 0x06, 0x08, 0xE0, 0x90, 0x94, 
++0xC2, 0xF0, 0x90, 0x06, 0xA1, 0xE0, 0xFE, 0x90, 0x06, 0xA0, 0x12, 0x8F, 0x80, 0x90, 0x94, 0xC4, 
++0xF0, 0xA3, 0xEF, 0x71, 0xF6, 0x90, 0x06, 0xA0, 0x74, 0x20, 0xF0, 0xA3, 0x74, 0x01, 0xF0, 0xE4, 
++0xFB, 0xFD, 0xFF, 0x02, 0x58, 0x6F, 0xF0, 0x90, 0x06, 0x08, 0xE0, 0x54, 0x7F, 0xF0, 0x22, 0xD3, 
++0x10, 0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0x90, 0x94, 0xAE, 0xE0, 0xFE, 0x90, 0x94, 0xAB, 0xE0, 0xC3, 
++0x9E, 0x40, 0x04, 0x7F, 0x00, 0x80, 0x06, 0xEF, 0x7F, 0x01, 0x70, 0x01, 0xFF, 0xD0, 0xD0, 0x92, 
++0xAF, 0x22, 0x90, 0x8D, 0xFD, 0x12, 0x74, 0x64, 0x30, 0xE0, 0x3A, 0xEF, 0xC4, 0x54, 0x0F, 0x20, 
++0xE0, 0x33, 0x90, 0x91, 0x18, 0x12, 0x48, 0x22, 0xEC, 0x4D, 0x4E, 0x4F, 0x60, 0x13, 0x90, 0x93, 
++0x58, 0x12, 0x48, 0x2E, 0xD3, 0x12, 0x48, 0x11, 0x40, 0x07, 0x91, 0x66, 0x90, 0x91, 0x1C, 0x80, 
++0x05, 0x91, 0x66, 0x90, 0x91, 0x14, 0x12, 0x48, 0x2E, 0x12, 0x47, 0xA8, 0x90, 0x93, 0x98, 0x12, 
++0x08, 0x6D, 0x12, 0x71, 0x0D, 0x22, 0xE4, 0x7F, 0xE8, 0x7E, 0x03, 0xFD, 0xFC, 0x22, 0xD3, 0x10, 
++0xAF, 0x01, 0xC3, 0xC0, 0xD0, 0x90, 0x05, 0x22, 0xE0, 0x90, 0x93, 0x98, 0xF0, 0x7D, 0x1B, 0x7F, 
++0xFF, 0x12, 0x62, 0xB3, 0x90, 0x8D, 0xFE, 0xE0, 0xFF, 0x12, 0x8E, 0xAB, 0x90, 0x93, 0x97, 0xEF, 
++0xF0, 0xE0, 0x24, 0x10, 0xF0, 0xE0, 0xFF, 0x12, 0x53, 0x5B, 0xE0, 0x54, 0x80, 0x44, 0x04, 0xFE, 
++0x74, 0x00, 0x2F, 0x12, 0x53, 0x5D, 0xEE, 0xF0, 0x90, 0x93, 0x98, 0xE0, 0xFF, 0x7D, 0x1C, 0x12, 
++0x62, 0xB3, 0x90, 0x93, 0x97, 0xE0, 0x24, 0xF0, 0xF0, 0xE4, 0xA3, 0xF0, 0x90, 0x93, 0x98, 0xE0, 
++0x04, 0xF0, 0xE0, 0xB4, 0x1E, 0xF6, 0xD0, 0xD0, 0x92, 0xAF, 0x22, 0xED, 0x14, 0x60, 0x06, 0x04, 
++0x70, 0x03, 0x7F, 0x01, 0x22, 0x7F, 0x01, 0x22, 0x90, 0x93, 0xA9, 0xE4, 0x75, 0xF0, 0x08, 0x12, 
++0x08, 0xD6, 0x90, 0x93, 0xA9, 0xE4, 0x75, 0xF0, 0x08, 0x02, 0x08, 0xD6, 0xE0, 0x54, 0xFE, 0x4E, 
++0xFE, 0xF0, 0xEF, 0x54, 0x02, 0xFF, 0xEE, 0x54, 0xFD, 0x4F, 0xFF, 0xF0, 0x12, 0x06, 0x89, 0xFE, 
++0x54, 0x04, 0x22, 0x90, 0x93, 0x61, 0xE0, 0xFF, 0x90, 0x95, 0x84, 0x74, 0x08, 0xF0, 0x7B, 0x18, 
++0x7D, 0x01, 0x12, 0x66, 0x78, 0x90, 0x93, 0xA4, 0xEF, 0xF0, 0x90, 0x93, 0x61, 0xE0, 0x22, 0x12, 
++0x37, 0xBC, 0xEF, 0x44, 0x03, 0xFF, 0xEC, 0x90, 0x95, 0x85, 0x12, 0x08, 0x6D, 0x90, 0x95, 0x85, 
++0x22, 0x90, 0x93, 0xAA, 0xE0, 0x2F, 0xFF, 0x90, 0x93, 0xA9, 0xE0, 0x34, 0x00, 0xFE, 0x90, 0x94, 
++0x2D, 0xF0, 0xA3, 0x22, 0x90, 0x95, 0x65, 0xE0, 0xFE, 0xA3, 0xE0, 0xFF, 0x90, 0x95, 0x68, 0xE0, 
++0xFD, 0x90, 0x95, 0x67, 0xE0, 0x2D, 0x22, 0x90, 0x93, 0x89, 0xA3, 0xE0, 0xFF, 0xA3, 0xE0, 0xFE, 
++0x2F, 0x22, 0x90, 0x93, 0xA6, 0xE0, 0xFF, 0x24, 0x95, 0xF5, 0x82, 0xE4, 0x34, 0x8F, 0xF5, 0x83, 
++0xE0, 0xFE, 0x22, 0x24, 0x48, 0xF9, 0xE4, 0x34, 0xFC, 0xFA, 0x7B, 0x01, 0x22, 0x78, 0x10, 0x12, 
++0x08, 0x47, 0x90, 0x95, 0x35, 0x12, 0x48, 0x2E, 0x02, 0x47, 0x8D, 0x75, 0xF0, 0x20, 0xA4, 0x24, 
++0x58, 0xF9, 0x74, 0x91, 0x35, 0xF0, 0xFA, 0x7B, 0x01, 0x22, 0xFD, 0xE4, 0x33, 0x90, 0x95, 0x39, 
++0xF0, 0xA3, 0x22, 0x7F, 0x00, 0x7E, 0x0C, 0x12, 0x38, 0x07, 0x7F, 0x00, 0x7E, 0x0E, 0x22, 0x90, 
++0x93, 0x89, 0xA3, 0xE0, 0x24, 0x01, 0x22, 0x90, 0x02, 0x86, 0xE0, 0x44, 0x04, 0xF0, 0x22, 0xF0, 
++0x90, 0x93, 0xA6, 0xE0, 0x04, 0xF0, 0x22, 0x74, 0x21, 0x2F, 0xF5, 0x82, 0xE4, 0x34, 0xFC, 0xF5, 
++0x83, 0xE0, 0x22, 0x24, 0x30, 0xF9, 0xE4, 0x34, 0xFC, 0xFA, 0x7B, 0x01, 0x22, 0x24, 0x42, 0xF9, 
++0xE4, 0x34, 0xFC, 0x22, 0x12, 0x24, 0xE6, 0x90, 0x95, 0x35, 0x02, 0x08, 0x6D, 0x75, 0x41, 0x8F, 
++0x75, 0x42, 0x93, 0x75, 0x43, 0x02, 0x22, 0xF0, 0xEE, 0x54, 0x80, 0xFE, 0xEF, 0x54, 0x7F, 0x4E, 
++0x22, 0x90, 0x95, 0x2F, 0xA3, 0xE0, 0xFF, 0x22, 0x74, 0x20, 0x2E, 0xF5, 0x82, 0xE4, 0x34, 0x91, 
++0x22, 0x90, 0x94, 0xB6, 0xE0, 0x90, 0x95, 0x90, 0xF0, 0x22, 0xE0, 0x24, 0x90, 0xF5, 0x82, 0xE4, 
++0x34, 0x93, 0x22, 0x90, 0x93, 0xA6, 0xE0, 0xFF, 0xC3, 0x94, 0x10, 0x22, 0x90, 0x94, 0xC8, 0xE0, 
++0xFC, 0xA3, 0xE0, 0xFD, 0x22, 0x90, 0x94, 0xCA, 0xE0, 0xFE, 0xA3, 0xE0, 0xFF, 0x22, 0x90, 0x95, 
++0x33, 0xE0, 0xFC, 0xA3, 0xE0, 0xFD, 0x22, 0x7E, 0x00, 0x7F, 0x06, 0x12, 0x4A, 0x04, 0xEF, 0x22, 
++0x7F, 0xB4, 0x7E, 0x08, 0x12, 0x37, 0xBC, 0xEF, 0x22, 0xE0, 0xFE, 0xA3, 0xE0, 0xF5, 0x82, 0x8E, 
++0x83, 0x22, 0xF0, 0x7F, 0x10, 0x7E, 0x00, 0x02, 0x3D, 0x7A, 0x7F, 0x00, 0x7E, 0x0E, 0x02, 0x38, 
++0x07, 0xFE, 0x54, 0x10, 0xFD, 0xEF, 0x54, 0xEF, 0x22, 0xFE, 0x54, 0x40, 0xFD, 0xEF, 0x54, 0xBF, 
++0x22, 0x90, 0x8D, 0xFA, 0xF0, 0xA3, 0xEF, 0xF0, 0x22, 0x90, 0x8E, 0x7B, 0xE0, 0xC4, 0x54, 0x0F, 
++0x22, 0xF5, 0x82, 0xE4, 0x34, 0x91, 0xF5, 0x83, 0x22, 0xE4, 0x90, 0x93, 0x9C, 0xF0, 0x7F, 0x04, 
++0x22, 0x90, 0x94, 0x46, 0xEE, 0xF0, 0xA3, 0xEF, 0x22, 0xE0, 0xFF, 0xC4, 0x13, 0x13, 0x54, 0x03, 
++0x22, 0x90, 0x94, 0x30, 0xE0, 0xC3, 0x94, 0x0A, 0x22, 0x74, 0x10, 0xF0, 0x7A, 0x8F, 0x79, 0x4C, 
++0x22, 0x12, 0x48, 0x4F, 0x7A, 0x93, 0x79, 0x90, 0x22, 0x90, 0x93, 0xA9, 0xE4, 0x75, 0xF0, 0x02, 
++0x22, 0x90, 0x93, 0x88, 0xF0, 0xA3, 0xEF, 0xF0, 0x22, 0x90, 0x8E, 0x15, 0xE0, 0xC4, 0x54, 0x0F, 
++0x22, 0x90, 0x8D, 0xFD, 0xE0, 0xFF, 0xC3, 0x13, 0x22, 0xF9, 0xEE, 0x34, 0xFC, 0xFA, 0x7B, 0x01, 
++0x22, 0x12, 0x4A, 0xCD, 0x90, 0x95, 0xB4, 0xE0, 0x22, 0x2F, 0xF8, 0xE6, 0xFE, 0xED, 0xF4, 0x5E, 
++0x22, 0x90, 0x95, 0xA9, 0xE0, 0xFF, 0x7D, 0x48, 0x22, 0x00, 0x62, 0x7A, 
++};
++u4Byte ArrayLength_MP_8821A_FW_WoWLAN = 28460;
++
++#endif /* end of (DM_ODM_SUPPORT_TYPE & (ODM_WIN)) || (DM_ODM_SUPPORT_TYPE & (ODM_CE)) */
++
++#endif /* end of LOAD_FW_HEADER_FROM_DRIVER*/
++
++#endif /* end of HWIMG_SUPPORT*/
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/rtl8812a/hal8821a_fw.h b/drivers/net/wireless/rtl8812au/hal/rtl8812a/hal8821a_fw.h
+new file mode 100644
+index 0000000..fb7c123
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/rtl8812a/hal8821a_fw.h
+@@ -0,0 +1,27 @@
++
++#ifdef CONFIG_RTL8821A
++#ifndef _FW_HEADER_8821A_H
++#define _FW_HEADER_8821A_H
++
++#ifdef LOAD_FW_HEADER_FROM_DRIVER
++#if (defined(CONFIG_AP_WOWLAN) || (DM_ODM_SUPPORT_TYPE & (ODM_AP)))
++extern u1Byte Array_MP_8821A_FW_AP[17154];
++extern u4Byte ArrayLength_MP_8821A_FW_AP;
++#endif
++
++#if (DM_ODM_SUPPORT_TYPE & (ODM_WIN)) || (DM_ODM_SUPPORT_TYPE & (ODM_CE))
++extern u1Byte Array_MP_8821A_FW_NIC[31924];
++extern u4Byte ArrayLength_MP_8821A_FW_NIC;
++
++extern u1Byte Array_MP_8821A_FW_NIC_BT[32334];
++extern u4Byte ArrayLength_MP_8821A_FW_NIC_BT;
++
++extern u1Byte Array_MP_8821A_FW_WoWLAN[28460];
++extern u4Byte ArrayLength_MP_8821A_FW_WoWLAN;
++#endif
++#endif /* end of LOAD_FW_HEADER_FROM_DRIVER*/
++
++#endif
++#endif /* end of HWIMG_SUPPORT*/
++
++
+diff --git a/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_cmd.c b/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_cmd.c
+new file mode 100644
+index 0000000..eb58f78
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_cmd.c
+@@ -0,0 +1,1842 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8812A_CMD_C_
++
++/* #include <drv_types.h> */
++#include <rtl8812a_hal.h>
++#include "hal_com_h2c.h"
++#include <hal_com.h>
++#define CONFIG_H2C_EF
++
++#define RTL8812_MAX_H2C_BOX_NUMS	4
++#define RTL8812_MAX_CMD_LEN	7
++#define RTL8812_MESSAGE_BOX_SIZE		4
++#define RTL8812_EX_MESSAGE_BOX_SIZE	4
++
++
++static u8 _is_fw_read_cmd_down(_adapter *padapter, u8 msgbox_num)
++{
++	u8	read_down = _FALSE;
++	int	retry_cnts = 100;
++
++	u8 valid;
++
++	/* RTW_INFO(" _is_fw_read_cmd_down ,reg_1cc(%x),msg_box(%d)...\n",rtw_read8(padapter,REG_HMETFR),msgbox_num); */
++
++	do {
++		valid = rtw_read8(padapter, REG_HMETFR) & BIT(msgbox_num);
++		if (0 == valid)
++			read_down = _TRUE;
++		else
++			rtw_msleep_os(1);
++	} while ((!read_down) && (retry_cnts--));
++
++	return read_down;
++
++}
++
++
++/*****************************************
++* H2C Msg format :
++* 0x1DF - 0x1D0
++*| 31 - 8	| 7-5	 4 - 0	|
++*| h2c_msg	|Class_ID CMD_ID	|
++*
++* Extend 0x1FF - 0x1F0
++*|31 - 0	  |
++*|ext_msg|
++******************************************/
++s32 FillH2CCmd_8812(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer)
++{
++	u8 h2c_box_num;
++	u32	msgbox_addr;
++	u32 msgbox_ex_addr;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	u8 cmd_idx, ext_cmd_len;
++	u32	h2c_cmd = 0;
++	u32	h2c_cmd_ex = 0;
++	s32 ret = _FAIL;
++
++
++	padapter = GET_PRIMARY_ADAPTER(padapter);
++	pHalData = GET_HAL_DATA(padapter);
++
++
++	if (padapter->bFWReady == _FALSE) {
++		/* RTW_INFO("FillH2CCmd_8812(): return H2C cmd because fw is not ready\n"); */
++		return ret;
++	}
++
++	_enter_critical_mutex(&(adapter_to_dvobj(padapter)->h2c_fwcmd_mutex), NULL);
++
++
++	if (!pCmdBuffer)
++		goto exit;
++	if (CmdLen > RTL8812_MAX_CMD_LEN)
++		goto exit;
++	if (rtw_is_surprise_removed(padapter))
++		goto exit;
++
++	/* pay attention to if  race condition happened in  H2C cmd setting. */
++	do {
++		h2c_box_num = pHalData->LastHMEBoxNum;
++
++		if (!_is_fw_read_cmd_down(padapter, h2c_box_num)) {
++			RTW_INFO(" fw read cmd failed...\n");
++			goto exit;
++		}
++
++		*(u8 *)(&h2c_cmd) = ElementID;
++
++		if (CmdLen <= 3)
++			_rtw_memcpy((u8 *)(&h2c_cmd) + 1, pCmdBuffer, CmdLen);
++		else {
++			_rtw_memcpy((u8 *)(&h2c_cmd) + 1, pCmdBuffer, 3);
++			ext_cmd_len = CmdLen - 3;
++			_rtw_memcpy((u8 *)(&h2c_cmd_ex), pCmdBuffer + 3, ext_cmd_len);
++
++			/* Write Ext command */
++			msgbox_ex_addr = REG_HMEBOX_EXT0_8812 + (h2c_box_num * RTL8812_EX_MESSAGE_BOX_SIZE);
++#ifdef CONFIG_H2C_EF
++			for (cmd_idx = 0; cmd_idx < ext_cmd_len; cmd_idx++)
++				rtw_write8(padapter, msgbox_ex_addr + cmd_idx, *((u8 *)(&h2c_cmd_ex) + cmd_idx));
++#else
++			h2c_cmd_ex = le32_to_cpu(h2c_cmd_ex);
++			rtw_write32(padapter, msgbox_ex_addr, h2c_cmd_ex);
++#endif
++		}
++		/* Write command */
++		msgbox_addr = REG_HMEBOX_0 + (h2c_box_num * RTL8812_MESSAGE_BOX_SIZE);
++#ifdef CONFIG_H2C_EF
++		for (cmd_idx = 0; cmd_idx < RTL8812_MESSAGE_BOX_SIZE; cmd_idx++)
++			rtw_write8(padapter, msgbox_addr + cmd_idx, *((u8 *)(&h2c_cmd) + cmd_idx));
++#else
++		h2c_cmd = le32_to_cpu(h2c_cmd);
++		rtw_write32(padapter, msgbox_addr, h2c_cmd);
++#endif
++
++		/* RTW_INFO("MSG_BOX:%d,CmdLen(%d), reg:0x%x =>h2c_cmd:0x%x, reg:0x%x =>h2c_cmd_ex:0x%x ..\n" */
++		/*	,pHalData->LastHMEBoxNum ,CmdLen,msgbox_addr,h2c_cmd,msgbox_ex_addr,h2c_cmd_ex); */
++
++		pHalData->LastHMEBoxNum = (h2c_box_num + 1) % RTL8812_MAX_H2C_BOX_NUMS;
++
++	} while (0);
++
++	ret = _SUCCESS;
++
++exit:
++
++	_exit_critical_mutex(&(adapter_to_dvobj(padapter)->h2c_fwcmd_mutex), NULL);
++
++
++	return ret;
++}
++
++u8 rtl8812_set_rssi_cmd(_adapter *padapter, u8 *param)
++{
++	u8	res = _SUCCESS;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	*((u32 *) param) = cpu_to_le32(*((u32 *) param));
++
++	FillH2CCmd_8812(padapter, H2C_8812_RSSI_REPORT, 4, param);
++
++
++	return res;
++}
++
++u8	Get_VHT_ENI(
++	u32		IOTAction,
++	u32		WirelessMode,
++	u32		ratr_bitmap
++)
++{
++	u8	Ret = 0;
++
++	if (WirelessMode == WIRELESS_11_24AC) {
++		if (ratr_bitmap & 0xfff00000)	/* Mix , 2SS */
++			Ret = 3;
++		else 					/* Mix, 1SS */
++			Ret = 2;
++	} else if (WirelessMode == WIRELESS_11_5AC) {
++		Ret = 1;					/* VHT */
++	}
++
++	return Ret << 4;
++}
++
++BOOLEAN
++Get_RA_ShortGI_8812(
++	PADAPTER			Adapter,
++	struct sta_info		*psta,
++	u8					shortGIrate,
++	u32					ratr_bitmap
++)
++{
++	BOOLEAN		bShortGI;
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	bShortGI = shortGIrate;
++
++#ifdef CONFIG_80211AC_VHT
++	if (bShortGI &&
++	    IsSupportedVHT(psta->wireless_mode) &&
++	    (pmlmeinfo->assoc_AP_vendor == HT_IOT_PEER_REALTEK_JAGUAR_CCUTAP) &&
++	    TEST_FLAG(psta->vhtpriv.ldpc_cap, LDPC_VHT_ENABLE_TX)
++	   ) {
++		if (ratr_bitmap & 0xC0000000)
++			bShortGI = _FALSE;
++	}
++#endif
++
++	return bShortGI;
++}
++
++
++void
++Set_RA_LDPC_8812(
++	struct sta_info	*psta,
++	BOOLEAN			bLDPC
++)
++{
++	if (psta == NULL)
++		return;
++#ifdef CONFIG_80211AC_VHT
++	if (psta->wireless_mode == WIRELESS_11_5AC) {
++		if (bLDPC && TEST_FLAG(psta->vhtpriv.ldpc_cap, LDPC_VHT_CAP_TX))
++			SET_FLAG(psta->vhtpriv.ldpc_cap, LDPC_VHT_ENABLE_TX);
++		else
++			CLEAR_FLAG(psta->vhtpriv.ldpc_cap, LDPC_VHT_ENABLE_TX);
++	} else if (IsSupportedHT(psta->wireless_mode) || IsSupportedVHT(psta->wireless_mode)) {
++		if (bLDPC && TEST_FLAG(psta->htpriv.ldpc_cap, LDPC_HT_CAP_TX))
++			SET_FLAG(psta->htpriv.ldpc_cap, LDPC_HT_ENABLE_TX);
++		else
++			CLEAR_FLAG(psta->htpriv.ldpc_cap, LDPC_HT_ENABLE_TX);
++	}
++
++	update_ldpc_stbc_cap(psta);
++#endif
++
++	/* RTW_INFO("MacId %d bLDPC %d\n", psta->mac_id, bLDPC); */
++}
++
++
++u8
++Get_RA_LDPC_8812(
++	struct sta_info		*psta
++)
++{
++	u8	bLDPC = 0;
++
++	if (psta != NULL) {
++		if (IS_MCAST(psta->hwaddr))
++			bLDPC = 0;
++		else {
++#ifdef CONFIG_80211AC_VHT
++			if (IsSupportedVHT(psta->wireless_mode)) {
++				if (TEST_FLAG(psta->vhtpriv.ldpc_cap, LDPC_VHT_CAP_TX))
++					bLDPC = 1;
++				else
++					bLDPC = 0;
++			} else if (IsSupportedHT(psta->wireless_mode)) {
++				if (TEST_FLAG(psta->htpriv.ldpc_cap, LDPC_HT_CAP_TX))
++					bLDPC = 1;
++				else
++					bLDPC = 0;
++			} else
++#endif
++				bLDPC = 0;
++		}
++	}
++
++	return bLDPC << 2;
++}
++
++void rtl8812_set_raid_cmd(PADAPTER padapter, u32 bitmap, u8 *arg, u8 bw)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct macid_ctl_t *macid_ctl = &padapter->dvobj->macid_ctl;
++	struct sta_info	*psta = NULL;
++	u8 macid, init_rate, raid, shortGIrate = _FALSE;
++
++
++	macid = arg[0];
++	raid = arg[1];
++	shortGIrate = arg[2];
++	init_rate = arg[3];
++
++	if (macid < macid_ctl->num)
++		psta = macid_ctl->sta[macid];
++	if (psta == NULL) {
++		RTW_PRINT(FUNC_ADPT_FMT" macid:%u, sta is NULL\n"
++			  , FUNC_ADPT_ARG(padapter), macid);
++		return;
++	}
++
++	if (pHalData->fw_ractrl == _TRUE) {
++		u8	H2CCommand[7] = {0};
++
++		shortGIrate = Get_RA_ShortGI_8812(padapter, psta, shortGIrate, bitmap);
++
++		H2CCommand[0] = macid;
++		H2CCommand[1] = (raid & 0x1F) | (shortGIrate ? 0x80 : 0x00) ;
++		H2CCommand[2] = (bw & 0x3) | Get_RA_LDPC_8812(psta) | Get_VHT_ENI(0, psta->wireless_mode, bitmap);
++
++		/* DisableTXPowerTraining */
++		if (pHalData->bDisableTXPowerTraining) {
++			H2CCommand[2] |= BIT6;
++			RTW_INFO("%s,Disable PWT by driver\n", __FUNCTION__);
++		} else {
++			PDM_ODM_T	pDM_OutSrc = &pHalData->odmpriv;
++
++			if (pDM_OutSrc->bDisablePowerTraining) {
++				H2CCommand[2] |= BIT6;
++				RTW_INFO("%s,Disable PWT by DM\n", __FUNCTION__);
++			}
++		}
++
++		H2CCommand[3] = (u8)(bitmap & 0x000000ff);
++		H2CCommand[4] = (u8)((bitmap & 0x0000ff00) >> 8);
++		H2CCommand[5] = (u8)((bitmap & 0x00ff0000) >> 16);
++		H2CCommand[6] = (u8)((bitmap & 0xff000000) >> 24);
++
++		/* RTW_INFO("rtl8812_set_raid_cmd, bitmap=0x%x, mac_id=0x%x, raid=0x%x, shortGIrate=%x\n", bitmap, macid, raid, shortGIrate); */
++
++		FillH2CCmd_8812(padapter, H2C_8812_RA_MASK, 7, H2CCommand);
++	}
++
++	if (shortGIrate == _TRUE)
++		init_rate |= BIT(7);
++
++	pHalData->INIDATA_RATE[macid] = init_rate;
++
++
++}
++
++#ifdef CONFIG_FWLPS_IN_IPS
++void rtl8812_set_FwPwrModeInIPS_cmd(PADAPTER padapter, u8 cmd_param)
++{
++	FillH2CCmd_8812(padapter, H2C_8812_INACTIVE_PS, 1, &cmd_param);
++}
++#endif
++
++void rtl8812_set_FwPwrMode_cmd(PADAPTER padapter, u8 PSMode)
++{
++	u8	u1H2CSetPwrMode[H2C_PWRMODE_LEN] = {0};
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	u8	Mode = 0, RLBM = 0, PowerState = 0, LPSAwakeIntvl = 2, pwrModeByte5 = 0;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++
++	RTW_INFO("%s: Mode=%d SmartPS=%d UAPSD=%d\n", __FUNCTION__,
++		PSMode, pwrpriv->smart_ps, padapter->registrypriv.uapsd_enable);
++
++	switch (PSMode) {
++	case PS_MODE_ACTIVE:
++		Mode = 0;
++		break;
++	case PS_MODE_MIN:
++		Mode = 1;
++		break;
++	case PS_MODE_MAX:
++		RLBM = 1;
++		Mode = 1;
++		break;
++	case PS_MODE_DTIM:
++		RLBM = 2;
++		Mode = 1;
++		break;
++	case PS_MODE_UAPSD_WMM:
++		Mode = 2;
++		break;
++	default:
++		Mode = 0;
++		break;
++	}
++
++	if (Mode > PS_MODE_ACTIVE) {
++#ifdef CONFIG_BT_COEXIST
++		if ((rtw_btcoex_IsBtControlLps(padapter) == _TRUE)  && (_TRUE == pHalData->EEPROMBluetoothCoexist)) {
++			PowerState = rtw_btcoex_RpwmVal(padapter);
++			pwrModeByte5 = rtw_btcoex_LpsVal(padapter);
++		} else
++#endif /* CONFIG_BT_COEXIST */
++		{
++			PowerState = 0x00;/* AllON(0x0C), RFON(0x04), RFOFF(0x00) */
++			pwrModeByte5 = 0x40;
++		}
++
++#ifdef CONFIG_EXT_CLK
++		Mode |= BIT(7);/* supporting 26M XTAL CLK_Request feature. */
++#endif /* CONFIG_EXT_CLK */
++	} else {
++		PowerState = 0x0C;/* AllON(0x0C), RFON(0x04), RFOFF(0x00) */
++		pwrModeByte5 = 0x40;
++	}
++
++	/* 0: Active, 1: LPS, 2: WMMPS */
++	SET_8812_H2CCMD_PWRMODE_PARM_MODE(u1H2CSetPwrMode, Mode);
++
++	/* 0:Min, 1:Max , 2:User define */
++	SET_8812_H2CCMD_PWRMODE_PARM_RLBM(u1H2CSetPwrMode, RLBM);
++
++	/* (LPS) smart_ps:  0: PS_Poll, 1: PS_Poll , 2: NullData */
++	/* (WMM)smart_ps: 0:PS_Poll, 1:NullData */
++	SET_8812_H2CCMD_PWRMODE_PARM_SMART_PS(u1H2CSetPwrMode, pwrpriv->smart_ps);
++
++	/* AwakeInterval: Unit is beacon interval, this field is only valid in PS_DTIM mode */
++	SET_8812_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(u1H2CSetPwrMode, LPSAwakeIntvl);
++
++	/* (WMM only)bAllQueueUAPSD */
++	SET_8812_H2CCMD_PWRMODE_PARM_ALL_QUEUE_UAPSD(u1H2CSetPwrMode, padapter->registrypriv.uapsd_enable);
++
++	/* AllON(0x0C), RFON(0x04), RFOFF(0x00) */
++	SET_8812_H2CCMD_PWRMODE_PARM_PWR_STATE(u1H2CSetPwrMode, PowerState);
++
++	SET_8812_H2CCMD_PWRMODE_PARM_BYTE5(u1H2CSetPwrMode, pwrModeByte5);
++
++#ifdef CONFIG_BT_COEXIST
++	if (_TRUE == pHalData->EEPROMBluetoothCoexist)
++		rtw_btcoex_RecordPwrMode(padapter, u1H2CSetPwrMode, sizeof(u1H2CSetPwrMode));
++#endif /* CONFIG_BT_COEXIST */
++	/* RTW_INFO("u1H2CSetPwrMode="MAC_FMT"\n", MAC_ARG(u1H2CSetPwrMode)); */
++	FillH2CCmd_8812(padapter, H2C_8812_SETPWRMODE, sizeof(u1H2CSetPwrMode), u1H2CSetPwrMode);
++
++}
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++void rtl8812_set_BcnEarly_C2H_Rpt_cmd(PADAPTER padapter, u8 enable)
++{
++	u8	u1H2CSetPwrMode[H2C_PWRMODE_LEN] = {0};
++
++	SET_8812_H2CCMD_PWRMODE_PARM_MODE(u1H2CSetPwrMode, 1);
++	SET_8812_H2CCMD_PWRMODE_PARM_RLBM(u1H2CSetPwrMode, 1);
++	SET_8812_H2CCMD_PWRMODE_PARM_SMART_PS(u1H2CSetPwrMode, 0);
++	SET_8812_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(u1H2CSetPwrMode, 0);
++	SET_8812_H2CCMD_PWRMODE_PARM_ALL_QUEUE_UAPSD(u1H2CSetPwrMode, 0);
++	SET_8812_H2CCMD_PWRMODE_PARM_BCN_EARLY_C2H_RPT(u1H2CSetPwrMode, enable);
++	SET_8812_H2CCMD_PWRMODE_PARM_PWR_STATE(u1H2CSetPwrMode, 0x0C);
++	SET_8812_H2CCMD_PWRMODE_PARM_BYTE5(u1H2CSetPwrMode, 0);
++	FillH2CCmd_8812(padapter, H2C_8812_SETPWRMODE, sizeof(u1H2CSetPwrMode), u1H2CSetPwrMode);
++}
++#endif
++#endif
++
++void ConstructBeacon(_adapter *padapter, u8 *pframe, u32 *pLength)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;
++	u32					rate_len, pktlen;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*cur_network = &(pmlmeinfo->network);
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(cur_network), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0/*pmlmeext->mgnt_seq*/);
++	/* pmlmeext->mgnt_seq++; */
++	SetFrameSubType(pframe, WIFI_BEACON);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	/* timestamp will be inserted by hardware */
++	pframe += 8;
++	pktlen += 8;
++
++	/* beacon interval: 2 bytes */
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_beacon_interval_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	pktlen += 2;
++
++	/* capability info: 2 bytes */
++	_rtw_memcpy(pframe, (unsigned char *)(rtw_get_capability_from_ie(cur_network->IEs)), 2);
++
++	pframe += 2;
++	pktlen += 2;
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) {
++		/* RTW_INFO("ie len=%d\n", cur_network->IELength); */
++		pktlen += cur_network->IELength - sizeof(NDIS_802_11_FIXED_IEs);
++		_rtw_memcpy(pframe, cur_network->IEs + sizeof(NDIS_802_11_FIXED_IEs), pktlen);
++
++		goto _ConstructBeacon;
++	}
++
++	/* below for ad-hoc mode */
++
++	/* SSID */
++	pframe = rtw_set_ie(pframe, _SSID_IE_, cur_network->Ssid.SsidLength, cur_network->Ssid.Ssid, &pktlen);
++
++	/* supported rates... */
++	rate_len = rtw_get_rateset_len(cur_network->SupportedRates);
++	pframe = rtw_set_ie(pframe, _SUPPORTEDRATES_IE_, ((rate_len > 8) ? 8 : rate_len), cur_network->SupportedRates, &pktlen);
++
++	/* DS parameter set */
++	pframe = rtw_set_ie(pframe, _DSSET_IE_, 1, (unsigned char *)&(cur_network->Configuration.DSConfig), &pktlen);
++
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) {
++		u32 ATIMWindow;
++		/* IBSS Parameter Set... */
++		/* ATIMWindow = cur->Configuration.ATIMWindow; */
++		ATIMWindow = 0;
++		pframe = rtw_set_ie(pframe, _IBSS_PARA_IE_, 2, (unsigned char *)(&ATIMWindow), &pktlen);
++	}
++
++
++	/* todo: ERP IE */
++
++
++	/* EXTERNDED SUPPORTED RATE */
++	if (rate_len > 8)
++		pframe = rtw_set_ie(pframe, _EXT_SUPPORTEDRATES_IE_, (rate_len - 8), (cur_network->SupportedRates + 8), &pktlen);
++
++
++	/* todo:HT for adhoc */
++
++_ConstructBeacon:
++
++	if ((pktlen + TXDESC_SIZE) > 512) {
++		RTW_INFO("beacon frame too large\n");
++		return;
++	}
++
++	*pLength = pktlen;
++
++	/* RTW_INFO("%s bcn_sz=%d\n", __FUNCTION__, pktlen); */
++
++}
++
++void ConstructPSPoll(_adapter *padapter, u8 *pframe, u32 *pLength)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16					*fctrl;
++	u32					pktlen;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	/* Frame control. */
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++	SetPwrMgt(fctrl);
++	SetFrameSubType(pframe, WIFI_PSPOLL);
++
++	/* AID. */
++	SetDuration(pframe, (pmlmeinfo->aid | 0xc000));
++
++	/* BSSID. */
++	_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	/* TA. */
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++
++	*pLength = 16;
++}
++
++void ConstructNullFunctionData(
++	PADAPTER padapter,
++	u8		*pframe,
++	u32		*pLength,
++	u8		*StaAddr,
++	u8		bQoS,
++	u8		AC,
++	u8		bEosp,
++	u8		bForcePowerSave)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16						*fctrl;
++	u32						pktlen;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network		*cur_network = &pmlmepriv->cur_network;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++
++	/* RTW_INFO("%s:%d\n", __FUNCTION__, bForcePowerSave); */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++	if (bForcePowerSave)
++		SetPwrMgt(fctrl);
++
++	switch (cur_network->network.InfrastructureMode) {
++	case Ndis802_11Infrastructure:
++		SetToDs(fctrl);
++		_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, StaAddr, ETH_ALEN);
++		break;
++	case Ndis802_11APMode:
++		SetFrDs(fctrl);
++		_rtw_memcpy(pwlanhdr->addr1, StaAddr, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++		break;
++	case Ndis802_11IBSS:
++	default:
++		_rtw_memcpy(pwlanhdr->addr1, StaAddr, ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++		_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++		break;
++	}
++
++	SetSeqNum(pwlanhdr, 0);
++
++	if (bQoS == _TRUE) {
++		struct rtw_ieee80211_hdr_3addr_qos *pwlanqoshdr;
++
++		SetFrameSubType(pframe, WIFI_QOS_DATA_NULL);
++
++		pwlanqoshdr = (struct rtw_ieee80211_hdr_3addr_qos *)pframe;
++		SetPriority(&pwlanqoshdr->qc, AC);
++		SetEOSP(&pwlanqoshdr->qc, bEosp);
++
++		pktlen = sizeof(struct rtw_ieee80211_hdr_3addr_qos);
++	} else {
++		SetFrameSubType(pframe, WIFI_DATA_NULL);
++
++		pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	}
++
++	*pLength = pktlen;
++}
++
++#ifdef CONFIG_GTK_OL
++static void ConstructGTKResponse(
++	PADAPTER padapter,
++	u8			*pframe,
++	u32			*pLength
++)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16						*fctrl;
++	u32						pktlen;
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network		*cur_network = &pmlmepriv->cur_network;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	static u8			LLCHeader[8] = {0xAA, 0xAA, 0x03, 0x00, 0x00, 0x00, 0x88, 0x8E};
++	static u8			GTKbody_a[11] = {0x01, 0x03, 0x00, 0x5F, 0x02, 0x03, 0x12, 0x00, 0x10, 0x42, 0x0B};
++	u8				*pGTKRspPkt = pframe;
++	u8			EncryptionHeadOverhead = 0;
++	/* RTW_INFO("%s:%d\n", __FUNCTION__, bForcePowerSave); */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++
++	/* ------------------------------------------------------------------------- */
++	/* MAC Header. */
++	/* ------------------------------------------------------------------------- */
++	SetFrameType(fctrl, WIFI_DATA);
++	/* SetFrameSubType(fctrl, 0); */
++	SetToDs(fctrl);
++	_rtw_memcpy(pwlanhdr->addr1, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, 0);
++	SetDuration(pwlanhdr, 0);
++
++#ifdef CONFIG_WAPI_SUPPORT
++	*pLength = sMacHdrLng;
++#else
++	*pLength = 24;
++#endif /* CONFIG_WAPI_SUPPORT */
++
++	/* YJ,del,120503 */
++#if 0
++	/* ------------------------------------------------------------------------- */
++	/* Qos Header: leave space for it if necessary. */
++	/* ------------------------------------------------------------------------- */
++	if (pStaQos->CurrentQosMode > QOS_DISABLE) {
++		SET_80211_HDR_QOS_EN(pGTKRspPkt, 1);
++		PlatformZeroMemory(&(Buffer[*pLength]), sQoSCtlLng);
++		*pLength += sQoSCtlLng;
++	}
++#endif /* 0 */
++	/* ------------------------------------------------------------------------- */
++	/* Security Header: leave space for it if necessary. */
++	/* ------------------------------------------------------------------------- */
++
++#if 1
++	switch (psecuritypriv->dot11PrivacyAlgrthm) {
++	case _WEP40_:
++	case _WEP104_:
++		EncryptionHeadOverhead = 4;
++		break;
++	case _TKIP_:
++		EncryptionHeadOverhead = 8;
++		break;
++	case _AES_:
++		EncryptionHeadOverhead = 8;
++		break;
++#ifdef CONFIG_WAPI_SUPPORT
++	case _SMS4_:
++		EncryptionHeadOverhead = 18;
++		break;
++#endif /* CONFIG_WAPI_SUPPORT */
++	default:
++		EncryptionHeadOverhead = 0;
++	}
++
++	if (EncryptionHeadOverhead > 0) {
++		_rtw_memset(&(pframe[*pLength]), 0, EncryptionHeadOverhead);
++		*pLength += EncryptionHeadOverhead;
++		/* SET_80211_HDR_WEP(pGTKRspPkt, 1);  */ /* Suggested by CCW. */
++		/* GTK's privacy bit is done by FW */
++		/* SetPrivacy(fctrl); */
++	}
++#endif /* 1 */
++	/* ------------------------------------------------------------------------- */
++	/* Frame Body. */
++	/* ------------------------------------------------------------------------- */
++	pGTKRspPkt = (u8 *)(pframe + *pLength);
++	/* LLC header */
++	_rtw_memcpy(pGTKRspPkt, LLCHeader, 8);
++	*pLength += 8;
++
++	/* GTK element */
++	pGTKRspPkt += 8;
++
++	/* GTK frame body after LLC, part 1 */
++	_rtw_memcpy(pGTKRspPkt, GTKbody_a, 11);
++	*pLength += 11;
++	pGTKRspPkt += 11;
++	/* GTK frame body after LLC, part 2 */
++	_rtw_memset(&(pframe[*pLength]), 0, 88);
++	*pLength += 88;
++	pGTKRspPkt += 88;
++
++}
++#endif /* CONFIG_GTK_OL */
++
++/* To check if reserved page content is destroyed by beacon beacuse beacon is too large.
++ * 2010.06.23. Added by tynli. */
++VOID
++CheckFwRsvdPageContent(
++	IN	PADAPTER		Adapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u32	MaxBcnPageNum;
++
++	if (pHalData->FwRsvdPageStartOffset != 0) {
++		/*MaxBcnPageNum = PageNum_128(pMgntInfo->MaxBeaconSize);
++		RT_ASSERT((MaxBcnPageNum <= pHalData->FwRsvdPageStartOffset),
++			("CheckFwRsvdPageContent(): The reserved page content has been"\
++			"destroyed by beacon!!! MaxBcnPageNum(%d) FwRsvdPageStartOffset(%d)\n!",
++			MaxBcnPageNum, pHalData->FwRsvdPageStartOffset));*/
++	}
++}
++
++/*
++ * Description: Get the reserved page number in Tx packet buffer.
++ * Retrun value: the page number.
++ * 2012.08.09, by tynli.
++ *   */
++u8
++GetTxBufferRsvdPageNum8812(_adapter *Adapter, bool bWoWLANBoundary)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u8	RsvdPageNum = 0;
++	u8	TxPageBndy = LAST_ENTRY_OF_TX_PKT_BUFFER_8812; /* default reseved 1 page for the IC type which is undefined. */
++
++	if (bWoWLANBoundary)
++		rtw_hal_get_def_var(Adapter, HAL_DEF_TX_PAGE_BOUNDARY_WOWLAN, (u8 *)&TxPageBndy);
++	else
++		rtw_hal_get_def_var(Adapter, HAL_DEF_TX_PAGE_BOUNDARY, (u8 *)&TxPageBndy);
++
++	RsvdPageNum = LAST_ENTRY_OF_TX_PKT_BUFFER_8812 - TxPageBndy + 1;
++
++	return RsvdPageNum;
++}
++
++/*
++ * Description: Fill the reserved packets that FW will use to RSVD page.
++ *			Now we just send 4 types packet to rsvd page.
++ *			(1)Beacon, (2)Ps-poll, (3)Null data, (4)ProbeRsp.
++ *	Input:
++ *	    bDLFinished - FALSE: At the first time we will send all the packets as a large packet to Hw,
++ *						so we need to set the packet length to total lengh.
++ *			      TRUE: At the second time, we should send the first packet (default:beacon)
++ *						to Hw again and set the lengh in descriptor to the real beacon lengh.
++ * 2009.10.15 by tynli. */
++static void SetFwRsvdPagePkt_8812(PADAPTER padapter, BOOLEAN bDLFinished)
++{
++	PHAL_DATA_TYPE pHalData;
++	struct xmit_frame	*pcmdframe;
++	struct pkt_attrib	*pattrib;
++	struct xmit_priv	*pxmitpriv;
++	struct mlme_ext_priv	*pmlmeext;
++	struct mlme_ext_info	*pmlmeinfo;
++	u32	PSPollLength, NullFunctionDataLength, QosNullLength;
++	u32	BcnLen;
++	u8	TotalPageNum = 0, CurtPktPageNum = 0, TxDescLen = 0, RsvdPageNum = 0;
++	u8	*ReservedPagePacket;
++	u8	RsvdPageLoc[5] = {0};
++	u16	BufIndex = 0, PageSize = 256;
++	u32	TotalPacketLen, MaxRsvdPageBufSize = 0;;
++
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	pHalData = GET_HAL_DATA(padapter);
++	pxmitpriv = &padapter->xmitpriv;
++	pmlmeext = &padapter->mlmeextpriv;
++	pmlmeinfo = &pmlmeext->mlmext_info;
++
++	if (IS_HARDWARE_TYPE_8812(padapter))
++		PageSize = 512;
++	else if (IS_HARDWARE_TYPE_8821(padapter))
++		PageSize = PAGE_SIZE_TX_8821A;
++
++	/* <tynli_note> The function SetFwRsvdPagePkt_8812() input must be added a value "bDLWholePackets" to */
++	/* decide if download wowlan packets, and use "bDLWholePackets" to be GetTxBufferRsvdPageNum8812() 2nd input value. */
++	RsvdPageNum = GetTxBufferRsvdPageNum8812(padapter, _FALSE);
++	MaxRsvdPageBufSize = RsvdPageNum * PageSize;
++
++	pcmdframe = rtw_alloc_cmdxmitframe(pxmitpriv);
++	if (pcmdframe == NULL)
++		return;
++
++	ReservedPagePacket = pcmdframe->buf_addr;
++
++	TxDescLen = TXDESC_SIZE;/* The desc lengh in Tx packet buffer of 8812A is 40 bytes. */
++
++	/* (1) beacon */
++	BufIndex = TXDESC_OFFSET;
++	ConstructBeacon(padapter, &ReservedPagePacket[BufIndex], &BcnLen);
++
++	/* When we count the first page size, we need to reserve description size for the RSVD */
++	/* packet, it will be filled in front of the packet in TXPKTBUF. */
++	CurtPktPageNum = (u8)PageNum(BcnLen + TxDescLen, PageSize);
++
++	if (bDLFinished) {
++		TotalPageNum += CurtPktPageNum;
++		TotalPacketLen = (TotalPageNum * PageSize);
++		RTW_INFO("%s(): Beacon page size = %d\n", __FUNCTION__, TotalPageNum);
++	} else {
++		TotalPageNum += CurtPktPageNum;
++
++		pHalData->FwRsvdPageStartOffset = TotalPageNum;
++
++		BufIndex += (CurtPktPageNum * PageSize);
++
++		if (BufIndex > MaxRsvdPageBufSize) {
++			RTW_INFO("%s(): Beacon: The rsvd page size is not enough!!BufIndex %d, MaxRsvdPageBufSize %d\n", __FUNCTION__,
++				 BufIndex, MaxRsvdPageBufSize);
++			goto error;
++		}
++
++		/* (2) ps-poll */
++		ConstructPSPoll(padapter, &ReservedPagePacket[BufIndex], &PSPollLength);
++		rtl8812a_fill_fake_txdesc(padapter, &ReservedPagePacket[BufIndex - TxDescLen], PSPollLength, _TRUE, _FALSE, _FALSE);
++
++		SET_8812_H2CCMD_RSVDPAGE_LOC_PSPOLL(RsvdPageLoc, TotalPageNum);
++
++		/* RTW_INFO("SetFwRsvdPagePkt_8812(): HW_VAR_SET_TX_CMD: PS-POLL %p %d\n",  */
++		/*	&ReservedPagePacket[BufIndex-TxDescLen], (PSPollLength+TxDescLen)); */
++
++		CurtPktPageNum = (u8)PageNum(PSPollLength + TxDescLen, PageSize);
++
++		BufIndex += (CurtPktPageNum * PageSize);
++
++		TotalPageNum += CurtPktPageNum;
++
++		if (BufIndex > MaxRsvdPageBufSize) {
++			RTW_INFO("%s(): ps-poll: The rsvd page size is not enough!!BufIndex %d, MaxRsvdPageBufSize %d\n", __FUNCTION__,
++				 BufIndex, MaxRsvdPageBufSize);
++			goto error;
++		}
++
++		/* (3) null data */
++		ConstructNullFunctionData(
++			padapter,
++			&ReservedPagePacket[BufIndex],
++			&NullFunctionDataLength,
++			get_my_bssid(&pmlmeinfo->network),
++			_FALSE, 0, 0, _FALSE);
++		rtl8812a_fill_fake_txdesc(padapter, &ReservedPagePacket[BufIndex - TxDescLen], NullFunctionDataLength, _FALSE, _FALSE, _FALSE);
++
++		SET_8812_H2CCMD_RSVDPAGE_LOC_NULL_DATA(RsvdPageLoc, TotalPageNum);
++
++		/* RTW_INFO("SetFwRsvdPagePkt_8812(): HW_VAR_SET_TX_CMD: NULL DATA %p %d\n",  */
++		/*	&ReservedPagePacket[BufIndex-TxDescLen], (NullFunctionDataLength+TxDescLen)); */
++
++		CurtPktPageNum = (u8)PageNum(NullFunctionDataLength + TxDescLen, PageSize);
++
++		BufIndex += (CurtPktPageNum * PageSize);
++
++		TotalPageNum += CurtPktPageNum;
++
++		if (BufIndex > MaxRsvdPageBufSize) {
++			RTW_INFO("%s(): Null-data: The rsvd page size is not enough!!BufIndex %d, MaxRsvdPageBufSize %d\n", __FUNCTION__,
++				 BufIndex, MaxRsvdPageBufSize);
++			goto error;
++		}
++
++		/* (5) Qos null data */
++		ConstructNullFunctionData(
++			padapter,
++			&ReservedPagePacket[BufIndex],
++			&QosNullLength,
++			get_my_bssid(&pmlmeinfo->network),
++			_TRUE, 0, 0, _FALSE);
++		rtl8812a_fill_fake_txdesc(padapter, &ReservedPagePacket[BufIndex - TxDescLen], QosNullLength, _FALSE, _FALSE, _FALSE);
++
++		SET_8812_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(RsvdPageLoc, TotalPageNum);
++
++		/* RTW_INFO("SetFwRsvdPagePkt_8812(): HW_VAR_SET_TX_CMD: QOS NULL DATA %p %d\n",  */
++		/*	&ReservedPagePacket[BufIndex-TxDescLen], (QosNullLength+TxDescLen)); */
++
++		CurtPktPageNum = (u8)PageNum(QosNullLength + TxDescLen, PageSize);
++
++		BufIndex += (CurtPktPageNum * PageSize);
++
++		TotalPageNum += CurtPktPageNum;
++
++		TotalPacketLen = (TotalPageNum * PageSize);
++	}
++
++
++	if (TotalPacketLen > MaxRsvdPageBufSize) {
++		RTW_INFO("%s(): ERROR: The rsvd page size is not enough!!TotalPacketLen %d, MaxRsvdPageBufSize %d\n", __FUNCTION__,
++			 TotalPacketLen, MaxRsvdPageBufSize);
++		goto error;
++	} else {
++		/* update attribute */
++		pattrib = &pcmdframe->attrib;
++		update_mgntframe_attrib(padapter, pattrib);
++		pattrib->qsel = QSLT_BEACON;
++		pattrib->pktlen = pattrib->last_txcmdsz = TotalPacketLen - TxDescLen;
++#ifdef CONFIG_PCI_HCI
++		dump_mgntframe(padapter, pcmdframe);
++#else
++		dump_mgntframe_and_wait(padapter, pcmdframe, 100);
++#endif
++	}
++
++	if (!bDLFinished) {
++		RTW_INFO("%s: Set RSVD page location to Fw ,TotalPacketLen(%d), TotalPageNum(%d)\n", __FUNCTION__, TotalPacketLen, TotalPageNum);
++		FillH2CCmd_8812(padapter, H2C_8812_RSVDPAGE, 5, RsvdPageLoc);
++	}
++
++	return;
++
++error:
++	rtw_free_xmitframe(pxmitpriv, pcmdframe);
++}
++
++#ifdef CONFIG_P2P_PS
++void rtl8812_set_p2p_ps_offload_cmd(_adapter *padapter, u8 p2p_ps_state)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct pwrctrl_priv		*pwrpriv = adapter_to_pwrctl(padapter);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8	*p2p_ps_offload = (u8 *)&pHalData->p2p_ps_offload;
++	u8	i;
++
++
++#if 1
++	switch (p2p_ps_state) {
++	case P2P_PS_DISABLE:
++		RTW_INFO("P2P_PS_DISABLE\n");
++		_rtw_memset(p2p_ps_offload, 0, 1);
++		break;
++	case P2P_PS_ENABLE:
++		RTW_INFO("P2P_PS_ENABLE\n");
++		/* update CTWindow value. */
++		if (pwdinfo->ctwindow > 0) {
++			SET_8812_H2CCMD_P2P_PS_OFFLOAD_CTWINDOW_EN(p2p_ps_offload, 1);
++			rtw_write8(padapter, REG_P2P_CTWIN, pwdinfo->ctwindow);
++		}
++
++		/* hw only support 2 set of NoA */
++		for (i = 0 ; i < pwdinfo->noa_num ; i++) {
++			/* To control the register setting for which NOA */
++			rtw_write8(padapter, REG_NOA_DESC_SEL, (i << 4));
++			if (i == 0)
++				SET_8812_H2CCMD_P2P_PS_OFFLOAD_NOA0_EN(p2p_ps_offload, 1);
++			else
++				SET_8812_H2CCMD_P2P_PS_OFFLOAD_NOA1_EN(p2p_ps_offload, 1);
++
++			/* config P2P NoA Descriptor Register */
++			/* RTW_INFO("%s(): noa_duration = %x\n",__FUNCTION__,pwdinfo->noa_duration[i]); */
++			rtw_write32(padapter, REG_NOA_DESC_DURATION, pwdinfo->noa_duration[i]);
++
++			/* RTW_INFO("%s(): noa_interval = %x\n",__FUNCTION__,pwdinfo->noa_interval[i]); */
++			rtw_write32(padapter, REG_NOA_DESC_INTERVAL, pwdinfo->noa_interval[i]);
++
++			/* RTW_INFO("%s(): start_time = %x\n",__FUNCTION__,pwdinfo->noa_start_time[i]); */
++			rtw_write32(padapter, REG_NOA_DESC_START, pwdinfo->noa_start_time[i]);
++
++			/* RTW_INFO("%s(): noa_count = %x\n",__FUNCTION__,pwdinfo->noa_count[i]); */
++			rtw_write8(padapter, REG_NOA_DESC_COUNT, pwdinfo->noa_count[i]);
++		}
++
++		if ((pwdinfo->opp_ps == 1) || (pwdinfo->noa_num > 0)) {
++			/* rst p2p circuit */
++			rtw_write8(padapter, REG_DUAL_TSF_RST, BIT(4));
++
++			SET_8812_H2CCMD_P2P_PS_OFFLOAD_ENABLE(p2p_ps_offload, 1);
++
++			if (pwdinfo->role == P2P_ROLE_GO) {
++				/* 1: Owner, 0: Client */
++				SET_8812_H2CCMD_P2P_PS_OFFLOAD_ROLE(p2p_ps_offload, 1);
++				SET_8812_H2CCMD_P2P_PS_OFFLOAD_ALLSTASLEEP(p2p_ps_offload, 0);
++			} else {
++				/* 1: Owner, 0: Client */
++				SET_8812_H2CCMD_P2P_PS_OFFLOAD_ROLE(p2p_ps_offload, 0);
++			}
++
++			SET_8812_H2CCMD_P2P_PS_OFFLOAD_DISCOVERY(p2p_ps_offload, 0);
++		}
++		break;
++	case P2P_PS_SCAN:
++		RTW_INFO("P2P_PS_SCAN\n");
++		SET_8812_H2CCMD_P2P_PS_OFFLOAD_DISCOVERY(p2p_ps_offload, 1);
++		break;
++	case P2P_PS_SCAN_DONE:
++		RTW_INFO("P2P_PS_SCAN_DONE\n");
++		SET_8812_H2CCMD_P2P_PS_OFFLOAD_DISCOVERY(p2p_ps_offload, 0);
++		pwdinfo->p2p_ps_state = P2P_PS_ENABLE;
++		break;
++	default:
++		break;
++	}
++
++	RTW_INFO("P2P_PS_OFFLOAD : %x\n", p2p_ps_offload[0]);
++	FillH2CCmd_8812(padapter, H2C_8812_P2P_PS_OFFLOAD, 1, p2p_ps_offload);
++#endif
++
++
++}
++#endif /* CONFIG_P2P */
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++/*
++	ask FW to Reset sync register at Beacon early interrupt
++*/
++u8 rtl8812_reset_tsf(_adapter *padapter, u8 reset_port)
++{
++	u8	buf[2];
++	u8	res = _SUCCESS;
++
++	s32 ret;
++	if (HW_PORT0 == reset_port) {
++		buf[0] = 0x1;
++		buf[1] = 0;
++	} else {
++		buf[0] = 0x0;
++		buf[1] = 0x1;
++	}
++
++	ret = FillH2CCmd_8812(padapter, H2C_8812_TSF_RESET, 2, buf);
++
++
++	return res;
++}
++
++int reset_tsf(PADAPTER Adapter, u8 reset_port)
++{
++	u8 reset_cnt_before = 0, reset_cnt_after = 0, loop_cnt = 0;
++	u32 reg_reset_tsf_cnt = (HW_PORT0 == reset_port) ?
++				REG_FW_RESET_TSF_CNT_0 : REG_FW_RESET_TSF_CNT_1;
++	u32 reg_bcncrtl = (HW_PORT0 == reset_port) ?
++			  REG_BCN_CTRL_1 : REG_BCN_CTRL;
++
++	rtw_mi_buddy_scan_abort(Adapter, _FALSE);	/*	site survey will cause reset_tsf fail	*/
++	reset_cnt_after = reset_cnt_before = rtw_read8(Adapter, reg_reset_tsf_cnt);
++	rtl8812_reset_tsf(Adapter, reset_port);
++
++	while ((reset_cnt_after == reset_cnt_before) && (loop_cnt < 10)) {
++		rtw_msleep_os(100);
++		loop_cnt++;
++		reset_cnt_after = rtw_read8(Adapter, reg_reset_tsf_cnt);
++	}
++
++	return (loop_cnt >= 10) ? _FAIL : _TRUE;
++}
++
++
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++
++static void rtl8812_set_FwRsvdPage_cmd(PADAPTER padapter, PRSVDPAGE_LOC rsvdpageloc)
++{
++	u8 u1H2CRsvdPageParm[H2C_RSVDPAGE_LOC_LEN] = {0};
++
++	RTW_INFO("8812au/8821/8811 RsvdPageLoc: ProbeRsp=%d PsPoll=%d Null=%d QoSNull=%d BTNull=%d\n",
++		 rsvdpageloc->LocProbeRsp, rsvdpageloc->LocPsPoll,
++		 rsvdpageloc->LocNullData, rsvdpageloc->LocQosNull,
++		 rsvdpageloc->LocBTQosNull);
++
++	SET_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(u1H2CRsvdPageParm, rsvdpageloc->LocProbeRsp);
++	SET_H2CCMD_RSVDPAGE_LOC_PSPOLL(u1H2CRsvdPageParm, rsvdpageloc->LocPsPoll);
++	SET_H2CCMD_RSVDPAGE_LOC_NULL_DATA(u1H2CRsvdPageParm, rsvdpageloc->LocNullData);
++	SET_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(u1H2CRsvdPageParm, rsvdpageloc->LocQosNull);
++	SET_H2CCMD_RSVDPAGE_LOC_BT_QOS_NULL_DATA(u1H2CRsvdPageParm, rsvdpageloc->LocBTQosNull);
++
++	RTW_DBG_DUMP("u1H2CRsvdPageParm:", u1H2CRsvdPageParm, H2C_RSVDPAGE_LOC_LEN);
++	FillH2CCmd_8812(padapter, H2C_RSVD_PAGE, H2C_RSVDPAGE_LOC_LEN, u1H2CRsvdPageParm);
++}
++
++
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++
++static void rtl8812_set_FwAoacRsvdPage_cmd(PADAPTER padapter, PRSVDPAGE_LOC rsvdpageloc)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	u8	res = 0, count = 0;
++#ifdef CONFIG_WOWLAN
++	u8 u1H2CAoacRsvdPageParm[H2C_AOAC_RSVDPAGE_LOC_LEN] = {0};
++
++	RTW_INFO("8192EAOACRsvdPageLoc: RWC=%d ArpRsp=%d NbrAdv=%d GtkRsp=%d GtkInfo=%d ProbeReq=%d NetworkList=%d\n",
++		 rsvdpageloc->LocRemoteCtrlInfo, rsvdpageloc->LocArpRsp,
++		 rsvdpageloc->LocNbrAdv, rsvdpageloc->LocGTKRsp,
++		 rsvdpageloc->LocGTKInfo, rsvdpageloc->LocProbeReq,
++		 rsvdpageloc->LocNetList);
++
++#ifdef CONFIG_PNO_SUPPORT
++	RTW_INFO("NLO_INFO=%d\n", rsvdpageloc->LocPNOInfo);
++#endif
++	if (check_fwstate(pmlmepriv, _FW_LINKED)) {
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_REMOTE_WAKE_CTRL_INFO(u1H2CAoacRsvdPageParm, rsvdpageloc->LocRemoteCtrlInfo);
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_ARP_RSP(u1H2CAoacRsvdPageParm, rsvdpageloc->LocArpRsp);
++		/* SET_H2CCMD_AOAC_RSVDPAGE_LOC_NEIGHBOR_ADV(u1H2CAoacRsvdPageParm, rsvdpageloc->LocNbrAdv); */
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_GTK_RSP(u1H2CAoacRsvdPageParm, rsvdpageloc->LocGTKRsp);
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_GTK_INFO(u1H2CAoacRsvdPageParm, rsvdpageloc->LocGTKInfo);
++#ifdef CONFIG_GTK_OL
++		SET_H2CCMD_AOAC_RSVDPAGE_LOC_GTK_EXT_MEM(u1H2CAoacRsvdPageParm, rsvdpageloc->LocGTKEXTMEM);
++#endif /* CONFIG_GTK_OL */
++	} else {
++#ifdef CONFIG_PNO_SUPPORT
++		if (!pwrpriv->pno_in_resume)
++			SET_H2CCMD_AOAC_RSVDPAGE_LOC_NLO_INFO(u1H2CAoacRsvdPageParm, rsvdpageloc->LocPNOInfo);
++#endif
++	}
++
++	RTW_DBG_DUMP("u1H2CAoacRsvdPageParm:", u1H2CAoacRsvdPageParm, H2C_AOAC_RSVDPAGE_LOC_LEN);
++	FillH2CCmd_8812(padapter, H2C_AOAC_RSVD_PAGE, H2C_AOAC_RSVDPAGE_LOC_LEN, u1H2CAoacRsvdPageParm);
++
++#ifdef CONFIG_PNO_SUPPORT
++	if (!check_fwstate(pmlmepriv, WIFI_AP_STATE) &&
++	    !check_fwstate(pmlmepriv, _FW_LINKED) &&
++	    pwrpriv->pno_in_resume == _FALSE) {
++
++		res = rtw_read8(padapter, 0x1b8);
++		while (res == 0 && count < 25) {
++			RTW_INFO("[%d] FW loc_NLOInfo: %d\n", count, res);
++			res = rtw_read8(padapter, 0x1b8);
++			count++;
++			rtw_msleep_os(2);
++		}
++	}
++#endif /* CONFIG_PNO_SUPPORT */
++#endif /* CONFIG_WOWLAN */
++}
++#endif
++
++void rtl8812_set_FwJoinBssReport_cmd(PADAPTER padapter, u8 mstatus)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	BOOLEAN		bSendBeacon = _FALSE;
++	BOOLEAN		bcn_valid = _FALSE;
++	u8	DLBcnCount = 0;
++	u32 poll = 0;
++
++
++	RTW_INFO("%s mstatus(%x)\n", __func__ , mstatus);
++
++	if (mstatus == 1) {
++		/*
++		* We should set AID, correct TSF, HW seq enable before set JoinBssReport to Fw in 88/92C.
++		* Suggested by filen. Added by tynli.
++		*/
++		rtw_write16(padapter, REG_BCN_PSR_RPT, (0xC000 | pmlmeinfo->aid));
++		/*
++		* Do not set TSF again here or vWiFi beacon DMA INT will not work.
++		* correct_TSF(padapter, pmlmeext);
++		* Hw sequende enable by dedault. 2010.06.23. by tynli.
++		* rtw_write16(padapter, REG_NQOS_SEQ, ((pmlmeext->mgnt_seq+100)&0xFFF));
++		* rtw_write8(padapter, REG_HWSEQ_CTRL, 0xFF);
++		*/
++
++		/*Set REG_CR bit 8. DMA beacon by SW.*/
++		pHalData->RegCR_1 |= BIT0;
++		rtw_write8(padapter ,  REG_CR + 1 , pHalData->RegCR_1);
++
++		/*
++		* Disable Hw protection for a time which revserd for Hw sending beacon.
++		*  Fix download reserved page packet fail that access collision with the protection time.
++		* 2010.05.11. Added by tynli.
++		* SetBcnCtrlReg(padapter, 0, BIT3);
++		* SetBcnCtrlReg(padapter, BIT4, 0);
++		*/
++		rtw_write8(padapter, REG_BCN_CTRL , rtw_read8(padapter , REG_BCN_CTRL) & (~BIT(3)));
++		rtw_write8(padapter, REG_BCN_CTRL , rtw_read8(padapter , REG_BCN_CTRL) | BIT(4));
++
++		if (pHalData->RegFwHwTxQCtrl & BIT6) {
++			RTW_INFO("HalDownloadRSVDPage(): There is an Adapter is sending beacon.\n");
++			bSendBeacon = _TRUE;
++		}
++
++		/* Set FWHW_TXQ_CTRL 0x422[6]=0 to tell Hw the packet is not a real beacon frame.*/
++		rtw_write8(padapter , REG_FWHW_TXQ_CTRL + 2 , (pHalData->RegFwHwTxQCtrl & (~BIT6)));
++		pHalData->RegFwHwTxQCtrl &= (~BIT6);
++
++		/* Clear beacon valid check bit.*/
++		rtw_hal_set_hwreg(padapter , HW_VAR_BCN_VALID, NULL);
++		DLBcnCount = 0;
++		poll = 0;
++		do {
++			rtw_hal_set_fw_rsvd_page(padapter , _FALSE);
++			DLBcnCount++;
++			do {
++				rtw_yield_os();
++				/*rtw_mdelay_os(10);*/
++				/* check rsvd page download OK.*/
++				rtw_hal_get_hwreg(padapter , HW_VAR_BCN_VALID , (u8 *)(&bcn_valid));
++				poll++;
++			} while (!bcn_valid && (poll % 10) != 0 && !RTW_CANNOT_RUN(padapter));
++
++		} while (!bcn_valid && DLBcnCount <= 100 && !RTW_CANNOT_RUN(padapter));
++
++		/*RT_ASSERT(bcn_valid, ("HalDownloadRSVDPage88ES(): 1 Download RSVD page failed!\n"));*/
++		if (RTW_CANNOT_RUN(padapter))
++			RTW_INFO("%s bSurpriseRemoved:%s, bDriverStopped:%s\n"
++				 , __func__
++				, rtw_is_surprise_removed(padapter) ? "True" : "False"
++				, rtw_is_drv_stopped(padapter) ? "True" : "False");
++		else if (!bcn_valid)
++			RTW_INFO(ADPT_FMT": 1 DL RSVD page failed! DLBcnCount:%u, poll:%u\n",
++				 ADPT_ARG(padapter) , DLBcnCount , poll);
++		else {
++			struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++
++			pwrctl->fw_psmode_iface_id = padapter->iface_id;
++			RTW_INFO(ADPT_FMT": 1 DL RSVD page success! DLBcnCount:%u, poll:%u\n",
++				 ADPT_ARG(padapter) , DLBcnCount , poll);
++		}
++		/*
++		* We just can send the reserved page twice during the time that Tx thread is stopped (e.g. pnpsetpower)
++		* because we need to free the Tx BCN Desc which is used by the first reserved page packet.
++		* At run time, we cannot get the Tx Desc until it is released in TxHandleInterrupt() so we will return
++		* the beacon TCB in the following code. 2011.11.23. by tynli.
++		*/
++		/*if(bcn_valid && padapter->bEnterPnpSleep)*/
++		if (0) {
++			if (bSendBeacon) {
++				rtw_hal_set_hwreg(padapter , HW_VAR_BCN_VALID, NULL);
++				DLBcnCount = 0;
++				poll = 0;
++				do {
++					/*SetFwRsvdPagePkt_8812(padapter, _TRUE);*/
++					rtw_hal_set_fw_rsvd_page(padapter , _TRUE);
++					DLBcnCount++;
++
++					do {
++						rtw_yield_os();
++						/*rtw_mdelay_os(10);*/
++						/* check rsvd page download OK.*/
++						rtw_hal_get_hwreg(padapter , HW_VAR_BCN_VALID , (u8 *)(&bcn_valid));
++						poll++;
++					} while (!bcn_valid && (poll % 10) != 0 && !RTW_CANNOT_RUN(padapter));
++				} while (!bcn_valid && DLBcnCount <= 100 && !RTW_CANNOT_RUN(padapter));
++
++				/*RT_ASSERT(bcn_valid, ("HalDownloadRSVDPage(): 2 Download RSVD page failed!\n"));*/
++				if (RTW_CANNOT_RUN(padapter))
++					RTW_INFO("%s bSurpriseRemoved:%s, bDriverStopped:%s\n"
++						 , __func__
++						, rtw_is_surprise_removed(padapter) ? "True" : "False"
++						, rtw_is_drv_stopped(padapter) ? "True" : "False");
++				else if (!bcn_valid)
++					RTW_INFO("%s: 2 Download RSVD page failed! DLBcnCount:%u, poll:%u\n" , __func__ , DLBcnCount , poll);
++				else
++					RTW_INFO("%s: 2 Download RSVD success! DLBcnCount:%u, poll:%u\n" , __func__ , DLBcnCount , poll);
++			}
++		}
++
++		/* Enable Bcn*/
++		/*SetBcnCtrlReg(padapter, BIT3, 0);*/
++		/*SetBcnCtrlReg(padapter, 0, BIT4);*/
++		rtw_write8(padapter , REG_BCN_CTRL , rtw_read8(padapter , REG_BCN_CTRL) | BIT(3));
++		rtw_write8(padapter , REG_BCN_CTRL , rtw_read8(padapter , REG_BCN_CTRL) & (~BIT(4)));
++
++		/*
++		* To make sure that if there exists an adapter which would like to send beacon.
++		* If exists, the origianl value of 0x422[6] will be 1, we should check this to
++		* prevent from setting 0x422[6] to 0 after download reserved page, or it will cause
++		* the beacon cannot be sent by HW.
++		* 2010.06.23. Added by tynli.
++		*/
++		if (bSendBeacon) {
++			rtw_write8(padapter , REG_FWHW_TXQ_CTRL + 2 , (pHalData->RegFwHwTxQCtrl | BIT6));
++			pHalData->RegFwHwTxQCtrl |= BIT6;
++		}
++
++
++		/* Update RSVD page location H2C to Fw.*/
++		if (bcn_valid) {
++			rtw_hal_set_hwreg(padapter , HW_VAR_BCN_VALID , NULL);
++			RTW_INFO("Set RSVD page location to Fw.\n");
++			/*FillH2CCmd88E(Adapter, H2C_88E_RSVDPAGE, H2C_RSVDPAGE_LOC_LENGTH, pMgntInfo->u1RsvdPageLoc);*/
++		}
++
++		/* Do not enable HW DMA BCN or it will cause Pcie interface hang by timing issue. 2011.11.24. by tynli.*/
++		/*if(!padapter->bEnterPnpSleep)*/
++		{
++#ifndef CONFIG_PCI_HCI
++			/* Clear CR[8] or beacon packet will not be send to TxBuf anymore.*/
++			pHalData->RegCR_1 &= (~BIT0);
++			rtw_write8(padapter,  REG_CR + 1 , pHalData->RegCR_1);
++#endif
++		}
++	}
++
++}
++
++int rtl8812_iqk_wait(_adapter *padapter, u32 timeout_ms)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct submit_ctx	*iqk_sctx = &pHalData->iqk_sctx;
++
++	iqk_sctx->submit_time = rtw_get_current_time();
++	iqk_sctx->timeout_ms = timeout_ms;
++	iqk_sctx->status = RTW_SCTX_SUBMITTED;
++
++	return rtw_sctx_wait(iqk_sctx, __func__);
++}
++
++void rtl8812_iqk_done(_adapter *padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct submit_ctx	*iqk_sctx = &pHalData->iqk_sctx;
++
++	rtw_sctx_done(&iqk_sctx);
++}
++
++static VOID
++C2HTxBeamformingHandler_8812(
++	IN	PADAPTER		Adapter,
++	IN	u8				*CmdBuf,
++	IN	u8				CmdLen
++)
++{
++	u8	status = CmdBuf[0] & BIT0;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++
++#ifdef CONFIG_BEAMFORMING
++
++#if (BEAMFORMING_SUPPORT == 1)
++	PRT_BEAMFORMING_INFO	pBeamInfo = &pDM_Odm->BeamformingInfo;
++	PRT_SOUNDING_INFO		pSoundInfo = &(pBeamInfo->SoundingInfo);
++
++	if (pSoundInfo->SoundMode == SOUNDING_FW_VHT_TIMER) {
++		RTW_INFO("SOUNDING_FW_VHT_TIMER\n");
++		Beamforming_CheckSoundingSuccess(pDM_Odm, status);
++	} else {
++		RTW_INFO("SOUNDING_SW_VHT_TIMER\n");
++		phydm_Beamforming_End_SW(pDM_Odm, status);
++	}
++#else /*(BEAMFORMING_SUPPORT == 0) - drv beamforming*/
++	beamforming_check_sounding_success(Adapter, status);
++#if (0)/*DEV_BUS_TYPE == RT_PCI_INTERFACE)*/
++	beamforming_end_fw(Adapter, status);
++#endif
++#endif
++
++#endif /*#ifdef CONFIG_BEAMFORMING*/
++}
++
++static VOID
++C2HTxFeedbackHandler_8812(
++	IN	PADAPTER	Adapter,
++	IN	u8			*CmdBuf,
++	IN	u8			CmdLen
++)
++{
++#ifdef CONFIG_XMIT_ACK
++	if (GET_8812_C2H_TX_RPT_RETRY_OVER(CmdBuf) | GET_8812_C2H_TX_RPT_LIFE_TIME_OVER(CmdBuf))
++		rtw_ack_tx_done(&Adapter->xmitpriv, RTW_SCTX_DONE_CCX_PKT_FAIL);
++	else
++		rtw_ack_tx_done(&Adapter->xmitpriv, RTW_SCTX_DONE_SUCCESS);
++#endif
++}
++
++s32
++_C2HContentParsing8812(
++	IN	PADAPTER	Adapter,
++	IN	u8			c2hCmdId,
++	IN	u8			c2hCmdLen,
++	IN	u8			*tmpBuf
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	s32 ret = _SUCCESS;
++
++	switch (c2hCmdId) {
++	case C2H_TXBF:
++		RTW_INFO("[C2H], C2H_TXBF!!\n");
++		C2HTxBeamformingHandler_8812(Adapter, tmpBuf, c2hCmdLen);
++		break;
++
++	case C2H_CCX_TX_RPT:
++		/* RTW_INFO("[C2H], C2H_CCX_TX_RPT!!\n"); */
++		C2HTxFeedbackHandler_8812(Adapter, tmpBuf, c2hCmdLen);
++		break;
++
++#ifdef CONFIG_BT_COEXIST
++	case C2H_BT_INFO:
++		rtw_btcoex_BtInfoNotify(Adapter, c2hCmdLen, tmpBuf);
++		break;
++	case C2H_BT_MP_INFO:
++		rtw_btcoex_BtMpRptNotify(Adapter, c2hCmdLen, tmpBuf);
++		break;
++#endif
++
++	case C2H_IQK_FINISH:
++		RTW_INFO("== IQK Finish ==\n");
++		rtl8812_iqk_done(Adapter);
++		/*rtw_odm_acquirespinlock(Adapter, RT_IQK_SPINLOCK);*/
++		/*pDM_Odm->RFCalibrateInfo.bIQKInProgress = FALSE;*/
++		/*rtw_odm_releasespinlock(Adapter, RT_IQK_SPINLOCK);*/
++		break;
++
++	case C2H_MAILBOX_STATUS:
++		RTW_INFO("[C2H], mailbox status:%u\n", *tmpBuf);
++		break;
++#ifdef CONFIG_MCC_MODE
++	case C2H_MCC:
++		/* RTW_INFO("[C2H], Multi Channel Concurrent\n"); */
++		rtw_hal_mcc_c2h_handler(Adapter, c2hCmdLen, tmpBuf);
++		break;
++#endif /* CONFIG_MCC_MODE */
++
++	case C2H_FW_SCAN_COMPLETE:
++		RTW_INFO("[C2H], FW Scan Complete\n");
++		break;
++#ifdef CONFIG_FW_C2H_DEBUG
++	case C2H_EXTEND: {
++		u8 Extend_c2hSubID = tmpBuf[0];
++
++		if (Extend_c2hSubID == EXTEND_C2H_DBG_PRINT) {
++			RTW_INFO("[C2H], FW_DEBUG.\n");
++			phydm_fw_trace_handler_8051(pDM_Odm, tmpBuf, c2hCmdLen);
++		}
++	}
++	break;
++#endif /* CONFIG_FW_C2H_DEBUG*/
++
++	default:
++		if (!(phydm_c2H_content_parsing(pDM_Odm, c2hCmdId, c2hCmdLen, tmpBuf))) {
++			RTW_INFO("%s: [WARNING] unknown C2H(0x%02x)\n", __func__, c2hCmdId);
++			ret = _FAIL;
++		}
++		break;
++	}
++
++	return ret;
++}
++
++
++VOID
++C2HPacketHandler_8812(
++	IN	PADAPTER	Adapter,
++	IN	u8			*Buffer,
++	IN	u8			Length
++)
++{
++	struct c2h_evt_hdr_88xx *c2h_evt = (struct c2h_evt_hdr_88xx *)Buffer;
++	u8	c2hCmdId = 0, c2hCmdSeq = 0, c2hCmdLen = 0;
++	u8	*tmpBuf = NULL;
++
++	/* PRINT_DATA(("C2HPacketHandler_8812"), Buffer, Length); */
++	c2hCmdId = Buffer[0];
++	c2hCmdSeq = Buffer[1];
++	c2hCmdLen = Length - 2;
++	tmpBuf = Buffer + 2;
++
++	/* RTW_INFO("[C2H packet], c2hCmdId=0x%x, c2hCmdSeq=0x%x, c2hCmdLen=%d\n", c2hCmdId, c2hCmdSeq, c2hCmdLen); */
++
++#ifdef CONFIG_BT_COEXIST
++	if (Length > 16) {
++		RTW_INFO("[C2H packet], c2hCmdId=0x%x, c2hCmdSeq=0x%x, c2hCmdLen=%d\n", c2hCmdId, c2hCmdSeq, c2hCmdLen);
++		rtw_warn_on(1);
++	}
++
++	if (c2hCmdId == C2H_BT_INFO) {
++		/* enqueue */
++		c2h_evt = (struct c2h_evt_hdr_88xx *)rtw_zmalloc(16);
++		if (c2h_evt != NULL) {
++			_rtw_memcpy(c2h_evt, Buffer, Length);
++			c2h_evt->plen = Length - 2;
++			/* RTW_INFO("-[C2H packet], id=0x%x, seq=0x%x, plen=%d\n", c2h_evt->id, c2h_evt->seq, c2h_evt->plen); */
++			rtw_c2h_wk_cmd(Adapter, (u8 *)c2h_evt);
++		}
++	} else
++#endif /* CONFIG_BT_COEXIST */
++	{
++#ifdef CONFIG_BEAMFORMING
++		if (c2hCmdId == C2H_TXBF) {
++			/* enqueue */
++			c2h_evt = (struct c2h_evt_hdr_88xx *)rtw_zmalloc(16);
++			if (c2h_evt  != NULL) {
++				_rtw_memcpy(c2h_evt, Buffer, Length);
++				c2h_evt->plen = Length - 2;
++				/*RTW_INFO("-[C2H packet], id=0x%x, seq=0x%x, plen=%d\n", c2h_evt->id, c2h_evt->seq, c2h_evt->plen);*/
++				rtw_c2h_wk_cmd(Adapter, (u8 *)c2h_evt);
++			}
++		} else
++#endif
++		{
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++			if (c2hCmdId == C2H_BCN_EARLY_RPT)
++				rtw_tdls_ch_sw_back_to_base_chnl(Adapter);
++			else if (c2hCmdId == C2H_FW_CHNL_SWITCH_COMPLETE)
++				rtw_tdls_chsw_oper_done(Adapter);
++			else
++#endif
++#endif
++			{	/* handle directly */
++				_C2HContentParsing8812(Adapter, c2hCmdId, c2hCmdLen, tmpBuf);
++			}
++		}
++	}
++}
++
++#ifdef CONFIG_BT_COEXIST
++
++void ConstructBtNullFunctionData(
++	PADAPTER padapter,
++	u8		*pframe,
++	u32		*pLength,
++	u8		*StaAddr,
++	u8		bQoS,
++	u8		AC,
++	u8		bEosp,
++	u8		bForcePowerSave)
++{
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	u16						*fctrl;
++	u32						pktlen;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u8 bssid[ETH_ALEN];
++
++	/* RTW_INFO("%s:%d\n", __FUNCTION__, bForcePowerSave); */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	if (NULL == StaAddr) {
++		_rtw_memcpy(bssid, adapter_mac_addr(padapter), ETH_ALEN);
++		StaAddr = bssid;
++	}
++
++	fctrl = &pwlanhdr->frame_ctl;
++	*(fctrl) = 0;
++	if (bForcePowerSave)
++		SetPwrMgt(fctrl);
++
++	SetFrDs(fctrl);
++	_rtw_memcpy(pwlanhdr->addr1, StaAddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, adapter_mac_addr(padapter), ETH_ALEN);
++
++	SetDuration(pwlanhdr, 0);
++	SetSeqNum(pwlanhdr, 0);
++
++	if (bQoS == _TRUE) {
++		struct rtw_ieee80211_hdr_3addr_qos *pwlanqoshdr;
++
++		SetFrameSubType(pframe, WIFI_QOS_DATA_NULL);
++
++		pwlanqoshdr = (struct rtw_ieee80211_hdr_3addr_qos *)pframe;
++		SetPriority(&pwlanqoshdr->qc, AC);
++		SetEOSP(&pwlanqoshdr->qc, bEosp);
++
++		pktlen = sizeof(struct rtw_ieee80211_hdr_3addr_qos);
++	} else {
++		SetFrameSubType(pframe, WIFI_DATA_NULL);
++
++		pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++	}
++
++	*pLength = pktlen;
++}
++
++
++static void SetFwRsvdPagePkt_BTCoex(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData;
++	struct xmit_frame	*pcmdframe;
++	struct pkt_attrib	*pattrib;
++	struct xmit_priv	*pxmitpriv;
++	struct mlme_ext_priv	*pmlmeext;
++	struct mlme_ext_info	*pmlmeinfo;
++	struct pwrctrl_priv *pwrctl;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	u32	BeaconLength = 0;
++	u32	NullDataLength = 0, QosNullLength = 0, BTQosNullLength = 0;
++	u32	ProbeReqLength = 0;
++	u8	*ReservedPagePacket;
++	u8	TxDescLen = TXDESC_SIZE, TxDescOffset = TXDESC_OFFSET;
++	u8	TotalPageNum = 0, CurtPktPageNum = 0, RsvdPageNum = 0;
++	u16	BufIndex, PageSize = 256;
++	u32	TotalPacketLen, MaxRsvdPageBufSize = 0;
++	RSVDPAGE_LOC	RsvdPageLoc;
++
++
++	if (IS_HARDWARE_TYPE_8812(padapter))
++		PageSize = 512;
++	else if (IS_HARDWARE_TYPE_8821(padapter))
++		PageSize = PAGE_SIZE_TX_8821A;
++	/* RTW_INFO("%s---->\n", __FUNCTION__); */
++
++	pHalData = GET_HAL_DATA(padapter);
++
++	pxmitpriv = &padapter->xmitpriv;
++	pmlmeext = &padapter->mlmeextpriv;
++	pmlmeinfo = &pmlmeext->mlmext_info;
++	pwrctl = adapter_to_pwrctl(padapter);
++
++	/* RsvdPageNum = BCNQ_PAGE_NUM_8723B + WOWLAN_PAGE_NUM_8723B; */
++
++	if (IS_HARDWARE_TYPE_8812(padapter))
++		RsvdPageNum = BCNQ_PAGE_NUM_8812;
++	else if (IS_HARDWARE_TYPE_8821(padapter))
++		RsvdPageNum = BCNQ_PAGE_NUM_8821;
++	MaxRsvdPageBufSize = RsvdPageNum * PageSize;
++
++	pcmdframe = rtw_alloc_cmdxmitframe(pxmitpriv);
++	if (pcmdframe == NULL) {
++		RTW_INFO("%s: alloc ReservedPagePacket fail!\n", __FUNCTION__);
++		return;
++	}
++
++	ReservedPagePacket = pcmdframe->buf_addr;
++	_rtw_memset(&RsvdPageLoc, 0, sizeof(RSVDPAGE_LOC));
++
++	/* 3 (1) beacon */
++	BufIndex = TxDescOffset;
++	ConstructBeacon(padapter, &ReservedPagePacket[BufIndex], &BeaconLength);
++
++	/* When we count the first page size, we need to reserve description size for the RSVD */
++	/* packet, it will be filled in front of the packet in TXPKTBUF. */
++	CurtPktPageNum = (u8)PageNum(TxDescLen + BeaconLength, PageSize);
++
++	/* If we don't add 1 more page, the WOWLAN function has a problem. Baron thinks it's a bug of firmware */
++	if (CurtPktPageNum == 1)
++		CurtPktPageNum += 1;
++	TotalPageNum += CurtPktPageNum;
++
++	BufIndex += (CurtPktPageNum * PageSize);
++
++	/* Jump to lastest third page *;RESERV 2 PAGES for TxBF NDPA */
++	if (BufIndex < (MaxRsvdPageBufSize - PageSize)) {
++		BufIndex = TxDescOffset + (MaxRsvdPageBufSize - PageSize);
++		if (IS_HARDWARE_TYPE_8812(padapter))
++			TotalPageNum = BCNQ_PAGE_NUM_8812 - 2;
++		else if (IS_HARDWARE_TYPE_8821(padapter))
++			TotalPageNum = BCNQ_PAGE_NUM_8821 - 2;
++
++	}
++
++	/* 3 (6) BT Qos null data */
++	RsvdPageLoc.LocBTQosNull = TotalPageNum;
++	ConstructBtNullFunctionData(
++		padapter,
++		&ReservedPagePacket[BufIndex],
++		&BTQosNullLength,
++		NULL,
++		_TRUE, 0, 0, _FALSE);
++	rtl8812a_fill_fake_txdesc(padapter, &ReservedPagePacket[BufIndex - TxDescLen], BTQosNullLength, _FALSE, _TRUE,  _FALSE);
++
++	/* RTW_INFO("%s(): HW_VAR_SET_TX_CMD: BT QOS NULL DATA %p %d\n",  */
++	/*	__FUNCTION__, &ReservedPagePacket[BufIndex-TxDescLen], (BTQosNullLength+TxDescLen)); */
++
++	CurtPktPageNum = (u8)PageNum(TxDescLen + BTQosNullLength, PageSize);
++
++	TotalPageNum += CurtPktPageNum;
++
++	TotalPacketLen = BufIndex + BTQosNullLength;
++	if (TotalPacketLen > MaxRsvdPageBufSize) {
++		RTW_INFO("%s(): ERROR: The rsvd page size is not enough!!TotalPacketLen %d, MaxRsvdPageBufSize %d\n", __FUNCTION__,
++			 TotalPacketLen, MaxRsvdPageBufSize);
++		goto error;
++	} else {
++		/* update attribute */
++		pattrib = &pcmdframe->attrib;
++		update_mgntframe_attrib(padapter, pattrib);
++		pattrib->qsel = QSLT_BEACON;
++		pattrib->pktlen = pattrib->last_txcmdsz = TotalPacketLen - TxDescOffset;
++#ifdef CONFIG_PCI_HCI
++		dump_mgntframe(padapter, pcmdframe);
++#else
++		dump_mgntframe_and_wait(padapter, pcmdframe, 100);
++#endif
++	}
++
++	RTW_INFO("%s: Set RSVD page location to Fw ,TotalPacketLen(%d), TotalPageNum(%d)\n", __FUNCTION__, TotalPacketLen, TotalPageNum);
++	if (check_fwstate(pmlmepriv, _FW_LINKED)) {
++		rtl8812_set_FwRsvdPage_cmd(padapter, &RsvdPageLoc);
++#ifdef CONFIG_WOWLAN
++		rtl8812_set_FwAoacRsvdPage_cmd(padapter, &RsvdPageLoc);
++#endif
++	}
++
++	return;
++
++error:
++
++	rtw_free_xmitframe(pxmitpriv, pcmdframe);
++}
++
++
++void rtl8812a_download_BTCoex_AP_mode_rsvd_page(PADAPTER padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	BOOLEAN bRecover = _FALSE;
++	BOOLEAN	bcn_valid = _FALSE;
++	u8	DLBcnCount = 0;
++	u32 poll = 0;
++	u8 val8;
++	u8 v8;
++
++
++	RTW_INFO("+" FUNC_ADPT_FMT ": hw_port=%d\n",
++		FUNC_ADPT_ARG(padapter), get_hw_port(padapter));
++
++	/* We should set AID, correct TSF, HW seq enable before set JoinBssReport to Fw in 88/92C. */
++	/* Suggested by filen. Added by tynli. */
++	rtw_write16(padapter, REG_BCN_PSR_RPT, (0xC000 | pmlmeinfo->aid));
++
++	/* set REG_CR bit 8 */
++	v8 = rtw_read8(padapter, REG_CR + 1);
++	v8 |= BIT(0); /* ENSWBCN */
++	rtw_write8(padapter,  REG_CR + 1, v8);
++
++	/* Disable Hw protection for a time which revserd for Hw sending beacon. */
++	/* Fix download reserved page packet fail that access collision with the protection time. */
++	/* 2010.05.11. Added by tynli. */
++	val8 = rtw_read8(padapter, REG_BCN_CTRL);
++	val8 &= ~BIT(3);
++	val8 |= BIT(4);
++	rtw_write8(padapter, REG_BCN_CTRL, val8);
++
++	/* Set FWHW_TXQ_CTRL 0x422[6]=0 to tell Hw the packet is not a real beacon frame. */
++	if (pHalData->RegFwHwTxQCtrl & BIT(6))
++		bRecover = _TRUE;
++
++	/* To tell Hw the packet is not a real beacon frame. */
++	rtw_write8(padapter, REG_FWHW_TXQ_CTRL + 2, pHalData->RegFwHwTxQCtrl & ~BIT(6));
++	pHalData->RegFwHwTxQCtrl &= ~BIT(6);
++
++	/* Clear beacon valid check bit. */
++	rtw_hal_set_hwreg(padapter, HW_VAR_BCN_VALID, NULL);
++	rtw_hal_set_hwreg(padapter, HW_VAR_DL_BCN_SEL, NULL);
++
++	DLBcnCount = 0;
++	poll = 0;
++	do {
++		SetFwRsvdPagePkt_BTCoex(padapter);
++		DLBcnCount++;
++		do {
++			rtw_yield_os();
++			/* rtw_mdelay_os(10); */
++			/* check rsvd page download OK. */
++			rtw_hal_get_hwreg(padapter, HW_VAR_BCN_VALID, (u8 *)(&bcn_valid));
++			poll++;
++		} while (!bcn_valid && (poll % 10) != 0 && !RTW_CANNOT_RUN(padapter));
++
++	} while (!bcn_valid && DLBcnCount <= 100 && !RTW_CANNOT_RUN(padapter));
++
++	if (RTW_CANNOT_RUN(padapter))
++		;
++	else if (!bcn_valid)
++		RTW_INFO(ADPT_FMT": 1 DL RSVD page failed! DLBcnCount:%u, poll:%u\n",
++			 ADPT_ARG(padapter) , DLBcnCount, poll);
++	else {
++		struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++		pwrctl->fw_psmode_iface_id = padapter->iface_id;
++		RTW_INFO(ADPT_FMT": 1 DL RSVD page success! DLBcnCount:%u, poll:%u\n",
++			 ADPT_ARG(padapter), DLBcnCount, poll);
++	}
++
++	/* 2010.05.11. Added by tynli. */
++	val8 = rtw_read8(padapter, REG_BCN_CTRL);
++	val8 |= BIT(3);
++	val8 &= ~BIT(4);
++	rtw_write8(padapter, REG_BCN_CTRL, val8);
++
++	/* To make sure that if there exists an adapter which would like to send beacon. */
++	/* If exists, the origianl value of 0x422[6] will be 1, we should check this to */
++	/* prevent from setting 0x422[6] to 0 after download reserved page, or it will cause */
++	/* the beacon cannot be sent by HW. */
++	/* 2010.06.23. Added by tynli. */
++	if (bRecover) {
++		rtw_write8(padapter, REG_FWHW_TXQ_CTRL + 2, pHalData->RegFwHwTxQCtrl | BIT(6));
++		pHalData->RegFwHwTxQCtrl |= BIT(6);
++	}
++
++#ifndef CONFIG_PCI_HCI
++	/* Clear CR[8] or beacon packet will not be send to TxBuf anymore. */
++	v8 = rtw_read8(padapter, REG_CR + 1);
++	v8 &= ~BIT(0); /* ~ENSWBCN */
++	rtw_write8(padapter, REG_CR + 1, v8);
++#endif
++
++
++}
++
++#endif /* CONFIG_BT_COEXIST */
+diff --git a/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_dm.c b/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_dm.c
+new file mode 100644
+index 0000000..8ab3799
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_dm.c
+@@ -0,0 +1,468 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/* ************************************************************
++ * Description:
++ *
++ * This file is for 92CE/92CU dynamic mechanism only
++ *
++ *
++ * ************************************************************ */
++#define _RTL8812A_DM_C_
++
++/* ************************************************************
++ * include files
++ * ************************************************************
++ * #include <drv_types.h> */
++#include <rtl8812a_hal.h>
++
++/* ************************************************************
++ * Global var
++ * ************************************************************ */
++
++
++static VOID
++dm_CheckProtection(
++	IN	PADAPTER	Adapter
++)
++{
++#if 0
++	PMGNT_INFO		pMgntInfo = &(Adapter->MgntInfo);
++	u1Byte			CurRate, RateThreshold;
++
++	if (pMgntInfo->pHTInfo->bCurBW40MHz)
++		RateThreshold = MGN_MCS1;
++	else
++		RateThreshold = MGN_MCS3;
++
++	if (Adapter->TxStats.CurrentInitTxRate <= RateThreshold) {
++		pMgntInfo->bDmDisableProtect = TRUE;
++		DbgPrint("Forced disable protect: %x\n", Adapter->TxStats.CurrentInitTxRate);
++	} else {
++		pMgntInfo->bDmDisableProtect = FALSE;
++		DbgPrint("Enable protect: %x\n", Adapter->TxStats.CurrentInitTxRate);
++	}
++#endif
++}
++
++static VOID
++dm_CheckStatistics(
++	IN	PADAPTER	Adapter
++)
++{
++#if 0
++	if (!Adapter->MgntInfo.bMediaConnect)
++		return;
++
++	/* 2008.12.10 tynli Add for getting Current_Tx_Rate_Reg flexibly. */
++	rtw_hal_get_hwreg(Adapter, HW_VAR_INIT_TX_RATE, (pu1Byte)(&Adapter->TxStats.CurrentInitTxRate));
++
++	/* Calculate current Tx Rate(Successful transmited!!) */
++
++	/* Calculate current Rx Rate(Successful received!!) */
++
++	/* for tx tx retry count */
++	rtw_hal_get_hwreg(Adapter, HW_VAR_RETRY_COUNT, (pu1Byte)(&Adapter->TxStats.NumTxRetryCount));
++#endif
++}
++#ifdef CONFIG_SUPPORT_HW_WPS_PBC
++static void dm_CheckPbcGPIO(_adapter *padapter)
++{
++	u8	tmp1byte;
++	u8	bPbcPressed = _FALSE;
++
++	if (!padapter->registrypriv.hw_wps_pbc)
++		return;
++
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI)
++	if (IS_HARDWARE_TYPE_8812(padapter)) {
++		tmp1byte = rtw_read8(padapter, GPIO_IO_SEL);
++		tmp1byte |= (HAL_8812A_HW_GPIO_WPS_BIT);
++		rtw_write8(padapter, GPIO_IO_SEL, tmp1byte);	/* enable GPIO[2] as output mode */
++
++		tmp1byte &= ~(HAL_8812A_HW_GPIO_WPS_BIT);
++		rtw_write8(padapter,  GPIO_IN, tmp1byte);		/* reset the floating voltage level */
++
++		tmp1byte = rtw_read8(padapter, GPIO_IO_SEL);
++		tmp1byte &= ~(HAL_8812A_HW_GPIO_WPS_BIT);
++		rtw_write8(padapter, GPIO_IO_SEL, tmp1byte);	/* enable GPIO[2] as input mode */
++
++		tmp1byte = rtw_read8(padapter, GPIO_IN);
++
++		if (tmp1byte == 0xff)
++			return ;
++
++		if (tmp1byte & HAL_8812A_HW_GPIO_WPS_BIT)
++			bPbcPressed = _TRUE;
++
++	} else if (IS_HARDWARE_TYPE_8821(padapter)) {
++		tmp1byte = rtw_read8(padapter, GPIO_IO_SEL_8811A);
++		tmp1byte |= (BIT4);
++		rtw_write8(padapter, GPIO_IO_SEL_8811A, tmp1byte);	/* enable GPIO[2] as output mode */
++
++		tmp1byte &= ~(BIT4);
++		rtw_write8(padapter,  GPIO_IN_8811A, tmp1byte);		/* reset the floating voltage level */
++
++		tmp1byte = rtw_read8(padapter, GPIO_IO_SEL_8811A);
++		tmp1byte &= ~(BIT4);
++		rtw_write8(padapter, GPIO_IO_SEL_8811A, tmp1byte);	/* enable GPIO[2] as input mode */
++
++		tmp1byte = rtw_read8(padapter, GPIO_IN_8811A);
++
++		if (tmp1byte == 0xff)
++			return ;
++
++		if (tmp1byte & BIT4)
++			bPbcPressed = _TRUE;
++	}
++#else
++
++#endif
++
++	if (_TRUE == bPbcPressed) {
++		/* Here we only set bPbcPressed to true */
++		/* After trigger PBC, the variable will be set to false */
++		RTW_INFO("CheckPbcGPIO - PBC is pressed\n");
++
++		rtw_request_wps_pbc_event(padapter);
++	}
++}
++#endif /* #ifdef CONFIG_SUPPORT_HW_WPS_PBC */
++
++#ifdef CONFIG_PCI_HCI
++/*
++ *	Description:
++ *		Perform interrupt migration dynamically to reduce CPU utilization.
++ *
++ *	Assumption:
++ *		1. Do not enable migration under WIFI test.
++ *
++ *	Created by Roger, 2010.03.05.
++ *   */
++VOID
++dm_InterruptMigration(
++	IN	PADAPTER	Adapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct mlme_priv	*pmlmepriv = &(Adapter->mlmepriv);
++	BOOLEAN			bCurrentIntMt, bCurrentACIntDisable;
++	BOOLEAN			IntMtToSet = _FALSE;
++	BOOLEAN			ACIntToSet = _FALSE;
++
++
++	/* Retrieve current interrupt migration and Tx four ACs IMR settings first. */
++	bCurrentIntMt = pHalData->bInterruptMigration;
++	bCurrentACIntDisable = pHalData->bDisableTxInt;
++
++	/*  */
++	/* <Roger_Notes> Currently we use busy traffic for reference instead of RxIntOK counts to prevent non-linear Rx statistics */
++	/* when interrupt migration is set before. 2010.03.05. */
++	/*  */
++	if (!Adapter->registrypriv.wifi_spec &&
++	    (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) &&
++	    pmlmepriv->LinkDetectInfo.bHigherBusyTraffic) {
++		IntMtToSet = _TRUE;
++
++		/* To check whether we should disable Tx interrupt or not. */
++		if (pmlmepriv->LinkDetectInfo.bHigherBusyRxTraffic)
++			ACIntToSet = _TRUE;
++	}
++
++	/* Update current settings. */
++	if (bCurrentIntMt != IntMtToSet) {
++		RTW_INFO("%s(): Update interrrupt migration(%d)\n", __FUNCTION__, IntMtToSet);
++		if (IntMtToSet) {
++			/*  */
++			/* <Roger_Notes> Set interrrupt migration timer and corresponging Tx/Rx counter. */
++			/* timer 25ns*0xfa0=100us for 0xf packets. */
++			/* 2010.03.05. */
++			/*  */
++			rtw_write32(Adapter, REG_INT_MIG, 0xff000fa0);/* 0x306:Rx, 0x307:Tx */
++			pHalData->bInterruptMigration = IntMtToSet;
++		} else {
++			/* Reset all interrupt migration settings. */
++			rtw_write32(Adapter, REG_INT_MIG, 0);
++			pHalData->bInterruptMigration = IntMtToSet;
++		}
++	}
++
++#if 0
++	if (bCurrentACIntDisable != ACIntToSet) {
++		RTW_INFO("%s(): Update AC interrrupt(%d)\n", __FUNCTION__, ACIntToSet);
++		if (ACIntToSet) { /*  Disable four ACs interrupts. */
++			/* */
++			/*  <Roger_Notes> Disable VO, VI, BE and BK four AC interrupts to gain more efficient CPU utilization. */
++			/*  When extremely highly Rx OK occurs, we will disable Tx interrupts. */
++			/*  2010.03.05. */
++			/* */
++			UpdateInterruptMask8192CE(Adapter, 0, RT_AC_INT_MASKS);
++			pHalData->bDisableTxInt = ACIntToSet;
++		} else { /*  Enable four ACs interrupts. */
++			UpdateInterruptMask8192CE(Adapter, RT_AC_INT_MASKS, 0);
++			pHalData->bDisableTxInt = ACIntToSet;
++		}
++	}
++#endif
++
++}
++
++#endif
++
++/*
++ * Initialize GPIO setting registers
++ *   */
++static void
++dm_InitGPIOSetting(
++	IN	PADAPTER	Adapter
++)
++{
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(Adapter);
++
++	u8	tmp1byte;
++
++	tmp1byte = rtw_read8(Adapter, REG_GPIO_MUXCFG);
++	tmp1byte &= (GPIOSEL_GPIO | ~GPIOSEL_ENBT);
++
++	rtw_write8(Adapter, REG_GPIO_MUXCFG, tmp1byte);
++}
++
++/* ************************************************************
++ * functions
++ * ************************************************************ */
++static void Init_ODM_ComInfo_8812(PADAPTER	Adapter)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++	u32 SupportAbility = 0;
++	u8	cut_ver, fab_ver;
++
++	Init_ODM_ComInfo(Adapter);
++
++	fab_ver = ODM_TSMC;
++	if (IS_A_CUT(pHalData->VersionID))
++		cut_ver = ODM_CUT_A;
++	else if (IS_B_CUT(pHalData->VersionID))
++		cut_ver = ODM_CUT_B;
++	else if (IS_C_CUT(pHalData->VersionID))
++		cut_ver = ODM_CUT_C;
++	else if (IS_D_CUT(pHalData->VersionID))
++		cut_ver = ODM_CUT_D;
++	else if (IS_E_CUT(pHalData->VersionID))
++		cut_ver = ODM_CUT_E;
++	else
++		cut_ver = ODM_CUT_A;
++
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_FAB_VER, fab_ver);
++	ODM_CmnInfoInit(pDM_Odm, ODM_CMNINFO_CUT_VER, cut_ver);
++
++#ifdef CONFIG_DISABLE_ODM
++	SupportAbility = 0;
++#else
++	SupportAbility =	ODM_RF_CALIBRATION	|
++				ODM_RF_TX_PWR_TRACK
++				;
++#endif
++
++	ODM_CmnInfoUpdate(pDM_Odm, ODM_CMNINFO_ABILITY, SupportAbility);
++
++}
++static void Update_ODM_ComInfo_8812(PADAPTER	Adapter)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++	u32 SupportAbility = 0;
++
++	SupportAbility = 0
++			 | ODM_BB_DIG
++			 | ODM_BB_RA_MASK
++			 | ODM_BB_FA_CNT
++			 | ODM_BB_RSSI_MONITOR
++			 | ODM_BB_CFO_TRACKING
++			 | ODM_RF_TX_PWR_TRACK
++			 | ODM_MAC_EDCA_TURBO
++			 | ODM_BB_NHM_CNT
++			 /*		| ODM_BB_PWR_TRAIN */
++			 ;
++
++	if (rtw_odm_adaptivity_needed(Adapter) == _TRUE) {
++		rtw_odm_adaptivity_config_msg(RTW_DBGDUMP, Adapter);
++		SupportAbility |= ODM_BB_ADAPTIVITY;
++	}
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	if (pHalData->AntDivCfg)
++		SupportAbility |= ODM_BB_ANT_DIV;
++#endif
++
++#if (MP_DRIVER == 1)
++	if (Adapter->registrypriv.mp_mode == 1) {
++		SupportAbility = 0
++				 | ODM_RF_CALIBRATION
++				 | ODM_RF_TX_PWR_TRACK
++				 ;
++	}
++#endif/* (MP_DRIVER==1) */
++
++#ifdef CONFIG_DISABLE_ODM
++	SupportAbility = 0;
++#endif/* CONFIG_DISABLE_ODM */
++
++	ODM_CmnInfoUpdate(pDM_Odm, ODM_CMNINFO_ABILITY, SupportAbility);
++}
++
++void
++rtl8812_InitHalDm(
++	IN	PADAPTER	Adapter
++)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++	u8	i;
++
++#ifdef CONFIG_USB_HCI
++	dm_InitGPIOSetting(Adapter);
++#endif
++
++	pHalData->DM_Type = DM_Type_ByDriver;
++
++	Update_ODM_ComInfo_8812(Adapter);
++	ODM_DMInit(pDM_Odm);
++
++	/* Adapter->fix_rate = 0xFF; */
++
++}
++
++
++VOID
++rtl8812_HalDmWatchDog(
++	IN	PADAPTER	Adapter
++)
++{
++	BOOLEAN		bFwCurrentInPSMode = _FALSE;
++	BOOLEAN		bFwPSAwake = _TRUE;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		pDM_Odm = &(pHalData->odmpriv);
++
++
++	if (!rtw_is_hw_init_completed(Adapter))
++		goto skip_dm;
++
++#ifdef CONFIG_LPS
++	bFwCurrentInPSMode = adapter_to_pwrctl(Adapter)->bFwCurrentInPSMode;
++	rtw_hal_get_hwreg(Adapter, HW_VAR_FWLPS_RF_ON, (u8 *)(&bFwPSAwake));
++#endif
++
++#ifdef CONFIG_P2P_PS
++	/* Fw is under p2p powersaving mode, driver should stop dynamic mechanism. */
++	/* modifed by thomas. 2011.06.11. */
++	if (Adapter->wdinfo.p2p_ps_mode)
++		bFwPSAwake = _FALSE;
++#endif /* CONFIG_P2P_PS */
++
++	if ((rtw_is_hw_init_completed(Adapter))
++	    && ((!bFwCurrentInPSMode) && bFwPSAwake)) {
++		/*  */
++		/* Calculate Tx/Rx statistics. */
++		/*  */
++		dm_CheckStatistics(Adapter);
++		rtw_hal_check_rxfifo_full(Adapter);
++		/*  */
++		/* Dynamically switch RTS/CTS protection. */
++		/*  */
++		/* dm_CheckProtection(Adapter); */
++
++#ifdef CONFIG_PCI_HCI
++		/* 20100630 Joseph: Disable Interrupt Migration mechanism temporarily because it degrades Rx throughput. */
++		/* Tx Migration settings. */
++		/* dm_InterruptMigration(Adapter); */
++
++		/* if(Adapter->HalFunc.TxCheckStuckHandler(Adapter)) */
++		/*	PlatformScheduleWorkItem(&(GET_HAL_DATA(Adapter)->HalResetWorkItem)); */
++#endif
++
++	}
++
++	/* ODM */
++	if (rtw_is_hw_init_completed(Adapter)) {
++		u8	bLinked = _FALSE;
++		u8	bsta_state = _FALSE;
++		u8	bBtDisabled = _TRUE;
++
++#ifdef CONFIG_DISABLE_ODM
++		pHalData->odmpriv.SupportAbility = 0;
++#endif
++
++		if (rtw_mi_check_status(Adapter, MI_ASSOC)) {
++			bLinked = _TRUE;
++			if (rtw_mi_check_status(Adapter, MI_STA_LINKED))
++				bsta_state = _TRUE;
++		}
++
++		ODM_CmnInfoUpdate(&pHalData->odmpriv , ODM_CMNINFO_LINK, bLinked);
++		ODM_CmnInfoUpdate(&pHalData->odmpriv , ODM_CMNINFO_STATION_STATE, bsta_state);
++
++#ifdef CONFIG_BT_COEXIST
++		bBtDisabled = rtw_btcoex_IsBtDisabled(Adapter);
++#endif /* CONFIG_BT_COEXIST */
++		ODM_CmnInfoUpdate(&pHalData->odmpriv, ODM_CMNINFO_BT_ENABLED, ((bBtDisabled == _TRUE) ? _FALSE : _TRUE));
++
++		ODM_DMWatchdog(&pHalData->odmpriv);
++
++	}
++
++skip_dm:
++
++#ifdef CONFIG_SUPPORT_HW_WPS_PBC
++	/* Check GPIO to determine current Pbc status. */
++	dm_CheckPbcGPIO(Adapter);
++#endif
++
++	return;
++}
++
++void rtl8812_init_dm_priv(IN PADAPTER Adapter)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		podmpriv = &pHalData->odmpriv;
++
++	/* _rtw_spinlock_init(&(pHalData->odm_stainfo_lock)); */
++
++#ifndef CONFIG_IQK_PA_OFF /* FW has no IQK PA OFF option yet, don't offload */
++	#ifdef CONFIG_BT_COEXIST
++	/* firmware size issue, btcoex fw doesn't support IQK offload */
++	if (pHalData->EEPROMBluetoothCoexist == _FALSE)
++	#endif
++	{
++		pHalData->RegIQKFWOffload = 1;
++		rtw_sctx_init(&pHalData->iqk_sctx, 0);
++	}
++#endif
++
++	Init_ODM_ComInfo_8812(Adapter);
++	ODM_InitAllTimers(podmpriv);
++}
++
++void rtl8812_deinit_dm_priv(IN PADAPTER Adapter)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T		podmpriv = &pHalData->odmpriv;
++	/* _rtw_spinlock_free(&pHalData->odm_stainfo_lock); */
++	ODM_CancelAllTimers(podmpriv);
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_hal_init.c b/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_hal_init.c
+new file mode 100644
+index 0000000..f4c9b68
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_hal_init.c
+@@ -0,0 +1,6564 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8812A_HAL_INIT_C_
++
++/* #include <drv_types.h> */
++#include <rtl8812a_hal.h>
++
++/* -------------------------------------------------------------------------
++ *
++ * LLT R/W/Init function
++ *
++ * ------------------------------------------------------------------------- */
++s32
++_LLTWrite_8812A(
++	IN	PADAPTER	Adapter,
++	IN	u32			address,
++	IN	u32			data
++)
++{
++	u32	status = _SUCCESS;
++	s32	count = 0;
++	u32	value = _LLT_INIT_ADDR(address) | _LLT_INIT_DATA(data) | _LLT_OP(_LLT_WRITE_ACCESS);
++
++	rtw_write32(Adapter, REG_LLT_INIT, value);
++
++	/* polling */
++	do {
++		value = rtw_read32(Adapter, REG_LLT_INIT);
++		if (_LLT_NO_ACTIVE == _LLT_OP_VALUE(value))
++			break;
++
++		if (count > POLLING_LLT_THRESHOLD) {
++			status = _FAIL;
++			break;
++		}
++	} while (++count);
++
++	return status;
++}
++
++static u8
++_LLTRead_8812A(
++	IN	PADAPTER	Adapter,
++	IN	u32			address
++)
++{
++	u32	count = 0;
++	u32	value = _LLT_INIT_ADDR(address) | _LLT_OP(_LLT_READ_ACCESS);
++	u16	LLTReg = REG_LLT_INIT;
++
++
++	rtw_write32(Adapter, LLTReg, value);
++
++	/* polling and get value */
++	do {
++		value = rtw_read32(Adapter, LLTReg);
++		if (_LLT_NO_ACTIVE == _LLT_OP_VALUE(value))
++			return (u8)value;
++
++		if (count > POLLING_LLT_THRESHOLD) {
++			break;
++		}
++	} while (++count);
++
++	return 0xFF;
++}
++
++s32 InitLLTTable8812A(PADAPTER padapter, u8 txpktbuf_bndy)
++{
++	s32	status = _FAIL;
++	u32	i;
++	u32	Last_Entry_Of_TxPktBuf = LAST_ENTRY_OF_TX_PKT_BUFFER_8812;
++	HAL_DATA_TYPE *pHalData	= GET_HAL_DATA(padapter);
++
++	for (i = 0; i < (txpktbuf_bndy - 1); i++) {
++		status = _LLTWrite_8812A(padapter, i, i + 1);
++		if (_SUCCESS != status)
++			return status;
++	}
++
++	/* end of list */
++	status = _LLTWrite_8812A(padapter, (txpktbuf_bndy - 1), 0xFF);
++	if (_SUCCESS != status)
++		return status;
++
++	/* Make the other pages as ring buffer */
++	/* This ring buffer is used as beacon buffer if we config this MAC as two MAC transfer. */
++	/* Otherwise used as local loopback buffer. */
++	for (i = txpktbuf_bndy; i < Last_Entry_Of_TxPktBuf; i++) {
++		status = _LLTWrite_8812A(padapter, i, (i + 1));
++		if (_SUCCESS != status)
++			return status;
++	}
++
++	/* Let last entry point to the start entry of ring buffer */
++	status = _LLTWrite_8812A(padapter, Last_Entry_Of_TxPktBuf, txpktbuf_bndy);
++	if (_SUCCESS != status)
++		return status;
++
++	return status;
++}
++
++BOOLEAN HalDetectPwrDownMode8812(PADAPTER Adapter)
++{
++	u8 tmpvalue = 0;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(Adapter);
++
++	EFUSE_ShadowRead(Adapter, 1, EEPROM_RF_FEATURE_OPTION_8812, (u32 *)&tmpvalue);
++
++	/* 2010/08/25 MH INF priority > PDN Efuse value. */
++	if (tmpvalue & BIT(4) && pwrctrlpriv->reg_pdnmode)
++		pHalData->pwrdown = _TRUE;
++	else
++		pHalData->pwrdown = _FALSE;
++
++	RTW_INFO("HalDetectPwrDownMode(): PDN=%d\n", pHalData->pwrdown);
++
++	return pHalData->pwrdown;
++}	/* HalDetectPwrDownMode */
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++void Hal_DetectWoWMode(PADAPTER pAdapter)
++{
++	adapter_to_pwrctl(pAdapter)->bSupportRemoteWakeup = _TRUE;
++}
++#endif
++
++/* ************************************************************************************
++ *
++ * 20100209 Joseph:
++ * This function is used only for 92C to set REG_BCN_CTRL(0x550) register.
++ * We just reserve the value of the register in variable pHalData->RegBcnCtrlVal and then operate
++ * the value of the register via atomic operation.
++ * This prevents from race condition when setting this register.
++ * The value of pHalData->RegBcnCtrlVal is initialized in HwConfigureRTL8192CE() function.
++ *   */
++void SetBcnCtrlReg(
++	PADAPTER	padapter,
++	u8		SetBits,
++	u8		ClearBits)
++{
++	PHAL_DATA_TYPE pHalData;
++
++
++	pHalData = GET_HAL_DATA(padapter);
++
++	pHalData->RegBcnCtrlVal |= SetBits;
++	pHalData->RegBcnCtrlVal &= ~ClearBits;
++
++#if 0
++	/* #ifdef CONFIG_SDIO_HCI */
++	if (pHalData->sdio_himr & (SDIO_HIMR_TXBCNOK_MSK | SDIO_HIMR_TXBCNERR_MSK))
++		pHalData->RegBcnCtrlVal |= EN_TXBCN_RPT;
++#endif
++
++	rtw_write8(padapter, REG_BCN_CTRL, (u8)pHalData->RegBcnCtrlVal);
++}
++
++static VOID
++_FWDownloadEnable_8812(
++	IN	PADAPTER		padapter,
++	IN	BOOLEAN			enable
++)
++{
++	u8	tmp;
++
++	if (enable) {
++		/* MCU firmware download enable. */
++		tmp = rtw_read8(padapter, REG_MCUFWDL);
++		rtw_write8(padapter, REG_MCUFWDL, tmp | 0x01);
++
++		/* 8051 reset */
++		tmp = rtw_read8(padapter, REG_MCUFWDL + 2);
++		rtw_write8(padapter, REG_MCUFWDL + 2, tmp & 0xf7);
++	} else {
++
++		/* MCU firmware download disable. */
++		tmp = rtw_read8(padapter, REG_MCUFWDL);
++		rtw_write8(padapter, REG_MCUFWDL, tmp & 0xfe);
++	}
++}
++#define MAX_REG_BOLCK_SIZE	196
++static int
++_BlockWrite_8812(
++	IN		PADAPTER		padapter,
++	IN		PVOID		buffer,
++	IN		u32			buffSize
++)
++{
++	int ret = _SUCCESS;
++
++	u32			blockSize_p1 = 4;	/* (Default) Phase #1 : PCI muse use 4-byte write to download FW */
++	u32			blockSize_p2 = 8;	/* Phase #2 : Use 8-byte, if Phase#1 use big size to write FW. */
++	u32			blockSize_p3 = 1;	/* Phase #3 : Use 1-byte, the remnant of FW image. */
++	u32			blockCount_p1 = 0, blockCount_p2 = 0, blockCount_p3 = 0;
++	u32			remainSize_p1 = 0, remainSize_p2 = 0;
++	u8			*bufferPtr	= (u8 *)buffer;
++	u32			i = 0, offset = 0;
++#ifdef CONFIG_PCI_HCI
++	u8			remainFW[4] = {0, 0, 0, 0};
++	u8			*p = NULL;
++#endif
++
++#ifdef CONFIG_USB_HCI
++	blockSize_p1 = MAX_REG_BOLCK_SIZE;
++#endif
++
++	/* 3 Phase #1 */
++	blockCount_p1 = buffSize / blockSize_p1;
++	remainSize_p1 = buffSize % blockSize_p1;
++
++
++
++	for (i = 0; i < blockCount_p1; i++) {
++#ifdef CONFIG_USB_HCI
++		ret = rtw_writeN(padapter, (FW_START_ADDRESS + i * blockSize_p1), blockSize_p1, (bufferPtr + i * blockSize_p1));
++#else
++		ret = rtw_write32(padapter, (FW_START_ADDRESS + i * blockSize_p1), le32_to_cpu(*((u32 *)(bufferPtr + i * blockSize_p1))));
++#endif
++
++		if (ret == _FAIL)
++			goto exit;
++	}
++
++#ifdef CONFIG_PCI_HCI
++	p = (u8 *)((u32 *)(bufferPtr + blockCount_p1 * blockSize_p1));
++	if (remainSize_p1) {
++		switch (remainSize_p1) {
++		case 0:
++			break;
++		case 3:
++			remainFW[2] = *(p + 2);
++		case 2:
++			remainFW[1] = *(p + 1);
++		case 1:
++			remainFW[0] = *(p);
++			ret = rtw_write32(padapter, (FW_START_ADDRESS + blockCount_p1 * blockSize_p1),
++					  le32_to_cpu(*(u32 *)remainFW));
++		}
++		return ret;
++	}
++#endif
++
++	/* 3 Phase #2 */
++	if (remainSize_p1) {
++		offset = blockCount_p1 * blockSize_p1;
++
++		blockCount_p2 = remainSize_p1 / blockSize_p2;
++		remainSize_p2 = remainSize_p1 % blockSize_p2;
++
++
++
++#ifdef CONFIG_USB_HCI
++		for (i = 0; i < blockCount_p2; i++) {
++			ret = rtw_writeN(padapter, (FW_START_ADDRESS + offset + i * blockSize_p2), blockSize_p2, (bufferPtr + offset + i * blockSize_p2));
++
++			if (ret == _FAIL)
++				goto exit;
++		}
++#endif
++	}
++
++	/* 3 Phase #3 */
++	if (remainSize_p2) {
++		offset = (blockCount_p1 * blockSize_p1) + (blockCount_p2 * blockSize_p2);
++
++		blockCount_p3 = remainSize_p2 / blockSize_p3;
++
++
++		for (i = 0 ; i < blockCount_p3 ; i++) {
++			ret = rtw_write8(padapter, (FW_START_ADDRESS + offset + i), *(bufferPtr + offset + i));
++
++			if (ret == _FAIL)
++				goto exit;
++		}
++	}
++
++exit:
++	return ret;
++}
++
++static int
++_PageWrite_8812(
++	IN		PADAPTER	padapter,
++	IN		u32			page,
++	IN		PVOID		buffer,
++	IN		u32			size
++)
++{
++	u8 value8;
++	u8 u8Page = (u8)(page & 0x07) ;
++
++	value8 = (rtw_read8(padapter, REG_MCUFWDL + 2) & 0xF8) | u8Page ;
++	rtw_write8(padapter, REG_MCUFWDL + 2, value8);
++
++	return _BlockWrite_8812(padapter, buffer, size);
++}
++
++static VOID
++_FillDummy_8812(
++	u8		*pFwBuf,
++	u32	*pFwLen
++)
++{
++	u32	FwLen = *pFwLen;
++	u8	remain = (u8)(FwLen % 4);
++	remain = (remain == 0) ? 0 : (4 - remain);
++
++	while (remain > 0) {
++		pFwBuf[FwLen] = 0;
++		FwLen++;
++		remain--;
++	}
++
++	*pFwLen = FwLen;
++}
++
++static int
++_WriteFW_8812(
++	IN		PADAPTER		padapter,
++	IN		PVOID			buffer,
++	IN		u32			size
++)
++{
++	/* Since we need dynamic decide method of dwonload fw, so we call this function to get chip version. */
++	int	ret = _SUCCESS;
++	u32	pageNums, remainSize ;
++	u32	page, offset;
++	u8	*bufferPtr = (u8 *)buffer;
++
++#ifdef CONFIG_PCI_HCI
++	/* 20100120 Joseph: Add for 88CE normal chip. */
++	/* Fill in zero to make firmware image to dword alignment.
++	*		_FillDummy(bufferPtr, &size); */
++#endif
++
++	pageNums = size / MAX_DLFW_PAGE_SIZE ;
++	/* RT_ASSERT((pageNums <= 4), ("Page numbers should not greater then 4\n")); */
++	remainSize = size % MAX_DLFW_PAGE_SIZE;
++
++	for (page = 0; page < pageNums; page++) {
++		offset = page * MAX_DLFW_PAGE_SIZE;
++		ret = _PageWrite_8812(padapter, page, bufferPtr + offset, MAX_DLFW_PAGE_SIZE);
++
++		if (ret == _FAIL)
++			goto exit;
++	}
++	if (remainSize) {
++		offset = pageNums * MAX_DLFW_PAGE_SIZE;
++		page = pageNums;
++		ret = _PageWrite_8812(padapter, page, bufferPtr + offset, remainSize);
++
++		if (ret == _FAIL)
++			goto exit;
++
++	}
++
++exit:
++	return ret;
++}
++
++void _8051Reset8812(PADAPTER padapter)
++{
++	u8 u1bTmp, u1bTmp2;
++
++	/* Reset MCU IO Wrapper- sugggest by SD1-Gimmy */
++	if (IS_HARDWARE_TYPE_8812(padapter)) {
++		u1bTmp2 = rtw_read8(padapter, REG_RSV_CTRL);
++		rtw_write8(padapter, REG_RSV_CTRL, u1bTmp2 & (~BIT1));
++		u1bTmp2 = rtw_read8(padapter, REG_RSV_CTRL + 1);
++		rtw_write8(padapter, REG_RSV_CTRL + 1, u1bTmp2 & (~BIT3));
++	} else if (IS_HARDWARE_TYPE_8821(padapter)) {
++		u1bTmp2 = rtw_read8(padapter, REG_RSV_CTRL);
++		rtw_write8(padapter, REG_RSV_CTRL, u1bTmp2 & (~BIT1));
++		u1bTmp2 = rtw_read8(padapter, REG_RSV_CTRL + 1);
++		rtw_write8(padapter, REG_RSV_CTRL + 1, u1bTmp2 & (~BIT0));
++	}
++
++	u1bTmp = rtw_read8(padapter, REG_SYS_FUNC_EN + 1);
++	rtw_write8(padapter, REG_SYS_FUNC_EN + 1, u1bTmp & (~BIT2));
++
++	/* Enable MCU IO Wrapper */
++	if (IS_HARDWARE_TYPE_8812(padapter)) {
++		u1bTmp2 = rtw_read8(padapter, REG_RSV_CTRL);
++		rtw_write8(padapter, REG_RSV_CTRL, u1bTmp2 & (~BIT1));
++		u1bTmp2 = rtw_read8(padapter, REG_RSV_CTRL + 1);
++		rtw_write8(padapter, REG_RSV_CTRL + 1, u1bTmp2 | (BIT3));
++	} else if (IS_HARDWARE_TYPE_8821(padapter)) {
++		u1bTmp2 = rtw_read8(padapter, REG_RSV_CTRL);
++		rtw_write8(padapter, REG_RSV_CTRL, u1bTmp2 & (~BIT1));
++		u1bTmp2 = rtw_read8(padapter, REG_RSV_CTRL + 1);
++		rtw_write8(padapter, REG_RSV_CTRL + 1, u1bTmp2 | (BIT0));
++	}
++
++	rtw_write8(padapter, REG_SYS_FUNC_EN + 1, u1bTmp | (BIT2));
++
++	RTW_INFO("=====> _8051Reset8812(): 8051 reset success .\n");
++}
++
++static s32 polling_fwdl_chksum(_adapter *adapter, u32 min_cnt, u32 timeout_ms)
++{
++	s32 ret = _FAIL;
++	u32 value32;
++	u32 start = rtw_get_current_time();
++	u32 cnt = 0;
++
++	/* polling CheckSum report */
++	do {
++		cnt++;
++		value32 = rtw_read32(adapter, REG_MCUFWDL);
++		if (value32 & FWDL_ChkSum_rpt || RTW_CANNOT_IO(adapter))
++			break;
++		rtw_yield_os();
++	} while (rtw_get_passing_time_ms(start) < timeout_ms || cnt < min_cnt);
++
++	if (!(value32 & FWDL_ChkSum_rpt))
++		goto exit;
++
++	if (rtw_fwdl_test_trigger_chksum_fail())
++		goto exit;
++
++	ret = _SUCCESS;
++
++exit:
++	RTW_INFO("%s: Checksum report %s! (%u, %dms), REG_MCUFWDL:0x%08x\n", __FUNCTION__
++		, (ret == _SUCCESS) ? "OK" : "Fail", cnt, rtw_get_passing_time_ms(start), value32);
++
++	return ret;
++}
++
++static s32 _FWFreeToGo8812(_adapter *adapter, u32 min_cnt, u32 timeout_ms)
++{
++	s32 ret = _FAIL;
++	u32	value32;
++	u32 start = rtw_get_current_time();
++	u32 cnt = 0;
++
++	value32 = rtw_read32(adapter, REG_MCUFWDL);
++	value32 |= MCUFWDL_RDY;
++	value32 &= ~WINTINI_RDY;
++	rtw_write32(adapter, REG_MCUFWDL, value32);
++
++	_8051Reset8812(adapter);
++
++	/*  polling for FW ready */
++	do {
++		cnt++;
++		value32 = rtw_read32(adapter, REG_MCUFWDL);
++		if (value32 & WINTINI_RDY || RTW_CANNOT_IO(adapter))
++			break;
++		rtw_yield_os();
++	} while (rtw_get_passing_time_ms(start) < timeout_ms || cnt < min_cnt);
++
++	if (!(value32 & WINTINI_RDY))
++		goto exit;
++
++	if (rtw_fwdl_test_trigger_wintint_rdy_fail())
++		goto exit;
++
++	ret = _SUCCESS;
++
++exit:
++	RTW_INFO("%s: Polling FW ready %s! (%u, %dms), REG_MCUFWDL:0x%08x\n", __FUNCTION__
++		, (ret == _SUCCESS) ? "OK" : "Fail", cnt, rtw_get_passing_time_ms(start), value32);
++
++	return ret;
++}
++
++#ifdef CONFIG_FILE_FWIMG
++	u8 FwBuffer8812[FW_SIZE_8812];
++	u8 FwBuffer[FW_SIZE_8812];
++#endif /* CONFIG_FILE_FWIMG */
++
++s32
++FirmwareDownload8812(
++	IN	PADAPTER			Adapter,
++	IN	BOOLEAN			bUsedWoWLANFw
++)
++{
++	s32	rtStatus = _SUCCESS;
++	u8	write_fw = 0;
++	u32 fwdl_start_time;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(Adapter);
++	u8				*pFwImageFileName;
++	u8				*pucMappedFile = NULL;
++	PRT_FIRMWARE_8812	pFirmware = NULL;
++	u8				*pFwHdr = NULL;
++	u8				*pFirmwareBuf;
++	u32				FirmwareLen;
++
++
++	pFirmware = (PRT_FIRMWARE_8812)rtw_zmalloc(sizeof(RT_FIRMWARE_8812));
++	if (!pFirmware) {
++		rtStatus = _FAIL;
++		goto exit;
++	}
++
++#ifdef CONFIG_FILE_FWIMG
++#ifdef CONFIG_WOWLAN
++	if (bUsedWoWLANFw && rtw_is_file_readable(rtw_fw_wow_file_path) == _TRUE) {
++		RTW_INFO("%s acquire FW from file:%s\n", __FUNCTION__, rtw_fw_wow_file_path);
++		pFirmware->eFWSource = FW_SOURCE_IMG_FILE;
++	} else
++#endif
++		if (rtw_is_file_readable(rtw_fw_file_path) == _TRUE) {
++			RTW_INFO("%s acquire FW from file:%s\n", __FUNCTION__, rtw_fw_file_path);
++			pFirmware->eFWSource = FW_SOURCE_IMG_FILE;
++		} else
++#endif /* CONFIG_FILE_FWIMG */
++		{
++			RTW_INFO("%s fw source from Header\n", __FUNCTION__);
++			pFirmware->eFWSource = FW_SOURCE_HEADER_FILE;
++		}
++
++	switch (pFirmware->eFWSource) {
++	case FW_SOURCE_IMG_FILE:
++#ifdef CONFIG_FILE_FWIMG
++#ifdef CONFIG_WOWLAN
++		if (bUsedWoWLANFw)
++			rtStatus = rtw_retrieve_from_file(rtw_fw_wow_file_path, FwBuffer8812, FW_SIZE_8812);
++		else
++#endif
++			rtStatus = rtw_retrieve_from_file(rtw_fw_file_path, FwBuffer8812, FW_SIZE_8812);
++		pFirmware->ulFwLength = rtStatus >= 0 ? rtStatus : 0;
++		pFirmware->szFwBuffer = FwBuffer8812;
++#endif /* CONFIG_FILE_FWIMG */
++		break;
++	case FW_SOURCE_HEADER_FILE:
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++		if (bUsedWoWLANFw) {
++			if (!pwrpriv->wowlan_ap_mode) {
++				ODM_ConfigFWWithHeaderFile(&pHalData->odmpriv, CONFIG_FW_WoWLAN, (u8 *)&(pFirmware->szFwBuffer), &(pFirmware->ulFwLength));
++				RTW_INFO("%s fw:%s, size: %d\n", __func__, "WoWLAN", pFirmware->ulFwLength);
++			} else {
++				ODM_ConfigFWWithHeaderFile(&pHalData->odmpriv, CONFIG_FW_AP_WoWLAN, (u8 *)&pFirmware->szFwBuffer, &pFirmware->ulFwLength);
++				RTW_INFO("%s fw: %s, size: %d\n", __func__, "AP_WoWLAN", pFirmware->ulFwLength);
++			}
++		} else
++#endif /* CONFIG_WOWLAN */
++#ifdef CONFIG_BT_COEXIST
++			if (pHalData->EEPROMBluetoothCoexist == _TRUE) {
++				ODM_ConfigFWWithHeaderFile(&pHalData->odmpriv, CONFIG_FW_BT, (u8 *)&(pFirmware->szFwBuffer), &(pFirmware->ulFwLength));
++				RTW_INFO("%s fw:%s, size: %d\n", __FUNCTION__, "NIC-BTCOEX", pFirmware->ulFwLength);
++			} else
++#endif /* CONFIG_BT_COEXIST */
++			{
++				ODM_ConfigFWWithHeaderFile(&pHalData->odmpriv, CONFIG_FW_NIC, (u8 *)&(pFirmware->szFwBuffer), &(pFirmware->ulFwLength));
++				RTW_INFO("%s fw:%s, size: %d\n", __FUNCTION__, "NIC", pFirmware->ulFwLength);
++			}
++		break;
++	}
++
++	if (pFirmware->ulFwLength > FW_SIZE_8812) {
++		rtStatus = _FAIL;
++		RTW_ERR("Firmware size:%u exceed %u\n", pFirmware->ulFwLength, FW_SIZE_8812);
++		goto exit;
++	}
++
++	pFirmwareBuf = pFirmware->szFwBuffer;
++	FirmwareLen = pFirmware->ulFwLength;
++	pFwHdr = (u8 *)pFirmware->szFwBuffer;
++
++	pHalData->FirmwareVersion = (u16)GET_FIRMWARE_HDR_VERSION_8812(pFwHdr);
++	pHalData->FirmwareSubVersion = (u16)GET_FIRMWARE_HDR_SUB_VER_8812(pFwHdr);
++	pHalData->FirmwareSignature = (u16)GET_FIRMWARE_HDR_SIGNATURE_8812(pFwHdr);
++
++	RTW_INFO("%s: fw_ver=%d fw_subver=%d sig=0x%x\n",
++		__FUNCTION__, pHalData->FirmwareVersion, pHalData->FirmwareSubVersion, pHalData->FirmwareSignature);
++
++	if (IS_FW_HEADER_EXIST_8812(pFwHdr) || IS_FW_HEADER_EXIST_8821(pFwHdr)) {
++		/* Shift 32 bytes for FW header */
++		pFirmwareBuf = pFirmwareBuf + 32;
++		FirmwareLen = FirmwareLen - 32;
++	}
++
++	/* Suggested by Filen. If 8051 is running in RAM code, driver should inform Fw to reset by itself, */
++	/* or it will cause download Fw fail. 2010.02.01. by tynli. */
++	if (rtw_read8(Adapter, REG_MCUFWDL) & BIT7) { /* 8051 RAM code */
++		rtw_write8(Adapter, REG_MCUFWDL, 0x00);
++		_8051Reset8812(Adapter);
++	}
++
++	_FWDownloadEnable_8812(Adapter, _TRUE);
++	fwdl_start_time = rtw_get_current_time();
++	while (!RTW_CANNOT_IO(Adapter)
++	       && (write_fw++ < 3 || rtw_get_passing_time_ms(fwdl_start_time) < 500)) {
++		/* reset FWDL chksum */
++		rtw_write8(Adapter, REG_MCUFWDL, rtw_read8(Adapter, REG_MCUFWDL) | FWDL_ChkSum_rpt);
++
++		rtStatus = _WriteFW_8812(Adapter, pFirmwareBuf, FirmwareLen);
++		if (rtStatus != _SUCCESS)
++			continue;
++
++		rtStatus = polling_fwdl_chksum(Adapter, 5, 50);
++		if (rtStatus == _SUCCESS)
++			break;
++	}
++	_FWDownloadEnable_8812(Adapter, _FALSE);
++	if (_SUCCESS != rtStatus)
++		goto fwdl_stat;
++
++	rtStatus = _FWFreeToGo8812(Adapter, 10, 200);
++	if (_SUCCESS != rtStatus)
++		goto fwdl_stat;
++
++fwdl_stat:
++	RTW_INFO("FWDL %s. write_fw:%u, %dms\n"
++		 , (rtStatus == _SUCCESS) ? "success" : "fail"
++		 , write_fw
++		 , rtw_get_passing_time_ms(fwdl_start_time)
++		);
++
++exit:
++	if (pFirmware)
++		rtw_mfree((u8 *)pFirmware, sizeof(RT_FIRMWARE_8812));
++
++	InitializeFirmwareVars8812(Adapter);
++
++	return rtStatus;
++}
++
++
++void InitializeFirmwareVars8812(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++
++	/* Init Fw LPS related. */
++	pwrpriv->bFwCurrentInPSMode = _FALSE;
++
++	/* Init H2C cmd. */
++	rtw_write8(padapter, REG_HMETFR, 0x0f);
++
++	/* Init H2C counter. by tynli. 2009.12.09. */
++	pHalData->LastHMEBoxNum = 0;
++}
++
++
++/*
++ * Description: Determine the contents of H2C BT_FW_PATCH Command sent to FW.
++ * 2013.01.23 by tynli
++ * Porting from 8723B. 2013.04.01
++ *   */
++VOID
++SetFwBTFwPatchCmd_8821(
++	IN PADAPTER Adapter,
++	IN u2Byte		FwSize
++)
++{
++	u1Byte		u1BTFwPatchParm[6] = {0};
++
++	RTW_INFO("SetFwBTFwPatchCmd_8821(): FwSize = %d\n", FwSize);
++
++	/* SET_8812_H2CCMD_BT_FW_PATCH_ENABLE(u1BTFwPatchParm, 1); */
++	SET_8812_H2CCMD_BT_FW_PATCH_SIZE(u1BTFwPatchParm, FwSize);
++	SET_8812_H2CCMD_BT_FW_PATCH_ADDR0(u1BTFwPatchParm, 0);
++	SET_8812_H2CCMD_BT_FW_PATCH_ADDR1(u1BTFwPatchParm, 0xa0);
++	SET_8812_H2CCMD_BT_FW_PATCH_ADDR2(u1BTFwPatchParm, 0x10);
++	SET_8812_H2CCMD_BT_FW_PATCH_ADDR3(u1BTFwPatchParm, 0x80);
++
++	FillH2CCmd_8812(Adapter, H2C_8812_BT_FW_PATCH, 6 , u1BTFwPatchParm);
++}
++
++
++int _CheckWLANFwPatchBTFwReady_8821A(PADAPTER	Adapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u4Byte	count = 0;
++	u1Byte	u1bTmp;
++	int ret = _FAIL;
++
++#if (DEV_BUS_TYPE == RT_SDIO_INTERFACE)
++	u4Byte	txpktbuf_bndy;
++#endif
++
++	/* --------------------------------------------------------- */
++	/* Check if BT FW patch procedure is ready. */
++	/* --------------------------------------------------------- */
++	do {
++		u1bTmp = PlatformEFIORead1Byte(Adapter, REG_FW_DRV_MSG_8812);
++		if ((u1bTmp & BIT6) || (u1bTmp & BIT7)) {
++			ret = _SUCCESS;
++			break;
++		}
++		count++;
++		rtw_msleep_os(50); /* 50ms */
++	} while (!((u1bTmp & BIT6) || (u1bTmp & BIT7)) && count < 50);
++
++
++	if (count >= 50) {
++		RTW_INFO("_CheckWLANFwPatchBTFwReady():"
++			 " Polling ready bit 0x88[6:7] FAIL!!\n");
++	}
++
++	/* --------------------------------------------------------- */
++	/* Reset beacon setting to the initial value. */
++	/* --------------------------------------------------------- */
++#if (DEV_BUS_TYPE == RT_SDIO_INTERFACE)
++#if 0
++	if (!Adapter->MgntInfo.bWiFiConfg)
++		txpktbuf_bndy = TX_PAGE_BOUNDARY_8821;
++	else
++#endif
++	{/* for WMM */
++		txpktbuf_bndy = WMM_NORMAL_TX_PAGE_BOUNDARY_8821;
++	}
++
++	ret =	InitLLTTable8812A(Adapter, txpktbuf_bndy);
++	if (_SUCCESS != ret)
++		RTW_INFO("_CheckWLANFwPatchBTFwReady_8821A(): Failed to init LLT!\n");
++
++	/* Init Tx boundary. */
++	PlatformEFIOWrite1Byte(Adapter, REG_TDECTRL + 1, (u1Byte)txpktbuf_bndy);
++#endif
++
++	SetBcnCtrlReg(Adapter, BIT3, 0);
++	SetBcnCtrlReg(Adapter, 0, BIT4);
++
++	PlatformEFIOWrite1Byte(Adapter, REG_FWHW_TXQ_CTRL + 2, (pHalData->RegFwHwTxQCtrl | BIT6));
++	pHalData->RegFwHwTxQCtrl |= BIT6;
++
++	u1bTmp = PlatformEFIORead1Byte(Adapter, REG_CR + 1);
++	PlatformEFIOWrite1Byte(Adapter, REG_CR + 1, (u1bTmp & (~BIT0)));
++
++	return ret;
++}
++
++
++int _WriteBTFWtoTxPktBuf8812(
++	PADAPTER		Adapter,
++	PVOID			buffer,
++	u4Byte			FwBufLen,
++	u1Byte			times
++)
++{
++	int		rtStatus = _SUCCESS;
++	/* u4Byte				value32; */
++	/* u1Byte				numHQ, numLQ, numPubQ; */ /* , txpktbuf_bndy; */
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	/* PMGNT_INFO		pMgntInfo = &(Adapter->MgntInfo); */
++	u1Byte				BcnValidReg;
++	u1Byte				count = 0, DLBcnCount = 0;
++	pu1Byte			FwbufferPtr = (pu1Byte)buffer;
++	/* PRT_TCB			pTcb, ptempTcb; */
++	/* PRT_TX_LOCAL_BUFFER pBuf; */
++	BOOLEAN			bRecover = _FALSE;
++	pu1Byte			ReservedPagePacket = NULL;
++	pu1Byte			pGenBufReservedPagePacket = NULL;
++	u4Byte				TotalPktLen, txpktbuf_bndy;
++	/* u1Byte				tmpReg422; */
++	/* u1Byte				u1bTmp; */
++	u8			*pframe;
++	struct xmit_priv	*pxmitpriv = &(Adapter->xmitpriv);
++	struct xmit_frame	*pmgntframe;
++	struct pkt_attrib	*pattrib;
++	u8			txdesc_offset = TXDESC_OFFSET;
++	u8			val8;
++
++#if 1/* (DEV_BUS_TYPE == RT_PCI_INTERFACE) */
++	TotalPktLen = FwBufLen;
++#else
++	TotalPktLen = FwBufLen + pHalData->HWDescHeadLength;
++#endif
++	if ((TotalPktLen + TXDESC_OFFSET) > MAX_CMDBUF_SZ) {
++		RTW_INFO(" WARNING %s => Total packet len = %d over MAX_CMDBUF_SZ:%d\n"
++			, __FUNCTION__, (TotalPktLen + TXDESC_OFFSET), MAX_CMDBUF_SZ);
++		return _FAIL;
++	}
++	pGenBufReservedPagePacket = rtw_zmalloc(TotalPktLen);/* GetGenTempBuffer (Adapter, TotalPktLen); */
++	if (!pGenBufReservedPagePacket)
++		return _FAIL;
++
++	ReservedPagePacket = (u1Byte *)pGenBufReservedPagePacket;
++
++	_rtw_memset(ReservedPagePacket, 0, TotalPktLen);
++
++#if 1/* (DEV_BUS_TYPE == RT_PCI_INTERFACE) */
++	_rtw_memcpy(ReservedPagePacket, FwbufferPtr, FwBufLen);
++
++#else
++	PlatformMoveMemory(ReservedPagePacket + Adapter->HWDescHeadLength , FwbufferPtr, FwBufLen);
++#endif
++
++	/* --------------------------------------------------------- */
++	/* 1. Pause BCN */
++	/* --------------------------------------------------------- */
++	/* Set REG_CR bit 8. DMA beacon by SW. */
++#if 0/* (DEV_BUS_TYPE == RT_PCI_INTERFACE) */
++	u1bTmp = PlatformEFIORead1Byte(Adapter, REG_CR + 1);
++	PlatformEFIOWrite1Byte(Adapter,  REG_CR + 1, (u1bTmp | BIT0));
++#else
++	/* Remove for temparaily because of the code on v2002 is not sync to MERGE_TMEP for USB/SDIO. */
++	/* De not remove this part on MERGE_TEMP. by tynli. */
++	/* pHalData->RegCR_1 |= (BIT0); */
++	/* PlatformEFIOWrite1Byte(Adapter,  REG_CR+1, pHalData->RegCR_1); */
++#endif
++
++	/* Disable Hw protection for a time which revserd for Hw sending beacon. */
++	/* Fix download reserved page packet fail that access collision with the protection time. */
++	/* 2010.05.11. Added by tynli. */
++	val8 = rtw_read8(Adapter, REG_BCN_CTRL);
++	val8 &= ~BIT(3);
++	val8 |= BIT(4);
++	rtw_write8(Adapter, REG_BCN_CTRL, val8);
++
++#if 0/* (DEV_BUS_TYPE == RT_PCI_INTERFACE) */
++	tmpReg422 = PlatformEFIORead1Byte(Adapter, REG_FWHW_TXQ_CTRL + 2);
++	if (tmpReg422 & BIT6)
++		bRecover = TRUE;
++	PlatformEFIOWrite1Byte(Adapter, REG_FWHW_TXQ_CTRL + 2,  tmpReg422 & (~BIT6));
++#else
++	/* Set FWHW_TXQ_CTRL 0x422[6]=0 to tell Hw the packet is not a real beacon frame. */
++	if (pHalData->RegFwHwTxQCtrl & BIT(6))
++		bRecover = _TRUE;
++	PlatformEFIOWrite1Byte(Adapter, REG_FWHW_TXQ_CTRL + 2, (pHalData->RegFwHwTxQCtrl & (~BIT(6))));
++	pHalData->RegFwHwTxQCtrl &= (~BIT(6));
++#endif
++
++	/* --------------------------------------------------------- */
++	/* 2. Adjust LLT table to an even boundary. */
++	/* --------------------------------------------------------- */
++#if 0/* (DEV_BUS_TYPE == RT_SDIO_INTERFACE) */
++	txpktbuf_bndy = 10; /* rsvd page start address should be an even value.														 */
++	rtStatus =	InitLLTTable8723BS(Adapter, txpktbuf_bndy);
++	if (_SUCCESS != rtStatus) {
++		RTW_INFO("_CheckWLANFwPatchBTFwReady_8723B(): Failed to init LLT!\n");
++		return _FAIL;
++	}
++
++	/* Init Tx boundary. */
++	PlatformEFIOWrite1Byte(Adapter, REG_DWBCN0_CTRL_8723B + 1, (u1Byte)txpktbuf_bndy);
++#endif
++
++
++	/* --------------------------------------------------------- */
++	/* 3. Write Fw to Tx packet buffer by reseverd page. */
++	/* --------------------------------------------------------- */
++	do {
++		/* download rsvd page. */
++		/* Clear beacon valid check bit. */
++		BcnValidReg = PlatformEFIORead1Byte(Adapter, REG_TDECTRL + 2);
++		PlatformEFIOWrite1Byte(Adapter, REG_TDECTRL + 2, BcnValidReg & (~BIT(0)));
++
++		/* BT patch is big, we should set 0x209 < 0x40 suggested from Gimmy */
++
++		PlatformEFIOWrite1Byte(Adapter, REG_TDECTRL + 1, (0x90 - 0x20 * (times - 1)));
++		RTW_INFO("0x209:0x%x\n", PlatformEFIORead1Byte(Adapter, REG_TDECTRL + 1));
++
++#if 0
++		/* Acquice TX spin lock before GetFwBuf and send the packet to prevent system deadlock. */
++		/* Advertised by Roger. Added by tynli. 2010.02.22. */
++		PlatformAcquireSpinLock(Adapter, RT_TX_SPINLOCK);
++		if (MgntGetFWBuffer(Adapter, &pTcb, &pBuf)) {
++			PlatformMoveMemory(pBuf->Buffer.VirtualAddress, ReservedPagePacket, TotalPktLen);
++			CmdSendPacket(Adapter, pTcb, pBuf, TotalPktLen, DESC_PACKET_TYPE_NORMAL, FALSE);
++		} else
++			dbgdump("SetFwRsvdPagePkt(): MgntGetFWBuffer FAIL!!!!!!!!.\n");
++		PlatformReleaseSpinLock(Adapter, RT_TX_SPINLOCK);
++#else
++		/*---------------------------------------------------------
++		tx reserved_page_packet
++		----------------------------------------------------------*/
++		pmgntframe = rtw_alloc_cmdxmitframe(pxmitpriv);
++		if (pmgntframe == NULL) {
++			rtStatus = _FAIL;
++			goto exit;
++		}
++		/* update attribute */
++		pattrib = &pmgntframe->attrib;
++		update_mgntframe_attrib(Adapter, pattrib);
++
++		pattrib->qsel = QSLT_BEACON;
++		pattrib->pktlen = pattrib->last_txcmdsz = FwBufLen ;
++
++		/* _rtw_memset(pmgntframe->buf_addr, 0, TotalPktLen+txdesc_size); */
++		/* pmgntframe->buf_addr = ReservedPagePacket ; */
++
++		_rtw_memcpy((u8 *)(pmgntframe->buf_addr + txdesc_offset), ReservedPagePacket, FwBufLen);
++		RTW_INFO("[%d]===>TotalPktLen + TXDESC_OFFSET TotalPacketLen:%d\n", DLBcnCount, (FwBufLen + txdesc_offset));
++
++#ifdef CONFIG_PCI_HCI
++		dump_mgntframe(Adapter, pmgntframe);
++#else
++		dump_mgntframe_and_wait(Adapter, pmgntframe, 100);
++#endif
++
++#endif
++#if 1
++		/* check rsvd page download OK. */
++		BcnValidReg = PlatformEFIORead1Byte(Adapter, REG_TDECTRL + 2);
++		while (!(BcnValidReg & BIT(0)) && count < 200) {
++			count++;
++			/* PlatformSleepUs(10); */
++			rtw_msleep_os(1);
++			BcnValidReg = PlatformEFIORead1Byte(Adapter, REG_TDECTRL + 2);
++		}
++		DLBcnCount++;
++		/* RTW_INFO("##0x208:%08x,0x210=%08x\n",PlatformEFIORead4Byte(Adapter, REG_TDECTRL),PlatformEFIORead4Byte(Adapter, 0x210)); */
++
++		PlatformEFIOWrite1Byte(Adapter, REG_TDECTRL + 2, BcnValidReg);
++
++	} while ((!(BcnValidReg & BIT(0))) && DLBcnCount < 5);
++
++
++#endif
++	if (DLBcnCount >= 5) {
++		RTW_INFO(" check rsvd page download OK DLBcnCount =%d\n", DLBcnCount);
++		rtStatus = _FAIL;
++		goto exit;
++	}
++
++	if (!(BcnValidReg & BIT(0))) {
++		RTW_INFO("_WriteFWtoTxPktBuf(): 1 Download RSVD page failed!\n");
++		rtStatus = _FAIL;
++		goto exit;
++	}
++
++	/* --------------------------------------------------------- */
++	/* 4. Set Tx boundary to the initial value */
++	/* --------------------------------------------------------- */
++
++
++	/* --------------------------------------------------------- */
++	/* 5. Reset beacon setting to the initial value. */
++	/*	 After _CheckWLANFwPatchBTFwReady(). */
++	/* --------------------------------------------------------- */
++
++exit:
++
++	if (pGenBufReservedPagePacket) {
++		RTW_INFO("_WriteBTFWtoTxPktBuf8723B => rtw_mfree pGenBufReservedPagePacket!\n");
++		rtw_mfree((u8 *)pGenBufReservedPagePacket, TotalPktLen);
++	}
++	return rtStatus;
++}
++
++#ifdef CONFIG_MP_INCLUDED
++int ReservedPage_Compare(PADAPTER Adapter, PRT_MP_FIRMWARE pFirmware, u32 BTPatchSize)
++{
++	u8 temp, ret, lastBTsz;
++	u32 u1bTmp = 0, address_start = 0, count = 0, i = 0;
++	u8	*myBTFwBuffer = NULL;
++
++	myBTFwBuffer = rtw_zmalloc(BTPatchSize);
++	if (myBTFwBuffer == NULL) {
++		RTW_INFO("%s can't be executed due to the failed malloc.\n", __FUNCTION__);
++		Adapter->mppriv.bTxBufCkFail = _TRUE;
++		return _FALSE;
++	}
++
++	temp = rtw_read8(Adapter, 0x209);
++
++	address_start = (temp * 128) / 8;
++
++	rtw_write32(Adapter, 0x140, 0x00000000);
++	rtw_write32(Adapter, 0x144, 0x00000000);
++	rtw_write32(Adapter, 0x148, 0x00000000);
++
++	rtw_write8(Adapter, 0x106, 0x69);
++
++
++	for (i = 0; i < (BTPatchSize / 8); i++) {
++		rtw_write32(Adapter, 0x140, address_start + 5 + i) ;
++
++		/* polling until reg 0x140[23]=1; */
++		do {
++			u1bTmp = rtw_read32(Adapter, 0x140);
++			if (u1bTmp & BIT(23)) {
++				ret = _SUCCESS;
++				break;
++			}
++			count++;
++			RTW_INFO("0x140=%x, wait for 10 ms (%d) times.\n", u1bTmp, count);
++			rtw_msleep_os(10); /* 10ms */
++		} while (!(u1bTmp & BIT(23)) && count < 50);
++
++		myBTFwBuffer[i * 8 + 0] = rtw_read8(Adapter, 0x144);
++		myBTFwBuffer[i * 8 + 1] = rtw_read8(Adapter, 0x145);
++		myBTFwBuffer[i * 8 + 2] = rtw_read8(Adapter, 0x146);
++		myBTFwBuffer[i * 8 + 3] = rtw_read8(Adapter, 0x147);
++		myBTFwBuffer[i * 8 + 4] = rtw_read8(Adapter, 0x148);
++		myBTFwBuffer[i * 8 + 5] = rtw_read8(Adapter, 0x149);
++		myBTFwBuffer[i * 8 + 6] = rtw_read8(Adapter, 0x14a);
++		myBTFwBuffer[i * 8 + 7] = rtw_read8(Adapter, 0x14b);
++	}
++
++	rtw_write32(Adapter, 0x140, address_start + 5 + BTPatchSize / 8) ;
++
++	lastBTsz = BTPatchSize % 8;
++
++	/* polling until reg 0x140[23]=1; */
++	u1bTmp = 0;
++	count = 0;
++	do {
++		u1bTmp = rtw_read32(Adapter, 0x140);
++		if (u1bTmp & BIT(23)) {
++			ret = _SUCCESS;
++			break;
++		}
++		count++;
++		RTW_INFO("0x140=%x, wait for 10 ms (%d) times.\n", u1bTmp, count);
++		rtw_msleep_os(10); /* 10ms */
++	} while (!(u1bTmp & BIT(23)) && count < 50);
++
++	for (i = 0; i < lastBTsz; i++)
++		myBTFwBuffer[(BTPatchSize / 8) * 8 + i] = rtw_read8(Adapter, (0x144 + i));
++
++
++	for (i = 0; i < BTPatchSize; i++) {
++		if (myBTFwBuffer[i] != pFirmware->szFwBuffer[i]) {
++			RTW_INFO(" In direct myBTFwBuffer[%d]=%x , pFirmware->szFwBuffer=%x\n", i, myBTFwBuffer[i], pFirmware->szFwBuffer[i]);
++			Adapter->mppriv.bTxBufCkFail = _TRUE;
++			break;
++		}
++	}
++
++	if (myBTFwBuffer != NULL)
++		rtw_mfree(myBTFwBuffer, BTPatchSize);
++
++	return _TRUE;
++}
++#endif
++
++/* ***********************************************************
++ *				Efuse related code
++ * *********************************************************** */
++VOID
++Hal_EfuseParseBTCoexistInfo8812A(
++	IN PADAPTER			Adapter,
++	IN u8				*hwinfo,
++	IN BOOLEAN			AutoLoadFail
++)
++{
++	struct registry_priv *regsty = &Adapter->registrypriv;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	u8 tmp_u8;
++	u32 tmp_u32;
++
++	if (IS_HARDWARE_TYPE_8812(Adapter)) {
++
++		pHalData->EEPROMBluetoothType = BT_RTL8812A;
++
++		if (!AutoLoadFail) {
++			tmp_u8 = hwinfo[EEPROM_RF_BOARD_OPTION_8812];
++			if (((tmp_u8 & 0xe0) >> 5) == 0x1) /* [7:5] */
++				pHalData->EEPROMBluetoothCoexist = _TRUE;
++			else
++				pHalData->EEPROMBluetoothCoexist = _FALSE;
++
++			tmp_u8 = hwinfo[EEPROM_RF_BT_SETTING_8812];
++			pHalData->EEPROMBluetoothAntNum = (tmp_u8 & 0x1); /* bit [0] */
++		} else {
++			pHalData->EEPROMBluetoothCoexist = _FALSE;
++			pHalData->EEPROMBluetoothAntNum = Ant_x1;
++		}
++	} else if (IS_HARDWARE_TYPE_8821(Adapter)) {
++
++		pHalData->EEPROMBluetoothType = BT_RTL8821;
++
++		if (!AutoLoadFail) {
++			tmp_u32 = rtw_read32(Adapter, REG_MULTI_FUNC_CTRL);
++			if (tmp_u32 & BT_FUNC_EN)
++				pHalData->EEPROMBluetoothCoexist = _TRUE;
++			else
++				pHalData->EEPROMBluetoothCoexist = _FALSE;
++
++			tmp_u8 = hwinfo[EEPROM_RF_BT_SETTING_8821];
++			pHalData->EEPROMBluetoothAntNum = (tmp_u8 & 0x1); /* bit [0] */
++		} else {
++			pHalData->EEPROMBluetoothCoexist = _FALSE;
++			pHalData->EEPROMBluetoothAntNum = Ant_x2;
++		}
++
++#ifdef CONFIG_BTCOEX_FORCE_CSR
++		pHalData->EEPROMBluetoothType = BT_CSR_BC8;
++		pHalData->EEPROMBluetoothCoexist = _TRUE;
++		pHalData->EEPROMBluetoothAntNum = Ant_x2;
++#endif
++	} else
++		rtw_warn_on(1);
++
++#ifdef CONFIG_BT_COEXIST
++	if (_TRUE == pHalData->EEPROMBluetoothCoexist && IS_HARDWARE_TYPE_8812(Adapter)) {
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++		if (!hal_btcoex_AntIsolationConfig_ParaFile(Adapter , PHY_FILE_WIFI_ANT_ISOLATION)) {
++#endif
++			pHalData->EEPROMBluetoothCoexist = _TRUE;
++			hal_btcoex_SetAntIsolationType(Adapter, 0);
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++		}
++#endif
++	}
++
++	if (regsty->ant_num != 0) {
++		if (regsty->ant_num == 1)
++			pHalData->EEPROMBluetoothAntNum = Ant_x1;
++		else if (regsty->ant_num == 2)
++			pHalData->EEPROMBluetoothAntNum = Ant_x2;
++		else
++			RTW_WARN("%s: Discard invalid driver defined antenna number(%d)!\n"
++				 , __func__, regsty->ant_num);
++	}
++
++	if (regsty->btcoex != 2)
++		pHalData->EEPROMBluetoothCoexist = regsty->btcoex ? _TRUE : _FALSE;
++
++	RTW_INFO("%s: BTCoexist=%s, AntNum=%d\n", __func__, pHalData->EEPROMBluetoothCoexist == _TRUE ? "Enable" : "Disable"
++		 , pHalData->EEPROMBluetoothAntNum == Ant_x2 ? 2 : 1);
++#endif /* CONFIG_BT_COEXIST */
++}
++
++void
++Hal_EfuseParseIDCode8812A(
++	IN	PADAPTER	padapter,
++	IN	u8			*hwinfo
++)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++	u16			EEPROMId;
++
++
++	/* Checl 0x8129 again for making sure autoload status!! */
++	EEPROMId = ReadLE2Byte(&hwinfo[0]);
++	if (EEPROMId != RTL_EEPROM_ID) {
++		RTW_INFO("EEPROM ID(%#x) is invalid!!\n", EEPROMId);
++		pHalData->bautoload_fail_flag = _TRUE;
++	} else
++		pHalData->bautoload_fail_flag = _FALSE;
++
++	RTW_INFO("EEPROM ID=0x%04x\n", EEPROMId);
++}
++
++VOID
++Hal_ReadPROMVersion8812A(
++	IN	PADAPTER	Adapter,
++	IN	u8			*PROMContent,
++	IN	BOOLEAN	AutoloadFail
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	if (AutoloadFail)
++		pHalData->EEPROMVersion = EEPROM_Default_Version;
++	else {
++		if (IS_HARDWARE_TYPE_8812(Adapter))
++			pHalData->EEPROMVersion = *(u8 *)&PROMContent[EEPROM_VERSION_8812];
++		else
++			pHalData->EEPROMVersion = *(u8 *)&PROMContent[EEPROM_VERSION_8821];
++		if (pHalData->EEPROMVersion == 0xFF)
++			pHalData->EEPROMVersion = EEPROM_Default_Version;
++	}
++	/* RTW_INFO("pHalData->EEPROMVersion is 0x%x\n", pHalData->EEPROMVersion); */
++}
++
++void
++Hal_ReadTxPowerInfo8812A(
++	IN	PADAPTER		Adapter,
++	IN	u8				*PROMContent,
++	IN	BOOLEAN			AutoLoadFail
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	TxPowerInfo24G pwrInfo24G;
++	TxPowerInfo5G pwrInfo5G;
++
++	hal_load_txpwr_info(Adapter, &pwrInfo24G, &pwrInfo5G, PROMContent);
++
++	/* 2010/10/19 MH Add Regulator recognize for CU. */
++	if (!AutoLoadFail) {
++		struct registry_priv  *registry_par = &Adapter->registrypriv;
++
++
++		if (PROMContent[EEPROM_RF_BOARD_OPTION_8812] == 0xFF)
++			pHalData->EEPROMRegulatory = (EEPROM_DEFAULT_BOARD_OPTION & 0x7);	/* bit0~2 */
++		else
++			pHalData->EEPROMRegulatory = (PROMContent[EEPROM_RF_BOARD_OPTION_8812] & 0x7);	/* bit0~2 */
++
++	} else
++		pHalData->EEPROMRegulatory = 0;
++	RTW_INFO("EEPROMRegulatory = 0x%x\n", pHalData->EEPROMRegulatory);
++
++}
++
++VOID
++Hal_ReadBoardType8812A(
++	IN	PADAPTER	Adapter,
++	IN	u8			*PROMContent,
++	IN	BOOLEAN		AutoloadFail
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	if (!AutoloadFail) {
++		pHalData->InterfaceSel = (PROMContent[EEPROM_RF_BOARD_OPTION_8812] & 0xE0) >> 5;
++		if (PROMContent[EEPROM_RF_BOARD_OPTION_8812] == 0xFF)
++			pHalData->InterfaceSel = (EEPROM_DEFAULT_BOARD_OPTION & 0xE0) >> 5;
++	} else
++		pHalData->InterfaceSel = 0;
++	RTW_INFO("Board Type: 0x%2x\n", pHalData->InterfaceSel);
++
++}
++
++VOID
++Hal_ReadThermalMeter_8812A(
++	IN	PADAPTER	Adapter,
++	IN	u8			*PROMContent,
++	IN	BOOLEAN	AutoloadFail
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	/* u8	tempval; */
++
++	/*  */
++	/* ThermalMeter from EEPROM */
++	/*  */
++	if (!AutoloadFail)
++		pHalData->EEPROMThermalMeter = PROMContent[EEPROM_THERMAL_METER_8812];
++	else
++		pHalData->EEPROMThermalMeter = EEPROM_Default_ThermalMeter_8812;
++	/* pHalData->EEPROMThermalMeter = (tempval&0x1f);	 */ /* [4:0] */
++
++	if (pHalData->EEPROMThermalMeter == 0xff || AutoloadFail) {
++		pHalData->odmpriv.RFCalibrateInfo.bAPKThermalMeterIgnore = _TRUE;
++		pHalData->EEPROMThermalMeter = 0xFF;
++	}
++
++	/* pHalData->ThermalMeter[0] = pHalData->EEPROMThermalMeter;	 */
++	RTW_INFO("ThermalMeter = 0x%x\n", pHalData->EEPROMThermalMeter);
++}
++
++void Hal_ReadRemoteWakeup_8812A(
++	PADAPTER		padapter,
++	IN	u8			*hwinfo,
++	IN	BOOLEAN			AutoLoadFail
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	u8 tmpvalue;
++
++	if (AutoLoadFail) {
++		pwrctl->bHWPowerdown = _FALSE;
++		pwrctl->bSupportRemoteWakeup = _FALSE;
++	} else {
++		/* decide hw if support remote wakeup function */
++		/* if hw supported, 8051 (SIE) will generate WeakUP signal( D+/D- toggle) when autoresume */
++#ifdef CONFIG_USB_HCI
++		if (IS_HARDWARE_TYPE_8821U(padapter))
++			pwrctl->bSupportRemoteWakeup = (hwinfo[EEPROM_USB_OPTIONAL_FUNCTION0_8811AU] & BIT1) ? _TRUE : _FALSE;
++		else
++			pwrctl->bSupportRemoteWakeup = (hwinfo[EEPROM_USB_OPTIONAL_FUNCTION0] & BIT1) ? _TRUE : _FALSE;
++#endif /* CONFIG_USB_HCI */
++
++		RTW_INFO("%s...bSupportRemoteWakeup(%x)\n", __FUNCTION__, pwrctl->bSupportRemoteWakeup);
++	}
++}
++
++VOID
++Hal_ReadChannelPlan8812A(
++	IN	PADAPTER		padapter,
++	IN	u8				*hwinfo,
++	IN	BOOLEAN			AutoLoadFail
++)
++{
++	padapter->mlmepriv.ChannelPlan = hal_com_config_channel_plan(
++			padapter
++			, hwinfo ? &hwinfo[EEPROM_COUNTRY_CODE_8812] : NULL
++			, hwinfo ? hwinfo[EEPROM_ChannelPlan_8812] : 0xFF
++			, padapter->registrypriv.alpha2
++			, padapter->registrypriv.channel_plan
++			, RTW_CHPLAN_REALTEK_DEFINE
++			, AutoLoadFail
++					 );
++}
++
++VOID
++Hal_EfuseParseXtal_8812A(
++	IN	PADAPTER	pAdapter,
++	IN	u8			*hwinfo,
++	IN	BOOLEAN		AutoLoadFail
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	if (!AutoLoadFail) {
++		pHalData->CrystalCap = hwinfo[EEPROM_XTAL_8812];
++		if (pHalData->CrystalCap == 0xFF)
++			pHalData->CrystalCap = EEPROM_Default_CrystalCap_8812;	 /* what value should 8812 set? */
++	} else
++		pHalData->CrystalCap = EEPROM_Default_CrystalCap_8812;
++	RTW_INFO("CrystalCap: 0x%2x\n", pHalData->CrystalCap);
++}
++
++/* for both 8812A and 8821A */
++VOID
++Hal_ReadAntennaDiversity8812A(
++	IN	PADAPTER		pAdapter,
++	IN	u8				*PROMContent,
++	IN	BOOLEAN			AutoLoadFail
++)
++{
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
++	struct registry_priv *registry_par = &pAdapter->registrypriv;
++
++	if (!AutoLoadFail) {
++		if (registry_par->antdiv_cfg == 2) {
++			if (PROMContent[EEPROM_RF_BOARD_OPTION_8812] == 0xFF)
++				pHalData->AntDivCfg = (EEPROM_DEFAULT_BOARD_OPTION & BIT3) ? 1 : 0;
++			else
++				pHalData->AntDivCfg = (PROMContent[EEPROM_RF_BOARD_OPTION_8812] & BIT3) ? 1 : 0;
++		} else {
++			/* by registry */
++			pHalData->AntDivCfg = registry_par->antdiv_cfg;
++		}
++
++		if (registry_par->antdiv_type == 0)
++			pHalData->TRxAntDivType = PROMContent[EEPROM_RF_ANTENNA_OPT_8812];
++		else
++			pHalData->TRxAntDivType = registry_par->antdiv_type;
++
++	} else {
++		/* Disable */
++		pHalData->AntDivCfg = 0;
++	}
++
++#ifdef CONFIG_BT_COEXIST
++	if (hal_btcoex_1Ant(pAdapter)) {
++		pHalData->AntDivCfg = 0;
++		/*Add by YiWei , btcoex 1 ant module , ant band switch by btcoex , driver have to disable  ant band switch feature*/
++		pAdapter->registrypriv.drv_ant_band_switch = 0;
++	}
++#endif
++
++	RTW_INFO("[ANTDIV] AntDivCfg=%d, TRxAntDivType=0x%02x\n", pHalData->AntDivCfg, pHalData->TRxAntDivType);
++#endif
++}
++
++VOID
++hal_ReadPAType_8812A(
++	IN	PADAPTER	Adapter,
++	IN	u8			*PROMContent,
++	IN	BOOLEAN		AutoloadFail
++)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++
++	if (!AutoloadFail) {
++		if (GetRegAmplifierType2G(Adapter) == 0) { /* AUTO */
++			pHalData->PAType_2G = ReadLE1Byte(&PROMContent[EEPROM_PA_TYPE_8812AU]);
++			pHalData->LNAType_2G = ReadLE1Byte(&PROMContent[EEPROM_LNA_TYPE_2G_8812AU]);
++			if (pHalData->PAType_2G == 0xFF)
++				pHalData->PAType_2G = 0;
++			if (pHalData->LNAType_2G == 0xFF)
++				pHalData->LNAType_2G = 0;
++
++			pHalData->ExternalPA_2G = ((pHalData->PAType_2G & BIT5) && (pHalData->PAType_2G & BIT4)) ? 1 : 0;
++			pHalData->ExternalLNA_2G = ((pHalData->LNAType_2G & BIT7) && (pHalData->LNAType_2G & BIT3)) ? 1 : 0;
++		} else {
++			pHalData->ExternalPA_2G  = (GetRegAmplifierType2G(Adapter) & ODM_BOARD_EXT_PA)  ? 1 : 0;
++			pHalData->ExternalLNA_2G = (GetRegAmplifierType2G(Adapter) & ODM_BOARD_EXT_LNA) ? 1 : 0;
++		}
++
++		if (GetRegAmplifierType5G(Adapter) == 0) { /* AUTO */
++			pHalData->PAType_5G = ReadLE1Byte(&PROMContent[EEPROM_PA_TYPE_8812AU]);
++			pHalData->LNAType_5G = ReadLE1Byte(&PROMContent[EEPROM_LNA_TYPE_5G_8812AU]);
++			if (pHalData->PAType_5G == 0xFF)
++				pHalData->PAType_5G = 0;
++			if (pHalData->LNAType_5G == 0xFF)
++				pHalData->LNAType_5G = 0;
++
++			pHalData->ExternalPA_5G = ((pHalData->PAType_5G & BIT1) && (pHalData->PAType_5G & BIT0)) ? 1 : 0;
++			pHalData->ExternalLNA_5G = ((pHalData->LNAType_5G & BIT7) && (pHalData->LNAType_5G & BIT3)) ? 1 : 0;
++		} else {
++			pHalData->ExternalPA_5G  = (GetRegAmplifierType5G(Adapter) & ODM_BOARD_EXT_PA_5G)  ? 1 : 0;
++			pHalData->ExternalLNA_5G = (GetRegAmplifierType5G(Adapter) & ODM_BOARD_EXT_LNA_5G) ? 1 : 0;
++		}
++	} else {
++		pHalData->ExternalPA_2G  = EEPROM_Default_PAType;
++		pHalData->ExternalPA_5G  = 0xFF;
++		pHalData->ExternalLNA_2G = EEPROM_Default_LNAType;
++		pHalData->ExternalLNA_5G = 0xFF;
++
++		if (GetRegAmplifierType2G(Adapter) == 0) { /* AUTO */
++			pHalData->ExternalPA_2G  = 0;
++			pHalData->ExternalLNA_2G = 0;
++		} else {
++			pHalData->ExternalPA_2G  = (GetRegAmplifierType2G(Adapter) & ODM_BOARD_EXT_PA)  ? 1 : 0;
++			pHalData->ExternalLNA_2G = (GetRegAmplifierType2G(Adapter) & ODM_BOARD_EXT_LNA) ? 1 : 0;
++		}
++		if (GetRegAmplifierType5G(Adapter) == 0) { /* AUTO */
++			pHalData->ExternalPA_5G  = 0;
++			pHalData->ExternalLNA_5G = 0;
++		} else {
++			pHalData->ExternalPA_5G  = (GetRegAmplifierType5G(Adapter) & ODM_BOARD_EXT_PA_5G)  ? 1 : 0;
++			pHalData->ExternalLNA_5G = (GetRegAmplifierType5G(Adapter) & ODM_BOARD_EXT_LNA_5G) ? 1 : 0;
++		}
++	}
++	RTW_INFO("pHalData->PAType_2G is 0x%x, pHalData->ExternalPA_2G = %d\n", pHalData->PAType_2G, pHalData->ExternalPA_2G);
++	RTW_INFO("pHalData->PAType_5G is 0x%x, pHalData->ExternalPA_5G = %d\n", pHalData->PAType_5G, pHalData->ExternalPA_5G);
++	RTW_INFO("pHalData->LNAType_2G is 0x%x, pHalData->ExternalLNA_2G = %d\n", pHalData->LNAType_2G, pHalData->ExternalLNA_2G);
++	RTW_INFO("pHalData->LNAType_5G is 0x%x, pHalData->ExternalLNA_5G = %d\n", pHalData->LNAType_5G, pHalData->ExternalLNA_5G);
++}
++
++VOID
++Hal_ReadAmplifierType_8812A(
++	IN	PADAPTER	Adapter,
++	IN	u8			*PROMContent,
++	IN	BOOLEAN		AutoloadFail
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	u8 extTypePA_2G_A  = (PROMContent[0xBD] & BIT2)      >> 2; /* 0xBD[2] */
++	u8 extTypePA_2G_B  = (PROMContent[0xBD] & BIT6)      >> 6; /* 0xBD[6] */
++	u8 extTypePA_5G_A  = (PROMContent[0xBF] & BIT2)      >> 2; /* 0xBF[2] */
++	u8 extTypePA_5G_B  = (PROMContent[0xBF] & BIT6)      >> 6; /* 0xBF[6] */
++	u8 extTypeLNA_2G_A = (PROMContent[0xBD] & (BIT1 | BIT0)) >> 0; /* 0xBD[1:0] */
++	u8 extTypeLNA_2G_B = (PROMContent[0xBD] & (BIT5 | BIT4)) >> 4; /* 0xBD[5:4] */
++	u8 extTypeLNA_5G_A = (PROMContent[0xBF] & (BIT1 | BIT0)) >> 0; /* 0xBF[1:0] */
++	u8 extTypeLNA_5G_B = (PROMContent[0xBF] & (BIT5 | BIT4)) >> 4; /* 0xBF[5:4] */
++
++	hal_ReadPAType_8812A(Adapter, PROMContent, AutoloadFail);
++
++	if ((pHalData->PAType_2G & (BIT5 | BIT4)) == (BIT5 | BIT4)) /* [2.4G] Path A and B are both extPA */
++		pHalData->TypeGPA  = extTypePA_2G_B  << 2 | extTypePA_2G_A;
++
++	if ((pHalData->PAType_5G & (BIT1 | BIT0)) == (BIT1 | BIT0)) /* [5G] Path A and B are both extPA */
++		pHalData->TypeAPA  = extTypePA_5G_B  << 2 | extTypePA_5G_A;
++
++	if ((pHalData->LNAType_2G & (BIT7 | BIT3)) == (BIT7 | BIT3)) /* [2.4G] Path A and B are both extLNA */
++		pHalData->TypeGLNA = extTypeLNA_2G_B << 2 | extTypeLNA_2G_A;
++
++	if ((pHalData->LNAType_5G & (BIT7 | BIT3)) == (BIT7 | BIT3)) /* [5G] Path A and B are both extLNA */
++		pHalData->TypeALNA = extTypeLNA_5G_B << 2 | extTypeLNA_5G_A;
++
++	RTW_INFO("pHalData->TypeGPA = 0x%X\n", pHalData->TypeGPA);
++	RTW_INFO("pHalData->TypeAPA = 0x%X\n", pHalData->TypeAPA);
++	RTW_INFO("pHalData->TypeGLNA = 0x%X\n", pHalData->TypeGLNA);
++	RTW_INFO("pHalData->TypeALNA = 0x%X\n", pHalData->TypeALNA);
++}
++
++VOID
++Hal_ReadPAType_8821A(
++	IN	PADAPTER	Adapter,
++	IN	u8			*PROMContent,
++	IN	BOOLEAN		AutoloadFail
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	if (!AutoloadFail) {
++		if (GetRegAmplifierType2G(Adapter) == 0) { /* AUTO */
++			pHalData->PAType_2G = ReadLE1Byte(&PROMContent[EEPROM_PA_TYPE_8812AU]);
++			pHalData->LNAType_2G = ReadLE1Byte(&PROMContent[EEPROM_LNA_TYPE_2G_8812AU]);
++			if (pHalData->PAType_2G == 0xFF)
++				pHalData->PAType_2G = 0;
++			if (pHalData->LNAType_2G == 0xFF)
++				pHalData->LNAType_2G = 0;
++
++			pHalData->ExternalPA_2G = (pHalData->PAType_2G & BIT4) ? 1 : 0;
++			pHalData->ExternalLNA_2G = (pHalData->LNAType_2G & BIT3) ? 1 : 0;
++		} else {
++			pHalData->ExternalPA_2G  = (GetRegAmplifierType2G(Adapter) & ODM_BOARD_EXT_PA)  ? 1 : 0;
++			pHalData->ExternalLNA_2G = (GetRegAmplifierType2G(Adapter) & ODM_BOARD_EXT_LNA) ? 1 : 0;
++		}
++
++		if (GetRegAmplifierType5G(Adapter) == 0) { /* AUTO */
++			pHalData->PAType_5G = ReadLE1Byte(&PROMContent[EEPROM_PA_TYPE_8812AU]);
++			pHalData->LNAType_5G = ReadLE1Byte(&PROMContent[EEPROM_LNA_TYPE_5G_8812AU]);
++			if (pHalData->PAType_5G == 0xFF)
++				pHalData->PAType_5G = 0;
++			if (pHalData->LNAType_5G == 0xFF)
++				pHalData->LNAType_5G = 0;
++
++			pHalData->ExternalPA_5G = (pHalData->PAType_5G & BIT0) ? 1 : 0;
++			pHalData->ExternalLNA_5G = (pHalData->LNAType_5G & BIT3) ? 1 : 0;
++		} else {
++			pHalData->ExternalPA_5G  = (GetRegAmplifierType5G(Adapter) & ODM_BOARD_EXT_PA_5G)  ? 1 : 0;
++			pHalData->ExternalLNA_5G = (GetRegAmplifierType5G(Adapter) & ODM_BOARD_EXT_LNA_5G) ? 1 : 0;
++		}
++	} else {
++		pHalData->ExternalPA_2G  = EEPROM_Default_PAType;
++		pHalData->ExternalPA_5G  = 0xFF;
++		pHalData->ExternalLNA_2G = EEPROM_Default_LNAType;
++		pHalData->ExternalLNA_5G = 0xFF;
++
++		if (GetRegAmplifierType2G(Adapter) == 0) { /* AUTO */
++			pHalData->ExternalPA_2G  = 0;
++			pHalData->ExternalLNA_2G = 0;
++		} else {
++			pHalData->ExternalPA_2G  = (GetRegAmplifierType2G(Adapter) & ODM_BOARD_EXT_PA)  ? 1 : 0;
++			pHalData->ExternalLNA_2G = (GetRegAmplifierType2G(Adapter) & ODM_BOARD_EXT_LNA) ? 1 : 0;
++		}
++		if (GetRegAmplifierType5G(Adapter) == 0) { /* AUTO */
++			pHalData->ExternalPA_5G  = 0;
++			pHalData->ExternalLNA_5G = 0;
++		} else {
++			pHalData->ExternalPA_5G  = (GetRegAmplifierType5G(Adapter) & ODM_BOARD_EXT_PA_5G)  ? 1 : 0;
++			pHalData->ExternalLNA_5G = (GetRegAmplifierType5G(Adapter) & ODM_BOARD_EXT_LNA_5G) ? 1 : 0;
++		}
++	}
++	RTW_INFO("pHalData->PAType_2G is 0x%x, pHalData->ExternalPA_2G = %d\n", pHalData->PAType_2G, pHalData->ExternalPA_2G);
++	RTW_INFO("pHalData->PAType_5G is 0x%x, pHalData->ExternalPA_5G = %d\n", pHalData->PAType_5G, pHalData->ExternalPA_5G);
++	RTW_INFO("pHalData->LNAType_2G is 0x%x, pHalData->ExternalLNA_2G = %d\n", pHalData->LNAType_2G, pHalData->ExternalLNA_2G);
++	RTW_INFO("pHalData->LNAType_5G is 0x%x, pHalData->ExternalLNA_5G = %d\n", pHalData->LNAType_5G, pHalData->ExternalLNA_5G);
++}
++
++VOID
++Hal_ReadRFEType_8812A(
++	IN	PADAPTER	Adapter,
++	IN	u8			*PROMContent,
++	IN	BOOLEAN		AutoloadFail
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	if (!AutoloadFail) {
++		if ((GetRegRFEType(Adapter) != 64) || 0xFF == PROMContent[EEPROM_RFE_OPTION_8812]) {
++			if (GetRegRFEType(Adapter) != 64)
++				pHalData->RFEType = GetRegRFEType(Adapter);
++			else {
++				if (IS_HARDWARE_TYPE_8812AU(Adapter))
++					pHalData->RFEType = 0;
++				else if (IS_HARDWARE_TYPE_8812E(Adapter))
++					pHalData->RFEType = 2;
++				else
++					pHalData->RFEType = EEPROM_DEFAULT_RFE_OPTION;
++			}
++
++		} else if (PROMContent[EEPROM_RFE_OPTION_8812] & BIT7) {
++			if (pHalData->ExternalLNA_5G) {
++				if (pHalData->ExternalPA_5G) {
++					if (pHalData->ExternalLNA_2G && pHalData->ExternalPA_2G)
++						pHalData->RFEType = 3;
++					else
++						pHalData->RFEType = 0;
++				} else
++					pHalData->RFEType = 2;
++			} else
++				pHalData->RFEType = 4;
++		} else {
++			pHalData->RFEType = PROMContent[EEPROM_RFE_OPTION_8812] & 0x3F;
++
++			/* 2013/03/19 MH Due to othe customer already use incorrect EFUSE map */
++			/* to for their product. We need to add workaround to prevent to modify */
++			/* spec and notify all customer to revise the IC 0xca content. After */
++			/* discussing with Willis an YN, revise driver code to prevent. */
++			if (pHalData->RFEType == 4 &&
++			    (pHalData->ExternalPA_5G == _TRUE || pHalData->ExternalPA_2G == _TRUE ||
++			     pHalData->ExternalLNA_5G == _TRUE || pHalData->ExternalLNA_2G == _TRUE)) {
++				if (IS_HARDWARE_TYPE_8812AU(Adapter))
++					pHalData->RFEType = 0;
++				else if (IS_HARDWARE_TYPE_8812E(Adapter))
++					pHalData->RFEType = 2;
++			}
++		}
++	} else {
++		if (GetRegRFEType(Adapter) != 64)
++			pHalData->RFEType = GetRegRFEType(Adapter);
++		else {
++			if (IS_HARDWARE_TYPE_8812AU(Adapter))
++				pHalData->RFEType = 0;
++			else if (IS_HARDWARE_TYPE_8812E(Adapter))
++				pHalData->RFEType = 2;
++			else
++				pHalData->RFEType = EEPROM_DEFAULT_RFE_OPTION;
++		}
++	}
++
++	RTW_INFO("RFE Type: 0x%2x\n", pHalData->RFEType);
++}
++
++void Hal_EfuseParseKFreeData_8821A(
++	IN		PADAPTER	Adapter,
++	IN		u8		*PROMContent,
++	IN		BOOLEAN		AutoloadFail)
++{
++#ifdef CONFIG_RF_POWER_TRIM
++
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct kfree_data_t *kfree_data = &pHalData->kfree_data;
++
++	if ((Adapter->registrypriv.RegPwrTrimEnable == 1) || !AutoloadFail) {
++		kfree_data->bb_gain[BB_GAIN_2G][RF_PATH_A]
++			= KFREE_BB_GAIN_2G_TX_OFFSET(EFUSE_Read1Byte(Adapter, PPG_BB_GAIN_2G_TXA_OFFSET_8821A) & PPG_BB_GAIN_2G_TX_OFFSET_MASK);
++		kfree_data->bb_gain[BB_GAIN_5GLB1][RF_PATH_A]
++			= KFREE_BB_GAIN_5G_TX_OFFSET(EFUSE_Read1Byte(Adapter, PPG_BB_GAIN_5GLB1_TXA_OFFSET_8821A) & PPG_BB_GAIN_5G_TX_OFFSET_MASK);
++		kfree_data->bb_gain[BB_GAIN_5GLB2][RF_PATH_A]
++			= KFREE_BB_GAIN_5G_TX_OFFSET(EFUSE_Read1Byte(Adapter, PPG_BB_GAIN_5GLB2_TXA_OFFSET_8821A) & PPG_BB_GAIN_5G_TX_OFFSET_MASK);
++		kfree_data->bb_gain[BB_GAIN_5GMB1][RF_PATH_A]
++			= KFREE_BB_GAIN_5G_TX_OFFSET(EFUSE_Read1Byte(Adapter, PPG_BB_GAIN_5GMB1_TXA_OFFSET_8821A) & PPG_BB_GAIN_5G_TX_OFFSET_MASK);
++		kfree_data->bb_gain[BB_GAIN_5GMB2][RF_PATH_A]
++			= KFREE_BB_GAIN_5G_TX_OFFSET(EFUSE_Read1Byte(Adapter, PPG_BB_GAIN_5GMB2_TXA_OFFSET_8821A) & PPG_BB_GAIN_5G_TX_OFFSET_MASK);
++		kfree_data->bb_gain[BB_GAIN_5GHB][RF_PATH_A]
++			= KFREE_BB_GAIN_5G_TX_OFFSET(EFUSE_Read1Byte(Adapter, PPG_BB_GAIN_5GHB_TXA_OFFSET_8821A) & PPG_BB_GAIN_5G_TX_OFFSET_MASK);
++		kfree_data->thermal
++			= KFREE_THERMAL_OFFSET(EFUSE_Read1Byte(Adapter, PPG_THERMAL_OFFSET_8821A) & PPG_THERMAL_OFFSET_MASK);
++	}
++
++	if (!AutoloadFail) {
++		if (GET_PG_KFREE_ON_8821A(PROMContent))
++			kfree_data->flag |= KFREE_FLAG_ON;
++		if (GET_PG_KFREE_THERMAL_K_ON_8821A(PROMContent))
++			kfree_data->flag |= KFREE_FLAG_THERMAL_K_ON;
++	} else {
++		if (!kfree_data_is_bb_gain_empty(kfree_data))
++			kfree_data->flag |= KFREE_FLAG_ON;
++		if (kfree_data->thermal != 0)
++			kfree_data->flag |= KFREE_FLAG_THERMAL_K_ON;
++	}
++
++	if (Adapter->registrypriv.RegPwrTrimEnable == 1) {
++		kfree_data->flag |= KFREE_FLAG_ON;
++		kfree_data->flag |= KFREE_FLAG_THERMAL_K_ON;
++	}
++
++	if (kfree_data->flag & KFREE_FLAG_THERMAL_K_ON)
++		pHalData->EEPROMThermalMeter += kfree_data->thermal;
++
++	RTW_INFO("kfree flag:0x%02x\n", kfree_data->flag);
++	if (Adapter->registrypriv.RegPwrTrimEnable || kfree_data->flag & KFREE_FLAG_ON) {
++		int i;
++
++		RTW_PRINT_SEL(RTW_DBGDUMP, "bb_gain:");
++		for (i = 0; i < BB_GAIN_NUM; i++)
++			_RTW_PRINT_SEL(RTW_DBGDUMP, "%d ", kfree_data->bb_gain[i][RF_PATH_A]);
++		_RTW_PRINT_SEL(RTW_DBGDUMP, "\n");
++	}
++	if (Adapter->registrypriv.RegPwrTrimEnable || kfree_data->flag & KFREE_FLAG_THERMAL_K_ON)
++		RTW_INFO("thermal:%d\n", kfree_data->thermal);
++
++#endif /*CONFIG_RF_POWER_TRIM */
++}
++
++/*
++ * 2013/04/15 MH Add 8812AU- VL/VS/VN for different board type.
++ *   */
++VOID
++hal_ReadUsbType_8812AU(
++	IN	PADAPTER	Adapter,
++	IN	u8			*PROMContent,
++	IN	BOOLEAN		AutoloadFail
++)
++{
++	/* if (IS_HARDWARE_TYPE_8812AU(Adapter) && Adapter->UsbModeMechanism.RegForcedUsbMode == 5) */
++	{
++		PHAL_DATA_TYPE pHalData = GET_HAL_DATA(Adapter);
++		struct hal_spec_t *hal_spc = GET_HAL_SPEC(Adapter);
++		u8	reg_tmp, i, j, antenna = 0, wmode = 0;
++		/* Read anenna type from EFUSE 1019/1018 */
++		for (i = 0; i < 2; i++) {
++			/*
++			  Check efuse address 1019
++			  Check efuse address 1018
++			*/
++			efuse_OneByteRead(Adapter, 1019 - i, &reg_tmp, _FALSE);
++			/*
++			  CHeck bit 7-5
++			  Check bit 3-1
++			*/
++			if (((reg_tmp >> 5) & 0x7) != 0) {
++				antenna = ((reg_tmp >> 5) & 0x7);
++				break;
++			} else if ((reg_tmp >> 1 & 0x07) != 0) {
++				antenna = ((reg_tmp >> 1) & 0x07);
++				break;
++			}
++
++
++		}
++
++		/* Read anenna type from EFUSE 1021/1020 */
++		for (i = 0; i < 2; i++) {
++			/*
++			  Check efuse address 1021
++			  Check efuse address 1020
++			*/
++			efuse_OneByteRead(Adapter, 1021 - i, &reg_tmp, _FALSE);
++
++			/* CHeck bit 3-2 */
++			if (((reg_tmp >> 2) & 0x3) != 0) {
++				wmode = ((reg_tmp >> 2) & 0x3);
++				break;
++			}
++
++
++		}
++
++		RTW_INFO("%s: antenna=%d, wmode=%d\n", __func__, antenna, wmode);
++		/* Antenna == 1 WMODE = 3 RTL8812AU-VL 11AC + USB2.0 Mode */
++		if (antenna == 1) {
++			/* Config 8812AU as 1*1 mode AC mode. */
++			pHalData->rf_type = RF_1T1R;
++			/* UsbModeSwitch_SetUsbModeMechOn(Adapter, FALSE); */
++			/* pHalData->EFUSEHidden = EFUSE_HIDDEN_812AU_VL; */
++			RTW_INFO("%s(): EFUSE_HIDDEN_812AU_VL\n", __FUNCTION__);
++		} else if (antenna == 2) {
++			if (wmode == 3) {
++				if (PROMContent[EEPROM_USB_MODE_8812] == 0x2) {
++					/* RTL8812AU Normal Mode. No further action. */
++					/* pHalData->EFUSEHidden = EFUSE_HIDDEN_812AU; */
++					RTW_INFO("%s(): EFUSE_HIDDEN_812AU\n", __FUNCTION__);
++				} else {
++					/* Antenna == 2 WMODE = 3 RTL8812AU-VS 11AC + USB2.0 Mode */
++					/* Driver will not support USB automatic switch */
++					/* UsbModeSwitch_SetUsbModeMechOn(Adapter, FALSE); */
++					/* pHalData->EFUSEHidden = EFUSE_HIDDEN_812AU_VS; */
++					RTW_INFO("%s(): EFUSE_HIDDEN_8812AU_VS\n", __func__);
++				}
++			} else if (wmode == 2) {
++				/* Antenna == 2 WMODE = 2 RTL8812AU-VN 11N only + USB2.0 Mode */
++				/* UsbModeSwitch_SetUsbModeMechOn(Adapter, FALSE); */
++				/* pHalData->EFUSEHidden = EFUSE_HIDDEN_812AU_VN; */
++				RTW_INFO("%s(): EFUSE_HIDDEN_8812AU_VN\n", __func__);
++				hal_spc->proto_cap &= ~PROTO_CAP_11AC;
++			}
++		}
++	}
++}
++
++enum {
++	VOLTAGE_V25						= 0x03,
++	LDOE25_SHIFT						= 28 ,
++};
++
++static VOID
++Hal_EfusePowerSwitch8812A(
++	IN	PADAPTER	pAdapter,
++	IN	u8		bWrite,
++	IN	u8		PwrState)
++{
++	u8	tempval;
++	u16	tmpV16;
++#define EFUSE_ACCESS_ON_JAGUAR 0x69
++#define EFUSE_ACCESS_OFF_JAGUAR 0x00
++	if (PwrState == _TRUE) {
++		rtw_write8(pAdapter, REG_EFUSE_BURN_GNT_8812, EFUSE_ACCESS_ON_JAGUAR);
++
++		/* 1.2V Power: From VDDON with Power Cut(0x0000h[15]), defualt valid */
++		tmpV16 = rtw_read16(pAdapter, REG_SYS_ISO_CTRL);
++		if (!(tmpV16 & PWC_EV12V)) {
++			tmpV16 |= PWC_EV12V ;
++			/* rtw_write16(pAdapter,REG_SYS_ISO_CTRL,tmpV16); */
++		}
++		/* Reset: 0x0000h[28], default valid */
++		tmpV16 =  rtw_read16(pAdapter, REG_SYS_FUNC_EN);
++		if (!(tmpV16 & FEN_ELDR)) {
++			tmpV16 |= FEN_ELDR ;
++			rtw_write16(pAdapter, REG_SYS_FUNC_EN, tmpV16);
++		}
++
++		/* Clock: Gated(0x0008h[5]) 8M(0x0008h[1]) clock from ANA, default valid */
++		tmpV16 = rtw_read16(pAdapter, REG_SYS_CLKR);
++		if ((!(tmpV16 & LOADER_CLK_EN))  || (!(tmpV16 & ANA8M))) {
++			tmpV16 |= (LOADER_CLK_EN | ANA8M) ;
++			rtw_write16(pAdapter, REG_SYS_CLKR, tmpV16);
++		}
++
++		if (bWrite == _TRUE) {
++			/* Enable LDO 2.5V before read/write action */
++			tempval = rtw_read8(pAdapter, EFUSE_TEST + 3);
++			tempval &= ~(BIT3 | BIT4 | BIT5 | BIT6);
++			tempval |= (VOLTAGE_V25 << 3);
++			tempval |= BIT7;
++			rtw_write8(pAdapter, EFUSE_TEST + 3, tempval);
++		}
++	} else {
++		rtw_write8(pAdapter, REG_EFUSE_BURN_GNT_8812, EFUSE_ACCESS_OFF_JAGUAR);
++
++		if (bWrite == _TRUE) {
++			/* Disable LDO 2.5V after read/write action */
++			tempval = rtw_read8(pAdapter, EFUSE_TEST + 3);
++			rtw_write8(pAdapter, EFUSE_TEST + 3, (tempval & 0x7F));
++		}
++	}
++}
++
++static VOID
++rtl8812_EfusePowerSwitch(
++	IN	PADAPTER	pAdapter,
++	IN	u8		bWrite,
++	IN	u8		PwrState)
++{
++	Hal_EfusePowerSwitch8812A(pAdapter, bWrite, PwrState);
++}
++
++static BOOLEAN
++Hal_EfuseSwitchToBank8812A(
++	IN		PADAPTER	pAdapter,
++	IN		u1Byte		bank,
++	IN		BOOLEAN		bPseudoTest
++)
++{
++	return _FALSE;
++}
++
++static VOID
++Hal_EfuseReadEFuse8812A(
++	PADAPTER		Adapter,
++	u16			_offset,
++	u16			_size_byte,
++	u8		*pbuf,
++	IN	BOOLEAN	bPseudoTest
++)
++{
++	u8	*efuseTbl = NULL;
++	u16	eFuse_Addr = 0;
++	u8	offset = 0, wden = 0;
++	u16	i, j;
++	u16	**eFuseWord = NULL;
++	u16	efuse_utilized = 0;
++	u8	efuse_usage = 0;
++	u8	offset_2_0 = 0;
++	u8	efuseHeader = 0, efuseExtHdr = 0, efuseData = 0;
++
++	/*  */
++	/* Do NOT excess total size of EFuse table. Added by Roger, 2008.11.10. */
++	/*  */
++	if ((_offset + _size_byte) > EFUSE_MAP_LEN_JAGUAR) {
++		/* total E-Fuse table is 512bytes */
++		RTW_INFO("Hal_EfuseReadEFuse8812A(): Invalid offset(%#x) with read bytes(%#x)!!\n", _offset, _size_byte);
++		goto exit;
++	}
++
++	efuseTbl = (u8 *)rtw_zmalloc(EFUSE_MAP_LEN_JAGUAR);
++	if (efuseTbl == NULL) {
++		RTW_INFO("%s: alloc efuseTbl fail!\n", __FUNCTION__);
++		goto exit;
++	}
++
++	eFuseWord = (u16 **)rtw_malloc2d(EFUSE_MAX_SECTION_JAGUAR, EFUSE_MAX_WORD_UNIT, 2);
++	if (eFuseWord == NULL) {
++		RTW_INFO("%s: alloc eFuseWord fail!\n", __FUNCTION__);
++		goto exit;
++	}
++
++	/* 0. Refresh efuse init map as all oxFF. */
++	for (i = 0; i < EFUSE_MAX_SECTION_JAGUAR; i++)
++		for (j = 0; j < EFUSE_MAX_WORD_UNIT; j++)
++			eFuseWord[i][j] = 0xFFFF;
++
++	/*  */
++	/* 1. Read the first byte to check if efuse is empty!!! */
++	/*  */
++	/*  */
++	efuse_OneByteRead(Adapter, eFuse_Addr++, &efuseHeader, bPseudoTest);
++
++	if (efuseHeader != 0xFF)
++		efuse_utilized++;
++	else {
++		RTW_INFO("EFUSE is empty\n");
++		efuse_utilized = 0;
++		goto exit;
++	}
++	/* RT_DISP(FEEPROM, EFUSE_READ_ALL, ("Hal_EfuseReadEFuse8812A(): efuse_utilized: %d\n", efuse_utilized)); */
++
++	/*  */
++	/* 2. Read real efuse content. Filter PG header and every section data. */
++	/*  */
++	while ((efuseHeader != 0xFF) && AVAILABLE_EFUSE_ADDR_8812(eFuse_Addr)) {
++		/* RTPRINT(FEEPROM, EFUSE_READ_ALL, ("efuse_Addr-%d efuse_data=%x\n", eFuse_Addr-1, *rtemp8)); */
++
++		/* Check PG header for section num. */
++		if (EXT_HEADER(efuseHeader)) {	/* extended header */
++			offset_2_0 = GET_HDR_OFFSET_2_0(efuseHeader);
++			/* RT_DISP(FEEPROM, EFUSE_READ_ALL, ("extended header offset_2_0=%X\n", offset_2_0)); */
++
++			efuse_OneByteRead(Adapter, eFuse_Addr++, &efuseExtHdr, bPseudoTest);
++
++			/* RT_DISP(FEEPROM, EFUSE_READ_ALL, ("efuse[%X]=%X\n", eFuse_Addr-1, efuseExtHdr)); */
++
++			if (efuseExtHdr != 0xff) {
++				efuse_utilized++;
++				if (ALL_WORDS_DISABLED(efuseExtHdr)) {
++					efuse_OneByteRead(Adapter, eFuse_Addr++, &efuseHeader, bPseudoTest);
++					if (efuseHeader != 0xff)
++						efuse_utilized++;
++					break;
++				} else {
++					offset = ((efuseExtHdr & 0xF0) >> 1) | offset_2_0;
++					wden = (efuseExtHdr & 0x0F);
++				}
++			} else {
++				RTW_INFO("Error condition, extended = 0xff\n");
++				/* We should handle this condition. */
++				break;
++			}
++		} else {
++			offset = ((efuseHeader >> 4) & 0x0f);
++			wden = (efuseHeader & 0x0f);
++		}
++
++		if (offset < EFUSE_MAX_SECTION_JAGUAR) {
++			/* Get word enable value from PG header */
++			/* RT_DISP(FEEPROM, EFUSE_READ_ALL, ("Offset-%X Worden=%X\n", offset, wden)); */
++
++			for (i = 0; i < EFUSE_MAX_WORD_UNIT; i++) {
++				/* Check word enable condition in the section				 */
++				if (!(wden & (0x01 << i))) {
++					efuse_OneByteRead(Adapter, eFuse_Addr++, &efuseData, bPseudoTest);
++					/* RT_DISP(FEEPROM, EFUSE_READ_ALL, ("efuse[%X]=%X\n", eFuse_Addr-1, efuseData)); */
++					efuse_utilized++;
++					eFuseWord[offset][i] = (efuseData & 0xff);
++
++					if (!AVAILABLE_EFUSE_ADDR_8812(eFuse_Addr))
++						break;
++
++					efuse_OneByteRead(Adapter, eFuse_Addr++, &efuseData, bPseudoTest);
++					/* RT_DISP(FEEPROM, EFUSE_READ_ALL, ("efuse[%X]=%X\n", eFuse_Addr-1, efuseData)); */
++					efuse_utilized++;
++					eFuseWord[offset][i] |= (((u16)efuseData << 8) & 0xff00);
++
++					if (!AVAILABLE_EFUSE_ADDR_8812(eFuse_Addr))
++						break;
++				}
++			}
++		} else { /* deal with error offset,skip error data		 */
++			RTW_PRINT("invalid offset:0x%02x\n", offset);
++			for (i = 0; i < EFUSE_MAX_WORD_UNIT; i++) {
++				/* Check word enable condition in the section				 */
++				if (!(wden & 0x01)) {
++					eFuse_Addr++;
++					efuse_utilized++;
++					if (!AVAILABLE_EFUSE_ADDR_8812(eFuse_Addr))
++						break;
++					eFuse_Addr++;
++					efuse_utilized++;
++					if (!AVAILABLE_EFUSE_ADDR_8812(eFuse_Addr))
++						break;
++				}
++			}
++		}
++		/* Read next PG header */
++		efuse_OneByteRead(Adapter, eFuse_Addr++, &efuseHeader, bPseudoTest);
++		/* RTPRINT(FEEPROM, EFUSE_READ_ALL, ("Addr=%d rtemp 0x%x\n", eFuse_Addr, *rtemp8)); */
++
++		if (efuseHeader != 0xFF)
++			efuse_utilized++;
++	}
++
++	/*  */
++	/* 3. Collect 16 sections and 4 word unit into Efuse map. */
++	/*  */
++	for (i = 0; i < EFUSE_MAX_SECTION_JAGUAR; i++) {
++		for (j = 0; j < EFUSE_MAX_WORD_UNIT; j++) {
++			efuseTbl[(i * 8) + (j * 2)] = (eFuseWord[i][j] & 0xff);
++			efuseTbl[(i * 8) + ((j * 2) + 1)] = ((eFuseWord[i][j] >> 8) & 0xff);
++		}
++	}
++
++	/* RT_DISP(FEEPROM, EFUSE_READ_ALL, ("Hal_EfuseReadEFuse8812A(): efuse_utilized: %d\n", efuse_utilized)); */
++
++	/*  */
++	/* 4. Copy from Efuse map to output pointer memory!!! */
++	/*  */
++	for (i = 0; i < _size_byte; i++)
++		pbuf[i] = efuseTbl[_offset + i];
++
++	/*  */
++	/* 5. Calculate Efuse utilization. */
++	/*  */
++	efuse_usage = (u1Byte)((eFuse_Addr * 100) / EFUSE_REAL_CONTENT_LEN_JAGUAR);
++	rtw_hal_set_hwreg(Adapter, HW_VAR_EFUSE_BYTES, (u8 *)&eFuse_Addr);
++
++exit:
++	if (efuseTbl)
++		rtw_mfree(efuseTbl, EFUSE_MAP_LEN_JAGUAR);
++
++	if (eFuseWord)
++		rtw_mfree2d((void *)eFuseWord, EFUSE_MAX_SECTION_JAGUAR, EFUSE_MAX_WORD_UNIT, sizeof(u16));
++}
++
++/* ***********************************************************
++ *				Efuse related code
++ * *********************************************************** */
++static u8
++hal_EfuseSwitchToBank(
++	PADAPTER	padapter,
++	u8			bank,
++	u8			bPseudoTest)
++{
++	u8 bRet = _FALSE;
++	u32 value32 = 0;
++#ifdef HAL_EFUSE_MEMORY
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++	PEFUSE_HAL pEfuseHal = &pHalData->EfuseHal;
++#endif
++
++
++	RTW_INFO("%s: Efuse switch bank to %d\n", __FUNCTION__, bank);
++	if (bPseudoTest) {
++#ifdef HAL_EFUSE_MEMORY
++		pEfuseHal->fakeEfuseBank = bank;
++#else
++		fakeEfuseBank = bank;
++#endif
++		bRet = _TRUE;
++	} else {
++		value32 = rtw_read32(padapter, EFUSE_TEST);
++		bRet = _TRUE;
++		switch (bank) {
++		case 0:
++			value32 = (value32 & ~EFUSE_SEL_MASK) | EFUSE_SEL(EFUSE_WIFI_SEL_0);
++			break;
++		case 1:
++			value32 = (value32 & ~EFUSE_SEL_MASK) | EFUSE_SEL(EFUSE_BT_SEL_0);
++			break;
++		case 2:
++			value32 = (value32 & ~EFUSE_SEL_MASK) | EFUSE_SEL(EFUSE_BT_SEL_1);
++			break;
++		case 3:
++			value32 = (value32 & ~EFUSE_SEL_MASK) | EFUSE_SEL(EFUSE_BT_SEL_2);
++			break;
++		default:
++			value32 = (value32 & ~EFUSE_SEL_MASK) | EFUSE_SEL(EFUSE_WIFI_SEL_0);
++			bRet = _FALSE;
++			break;
++		}
++		rtw_write32(padapter, EFUSE_TEST, value32);
++	}
++
++	return bRet;
++}
++
++
++static VOID
++hal_ReadEFuse_BT(
++	PADAPTER	padapter,
++	u16			_offset,
++	u16			_size_byte,
++	u8			*pbuf,
++	u8			bPseudoTest
++)
++{
++#ifdef HAL_EFUSE_MEMORY
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	PEFUSE_HAL		pEfuseHal = &pHalData->EfuseHal;
++#endif
++	u8	*efuseTbl;
++	u8	bank;
++	u16	eFuse_Addr;
++	u8	efuseHeader, efuseExtHdr, efuseData;
++	u8	offset, wden;
++	u16	i, total, used;
++	u8	efuse_usage;
++
++
++	/* */
++	/* Do NOT excess total size of EFuse table. Added by Roger, 2008.11.10. */
++	/* */
++	if ((_offset + _size_byte) > EFUSE_BT_MAP_LEN) {
++		RTW_INFO("%s: Invalid offset(%#x) with read bytes(%#x)!!\n", __FUNCTION__, _offset, _size_byte);
++		return;
++	}
++
++	efuseTbl = rtw_malloc(EFUSE_BT_MAP_LEN);
++	if (efuseTbl == NULL) {
++		RTW_INFO("%s: efuseTbl malloc fail!\n", __FUNCTION__);
++		return;
++	}
++	/* 0xff will be efuse default value instead of 0x00. */
++	_rtw_memset(efuseTbl, 0xFF, EFUSE_BT_MAP_LEN);
++
++	total = 0;
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_BT, TYPE_AVAILABLE_EFUSE_BYTES_BANK, &total, bPseudoTest);
++
++	for (bank = 1; bank < 3; bank++) { /* 8821a BT 2 bank 512 size */
++		if (hal_EfuseSwitchToBank(padapter, bank, bPseudoTest) == _FALSE) {
++			RTW_INFO("%s: hal_EfuseSwitchToBank Fail!!\n", __FUNCTION__);
++			goto exit;
++		}
++
++		eFuse_Addr = 0;
++
++		while (AVAILABLE_EFUSE_ADDR(eFuse_Addr)) {
++			/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseHeader, bPseudoTest); */
++			efuse_OneByteRead(padapter, eFuse_Addr++, &efuseHeader, bPseudoTest);
++			if (efuseHeader == 0xFF)
++				break;
++			RTW_INFO("%s: efuse[%#X]=0x%02x (header)\n", __FUNCTION__, (((bank - 1) * EFUSE_BT_REAL_CONTENT_LEN) + eFuse_Addr - 1), efuseHeader);
++
++			/* Check PG header for section num. */
++			if (EXT_HEADER(efuseHeader)) {	/* extended header */
++				offset = GET_HDR_OFFSET_2_0(efuseHeader);
++				RTW_INFO("%s: extended header offset_2_0=0x%X\n", __FUNCTION__, offset);
++
++				/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseExtHdr, bPseudoTest); */
++				efuse_OneByteRead(padapter, eFuse_Addr++, &efuseExtHdr, bPseudoTest);
++				RTW_INFO("%s: efuse[%#X]=0x%02x (ext header)\n", __FUNCTION__, (((bank - 1) * EFUSE_BT_REAL_CONTENT_LEN) + eFuse_Addr - 1), efuseExtHdr);
++				if (ALL_WORDS_DISABLED(efuseExtHdr))
++					continue;
++
++				offset |= ((efuseExtHdr & 0xF0) >> 1);
++				wden = (efuseExtHdr & 0x0F);
++			} else {
++				offset = ((efuseHeader >> 4) & 0x0f);
++				wden = (efuseHeader & 0x0f);
++			}
++
++			if (offset < EFUSE_BT_MAX_SECTION) {
++				u16 addr;
++
++				/* Get word enable value from PG header */
++				RTW_INFO("%s: Offset=%d Worden=%#X\n", __FUNCTION__, offset, wden);
++
++				addr = offset * PGPKT_DATA_SIZE;
++				for (i = 0; i < EFUSE_MAX_WORD_UNIT; i++) {
++					/* Check word enable condition in the section */
++					if (!(wden & (0x01 << i))) {
++						efuseData = 0;
++						/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseData, bPseudoTest); */
++						efuse_OneByteRead(padapter, eFuse_Addr++, &efuseData, bPseudoTest);
++						RTW_INFO("%s: efuse[%#X]=0x%02X\n", __FUNCTION__, eFuse_Addr - 1, efuseData);
++						efuseTbl[addr] = efuseData;
++
++						efuseData = 0;
++						/* ReadEFuseByte(padapter, eFuse_Addr++, &efuseData, bPseudoTest); */
++						efuse_OneByteRead(padapter, eFuse_Addr++, &efuseData, bPseudoTest);
++						RTW_INFO("%s: efuse[%#X]=0x%02X\n", __FUNCTION__, eFuse_Addr - 1, efuseData);
++						efuseTbl[addr + 1] = efuseData;
++					}
++					addr += 2;
++				}
++			} else {
++				RTW_INFO("%s: offset(%d) is illegal!!\n", __FUNCTION__, offset);
++				eFuse_Addr += Efuse_CalculateWordCnts(wden) * 2;
++			}
++		}
++
++		if ((eFuse_Addr - 1) < total) {
++			RTW_INFO("%s: bank(%d) data end at %#x\n", __FUNCTION__, bank, eFuse_Addr - 1);
++			break;
++		}
++	}
++
++	/* switch bank back to bank 0 for later BT and wifi use. */
++	hal_EfuseSwitchToBank(padapter, 0, bPseudoTest);
++
++	/* Copy from Efuse map to output pointer memory!!! */
++	for (i = 0; i < _size_byte; i++)
++		pbuf[i] = efuseTbl[_offset + i];
++
++	/* */
++	/* Calculate Efuse utilization. */
++	/* */
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_BT, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, &total, bPseudoTest);
++	used = (EFUSE_BT_REAL_BANK_CONTENT_LEN * (bank - 1)) + eFuse_Addr - 1;
++	RTW_INFO("%s: bank(%d) data end at %#x ,used =%d\n", __FUNCTION__, bank, eFuse_Addr - 1, used);
++	efuse_usage = (u8)((used * 100) / total);
++	if (bPseudoTest) {
++#ifdef HAL_EFUSE_MEMORY
++		pEfuseHal->fakeBTEfuseUsedBytes = used;
++#else
++		fakeBTEfuseUsedBytes = used;
++#endif
++	} else {
++		rtw_hal_set_hwreg(padapter, HW_VAR_EFUSE_BT_BYTES, (u8 *)&used);
++		rtw_hal_set_hwreg(padapter, HW_VAR_EFUSE_BT_USAGE, (u8 *)&efuse_usage);
++	}
++
++exit:
++	if (efuseTbl)
++		rtw_mfree(efuseTbl, EFUSE_BT_MAP_LEN);
++}
++
++
++static VOID
++rtl8812_ReadEFuse(
++	PADAPTER	Adapter,
++	u8		efuseType,
++	u16		_offset,
++	u16		_size_byte,
++	u8	*pbuf,
++	IN	BOOLEAN	bPseudoTest
++)
++{
++	if (efuseType == EFUSE_WIFI)
++		Hal_EfuseReadEFuse8812A(Adapter, _offset, _size_byte, pbuf, bPseudoTest);
++	else
++		hal_ReadEFuse_BT(Adapter, _offset, _size_byte, pbuf, bPseudoTest);
++}
++
++/* Do not support BT */
++VOID
++Hal_EFUSEGetEfuseDefinition8812A(
++	IN		PADAPTER	pAdapter,
++	IN		u1Byte		efuseType,
++	IN		u1Byte		type,
++	OUT		PVOID		pOut
++)
++{
++	switch (type) {
++	case TYPE_EFUSE_MAX_SECTION: {
++		u8	*pMax_section;
++		pMax_section = (u8 *)pOut;
++		if (efuseType == EFUSE_WIFI)
++			*pMax_section = EFUSE_MAX_SECTION_JAGUAR;
++		else
++			*pMax_section = EFUSE_BT_MAX_SECTION;
++	}
++		break;
++	case TYPE_EFUSE_REAL_CONTENT_LEN: {
++		u16 *pu2Tmp;
++		pu2Tmp = (u16 *)pOut;
++		if (efuseType == EFUSE_WIFI)
++			*pu2Tmp = EFUSE_REAL_CONTENT_LEN_JAGUAR;
++		else
++			*pu2Tmp = EFUSE_BT_REAL_CONTENT_LEN;
++	}
++		break;
++	case TYPE_EFUSE_CONTENT_LEN_BANK: {
++		u16 *pu2Tmp;
++		pu2Tmp = (u16 *)pOut;
++		if (efuseType == EFUSE_WIFI)
++			*pu2Tmp = EFUSE_REAL_CONTENT_LEN_JAGUAR;
++		else
++			*pu2Tmp = EFUSE_BT_REAL_BANK_CONTENT_LEN;
++
++	}
++		break;
++	case TYPE_AVAILABLE_EFUSE_BYTES_BANK: {
++		u16 *pu2Tmp;
++		pu2Tmp = (u16 *)pOut;
++		if (efuseType == EFUSE_WIFI)
++			*pu2Tmp = (u16)(EFUSE_REAL_CONTENT_LEN_JAGUAR - EFUSE_OOB_PROTECT_BYTES_JAGUAR);
++		else
++			*pu2Tmp = (EFUSE_BT_REAL_BANK_CONTENT_LEN - EFUSE_PROTECT_BYTES_BANK);
++	}
++		break;
++	case TYPE_AVAILABLE_EFUSE_BYTES_TOTAL: {
++		u16 *pu2Tmp;
++		pu2Tmp = (u16 *)pOut;
++		if (efuseType == EFUSE_WIFI)
++			*pu2Tmp = (u16)(EFUSE_REAL_CONTENT_LEN_JAGUAR - EFUSE_OOB_PROTECT_BYTES_JAGUAR);
++		else
++			*pu2Tmp = (EFUSE_BT_REAL_CONTENT_LEN - (EFUSE_PROTECT_BYTES_BANK * 3));
++	}
++		break;
++	case TYPE_EFUSE_MAP_LEN: {
++		u16 *pu2Tmp;
++		pu2Tmp = (u16 *)pOut;
++		if (efuseType == EFUSE_WIFI)
++			*pu2Tmp = (u16)EFUSE_MAP_LEN_JAGUAR;
++		else
++			*pu2Tmp = EFUSE_BT_MAP_LEN;
++	}
++		break;
++	case TYPE_EFUSE_PROTECT_BYTES_BANK: {
++		u8 *pu1Tmp;
++		pu1Tmp = (u8 *)pOut;
++		if (efuseType == EFUSE_WIFI)
++			*pu1Tmp = (u8)(EFUSE_OOB_PROTECT_BYTES_JAGUAR);
++		else
++			*pu1Tmp = EFUSE_PROTECT_BYTES_BANK;
++	}
++		break;
++	default: {
++		u8 *pu1Tmp;
++		pu1Tmp = (u8 *)pOut;
++		*pu1Tmp = 0;
++	}
++		break;
++	}
++}
++VOID
++Hal_EFUSEGetEfuseDefinition_Pseudo8812A(
++	IN		PADAPTER	pAdapter,
++	IN		u8			efuseType,
++	IN		u8			type,
++	OUT		PVOID		pOut
++)
++{
++	switch (type) {
++	case TYPE_EFUSE_MAX_SECTION: {
++		u8		*pMax_section;
++		pMax_section = (pu1Byte)pOut;
++		*pMax_section = EFUSE_MAX_SECTION_JAGUAR;
++	}
++		break;
++	case TYPE_EFUSE_REAL_CONTENT_LEN: {
++		u16 *pu2Tmp;
++		pu2Tmp = (pu2Byte)pOut;
++		*pu2Tmp = EFUSE_REAL_CONTENT_LEN_JAGUAR;
++	}
++		break;
++	case TYPE_EFUSE_CONTENT_LEN_BANK: {
++		u16 *pu2Tmp;
++		pu2Tmp = (pu2Byte)pOut;
++		*pu2Tmp = EFUSE_REAL_CONTENT_LEN_JAGUAR;
++	}
++		break;
++	case TYPE_AVAILABLE_EFUSE_BYTES_BANK: {
++		u16 *pu2Tmp;
++		pu2Tmp = (pu2Byte)pOut;
++		*pu2Tmp = (u2Byte)(EFUSE_REAL_CONTENT_LEN_JAGUAR - EFUSE_OOB_PROTECT_BYTES_JAGUAR);
++	}
++		break;
++	case TYPE_AVAILABLE_EFUSE_BYTES_TOTAL: {
++		u16 *pu2Tmp;
++		pu2Tmp = (pu2Byte)pOut;
++		*pu2Tmp = (u2Byte)(EFUSE_REAL_CONTENT_LEN_JAGUAR - EFUSE_OOB_PROTECT_BYTES_JAGUAR);
++	}
++		break;
++	case TYPE_EFUSE_MAP_LEN: {
++		u16 *pu2Tmp;
++		pu2Tmp = (pu2Byte)pOut;
++		*pu2Tmp = (u2Byte)EFUSE_MAP_LEN_JAGUAR;
++	}
++		break;
++	case TYPE_EFUSE_PROTECT_BYTES_BANK: {
++		u8 *pu1Tmp;
++		pu1Tmp = (u8 *)pOut;
++		*pu1Tmp = (u8)(EFUSE_OOB_PROTECT_BYTES_JAGUAR);
++	}
++		break;
++	default: {
++		u8 *pu1Tmp;
++		pu1Tmp = (u8 *)pOut;
++		*pu1Tmp = 0;
++	}
++		break;
++	}
++}
++
++
++static VOID
++rtl8812_EFUSE_GetEfuseDefinition(
++	IN		PADAPTER	pAdapter,
++	IN		u8		efuseType,
++	IN		u8		type,
++	OUT		void		*pOut,
++	IN		BOOLEAN		bPseudoTest
++)
++{
++	if (bPseudoTest)
++		Hal_EFUSEGetEfuseDefinition_Pseudo8812A(pAdapter, efuseType, type, pOut);
++	else
++		Hal_EFUSEGetEfuseDefinition8812A(pAdapter, efuseType, type, pOut);
++}
++
++static u8
++Hal_EfuseWordEnableDataWrite8812A(IN	PADAPTER	pAdapter,
++				  IN	u16		efuse_addr,
++				  IN	u8		word_en,
++				  IN	u8		*data,
++				  IN	BOOLEAN		bPseudoTest)
++{
++	u16	tmpaddr = 0;
++	u16	start_addr = efuse_addr;
++	u8	badworden = 0x0F;
++	u8	tmpdata[8];
++
++	_rtw_memset((PVOID)tmpdata, 0xff, PGPKT_DATA_SIZE);
++
++	if (!(word_en & BIT0)) {
++		tmpaddr = start_addr;
++		efuse_OneByteWrite(pAdapter, start_addr++, data[0], bPseudoTest);
++		efuse_OneByteWrite(pAdapter, start_addr++, data[1], bPseudoTest);
++
++		efuse_OneByteRead(pAdapter, tmpaddr, &tmpdata[0], bPseudoTest);
++		efuse_OneByteRead(pAdapter, tmpaddr + 1, &tmpdata[1], bPseudoTest);
++		if ((data[0] != tmpdata[0]) || (data[1] != tmpdata[1]))
++			badworden &= (~BIT0);
++	}
++	if (!(word_en & BIT1)) {
++		tmpaddr = start_addr;
++		efuse_OneByteWrite(pAdapter, start_addr++, data[2], bPseudoTest);
++		efuse_OneByteWrite(pAdapter, start_addr++, data[3], bPseudoTest);
++
++		efuse_OneByteRead(pAdapter, tmpaddr    , &tmpdata[2], bPseudoTest);
++		efuse_OneByteRead(pAdapter, tmpaddr + 1, &tmpdata[3], bPseudoTest);
++		if ((data[2] != tmpdata[2]) || (data[3] != tmpdata[3]))
++			badworden &= (~BIT1);
++	}
++	if (!(word_en & BIT2)) {
++		tmpaddr = start_addr;
++		efuse_OneByteWrite(pAdapter, start_addr++, data[4], bPseudoTest);
++		efuse_OneByteWrite(pAdapter, start_addr++, data[5], bPseudoTest);
++
++		efuse_OneByteRead(pAdapter, tmpaddr, &tmpdata[4], bPseudoTest);
++		efuse_OneByteRead(pAdapter, tmpaddr + 1, &tmpdata[5], bPseudoTest);
++		if ((data[4] != tmpdata[4]) || (data[5] != tmpdata[5]))
++			badworden &= (~BIT2);
++	}
++	if (!(word_en & BIT3)) {
++		tmpaddr = start_addr;
++		efuse_OneByteWrite(pAdapter, start_addr++, data[6], bPseudoTest);
++		efuse_OneByteWrite(pAdapter, start_addr++, data[7], bPseudoTest);
++
++		efuse_OneByteRead(pAdapter, tmpaddr, &tmpdata[6], bPseudoTest);
++		efuse_OneByteRead(pAdapter, tmpaddr + 1, &tmpdata[7], bPseudoTest);
++		if ((data[6] != tmpdata[6]) || (data[7] != tmpdata[7]))
++			badworden &= (~BIT3);
++	}
++	return badworden;
++}
++
++static u8
++rtl8812_Efuse_WordEnableDataWrite(IN	PADAPTER	pAdapter,
++				  IN	u16		efuse_addr,
++				  IN	u8		word_en,
++				  IN	u8		*data,
++				  IN	BOOLEAN		bPseudoTest)
++{
++	u8	ret = 0;
++
++	ret = Hal_EfuseWordEnableDataWrite8812A(pAdapter, efuse_addr, word_en, data, bPseudoTest);
++
++	return ret;
++}
++
++
++static u16
++hal_EfuseGetCurrentSize_8812A(IN	PADAPTER	pAdapter,
++			      IN		BOOLEAN			bPseudoTest)
++{
++	int	bContinual = _TRUE;
++
++	u16	efuse_addr = 0;
++	u8	hoffset = 0, hworden = 0;
++	u8	efuse_data, word_cnts = 0;
++
++	if (bPseudoTest)
++		efuse_addr = (u16)(fakeEfuseUsedBytes);
++	else
++		rtw_hal_get_hwreg(pAdapter, HW_VAR_EFUSE_BYTES, (u8 *)&efuse_addr);
++	/* RTPRINT(FEEPROM, EFUSE_PG, ("hal_EfuseGetCurrentSize_8723A(), start_efuse_addr = %d\n", efuse_addr)); */
++
++	while (bContinual &&
++	       efuse_OneByteRead(pAdapter, efuse_addr , &efuse_data, bPseudoTest) &&
++	       (efuse_addr  < EFUSE_REAL_CONTENT_LEN_JAGUAR)) {
++		if (efuse_data != 0xFF) {
++			if ((efuse_data & 0x1F) == 0x0F) {	/* extended header */
++				hoffset = efuse_data;
++				efuse_addr++;
++				efuse_OneByteRead(pAdapter, efuse_addr , &efuse_data, bPseudoTest);
++				if ((efuse_data & 0x0F) == 0x0F) {
++					efuse_addr++;
++					continue;
++				} else {
++					hoffset = ((hoffset & 0xE0) >> 5) | ((efuse_data & 0xF0) >> 1);
++					hworden = efuse_data & 0x0F;
++				}
++			} else {
++				hoffset = (efuse_data >> 4) & 0x0F;
++				hworden =  efuse_data & 0x0F;
++			}
++			word_cnts = Efuse_CalculateWordCnts(hworden);
++			/* read next header */
++			efuse_addr = efuse_addr + (word_cnts * 2) + 1;
++		} else
++			bContinual = _FALSE ;
++	}
++
++	if (bPseudoTest) {
++		fakeEfuseUsedBytes = efuse_addr;
++		/* RTPRINT(FEEPROM, EFUSE_PG, ("hal_EfuseGetCurrentSize_8723A(), return %d\n", fakeEfuseUsedBytes)); */
++	} else {
++		rtw_hal_set_hwreg(pAdapter, HW_VAR_EFUSE_BYTES, (u8 *)&efuse_addr);
++		/* RTPRINT(FEEPROM, EFUSE_PG, ("hal_EfuseGetCurrentSize_8723A(), return %d\n", efuse_addr)); */
++	}
++
++	return efuse_addr;
++}
++
++static u16
++hal_EfuseGetCurrentSize_BT(
++	PADAPTER	padapter,
++	u8			bPseudoTest)
++{
++#ifdef HAL_EFUSE_MEMORY
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	PEFUSE_HAL		pEfuseHal = &pHalData->EfuseHal;
++#endif
++	u16 btusedbytes;
++	u16	efuse_addr;
++	u8	bank, startBank;
++	u8	hoffset = 0, hworden = 0;
++	u8	efuse_data, word_cnts = 0;
++	u16	retU2 = 0;
++	u8 bContinual = _TRUE;
++
++
++	if (bPseudoTest) {
++#ifdef HAL_EFUSE_MEMORY
++		btusedbytes = pEfuseHal->fakeBTEfuseUsedBytes;
++#else
++		btusedbytes = fakeBTEfuseUsedBytes;
++#endif
++	} else {
++		btusedbytes = 0;
++		rtw_hal_get_hwreg(padapter, HW_VAR_EFUSE_BT_BYTES, (u8 *)&btusedbytes);
++	}
++	efuse_addr = (u16)((btusedbytes % EFUSE_BT_REAL_BANK_CONTENT_LEN));
++	startBank = (u8)(1 + (btusedbytes / EFUSE_BT_REAL_BANK_CONTENT_LEN));
++
++	RTW_INFO("%s: start from bank=%d addr=0x%X\n", __FUNCTION__, startBank, efuse_addr);
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_BT, TYPE_AVAILABLE_EFUSE_BYTES_BANK, &retU2, bPseudoTest);
++
++	for (bank = startBank; bank < 3; bank++) {
++		if (hal_EfuseSwitchToBank(padapter, bank, bPseudoTest) == _FALSE) {
++			RTW_INFO(KERN_ERR "%s: switch bank(%d) Fail!!\n", __FUNCTION__, bank);
++			/* bank = EFUSE_MAX_BANK; */
++			break;
++		}
++
++		/* only when bank is switched we have to reset the efuse_addr. */
++		if (bank != startBank)
++			efuse_addr = 0;
++
++		while (AVAILABLE_EFUSE_ADDR(efuse_addr)) {
++			if (efuse_OneByteRead(padapter, efuse_addr, &efuse_data, bPseudoTest) == _FALSE) {
++				RTW_INFO(KERN_ERR "%s: efuse_OneByteRead Fail! addr=0x%X !!\n", __FUNCTION__, efuse_addr);
++				/* bank = EFUSE_MAX_BANK; */
++				break;
++			}
++			RTW_INFO("%s: efuse_OneByteRead ! addr=0x%X !efuse_data=0x%X! bank =%d\n", __FUNCTION__, efuse_addr, efuse_data, bank);
++
++			if (efuse_data == 0xFF)
++				break;
++
++			if (EXT_HEADER(efuse_data)) {
++				hoffset = GET_HDR_OFFSET_2_0(efuse_data);
++				efuse_addr++;
++				efuse_OneByteRead(padapter, efuse_addr, &efuse_data, bPseudoTest);
++				RTW_INFO("%s: efuse_OneByteRead EXT_HEADER ! addr=0x%X !efuse_data=0x%X! bank =%d\n", __FUNCTION__, efuse_addr, efuse_data, bank);
++
++				if (ALL_WORDS_DISABLED(efuse_data)) {
++					efuse_addr++;
++					continue;
++				}
++
++				/*				hoffset = ((hoffset & 0xE0) >> 5) | ((efuse_data & 0xF0) >> 1); */
++				hoffset |= ((efuse_data & 0xF0) >> 1);
++				hworden = efuse_data & 0x0F;
++			} else {
++				hoffset = (efuse_data >> 4) & 0x0F;
++				hworden =  efuse_data & 0x0F;
++			}
++
++			RTW_INFO(FUNC_ADPT_FMT": Offset=%d Worden=%#X\n",
++				 FUNC_ADPT_ARG(padapter), hoffset, hworden);
++
++			word_cnts = Efuse_CalculateWordCnts(hworden);
++			/* read next header */
++			efuse_addr += (word_cnts * 2) + 1;
++		}
++		/* Check if we need to check next bank efuse */
++		if (efuse_addr < retU2)
++			break;/* don't need to check next bank. */
++	}
++
++	retU2 = ((bank - 1) * EFUSE_BT_REAL_BANK_CONTENT_LEN) + efuse_addr;
++	if (bPseudoTest) {
++		pEfuseHal->fakeBTEfuseUsedBytes = retU2;
++		/* RT_DISP(FEEPROM, EFUSE_PG, ("Hal_EfuseGetCurrentSize_BT92C(), already use %u bytes\n", pEfuseHal->fakeBTEfuseUsedBytes)); */
++	} else {
++		pEfuseHal->BTEfuseUsedBytes = retU2;
++		/* RT_DISP(FEEPROM, EFUSE_PG, ("Hal_EfuseGetCurrentSize_BT92C(), already use %u bytes\n", pEfuseHal->BTEfuseUsedBytes)); */
++	}
++
++	RTW_INFO("%s: CurrentSize=%d\n", __FUNCTION__, retU2);
++	return retU2;
++}
++
++
++static u16
++rtl8812_EfuseGetCurrentSize(
++	IN	PADAPTER	pAdapter,
++	IN	u8			efuseType,
++	IN	BOOLEAN		bPseudoTest)
++{
++	u16	ret = 0;
++
++	if (efuseType == EFUSE_WIFI)
++		ret = hal_EfuseGetCurrentSize_8812A(pAdapter, bPseudoTest);
++	else
++		ret = hal_EfuseGetCurrentSize_BT(pAdapter, bPseudoTest);
++
++	return ret;
++}
++
++
++static int
++hal_EfusePgPacketRead_8812A(
++	IN	PADAPTER	pAdapter,
++	IN	u8			offset,
++	IN	u8			*data,
++	IN	BOOLEAN		bPseudoTest)
++{
++	u8	ReadState = PG_STATE_HEADER;
++
++	int	bContinual = _TRUE;
++	int	bDataEmpty = _TRUE ;
++
++	u8	efuse_data, word_cnts = 0;
++	u16	efuse_addr = 0;
++	u8	hoffset = 0, hworden = 0;
++	u8	tmpidx = 0;
++	u8	tmpdata[8];
++	u8	max_section = 0;
++	u8	tmp_header = 0;
++
++	if (data == NULL)
++		return _FALSE;
++	if (offset > EFUSE_MAX_SECTION_JAGUAR)
++		return _FALSE;
++
++	_rtw_memset((PVOID)data, 0xff, sizeof(u8) * PGPKT_DATA_SIZE);
++	_rtw_memset((PVOID)tmpdata, 0xff, sizeof(u8) * PGPKT_DATA_SIZE);
++
++
++	/*  */
++	/* <Roger_TODO> Efuse has been pre-programmed dummy 5Bytes at the end of Efuse by CP. */
++	/* Skip dummy parts to prevent unexpected data read from Efuse. */
++	/* By pass right now. 2009.02.19. */
++	/*  */
++	while (bContinual && (efuse_addr  < EFUSE_REAL_CONTENT_LEN_JAGUAR)) {
++		/* -------  Header Read ------------- */
++		if (ReadState & PG_STATE_HEADER) {
++			if (efuse_OneByteRead(pAdapter, efuse_addr , &efuse_data, bPseudoTest) && (efuse_data != 0xFF)) {
++				if (EXT_HEADER(efuse_data)) {
++					tmp_header = efuse_data;
++					efuse_addr++;
++					efuse_OneByteRead(pAdapter, efuse_addr , &efuse_data, bPseudoTest);
++					if (!ALL_WORDS_DISABLED(efuse_data)) {
++						hoffset = ((tmp_header & 0xE0) >> 5) | ((efuse_data & 0xF0) >> 1);
++						hworden = efuse_data & 0x0F;
++					} else {
++						RTW_INFO("Error, All words disabled\n");
++						efuse_addr++;
++						break;
++					}
++				} else {
++					hoffset = (efuse_data >> 4) & 0x0F;
++					hworden =  efuse_data & 0x0F;
++				}
++				word_cnts = Efuse_CalculateWordCnts(hworden);
++				bDataEmpty = _TRUE ;
++
++				if (hoffset == offset) {
++					for (tmpidx = 0; tmpidx < word_cnts * 2 ; tmpidx++) {
++						if (efuse_OneByteRead(pAdapter, efuse_addr + 1 + tmpidx , &efuse_data, bPseudoTest)) {
++							tmpdata[tmpidx] = efuse_data;
++							if (efuse_data != 0xff)
++								bDataEmpty = _FALSE;
++						}
++					}
++					if (bDataEmpty == _FALSE)
++						ReadState = PG_STATE_DATA;
++					else { /* read next header */
++						efuse_addr = efuse_addr + (word_cnts * 2) + 1;
++						ReadState = PG_STATE_HEADER;
++					}
++				} else { /* read next header */
++					efuse_addr = efuse_addr + (word_cnts * 2) + 1;
++					ReadState = PG_STATE_HEADER;
++				}
++
++			} else
++				bContinual = _FALSE ;
++		}
++		/* -------  Data section Read ------------- */
++		else if (ReadState & PG_STATE_DATA) {
++			efuse_WordEnableDataRead(hworden, tmpdata, data);
++			efuse_addr = efuse_addr + (word_cnts * 2) + 1;
++			ReadState = PG_STATE_HEADER;
++		}
++
++	}
++
++	if ((data[0] == 0xff) && (data[1] == 0xff) && (data[2] == 0xff)  && (data[3] == 0xff) &&
++	    (data[4] == 0xff) && (data[5] == 0xff) && (data[6] == 0xff)  && (data[7] == 0xff))
++		return _FALSE;
++	else
++		return _TRUE;
++
++}
++
++static int
++rtl8812_Efuse_PgPacketRead(IN	PADAPTER	pAdapter,
++			   IN	u8			offset,
++			   IN	u8			*data,
++			   IN	BOOLEAN		bPseudoTest)
++{
++	int	ret = 0;
++
++	ret = hal_EfusePgPacketRead_8812A(pAdapter, offset, data, bPseudoTest);
++
++	return ret;
++}
++
++int
++hal_EfusePgPacketWrite_8812A(IN	PADAPTER	pAdapter,
++			     IN	u8			offset,
++			     IN	u8			word_en,
++			     IN	u8			*data,
++			     IN	BOOLEAN		bPseudoTest)
++{
++	u8 WriteState = PG_STATE_HEADER;
++
++	int bContinual = _TRUE, bDataEmpty = _TRUE;
++	/* int bResult = _TRUE; */
++	u16	efuse_addr = 0;
++	u8	efuse_data;
++
++	u8	pg_header = 0, pg_header_temp = 0;
++
++	u8	tmp_word_cnts = 0, target_word_cnts = 0;
++	u8	tmp_header, match_word_en, tmp_word_en;
++
++	PGPKT_STRUCT target_pkt;
++	PGPKT_STRUCT tmp_pkt;
++
++	u8	originaldata[sizeof(u8) * 8];
++	u8	tmpindex = 0, badworden = 0x0F;
++
++	static int	repeat_times = 0;
++
++	BOOLEAN		bExtendedHeader = _FALSE;
++	u8	efuseType = EFUSE_WIFI;
++
++	/*  */
++	/* <Roger_Notes> Efuse has been pre-programmed dummy 5Bytes at the end of Efuse by CP. */
++	/* So we have to prevent unexpected data string connection, which will cause */
++	/* incorrect data auto-load from HW. The total size is equal or smaller than 498bytes */
++	/* (i.e., offset 0~497, and dummy 1bytes) expected after CP test. */
++	/* 2009.02.19. */
++	/*  */
++	if (Efuse_GetCurrentSize(pAdapter, efuseType, bPseudoTest) >= (EFUSE_REAL_CONTENT_LEN_JAGUAR - EFUSE_OOB_PROTECT_BYTES_JAGUAR)) {
++		RTW_INFO("hal_EfusePgPacketWrite_8812A() error: %x >= %x\n", Efuse_GetCurrentSize(pAdapter, efuseType, bPseudoTest), (EFUSE_REAL_CONTENT_LEN_JAGUAR - EFUSE_OOB_PROTECT_BYTES_JAGUAR));
++		return _FALSE;
++	}
++
++	/* Init the 8 bytes content as 0xff */
++	target_pkt.offset = offset;
++	target_pkt.word_en = word_en;
++	/* Initial the value to avoid compile warning */
++	tmp_pkt.offset = 0;
++	tmp_pkt.word_en = 0;
++
++	/* RTW_INFO("hal_EfusePgPacketWrite_8812A target offset 0x%x word_en 0x%x\n", target_pkt.offset, target_pkt.word_en); */
++
++	_rtw_memset((PVOID)target_pkt.data, 0xFF, sizeof(u8) * 8);
++
++	efuse_WordEnableDataRead(word_en, data, target_pkt.data);
++	target_word_cnts = Efuse_CalculateWordCnts(target_pkt.word_en);
++
++	/* efuse_reg_ctrl(pAdapter,_TRUE); */ /* power on */
++	/* RTW_INFO("EFUSE Power ON\n"); */
++
++	/*  */
++	/* <Roger_Notes> Efuse has been pre-programmed dummy 5Bytes at the end of Efuse by CP. */
++	/* So we have to prevent unexpected data string connection, which will cause */
++	/* incorrect data auto-load from HW. Dummy 1bytes is additional. */
++	/* 2009.02.19. */
++	/*  */
++	while (bContinual && (efuse_addr  < (EFUSE_REAL_CONTENT_LEN_JAGUAR - EFUSE_OOB_PROTECT_BYTES_JAGUAR))) {
++		if (WriteState == PG_STATE_HEADER) {
++			bDataEmpty = _TRUE;
++			badworden = 0x0F;
++			/* ************	so ******************* */
++			/* RTW_INFO("EFUSE PG_STATE_HEADER\n"); */
++			if (efuse_OneByteRead(pAdapter, efuse_addr , &efuse_data, bPseudoTest) &&
++			    (efuse_data != 0xFF)) {
++				if ((efuse_data & 0x1F) == 0x0F) {	/* extended header */
++					tmp_header = efuse_data;
++					efuse_addr++;
++					efuse_OneByteRead(pAdapter, efuse_addr , &efuse_data, bPseudoTest);
++					if ((efuse_data & 0x0F) == 0x0F) { /* wren fail */
++						u8 next = 0, next_next = 0, data = 0, i = 0;
++						u8 s = ((tmp_header & 0xF0) >> 4);
++						efuse_OneByteRead(pAdapter, efuse_addr + 1, &next, bPseudoTest);
++						efuse_OneByteRead(pAdapter, efuse_addr + 2, &next_next, bPseudoTest);
++						if (next == 0xFF && next_next == 0xFF) { /* Have enough space to make fake data to recover bad header. */
++							switch (s) {
++							case 0x0:
++							case 0x2:
++							case 0x4:
++							case 0x6:
++							case 0x8:
++							case 0xA:
++							case 0xC:
++								for (i = 0; i < 3; ++i) {
++									efuse_OneByteWrite(pAdapter, efuse_addr, 0x27, bPseudoTest);
++									efuse_OneByteRead(pAdapter, efuse_addr, &data, bPseudoTest);
++									if (data == 0x27)
++										break;
++								}
++								break;
++							case 0xE:
++								for (i = 0; i < 3; ++i) {
++									efuse_OneByteWrite(pAdapter, efuse_addr, 0x17, bPseudoTest);
++									efuse_OneByteRead(pAdapter, efuse_addr, &data, bPseudoTest);
++									if (data == 0x17)
++										break;
++								}
++								break;
++							default:
++								break;
++							}
++							efuse_OneByteWrite(pAdapter, efuse_addr + 1, 0xFF, bPseudoTest);
++							efuse_OneByteWrite(pAdapter, efuse_addr + 2, 0xFF, bPseudoTest);
++							efuse_addr += 3;
++						} else
++							efuse_addr++;
++						continue;
++					} else {
++						tmp_pkt.offset = ((tmp_header & 0xE0) >> 5) | ((efuse_data & 0xF0) >> 1);
++						tmp_pkt.word_en = efuse_data & 0x0F;
++					}
++				} else {
++					u8 i = 0, data = 0;
++					tmp_header	=  efuse_data;
++					tmp_pkt.offset	= (tmp_header >> 4) & 0x0F;
++					tmp_pkt.word_en = tmp_header & 0x0F;
++
++					if (tmp_pkt.word_en == 0xF) {
++						u8 next = 0;
++						efuse_OneByteRead(pAdapter, efuse_addr + 1, &next, bPseudoTest);
++						if (next == 0xFF) { /* Have enough space to make fake data to recover bad header. */
++							tmp_header = (tmp_header & 0xF0) | 0x7;
++							for (i = 0; i < 3; ++i) {
++								efuse_OneByteWrite(pAdapter, efuse_addr, tmp_header, bPseudoTest);
++								efuse_OneByteRead(pAdapter, efuse_addr, &data, bPseudoTest);
++								if (data == tmp_header)
++									break;
++							}
++							efuse_OneByteWrite(pAdapter, efuse_addr + 1, 0xFF, bPseudoTest);
++							efuse_OneByteWrite(pAdapter, efuse_addr + 2, 0xFF, bPseudoTest);
++							efuse_addr += 2;
++						}
++					}
++				}
++				tmp_word_cnts =  Efuse_CalculateWordCnts(tmp_pkt.word_en);
++
++				/* RTW_INFO("section offset 0x%x worden 0x%x\n", tmp_pkt.offset, tmp_pkt.word_en); */
++
++				/* ************	so-1 ******************* */
++				if (tmp_pkt.offset  != target_pkt.offset) {
++					efuse_addr = efuse_addr + (tmp_word_cnts * 2) + 1; /* Next pg_packet */
++#if (EFUSE_ERROE_HANDLE == 1)
++					WriteState = PG_STATE_HEADER;
++#endif
++				} else {	/* write the same offset */
++					/* RTW_INFO("hal_EfusePgPacketWrite_8812A section offset the same\n"); */
++					/* ************	so-2 ******************* */
++					for (tmpindex = 0 ; tmpindex < (tmp_word_cnts * 2) ; tmpindex++) {
++						if (efuse_OneByteRead(pAdapter, (efuse_addr + 1 + tmpindex) , &efuse_data, bPseudoTest) && (efuse_data != 0xFF))
++							bDataEmpty = _FALSE;
++					}
++					/* ************	so-2-1 ******************* */
++					if (bDataEmpty == _FALSE) {
++						/* RTW_INFO("hal_EfusePgPacketWrite_8812A section offset the same and data is NOT empty\n"); */
++
++						efuse_addr = efuse_addr + (tmp_word_cnts * 2) + 1; /* Next pg_packet										 */
++#if (EFUSE_ERROE_HANDLE == 1)
++						WriteState = PG_STATE_HEADER;
++#endif
++					} else {
++						/* ************  so-2-2 ******************* */
++						/* RTW_INFO("hal_EfusePgPacketWrite_8812A section data empty\n"); */
++						match_word_en = 0x0F;			/* same bit as original wren */
++						if (!((target_pkt.word_en & BIT0) | (tmp_pkt.word_en & BIT0)))
++							match_word_en &= (~BIT0);
++						if (!((target_pkt.word_en & BIT1) | (tmp_pkt.word_en & BIT1)))
++							match_word_en &= (~BIT1);
++						if (!((target_pkt.word_en & BIT2) | (tmp_pkt.word_en & BIT2)))
++							match_word_en &= (~BIT2);
++						if (!((target_pkt.word_en & BIT3) | (tmp_pkt.word_en & BIT3)))
++							match_word_en &= (~BIT3);
++
++						/* ************	so-2-2-A ******************* */
++						if ((match_word_en & 0x0F) != 0x0F) {
++							badworden = Efuse_WordEnableDataWrite(pAdapter, efuse_addr + 1, tmp_pkt.word_en , target_pkt.data, bPseudoTest);
++
++							/* ************	so-2-2-A-1 ******************* */
++							/* ############################ */
++							if (0x0F != (badworden & 0x0F)) {
++								u8	reorg_offset = offset;
++								u8	reorg_worden = badworden;
++								Efuse_PgPacketWrite(pAdapter, reorg_offset, reorg_worden, target_pkt.data, bPseudoTest);
++							}
++							/* ############################ */
++
++							tmp_word_en = 0x0F;	/* not the same bit as original wren */
++							if ((target_pkt.word_en & BIT0) ^ (match_word_en & BIT0))
++								tmp_word_en &= (~BIT0);
++							if ((target_pkt.word_en & BIT1) ^ (match_word_en & BIT1))
++								tmp_word_en &=	(~BIT1);
++							if ((target_pkt.word_en & BIT2) ^ (match_word_en & BIT2))
++								tmp_word_en &= (~BIT2);
++							if ((target_pkt.word_en & BIT3) ^ (match_word_en & BIT3))
++								tmp_word_en &= (~BIT3);
++
++							/* ************	so-2-2-A-2 *******************	 */
++							if ((tmp_word_en & 0x0F) != 0x0F) {
++								/* reorganize other pg packet
++								* efuse_addr = efuse_addr + (2*tmp_word_cnts) +1; */ /* next pg packet addr							 */
++								efuse_addr = Efuse_GetCurrentSize(pAdapter, efuseType, bPseudoTest);
++								/* =========================== */
++								target_pkt.offset = offset;
++								target_pkt.word_en = tmp_word_en;
++								/* =========================== */
++							} else
++								bContinual = _FALSE;
++#if (EFUSE_ERROE_HANDLE == 1)
++							WriteState = PG_STATE_HEADER;
++							repeat_times++;
++							if (repeat_times > EFUSE_REPEAT_THRESHOLD_) {
++								bContinual = _FALSE;
++								/* bResult = _FALSE; */
++							}
++#endif
++						} else { /* ************  so-2-2-B ******************* */
++							/* reorganize other pg packet						 */
++							efuse_addr = efuse_addr + (2 * tmp_word_cnts) + 1; /* next pg packet addr							 */
++							/* =========================== */
++							target_pkt.offset = offset;
++							/* target_pkt.word_en= target_pkt.word_en;				 */
++							/* ===========================			 */
++#if (EFUSE_ERROE_HANDLE == 1)
++							WriteState = PG_STATE_HEADER;
++#endif
++						}
++					}
++				}
++				RTW_INFO("EFUSE PG_STATE_HEADER-1\n");
++			} else {	/* ************	s1: header == oxff	******************* */
++				bExtendedHeader = _FALSE;
++
++				if (target_pkt.offset >= EFUSE_MAX_SECTION_BASE) {
++					pg_header = ((target_pkt.offset & 0x07) << 5) | 0x0F;
++
++					/* RTW_INFO("hal_EfusePgPacketWrite_8812A extended pg_header[2:0] |0x0F 0x%x\n", pg_header); */
++
++					efuse_OneByteWrite(pAdapter, efuse_addr, pg_header, bPseudoTest);
++					efuse_OneByteRead(pAdapter, efuse_addr, &tmp_header, bPseudoTest);
++
++					while (tmp_header == 0xFF) {
++						/* RTW_INFO("hal_EfusePgPacketWrite_8812A extended pg_header[2:0] wirte fail\n"); */
++
++						repeat_times++;
++
++						if (repeat_times > EFUSE_REPEAT_THRESHOLD_) {
++							bContinual = _FALSE;
++							/* bResult = _FALSE; */
++							efuse_addr++;
++							break;
++						}
++						efuse_OneByteWrite(pAdapter, efuse_addr, pg_header, bPseudoTest);
++						efuse_OneByteRead(pAdapter, efuse_addr, &tmp_header, bPseudoTest);
++					}
++
++					if (!bContinual)
++						break;
++
++					if (tmp_header == pg_header) {
++						efuse_addr++;
++						pg_header_temp = pg_header;
++						pg_header = ((target_pkt.offset & 0x78) << 1) | target_pkt.word_en;
++
++						/* RTW_INFO("hal_EfusePgPacketWrite_8812A extended pg_header[6:3] | worden 0x%x word_en 0x%x\n", pg_header, target_pkt.word_en); */
++
++						efuse_OneByteWrite(pAdapter, efuse_addr, pg_header, bPseudoTest);
++						efuse_OneByteRead(pAdapter, efuse_addr, &tmp_header, bPseudoTest);
++
++						while (tmp_header == 0xFF) {
++							repeat_times++;
++
++							if (repeat_times > EFUSE_REPEAT_THRESHOLD_) {
++								bContinual = _FALSE;
++								/* bResult = _FALSE; */
++								break;
++							}
++							efuse_OneByteWrite(pAdapter, efuse_addr, pg_header, bPseudoTest);
++							efuse_OneByteRead(pAdapter, efuse_addr, &tmp_header, bPseudoTest);
++						}
++
++						if (!bContinual)
++							break;
++
++						if ((tmp_header & 0x0F) == 0x0F) { /* wren PG fail */
++							repeat_times++;
++
++							if (repeat_times > EFUSE_REPEAT_THRESHOLD_) {
++								bContinual = _FALSE;
++								/* bResult = _FALSE; */
++								break;
++							} else {
++								efuse_addr++;
++								continue;
++							}
++						} else if (pg_header != tmp_header) {	/* offset PG fail						 */
++							bExtendedHeader = _TRUE;
++							tmp_pkt.offset = ((pg_header_temp & 0xE0) >> 5) | ((tmp_header & 0xF0) >> 1);
++							tmp_pkt.word_en =  tmp_header & 0x0F;
++							tmp_word_cnts =  Efuse_CalculateWordCnts(tmp_pkt.word_en);
++						}
++					} else if ((tmp_header & 0x1F) == 0x0F) {	/* wrong extended header */
++						efuse_addr += 2;
++						continue;
++					}
++				} else {
++					pg_header = ((target_pkt.offset << 4) & 0xf0) | target_pkt.word_en;
++					efuse_OneByteWrite(pAdapter, efuse_addr, pg_header, bPseudoTest);
++					efuse_OneByteRead(pAdapter, efuse_addr, &tmp_header, bPseudoTest);
++				}
++
++				if (tmp_header == pg_header) {
++					/* ************  s1-1*******************								 */
++					WriteState = PG_STATE_DATA;
++				}
++#if (EFUSE_ERROE_HANDLE == 1)
++				else if (tmp_header == 0xFF) { /* ************	s1-3: if Write or read func doesn't work *******************		 */
++					/* efuse_addr doesn't change */
++					WriteState = PG_STATE_HEADER;
++					repeat_times++;
++					if (repeat_times > EFUSE_REPEAT_THRESHOLD_) {
++						bContinual = _FALSE;
++						/* bResult = _FALSE; */
++					}
++				}
++#endif
++				else {
++					/* ************  s1-2 : fixed the header procedure *******************							 */
++					if (!bExtendedHeader) {
++						tmp_pkt.offset = (tmp_header >> 4) & 0x0F;
++						tmp_pkt.word_en =  tmp_header & 0x0F;
++						tmp_word_cnts =  Efuse_CalculateWordCnts(tmp_pkt.word_en);
++					}
++
++					/* ************	s1-2-A :cover the exist data ******************* */
++					_rtw_memset(originaldata, 0xff, sizeof(u8) * 8);
++
++					if (Efuse_PgPacketRead(pAdapter, tmp_pkt.offset, originaldata, bPseudoTest)) {
++						/* check if data exist					 */
++						/* efuse_reg_ctrl(pAdapter,_TRUE); */ /* power on */
++						badworden = Efuse_WordEnableDataWrite(pAdapter, efuse_addr + 1, tmp_pkt.word_en, originaldata, bPseudoTest);
++						/* ############################ */
++						if (0x0F != (badworden & 0x0F)) {
++							u8	reorg_offset = tmp_pkt.offset;
++							u8	reorg_worden = badworden;
++							Efuse_PgPacketWrite(pAdapter, reorg_offset, reorg_worden, originaldata, bPseudoTest);
++							efuse_addr = Efuse_GetCurrentSize(pAdapter, efuseType, bPseudoTest);
++						}
++						/* ############################ */
++						else {
++							efuse_addr = efuse_addr + (tmp_word_cnts * 2) + 1; /* Next pg_packet							 */
++						}
++					}
++					/* ************  s1-2-B: wrong address******************* */
++					else {
++						efuse_addr = efuse_addr + (tmp_word_cnts * 2) + 1; /* Next pg_packet */
++					}
++
++#if (EFUSE_ERROE_HANDLE == 1)
++					WriteState = PG_STATE_HEADER;
++					repeat_times++;
++					if (repeat_times > EFUSE_REPEAT_THRESHOLD_) {
++						bContinual = _FALSE;
++						/* bResult = _FALSE; */
++					}
++#endif
++
++					/* RTW_INFO("EFUSE PG_STATE_HEADER-2\n"); */
++				}
++
++			}
++
++		}
++		/* write data state */
++		else if (WriteState == PG_STATE_DATA) {
++			/* ************	s1-1  ******************* */
++			/* RTW_INFO("EFUSE PG_STATE_DATA\n"); */
++			badworden = 0x0f;
++			badworden = Efuse_WordEnableDataWrite(pAdapter, efuse_addr + 1, target_pkt.word_en, target_pkt.data, bPseudoTest);
++			if ((badworden & 0x0F) == 0x0F) {
++				/* ************  s1-1-A ******************* */
++				bContinual = _FALSE;
++			} else {
++				/* reorganize other pg packet */ /* ************  s1-1-B ******************* */
++				efuse_addr = efuse_addr + (2 * target_word_cnts) + 1; /* next pg packet addr */
++
++				/* =========================== */
++				target_pkt.offset = offset;
++				target_pkt.word_en = badworden;
++				target_word_cnts = Efuse_CalculateWordCnts(target_pkt.word_en);
++				/* ===========================			 */
++#if (EFUSE_ERROE_HANDLE == 1)
++				WriteState = PG_STATE_HEADER;
++				repeat_times++;
++				if (repeat_times > EFUSE_REPEAT_THRESHOLD_) {
++					bContinual = _FALSE;
++					/* bResult = _FALSE; */
++				}
++#endif
++				/* RTW_INFO("EFUSE PG_STATE_HEADER-3\n"); */
++			}
++		}
++	}
++
++	if (efuse_addr  >= (EFUSE_REAL_CONTENT_LEN_JAGUAR - EFUSE_OOB_PROTECT_BYTES_JAGUAR))
++		RTW_INFO("hal_EfusePgPacketWrite_8812A(): efuse_addr(%#x) Out of size!!\n", efuse_addr);
++	/* efuse_reg_ctrl(pAdapter,_FALSE); */ /* power off */
++
++	return _TRUE;
++}
++
++static int
++rtl8812_Efuse_PgPacketWrite(IN	PADAPTER	pAdapter,
++			    IN	u8			offset,
++			    IN	u8			word_en,
++			    IN	u8			*data,
++			    IN	BOOLEAN		bPseudoTest)
++{
++	int	ret;
++
++	ret = hal_EfusePgPacketWrite_8812A(pAdapter, offset, word_en, data, bPseudoTest);
++
++	return ret;
++}
++
++static u8
++hal_EfusePgCheckAvailableAddr(
++	PADAPTER	pAdapter,
++	u8			efuseType,
++	u8		bPseudoTest)
++{
++	u16	max_available = 0;
++	u16 current_size;
++
++
++	EFUSE_GetEfuseDefinition(pAdapter, efuseType, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, &max_available, bPseudoTest);
++	/*	RTW_INFO("%s: max_available=%d\n", __FUNCTION__, max_available); */
++
++	current_size = Efuse_GetCurrentSize(pAdapter, efuseType, bPseudoTest);
++	if (current_size >= max_available) {
++		RTW_INFO("%s: Error!! current_size(%d)>max_available(%d)\n", __FUNCTION__, current_size, max_available);
++		return _FALSE;
++	}
++	return _TRUE;
++}
++
++static void
++hal_EfuseConstructPGPkt(
++	u8				offset,
++	u8				word_en,
++	u8				*pData,
++	PPGPKT_STRUCT	pTargetPkt)
++{
++	_rtw_memset(pTargetPkt->data, 0xFF, PGPKT_DATA_SIZE);
++	pTargetPkt->offset = offset;
++	pTargetPkt->word_en = word_en;
++	efuse_WordEnableDataRead(word_en, pData, pTargetPkt->data);
++	pTargetPkt->word_cnts = Efuse_CalculateWordCnts(pTargetPkt->word_en);
++}
++
++static u8
++hal_EfusePartialWriteCheck(
++	PADAPTER		padapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(padapter);
++	PEFUSE_HAL		pEfuseHal = &pHalData->EfuseHal;
++	u8	bRet = _FALSE;
++	u16	startAddr = 0, efuse_max_available_len = 0, efuse_max = 0;
++	u8	efuse_data = 0;
++
++	EFUSE_GetEfuseDefinition(padapter, efuseType, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, &efuse_max_available_len, bPseudoTest);
++	EFUSE_GetEfuseDefinition(padapter, efuseType, TYPE_EFUSE_CONTENT_LEN_BANK, &efuse_max, bPseudoTest);
++
++	if (efuseType == EFUSE_WIFI) {
++		if (bPseudoTest) {
++#ifdef HAL_EFUSE_MEMORY
++			startAddr = (u16)pEfuseHal->fakeEfuseUsedBytes;
++#else
++			startAddr = (u16)fakeEfuseUsedBytes;
++#endif
++		} else
++			rtw_hal_get_hwreg(padapter, HW_VAR_EFUSE_BYTES, (u8 *)&startAddr);
++	} else {
++		if (bPseudoTest) {
++#ifdef HAL_EFUSE_MEMORY
++			startAddr = (u16)pEfuseHal->fakeBTEfuseUsedBytes;
++#else
++			startAddr = (u16)fakeBTEfuseUsedBytes;
++#endif
++		} else
++			rtw_hal_get_hwreg(padapter, HW_VAR_EFUSE_BT_BYTES, (u8 *)&startAddr);
++	}
++	startAddr %= efuse_max;
++	RTW_INFO("%s: startAddr=%#X\n", __FUNCTION__, startAddr);
++
++	while (1) {
++		if (startAddr >= efuse_max_available_len) {
++			bRet = _FALSE;
++			RTW_INFO("%s: startAddr(%d) >= efuse_max_available_len(%d)\n",
++				__FUNCTION__, startAddr, efuse_max_available_len);
++			break;
++		}
++
++		if (efuse_OneByteRead(padapter, startAddr, &efuse_data, bPseudoTest) && (efuse_data != 0xFF)) {
++			bRet = _FALSE;
++			RTW_INFO("%s: Something Wrong! last bytes(%#X=0x%02X) is not 0xFF\n",
++				 __FUNCTION__, startAddr, efuse_data);
++			break;
++		} else {
++			/* not used header, 0xff */
++			*pAddr = startAddr;
++			/* RTW_INFO("%s: Started from unused header offset=%d\n", __FUNCTION__, startAddr)); */
++			bRet = _TRUE;
++			break;
++		}
++	}
++
++	return bRet;
++}
++
++static u8
++hal_EfusePgPacketWrite2ByteHeader(
++	PADAPTER		padapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	u16	efuse_addr, efuse_max_available_len = 0;
++	u8	pg_header = 0, tmp_header = 0;
++	u8	repeatcnt = 0;
++
++
++	/*	RTW_INFO("%s\n", __FUNCTION__); */
++	EFUSE_GetEfuseDefinition(padapter, efuseType, TYPE_AVAILABLE_EFUSE_BYTES_BANK, &efuse_max_available_len, bPseudoTest);
++
++	efuse_addr = *pAddr;
++	if (efuse_addr >= efuse_max_available_len) {
++		RTW_INFO("%s: addr(%d) over available(%d)!!\n", __FUNCTION__, efuse_addr, efuse_max_available_len);
++		return _FALSE;
++	}
++
++	pg_header = ((pTargetPkt->offset & 0x07) << 5) | 0x0F;
++	/*	RTW_INFO("%s: pg_header=0x%x\n", __FUNCTION__, pg_header); */
++
++	do {
++		efuse_OneByteWrite(padapter, efuse_addr, pg_header, bPseudoTest);
++		efuse_OneByteRead(padapter, efuse_addr, &tmp_header, bPseudoTest);
++		if (tmp_header != 0xFF)
++			break;
++		if (repeatcnt++ > EFUSE_REPEAT_THRESHOLD_) {
++			RTW_INFO("%s: Repeat over limit for pg_header!!\n", __FUNCTION__);
++			return _FALSE;
++		}
++	} while (1);
++
++	if (tmp_header != pg_header) {
++		RTW_INFO(KERN_ERR "%s: PG Header Fail!!(pg=0x%02X read=0x%02X)\n", __FUNCTION__, pg_header, tmp_header);
++		return _FALSE;
++	}
++
++	/* to write ext_header */
++	efuse_addr++;
++	pg_header = ((pTargetPkt->offset & 0x78) << 1) | pTargetPkt->word_en;
++
++	do {
++		efuse_OneByteWrite(padapter, efuse_addr, pg_header, bPseudoTest);
++		efuse_OneByteRead(padapter, efuse_addr, &tmp_header, bPseudoTest);
++		if (tmp_header != 0xFF)
++			break;
++		if (repeatcnt++ > EFUSE_REPEAT_THRESHOLD_) {
++			RTW_INFO("%s: Repeat over limit for ext_header!!\n", __FUNCTION__);
++			return _FALSE;
++		}
++	} while (1);
++
++	if (tmp_header != pg_header) {	/* offset PG fail */
++		RTW_INFO(KERN_ERR "%s: PG EXT Header Fail!!(pg=0x%02X read=0x%02X)\n", __FUNCTION__, pg_header, tmp_header);
++		return _FALSE;
++	}
++
++	*pAddr = efuse_addr;
++
++	return _TRUE;
++}
++
++static u8
++hal_EfusePgPacketWrite1ByteHeader(
++	PADAPTER		pAdapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	u8	bRet = _FALSE;
++	u8	pg_header = 0, tmp_header = 0;
++	u16	efuse_addr = *pAddr;
++	u8	repeatcnt = 0;
++
++
++	/*	RTW_INFO("%s\n", __FUNCTION__); */
++	pg_header = ((pTargetPkt->offset << 4) & 0xf0) | pTargetPkt->word_en;
++
++	do {
++		efuse_OneByteWrite(pAdapter, efuse_addr, pg_header, bPseudoTest);
++		efuse_OneByteRead(pAdapter, efuse_addr, &tmp_header, bPseudoTest);
++		if (tmp_header != 0xFF)
++			break;
++		if (repeatcnt++ > EFUSE_REPEAT_THRESHOLD_) {
++			RTW_INFO("%s: Repeat over limit for pg_header!!\n", __FUNCTION__);
++			return _FALSE;
++		}
++	} while (1);
++
++	if (tmp_header != pg_header) {
++		RTW_INFO(KERN_ERR "%s: PG Header Fail!!(pg=0x%02X read=0x%02X)\n", __FUNCTION__, pg_header, tmp_header);
++		return _FALSE;
++	}
++
++	*pAddr = efuse_addr;
++
++	return _TRUE;
++}
++
++static u8
++hal_EfusePgPacketWriteHeader(
++	PADAPTER		padapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	u8 bRet = _FALSE;
++
++	if (pTargetPkt->offset >= EFUSE_MAX_SECTION_BASE)
++		bRet = hal_EfusePgPacketWrite2ByteHeader(padapter, efuseType, pAddr, pTargetPkt, bPseudoTest);
++	else
++		bRet = hal_EfusePgPacketWrite1ByteHeader(padapter, efuseType, pAddr, pTargetPkt, bPseudoTest);
++
++	return bRet;
++}
++
++static u8
++hal_EfusePgPacketWriteData(
++	PADAPTER		pAdapter,
++	u8				efuseType,
++	u16				*pAddr,
++	PPGPKT_STRUCT	pTargetPkt,
++	u8				bPseudoTest)
++{
++	u16	efuse_addr;
++	u8	badworden;
++
++
++	efuse_addr = *pAddr;
++	badworden = Efuse_WordEnableDataWrite(pAdapter, efuse_addr + 1, pTargetPkt->word_en, pTargetPkt->data, bPseudoTest);
++	if (badworden != 0x0F) {
++		RTW_INFO("%s: Fail!!\n", __FUNCTION__);
++		return _FALSE;
++	}
++
++	/*	RTW_INFO("%s: ok\n", __FUNCTION__); */
++	return _TRUE;
++}
++
++
++static u8
++Hal_EfusePgPacketWrite_BT(
++	PADAPTER	pAdapter,
++	u8			offset,
++	u8			word_en,
++	u8			*pData,
++	u8			bPseudoTest)
++{
++	PGPKT_STRUCT targetPkt;
++	u16 startAddr = 0;
++	u8 efuseType = EFUSE_BT;
++
++	if (!hal_EfusePgCheckAvailableAddr(pAdapter, efuseType, bPseudoTest))
++		return _FALSE;
++
++	hal_EfuseConstructPGPkt(offset, word_en, pData, &targetPkt);
++
++	if (!hal_EfusePartialWriteCheck(pAdapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	if (!hal_EfusePgPacketWriteHeader(pAdapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	if (!hal_EfusePgPacketWriteData(pAdapter, efuseType, &startAddr, &targetPkt, bPseudoTest))
++		return _FALSE;
++
++	return _TRUE;
++}
++
++
++void InitRDGSetting8812A(PADAPTER padapter)
++{
++	rtw_write8(padapter, REG_RD_CTRL, 0xFF);
++	rtw_write16(padapter, REG_RD_NAV_NXT, 0x200);
++	rtw_write8(padapter, REG_RD_RESP_PKT_TH, 0x05);
++}
++
++void ReadRFType8812A(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++
++#if DISABLE_BB_RF
++	pHalData->rf_chip = RF_PSEUDO_11N;
++#else
++	pHalData->rf_chip = RF_6052;
++#endif
++
++	/* if (pHalData->rf_type == RF_1T1R){ */
++	/*	pHalData->bRFPathRxEnable[0] = _TRUE; */
++	/* } */
++	/* else {	 */ /* Default unknow type is 2T2r */
++	/*	pHalData->bRFPathRxEnable[0] = pHalData->bRFPathRxEnable[1] = _TRUE; */
++	/* } */
++
++	if (IsSupported24G(padapter->registrypriv.wireless_mode) &&
++	    IsSupported5G(padapter->registrypriv.wireless_mode))
++		pHalData->BandSet = BAND_ON_BOTH;
++	else if (IsSupported5G(padapter->registrypriv.wireless_mode))
++		pHalData->BandSet = BAND_ON_5G;
++	else
++		pHalData->BandSet = BAND_ON_2_4G;
++
++	/* if(padapter->bInHctTest) */
++	/*	pHalData->BandSet = BAND_ON_2_4G; */
++}
++
++
++void rtl8812_start_thread(PADAPTER padapter)
++{
++}
++
++void rtl8812_stop_thread(PADAPTER padapter)
++{
++}
++
++void hal_notch_filter_8812(_adapter *adapter, bool enable)
++{
++	if (enable) {
++		RTW_INFO("Enable notch filter\n");
++		/* rtw_write8(adapter, rOFDM0_RxDSP+1, rtw_read8(adapter, rOFDM0_RxDSP+1) | BIT1); */
++	} else {
++		RTW_INFO("Disable notch filter\n");
++		/* rtw_write8(adapter, rOFDM0_RxDSP+1, rtw_read8(adapter, rOFDM0_RxDSP+1) & ~BIT1); */
++	}
++}
++
++u8
++GetEEPROMSize8812A(
++	IN	PADAPTER	Adapter
++)
++{
++	u8	size = 0;
++	u32	curRCR;
++
++	curRCR = rtw_read16(Adapter, REG_SYS_EEPROM_CTRL);
++	size = (curRCR & EEPROMSEL) ? 6 : 4; /* 6: EEPROM used is 93C46, 4: boot from E-Fuse. */
++
++	RTW_INFO("EEPROM type is %s\n", size == 4 ? "E-FUSE" : "93C46");
++	/* return size; */
++	return 4; /* <20120713, Kordan> The default value of HW is 6 ?!! */
++}
++
++void CheckAutoloadState8812A(PADAPTER padapter)
++{
++	u8 val8;
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++
++	/* check system boot selection */
++	val8 = rtw_read8(padapter, REG_9346CR);
++	pHalData->EepromOrEfuse = (val8 & BOOT_FROM_EEPROM) ? _TRUE : _FALSE;
++	pHalData->bautoload_fail_flag = (val8 & EEPROM_EN) ? _FALSE : _TRUE;
++
++	RTW_INFO("%s: 9346CR(%#x)=0x%02x, Boot from %s, Autoload %s!\n",
++		 __FUNCTION__, REG_9346CR, val8,
++		 (pHalData->EepromOrEfuse ? "EEPROM" : "EFUSE"),
++		 (pHalData->bautoload_fail_flag ? "Fail" : "OK"));
++}
++
++void InitPGData8812A(PADAPTER padapter)
++{
++	u32 i;
++	u16 val16;
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++
++	if (_FALSE == pHalData->bautoload_fail_flag) {
++		/* autoload OK. */
++		if (is_boot_from_eeprom(padapter)) {
++			/* Read all Content from EEPROM or EFUSE. */
++			for (i = 0; i < HWSET_MAX_SIZE_JAGUAR; i += 2) {
++				/* val16 = EF2Byte(ReadEEprom(pAdapter, (u2Byte) (i>>1))); */
++				/* *((u16*)(&PROMContent[i])) = val16; */
++			}
++		} else {
++			/* Read EFUSE real map to shadow. */
++			EFUSE_ShadowMapUpdate(padapter, EFUSE_WIFI, _FALSE);
++		}
++	} else {
++		/* update to default value 0xFF */
++		if (!is_boot_from_eeprom(padapter))
++			EFUSE_ShadowMapUpdate(padapter, EFUSE_WIFI, _FALSE);
++	}
++#ifdef CONFIG_EFUSE_CONFIG_FILE
++	if (check_phy_efuse_tx_power_info_valid(padapter) == _FALSE) {
++		if (Hal_readPGDataFromConfigFile(padapter) != _SUCCESS)
++			RTW_ERR("invalid phy efuse and read from file fail, will use driver default!!\n");
++	}
++#endif
++}
++
++static void read_chip_version_8812a(PADAPTER Adapter)
++{
++	u32	value32;
++	PHAL_DATA_TYPE	pHalData;
++	pHalData = GET_HAL_DATA(Adapter);
++
++	value32 = rtw_read32(Adapter, REG_SYS_CFG);
++	RTW_INFO("%s SYS_CFG(0x%X)=0x%08x\n", __FUNCTION__, REG_SYS_CFG, value32);
++
++	if (IS_HARDWARE_TYPE_8812(Adapter))
++		pHalData->VersionID.ICType = CHIP_8812;
++	else
++		pHalData->VersionID.ICType = CHIP_8821;
++
++	pHalData->VersionID.ChipType = ((value32 & RTL_ID) ? TEST_CHIP : NORMAL_CHIP);
++
++	if (IS_HARDWARE_TYPE_8812(Adapter))
++		pHalData->VersionID.RFType = RF_TYPE_2T2R; /* RF_2T2R; */
++	else
++		pHalData->VersionID.RFType = RF_TYPE_1T1R; /* RF_1T1R; */
++
++	if (Adapter->registrypriv.special_rf_path == 1)
++		pHalData->VersionID.RFType = RF_TYPE_1T1R;	/* RF_1T1R; */
++
++	if (IS_HARDWARE_TYPE_8812(Adapter))
++		pHalData->VersionID.VendorType = ((value32 & VENDOR_ID) ? CHIP_VENDOR_UMC : CHIP_VENDOR_TSMC);
++	else {
++		u32 vendor;
++
++		vendor = (value32 & EXT_VENDOR_ID) >> EXT_VENDOR_ID_SHIFT;
++		switch (vendor) {
++		case 0:
++			vendor = CHIP_VENDOR_TSMC;
++			break;
++		case 1:
++			vendor = CHIP_VENDOR_SMIC;
++			break;
++		case 2:
++			vendor = CHIP_VENDOR_UMC;
++			break;
++		}
++		pHalData->VersionID.VendorType = vendor;
++	}
++	pHalData->VersionID.CUTVersion = (value32 & CHIP_VER_RTL_MASK) >> CHIP_VER_RTL_SHIFT; /* IC version (CUT) */
++	if (IS_HARDWARE_TYPE_8812(Adapter))
++		pHalData->VersionID.CUTVersion += 1;
++
++	/* value32 = rtw_read32(Adapter, REG_GPIO_OUTSTS); */
++	pHalData->VersionID.ROMVer = 0;	/* ROM code version. */
++
++	/* For multi-function consideration. Added by Roger, 2010.10.06. */
++	pHalData->MultiFunc = RT_MULTI_FUNC_NONE;
++	value32 = rtw_read32(Adapter, REG_MULTI_FUNC_CTRL);
++	pHalData->MultiFunc |= ((value32 & WL_FUNC_EN) ? RT_MULTI_FUNC_WIFI : 0);
++	pHalData->MultiFunc |= ((value32 & BT_FUNC_EN) ? RT_MULTI_FUNC_BT : 0);
++	pHalData->PolarityCtl = ((value32 & WL_HWPDN_SL) ? RT_POLARITY_HIGH_ACT : RT_POLARITY_LOW_ACT);
++
++	rtw_hal_config_rftype(Adapter);
++#if 1
++	dump_chip_info(pHalData->VersionID);
++#endif
++
++}
++
++VOID
++Hal_PatchwithJaguar_8812(
++	IN PADAPTER				Adapter,
++	IN RT_MEDIA_STATUS		MediaStatus
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct mlme_ext_priv	*pmlmeext = &(Adapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	if ((MediaStatus == RT_MEDIA_CONNECT) &&
++	    (pmlmeinfo->assoc_AP_vendor == HT_IOT_PEER_REALTEK_JAGUAR_BCUTAP)) {
++		rtw_write8(Adapter, rVhtlen_Use_Lsig_Jaguar, 0x1);
++		rtw_write8(Adapter, REG_TCR + 3, BIT2);
++	} else {
++		rtw_write8(Adapter, rVhtlen_Use_Lsig_Jaguar, 0x3F);
++		/* rtw_write8(Adapter, REG_TCR+3, BIT0|BIT1|BIT2); */
++		/*
++		* 20150707 yiwei.sun
++		* set 0x604[24] = 0 , to fix 11ac vht 80Mhz mode  mcs 8 , 9 udp pkt lose issue
++		* suggest by MAC team Jong & Scott
++		*/
++		rtw_write8(Adapter , REG_TCR + 3 , BIT1 | BIT2);
++	}
++
++
++	if ((MediaStatus == RT_MEDIA_CONNECT) &&
++	    ((pmlmeinfo->assoc_AP_vendor == HT_IOT_PEER_REALTEK_JAGUAR_BCUTAP) ||
++	     (pmlmeinfo->assoc_AP_vendor == HT_IOT_PEER_REALTEK_JAGUAR_CCUTAP))) {
++		pHalData->Reg837 |= BIT2;
++		rtw_write8(Adapter, rBWIndication_Jaguar + 3, pHalData->Reg837);
++	} else {
++		pHalData->Reg837 &= (~BIT2);
++		rtw_write8(Adapter, rBWIndication_Jaguar + 3, pHalData->Reg837);
++	}
++}
++
++void UpdateHalRAMask8812A(PADAPTER padapter, struct sta_info *psta, u32 mac_id, u8 rssi_level)
++{
++	u32	mask, rate_bitmap = 0, ratr_bitmap_msb = 0;
++	u8	disable_cck_rate = FALSE, MimoPs_enable = FALSE;
++	u8	shortGIrate = _FALSE;
++	u8	arg[4] = {0};
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	u8 bw;
++
++	if (psta == NULL) {
++		RTW_PRINT(FUNC_ADPT_FMT" macid:%u, sta is NULL\n"
++			  , FUNC_ADPT_ARG(padapter), mac_id);
++		return;
++	}
++
++	bw = rtw_get_tx_bw_mode(padapter, psta);
++	shortGIrate = query_ra_short_GI(psta, bw);
++
++	mask = psta->ra_mask;
++
++#if 1
++	phydm_UpdateHalRAMask(&pHalData->odmpriv, psta->wireless_mode, pHalData->rf_type, bw, MimoPs_enable, disable_cck_rate, &ratr_bitmap_msb, &mask, rssi_level);
++#else
++	rate_bitmap = 0xffffffff;
++	rate_bitmap = ODM_Get_Rate_Bitmap(&pHalData->odmpriv, mac_id, mask, rssi_level);
++	mask &= rate_bitmap;
++#endif
++
++#ifdef CONFIG_BT_COEXIST
++	if (pHalData->EEPROMBluetoothCoexist == 1) {
++		rate_bitmap = rtw_btcoex_GetRaMask(padapter);
++		mask &= ~rate_bitmap;
++	}
++#endif /* CONFIG_BT_COEXIST */
++	RTW_INFO("%s => mac_id:%d, networkType:0x%02x, mask:0x%08x\n\t ==> rssi_level:%d, rate_bitmap:0x%08x, psta->raid=%d\n",
++		__func__, mac_id, psta->wireless_mode, mask, rssi_level, rate_bitmap, psta->raid);
++
++	arg[0] = mac_id;
++	arg[1] = psta->raid;
++	arg[2] = shortGIrate;
++	arg[3] = psta->init_rate;
++
++	rtl8812_set_raid_cmd(padapter, mask, arg, bw);
++
++	rtw_macid_ctl_set_bw(macid_ctl, mac_id, bw);
++	rtw_macid_ctl_set_vht_en(macid_ctl, mac_id, IsSupportedVHT(psta->wireless_mode));
++	rtw_macid_ctl_set_rate_bmp0(macid_ctl, mac_id, mask);
++	rtw_update_tx_rate_bmp(adapter_to_dvobj(padapter));
++}
++
++#ifdef CONFIG_RTL8821A
++void init_hal_spec_8821a(_adapter *adapter)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++
++	hal_spec->ic_name = "rtl8821a";
++	hal_spec->macid_num = MACID_NUM_8821A;
++	hal_spec->sec_cam_ent_num = SEC_CAM_ENT_NUM_8821A;
++	hal_spec->sec_cap = 0;
++	hal_spec->rfpath_num = 1;
++	hal_spec->max_tx_cnt = 1;
++	hal_spec->nss_num = NSS_NUM_8821A;
++	hal_spec->band_cap = BAND_CAP_8821A;
++	hal_spec->bw_cap = BW_CAP_8821A;
++	hal_spec->port_num = HW_PORT_NUM_8821A;
++	hal_spec->proto_cap = PROTO_CAP_8821A;
++
++	hal_spec->wl_func = 0
++			    | WL_FUNC_P2P
++			    | WL_FUNC_MIRACAST
++			    | WL_FUNC_TDLS
++			    ;
++}
++#endif /* CONFIG_RTL8821A */
++
++void init_hal_spec_8812a(_adapter *adapter)
++{
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++
++	hal_spec->ic_name = "rtl8812a";
++	hal_spec->macid_num = MACID_NUM_8812A;
++	hal_spec->sec_cam_ent_num = SEC_CAM_ENT_NUM_8812A;
++	hal_spec->sec_cap = 0;
++	hal_spec->rfpath_num = 2;
++	hal_spec->max_tx_cnt = 2;
++	hal_spec->nss_num = NSS_NUM_8812A;
++	hal_spec->band_cap = BAND_CAP_8812A;
++	hal_spec->bw_cap = BW_CAP_8812A;
++	hal_spec->port_num = HW_PORT_NUM_8812A;
++	hal_spec->proto_cap = PROTO_CAP_8812A;
++
++	hal_spec->wl_func = 0
++			    | WL_FUNC_P2P
++			    | WL_FUNC_MIRACAST
++			    | WL_FUNC_TDLS
++			    ;
++}
++
++void InitDefaultValue8821A(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE pHalData;
++	struct pwrctrl_priv *pwrctrlpriv;
++	u8 i;
++
++	pHalData = GET_HAL_DATA(padapter);
++	pwrctrlpriv = adapter_to_pwrctl(padapter);
++
++	/* init default value */
++	pHalData->fw_ractrl = _FALSE;
++	if (!pwrctrlpriv->bkeepfwalive)
++		pHalData->LastHMEBoxNum = 0;
++
++	/* init dm default value */
++	pHalData->bChnlBWInitialized = _FALSE;
++	pHalData->bIQKInitialized = _FALSE;
++	pHalData->odmpriv.RFCalibrateInfo.TM_Trigger = 0;/* for IQK */
++	pHalData->odmpriv.RFCalibrateInfo.ThermalValue_HP_index = 0;
++	for (i = 0; i < HP_THERMAL_NUM; i++)
++		pHalData->odmpriv.RFCalibrateInfo.ThermalValue_HP[i] = 0;
++	pHalData->EfuseHal.fakeEfuseBank = 0;
++	pHalData->EfuseHal.fakeEfuseUsedBytes = 0;
++	_rtw_memset(pHalData->EfuseHal.fakeEfuseContent, 0xFF, EFUSE_MAX_HW_SIZE);
++	_rtw_memset(pHalData->EfuseHal.fakeEfuseInitMap, 0xFF, EFUSE_MAX_MAP_LEN);
++	_rtw_memset(pHalData->EfuseHal.fakeEfuseModifiedMap, 0xFF, EFUSE_MAX_MAP_LEN);
++}
++
++VOID
++_InitBeaconParameters_8812A(
++	IN  PADAPTER Adapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u16 val16;
++	u8  val8;
++
++	val8 = DIS_TSF_UDT;
++	val16 = val8 | (val8 << 8); /* port0 and port1 */
++#ifdef CONFIG_BT_COEXIST
++	if (pHalData->EEPROMBluetoothCoexist == 1) {
++		/* Enable prot0 beacon function for PSTDMA */
++		val16 |= EN_BCN_FUNCTION;
++	}
++#endif
++	rtw_write16(Adapter, REG_BCN_CTRL, val16);
++	/* rtw_write16(Adapter, REG_BCN_CTRL, 0x1010); */
++
++	/* TODO: Remove these magic number */
++	rtw_write16(Adapter, REG_TBTT_PROHIBIT, 0x6404); /* ms */
++	rtw_write8(Adapter, REG_DRVERLYINT, DRIVER_EARLY_INT_TIME_8812);/* 5ms */
++	rtw_write8(Adapter, REG_BCNDMATIM, BCN_DMA_ATIME_INT_TIME_8812); /* 2ms */
++
++	/* Suggested by designer timchen. Change beacon AIFS to the largest number */
++	/* beacause test chip does not contension before sending beacon. by tynli. 2009.11.03 */
++	rtw_write16(Adapter, REG_BCNTCFG, 0x660F);
++
++	pHalData->RegBcnCtrlVal = rtw_read8(Adapter, REG_BCN_CTRL);
++	pHalData->RegTxPause = rtw_read8(Adapter, REG_TXPAUSE);
++	pHalData->RegFwHwTxQCtrl = rtw_read8(Adapter, REG_FWHW_TXQ_CTRL + 2);
++	pHalData->RegReg542 = rtw_read8(Adapter, REG_TBTT_PROHIBIT + 2);
++	pHalData->RegCR_1 = rtw_read8(Adapter, REG_CR + 1);
++}
++
++static VOID
++_BeaconFunctionEnable(
++	IN	PADAPTER		Adapter,
++	IN	BOOLEAN			Enable,
++	IN	BOOLEAN			Linked
++)
++{
++	rtw_write8(Adapter, REG_BCN_CTRL, (BIT4 | BIT3 | BIT1));
++	/* SetBcnCtrlReg(Adapter, (BIT4 | BIT3 | BIT1), 0x00); */
++
++	rtw_write8(Adapter, REG_RD_CTRL + 1, 0x6F);
++}
++
++
++void SetBeaconRelatedRegisters8812A(PADAPTER padapter)
++{
++	u32	value32;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u32 bcn_ctrl_reg			= REG_BCN_CTRL;
++	/* reset TSF, enable update TSF, correcting TSF On Beacon */
++
++	/* REG_BCN_INTERVAL */
++	/* REG_BCNDMATIM */
++	/* REG_ATIMWND */
++	/* REG_TBTT_PROHIBIT */
++	/* REG_DRVERLYINT */
++	/* REG_BCN_MAX_ERR	 */
++	/* REG_BCNTCFG */ /* (0x510) */
++	/* REG_DUAL_TSF_RST */
++	/* REG_BCN_CTRL  */ /* (0x550) */
++
++	/* BCN interval */
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->hw_port == HW_PORT1)
++		bcn_ctrl_reg = REG_BCN_CTRL_1;
++#endif
++	rtw_write16(padapter, REG_BCN_INTERVAL, pmlmeinfo->bcn_interval);
++	rtw_write8(padapter, REG_ATIMWND, 0x02);/* 2ms */
++
++	_InitBeaconParameters_8812A(padapter);
++
++	rtw_write8(padapter, REG_SLOT, 0x09);
++
++	value32 = rtw_read32(padapter, REG_TCR);
++	value32 &= ~TSFRST;
++	rtw_write32(padapter,  REG_TCR, value32);
++
++	value32 |= TSFRST;
++	rtw_write32(padapter, REG_TCR, value32);
++
++	/* NOTE: Fix test chip's bug (about contention windows's randomness) */
++	rtw_write8(padapter,  REG_RXTSF_OFFSET_CCK, 0x50);
++	rtw_write8(padapter, REG_RXTSF_OFFSET_OFDM, 0x50);
++
++	_BeaconFunctionEnable(padapter, _TRUE, _TRUE);
++
++	ResumeTxBeacon(padapter);
++
++	/* rtw_write8(padapter, 0x422, rtw_read8(padapter, 0x422)|BIT(6)); */
++
++	/* rtw_write8(padapter, 0x541, 0xff); */
++
++	/* rtw_write8(padapter, 0x542, rtw_read8(padapter, 0x541)|BIT(0)); */
++
++	rtw_write8(padapter, bcn_ctrl_reg, rtw_read8(padapter, bcn_ctrl_reg) | BIT(1));
++
++}
++
++#ifdef CONFIG_BEAMFORMING
++
++#if (BEAMFORMING_SUPPORT == 0)
++VOID
++SetBeamformingCLK_8812(
++	IN	PADAPTER			Adapter
++)
++{
++	struct pwrctrl_priv	*pwrpriv = adapter_to_pwrctl(Adapter);
++	u16	u2btmp;
++	u8	Count = 0, u1btmp;
++
++	RTW_INFO(" ==>%s\n", __FUNCTION__);
++
++	if (rtw_mi_check_fwstate(Adapter, _FW_UNDER_SURVEY)) {
++		RTW_INFO(" <==%s return by Scan\n", __FUNCTION__);
++		return;
++	}
++
++	/* Stop Usb TxDMA */
++	rtw_write_port_cancel(Adapter);
++
++#ifdef CONFIG_PCI_HCI
++	/* Stop PCIe TxDMA */
++	rtw_write8(Adapter, REG_PCIE_CTRL_REG + 1, 0xFE);
++#endif
++
++	/* Wait TXFF empty */
++	for (Count = 0; Count < 100; Count++) {
++		u2btmp = rtw_read16(Adapter, REG_TXPKT_EMPTY);
++		u2btmp = u2btmp & 0xfff;
++		if (u2btmp != 0xfff) {
++			rtw_mdelay_os(10);
++			continue;
++		} else
++			break;
++	}
++
++	RTW_INFO(" Tx Empty count %d\n", Count);
++
++	/* TX pause */
++	rtw_write8(Adapter, REG_TXPAUSE, 0xFF);
++
++	/* Wait TX State Machine OK */
++	for (Count = 0; Count < 100; Count++) {
++		if (rtw_read32(Adapter, REG_SCH_TXCMD_8812A) != 0)
++			continue;
++		else
++			break;
++	}
++
++	RTW_INFO(" Tx Status count %d\n", Count);
++
++	/* Stop RX DMA path */
++	u1btmp = rtw_read8(Adapter, REG_RXDMA_CONTROL_8812A);
++	rtw_write8(Adapter, REG_RXDMA_CONTROL_8812A, u1btmp | BIT2);
++
++	for (Count = 0; Count < 100; Count++) {
++		u1btmp = rtw_read8(Adapter, REG_RXDMA_CONTROL_8812A);
++		if (u1btmp & BIT1)
++			break;
++		else
++			rtw_mdelay_os(10);
++	}
++
++	RTW_INFO(" Rx Empty count %d\n", Count);
++
++	/* Disable clock */
++	rtw_write8(Adapter, REG_SYS_CLKR + 1, 0xf0);
++	/* Disable 320M */
++	rtw_write8(Adapter, REG_AFE_PLL_CTRL + 3, 0x8);
++	/* Enable 320M */
++	rtw_write8(Adapter, REG_AFE_PLL_CTRL + 3, 0xa);
++	/* Enable clock */
++	rtw_write8(Adapter, REG_SYS_CLKR + 1, 0xfc);
++
++	/* Release Tx pause */
++	rtw_write8(Adapter, REG_TXPAUSE, 0);
++
++	/* Enable RX DMA path */
++	u1btmp = rtw_read8(Adapter, REG_RXDMA_CONTROL_8812A);
++	rtw_write8(Adapter, REG_RXDMA_CONTROL_8812A, u1btmp & (~BIT2));
++
++	/* Start Usb TxDMA */
++	RTW_ENABLE_FUNC(Adapter, DF_TX_BIT);
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	RTW_INFO("<==%s\n", __FUNCTION__);
++}
++
++VOID
++SetBeamformRfMode_8812(
++	IN PADAPTER				Adapter,
++	IN struct beamforming_info	*pBeamInfo
++)
++{
++	BOOLEAN				bSelfBeamformer = _FALSE;
++	BOOLEAN				bSelfBeamformee = _FALSE;
++	BEAMFORMING_CAP	BeamformCap = BEAMFORMING_CAP_NONE;
++
++	BeamformCap = beamforming_get_beamform_cap(pBeamInfo);
++
++	if (BeamformCap == pBeamInfo->beamforming_cap)
++		return;
++	else
++		pBeamInfo->beamforming_cap = BeamformCap;
++
++	if (GET_RF_TYPE(Adapter) == RF_1T1R)
++		return;
++
++	bSelfBeamformer = BeamformCap & BEAMFORMER_CAP;
++	bSelfBeamformee = BeamformCap & BEAMFORMEE_CAP;
++
++	PHY_SetRFReg(Adapter, ODM_RF_PATH_A, RF_WeLut_Jaguar, 0x80000, 0x1); /* RF Mode table write enable */
++	PHY_SetRFReg(Adapter, ODM_RF_PATH_B, RF_WeLut_Jaguar, 0x80000, 0x1); /* RF Mode table write enable */
++
++	if (bSelfBeamformer) {
++		/* Paath_A */
++		PHY_SetRFReg(Adapter, ODM_RF_PATH_A, RF_ModeTableAddr, 0x78000, 0x3); /* Select RX mode */
++		PHY_SetRFReg(Adapter, ODM_RF_PATH_A, RF_ModeTableData0, 0xfffff, 0x3F7FF); /* Set Table data */
++		PHY_SetRFReg(Adapter, ODM_RF_PATH_A, RF_ModeTableData1, 0xfffff, 0xE26BF); /* Enable TXIQGEN in RX mode */
++		/* Path_B */
++		PHY_SetRFReg(Adapter, ODM_RF_PATH_B, RF_ModeTableAddr, 0x78000, 0x3); /* Select RX mode */
++		PHY_SetRFReg(Adapter, ODM_RF_PATH_B, RF_ModeTableData0, 0xfffff, 0x3F7FF); /* Set Table data */
++		PHY_SetRFReg(Adapter, ODM_RF_PATH_B, RF_ModeTableData1, 0xfffff, 0xE26BF); /* Enable TXIQGEN in RX mode */
++	} else {
++		/* Paath_A */
++		PHY_SetRFReg(Adapter, ODM_RF_PATH_A, RF_ModeTableAddr, 0x78000, 0x3); /* Select RX mode */
++		PHY_SetRFReg(Adapter, ODM_RF_PATH_A, RF_ModeTableData0, 0xfffff, 0x3F7FF); /* Set Table data */
++		PHY_SetRFReg(Adapter, ODM_RF_PATH_A, RF_ModeTableData1, 0xfffff, 0xC26BF); /* Disable TXIQGEN in RX mode */
++		/* Path_B */
++		PHY_SetRFReg(Adapter, ODM_RF_PATH_B, RF_ModeTableAddr, 0x78000, 0x3); /* Select RX mode */
++		PHY_SetRFReg(Adapter, ODM_RF_PATH_B, RF_ModeTableData0, 0xfffff, 0x3F7FF); /* Set Table data */
++		PHY_SetRFReg(Adapter, ODM_RF_PATH_B, RF_ModeTableData1, 0xfffff, 0xC26BF); /* Disable TXIQGEN in RX mode */
++	}
++
++	PHY_SetRFReg(Adapter, ODM_RF_PATH_A, RF_WeLut_Jaguar, 0x80000, 0x0); /* RF Mode table write disable */
++	PHY_SetRFReg(Adapter, ODM_RF_PATH_B, RF_WeLut_Jaguar, 0x80000, 0x0); /* RF Mode table write disable */
++
++	if (bSelfBeamformer)
++		PHY_SetBBReg(Adapter, rTxPath_Jaguar, bMaskByte1, 0x33);
++	else
++		PHY_SetBBReg(Adapter, rTxPath_Jaguar, bMaskByte1, 0x11);
++}
++
++
++
++VOID
++SetBeamformEnter_8812(
++	IN PADAPTER				Adapter,
++	IN u8					Idx
++)
++{
++	u8	i = 0;
++	u32	CSI_Param;
++	HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(Adapter);
++	struct mlme_priv			*pmlmepriv = &(Adapter->mlmepriv);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++	struct beamforming_entry	BeamformEntry = pBeamInfo->beamforming_entry[Idx];
++	u16	STAid = 0;
++
++	SetBeamformRfMode_8812(Adapter, pBeamInfo);
++
++	if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) || check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE))
++		STAid = BeamformEntry.mac_id;
++	else
++		STAid = BeamformEntry.p_aid;
++
++	/* Sounding protocol control */
++	rtw_write8(Adapter, REG_SND_PTCL_CTRL_8812A, 0xCB);
++
++	/* MAC addresss/Partial AID of Beamformer */
++	if (Idx == 0) {
++		for (i = 0; i < 6 ; i++)
++			rtw_write8(Adapter, (REG_BFMER0_INFO_8812A + i), BeamformEntry.mac_addr[i]);
++		/* CSI report use legacy ofdm so don't need to fill P_AID.*/
++		/*rtw_write16(Adapter, REG_BFMER0_INFO_8812A+6, BeamformEntry.P_AID);*/
++	} else {
++		for (i = 0; i < 6 ; i++)
++			rtw_write8(Adapter, (REG_BFMER1_INFO_8812A + i), BeamformEntry.mac_addr[i]);
++		/* CSI report use legacy ofdm so don't need to fill P_AID.*/
++		/*rtw_write16(Adapter, REG_BFMER1_INFO_8812A+6, BeamformEntry.P_AID);*/
++	}
++
++	/* CSI report parameters of Beamformee */
++	if ((BeamformEntry.beamforming_entry_cap & BEAMFORMEE_CAP_VHT_SU) ||
++	    (BeamformEntry.beamforming_entry_cap & BEAMFORMER_CAP_VHT_SU)) {
++		if (pHalData->rf_type == RF_2T2R)
++			CSI_Param = 0x01090109;
++		else
++			CSI_Param = 0x01080108;
++	} else {
++		if (pHalData->rf_type == RF_2T2R)
++			CSI_Param = 0x03090309;
++		else
++			CSI_Param = 0x03080308;
++	}
++
++	if (pHalData->rf_type == RF_2T2R)
++		rtw_write32(Adapter, 0x9B4, 0x00000000);	/* Nc =2 */
++	else
++		rtw_write32(Adapter, 0x9B4, 0x01081008); /* Nc =1 */
++
++	rtw_write32(Adapter, REG_CSI_RPT_PARAM_BW20_8812A, CSI_Param);
++	rtw_write32(Adapter, REG_CSI_RPT_PARAM_BW40_8812A, CSI_Param);
++	rtw_write32(Adapter, REG_CSI_RPT_PARAM_BW80_8812A, CSI_Param);
++
++	/* P_AID of Beamformee & enable NDPA transmission & enable NDPA interrupt */
++	if (Idx == 0) {
++		rtw_write16(Adapter, REG_TXBF_CTRL_8812A, STAid);
++		rtw_write8(Adapter, REG_TXBF_CTRL_8812A + 3, rtw_read8(Adapter, REG_TXBF_CTRL_8812A + 3) | BIT4 | BIT6 | BIT7);
++	} else
++		rtw_write16(Adapter, REG_TXBF_CTRL_8812A + 2, STAid | BIT12 | BIT14 | BIT15);
++
++	/* CSI report parameters of Beamformee */
++	if (Idx == 0) {
++		/* Get BIT24 & BIT25*/
++		u8	tmp = rtw_read8(Adapter, REG_BFMEE_SEL_8812A + 3) & 0x3;
++
++		rtw_write8(Adapter, REG_BFMEE_SEL_8812A + 3, tmp | 0x60);
++		rtw_write16(Adapter, REG_BFMEE_SEL_8812A, STAid | BIT9);
++	} else {
++		/* Set BIT25 */
++		rtw_write16(Adapter, REG_BFMEE_SEL_8812A + 2, STAid | (0xE2 << 8));
++	}
++
++	/* Timeout value for MAC to leave NDP_RX_standby_state (60 us, Test chip) (80 us,  MP chip) */
++	rtw_write8(Adapter, REG_SND_PTCL_CTRL_8812A + 3, 0x50);
++
++	beamforming_notify(Adapter);
++}
++
++
++VOID
++SetBeamformLeave_8812(
++	IN PADAPTER				Adapter,
++	IN u8					Idx
++)
++{
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(&(Adapter->mlmepriv));
++
++	SetBeamformRfMode_8812(Adapter, pBeamInfo);
++
++	/*	Clear P_AID of Beamformee
++	*	Clear MAC addresss of Beamformer
++	*	Clear Associated Bfmee Sel
++	*/
++	if (pBeamInfo->beamforming_cap == BEAMFORMING_CAP_NONE)
++		rtw_write8(Adapter, REG_SND_PTCL_CTRL_8812A, 0xC8);
++
++	if (Idx == 0) {
++		rtw_write16(Adapter, REG_TXBF_CTRL_8812A, 0);
++
++		rtw_write32(Adapter, REG_BFMER0_INFO_8812A, 0);
++		rtw_write16(Adapter, REG_BFMER0_INFO_8812A + 4, 0);
++
++		rtw_write16(Adapter, REG_BFMEE_SEL_8812A, 0);
++	} else {
++		rtw_write16(Adapter, REG_TXBF_CTRL_8812A + 2, rtw_read16(Adapter, REG_TXBF_CTRL_8812A + 2) & 0xF000);
++
++		rtw_write32(Adapter, REG_BFMER1_INFO_8812A, 0);
++		rtw_write16(Adapter, REG_BFMER1_INFO_8812A + 4, 0);
++
++		rtw_write16(Adapter, REG_BFMEE_SEL_8812A + 2, rtw_read16(Adapter, REG_BFMEE_SEL_8812A + 2) & 0x60);
++	}
++}
++
++
++VOID
++SetBeamformStatus_8812(
++	IN PADAPTER				Adapter,
++	IN u8					Idx
++)
++{
++	u16	BeamCtrlVal;
++	u32	BeamCtrlReg;
++	struct mlme_priv			*pmlmepriv = &(Adapter->mlmepriv);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++	struct beamforming_entry	BeamformEntry = pBeamInfo->beamforming_entry[Idx];
++
++	if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) || check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE))
++		BeamCtrlVal = BeamformEntry.mac_id;
++	else
++		BeamCtrlVal = BeamformEntry.p_aid;
++
++	if (Idx == 0)
++		BeamCtrlReg = REG_TXBF_CTRL_8812A;
++	else {
++		BeamCtrlReg = REG_TXBF_CTRL_8812A + 2;
++		BeamCtrlVal |= BIT12 | BIT14 | BIT15;
++	}
++
++	if (BeamformEntry.beamforming_entry_state == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++		if (BeamformEntry.sound_bw == CHANNEL_WIDTH_20)
++			BeamCtrlVal |= BIT9;
++		else if (BeamformEntry.sound_bw == CHANNEL_WIDTH_40)
++			BeamCtrlVal |= BIT10;
++		else if (BeamformEntry.sound_bw == CHANNEL_WIDTH_80)
++			BeamCtrlVal |= BIT11;
++	} else
++		BeamCtrlVal &= ~(BIT9 | BIT10 | BIT11);
++
++	rtw_write16(Adapter, BeamCtrlReg, BeamCtrlVal);
++
++	RTW_INFO("%s Idx %d BeamCtrlReg %x BeamCtrlVal %x\n", __FUNCTION__, Idx, BeamCtrlReg, BeamCtrlVal);
++}
++
++
++VOID
++SetBeamformFwTxBFCmd_8812(
++	IN	PADAPTER	Adapter
++)
++{
++	u8	Idx, Period0 = 0, Period1 = 0;
++	u8	PageNum0 = 0xFF, PageNum1 = 0xFF;
++	u8	u1TxBFParm[3] = {0};
++
++	struct mlme_priv			*pmlmepriv = &(Adapter->mlmepriv);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(pmlmepriv);
++
++	for (Idx = 0; Idx < BEAMFORMING_ENTRY_NUM; Idx++) {
++		if (pBeamInfo->beamforming_entry[Idx].beamforming_entry_state == BEAMFORMING_ENTRY_STATE_PROGRESSED) {
++			if (Idx == 0) {
++				if (pBeamInfo->beamforming_entry[Idx].bSound)
++					PageNum0 = 0xFE;
++				else
++					PageNum0 = 0xFF; /* stop sounding */
++				Period0 = (u8)(pBeamInfo->beamforming_entry[Idx].sound_period);
++			} else if (Idx == 1) {
++				if (pBeamInfo->beamforming_entry[Idx].bSound)
++					PageNum1 = 0xFE;
++				else
++					PageNum1 = 0xFF; /* stop sounding */
++				Period1 = (u8)(pBeamInfo->beamforming_entry[Idx].sound_period);
++			}
++		}
++	}
++
++	u1TxBFParm[0] = PageNum0;
++	u1TxBFParm[1] = PageNum1;
++	u1TxBFParm[2] = (Period1 << 4) | Period0;
++	FillH2CCmd_8812(Adapter, H2C_8812_TxBF, 3, u1TxBFParm);
++
++	RTW_INFO("%s PageNum0 = %d Period0 = %d\n", __FUNCTION__, PageNum0, Period0);
++	RTW_INFO("PageNum1 = %d Period1 %d\n", PageNum1, Period1);
++}
++
++
++VOID
++SetBeamformDownloadNDPA_8812(
++	IN	PADAPTER			Adapter,
++	IN	u8					Idx
++)
++{
++	u8	u1bTmp = 0, tmpReg422 = 0, Head_Page;
++	u8	BcnValidReg = 0, count = 0, DLBcnCount = 0;
++	BOOLEAN			bSendBeacon = _FALSE;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u8	TxPageBndy = LAST_ENTRY_OF_TX_PKT_BUFFER_8812; /* default reseved 1 page for the IC type which is undefined. */
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(&(Adapter->mlmepriv));
++	struct beamforming_entry	*pBeamEntry = pBeamInfo->beamforming_entry + Idx;
++
++	/* pHalData->bFwDwRsvdPageInProgress = _TRUE; */
++
++	if (Idx == 0)
++		Head_Page = 0xFE;
++	else
++		Head_Page = 0xFE;
++
++	rtw_hal_get_def_var(Adapter, HAL_DEF_TX_PAGE_BOUNDARY, (u8 *)&TxPageBndy);
++
++	/* Set REG_CR bit 8. DMA beacon by SW. */
++	u1bTmp = rtw_read8(Adapter, REG_CR + 1);
++	rtw_write8(Adapter,  REG_CR + 1, (u1bTmp | BIT0));
++
++	pHalData->RegCR_1 |= BIT0;
++	rtw_write8(Adapter,  REG_CR + 1, pHalData->RegCR_1);
++
++	/* Set FWHW_TXQ_CTRL 0x422[6]=0 to tell Hw the packet is not a real beacon frame. */
++	tmpReg422 = rtw_read8(Adapter, REG_FWHW_TXQ_CTRL + 2);
++	rtw_write8(Adapter, REG_FWHW_TXQ_CTRL + 2,  tmpReg422 & (~BIT6));
++
++	if (tmpReg422 & BIT6) {
++		RTW_INFO("SetBeamformDownloadNDPA_8812(): There is an Adapter is sending beacon.\n");
++		bSendBeacon = _TRUE;
++	}
++
++	/*	TDECTRL[15:8] 0x209[7:0] = 0xF6	Beacon Head for TXDMA */
++	rtw_write8(Adapter, REG_TDECTRL + 1, Head_Page);
++
++	do {
++		/* Clear beacon valid check bit. */
++		BcnValidReg = rtw_read8(Adapter, REG_TDECTRL + 2);
++		rtw_write8(Adapter, REG_TDECTRL + 2, (BcnValidReg | BIT0));
++
++		/* download NDPA rsvd page. */
++		if (pBeamEntry->beamforming_entry_cap & BEAMFORMER_CAP_VHT_SU)
++			beamforming_send_vht_ndpa_packet(Adapter, pBeamEntry->mac_addr, pBeamEntry->aid, pBeamEntry->sound_bw, BCN_QUEUE_INX);
++		else
++			beamforming_send_ht_ndpa_packet(Adapter, pBeamEntry->mac_addr, pBeamEntry->sound_bw, BCN_QUEUE_INX);
++
++		/* check rsvd page download OK. */
++		BcnValidReg = rtw_read8(Adapter, REG_TDECTRL + 2);
++		count = 0;
++		while (!(BcnValidReg & BIT0) && count < 20) {
++			count++;
++			rtw_udelay_os(10);
++			BcnValidReg = rtw_read8(Adapter, REG_TDECTRL + 2);
++		}
++		DLBcnCount++;
++	} while (!(BcnValidReg & BIT0) && DLBcnCount < 5);
++
++	if (!(BcnValidReg & BIT0))
++		RTW_INFO("%s Download RSVD page failed!\n", __FUNCTION__);
++
++	/*	TDECTRL[15:8] 0x209[7:0] = 0xF6	Beacon Head for TXDMA */
++	rtw_write8(Adapter, REG_TDECTRL + 1, TxPageBndy);
++
++	/* To make sure that if there exists an adapter which would like to send beacon. */
++	/* If exists, the origianl value of 0x422[6] will be 1, we should check this to */
++	/* prevent from setting 0x422[6] to 0 after download reserved page, or it will cause */
++	/* the beacon cannot be sent by HW. */
++	/* 2010.06.23. Added by tynli. */
++	if (bSendBeacon)
++		rtw_write8(Adapter, REG_FWHW_TXQ_CTRL + 2, tmpReg422);
++
++	/* Do not enable HW DMA BCN or it will cause Pcie interface hang by timing issue. 2011.11.24. by tynli. */
++	/* Clear CR[8] or beacon packet will not be send to TxBuf anymore. */
++	u1bTmp = rtw_read8(Adapter, REG_CR + 1);
++	rtw_write8(Adapter, REG_CR + 1, (u1bTmp & (~BIT0)));
++
++	pBeamEntry->beamforming_entry_state = BEAMFORMING_ENTRY_STATE_PROGRESSED;
++
++	/* pHalData->bFwDwRsvdPageInProgress = _FALSE; */
++}
++
++VOID
++SetBeamformFwTxBF_8812(
++	IN	PADAPTER			Adapter,
++	IN	u8					Idx
++)
++{
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(&(Adapter->mlmepriv));
++	struct beamforming_entry	*pBeamEntry = pBeamInfo->beamforming_entry + Idx;
++
++	if (pBeamEntry->beamforming_entry_state == BEAMFORMING_ENTRY_STATE_PROGRESSING)
++		SetBeamformDownloadNDPA_8812(Adapter, Idx);
++
++	SetBeamformFwTxBFCmd_8812(Adapter);
++}
++
++
++VOID
++SetBeamformPatch_8812(
++	IN	PADAPTER			Adapter,
++	IN	u8					Operation
++)
++{
++	HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(Adapter);
++	struct beamforming_info	*pBeamInfo = GET_BEAMFORM_INFO(&(Adapter->mlmepriv));
++
++	if (pBeamInfo->beamforming_cap == BEAMFORMING_CAP_NONE)
++		return;
++
++	/*if(Operation == SCAN_OPT_BACKUP_BAND0)
++	{
++		rtw_write8(Adapter, REG_SND_PTCL_CTRL_8812A, 0xC8);
++	}
++	else if(Operation == SCAN_OPT_RESTORE)
++	{
++		rtw_write8(Adapter, REG_SND_PTCL_CTRL_8812A, 0xCB);
++	}*/
++}
++#endif /*#if (BEAMFORMING_SUPPORT == 0) - for drv beamforming*/
++#endif /*#ifdef CONFIG_BEAMFORMING*/
++
++static void hw_var_set_monitor(PADAPTER Adapter, u8 variable, u8 *val)
++{
++	u32	value_rcr, rcr_bits;
++	u16	value_rxfltmap2;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	struct mlme_priv *pmlmepriv = &(Adapter->mlmepriv);
++
++	if (*((u8 *)val) == _HW_STATE_MONITOR_) {
++
++		/* Receive all type */
++		rcr_bits = RCR_AAP | RCR_APM | RCR_AM | RCR_AB | RCR_APWRMGT | RCR_ADF | RCR_ACF | RCR_AMF | RCR_APP_PHYST_RXFF;
++
++		/* Append FCS */
++		rcr_bits |= RCR_APPFCS;
++
++#if 0
++		/*
++		   CRC and ICV packet will drop in recvbuf2recvframe()
++		   We no turn on it.
++		 */
++		rcr_bits |= (RCR_ACRC32 | RCR_AICV);
++#endif
++
++		/* Receive all data frames */
++		value_rxfltmap2 = 0xFFFF;
++
++		value_rcr = rcr_bits;
++		rtw_write32(Adapter, REG_RCR, value_rcr);
++
++		rtw_write16(Adapter, REG_RXFLTMAP2, value_rxfltmap2);
++
++#if 0
++		/* tx pause */
++		rtw_write8(padapter, REG_TXPAUSE, 0xFF);
++#endif
++	} else {
++		/* do nothing */
++	}
++
++}
++#ifdef CONFIG_MI_WITH_MBSSID_CAM /*HW port0 - MBSS*/
++#if 0
++static void hw_var_set_opmode_mbid(PADAPTER Adapter, u8 mode)
++{
++	rtw_write32(Adapter, REG_RCR, rtw_read32(Adapter, REG_RCR) & (~(RCR_CBSSID_DATA | RCR_CBSSID_BCN)));
++
++
++	RTW_INFO("%s()-"ADPT_FMT" mode = %d\n", __func__, ADPT_ARG(Adapter), mode);
++
++	/* disable Port0 TSF update*/
++	rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL) | DIS_TSF_UDT);
++
++	/* set net_type */
++	Set_MSR(Adapter, mode);
++
++	if ((mode == _HW_STATE_STATION_) || (mode == _HW_STATE_NOLINK_)) {
++		if (!rtw_mi_check_status(Adapter, MI_AP_MODE)) {
++			StopTxBeacon(Adapter);
++#ifdef CONFIG_PCI_HCI
++			UpdateInterruptMask8812AE(Adapter, 0, 0, RT_BCN_INT_MASKS, 0);
++#else
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT
++			rtw_write8(Adapter, REG_DRVERLYINT, 0x05);/*restore early int time to 5ms*/
++			UpdateInterruptMask8812AU(Adapter, _TRUE, 0, IMR_BCNDMAINT0_8812);
++#endif/*CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT*/
++
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR
++			UpdateInterruptMask8812AU(Adapter, _TRUE , 0, (IMR_TXBCN0ERR_8812 | IMR_TXBCN0OK_8812));
++#endif /*CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR*/
++#endif /*CONFIG_INTERRUPT_BASED_TXBCN*/
++#endif
++
++		}
++		rtw_write8(Adapter, REG_BCN_CTRL, DIS_TSF_UDT | EN_BCN_FUNCTION | DIS_ATIM);/*disable atim wnd*/
++	} else if (mode == _HW_STATE_ADHOC_) {
++		ResumeTxBeacon(Adapter);
++		rtw_write8(Adapter, REG_BCN_CTRL, DIS_TSF_UDT | EN_BCN_FUNCTION | DIS_BCNQ_SUB);
++
++	} else if (mode == _HW_STATE_AP_) {
++#ifdef CONFIG_PCI_HCI
++		UpdateInterruptMask8812AE(Adapter, RT_BCN_INT_MASKS, 0, 0, 0);
++#else
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT
++		UpdateInterruptMask8812AU(Adapter, _TRUE , IMR_BCNDMAINT0_8812, 0);
++#endif/*CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT*/
++
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR
++		UpdateInterruptMask8812AU(Adapter, _TRUE , (IMR_TXBCN0ERR_8812 | IMR_TXBCN0OK_8812), 0);
++#endif/*CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR*/
++
++#endif /*CONFIG_INTERRUPT_BASED_TXBCN*/
++#endif
++		ResumeTxBeacon(Adapter);
++
++		rtw_write8(Adapter, REG_BCN_CTRL, DIS_TSF_UDT | DIS_BCNQ_SUB);
++
++		/*enable to rx data frame*/
++		rtw_write16(Adapter, REG_RXFLTMAP2, 0xFFFF);
++
++		/*Beacon Control related register for first time*/
++		rtw_write8(Adapter, REG_BCNDMATIM, 0x02); /* 2ms */
++
++		/*rtw_write8(Adapter, REG_BCN_MAX_ERR, 0xFF);*/
++		rtw_write8(Adapter, REG_ATIMWND, 0x0a); /* 10ms */
++		rtw_write16(Adapter, REG_BCNTCFG, 0x00);
++		rtw_write16(Adapter, REG_TBTT_PROHIBIT, 0xff04);
++		rtw_write16(Adapter, REG_TSFTR_SYN_OFFSET, 0x7fff);/* +32767 (~32ms) */
++
++		/*reset TSF*/
++		rtw_write8(Adapter, REG_DUAL_TSF_RST, BIT(0));
++
++		/*enable BCN0 Function for if1*/
++		/*don't enable update TSF0 for if1 (due to TSF update when beacon,probe rsp are received)*/
++		rtw_write8(Adapter, REG_BCN_CTRL, (DIS_TSF_UDT | EN_BCN_FUNCTION | EN_TXBCN_RPT | DIS_BCNQ_SUB));
++
++		if (IS_HARDWARE_TYPE_8821(Adapter))/* select BCN on port 0*/
++			rtw_write8(Adapter, REG_CCK_CHECK_8812,	rtw_read8(Adapter, REG_CCK_CHECK_8812) & (~BIT_BCN_PORT_SEL));
++
++	}
++
++}
++#endif
++#endif
++static void hw_var_set_opmode(PADAPTER Adapter, u8 variable, u8 *val)
++{
++	u8	val8;
++	u8	mode = *((u8 *)val);
++	u32	value_rcr;
++	static u8 isMonitor = _FALSE;
++
++	HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(Adapter);
++
++	if (isMonitor == _TRUE) {
++		/* reset RCR */
++		rtw_write32(Adapter, REG_RCR, pHalData->ReceiveConfig);
++		isMonitor = _FALSE;
++	}
++
++	if (mode == _HW_STATE_MONITOR_) {
++		isMonitor = _TRUE;
++		/* set net_type */
++		Set_MSR(Adapter, _HW_STATE_NOLINK_);
++
++		hw_var_set_monitor(Adapter, variable, val);
++		return;
++	}
++
++	rtw_hal_set_hwreg(Adapter, HW_VAR_MAC_ADDR, adapter_mac_addr(Adapter)); /* set mac addr to mac register */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (Adapter->hw_port == HW_PORT1) {
++		/* disable Port1 TSF update */
++		rtw_write8(Adapter, REG_BCN_CTRL_1, rtw_read8(Adapter, REG_BCN_CTRL_1) | DIS_TSF_UDT);
++
++		/* set net_type */
++		Set_MSR(Adapter, mode);
++
++		RTW_INFO("%s()-%d mode = %d\n", __FUNCTION__, __LINE__, mode);
++
++		if ((mode == _HW_STATE_STATION_) || (mode == _HW_STATE_NOLINK_)) {
++			if (!rtw_mi_check_status(Adapter, MI_AP_MODE)) {
++				StopTxBeacon(Adapter);
++#ifdef CONFIG_PCI_HCI
++				UpdateInterruptMask8812AE(Adapter, 0, 0, RT_BCN_INT_MASKS, 0);
++#else
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN
++
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT
++				rtw_write8(Adapter, REG_DRVERLYINT, 0x05);/* restore early int time to 5ms */
++				UpdateInterruptMask8812AU(Adapter, _TRUE, 0, IMR_BCNDMAINT0_8812);
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT */
++
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR
++				UpdateInterruptMask8812AU(Adapter, _TRUE , 0, (IMR_TXBCN0ERR_8812 | IMR_TXBCN0OK_8812));
++#endif/* CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR */
++
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN */
++#endif
++			}
++
++			rtw_write8(Adapter, REG_BCN_CTRL_1, 0x11); /* disable atim wnd and disable beacon function */
++			/* rtw_write8(Adapter,REG_BCN_CTRL_1, 0x18); */
++		} else if ((mode == _HW_STATE_ADHOC_) /*|| (mode == _HW_STATE_AP_)*/) {
++			ResumeTxBeacon(Adapter);
++			rtw_write8(Adapter, REG_BCN_CTRL_1, 0x1a);
++		} else if (mode == _HW_STATE_AP_) {
++#ifdef CONFIG_PCI_HCI
++			UpdateInterruptMask8812AE(Adapter, RT_BCN_INT_MASKS, 0, 0, 0);
++#else
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT
++			UpdateInterruptMask8812AU(Adapter, _TRUE , IMR_BCNDMAINT0_8812, 0);
++#endif/* CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT */
++
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR
++			UpdateInterruptMask8812AU(Adapter, _TRUE , (IMR_TXBCN0ERR_8812 | IMR_TXBCN0OK_8812), 0);
++#endif/* CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR */
++
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN */
++#endif
++
++			ResumeTxBeacon(Adapter);
++
++			rtw_write8(Adapter, REG_BCN_CTRL_1, 0x12);
++
++#ifdef CONFIG_PCI_HCI
++			/*Beacon is polled to TXBUF SWBCN*/
++			rtw_write32(Adapter, REG_CR, rtw_read32(Adapter, REG_CR) | BIT(8));
++			RTW_INFO("CR:SWBCN %x\n", rtw_read32(Adapter, 0x100));
++#endif
++			/* Set RCR */
++			/* rtw_write32(padapter, REG_RCR, 0x70002a8e); */ /* CBSSID_DATA must set to 0 */
++			/* rtw_write32(Adapter, REG_RCR, 0x7000228e); */ /* CBSSID_DATA must set to 0 */
++			/* rtw_write32(Adapter, REG_RCR, 0x7000208e); */ /* CBSSID_DATA must set to 0,reject ICV_ERR packet */
++			value_rcr = rtw_read32(Adapter, REG_RCR);
++			value_rcr &= ~(RCR_CBSSID_DATA);/* Clear CBSSID_DATA */
++
++			/* for 11n Logo 4.2.31/4.2.32, disable BSSID BCN check for AP mode */
++			if (Adapter->registrypriv.wifi_spec)
++				value_rcr &= ~(RCR_CBSSID_BCN);
++
++			rtw_write32(Adapter, REG_RCR, value_rcr);
++
++			/* enable to rx data frame */
++			rtw_write16(Adapter, REG_RXFLTMAP2, 0xFFFF);
++
++			/* Beacon Control related register for first time */
++			rtw_write8(Adapter, REG_BCNDMATIM, 0x02); /* 2ms		 */
++
++			/* rtw_write8(Adapter, REG_BCN_MAX_ERR, 0xFF); */
++			rtw_write8(Adapter, REG_ATIMWND_1, 0x0a); /* 10ms for port1 */
++			rtw_write16(Adapter, REG_BCNTCFG, 0x00);
++			rtw_write16(Adapter, REG_TBTT_PROHIBIT, 0xff04);
++			rtw_write16(Adapter, REG_TSFTR_SYN_OFFSET, 0x7fff);/* +32767 (~32ms) */
++
++			/* reset TSF2	 */
++			rtw_write8(Adapter, REG_DUAL_TSF_RST, BIT(1));
++
++			/* enable BCN1 Function for if2 */
++			/* don't enable update TSF1 for if2 (due to TSF update when beacon/probe rsp are received) */
++			rtw_write8(Adapter, REG_BCN_CTRL_1, (DIS_TSF_UDT | EN_BCN_FUNCTION | EN_TXBCN_RPT | DIS_BCNQ_SUB));
++
++			if (IS_HARDWARE_TYPE_8821(Adapter)) {
++				/* select BCN on port 1 */
++				rtw_write8(Adapter, REG_CCK_CHECK_8812,	 rtw_read8(Adapter, REG_CCK_CHECK_8812) | BIT(5));
++			}
++
++			if (!rtw_mi_buddy_check_fwstate(Adapter, WIFI_FW_ASSOC_SUCCESS))
++				rtw_write8(Adapter, REG_BCN_CTRL,
++					rtw_read8(Adapter, REG_BCN_CTRL) & ~EN_BCN_FUNCTION);
++
++			/* BCN1 TSF will sync to BCN0 TSF with offset(0x518) if if1_sta linked */
++			/* rtw_write8(Adapter, REG_BCN_CTRL_1, rtw_read8(Adapter, REG_BCN_CTRL_1)|BIT(5)); */
++			/* rtw_write8(Adapter, REG_DUAL_TSF_RST, BIT(3)); */
++
++			/* dis BCN0 ATIM  WND if if1 is station */
++			rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL) | DIS_ATIM);
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++			/* Reset TSF for STA+AP concurrent mode */
++			if (rtw_mi_buddy_check_fwstate(Adapter, (WIFI_STATION_STATE | WIFI_ASOC_STATE))) {
++				if (reset_tsf(Adapter, HW_PORT1) == _FALSE)
++					RTW_INFO("ERROR! %s()-%d: Reset port1 TSF fail\n",
++						 __FUNCTION__, __LINE__);
++			}
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++		}
++	} else /* else for port0 */
++#endif /* CONFIG_CONCURRENT_MODE */
++	{
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM /*For 2 hw ports - 88E/92E/8812/8821/8723B*/
++		hw_var_set_opmode_mbid(Adapter, mode);
++#else
++		/* disable Port0 TSF update */
++		rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL) | DIS_TSF_UDT);
++
++		/* set net_type */
++		Set_MSR(Adapter, mode);
++
++		RTW_INFO("%s()-%d mode = %d\n", __func__, __LINE__, mode);
++
++		if ((mode == _HW_STATE_STATION_) || (mode == _HW_STATE_NOLINK_)) {
++#ifdef CONFIG_CONCURRENT_MODE
++			if (!rtw_mi_check_status(Adapter, MI_AP_MODE))
++#endif /* CONFIG_CONCURRENT_MODE */
++			{
++				StopTxBeacon(Adapter);
++#ifdef CONFIG_PCI_HCI
++				UpdateInterruptMask8812AE(Adapter, 0, 0, RT_BCN_INT_MASKS, 0);
++#else
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT
++				rtw_write8(Adapter, REG_DRVERLYINT, 0x05);/* restore early int time to 5ms					 */
++				UpdateInterruptMask8812AU(Adapter, _TRUE, 0, IMR_BCNDMAINT0_8812);
++#endif/* CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT */
++
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR
++				UpdateInterruptMask8812AU(Adapter, _TRUE , 0, (IMR_TXBCN0ERR_8812 | IMR_TXBCN0OK_8812));
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR */
++
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN */
++#endif
++			}
++
++			rtw_write8(Adapter, REG_BCN_CTRL, 0x19); /* disable atim wnd */
++			/* rtw_write8(Adapter,REG_BCN_CTRL, 0x18); */
++		} else if ((mode == _HW_STATE_ADHOC_) /*|| (mode == _HW_STATE_AP_)*/) {
++			ResumeTxBeacon(Adapter);
++			rtw_write8(Adapter, REG_BCN_CTRL, 0x1a);
++		} else if (mode == _HW_STATE_AP_) {
++#ifdef CONFIG_PCI_HCI
++			UpdateInterruptMask8812AE(Adapter, RT_BCN_INT_MASKS, 0, 0, 0);
++#else
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT
++			UpdateInterruptMask8812AU(Adapter, _TRUE , IMR_BCNDMAINT0_8812, 0);
++#endif/* CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT */
++
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR
++			UpdateInterruptMask8812AU(Adapter, _TRUE , (IMR_TXBCN0ERR_8812 | IMR_TXBCN0OK_8812), 0);
++#endif/* CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR */
++
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN */
++#endif
++
++			ResumeTxBeacon(Adapter);
++
++			rtw_write8(Adapter, REG_BCN_CTRL, 0x12);
++#ifdef CONFIG_PCI_HCI
++			/*Beacon is polled to TXBUF SWBCN*/
++			rtw_write32(Adapter, REG_CR, rtw_read32(Adapter, REG_CR) | BIT(8));
++			RTW_INFO("CR:SWBCN %x\n", rtw_read32(Adapter, 0x100));
++#endif
++
++			/* Set RCR */
++			/* rtw_write32(padapter, REG_RCR, 0x70002a8e); */ /* CBSSID_DATA must set to 0 */
++			/* rtw_write32(Adapter, REG_RCR, 0x7000228e); */ /* CBSSID_DATA must set to 0 */
++			/* rtw_write32(Adapter, REG_RCR, 0x7000208e); */ /* CBSSID_DATA must set to 0,reject ICV_ERR packet */
++			value_rcr = rtw_read32(Adapter, REG_RCR);
++			value_rcr &= ~(RCR_CBSSID_DATA);/* Clear CBSSID_DATA */
++
++			/* for 11n Logo 4.2.31/4.2.32, disable BSSID BCN check for AP mode */
++			if (Adapter->registrypriv.wifi_spec)
++				value_rcr &= ~(RCR_CBSSID_BCN);
++
++			rtw_write32(Adapter, REG_RCR, value_rcr);
++
++			/* enable to rx data frame */
++			rtw_write16(Adapter, REG_RXFLTMAP2, 0xFFFF);
++
++			/* Beacon Control related register for first time */
++			rtw_write8(Adapter, REG_BCNDMATIM, 0x02); /* 2ms			 */
++
++			/* rtw_write8(Adapter, REG_BCN_MAX_ERR, 0xFF); */
++			rtw_write8(Adapter, REG_ATIMWND, 0x0a); /* 10ms */
++			rtw_write16(Adapter, REG_BCNTCFG, 0x00);
++			rtw_write16(Adapter, REG_TBTT_PROHIBIT, 0xff04);
++			rtw_write16(Adapter, REG_TSFTR_SYN_OFFSET, 0x7fff);/* +32767 (~32ms) */
++
++			/* reset TSF */
++			rtw_write8(Adapter, REG_DUAL_TSF_RST, BIT(0));
++
++			/* enable BCN0 Function for if1 */
++			/* don't enable update TSF0 for if1 (due to TSF update when beacon/probe rsp are received) */
++			rtw_write8(Adapter, REG_BCN_CTRL, (DIS_TSF_UDT | EN_BCN_FUNCTION | EN_TXBCN_RPT | DIS_BCNQ_SUB));
++
++			if (IS_HARDWARE_TYPE_8821(Adapter)) {
++				/* select BCN on port 0 */
++				rtw_write8(Adapter, REG_CCK_CHECK_8812,	rtw_read8(Adapter, REG_CCK_CHECK_8812) & (~BIT(5)));
++			}
++
++#ifdef CONFIG_CONCURRENT_MODE
++			if (!rtw_mi_buddy_check_fwstate(Adapter, WIFI_FW_ASSOC_SUCCESS))
++				rtw_write8(Adapter, REG_BCN_CTRL_1,
++					rtw_read8(Adapter, REG_BCN_CTRL_1) & ~EN_BCN_FUNCTION);
++#endif
++
++			/* dis BCN1 ATIM  WND if if2 is station */
++			rtw_write8(Adapter, REG_BCN_CTRL_1, rtw_read8(Adapter, REG_BCN_CTRL_1) | DIS_ATIM);
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++			/* Reset TSF for STA+AP concurrent mode */
++			if (rtw_mi_buddy_check_fwstate(Adapter, (WIFI_STATION_STATE | WIFI_ASOC_STATE))) {
++				if (reset_tsf(Adapter, HW_PORT0) == _FALSE)
++					RTW_INFO("ERROR! %s()-%d: Reset port0 TSF fail\n",
++						 __FUNCTION__, __LINE__);
++			}
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++		}
++#endif /*#ifdef CONFIG_MI_WITH_MBSSID_CAM*/
++	}
++}
++
++static void hw_var_set_bcn_func(PADAPTER Adapter, u8 variable, u8 *val)
++{
++	u32 bcn_ctrl_reg;
++	u8 val8;
++#ifdef CONFIG_CONCURRENT_MODE
++	if (Adapter->hw_port == HW_PORT1)
++		bcn_ctrl_reg = REG_BCN_CTRL_1;
++	else
++#endif
++		bcn_ctrl_reg = REG_BCN_CTRL;
++
++
++	if (*((u8 *)val))
++		rtw_write8(Adapter, bcn_ctrl_reg, (EN_BCN_FUNCTION | EN_TXBCN_RPT));
++	else {
++
++		u8 val8;
++		val8 = rtw_read8(Adapter, bcn_ctrl_reg);
++		val8 &= ~(EN_BCN_FUNCTION | EN_TXBCN_RPT);
++
++#ifdef CONFIG_BT_COEXIST
++		if (GET_HAL_DATA(Adapter)->EEPROMBluetoothCoexist == 1) {
++			/* Always enable port0 beacon function for PSTDMA */
++			if (REG_BCN_CTRL == bcn_ctrl_reg)
++				val8 |= EN_BCN_FUNCTION;
++		}
++#endif
++
++		rtw_write8(Adapter, bcn_ctrl_reg, val8);
++		/* rtw_write8(Adapter, bcn_ctrl_reg, rtw_read8(Adapter, bcn_ctrl_reg)&(~(EN_BCN_FUNCTION | EN_TXBCN_RPT))); */
++	}
++
++
++}
++
++static void hw_var_set_correct_tsf(PADAPTER Adapter, u8 variable, u8 *val)
++{
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++	/*do nothing*/
++#else
++	u64	tsf;
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	/*tsf = pmlmeext->TSFValue - ((u32)pmlmeext->TSFValue % (pmlmeinfo->bcn_interval*1024)) -1024; */
++	tsf = pmlmeext->TSFValue - rtw_modular64(pmlmeext->TSFValue, (pmlmeinfo->bcn_interval * 1024)) - 1024; /*us*/
++
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) || ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE)) {
++		/*pHalData->RegTxPause |= STOP_BCNQ;BIT(6)
++		rtw_write8(Adapter, REG_TXPAUSE, (rtw_read8(Adapter, REG_TXPAUSE)|BIT(6)));*/
++		StopTxBeacon(Adapter);
++	}
++
++	rtw_hal_correct_tsf(Adapter, Adapter->hw_port, tsf);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	/* Update buddy port's TSF if it is SoftAP for beacon TX issue!*/
++	if ((pmlmeinfo->state & 0x03) == WIFI_FW_STATION_STATE
++	    && rtw_mi_check_status(Adapter, MI_AP_MODE)) {
++
++		struct dvobj_priv *dvobj = adapter_to_dvobj(Adapter);
++		int i;
++		_adapter *iface;
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if (!iface)
++				continue;
++			if (iface == Adapter)
++				continue;
++
++			if (check_fwstate(&iface->mlmepriv, WIFI_AP_STATE) == _TRUE
++			    && check_fwstate(&iface->mlmepriv, WIFI_ASOC_STATE) == _TRUE
++			   ) {
++				rtw_hal_correct_tsf(iface, iface->hw_port, tsf);
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++				if (reset_tsf(iface, iface->hw_port) == _FALSE)
++					RTW_INFO("%s-[ERROR] "ADPT_FMT" Reset port%d TSF fail\n", __func__, ADPT_ARG(iface), iface->hw_port);
++#endif	/* CONFIG_TSF_RESET_OFFLOAD*/
++			}
++		}
++	}
++#endif /*CONFIG_CONCURRENT_MODE*/
++
++	if (((pmlmeinfo->state & 0x03) == WIFI_FW_ADHOC_STATE) || ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE)) {
++		/*pHalData->RegTxPause  &= (~STOP_BCNQ);
++		rtw_write8(Adapter, REG_TXPAUSE, (rtw_read8(Adapter, REG_TXPAUSE)&(~BIT(6))));*/
++		ResumeTxBeacon(Adapter);
++	}
++#endif/*CONFIG_MI_WITH_MBSSID_CAM*/
++}
++
++static void hw_var_set_mlme_disconnect(PADAPTER Adapter, u8 variable, u8 *val)
++{
++
++#ifdef DBG_IFACE_STATUS
++	DBG_IFACE_STATUS_DUMP(Adapter);
++#endif
++
++	/*Set RCR to not to receive data frame when NO LINK state
++	rtw_write32(Adapter, REG_RCR, rtw_read32(padapter, REG_RCR) & ~RCR_ADF);
++	reject all data frames	*/
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(Adapter, MI_LINKED) == _FALSE)
++#endif
++		rtw_write16(Adapter, REG_RXFLTMAP2, 0x00);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (Adapter->hw_port == HW_PORT1) {
++		/*reset TSF1*/
++		rtw_write8(Adapter, REG_DUAL_TSF_RST, BIT(1));
++
++		/*disable update TSF1*/
++		rtw_write8(Adapter, REG_BCN_CTRL_1, rtw_read8(Adapter, REG_BCN_CTRL_1) | DIS_TSF_UDT);
++
++		/* disable Port1's beacon function*/
++		rtw_write8(Adapter, REG_BCN_CTRL_1, rtw_read8(Adapter, REG_BCN_CTRL_1) & (~BIT(3)));
++	} else
++#endif
++	{
++		/*reset TSF*/
++		rtw_write8(Adapter, REG_DUAL_TSF_RST, BIT(0));
++
++		/*disable update TSF*/
++		rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL) | DIS_TSF_UDT);
++	}
++
++}
++
++
++static void hw_var_set_mlme_sitesurvey(PADAPTER Adapter, u8 variable, u8 *val)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(Adapter);
++	u32	value_rcr, rcr_clear_bit;
++	u16	value_rxfltmap2;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	int i;
++	_adapter *iface;
++
++#ifdef DBG_IFACE_STATUS
++	DBG_IFACE_STATUS_DUMP(Adapter);
++#endif
++
++
++#ifdef CONFIG_FIND_BEST_CHANNEL
++
++	rcr_clear_bit = (RCR_CBSSID_BCN | RCR_CBSSID_DATA);
++
++	/* Receive all data frames */
++	value_rxfltmap2 = 0xFFFF;
++
++#else /* CONFIG_FIND_BEST_CHANNEL */
++
++	rcr_clear_bit = RCR_CBSSID_BCN;
++
++	/* config RCR to receive different BSSID & not to receive data frame */
++	value_rxfltmap2 = 0;
++
++#endif /* CONFIG_FIND_BEST_CHANNEL */
++
++	if (rtw_mi_check_fwstate(Adapter, WIFI_AP_STATE))
++		rcr_clear_bit = RCR_CBSSID_BCN;
++
++#ifdef CONFIG_TDLS
++	/* TDLS will clear RCR_CBSSID_DATA bit for connection. */
++	else if (Adapter->tdlsinfo.link_established == _TRUE)
++		rcr_clear_bit = RCR_CBSSID_BCN;
++#endif /*CONFIG_TDLS*/
++
++	value_rcr = rtw_read32(Adapter, REG_RCR);
++
++	if (*((u8 *)val)) {/*under sitesurvey*/
++		/*
++		* 1. configure REG_RXFLTMAP2
++		* 2. disable TSF update &  buddy TSF update to avoid updating wrong TSF due to clear RCR_CBSSID_BCN
++		* 3. config RCR to receive different BSSID BCN or probe rsp
++		*/
++
++		rtw_write16(Adapter, REG_RXFLTMAP2, value_rxfltmap2);
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		/*do nothing~~*/
++#else
++
++		/* disable update TSF */
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if (!iface)
++				continue;
++
++			if (rtw_linked_check(iface) &&
++			    check_fwstate(&(iface->mlmepriv), WIFI_AP_STATE) != _TRUE) {
++				if (iface->hw_port == HW_PORT1)
++					rtw_write8(iface, REG_BCN_CTRL_1, rtw_read8(iface, REG_BCN_CTRL_1) | DIS_TSF_UDT);
++				else
++					rtw_write8(iface, REG_BCN_CTRL, rtw_read8(iface, REG_BCN_CTRL) | DIS_TSF_UDT);
++
++				iface->mlmeextpriv.en_hw_update_tsf = _FALSE;
++			}
++
++		}
++#endif
++
++		value_rcr &= ~(rcr_clear_bit);
++		rtw_write32(Adapter, REG_RCR, value_rcr);
++
++		/* Save orignal RRSR setting.*/
++		pHalData->RegRRSR = rtw_read16(Adapter, REG_RRSR);
++
++#ifdef CONFIG_BEAMFORMING
++		/* set 718[1:0]=2'b00 to avoid BF scan hang */
++		pHalData->backup_snd_ptcl_ctrl = rtw_read8(Adapter, REG_SND_PTCL_CTRL_8812A);
++		rtw_write8(Adapter, REG_SND_PTCL_CTRL_8812A, (pHalData->backup_snd_ptcl_ctrl & 0xfc));
++#endif /* CONFIG_BEAMFORMING */
++
++		if (rtw_mi_check_status(Adapter, MI_AP_MODE))
++			StopTxBeacon(Adapter);
++	} else {/*sitesurvey done*/
++		/*
++		* 1. enable rx data frame
++		* 2. config RCR not to receive different BSSID BCN or probe rsp
++		* 3. doesn't enable TSF update &  buddy TSF right now to avoid HW conflict
++		*	 so, we enable TSF update when rx first BCN after sitesurvey done
++		*/
++
++		if (rtw_mi_check_fwstate(Adapter, _FW_LINKED | WIFI_AP_STATE))
++			rtw_write16(Adapter, REG_RXFLTMAP2, 0xFFFF);/*enable to rx data frame*/
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		value_rcr &= ~(RCR_CBSSID_BCN | RCR_CBSSID_DATA);
++#else
++		value_rcr |= rcr_clear_bit;
++#endif
++
++		/* for 11n Logo 4.2.31/4.2.32, disable BSSID BCN check for AP mode */
++		if (Adapter->registrypriv.wifi_spec && MLME_IS_AP(Adapter))
++			value_rcr &= ~(RCR_CBSSID_BCN);
++
++		rtw_write32(Adapter, REG_RCR, value_rcr);
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		/*if ((rtw_mi_get_assoced_sta_num(Adapter) == 1) && (!rtw_mi_check_status(Adapter, MI_AP_MODE)))
++			rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL)&(~DIS_TSF_UDT));*/
++#else
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if (!iface)
++				continue;
++			if (rtw_linked_check(iface) &&
++			    check_fwstate(&(iface->mlmepriv), WIFI_AP_STATE) != _TRUE) {
++				/* enable HW TSF update when recive beacon*/
++				/*if (iface->hw_port == HW_PORT1)
++					rtw_write8(iface, REG_BCN_CTRL_1, rtw_read8(iface, REG_BCN_CTRL_1)&(~(DIS_TSF_UDT)));
++				else
++					rtw_write8(iface, REG_BCN_CTRL, rtw_read8(iface, REG_BCN_CTRL)&(~(DIS_TSF_UDT)));
++				*/
++				iface->mlmeextpriv.en_hw_update_tsf = _TRUE;
++			}
++		}
++#endif
++
++		/* Restore orignal RRSR setting. */
++		rtw_write16(Adapter, REG_RRSR, pHalData->RegRRSR);
++
++#ifdef CONFIG_BEAMFORMING
++		/* Restore orignal 0x718 setting*/
++		rtw_write8(Adapter, REG_SND_PTCL_CTRL_8812A, pHalData->backup_snd_ptcl_ctrl);
++#endif /* CONFIG_BEAMFORMING */
++
++		if (rtw_mi_get_ap_num(Adapter)) {
++			ResumeTxBeacon(Adapter);
++			rtw_mi_tx_beacon_hdl(Adapter);
++		}
++	}
++}
++
++static void hw_var_set_mlme_join(PADAPTER Adapter, u8 variable, u8 *val)
++{
++#ifdef CONFIG_CONCURRENT_MODE
++	u8	RetryLimit = 0x30;
++	u8	type = *((u8 *)val);
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	struct mlme_priv	*pmlmepriv = &Adapter->mlmepriv;
++#ifdef DBG_IFACE_STATUS
++	DBG_IFACE_STATUS_DUMP(Adapter);
++#endif
++	if (type == 0) {/* prepare to join */
++		if (rtw_mi_check_status(Adapter, MI_AP_MODE))
++			StopTxBeacon(Adapter);
++
++		/*enable to rx data frame.Accept all data frame REG_RCR-RCR_ADF*/
++		rtw_write16(Adapter, REG_RXFLTMAP2, 0xFFFF);
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		/*
++		if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) && (rtw_mi_get_assoced_sta_num(Adapter) == 1))
++			rtw_write32(Adapter, REG_RCR, rtw_read32(Adapter, REG_RCR)|RCR_CBSSID_DATA|RCR_CBSSID_BCN);
++		else if ((rtw_mi_get_ap_num(Adapter) == 1) && (rtw_mi_get_assoced_sta_num(Adapter) == 1))
++			rtw_write32(Adapter, REG_RCR, rtw_read32(Adapter, REG_RCR)|RCR_CBSSID_BCN);
++		else*/
++		rtw_write32(Adapter, REG_RCR, rtw_read32(Adapter, REG_RCR) & (~(RCR_CBSSID_DATA | RCR_CBSSID_BCN)));
++#else
++		if (rtw_mi_check_status(Adapter, MI_AP_MODE))
++			rtw_write32(Adapter, REG_RCR, rtw_read32(Adapter, REG_RCR) | RCR_CBSSID_BCN);
++		else
++			rtw_write32(Adapter, REG_RCR, rtw_read32(Adapter, REG_RCR) | RCR_CBSSID_DATA | RCR_CBSSID_BCN);
++
++#endif
++		if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++			RetryLimit = (pHalData->CustomerID == RT_CID_CCX) ? 7 : 48;
++		else /* Ad-hoc Mode */
++			RetryLimit = 0x7;
++
++	} else if (type == 1) { /*joinbss_event call back when joi res < 0 */
++
++		if (rtw_mi_check_status(Adapter, MI_LINKED) == _FALSE)
++			rtw_write16(Adapter, REG_RXFLTMAP2, 0x00);
++
++		if (rtw_mi_check_status(Adapter, MI_AP_MODE)) {
++			ResumeTxBeacon(Adapter);
++
++			/*reset TSF 1/2 after ResumeTxBeacon*/
++			rtw_write8(Adapter, REG_DUAL_TSF_RST, BIT(1) | BIT(0));
++		}
++	} else if (type == 2) { /*sta add event call back*/
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		/*if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) && (rtw_mi_get_assoced_sta_num(Adapter) == 1))
++			rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL)&(~DIS_TSF_UDT));*/
++#else
++		/*enable update TSF*/
++		if (Adapter->hw_port == HW_PORT0)
++			rtw_write8(Adapter, REG_BCN_CTRL, rtw_read8(Adapter, REG_BCN_CTRL) & (~DIS_TSF_UDT));
++		else
++			rtw_write8(Adapter, REG_BCN_CTRL_1, rtw_read8(Adapter, REG_BCN_CTRL_1) & (~DIS_TSF_UDT));
++#endif
++
++		if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE | WIFI_ADHOC_MASTER_STATE)) {
++			/*fixed beacon issue for 8191su...........*/
++			rtw_write8(Adapter, 0x542 , 0x02);
++			RetryLimit = 0x7;
++		}
++
++		if (rtw_mi_check_status(Adapter, MI_AP_MODE)) {
++			ResumeTxBeacon(Adapter);
++
++			/*reset TSF 1/2 after ResumeTxBeacon*/
++			rtw_write8(Adapter, REG_DUAL_TSF_RST, BIT(1) | BIT(0));
++		}
++
++	}
++
++	rtw_write16(Adapter, REG_RL, RetryLimit << RETRY_LIMIT_SHORT_SHIFT | RetryLimit << RETRY_LIMIT_LONG_SHIFT);
++
++#endif
++}
++
++static void hw_var_backup_IQK_val(PADAPTER padapter, struct hal_iqk_reg_backup *pRecPosForBkp)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++
++	pRecPosForBkp->central_chnl = pHalData->CurrentChannel;
++	pRecPosForBkp->bw_mode = pHalData->CurrentChannelBW;
++
++	/* According to phydm code (phy_IQCalibrate_8821A) & (phy_IQCalibrate_8812A) */
++	if (IS_HARDWARE_TYPE_8821(padapter)) {
++		/* for RF_PATH_A Tx */
++		PHY_SetBBReg(padapter, 0x82C, BIT(31), 0x1);
++		pRecPosForBkp->reg_backup[0][0] = rtw_read32(padapter, 0xCCC);
++		pRecPosForBkp->reg_backup[0][1] = rtw_read32(padapter, 0xCD4);
++		/* for RF_PATH_A Rx */
++		PHY_SetBBReg(padapter, 0x82C, BIT(31), 0x0);
++		pRecPosForBkp->reg_backup[0][2] = rtw_read32(padapter, 0xC10);
++	} else if (IS_HARDWARE_TYPE_8812(padapter)) {
++		/* for RF_PATH_A Tx */
++		PHY_SetBBReg(padapter, 0x82C, BIT(31), 0x1);
++		pRecPosForBkp->reg_backup[0][0] = rtw_read32(padapter, 0xCCC);
++		pRecPosForBkp->reg_backup[0][1] = rtw_read32(padapter, 0xCD4);
++		/* for RF_PATH_A Rx */
++		PHY_SetBBReg(padapter, 0x82C, BIT(31), 0x0);
++		pRecPosForBkp->reg_backup[0][2] = rtw_read32(padapter, 0xC10);
++		/* for RF_PATH_B Tx */
++		PHY_SetBBReg(padapter, 0x82C, BIT(31), 0x1);
++		pRecPosForBkp->reg_backup[1][0] = rtw_read32(padapter, 0xECC);
++		pRecPosForBkp->reg_backup[1][1] = rtw_read32(padapter, 0xED4);
++		/* for RF_PATH_B Rx */
++		PHY_SetBBReg(padapter, 0x82C, BIT(31), 0x0);
++		pRecPosForBkp->reg_backup[1][2] = rtw_read32(padapter, 0xE10);
++	}
++}
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++static void hw_var_restore_IQK_val_TDLS(PADAPTER padapter)
++{
++	u8 i;
++	u8 central_chnl_now = 0;
++	u8 bw_mode_now = 0;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	u8 RecPosForRetore;
++	u8 MatchedRec = _FALSE;
++
++	central_chnl_now = rtw_get_center_ch(dvobj->oper_channel, dvobj->oper_bwmode, dvobj->oper_ch_offset);
++	bw_mode_now = dvobj->oper_bwmode;
++
++	/* To search for the matched record */
++	for (i = 0; i < MAX_IQK_INFO_BACKUP_CHNL_NUM; i++) {
++		if ((pHalData->iqk_reg_backup[i].central_chnl == central_chnl_now) &&
++		    (pHalData->iqk_reg_backup[i].bw_mode == bw_mode_now)) {
++			MatchedRec = _TRUE;
++			RecPosForRetore = i;
++			break;
++		}
++	}
++
++	if (MatchedRec == _FALSE)
++		return;
++
++	if (IS_HARDWARE_TYPE_8821(padapter)) {
++		/* for RF_PATH_A Tx */
++		PHY_SetBBReg(padapter, 0x82C, BIT(31), 0x1);
++		PHY_SetBBReg(padapter, 0xCCC, 0x000007FF, pHalData->iqk_reg_backup[RecPosForRetore].reg_backup[0][0]);
++		PHY_SetBBReg(padapter, 0xCD4, 0x000007FF, pHalData->iqk_reg_backup[RecPosForRetore].reg_backup[0][1]);
++		/* for RF_PATH_A Rx */
++		PHY_SetBBReg(padapter, 0x82C, BIT(31), 0x0);
++		PHY_SetBBReg(padapter, 0xC10, 0x03FF03FF, pHalData->iqk_reg_backup[RecPosForRetore].reg_backup[0][2]);
++	} else if (IS_HARDWARE_TYPE_8812(padapter)) {
++		/* for RF_PATH_A Tx */
++		PHY_SetBBReg(padapter, 0x82C, BIT(31), 0x1);
++		PHY_SetBBReg(padapter, 0xCCC, 0x000007FF, pHalData->iqk_reg_backup[RecPosForRetore].reg_backup[0][0]);
++		PHY_SetBBReg(padapter, 0xCD4, 0x000007FF, pHalData->iqk_reg_backup[RecPosForRetore].reg_backup[0][1]);
++		/* for RF_PATH_A Rx */
++		PHY_SetBBReg(padapter, 0x82C, BIT(31), 0x0);
++		PHY_SetBBReg(padapter, 0xC10, 0x03FF03FF, pHalData->iqk_reg_backup[RecPosForRetore].reg_backup[0][2]);
++		/* for RF_PATH_B Tx */
++		PHY_SetBBReg(padapter, 0x82C, BIT(31), 0x1);
++		PHY_SetBBReg(padapter, 0xECC, 0x000007FF, pHalData->iqk_reg_backup[RecPosForRetore].reg_backup[1][0]);
++		PHY_SetBBReg(padapter, 0xED4, 0x000007FF, pHalData->iqk_reg_backup[RecPosForRetore].reg_backup[1][1]);
++		/* for RF_PATH_B Rx */
++		PHY_SetBBReg(padapter, 0x82C, BIT(31), 0x0);
++		PHY_SetBBReg(padapter, 0xE10, 0x03FF03FF, pHalData->iqk_reg_backup[RecPosForRetore].reg_backup[1][2]);
++	}
++}
++#endif
++#endif
++
++#ifdef CONFIG_MCC_MODE
++static void hw_var_restore_IQK_val_MCC(PADAPTER padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mcc_adapter_priv *pmccadapriv = &padapter->mcc_adapterpriv;
++	u8 i = 0;
++	u8 central_chnl_now = 0, bw_mode_now = 0;
++	u8 chidx = pmlmeext->cur_channel;
++	u8 bw = pmlmeext->cur_bwmode;
++	u8 bw_offset = pmlmeext->cur_ch_offset;
++	u8 RecPosForRetore = 0;
++	u8 MatchedRec = _FALSE;
++
++	central_chnl_now = rtw_get_center_ch(chidx, bw, bw_offset);
++	bw_mode_now = bw;
++
++	/* To search for the matched record */
++	for (i = 0; i < MAX_IQK_INFO_BACKUP_CHNL_NUM; i++) {
++		if ((pHalData->iqk_reg_backup[i].central_chnl == central_chnl_now) &&
++		    (pHalData->iqk_reg_backup[i].bw_mode == bw_mode_now)) {
++			MatchedRec = _TRUE;
++			RecPosForRetore = i;
++			break;
++		}
++	}
++
++	if (MatchedRec == _FALSE) {
++		rtw_warn_on(1);
++		RTW_INFO("[MCC] "FUNC_ADPT_FMT" not found fit IQK value from IQK table(%d,%d)\n"
++			, FUNC_ADPT_ARG(padapter), central_chnl_now, bw_mode_now);
++		return;
++	}
++
++	/* According to phydm code(phy_IQCalibrate_8821A)  & document */
++	if (IS_HARDWARE_TYPE_8821(padapter)) {
++		/* 8821A only one RF PATH */
++		/* transform register value to TX_X & TX_Y */
++		pmccadapriv->mcc_iqk_arr[0].TX_X =
++			(u16)(pHalData->iqk_reg_backup[RecPosForRetore].reg_backup[0][1] & 0x000007ff);
++		pmccadapriv->mcc_iqk_arr[0].TX_Y =
++			(u16)(pHalData->iqk_reg_backup[RecPosForRetore].reg_backup[0][0] & 0x000007ff);
++
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT": TX_X = 0x%02x, TX_Y = 0x%02x\n"
++				,  FUNC_ADPT_ARG(padapter), pmccadapriv->mcc_iqk_arr[0].TX_X, pmccadapriv->mcc_iqk_arr[0].TX_Y);
++
++		/* transform register value to RX_X & RX_Y */
++		pmccadapriv->mcc_iqk_arr[0].RX_X =
++			(u16)((pHalData->iqk_reg_backup[RecPosForRetore].reg_backup[0][2] & 0x000003ff) << 1);
++		pmccadapriv->mcc_iqk_arr[0].RX_Y =
++			(u16)(((pHalData->iqk_reg_backup[RecPosForRetore].reg_backup[0][2] & 0x03ff0000) >> 16) << 1);
++
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT": RX_X = 0x%02x, RX_Y = 0x%02x\n"
++				, FUNC_ADPT_ARG(padapter), pmccadapriv->mcc_iqk_arr[0].RX_X, pmccadapriv->mcc_iqk_arr[0].RX_Y);
++	}
++}
++#endif /* CONFIG_MCC_MODE */
++
++void SetHwReg8812A(PADAPTER padapter, u8 variable, u8 *pval)
++{
++	PHAL_DATA_TYPE pHalData;
++	PDM_ODM_T podmpriv;
++	u8 val8;
++	u16 val16;
++	u32 val32;
++
++
++	pHalData = GET_HAL_DATA(padapter);
++	podmpriv = &pHalData->odmpriv;
++
++	switch (variable) {
++	case HW_VAR_SET_OPMODE:
++		hw_var_set_opmode(padapter, variable, pval);
++		break;
++
++	case HW_VAR_BASIC_RATE: {
++		struct mlme_ext_info *mlmext_info = &padapter->mlmeextpriv.mlmext_info;
++		u16 input_b = 0, masked = 0, ioted = 0, BrateCfg = 0;
++		u16 rrsr_2g_force_mask = RRSR_CCK_RATES;
++		u16 rrsr_2g_allow_mask = (RRSR_24M | RRSR_12M | RRSR_6M | RRSR_CCK_RATES);
++		u16 rrsr_5g_force_mask = (RRSR_6M);
++		u16 rrsr_5g_allow_mask = (RRSR_OFDM_RATES);
++
++		HalSetBrateCfg(padapter, pval, &BrateCfg);
++		input_b = BrateCfg;
++
++		/* apply force and allow mask */
++		if (pHalData->CurrentBandType == BAND_ON_2_4G) {
++			BrateCfg |= rrsr_2g_force_mask;
++			BrateCfg &= rrsr_2g_allow_mask;
++		} else { /* 5G */
++			BrateCfg |= rrsr_5g_force_mask;
++			BrateCfg &= rrsr_5g_allow_mask;
++		}
++		masked = BrateCfg;
++
++		/* IOT consideration */
++		if (mlmext_info->assoc_AP_vendor == HT_IOT_PEER_CISCO) {
++			/* if peer is cisco and didn't use ofdm rate, we enable 6M ack */
++			if ((BrateCfg & (RRSR_24M | RRSR_12M | RRSR_6M)) == 0)
++				BrateCfg |= RRSR_6M;
++		}
++		ioted = BrateCfg;
++
++		pHalData->BasicRateSet = BrateCfg;
++
++		RTW_INFO("HW_VAR_BASIC_RATE: %#x->%#x->%#x\n", input_b, masked, ioted);
++
++		/* Set RRSR rate table. */
++		rtw_write16(padapter, REG_RRSR, BrateCfg);
++		rtw_write8(padapter, REG_RRSR + 2, rtw_read8(padapter, REG_RRSR + 2) & 0xf0);
++	}
++		break;
++
++	case HW_VAR_TXPAUSE:
++		rtw_write8(padapter, REG_TXPAUSE, *pval);
++		break;
++
++	case HW_VAR_BCN_FUNC:
++		hw_var_set_bcn_func(padapter, variable, pval);
++		break;
++
++	case HW_VAR_CORRECT_TSF:
++		hw_var_set_correct_tsf(padapter, variable, pval);
++		break;
++
++	case HW_VAR_CHECK_BSSID:
++		val32 = rtw_read32(padapter, REG_RCR);
++		if (*pval)
++			val32 |= RCR_CBSSID_DATA | RCR_CBSSID_BCN;
++		else
++			val32 &= ~(RCR_CBSSID_DATA | RCR_CBSSID_BCN);
++		rtw_write32(padapter, REG_RCR, val32);
++		break;
++
++	case HW_VAR_MLME_DISCONNECT:
++		hw_var_set_mlme_disconnect(padapter, variable, pval);
++		break;
++
++	case HW_VAR_MLME_SITESURVEY:
++		hw_var_set_mlme_sitesurvey(padapter, variable,  pval);
++
++#ifdef CONFIG_BT_COEXIST
++		if (_TRUE == pHalData->EEPROMBluetoothCoexist)
++			rtw_btcoex_ScanNotify(padapter, *pval ? _TRUE : _FALSE);
++#endif
++		break;
++
++	case HW_VAR_MLME_JOIN:
++#ifdef CONFIG_CONCURRENT_MODE
++		hw_var_set_mlme_join(padapter, variable, pval);
++#else /* !CONFIG_CONCURRENT_MODE */
++		{
++			u8 RetryLimit = 0x30;
++			u8 type = *(u8 *)pval;
++			struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++			if (type == 0) { /* prepare to join */
++				/* enable to rx data frame.Accept all data frame */
++				/* rtw_write32(padapter, REG_RCR, rtw_read32(padapter, REG_RCR)|RCR_ADF); */
++				rtw_write16(padapter, REG_RXFLTMAP2, 0xFFFF);
++
++				val32 = rtw_read32(padapter, REG_RCR);
++				if (padapter->in_cta_test)
++					val32 &= ~(RCR_CBSSID_DATA | RCR_CBSSID_BCN);/* | RCR_ADF */
++				else
++					val32 |= RCR_CBSSID_DATA | RCR_CBSSID_BCN;
++				rtw_write32(padapter, REG_RCR, val32);
++
++				if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++					RetryLimit = (pHalData->CustomerID == RT_CID_CCX) ? 7 : 48;
++				else /* Ad-hoc Mode */
++					RetryLimit = 0x7;
++			} else if (type == 1) /* joinbss_event call back when join res < 0 */
++				rtw_write16(padapter, REG_RXFLTMAP2, 0x00);
++			else if (type == 2) { /* sta add event call back */
++				/* enable update TSF */
++				val8 = rtw_read8(padapter, REG_BCN_CTRL);
++				val8 &= ~BIT(4);
++				rtw_write8(padapter, REG_BCN_CTRL, val8);
++
++				if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE | WIFI_ADHOC_MASTER_STATE))
++					RetryLimit = 0x7;
++			}
++
++			val16 = RetryLimit << RETRY_LIMIT_SHORT_SHIFT | RetryLimit << RETRY_LIMIT_LONG_SHIFT;
++			rtw_write16(padapter, REG_RL, val16);
++		}
++#endif /* !CONFIG_CONCURRENT_MODE */
++
++#ifdef CONFIG_BT_COEXIST
++		if (_TRUE == pHalData->EEPROMBluetoothCoexist) {
++			switch (*pval) {
++			case 0:
++				/* Notify coex. mechanism before join */
++				rtw_btcoex_ConnectNotify(padapter, _TRUE);
++				break;
++			case 1:
++			case 2:
++				/* Notify coex. mechanism after join, whether successful or failed */
++				rtw_btcoex_ConnectNotify(padapter, _FALSE);
++				break;
++			}
++		}
++#endif
++		break;
++
++	case HW_VAR_ON_RCR_AM:
++		val32 = rtw_read32(padapter, REG_RCR);
++		val32 |= RCR_AM;
++		rtw_write32(padapter, REG_RCR, val32);
++		RTW_INFO("%s, %d, RCR= %x\n", __FUNCTION__, __LINE__, rtw_read32(padapter, REG_RCR));
++		break;
++
++	case HW_VAR_OFF_RCR_AM:
++		val32 = rtw_read32(padapter, REG_RCR);
++		val32 &= ~RCR_AM;
++		rtw_write32(padapter, REG_RCR, val32);
++		RTW_INFO("%s, %d, RCR= %x\n", __FUNCTION__, __LINE__, rtw_read32(padapter, REG_RCR));
++		break;
++
++	case HW_VAR_BEACON_INTERVAL:
++
++#ifdef CONFIG_SWTIMER_BASED_TXBCN
++		if (adapter_to_dvobj(padapter)->inter_bcn_space != *(u16 *)pval)
++			rtw_write16(padapter, REG_BCN_INTERVAL, adapter_to_dvobj(padapter)->inter_bcn_space);
++		else
++			rtw_write16(padapter, REG_BCN_INTERVAL, *(u16 *)pval);
++#else
++		rtw_write16(padapter, REG_BCN_INTERVAL, *(u16 *)pval);
++#endif
++
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT
++		{
++			struct mlme_ext_priv *pmlmeext;
++			struct mlme_ext_info *pmlmeinfo;
++			u16 bcn_interval;
++
++			pmlmeext = &padapter->mlmeextpriv;
++			pmlmeinfo = &pmlmeext->mlmext_info;
++			bcn_interval = *((u16 *)pval);
++
++			if ((pmlmeinfo->state & 0x03) == WIFI_FW_AP_STATE) {
++				RTW_INFO("%s==> bcn_interval:%d, eraly_int:%d\n", __FUNCTION__, bcn_interval, bcn_interval >> 1);
++				rtw_write8(padapter, REG_DRVERLYINT, bcn_interval >> 1); /* 50ms for sdio */
++			}
++		}
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT */
++		break;
++
++	case HW_VAR_SLOT_TIME:
++		rtw_write8(padapter, REG_SLOT, *pval);
++		break;
++
++	case HW_VAR_RESP_SIFS:
++		/* SIFS_Timer = 0x0a0a0808; */
++		/* RESP_SIFS for CCK */
++		rtw_write8(padapter, REG_RESP_SIFS_CCK, pval[0]); /* SIFS_T2T_CCK (0x08) */
++		rtw_write8(padapter, REG_RESP_SIFS_CCK + 1, pval[1]); /* SIFS_R2T_CCK(0x08) */
++		/* RESP_SIFS for OFDM */
++		rtw_write8(padapter, REG_RESP_SIFS_OFDM, pval[2]); /* SIFS_T2T_OFDM (0x0a) */
++		rtw_write8(padapter, REG_RESP_SIFS_OFDM + 1, pval[3]); /* SIFS_R2T_OFDM(0x0a) */
++		break;
++
++	case HW_VAR_ACK_PREAMBLE: {
++		u8 bShortPreamble = *pval;
++
++		/* Joseph marked out for Netgear 3500 TKIP channel 7 issue.(Temporarily) */
++		val8 = (pHalData->nCur40MhzPrimeSC) << 5;
++		if (bShortPreamble)
++			val8 |= 0x80;
++		rtw_write8(padapter, REG_RRSR + 2, val8);
++	}
++		break;
++
++	case HW_VAR_CAM_EMPTY_ENTRY: {
++		u8 ucIndex = *pval;
++		u8 i;
++		u32	ulCommand = 0;
++		u32	ulContent = 0;
++		u32	ulEncAlgo = CAM_AES;
++
++		for (i = 0; i < CAM_CONTENT_COUNT; i++) {
++			/* filled id in CAM config 2 byte */
++			if (i == 0) {
++				ulContent |= (ucIndex & 0x03) | ((u16)(ulEncAlgo) << 2);
++				/* ulContent |= CAM_VALID; */
++			} else
++				ulContent = 0;
++			/* polling bit, and No Write enable, and address */
++			ulCommand = CAM_CONTENT_COUNT * ucIndex + i;
++			ulCommand = ulCommand | CAM_POLLINIG | CAM_WRITE;
++			/* write content 0 is equall to mark invalid */
++			rtw_write32(padapter, WCAMI, ulContent);  /* delay_ms(40); */
++			rtw_write32(padapter, RWCAM, ulCommand);  /* delay_ms(40); */
++		}
++	}
++		break;
++
++	case HW_VAR_CAM_INVALID_ALL:
++		val32 = BIT(31) | BIT(30);
++		rtw_write32(padapter, RWCAM, val32);
++		break;
++
++	case HW_VAR_AC_PARAM_VO:
++		rtw_write32(padapter, REG_EDCA_VO_PARAM, *(u32 *)pval);
++		break;
++
++	case HW_VAR_AC_PARAM_VI:
++		rtw_write32(padapter, REG_EDCA_VI_PARAM, *(u32 *)pval);
++		break;
++
++	case HW_VAR_AC_PARAM_BE:
++		pHalData->AcParam_BE = *(u32 *)pval;
++		rtw_write32(padapter, REG_EDCA_BE_PARAM, *(u32 *)pval);
++		break;
++
++	case HW_VAR_AC_PARAM_BK:
++		rtw_write32(padapter, REG_EDCA_BK_PARAM, *(u32 *)pval);
++		break;
++
++	case HW_VAR_ACM_CTRL: {
++		u8 acm_ctrl;
++		u8 AcmCtrl;
++
++		acm_ctrl = *(u8 *)pval;
++		AcmCtrl = rtw_read8(padapter, REG_ACMHWCTRL);
++
++		if (acm_ctrl > 1)
++			AcmCtrl = AcmCtrl | 0x1;
++
++		if (acm_ctrl & BIT(3))
++			AcmCtrl |= AcmHw_VoqEn;
++		else
++			AcmCtrl &= (~AcmHw_VoqEn);
++
++		if (acm_ctrl & BIT(2))
++			AcmCtrl |= AcmHw_ViqEn;
++		else
++			AcmCtrl &= (~AcmHw_ViqEn);
++
++		if (acm_ctrl & BIT(1))
++			AcmCtrl |= AcmHw_BeqEn;
++		else
++			AcmCtrl &= (~AcmHw_BeqEn);
++
++		RTW_INFO("[HW_VAR_ACM_CTRL] Write 0x%X\n", AcmCtrl);
++		rtw_write8(padapter, REG_ACMHWCTRL, AcmCtrl);
++	}
++		break;
++	case HW_VAR_AMPDU_FACTOR: {
++		u32	AMPDULen = *(u8 *)pval;
++
++		if (IS_HARDWARE_TYPE_8812(padapter)) {
++			if (AMPDULen < VHT_AGG_SIZE_128K)
++				AMPDULen = (0x2000 << *(u8 *)pval) - 1;
++			else
++				AMPDULen = 0x1ffff;
++		} else if (IS_HARDWARE_TYPE_8821(padapter)) {
++			if (AMPDULen < HT_AGG_SIZE_64K)
++				AMPDULen = (0x2000 << *(u8 *)pval) - 1;
++			else
++				AMPDULen = 0xffff;
++		}
++		AMPDULen |= BIT(31);
++		rtw_write32(padapter, REG_AMPDU_MAX_LENGTH_8812, AMPDULen);
++	}
++	break;
++#if 0
++	case HW_VAR_RXDMA_AGG_PG_TH:
++		rtw_write8(padapter, REG_RXDMA_AGG_PG_TH, *pval);
++		break;
++#endif
++	case HW_VAR_H2C_FW_PWRMODE: {
++		u8 psmode = *pval;
++
++		/* Forece leave RF low power mode for 1T1R to prevent conficting setting in Fw power */
++		/* saving sequence. 2010.06.07. Added by tynli. Suggested by SD3 yschang. */
++		if (psmode != PS_MODE_ACTIVE)
++			ODM_RF_Saving(podmpriv, _TRUE);
++		rtl8812_set_FwPwrMode_cmd(padapter, psmode);
++	}
++	break;
++
++	case HW_VAR_H2C_FW_JOINBSSRPT:
++		rtl8812_set_FwJoinBssReport_cmd(padapter, *pval);
++		break;
++
++#ifdef CONFIG_P2P_PS
++	case HW_VAR_H2C_FW_P2P_PS_OFFLOAD:
++		rtl8812_set_p2p_ps_offload_cmd(padapter, *pval);
++		break;
++#endif /* CONFIG_P2P_PS */
++
++#ifdef CONFIG_TDLS
++	case HW_VAR_TDLS_WRCR:
++		val32 = rtw_read32(padapter, REG_RCR);
++		val32 &= ~RCR_CBSSID_DATA;
++		rtw_write32(padapter, REG_RCR, val32);
++		break;
++
++	case HW_VAR_TDLS_RS_RCR:
++		val32 = rtw_read32(padapter, REG_RCR);
++		val32 |= RCR_CBSSID_DATA;
++		rtw_write32(padapter, REG_RCR, val32);
++		break;
++#endif /* CONFIG_TDLS */
++
++	case HW_VAR_EFUSE_USAGE:
++		pHalData->EfuseUsedPercentage = *pval;
++		break;
++
++	case HW_VAR_EFUSE_BYTES:
++		pHalData->EfuseUsedBytes = *(u16 *)pval;
++		break;
++	case HW_VAR_EFUSE_BT_USAGE:
++#ifdef HAL_EFUSE_MEMORY
++		pHalData->EfuseHal.BTEfuseUsedPercentage = *pval;
++#endif
++		break;
++
++	case HW_VAR_EFUSE_BT_BYTES:
++#ifdef HAL_EFUSE_MEMORY
++		pHalData->EfuseHal.BTEfuseUsedBytes = *(u16 *)pval;
++#else
++		BTEfuseUsedBytes = *(u16 *)pval;
++#endif
++		break;
++	case HW_VAR_FIFO_CLEARN_UP: {
++		struct pwrctrl_priv *pwrpriv;
++		u8 trycnt = 100;
++
++		pwrpriv = adapter_to_pwrctl(padapter);
++
++		/* pause tx */
++		rtw_write8(padapter, REG_TXPAUSE, 0xff);
++
++		/* keep sn */
++		padapter->xmitpriv.nqos_ssn = rtw_read16(padapter, REG_NQOS_SEQ);
++
++		if (pwrpriv->bkeepfwalive != _TRUE) {
++			/* RX DMA stop */
++			val32 = rtw_read32(padapter, REG_RXPKT_NUM);
++			val32 |= RW_RELEASE_EN;
++			rtw_write32(padapter, REG_RXPKT_NUM, val32);
++			do {
++				val32 = rtw_read32(padapter, REG_RXPKT_NUM);
++				val32 &= RXDMA_IDLE;
++				if (val32)
++					break;
++			} while (--trycnt);
++			if (trycnt == 0)
++				RTW_INFO("[HW_VAR_FIFO_CLEARN_UP] Stop RX DMA failed......\n");
++
++			/* RQPN Load 0 */
++			rtw_write16(padapter, REG_RQPN_NPQ, 0x0);
++			rtw_write32(padapter, REG_RQPN, 0x80000000);
++			rtw_mdelay_os(10);
++		}
++	}
++		break;
++	case HW_VAR_RESTORE_HW_SEQ:
++		/* restore Sequence No. */
++		rtw_write8(padapter, 0x4dc, padapter->xmitpriv.nqos_ssn);
++		break;
++	case HW_VAR_CHECK_TXBUF: {
++		u8 retry_limit;
++		u32 reg_200 = 0, reg_204 = 0;
++		u32 init_reg_200 = 0, init_reg_204 = 0;
++		u32 start = rtw_get_current_time();
++		u32 pass_ms;
++		int i = 0;
++
++		retry_limit = 0x01;
++
++		val16 = retry_limit << RETRY_LIMIT_SHORT_SHIFT | retry_limit << RETRY_LIMIT_LONG_SHIFT;
++		rtw_write16(padapter, REG_RL, val16);
++
++		while (rtw_get_passing_time_ms(start) < 2000
++		       && !RTW_CANNOT_RUN(padapter)
++		      ) {
++			reg_200 = rtw_read32(padapter, 0x200);
++			reg_204 = rtw_read32(padapter, 0x204);
++
++			if (i == 0) {
++				init_reg_200 = reg_200;
++				init_reg_204 = reg_204;
++			}
++
++			i++;
++			if ((reg_200 & 0x00ffffff) != (reg_204 & 0x00ffffff)) {
++				/* RTW_INFO("%s: (HW_VAR_CHECK_TXBUF)TXBUF NOT empty - 0x204=0x%x, 0x200=0x%x (%d)\n", __FUNCTION__, reg_204, reg_200, i); */
++				rtw_msleep_os(10);
++			} else
++				break;
++		}
++
++		pass_ms = rtw_get_passing_time_ms(start);
++
++		if (RTW_CANNOT_RUN(padapter))
++			;
++		else if (pass_ms >= 2000 || (reg_200 & 0x00ffffff) != (reg_204 & 0x00ffffff)) {
++			RTW_PRINT("%s:(HW_VAR_CHECK_TXBUF)NOT empty(%d) in %d ms\n", __FUNCTION__, i, pass_ms);
++			RTW_PRINT("%s:(HW_VAR_CHECK_TXBUF)0x200=0x%08x, 0x204=0x%08x (0x%08x, 0x%08x)\n",
++				__FUNCTION__, reg_200, reg_204, init_reg_200, init_reg_204);
++			/* rtw_warn_on(1); */
++		} else
++			RTW_INFO("%s:(HW_VAR_CHECK_TXBUF)TXBUF Empty(%d) in %d ms\n", __FUNCTION__, i, pass_ms);
++
++		retry_limit = 0x30;
++		val16 = retry_limit << RETRY_LIMIT_SHORT_SHIFT | retry_limit << RETRY_LIMIT_LONG_SHIFT;
++		rtw_write16(padapter, REG_RL, val16);
++	}
++		break;
++
++	case HW_VAR_NAV_UPPER: {
++		u32 usNavUpper = *((u32 *)pval);
++
++		if (usNavUpper > HAL_NAV_UPPER_UNIT * 0xFF) {
++			RTW_INFO("%s: [HW_VAR_NAV_UPPER] set value(0x%08X us) is larger than (%d * 0xFF)!\n",
++				__FUNCTION__, usNavUpper, HAL_NAV_UPPER_UNIT);
++			break;
++		}
++
++		/* The value of ((usNavUpper + HAL_NAV_UPPER_UNIT - 1) / HAL_NAV_UPPER_UNIT) */
++		/* is getting the upper integer. */
++		usNavUpper = (usNavUpper + HAL_NAV_UPPER_UNIT - 1) / HAL_NAV_UPPER_UNIT;
++		rtw_write8(padapter, REG_NAV_UPPER, (u8)usNavUpper);
++	}
++		break;
++
++	case HW_VAR_BCN_VALID:
++#ifdef CONFIG_CONCURRENT_MODE
++		if (IS_HARDWARE_TYPE_8821(padapter) && padapter->hw_port == HW_PORT1) {
++			val8 = rtw_read8(padapter, REG_DWBCN1_CTRL_8812 + 2);
++			val8 |= BIT(0);
++			rtw_write8(padapter, REG_DWBCN1_CTRL_8812 + 2, val8);
++		} else
++#endif
++		{
++			/* BCN_VALID, BIT16 of REG_TDECTRL = BIT0 of REG_TDECTRL+2, write 1 to clear, Clear by sw */
++			val8 = rtw_read8(padapter, REG_TDECTRL + 2);
++			val8 |= BIT(0);
++			rtw_write8(padapter, REG_TDECTRL + 2, val8);
++		}
++		break;
++
++	case HW_VAR_DL_BCN_SEL:
++#ifdef CONFIG_CONCURRENT_MODE
++		if (IS_HARDWARE_TYPE_8821(padapter) && padapter->hw_port == HW_PORT1) {
++			/* SW_BCN_SEL - Port1 */
++			val8 = rtw_read8(padapter, REG_DWBCN1_CTRL_8812 + 2);
++			val8 |= BIT(4);
++			rtw_write8(padapter, REG_DWBCN1_CTRL_8812 + 2, val8);
++		} else
++#endif
++		{
++			/* SW_BCN_SEL - Port0 */
++			val8 = rtw_read8(padapter, REG_DWBCN1_CTRL_8812 + 2);
++			val8 &= ~BIT(4);
++			rtw_write8(padapter, REG_DWBCN1_CTRL_8812 + 2, val8);
++		}
++		break;
++
++	case HW_VAR_WIRELESS_MODE: {
++		struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++		struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++		struct mlme_ext_info *pmlmeinfo = &pmlmeext->mlmext_info;
++		u8	R2T_SIFS = 0, SIFS_Timer = 0;
++		u8	wireless_mode = *pval;
++
++		if ((wireless_mode == WIRELESS_11BG) || (wireless_mode == WIRELESS_11G))
++			SIFS_Timer = 0xa;
++		else
++			SIFS_Timer = 0xe;
++
++		/* SIFS for OFDM Data ACK */
++		rtw_write8(padapter, REG_SIFS_CTX + 1, SIFS_Timer);
++		/* SIFS for OFDM consecutive tx like CTS data! */
++		rtw_write8(padapter, REG_SIFS_TRX + 1, SIFS_Timer);
++
++		rtw_write8(padapter, REG_SPEC_SIFS + 1, SIFS_Timer);
++		rtw_write8(padapter, REG_MAC_SPEC_SIFS + 1, SIFS_Timer);
++
++		/* 20100719 Joseph: Revise SIFS setting due to Hardware register definition change. */
++		rtw_write8(padapter, REG_RESP_SIFS_OFDM + 1, SIFS_Timer);
++		rtw_write8(padapter, REG_RESP_SIFS_OFDM, SIFS_Timer);
++
++		/*  */
++		/* Adjust R2T SIFS for IOT issue. Add by hpfan 2013.01.25 */
++		/* Set R2T SIFS to 0x0a for Atheros IOT. Add by hpfan 2013.02.22 */
++		/*  */
++		/* Mac has 10 us delay so use 0xa value is enough. */
++		R2T_SIFS = 0xa;
++#ifdef CONFIG_80211AC_VHT
++		if (wireless_mode & WIRELESS_11_5AC &&
++		    /* MgntLinkStatusQuery(Adapter)  && */
++		    TEST_FLAG(pmlmepriv->vhtpriv.ldpc_cap, LDPC_VHT_ENABLE_RX) &&
++		    TEST_FLAG(pmlmepriv->vhtpriv.stbc_cap, STBC_VHT_ENABLE_RX)) {
++			if (pmlmeinfo->assoc_AP_vendor == HT_IOT_PEER_ATHEROS)
++				R2T_SIFS = 0x8;
++			else
++				R2T_SIFS = 0xa;
++		}
++#endif /* CONFIG_80211AC_VHT */
++
++		rtw_write8(padapter, REG_RESP_SIFS_OFDM + 1, R2T_SIFS);
++	}
++	break;
++
++	case HW_VAR_DO_IQK:
++#ifdef CONFIG_MCC_MODE
++		if (MCC_EN(padapter)) {
++			if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_NEED_MCC)) {
++				RTW_INFO("Under MCC mode, doesn't IQK\n");
++				*pval = _FALSE;
++			}
++		}
++#endif
++
++		if (*pval)
++			pHalData->bNeedIQK = _TRUE;
++		else
++			pHalData->bNeedIQK = _FALSE;
++		break;
++	case HW_VAR_DL_RSVD_PAGE:
++#ifdef CONFIG_BT_COEXIST
++		if (pHalData->EEPROMBluetoothCoexist == 1) {
++			if (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE)
++				rtl8812a_download_BTCoex_AP_mode_rsvd_page(padapter);
++		}
++#endif /* CONFIG_BT_COEXIST */
++		break;
++#ifdef CONFIG_BEAMFORMING
++
++#if (BEAMFORMING_SUPPORT == 1) /*add by YuChen for PHYDM -TxBF AutoTest HW Timer 8812A*/
++	case HW_VAR_HW_REG_TIMER_INIT: {
++		HAL_HW_TIMER_TYPE TimerType = (*(PHAL_HW_TIMER_TYPE)pval) >> 16;
++
++		rtw_write8(padapter, 0x164, 1);
++
++		if (TimerType == HAL_TIMER_TXBF)
++			rtw_write16(padapter, 0x15C, (*(pu2Byte)pval));
++		else if (TimerType == HAL_TIMER_EARLYMODE)
++			rtw_write32(padapter, 0x160, 0x05000190);
++		break;
++	}
++
++	case HW_VAR_HW_REG_TIMER_START: {
++		HAL_HW_TIMER_TYPE TimerType = *(PHAL_HW_TIMER_TYPE)pval;
++
++		if (TimerType == HAL_TIMER_TXBF)
++			rtw_write8(padapter, 0x15F, 0x5);
++		else if (TimerType == HAL_TIMER_EARLYMODE)
++			rtw_write8(padapter, 0x163, 0x5);
++		break;
++	}
++	case HW_VAR_HW_REG_TIMER_RESTART: {
++		HAL_HW_TIMER_TYPE TimerType = *(PHAL_HW_TIMER_TYPE)pval & 0xffff;
++
++		if (TimerType == HAL_TIMER_TXBF) {
++			u4Byte Reg15C = (*(pu4Byte)pval) >> 16 | BIT24 | BIT26;
++
++			rtw_write8(padapter, 0x15F, 0x0);
++			rtw_write32(padapter, 0x15F, Reg15C);
++		} else if (TimerType == HAL_TIMER_EARLYMODE) {
++			rtw_write8(padapter, 0x163, 0x0);
++			rtw_write8(padapter, 0x163, 0x5);
++		}
++		break;
++	}
++	case HW_VAR_HW_REG_TIMER_STOP: {
++		HAL_HW_TIMER_TYPE TimerType = *(PHAL_HW_TIMER_TYPE)pval;
++
++		if (TimerType == HAL_TIMER_TXBF)
++			rtw_write8(padapter, 0x15F, 0);
++		else if (TimerType == HAL_TIMER_EARLYMODE)
++			rtw_write8(padapter, 0x163, 0x0);
++		break;
++	}
++
++#else /*(BEAMFORMING_SUPPORT == 0) - for drv beamforming*/
++
++	case HW_VAR_SOUNDING_ENTER:
++		SetBeamformEnter_8812(padapter, *pval);
++		break;
++
++	case HW_VAR_SOUNDING_LEAVE:
++		SetBeamformLeave_8812(padapter, *pval);
++		break;
++
++	case HW_VAR_SOUNDING_RATE:
++		rtw_write8(padapter, REG_NDPA_OPT_CTRL_8812A, (MRateToHwRate(pval[1]) << 2 | pval[0]));
++		break;
++
++	case HW_VAR_SOUNDING_STATUS:
++		SetBeamformStatus_8812(padapter, *pval);
++		break;
++
++	case HW_VAR_SOUNDING_FW_NDPA:
++		SetBeamformFwTxBF_8812(padapter, *pval);
++		break;
++
++	case HW_VAR_SOUNDING_CLK:
++		SetBeamformingCLK_8812(padapter);
++		break;
++#endif
++
++#endif/*#ifdef CONFIG_BEAMFORMING*/
++	case HW_VAR_MACID_SLEEP: {
++		u32 reg_macid_sleep;
++		u8 bit_shift;
++		u8 id = *(u8 *)pval;
++		u32 val32;
++
++		if (id < 32) {
++			reg_macid_sleep = REG_MACID_SLEEP;
++			bit_shift = id;
++		} else if (id < 64) {
++			reg_macid_sleep = REG_MACID_SLEEP_1;
++			bit_shift = id - 32;
++		} else if (id < 96) {
++			reg_macid_sleep = REG_MACID_SLEEP_2;
++			bit_shift = id - 64;
++		} else if (id < 128) {
++			reg_macid_sleep = REG_MACID_SLEEP_3;
++			bit_shift = id - 96;
++		} else {
++			rtw_warn_on(1);
++			break;
++		}
++
++		val32 = rtw_read32(padapter, reg_macid_sleep);
++		RTW_INFO(FUNC_ADPT_FMT ": [HW_VAR_MACID_SLEEP] macid=%d, org reg_0x%03x=0x%08X\n",
++			FUNC_ADPT_ARG(padapter), id, reg_macid_sleep, val32);
++
++		if (val32 & BIT(bit_shift))
++			break;
++
++		val32 |= BIT(bit_shift);
++		rtw_write32(padapter, reg_macid_sleep, val32);
++	}
++		break;
++
++	case HW_VAR_MACID_WAKEUP: {
++		u32 reg_macid_sleep;
++		u8 bit_shift;
++		u8 id = *(u8 *)pval;
++		u32 val32;
++
++		if (id < 32) {
++			reg_macid_sleep = REG_MACID_SLEEP;
++			bit_shift = id;
++		} else if (id < 64) {
++			reg_macid_sleep = REG_MACID_SLEEP_1;
++			bit_shift = id - 32;
++		} else if (id < 96) {
++			reg_macid_sleep = REG_MACID_SLEEP_2;
++			bit_shift = id - 64;
++		} else if (id < 128) {
++			reg_macid_sleep = REG_MACID_SLEEP_3;
++			bit_shift = id - 96;
++		} else {
++			rtw_warn_on(1);
++			break;
++		}
++
++		val32 = rtw_read32(padapter, reg_macid_sleep);
++		/*RTW_INFO(FUNC_ADPT_FMT ": [HW_VAR_MACID_WAKEUP] macid=%d, org reg_0x%03x=0x%08X\n",
++			FUNC_ADPT_ARG(padapter), id, reg_macid_sleep, val32);*/
++
++		if (!(val32 & BIT(bit_shift)))
++			break;
++
++		val32 &= ~BIT(bit_shift);
++		rtw_write32(padapter, reg_macid_sleep, val32);
++	}
++		break;
++#ifdef CONFIG_GPIO_WAKEUP
++	case HW_SET_GPIO_WL_CTRL: {
++		u8 enable = *pval;
++		u8 value = rtw_read8(padapter, 0x4e);
++		if (enable && (value & BIT(6))) {
++			value &= ~BIT(6);
++			rtw_write8(padapter, 0x4e, value);
++		} else if (enable == _FALSE) {
++			value |= BIT(6);
++			rtw_write8(padapter, 0x4e, value);
++		}
++		RTW_INFO("%s: set WL control, 0x4E=0x%02X\n",
++			 __func__, rtw_read8(padapter, 0x4e));
++	}
++		break;
++#endif
++
++	case HW_VAR_CH_SW_IQK_INFO_BACKUP:
++		hw_var_backup_IQK_val(padapter, (struct hal_iqk_reg_backup *)pval);
++		break;
++
++	case HW_VAR_CH_SW_IQK_INFO_RESTORE:
++		switch (*pval) {
++		case CH_SW_USE_CASE_TDLS:
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++			hw_var_restore_IQK_val_TDLS(padapter);
++#endif
++#endif
++			break;
++		case CH_SW_USE_CASE_MCC:
++#ifdef CONFIG_MCC_MODE
++			hw_var_restore_IQK_val_MCC(padapter);
++#endif /* CONFIG_MCC_MODE */
++			break;
++		}
++		break;
++
++#if defined(CONFIG_TDLS) && defined(CONFIG_TDLS_CH_SW)
++	case HW_VAR_TDLS_BCN_EARLY_C2H_RPT:
++		rtl8812_set_BcnEarly_C2H_Rpt_cmd(padapter, *pval);
++		break;
++#endif
++
++	default:
++		SetHwReg(padapter, variable, pval);
++		break;
++	}
++
++}
++
++struct qinfo_8812a {
++	u32 head:8;
++	u32 pkt_num:7;
++	u32 tail:8;
++	u32 ac:2;
++	u32 macid:7;
++};
++
++struct bcn_qinfo_8812a {
++	u16 head:8;
++	u16 pkt_num:8;
++};
++
++void dump_qinfo_8812a(void *sel, struct qinfo_8812a *info, const char *tag)
++{
++	/* if (info->pkt_num) */
++	RTW_PRINT_SEL(sel, "%shead:0x%02x, tail:0x%02x, pkt_num:%u, macid:%u, ac:%u\n"
++		, tag ? tag : "", info->head, info->tail, info->pkt_num, info->macid, info->ac
++		     );
++}
++
++void dump_bcn_qinfo_8812a(void *sel, struct bcn_qinfo_8812a *info, const char *tag)
++{
++	/* if (info->pkt_num) */
++	RTW_PRINT_SEL(sel, "%shead:0x%02x, pkt_num:%u\n"
++		      , tag ? tag : "", info->head, info->pkt_num
++		     );
++}
++
++void dump_mac_qinfo_8812a(void *sel, _adapter *adapter)
++{
++	u32 q0_info;
++	u32 q1_info;
++	u32 q2_info;
++	u32 q3_info;
++	u32 q4_info;
++	u32 q5_info;
++	u32 q6_info;
++	u32 q7_info;
++	u32 mg_q_info;
++	u32 hi_q_info;
++	u16 bcn_q_info;
++
++	q0_info = rtw_read32(adapter, REG_Q0_INFO);
++	q1_info = rtw_read32(adapter, REG_Q1_INFO);
++	q2_info = rtw_read32(adapter, REG_Q2_INFO);
++	q3_info = rtw_read32(adapter, REG_Q3_INFO);
++	q4_info = rtw_read32(adapter, REG_Q4_INFO);
++	q5_info = rtw_read32(adapter, REG_Q5_INFO);
++	q6_info = rtw_read32(adapter, REG_Q6_INFO);
++	q7_info = rtw_read32(adapter, REG_Q7_INFO);
++	mg_q_info = rtw_read32(adapter, REG_MGQ_INFO);
++	hi_q_info = rtw_read32(adapter, REG_HGQ_INFO);
++	bcn_q_info = rtw_read16(adapter, REG_BCNQ_INFO);
++
++	dump_qinfo_8812a(sel, (struct qinfo_8812a *)&q0_info, "Q0 ");
++	dump_qinfo_8812a(sel, (struct qinfo_8812a *)&q1_info, "Q1 ");
++	dump_qinfo_8812a(sel, (struct qinfo_8812a *)&q2_info, "Q2 ");
++	dump_qinfo_8812a(sel, (struct qinfo_8812a *)&q3_info, "Q3 ");
++	dump_qinfo_8812a(sel, (struct qinfo_8812a *)&q4_info, "Q4 ");
++	dump_qinfo_8812a(sel, (struct qinfo_8812a *)&q5_info, "Q5 ");
++	dump_qinfo_8812a(sel, (struct qinfo_8812a *)&q6_info, "Q6 ");
++	dump_qinfo_8812a(sel, (struct qinfo_8812a *)&q7_info, "Q7 ");
++	dump_qinfo_8812a(sel, (struct qinfo_8812a *)&mg_q_info, "MG ");
++	dump_qinfo_8812a(sel, (struct qinfo_8812a *)&hi_q_info, "HI ");
++	dump_bcn_qinfo_8812a(sel, (struct bcn_qinfo_8812a *)&bcn_q_info, "BCN ");
++}
++
++void GetHwReg8812A(PADAPTER padapter, u8 variable, u8 *pval)
++{
++	PHAL_DATA_TYPE pHalData;
++	PDM_ODM_T podmpriv;
++	u8 val8;
++	u16 val16;
++	u32 val32;
++
++
++	pHalData = GET_HAL_DATA(padapter);
++	podmpriv = &pHalData->odmpriv;
++
++	switch (variable) {
++	case HW_VAR_TXPAUSE:
++		*pval = rtw_read8(padapter, REG_TXPAUSE);
++		break;
++
++	case HW_VAR_BCN_VALID:
++#ifdef CONFIG_CONCURRENT_MODE
++		if (IS_HARDWARE_TYPE_8821(padapter) && padapter->hw_port == HW_PORT1) {
++			val8 = rtw_read8(padapter, REG_DWBCN1_CTRL_8812 + 2);
++			*pval = (BIT(0) & val8) ? _TRUE : _FALSE;
++		} else
++#endif
++		{
++			/* BCN_VALID, BIT16 of REG_TDECTRL = BIT0 of REG_TDECTRL+2 */
++			val8 = rtw_read8(padapter, REG_TDECTRL + 2);
++			*pval = (BIT(0) & val8) ? _TRUE : _FALSE;
++		}
++		break;
++
++	case HW_VAR_FWLPS_RF_ON:
++		/* When we halt NIC, we should check if FW LPS is leave. */
++		if (adapter_to_pwrctl(padapter)->rf_pwrstate == rf_off) {
++			/* If it is in HW/SW Radio OFF or IPS state, we do not check Fw LPS Leave, */
++			/* because Fw is unload. */
++			*pval = _TRUE;
++		} else {
++			u32 valRCR;
++			valRCR = rtw_read32(padapter, REG_RCR);
++			valRCR &= 0x00070000;
++			if (valRCR)
++				*pval = _FALSE;
++			else
++				*pval = _TRUE;
++		}
++
++		break;
++
++
++	case HW_VAR_EFUSE_BYTES: /* To get EFUE total used bytes, added by Roger, 2008.12.22. */
++		*(u16 *)pval = pHalData->EfuseUsedBytes;
++		break;
++	case HW_VAR_EFUSE_BT_USAGE:
++		#ifdef HAL_EFUSE_MEMORY
++		*pval = pHalData->EfuseHal.BTEfuseUsedPercentage;
++		#endif
++	break;	
++	case HW_VAR_EFUSE_BT_BYTES:
++		#ifdef HAL_EFUSE_MEMORY
++		*((u16 *)pval) = pHalData->EfuseHal.BTEfuseUsedBytes;
++		#else
++		*((u16 *)pval) = BTEfuseUsedBytes;
++		#endif
++	break;
++
++	case HW_VAR_CHK_HI_QUEUE_EMPTY:
++		val16 = rtw_read16(padapter, REG_TXPKT_EMPTY);
++		*pval = (val16 & BIT(10)) ? _TRUE : _FALSE;
++		break;
++
++#ifdef CONFIG_WOWLAN
++	case HW_VAR_SYS_CLKR:
++		*pval = rtw_read8(padapter, REG_SYS_CLKR);
++		break;
++#endif
++
++	case HW_VAR_DUMP_MAC_QUEUE_INFO:
++		dump_mac_qinfo_8812a(pval, padapter);
++		break;
++
++	default:
++		GetHwReg(padapter, variable, pval);
++		break;
++	}
++
++}
++
++/*
++ *	Description:
++ *		Change default setting of specified variable.
++ */
++u8 SetHalDefVar8812A(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval)
++{
++	PHAL_DATA_TYPE pHalData;
++	u8 bResult;
++
++
++	pHalData = GET_HAL_DATA(padapter);
++	bResult = _SUCCESS;
++
++	switch (variable) {
++	default:
++		bResult = SetHalDefVar(padapter, variable, pval);
++		break;
++	}
++
++	return bResult;
++}
++
++void hal_ra_info_dump(_adapter *padapter , void *sel)
++{
++	int i;
++	u8 mac_id;
++	u32 cmd;
++	u32 ra_info1, ra_info2, bw_set;
++	u32 rate_mask1, rate_mask2;
++	u8 curr_tx_rate, curr_tx_sgi, hight_rate, lowest_rate;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	HAL_DATA_TYPE *HalData = GET_HAL_DATA(padapter);
++
++	for (i = 0; i < macid_ctl->num; i++) {
++		if (rtw_macid_is_used(macid_ctl, i) && !rtw_macid_is_bmc(macid_ctl, i)) {
++
++			mac_id = (u8) i;
++			_RTW_PRINT_SEL(sel , "============ RA status check  Mac_id:%d ===================\n", mac_id);
++
++			cmd = 0x40000100 | mac_id;
++			rtw_write32(padapter, REG_HMEBOX_E2_E3_8812, cmd);
++			rtw_msleep_os(10);
++			ra_info1 = rtw_read32(padapter, REG_RSVD5_8812);
++			curr_tx_rate = ra_info1 & 0x7F;
++			curr_tx_sgi = (ra_info1 >> 7) & 0x01;
++
++			_RTW_PRINT_SEL(sel , "[ ra_info1:0x%08x ] =>cur_tx_rate= %s,cur_sgi:%d\n",
++				       ra_info1,
++				       HDATA_RATE(curr_tx_rate),
++				       curr_tx_sgi);
++			_RTW_PRINT_SEL(sel , "[ ra_info1:0x%08x ] =>PWRSTS = 0x%02x\n", ra_info1, (ra_info1 >> 8)  & 0x07);
++
++			cmd = 0x40000400 | mac_id;
++			rtw_write32(padapter, REG_HMEBOX_E2_E3_8812, cmd);
++			rtw_msleep_os(10);
++			ra_info1 = rtw_read32(padapter, REG_RSVD5_8812);
++			ra_info2 = rtw_read32(padapter, REG_RSVD6_8812);
++			rate_mask1 = rtw_read32(padapter, REG_RSVD7_8812);
++			rate_mask2 = rtw_read32(padapter, REG_RSVD8_8812);
++			hight_rate = ra_info2 & 0xFF;
++			lowest_rate = (ra_info2 >> 8)  & 0xFF;
++			bw_set = (ra_info1 >> 8)  & 0xFF;
++
++			_RTW_PRINT_SEL(sel , "[ ra_info1:0x%08x ] => VHT_EN=0x%02x, ", ra_info1, (ra_info1 >> 24) & 0xFF);
++
++			switch (bw_set) {
++
++			case CHANNEL_WIDTH_20:
++				_RTW_PRINT_SEL(sel , "BW_setting=20M\n");
++				break;
++
++			case CHANNEL_WIDTH_40:
++				_RTW_PRINT_SEL(sel , "BW_setting=40M\n");
++				break;
++
++			case CHANNEL_WIDTH_80:
++				_RTW_PRINT_SEL(sel , "BW_setting=80M\n");
++				break;
++
++			case CHANNEL_WIDTH_160:
++				_RTW_PRINT_SEL(sel , "BW_setting=160M\n");
++				break;
++
++			default:
++				_RTW_PRINT_SEL(sel , "BW_setting=0x%02x\n", bw_set);
++				break;
++
++			}
++
++			_RTW_PRINT_SEL(sel , "[ ra_info1:0x%08x ] =>RSSI=%d, DISRA=0x%02x\n", ra_info1, ra_info1 & 0xFF, (ra_info1 >> 16) & 0xFF);
++			_RTW_PRINT_SEL(sel , "[ ra_info2:0x%08x ] =>hight_rate=%s, lowest_rate=%s, SGI=0x%02x, RateID=%d\n",
++				       ra_info2,
++				       HDATA_RATE(hight_rate),
++				       HDATA_RATE(lowest_rate),
++				       (ra_info2 >> 16) & 0xFF,
++				       (ra_info2 >> 24) & 0xFF);
++			_RTW_PRINT_SEL(sel , "rate_mask2=0x%08x, rate_mask1=0x%08x\n", rate_mask2, rate_mask1);
++
++
++		}
++	}
++}
++/*
++ *	Description:
++ *		Query setting of specified variable.
++ */
++u8 GetHalDefVar8812A(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval)
++{
++	PHAL_DATA_TYPE pHalData;
++	u8 bResult;
++
++
++	pHalData = GET_HAL_DATA(padapter);
++	bResult = _SUCCESS;
++
++	switch (variable) {
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	case HAL_DEF_IS_SUPPORT_ANT_DIV:
++		*((u8 *)pval) = (pHalData->AntDivCfg == 0) ? _FALSE : _TRUE;
++		break;
++#endif
++
++	case HAL_DEF_DRVINFO_SZ:
++		*((u32 *)pval) = DRVINFO_SZ;
++		break;
++
++	case HAL_DEF_MAX_RECVBUF_SZ:
++		*((u32 *)pval) = MAX_RECVBUF_SZ;
++		break;
++
++	case HAL_DEF_RX_PACKET_OFFSET:
++		*((u32 *)pval) = RXDESC_SIZE + DRVINFO_SZ * 8;
++		break;
++
++	case HW_VAR_MAX_RX_AMPDU_FACTOR:
++		*((u32 *)pval) = MAX_AMPDU_FACTOR_64K;
++		break;
++
++	case HW_VAR_BEST_AMPDU_DENSITY:
++		*((u32 *)pval) = AMPDU_DENSITY_VALUE_7;
++		break;
++
++	case HAL_DEF_TX_LDPC:
++		if (IS_VENDOR_8812A_C_CUT(padapter))
++			/* IOT issue, default disable */
++			*(u8 *)pval = _FALSE;
++		else if (IS_HARDWARE_TYPE_8821(padapter))
++			*(u8 *)pval = _TRUE;
++		else
++			*(u8 *)pval = _FALSE;
++		break;
++
++	case HAL_DEF_RX_LDPC:
++		if (IS_VENDOR_8812A_C_CUT(padapter))
++			/* IOT issue, default disable */
++			*(u8 *)pval = _FALSE;
++		else if (IS_HARDWARE_TYPE_8821(padapter))
++			*(u8 *)pval = _FALSE;
++		else
++			*(u8 *)pval = _FALSE;
++		break;
++
++	case HAL_DEF_TX_STBC:
++		if (pHalData->rf_type == RF_1T2R || pHalData->rf_type == RF_1T1R)
++			*(u8 *)pval = 0;
++		else
++			*(u8 *)pval = 1;
++		break;
++
++	case HAL_DEF_RX_STBC:
++		*(u8 *)pval = 1;
++		break;
++
++	case HAL_DEF_EXPLICIT_BEAMFORMER:
++		if (pHalData->rf_type == RF_2T2R)
++			*((PBOOLEAN)pval) = _TRUE;
++		else
++			*((PBOOLEAN)pval) = _FALSE;
++		break;
++
++	case HAL_DEF_EXPLICIT_BEAMFORMEE:
++		*((PBOOLEAN)pval) = _TRUE;
++		break;
++
++	case HW_DEF_RA_INFO_DUMP:
++		hal_ra_info_dump(padapter, pval);
++		break;
++
++	case HAL_DEF_TX_PAGE_SIZE:
++		if (IS_HARDWARE_TYPE_8812(padapter))
++			*(u32 *)pval = PAGE_SIZE_512;
++		else
++			*(u32 *)pval = PAGE_SIZE_256;
++		break;
++
++	case HAL_DEF_TX_PAGE_BOUNDARY:
++		if (!padapter->registrypriv.wifi_spec) {
++			if (IS_HARDWARE_TYPE_8812(padapter))
++				*(u8 *)pval = TX_PAGE_BOUNDARY_8812;
++			else
++				*(u8 *)pval = TX_PAGE_BOUNDARY_8821;
++		} else {
++			if (IS_HARDWARE_TYPE_8812(padapter))
++				*(u8 *)pval = WMM_NORMAL_TX_PAGE_BOUNDARY_8812;
++			else
++				*(u8 *)pval = WMM_NORMAL_TX_PAGE_BOUNDARY_8821;
++		}
++		break;
++
++	case HAL_DEF_TX_PAGE_BOUNDARY_WOWLAN:
++		*(u8 *)pval = TX_PAGE_BOUNDARY_WOWLAN_8812;
++		break;
++
++	case HAL_DEF_MACID_SLEEP:
++		*(u8 *)pval = _TRUE; /* support macid sleep */
++		break;
++	case HAL_DEF_RX_DMA_SZ_WOW:
++		if (IS_HARDWARE_TYPE_8821(padapter))
++			*(u32 *)pval = MAX_RX_DMA_BUFFER_SIZE_8821 - RESV_FMWF;
++		else
++			*(u32 *)pval = MAX_RX_DMA_BUFFER_SIZE_8812 - RESV_FMWF;
++		break;
++	case HAL_DEF_RX_DMA_SZ:
++		if (IS_HARDWARE_TYPE_8821(padapter))
++			*(u32 *)pval = RX_DMA_BOUNDARY_8821 + 1;
++		else
++			*(u32 *)pval = RX_DMA_BOUNDARY_8812 + 1;
++		break;
++	case HAL_DEF_RX_PAGE_SIZE:
++		*((u32 *)pval) = 8;
++		break;
++	default:
++		bResult = GetHalDefVar(padapter, variable, pval);
++		break;
++	}
++
++	return bResult;
++}
++s32 c2h_id_filter_ccx_8812a(u8 *buf)
++{
++	struct c2h_evt_hdr_88xx *c2h_evt = (struct c2h_evt_hdr_88xx *)buf;
++	s32 ret = _FALSE;
++	if (c2h_evt->id == C2H_CCX_TX_RPT)
++		ret = _TRUE;
++
++	return ret;
++}
++
++static s32 c2h_handler_8812a(PADAPTER padapter, u8 *buf)
++{
++	struct c2h_evt_hdr_88xx *c2h_evt = (struct c2h_evt_hdr_88xx *)buf;
++	s32 ret = _SUCCESS;
++
++	if (c2h_evt == NULL) {
++		RTW_INFO("%s c2h_evt is NULL\n", __FUNCTION__);
++		ret = _FAIL;
++		goto exit;
++	}
++
++	ret = _C2HContentParsing8812(padapter, c2h_evt->id, c2h_evt->plen, c2h_evt->payload);
++
++exit:
++	return ret;
++}
++
++#ifdef CONFIG_BT_COEXIST
++void rtl8812a_combo_card_WifiOnlyHwInit(PADAPTER pdapter)
++{
++	u8  u1Tmp;
++	RTW_INFO("%s !\n", __FUNCTION__);
++	if (IS_HARDWARE_TYPE_8812(pdapter)) {
++		/* 0x790[5:0]=0x5 */
++		u1Tmp = rtw_read8(pdapter, 0x790);
++		u1Tmp = (u1Tmp & 0xb0) | 0x05 ;
++		rtw_write8(pdapter, 0x790, u1Tmp);
++		/* PTA parameter */
++		/* pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x6cc, 0x0); */
++		/* pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c8, 0xffffff); */
++		/* pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c4, 0x55555555); */
++		/* pBtCoexist->fBtcWrite4Byte(pBtCoexist, 0x6c0, 0x55555555); */
++		rtw_write8(pdapter, 0x6cc, 0x0);
++		rtw_write32(pdapter, 0x6c8, 0xffffff);
++		rtw_write32(pdapter, 0x6c4, 0x55555555);
++		rtw_write32(pdapter, 0x6c0, 0x55555555);
++
++		/* coex parameters */
++		/* pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x778, 0x3); */
++		rtw_write8(pdapter, 0x778, 0x3);
++
++		/* enable counter statistics */
++		/* pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x76e, 0xc); */
++		rtw_write8(pdapter, 0x76e, 0xc);
++
++		/* enable PTA */
++		/* pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x40, 0x20); */
++		rtw_write8(pdapter, 0x40, 0x20);
++
++		/* bt clock related */
++		/* u1Tmp = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x4); */
++		/* u1Tmp |= BIT7; */
++		/* pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x4, u1Tmp); */
++		u1Tmp = rtw_read8(pdapter, 0x4);
++		u1Tmp |= BIT7;
++		rtw_write8(pdapter, 0x4, u1Tmp);
++
++		/* bt clock related */
++		/* u1Tmp = pBtCoexist->fBtcRead1Byte(pBtCoexist, 0x7); */
++		/* u1Tmp |= BIT1; */
++		/* pBtCoexist->fBtcWrite1Byte(pBtCoexist, 0x7, u1Tmp); */
++		u1Tmp = rtw_read8(pdapter, 0x7);
++		u1Tmp |= BIT1;
++		rtw_write8(pdapter, 0x7, u1Tmp);
++	}
++
++
++}
++#endif /* CONFIG_BT_COEXIST */
++
++void rtl8812_set_hal_ops(struct hal_ops *pHalFunc)
++{
++	pHalFunc->dm_init = &rtl8812_init_dm_priv;
++	pHalFunc->dm_deinit = &rtl8812_deinit_dm_priv;
++
++	pHalFunc->SetBeaconRelatedRegistersHandler = &SetBeaconRelatedRegisters8812A;
++
++	pHalFunc->UpdateRAMaskHandler = &UpdateHalRAMask8812A;
++
++	pHalFunc->read_chip_version = read_chip_version_8812a;
++
++	pHalFunc->set_chnl_bw_handler = &PHY_SetSwChnlBWMode8812;
++
++	pHalFunc->set_tx_power_level_handler = &PHY_SetTxPowerLevel8812;
++	pHalFunc->get_tx_power_level_handler = &PHY_GetTxPowerLevel8812;
++
++	pHalFunc->get_tx_power_index_handler = PHY_GetTxPowerIndex_8812A;
++
++	pHalFunc->hal_dm_watchdog = &rtl8812_HalDmWatchDog;
++
++	pHalFunc->run_thread = &rtl8812_start_thread;
++	pHalFunc->cancel_thread = &rtl8812_stop_thread;
++
++	pHalFunc->read_bbreg = &PHY_QueryBBReg8812;
++	pHalFunc->write_bbreg = &PHY_SetBBReg8812;
++	pHalFunc->read_rfreg = &PHY_QueryRFReg8812;
++	pHalFunc->write_rfreg = &PHY_SetRFReg8812;
++
++
++	/* Efuse related function */
++	pHalFunc->EfusePowerSwitch = &rtl8812_EfusePowerSwitch;
++	pHalFunc->ReadEFuse = &rtl8812_ReadEFuse;
++	pHalFunc->EFUSEGetEfuseDefinition = &rtl8812_EFUSE_GetEfuseDefinition;
++	pHalFunc->EfuseGetCurrentSize = &rtl8812_EfuseGetCurrentSize;
++	pHalFunc->Efuse_PgPacketRead = &rtl8812_Efuse_PgPacketRead;
++	pHalFunc->Efuse_PgPacketWrite = &rtl8812_Efuse_PgPacketWrite;
++	pHalFunc->Efuse_WordEnableDataWrite = &rtl8812_Efuse_WordEnableDataWrite;
++	pHalFunc->Efuse_PgPacketWrite_BT = &Hal_EfusePgPacketWrite_BT;
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	pHalFunc->sreset_init_value = &sreset_init_value;
++	pHalFunc->sreset_reset_value = &sreset_reset_value;
++	pHalFunc->silentreset = &sreset_reset;
++	pHalFunc->sreset_xmit_status_check = &rtl8812_sreset_xmit_status_check;
++	pHalFunc->sreset_linked_status_check  = &rtl8812_sreset_linked_status_check;
++	pHalFunc->sreset_get_wifi_status  = &sreset_get_wifi_status;
++	pHalFunc->sreset_inprogress = &sreset_inprogress;
++#endif /* DBG_CONFIG_ERROR_DETECT */
++
++	pHalFunc->GetHalODMVarHandler = GetHalODMVar;
++	pHalFunc->SetHalODMVarHandler = SetHalODMVar;
++	pHalFunc->hal_notch_filter = &hal_notch_filter_8812;
++
++	pHalFunc->SetBeaconRelatedRegistersHandler = &SetBeaconRelatedRegisters8812A;
++
++	pHalFunc->c2h_handler = c2h_handler_8812a;
++	pHalFunc->c2h_id_filter_ccx = c2h_id_filter_ccx_8812a;
++
++	pHalFunc->fill_h2c_cmd = &FillH2CCmd_8812;
++	pHalFunc->fill_fake_txdesc = &rtl8812a_fill_fake_txdesc;
++	pHalFunc->fw_dl = &FirmwareDownload8812;
++	pHalFunc->hal_get_tx_buff_rsvd_page_num = &GetTxBufferRsvdPageNum8812;
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_phycfg.c b/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_phycfg.c
+new file mode 100644
+index 0000000..290ba76
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_phycfg.c
+@@ -0,0 +1,2019 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8812A_PHYCFG_C_
++
++/* #include <drv_types.h> */
++
++#include <rtl8812a_hal.h>
++
++/*---------------------Define local function prototype-----------------------*/
++
++/*----------------------------Function Body----------------------------------*/
++
++/*
++ * 1. BB register R/W API
++ *   */
++
++u32
++PHY_QueryBBReg8812(
++	IN	PADAPTER	Adapter,
++	IN	u32			RegAddr,
++	IN	u32			BitMask
++)
++{
++	u32	ReturnValue = 0, OriginalValue, BitShift;
++
++#if (DISABLE_BB_RF == 1)
++	return 0;
++#endif
++
++	/* RTW_INFO("--->PHY_QueryBBReg8812(): RegAddr(%#x), BitMask(%#x)\n", RegAddr, BitMask); */
++
++
++	OriginalValue = rtw_read32(Adapter, RegAddr);
++	BitShift = PHY_CalculateBitShift(BitMask);
++	ReturnValue = (OriginalValue & BitMask) >> BitShift;
++
++	/* RTW_INFO("BBR MASK=0x%x Addr[0x%x]=0x%x\n", BitMask, RegAddr, OriginalValue); */
++	return ReturnValue;
++}
++
++
++VOID
++PHY_SetBBReg8812(
++	IN	PADAPTER	Adapter,
++	IN	u4Byte		RegAddr,
++	IN	u4Byte		BitMask,
++	IN	u4Byte		Data
++)
++{
++	u4Byte			OriginalValue, BitShift;
++
++#if (DISABLE_BB_RF == 1)
++	return;
++#endif
++
++	if (BitMask != bMaskDWord) {
++		/* if not "double word" write */
++		OriginalValue = rtw_read32(Adapter, RegAddr);
++		BitShift = PHY_CalculateBitShift(BitMask);
++		Data = ((OriginalValue)&(~BitMask)) | (((Data << BitShift)) & BitMask);
++	}
++
++	rtw_write32(Adapter, RegAddr, Data);
++
++	/* RTW_INFO("BBW MASK=0x%x Addr[0x%x]=0x%x\n", BitMask, RegAddr, Data); */
++}
++
++/*
++ * 2. RF register R/W API
++ *   */
++
++static	u32
++phy_RFSerialRead(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset
++)
++{
++	u32							retValue = 0;
++	HAL_DATA_TYPE				*pHalData = GET_HAL_DATA(Adapter);
++	BB_REGISTER_DEFINITION_T	*pPhyReg = &pHalData->PHYRegDef[eRFPath];
++	BOOLEAN						bIsPIMode = _FALSE;
++
++
++	_enter_critical_mutex(&(adapter_to_dvobj(Adapter)->rf_read_reg_mutex) , NULL);
++	/* 2009/06/17 MH We can not execute IO for power save or other accident mode. */
++	/* if(RT_CANNOT_IO(Adapter)) */
++	/* { */
++	/*	RT_DISP(FPHY, PHY_RFR, ("phy_RFSerialRead return all one\n")); */
++	/*	return	0xFFFFFFFF; */
++	/* } */
++
++	/* <20120809, Kordan> CCA OFF(when entering), asked by James to avoid reading the wrong value. */
++	/* <20120828, Kordan> Toggling CCA would affect RF 0x0, skip it! */
++	if (Offset != 0x0 &&  !(IS_VENDOR_8812A_C_CUT(Adapter) || IS_HARDWARE_TYPE_8821(Adapter)))
++		PHY_SetBBReg(Adapter, rCCAonSec_Jaguar, 0x8, 1);
++
++	Offset &= 0xff;
++
++	if (eRFPath == RF_PATH_A)
++		bIsPIMode = (BOOLEAN)PHY_QueryBBReg(Adapter, 0xC00, 0x4);
++	else if (eRFPath == RF_PATH_B)
++		bIsPIMode = (BOOLEAN)PHY_QueryBBReg(Adapter, 0xE00, 0x4);
++
++	PHY_SetBBReg(Adapter, pPhyReg->rfHSSIPara2, bHSSIRead_addr_Jaguar, Offset);
++
++	if (IS_VENDOR_8812A_C_CUT(Adapter) || IS_HARDWARE_TYPE_8821(Adapter))
++		rtw_udelay_os(20);
++
++	if (bIsPIMode) {
++		retValue = PHY_QueryBBReg(Adapter, pPhyReg->rfLSSIReadBackPi, rRead_data_Jaguar);
++		/* RTW_INFO("[PI mode] RFR-%d Addr[0x%x]=0x%x\n", eRFPath, pPhyReg->rfLSSIReadBackPi, retValue); */
++	} else {
++		retValue = PHY_QueryBBReg(Adapter, pPhyReg->rfLSSIReadBack, rRead_data_Jaguar);
++		/* RTW_INFO("[SI mode] RFR-%d Addr[0x%x]=0x%x\n", eRFPath, pPhyReg->rfLSSIReadBack, retValue); */
++	}
++
++	/* <20120809, Kordan> CCA ON(when exiting), asked by James to avoid reading the wrong value. */
++	/* <20120828, Kordan> Toggling CCA would affect RF 0x0, skip it! */
++	if (Offset != 0x0 &&  !(IS_VENDOR_8812A_C_CUT(Adapter) || IS_HARDWARE_TYPE_8821(Adapter)))
++		PHY_SetBBReg(Adapter, rCCAonSec_Jaguar, 0x8, 0);
++
++	_exit_critical_mutex(&(adapter_to_dvobj(Adapter)->rf_read_reg_mutex), NULL);
++	return retValue;
++}
++
++
++static	VOID
++phy_RFSerialWrite(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset,
++	IN	u32				Data
++)
++{
++	u32							DataAndAddr = 0;
++	HAL_DATA_TYPE				*pHalData = GET_HAL_DATA(Adapter);
++	BB_REGISTER_DEFINITION_T	*pPhyReg = &pHalData->PHYRegDef[eRFPath];
++
++	/* 2009/06/17 MH We can not execute IO for power save or other accident mode. */
++	/* if(RT_CANNOT_IO(Adapter)) */
++	/* { */
++	/*	RTPRINT(FPHY, PHY_RFW, ("phy_RFSerialWrite stop\n")); */
++	/*	return; */
++	/* } */
++
++	Offset &= 0xff;
++
++	/* Shadow Update */
++	/* PHY_RFShadowWrite(Adapter, eRFPath, Offset, Data); */
++
++	/* Put write addr in [27:20]  and write data in [19:00] */
++	DataAndAddr = ((Offset << 20) | (Data & 0x000fffff)) & 0x0fffffff;
++
++	/* Write Operation */
++	/* TODO: Dynamically determine whether using PI or SI to write RF registers. */
++	PHY_SetBBReg(Adapter, pPhyReg->rf3wireOffset, bMaskDWord, DataAndAddr);
++	/* RTW_INFO("RFW-%d Addr[0x%x]=0x%x\n", eRFPath, pPhyReg->rf3wireOffset, DataAndAddr); */
++
++}
++
++u32
++PHY_QueryRFReg8812(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask
++)
++{
++	u32				Original_Value, Readback_Value, BitShift;
++
++#if (DISABLE_BB_RF == 1)
++	return 0;
++#endif
++
++	Original_Value = phy_RFSerialRead(Adapter, eRFPath, RegAddr);
++
++	BitShift =  PHY_CalculateBitShift(BitMask);
++	Readback_Value = (Original_Value & BitMask) >> BitShift;
++
++	return Readback_Value;
++}
++
++VOID
++PHY_SetRFReg8812(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask,
++	IN	u32				Data
++)
++{
++#if (DISABLE_BB_RF == 1)
++	return;
++#endif
++
++	if (BitMask == 0)
++		return;
++
++	/* RF data is 20 bits only */
++	if (BitMask != bLSSIWrite_data_Jaguar) {
++		u32	Original_Value, BitShift;
++		Original_Value = phy_RFSerialRead(Adapter, eRFPath, RegAddr);
++		BitShift =  PHY_CalculateBitShift(BitMask);
++		Data = ((Original_Value)&(~BitMask)) | (Data << BitShift);
++	}
++
++	phy_RFSerialWrite(Adapter, eRFPath, RegAddr, Data);
++
++}
++
++/*
++ * 3. Initial MAC/BB/RF config by reading MAC/BB/RF txt.
++ *   */
++
++s32 PHY_MACConfig8812(PADAPTER Adapter)
++{
++	int				rtStatus = _FAIL;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	/*  */
++	/* Config MAC */
++	/*  */
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	rtStatus = phy_ConfigMACWithParaFile(Adapter, PHY_FILE_MAC_REG);
++	if (rtStatus == _FAIL)
++#endif
++	{
++#ifdef CONFIG_EMBEDDED_FWIMG
++		ODM_ConfigMACWithHeaderFile(&pHalData->odmpriv);
++		rtStatus = _SUCCESS;
++#endif/* CONFIG_EMBEDDED_FWIMG */
++	}
++
++	return rtStatus;
++}
++
++
++static	VOID
++phy_InitBBRFRegisterDefinition(
++	IN	PADAPTER		Adapter
++)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++
++	/* RF Interface Sowrtware Control */
++	pHalData->PHYRegDef[ODM_RF_PATH_A].rfintfs = rFPGA0_XAB_RFInterfaceSW; /* 16 LSBs if read 32-bit from 0x870 */
++	pHalData->PHYRegDef[ODM_RF_PATH_B].rfintfs = rFPGA0_XAB_RFInterfaceSW; /* 16 MSBs if read 32-bit from 0x870 (16-bit for 0x872) */
++
++	/* RF Interface Output (and Enable) */
++	pHalData->PHYRegDef[ODM_RF_PATH_A].rfintfo = rFPGA0_XA_RFInterfaceOE; /* 16 LSBs if read 32-bit from 0x860 */
++	pHalData->PHYRegDef[ODM_RF_PATH_B].rfintfo = rFPGA0_XB_RFInterfaceOE; /* 16 LSBs if read 32-bit from 0x864 */
++
++	/* RF Interface (Output and)  Enable */
++	pHalData->PHYRegDef[ODM_RF_PATH_A].rfintfe = rFPGA0_XA_RFInterfaceOE; /* 16 MSBs if read 32-bit from 0x860 (16-bit for 0x862) */
++	pHalData->PHYRegDef[ODM_RF_PATH_B].rfintfe = rFPGA0_XB_RFInterfaceOE; /* 16 MSBs if read 32-bit from 0x864 (16-bit for 0x866) */
++
++	pHalData->PHYRegDef[ODM_RF_PATH_A].rf3wireOffset = rA_LSSIWrite_Jaguar; /* LSSI Parameter */
++	pHalData->PHYRegDef[ODM_RF_PATH_B].rf3wireOffset = rB_LSSIWrite_Jaguar;
++
++	pHalData->PHYRegDef[ODM_RF_PATH_A].rfHSSIPara2 = rHSSIRead_Jaguar;  /* wire control parameter2 */
++	pHalData->PHYRegDef[ODM_RF_PATH_B].rfHSSIPara2 = rHSSIRead_Jaguar;  /* wire control parameter2 */
++
++	/* Tranceiver Readback LSSI/HSPI mode */
++	pHalData->PHYRegDef[ODM_RF_PATH_A].rfLSSIReadBack = rA_SIRead_Jaguar;
++	pHalData->PHYRegDef[ODM_RF_PATH_B].rfLSSIReadBack = rB_SIRead_Jaguar;
++	pHalData->PHYRegDef[ODM_RF_PATH_A].rfLSSIReadBackPi = rA_PIRead_Jaguar;
++	pHalData->PHYRegDef[ODM_RF_PATH_B].rfLSSIReadBackPi = rB_PIRead_Jaguar;
++}
++
++VOID
++PHY_BB8812_Config_1T(
++	IN PADAPTER Adapter
++)
++{
++	/* BB OFDM RX Path_A */
++	PHY_SetBBReg(Adapter, rRxPath_Jaguar, bRxPath_Jaguar, 0x11);
++	/* BB OFDM TX Path_A */
++	PHY_SetBBReg(Adapter, rTxPath_Jaguar, bMaskLWord, 0x1111);
++	/* BB CCK R/Rx Path_A */
++	PHY_SetBBReg(Adapter, rCCK_RX_Jaguar, bCCK_RX_Jaguar, 0x0);
++	/* MCS support */
++	PHY_SetBBReg(Adapter, 0x8bc, 0xc0000060, 0x4);
++	/* RF Path_B HSSI OFF */
++	PHY_SetBBReg(Adapter, 0xe00, 0xf, 0x4);
++	/* RF Path_B Power Down */
++	PHY_SetBBReg(Adapter, 0xe90, bMaskDWord, 0);
++	/* ADDA Path_B OFF */
++	PHY_SetBBReg(Adapter, 0xe60, bMaskDWord, 0);
++	PHY_SetBBReg(Adapter, 0xe64, bMaskDWord, 0);
++}
++
++
++static	int
++phy_BB8812_Config_ParaFile(
++	IN	PADAPTER	Adapter
++)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	int			rtStatus = _SUCCESS;
++
++	/* Read PHY_REG.TXT BB INIT!! */
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	if (phy_ConfigBBWithParaFile(Adapter, PHY_FILE_PHY_REG, CONFIG_BB_PHY_REG) == _FAIL)
++#endif
++	{
++#ifdef CONFIG_EMBEDDED_FWIMG
++		if (HAL_STATUS_SUCCESS != ODM_ConfigBBWithHeaderFile(&pHalData->odmpriv, CONFIG_BB_PHY_REG))
++			rtStatus = _FAIL;
++#endif
++	}
++
++	if (rtStatus != _SUCCESS) {
++		RTW_INFO("%s(): CONFIG_BB_PHY_REG Fail!!\n", __FUNCTION__);
++		goto phy_BB_Config_ParaFile_Fail;
++	}
++
++	/* Read PHY_REG_MP.TXT BB INIT!! */
++#if (MP_DRIVER == 1)
++	if (Adapter->registrypriv.mp_mode == 1) {
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++		if (phy_ConfigBBWithMpParaFile(Adapter, PHY_FILE_PHY_REG_MP) == _FAIL)
++#endif
++		{
++#ifdef CONFIG_EMBEDDED_FWIMG
++			if (HAL_STATUS_SUCCESS != ODM_ConfigBBWithHeaderFile(&pHalData->odmpriv, CONFIG_BB_PHY_REG_MP))
++				rtStatus = _FAIL;
++#endif
++		}
++
++		if (rtStatus != _SUCCESS) {
++			RTW_INFO("phy_BB8812_Config_ParaFile():Write BB Reg MP Fail!!\n");
++			goto phy_BB_Config_ParaFile_Fail;
++		}
++	}
++#endif	/*  #if (MP_DRIVER == 1) */
++
++	/* BB AGC table Initialization */
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	if (phy_ConfigBBWithParaFile(Adapter, PHY_FILE_AGC_TAB, CONFIG_BB_AGC_TAB) == _FAIL)
++#endif
++	{
++#ifdef CONFIG_EMBEDDED_FWIMG
++		if (HAL_STATUS_SUCCESS != ODM_ConfigBBWithHeaderFile(&pHalData->odmpriv, CONFIG_BB_AGC_TAB))
++			rtStatus = _FAIL;
++#endif
++	}
++
++	if (rtStatus != _SUCCESS)
++		RTW_INFO("%s(): CONFIG_BB_AGC_TAB Fail!!\n", __FUNCTION__);
++
++phy_BB_Config_ParaFile_Fail:
++
++	return rtStatus;
++}
++
++int
++PHY_BBConfig8812(
++	IN	PADAPTER	Adapter
++)
++{
++	int	rtStatus = _SUCCESS;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u8	TmpU1B = 0;
++
++	phy_InitBBRFRegisterDefinition(Adapter);
++
++	/* tangw check start 20120412 */
++	/* . APLL_EN,,APLL_320_GATEB,APLL_320BIAS,  auto config by hw fsm after pfsm_go (0x4 bit 8) set */
++	TmpU1B = rtw_read8(Adapter, REG_SYS_FUNC_EN);
++
++	if (IS_HARDWARE_TYPE_8812AU(Adapter) || IS_HARDWARE_TYPE_8821U(Adapter))
++		TmpU1B |= FEN_USBA;
++	else  if (IS_HARDWARE_TYPE_8812E(Adapter) || IS_HARDWARE_TYPE_8821E(Adapter))
++		TmpU1B |= FEN_PCIEA;
++
++	rtw_write8(Adapter, REG_SYS_FUNC_EN, TmpU1B);
++
++	rtw_write8(Adapter, REG_SYS_FUNC_EN, (TmpU1B | FEN_BB_GLB_RSTn | FEN_BBRSTB)); /* same with 8812 */
++	/* 6. 0x1f[7:0] = 0x07 PathA RF Power On */
++	rtw_write8(Adapter, REG_RF_CTRL, 0x07);/* RF_SDMRSTB,RF_RSTB,RF_EN same with 8723a */
++	/* 7.  PathB RF Power On */
++	rtw_write8(Adapter, REG_OPT_CTRL_8812 + 2, 0x7); /* RF_SDMRSTB,RF_RSTB,RF_EN same with 8723a */
++	/* tangw check end 20120412 */
++
++
++	/*  */
++	/* Config BB and AGC */
++	/*  */
++	rtStatus = phy_BB8812_Config_ParaFile(Adapter);
++
++	hal_set_crystal_cap(Adapter, pHalData->CrystalCap);
++
++	if (IS_HARDWARE_TYPE_JAGUAR(Adapter))
++		pHalData->Reg837 = rtw_read8(Adapter, 0x837);
++
++	return rtStatus;
++}
++
++int
++PHY_RFConfig8812(
++	IN	PADAPTER	Adapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	int		rtStatus = _SUCCESS;
++
++	if (RTW_CANNOT_RUN(Adapter))
++		return _FAIL;
++
++	switch (pHalData->rf_chip) {
++	case RF_PSEUDO_11N:
++		RTW_INFO("%s(): RF_PSEUDO_11N\n", __FUNCTION__);
++		break;
++	default:
++		rtStatus = PHY_RF6052_Config_8812(Adapter);
++		break;
++	}
++
++	return rtStatus;
++}
++
++VOID
++PHY_TxPowerTrainingByPath_8812(
++	IN	PADAPTER			Adapter,
++	IN	CHANNEL_WIDTH		BandWidth,
++	IN	u8					Channel,
++	IN	u8					RfPath
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	u8	i;
++	u32	PowerLevel, writeData, writeOffset;
++
++	if (RfPath >= pHalData->NumTotalRFPath)
++		return;
++
++	writeData = 0;
++	if (RfPath == ODM_RF_PATH_A) {
++		PowerLevel = PHY_GetTxPowerIndex(Adapter, ODM_RF_PATH_A, MGN_MCS7, BandWidth, Channel);
++		writeOffset =  rA_TxPwrTraing_Jaguar;
++	} else {
++		PowerLevel = PHY_GetTxPowerIndex(Adapter, ODM_RF_PATH_B, MGN_MCS7, BandWidth, Channel);
++		writeOffset =  rB_TxPwrTraing_Jaguar;
++	}
++
++	for (i = 0; i < 3; i++) {
++		if (i == 0)
++			PowerLevel = PowerLevel - 10;
++		else if (i == 1)
++			PowerLevel = PowerLevel - 8;
++		else
++			PowerLevel = PowerLevel - 6;
++		writeData |= (((PowerLevel > 2) ? (PowerLevel) : 2) << (i * 8));
++	}
++
++	PHY_SetBBReg(Adapter, writeOffset, 0xffffff, writeData);
++}
++
++VOID
++PHY_GetTxPowerLevel8812(
++	IN	PADAPTER		Adapter,
++	OUT s32		*powerlevel
++)
++{
++#if 0
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PMGNT_INFO		pMgntInfo = &(Adapter->MgntInfo);
++	s4Byte			TxPwrDbm = 13;
++
++	if (pMgntInfo->ClientConfigPwrInDbm != UNSPECIFIED_PWR_DBM)
++		*powerlevel = pMgntInfo->ClientConfigPwrInDbm;
++	else
++		*powerlevel = TxPwrDbm;
++#endif
++}
++
++/* create new definition of PHY_SetTxPowerLevel8812 by YP.
++ * Page revised on 20121106
++ * the new way to set tx power by rate, NByte access, here N byte shall be 4 byte(DWord) or NByte(N>4) access. by page/YP, 20121106 */
++VOID
++PHY_SetTxPowerLevel8812(
++	IN	PADAPTER		Adapter,
++	IN	u8				Channel
++)
++{
++
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	u8			path = 0;
++
++	/* RTW_INFO("==>PHY_SetTxPowerLevel8812()\n"); */
++
++	for (path = ODM_RF_PATH_A; path < pHalData->NumTotalRFPath; ++path) {
++		PHY_SetTxPowerLevelByPath(Adapter, Channel, path);
++		PHY_TxPowerTrainingByPath_8812(Adapter, pHalData->CurrentChannelBW, Channel, path);
++	}
++
++	/* RTW_INFO("<==PHY_SetTxPowerLevel8812()\n"); */
++}
++
++u8
++phy_GetCurrentTxNum_8812A(
++	IN	PADAPTER		pAdapter,
++	IN	u8				Rate
++)
++{
++	u8	tx_num = 0;
++
++	if ((Rate >= MGN_MCS8 && Rate <= MGN_MCS15) ||
++	    (Rate >= MGN_VHT2SS_MCS0 && Rate <= MGN_VHT2SS_MCS9))
++		tx_num = RF_2TX;
++	else
++		tx_num = RF_1TX;
++
++	return tx_num;
++}
++
++/**************************************************************************************************************
++ *   Description:
++ *       The low-level interface to get the FINAL Tx Power Index , called  by both MP and Normal Driver.
++ *
++ *                                                                                    <20120830, Kordan>
++ **************************************************************************************************************/
++u8
++PHY_GetTxPowerIndex_8812A(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	u8					Rate,
++	IN	u8					BandWidth,
++	IN	u8					Channel,
++	struct txpwr_idx_comp *tic
++)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
++	u8 base_idx = 0, power_idx = 0;
++	s8 by_rate_diff = 0, limit = 0, tpt_offset = 0, extra_bias = 0;
++	u8 tx_num = phy_GetCurrentTxNum_8812A(pAdapter, Rate);
++	BOOLEAN bIn24G = _FALSE;
++
++	base_idx = PHY_GetTxPowerIndexBase(pAdapter, RFPath, Rate, BandWidth, Channel, &bIn24G);
++
++	by_rate_diff = PHY_GetTxPowerByRate(pAdapter, (u8)(!bIn24G), RFPath, tx_num, Rate);
++#ifdef CONFIG_USB_HCI
++	/* no external power, so disable power by rate in VHT to avoid card disable */
++#ifndef CONFIG_USE_EXTERNAL_POWER
++	/*	2013/01/29 MH For preventing VHT rate of 8812AU to be used in USB 2.0 mode	*/
++	/*	and the current will be more than 500mA and card disappear. We need to limit	*/
++	/*	TX power with any power by rate for VHT in U2.								*/
++	/*	2013/01/30 MH According to power current test compare with BCM AC NIC, we	*/
++	/*	decide to use host hub = 2.0 mode to enable tx power limit behavior			*/
++	/*	2013/01/29 MH For preventing VHT rate of 8812AU to be used in USB 2.0 mode	*/
++
++	if (adapter_to_dvobj(pAdapter)->usb_speed == RTW_USB_SPEED_2
++		&& IS_HARDWARE_TYPE_8812AU(pAdapter)) {
++
++		/* VHT rate 0~7, disable TxPowerByRate, but enable TX power limit */
++		if ((Rate >= MGN_VHT1SS_MCS0 && Rate <= MGN_VHT1SS_MCS7) ||
++			(Rate >= MGN_VHT2SS_MCS0 && Rate <= MGN_VHT2SS_MCS7))
++			by_rate_diff = 0;
++	}
++#endif
++#endif
++
++	limit = PHY_GetTxPowerLimit(pAdapter, pAdapter->registrypriv.RegPwrTblSel, (u8)(!bIn24G), pHalData->CurrentChannelBW, RFPath, Rate, pHalData->CurrentChannel);
++
++	tpt_offset = PHY_GetTxPowerTrackingOffset(pAdapter, RFPath, Rate);
++
++	if (tic) {
++		tic->base = base_idx;
++		tic->by_rate = by_rate_diff;
++		tic->limit = limit;
++		tic->tpt = tpt_offset;
++		tic->ebias = extra_bias;
++	}
++
++	by_rate_diff = by_rate_diff > limit ? limit : by_rate_diff;
++	power_idx = base_idx + by_rate_diff + tpt_offset + extra_bias;
++
++	if (power_idx > MAX_POWER_INDEX)
++		power_idx = MAX_POWER_INDEX;
++
++	if (power_idx % 2 == 1 && !IS_NORMAL_CHIP(pHalData->VersionID))
++		--power_idx;
++
++	return power_idx;
++}
++
++/**************************************************************************************************************
++ *   Description:
++ *       The low-level interface to set TxAGC , called by both MP and Normal Driver.
++ *
++ *                                                                                    <20120830, Kordan>
++ **************************************************************************************************************/
++
++VOID
++PHY_SetTxPowerIndex_8812A(
++	IN	PADAPTER		Adapter,
++	IN	u32				PowerIndex,
++	IN	u8				RFPath,
++	IN	u8				Rate
++)
++{
++	HAL_DATA_TYPE		*pHalData	= GET_HAL_DATA(Adapter);
++
++	/* <20120928, Kordan> A workaround in 8812A/8821A testchip, to fix the bug of odd Tx power indexes. */
++	if ((PowerIndex % 2 == 1) && IS_HARDWARE_TYPE_JAGUAR(Adapter) && IS_TEST_CHIP(pHalData->VersionID))
++		PowerIndex -= 1;
++
++	if (RFPath == RF_PATH_A) {
++		switch (Rate) {
++		case MGN_1M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_CCK11_CCK1_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_2M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_CCK11_CCK1_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_5_5M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_CCK11_CCK1_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_11M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_CCK11_CCK1_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_6M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Ofdm18_Ofdm6_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_9M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Ofdm18_Ofdm6_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_12M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Ofdm18_Ofdm6_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_18M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Ofdm18_Ofdm6_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_24M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Ofdm54_Ofdm24_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_36M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Ofdm54_Ofdm24_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_48M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Ofdm54_Ofdm24_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_54M:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Ofdm54_Ofdm24_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_MCS0:
++			PHY_SetBBReg(Adapter, rTxAGC_A_MCS3_MCS0_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_MCS1:
++			PHY_SetBBReg(Adapter, rTxAGC_A_MCS3_MCS0_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_MCS2:
++			PHY_SetBBReg(Adapter, rTxAGC_A_MCS3_MCS0_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_MCS3:
++			PHY_SetBBReg(Adapter, rTxAGC_A_MCS3_MCS0_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_MCS4:
++			PHY_SetBBReg(Adapter, rTxAGC_A_MCS7_MCS4_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_MCS5:
++			PHY_SetBBReg(Adapter, rTxAGC_A_MCS7_MCS4_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_MCS6:
++			PHY_SetBBReg(Adapter, rTxAGC_A_MCS7_MCS4_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_MCS7:
++			PHY_SetBBReg(Adapter, rTxAGC_A_MCS7_MCS4_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_MCS8:
++			PHY_SetBBReg(Adapter, rTxAGC_A_MCS11_MCS8_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_MCS9:
++			PHY_SetBBReg(Adapter, rTxAGC_A_MCS11_MCS8_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_MCS10:
++			PHY_SetBBReg(Adapter, rTxAGC_A_MCS11_MCS8_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_MCS11:
++			PHY_SetBBReg(Adapter, rTxAGC_A_MCS11_MCS8_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_MCS12:
++			PHY_SetBBReg(Adapter, rTxAGC_A_MCS15_MCS12_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_MCS13:
++			PHY_SetBBReg(Adapter, rTxAGC_A_MCS15_MCS12_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_MCS14:
++			PHY_SetBBReg(Adapter, rTxAGC_A_MCS15_MCS12_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_MCS15:
++			PHY_SetBBReg(Adapter, rTxAGC_A_MCS15_MCS12_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_VHT1SS_MCS0:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss1Index3_Nss1Index0_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_VHT1SS_MCS1:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss1Index3_Nss1Index0_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_VHT1SS_MCS2:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss1Index3_Nss1Index0_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_VHT1SS_MCS3:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss1Index3_Nss1Index0_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_VHT1SS_MCS4:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss1Index7_Nss1Index4_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_VHT1SS_MCS5:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss1Index7_Nss1Index4_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_VHT1SS_MCS6:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss1Index7_Nss1Index4_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_VHT1SS_MCS7:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss1Index7_Nss1Index4_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_VHT1SS_MCS8:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss2Index1_Nss1Index8_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_VHT1SS_MCS9:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss2Index1_Nss1Index8_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_VHT2SS_MCS0:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss2Index1_Nss1Index8_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_VHT2SS_MCS1:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss2Index1_Nss1Index8_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_VHT2SS_MCS2:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss2Index5_Nss2Index2_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_VHT2SS_MCS3:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss2Index5_Nss2Index2_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_VHT2SS_MCS4:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss2Index5_Nss2Index2_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_VHT2SS_MCS5:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss2Index5_Nss2Index2_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_VHT2SS_MCS6:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss2Index9_Nss2Index6_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_VHT2SS_MCS7:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss2Index9_Nss2Index6_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_VHT2SS_MCS8:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss2Index9_Nss2Index6_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_VHT2SS_MCS9:
++			PHY_SetBBReg(Adapter, rTxAGC_A_Nss2Index9_Nss2Index6_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		default:
++			RTW_INFO("Invalid Rate!!\n");
++			break;
++		}
++	} else if (RFPath == RF_PATH_B) {
++		switch (Rate) {
++		case MGN_1M:
++			PHY_SetBBReg(Adapter, rTxAGC_B_CCK11_CCK1_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_2M:
++			PHY_SetBBReg(Adapter, rTxAGC_B_CCK11_CCK1_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_5_5M:
++			PHY_SetBBReg(Adapter, rTxAGC_B_CCK11_CCK1_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_11M:
++			PHY_SetBBReg(Adapter, rTxAGC_B_CCK11_CCK1_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_6M:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Ofdm18_Ofdm6_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_9M:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Ofdm18_Ofdm6_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_12M:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Ofdm18_Ofdm6_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_18M:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Ofdm18_Ofdm6_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_24M:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Ofdm54_Ofdm24_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_36M:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Ofdm54_Ofdm24_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_48M:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Ofdm54_Ofdm24_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_54M:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Ofdm54_Ofdm24_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_MCS0:
++			PHY_SetBBReg(Adapter, rTxAGC_B_MCS3_MCS0_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_MCS1:
++			PHY_SetBBReg(Adapter, rTxAGC_B_MCS3_MCS0_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_MCS2:
++			PHY_SetBBReg(Adapter, rTxAGC_B_MCS3_MCS0_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_MCS3:
++			PHY_SetBBReg(Adapter, rTxAGC_B_MCS3_MCS0_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_MCS4:
++			PHY_SetBBReg(Adapter, rTxAGC_B_MCS7_MCS4_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_MCS5:
++			PHY_SetBBReg(Adapter, rTxAGC_B_MCS7_MCS4_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_MCS6:
++			PHY_SetBBReg(Adapter, rTxAGC_B_MCS7_MCS4_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_MCS7:
++			PHY_SetBBReg(Adapter, rTxAGC_B_MCS7_MCS4_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_MCS8:
++			PHY_SetBBReg(Adapter, rTxAGC_B_MCS11_MCS8_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_MCS9:
++			PHY_SetBBReg(Adapter, rTxAGC_B_MCS11_MCS8_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_MCS10:
++			PHY_SetBBReg(Adapter, rTxAGC_B_MCS11_MCS8_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_MCS11:
++			PHY_SetBBReg(Adapter, rTxAGC_B_MCS11_MCS8_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_MCS12:
++			PHY_SetBBReg(Adapter, rTxAGC_B_MCS15_MCS12_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_MCS13:
++			PHY_SetBBReg(Adapter, rTxAGC_B_MCS15_MCS12_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_MCS14:
++			PHY_SetBBReg(Adapter, rTxAGC_B_MCS15_MCS12_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_MCS15:
++			PHY_SetBBReg(Adapter, rTxAGC_B_MCS15_MCS12_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_VHT1SS_MCS0:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss1Index3_Nss1Index0_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_VHT1SS_MCS1:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss1Index3_Nss1Index0_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_VHT1SS_MCS2:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss1Index3_Nss1Index0_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_VHT1SS_MCS3:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss1Index3_Nss1Index0_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_VHT1SS_MCS4:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss1Index7_Nss1Index4_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_VHT1SS_MCS5:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss1Index7_Nss1Index4_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_VHT1SS_MCS6:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss1Index7_Nss1Index4_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_VHT1SS_MCS7:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss1Index7_Nss1Index4_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_VHT1SS_MCS8:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss2Index1_Nss1Index8_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_VHT1SS_MCS9:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss2Index1_Nss1Index8_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_VHT2SS_MCS0:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss2Index1_Nss1Index8_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_VHT2SS_MCS1:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss2Index1_Nss1Index8_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_VHT2SS_MCS2:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss2Index5_Nss2Index2_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_VHT2SS_MCS3:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss2Index5_Nss2Index2_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_VHT2SS_MCS4:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss2Index5_Nss2Index2_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_VHT2SS_MCS5:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss2Index5_Nss2Index2_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		case MGN_VHT2SS_MCS6:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss2Index9_Nss2Index6_JAguar, bMaskByte0, PowerIndex);
++			break;
++		case MGN_VHT2SS_MCS7:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss2Index9_Nss2Index6_JAguar, bMaskByte1, PowerIndex);
++			break;
++		case MGN_VHT2SS_MCS8:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss2Index9_Nss2Index6_JAguar, bMaskByte2, PowerIndex);
++			break;
++		case MGN_VHT2SS_MCS9:
++			PHY_SetBBReg(Adapter, rTxAGC_B_Nss2Index9_Nss2Index6_JAguar, bMaskByte3, PowerIndex);
++			break;
++
++		default:
++			RTW_INFO("Invalid Rate!!\n");
++			break;
++		}
++	} else
++		RTW_INFO("Invalid RFPath!!\n");
++}
++
++BOOLEAN
++PHY_UpdateTxPowerDbm8812(
++	IN	PADAPTER	Adapter,
++	IN	int		powerInDbm
++)
++{
++	return _TRUE;
++}
++
++
++u32 PHY_GetTxBBSwing_8812A(
++	IN	PADAPTER	Adapter,
++	IN	BAND_TYPE	Band,
++	IN	u8			RFPath
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(GetDefaultAdapter(Adapter));
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++
++	s8	bbSwing_2G = -1 * GetRegTxBBSwing_2G(Adapter);
++	s8	bbSwing_5G = -1 * GetRegTxBBSwing_5G(Adapter);
++	u32	out = 0x200;
++	const s8	AUTO = -1;
++
++
++	if (pHalData->bautoload_fail_flag) {
++		if (Band == BAND_ON_2_4G) {
++			pRFCalibrateInfo->BBSwingDiff2G = bbSwing_2G;
++			if (bbSwing_2G == 0)
++				out = 0x200; /* 0 dB */
++			else if (bbSwing_2G == -3)
++				out = 0x16A; /* -3 dB */
++			else if (bbSwing_2G == -6)
++				out = 0x101; /* -6 dB */
++			else if (bbSwing_2G == -9)
++				out = 0x0B6; /* -9 dB */
++			else {
++				if (pHalData->ExternalPA_2G) {
++					pRFCalibrateInfo->BBSwingDiff2G = -3;
++					out = 0x16A;
++				} else  {
++					pRFCalibrateInfo->BBSwingDiff2G = 0;
++					out = 0x200;
++				}
++			}
++		} else if (Band == BAND_ON_5G) {
++			pRFCalibrateInfo->BBSwingDiff5G = bbSwing_5G;
++			if (bbSwing_5G == 0)
++				out = 0x200; /* 0 dB */
++			else if (bbSwing_5G == -3)
++				out = 0x16A; /* -3 dB */
++			else if (bbSwing_5G == -6)
++				out = 0x101; /* -6 dB */
++			else if (bbSwing_5G == -9)
++				out = 0x0B6; /* -9 dB */
++			else {
++				if (pHalData->ExternalPA_5G || IS_HARDWARE_TYPE_8821(Adapter)) {
++					pRFCalibrateInfo->BBSwingDiff5G = -3;
++					out = 0x16A;
++				} else {
++					pRFCalibrateInfo->BBSwingDiff5G = 0;
++					out = 0x200;
++				}
++			}
++		} else  {
++			pRFCalibrateInfo->BBSwingDiff2G = -3;
++			pRFCalibrateInfo->BBSwingDiff5G = -3;
++			out = 0x16A; /* -3 dB */
++		}
++	} else {
++		u32 swing = 0, onePathSwing = 0;
++
++		if (Band == BAND_ON_2_4G) {
++			if (GetRegTxBBSwing_2G(Adapter) == AUTO) {
++				EFUSE_ShadowRead(Adapter, 1, EEPROM_TX_BBSWING_2G_8812, (u32 *)&swing);
++				swing = (swing == 0xFF) ? 0x00 : swing;
++			} else if (bbSwing_2G ==  0)
++				swing = 0x00; /* 0 dB */
++			else if (bbSwing_2G == -3)
++				swing = 0x05; /* -3 dB */
++			else if (bbSwing_2G == -6)
++				swing = 0x0A; /* -6 dB */
++			else if (bbSwing_2G == -9)
++				swing = 0xFF; /* -9 dB */
++			else
++				swing = 0x00;
++		} else {
++			if (GetRegTxBBSwing_5G(Adapter) == AUTO) {
++				EFUSE_ShadowRead(Adapter, 1, EEPROM_TX_BBSWING_5G_8812, (u32 *)&swing);
++				swing = (swing == 0xFF) ? 0x00 : swing;
++			} else if (bbSwing_5G ==  0)
++				swing = 0x00; /* 0 dB */
++			else if (bbSwing_5G == -3)
++				swing = 0x05; /* -3 dB */
++			else if (bbSwing_5G == -6)
++				swing = 0x0A; /* -6 dB */
++			else if (bbSwing_5G == -9)
++				swing = 0xFF; /* -9 dB */
++			else
++				swing = 0x00;
++		}
++
++		if (RFPath == ODM_RF_PATH_A)
++			onePathSwing = (swing & 0x3) >> 0; /* 0xC6/C7[1:0] */
++		else if (RFPath == ODM_RF_PATH_B)
++			onePathSwing = (swing & 0xC) >> 2; /* 0xC6/C7[3:2] */
++
++		if (onePathSwing == 0x0) {
++			if (Band == BAND_ON_2_4G)
++				pRFCalibrateInfo->BBSwingDiff2G = 0;
++			else
++				pRFCalibrateInfo->BBSwingDiff5G = 0;
++			out = 0x200; /* 0 dB */
++		} else if (onePathSwing == 0x1) {
++			if (Band == BAND_ON_2_4G)
++				pRFCalibrateInfo->BBSwingDiff2G = -3;
++			else
++				pRFCalibrateInfo->BBSwingDiff5G = -3;
++			out = 0x16A; /* -3 dB */
++		} else if (onePathSwing == 0x2) {
++			if (Band == BAND_ON_2_4G)
++				pRFCalibrateInfo->BBSwingDiff2G = -6;
++			else
++				pRFCalibrateInfo->BBSwingDiff5G = -6;
++			out = 0x101; /* -6 dB */
++		} else if (onePathSwing == 0x3) {
++			if (Band == BAND_ON_2_4G)
++				pRFCalibrateInfo->BBSwingDiff2G = -9;
++			else
++				pRFCalibrateInfo->BBSwingDiff5G = -9;
++			out = 0x0B6; /* -9 dB */
++		}
++	}
++
++	/* RTW_INFO("<=== PHY_GetTxBBSwing_8812A, out = 0x%X\n", out); */
++
++	return out;
++}
++
++VOID
++phy_SetRFEReg8812(
++	IN PADAPTER		Adapter,
++	IN u8			Band
++)
++{
++	u1Byte			u1tmp = 0;
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(Adapter);
++
++	if (Band == BAND_ON_2_4G) {
++		switch (pHalData->RFEType) {
++		case 0:
++		case 2:
++			PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, bMaskDWord, 0x77777777);
++			PHY_SetBBReg(Adapter, rB_RFE_Pinmux_Jaguar, bMaskDWord, 0x77777777);
++			PHY_SetBBReg(Adapter, rA_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x000);
++			PHY_SetBBReg(Adapter, rB_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x000);
++			break;
++		case 1:
++#ifdef CONFIG_BT_COEXIST
++			if (hal_btcoex_IsBtExist(Adapter) && (Adapter->registrypriv.mp_mode == 0)) {
++				PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, 0xffffff, 0x777777);
++				PHY_SetBBReg(Adapter, rB_RFE_Pinmux_Jaguar, bMaskDWord, 0x77777777);
++				PHY_SetBBReg(Adapter, rA_RFE_Inv_Jaguar, 0x33f00000, 0x000);
++				PHY_SetBBReg(Adapter, rB_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x000);
++			} else
++#endif
++			{
++				PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, bMaskDWord, 0x77777777);
++				PHY_SetBBReg(Adapter, rB_RFE_Pinmux_Jaguar, bMaskDWord, 0x77777777);
++				PHY_SetBBReg(Adapter, rA_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x000);
++				PHY_SetBBReg(Adapter, rB_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x000);
++			}
++			break;
++		case 3:
++			PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, bMaskDWord, 0x54337770);
++			PHY_SetBBReg(Adapter, rB_RFE_Pinmux_Jaguar, bMaskDWord, 0x54337770);
++			PHY_SetBBReg(Adapter, rA_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x010);
++			PHY_SetBBReg(Adapter, rB_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x010);
++			PHY_SetBBReg(Adapter, r_ANTSEL_SW_Jaguar, 0x00000303, 0x1);
++			break;
++		case 4:
++			PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, bMaskDWord, 0x77777777);
++			PHY_SetBBReg(Adapter, rB_RFE_Pinmux_Jaguar, bMaskDWord, 0x77777777);
++			PHY_SetBBReg(Adapter, rA_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x001);
++			PHY_SetBBReg(Adapter, rB_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x001);
++			break;
++		case 5:
++			rtw_write8(Adapter, rA_RFE_Pinmux_Jaguar + 2, 0x77);
++
++			PHY_SetBBReg(Adapter, rB_RFE_Pinmux_Jaguar, bMaskDWord, 0x77777777);
++			u1tmp = rtw_read8(Adapter, rA_RFE_Inv_Jaguar + 3);
++			rtw_write8(Adapter, rA_RFE_Inv_Jaguar + 3, (u1tmp &= ~BIT0));
++			PHY_SetBBReg(Adapter, rB_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x000);
++			break;
++		default:
++			break;
++		}
++	} else {
++		switch (pHalData->RFEType) {
++		case 0:
++			PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, bMaskDWord, 0x77337717);
++			PHY_SetBBReg(Adapter, rB_RFE_Pinmux_Jaguar, bMaskDWord, 0x77337717);
++			PHY_SetBBReg(Adapter, rA_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x010);
++			PHY_SetBBReg(Adapter, rB_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x010);
++			break;
++		case 1:
++#ifdef CONFIG_BT_COEXIST
++			if (hal_btcoex_IsBtExist(Adapter) && (Adapter->registrypriv.mp_mode == 0)) {
++				PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, 0xffffff, 0x337717);
++				PHY_SetBBReg(Adapter, rB_RFE_Pinmux_Jaguar, bMaskDWord, 0x77337717);
++				PHY_SetBBReg(Adapter, rA_RFE_Inv_Jaguar, 0x33f00000, 0x000);
++				PHY_SetBBReg(Adapter, rB_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x000);
++			} else
++#endif
++			{
++				PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, bMaskDWord, 0x77337717);
++				PHY_SetBBReg(Adapter, rB_RFE_Pinmux_Jaguar, bMaskDWord, 0x77337717);
++				PHY_SetBBReg(Adapter, rA_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x000);
++				PHY_SetBBReg(Adapter, rB_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x000);
++			}
++			break;
++		case 2:
++		case 4:
++			PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, bMaskDWord, 0x77337777);
++			PHY_SetBBReg(Adapter, rB_RFE_Pinmux_Jaguar, bMaskDWord, 0x77337777);
++			PHY_SetBBReg(Adapter, rA_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x010);
++			PHY_SetBBReg(Adapter, rB_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x010);
++			break;
++		case 3:
++			PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, bMaskDWord, 0x54337717);
++			PHY_SetBBReg(Adapter, rB_RFE_Pinmux_Jaguar, bMaskDWord, 0x54337717);
++			PHY_SetBBReg(Adapter, rA_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x010);
++			PHY_SetBBReg(Adapter, rB_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x010);
++			PHY_SetBBReg(Adapter, r_ANTSEL_SW_Jaguar, 0x00000303, 0x1);
++			break;
++		case 5:
++			rtw_write8(Adapter, rA_RFE_Pinmux_Jaguar + 2, 0x33);
++			PHY_SetBBReg(Adapter, rB_RFE_Pinmux_Jaguar, bMaskDWord, 0x77337777);
++			u1tmp = rtw_read8(Adapter, rA_RFE_Inv_Jaguar + 3);
++			rtw_write8(Adapter, rA_RFE_Inv_Jaguar + 3, (u1tmp |= BIT0));
++			PHY_SetBBReg(Adapter, rB_RFE_Inv_Jaguar, bMask_RFEInv_Jaguar, 0x010);
++			break;
++		default:
++			break;
++		}
++	}
++}
++
++void phy_SetBBSwingByBand_8812A(
++	IN PADAPTER		Adapter,
++	IN u8			Band,
++	IN u1Byte		PreviousBand
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(GetDefaultAdapter(Adapter));
++
++	/* <20120903, Kordan> Tx BB swing setting for RL6286, asked by Ynlin. */
++	if (IS_NORMAL_CHIP(pHalData->VersionID) || IS_HARDWARE_TYPE_8821(Adapter)) {
++#if (MP_DRIVER == 1)
++		PMPT_CONTEXT	pMptCtx = &(Adapter->mppriv.MptCtx);
++#endif
++		s8	BBDiffBetweenBand = 0;
++		PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++		PODM_RF_CAL_T	pRFCalibrateInfo = &(pDM_Odm->RFCalibrateInfo);
++		u8	path = ODM_RF_PATH_A;
++
++		PHY_SetBBReg(Adapter, rA_TxScale_Jaguar, 0xFFE00000,
++			PHY_GetTxBBSwing_8812A(Adapter, (BAND_TYPE)Band, ODM_RF_PATH_A)); /* 0xC1C[31:21] */
++		PHY_SetBBReg(Adapter, rB_TxScale_Jaguar, 0xFFE00000,
++			PHY_GetTxBBSwing_8812A(Adapter, (BAND_TYPE)Band, ODM_RF_PATH_B)); /* 0xE1C[31:21] */
++
++		/* <20121005, Kordan> When TxPowerTrack is ON, we should take care of the change of BB swing. */
++		/* That is, reset all info to trigger Tx power tracking. */
++		{
++#if (MP_DRIVER == 1)
++			path = pMptCtx->MptRfPath;
++#endif
++
++			if (Band != PreviousBand) {
++				BBDiffBetweenBand = (pRFCalibrateInfo->BBSwingDiff2G - pRFCalibrateInfo->BBSwingDiff5G);
++				BBDiffBetweenBand = (Band == BAND_ON_2_4G) ? BBDiffBetweenBand : (-1 * BBDiffBetweenBand);
++				pRFCalibrateInfo->DefaultOfdmIndex += BBDiffBetweenBand * 2;
++			}
++
++			ODM_ClearTxPowerTrackingState(pDM_Odm);
++		}
++	}
++}
++
++
++VOID
++phy_SetRFEReg8821(
++	IN PADAPTER	Adapter,
++	IN u1Byte		Band
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	if (Band == BAND_ON_2_4G) {
++		/* Turn off RF PA and LNA */
++		PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, 0xF000, 0x7);	/* 0xCB0[15:12] = 0x7 (LNA_On) */
++		PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, 0xF0, 0x7);	/* 0xCB0[7:4] = 0x7 (PAPE_A)			 */
++
++		if (pHalData->ExternalLNA_2G) {
++			/* <20131223, VincentL> Turn on 2.4G External LNA (Asked by Luke Lee & Alex Wang) */
++			PHY_SetBBReg(Adapter, rA_RFE_Inv_Jaguar, BIT20, 1); 			/* 0xCB4 = 0x10100077; */
++			PHY_SetBBReg(Adapter, rA_RFE_Inv_Jaguar, BIT22, 0); 			/* 0xCB4 = 0x10100077; */
++			PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, BIT2 | BIT1 | BIT0, 0x2);	/* 0xCB0[2:0] = b'010 */
++			PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, BIT10 | BIT9 | BIT8, 0x2);	/* 0xCB0[10:8] = b'010 */
++
++		} else {
++			/* <20131223, VincentL> Bypass 2.4G External LNA (Asked by Luke Lee & Alex Wang) */
++			PHY_SetBBReg(Adapter, rA_RFE_Inv_Jaguar, BIT20, 0); 			/* 0xCB4 = 0x10000077; */
++			PHY_SetBBReg(Adapter, rA_RFE_Inv_Jaguar, BIT22, 0); 			/* 0xCB4 = 0x10000077; */
++			PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, BIT2 | BIT1 | BIT0, 0x7);	/* 0xCB0[2:0] = b'111 */
++			PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, BIT10 | BIT9 | BIT8, 0x7);	/* 0xCB0[10:8] = b'111 */
++		}
++	} else {
++		/* Turn ON RF PA and LNA */
++		PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, 0xF000, 0x5);	/* 0xCB0[15:12] = 0x5 (LNA_On) */
++		PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, 0xF0, 0x4);	/* 0xCB0[7:4] = 0x4 (PAPE_A)			 */
++
++		/* <20131223, VincentL> Bypass 2.4G External LNA (Asked by Luke Lee & Alex Wang) */
++		PHY_SetBBReg(Adapter, rA_RFE_Inv_Jaguar, BIT20, 0); 			/* 0xCB4 = 0x10000077; */
++		PHY_SetBBReg(Adapter, rA_RFE_Inv_Jaguar, BIT22, 0); 			/* 0xCB4 = 0x10000077; */
++		PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, BIT2 | BIT1 | BIT0, 0x7);	/* 0xCB0[2:0] = b'111 */
++		PHY_SetBBReg(Adapter, rA_RFE_Pinmux_Jaguar, BIT10 | BIT9 | BIT8, 0x7);	/* 0xCB0[10:8] = b'111 */
++
++	}
++}
++
++
++
++s32
++PHY_SwitchWirelessBand8812(
++	IN PADAPTER	Adapter,
++	IN u8			Band
++)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(Adapter);
++	u8				currentBand = pHalData->CurrentBandType;
++	u8 current_bw = pHalData->CurrentChannelBW;
++	u8 rf_type = pHalData->rf_type;
++	u8 eLNA_2g = pHalData->ExternalLNA_2G;
++
++	/* RTW_INFO("==>PHY_SwitchWirelessBand8812() %s\n", ((Band==0)?"2.4G":"5G")); */
++
++	pHalData->CurrentBandType = (BAND_TYPE)Band;
++
++	if (Band == BAND_ON_2_4G) {
++		/* 2.4G band */
++
++#ifdef CONFIG_RTL8821A
++		/* 20160224 yiwei ,  8811au one antenna  module don't support antenna  div , so driver must to control antenna  band , otherwise one of the band will has issue */
++		if (IS_HARDWARE_TYPE_8821(Adapter)) {
++			if (Adapter->registrypriv.drv_ant_band_switch == 1 && pHalData->AntDivCfg == 0) {
++				phydm_set_ext_band_switch_8821A(&(pHalData->odmpriv) , ODM_BAND_2_4G);
++				RTW_DBG("Switch ant band to ODM_BAND_2_4G\n");
++			}
++		}
++#endif /*#ifdef CONFIG_RTL8821A*/
++
++		PHY_SetBBReg(Adapter, rOFDMCCKEN_Jaguar, bOFDMEN_Jaguar | bCCKEN_Jaguar, 0x03);
++
++		if (IS_HARDWARE_TYPE_8821(Adapter))
++			phy_SetRFEReg8821(Adapter, Band);
++
++		if (IS_HARDWARE_TYPE_8812(Adapter)) {
++			/* <20131128, VincentL> Remove 0x830[3:1] setting when switching 2G/5G, requested by Yn. */
++			PHY_SetBBReg(Adapter, rBWIndication_Jaguar, 0x3, 0x1); 		/* 0x834[1:0] = 0x1 */
++			/* set PD_TH_20M for BB Yn user guide R27 */
++			PHY_SetBBReg(Adapter, rPwed_TH_Jaguar, BIT13 | BIT14 | BIT15 | BIT16 | BIT17, 0x17);		/* 0x830[17:13]=5'b10111 */
++		}
++
++		/* set PWED_TH for BB Yn user guide R29 */
++		if (IS_HARDWARE_TYPE_8812(Adapter)) {
++			if (current_bw == CHANNEL_WIDTH_20
++			    && pHalData->rf_type == RF_1T1R
++			    && eLNA_2g == 0) {
++				/* 0x830[3:1]=3'b010 */
++				PHY_SetBBReg(Adapter, rPwed_TH_Jaguar, BIT1 | BIT2 | BIT3, 0x02);
++			} else
++				/* 0x830[3:1]=3'b100 */
++				PHY_SetBBReg(Adapter, rPwed_TH_Jaguar, BIT1 | BIT2 | BIT3, 0x04);
++		}
++
++		/* AGC table select */
++		if (IS_VENDOR_8821A_MP_CHIP(Adapter))
++			PHY_SetBBReg(Adapter, rA_TxScale_Jaguar, 0xF00, 0); 		/* 0xC1C[11:8] = 0 */
++		else
++			PHY_SetBBReg(Adapter, rAGC_table_Jaguar, 0x3, 0);			/* 0x82C[1:0] = 2b'00 */
++
++		if (IS_HARDWARE_TYPE_8812(Adapter))
++			phy_SetRFEReg8812(Adapter, Band);
++
++		/* <20131106, Kordan> Workaround to fix CCK FA for scan issue. */
++		/* if( pHalData->bMPMode == FALSE) */
++		if (Adapter->registrypriv.mp_mode == 0) {
++			PHY_SetBBReg(Adapter, rTxPath_Jaguar, 0xf0, 0x1);
++			PHY_SetBBReg(Adapter, rCCK_RX_Jaguar, 0x0f000000, 0x1);
++		}
++
++		update_tx_basic_rate(Adapter, WIRELESS_11BG);
++
++		/* CCK_CHECK_en */
++		rtw_write8(Adapter, REG_CCK_CHECK_8812, 0x0);
++	} else {	/* 5G band */
++		u16 count = 0, reg41A = 0;
++
++#ifdef CONFIG_RTL8821A
++		/* 20160224 yiwei ,  8811a one antenna  module don't support antenna  div , so driver must to control antenna  band , otherwise one of the band will has issue */
++		if (IS_HARDWARE_TYPE_8821(Adapter)) {
++			if (Adapter->registrypriv.drv_ant_band_switch == 1 && pHalData->AntDivCfg == 0) {
++				phydm_set_ext_band_switch_8821A(&(pHalData->odmpriv) , ODM_BAND_5G);
++				RTW_DBG("Switch ant band to ODM_BAND_5G\n");
++			}
++		}
++#endif /*#ifdef CONFIG_RTL8821A*/
++
++		if (IS_HARDWARE_TYPE_8821(Adapter))
++			phy_SetRFEReg8821(Adapter, Band);
++
++		/* CCK_CHECK_en */
++		rtw_write8(Adapter, REG_CCK_CHECK_8812, 0x80);
++
++		count = 0;
++		reg41A = rtw_read16(Adapter, REG_TXPKT_EMPTY);
++		/* RTW_INFO("Reg41A value %d", reg41A); */
++		reg41A &= 0x30;
++		while ((reg41A != 0x30) && (count < 50)) {
++			rtw_udelay_os(50);
++			/* RTW_INFO("Delay 50us\n"); */
++
++			reg41A = rtw_read16(Adapter, REG_TXPKT_EMPTY);
++			reg41A &= 0x30;
++			count++;
++			/* RTW_INFO("Reg41A value %d", reg41A); */
++		}
++		if (count != 0)
++			RTW_INFO("PHY_SwitchWirelessBand8812(): Switch to 5G Band. Count = %d reg41A=0x%x\n", count, reg41A);
++
++		/* 2012/02/01, Sinda add registry to switch workaround without long-run verification for scan issue. */
++		if (Adapter->registrypriv.mp_mode == 0)
++			PHY_SetBBReg(Adapter, rOFDMCCKEN_Jaguar, bOFDMEN_Jaguar | bCCKEN_Jaguar, 0x03);
++
++		if (IS_HARDWARE_TYPE_8812(Adapter)) {
++			/* <20131128, VincentL> Remove 0x830[3:1] setting when switching 2G/5G, requested by Yn. */
++			PHY_SetBBReg(Adapter, rBWIndication_Jaguar, 0x3, 0x2); /* 0x834[1:0] = 0x2 */
++			/* set PD_TH_20M for BB Yn user guide R27 */
++			PHY_SetBBReg(Adapter, rPwed_TH_Jaguar, BIT13 | BIT14 | BIT15 | BIT16 | BIT17, 0x15);		/* 0x830[17:13]=5'b10101 */
++		}
++
++		/* set PWED_TH for BB Yn user guide R29 */
++		if (IS_HARDWARE_TYPE_8812(Adapter))
++			/* 0x830[3:1]=3'b100 */
++			PHY_SetBBReg(Adapter, rPwed_TH_Jaguar, BIT1 | BIT2 | BIT3, 0x04);
++
++		/* AGC table select */
++		if (IS_VENDOR_8821A_MP_CHIP(Adapter))
++			PHY_SetBBReg(Adapter, rA_TxScale_Jaguar, 0xF00, 1);	/* 0xC1C[11:8] = 1 */
++		else
++			PHY_SetBBReg(Adapter, rAGC_table_Jaguar, 0x3, 1);		/* 0x82C[1:0] = 2'b00 */
++
++		if (IS_HARDWARE_TYPE_8812(Adapter))
++			phy_SetRFEReg8812(Adapter, Band);
++
++		/* <20131106, Kordan> Workaround to fix CCK FA for scan issue. */
++		/* if( pHalData->bMPMode == FALSE) */
++		if (Adapter->registrypriv.mp_mode == 0) {
++			PHY_SetBBReg(Adapter, rTxPath_Jaguar, 0xf0, 0x0);
++			PHY_SetBBReg(Adapter, rCCK_RX_Jaguar, 0x0f000000, 0xF);
++		} else {
++			/* cck_enable */
++			PHY_SetBBReg(Adapter, rOFDMCCKEN_Jaguar, bOFDMEN_Jaguar | bCCKEN_Jaguar, 0x02);
++		}
++
++		/* avoid using cck rate in 5G band */
++		/* Set RRSR rate table. */
++		update_tx_basic_rate(Adapter, WIRELESS_11A);
++
++
++		/* RTW_INFO("==>PHY_SwitchWirelessBand8812() BAND_ON_5G settings OFDM index 0x%x\n", pHalData->OFDM_index[RF_PATH_A]); */
++	}
++
++	phy_SetBBSwingByBand_8812A(Adapter, Band, currentBand);
++	/* RTW_INFO("<==PHY_SwitchWirelessBand8812():Switch Band OK.\n"); */
++	return _SUCCESS;
++}
++
++BOOLEAN
++phy_SwBand8812(
++	IN	PADAPTER	pAdapter,
++	IN	u8			channelToSW
++)
++{
++	u8			u1Btmp;
++	BOOLEAN		ret_value = _TRUE;
++	u8			Band = BAND_ON_5G, BandToSW;
++
++	u1Btmp = rtw_read8(pAdapter, REG_CCK_CHECK_8812);
++	if (u1Btmp & BIT7)
++		Band = BAND_ON_5G;
++	else
++		Band = BAND_ON_2_4G;
++
++	/* Use current channel to judge Band Type and switch Band if need. */
++	if (channelToSW > 14)
++		BandToSW = BAND_ON_5G;
++	else
++		BandToSW = BAND_ON_2_4G;
++
++	if (BandToSW != Band)
++		PHY_SwitchWirelessBand8812(pAdapter, BandToSW);
++
++	return ret_value;
++}
++
++u8
++phy_GetSecondaryChnl_8812(
++	IN	PADAPTER	Adapter
++)
++{
++	u8					SCSettingOf40 = 0, SCSettingOf20 = 0;
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(Adapter);
++
++	/* RTW_INFO("SCMapping: Case: pHalData->CurrentChannelBW %d, pHalData->nCur80MhzPrimeSC %d, pHalData->nCur40MhzPrimeSC %d\n",pHalData->CurrentChannelBW,pHalData->nCur80MhzPrimeSC,pHalData->nCur40MhzPrimeSC); */
++	if (pHalData->CurrentChannelBW == CHANNEL_WIDTH_80) {
++		if (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER)
++			SCSettingOf40 = VHT_DATA_SC_40_LOWER_OF_80MHZ;
++		else if (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER)
++			SCSettingOf40 = VHT_DATA_SC_40_UPPER_OF_80MHZ;
++		else
++			RTW_INFO("SCMapping: DONOT CARE Mode Setting\n");
++
++		if ((pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER) && (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER))
++			SCSettingOf20 = VHT_DATA_SC_20_LOWEST_OF_80MHZ;
++		else if ((pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER) && (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER))
++			SCSettingOf20 = VHT_DATA_SC_20_LOWER_OF_80MHZ;
++		else if ((pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER) && (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER))
++			SCSettingOf20 = VHT_DATA_SC_20_UPPER_OF_80MHZ;
++		else if ((pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER) && (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER))
++			SCSettingOf20 = VHT_DATA_SC_20_UPPERST_OF_80MHZ;
++		else
++			RTW_INFO("SCMapping: DONOT CARE Mode Setting\n");
++	} else if (pHalData->CurrentChannelBW == CHANNEL_WIDTH_40) {
++		/* RTW_INFO("SCMapping: Case: pHalData->CurrentChannelBW %d, pHalData->nCur40MhzPrimeSC %d\n",pHalData->CurrentChannelBW,pHalData->nCur40MhzPrimeSC); */
++
++		if (pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER)
++			SCSettingOf20 = VHT_DATA_SC_20_UPPER_OF_80MHZ;
++		else if (pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER)
++			SCSettingOf20 = VHT_DATA_SC_20_LOWER_OF_80MHZ;
++		else
++			RTW_INFO("SCMapping: DONOT CARE Mode Setting\n");
++	}
++
++	/*RTW_INFO("SCMapping: SC Value %x\n", ((SCSettingOf40 << 4) | SCSettingOf20));*/
++	return (SCSettingOf40 << 4) | SCSettingOf20;
++}
++
++VOID
++phy_SetRegBW_8812(
++	IN	PADAPTER		Adapter,
++	CHANNEL_WIDTH	CurrentBW
++)
++{
++	u16	RegRfMod_BW, u2tmp = 0;
++	RegRfMod_BW = rtw_read16(Adapter, REG_WMAC_TRXPTCL_CTL);
++
++	switch (CurrentBW) {
++	case CHANNEL_WIDTH_20:
++		rtw_write16(Adapter, REG_WMAC_TRXPTCL_CTL, (RegRfMod_BW & 0xFE7F)); /* BIT 7 = 0, BIT 8 = 0 */
++		break;
++
++	case CHANNEL_WIDTH_40:
++		u2tmp = RegRfMod_BW | BIT7;
++		rtw_write16(Adapter, REG_WMAC_TRXPTCL_CTL, (u2tmp & 0xFEFF)); /* BIT 7 = 1, BIT 8 = 0 */
++		break;
++
++	case CHANNEL_WIDTH_80:
++		u2tmp = RegRfMod_BW | BIT8;
++		rtw_write16(Adapter, REG_WMAC_TRXPTCL_CTL, (u2tmp & 0xFF7F)); /* BIT 7 = 0, BIT 8 = 1 */
++		break;
++
++	default:
++		RTW_INFO("phy_PostSetBWMode8812():	unknown Bandwidth: %#X\n", CurrentBW);
++		break;
++	}
++
++}
++
++void
++phy_FixSpur_8812A(
++	IN	PADAPTER	        pAdapter,
++	IN  CHANNEL_WIDTH    Bandwidth,
++	IN  u1Byte			    Channel
++)
++{
++	/* C cut Item12 ADC FIFO CLOCK */
++	if (IS_VENDOR_8812A_C_CUT(pAdapter)) {
++		if (Bandwidth == CHANNEL_WIDTH_40 && Channel == 11)
++			PHY_SetBBReg(pAdapter, rRFMOD_Jaguar, 0xC00, 0x3)	;		/* 0x8AC[11:10] = 2'b11 */
++		else
++			PHY_SetBBReg(pAdapter, rRFMOD_Jaguar, 0xC00, 0x2);		/* 0x8AC[11:10] = 2'b10 */
++
++		/* <20120914, Kordan> A workarould to resolve 2480Mhz spur by setting ADC clock as 160M. (Asked by Binson) */
++		if (Bandwidth == CHANNEL_WIDTH_20 &&
++		    (Channel == 13 || Channel == 14)) {
++
++			PHY_SetBBReg(pAdapter, rRFMOD_Jaguar, 0x300, 0x3);  		/* 0x8AC[9:8] = 2'b11 */
++			PHY_SetBBReg(pAdapter, rADC_Buf_Clk_Jaguar, BIT30, 1); 	/* 0x8C4[30] = 1 */
++
++		} else if (Bandwidth == CHANNEL_WIDTH_40 &&
++			   Channel == 11) {
++
++			PHY_SetBBReg(pAdapter, rADC_Buf_Clk_Jaguar, BIT30, 1); 	/* 0x8C4[30] = 1 */
++
++		} else if (Bandwidth != CHANNEL_WIDTH_80) {
++
++			PHY_SetBBReg(pAdapter, rRFMOD_Jaguar, 0x300, 0x2);  		/* 0x8AC[9:8] = 2'b10	 */
++			PHY_SetBBReg(pAdapter, rADC_Buf_Clk_Jaguar, BIT30, 0); 	/* 0x8C4[30] = 0 */
++
++		}
++	} else if (IS_HARDWARE_TYPE_8812(pAdapter)) {
++		/* <20120914, Kordan> A workarould to resolve 2480Mhz spur by setting ADC clock as 160M. (Asked by Binson) */
++		if (Bandwidth == CHANNEL_WIDTH_20 &&
++		    (Channel == 13 || Channel == 14))
++			PHY_SetBBReg(pAdapter, rRFMOD_Jaguar, 0x300, 0x3);  /* 0x8AC[9:8] = 11 */
++		else if (Channel <= 14) /* 2.4G only */
++			PHY_SetBBReg(pAdapter, rRFMOD_Jaguar, 0x300, 0x2);  /* 0x8AC[9:8] = 10 */
++	}
++
++}
++
++VOID
++phy_PostSetBwMode8812(
++	IN	PADAPTER	Adapter
++)
++{
++	u8			SubChnlNum = 0;
++	u8			L1pkVal = 0;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++
++	/* 3 Set Reg668 BW */
++	phy_SetRegBW_8812(Adapter, pHalData->CurrentChannelBW);
++
++	/* 3 Set Reg483 */
++	SubChnlNum = phy_GetSecondaryChnl_8812(Adapter);
++	rtw_write8(Adapter, REG_DATA_SC_8812, SubChnlNum);
++
++	if (pHalData->rf_chip == RF_PSEUDO_11N) {
++		RTW_INFO("phy_PostSetBwMode8812: return for PSEUDO\n");
++		return;
++	}
++
++	/* 3 Set Reg848 Reg864 Reg8AC Reg8C4 RegA00 */
++	switch (pHalData->CurrentChannelBW) {
++	case CHANNEL_WIDTH_20:
++		PHY_SetBBReg(Adapter, rRFMOD_Jaguar, 0x003003C3, 0x00300200); /* 0x8ac[21,20,9:6,1,0]=8'b11100000 */
++		PHY_SetBBReg(Adapter, rADC_Buf_Clk_Jaguar, BIT30, 0);			/* 0x8c4[30] = 1'b0 */
++
++		if (pHalData->rf_type == RF_2T2R)
++			PHY_SetBBReg(Adapter, rL1PeakTH_Jaguar, 0x03C00000, 7);	/* 2R 0x848[25:22] = 0x7 */
++		else
++			PHY_SetBBReg(Adapter, rL1PeakTH_Jaguar, 0x03C00000, 8);	/* 1R 0x848[25:22] = 0x8 */
++
++		break;
++
++	case CHANNEL_WIDTH_40:
++		PHY_SetBBReg(Adapter, rRFMOD_Jaguar, 0x003003C3, 0x00300201); /* 0x8ac[21,20,9:6,1,0]=8'b11100000		 */
++		PHY_SetBBReg(Adapter, rADC_Buf_Clk_Jaguar, BIT30, 0);			/* 0x8c4[30] = 1'b0 */
++		PHY_SetBBReg(Adapter, rRFMOD_Jaguar, 0x3C, SubChnlNum);
++		PHY_SetBBReg(Adapter, rCCAonSec_Jaguar, 0xf0000000, SubChnlNum);
++
++		if (pHalData->Reg837 & BIT2)
++			L1pkVal = 6;
++		else {
++			if (pHalData->rf_type == RF_2T2R)
++				L1pkVal = 7;
++			else
++				L1pkVal = 8;
++		}
++
++		PHY_SetBBReg(Adapter, rL1PeakTH_Jaguar, 0x03C00000, L1pkVal);	/* 0x848[25:22] = 0x6 */
++
++		if (SubChnlNum == VHT_DATA_SC_20_UPPER_OF_80MHZ)
++			PHY_SetBBReg(Adapter, rCCK_System_Jaguar, bCCK_System_Jaguar, 1);
++		else
++			PHY_SetBBReg(Adapter, rCCK_System_Jaguar, bCCK_System_Jaguar, 0);
++		break;
++
++	case CHANNEL_WIDTH_80:
++		PHY_SetBBReg(Adapter, rRFMOD_Jaguar, 0x003003C3, 0x00300202); /* 0x8ac[21,20,9:6,1,0]=8'b11100010 */
++		PHY_SetBBReg(Adapter, rADC_Buf_Clk_Jaguar, BIT30, 1);			/* 0x8c4[30] = 1 */
++		PHY_SetBBReg(Adapter, rRFMOD_Jaguar, 0x3C, SubChnlNum);
++		PHY_SetBBReg(Adapter, rCCAonSec_Jaguar, 0xf0000000, SubChnlNum);
++
++		if (pHalData->Reg837 & BIT2)
++			L1pkVal = 5;
++		else {
++			if (pHalData->rf_type == RF_2T2R)
++				L1pkVal = 6;
++			else
++				L1pkVal = 7;
++		}
++		PHY_SetBBReg(Adapter, rL1PeakTH_Jaguar, 0x03C00000, L1pkVal);	/* 0x848[25:22] = 0x5 */
++
++		break;
++
++	default:
++		RTW_INFO("phy_PostSetBWMode8812():	unknown Bandwidth: %#X\n", pHalData->CurrentChannelBW);
++		break;
++	}
++
++	/* <20121109, Kordan> A workaround for 8812A only. */
++	phy_FixSpur_8812A(Adapter, pHalData->CurrentChannelBW, pHalData->CurrentChannel);
++
++	/* RTW_INFO("phy_PostSetBwMode8812(): Reg483: %x\n", rtw_read8(Adapter, 0x483)); */
++	/* RTW_INFO("phy_PostSetBwMode8812(): Reg668: %x\n", rtw_read32(Adapter, 0x668)); */
++	/* RTW_INFO("phy_PostSetBwMode8812(): Reg8AC: %x\n", PHY_QueryBBReg(Adapter, rRFMOD_Jaguar, 0xffffffff)); */
++
++	/* 3 Set RF related register */
++	PHY_RF6052SetBandwidth8812(Adapter, pHalData->CurrentChannelBW);
++}
++
++/* <20130207, Kordan> The variales initialized here are used in odm_LNAPowerControl(). */
++VOID phy_InitRssiTRSW(
++	IN	PADAPTER					pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	PDM_ODM_T		pDM_Odm = &pHalData->odmpriv;
++	u8			channel = pHalData->CurrentChannel;
++
++	if (pHalData->RFEType == 3) {
++
++		if (channel <= 14) {
++			pDM_Odm->RSSI_TRSW_H    = 70; /* Unit: percentage(%) */
++			pDM_Odm->RSSI_TRSW_iso  = 25;
++		} else {
++			pDM_Odm->RSSI_TRSW_H   = 80;
++			pDM_Odm->RSSI_TRSW_iso = 25;
++		}
++
++		pDM_Odm->RSSI_TRSW_L = pDM_Odm->RSSI_TRSW_H - pDM_Odm->RSSI_TRSW_iso - 10;
++	}
++}
++
++/*Referenced from "WB-20130801-YN-RL6286 Settings for Spur Issues R02.xls"*/
++VOID
++phy_SpurCalibration_8812A(
++	IN	PADAPTER	pAdapter,
++	IN	u8			Channel,
++	IN	u8			Bandwidth
++)
++{
++
++	/* 2 1. Reset */
++	PHY_SetBBReg(pAdapter, 0x874, BIT0, 0);
++	PHY_SetBBReg(pAdapter, 0x874, BIT21 , 0);
++	PHY_SetBBReg(pAdapter, 0x878, BIT8 | BIT7 | BIT6, 0);
++	PHY_SetBBReg(pAdapter, 0x878, BIT0, 0);
++	PHY_SetBBReg(pAdapter, 0x87C, BIT13, 0);
++	PHY_SetBBReg(pAdapter, 0x880, bMaskDWord, 0);
++	PHY_SetBBReg(pAdapter, 0x884, bMaskDWord, 0);
++	PHY_SetBBReg(pAdapter, 0x898, bMaskDWord, 0);
++	PHY_SetBBReg(pAdapter, 0x89C, bMaskDWord, 0);
++
++
++	/* 2 2. Register Setting 1 (False Alarm) */
++	if (((Channel == 149 || Channel == 153) && Bandwidth == CHANNEL_WIDTH_20) ||
++	    (Channel == 151 && Bandwidth == CHANNEL_WIDTH_40) ||
++	    (Channel == 155 && Bandwidth == CHANNEL_WIDTH_80)) {
++
++		PHY_SetBBReg(pAdapter, 0x878, BIT6, 0);
++		PHY_SetBBReg(pAdapter, 0x878, BIT7, 0);
++		PHY_SetBBReg(pAdapter, 0x878, BIT8, 1);
++		PHY_SetBBReg(pAdapter, 0x878, BIT0, 1);
++		PHY_SetBBReg(pAdapter, 0x87C, BIT13, 1);
++	}
++
++	/* 2 3. Register Setting 2 (SINR) */
++	PHY_SetBBReg(pAdapter, 0x874, BIT21, 1);
++	PHY_SetBBReg(pAdapter, 0x874, BIT0 , 1);
++
++	if (Channel == 149 && Bandwidth == CHANNEL_WIDTH_20)
++		PHY_SetBBReg(pAdapter, 0x884, bMaskDWord, 0x00010000);
++	else if (Channel == 153 && Bandwidth == CHANNEL_WIDTH_20)
++		PHY_SetBBReg(pAdapter, 0x89C, bMaskDWord, 0x00010000);
++	else if (Channel == 151 && Bandwidth == CHANNEL_WIDTH_40)
++		PHY_SetBBReg(pAdapter, 0x880, bMaskDWord, 0x00010000);
++	else if (Channel == 155 && Bandwidth == CHANNEL_WIDTH_80)
++		PHY_SetBBReg(pAdapter, 0x898, bMaskDWord, 0x00010000);
++
++}
++
++VOID
++phy_SwChnl8812(
++	IN	PADAPTER	pAdapter
++)
++{
++	u8	eRFPath = 0;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++	u8	channelToSW = pHalData->CurrentChannel;
++	u8	bandwidthToSw = pHalData->CurrentChannelBW;
++
++	if (phy_SwBand8812(pAdapter, channelToSW) == _FALSE)
++		RTW_INFO("error Chnl %d !\n", channelToSW);
++
++	/* <20130313, Kordan> Sample code to demonstrate how to configure AGC_TAB_DIFF.(Disabled by now) */
++#if  (MP_DRIVER == 1)
++	if (pAdapter->registrypriv.mp_mode == 1)
++		ODM_ConfigBBWithHeaderFile(&pHalData->odmpriv, CONFIG_BB_AGC_TAB_DIFF);
++#endif
++
++	if (pHalData->rf_chip == RF_PSEUDO_11N) {
++		RTW_INFO("phy_SwChnl8812: return for PSEUDO\n");
++		return;
++	}
++
++	/* RTW_INFO("[BW:CHNL], phy_SwChnl8812(), switch to channel %d !!\n", channelToSW); */
++
++	/* fc_area		 */
++	if (36 <= channelToSW && channelToSW <= 48)
++		PHY_SetBBReg(pAdapter, rFc_area_Jaguar, 0x1ffe0000, 0x494);
++	else if (50 <= channelToSW && channelToSW <= 64)
++		PHY_SetBBReg(pAdapter, rFc_area_Jaguar, 0x1ffe0000, 0x453);
++	else if (100 <= channelToSW && channelToSW <= 116)
++		PHY_SetBBReg(pAdapter, rFc_area_Jaguar, 0x1ffe0000, 0x452);
++	else if (118 <= channelToSW)
++		PHY_SetBBReg(pAdapter, rFc_area_Jaguar, 0x1ffe0000, 0x412);
++	else
++		PHY_SetBBReg(pAdapter, rFc_area_Jaguar, 0x1ffe0000, 0x96a);
++
++	for (eRFPath = 0; eRFPath < pHalData->NumTotalRFPath; eRFPath++) {
++		/* RF_MOD_AG */
++		if (36 <= channelToSW && channelToSW <= 64)
++			PHY_SetRFReg(pAdapter, eRFPath, RF_CHNLBW_Jaguar, BIT18 | BIT17 | BIT16 | BIT9 | BIT8, 0x101); /* 5'b00101); */
++		else if (100 <= channelToSW && channelToSW <= 140)
++			PHY_SetRFReg(pAdapter, eRFPath, RF_CHNLBW_Jaguar, BIT18 | BIT17 | BIT16 | BIT9 | BIT8, 0x301); /* 5'b01101); */
++		else if (140 < channelToSW)
++			PHY_SetRFReg(pAdapter, eRFPath, RF_CHNLBW_Jaguar, BIT18 | BIT17 | BIT16 | BIT9 | BIT8, 0x501); /* 5'b10101); */
++		else
++			PHY_SetRFReg(pAdapter, eRFPath, RF_CHNLBW_Jaguar, BIT18 | BIT17 | BIT16 | BIT9 | BIT8, 0x000); /* 5'b00000); */
++
++		/* <20121109, Kordan> A workaround for 8812A only. */
++		phy_FixSpur_8812A(pAdapter, pHalData->CurrentChannelBW, channelToSW);
++
++		PHY_SetRFReg(pAdapter, eRFPath, RF_CHNLBW_Jaguar, bMaskByte0, channelToSW);
++
++		/* <20130104, Kordan> APK for MP chip is done on initialization from folder. */
++		if (IS_HARDWARE_TYPE_8821U(pAdapter) && (!IS_NORMAL_CHIP(pHalData->VersionID)) && channelToSW > 14) {
++			/* <20121116, Kordan> For better result of APK. Asked by AlexWang. */
++			if (36 <= channelToSW && channelToSW <= 64)
++				PHY_SetRFReg(pAdapter, eRFPath, RF_APK_Jaguar, bRFRegOffsetMask, 0x710E7);
++			else if (100 <= channelToSW && channelToSW <= 140)
++				PHY_SetRFReg(pAdapter, eRFPath, RF_APK_Jaguar, bRFRegOffsetMask, 0x716E9);
++			else
++				PHY_SetRFReg(pAdapter, eRFPath, RF_APK_Jaguar, bRFRegOffsetMask, 0x714E9);
++		} else if (IS_HARDWARE_TYPE_8821S(pAdapter) && channelToSW > 14) {
++			/* <20130111, Kordan> For better result of APK. Asked by Willson. */
++			if (36 <= channelToSW && channelToSW <= 64)
++				PHY_SetRFReg(pAdapter, eRFPath, RF_APK_Jaguar, bRFRegOffsetMask, 0x714E9);
++			else if (100 <= channelToSW && channelToSW <= 140)
++				PHY_SetRFReg(pAdapter, eRFPath, RF_APK_Jaguar, bRFRegOffsetMask, 0x110E9);
++			else
++				PHY_SetRFReg(pAdapter, eRFPath, RF_APK_Jaguar, bRFRegOffsetMask, 0x714E9);
++		} else if (IS_HARDWARE_TYPE_8821E(pAdapter) && channelToSW > 14) {
++			/* <20130613, Kordan> For better result of APK. Asked by Willson. */
++			if (36 <= channelToSW && channelToSW <= 64)
++				PHY_SetRFReg(pAdapter, eRFPath, RF_APK_Jaguar, bRFRegOffsetMask, 0x114E9);
++			else if (100 <= channelToSW && channelToSW <= 140)
++				PHY_SetRFReg(pAdapter, eRFPath, RF_APK_Jaguar, bRFRegOffsetMask, 0x110E9);
++			else
++				PHY_SetRFReg(pAdapter, eRFPath, RF_APK_Jaguar, bRFRegOffsetMask, 0x110E9);
++		}
++	}
++
++	/*only for 8812A mp mode*/
++	if (IS_HARDWARE_TYPE_8812(pAdapter) && (pHalData->LNAType_5G == 0x00)
++	    && pAdapter->registrypriv.mp_mode == _TRUE)
++		phy_SpurCalibration_8812A(pAdapter, channelToSW, bandwidthToSw);
++}
++
++VOID
++phy_SwChnlAndSetBwMode8812(
++	IN  PADAPTER		Adapter
++)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	PDM_ODM_T			pDM_Odm = &pHalData->odmpriv;
++	/* RTW_INFO("phy_SwChnlAndSetBwMode8812(): bSwChnl %d, bSetChnlBW %d\n", pHalData->bSwChnl, pHalData->bSetChnlBW); */
++	if (Adapter->bNotifyChannelChange) {
++		RTW_INFO("[%s] bSwChnl=%d, ch=%d, bSetChnlBW=%d, bw=%d\n",
++			 __FUNCTION__,
++			 pHalData->bSwChnl,
++			 pHalData->CurrentChannel,
++			 pHalData->bSetChnlBW,
++			 pHalData->CurrentChannelBW);
++	}
++
++	if (RTW_CANNOT_RUN(Adapter))
++		return;
++
++
++	if (pHalData->bSwChnl) {
++		phy_SwChnl8812(Adapter);
++		pHalData->bSwChnl = _FALSE;
++	}
++
++	if (pHalData->bSetChnlBW) {
++		phy_PostSetBwMode8812(Adapter);
++		pHalData->bSetChnlBW = _FALSE;
++	}
++
++	ODM_ClearTxPowerTrackingState(&pHalData->odmpriv);
++	PHY_SetTxPowerLevel8812(Adapter, pHalData->CurrentChannel);
++
++	if (IS_HARDWARE_TYPE_8812(Adapter))
++		phy_InitRssiTRSW(Adapter);
++
++	if ((pHalData->bNeedIQK == _TRUE)
++#if (MP_DRIVER == 1)
++	    || (Adapter->registrypriv.mp_mode == 1)
++#endif
++	   ) {
++		if (IS_HARDWARE_TYPE_8812(Adapter)) {
++#if (RTL8812A_SUPPORT == 1)
++			PHY_IQCalibrate_8812A(Adapter, _FALSE);
++#endif
++		} else if (IS_HARDWARE_TYPE_8821(Adapter)) {
++#if (RTL8821A_SUPPORT == 1)
++			PHY_IQCalibrate_8821A(pDM_Odm, _FALSE);
++#endif
++		}
++		pHalData->bNeedIQK = _FALSE;
++	}
++}
++
++VOID
++PHY_HandleSwChnlAndSetBW8812(
++	IN	PADAPTER			Adapter,
++	IN	BOOLEAN				bSwitchChannel,
++	IN	BOOLEAN				bSetBandWidth,
++	IN	u8					ChannelNum,
++	IN	CHANNEL_WIDTH		ChnlWidth,
++	IN	u8					ChnlOffsetOf40MHz,
++	IN	u8					ChnlOffsetOf80MHz,
++	IN	u8					CenterFrequencyIndex1
++)
++{
++	PADAPTER			pDefAdapter =  GetDefaultAdapter(Adapter);
++	PHAL_DATA_TYPE		pHalData = GET_HAL_DATA(pDefAdapter);
++	u8					tmpChannel = pHalData->CurrentChannel;
++	CHANNEL_WIDTH		tmpBW = pHalData->CurrentChannelBW;
++	u8					tmpnCur40MhzPrimeSC = pHalData->nCur40MhzPrimeSC;
++	u8					tmpnCur80MhzPrimeSC = pHalData->nCur80MhzPrimeSC;
++	u8					tmpCenterFrequencyIndex1 = pHalData->CurrentCenterFrequencyIndex1;
++	struct mlme_ext_priv	*pmlmeext = &Adapter->mlmeextpriv;
++
++	/* RTW_INFO("=> PHY_HandleSwChnlAndSetBW8812: bSwitchChannel %d, bSetBandWidth %d\n",bSwitchChannel,bSetBandWidth); */
++
++	/* check is swchnl or setbw */
++	if (!bSwitchChannel && !bSetBandWidth) {
++		RTW_INFO("PHY_HandleSwChnlAndSetBW8812:  not switch channel and not set bandwidth\n");
++		return;
++	}
++
++	/* skip change for channel or bandwidth is the same */
++	if (bSwitchChannel) {
++		if (pHalData->CurrentChannel != ChannelNum) {
++			if (HAL_IsLegalChannel(Adapter, ChannelNum))
++				pHalData->bSwChnl = _TRUE;
++			else
++				return;
++		}
++	}
++
++	if (bSetBandWidth) {
++		if (pHalData->bChnlBWInitialized == _FALSE) {
++			pHalData->bChnlBWInitialized = _TRUE;
++			pHalData->bSetChnlBW = _TRUE;
++		} else if ((pHalData->CurrentChannelBW != ChnlWidth) ||
++			   (pHalData->nCur40MhzPrimeSC != ChnlOffsetOf40MHz) ||
++			   (pHalData->nCur80MhzPrimeSC != ChnlOffsetOf80MHz) ||
++			(pHalData->CurrentCenterFrequencyIndex1 != CenterFrequencyIndex1))
++			pHalData->bSetChnlBW = _TRUE;
++	}
++
++	if (!pHalData->bSetChnlBW && !pHalData->bSwChnl && pHalData->bNeedIQK != _TRUE) {
++		/* RTW_INFO("<= PHY_HandleSwChnlAndSetBW8812: bSwChnl %d, bSetChnlBW %d\n",pHalData->bSwChnl,pHalData->bSetChnlBW); */
++		return;
++	}
++
++
++	if (pHalData->bSwChnl) {
++		pHalData->CurrentChannel = ChannelNum;
++		pHalData->CurrentCenterFrequencyIndex1 = ChannelNum;
++	}
++
++
++	if (pHalData->bSetChnlBW) {
++		pHalData->CurrentChannelBW = ChnlWidth;
++#if 0
++		if (ExtChnlOffsetOf40MHz == EXTCHNL_OFFSET_LOWER)
++			pHalData->nCur40MhzPrimeSC = HAL_PRIME_CHNL_OFFSET_UPPER;
++		else if (ExtChnlOffsetOf40MHz == EXTCHNL_OFFSET_UPPER)
++			pHalData->nCur40MhzPrimeSC = HAL_PRIME_CHNL_OFFSET_LOWER;
++		else
++			pHalData->nCur40MhzPrimeSC = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++
++		if (ExtChnlOffsetOf80MHz == EXTCHNL_OFFSET_LOWER)
++			pHalData->nCur80MhzPrimeSC = HAL_PRIME_CHNL_OFFSET_UPPER;
++		else if (ExtChnlOffsetOf80MHz == EXTCHNL_OFFSET_UPPER)
++			pHalData->nCur80MhzPrimeSC = HAL_PRIME_CHNL_OFFSET_LOWER;
++		else
++			pHalData->nCur80MhzPrimeSC = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++#else
++		pHalData->nCur40MhzPrimeSC = ChnlOffsetOf40MHz;
++		pHalData->nCur80MhzPrimeSC = ChnlOffsetOf80MHz;
++#endif
++
++		pHalData->CurrentCenterFrequencyIndex1 = CenterFrequencyIndex1;
++	}
++
++	/* Switch workitem or set timer to do switch channel or setbandwidth operation */
++	if (!RTW_CANNOT_RUN(Adapter))
++		phy_SwChnlAndSetBwMode8812(Adapter);
++	else {
++		if (pHalData->bSwChnl) {
++			pHalData->CurrentChannel = tmpChannel;
++			pHalData->CurrentCenterFrequencyIndex1 = tmpChannel;
++		}
++		if (pHalData->bSetChnlBW) {
++			pHalData->CurrentChannelBW = tmpBW;
++			pHalData->nCur40MhzPrimeSC = tmpnCur40MhzPrimeSC;
++			pHalData->nCur80MhzPrimeSC = tmpnCur80MhzPrimeSC;
++			pHalData->CurrentCenterFrequencyIndex1 = tmpCenterFrequencyIndex1;
++		}
++	}
++
++	/* RTW_INFO("Channel %d ChannelBW %d ",pHalData->CurrentChannel, pHalData->CurrentChannelBW); */
++	/* RTW_INFO("40MhzPrimeSC %d 80MhzPrimeSC %d ",pHalData->nCur40MhzPrimeSC, pHalData->nCur80MhzPrimeSC); */
++	/* RTW_INFO("CenterFrequencyIndex1 %d\n",pHalData->CurrentCenterFrequencyIndex1); */
++
++	/* RTW_INFO("<= PHY_HandleSwChnlAndSetBW8812: bSwChnl %d, bSetChnlBW %d\n",pHalData->bSwChnl,pHalData->bSetChnlBW); */
++
++}
++
++VOID
++PHY_SetSwChnlBWMode8812(
++	IN	PADAPTER			Adapter,
++	IN	u8					channel,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					Offset40,
++	IN	u8					Offset80
++)
++{
++	/* RTW_INFO("%s()===>\n",__FUNCTION__); */
++
++	PHY_HandleSwChnlAndSetBW8812(Adapter, _TRUE, _TRUE, channel, Bandwidth, Offset40, Offset80, channel);
++
++	/* RTW_INFO("<==%s()\n",__FUNCTION__); */
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_rf6052.c b/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_rf6052.c
+new file mode 100644
+index 0000000..76e29f3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_rf6052.c
+@@ -0,0 +1,163 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8812A_RF6052_C_
++
++/* #include <drv_types.h> */
++#include <rtl8812a_hal.h>
++
++
++/*-----------------------------------------------------------------------------
++ * Function:    PHY_RF6052SetBandwidth()
++ *
++ * Overview:    This function is called by SetBWModeCallback8190Pci() only
++ *
++ * Input:       PADAPTER				Adapter
++ *			WIRELESS_BANDWIDTH_E	Bandwidth	//20M or 40M
++ *
++ * Output:      NONE
++ *
++ * Return:      NONE
++ *
++ * Note:		For RF type 0222D
++ *---------------------------------------------------------------------------*/
++VOID
++PHY_RF6052SetBandwidth8812(
++	IN	PADAPTER				Adapter,
++	IN	CHANNEL_WIDTH		Bandwidth)	/* 20M or 40M */
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	switch (Bandwidth) {
++	case CHANNEL_WIDTH_20:
++		/* RTW_INFO("PHY_RF6052SetBandwidth8812(), set 20MHz\n"); */
++		PHY_SetRFReg(Adapter, RF_PATH_A, RF_CHNLBW_Jaguar, BIT11 | BIT10, 3);
++		PHY_SetRFReg(Adapter, RF_PATH_B, RF_CHNLBW_Jaguar, BIT11 | BIT10, 3);
++		break;
++
++	case CHANNEL_WIDTH_40:
++		/* RTW_INFO("PHY_RF6052SetBandwidth8812(), set 40MHz\n"); */
++		PHY_SetRFReg(Adapter, RF_PATH_A, RF_CHNLBW_Jaguar, BIT11 | BIT10, 1);
++		PHY_SetRFReg(Adapter, RF_PATH_B, RF_CHNLBW_Jaguar, BIT11 | BIT10, 1);
++		break;
++
++	case CHANNEL_WIDTH_80:
++		/* RTW_INFO("PHY_RF6052SetBandwidth8812(), set 80MHz\n"); */
++		PHY_SetRFReg(Adapter, RF_PATH_A, RF_CHNLBW_Jaguar, BIT11 | BIT10, 0);
++		PHY_SetRFReg(Adapter, RF_PATH_B, RF_CHNLBW_Jaguar, BIT11 | BIT10, 0);
++		break;
++
++	default:
++		RTW_INFO("PHY_RF6052SetBandwidth8812(): unknown Bandwidth: %#X\n", Bandwidth);
++		break;
++	}
++}
++
++static int
++phy_RF6052_Config_ParaFile_8812(
++	IN	PADAPTER		Adapter
++)
++{
++	u8					eRFPath;
++	int					rtStatus = _SUCCESS;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++
++	/* 3 */ /* ----------------------------------------------------------------- */
++	/* 3 */ /* <2> Initialize RF */
++	/* 3 */ /* ----------------------------------------------------------------- */
++	/* for(eRFPath = RF_PATH_A; eRFPath <pHalData->NumTotalRFPath; eRFPath++) */
++	for (eRFPath = 0; eRFPath < pHalData->NumTotalRFPath; eRFPath++) {
++		/*----Initialize RF fom connfiguration file----*/
++		switch (eRFPath) {
++		case RF_PATH_A:
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++			if (PHY_ConfigRFWithParaFile(Adapter, PHY_FILE_RADIO_A, eRFPath) == _FAIL)
++#endif
++			{
++#ifdef CONFIG_EMBEDDED_FWIMG
++				if (HAL_STATUS_FAILURE == ODM_ConfigRFWithHeaderFile(&pHalData->odmpriv, CONFIG_RF_RADIO, (ODM_RF_RADIO_PATH_E)eRFPath))
++					rtStatus = _FAIL;
++#endif
++			}
++			break;
++		case RF_PATH_B:
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++			if (PHY_ConfigRFWithParaFile(Adapter, PHY_FILE_RADIO_B, eRFPath) == _FAIL)
++#endif
++			{
++#ifdef CONFIG_EMBEDDED_FWIMG
++				if (HAL_STATUS_FAILURE == ODM_ConfigRFWithHeaderFile(&pHalData->odmpriv, CONFIG_RF_RADIO, (ODM_RF_RADIO_PATH_E)eRFPath))
++					rtStatus = _FAIL;
++#endif
++			}
++			break;
++		default:
++			break;
++		}
++
++		if (rtStatus != _SUCCESS) {
++			RTW_INFO("%s():Radio[%d] Fail!!", __FUNCTION__, eRFPath);
++			goto phy_RF6052_Config_ParaFile_Fail;
++		}
++
++	}
++
++	/* 3 ----------------------------------------------------------------- */
++	/* 3 Configuration of Tx Power Tracking */
++	/* 3 ----------------------------------------------------------------- */
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	if (PHY_ConfigRFWithTxPwrTrackParaFile(Adapter, PHY_FILE_TXPWR_TRACK) == _FAIL)
++#endif
++	{
++#ifdef CONFIG_EMBEDDED_FWIMG
++		ODM_ConfigRFWithTxPwrTrackHeaderFile(&pHalData->odmpriv);
++#endif
++	}
++
++
++phy_RF6052_Config_ParaFile_Fail:
++	return rtStatus;
++}
++
++
++int
++PHY_RF6052_Config_8812(
++	IN	PADAPTER		Adapter)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	int					rtStatus = _SUCCESS;
++
++	/* Initialize general global value */
++	if (pHalData->rf_type == RF_1T1R)
++		pHalData->NumTotalRFPath = 1;
++	else
++		pHalData->NumTotalRFPath = 2;
++
++	/*  */
++	/* Config BB and RF */
++	/*  */
++	rtStatus = phy_RF6052_Config_ParaFile_8812(Adapter);
++
++	return rtStatus;
++
++}
++
++
++/* End of HalRf6052.c */
+diff --git a/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_rxdesc.c b/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_rxdesc.c
+new file mode 100644
+index 0000000..ba75af3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_rxdesc.c
+@@ -0,0 +1,67 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8812A_RXDESC_C_
++
++/* #include <drv_types.h> */
++#include <rtl8812a_hal.h>
++
++void rtl8812_query_rx_desc_status(union recv_frame *precvframe, u8 *pdesc)
++{
++	struct rx_pkt_attrib	*pattrib = &precvframe->u.hdr.attrib;
++
++	_rtw_memset(pattrib, 0, sizeof(struct rx_pkt_attrib));
++
++	/* Offset 0 */
++	pattrib->pkt_len = (u16)GET_RX_STATUS_DESC_PKT_LEN_8812(pdesc);/* (le32_to_cpu(pdesc->rxdw0)&0x00003fff) */
++	pattrib->crc_err = (u8)GET_RX_STATUS_DESC_CRC32_8812(pdesc);/* ((le32_to_cpu(pdesc->rxdw0) >> 14) & 0x1); */
++	pattrib->icv_err = (u8)GET_RX_STATUS_DESC_ICV_8812(pdesc);/* ((le32_to_cpu(pdesc->rxdw0) >> 15) & 0x1); */
++	pattrib->drvinfo_sz = (u8)GET_RX_STATUS_DESC_DRVINFO_SIZE_8812(pdesc) * 8;/* ((le32_to_cpu(pdesc->rxdw0) >> 16) & 0xf) * 8; */ /* uint 2^3 = 8 bytes */
++	pattrib->encrypt = (u8)GET_RX_STATUS_DESC_SECURITY_8812(pdesc);/* ((le32_to_cpu(pdesc->rxdw0) >> 20) & 0x7); */
++	pattrib->qos = (u8)GET_RX_STATUS_DESC_QOS_8812(pdesc);/* (( le32_to_cpu( pdesc->rxdw0 ) >> 23) & 0x1); */ /* Qos data, wireless lan header length is 26 */
++	pattrib->shift_sz = (u8)GET_RX_STATUS_DESC_SHIFT_8812(pdesc);/* ((le32_to_cpu(pdesc->rxdw0) >> 24) & 0x3); */
++	pattrib->physt = (u8)GET_RX_STATUS_DESC_PHY_STATUS_8812(pdesc);/* ((le32_to_cpu(pdesc->rxdw0) >> 26) & 0x1); */
++	pattrib->bdecrypted = !GET_RX_STATUS_DESC_SWDEC_8812(pdesc);/* (le32_to_cpu(pdesc->rxdw0) & BIT(27))? 0:1; */
++
++	/* Offset 4 */
++	pattrib->priority = (u8)GET_RX_STATUS_DESC_TID_8812(pdesc);/* ((le32_to_cpu(pdesc->rxdw1) >> 8) & 0xf); */
++	pattrib->mdata = (u8)GET_RX_STATUS_DESC_MORE_DATA_8812(pdesc);/* ((le32_to_cpu(pdesc->rxdw1) >> 26) & 0x1); */
++	pattrib->mfrag = (u8)GET_RX_STATUS_DESC_MORE_FRAG_8812(pdesc);/* ((le32_to_cpu(pdesc->rxdw1) >> 27) & 0x1); */ /* more fragment bit */
++
++	/* Offset 8 */
++	pattrib->seq_num = (u16)GET_RX_STATUS_DESC_SEQ_8812(pdesc);/* (le32_to_cpu(pdesc->rxdw2) & 0x00000fff); */
++	pattrib->frag_num = (u8)GET_RX_STATUS_DESC_FRAG_8812(pdesc);/* ((le32_to_cpu(pdesc->rxdw2) >> 12) & 0xf); */ /* fragmentation number */
++
++	if (GET_RX_STATUS_DESC_RPT_SEL_8812(pdesc))
++		pattrib->pkt_rpt_type = C2H_PACKET;
++	else
++		pattrib->pkt_rpt_type = NORMAL_RX;
++
++	/* Offset 12 */
++	pattrib->data_rate = (u8)GET_RX_STATUS_DESC_RX_RATE_8812(pdesc); /* ((le32_to_cpu(pdesc->rxdw3))&0x7f); */
++
++	/* Offset 16 */
++	pattrib->sgi = (u8)GET_RX_STATUS_DESC_SPLCP_8812(pdesc);
++	pattrib->ldpc = (u8)GET_RX_STATUS_DESC_LDPC_8812(pdesc);
++	pattrib->stbc = (u8)GET_RX_STATUS_DESC_STBC_8812(pdesc);
++	pattrib->bw = (u8)GET_RX_STATUS_DESC_BW_8812(pdesc);
++
++	/* Offset 20 */
++	/* pattrib->tsfl=(u8)GET_RX_STATUS_DESC_TSFL_8812(pdesc); */
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_sreset.c b/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_sreset.c
+new file mode 100644
+index 0000000..57067ab
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_sreset.c
+@@ -0,0 +1,111 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8812A_SRESET_C_
++
++/* #include <drv_types.h> */
++#include <rtl8812a_hal.h>
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++void rtl8812_sreset_xmit_status_check(_adapter *padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++
++	unsigned long current_time;
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	unsigned int diff_time;
++	u32 txdma_status;
++
++	txdma_status = rtw_read32(padapter, REG_TXDMA_STATUS);
++	if (txdma_status != 0x00) {
++		RTW_INFO("%s REG_TXDMA_STATUS:0x%08x\n", __FUNCTION__, txdma_status);
++		rtw_hal_sreset_reset(padapter);
++	}
++#ifdef CONFIG_USB_HCI
++	/* total xmit irp = 4 */
++	/* RTW_INFO("==>%s free_xmitbuf_cnt(%d),txirp_cnt(%d)\n",__FUNCTION__,pxmitpriv->free_xmitbuf_cnt,pxmitpriv->txirp_cnt); */
++	/* if(pxmitpriv->txirp_cnt == NR_XMITBUFF+1) */
++	current_time = rtw_get_current_time();
++
++	if (0 == pxmitpriv->free_xmitbuf_cnt || 0 == pxmitpriv->free_xmit_extbuf_cnt) {
++
++		diff_time = rtw_get_passing_time_ms(psrtpriv->last_tx_time);
++
++		if (diff_time > 2000) {
++			if (psrtpriv->last_tx_complete_time == 0)
++				psrtpriv->last_tx_complete_time = current_time;
++			else {
++				diff_time = rtw_get_passing_time_ms(psrtpriv->last_tx_complete_time);
++				if (diff_time > 4000) {
++					u32 ability = 0;
++
++					/* padapter->Wifi_Error_Status = WIFI_TX_HANG; */
++					ability = rtw_phydm_ability_get(padapter);
++
++					RTW_INFO("%s tx hang %s\n", __FUNCTION__,
++						(ability & ODM_BB_ADAPTIVITY) ? "ODM_BB_ADAPTIVITY" : "");
++
++					if (!(ability & ODM_BB_ADAPTIVITY))
++						rtw_hal_sreset_reset(padapter);
++				}
++			}
++		}
++	}
++#endif /* CONFIG_USB_HCI */
++
++	if (psrtpriv->dbg_trigger_point == SRESET_TGP_XMIT_STATUS) {
++		psrtpriv->dbg_trigger_point = SRESET_TGP_NULL;
++		rtw_hal_sreset_reset(padapter);
++		return;
++	}
++}
++
++void rtl8812_sreset_linked_status_check(_adapter *padapter)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++
++	u32 rx_dma_status = 0;
++	rx_dma_status = rtw_read32(padapter, REG_RXDMA_STATUS);
++	if (rx_dma_status != 0x00)
++		RTW_INFO("%s REG_RXDMA_STATUS:0x%08x\n", __FUNCTION__, rx_dma_status);
++#if 0
++	u32 regc50, regc58, reg824, reg800;
++	regc50 = rtw_read32(padapter, 0xc50);
++	regc58 = rtw_read32(padapter, 0xc58);
++	reg824 = rtw_read32(padapter, 0x824);
++	reg800 = rtw_read32(padapter, 0x800);
++	if (((regc50 & 0xFFFFFF00) != 0x69543400) ||
++	    ((regc58 & 0xFFFFFF00) != 0x69543400) ||
++	    (((reg824 & 0xFFFFFF00) != 0x00390000) && (((reg824 & 0xFFFFFF00) != 0x80390000))) ||
++	    (((reg800 & 0xFFFFFF00) != 0x03040000) && ((reg800 & 0xFFFFFF00) != 0x83040000))) {
++		RTW_INFO("%s regc50:0x%08x, regc58:0x%08x, reg824:0x%08x, reg800:0x%08x,\n", __FUNCTION__,
++			 regc50, regc58, reg824, reg800);
++		rtw_hal_sreset_reset(padapter);
++	}
++#endif
++
++	if (psrtpriv->dbg_trigger_point == SRESET_TGP_LINK_STATUS) {
++		psrtpriv->dbg_trigger_point = SRESET_TGP_NULL;
++		rtw_hal_sreset_reset(padapter);
++		return;
++	}
++}
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_xmit.c b/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_xmit.c
+new file mode 100644
+index 0000000..02ddb32
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/rtl8812a/rtl8812a_xmit.c
+@@ -0,0 +1,514 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8812A_XMIT_C_
++
++/* #include <drv_types.h> */
++#include <rtl8812a_hal.h>
++
++void _dbg_dump_tx_info(_adapter	*padapter, int frame_tag, u8 *ptxdesc)
++{
++	u8 bDumpTxPkt;
++	u8 bDumpTxDesc = _FALSE;
++	rtw_hal_get_def_var(padapter, HAL_DEF_DBG_DUMP_TXPKT, &(bDumpTxPkt));
++
++	if (bDumpTxPkt == 1) { /* dump txdesc for data frame */
++		RTW_INFO("dump tx_desc for data frame\n");
++		if ((frame_tag & 0x0f) == DATA_FRAMETAG)
++			bDumpTxDesc = _TRUE;
++	} else if (bDumpTxPkt == 2) { /* dump txdesc for mgnt frame */
++		RTW_INFO("dump tx_desc for mgnt frame\n");
++		if ((frame_tag & 0x0f) == MGNT_FRAMETAG)
++			bDumpTxDesc = _TRUE;
++	} else if (bDumpTxPkt == 3) { /* dump early info */
++	}
++
++	if (bDumpTxDesc) {
++		/* ptxdesc->txdw4 = cpu_to_le32(0x00001006); */ /* RTS Rate=24M */
++		/*	ptxdesc->txdw6 = 0x6666f800; */
++		RTW_INFO("=====================================\n");
++		RTW_INFO("Offset00(0x%08x)\n", *((u32 *)(ptxdesc)));
++		RTW_INFO("Offset04(0x%08x)\n", *((u32 *)(ptxdesc + 4)));
++		RTW_INFO("Offset08(0x%08x)\n", *((u32 *)(ptxdesc + 8)));
++		RTW_INFO("Offset12(0x%08x)\n", *((u32 *)(ptxdesc + 12)));
++		RTW_INFO("Offset16(0x%08x)\n", *((u32 *)(ptxdesc + 16)));
++		RTW_INFO("Offset20(0x%08x)\n", *((u32 *)(ptxdesc + 20)));
++		RTW_INFO("Offset24(0x%08x)\n", *((u32 *)(ptxdesc + 24)));
++		RTW_INFO("Offset28(0x%08x)\n", *((u32 *)(ptxdesc + 28)));
++		RTW_INFO("Offset32(0x%08x)\n", *((u32 *)(ptxdesc + 32)));
++		RTW_INFO("Offset36(0x%08x)\n", *((u32 *)(ptxdesc + 36)));
++		RTW_INFO("=====================================\n");
++	}
++
++}
++
++/*
++ * Description:
++ *	Aggregation packets and send to hardware
++ *
++ * Return:
++ *	0	Success
++ *	-1	Hardware resource(TX FIFO) not ready
++ *	-2	Software resource(xmitbuf) not ready
++ */
++#ifdef CONFIG_TX_EARLY_MODE
++
++/* #define DBG_EMINFO */
++
++#if RTL8188E_EARLY_MODE_PKT_NUM_10 == 1
++	#define EARLY_MODE_MAX_PKT_NUM	10
++#else
++	#define EARLY_MODE_MAX_PKT_NUM	5
++#endif
++
++
++struct EMInfo {
++	u8	EMPktNum;
++	u16  EMPktLen[EARLY_MODE_MAX_PKT_NUM];
++};
++
++
++void
++InsertEMContent_8812(
++	struct EMInfo *pEMInfo,
++	IN pu1Byte	VirtualAddress)
++{
++
++#if RTL8188E_EARLY_MODE_PKT_NUM_10 == 1
++	u1Byte index = 0;
++	u4Byte	dwtmp = 0;
++#endif
++
++	_rtw_memset(VirtualAddress, 0, EARLY_MODE_INFO_SIZE);
++	if (pEMInfo->EMPktNum == 0)
++		return;
++
++#ifdef DBG_EMINFO
++	{
++		int i;
++		RTW_INFO("\n%s ==> pEMInfo->EMPktNum =%d\n", __FUNCTION__, pEMInfo->EMPktNum);
++		for (i = 0; i < EARLY_MODE_MAX_PKT_NUM; i++)
++			RTW_INFO("%s ==> pEMInfo->EMPktLen[%d] =%d\n", __FUNCTION__, i, pEMInfo->EMPktLen[i]);
++
++	}
++#endif
++
++#if RTL8188E_EARLY_MODE_PKT_NUM_10 == 1
++	SET_EARLYMODE_PKTNUM(VirtualAddress, pEMInfo->EMPktNum);
++
++	if (pEMInfo->EMPktNum == 1)
++		dwtmp = pEMInfo->EMPktLen[0];
++	else {
++		dwtmp = pEMInfo->EMPktLen[0];
++		dwtmp += ((dwtmp % 4) ? (4 - dwtmp % 4) : 0) + 4;
++		dwtmp += pEMInfo->EMPktLen[1];
++	}
++	SET_EARLYMODE_LEN0(VirtualAddress, dwtmp);
++	if (pEMInfo->EMPktNum <= 3)
++		dwtmp = pEMInfo->EMPktLen[2];
++	else {
++		dwtmp = pEMInfo->EMPktLen[2];
++		dwtmp += ((dwtmp % 4) ? (4 - dwtmp % 4) : 0) + 4;
++		dwtmp += pEMInfo->EMPktLen[3];
++	}
++	SET_EARLYMODE_LEN1(VirtualAddress, dwtmp);
++	if (pEMInfo->EMPktNum <= 5)
++		dwtmp = pEMInfo->EMPktLen[4];
++	else {
++		dwtmp = pEMInfo->EMPktLen[4];
++		dwtmp += ((dwtmp % 4) ? (4 - dwtmp % 4) : 0) + 4;
++		dwtmp += pEMInfo->EMPktLen[5];
++	}
++	SET_EARLYMODE_LEN2_1(VirtualAddress, dwtmp & 0xF);
++	SET_EARLYMODE_LEN2_2(VirtualAddress, dwtmp >> 4);
++	if (pEMInfo->EMPktNum <= 7)
++		dwtmp = pEMInfo->EMPktLen[6];
++	else {
++		dwtmp = pEMInfo->EMPktLen[6];
++		dwtmp += ((dwtmp % 4) ? (4 - dwtmp % 4) : 0) + 4;
++		dwtmp += pEMInfo->EMPktLen[7];
++	}
++	SET_EARLYMODE_LEN3(VirtualAddress, dwtmp);
++	if (pEMInfo->EMPktNum <= 9)
++		dwtmp = pEMInfo->EMPktLen[8];
++	else {
++		dwtmp = pEMInfo->EMPktLen[8];
++		dwtmp += ((dwtmp % 4) ? (4 - dwtmp % 4) : 0) + 4;
++		dwtmp += pEMInfo->EMPktLen[9];
++	}
++	SET_EARLYMODE_LEN4(VirtualAddress, dwtmp);
++#else
++	SET_EARLYMODE_PKTNUM(VirtualAddress, pEMInfo->EMPktNum);
++	SET_EARLYMODE_LEN0(VirtualAddress, pEMInfo->EMPktLen[0]);
++	SET_EARLYMODE_LEN1(VirtualAddress, pEMInfo->EMPktLen[1]);
++	SET_EARLYMODE_LEN2_1(VirtualAddress, pEMInfo->EMPktLen[2] & 0xF);
++	SET_EARLYMODE_LEN2_2(VirtualAddress, pEMInfo->EMPktLen[2] >> 4);
++	SET_EARLYMODE_LEN3(VirtualAddress, pEMInfo->EMPktLen[3]);
++	SET_EARLYMODE_LEN4(VirtualAddress, pEMInfo->EMPktLen[4]);
++#endif
++
++}
++
++
++
++void UpdateEarlyModeInfo8812(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf)
++{
++	/* _adapter *padapter, struct xmit_frame *pxmitframe,struct tx_servq	*ptxservq */
++	int index, j;
++	u16 offset, pktlen;
++	PTXDESC_8812 ptxdesc;
++
++	u8 *pmem, *pEMInfo_mem;
++	s8 node_num_0 = 0, node_num_1 = 0;
++	struct EMInfo eminfo;
++	struct agg_pkt_info *paggpkt;
++	struct xmit_frame *pframe = (struct xmit_frame *)pxmitbuf->priv_data;
++	pmem = pframe->buf_addr;
++
++#ifdef DBG_EMINFO
++	RTW_INFO("\n%s ==> agg_num:%d\n", __FUNCTION__, pframe->agg_num);
++	for (index = 0; index < pframe->agg_num; index++) {
++		offset =	pxmitpriv->agg_pkt[index].offset;
++		pktlen = pxmitpriv->agg_pkt[index].pkt_len;
++		RTW_INFO("%s ==> agg_pkt[%d].offset=%d\n", __FUNCTION__, index, offset);
++		RTW_INFO("%s ==> agg_pkt[%d].pkt_len=%d\n", __FUNCTION__, index, pktlen);
++	}
++#endif
++
++	if (pframe->agg_num > EARLY_MODE_MAX_PKT_NUM) {
++		node_num_0 = pframe->agg_num;
++		node_num_1 = EARLY_MODE_MAX_PKT_NUM - 1;
++	}
++
++	for (index = 0; index < pframe->agg_num; index++) {
++
++		offset = pxmitpriv->agg_pkt[index].offset;
++		pktlen = pxmitpriv->agg_pkt[index].pkt_len;
++
++		_rtw_memset(&eminfo, 0, sizeof(struct EMInfo));
++		if (pframe->agg_num > EARLY_MODE_MAX_PKT_NUM) {
++			if (node_num_0 > EARLY_MODE_MAX_PKT_NUM) {
++				eminfo.EMPktNum = EARLY_MODE_MAX_PKT_NUM;
++				node_num_0--;
++			} else {
++				eminfo.EMPktNum = node_num_1;
++				node_num_1--;
++			}
++		} else
++			eminfo.EMPktNum = pframe->agg_num - (index + 1);
++		for (j = 0; j < eminfo.EMPktNum ; j++) {
++			eminfo.EMPktLen[j] = pxmitpriv->agg_pkt[index + 1 + j].pkt_len + 4; /* 4 bytes CRC */
++		}
++
++		if (pmem) {
++			if (index == 0) {
++				ptxdesc = (PTXDESC_8812)(pmem);
++				pEMInfo_mem = ((u8 *)ptxdesc) + TXDESC_SIZE;
++			} else {
++				pmem = pmem + pxmitpriv->agg_pkt[index - 1].offset;
++				ptxdesc = (PTXDESC_8812)(pmem);
++				pEMInfo_mem = ((u8 *)ptxdesc) + TXDESC_SIZE;
++			}
++
++#ifdef DBG_EMINFO
++			RTW_INFO("%s ==> desc.pkt_len=%d\n", __FUNCTION__, ptxdesc->pktlen);
++#endif
++			InsertEMContent_8812(&eminfo, pEMInfo_mem);
++		}
++
++
++	}
++	_rtw_memset(pxmitpriv->agg_pkt, 0, sizeof(struct agg_pkt_info) * MAX_AGG_PKT_NUM);
++
++}
++#endif
++
++void rtl8812a_cal_txdesc_chksum(u8 *ptxdesc)
++{
++	u16	*usPtr;
++	u32 count;
++	u32 index;
++	u16 checksum = 0;
++
++
++	usPtr = (u16 *)ptxdesc;
++	/* checksume is always calculated by first 32 bytes, */
++	/* and it doesn't depend on TX DESC length. */
++	/* Thomas,Lucas@SD4,20130515 */
++	count = 16;
++
++	/* Clear first */
++	SET_TX_DESC_TX_DESC_CHECKSUM_8812(ptxdesc, 0);
++
++	for (index = 0 ; index < count ; index++)
++		checksum = checksum ^ le16_to_cpu(*(usPtr + index));
++
++	SET_TX_DESC_TX_DESC_CHECKSUM_8812(ptxdesc, checksum);
++}
++
++/*
++ * Description: In normal chip, we should send some packet to Hw which will be used by Fw
++ *			in FW LPS mode. The function is to fill the Tx descriptor of this packets, then
++ *			Fw can tell Hw to send these packet derectly.
++ *   */
++void rtl8812a_fill_fake_txdesc(
++	PADAPTER	padapter,
++	u8			*pDesc,
++	u32			BufferLen,
++	u8			IsPsPoll,
++	u8			IsBTQosNull,
++	u8			bDataFrame)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++
++	/* Clear all status */
++	_rtw_memset(pDesc, 0, TXDESC_SIZE);
++
++	SET_TX_DESC_FIRST_SEG_8812(pDesc, 1);
++	SET_TX_DESC_LAST_SEG_8812(pDesc, 1);
++
++	SET_TX_DESC_OFFSET_8812(pDesc, TXDESC_SIZE);
++
++	SET_TX_DESC_PKT_SIZE_8812(pDesc, BufferLen);
++
++	SET_TX_DESC_QUEUE_SEL_8812(pDesc,  QSLT_MGNT);
++
++	if (pmlmeext->cur_wireless_mode & WIRELESS_11B)
++		SET_TX_DESC_RATE_ID_8812(pDesc, RATEID_IDX_B);
++	else
++		SET_TX_DESC_RATE_ID_8812(pDesc, RATEID_IDX_G);
++
++	/* Set NAVUSEHDR to prevent Ps-poll AId filed to be changed to error vlaue by Hw. */
++	if (IsPsPoll)
++		SET_TX_DESC_NAV_USE_HDR_8812(pDesc, 1);
++	else {
++		SET_TX_DESC_HWSEQ_EN_8812(pDesc, 1); /* Hw set sequence number */
++	}
++
++	if (IsBTQosNull)
++		SET_TX_DESC_BT_INT_8812(pDesc, 1);
++
++	SET_TX_DESC_USE_RATE_8812(pDesc, 1);
++	SET_TX_DESC_OWN_8812(pDesc, 1);
++
++	/*  */
++	/* Encrypt the data frame if under security mode excepct null data. Suggested by CCW. */
++	/*  */
++	if (_TRUE == bDataFrame) {
++		u32 EncAlg;
++
++		EncAlg = padapter->securitypriv.dot11PrivacyAlgrthm;
++		switch (EncAlg) {
++		case _NO_PRIVACY_:
++			SET_TX_DESC_SEC_TYPE_8812(pDesc, 0x0);
++			break;
++		case _WEP40_:
++		case _WEP104_:
++		case _TKIP_:
++			SET_TX_DESC_SEC_TYPE_8812(pDesc, 0x1);
++			break;
++		case _SMS4_:
++			SET_TX_DESC_SEC_TYPE_8812(pDesc, 0x2);
++			break;
++		case _AES_:
++			SET_TX_DESC_SEC_TYPE_8812(pDesc, 0x3);
++			break;
++		default:
++			SET_TX_DESC_SEC_TYPE_8812(pDesc, 0x0);
++			break;
++		}
++	}
++	SET_TX_DESC_TX_RATE_8812(pDesc, MRateToHwRate(pmlmeext->tx_rate));
++
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_SDIO_HCI)
++	/* USB interface drop packet if the checksum of descriptor isn't correct. */
++	/* Using this checksum can let hardware recovery from packet bulk out error (e.g. Cancel URC, Bulk out error.). */
++	rtl8812a_cal_txdesc_chksum(pDesc);
++#endif
++}
++
++#if defined(CONFIG_CONCURRENT_MODE)
++void fill_txdesc_force_bmc_camid(struct pkt_attrib *pattrib, u8 *ptxdesc)
++{
++	if ((pattrib->encrypt > 0) && (!pattrib->bswenc)
++	    && (pattrib->bmc_camid != INVALID_SEC_MAC_CAM_ID)) {
++
++		SET_TX_DESC_EN_DESC_ID_8812(ptxdesc, 1);
++		SET_TX_DESC_MACID_8812(ptxdesc, pattrib->bmc_camid);
++	}
++}
++#endif
++
++void rtl8812a_fill_txdesc_sectype(struct pkt_attrib *pattrib, u8 *ptxdesc)
++{
++	if ((pattrib->encrypt > 0) && !pattrib->bswenc) {
++		switch (pattrib->encrypt) {
++		/* SEC_TYPE : 0:NO_ENC,1:WEP40/TKIP,2:WAPI,3:AES */
++		case _WEP40_:
++		case _WEP104_:
++		case _TKIP_:
++		case _TKIP_WTMIC_:
++			SET_TX_DESC_SEC_TYPE_8812(ptxdesc, 0x1);
++			break;
++#ifdef CONFIG_WAPI_SUPPORT
++		case _SMS4_:
++			SET_TX_DESC_SEC_TYPE_8812(ptxdesc, 0x2);
++			break;
++#endif
++		case _AES_:
++			SET_TX_DESC_SEC_TYPE_8812(ptxdesc, 0x3);
++			break;
++		case _NO_PRIVACY_:
++		default:
++			SET_TX_DESC_SEC_TYPE_8812(ptxdesc, 0x0);
++			break;
++
++		}
++
++	}
++
++}
++
++void rtl8812a_fill_txdesc_vcs(PADAPTER padapter, struct pkt_attrib *pattrib, u8 *ptxdesc)
++{
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	/* RTW_INFO("vcs_mode=%d\n", pattrib->vcs_mode);	 */
++
++	if (pattrib->vcs_mode) {
++
++		switch (pattrib->vcs_mode) {
++		case RTS_CTS:
++			SET_TX_DESC_RTS_ENABLE_8812(ptxdesc, 1);
++			break;
++		case CTS_TO_SELF:
++			SET_TX_DESC_CTS2SELF_8812(ptxdesc, 1);
++			break;
++		case NONE_VCS:
++		default:
++			break;
++		}
++
++		if (pmlmeinfo->preamble_mode == PREAMBLE_SHORT)
++			SET_TX_DESC_RTS_SHORT_8812(ptxdesc, 1);
++
++		SET_TX_DESC_RTS_RATE_8812(ptxdesc, 0x8);/* RTS Rate=24M */
++
++		SET_TX_DESC_RTS_RATE_FB_LIMIT_8812(ptxdesc, 0xf);
++
++		/* Enable HW RTS */
++		if (IS_HARDWARE_TYPE_8821(padapter))
++			SET_TX_DESC_HW_RTS_ENABLE_8812(ptxdesc, 1);
++	}
++}
++
++void rtl8812a_fill_txdesc_phy(PADAPTER padapter, struct pkt_attrib *pattrib, u8 *ptxdesc)
++{
++	/* RTW_INFO("bwmode=%d, ch_off=%d\n", pattrib->bwmode, pattrib->ch_offset); */
++
++	if (pattrib->ht_en) {
++		/* Set Bandwidth and sub-channel settings. */
++		SET_TX_DESC_DATA_BW_8812(ptxdesc, BWMapping_8812(padapter, pattrib));
++
++		SET_TX_DESC_DATA_SC_8812(ptxdesc, SCMapping_8812(padapter, pattrib));
++	}
++}
++
++u8
++BWMapping_8812(
++	IN	PADAPTER		Adapter,
++	IN	struct pkt_attrib	*pattrib
++)
++{
++	u8	BWSettingOfDesc = 0;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++
++	/* RTW_INFO("BWMapping pHalData->CurrentChannelBW %d, pattrib->bwmode %d\n",pHalData->CurrentChannelBW,pattrib->bwmode); */
++
++	if (pHalData->CurrentChannelBW == CHANNEL_WIDTH_80) {
++		if (pattrib->bwmode == CHANNEL_WIDTH_80)
++			BWSettingOfDesc = 2;
++		else if (pattrib->bwmode == CHANNEL_WIDTH_40)
++			BWSettingOfDesc = 1;
++		else
++			BWSettingOfDesc = 0;
++	} else if (pHalData->CurrentChannelBW == CHANNEL_WIDTH_40) {
++		if ((pattrib->bwmode == CHANNEL_WIDTH_40) || (pattrib->bwmode == CHANNEL_WIDTH_80))
++			BWSettingOfDesc = 1;
++		else
++			BWSettingOfDesc = 0;
++	} else
++		BWSettingOfDesc = 0;
++
++	return BWSettingOfDesc;
++}
++
++u8
++SCMapping_8812(
++	IN	PADAPTER		Adapter,
++	IN	struct pkt_attrib	*pattrib
++)
++{
++	u8	SCSettingOfDesc = 0;
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	/* RTW_INFO("SCMapping: pHalData->CurrentChannelBW %d, pHalData->nCur80MhzPrimeSC %d, pHalData->nCur40MhzPrimeSC %d\n",pHalData->CurrentChannelBW,pHalData->nCur80MhzPrimeSC,pHalData->nCur40MhzPrimeSC); */
++
++	if (pHalData->CurrentChannelBW == CHANNEL_WIDTH_80) {
++		if (pattrib->bwmode == CHANNEL_WIDTH_80)
++			SCSettingOfDesc = VHT_DATA_SC_DONOT_CARE;
++		else if (pattrib->bwmode == CHANNEL_WIDTH_40) {
++			if (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER)
++				SCSettingOfDesc = VHT_DATA_SC_40_LOWER_OF_80MHZ;
++			else if (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER)
++				SCSettingOfDesc = VHT_DATA_SC_40_UPPER_OF_80MHZ;
++			else
++				RTW_INFO("SCMapping: DONOT CARE Mode Setting\n");
++		} else {
++			if ((pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER) && (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER))
++				SCSettingOfDesc = VHT_DATA_SC_20_LOWEST_OF_80MHZ;
++			else if ((pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER) && (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER))
++				SCSettingOfDesc = VHT_DATA_SC_20_LOWER_OF_80MHZ;
++			else if ((pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER) && (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER))
++				SCSettingOfDesc = VHT_DATA_SC_20_UPPER_OF_80MHZ;
++			else if ((pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER) && (pHalData->nCur80MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER))
++				SCSettingOfDesc = VHT_DATA_SC_20_UPPERST_OF_80MHZ;
++			else
++				RTW_INFO("SCMapping: DONOT CARE Mode Setting\n");
++		}
++	} else if (pHalData->CurrentChannelBW == CHANNEL_WIDTH_40) {
++		/* RTW_INFO("SCMapping: HT Case: pHalData->CurrentChannelBW %d, pHalData->nCur40MhzPrimeSC %d\n",pHalData->CurrentChannelBW,pHalData->nCur40MhzPrimeSC); */
++
++		if (pattrib->bwmode == CHANNEL_WIDTH_40)
++			SCSettingOfDesc = VHT_DATA_SC_DONOT_CARE;
++		else if (pattrib->bwmode == CHANNEL_WIDTH_20) {
++			if (pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_UPPER)
++				SCSettingOfDesc = VHT_DATA_SC_20_UPPER_OF_80MHZ;
++			else if (pHalData->nCur40MhzPrimeSC == HAL_PRIME_CHNL_OFFSET_LOWER)
++				SCSettingOfDesc = VHT_DATA_SC_20_LOWER_OF_80MHZ;
++			else
++				SCSettingOfDesc = VHT_DATA_SC_DONOT_CARE;
++
++		}
++	} else
++		SCSettingOfDesc = VHT_DATA_SC_DONOT_CARE;
++
++	return SCSettingOfDesc;
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/rtl8812a/usb/rtl8812au_led.c b/drivers/net/wireless/rtl8812au/hal/rtl8812a/usb/rtl8812au_led.c
+new file mode 100644
+index 0000000..d5a5f45
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/rtl8812a/usb/rtl8812au_led.c
+@@ -0,0 +1,387 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8812AU_LED_C_
++
++/* #include <drv_types.h> */
++#include <rtl8812a_hal.h>
++
++/* ********************************************************************************
++ * LED object.
++ * ******************************************************************************** */
++
++
++/* ********************************************************************************
++ *	Prototype of protected function.
++ * ******************************************************************************** */
++
++
++/* ********************************************************************************
++ * LED_819xUsb routines.
++ * ******************************************************************************** */
++
++/*
++ *	Description:
++ *		Turn on LED according to LedPin specified.
++ *   */
++static void
++SwLedOn_8812AU(
++	PADAPTER		padapter,
++	PLED_USB		pLed
++)
++{
++	u8	LedCfg;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	if (RTW_CANNOT_RUN(padapter))
++		return;
++
++	if (RT_GetInterfaceSelection(padapter) == INTF_SEL2_MINICARD ||
++	    RT_GetInterfaceSelection(padapter) == INTF_SEL3_USB_Solo ||
++	    RT_GetInterfaceSelection(padapter) == INTF_SEL4_USB_Combo) {
++		LedCfg = rtw_read8(padapter, REG_LEDCFG2);
++		switch (pLed->LedPin) {
++		case LED_PIN_GPIO0:
++			break;
++
++		case LED_PIN_LED0:
++			LedCfg = rtw_read8(padapter, REG_LEDCFG2);
++			rtw_write8(padapter, REG_LEDCFG2, (LedCfg & 0xf0) | BIT5 | BIT6); /* SW control led0 on. */
++			break;
++
++		case LED_PIN_LED1:
++			rtw_write8(padapter, REG_LEDCFG2, (LedCfg & 0x0f) | BIT5); /* SW control led1 on. */
++			break;
++
++		default:
++			break;
++		}
++	} else {
++		switch (pLed->LedPin) {
++		case LED_PIN_GPIO0:
++			break;
++
++		case LED_PIN_LED0:
++			if (pHalData->AntDivCfg == 0) {
++				LedCfg = rtw_read8(padapter, REG_LEDCFG0);
++				rtw_write8(padapter, REG_LEDCFG0, (LedCfg & 0x70) | BIT5); /* SW control led0 on. */
++			} else {
++				LedCfg = rtw_read8(padapter, REG_LEDCFG2) & 0xe0;
++				rtw_write8(padapter, REG_LEDCFG2, LedCfg | BIT7 | BIT6 | BIT5); /* SW control led0 on. */
++			}
++			break;
++
++		case LED_PIN_LED1:
++			LedCfg = rtw_read8(padapter, (REG_LEDCFG1));
++			rtw_write8(padapter, (REG_LEDCFG1), (LedCfg & 0x70) | BIT5); /* SW control led1 on. */
++			break;
++
++		case LED_PIN_LED2:
++			LedCfg = rtw_read8(padapter, (REG_LEDCFG2));
++			rtw_write8(padapter, (REG_LEDCFG2), (LedCfg & 0x70) | BIT5); /* SW control led1 on. */
++			break;
++
++		default:
++			break;
++		}
++	}
++
++	pLed->bLedOn = _TRUE;
++}
++
++
++/*
++ *	Description:
++ *		Turn off LED according to LedPin specified.
++ *   */
++static void
++SwLedOff_8812AU(
++	PADAPTER		padapter,
++	PLED_USB		pLed
++)
++{
++	u8	LedCfg;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	if (RTW_CANNOT_RUN(padapter))
++		return;
++
++	if (RT_GetInterfaceSelection(padapter) == INTF_SEL2_MINICARD ||
++	    RT_GetInterfaceSelection(padapter) == INTF_SEL3_USB_Solo ||
++	    RT_GetInterfaceSelection(padapter) == INTF_SEL4_USB_Combo) {
++		LedCfg = rtw_read8(padapter, REG_LEDCFG2);
++
++		/* 2009/10/23 MH Issau eed to move the LED GPIO from bit  0 to bit3. */
++		/* 2009/10/26 MH Issau if tyhe device is 8c DID is 0x8176, we need to enable bit6 to */
++		/* enable GPIO8 for controlling LED.	 */
++		/* 2010/07/02 Supprt Open-drain arrangement for controlling the LED. Added by Roger. */
++		/*  */
++		switch (pLed->LedPin) {
++
++		case LED_PIN_GPIO0:
++			break;
++
++		case LED_PIN_LED0:
++			if (pHalData->bLedOpenDrain == _TRUE) {
++				LedCfg &= 0x90; /* Set to software control.				 */
++				rtw_write8(padapter, REG_LEDCFG2, (LedCfg | BIT3));
++				LedCfg = rtw_read8(padapter, REG_MAC_PINMUX_CFG);
++				LedCfg &= 0xFE;
++				rtw_write8(padapter, REG_MAC_PINMUX_CFG, LedCfg);
++			} else
++				rtw_write8(padapter, REG_LEDCFG2, (LedCfg | BIT3 | BIT5 | BIT6));
++			break;
++
++		case LED_PIN_LED1:
++			LedCfg &= 0x0f; /* Set to software control. */
++			rtw_write8(padapter, REG_LEDCFG2, (LedCfg | BIT3));
++			break;
++
++		default:
++			break;
++		}
++	} else {
++		switch (pLed->LedPin) {
++		case LED_PIN_GPIO0:
++			break;
++
++		case LED_PIN_LED0:
++			if (pHalData->AntDivCfg == 0) {
++				LedCfg = rtw_read8(padapter, REG_LEDCFG0);
++				LedCfg &= 0x70; /* Set to software control. */
++				rtw_write8(padapter, REG_LEDCFG0, (LedCfg | BIT3 | BIT5));
++			} else {
++				LedCfg = rtw_read8(padapter, REG_LEDCFG2);
++				LedCfg &= 0xe0; /* Set to software control.			 */
++				rtw_write8(padapter, REG_LEDCFG2, (LedCfg | BIT3 | BIT7 | BIT6 | BIT5));
++			}
++			break;
++
++		case LED_PIN_LED1:
++			LedCfg = rtw_read8(padapter, REG_LEDCFG1);
++			LedCfg &= 0x70; /* Set to software control. */
++			rtw_write8(padapter, REG_LEDCFG1, (LedCfg | BIT3 | BIT5));
++			break;
++
++		case LED_PIN_LED2:
++			LedCfg = rtw_read8(padapter, REG_LEDCFG2);
++			LedCfg &= 0x70; /* Set to software control. */
++			rtw_write8(padapter, REG_LEDCFG2, (LedCfg | BIT3 | BIT5));
++			break;
++
++		default:
++			break;
++		}
++	}
++
++	pLed->bLedOn = _FALSE;
++}
++
++/*
++ *	Description:
++ *		Turn on LED according to LedPin specified.
++ *   */
++static void
++SwLedOn_8821AU(
++	PADAPTER		Adapter,
++	PLED_USB		pLed
++)
++{
++	u8	LedCfg;
++
++	if (RTW_CANNOT_RUN(Adapter))
++		return;
++
++
++	if (RT_GetInterfaceSelection(Adapter) == INTF_SEL2_MINICARD ||
++	    RT_GetInterfaceSelection(Adapter) == INTF_SEL3_USB_Solo ||
++	    RT_GetInterfaceSelection(Adapter) == INTF_SEL4_USB_Combo) {
++		LedCfg = rtw_read8(Adapter, REG_LEDCFG2);
++		switch (pLed->LedPin) {
++		case LED_PIN_GPIO0:
++			break;
++
++		case LED_PIN_LED0:
++
++			LedCfg = rtw_read8(Adapter, REG_LEDCFG2);
++			rtw_write8(Adapter, REG_LEDCFG2, (LedCfg & 0xf0) | BIT5 | BIT6); /* SW control led0 on. */
++			break;
++
++		case LED_PIN_LED1:
++			rtw_write8(Adapter, REG_LEDCFG2, (LedCfg & 0x0f) | BIT5); /* SW control led1 on. */
++			break;
++
++		default:
++			break;
++
++		}
++	} else {
++		switch (pLed->LedPin) {
++		case LED_PIN_GPIO0:
++			break;
++
++		case LED_PIN_LED0:
++		case LED_PIN_LED1:
++		case LED_PIN_LED2:
++			if (IS_HARDWARE_TYPE_8821U(Adapter)) {
++				LedCfg = rtw_read8(Adapter, REG_LEDCFG2) & 0x20;
++				rtw_write8(Adapter, REG_LEDCFG2, (LedCfg & ~(BIT3)) | BIT5); /* SW control led0 on. */
++				/* RTW_INFO("8821 SwLedOn LED2 0x%x\n", rtw_read32(Adapter, REG_LEDCFG0)); */
++			}
++
++			break;
++
++		default:
++			break;
++		}
++	}
++	pLed->bLedOn = _TRUE;
++}
++
++
++/*
++ *	Description:
++ *		Turn off LED according to LedPin specified.
++ *   */
++static void
++SwLedOff_8821AU(
++	PADAPTER		Adapter,
++	PLED_USB		pLed
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	u8	LedCfg;
++
++	if (RTW_CANNOT_RUN(Adapter))
++		return;
++
++	if (RT_GetInterfaceSelection(Adapter) == INTF_SEL2_MINICARD ||
++	    RT_GetInterfaceSelection(Adapter) == INTF_SEL3_USB_Solo ||
++	    RT_GetInterfaceSelection(Adapter) == INTF_SEL4_USB_Combo) {
++		LedCfg = rtw_read8(Adapter, REG_LEDCFG2);
++
++		/* 2009/10/23 MH Issau eed to move the LED GPIO from bit  0 to bit3. */
++		/* 2009/10/26 MH Issau if tyhe device is 8c DID is 0x8176, we need to enable bit6 to */
++		/* enable GPIO8 for controlling LED.	 */
++		/* 2010/07/02 Supprt Open-drain arrangement for controlling the LED. Added by Roger. */
++		/*  */
++		switch (pLed->LedPin) {
++
++		case LED_PIN_GPIO0:
++			break;
++
++		case LED_PIN_LED0:
++			if (pHalData->bLedOpenDrain == _TRUE) {
++				LedCfg &= 0x90; /* Set to software control.				 */
++				rtw_write8(Adapter, REG_LEDCFG2, (LedCfg | BIT3));
++				LedCfg = rtw_read8(Adapter, REG_MAC_PINMUX_CFG);
++				LedCfg &= 0xFE;
++				rtw_write8(Adapter, REG_MAC_PINMUX_CFG, LedCfg);
++			} else
++				rtw_write8(Adapter, REG_LEDCFG2, (LedCfg | BIT3 | BIT5 | BIT6));
++			break;
++
++		case LED_PIN_LED1:
++			LedCfg &= 0x0f; /* Set to software control. */
++			rtw_write8(Adapter, REG_LEDCFG2, (LedCfg | BIT3));
++			break;
++
++		default:
++			break;
++		}
++	} else {
++		switch (pLed->LedPin) {
++		case LED_PIN_GPIO0:
++			break;
++
++		case LED_PIN_LED0:
++		case LED_PIN_LED1:
++		case LED_PIN_LED2:
++			if (IS_HARDWARE_TYPE_8821U(Adapter)) {
++				LedCfg = rtw_read8(Adapter, REG_LEDCFG2);
++				LedCfg &= 0x20; /* Set to software control. */
++				rtw_write8(Adapter, REG_LEDCFG2, (LedCfg | BIT3 | BIT5));
++				/* RTW_INFO("8821 SwLedOn LED2 0x%x\n", rtw_read32(Adapter, REG_LEDCFG0)); */
++			}
++
++			break;
++
++
++		default:
++			break;
++		}
++	}
++
++	pLed->bLedOn = _FALSE;
++}
++
++
++/* ********************************************************************************
++ * Interface to manipulate LED objects.
++ * ******************************************************************************** */
++
++
++/* ********************************************************************************
++ * Default LED behavior.
++ * ******************************************************************************** */
++
++/*
++ *	Description:
++ *		Initialize all LED_871x objects.
++ *   */
++void
++rtl8812au_InitSwLeds(
++	_adapter	*padapter
++)
++{
++	struct led_priv *pledpriv = &(padapter->ledpriv);
++
++	pledpriv->LedControlHandler = LedControlUSB;
++
++	if (IS_HARDWARE_TYPE_8812(padapter)) {
++		pledpriv->SwLedOn = SwLedOn_8812AU;
++		pledpriv->SwLedOff = SwLedOff_8812AU;
++	} else {
++		pledpriv->SwLedOn = SwLedOn_8821AU;
++		pledpriv->SwLedOff = SwLedOff_8821AU;
++	}
++
++	InitLed(padapter, &(pledpriv->SwLed0), LED_PIN_LED0);
++
++	InitLed(padapter, &(pledpriv->SwLed1), LED_PIN_LED1);
++
++	InitLed(padapter, &(pledpriv->SwLed2), LED_PIN_LED2);
++}
++
++
++/*
++ *	Description:
++ *		DeInitialize all LED_819xUsb objects.
++ *   */
++void
++rtl8812au_DeInitSwLeds(
++	_adapter	*padapter
++)
++{
++	struct led_priv	*ledpriv = &(padapter->ledpriv);
++
++	DeInitLed(&(ledpriv->SwLed0));
++	DeInitLed(&(ledpriv->SwLed1));
++	DeInitLed(&(ledpriv->SwLed2));
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/rtl8812a/usb/rtl8812au_recv.c b/drivers/net/wireless/rtl8812au/hal/rtl8812a/usb/rtl8812au_recv.c
+new file mode 100644
+index 0000000..4603df6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/rtl8812a/usb/rtl8812au_recv.c
+@@ -0,0 +1,33 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8812AU_RECV_C_
++
++/* #include <drv_types.h> */
++#include <rtl8812a_hal.h>
++
++int	rtl8812au_init_recv_priv(_adapter *padapter)
++{
++	return usb_init_recv_priv(padapter, INTERRUPT_MSG_FORMAT_LEN);
++}
++
++void rtl8812au_free_recv_priv(_adapter *padapter)
++{
++	usb_free_recv_priv(padapter, INTERRUPT_MSG_FORMAT_LEN);
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/rtl8812a/usb/rtl8812au_xmit.c b/drivers/net/wireless/rtl8812au/hal/rtl8812a/usb/rtl8812au_xmit.c
+new file mode 100644
+index 0000000..dce1e9c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/rtl8812a/usb/rtl8812au_xmit.c
+@@ -0,0 +1,1058 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RTL8812AU_XMIT_C_
++
++/* #include <drv_types.h> */
++#include <rtl8812a_hal.h>
++
++
++s32	rtl8812au_init_xmit_priv(_adapter *padapter)
++{
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++#ifdef PLATFORM_LINUX
++	tasklet_init(&pxmitpriv->xmit_tasklet,
++		     (void(*)(unsigned long))rtl8812au_xmit_tasklet,
++		     (unsigned long)padapter);
++#endif
++#ifdef CONFIG_TX_EARLY_MODE
++	pHalData->bEarlyModeEnable = padapter->registrypriv.early_mode;
++#endif
++
++	return _SUCCESS;
++}
++
++void	rtl8812au_free_xmit_priv(_adapter *padapter)
++{
++}
++
++static s32 update_txdesc(struct xmit_frame *pxmitframe, u8 *pmem, s32 sz , u8 bagg_pkt)
++{
++	int	pull = 0;
++	uint	qsel;
++	u8 data_rate, pwr_status, offset;
++	_adapter			*padapter = pxmitframe->padapter;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct pkt_attrib	*pattrib = &pxmitframe->attrib;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	u8	*ptxdesc =  pmem;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	sint	bmcst = IS_MCAST(pattrib->ra);
++
++#ifndef CONFIG_USE_USB_BUFFER_ALLOC_TX
++	if (padapter->registrypriv.mp_mode == 0) {
++		if ((PACKET_OFFSET_SZ != 0) && (!bagg_pkt) && (rtw_usb_bulk_size_boundary(padapter, TXDESC_SIZE + sz) == _FALSE)) {
++			ptxdesc = (pmem + PACKET_OFFSET_SZ);
++			/* RTW_INFO("==> non-agg-pkt,shift pointer...\n"); */
++			pull = 1;
++		}
++	}
++#endif /* CONFIG_USE_USB_BUFFER_ALLOC_TX */
++
++	_rtw_memset(ptxdesc, 0, TXDESC_SIZE);
++
++	/* 4 offset 0 */
++	SET_TX_DESC_FIRST_SEG_8812(ptxdesc, 1);
++	SET_TX_DESC_LAST_SEG_8812(ptxdesc, 1);
++	SET_TX_DESC_OWN_8812(ptxdesc, 1);
++
++	/* RTW_INFO("%s==> pkt_len=%d,bagg_pkt=%02x\n",__FUNCTION__,sz,bagg_pkt); */
++	SET_TX_DESC_PKT_SIZE_8812(ptxdesc, sz);
++
++	offset = TXDESC_SIZE + OFFSET_SZ;
++
++#ifdef CONFIG_TX_EARLY_MODE
++	if (bagg_pkt) {
++		offset += EARLY_MODE_INFO_SIZE ;/* 0x28			 */
++	}
++#endif
++	/* RTW_INFO("%s==>offset(0x%02x)\n",__FUNCTION__,offset); */
++	SET_TX_DESC_OFFSET_8812(ptxdesc, offset);
++
++	if (bmcst)
++		SET_TX_DESC_BMC_8812(ptxdesc, 1);
++
++#ifndef CONFIG_USE_USB_BUFFER_ALLOC_TX
++	if (padapter->registrypriv.mp_mode == 0) {
++		if ((PACKET_OFFSET_SZ != 0) && (!bagg_pkt)) {
++			if ((pull) && (pxmitframe->pkt_offset > 0))
++				pxmitframe->pkt_offset = pxmitframe->pkt_offset - 1;
++		}
++	}
++#endif
++
++	/* RTW_INFO("%s, pkt_offset=0x%02x\n",__FUNCTION__,pxmitframe->pkt_offset); */
++	/* pkt_offset, unit:8 bytes padding */
++	if (pxmitframe->pkt_offset > 0)
++		SET_TX_DESC_PKT_OFFSET_8812(ptxdesc, pxmitframe->pkt_offset);
++
++	SET_TX_DESC_MACID_8812(ptxdesc, pattrib->mac_id);
++	SET_TX_DESC_RATE_ID_8812(ptxdesc, pattrib->raid);
++
++	SET_TX_DESC_QUEUE_SEL_8812(ptxdesc,  pattrib->qsel);
++
++	/* offset 12 */
++
++	if (!pattrib->qos_en) {
++		SET_TX_DESC_HWSEQ_EN_8812(ptxdesc, 1); /* Hw set sequence number */
++	} else
++		SET_TX_DESC_SEQ_8812(ptxdesc, pattrib->seqnum);
++
++	if ((pxmitframe->frame_tag & 0x0f) == DATA_FRAMETAG) {
++		/* RTW_INFO("pxmitframe->frame_tag == DATA_FRAMETAG\n");		 */
++
++		rtl8812a_fill_txdesc_sectype(pattrib, ptxdesc);
++#if defined(CONFIG_CONCURRENT_MODE)
++		if (bmcst)
++			fill_txdesc_force_bmc_camid(pattrib, ptxdesc);
++#endif
++
++		/* offset 20 */
++#ifdef CONFIG_USB_TX_AGGREGATION
++		if (pxmitframe->agg_num > 1) {
++			/* RTW_INFO("%s agg_num:%d\n",__FUNCTION__,pxmitframe->agg_num ); */
++			SET_TX_DESC_USB_TXAGG_NUM_8812(ptxdesc, pxmitframe->agg_num);
++		}
++#endif
++
++		rtl8812a_fill_txdesc_vcs(padapter, pattrib, ptxdesc);
++
++		if ((pattrib->ether_type != 0x888e) &&
++		    (pattrib->ether_type != 0x0806) &&
++		    (pattrib->ether_type != 0x88b4) &&
++		    (pattrib->dhcp_pkt != 1)
++#ifdef CONFIG_AUTO_AP_MODE
++		    && (pattrib->pctrl != _TRUE)
++#endif
++		   ) {
++			/* Non EAP & ARP & DHCP type data packet */
++
++			if (pattrib->ampdu_en == _TRUE) {
++				SET_TX_DESC_AGG_ENABLE_8812(ptxdesc, 1);
++				SET_TX_DESC_MAX_AGG_NUM_8812(ptxdesc, 0x1f);
++				/* Set A-MPDU aggregation. */
++				SET_TX_DESC_AMPDU_DENSITY_8812(ptxdesc, pattrib->ampdu_spacing);
++			} else
++				SET_TX_DESC_AGG_BREAK_8812(ptxdesc, 1);
++
++			rtl8812a_fill_txdesc_phy(padapter, pattrib, ptxdesc);
++
++			/* DATA  Rate FB LMT */
++			SET_TX_DESC_DATA_RATE_FB_LIMIT_8812(ptxdesc, 0x1f);
++
++			if (pHalData->fw_ractrl == _FALSE) {
++				SET_TX_DESC_USE_RATE_8812(ptxdesc, 1);
++
++				if (pHalData->INIDATA_RATE[pattrib->mac_id] & BIT(7))
++					SET_TX_DESC_DATA_SHORT_8812(ptxdesc,	1);
++
++				SET_TX_DESC_TX_RATE_8812(ptxdesc, (pHalData->INIDATA_RATE[pattrib->mac_id] & 0x7F));
++			}
++
++			if (padapter->fix_rate != 0xFF) { /* modify data rate by iwpriv */
++				SET_TX_DESC_USE_RATE_8812(ptxdesc, 1);
++				if (padapter->fix_rate & BIT(7))
++					SET_TX_DESC_DATA_SHORT_8812(ptxdesc,	1);
++
++				SET_TX_DESC_TX_RATE_8812(ptxdesc, (padapter->fix_rate & 0x7F));
++				if (!padapter->data_fb)
++					SET_TX_DESC_DISABLE_FB_8812(ptxdesc, 1);
++			}
++
++			if (pattrib->ldpc)
++				SET_TX_DESC_DATA_LDPC_8812(ptxdesc, 1);
++			if (pattrib->stbc)
++				SET_TX_DESC_DATA_STBC_8812(ptxdesc, 1);
++		} else {
++			/* EAP data packet and ARP packet and DHCP. */
++			/* Use the 1M data rate to send the EAP/ARP packet. */
++			/* This will maybe make the handshake smooth. */
++
++			SET_TX_DESC_USE_RATE_8812(ptxdesc, 1);
++
++			SET_TX_DESC_AGG_BREAK_8812(ptxdesc, 1);
++
++			/* HW will ignore this setting if the transmission rate is legacy OFDM. */
++			if (pmlmeinfo->preamble_mode == PREAMBLE_SHORT)
++				SET_TX_DESC_DATA_SHORT_8812(ptxdesc, 1);
++
++			SET_TX_DESC_TX_RATE_8812(ptxdesc, MRateToHwRate(pmlmeext->tx_rate));
++		}
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_XMIT_ACK
++		/* CCX-TXRPT ack for xmit mgmt frames. */
++		if (pxmitframe->ack_report) {
++			SET_TX_DESC_SPE_RPT_8812(ptxdesc, 1);
++#ifdef DBG_CCX
++			RTW_INFO("%s set tx report\n", __func__);
++#endif
++		}
++#endif /* CONFIG_XMIT_ACK */
++#endif
++	} else if ((pxmitframe->frame_tag & 0x0f) == MGNT_FRAMETAG) {
++		/* RTW_INFO("pxmitframe->frame_tag == MGNT_FRAMETAG\n");	 */
++
++		if (IS_HARDWARE_TYPE_8821(padapter))
++			SET_TX_DESC_MBSSID_8821(ptxdesc, pattrib->mbssid);
++
++		SET_TX_DESC_USE_RATE_8812(ptxdesc, 1);
++
++#ifdef CONFIG_INTEL_PROXIM
++		if ((padapter->proximity.proxim_on == _TRUE) && (pattrib->intel_proxim == _TRUE)) {
++			RTW_INFO("\n %s pattrib->rate=%d\n", __FUNCTION__, pattrib->rate);
++			SET_TX_DESC_TX_RATE_8812(ptxdesc, pattrib->rate);
++		} else
++#endif
++		{
++			SET_TX_DESC_TX_RATE_8812(ptxdesc, MRateToHwRate(pattrib->rate));
++		}
++
++		/* VHT NDPA or HT NDPA Packet for Beamformer. */
++#ifdef CONFIG_BEAMFORMING
++		if ((pattrib->subtype == WIFI_NDPA) ||
++		    ((pattrib->subtype == WIFI_ACTION_NOACK) && (pattrib->order == 1))) {
++			SET_TX_DESC_NAV_USE_HDR_8812(ptxdesc, 1);
++
++			SET_TX_DESC_DATA_BW_8812(ptxdesc, BWMapping_8812(padapter, pattrib));
++			SET_TX_DESC_RTS_SC_8812(ptxdesc, SCMapping_8812(padapter, pattrib));
++
++			SET_TX_DESC_RETRY_LIMIT_ENABLE_8812(ptxdesc, 1);
++			SET_TX_DESC_DATA_RETRY_LIMIT_8812(ptxdesc, 5);
++			SET_TX_DESC_DISABLE_FB_8812(ptxdesc, 1);
++
++			/* if(pattrib->rts_cca) */
++			/* { */
++			/*	SET_TX_DESC_NDPA_8812(ptxdesc, 2); */
++			/* }	 */
++			/* else */
++			{
++				SET_TX_DESC_NDPA_8812(ptxdesc, 1);
++			}
++		} else
++#endif
++		{
++			SET_TX_DESC_RETRY_LIMIT_ENABLE_8812(ptxdesc, 1);
++			if (pattrib->retry_ctrl == _TRUE)
++				SET_TX_DESC_DATA_RETRY_LIMIT_8812(ptxdesc, 6);
++			else
++				SET_TX_DESC_DATA_RETRY_LIMIT_8812(ptxdesc, 12);
++		}
++
++#ifdef CONFIG_XMIT_ACK
++		/* CCX-TXRPT ack for xmit mgmt frames. */
++		if (pxmitframe->ack_report) {
++			SET_TX_DESC_SPE_RPT_8812(ptxdesc, 1);
++#ifdef DBG_CCX
++			RTW_INFO("%s set tx report\n", __func__);
++#endif
++		}
++#endif /* CONFIG_XMIT_ACK */
++	} else if ((pxmitframe->frame_tag & 0x0f) == TXAGG_FRAMETAG)
++		RTW_INFO("pxmitframe->frame_tag == TXAGG_FRAMETAG\n");
++#ifdef CONFIG_MP_INCLUDED
++	else if (((pxmitframe->frame_tag & 0x0f) == MP_FRAMETAG) &&
++		 (padapter->registrypriv.mp_mode == 1))
++		fill_txdesc_for_mp(padapter, ptxdesc);
++#endif
++	else {
++		RTW_INFO("pxmitframe->frame_tag = %d\n", pxmitframe->frame_tag);
++
++		SET_TX_DESC_USE_RATE_8812(ptxdesc, 1);
++		SET_TX_DESC_TX_RATE_8812(ptxdesc, MRateToHwRate(pmlmeext->tx_rate));
++	}
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	ODM_SetTxAntByTxInfo(&pHalData->odmpriv, ptxdesc, pxmitframe->attrib.mac_id);
++#endif
++
++#ifdef CONFIG_BEAMFORMING
++	SET_TX_DESC_GID_8812(ptxdesc, pattrib->txbf_g_id);
++	SET_TX_DESC_PAID_8812(ptxdesc, pattrib->txbf_p_aid);
++#endif
++	rtl8812a_cal_txdesc_chksum(ptxdesc);
++	_dbg_dump_tx_info(padapter, pxmitframe->frame_tag, ptxdesc);
++	return pull;
++}
++
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++/*
++ * Description
++ *	Transmit xmitbuf to hardware tx fifo
++ *
++ * Return
++ *	_SUCCESS	ok
++ *	_FAIL		something error
++ */
++s32 rtl8812au_xmit_buf_handler(PADAPTER padapter)
++{
++	PHAL_DATA_TYPE phal;
++	struct xmit_priv *pxmitpriv;
++	struct xmit_buf *pxmitbuf;
++	s32 ret;
++
++
++	phal = GET_HAL_DATA(padapter);
++	pxmitpriv = &padapter->xmitpriv;
++
++	ret = _rtw_down_sema(&pxmitpriv->xmit_sema);
++	if (_FAIL == ret) {
++		return _FAIL;
++	}
++
++	if (RTW_CANNOT_RUN(padapter)) {
++		return _FAIL;
++	}
++
++	if (rtw_mi_check_pending_xmitbuf(padapter) == 0)
++		return _SUCCESS;
++
++#ifdef CONFIG_LPS_LCLK
++	ret = rtw_register_tx_alive(padapter);
++	if (ret != _SUCCESS) {
++		return _SUCCESS;
++	}
++#endif
++
++	do {
++		pxmitbuf = dequeue_pending_xmitbuf(pxmitpriv);
++		if (pxmitbuf == NULL)
++			break;
++
++		rtw_write_port(padapter, pxmitbuf->ff_hwaddr, pxmitbuf->len, (unsigned char *)pxmitbuf);
++
++	} while (1);
++
++#ifdef CONFIG_LPS_LCLK
++	rtw_unregister_tx_alive(padapter);
++#endif
++
++	return _SUCCESS;
++}
++#endif
++
++
++/* for non-agg data frame or  management frame */
++static s32 rtw_dump_xframe(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	s32 ret = _SUCCESS;
++	s32 inner_ret = _SUCCESS;
++	int t, sz, w_sz, pull = 0;
++	u8 *mem_addr;
++	u32 ff_hwaddr;
++	struct xmit_buf *pxmitbuf = pxmitframe->pxmitbuf;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++#ifdef CONFIG_80211N_HT
++	if ((pxmitframe->frame_tag == DATA_FRAMETAG) &&
++	    (pxmitframe->attrib.ether_type != 0x0806) &&
++	    (pxmitframe->attrib.ether_type != 0x888e) &&
++	    (pxmitframe->attrib.ether_type != 0x88b4) &&
++	    (pxmitframe->attrib.dhcp_pkt != 1))
++		rtw_issue_addbareq_cmd(padapter, pxmitframe);
++#endif /* CONFIG_80211N_HT */
++	mem_addr = pxmitframe->buf_addr;
++
++
++	for (t = 0; t < pattrib->nr_frags; t++) {
++		if (inner_ret != _SUCCESS && ret == _SUCCESS)
++			ret = _FAIL;
++
++		if (t != (pattrib->nr_frags - 1)) {
++
++			sz = pxmitpriv->frag_len;
++			sz = sz - 4 - (psecuritypriv->sw_encrypt ? 0 : pattrib->icv_len);
++		} else /* no frag */
++			sz = pattrib->last_txcmdsz;
++
++		pull = update_txdesc(pxmitframe, mem_addr, sz, _FALSE);
++
++		if (pull) {
++			mem_addr += PACKET_OFFSET_SZ; /* pull txdesc head */
++
++			/* pxmitbuf->pbuf = mem_addr;			 */
++			pxmitframe->buf_addr = mem_addr;
++
++			w_sz = sz + TXDESC_SIZE;
++		} else
++			w_sz = sz + TXDESC_SIZE + PACKET_OFFSET_SZ;
++
++		ff_hwaddr = rtw_get_ff_hwaddr(pxmitframe);
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++		pxmitbuf->len = w_sz;
++		pxmitbuf->ff_hwaddr = ff_hwaddr;
++		enqueue_pending_xmitbuf(pxmitpriv, pxmitbuf);
++#else
++		inner_ret = rtw_write_port(padapter, ff_hwaddr, w_sz, (unsigned char *)pxmitbuf);
++#endif
++		rtw_count_tx_stats(padapter, pxmitframe, sz);
++
++		/* RTW_INFO("rtw_write_port, w_sz=%d, sz=%d, txdesc_sz=%d, tid=%d\n", w_sz, sz, w_sz-sz, pattrib->priority);       */
++
++		mem_addr += w_sz;
++
++		mem_addr = (u8 *)RND4(((SIZE_PTR)(mem_addr)));
++
++	}
++
++	rtw_free_xmitframe(pxmitpriv, pxmitframe);
++
++	if (ret != _SUCCESS)
++		rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_UNKNOWN);
++
++	return ret;
++}
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++static u32 xmitframe_need_length(struct xmit_frame *pxmitframe)
++{
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++
++	u32	len = 0;
++
++	/* no consider fragement */
++	len = pattrib->hdrlen + pattrib->iv_len +
++	      SNAP_SIZE + sizeof(u16) +
++	      pattrib->pktlen +
++	      ((pattrib->bswenc) ? pattrib->icv_len : 0);
++
++	if (pattrib->encrypt == _TKIP_)
++		len += 8;
++
++	return len;
++}
++
++#define IDEA_CONDITION 1	/* check all packets before enqueue */
++s32 rtl8812au_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct xmit_frame *pxmitframe = NULL;
++	struct xmit_frame *pfirstframe = NULL;
++
++	/* aggregate variable */
++	struct hw_xmit *phwxmit;
++	struct sta_info *psta = NULL;
++	struct tx_servq *ptxservq = NULL;
++
++	_irqL irqL;
++	_list *xmitframe_plist = NULL, *xmitframe_phead = NULL;
++
++	u32	pbuf;	/* next pkt address */
++	u32	pbuf_tail;	/* last pkt tail */
++	u32	len;	/* packet length, except TXDESC_SIZE and PKT_OFFSET */
++
++	u32	bulkSize = pHalData->UsbBulkOutSize;
++	u8	descCount;
++	u32	bulkPtr;
++
++	/* dump frame variable */
++	u32 ff_hwaddr;
++
++	_list *sta_plist, *sta_phead;
++	u8 single_sta_in_queue = _FALSE;
++
++#ifndef IDEA_CONDITION
++	int res = _SUCCESS;
++#endif
++
++
++
++	/* check xmitbuffer is ok */
++	if (pxmitbuf == NULL) {
++		pxmitbuf = rtw_alloc_xmitbuf(pxmitpriv);
++		if (pxmitbuf == NULL) {
++			/* RTW_INFO("%s #1, connot alloc xmitbuf!!!!\n",__FUNCTION__); */
++			return _FALSE;
++		}
++	}
++
++	/* RTW_INFO("%s =====================================\n",__FUNCTION__); */
++	/* 3 1. pick up first frame */
++	do {
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++
++		pxmitframe = rtw_dequeue_xframe(pxmitpriv, pxmitpriv->hwxmits, pxmitpriv->hwxmit_entry);
++		if (pxmitframe == NULL) {
++			/* no more xmit frame, release xmit buffer */
++			/* RTW_INFO("no more xmit frame ,return\n"); */
++			rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++			return _FALSE;
++		}
++
++#ifndef IDEA_CONDITION
++		if (pxmitframe->frame_tag != DATA_FRAMETAG) {
++			/*			rtw_free_xmitframe(pxmitpriv, pxmitframe); */
++			continue;
++		}
++
++		/* TID 0~15 */
++		if ((pxmitframe->attrib.priority < 0) ||
++		    (pxmitframe->attrib.priority > 15)) {
++			/*			rtw_free_xmitframe(pxmitpriv, pxmitframe); */
++			continue;
++		}
++#endif
++		/* RTW_INFO("==> pxmitframe->attrib.priority:%d\n",pxmitframe->attrib.priority); */
++		pxmitframe->pxmitbuf = pxmitbuf;
++		pxmitframe->buf_addr = pxmitbuf->pbuf;
++		pxmitbuf->priv_data = pxmitframe;
++
++		pxmitframe->agg_num = 1; /* alloc xmitframe should assign to 1. */
++#ifdef CONFIG_TX_EARLY_MODE
++		pxmitframe->pkt_offset = (PACKET_OFFSET_SZ / 8) + 1; /* 2; */ /* first frame of aggregation, reserve one offset for EM info ,another for usb bulk-out block check */
++#else
++		pxmitframe->pkt_offset = (PACKET_OFFSET_SZ / 8); /* 1; */ /* first frame of aggregation, reserve offset */
++#endif
++
++		if (rtw_xmitframe_coalesce(padapter, pxmitframe->pkt, pxmitframe) == _FALSE) {
++			RTW_INFO("%s coalesce 1st xmitframe failed\n", __FUNCTION__);
++			continue;
++		}
++
++#ifdef CONFIG_MCC_MODE
++		/* to calculate packet to write port */
++		rtw_hal_mcc_calc_tx_bytes_to_port(padapter, pxmitframe->pkt->len);
++#endif
++
++		/* always return ndis_packet after rtw_xmitframe_coalesce */
++		rtw_os_xmit_complete(padapter, pxmitframe);
++
++		break;
++	} while (1);
++
++	/* 3 2. aggregate same priority and same DA(AP or STA) frames */
++	pfirstframe = pxmitframe;
++	len = xmitframe_need_length(pfirstframe) + TXDESC_SIZE + (pfirstframe->pkt_offset * PACKET_OFFSET_SZ);
++	pbuf_tail = len;
++	pbuf = _RND8(pbuf_tail);
++
++	/* check pkt amount in one bulk */
++	descCount = 0;
++	bulkPtr = bulkSize;
++	if (pbuf < bulkPtr)
++		descCount++;
++	if (descCount == pHalData->UsbTxAggDescNum)
++		goto agg_end;
++	else {
++		descCount = 0;
++		bulkPtr = ((pbuf / bulkSize) + 1) * bulkSize; /* round to next bulkSize */
++	}
++
++	/* dequeue same priority packet from station tx queue */
++	psta = pfirstframe->attrib.psta;
++	switch (pfirstframe->attrib.priority) {
++	case 1:
++	case 2:
++		ptxservq = &(psta->sta_xmitpriv.bk_q);
++		phwxmit = pxmitpriv->hwxmits + 3;
++		break;
++
++	case 4:
++	case 5:
++		ptxservq = &(psta->sta_xmitpriv.vi_q);
++		phwxmit = pxmitpriv->hwxmits + 1;
++		break;
++
++	case 6:
++	case 7:
++		ptxservq = &(psta->sta_xmitpriv.vo_q);
++		phwxmit = pxmitpriv->hwxmits;
++		break;
++
++	case 0:
++	case 3:
++	default:
++		ptxservq = &(psta->sta_xmitpriv.be_q);
++		phwxmit = pxmitpriv->hwxmits + 2;
++		break;
++	}
++	/* RTW_INFO("==> pkt_no=%d,pkt_len=%d,len=%d,RND8_LEN=%d,pkt_offset=0x%02x\n", */
++	/* pxmitframe->agg_num,pxmitframe->attrib.last_txcmdsz,len,pbuf,pxmitframe->pkt_offset ); */
++
++
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++	sta_phead = get_list_head(phwxmit->sta_queue);
++	sta_plist = get_next(sta_phead);
++	single_sta_in_queue = rtw_end_of_queue_search(sta_phead, get_next(sta_plist));
++
++	xmitframe_phead = get_list_head(&ptxservq->sta_pending);
++	xmitframe_plist = get_next(xmitframe_phead);
++
++	while (rtw_end_of_queue_search(xmitframe_phead, xmitframe_plist) == _FALSE) {
++		pxmitframe = LIST_CONTAINOR(xmitframe_plist, struct xmit_frame, list);
++		xmitframe_plist = get_next(xmitframe_plist);
++
++		if (_FAIL == rtw_hal_busagg_qsel_check(padapter, pfirstframe->attrib.qsel, pxmitframe->attrib.qsel))
++			break;
++
++		pxmitframe->agg_num = 0; /* not first frame of aggregation */
++#ifdef CONFIG_TX_EARLY_MODE
++		pxmitframe->pkt_offset = 1;/* not first frame of aggregation,reserve offset for EM Info */
++#else
++		pxmitframe->pkt_offset = 0; /* not first frame of aggregation, no need to reserve offset */
++#endif
++
++		len = xmitframe_need_length(pxmitframe) + TXDESC_SIZE + (pxmitframe->pkt_offset * PACKET_OFFSET_SZ);
++
++		if (_RND8(pbuf + len) > MAX_XMITBUF_SZ)
++			/* if (_RND8(pbuf + len) > (MAX_XMITBUF_SZ/2))//to do : for TX TP finial tune , Georgia 2012-0323 */
++		{
++			/* RTW_INFO("%s....len> MAX_XMITBUF_SZ\n",__FUNCTION__); */
++			pxmitframe->agg_num = 1;
++			pxmitframe->pkt_offset = 1;
++			break;
++		}
++		rtw_list_delete(&pxmitframe->list);
++		ptxservq->qcnt--;
++		phwxmit->accnt--;
++
++#ifndef IDEA_CONDITION
++		/* suppose only data frames would be in queue */
++		if (pxmitframe->frame_tag != DATA_FRAMETAG) {
++			rtw_free_xmitframe(pxmitpriv, pxmitframe);
++			continue;
++		}
++
++		/* TID 0~15 */
++		if ((pxmitframe->attrib.priority < 0) ||
++		    (pxmitframe->attrib.priority > 15)) {
++			rtw_free_xmitframe(pxmitpriv, pxmitframe);
++			continue;
++		}
++#endif
++
++		/*		pxmitframe->pxmitbuf = pxmitbuf; */
++		pxmitframe->buf_addr = pxmitbuf->pbuf + pbuf;
++
++		if (rtw_xmitframe_coalesce(padapter, pxmitframe->pkt, pxmitframe) == _FALSE) {
++			RTW_INFO("%s coalesce failed\n", __FUNCTION__);
++			rtw_free_xmitframe(pxmitpriv, pxmitframe);
++			continue;
++		}
++
++#ifdef CONFIG_MCC_MODE
++		/* to calculate packet to write port */
++		rtw_hal_mcc_calc_tx_bytes_to_port(padapter, pxmitframe->pkt->len);
++#endif
++
++
++		/* RTW_INFO("==> pxmitframe->attrib.priority:%d\n",pxmitframe->attrib.priority); */
++		/* always return ndis_packet after rtw_xmitframe_coalesce */
++		rtw_os_xmit_complete(padapter, pxmitframe);
++
++		/* (len - TXDESC_SIZE) == pxmitframe->attrib.last_txcmdsz */
++		update_txdesc(pxmitframe, pxmitframe->buf_addr, pxmitframe->attrib.last_txcmdsz, _TRUE);
++
++		/* don't need xmitframe any more */
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++
++		/* handle pointer and stop condition */
++		pbuf_tail = pbuf + len;
++		pbuf = _RND8(pbuf_tail);
++
++
++		pfirstframe->agg_num++;
++#ifdef CONFIG_TX_EARLY_MODE
++		pxmitpriv->agg_pkt[pfirstframe->agg_num - 1].offset = _RND8(len);
++		pxmitpriv->agg_pkt[pfirstframe->agg_num - 1].pkt_len = pxmitframe->attrib.last_txcmdsz;
++#endif
++
++#ifdef CONFIG_MCC_MODE
++		if (rtw_hal_mcc_stop_tx_bytes_to_port(padapter))
++			break;
++#endif
++
++		if (MAX_TX_AGG_PACKET_NUMBER == pfirstframe->agg_num)
++			break;
++
++		if (pbuf < bulkPtr) {
++			descCount++;
++			if (descCount == pHalData->UsbTxAggDescNum)
++				break;
++		} else {
++			descCount = 0;
++			bulkPtr = ((pbuf / bulkSize) + 1) * bulkSize;
++		}
++	} /* end while( aggregate same priority and same DA(AP or STA) frames) */
++	if (_rtw_queue_empty(&ptxservq->sta_pending) == _TRUE)
++		rtw_list_delete(&ptxservq->tx_pending);
++	else if (single_sta_in_queue == _FALSE) {
++		/* Re-arrange the order of stations in this ac queue to balance the service for these stations */
++		rtw_list_delete(&ptxservq->tx_pending);
++		rtw_list_insert_tail(&ptxservq->tx_pending, get_list_head(phwxmit->sta_queue));
++	}
++
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++agg_end:
++#ifdef CONFIG_80211N_HT
++	if ((pfirstframe->attrib.ether_type != 0x0806) &&
++	    (pfirstframe->attrib.ether_type != 0x888e) &&
++	    (pfirstframe->attrib.ether_type != 0x88b4) &&
++	    (pfirstframe->attrib.dhcp_pkt != 1))
++		rtw_issue_addbareq_cmd(padapter, pfirstframe);
++#endif /* CONFIG_80211N_HT */
++#ifndef CONFIG_USE_USB_BUFFER_ALLOC_TX
++	/* 3 3. update first frame txdesc */
++	if ((PACKET_OFFSET_SZ != 0) && ((pbuf_tail % bulkSize) == 0)) {
++		/* remove pkt_offset */
++		pbuf_tail -= PACKET_OFFSET_SZ;
++		pfirstframe->buf_addr += PACKET_OFFSET_SZ;
++		pfirstframe->pkt_offset--;
++		/* RTW_INFO("$$$$$ buf size equal to USB block size $$$$$$\n"); */
++	}
++#endif /* CONFIG_USE_USB_BUFFER_ALLOC_TX */
++
++	update_txdesc(pfirstframe, pfirstframe->buf_addr, pfirstframe->attrib.last_txcmdsz, _TRUE);
++
++#ifdef CONFIG_TX_EARLY_MODE
++	/* prepare EM info for first frame, agg_num value start from 1 */
++	pxmitpriv->agg_pkt[0].offset = _RND8(pfirstframe->attrib.last_txcmdsz + TXDESC_SIZE + (pfirstframe->pkt_offset * PACKET_OFFSET_SZ));
++	pxmitpriv->agg_pkt[0].pkt_len = pfirstframe->attrib.last_txcmdsz;/* get from rtw_xmitframe_coalesce			 */
++
++	UpdateEarlyModeInfo8812(pxmitpriv, pxmitbuf);
++#endif
++
++	/* 3 4. write xmit buffer to USB FIFO */
++	ff_hwaddr = rtw_get_ff_hwaddr(pfirstframe);
++	/* RTW_INFO("%s ===================================== write port,buf_size(%d)\n",__FUNCTION__,pbuf_tail); */
++	/* xmit address == ((xmit_frame*)pxmitbuf->priv_data)->buf_addr */
++	rtw_write_port(padapter, ff_hwaddr, pbuf_tail, (u8 *)pxmitbuf);
++
++
++	/* 3 5. update statisitc */
++	pbuf_tail -= (pfirstframe->agg_num * TXDESC_SIZE);
++	pbuf_tail -= (pfirstframe->pkt_offset * PACKET_OFFSET_SZ);
++
++
++	rtw_count_tx_stats(padapter, pfirstframe, pbuf_tail);
++
++	rtw_free_xmitframe(pxmitpriv, pfirstframe);
++
++	return _TRUE;
++}
++
++#else
++
++s32 rtl8812au_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf)
++{
++
++	struct hw_xmit *phwxmits;
++	sint hwentry;
++	struct xmit_frame *pxmitframe = NULL;
++	int res = _SUCCESS, xcnt = 0;
++
++	phwxmits = pxmitpriv->hwxmits;
++	hwentry = pxmitpriv->hwxmit_entry;
++
++
++	if (pxmitbuf == NULL) {
++		pxmitbuf = rtw_alloc_xmitbuf(pxmitpriv);
++		if (!pxmitbuf)
++			return _FALSE;
++	}
++
++
++	do {
++		pxmitframe =  rtw_dequeue_xframe(pxmitpriv, phwxmits, hwentry);
++
++		if (pxmitframe) {
++			pxmitframe->pxmitbuf = pxmitbuf;
++
++			pxmitframe->buf_addr = pxmitbuf->pbuf;
++
++			pxmitbuf->priv_data = pxmitframe;
++
++			if ((pxmitframe->frame_tag & 0x0f) == DATA_FRAMETAG) {
++				if (pxmitframe->attrib.priority <= 15) /* TID0~15 */
++					res = rtw_xmitframe_coalesce(padapter, pxmitframe->pkt, pxmitframe);
++				/* RTW_INFO("==> pxmitframe->attrib.priority:%d\n",pxmitframe->attrib.priority); */
++				rtw_os_xmit_complete(padapter, pxmitframe);/* always return ndis_packet after rtw_xmitframe_coalesce			 */
++			}
++
++
++
++
++			if (res == _SUCCESS)
++				rtw_dump_xframe(padapter, pxmitframe);
++			else {
++				rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++				rtw_free_xmitframe(pxmitpriv, pxmitframe);
++			}
++
++			xcnt++;
++
++		} else {
++			rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++			return _FALSE;
++		}
++
++		break;
++
++	} while (0/*xcnt < (NR_XMITFRAME >> 3)*/);
++
++	return _TRUE;
++
++}
++#endif
++
++
++
++static s32 xmitframe_direct(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	s32 res = _SUCCESS;
++	/* RTW_INFO("==> %s\n",__FUNCTION__); */
++
++	res = rtw_xmitframe_coalesce(padapter, pxmitframe->pkt, pxmitframe);
++	if (res == _SUCCESS)
++		rtw_dump_xframe(padapter, pxmitframe);
++	else
++		RTW_INFO("==> %s xmitframe_coalsece failed\n", __FUNCTION__);
++
++	return res;
++}
++
++/*
++ * Return
++ *	_TRUE	dump packet directly
++ *	_FALSE	enqueue packet
++ */
++static s32 pre_xmitframe(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	_irqL irqL;
++	s32 res;
++	struct xmit_buf *pxmitbuf = NULL;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++	if (rtw_txframes_sta_ac_pending(padapter, pattrib) > 0) {
++		/* RTW_INFO("enqueue AC(%d)\n",pattrib->priority); */
++		goto enqueue;
++	}
++
++	if (rtw_xmit_ac_blocked(padapter) == _TRUE)
++		goto enqueue;
++
++	if (padapter->dvobj->iface_state.lg_sta_num)
++		goto enqueue;
++
++	pxmitbuf = rtw_alloc_xmitbuf(pxmitpriv);
++	if (pxmitbuf == NULL)
++		goto enqueue;
++
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++	pxmitframe->pxmitbuf = pxmitbuf;
++	pxmitframe->buf_addr = pxmitbuf->pbuf;
++	pxmitbuf->priv_data = pxmitframe;
++
++	if (xmitframe_direct(padapter, pxmitframe) != _SUCCESS) {
++		rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++	}
++
++	return _TRUE;
++
++enqueue:
++	res = rtw_xmitframe_enqueue(padapter, pxmitframe);
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++
++	if (res != _SUCCESS) {
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++
++		pxmitpriv->tx_drop++;
++		return _TRUE;
++	}
++
++	return _FALSE;
++}
++
++s32 rtl8812au_mgnt_xmit(_adapter *padapter, struct xmit_frame *pmgntframe)
++{
++	return rtw_dump_xframe(padapter, pmgntframe);
++}
++
++/*
++ * Return
++ *	_TRUE	dump packet directly ok
++ *	_FALSE	temporary can't transmit packets to hardware
++ */
++s32 rtl8812au_hal_xmit(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	return pre_xmitframe(padapter, pxmitframe);
++}
++
++s32	 rtl8812au_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe)
++{
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	s32 err;
++
++	err = rtw_xmitframe_enqueue(padapter, pxmitframe);
++	if (err != _SUCCESS) {
++		rtw_free_xmitframe(pxmitpriv, pxmitframe);
++
++		pxmitpriv->tx_drop++;
++	} else {
++#ifdef PLATFORM_LINUX
++		tasklet_hi_schedule(&pxmitpriv->xmit_tasklet);
++#endif
++	}
++
++	return err;
++
++}
++
++
++#ifdef CONFIG_HOSTAPD_MLME
++
++static void rtl8812au_hostap_mgnt_xmit_cb(struct urb *urb)
++{
++#ifdef PLATFORM_LINUX
++	struct sk_buff *skb = (struct sk_buff *)urb->context;
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	rtw_skb_free(skb);
++#endif
++}
++
++s32 rtl8812au_hostap_mgnt_xmit_entry(_adapter *padapter, _pkt *pkt)
++{
++#ifdef PLATFORM_LINUX
++	u16 fc;
++	int rc, len, pipe;
++	unsigned int bmcst, tid, qsel;
++	struct sk_buff *skb, *pxmit_skb;
++	struct urb *urb;
++	unsigned char *pxmitbuf;
++	struct tx_desc *ptxdesc;
++	struct rtw_ieee80211_hdr *tx_hdr;
++	struct hostapd_priv *phostapdpriv = padapter->phostapdpriv;
++	struct net_device *pnetdev = padapter->pnetdev;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
++	struct dvobj_priv *pdvobj = adapter_to_dvobj(padapter);
++
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	skb = pkt;
++
++	len = skb->len;
++	tx_hdr = (struct rtw_ieee80211_hdr *)(skb->data);
++	fc = le16_to_cpu(tx_hdr->frame_ctl);
++	bmcst = IS_MCAST(tx_hdr->addr1);
++
++	if ((fc & RTW_IEEE80211_FCTL_FTYPE) != RTW_IEEE80211_FTYPE_MGMT)
++		goto _exit;
++
++	pxmit_skb = rtw_skb_alloc(len + TXDESC_SIZE);
++
++	if (!pxmit_skb)
++		goto _exit;
++
++	pxmitbuf = pxmit_skb->data;
++
++	urb = usb_alloc_urb(0, GFP_ATOMIC);
++	if (!urb)
++		goto _exit;
++
++	/* ----- fill tx desc -----	 */
++	ptxdesc = (struct tx_desc *)pxmitbuf;
++	_rtw_memset(ptxdesc, 0, sizeof(*ptxdesc));
++
++	/* offset 0	 */
++	ptxdesc->txdw0 |= cpu_to_le32(len & 0x0000ffff);
++	ptxdesc->txdw0 |= cpu_to_le32(((TXDESC_SIZE + OFFSET_SZ) << OFFSET_SHT) & 0x00ff0000); /* default = 32 bytes for TX Desc */
++	ptxdesc->txdw0 |= cpu_to_le32(OWN | FSG | LSG);
++
++	if (bmcst)
++		ptxdesc->txdw0 |= cpu_to_le32(BIT(24));
++
++	/* offset 4	 */
++	ptxdesc->txdw1 |= cpu_to_le32(0x00);/* MAC_ID */
++
++	ptxdesc->txdw1 |= cpu_to_le32((0x12 << QSEL_SHT) & 0x00001f00);
++
++	ptxdesc->txdw1 |= cpu_to_le32((0x06 << 16) & 0x000f0000); /* b mode */
++
++	/* offset 8			 */
++
++	/* offset 12		 */
++	ptxdesc->txdw3 |= cpu_to_le32((le16_to_cpu(tx_hdr->seq_ctl) << 16) & 0xffff0000);
++
++	/* offset 16		 */
++	ptxdesc->txdw4 |= cpu_to_le32(BIT(8));/* driver uses rate */
++
++	/* offset 20 */
++
++
++	/* HW append seq */
++	ptxdesc->txdw4 |= cpu_to_le32(BIT(7)); /* Hw set sequence number */
++	ptxdesc->txdw3 |= cpu_to_le32((8 << 28)); /* set bit3 to 1. Suugested by TimChen. 2009.12.29. */
++
++
++	rtl8188eu_cal_txdesc_chksum(ptxdesc);
++	/* ----- end of fill tx desc ----- */
++
++	/*  */
++	skb_put(pxmit_skb, len + TXDESC_SIZE);
++	pxmitbuf = pxmitbuf + TXDESC_SIZE;
++	_rtw_memcpy(pxmitbuf, skb->data, len);
++
++	/* RTW_INFO("mgnt_xmit, len=%x\n", pxmit_skb->len); */
++
++
++	/* ----- prepare urb for submit ----- */
++
++	/* translate DMA FIFO addr to pipehandle */
++	/* pipe = ffaddr2pipehdl(pdvobj, MGT_QUEUE_INX); */
++	pipe = usb_sndbulkpipe(pdvobj->pusbdev, pHalData->Queue2EPNum[(u8)MGT_QUEUE_INX] & 0x0f);
++
++	usb_fill_bulk_urb(urb, pdvobj->pusbdev, pipe,
++		pxmit_skb->data, pxmit_skb->len, rtl8192cu_hostap_mgnt_xmit_cb, pxmit_skb);
++
++	urb->transfer_flags |= URB_ZERO_PACKET;
++	usb_anchor_urb(urb, &phostapdpriv->anchored);
++	rc = usb_submit_urb(urb, GFP_ATOMIC);
++	if (rc < 0) {
++		usb_unanchor_urb(urb);
++		kfree_skb(skb);
++	}
++	usb_free_urb(urb);
++
++
++_exit:
++
++	rtw_skb_free(skb);
++
++#endif
++
++	return 0;
++
++}
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/hal/rtl8812a/usb/usb_halinit.c b/drivers/net/wireless/rtl8812au/hal/rtl8812a/usb/usb_halinit.c
+new file mode 100644
+index 0000000..cb7ca50
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/rtl8812a/usb/usb_halinit.c
+@@ -0,0 +1,2675 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HCI_HAL_INIT_C_
++
++/* #include <drv_types.h> */
++#include <rtl8812a_hal.h>
++
++#ifndef CONFIG_USB_HCI
++
++	#error "CONFIG_USB_HCI shall be on!\n"
++
++#endif
++
++
++static void _dbg_dump_macreg(_adapter *padapter)
++{
++	u32 offset = 0;
++	u32 val32 = 0;
++	u32 index = 0 ;
++	for (index = 0; index < 64; index++) {
++		offset = index * 4;
++		val32 = rtw_read32(padapter, offset);
++		RTW_INFO("offset : 0x%02x ,val:0x%08x\n", offset, val32);
++	}
++}
++
++static VOID
++_ConfigChipOutEP_8812(
++	IN	PADAPTER	pAdapter,
++	IN	u8		NumOutPipe
++)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(pAdapter);
++
++
++	pHalData->OutEpQueueSel = 0;
++	pHalData->OutEpNumber = 0;
++
++	switch (NumOutPipe) {
++	case	4:
++		pHalData->OutEpQueueSel = TX_SELE_HQ | TX_SELE_LQ | TX_SELE_NQ;
++		pHalData->OutEpNumber = 4;
++		break;
++	case	3:
++		pHalData->OutEpQueueSel = TX_SELE_HQ | TX_SELE_LQ | TX_SELE_NQ;
++		pHalData->OutEpNumber = 3;
++		break;
++	case	2:
++		pHalData->OutEpQueueSel = TX_SELE_HQ | TX_SELE_NQ;
++		pHalData->OutEpNumber = 2;
++		break;
++	case	1:
++		pHalData->OutEpQueueSel = TX_SELE_HQ;
++		pHalData->OutEpNumber = 1;
++		break;
++	default:
++		break;
++
++	}
++	RTW_INFO("%s OutEpQueueSel(0x%02x), OutEpNumber(%d)\n", __FUNCTION__, pHalData->OutEpQueueSel, pHalData->OutEpNumber);
++
++}
++
++static BOOLEAN HalUsbSetQueuePipeMapping8812AUsb(
++	IN	PADAPTER	pAdapter,
++	IN	u8		NumInPipe,
++	IN	u8		NumOutPipe
++)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(pAdapter);
++	BOOLEAN			result		= _FALSE;
++
++	_ConfigChipOutEP_8812(pAdapter, NumOutPipe);
++
++	/* Normal chip with one IN and one OUT doesn't have interrupt IN EP. */
++	if (1 == pHalData->OutEpNumber) {
++		if (1 != NumInPipe)
++			return result;
++	}
++
++	/* All config other than above support one Bulk IN and one Interrupt IN. */
++	/* if(2 != NumInPipe){ */
++	/*	return result; */
++	/* } */
++
++	result = Hal_MappingOutPipe(pAdapter, NumOutPipe);
++
++	return result;
++
++}
++
++void rtl8812au_interface_configure(_adapter *padapter)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(padapter);
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++
++	if (IS_SUPER_SPEED_USB(padapter)) {
++		pHalData->UsbBulkOutSize = USB_SUPER_SPEED_BULK_SIZE;/* 1024 bytes */
++	} else if (IS_HIGH_SPEED_USB(padapter)) {
++		pHalData->UsbBulkOutSize = USB_HIGH_SPEED_BULK_SIZE;/* 512 bytes */
++	} else {
++		pHalData->UsbBulkOutSize = USB_FULL_SPEED_BULK_SIZE;/* 64 bytes */
++	}
++
++	pHalData->interfaceIndex = pdvobjpriv->InterfaceNumber;
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	pHalData->UsbTxAggMode		= 1;
++	pHalData->UsbTxAggDescNum	= 6;	/* only 4 bits */
++
++	if (IS_HARDWARE_TYPE_8812AU(padapter))   /* page added for Jaguar */
++		pHalData->UsbTxAggDescNum	= 0x01 ; /* adjust value for OQT  Overflow issue */ /* 0x3;	 */ /* only 4 bits */
++#endif
++
++#ifdef CONFIG_USB_RX_AGGREGATION
++	if (IS_HARDWARE_TYPE_8812AU(padapter))
++		pHalData->rxagg_mode = RX_AGG_USB;
++	else
++		pHalData->rxagg_mode = RX_AGG_USB; /* todo: change to USB_RX_AGG_DMA */
++	pHalData->rxagg_usb_size	= 8; /* unit: 512b */
++	pHalData->rxagg_usb_timeout	= 0x6;
++	pHalData->rxagg_dma_size	= 16; /* uint: 128b, 0x0A = 10 = MAX_RX_DMA_BUFFER_SIZE/2/pHalData->UsbBulkOutSize */
++	pHalData->rxagg_dma_timeout = 0x6; /* 6, absolute time = 34ms/(2^6) */
++
++	if (IS_SUPER_SPEED_USB(padapter)) {
++		pHalData->rxagg_usb_size = 0x7;
++		pHalData->rxagg_usb_timeout = 0x1a;
++	} else {
++		/* the setting to reduce RX FIFO overflow on USB2.0 and increase rx throughput */
++
++#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++		u32 remainder = 0;
++		u8 quotient = 0;
++
++		remainder = MAX_RECVBUF_SZ % (4 * 1024);
++		quotient = (u8)(MAX_RECVBUF_SZ >> 12);
++
++		if (quotient > 5) {
++			pHalData->rxagg_usb_size = 0x5;
++			pHalData->rxagg_usb_timeout = 0x20;
++		} else {
++			if (remainder >= 2048) {
++				pHalData->rxagg_usb_size = quotient;
++				pHalData->rxagg_usb_timeout = 0x10;
++			} else {
++				pHalData->rxagg_usb_size = (quotient - 1);
++				pHalData->rxagg_usb_timeout = 0x10;
++			}
++		}
++#else /* !CONFIG_PREALLOC_RX_SKB_BUFFER */
++		pHalData->rxagg_usb_size = 0x5;
++		pHalData->rxagg_usb_timeout = 0x20;
++#endif /* CONFIG_PREALLOC_RX_SKB_BUFFER */
++
++	}
++#endif /* CONFIG_USB_RX_AGGREGATION */
++
++	HalUsbSetQueuePipeMapping8812AUsb(padapter,
++			  pdvobjpriv->RtNumInPipes, pdvobjpriv->RtNumOutPipes);
++
++}
++
++static VOID
++_InitBurstPktLen(IN PADAPTER Adapter)
++{
++	u1Byte speedvalue, provalue, temp;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++
++	/* rtw_write16(Adapter, REG_TRXDMA_CTRL_8195, 0xf5b0); */
++	/* rtw_write16(Adapter, REG_TRXDMA_CTRL_8812, 0xf5b4); */
++	rtw_write8(Adapter, 0xf050, 0x01);  /* usb3 rx interval */
++	rtw_write16(Adapter, REG_RXDMA_STATUS, 0x7400);  /* burset lenght=4, set 0x3400 for burset length=2 */
++	rtw_write8(Adapter, 0x289, 0xf5);				/* for rxdma control */
++	/* rtw_write8(Adapter, 0x3a, 0x46); */
++
++	/* 0x456 = 0x70, sugguested by Zhilin */
++	if (IS_HARDWARE_TYPE_8821U(Adapter))
++		rtw_write8(Adapter, REG_AMPDU_MAX_TIME_8812, 0x5e);
++	else
++		rtw_write8(Adapter, REG_AMPDU_MAX_TIME_8812, 0x70);
++
++	rtw_write32(Adapter, REG_AMPDU_MAX_LENGTH_8812, 0xffffffff);
++	rtw_write8(Adapter, REG_USTIME_TSF, 0x50);
++	rtw_write8(Adapter, REG_USTIME_EDCA, 0x50);
++
++	if (IS_HARDWARE_TYPE_8821U(Adapter))
++		speedvalue = BIT7;
++	else
++		speedvalue = rtw_read8(Adapter, 0xff); /* check device operation speed: SS 0xff bit7 */
++
++	if (speedvalue & BIT7) { /* USB2/1.1 Mode */
++		temp = rtw_read8(Adapter, 0xfe17);
++		if (((temp >> 4) & 0x03) == 0) {
++			pHalData->UsbBulkOutSize = USB_HIGH_SPEED_BULK_SIZE;
++			provalue = rtw_read8(Adapter, REG_RXDMA_PRO_8812);
++			rtw_write8(Adapter, REG_RXDMA_PRO_8812, ((provalue | BIT(4) | BIT(3) | BIT(2) | BIT(1)) & (~BIT(5)))); /* set burst pkt len=512B */
++		} else {
++			pHalData->UsbBulkOutSize = 64;
++			provalue = rtw_read8(Adapter, REG_RXDMA_PRO_8812);
++			rtw_write8(Adapter, REG_RXDMA_PRO_8812, ((provalue | BIT(5) | BIT(3) | BIT(2) | BIT(1)) & (~BIT(4)))); /* set burst pkt len=64B */
++		}
++
++		/* rtw_write8(Adapter, 0x10c, 0xb4); */
++		/* hal_UphyUpdate8812AU(Adapter); */
++
++		pHalData->bSupportUSB3 = _FALSE;
++	} else { /* USB3 Mode */
++		pHalData->UsbBulkOutSize = USB_SUPER_SPEED_BULK_SIZE;
++		provalue = rtw_read8(Adapter, REG_RXDMA_PRO_8812);
++		rtw_write8(Adapter, REG_RXDMA_PRO_8812, ((provalue | BIT(3) | BIT(2) | BIT(1)) & (~(BIT5 | BIT4)))); /* set burst pkt len=1k */
++		/* PlatformEFIOWrite2Byte(Adapter, REG_RXDMA_AGG_PG_TH,0x0a05); */ /* dmc agg th 20K */
++		pHalData->bSupportUSB3 = _TRUE;
++
++		/* set Reg 0xf008[3:4] to 2'00 to disable U1/U2 Mode to avoid 2.5G spur in USB3.0. added by page, 20120712 */
++		rtw_write8(Adapter, 0xf008, rtw_read8(Adapter, 0xf008) & 0xE7);
++	}
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++	/* rtw_write8(Adapter, REG_TDECTRL_8195, 0x30); */
++#else
++	rtw_write8(Adapter, REG_TDECTRL, 0x10);
++#endif
++
++	temp = rtw_read8(Adapter, REG_SYS_FUNC_EN);
++	rtw_write8(Adapter, REG_SYS_FUNC_EN, temp & (~BIT(10))); /* reset 8051 */
++
++	rtw_write8(Adapter, REG_HT_SINGLE_AMPDU_8812, rtw_read8(Adapter, REG_HT_SINGLE_AMPDU_8812) | BIT(7)); /* enable single pkt ampdu */
++	rtw_write8(Adapter, REG_RX_PKT_LIMIT, 0x18);		/* for VHT packet length 11K */
++
++	rtw_write8(Adapter, REG_PIFS, 0x00);
++
++	if (IS_HARDWARE_TYPE_8821U(Adapter) && (Adapter->registrypriv.wifi_spec == _FALSE)) {
++		/* 0x0a0a too small , it can't pass AC logo. change to 0x1f1f */
++		rtw_write16(Adapter, REG_MAX_AGGR_NUM, 0x1f1f);
++		rtw_write8(Adapter, REG_FWHW_TXQ_CTRL, 0x80);
++		rtw_write32(Adapter, REG_FAST_EDCA_CTRL, 0x03087777);
++	} else {
++		rtw_write16(Adapter, REG_MAX_AGGR_NUM, 0x1f1f);
++		rtw_write8(Adapter, REG_FWHW_TXQ_CTRL, rtw_read8(Adapter, REG_FWHW_TXQ_CTRL) & (~BIT(7)));
++	}
++
++	if (pHalData->AMPDUBurstMode)
++		rtw_write8(Adapter, REG_AMPDU_BURST_MODE_8812,  0x5F);
++
++	rtw_write8(Adapter, 0x1c, rtw_read8(Adapter, 0x1c) | BIT(5) | BIT(6)); /* to prevent mac is reseted by bus. 20111208, by Page */
++
++	/* ARFB table 9 for 11ac 5G 2SS */
++	rtw_write32(Adapter, REG_ARFR0_8812, 0x00000010);
++	rtw_write32(Adapter, REG_ARFR0_8812 + 4, 0xfffff000);
++
++	/* ARFB table 10 for 11ac 5G 1SS */
++	rtw_write32(Adapter, REG_ARFR1_8812, 0x00000010);
++	rtw_write32(Adapter, REG_ARFR1_8812 + 4, 0x003ff000);
++
++	/* ARFB table 11 for 11ac 24G 1SS */
++	rtw_write32(Adapter, REG_ARFR2_8812, 0x00000015);
++	rtw_write32(Adapter, REG_ARFR2_8812 + 4, 0x003ff000);
++	/* ARFB table 12 for 11ac 24G 2SS */
++	rtw_write32(Adapter, REG_ARFR3_8812, 0x00000015);
++	rtw_write32(Adapter, REG_ARFR3_8812 + 4, 0xffcff000);
++}
++
++static u32 _InitPowerOn_8812AU(_adapter *padapter)
++{
++	u16	u2btmp = 0;
++	u8	u1btmp = 0;
++	u8	bMacPwrCtrlOn = _FALSE;
++	/* HW Power on sequence */
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_APFM_ON_MAC, &bMacPwrCtrlOn);
++	if (bMacPwrCtrlOn == _TRUE)
++		return _SUCCESS;
++
++	if (IS_VENDOR_8821A_MP_CHIP(padapter)) {
++		/* HW Power on sequence */
++		if (!HalPwrSeqCmdParsing(padapter, PWR_CUT_A_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, Rtl8821A_NIC_ENABLE_FLOW)) {
++			RTW_ERR("%s: run power on flow fail\n", __func__);
++			return _FAIL;
++		}
++	} else if (IS_HARDWARE_TYPE_8821U(padapter)) {
++		if (!HalPwrSeqCmdParsing(padapter, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, Rtl8821A_NIC_ENABLE_FLOW)) {
++			RTW_ERR("%s: run power on flow fail\n", __func__);
++			return _FAIL;
++		}
++	} else {
++		if (!HalPwrSeqCmdParsing(padapter, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, Rtl8812_NIC_ENABLE_FLOW)) {
++			RTW_ERR("%s: run power on flow fail\n", __func__);
++			return _FAIL;
++		}
++	}
++
++	/* Enable MAC DMA/WMAC/SCHEDULE/SEC block */
++	/* Set CR bit10 to enable 32k calibration. Suggested by SD1 Gimmy. Added by tynli. 2011.08.31. */
++	rtw_write16(padapter, REG_CR, 0x00);  /* suggseted by zhouzhou, by page, 20111230 */
++	u2btmp = rtw_read16(padapter, REG_CR);
++	u2btmp |= (HCI_TXDMA_EN | HCI_RXDMA_EN | TXDMA_EN | RXDMA_EN
++		   | PROTOCOL_EN | SCHEDULE_EN | ENSEC | CALTMR_EN);
++	rtw_write16(padapter, REG_CR, u2btmp);
++
++	/* Need remove below furture, suggest by Jackie. */
++	/* if 0xF0[24] =1 (LDO), need to set the 0x7C[6] to 1. */
++	if (IS_HARDWARE_TYPE_8821U(padapter)) {
++		u1btmp = rtw_read8(padapter, REG_SYS_CFG + 3);
++		if (u1btmp & BIT0) { /* LDO mode. */
++			u1btmp = rtw_read8(padapter, 0x7c);
++			rtw_write8(padapter, 0x7c, u1btmp | BIT6);
++		}
++	}
++	bMacPwrCtrlOn = _TRUE;
++	rtw_hal_set_hwreg(padapter, HW_VAR_APFM_ON_MAC, &bMacPwrCtrlOn);
++
++	return _SUCCESS;
++}
++
++
++
++
++
++/* ---------------------------------------------------------------
++ *
++ *	MAC init functions
++ *
++ * --------------------------------------------------------------- */
++
++/* Shall USB interface init this? */
++static VOID
++_InitInterrupt_8812AU(
++	IN  PADAPTER Adapter
++)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(Adapter);
++	u8 usb_opt;
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++	struct dvobj_priv *pdev = adapter_to_dvobj(Adapter);
++#endif
++
++	/* HIMR */
++	rtw_write32(Adapter, REG_HIMR0_8812, pHalData->IntrMask[0] & 0xFFFFFFFF);
++	rtw_write32(Adapter, REG_HIMR1_8812, pHalData->IntrMask[1] & 0xFFFFFFFF);
++
++#ifdef CONFIG_SUPPORT_USB_INT
++	/* REG_USB_SPECIAL_OPTION - BIT(4)*/
++	/* 0; Use interrupt endpoint to upload interrupt pkt*/
++	/* 1; Use bulk endpoint to upload interrupt pkt,*/
++	usb_opt = rtw_read8(Adapter, REG_USB_SPECIAL_OPTION);
++
++	if ((IS_FULL_SPEED_USB(Adapter))
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++	    || (pdev->RtInPipe[REALTEK_USB_IN_INT_EP_IDX] == 0x07)
++#endif
++	   )
++		usb_opt = usb_opt & (~INT_BULK_SEL);
++	else
++		usb_opt = usb_opt | (INT_BULK_SEL);
++
++	rtw_write8(Adapter, REG_USB_SPECIAL_OPTION, usb_opt);
++
++#endif/*CONFIG_SUPPORT_USB_INT*/
++}
++
++static VOID
++_InitQueueReservedPage_8821AUsb(
++	IN  PADAPTER Adapter
++)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	struct registry_priv	*pregistrypriv = &Adapter->registrypriv;
++	u32			numHQ		= 0;
++	u32			numLQ		= 0;
++	u32			numNQ		= 0;
++	u32			numPubQ	= 0;
++	u32			value32;
++	u8			value8;
++	BOOLEAN			bWiFiConfig	= pregistrypriv->wifi_spec;
++#ifdef CONFIG_MCC_MODE
++	u8 en_mcc = pregistrypriv->en_mcc;
++#else /* !CONFIG_MCC_MODE */
++	u8 en_mcc = _FALSE;
++#endif /* CONFIG_MCC_MODE */
++
++	if (bWiFiConfig) {
++		/* wifi test case */
++		if (pHalData->OutEpQueueSel & TX_SELE_HQ)
++			numHQ = WMM_NORMAL_PAGE_NUM_HPQ_8821;
++		if (pHalData->OutEpQueueSel & TX_SELE_LQ)
++			numLQ = WMM_NORMAL_PAGE_NUM_LPQ_8821;
++		if (pHalData->OutEpQueueSel & TX_SELE_NQ)
++			numNQ = WMM_NORMAL_PAGE_NUM_NPQ_8821;
++	} else if (en_mcc) {
++		/* mcc case */
++		if (pHalData->OutEpQueueSel & TX_SELE_HQ)
++			numHQ = MCC_NORMAL_PAGE_NUM_HPQ_8821;
++		if (pHalData->OutEpQueueSel & TX_SELE_LQ)
++			numLQ = MCC_NORMAL_PAGE_NUM_LPQ_8821;
++		if (pHalData->OutEpQueueSel & TX_SELE_NQ)
++			numNQ = MCC_NORMAL_PAGE_NUM_NPQ_8821;
++	} else {
++		/* narmal case */
++		if (pHalData->OutEpQueueSel & TX_SELE_HQ)
++			numHQ = NORMAL_PAGE_NUM_HPQ_8821;
++		if (pHalData->OutEpQueueSel & TX_SELE_LQ)
++			numLQ = NORMAL_PAGE_NUM_LPQ_8821;
++		if (pHalData->OutEpQueueSel & TX_SELE_NQ)
++			numNQ = NORMAL_PAGE_NUM_NPQ_8821;
++	}
++
++	numPubQ = TX_TOTAL_PAGE_NUMBER_8821 - numHQ - numLQ - numNQ;
++
++	value8 = (u8)_NPQ(numNQ);
++	rtw_write8(Adapter, REG_RQPN_NPQ, value8);
++
++	/* TX DMA RQPN */
++	value32 = _HPQ(numHQ) | _LPQ(numLQ) | _PUBQ(numPubQ) | LD_RQPN;
++	rtw_write32(Adapter, REG_RQPN, value32);
++}
++
++static VOID
++_InitQueueReservedPage_8812AUsb(
++	IN  PADAPTER Adapter
++)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	struct registry_priv	*pregistrypriv = &Adapter->registrypriv;
++	u32			numHQ		= 0;
++	u32			numLQ		= 0;
++	u32			numNQ		= 0;
++	u32			numPubQ	= 0;
++	u32			value32;
++	u8			value8;
++	BOOLEAN			bWiFiConfig	= pregistrypriv->wifi_spec;
++
++	if (!bWiFiConfig) {
++		if (pHalData->OutEpQueueSel & TX_SELE_HQ)
++			numHQ = NORMAL_PAGE_NUM_HPQ_8812;
++
++		if (pHalData->OutEpQueueSel & TX_SELE_LQ)
++			numLQ = NORMAL_PAGE_NUM_LPQ_8812;
++
++		/* NOTE: This step shall be proceed before writting REG_RQPN.		 */
++		if (pHalData->OutEpQueueSel & TX_SELE_NQ)
++			numNQ = NORMAL_PAGE_NUM_NPQ_8812;
++	} else {
++		/* WMM		 */
++		if (pHalData->OutEpQueueSel & TX_SELE_HQ)
++			numHQ = WMM_NORMAL_PAGE_NUM_HPQ_8812;
++
++		if (pHalData->OutEpQueueSel & TX_SELE_LQ)
++			numLQ = WMM_NORMAL_PAGE_NUM_LPQ_8812;
++
++		/* NOTE: This step shall be proceed before writting REG_RQPN.		 */
++		if (pHalData->OutEpQueueSel & TX_SELE_NQ)
++			numNQ = WMM_NORMAL_PAGE_NUM_NPQ_8812;
++	}
++
++	numPubQ = TX_TOTAL_PAGE_NUMBER_8812 - numHQ - numLQ - numNQ;
++
++	value8 = (u8)_NPQ(numNQ);
++	rtw_write8(Adapter, REG_RQPN_NPQ, value8);
++
++	/* TX DMA */
++	value32 = _HPQ(numHQ) | _LPQ(numLQ) | _PUBQ(numPubQ) | LD_RQPN;
++	rtw_write32(Adapter, REG_RQPN, value32);
++}
++
++static VOID
++_InitTxBufferBoundary_8821AUsb(
++	IN PADAPTER Adapter
++)
++{
++	struct registry_priv *pregistrypriv = &Adapter->registrypriv;
++	u8	txpktbuf_bndy;
++
++	if (!pregistrypriv->wifi_spec)
++		txpktbuf_bndy = TX_PAGE_BOUNDARY_8821;
++	else {
++		/* for WMM */
++		txpktbuf_bndy = WMM_NORMAL_TX_PAGE_BOUNDARY_8821;
++	}
++
++	rtw_write8(Adapter, REG_BCNQ_BDNY, txpktbuf_bndy);
++	rtw_write8(Adapter, REG_MGQ_BDNY, txpktbuf_bndy);
++	rtw_write8(Adapter, REG_WMAC_LBK_BF_HD, txpktbuf_bndy);
++	rtw_write8(Adapter, REG_TRXFF_BNDY, txpktbuf_bndy);
++	rtw_write8(Adapter, REG_TDECTRL + 1, txpktbuf_bndy);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	rtw_write8(Adapter, REG_BCNQ1_BDNY, txpktbuf_bndy + 8);
++	rtw_write8(Adapter, REG_DWBCN1_CTRL_8812 + 1, txpktbuf_bndy + 8); /* BCN1_HEAD */
++	/* BIT1- BIT_SW_BCN_SEL_EN */
++	rtw_write8(Adapter, REG_DWBCN1_CTRL_8812 + 2, rtw_read8(Adapter, REG_DWBCN1_CTRL_8812 + 2) | BIT1);
++#endif
++
++}
++
++static VOID
++_InitTxBufferBoundary_8812AUsb(
++	IN PADAPTER Adapter
++)
++{
++	struct registry_priv *pregistrypriv = &Adapter->registrypriv;
++	u8	txpktbuf_bndy;
++
++	if (!pregistrypriv->wifi_spec)
++		txpktbuf_bndy = TX_PAGE_BOUNDARY_8812;
++	else {
++		/* for WMM */
++		txpktbuf_bndy = WMM_NORMAL_TX_PAGE_BOUNDARY_8812;
++	}
++
++	rtw_write8(Adapter, REG_BCNQ_BDNY, txpktbuf_bndy);
++	rtw_write8(Adapter, REG_MGQ_BDNY, txpktbuf_bndy);
++	rtw_write8(Adapter, REG_WMAC_LBK_BF_HD, txpktbuf_bndy);
++	rtw_write8(Adapter, REG_TRXFF_BNDY, txpktbuf_bndy);
++	rtw_write8(Adapter, REG_TDECTRL + 1, txpktbuf_bndy);
++
++}
++
++static VOID
++_InitPageBoundary_8812AUsb(
++	IN  PADAPTER Adapter
++)
++{
++	/* u2Byte 			rxff_bndy; */
++	/* u2Byte			Offset; */
++	/* BOOLEAN			bSupportRemoteWakeUp; */
++
++	/* Adapter->HalFunc.GetHalDefVarHandler(Adapter, HAL_DEF_WOWLAN , &bSupportRemoteWakeUp); */
++	/* RX Page Boundary */
++	/* srand(static_cast<unsigned int>(time(NULL)) ); */
++
++	/*	Offset = MAX_RX_DMA_BUFFER_SIZE_8812/256;
++	 *	rxff_bndy = (Offset*256)-1; */
++
++	if (IS_HARDWARE_TYPE_8812(Adapter))
++		rtw_write16(Adapter, (REG_TRXFF_BNDY + 2), RX_DMA_BOUNDARY_8812);
++	else
++		rtw_write16(Adapter, (REG_TRXFF_BNDY + 2), RX_DMA_BOUNDARY_8821);
++
++}
++
++
++static VOID
++_InitNormalChipRegPriority_8812AUsb(
++	IN	PADAPTER	Adapter,
++	IN	u16		beQ,
++	IN	u16		bkQ,
++	IN	u16		viQ,
++	IN	u16		voQ,
++	IN	u16		mgtQ,
++	IN	u16		hiQ
++)
++{
++	u16 value16	= (rtw_read16(Adapter, REG_TRXDMA_CTRL) & 0x7);
++
++	value16 |=	_TXDMA_BEQ_MAP(beQ)	| _TXDMA_BKQ_MAP(bkQ) |
++			_TXDMA_VIQ_MAP(viQ)	| _TXDMA_VOQ_MAP(voQ) |
++			_TXDMA_MGQ_MAP(mgtQ) | _TXDMA_HIQ_MAP(hiQ);
++
++	rtw_write16(Adapter, REG_TRXDMA_CTRL, value16);
++}
++
++static VOID
++_InitNormalChipTwoOutEpPriority_8812AUsb(
++	IN	PADAPTER Adapter
++)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(Adapter);
++	struct registry_priv *pregistrypriv = &Adapter->registrypriv;
++	u16			beQ, bkQ, viQ, voQ, mgtQ, hiQ;
++
++
++	u16	valueHi = 0;
++	u16	valueLow = 0;
++
++	switch (pHalData->OutEpQueueSel) {
++	case (TX_SELE_HQ | TX_SELE_LQ):
++		valueHi = QUEUE_HIGH;
++		valueLow = QUEUE_LOW;
++		break;
++	case (TX_SELE_NQ | TX_SELE_LQ):
++		valueHi = QUEUE_NORMAL;
++		valueLow = QUEUE_LOW;
++		break;
++	case (TX_SELE_HQ | TX_SELE_NQ):
++		valueHi = QUEUE_HIGH;
++		valueLow = QUEUE_NORMAL;
++		break;
++	default:
++		valueHi = QUEUE_HIGH;
++		valueLow = QUEUE_NORMAL;
++		break;
++	}
++
++	if (!pregistrypriv->wifi_spec) {
++		beQ		= valueLow;
++		bkQ		= valueLow;
++		viQ		= valueHi;
++		voQ		= valueHi;
++		mgtQ	= valueHi;
++		hiQ		= valueHi;
++	} else { /* for WMM ,CONFIG_OUT_EP_WIFI_MODE */
++		beQ		= valueLow;
++		bkQ		= valueHi;
++		viQ		= valueHi;
++		voQ		= valueLow;
++		mgtQ	= valueHi;
++		hiQ		= valueHi;
++	}
++
++	_InitNormalChipRegPriority_8812AUsb(Adapter, beQ, bkQ, viQ, voQ, mgtQ, hiQ);
++
++}
++
++static VOID
++_InitNormalChipThreeOutEpPriority_8812AUsb(
++	IN	PADAPTER Adapter
++)
++{
++	struct registry_priv *pregistrypriv = &Adapter->registrypriv;
++	u16			beQ, bkQ, viQ, voQ, mgtQ, hiQ;
++
++	if (!pregistrypriv->wifi_spec) { /* typical setting */
++		beQ		= QUEUE_LOW;
++		bkQ		= QUEUE_LOW;
++		viQ		= QUEUE_NORMAL;
++		voQ		= QUEUE_HIGH;
++		mgtQ	= QUEUE_HIGH;
++		hiQ		= QUEUE_HIGH;
++	} else { /* for WMM */
++		beQ		= QUEUE_LOW;
++		bkQ		= QUEUE_NORMAL;
++		viQ		= QUEUE_NORMAL;
++		voQ		= QUEUE_HIGH;
++		mgtQ	= QUEUE_HIGH;
++		hiQ		= QUEUE_HIGH;
++	}
++	_InitNormalChipRegPriority_8812AUsb(Adapter, beQ, bkQ, viQ, voQ, mgtQ, hiQ);
++}
++
++static VOID
++_InitQueuePriority_8812AUsb(
++	IN	PADAPTER Adapter
++)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(Adapter);
++
++	switch (pHalData->OutEpNumber) {
++	case 2:
++		_InitNormalChipTwoOutEpPriority_8812AUsb(Adapter);
++		break;
++	case 3:
++	case 4:
++		_InitNormalChipThreeOutEpPriority_8812AUsb(Adapter);
++		break;
++	default:
++		RTW_INFO("_InitQueuePriority_8812AUsb(): Shall not reach here!\n");
++		break;
++	}
++}
++
++
++
++static VOID
++_InitHardwareDropIncorrectBulkOut_8812A(
++	IN  PADAPTER Adapter
++)
++{
++#ifdef ENABLE_USB_DROP_INCORRECT_OUT
++	u32	value32 = rtw_read32(Adapter, REG_TXDMA_OFFSET_CHK);
++	value32 |= DROP_DATA_EN;
++	rtw_write32(Adapter, REG_TXDMA_OFFSET_CHK, value32);
++#endif
++}
++
++static VOID
++_InitNetworkType_8812A(
++	IN  PADAPTER Adapter
++)
++{
++	u32	value32;
++
++	value32 = rtw_read32(Adapter, REG_CR);
++	/* TODO: use the other function to set network type */
++	value32 = (value32 & ~MASK_NETTYPE) | _NETTYPE(NT_LINK_AP);
++
++	rtw_write32(Adapter, REG_CR, value32);
++}
++
++static VOID
++_InitTransferPageSize_8812AUsb(
++	IN  PADAPTER Adapter
++)
++{
++
++	u8	value8;
++	value8 = _PSTX(PBP_512);
++
++	PlatformEFIOWrite1Byte(Adapter, REG_PBP, value8);
++}
++
++static VOID
++_InitDriverInfoSize_8812A(
++	IN  PADAPTER	Adapter,
++	IN	u8		drvInfoSize
++)
++{
++	rtw_write8(Adapter, REG_RX_DRVINFO_SZ, drvInfoSize);
++}
++
++static VOID
++_InitWMACSetting_8812A(
++	IN  PADAPTER Adapter
++)
++{
++	/* u4Byte			value32; */
++	u16			value16;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	/* pHalData->ReceiveConfig = AAP | APM | AM | AB | APP_ICV | ADF | AMF | APP_FCS | HTC_LOC_CTRL | APP_MIC | APP_PHYSTS; */
++	pHalData->ReceiveConfig =
++		RCR_APM | RCR_AM | RCR_AB | RCR_CBSSID_DATA | RCR_CBSSID_BCN | RCR_APP_ICV | RCR_AMF | RCR_HTC_LOC_CTRL | RCR_APP_MIC | RCR_APP_PHYST_RXFF;
++
++#if (1 == RTL8812A_RX_PACKET_INCLUDE_CRC)
++	pHalData->ReceiveConfig |= ACRC32;
++#endif
++
++#ifdef CONFIG_RX_PACKET_APPEND_FCS
++	pHalData->ReceiveConfig |= RCR_APPFCS;
++#endif
++
++	if (IS_HARDWARE_TYPE_8812AU(Adapter) || IS_HARDWARE_TYPE_8821U(Adapter))
++		pHalData->ReceiveConfig |= FORCEACK;
++
++	/* some REG_RCR will be modified later by phy_ConfigMACWithHeaderFile() */
++	rtw_write32(Adapter, REG_RCR, pHalData->ReceiveConfig);
++
++	/* Accept all multicast address */
++	rtw_write32(Adapter, REG_MAR, 0xFFFFFFFF);
++	rtw_write32(Adapter, REG_MAR + 4, 0xFFFFFFFF);
++
++
++	/* Accept all data frames */
++	/* value16 = 0xFFFF; */
++	/* rtw_write16(Adapter, REG_RXFLTMAP2, value16); */
++
++	/* 2010.09.08 hpfan */
++	/* Since ADF is removed from RCR, ps-poll will not be indicate to driver, */
++	/* RxFilterMap should mask ps-poll to gurantee AP mode can rx ps-poll. */
++	value16 = BIT10;
++#ifdef CONFIG_BEAMFORMING
++	/* NDPA packet subtype is 0x0101 */
++	value16 |= BIT5;
++#endif/*CONFIG_BEAMFORMING*/
++	rtw_write16(Adapter, REG_RXFLTMAP1, value16);
++
++	/* Accept all management frames */
++	/* value16 = 0xFFFF; */
++	/* rtw_write16(Adapter, REG_RXFLTMAP0, value16); */
++
++	/* enable RX_SHIFT bits */
++	/* rtw_write8(Adapter, REG_TRXDMA_CTRL, rtw_read8(Adapter, REG_TRXDMA_CTRL)|BIT(1));	 */
++
++}
++
++static VOID
++_InitAdaptiveCtrl_8812AUsb(
++	IN  PADAPTER Adapter
++)
++{
++	u16	value16;
++	u32	value32;
++
++	/* Response Rate Set */
++	value32 = rtw_read32(Adapter, REG_RRSR);
++	value32 &= ~RATE_BITMAP_ALL;
++
++	if (Adapter->registrypriv.wireless_mode & WIRELESS_11B)
++		value32 |= RATE_RRSR_CCK_ONLY_1M;
++	else
++		value32 |= RATE_RRSR_WITHOUT_CCK;
++
++	value32 |= RATE_RRSR_CCK_ONLY_1M;
++	rtw_write32(Adapter, REG_RRSR, value32);
++
++	/* CF-END Threshold */
++	/* m_spIoBase->rtw_write8(REG_CFEND_TH, 0x1); */
++
++	/* SIFS (used in NAV) */
++	value16 = _SPEC_SIFS_CCK(0x10) | _SPEC_SIFS_OFDM(0x10);
++	rtw_write16(Adapter, REG_SPEC_SIFS, value16);
++
++	/* Retry Limit */
++	value16 = _LRL(0x30) | _SRL(0x30);
++	rtw_write16(Adapter, REG_RL, value16);
++
++}
++
++static VOID
++_InitEDCA_8812AUsb(
++	IN  PADAPTER Adapter
++)
++{
++	/* Set Spec SIFS (used in NAV) */
++	rtw_write16(Adapter, REG_SPEC_SIFS, 0x100a);
++	rtw_write16(Adapter, REG_MAC_SPEC_SIFS, 0x100a);
++
++	/* Set SIFS for CCK */
++	rtw_write16(Adapter, REG_SIFS_CTX, 0x100a);
++
++	/* Set SIFS for OFDM */
++	rtw_write16(Adapter, REG_SIFS_TRX, 0x100a);
++
++	/* TXOP */
++	rtw_write32(Adapter, REG_EDCA_BE_PARAM, 0x005EA42B);
++	rtw_write32(Adapter, REG_EDCA_BK_PARAM, 0x0000A44F);
++	rtw_write32(Adapter, REG_EDCA_VI_PARAM, 0x005EA324);
++	rtw_write32(Adapter, REG_EDCA_VO_PARAM, 0x002FA226);
++
++	/* 0x50 for 80MHz clock */
++	rtw_write8(Adapter, REG_USTIME_TSF, 0x50);
++	rtw_write8(Adapter, REG_USTIME_EDCA, 0x50);
++}
++
++
++static VOID
++_InitBeaconMaxError_8812A(
++	IN  PADAPTER	Adapter,
++	IN	BOOLEAN		InfraMode
++)
++{
++#ifdef CONFIG_ADHOC_WORKAROUND_SETTING
++	rtw_write8(Adapter, REG_BCN_MAX_ERR, 0xFF);
++#else
++	/* rtw_write8(Adapter, REG_BCN_MAX_ERR, (InfraMode ? 0xFF : 0x10));	 */
++#endif
++}
++
++
++#ifdef CONFIG_LED
++static void _InitHWLed(PADAPTER Adapter)
++{
++	struct led_priv *pledpriv = &(Adapter->ledpriv);
++
++	if (pledpriv->LedStrategy != HW_LED)
++		return;
++
++	/* HW led control
++	 * to do ....
++	 * must consider cases of antenna diversity/ commbo card/solo card/mini card */
++
++}
++#endif /* CONFIG_LED */
++
++static VOID
++_InitRDGSetting_8812A(
++	IN	PADAPTER Adapter
++)
++{
++	rtw_write8(Adapter, REG_RD_CTRL, 0xFF);
++	rtw_write16(Adapter, REG_RD_NAV_NXT, 0x200);
++	rtw_write8(Adapter, REG_RD_RESP_PKT_TH, 0x05);
++}
++
++static VOID
++_InitRetryFunction_8812A(
++	IN  PADAPTER Adapter
++)
++{
++	u8	value8;
++
++	value8 = rtw_read8(Adapter, REG_FWHW_TXQ_CTRL);
++	value8 |= EN_AMPDU_RTY_NEW;
++	rtw_write8(Adapter, REG_FWHW_TXQ_CTRL, value8);
++
++	/* Set ACK timeout */
++	/* rtw_write8(Adapter, REG_ACKTO, 0x40);  */ /* masked by page for BCM IOT issue temporally */
++	rtw_write8(Adapter, REG_ACKTO, 0x80);
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	usb_AggSettingTxUpdate()
++ *
++ * Overview:	Seperate TX/RX parameters update independent for TP detection and
++ *			dynamic TX/RX aggreagtion parameters update.
++ *
++ * Input:			PADAPTER
++ *
++ * Output/Return:	NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	12/10/2010	MHC		Seperate to smaller function.
++ *
++ *---------------------------------------------------------------------------*/
++static VOID
++usb_AggSettingTxUpdate_8812A(
++	IN	PADAPTER			Adapter
++)
++{
++#ifdef CONFIG_USB_TX_AGGREGATION
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u32			value32;
++
++	if (Adapter->registrypriv.wifi_spec)
++		pHalData->UsbTxAggMode = _FALSE;
++
++	if (pHalData->UsbTxAggMode) {
++		value32 = rtw_read32(Adapter, REG_TDECTRL);
++		value32 = value32 & ~(BLK_DESC_NUM_MASK << BLK_DESC_NUM_SHIFT);
++		value32 |= ((pHalData->UsbTxAggDescNum & BLK_DESC_NUM_MASK) << BLK_DESC_NUM_SHIFT);
++
++		rtw_write32(Adapter, REG_DWBCN0_CTRL_8812, value32);
++		if (IS_HARDWARE_TYPE_8821U(Adapter))   /* page added for Jaguar */
++			rtw_write8(Adapter, REG_DWBCN1_CTRL_8812, pHalData->UsbTxAggDescNum << 1);
++	}
++
++#endif
++}	/* usb_AggSettingTxUpdate */
++
++
++/*-----------------------------------------------------------------------------
++ * Function:	usb_AggSettingRxUpdate()
++ *
++ * Overview:	Seperate TX/RX parameters update independent for TP detection and
++ *			dynamic TX/RX aggreagtion parameters update.
++ *
++ * Input:			PADAPTER
++ *
++ * Output/Return:	NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	12/10/2010	MHC		Seperate to smaller function.
++ *
++ *---------------------------------------------------------------------------*/
++static VOID
++usb_AggSettingRxUpdate_8812A(
++	IN	PADAPTER			Adapter
++)
++{
++#ifdef CONFIG_USB_RX_AGGREGATION
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u8			valueDMA;
++	u8			valueUSB;
++
++	valueDMA = rtw_read8(Adapter, REG_TRXDMA_CTRL);
++	switch (pHalData->rxagg_mode) {
++	case RX_AGG_DMA:
++		valueDMA |= RXDMA_AGG_EN;
++		/* 2012/10/26 MH For TX through start rate temp fix. */
++		{
++			u16 temp;
++
++			/* Adjust DMA page and thresh. */
++			temp = pHalData->rxagg_dma_size | (pHalData->rxagg_dma_timeout << 8);
++			rtw_write16(Adapter, REG_RXDMA_AGG_PG_TH, temp);
++			rtw_write8(Adapter, REG_RXDMA_AGG_PG_TH + 3, BIT(7)); /* for dma agg , 0x280[31]¡GBIT_RXDMA_AGG_OLD_MOD, set 1 */
++		}
++		break;
++	case RX_AGG_USB:
++		valueDMA |= RXDMA_AGG_EN;
++		{
++			u16 temp;
++
++			/* Adjust DMA page and thresh. */
++			temp = pHalData->rxagg_usb_size | (pHalData->rxagg_usb_timeout << 8);
++			rtw_write16(Adapter, REG_RXDMA_AGG_PG_TH, temp);
++		}
++		break;
++	case RX_AGG_MIX:
++	case RX_AGG_DISABLE:
++	default:
++		/* TODO: */
++		break;
++	}
++
++	rtw_write8(Adapter, REG_TRXDMA_CTRL, valueDMA);
++#endif
++}	/* usb_AggSettingRxUpdate */
++
++static VOID
++init_UsbAggregationSetting_8812A(
++	IN  PADAPTER Adapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	/* Tx aggregation setting */
++	usb_AggSettingTxUpdate_8812A(Adapter);
++
++	/* Rx aggregation setting */
++	usb_AggSettingRxUpdate_8812A(Adapter);
++
++	/* 201/12/10 MH Add for USB agg mode dynamic switch. */
++	pHalData->UsbRxHighSpeedMode = _FALSE;
++}
++
++/*-----------------------------------------------------------------------------
++ * Function:	USB_AggModeSwitch()
++ *
++ * Overview:	When RX traffic is more than 40M, we need to adjust some parameters to increase
++ *			RX speed by increasing batch indication size. This will decrease TCP ACK speed, we
++ *			need to monitor the influence of FTP/network share.
++ *			For TX mode, we are still ubder investigation.
++ *
++ * Input:		PADAPTER
++ *
++ * Output:		NONE
++ *
++ * Return:		NONE
++ *
++ * Revised History:
++ *	When		Who		Remark
++ *	12/10/2010	MHC		Create Version 0.
++ *
++ *---------------------------------------------------------------------------*/
++VOID
++USB_AggModeSwitch(
++	IN	PADAPTER			Adapter
++)
++{
++#if 0
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	PMGNT_INFO		pMgntInfo = &(Adapter->MgntInfo);
++
++	/* pHalData->UsbRxHighSpeedMode = FALSE; */
++	/* How to measure the RX speed? We assume that when traffic is more than */
++	if (pMgntInfo->bRegAggDMEnable == FALSE) {
++		return;	/* Inf not support. */
++	}
++
++
++	if (pMgntInfo->LinkDetectInfo.bHigherBusyRxTraffic == TRUE &&
++	    pHalData->UsbRxHighSpeedMode == FALSE) {
++		pHalData->UsbRxHighSpeedMode = TRUE;
++	} else if (pMgntInfo->LinkDetectInfo.bHigherBusyRxTraffic == FALSE &&
++		   pHalData->UsbRxHighSpeedMode == TRUE) {
++		pHalData->UsbRxHighSpeedMode = FALSE;
++	} else
++		return;
++
++
++#if USB_RX_AGGREGATION_92C
++	if (pHalData->UsbRxHighSpeedMode == TRUE) {
++		/* 2010/12/10 MH The parameter is tested by SD1 engineer and SD3 channel emulator. */
++		/* USB mode */
++#if (RT_PLATFORM == PLATFORM_LINUX)
++		if (pMgntInfo->LinkDetectInfo.bTxBusyTraffic) {
++			pHalData->RxAggBlockCount	= 16;
++			pHalData->RxAggBlockTimeout	= 7;
++		} else
++#endif
++		{
++			pHalData->RxAggBlockCount	= 40;
++			pHalData->RxAggBlockTimeout	= 5;
++		}
++		/* Mix mode */
++		pHalData->RxAggPageCount	= 72;
++		pHalData->RxAggPageTimeout	= 6;
++	} else {
++		/* USB mode */
++		pHalData->RxAggBlockCount	= pMgntInfo->RegRxAggBlockCount;
++		pHalData->RxAggBlockTimeout	= pMgntInfo->RegRxAggBlockTimeout;
++		/* Mix mode */
++		pHalData->RxAggPageCount		= pMgntInfo->RegRxAggPageCount;
++		pHalData->RxAggPageTimeout	= pMgntInfo->RegRxAggPageTimeout;
++	}
++
++	if (pHalData->RxAggBlockCount > MAX_RX_AGG_BLKCNT)
++		pHalData->RxAggBlockCount = MAX_RX_AGG_BLKCNT;
++#if (OS_WIN_FROM_VISTA(OS_VERSION)) || (RT_PLATFORM == PLATFORM_LINUX)	/* do not support WINXP to prevent usbehci.sys BSOD */
++	if (IS_WIRELESS_MODE_N_24G(Adapter) || IS_WIRELESS_MODE_N_5G(Adapter)) {
++		/*  */
++		/* 2010/12/24 MH According to V1012 QC IOT test, XP BSOD happen when running chariot test */
++		/* with the aggregation dynamic change!! We need to disable the function to prevent it is broken */
++		/* in usbehci.sys. */
++		/*  */
++		usb_AggSettingRxUpdate_8188E(Adapter);
++
++		/* 2010/12/27 MH According to designer's suggstion, we can only modify Timeout value. Otheriwse */
++		/* there might many HW incorrect behavior, the XP BSOD at usbehci.sys may be relative to the */
++		/* issue. Base on the newest test, we can not enable block cnt > 30, otherwise XP usbehci.sys may */
++		/* BSOD. */
++	}
++#endif
++
++#endif
++#endif
++}	/* USB_AggModeSwitch */
++
++static VOID
++_InitOperationMode_8812A(
++	IN	PADAPTER			Adapter
++)
++{
++#if 0/* gtest */
++	PHAL_DATA_TYPE	pHalData = GET_HAL_DATA(Adapter);
++	u1Byte				regBwOpMode = 0;
++	u4Byte				regRATR = 0, regRRSR = 0;
++
++
++	/* 1 This part need to modified according to the rate set we filtered!! */
++	/*  */
++	/* Set RRSR, RATR, and REG_BWOPMODE registers */
++	/*  */
++	switch (Adapter->RegWirelessMode) {
++	case WIRELESS_MODE_B:
++		regBwOpMode = BW_OPMODE_20MHZ;
++		regRATR = RATE_ALL_CCK;
++		regRRSR = RATE_ALL_CCK;
++		break;
++	case WIRELESS_MODE_A:
++		regBwOpMode = BW_OPMODE_5G | BW_OPMODE_20MHZ;
++		regRATR = RATE_ALL_OFDM_AG;
++		regRRSR = RATE_ALL_OFDM_AG;
++		break;
++	case WIRELESS_MODE_G:
++		regBwOpMode = BW_OPMODE_20MHZ;
++		regRATR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
++		regRRSR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
++		break;
++	case WIRELESS_MODE_AUTO:
++		if (Adapter->bInHctTest) {
++			regBwOpMode = BW_OPMODE_20MHZ;
++			regRATR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
++			regRRSR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
++		} else {
++			regBwOpMode = BW_OPMODE_20MHZ;
++			regRATR = RATE_ALL_CCK | RATE_ALL_OFDM_AG | RATE_ALL_OFDM_1SS | RATE_ALL_OFDM_2SS;
++			regRRSR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
++		}
++		break;
++	case WIRELESS_MODE_N_24G:
++		/* It support CCK rate by default. */
++		/* CCK rate will be filtered out only when associated AP does not support it. */
++		regBwOpMode = BW_OPMODE_20MHZ;
++		regRATR = RATE_ALL_CCK | RATE_ALL_OFDM_AG | RATE_ALL_OFDM_1SS | RATE_ALL_OFDM_2SS;
++		regRRSR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
++		break;
++	case WIRELESS_MODE_N_5G:
++		regBwOpMode = BW_OPMODE_5G;
++		regRATR = RATE_ALL_OFDM_AG | RATE_ALL_OFDM_1SS | RATE_ALL_OFDM_2SS;
++		regRRSR = RATE_ALL_OFDM_AG;
++		break;
++
++	default: /* for MacOSX compiler warning. */
++		break;
++	}
++
++	/* Ziv ???????? */
++	/* PlatformEFIOWrite4Byte(Adapter, REG_INIRTS_RATE_SEL, regRRSR); */
++	PlatformEFIOWrite1Byte(Adapter, REG_BWOPMODE, regBwOpMode);
++#endif
++}
++
++
++/* Set CCK and OFDM Block "ON" */
++static VOID _BBTurnOnBlock(
++	IN	PADAPTER		Adapter
++)
++{
++#if (DISABLE_BB_RF)
++	return;
++#endif
++
++	PHY_SetBBReg(Adapter, rFPGA0_RFMOD, bCCKEn, 0x1);
++	PHY_SetBBReg(Adapter, rFPGA0_RFMOD, bOFDMEn, 0x1);
++}
++
++static VOID _RfPowerSave(
++	IN	PADAPTER		Adapter
++)
++{
++#if 0
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(Adapter);
++	PMGNT_INFO		pMgntInfo	= &(Adapter->MgntInfo);
++	u1Byte			eRFPath;
++
++#if (DISABLE_BB_RF)
++	return;
++#endif
++
++	if (pMgntInfo->RegRfOff == TRUE) { /* User disable RF via registry. */
++		MgntActSet_RF_State(Adapter, eRfOff, RF_CHANGE_BY_SW);
++		/* Those action will be discard in MgntActSet_RF_State because off the same state */
++		for (eRFPath = 0; eRFPath < pHalData->NumTotalRFPath; eRFPath++)
++			PHY_SetRFReg(Adapter, eRFPath, 0x4, 0xC00, 0x0);
++	} else if (pMgntInfo->RfOffReason > RF_CHANGE_BY_PS) { /* H/W or S/W RF OFF before sleep. */
++		MgntActSet_RF_State(Adapter, eRfOff, pMgntInfo->RfOffReason);
++	} else {
++		pHalData->eRFPowerState = eRfOn;
++		pMgntInfo->RfOffReason = 0;
++		if (Adapter->bInSetPower || Adapter->bResetInProgress)
++			PlatformUsbEnableInPipes(Adapter);
++	}
++#endif
++}
++
++enum {
++	Antenna_Lfet = 1,
++	Antenna_Right = 2,
++};
++
++/*
++ * 2010/08/26 MH Add for selective suspend mode check.
++ * If Efuse 0x0e bit1 is not enabled, we can not support selective suspend for Minicard and
++ * slim card.
++ *   */
++static VOID
++HalDetectSelectiveSuspendMode(
++	IN PADAPTER				Adapter
++)
++{
++#if 0
++	u8	tmpvalue;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(Adapter);
++
++	/* If support HW radio detect, we need to enable WOL ability, otherwise, we */
++	/* can not use FW to notify host the power state switch. */
++
++	EFUSE_ShadowRead(Adapter, 1, EEPROM_USB_OPTIONAL1, (u32 *)&tmpvalue);
++
++	RTW_INFO("HalDetectSelectiveSuspendMode(): SS ");
++	if (tmpvalue & BIT1)
++		RTW_INFO("Enable\n");
++	else {
++		RTW_INFO("Disable\n");
++		pdvobjpriv->RegUsbSS = _FALSE;
++	}
++
++	/* 2010/09/01 MH According to Dongle Selective Suspend INF. We can switch SS mode. */
++	if (pdvobjpriv->RegUsbSS && !SUPPORT_HW_RADIO_DETECT(pHalData)) {
++		/* PMGNT_INFO				pMgntInfo = &(Adapter->MgntInfo); */
++
++		/* if (!pMgntInfo->bRegDongleSS)	 */
++		/* { */
++		pdvobjpriv->RegUsbSS = _FALSE;
++		/* } */
++	}
++#endif
++}	/* HalDetectSelectiveSuspendMode */
++
++rt_rf_power_state RfOnOffDetect(IN	PADAPTER pAdapter)
++{
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(pAdapter);
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(pAdapter);
++	u8	val8;
++	rt_rf_power_state rfpowerstate = rf_off;
++
++	if (pwrctl->bHWPowerdown) {
++		val8 = rtw_read8(pAdapter, REG_HSISR);
++		RTW_INFO("pwrdown, 0x5c(BIT7)=%02x\n", val8);
++		rfpowerstate = (val8 & BIT7) ? rf_off : rf_on;
++	} else { /* rf on/off */
++		rtw_write8(pAdapter, REG_MAC_PINMUX_CFG, rtw_read8(pAdapter, REG_MAC_PINMUX_CFG) & ~(BIT3));
++		val8 = rtw_read8(pAdapter, REG_GPIO_IO_SEL);
++		RTW_INFO("GPIO_IN=%02x\n", val8);
++		rfpowerstate = (val8 & BIT3) ? rf_on : rf_off;
++	}
++	return rfpowerstate;
++}	/* HalDetectPwrDownMode */
++
++void _ps_open_RF(_adapter *padapter)
++{
++	/* here call with bRegSSPwrLvl 1, bRegSSPwrLvl 2 needs to be verified */
++	/* phy_SsPwrSwitch92CU(padapter, rf_on, 1); */
++}
++
++void _ps_close_RF(_adapter *padapter)
++{
++	/* here call with bRegSSPwrLvl 1, bRegSSPwrLvl 2 needs to be verified */
++	/* phy_SsPwrSwitch92CU(padapter, rf_off, 1); */
++}
++
++
++/*	A lightweight deinit function	*/
++static void rtl8812au_hw_reset(_adapter *Adapter)
++{
++	u8 reg_val = 0;
++	if (rtw_read8(Adapter, REG_MCUFWDL) & BIT7) {
++		_8051Reset8812(Adapter);
++		rtw_write8(Adapter, REG_MCUFWDL, 0x00);
++		/* before BB reset should do clock gated */
++		rtw_write32(Adapter, rFPGA0_XCD_RFPara,
++			    rtw_read32(Adapter, rFPGA0_XCD_RFPara) | (BIT6));
++		/* reset BB */
++		reg_val = rtw_read8(Adapter, REG_SYS_FUNC_EN);
++		reg_val &= ~(BIT(0) | BIT(1));
++		rtw_write8(Adapter, REG_SYS_FUNC_EN, reg_val);
++		/* reset RF */
++		rtw_write8(Adapter, REG_RF_CTRL, 0);
++		/* reset TRX path */
++		rtw_write16(Adapter, REG_CR, 0);
++		/* reset MAC */
++		reg_val = rtw_read8(Adapter, REG_APS_FSMCO + 1);
++		reg_val |= BIT(1);
++		reg_val = rtw_write8(Adapter, REG_APS_FSMCO + 1, reg_val);     /* reg0x5[1] ,auto FSM off */
++
++		reg_val = rtw_read8(Adapter, REG_APS_FSMCO + 1);
++
++		/* check if   reg0x5[1] auto cleared */
++		while (reg_val & BIT(1)) {
++			rtw_udelay_os(1);
++			reg_val = rtw_read8(Adapter, REG_APS_FSMCO + 1);
++		}
++		reg_val |= BIT(0);
++		reg_val = rtw_write8(Adapter, REG_APS_FSMCO + 1, reg_val);   /* reg0x5[0] ,auto FSM on */
++
++		reg_val = rtw_read8(Adapter, REG_SYS_FUNC_EN + 1);
++		reg_val &= ~(BIT(4) | BIT(7));
++		rtw_write8(Adapter, REG_SYS_FUNC_EN + 1, reg_val);
++		reg_val = rtw_read8(Adapter, REG_SYS_FUNC_EN + 1);
++		reg_val |= BIT(4) | BIT(7);
++		rtw_write8(Adapter, REG_SYS_FUNC_EN + 1, reg_val);
++	}
++}
++
++u32 rtl8812au_hal_init(PADAPTER Adapter)
++{
++	u8	value8 = 0, u1bRegCR;
++	u16  value16;
++	u8	txpktbuf_bndy;
++	u32	status = _SUCCESS;
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(Adapter);
++	struct pwrctrl_priv		*pwrctrlpriv = adapter_to_pwrctl(Adapter);
++	struct registry_priv	*pregistrypriv = &Adapter->registrypriv;
++
++	rt_rf_power_state		eRfPowerStateToSet;
++
++	u32 init_start_time = rtw_get_current_time();
++
++
++#ifdef DBG_HAL_INIT_PROFILING
++
++	enum HAL_INIT_STAGES {
++		HAL_INIT_STAGES_BEGIN = 0,
++		HAL_INIT_STAGES_INIT_PW_ON,
++		HAL_INIT_STAGES_INIT_LLTT,
++		HAL_INIT_STAGES_DOWNLOAD_FW,
++		HAL_INIT_STAGES_MAC,
++		HAL_INIT_STAGES_MISC01,
++		HAL_INIT_STAGES_MISC02,
++		HAL_INIT_STAGES_BB,
++		HAL_INIT_STAGES_RF,
++		HAL_INIT_STAGES_TURN_ON_BLOCK,
++		HAL_INIT_STAGES_INIT_SECURITY,
++		HAL_INIT_STAGES_MISC11,
++		HAL_INIT_STAGES_INIT_HAL_DM,
++		/* HAL_INIT_STAGES_RF_PS, */
++		HAL_INIT_STAGES_IQK,
++		HAL_INIT_STAGES_PW_TRACK,
++		HAL_INIT_STAGES_LCK,
++		HAL_INIT_STAGES_MISC21,
++		/* HAL_INIT_STAGES_INIT_PABIAS, */
++#ifdef CONFIG_BT_COEXIST
++		HAL_INIT_STAGES_BT_COEXIST,
++#endif
++		/* HAL_INIT_STAGES_ANTENNA_SEL, */
++		HAL_INIT_STAGES_MISC31,
++		HAL_INIT_STAGES_END,
++		HAL_INIT_STAGES_NUM
++	};
++
++	char *hal_init_stages_str[] = {
++		"HAL_INIT_STAGES_BEGIN",
++		"HAL_INIT_STAGES_INIT_PW_ON",
++		"HAL_INIT_STAGES_INIT_LLTT",
++		"HAL_INIT_STAGES_DOWNLOAD_FW",
++		"HAL_INIT_STAGES_MAC",
++		"HAL_INIT_STAGES_MISC01",
++		"HAL_INIT_STAGES_MISC02",
++		"HAL_INIT_STAGES_BB",
++		"HAL_INIT_STAGES_RF",
++		"HAL_INIT_STAGES_TURN_ON_BLOCK",
++		"HAL_INIT_STAGES_INIT_SECURITY",
++		"HAL_INIT_STAGES_MISC11",
++		"HAL_INIT_STAGES_INIT_HAL_DM",
++		/* "HAL_INIT_STAGES_RF_PS", */
++		"HAL_INIT_STAGES_IQK",
++		"HAL_INIT_STAGES_PW_TRACK",
++		"HAL_INIT_STAGES_LCK",
++		"HAL_INIT_STAGES_MISC21",
++#ifdef CONFIG_BT_COEXIST
++		"HAL_INIT_STAGES_BT_COEXIST",
++#endif
++		/* "HAL_INIT_STAGES_ANTENNA_SEL", */
++		"HAL_INIT_STAGES_MISC31",
++		"HAL_INIT_STAGES_END",
++	};
++
++	int hal_init_profiling_i;
++	u32 hal_init_stages_timestamp[HAL_INIT_STAGES_NUM]; /* used to record the time of each stage's starting point */
++
++	for (hal_init_profiling_i = 0; hal_init_profiling_i < HAL_INIT_STAGES_NUM; hal_init_profiling_i++)
++		hal_init_stages_timestamp[hal_init_profiling_i] = 0;
++
++#define HAL_INIT_PROFILE_TAG(stage) do { hal_init_stages_timestamp[(stage)] = rtw_get_current_time(); } while (0)
++#else
++#define HAL_INIT_PROFILE_TAG(stage) do {} while (0)
++#endif /* DBG_HAL_INIT_PROFILING */
++
++
++
++
++	HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_BEGIN);
++	if (pwrctrlpriv->bkeepfwalive) {
++		_ps_open_RF(Adapter);
++
++		if (pHalData->bIQKInitialized) {
++			/* PHY_IQCalibrate_8812A(Adapter,_TRUE); */
++		} else {
++			/* PHY_IQCalibrate_8812A(Adapter,_FALSE); */
++			/* pHalData->bIQKInitialized = _TRUE; */
++		}
++
++		/* ODM_TXPowerTrackingCheck(&pHalData->odmpriv ); */
++		/* PHY_LCCalibrate_8812A(Adapter); */
++
++		goto exit;
++	}
++
++	/* Check if MAC has already power on. by tynli. 2011.05.27. */
++	value8 = rtw_read8(Adapter, REG_SYS_CLKR + 1);
++	u1bRegCR = PlatformEFIORead1Byte(Adapter, REG_CR);
++	RTW_INFO(" power-on :REG_SYS_CLKR 0x09=0x%02x. REG_CR 0x100=0x%02x.\n", value8, u1bRegCR);
++	if ((value8 & BIT3)  && (u1bRegCR != 0 && u1bRegCR != 0xEA)) {
++		/* pHalData->bMACFuncEnable = TRUE; */
++		RTW_INFO(" MAC has already power on.\n");
++	} else {
++		/* pHalData->bMACFuncEnable = FALSE; */
++		/* Set FwPSState to ALL_ON mode to prevent from the I/O be return because of 32k */
++		/* state which is set before sleep under wowlan mode. 2012.01.04. by tynli. */
++		/* pHalData->FwPSState = FW_PS_STATE_ALL_ON_88E; */
++		RTW_INFO(" MAC has not been powered on yet.\n");
++	}
++
++	/*  */
++	/* 2012/11/13 MH Revise for U2/U3 switch we can not update RF-A/B reset. */
++	/* After discuss with BB team YN, reset after MAC power on to prevent RF */
++	/* R/W error. Is it a right method? */
++	/*  */
++	if (!IS_HARDWARE_TYPE_8821(Adapter)) {
++		rtw_write8(Adapter, REG_RF_CTRL, 5);
++		rtw_write8(Adapter, REG_RF_CTRL, 7);
++		rtw_write8(Adapter, REG_RF_B_CTRL_8812, 5);
++		rtw_write8(Adapter, REG_RF_B_CTRL_8812, 7);
++	}
++
++	/*
++		If HW didn't go through a complete de-initial procedure,
++		it probably occurs some problem for double initial procedure.
++		Like "CONFIG_DEINIT_BEFORE_INIT" in 92du chip
++	*/
++	rtl8812au_hw_reset(Adapter);
++
++
++
++	HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_INIT_PW_ON);
++	status = rtw_hal_power_on(Adapter);
++	if (status == _FAIL) {
++		goto exit;
++	}
++
++	HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_INIT_LLTT);
++	if (!pregistrypriv->wifi_spec) {
++		if (IS_HARDWARE_TYPE_8812(Adapter))
++			txpktbuf_bndy = TX_PAGE_BOUNDARY_8812;
++		else
++			txpktbuf_bndy = TX_PAGE_BOUNDARY_8821;
++	} else {
++		/* for WMM */
++		if (IS_HARDWARE_TYPE_8812(Adapter))
++			txpktbuf_bndy = WMM_NORMAL_TX_PAGE_BOUNDARY_8812;
++		else
++			txpktbuf_bndy = WMM_NORMAL_TX_PAGE_BOUNDARY_8821;
++	}
++
++	status =  InitLLTTable8812A(Adapter, txpktbuf_bndy);
++	if (status == _FAIL) {
++		goto exit;
++	}
++
++	_InitHardwareDropIncorrectBulkOut_8812A(Adapter);
++
++	if (pHalData->bRDGEnable)
++		_InitRDGSetting_8812A(Adapter);
++
++	HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_DOWNLOAD_FW);
++	if (Adapter->registrypriv.mp_mode == 0) {
++		status = FirmwareDownload8812(Adapter, _FALSE);
++		if (status != _SUCCESS) {
++			RTW_INFO("%s: Download Firmware failed!!\n", __FUNCTION__);
++			Adapter->bFWReady = _FALSE;
++			pHalData->fw_ractrl = _FALSE;
++			/* return status; */
++		} else {
++			RTW_INFO("%s: Download Firmware Success!!\n", __FUNCTION__);
++			Adapter->bFWReady = _TRUE;
++			pHalData->fw_ractrl = _TRUE;
++		}
++	}
++
++	if (pwrctrlpriv->reg_rfoff == _TRUE)
++		pwrctrlpriv->rf_pwrstate = rf_off;
++
++	/* 2010/08/09 MH We need to check if we need to turnon or off RF after detecting */
++	/* HW GPIO pin. Before PHY_RFConfig8192C. */
++	/* HalDetectPwrDownMode(Adapter); */
++	/* 2010/08/26 MH If Efuse does not support sective suspend then disable the function. */
++	/* HalDetectSelectiveSuspendMode(Adapter); */
++
++	/* Save target channel */
++	/* <Roger_Notes> Current Channel will be updated again later. */
++	pHalData->CurrentChannel = 0;/* set 0 to trigger switch correct channel */
++
++	HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_MAC);
++#if (HAL_MAC_ENABLE == 1)
++	status = PHY_MACConfig8812(Adapter);
++	if (status == _FAIL)
++		goto exit;
++#endif
++
++	HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_MISC01);
++	if (IS_HARDWARE_TYPE_8812(Adapter)) {
++		_InitQueueReservedPage_8812AUsb(Adapter);
++		_InitTxBufferBoundary_8812AUsb(Adapter);
++	} else if (IS_HARDWARE_TYPE_8821(Adapter)) {
++		_InitQueueReservedPage_8821AUsb(Adapter);
++		_InitTxBufferBoundary_8821AUsb(Adapter);
++	}
++
++	_InitQueuePriority_8812AUsb(Adapter);
++	_InitPageBoundary_8812AUsb(Adapter);
++
++	if (IS_HARDWARE_TYPE_8812(Adapter))
++		_InitTransferPageSize_8812AUsb(Adapter);
++
++	HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_MISC02);
++	/* Get Rx PHY status in order to report RSSI and others. */
++	_InitDriverInfoSize_8812A(Adapter, DRVINFO_SZ);
++
++	_InitInterrupt_8812AU(Adapter);
++	_InitNetworkType_8812A(Adapter);/* set msr	 */
++	_InitWMACSetting_8812A(Adapter);
++	_InitAdaptiveCtrl_8812AUsb(Adapter);
++	_InitEDCA_8812AUsb(Adapter);
++
++	_InitRetryFunction_8812A(Adapter);
++	init_UsbAggregationSetting_8812A(Adapter);
++	_InitOperationMode_8812A(Adapter);/* todo */
++	_InitBeaconParameters_8812A(Adapter);
++	_InitBeaconMaxError_8812A(Adapter, _TRUE);
++
++	_InitBurstPktLen(Adapter);  /* added by page. 20110919 */
++
++	/*  */
++	/* Init CR MACTXEN, MACRXEN after setting RxFF boundary REG_TRXFF_BNDY to patch */
++	/* Hw bug which Hw initials RxFF boundry size to a value which is larger than the real Rx buffer size in 88E. */
++	/* 2011.08.05. by tynli. */
++	/*  */
++	value8 = rtw_read8(Adapter, REG_CR);
++	rtw_write8(Adapter, REG_CR, (value8 | MACTXEN | MACRXEN));
++
++#if defined(CONFIG_CONCURRENT_MODE) || defined(CONFIG_TX_MCAST2UNI)
++
++#ifdef CONFIG_CHECK_AC_LIFETIME
++	/* Enable lifetime check for the four ACs */
++	rtw_write8(Adapter, REG_LIFETIME_CTRL, rtw_read8(Adapter, REG_LIFETIME_CTRL) | 0x0f);
++#endif /* CONFIG_CHECK_AC_LIFETIME */
++
++#ifdef CONFIG_TX_MCAST2UNI
++	rtw_write16(Adapter, REG_PKT_VO_VI_LIFE_TIME, 0x0400);	/* unit: 256us. 256ms */
++	rtw_write16(Adapter, REG_PKT_BE_BK_LIFE_TIME, 0x0400);	/* unit: 256us. 256ms */
++#else	/* CONFIG_TX_MCAST2UNI */
++	rtw_write16(Adapter, REG_PKT_VO_VI_LIFE_TIME, 0x3000);	/* unit: 256us. 3s */
++	rtw_write16(Adapter, REG_PKT_BE_BK_LIFE_TIME, 0x3000);	/* unit: 256us. 3s */
++#endif /* CONFIG_TX_MCAST2UNI */
++#endif /* CONFIG_CONCURRENT_MODE || CONFIG_TX_MCAST2UNI */
++
++
++#ifdef CONFIG_LED
++	_InitHWLed(Adapter);
++#endif /* CONFIG_LED */
++
++	/*  */
++	/* d. Initialize BB related configurations. */
++	/*  */
++
++	HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_BB);
++#if (HAL_BB_ENABLE == 1)
++	status = PHY_BBConfig8812(Adapter);
++	if (status == _FAIL)
++		goto exit;
++#endif
++
++	/* 92CU use 3-wire to r/w RF */
++	/* pHalData->Rf_Mode = RF_OP_By_SW_3wire; */
++
++	HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_RF);
++#if (HAL_RF_ENABLE == 1)
++	status = PHY_RFConfig8812(Adapter);
++	if (status == _FAIL)
++		goto exit;
++
++	if (pHalData->rf_type == RF_1T1R && IS_HARDWARE_TYPE_8812AU(Adapter))
++		PHY_BB8812_Config_1T(Adapter);
++	if (Adapter->registrypriv.rf_config == RF_1T2R && IS_HARDWARE_TYPE_8812AU(Adapter))
++		PHY_SetBBReg(Adapter, rTxPath_Jaguar, bMaskLWord, 0x1111);
++#endif
++
++	if (Adapter->registrypriv.channel <= 14)
++		PHY_SwitchWirelessBand8812(Adapter, BAND_ON_2_4G);
++	else
++		PHY_SwitchWirelessBand8812(Adapter, BAND_ON_5G);
++
++	rtw_hal_set_chnl_bw(Adapter, Adapter->registrypriv.channel,
++		CHANNEL_WIDTH_20, HAL_PRIME_CHNL_OFFSET_DONT_CARE, HAL_PRIME_CHNL_OFFSET_DONT_CARE);
++
++	HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_TURN_ON_BLOCK);
++
++	HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_INIT_SECURITY);
++	invalidate_cam_all(Adapter);
++
++	HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_MISC11);
++	/* HW SEQ CTRL */
++	/* set 0x0 to 0xFF by tynli. Default enable HW SEQ NUM. */
++	rtw_write8(Adapter, REG_HWSEQ_CTRL, 0xFF);
++
++	/*  */
++	/* Disable BAR, suggested by Scott */
++	/* 2010.04.09 add by hpfan */
++	/*  */
++	rtw_write32(Adapter, REG_BAR_MODE_CTRL, 0x0201ffff);
++
++	if (pregistrypriv->wifi_spec)
++		rtw_write16(Adapter, REG_FAST_EDCA_CTRL , 0);
++	/* adjust EDCCA to avoid collision */
++	if (pregistrypriv->wifi_spec) {
++		if (IS_HARDWARE_TYPE_8821(Adapter))
++			if (Adapter->registrypriv.adaptivity_en == 0) {
++				Adapter->registrypriv.adaptivity_en = 1;
++				Adapter->registrypriv.adaptivity_mode = 0;
++			}
++	}
++	/* Nav limit , suggest by scott */
++	rtw_write8(Adapter, 0x652, 0x0);
++
++	HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_INIT_HAL_DM);
++	rtl8812_InitHalDm(Adapter);
++
++#if (MP_DRIVER == 1)
++	if (Adapter->registrypriv.mp_mode == 1) {
++		Adapter->mppriv.channel = pHalData->CurrentChannel;
++		MPT_InitializeAdapter(Adapter, Adapter->mppriv.channel);
++	} else
++#endif  /* #if (MP_DRIVER == 1) */
++	{
++		/*  */
++		/* 2010/08/11 MH Merge from 8192SE for Minicard init. We need to confirm current radio status */
++		/* and then decide to enable RF or not.!!!??? For Selective suspend mode. We may not */
++		/* call init_adapter. May cause some problem?? */
++		/*  */
++		/* Fix the bug that Hw/Sw radio off before S3/S4, the RF off action will not be executed */
++		/* in MgntActSet_RF_State() after wake up, because the value of pHalData->eRFPowerState */
++		/* is the same as eRfOff, we should change it to eRfOn after we config RF parameters. */
++		/* Added by tynli. 2010.03.30. */
++		pwrctrlpriv->rf_pwrstate = rf_on;
++
++		/* 0x4c6[3] 1: RTS BW = Data BW */
++		/* 0: RTS BW depends on CCA / secondary CCA result. */
++		rtw_write8(Adapter, REG_QUEUE_CTRL, rtw_read8(Adapter, REG_QUEUE_CTRL) & 0xF7);
++
++		/* enable Tx report. */
++		rtw_write8(Adapter,  REG_FWHW_TXQ_CTRL + 1, 0x0F);
++
++		/* Suggested by SD1 pisa. Added by tynli. 2011.10.21. */
++		rtw_write8(Adapter, REG_EARLY_MODE_CONTROL_8812 + 3, 0x01); /* Pretx_en, for WEP/TKIP SEC */
++
++		/* tynli_test_tx_report. */
++		rtw_write16(Adapter, REG_TX_RPT_TIME, 0x3DF0);
++
++		/* Reset USB mode switch setting */
++		rtw_write8(Adapter, REG_SDIO_CTRL_8812, 0x0);
++		rtw_write8(Adapter, REG_ACLK_MON, 0x0);
++
++
++		HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_IQK);
++		/* 2010/08/26 MH Merge from 8192CE. */
++		if (pwrctrlpriv->rf_pwrstate == rf_on) {
++			/*		if(IS_HARDWARE_TYPE_8812AU(Adapter))
++					{
++			#if (RTL8812A_SUPPORT == 1)
++						pHalData->bNeedIQK = _TRUE;
++						if(pHalData->bIQKInitialized)
++							PHY_IQCalibrate_8812A(Adapter, _TRUE);
++						else
++						{
++							PHY_IQCalibrate_8812A(Adapter, _FALSE);
++							pHalData->bIQKInitialized = _TRUE;
++						}
++			#endif
++					}*/
++
++			HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_PW_TRACK);
++
++			/* ODM_TXPowerTrackingCheck(&pHalData->odmpriv ); */
++
++
++			HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_LCK);
++			/* PHY_LCCalibrate_8812A(Adapter); */
++		}
++	}
++
++	HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_MISC21);
++
++
++	/* HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_INIT_PABIAS);
++	 *	_InitPABias(Adapter); */
++
++#ifdef CONFIG_BT_COEXIST
++	HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_BT_COEXIST);
++	/* _InitBTCoexist(Adapter); */
++	/* 2010/08/23 MH According to Alfred's suggestion, we need to to prevent HW enter */
++	/* suspend mode automatically. */
++	/* HwSuspendModeEnable92Cu(Adapter, _FALSE); */
++
++	if (_TRUE == pHalData->EEPROMBluetoothCoexist) {
++		/* Init BT hw config. */
++		rtw_btcoex_HAL_Initialize(Adapter, _FALSE);
++	} else {
++		/* In combo card run wifi only , must setting some hardware reg. */
++		rtl8812a_combo_card_WifiOnlyHwInit(Adapter);
++	}
++#endif /* CONFIG_BT_COEXIST */
++
++	HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_MISC31);
++
++	rtw_write8(Adapter, REG_USB_HRPWM, 0);
++
++#ifdef CONFIG_XMIT_ACK
++	/* ack for xmit mgmt frames. */
++	rtw_write32(Adapter, REG_FWHW_TXQ_CTRL, rtw_read32(Adapter, REG_FWHW_TXQ_CTRL) | BIT(12));
++#endif /* CONFIG_XMIT_ACK */
++
++
++exit:
++	HAL_INIT_PROFILE_TAG(HAL_INIT_STAGES_END);
++
++	RTW_INFO("%s in %dms\n", __FUNCTION__, rtw_get_passing_time_ms(init_start_time));
++
++#ifdef DBG_HAL_INIT_PROFILING
++	hal_init_stages_timestamp[HAL_INIT_STAGES_END] = rtw_get_current_time();
++
++	for (hal_init_profiling_i = 0; hal_init_profiling_i < HAL_INIT_STAGES_NUM - 1; hal_init_profiling_i++) {
++		RTW_INFO("DBG_HAL_INIT_PROFILING: %35s, %u, %5u, %5u\n"
++			 , hal_init_stages_str[hal_init_profiling_i]
++			 , hal_init_stages_timestamp[hal_init_profiling_i]
++			, (hal_init_stages_timestamp[hal_init_profiling_i + 1] - hal_init_stages_timestamp[hal_init_profiling_i])
++			, rtw_get_time_interval_ms(hal_init_stages_timestamp[hal_init_profiling_i], hal_init_stages_timestamp[hal_init_profiling_i + 1])
++			);
++	}
++#endif
++
++
++
++	return status;
++}
++
++VOID
++hal_poweroff_8812au(
++	IN	PADAPTER			Adapter
++)
++{
++	u8	u1bTmp;
++	u8 bMacPwrCtrlOn = _FALSE;
++	u16	utemp, ori_fsmc0;
++
++	rtw_hal_get_hwreg(Adapter, HW_VAR_APFM_ON_MAC, &bMacPwrCtrlOn);
++	if (bMacPwrCtrlOn == _FALSE)
++		return ;
++
++	ori_fsmc0 = utemp = rtw_read16(Adapter, REG_APS_FSMCO);
++	rtw_write16(Adapter, REG_APS_FSMCO, utemp & ~0x8000);
++	RTW_INFO(" %s\n", __FUNCTION__);
++
++	/* Stop Tx Report Timer. 0x4EC[Bit1]=b'0 */
++	u1bTmp = rtw_read8(Adapter, REG_TX_RPT_CTRL);
++	rtw_write8(Adapter, REG_TX_RPT_CTRL, u1bTmp & (~BIT1));
++
++	/* stop rx */
++	rtw_write8(Adapter, REG_CR, 0x0);
++
++	/* Run LPS WL RFOFF flow */
++	if (IS_HARDWARE_TYPE_8821U(Adapter))
++		HalPwrSeqCmdParsing(Adapter, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, Rtl8821A_NIC_LPS_ENTER_FLOW);
++	else
++		HalPwrSeqCmdParsing(Adapter, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, Rtl8812_NIC_LPS_ENTER_FLOW);
++
++	if ((rtw_read8(Adapter, REG_MCUFWDL) & RAM_DL_SEL) &&
++	    Adapter->bFWReady) /* 8051 RAM code */
++		_8051Reset8812(Adapter);
++
++	/* Reset MCU. Suggested by Filen. 2011.01.26. by tynli. */
++	u1bTmp = rtw_read8(Adapter, REG_SYS_FUNC_EN + 1);
++	rtw_write8(Adapter, REG_SYS_FUNC_EN + 1, (u1bTmp & (~BIT2)));
++
++	/* MCUFWDL 0x80[1:0]=0				 */ /* reset MCU ready status */
++	rtw_write8(Adapter, REG_MCUFWDL, 0x00);
++
++	/* Card disable power action flow */
++	if (IS_HARDWARE_TYPE_8821U(Adapter))
++		HalPwrSeqCmdParsing(Adapter, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, Rtl8821A_NIC_DISABLE_FLOW);
++	else
++		HalPwrSeqCmdParsing(Adapter, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, Rtl8812_NIC_DISABLE_FLOW);
++
++	bMacPwrCtrlOn = _FALSE;
++	rtw_hal_set_hwreg(Adapter, HW_VAR_APFM_ON_MAC, &bMacPwrCtrlOn);
++
++	Adapter->bFWReady = _FALSE;
++
++	if (ori_fsmc0 & 0x8000) {
++		utemp = rtw_read16(Adapter, REG_APS_FSMCO);
++		rtw_write16(Adapter, REG_APS_FSMCO, utemp | 0x8000);
++	}
++}
++
++static void rtl8812au_hw_power_down(_adapter *padapter)
++{
++	/* 2010/-8/09 MH For power down module, we need to enable register block contrl reg at 0x1c. */
++	/* Then enable power down control bit of register 0x04 BIT4 and BIT15 as 1. */
++
++	/* Enable register area 0x0-0xc. */
++	rtw_write8(padapter, REG_RSV_CTRL, 0x0);
++	rtw_write16(padapter, REG_APS_FSMCO, 0x8812);
++}
++
++u32 rtl8812au_hal_deinit(PADAPTER Adapter)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(Adapter);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	RTW_INFO("==> %s\n", __FUNCTION__);
++
++#ifdef CONFIG_BT_COEXIST
++	if (hal_btcoex_IsBtExist(Adapter)) {
++		RTW_INFO("BT module enable SIC\n");
++		/* Only under WIN7 we can support selective suspend and enter D3 state when system call halt adapter. */
++
++		/* rtw_write16(Adapter, REG_GPIO_MUXCFG, rtw_read16(Adapter, REG_GPIO_MUXCFG)|BIT12); */
++		/* 2010/10/13 MH If we enable SIC in the position and then call _ResetDigitalProcedure1. in XP, */
++		/* the system will hang due to 8051 reset fail. */
++	} else
++#endif /* CONFIG_BT_COEXIST */
++	{
++		rtw_write16(Adapter, REG_GPIO_MUXCFG, rtw_read16(Adapter, REG_GPIO_MUXCFG) & (~BIT12));
++	}
++
++	if (pHalData->bSupportUSB3 == _TRUE) {
++		/* set Reg 0xf008[3:4] to 2'11 to eable U1/U2 Mode in USB3.0. added by page, 20120712 */
++		rtw_write8(Adapter, 0xf008, rtw_read8(Adapter, 0xf008) | 0x18);
++	}
++
++	rtw_write32(Adapter, REG_HISR0_8812, 0xFFFFFFFF);
++	rtw_write32(Adapter, REG_HISR1_8812, 0xFFFFFFFF);
++	rtw_write32(Adapter, REG_HIMR0_8812, IMR_DISABLED_8812);
++	rtw_write32(Adapter, REG_HIMR1_8812, IMR_DISABLED_8812);
++
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++	RTW_INFO("bkeepfwalive(%x)\n", pwrctl->bkeepfwalive);
++	if (pwrctl->bkeepfwalive) {
++		_ps_close_RF(Adapter);
++		if ((pwrctl->bHWPwrPindetect) && (pwrctl->bHWPowerdown))
++			rtl8812au_hw_power_down(Adapter);
++	} else
++#endif
++	{
++		if (rtw_is_hw_init_completed(Adapter)) {
++			rtw_hal_power_off(Adapter);
++
++			if ((pwrctl->bHWPwrPindetect) && (pwrctl->bHWPowerdown))
++				rtl8812au_hw_power_down(Adapter);
++		}
++	}
++	return _SUCCESS;
++}
++
++
++unsigned int rtl8812au_inirp_init(PADAPTER Adapter)
++{
++	u8 i;
++	struct recv_buf *precvbuf;
++	uint	status;
++	struct dvobj_priv *pdev = adapter_to_dvobj(Adapter);
++	struct intf_hdl *pintfhdl = &Adapter->iopriv.intf;
++	struct recv_priv *precvpriv = &(Adapter->recvpriv);
++	u32(*_read_port)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	u32(*_read_interrupt)(struct intf_hdl *pintfhdl, u32 addr);
++#endif
++
++
++	_read_port = pintfhdl->io_ops._read_port;
++
++	status = _SUCCESS;
++
++
++	precvpriv->ff_hwaddr = RECV_BULK_IN_ADDR;
++
++	/* issue Rx irp to receive data	 */
++	precvbuf = (struct recv_buf *)precvpriv->precv_buf;
++	for (i = 0; i < NR_RECVBUFF; i++) {
++		if (_read_port(pintfhdl, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf) == _FALSE) {
++			status = _FAIL;
++			goto exit;
++		}
++
++		precvbuf++;
++		precvpriv->free_recv_buf_queue_cnt--;
++	}
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++	if (pdev->RtInPipe[REALTEK_USB_IN_INT_EP_IDX] != 0x07) {
++		status = _FAIL;
++		RTW_INFO("%s =>Warning !! Have not USB Int-IN pipe, RtIntInPipe(%d)!!!\n", __func__, pdev->RtInPipe[REALTEK_USB_IN_INT_EP_IDX]);
++		goto exit;
++	}
++	_read_interrupt = pintfhdl->io_ops._read_interrupt;
++	if (_read_interrupt(pintfhdl, RECV_INT_IN_ADDR) == _FALSE) {
++		status = _FAIL;
++	}
++#endif
++
++exit:
++
++
++
++	return status;
++
++}
++
++unsigned int rtl8812au_inirp_deinit(PADAPTER Adapter)
++{
++
++	rtw_read_port_cancel(Adapter);
++
++
++	return _SUCCESS;
++}
++
++/* -------------------------------------------------------------------
++ *
++ *	EEPROM/EFUSE Content Parsing
++ *
++ * ------------------------------------------------------------------- */
++VOID
++hal_ReadIDs_8812AU(
++	IN	PADAPTER	Adapter,
++	IN	pu1Byte		PROMContent,
++	IN	BOOLEAN		AutoloadFail
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	if (!AutoloadFail) {
++		/* VID, PID */
++		if (IS_HARDWARE_TYPE_8812AU(Adapter)) {
++			pHalData->EEPROMVID = ReadLE2Byte(&PROMContent[EEPROM_VID_8812AU]);
++			pHalData->EEPROMPID = ReadLE2Byte(&PROMContent[EEPROM_PID_8812AU]);
++		} else if (IS_HARDWARE_TYPE_8821U(Adapter))
++
++		{
++			pHalData->EEPROMVID = ReadLE2Byte(&PROMContent[EEPROM_VID_8821AU]);
++			pHalData->EEPROMPID = ReadLE2Byte(&PROMContent[EEPROM_PID_8821AU]);
++		}
++
++
++		/* Customer ID, 0x00 and 0xff are reserved for Realtek.		 */
++		pHalData->EEPROMCustomerID = *(u8 *)&PROMContent[EEPROM_CustomID_8812];
++		pHalData->EEPROMSubCustomerID = EEPROM_Default_SubCustomerID;
++
++	} else {
++		pHalData->EEPROMVID			= EEPROM_Default_VID;
++		pHalData->EEPROMPID			= EEPROM_Default_PID;
++
++		/* Customer ID, 0x00 and 0xff are reserved for Realtek.		 */
++		pHalData->EEPROMCustomerID		= EEPROM_Default_CustomerID;
++		pHalData->EEPROMSubCustomerID	= EEPROM_Default_SubCustomerID;
++
++	}
++
++	if ((pHalData->EEPROMVID == 0x050D) && (pHalData->EEPROMPID == 0x1106)) /* SerComm for Belkin. */
++		pHalData->CustomerID = RT_CID_819x_Sercomm_Belkin;
++	else if ((pHalData->EEPROMVID == 0x0846) && (pHalData->EEPROMPID == 0x9051)) /* SerComm for Netgear. */
++		pHalData->CustomerID = RT_CID_819x_Sercomm_Netgear;
++	else if ((pHalData->EEPROMVID == 0x2001) && (pHalData->EEPROMPID == 0x330e)) /* add by ylb 20121012 for customer led for alpha */
++		pHalData->CustomerID = RT_CID_819x_ALPHA_Dlink;
++	else if ((pHalData->EEPROMVID == 0x0B05) && (pHalData->EEPROMPID == 0x17D2)) /* Edimax for ASUS */
++		pHalData->CustomerID = RT_CID_819x_Edimax_ASUS;
++	else if ((pHalData->EEPROMVID == 0x0846) && (pHalData->EEPROMPID == 0x9052))
++		pHalData->CustomerID = RT_CID_NETGEAR;
++	else if ((pHalData->EEPROMVID == 0x0411) && ((pHalData->EEPROMPID == 0x0242) || (pHalData->EEPROMPID == 0x025D)))
++		pHalData->CustomerID = RT_CID_DNI_BUFFALO;
++	else if (((pHalData->EEPROMVID == 0x2001) && (pHalData->EEPROMPID == 0x3314)) ||
++		((pHalData->EEPROMVID == 0x20F4) && (pHalData->EEPROMPID == 0x804B)) ||
++		((pHalData->EEPROMVID == 0x20F4) && (pHalData->EEPROMPID == 0x805B)) ||
++		((pHalData->EEPROMVID == 0x2001) && (pHalData->EEPROMPID == 0x3315)) ||
++		((pHalData->EEPROMVID == 0x2001) && (pHalData->EEPROMPID == 0x3316)))
++		pHalData->CustomerID = RT_CID_DLINK;
++
++	RTW_INFO("VID = 0x%04X, PID = 0x%04X\n", pHalData->EEPROMVID, pHalData->EEPROMPID);
++	RTW_INFO("Customer ID: 0x%02X, SubCustomer ID: 0x%02X\n", pHalData->EEPROMCustomerID, pHalData->EEPROMSubCustomerID);
++}
++
++VOID
++hal_InitPGData_8812A(
++	IN	PADAPTER		padapter,
++	IN	OUT	u8			*PROMContent
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	u32			i;
++	u16			value16;
++
++	if (_FALSE == pHalData->bautoload_fail_flag) {
++		/* autoload OK. */
++		if (is_boot_from_eeprom(padapter)) {
++			/* Read all Content from EEPROM or EFUSE. */
++			for (i = 0; i < HWSET_MAX_SIZE_JAGUAR; i += 2) {
++				/* value16 = EF2Byte(ReadEEprom(pAdapter, (u2Byte) (i>>1))); */
++				/* *((u16*)(&PROMContent[i])) = value16; */
++			}
++		} else {
++			/*  */
++			/* 2013/03/08 MH Add for 8812A HW limitation, ROM code can only */
++			/*  */
++			if (IS_HARDWARE_TYPE_8812AU(padapter)) {
++				u8	efuse_content[4];
++				efuse_OneByteRead(padapter, 0x200, &efuse_content[0], _FALSE);
++				efuse_OneByteRead(padapter, 0x202, &efuse_content[1], _FALSE);
++				efuse_OneByteRead(padapter, 0x204, &efuse_content[2], _FALSE);
++				efuse_OneByteRead(padapter, 0x210, &efuse_content[3], _FALSE);
++				if (efuse_content[0] != 0xFF ||
++				    efuse_content[1] != 0xFF ||
++				    efuse_content[2] != 0xFF ||
++				    efuse_content[3] != 0xFF) {
++					/* DbgPrint("Disable FW ofl load\n"); */
++					/* pMgntInfo->RegFWOffload = FALSE; */
++				}
++			}
++
++			/* Read EFUSE real map to shadow. */
++			EFUSE_ShadowMapUpdate(padapter, EFUSE_WIFI, _FALSE);
++		}
++	} else {
++		/* autoload fail */
++		/* pHalData->AutoloadFailFlag = _TRUE; */
++		/*  */
++		/* 2013/03/08 MH Add for 8812A HW limitation, ROM code can only */
++		/*  */
++		if (IS_HARDWARE_TYPE_8812AU(padapter)) {
++			u8	efuse_content[4];
++			efuse_OneByteRead(padapter, 0x200, &efuse_content[0], _FALSE);
++			efuse_OneByteRead(padapter, 0x202, &efuse_content[1], _FALSE);
++			efuse_OneByteRead(padapter, 0x204, &efuse_content[2], _FALSE);
++			efuse_OneByteRead(padapter, 0x210, &efuse_content[3], _FALSE);
++			if (efuse_content[0] != 0xFF ||
++			    efuse_content[1] != 0xFF ||
++			    efuse_content[2] != 0xFF ||
++			    efuse_content[3] != 0xFF) {
++				/* DbgPrint("Disable FW ofl load\n"); */
++				/* pMgntInfo->RegFWOffload = FALSE; */
++				pHalData->bautoload_fail_flag = _FALSE;
++			} else {
++				/* DbgPrint("EFUSE_Read1Byte(pAdapter, (u2Byte)512) = %x\n", EFUSE_Read1Byte(pAdapter, (u2Byte)512)); */
++			}
++		}
++
++		/* update to default value 0xFF */
++		if (!is_boot_from_eeprom(padapter))
++			EFUSE_ShadowMapUpdate(padapter, EFUSE_WIFI, _FALSE);
++	}
++
++#ifdef CONFIG_EFUSE_CONFIG_FILE
++	if (check_phy_efuse_tx_power_info_valid(padapter) == _FALSE) {
++		if (Hal_readPGDataFromConfigFile(padapter) != _SUCCESS)
++			RTW_ERR("invalid phy efuse and read from file fail, will use driver default!!\n");
++	}
++#endif
++
++}
++
++VOID
++hal_CustomizedBehavior_8812AU(
++	IN	PADAPTER	Adapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct led_priv	*pledpriv = &(Adapter->ledpriv);
++
++
++	/* Led mode */
++	switch (pHalData->CustomerID) {
++	case RT_CID_DEFAULT:
++		pledpriv->LedStrategy = SW_LED_MODE9;
++		pledpriv->bRegUseLed = _TRUE;
++		break;
++
++	case RT_CID_819x_HP:
++		pledpriv->LedStrategy = SW_LED_MODE6; /* Customize Led mode */
++		break;
++
++	case RT_CID_819x_Sercomm_Belkin:
++		pledpriv->LedStrategy = SW_LED_MODE9;
++		break;
++
++	case RT_CID_819x_Sercomm_Netgear:
++		pledpriv->LedStrategy = SW_LED_MODE10;
++		break;
++
++	case RT_CID_819x_ALPHA_Dlink: /* add by ylb 20121012 for customer led for alpha */
++		pledpriv->LedStrategy = SW_LED_MODE1;
++		break;
++
++	case RT_CID_819x_Edimax_ASUS:
++		pledpriv->LedStrategy = SW_LED_MODE11;
++		break;
++
++	case RT_CID_WNC_NEC:
++		pledpriv->LedStrategy = SW_LED_MODE12;
++		break;
++
++	case RT_CID_NETGEAR:
++		pledpriv->LedStrategy = SW_LED_MODE13;
++		break;
++
++	case RT_CID_DNI_BUFFALO:
++		pledpriv->LedStrategy = SW_LED_MODE14;
++		break;
++
++	case RT_CID_DLINK:
++		pledpriv->LedStrategy = SW_LED_MODE15;
++		break;
++
++	default:
++		pledpriv->LedStrategy = SW_LED_MODE9;
++		break;
++	}
++
++	pHalData->bLedOpenDrain = _TRUE;/* Support Open-drain arrangement for controlling the LED. Added by Roger, 2009.10.16. */
++}
++
++static void
++hal_CustomizeByCustomerID_8812AU(
++	IN	PADAPTER		pAdapter
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(pAdapter);
++
++	/* For customized behavior. */
++	if ((pHalData->EEPROMVID == 0x103C) && (pHalData->EEPROMPID == 0x1629)) /* HP Lite-On for RTL8188CUS Slim Combo. */
++		pHalData->CustomerID = RT_CID_819x_HP;
++	else if ((pHalData->EEPROMVID == 0x9846) && (pHalData->EEPROMPID == 0x9041))
++		pHalData->CustomerID = RT_CID_NETGEAR;
++	else if ((pHalData->EEPROMVID == 0x2019) && (pHalData->EEPROMPID == 0x1201))
++		pHalData->CustomerID = RT_CID_PLANEX;
++	else if ((pHalData->EEPROMVID == 0x0BDA) && (pHalData->EEPROMPID == 0x5088))
++		pHalData->CustomerID = RT_CID_CC_C;
++	else if ((pHalData->EEPROMVID == 0x0411) && ((pHalData->EEPROMPID == 0x0242) || (pHalData->EEPROMPID == 0x025D)))
++		pHalData->CustomerID = RT_CID_DNI_BUFFALO;
++	else if (((pHalData->EEPROMVID == 0x2001) && (pHalData->EEPROMPID == 0x3314)) ||
++		((pHalData->EEPROMVID == 0x20F4) && (pHalData->EEPROMPID == 0x804B)) ||
++		((pHalData->EEPROMVID == 0x20F4) && (pHalData->EEPROMPID == 0x805B)) ||
++		((pHalData->EEPROMVID == 0x2001) && (pHalData->EEPROMPID == 0x3315)) ||
++		((pHalData->EEPROMVID == 0x2001) && (pHalData->EEPROMPID == 0x3316)))
++		pHalData->CustomerID = RT_CID_DLINK;
++
++	RTW_INFO("PID= 0x%x, VID=  %x\n", pHalData->EEPROMPID, pHalData->EEPROMVID);
++
++	/*	Decide CustomerID according to VID/DID or EEPROM */
++	switch (pHalData->EEPROMCustomerID) {
++	case EEPROM_CID_DEFAULT:
++		if ((pHalData->EEPROMVID == 0x2001) && (pHalData->EEPROMPID == 0x3308))
++			pHalData->CustomerID = RT_CID_DLINK;
++		else if ((pHalData->EEPROMVID == 0x2001) && (pHalData->EEPROMPID == 0x3309))
++			pHalData->CustomerID = RT_CID_DLINK;
++		else if ((pHalData->EEPROMVID == 0x2001) && (pHalData->EEPROMPID == 0x330a))
++			pHalData->CustomerID = RT_CID_DLINK;
++		else if ((pHalData->EEPROMVID == 0x0BFF) && (pHalData->EEPROMPID == 0x8160)) {
++			/* pHalData->bAutoConnectEnable = _FALSE; */
++			pHalData->CustomerID = RT_CID_CHINA_MOBILE;
++		} else if ((pHalData->EEPROMVID == 0x0BDA) &&	(pHalData->EEPROMPID == 0x5088))
++			pHalData->CustomerID = RT_CID_CC_C;
++		else if ((pHalData->EEPROMVID == 0x0846) && (pHalData->EEPROMPID == 0x9052))
++			pHalData->CustomerID = RT_CID_NETGEAR;
++		else if ((pHalData->EEPROMVID == 0x0411) && ((pHalData->EEPROMPID == 0x0242) || (pHalData->EEPROMPID == 0x025D)))
++			pHalData->CustomerID = RT_CID_DNI_BUFFALO;
++		else if (((pHalData->EEPROMVID == 0x2001) && (pHalData->EEPROMPID == 0x3314)) ||
++			((pHalData->EEPROMVID == 0x20F4) && (pHalData->EEPROMPID == 0x804B)) ||
++			((pHalData->EEPROMVID == 0x20F4) && (pHalData->EEPROMPID == 0x805B)) ||
++			((pHalData->EEPROMVID == 0x2001) && (pHalData->EEPROMPID == 0x3315)) ||
++			((pHalData->EEPROMVID == 0x2001) && (pHalData->EEPROMPID == 0x3316)))
++			pHalData->CustomerID = RT_CID_DLINK;
++		RTW_INFO("PID= 0x%x, VID=  %x\n", pHalData->EEPROMPID, pHalData->EEPROMVID);
++		break;
++	case EEPROM_CID_WHQL:
++		/* padapter->bInHctTest = TRUE; */
++
++		/* pMgntInfo->bSupportTurboMode = FALSE; */
++		/* pMgntInfo->bAutoTurboBy8186 = FALSE; */
++
++		/* pMgntInfo->PowerSaveControl.bInactivePs = FALSE; */
++		/* pMgntInfo->PowerSaveControl.bIPSModeBackup = FALSE; */
++		/* pMgntInfo->PowerSaveControl.bLeisurePs = FALSE; */
++		/* pMgntInfo->PowerSaveControl.bLeisurePsModeBackup = FALSE; */
++		/* pMgntInfo->keepAliveLevel = 0; */
++
++		/* padapter->bUnloadDriverwhenS3S4 = FALSE; */
++		break;
++	default:
++		pHalData->CustomerID = RT_CID_DEFAULT;
++		break;
++
++	}
++	RTW_INFO("Customer ID: 0x%2x\n", pHalData->CustomerID);
++
++	hal_CustomizedBehavior_8812AU(pAdapter);
++}
++
++VOID
++hal_ReadUsbModeSwitch_8812AU(
++	IN	PADAPTER	Adapter,
++	IN	u8			*PROMContent,
++	IN	BOOLEAN		AutoloadFail
++)
++{
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++
++	if (AutoloadFail)
++		pHalData->EEPROMUsbSwitch = _FALSE;
++	else
++		/* check efuse 0x08 bit2 */
++		pHalData->EEPROMUsbSwitch = (PROMContent[EEPROM_USB_MODE_8812] & BIT1) >> 1;
++
++	RTW_INFO("Usb Switch: %d\n", pHalData->EEPROMUsbSwitch);
++}
++
++static VOID
++ReadLEDSetting_8812AU(
++	IN	PADAPTER	Adapter,
++	IN	u8		*PROMContent,
++	IN	BOOLEAN		AutoloadFail
++)
++{
++	struct led_priv *pledpriv = &(Adapter->ledpriv);
++
++#ifdef CONFIG_SW_LED
++	pledpriv->bRegUseLed = _TRUE;
++#else /* HW LED */
++	pledpriv->LedStrategy = HW_LED;
++#endif /* CONFIG_SW_LED */
++}
++
++VOID
++InitAdapterVariablesByPROM_8812AU(
++	IN	PADAPTER	Adapter
++)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(Adapter);
++
++	hal_InitPGData_8812A(Adapter, pHalData->efuse_eeprom_data);
++
++	Hal_EfuseParseIDCode8812A(Adapter, pHalData->efuse_eeprom_data);
++
++	Hal_ReadPROMVersion8812A(Adapter, pHalData->efuse_eeprom_data, pHalData->bautoload_fail_flag);
++	hal_ReadIDs_8812AU(Adapter, pHalData->efuse_eeprom_data, pHalData->bautoload_fail_flag);
++	hal_config_macaddr(Adapter, pHalData->bautoload_fail_flag);
++	Hal_ReadTxPowerInfo8812A(Adapter, pHalData->efuse_eeprom_data, pHalData->bautoload_fail_flag);
++	Hal_ReadBoardType8812A(Adapter, pHalData->efuse_eeprom_data, pHalData->bautoload_fail_flag);
++
++	/*  */
++	/* Read Bluetooth co-exist and initialize */
++	/*  */
++	Hal_EfuseParseBTCoexistInfo8812A(Adapter, pHalData->efuse_eeprom_data, pHalData->bautoload_fail_flag);
++
++	Hal_ReadChannelPlan8812A(Adapter, pHalData->efuse_eeprom_data, pHalData->bautoload_fail_flag);
++	Hal_EfuseParseXtal_8812A(Adapter, pHalData->efuse_eeprom_data, pHalData->bautoload_fail_flag);
++	Hal_ReadThermalMeter_8812A(Adapter, pHalData->efuse_eeprom_data, pHalData->bautoload_fail_flag);
++	Hal_ReadRemoteWakeup_8812A(Adapter, pHalData->efuse_eeprom_data, pHalData->bautoload_fail_flag);
++	Hal_ReadAntennaDiversity8812A(Adapter, pHalData->efuse_eeprom_data, pHalData->bautoload_fail_flag);
++
++	if (IS_HARDWARE_TYPE_8821U(Adapter))
++		Hal_ReadPAType_8821A(Adapter, pHalData->efuse_eeprom_data, pHalData->bautoload_fail_flag);
++	else {
++		Hal_ReadAmplifierType_8812A(Adapter, pHalData->efuse_eeprom_data, pHalData->bautoload_fail_flag);
++		Hal_ReadRFEType_8812A(Adapter, pHalData->efuse_eeprom_data, pHalData->bautoload_fail_flag);
++	}
++
++	hal_ReadUsbModeSwitch_8812AU(Adapter, pHalData->efuse_eeprom_data, pHalData->bautoload_fail_flag);
++	hal_CustomizeByCustomerID_8812AU(Adapter);
++
++	ReadLEDSetting_8812AU(Adapter, pHalData->efuse_eeprom_data, pHalData->bautoload_fail_flag);
++
++	/* 2013/04/15 MH Add for different board type recognize. */
++	hal_ReadUsbType_8812AU(Adapter, pHalData->efuse_eeprom_data, pHalData->bautoload_fail_flag);
++
++	if (IS_HARDWARE_TYPE_8821U(Adapter))
++		Hal_EfuseParseKFreeData_8821A(Adapter, pHalData->efuse_eeprom_data, pHalData->bautoload_fail_flag);
++}
++
++static void Hal_ReadPROMContent_8812A(
++	IN PADAPTER		Adapter
++)
++{
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(Adapter);
++	u8			eeValue;
++
++	/* check system boot selection */
++	eeValue = rtw_read8(Adapter, REG_9346CR);
++	pHalData->EepromOrEfuse		= (eeValue & BOOT_FROM_EEPROM) ? _TRUE : _FALSE;
++	pHalData->bautoload_fail_flag	= (eeValue & EEPROM_EN) ? _FALSE : _TRUE;
++
++	RTW_INFO("Boot from %s, Autoload %s !\n", (pHalData->EepromOrEfuse ? "EEPROM" : "EFUSE"),
++		 (pHalData->bautoload_fail_flag ? "Fail" : "OK"));
++
++	/* pHalData->EEType = IS_BOOT_FROM_EEPROM(Adapter) ? EEPROM_93C46 : EEPROM_BOOT_EFUSE; */
++
++	InitAdapterVariablesByPROM_8812AU(Adapter);
++}
++
++void
++ReadAdapterInfo8812AU(
++	IN PADAPTER			Adapter
++)
++{
++	/* Read all content in Efuse/EEPROM. */
++	Hal_ReadPROMContent_8812A(Adapter);
++
++	/* We need to define the RF type after all PROM value is recognized. */
++	ReadRFType8812A(Adapter);
++}
++
++void UpdateInterruptMask8812AU(PADAPTER padapter, u8 bHIMR0 , u32 AddMSR, u32 RemoveMSR)
++{
++	HAL_DATA_TYPE *pHalData;
++
++	u32 *himr;
++	pHalData = GET_HAL_DATA(padapter);
++
++	if (bHIMR0)
++		himr = &(pHalData->IntrMask[0]);
++	else
++		himr = &(pHalData->IntrMask[1]);
++
++	if (AddMSR)
++		*himr |= AddMSR;
++
++	if (RemoveMSR)
++		*himr &= (~RemoveMSR);
++
++	if (bHIMR0)
++		rtw_write32(padapter, REG_HIMR0_8812, *himr);
++	else
++		rtw_write32(padapter, REG_HIMR1_8812, *himr);
++
++}
++
++void SetHwReg8812AU(PADAPTER Adapter, u8 variable, u8 *val)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(Adapter);
++	struct registry_priv *registry_par = &Adapter->registrypriv;
++
++	switch (variable) {
++	case HW_VAR_RXDMA_AGG_PG_TH:
++#ifdef CONFIG_USB_RX_AGGREGATION
++		{
++			/*u8	threshold = *((u8 *)val);
++			if( threshold == 0)
++			{
++				threshold = pHalData->UsbRxAggPageCount;
++			}
++			rtw_write8(Adapter, REG_RXDMA_AGG_PG_TH, threshold);*/
++		}
++#endif
++		break;
++	case HW_VAR_SET_RPWM:
++#ifdef CONFIG_LPS_LCLK
++		{
++			u8	ps_state = *((u8 *)val);
++
++			/*rpwm value only use BIT0(clock bit) ,BIT6(Ack bit), and BIT7(Toggle bit) for 88e.
++			BIT0 value - 1: 32k, 0:40MHz.
++			BIT6 value - 1: report cpwm value after success set, 0:do not report.
++			BIT7 value - Toggle bit change.
++			modify by Thomas. 2012/4/2.*/
++			ps_state = ps_state & 0xC1;
++			/*RTW_INFO("##### Change RPWM value to = %x for switch clk #####\n", ps_state);*/
++			rtw_write8(Adapter, REG_USB_HRPWM, ps_state);
++		}
++#endif
++#ifdef CONFIG_AP_WOWLAN
++		if (pwrctl->wowlan_ap_mode == _TRUE) {
++			u8	ps_state = *((u8 *)val);
++
++			RTW_INFO("%s, RPWM\n", __func__);
++			ps_state = ps_state & 0xC1;
++			rtw_write8(Adapter, REG_USB_HRPWM, ps_state);
++		}
++#endif
++		break;
++
++	case HW_VAR_USB_MODE:
++		/* U2 to U3 */
++		if (registry_par->switch_usb_mode == 1) {
++			if (IS_HIGH_SPEED_USB(Adapter)) {
++				if ((rtw_read8(Adapter, 0x74) & (BIT(2) | BIT(3))) != BIT(3)) {
++					rtw_write8(Adapter, 0x74, 0x8);
++					rtw_write8(Adapter, 0x70, 0x2);
++					rtw_write8(Adapter, 0x3e, 0x1);
++					rtw_write8(Adapter, 0x3d, 0x3);
++					/* usb disconnect */
++					rtw_write8(Adapter, 0x5, 0x80);
++					*val = _TRUE;
++				}
++			} else if (IS_SUPER_SPEED_USB(Adapter)) {
++				rtw_write8(Adapter, 0x70, rtw_read8(Adapter, 0x70) & (~BIT(1)));
++				rtw_write8(Adapter, 0x3e, rtw_read8(Adapter, 0x3e) & (~BIT(0)));
++			}
++		} else if (registry_par->switch_usb_mode == 2) {
++			/* U3 to U2 */
++			if (IS_SUPER_SPEED_USB(Adapter)) {
++				if ((rtw_read8(Adapter, 0x74) & (BIT(2) | BIT(3))) != BIT(2)) {
++					rtw_write8(Adapter, 0x74, 0x4);
++					rtw_write8(Adapter, 0x70, 0x2);
++					rtw_write8(Adapter, 0x3e, 0x1);
++					rtw_write8(Adapter, 0x3d, 0x3);
++					/* usb disconnect */
++					rtw_write8(Adapter, 0x5, 0x80);
++					*val = _TRUE;
++				}
++			} else if (IS_HIGH_SPEED_USB(Adapter)) {
++				rtw_write8(Adapter, 0x70, rtw_read8(Adapter, 0x70) & (~BIT(1)));
++				rtw_write8(Adapter, 0x3e, rtw_read8(Adapter, 0x3e) & (~BIT(0)));
++			}
++		}
++		break;
++	default:
++		SetHwReg8812A(Adapter, variable, val);
++		break;
++	}
++
++}
++
++void GetHwReg8812AU(PADAPTER Adapter, u8 variable, u8 *val)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++
++	switch (variable) {
++	default:
++		GetHwReg8812A(Adapter, variable, val);
++		break;
++	}
++
++}
++
++/*
++ *	Description:
++ *		Change default setting of specified variable.
++ *   */
++u8
++SetHalDefVar8812AUsb(
++	IN	PADAPTER				Adapter,
++	IN	HAL_DEF_VARIABLE		eVariable,
++	IN	PVOID					pValue
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u8			bResult = _SUCCESS;
++
++	switch (eVariable) {
++	default:
++		SetHalDefVar8812A(Adapter, eVariable, pValue);
++		break;
++	}
++
++	return bResult;
++}
++
++/*
++ *	Description:
++ *		Query setting of specified variable.
++ *   */
++u8
++GetHalDefVar8812AUsb(
++	IN	PADAPTER				Adapter,
++	IN	HAL_DEF_VARIABLE		eVariable,
++	IN	PVOID					pValue
++)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(Adapter);
++	u8			bResult = _SUCCESS;
++
++	switch (eVariable) {
++	default:
++		GetHalDefVar8812A(Adapter, eVariable, pValue);
++		break;
++	}
++
++	return bResult;
++}
++
++void _update_response_rate(_adapter *padapter, unsigned int mask)
++{
++	u8	RateIndex = 0;
++	/* Set RRSR rate table. */
++	rtw_write8(padapter, REG_RRSR, mask & 0xff);
++	rtw_write8(padapter, REG_RRSR + 1, (mask >> 8) & 0xff);
++
++	/* Set RTS initial rate */
++	while (mask > 0x1) {
++		mask = (mask >> 1);
++		RateIndex++;
++	}
++	rtw_write8(padapter, REG_INIRTS_RATE_SEL, RateIndex);
++}
++
++static void rtl8812au_init_default_value(_adapter *padapter)
++{
++	PHAL_DATA_TYPE pHalData;
++
++	pHalData = GET_HAL_DATA(padapter);
++
++	InitDefaultValue8821A(padapter);
++
++	pHalData->IntrMask[0]	= (u32)(\
++					/* IMR_ROK 		| */
++					/* IMR_RDU			| */
++					/* IMR_VODOK		| */
++					/* IMR_VIDOK		| */
++					/* IMR_BEDOK		| */
++					/* IMR_BKDOK		| */
++					/* IMR_MGNTDOK		| */
++					/* IMR_HIGHDOK		| */
++					/* IMR_CPWM		| */
++					/* IMR_CPWM2		| */
++					/* IMR_C2HCMD		| */
++					/* IMR_HISR1_IND_INT	| */
++					/* IMR_ATIMEND		| */
++					/* IMR_BCNDMAINT_E	| */
++					/* IMR_HSISR_IND_ON_INT	| */
++					/* IMR_BCNDOK0		| */
++					/* IMR_BCNDMAINT0	| */
++					/* IMR_TSF_BIT32_TOGGLE	| */
++					/* IMR_TXBCN0OK	| */
++					/* IMR_TXBCN0ERR	| */
++					/* IMR_GTINT3		| */
++					/* IMR_GTINT4		| */
++					/* IMR_TXCCK		| */
++					0);
++
++	pHalData->IntrMask[1]	= (u32)(\
++					/* IMR_RXFOVW		| */
++					/* IMR_TXFOVW		| */
++					/* IMR_RXERR		| */
++					/* IMR_TXERR		| */
++					/* IMR_ATIMEND_E	| */
++					/* IMR_BCNDOK1		| */
++					/* IMR_BCNDOK2		| */
++					/* IMR_BCNDOK3		| */
++					/* IMR_BCNDOK4		| */
++					/* IMR_BCNDOK5		| */
++					/* IMR_BCNDOK6		| */
++					/* IMR_BCNDOK7		| */
++					/* IMR_BCNDMAINT1	| */
++					/* IMR_BCNDMAINT2	| */
++					/* IMR_BCNDMAINT3	| */
++					/* IMR_BCNDMAINT4	| */
++					/* IMR_BCNDMAINT5	| */
++					/* IMR_BCNDMAINT6	| */
++					/* IMR_BCNDMAINT7	| */
++					0);
++}
++
++static u8 rtl8812au_ps_func(PADAPTER Adapter, HAL_INTF_PS_FUNC efunc_id, u8 *val)
++{
++	u8 bResult = _TRUE;
++	switch (efunc_id) {
++
++#if defined(CONFIG_AUTOSUSPEND) && defined(SUPPORT_HW_RFOFF_DETECTED)
++	case HAL_USB_SELECT_SUSPEND: {
++		u8 bfwpoll = *((u8 *)val);
++		/* rtl8188e_set_FwSelectSuspend_cmd(Adapter,bfwpoll ,500); */ /* note fw to support hw power down ping detect */
++	}
++	break;
++#endif /* CONFIG_AUTOSUSPEND && SUPPORT_HW_RFOFF_DETECTED */
++
++	default:
++		break;
++	}
++	return bResult;
++}
++
++void rtl8812au_set_hal_ops(_adapter *padapter)
++{
++	struct hal_ops	*pHalFunc = &padapter->HalFunc;
++
++
++	pHalFunc->hal_power_on = _InitPowerOn_8812AU;
++	pHalFunc->hal_power_off = hal_poweroff_8812au;
++
++	pHalFunc->hal_init = &rtl8812au_hal_init;
++	pHalFunc->hal_deinit = &rtl8812au_hal_deinit;
++
++	pHalFunc->inirp_init = &rtl8812au_inirp_init;
++	pHalFunc->inirp_deinit = &rtl8812au_inirp_deinit;
++
++	pHalFunc->init_xmit_priv = &rtl8812au_init_xmit_priv;
++	pHalFunc->free_xmit_priv = &rtl8812au_free_xmit_priv;
++
++	pHalFunc->init_recv_priv = &rtl8812au_init_recv_priv;
++	pHalFunc->free_recv_priv = &rtl8812au_free_recv_priv;
++#ifdef CONFIG_SW_LED
++	pHalFunc->InitSwLeds = &rtl8812au_InitSwLeds;
++	pHalFunc->DeInitSwLeds = &rtl8812au_DeInitSwLeds;
++#else /* case of hw led or no led */
++	pHalFunc->InitSwLeds = NULL;
++	pHalFunc->DeInitSwLeds = NULL;
++#endif/* CONFIG_SW_LED */
++
++	pHalFunc->init_default_value = &rtl8812au_init_default_value;
++	pHalFunc->intf_chip_configure = &rtl8812au_interface_configure;
++	pHalFunc->read_adapter_info = &ReadAdapterInfo8812AU;
++
++	pHalFunc->SetHwRegHandler = &SetHwReg8812AU;
++	pHalFunc->GetHwRegHandler = &GetHwReg8812AU;
++	pHalFunc->GetHalDefVarHandler = &GetHalDefVar8812AUsb;
++	pHalFunc->SetHalDefVarHandler = &SetHalDefVar8812AUsb;
++
++	pHalFunc->hal_xmit = &rtl8812au_hal_xmit;
++	pHalFunc->mgnt_xmit = &rtl8812au_mgnt_xmit;
++	pHalFunc->hal_xmitframe_enqueue = &rtl8812au_hal_xmitframe_enqueue;
++
++#ifdef CONFIG_HOSTAPD_MLME
++	pHalFunc->hostap_mgnt_xmit_entry = &rtl8812au_hostap_mgnt_xmit_entry;
++#endif
++	pHalFunc->interface_ps_func = &rtl8812au_ps_func;
++#ifdef CONFIG_XMIT_THREAD_MODE
++	pHalFunc->xmit_thread_handler = &rtl8812au_xmit_buf_handler;
++#endif
++#ifdef CONFIG_SUPPORT_USB_INT
++	pHalFunc->interrupt_handler = interrupt_handler_8812au;
++#endif
++
++	rtl8812_set_hal_ops(pHalFunc);
++
++}
+diff --git a/drivers/net/wireless/rtl8812au/hal/rtl8812a/usb/usb_ops_linux.c b/drivers/net/wireless/rtl8812au/hal/rtl8812a/usb/usb_ops_linux.c
+new file mode 100644
+index 0000000..e4b24e9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/hal/rtl8812a/usb/usb_ops_linux.c
+@@ -0,0 +1,262 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HCI_OPS_OS_C_
++
++/* #include <drv_types.h> */
++#include <rtl8812a_hal.h>
++
++#ifdef CONFIG_SUPPORT_USB_INT
++void interrupt_handler_8812au(_adapter *padapter, u16 pkt_len, u8 *pbuf)
++{
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct reportpwrstate_parm pwr_rpt;
++
++	if (pkt_len != INTERRUPT_MSG_FORMAT_LEN) {
++		RTW_INFO("%s Invalid interrupt content length (%d)!\n", __FUNCTION__, pkt_len);
++		return ;
++	}
++
++	/* HISR */
++	_rtw_memcpy(&(pHalData->IntArray[0]), &(pbuf[USB_INTR_CONTENT_HISR_OFFSET]), 4);
++	_rtw_memcpy(&(pHalData->IntArray[1]), &(pbuf[USB_INTR_CONTENT_HISRE_OFFSET]), 4);
++
++#if 0 /*DBG*/
++	{
++		u32 hisr = 0 , hisr_ex = 0;
++		_rtw_memcpy(&hisr, &(pHalData->IntArray[0]), 4);
++		hisr = le32_to_cpu(hisr);
++
++		_rtw_memcpy(&hisr_ex, &(pHalData->IntArray[1]), 4);
++		hisr_ex = le32_to_cpu(hisr_ex);
++
++		if ((hisr != 0) || (hisr_ex != 0))
++			RTW_INFO("===> %s hisr:0x%08x ,hisr_ex:0x%08x\n", __FUNCTION__, hisr, hisr_ex);
++	}
++#endif
++
++
++#ifdef CONFIG_LPS_LCLK
++	if (pHalData->IntArray[0]  & IMR_CPWM_88E) {
++		_rtw_memcpy(&pwr_rpt.state, &(pbuf[USB_INTR_CONTENT_CPWM1_OFFSET]), 1);
++		/* _rtw_memcpy(&pwr_rpt.state2, &(pbuf[USB_INTR_CONTENT_CPWM2_OFFSET]), 1); */
++
++		/* 88e's cpwm value only change BIT0, so driver need to add PS_STATE_S2 for LPS flow.		 */
++		pwr_rpt.state |= PS_STATE_S2;
++		_set_workitem(&(adapter_to_pwrctl(padapter)->cpwm_event));
++	}
++#endif/* CONFIG_LPS_LCLK */
++
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN
++
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT
++	if (pHalData->IntArray[0] & IMR_BCNDMAINT0_8812)/*only for BCN_0*/
++#endif
++#ifdef CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR
++		if (pHalData->IntArray[0] & (IMR_TBDER_88E | IMR_TBDOK_88E))
++#endif
++		{
++#if 0
++			if (pHalData->IntArray[0] & IMR_BCNDMAINT0_88E)
++				RTW_INFO("%s: HISR_BCNERLY_INT\n", __func__);
++			if (pHalData->IntArray[0] & IMR_TBDOK_88E)
++				RTW_INFO("%s: HISR_TXBCNOK\n", __func__);
++			if (pHalData->IntArray[0] & IMR_TBDER_88E)
++				RTW_INFO("%s: HISR_TXBCNERR\n", __func__);
++#endif
++			rtw_mi_set_tx_beacon_cmd(padapter);
++		}
++#endif /* CONFIG_INTERRUPT_BASED_TXBCN */
++
++
++
++
++#ifdef DBG_CONFIG_ERROR_DETECT_INT
++	if (pHalData->IntArray[1]  & IMR_TXERR_88E)
++		RTW_INFO("===> %s Tx Error Flag Interrupt Status\n", __FUNCTION__);
++	if (pHalData->IntArray[1]  & IMR_RXERR_88E)
++		RTW_INFO("===> %s Rx Error Flag INT Status\n", __FUNCTION__);
++	if (pHalData->IntArray[1]  & IMR_TXFOVW_88E)
++		RTW_INFO("===> %s Transmit FIFO Overflow\n", __FUNCTION__);
++	if (pHalData->IntArray[1]  & IMR_RXFOVW_88E)
++		RTW_INFO("===> %s Receive FIFO Overflow\n", __FUNCTION__);
++#endif/* DBG_CONFIG_ERROR_DETECT_INT */
++
++
++	/* C2H Event */
++	if (pbuf[0] != 0) {
++		_rtw_memcpy(&(pHalData->C2hArray[0]), &(pbuf[USB_INTR_CONTENT_C2H_OFFSET]), 16);
++		/* rtw_c2h_wk_cmd(padapter); to do.. */
++	}
++
++}
++#endif
++
++int recvbuf2recvframe(PADAPTER padapter, void *ptr)
++{
++	u8	*pbuf;
++	u8	pkt_cnt = 0;
++	u32	pkt_offset;
++	s32	transfer_len;
++	u8				*pphy_status = NULL;
++	union recv_frame	*precvframe = NULL;
++	struct rx_pkt_attrib	*pattrib = NULL;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++	_queue			*pfree_recv_queue = &precvpriv->free_recv_queue;
++	_pkt *pskb;
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++	pskb = NULL;
++	transfer_len = (s32)((struct recv_buf *)ptr)->transfer_len;
++	pbuf = ((struct recv_buf *)ptr)->pbuf;
++#else
++	pskb = (_pkt *)ptr;
++	transfer_len = (s32)pskb->len;
++	pbuf = pskb->data;
++#endif/* CONFIG_USE_USB_BUFFER_ALLOC_RX */
++
++
++#ifdef CONFIG_USB_RX_AGGREGATION
++	pkt_cnt = GET_RX_STATUS_DESC_USB_AGG_PKTNUM_8812(pbuf);
++#endif
++
++	do {
++		precvframe = rtw_alloc_recvframe(pfree_recv_queue);
++		if (precvframe == NULL) {
++			RTW_INFO("%s()-%d: rtw_alloc_recvframe() failed! RX Drop!\n", __FUNCTION__, __LINE__);
++			goto _exit_recvbuf2recvframe;
++		}
++
++		_rtw_init_listhead(&precvframe->u.hdr.list);
++		precvframe->u.hdr.precvbuf = NULL;	/* can't access the precvbuf for new arch. */
++		precvframe->u.hdr.len = 0;
++
++		rtl8812_query_rx_desc_status(precvframe, pbuf);
++
++		pattrib = &precvframe->u.hdr.attrib;
++
++		if ((padapter->registrypriv.mp_mode == 0) && ((pattrib->crc_err) || (pattrib->icv_err))) {
++			RTW_INFO("%s: RX Warning! crc_err=%d icv_err=%d, skip!\n", __FUNCTION__, pattrib->crc_err, pattrib->icv_err);
++
++			rtw_free_recvframe(precvframe, pfree_recv_queue);
++			goto _exit_recvbuf2recvframe;
++		}
++
++		pkt_offset = RXDESC_SIZE + pattrib->drvinfo_sz + pattrib->shift_sz + pattrib->pkt_len;
++
++		if ((pattrib->pkt_len <= 0) || (pkt_offset > transfer_len)) {
++			RTW_INFO("%s()-%d: RX Warning!,pkt_len<=0 or pkt_offset> transfer_len\n", __FUNCTION__, __LINE__);
++			rtw_free_recvframe(precvframe, pfree_recv_queue);
++			goto _exit_recvbuf2recvframe;
++		}
++
++#ifdef CONFIG_RX_PACKET_APPEND_FCS
++		if (check_fwstate(&padapter->mlmepriv, WIFI_MONITOR_STATE) == _FALSE)
++			if ((pattrib->pkt_rpt_type == NORMAL_RX) && (pHalData->ReceiveConfig & RCR_APPFCS))
++				pattrib->pkt_len -= IEEE80211_FCS_LEN;
++#endif
++		if (rtw_os_alloc_recvframe(padapter, precvframe,
++			(pbuf + pattrib->shift_sz + pattrib->drvinfo_sz + RXDESC_SIZE), pskb) == _FAIL) {
++			rtw_free_recvframe(precvframe, pfree_recv_queue);
++
++			goto _exit_recvbuf2recvframe;
++		}
++
++		recvframe_put(precvframe, pattrib->pkt_len);
++		/* recvframe_pull(precvframe, drvinfo_sz + RXDESC_SIZE); */
++
++		if (pattrib->pkt_rpt_type == NORMAL_RX) { /* Normal rx packet */
++			if (pattrib->physt)
++				pphy_status = (pbuf + RXDESC_OFFSET);
++
++#ifdef CONFIG_CONCURRENT_MODE
++			pre_recv_entry(precvframe, pphy_status);
++#endif /*CONFIG_CONCURRENT_MODE*/
++
++			if (pattrib->physt && pphy_status)
++				rx_query_phy_status(precvframe, pphy_status);
++
++			rtw_recv_entry(precvframe);
++
++		} else { /* pkt_rpt_type == TX_REPORT1-CCX, TX_REPORT2-TX RTP,HIS_REPORT-USB HISR RTP */
++			if (pattrib->pkt_rpt_type == C2H_PACKET) {
++				/*RTW_INFO("rx C2H_PACKET\n");*/
++				C2HPacketHandler_8812(padapter, precvframe->u.hdr.rx_data, pattrib->pkt_len);
++			} else if (pattrib->pkt_rpt_type == HIS_REPORT) {
++				/*RTW_INFO("%s rx USB HISR\n", __func__);*/
++#ifdef CONFIG_SUPPORT_USB_INT
++				interrupt_handler_8812au(padapter, pattrib->pkt_len, precvframe->u.hdr.rx_data);
++#endif
++			}
++			rtw_free_recvframe(precvframe, pfree_recv_queue);
++		}
++
++#ifdef CONFIG_USB_RX_AGGREGATION
++		/* jaguar 8-byte alignment */
++		pkt_offset = (u16)_RND8(pkt_offset);
++		pkt_cnt--;
++		pbuf += pkt_offset;
++#endif
++		transfer_len -= pkt_offset;
++		precvframe = NULL;
++
++	} while (transfer_len > 0);
++
++_exit_recvbuf2recvframe:
++
++	return _SUCCESS;
++}
++
++
++void rtl8812au_xmit_tasklet(void *priv)
++{
++	int ret = _FALSE;
++	_adapter *padapter = (_adapter *)priv;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	while (1) {
++		if (RTW_CANNOT_TX(padapter)) {
++			RTW_INFO("xmit_tasklet => bDriverStopped or bSurpriseRemoved or bWritePortCancel\n");
++			break;
++		}
++
++		if (rtw_xmit_ac_blocked(padapter) == _TRUE)
++			break;
++
++		ret = rtl8812au_xmitframe_complete(padapter, pxmitpriv, NULL);
++
++		if (ret == _FALSE)
++			break;
++
++	}
++
++}
++
++void rtl8812au_set_hw_type(struct dvobj_priv *pdvobj)
++{
++	if (pdvobj->chip_type == RTL8812) {
++		pdvobj->HardwareType = HARDWARE_TYPE_RTL8812AU;
++		RTW_INFO("CHIP TYPE: RTL8812\n");
++	} else if (pdvobj->chip_type == RTL8821) {
++		/*pdvobj->HardwareType = HARDWARE_TYPE_RTL8811AU;	*/
++		pdvobj->HardwareType = HARDWARE_TYPE_RTL8821U;
++		RTW_INFO("CHIP TYPE: RTL8811AU or RTL8821U\n");
++	}
++}
+diff --git a/drivers/net/wireless/rtl8812au/ifcfg-wlan0 b/drivers/net/wireless/rtl8812au/ifcfg-wlan0
+new file mode 100644
+index 0000000..20dcbec
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/ifcfg-wlan0
+@@ -0,0 +1,4 @@
++#DHCP client
++DEVICE=wlan0
++BOOTPROTO=dhcp
++ONBOOT=yes
+\ No newline at end of file
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8188EPhyCfg.h b/drivers/net/wireless/rtl8812au/include/Hal8188EPhyCfg.h
+new file mode 100644
+index 0000000..08bd8d6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8188EPhyCfg.h
+@@ -0,0 +1,265 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8188EPHYCFG_H__
++#define __INC_HAL8188EPHYCFG_H__
++
++
++/*--------------------------Define Parameters-------------------------------*/
++#define LOOP_LIMIT				5
++#define MAX_STALL_TIME			50		/* us */
++#define AntennaDiversityValue		0x80	/* (Adapter->bSoftwareAntennaDiversity ? 0x00 : 0x80) */
++#define MAX_TXPWR_IDX_NMODE_92S	63
++#define Reset_Cnt_Limit			3
++
++#ifdef CONFIG_PCI_HCI
++	#define MAX_AGGR_NUM	0x0B
++#else
++	#define MAX_AGGR_NUM	0x07
++#endif /* CONFIG_PCI_HCI */
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++
++/*------------------------------Define structure----------------------------*/
++
++#define	MAX_TX_COUNT_8188E			1
++
++/* BB/RF related */
++
++
++/*------------------------------Define structure----------------------------*/
++
++
++/*------------------------Export global variable----------------------------*/
++/*------------------------Export global variable----------------------------*/
++
++
++/*------------------------Export Marco Definition---------------------------*/
++/*------------------------Export Marco Definition---------------------------*/
++
++
++/*--------------------------Exported Function prototype---------------------*/
++/*
++ * BB and RF register read/write
++ *   */
++u32	PHY_QueryBBReg8188E(IN	PADAPTER	Adapter,
++			    IN	u32		RegAddr,
++			    IN	u32		BitMask);
++void	PHY_SetBBReg8188E(IN	PADAPTER	Adapter,
++			  IN	u32		RegAddr,
++			  IN	u32		BitMask,
++			  IN	u32		Data);
++u32	PHY_QueryRFReg8188E(IN	PADAPTER	Adapter,
++			    IN	u8				eRFPath,
++			    IN	u32				RegAddr,
++			    IN	u32				BitMask);
++void	PHY_SetRFReg8188E(IN	PADAPTER		Adapter,
++			  IN	u8				eRFPath,
++			  IN	u32				RegAddr,
++			  IN	u32				BitMask,
++			  IN	u32				Data);
++
++/*
++ * Initialization related function
++ */
++/* MAC/BB/RF HAL config */
++int	PHY_MACConfig8188E(IN	PADAPTER	Adapter);
++int	PHY_BBConfig8188E(IN	PADAPTER	Adapter);
++int	PHY_RFConfig8188E(IN	PADAPTER	Adapter);
++
++/* RF config */
++int	rtl8188e_PHY_ConfigRFWithParaFile(IN PADAPTER Adapter, IN u8 *pFileName, u8 eRFPath);
++
++/*
++ * RF Power setting
++ */
++/* extern	BOOLEAN	PHY_SetRFPowerState(IN	PADAPTER			Adapter,
++ *									IN	RT_RF_POWER_STATE	eRFPowerState); */
++
++/*
++ * BB TX Power R/W
++ *   */
++void	PHY_GetTxPowerLevel8188E(IN	PADAPTER		Adapter,
++				 OUT s32		*powerlevel);
++void	PHY_SetTxPowerLevel8188E(IN	PADAPTER		Adapter,
++				 IN	u8			channel);
++BOOLEAN	PHY_UpdateTxPowerDbm8188E(IN	PADAPTER	Adapter,
++				  IN	int		powerInDbm);
++
++VOID
++PHY_SetTxPowerIndex_8188E(
++	IN	PADAPTER			Adapter,
++	IN	u32					PowerIndex,
++	IN	u8					RFPath,
++	IN	u8					Rate
++);
++
++u8
++PHY_GetTxPowerIndex_8188E(
++	IN	PADAPTER		pAdapter,
++	IN	u8				RFPath,
++	IN	u8				Rate,
++	IN	u8				BandWidth,
++	IN	u8				Channel,
++	struct txpwr_idx_comp *tic
++);
++
++/*
++ * Switch bandwidth for 8192S
++ */
++/* extern	void	PHY_SetBWModeCallback8192C(	IN	PRT_TIMER		pTimer	); */
++void	PHY_SetBWMode8188E(IN	PADAPTER			pAdapter,
++			   IN	CHANNEL_WIDTH	ChnlWidth,
++			   IN	unsigned char	Offset);
++
++/*
++ * Set FW CMD IO for 8192S.
++ */
++/* extern	BOOLEAN HalSetIO8192C(	IN	PADAPTER			Adapter,
++ *									IN	IO_TYPE				IOType); */
++
++/*
++ * Set A2 entry to fw for 8192S
++ *   */
++extern	void FillA2Entry8192C(IN	PADAPTER			Adapter,
++			      IN	u8				index,
++			      IN	u8				*val);
++
++
++/*
++ * channel switch related funciton
++ */
++/* extern	void	PHY_SwChnlCallback8192C(	IN	PRT_TIMER		pTimer	); */
++void	PHY_SwChnl8188E(IN	PADAPTER		pAdapter,
++			IN	u8			channel);
++
++VOID
++PHY_SetSwChnlBWMode8188E(
++	IN	PADAPTER			Adapter,
++	IN	u8					channel,
++	IN	CHANNEL_WIDTH	Bandwidth,
++	IN	u8					Offset40,
++	IN	u8					Offset80
++);
++
++VOID
++PHY_SetRFEReg_8188E(
++	IN PADAPTER		Adapter
++);
++/*
++ * BB/MAC/RF other monitor API
++ *   */
++VOID PHY_SetRFPathSwitch_8188E(IN	PADAPTER	pAdapter, IN	BOOLEAN		bMain);
++
++extern	VOID
++PHY_SwitchEphyParameter(
++	IN	PADAPTER			Adapter
++);
++
++extern	VOID
++PHY_EnableHostClkReq(
++	IN	PADAPTER			Adapter
++);
++
++BOOLEAN
++SetAntennaConfig92C(
++	IN	PADAPTER	Adapter,
++	IN	u8		DefaultAnt
++);
++
++/*--------------------------Exported Function prototype---------------------*/
++
++/*
++ * Initialization related function
++ *
++ * MAC/BB/RF HAL config */
++/* extern s32 PHY_MACConfig8723(PADAPTER padapter);
++ * s32 PHY_BBConfig8723(PADAPTER padapter);
++ * s32 PHY_RFConfig8723(PADAPTER padapter); */
++
++
++
++/* ******************************************************************
++ * Note: If SIC_ENABLE under PCIE, because of the slow operation
++ *	you should
++ * 	2) "#define RTL8723_FPGA_VERIFICATION	1"				in Precomp.h.WlanE.Windows
++ * 	3) "#define RTL8190_Download_Firmware_From_Header	0"	in Precomp.h.WlanE.Windows if needed.
++ *   */
++#if (RTL8188E_SUPPORT == 1) && (RTL8188E_FPGA_TRUE_PHY_VERIFICATION == 1)
++	#define	SIC_ENABLE				1
++	#define	SIC_HW_SUPPORT		1
++#else
++	#define	SIC_ENABLE				0
++	#define	SIC_HW_SUPPORT		0
++#endif
++/* ****************************************************************** */
++
++
++#define	SIC_MAX_POLL_CNT		5
++
++#if (SIC_HW_SUPPORT == 1)
++	#define	SIC_CMD_READY			0
++	#define	SIC_CMD_PREWRITE		0x1
++	#if (RTL8188E_SUPPORT == 1)
++		#define	SIC_CMD_WRITE			0x40
++		#define	SIC_CMD_PREREAD		0x2
++		#define	SIC_CMD_READ			0x80
++		#define	SIC_CMD_INIT			0xf0
++		#define	SIC_INIT_VAL			0xff
++
++		#define	SIC_INIT_REG			0x1b7
++		#define	SIC_CMD_REG			0x1EB		/* 1byte */
++		#define	SIC_ADDR_REG			0x1E8		/* 1b4~1b5, 2 bytes */
++		#define	SIC_DATA_REG			0x1EC		/* 1b0~1b3 */
++	#else
++		#define	SIC_CMD_WRITE			0x11
++		#define	SIC_CMD_PREREAD		0x2
++		#define	SIC_CMD_READ			0x12
++		#define	SIC_CMD_INIT			0x1f
++		#define	SIC_INIT_VAL			0xff
++
++		#define	SIC_INIT_REG			0x1b7
++		#define	SIC_CMD_REG			0x1b6		/* 1byte */
++		#define	SIC_ADDR_REG			0x1b4		/* 1b4~1b5, 2 bytes */
++		#define	SIC_DATA_REG			0x1b0		/* 1b0~1b3 */
++	#endif
++#else
++	#define	SIC_CMD_READY			0
++	#define	SIC_CMD_WRITE			1
++	#define	SIC_CMD_READ			2
++
++	#if (RTL8188E_SUPPORT == 1)
++		#define	SIC_CMD_REG			0x1EB		/* 1byte */
++		#define	SIC_ADDR_REG			0x1E8		/* 1b9~1ba, 2 bytes */
++		#define	SIC_DATA_REG			0x1EC		/* 1bc~1bf */
++	#else
++		#define	SIC_CMD_REG			0x1b8		/* 1byte */
++		#define	SIC_ADDR_REG			0x1b9		/* 1b9~1ba, 2 bytes */
++		#define	SIC_DATA_REG			0x1bc		/* 1bc~1bf */
++	#endif
++#endif
++
++#if (SIC_ENABLE == 1)
++	VOID SIC_Init(IN PADAPTER Adapter);
++#endif
++
++
++#endif /* __INC_HAL8192CPHYCFG_H */
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8188EPhyReg.h b/drivers/net/wireless/rtl8812au/include/Hal8188EPhyReg.h
+new file mode 100644
+index 0000000..783ea641
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8188EPhyReg.h
+@@ -0,0 +1,1105 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8188EPHYREG_H__
++#define __INC_HAL8188EPHYREG_H__
++/*--------------------------Define Parameters-------------------------------*/
++/*
++ * BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++ * 3. RF register 0x00-2E
++ * 4. Bit Mask for BB/RF register
++ * 5. Other defintion for BB/RF R/W
++ *   */
++
++
++/*
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 1. Page1(0x100)
++ *   */
++#define		rPMAC_Reset					0x100
++#define		rPMAC_TxStart				0x104
++#define		rPMAC_TxLegacySIG			0x108
++#define		rPMAC_TxHTSIG1				0x10c
++#define		rPMAC_TxHTSIG2				0x110
++#define		rPMAC_PHYDebug				0x114
++#define		rPMAC_TxPacketNum			0x118
++#define		rPMAC_TxIdle					0x11c
++#define		rPMAC_TxMACHeader0			0x120
++#define		rPMAC_TxMACHeader1			0x124
++#define		rPMAC_TxMACHeader2			0x128
++#define		rPMAC_TxMACHeader3			0x12c
++#define		rPMAC_TxMACHeader4			0x130
++#define		rPMAC_TxMACHeader5			0x134
++#define		rPMAC_TxDataType				0x138
++#define		rPMAC_TxRandomSeed			0x13c
++#define		rPMAC_CCKPLCPPreamble		0x140
++#define		rPMAC_CCKPLCPHeader			0x144
++#define		rPMAC_CCKCRC16				0x148
++#define		rPMAC_OFDMRxCRC32OK		0x170
++#define		rPMAC_OFDMRxCRC32Er		0x174
++#define		rPMAC_OFDMRxParityEr			0x178
++#define		rPMAC_OFDMRxCRC8Er			0x17c
++#define		rPMAC_CCKCRxRC16Er			0x180
++#define		rPMAC_CCKCRxRC32Er			0x184
++#define		rPMAC_CCKCRxRC32OK			0x188
++#define		rPMAC_TxStatus				0x18c
++
++/*
++ * 2. Page2(0x200)
++ *
++ * The following two definition are only used for USB interface. */
++#define		RF_BB_CMD_ADDR				0x02c0	/* RF/BB read/write command address. */
++#define		RF_BB_CMD_DATA				0x02c4	/* RF/BB read/write command data. */
++
++/*
++ * 3. Page8(0x800)
++ *   */
++#define		rFPGA0_RFMOD				0x800	/* RF mode & CCK TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA0_TxInfo					0x804	/* Status report?? */
++#define		rFPGA0_PSDFunction			0x808
++
++#define		rFPGA0_TxGainStage			0x80c	/* Set TX PWR init gain? */
++
++#define		rFPGA0_RFTiming1				0x810	/* Useless now */
++#define		rFPGA0_RFTiming2				0x814
++
++#define		rFPGA0_XA_HSSIParameter1		0x820	/* RF 3 wire register */
++#define		rFPGA0_XA_HSSIParameter2		0x824
++#define		rFPGA0_XB_HSSIParameter1		0x828
++#define		rFPGA0_XB_HSSIParameter2		0x82c
++
++#define		rFPGA0_XA_LSSIParameter		0x840
++#define		rFPGA0_XB_LSSIParameter		0x844
++
++#define		rFPGA0_RFWakeUpParameter	0x850	/* Useless now */
++#define		rFPGA0_RFSleepUpParameter		0x854
++
++#define		rFPGA0_XAB_SwitchControl		0x858	/* RF Channel switch */
++#define		rFPGA0_XCD_SwitchControl		0x85c
++
++#define		rFPGA0_XA_RFInterfaceOE		0x860	/* RF Channel switch */
++#define		rFPGA0_XB_RFInterfaceOE		0x864
++#define		rFPGA0_XAB_RFInterfaceSW		0x870	/* RF Interface Software Control */
++#define		rFPGA0_XCD_RFInterfaceSW		0x874
++
++#define		rFPGA0_XAB_RFParameter		0x878	/* RF Parameter */
++#define		rFPGA0_XCD_RFParameter		0x87c
++
++#define		rFPGA0_AnalogParameter1		0x880	/* Crystal cap setting RF-R/W protection for parameter4?? */
++#define		rFPGA0_AnalogParameter2		0x884
++#define		rFPGA0_AnalogParameter3		0x888
++#define		rFPGA0_AdDaClockEn			0x888	/* enable ad/da clock1 for dual-phy */
++#define		rFPGA0_AnalogParameter4		0x88c
++
++#define		rFPGA0_XA_LSSIReadBack		0x8a0	/* Tranceiver LSSI Readback */
++#define		rFPGA0_XB_LSSIReadBack		0x8a4
++#define		rFPGA0_XC_LSSIReadBack		0x8a8
++#define		rFPGA0_XD_LSSIReadBack		0x8ac
++
++#define		rFPGA0_PSDReport				0x8b4	/* Useless now */
++#define		TransceiverA_HSPI_Readback		0x8b8	/* Transceiver A HSPI Readback */
++#define		TransceiverB_HSPI_Readback		0x8bc	/* Transceiver B HSPI Readback */
++#define		rFPGA0_XAB_RFInterfaceRB		0x8e0	/* Useless now */ /* RF Interface Readback Value */
++#define		rFPGA0_XCD_RFInterfaceRB		0x8e4	/* Useless now */
++
++/*
++ * 4. Page9(0x900)
++ *   */
++#define		rFPGA1_RFMOD				0x900	/* RF mode & OFDM TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA1_TxBlock				0x904	/* Useless now */
++#define		rFPGA1_DebugSelect			0x908	/* Useless now */
++#define		rFPGA1_TxInfo					0x90c	/* Useless now */ /* Status report?? */
++
++/*
++ * 5. PageA(0xA00)
++ *
++ * Set Control channel to upper or lower. These settings are required only for 40MHz */
++#define		rCCK0_System					0xa00
++
++#define		rCCK0_AFESetting				0xa04	/* Disable init gain now */ /* Select RX path by RSSI */
++#define		rCCK0_CCA					0xa08	/* Disable init gain now */ /* Init gain */
++
++#define		rCCK0_RxAGC1				0xa0c	/* AGC default value, saturation level  */ /* Antenna Diversity, RX AGC, LNA Threshold, RX LNA Threshold useless now. Not the same as 90 series */
++#define		rCCK0_RxAGC2				0xa10	/* AGC & DAGC */
++
++#define		rCCK0_RxHP					0xa14
++
++#define		rCCK0_DSPParameter1			0xa18	/* Timing recovery & Channel estimation threshold */
++#define		rCCK0_DSPParameter2			0xa1c	/* SQ threshold */
++
++#define		rCCK0_TxFilter1				0xa20
++#define		rCCK0_TxFilter2				0xa24
++#define		rCCK0_DebugPort				0xa28	/* debug port and Tx filter3 */
++#define		rCCK0_FalseAlarmReport		0xa2c	/* 0xa2d	useless now 0xa30-a4f channel report */
++#define		rCCK0_TRSSIReport			0xa50
++#define		rCCK0_RxReport            			0xa54  /* 0xa57 */
++#define		rCCK0_FACounterLower      		0xa5c  /* 0xa5b */
++#define		rCCK0_FACounterUpper      		0xa58  /* 0xa5c */
++
++/*
++ * PageB(0xB00)
++ *   */
++#define		rPdp_AntA					0xb00
++#define		rPdp_AntA_4				0xb04
++#define		rConfig_Pmpd_AntA			0xb28
++#define		rConfig_ram64x16				0xb2c
++#define		rConfig_AntA					0xb68
++#define		rConfig_AntB					0xb6c
++#define		rPdp_AntB					0xb70
++#define		rPdp_AntB_4					0xb74
++#define		rConfig_Pmpd_AntB			0xb98
++#define		rAPK							0xbd8
++
++
++
++/*
++ * 6. PageC(0xC00)
++ *   */
++#define		rOFDM0_LSTF					0xc00
++
++#define		rOFDM0_TRxPathEnable			0xc04
++#define		rOFDM0_TRMuxPar				0xc08
++#define		rOFDM0_TRSWIsolation			0xc0c
++
++#define		rOFDM0_XARxAFE				0xc10  /* RxIQ DC offset, Rx digital filter, DC notch filter */
++#define		rOFDM0_XARxIQImbalance    		0xc14  /* RxIQ imblance matrix */
++#define		rOFDM0_XBRxAFE			0xc18
++#define		rOFDM0_XBRxIQImbalance		0xc1c
++#define		rOFDM0_XCRxAFE			0xc20
++#define		rOFDM0_XCRxIQImbalance		0xc24
++#define		rOFDM0_XDRxAFE			0xc28
++#define		rOFDM0_XDRxIQImbalance		0xc2c
++
++#define		rOFDM0_RxDetector1			0xc30  /* PD, BW & SBD	 */ /* DM tune init gain */
++#define		rOFDM0_RxDetector2			0xc34  /* SBD & Fame Sync. */
++#define		rOFDM0_RxDetector3			0xc38  /* Frame Sync. */
++#define		rOFDM0_RxDetector4			0xc3c  /* PD, SBD, Frame Sync & Short-GI */
++
++#define		rOFDM0_RxDSP				0xc40  /* Rx Sync Path */
++#define		rOFDM0_CFOandDAGC			0xc44  /* CFO & DAGC */
++#define		rOFDM0_CCADropThreshold		0xc48 /* CCA Drop threshold */
++#define		rOFDM0_ECCAThreshold			0xc4c /* energy CCA */
++
++#define		rOFDM0_XAAGCCore1			0xc50	/* DIG */
++#define		rOFDM0_XAAGCCore2			0xc54
++#define		rOFDM0_XBAGCCore1			0xc58
++#define		rOFDM0_XBAGCCore2			0xc5c
++#define		rOFDM0_XCAGCCore1			0xc60
++#define		rOFDM0_XCAGCCore2			0xc64
++#define		rOFDM0_XDAGCCore1			0xc68
++#define		rOFDM0_XDAGCCore2			0xc6c
++
++#define		rOFDM0_AGCParameter1		0xc70
++#define		rOFDM0_AGCParameter2		0xc74
++#define		rOFDM0_AGCRSSITable			0xc78
++#define		rOFDM0_HTSTFAGC				0xc7c
++
++#define		rOFDM0_XATxIQImbalance		0xc80	/* TX PWR TRACK and DIG */
++#define		rOFDM0_XATxAFE				0xc84
++#define		rOFDM0_XBTxIQImbalance		0xc88
++#define		rOFDM0_XBTxAFE				0xc8c
++#define		rOFDM0_XCTxIQImbalance		0xc90
++#define		rOFDM0_XCTxAFE			0xc94
++#define		rOFDM0_XDTxIQImbalance		0xc98
++#define		rOFDM0_XDTxAFE				0xc9c
++
++#define		rOFDM0_RxIQExtAnta			0xca0
++#define		rOFDM0_TxCoeff1				0xca4
++#define		rOFDM0_TxCoeff2				0xca8
++#define		rOFDM0_TxCoeff3				0xcac
++#define		rOFDM0_TxCoeff4				0xcb0
++#define		rOFDM0_TxCoeff5				0xcb4
++#define		rOFDM0_TxCoeff6				0xcb8
++#define		rOFDM0_RxHPParameter		0xce0
++#define		rOFDM0_TxPseudoNoiseWgt		0xce4
++#define		rOFDM0_FrameSync			0xcf0
++#define		rOFDM0_DFSReport			0xcf4
++
++
++/*
++ * 7. PageD(0xD00)
++ *   */
++#define		rOFDM1_LSTF					0xd00
++#define		rOFDM1_TRxPathEnable			0xd04
++
++#define		rOFDM1_CFO					0xd08	/* No setting now */
++#define		rOFDM1_CSI1					0xd10
++#define		rOFDM1_SBD					0xd14
++#define		rOFDM1_CSI2					0xd18
++#define		rOFDM1_CFOTracking			0xd2c
++#define		rOFDM1_TRxMesaure1			0xd34
++#define		rOFDM1_IntfDet				0xd3c
++#define		rOFDM1_csi_fix_mask1				0xd40
++#define		rOFDM1_csi_fix_mask2				0xd44
++#define		rOFDM1_PseudoNoiseStateAB	0xd50
++#define		rOFDM1_PseudoNoiseStateCD	0xd54
++#define		rOFDM1_RxPseudoNoiseWgt		0xd58
++
++#define		rOFDM_PHYCounter1			0xda0  /* cca, parity fail */
++#define		rOFDM_PHYCounter2			0xda4  /* rate illegal, crc8 fail */
++#define		rOFDM_PHYCounter3			0xda8  /* MCS not support */
++
++#define		rOFDM_ShortCFOAB			0xdac	/* No setting now */
++#define		rOFDM_ShortCFOCD			0xdb0
++#define		rOFDM_LongCFOAB				0xdb4
++#define		rOFDM_LongCFOCD				0xdb8
++#define		rOFDM_TailCFOAB				0xdbc
++#define		rOFDM_TailCFOCD				0xdc0
++#define		rOFDM_PWMeasure1		0xdc4
++#define		rOFDM_PWMeasure2		0xdc8
++#define		rOFDM_BWReport				0xdcc
++#define		rOFDM_AGCReport				0xdd0
++#define		rOFDM_RxSNR				0xdd4
++#define		rOFDM_RxEVMCSI				0xdd8
++#define		rOFDM_SIGReport				0xddc
++
++
++/*
++ * 8. PageE(0xE00)
++ *   */
++#define		rTxAGC_A_Rate18_06			0xe00
++#define		rTxAGC_A_Rate54_24			0xe04
++#define		rTxAGC_A_CCK1_Mcs32			0xe08
++#define		rTxAGC_A_Mcs03_Mcs00		0xe10
++#define		rTxAGC_A_Mcs07_Mcs04		0xe14
++#define		rTxAGC_A_Mcs11_Mcs08		0xe18
++#define		rTxAGC_A_Mcs15_Mcs12		0xe1c
++
++#define		rTxAGC_B_Rate18_06			0x830
++#define		rTxAGC_B_Rate54_24			0x834
++#define		rTxAGC_B_CCK1_55_Mcs32		0x838
++#define		rTxAGC_B_Mcs03_Mcs00		0x83c
++#define		rTxAGC_B_Mcs07_Mcs04		0x848
++#define		rTxAGC_B_Mcs11_Mcs08		0x84c
++#define		rTxAGC_B_Mcs15_Mcs12		0x868
++#define		rTxAGC_B_CCK11_A_CCK2_11		0x86c
++
++#define		rFPGA0_IQK					0xe28
++#define		rTx_IQK_Tone_A				0xe30
++#define		rRx_IQK_Tone_A				0xe34
++#define		rTx_IQK_PI_A					0xe38
++#define		rRx_IQK_PI_A					0xe3c
++
++#define		rTx_IQK						0xe40
++#define		rRx_IQK						0xe44
++#define		rIQK_AGC_Pts					0xe48
++#define		rIQK_AGC_Rsp					0xe4c
++#define		rTx_IQK_Tone_B				0xe50
++#define		rRx_IQK_Tone_B				0xe54
++#define		rTx_IQK_PI_B					0xe58
++#define		rRx_IQK_PI_B					0xe5c
++#define		rIQK_AGC_Cont				0xe60
++
++#define		rBlue_Tooth					0xe6c
++#define		rRx_Wait_CCA					0xe70
++#define		rTx_CCK_RFON					0xe74
++#define		rTx_CCK_BBON				0xe78
++#define		rTx_OFDM_RFON				0xe7c
++#define		rTx_OFDM_BBON				0xe80
++#define		rTx_To_Rx					0xe84
++#define		rTx_To_Tx					0xe88
++#define		rRx_CCK						0xe8c
++
++#define		rTx_Power_Before_IQK_A		0xe94
++#define		rTx_Power_After_IQK_A			0xe9c
++
++#define		rRx_Power_Before_IQK_A		0xea0
++#define		rRx_Power_Before_IQK_A_2		0xea4
++#define		rRx_Power_After_IQK_A			0xea8
++#define		rRx_Power_After_IQK_A_2		0xeac
++
++#define		rTx_Power_Before_IQK_B		0xeb4
++#define		rTx_Power_After_IQK_B			0xebc
++
++#define		rRx_Power_Before_IQK_B		0xec0
++#define		rRx_Power_Before_IQK_B_2		0xec4
++#define		rRx_Power_After_IQK_B			0xec8
++#define		rRx_Power_After_IQK_B_2		0xecc
++
++#define		rRx_OFDM					0xed0
++#define		rRx_Wait_RIFS				0xed4
++#define		rRx_TO_Rx					0xed8
++#define		rStandby						0xedc
++#define		rSleep						0xee0
++#define		rPMPD_ANAEN				0xeec
++
++/*
++ * 7. RF Register 0x00-0x2E (RF 8256)
++ * RF-0222D 0x00-3F
++ *
++ * Zebra1 */
++#define		rZebra1_HSSIEnable				0x0	/* Useless now */
++#define		rZebra1_TRxEnable1			0x1
++#define		rZebra1_TRxEnable2			0x2
++#define		rZebra1_AGC					0x4
++#define		rZebra1_ChargePump			0x5
++#define		rZebra1_Channel				0x7	/* RF channel switch */
++
++/* #endif */
++#define		rZebra1_TxGain				0x8	/* Useless now */
++#define		rZebra1_TxLPF					0x9
++#define		rZebra1_RxLPF					0xb
++#define		rZebra1_RxHPFCorner			0xc
++
++/* Zebra4 */
++#define		rGlobalCtrl					0	/* Useless now */
++#define		rRTL8256_TxLPF				19
++#define		rRTL8256_RxLPF				11
++
++/* RTL8258 */
++#define		rRTL8258_TxLPF				0x11	/* Useless now */
++#define		rRTL8258_RxLPF				0x13
++#define		rRTL8258_RSSILPF				0xa
++
++/*
++ * RL6052 Register definition
++ *   */
++#define		RF_AC						0x00	/*  */
++
++#define		RF_IQADJ_G1					0x01	/*  */
++#define		RF_IQADJ_G2					0x02	/*  */
++
++#define		RF_POW_TRSW				0x05	/*  */
++
++#define		RF_GAIN_RX					0x06	/*  */
++#define		RF_GAIN_TX					0x07	/*  */
++
++#define		RF_TXM_IDAC					0x08	/*  */
++#define		RF_IPA_G						0x09	/*  */
++#define		RF_TXBIAS_G					0x0A
++#define		RF_TXPA_AG					0x0B
++#define		RF_IPA_A						0x0C	/*  */
++#define		RF_TXBIAS_A					0x0D
++#define		RF_BS_PA_APSET_G9_G11		0x0E
++#define		RF_BS_IQGEN					0x0F	/*  */
++
++#define		RF_MODE1					0x10	/*  */
++#define		RF_MODE2					0x11	/*  */
++
++#define		RF_RX_AGC_HP				0x12	/*  */
++#define		RF_TX_AGC					0x13	/*  */
++#define		RF_BIAS						0x14	/*  */
++#define		RF_IPA						0x15	/*  */
++#define		RF_TXBIAS					0x16
++#define		RF_POW_ABILITY				0x17	/*  */
++#define		RF_CHNLBW					0x18	/* RF channel and BW switch */
++#define		RF_TOP						0x19	/*  */
++
++#define		RF_RX_G1					0x1A	/*  */
++#define		RF_RX_G2					0x1B	/*  */
++
++#define		RF_RX_BB2					0x1C	/*  */
++#define		RF_RX_BB1					0x1D	/*  */
++
++#define		RF_RCK1						0x1E	/*  */
++#define		RF_RCK2						0x1F	/*  */
++
++#define		RF_TX_G1						0x20	/*  */
++#define		RF_TX_G2						0x21	/*  */
++#define		RF_TX_G3						0x22	/*  */
++
++#define		RF_TX_BB1					0x23	/*  */
++
++#define		RF_T_METER_88E					0x42	/*  */
++#define		RF_T_METER					0x24	/*  */
++
++#define		RF_SYN_G1					0x25	/* RF TX Power control */
++#define		RF_SYN_G2					0x26	/* RF TX Power control */
++#define		RF_SYN_G3					0x27	/* RF TX Power control */
++#define		RF_SYN_G4					0x28	/* RF TX Power control */
++#define		RF_SYN_G5					0x29	/* RF TX Power control */
++#define		RF_SYN_G6					0x2A	/* RF TX Power control */
++#define		RF_SYN_G7					0x2B	/* RF TX Power control */
++#define		RF_SYN_G8					0x2C	/* RF TX Power control */
++
++#define		RF_RCK_OS					0x30	/* RF TX PA control */
++#define		RF_TXPA_G1					0x31	/* RF TX PA control */
++#define		RF_TXPA_G2					0x32	/* RF TX PA control */
++#define		RF_TXPA_G3					0x33	/* RF TX PA control */
++#define		RF_TX_BIAS_A					0x35
++#define		RF_TX_BIAS_D					0x36
++#define		RF_LOBF_9					0x38
++#define		RF_RXRF_A3					0x3C	/*	 */
++#define		RF_TRSW						0x3F
++
++#define		RF_TXRF_A2					0x41
++#define		RF_TXPA_G4					0x46
++#define		RF_TXPA_A4					0x4B
++#define	RF_0x52					0x52
++#define		RF_WE_LUT					0xEF
++
++
++/*
++ * Bit Mask
++ *
++ * 1. Page1(0x100) */
++#define		bBBResetB					0x100	/* Useless now? */
++#define		bGlobalResetB					0x200
++#define		bOFDMTxStart					0x4
++#define		bCCKTxStart					0x8
++#define		bCRC32Debug					0x100
++#define		bPMACLoopback				0x10
++#define		bTxLSIG						0xffffff
++#define		bOFDMTxRate					0xf
++#define		bOFDMTxReserved				0x10
++#define		bOFDMTxLength				0x1ffe0
++#define		bOFDMTxParity				0x20000
++#define		bTxHTSIG1					0xffffff
++#define		bTxHTMCSRate				0x7f
++#define		bTxHTBW						0x80
++#define		bTxHTLength					0xffff00
++#define		bTxHTSIG2					0xffffff
++#define		bTxHTSmoothing				0x1
++#define		bTxHTSounding				0x2
++#define		bTxHTReserved				0x4
++#define		bTxHTAggreation				0x8
++#define		bTxHTSTBC					0x30
++#define		bTxHTAdvanceCoding			0x40
++#define		bTxHTShortGI					0x80
++#define		bTxHTNumberHT_LTF			0x300
++#define		bTxHTCRC8					0x3fc00
++#define		bCounterReset				0x10000
++#define		bNumOfOFDMTx				0xffff
++#define		bNumOfCCKTx					0xffff0000
++#define		bTxIdleInterval				0xffff
++#define		bOFDMService					0xffff0000
++#define		bTxMACHeader				0xffffffff
++#define		bTxDataInit					0xff
++#define		bTxHTMode					0x100
++#define		bTxDataType					0x30000
++#define		bTxRandomSeed				0xffffffff
++#define		bCCKTxPreamble				0x1
++#define		bCCKTxSFD					0xffff0000
++#define		bCCKTxSIG					0xff
++#define		bCCKTxService					0xff00
++#define		bCCKLengthExt					0x8000
++#define		bCCKTxLength					0xffff0000
++#define		bCCKTxCRC16					0xffff
++#define		bCCKTxStatus					0x1
++#define		bOFDMTxStatus				0x2
++
++#define		IS_BB_REG_OFFSET_92S(_Offset)		((_Offset >= 0x800) && (_Offset <= 0xfff))
++
++/* 2. Page8(0x800) */
++#define		bRFMOD						0x1	/* Reg 0x800 rFPGA0_RFMOD */
++#define		bJapanMode					0x2
++#define		bCCKTxSC						0x30
++#define		bCCKEn						0x1000000
++#define		bOFDMEn					0x2000000
++
++#define		bOFDMRxADCPhase           		0x10000	/* Useless now */
++#define		bOFDMTxDACPhase		0x40000
++#define		bXATxAGC				0x3f
++
++#define		bAntennaSelect			0x0300
++
++#define		bXBTxAGC                  				0xf00	/* Reg 80c rFPGA0_TxGainStage */
++#define		bXCTxAGC				0xf000
++#define		bXDTxAGC				0xf0000
++
++#define		bPAStart                  				0xf0000000	/* Useless now */
++#define		bTRStart				0x00f00000
++#define		bRFStart				0x0000f000
++#define		bBBStart				0x000000f0
++#define		bBBCCKStart			0x0000000f
++#define		bPAEnd                    				0xf          /* Reg0x814 */
++#define		bTREnd				0x0f000000
++#define		bRFEnd				0x000f0000
++#define		bCCAMask                  				0x000000f0   /* T2R */
++#define		bR2RCCAMask			0x00000f00
++#define		bHSSI_R2TDelay			0xf8000000
++#define		bHSSI_T2RDelay			0xf80000
++#define		bContTxHSSI               			0x400     /* chane gain at continue Tx */
++#define		bIGFromCCK			0x200
++#define		bAGCAddress			0x3f
++#define		bRxHPTx				0x7000
++#define		bRxHPT2R				0x38000
++#define		bRxHPCCKIni			0xc0000
++#define		bAGCTxCode			0xc00000
++#define		bAGCRxCode			0x300000
++
++#define		b3WireDataLength          			0x800	/* Reg 0x820~84f rFPGA0_XA_HSSIParameter1 */
++#define		b3WireAddressLength		0x400
++
++#define		b3WireRFPowerDown         		0x1	/* Useless now
++ * #define bHWSISelect		0x8 */
++#define		b5GPAPEPolarity			0x40000000
++#define		b2GPAPEPolarity			0x80000000
++#define		bRFSW_TxDefaultAnt		0x3
++#define		bRFSW_TxOptionAnt		0x30
++#define		bRFSW_RxDefaultAnt		0x300
++#define		bRFSW_RxOptionAnt		0x3000
++#define		bRFSI_3WireData			0x1
++#define		bRFSI_3WireClock			0x2
++#define		bRFSI_3WireLoad			0x4
++#define		bRFSI_3WireRW			0x8
++#define		bRFSI_3Wire			0xf
++
++#define		bRFSI_RFENV               		0x10	/* Reg 0x870 rFPGA0_XAB_RFInterfaceSW */
++
++#define		bRFSI_TRSW                		0x20	/* Useless now */
++#define		bRFSI_TRSWB		0x40
++#define		bRFSI_ANTSW		0x100
++#define		bRFSI_ANTSWB		0x200
++#define		bRFSI_PAPE			0x400
++#define		bRFSI_PAPE5G		0x800
++#define		bBandSelect			0x1
++#define		bHTSIG2_GI			0x80
++#define		bHTSIG2_Smoothing		0x01
++#define		bHTSIG2_Sounding		0x02
++#define		bHTSIG2_Aggreaton		0x08
++#define		bHTSIG2_STBC		0x30
++#define		bHTSIG2_AdvCoding		0x40
++#define		bHTSIG2_NumOfHTLTF	0x300
++#define		bHTSIG2_CRC8		0x3fc
++#define		bHTSIG1_MCS		0x7f
++#define		bHTSIG1_BandWidth		0x80
++#define		bHTSIG1_HTLength		0xffff
++#define		bLSIG_Rate			0xf
++#define		bLSIG_Reserved		0x10
++#define		bLSIG_Length		0x1fffe
++#define		bLSIG_Parity			0x20
++#define		bCCKRxPhase		0x4
++
++#define		bLSSIReadAddress          		0x7f800000   /* T65 RF */
++
++#define		bLSSIReadEdge             		0x80000000   /* LSSI "Read" edge signal */
++
++#define		bLSSIReadBackData         		0xfffff		/* T65 RF */
++
++#define		bLSSIReadOKFlag           		0x1000	/* Useless now */
++#define		bCCKSampleRate            		0x8       /* 0: 44MHz, 1:88MHz      		 */
++#define		bRegulator0Standby		0x1
++#define		bRegulatorPLLStandby	0x2
++#define		bRegulator1Standby		0x4
++#define		bPLLPowerUp		0x8
++#define		bDPLLPowerUp		0x10
++#define		bDA10PowerUp		0x20
++#define		bAD7PowerUp		0x200
++#define		bDA6PowerUp		0x2000
++#define		bXtalPowerUp		0x4000
++#define		b40MDClkPowerUP	0x8000
++#define		bDA6DebugMode		0x20000
++#define		bDA6Swing			0x380000
++
++#define		bADClkPhase               		0x4000000	/* Reg 0x880 rFPGA0_AnalogParameter1 20/40 CCK support switch 40/80 BB MHZ */
++
++#define		b80MClkDelay              		0x18000000	/* Useless */
++#define		bAFEWatchDogEnable	0x20000000
++
++#define		bXtalCap01                			0xc0000000	/* Reg 0x884 rFPGA0_AnalogParameter2 Crystal cap */
++#define		bXtalCap23			0x3
++#define		bXtalCap92x				0x0f000000
++#define		bXtalCap			0x0f000000
++
++#define		bIntDifClkEnable          		0x400	/* Useless */
++#define		bExtSigClkEnable		0x800
++#define		bBandgapMbiasPowerUp	0x10000
++#define		bAD11SHGain		0xc0000
++#define		bAD11InputRange		0x700000
++#define		bAD11OPCurrent		0x3800000
++#define		bIPathLoopback		0x4000000
++#define		bQPathLoopback		0x8000000
++#define		bAFELoopback		0x10000000
++#define		bDA10Swing		0x7e0
++#define		bDA10Reverse		0x800
++#define		bDAClkSource		0x1000
++#define		bAD7InputRange		0x6000
++#define		bAD7Gain			0x38000
++#define		bAD7OutputCMMode	0x40000
++#define		bAD7InputCMMode	0x380000
++#define		bAD7Current		0xc00000
++#define		bRegulatorAdjust		0x7000000
++#define		bAD11PowerUpAtTx	0x1
++#define		bDA10PSAtTx		0x10
++#define		bAD11PowerUpAtRx	0x100
++#define		bDA10PSAtRx		0x1000
++#define		bCCKRxAGCFormat		0x200
++#define		bPSDFFTSamplepPoint	0xc000
++#define		bPSDAverageNum		0x3000
++#define		bIQPathControl		0xc00
++#define		bPSDFreq			0x3ff
++#define		bPSDAntennaPath		0x30
++#define		bPSDIQSwitch		0x40
++#define		bPSDRxTrigger		0x400000
++#define		bPSDTxTrigger		0x80000000
++#define		bPSDSineToneScale		0x7f000000
++#define		bPSDReport		0xffff
++
++/* 3. Page9(0x900) */
++#define		bOFDMTxSC                 		0x30000000	/* Useless */
++#define		bCCKTxOn			0x1
++#define		bOFDMTxOn		0x2
++#define		bDebugPage                		0xfff  /* reset debug page and also HWord, LWord */
++#define		bDebugItem                		0xff   /* reset debug page and LWord */
++#define		bAntL				0x10
++#define		bAntNonHT			0x100
++#define		bAntHT1			0x1000
++#define		bAntHT2			0x10000
++#define		bAntHT1S1			0x100000
++#define		bAntNonHTS1		0x1000000
++
++/* 4. PageA(0xA00) */
++#define		bCCKBBMode                		0x3	/* Useless */
++#define		bCCKTxPowerSaving		0x80
++#define		bCCKRxPowerSaving		0x40
++
++#define		bCCKSideBand              		0x10	/* Reg 0xa00 rCCK0_System 20/40 switch */
++
++#define		bCCKScramble              		0x8	/* Useless */
++#define		bCCKAntDiversity			0x8000
++#define		bCCKCarrierRecovery		0x4000
++#define		bCCKTxRate			0x3000
++#define		bCCKDCCancel		0x0800
++#define		bCCKISICancel		0x0400
++#define		bCCKMatchFilter		0x0200
++#define		bCCKEqualizer		0x0100
++#define		bCCKPreambleDetect		0x800000
++#define		bCCKFastFalseCCA		0x400000
++#define		bCCKChEstStart		0x300000
++#define		bCCKCCACount		0x080000
++#define		bCCKcs_lim			0x070000
++#define		bCCKBistMode		0x80000000
++#define		bCCKCCAMask		0x40000000
++#define		bCCKTxDACPhase		0x4
++#define		bCCKRxADCPhase         	   	0x20000000   /* r_rx_clk */
++#define		bCCKr_cp_mode0		0x0100
++#define		bCCKTxDCOffset		0xf0
++#define		bCCKRxDCOffset		0xf
++#define		bCCKCCAMode		0xc000
++#define		bCCKFalseCS_lim		0x3f00
++#define		bCCKCS_ratio		0xc00000
++#define		bCCKCorgBit_sel		0x300000
++#define		bCCKPD_lim		0x0f0000
++#define		bCCKNewCCA		0x80000000
++#define		bCCKRxHPofIG		0x8000
++#define		bCCKRxIG			0x7f00
++#define		bCCKLNAPolarity		0x800000
++#define		bCCKRx1stGain		0x7f0000
++#define		bCCKRFExtend              		0x20000000 /* CCK Rx Iinital gain polarity */
++#define		bCCKRxAGCSatLevel		0x1f000000
++#define		bCCKRxAGCSatCount		0xe0
++#define		bCCKRxRFSettle            		0x1f       /* AGCsamp_dly */
++#define		bCCKFixedRxAGC		0x8000
++/* #define bCCKRxAGCFormat		0x4000 */   /* remove to HSSI register 0x824 */
++#define		bCCKAntennaPolarity		0x2000
++#define		bCCKTxFilterType		0x0c00
++#define		bCCKRxAGCReportType		0x0300
++#define		bCCKRxDAGCEn		0x80000000
++#define		bCCKRxDAGCPeriod		0x20000000
++#define		bCCKRxDAGCSatLevel		0x1f000000
++#define		bCCKTimingRecovery		0x800000
++#define		bCCKTxC0			0x3f0000
++#define		bCCKTxC1			0x3f000000
++#define		bCCKTxC2			0x3f
++#define		bCCKTxC3			0x3f00
++#define		bCCKTxC4			0x3f0000
++#define		bCCKTxC5			0x3f000000
++#define		bCCKTxC6			0x3f
++#define		bCCKTxC7			0x3f00
++#define		bCCKDebugPort		0xff0000
++#define		bCCKDACDebug		0x0f000000
++#define		bCCKFalseAlarmEnable	0x8000
++#define		bCCKFalseAlarmRead	0x4000
++#define		bCCKTRSSI			0x7f
++#define		bCCKRxAGCReport		0xfe
++#define		bCCKRxReport_AntSel	0x80000000
++#define		bCCKRxReport_MFOff	0x40000000
++#define		bCCKRxRxReport_SQLoss	0x20000000
++#define		bCCKRxReport_Pktloss	0x10000000
++#define		bCCKRxReport_Lockedbit	0x08000000
++#define		bCCKRxReport_RateError	0x04000000
++#define		bCCKRxReport_RxRate	0x03000000
++#define		bCCKRxFACounterLower	0xff
++#define		bCCKRxFACounterUpper	0xff000000
++#define		bCCKRxHPAGCStart		0xe000
++#define		bCCKRxHPAGCFinal		0x1c00
++#define		bCCKRxFalseAlarmEnable	0x8000
++#define		bCCKFACounterFreeze	0x4000
++#define		bCCKTxPathSel		0x10000000
++#define		bCCKDefaultRxPath		0xc000000
++#define		bCCKOptionRxPath		0x3000000
++
++/* 5. PageC(0xC00) */
++#define		bNumOfSTF                			0x3	/* Useless */
++#define		bShift_L			0xc0
++#define		bGI_TH			0xc
++#define		bRxPathA			0x1
++#define		bRxPathB			0x2
++#define		bRxPathC			0x4
++#define		bRxPathD			0x8
++#define		bTxPathA			0x1
++#define		bTxPathB			0x2
++#define		bTxPathC			0x4
++#define		bTxPathD			0x8
++#define		bTRSSIFreq			0x200
++#define		bADCBackoff			0x3000
++#define		bDFIRBackoff			0xc000
++#define		bTRSSILatchPhase		0x10000
++#define		bRxIDCOffset			0xff
++#define		bRxQDCOffset		0xff00
++#define		bRxDFIRMode		0x1800000
++#define		bRxDCNFType		0xe000000
++#define		bRXIQImb_A		0x3ff
++#define		bRXIQImb_B			0xfc00
++#define		bRXIQImb_C			0x3f0000
++#define		bRXIQImb_D		0xffc00000
++#define		bDC_dc_Notch		0x60000
++#define		bRxNBINotch		0x1f000000
++#define		bPD_TH			0xf
++#define		bPD_TH_Opt2		0xc000
++#define		bPWED_TH			0x700
++#define		bIfMF_Win_L		0x800
++#define		bPD_Option			0x1000
++#define		bMF_Win_L			0xe000
++#define		bBW_Search_L		0x30000
++#define		bwin_enh_L			0xc0000
++#define		bBW_TH			0x700000
++#define		bED_TH2			0x3800000
++#define		bBW_option			0x4000000
++#define		bRatio_TH			0x18000000
++#define		bWindow_L			0xe0000000
++#define		bSBD_Option		0x1
++#define		bFrame_TH			0x1c
++#define		bFS_Option			0x60
++#define		bDC_Slope_check		0x80
++#define		bFGuard_Counter_DC_L	0xe00
++#define		bFrame_Weight_Short	0x7000
++#define		bSub_Tune			0xe00000
++#define		bFrame_DC_Length		0xe000000
++#define		bSBD_start_offset		0x30000000
++#define		bFrame_TH_2		0x7
++#define		bFrame_GI2_TH		0x38
++#define		bGI2_Sync_en		0x40
++#define		bSarch_Short_Early		0x300
++#define		bSarch_Short_Late		0xc00
++#define		bSarch_GI2_Late		0x70000
++#define		bCFOAntSum		0x1
++#define		bCFOAcc			0x2
++#define		bCFOStartOffset		0xc
++#define		bCFOLookBack		0x70
++#define		bCFOSumWeight		0x80
++#define		bDAGCEnable		0x10000
++#define		bTXIQImb_A			0x3ff
++#define		bTXIQImb_B			0xfc00
++#define		bTXIQImb_C			0x3f0000
++#define		bTXIQImb_D			0xffc00000
++#define		bTxIDCOffset			0xff
++#define		bTxQDCOffset		0xff00
++#define		bTxDFIRMode		0x10000
++#define		bTxPesudoNoiseOn		0x4000000
++#define		bTxPesudoNoise_A		0xff
++#define		bTxPesudoNoise_B		0xff00
++#define		bTxPesudoNoise_C		0xff0000
++#define		bTxPesudoNoise_D		0xff000000
++#define		bCCADropOption		0x20000
++#define		bCCADropThres		0xfff00000
++#define		bEDCCA_H			0xf
++#define		bEDCCA_L			0xf0
++#define		bLambda_ED		0x300
++#define		bRxInitialGain			0x7f
++#define		bRxAntDivEn		0x80
++#define		bRxAGCAddressForLNA	0x7f00
++#define		bRxHighPowerFlow		0x8000
++#define		bRxAGCFreezeThres		0xc0000
++#define		bRxFreezeStep_AGC1	0x300000
++#define		bRxFreezeStep_AGC2	0xc00000
++#define		bRxFreezeStep_AGC3	0x3000000
++#define		bRxFreezeStep_AGC0	0xc000000
++#define		bRxRssi_Cmp_En		0x10000000
++#define		bRxQuickAGCEn		0x20000000
++#define		bRxAGCFreezeThresMode	0x40000000
++#define		bRxOverFlowCheckType	0x80000000
++#define		bRxAGCShift			0x7f
++#define		bTRSW_Tri_Only		0x80
++#define		bPowerThres		0x300
++#define		bRxAGCEn			0x1
++#define		bRxAGCTogetherEn		0x2
++#define		bRxAGCMin		0x4
++#define		bRxHP_Ini			0x7
++#define		bRxHP_TRLNA		0x70
++#define		bRxHP_RSSI			0x700
++#define		bRxHP_BBP1		0x7000
++#define		bRxHP_BBP2		0x70000
++#define		bRxHP_BBP3		0x700000
++#define		bRSSI_H                  			0x7f0000     /* the threshold for high power */
++#define		bRSSI_Gen                			0x7f000000   /* the threshold for ant diversity */
++#define		bRxSettle_TRSW		0x7
++#define		bRxSettle_LNA		0x38
++#define		bRxSettle_RSSI		0x1c0
++#define		bRxSettle_BBP		0xe00
++#define		bRxSettle_RxHP		0x7000
++#define		bRxSettle_AntSW_RSSI	0x38000
++#define		bRxSettle_AntSW		0xc0000
++#define		bRxProcessTime_DAGC	0x300000
++#define		bRxSettle_HSSI		0x400000
++#define		bRxProcessTime_BBPPW	0x800000
++#define		bRxAntennaPowerShift	0x3000000
++#define		bRSSITableSelect		0xc000000
++#define		bRxHP_Final			0x7000000
++#define		bRxHTSettle_BBP		0x7
++#define		bRxHTSettle_HSSI		0x8
++#define		bRxHTSettle_RxHP		0x70
++#define		bRxHTSettle_BBPPW		0x80
++#define		bRxHTSettle_Idle		0x300
++#define		bRxHTSettle_Reserved	0x1c00
++#define		bRxHTRxHPEn		0x8000
++#define		bRxHTAGCFreezeThres	0x30000
++#define		bRxHTAGCTogetherEn	0x40000
++#define		bRxHTAGCMin		0x80000
++#define		bRxHTAGCEn		0x100000
++#define		bRxHTDAGCEn		0x200000
++#define		bRxHTRxHP_BBP		0x1c00000
++#define		bRxHTRxHP_Final		0xe0000000
++#define		bRxPWRatioTH		0x3
++#define		bRxPWRatioEn		0x4
++#define		bRxMFHold			0x3800
++#define		bRxPD_Delay_TH1		0x38
++#define		bRxPD_Delay_TH2		0x1c0
++#define		bRxPD_DC_COUNT_MAX	0x600
++/* #define bRxMF_Hold               0x3800 */
++#define		bRxPD_Delay_TH		0x8000
++#define		bRxProcess_Delay		0xf0000
++#define		bRxSearchrange_GI2_Early	0x700000
++#define		bRxFrame_Guard_Counter_L	0x3800000
++#define		bRxSGI_Guard_L		0xc000000
++#define		bRxSGI_Search_L		0x30000000
++#define		bRxSGI_TH			0xc0000000
++#define		bDFSCnt0			0xff
++#define		bDFSCnt1			0xff00
++#define		bDFSFlag			0xf0000
++#define		bMFWeightSum		0x300000
++#define		bMinIdxTH			0x7f000000
++#define		bDAFormat			0x40000
++#define		bTxChEmuEnable		0x01000000
++#define		bTRSWIsolation_A		0x7f
++#define		bTRSWIsolation_B		0x7f00
++#define		bTRSWIsolation_C		0x7f0000
++#define		bTRSWIsolation_D		0x7f000000
++#define		bExtLNAGain		0x7c00
++
++/* 6. PageE(0xE00) */
++#define		bSTBCEn                  			0x4	/* Useless */
++#define		bAntennaMapping		0x10
++#define		bNss			0x20
++#define		bCFOAntSumD		0x200
++#define		bPHYCounterReset		0x8000000
++#define		bCFOReportGet		0x4000000
++#define		bOFDMContinueTx		0x10000000
++#define		bOFDMSingleCarrier		0x20000000
++#define		bOFDMSingleTone		0x40000000
++/* #define bRxPath1                 0x01 */
++/* #define bRxPath2                 0x02 */
++/* #define bRxPath3                 0x04 */
++/* #define bRxPath4                 0x08 */
++/* #define bTxPath1                 0x10 */
++/* #define bTxPath2                 0x20 */
++#define		bHTDetect			0x100
++#define		bCFOEn			0x10000
++#define		bCFOValue			0xfff00000
++#define		bSigTone_Re			0x3f
++#define		bSigTone_Im			0x7f00
++#define		bCounter_CCA		0xffff
++#define		bCounter_ParityFail		0xffff0000
++#define		bCounter_RateIllegal		0xffff
++#define		bCounter_CRC8Fail		0xffff0000
++#define		bCounter_MCSNoSupport	0xffff
++#define		bCounter_FastSync		0xffff
++#define		bShortCFO			0xfff
++#define		bShortCFOTLength         		12   /* total */
++#define		bShortCFOFLength         		11   /* fraction */
++#define		bLongCFO			0x7ff
++#define		bLongCFOTLength		11
++#define		bLongCFOFLength		11
++#define		bTailCFO			0x1fff
++#define		bTailCFOTLength		13
++#define		bTailCFOFLength		12
++#define		bmax_en_pwdB		0xffff
++#define		bCC_power_dB		0xffff0000
++#define		bnoise_pwdB		0xffff
++#define		bPowerMeasTLength	10
++#define		bPowerMeasFLength	3
++#define		bRx_HT_BW		0x1
++#define		bRxSC			0x6
++#define		bRx_HT			0x8
++#define		bNB_intf_det_on		0x1
++#define		bIntf_win_len_cfg		0x30
++#define		bNB_Intf_TH_cfg		0x1c0
++#define		bRFGain			0x3f
++#define		bTableSel			0x40
++#define		bTRSW			0x80
++#define		bRxSNR_A			0xff
++#define		bRxSNR_B			0xff00
++#define		bRxSNR_C			0xff0000
++#define		bRxSNR_D			0xff000000
++#define		bSNREVMTLength		8
++#define		bSNREVMFLength		1
++#define		bCSI1st			0xff
++#define		bCSI2nd			0xff00
++#define		bRxEVM1st			0xff0000
++#define		bRxEVM2nd		0xff000000
++#define		bSIGEVM			0xff
++#define		bPWDB			0xff00
++#define		bSGIEN			0x10000
++
++#define		bSFactorQAM1             		0xf	/* Useless */
++#define		bSFactorQAM2		0xf0
++#define		bSFactorQAM3		0xf00
++#define		bSFactorQAM4		0xf000
++#define		bSFactorQAM5		0xf0000
++#define		bSFactorQAM6		0xf0000
++#define		bSFactorQAM7		0xf00000
++#define		bSFactorQAM8		0xf000000
++#define		bSFactorQAM9		0xf0000000
++#define		bCSIScheme			0x100000
++
++#define		bNoiseLvlTopSet          		0x3	/* Useless */
++#define		bChSmooth			0x4
++#define		bChSmoothCfg1		0x38
++#define		bChSmoothCfg2		0x1c0
++#define		bChSmoothCfg3		0xe00
++#define		bChSmoothCfg4		0x7000
++#define		bMRCMode		0x800000
++#define		bTHEVMCfg			0x7000000
++
++#define		bLoopFitType             			0x1	/* Useless */
++#define		bUpdCFO			0x40
++#define		bUpdCFOOffData		0x80
++#define		bAdvUpdCFO		0x100
++#define		bAdvTimeCtrl		0x800
++#define		bUpdClko			0x1000
++#define		bFC				0x6000
++#define		bTrackingMode		0x8000
++#define		bPhCmpEnable		0x10000
++#define		bUpdClkoLTF			0x20000
++#define		bComChCFO		0x40000
++#define		bCSIEstiMode		0x80000
++#define		bAdvUpdEqz		0x100000
++#define		bUChCfg			0x7000000
++#define		bUpdEqz			0x8000000
++
++/* Rx Pseduo noise */
++#define		bRxPesudoNoiseOn         		0x20000000	/* Useless */
++#define		bRxPesudoNoise_A		0xff
++#define		bRxPesudoNoise_B		0xff00
++#define		bRxPesudoNoise_C		0xff0000
++#define		bRxPesudoNoise_D		0xff000000
++#define		bPesudoNoiseState_A	0xffff
++#define		bPesudoNoiseState_B	0xffff0000
++#define		bPesudoNoiseState_C		0xffff
++#define		bPesudoNoiseState_D	0xffff0000
++
++/* 7. RF Register
++ * Zebra1 */
++#define		bZebra1_HSSIEnable        		0x8		/* Useless */
++#define		bZebra1_TRxControl		0xc00
++#define		bZebra1_TRxGainSetting	0x07f
++#define		bZebra1_RxCorner		0xc00
++#define		bZebra1_TxChargePump	0x38
++#define		bZebra1_RxChargePump	0x7
++#define		bZebra1_ChannelNum	0xf80
++#define		bZebra1_TxLPFBW		0x400
++#define		bZebra1_RxLPFBW		0x600
++
++/* Zebra4 */
++#define		bRTL8256RegModeCtrl1      	0x100	/* Useless */
++#define		bRTL8256RegModeCtrl0	0x40
++#define		bRTL8256_TxLPFBW	0x18
++#define		bRTL8256_RxLPFBW	0x600
++
++/* RTL8258 */
++#define		bRTL8258_TxLPFBW          	0xc	/* Useless */
++#define		bRTL8258_RxLPFBW	0xc00
++#define		bRTL8258_RSSILPFBW	0xc0
++
++
++/*
++ * Other Definition
++ *   */
++
++/* byte endable for sb_write */
++#define		bByte0                    			0x1	/* Useless */
++#define		bByte1			0x2
++#define		bByte2			0x4
++#define		bByte3			0x8
++#define		bWord0			0x3
++#define		bWord1			0xc
++#define		bDWord			0xf
++
++/* for PutRegsetting & GetRegSetting BitMask */
++#define		bMaskByte0                		0xff	/* Reg 0xc50 rOFDM0_XAAGCCore~0xC6f */
++#define		bMaskByte1		0xff00
++#define		bMaskByte2		0xff0000
++#define		bMaskByte3		0xff000000
++#define		bMaskHWord		0xffff0000
++#define		bMaskLWord		0x0000ffff
++#define		bMaskDWord		0xffffffff
++#define		bMaskH3Bytes				0xffffff00
++#define		bMask12Bits				0xfff
++#define		bMaskH4Bits				0xf0000000
++#define		bMaskOFDM_D			0xffc00000
++#define		bMaskCCK				0x3f3f3f3f
++
++
++
++#define		bEnable                   0x1	/* Useless */
++#define		bDisable                  0x0
++
++#define		LeftAntenna               			0x0	/* Useless */
++#define		RightAntenna		0x1
++
++#define		tCheckTxStatus            		500   /* 500ms */ /* Useless */
++#define		tUpdateRxCounter          		100   /* 100ms */
++
++#define		rateCCK     				0	/* Useless */
++#define		rateOFDM				1
++#define		rateHT					2
++
++/* define Register-End */
++#define		bPMAC_End                 		0x1ff	/* Useless */
++#define		bFPGAPHY0_End		0x8ff
++#define		bFPGAPHY1_End		0x9ff
++#define		bCCKPHY0_End		0xaff
++#define		bOFDMPHY0_End		0xcff
++#define		bOFDMPHY1_End		0xdff
++
++/* define max debug item in each debug page
++ * #define bMaxItem_FPGA_PHY0        0x9
++ * #define bMaxItem_FPGA_PHY1        0x3
++ * #define bMaxItem_PHY_11B          0x16
++ * #define bMaxItem_OFDM_PHY0        0x29
++ * #define bMaxItem_OFDM_PHY1        0x0 */
++
++#define		bPMACControl              		0x0		/* Useless */
++#define		bWMACControl		0x1
++#define		bWNICControl		0x2
++
++#define		PathA                     			0x0	/* Useless */
++#define		PathB			0x1
++#define		PathC			0x2
++#define		PathD			0x3
++
++/*--------------------------Define Parameters-------------------------------*/
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8188EPwrSeq.h b/drivers/net/wireless/rtl8812au/include/Hal8188EPwrSeq.h
+new file mode 100644
+index 0000000..385722a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8188EPwrSeq.h
+@@ -0,0 +1,175 @@
++
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __HAL8188EPWRSEQ_H__
++#define __HAL8188EPWRSEQ_H__
++
++#include "HalPwrSeqCmd.h"
++
++/*
++	Check document WM-20110607-Paul-RTL8188E_Power_Architecture-R02.vsd
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transision from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++
++    PWR SEQ Version: rtl8188E_PwrSeq_V09.h
++*/
++#define	RTL8188E_TRANS_CARDEMU_TO_ACT_STEPS	10
++#define	RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS	10
++#define	RTL8188E_TRANS_CARDEMU_TO_SUS_STEPS	10
++#define	RTL8188E_TRANS_SUS_TO_CARDEMU_STEPS	10
++#define	RTL8188E_TRANS_CARDEMU_TO_PDN_STEPS	10
++#define	RTL8188E_TRANS_PDN_TO_CARDEMU_STEPS	10
++#define	RTL8188E_TRANS_ACT_TO_LPS_STEPS	15
++#define	RTL8188E_TRANS_LPS_TO_ACT_STEPS	15
++#define	RTL8188E_TRANS_END_STEPS	1
++
++
++#define RTL8188E_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1    power ready*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0 | BIT1, 0}, /* 0x02[1:0] = 0	reset BB*/			\
++	{0x0026, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7}, /*0x24[23] = 2b'01 schmit trigger */	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0}, /* 0x04[15] = 0 disable HWPDN (control by DRV)*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4 | BIT3, 0}, /*0x04[12:11] = 2b'00 disable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /*0x04[8] = 1 polling until return 0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0}, /*wait till 0x04[8] = 0*/	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*LDO normal mode*/	\
++
++#define RTL8188E_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*0x1F[7:0] = 0 turn off RF*/	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*LDO Sleep mode*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/	\
++
++#define RTL8188E_TRANS_CARDEMU_TO_SUS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01enable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3 | BIT4}, /*0x04[12:11] = 2b'11enable WL suspend for PCIe*/	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, BIT7}, /*  0x04[31:30] = 2b'10 enable enable bandgap mbias in suspend */	\
++	{0x0041, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*Clear SIC_EN register 0x40[12] = 1'b0 */	\
++	{0xfe10, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*Set USB suspend enable local register  0xfe10[4]=1 */	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8188E_TRANS_SUS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
++
++#define RTL8188E_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0026, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7}, /*0x24[23] = 2b'01 schmit trigger */	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*  0x04[31:30] = 2b'10 enable enable bandgap mbias in suspend */	\
++	{0x0041, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*Clear SIC_EN register 0x40[12] = 1'b0 */	\
++	{0xfe10, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*Set USB suspend enable local register  0xfe10[4]=1 */	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8188E_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
++
++#define RTL8188E_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/* 0x04[16] = 0*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
++
++#define RTL8188E_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
++
++	/* This is used by driver for LPSRadioOff Procedure, not for FW LPS Step */
++#define RTL8188E_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x7F},/*Tx Pause*/	\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x3F},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/	\
++
++
++#define RTL8188E_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM*/\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/\
++	{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*.	0x08[4] = 0		 switch TSF to 40M*/\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, 0}, /*Polling 0x109[7]=0  TSF in 40M*/\
++	{0x0029, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6 | BIT7, 0}, /*.	0x29[7:6] = 2b'00	 enable BB clock*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++#define RTL8188E_TRANS_END															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++	extern WLAN_PWR_CFG rtl8188E_power_on_flow[RTL8188E_TRANS_CARDEMU_TO_ACT_STEPS + RTL8188E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188E_radio_off_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188E_card_disable_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188E_TRANS_CARDEMU_TO_PDN_STEPS + RTL8188E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188E_card_enable_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188E_TRANS_CARDEMU_TO_PDN_STEPS + RTL8188E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188E_suspend_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188E_TRANS_CARDEMU_TO_SUS_STEPS + RTL8188E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188E_resume_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188E_TRANS_CARDEMU_TO_SUS_STEPS + RTL8188E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188E_hwpdn_flow[RTL8188E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188E_TRANS_CARDEMU_TO_PDN_STEPS + RTL8188E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188E_enter_lps_flow[RTL8188E_TRANS_ACT_TO_LPS_STEPS + RTL8188E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188E_leave_lps_flow[RTL8188E_TRANS_LPS_TO_ACT_STEPS + RTL8188E_TRANS_END_STEPS];
++
++#endif /* __HAL8188EPWRSEQ_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8188FPhyCfg.h b/drivers/net/wireless/rtl8812au/include/Hal8188FPhyCfg.h
+new file mode 100644
+index 0000000..d0a5ed8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8188FPhyCfg.h
+@@ -0,0 +1,136 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8188FPHYCFG_H__
++#define __INC_HAL8188FPHYCFG_H__
++
++/*--------------------------Define Parameters-------------------------------*/
++#define LOOP_LIMIT				5
++#define MAX_STALL_TIME			50		/* us */
++#define AntennaDiversityValue	0x80	/* (Adapter->bSoftwareAntennaDiversity ? 0x00 : 0x80) */
++#define MAX_TXPWR_IDX_NMODE_92S	63
++#define Reset_Cnt_Limit			3
++
++#ifdef CONFIG_PCI_HCI
++	#define MAX_AGGR_NUM	0x0B
++#else
++	#define MAX_AGGR_NUM	0x07
++#endif /* CONFIG_PCI_HCI */
++
++
++/*--------------------------Define Parameters End-------------------------------*/
++
++
++/*------------------------------Define structure----------------------------*/
++
++/*------------------------------Define structure End----------------------------*/
++
++/*--------------------------Exported Function prototype---------------------*/
++u32
++PHY_QueryBBReg_8188F(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask
++);
++
++VOID
++PHY_SetBBReg_8188F(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask,
++	IN	u32		Data
++);
++
++u32
++PHY_QueryRFReg_8188F(
++	IN	PADAPTER			Adapter,
++	IN	u8				eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask
++);
++
++VOID
++PHY_SetRFReg_8188F(
++	IN	PADAPTER			Adapter,
++	IN	u8				eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask,
++	IN	u32				Data
++);
++
++/* MAC/BB/RF HAL config */
++int PHY_BBConfig8188F(PADAPTER	Adapter);
++
++int PHY_RFConfig8188F(PADAPTER	Adapter);
++
++s32 PHY_MACConfig8188F(PADAPTER padapter);
++
++int
++PHY_ConfigRFWithParaFile_8188F(
++	IN	PADAPTER			Adapter,
++	IN	u8				*pFileName,
++	RF_PATH				eRFPath
++);
++
++VOID
++PHY_SetTxPowerIndex_8188F(
++	IN	PADAPTER			Adapter,
++	IN	u32					PowerIndex,
++	IN	u8					RFPath,
++	IN	u8					Rate
++);
++
++u8
++PHY_GetTxPowerIndex_8188F(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	u8					Rate,
++	IN	u8		BandWidth,
++	IN	u8					Channel,
++	struct txpwr_idx_comp *tic
++);
++
++VOID
++PHY_GetTxPowerLevel8188F(
++	IN	PADAPTER		Adapter,
++	OUT s32				*powerlevel
++);
++
++VOID
++PHY_SetTxPowerLevel8188F(
++	IN	PADAPTER		Adapter,
++	IN	u8			channel
++);
++
++VOID
++PHY_SetSwChnlBWMode8188F(
++	IN	PADAPTER			Adapter,
++	IN	u8					channel,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					Offset40,
++	IN	u8					Offset80
++);
++
++VOID PHY_SetRFPathSwitch_8188F(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bMain
++);
++/*--------------------------Exported Function prototype End---------------------*/
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8188FPhyReg.h b/drivers/net/wireless/rtl8812au/include/Hal8188FPhyReg.h
+new file mode 100644
+index 0000000..8d38c0f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8188FPhyReg.h
+@@ -0,0 +1,1170 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8188FPHYREG_H__
++#define __INC_HAL8188FPHYREG_H__
++
++/*--------------------------Define Parameters-------------------------------*/
++
++/* ************************************************************
++ * Regsiter offset definition
++ * ************************************************************ */
++
++/*
++ * BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++ * 3. RF register 0x00-2E
++ * 4. Bit Mask for BB/RF register
++ * 5. Other defintion for BB/RF R/W
++ *   */
++
++
++/*
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 1. Page1(0x100)
++ *   */
++#define		rPMAC_Reset					0x100
++#define		rPMAC_TxStart					0x104
++#define		rPMAC_TxLegacySIG				0x108
++#define		rPMAC_TxHTSIG1				0x10c
++#define		rPMAC_TxHTSIG2				0x110
++#define		rPMAC_PHYDebug				0x114
++#define		rPMAC_TxPacketNum				0x118
++#define		rPMAC_TxIdle					0x11c
++#define		rPMAC_TxMACHeader0			0x120
++#define		rPMAC_TxMACHeader1			0x124
++#define		rPMAC_TxMACHeader2			0x128
++#define		rPMAC_TxMACHeader3			0x12c
++#define		rPMAC_TxMACHeader4			0x130
++#define		rPMAC_TxMACHeader5			0x134
++#define		rPMAC_TxDataType				0x138
++#define		rPMAC_TxRandomSeed			0x13c
++#define		rPMAC_CCKPLCPPreamble			0x140
++#define		rPMAC_CCKPLCPHeader			0x144
++#define		rPMAC_CCKCRC16				0x148
++#define		rPMAC_OFDMRxCRC32OK			0x170
++#define		rPMAC_OFDMRxCRC32Er			0x174
++#define		rPMAC_OFDMRxParityEr			0x178
++#define		rPMAC_OFDMRxCRC8Er			0x17c
++#define		rPMAC_CCKCRxRC16Er			0x180
++#define		rPMAC_CCKCRxRC32Er			0x184
++#define		rPMAC_CCKCRxRC32OK			0x188
++#define		rPMAC_TxStatus					0x18c
++
++/*
++ * 2. Page2(0x200)
++ *
++ * The following two definition are only used for USB interface. */
++#define		RF_BB_CMD_ADDR				0x02c0	/* RF/BB read/write command address. */
++#define		RF_BB_CMD_DATA				0x02c4	/* RF/BB read/write command data. */
++
++/*
++ * 3. Page8(0x800)
++ *   */
++#define		rFPGA0_RFMOD				0x800	/* RF mode & CCK TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA0_TxInfo				0x804	/* Status report?? */
++#define		rFPGA0_PSDFunction			0x808
++
++#define		rFPGA0_TxGainStage			0x80c	/* Set TX PWR init gain? */
++
++#define		rFPGA0_RFTiming1			0x810	/* Useless now */
++#define		rFPGA0_RFTiming2			0x814
++
++#define		rFPGA0_XA_HSSIParameter1		0x820	/* RF 3 wire register */
++#define		rFPGA0_XA_HSSIParameter2		0x824
++#define		rFPGA0_XB_HSSIParameter1		0x828
++#define		rFPGA0_XB_HSSIParameter2		0x82c
++#define		rTxAGC_B_Rate18_06				0x830
++#define		rTxAGC_B_Rate54_24				0x834
++#define		rTxAGC_B_CCK1_55_Mcs32		0x838
++#define		rTxAGC_B_Mcs03_Mcs00			0x83c
++
++#define		rTxAGC_B_Mcs07_Mcs04			0x848
++#define		rTxAGC_B_Mcs11_Mcs08			0x84c
++
++#define		rFPGA0_XA_LSSIParameter		0x840
++#define		rFPGA0_XB_LSSIParameter		0x844
++
++#define		rFPGA0_RFWakeUpParameter		0x850	/* Useless now */
++#define		rFPGA0_RFSleepUpParameter		0x854
++
++#define		rFPGA0_XAB_SwitchControl		0x858	/* RF Channel switch */
++#define		rFPGA0_XCD_SwitchControl		0x85c
++
++#define		rFPGA0_XA_RFInterfaceOE		0x860	/* RF Channel switch */
++#define		rFPGA0_XB_RFInterfaceOE		0x864
++
++#define		rTxAGC_B_Mcs15_Mcs12			0x868
++#define		rTxAGC_B_CCK11_A_CCK2_11		0x86c
++
++#define		rFPGA0_XAB_RFInterfaceSW		0x870	/* RF Interface Software Control */
++#define		rFPGA0_XCD_RFInterfaceSW		0x874
++
++#define		rFPGA0_XAB_RFParameter		0x878	/* RF Parameter */
++#define		rFPGA0_XCD_RFParameter		0x87c
++
++#define		rFPGA0_AnalogParameter1		0x880	/* Crystal cap setting RF-R/W protection for parameter4?? */
++#define		rFPGA0_AnalogParameter2		0x884
++#define		rFPGA0_AnalogParameter3		0x888	/* Useless now */
++#define		rFPGA0_AnalogParameter4		0x88c
++
++#define		rFPGA0_XA_LSSIReadBack		0x8a0	/* Tranceiver LSSI Readback */
++#define		rFPGA0_XB_LSSIReadBack		0x8a4
++#define		rFPGA0_XC_LSSIReadBack		0x8a8
++#define		rFPGA0_XD_LSSIReadBack		0x8ac
++
++#define		rFPGA0_PSDReport				0x8b4	/* Useless now */
++#define		TransceiverA_HSPI_Readback	0x8b8	/* Transceiver A HSPI Readback */
++#define		TransceiverB_HSPI_Readback	0x8bc	/* Transceiver B HSPI Readback */
++#define		rFPGA0_XAB_RFInterfaceRB		0x8e0	/* Useless now */ /* RF Interface Readback Value */
++#define		rFPGA0_XCD_RFInterfaceRB		0x8e4	/* Useless now */
++
++/*
++ * 4. Page9(0x900)
++ *   */
++#define		rFPGA1_RFMOD				0x900	/* RF mode & OFDM TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA1_TxBlock				0x904	/* Useless now */
++#define		rFPGA1_DebugSelect			0x908	/* Useless now */
++#define		rFPGA1_TxInfo				0x90c	/* Useless now */ /* Status report?? */
++#define	rS0S1_PathSwitch			0x948
++
++/*
++ * 5. PageA(0xA00)
++ *
++ * Set Control channel to upper or lower. These settings are required only for 40MHz */
++#define		rCCK0_System				0xa00
++
++#define		rCCK0_AFESetting			0xa04	/* Disable init gain now */ /* Select RX path by RSSI */
++#define		rCCK0_CCA					0xa08	/* Disable init gain now */ /* Init gain */
++
++#define		rCCK0_RxAGC1				0xa0c	/* AGC default value, saturation level  */ /* Antenna Diversity, RX AGC, LNA Threshold, RX LNA Threshold useless now. Not the same as 90 series */
++#define		rCCK0_RxAGC2				0xa10	/* AGC & DAGC */
++
++#define		rCCK0_RxHP					0xa14
++
++#define		rCCK0_DSPParameter1		0xa18	/* Timing recovery & Channel estimation threshold */
++#define		rCCK0_DSPParameter2		0xa1c	/* SQ threshold */
++
++#define		rCCK0_TxFilter1				0xa20
++#define		rCCK0_TxFilter2				0xa24
++#define		rCCK0_DebugPort			0xa28	/* debug port and Tx filter3 */
++#define		rCCK0_FalseAlarmReport		0xa2c	/* 0xa2d	useless now 0xa30-a4f channel report */
++#define		rCCK0_TRSSIReport		0xa50
++#define		rCCK0_RxReport            		0xa54  /* 0xa57 */
++#define		rCCK0_FACounterLower      	0xa5c  /* 0xa5b */
++#define		rCCK0_FACounterUpper      	0xa58  /* 0xa5c
++ *
++ * PageB(0xB00)
++ *   */
++#define		rPdp_AntA				0xb00
++#define		rPdp_AntA_4				0xb04
++#define		rConfig_Pmpd_AntA			0xb28
++#define		rConfig_AntA				0xb68
++#define		rConfig_AntB				0xb6c
++#define		rPdp_AntB					0xb70
++#define		rPdp_AntB_4				0xb74
++#define		rConfig_Pmpd_AntB			0xb98
++#define		rAPK						0xbd8
++
++/*
++ * 6. PageC(0xC00)
++ *   */
++#define		rOFDM0_LSTF				0xc00
++
++#define		rOFDM0_TRxPathEnable		0xc04
++#define		rOFDM0_TRMuxPar			0xc08
++#define		rOFDM0_TRSWIsolation		0xc0c
++
++#define		rOFDM0_XARxAFE			0xc10  /* RxIQ DC offset, Rx digital filter, DC notch filter */
++#define		rOFDM0_XARxIQImbalance    	0xc14  /* RxIQ imblance matrix */
++#define		rOFDM0_XBRxAFE		0xc18
++#define		rOFDM0_XBRxIQImbalance	0xc1c
++#define		rOFDM0_XCRxAFE		0xc20
++#define		rOFDM0_XCRxIQImbalance	0xc24
++#define		rOFDM0_XDRxAFE		0xc28
++#define		rOFDM0_XDRxIQImbalance	0xc2c
++
++#define		rOFDM0_RxDetector1			0xc30  /* PD, BW & SBD	 */ /* DM tune init gain */
++#define		rOFDM0_RxDetector2			0xc34  /* SBD & Fame Sync. */
++#define		rOFDM0_RxDetector3			0xc38  /* Frame Sync. */
++#define		rOFDM0_RxDetector4			0xc3c  /* PD, SBD, Frame Sync & Short-GI */
++
++#define		rOFDM0_RxDSP				0xc40  /* Rx Sync Path */
++#define		rOFDM0_CFOandDAGC		0xc44  /* CFO & DAGC */
++#define		rOFDM0_CCADropThreshold	0xc48 /* CCA Drop threshold */
++#define		rOFDM0_ECCAThreshold		0xc4c /* energy CCA */
++
++#define		rOFDM0_XAAGCCore1			0xc50	/* DIG */
++#define		rOFDM0_XAAGCCore2			0xc54
++#define		rOFDM0_XBAGCCore1			0xc58
++#define		rOFDM0_XBAGCCore2			0xc5c
++#define		rOFDM0_XCAGCCore1			0xc60
++#define		rOFDM0_XCAGCCore2			0xc64
++#define		rOFDM0_XDAGCCore1			0xc68
++#define		rOFDM0_XDAGCCore2			0xc6c
++
++#define		rOFDM0_AGCParameter1			0xc70
++#define		rOFDM0_AGCParameter2			0xc74
++#define		rOFDM0_AGCRSSITable			0xc78
++#define		rOFDM0_HTSTFAGC				0xc7c
++
++#define		rOFDM0_XATxIQImbalance		0xc80	/* TX PWR TRACK and DIG */
++#define		rOFDM0_XATxAFE				0xc84
++#define		rOFDM0_XBTxIQImbalance		0xc88
++#define		rOFDM0_XBTxAFE				0xc8c
++#define		rOFDM0_XCTxIQImbalance		0xc90
++#define		rOFDM0_XCTxAFE			0xc94
++#define		rOFDM0_XDTxIQImbalance		0xc98
++#define		rOFDM0_XDTxAFE				0xc9c
++
++#define		rOFDM0_RxIQExtAnta			0xca0
++#define		rOFDM0_TxCoeff1				0xca4
++#define		rOFDM0_TxCoeff2				0xca8
++#define		rOFDM0_TxCoeff3				0xcac
++#define		rOFDM0_TxCoeff4				0xcb0
++#define		rOFDM0_TxCoeff5				0xcb4
++#define		rOFDM0_TxCoeff6				0xcb8
++#define		rOFDM0_RxHPParameter			0xce0
++#define		rOFDM0_TxPseudoNoiseWgt		0xce4
++#define		rOFDM0_FrameSync				0xcf0
++#define		rOFDM0_DFSReport				0xcf4
++
++/*
++ * 7. PageD(0xD00)
++ *   */
++#define		rOFDM1_LSTF					0xd00
++#define		rOFDM1_TRxPathEnable			0xd04
++
++#define		rOFDM1_CFO						0xd08	/* No setting now */
++#define		rOFDM1_CSI1					0xd10
++#define		rOFDM1_SBD						0xd14
++#define		rOFDM1_CSI2					0xd18
++#define		rOFDM1_CFOTracking			0xd2c
++#define		rOFDM1_TRxMesaure1			0xd34
++#define		rOFDM1_IntfDet					0xd3c
++#define		rOFDM1_PseudoNoiseStateAB		0xd50
++#define		rOFDM1_PseudoNoiseStateCD		0xd54
++#define		rOFDM1_RxPseudoNoiseWgt		0xd58
++
++#define		rOFDM_PHYCounter1				0xda0  /* cca, parity fail */
++#define		rOFDM_PHYCounter2				0xda4  /* rate illegal, crc8 fail */
++#define		rOFDM_PHYCounter3				0xda8  /* MCS not support */
++
++#define		rOFDM_ShortCFOAB				0xdac	/* No setting now */
++#define		rOFDM_ShortCFOCD				0xdb0
++#define		rOFDM_LongCFOAB				0xdb4
++#define		rOFDM_LongCFOCD				0xdb8
++#define		rOFDM_TailCFOAB				0xdbc
++#define		rOFDM_TailCFOCD				0xdc0
++#define		rOFDM_PWMeasure1		0xdc4
++#define		rOFDM_PWMeasure2		0xdc8
++#define		rOFDM_BWReport				0xdcc
++#define		rOFDM_AGCReport				0xdd0
++#define		rOFDM_RxSNR					0xdd4
++#define		rOFDM_RxEVMCSI				0xdd8
++#define		rOFDM_SIGReport				0xddc
++
++
++/*
++ * 8. PageE(0xE00)
++ *   */
++#define		rTxAGC_A_Rate18_06			0xe00
++#define		rTxAGC_A_Rate54_24			0xe04
++#define		rTxAGC_A_CCK1_Mcs32			0xe08
++#define		rTxAGC_A_Mcs03_Mcs00			0xe10
++#define		rTxAGC_A_Mcs07_Mcs04			0xe14
++#define		rTxAGC_A_Mcs11_Mcs08			0xe18
++#define		rTxAGC_A_Mcs15_Mcs12			0xe1c
++
++#define		rFPGA0_IQK					0xe28
++#define		rTx_IQK_Tone_A				0xe30
++#define		rRx_IQK_Tone_A				0xe34
++#define		rTx_IQK_PI_A					0xe38
++#define		rRx_IQK_PI_A					0xe3c
++
++#define		rTx_IQK						0xe40
++#define		rRx_IQK						0xe44
++#define		rIQK_AGC_Pts					0xe48
++#define		rIQK_AGC_Rsp					0xe4c
++#define		rTx_IQK_Tone_B				0xe50
++#define		rRx_IQK_Tone_B				0xe54
++#define		rTx_IQK_PI_B					0xe58
++#define		rRx_IQK_PI_B					0xe5c
++#define		rIQK_AGC_Cont				0xe60
++
++#define		rBlue_Tooth					0xe6c
++#define		rRx_Wait_CCA					0xe70
++#define		rTx_CCK_RFON					0xe74
++#define		rTx_CCK_BBON				0xe78
++#define		rTx_OFDM_RFON				0xe7c
++#define		rTx_OFDM_BBON				0xe80
++#define		rTx_To_Rx					0xe84
++#define		rTx_To_Tx					0xe88
++#define		rRx_CCK						0xe8c
++
++#define		rTx_Power_Before_IQK_A		0xe94
++#define		rTx_Power_After_IQK_A			0xe9c
++
++#define		rRx_Power_Before_IQK_A		0xea0
++#define		rRx_Power_Before_IQK_A_2		0xea4
++#define		rRx_Power_After_IQK_A			0xea8
++#define		rRx_Power_After_IQK_A_2		0xeac
++
++#define		rTx_Power_Before_IQK_B		0xeb4
++#define		rTx_Power_After_IQK_B			0xebc
++
++#define		rRx_Power_Before_IQK_B		0xec0
++#define		rRx_Power_Before_IQK_B_2		0xec4
++#define		rRx_Power_After_IQK_B			0xec8
++#define		rRx_Power_After_IQK_B_2		0xecc
++
++#define		rRx_OFDM					0xed0
++#define		rRx_Wait_RIFS				0xed4
++#define		rRx_TO_Rx					0xed8
++#define		rStandby						0xedc
++#define		rSleep						0xee0
++#define		rPMPD_ANAEN				0xeec
++
++/*
++ * 7. RF Register 0x00-0x2E (RF 8256)
++ * RF-0222D 0x00-3F
++ *
++ * Zebra1 */
++#define		rZebra1_HSSIEnable				0x0	/* Useless now */
++#define		rZebra1_TRxEnable1				0x1
++#define		rZebra1_TRxEnable2				0x2
++#define		rZebra1_AGC					0x4
++#define		rZebra1_ChargePump			0x5
++#define		rZebra1_Channel				0x7	/* RF channel switch */
++
++/* #endif */
++#define		rZebra1_TxGain					0x8	/* Useless now */
++#define		rZebra1_TxLPF					0x9
++#define		rZebra1_RxLPF					0xb
++#define		rZebra1_RxHPFCorner			0xc
++
++/* Zebra4 */
++#define		rGlobalCtrl						0	/* Useless now */
++#define		rRTL8256_TxLPF					19
++#define		rRTL8256_RxLPF					11
++
++/* RTL8258 */
++#define		rRTL8258_TxLPF					0x11	/* Useless now */
++#define		rRTL8258_RxLPF					0x13
++#define		rRTL8258_RSSILPF				0xa
++
++/*
++ * RL6052 Register definition
++ *   */
++#define		RF_AC						0x00	/*  */
++
++#define		RF_IQADJ_G1				0x01	/*  */
++#define		RF_IQADJ_G2				0x02	/*  */
++#define		RF_BS_PA_APSET_G1_G4		0x03
++#define		RF_BS_PA_APSET_G5_G8		0x04
++#define		RF_POW_TRSW				0x05	/*  */
++
++#define		RF_GAIN_RX					0x06	/*  */
++#define		RF_GAIN_TX					0x07	/*  */
++
++#define		RF_TXM_IDAC				0x08	/*  */
++#define		RF_IPA_G					0x09	/*  */
++#define		RF_TXBIAS_G				0x0A
++#define		RF_TXPA_AG					0x0B
++#define		RF_IPA_A					0x0C	/*  */
++#define		RF_TXBIAS_A				0x0D
++#define		RF_BS_PA_APSET_G9_G11	0x0E
++#define		RF_BS_IQGEN				0x0F	/*  */
++
++#define		RF_MODE1					0x10	/*  */
++#define		RF_MODE2					0x11	/*  */
++
++#define		RF_RX_AGC_HP				0x12	/*  */
++#define		RF_TX_AGC					0x13	/*  */
++#define		RF_BIAS						0x14	/*  */
++#define		RF_IPA						0x15	/*  */
++#define		RF_TXBIAS					0x16
++#define		RF_POW_ABILITY			0x17	/*  */
++#define		RF_MODE_AG				0x18	/*  */
++#define		rRfChannel					0x18	/* RF channel and BW switch */
++#define		RF_CHNLBW					0x18	/* RF channel and BW switch */
++#define		RF_TOP						0x19	/*  */
++
++#define		RF_RX_G1					0x1A	/*  */
++#define		RF_RX_G2					0x1B	/*  */
++
++#define		RF_RX_BB2					0x1C	/*  */
++#define		RF_RX_BB1					0x1D	/*  */
++
++#define		RF_RCK1					0x1E	/*  */
++#define		RF_RCK2					0x1F	/*  */
++
++#define		RF_TX_G1					0x20	/*  */
++#define		RF_TX_G2					0x21	/*  */
++#define		RF_TX_G3					0x22	/*  */
++
++#define		RF_TX_BB1					0x23	/*  */
++
++#define		RF_T_METER					0x24	/*  */
++
++#define		RF_SYN_G1					0x25	/* RF TX Power control */
++#define		RF_SYN_G2					0x26	/* RF TX Power control */
++#define		RF_SYN_G3					0x27	/* RF TX Power control */
++#define		RF_SYN_G4					0x28	/* RF TX Power control */
++#define		RF_SYN_G5					0x29	/* RF TX Power control */
++#define		RF_SYN_G6					0x2A	/* RF TX Power control */
++#define		RF_SYN_G7					0x2B	/* RF TX Power control */
++#define		RF_SYN_G8					0x2C	/* RF TX Power control */
++
++#define		RF_RCK_OS					0x30	/* RF TX PA control */
++
++#define		RF_TXPA_G1					0x31	/* RF TX PA control */
++#define		RF_TXPA_G2					0x32	/* RF TX PA control */
++#define		RF_TXPA_G3					0x33	/* RF TX PA control */
++#define	RF_TX_BIAS_A				0x35
++#define	RF_TX_BIAS_D				0x36
++#define	RF_LOBF_9					0x38
++#define 	RF_RXRF_A3					0x3C	/*	 */
++#define	RF_TRSW					0x3F
++
++#define	RF_TXRF_A2					0x41
++#define	RF_TXPA_G4					0x46
++#define	RF_TXPA_A4					0x4B
++#define	RF_0x52					0x52
++#define		RF_RXG_MIX_SWBW				0x87
++#define		RF_DBG_LP_RX2				0xDF
++#define	RF_WE_LUT					0xEF
++#define	RF_S0S1					0xB0
++
++#define RF_TX_GAIN_OFFSET_8188F(_val) (abs((_val)) | (((_val) > 0) ? BIT5 : 0))
++
++/*
++ * Bit Mask
++ *
++ * 1. Page1(0x100) */
++#define		bBBResetB						0x100	/* Useless now? */
++#define		bGlobalResetB					0x200
++#define		bOFDMTxStart					0x4
++#define		bCCKTxStart						0x8
++#define		bCRC32Debug					0x100
++#define		bPMACLoopback					0x10
++#define		bTxLSIG							0xffffff
++#define		bOFDMTxRate					0xf
++#define		bOFDMTxReserved				0x10
++#define		bOFDMTxLength					0x1ffe0
++#define		bOFDMTxParity					0x20000
++#define		bTxHTSIG1						0xffffff
++#define		bTxHTMCSRate					0x7f
++#define		bTxHTBW						0x80
++#define		bTxHTLength					0xffff00
++#define		bTxHTSIG2						0xffffff
++#define		bTxHTSmoothing					0x1
++#define		bTxHTSounding					0x2
++#define		bTxHTReserved					0x4
++#define		bTxHTAggreation				0x8
++#define		bTxHTSTBC						0x30
++#define		bTxHTAdvanceCoding			0x40
++#define		bTxHTShortGI					0x80
++#define		bTxHTNumberHT_LTF			0x300
++#define		bTxHTCRC8						0x3fc00
++#define		bCounterReset					0x10000
++#define		bNumOfOFDMTx					0xffff
++#define		bNumOfCCKTx					0xffff0000
++#define		bTxIdleInterval					0xffff
++#define		bOFDMService					0xffff0000
++#define		bTxMACHeader					0xffffffff
++#define		bTxDataInit						0xff
++#define		bTxHTMode						0x100
++#define		bTxDataType					0x30000
++#define		bTxRandomSeed					0xffffffff
++#define		bCCKTxPreamble					0x1
++#define		bCCKTxSFD						0xffff0000
++#define		bCCKTxSIG						0xff
++#define		bCCKTxService					0xff00
++#define		bCCKLengthExt					0x8000
++#define		bCCKTxLength					0xffff0000
++#define		bCCKTxCRC16					0xffff
++#define		bCCKTxStatus					0x1
++#define		bOFDMTxStatus					0x2
++
++#define		IS_BB_REG_OFFSET_92S(_Offset)		((_Offset >= 0x800) && (_Offset <= 0xfff))
++
++/* 2. Page8(0x800) */
++#define		bRFMOD							0x1	/* Reg 0x800 rFPGA0_RFMOD */
++#define		bJapanMode						0x2
++#define		bCCKTxSC						0x30
++#define		bCCKEn							0x1000000
++#define		bOFDMEn						0x2000000
++
++#define		bOFDMRxADCPhase           		0x10000	/* Useless now */
++#define		bOFDMTxDACPhase		0x40000
++#define		bXATxAGC			0x3f
++
++#define		bAntennaSelect		0x0300
++
++#define		bXBTxAGC                  			0xf00	/* Reg 80c rFPGA0_TxGainStage */
++#define		bXCTxAGC			0xf000
++#define		bXDTxAGC			0xf0000
++
++#define		bPAStart                  			0xf0000000	/* Useless now */
++#define		bTRStart			0x00f00000
++#define		bRFStart			0x0000f000
++#define		bBBStart			0x000000f0
++#define		bBBCCKStart		0x0000000f
++#define		bPAEnd                    			0xf          /* Reg0x814 */
++#define		bTREnd			0x0f000000
++#define		bRFEnd			0x000f0000
++#define		bCCAMask                  			0x000000f0   /* T2R */
++#define		bR2RCCAMask		0x00000f00
++#define		bHSSI_R2TDelay		0xf8000000
++#define		bHSSI_T2RDelay		0xf80000
++#define		bContTxHSSI               		0x400     /* chane gain at continue Tx */
++#define		bIGFromCCK		0x200
++#define		bAGCAddress		0x3f
++#define		bRxHPTx			0x7000
++#define		bRxHPT2R			0x38000
++#define		bRxHPCCKIni		0xc0000
++#define		bAGCTxCode		0xc00000
++#define		bAGCRxCode		0x300000
++
++#define		b3WireDataLength          		0x800	/* Reg 0x820~84f rFPGA0_XA_HSSIParameter1 */
++#define		b3WireAddressLength		0x400
++
++#define		b3WireRFPowerDown         		0x1	/* Useless now
++ * #define bHWSISelect		0x8 */
++#define		b5GPAPEPolarity		0x40000000
++#define		b2GPAPEPolarity		0x80000000
++#define		bRFSW_TxDefaultAnt		0x3
++#define		bRFSW_TxOptionAnt		0x30
++#define		bRFSW_RxDefaultAnt		0x300
++#define		bRFSW_RxOptionAnt		0x3000
++#define		bRFSI_3WireData		0x1
++#define		bRFSI_3WireClock		0x2
++#define		bRFSI_3WireLoad		0x4
++#define		bRFSI_3WireRW		0x8
++#define		bRFSI_3Wire			0xf
++
++#define		bRFSI_RFENV               		0x10	/* Reg 0x870 rFPGA0_XAB_RFInterfaceSW */
++
++#define		bRFSI_TRSW                		0x20	/* Useless now */
++#define		bRFSI_TRSWB		0x40
++#define		bRFSI_ANTSW		0x100
++#define		bRFSI_ANTSWB		0x200
++#define		bRFSI_PAPE			0x400
++#define		bRFSI_PAPE5G		0x800
++#define		bBandSelect			0x1
++#define		bHTSIG2_GI			0x80
++#define		bHTSIG2_Smoothing		0x01
++#define		bHTSIG2_Sounding		0x02
++#define		bHTSIG2_Aggreaton		0x08
++#define		bHTSIG2_STBC		0x30
++#define		bHTSIG2_AdvCoding		0x40
++#define		bHTSIG2_NumOfHTLTF	0x300
++#define		bHTSIG2_CRC8		0x3fc
++#define		bHTSIG1_MCS		0x7f
++#define		bHTSIG1_BandWidth		0x80
++#define		bHTSIG1_HTLength		0xffff
++#define		bLSIG_Rate			0xf
++#define		bLSIG_Reserved		0x10
++#define		bLSIG_Length		0x1fffe
++#define		bLSIG_Parity			0x20
++#define		bCCKRxPhase		0x4
++
++#define		bLSSIReadAddress          		0x7f800000   /* T65 RF */
++
++#define		bLSSIReadEdge             		0x80000000   /* LSSI "Read" edge signal */
++
++#define		bLSSIReadBackData         		0xfffff		/* T65 RF */
++
++#define		bLSSIReadOKFlag           		0x1000	/* Useless now */
++#define		bCCKSampleRate            		0x8       /* 0: 44MHz, 1:88MHz      		 */
++#define		bRegulator0Standby		0x1
++#define		bRegulatorPLLStandby		0x2
++#define		bRegulator1Standby		0x4
++#define		bPLLPowerUp		0x8
++#define		bDPLLPowerUp		0x10
++#define		bDA10PowerUp		0x20
++#define		bAD7PowerUp		0x200
++#define		bDA6PowerUp		0x2000
++#define		bXtalPowerUp		0x4000
++#define		b40MDClkPowerUP		0x8000
++#define		bDA6DebugMode		0x20000
++#define		bDA6Swing			0x380000
++
++#define		bADClkPhase               		0x4000000	/* Reg 0x880 rFPGA0_AnalogParameter1 20/40 CCK support switch 40/80 BB MHZ */
++
++#define		b80MClkDelay              		0x18000000	/* Useless */
++#define		bAFEWatchDogEnable		0x20000000
++
++#define		bXtalCap01                			0xc0000000	/* Reg 0x884 rFPGA0_AnalogParameter2 Crystal cap */
++#define		bXtalCap23			0x3
++#define		bXtalCap92x					0x0f000000
++#define		bXtalCap			0x0f000000
++
++#define		bIntDifClkEnable          		0x400	/* Useless */
++#define		bExtSigClkEnable		0x800
++#define		bBandgapMbiasPowerUp	0x10000
++#define		bAD11SHGain		0xc0000
++#define		bAD11InputRange		0x700000
++#define		bAD11OPCurrent		0x3800000
++#define		bIPathLoopback		0x4000000
++#define		bQPathLoopback		0x8000000
++#define		bAFELoopback		0x10000000
++#define		bDA10Swing		0x7e0
++#define		bDA10Reverse		0x800
++#define		bDAClkSource		0x1000
++#define		bAD7InputRange		0x6000
++#define		bAD7Gain			0x38000
++#define		bAD7OutputCMMode		0x40000
++#define		bAD7InputCMMode		0x380000
++#define		bAD7Current			0xc00000
++#define		bRegulatorAdjust		0x7000000
++#define		bAD11PowerUpAtTx		0x1
++#define		bDA10PSAtTx		0x10
++#define		bAD11PowerUpAtRx		0x100
++#define		bDA10PSAtRx		0x1000
++#define		bCCKRxAGCFormat		0x200
++#define		bPSDFFTSamplepPoint		0xc000
++#define		bPSDAverageNum		0x3000
++#define		bIQPathControl		0xc00
++#define		bPSDFreq			0x3ff
++#define		bPSDAntennaPath		0x30
++#define		bPSDIQSwitch		0x40
++#define		bPSDRxTrigger		0x400000
++#define		bPSDTxTrigger		0x80000000
++#define		bPSDSineToneScale		0x7f000000
++#define		bPSDReport			0xffff
++
++/* 3. Page9(0x900) */
++#define		bOFDMTxSC                 		0x30000000	/* Useless */
++#define		bCCKTxOn			0x1
++#define		bOFDMTxOn		0x2
++#define		bDebugPage                		0xfff  /* reset debug page and also HWord, LWord */
++#define		bDebugItem                		0xff   /* reset debug page and LWord */
++#define		bAntL			0x10
++#define		bAntNonHT				0x100
++#define		bAntHT1			0x1000
++#define		bAntHT2			0x10000
++#define		bAntHT1S1			0x100000
++#define		bAntNonHTS1		0x1000000
++
++/* 4. PageA(0xA00) */
++#define		bCCKBBMode				0x3	/* Useless */
++#define		bCCKTxPowerSaving		0x80
++#define		bCCKRxPowerSaving		0x40
++
++#define		bCCKSideBand			0x10	/* Reg 0xa00 rCCK0_System 20/40 switch */
++
++#define		bCCKScramble			0x8	/* Useless */
++#define		bCCKAntDiversity		0x8000
++#define		bCCKCarrierRecovery		0x4000
++#define		bCCKTxRate				0x3000
++#define		bCCKDCCancel			0x0800
++#define		bCCKISICancel			0x0400
++#define		bCCKMatchFilter			0x0200
++#define		bCCKEqualizer			0x0100
++#define		bCCKPreambleDetect		0x800000
++#define		bCCKFastFalseCCA		0x400000
++#define		bCCKChEstStart			0x300000
++#define		bCCKCCACount			0x080000
++#define		bCCKcs_lim				0x070000
++#define		bCCKBistMode			0x80000000
++#define		bCCKCCAMask			0x40000000
++#define		bCCKTxDACPhase		0x4
++#define		bCCKRxADCPhase		0x20000000   /* r_rx_clk */
++#define		bCCKr_cp_mode0		0x0100
++#define		bCCKTxDCOffset			0xf0
++#define		bCCKRxDCOffset			0xf
++#define		bCCKCCAMode			0xc000
++#define		bCCKFalseCS_lim			0x3f00
++#define		bCCKCS_ratio			0xc00000
++#define		bCCKCorgBit_sel			0x300000
++#define		bCCKPD_lim				0x0f0000
++#define		bCCKNewCCA			0x80000000
++#define		bCCKRxHPofIG			0x8000
++#define		bCCKRxIG				0x7f00
++#define		bCCKLNAPolarity			0x800000
++#define		bCCKRx1stGain			0x7f0000
++#define		bCCKRFExtend			0x20000000 /* CCK Rx Iinital gain polarity */
++#define		bCCKRxAGCSatLevel		0x1f000000
++#define		bCCKRxAGCSatCount		0xe0
++#define		bCCKRxRFSettle			0x1f       /* AGCsamp_dly */
++#define		bCCKFixedRxAGC			0x8000
++/* #define bCCKRxAGCFormat		0x4000 */   /* remove to HSSI register 0x824 */
++#define		bCCKAntennaPolarity		0x2000
++#define		bCCKTxFilterType		0x0c00
++#define		bCCKRxAGCReportType	0x0300
++#define		bCCKRxDAGCEn			0x80000000
++#define		bCCKRxDAGCPeriod		0x20000000
++#define		bCCKRxDAGCSatLevel		0x1f000000
++#define		bCCKTimingRecovery		0x800000
++#define		bCCKTxC0				0x3f0000
++#define		bCCKTxC1				0x3f000000
++#define		bCCKTxC2				0x3f
++#define		bCCKTxC3				0x3f00
++#define		bCCKTxC4				0x3f0000
++#define		bCCKTxC5				0x3f000000
++#define		bCCKTxC6				0x3f
++#define		bCCKTxC7				0x3f00
++#define		bCCKDebugPort			0xff0000
++#define		bCCKDACDebug			0x0f000000
++#define		bCCKFalseAlarmEnable	0x8000
++#define		bCCKFalseAlarmRead		0x4000
++#define		bCCKTRSSI				0x7f
++#define		bCCKRxAGCReport		0xfe
++#define		bCCKRxReport_AntSel	0x80000000
++#define		bCCKRxReport_MFOff		0x40000000
++#define		bCCKRxRxReport_SQLoss	0x20000000
++#define		bCCKRxReport_Pktloss	0x10000000
++#define		bCCKRxReport_Lockedbit	0x08000000
++#define		bCCKRxReport_RateError	0x04000000
++#define		bCCKRxReport_RxRate	0x03000000
++#define		bCCKRxFACounterLower	0xff
++#define		bCCKRxFACounterUpper	0xff000000
++#define		bCCKRxHPAGCStart		0xe000
++#define		bCCKRxHPAGCFinal		0x1c00
++#define		bCCKRxFalseAlarmEnable	0x8000
++#define		bCCKFACounterFreeze	0x4000
++#define		bCCKTxPathSel			0x10000000
++#define		bCCKDefaultRxPath		0xc000000
++#define		bCCKOptionRxPath		0x3000000
++
++/* 5. PageC(0xC00) */
++#define		bNumOfSTF				0x3	/* Useless */
++#define		bShift_L					0xc0
++#define		bGI_TH					0xc
++#define		bRxPathA				0x1
++#define		bRxPathB				0x2
++#define		bRxPathC				0x4
++#define		bRxPathD				0x8
++#define		bTxPathA				0x1
++#define		bTxPathB				0x2
++#define		bTxPathC				0x4
++#define		bTxPathD				0x8
++#define		bTRSSIFreq				0x200
++#define		bADCBackoff				0x3000
++#define		bDFIRBackoff			0xc000
++#define		bTRSSILatchPhase		0x10000
++#define		bRxIDCOffset			0xff
++#define		bRxQDCOffset			0xff00
++#define		bRxDFIRMode			0x1800000
++#define		bRxDCNFType			0xe000000
++#define		bRXIQImb_A				0x3ff
++#define		bRXIQImb_B				0xfc00
++#define		bRXIQImb_C				0x3f0000
++#define		bRXIQImb_D				0xffc00000
++#define		bDC_dc_Notch			0x60000
++#define		bRxNBINotch			0x1f000000
++#define		bPD_TH					0xf
++#define		bPD_TH_Opt2			0xc000
++#define		bPWED_TH				0x700
++#define		bIfMF_Win_L			0x800
++#define		bPD_Option				0x1000
++#define		bMF_Win_L				0xe000
++#define		bBW_Search_L			0x30000
++#define		bwin_enh_L				0xc0000
++#define		bBW_TH					0x700000
++#define		bED_TH2				0x3800000
++#define		bBW_option				0x4000000
++#define		bRatio_TH				0x18000000
++#define		bWindow_L				0xe0000000
++#define		bSBD_Option				0x1
++#define		bFrame_TH				0x1c
++#define		bFS_Option				0x60
++#define		bDC_Slope_check		0x80
++#define		bFGuard_Counter_DC_L	0xe00
++#define		bFrame_Weight_Short	0x7000
++#define		bSub_Tune				0xe00000
++#define		bFrame_DC_Length		0xe000000
++#define		bSBD_start_offset		0x30000000
++#define		bFrame_TH_2			0x7
++#define		bFrame_GI2_TH			0x38
++#define		bGI2_Sync_en			0x40
++#define		bSarch_Short_Early		0x300
++#define		bSarch_Short_Late		0xc00
++#define		bSarch_GI2_Late		0x70000
++#define		bCFOAntSum				0x1
++#define		bCFOAcc				0x2
++#define		bCFOStartOffset			0xc
++#define		bCFOLookBack			0x70
++#define		bCFOSumWeight			0x80
++#define		bDAGCEnable			0x10000
++#define		bTXIQImb_A				0x3ff
++#define		bTXIQImb_B				0xfc00
++#define		bTXIQImb_C				0x3f0000
++#define		bTXIQImb_D				0xffc00000
++#define		bTxIDCOffset			0xff
++#define		bTxQDCOffset			0xff00
++#define		bTxDFIRMode			0x10000
++#define		bTxPesudoNoiseOn		0x4000000
++#define		bTxPesudoNoise_A		0xff
++#define		bTxPesudoNoise_B		0xff00
++#define		bTxPesudoNoise_C		0xff0000
++#define		bTxPesudoNoise_D		0xff000000
++#define		bCCADropOption			0x20000
++#define		bCCADropThres			0xfff00000
++#define		bEDCCA_H				0xf
++#define		bEDCCA_L				0xf0
++#define		bLambda_ED			0x300
++#define		bRxInitialGain			0x7f
++#define		bRxAntDivEn				0x80
++#define		bRxAGCAddressForLNA	0x7f00
++#define		bRxHighPowerFlow		0x8000
++#define		bRxAGCFreezeThres		0xc0000
++#define		bRxFreezeStep_AGC1	0x300000
++#define		bRxFreezeStep_AGC2	0xc00000
++#define		bRxFreezeStep_AGC3	0x3000000
++#define		bRxFreezeStep_AGC0	0xc000000
++#define		bRxRssi_Cmp_En			0x10000000
++#define		bRxQuickAGCEn			0x20000000
++#define		bRxAGCFreezeThresMode	0x40000000
++#define		bRxOverFlowCheckType	0x80000000
++#define		bRxAGCShift				0x7f
++#define		bTRSW_Tri_Only			0x80
++#define		bPowerThres			0x300
++#define		bRxAGCEn				0x1
++#define		bRxAGCTogetherEn		0x2
++#define		bRxAGCMin				0x4
++#define		bRxHP_Ini				0x7
++#define		bRxHP_TRLNA			0x70
++#define		bRxHP_RSSI				0x700
++#define		bRxHP_BBP1				0x7000
++#define		bRxHP_BBP2				0x70000
++#define		bRxHP_BBP3				0x700000
++#define		bRSSI_H					0x7f0000     /* the threshold for high power */
++#define		bRSSI_Gen				0x7f000000   /* the threshold for ant diversity */
++#define		bRxSettle_TRSW			0x7
++#define		bRxSettle_LNA			0x38
++#define		bRxSettle_RSSI			0x1c0
++#define		bRxSettle_BBP			0xe00
++#define		bRxSettle_RxHP			0x7000
++#define		bRxSettle_AntSW_RSSI	0x38000
++#define		bRxSettle_AntSW		0xc0000
++#define		bRxProcessTime_DAGC	0x300000
++#define		bRxSettle_HSSI			0x400000
++#define		bRxProcessTime_BBPPW	0x800000
++#define		bRxAntennaPowerShift	0x3000000
++#define		bRSSITableSelect		0xc000000
++#define		bRxHP_Final				0x7000000
++#define		bRxHTSettle_BBP			0x7
++#define		bRxHTSettle_HSSI		0x8
++#define		bRxHTSettle_RxHP		0x70
++#define		bRxHTSettle_BBPPW		0x80
++#define		bRxHTSettle_Idle		0x300
++#define		bRxHTSettle_Reserved	0x1c00
++#define		bRxHTRxHPEn			0x8000
++#define		bRxHTAGCFreezeThres	0x30000
++#define		bRxHTAGCTogetherEn	0x40000
++#define		bRxHTAGCMin			0x80000
++#define		bRxHTAGCEn				0x100000
++#define		bRxHTDAGCEn			0x200000
++#define		bRxHTRxHP_BBP			0x1c00000
++#define		bRxHTRxHP_Final		0xe0000000
++#define		bRxPWRatioTH			0x3
++#define		bRxPWRatioEn			0x4
++#define		bRxMFHold				0x3800
++#define		bRxPD_Delay_TH1		0x38
++#define		bRxPD_Delay_TH2		0x1c0
++#define		bRxPD_DC_COUNT_MAX	0x600
++/* #define bRxMF_Hold               0x3800 */
++#define		bRxPD_Delay_TH			0x8000
++#define		bRxProcess_Delay		0xf0000
++#define		bRxSearchrange_GI2_Early	0x700000
++#define		bRxFrame_Guard_Counter_L	0x3800000
++#define		bRxSGI_Guard_L			0xc000000
++#define		bRxSGI_Search_L		0x30000000
++#define		bRxSGI_TH				0xc0000000
++#define		bDFSCnt0				0xff
++#define		bDFSCnt1				0xff00
++#define		bDFSFlag				0xf0000
++#define		bMFWeightSum			0x300000
++#define		bMinIdxTH				0x7f000000
++#define		bDAFormat				0x40000
++#define		bTxChEmuEnable		0x01000000
++#define		bTRSWIsolation_A		0x7f
++#define		bTRSWIsolation_B		0x7f00
++#define		bTRSWIsolation_C		0x7f0000
++#define		bTRSWIsolation_D		0x7f000000
++#define		bExtLNAGain				0x7c00
++
++/* 6. PageE(0xE00) */
++#define		bSTBCEn				0x4	/* Useless */
++#define		bAntennaMapping		0x10
++#define		bNss					0x20
++#define		bCFOAntSumD			0x200
++#define		bPHYCounterReset		0x8000000
++#define		bCFOReportGet			0x4000000
++#define		bOFDMContinueTx		0x10000000
++#define		bOFDMSingleCarrier		0x20000000
++#define		bOFDMSingleTone		0x40000000
++/* #define bRxPath1                 0x01 */
++/* #define bRxPath2                 0x02 */
++/* #define bRxPath3                 0x04 */
++/* #define bRxPath4                 0x08 */
++/* #define bTxPath1                 0x10 */
++/* #define bTxPath2                 0x20 */
++#define		bHTDetect			0x100
++#define		bCFOEn				0x10000
++#define		bCFOValue			0xfff00000
++#define		bSigTone_Re		0x3f
++#define		bSigTone_Im		0x7f00
++#define		bCounter_CCA		0xffff
++#define		bCounter_ParityFail	0xffff0000
++#define		bCounter_RateIllegal		0xffff
++#define		bCounter_CRC8Fail	0xffff0000
++#define		bCounter_MCSNoSupport	0xffff
++#define		bCounter_FastSync	0xffff
++#define		bShortCFO			0xfff
++#define		bShortCFOTLength	12   /* total */
++#define		bShortCFOFLength	11   /* fraction */
++#define		bLongCFO			0x7ff
++#define		bLongCFOTLength	11
++#define		bLongCFOFLength	11
++#define		bTailCFO			0x1fff
++#define		bTailCFOTLength		13
++#define		bTailCFOFLength		12
++#define		bmax_en_pwdB		0xffff
++#define		bCC_power_dB		0xffff0000
++#define		bnoise_pwdB		0xffff
++#define		bPowerMeasTLength	10
++#define		bPowerMeasFLength	3
++#define		bRx_HT_BW			0x1
++#define		bRxSC				0x6
++#define		bRx_HT				0x8
++#define		bNB_intf_det_on		0x1
++#define		bIntf_win_len_cfg	0x30
++#define		bNB_Intf_TH_cfg		0x1c0
++#define		bRFGain				0x3f
++#define		bTableSel			0x40
++#define		bTRSW				0x80
++#define		bRxSNR_A			0xff
++#define		bRxSNR_B			0xff00
++#define		bRxSNR_C			0xff0000
++#define		bRxSNR_D			0xff000000
++#define		bSNREVMTLength		8
++#define		bSNREVMFLength		1
++#define		bCSI1st				0xff
++#define		bCSI2nd				0xff00
++#define		bRxEVM1st			0xff0000
++#define		bRxEVM2nd			0xff000000
++#define		bSIGEVM			0xff
++#define		bPWDB				0xff00
++#define		bSGIEN				0x10000
++
++#define		bSFactorQAM1		0xf	/* Useless */
++#define		bSFactorQAM2		0xf0
++#define		bSFactorQAM3		0xf00
++#define		bSFactorQAM4		0xf000
++#define		bSFactorQAM5		0xf0000
++#define		bSFactorQAM6		0xf0000
++#define		bSFactorQAM7		0xf00000
++#define		bSFactorQAM8		0xf000000
++#define		bSFactorQAM9		0xf0000000
++#define		bCSIScheme			0x100000
++
++#define		bNoiseLvlTopSet		0x3	/* Useless */
++#define		bChSmooth			0x4
++#define		bChSmoothCfg1		0x38
++#define		bChSmoothCfg2		0x1c0
++#define		bChSmoothCfg3		0xe00
++#define		bChSmoothCfg4		0x7000
++#define		bMRCMode			0x800000
++#define		bTHEVMCfg			0x7000000
++
++#define		bLoopFitType		0x1	/* Useless */
++#define		bUpdCFO			0x40
++#define		bUpdCFOOffData		0x80
++#define		bAdvUpdCFO			0x100
++#define		bAdvTimeCtrl		0x800
++#define		bUpdClko			0x1000
++#define		bFC					0x6000
++#define		bTrackingMode		0x8000
++#define		bPhCmpEnable		0x10000
++#define		bUpdClkoLTF		0x20000
++#define		bComChCFO			0x40000
++#define		bCSIEstiMode		0x80000
++#define		bAdvUpdEqz			0x100000
++#define		bUChCfg				0x7000000
++#define		bUpdEqz			0x8000000
++
++/* Rx Pseduo noise */
++#define		bRxPesudoNoiseOn		0x20000000	/* Useless */
++#define		bRxPesudoNoise_A		0xff
++#define		bRxPesudoNoise_B		0xff00
++#define		bRxPesudoNoise_C		0xff0000
++#define		bRxPesudoNoise_D		0xff000000
++#define		bPesudoNoiseState_A	0xffff
++#define		bPesudoNoiseState_B	0xffff0000
++#define		bPesudoNoiseState_C	0xffff
++#define		bPesudoNoiseState_D	0xffff0000
++
++/* 7. RF Register
++ * Zebra1 */
++#define		bZebra1_HSSIEnable		0x8		/* Useless */
++#define		bZebra1_TRxControl		0xc00
++#define		bZebra1_TRxGainSetting	0x07f
++#define		bZebra1_RxCorner		0xc00
++#define		bZebra1_TxChargePump	0x38
++#define		bZebra1_RxChargePump	0x7
++#define		bZebra1_ChannelNum	0xf80
++#define		bZebra1_TxLPFBW		0x400
++#define		bZebra1_RxLPFBW		0x600
++
++/* Zebra4 */
++#define		bRTL8256RegModeCtrl1	0x100	/* Useless */
++#define		bRTL8256RegModeCtrl0	0x40
++#define		bRTL8256_TxLPFBW		0x18
++#define		bRTL8256_RxLPFBW		0x600
++
++/* RTL8258 */
++#define		bRTL8258_TxLPFBW		0xc	/* Useless */
++#define		bRTL8258_RxLPFBW		0xc00
++#define		bRTL8258_RSSILPFBW	0xc0
++
++
++/*
++ * Other Definition
++ *   */
++
++/* byte endable for sb_write */
++#define		bByte0				0x1	/* Useless */
++#define		bByte1				0x2
++#define		bByte2				0x4
++#define		bByte3				0x8
++#define		bWord0				0x3
++#define		bWord1				0xc
++#define		bDWord				0xf
++
++/* for PutRegsetting & GetRegSetting BitMask */
++#define		bMaskByte0			0xff	/* Reg 0xc50 rOFDM0_XAAGCCore~0xC6f */
++#define		bMaskByte1			0xff00
++#define		bMaskByte2			0xff0000
++#define		bMaskByte3			0xff000000
++#define		bMaskHWord		0xffff0000
++#define		bMaskLWord			0x0000ffff
++#define		bMaskDWord		0xffffffff
++#define		bMaskH3Bytes		0xffffff00
++#define		bMask12Bits			0xfff
++#define		bMaskH4Bits			0xf0000000
++#define		bMaskOFDM_D		0xffc00000
++#define		bMaskCCK			0x3f3f3f3f
++
++
++#define		bEnable			0x1	/* Useless */
++#define		bDisable		0x0
++
++#define		LeftAntenna		0x0	/* Useless */
++#define		RightAntenna	0x1
++
++#define		tCheckTxStatus		500   /* 500ms */ /* Useless */
++#define		tUpdateRxCounter	100   /* 100ms */
++
++#define		rateCCK		0	/* Useless */
++#define		rateOFDM	1
++#define		rateHT		2
++
++/* define Register-End */
++#define		bPMAC_End			0x1ff	/* Useless */
++#define		bFPGAPHY0_End		0x8ff
++#define		bFPGAPHY1_End		0x9ff
++#define		bCCKPHY0_End		0xaff
++#define		bOFDMPHY0_End		0xcff
++#define		bOFDMPHY1_End		0xdff
++
++/* define max debug item in each debug page
++ * #define bMaxItem_FPGA_PHY0        0x9
++ * #define bMaxItem_FPGA_PHY1        0x3
++ * #define bMaxItem_PHY_11B          0x16
++ * #define bMaxItem_OFDM_PHY0        0x29
++ * #define bMaxItem_OFDM_PHY1        0x0 */
++
++#define		bPMACControl		0x0		/* Useless */
++#define		bWMACControl		0x1
++#define		bWNICControl		0x2
++
++#define		PathA			0x0	/* Useless */
++#define		PathB			0x1
++#define		PathC			0x2
++#define		PathD			0x3
++
++/*--------------------------Define Parameters-------------------------------*/
++
++
++/* BB Register Definition
++ *
++ * 4. Page9(0x900)
++ *   */
++#define rDPDT_control				0x92c
++#define rfe_ctrl_anta_src				0x930
++#define rS0S1_PathSwitch			0x948
++#define	BBrx_DFIR						0x954
++#define AGC_table_select				0xb2c
++
++/*
++ * PageB(0xB00)
++ *   */
++#define rPdp_AntA						0xb00
++#define rPdp_AntA_4						0xb04
++#define rPdp_AntA_8						0xb08
++#define rPdp_AntA_C						0xb0c
++#define rPdp_AntA_10					0xb10
++#define rPdp_AntA_14					0xb14
++#define rPdp_AntA_18					0xb18
++#define rPdp_AntA_1C					0xb1c
++#define rPdp_AntA_20					0xb20
++#define rPdp_AntA_24					0xb24
++
++#define rConfig_Pmpd_AntA				0xb28
++#define rConfig_ram64x16				0xb2c
++
++#define rBndA							0xb30
++#define rHssiPar						0xb34
++
++#define rConfig_AntA					0xb68
++#define rConfig_AntB					0xb6c
++
++#define rPdp_AntB						0xb70
++#define rPdp_AntB_4						0xb74
++#define rPdp_AntB_8						0xb78
++#define rPdp_AntB_C						0xb7c
++#define rPdp_AntB_10					0xb80
++#define rPdp_AntB_14					0xb84
++#define rPdp_AntB_18					0xb88
++#define rPdp_AntB_1C					0xb8c
++#define rPdp_AntB_20					0xb90
++#define rPdp_AntB_24					0xb94
++
++#define rConfig_Pmpd_AntB				0xb98
++
++#define rBndB							0xba0
++
++#define rAPK							0xbd8
++#define rPm_Rx0_AntA					0xbdc
++#define rPm_Rx1_AntA					0xbe0
++#define rPm_Rx2_AntA					0xbe4
++#define rPm_Rx3_AntA					0xbe8
++#define rPm_Rx0_AntB					0xbec
++#define rPm_Rx1_AntB					0xbf0
++#define rPm_Rx2_AntB					0xbf4
++#define rPm_Rx3_AntB					0xbf8
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8188FPwrSeq.h b/drivers/net/wireless/rtl8812au/include/Hal8188FPwrSeq.h
+new file mode 100644
+index 0000000..81e6132
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8188FPwrSeq.h
+@@ -0,0 +1,198 @@
++#ifndef REALTEK_POWER_SEQUENCE_8188F
++#define REALTEK_POWER_SEQUENCE_8188F
++
++#include "HalPwrSeqCmd.h"
++
++/*
++	Check document WM-20130815-JackieLau-RTL8188F_Power_Architecture v08.vsd
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transision from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++*/
++#define	RTL8188F_TRANS_CARDEMU_TO_ACT_STEPS	13
++#define	RTL8188F_TRANS_ACT_TO_CARDEMU_STEPS	15
++#define	RTL8188F_TRANS_CARDEMU_TO_SUS_STEPS	14
++#define	RTL8188F_TRANS_SUS_TO_CARDEMU_STEPS	15
++#define	RTL8188F_TRANS_CARDEMU_TO_PDN_STEPS	15
++#define	RTL8188F_TRANS_PDN_TO_CARDEMU_STEPS	15
++#define	RTL8188F_TRANS_ACT_TO_LPS_STEPS		11
++#define	RTL8188F_TRANS_LPS_TO_ACT_STEPS		13
++#define	RTL8188F_TRANS_ACT_TO_SWLPS_STEPS		21
++#define	RTL8188F_TRANS_SWLPS_TO_ACT_STEPS		14
++#define	RTL8188F_TRANS_END_STEPS		1
++
++
++#define RTL8188F_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0},/* disable SW LPS 0x04[10]=0*/	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1    power ready*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* disable HWPDN 0x04[15]=0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT3), 0},/*  0x4[11]=1'b0 disable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* 0x4[8]=1 polling until return 0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0},/**/	 \
++	{0x0027, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xff, 0x35}, /*0x27<=35 to reduce RF noise*/
++
++#define RTL8188F_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*0x1F[7:0] = 0 turn off RF*/	\
++	{0x004E, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/*0x4C[23] = 0x4E[7] = 0, switch DPDT_SEL_P output from register 0x65[2] */\
++	{0x0027, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xff, 0x34}, /*0x27 <= 34, xtal_qsel = 0 to xtal bring up*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/	\
++
++#define RTL8188F_TRANS_CARDEMU_TO_SUS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00}, /*0x07 = 0x00 , SOP option to disable BG/MB*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/ \
++	{0x00C4, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4},/* 0xC4[4] <= 1, turn off USB APHY LDO under suspend mode*/
++
++#define RTL8188F_TRANS_SUS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/	\
++	{0x00C4, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0},/* 0xC4[4] <= 1, turn off USB APHY LDO under suspend mode*/
++
++#define RTL8188F_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00}, /*0x07 = 0x00 , SOP option to disable BG/MB*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/ \
++	{0x00C4, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4},/* 0xC4[4] <= 1, turn off USB APHY LDO under suspend mode*/
++
++#define RTL8188F_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/	\
++	{0x00C4, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0},/* 0xC4[4] <= 1, turn off USB APHY LDO under suspend mode*/
++
++
++#define RTL8188F_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/* 0x04[16] = 0*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
++
++#define RTL8188F_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
++
++#define RTL8188F_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0139, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*set RPWM IMR*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*Tx Pause*/	\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Whole BB is reset*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x3F},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/
++
++
++#define RTL8188F_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84},  /*SDIO RPWM*/\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
++	{0x0027, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xff, 0x35},/*xtal_qsel = 1 for low noise*/	\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, 0}, /*Polling 0x109[7]=0  TSF in 40M*/\
++	{0x002B, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x1c, 0x1c},   /*.	0x2b[4:2] = 3b'111	to enable BB, AFE clock*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0},  /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++
++#define RTL8188F_TRANS_ACT_TO_SWLPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0139, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*set RPWM IMR*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*Tx Pause*/	\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Whole BB is reset*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x3F},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/	\
++	{0x002b, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x1C, 0x00},/*0x2b[4:2]<=0 to gated BB, AFE clock*/	\
++	{0x0027, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xff, 0x34},/*xtal_qsel = 0 for bring up*/	\
++	{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xff, 0x00},/* sdio LPS option*/	\
++	{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xff, 0x83},/* usb LPS option, open bandgap, xtal*/	\
++	{0x00C4, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, 0}, /* 0xC4[5]<=0, digital LDO no standby mode*/	\
++	{0x00C4, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7}, /* 0xC4[7]<=1, on domain voltage adjust*/	\
++	{0x00a7, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xff, 0xe0}, /* low power LPS enable for sdio*/	\
++	{0x00a7, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xff, 0xe4}, /* low power LPS enable for usb*/	\
++	{0x0090, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /* enable WL_LPS_EN*/
++
++
++#define RTL8188F_TRANS_SWLPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/*polling TSF stable*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1, enable security engine*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x06B7, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x09}, /*.	reset MAC rx state machine*/\
++	{0x06B4, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x86}, /*.	reset MAC rx state machine*/\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/* set CPU RAM code ready*/	\
++	{0x001D, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*Reset CPU IO Wrapper*/	\
++	{0x0003, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0},/* Enable CPU*/	\
++	{0x001D, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*enable CPU IO Wrapper*/	\
++	{0x0003, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2},/* Enable CPU*/	\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, BIT7},/*polling FW init ready */	\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT6, BIT6},/*polling FW init ready */	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++#define RTL8188F_TRANS_END															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++	extern WLAN_PWR_CFG rtl8188F_power_on_flow[RTL8188F_TRANS_CARDEMU_TO_ACT_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_radio_off_flow[RTL8188F_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_card_disable_flow[RTL8188F_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188F_TRANS_CARDEMU_TO_PDN_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_card_enable_flow[RTL8188F_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188F_TRANS_CARDEMU_TO_PDN_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_suspend_flow[RTL8188F_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188F_TRANS_CARDEMU_TO_SUS_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_resume_flow[RTL8188F_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188F_TRANS_CARDEMU_TO_SUS_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_hwpdn_flow[RTL8188F_TRANS_ACT_TO_CARDEMU_STEPS + RTL8188F_TRANS_CARDEMU_TO_PDN_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_enter_lps_flow[RTL8188F_TRANS_ACT_TO_LPS_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_leave_lps_flow[RTL8188F_TRANS_LPS_TO_ACT_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_enter_swlps_flow[RTL8188F_TRANS_ACT_TO_SWLPS_STEPS + RTL8188F_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8188F_leave_swlps_flow[RTL8188F_TRANS_SWLPS_TO_ACT_STEPS + RTL8188F_TRANS_END_STEPS];
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8192EPhyCfg.h b/drivers/net/wireless/rtl8812au/include/Hal8192EPhyCfg.h
+new file mode 100644
+index 0000000..2efda85
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8192EPhyCfg.h
+@@ -0,0 +1,153 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8192EPHYCFG_H__
++#define __INC_HAL8192EPHYCFG_H__
++
++
++/*--------------------------Define Parameters-------------------------------*/
++#define LOOP_LIMIT				5
++#define MAX_STALL_TIME			50		/* us */
++#define AntennaDiversityValue	0x80	/* (Adapter->bSoftwareAntennaDiversity ? 0x00 : 0x80) */
++#define MAX_TXPWR_IDX_NMODE_92S	63
++#define Reset_Cnt_Limit			3
++
++#ifdef CONFIG_PCI_HCI
++	#define MAX_AGGR_NUM	0x0B
++#else
++	#define MAX_AGGR_NUM	0x07
++#endif /* CONFIG_PCI_HCI */
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++/*------------------------------Define structure----------------------------*/
++
++/* BB/RF related */
++
++/*------------------------------Define structure----------------------------*/
++
++
++/*------------------------Export global variable----------------------------*/
++/*------------------------Export global variable----------------------------*/
++
++
++/*------------------------Export Marco Definition---------------------------*/
++/*------------------------Export Marco Definition---------------------------*/
++
++
++/*--------------------------Exported Function prototype---------------------*/
++/*
++ * BB and RF register read/write
++ *   */
++u32	PHY_QueryBBReg8192E(IN	PADAPTER	Adapter,
++			    IN	u32			RegAddr,
++			    IN	u32			BitMask);
++void	PHY_SetBBReg8192E(IN	PADAPTER		Adapter,
++			  IN	u32			RegAddr,
++			  IN	u32			BitMask,
++			  IN	u32			Data);
++u32	PHY_QueryRFReg8192E(IN	PADAPTER	Adapter,
++			    IN	u8			eRFPath,
++			    IN	u32			RegAddr,
++			    IN	u32			BitMask);
++void	PHY_SetRFReg8192E(IN	PADAPTER		Adapter,
++			  IN	u8			eRFPath,
++			  IN	u32			RegAddr,
++			  IN	u32			BitMask,
++			  IN	u32			Data);
++
++/*
++ * Initialization related function
++ *
++ * MAC/BB/RF HAL config */
++int	PHY_MACConfig8192E(IN PADAPTER	Adapter);
++int	PHY_BBConfig8192E(IN PADAPTER	Adapter);
++int	PHY_RFConfig8192E(IN PADAPTER	Adapter);
++
++/* RF config */
++
++
++/*
++ * BB TX Power R/W
++ *   */
++void	PHY_GetTxPowerLevel8192E(IN PADAPTER	Adapter, OUT s32	*powerlevel);
++void	PHY_SetTxPowerLevel8192E(IN PADAPTER	Adapter, IN u8	channel);
++BOOLEAN	PHY_UpdateTxPowerDbm8192E(IN PADAPTER	Adapter, IN int	powerInDbm);
++
++VOID
++PHY_SetTxPowerIndex_8192E(
++	IN	PADAPTER			Adapter,
++	IN	u32					PowerIndex,
++	IN	u8					RFPath,
++	IN	u8					Rate
++);
++
++u8
++PHY_GetTxPowerIndex_8192E(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	u8					Rate,
++	IN	u8					BandWidth,
++	IN	u8					Channel,
++	struct txpwr_idx_comp *tic
++);
++
++/*
++ * channel switch related funciton
++ *   */
++VOID
++PHY_SetSwChnlBWMode8192E(
++	IN	PADAPTER			Adapter,
++	IN	u8					channel,
++	IN	CHANNEL_WIDTH	Bandwidth,
++	IN	u8					Offset40,
++	IN	u8					Offset80
++);
++
++VOID
++PHY_SetRFEReg_8192E(
++	IN PADAPTER		Adapter
++);
++
++void
++phy_SpurCalibration_8192E(
++	IN	PADAPTER			Adapter,
++	IN	SPUR_CAL_METHOD	Method
++);
++void PHY_SpurCalibration_8192E(IN PADAPTER Adapter);
++
++#ifdef CONFIG_SPUR_CAL_NBI
++void
++phy_SpurCalibration_8192E_NBI(
++	IN	PADAPTER			Adapter
++);
++#endif
++/*
++ * BB/MAC/RF other monitor API
++ *   */
++
++VOID
++PHY_SetRFPathSwitch_8192E(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bMain
++);
++
++/*--------------------------Exported Function prototype---------------------*/
++#endif /* __INC_HAL8192CPHYCFG_H */
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8192EPhyReg.h b/drivers/net/wireless/rtl8812au/include/Hal8192EPhyReg.h
+new file mode 100644
+index 0000000..cd13c22
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8192EPhyReg.h
+@@ -0,0 +1,1132 @@
++/*****************************************************************************
++ *	Copyright(c) 2008,  RealTEK Technology Inc. All Right Reserved.
++ *
++ * Module:	__INC_HAL8192SPHYREG_H
++ *
++ *
++ * Note:	1. Define PMAC/BB register map
++ *			2. Define RF register map
++ *			3. PMAC/BB register bit mask.
++ *			4. RF reg bit mask.
++ *			5. Other BB/RF relative definition.
++ *
++ *
++ * Export:	Constants, macro, functions(API), global variables(None).
++ *
++ * Abbrev:
++ *
++ * History:
++ *		Data		Who		Remark
++ *      08/07/2007  MHC	1. Porting from 9x series PHYCFG.h.
++ *							2. Reorganize code architecture.
++ *	09/25/2008	MH		1. Add RL6052 register definition
++ *
++ *****************************************************************************/
++#ifndef __INC_HAL8192EPHYREG_H
++#define __INC_HAL8192EPHYREG_H
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++/* ************************************************************
++ * 8192S Regsiter offset definition
++ * ************************************************************ */
++
++/*
++ * BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++ * 3. RF register 0x00-2E
++ * 4. Bit Mask for BB/RF register
++ * 5. Other defintion for BB/RF R/W
++ *   */
++
++
++/*
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 1. Page1(0x100)
++ *   */
++#define		rPMAC_Reset					0x100
++#define		rPMAC_TxStart				0x104
++#define		rPMAC_TxLegacySIG			0x108
++#define		rPMAC_TxHTSIG1				0x10c
++#define		rPMAC_TxHTSIG2				0x110
++#define		rPMAC_PHYDebug				0x114
++#define		rPMAC_TxPacketNum			0x118
++#define		rPMAC_TxIdle					0x11c
++#define		rPMAC_TxMACHeader0			0x120
++#define		rPMAC_TxMACHeader1			0x124
++#define		rPMAC_TxMACHeader2			0x128
++#define		rPMAC_TxMACHeader3			0x12c
++#define		rPMAC_TxMACHeader4			0x130
++#define		rPMAC_TxMACHeader5			0x134
++#define		rPMAC_TxDataType				0x138
++#define		rPMAC_TxRandomSeed			0x13c
++#define		rPMAC_CCKPLCPPreamble		0x140
++#define		rPMAC_CCKPLCPHeader			0x144
++#define		rPMAC_CCKCRC16				0x148
++#define		rPMAC_OFDMRxCRC32OK		0x170
++#define		rPMAC_OFDMRxCRC32Er		0x174
++#define		rPMAC_OFDMRxParityEr			0x178
++#define		rPMAC_OFDMRxCRC8Er			0x17c
++#define		rPMAC_CCKCRxRC16Er			0x180
++#define		rPMAC_CCKCRxRC32Er			0x184
++#define		rPMAC_CCKCRxRC32OK			0x188
++#define		rPMAC_TxStatus				0x18c
++
++
++/*
++ * 3. Page8(0x800)
++ *   */
++#define		rFPGA0_RFMOD				0x800	/* RF mode & CCK TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA0_TxInfo					0x804	/* Status report?? */
++#define		rFPGA0_PSDFunction			0x808
++
++#define		rFPGA0_TxGainStage			0x80c	/* Set TX PWR init gain? */
++
++#define		rFPGA0_RFTiming1				0x810	/* Useless now */
++#define		rFPGA0_RFTiming2				0x814
++
++#define		rFPGA0_XA_HSSIParameter1		0x820	/* RF 3 wire register */
++#define		rFPGA0_XA_HSSIParameter2		0x824
++#define		rFPGA0_XB_HSSIParameter1		0x828
++#define		rFPGA0_XB_HSSIParameter2		0x82c
++
++#define		rFPGA0_XA_LSSIParameter		0x840
++#define		rFPGA0_XB_LSSIParameter		0x844
++
++#define		rFPGA0_RFWakeUpParameter	0x850	/* Useless now */
++#define		rFPGA0_RFSleepUpParameter		0x854
++
++#define		rFPGA0_XAB_SwitchControl		0x858	/* RF Channel switch */
++#define		rFPGA0_XCD_SwitchControl		0x85c
++
++#define		rFPGA0_XA_RFInterfaceOE		0x860	/* RF Channel switch */
++#define		rFPGA0_XB_RFInterfaceOE		0x864
++
++#define		rFPGA0_XAB_RFInterfaceSW		0x870	/* RF Interface Software Control */
++#define		rFPGA0_XCD_RFInterfaceSW		0x874
++
++#define		rFPGA0_XAB_RFParameter		0x878	/* RF Parameter */
++#define		rFPGA0_XCD_RFParameter		0x87c
++
++#define		rFPGA0_AnalogParameter1		0x880	/* Crystal cap setting RF-R/W protection for parameter4?? */
++#define		rFPGA0_AnalogParameter2		0x884
++#define		rFPGA0_AnalogParameter3		0x888
++#define		rFPGA0_AdDaClockEn			0x888	/* enable ad/da clock1 for dual-phy */
++#define		rFPGA0_AnalogParameter4		0x88c
++
++#define		rFPGA0_XA_LSSIReadBack		0x8a0	/* Tranceiver LSSI Readback */
++#define		rFPGA0_XB_LSSIReadBack		0x8a4
++#define		rFPGA0_XC_LSSIReadBack		0x8a8
++#define		rFPGA0_XD_LSSIReadBack		0x8ac
++
++#define		rFPGA0_PSDReport				0x8b4	/* Useless now */
++#define		TransceiverA_HSPI_Readback		0x8b8	/* Transceiver A HSPI Readback */
++#define		TransceiverB_HSPI_Readback		0x8bc	/* Transceiver B HSPI Readback */
++#define		rFPGA0_XAB_RFInterfaceRB		0x8e0	/* Useless now */ /* RF Interface Readback Value */
++#define		rFPGA0_XCD_RFInterfaceRB		0x8e4	/* Useless now */
++
++/*
++ * 4. Page9(0x900)
++ *   */
++#define		rFPGA1_RFMOD				0x900	/* RF mode & OFDM TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA1_TxBlock				0x904	/* Useless now */
++#define		rFPGA1_DebugSelect			0x908	/* Useless now */
++#define		rFPGA1_TxInfo					0x90c	/* Useless now */ /* Status report?? */
++
++/*
++ * 5. PageA(0xA00)
++ *
++ * Set Control channel to upper or lower. These settings are required only for 40MHz */
++#define		rCCK0_System					0xa00
++
++#define		rCCK0_AFESetting				0xa04	/* Disable init gain now */ /* Select RX path by RSSI */
++#define		rCCK0_CCA					0xa08	/* Disable init gain now */ /* Init gain */
++
++#define		rCCK0_RxAGC1				0xa0c	/* AGC default value, saturation level  */ /* Antenna Diversity, RX AGC, LNA Threshold, RX LNA Threshold useless now. Not the same as 90 series */
++#define		rCCK0_RxAGC2				0xa10	/* AGC & DAGC */
++
++#define		rCCK0_RxHP					0xa14
++
++#define		rCCK0_DSPParameter1			0xa18	/* Timing recovery & Channel estimation threshold */
++#define		rCCK0_DSPParameter2			0xa1c	/* SQ threshold */
++
++#define		rCCK0_TxFilter1				0xa20
++#define		rCCK0_TxFilter2				0xa24
++#define		rCCK0_DebugPort				0xa28	/* debug port and Tx filter3 */
++#define		rCCK0_FalseAlarmReport		0xa2c	/* 0xa2d	useless now 0xa30-a4f channel report */
++#define		rCCK0_TRSSIReport			0xa50
++#define		rCCK0_RxReport            			0xa54  /* 0xa57 */
++#define		rCCK0_FACounterLower      		0xa5c  /* 0xa5b */
++#define		rCCK0_FACounterUpper      		0xa58  /* 0xa5c */
++
++/*
++ * PageB(0xB00)
++ *   */
++#define		rPdp_AntA					0xb00
++#define		rPdp_AntA_4				0xb04
++#define		rConfig_Pmpd_AntA			0xb28
++#define		rConfig_ram64x16				0xb2c
++
++#define		rConfig_AntA					0xb68
++#define		rConfig_AntB					0xb6c
++#define		rPdp_AntB					0xb70
++#define		rPdp_AntB_4					0xb74
++#define		rConfig_Pmpd_AntB			0xb98
++#define		rAPK							0xbd8
++
++
++
++/*
++ * 6. PageC(0xC00)
++ *   */
++#define		rOFDM0_LSTF					0xc00
++
++#define		rOFDM0_TRxPathEnable			0xc04
++#define		rOFDM0_TRMuxPar				0xc08
++#define		rOFDM0_TRSWIsolation			0xc0c
++
++#define		rOFDM0_XARxAFE				0xc10  /* RxIQ DC offset, Rx digital filter, DC notch filter */
++#define		rOFDM0_XARxIQImbalance    		0xc14  /* RxIQ imblance matrix */
++#define		rOFDM0_XBRxAFE			0xc18
++#define		rOFDM0_XBRxIQImbalance		0xc1c
++#define		rOFDM0_XCRxAFE			0xc20
++#define		rOFDM0_XCRxIQImbalance		0xc24
++#define		rOFDM0_XDRxAFE			0xc28
++#define		rOFDM0_XDRxIQImbalance		0xc2c
++
++#define		rOFDM0_RxDetector1			0xc30  /* PD, BW & SBD	 */ /* DM tune init gain */
++#define		rOFDM0_RxDetector2			0xc34  /* SBD & Fame Sync. */
++#define		rOFDM0_RxDetector3			0xc38  /* Frame Sync. */
++#define		rOFDM0_RxDetector4			0xc3c  /* PD, SBD, Frame Sync & Short-GI */
++
++#define		rOFDM0_RxDSP				0xc40  /* Rx Sync Path */
++#define		rOFDM0_CFOandDAGC			0xc44  /* CFO & DAGC */
++#define		rOFDM0_CCADropThreshold		0xc48 /* CCA Drop threshold */
++#define		rOFDM0_ECCAThreshold			0xc4c /* energy CCA */
++
++#define		rOFDM0_XAAGCCore1			0xc50	/* DIG */
++#define		rOFDM0_XAAGCCore2			0xc54
++#define		rOFDM0_XBAGCCore1			0xc58
++#define		rOFDM0_XBAGCCore2			0xc5c
++#define		rOFDM0_XCAGCCore1			0xc60
++#define		rOFDM0_XCAGCCore2			0xc64
++#define		rOFDM0_XDAGCCore1			0xc68
++#define		rOFDM0_XDAGCCore2			0xc6c
++
++#define		rOFDM0_AGCParameter1		0xc70
++#define		rOFDM0_AGCParameter2		0xc74
++#define		rOFDM0_AGCRSSITable			0xc78
++#define		rOFDM0_HTSTFAGC				0xc7c
++
++#define		rOFDM0_XATxIQImbalance		0xc80	/* TX PWR TRACK and DIG */
++#define		rOFDM0_XATxAFE				0xc84
++#define		rOFDM0_XBTxIQImbalance		0xc88
++#define		rOFDM0_XBTxAFE				0xc8c
++#define		rOFDM0_XCTxIQImbalance		0xc90
++#define		rOFDM0_XCTxAFE			0xc94
++#define		rOFDM0_XDTxIQImbalance		0xc98
++#define		rOFDM0_XDTxAFE				0xc9c
++
++#define		rOFDM0_RxIQExtAnta			0xca0
++#define		rOFDM0_TxCoeff1				0xca4
++#define		rOFDM0_TxCoeff2				0xca8
++#define		rOFDM0_TxCoeff3				0xcac
++#define		rOFDM0_TxCoeff4				0xcb0
++#define		rOFDM0_TxCoeff5				0xcb4
++#define		rOFDM0_RxHPParameter		0xce0
++#define		rOFDM0_TxPseudoNoiseWgt		0xce4
++#define		rOFDM0_FrameSync			0xcf0
++#define		rOFDM0_DFSReport			0xcf4
++
++
++/*
++ * 7. PageD(0xD00)
++ *   */
++#define		rOFDM1_LSTF					0xd00
++#define		rOFDM1_TRxPathEnable			0xd04
++
++#define		rOFDM1_CFO					0xd08	/* No setting now */
++#define		rOFDM1_CSI1					0xd10
++#define		rOFDM1_SBD					0xd14
++#define		rOFDM1_CSI2					0xd18
++#define		rOFDM1_CFOTracking			0xd2c
++#define		rOFDM1_TRxMesaure1			0xd34
++#define		rOFDM1_IntfDet				0xd3c
++#define		rOFDM1_PseudoNoiseStateAB	0xd50
++#define		rOFDM1_PseudoNoiseStateCD	0xd54
++#define		rOFDM1_RxPseudoNoiseWgt		0xd58
++
++#define		rOFDM_PHYCounter1			0xda0  /* cca, parity fail */
++#define		rOFDM_PHYCounter2			0xda4  /* rate illegal, crc8 fail */
++#define		rOFDM_PHYCounter3			0xda8  /* MCS not support */
++
++#define		rOFDM_ShortCFOAB			0xdac	/* No setting now */
++#define		rOFDM_ShortCFOCD			0xdb0
++#define		rOFDM_LongCFOAB				0xdb4
++#define		rOFDM_LongCFOCD				0xdb8
++#define		rOFDM_TailCFOAB				0xdbc
++#define		rOFDM_TailCFOCD				0xdc0
++#define		rOFDM_PWMeasure1		0xdc4
++#define		rOFDM_PWMeasure2		0xdc8
++#define		rOFDM_BWReport				0xdcc
++#define		rOFDM_AGCReport				0xdd0
++#define		rOFDM_RxSNR				0xdd4
++#define		rOFDM_RxEVMCSI				0xdd8
++#define		rOFDM_SIGReport				0xddc
++
++
++/*
++ * 8. PageE(0xE00)
++ *   */
++#define		rTxAGC_A_Rate18_06			0xe00
++#define		rTxAGC_A_Rate54_24			0xe04
++#define		rTxAGC_A_CCK1_Mcs32			0xe08
++#define		rTxAGC_A_Mcs03_Mcs00		0xe10
++#define		rTxAGC_A_Mcs07_Mcs04		0xe14
++#define		rTxAGC_A_Mcs11_Mcs08		0xe18
++#define		rTxAGC_A_Mcs15_Mcs12		0xe1c
++
++#define		rTxAGC_B_Rate18_06			0x830
++#define		rTxAGC_B_Rate54_24			0x834
++#define		rTxAGC_B_CCK1_55_Mcs32		0x838
++#define		rTxAGC_B_Mcs03_Mcs00		0x83c
++#define		rTxAGC_B_Mcs07_Mcs04		0x848
++#define		rTxAGC_B_Mcs11_Mcs08		0x84c
++#define		rTxAGC_B_Mcs15_Mcs12		0x868
++#define		rTxAGC_B_CCK11_A_CCK2_11		0x86c
++
++#define		rFPGA0_IQK					0xe28
++#define		rTx_IQK_Tone_A				0xe30
++#define		rRx_IQK_Tone_A				0xe34
++#define		rTx_IQK_PI_A					0xe38
++#define		rRx_IQK_PI_A					0xe3c
++
++#define		rTx_IQK						0xe40
++#define		rRx_IQK						0xe44
++#define		rIQK_AGC_Pts					0xe48
++#define		rIQK_AGC_Rsp					0xe4c
++#define		rTx_IQK_Tone_B				0xe50
++#define		rRx_IQK_Tone_B				0xe54
++#define		rTx_IQK_PI_B					0xe58
++#define		rRx_IQK_PI_B					0xe5c
++#define		rIQK_AGC_Cont				0xe60
++
++#define		rBlue_Tooth					0xe6c
++#define		rRx_Wait_CCA					0xe70
++#define		rTx_CCK_RFON					0xe74
++#define		rTx_CCK_BBON				0xe78
++#define		rTx_OFDM_RFON				0xe7c
++#define		rTx_OFDM_BBON				0xe80
++#define		rTx_To_Rx					0xe84
++#define		rTx_To_Tx					0xe88
++#define		rRx_CCK						0xe8c
++
++#define		rTx_Power_Before_IQK_A		0xe94
++#define		rTx_Power_After_IQK_A			0xe9c
++
++#define		rRx_Power_Before_IQK_A		0xea0
++#define		rRx_Power_Before_IQK_A_2		0xea4
++#define		rRx_Power_After_IQK_A			0xea8
++#define		rRx_Power_After_IQK_A_2		0xeac
++
++#define		rTx_Power_Before_IQK_B		0xeb4
++#define		rTx_Power_After_IQK_B			0xebc
++
++#define		rRx_Power_Before_IQK_B		0xec0
++#define		rRx_Power_Before_IQK_B_2		0xec4
++#define		rRx_Power_After_IQK_B			0xec8
++#define		rRx_Power_After_IQK_B_2		0xecc
++
++#define		rRx_OFDM					0xed0
++#define		rRx_Wait_RIFS				0xed4
++#define		rRx_TO_Rx					0xed8
++#define		rStandby						0xedc
++#define		rSleep						0xee0
++#define		rPMPD_ANAEN				0xeec
++
++/*
++ * 7. RF Register 0x00-0x2E (RF 8256)
++ * RF-0222D 0x00-3F
++ *
++ * Zebra1 */
++#define		rZebra1_HSSIEnable				0x0	/* Useless now */
++#define		rZebra1_TRxEnable1			0x1
++#define		rZebra1_TRxEnable2			0x2
++#define		rZebra1_AGC					0x4
++#define		rZebra1_ChargePump			0x5
++#define		rZebra1_Channel				0x7	/* RF channel switch */
++
++/* #endif */
++#define		rZebra1_TxGain				0x8	/* Useless now */
++#define		rZebra1_TxLPF					0x9
++#define		rZebra1_RxLPF					0xb
++#define		rZebra1_RxHPFCorner			0xc
++
++/* Zebra4 */
++#define		rGlobalCtrl					0	/* Useless now */
++#define		rRTL8256_TxLPF				19
++#define		rRTL8256_RxLPF				11
++
++/* RTL8258 */
++#define		rRTL8258_TxLPF				0x11	/* Useless now */
++#define		rRTL8258_RxLPF				0x13
++#define		rRTL8258_RSSILPF				0xa
++
++/*
++ * RL6052 Register definition
++ *   */
++#define		RF_AC						0x00	/*  */
++
++#define		RF_IQADJ_G1					0x01	/*  */
++#define		RF_IQADJ_G2					0x02	/*  */
++
++#define		RF_POW_TRSW				0x05	/*  */
++
++#define		RF_GAIN_RX					0x06	/*  */
++#define		RF_GAIN_TX					0x07	/*  */
++
++#define		RF_TXM_IDAC					0x08	/*  */
++#define		RF_IPA_G						0x09	/*  */
++#define		RF_TXBIAS_G					0x0A
++#define		RF_TXPA_AG					0x0B
++#define		RF_IPA_A						0x0C	/*  */
++#define		RF_TXBIAS_A					0x0D
++#define		RF_BS_PA_APSET_G9_G11		0x0E
++#define		RF_BS_IQGEN					0x0F	/*  */
++
++#define		RF_MODE1					0x10	/*  */
++#define		RF_MODE2					0x11	/*  */
++
++#define		RF_RX_AGC_HP				0x12	/*  */
++#define		RF_TX_AGC					0x13	/*  */
++#define		RF_BIAS						0x14	/*  */
++#define		RF_IPA						0x15	/*  */
++#define		RF_TXBIAS					0x16
++#define		RF_POW_ABILITY				0x17	/*  */
++#define		RF_CHNLBW					0x18	/* RF channel and BW switch */
++#define		RF_TOP						0x19	/*  */
++
++#define		RF_RX_G1					0x1A	/*  */
++#define		RF_RX_G2					0x1B	/*  */
++
++#define		RF_RX_BB2					0x1C	/*  */
++#define		RF_RX_BB1					0x1D	/*  */
++
++#define		RF_RCK1						0x1E	/*  */
++#define		RF_RCK2						0x1F	/*  */
++
++#define		RF_TX_G1						0x20	/*  */
++#define		RF_TX_G2						0x21	/*  */
++#define		RF_TX_G3						0x22	/*  */
++
++#define		RF_TX_BB1					0x23	/*  */
++
++#define		RF_T_METER_8192E			0x42	/*  */
++#define		RF_T_METER_88E				0x42
++#define		RF_T_METER					0x24	/*  */
++
++/* #endif */
++
++#define		RF_SYN_G1					0x25	/* RF TX Power control */
++#define		RF_SYN_G2					0x26	/* RF TX Power control */
++#define		RF_SYN_G3					0x27	/* RF TX Power control */
++#define		RF_SYN_G4					0x28	/* RF TX Power control */
++#define		RF_SYN_G5					0x29	/* RF TX Power control */
++#define		RF_SYN_G6					0x2A	/* RF TX Power control */
++#define		RF_SYN_G7					0x2B	/* RF TX Power control */
++#define		RF_SYN_G8					0x2C	/* RF TX Power control */
++
++#define		RF_RCK_OS					0x30	/* RF TX PA control */
++#define		RF_TXPA_G1					0x31	/* RF TX PA control */
++#define		RF_TXPA_G2					0x32	/* RF TX PA control */
++#define		RF_TXPA_G3					0x33	/* RF TX PA control */
++#define		RF_TX_BIAS_A					0x35
++#define		RF_TX_BIAS_D					0x36
++#define		RF_LOBF_9					0x38
++#define		RF_RXRF_A3					0x3C	/*	 */
++#define		RF_TRSW						0x3F
++
++#define		RF_TXRF_A2					0x41
++#define		RF_TXPA_G4					0x46
++#define		RF_TXPA_A4					0x4B
++#define		RF_0x52						0x52
++#define		RF_LDO						0xB1
++#define		RF_WE_LUT					0xEF
++
++
++/*
++ * Bit Mask
++ *
++ * 1. Page1(0x100) */
++#define		bBBResetB					0x100	/* Useless now? */
++#define		bGlobalResetB					0x200
++#define		bOFDMTxStart					0x4
++#define		bCCKTxStart					0x8
++#define		bCRC32Debug					0x100
++#define		bPMACLoopback				0x10
++#define		bTxLSIG						0xffffff
++#define		bOFDMTxRate					0xf
++#define		bOFDMTxReserved				0x10
++#define		bOFDMTxLength				0x1ffe0
++#define		bOFDMTxParity				0x20000
++#define		bTxHTSIG1					0xffffff
++#define		bTxHTMCSRate				0x7f
++#define		bTxHTBW						0x80
++#define		bTxHTLength					0xffff00
++#define		bTxHTSIG2					0xffffff
++#define		bTxHTSmoothing				0x1
++#define		bTxHTSounding				0x2
++#define		bTxHTReserved				0x4
++#define		bTxHTAggreation				0x8
++#define		bTxHTSTBC					0x30
++#define		bTxHTAdvanceCoding			0x40
++#define		bTxHTShortGI					0x80
++#define		bTxHTNumberHT_LTF			0x300
++#define		bTxHTCRC8					0x3fc00
++#define		bCounterReset				0x10000
++#define		bNumOfOFDMTx				0xffff
++#define		bNumOfCCKTx					0xffff0000
++#define		bTxIdleInterval				0xffff
++#define		bOFDMService					0xffff0000
++#define		bTxMACHeader				0xffffffff
++#define		bTxDataInit					0xff
++#define		bTxHTMode					0x100
++#define		bTxDataType					0x30000
++#define		bTxRandomSeed				0xffffffff
++#define		bCCKTxPreamble				0x1
++#define		bCCKTxSFD					0xffff0000
++#define		bCCKTxSIG					0xff
++#define		bCCKTxService					0xff00
++#define		bCCKLengthExt					0x8000
++#define		bCCKTxLength					0xffff0000
++#define		bCCKTxCRC16					0xffff
++#define		bCCKTxStatus					0x1
++#define		bOFDMTxStatus				0x2
++
++#define		IS_BB_REG_OFFSET_92S(_Offset)		((_Offset >= 0x800) && (_Offset <= 0xfff))
++#define		RF_TX_GAIN_OFFSET_8192E(_val)		((abs((_val)) << 1) | (((_val) > 0) ? BIT0 : 0))
++
++
++/* 2. Page8(0x800) */
++#define		bRFMOD						0x1	/* Reg 0x800 rFPGA0_RFMOD */
++#define		bJapanMode					0x2
++#define		bCCKTxSC						0x30
++#define		bCCKEn						0x1000000
++#define		bOFDMEn					0x2000000
++
++#define		bOFDMRxADCPhase           		0x10000	/* Useless now */
++#define		bOFDMTxDACPhase		0x40000
++#define		bXATxAGC				0x3f
++
++#define		bAntennaSelect			0x0300
++
++#define		bXBTxAGC                  				0xf00	/* Reg 80c rFPGA0_TxGainStage */
++#define		bXCTxAGC				0xf000
++#define		bXDTxAGC				0xf0000
++
++#define		bPAStart                  				0xf0000000	/* Useless now */
++#define		bTRStart				0x00f00000
++#define		bRFStart				0x0000f000
++#define		bBBStart				0x000000f0
++#define		bBBCCKStart			0x0000000f
++#define		bPAEnd                    				0xf          /* Reg0x814 */
++#define		bTREnd				0x0f000000
++#define		bRFEnd				0x000f0000
++#define		bCCAMask                  				0x000000f0   /* T2R */
++#define		bR2RCCAMask			0x00000f00
++#define		bHSSI_R2TDelay			0xf8000000
++#define		bHSSI_T2RDelay			0xf80000
++#define		bContTxHSSI               			0x400     /* chane gain at continue Tx */
++#define		bIGFromCCK			0x200
++#define		bAGCAddress			0x3f
++#define		bRxHPTx				0x7000
++#define		bRxHPT2R				0x38000
++#define		bRxHPCCKIni			0xc0000
++#define		bAGCTxCode			0xc00000
++#define		bAGCRxCode			0x300000
++
++#define		b3WireDataLength          			0x800	/* Reg 0x820~84f rFPGA0_XA_HSSIParameter1 */
++#define		b3WireAddressLength		0x400
++
++#define		b3WireRFPowerDown         		0x1	/* Useless now
++ * #define bHWSISelect		0x8 */
++#define		b5GPAPEPolarity			0x40000000
++#define		b2GPAPEPolarity			0x80000000
++#define		bRFSW_TxDefaultAnt		0x3
++#define		bRFSW_TxOptionAnt		0x30
++#define		bRFSW_RxDefaultAnt		0x300
++#define		bRFSW_RxOptionAnt		0x3000
++#define		bRFSI_3WireData			0x1
++#define		bRFSI_3WireClock			0x2
++#define		bRFSI_3WireLoad			0x4
++#define		bRFSI_3WireRW			0x8
++#define		bRFSI_3Wire			0xf
++
++#define		bRFSI_RFENV               		0x10	/* Reg 0x870 rFPGA0_XAB_RFInterfaceSW */
++
++#define		bRFSI_TRSW                		0x20	/* Useless now */
++#define		bRFSI_TRSWB		0x40
++#define		bRFSI_ANTSW		0x100
++#define		bRFSI_ANTSWB		0x200
++#define		bRFSI_PAPE			0x400
++#define		bRFSI_PAPE5G		0x800
++#define		bBandSelect			0x1
++#define		bHTSIG2_GI			0x80
++#define		bHTSIG2_Smoothing		0x01
++#define		bHTSIG2_Sounding		0x02
++#define		bHTSIG2_Aggreaton		0x08
++#define		bHTSIG2_STBC		0x30
++#define		bHTSIG2_AdvCoding		0x40
++#define		bHTSIG2_NumOfHTLTF	0x300
++#define		bHTSIG2_CRC8		0x3fc
++#define		bHTSIG1_MCS		0x7f
++#define		bHTSIG1_BandWidth		0x80
++#define		bHTSIG1_HTLength		0xffff
++#define		bLSIG_Rate			0xf
++#define		bLSIG_Reserved		0x10
++#define		bLSIG_Length		0x1fffe
++#define		bLSIG_Parity			0x20
++#define		bCCKRxPhase		0x4
++
++#define		bLSSIReadAddress          		0x7f800000   /* T65 RF */
++
++#define		bLSSIReadEdge             		0x80000000   /* LSSI "Read" edge signal */
++
++#define		bLSSIReadBackData         		0xfffff		/* T65 RF */
++
++#define		bLSSIReadOKFlag           		0x1000	/* Useless now */
++#define		bCCKSampleRate            		0x8       /* 0: 44MHz, 1:88MHz      		 */
++#define		bRegulator0Standby		0x1
++#define		bRegulatorPLLStandby	0x2
++#define		bRegulator1Standby		0x4
++#define		bPLLPowerUp		0x8
++#define		bDPLLPowerUp		0x10
++#define		bDA10PowerUp		0x20
++#define		bAD7PowerUp		0x200
++#define		bDA6PowerUp		0x2000
++#define		bXtalPowerUp		0x4000
++#define		b40MDClkPowerUP	0x8000
++#define		bDA6DebugMode		0x20000
++#define		bDA6Swing			0x380000
++
++#define		bADClkPhase               		0x4000000	/* Reg 0x880 rFPGA0_AnalogParameter1 20/40 CCK support switch 40/80 BB MHZ */
++
++#define		b80MClkDelay              		0x18000000	/* Useless */
++#define		bAFEWatchDogEnable	0x20000000
++
++#define		bXtalCap01                			0xc0000000	/* Reg 0x884 rFPGA0_AnalogParameter2 Crystal cap */
++#define		bXtalCap23			0x3
++#define		bXtalCap92x				0x0f000000
++#define		bXtalCap			0x0f000000
++
++#define		bIntDifClkEnable          		0x400	/* Useless */
++#define		bExtSigClkEnable		0x800
++#define		bBandgapMbiasPowerUp	0x10000
++#define		bAD11SHGain		0xc0000
++#define		bAD11InputRange		0x700000
++#define		bAD11OPCurrent		0x3800000
++#define		bIPathLoopback		0x4000000
++#define		bQPathLoopback		0x8000000
++#define		bAFELoopback		0x10000000
++#define		bDA10Swing		0x7e0
++#define		bDA10Reverse		0x800
++#define		bDAClkSource		0x1000
++#define		bAD7InputRange		0x6000
++#define		bAD7Gain			0x38000
++#define		bAD7OutputCMMode	0x40000
++#define		bAD7InputCMMode	0x380000
++#define		bAD7Current		0xc00000
++#define		bRegulatorAdjust		0x7000000
++#define		bAD11PowerUpAtTx	0x1
++#define		bDA10PSAtTx		0x10
++#define		bAD11PowerUpAtRx	0x100
++#define		bDA10PSAtRx		0x1000
++#define		bCCKRxAGCFormat		0x200
++#define		bPSDFFTSamplepPoint	0xc000
++#define		bPSDAverageNum		0x3000
++#define		bIQPathControl		0xc00
++#define		bPSDFreq			0x3ff
++#define		bPSDAntennaPath		0x30
++#define		bPSDIQSwitch		0x40
++#define		bPSDRxTrigger		0x400000
++#define		bPSDTxTrigger		0x80000000
++#define		bPSDSineToneScale		0x7f000000
++#define		bPSDReport		0xffff
++
++/* 3. Page9(0x900) */
++#define		bOFDMTxSC                 		0x30000000	/* Useless */
++#define		bCCKTxOn			0x1
++#define		bOFDMTxOn		0x2
++#define		bDebugPage                		0xfff  /* reset debug page and also HWord, LWord */
++#define		bDebugItem                		0xff   /* reset debug page and LWord */
++#define		bAntL				0x10
++#define		bAntNonHT			0x100
++#define		bAntHT1			0x1000
++#define		bAntHT2			0x10000
++#define		bAntHT1S1			0x100000
++#define		bAntNonHTS1		0x1000000
++
++/* 4. PageA(0xA00) */
++#define		bCCKBBMode                		0x3	/* Useless */
++#define		bCCKTxPowerSaving		0x80
++#define		bCCKRxPowerSaving		0x40
++
++#define		bCCKSideBand              		0x10	/* Reg 0xa00 rCCK0_System 20/40 switch */
++
++#define		bCCKScramble              		0x8	/* Useless */
++#define		bCCKAntDiversity			0x8000
++#define		bCCKCarrierRecovery		0x4000
++#define		bCCKTxRate			0x3000
++#define		bCCKDCCancel		0x0800
++#define		bCCKISICancel		0x0400
++#define		bCCKMatchFilter		0x0200
++#define		bCCKEqualizer		0x0100
++#define		bCCKPreambleDetect		0x800000
++#define		bCCKFastFalseCCA		0x400000
++#define		bCCKChEstStart		0x300000
++#define		bCCKCCACount		0x080000
++#define		bCCKcs_lim			0x070000
++#define		bCCKBistMode		0x80000000
++#define		bCCKCCAMask		0x40000000
++#define		bCCKTxDACPhase		0x4
++#define		bCCKRxADCPhase         	   	0x20000000   /* r_rx_clk */
++#define		bCCKr_cp_mode0		0x0100
++#define		bCCKTxDCOffset		0xf0
++#define		bCCKRxDCOffset		0xf
++#define		bCCKCCAMode		0xc000
++#define		bCCKFalseCS_lim		0x3f00
++#define		bCCKCS_ratio		0xc00000
++#define		bCCKCorgBit_sel		0x300000
++#define		bCCKPD_lim		0x0f0000
++#define		bCCKNewCCA		0x80000000
++#define		bCCKRxHPofIG		0x8000
++#define		bCCKRxIG			0x7f00
++#define		bCCKLNAPolarity		0x800000
++#define		bCCKRx1stGain		0x7f0000
++#define		bCCKRFExtend              		0x20000000 /* CCK Rx Iinital gain polarity */
++#define		bCCKRxAGCSatLevel		0x1f000000
++#define		bCCKRxAGCSatCount		0xe0
++#define		bCCKRxRFSettle            		0x1f       /* AGCsamp_dly */
++#define		bCCKFixedRxAGC		0x8000
++/* #define bCCKRxAGCFormat		0x4000 */   /* remove to HSSI register 0x824 */
++#define		bCCKAntennaPolarity		0x2000
++#define		bCCKTxFilterType		0x0c00
++#define		bCCKRxAGCReportType		0x0300
++#define		bCCKRxDAGCEn		0x80000000
++#define		bCCKRxDAGCPeriod		0x20000000
++#define		bCCKRxDAGCSatLevel		0x1f000000
++#define		bCCKTimingRecovery		0x800000
++#define		bCCKTxC0			0x3f0000
++#define		bCCKTxC1			0x3f000000
++#define		bCCKTxC2			0x3f
++#define		bCCKTxC3			0x3f00
++#define		bCCKTxC4			0x3f0000
++#define		bCCKTxC5			0x3f000000
++#define		bCCKTxC6			0x3f
++#define		bCCKTxC7			0x3f00
++#define		bCCKDebugPort		0xff0000
++#define		bCCKDACDebug		0x0f000000
++#define		bCCKFalseAlarmEnable	0x8000
++#define		bCCKFalseAlarmRead	0x4000
++#define		bCCKTRSSI			0x7f
++#define		bCCKRxAGCReport		0xfe
++#define		bCCKRxReport_AntSel	0x80000000
++#define		bCCKRxReport_MFOff	0x40000000
++#define		bCCKRxRxReport_SQLoss	0x20000000
++#define		bCCKRxReport_Pktloss	0x10000000
++#define		bCCKRxReport_Lockedbit	0x08000000
++#define		bCCKRxReport_RateError	0x04000000
++#define		bCCKRxReport_RxRate	0x03000000
++#define		bCCKRxFACounterLower	0xff
++#define		bCCKRxFACounterUpper	0xff000000
++#define		bCCKRxHPAGCStart		0xe000
++#define		bCCKRxHPAGCFinal		0x1c00
++#define		bCCKRxFalseAlarmEnable	0x8000
++#define		bCCKFACounterFreeze	0x4000
++#define		bCCKTxPathSel		0x10000000
++#define		bCCKDefaultRxPath		0xc000000
++#define		bCCKOptionRxPath		0x3000000
++
++/* 5. PageC(0xC00) */
++#define		bNumOfSTF                			0x3	/* Useless */
++#define		bShift_L			0xc0
++#define		bGI_TH			0xc
++#define		bRxPathA			0x1
++#define		bRxPathB			0x2
++#define		bRxPathC			0x4
++#define		bRxPathD			0x8
++#define		bTxPathA			0x1
++#define		bTxPathB			0x2
++#define		bTxPathC			0x4
++#define		bTxPathD			0x8
++#define		bTRSSIFreq			0x200
++#define		bADCBackoff			0x3000
++#define		bDFIRBackoff			0xc000
++#define		bTRSSILatchPhase		0x10000
++#define		bRxIDCOffset			0xff
++#define		bRxQDCOffset		0xff00
++#define		bRxDFIRMode		0x1800000
++#define		bRxDCNFType		0xe000000
++#define		bRXIQImb_A		0x3ff
++#define		bRXIQImb_B			0xfc00
++#define		bRXIQImb_C			0x3f0000
++#define		bRXIQImb_D		0xffc00000
++#define		bDC_dc_Notch		0x60000
++#define		bRxNBINotch		0x1f000000
++#define		bPD_TH			0xf
++#define		bPD_TH_Opt2		0xc000
++#define		bPWED_TH			0x700
++#define		bIfMF_Win_L		0x800
++#define		bPD_Option			0x1000
++#define		bMF_Win_L			0xe000
++#define		bBW_Search_L		0x30000
++#define		bwin_enh_L			0xc0000
++#define		bBW_TH			0x700000
++#define		bED_TH2			0x3800000
++#define		bBW_option			0x4000000
++#define		bRatio_TH			0x18000000
++#define		bWindow_L			0xe0000000
++#define		bSBD_Option		0x1
++#define		bFrame_TH			0x1c
++#define		bFS_Option			0x60
++#define		bDC_Slope_check		0x80
++#define		bFGuard_Counter_DC_L	0xe00
++#define		bFrame_Weight_Short	0x7000
++#define		bSub_Tune			0xe00000
++#define		bFrame_DC_Length		0xe000000
++#define		bSBD_start_offset		0x30000000
++#define		bFrame_TH_2		0x7
++#define		bFrame_GI2_TH		0x38
++#define		bGI2_Sync_en		0x40
++#define		bSarch_Short_Early		0x300
++#define		bSarch_Short_Late		0xc00
++#define		bSarch_GI2_Late		0x70000
++#define		bCFOAntSum		0x1
++#define		bCFOAcc			0x2
++#define		bCFOStartOffset		0xc
++#define		bCFOLookBack		0x70
++#define		bCFOSumWeight		0x80
++#define		bDAGCEnable		0x10000
++#define		bTXIQImb_A			0x3ff
++#define		bTXIQImb_B			0xfc00
++#define		bTXIQImb_C			0x3f0000
++#define		bTXIQImb_D			0xffc00000
++#define		bTxIDCOffset			0xff
++#define		bTxQDCOffset		0xff00
++#define		bTxDFIRMode		0x10000
++#define		bTxPesudoNoiseOn		0x4000000
++#define		bTxPesudoNoise_A		0xff
++#define		bTxPesudoNoise_B		0xff00
++#define		bTxPesudoNoise_C		0xff0000
++#define		bTxPesudoNoise_D		0xff000000
++#define		bCCADropOption		0x20000
++#define		bCCADropThres		0xfff00000
++#define		bEDCCA_H			0xf
++#define		bEDCCA_L			0xf0
++#define		bLambda_ED		0x300
++#define		bRxInitialGain			0x7f
++#define		bRxAntDivEn		0x80
++#define		bRxAGCAddressForLNA	0x7f00
++#define		bRxHighPowerFlow		0x8000
++#define		bRxAGCFreezeThres		0xc0000
++#define		bRxFreezeStep_AGC1	0x300000
++#define		bRxFreezeStep_AGC2	0xc00000
++#define		bRxFreezeStep_AGC3	0x3000000
++#define		bRxFreezeStep_AGC0	0xc000000
++#define		bRxRssi_Cmp_En		0x10000000
++#define		bRxQuickAGCEn		0x20000000
++#define		bRxAGCFreezeThresMode	0x40000000
++#define		bRxOverFlowCheckType	0x80000000
++#define		bRxAGCShift			0x7f
++#define		bTRSW_Tri_Only		0x80
++#define		bPowerThres		0x300
++#define		bRxAGCEn			0x1
++#define		bRxAGCTogetherEn		0x2
++#define		bRxAGCMin		0x4
++#define		bRxHP_Ini			0x7
++#define		bRxHP_TRLNA		0x70
++#define		bRxHP_RSSI			0x700
++#define		bRxHP_BBP1		0x7000
++#define		bRxHP_BBP2		0x70000
++#define		bRxHP_BBP3		0x700000
++#define		bRSSI_H                  			0x7f0000     /* the threshold for high power */
++#define		bRSSI_Gen                			0x7f000000   /* the threshold for ant diversity */
++#define		bRxSettle_TRSW		0x7
++#define		bRxSettle_LNA		0x38
++#define		bRxSettle_RSSI		0x1c0
++#define		bRxSettle_BBP		0xe00
++#define		bRxSettle_RxHP		0x7000
++#define		bRxSettle_AntSW_RSSI	0x38000
++#define		bRxSettle_AntSW		0xc0000
++#define		bRxProcessTime_DAGC	0x300000
++#define		bRxSettle_HSSI		0x400000
++#define		bRxProcessTime_BBPPW	0x800000
++#define		bRxAntennaPowerShift	0x3000000
++#define		bRSSITableSelect		0xc000000
++#define		bRxHP_Final			0x7000000
++#define		bRxHTSettle_BBP		0x7
++#define		bRxHTSettle_HSSI		0x8
++#define		bRxHTSettle_RxHP		0x70
++#define		bRxHTSettle_BBPPW		0x80
++#define		bRxHTSettle_Idle		0x300
++#define		bRxHTSettle_Reserved	0x1c00
++#define		bRxHTRxHPEn		0x8000
++#define		bRxHTAGCFreezeThres	0x30000
++#define		bRxHTAGCTogetherEn	0x40000
++#define		bRxHTAGCMin		0x80000
++#define		bRxHTAGCEn		0x100000
++#define		bRxHTDAGCEn		0x200000
++#define		bRxHTRxHP_BBP		0x1c00000
++#define		bRxHTRxHP_Final		0xe0000000
++#define		bRxPWRatioTH		0x3
++#define		bRxPWRatioEn		0x4
++#define		bRxMFHold			0x3800
++#define		bRxPD_Delay_TH1		0x38
++#define		bRxPD_Delay_TH2		0x1c0
++#define		bRxPD_DC_COUNT_MAX	0x600
++/* #define bRxMF_Hold               0x3800 */
++#define		bRxPD_Delay_TH		0x8000
++#define		bRxProcess_Delay		0xf0000
++#define		bRxSearchrange_GI2_Early	0x700000
++#define		bRxFrame_Guard_Counter_L	0x3800000
++#define		bRxSGI_Guard_L		0xc000000
++#define		bRxSGI_Search_L		0x30000000
++#define		bRxSGI_TH			0xc0000000
++#define		bDFSCnt0			0xff
++#define		bDFSCnt1			0xff00
++#define		bDFSFlag			0xf0000
++#define		bMFWeightSum		0x300000
++#define		bMinIdxTH			0x7f000000
++#define		bDAFormat			0x40000
++#define		bTxChEmuEnable		0x01000000
++#define		bTRSWIsolation_A		0x7f
++#define		bTRSWIsolation_B		0x7f00
++#define		bTRSWIsolation_C		0x7f0000
++#define		bTRSWIsolation_D		0x7f000000
++#define		bExtLNAGain		0x7c00
++
++/* 6. PageE(0xE00) */
++#define		bSTBCEn                  			0x4	/* Useless */
++#define		bAntennaMapping		0x10
++#define		bNss			0x20
++#define		bCFOAntSumD		0x200
++#define		bPHYCounterReset		0x8000000
++#define		bCFOReportGet		0x4000000
++#define		bOFDMContinueTx		0x10000000
++#define		bOFDMSingleCarrier		0x20000000
++#define		bOFDMSingleTone		0x40000000
++/* #define bRxPath1                 0x01 */
++/* #define bRxPath2                 0x02 */
++/* #define bRxPath3                 0x04 */
++/* #define bRxPath4                 0x08 */
++/* #define bTxPath1                 0x10 */
++/* #define bTxPath2                 0x20 */
++#define		bHTDetect			0x100
++#define		bCFOEn			0x10000
++#define		bCFOValue			0xfff00000
++#define		bSigTone_Re			0x3f
++#define		bSigTone_Im			0x7f00
++#define		bCounter_CCA		0xffff
++#define		bCounter_ParityFail		0xffff0000
++#define		bCounter_RateIllegal		0xffff
++#define		bCounter_CRC8Fail		0xffff0000
++#define		bCounter_MCSNoSupport	0xffff
++#define		bCounter_FastSync		0xffff
++#define		bShortCFO			0xfff
++#define		bShortCFOTLength         		12   /* total */
++#define		bShortCFOFLength         		11   /* fraction */
++#define		bLongCFO			0x7ff
++#define		bLongCFOTLength		11
++#define		bLongCFOFLength		11
++#define		bTailCFO			0x1fff
++#define		bTailCFOTLength		13
++#define		bTailCFOFLength		12
++#define		bmax_en_pwdB		0xffff
++#define		bCC_power_dB		0xffff0000
++#define		bnoise_pwdB		0xffff
++#define		bPowerMeasTLength	10
++#define		bPowerMeasFLength	3
++#define		bRx_HT_BW		0x1
++#define		bRxSC			0x6
++#define		bRx_HT			0x8
++#define		bNB_intf_det_on		0x1
++#define		bIntf_win_len_cfg		0x30
++#define		bNB_Intf_TH_cfg		0x1c0
++#define		bRFGain			0x3f
++#define		bTableSel			0x40
++#define		bTRSW			0x80
++#define		bRxSNR_A			0xff
++#define		bRxSNR_B			0xff00
++#define		bRxSNR_C			0xff0000
++#define		bRxSNR_D			0xff000000
++#define		bSNREVMTLength		8
++#define		bSNREVMFLength		1
++#define		bCSI1st			0xff
++#define		bCSI2nd			0xff00
++#define		bRxEVM1st			0xff0000
++#define		bRxEVM2nd		0xff000000
++#define		bSIGEVM			0xff
++#define		bPWDB			0xff00
++#define		bSGIEN			0x10000
++
++#define		bSFactorQAM1             		0xf	/* Useless */
++#define		bSFactorQAM2		0xf0
++#define		bSFactorQAM3		0xf00
++#define		bSFactorQAM4		0xf000
++#define		bSFactorQAM5		0xf0000
++#define		bSFactorQAM6		0xf0000
++#define		bSFactorQAM7		0xf00000
++#define		bSFactorQAM8		0xf000000
++#define		bSFactorQAM9		0xf0000000
++#define		bCSIScheme			0x100000
++
++#define		bNoiseLvlTopSet          		0x3	/* Useless */
++#define		bChSmooth			0x4
++#define		bChSmoothCfg1		0x38
++#define		bChSmoothCfg2		0x1c0
++#define		bChSmoothCfg3		0xe00
++#define		bChSmoothCfg4		0x7000
++#define		bMRCMode		0x800000
++#define		bTHEVMCfg			0x7000000
++
++#define		bLoopFitType             			0x1	/* Useless */
++#define		bUpdCFO			0x40
++#define		bUpdCFOOffData		0x80
++#define		bAdvUpdCFO		0x100
++#define		bAdvTimeCtrl		0x800
++#define		bUpdClko			0x1000
++#define		bFC				0x6000
++#define		bTrackingMode		0x8000
++#define		bPhCmpEnable		0x10000
++#define		bUpdClkoLTF			0x20000
++#define		bComChCFO		0x40000
++#define		bCSIEstiMode		0x80000
++#define		bAdvUpdEqz		0x100000
++#define		bUChCfg			0x7000000
++#define		bUpdEqz			0x8000000
++
++/* Rx Pseduo noise */
++#define		bRxPesudoNoiseOn         		0x20000000	/* Useless */
++#define		bRxPesudoNoise_A		0xff
++#define		bRxPesudoNoise_B		0xff00
++#define		bRxPesudoNoise_C		0xff0000
++#define		bRxPesudoNoise_D		0xff000000
++#define		bPesudoNoiseState_A	0xffff
++#define		bPesudoNoiseState_B	0xffff0000
++#define		bPesudoNoiseState_C		0xffff
++#define		bPesudoNoiseState_D	0xffff0000
++
++/* 7. RF Register
++ * Zebra1 */
++#define		bZebra1_HSSIEnable        		0x8		/* Useless */
++#define		bZebra1_TRxControl		0xc00
++#define		bZebra1_TRxGainSetting	0x07f
++#define		bZebra1_RxCorner		0xc00
++#define		bZebra1_TxChargePump	0x38
++#define		bZebra1_RxChargePump	0x7
++#define		bZebra1_ChannelNum	0xf80
++#define		bZebra1_TxLPFBW		0x400
++#define		bZebra1_RxLPFBW		0x600
++
++/* Zebra4 */
++#define		bRTL8256RegModeCtrl1      	0x100	/* Useless */
++#define		bRTL8256RegModeCtrl0	0x40
++#define		bRTL8256_TxLPFBW	0x18
++#define		bRTL8256_RxLPFBW	0x600
++
++/* RTL8258 */
++#define		bRTL8258_TxLPFBW          	0xc	/* Useless */
++#define		bRTL8258_RxLPFBW	0xc00
++#define		bRTL8258_RSSILPFBW	0xc0
++
++
++/*
++ * Other Definition
++ *   */
++
++/* byte endable for sb_write */
++#define		bByte0                    			0x1	/* Useless */
++#define		bByte1			0x2
++#define		bByte2			0x4
++#define		bByte3			0x8
++#define		bWord0			0x3
++#define		bWord1			0xc
++#define		bDWord			0xf
++
++/* for PutRegsetting & GetRegSetting BitMask */
++#define		bMaskByte0                		0xff	/* Reg 0xc50 rOFDM0_XAAGCCore~0xC6f */
++#define		bMaskByte1		0xff00
++#define		bMaskByte2		0xff0000
++#define		bMaskByte3		0xff000000
++#define		bMaskHWord		0xffff0000
++#define		bMaskLWord		0x0000ffff
++#define		bMaskDWord		0xffffffff
++#define		bMaskH3Bytes				0xffffff00
++#define		bMask12Bits				0xfff
++#define		bMaskH4Bits				0xf0000000
++#define		bMaskOFDM_D			0xffc00000
++#define		bMaskCCK				0x3f3f3f3f
++
++/* for PutRFRegsetting & GetRFRegSetting BitMask
++ * #define		bMask12Bits               0xfffff */	/* RF Reg mask bits
++ * #define		bMask20Bits               0xfffff */	/* RF Reg mask bits T65 RF */
++#define		bRFRegOffsetMask			0xfffff
++
++#define		bEnable                   0x1	/* Useless */
++#define		bDisable                  0x0
++
++#define		LeftAntenna               			0x0	/* Useless */
++#define		RightAntenna		0x1
++
++#define		tCheckTxStatus            		500   /* 500ms */ /* Useless */
++#define		tUpdateRxCounter          		100   /* 100ms */
++
++#define		rateCCK     				0	/* Useless */
++#define		rateOFDM				1
++#define		rateHT					2
++
++/* define Register-End */
++#define		bPMAC_End                 		0x1ff	/* Useless */
++#define		bFPGAPHY0_End		0x8ff
++#define		bFPGAPHY1_End		0x9ff
++#define		bCCKPHY0_End		0xaff
++#define		bOFDMPHY0_End		0xcff
++#define		bOFDMPHY1_End		0xdff
++
++/* define max debug item in each debug page
++ * #define bMaxItem_FPGA_PHY0        0x9
++ * #define bMaxItem_FPGA_PHY1        0x3
++ * #define bMaxItem_PHY_11B          0x16
++ * #define bMaxItem_OFDM_PHY0        0x29
++ * #define bMaxItem_OFDM_PHY1        0x0 */
++
++#define		bPMACControl              		0x0		/* Useless */
++#define		bWMACControl		0x1
++#define		bWNICControl		0x2
++
++#define		PathA                     			0x0	/* Useless */
++#define		PathB			0x1
++#define		PathC			0x2
++#define		PathD			0x3
++
++
++/* RSSI Dump Message */
++#define		rA_RSSIDump_92E			0xcb0
++#define		rB_RSSIDump_92E			0xcb1
++#define		rS1_RXevmDump_92E			0xcb2
++#define		rS2_RXevmDump_92E			0xcb3
++#define		rA_RXsnrDump_92E			0xcb4
++#define		rB_RXsnrDump_92E			0xcb5
++#define		rA_CfoShortDump_92E		0xcb6
++#define		rB_CfoShortDump_92E		0xcb8
++#define	rA_CfoLongDump_92E			0xcba
++#define		rB_CfoLongDump_92E			0xcbc
++
++/*--------------------------Define Parameters-------------------------------*/
++
++
++#endif /* __INC_HAL8188EPHYREG_H */
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8192EPwrSeq.h b/drivers/net/wireless/rtl8812au/include/Hal8192EPwrSeq.h
+new file mode 100644
+index 0000000..12bb2fb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8192EPwrSeq.h
+@@ -0,0 +1,155 @@
++#ifndef REALTEK_POWER_SEQUENCE_8192E
++#define REALTEK_POWER_SEQUENCE_8192E
++
++#include "HalPwrSeqCmd.h"
++/*
++	Check document WM-20110607-Paul-RTL8192E_Power_Architecture-R02.vsd
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transision from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++*/
++#define	RTL8192E_TRANS_CARDEMU_TO_ACT_STEPS	18
++#define	RTL8192E_TRANS_ACT_TO_CARDEMU_STEPS	18
++#define	RTL8192E_TRANS_CARDEMU_TO_SUS_STEPS	18
++#define	RTL8192E_TRANS_SUS_TO_CARDEMU_STEPS	18
++#define	RTL8192E_TRANS_CARDEMU_TO_PDN_STEPS	18
++#define	RTL8192E_TRANS_PDN_TO_CARDEMU_STEPS	18
++#define	RTL8192E_TRANS_ACT_TO_LPS_STEPS	23
++#define	RTL8192E_TRANS_LPS_TO_ACT_STEPS	23
++#define	RTL8192E_TRANS_END_STEPS	1
++
++
++#define RTL8192E_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* disable HWPDN 0x04[15]=0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0},/* disable SW LPS 0x04[10]=0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT4 | BIT3), 0},/* disable WL suspend*/	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1    power ready*/	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* release WLON reset  0x04[16]=1*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* polling until return 0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0},/**/	\
++
++
++#define RTL8192E_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*0x1F[7:0] = 0 turn off RF*/	\
++	{0x004E, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/*0x4C[23] = 0x4E[7] = 0, switch DPDT_SEL_P output from register 0x65[2] */\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/	\
++
++
++#define RTL8192E_TRANS_CARDEMU_TO_SUS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4 | BIT3, (BIT4 | BIT3)}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3 | BIT4}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8192E_TRANS_SUS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
++
++#define RTL8192E_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07 = 0x20 , SOP option to disable BG/MB*/	\
++	{0x00CC, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2}, /*Unlock small LDO Register*/	\
++	{0x0011, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /*Disable small LDO*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2}, /*0x04[10] = 1, enable SW LPS*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8192E_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0011, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /*Enable small LDO*/	\
++	{0x00CC, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0}, /*Lock small LDO Register*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/\
++
++
++#define RTL8192E_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/* 0x04[16] = 0*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
++
++#define RTL8192E_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
++
++#define RTL8192E_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*PCIe DMA stop*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*Tx Pause*/	\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Whole BB is reset*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x03},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/	\
++	{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/*When driver enter Sus/ Disable, enable LOP for BT*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/	\
++
++
++#define RTL8192E_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM, For Repeatly In and out, Taggle bit should be changed*/\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/\
++	{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*.	0x08[4] = 0		 switch TSF to 40M*/\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, 0}, /*Polling 0x109[7]=0  TSF in 40M*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/\
++	{0x013D, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*Clear ISR*/
++
++#define RTL8192E_TRANS_END															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++	extern WLAN_PWR_CFG rtl8192E_power_on_flow[RTL8192E_TRANS_CARDEMU_TO_ACT_STEPS + RTL8192E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8192E_radio_off_flow[RTL8192E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8192E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8192E_card_disable_flow[RTL8192E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8192E_TRANS_CARDEMU_TO_PDN_STEPS + RTL8192E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8192E_card_enable_flow[RTL8192E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8192E_TRANS_CARDEMU_TO_PDN_STEPS + RTL8192E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8192E_suspend_flow[RTL8192E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8192E_TRANS_CARDEMU_TO_SUS_STEPS + RTL8192E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8192E_resume_flow[RTL8192E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8192E_TRANS_CARDEMU_TO_SUS_STEPS + RTL8192E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8192E_hwpdn_flow[RTL8192E_TRANS_ACT_TO_CARDEMU_STEPS + RTL8192E_TRANS_CARDEMU_TO_PDN_STEPS + RTL8192E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8192E_enter_lps_flow[RTL8192E_TRANS_ACT_TO_LPS_STEPS + RTL8192E_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8192E_leave_lps_flow[RTL8192E_TRANS_LPS_TO_ACT_STEPS + RTL8192E_TRANS_END_STEPS];
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8703BPhyCfg.h b/drivers/net/wireless/rtl8812au/include/Hal8703BPhyCfg.h
+new file mode 100644
+index 0000000..e9d422f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8703BPhyCfg.h
+@@ -0,0 +1,137 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8703BPHYCFG_H__
++#define __INC_HAL8703BPHYCFG_H__
++
++/*--------------------------Define Parameters-------------------------------*/
++#define LOOP_LIMIT				5
++#define MAX_STALL_TIME			50		/* us */
++#define AntennaDiversityValue	0x80	/* (Adapter->bSoftwareAntennaDiversity ? 0x00 : 0x80) */
++#define MAX_TXPWR_IDX_NMODE_92S	63
++#define Reset_Cnt_Limit			3
++
++#ifdef CONFIG_PCI_HCI
++	#define MAX_AGGR_NUM	0x0B
++#else
++	#define MAX_AGGR_NUM	0x07
++#endif /* CONFIG_PCI_HCI */
++
++
++/*--------------------------Define Parameters End-------------------------------*/
++
++
++/*------------------------------Define structure----------------------------*/
++
++/*------------------------------Define structure End----------------------------*/
++
++/*--------------------------Exported Function prototype---------------------*/
++u32
++PHY_QueryBBReg_8703B(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask
++);
++
++VOID
++PHY_SetBBReg_8703B(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask,
++	IN	u32		Data
++);
++
++u32
++PHY_QueryRFReg_8703B(
++	IN	PADAPTER			Adapter,
++	IN	u8				eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask
++);
++
++VOID
++PHY_SetRFReg_8703B(
++	IN	PADAPTER			Adapter,
++	IN	u8				eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask,
++	IN	u32				Data
++);
++
++/* MAC/BB/RF HAL config */
++int PHY_BBConfig8703B(PADAPTER	Adapter);
++
++int PHY_RFConfig8703B(PADAPTER	Adapter);
++
++s32 PHY_MACConfig8703B(PADAPTER padapter);
++
++int
++PHY_ConfigRFWithParaFile_8703B(
++	IN	PADAPTER			Adapter,
++	IN	u8				*pFileName,
++	RF_PATH				eRFPath
++);
++
++VOID
++PHY_SetTxPowerIndex_8703B(
++	IN	PADAPTER			Adapter,
++	IN	u32					PowerIndex,
++	IN	u8					RFPath,
++	IN	u8					Rate
++);
++
++u8
++PHY_GetTxPowerIndex_8703B(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	u8					Rate,
++	IN	u8					BandWidth,
++	IN	u8					Channel,
++	struct txpwr_idx_comp *tic
++);
++
++VOID
++PHY_GetTxPowerLevel8703B(
++	IN	PADAPTER		Adapter,
++	OUT s32				*powerlevel
++);
++
++VOID
++PHY_SetTxPowerLevel8703B(
++	IN	PADAPTER		Adapter,
++	IN	u8			channel
++);
++
++VOID
++PHY_SetSwChnlBWMode8703B(
++	IN	PADAPTER			Adapter,
++	IN	u8					channel,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					Offset40,
++	IN	u8					Offset80
++);
++
++VOID PHY_SetRFPathSwitch_8703B(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bMain
++);
++
++/*--------------------------Exported Function prototype End---------------------*/
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8703BPhyReg.h b/drivers/net/wireless/rtl8812au/include/Hal8703BPhyReg.h
+new file mode 100644
+index 0000000..e8eb664
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8703BPhyReg.h
+@@ -0,0 +1,1138 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8703BPHYREG_H__
++#define __INC_HAL8703BPHYREG_H__
++
++#define		rSYM_WLBT_PAPE_SEL		0x64
++/*
++ * BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++ * 3. RF register 0x00-2E
++ * 4. Bit Mask for BB/RF register
++ * 5. Other defintion for BB/RF R/W
++ *   */
++
++
++/*
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 1. Page1(0x100)
++ *   */
++#define		rPMAC_Reset					0x100
++#define		rPMAC_TxStart					0x104
++#define		rPMAC_TxLegacySIG				0x108
++#define		rPMAC_TxHTSIG1				0x10c
++#define		rPMAC_TxHTSIG2				0x110
++#define		rPMAC_PHYDebug				0x114
++#define		rPMAC_TxPacketNum				0x118
++#define		rPMAC_TxIdle					0x11c
++#define		rPMAC_TxMACHeader0			0x120
++#define		rPMAC_TxMACHeader1			0x124
++#define		rPMAC_TxMACHeader2			0x128
++#define		rPMAC_TxMACHeader3			0x12c
++#define		rPMAC_TxMACHeader4			0x130
++#define		rPMAC_TxMACHeader5			0x134
++#define		rPMAC_TxDataType				0x138
++#define		rPMAC_TxRandomSeed			0x13c
++#define		rPMAC_CCKPLCPPreamble			0x140
++#define		rPMAC_CCKPLCPHeader			0x144
++#define		rPMAC_CCKCRC16				0x148
++#define		rPMAC_OFDMRxCRC32OK			0x170
++#define		rPMAC_OFDMRxCRC32Er			0x174
++#define		rPMAC_OFDMRxParityEr			0x178
++#define		rPMAC_OFDMRxCRC8Er			0x17c
++#define		rPMAC_CCKCRxRC16Er			0x180
++#define		rPMAC_CCKCRxRC32Er			0x184
++#define		rPMAC_CCKCRxRC32OK			0x188
++#define		rPMAC_TxStatus					0x18c
++
++/*
++ * 2. Page2(0x200)
++ *
++ * The following two definition are only used for USB interface. */
++#define		RF_BB_CMD_ADDR				0x02c0	/* RF/BB read/write command address. */
++#define		RF_BB_CMD_DATA				0x02c4	/* RF/BB read/write command data. */
++
++/*
++ * 3. Page8(0x800)
++ *   */
++#define		rFPGA0_RFMOD				0x800	/* RF mode & CCK TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA0_TxInfo				0x804	/* Status report?? */
++#define		rFPGA0_PSDFunction			0x808
++
++#define		rFPGA0_TxGainStage			0x80c	/* Set TX PWR init gain? */
++
++#define		rFPGA0_RFTiming1			0x810	/* Useless now */
++#define		rFPGA0_RFTiming2			0x814
++
++#define		rFPGA0_XA_HSSIParameter1		0x820	/* RF 3 wire register */
++#define		rFPGA0_XA_HSSIParameter2		0x824
++#define		rFPGA0_XB_HSSIParameter1		0x828
++#define		rFPGA0_XB_HSSIParameter2		0x82c
++#define		rTxAGC_B_Rate18_06				0x830
++#define		rTxAGC_B_Rate54_24				0x834
++#define		rTxAGC_B_CCK1_55_Mcs32		0x838
++#define		rTxAGC_B_Mcs03_Mcs00			0x83c
++
++#define		rTxAGC_B_Mcs07_Mcs04			0x848
++#define		rTxAGC_B_Mcs11_Mcs08			0x84c
++
++#define		rFPGA0_XA_LSSIParameter		0x840
++#define		rFPGA0_XB_LSSIParameter		0x844
++
++#define		rFPGA0_RFWakeUpParameter		0x850	/* Useless now */
++#define		rFPGA0_RFSleepUpParameter		0x854
++
++#define		rFPGA0_XAB_SwitchControl		0x858	/* RF Channel switch */
++#define		rFPGA0_XCD_SwitchControl		0x85c
++
++#define		rFPGA0_XA_RFInterfaceOE		0x860	/* RF Channel switch */
++#define		rFPGA0_XB_RFInterfaceOE		0x864
++
++#define		rTxAGC_B_Mcs15_Mcs12			0x868
++#define		rTxAGC_B_CCK11_A_CCK2_11		0x86c
++
++#define		rFPGA0_XAB_RFInterfaceSW		0x870	/* RF Interface Software Control */
++#define		rFPGA0_XCD_RFInterfaceSW		0x874
++
++#define		rFPGA0_XAB_RFParameter		0x878	/* RF Parameter */
++#define		rFPGA0_XCD_RFParameter		0x87c
++
++#define		rFPGA0_AnalogParameter1		0x880	/* Crystal cap setting RF-R/W protection for parameter4?? */
++#define		rFPGA0_AnalogParameter2		0x884
++#define		rFPGA0_AnalogParameter3		0x888	/* Useless now */
++#define		rFPGA0_AnalogParameter4		0x88c
++
++#define		rFPGA0_XA_LSSIReadBack		0x8a0	/* Tranceiver LSSI Readback */
++#define		rFPGA0_XB_LSSIReadBack		0x8a4
++#define		rFPGA0_XC_LSSIReadBack		0x8a8
++#define		rFPGA0_XD_LSSIReadBack		0x8ac
++
++#define		rFPGA0_PSDReport				0x8b4	/* Useless now */
++#define		TransceiverA_HSPI_Readback	0x8b8	/* Transceiver A HSPI Readback */
++#define		TransceiverB_HSPI_Readback	0x8bc	/* Transceiver B HSPI Readback */
++#define		rFPGA0_XAB_RFInterfaceRB		0x8e0	/* Useless now */ /* RF Interface Readback Value */
++#define		rFPGA0_XCD_RFInterfaceRB		0x8e4	/* Useless now */
++
++/*
++ * 4. Page9(0x900)
++ *   */
++#define	rFPGA1_RFMOD				0x900	/* RF mode & OFDM TxSC */ /* RF BW Setting?? */
++#define	rFPGA1_TxBlock				0x904	/* Useless now */
++#define	rFPGA1_DebugSelect			0x908	/* Useless now */
++#define	rFPGA1_TxInfo				0x90c	/* Useless now */ /* Status report?? */
++#define	rDPDT_control				0x92c
++#define	rfe_ctrl_anta_src				0x930
++#define	rS0S1_PathSwitch			0x948
++#define	rBBrx_DFIR					0x954
++
++/*
++ * 5. PageA(0xA00)
++ *
++ * Set Control channel to upper or lower. These settings are required only for 40MHz */
++#define		rCCK0_System				0xa00
++
++#define		rCCK0_AFESetting			0xa04	/* Disable init gain now */ /* Select RX path by RSSI */
++#define		rCCK0_CCA					0xa08	/* Disable init gain now */ /* Init gain */
++
++#define		rCCK0_RxAGC1				0xa0c	/* AGC default value, saturation level  */ /* Antenna Diversity, RX AGC, LNA Threshold, RX LNA Threshold useless now. Not the same as 90 series */
++#define		rCCK0_RxAGC2				0xa10	/* AGC & DAGC */
++
++#define		rCCK0_RxHP					0xa14
++
++#define		rCCK0_DSPParameter1		0xa18	/* Timing recovery & Channel estimation threshold */
++#define		rCCK0_DSPParameter2		0xa1c	/* SQ threshold */
++
++#define		rCCK0_TxFilter1				0xa20
++#define		rCCK0_TxFilter2				0xa24
++#define		rCCK0_DebugPort			0xa28	/* debug port and Tx filter3 */
++#define		rCCK0_FalseAlarmReport		0xa2c	/* 0xa2d	useless now 0xa30-a4f channel report */
++#define		rCCK0_TRSSIReport		0xa50
++#define		rCCK0_RxReport            		0xa54  /* 0xa57 */
++#define		rCCK0_FACounterLower      	0xa5c  /* 0xa5b */
++#define		rCCK0_FACounterUpper      	0xa58  /* 0xa5c */
++
++/*
++ * PageB(0xB00)
++ *   */
++#define rPdp_AntA						0xb00
++#define rPdp_AntA_4						0xb04
++#define rPdp_AntA_8						0xb08
++#define rPdp_AntA_C						0xb0c
++#define rPdp_AntA_10					0xb10
++#define rPdp_AntA_14					0xb14
++#define rPdp_AntA_18					0xb18
++#define rPdp_AntA_1C					0xb1c
++#define rPdp_AntA_20					0xb20
++#define rPdp_AntA_24					0xb24
++
++#define rConfig_Pmpd_AntA				0xb28
++#define rConfig_ram64x16				0xb2c
++
++#define rBndA							0xb30
++#define rHssiPar						0xb34
++
++#define rConfig_AntA					0xb68
++#define rConfig_AntB					0xb6c
++
++#define rPdp_AntB						0xb70
++#define rPdp_AntB_4						0xb74
++#define rPdp_AntB_8						0xb78
++#define rPdp_AntB_C						0xb7c
++#define rPdp_AntB_10					0xb80
++#define rPdp_AntB_14					0xb84
++#define rPdp_AntB_18					0xb88
++#define rPdp_AntB_1C					0xb8c
++#define rPdp_AntB_20					0xb90
++#define rPdp_AntB_24					0xb94
++
++#define rConfig_Pmpd_AntB				0xb98
++
++#define rBndB							0xba0
++
++#define rAPK							0xbd8
++#define rPm_Rx0_AntA					0xbdc
++#define rPm_Rx1_AntA					0xbe0
++#define rPm_Rx2_AntA					0xbe4
++#define rPm_Rx3_AntA					0xbe8
++#define rPm_Rx0_AntB					0xbec
++#define rPm_Rx1_AntB					0xbf0
++#define rPm_Rx2_AntB					0xbf4
++#define rPm_Rx3_AntB					0xbf8
++/*
++ * 6. PageC(0xC00)
++ *   */
++#define		rOFDM0_LSTF				0xc00
++
++#define		rOFDM0_TRxPathEnable		0xc04
++#define		rOFDM0_TRMuxPar			0xc08
++#define		rOFDM0_TRSWIsolation		0xc0c
++
++#define		rOFDM0_XARxAFE			0xc10  /* RxIQ DC offset, Rx digital filter, DC notch filter */
++#define		rOFDM0_XARxIQImbalance    	0xc14  /* RxIQ imblance matrix */
++#define		rOFDM0_XBRxAFE		0xc18
++#define		rOFDM0_XBRxIQImbalance	0xc1c
++#define		rOFDM0_XCRxAFE		0xc20
++#define		rOFDM0_XCRxIQImbalance	0xc24
++#define		rOFDM0_XDRxAFE		0xc28
++#define		rOFDM0_XDRxIQImbalance	0xc2c
++
++#define		rOFDM0_RxDetector1			0xc30  /* PD, BW & SBD	 */ /* DM tune init gain */
++#define		rOFDM0_RxDetector2			0xc34  /* SBD & Fame Sync. */
++#define		rOFDM0_RxDetector3			0xc38  /* Frame Sync. */
++#define		rOFDM0_RxDetector4			0xc3c  /* PD, SBD, Frame Sync & Short-GI */
++
++#define		rOFDM0_RxDSP				0xc40  /* Rx Sync Path */
++#define		rOFDM0_CFOandDAGC		0xc44  /* CFO & DAGC */
++#define		rOFDM0_CCADropThreshold	0xc48 /* CCA Drop threshold */
++#define		rOFDM0_ECCAThreshold		0xc4c /* energy CCA */
++
++#define		rOFDM0_XAAGCCore1			0xc50	/* DIG */
++#define		rOFDM0_XAAGCCore2			0xc54
++#define		rOFDM0_XBAGCCore1			0xc58
++#define		rOFDM0_XBAGCCore2			0xc5c
++#define		rOFDM0_XCAGCCore1			0xc60
++#define		rOFDM0_XCAGCCore2			0xc64
++#define		rOFDM0_XDAGCCore1			0xc68
++#define		rOFDM0_XDAGCCore2			0xc6c
++
++#define		rOFDM0_AGCParameter1			0xc70
++#define		rOFDM0_AGCParameter2			0xc74
++#define		rOFDM0_AGCRSSITable			0xc78
++#define		rOFDM0_HTSTFAGC				0xc7c
++
++#define		rOFDM0_XATxIQImbalance		0xc80	/* TX PWR TRACK and DIG */
++#define		rOFDM0_XATxAFE				0xc84
++#define		rOFDM0_XBTxIQImbalance		0xc88
++#define		rOFDM0_XBTxAFE				0xc8c
++#define		rOFDM0_XCTxIQImbalance		0xc90
++#define		rOFDM0_XCTxAFE			0xc94
++#define		rOFDM0_XDTxIQImbalance		0xc98
++#define		rOFDM0_XDTxAFE				0xc9c
++
++#define		rOFDM0_RxIQExtAnta			0xca0
++#define		rOFDM0_TxCoeff1				0xca4
++#define		rOFDM0_TxCoeff2				0xca8
++#define		rOFDM0_TxCoeff3				0xcac
++#define		rOFDM0_TxCoeff4				0xcb0
++#define		rOFDM0_TxCoeff5				0xcb4
++#define		rOFDM0_TxCoeff6				0xcb8
++#define		rOFDM0_RxHPParameter			0xce0
++#define		rOFDM0_TxPseudoNoiseWgt		0xce4
++#define		rOFDM0_FrameSync				0xcf0
++#define		rOFDM0_DFSReport				0xcf4
++
++/*
++ * 7. PageD(0xD00)
++ *   */
++#define		rOFDM1_LSTF					0xd00
++#define		rOFDM1_TRxPathEnable			0xd04
++
++#define		rOFDM1_CFO						0xd08	/* No setting now */
++#define		rOFDM1_CSI1					0xd10
++#define		rOFDM1_SBD						0xd14
++#define		rOFDM1_CSI2					0xd18
++#define		rOFDM1_CFOTracking			0xd2c
++#define		rOFDM1_TRxMesaure1			0xd34
++#define		rOFDM1_IntfDet					0xd3c
++#define		rOFDM1_PseudoNoiseStateAB		0xd50
++#define		rOFDM1_PseudoNoiseStateCD		0xd54
++#define		rOFDM1_RxPseudoNoiseWgt		0xd58
++
++#define		rOFDM_PHYCounter1				0xda0  /* cca, parity fail */
++#define		rOFDM_PHYCounter2				0xda4  /* rate illegal, crc8 fail */
++#define		rOFDM_PHYCounter3				0xda8  /* MCS not support */
++
++#define		rOFDM_ShortCFOAB				0xdac	/* No setting now */
++#define		rOFDM_ShortCFOCD				0xdb0
++#define		rOFDM_LongCFOAB				0xdb4
++#define		rOFDM_LongCFOCD				0xdb8
++#define		rOFDM_TailCFOAB				0xdbc
++#define		rOFDM_TailCFOCD				0xdc0
++#define		rOFDM_PWMeasure1		0xdc4
++#define		rOFDM_PWMeasure2		0xdc8
++#define		rOFDM_BWReport				0xdcc
++#define		rOFDM_AGCReport				0xdd0
++#define		rOFDM_RxSNR					0xdd4
++#define		rOFDM_RxEVMCSI				0xdd8
++#define		rOFDM_SIGReport				0xddc
++
++
++/*
++ * 8. PageE(0xE00)
++ *   */
++#define		rTxAGC_A_Rate18_06			0xe00
++#define		rTxAGC_A_Rate54_24			0xe04
++#define		rTxAGC_A_CCK1_Mcs32			0xe08
++#define		rTxAGC_A_Mcs03_Mcs00			0xe10
++#define		rTxAGC_A_Mcs07_Mcs04			0xe14
++#define		rTxAGC_A_Mcs11_Mcs08			0xe18
++#define		rTxAGC_A_Mcs15_Mcs12			0xe1c
++
++#define		rFPGA0_IQK					0xe28
++#define		rTx_IQK_Tone_A				0xe30
++#define		rRx_IQK_Tone_A				0xe34
++#define		rTx_IQK_PI_A					0xe38
++#define		rRx_IQK_PI_A					0xe3c
++
++#define		rTx_IQK						0xe40
++#define		rRx_IQK						0xe44
++#define		rIQK_AGC_Pts					0xe48
++#define		rIQK_AGC_Rsp					0xe4c
++#define		rTx_IQK_Tone_B				0xe50
++#define		rRx_IQK_Tone_B				0xe54
++#define		rTx_IQK_PI_B					0xe58
++#define		rRx_IQK_PI_B					0xe5c
++#define		rIQK_AGC_Cont				0xe60
++
++#define		rBlue_Tooth					0xe6c
++#define		rRx_Wait_CCA					0xe70
++#define		rTx_CCK_RFON					0xe74
++#define		rTx_CCK_BBON				0xe78
++#define		rTx_OFDM_RFON				0xe7c
++#define		rTx_OFDM_BBON				0xe80
++#define		rTx_To_Rx					0xe84
++#define		rTx_To_Tx					0xe88
++#define		rRx_CCK						0xe8c
++
++#define		rTx_Power_Before_IQK_A		0xe94
++#define		rTx_Power_After_IQK_A			0xe9c
++
++#define		rRx_Power_Before_IQK_A		0xea0
++#define		rRx_Power_Before_IQK_A_2		0xea4
++#define		rRx_Power_After_IQK_A			0xea8
++#define		rRx_Power_After_IQK_A_2		0xeac
++
++#define		rTx_Power_Before_IQK_B		0xeb4
++#define		rTx_Power_After_IQK_B			0xebc
++
++#define		rRx_Power_Before_IQK_B		0xec0
++#define		rRx_Power_Before_IQK_B_2		0xec4
++#define		rRx_Power_After_IQK_B			0xec8
++#define		rRx_Power_After_IQK_B_2		0xecc
++
++#define		rRx_OFDM					0xed0
++#define		rRx_Wait_RIFS				0xed4
++#define		rRx_TO_Rx					0xed8
++#define		rStandby						0xedc
++#define		rSleep						0xee0
++#define		rPMPD_ANAEN				0xeec
++
++/*
++ * 7. RF Register 0x00-0x2E (RF 8256)
++ * RF-0222D 0x00-3F
++ *
++ * Zebra1 */
++#define		rZebra1_HSSIEnable				0x0	/* Useless now */
++#define		rZebra1_TRxEnable1				0x1
++#define		rZebra1_TRxEnable2				0x2
++#define		rZebra1_AGC					0x4
++#define		rZebra1_ChargePump			0x5
++#define		rZebra1_Channel				0x7	/* RF channel switch */
++
++/* #endif */
++#define		rZebra1_TxGain					0x8	/* Useless now */
++#define		rZebra1_TxLPF					0x9
++#define		rZebra1_RxLPF					0xb
++#define		rZebra1_RxHPFCorner			0xc
++
++/* Zebra4 */
++#define		rGlobalCtrl						0	/* Useless now */
++#define		rRTL8256_TxLPF					19
++#define		rRTL8256_RxLPF					11
++
++/* RTL8258 */
++#define		rRTL8258_TxLPF					0x11	/* Useless now */
++#define		rRTL8258_RxLPF					0x13
++#define		rRTL8258_RSSILPF				0xa
++
++/*
++ * RL6052 Register definition
++ *   */
++#define		RF_AC						0x00	/*  */
++
++#define		RF_IQADJ_G1				0x01	/*  */
++#define		RF_IQADJ_G2				0x02	/*  */
++#define		RF_BS_PA_APSET_G1_G4		0x03
++#define		RF_BS_PA_APSET_G5_G8		0x04
++#define		RF_POW_TRSW				0x05	/*  */
++
++#define		RF_GAIN_RX					0x06	/*  */
++#define		RF_GAIN_TX					0x07	/*  */
++
++#define		RF_TXM_IDAC				0x08	/*  */
++#define		RF_IPA_G					0x09	/*  */
++#define		RF_TXBIAS_G				0x0A
++#define		RF_TXPA_AG					0x0B
++#define		RF_IPA_A					0x0C	/*  */
++#define		RF_TXBIAS_A				0x0D
++#define		RF_BS_PA_APSET_G9_G11	0x0E
++#define		RF_BS_IQGEN				0x0F	/*  */
++
++#define		RF_MODE1					0x10	/*  */
++#define		RF_MODE2					0x11	/*  */
++
++#define		RF_RX_AGC_HP				0x12	/*  */
++#define		RF_TX_AGC					0x13	/*  */
++#define		RF_BIAS						0x14	/*  */
++#define		RF_IPA						0x15	/*  */
++#define		RF_TXBIAS					0x16
++#define		RF_POW_ABILITY			0x17	/*  */
++#define		RF_MODE_AG				0x18	/*  */
++#define		rRfChannel					0x18	/* RF channel and BW switch */
++#define		RF_CHNLBW					0x18	/* RF channel and BW switch */
++#define		RF_TOP						0x19	/*  */
++
++#define		RF_RX_G1					0x1A	/*  */
++#define		RF_RX_G2					0x1B	/*  */
++
++#define		RF_RX_BB2					0x1C	/*  */
++#define		RF_RX_BB1					0x1D	/*  */
++
++#define		RF_RCK1					0x1E	/*  */
++#define		RF_RCK2					0x1F	/*  */
++
++#define		RF_TX_G1					0x20	/*  */
++#define		RF_TX_G2					0x21	/*  */
++#define		RF_TX_G3					0x22	/*  */
++
++#define		RF_TX_BB1					0x23	/*  */
++
++#define		RF_T_METER					0x24	/*  */
++
++#define		RF_SYN_G1					0x25	/* RF TX Power control */
++#define		RF_SYN_G2					0x26	/* RF TX Power control */
++#define		RF_SYN_G3					0x27	/* RF TX Power control */
++#define		RF_SYN_G4					0x28	/* RF TX Power control */
++#define		RF_SYN_G5					0x29	/* RF TX Power control */
++#define		RF_SYN_G6					0x2A	/* RF TX Power control */
++#define		RF_SYN_G7					0x2B	/* RF TX Power control */
++#define		RF_SYN_G8					0x2C	/* RF TX Power control */
++
++#define		RF_RCK_OS					0x30	/* RF TX PA control */
++
++#define		RF_TXPA_G1					0x31	/* RF TX PA control */
++#define		RF_TXPA_G2					0x32	/* RF TX PA control */
++#define		RF_TXPA_G3					0x33	/* RF TX PA control */
++#define	RF_TX_BIAS_A				0x35
++#define	RF_TX_BIAS_D				0x36
++#define	RF_LOBF_9					0x38
++#define 	RF_RXRF_A3					0x3C	/*	 */
++#define	RF_TRSW					0x3F
++
++#define	RF_TXRF_A2					0x41
++#define	RF_TXPA_G4					0x46
++#define	RF_TXPA_A4					0x4B
++#define	RF_0x52					0x52
++#define	RF_WE_LUT					0xEF
++#define	RF_S0S1					0xB0
++
++/*
++ * Bit Mask
++ *
++ * 1. Page1(0x100) */
++#define		bBBResetB						0x100	/* Useless now? */
++#define		bGlobalResetB					0x200
++#define		bOFDMTxStart					0x4
++#define		bCCKTxStart						0x8
++#define		bCRC32Debug					0x100
++#define		bPMACLoopback					0x10
++#define		bTxLSIG							0xffffff
++#define		bOFDMTxRate					0xf
++#define		bOFDMTxReserved				0x10
++#define		bOFDMTxLength					0x1ffe0
++#define		bOFDMTxParity					0x20000
++#define		bTxHTSIG1						0xffffff
++#define		bTxHTMCSRate					0x7f
++#define		bTxHTBW						0x80
++#define		bTxHTLength					0xffff00
++#define		bTxHTSIG2						0xffffff
++#define		bTxHTSmoothing					0x1
++#define		bTxHTSounding					0x2
++#define		bTxHTReserved					0x4
++#define		bTxHTAggreation				0x8
++#define		bTxHTSTBC						0x30
++#define		bTxHTAdvanceCoding			0x40
++#define		bTxHTShortGI					0x80
++#define		bTxHTNumberHT_LTF			0x300
++#define		bTxHTCRC8						0x3fc00
++#define		bCounterReset					0x10000
++#define		bNumOfOFDMTx					0xffff
++#define		bNumOfCCKTx					0xffff0000
++#define		bTxIdleInterval					0xffff
++#define		bOFDMService					0xffff0000
++#define		bTxMACHeader					0xffffffff
++#define		bTxDataInit						0xff
++#define		bTxHTMode						0x100
++#define		bTxDataType					0x30000
++#define		bTxRandomSeed					0xffffffff
++#define		bCCKTxPreamble					0x1
++#define		bCCKTxSFD						0xffff0000
++#define		bCCKTxSIG						0xff
++#define		bCCKTxService					0xff00
++#define		bCCKLengthExt					0x8000
++#define		bCCKTxLength					0xffff0000
++#define		bCCKTxCRC16					0xffff
++#define		bCCKTxStatus					0x1
++#define		bOFDMTxStatus					0x2
++
++#define		IS_BB_REG_OFFSET_92S(_Offset)		((_Offset >= 0x800) && (_Offset <= 0xfff))
++#define	RF_TX_GAIN_OFFSET_8703B(_val) (abs((_val)) | (((_val) > 0) ? BIT5 : 0))
++
++/* 2. Page8(0x800) */
++#define		bRFMOD							0x1	/* Reg 0x800 rFPGA0_RFMOD */
++#define		bJapanMode						0x2
++#define		bCCKTxSC						0x30
++#define		bCCKEn							0x1000000
++#define		bOFDMEn						0x2000000
++
++#define		bOFDMRxADCPhase           		0x10000	/* Useless now */
++#define		bOFDMTxDACPhase		0x40000
++#define		bXATxAGC			0x3f
++
++#define		bAntennaSelect		0x0300
++
++#define		bXBTxAGC                  			0xf00	/* Reg 80c rFPGA0_TxGainStage */
++#define		bXCTxAGC			0xf000
++#define		bXDTxAGC			0xf0000
++
++#define		bPAStart                  			0xf0000000	/* Useless now */
++#define		bTRStart			0x00f00000
++#define		bRFStart			0x0000f000
++#define		bBBStart			0x000000f0
++#define		bBBCCKStart		0x0000000f
++#define		bPAEnd                    			0xf          /* Reg0x814 */
++#define		bTREnd			0x0f000000
++#define		bRFEnd			0x000f0000
++#define		bCCAMask                  			0x000000f0   /* T2R */
++#define		bR2RCCAMask		0x00000f00
++#define		bHSSI_R2TDelay		0xf8000000
++#define		bHSSI_T2RDelay		0xf80000
++#define		bContTxHSSI               		0x400     /* chane gain at continue Tx */
++#define		bIGFromCCK		0x200
++#define		bAGCAddress		0x3f
++#define		bRxHPTx			0x7000
++#define		bRxHPT2R			0x38000
++#define		bRxHPCCKIni		0xc0000
++#define		bAGCTxCode		0xc00000
++#define		bAGCRxCode		0x300000
++
++#define		b3WireDataLength          		0x800	/* Reg 0x820~84f rFPGA0_XA_HSSIParameter1 */
++#define		b3WireAddressLength		0x400
++
++#define		b3WireRFPowerDown         		0x1	/* Useless now
++ * #define bHWSISelect		0x8 */
++#define		b5GPAPEPolarity		0x40000000
++#define		b2GPAPEPolarity		0x80000000
++#define		bRFSW_TxDefaultAnt		0x3
++#define		bRFSW_TxOptionAnt		0x30
++#define		bRFSW_RxDefaultAnt		0x300
++#define		bRFSW_RxOptionAnt		0x3000
++#define		bRFSI_3WireData		0x1
++#define		bRFSI_3WireClock		0x2
++#define		bRFSI_3WireLoad		0x4
++#define		bRFSI_3WireRW		0x8
++#define		bRFSI_3Wire			0xf
++
++#define		bRFSI_RFENV               		0x10	/* Reg 0x870 rFPGA0_XAB_RFInterfaceSW */
++
++#define		bRFSI_TRSW                		0x20	/* Useless now */
++#define		bRFSI_TRSWB		0x40
++#define		bRFSI_ANTSW		0x100
++#define		bRFSI_ANTSWB		0x200
++#define		bRFSI_PAPE			0x400
++#define		bRFSI_PAPE5G		0x800
++#define		bBandSelect			0x1
++#define		bHTSIG2_GI			0x80
++#define		bHTSIG2_Smoothing		0x01
++#define		bHTSIG2_Sounding		0x02
++#define		bHTSIG2_Aggreaton		0x08
++#define		bHTSIG2_STBC		0x30
++#define		bHTSIG2_AdvCoding		0x40
++#define		bHTSIG2_NumOfHTLTF	0x300
++#define		bHTSIG2_CRC8		0x3fc
++#define		bHTSIG1_MCS		0x7f
++#define		bHTSIG1_BandWidth		0x80
++#define		bHTSIG1_HTLength		0xffff
++#define		bLSIG_Rate			0xf
++#define		bLSIG_Reserved		0x10
++#define		bLSIG_Length		0x1fffe
++#define		bLSIG_Parity			0x20
++#define		bCCKRxPhase		0x4
++
++#define		bLSSIReadAddress          		0x7f800000   /* T65 RF */
++
++#define		bLSSIReadEdge             		0x80000000   /* LSSI "Read" edge signal */
++
++#define		bLSSIReadBackData         		0xfffff		/* T65 RF */
++
++#define		bLSSIReadOKFlag           		0x1000	/* Useless now */
++#define		bCCKSampleRate            		0x8       /* 0: 44MHz, 1:88MHz      		 */
++#define		bRegulator0Standby		0x1
++#define		bRegulatorPLLStandby		0x2
++#define		bRegulator1Standby		0x4
++#define		bPLLPowerUp		0x8
++#define		bDPLLPowerUp		0x10
++#define		bDA10PowerUp		0x20
++#define		bAD7PowerUp		0x200
++#define		bDA6PowerUp		0x2000
++#define		bXtalPowerUp		0x4000
++#define		b40MDClkPowerUP		0x8000
++#define		bDA6DebugMode		0x20000
++#define		bDA6Swing			0x380000
++
++#define		bADClkPhase               		0x4000000	/* Reg 0x880 rFPGA0_AnalogParameter1 20/40 CCK support switch 40/80 BB MHZ */
++
++#define		b80MClkDelay              		0x18000000	/* Useless */
++#define		bAFEWatchDogEnable		0x20000000
++
++#define		bXtalCap01                			0xc0000000	/* Reg 0x884 rFPGA0_AnalogParameter2 Crystal cap */
++#define		bXtalCap23			0x3
++#define		bXtalCap92x					0x0f000000
++#define		bXtalCap			0x0f000000
++
++#define		bIntDifClkEnable          		0x400	/* Useless */
++#define		bExtSigClkEnable		0x800
++#define		bBandgapMbiasPowerUp	0x10000
++#define		bAD11SHGain		0xc0000
++#define		bAD11InputRange		0x700000
++#define		bAD11OPCurrent		0x3800000
++#define		bIPathLoopback		0x4000000
++#define		bQPathLoopback		0x8000000
++#define		bAFELoopback		0x10000000
++#define		bDA10Swing		0x7e0
++#define		bDA10Reverse		0x800
++#define		bDAClkSource		0x1000
++#define		bAD7InputRange		0x6000
++#define		bAD7Gain			0x38000
++#define		bAD7OutputCMMode		0x40000
++#define		bAD7InputCMMode		0x380000
++#define		bAD7Current			0xc00000
++#define		bRegulatorAdjust		0x7000000
++#define		bAD11PowerUpAtTx		0x1
++#define		bDA10PSAtTx		0x10
++#define		bAD11PowerUpAtRx		0x100
++#define		bDA10PSAtRx		0x1000
++#define		bCCKRxAGCFormat		0x200
++#define		bPSDFFTSamplepPoint		0xc000
++#define		bPSDAverageNum		0x3000
++#define		bIQPathControl		0xc00
++#define		bPSDFreq			0x3ff
++#define		bPSDAntennaPath		0x30
++#define		bPSDIQSwitch		0x40
++#define		bPSDRxTrigger		0x400000
++#define		bPSDTxTrigger		0x80000000
++#define		bPSDSineToneScale		0x7f000000
++#define		bPSDReport			0xffff
++
++/* 3. Page9(0x900) */
++#define		bOFDMTxSC                 		0x30000000	/* Useless */
++#define		bCCKTxOn			0x1
++#define		bOFDMTxOn		0x2
++#define		bDebugPage                		0xfff  /* reset debug page and also HWord, LWord */
++#define		bDebugItem                		0xff   /* reset debug page and LWord */
++#define		bAntL			0x10
++#define		bAntNonHT				0x100
++#define		bAntHT1			0x1000
++#define		bAntHT2			0x10000
++#define		bAntHT1S1			0x100000
++#define		bAntNonHTS1		0x1000000
++
++/* 4. PageA(0xA00) */
++#define		bCCKBBMode				0x3	/* Useless */
++#define		bCCKTxPowerSaving		0x80
++#define		bCCKRxPowerSaving		0x40
++
++#define		bCCKSideBand			0x10	/* Reg 0xa00 rCCK0_System 20/40 switch */
++
++#define		bCCKScramble			0x8	/* Useless */
++#define		bCCKAntDiversity		0x8000
++#define		bCCKCarrierRecovery		0x4000
++#define		bCCKTxRate				0x3000
++#define		bCCKDCCancel			0x0800
++#define		bCCKISICancel			0x0400
++#define		bCCKMatchFilter			0x0200
++#define		bCCKEqualizer			0x0100
++#define		bCCKPreambleDetect		0x800000
++#define		bCCKFastFalseCCA		0x400000
++#define		bCCKChEstStart			0x300000
++#define		bCCKCCACount			0x080000
++#define		bCCKcs_lim				0x070000
++#define		bCCKBistMode			0x80000000
++#define		bCCKCCAMask			0x40000000
++#define		bCCKTxDACPhase		0x4
++#define		bCCKRxADCPhase		0x20000000   /* r_rx_clk */
++#define		bCCKr_cp_mode0		0x0100
++#define		bCCKTxDCOffset			0xf0
++#define		bCCKRxDCOffset			0xf
++#define		bCCKCCAMode			0xc000
++#define		bCCKFalseCS_lim			0x3f00
++#define		bCCKCS_ratio			0xc00000
++#define		bCCKCorgBit_sel			0x300000
++#define		bCCKPD_lim				0x0f0000
++#define		bCCKNewCCA			0x80000000
++#define		bCCKRxHPofIG			0x8000
++#define		bCCKRxIG				0x7f00
++#define		bCCKLNAPolarity			0x800000
++#define		bCCKRx1stGain			0x7f0000
++#define		bCCKRFExtend			0x20000000 /* CCK Rx Iinital gain polarity */
++#define		bCCKRxAGCSatLevel		0x1f000000
++#define		bCCKRxAGCSatCount		0xe0
++#define		bCCKRxRFSettle			0x1f       /* AGCsamp_dly */
++#define		bCCKFixedRxAGC			0x8000
++/* #define bCCKRxAGCFormat		0x4000 */   /* remove to HSSI register 0x824 */
++#define		bCCKAntennaPolarity		0x2000
++#define		bCCKTxFilterType		0x0c00
++#define		bCCKRxAGCReportType	0x0300
++#define		bCCKRxDAGCEn			0x80000000
++#define		bCCKRxDAGCPeriod		0x20000000
++#define		bCCKRxDAGCSatLevel		0x1f000000
++#define		bCCKTimingRecovery		0x800000
++#define		bCCKTxC0				0x3f0000
++#define		bCCKTxC1				0x3f000000
++#define		bCCKTxC2				0x3f
++#define		bCCKTxC3				0x3f00
++#define		bCCKTxC4				0x3f0000
++#define		bCCKTxC5				0x3f000000
++#define		bCCKTxC6				0x3f
++#define		bCCKTxC7				0x3f00
++#define		bCCKDebugPort			0xff0000
++#define		bCCKDACDebug			0x0f000000
++#define		bCCKFalseAlarmEnable	0x8000
++#define		bCCKFalseAlarmRead		0x4000
++#define		bCCKTRSSI				0x7f
++#define		bCCKRxAGCReport		0xfe
++#define		bCCKRxReport_AntSel	0x80000000
++#define		bCCKRxReport_MFOff		0x40000000
++#define		bCCKRxRxReport_SQLoss	0x20000000
++#define		bCCKRxReport_Pktloss	0x10000000
++#define		bCCKRxReport_Lockedbit	0x08000000
++#define		bCCKRxReport_RateError	0x04000000
++#define		bCCKRxReport_RxRate	0x03000000
++#define		bCCKRxFACounterLower	0xff
++#define		bCCKRxFACounterUpper	0xff000000
++#define		bCCKRxHPAGCStart		0xe000
++#define		bCCKRxHPAGCFinal		0x1c00
++#define		bCCKRxFalseAlarmEnable	0x8000
++#define		bCCKFACounterFreeze	0x4000
++#define		bCCKTxPathSel			0x10000000
++#define		bCCKDefaultRxPath		0xc000000
++#define		bCCKOptionRxPath		0x3000000
++
++/* 5. PageC(0xC00) */
++#define		bNumOfSTF				0x3	/* Useless */
++#define		bShift_L					0xc0
++#define		bGI_TH					0xc
++#define		bRxPathA				0x1
++#define		bRxPathB				0x2
++#define		bRxPathC				0x4
++#define		bRxPathD				0x8
++#define		bTxPathA				0x1
++#define		bTxPathB				0x2
++#define		bTxPathC				0x4
++#define		bTxPathD				0x8
++#define		bTRSSIFreq				0x200
++#define		bADCBackoff				0x3000
++#define		bDFIRBackoff			0xc000
++#define		bTRSSILatchPhase		0x10000
++#define		bRxIDCOffset			0xff
++#define		bRxQDCOffset			0xff00
++#define		bRxDFIRMode			0x1800000
++#define		bRxDCNFType			0xe000000
++#define		bRXIQImb_A				0x3ff
++#define		bRXIQImb_B				0xfc00
++#define		bRXIQImb_C				0x3f0000
++#define		bRXIQImb_D				0xffc00000
++#define		bDC_dc_Notch			0x60000
++#define		bRxNBINotch			0x1f000000
++#define		bPD_TH					0xf
++#define		bPD_TH_Opt2			0xc000
++#define		bPWED_TH				0x700
++#define		bIfMF_Win_L			0x800
++#define		bPD_Option				0x1000
++#define		bMF_Win_L				0xe000
++#define		bBW_Search_L			0x30000
++#define		bwin_enh_L				0xc0000
++#define		bBW_TH					0x700000
++#define		bED_TH2				0x3800000
++#define		bBW_option				0x4000000
++#define		bRatio_TH				0x18000000
++#define		bWindow_L				0xe0000000
++#define		bSBD_Option				0x1
++#define		bFrame_TH				0x1c
++#define		bFS_Option				0x60
++#define		bDC_Slope_check		0x80
++#define		bFGuard_Counter_DC_L	0xe00
++#define		bFrame_Weight_Short	0x7000
++#define		bSub_Tune				0xe00000
++#define		bFrame_DC_Length		0xe000000
++#define		bSBD_start_offset		0x30000000
++#define		bFrame_TH_2			0x7
++#define		bFrame_GI2_TH			0x38
++#define		bGI2_Sync_en			0x40
++#define		bSarch_Short_Early		0x300
++#define		bSarch_Short_Late		0xc00
++#define		bSarch_GI2_Late		0x70000
++#define		bCFOAntSum				0x1
++#define		bCFOAcc				0x2
++#define		bCFOStartOffset			0xc
++#define		bCFOLookBack			0x70
++#define		bCFOSumWeight			0x80
++#define		bDAGCEnable			0x10000
++#define		bTXIQImb_A				0x3ff
++#define		bTXIQImb_B				0xfc00
++#define		bTXIQImb_C				0x3f0000
++#define		bTXIQImb_D				0xffc00000
++#define		bTxIDCOffset			0xff
++#define		bTxQDCOffset			0xff00
++#define		bTxDFIRMode			0x10000
++#define		bTxPesudoNoiseOn		0x4000000
++#define		bTxPesudoNoise_A		0xff
++#define		bTxPesudoNoise_B		0xff00
++#define		bTxPesudoNoise_C		0xff0000
++#define		bTxPesudoNoise_D		0xff000000
++#define		bCCADropOption			0x20000
++#define		bCCADropThres			0xfff00000
++#define		bEDCCA_H				0xf
++#define		bEDCCA_L				0xf0
++#define		bLambda_ED			0x300
++#define		bRxInitialGain			0x7f
++#define		bRxAntDivEn				0x80
++#define		bRxAGCAddressForLNA	0x7f00
++#define		bRxHighPowerFlow		0x8000
++#define		bRxAGCFreezeThres		0xc0000
++#define		bRxFreezeStep_AGC1	0x300000
++#define		bRxFreezeStep_AGC2	0xc00000
++#define		bRxFreezeStep_AGC3	0x3000000
++#define		bRxFreezeStep_AGC0	0xc000000
++#define		bRxRssi_Cmp_En			0x10000000
++#define		bRxQuickAGCEn			0x20000000
++#define		bRxAGCFreezeThresMode	0x40000000
++#define		bRxOverFlowCheckType	0x80000000
++#define		bRxAGCShift				0x7f
++#define		bTRSW_Tri_Only			0x80
++#define		bPowerThres			0x300
++#define		bRxAGCEn				0x1
++#define		bRxAGCTogetherEn		0x2
++#define		bRxAGCMin				0x4
++#define		bRxHP_Ini				0x7
++#define		bRxHP_TRLNA			0x70
++#define		bRxHP_RSSI				0x700
++#define		bRxHP_BBP1				0x7000
++#define		bRxHP_BBP2				0x70000
++#define		bRxHP_BBP3				0x700000
++#define		bRSSI_H					0x7f0000     /* the threshold for high power */
++#define		bRSSI_Gen				0x7f000000   /* the threshold for ant diversity */
++#define		bRxSettle_TRSW			0x7
++#define		bRxSettle_LNA			0x38
++#define		bRxSettle_RSSI			0x1c0
++#define		bRxSettle_BBP			0xe00
++#define		bRxSettle_RxHP			0x7000
++#define		bRxSettle_AntSW_RSSI	0x38000
++#define		bRxSettle_AntSW		0xc0000
++#define		bRxProcessTime_DAGC	0x300000
++#define		bRxSettle_HSSI			0x400000
++#define		bRxProcessTime_BBPPW	0x800000
++#define		bRxAntennaPowerShift	0x3000000
++#define		bRSSITableSelect		0xc000000
++#define		bRxHP_Final				0x7000000
++#define		bRxHTSettle_BBP			0x7
++#define		bRxHTSettle_HSSI		0x8
++#define		bRxHTSettle_RxHP		0x70
++#define		bRxHTSettle_BBPPW		0x80
++#define		bRxHTSettle_Idle		0x300
++#define		bRxHTSettle_Reserved	0x1c00
++#define		bRxHTRxHPEn			0x8000
++#define		bRxHTAGCFreezeThres	0x30000
++#define		bRxHTAGCTogetherEn	0x40000
++#define		bRxHTAGCMin			0x80000
++#define		bRxHTAGCEn				0x100000
++#define		bRxHTDAGCEn			0x200000
++#define		bRxHTRxHP_BBP			0x1c00000
++#define		bRxHTRxHP_Final		0xe0000000
++#define		bRxPWRatioTH			0x3
++#define		bRxPWRatioEn			0x4
++#define		bRxMFHold				0x3800
++#define		bRxPD_Delay_TH1		0x38
++#define		bRxPD_Delay_TH2		0x1c0
++#define		bRxPD_DC_COUNT_MAX	0x600
++/* #define bRxMF_Hold               0x3800 */
++#define		bRxPD_Delay_TH			0x8000
++#define		bRxProcess_Delay		0xf0000
++#define		bRxSearchrange_GI2_Early	0x700000
++#define		bRxFrame_Guard_Counter_L	0x3800000
++#define		bRxSGI_Guard_L			0xc000000
++#define		bRxSGI_Search_L		0x30000000
++#define		bRxSGI_TH				0xc0000000
++#define		bDFSCnt0				0xff
++#define		bDFSCnt1				0xff00
++#define		bDFSFlag				0xf0000
++#define		bMFWeightSum			0x300000
++#define		bMinIdxTH				0x7f000000
++#define		bDAFormat				0x40000
++#define		bTxChEmuEnable		0x01000000
++#define		bTRSWIsolation_A		0x7f
++#define		bTRSWIsolation_B		0x7f00
++#define		bTRSWIsolation_C		0x7f0000
++#define		bTRSWIsolation_D		0x7f000000
++#define		bExtLNAGain				0x7c00
++
++/* 6. PageE(0xE00) */
++#define		bSTBCEn				0x4	/* Useless */
++#define		bAntennaMapping		0x10
++#define		bNss					0x20
++#define		bCFOAntSumD			0x200
++#define		bPHYCounterReset		0x8000000
++#define		bCFOReportGet			0x4000000
++#define		bOFDMContinueTx		0x10000000
++#define		bOFDMSingleCarrier		0x20000000
++#define		bOFDMSingleTone		0x40000000
++/* #define bRxPath1                 0x01 */
++/* #define bRxPath2                 0x02 */
++/* #define bRxPath3                 0x04 */
++/* #define bRxPath4                 0x08 */
++/* #define bTxPath1                 0x10 */
++/* #define bTxPath2                 0x20 */
++#define		bHTDetect			0x100
++#define		bCFOEn				0x10000
++#define		bCFOValue			0xfff00000
++#define		bSigTone_Re		0x3f
++#define		bSigTone_Im		0x7f00
++#define		bCounter_CCA		0xffff
++#define		bCounter_ParityFail	0xffff0000
++#define		bCounter_RateIllegal		0xffff
++#define		bCounter_CRC8Fail	0xffff0000
++#define		bCounter_MCSNoSupport	0xffff
++#define		bCounter_FastSync	0xffff
++#define		bShortCFO			0xfff
++#define		bShortCFOTLength	12   /* total */
++#define		bShortCFOFLength	11   /* fraction */
++#define		bLongCFO			0x7ff
++#define		bLongCFOTLength	11
++#define		bLongCFOFLength	11
++#define		bTailCFO			0x1fff
++#define		bTailCFOTLength		13
++#define		bTailCFOFLength		12
++#define		bmax_en_pwdB		0xffff
++#define		bCC_power_dB		0xffff0000
++#define		bnoise_pwdB		0xffff
++#define		bPowerMeasTLength	10
++#define		bPowerMeasFLength	3
++#define		bRx_HT_BW			0x1
++#define		bRxSC				0x6
++#define		bRx_HT				0x8
++#define		bNB_intf_det_on		0x1
++#define		bIntf_win_len_cfg	0x30
++#define		bNB_Intf_TH_cfg		0x1c0
++#define		bRFGain				0x3f
++#define		bTableSel			0x40
++#define		bTRSW				0x80
++#define		bRxSNR_A			0xff
++#define		bRxSNR_B			0xff00
++#define		bRxSNR_C			0xff0000
++#define		bRxSNR_D			0xff000000
++#define		bSNREVMTLength		8
++#define		bSNREVMFLength		1
++#define		bCSI1st				0xff
++#define		bCSI2nd				0xff00
++#define		bRxEVM1st			0xff0000
++#define		bRxEVM2nd			0xff000000
++#define		bSIGEVM			0xff
++#define		bPWDB				0xff00
++#define		bSGIEN				0x10000
++
++#define		bSFactorQAM1		0xf	/* Useless */
++#define		bSFactorQAM2		0xf0
++#define		bSFactorQAM3		0xf00
++#define		bSFactorQAM4		0xf000
++#define		bSFactorQAM5		0xf0000
++#define		bSFactorQAM6		0xf0000
++#define		bSFactorQAM7		0xf00000
++#define		bSFactorQAM8		0xf000000
++#define		bSFactorQAM9		0xf0000000
++#define		bCSIScheme			0x100000
++
++#define		bNoiseLvlTopSet		0x3	/* Useless */
++#define		bChSmooth			0x4
++#define		bChSmoothCfg1		0x38
++#define		bChSmoothCfg2		0x1c0
++#define		bChSmoothCfg3		0xe00
++#define		bChSmoothCfg4		0x7000
++#define		bMRCMode			0x800000
++#define		bTHEVMCfg			0x7000000
++
++#define		bLoopFitType		0x1	/* Useless */
++#define		bUpdCFO			0x40
++#define		bUpdCFOOffData		0x80
++#define		bAdvUpdCFO			0x100
++#define		bAdvTimeCtrl		0x800
++#define		bUpdClko			0x1000
++#define		bFC					0x6000
++#define		bTrackingMode		0x8000
++#define		bPhCmpEnable		0x10000
++#define		bUpdClkoLTF		0x20000
++#define		bComChCFO			0x40000
++#define		bCSIEstiMode		0x80000
++#define		bAdvUpdEqz			0x100000
++#define		bUChCfg				0x7000000
++#define		bUpdEqz			0x8000000
++
++/* Rx Pseduo noise */
++#define		bRxPesudoNoiseOn		0x20000000	/* Useless */
++#define		bRxPesudoNoise_A		0xff
++#define		bRxPesudoNoise_B		0xff00
++#define		bRxPesudoNoise_C		0xff0000
++#define		bRxPesudoNoise_D		0xff000000
++#define		bPesudoNoiseState_A	0xffff
++#define		bPesudoNoiseState_B	0xffff0000
++#define		bPesudoNoiseState_C	0xffff
++#define		bPesudoNoiseState_D	0xffff0000
++
++/* 7. RF Register
++ * Zebra1 */
++#define		bZebra1_HSSIEnable		0x8		/* Useless */
++#define		bZebra1_TRxControl		0xc00
++#define		bZebra1_TRxGainSetting	0x07f
++#define		bZebra1_RxCorner		0xc00
++#define		bZebra1_TxChargePump	0x38
++#define		bZebra1_RxChargePump	0x7
++#define		bZebra1_ChannelNum	0xf80
++#define		bZebra1_TxLPFBW		0x400
++#define		bZebra1_RxLPFBW		0x600
++
++/* Zebra4 */
++#define		bRTL8256RegModeCtrl1	0x100	/* Useless */
++#define		bRTL8256RegModeCtrl0	0x40
++#define		bRTL8256_TxLPFBW		0x18
++#define		bRTL8256_RxLPFBW		0x600
++
++/* RTL8258 */
++#define		bRTL8258_TxLPFBW		0xc	/* Useless */
++#define		bRTL8258_RxLPFBW		0xc00
++#define		bRTL8258_RSSILPFBW	0xc0
++
++
++/*
++ * Other Definition
++ *   */
++
++/* byte endable for sb_write */
++#define		bByte0				0x1	/* Useless */
++#define		bByte1				0x2
++#define		bByte2				0x4
++#define		bByte3				0x8
++#define		bWord0				0x3
++#define		bWord1				0xc
++#define		bDWord				0xf
++
++/* for PutRegsetting & GetRegSetting BitMask */
++#define		bMaskByte0			0xff	/* Reg 0xc50 rOFDM0_XAAGCCore~0xC6f */
++#define		bMaskByte1			0xff00
++#define		bMaskByte2			0xff0000
++#define		bMaskByte3			0xff000000
++#define		bMaskHWord		0xffff0000
++#define		bMaskLWord			0x0000ffff
++#define		bMaskDWord		0xffffffff
++#define		bMaskH3Bytes		0xffffff00
++#define		bMask12Bits			0xfff
++#define		bMaskH4Bits			0xf0000000
++#define		bMaskOFDM_D		0xffc00000
++#define		bMaskCCK			0x3f3f3f3f
++
++
++#define		bEnable			0x1	/* Useless */
++#define		bDisable		0x0
++
++#define		LeftAntenna		0x0	/* Useless */
++#define		RightAntenna	0x1
++
++#define		tCheckTxStatus		500   /* 500ms */ /* Useless */
++#define		tUpdateRxCounter	100   /* 100ms */
++
++#define		rateCCK		0	/* Useless */
++#define		rateOFDM	1
++#define		rateHT		2
++
++/* define Register-End */
++#define		bPMAC_End			0x1ff	/* Useless */
++#define		bFPGAPHY0_End		0x8ff
++#define		bFPGAPHY1_End		0x9ff
++#define		bCCKPHY0_End		0xaff
++#define		bOFDMPHY0_End		0xcff
++#define		bOFDMPHY1_End		0xdff
++
++/* define max debug item in each debug page
++ * #define bMaxItem_FPGA_PHY0        0x9
++ * #define bMaxItem_FPGA_PHY1        0x3
++ * #define bMaxItem_PHY_11B          0x16
++ * #define bMaxItem_OFDM_PHY0        0x29
++ * #define bMaxItem_OFDM_PHY1        0x0 */
++
++#define		bPMACControl		0x0		/* Useless */
++#define		bWMACControl		0x1
++#define		bWNICControl		0x2
++
++#define		PathA			0x0	/* Useless */
++#define		PathB			0x1
++#define		PathC			0x2
++#define		PathD			0x3
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8703BPwrSeq.h b/drivers/net/wireless/rtl8812au/include/Hal8703BPwrSeq.h
+new file mode 100644
+index 0000000..a53ca9a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8703BPwrSeq.h
+@@ -0,0 +1,184 @@
++#ifndef REALTEK_POWER_SEQUENCE_8703B
++#define REALTEK_POWER_SEQUENCE_8703B
++
++#include "HalPwrSeqCmd.h"
++
++/*
++	Check document WM-20140402-JackieLau-RTL8703B_Power_Architecture v09.vsd
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transision from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++*/
++#define	RTL8703B_TRANS_CARDEMU_TO_ACT_STEPS	23
++#define	RTL8703B_TRANS_ACT_TO_CARDEMU_STEPS	15
++#define	RTL8703B_TRANS_CARDEMU_TO_SUS_STEPS	15
++#define	RTL8703B_TRANS_SUS_TO_CARDEMU_STEPS	15
++#define	RTL8703B_TRANS_CARDEMU_TO_PDN_STEPS	15
++#define	RTL8703B_TRANS_PDN_TO_CARDEMU_STEPS	15
++#define	RTL8703B_TRANS_ACT_TO_LPS_STEPS		15
++#define	RTL8703B_TRANS_LPS_TO_ACT_STEPS		15
++#define	RTL8703B_TRANS_END_STEPS		1
++
++
++#define RTL8703B_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /*0x20[0] = 1b'1 enable LDOA12 MACRO block for all interface*/   \
++	{0x0067, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x67[0] = 0 to disable BT_GPS_SEL pins*/	\
++	{0x0001, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 1, PWRSEQ_DELAY_MS},/*Delay 1ms*/   \
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, 0}, /*0x00[5] = 1b'0 release analog Ips to digital ,1:isolation*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT4 | BIT3 | BIT2), 0},/* disable SW LPS 0x04[10]=0 and WLSUS_EN 0x04[11]=0*/	\
++	{0x0075, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0 , BIT0},/* Disable USB suspend */	\
++	{0x0004, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 , BIT3},/* enabled usb resume */	\
++	{0x0004, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 , 0},/* disable usb resume */	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1    power ready*/	\
++	{0x0075, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0 , 0},/* Enable USB suspend */	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* release WLON reset  0x04[16]=1*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* disable HWPDN 0x04[15]=0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT4 | BIT3), 0},/* disable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* polling until return 0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0},/**/	\
++	{0x0010, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, BIT6},/* Enable WL control XTAL setting*/	\
++	{0x0049, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/*Enable falling edge triggering interrupt*/\
++	{0x0063, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/*Enable GPIO9 interrupt mode*/\
++	{0x0062, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Enable GPIO9 input mode*/\
++	{0x0058, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*Enable HSISR GPIO[C:0] interrupt*/\
++	{0x005A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/*Enable HSISR GPIO9 interrupt*/\
++	{0x0068, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, BIT3},/*For GPIO9 internal pull high setting by test chip*/\
++	{0x0069, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, BIT6},/*For GPIO9 internal pull high setting*/\
++
++
++#define RTL8703B_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*0x1F[7:0] = 0 turn off RF*/	\
++	{0x0049, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Enable rising edge triggering interrupt*/ \
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* release WLON reset  0x04[16]=1*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/	\
++	{0x0010, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, 0},/* Enable BT control XTAL setting*/\
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5}, /*0x00[5] = 1b'1 analog Ips to digital ,1:isolation*/   \
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /*0x20[0] = 1b'0 disable LDOA12 MACRO block*/\
++
++
++#define RTL8703B_TRANS_CARDEMU_TO_SUS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4 | BIT3, (BIT4 | BIT3)}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SDIO SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3 | BIT4}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8703B_TRANS_SUS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT7, 0}, /*clear suspend enable and power down enable*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
++
++#define RTL8703B_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07 = 0x20 , SOP option to disable BG/MB*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2}, /*0x04[10] = 1, enable SW LPS*/	\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 1}, /*0x48[16] = 1 to enable GPIO9 as EXT WAKEUP*/   \
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8703B_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT7, 0}, /*clear suspend enable and power down enable*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /*0x48[16] = 0 to disable GPIO9 as EXT WAKEUP*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*PCIe DMA start*/
++
++
++#define RTL8703B_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK | PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/* 0x04[16] = 0*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
++
++#define RTL8703B_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
++
++#define RTL8703B_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*PCIe DMA stop*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*Tx Pause*/	\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Whole BB is reset*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x03},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/	\
++	{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/*When driver enter Sus/ Disable, enable LOP for BT*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/	\
++
++
++#define RTL8703B_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM*/\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/\
++	{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*.	0x08[4] = 0		 switch TSF to 40M*/\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, 0}, /*Polling 0x109[7]=0  TSF in 40M*/\
++	{0x0029, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6 | BIT7, 0}, /*.	0x29[7:6] = 2b'00	 enable BB clock*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++#define RTL8703B_TRANS_END															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++	extern WLAN_PWR_CFG rtl8703B_power_on_flow[RTL8703B_TRANS_CARDEMU_TO_ACT_STEPS + RTL8703B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8703B_radio_off_flow[RTL8703B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8703B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8703B_card_disable_flow[RTL8703B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8703B_TRANS_CARDEMU_TO_PDN_STEPS + RTL8703B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8703B_card_enable_flow[RTL8703B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8703B_TRANS_CARDEMU_TO_PDN_STEPS + RTL8703B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8703B_suspend_flow[RTL8703B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8703B_TRANS_CARDEMU_TO_SUS_STEPS + RTL8703B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8703B_resume_flow[RTL8703B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8703B_TRANS_CARDEMU_TO_SUS_STEPS + RTL8703B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8703B_hwpdn_flow[RTL8703B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8703B_TRANS_CARDEMU_TO_PDN_STEPS + RTL8703B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8703B_enter_lps_flow[RTL8703B_TRANS_ACT_TO_LPS_STEPS + RTL8703B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8703B_leave_lps_flow[RTL8703B_TRANS_LPS_TO_ACT_STEPS + RTL8703B_TRANS_END_STEPS];
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8723BPhyCfg.h b/drivers/net/wireless/rtl8812au/include/Hal8723BPhyCfg.h
+new file mode 100644
+index 0000000..bbcc38b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8723BPhyCfg.h
+@@ -0,0 +1,136 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8723BPHYCFG_H__
++#define __INC_HAL8723BPHYCFG_H__
++
++/*--------------------------Define Parameters-------------------------------*/
++#define LOOP_LIMIT				5
++#define MAX_STALL_TIME			50		/* us */
++#define AntennaDiversityValue	0x80	/* (Adapter->bSoftwareAntennaDiversity ? 0x00 : 0x80) */
++#define MAX_TXPWR_IDX_NMODE_92S	63
++#define Reset_Cnt_Limit			3
++
++#ifdef CONFIG_PCI_HCI
++	#define MAX_AGGR_NUM	0x0B
++#else
++	#define MAX_AGGR_NUM	0x07
++#endif /* CONFIG_PCI_HCI */
++
++
++/*--------------------------Define Parameters End-------------------------------*/
++
++
++/*------------------------------Define structure----------------------------*/
++
++/*------------------------------Define structure End----------------------------*/
++
++/*--------------------------Exported Function prototype---------------------*/
++u32
++PHY_QueryBBReg_8723B(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask
++);
++
++VOID
++PHY_SetBBReg_8723B(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask,
++	IN	u32		Data
++);
++
++u32
++PHY_QueryRFReg_8723B(
++	IN	PADAPTER			Adapter,
++	IN	u8				eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask
++);
++
++VOID
++PHY_SetRFReg_8723B(
++	IN	PADAPTER			Adapter,
++	IN	u8				eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask,
++	IN	u32				Data
++);
++
++/* MAC/BB/RF HAL config */
++int PHY_BBConfig8723B(PADAPTER	Adapter);
++
++int PHY_RFConfig8723B(PADAPTER	Adapter);
++
++s32 PHY_MACConfig8723B(PADAPTER padapter);
++
++int
++PHY_ConfigRFWithParaFile_8723B(
++	IN	PADAPTER			Adapter,
++	IN	u8				*pFileName,
++	RF_PATH				eRFPath
++);
++
++VOID
++PHY_SetTxPowerIndex_8723B(
++	IN	PADAPTER			Adapter,
++	IN	u32					PowerIndex,
++	IN	u8					RFPath,
++	IN	u8					Rate
++);
++
++u8
++PHY_GetTxPowerIndex_8723B(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	u8					Rate,
++	IN	u8					BandWidth,
++	IN	u8					Channel,
++	struct txpwr_idx_comp *tic
++);
++
++VOID
++PHY_GetTxPowerLevel8723B(
++	IN	PADAPTER		Adapter,
++	OUT s32				*powerlevel
++);
++
++VOID
++PHY_SetTxPowerLevel8723B(
++	IN	PADAPTER		Adapter,
++	IN	u8			channel
++);
++
++VOID
++PHY_SetSwChnlBWMode8723B(
++	IN	PADAPTER			Adapter,
++	IN	u8					channel,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					Offset40,
++	IN	u8					Offset80
++);
++
++VOID PHY_SetRFPathSwitch_8723B(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bMain
++);
++/*--------------------------Exported Function prototype End---------------------*/
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8723BPhyReg.h b/drivers/net/wireless/rtl8812au/include/Hal8723BPhyReg.h
+new file mode 100644
+index 0000000..551c0a5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8723BPhyReg.h
+@@ -0,0 +1,1136 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8723BPHYREG_H__
++#define __INC_HAL8723BPHYREG_H__
++
++#define		rSYM_WLBT_PAPE_SEL		0x64
++/*
++ * BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++ * 3. RF register 0x00-2E
++ * 4. Bit Mask for BB/RF register
++ * 5. Other defintion for BB/RF R/W
++ *   */
++
++
++/*
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 1. Page1(0x100)
++ *   */
++#define		rPMAC_Reset					0x100
++#define		rPMAC_TxStart					0x104
++#define		rPMAC_TxLegacySIG				0x108
++#define		rPMAC_TxHTSIG1				0x10c
++#define		rPMAC_TxHTSIG2				0x110
++#define		rPMAC_PHYDebug				0x114
++#define		rPMAC_TxPacketNum				0x118
++#define		rPMAC_TxIdle					0x11c
++#define		rPMAC_TxMACHeader0			0x120
++#define		rPMAC_TxMACHeader1			0x124
++#define		rPMAC_TxMACHeader2			0x128
++#define		rPMAC_TxMACHeader3			0x12c
++#define		rPMAC_TxMACHeader4			0x130
++#define		rPMAC_TxMACHeader5			0x134
++#define		rPMAC_TxDataType				0x138
++#define		rPMAC_TxRandomSeed			0x13c
++#define		rPMAC_CCKPLCPPreamble			0x140
++#define		rPMAC_CCKPLCPHeader			0x144
++#define		rPMAC_CCKCRC16				0x148
++#define		rPMAC_OFDMRxCRC32OK			0x170
++#define		rPMAC_OFDMRxCRC32Er			0x174
++#define		rPMAC_OFDMRxParityEr			0x178
++#define		rPMAC_OFDMRxCRC8Er			0x17c
++#define		rPMAC_CCKCRxRC16Er			0x180
++#define		rPMAC_CCKCRxRC32Er			0x184
++#define		rPMAC_CCKCRxRC32OK			0x188
++#define		rPMAC_TxStatus					0x18c
++
++/*
++ * 2. Page2(0x200)
++ *
++ * The following two definition are only used for USB interface. */
++#define		RF_BB_CMD_ADDR				0x02c0	/* RF/BB read/write command address. */
++#define		RF_BB_CMD_DATA				0x02c4	/* RF/BB read/write command data. */
++
++/*
++ * 3. Page8(0x800)
++ *   */
++#define		rFPGA0_RFMOD				0x800	/* RF mode & CCK TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA0_TxInfo				0x804	/* Status report?? */
++#define		rFPGA0_PSDFunction			0x808
++
++#define		rFPGA0_TxGainStage			0x80c	/* Set TX PWR init gain? */
++
++#define		rFPGA0_RFTiming1			0x810	/* Useless now */
++#define		rFPGA0_RFTiming2			0x814
++
++#define		rFPGA0_XA_HSSIParameter1		0x820	/* RF 3 wire register */
++#define		rFPGA0_XA_HSSIParameter2		0x824
++#define		rFPGA0_XB_HSSIParameter1		0x828
++#define		rFPGA0_XB_HSSIParameter2		0x82c
++#define		rTxAGC_B_Rate18_06				0x830
++#define		rTxAGC_B_Rate54_24				0x834
++#define		rTxAGC_B_CCK1_55_Mcs32		0x838
++#define		rTxAGC_B_Mcs03_Mcs00			0x83c
++
++#define		rTxAGC_B_Mcs07_Mcs04			0x848
++#define		rTxAGC_B_Mcs11_Mcs08			0x84c
++
++#define		rFPGA0_XA_LSSIParameter		0x840
++#define		rFPGA0_XB_LSSIParameter		0x844
++
++#define		rFPGA0_RFWakeUpParameter		0x850	/* Useless now */
++#define		rFPGA0_RFSleepUpParameter		0x854
++
++#define		rFPGA0_XAB_SwitchControl		0x858	/* RF Channel switch */
++#define		rFPGA0_XCD_SwitchControl		0x85c
++
++#define		rFPGA0_XA_RFInterfaceOE		0x860	/* RF Channel switch */
++#define		rFPGA0_XB_RFInterfaceOE		0x864
++
++#define		rTxAGC_B_Mcs15_Mcs12			0x868
++#define		rTxAGC_B_CCK11_A_CCK2_11		0x86c
++
++#define		rFPGA0_XAB_RFInterfaceSW		0x870	/* RF Interface Software Control */
++#define		rFPGA0_XCD_RFInterfaceSW		0x874
++
++#define		rFPGA0_XAB_RFParameter		0x878	/* RF Parameter */
++#define		rFPGA0_XCD_RFParameter		0x87c
++
++#define		rFPGA0_AnalogParameter1		0x880	/* Crystal cap setting RF-R/W protection for parameter4?? */
++#define		rFPGA0_AnalogParameter2		0x884
++#define		rFPGA0_AnalogParameter3		0x888	/* Useless now */
++#define		rFPGA0_AnalogParameter4		0x88c
++
++#define		rFPGA0_XA_LSSIReadBack		0x8a0	/* Tranceiver LSSI Readback */
++#define		rFPGA0_XB_LSSIReadBack		0x8a4
++#define		rFPGA0_XC_LSSIReadBack		0x8a8
++#define		rFPGA0_XD_LSSIReadBack		0x8ac
++
++#define		rFPGA0_PSDReport				0x8b4	/* Useless now */
++#define		TransceiverA_HSPI_Readback	0x8b8	/* Transceiver A HSPI Readback */
++#define		TransceiverB_HSPI_Readback	0x8bc	/* Transceiver B HSPI Readback */
++#define		rFPGA0_XAB_RFInterfaceRB		0x8e0	/* Useless now */ /* RF Interface Readback Value */
++#define		rFPGA0_XCD_RFInterfaceRB		0x8e4	/* Useless now */
++
++/*
++ * 4. Page9(0x900)
++ *   */
++#define	rFPGA1_RFMOD				0x900	/* RF mode & OFDM TxSC */ /* RF BW Setting?? */
++#define	rFPGA1_TxBlock				0x904	/* Useless now */
++#define	rFPGA1_DebugSelect			0x908	/* Useless now */
++#define	rFPGA1_TxInfo				0x90c	/* Useless now */ /* Status report?? */
++#define	rDPDT_control				0x92c
++#define	rfe_ctrl_anta_src				0x930
++#define	rS0S1_PathSwitch			0x948
++
++/*
++ * 5. PageA(0xA00)
++ *
++ * Set Control channel to upper or lower. These settings are required only for 40MHz */
++#define		rCCK0_System				0xa00
++
++#define		rCCK0_AFESetting			0xa04	/* Disable init gain now */ /* Select RX path by RSSI */
++#define		rCCK0_CCA					0xa08	/* Disable init gain now */ /* Init gain */
++
++#define		rCCK0_RxAGC1				0xa0c	/* AGC default value, saturation level  */ /* Antenna Diversity, RX AGC, LNA Threshold, RX LNA Threshold useless now. Not the same as 90 series */
++#define		rCCK0_RxAGC2				0xa10	/* AGC & DAGC */
++
++#define		rCCK0_RxHP					0xa14
++
++#define		rCCK0_DSPParameter1		0xa18	/* Timing recovery & Channel estimation threshold */
++#define		rCCK0_DSPParameter2		0xa1c	/* SQ threshold */
++
++#define		rCCK0_TxFilter1				0xa20
++#define		rCCK0_TxFilter2				0xa24
++#define		rCCK0_DebugPort			0xa28	/* debug port and Tx filter3 */
++#define		rCCK0_FalseAlarmReport		0xa2c	/* 0xa2d	useless now 0xa30-a4f channel report */
++#define		rCCK0_TRSSIReport		0xa50
++#define		rCCK0_RxReport            		0xa54  /* 0xa57 */
++#define		rCCK0_FACounterLower      	0xa5c  /* 0xa5b */
++#define		rCCK0_FACounterUpper      	0xa58  /* 0xa5c */
++
++/*
++ * PageB(0xB00)
++ *   */
++#define rPdp_AntA						0xb00
++#define rPdp_AntA_4						0xb04
++#define rPdp_AntA_8						0xb08
++#define rPdp_AntA_C						0xb0c
++#define rPdp_AntA_10					0xb10
++#define rPdp_AntA_14					0xb14
++#define rPdp_AntA_18					0xb18
++#define rPdp_AntA_1C					0xb1c
++#define rPdp_AntA_20					0xb20
++#define rPdp_AntA_24					0xb24
++
++#define rConfig_Pmpd_AntA				0xb28
++#define rConfig_ram64x16				0xb2c
++
++#define rBndA							0xb30
++#define rHssiPar						0xb34
++
++#define rConfig_AntA					0xb68
++#define rConfig_AntB					0xb6c
++
++#define rPdp_AntB						0xb70
++#define rPdp_AntB_4						0xb74
++#define rPdp_AntB_8						0xb78
++#define rPdp_AntB_C						0xb7c
++#define rPdp_AntB_10					0xb80
++#define rPdp_AntB_14					0xb84
++#define rPdp_AntB_18					0xb88
++#define rPdp_AntB_1C					0xb8c
++#define rPdp_AntB_20					0xb90
++#define rPdp_AntB_24					0xb94
++
++#define rConfig_Pmpd_AntB				0xb98
++
++#define rBndB							0xba0
++
++#define rAPK							0xbd8
++#define rPm_Rx0_AntA					0xbdc
++#define rPm_Rx1_AntA					0xbe0
++#define rPm_Rx2_AntA					0xbe4
++#define rPm_Rx3_AntA					0xbe8
++#define rPm_Rx0_AntB					0xbec
++#define rPm_Rx1_AntB					0xbf0
++#define rPm_Rx2_AntB					0xbf4
++#define rPm_Rx3_AntB					0xbf8
++/*
++ * 6. PageC(0xC00)
++ *   */
++#define		rOFDM0_LSTF				0xc00
++
++#define		rOFDM0_TRxPathEnable		0xc04
++#define		rOFDM0_TRMuxPar			0xc08
++#define		rOFDM0_TRSWIsolation		0xc0c
++
++#define		rOFDM0_XARxAFE			0xc10  /* RxIQ DC offset, Rx digital filter, DC notch filter */
++#define		rOFDM0_XARxIQImbalance    	0xc14  /* RxIQ imblance matrix */
++#define		rOFDM0_XBRxAFE		0xc18
++#define		rOFDM0_XBRxIQImbalance	0xc1c
++#define		rOFDM0_XCRxAFE		0xc20
++#define		rOFDM0_XCRxIQImbalance	0xc24
++#define		rOFDM0_XDRxAFE		0xc28
++#define		rOFDM0_XDRxIQImbalance	0xc2c
++
++#define		rOFDM0_RxDetector1			0xc30  /* PD, BW & SBD	 */ /* DM tune init gain */
++#define		rOFDM0_RxDetector2			0xc34  /* SBD & Fame Sync. */
++#define		rOFDM0_RxDetector3			0xc38  /* Frame Sync. */
++#define		rOFDM0_RxDetector4			0xc3c  /* PD, SBD, Frame Sync & Short-GI */
++
++#define		rOFDM0_RxDSP				0xc40  /* Rx Sync Path */
++#define		rOFDM0_CFOandDAGC		0xc44  /* CFO & DAGC */
++#define		rOFDM0_CCADropThreshold	0xc48 /* CCA Drop threshold */
++#define		rOFDM0_ECCAThreshold		0xc4c /* energy CCA */
++
++#define		rOFDM0_XAAGCCore1			0xc50	/* DIG */
++#define		rOFDM0_XAAGCCore2			0xc54
++#define		rOFDM0_XBAGCCore1			0xc58
++#define		rOFDM0_XBAGCCore2			0xc5c
++#define		rOFDM0_XCAGCCore1			0xc60
++#define		rOFDM0_XCAGCCore2			0xc64
++#define		rOFDM0_XDAGCCore1			0xc68
++#define		rOFDM0_XDAGCCore2			0xc6c
++
++#define		rOFDM0_AGCParameter1			0xc70
++#define		rOFDM0_AGCParameter2			0xc74
++#define		rOFDM0_AGCRSSITable			0xc78
++#define		rOFDM0_HTSTFAGC				0xc7c
++
++#define		rOFDM0_XATxIQImbalance		0xc80	/* TX PWR TRACK and DIG */
++#define		rOFDM0_XATxAFE				0xc84
++#define		rOFDM0_XBTxIQImbalance		0xc88
++#define		rOFDM0_XBTxAFE				0xc8c
++#define		rOFDM0_XCTxIQImbalance		0xc90
++#define		rOFDM0_XCTxAFE			0xc94
++#define		rOFDM0_XDTxIQImbalance		0xc98
++#define		rOFDM0_XDTxAFE				0xc9c
++
++#define		rOFDM0_RxIQExtAnta			0xca0
++#define		rOFDM0_TxCoeff1				0xca4
++#define		rOFDM0_TxCoeff2				0xca8
++#define		rOFDM0_TxCoeff3				0xcac
++#define		rOFDM0_TxCoeff4				0xcb0
++#define		rOFDM0_TxCoeff5				0xcb4
++#define		rOFDM0_TxCoeff6				0xcb8
++#define		rOFDM0_RxHPParameter			0xce0
++#define		rOFDM0_TxPseudoNoiseWgt		0xce4
++#define		rOFDM0_FrameSync				0xcf0
++#define		rOFDM0_DFSReport				0xcf4
++
++/*
++ * 7. PageD(0xD00)
++ *   */
++#define		rOFDM1_LSTF					0xd00
++#define		rOFDM1_TRxPathEnable			0xd04
++
++#define		rOFDM1_CFO						0xd08	/* No setting now */
++#define		rOFDM1_CSI1					0xd10
++#define		rOFDM1_SBD						0xd14
++#define		rOFDM1_CSI2					0xd18
++#define		rOFDM1_CFOTracking			0xd2c
++#define		rOFDM1_TRxMesaure1			0xd34
++#define		rOFDM1_IntfDet					0xd3c
++#define		rOFDM1_PseudoNoiseStateAB		0xd50
++#define		rOFDM1_PseudoNoiseStateCD		0xd54
++#define		rOFDM1_RxPseudoNoiseWgt		0xd58
++
++#define		rOFDM_PHYCounter1				0xda0  /* cca, parity fail */
++#define		rOFDM_PHYCounter2				0xda4  /* rate illegal, crc8 fail */
++#define		rOFDM_PHYCounter3				0xda8  /* MCS not support */
++
++#define		rOFDM_ShortCFOAB				0xdac	/* No setting now */
++#define		rOFDM_ShortCFOCD				0xdb0
++#define		rOFDM_LongCFOAB				0xdb4
++#define		rOFDM_LongCFOCD				0xdb8
++#define		rOFDM_TailCFOAB				0xdbc
++#define		rOFDM_TailCFOCD				0xdc0
++#define		rOFDM_PWMeasure1		0xdc4
++#define		rOFDM_PWMeasure2		0xdc8
++#define		rOFDM_BWReport				0xdcc
++#define		rOFDM_AGCReport				0xdd0
++#define		rOFDM_RxSNR					0xdd4
++#define		rOFDM_RxEVMCSI				0xdd8
++#define		rOFDM_SIGReport				0xddc
++
++
++/*
++ * 8. PageE(0xE00)
++ *   */
++#define		rTxAGC_A_Rate18_06			0xe00
++#define		rTxAGC_A_Rate54_24			0xe04
++#define		rTxAGC_A_CCK1_Mcs32			0xe08
++#define		rTxAGC_A_Mcs03_Mcs00			0xe10
++#define		rTxAGC_A_Mcs07_Mcs04			0xe14
++#define		rTxAGC_A_Mcs11_Mcs08			0xe18
++#define		rTxAGC_A_Mcs15_Mcs12			0xe1c
++
++#define		rFPGA0_IQK					0xe28
++#define		rTx_IQK_Tone_A				0xe30
++#define		rRx_IQK_Tone_A				0xe34
++#define		rTx_IQK_PI_A					0xe38
++#define		rRx_IQK_PI_A					0xe3c
++
++#define		rTx_IQK						0xe40
++#define		rRx_IQK						0xe44
++#define		rIQK_AGC_Pts					0xe48
++#define		rIQK_AGC_Rsp					0xe4c
++#define		rTx_IQK_Tone_B				0xe50
++#define		rRx_IQK_Tone_B				0xe54
++#define		rTx_IQK_PI_B					0xe58
++#define		rRx_IQK_PI_B					0xe5c
++#define		rIQK_AGC_Cont				0xe60
++
++#define		rBlue_Tooth					0xe6c
++#define		rRx_Wait_CCA					0xe70
++#define		rTx_CCK_RFON					0xe74
++#define		rTx_CCK_BBON				0xe78
++#define		rTx_OFDM_RFON				0xe7c
++#define		rTx_OFDM_BBON				0xe80
++#define		rTx_To_Rx					0xe84
++#define		rTx_To_Tx					0xe88
++#define		rRx_CCK						0xe8c
++
++#define		rTx_Power_Before_IQK_A		0xe94
++#define		rTx_Power_After_IQK_A			0xe9c
++
++#define		rRx_Power_Before_IQK_A		0xea0
++#define		rRx_Power_Before_IQK_A_2		0xea4
++#define		rRx_Power_After_IQK_A			0xea8
++#define		rRx_Power_After_IQK_A_2		0xeac
++
++#define		rTx_Power_Before_IQK_B		0xeb4
++#define		rTx_Power_After_IQK_B			0xebc
++
++#define		rRx_Power_Before_IQK_B		0xec0
++#define		rRx_Power_Before_IQK_B_2		0xec4
++#define		rRx_Power_After_IQK_B			0xec8
++#define		rRx_Power_After_IQK_B_2		0xecc
++
++#define		rRx_OFDM					0xed0
++#define		rRx_Wait_RIFS				0xed4
++#define		rRx_TO_Rx					0xed8
++#define		rStandby						0xedc
++#define		rSleep						0xee0
++#define		rPMPD_ANAEN				0xeec
++
++/*
++ * 7. RF Register 0x00-0x2E (RF 8256)
++ * RF-0222D 0x00-3F
++ *
++ * Zebra1 */
++#define		rZebra1_HSSIEnable				0x0	/* Useless now */
++#define		rZebra1_TRxEnable1				0x1
++#define		rZebra1_TRxEnable2				0x2
++#define		rZebra1_AGC					0x4
++#define		rZebra1_ChargePump			0x5
++#define		rZebra1_Channel				0x7	/* RF channel switch */
++
++/* #endif */
++#define		rZebra1_TxGain					0x8	/* Useless now */
++#define		rZebra1_TxLPF					0x9
++#define		rZebra1_RxLPF					0xb
++#define		rZebra1_RxHPFCorner			0xc
++
++/* Zebra4 */
++#define		rGlobalCtrl						0	/* Useless now */
++#define		rRTL8256_TxLPF					19
++#define		rRTL8256_RxLPF					11
++
++/* RTL8258 */
++#define		rRTL8258_TxLPF					0x11	/* Useless now */
++#define		rRTL8258_RxLPF					0x13
++#define		rRTL8258_RSSILPF				0xa
++
++/*
++ * RL6052 Register definition
++ *   */
++#define		RF_AC						0x00	/*  */
++
++#define		RF_IQADJ_G1				0x01	/*  */
++#define		RF_IQADJ_G2				0x02	/*  */
++#define		RF_BS_PA_APSET_G1_G4		0x03
++#define		RF_BS_PA_APSET_G5_G8		0x04
++#define		RF_POW_TRSW				0x05	/*  */
++
++#define		RF_GAIN_RX					0x06	/*  */
++#define		RF_GAIN_TX					0x07	/*  */
++
++#define		RF_TXM_IDAC				0x08	/*  */
++#define		RF_IPA_G					0x09	/*  */
++#define		RF_TXBIAS_G				0x0A
++#define		RF_TXPA_AG					0x0B
++#define		RF_IPA_A					0x0C	/*  */
++#define		RF_TXBIAS_A				0x0D
++#define		RF_BS_PA_APSET_G9_G11	0x0E
++#define		RF_BS_IQGEN				0x0F	/*  */
++
++#define		RF_MODE1					0x10	/*  */
++#define		RF_MODE2					0x11	/*  */
++
++#define		RF_RX_AGC_HP				0x12	/*  */
++#define		RF_TX_AGC					0x13	/*  */
++#define		RF_BIAS						0x14	/*  */
++#define		RF_IPA						0x15	/*  */
++#define		RF_TXBIAS					0x16
++#define		RF_POW_ABILITY			0x17	/*  */
++#define		RF_MODE_AG				0x18	/*  */
++#define		rRfChannel					0x18	/* RF channel and BW switch */
++#define		RF_CHNLBW					0x18	/* RF channel and BW switch */
++#define		RF_TOP						0x19	/*  */
++
++#define		RF_RX_G1					0x1A	/*  */
++#define		RF_RX_G2					0x1B	/*  */
++
++#define		RF_RX_BB2					0x1C	/*  */
++#define		RF_RX_BB1					0x1D	/*  */
++
++#define		RF_RCK1					0x1E	/*  */
++#define		RF_RCK2					0x1F	/*  */
++
++#define		RF_TX_G1					0x20	/*  */
++#define		RF_TX_G2					0x21	/*  */
++#define		RF_TX_G3					0x22	/*  */
++
++#define		RF_TX_BB1					0x23	/*  */
++
++#define		RF_T_METER					0x24	/*  */
++
++#define		RF_SYN_G1					0x25	/* RF TX Power control */
++#define		RF_SYN_G2					0x26	/* RF TX Power control */
++#define		RF_SYN_G3					0x27	/* RF TX Power control */
++#define		RF_SYN_G4					0x28	/* RF TX Power control */
++#define		RF_SYN_G5					0x29	/* RF TX Power control */
++#define		RF_SYN_G6					0x2A	/* RF TX Power control */
++#define		RF_SYN_G7					0x2B	/* RF TX Power control */
++#define		RF_SYN_G8					0x2C	/* RF TX Power control */
++
++#define		RF_RCK_OS					0x30	/* RF TX PA control */
++
++#define		RF_TXPA_G1					0x31	/* RF TX PA control */
++#define		RF_TXPA_G2					0x32	/* RF TX PA control */
++#define		RF_TXPA_G3					0x33	/* RF TX PA control */
++#define	RF_TX_BIAS_A				0x35
++#define	RF_TX_BIAS_D				0x36
++#define	RF_LOBF_9					0x38
++#define 	RF_RXRF_A3					0x3C	/*	 */
++#define	RF_TRSW					0x3F
++
++#define	RF_TXRF_A2					0x41
++#define	RF_TXPA_G4					0x46
++#define	RF_TXPA_A4					0x4B
++#define	RF_0x52					0x52
++#define	RF_WE_LUT					0xEF
++#define	RF_S0S1					0xB0
++
++/*
++ * Bit Mask
++ *
++ * 1. Page1(0x100) */
++#define		bBBResetB						0x100	/* Useless now? */
++#define		bGlobalResetB					0x200
++#define		bOFDMTxStart					0x4
++#define		bCCKTxStart						0x8
++#define		bCRC32Debug					0x100
++#define		bPMACLoopback					0x10
++#define		bTxLSIG							0xffffff
++#define		bOFDMTxRate					0xf
++#define		bOFDMTxReserved				0x10
++#define		bOFDMTxLength					0x1ffe0
++#define		bOFDMTxParity					0x20000
++#define		bTxHTSIG1						0xffffff
++#define		bTxHTMCSRate					0x7f
++#define		bTxHTBW						0x80
++#define		bTxHTLength					0xffff00
++#define		bTxHTSIG2						0xffffff
++#define		bTxHTSmoothing					0x1
++#define		bTxHTSounding					0x2
++#define		bTxHTReserved					0x4
++#define		bTxHTAggreation				0x8
++#define		bTxHTSTBC						0x30
++#define		bTxHTAdvanceCoding			0x40
++#define		bTxHTShortGI					0x80
++#define		bTxHTNumberHT_LTF			0x300
++#define		bTxHTCRC8						0x3fc00
++#define		bCounterReset					0x10000
++#define		bNumOfOFDMTx					0xffff
++#define		bNumOfCCKTx					0xffff0000
++#define		bTxIdleInterval					0xffff
++#define		bOFDMService					0xffff0000
++#define		bTxMACHeader					0xffffffff
++#define		bTxDataInit						0xff
++#define		bTxHTMode						0x100
++#define		bTxDataType					0x30000
++#define		bTxRandomSeed					0xffffffff
++#define		bCCKTxPreamble					0x1
++#define		bCCKTxSFD						0xffff0000
++#define		bCCKTxSIG						0xff
++#define		bCCKTxService					0xff00
++#define		bCCKLengthExt					0x8000
++#define		bCCKTxLength					0xffff0000
++#define		bCCKTxCRC16					0xffff
++#define		bCCKTxStatus					0x1
++#define		bOFDMTxStatus					0x2
++
++#define		IS_BB_REG_OFFSET_92S(_Offset)		((_Offset >= 0x800) && (_Offset <= 0xfff))
++
++/* 2. Page8(0x800) */
++#define		bRFMOD							0x1	/* Reg 0x800 rFPGA0_RFMOD */
++#define		bJapanMode						0x2
++#define		bCCKTxSC						0x30
++#define		bCCKEn							0x1000000
++#define		bOFDMEn						0x2000000
++
++#define		bOFDMRxADCPhase           		0x10000	/* Useless now */
++#define		bOFDMTxDACPhase		0x40000
++#define		bXATxAGC			0x3f
++
++#define		bAntennaSelect		0x0300
++
++#define		bXBTxAGC                  			0xf00	/* Reg 80c rFPGA0_TxGainStage */
++#define		bXCTxAGC			0xf000
++#define		bXDTxAGC			0xf0000
++
++#define		bPAStart                  			0xf0000000	/* Useless now */
++#define		bTRStart			0x00f00000
++#define		bRFStart			0x0000f000
++#define		bBBStart			0x000000f0
++#define		bBBCCKStart		0x0000000f
++#define		bPAEnd                    			0xf          /* Reg0x814 */
++#define		bTREnd			0x0f000000
++#define		bRFEnd			0x000f0000
++#define		bCCAMask                  			0x000000f0   /* T2R */
++#define		bR2RCCAMask		0x00000f00
++#define		bHSSI_R2TDelay		0xf8000000
++#define		bHSSI_T2RDelay		0xf80000
++#define		bContTxHSSI               		0x400     /* chane gain at continue Tx */
++#define		bIGFromCCK		0x200
++#define		bAGCAddress		0x3f
++#define		bRxHPTx			0x7000
++#define		bRxHPT2R			0x38000
++#define		bRxHPCCKIni		0xc0000
++#define		bAGCTxCode		0xc00000
++#define		bAGCRxCode		0x300000
++
++#define		b3WireDataLength          		0x800	/* Reg 0x820~84f rFPGA0_XA_HSSIParameter1 */
++#define		b3WireAddressLength		0x400
++
++#define		b3WireRFPowerDown         		0x1	/* Useless now
++ * #define bHWSISelect		0x8 */
++#define		b5GPAPEPolarity		0x40000000
++#define		b2GPAPEPolarity		0x80000000
++#define		bRFSW_TxDefaultAnt		0x3
++#define		bRFSW_TxOptionAnt		0x30
++#define		bRFSW_RxDefaultAnt		0x300
++#define		bRFSW_RxOptionAnt		0x3000
++#define		bRFSI_3WireData		0x1
++#define		bRFSI_3WireClock		0x2
++#define		bRFSI_3WireLoad		0x4
++#define		bRFSI_3WireRW		0x8
++#define		bRFSI_3Wire			0xf
++
++#define		bRFSI_RFENV               		0x10	/* Reg 0x870 rFPGA0_XAB_RFInterfaceSW */
++
++#define		bRFSI_TRSW                		0x20	/* Useless now */
++#define		bRFSI_TRSWB		0x40
++#define		bRFSI_ANTSW		0x100
++#define		bRFSI_ANTSWB		0x200
++#define		bRFSI_PAPE			0x400
++#define		bRFSI_PAPE5G		0x800
++#define		bBandSelect			0x1
++#define		bHTSIG2_GI			0x80
++#define		bHTSIG2_Smoothing		0x01
++#define		bHTSIG2_Sounding		0x02
++#define		bHTSIG2_Aggreaton		0x08
++#define		bHTSIG2_STBC		0x30
++#define		bHTSIG2_AdvCoding		0x40
++#define		bHTSIG2_NumOfHTLTF	0x300
++#define		bHTSIG2_CRC8		0x3fc
++#define		bHTSIG1_MCS		0x7f
++#define		bHTSIG1_BandWidth		0x80
++#define		bHTSIG1_HTLength		0xffff
++#define		bLSIG_Rate			0xf
++#define		bLSIG_Reserved		0x10
++#define		bLSIG_Length		0x1fffe
++#define		bLSIG_Parity			0x20
++#define		bCCKRxPhase		0x4
++
++#define		bLSSIReadAddress          		0x7f800000   /* T65 RF */
++
++#define		bLSSIReadEdge             		0x80000000   /* LSSI "Read" edge signal */
++
++#define		bLSSIReadBackData         		0xfffff		/* T65 RF */
++
++#define		bLSSIReadOKFlag           		0x1000	/* Useless now */
++#define		bCCKSampleRate            		0x8       /* 0: 44MHz, 1:88MHz      		 */
++#define		bRegulator0Standby		0x1
++#define		bRegulatorPLLStandby		0x2
++#define		bRegulator1Standby		0x4
++#define		bPLLPowerUp		0x8
++#define		bDPLLPowerUp		0x10
++#define		bDA10PowerUp		0x20
++#define		bAD7PowerUp		0x200
++#define		bDA6PowerUp		0x2000
++#define		bXtalPowerUp		0x4000
++#define		b40MDClkPowerUP		0x8000
++#define		bDA6DebugMode		0x20000
++#define		bDA6Swing			0x380000
++
++#define		bADClkPhase               		0x4000000	/* Reg 0x880 rFPGA0_AnalogParameter1 20/40 CCK support switch 40/80 BB MHZ */
++
++#define		b80MClkDelay              		0x18000000	/* Useless */
++#define		bAFEWatchDogEnable		0x20000000
++
++#define		bXtalCap01                			0xc0000000	/* Reg 0x884 rFPGA0_AnalogParameter2 Crystal cap */
++#define		bXtalCap23			0x3
++#define		bXtalCap92x					0x0f000000
++#define		bXtalCap			0x0f000000
++
++#define		bIntDifClkEnable          		0x400	/* Useless */
++#define		bExtSigClkEnable		0x800
++#define		bBandgapMbiasPowerUp	0x10000
++#define		bAD11SHGain		0xc0000
++#define		bAD11InputRange		0x700000
++#define		bAD11OPCurrent		0x3800000
++#define		bIPathLoopback		0x4000000
++#define		bQPathLoopback		0x8000000
++#define		bAFELoopback		0x10000000
++#define		bDA10Swing		0x7e0
++#define		bDA10Reverse		0x800
++#define		bDAClkSource		0x1000
++#define		bAD7InputRange		0x6000
++#define		bAD7Gain			0x38000
++#define		bAD7OutputCMMode		0x40000
++#define		bAD7InputCMMode		0x380000
++#define		bAD7Current			0xc00000
++#define		bRegulatorAdjust		0x7000000
++#define		bAD11PowerUpAtTx		0x1
++#define		bDA10PSAtTx		0x10
++#define		bAD11PowerUpAtRx		0x100
++#define		bDA10PSAtRx		0x1000
++#define		bCCKRxAGCFormat		0x200
++#define		bPSDFFTSamplepPoint		0xc000
++#define		bPSDAverageNum		0x3000
++#define		bIQPathControl		0xc00
++#define		bPSDFreq			0x3ff
++#define		bPSDAntennaPath		0x30
++#define		bPSDIQSwitch		0x40
++#define		bPSDRxTrigger		0x400000
++#define		bPSDTxTrigger		0x80000000
++#define		bPSDSineToneScale		0x7f000000
++#define		bPSDReport			0xffff
++
++/* 3. Page9(0x900) */
++#define		bOFDMTxSC                 		0x30000000	/* Useless */
++#define		bCCKTxOn			0x1
++#define		bOFDMTxOn		0x2
++#define		bDebugPage                		0xfff  /* reset debug page and also HWord, LWord */
++#define		bDebugItem                		0xff   /* reset debug page and LWord */
++#define		bAntL			0x10
++#define		bAntNonHT				0x100
++#define		bAntHT1			0x1000
++#define		bAntHT2			0x10000
++#define		bAntHT1S1			0x100000
++#define		bAntNonHTS1		0x1000000
++
++/* 4. PageA(0xA00) */
++#define		bCCKBBMode				0x3	/* Useless */
++#define		bCCKTxPowerSaving		0x80
++#define		bCCKRxPowerSaving		0x40
++
++#define		bCCKSideBand			0x10	/* Reg 0xa00 rCCK0_System 20/40 switch */
++
++#define		bCCKScramble			0x8	/* Useless */
++#define		bCCKAntDiversity		0x8000
++#define		bCCKCarrierRecovery		0x4000
++#define		bCCKTxRate				0x3000
++#define		bCCKDCCancel			0x0800
++#define		bCCKISICancel			0x0400
++#define		bCCKMatchFilter			0x0200
++#define		bCCKEqualizer			0x0100
++#define		bCCKPreambleDetect		0x800000
++#define		bCCKFastFalseCCA		0x400000
++#define		bCCKChEstStart			0x300000
++#define		bCCKCCACount			0x080000
++#define		bCCKcs_lim				0x070000
++#define		bCCKBistMode			0x80000000
++#define		bCCKCCAMask			0x40000000
++#define		bCCKTxDACPhase		0x4
++#define		bCCKRxADCPhase		0x20000000   /* r_rx_clk */
++#define		bCCKr_cp_mode0		0x0100
++#define		bCCKTxDCOffset			0xf0
++#define		bCCKRxDCOffset			0xf
++#define		bCCKCCAMode			0xc000
++#define		bCCKFalseCS_lim			0x3f00
++#define		bCCKCS_ratio			0xc00000
++#define		bCCKCorgBit_sel			0x300000
++#define		bCCKPD_lim				0x0f0000
++#define		bCCKNewCCA			0x80000000
++#define		bCCKRxHPofIG			0x8000
++#define		bCCKRxIG				0x7f00
++#define		bCCKLNAPolarity			0x800000
++#define		bCCKRx1stGain			0x7f0000
++#define		bCCKRFExtend			0x20000000 /* CCK Rx Iinital gain polarity */
++#define		bCCKRxAGCSatLevel		0x1f000000
++#define		bCCKRxAGCSatCount		0xe0
++#define		bCCKRxRFSettle			0x1f       /* AGCsamp_dly */
++#define		bCCKFixedRxAGC			0x8000
++/* #define bCCKRxAGCFormat		0x4000 */   /* remove to HSSI register 0x824 */
++#define		bCCKAntennaPolarity		0x2000
++#define		bCCKTxFilterType		0x0c00
++#define		bCCKRxAGCReportType	0x0300
++#define		bCCKRxDAGCEn			0x80000000
++#define		bCCKRxDAGCPeriod		0x20000000
++#define		bCCKRxDAGCSatLevel		0x1f000000
++#define		bCCKTimingRecovery		0x800000
++#define		bCCKTxC0				0x3f0000
++#define		bCCKTxC1				0x3f000000
++#define		bCCKTxC2				0x3f
++#define		bCCKTxC3				0x3f00
++#define		bCCKTxC4				0x3f0000
++#define		bCCKTxC5				0x3f000000
++#define		bCCKTxC6				0x3f
++#define		bCCKTxC7				0x3f00
++#define		bCCKDebugPort			0xff0000
++#define		bCCKDACDebug			0x0f000000
++#define		bCCKFalseAlarmEnable	0x8000
++#define		bCCKFalseAlarmRead		0x4000
++#define		bCCKTRSSI				0x7f
++#define		bCCKRxAGCReport		0xfe
++#define		bCCKRxReport_AntSel	0x80000000
++#define		bCCKRxReport_MFOff		0x40000000
++#define		bCCKRxRxReport_SQLoss	0x20000000
++#define		bCCKRxReport_Pktloss	0x10000000
++#define		bCCKRxReport_Lockedbit	0x08000000
++#define		bCCKRxReport_RateError	0x04000000
++#define		bCCKRxReport_RxRate	0x03000000
++#define		bCCKRxFACounterLower	0xff
++#define		bCCKRxFACounterUpper	0xff000000
++#define		bCCKRxHPAGCStart		0xe000
++#define		bCCKRxHPAGCFinal		0x1c00
++#define		bCCKRxFalseAlarmEnable	0x8000
++#define		bCCKFACounterFreeze	0x4000
++#define		bCCKTxPathSel			0x10000000
++#define		bCCKDefaultRxPath		0xc000000
++#define		bCCKOptionRxPath		0x3000000
++
++/* 5. PageC(0xC00) */
++#define		bNumOfSTF				0x3	/* Useless */
++#define		bShift_L					0xc0
++#define		bGI_TH					0xc
++#define		bRxPathA				0x1
++#define		bRxPathB				0x2
++#define		bRxPathC				0x4
++#define		bRxPathD				0x8
++#define		bTxPathA				0x1
++#define		bTxPathB				0x2
++#define		bTxPathC				0x4
++#define		bTxPathD				0x8
++#define		bTRSSIFreq				0x200
++#define		bADCBackoff				0x3000
++#define		bDFIRBackoff			0xc000
++#define		bTRSSILatchPhase		0x10000
++#define		bRxIDCOffset			0xff
++#define		bRxQDCOffset			0xff00
++#define		bRxDFIRMode			0x1800000
++#define		bRxDCNFType			0xe000000
++#define		bRXIQImb_A				0x3ff
++#define		bRXIQImb_B				0xfc00
++#define		bRXIQImb_C				0x3f0000
++#define		bRXIQImb_D				0xffc00000
++#define		bDC_dc_Notch			0x60000
++#define		bRxNBINotch			0x1f000000
++#define		bPD_TH					0xf
++#define		bPD_TH_Opt2			0xc000
++#define		bPWED_TH				0x700
++#define		bIfMF_Win_L			0x800
++#define		bPD_Option				0x1000
++#define		bMF_Win_L				0xe000
++#define		bBW_Search_L			0x30000
++#define		bwin_enh_L				0xc0000
++#define		bBW_TH					0x700000
++#define		bED_TH2				0x3800000
++#define		bBW_option				0x4000000
++#define		bRatio_TH				0x18000000
++#define		bWindow_L				0xe0000000
++#define		bSBD_Option				0x1
++#define		bFrame_TH				0x1c
++#define		bFS_Option				0x60
++#define		bDC_Slope_check		0x80
++#define		bFGuard_Counter_DC_L	0xe00
++#define		bFrame_Weight_Short	0x7000
++#define		bSub_Tune				0xe00000
++#define		bFrame_DC_Length		0xe000000
++#define		bSBD_start_offset		0x30000000
++#define		bFrame_TH_2			0x7
++#define		bFrame_GI2_TH			0x38
++#define		bGI2_Sync_en			0x40
++#define		bSarch_Short_Early		0x300
++#define		bSarch_Short_Late		0xc00
++#define		bSarch_GI2_Late		0x70000
++#define		bCFOAntSum				0x1
++#define		bCFOAcc				0x2
++#define		bCFOStartOffset			0xc
++#define		bCFOLookBack			0x70
++#define		bCFOSumWeight			0x80
++#define		bDAGCEnable			0x10000
++#define		bTXIQImb_A				0x3ff
++#define		bTXIQImb_B				0xfc00
++#define		bTXIQImb_C				0x3f0000
++#define		bTXIQImb_D				0xffc00000
++#define		bTxIDCOffset			0xff
++#define		bTxQDCOffset			0xff00
++#define		bTxDFIRMode			0x10000
++#define		bTxPesudoNoiseOn		0x4000000
++#define		bTxPesudoNoise_A		0xff
++#define		bTxPesudoNoise_B		0xff00
++#define		bTxPesudoNoise_C		0xff0000
++#define		bTxPesudoNoise_D		0xff000000
++#define		bCCADropOption			0x20000
++#define		bCCADropThres			0xfff00000
++#define		bEDCCA_H				0xf
++#define		bEDCCA_L				0xf0
++#define		bLambda_ED			0x300
++#define		bRxInitialGain			0x7f
++#define		bRxAntDivEn				0x80
++#define		bRxAGCAddressForLNA	0x7f00
++#define		bRxHighPowerFlow		0x8000
++#define		bRxAGCFreezeThres		0xc0000
++#define		bRxFreezeStep_AGC1	0x300000
++#define		bRxFreezeStep_AGC2	0xc00000
++#define		bRxFreezeStep_AGC3	0x3000000
++#define		bRxFreezeStep_AGC0	0xc000000
++#define		bRxRssi_Cmp_En			0x10000000
++#define		bRxQuickAGCEn			0x20000000
++#define		bRxAGCFreezeThresMode	0x40000000
++#define		bRxOverFlowCheckType	0x80000000
++#define		bRxAGCShift				0x7f
++#define		bTRSW_Tri_Only			0x80
++#define		bPowerThres			0x300
++#define		bRxAGCEn				0x1
++#define		bRxAGCTogetherEn		0x2
++#define		bRxAGCMin				0x4
++#define		bRxHP_Ini				0x7
++#define		bRxHP_TRLNA			0x70
++#define		bRxHP_RSSI				0x700
++#define		bRxHP_BBP1				0x7000
++#define		bRxHP_BBP2				0x70000
++#define		bRxHP_BBP3				0x700000
++#define		bRSSI_H					0x7f0000     /* the threshold for high power */
++#define		bRSSI_Gen				0x7f000000   /* the threshold for ant diversity */
++#define		bRxSettle_TRSW			0x7
++#define		bRxSettle_LNA			0x38
++#define		bRxSettle_RSSI			0x1c0
++#define		bRxSettle_BBP			0xe00
++#define		bRxSettle_RxHP			0x7000
++#define		bRxSettle_AntSW_RSSI	0x38000
++#define		bRxSettle_AntSW		0xc0000
++#define		bRxProcessTime_DAGC	0x300000
++#define		bRxSettle_HSSI			0x400000
++#define		bRxProcessTime_BBPPW	0x800000
++#define		bRxAntennaPowerShift	0x3000000
++#define		bRSSITableSelect		0xc000000
++#define		bRxHP_Final				0x7000000
++#define		bRxHTSettle_BBP			0x7
++#define		bRxHTSettle_HSSI		0x8
++#define		bRxHTSettle_RxHP		0x70
++#define		bRxHTSettle_BBPPW		0x80
++#define		bRxHTSettle_Idle		0x300
++#define		bRxHTSettle_Reserved	0x1c00
++#define		bRxHTRxHPEn			0x8000
++#define		bRxHTAGCFreezeThres	0x30000
++#define		bRxHTAGCTogetherEn	0x40000
++#define		bRxHTAGCMin			0x80000
++#define		bRxHTAGCEn				0x100000
++#define		bRxHTDAGCEn			0x200000
++#define		bRxHTRxHP_BBP			0x1c00000
++#define		bRxHTRxHP_Final		0xe0000000
++#define		bRxPWRatioTH			0x3
++#define		bRxPWRatioEn			0x4
++#define		bRxMFHold				0x3800
++#define		bRxPD_Delay_TH1		0x38
++#define		bRxPD_Delay_TH2		0x1c0
++#define		bRxPD_DC_COUNT_MAX	0x600
++/* #define bRxMF_Hold               0x3800 */
++#define		bRxPD_Delay_TH			0x8000
++#define		bRxProcess_Delay		0xf0000
++#define		bRxSearchrange_GI2_Early	0x700000
++#define		bRxFrame_Guard_Counter_L	0x3800000
++#define		bRxSGI_Guard_L			0xc000000
++#define		bRxSGI_Search_L		0x30000000
++#define		bRxSGI_TH				0xc0000000
++#define		bDFSCnt0				0xff
++#define		bDFSCnt1				0xff00
++#define		bDFSFlag				0xf0000
++#define		bMFWeightSum			0x300000
++#define		bMinIdxTH				0x7f000000
++#define		bDAFormat				0x40000
++#define		bTxChEmuEnable		0x01000000
++#define		bTRSWIsolation_A		0x7f
++#define		bTRSWIsolation_B		0x7f00
++#define		bTRSWIsolation_C		0x7f0000
++#define		bTRSWIsolation_D		0x7f000000
++#define		bExtLNAGain				0x7c00
++
++/* 6. PageE(0xE00) */
++#define		bSTBCEn				0x4	/* Useless */
++#define		bAntennaMapping		0x10
++#define		bNss					0x20
++#define		bCFOAntSumD			0x200
++#define		bPHYCounterReset		0x8000000
++#define		bCFOReportGet			0x4000000
++#define		bOFDMContinueTx		0x10000000
++#define		bOFDMSingleCarrier		0x20000000
++#define		bOFDMSingleTone		0x40000000
++/* #define bRxPath1                 0x01 */
++/* #define bRxPath2                 0x02 */
++/* #define bRxPath3                 0x04 */
++/* #define bRxPath4                 0x08 */
++/* #define bTxPath1                 0x10 */
++/* #define bTxPath2                 0x20 */
++#define		bHTDetect			0x100
++#define		bCFOEn				0x10000
++#define		bCFOValue			0xfff00000
++#define		bSigTone_Re		0x3f
++#define		bSigTone_Im		0x7f00
++#define		bCounter_CCA		0xffff
++#define		bCounter_ParityFail	0xffff0000
++#define		bCounter_RateIllegal		0xffff
++#define		bCounter_CRC8Fail	0xffff0000
++#define		bCounter_MCSNoSupport	0xffff
++#define		bCounter_FastSync	0xffff
++#define		bShortCFO			0xfff
++#define		bShortCFOTLength	12   /* total */
++#define		bShortCFOFLength	11   /* fraction */
++#define		bLongCFO			0x7ff
++#define		bLongCFOTLength	11
++#define		bLongCFOFLength	11
++#define		bTailCFO			0x1fff
++#define		bTailCFOTLength		13
++#define		bTailCFOFLength		12
++#define		bmax_en_pwdB		0xffff
++#define		bCC_power_dB		0xffff0000
++#define		bnoise_pwdB		0xffff
++#define		bPowerMeasTLength	10
++#define		bPowerMeasFLength	3
++#define		bRx_HT_BW			0x1
++#define		bRxSC				0x6
++#define		bRx_HT				0x8
++#define		bNB_intf_det_on		0x1
++#define		bIntf_win_len_cfg	0x30
++#define		bNB_Intf_TH_cfg		0x1c0
++#define		bRFGain				0x3f
++#define		bTableSel			0x40
++#define		bTRSW				0x80
++#define		bRxSNR_A			0xff
++#define		bRxSNR_B			0xff00
++#define		bRxSNR_C			0xff0000
++#define		bRxSNR_D			0xff000000
++#define		bSNREVMTLength		8
++#define		bSNREVMFLength		1
++#define		bCSI1st				0xff
++#define		bCSI2nd				0xff00
++#define		bRxEVM1st			0xff0000
++#define		bRxEVM2nd			0xff000000
++#define		bSIGEVM			0xff
++#define		bPWDB				0xff00
++#define		bSGIEN				0x10000
++
++#define		bSFactorQAM1		0xf	/* Useless */
++#define		bSFactorQAM2		0xf0
++#define		bSFactorQAM3		0xf00
++#define		bSFactorQAM4		0xf000
++#define		bSFactorQAM5		0xf0000
++#define		bSFactorQAM6		0xf0000
++#define		bSFactorQAM7		0xf00000
++#define		bSFactorQAM8		0xf000000
++#define		bSFactorQAM9		0xf0000000
++#define		bCSIScheme			0x100000
++
++#define		bNoiseLvlTopSet		0x3	/* Useless */
++#define		bChSmooth			0x4
++#define		bChSmoothCfg1		0x38
++#define		bChSmoothCfg2		0x1c0
++#define		bChSmoothCfg3		0xe00
++#define		bChSmoothCfg4		0x7000
++#define		bMRCMode			0x800000
++#define		bTHEVMCfg			0x7000000
++
++#define		bLoopFitType		0x1	/* Useless */
++#define		bUpdCFO			0x40
++#define		bUpdCFOOffData		0x80
++#define		bAdvUpdCFO			0x100
++#define		bAdvTimeCtrl		0x800
++#define		bUpdClko			0x1000
++#define		bFC					0x6000
++#define		bTrackingMode		0x8000
++#define		bPhCmpEnable		0x10000
++#define		bUpdClkoLTF		0x20000
++#define		bComChCFO			0x40000
++#define		bCSIEstiMode		0x80000
++#define		bAdvUpdEqz			0x100000
++#define		bUChCfg				0x7000000
++#define		bUpdEqz			0x8000000
++
++/* Rx Pseduo noise */
++#define		bRxPesudoNoiseOn		0x20000000	/* Useless */
++#define		bRxPesudoNoise_A		0xff
++#define		bRxPesudoNoise_B		0xff00
++#define		bRxPesudoNoise_C		0xff0000
++#define		bRxPesudoNoise_D		0xff000000
++#define		bPesudoNoiseState_A	0xffff
++#define		bPesudoNoiseState_B	0xffff0000
++#define		bPesudoNoiseState_C	0xffff
++#define		bPesudoNoiseState_D	0xffff0000
++
++/* 7. RF Register
++ * Zebra1 */
++#define		bZebra1_HSSIEnable		0x8		/* Useless */
++#define		bZebra1_TRxControl		0xc00
++#define		bZebra1_TRxGainSetting	0x07f
++#define		bZebra1_RxCorner		0xc00
++#define		bZebra1_TxChargePump	0x38
++#define		bZebra1_RxChargePump	0x7
++#define		bZebra1_ChannelNum	0xf80
++#define		bZebra1_TxLPFBW		0x400
++#define		bZebra1_RxLPFBW		0x600
++
++/* Zebra4 */
++#define		bRTL8256RegModeCtrl1	0x100	/* Useless */
++#define		bRTL8256RegModeCtrl0	0x40
++#define		bRTL8256_TxLPFBW		0x18
++#define		bRTL8256_RxLPFBW		0x600
++
++/* RTL8258 */
++#define		bRTL8258_TxLPFBW		0xc	/* Useless */
++#define		bRTL8258_RxLPFBW		0xc00
++#define		bRTL8258_RSSILPFBW	0xc0
++
++
++/*
++ * Other Definition
++ *   */
++
++/* byte endable for sb_write */
++#define		bByte0				0x1	/* Useless */
++#define		bByte1				0x2
++#define		bByte2				0x4
++#define		bByte3				0x8
++#define		bWord0				0x3
++#define		bWord1				0xc
++#define		bDWord				0xf
++
++/* for PutRegsetting & GetRegSetting BitMask */
++#define		bMaskByte0			0xff	/* Reg 0xc50 rOFDM0_XAAGCCore~0xC6f */
++#define		bMaskByte1			0xff00
++#define		bMaskByte2			0xff0000
++#define		bMaskByte3			0xff000000
++#define		bMaskHWord		0xffff0000
++#define		bMaskLWord			0x0000ffff
++#define		bMaskDWord		0xffffffff
++#define		bMaskH3Bytes		0xffffff00
++#define		bMask12Bits			0xfff
++#define		bMaskH4Bits			0xf0000000
++#define		bMaskOFDM_D		0xffc00000
++#define		bMaskCCK			0x3f3f3f3f
++
++
++#define		bEnable			0x1	/* Useless */
++#define		bDisable		0x0
++
++#define		LeftAntenna		0x0	/* Useless */
++#define		RightAntenna	0x1
++
++#define		tCheckTxStatus		500   /* 500ms */ /* Useless */
++#define		tUpdateRxCounter	100   /* 100ms */
++
++#define		rateCCK		0	/* Useless */
++#define		rateOFDM	1
++#define		rateHT		2
++
++/* define Register-End */
++#define		bPMAC_End			0x1ff	/* Useless */
++#define		bFPGAPHY0_End		0x8ff
++#define		bFPGAPHY1_End		0x9ff
++#define		bCCKPHY0_End		0xaff
++#define		bOFDMPHY0_End		0xcff
++#define		bOFDMPHY1_End		0xdff
++
++/* define max debug item in each debug page
++ * #define bMaxItem_FPGA_PHY0        0x9
++ * #define bMaxItem_FPGA_PHY1        0x3
++ * #define bMaxItem_PHY_11B          0x16
++ * #define bMaxItem_OFDM_PHY0        0x29
++ * #define bMaxItem_OFDM_PHY1        0x0 */
++
++#define		bPMACControl		0x0		/* Useless */
++#define		bWMACControl		0x1
++#define		bWNICControl		0x2
++
++#define		PathA			0x0	/* Useless */
++#define		PathB			0x1
++#define		PathC			0x2
++#define		PathD			0x3
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8723BPwrSeq.h b/drivers/net/wireless/rtl8812au/include/Hal8723BPwrSeq.h
+new file mode 100644
+index 0000000..6b89562
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8723BPwrSeq.h
+@@ -0,0 +1,232 @@
++#ifndef REALTEK_POWER_SEQUENCE_8723B
++#define REALTEK_POWER_SEQUENCE_8723B
++
++#include "HalPwrSeqCmd.h"
++
++/*
++	Check document WM-20130815-JackieLau-RTL8723B_Power_Architecture v08.vsd
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transision from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++*/
++#define	RTL8723B_TRANS_CARDEMU_TO_ACT_STEPS	26
++#define	RTL8723B_TRANS_ACT_TO_CARDEMU_STEPS	15
++#define	RTL8723B_TRANS_CARDEMU_TO_SUS_STEPS	15
++#define	RTL8723B_TRANS_SUS_TO_CARDEMU_STEPS	15
++#define	RTL8723B_TRANS_CARDEMU_TO_PDN_STEPS	15
++#define	RTL8723B_TRANS_PDN_TO_CARDEMU_STEPS	15
++#define	RTL8723B_TRANS_ACT_TO_LPS_STEPS		15
++#define	RTL8723B_TRANS_LPS_TO_ACT_STEPS		15
++#define	RTL8723B_TRANS_ACT_TO_SWLPS_STEPS		22
++#define	RTL8723B_TRANS_SWLPS_TO_ACT_STEPS		15
++#define	RTL8723B_TRANS_END_STEPS		1
++
++
++#define RTL8723B_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /*0x20[0] = 1b'1 enable LDOA12 MACRO block for all interface*/   \
++	{0x0067, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x67[0] = 0 to disable BT_GPS_SEL pins*/	\
++	{0x0001, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 1, PWRSEQ_DELAY_MS},/*Delay 1ms*/   \
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, 0}, /*0x00[5] = 1b'0 release analog Ips to digital ,1:isolation*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT4 | BIT3 | BIT2), 0},/* disable SW LPS 0x04[10]=0 and WLSUS_EN 0x04[11]=0*/	\
++	{0x0075, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0 , BIT0},/* Disable USB suspend */	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1    power ready*/	\
++	{0x0075, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0 , 0},/* Enable USB suspend */	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* release WLON reset  0x04[16]=1*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* disable HWPDN 0x04[15]=0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT4 | BIT3), 0},/* disable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* polling until return 0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0},/**/	\
++	{0x0010, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, BIT6},/* Enable WL control XTAL setting*/	\
++	{0x0049, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/*Enable falling edge triggering interrupt*/\
++	{0x0063, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/*Enable GPIO9 interrupt mode*/\
++	{0x0062, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Enable GPIO9 input mode*/\
++	{0x0058, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*Enable HSISR GPIO[C:0] interrupt*/\
++	{0x005A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/*Enable HSISR GPIO9 interrupt*/\
++	{0x0068, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, BIT3},/*For GPIO9 internal pull high setting by test chip*/\
++	{0x0069, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, BIT6},/*For GPIO9 internal pull high setting*/\
++
++
++#define RTL8723B_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*0x1F[7:0] = 0 turn off RF*/	\
++	{0x0049, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Enable rising edge triggering interrupt*/ \
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* release WLON reset  0x04[16]=1*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/	\
++	{0x0010, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, 0},/* Enable BT control XTAL setting*/\
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5}, /*0x00[5] = 1b'1 analog Ips to digital ,1:isolation*/   \
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /*0x20[0] = 1b'0 disable LDOA12 MACRO block*/\
++
++
++#define RTL8723B_TRANS_CARDEMU_TO_SUS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4 | BIT3, (BIT4 | BIT3)}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SDIO SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3 | BIT4}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8723B_TRANS_SUS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT7, 0}, /*clear suspend enable and power down enable*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
++
++#define RTL8723B_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07 = 0x20 , SOP option to disable BG/MB*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2}, /*0x04[10] = 1, enable SW LPS*/	\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 1}, /*0x48[16] = 1 to enable GPIO9 as EXT WAKEUP*/   \
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8723B_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT7, 0}, /*clear suspend enable and power down enable*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /*0x48[16] = 0 to disable GPIO9 as EXT WAKEUP*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*PCIe DMA start*/
++
++
++#define RTL8723B_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK | PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/* 0x04[16] = 0*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
++
++#define RTL8723B_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
++
++#define RTL8723B_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*PCIe DMA stop*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*Tx Pause*/	\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Whole BB is reset*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x03},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/	\
++	{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/*When driver enter Sus/ Disable, enable LOP for BT*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/	\
++
++
++#define RTL8723B_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM*/\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/\
++	{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*.	0x08[4] = 0		 switch TSF to 40M*/\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, 0}, /*Polling 0x109[7]=0  TSF in 40M*/\
++	{0x0029, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6 | BIT7, 0}, /*.	0x29[7:6] = 2b'00	 enable BB clock*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++
++#define RTL8723B_TRANS_ACT_TO_SWLPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0194, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*enable 32 K source*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 1},/*CCK and OFDM are enable*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 1},/*CCK and OFDM are enable*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x3F},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*disable security engine*/	\
++	{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x40},/*When driver enter Sus/ Disable, enable LOP for BT*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*reset dual TSF*/	\
++	{0x0003, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0},/*Reset CPU*/	\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*Reset MCUFWDL register*/	\
++	{0x001D, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*Reset CPU IO Wrapper*/	\
++	{0x001D, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 1},/*Reset CPU IO Wrapper*/	\
++	{0x0287, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*polling RXFF packet number = 0 */	\
++	{0x0286, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/*polling RXDMA idle */	\
++	{0x013D, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*Clear FW RPWM interrupt */\
++	{0x0139, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*Set FW RPWM interrupt source*/\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4},/*switch TSF to 32K*/\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/*polling TSF stable*/\
++	{0x0090, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*Set FW LPS*/	\
++	{0x0090, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0},/*polling FW LPS ready */
++
++
++#define RTL8723B_TRANS_SWLPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0},/*switch TSF to 32K*/\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/*polling TSF stable*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1, enable security engine*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x06B7, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x09}, /*.	reset MAC rx state machine*/\
++	{0x06B4, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x86}, /*.	reset MAC rx state machine*/\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/* set CPU RAM code ready*/	\
++	{0x001D, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*Reset CPU IO Wrapper*/	\
++	{0x0003, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0},/* Enable CPU*/	\
++	{0x001D, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*enable CPU IO Wrapper*/	\
++	{0x0003, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2},/* Enable CPU*/	\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, BIT7},/*polling FW init ready */	\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT6, BIT6},/*polling FW init ready */	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++#define RTL8723B_TRANS_END															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++	extern WLAN_PWR_CFG rtl8723B_power_on_flow[RTL8723B_TRANS_CARDEMU_TO_ACT_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_radio_off_flow[RTL8723B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_card_disable_flow[RTL8723B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723B_TRANS_CARDEMU_TO_PDN_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_card_enable_flow[RTL8723B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723B_TRANS_CARDEMU_TO_PDN_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_suspend_flow[RTL8723B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723B_TRANS_CARDEMU_TO_SUS_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_resume_flow[RTL8723B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723B_TRANS_CARDEMU_TO_SUS_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_hwpdn_flow[RTL8723B_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723B_TRANS_CARDEMU_TO_PDN_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_enter_lps_flow[RTL8723B_TRANS_ACT_TO_LPS_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_leave_lps_flow[RTL8723B_TRANS_LPS_TO_ACT_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_enter_swlps_flow[RTL8723B_TRANS_ACT_TO_SWLPS_STEPS + RTL8723B_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723B_leave_swlps_flow[RTL8723B_TRANS_SWLPS_TO_ACT_STEPS + RTL8723B_TRANS_END_STEPS];
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8723DPhyCfg.h b/drivers/net/wireless/rtl8812au/include/Hal8723DPhyCfg.h
+new file mode 100644
+index 0000000..09afeb1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8723DPhyCfg.h
+@@ -0,0 +1,136 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8723DPHYCFG_H__
++#define __INC_HAL8723DPHYCFG_H__
++
++/*--------------------------Define Parameters-------------------------------*/
++#define LOOP_LIMIT				5
++#define MAX_STALL_TIME			50		/* us */
++#define AntennaDiversityValue	0x80	/* (Adapter->bSoftwareAntennaDiversity ? 0x00 : 0x80) */
++#define MAX_TXPWR_IDX_NMODE_92S	63
++#define Reset_Cnt_Limit			3
++
++#ifdef CONFIG_PCI_HCI
++	#define MAX_AGGR_NUM	0x0B
++#else
++	#define MAX_AGGR_NUM	0x07
++#endif /* CONFIG_PCI_HCI */
++
++
++/*--------------------------Define Parameters End-------------------------------*/
++
++
++/*------------------------------Define structure----------------------------*/
++
++/*------------------------------Define structure End----------------------------*/
++
++/*--------------------------Exported Function prototype---------------------*/
++u32
++PHY_QueryBBReg_8723D(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask
++);
++
++VOID
++PHY_SetBBReg_8723D(
++	IN	PADAPTER	Adapter,
++	IN	u32		RegAddr,
++	IN	u32		BitMask,
++	IN	u32		Data
++);
++
++u32
++PHY_QueryRFReg_8723D(
++	IN	PADAPTER			Adapter,
++	IN	u8				eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask
++);
++
++VOID
++PHY_SetRFReg_8723D(
++	IN	PADAPTER			Adapter,
++	IN	u8				eRFPath,
++	IN	u32				RegAddr,
++	IN	u32				BitMask,
++	IN	u32				Data
++);
++
++/* MAC/BB/RF HAL config */
++int PHY_BBConfig8723D(PADAPTER	Adapter);
++
++int PHY_RFConfig8723D(PADAPTER	Adapter);
++
++s32 PHY_MACConfig8723D(PADAPTER padapter);
++
++int
++PHY_ConfigRFWithParaFile_8723D(
++	IN	PADAPTER			Adapter,
++	IN	u8				*pFileName,
++	RF_PATH				eRFPath
++);
++
++VOID
++PHY_SetTxPowerIndex_8723D(
++	IN	PADAPTER			Adapter,
++	IN	u32					PowerIndex,
++	IN	u8					RFPath,
++	IN	u8					Rate
++);
++
++u8
++PHY_GetTxPowerIndex_8723D(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	u8					Rate,
++	IN	u8					BandWidth,
++	IN	u8					Channel,
++	struct txpwr_idx_comp *tic
++);
++
++VOID
++PHY_GetTxPowerLevel8723D(
++	IN	PADAPTER		Adapter,
++	OUT s32				*powerlevel
++);
++
++VOID
++PHY_SetTxPowerLevel8723D(
++	IN	PADAPTER		Adapter,
++	IN	u8			channel
++);
++
++VOID
++PHY_SetSwChnlBWMode8723D(
++	IN	PADAPTER			Adapter,
++	IN	u8					channel,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					Offset40,
++	IN	u8					Offset80
++);
++
++VOID PHY_SetRFPathSwitch_8723D(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bMain
++);
++/*--------------------------Exported Function prototype End---------------------*/
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8723DPhyReg.h b/drivers/net/wireless/rtl8812au/include/Hal8723DPhyReg.h
+new file mode 100644
+index 0000000..c4a52f5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8723DPhyReg.h
+@@ -0,0 +1,1139 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8723DPHYREG_H__
++#define __INC_HAL8723DPHYREG_H__
++
++#define		rSYM_WLBT_PAPE_SEL		0x64
++/*
++ * BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++ * 3. RF register 0x00-2E
++ * 4. Bit Mask for BB/RF register
++ * 5. Other definition for BB/RF R/W
++ *   */
++
++
++/*
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 1. Page1(0x100)
++ *   */
++#define		rPMAC_Reset					0x100
++#define		rPMAC_TxStart					0x104
++#define		rPMAC_TxLegacySIG				0x108
++#define		rPMAC_TxHTSIG1				0x10c
++#define		rPMAC_TxHTSIG2				0x110
++#define		rPMAC_PHYDebug				0x114
++#define		rPMAC_TxPacketNum				0x118
++#define		rPMAC_TxIdle					0x11c
++#define		rPMAC_TxMACHeader0			0x120
++#define		rPMAC_TxMACHeader1			0x124
++#define		rPMAC_TxMACHeader2			0x128
++#define		rPMAC_TxMACHeader3			0x12c
++#define		rPMAC_TxMACHeader4			0x130
++#define		rPMAC_TxMACHeader5			0x134
++#define		rPMAC_TxDataType				0x138
++#define		rPMAC_TxRandomSeed			0x13c
++#define		rPMAC_CCKPLCPPreamble			0x140
++#define		rPMAC_CCKPLCPHeader			0x144
++#define		rPMAC_CCKCRC16				0x148
++#define		rPMAC_OFDMRxCRC32OK			0x170
++#define		rPMAC_OFDMRxCRC32Er			0x174
++#define		rPMAC_OFDMRxParityEr			0x178
++#define		rPMAC_OFDMRxCRC8Er			0x17c
++#define		rPMAC_CCKCRxRC16Er			0x180
++#define		rPMAC_CCKCRxRC32Er			0x184
++#define		rPMAC_CCKCRxRC32OK			0x188
++#define		rPMAC_TxStatus					0x18c
++
++/*
++ * 2. Page2(0x200)
++ *
++ * The following two definition are only used for USB interface. */
++#define		RF_BB_CMD_ADDR				0x02c0	/* RF/BB read/write command address. */
++#define		RF_BB_CMD_DATA				0x02c4	/* RF/BB read/write command data. */
++
++/*
++ * 3. Page8(0x800)
++ *   */
++#define		rFPGA0_RFMOD				0x800	/* RF mode & CCK TxSC // RF BW Setting?? */
++
++#define		rFPGA0_TxInfo				0x804	/* Status report?? */
++#define		rFPGA0_PSDFunction			0x808
++
++#define		rFPGA0_TxGainStage			0x80c	/* Set TX PWR init gain? */
++
++#define		rFPGA0_RFTiming1			0x810	/* Useless now */
++#define		rFPGA0_RFTiming2			0x814
++
++#define		rFPGA0_XA_HSSIParameter1		0x820	/* RF 3 wire register */
++#define		rFPGA0_XA_HSSIParameter2		0x824
++#define		rFPGA0_XB_HSSIParameter1		0x828
++#define		rFPGA0_XB_HSSIParameter2		0x82c
++#define		rTxAGC_B_Rate18_06				0x830
++#define		rTxAGC_B_Rate54_24				0x834
++#define		rTxAGC_B_CCK1_55_Mcs32		0x838
++#define		rTxAGC_B_Mcs03_Mcs00			0x83c
++
++#define		rTxAGC_B_Mcs07_Mcs04			0x848
++#define		rTxAGC_B_Mcs11_Mcs08			0x84c
++
++#define		rFPGA0_XA_LSSIParameter		0x840
++#define		rFPGA0_XB_LSSIParameter		0x844
++
++#define		rFPGA0_RFWakeUpParameter		0x850	/* Useless now */
++#define		rFPGA0_RFSleepUpParameter		0x854
++
++#define		rFPGA0_XAB_SwitchControl		0x858	/* RF Channel switch */
++#define		rFPGA0_XCD_SwitchControl		0x85c
++
++#define		rFPGA0_XA_RFInterfaceOE		0x860	/* RF Channel switch */
++#define		rFPGA0_XB_RFInterfaceOE		0x864
++
++#define		rTxAGC_B_Mcs15_Mcs12			0x868
++#define		rTxAGC_B_CCK11_A_CCK2_11		0x86c
++
++#define		rFPGA0_XAB_RFInterfaceSW		0x870	/* RF Interface Software Control */
++#define		rFPGA0_XCD_RFInterfaceSW		0x874
++
++#define		rFPGA0_XAB_RFParameter		0x878	/* RF Parameter */
++#define		rFPGA0_XCD_RFParameter		0x87c
++
++#define		rFPGA0_AnalogParameter1		0x880	/* Crystal cap setting RF-R/W protection for parameter4?? */
++#define		rFPGA0_AnalogParameter2		0x884
++#define		rFPGA0_AnalogParameter3		0x888	/* Useless now */
++#define		rFPGA0_AnalogParameter4		0x88c
++
++#define		rFPGA0_XA_LSSIReadBack		0x8a0	/* Tranceiver LSSI Readback */
++#define		rFPGA0_XB_LSSIReadBack		0x8a4
++#define		rFPGA0_XC_LSSIReadBack		0x8a8
++#define		rFPGA0_XD_LSSIReadBack		0x8ac
++
++#define		rFPGA0_PSDReport				0x8b4	/* Useless now */
++#define		TransceiverA_HSPI_Readback	0x8b8	/* Transceiver A HSPI Readback */
++#define		TransceiverB_HSPI_Readback	0x8bc	/* Transceiver B HSPI Readback */
++#define		rFPGA0_XAB_RFInterfaceRB		0x8e0	/* Useless now // RF Interface Readback Value */
++#define		rFPGA0_XCD_RFInterfaceRB		0x8e4	/* Useless now */
++
++/*
++ * 4. Page9(0x900)
++ *   */
++#define	rFPGA1_RFMOD				0x900	/* RF mode & OFDM TxSC // RF BW Setting?? */
++#define	rFPGA1_TxBlock				0x904	/* Useless now */
++#define	rFPGA1_DebugSelect			0x908	/* Useless now */
++#define	rFPGA1_TxInfo				0x90c	/* Useless now // Status report?? */
++#define	rDPDT_control				0x92c
++#define	rfe_ctrl_anta_src				0x930
++#define	rS0S1_PathSwitch			0x948
++#define	rBBrx_DFIR					0x954
++
++/*
++ * 5. PageA(0xA00)
++ *
++ * Set Control channel to upper or lower. These settings are required only for 40MHz */
++#define		rCCK0_System				0xa00
++
++#define		rCCK0_AFESetting			0xa04	/* Disable init gain now // Select RX path by RSSI */
++#define		rCCK0_CCA					0xa08	/* Disable init gain now // Init gain */
++
++#define		rCCK0_RxAGC1				0xa0c	/* AGC default value, saturation level // Antenna Diversity, RX AGC, LNA Threshold, RX LNA Threshold useless now. Not the same as 90 series */
++#define		rCCK0_RxAGC2				0xa10	/* AGC & DAGC */
++
++#define		rCCK0_RxHP					0xa14
++
++#define		rCCK0_DSPParameter1		0xa18	/* Timing recovery & Channel estimation threshold */
++#define		rCCK0_DSPParameter2		0xa1c	/* SQ threshold */
++
++#define		rCCK0_TxFilter1				0xa20
++#define		rCCK0_TxFilter2				0xa24
++#define		rCCK0_DebugPort			0xa28	/* debug port and Tx filter3 */
++#define		rCCK0_FalseAlarmReport		0xa2c	/* 0xa2d	useless now 0xa30-a4f channel report */
++#define		rCCK0_TRSSIReport		0xa50
++#define		rCCK0_RxReport			0xa54  /* 0xa57 */
++#define		rCCK0_FACounterLower		0xa5c  /* 0xa5b */
++#define		rCCK0_FACounterUpper		0xa58  /* 0xa5c */
++
++/*
++ * PageB(0xB00)
++ *   */
++#define rPdp_AntA						0xb00
++#define rPdp_AntA_4						0xb04
++#define rPdp_AntA_8						0xb08
++#define rPdp_AntA_C						0xb0c
++#define rPdp_AntA_10					0xb10
++#define rPdp_AntA_14					0xb14
++#define rPdp_AntA_18					0xb18
++#define rPdp_AntA_1C					0xb1c
++#define rPdp_AntA_20					0xb20
++#define rPdp_AntA_24					0xb24
++
++#define rConfig_Pmpd_AntA				0xb28
++#define rConfig_ram64x16				0xb2c
++
++#define rBndA							0xb30
++#define rHssiPar						0xb34
++
++#define rConfig_AntA					0xb68
++#define rConfig_AntB					0xb6c
++
++#define rPdp_AntB						0xb70
++#define rPdp_AntB_4						0xb74
++#define rPdp_AntB_8						0xb78
++#define rPdp_AntB_C						0xb7c
++#define rPdp_AntB_10					0xb80
++#define rPdp_AntB_14					0xb84
++#define rPdp_AntB_18					0xb88
++#define rPdp_AntB_1C					0xb8c
++#define rPdp_AntB_20					0xb90
++#define rPdp_AntB_24					0xb94
++
++#define rConfig_Pmpd_AntB				0xb98
++
++#define rBndB							0xba0
++
++#define rAPK							0xbd8
++#define rPm_Rx0_AntA					0xbdc
++#define rPm_Rx1_AntA					0xbe0
++#define rPm_Rx2_AntA					0xbe4
++#define rPm_Rx3_AntA					0xbe8
++#define rPm_Rx0_AntB					0xbec
++#define rPm_Rx1_AntB					0xbf0
++#define rPm_Rx2_AntB					0xbf4
++#define rPm_Rx3_AntB					0xbf8
++/*
++ * 6. PageC(0xC00)
++ *   */
++#define		rOFDM0_LSTF				0xc00
++
++#define		rOFDM0_TRxPathEnable		0xc04
++#define		rOFDM0_TRMuxPar			0xc08
++#define		rOFDM0_TRSWIsolation		0xc0c
++
++#define		rOFDM0_XARxAFE			0xc10  /* RxIQ DC offset, Rx digital filter, DC notch filter */
++#define		rOFDM0_XARxIQImbalance		0xc14  /* RxIQ imbalance matrix */
++#define		rOFDM0_XBRxAFE		0xc18
++#define		rOFDM0_XBRxIQImbalance	0xc1c
++#define		rOFDM0_XCRxAFE		0xc20
++#define		rOFDM0_XCRxIQImbalance	0xc24
++#define		rOFDM0_XDRxAFE		0xc28
++#define		rOFDM0_XDRxIQImbalance	0xc2c
++
++#define		rOFDM0_RxDetector1			0xc30  /* PD, BW & SBD	// DM tune init gain */
++#define		rOFDM0_RxDetector2			0xc34  /* SBD & Fame Sync. */
++#define		rOFDM0_RxDetector3			0xc38  /* Frame Sync. */
++#define		rOFDM0_RxDetector4			0xc3c  /* PD, SBD, Frame Sync & Short-GI */
++
++#define		rOFDM0_RxDSP				0xc40  /* Rx Sync Path */
++#define		rOFDM0_CFOandDAGC		0xc44  /* CFO & DAGC */
++#define		rOFDM0_CCADropThreshold	0xc48 /* CCA Drop threshold */
++#define		rOFDM0_ECCAThreshold		0xc4c /* energy CCA */
++
++#define		rOFDM0_XAAGCCore1			0xc50	/* DIG */
++#define		rOFDM0_XAAGCCore2			0xc54
++#define		rOFDM0_XBAGCCore1			0xc58
++#define		rOFDM0_XBAGCCore2			0xc5c
++#define		rOFDM0_XCAGCCore1			0xc60
++#define		rOFDM0_XCAGCCore2			0xc64
++#define		rOFDM0_XDAGCCore1			0xc68
++#define		rOFDM0_XDAGCCore2			0xc6c
++
++#define		rOFDM0_AGCParameter1			0xc70
++#define		rOFDM0_AGCParameter2			0xc74
++#define		rOFDM0_AGCRSSITable			0xc78
++#define		rOFDM0_HTSTFAGC				0xc7c
++
++#define		rOFDM0_XATxIQImbalance		0xc80	/* TX PWR TRACK and DIG */
++#define		rOFDM0_XATxAFE				0xc84
++#define		rOFDM0_XBTxIQImbalance		0xc88
++#define		rOFDM0_XBTxAFE				0xc8c
++#define		rOFDM0_XCTxIQImbalance		0xc90
++#define		rOFDM0_XCTxAFE			0xc94
++#define		rOFDM0_XDTxIQImbalance		0xc98
++#define		rOFDM0_XDTxAFE				0xc9c
++
++#define		rOFDM0_RxIQExtAnta			0xca0
++#define		rOFDM0_TxCoeff1				0xca4
++#define		rOFDM0_TxCoeff2				0xca8
++#define		rOFDM0_TxCoeff3				0xcac
++#define		rOFDM0_TxCoeff4				0xcb0
++#define		rOFDM0_TxCoeff5				0xcb4
++#define		rOFDM0_TxCoeff6				0xcb8
++#define		rOFDM0_RxHPParameter			0xce0
++#define		rOFDM0_TxPseudoNoiseWgt		0xce4
++#define		rOFDM0_FrameSync				0xcf0
++#define		rOFDM0_DFSReport				0xcf4
++
++/*
++ * 7. PageD(0xD00)
++ *   */
++#define		rOFDM1_LSTF					0xd00
++#define		rOFDM1_TRxPathEnable			0xd04
++
++#define		rOFDM1_CFO						0xd08	/* No setting now */
++#define		rOFDM1_CSI1					0xd10
++#define		rOFDM1_SBD						0xd14
++#define		rOFDM1_CSI2					0xd18
++#define		rOFDM1_CFOTracking			0xd2c
++#define		rOFDM1_TRxMesaure1			0xd34
++#define		rOFDM1_IntfDet					0xd3c
++#define		rOFDM1_PseudoNoiseStateAB		0xd50
++#define		rOFDM1_PseudoNoiseStateCD		0xd54
++#define		rOFDM1_RxPseudoNoiseWgt		0xd58
++
++#define		rOFDM_PHYCounter1				0xda0  /* cca, parity fail */
++#define		rOFDM_PHYCounter2				0xda4  /* rate illegal, crc8 fail */
++#define		rOFDM_PHYCounter3				0xda8  /* MCS not support */
++
++#define		rOFDM_ShortCFOAB				0xdac	/* No setting now */
++#define		rOFDM_ShortCFOCD				0xdb0
++#define		rOFDM_LongCFOAB				0xdb4
++#define		rOFDM_LongCFOCD				0xdb8
++#define		rOFDM_TailCFOAB				0xdbc
++#define		rOFDM_TailCFOCD				0xdc0
++#define		rOFDM_PWMeasure1		0xdc4
++#define		rOFDM_PWMeasure2		0xdc8
++#define		rOFDM_BWReport				0xdcc
++#define		rOFDM_AGCReport				0xdd0
++#define		rOFDM_RxSNR					0xdd4
++#define		rOFDM_RxEVMCSI				0xdd8
++#define		rOFDM_SIGReport				0xddc
++
++
++/*
++ * 8. PageE(0xE00)
++ *   */
++#define		rTxAGC_A_Rate18_06			0xe00
++#define		rTxAGC_A_Rate54_24			0xe04
++#define		rTxAGC_A_CCK1_Mcs32			0xe08
++#define		rTxAGC_A_Mcs03_Mcs00			0xe10
++#define		rTxAGC_A_Mcs07_Mcs04			0xe14
++#define		rTxAGC_A_Mcs11_Mcs08			0xe18
++#define		rTxAGC_A_Mcs15_Mcs12			0xe1c
++
++#define		rFPGA0_IQK					0xe28
++#define		rTx_IQK_Tone_A				0xe30
++#define		rRx_IQK_Tone_A				0xe34
++#define		rTx_IQK_PI_A					0xe38
++#define		rRx_IQK_PI_A					0xe3c
++
++#define		rTx_IQK						0xe40
++#define		rRx_IQK						0xe44
++#define		rIQK_AGC_Pts					0xe48
++#define		rIQK_AGC_Rsp					0xe4c
++#define		rTx_IQK_Tone_B				0xe50
++#define		rRx_IQK_Tone_B				0xe54
++#define		rTx_IQK_PI_B					0xe58
++#define		rRx_IQK_PI_B					0xe5c
++#define		rIQK_AGC_Cont				0xe60
++
++#define		rBlue_Tooth					0xe6c
++#define		rRx_Wait_CCA					0xe70
++#define		rTx_CCK_RFON					0xe74
++#define		rTx_CCK_BBON				0xe78
++#define		rTx_OFDM_RFON				0xe7c
++#define		rTx_OFDM_BBON				0xe80
++#define		rTx_To_Rx					0xe84
++#define		rTx_To_Tx					0xe88
++#define		rRx_CCK						0xe8c
++
++#define		rTx_Power_Before_IQK_A		0xe94
++#define		rTx_Power_After_IQK_A			0xe9c
++
++#define		rRx_Power_Before_IQK_A		0xea0
++#define		rRx_Power_Before_IQK_A_2		0xea4
++#define		rRx_Power_After_IQK_A			0xea8
++#define		rRx_Power_After_IQK_A_2		0xeac
++
++#define		rTx_Power_Before_IQK_B		0xeb4
++#define		rTx_Power_After_IQK_B			0xebc
++
++#define		rRx_Power_Before_IQK_B		0xec0
++#define		rRx_Power_Before_IQK_B_2		0xec4
++#define		rRx_Power_After_IQK_B			0xec8
++#define		rRx_Power_After_IQK_B_2		0xecc
++
++#define		rRx_OFDM					0xed0
++#define		rRx_Wait_RIFS				0xed4
++#define		rRx_TO_Rx					0xed8
++#define		rStandby						0xedc
++#define		rSleep						0xee0
++#define		rPMPD_ANAEN				0xeec
++
++/*
++ * 7. RF Register 0x00-0x2E (RF 8256)
++ * RF-0222D 0x00-3F
++ *
++ * Zebra1 */
++#define		rZebra1_HSSIEnable				0x0	/* Useless now */
++#define		rZebra1_TRxEnable1				0x1
++#define		rZebra1_TRxEnable2				0x2
++#define		rZebra1_AGC					0x4
++#define		rZebra1_ChargePump			0x5
++#define		rZebra1_Channel				0x7	/* RF channel switch */
++
++/* #endif */
++#define		rZebra1_TxGain					0x8	/* Useless now */
++#define		rZebra1_TxLPF					0x9
++#define		rZebra1_RxLPF					0xb
++#define		rZebra1_RxHPFCorner			0xc
++
++/* Zebra4 */
++#define		rGlobalCtrl						0	/* Useless now */
++#define		rRTL8256_TxLPF					19
++#define		rRTL8256_RxLPF					11
++
++/* RTL8258 */
++#define		rRTL8258_TxLPF					0x11	/* Useless now */
++#define		rRTL8258_RxLPF					0x13
++#define		rRTL8258_RSSILPF				0xa
++
++/*
++ * RL6052 Register definition
++ *   */
++#define		RF_AC						0x00	/* */
++
++#define		RF_IQADJ_G1				0x01	/* */
++#define		RF_IQADJ_G2				0x02	/* */
++#define		RF_BS_PA_APSET_G1_G4		0x03
++#define		RF_BS_PA_APSET_G5_G8		0x04
++#define		RF_POW_TRSW				0x05	/* */
++
++#define		RF_GAIN_RX					0x06	/* */
++#define		RF_GAIN_TX					0x07	/* */
++
++#define		RF_TXM_IDAC				0x08	/* */
++#define		RF_IPA_G					0x09	/* */
++#define		RF_TXBIAS_G				0x0A
++#define		RF_TXPA_AG					0x0B
++#define		RF_IPA_A					0x0C	/* */
++#define		RF_TXBIAS_A				0x0D
++#define		RF_BS_PA_APSET_G9_G11	0x0E
++#define		RF_BS_IQGEN				0x0F	/* */
++
++#define		RF_MODE1					0x10	/* */
++#define		RF_MODE2					0x11	/* */
++
++#define		RF_RX_AGC_HP				0x12	/* */
++#define		RF_TX_AGC					0x13	/* */
++#define		RF_BIAS						0x14	/* */
++#define		RF_IPA						0x15	/* */
++#define		RF_TXBIAS					0x16
++#define		RF_POW_ABILITY			0x17	/* */
++#define		RF_MODE_AG				0x18	/* */
++#define		rRfChannel					0x18	/* RF channel and BW switch */
++#define		RF_CHNLBW					0x18	/* RF channel and BW switch */
++#define		RF_TOP						0x19	/* */
++
++#define		RF_RX_G1					0x1A	/* */
++#define		RF_RX_G2					0x1B	/* */
++
++#define		RF_RX_BB2					0x1C	/* */
++#define		RF_RX_BB1					0x1D	/* */
++
++#define		RF_RCK1					0x1E	/* */
++#define		RF_RCK2					0x1F	/* */
++
++#define		RF_TX_G1					0x20	/* */
++#define		RF_TX_G2					0x21	/* */
++#define		RF_TX_G3					0x22	/* */
++
++#define		RF_TX_BB1					0x23	/* */
++
++#define		RF_T_METER					0x24	/* */
++
++#define		RF_SYN_G1					0x25	/* RF TX Power control */
++#define		RF_SYN_G2					0x26	/* RF TX Power control */
++#define		RF_SYN_G3					0x27	/* RF TX Power control */
++#define		RF_SYN_G4					0x28	/* RF TX Power control */
++#define		RF_SYN_G5					0x29	/* RF TX Power control */
++#define		RF_SYN_G6					0x2A	/* RF TX Power control */
++#define		RF_SYN_G7					0x2B	/* RF TX Power control */
++#define		RF_SYN_G8					0x2C	/* RF TX Power control */
++
++#define		RF_RCK_OS					0x30	/* RF TX PA control */
++
++#define		RF_TXPA_G1					0x31	/* RF TX PA control */
++#define		RF_TXPA_G2					0x32	/* RF TX PA control */
++#define		RF_TXPA_G3					0x33	/* RF TX PA control */
++#define	RF_TX_BIAS_A				0x35
++#define	RF_TX_BIAS_D				0x36
++#define	RF_LOBF_9					0x38
++#define	RF_RXRF_A3					0x3C	/*	 */
++#define	RF_TRSW					0x3F
++
++#define	RF_TXRF_A2					0x41
++#define	RF_T_METER_88E				0x42
++#define	RF_TXPA_G4					0x46
++#define	RF_TXPA_A4					0x4B
++#define	RF_0x52					0x52
++#define	RF_WE_LUT					0xEF
++#define	RF_S0S1					0xB0
++
++/*
++ * Bit Mask
++ *
++ * 1. Page1(0x100) */
++#define		bBBResetB						0x100	/* Useless now? */
++#define		bGlobalResetB					0x200
++#define		bOFDMTxStart					0x4
++#define		bCCKTxStart						0x8
++#define		bCRC32Debug					0x100
++#define		bPMACLoopback					0x10
++#define		bTxLSIG							0xffffff
++#define		bOFDMTxRate					0xf
++#define		bOFDMTxReserved				0x10
++#define		bOFDMTxLength					0x1ffe0
++#define		bOFDMTxParity					0x20000
++#define		bTxHTSIG1						0xffffff
++#define		bTxHTMCSRate					0x7f
++#define		bTxHTBW						0x80
++#define		bTxHTLength					0xffff00
++#define		bTxHTSIG2						0xffffff
++#define		bTxHTSmoothing					0x1
++#define		bTxHTSounding					0x2
++#define		bTxHTReserved					0x4
++#define		bTxHTAggreation				0x8
++#define		bTxHTSTBC						0x30
++#define		bTxHTAdvanceCoding			0x40
++#define		bTxHTShortGI					0x80
++#define		bTxHTNumberHT_LTF			0x300
++#define		bTxHTCRC8						0x3fc00
++#define		bCounterReset					0x10000
++#define		bNumOfOFDMTx					0xffff
++#define		bNumOfCCKTx					0xffff0000
++#define		bTxIdleInterval					0xffff
++#define		bOFDMService					0xffff0000
++#define		bTxMACHeader					0xffffffff
++#define		bTxDataInit						0xff
++#define		bTxHTMode						0x100
++#define		bTxDataType					0x30000
++#define		bTxRandomSeed					0xffffffff
++#define		bCCKTxPreamble					0x1
++#define		bCCKTxSFD						0xffff0000
++#define		bCCKTxSIG						0xff
++#define		bCCKTxService					0xff00
++#define		bCCKLengthExt					0x8000
++#define		bCCKTxLength					0xffff0000
++#define		bCCKTxCRC16					0xffff
++#define		bCCKTxStatus					0x1
++#define		bOFDMTxStatus					0x2
++
++#define		IS_BB_REG_OFFSET_92S(_Offset)		((_Offset >= 0x800) && (_Offset <= 0xfff))
++#define	RF_TX_GAIN_OFFSET_8723D(_val) (abs((_val)) | (((_val) > 0) ? BIT(5) : 0))
++
++/* 2. Page8(0x800) */
++#define		bRFMOD							0x1	/* Reg 0x800 rFPGA0_RFMOD */
++#define		bJapanMode						0x2
++#define		bCCKTxSC						0x30
++#define		bCCKEn							0x1000000
++#define		bOFDMEn						0x2000000
++
++#define		bOFDMRxADCPhase           0x10000	/* Useless now */
++#define		bOFDMTxDACPhase		0x40000
++#define		bXATxAGC			0x3f
++
++#define		bAntennaSelect		0x0300
++
++#define		bXBTxAGC                 0xf00	/* Reg 80c rFPGA0_TxGainStage */
++#define		bXCTxAGC			0xf000
++#define		bXDTxAGC			0xf0000
++
++#define		bPAStart                 0xf0000000	/* Useless now */
++#define		bTRStart			0x00f00000
++#define		bRFStart			0x0000f000
++#define		bBBStart			0x000000f0
++#define		bBBCCKStart		0x0000000f
++#define		bPAEnd                    0xf          /* Reg0x814 */
++#define		bTREnd			0x0f000000
++#define		bRFEnd			0x000f0000
++#define		bCCAMask                  0x000000f0   /* T2R */
++#define		bR2RCCAMask		0x00000f00
++#define		bHSSI_R2TDelay		0xf8000000
++#define		bHSSI_T2RDelay		0xf80000
++#define		bContTxHSSI              0x400     /* chane gain at continue Tx */
++#define		bIGFromCCK		0x200
++#define		bAGCAddress		0x3f
++#define		bRxHPTx			0x7000
++#define		bRxHPT2R			0x38000
++#define		bRxHPCCKIni		0xc0000
++#define		bAGCTxCode		0xc00000
++#define		bAGCRxCode		0x300000
++
++#define		b3WireDataLength         0x800	/* Reg 0x820~84f rFPGA0_XA_HSSIParameter1 */
++#define		b3WireAddressLength		0x400
++
++#define		b3WireRFPowerDown         0x1	/* Useless now
++ * #define bHWSISelect		0x8 */
++#define		b5GPAPEPolarity		0x40000000
++#define		b2GPAPEPolarity		0x80000000
++#define		bRFSW_TxDefaultAnt		0x3
++#define		bRFSW_TxOptionAnt		0x30
++#define		bRFSW_RxDefaultAnt		0x300
++#define		bRFSW_RxOptionAnt		0x3000
++#define		bRFSI_3WireData		0x1
++#define		bRFSI_3WireClock		0x2
++#define		bRFSI_3WireLoad		0x4
++#define		bRFSI_3WireRW		0x8
++#define		bRFSI_3Wire			0xf
++
++#define		bRFSI_RFENV              0x10	/* Reg 0x870 rFPGA0_XAB_RFInterfaceSW */
++
++#define		bRFSI_TRSW               0x20	/* Useless now */
++#define		bRFSI_TRSWB		0x40
++#define		bRFSI_ANTSW		0x100
++#define		bRFSI_ANTSWB		0x200
++#define		bRFSI_PAPE			0x400
++#define		bRFSI_PAPE5G		0x800
++#define		bBandSelect			0x1
++#define		bHTSIG2_GI			0x80
++#define		bHTSIG2_Smoothing		0x01
++#define		bHTSIG2_Sounding		0x02
++#define		bHTSIG2_Aggreaton		0x08
++#define		bHTSIG2_STBC		0x30
++#define		bHTSIG2_AdvCoding		0x40
++#define		bHTSIG2_NumOfHTLTF	0x300
++#define		bHTSIG2_CRC8		0x3fc
++#define		bHTSIG1_MCS		0x7f
++#define		bHTSIG1_BandWidth		0x80
++#define		bHTSIG1_HTLength		0xffff
++#define		bLSIG_Rate			0xf
++#define		bLSIG_Reserved		0x10
++#define		bLSIG_Length		0x1fffe
++#define		bLSIG_Parity			0x20
++#define		bCCKRxPhase		0x4
++
++#define		bLSSIReadAddress          0x7f800000   /* T65 RF */
++
++#define		bLSSIReadEdge             0x80000000   /* LSSI "Read" edge signal */
++
++#define		bLSSIReadBackData         0xfffff		/* T65 RF */
++
++#define		bLSSIReadOKFlag           0x1000	/* Useless now */
++#define		bCCKSampleRate            0x8       /* 0: 44MHz, 1:88MHz     */
++#define		bRegulator0Standby		0x1
++#define		bRegulatorPLLStandby		0x2
++#define		bRegulator1Standby		0x4
++#define		bPLLPowerUp		0x8
++#define		bDPLLPowerUp		0x10
++#define		bDA10PowerUp		0x20
++#define		bAD7PowerUp		0x200
++#define		bDA6PowerUp		0x2000
++#define		bXtalPowerUp		0x4000
++#define		b40MDClkPowerUP		0x8000
++#define		bDA6DebugMode		0x20000
++#define		bDA6Swing			0x380000
++
++#define		bADClkPhase               0x4000000	/* Reg 0x880 rFPGA0_AnalogParameter1 20/40 CCK support switch 40/80 BB MHZ */
++
++#define		b80MClkDelay              0x18000000	/* Useless */
++#define		bAFEWatchDogEnable		0x20000000
++
++#define		bXtalCap01                0xc0000000	/* Reg 0x884 rFPGA0_AnalogParameter2 Crystal cap */
++#define		bXtalCap23			0x3
++#define		bXtalCap92x					0x0f000000
++#define		bXtalCap			0x0f000000
++
++#define		bIntDifClkEnable          0x400	/* Useless */
++#define		bExtSigClkEnable		0x800
++#define		bBandgapMbiasPowerUp	0x10000
++#define		bAD11SHGain		0xc0000
++#define		bAD11InputRange		0x700000
++#define		bAD11OPCurrent		0x3800000
++#define		bIPathLoopback		0x4000000
++#define		bQPathLoopback		0x8000000
++#define		bAFELoopback		0x10000000
++#define		bDA10Swing		0x7e0
++#define		bDA10Reverse		0x800
++#define		bDAClkSource		0x1000
++#define		bAD7InputRange		0x6000
++#define		bAD7Gain			0x38000
++#define		bAD7OutputCMMode		0x40000
++#define		bAD7InputCMMode		0x380000
++#define		bAD7Current			0xc00000
++#define		bRegulatorAdjust		0x7000000
++#define		bAD11PowerUpAtTx		0x1
++#define		bDA10PSAtTx		0x10
++#define		bAD11PowerUpAtRx		0x100
++#define		bDA10PSAtRx		0x1000
++#define		bCCKRxAGCFormat		0x200
++#define		bPSDFFTSamplepPoint		0xc000
++#define		bPSDAverageNum		0x3000
++#define		bIQPathControl		0xc00
++#define		bPSDFreq			0x3ff
++#define		bPSDAntennaPath		0x30
++#define		bPSDIQSwitch		0x40
++#define		bPSDRxTrigger		0x400000
++#define		bPSDTxTrigger		0x80000000
++#define		bPSDSineToneScale		0x7f000000
++#define		bPSDReport			0xffff
++
++/* 3. Page9(0x900) */
++#define		bOFDMTxSC                 0x30000000	/* Useless */
++#define		bCCKTxOn			0x1
++#define		bOFDMTxOn		0x2
++#define		bDebugPage                0xfff  /* reset debug page and also HWord, LWord */
++#define		bDebugItem                0xff   /* reset debug page and LWord */
++#define		bAntL			0x10
++#define		bAntNonHT				0x100
++#define		bAntHT1			0x1000
++#define		bAntHT2			0x10000
++#define		bAntHT1S1			0x100000
++#define		bAntNonHTS1		0x1000000
++
++/* 4. PageA(0xA00) */
++#define		bCCKBBMode				0x3	/* Useless */
++#define		bCCKTxPowerSaving		0x80
++#define		bCCKRxPowerSaving		0x40
++
++#define		bCCKSideBand			0x10	/* Reg 0xa00 rCCK0_System 20/40 switch */
++
++#define		bCCKScramble			0x8	/* Useless */
++#define		bCCKAntDiversity		0x8000
++#define		bCCKCarrierRecovery		0x4000
++#define		bCCKTxRate				0x3000
++#define		bCCKDCCancel			0x0800
++#define		bCCKISICancel			0x0400
++#define		bCCKMatchFilter			0x0200
++#define		bCCKEqualizer			0x0100
++#define		bCCKPreambleDetect		0x800000
++#define		bCCKFastFalseCCA		0x400000
++#define		bCCKChEstStart			0x300000
++#define		bCCKCCACount			0x080000
++#define		bCCKcs_lim				0x070000
++#define		bCCKBistMode			0x80000000
++#define		bCCKCCAMask			0x40000000
++#define		bCCKTxDACPhase		0x4
++#define		bCCKRxADCPhase		0x20000000   /* r_rx_clk */
++#define		bCCKr_cp_mode0		0x0100
++#define		bCCKTxDCOffset			0xf0
++#define		bCCKRxDCOffset			0xf
++#define		bCCKCCAMode			0xc000
++#define		bCCKFalseCS_lim			0x3f00
++#define		bCCKCS_ratio			0xc00000
++#define		bCCKCorgBit_sel			0x300000
++#define		bCCKPD_lim				0x0f0000
++#define		bCCKNewCCA			0x80000000
++#define		bCCKRxHPofIG			0x8000
++#define		bCCKRxIG				0x7f00
++#define		bCCKLNAPolarity			0x800000
++#define		bCCKRx1stGain			0x7f0000
++#define		bCCKRFExtend			0x20000000 /* CCK Rx Iinital gain polarity */
++#define		bCCKRxAGCSatLevel		0x1f000000
++#define		bCCKRxAGCSatCount		0xe0
++#define		bCCKRxRFSettle			0x1f       /* AGCsamp_dly */
++#define		bCCKFixedRxAGC			0x8000
++/* #define bCCKRxAGCFormat		0x4000 */   /* remove to HSSI register 0x824 */
++#define		bCCKAntennaPolarity		0x2000
++#define		bCCKTxFilterType		0x0c00
++#define		bCCKRxAGCReportType	0x0300
++#define		bCCKRxDAGCEn			0x80000000
++#define		bCCKRxDAGCPeriod		0x20000000
++#define		bCCKRxDAGCSatLevel		0x1f000000
++#define		bCCKTimingRecovery		0x800000
++#define		bCCKTxC0				0x3f0000
++#define		bCCKTxC1				0x3f000000
++#define		bCCKTxC2				0x3f
++#define		bCCKTxC3				0x3f00
++#define		bCCKTxC4				0x3f0000
++#define		bCCKTxC5				0x3f000000
++#define		bCCKTxC6				0x3f
++#define		bCCKTxC7				0x3f00
++#define		bCCKDebugPort			0xff0000
++#define		bCCKDACDebug			0x0f000000
++#define		bCCKFalseAlarmEnable	0x8000
++#define		bCCKFalseAlarmRead		0x4000
++#define		bCCKTRSSI				0x7f
++#define		bCCKRxAGCReport		0xfe
++#define		bCCKRxReport_AntSel	0x80000000
++#define		bCCKRxReport_MFOff		0x40000000
++#define		bCCKRxRxReport_SQLoss	0x20000000
++#define		bCCKRxReport_Pktloss	0x10000000
++#define		bCCKRxReport_Lockedbit	0x08000000
++#define		bCCKRxReport_RateError	0x04000000
++#define		bCCKRxReport_RxRate	0x03000000
++#define		bCCKRxFACounterLower	0xff
++#define		bCCKRxFACounterUpper	0xff000000
++#define		bCCKRxHPAGCStart		0xe000
++#define		bCCKRxHPAGCFinal		0x1c00
++#define		bCCKRxFalseAlarmEnable	0x8000
++#define		bCCKFACounterFreeze	0x4000
++#define		bCCKTxPathSel			0x10000000
++#define		bCCKDefaultRxPath		0xc000000
++#define		bCCKOptionRxPath		0x3000000
++
++/* 5. PageC(0xC00) */
++#define		bNumOfSTF				0x3	/* Useless */
++#define		bShift_L					0xc0
++#define		bGI_TH					0xc
++#define		bRxPathA				0x1
++#define		bRxPathB				0x2
++#define		bRxPathC				0x4
++#define		bRxPathD				0x8
++#define		bTxPathA				0x1
++#define		bTxPathB				0x2
++#define		bTxPathC				0x4
++#define		bTxPathD				0x8
++#define		bTRSSIFreq				0x200
++#define		bADCBackoff				0x3000
++#define		bDFIRBackoff			0xc000
++#define		bTRSSILatchPhase		0x10000
++#define		bRxIDCOffset			0xff
++#define		bRxQDCOffset			0xff00
++#define		bRxDFIRMode			0x1800000
++#define		bRxDCNFType			0xe000000
++#define		bRXIQImb_A				0x3ff
++#define		bRXIQImb_B				0xfc00
++#define		bRXIQImb_C				0x3f0000
++#define		bRXIQImb_D				0xffc00000
++#define		bDC_dc_Notch			0x60000
++#define		bRxNBINotch			0x1f000000
++#define		bPD_TH					0xf
++#define		bPD_TH_Opt2			0xc000
++#define		bPWED_TH				0x700
++#define		bIfMF_Win_L			0x800
++#define		bPD_Option				0x1000
++#define		bMF_Win_L				0xe000
++#define		bBW_Search_L			0x30000
++#define		bwin_enh_L				0xc0000
++#define		bBW_TH					0x700000
++#define		bED_TH2				0x3800000
++#define		bBW_option				0x4000000
++#define		bRatio_TH				0x18000000
++#define		bWindow_L				0xe0000000
++#define		bSBD_Option				0x1
++#define		bFrame_TH				0x1c
++#define		bFS_Option				0x60
++#define		bDC_Slope_check		0x80
++#define		bFGuard_Counter_DC_L	0xe00
++#define		bFrame_Weight_Short	0x7000
++#define		bSub_Tune				0xe00000
++#define		bFrame_DC_Length		0xe000000
++#define		bSBD_start_offset		0x30000000
++#define		bFrame_TH_2			0x7
++#define		bFrame_GI2_TH			0x38
++#define		bGI2_Sync_en			0x40
++#define		bSarch_Short_Early		0x300
++#define		bSarch_Short_Late		0xc00
++#define		bSarch_GI2_Late		0x70000
++#define		bCFOAntSum				0x1
++#define		bCFOAcc				0x2
++#define		bCFOStartOffset			0xc
++#define		bCFOLookBack			0x70
++#define		bCFOSumWeight			0x80
++#define		bDAGCEnable			0x10000
++#define		bTXIQImb_A				0x3ff
++#define		bTXIQImb_B				0xfc00
++#define		bTXIQImb_C				0x3f0000
++#define		bTXIQImb_D				0xffc00000
++#define		bTxIDCOffset			0xff
++#define		bTxQDCOffset			0xff00
++#define		bTxDFIRMode			0x10000
++#define		bTxPesudoNoiseOn		0x4000000
++#define		bTxPesudoNoise_A		0xff
++#define		bTxPesudoNoise_B		0xff00
++#define		bTxPesudoNoise_C		0xff0000
++#define		bTxPesudoNoise_D		0xff000000
++#define		bCCADropOption			0x20000
++#define		bCCADropThres			0xfff00000
++#define		bEDCCA_H				0xf
++#define		bEDCCA_L				0xf0
++#define		bLambda_ED			0x300
++#define		bRxInitialGain			0x7f
++#define		bRxAntDivEn				0x80
++#define		bRxAGCAddressForLNA	0x7f00
++#define		bRxHighPowerFlow		0x8000
++#define		bRxAGCFreezeThres		0xc0000
++#define		bRxFreezeStep_AGC1	0x300000
++#define		bRxFreezeStep_AGC2	0xc00000
++#define		bRxFreezeStep_AGC3	0x3000000
++#define		bRxFreezeStep_AGC0	0xc000000
++#define		bRxRssi_Cmp_En			0x10000000
++#define		bRxQuickAGCEn			0x20000000
++#define		bRxAGCFreezeThresMode	0x40000000
++#define		bRxOverFlowCheckType	0x80000000
++#define		bRxAGCShift				0x7f
++#define		bTRSW_Tri_Only			0x80
++#define		bPowerThres			0x300
++#define		bRxAGCEn				0x1
++#define		bRxAGCTogetherEn		0x2
++#define		bRxAGCMin				0x4
++#define		bRxHP_Ini				0x7
++#define		bRxHP_TRLNA			0x70
++#define		bRxHP_RSSI				0x700
++#define		bRxHP_BBP1				0x7000
++#define		bRxHP_BBP2				0x70000
++#define		bRxHP_BBP3				0x700000
++#define		bRSSI_H					0x7f0000     /* the threshold for high power */
++#define		bRSSI_Gen				0x7f000000   /* the threshold for ant diversity */
++#define		bRxSettle_TRSW			0x7
++#define		bRxSettle_LNA			0x38
++#define		bRxSettle_RSSI			0x1c0
++#define		bRxSettle_BBP			0xe00
++#define		bRxSettle_RxHP			0x7000
++#define		bRxSettle_AntSW_RSSI	0x38000
++#define		bRxSettle_AntSW		0xc0000
++#define		bRxProcessTime_DAGC	0x300000
++#define		bRxSettle_HSSI			0x400000
++#define		bRxProcessTime_BBPPW	0x800000
++#define		bRxAntennaPowerShift	0x3000000
++#define		bRSSITableSelect		0xc000000
++#define		bRxHP_Final				0x7000000
++#define		bRxHTSettle_BBP			0x7
++#define		bRxHTSettle_HSSI		0x8
++#define		bRxHTSettle_RxHP		0x70
++#define		bRxHTSettle_BBPPW		0x80
++#define		bRxHTSettle_Idle		0x300
++#define		bRxHTSettle_Reserved	0x1c00
++#define		bRxHTRxHPEn			0x8000
++#define		bRxHTAGCFreezeThres	0x30000
++#define		bRxHTAGCTogetherEn	0x40000
++#define		bRxHTAGCMin			0x80000
++#define		bRxHTAGCEn				0x100000
++#define		bRxHTDAGCEn			0x200000
++#define		bRxHTRxHP_BBP			0x1c00000
++#define		bRxHTRxHP_Final		0xe0000000
++#define		bRxPWRatioTH			0x3
++#define		bRxPWRatioEn			0x4
++#define		bRxMFHold				0x3800
++#define		bRxPD_Delay_TH1		0x38
++#define		bRxPD_Delay_TH2		0x1c0
++#define		bRxPD_DC_COUNT_MAX	0x600
++/* #define bRxMF_Hold               0x3800 */
++#define		bRxPD_Delay_TH			0x8000
++#define		bRxProcess_Delay		0xf0000
++#define		bRxSearchrange_GI2_Early	0x700000
++#define		bRxFrame_Guard_Counter_L	0x3800000
++#define		bRxSGI_Guard_L			0xc000000
++#define		bRxSGI_Search_L		0x30000000
++#define		bRxSGI_TH				0xc0000000
++#define		bDFSCnt0				0xff
++#define		bDFSCnt1				0xff00
++#define		bDFSFlag				0xf0000
++#define		bMFWeightSum			0x300000
++#define		bMinIdxTH				0x7f000000
++#define		bDAFormat				0x40000
++#define		bTxChEmuEnable		0x01000000
++#define		bTRSWIsolation_A		0x7f
++#define		bTRSWIsolation_B		0x7f00
++#define		bTRSWIsolation_C		0x7f0000
++#define		bTRSWIsolation_D		0x7f000000
++#define		bExtLNAGain				0x7c00
++
++/* 6. PageE(0xE00) */
++#define		bSTBCEn				0x4	/* Useless */
++#define		bAntennaMapping		0x10
++#define		bNss					0x20
++#define		bCFOAntSumD			0x200
++#define		bPHYCounterReset		0x8000000
++#define		bCFOReportGet			0x4000000
++#define		bOFDMContinueTx		0x10000000
++#define		bOFDMSingleCarrier		0x20000000
++#define		bOFDMSingleTone		0x40000000
++/* #define bRxPath1                 0x01 */
++/* #define bRxPath2                 0x02 */
++/* #define bRxPath3                 0x04 */
++/* #define bRxPath4                 0x08 */
++/* #define bTxPath1                 0x10 */
++/* #define bTxPath2                 0x20 */
++#define		bHTDetect			0x100
++#define		bCFOEn				0x10000
++#define		bCFOValue			0xfff00000
++#define		bSigTone_Re		0x3f
++#define		bSigTone_Im		0x7f00
++#define		bCounter_CCA		0xffff
++#define		bCounter_ParityFail	0xffff0000
++#define		bCounter_RateIllegal		0xffff
++#define		bCounter_CRC8Fail	0xffff0000
++#define		bCounter_MCSNoSupport	0xffff
++#define		bCounter_FastSync	0xffff
++#define		bShortCFO			0xfff
++#define		bShortCFOTLength	12   /* total */
++#define		bShortCFOFLength	11   /* fraction */
++#define		bLongCFO			0x7ff
++#define		bLongCFOTLength	11
++#define		bLongCFOFLength	11
++#define		bTailCFO			0x1fff
++#define		bTailCFOTLength		13
++#define		bTailCFOFLength		12
++#define		bmax_en_pwdB		0xffff
++#define		bCC_power_dB		0xffff0000
++#define		bnoise_pwdB		0xffff
++#define		bPowerMeasTLength	10
++#define		bPowerMeasFLength	3
++#define		bRx_HT_BW			0x1
++#define		bRxSC				0x6
++#define		bRx_HT				0x8
++#define		bNB_intf_det_on		0x1
++#define		bIntf_win_len_cfg	0x30
++#define		bNB_Intf_TH_cfg		0x1c0
++#define		bRFGain				0x3f
++#define		bTableSel			0x40
++#define		bTRSW				0x80
++#define		bRxSNR_A			0xff
++#define		bRxSNR_B			0xff00
++#define		bRxSNR_C			0xff0000
++#define		bRxSNR_D			0xff000000
++#define		bSNREVMTLength		8
++#define		bSNREVMFLength		1
++#define		bCSI1st				0xff
++#define		bCSI2nd				0xff00
++#define		bRxEVM1st			0xff0000
++#define		bRxEVM2nd			0xff000000
++#define		bSIGEVM			0xff
++#define		bPWDB				0xff00
++#define		bSGIEN				0x10000
++
++#define		bSFactorQAM1		0xf	/* Useless */
++#define		bSFactorQAM2		0xf0
++#define		bSFactorQAM3		0xf00
++#define		bSFactorQAM4		0xf000
++#define		bSFactorQAM5		0xf0000
++#define		bSFactorQAM6		0xf0000
++#define		bSFactorQAM7		0xf00000
++#define		bSFactorQAM8		0xf000000
++#define		bSFactorQAM9		0xf0000000
++#define		bCSIScheme			0x100000
++
++#define		bNoiseLvlTopSet		0x3	/* Useless */
++#define		bChSmooth			0x4
++#define		bChSmoothCfg1		0x38
++#define		bChSmoothCfg2		0x1c0
++#define		bChSmoothCfg3		0xe00
++#define		bChSmoothCfg4		0x7000
++#define		bMRCMode			0x800000
++#define		bTHEVMCfg			0x7000000
++
++#define		bLoopFitType		0x1	/* Useless */
++#define		bUpdCFO			0x40
++#define		bUpdCFOOffData		0x80
++#define		bAdvUpdCFO			0x100
++#define		bAdvTimeCtrl		0x800
++#define		bUpdClko			0x1000
++#define		bFC					0x6000
++#define		bTrackingMode		0x8000
++#define		bPhCmpEnable		0x10000
++#define		bUpdClkoLTF		0x20000
++#define		bComChCFO			0x40000
++#define		bCSIEstiMode		0x80000
++#define		bAdvUpdEqz			0x100000
++#define		bUChCfg				0x7000000
++#define		bUpdEqz			0x8000000
++
++/* Rx Pseduo noise */
++#define		bRxPesudoNoiseOn		0x20000000	/* Useless */
++#define		bRxPesudoNoise_A		0xff
++#define		bRxPesudoNoise_B		0xff00
++#define		bRxPesudoNoise_C		0xff0000
++#define		bRxPesudoNoise_D		0xff000000
++#define		bPesudoNoiseState_A	0xffff
++#define		bPesudoNoiseState_B	0xffff0000
++#define		bPesudoNoiseState_C	0xffff
++#define		bPesudoNoiseState_D	0xffff0000
++
++/* 7. RF Register
++ * Zebra1 */
++#define		bZebra1_HSSIEnable		0x8		/* Useless */
++#define		bZebra1_TRxControl		0xc00
++#define		bZebra1_TRxGainSetting	0x07f
++#define		bZebra1_RxCorner		0xc00
++#define		bZebra1_TxChargePump	0x38
++#define		bZebra1_RxChargePump	0x7
++#define		bZebra1_ChannelNum	0xf80
++#define		bZebra1_TxLPFBW		0x400
++#define		bZebra1_RxLPFBW		0x600
++
++/* Zebra4 */
++#define		bRTL8256RegModeCtrl1	0x100	/* Useless */
++#define		bRTL8256RegModeCtrl0	0x40
++#define		bRTL8256_TxLPFBW		0x18
++#define		bRTL8256_RxLPFBW		0x600
++
++/* RTL8258 */
++#define		bRTL8258_TxLPFBW		0xc	/* Useless */
++#define		bRTL8258_RxLPFBW		0xc00
++#define		bRTL8258_RSSILPFBW	0xc0
++
++
++/*
++ * Other Definition
++ *   */
++
++/* byte endable for sb_write */
++#define		bByte0				0x1	/* Useless */
++#define		bByte1				0x2
++#define		bByte2				0x4
++#define		bByte3				0x8
++#define		bWord0				0x3
++#define		bWord1				0xc
++#define		bDWord				0xf
++
++/* for PutRegsetting & GetRegSetting BitMask */
++#define		bMaskByte0			0xff	/* Reg 0xc50 rOFDM0_XAAGCCore~0xC6f */
++#define		bMaskByte1			0xff00
++#define		bMaskByte2			0xff0000
++#define		bMaskByte3			0xff000000
++#define		bMaskHWord		0xffff0000
++#define		bMaskLWord			0x0000ffff
++#define		bMaskDWord		0xffffffff
++#define		bMaskH3Bytes		0xffffff00
++#define		bMask12Bits			0xfff
++#define		bMaskH4Bits			0xf0000000
++#define		bMaskOFDM_D		0xffc00000
++#define		bMaskCCK			0x3f3f3f3f
++
++
++#define		bEnable			0x1	/* Useless */
++#define		bDisable		0x0
++
++#define		LeftAntenna		0x0	/* Useless */
++#define		RightAntenna	0x1
++
++#define		tCheckTxStatus		500   /* 500ms // Useless */
++#define		tUpdateRxCounter	100   /* 100ms */
++
++#define		rateCCK		0	/* Useless */
++#define		rateOFDM	1
++#define		rateHT		2
++
++/* define Register-End */
++#define		bPMAC_End			0x1ff	/* Useless */
++#define		bFPGAPHY0_End		0x8ff
++#define		bFPGAPHY1_End		0x9ff
++#define		bCCKPHY0_End		0xaff
++#define		bOFDMPHY0_End		0xcff
++#define		bOFDMPHY1_End		0xdff
++
++/* define max debug item in each debug page
++ * #define bMaxItem_FPGA_PHY0        0x9
++ * #define bMaxItem_FPGA_PHY1        0x3
++ * #define bMaxItem_PHY_11B          0x16
++ * #define bMaxItem_OFDM_PHY0        0x29
++ * #define bMaxItem_OFDM_PHY1        0x0 */
++
++#define		bPMACControl		0x0		/* Useless */
++#define		bWMACControl		0x1
++#define		bWNICControl		0x2
++
++#define		PathA			0x0	/* Useless */
++#define		PathB			0x1
++#define		PathC			0x2
++#define		PathD			0x3
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8723DPwrSeq.h b/drivers/net/wireless/rtl8812au/include/Hal8723DPwrSeq.h
+new file mode 100644
+index 0000000..e7a6013
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8723DPwrSeq.h
+@@ -0,0 +1,194 @@
++#ifndef REALTEK_POWER_SEQUENCE_8723D
++#define REALTEK_POWER_SEQUENCE_8723D
++
++/* #include "PwrSeqCmd.h" */
++#include "HalPwrSeqCmd.h"
++
++/*
++	Check document WM-20110607-Paul-RTL8192e_Power_Architecture-R02.vsd
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transition from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++*/
++#define	RTL8723D_TRANS_CARDEMU_TO_ACT_STEPS	27
++#define	RTL8723D_TRANS_ACT_TO_CARDEMU_STEPS	8
++#define	RTL8723D_TRANS_CARDEMU_TO_SUS_STEPS	7
++#define	RTL8723D_TRANS_SUS_TO_CARDEMU_STEPS	5
++#define	RTL8723D_TRANS_CARDEMU_TO_CARDDIS_STEPS	8
++#define	RTL8723D_TRANS_CARDDIS_TO_CARDEMU_STEPS	7
++#define	RTL8723D_TRANS_CARDEMU_TO_PDN_STEPS	4
++#define	RTL8723D_TRANS_PDN_TO_CARDEMU_STEPS	1
++#define	RTL8723D_TRANS_ACT_TO_LPS_STEPS		13
++#define	RTL8723D_TRANS_LPS_TO_ACT_STEPS		11
++#define	RTL8723D_TRANS_END_STEPS	1
++
++
++#define RTL8723D_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), BIT(0)}, /*0x20[0] = 1b'1 enable LDOA12 MACRO block for all interface*/	\
++	{0x0067, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(4), 0}, /*0x67[0] = 0 to disable BT_GPS_SEL pins*/	\
++	{0x0001, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 1, PWRSEQ_DELAY_MS},/*Delay 1ms*/   \
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(5), 0}, /*0x00[5] = 1b'0 release analog Ips to digital ,1:isolation*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT(4) | BIT(3) | BIT2), 0},/* disable SW LPS 0x04[10]=0 and WLSUS_EN 0x04[11]=0*/ \
++	{0x0075, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0) , BIT(0)},/* Disable USB suspend */	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT(1), BIT(1)},/* wait till 0x04[17] = 1    power ready*/	\
++	{0x0075, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0) , 0},/* Enable USB suspend */	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), BIT(0)},/* release WLON reset  0x04[16]=1*/ \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, (BIT(1) | BIT(0)), 0}, \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(7), 0},/* disable HWPDN 0x04[15]=0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT(4) | BIT(3)), 0},/* disable WL suspend*/ \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), BIT(0)},/* polling until return 0*/ \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT(0), 0},/**/ \
++	{0x0010, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(6), BIT(6)},/* Enable WL control XTAL setting*/ \
++	{0x0049, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1), BIT(1)},/*Enable falling edge triggering interrupt*/\
++	{0x0063, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1), BIT(1)},/*Enable GPIO9 interrupt mode*/\
++	{0x0062, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1), 0},/*Enable GPIO9 input mode*/\
++	{0x0058, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), BIT(0)},/*Enable HSISR GPIO[C:0] interrupt*/\
++	{0x005A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1), BIT(1)},/*Enable HSISR GPIO9 interrupt*/\
++	{0x0068, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(3), BIT(3)},/*For GPIO9 internal pull high setting by test chip*/\
++	{0x0069, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(6), BIT(6)},/*For GPIO9 internal pull high setting*/\
++	{0x0073, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(2), BIT(2)},/*GNT Controlled by Wifi*/\
++	{0x001f, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/*reset RF path S1*/\
++	{0x0077, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/*reset RF path S0*/\
++	{0x001f, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x07},/*enable RF path S1*/\
++	{0x0077, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x07},/*enalbe RF path S0*/\
++
++
++#define RTL8723D_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	/*{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, */ /*0x1F[7:0] = 0 turn off RF*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), 0}, /*0x2[0]=0 Reset BB, RF enter Power Down mode*/ \
++	{0x0049, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1), 0},/*Enable rising edge triggering interrupt*/ \
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), BIT(0)},/* release WLON reset  0x04[16]=1*/ \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1), BIT(1)}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT(1), 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/ \
++	{0x0010, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(6), 0},/* Enable BT control XTAL setting*/\
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(5), BIT(5)}, /*0x00[5] = 1b'1 analog Ips to digital ,1:isolation*/   \
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), 0}, /*0x20[0] = 1b'0 disable LDOA12 MACRO block*/\
++
++
++#define RTL8723D_TRANS_CARDEMU_TO_SUS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(4) | BIT(3), (BIT4 | BIT3)}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/ \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(3) | BIT(4), BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(4), BIT(4)}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SDIO SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(3) | BIT(4), BIT3 | BIT4}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT(0), BIT(0)}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT(1), 0}, /*wait power state to suspend*/
++
++#define RTL8723D_TRANS_SUS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(3) | BIT(7), 0}, /*clear suspend enable and power down enable*/ \
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT(0), 0}, /*Set SDIO suspend local register*/ \
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT(1), BIT(1)}, /*wait power state to suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(4), 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(3) | BIT(4), 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
++
++
++#define RTL8723D_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07 = 0x20 , SOP option to disable BG/MB*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(3) | BIT(4), BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(2), BIT(2)}, /*0x04[10] = 1, enable SW LPS*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(3) | BIT(4), BIT3 | BIT4}, /*0x04[12:11] = 2b'11 enable WL suspend*/	\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), 1}, /*0x48[16] = 1 to enable GPIO9 as EXT WAKEUP*/   \
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(4), BIT(4)}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT(0), BIT(0)}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT(1), 0}, /*wait power state to suspend*/
++
++#define RTL8723D_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(3) | BIT(7), 0}, /*clear suspend enable and power down enable*/ \
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT(0), 0}, /*Set SDIO suspend local register*/ \
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT(1), BIT(1)}, /*wait power state to suspend*/\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), 0}, /*0x48[16] = 0 to disable GPIO9 as EXT WAKEUP*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(3) | BIT(4), 0}, /*0x04[12:11] = 2b'01enable WL suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(4), 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*PCIe DMA start*/
++
++
++#define RTL8723D_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(4), BIT(4)}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK | PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), 0},/* 0x04[16] = 0*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(7), BIT(7)},/* 0x04[15] = 1*/
++
++#define RTL8723D_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(7), 0},/* 0x04[15] = 0*/
++
++#define RTL8723D_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*PCIe DMA stop*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*Tx Pause*/	\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(0), 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1), 0},/*Whole BB is reset*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x03},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1), 0},/*check if removed later*/ \
++	{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/*When driver enter Sus/ Disable, enable LOP for BT*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(5), BIT(5)},/*Respond TxOK to scheduler*/	\
++
++
++#define RTL8723D_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM*/\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/\
++	{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(4), 0}, /*.	0x08[4] = 0  switch TSF to 40M*/\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT(7), 0}, /*Polling 0x109[7]=0  TSF in 40M*/\
++	{0x0029, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(6) | BIT(7), 0}, /*.	0x29[7:6] = 2b'00	 enable BB clock*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1), BIT(1)}, /*.	0x101[1] = 1*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT(1) | BIT(0), BIT1 | BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++#define RTL8723D_TRANS_END															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, / comments here*/								\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++	extern WLAN_PWR_CFG rtl8723D_power_on_flow[RTL8723D_TRANS_CARDEMU_TO_ACT_STEPS + RTL8723D_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723D_radio_off_flow[RTL8723D_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723D_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723D_card_disable_flow[RTL8723D_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723D_TRANS_CARDEMU_TO_CARDDIS_STEPS + RTL8723D_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723D_card_enable_flow[RTL8723D_TRANS_CARDDIS_TO_CARDEMU_STEPS + RTL8723D_TRANS_CARDEMU_TO_ACT_STEPS + RTL8723D_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723D_suspend_flow[RTL8723D_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723D_TRANS_CARDEMU_TO_SUS_STEPS + RTL8723D_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723D_resume_flow[RTL8723D_TRANS_SUS_TO_CARDEMU_STEPS + RTL8723D_TRANS_CARDEMU_TO_ACT_STEPS + RTL8723D_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723D_hwpdn_flow[RTL8723D_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723D_TRANS_CARDEMU_TO_PDN_STEPS + RTL8723D_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723D_enter_lps_flow[RTL8723D_TRANS_ACT_TO_LPS_STEPS + RTL8723D_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723D_leave_lps_flow[RTL8723D_TRANS_LPS_TO_ACT_STEPS + RTL8723D_TRANS_END_STEPS];
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8723PwrSeq.h b/drivers/net/wireless/rtl8812au/include/Hal8723PwrSeq.h
+new file mode 100644
+index 0000000..6669641
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8723PwrSeq.h
+@@ -0,0 +1,169 @@
++#ifndef __HAL8723PWRSEQ_H__
++#define __HAL8723PWRSEQ_H__
++/*
++	Check document WM-20110607-Paul-RTL8723A_Power_Architecture-R02.vsd
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transision from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++*/
++#include "HalPwrSeqCmd.h"
++
++#define	RTL8723A_TRANS_CARDEMU_TO_ACT_STEPS	15
++#define	RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS	15
++#define	RTL8723A_TRANS_CARDEMU_TO_SUS_STEPS	15
++#define	RTL8723A_TRANS_SUS_TO_CARDEMU_STEPS	15
++#define	RTL8723A_TRANS_CARDEMU_TO_PDN_STEPS	15
++#define	RTL8723A_TRANS_PDN_TO_CARDEMU_STEPS	15
++#define	RTL8723A_TRANS_ACT_TO_LPS_STEPS	15
++#define	RTL8723A_TRANS_LPS_TO_ACT_STEPS	15
++#define	RTL8723A_TRANS_END_STEPS	1
++
++
++#define RTL8723A_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /*0x20[0] = 1b'1 enable LDOA12 MACRO block for all interface*/   \
++	{0x0067, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x67[0] = 0 to disable BT_GPS_SEL pins*/	\
++	{0x0001, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 1, PWRSEQ_DELAY_MS},/*Delay 1ms*/   \
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, 0}, /*0x00[5] = 1b'0 release analog Ips to digital ,1:isolation*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0},/* disable SW LPS 0x04[10]=0*/	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1    power ready*/	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* release WLON reset  0x04[16]=1*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* disable HWPDN 0x04[15]=0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT4 | BIT3), 0},/* disable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* polling until return 0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0},/**/	\
++	{0x004E, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 1},/*0x4C[23] = 0x4E[7] = 1, switch DPDT_SEL_P output from WL BB */\
++
++#define RTL8723A_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*0x1F[7:0] = 0 turn off RF*/	\
++	{0x004E, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/*0x4C[23] = 0x4E[7] = 0, switch DPDT_SEL_P output from register 0x65[2] */\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/	\
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5}, /*0x00[5] = 1b'1 analog Ips to digital ,1:isolation*/   \
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /*0x20[0] = 1b'0 disable LDOA12 MACRO block*/   \
++
++
++#define RTL8723A_TRANS_CARDEMU_TO_SUS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4 | BIT3, (BIT4 | BIT3)}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SDIO SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3 | BIT4}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8723A_TRANS_SUS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT7, 0}, /*clear suspend enable and power down enable*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
++
++#define RTL8723A_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07 = 0x20 , SOP option to disable BG/MB*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2}, /*0x04[10] = 1, enable SW LPS*/	\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 1}, /*0x48[16] = 1 to enable GPIO9 as EXT WAKEUP*/   \
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8723A_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT7, 0}, /*clear suspend enable and power down enable*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /*0x48[16] = 0 to disable GPIO9 as EXT WAKEUP*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*PCIe DMA start*/
++
++
++#define RTL8723A_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK | PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/* 0x04[16] = 0*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
++
++#define RTL8723A_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
++
++#define RTL8723A_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*PCIe DMA stop*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*Tx Pause*/	\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Whole BB is reset*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x03},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/	\
++	{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/*When driver enter Sus/ Disable, enable LOP for BT*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/	\
++
++
++#define RTL8723A_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM*/\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/\
++	{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*.	0x08[4] = 0		 switch TSF to 40M*/\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, 0}, /*Polling 0x109[7]=0  TSF in 40M*/\
++	{0x0029, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6 | BIT7, 0}, /*.	0x29[7:6] = 2b'00	 enable BB clock*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++#define RTL8723A_TRANS_END															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++	extern WLAN_PWR_CFG rtl8723A_power_on_flow[RTL8723A_TRANS_CARDEMU_TO_ACT_STEPS + RTL8723A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723A_radio_off_flow[RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723A_card_disable_flow[RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723A_TRANS_CARDEMU_TO_PDN_STEPS + RTL8723A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723A_card_enable_flow[RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723A_TRANS_CARDEMU_TO_PDN_STEPS + RTL8723A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723A_suspend_flow[RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723A_TRANS_CARDEMU_TO_SUS_STEPS + RTL8723A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723A_resume_flow[RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723A_TRANS_CARDEMU_TO_SUS_STEPS + RTL8723A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723A_hwpdn_flow[RTL8723A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8723A_TRANS_CARDEMU_TO_PDN_STEPS + RTL8723A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723A_enter_lps_flow[RTL8723A_TRANS_ACT_TO_LPS_STEPS + RTL8723A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8723A_leave_lps_flow[RTL8723A_TRANS_LPS_TO_ACT_STEPS + RTL8723A_TRANS_END_STEPS];
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8812PhyCfg.h b/drivers/net/wireless/rtl8812au/include/Hal8812PhyCfg.h
+new file mode 100644
+index 0000000..442c563
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8812PhyCfg.h
+@@ -0,0 +1,148 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8812PHYCFG_H__
++#define __INC_HAL8812PHYCFG_H__
++
++
++/*--------------------------Define Parameters-------------------------------*/
++#define LOOP_LIMIT				5
++#define MAX_STALL_TIME			50		/* us */
++#define AntennaDiversityValue	0x80	/* (Adapter->bSoftwareAntennaDiversity ? 0x00 : 0x80) */
++#define MAX_TXPWR_IDX_NMODE_92S	63
++#define Reset_Cnt_Limit			3
++
++
++#ifdef CONFIG_PCI_HCI
++	#define MAX_AGGR_NUM	0x0B
++#else
++	#define MAX_AGGR_NUM	0x07
++#endif /* CONFIG_PCI_HCI */
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++/*------------------------------Define structure----------------------------*/
++
++
++/* BB/RF related */
++
++/*------------------------------Define structure----------------------------*/
++
++
++/*------------------------Export global variable----------------------------*/
++/*------------------------Export global variable----------------------------*/
++
++
++/*------------------------Export Marco Definition---------------------------*/
++/*------------------------Export Marco Definition---------------------------*/
++
++
++/*--------------------------Exported Function prototype---------------------*/
++/*
++ * BB and RF register read/write
++ *   */
++u32	PHY_QueryBBReg8812(IN	PADAPTER	Adapter,
++			   IN	u32			RegAddr,
++			   IN	u32			BitMask);
++void	PHY_SetBBReg8812(IN	PADAPTER		Adapter,
++			 IN	u32			RegAddr,
++			 IN	u32			BitMask,
++			 IN	u32			Data);
++u32	PHY_QueryRFReg8812(IN	PADAPTER	Adapter,
++			   IN	u8			eRFPath,
++			   IN	u32			RegAddr,
++			   IN	u32			BitMask);
++void	PHY_SetRFReg8812(IN	PADAPTER		Adapter,
++			 IN	u8			eRFPath,
++			 IN	u32			RegAddr,
++			 IN	u32			BitMask,
++			 IN	u32			Data);
++
++/*
++ * Initialization related function
++ *
++ * MAC/BB/RF HAL config */
++int	PHY_MACConfig8812(IN PADAPTER	Adapter);
++int	PHY_BBConfig8812(IN PADAPTER	Adapter);
++void	PHY_BB8812_Config_1T(IN PADAPTER	Adapter);
++int	PHY_RFConfig8812(IN PADAPTER	Adapter);
++
++/* RF config */
++
++s32
++PHY_SwitchWirelessBand8812(
++	IN PADAPTER		Adapter,
++	IN u8			Band
++);
++
++/*
++ * BB TX Power R/W
++ *   */
++void	PHY_GetTxPowerLevel8812(IN PADAPTER	Adapter, OUT s32	*powerlevel);
++void	PHY_SetTxPowerLevel8812(IN PADAPTER	Adapter, IN u8	Channel);
++
++BOOLEAN	PHY_UpdateTxPowerDbm8812(IN PADAPTER	Adapter, IN int	powerInDbm);
++u8 PHY_GetTxPowerIndex_8812A(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	u8					Rate,
++	IN	u8					BandWidth,
++	IN	u8					Channel,
++	struct txpwr_idx_comp *tic
++);
++
++u32 PHY_GetTxBBSwing_8812A(
++	IN	PADAPTER	Adapter,
++	IN	BAND_TYPE	Band,
++	IN	u8			RFPath
++);
++
++VOID
++PHY_SetTxPowerIndex_8812A(
++	IN	PADAPTER			Adapter,
++	IN	u4Byte				PowerIndex,
++	IN	u1Byte				RFPath,
++	IN	u1Byte				Rate
++);
++
++/*
++ * channel switch related funciton
++ *   */
++VOID
++PHY_SetSwChnlBWMode8812(
++	IN	PADAPTER			Adapter,
++	IN	u8					channel,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					Offset40,
++	IN	u8					Offset80
++);
++
++/*
++ * BB/MAC/RF other monitor API
++ *   */
++
++VOID
++PHY_SetRFPathSwitch_8812A(
++	IN	PADAPTER	pAdapter,
++	IN	BOOLEAN		bMain
++);
++
++/*--------------------------Exported Function prototype---------------------*/
++#endif /* __INC_HAL8192CPHYCFG_H */
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8812PhyReg.h b/drivers/net/wireless/rtl8812au/include/Hal8812PhyReg.h
+new file mode 100644
+index 0000000..5009750
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8812PhyReg.h
+@@ -0,0 +1,738 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8812PHYREG_H__
++#define __INC_HAL8812PHYREG_H__
++/*--------------------------Define Parameters-------------------------------*/
++/*
++ * BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++ * 3. RF register 0x00-2E
++ * 4. Bit Mask for BB/RF register
++ * 5. Other defintion for BB/RF R/W
++ *   */
++
++
++/* BB Register Definition */
++
++#define rCCAonSec_Jaguar		0x838
++#define rPwed_TH_Jaguar			0x830
++
++/* BW and sideband setting */
++#define rBWIndication_Jaguar		0x834
++#define rL1PeakTH_Jaguar			0x848
++#define rFPGA0_XA_LSSIReadBack	0x8a0	/*Tranceiver LSSI Readback*/
++#define rRFMOD_Jaguar			0x8ac	/* RF mode */
++#define rADC_Buf_Clk_Jaguar		0x8c4
++#define rRFECTRL_Jaguar			0x900
++#define bRFMOD_Jaguar			0xc3
++#define rCCK_System_Jaguar		0xa00   /* for cck sideband */
++#define bCCK_System_Jaguar		0x10
++
++/* Block & Path enable */
++#define rOFDMCCKEN_Jaguar 		0x808 /* OFDM/CCK block enable */
++#define bOFDMEN_Jaguar			0x20000000
++#define bCCKEN_Jaguar			0x10000000
++#define rRxPath_Jaguar			0x808	/* Rx antenna */
++#define bRxPath_Jaguar			0xff
++#define rTxPath_Jaguar			0x80c	/* Tx antenna */
++#define bTxPath_Jaguar			0x0fffffff
++#define rCCK_RX_Jaguar			0xa04	/* for cck rx path selection */
++#define bCCK_RX_Jaguar			0x0c000000
++#define rVhtlen_Use_Lsig_Jaguar	0x8c3	/* Use LSIG for VHT length */
++
++/* RF read/write-related */
++#define rHSSIRead_Jaguar			0x8b0  /* RF read addr */
++#define bHSSIRead_addr_Jaguar		0xff
++#define bHSSIRead_trigger_Jaguar	0x100
++#define rA_PIRead_Jaguar			0xd04 /* RF readback with PI */
++#define rB_PIRead_Jaguar			0xd44 /* RF readback with PI */
++#define rA_SIRead_Jaguar			0xd08 /* RF readback with SI */
++#define rB_SIRead_Jaguar			0xd48 /* RF readback with SI */
++#define rRead_data_Jaguar			0xfffff
++#define rA_LSSIWrite_Jaguar			0xc90 /* RF write addr */
++#define rB_LSSIWrite_Jaguar			0xe90 /* RF write addr */
++#define bLSSIWrite_data_Jaguar		0x000fffff
++#define bLSSIWrite_addr_Jaguar		0x0ff00000
++
++
++
++/* YN: mask the following register definition temporarily */
++#define rFPGA0_XA_RFInterfaceOE			0x860	/* RF Channel switch */
++#define rFPGA0_XB_RFInterfaceOE			0x864
++
++#define rFPGA0_XAB_RFInterfaceSW		0x870	/* RF Interface Software Control */
++#define rFPGA0_XCD_RFInterfaceSW		0x874
++
++/* #define rFPGA0_XAB_RFParameter		0x878 */	/* RF Parameter
++ * #define rFPGA0_XCD_RFParameter		0x87c */
++
++/* #define rFPGA0_AnalogParameter1		0x880 */	/* Crystal cap setting RF-R/W protection for parameter4??
++ * #define rFPGA0_AnalogParameter2		0x884
++ * #define rFPGA0_AnalogParameter3		0x888
++ * #define rFPGA0_AdDaClockEn			0x888 */	/* enable ad/da clock1 for dual-phy
++ * #define rFPGA0_AnalogParameter4		0x88c */
++
++
++/* CCK TX scaling */
++#define rCCK_TxFilter1_Jaguar		0xa20
++#define bCCK_TxFilter1_C0_Jaguar	0x00ff0000
++#define bCCK_TxFilter1_C1_Jaguar		0xff000000
++#define rCCK_TxFilter2_Jaguar		0xa24
++#define bCCK_TxFilter2_C2_Jaguar		0x000000ff
++#define bCCK_TxFilter2_C3_Jaguar		0x0000ff00
++#define bCCK_TxFilter2_C4_Jaguar		0x00ff0000
++#define bCCK_TxFilter2_C5_Jaguar		0xff000000
++#define rCCK_TxFilter3_Jaguar		0xa28
++#define bCCK_TxFilter3_C6_Jaguar		0x000000ff
++#define bCCK_TxFilter3_C7_Jaguar		0x0000ff00
++
++
++/* YN: mask the following register definition temporarily
++ * #define rPdp_AntA					0xb00
++ * #define rPdp_AntA_4				0xb04
++ * #define rConfig_Pmpd_AntA			0xb28
++ * #define rConfig_AntA					0xb68
++ * #define rConfig_AntB					0xb6c
++ * #define rPdp_AntB					0xb70
++ * #define rPdp_AntB_4					0xb74
++ * #define rConfig_Pmpd_AntB			0xb98
++ * #define rAPK							0xbd8 */
++
++/* RXIQC */
++#define rA_RxIQC_AB_Jaguar    	0xc10  /* RxIQ imblance matrix coeff. A & B */
++#define rA_RxIQC_CD_Jaguar    	0xc14  /* RxIQ imblance matrix coeff. C & D */
++#define rA_TxScale_Jaguar 		0xc1c  /* Pah_A TX scaling factor */
++#define rB_TxScale_Jaguar 		0xe1c  /* Path_B TX scaling factor */
++#define rB_RxIQC_AB_Jaguar    	0xe10  /* RxIQ imblance matrix coeff. A & B */
++#define rB_RxIQC_CD_Jaguar    	0xe14  /* RxIQ imblance matrix coeff. C & D */
++#define b_RxIQC_AC_Jaguar		0x02ff  /* bit mask for IQC matrix element A & C */
++#define b_RxIQC_BD_Jaguar		0x02ff0000 /* bit mask for IQC matrix element A & C */
++
++
++/* DIG-related */
++#define rA_IGI_Jaguar				0xc50	/* Initial Gain for path-A */
++#define rB_IGI_Jaguar				0xe50	/* Initial Gain for path-B */
++#define rOFDM_FalseAlarm1_Jaguar	0xf48  /* counter for break */
++#define rOFDM_FalseAlarm2_Jaguar	0xf4c  /* counter for spoofing */
++#define rCCK_FalseAlarm_Jaguar        	0xa5c /* counter for cck false alarm */
++#define b_FalseAlarm_Jaguar			0xffff
++#define rCCK_CCA_Jaguar				0xa08	/* cca threshold */
++#define bCCK_CCA_Jaguar				0x00ff0000
++
++/* Tx Power Ttraining-related */
++#define rA_TxPwrTraing_Jaguar		0xc54
++#define rB_TxPwrTraing_Jaguar		0xe54
++
++/* Report-related */
++#define rOFDM_ShortCFOAB_Jaguar	0xf60
++#define rOFDM_LongCFOAB_Jaguar		0xf64
++#define rOFDM_EndCFOAB_Jaguar		0xf70
++#define rOFDM_AGCReport_Jaguar		0xf84
++#define rOFDM_RxSNR_Jaguar			0xf88
++#define rOFDM_RxEVMCSI_Jaguar		0xf8c
++#define rOFDM_SIGReport_Jaguar		0xf90
++
++/* Misc functions */
++#define rEDCCA_Jaguar				0x8a4 /* EDCCA */
++#define bEDCCA_Jaguar				0xffff
++#define rAGC_table_Jaguar			0x82c   /* AGC tabel select */
++#define bAGC_table_Jaguar			0x3
++#define b_sel5g_Jaguar    				0x1000 /* sel5g */
++#define b_LNA_sw_Jaguar				0x8000 /* HW/WS control for LNA */
++#define rFc_area_Jaguar				0x860   /* fc_area */
++#define bFc_area_Jaguar				0x1ffe000
++#define rSingleTone_ContTx_Jaguar	0x914
++
++/* RFE */
++#define rA_RFE_Pinmux_Jaguar	0xcb0  /* Path_A RFE cotrol pinmux */
++#define rB_RFE_Pinmux_Jaguar	0xeb0 /* Path_B RFE control pinmux */
++#define rA_RFE_Inv_Jaguar		0xcb4  /* Path_A RFE cotrol   */
++#define rB_RFE_Inv_Jaguar		0xeb4 /* Path_B RFE control */
++#define rA_RFE_Jaguar			0xcb8  /* Path_A RFE cotrol   */
++#define rB_RFE_Jaguar			0xeb8 /* Path_B RFE control */
++#define r_ANTSEL_SW_Jaguar		0x900 /* ANTSEL SW Control */
++#define bMask_RFEInv_Jaguar		0x3ff00000
++#define bMask_AntselPathFollow_Jaguar 0x00030000
++
++/* TX AGC */
++#define rTxAGC_A_CCK11_CCK1_JAguar				0xc20
++#define rTxAGC_A_Ofdm18_Ofdm6_JAguar				0xc24
++#define rTxAGC_A_Ofdm54_Ofdm24_JAguar			0xc28
++#define rTxAGC_A_MCS3_MCS0_JAguar					0xc2c
++#define rTxAGC_A_MCS7_MCS4_JAguar					0xc30
++#define rTxAGC_A_MCS11_MCS8_JAguar				0xc34
++#define rTxAGC_A_MCS15_MCS12_JAguar				0xc38
++#define rTxAGC_A_Nss1Index3_Nss1Index0_JAguar	0xc3c
++#define rTxAGC_A_Nss1Index7_Nss1Index4_JAguar	0xc40
++#define rTxAGC_A_Nss2Index1_Nss1Index8_JAguar	0xc44
++#define rTxAGC_A_Nss2Index5_Nss2Index2_JAguar	0xc48
++#define rTxAGC_A_Nss2Index9_Nss2Index6_JAguar	0xc4c
++#define rTxAGC_B_CCK11_CCK1_JAguar				0xe20
++#define rTxAGC_B_Ofdm18_Ofdm6_JAguar				0xe24
++#define rTxAGC_B_Ofdm54_Ofdm24_JAguar			0xe28
++#define rTxAGC_B_MCS3_MCS0_JAguar					0xe2c
++#define rTxAGC_B_MCS7_MCS4_JAguar					0xe30
++#define rTxAGC_B_MCS11_MCS8_JAguar				0xe34
++#define rTxAGC_B_MCS15_MCS12_JAguar				0xe38
++#define rTxAGC_B_Nss1Index3_Nss1Index0_JAguar		0xe3c
++#define rTxAGC_B_Nss1Index7_Nss1Index4_JAguar		0xe40
++#define rTxAGC_B_Nss2Index1_Nss1Index8_JAguar		0xe44
++#define rTxAGC_B_Nss2Index5_Nss2Index2_JAguar		0xe48
++#define rTxAGC_B_Nss2Index9_Nss2Index6_JAguar		0xe4c
++#define bTxAGC_byte0_Jaguar							0xff
++#define bTxAGC_byte1_Jaguar							0xff00
++#define bTxAGC_byte2_Jaguar							0xff0000
++#define bTxAGC_byte3_Jaguar							0xff000000
++
++/* IQK YN: temporaily mask this part
++ * #define rFPGA0_IQK					0xe28
++ * #define rTx_IQK_Tone_A				0xe30
++ * #define rRx_IQK_Tone_A				0xe34
++ * #define rTx_IQK_PI_A					0xe38
++ * #define rRx_IQK_PI_A					0xe3c */
++
++/* #define rTx_IQK						0xe40 */
++/* #define rRx_IQK						0xe44 */
++/* #define rIQK_AGC_Pts					0xe48 */
++/* #define rIQK_AGC_Rsp					0xe4c */
++/* #define rTx_IQK_Tone_B				0xe50 */
++/* #define rRx_IQK_Tone_B				0xe54 */
++/* #define rTx_IQK_PI_B					0xe58 */
++/* #define rRx_IQK_PI_B					0xe5c */
++/* #define rIQK_AGC_Cont				0xe60 */
++
++
++/* AFE-related */
++#define rA_AFEPwr1_Jaguar					0xc60 /* dynamic AFE power control */
++#define rA_AFEPwr2_Jaguar					0xc64 /* dynamic AFE power control */
++#define rA_Rx_WaitCCA_Tx_CCKRFON_Jaguar	0xc68
++#define rA_Tx_CCKBBON_OFDMRFON_Jaguar	0xc6c
++#define rA_Tx_OFDMBBON_Tx2Rx_Jaguar		0xc70
++#define rA_Tx2Tx_RXCCK_Jaguar				0xc74
++#define rA_Rx_OFDM_WaitRIFS_Jaguar			0xc78
++#define rA_Rx2Rx_BT_Jaguar					0xc7c
++#define rA_sleep_nav_Jaguar					0xc80
++#define rA_pmpd_Jaguar						0xc84
++#define rB_AFEPwr1_Jaguar					0xe60 /* dynamic AFE power control */
++#define rB_AFEPwr2_Jaguar					0xe64 /* dynamic AFE power control */
++#define rB_Rx_WaitCCA_Tx_CCKRFON_Jaguar	0xe68
++#define rB_Tx_CCKBBON_OFDMRFON_Jaguar	0xe6c
++#define rB_Tx_OFDMBBON_Tx2Rx_Jaguar		0xe70
++#define rB_Tx2Tx_RXCCK_Jaguar				0xe74
++#define rB_Rx_OFDM_WaitRIFS_Jaguar			0xe78
++#define rB_Rx2Rx_BT_Jaguar					0xe7c
++#define rB_sleep_nav_Jaguar					0xe80
++#define rB_pmpd_Jaguar						0xe84
++
++
++/* YN: mask these registers temporaily
++ * #define rTx_Power_Before_IQK_A		0xe94
++ * #define rTx_Power_After_IQK_A			0xe9c */
++
++/* #define rRx_Power_Before_IQK_A		0xea0 */
++/* #define rRx_Power_Before_IQK_A_2		0xea4 */
++/* #define rRx_Power_After_IQK_A			0xea8 */
++/* #define rRx_Power_After_IQK_A_2		0xeac */
++
++/* #define rTx_Power_Before_IQK_B		0xeb4 */
++/* #define rTx_Power_After_IQK_B			0xebc */
++
++/* #define rRx_Power_Before_IQK_B		0xec0 */
++/* #define rRx_Power_Before_IQK_B_2		0xec4 */
++/* #define rRx_Power_After_IQK_B			0xec8 */
++/* #define rRx_Power_After_IQK_B_2		0xecc */
++
++
++/* RSSI Dump */
++#define rA_RSSIDump_Jaguar			0xBF0
++#define rB_RSSIDump_Jaguar			0xBF1
++#define rS1_RXevmDump_Jaguar		0xBF4
++#define rS2_RXevmDump_Jaguar		0xBF5
++#define rA_RXsnrDump_Jaguar		0xBF6
++#define rB_RXsnrDump_Jaguar		0xBF7
++#define rA_CfoShortDump_Jaguar		0xBF8
++#define rB_CfoShortDump_Jaguar		0xBFA
++#define rA_CfoLongDump_Jaguar		0xBEC
++#define rB_CfoLongDump_Jaguar		0xBEE
++
++
++/* RF Register
++ *   */
++#define RF_AC_Jaguar				0x00	/*  */
++#define RF_RF_Top_Jaguar			0x07	/*  */
++#define RF_TXLOK_Jaguar				0x08	/*  */
++#define RF_TXAPK_Jaguar				0x0B
++#define RF_CHNLBW_Jaguar 			0x18	/* RF channel and BW switch */
++#define RF_RCK1_Jaguar				0x1c	/*  */
++#define RF_RCK2_Jaguar				0x1d
++#define RF_RCK3_Jaguar			0x1e
++#define RF_ModeTableAddr			0x30
++#define RF_ModeTableData0			0x31
++#define RF_ModeTableData1			0x32
++#define RF_TxLCTank_Jaguar	0x54
++#define RF_APK_Jaguar				0x63
++#define RF_LCK						0xB4
++#define RF_WeLut_Jaguar				0xEF
++
++#define bRF_CHNLBW_MOD_AG_Jaguar	0x70300
++#define bRF_CHNLBW_BW				0xc00
++
++
++/*
++ * RL6052 Register definition
++ *   */
++#define RF_AC						0x00	/*  */
++#define RF_IPA_A					0x0C	/*  */
++#define RF_TXBIAS_A					0x0D
++#define RF_BS_PA_APSET_G9_G11		0x0E
++#define RF_MODE1					0x10	/*  */
++#define RF_MODE2					0x11	/*  */
++#define RF_CHNLBW					0x18	/* RF channel and BW switch */
++#define RF_RCK_OS					0x30	/* RF TX PA control */
++#define RF_TXPA_G1					0x31	/* RF TX PA control */
++#define RF_TXPA_G2					0x32	/* RF TX PA control */
++#define RF_TXPA_G3					0x33	/* RF TX PA control */
++#define RF_0x52						0x52
++#define RF_WE_LUT					0xEF
++
++#define RF_TX_GAIN_OFFSET_8812A(_val) ((abs((_val)) << 1) | (((_val) > 0) ? BIT0 : 0))
++#define RF_TX_GAIN_OFFSET_8821A(_val) ((abs((_val)) << 1) | (((_val) > 0) ? BIT0 : 0))
++
++/*
++ * Bit Mask
++ *
++ * 1. Page1(0x100) */
++#define bBBResetB					0x100	/* Useless now? */
++#define bGlobalResetB				0x200
++#define bOFDMTxStart				0x4
++#define bCCKTxStart					0x8
++#define bCRC32Debug					0x100
++#define bPMACLoopback				0x10
++#define bTxLSIG						0xffffff
++#define bOFDMTxRate					0xf
++#define bOFDMTxReserved			0x10
++#define bOFDMTxLength				0x1ffe0
++#define bOFDMTxParity				0x20000
++#define bTxHTSIG1					0xffffff
++#define bTxHTMCSRate				0x7f
++#define bTxHTBW						0x80
++#define bTxHTLength					0xffff00
++#define bTxHTSIG2					0xffffff
++#define bTxHTSmoothing				0x1
++#define bTxHTSounding				0x2
++#define bTxHTReserved				0x4
++#define bTxHTAggreation				0x8
++#define bTxHTSTBC					0x30
++#define bTxHTAdvanceCoding			0x40
++#define bTxHTShortGI					0x80
++#define bTxHTNumberHT_LTF			0x300
++#define bTxHTCRC8					0x3fc00
++#define bCounterReset				0x10000
++#define bNumOfOFDMTx				0xffff
++#define bNumOfCCKTx					0xffff0000
++#define bTxIdleInterval				0xffff
++#define bOFDMService				0xffff0000
++#define bTxMACHeader				0xffffffff
++#define bTxDataInit					0xff
++#define bTxHTMode					0x100
++#define bTxDataType					0x30000
++#define bTxRandomSeed				0xffffffff
++#define bCCKTxPreamble				0x1
++#define bCCKTxSFD					0xffff0000
++#define bCCKTxSIG					0xff
++#define bCCKTxService				0xff00
++#define bCCKLengthExt				0x8000
++#define bCCKTxLength				0xffff0000
++#define bCCKTxCRC16					0xffff
++#define bCCKTxStatus					0x1
++#define bOFDMTxStatus				0x2
++
++
++/*
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 1. Page1(0x100)
++ *   */
++#define rPMAC_Reset					0x100
++#define rPMAC_TxStart				0x104
++#define rPMAC_TxLegacySIG			0x108
++#define rPMAC_TxHTSIG1				0x10c
++#define rPMAC_TxHTSIG2				0x110
++#define rPMAC_PHYDebug				0x114
++#define rPMAC_TxPacketNum			0x118
++#define rPMAC_TxIdle					0x11c
++#define rPMAC_TxMACHeader0			0x120
++#define rPMAC_TxMACHeader1			0x124
++#define rPMAC_TxMACHeader2			0x128
++#define rPMAC_TxMACHeader3			0x12c
++#define rPMAC_TxMACHeader4			0x130
++#define rPMAC_TxMACHeader5			0x134
++#define rPMAC_TxDataType			0x138
++#define rPMAC_TxRandomSeed		0x13c
++#define rPMAC_CCKPLCPPreamble		0x140
++#define rPMAC_CCKPLCPHeader		0x144
++#define rPMAC_CCKCRC16				0x148
++#define rPMAC_OFDMRxCRC32OK		0x170
++#define rPMAC_OFDMRxCRC32Er		0x174
++#define rPMAC_OFDMRxParityEr		0x178
++#define rPMAC_OFDMRxCRC8Er			0x17c
++#define rPMAC_CCKCRxRC16Er			0x180
++#define rPMAC_CCKCRxRC32Er			0x184
++#define rPMAC_CCKCRxRC32OK			0x188
++#define rPMAC_TxStatus				0x18c
++
++/*
++ * 3. Page8(0x800)
++ *   */
++#define rFPGA0_RFMOD				0x800	/* RF mode & CCK TxSC */ /* RF BW Setting?? */
++
++#define rFPGA0_TxInfo				0x804	/* Status report?? */
++#define rFPGA0_PSDFunction			0x808
++#define rFPGA0_TxGainStage			0x80c	/* Set TX PWR init gain? */
++
++#define rFPGA0_XA_HSSIParameter1	0x820	/* RF 3 wire register */
++#define rFPGA0_XA_HSSIParameter2	0x824
++#define rFPGA0_XB_HSSIParameter1	0x828
++#define rFPGA0_XB_HSSIParameter2	0x82c
++
++#define rFPGA0_XAB_SwitchControl	0x858	/* RF Channel switch */
++#define rFPGA0_XCD_SwitchControl	0x85c
++
++#define rFPGA0_XAB_RFParameter		0x878	/* RF Parameter */
++#define rFPGA0_XCD_RFParameter		0x87c
++
++#define rFPGA0_AnalogParameter1	0x880	/* Crystal cap setting RF-R/W protection for parameter4?? */
++#define rFPGA0_AnalogParameter2	0x884
++#define rFPGA0_AnalogParameter3	0x888
++#define rFPGA0_AdDaClockEn			0x888	/* enable ad/da clock1 for dual-phy */
++#define rFPGA0_AnalogParameter4	0x88c
++#define rFPGA0_XB_LSSIReadBack		0x8a4
++#define rFPGA0_XCD_RFPara	0x8b4
++
++/*
++ * 4. Page9(0x900)
++ *   */
++#define rFPGA1_RFMOD				0x900	/* RF mode & OFDM TxSC */ /* RF BW Setting?? */
++
++#define rFPGA1_TxBlock				0x904	/* Useless now */
++#define rFPGA1_DebugSelect			0x908	/* Useless now */
++#define rFPGA1_TxInfo				0x90c	/* Useless now */ /* Status report?? */
++
++/*
++ * PageA(0xA00)
++ *   */
++#define rCCK0_System				0xa00
++#define rCCK0_AFESetting				0xa04	/* Disable init gain now */ /* Select RX path by RSSI */
++#define	rCCK0_DSPParameter2			0xa1c	/* SQ threshold */
++#define rCCK0_TxFilter1				0xa20
++#define rCCK0_TxFilter2				0xa24
++#define rCCK0_DebugPort				0xa28	/* debug port and Tx filter3 */
++#define	rCCK0_FalseAlarmReport			0xa2c	/* 0xa2d	useless now 0xa30-a4f channel report */
++
++/*
++ * PageB(0xB00)
++ *   */
++#define rPdp_AntA				0xb00
++#define rPdp_AntA_4				0xb04
++#define rConfig_Pmpd_AntA			0xb28
++#define rConfig_AntA					0xb68
++#define rConfig_AntB					0xb6c
++#define rPdp_AntB					0xb70
++#define rPdp_AntB_4					0xb74
++#define rConfig_Pmpd_AntB			0xb98
++#define rAPK							0xbd8
++
++/*
++ * 6. PageC(0xC00)
++ *   */
++#define rOFDM0_LSTF					0xc00
++
++#define rOFDM0_TRxPathEnable		0xc04
++#define rOFDM0_TRMuxPar			0xc08
++#define rOFDM0_TRSWIsolation		0xc0c
++
++#define rOFDM0_XARxAFE				0xc10  /* RxIQ DC offset, Rx digital filter, DC notch filter */
++#define rOFDM0_XARxIQImbalance    	0xc14  /* RxIQ imblance matrix */
++#define rOFDM0_XBRxAFE		0xc18
++#define rOFDM0_XBRxIQImbalance	0xc1c
++#define rOFDM0_XCRxAFE		0xc20
++#define rOFDM0_XCRxIQImbalance	0xc24
++#define rOFDM0_XDRxAFE		0xc28
++#define rOFDM0_XDRxIQImbalance	0xc2c
++
++#define rOFDM0_RxDetector1			0xc30  /* PD, BW & SBD	 */ /* DM tune init gain */
++#define rOFDM0_RxDetector2			0xc34  /* SBD & Fame Sync. */
++#define rOFDM0_RxDetector3			0xc38  /* Frame Sync. */
++#define rOFDM0_RxDetector4			0xc3c  /* PD, SBD, Frame Sync & Short-GI */
++
++#define rOFDM0_RxDSP				0xc40  /* Rx Sync Path */
++#define rOFDM0_CFOandDAGC			0xc44  /* CFO & DAGC */
++#define rOFDM0_CCADropThreshold	0xc48 /* CCA Drop threshold */
++#define rOFDM0_ECCAThreshold		0xc4c /* energy CCA */
++
++#define rOFDM0_XAAGCCore1			0xc50	/* DIG */
++#define rOFDM0_XAAGCCore2			0xc54
++#define rOFDM0_XBAGCCore1			0xc58
++#define rOFDM0_XBAGCCore2			0xc5c
++#define rOFDM0_XCAGCCore1			0xc60
++#define rOFDM0_XCAGCCore2			0xc64
++#define rOFDM0_XDAGCCore1			0xc68
++#define rOFDM0_XDAGCCore2			0xc6c
++
++#define rOFDM0_AGCParameter1		0xc70
++#define rOFDM0_AGCParameter2		0xc74
++#define rOFDM0_AGCRSSITable		0xc78
++#define rOFDM0_HTSTFAGC			0xc7c
++
++#define rOFDM0_XATxIQImbalance		0xc80	/* TX PWR TRACK and DIG */
++#define rOFDM0_XATxAFE				0xc84
++#define rOFDM0_XBTxIQImbalance		0xc88
++#define rOFDM0_XBTxAFE				0xc8c
++#define rOFDM0_XCTxIQImbalance		0xc90
++#define rOFDM0_XCTxAFE		0xc94
++#define rOFDM0_XDTxIQImbalance		0xc98
++#define rOFDM0_XDTxAFE				0xc9c
++
++#define rOFDM0_RxIQExtAnta			0xca0
++#define rOFDM0_TxCoeff1				0xca4
++#define rOFDM0_TxCoeff2				0xca8
++#define rOFDM0_TxCoeff3				0xcac
++#define rOFDM0_TxCoeff4				0xcb0
++#define rOFDM0_TxCoeff5				0xcb4
++#define rOFDM0_TxCoeff6				0xcb8
++#define rOFDM0_RxHPParameter		0xce0
++#define rOFDM0_TxPseudoNoiseWgt	0xce4
++#define rOFDM0_FrameSync			0xcf0
++#define rOFDM0_DFSReport			0xcf4
++
++/*
++ * 7. PageD(0xD00)
++ *   */
++#define rOFDM1_LSTF					0xd00
++#define rOFDM1_TRxPathEnable		0xd04
++
++/*
++ * 8. PageE(0xE00)
++ *   */
++#define rTxAGC_A_Rate18_06			0xe00
++#define rTxAGC_A_Rate54_24			0xe04
++#define rTxAGC_A_CCK1_Mcs32		0xe08
++#define rTxAGC_A_Mcs03_Mcs00		0xe10
++#define rTxAGC_A_Mcs07_Mcs04		0xe14
++#define rTxAGC_A_Mcs11_Mcs08		0xe18
++#define rTxAGC_A_Mcs15_Mcs12		0xe1c
++
++#define rTxAGC_B_Rate18_06			0x830
++#define rTxAGC_B_Rate54_24			0x834
++#define rTxAGC_B_CCK1_55_Mcs32	0x838
++#define rTxAGC_B_Mcs03_Mcs00		0x83c
++#define rTxAGC_B_Mcs07_Mcs04		0x848
++#define rTxAGC_B_Mcs11_Mcs08		0x84c
++#define rTxAGC_B_Mcs15_Mcs12		0x868
++#define rTxAGC_B_CCK11_A_CCK2_11	0x86c
++
++#define rFPGA0_IQK					0xe28
++#define rTx_IQK_Tone_A				0xe30
++#define rRx_IQK_Tone_A				0xe34
++#define rTx_IQK_PI_A				0xe38
++#define rRx_IQK_PI_A				0xe3c
++
++#define rTx_IQK						0xe40
++#define rRx_IQK						0xe44
++#define rIQK_AGC_Pts					0xe48
++#define rIQK_AGC_Rsp				0xe4c
++#define rTx_IQK_Tone_B				0xe50
++#define rRx_IQK_Tone_B				0xe54
++#define rTx_IQK_PI_B					0xe58
++#define rRx_IQK_PI_B					0xe5c
++#define rIQK_AGC_Cont				0xe60
++
++#define rBlue_Tooth					0xe6c
++#define rRx_Wait_CCA				0xe70
++#define rTx_CCK_RFON				0xe74
++#define rTx_CCK_BBON				0xe78
++#define rTx_OFDM_RFON				0xe7c
++#define rTx_OFDM_BBON				0xe80
++#define rTx_To_Rx					0xe84
++#define rTx_To_Tx					0xe88
++#define rRx_CCK						0xe8c
++
++#define rTx_Power_Before_IQK_A		0xe94
++#define rTx_Power_After_IQK_A		0xe9c
++
++#define rRx_Power_Before_IQK_A		0xea0
++#define rRx_Power_Before_IQK_A_2	0xea4
++#define rRx_Power_After_IQK_A		0xea8
++#define rRx_Power_After_IQK_A_2		0xeac
++
++#define rTx_Power_Before_IQK_B		0xeb4
++#define rTx_Power_After_IQK_B		0xebc
++
++#define rRx_Power_Before_IQK_B		0xec0
++#define rRx_Power_Before_IQK_B_2	0xec4
++#define rRx_Power_After_IQK_B		0xec8
++#define rRx_Power_After_IQK_B_2		0xecc
++
++#define rRx_OFDM					0xed0
++#define rRx_Wait_RIFS				0xed4
++#define rRx_TO_Rx					0xed8
++#define rStandby						0xedc
++#define rSleep						0xee0
++#define rPMPD_ANAEN				0xeec
++
++
++/* 2. Page8(0x800) */
++#define bRFMOD						0x1	/* Reg 0x800 rFPGA0_RFMOD */
++#define bJapanMode					0x2
++#define bCCKTxSC					0x30
++#define bCCKEn						0x1000000
++#define bOFDMEn						0x2000000
++#define bXBTxAGC                  			0xf00	/* Reg 80c rFPGA0_TxGainStage */
++#define bXCTxAGC			0xf000
++#define bXDTxAGC			0xf0000
++
++/* 4. PageA(0xA00) */
++#define bCCKBBMode                			0x3	/* Useless */
++#define bCCKTxPowerSaving		0x80
++#define bCCKRxPowerSaving		0x40
++
++#define bCCKSideBand              		0x10	/* Reg 0xa00 rCCK0_System 20/40 switch */
++
++#define bCCKScramble              		0x8	/* Useless */
++#define bCCKAntDiversity			0x8000
++#define bCCKCarrierRecovery		0x4000
++#define bCCKTxRate			0x3000
++#define bCCKDCCancel			0x0800
++#define bCCKISICancel			0x0400
++#define bCCKMatchFilter		0x0200
++#define bCCKEqualizer			0x0100
++#define bCCKPreambleDetect		0x800000
++#define bCCKFastFalseCCA		0x400000
++#define bCCKChEstStart		0x300000
++#define bCCKCCACount		0x080000
++#define bCCKcs_lim			0x070000
++#define bCCKBistMode			0x80000000
++#define bCCKCCAMask			0x40000000
++#define bCCKTxDACPhase		0x4
++#define bCCKRxADCPhase         	   	0x20000000   /* r_rx_clk */
++#define bCCKr_cp_mode0		0x0100
++#define bCCKTxDCOffset		0xf0
++#define bCCKRxDCOffset		0xf
++#define bCCKCCAMode			0xc000
++#define bCCKFalseCS_lim		0x3f00
++#define bCCKCS_ratio			0xc00000
++#define bCCKCorgBit_sel		0x300000
++#define bCCKPD_lim			0x0f0000
++#define bCCKNewCCA		0x80000000
++#define bCCKRxHPofIG		0x8000
++#define bCCKRxIG			0x7f00
++#define bCCKLNAPolarity		0x800000
++#define bCCKRx1stGain		0x7f0000
++#define bCCKRFExtend              		0x20000000 /* CCK Rx Iinital gain polarity */
++#define bCCKRxAGCSatLevel		0x1f000000
++#define bCCKRxAGCSatCount		0xe0
++#define bCCKRxRFSettle            		0x1f       /* AGCsamp_dly */
++#define bCCKFixedRxAGC		0x8000
++/* #define bCCKRxAGCFormat		0x4000 */   /* remove to HSSI register 0x824 */
++#define bCCKAntennaPolarity		0x2000
++#define bCCKTxFilterType		0x0c00
++#define bCCKRxAGCReportType		0x0300
++#define bCCKRxDAGCEn		0x80000000
++#define bCCKRxDAGCPeriod		0x20000000
++#define bCCKRxDAGCSatLevel		0x1f000000
++#define bCCKTimingRecovery		0x800000
++#define bCCKTxC0			0x3f0000
++#define bCCKTxC1			0x3f000000
++#define bCCKTxC2			0x3f
++#define bCCKTxC3			0x3f00
++#define bCCKTxC4			0x3f0000
++#define bCCKTxC5			0x3f000000
++#define bCCKTxC6			0x3f
++#define bCCKTxC7			0x3f00
++#define bCCKDebugPort		0xff0000
++#define bCCKDACDebug		0x0f000000
++#define bCCKFalseAlarmEnable		0x8000
++#define bCCKFalseAlarmRead		0x4000
++#define bCCKTRSSI			0x7f
++#define bCCKRxAGCReport		0xfe
++#define bCCKRxReport_AntSel		0x80000000
++#define bCCKRxReport_MFOff		0x40000000
++#define bCCKRxRxReport_SQLoss	0x20000000
++#define bCCKRxReport_Pktloss		0x10000000
++#define bCCKRxReport_Lockedbit	0x08000000
++#define bCCKRxReport_RateError	0x04000000
++#define bCCKRxReport_RxRate		0x03000000
++#define bCCKRxFACounterLower	0xff
++#define bCCKRxFACounterUpper	0xff000000
++#define bCCKRxHPAGCStart		0xe000
++#define bCCKRxHPAGCFinal		0x1c00
++#define bCCKRxFalseAlarmEnable	0x8000
++#define bCCKFACounterFreeze		0x4000
++#define bCCKTxPathSel		0x10000000
++#define bCCKDefaultRxPath		0xc000000
++#define bCCKOptionRxPath		0x3000000
++
++/* 6. PageE(0xE00) */
++#define bSTBCEn                  			0x4	/* Useless */
++#define bAntennaMapping		0x10
++#define bNss				0x20
++#define bCFOAntSumD		0x200
++#define bPHYCounterReset		0x8000000
++#define bCFOReportGet			0x4000000
++#define bOFDMContinueTx		0x10000000
++#define bOFDMSingleCarrier		0x20000000
++#define bOFDMSingleTone		0x40000000
++
++
++/*
++ * Other Definition
++ *   */
++
++#define bEnable                   0x1	/* Useless */
++#define bDisable                  0x0
++
++/* byte endable for srwrite */
++#define bByte0                    		0x1	/* Useless */
++#define bByte1		0x2
++#define bByte2		0x4
++#define bByte3		0x8
++#define bWord0		0x3
++#define bWord1		0xc
++#define bDWord		0xf
++
++/* for PutRegsetting & GetRegSetting BitMask */
++#define bMaskByte0                		0xff	/* Reg 0xc50 rOFDM0_XAAGCCore~0xC6f */
++#define bMaskByte1		0xff00
++#define bMaskByte2		0xff0000
++#define bMaskByte3		0xff000000
++#define bMaskHWord	0xffff0000
++#define bMaskLWord		0x0000ffff
++#define bMaskDWord	0xffffffff
++#define bMaskH3Bytes				0xffffff00
++#define bMask12Bits				0xfff
++#define bMaskH4Bits				0xf0000000
++#define bMaskOFDM_D			0xffc00000
++#define bMaskCCK				0x3f3f3f3f
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8812PwrSeq.h b/drivers/net/wireless/rtl8812au/include/Hal8812PwrSeq.h
+new file mode 100644
+index 0000000..e089c1a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8812PwrSeq.h
+@@ -0,0 +1,209 @@
++
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __HAL8812PWRSEQ_H__
++#define __HAL8812PWRSEQ_H__
++
++#include "HalPwrSeqCmd.h"
++
++/*
++	Check document WB-110628-DZ-RTL8195 (Jaguar) Power Architecture-R04.pdf
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transision from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++*/
++#define	RTL8812_TRANS_CARDEMU_TO_ACT_STEPS	15
++#define	RTL8812_TRANS_ACT_TO_CARDEMU_STEPS	15
++#define	RTL8812_TRANS_CARDEMU_TO_SUS_STEPS	15
++#define	RTL8812_TRANS_SUS_TO_CARDEMU_STEPS	15
++#define	RTL8812_TRANS_CARDEMU_TO_PDN_STEPS	15
++#define	RTL8812_TRANS_PDN_TO_CARDEMU_STEPS	15
++#define	RTL8812_TRANS_ACT_TO_LPS_STEPS	15
++#define	RTL8812_TRANS_LPS_TO_ACT_STEPS	15
++#define	RTL8812_TRANS_END_STEPS	1
++
++
++#define RTL8812_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0},/* disable SW LPS 0x04[10]=0*/	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1    power ready*/	\
++	/*{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0}, disable HWPDN 0x04[15]=0*/ \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, 0},/* disable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* polling until return 0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0},/**/
++
++#define RTL8812_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0c00, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x04}, /* 0xc00[7:0] = 4	turn off 3-wire */	\
++	{0x0e00, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x04}, /* 0xe00[7:0] = 4	turn off 3-wire */	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /* 0x2[0] = 0	 RESET BB, CLOSE RF */	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},  /* Whole BB is reset*/			\
++	/*{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},//0x1F[7:0] = 0 turn off RF*/	\
++	/*{0x004E, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},//0x4C[23] = 0x4E[7] = 0, switch DPDT_SEL_P output from register 0x65[2] */	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x2A}, /* 0x07[7:0] = 0x28 sps pwm mode 0x2a for BT coex*/	\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x02, 0},/*0x8[1] = 0 ANA clk = 500k */	\
++	/*{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0 | BIT1, 0}, //  0x02[1:0] = 0	reset BB */	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/
++
++#define RTL8812_TRANS_CARDEMU_TO_SUS													\
++	/* format */								\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0042, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xF0, 0xcc},\
++	{0x0042, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xF0, 0xEC},\
++	{0x0043, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x07},/* gpio11 input mode, gpio10~8 output mode */	\
++	{0x0045, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio 0~7 output same value as input ?? */	\
++	{0x0046, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xff},/* gpio0~7 output mode */	\
++	{0x0047, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/* 0x47[7:0] = 00 gpio mode */	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/* suspend option all off */	\
++	{0x0014, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x80, BIT7},/*0x14[7] = 1 turn on ZCD */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x01, BIT0},/* 0x15[0] =1 trun on ZCD */	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x10, BIT4},/*0x23[4] = 1 hpon LDO sleep mode */	\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x02, 0},/*0x8[1] = 0 ANA clk = 500k */	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, BIT3}, /*0x04[11] = 2b'11 enable WL suspend for PCIe*/
++
++#define RTL8812_TRANS_SUS_TO_CARDEMU													\
++	/* format */								\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, 0}, /*0x04[11] = 2b'01enable WL suspend*/   \
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x10, 0},/*0x23[4] = 0 hpon LDO sleep mode leave */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x01, 0},/* 0x15[0] =0 trun off ZCD */	\
++	{0x0014, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x80, 0},/*0x14[7] = 0 turn off ZCD */	\
++	{0x0046, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio0~7 input mode */	\
++	{0x0043, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio11 input mode, gpio10~8 input mode */
++
++#define RTL8812_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	/**{0x0194, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, //0x194[0]=0 , disable 32K clock*/	\
++	/**{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x94}, //0x93 = 0x94 , 90[30] =0 enable 500k ANA clock .switch clock from 12M to 500K , 90 [26] =0 disable EEprom loader clock*/	\
++	{0x0003, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0}, /*0x03[2] = 0, reset 8051*/	\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x05}, /*0x80 = 05h if reload fw, fill the default value of host_CPU handshake field*/	\
++	{0x0042, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xF0, 0xcc},\
++	{0x0042, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xF0, 0xEC},\
++	{0x0043, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x07},/* gpio11 input mode, gpio10~8 output mode */	\
++	{0x0045, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio 0~7 output same value as input ?? */	\
++	{0x0046, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xff},/* gpio0~7 output mode */	\
++	{0x0047, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/* 0x47[7:0] = 00 gpio mode */	\
++	{0x0014, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x80, BIT7},/*0x14[7] = 1 turn on ZCD */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x01, BIT0},/* 0x15[0] =1 trun on ZCD */	\
++	{0x0012, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x01, 0},/*0x12[0] = 0 force PFM mode */	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x10, BIT4},/*0x23[4] = 1 hpon LDO sleep mode */	\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x02, 0},/*0x8[1] = 0 ANA clk = 500k */	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07 = 0x20 , SOP option to disable BG/MB*/	\
++	{0x001f, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0}, /*0x01f[1]=0 , disable RFC_0  control  REG_RF_CTRL_8812 */	\
++	{0x0076, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0}, /*0x076[1]=0 , disable RFC_1  control REG_OPT_CTRL_8812 +2 */	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, BIT3}, /*0x04[11] = 2b'01 enable WL suspend*/
++
++#define RTL8812_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/                       \
++	{0x0012, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*0x12[0] = 1 force PWM mode */	\
++	{0x0014, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x80, 0},/*0x14[7] = 0 turn off ZCD */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x01, 0},/* 0x15[0] =0 trun off ZCD */	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x10, 0},/*0x23[4] = 0 hpon LDO leave sleep mode */	\
++	{0x0046, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio0~7 input mode */	\
++	{0x0043, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio11 input mode, gpio10~8 input mode */ \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0}, /*0x04[10] = 0, enable SW LPS PCIE only*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, 0}, /*0x04[11] = 2b'01enable WL suspend*/	\
++	{0x0003, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2}, /*0x03[2] = 1, enable 8051*/	\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*PCIe DMA start*/
++
++
++#define RTL8812_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
++
++#define RTL8812_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
++
++#define RTL8812_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*PCIe DMA stop*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x7F},/*Tx Pause*/		\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0c00, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x04}, /* 0xc00[7:0] = 4	turn off 3-wire */	\
++	{0x0e00, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x04}, /* 0xe00[7:0] = 4	turn off 3-wire */	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated, and RF closed*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},  /* Whole BB is reset*/			\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x03},/*Reset MAC TRX*/			\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/		\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/
++
++
++#define RTL8812_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/	\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM*/	\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/	\
++	{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/	\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*.	0x08[4] = 0		 switch TSF to 40M*/	\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, 0}, /*Polling 0x109[7]=0  TSF in 40M*/			\
++	{0x0029, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6 | BIT7, 0}, /*.	0x29[7:6] = 2b'00	 enable BB clock*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1*/					\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++#define RTL8812_TRANS_END																\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/		\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++extern WLAN_PWR_CFG rtl8812_power_on_flow[RTL8812_TRANS_CARDEMU_TO_ACT_STEPS + RTL8812_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8812_radio_off_flow[RTL8812_TRANS_ACT_TO_CARDEMU_STEPS + RTL8812_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8812_card_disable_flow[RTL8812_TRANS_ACT_TO_CARDEMU_STEPS + RTL8812_TRANS_CARDEMU_TO_PDN_STEPS + RTL8812_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8812_card_enable_flow[RTL8812_TRANS_ACT_TO_CARDEMU_STEPS + RTL8812_TRANS_CARDEMU_TO_PDN_STEPS + RTL8812_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8812_suspend_flow[RTL8812_TRANS_ACT_TO_CARDEMU_STEPS + RTL8812_TRANS_CARDEMU_TO_SUS_STEPS + RTL8812_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8812_resume_flow[RTL8812_TRANS_ACT_TO_CARDEMU_STEPS + RTL8812_TRANS_CARDEMU_TO_SUS_STEPS + RTL8812_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8812_hwpdn_flow[RTL8812_TRANS_ACT_TO_CARDEMU_STEPS + RTL8812_TRANS_CARDEMU_TO_PDN_STEPS + RTL8812_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8812_enter_lps_flow[RTL8812_TRANS_ACT_TO_LPS_STEPS + RTL8812_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8812_leave_lps_flow[RTL8812_TRANS_LPS_TO_ACT_STEPS + RTL8812_TRANS_END_STEPS];
++
++#endif /* __HAL8812PWRSEQ_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8814PhyCfg.h b/drivers/net/wireless/rtl8812au/include/Hal8814PhyCfg.h
+new file mode 100644
+index 0000000..27a51d3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8814PhyCfg.h
+@@ -0,0 +1,269 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8814PHYCFG_H__
++#define __INC_HAL8814PHYCFG_H__
++
++
++/*--------------------------Define Parameters-------------------------------*/
++#define LOOP_LIMIT				5
++#define MAX_STALL_TIME			50		/* us */
++#define AntennaDiversityValue	0x80	/* (Adapter->bSoftwareAntennaDiversity ? 0x00 : 0x80) */
++#define MAX_TXPWR_IDX_NMODE_92S	63
++#define Reset_Cnt_Limit			3
++
++
++#ifdef CONFIG_PCI_HCI
++	#define MAX_AGGR_NUM	0x0B
++#else
++	#define MAX_AGGR_NUM	0x07
++#endif /* CONFIG_PCI_HCI */
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++/*------------------------------Define structure----------------------------*/
++
++
++/* BB/RF related */
++
++#define	SIC_ENABLE				0
++
++/*------------------------------Define structure----------------------------*/
++
++
++/*------------------------Export global variable----------------------------*/
++/*------------------------Export global variable----------------------------*/
++
++
++/*------------------------Export Marco Definition---------------------------*/
++/*------------------------Export Marco Definition---------------------------*/
++
++
++/*--------------------------Exported Function prototype---------------------*/
++/* 1. BB register R/W API */
++
++extern	u32
++PHY_QueryBBReg8814A(IN	PADAPTER	Adapter,
++		    IN	u32		RegAddr,
++		    IN	u32		BitMask);
++
++
++VOID
++PHY_SetBBReg8814A(IN	PADAPTER	Adapter,
++		  IN	u32		RegAddr,
++		  IN	u32		BitMask,
++		  IN	u32		Data);
++
++
++extern	u32
++PHY_QueryRFReg8814A(IN	PADAPTER			Adapter,
++		    IN	u8			eRFPath,
++		    IN	u32			RegAddr,
++		    IN	u32			BitMask);
++
++
++void
++PHY_SetRFReg8814A(IN	PADAPTER			Adapter,
++		  IN	u8			eRFPath,
++		  IN	u32				RegAddr,
++		  IN	u32				BitMask,
++		  IN	u32				Data);
++
++/* 1 3. Initial BB/RF config by reading MAC/BB/RF txt. */
++s32
++phy_BB8814A_Config_ParaFile(
++	IN	PADAPTER	Adapter
++);
++
++VOID
++PHY_ConfigBB_8814A(
++	IN	PADAPTER	Adapter
++);
++
++
++VOID
++phy_ADC_CLK_8814A(
++	IN	PADAPTER	Adapter
++);
++
++s32
++PHY_RFConfig8814A(
++	IN	PADAPTER	Adapter
++);
++
++/*
++ * RF Power setting
++ *
++ * BOOLEAN	PHY_SetRFPowerState8814A(PADAPTER Adapter, rt_rf_power_state	eRFPowerState); */
++
++/* 1 5. Tx  Power setting API */
++
++VOID
++PHY_GetTxPowerLevel8814(
++	IN	PADAPTER		Adapter,
++	OUT ps4Byte			powerlevel
++);
++
++VOID
++PHY_SetTxPowerLevel8814(
++	IN	PADAPTER		Adapter,
++	IN	u8			Channel
++);
++
++u8
++PHY_GetTxPowerIndex_8814A(
++	IN	PADAPTER			Adapter,
++	IN  u8				RFPath,
++	IN	u8				Rate,
++	IN	CHANNEL_WIDTH		BandWidth,
++	IN	u8				Channel
++);
++
++u8
++PHY_GetTxPowerIndex8814A(
++	IN	PADAPTER			Adapter,
++	IN  u8				RFPath,
++	IN	u8				Rate,
++	IN	u8				BandWidth,
++	IN	u8				Channel,
++	struct txpwr_idx_comp *tic
++);
++
++VOID
++PHY_SetTxPowerIndex_8814A(
++	IN	PADAPTER			Adapter,
++	IN	u32				PowerIndex,
++	IN	u8				RFPath,
++	IN	u8				Rate
++);
++
++
++BOOLEAN
++PHY_UpdateTxPowerDbm8814A(
++	IN	PADAPTER	Adapter,
++	IN	s4Byte		powerInDbm
++);
++
++
++u32
++PHY_GetTxBBSwing_8814A(
++	IN	PADAPTER	Adapter,
++	IN	BAND_TYPE	Band,
++	IN	u8		RFPath
++);
++
++
++
++/* 1 6. Channel setting API */
++
++VOID
++PHY_SwChnlTimerCallback8814A(
++	IN	PRT_TIMER		pTimer
++);
++
++VOID
++PHY_SwChnlWorkItemCallback8814A(
++	IN PVOID            pContext
++);
++
++
++VOID
++HAL_HandleSwChnl8814A(
++	IN	PADAPTER	pAdapter,
++	IN	u8		channel
++);
++
++VOID
++PHY_SwChnlSynchronously8814A(IN	PADAPTER		pAdapter,
++			     IN	u8			channel);
++
++VOID
++PHY_SwChnlAndSetBWModeCallback8814A(IN PVOID            pContext);
++
++
++VOID
++PHY_HandleSwChnlAndSetBW8814A(
++	IN	PADAPTER			Adapter,
++	IN	BOOLEAN				bSwitchChannel,
++	IN	BOOLEAN				bSetBandWidth,
++	IN	u8					ChannelNum,
++	IN	CHANNEL_WIDTH		ChnlWidth,
++	IN	u8					ChnlOffsetOf40MHz,
++	IN	u8					ChnlOffsetOf80MHz,
++	IN	u8					CenterFrequencyIndex1
++);
++
++
++BOOLEAN
++PHY_QueryRFPathSwitch_8814A(IN	PADAPTER	pAdapter);
++
++
++
++#if (USE_WORKITEM)
++VOID
++RtCheckForHangWorkItemCallback8814A(
++	IN PVOID   pContext
++);
++#endif
++
++BOOLEAN
++SetAntennaConfig8814A(
++	IN	PADAPTER	Adapter,
++	IN	u8		DefaultAnt
++);
++
++VOID
++PHY_SetRFEReg8814A(
++	IN PADAPTER		Adapter,
++	IN BOOLEAN		bInit,
++	IN u8		Band
++);
++
++
++s32
++PHY_SwitchWirelessBand8814A(
++	IN PADAPTER		 Adapter,
++	IN u8		Band
++);
++
++VOID
++PHY_SetIO_8814A(
++	PADAPTER		pAdapter
++);
++
++VOID
++PHY_SetSwChnlBWMode8814(
++	IN	PADAPTER			Adapter,
++	IN	u8					channel,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					Offset40,
++	IN	u8					Offset80
++);
++
++s32 PHY_MACConfig8814(PADAPTER Adapter);
++int PHY_BBConfig8814(PADAPTER	Adapter);
++VOID PHY_Set_SecCCATH_by_RXANT_8814A(PADAPTER	pAdapter, u4Byte ulAntennaRx);
++
++
++
++/*--------------------------Exported Function prototype---------------------*/
++
++/*--------------------------Exported Function prototype---------------------*/
++#endif /* __INC_HAL8192CPHYCFG_H */
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8814PhyReg.h b/drivers/net/wireless/rtl8812au/include/Hal8814PhyReg.h
+new file mode 100644
+index 0000000..0aec994
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8814PhyReg.h
+@@ -0,0 +1,866 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __INC_HAL8814PHYREG_H__
++#define __INC_HAL8814PHYREG_H__
++/*--------------------------Define Parameters-------------------------------*/
++/*
++ * BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++ * 3. RF register 0x00-2E
++ * 4. Bit Mask for BB/RF register
++ * 5. Other defintion for BB/RF R/W
++ *   */
++
++
++/* BB Register Definition */
++
++#define rCCAonSec_Jaguar		0x838
++#define rPwed_TH_Jaguar			0x830
++#define rL1_Weight_Jaguar		0x840
++#define	r_L1_SBD_start_time		0x844
++
++/* BW and sideband setting */
++#define rBWIndication_Jaguar		0x834
++#define rL1PeakTH_Jaguar		0x848
++#define rRFMOD_Jaguar			0x8ac	/* RF mode */
++#define rADC_Buf_Clk_Jaguar		0x8c4
++#define	rADC_Buf_40_Clk_Jaguar2		0x8c8
++#define rRFECTRL_Jaguar			0x900
++#define bRFMOD_Jaguar			0xc3
++#define rCCK_System_Jaguar		0xa00   /* for cck sideband */
++#define bCCK_System_Jaguar		0x10
++
++/* Block & Path enable */
++#define rOFDMCCKEN_Jaguar 		0x808 /* OFDM/CCK block enable */
++#define bOFDMEN_Jaguar			0x20000000
++#define bCCKEN_Jaguar			0x10000000
++#define rRxPath_Jaguar			0x808	/* Rx antenna */
++#define bRxPath_Jaguar			0xff
++#define rTxPath_Jaguar			0x80c	/* Tx antenna */
++#define bTxPath_Jaguar			0x0fffffff
++#define rCCK_RX_Jaguar			0xa04	/* for cck rx path selection */
++#define bCCK_RX_Jaguar			0x0c000000
++#define rVhtlen_Use_Lsig_Jaguar	0x8c3	/* Use LSIG for VHT length */
++
++#define	rRxPath_Jaguar2				0xa04	/* Rx antenna */
++#define	rTxAnt_1Nsts_Jaguar2		0x93c	/* Tx antenna for 1Nsts */
++#define	rTxAnt_23Nsts_Jaguar2		0x940	/* Tx antenna for 2Nsts and 3Nsts */
++
++
++/* RF read/write-related */
++#define rHSSIRead_Jaguar			0x8b0  /* RF read addr */
++#define bHSSIRead_addr_Jaguar		0xff
++#define bHSSIRead_trigger_Jaguar	0x100
++#define rA_PIRead_Jaguar			0xd04 /* RF readback with PI */
++#define rB_PIRead_Jaguar			0xd44 /* RF readback with PI */
++#define rA_SIRead_Jaguar			0xd08 /* RF readback with SI */
++#define rB_SIRead_Jaguar			0xd48 /* RF readback with SI */
++#define rRead_data_Jaguar			0xfffff
++#define rA_LSSIWrite_Jaguar			0xc90 /* RF write addr */
++#define rB_LSSIWrite_Jaguar			0xe90 /* RF write addr */
++#define bLSSIWrite_data_Jaguar		0x000fffff
++#define bLSSIWrite_addr_Jaguar		0x0ff00000
++
++#define	rC_PIRead_Jaguar2			0xd84 /* RF readback with PI */
++#define	rD_PIRead_Jaguar2			0xdC4 /* RF readback with PI */
++#define	rC_SIRead_Jaguar2			0xd88 /* RF readback with SI */
++#define	rD_SIRead_Jaguar2			0xdC8 /* RF readback with SI */
++#define	rC_LSSIWrite_Jaguar2		0x1890 /* RF write addr */
++#define	rD_LSSIWrite_Jaguar2		0x1A90 /* RF write addr */
++
++
++/* YN: mask the following register definition temporarily */
++#define rFPGA0_XA_RFInterfaceOE			0x860	/* RF Channel switch */
++#define rFPGA0_XB_RFInterfaceOE			0x864
++
++#define rFPGA0_XAB_RFInterfaceSW		0x870	/* RF Interface Software Control */
++#define rFPGA0_XCD_RFInterfaceSW		0x874
++
++/* #define rFPGA0_XAB_RFParameter		0x878 */	/* RF Parameter
++ * #define rFPGA0_XCD_RFParameter		0x87c */
++
++/* #define rFPGA0_AnalogParameter1		0x880 */	/* Crystal cap setting RF-R/W protection for parameter4??
++ * #define rFPGA0_AnalogParameter2		0x884
++ * #define rFPGA0_AnalogParameter3		0x888
++ * #define rFPGA0_AdDaClockEn			0x888 */	/* enable ad/da clock1 for dual-phy
++ * #define rFPGA0_AnalogParameter4		0x88c */
++
++
++/* CCK TX scaling */
++#define rCCK_TxFilter1_Jaguar		0xa20
++#define bCCK_TxFilter1_C0_Jaguar	0x00ff0000
++#define bCCK_TxFilter1_C1_Jaguar		0xff000000
++#define rCCK_TxFilter2_Jaguar		0xa24
++#define bCCK_TxFilter2_C2_Jaguar		0x000000ff
++#define bCCK_TxFilter2_C3_Jaguar		0x0000ff00
++#define bCCK_TxFilter2_C4_Jaguar		0x00ff0000
++#define bCCK_TxFilter2_C5_Jaguar		0xff000000
++#define rCCK_TxFilter3_Jaguar		0xa28
++#define bCCK_TxFilter3_C6_Jaguar		0x000000ff
++#define bCCK_TxFilter3_C7_Jaguar		0x0000ff00
++/* NBI & CSI Mask setting */
++#define	rCSI_Mask_Setting1_Jaguar	0x874
++#define	rCSI_Fix_Mask0_Jaguar		0x880
++#define	rCSI_Fix_Mask1_Jaguar		0x884
++#define	rCSI_Fix_Mask2_Jaguar		0x888
++#define	rCSI_Fix_Mask3_Jaguar		0x88c
++#define	rCSI_Fix_Mask4_Jaguar		0x890
++#define	rCSI_Fix_Mask5_Jaguar		0x894
++#define	rCSI_Fix_Mask6_Jaguar		0x898
++#define	rCSI_Fix_Mask7_Jaguar		0x89c
++#define	rNBI_Setting_Jaguar			0x87c
++
++
++/* YN: mask the following register definition temporarily
++ * #define rPdp_AntA					0xb00
++ * #define rPdp_AntA_4				0xb04
++ * #define rConfig_Pmpd_AntA			0xb28
++ * #define rConfig_AntA					0xb68
++ * #define rConfig_AntB					0xb6c
++ * #define rPdp_AntB					0xb70
++ * #define rPdp_AntB_4					0xb74
++ * #define rConfig_Pmpd_AntB			0xb98
++ * #define rAPK							0xbd8 */
++
++/* RXIQC */
++#define rA_RxIQC_AB_Jaguar    	0xc10  /* RxIQ imblance matrix coeff. A & B */
++#define rA_RxIQC_CD_Jaguar    	0xc14  /* RxIQ imblance matrix coeff. C & D */
++#define rA_TxScale_Jaguar 		0xc1c  /* Pah_A TX scaling factor */
++#define rB_TxScale_Jaguar 		0xe1c  /* Path_B TX scaling factor */
++#define rB_RxIQC_AB_Jaguar    	0xe10  /* RxIQ imblance matrix coeff. A & B */
++#define rB_RxIQC_CD_Jaguar    	0xe14  /* RxIQ imblance matrix coeff. C & D */
++#define b_RxIQC_AC_Jaguar		0x02ff  /* bit mask for IQC matrix element A & C */
++#define b_RxIQC_BD_Jaguar		0x02ff0000 /* bit mask for IQC matrix element A & C */
++
++#define	rC_TxScale_Jaguar2 		0x181c  /* Pah_C TX scaling factor */
++#define	rD_TxScale_Jaguar2 		0x1A1c  /* Path_D TX scaling factor */
++#define	rRF_TxGainOffset		0x55
++
++/* DIG-related */
++#define rA_IGI_Jaguar				0xc50	/* Initial Gain for path-A */
++#define rB_IGI_Jaguar				0xe50	/* Initial Gain for path-B */
++#define	rC_IGI_Jaguar2				0x1850	/* Initial Gain for path-C */
++#define	rD_IGI_Jaguar2				0x1A50	/* Initial Gain for path-D */
++
++#define rOFDM_FalseAlarm1_Jaguar	0xf48  /* counter for break */
++#define rOFDM_FalseAlarm2_Jaguar	0xf4c  /* counter for spoofing */
++#define rCCK_FalseAlarm_Jaguar        	0xa5c /* counter for cck false alarm */
++#define b_FalseAlarm_Jaguar			0xffff
++#define rCCK_CCA_Jaguar				0xa08	/* cca threshold */
++#define bCCK_CCA_Jaguar				0x00ff0000
++
++/* Tx Power Ttraining-related */
++#define rA_TxPwrTraing_Jaguar		0xc54
++#define rB_TxPwrTraing_Jaguar		0xe54
++
++/* Report-related */
++#define rOFDM_ShortCFOAB_Jaguar	0xf60
++#define rOFDM_LongCFOAB_Jaguar		0xf64
++#define rOFDM_EndCFOAB_Jaguar		0xf70
++#define rOFDM_AGCReport_Jaguar		0xf84
++#define rOFDM_RxSNR_Jaguar			0xf88
++#define rOFDM_RxEVMCSI_Jaguar		0xf8c
++#define rOFDM_SIGReport_Jaguar		0xf90
++
++/* Misc functions */
++#define rEDCCA_Jaguar				0x8a4 /* EDCCA */
++#define bEDCCA_Jaguar				0xffff
++#define rAGC_table_Jaguar			0x82c   /* AGC tabel select */
++#define bAGC_table_Jaguar			0x3
++#define b_sel5g_Jaguar    				0x1000 /* sel5g */
++#define b_LNA_sw_Jaguar				0x8000 /* HW/WS control for LNA */
++#define rFc_area_Jaguar				0x860   /* fc_area */
++#define bFc_area_Jaguar				0x1ffe000
++#define rSingleTone_ContTx_Jaguar	0x914
++
++#define	rAGC_table_Jaguar2			0x958	/* AGC tabel select */
++#define	rDMA_trigger_Jaguar2		0x95C	/* ADC sample mode */
++
++
++/* RFE */
++#define rA_RFE_Pinmux_Jaguar	0xcb0  /* Path_A RFE cotrol pinmux */
++#define rB_RFE_Pinmux_Jaguar	0xeb0 /* Path_B RFE control pinmux */
++#define rA_RFE_Inv_Jaguar		0xcb4  /* Path_A RFE cotrol   */
++#define rB_RFE_Inv_Jaguar		0xeb4 /* Path_B RFE control */
++#define rA_RFE_Jaguar			0xcb8  /* Path_A RFE cotrol   */
++#define rB_RFE_Jaguar			0xeb8 /* Path_B RFE control */
++#define r_ANTSEL_SW_Jaguar		0x900 /* ANTSEL SW Control */
++#define bMask_RFEInv_Jaguar		0x3ff00000
++#define bMask_AntselPathFollow_Jaguar 0x00030000
++
++#define	rC_RFE_Pinmux_Jaguar	0x18B4	/* Path_C RFE cotrol pinmux */
++#define	rD_RFE_Pinmux_Jaguar	0x1AB4	/* Path_D RFE cotrol pinmux */
++#define	rA_RFE_Sel_Jaguar2		0x1990
++
++
++
++/* TX AGC */
++#define rTxAGC_A_CCK11_CCK1_JAguar				0xc20
++#define rTxAGC_A_Ofdm18_Ofdm6_JAguar				0xc24
++#define rTxAGC_A_Ofdm54_Ofdm24_JAguar			0xc28
++#define rTxAGC_A_MCS3_MCS0_JAguar					0xc2c
++#define rTxAGC_A_MCS7_MCS4_JAguar					0xc30
++#define rTxAGC_A_MCS11_MCS8_JAguar				0xc34
++#define rTxAGC_A_MCS15_MCS12_JAguar				0xc38
++#define rTxAGC_A_Nss1Index3_Nss1Index0_JAguar	0xc3c
++#define rTxAGC_A_Nss1Index7_Nss1Index4_JAguar	0xc40
++#define rTxAGC_A_Nss2Index1_Nss1Index8_JAguar	0xc44
++#define rTxAGC_A_Nss2Index5_Nss2Index2_JAguar	0xc48
++#define rTxAGC_A_Nss2Index9_Nss2Index6_JAguar	0xc4c
++#define rTxAGC_B_CCK11_CCK1_JAguar				0xe20
++#define rTxAGC_B_Ofdm18_Ofdm6_JAguar				0xe24
++#define rTxAGC_B_Ofdm54_Ofdm24_JAguar			0xe28
++#define rTxAGC_B_MCS3_MCS0_JAguar					0xe2c
++#define rTxAGC_B_MCS7_MCS4_JAguar					0xe30
++#define rTxAGC_B_MCS11_MCS8_JAguar				0xe34
++#define rTxAGC_B_MCS15_MCS12_JAguar				0xe38
++#define rTxAGC_B_Nss1Index3_Nss1Index0_JAguar		0xe3c
++#define rTxAGC_B_Nss1Index7_Nss1Index4_JAguar		0xe40
++#define rTxAGC_B_Nss2Index1_Nss1Index8_JAguar		0xe44
++#define rTxAGC_B_Nss2Index5_Nss2Index2_JAguar		0xe48
++#define rTxAGC_B_Nss2Index9_Nss2Index6_JAguar		0xe4c
++#define bTxAGC_byte0_Jaguar							0xff
++#define bTxAGC_byte1_Jaguar							0xff00
++#define bTxAGC_byte2_Jaguar							0xff0000
++#define bTxAGC_byte3_Jaguar							0xff000000
++
++
++/* TX AGC */
++#define		rTxAGC_A_CCK11_CCK1_Jaguar2	0xc20
++#define		rTxAGC_A_Ofdm18_Ofdm6_Jaguar2	0xc24
++#define		rTxAGC_A_Ofdm54_Ofdm24_Jaguar2	0xc28
++#define		rTxAGC_A_MCS3_MCS0_Jaguar2	0xc2c
++#define		rTxAGC_A_MCS7_MCS4_Jaguar2	0xc30
++#define		rTxAGC_A_MCS11_MCS8_Jaguar2	0xc34
++#define		rTxAGC_A_MCS15_MCS12_Jaguar2	0xc38
++#define		rTxAGC_A_MCS19_MCS16_Jaguar2	0xcd8
++#define		rTxAGC_A_MCS23_MCS20_Jaguar2	0xcdc
++#define		rTxAGC_A_Nss1Index3_Nss1Index0_Jaguar2	0xc3c
++#define		rTxAGC_A_Nss1Index7_Nss1Index4_Jaguar2	0xc40
++#define		rTxAGC_A_Nss2Index1_Nss1Index8_Jaguar2	0xc44
++#define		rTxAGC_A_Nss2Index5_Nss2Index2_Jaguar2	0xc48
++#define		rTxAGC_A_Nss2Index9_Nss2Index6_Jaguar2	0xc4c
++#define		rTxAGC_A_Nss3Index3_Nss3Index0_Jaguar2	0xce0
++#define		rTxAGC_A_Nss3Index7_Nss3Index4_Jaguar2	0xce4
++#define		rTxAGC_A_Nss3Index9_Nss3Index8_Jaguar2	0xce8
++#define		rTxAGC_B_CCK11_CCK1_Jaguar2	0xe20
++#define		rTxAGC_B_Ofdm18_Ofdm6_Jaguar2	0xe24
++#define		rTxAGC_B_Ofdm54_Ofdm24_Jaguar2	0xe28
++#define		rTxAGC_B_MCS3_MCS0_Jaguar2	0xe2c
++#define		rTxAGC_B_MCS7_MCS4_Jaguar2	0xe30
++#define		rTxAGC_B_MCS11_MCS8_Jaguar2	0xe34
++#define		rTxAGC_B_MCS15_MCS12_Jaguar2	0xe38
++#define		rTxAGC_B_MCS19_MCS16_Jaguar2	0xed8
++#define		rTxAGC_B_MCS23_MCS20_Jaguar2	0xedc
++#define		rTxAGC_B_Nss1Index3_Nss1Index0_Jaguar2	0xe3c
++#define		rTxAGC_B_Nss1Index7_Nss1Index4_Jaguar2	0xe40
++#define		rTxAGC_B_Nss2Index1_Nss1Index8_Jaguar2	0xe44
++#define		rTxAGC_B_Nss2Index5_Nss2Index2_Jaguar2	0xe48
++#define		rTxAGC_B_Nss2Index9_Nss2Index6_Jaguar2	0xe4c
++#define		rTxAGC_B_Nss3Index3_Nss3Index0_Jaguar2	0xee0
++#define		rTxAGC_B_Nss3Index7_Nss3Index4_Jaguar2	0xee4
++#define		rTxAGC_B_Nss3Index9_Nss3Index8_Jaguar2	0xee8
++#define		rTxAGC_C_CCK11_CCK1_Jaguar2	0x1820
++#define		rTxAGC_C_Ofdm18_Ofdm6_Jaguar2	0x1824
++#define		rTxAGC_C_Ofdm54_Ofdm24_Jaguar2	0x1828
++#define		rTxAGC_C_MCS3_MCS0_Jaguar2	0x182c
++#define		rTxAGC_C_MCS7_MCS4_Jaguar2	0x1830
++#define		rTxAGC_C_MCS11_MCS8_Jaguar2	0x1834
++#define		rTxAGC_C_MCS15_MCS12_Jaguar2	0x1838
++#define		rTxAGC_C_MCS19_MCS16_Jaguar2	0x18d8
++#define		rTxAGC_C_MCS23_MCS20_Jaguar2	0x18dc
++#define		rTxAGC_C_Nss1Index3_Nss1Index0_Jaguar2	0x183c
++#define		rTxAGC_C_Nss1Index7_Nss1Index4_Jaguar2	0x1840
++#define		rTxAGC_C_Nss2Index1_Nss1Index8_Jaguar2	0x1844
++#define		rTxAGC_C_Nss2Index5_Nss2Index2_Jaguar2	0x1848
++#define		rTxAGC_C_Nss2Index9_Nss2Index6_Jaguar2	0x184c
++#define		rTxAGC_C_Nss3Index3_Nss3Index0_Jaguar2	0x18e0
++#define		rTxAGC_C_Nss3Index7_Nss3Index4_Jaguar2	0x18e4
++#define		rTxAGC_C_Nss3Index9_Nss3Index8_Jaguar2	0x18e8
++#define		rTxAGC_D_CCK11_CCK1_Jaguar2	0x1a20
++#define		rTxAGC_D_Ofdm18_Ofdm6_Jaguar2	0x1a24
++#define		rTxAGC_D_Ofdm54_Ofdm24_Jaguar2	0x1a28
++#define		rTxAGC_D_MCS3_MCS0_Jaguar2	0x1a2c
++#define		rTxAGC_D_MCS7_MCS4_Jaguar2	0x1a30
++#define		rTxAGC_D_MCS11_MCS8_Jaguar2	0x1a34
++#define		rTxAGC_D_MCS15_MCS12_Jaguar2	0x1a38
++#define		rTxAGC_D_MCS19_MCS16_Jaguar2	0x1ad8
++#define		rTxAGC_D_MCS23_MCS20_Jaguar2	0x1adc
++#define		rTxAGC_D_Nss1Index3_Nss1Index0_Jaguar2	0x1a3c
++#define		rTxAGC_D_Nss1Index7_Nss1Index4_Jaguar2	0x1a40
++#define		rTxAGC_D_Nss2Index1_Nss1Index8_Jaguar2	0x1a44
++#define		rTxAGC_D_Nss2Index5_Nss2Index2_Jaguar2	0x1a48
++#define		rTxAGC_D_Nss2Index9_Nss2Index6_Jaguar2	0x1a4c
++#define		rTxAGC_D_Nss3Index3_Nss3Index0_Jaguar2	0x1ae0
++#define		rTxAGC_D_Nss3Index7_Nss3Index4_Jaguar2	0x1ae4
++#define		rTxAGC_D_Nss3Index9_Nss3Index8_Jaguar2	0x1ae8
++/* IQK YN: temporaily mask this part
++ * #define rFPGA0_IQK					0xe28
++ * #define rTx_IQK_Tone_A				0xe30
++ * #define rRx_IQK_Tone_A				0xe34
++ * #define rTx_IQK_PI_A					0xe38
++ * #define rRx_IQK_PI_A					0xe3c */
++
++/* #define rTx_IQK						0xe40 */
++/* #define rRx_IQK						0xe44 */
++/* #define rIQK_AGC_Pts					0xe48 */
++/* #define rIQK_AGC_Rsp					0xe4c */
++/* #define rTx_IQK_Tone_B				0xe50 */
++/* #define rRx_IQK_Tone_B				0xe54 */
++/* #define rTx_IQK_PI_B					0xe58 */
++/* #define rRx_IQK_PI_B					0xe5c */
++/* #define rIQK_AGC_Cont				0xe60 */
++
++
++/* AFE-related */
++#define rA_AFEPwr1_Jaguar					0xc60 /* dynamic AFE power control */
++#define rA_AFEPwr2_Jaguar					0xc64 /* dynamic AFE power control */
++#define rA_Rx_WaitCCA_Tx_CCKRFON_Jaguar	0xc68
++#define rA_Tx_CCKBBON_OFDMRFON_Jaguar	0xc6c
++#define rA_Tx_OFDMBBON_Tx2Rx_Jaguar		0xc70
++#define rA_Tx2Tx_RXCCK_Jaguar				0xc74
++#define rA_Rx_OFDM_WaitRIFS_Jaguar			0xc78
++#define rA_Rx2Rx_BT_Jaguar					0xc7c
++#define rA_sleep_nav_Jaguar					0xc80
++#define rA_pmpd_Jaguar						0xc84
++#define rB_AFEPwr1_Jaguar					0xe60 /* dynamic AFE power control */
++#define rB_AFEPwr2_Jaguar					0xe64 /* dynamic AFE power control */
++#define rB_Rx_WaitCCA_Tx_CCKRFON_Jaguar	0xe68
++#define rB_Tx_CCKBBON_OFDMRFON_Jaguar	0xe6c
++#define rB_Tx_OFDMBBON_Tx2Rx_Jaguar		0xe70
++#define rB_Tx2Tx_RXCCK_Jaguar				0xe74
++#define rB_Rx_OFDM_WaitRIFS_Jaguar			0xe78
++#define rB_Rx2Rx_BT_Jaguar					0xe7c
++#define rB_sleep_nav_Jaguar					0xe80
++#define rB_pmpd_Jaguar						0xe84
++
++
++/* YN: mask these registers temporaily
++ * #define rTx_Power_Before_IQK_A		0xe94
++ * #define rTx_Power_After_IQK_A			0xe9c */
++
++/* #define rRx_Power_Before_IQK_A		0xea0 */
++/* #define rRx_Power_Before_IQK_A_2		0xea4 */
++/* #define rRx_Power_After_IQK_A			0xea8 */
++/* #define rRx_Power_After_IQK_A_2		0xeac */
++
++/* #define rTx_Power_Before_IQK_B		0xeb4 */
++/* #define rTx_Power_After_IQK_B			0xebc */
++
++/* #define rRx_Power_Before_IQK_B		0xec0 */
++/* #define rRx_Power_Before_IQK_B_2		0xec4 */
++/* #define rRx_Power_After_IQK_B			0xec8 */
++/* #define rRx_Power_After_IQK_B_2		0xecc */
++
++
++/* RSSI Dump */
++#define rA_RSSIDump_Jaguar			0xBF0
++#define rB_RSSIDump_Jaguar			0xBF1
++#define rS1_RXevmDump_Jaguar		0xBF4
++#define rS2_RXevmDump_Jaguar		0xBF5
++#define rA_RXsnrDump_Jaguar		0xBF6
++#define rB_RXsnrDump_Jaguar		0xBF7
++#define rA_CfoShortDump_Jaguar		0xBF8
++#define rB_CfoShortDump_Jaguar		0xBFA
++#define rA_CfoLongDump_Jaguar		0xBEC
++#define rB_CfoLongDump_Jaguar		0xBEE
++
++
++/* RF Register
++ *   */
++#define RF_AC_Jaguar				0x00	/*  */
++#define RF_RF_Top_Jaguar			0x07	/*  */
++#define RF_TXLOK_Jaguar				0x08	/*  */
++#define RF_TXAPK_Jaguar				0x0B
++#define RF_CHNLBW_Jaguar 			0x18	/* RF channel and BW switch */
++#define RF_RCK1_Jaguar				0x1c	/*  */
++#define RF_RCK2_Jaguar				0x1d
++#define RF_RCK3_Jaguar			0x1e
++#define RF_ModeTableAddr			0x30
++#define RF_ModeTableData0			0x31
++#define RF_ModeTableData1			0x32
++#define RF_TxLCTank_Jaguar	0x54
++#define RF_APK_Jaguar				0x63
++#define RF_LCK						0xB4
++#define RF_WeLut_Jaguar				0xEF
++
++#define bRF_CHNLBW_MOD_AG_Jaguar	0x70300
++#define bRF_CHNLBW_BW				0xc00
++
++
++/*
++ * RL6052 Register definition
++ *   */
++#define RF_AC						0x00	/*  */
++#define RF_IPA_A					0x0C	/*  */
++#define RF_TXBIAS_A					0x0D
++#define RF_BS_PA_APSET_G9_G11		0x0E
++#define RF_MODE1					0x10	/*  */
++#define RF_MODE2					0x11	/*  */
++#define RF_CHNLBW					0x18	/* RF channel and BW switch */
++#define RF_RCK_OS					0x30	/* RF TX PA control */
++#define RF_TXPA_G1					0x31	/* RF TX PA control */
++#define RF_TXPA_G2					0x32	/* RF TX PA control */
++#define RF_TXPA_G3					0x33	/* RF TX PA control */
++#define RF_0x52						0x52
++#define RF_WE_LUT					0xEF
++
++/*
++ * Bit Mask
++ *
++ * 1. Page1(0x100) */
++#define bBBResetB					0x100	/* Useless now? */
++#define bGlobalResetB				0x200
++#define bOFDMTxStart				0x4
++#define bCCKTxStart					0x8
++#define bCRC32Debug					0x100
++#define bPMACLoopback				0x10
++#define bTxLSIG						0xffffff
++#define bOFDMTxRate					0xf
++#define bOFDMTxReserved			0x10
++#define bOFDMTxLength				0x1ffe0
++#define bOFDMTxParity				0x20000
++#define bTxHTSIG1					0xffffff
++#define bTxHTMCSRate				0x7f
++#define bTxHTBW						0x80
++#define bTxHTLength					0xffff00
++#define bTxHTSIG2					0xffffff
++#define bTxHTSmoothing				0x1
++#define bTxHTSounding				0x2
++#define bTxHTReserved				0x4
++#define bTxHTAggreation				0x8
++#define bTxHTSTBC					0x30
++#define bTxHTAdvanceCoding			0x40
++#define bTxHTShortGI					0x80
++#define bTxHTNumberHT_LTF			0x300
++#define bTxHTCRC8					0x3fc00
++#define bCounterReset				0x10000
++#define bNumOfOFDMTx				0xffff
++#define bNumOfCCKTx					0xffff0000
++#define bTxIdleInterval				0xffff
++#define bOFDMService				0xffff0000
++#define bTxMACHeader				0xffffffff
++#define bTxDataInit					0xff
++#define bTxHTMode					0x100
++#define bTxDataType					0x30000
++#define bTxRandomSeed				0xffffffff
++#define bCCKTxPreamble				0x1
++#define bCCKTxSFD					0xffff0000
++#define bCCKTxSIG					0xff
++#define bCCKTxService				0xff00
++#define bCCKLengthExt				0x8000
++#define bCCKTxLength				0xffff0000
++#define bCCKTxCRC16					0xffff
++#define bCCKTxStatus					0x1
++#define bOFDMTxStatus				0x2
++
++
++/*
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 1. Page1(0x100)
++ *   */
++#define rPMAC_Reset					0x100
++#define rPMAC_TxStart				0x104
++#define rPMAC_TxLegacySIG			0x108
++#define rPMAC_TxHTSIG1				0x10c
++#define rPMAC_TxHTSIG2				0x110
++#define rPMAC_PHYDebug				0x114
++#define rPMAC_TxPacketNum			0x118
++#define rPMAC_TxIdle					0x11c
++#define rPMAC_TxMACHeader0			0x120
++#define rPMAC_TxMACHeader1			0x124
++#define rPMAC_TxMACHeader2			0x128
++#define rPMAC_TxMACHeader3			0x12c
++#define rPMAC_TxMACHeader4			0x130
++#define rPMAC_TxMACHeader5			0x134
++#define rPMAC_TxDataType			0x138
++#define rPMAC_TxRandomSeed		0x13c
++#define rPMAC_CCKPLCPPreamble		0x140
++#define rPMAC_CCKPLCPHeader		0x144
++#define rPMAC_CCKCRC16				0x148
++#define rPMAC_OFDMRxCRC32OK		0x170
++#define rPMAC_OFDMRxCRC32Er		0x174
++#define rPMAC_OFDMRxParityEr		0x178
++#define rPMAC_OFDMRxCRC8Er			0x17c
++#define rPMAC_CCKCRxRC16Er			0x180
++#define rPMAC_CCKCRxRC32Er			0x184
++#define rPMAC_CCKCRxRC32OK			0x188
++#define rPMAC_TxStatus				0x18c
++
++/*
++ * 3. Page8(0x800)
++ *   */
++#define rFPGA0_RFMOD				0x800	/* RF mode & CCK TxSC */ /* RF BW Setting?? */
++
++#define rFPGA0_TxInfo				0x804	/* Status report?? */
++#define rFPGA0_PSDFunction			0x808
++#define rFPGA0_TxGainStage			0x80c	/* Set TX PWR init gain? */
++
++#define rFPGA0_XA_HSSIParameter1	0x820	/* RF 3 wire register */
++#define rFPGA0_XA_HSSIParameter2	0x824
++#define rFPGA0_XB_HSSIParameter1	0x828
++#define rFPGA0_XB_HSSIParameter2	0x82c
++
++#define	rFPGA0_XA_LSSIParameter		0x840
++#define	rFPGA0_XB_LSSIParameter		0x844
++
++#define rFPGA0_XAB_SwitchControl	0x858	/* RF Channel switch */
++#define rFPGA0_XCD_SwitchControl	0x85c
++
++#define rFPGA0_XAB_RFParameter		0x878	/* RF Parameter */
++#define rFPGA0_XCD_RFParameter		0x87c
++
++#define rFPGA0_AnalogParameter1	0x880	/* Crystal cap setting RF-R/W protection for parameter4?? */
++#define rFPGA0_AnalogParameter2	0x884
++#define rFPGA0_AnalogParameter3	0x888
++#define rFPGA0_AdDaClockEn			0x888	/* enable ad/da clock1 for dual-phy */
++#define rFPGA0_AnalogParameter4	0x88c
++
++#define	rFPGA0_XA_LSSIReadBack		0x8a0	/* Tranceiver LSSI Readback */
++#define	rFPGA0_XB_LSSIReadBack		0x8a4
++#define	rFPGA0_XC_LSSIReadBack		0x8a8
++#define	rFPGA0_XD_LSSIReadBack		0x8ac
++
++#define rFPGA0_XCD_RFPara	0x8b4
++#define	rFPGA0_PSDReport				0x8b4	/* Useless now */
++#define	TransceiverA_HSPI_Readback		0x8b8	/* Transceiver A HSPI Readback */
++#define	TransceiverB_HSPI_Readback		0x8bc	/* Transceiver B HSPI Readback */
++#define	rFPGA0_XAB_RFInterfaceRB		0x8e0	/* Useless now */ /* RF Interface Readback Value */
++#define	rFPGA0_XCD_RFInterfaceRB		0x8e4	/* Useless now */
++
++/*
++ * 4. Page9(0x900)
++ *   */
++#define rFPGA1_RFMOD				0x900	/* RF mode & OFDM TxSC */ /* RF BW Setting?? */
++#define	REG_BB_TX_PATH_SEL_1_8814A		0x93c
++#define	REG_BB_TX_PATH_SEL_2_8814A		0x940
++#define rFPGA1_TxBlock				0x904	/* Useless now */
++#define rFPGA1_DebugSelect			0x908	/* Useless now */
++#define rFPGA1_TxInfo				0x90c	/* Useless now */ /* Status report?? */
++/*Page 19 for TxBF*/
++#define	REG_BB_TXBF_ANT_SET_BF1_8814A	0x19ac
++#define	REG_BB_TXBF_ANT_SET_BF0_8814A	0x19b4
++/*
++ * PageA(0xA00)
++ *   */
++#define rCCK0_System				0xa00
++#define rCCK0_AFESetting				0xa04	/* Disable init gain now */ /* Select RX path by RSSI */
++#define	rCCK0_DSPParameter2			0xa1c	/* SQ threshold */
++#define rCCK0_TxFilter1				0xa20
++#define rCCK0_TxFilter2				0xa24
++#define rCCK0_DebugPort				0xa28	/* debug port and Tx filter3 */
++#define	rCCK0_FalseAlarmReport			0xa2c	/* 0xa2d	useless now 0xa30-a4f channel report */
++
++/*
++ * PageB(0xB00)
++ *   */
++#define rPdp_AntA				0xb00
++#define rPdp_AntA_4				0xb04
++#define rConfig_Pmpd_AntA			0xb28
++#define rConfig_AntA					0xb68
++#define rConfig_AntB					0xb6c
++#define rPdp_AntB					0xb70
++#define rPdp_AntB_4					0xb74
++#define rConfig_Pmpd_AntB			0xb98
++#define rAPK							0xbd8
++
++/*
++ * 6. PageC(0xC00)
++ *   */
++#define rOFDM0_LSTF					0xc00
++
++#define rOFDM0_TRxPathEnable		0xc04
++#define rOFDM0_TRMuxPar			0xc08
++#define rOFDM0_TRSWIsolation		0xc0c
++
++#define rOFDM0_XARxAFE				0xc10  /* RxIQ DC offset, Rx digital filter, DC notch filter */
++#define rOFDM0_XARxIQImbalance    	0xc14  /* RxIQ imblance matrix */
++#define rOFDM0_XBRxAFE		0xc18
++#define rOFDM0_XBRxIQImbalance	0xc1c
++#define rOFDM0_XCRxAFE		0xc20
++#define rOFDM0_XCRxIQImbalance	0xc24
++#define rOFDM0_XDRxAFE		0xc28
++#define rOFDM0_XDRxIQImbalance	0xc2c
++
++#define rOFDM0_RxDetector1			0xc30  /* PD, BW & SBD	 */ /* DM tune init gain */
++#define rOFDM0_RxDetector2			0xc34  /* SBD & Fame Sync. */
++#define rOFDM0_RxDetector3			0xc38  /* Frame Sync. */
++#define rOFDM0_RxDetector4			0xc3c  /* PD, SBD, Frame Sync & Short-GI */
++
++#define rOFDM0_RxDSP				0xc40  /* Rx Sync Path */
++#define rOFDM0_CFOandDAGC			0xc44  /* CFO & DAGC */
++#define rOFDM0_CCADropThreshold	0xc48 /* CCA Drop threshold */
++#define rOFDM0_ECCAThreshold		0xc4c /* energy CCA */
++
++#define rOFDM0_XAAGCCore1			0xc50	/* DIG */
++#define rOFDM0_XAAGCCore2			0xc54
++#define rOFDM0_XBAGCCore1			0xc58
++#define rOFDM0_XBAGCCore2			0xc5c
++#define rOFDM0_XCAGCCore1			0xc60
++#define rOFDM0_XCAGCCore2			0xc64
++#define rOFDM0_XDAGCCore1			0xc68
++#define rOFDM0_XDAGCCore2			0xc6c
++
++#define rOFDM0_AGCParameter1		0xc70
++#define rOFDM0_AGCParameter2		0xc74
++#define rOFDM0_AGCRSSITable		0xc78
++#define rOFDM0_HTSTFAGC			0xc7c
++
++#define rOFDM0_XATxIQImbalance		0xc80	/* TX PWR TRACK and DIG */
++#define rOFDM0_XATxAFE				0xc84
++#define rOFDM0_XBTxIQImbalance		0xc88
++#define rOFDM0_XBTxAFE				0xc8c
++#define rOFDM0_XCTxIQImbalance		0xc90
++#define rOFDM0_XCTxAFE		0xc94
++#define rOFDM0_XDTxIQImbalance		0xc98
++#define rOFDM0_XDTxAFE				0xc9c
++
++#define rOFDM0_RxIQExtAnta			0xca0
++#define rOFDM0_TxCoeff1				0xca4
++#define rOFDM0_TxCoeff2				0xca8
++#define rOFDM0_TxCoeff3				0xcac
++#define rOFDM0_TxCoeff4				0xcb0
++#define rOFDM0_TxCoeff5				0xcb4
++#define rOFDM0_TxCoeff6				0xcb8
++#define rOFDM0_RxHPParameter		0xce0
++#define rOFDM0_TxPseudoNoiseWgt	0xce4
++#define rOFDM0_FrameSync			0xcf0
++#define rOFDM0_DFSReport			0xcf4
++
++/*
++ * 7. PageD(0xD00)
++ *   */
++#define rOFDM1_LSTF					0xd00
++#define rOFDM1_TRxPathEnable		0xd04
++
++/*
++ * 8. PageE(0xE00)
++ *   */
++#define rTxAGC_A_Rate18_06			0xe00
++#define rTxAGC_A_Rate54_24			0xe04
++#define rTxAGC_A_CCK1_Mcs32		0xe08
++#define rTxAGC_A_Mcs03_Mcs00		0xe10
++#define rTxAGC_A_Mcs07_Mcs04		0xe14
++#define rTxAGC_A_Mcs11_Mcs08		0xe18
++#define rTxAGC_A_Mcs15_Mcs12		0xe1c
++
++#define rTxAGC_B_Rate18_06			0x830
++#define rTxAGC_B_Rate54_24			0x834
++#define rTxAGC_B_CCK1_55_Mcs32	0x838
++#define rTxAGC_B_Mcs03_Mcs00		0x83c
++#define rTxAGC_B_Mcs07_Mcs04		0x848
++#define rTxAGC_B_Mcs11_Mcs08		0x84c
++#define rTxAGC_B_Mcs15_Mcs12		0x868
++#define rTxAGC_B_CCK11_A_CCK2_11	0x86c
++
++#define rFPGA0_IQK					0xe28
++#define rTx_IQK_Tone_A				0xe30
++#define rRx_IQK_Tone_A				0xe34
++#define rTx_IQK_PI_A				0xe38
++#define rRx_IQK_PI_A				0xe3c
++
++#define rTx_IQK						0xe40
++#define rRx_IQK						0xe44
++#define rIQK_AGC_Pts					0xe48
++#define rIQK_AGC_Rsp				0xe4c
++#define rTx_IQK_Tone_B				0xe50
++#define rRx_IQK_Tone_B				0xe54
++#define rTx_IQK_PI_B					0xe58
++#define rRx_IQK_PI_B					0xe5c
++#define rIQK_AGC_Cont				0xe60
++
++#define rBlue_Tooth					0xe6c
++#define rRx_Wait_CCA				0xe70
++#define rTx_CCK_RFON				0xe74
++#define rTx_CCK_BBON				0xe78
++#define rTx_OFDM_RFON				0xe7c
++#define rTx_OFDM_BBON				0xe80
++#define rTx_To_Rx					0xe84
++#define rTx_To_Tx					0xe88
++#define rRx_CCK						0xe8c
++
++#define rTx_Power_Before_IQK_A		0xe94
++#define rTx_Power_After_IQK_A		0xe9c
++
++#define rRx_Power_Before_IQK_A		0xea0
++#define rRx_Power_Before_IQK_A_2	0xea4
++#define rRx_Power_After_IQK_A		0xea8
++#define rRx_Power_After_IQK_A_2		0xeac
++
++#define rTx_Power_Before_IQK_B		0xeb4
++#define rTx_Power_After_IQK_B		0xebc
++
++#define rRx_Power_Before_IQK_B		0xec0
++#define rRx_Power_Before_IQK_B_2	0xec4
++#define rRx_Power_After_IQK_B		0xec8
++#define rRx_Power_After_IQK_B_2		0xecc
++
++#define rRx_OFDM					0xed0
++#define rRx_Wait_RIFS				0xed4
++#define rRx_TO_Rx					0xed8
++#define rStandby						0xedc
++#define rSleep						0xee0
++#define rPMPD_ANAEN				0xeec
++
++
++/* 2. Page8(0x800) */
++#define bRFMOD						0x1	/* Reg 0x800 rFPGA0_RFMOD */
++#define bJapanMode					0x2
++#define bCCKTxSC					0x30
++#define bCCKEn						0x1000000
++#define bOFDMEn						0x2000000
++#define bXBTxAGC                  			0xf00	/* Reg 80c rFPGA0_TxGainStage */
++#define bXCTxAGC			0xf000
++#define bXDTxAGC			0xf0000
++
++/* 4. PageA(0xA00) */
++#define bCCKBBMode                			0x3	/* Useless */
++#define bCCKTxPowerSaving		0x80
++#define bCCKRxPowerSaving		0x40
++
++#define bCCKSideBand              		0x10	/* Reg 0xa00 rCCK0_System 20/40 switch */
++
++#define bCCKScramble              		0x8	/* Useless */
++#define bCCKAntDiversity			0x8000
++#define bCCKCarrierRecovery		0x4000
++#define bCCKTxRate			0x3000
++#define bCCKDCCancel			0x0800
++#define bCCKISICancel			0x0400
++#define bCCKMatchFilter		0x0200
++#define bCCKEqualizer			0x0100
++#define bCCKPreambleDetect		0x800000
++#define bCCKFastFalseCCA		0x400000
++#define bCCKChEstStart		0x300000
++#define bCCKCCACount		0x080000
++#define bCCKcs_lim			0x070000
++#define bCCKBistMode			0x80000000
++#define bCCKCCAMask			0x40000000
++#define bCCKTxDACPhase		0x4
++#define bCCKRxADCPhase         	   	0x20000000   /* r_rx_clk */
++#define bCCKr_cp_mode0		0x0100
++#define bCCKTxDCOffset		0xf0
++#define bCCKRxDCOffset		0xf
++#define bCCKCCAMode			0xc000
++#define bCCKFalseCS_lim		0x3f00
++#define bCCKCS_ratio			0xc00000
++#define bCCKCorgBit_sel		0x300000
++#define bCCKPD_lim			0x0f0000
++#define bCCKNewCCA		0x80000000
++#define bCCKRxHPofIG		0x8000
++#define bCCKRxIG			0x7f00
++#define bCCKLNAPolarity		0x800000
++#define bCCKRx1stGain		0x7f0000
++#define bCCKRFExtend              		0x20000000 /* CCK Rx Iinital gain polarity */
++#define bCCKRxAGCSatLevel		0x1f000000
++#define bCCKRxAGCSatCount		0xe0
++#define bCCKRxRFSettle            		0x1f       /* AGCsamp_dly */
++#define bCCKFixedRxAGC		0x8000
++/* #define bCCKRxAGCFormat		0x4000 */   /* remove to HSSI register 0x824 */
++#define bCCKAntennaPolarity		0x2000
++#define bCCKTxFilterType		0x0c00
++#define bCCKRxAGCReportType		0x0300
++#define bCCKRxDAGCEn		0x80000000
++#define bCCKRxDAGCPeriod		0x20000000
++#define bCCKRxDAGCSatLevel		0x1f000000
++#define bCCKTimingRecovery		0x800000
++#define bCCKTxC0			0x3f0000
++#define bCCKTxC1			0x3f000000
++#define bCCKTxC2			0x3f
++#define bCCKTxC3			0x3f00
++#define bCCKTxC4			0x3f0000
++#define bCCKTxC5			0x3f000000
++#define bCCKTxC6			0x3f
++#define bCCKTxC7			0x3f00
++#define bCCKDebugPort		0xff0000
++#define bCCKDACDebug		0x0f000000
++#define bCCKFalseAlarmEnable		0x8000
++#define bCCKFalseAlarmRead		0x4000
++#define bCCKTRSSI			0x7f
++#define bCCKRxAGCReport		0xfe
++#define bCCKRxReport_AntSel		0x80000000
++#define bCCKRxReport_MFOff		0x40000000
++#define bCCKRxRxReport_SQLoss	0x20000000
++#define bCCKRxReport_Pktloss		0x10000000
++#define bCCKRxReport_Lockedbit	0x08000000
++#define bCCKRxReport_RateError	0x04000000
++#define bCCKRxReport_RxRate		0x03000000
++#define bCCKRxFACounterLower	0xff
++#define bCCKRxFACounterUpper	0xff000000
++#define bCCKRxHPAGCStart		0xe000
++#define bCCKRxHPAGCFinal		0x1c00
++#define bCCKRxFalseAlarmEnable	0x8000
++#define bCCKFACounterFreeze		0x4000
++#define bCCKTxPathSel		0x10000000
++#define bCCKDefaultRxPath		0xc000000
++#define bCCKOptionRxPath		0x3000000
++
++#define		RF_T_METER_88E				0x42
++
++/* 6. PageE(0xE00) */
++#define bSTBCEn                  			0x4	/* Useless */
++#define bAntennaMapping		0x10
++#define bNss				0x20
++#define bCFOAntSumD		0x200
++#define bPHYCounterReset		0x8000000
++#define bCFOReportGet			0x4000000
++#define bOFDMContinueTx		0x10000000
++#define bOFDMSingleCarrier		0x20000000
++#define bOFDMSingleTone		0x40000000
++
++
++/*
++ * Other Definition
++ *   */
++
++#define bEnable                   0x1	/* Useless */
++#define bDisable                  0x0
++
++/* byte endable for srwrite */
++#define bByte0                    		0x1	/* Useless */
++#define bByte1		0x2
++#define bByte2		0x4
++#define bByte3		0x8
++#define bWord0		0x3
++#define bWord1		0xc
++#define bDWord		0xf
++
++/* for PutRegsetting & GetRegSetting BitMask */
++#define bMaskByte0                		0xff	/* Reg 0xc50 rOFDM0_XAAGCCore~0xC6f */
++#define bMaskByte1		0xff00
++#define bMaskByte2		0xff0000
++#define bMaskByte3		0xff000000
++#define bMaskHWord	0xffff0000
++#define bMaskLWord		0x0000ffff
++#define bMaskDWord	0xffffffff
++#define bMaskH3Bytes				0xffffff00
++#define bMask12Bits				0xfff
++#define bMaskH4Bits				0xf0000000
++#define bMaskOFDM_D			0xffc00000
++#define bMaskCCK				0x3f3f3f3f
++#define bMask7bits				0x7f
++#define bMaskByte2HighNibble			0x00f00000
++#define bMaskByte3LowNibble				0x0f000000
++#define bMaskL3Bytes			0x00ffffff
++
++/*--------------------------Define Parameters-------------------------------*/
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8814PwrSeq.h b/drivers/net/wireless/rtl8812au/include/Hal8814PwrSeq.h
+new file mode 100644
+index 0000000..696959b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8814PwrSeq.h
+@@ -0,0 +1,236 @@
++
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __HAL8814PWRSEQ_H__
++#define __HAL8814PWRSEQ_H__
++
++#include "HalPwrSeqCmd.h"
++
++/*
++	Check document WB-110628-DZ-RTL8195 (Jaguar) Power Architecture-R04.pdf
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transision from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++*/
++#define	RTL8814A_TRANS_CARDEMU_TO_ACT_STEPS	16
++#define	RTL8814A_TRANS_ACT_TO_CARDEMU_STEPS	20
++#define	RTL8814A_TRANS_CARDEMU_TO_SUS_STEPS	17
++#define	RTL8814A_TRANS_SUS_TO_CARDEMU_STEPS	15
++#define	RTL8814A_TRANS_CARDEMU_TO_PDN_STEPS	17
++#define	RTL8814A_TRANS_PDN_TO_CARDEMU_STEPS	16
++#define	RTL8814A_TRANS_ACT_TO_LPS_STEPS	20
++#define	RTL8814A_TRANS_LPS_TO_ACT_STEPS	15
++#define	RTL8814A_TRANS_END_STEPS	1
++
++
++#define RTL8814A_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0},/* disable SW LPS 0x04[10]=0*/	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1    power ready*/	\
++	{0x002B, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /* ??0x28[24]=1, enable pll phase select*/ \
++	{0x0015, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT3 | BIT2 | BIT1), (BIT3 | BIT2 | BIT1)},/* 0x14[11:9]=3'b111, OCP current threshold = 1.5A */ \
++	{0x002D, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x0E, 0x08},/* 0x2C[11:9]=3'b100, select lpf R3 */ \
++	{0x002D, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x70, 0x50},/* 0x2C[14:12]=3'b101, select lpf Rs*/ \
++	{0x007B, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, BIT6},/* 0x78[30]=1'b1, SDM order select*/ \
++	/*{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0}, */ /* disable HWPDN 0x04[15]=0*/ \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, 0},/* disable WL suspend*/	\
++	{0x00F0, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* */	\
++	{0x0081, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x30, 0x20},/* */	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* polling until return 0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0},/**/
++
++#define RTL8814A_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0c00, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x04}, /* 0xc00[7:0] = 4	turn off 3-wire */	\
++	{0x0e00, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x04}, /* 0xe00[7:0] = 4	turn off 3-wire */	\
++	{0x0002, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},  /* 0x2[0] = 0	 RESET BB, CLOSE RF */	\
++	{0x0002, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US}, /*Delay 1us*/	\
++	{0x0002, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},  /* Whole BB is reset*/			\
++	{0x1002, ~PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},  /* 0x2[0] = 0	 RESET BB, CLOSE RF */	\
++	{0x0002, ~PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US}, /*Delay 1us*/	\
++	{0x1002, ~PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},  /* Whole BB is reset*/			\
++	{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},  /*0x1F[7:0] = 0 turn off RF*/	\
++	/*{0x004E, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},*/  /*0x4C[23] = 0x4E[7] = 0, switch DPDT_SEL_P output from register 0x65[2] */	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x28},   /* 0x07[7:0] = 0x28 sps pwm mode 0x2a for BT coex*/	\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x02, 0},   /*0x8[1] = 0 ANA clk = 500k */	\
++	/*{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0 | BIT1, 0},*/   /*  0x02[1:0] = 0	reset BB */	\
++	{0x0066, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},   /*0x66[7]=0, disable ckreq for gpio7 output SUS */	\
++	{0x0041, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0},   /*0x41[4]=0, disable sic for gpio7 output SUS */	\
++	{0x0042, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},   /*0x42[1]=0, disable ckout for gpio7 output SUS */	\
++	{0x004e, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},   /*0x4E[5]=1, disable LED2 for gpio7 output SUS */	\
++	{0x0041, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},   /*0x41[0]=0, disable uart for gpio7 output SUS */	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/
++
++#define RTL8814A_TRANS_CARDEMU_TO_SUS													\
++	/* format */								\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0061, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x0F, 0x0c},\
++	{0x0061, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x0F, 0x0E},\
++	{0x0062, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x0F, 0x07},/* gpio11 input mode, gpio10~8 output mode */	\
++	{0x0045, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio 0~7 output same value as input ?? */	\
++	{0x0046, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xff},/* gpio0~7 output mode */	\
++	{0x0047, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/* 0x47[7:0] = 00 gpio mode */	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/* suspend option all off */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*0x14[13] = 1 turn on ZCD */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, BIT6},/* 0x14[14] =1 trun on ZCD */	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4},/*0x23[4] = 1 hpon LDO sleep mode */	\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*0x8[1] = 0 ANA clk = 500k */	\
++	{0x0091, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xA0, 0xA0}, /* 0x91[7]=1 0x91[5]=1 , disable sps, ldo sleep mode */	\
++	{0x0070, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, BIT3}, /* 0x70[3]=1 enable mainbias polling */	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, BIT3}, /*0x04[11] = 1 enable WL suspend */
++
++#define RTL8814A_TRANS_SUS_TO_CARDEMU													\
++	/* format */								\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, 0}, /*0x04[11] = 0 enable WL suspend*/   \
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0x10, 0},/*0x23[4] = 0 hpon LDO sleep mode leave */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, 0},/* 0x14[14] =0 trun off ZCD */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, 0},/*0x14[13] = 0 turn off ZCD */	\
++	{0x0046, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio0~7 input mode */	\
++	{0x0062, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio11 input mode, gpio10~8 input mode */
++
++#define RTL8814A_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	/**{0x0194, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, //0x194[0]=0 , disable 32K clock*/	\
++	/**{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x94}, //0x93 = 0x94 , 90[30] =0 enable 500k ANA clock .switch clock from 12M to 500K , 90 [26] =0 disable EEprom loader clock*/	\
++	{0x0003, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0}, /*0x03[2] = 0, reset 3081*/	\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x01}, /*0x80 = 05h if reload fw, fill the default value of host_CPU handshake field*/	\
++	{0x0081, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x30}, /*0x80 = 05h if reload fw, fill the default value of host_CPU handshake field*/	\
++	/*{0x0042, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xF0, 0xcc},*/   \
++	/*{0x0042, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xF0, 0xEC},*/   \
++	/*{0x0043, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x07},*/  /* gpio11 input mode, gpio10~8 output mode */	\
++	{0x0045, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio 0~7 output same value as input ?? */	\
++	{0x0046, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xff},/* gpio0~7 output mode */	\
++	{0x0047, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/* 0x47[7:0] = 00 gpio mode */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, BIT6},/* 0x15[6] =1 trun on ZCD output */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*0x15[5] = 1 turn on ZCD */	\
++	{0x0012, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, 0},/*0x12[6] = 0 force PFM mode */	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4},/*0x23[4] = 1 hpon LDO sleep mode */	\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*0x8[1] = 0 ANA clk = 500k */	\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07 = 0x20 , SOP option to disable BG/MB*/	\
++	{0x001f, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0}, /* 0x01f[1]=0 , disable RFC_0  control  REG_RF_CTRL_8814A */	\
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0}, /* 0x020[1]=0 , disable RFC_1  control  REG_RF_CTRL_8814A */	\
++	{0x0021, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0}, /* 0x021[1]=0 , disable RFC_2  control  REG_RF_CTRL_8814A */	\
++	{0x0076, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0}, /* 0x076[1]=0 , disable RFC_3  control REG_OPT_CTRL_8814A +2 */	\
++	{0x0091, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xA0, 0xA0}, /* 0x91[7]=1 0x91[5]=1 , disable sps, ldo sleep mode */	\
++	{0x0070, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, BIT3}, /* 0x70[3]=1 enable mainbias polling */	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, BIT3}, /*0x04[11] = 1 enable WL suspend*/
++
++#define RTL8814A_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/                       \
++	{0x0012, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, BIT6},/*0x12[6] = 1 force PWM mode */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, 0},/*0x15[5] = 0 turn off ZCD */	\
++	{0x0015, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, 0},/* 0x15[6] =0 trun off ZCD output */	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0},/*0x23[4] = 0 hpon LDO leave sleep mode */	\
++	{0x0046, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/* gpio0~7 input mode */	\
++	{0x0062, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00}, /* gpio11 input mode, gpio10~8 input mode */ \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0}, /*0x04[10] = 0, enable SW LPS PCIE only*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3, 0}, /*0x04[11] = 0, enable WL suspend*/	\
++	/*{0x0003, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2},*/ /*0x03[2] = 1, enable 3081*/	\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*PCIe DMA start*/		\
++	{0x0071, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, 0},/*0x70[10] = 0, CPHY_MBIAS_EN disable*/
++
++
++#define RTL8814A_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
++
++#define RTL8814A_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
++
++#define RTL8814A_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*PCIe DMA stop*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x7F},/*Tx Pause*/		\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0c00, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x04}, /* 0xc00[7:0] = 4	turn off 3-wire */	\
++	{0x0e00, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x04}, /* 0xe00[7:0] = 4	turn off 3-wire */	\
++	{0x0002, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated, and RF closed*/	\
++	{0x0002, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},  /* Whole BB is reset*/			\
++	{0x1002, ~PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated, and RF closed*/	\
++	{0x0002, ~PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x1002, ~PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},  /* Whole BB is reset*/			\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x03},/*Reset MAC TRX*/			\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/		\
++	{0x05F1, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*Respond TxOK to scheduler*/
++
++
++#define RTL8814A_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/	\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM*/	\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/	\
++	{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /* Delay*/	\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*.	0x08[4] = 0		 switch TSF to 40M*/	\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, 0}, /* Polling 0x109[7]=0  TSF in 40M*/			\
++	/*{0x0029, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6 | BIT7, 0}, */ /*.	??0x29[7:6] = 2b'00	 enable BB clock*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1*/					\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/	\
++	{0x0002, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/	\
++	{0x1002, ~PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0}, /*.	0x1002[1:0] = 2b'11	 enable BB macro*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++#define RTL8814A_TRANS_END																\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/		\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++extern WLAN_PWR_CFG rtl8814A_power_on_flow[RTL8814A_TRANS_CARDEMU_TO_ACT_STEPS + RTL8814A_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8814A_radio_off_flow[RTL8814A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8814A_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8814A_card_disable_flow[RTL8814A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8814A_TRANS_CARDEMU_TO_PDN_STEPS + RTL8814A_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8814A_card_enable_flow[RTL8814A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8814A_TRANS_CARDEMU_TO_PDN_STEPS + RTL8814A_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8814A_suspend_flow[RTL8814A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8814A_TRANS_CARDEMU_TO_SUS_STEPS + RTL8814A_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8814A_resume_flow[RTL8814A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8814A_TRANS_CARDEMU_TO_SUS_STEPS + RTL8814A_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8814A_hwpdn_flow[RTL8814A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8814A_TRANS_CARDEMU_TO_PDN_STEPS + RTL8814A_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8814A_enter_lps_flow[RTL8814A_TRANS_ACT_TO_LPS_STEPS + RTL8814A_TRANS_END_STEPS];
++extern WLAN_PWR_CFG rtl8814A_leave_lps_flow[RTL8814A_TRANS_LPS_TO_ACT_STEPS + RTL8814A_TRANS_END_STEPS];
++
++#endif /* __HAL8814PWRSEQ_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/Hal8821APwrSeq.h b/drivers/net/wireless/rtl8812au/include/Hal8821APwrSeq.h
+new file mode 100644
+index 0000000..393068b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/Hal8821APwrSeq.h
+@@ -0,0 +1,186 @@
++#ifndef REALTEK_POWER_SEQUENCE_8821
++#define REALTEK_POWER_SEQUENCE_8821
++
++#include "HalPwrSeqCmd.h"
++
++/*
++	Check document WM-20130516-JackieLau-RTL8821A_Power_Architecture-R10.vsd
++	There are 6 HW Power States:
++	0: POFF--Power Off
++	1: PDN--Power Down
++	2: CARDEMU--Card Emulation
++	3: ACT--Active Mode
++	4: LPS--Low Power State
++	5: SUS--Suspend
++
++	The transision from different states are defined below
++	TRANS_CARDEMU_TO_ACT
++	TRANS_ACT_TO_CARDEMU
++	TRANS_CARDEMU_TO_SUS
++	TRANS_SUS_TO_CARDEMU
++	TRANS_CARDEMU_TO_PDN
++	TRANS_ACT_TO_LPS
++	TRANS_LPS_TO_ACT
++
++	TRANS_END
++*/
++#define	RTL8821A_TRANS_CARDEMU_TO_ACT_STEPS	25
++#define	RTL8821A_TRANS_ACT_TO_CARDEMU_STEPS	15
++#define	RTL8821A_TRANS_CARDEMU_TO_SUS_STEPS	15
++#define	RTL8821A_TRANS_SUS_TO_CARDEMU_STEPS	15
++#define RTL8821A_TRANS_CARDDIS_TO_CARDEMU_STEPS	15
++#define	RTL8821A_TRANS_CARDEMU_TO_PDN_STEPS	15
++#define	RTL8821A_TRANS_PDN_TO_CARDEMU_STEPS	15
++#define	RTL8821A_TRANS_ACT_TO_LPS_STEPS	15
++#define	RTL8821A_TRANS_LPS_TO_ACT_STEPS	15
++#define	RTL8821A_TRANS_END_STEPS	1
++
++
++#define RTL8821A_TRANS_CARDEMU_TO_ACT														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0}, /*0x20[0] = 1b'1 enable LDOA12 MACRO block for all interface*/   \
++	{0x0067, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x67[0] = 0 to disable BT_GPS_SEL pins*/	\
++	{0x0001, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 1, PWRSEQ_DELAY_MS},/*Delay 1ms*/   \
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, 0}, /*0x00[5] = 1b'0 release analog Ips to digital ,1:isolation*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT4 | BIT3 | BIT2), 0},/* disable SW LPS 0x04[10]=0 and WLSUS_EN 0x04[12:11]=0*/	\
++	{0x0075, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0 , BIT0},/* Disable USB suspend */	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, BIT1},/* wait till 0x04[17] = 1    power ready*/	\
++	{0x0075, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0 , 0},/* Enable USB suspend */	\
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* release WLON reset  0x04[16]=1*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* disable HWPDN 0x04[15]=0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT4 | BIT3), 0},/* disable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* polling until return 0*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT0, 0},/**/	\
++	{0x004F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*0x4C[24] = 0x4F[0] = 1, switch DPDT_SEL_P output from WL BB */\
++	{0x0067, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, (BIT5 | BIT4), (BIT5 | BIT4)},/*0x66[13] = 0x67[5] = 1, switch for PAPE_G/PAPE_A from WL BB ; 0x66[12] = 0x67[4] = 1, switch LNAON from WL BB */\
++	{0x0025, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6, 0},/*anapar_mac<118> , 0x25[6]=0 by wlan single function*/\
++	{0x0049, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/*Enable falling edge triggering interrupt*/\
++	{0x0063, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/*Enable GPIO9 interrupt mode*/\
++	{0x0062, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Enable GPIO9 input mode*/\
++	{0x0058, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/*Enable HSISR GPIO[C:0] interrupt*/\
++	{0x005A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1},/*Enable HSISR GPIO9 interrupt*/\
++	{0x007A, PWR_CUT_TESTCHIP_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x3A},/*0x7A = 0x3A start BT*/\
++	{0x002E, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF , 0x82 },/* 0x2C[23:12]=0x820 ; XTAL trim */ \
++	{0x0010, PWR_CUT_A_MSK , PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6 , BIT6 },/* 0x10[6]=1 ; MP·s¼W¹ï©ó0x2Cªº±±¨îÅv¡A¶·§â0x10[6]³]¬°1¤~¯àÅýWLAN±±¨î */ \
++
++
++#define RTL8821A_TRANS_ACT_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x001F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*0x1F[7:0] = 0 turn off RF*/	\
++	{0x004F, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*0x4C[24] = 0x4F[0] = 0, switch DPDT_SEL_P output from register 0x65[2] */\
++	{0x0049, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Enable rising edge triggering interrupt*/ \
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, BIT0},/* release WLON reset  0x04[16]=1*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*0x04[9] = 1 turn off MAC by HW state machine*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT1, 0}, /*wait till 0x04[9] = 0 polling until return 0 to disable*/	\
++	{0x0000, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5}, /*0x00[5] = 1b'1 analog Ips to digital ,1:isolation*/   \
++	{0x0020, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /*0x20[0] = 1b'0 disable LDOA12 MACRO block*/   \
++
++
++#define RTL8821A_TRANS_CARDEMU_TO_SUS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4 | BIT3, (BIT4 | BIT3)}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SDIO SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3 | BIT4}, /*0x04[12:11] = 2b'11 enable WL suspend for PCIe*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8821A_TRANS_SUS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT7, 0}, /*clear suspend enable and power down enable*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/
++
++#define RTL8821A_TRANS_CARDEMU_TO_CARDDIS													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07 = 0x20 , SOP option to disable BG/MB*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK | PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, BIT3}, /*0x04[12:11] = 2b'01 enable WL suspend*/	\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT2, BIT2}, /*0x04[10] = 1, enable SW LPS*/	\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 1}, /*0x48[16] = 1 to enable GPIO9 as EXT WAKEUP*/   \
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, BIT0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, 0}, /*wait power state to suspend*/
++
++#define RTL8821A_TRANS_CARDDIS_TO_CARDEMU													\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT7, 0}, /*clear suspend enable and power down enable*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, BIT0, 0}, /*Set SDIO suspend local register*/	\
++	{0x0086, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_POLLING, BIT1, BIT1}, /*wait power state to suspend*/\
++	{0x004A, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0}, /*0x48[16] = 0 to disable GPIO9 as EXT WAKEUP*/   \
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT3 | BIT4, 0}, /*0x04[12:11] = 2b'01enable WL suspend*/\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*0x23[4] = 1b'0 12H LDO enter normal mode*/   \
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0},/*PCIe DMA start*/
++
++
++#define RTL8821A_TRANS_CARDEMU_TO_PDN												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0023, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, BIT4}, /*0x23[4] = 1b'1 12H LDO enter sleep mode*/   \
++	{0x0007, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK | PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x20}, /*0x07[7:0] = 0x20 SOP option to disable BG/MB/ACK/SWR*/   \
++	{0x0006, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/* 0x04[16] = 0*/\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, BIT7},/* 0x04[15] = 1*/
++
++#define RTL8821A_TRANS_PDN_TO_CARDEMU												\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0005, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT7, 0},/* 0x04[15] = 0*/
++
++#define RTL8821A_TRANS_ACT_TO_LPS														\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0301, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*PCIe DMA stop*/	\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF},/*Tx Pause*/	\
++	{0x05F8, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05F9, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FA, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x05FB, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, 0xFF, 0},/*Should be zero if no packet is transmitting*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT0, 0},/*CCK and OFDM are disabled, and clock are gated*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_US},/*Delay 1us*/	\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*Whole BB is reset*/	\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x03},/*Reset MAC TRX*/	\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, 0},/*check if removed later*/	\
++	{0x0093, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x00},/*When driver enter Sus/ Disable, enable LOP for BT*/	\
++	{0x0553, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT5, BIT5},/*Respond TxOK to scheduler*/	\
++
++
++#define RTL8821A_TRANS_LPS_TO_ACT															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0x0080, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_SDIO_MSK, PWR_BASEADDR_SDIO, PWR_CMD_WRITE, 0xFF, 0x84}, /*SDIO RPWM*/\
++	{0xFE58, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_USB_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*USB RPWM*/\
++	{0x0361, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_PCI_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0x84}, /*PCIe RPWM*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_DELAY, 0, PWRSEQ_DELAY_MS}, /*Delay*/\
++	{0x0008, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT4, 0}, /*.	0x08[4] = 0		 switch TSF to 40M*/\
++	{0x0109, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_POLLING, BIT7, 0}, /*Polling 0x109[7]=0  TSF in 40M*/\
++	{0x0029, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT6 | BIT7, 0}, /*.	0x29[7:6] = 2b'00	 enable BB clock*/\
++	{0x0101, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1, BIT1}, /*.	0x101[1] = 1*/\
++	{0x0100, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0xFF}, /*.	0x100[7:0] = 0xFF	 enable WMAC TRX*/\
++	{0x0002, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, BIT1 | BIT0, BIT1 | BIT0}, /*.	0x02[1:0] = 2b'11	 enable BB macro*/\
++	{0x0522, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, PWR_BASEADDR_MAC, PWR_CMD_WRITE, 0xFF, 0}, /*.	0x522 = 0*/
++
++#define RTL8821A_TRANS_END															\
++	/* format */																\
++	/* { offset, cut_msk, fab_msk|interface_msk, base|cmd, msk, value }, // comments here*/								\
++	{0xFFFF, PWR_CUT_ALL_MSK, PWR_FAB_ALL_MSK, PWR_INTF_ALL_MSK, 0, PWR_CMD_END, 0, 0},
++
++
++	extern WLAN_PWR_CFG rtl8821A_power_on_flow[RTL8821A_TRANS_CARDEMU_TO_ACT_STEPS + RTL8821A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8821A_radio_off_flow[RTL8821A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8821A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8821A_card_disable_flow[RTL8821A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8821A_TRANS_CARDEMU_TO_PDN_STEPS + RTL8821A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8821A_card_enable_flow[RTL8821A_TRANS_CARDDIS_TO_CARDEMU_STEPS + RTL8821A_TRANS_CARDEMU_TO_ACT_STEPS + RTL8821A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8821A_suspend_flow[RTL8821A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8821A_TRANS_CARDEMU_TO_SUS_STEPS + RTL8821A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8821A_resume_flow[RTL8821A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8821A_TRANS_CARDEMU_TO_SUS_STEPS + RTL8821A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8821A_hwpdn_flow[RTL8821A_TRANS_ACT_TO_CARDEMU_STEPS + RTL8821A_TRANS_CARDEMU_TO_PDN_STEPS + RTL8821A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8821A_enter_lps_flow[RTL8821A_TRANS_ACT_TO_LPS_STEPS + RTL8821A_TRANS_END_STEPS];
++	extern WLAN_PWR_CFG rtl8821A_leave_lps_flow[RTL8821A_TRANS_LPS_TO_ACT_STEPS + RTL8821A_TRANS_END_STEPS];
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/HalPwrSeqCmd.h b/drivers/net/wireless/rtl8812au/include/HalPwrSeqCmd.h
+new file mode 100644
+index 0000000..b511436
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/HalPwrSeqCmd.h
+@@ -0,0 +1,135 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HALPWRSEQCMD_H__
++#define __HALPWRSEQCMD_H__
++
++#include <drv_types.h>
++
++/*---------------------------------------------*/
++/* 3 The value of cmd: 4 bits
++ *---------------------------------------------*/
++#define PWR_CMD_READ			0x00
++/* offset: the read register offset
++ * msk: the mask of the read value
++ * value: N/A, left by 0
++ * note: dirver shall implement this function by read & msk */
++
++#define PWR_CMD_WRITE			0x01
++/* offset: the read register offset
++ * msk: the mask of the write bits
++ * value: write value
++ * note: driver shall implement this cmd by read & msk after write */
++
++#define PWR_CMD_POLLING			0x02
++/* offset: the read register offset
++ * msk: the mask of the polled value
++ * value: the value to be polled, masked by the msd field.
++ * note: driver shall implement this cmd by
++ * do {
++ * if( (Read(offset) & msk) == (value & msk) )
++ * break;
++ * } while(not timeout); */
++
++#define PWR_CMD_DELAY			0x03
++/* offset: the value to delay
++ * msk: N/A
++ * value: the unit of delay, 0: us, 1: ms */
++
++#define PWR_CMD_END				0x04
++/* offset: N/A
++ * msk: N/A
++ * value: N/A */
++
++/*---------------------------------------------*/
++/* 3 The value of base: 4 bits
++ *---------------------------------------------
++    * define the base address of each block */
++#define PWR_BASEADDR_MAC		0x00
++#define PWR_BASEADDR_USB		0x01
++#define PWR_BASEADDR_PCIE		0x02
++#define PWR_BASEADDR_SDIO		0x03
++
++/*---------------------------------------------*/
++/* 3 The value of interface_msk: 4 bits
++ *---------------------------------------------*/
++#define	PWR_INTF_SDIO_MSK		BIT(0)
++#define	PWR_INTF_USB_MSK		BIT(1)
++#define	PWR_INTF_PCI_MSK		BIT(2)
++#define	PWR_INTF_ALL_MSK		(BIT(0) | BIT(1) | BIT(2) | BIT(3))
++
++/*---------------------------------------------*/
++/* 3 The value of fab_msk: 4 bits
++ *---------------------------------------------*/
++#define	PWR_FAB_TSMC_MSK		BIT(0)
++#define	PWR_FAB_UMC_MSK			BIT(1)
++#define	PWR_FAB_ALL_MSK			(BIT(0) | BIT(1) | BIT(2) | BIT(3))
++
++/*---------------------------------------------*/
++/* 3 The value of cut_msk: 8 bits
++ *---------------------------------------------*/
++#define	PWR_CUT_TESTCHIP_MSK	BIT(0)
++#define	PWR_CUT_A_MSK			BIT(1)
++#define	PWR_CUT_B_MSK			BIT(2)
++#define	PWR_CUT_C_MSK			BIT(3)
++#define	PWR_CUT_D_MSK			BIT(4)
++#define	PWR_CUT_E_MSK			BIT(5)
++#define	PWR_CUT_F_MSK			BIT(6)
++#define	PWR_CUT_G_MSK			BIT(7)
++#define	PWR_CUT_ALL_MSK			0xFF
++
++
++typedef enum _PWRSEQ_CMD_DELAY_UNIT_ {
++	PWRSEQ_DELAY_US,
++	PWRSEQ_DELAY_MS,
++} PWRSEQ_DELAY_UNIT;
++
++typedef struct _WL_PWR_CFG_ {
++	u16 offset;
++	u8 cut_msk;
++	u8 fab_msk:4;
++	u8 interface_msk:4;
++	u8 base:4;
++	u8 cmd:4;
++	u8 msk;
++	u8 value;
++} WLAN_PWR_CFG, *PWLAN_PWR_CFG;
++
++
++#define GET_PWR_CFG_OFFSET(__PWR_CMD)		((__PWR_CMD).offset)
++#define GET_PWR_CFG_CUT_MASK(__PWR_CMD)		((__PWR_CMD).cut_msk)
++#define GET_PWR_CFG_FAB_MASK(__PWR_CMD)		((__PWR_CMD).fab_msk)
++#define GET_PWR_CFG_INTF_MASK(__PWR_CMD)	((__PWR_CMD).interface_msk)
++#define GET_PWR_CFG_BASE(__PWR_CMD)			((__PWR_CMD).base)
++#define GET_PWR_CFG_CMD(__PWR_CMD)			((__PWR_CMD).cmd)
++#define GET_PWR_CFG_MASK(__PWR_CMD)			((__PWR_CMD).msk)
++#define GET_PWR_CFG_VALUE(__PWR_CMD)		((__PWR_CMD).value)
++
++
++/* ********************************************************************************
++ *	Prototype of protected function.
++ * ******************************************************************************** */
++u8 HalPwrSeqCmdParsing(
++	PADAPTER		padapter,
++	u8				CutVersion,
++	u8				FabVersion,
++	u8				InterfaceType,
++	WLAN_PWR_CFG	PwrCfgCmd[]);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/HalVerDef.h b/drivers/net/wireless/rtl8812au/include/HalVerDef.h
+new file mode 100644
+index 0000000..8981295
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/HalVerDef.h
+@@ -0,0 +1,203 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_VERSION_DEF_H__
++#define __HAL_VERSION_DEF_H__
++
++#define TRUE	_TRUE
++#define FALSE	_FALSE
++
++/* HAL_IC_TYPE_E */
++typedef enum tag_HAL_IC_Type_Definition {
++	CHIP_8192S	=	0,
++	CHIP_8188C	=	1,
++	CHIP_8192C	=	2,
++	CHIP_8192D	=	3,
++	CHIP_8723A	=	4,
++	CHIP_8188E	=	5,
++	CHIP_8812	=	6,
++	CHIP_8821	=	7,
++	CHIP_8723B	=	8,
++	CHIP_8192E	=	9,
++	CHIP_8814A	=	10,
++	CHIP_8703B	=	11,
++	CHIP_8188F	=	12,
++	CHIP_8822B	=	13,
++	CHIP_8723D	=	14,
++	CHIP_8821C	=	15
++} HAL_IC_TYPE_E;
++
++/* HAL_CHIP_TYPE_E */
++typedef enum tag_HAL_CHIP_Type_Definition {
++	TEST_CHIP		=	0,
++	NORMAL_CHIP	=	1,
++	FPGA			=	2,
++} HAL_CHIP_TYPE_E;
++
++/* HAL_CUT_VERSION_E */
++typedef enum tag_HAL_Cut_Version_Definition {
++	A_CUT_VERSION		=	0,
++	B_CUT_VERSION		=	1,
++	C_CUT_VERSION		=	2,
++	D_CUT_VERSION		=	3,
++	E_CUT_VERSION		=	4,
++	F_CUT_VERSION		=	5,
++	G_CUT_VERSION		=	6,
++	H_CUT_VERSION		=	7,
++	I_CUT_VERSION		=	8,
++	J_CUT_VERSION		=	9,
++	K_CUT_VERSION		=	10,
++} HAL_CUT_VERSION_E;
++
++/* HAL_Manufacturer */
++typedef enum tag_HAL_Manufacturer_Version_Definition {
++	CHIP_VENDOR_TSMC	=	0,
++	CHIP_VENDOR_UMC	=	1,
++	CHIP_VENDOR_SMIC	=	2,
++} HAL_VENDOR_E;
++
++typedef enum tag_HAL_RF_Type_Definition {
++	RF_TYPE_1T1R	=	0,
++	RF_TYPE_1T2R	=	1,
++	RF_TYPE_2T2R	=	2,
++	RF_TYPE_2T3R	=	3,
++	RF_TYPE_2T4R	=	4,
++	RF_TYPE_3T3R	=	5,
++	RF_TYPE_3T4R	=	6,
++	RF_TYPE_4T4R	=	7,
++} HAL_RF_TYPE_E;
++
++typedef	struct tag_HAL_VERSION {
++	HAL_IC_TYPE_E		ICType;
++	HAL_CHIP_TYPE_E		ChipType;
++	HAL_CUT_VERSION_E	CUTVersion;
++	HAL_VENDOR_E		VendorType;
++	HAL_RF_TYPE_E		RFType;
++	u8					ROMVer;
++} HAL_VERSION, *PHAL_VERSION;
++
++/* VERSION_8192C			VersionID;
++ * HAL_VERSION			VersionID; */
++
++/* Get element */
++#define GET_CVID_IC_TYPE(version)			((HAL_IC_TYPE_E)(((HAL_VERSION)version).ICType))
++#define GET_CVID_CHIP_TYPE(version)			((HAL_CHIP_TYPE_E)(((HAL_VERSION)version).ChipType))
++#define GET_CVID_RF_TYPE(version)			((HAL_RF_TYPE_E)(((HAL_VERSION)version).RFType))
++#define GET_CVID_MANUFACTUER(version)		((HAL_VENDOR_E)(((HAL_VERSION)version).VendorType))
++#define GET_CVID_CUT_VERSION(version)		((HAL_CUT_VERSION_E)(((HAL_VERSION)version).CUTVersion))
++#define GET_CVID_ROM_VERSION(version)		((((HAL_VERSION)version).ROMVer) & ROM_VERSION_MASK)
++
++/* ----------------------------------------------------------------------------
++ * Common Macro. --
++ * ----------------------------------------------------------------------------
++ * HAL_VERSION VersionID */
++
++/* HAL_IC_TYPE_E */
++#if 0
++	#define IS_81XXC(version)				(((GET_CVID_IC_TYPE(version) == CHIP_8192C) || (GET_CVID_IC_TYPE(version) == CHIP_8188C)) ? TRUE : FALSE)
++	#define IS_8723_SERIES(version)			((GET_CVID_IC_TYPE(version) == CHIP_8723A) ? TRUE : FALSE)
++	#define IS_92D(version)					((GET_CVID_IC_TYPE(version) == CHIP_8192D) ? TRUE : FALSE)
++#endif
++
++#define IS_8188E(version)					((GET_CVID_IC_TYPE(version) == CHIP_8188E) ? TRUE : FALSE)
++#define IS_8188F(version)					((GET_CVID_IC_TYPE(version) == CHIP_8188F) ? TRUE : FALSE)
++#define IS_8192E(version)					((GET_CVID_IC_TYPE(version) == CHIP_8192E) ? TRUE : FALSE)
++#define IS_8812_SERIES(version)			((GET_CVID_IC_TYPE(version) == CHIP_8812) ? TRUE : FALSE)
++#define IS_8821_SERIES(version)			((GET_CVID_IC_TYPE(version) == CHIP_8821) ? TRUE : FALSE)
++#define IS_8814A_SERIES(version)			((GET_CVID_IC_TYPE(version) == CHIP_8814A) ? TRUE : FALSE)
++#define IS_8723B_SERIES(version)			((GET_CVID_IC_TYPE(version) == CHIP_8723B) ? TRUE : FALSE)
++#define IS_8703B_SERIES(version)			((GET_CVID_IC_TYPE(version) == CHIP_8703B) ? TRUE : FALSE)
++#define IS_8822B_SERIES(version)			((GET_CVID_IC_TYPE(version) == CHIP_8822B) ? TRUE : FALSE)
++#define IS_8821C_SERIES(version)			((GET_CVID_IC_TYPE(version) == CHIP_8821C) ? TRUE : FALSE)
++#define IS_8723D_SERIES(version)\
++	((GET_CVID_IC_TYPE(version) == CHIP_8723D) ? TRUE : FALSE)
++/* HAL_CHIP_TYPE_E */
++#define IS_TEST_CHIP(version)			((GET_CVID_CHIP_TYPE(version) == TEST_CHIP) ? TRUE : FALSE)
++#define IS_NORMAL_CHIP(version)			((GET_CVID_CHIP_TYPE(version) == NORMAL_CHIP) ? TRUE : FALSE)
++
++/* HAL_CUT_VERSION_E */
++#define IS_A_CUT(version)				((GET_CVID_CUT_VERSION(version) == A_CUT_VERSION) ? TRUE : FALSE)
++#define IS_B_CUT(version)				((GET_CVID_CUT_VERSION(version) == B_CUT_VERSION) ? TRUE : FALSE)
++#define IS_C_CUT(version)				((GET_CVID_CUT_VERSION(version) == C_CUT_VERSION) ? TRUE : FALSE)
++#define IS_D_CUT(version)				((GET_CVID_CUT_VERSION(version) == D_CUT_VERSION) ? TRUE : FALSE)
++#define IS_E_CUT(version)				((GET_CVID_CUT_VERSION(version) == E_CUT_VERSION) ? TRUE : FALSE)
++#define IS_F_CUT(version)				((GET_CVID_CUT_VERSION(version) == F_CUT_VERSION) ? TRUE : FALSE)
++#define IS_I_CUT(version)				((GET_CVID_CUT_VERSION(version) == I_CUT_VERSION) ? TRUE : FALSE)
++#define IS_J_CUT(version)				((GET_CVID_CUT_VERSION(version) == J_CUT_VERSION) ? TRUE : FALSE)
++#define IS_K_CUT(version)				((GET_CVID_CUT_VERSION(version) == K_CUT_VERSION) ? TRUE : FALSE)
++
++/* HAL_VENDOR_E */
++#define IS_CHIP_VENDOR_TSMC(version)	((GET_CVID_MANUFACTUER(version) == CHIP_VENDOR_TSMC) ? TRUE : FALSE)
++#define IS_CHIP_VENDOR_UMC(version)	((GET_CVID_MANUFACTUER(version) == CHIP_VENDOR_UMC) ? TRUE : FALSE)
++#define IS_CHIP_VENDOR_SMIC(version)	((GET_CVID_MANUFACTUER(version) == CHIP_VENDOR_SMIC) ? TRUE : FALSE)
++
++/* HAL_RF_TYPE_E */
++#define IS_1T1R(version)					((GET_CVID_RF_TYPE(version) == RF_TYPE_1T1R) ? TRUE : FALSE)
++#define IS_1T2R(version)					((GET_CVID_RF_TYPE(version) == RF_TYPE_1T2R) ? TRUE : FALSE)
++#define IS_2T2R(version)					((GET_CVID_RF_TYPE(version) == RF_TYPE_2T2R) ? TRUE : FALSE)
++#define IS_3T3R(version)					((GET_CVID_RF_TYPE(version) == RF_TYPE_3T3R) ? TRUE : FALSE)
++#define IS_3T4R(version)					((GET_CVID_RF_TYPE(version) == RF_TYPE_3T4R) ? TRUE : FALSE)
++#define IS_4T4R(version)					((GET_CVID_RF_TYPE(version) == RF_TYPE_4T4R) ? TRUE : FALSE)
++
++
++
++/* ----------------------------------------------------------------------------
++ * Chip version Macro. --
++ * ---------------------------------------------------------------------------- */
++#if 0
++	#define IS_81XXC_TEST_CHIP(version)		((IS_81XXC(version) && (!IS_NORMAL_CHIP(version))) ? TRUE : FALSE)
++
++	#define IS_92C_SERIAL(version)					((IS_81XXC(version) && IS_2T2R(version)) ? TRUE : FALSE)
++	#define IS_81xxC_VENDOR_UMC_A_CUT(version)	(IS_81XXC(version) ? (IS_CHIP_VENDOR_UMC(version) ? (IS_A_CUT(version) ? TRUE : FALSE) : FALSE) : FALSE)
++	#define IS_81xxC_VENDOR_UMC_B_CUT(version)	(IS_81XXC(version) ? (IS_CHIP_VENDOR_UMC(version) ? (IS_B_CUT(version) ? TRUE : FALSE) : FALSE) : FALSE)
++	#define IS_81xxC_VENDOR_UMC_C_CUT(version)	(IS_81XXC(version) ? (IS_CHIP_VENDOR_UMC(version) ? (IS_C_CUT(version) ? TRUE : FALSE) : FALSE) : FALSE)
++
++	#define IS_NORMAL_CHIP92D(version)		((IS_92D(version)) ? ((GET_CVID_CHIP_TYPE(version) == NORMAL_CHIP) ? TRUE : FALSE) : FALSE)
++
++	#define IS_92D_SINGLEPHY(version)		((IS_92D(version)) ? (IS_2T2R(version) ? TRUE : FALSE) : FALSE)
++	#define IS_92D_C_CUT(version)			((IS_92D(version)) ? (IS_C_CUT(version) ? TRUE : FALSE) : FALSE)
++	#define IS_92D_D_CUT(version)			((IS_92D(version)) ? (IS_D_CUT(version) ? TRUE : FALSE) : FALSE)
++	#define IS_92D_E_CUT(version)			((IS_92D(version)) ? (IS_E_CUT(version) ? TRUE : FALSE) : FALSE)
++
++	#define IS_8723A_A_CUT(version)				((IS_8723_SERIES(version)) ? (IS_A_CUT(version) ? TRUE : FALSE) : FALSE)
++	#define IS_8723A_B_CUT(version)				((IS_8723_SERIES(version)) ? (IS_B_CUT(version) ? TRUE : FALSE) : FALSE)
++#endif
++#ifdef CONFIG_USB_HCI
++#define IS_VENDOR_8188E_I_CUT_SERIES(_Adapter)		(FALSE)
++#else
++#define IS_VENDOR_8188E_I_CUT_SERIES(_Adapter)		((IS_8188E(GET_HAL_DATA(_Adapter)->VersionID)) ? ((GET_CVID_CUT_VERSION(GET_HAL_DATA(_Adapter)->VersionID) >= I_CUT_VERSION) ? TRUE : FALSE) : FALSE)
++#endif
++#define IS_VENDOR_8812A_TEST_CHIP(_Adapter)		((IS_8812_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? FALSE : TRUE) : FALSE)
++#define IS_VENDOR_8812A_MP_CHIP(_Adapter)		((IS_8812_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? TRUE : FALSE) : FALSE)
++#define IS_VENDOR_8812A_C_CUT(_Adapter)			((IS_8812_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((GET_CVID_CUT_VERSION(GET_HAL_DATA(_Adapter)->VersionID) == C_CUT_VERSION) ? TRUE : FALSE) : FALSE)
++
++#define IS_VENDOR_8821A_TEST_CHIP(_Adapter)	((IS_8821_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? FALSE : TRUE) : FALSE)
++#define IS_VENDOR_8821A_MP_CHIP(_Adapter)		((IS_8821_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? TRUE : FALSE) : FALSE)
++
++#define IS_VENDOR_8192E_B_CUT(_Adapter)		((GET_CVID_CUT_VERSION(GET_HAL_DATA(_Adapter)->VersionID) == B_CUT_VERSION) ? TRUE : FALSE)
++
++#define IS_VENDOR_8723B_TEST_CHIP(_Adapter)	((IS_8723B_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? FALSE : TRUE) : FALSE)
++#define IS_VENDOR_8723B_MP_CHIP(_Adapter)		((IS_8723B_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? TRUE : FALSE) : FALSE)
++
++#define IS_VENDOR_8703B_TEST_CHIP(_Adapter)	((IS_8703B_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? FALSE : TRUE) : FALSE)
++#define IS_VENDOR_8703B_MP_CHIP(_Adapter)		((IS_8703B_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? TRUE : FALSE) : FALSE)
++#define IS_VENDOR_8814A_TEST_CHIP(_Adapter)	((IS_8814A_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? FALSE : TRUE) : FALSE)
++#define IS_VENDOR_8814A_MP_CHIP(_Adapter)		((IS_8814A_SERIES(GET_HAL_DATA(_Adapter)->VersionID)) ? ((IS_NORMAL_CHIP(GET_HAL_DATA(_Adapter)->VersionID)) ? TRUE : FALSE) : FALSE)
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/autoconf.h b/drivers/net/wireless/rtl8812au/include/autoconf.h
+new file mode 100644
+index 0000000..41e7fbf
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/autoconf.h
+@@ -0,0 +1,359 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/* ***** temporarily flag ******* */
++#define CONFIG_SINGLE_IMG
++/* #define CONFIG_DISABLE_ODM */
++
++/* ***** temporarily flag ******* */
++/*
++ * Public  General Config
++ */
++#define AUTOCONF_INCLUDED
++#define RTL871X_MODULE_NAME "8812AU"
++#define DRV_NAME "rtl8812au"
++
++
++#define CONFIG_USB_HCI
++
++
++#define PLATFORM_LINUX
++
++
++/* #define CONFIG_IOCTL_CFG80211 1 */
++
++#ifdef CONFIG_IOCTL_CFG80211
++	/* #define RTW_USE_CFG80211_STA_EVENT */ /* Indecate new sta asoc through cfg80211_new_sta */
++	#define CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER
++	/* #define CONFIG_DEBUG_CFG80211 */
++	/* #define CONFIG_DRV_ISSUE_PROV_REQ */ /* IOT FOR S2 */
++	#define CONFIG_SET_SCAN_DENY_TIMER
++	/*#define SUPPLICANT_RTK_VERSION_LOWER_THAN_JB42*/ /* wpa_supplicant realtek version <= jb42 will be defined this */
++#endif
++
++/*
++ * Internal  General Config
++ */
++/* #define CONFIG_H2CLBK */
++
++#define CONFIG_EMBEDDED_FWIMG	1
++
++#if (CONFIG_EMBEDDED_FWIMG==1)
++	#define	LOAD_FW_HEADER_FROM_DRIVER
++#endif
++/* #define CONFIG_FILE_FWIMG */
++
++#define CONFIG_XMIT_ACK
++#ifdef CONFIG_XMIT_ACK
++	#define CONFIG_ACTIVE_KEEP_ALIVE_CHECK
++#endif
++
++#define CONFIG_80211N_HT	1
++
++#ifdef CONFIG_80211N_HT
++	#define CONFIG_80211AC_VHT 1
++	#define CONFIG_BEAMFORMING
++
++	#ifdef CONFIG_BEAMFORMING
++		#define CONFIG_BEAMFORMER_FW_NDPA
++		#define CONFIG_PHYDM_BEAMFORMING
++		#ifdef CONFIG_PHYDM_BEAMFORMING
++		#define BEAMFORMING_SUPPORT		1	/*for phydm beamforming*/
++		#define SUPPORT_MU_BF				0
++		#else
++		#define BEAMFORMING_SUPPORT		0	/*for driver beamforming*/
++		#endif
++	#endif
++
++#endif
++
++#define CONFIG_RECV_REORDERING_CTRL	1
++
++/* #define CONFIG_TCP_CSUM_OFFLOAD_RX	1 */
++
++/* #define CONFIG_DRVEXT_MODULE	1 */
++
++#define CONFIG_DFS	1
++
++ /* #define CONFIG_SUPPORT_USB_INT */
++ #ifdef CONFIG_SUPPORT_USB_INT
++/* #define CONFIG_USB_INTERRUPT_IN_PIPE	1 */
++#endif
++
++/* #ifndef CONFIG_MP_INCLUDED */
++	#define CONFIG_IPS	1
++	#ifdef CONFIG_IPS
++	/* #define CONFIG_IPS_LEVEL_2	1 */ /* enable this to set default IPS mode to IPS_LEVEL_2	 */
++	#define CONFIG_IPS_CHECK_IN_WD /* Do IPS Check in WatchDog.	 */
++	#endif
++	/* #define SUPPORT_HW_RFOFF_DETECTED	1 */
++
++	#define CONFIG_LPS	1
++	#if defined(CONFIG_LPS) && defined(CONFIG_SUPPORT_USB_INT)
++	/* #define CONFIG_LPS_LCLK	1 */
++	#endif
++
++	#ifdef CONFIG_LPS_LCLK
++	#define CONFIG_XMIT_THREAD_MODE
++	#endif
++
++	/*#define CONFIG_ANTENNA_DIVERSITY*/
++
++
++
++	/* #define CONFIG_CONCURRENT_MODE 1 */
++	#ifdef CONFIG_CONCURRENT_MODE
++		#define CONFIG_RUNTIME_PORT_SWITCH
++
++		/* #define DBG_RUNTIME_PORT_SWITCH */
++		#define CONFIG_SCAN_BACKOP
++		/* #ifdef CONFIG_RTL8812A */
++		/*	#define CONFIG_TSF_RESET_OFFLOAD 1 */		/* For 2 PORT TSF SYNC. */
++		/* #endif */
++	#endif
++
++/* #else */	/* #ifndef CONFIG_MP_INCLUDED */
++
++/* #endif */	/* #ifndef CONFIG_MP_INCLUDED */
++
++#define CONFIG_AP_MODE	1
++#ifdef CONFIG_AP_MODE
++	/* #define CONFIG_INTERRUPT_BASED_TXBCN */ /* Tx Beacon when driver BCN_OK ,BCN_ERR interrupt occurs */
++	#if defined(CONFIG_CONCURRENT_MODE) && defined(CONFIG_INTERRUPT_BASED_TXBCN)
++		#undef CONFIG_INTERRUPT_BASED_TXBCN
++	#endif
++	#ifdef CONFIG_INTERRUPT_BASED_TXBCN
++		/* #define CONFIG_INTERRUPT_BASED_TXBCN_EARLY_INT */
++		#define CONFIG_INTERRUPT_BASED_TXBCN_BCN_OK_ERR
++	#endif
++
++	#define CONFIG_NATIVEAP_MLME
++	#ifndef CONFIG_NATIVEAP_MLME
++		#define CONFIG_HOSTAPD_MLME	1
++	#endif
++	#define CONFIG_FIND_BEST_CHANNEL	1
++#endif
++
++#define CONFIG_P2P	1
++#ifdef CONFIG_P2P
++	/* The CONFIG_WFD is for supporting the Wi-Fi display */
++	#define CONFIG_WFD
++
++	#define CONFIG_P2P_REMOVE_GROUP_INFO
++
++	/* #define CONFIG_DBG_P2P */
++
++	#define CONFIG_P2P_PS
++	#define CONFIG_P2P_OP_CHK_SOCIAL_CH
++	#define CONFIG_CFG80211_ONECHANNEL_UNDER_CONCURRENT  /* replace CONFIG_P2P_CHK_INVITE_CH_LIST flag */
++	#define CONFIG_P2P_INVITE_IOT
++#endif
++
++/* Added by Kurt 20110511 */
++#ifdef CONFIG_TDLS
++	#define CONFIG_TDLS_DRIVER_SETUP
++/*	#ifndef CONFIG_WFD */
++/*		#define CONFIG_WFD */
++/*	#endif */
++/*	#define CONFIG_TDLS_AUTOSETUP */
++	#define CONFIG_TDLS_AUTOCHECKALIVE
++	#define CONFIG_TDLS_CH_SW	/* Enable this flag only when we confirm that TDLS CH SW is supported in FW */
++#endif
++
++
++#define CONFIG_SKB_COPY	1/* for amsdu */
++
++#define CONFIG_LED
++#ifdef CONFIG_LED
++	#define CONFIG_SW_LED
++	#ifdef CONFIG_SW_LED
++		/* #define CONFIG_LED_HANDLED_BY_CMD_THREAD */
++	#endif
++#endif /* CONFIG_LED */
++
++#define CONFIG_GLOBAL_UI_PID
++
++#define CONFIG_LAYER2_ROAMING
++#define CONFIG_LAYER2_ROAMING_RESUME
++/* #define CONFIG_ADAPTOR_INFO_CACHING_FILE */ /* now just applied on 8192cu only, should make it general... */
++/* #define CONFIG_RESUME_IN_WORKQUEUE */
++/* #define CONFIG_SET_SCAN_DENY_TIMER */
++#define CONFIG_LONG_DELAY_ISSUE
++#define CONFIG_NEW_SIGNAL_STAT_PROCESS
++/* #define CONFIG_SIGNAL_DISPLAY_DBM */ /* display RX signal with dbm */
++#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++/* #define CONFIG_BACKGROUND_NOISE_MONITOR */
++#endif
++#define RTW_NOTCH_FILTER 0 /* 0:Disable, 1:Enable, */
++
++#define CONFIG_TX_MCAST2UNI		/*Support IP multicast->unicast*/
++/* #define CONFIG_CHECK_AC_LIFETIME 1 */	/* Check packet lifetime of 4 ACs. */
++
++
++/*
++ * Interface  Related Config
++ */
++
++#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++	#define CONFIG_USB_TX_AGGREGATION	1
++	#define CONFIG_USB_RX_AGGREGATION	1
++#endif
++
++/* #define CONFIG_REDUCE_USB_TX_INT	1 */	/* Trade-off: Improve performance, but may cause TX URBs blocked by USB Host/Bus driver on few platforms. */
++/* #define CONFIG_EASY_REPLACEMENT	1 */
++
++/*
++ * CONFIG_USE_USB_BUFFER_ALLOC_XX uses Linux USB Buffer alloc API and is for Linux platform only now!
++ */
++/* #define CONFIG_USE_USB_BUFFER_ALLOC_TX 1 */	/* Trade-off: For TX path, improve stability on some platforms, but may cause performance degrade on other platforms. */
++/* #define CONFIG_USE_USB_BUFFER_ALLOC_RX 1 */	/* For RX path */
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++
++#else
++	#define CONFIG_PREALLOC_RECV_SKB
++	#ifdef CONFIG_PREALLOC_RECV_SKB
++		/* #define CONFIG_FIX_NR_BULKIN_BUFFER */ /* only use PREALLOC_RECV_SKB buffer, don't alloc skb at runtime */
++	#endif
++#endif
++
++/*
++ * USB VENDOR REQ BUFFER ALLOCATION METHOD
++ * if not set we'll use function local variable (stack memory)
++ */
++/* #define CONFIG_USB_VENDOR_REQ_BUFFER_DYNAMIC_ALLOCATE */
++#define CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC
++
++#define CONFIG_USB_VENDOR_REQ_MUTEX
++#define CONFIG_VENDOR_REQ_RETRY
++
++/* #define CONFIG_USB_SUPPORT_ASYNC_VDN_REQ 1 */
++
++#ifdef CONFIG_WOWLAN
++	#define CONFIG_GTK_OL
++	#define CONFIG_ARP_KEEP_ALIVE
++#endif /* CONFIG_WOWLAN */
++
++#ifdef CONFIG_GPIO_WAKEUP
++	#ifndef WAKEUP_GPIO_IDX
++#define WAKEUP_GPIO_IDX	1	/* WIFI Chip Side */
++	#endif /* !WAKEUP_GPIO_IDX */
++#endif /* CONFIG_GPIO_WAKEUP */
++
++/*
++ * HAL  Related Config
++ */
++#define RTL8812A_RX_PACKET_INCLUDE_CRC	0
++
++#define CONFIG_RX_PACKET_APPEND_FCS
++
++/* #define CONFIG_ONLY_ONE_OUT_EP_TO_LOW	0 */
++
++#define CONFIG_OUT_EP_WIFI_MODE	0
++
++#define ENABLE_USB_DROP_INCORRECT_OUT
++
++#define CONFIG_ADHOC_WORKAROUND_SETTING	1
++
++#define ENABLE_NEW_RFE_TYPE	0
++
++#define DISABLE_BB_RF	0
++
++#ifdef CONFIG_MP_INCLUDED
++	#define MP_DRIVER 1
++	#define CONFIG_MP_IWPRIV_SUPPORT	1
++	/* #undef CONFIG_USB_TX_AGGREGATION */
++	/* #undef CONFIG_USB_RX_AGGREGATION */
++#else
++	#define MP_DRIVER 0
++#endif
++
++
++/*
++ * Platform  Related Config
++ */
++
++
++#if defined(CONFIG_PLATFORM_ACTIONS_ATM702X)
++	#ifdef CONFIG_USB_TX_AGGREGATION
++		#undef CONFIG_USB_TX_AGGREGATION
++	#endif
++	#ifndef CONFIG_USE_USB_BUFFER_ALLOC_TX
++		#define CONFIG_USE_USB_BUFFER_ALLOC_TX
++	#endif
++	#ifndef CONFIG_USE_USB_BUFFER_ALLOC_RX
++		#define CONFIG_USE_USB_BUFFER_ALLOC_RX
++	#endif
++#endif
++
++#ifdef CONFIG_BT_COEXIST
++	/* for ODM and outsrc BT-Coex */
++	#define CONFIG_BT_COEXIST_SOCKET_TRX
++	#ifndef CONFIG_LPS
++		#define CONFIG_LPS	/* download reserved page to FW */
++	#endif
++#endif /* !CONFIG_BT_COEXIST */
++
++
++
++#ifdef CONFIG_USB_TX_AGGREGATION
++/* #define	CONFIG_TX_EARLY_MODE */
++#endif
++
++#define	RTL8188E_EARLY_MODE_PKT_NUM_10	0
++
++#define CONFIG_80211D
++
++#define CONFIG_ATTEMPT_TO_FIX_AP_BEACON_ERROR
++
++/*
++ * Debug Related Config
++ */
++#define DBG	1
++
++#define CONFIG_PROC_DEBUG
++
++#define DBG_CONFIG_ERROR_DETECT
++/* #define DBG_CONFIG_ERROR_DETECT_INT */
++/* #define DBG_CONFIG_ERROR_RESET */
++
++/* #define DBG_IO */
++/* #define DBG_DELAY_OS */
++/* #define DBG_MEM_ALLOC */
++/* #define DBG_IOCTL */
++
++/* #define DBG_TX */
++/* #define DBG_XMIT_BUF */
++/* #define DBG_XMIT_BUF_EXT */
++/* #define DBG_TX_DROP_FRAME */
++
++/* #define DBG_RX_DROP_FRAME */
++/* #define DBG_RX_SEQ */
++/* #define DBG_RX_SIGNAL_DISPLAY_PROCESSING */
++/* #define DBG_RX_SIGNAL_DISPLAY_SSID_MONITORED "jeff-ap" */
++
++
++
++/* #define DBG_SHOW_MCUFWDL_BEFORE_51_ENABLE */
++/* #define DBG_ROAMING_TEST */
++
++/* #define DBG_HAL_INIT_PROFILING */
++
++/*#define DBG_MEMORY_LEAK*/
++#define	DBG_RX_DFRAME_RAW_DATA
++/*#define CONFIG_USE_EXTERNAL_POWER  */        /* NOT USB2.0 power, so no 500mA power constraint, no limitation in Power by Rate*/
+diff --git a/drivers/net/wireless/rtl8812au/include/basic_types.h b/drivers/net/wireless/rtl8812au/include/basic_types.h
+new file mode 100644
+index 0000000..245286d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/basic_types.h
+@@ -0,0 +1,384 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __BASIC_TYPES_H__
++#define __BASIC_TYPES_H__
++
++
++#define SUCCESS	0
++#define FAIL	(-1)
++
++#ifndef TRUE
++	#define _TRUE	1
++#else
++	#define _TRUE	TRUE
++#endif
++
++#ifndef FALSE
++	#define _FALSE	0
++#else
++	#define _FALSE	FALSE
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++	typedef signed char s8;
++	typedef unsigned char u8;
++
++	typedef signed short s16;
++	typedef unsigned short u16;
++
++	typedef signed long s32;
++	typedef unsigned long u32;
++
++	typedef unsigned int	uint;
++	typedef	signed int		sint;
++
++
++	typedef signed long long s64;
++	typedef unsigned long long u64;
++
++	#ifdef NDIS50_MINIPORT
++
++		#define NDIS_MAJOR_VERSION       5
++		#define NDIS_MINOR_VERSION       0
++
++	#endif
++
++	#ifdef NDIS51_MINIPORT
++
++		#define NDIS_MAJOR_VERSION       5
++		#define NDIS_MINOR_VERSION       1
++
++	#endif
++
++	typedef NDIS_PROC proc_t;
++
++	typedef LONG atomic_t;
++
++#endif
++
++
++#ifdef PLATFORM_LINUX
++	#include <linux/version.h>
++	#include <linux/types.h>
++	#include <linux/module.h>
++	#include <linux/kernel.h>
++	#include <linux/init.h>
++	#include <linux/utsname.h>
++	#define IN
++	#define OUT
++	#define VOID void
++	#define NDIS_OID uint
++	#define NDIS_STATUS uint
++
++	typedef	signed int sint;
++
++	#ifndef	PVOID
++		typedef void *PVOID;
++		/* #define PVOID	(void *) */
++	#endif
++
++	#define UCHAR u8
++	#define USHORT u16
++	#define UINT u32
++	#define ULONG u32
++
++	#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 19))
++		typedef _Bool bool;
++	#endif
++
++	typedef void (*proc_t)(void *);
++
++	typedef	__kernel_size_t	SIZE_T;
++	typedef	__kernel_ssize_t	SSIZE_T;
++	#define FIELD_OFFSET(s, field)	((SSIZE_T)&((s *)(0))->field)
++
++#endif
++
++
++#ifdef PLATFORM_FREEBSD
++
++	typedef signed char s8;
++	typedef unsigned char u8;
++
++	typedef signed short s16;
++	typedef unsigned short u16;
++
++	typedef signed int s32;
++	typedef unsigned int u32;
++
++	typedef unsigned int	uint;
++	typedef	signed int		sint;
++	typedef long atomic_t;
++
++	typedef signed long long s64;
++	typedef unsigned long long u64;
++	#define IN
++	#define OUT
++	#define VOID void
++	#define NDIS_OID uint
++	#define NDIS_STATUS uint
++
++	#ifndef	PVOID
++		typedef void *PVOID;
++		/* #define PVOID	(void *) */
++	#endif
++	typedef u32 dma_addr_t;
++	#define UCHAR u8
++	#define USHORT u16
++	#define UINT u32
++	#define ULONG u32
++
++	typedef void (*proc_t)(void *);
++
++	typedef unsigned int __kernel_size_t;
++	typedef int __kernel_ssize_t;
++
++	typedef	__kernel_size_t	SIZE_T;
++	typedef	__kernel_ssize_t	SSIZE_T;
++	#define FIELD_OFFSET(s, field)	((SSIZE_T)&((s *)(0))->field)
++
++#endif
++
++#define MEM_ALIGNMENT_OFFSET	(sizeof (SIZE_T))
++#define MEM_ALIGNMENT_PADDING	(sizeof(SIZE_T) - 1)
++
++#define SIZE_PTR SIZE_T
++#define SSIZE_PTR SSIZE_T
++
++/*
++* Continuous bits starting from least significant bit
++* Example:
++* BIT_LEN_MASK_32(0) => 0x00000000
++* BIT_LEN_MASK_32(1) => 0x00000001
++* BIT_LEN_MASK_32(2) => 0x00000003
++* BIT_LEN_MASK_32(32) => 0xFFFFFFFF
++*/
++#define BIT_LEN_MASK_32(__BitLen) ((u32)(0xFFFFFFFF >> (32 - (__BitLen))))
++#define BIT_LEN_MASK_16(__BitLen) ((u16)(0xFFFF >> (16 - (__BitLen))))
++#define BIT_LEN_MASK_8(__BitLen) ((u8)(0xFF >> (8 - (__BitLen))))
++
++/*
++* Continuous bits starting from least significant bit
++* Example:
++* BIT_OFFSET_LEN_MASK_32(0, 2) => 0x00000003
++* BIT_OFFSET_LEN_MASK_32(16, 2) => 0x00030000
++*/
++#define BIT_OFFSET_LEN_MASK_32(__BitOffset, __BitLen) ((u32)(BIT_LEN_MASK_32(__BitLen) << (__BitOffset)))
++#define BIT_OFFSET_LEN_MASK_16(__BitOffset, __BitLen) ((u16)(BIT_LEN_MASK_16(__BitLen) << (__BitOffset)))
++#define BIT_OFFSET_LEN_MASK_8(__BitOffset, __BitLen) ((u8)(BIT_LEN_MASK_8(__BitLen) << (__BitOffset)))
++
++/*
++* Convert LE data to host byte order
++*/
++#define EF1Byte (u8)
++#define EF2Byte le16_to_cpu
++#define EF4Byte le32_to_cpu
++
++/*
++* Read LE data from memory to host byte order
++*/
++#define ReadLE4Byte(_ptr)	le32_to_cpu(*((u32 *)(_ptr)))
++#define ReadLE2Byte(_ptr)	le16_to_cpu(*((u16 *)(_ptr)))
++#define ReadLE1Byte(_ptr)	(*((u8 *)(_ptr)))
++
++/*
++* Read BE data from memory to host byte order
++*/
++#define ReadBEE4Byte(_ptr)	be32_to_cpu(*((u32 *)(_ptr)))
++#define ReadBE2Byte(_ptr)	be16_to_cpu(*((u16 *)(_ptr)))
++#define ReadBE1Byte(_ptr)	(*((u8 *)(_ptr)))
++
++/*
++* Write host byte order data to memory in LE order
++*/
++#define WriteLE4Byte(_ptr, _val)	((*((u32 *)(_ptr))) = cpu_to_le32(_val))
++#define WriteLE2Byte(_ptr, _val)	((*((u16 *)(_ptr))) = cpu_to_le16(_val))
++#define WriteLE1Byte(_ptr, _val)	((*((u8 *)(_ptr))) = ((u8)(_val)))
++
++/*
++* Write host byte order data to memory in BE order
++*/
++#define WriteBE4Byte(_ptr, _val)	((*((u32 *)(_ptr))) = cpu_to_be32(_val))
++#define WriteBE2Byte(_ptr, _val)	((*((u16 *)(_ptr))) = cpu_to_be16(_val))
++#define WriteBE1Byte(_ptr, _val)	((*((u8 *)(_ptr))) = ((u8)(_val)))
++
++/*
++* Return 4-byte value in host byte ordering from 4-byte pointer in litten-endian system.
++*/
++#define LE_P4BYTE_TO_HOST_4BYTE(__pStart) (le32_to_cpu(*((u32 *)(__pStart))))
++#define LE_P2BYTE_TO_HOST_2BYTE(__pStart) (le16_to_cpu(*((u16 *)(__pStart))))
++#define LE_P1BYTE_TO_HOST_1BYTE(__pStart) ((*((u8 *)(__pStart))))
++
++/*
++* Return 4-byte value in host byte ordering from 4-byte pointer in big-endian system.
++*/
++#define BE_P4BYTE_TO_HOST_4BYTE(__pStart) (be32_to_cpu(*((u32 *)(__pStart))))
++#define BE_P2BYTE_TO_HOST_2BYTE(__pStart) (be16_to_cpu(*((u16 *)(__pStart))))
++#define BE_P1BYTE_TO_HOST_1BYTE(__pStart) ((*((u8 *)(__pStart))))
++
++/*
++* Translate subfield (continuous bits in little-endian) of 4-byte value in LE byte to
++* 4-byte value in host byte ordering.
++*/
++#define LE_BITS_TO_4BYTE(__pStart, __BitOffset, __BitLen) \
++	((LE_P4BYTE_TO_HOST_4BYTE(__pStart) >> (__BitOffset)) & BIT_LEN_MASK_32(__BitLen))
++
++#define LE_BITS_TO_2BYTE(__pStart, __BitOffset, __BitLen) \
++	((LE_P2BYTE_TO_HOST_2BYTE(__pStart) >> (__BitOffset)) & BIT_LEN_MASK_16(__BitLen))
++
++#define LE_BITS_TO_1BYTE(__pStart, __BitOffset, __BitLen) \
++	((LE_P1BYTE_TO_HOST_1BYTE(__pStart) >> (__BitOffset)) & BIT_LEN_MASK_8(__BitLen))
++
++/*
++* Translate subfield (continuous bits in big-endian) of 4-byte value in BE byte to
++* 4-byte value in host byte ordering.
++*/
++#define BE_BITS_TO_4BYTE(__pStart, __BitOffset, __BitLen) \
++	((BE_P4BYTE_TO_HOST_4BYTE(__pStart) >> (__BitOffset)) & BIT_LEN_MASK_32(__BitLen))
++
++#define BE_BITS_TO_2BYTE(__pStart, __BitOffset, __BitLen) \
++	((BE_P2BYTE_TO_HOST_2BYTE(__pStart) >> (__BitOffset)) & BIT_LEN_MASK_16(__BitLen))
++
++#define BE_BITS_TO_1BYTE(__pStart, __BitOffset, __BitLen) \
++	((BE_P1BYTE_TO_HOST_1BYTE(__pStart) >> (__BitOffset)) & BIT_LEN_MASK_8(__BitLen))
++
++/*
++* Mask subfield (continuous bits in little-endian) of 4-byte value in LE byte oredering
++* and return the result in 4-byte value in host byte ordering.
++*/
++#define LE_BITS_CLEARED_TO_4BYTE(__pStart, __BitOffset, __BitLen) \
++	(LE_P4BYTE_TO_HOST_4BYTE(__pStart) & (~BIT_OFFSET_LEN_MASK_32(__BitOffset, __BitLen)))
++
++#define LE_BITS_CLEARED_TO_2BYTE(__pStart, __BitOffset, __BitLen) \
++	(LE_P2BYTE_TO_HOST_2BYTE(__pStart) & (~BIT_OFFSET_LEN_MASK_16(__BitOffset, __BitLen)))
++
++#define LE_BITS_CLEARED_TO_1BYTE(__pStart, __BitOffset, __BitLen) \
++	(LE_P1BYTE_TO_HOST_1BYTE(__pStart) & ((u8)(~BIT_OFFSET_LEN_MASK_8(__BitOffset, __BitLen))))
++
++/*
++* Mask subfield (continuous bits in big-endian) of 4-byte value in BE byte oredering
++* and return the result in 4-byte value in host byte ordering.
++*/
++#define BE_BITS_CLEARED_TO_4BYTE(__pStart, __BitOffset, __BitLen) \
++	(BE_P4BYTE_TO_HOST_4BYTE(__pStart) & (~BIT_OFFSET_LEN_MASK_32(__BitOffset, __BitLen)))
++
++#define BE_BITS_CLEARED_TO_2BYTE(__pStart, __BitOffset, __BitLen) \
++	(BE_P2BYTE_TO_HOST_2BYTE(__pStart) & (~BIT_OFFSET_LEN_MASK_16(__BitOffset, __BitLen)))
++
++#define BE_BITS_CLEARED_TO_1BYTE(__pStart, __BitOffset, __BitLen) \
++	(BE_P1BYTE_TO_HOST_1BYTE(__pStart) & (~BIT_OFFSET_LEN_MASK_8(__BitOffset, __BitLen)))
++
++/*
++* Set subfield of little-endian 4-byte value to specified value.
++*/
++#define SET_BITS_TO_LE_4BYTE(__pStart, __BitOffset, __BitLen, __Value) \
++	do { \
++		if (__BitOffset == 0 && __BitLen == 32) \
++			WriteLE4Byte(__pStart, __Value); \
++		else { \
++			WriteLE4Byte(__pStart, \
++				LE_BITS_CLEARED_TO_4BYTE(__pStart, __BitOffset, __BitLen) \
++				| \
++				((((u32)__Value) & BIT_LEN_MASK_32(__BitLen)) << (__BitOffset)) \
++			); \
++		} \
++	} while (0)
++
++#define SET_BITS_TO_LE_2BYTE(__pStart, __BitOffset, __BitLen, __Value) \
++	do { \
++		if (__BitOffset == 0 && __BitLen == 16) \
++			WriteLE2Byte(__pStart, __Value); \
++		else { \
++			WriteLE2Byte(__pStart, \
++				LE_BITS_CLEARED_TO_2BYTE(__pStart, __BitOffset, __BitLen) \
++				| \
++				((((u16)__Value) & BIT_LEN_MASK_16(__BitLen)) << (__BitOffset)) \
++			); \
++		} \
++	} while (0)
++
++#define SET_BITS_TO_LE_1BYTE(__pStart, __BitOffset, __BitLen, __Value) \
++	do { \
++		if (__BitOffset == 0 && __BitLen == 8) \
++			WriteLE1Byte(__pStart, __Value); \
++		else { \
++			WriteLE1Byte(__pStart, \
++				LE_BITS_CLEARED_TO_1BYTE(__pStart, __BitOffset, __BitLen) \
++				| \
++				((((u8)__Value) & BIT_LEN_MASK_8(__BitLen)) << (__BitOffset)) \
++			); \
++		} \
++	} while (0)
++
++/*
++* Set subfield of big-endian 4-byte value to specified value.
++*/
++#define SET_BITS_TO_BE_4BYTE(__pStart, __BitOffset, __BitLen, __Value) \
++	do { \
++		if (__BitOffset == 0 && __BitLen == 32) \
++			WriteBE4Byte(__pStart, __Value); \
++		else { \
++			WriteBE4Byte(__pStart, \
++				BE_BITS_CLEARED_TO_4BYTE(__pStart, __BitOffset, __BitLen) \
++				| \
++				((((u32)__Value) & BIT_LEN_MASK_32(__BitLen)) << (__BitOffset)) \
++			); \
++		} \
++	} while (0)
++
++#define SET_BITS_TO_BE_2BYTE(__pStart, __BitOffset, __BitLen, __Value) \
++	do { \
++		if (__BitOffset == 0 && __BitLen == 16) \
++			WriteBE2Byte(__pStart, __Value); \
++		else { \
++			WriteBE2Byte(__pStart, \
++				BE_BITS_CLEARED_TO_2BYTE(__pStart, __BitOffset, __BitLen) \
++				| \
++				((((u16)__Value) & BIT_LEN_MASK_16(__BitLen)) << (__BitOffset)) \
++			); \
++		} \
++	} while (0)
++
++#define SET_BITS_TO_BE_1BYTE(__pStart, __BitOffset, __BitLen, __Value) \
++	do { \
++		if (__BitOffset == 0 && __BitLen == 8) \
++			WriteBE1Byte(__pStart, __Value); \
++		else { \
++			WriteBE1Byte(__pStart, \
++				BE_BITS_CLEARED_TO_1BYTE(__pStart, __BitOffset, __BitLen) \
++				| \
++				((((u8)__Value) & BIT_LEN_MASK_8(__BitLen)) << (__BitOffset)) \
++			); \
++		} \
++	} while (0)
++
++/* Get the N-bytes aligment offset from the current length */
++#define N_BYTE_ALIGMENT(__Value, __Aligment) ((__Aligment == 1) ? (__Value) : (((__Value + __Aligment - 1) / __Aligment) * __Aligment))
++
++typedef unsigned char	BOOLEAN, *PBOOLEAN, boolean;
++
++#define TEST_FLAG(__Flag, __testFlag)		(((__Flag) & (__testFlag)) != 0)
++#define SET_FLAG(__Flag, __setFlag)			((__Flag) |= __setFlag)
++#define CLEAR_FLAG(__Flag, __clearFlag)		((__Flag) &= ~(__clearFlag))
++#define CLEAR_FLAGS(__Flag)					((__Flag) = 0)
++#define TEST_FLAGS(__Flag, __testFlags)		(((__Flag) & (__testFlags)) == (__testFlags))
++
++#endif /* __BASIC_TYPES_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/byteorder/big_endian.h b/drivers/net/wireless/rtl8812au/include/byteorder/big_endian.h
+new file mode 100644
+index 0000000..345e9d8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/byteorder/big_endian.h
+@@ -0,0 +1,87 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _LINUX_BYTEORDER_BIG_ENDIAN_H
++#define _LINUX_BYTEORDER_BIG_ENDIAN_H
++
++#ifndef __BIG_ENDIAN
++	#define __BIG_ENDIAN 4321
++#endif
++#ifndef __BIG_ENDIAN_BITFIELD
++	#define __BIG_ENDIAN_BITFIELD
++#endif
++
++#include <byteorder/swab.h>
++
++#define __constant_htonl(x) ((__u32)(x))
++#define __constant_ntohl(x) ((__u32)(x))
++#define __constant_htons(x) ((__u16)(x))
++#define __constant_ntohs(x) ((__u16)(x))
++#define __constant_cpu_to_le64(x) ___constant_swab64((x))
++#define __constant_le64_to_cpu(x) ___constant_swab64((x))
++#define __constant_cpu_to_le32(x) ___constant_swab32((x))
++#define __constant_le32_to_cpu(x) ___constant_swab32((x))
++#define __constant_cpu_to_le16(x) ___constant_swab16((x))
++#define __constant_le16_to_cpu(x) ___constant_swab16((x))
++#define __constant_cpu_to_be64(x) ((__u64)(x))
++#define __constant_be64_to_cpu(x) ((__u64)(x))
++#define __constant_cpu_to_be32(x) ((__u32)(x))
++#define __constant_be32_to_cpu(x) ((__u32)(x))
++#define __constant_cpu_to_be16(x) ((__u16)(x))
++#define __constant_be16_to_cpu(x) ((__u16)(x))
++#define __cpu_to_le64(x) __swab64((x))
++#define __le64_to_cpu(x) __swab64((x))
++#define __cpu_to_le32(x) __swab32((x))
++#define __le32_to_cpu(x) __swab32((x))
++#define __cpu_to_le16(x) __swab16((x))
++#define __le16_to_cpu(x) __swab16((x))
++#define __cpu_to_be64(x) ((__u64)(x))
++#define __be64_to_cpu(x) ((__u64)(x))
++#define __cpu_to_be32(x) ((__u32)(x))
++#define __be32_to_cpu(x) ((__u32)(x))
++#define __cpu_to_be16(x) ((__u16)(x))
++#define __be16_to_cpu(x) ((__u16)(x))
++#define __cpu_to_le64p(x) __swab64p((x))
++#define __le64_to_cpup(x) __swab64p((x))
++#define __cpu_to_le32p(x) __swab32p((x))
++#define __le32_to_cpup(x) __swab32p((x))
++#define __cpu_to_le16p(x) __swab16p((x))
++#define __le16_to_cpup(x) __swab16p((x))
++#define __cpu_to_be64p(x) (*(__u64 *)(x))
++#define __be64_to_cpup(x) (*(__u64 *)(x))
++#define __cpu_to_be32p(x) (*(__u32 *)(x))
++#define __be32_to_cpup(x) (*(__u32 *)(x))
++#define __cpu_to_be16p(x) (*(__u16 *)(x))
++#define __be16_to_cpup(x) (*(__u16 *)(x))
++#define __cpu_to_le64s(x) __swab64s((x))
++#define __le64_to_cpus(x) __swab64s((x))
++#define __cpu_to_le32s(x) __swab32s((x))
++#define __le32_to_cpus(x) __swab32s((x))
++#define __cpu_to_le16s(x) __swab16s((x))
++#define __le16_to_cpus(x) __swab16s((x))
++#define __cpu_to_be64s(x) do {} while (0)
++#define __be64_to_cpus(x) do {} while (0)
++#define __cpu_to_be32s(x) do {} while (0)
++#define __be32_to_cpus(x) do {} while (0)
++#define __cpu_to_be16s(x) do {} while (0)
++#define __be16_to_cpus(x) do {} while (0)
++
++#include <byteorder/generic.h>
++
++#endif /* _LINUX_BYTEORDER_BIG_ENDIAN_H */
+diff --git a/drivers/net/wireless/rtl8812au/include/byteorder/generic.h b/drivers/net/wireless/rtl8812au/include/byteorder/generic.h
+new file mode 100644
+index 0000000..02cf675
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/byteorder/generic.h
+@@ -0,0 +1,212 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _LINUX_BYTEORDER_GENERIC_H
++#define _LINUX_BYTEORDER_GENERIC_H
++
++/*
++ * linux/byteorder_generic.h
++ * Generic Byte-reordering support
++ *
++ * Francois-Rene Rideau <fare@tunes.org> 19970707
++ *    gathered all the good ideas from all asm-foo/byteorder.h into one file,
++ *    cleaned them up.
++ *    I hope it is compliant with non-GCC compilers.
++ *    I decided to put __BYTEORDER_HAS_U64__ in byteorder.h,
++ *    because I wasn't sure it would be ok to put it in types.h
++ *    Upgraded it to 2.1.43
++ * Francois-Rene Rideau <fare@tunes.org> 19971012
++ *    Upgraded it to 2.1.57
++ *    to please Linus T., replaced huge #ifdef's between little/big endian
++ *    by nestedly #include'd files.
++ * Francois-Rene Rideau <fare@tunes.org> 19971205
++ *    Made it to 2.1.71; now a facelift:
++ *    Put files under include/linux/byteorder/
++ *    Split swab from generic support.
++ *
++ * TODO:
++ *   = Regular kernel maintainers could also replace all these manual
++ *    byteswap macros that remain, disseminated among drivers,
++ *    after some grep or the sources...
++ *   = Linus might want to rename all these macros and files to fit his taste,
++ *    to fit his personal naming scheme.
++ *   = it seems that a few drivers would also appreciate
++ *    nybble swapping support...
++ *   = every architecture could add their byteswap macro in asm/byteorder.h
++ *    see how some architectures already do (i386, alpha, ppc, etc)
++ *   = cpu_to_beXX and beXX_to_cpu might some day need to be well
++ *    distinguished throughout the kernel. This is not the case currently,
++ *    since little endian, big endian, and pdp endian machines needn't it.
++ *    But this might be the case for, say, a port of Linux to 20/21 bit
++ *    architectures (and F21 Linux addict around?).
++ */
++
++/*
++ * The following macros are to be defined by <asm/byteorder.h>:
++ *
++ * Conversion of long and short int between network and host format
++ *	ntohl(__u32 x)
++ *	ntohs(__u16 x)
++ *	htonl(__u32 x)
++ *	htons(__u16 x)
++ * It seems that some programs (which? where? or perhaps a standard? POSIX?)
++ * might like the above to be functions, not macros (why?).
++ * if that's true, then detect them, and take measures.
++ * Anyway, the measure is: define only ___ntohl as a macro instead,
++ * and in a separate file, have
++ * unsigned long inline ntohl(x){return ___ntohl(x);}
++ *
++ * The same for constant arguments
++ *	__constant_ntohl(__u32 x)
++ *	__constant_ntohs(__u16 x)
++ *	__constant_htonl(__u32 x)
++ *	__constant_htons(__u16 x)
++ *
++ * Conversion of XX-bit integers (16- 32- or 64-)
++ * between native CPU format and little/big endian format
++ * 64-bit stuff only defined for proper architectures
++ *	cpu_to_[bl]eXX(__uXX x)
++ *	[bl]eXX_to_cpu(__uXX x)
++ *
++ * The same, but takes a pointer to the value to convert
++ *	cpu_to_[bl]eXXp(__uXX x)
++ *	[bl]eXX_to_cpup(__uXX x)
++ *
++ * The same, but change in situ
++ *	cpu_to_[bl]eXXs(__uXX x)
++ *	[bl]eXX_to_cpus(__uXX x)
++ *
++ * See asm-foo/byteorder.h for examples of how to provide
++ * architecture-optimized versions
++ *
++ */
++
++
++#if defined(PLATFORM_LINUX) || defined(PLATFORM_WINDOWS) || defined(PLATFORM_MPIXEL) || defined(PLATFORM_FREEBSD)
++	/*
++	* inside the kernel, we can use nicknames;
++	* outside of it, we must avoid POSIX namespace pollution...
++	*/
++	#define cpu_to_le64 __cpu_to_le64
++	#define le64_to_cpu __le64_to_cpu
++	#define cpu_to_le32 __cpu_to_le32
++	#define le32_to_cpu __le32_to_cpu
++	#define cpu_to_le16 __cpu_to_le16
++	#define le16_to_cpu __le16_to_cpu
++	#define cpu_to_be64 __cpu_to_be64
++	#define be64_to_cpu __be64_to_cpu
++	#define cpu_to_be32 __cpu_to_be32
++	#define be32_to_cpu __be32_to_cpu
++	#define cpu_to_be16 __cpu_to_be16
++	#define be16_to_cpu __be16_to_cpu
++	#define cpu_to_le64p __cpu_to_le64p
++	#define le64_to_cpup __le64_to_cpup
++	#define cpu_to_le32p __cpu_to_le32p
++	#define le32_to_cpup __le32_to_cpup
++	#define cpu_to_le16p __cpu_to_le16p
++	#define le16_to_cpup __le16_to_cpup
++	#define cpu_to_be64p __cpu_to_be64p
++	#define be64_to_cpup __be64_to_cpup
++	#define cpu_to_be32p __cpu_to_be32p
++	#define be32_to_cpup __be32_to_cpup
++	#define cpu_to_be16p __cpu_to_be16p
++	#define be16_to_cpup __be16_to_cpup
++	#define cpu_to_le64s __cpu_to_le64s
++	#define le64_to_cpus __le64_to_cpus
++	#define cpu_to_le32s __cpu_to_le32s
++	#define le32_to_cpus __le32_to_cpus
++	#define cpu_to_le16s __cpu_to_le16s
++	#define le16_to_cpus __le16_to_cpus
++	#define cpu_to_be64s __cpu_to_be64s
++	#define be64_to_cpus __be64_to_cpus
++	#define cpu_to_be32s __cpu_to_be32s
++	#define be32_to_cpus __be32_to_cpus
++	#define cpu_to_be16s __cpu_to_be16s
++	#define be16_to_cpus __be16_to_cpus
++#endif
++
++
++/*
++ * Handle ntohl and suches. These have various compatibility
++ * issues - like we want to give the prototype even though we
++ * also have a macro for them in case some strange program
++ * wants to take the address of the thing or something..
++ *
++ * Note that these used to return a "long" in libc5, even though
++ * long is often 64-bit these days.. Thus the casts.
++ *
++ * They have to be macros in order to do the constant folding
++ * correctly - if the argument passed into a inline function
++ * it is no longer constant according to gcc..
++ */
++
++#undef ntohl
++#undef ntohs
++#undef htonl
++#undef htons
++
++/*
++ * Do the prototypes. Somebody might want to take the
++ * address or some such sick thing..
++ */
++#if defined(PLATFORM_LINUX) || (defined(__GLIBC__) && __GLIBC__ >= 2)
++	extern __u32			ntohl(__u32);
++	extern __u32			htonl(__u32);
++#else /* defined(PLATFORM_LINUX) || (defined (__GLIBC__) && __GLIBC__ >= 2) */
++	#ifndef PLATFORM_FREEBSD
++		extern unsigned long int	ntohl(unsigned long int);
++		extern unsigned long int	htonl(unsigned long int);
++	#endif
++#endif
++#ifndef PLATFORM_FREEBSD
++	extern unsigned short int	ntohs(unsigned short int);
++	extern unsigned short int	htons(unsigned short int);
++#endif
++
++#if defined(__GNUC__) && (__GNUC__ >= 2) && defined(__OPTIMIZE__) || defined(PLATFORM_MPIXEL)
++
++	#define ___htonl(x) __cpu_to_be32(x)
++	#define ___htons(x) __cpu_to_be16(x)
++	#define ___ntohl(x) __be32_to_cpu(x)
++	#define ___ntohs(x) __be16_to_cpu(x)
++
++	#if defined(PLATFORM_LINUX) || (defined(__GLIBC__) && __GLIBC__ >= 2)
++		#define htonl(x) ___htonl(x)
++		#define ntohl(x) ___ntohl(x)
++	#else
++		#define htonl(x) ((unsigned long)___htonl(x))
++		#define ntohl(x) ((unsigned long)___ntohl(x))
++	#endif
++	#define htons(x) ___htons(x)
++	#define ntohs(x) ___ntohs(x)
++
++#endif /* OPTIMIZE */
++
++
++#if defined(PLATFORM_WINDOWS)
++
++	#define htonl(x) __cpu_to_be32(x)
++	#define ntohl(x) __be32_to_cpu(x)
++	#define htons(x) __cpu_to_be16(x)
++	#define ntohs(x) __be16_to_cpu(x)
++
++
++#endif
++
++#endif /* _LINUX_BYTEORDER_GENERIC_H */
+diff --git a/drivers/net/wireless/rtl8812au/include/byteorder/little_endian.h b/drivers/net/wireless/rtl8812au/include/byteorder/little_endian.h
+new file mode 100644
+index 0000000..0b77336
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/byteorder/little_endian.h
+@@ -0,0 +1,89 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _LINUX_BYTEORDER_LITTLE_ENDIAN_H
++#define _LINUX_BYTEORDER_LITTLE_ENDIAN_H
++
++#ifndef __LITTLE_ENDIAN
++	#define __LITTLE_ENDIAN 1234
++#endif
++#ifndef __LITTLE_ENDIAN_BITFIELD
++	#define __LITTLE_ENDIAN_BITFIELD
++#endif
++
++#include <byteorder/swab.h>
++
++#ifndef __constant_htonl
++	#define __constant_htonl(x) ___constant_swab32((x))
++	#define __constant_ntohl(x) ___constant_swab32((x))
++	#define __constant_htons(x) ___constant_swab16((x))
++	#define __constant_ntohs(x) ___constant_swab16((x))
++	#define __constant_cpu_to_le64(x) ((__u64)(x))
++	#define __constant_le64_to_cpu(x) ((__u64)(x))
++	#define __constant_cpu_to_le32(x) ((__u32)(x))
++	#define __constant_le32_to_cpu(x) ((__u32)(x))
++	#define __constant_cpu_to_le16(x) ((__u16)(x))
++	#define __constant_le16_to_cpu(x) ((__u16)(x))
++	#define __constant_cpu_to_be64(x) ___constant_swab64((x))
++	#define __constant_be64_to_cpu(x) ___constant_swab64((x))
++	#define __constant_cpu_to_be32(x) ___constant_swab32((x))
++	#define __constant_be32_to_cpu(x) ___constant_swab32((x))
++	#define __constant_cpu_to_be16(x) ___constant_swab16((x))
++	#define __constant_be16_to_cpu(x) ___constant_swab16((x))
++	#define __cpu_to_le64(x) ((__u64)(x))
++	#define __le64_to_cpu(x) ((__u64)(x))
++	#define __cpu_to_le32(x) ((__u32)(x))
++	#define __le32_to_cpu(x) ((__u32)(x))
++	#define __cpu_to_le16(x) ((__u16)(x))
++	#define __le16_to_cpu(x) ((__u16)(x))
++	#define __cpu_to_be64(x) __swab64((x))
++	#define __be64_to_cpu(x) __swab64((x))
++	#define __cpu_to_be32(x) __swab32((x))
++	#define __be32_to_cpu(x) __swab32((x))
++	#define __cpu_to_be16(x) __swab16((x))
++	#define __be16_to_cpu(x) __swab16((x))
++	#define __cpu_to_le64p(x) (*(__u64 *)(x))
++	#define __le64_to_cpup(x) (*(__u64 *)(x))
++	#define __cpu_to_le32p(x) (*(__u32 *)(x))
++	#define __le32_to_cpup(x) (*(__u32 *)(x))
++	#define __cpu_to_le16p(x) (*(__u16 *)(x))
++	#define __le16_to_cpup(x) (*(__u16 *)(x))
++	#define __cpu_to_be64p(x) __swab64p((x))
++	#define __be64_to_cpup(x) __swab64p((x))
++	#define __cpu_to_be32p(x) __swab32p((x))
++	#define __be32_to_cpup(x) __swab32p((x))
++	#define __cpu_to_be16p(x) __swab16p((x))
++	#define __be16_to_cpup(x) __swab16p((x))
++	#define __cpu_to_le64s(x) do {} while (0)
++	#define __le64_to_cpus(x) do {} while (0)
++	#define __cpu_to_le32s(x) do {} while (0)
++	#define __le32_to_cpus(x) do {} while (0)
++	#define __cpu_to_le16s(x) do {} while (0)
++	#define __le16_to_cpus(x) do {} while (0)
++	#define __cpu_to_be64s(x) __swab64s((x))
++	#define __be64_to_cpus(x) __swab64s((x))
++	#define __cpu_to_be32s(x) __swab32s((x))
++	#define __be32_to_cpus(x) __swab32s((x))
++	#define __cpu_to_be16s(x) __swab16s((x))
++	#define __be16_to_cpus(x) __swab16s((x))
++#endif /* __constant_htonl */
++
++#include <byteorder/generic.h>
++
++#endif /* _LINUX_BYTEORDER_LITTLE_ENDIAN_H */
+diff --git a/drivers/net/wireless/rtl8812au/include/byteorder/swab.h b/drivers/net/wireless/rtl8812au/include/byteorder/swab.h
+new file mode 100644
+index 0000000..d6d81b5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/byteorder/swab.h
+@@ -0,0 +1,141 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _LINUX_BYTEORDER_SWAB_H
++#define _LINUX_BYTEORDER_SWAB_H
++
++#if !defined(CONFIG_PLATFORM_MSTAR)
++#ifndef __u16
++	typedef unsigned short __u16;
++#endif
++
++#ifndef __u32
++	typedef unsigned int	__u32;
++#endif
++
++#ifndef __u8
++	typedef unsigned char __u8;
++#endif
++
++#ifndef __u64
++	typedef unsigned long long	__u64;
++#endif
++
++
++__inline static __u16  ___swab16(__u16 x)
++{
++	__u16 __x = x;
++	return
++		 (__u16)(
++			 (((__u16)(__x)&(__u16)0x00ffU) << 8) |
++			 (((__u16)(__x)&(__u16)0xff00U) >> 8));
++
++}
++
++__inline static __u32  ___swab32(__u32 x)
++{
++	__u32 __x = (x);
++	return  (__u32)(
++			(((__u32)(__x)&(__u32)0x000000ffUL) << 24) |
++			(((__u32)(__x)&(__u32)0x0000ff00UL) <<  8) |
++			(((__u32)(__x)&(__u32)0x00ff0000UL) >>  8) |
++			(((__u32)(__x)&(__u32)0xff000000UL) >> 24));
++}
++
++__inline static __u64  ___swab64(__u64 x)
++{
++	__u64 __x = (x);
++
++	return
++		 (__u64)(\
++		 (__u64)(((__u64)(__x)&(__u64)0x00000000000000ffULL) << 56) | \
++		 (__u64)(((__u64)(__x)&(__u64)0x000000000000ff00ULL) << 40) | \
++		 (__u64)(((__u64)(__x)&(__u64)0x0000000000ff0000ULL) << 24) | \
++		 (__u64)(((__u64)(__x)&(__u64)0x00000000ff000000ULL) <<  8) | \
++		 (__u64)(((__u64)(__x)&(__u64)0x000000ff00000000ULL) >>  8) | \
++		 (__u64)(((__u64)(__x)&(__u64)0x0000ff0000000000ULL) >> 24) | \
++		 (__u64)(((__u64)(__x)&(__u64)0x00ff000000000000ULL) >> 40) | \
++		 (__u64)(((__u64)(__x)&(__u64)0xff00000000000000ULL) >> 56));
++	\
++}
++#endif /* CONFIG_PLATFORM_MSTAR */
++
++#ifndef __arch__swab16
++__inline static __u16 __arch__swab16(__u16 x)
++{
++	return ___swab16(x);
++}
++
++#endif
++
++#ifndef __arch__swab32
++__inline static __u32 __arch__swab32(__u32 x)
++{
++	__u32 __tmp = (x) ;
++	return ___swab32(__tmp);
++}
++#endif
++
++#ifndef __arch__swab64
++
++__inline static __u64 __arch__swab64(__u64 x)
++{
++	__u64 __tmp = (x) ;
++	return ___swab64(__tmp);
++}
++
++
++#endif
++
++#ifndef __swab16
++	#define __swab16(x) __fswab16(x)
++	#define __swab32(x) __fswab32(x)
++	#define __swab64(x) __fswab64(x)
++#endif /* __swab16 */
++
++#ifdef PLATFORM_FREEBSD
++	__inline static __u16 __fswab16(__u16 x)
++#else
++	__inline static const __u16 __fswab16(__u16 x)
++#endif /* PLATFORM_FREEBSD */
++{
++	return __arch__swab16(x);
++}
++#ifdef PLATFORM_FREEBSD
++	__inline static __u32 __fswab32(__u32 x)
++#else
++	__inline static const __u32 __fswab32(__u32 x)
++#endif /* PLATFORM_FREEBSD */
++{
++	return __arch__swab32(x);
++}
++
++#if defined(PLATFORM_LINUX) || defined(PLATFORM_WINDOWS)
++	#define swab16 __swab16
++	#define swab32 __swab32
++	#define swab64 __swab64
++	#define swab16p __swab16p
++	#define swab32p __swab32p
++	#define swab64p __swab64p
++	#define swab16s __swab16s
++	#define swab32s __swab32s
++	#define swab64s __swab64s
++#endif
++
++#endif /* _LINUX_BYTEORDER_SWAB_H */
+diff --git a/drivers/net/wireless/rtl8812au/include/byteorder/swabb.h b/drivers/net/wireless/rtl8812au/include/byteorder/swabb.h
+new file mode 100644
+index 0000000..ce33424
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/byteorder/swabb.h
+@@ -0,0 +1,156 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _LINUX_BYTEORDER_SWABB_H
++#define _LINUX_BYTEORDER_SWABB_H
++
++/*
++ * linux/byteorder/swabb.h
++ * SWAp Bytes Bizarrely
++ *	swaHHXX[ps]?(foo)
++ *
++ * Support for obNUXIous pdp-endian and other bizarre architectures.
++ * Will Linux ever run on such ancient beasts? if not, this file
++ * will be but a programming pearl. Still, it's a reminder that we
++ * shouldn't be making too many assumptions when trying to be portable.
++ *
++ */
++
++/*
++ * Meaning of the names I chose (vaxlinux people feel free to correct them):
++ * swahw32	swap 16-bit half-words in a 32-bit word
++ * swahb32	swap 8-bit halves of each 16-bit half-word in a 32-bit word
++ *
++ * No 64-bit support yet. I don't know NUXI conventions for long longs.
++ * I guarantee it will be a mess when it's there, though :->
++ * It will be even worse if there are conflicting 64-bit conventions.
++ * Hopefully, no one ever used 64-bit objects on NUXI machines.
++ *
++ */
++
++#define ___swahw32(x) \
++	({ \
++		__u32 __x = (x); \
++		((__u32)(\
++			 (((__u32)(__x) & (__u32)0x0000ffffUL) << 16) | \
++			 (((__u32)(__x) & (__u32)0xffff0000UL) >> 16))); \
++	})
++#define ___swahb32(x) \
++	({ \
++		__u32 __x = (x); \
++		((__u32)(\
++			 (((__u32)(__x) & (__u32)0x00ff00ffUL) << 8) | \
++			 (((__u32)(__x) & (__u32)0xff00ff00UL) >> 8))); \
++	})
++
++#define ___constant_swahw32(x) \
++	((__u32)(\
++		 (((__u32)(x) & (__u32)0x0000ffffUL) << 16) | \
++		 (((__u32)(x) & (__u32)0xffff0000UL) >> 16)))
++#define ___constant_swahb32(x) \
++	((__u32)(\
++		 (((__u32)(x) & (__u32)0x00ff00ffUL) << 8) | \
++		 (((__u32)(x) & (__u32)0xff00ff00UL) >> 8)))
++
++/*
++ * provide defaults when no architecture-specific optimization is detected
++ */
++#ifndef __arch__swahw32
++	#define __arch__swahw32(x) ___swahw32(x)
++#endif
++#ifndef __arch__swahb32
++	#define __arch__swahb32(x) ___swahb32(x)
++#endif
++
++#ifndef __arch__swahw32p
++	#define __arch__swahw32p(x) __swahw32(*(x))
++#endif
++#ifndef __arch__swahb32p
++	#define __arch__swahb32p(x) __swahb32(*(x))
++#endif
++
++#ifndef __arch__swahw32s
++	#define __arch__swahw32s(x) do { *(x) = __swahw32p((x)); } while (0)
++#endif
++#ifndef __arch__swahb32s
++	#define __arch__swahb32s(x) do { *(x) = __swahb32p((x)); } while (0)
++#endif
++
++
++/*
++ * Allow constant folding
++ */
++#if defined(__GNUC__) && (__GNUC__ >= 2) && defined(__OPTIMIZE__)
++#  define __swahw32(x) \
++	(__builtin_constant_p((__u32)(x)) ? \
++	 ___swahw32((x)) : \
++	 __fswahw32((x)))
++#  define __swahb32(x) \
++	(__builtin_constant_p((__u32)(x)) ? \
++	 ___swahb32((x)) : \
++	 __fswahb32((x)))
++#else
++#  define __swahw32(x) __fswahw32(x)
++#  define __swahb32(x) __fswahb32(x)
++#endif /* OPTIMIZE */
++
++
++__inline static__ __const__ __u32 __fswahw32(__u32 x)
++{
++	return __arch__swahw32(x);
++}
++__inline static__ __u32 __swahw32p(__u32 *x)
++{
++	return __arch__swahw32p(x);
++}
++__inline static__ void __swahw32s(__u32 *addr)
++{
++	__arch__swahw32s(addr);
++}
++
++
++__inline static__ __const__ __u32 __fswahb32(__u32 x)
++{
++	return __arch__swahb32(x);
++}
++__inline static__ __u32 __swahb32p(__u32 *x)
++{
++	return __arch__swahb32p(x);
++}
++__inline static__ void __swahb32s(__u32 *addr)
++{
++	__arch__swahb32s(addr);
++}
++
++#ifdef __BYTEORDER_HAS_U64__
++	/*
++	* Not supported yet
++	*/
++#endif /* __BYTEORDER_HAS_U64__ */
++
++#if defined(PLATFORM_LINUX)
++	#define swahw32 __swahw32
++	#define swahb32 __swahb32
++	#define swahw32p __swahw32p
++	#define swahb32p __swahb32p
++	#define swahw32s __swahw32s
++	#define swahb32s __swahb32s
++#endif
++
++#endif /* _LINUX_BYTEORDER_SWABB_H */
+diff --git a/drivers/net/wireless/rtl8812au/include/circ_buf.h b/drivers/net/wireless/rtl8812au/include/circ_buf.h
+new file mode 100644
+index 0000000..2352316
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/circ_buf.h
+@@ -0,0 +1,28 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __CIRC_BUF_H_
++#define __CIRC_BUF_H_ 1
++
++#define CIRC_CNT(head,tail,size) (((head) - (tail)) & ((size)-1))
++
++#define CIRC_SPACE(head,tail,size) CIRC_CNT((tail),((head)+1),(size))
++
++#endif //_CIRC_BUF_H_
++
+diff --git a/drivers/net/wireless/rtl8812au/include/cmd_osdep.h b/drivers/net/wireless/rtl8812au/include/cmd_osdep.h
+new file mode 100644
+index 0000000..9c63a1c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/cmd_osdep.h
+@@ -0,0 +1,31 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __CMD_OSDEP_H_
++#define __CMD_OSDEP_H_
++
++
++extern sint _rtw_init_cmd_priv(struct	cmd_priv *pcmdpriv);
++extern sint _rtw_init_evt_priv(struct evt_priv *pevtpriv);
++extern void _rtw_free_evt_priv(struct	evt_priv *pevtpriv);
++extern void _rtw_free_cmd_priv(struct	cmd_priv *pcmdpriv);
++extern sint _rtw_enqueue_cmd(_queue *queue, struct cmd_obj *obj, bool to_head);
++extern struct cmd_obj *_rtw_dequeue_cmd(_queue *queue);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/custom_gpio.h b/drivers/net/wireless/rtl8812au/include/custom_gpio.h
+new file mode 100644
+index 0000000..5691d9a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/custom_gpio.h
+@@ -0,0 +1,32 @@
++#ifndef __CUSTOM_GPIO_H__
++#define __CUSTOM_GPIO_H___
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++
++#ifdef PLATFORM_OS_XP
++	#include <drv_types_xp.h>
++#endif
++
++#ifdef PLATFORM_OS_CE
++	#include <drv_types_ce.h>
++#endif
++
++#ifdef PLATFORM_LINUX
++	#include <drv_types_linux.h>
++#endif
++
++typedef enum cust_gpio_modes {
++	WLAN_PWDN_ON,
++	WLAN_PWDN_OFF,
++	WLAN_POWER_ON,
++	WLAN_POWER_OFF,
++	WLAN_BT_PWDN_ON,
++	WLAN_BT_PWDN_OFF
++} cust_gpio_modes_t;
++
++extern int rtw_wifi_gpio_init(void);
++extern int rtw_wifi_gpio_deinit(void);
++extern void rtw_wifi_gpio_wlan_ctrl(int onoff);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/drv_conf.h b/drivers/net/wireless/rtl8812au/include/drv_conf.h
+new file mode 100644
+index 0000000..d4887f7
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/drv_conf.h
+@@ -0,0 +1,284 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __DRV_CONF_H__
++#define __DRV_CONF_H__
++#include "autoconf.h"
++#include "hal_ic_cfg.h"
++
++#if defined(PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++
++	#error "Shall be Linux or Windows, but not both!\n"
++
++#endif
++
++#if defined(CONFIG_MCC_MODE) && (!defined(CONFIG_CONCURRENT_MODE))
++
++	#error "Enable CONCURRENT_MODE before enable MCC MODE\n"
++
++#endif
++
++#if defined(CONFIG_MCC_MODE) && defined(CONFIG_BT_COEXIST)
++
++	#error "Disable BT COEXIST before enable MCC MODE\n"
++
++#endif
++
++#if defined(CONFIG_MCC_MODE) && defined(CONFIG_TDLS)
++
++	#error "Disable TDLS before enable MCC MODE\n"
++
++#endif
++
++/* Older Android kernel doesn't has CONFIG_ANDROID defined,
++ * add this to force CONFIG_ANDROID defined */
++#ifdef CONFIG_PLATFORM_ANDROID
++	#ifndef CONFIG_ANDROID
++		#define CONFIG_ANDROID
++	#endif
++#endif
++
++#ifdef CONFIG_ANDROID
++	/* Some Android build will restart the UI while non-printable ascii is passed
++	* between java and c/c++ layer (JNI). We force CONFIG_VALIDATE_SSID
++	* for Android here. If you are sure there is no risk on your system about this,
++	* mask this macro define to support non-printable ascii ssid.
++	* #define CONFIG_VALIDATE_SSID */
++
++	/* Android expect dbm as the rx signal strength unit */
++	#define CONFIG_SIGNAL_DISPLAY_DBM
++#endif
++
++/*
++#if defined(CONFIG_HAS_EARLYSUSPEND) && defined(CONFIG_RESUME_IN_WORKQUEUE)
++	#warning "You have CONFIG_HAS_EARLYSUSPEND enabled in your system, we disable CONFIG_RESUME_IN_WORKQUEUE automatically"
++	#undef CONFIG_RESUME_IN_WORKQUEUE
++#endif
++
++#if defined(CONFIG_ANDROID_POWER) && defined(CONFIG_RESUME_IN_WORKQUEUE)
++	#warning "You have CONFIG_ANDROID_POWER enabled in your system, we disable CONFIG_RESUME_IN_WORKQUEUE automatically"
++	#undef CONFIG_RESUME_IN_WORKQUEUE
++#endif
++*/
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE /* this can be removed, because there is no case for this... */
++	#if !defined(CONFIG_WAKELOCK) && !defined(CONFIG_ANDROID_POWER)
++		#error "enable CONFIG_RESUME_IN_WORKQUEUE without CONFIG_WAKELOCK or CONFIG_ANDROID_POWER will suffer from the danger of wifi's unfunctionality..."
++		#error "If you still want to enable CONFIG_RESUME_IN_WORKQUEUE in this case, mask this preprossor checking and GOOD LUCK..."
++	#endif
++#endif
++
++/* About USB VENDOR REQ */
++#if defined(CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC) && !defined(CONFIG_USB_VENDOR_REQ_MUTEX)
++	#warning "define CONFIG_USB_VENDOR_REQ_MUTEX for CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC automatically"
++	#define CONFIG_USB_VENDOR_REQ_MUTEX
++#endif
++#if defined(CONFIG_VENDOR_REQ_RETRY) &&  !defined(CONFIG_USB_VENDOR_REQ_MUTEX)
++	#warning "define CONFIG_USB_VENDOR_REQ_MUTEX for CONFIG_VENDOR_REQ_RETRY automatically"
++	#define CONFIG_USB_VENDOR_REQ_MUTEX
++#endif
++
++#if !defined(CONFIG_AP_MODE) && defined(CONFIG_DFS_MASTER)
++	#warning "undef CONFIG_DFS_MASTER because CONFIG_AP_MODE is not defined"
++	#undef CONFIG_DFS_MASTER
++#endif
++
++#define RTW_SCAN_SPARSE_MIRACAST 1
++#define RTW_SCAN_SPARSE_BG 0
++
++#ifndef CONFIG_RTW_HIQ_FILTER
++	#define CONFIG_RTW_HIQ_FILTER 1
++#endif
++
++#ifndef CONFIG_RTW_FORCE_IGI_LB
++	#define CONFIG_RTW_FORCE_IGI_LB 0
++#endif
++
++#ifndef CONFIG_RTW_ADAPTIVITY_EN
++	#define CONFIG_RTW_ADAPTIVITY_EN 0
++#endif
++
++#ifndef CONFIG_RTW_ADAPTIVITY_MODE
++	#define CONFIG_RTW_ADAPTIVITY_MODE 0
++#endif
++
++#ifndef CONFIG_RTW_ADAPTIVITY_DML
++	#define CONFIG_RTW_ADAPTIVITY_DML 0
++#endif
++
++#ifndef CONFIG_RTW_ADAPTIVITY_DC_BACKOFF
++	#define CONFIG_RTW_ADAPTIVITY_DC_BACKOFF 2
++#endif
++
++#ifndef CONFIG_RTW_ADAPTIVITY_TH_L2H_INI
++	#define CONFIG_RTW_ADAPTIVITY_TH_L2H_INI 0
++#endif
++
++#ifndef CONFIG_RTW_ADAPTIVITY_TH_EDCCA_HL_DIFF
++	#define CONFIG_RTW_ADAPTIVITY_TH_EDCCA_HL_DIFF 0
++#endif
++
++#ifndef CONFIG_RTW_EXCL_CHS
++	#define CONFIG_RTW_EXCL_CHS {0}
++#endif
++
++#ifndef CONFIG_RTW_DFS_REGION_DOMAIN
++	#define CONFIG_RTW_DFS_REGION_DOMAIN 0
++#endif
++
++#ifndef CONFIG_RTW_TARGET_TX_PWR_2G_A
++	#define CONFIG_RTW_TARGET_TX_PWR_2G_A {-1, -1, -1, -1, -1, -1, -1, -1, -1, -1}
++#endif
++
++#ifndef CONFIG_RTW_TARGET_TX_PWR_2G_B
++	#define CONFIG_RTW_TARGET_TX_PWR_2G_B {-1, -1, -1, -1, -1, -1, -1, -1, -1, -1}
++#endif
++
++#ifndef CONFIG_RTW_TARGET_TX_PWR_2G_C
++	#define CONFIG_RTW_TARGET_TX_PWR_2G_C {-1, -1, -1, -1, -1, -1, -1, -1, -1, -1}
++#endif
++
++#ifndef CONFIG_RTW_TARGET_TX_PWR_2G_D
++	#define CONFIG_RTW_TARGET_TX_PWR_2G_D {-1, -1, -1, -1, -1, -1, -1, -1, -1, -1}
++#endif
++
++#ifndef CONFIG_RTW_TARGET_TX_PWR_5G_A
++	#define CONFIG_RTW_TARGET_TX_PWR_5G_A {-1, -1, -1, -1, -1, -1, -1, -1, -1}
++#endif
++
++#ifndef CONFIG_RTW_TARGET_TX_PWR_5G_B
++	#define CONFIG_RTW_TARGET_TX_PWR_5G_B {-1, -1, -1, -1, -1, -1, -1, -1, -1}
++#endif
++
++#ifndef CONFIG_RTW_TARGET_TX_PWR_5G_C
++	#define CONFIG_RTW_TARGET_TX_PWR_5G_C {-1, -1, -1, -1, -1, -1, -1, -1, -1}
++#endif
++
++#ifndef CONFIG_RTW_TARGET_TX_PWR_5G_D
++	#define CONFIG_RTW_TARGET_TX_PWR_5G_D {-1, -1, -1, -1, -1, -1, -1, -1, -1}
++#endif
++
++#ifndef CONFIG_RTW_AMPLIFIER_TYPE_2G
++	#define CONFIG_RTW_AMPLIFIER_TYPE_2G 0
++#endif
++
++#ifndef CONFIG_RTW_AMPLIFIER_TYPE_5G
++	#define CONFIG_RTW_AMPLIFIER_TYPE_5G 0
++#endif
++
++#ifndef CONFIG_RTW_RFE_TYPE
++	#define CONFIG_RTW_RFE_TYPE 64
++#endif
++
++#ifndef CONFIG_RTW_GLNA_TYPE
++	#define CONFIG_RTW_GLNA_TYPE 0
++#endif
++
++#ifndef CONFIG_RTW_PLL_REF_CLK_SEL
++	#define CONFIG_RTW_PLL_REF_CLK_SEL 0x0F
++#endif
++
++#ifndef CONFIG_IFACE_NUMBER
++	#ifdef CONFIG_CONCURRENT_MODE
++		#define CONFIG_IFACE_NUMBER	2
++	#else
++		#define CONFIG_IFACE_NUMBER	1
++	#endif
++#endif
++
++#ifndef CONFIG_CONCURRENT_MODE
++	#if (CONFIG_IFACE_NUMBER > 1)
++		#error "CONFIG_IFACE_NUMBER over 1,but CONFIG_CONCURRENT_MODE not defined"
++	#endif
++#endif
++
++#if (CONFIG_IFACE_NUMBER == 0)
++	#error "CONFIG_IFACE_NUMBER cound not equel to 0 !!"
++#endif
++
++#if (CONFIG_IFACE_NUMBER > 3)
++	#error "Not support over 3 interfaces yet !!"
++#endif
++
++#if (CONFIG_IFACE_NUMBER > 8)	/*IFACE_ID_MAX*/
++	#error "HW count not support over 8 interfaces !!"
++#endif
++
++#if (CONFIG_IFACE_NUMBER > 2)
++	#define CONFIG_MI_WITH_MBSSID_CAM
++
++	#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		#define CONFIG_MBSSID_CAM
++		#if defined(CONFIG_RUNTIME_PORT_SWITCH)
++			#undef CONFIG_RUNTIME_PORT_SWITCH
++		#endif
++	#endif
++
++	#ifdef CONFIG_AP_MODE
++		#define CONFIG_SWTIMER_BASED_TXBCN
++		/*#define CONFIG_FW_BASED_BCN*/
++	#endif
++#endif
++
++#define MACID_NUM_SW_LIMIT 32
++#define SEC_CAM_ENT_NUM_SW_LIMIT 32
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) || defined(CONFIG_RTL8814A)
++	#define CONFIG_IEEE80211_BAND_5GHZ
++#endif
++
++#if defined(CONFIG_WOWLAN) && (defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C))
++	#define CONFIG_WOW_PATTERN_HW_CAM
++	#define CONFIG_SUPPORT_FIFO_DUMP
++#endif
++
++
++#ifndef RTW_DEF_MODULE_REGULATORY_CERT
++	#define RTW_DEF_MODULE_REGULATORY_CERT 0
++#endif
++
++#if RTW_DEF_MODULE_REGULATORY_CERT
++	/* force enable TX power by rate and TX power limit */
++	#ifndef CONFIG_CALIBRATE_TX_POWER_BY_REGULATORY
++		#define CONFIG_CALIBRATE_TX_POWER_BY_REGULATORY
++	#endif
++#endif
++
++/*
++	Mark CONFIG_DEAUTH_BEFORE_CONNECT by Arvin 2015/07/20
++	If the failure of Wi-Fi connection is due to some irregular disconnection behavior (like unplug dongle,
++	power down etc.) in last time, we can unmark this flag to avoid some unpredictable response from AP.
++*/
++/*#define CONFIG_DEAUTH_BEFORE_CONNECT */
++
++/*#define CONFIG_WEXT_DONT_JOIN_BYSSID	*/
++/* #include <rtl871x_byteorder.h> */
++
++
++/*#define CONFIG_DOSCAN_IN_BUSYTRAFFIC	*/
++
++/*
++ * Add by Lucas@2016/02/15
++ * For RX Aggregation
++ */
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_USB_RX_AGGREGATION)
++	#define RTW_RX_AGGREGATION
++#endif /* CONFIG_SDIO_HCI || CONFIG_USB_RX_AGGREGATION */
++
++#endif /* __DRV_CONF_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/drv_types.h b/drivers/net/wireless/rtl8812au/include/drv_types.h
+new file mode 100644
+index 0000000..7a08138
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/drv_types.h
+@@ -0,0 +1,1520 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*-------------------------------------------------------------------------------
++
++	For type defines and data structure defines
++
++--------------------------------------------------------------------------------*/
++
++
++#ifndef __DRV_TYPES_H__
++#define __DRV_TYPES_H__
++
++#include <drv_conf.h>
++#include <basic_types.h>
++#include <osdep_service.h>
++#include <rtw_byteorder.h>
++#include <wlan_bssdef.h>
++#include <wifi.h>
++#include <ieee80211.h>
++#ifdef CONFIG_ARP_KEEP_ALIVE
++	#include <net/neighbour.h>
++	#include <net/arp.h>
++#endif
++
++#ifdef PLATFORM_OS_XP
++	#include <drv_types_xp.h>
++#endif
++
++#ifdef PLATFORM_OS_CE
++	#include <drv_types_ce.h>
++#endif
++
++#ifdef PLATFORM_LINUX
++	#include <drv_types_linux.h>
++#endif
++
++enum _NIC_VERSION {
++
++	RTL8711_NIC,
++	RTL8712_NIC,
++	RTL8713_NIC,
++	RTL8716_NIC
++
++};
++
++typedef struct _ADAPTER _adapter, ADAPTER, *PADAPTER;
++
++#include <rtw_debug.h>
++#include <rtw_rf.h>
++
++#ifdef CONFIG_80211N_HT
++	#include <rtw_ht.h>
++#endif
++
++#ifdef CONFIG_80211AC_VHT
++	#include <rtw_vht.h>
++#endif
++
++#ifdef CONFIG_INTEL_WIDI
++	#include <rtw_intel_widi.h>
++#endif
++
++#include <rtw_cmd.h>
++#include <cmd_osdep.h>
++#include <rtw_security.h>
++#include <rtw_xmit.h>
++#include <xmit_osdep.h>
++#include <rtw_recv.h>
++
++#ifdef CONFIG_BEAMFORMING
++	#include <rtw_beamforming.h>
++#endif
++
++#include <recv_osdep.h>
++#include <rtw_efuse.h>
++#include <rtw_sreset.h>
++#include <hal_intf.h>
++#include <hal_com.h>
++#include<hal_com_h2c.h>
++#include <hal_com_led.h>
++#include "../hal/hal_dm.h"
++#include <rtw_qos.h>
++#include <rtw_pwrctrl.h>
++#include <rtw_mlme.h>
++#include <mlme_osdep.h>
++#include <rtw_io.h>
++#include <rtw_ioctl.h>
++#include <rtw_ioctl_set.h>
++#include <rtw_ioctl_query.h>
++#include <rtw_ioctl_rtl.h>
++#include <osdep_intf.h>
++#include <rtw_eeprom.h>
++#include <sta_info.h>
++#include <rtw_event.h>
++#include <rtw_mlme_ext.h>
++#include <rtw_mi.h>
++#include <rtw_ap.h>
++#include <rtw_efuse.h>
++#include <rtw_version.h>
++#include <rtw_odm.h>
++
++#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++	#include <rtw_mem.h>
++#endif
++
++#include <rtw_p2p.h>
++
++#ifdef CONFIG_TDLS
++	#include <rtw_tdls.h>
++#endif /* CONFIG_TDLS */
++
++#ifdef CONFIG_WAPI_SUPPORT
++	#include <rtw_wapi.h>
++#endif /* CONFIG_WAPI_SUPPORT */
++
++#ifdef CONFIG_DRVEXT_MODULE
++	#include <drvext_api.h>
++#endif /* CONFIG_DRVEXT_MODULE */
++
++#ifdef CONFIG_MP_INCLUDED
++	#include <rtw_mp.h>
++#endif /* CONFIG_MP_INCLUDED */
++
++#ifdef CONFIG_BR_EXT
++	#include <rtw_br_ext.h>
++#endif /* CONFIG_BR_EXT */
++
++#ifdef CONFIG_IOL
++	#include <rtw_iol.h>
++#endif /* CONFIG_IOL */
++
++#include <ip.h>
++#include <if_ether.h>
++#include <ethernet.h>
++#include <circ_buf.h>
++
++#include <rtw_android.h>
++
++#ifdef CONFIG_BT_COEXIST
++	#include <rtw_btcoex.h>
++#endif /* CONFIG_BT_COEXIST */
++
++#ifdef CONFIG_MCC_MODE
++	#include <rtw_mcc.h>
++#endif /*CONFIG_MCC_MODE */
++
++#define SPEC_DEV_ID_NONE BIT(0)
++#define SPEC_DEV_ID_DISABLE_HT BIT(1)
++#define SPEC_DEV_ID_ENABLE_PS BIT(2)
++#define SPEC_DEV_ID_RF_CONFIG_1T1R BIT(3)
++#define SPEC_DEV_ID_RF_CONFIG_2T2R BIT(4)
++#define SPEC_DEV_ID_ASSIGN_IFNAME BIT(5)
++
++struct specific_device_id {
++
++	u32		flags;
++
++	u16		idVendor;
++	u16		idProduct;
++
++};
++
++struct registry_priv {
++	u8	chip_version;
++	u8	rfintfs;
++	u8	lbkmode;
++	u8	hci;
++	NDIS_802_11_SSID	ssid;
++	u8	network_mode;	/* infra, ad-hoc, auto */
++	u8	channel;/* ad-hoc support requirement */
++	u8	wireless_mode;/* A, B, G, auto */
++	u8	scan_mode;/* active, passive */
++	u8	radio_enable;
++	u8	preamble;/* long, short, auto */
++	u8	vrtl_carrier_sense;/* Enable, Disable, Auto */
++	u8	vcs_type;/* RTS/CTS, CTS-to-self */
++	u16	rts_thresh;
++	u16  frag_thresh;
++	u8	adhoc_tx_pwr;
++	u8	soft_ap;
++	u8	power_mgnt;
++	u8	ips_mode;
++	u8	smart_ps;
++	u8   usb_rxagg_mode;
++	u8	long_retry_lmt;
++	u8	short_retry_lmt;
++	u16	busy_thresh;
++	u8	ack_policy;
++	u8	mp_mode;
++	u8  mp_dm;
++	u8	software_encrypt;
++	u8	software_decrypt;
++#ifdef CONFIG_TX_EARLY_MODE
++	u8   early_mode;
++#endif
++	u8	acm_method;
++	/* UAPSD */
++	u8	wmm_enable;
++	u8	uapsd_enable;
++	u8	uapsd_max_sp;
++	u8	uapsd_acbk_en;
++	u8	uapsd_acbe_en;
++	u8	uapsd_acvi_en;
++	u8	uapsd_acvo_en;
++
++	WLAN_BSSID_EX    dev_network;
++
++	u8 tx_bw_mode;
++
++#ifdef CONFIG_80211N_HT
++	u8	ht_enable;
++	/* 0: 20 MHz, 1: 40 MHz, 2: 80 MHz, 3: 160MHz */
++	/* 2.4G use bit 0 ~ 3, 5G use bit 4 ~ 7 */
++	/* 0x21 means enable 2.4G 40MHz & 5G 80MHz */
++	u8	bw_mode;
++	u8	ampdu_enable;/* for tx */
++	u8	rx_stbc;
++	u8	ampdu_amsdu;/* A-MPDU Supports A-MSDU is permitted */
++	/* Short GI support Bit Map */
++	/* BIT0 - 20MHz, 1: support, 0: non-support */
++	/* BIT1 - 40MHz, 1: support, 0: non-support */
++	/* BIT2 - 80MHz, 1: support, 0: non-support */
++	/* BIT3 - 160MHz, 1: support, 0: non-support */
++	u8	short_gi;
++	/* BIT0: Enable VHT LDPC Rx, BIT1: Enable VHT LDPC Tx, BIT4: Enable HT LDPC Rx, BIT5: Enable HT LDPC Tx */
++	u8	ldpc_cap;
++	/* BIT0: Enable VHT STBC Rx, BIT1: Enable VHT STBC Tx, BIT4: Enable HT STBC Rx, BIT5: Enable HT STBC Tx */
++	u8	stbc_cap;
++	/*
++	 * BIT0: Enable VHT SU Beamformer
++	 * BIT1: Enable VHT SU Beamformee
++	 * BIT2: Enable VHT MU Beamformer, depend on VHT SU Beamformer
++	 * BIT3: Enable VHT MU Beamformee, depend on VHT SU Beamformee
++	 * BIT4: Enable HT Beamformer
++	 * BIT5: Enable HT Beamformee
++	 */
++	u8	beamform_cap;
++	u8	beamformer_rf_num;
++	u8	beamformee_rf_num;
++#endif /* CONFIG_80211N_HT */
++
++#ifdef CONFIG_80211AC_VHT
++	u8	vht_enable; /* 0:disable, 1:enable, 2:auto */
++	u8	ampdu_factor;
++	u8	vht_rate_sel;
++#endif /* CONFIG_80211AC_VHT */
++
++	u8	lowrate_two_xmit;
++
++	u8	rf_config ;
++	u8	low_power ;
++
++	u8	wifi_spec;/* !turbo_mode */
++	u8	special_rf_path; /* 0: 2T2R ,1: only turn on path A 1T1R */
++	char alpha2[2];
++	u8	channel_plan;
++	u8	excl_chs[MAX_CHANNEL_NUM];
++	u8	full_ch_in_p2p_handshake; /* 0: reply only softap channel, 1: reply full channel list*/
++
++#ifdef CONFIG_BT_COEXIST
++	u8	btcoex;
++	u8	bt_iso;
++	u8	bt_sco;
++	u8	bt_ampdu;
++	u8	ant_num;
++#endif
++	BOOLEAN	bAcceptAddbaReq;
++
++	u8	antdiv_cfg;
++	u8	antdiv_type;
++	u8	drv_ant_band_switch;
++
++	u8	switch_usb_mode;
++
++	u8	usbss_enable;/* 0:disable,1:enable */
++	u8	hwpdn_mode;/* 0:disable,1:enable,2:decide by EFUSE config */
++	u8	hwpwrp_detect;/* 0:disable,1:enable */
++
++	u8	hw_wps_pbc;/* 0:disable,1:enable */
++
++#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++	char	adaptor_info_caching_file_path[PATH_LENGTH_MAX];
++#endif
++
++#ifdef CONFIG_LAYER2_ROAMING
++	u8	max_roaming_times; /* the max number driver will try to roaming */
++#endif
++
++#ifdef CONFIG_IOL
++	u8 fw_iol; /* enable iol without other concern */
++#endif
++
++#ifdef CONFIG_80211D
++	u8 enable80211d;
++#endif
++
++	u8 ifname[16];
++	u8 if2name[16];
++
++	u8 notch_filter;
++
++#ifdef CONFIG_SPECIAL_SETTING_FOR_FUNAI_TV
++	u8 force_ant;/* 0 normal,1 main,2 aux */
++	u8 force_igi;/* 0 normal */
++#endif
++
++	u8 force_igi_lb;
++
++	/* for pll reference clock selction */
++	u8 pll_ref_clk_sel;
++
++	/* define for tx power adjust */
++	u8	RegEnableTxPowerLimit;
++	u8	RegEnableTxPowerByRate;
++	u8	RegPowerBase;
++	u8	RegPwrTblSel;
++
++	u8 target_tx_pwr_valid;
++	s8 target_tx_pwr_2g[RF_PATH_MAX][RATE_SECTION_NUM];
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	s8 target_tx_pwr_5g[RF_PATH_MAX][RATE_SECTION_NUM - 1];
++#endif
++
++	s8	TxBBSwing_2G;
++	s8	TxBBSwing_5G;
++	u8	AmplifierType_2G;
++	u8	AmplifierType_5G;
++	u8	bEn_RFE;
++	u8	RFE_Type;
++	u8	PowerTracking_Type;
++	u8	GLNA_Type;
++	u8  check_fw_ps;
++	u8	RegPwrTrimEnable;
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	u8	load_phy_file;
++	u8	RegDecryptCustomFile;
++#endif
++#ifdef CONFIG_CONCURRENT_MODE
++	u8 virtual_iface_num;
++#endif
++	u8 qos_opt_enable;
++
++	u8 hiq_filter;
++	u8 adaptivity_en;
++	u8 adaptivity_mode;
++	u8 adaptivity_dml;
++	u8 adaptivity_dc_backoff;
++	s8 adaptivity_th_l2h_ini;
++	s8 adaptivity_th_edcca_hl_diff;
++
++	u8 boffefusemask;
++	BOOLEAN bFileMaskEfuse;
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	u8 acs_mode;
++	u8 acs_auto_scan;
++#endif
++	u32	reg_rxgain_offset_2g;
++	u32	reg_rxgain_offset_5gl;
++	u32	reg_rxgain_offset_5gm;
++	u32	reg_rxgain_offset_5gh;
++
++#ifdef CONFIG_DFS_MASTER
++	u8 dfs_region_domain;
++#endif
++
++#ifdef CONFIG_MCC_MODE
++	u8 en_mcc;
++	u32 rtw_mcc_single_tx_cri;
++	u32 rtw_mcc_ap_bw20_target_tx_tp;
++	u32 rtw_mcc_ap_bw40_target_tx_tp;
++	u32 rtw_mcc_ap_bw80_target_tx_tp;
++	u32 rtw_mcc_sta_bw20_target_tx_tp;
++	u32 rtw_mcc_sta_bw40_target_tx_tp;
++	u32 rtw_mcc_sta_bw80_target_tx_tp;
++#endif /* CONFIG_MCC_MODE */
++
++	bool	default_patterns_en;
++#ifdef CONFIG_SUPPORT_TRX_SHARED
++	u8 trx_share_mode;
++#endif
++	u8 check_hw_status;
++};
++
++/* For registry parameters */
++#define RGTRY_OFT(field) ((ULONG)FIELD_OFFSET(struct registry_priv, field))
++#define RGTRY_SZ(field)   sizeof(((struct registry_priv *) 0)->field)
++
++#define GetRegAmplifierType2G(_Adapter)	(_Adapter->registrypriv.AmplifierType_2G)
++#define GetRegAmplifierType5G(_Adapter)	(_Adapter->registrypriv.AmplifierType_5G)
++
++#define GetRegTxBBSwing_2G(_Adapter)	(_Adapter->registrypriv.TxBBSwing_2G)
++#define GetRegTxBBSwing_5G(_Adapter)	(_Adapter->registrypriv.TxBBSwing_5G)
++
++#define GetRegbENRFEType(_Adapter)	(_Adapter->registrypriv.bEn_RFE)
++#define GetRegRFEType(_Adapter)	(_Adapter->registrypriv.RFE_Type)
++#define GetRegGLNAType(_Adapter)	(_Adapter->registrypriv.GLNA_Type)
++#define GetRegPowerTrackingType(_Adapter)	(_Adapter->registrypriv.PowerTracking_Type)
++
++#define BSSID_OFT(field) ((ULONG)FIELD_OFFSET(WLAN_BSSID_EX, field))
++#define BSSID_SZ(field)   sizeof(((PWLAN_BSSID_EX) 0)->field)
++
++#define BW_MODE_2G(bw_mode) ((bw_mode) & 0x0F)
++#define BW_MODE_5G(bw_mode) ((bw_mode) >> 4)
++#define REGSTY_BW_2G(regsty) BW_MODE_2G((regsty)->bw_mode)
++#define REGSTY_BW_5G(regsty) BW_MODE_5G((regsty)->bw_mode)
++#define REGSTY_IS_BW_2G_SUPPORT(regsty, bw) (REGSTY_BW_2G((regsty)) >= (bw))
++#define REGSTY_IS_BW_5G_SUPPORT(regsty, bw) (REGSTY_BW_5G((regsty)) >= (bw))
++
++#define REGSTY_IS_11AC_ENABLE(regsty) ((regsty)->vht_enable != 0)
++#define REGSTY_IS_11AC_AUTO(regsty) ((regsty)->vht_enable == 2)
++
++typedef struct rtw_if_operations {
++	int __must_check(*read)(struct dvobj_priv *d, int addr, void *buf,
++				size_t len, bool fixed);
++	int __must_check(*write)(struct dvobj_priv *d, int addr, void *buf,
++				 size_t len, bool fixed);
++} RTW_IF_OPS, *PRTW_IF_OPS;
++
++#ifdef CONFIG_SDIO_HCI
++	#include <drv_types_sdio.h>
++	#define INTF_DATA	SDIO_DATA
++	#define INTF_OPS	PRTW_IF_OPS
++#elif defined(CONFIG_GSPI_HCI)
++	#include <drv_types_gspi.h>
++	#define INTF_DATA GSPI_DATA
++#elif defined(CONFIG_PCI_HCI)
++	#include <drv_types_pci.h>
++#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++	#define is_primary_adapter(adapter) (adapter->adapter_type == PRIMARY_ADAPTER)
++	#define is_vir_adapter(adapter) (adapter->adapter_type == VIRTUAL_ADAPTER)
++	#define get_hw_port(adapter) (adapter->hw_port)
++#else
++	#define is_primary_adapter(adapter) (1)
++	#define is_vir_adapter(adapter) (0)
++	#define get_hw_port(adapter) (HW_PORT0)
++#endif
++#define GET_PRIMARY_ADAPTER(padapter) (((_adapter *)padapter)->dvobj->padapters[IFACE_ID0])
++#define GET_IFACE_NUMS(padapter) (((_adapter *)padapter)->dvobj->iface_nums)
++#define GET_ADAPTER(padapter, iface_id) (((_adapter *)padapter)->dvobj->padapters[iface_id])
++
++#define GetDefaultAdapter(padapter)	padapter
++
++enum _IFACE_ID {
++	IFACE_ID0, /*PRIMARY_ADAPTER*/
++	IFACE_ID1,
++	IFACE_ID2,
++	IFACE_ID3,
++	IFACE_ID4,
++	IFACE_ID5,
++	IFACE_ID6,
++	IFACE_ID7,
++	IFACE_ID_MAX,
++};
++
++#define VIF_START_ID	1
++
++#ifdef CONFIG_DBG_COUNTER
++
++struct rx_logs {
++	u32 intf_rx;
++	u32 intf_rx_err_recvframe;
++	u32 intf_rx_err_skb;
++	u32 intf_rx_report;
++	u32 core_rx;
++	u32 core_rx_pre;
++	u32 core_rx_pre_ver_err;
++	u32 core_rx_pre_mgmt;
++	u32 core_rx_pre_mgmt_err_80211w;
++	u32 core_rx_pre_mgmt_err;
++	u32 core_rx_pre_ctrl;
++	u32 core_rx_pre_ctrl_err;
++	u32 core_rx_pre_data;
++	u32 core_rx_pre_data_wapi_seq_err;
++	u32 core_rx_pre_data_wapi_key_err;
++	u32 core_rx_pre_data_handled;
++	u32 core_rx_pre_data_err;
++	u32 core_rx_pre_data_unknown;
++	u32 core_rx_pre_unknown;
++	u32 core_rx_enqueue;
++	u32 core_rx_dequeue;
++	u32 core_rx_post;
++	u32 core_rx_post_decrypt;
++	u32 core_rx_post_decrypt_wep;
++	u32 core_rx_post_decrypt_tkip;
++	u32 core_rx_post_decrypt_aes;
++	u32 core_rx_post_decrypt_wapi;
++	u32 core_rx_post_decrypt_hw;
++	u32 core_rx_post_decrypt_unknown;
++	u32 core_rx_post_decrypt_err;
++	u32 core_rx_post_defrag_err;
++	u32 core_rx_post_portctrl_err;
++	u32 core_rx_post_indicate;
++	u32 core_rx_post_indicate_in_oder;
++	u32 core_rx_post_indicate_reoder;
++	u32 core_rx_post_indicate_err;
++	u32 os_indicate;
++	u32 os_indicate_ap_mcast;
++	u32 os_indicate_ap_forward;
++	u32 os_indicate_ap_self;
++	u32 os_indicate_err;
++	u32 os_netif_ok;
++	u32 os_netif_err;
++};
++
++struct tx_logs {
++	u32 os_tx;
++	u32 os_tx_err_up;
++	u32 os_tx_err_xmit;
++	u32 os_tx_m2u;
++	u32 os_tx_m2u_ignore_fw_linked;
++	u32 os_tx_m2u_ignore_self;
++	u32 os_tx_m2u_entry;
++	u32 os_tx_m2u_entry_err_xmit;
++	u32 os_tx_m2u_entry_err_skb;
++	u32 os_tx_m2u_stop;
++	u32 core_tx;
++	u32 core_tx_err_pxmitframe;
++	u32 core_tx_err_brtx;
++	u32 core_tx_upd_attrib;
++	u32 core_tx_upd_attrib_adhoc;
++	u32 core_tx_upd_attrib_sta;
++	u32 core_tx_upd_attrib_ap;
++	u32 core_tx_upd_attrib_unknown;
++	u32 core_tx_upd_attrib_dhcp;
++	u32 core_tx_upd_attrib_icmp;
++	u32 core_tx_upd_attrib_active;
++	u32 core_tx_upd_attrib_err_ucast_sta;
++	u32 core_tx_upd_attrib_err_ucast_ap_link;
++	u32 core_tx_upd_attrib_err_sta;
++	u32 core_tx_upd_attrib_err_link;
++	u32 core_tx_upd_attrib_err_sec;
++	u32 core_tx_ap_enqueue_warn_fwstate;
++	u32 core_tx_ap_enqueue_warn_sta;
++	u32 core_tx_ap_enqueue_warn_nosta;
++	u32 core_tx_ap_enqueue_warn_link;
++	u32 core_tx_ap_enqueue_warn_trigger;
++	u32 core_tx_ap_enqueue_mcast;
++	u32 core_tx_ap_enqueue_ucast;
++	u32 core_tx_ap_enqueue;
++	u32 intf_tx;
++	u32 intf_tx_pending_ac;
++	u32 intf_tx_pending_fw_under_survey;
++	u32 intf_tx_pending_fw_under_linking;
++	u32 intf_tx_pending_xmitbuf;
++	u32 intf_tx_enqueue;
++	u32 core_tx_enqueue;
++	u32 core_tx_enqueue_class;
++	u32 core_tx_enqueue_class_err_sta;
++	u32 core_tx_enqueue_class_err_nosta;
++	u32 core_tx_enqueue_class_err_fwlink;
++	u32 intf_tx_direct;
++	u32 intf_tx_direct_err_coalesce;
++	u32 intf_tx_dequeue;
++	u32 intf_tx_dequeue_err_coalesce;
++	u32 intf_tx_dump_xframe;
++	u32 intf_tx_dump_xframe_err_txdesc;
++	u32 intf_tx_dump_xframe_err_port;
++};
++
++struct int_logs {
++	u32 all;
++	u32 err;
++	u32 tbdok;
++	u32 tbder;
++	u32 bcnderr;
++	u32 bcndma;
++	u32 bcndma_e;
++	u32 rx;
++	u32 rx_rdu;
++	u32 rx_fovw;
++	u32 txfovw;
++	u32 mgntok;
++	u32 highdok;
++	u32 bkdok;
++	u32 bedok;
++	u32 vidok;
++	u32 vodok;
++};
++
++#endif /* CONFIG_DBG_COUNTER */
++
++struct debug_priv {
++	u32 dbg_sdio_free_irq_error_cnt;
++	u32 dbg_sdio_alloc_irq_error_cnt;
++	u32 dbg_sdio_free_irq_cnt;
++	u32 dbg_sdio_alloc_irq_cnt;
++	u32 dbg_sdio_deinit_error_cnt;
++	u32 dbg_sdio_init_error_cnt;
++	u32 dbg_suspend_error_cnt;
++	u32 dbg_suspend_cnt;
++	u32 dbg_resume_cnt;
++	u32 dbg_resume_error_cnt;
++	u32 dbg_deinit_fail_cnt;
++	u32 dbg_carddisable_cnt;
++	u32 dbg_carddisable_error_cnt;
++	u32 dbg_ps_insuspend_cnt;
++	u32	dbg_dev_unload_inIPS_cnt;
++	u32 dbg_wow_leave_ps_fail_cnt;
++	u32 dbg_scan_pwr_state_cnt;
++	u32 dbg_downloadfw_pwr_state_cnt;
++	u32 dbg_fw_read_ps_state_fail_cnt;
++	u32 dbg_leave_ips_fail_cnt;
++	u32 dbg_leave_lps_fail_cnt;
++	u32 dbg_h2c_leave32k_fail_cnt;
++	u32 dbg_diswow_dload_fw_fail_cnt;
++	u32 dbg_enwow_dload_fw_fail_cnt;
++	u32 dbg_ips_drvopen_fail_cnt;
++	u32 dbg_poll_fail_cnt;
++	u32 dbg_rpwm_toogle_cnt;
++	u32 dbg_rpwm_timeout_fail_cnt;
++	u32 dbg_sreset_cnt;
++	u64 dbg_rx_fifo_last_overflow;
++	u64 dbg_rx_fifo_curr_overflow;
++	u64 dbg_rx_fifo_diff_overflow;
++	u64 dbg_rx_ampdu_drop_count;
++	u64 dbg_rx_ampdu_forced_indicate_count;
++	u64 dbg_rx_ampdu_loss_count;
++	u64 dbg_rx_dup_mgt_frame_drop_count;
++	u64 dbg_rx_ampdu_window_shift_cnt;
++	u64 dbg_rx_conflic_mac_addr_cnt;
++};
++
++struct rtw_traffic_statistics {
++	/* tx statistics */
++	u64	tx_bytes;
++	u64	tx_pkts;
++	u64	tx_drop;
++	u64	cur_tx_bytes;
++	u64	last_tx_bytes;
++	u32	cur_tx_tp; /* Tx throughput in MBps. */
++
++	/* rx statistics */
++	u64	rx_bytes;
++	u64	rx_pkts;
++	u64	rx_drop;
++	u64	cur_rx_bytes;
++	u64	last_rx_bytes;
++	u32	cur_rx_tp; /* Rx throughput in MBps. */
++};
++
++#define SEC_CAP_CHK_BMC	BIT0
++
++#define SEC_STATUS_STA_PK_GK_CONFLICT_DIS_BMC_SEARCH	BIT0
++
++struct sec_cam_bmp {
++	u32 m0;
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 32)
++	u32 m1;
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 64)
++	u32 m2;
++#endif
++#if (SEC_CAM_ENT_NUM_SW_LIMIT > 96)
++	u32 m3;
++#endif
++};
++
++struct cam_ctl_t {
++	_lock lock;
++
++	u8 sec_cap;
++	u32 flags;
++
++	u8 num;
++	struct sec_cam_bmp used;
++
++	_mutex sec_cam_access_mutex;
++};
++
++struct sec_cam_ent {
++	u16 ctrl;
++	u8 mac[ETH_ALEN];
++	u8 key[16];
++};
++
++#define KEY_FMT "%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x"
++#define KEY_ARG(x) ((u8 *)(x))[0], ((u8 *)(x))[1], ((u8 *)(x))[2], ((u8 *)(x))[3], ((u8 *)(x))[4], ((u8 *)(x))[5], \
++	((u8 *)(x))[6], ((u8 *)(x))[7], ((u8 *)(x))[8], ((u8 *)(x))[9], ((u8 *)(x))[10], ((u8 *)(x))[11], \
++	((u8 *)(x))[12], ((u8 *)(x))[13], ((u8 *)(x))[14], ((u8 *)(x))[15]
++
++struct macid_bmp {
++	u32 m0;
++#if (MACID_NUM_SW_LIMIT > 32)
++	u32 m1;
++#endif
++#if (MACID_NUM_SW_LIMIT > 64)
++	u32 m2;
++#endif
++#if (MACID_NUM_SW_LIMIT > 96)
++	u32 m3;
++#endif
++};
++
++struct macid_ctl_t {
++	_lock lock;
++	u8 num;
++	struct macid_bmp used;
++	struct macid_bmp bmc;
++	struct macid_bmp if_g[CONFIG_IFACE_NUMBER];
++	u8 iface_bmc[CONFIG_IFACE_NUMBER];/*for bc-sta of AP or Adhoc mode*/
++	struct macid_bmp ch_g[2]; /* 2 ch concurrency */
++	u8 h2c_msr[MACID_NUM_SW_LIMIT];
++	u8 bw[MACID_NUM_SW_LIMIT];
++	u8 vht_en[MACID_NUM_SW_LIMIT];
++	u32 rate_bmp0[MACID_NUM_SW_LIMIT];
++	u32 rate_bmp1[MACID_NUM_SW_LIMIT];
++	struct sta_info *sta[MACID_NUM_SW_LIMIT];
++};
++
++/* used for rf_ctl_t.rate_bmp_cck_ofdm */
++#define RATE_BMP_CCK		0x000F
++#define RATE_BMP_OFDM		0xFFF0
++#define RATE_BMP_HAS_CCK(_bmp_cck_ofdm)		(_bmp_cck_ofdm & RATE_BMP_CCK)
++#define RATE_BMP_HAS_OFDM(_bmp_cck_ofdm)	(_bmp_cck_ofdm & RATE_BMP_OFDM)
++#define RATE_BMP_GET_CCK(_bmp_cck_ofdm)		(_bmp_cck_ofdm & RATE_BMP_CCK)
++#define RATE_BMP_GET_OFDM(_bmp_cck_ofdm)	((_bmp_cck_ofdm & RATE_BMP_OFDM) >> 4)
++
++/* used for rf_ctl_t.rate_bmp_ht_by_bw */
++#define RATE_BMP_HT_1SS		0x000000FF
++#define RATE_BMP_HT_2SS		0x0000FF00
++#define RATE_BMP_HT_3SS		0x00FF0000
++#define RATE_BMP_HT_4SS		0xFF000000
++#define RATE_BMP_HAS_HT_1SS(_bmp_ht)		(_bmp_ht & RATE_BMP_HT_1SS)
++#define RATE_BMP_HAS_HT_2SS(_bmp_ht)		(_bmp_ht & RATE_BMP_HT_2SS)
++#define RATE_BMP_HAS_HT_3SS(_bmp_ht)		(_bmp_ht & RATE_BMP_HT_3SS)
++#define RATE_BMP_HAS_HT_4SS(_bmp_ht)		(_bmp_ht & RATE_BMP_HT_4SS)
++#define RATE_BMP_GET_HT_1SS(_bmp_ht)		(_bmp_ht & RATE_BMP_HT_1SS)
++#define RATE_BMP_GET_HT_2SS(_bmp_ht)		((_bmp_ht & RATE_BMP_HT_2SS) >> 8)
++#define RATE_BMP_GET_HT_3SS(_bmp_ht)		((_bmp_ht & RATE_BMP_HT_3SS) >> 16)
++#define RATE_BMP_GET_HT_4SS(_bmp_ht)		((_bmp_ht & RATE_BMP_HT_4SS) >> 24)
++
++/* used for rf_ctl_t.rate_bmp_vht_by_bw */
++#define RATE_BMP_VHT_1SS	0x000003FF
++#define RATE_BMP_VHT_2SS	0x000FFC00
++#define RATE_BMP_VHT_3SS	0x3FF00000
++#define RATE_BMP_HAS_VHT_1SS(_bmp_vht)		(_bmp_vht & RATE_BMP_VHT_1SS)
++#define RATE_BMP_HAS_VHT_2SS(_bmp_vht)		(_bmp_vht & RATE_BMP_VHT_2SS)
++#define RATE_BMP_HAS_VHT_3SS(_bmp_vht)		(_bmp_vht & RATE_BMP_VHT_3SS)
++#define RATE_BMP_GET_VHT_1SS(_bmp_vht)		(_bmp_vht & RATE_BMP_VHT_1SS)
++#define RATE_BMP_GET_VHT_2SS(_bmp_vht)		((_bmp_vht & RATE_BMP_VHT_2SS) >> 10)
++#define RATE_BMP_GET_VHT_3SS(_bmp_vht)		((_bmp_vht & RATE_BMP_VHT_3SS) >> 20)
++
++struct rf_ctl_t {
++	/* used for debug or by tx power limit */
++	u16 rate_bmp_cck_ofdm;		/* 20MHz */
++	u32 rate_bmp_ht_by_bw[2];	/* 20MHz, 40MHz. 4SS supported */
++	u32 rate_bmp_vht_by_bw[4];	/* 20MHz, 40MHz, 80MHz, 160MHz. up to 3SS supported */
++
++	/* used by tx power limit */
++	u8 highest_ht_rate_bw_bmp;
++	u8 highest_vht_rate_bw_bmp;
++
++#ifdef CONFIG_DFS_MASTER
++	bool radar_detect_by_others;
++	u8 dfs_master_enabled;
++	bool radar_detected;
++
++	u8 radar_detect_ch;
++	u8 radar_detect_bw;
++	u8 radar_detect_offset;
++
++	u32 cac_start_time;
++	u32 cac_end_time;
++
++	u8 dfs_ch_sel_d_flags;
++
++	u8 dbg_dfs_master_fake_radar_detect_cnt;
++	u8 dbg_dfs_master_radar_detect_trigger_non;
++	u8 dbg_dfs_master_choose_dfs_ch_first;
++#endif
++};
++
++#define RTW_CAC_STOPPED 0
++#define IS_CAC_STOPPED(rfctl) ((rfctl)->cac_end_time == RTW_CAC_STOPPED)
++#define IS_CH_WAITING(rfctl) (!IS_CAC_STOPPED(rfctl) && time_after((unsigned long)(rfctl)->cac_end_time, (unsigned long)rtw_get_current_time()))
++#define IS_UNDER_CAC(rfctl) (IS_CH_WAITING(rfctl) && time_after((unsigned long)rtw_get_current_time(), (unsigned long)(rfctl)->cac_start_time))
++
++struct mi_state {
++	u8 sta_num;			/*WIFI_FW_STATION_STATE*/
++	u8 ld_sta_num;		/*WIFI_FW_STATION_STATE |_FW_LINKED*/
++	u8 lg_sta_num;		/*WIFI_FW_STATION_STATE |_FW_UNDER_LINKING*/
++	u8 ap_num;			/*WIFI_FW_AP_STATE|_FW_LINKED*/
++	u8 ld_ap_num;		/*WIFI_FW_AP_STATE|_FW_LINKED && asoc_sta_count > 2*/
++	u8 adhoc_num;		/* WIFI_FW_ADHOC_STATE */
++	u8 ld_adhoc_num;	/* WIFI_FW_ADHOC_STATE && asoc_sta_count > 2 */
++	u8 uwps_num;		/*WIFI_UNDER_WPS*/
++	u8 union_ch;
++	u8 union_bw;
++	u8 union_offset;
++};
++
++#ifdef CONFIG_MBSSID_CAM
++#define TOTAL_MBID_CAM_NUM	8
++#define INVALID_CAM_ID			0xFF
++struct mbid_cam_ctl_t {
++	_lock lock;
++	u8 bitmap;
++	ATOMIC_T mbid_entry_num;
++};
++struct mbid_cam_cache {
++	u8 iface_id;
++	/*u8 role;*/ /*WIFI_STATION_STATE or WIFI_AP_STATE*/
++	u8 mac_addr[ETH_ALEN];
++};
++#endif /*CONFIG_MBSSID_CAM*/
++
++#ifdef RTW_HALMAC
++struct halmac_indicator {
++	struct submit_ctx *sctx;
++	u8 *buffer;
++	u32 buf_size;
++	u32 ret_size;
++	u32 status;
++};
++
++struct halmacpriv {
++	/* flags */
++	/*
++	 * send_general_info
++	 *	0: no need to call halmac_send_general_info()
++	 *	1: need to call halmac_send_general_info()
++	 */
++	u8 send_general_info;
++
++	/* For asynchronous functions */
++	struct halmac_indicator *indicator;
++
++#ifdef CONFIG_SDIO_HCI
++	/* Store hardware tx queue page number setting */
++	u16 txpage[HW_QUEUE_ENTRY];
++#endif /* CONFIG_SDIO_HCI */
++};
++#endif /* RTW_HALMAC */
++
++struct dvobj_priv {
++	/*-------- below is common data --------*/
++	u8	chip_type;
++	u8	HardwareType;
++	u8	interface_type;/*USB,SDIO,SPI,PCI*/
++
++	ATOMIC_T	bSurpriseRemoved;
++	ATOMIC_T	bDriverStopped;
++
++	s32	processing_dev_remove;
++
++	struct debug_priv drv_dbg;
++
++	_mutex hw_init_mutex;
++	_mutex h2c_fwcmd_mutex;
++	_mutex setch_mutex;
++	_mutex setbw_mutex;
++	_mutex rf_read_reg_mutex;
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++	_mutex sd_indirect_access_mutex;
++#endif
++
++	unsigned char	oper_channel; /* saved channel info when call set_channel_bw */
++	unsigned char	oper_bwmode;
++	unsigned char	oper_ch_offset;/* PRIME_CHNL_OFFSET */
++	u32 on_oper_ch_time;
++
++	_adapter *padapters[CONFIG_IFACE_NUMBER];/*IFACE_ID_MAX*/
++	u8 iface_nums; /* total number of ifaces used runtime */
++	struct mi_state iface_state;
++
++#ifdef CONFIG_AP_MODE
++	u8 nr_ap_if; /* total interface s number of ap/go mode. */
++	u32 inter_bcn_space; /* unit:ms */
++	_queue	ap_if_q;
++#endif
++
++	struct macid_ctl_t macid_ctl;
++
++	struct cam_ctl_t cam_ctl;
++	struct sec_cam_ent cam_cache[SEC_CAM_ENT_NUM_SW_LIMIT];
++
++#ifdef CONFIG_MBSSID_CAM
++	struct mbid_cam_ctl_t mbid_cam_ctl;
++	struct mbid_cam_cache mbid_cam_cache[TOTAL_MBID_CAM_NUM];
++#endif
++
++	struct rf_ctl_t rf_ctl;
++
++	/* For 92D, DMDP have 2 interface. */
++	u8	InterfaceNumber;
++	u8	NumInterfaces;
++
++	/* In /Out Pipe information */
++	int	RtInPipe[2];
++	int	RtOutPipe[4];
++	u8	Queue2Pipe[HW_QUEUE_ENTRY];/* for out pipe mapping */
++
++	u8	irq_alloc;
++	ATOMIC_T continual_io_error;
++
++	ATOMIC_T disable_func;
++
++	struct pwrctrl_priv pwrctl_priv;
++
++	struct rtw_traffic_statistics	traffic_stat;
++
++#if defined(CONFIG_IOCTL_CFG80211) && defined(RTW_SINGLE_WIPHY)
++	struct wiphy *wiphy;
++#endif
++
++#ifdef CONFIG_SWTIMER_BASED_TXBCN
++	_timer txbcn_timer;
++#endif
++	_timer dynamic_chk_timer; /* dynamic/periodic check timer */
++
++#ifdef RTW_HALMAC
++	void *halmac;
++	struct halmacpriv hmpriv;
++#endif /* RTW_HALMAC */
++
++	/*-------- below is for SDIO INTERFACE --------*/
++
++#ifdef INTF_DATA
++	INTF_DATA intf_data;
++#endif
++#ifdef INTF_OPS
++	INTF_OPS intf_ops;
++#endif
++
++	/*-------- below is for USB INTERFACE --------*/
++
++#ifdef CONFIG_USB_HCI
++
++	u8	usb_speed; /* 1.1, 2.0 or 3.0 */
++	u8	nr_endpoint;
++	u8	RtNumInPipes;
++	u8	RtNumOutPipes;
++	int	ep_num[6]; /* endpoint number */
++
++	int	RegUsbSS;
++
++	_sema	usb_suspend_sema;
++
++#ifdef CONFIG_USB_VENDOR_REQ_MUTEX
++	_mutex  usb_vendor_req_mutex;
++#endif
++
++#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC
++	u8 *usb_alloc_vendor_req_buf;
++	u8 *usb_vendor_req_buf;
++#endif
++
++#ifdef PLATFORM_WINDOWS
++	/* related device objects */
++	PDEVICE_OBJECT	pphysdevobj;/* pPhysDevObj; */
++	PDEVICE_OBJECT	pfuncdevobj;/* pFuncDevObj; */
++	PDEVICE_OBJECT	pnextdevobj;/* pNextDevObj; */
++
++	u8	nextdevstacksz;/* unsigned char NextDeviceStackSize;	 */ /* = (CHAR)CEdevice->pUsbDevObj->StackSize + 1; */
++
++	/* urb for control diescriptor request */
++
++#ifdef PLATFORM_OS_XP
++	struct _URB_CONTROL_DESCRIPTOR_REQUEST descriptor_urb;
++	PUSB_CONFIGURATION_DESCRIPTOR	pconfig_descriptor;/* UsbConfigurationDescriptor; */
++#endif
++
++#ifdef PLATFORM_OS_CE
++	WCHAR			active_path[MAX_ACTIVE_REG_PATH];	/* adapter regpath */
++	USB_EXTENSION	usb_extension;
++
++	_nic_hdl		pipehdls_r8192c[0x10];
++#endif
++
++	u32	config_descriptor_len;/* ULONG UsbConfigurationDescriptorLength; */
++#endif/* PLATFORM_WINDOWS */
++
++#ifdef PLATFORM_LINUX
++	struct usb_interface *pusbintf;
++	struct usb_device *pusbdev;
++#endif/* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	struct usb_interface *pusbintf;
++	struct usb_device *pusbdev;
++#endif/* PLATFORM_FREEBSD */
++
++#endif/* CONFIG_USB_HCI */
++
++	/*-------- below is for PCIE INTERFACE --------*/
++
++#ifdef CONFIG_PCI_HCI
++
++#ifdef PLATFORM_LINUX
++	struct pci_dev *ppcidev;
++
++	/* PCI MEM map */
++	unsigned long	pci_mem_end;	/* shared mem end	*/
++	unsigned long	pci_mem_start;	/* shared mem start	*/
++
++	/* PCI IO map */
++	unsigned long	pci_base_addr;	/* device I/O address	*/
++
++#ifdef RTK_129X_PLATFORM
++	/* PCI MASK addr */
++	unsigned long	mask_addr;
++
++	/* PCI TRANSLATE addr */
++	unsigned long	tran_addr;
++
++	_lock   io_reg_lock;
++#endif
++
++	/* PciBridge */
++	struct pci_priv	pcipriv;
++
++	unsigned int irq; /* get from pci_dev.irq, store to net_device.irq */
++	u16	irqline;
++	u8	irq_enabled;
++	RT_ISR_CONTENT	isr_content;
++	_lock	irq_th_lock;
++
++	/* ASPM */
++	u8	const_pci_aspm;
++	u8	const_amdpci_aspm;
++	u8	const_hwsw_rfoff_d3;
++	u8	const_support_pciaspm;
++	/* pci-e bridge */
++	u8	const_hostpci_aspm_setting;
++	/* pci-e device */
++	u8	const_devicepci_aspm_setting;
++	u8	b_support_aspm; /* If it supports ASPM, Offset[560h] = 0x40, otherwise Offset[560h] = 0x00. */
++	u8	b_support_backdoor;
++	u8	bdma64;
++#endif/* PLATFORM_LINUX */
++
++#endif/* CONFIG_PCI_HCI */
++
++#ifdef CONFIG_MCC_MODE
++	struct mcc_obj_priv mcc_objpriv;
++#endif /*CONFIG_MCC_MODE */
++};
++
++#define dvobj_to_pwrctl(dvobj) (&(dvobj->pwrctl_priv))
++#define pwrctl_to_dvobj(pwrctl) container_of(pwrctl, struct dvobj_priv, pwrctl_priv)
++#define dvobj_to_macidctl(dvobj) (&(dvobj->macid_ctl))
++#define dvobj_to_sec_camctl(dvobj) (&(dvobj->cam_ctl))
++#define dvobj_to_regsty(dvobj) (&(dvobj->padapters[IFACE_ID0]->registrypriv))
++#if defined(CONFIG_IOCTL_CFG80211) && defined(RTW_SINGLE_WIPHY)
++	#define dvobj_to_wiphy(dvobj) ((dvobj)->wiphy)
++#endif
++#define dvobj_to_rfctl(dvobj) (&(dvobj->rf_ctl))
++#define rfctl_to_dvobj(rfctl) container_of((rfctl), struct dvobj_priv, rf_ctl)
++
++#ifdef PLATFORM_LINUX
++static struct device *dvobj_to_dev(struct dvobj_priv *dvobj)
++{
++	/* todo: get interface type from dvobj and the return the dev accordingly */
++#ifdef RTW_DVOBJ_CHIP_HW_TYPE
++#endif
++
++#ifdef CONFIG_USB_HCI
++	return &dvobj->pusbintf->dev;
++#endif
++#ifdef CONFIG_SDIO_HCI
++	return &dvobj->intf_data.func->dev;
++#endif
++#ifdef CONFIG_GSPI_HCI
++	return &dvobj->intf_data.func->dev;
++#endif
++#ifdef CONFIG_PCI_HCI
++	return &dvobj->ppcidev->dev;
++#endif
++}
++#endif
++
++_adapter *dvobj_get_port0_adapter(struct dvobj_priv *dvobj);
++#define dvobj_get_primary_adapter(dvobj)	((dvobj)->padapters[IFACE_ID0])
++
++enum _hw_port {
++	HW_PORT0,
++	HW_PORT1,
++	HW_PORT2,
++	HW_PORT3,
++	HW_PORT4,
++	MAX_HW_PORT,
++};
++
++enum _ADAPTER_TYPE {
++	PRIMARY_ADAPTER,
++	VIRTUAL_ADAPTER,
++	MAX_ADAPTER = 0xFF,
++};
++
++typedef enum _DRIVER_STATE {
++	DRIVER_NORMAL = 0,
++	DRIVER_DISAPPEAR = 1,
++	DRIVER_REPLACE_DONGLE = 2,
++} DRIVER_STATE;
++
++#ifdef CONFIG_INTEL_PROXIM
++struct proxim {
++	bool proxim_support;
++	bool proxim_on;
++
++	void *proximity_priv;
++	int (*proxim_rx)(_adapter *padapter,
++			 union recv_frame *precv_frame);
++	u8(*proxim_get_var)(_adapter *padapter, u8 type);
++};
++#endif /* CONFIG_INTEL_PROXIM */
++
++#ifdef CONFIG_MAC_LOOPBACK_DRIVER
++typedef struct loopbackdata {
++	_sema	sema;
++	_thread_hdl_ lbkthread;
++	u8 bstop;
++	u32 cnt;
++	u16 size;
++	u16 txsize;
++	u8 txbuf[0x8000];
++	u16 rxsize;
++	u8 rxbuf[0x8000];
++	u8 msg[100];
++
++} LOOPBACKDATA, *PLOOPBACKDATA;
++#endif
++
++#define ADAPTER_TX_BW_2G(adapter) BW_MODE_2G((adapter)->driver_tx_bw_mode)
++#define ADAPTER_TX_BW_5G(adapter) BW_MODE_5G((adapter)->driver_tx_bw_mode)
++
++struct _ADAPTER {
++	int	DriverState;/* for disable driver using module, use dongle to replace module. */
++	int	pid[3];/* process id from UI, 0:wps, 1:hostapd, 2:dhcpcd */
++	int	bDongle;/* build-in module or external dongle */
++
++	_list	list;
++
++	struct dvobj_priv *dvobj;
++	struct	mlme_priv mlmepriv;
++	struct	mlme_ext_priv mlmeextpriv;
++	struct	cmd_priv	cmdpriv;
++	struct	evt_priv	evtpriv;
++	/* struct	io_queue	*pio_queue; */
++	struct	io_priv	iopriv;
++	struct	xmit_priv	xmitpriv;
++	struct	recv_priv	recvpriv;
++	struct	sta_priv	stapriv;
++	struct	security_priv	securitypriv;
++	_lock   security_key_mutex; /* add for CONFIG_IEEE80211W, none 11w also can use */
++	struct	registry_priv	registrypriv;
++
++	struct	led_priv	ledpriv;
++
++#ifdef CONFIG_MP_INCLUDED
++	struct	mp_priv	mppriv;
++#endif
++
++#ifdef CONFIG_DRVEXT_MODULE
++	struct	drvext_priv	drvextpriv;
++#endif
++
++#ifdef CONFIG_AP_MODE
++	struct	hostapd_priv	*phostapdpriv;
++#endif
++
++#ifdef CONFIG_IOCTL_CFG80211
++#ifdef CONFIG_P2P
++	struct cfg80211_wifidirect_info	cfg80211_wdinfo;
++#endif /* CONFIG_P2P */
++#endif /* CONFIG_IOCTL_CFG80211 */
++	u32	setband;
++	ATOMIC_T bandskip;
++
++#ifdef CONFIG_P2P
++	struct wifidirect_info	wdinfo;
++#endif /* CONFIG_P2P */
++
++#ifdef CONFIG_TDLS
++	struct tdls_info	tdlsinfo;
++#endif /* CONFIG_TDLS */
++
++#ifdef CONFIG_WAPI_SUPPORT
++	u8	WapiSupport;
++	RT_WAPI_T	wapiInfo;
++#endif
++
++
++#ifdef CONFIG_WFD
++	struct wifi_display_info wfd_info;
++#endif /* CONFIG_WFD */
++
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	struct bt_coex_info coex_info;
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++
++	ERROR_CODE		LastError; /* <20130613, Kordan> Only the functions associated with MP records the error code by now. */
++
++	PVOID			HalData;
++	u32 hal_data_sz;
++	struct hal_ops	HalFunc;
++
++	u32	IsrContent;
++	u32	ImrContent;
++
++	u8	EepromAddressSize;
++	u8	bDriverIsGoingToUnload;
++	u8	init_adpt_in_progress;
++	u8	bHaltInProgress;
++#ifdef CONFIG_GPIO_API
++	u8	pre_gpio_pin;
++	struct gpio_int_priv {
++		u8 interrupt_mode;
++		u8 interrupt_enable_mask;
++		void (*callback[8])(u8 level);
++	} gpiointpriv;
++#endif
++	_thread_hdl_ cmdThread;
++	_thread_hdl_ evtThread;
++	_thread_hdl_ xmitThread;
++	_thread_hdl_ recvThread;
++
++#ifndef PLATFORM_LINUX
++	NDIS_STATUS(*dvobj_init)(struct dvobj_priv *dvobj);
++	void (*dvobj_deinit)(struct dvobj_priv *dvobj);
++#endif
++
++	u32(*intf_init)(struct dvobj_priv *dvobj);
++	void (*intf_deinit)(struct dvobj_priv *dvobj);
++	int (*intf_alloc_irq)(struct dvobj_priv *dvobj);
++	void (*intf_free_irq)(struct dvobj_priv *dvobj);
++
++
++	void (*intf_start)(_adapter *adapter);
++	void (*intf_stop)(_adapter *adapter);
++
++#ifdef PLATFORM_WINDOWS
++	_nic_hdl		hndis_adapter;/* hNdisAdapter(NDISMiniportAdapterHandle); */
++	_nic_hdl		hndis_config;/* hNdisConfiguration; */
++	NDIS_STRING fw_img;
++
++	u32	NdisPacketFilter;
++	u8	MCList[MAX_MCAST_LIST_NUM][6];
++	u32	MCAddrCount;
++#endif /* end of PLATFORM_WINDOWS */
++
++
++#ifdef PLATFORM_LINUX
++	_nic_hdl pnetdev;
++	char old_ifname[IFNAMSIZ];
++
++	/* used by rtw_rereg_nd_name related function */
++	struct rereg_nd_name_data {
++		_nic_hdl old_pnetdev;
++		char old_ifname[IFNAMSIZ];
++		u8 old_ips_mode;
++		u8 old_bRegUseLed;
++	} rereg_nd_name_priv;
++
++	u8 ndev_unregistering;
++	int bup;
++	struct net_device_stats stats;
++	struct iw_statistics iwstats;
++	struct proc_dir_entry *dir_dev;/* for proc directory */
++	struct proc_dir_entry *dir_odm;
++
++#ifdef CONFIG_MCC_MODE
++	struct proc_dir_entry *dir_mcc;
++#endif /* CONFIG_MCC_MODE */
++
++#ifdef CONFIG_IOCTL_CFG80211
++	struct wireless_dev *rtw_wdev;
++	struct rtw_wdev_priv wdev_data;
++
++#if !defined(RTW_SINGLE_WIPHY)
++	struct wiphy *wiphy;
++#endif
++
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	_nic_hdl pifp;
++	int bup;
++	_lock glock;
++#endif /* PLATFORM_FREEBSD */
++	u8 mac_addr[ETH_ALEN];
++	int net_closed;
++
++	u8 netif_up;
++
++	u8 bFWReady;
++	u8 bBTFWReady;
++	u8 bLinkInfoDump;
++	u8 bRxRSSIDisplay;
++	/*	Added by Albert 2012/10/26 */
++	/*	The driver will show up the desired channel number when this flag is 1. */
++	u8 bNotifyChannelChange;
++#ifdef CONFIG_P2P
++	/*	Added by Albert 2012/12/06 */
++	/*	The driver will show the current P2P status when the upper application reads it. */
++	u8 bShowGetP2PState;
++#endif
++#ifdef CONFIG_AUTOSUSPEND
++	u8	bDisableAutosuspend;
++#endif
++
++	u8 isprimary; /* is primary adapter or not */
++	/* notes:
++	**	if isprimary is true, the adapter_type value is 0, iface_id is IFACE_ID0 for PRIMARY_ADAPTER
++	**	if isprimary is false, the adapter_type value is 1, iface_id is IFACE_ID1 for VIRTUAL_ADAPTER
++	**	refer to iface_id if iface_nums>2 and isprimary is false and the adapter_type value is 0xff.*/
++	u8 adapter_type;/*be used in  Multi-interface to recognize whether is PRIMARY_ADAPTER  or not(PRIMARY_ADAPTER/VIRTUAL_ADAPTER) .*/
++	u8 hw_port; /*interface port type, it depends on HW port */
++
++
++	/*extend to support multi interface*/
++	/*IFACE_ID0 is equals to PRIMARY_ADAPTER
++	IFACE_ID1 is equals to VIRTUAL_ADAPTER*/
++	u8 iface_id;
++
++#ifdef CONFIG_BR_EXT
++	_lock					br_ext_lock;
++	/* unsigned int			macclone_completed; */
++	struct nat25_network_db_entry	*nethash[NAT25_HASH_SIZE];
++	int				pppoe_connection_in_progress;
++	unsigned char			pppoe_addr[MACADDRLEN];
++	unsigned char			scdb_mac[MACADDRLEN];
++	unsigned char			scdb_ip[4];
++	struct nat25_network_db_entry	*scdb_entry;
++	unsigned char			br_mac[MACADDRLEN];
++	unsigned char			br_ip[4];
++
++	struct br_ext_info		ethBrExtInfo;
++#endif /* CONFIG_BR_EXT */
++
++#ifdef CONFIG_INTEL_PROXIM
++	/* intel Proximity, should be alloc mem
++	 * in intel Proximity module and can only
++	 * be used in intel Proximity mode */
++	struct proxim proximity;
++#endif /* CONFIG_INTEL_PROXIM */
++
++#ifdef CONFIG_MAC_LOOPBACK_DRIVER
++	PLOOPBACKDATA ploopback;
++#endif
++
++	/* for debug purpose */
++	u8 fix_rate;
++	u8 fix_bw;
++	u8 data_fb; /* data rate fallback, valid only when fix_rate is not 0xff */
++
++	u8 driver_tx_bw_mode;
++
++	u8 driver_vcs_en; /* Enable=1, Disable=0 driver control vrtl_carrier_sense for tx */
++	u8 driver_vcs_type;/* force 0:disable VCS, 1:RTS-CTS, 2:CTS-to-self when vcs_en=1. */
++	u8 driver_ampdu_spacing;/* driver control AMPDU Density for peer sta's rx */
++	u8 driver_rx_ampdu_factor;/* 0xff: disable drv ctrl, 0:8k, 1:16k, 2:32k, 3:64k; */
++	u8 driver_rx_ampdu_spacing;  /* driver control Rx AMPDU Density */
++	u8 fix_rx_ampdu_accept;
++	u8 fix_rx_ampdu_size; /* 0~127, TODO:consider each sta and each TID */
++	unsigned char     in_cta_test;
++#ifdef DBG_RX_COUNTER_DUMP
++	u8 dump_rx_cnt_mode;/*BIT0:drv,BIT1:mac,BIT2:phy*/
++	u32 drv_rx_cnt_ok;
++	u32 drv_rx_cnt_crcerror;
++	u32 drv_rx_cnt_drop;
++#endif
++
++#ifdef CONFIG_DBG_COUNTER
++	struct rx_logs rx_logs;
++	struct tx_logs tx_logs;
++	struct int_logs int_logs;
++#endif
++
++#ifdef CONFIG_MCC_MODE
++	struct mcc_adapter_priv mcc_adapterpriv;
++#endif /* CONFIG_MCC_MODE */
++};
++
++#define adapter_to_dvobj(adapter) ((adapter)->dvobj)
++#define adapter_to_regsty(adapter) dvobj_to_regsty(adapter_to_dvobj((adapter)))
++#define adapter_to_pwrctl(adapter) dvobj_to_pwrctl(adapter_to_dvobj((adapter)))
++#define adapter_wdev_data(adapter) (&((adapter)->wdev_data))
++#if defined(RTW_SINGLE_WIPHY)
++	#define adapter_to_wiphy(adapter) dvobj_to_wiphy(adapter_to_dvobj(adapter))
++#else
++	#define adapter_to_wiphy(adapter) ((adapter)->wiphy)
++#endif
++
++#define adapter_to_rfctl(adapter) dvobj_to_rfctl(adapter_to_dvobj((adapter)))
++
++#define adapter_mac_addr(adapter) (adapter->mac_addr)
++
++#define mlme_to_adapter(mlme) container_of((mlme), struct _ADAPTER, mlmepriv)
++#define tdls_info_to_adapter(tdls) container_of((tdls), struct _ADAPTER, tdlsinfo)
++
++#define rtw_get_chip_type(adapter) (((PADAPTER)adapter)->dvobj->chip_type)
++#define rtw_get_hw_type(adapter) (((PADAPTER)adapter)->dvobj->HardwareType)
++#define rtw_get_intf_type(adapter) (((PADAPTER)adapter)->dvobj->interface_type)
++
++#define rtw_get_mi_nums(adapter) (((PADAPTER)adapter)->dvobj->iface_nums)
++
++static inline void rtw_set_surprise_removed(_adapter *padapter)
++{
++	ATOMIC_SET(&adapter_to_dvobj(padapter)->bSurpriseRemoved, _TRUE);
++}
++static inline void rtw_clr_surprise_removed(_adapter *padapter)
++{
++	ATOMIC_SET(&adapter_to_dvobj(padapter)->bSurpriseRemoved, _FALSE);
++}
++static inline void rtw_set_drv_stopped(_adapter *padapter)
++{
++	ATOMIC_SET(&adapter_to_dvobj(padapter)->bDriverStopped, _TRUE);
++}
++static inline void rtw_clr_drv_stopped(_adapter *padapter)
++{
++	ATOMIC_SET(&adapter_to_dvobj(padapter)->bDriverStopped, _FALSE);
++}
++#define rtw_is_surprise_removed(padapter)	(ATOMIC_READ(&adapter_to_dvobj(padapter)->bSurpriseRemoved) == _TRUE)
++#define rtw_is_drv_stopped(padapter)		(ATOMIC_READ(&adapter_to_dvobj(padapter)->bDriverStopped) == _TRUE)
++
++/*
++ * Function disabled.
++ *   */
++#define DF_TX_BIT		BIT0			/*write_port_cancel*/
++#define DF_RX_BIT		BIT1			/*read_port_cancel*/
++#define DF_IO_BIT		BIT2
++
++/* #define RTW_DISABLE_FUNC(padapter, func) (ATOMIC_ADD(&adapter_to_dvobj(padapter)->disable_func, (func))) */
++/* #define RTW_ENABLE_FUNC(padapter, func) (ATOMIC_SUB(&adapter_to_dvobj(padapter)->disable_func, (func))) */
++__inline static void RTW_DISABLE_FUNC(_adapter *padapter, int func_bit)
++{
++	int	df = ATOMIC_READ(&adapter_to_dvobj(padapter)->disable_func);
++	df |= func_bit;
++	ATOMIC_SET(&adapter_to_dvobj(padapter)->disable_func, df);
++}
++
++__inline static void RTW_ENABLE_FUNC(_adapter *padapter, int func_bit)
++{
++	int	df = ATOMIC_READ(&adapter_to_dvobj(padapter)->disable_func);
++	df &= ~(func_bit);
++	ATOMIC_SET(&adapter_to_dvobj(padapter)->disable_func, df);
++}
++
++#define RTW_CANNOT_RUN(padapter) \
++	(rtw_is_surprise_removed(padapter) || \
++	 rtw_is_drv_stopped(padapter))
++
++#define RTW_IS_FUNC_DISABLED(padapter, func_bit) (ATOMIC_READ(&adapter_to_dvobj(padapter)->disable_func) & (func_bit))
++
++#define RTW_CANNOT_IO(padapter) \
++	(rtw_is_surprise_removed(padapter) || \
++	 RTW_IS_FUNC_DISABLED((padapter), DF_IO_BIT))
++
++#define RTW_CANNOT_RX(padapter) \
++	(RTW_CANNOT_RUN(padapter) || \
++	 RTW_IS_FUNC_DISABLED((padapter), DF_RX_BIT))
++
++#define RTW_CANNOT_TX(padapter) \
++	(RTW_CANNOT_RUN(padapter) || \
++	 RTW_IS_FUNC_DISABLED((padapter), DF_TX_BIT))
++
++#ifdef CONFIG_PNO_SUPPORT
++int rtw_parse_ssid_list_tlv(char **list_str, pno_ssid_t *ssid, int max, int *bytes_left);
++int rtw_dev_pno_set(struct net_device *net, pno_ssid_t *ssid, int num,
++		    int pno_time, int pno_repeat, int pno_freq_expo_max);
++#ifdef CONFIG_PNO_SET_DEBUG
++	void rtw_dev_pno_debug(struct net_device *net);
++#endif /* CONFIG_PNO_SET_DEBUG */
++#endif /* CONFIG_PNO_SUPPORT */
++
++int rtw_suspend_free_assoc_resource(_adapter *padapter);
++#ifdef CONFIG_WOWLAN
++	int rtw_suspend_wow(_adapter *padapter);
++	int rtw_resume_process_wow(_adapter *padapter);
++#endif
++
++/* HCI Related header file */
++#ifdef CONFIG_USB_HCI
++	#include <usb_osintf.h>
++	#include <usb_ops.h>
++	#include <usb_hal.h>
++#endif
++
++#ifdef CONFIG_SDIO_HCI
++	#include <sdio_osintf.h>
++	#include <sdio_ops.h>
++	#include <sdio_hal.h>
++#endif
++
++#ifdef CONFIG_GSPI_HCI
++	#include <gspi_osintf.h>
++	#include <gspi_ops.h>
++	#include <gspi_hal.h>
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	#include <pci_osintf.h>
++	#include <pci_ops.h>
++	#include <pci_hal.h>
++#endif
++
++#endif /* __DRV_TYPES_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/drv_types_ce.h b/drivers/net/wireless/rtl8812au/include/drv_types_ce.h
+new file mode 100644
+index 0000000..fc26389
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/drv_types_ce.h
+@@ -0,0 +1,91 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __DRV_TYPES_CE_H__
++#define __DRV_TYPES_CE_H__
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++
++#include <Sdcardddk.h>
++
++#define MAX_ACTIVE_REG_PATH 256
++
++#define MAX_MCAST_LIST_NUM					32
++
++
++
++/* for ioctl */
++#define MAKE_DRIVER_VERSION(_MainVer, _MinorVer)	((((u32)(_MainVer))<<16)+_MinorVer)
++
++#define NIC_HEADER_SIZE				14			/* !< can be moved to typedef.h */
++#define NIC_MAX_PACKET_SIZE			1514		/* !< can be moved to typedef.h */
++#define NIC_MAX_SEND_PACKETS			10		/* max number of send packets the MiniportSendPackets function can accept, can be moved to typedef.h */
++#define NIC_VENDOR_DRIVER_VERSION       MAKE_DRIVER_VERSION(0, 001)	/* !< can be moved to typedef.h */
++#define NIC_MAX_PACKET_SIZE			1514		/* !< can be moved to typedef.h */
++
++typedef struct _MP_REG_ENTRY {
++
++	NDIS_STRING		RegName;	/* variable name text */
++	BOOLEAN			bRequired;	/* 1->required, 0->optional */
++
++	u8			Type;		/* NdisParameterInteger/NdisParameterHexInteger/NdisParameterStringle/NdisParameterMultiString */
++	uint			FieldOffset;	/* offset to MP_ADAPTER field */
++	uint			FieldSize;	/* size (in bytes) of the field */
++
++#ifdef UNDER_AMD64
++	u64			Default;
++#else
++	u32			Default;		/* default value to use */
++#endif
++
++	u32			Min;			/* minimum value allowed */
++	u32			Max;		/* maximum value allowed */
++} MP_REG_ENTRY, *PMP_REG_ENTRY;
++
++#ifdef CONFIG_USB_HCI
++typedef struct _USB_EXTENSION {
++	LPCUSB_FUNCS    _lpUsbFuncs;
++	USB_HANDLE	    _hDevice;
++	PVOID		    pAdapter;
++
++#if 0
++	USB_ENDPOINT_DESCRIPTOR		_endpACLIn;
++	USB_ENDPOINT_DESCRIPTOR		_endpACLOutHigh;
++	USB_ENDPOINT_DESCRIPTOR		_endpACLOutNormal;
++
++	USB_PIPE        pPipeIn;
++	USB_PIPE        pPipeOutNormal;
++	USB_PIPE        pPipeOutHigh;
++#endif
++
++} USB_EXTENSION, *PUSB_EXTENSION;
++#endif
++
++
++typedef struct _OCTET_STRING {
++	u8      *Octet;
++	u16      Length;
++} OCTET_STRING, *POCTET_STRING;
++
++
++
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/drv_types_gspi.h b/drivers/net/wireless/rtl8812au/include/drv_types_gspi.h
+new file mode 100644
+index 0000000..f0efc8c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/drv_types_gspi.h
+@@ -0,0 +1,54 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __DRV_TYPES_GSPI_H__
++#define __DRV_TYPES_GSPI_H__
++
++/* SPI Header Files */
++#ifdef PLATFORM_LINUX
++	#include <linux/platform_device.h>
++	#include <linux/spi/spi.h>
++	#include <linux/gpio.h>
++	/* #include <mach/ldo.h> */
++	#include <asm/mach-types.h>
++	#include <asm/gpio.h>
++	#include <asm/io.h>
++	#include <mach/board.h>
++	#include <mach/hardware.h>
++	#include <mach/irqs.h>
++	#include <custom_gpio.h>
++#endif
++
++
++typedef struct gspi_data {
++	u8  func_number;
++
++	u8  tx_block_mode;
++	u8  rx_block_mode;
++	u32 block_transfer_len;
++
++#ifdef PLATFORM_LINUX
++	struct spi_device *func;
++
++	struct workqueue_struct *priv_wq;
++	struct delayed_work irq_work;
++#endif
++} GSPI_DATA, *PGSPI_DATA;
++
++#endif /*  #ifndef __DRV_TYPES_GSPI_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/drv_types_linux.h b/drivers/net/wireless/rtl8812au/include/drv_types_linux.h
+new file mode 100644
+index 0000000..812b744
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/drv_types_linux.h
+@@ -0,0 +1,24 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __DRV_TYPES_LINUX_H__
++#define __DRV_TYPES_LINUX_H__
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/drv_types_pci.h b/drivers/net/wireless/rtl8812au/include/drv_types_pci.h
+new file mode 100644
+index 0000000..c03657f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/drv_types_pci.h
+@@ -0,0 +1,271 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __DRV_TYPES_PCI_H__
++#define __DRV_TYPES_PCI_H__
++
++
++#ifdef PLATFORM_LINUX
++	#include <linux/pci.h>
++#endif
++
++
++#define	INTEL_VENDOR_ID				0x8086
++#define	SIS_VENDOR_ID					0x1039
++#define	ATI_VENDOR_ID					0x1002
++#define	ATI_DEVICE_ID					0x7914
++#define	AMD_VENDOR_ID					0x1022
++
++#define	PCI_MAX_BRIDGE_NUMBER			255
++#define	PCI_MAX_DEVICES				32
++#define	PCI_MAX_FUNCTION				8
++
++#define	PCI_CONF_ADDRESS   				0x0CF8   /* PCI Configuration Space Address */
++#define	PCI_CONF_DATA					0x0CFC   /* PCI Configuration Space Data */
++
++#define	PCI_CLASS_BRIDGE_DEV			0x06
++#define	PCI_SUBCLASS_BR_PCI_TO_PCI	0x04
++
++#define	PCI_CAPABILITY_ID_PCI_EXPRESS	0x10
++
++#define	U1DONTCARE					0xFF
++#define	U2DONTCARE					0xFFFF
++#define	U4DONTCARE					0xFFFFFFFF
++
++#define PCI_VENDER_ID_REALTEK		0x10ec
++
++#define HAL_HW_PCI_8180_DEVICE_ID	0x8180
++#define HAL_HW_PCI_8185_DEVICE_ID           	0x8185	/* 8185 or 8185b */
++#define HAL_HW_PCI_8188_DEVICE_ID           	0x8188	/* 8185b		 */
++#define HAL_HW_PCI_8198_DEVICE_ID           	0x8198	/* 8185b		 */
++#define HAL_HW_PCI_8190_DEVICE_ID           	0x8190	/* 8190 */
++#define HAL_HW_PCI_8723E_DEVICE_ID		0x8723	/* 8723E */
++#define HAL_HW_PCI_8192_DEVICE_ID           	0x8192	/* 8192 PCI-E */
++#define HAL_HW_PCI_8192SE_DEVICE_ID		0x8192	/* 8192 SE */
++#define HAL_HW_PCI_8174_DEVICE_ID           	0x8174	/* 8192 SE */
++#define HAL_HW_PCI_8173_DEVICE_ID           	0x8173	/* 8191 SE Crab */
++#define HAL_HW_PCI_8172_DEVICE_ID           	0x8172	/* 8191 SE RE */
++#define HAL_HW_PCI_8171_DEVICE_ID           	0x8171	/* 8191 SE Unicron */
++#define HAL_HW_PCI_0045_DEVICE_ID			0x0045	/* 8190 PCI for Ceraga */
++#define HAL_HW_PCI_0046_DEVICE_ID			0x0046	/* 8190 Cardbus for Ceraga */
++#define HAL_HW_PCI_0044_DEVICE_ID			0x0044	/* 8192e PCIE for Ceraga */
++#define HAL_HW_PCI_0047_DEVICE_ID			0x0047	/* 8192e Express Card for Ceraga */
++#define HAL_HW_PCI_700F_DEVICE_ID			0x700F
++#define HAL_HW_PCI_701F_DEVICE_ID			0x701F
++#define HAL_HW_PCI_DLINK_DEVICE_ID		0x3304
++#define HAL_HW_PCI_8188EE_DEVICE_ID		0x8179
++
++#define HAL_MEMORY_MAPPED_IO_RANGE_8190PCI 		0x1000     /* 8190 support 16 pages of IO registers */
++#define HAL_HW_PCI_REVISION_ID_8190PCI			0x00
++#define HAL_MEMORY_MAPPED_IO_RANGE_8192PCIE	0x4000	/* 8192 support 16 pages of IO registers */
++#define HAL_HW_PCI_REVISION_ID_8192PCIE			0x01
++#define HAL_MEMORY_MAPPED_IO_RANGE_8192SE		0x4000	/* 8192 support 16 pages of IO registers */
++#define HAL_HW_PCI_REVISION_ID_8192SE			0x10
++#define HAL_HW_PCI_REVISION_ID_8192CE			0x1
++#define HAL_MEMORY_MAPPED_IO_RANGE_8192CE		0x4000	/* 8192 support 16 pages of IO registers */
++#define HAL_HW_PCI_REVISION_ID_8192DE			0x0
++#define HAL_MEMORY_MAPPED_IO_RANGE_8192DE		0x4000	/* 8192 support 16 pages of IO registers */
++
++enum pci_bridge_vendor {
++	PCI_BRIDGE_VENDOR_INTEL = 0x0,/* 0b'0000,0001 */
++	PCI_BRIDGE_VENDOR_ATI, /* = 0x02, */ /* 0b'0000,0010 */
++	PCI_BRIDGE_VENDOR_AMD, /* = 0x04, */ /* 0b'0000,0100 */
++	PCI_BRIDGE_VENDOR_SIS ,/* = 0x08, */ /* 0b'0000,1000 */
++	PCI_BRIDGE_VENDOR_UNKNOWN, /* = 0x40, */ /* 0b'0100,0000 */
++	PCI_BRIDGE_VENDOR_MAX ,/* = 0x80 */
++} ;
++
++/* copy this data structor defination from MSDN SDK */
++typedef struct _PCI_COMMON_CONFIG {
++	u16	VendorID;
++	u16	DeviceID;
++	u16	Command;
++	u16	Status;
++	u8	RevisionID;
++	u8	ProgIf;
++	u8	SubClass;
++	u8	BaseClass;
++	u8	CacheLineSize;
++	u8	LatencyTimer;
++	u8	HeaderType;
++	u8	BIST;
++
++	union {
++		struct _PCI_HEADER_TYPE_0 {
++			u32	BaseAddresses[6];
++			u32	CIS;
++			u16	SubVendorID;
++			u16	SubSystemID;
++			u32	ROMBaseAddress;
++			u8	CapabilitiesPtr;
++			u8	Reserved1[3];
++			u32	Reserved2;
++
++			u8	InterruptLine;
++			u8	InterruptPin;
++			u8	MinimumGrant;
++			u8	MaximumLatency;
++		} type0;
++#if 0
++		struct _PCI_HEADER_TYPE_1 {
++			ULONG BaseAddresses[PCI_TYPE1_ADDRESSES];
++			UCHAR PrimaryBusNumber;
++			UCHAR SecondaryBusNumber;
++			UCHAR SubordinateBusNumber;
++			UCHAR SecondaryLatencyTimer;
++			UCHAR IOBase;
++			UCHAR IOLimit;
++			USHORT SecondaryStatus;
++			USHORT MemoryBase;
++			USHORT MemoryLimit;
++			USHORT PrefetchableMemoryBase;
++			USHORT PrefetchableMemoryLimit;
++			ULONG PrefetchableMemoryBaseUpper32;
++			ULONG PrefetchableMemoryLimitUpper32;
++			USHORT IOBaseUpper;
++			USHORT IOLimitUpper;
++			ULONG Reserved2;
++			ULONG ExpansionROMBase;
++			UCHAR InterruptLine;
++			UCHAR InterruptPin;
++			USHORT BridgeControl;
++		} type1;
++
++		struct _PCI_HEADER_TYPE_2 {
++			ULONG BaseAddress;
++			UCHAR CapabilitiesPtr;
++			UCHAR Reserved2;
++			USHORT SecondaryStatus;
++			UCHAR PrimaryBusNumber;
++			UCHAR CardbusBusNumber;
++			UCHAR SubordinateBusNumber;
++			UCHAR CardbusLatencyTimer;
++			ULONG MemoryBase0;
++			ULONG MemoryLimit0;
++			ULONG MemoryBase1;
++			ULONG MemoryLimit1;
++			USHORT IOBase0_LO;
++			USHORT IOBase0_HI;
++			USHORT IOLimit0_LO;
++			USHORT IOLimit0_HI;
++			USHORT IOBase1_LO;
++			USHORT IOBase1_HI;
++			USHORT IOLimit1_LO;
++			USHORT IOLimit1_HI;
++			UCHAR InterruptLine;
++			UCHAR InterruptPin;
++			USHORT BridgeControl;
++			USHORT SubVendorID;
++			USHORT SubSystemID;
++			ULONG LegacyBaseAddress;
++			UCHAR Reserved3[56];
++			ULONG SystemControl;
++			UCHAR MultiMediaControl;
++			UCHAR GeneralStatus;
++			UCHAR Reserved4[2];
++			UCHAR GPIO0Control;
++			UCHAR GPIO1Control;
++			UCHAR GPIO2Control;
++			UCHAR GPIO3Control;
++			ULONG IRQMuxRouting;
++			UCHAR RetryStatus;
++			UCHAR CardControl;
++			UCHAR DeviceControl;
++			UCHAR Diagnostic;
++		} type2;
++#endif
++	} u;
++
++	u8	DeviceSpecific[108];
++} PCI_COMMON_CONFIG , *PPCI_COMMON_CONFIG;
++
++typedef struct _RT_PCI_CAPABILITIES_HEADER {
++	u8   CapabilityID;
++	u8   Next;
++} RT_PCI_CAPABILITIES_HEADER, *PRT_PCI_CAPABILITIES_HEADER;
++
++struct pci_priv {
++	BOOLEAN		pci_clk_req;
++
++	u8	pciehdr_offset;
++	/* PCIeCap is only differece between B-cut and C-cut. */
++	/* Configuration Space offset 72[7:4] */
++	/* 0: A/B cut */
++	/* 1: C cut and later. */
++	u8	pcie_cap;
++	u8	linkctrl_reg;
++
++	u8	busnumber;
++	u8	devnumber;
++	u8	funcnumber;
++
++	u8	pcibridge_busnum;
++	u8	pcibridge_devnum;
++	u8	pcibridge_funcnum;
++	u8	pcibridge_vendor;
++	u16	pcibridge_vendorid;
++	u16	pcibridge_deviceid;
++	u8	pcibridge_pciehdr_offset;
++	u8	pcibridge_linkctrlreg;
++
++	u8	amd_l1_patch;
++};
++
++typedef struct _RT_ISR_CONTENT {
++	union {
++		u32			IntArray[2];
++		u32			IntReg4Byte;
++		u16			IntReg2Byte;
++	};
++} RT_ISR_CONTENT, *PRT_ISR_CONTENT;
++
++/* #define RegAddr(addr)           (addr + 0xB2000000UL) */
++/* some platform macros will def here */
++static inline void NdisRawWritePortUlong(u32 port,  u32 val)
++{
++	outl(val, port);
++	/* writel(val, (u8 *)RegAddr(port));	 */
++}
++
++static inline void NdisRawWritePortUchar(u32 port,  u8 val)
++{
++	outb(val, port);
++	/* writeb(val, (u8 *)RegAddr(port)); */
++}
++
++static inline void NdisRawReadPortUchar(u32 port, u8 *pval)
++{
++	*pval = inb(port);
++	/* *pval = readb((u8 *)RegAddr(port)); */
++}
++
++static inline void NdisRawReadPortUshort(u32 port, u16 *pval)
++{
++	*pval = inw(port);
++	/* *pval = readw((u8 *)RegAddr(port)); */
++}
++
++static inline void NdisRawReadPortUlong(u32 port, u32 *pval)
++{
++	*pval = inl(port);
++	/* *pval = readl((u8 *)RegAddr(port)); */
++}
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/drv_types_sdio.h b/drivers/net/wireless/rtl8812au/include/drv_types_sdio.h
+new file mode 100644
+index 0000000..736ae06
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/drv_types_sdio.h
+@@ -0,0 +1,91 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __DRV_TYPES_SDIO_H__
++#define __DRV_TYPES_SDIO_H__
++
++/* SDIO Header Files */
++#ifdef PLATFORM_LINUX
++	#include <linux/mmc/sdio_func.h>
++	#include <linux/mmc/sdio_ids.h>
++
++	#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN) || defined(CONFIG_PLATFORM_SPRD)
++		#include <linux/mmc/host.h>
++		#include <linux/mmc/card.h>
++	#endif
++
++	#ifdef CONFIG_PLATFORM_SPRD
++		#include <linux/gpio.h>
++		#include <custom_gpio.h>
++	#endif /* CONFIG_PLATFORM_SPRD */
++#endif
++
++#ifdef PLATFORM_OS_XP
++	#include <wdm.h>
++	#include <ntddsd.h>
++#endif
++
++#ifdef PLATFORM_OS_CE
++	#include <sdcardddk.h>
++#endif
++
++
++typedef struct sdio_data {
++	u8  func_number;
++
++	u8  tx_block_mode;
++	u8  rx_block_mode;
++	u32 block_transfer_len;
++
++#ifdef PLATFORM_LINUX
++	struct sdio_func	*func;
++	_thread_hdl_ sys_sdio_irq_thd;
++#endif
++
++#ifdef PLATFORM_OS_XP
++	PDEVICE_OBJECT				pphysdevobj;
++	PDEVICE_OBJECT				pfuncdevobj;
++	PDEVICE_OBJECT				pnextdevobj;
++	SDBUS_INTERFACE_STANDARD	sdbusinft;
++	u8							nextdevstacksz;
++#endif
++
++#ifdef PLATFORM_OS_CE
++	SD_DEVICE_HANDLE			hDevice;
++	SD_CARD_RCA					sd_rca;
++	SD_CARD_INTERFACE			card_intf;
++	BOOLEAN						enableIsarWithStatus;
++	WCHAR						active_path[MAX_ACTIVE_REG_PATH];
++	SD_HOST_BLOCK_CAPABILITY	sd_host_blk_cap;
++#endif
++} SDIO_DATA, *PSDIO_DATA;
++
++#define dvobj_to_sdio_func(d)	((d)->intf_data.func)
++
++#define RTW_SDIO_ADDR_CMD52_BIT		(1<<17)
++#define RTW_SDIO_ADDR_CMD52_GEN(a)	(a | RTW_SDIO_ADDR_CMD52_BIT)
++#define RTW_SDIO_ADDR_CMD52_CLR(a)	(a&~RTW_SDIO_ADDR_CMD52_BIT)
++#define RTW_SDIO_ADDR_CMD52_CHK(a)	(a&RTW_SDIO_ADDR_CMD52_BIT ? 1 : 0)
++
++#define RTW_SDIO_ADDR_F0_BIT		(1<<18)
++#define RTW_SDIO_ADDR_F0_GEN(a)		(a | RTW_SDIO_ADDR_F0_BIT)
++#define RTW_SDIO_ADDR_F0_CLR(a)		(a&~RTW_SDIO_ADDR_F0_BIT)
++#define RTW_SDIO_ADDR_F0_CHK(a)		(a&RTW_SDIO_ADDR_F0_BIT ? 1 : 0)
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/drv_types_xp.h b/drivers/net/wireless/rtl8812au/include/drv_types_xp.h
+new file mode 100644
+index 0000000..93766be
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/drv_types_xp.h
+@@ -0,0 +1,93 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __DRV_TYPES_XP_H__
++#define __DRV_TYPES_XP_H__
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++
++
++
++#define MAX_MCAST_LIST_NUM					32
++
++
++
++/* for ioctl */
++#define MAKE_DRIVER_VERSION(_MainVer, _MinorVer)	((((u32)(_MainVer))<<16)+_MinorVer)
++
++#define NIC_HEADER_SIZE				14			/* !< can be moved to typedef.h */
++#define NIC_MAX_PACKET_SIZE			1514		/* !< can be moved to typedef.h */
++#define NIC_MAX_SEND_PACKETS			10		/* max number of send packets the MiniportSendPackets function can accept, can be moved to typedef.h */
++#define NIC_VENDOR_DRIVER_VERSION       MAKE_DRIVER_VERSION(0, 001)	/* !< can be moved to typedef.h */
++#define NIC_MAX_PACKET_SIZE			1514		/* !< can be moved to typedef.h */
++
++
++#undef ON_VISTA
++/* added by Jackson */
++#ifndef ON_VISTA
++	/*
++	* Bus driver versions
++	*   */
++
++	#define SDBUS_DRIVER_VERSION_1          0x100
++	#define SDBUS_DRIVER_VERSION_2          0x200
++
++	#define    SDP_FUNCTION_TYPE	4
++	#define    SDP_BUS_DRIVER_VERSION 5
++	#define    SDP_BUS_WIDTH 6
++	#define    SDP_BUS_CLOCK 7
++	#define    SDP_BUS_INTERFACE_CONTROL 8
++	#define    SDP_HOST_BLOCK_LENGTH 9
++	#define    SDP_FUNCTION_BLOCK_LENGTH 10
++	#define    SDP_FN0_BLOCK_LENGTH 11
++	#define    SDP_FUNCTION_INT_ENABLE 12
++#endif
++
++
++typedef struct _MP_REG_ENTRY {
++
++	NDIS_STRING		RegName;	/* variable name text */
++	BOOLEAN			bRequired;	/* 1->required, 0->optional */
++
++	u8			Type;		/* NdisParameterInteger/NdisParameterHexInteger/NdisParameterStringle/NdisParameterMultiString */
++	uint			FieldOffset;	/* offset to MP_ADAPTER field */
++	uint			FieldSize;	/* size (in bytes) of the field */
++
++#ifdef UNDER_AMD64
++	u64			Default;
++#else
++	u32			Default;		/* default value to use */
++#endif
++
++	u32			Min;			/* minimum value allowed */
++	u32			Max;		/* maximum value allowed */
++} MP_REG_ENTRY, *PMP_REG_ENTRY;
++
++
++typedef struct _OCTET_STRING {
++	u8      *Octet;
++	u16      Length;
++} OCTET_STRING, *POCTET_STRING;
++
++
++
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/ethernet.h b/drivers/net/wireless/rtl8812au/include/ethernet.h
+new file mode 100644
+index 0000000..e127605
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/ethernet.h
+@@ -0,0 +1,41 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*! \file */
++#ifndef __INC_ETHERNET_H
++#define __INC_ETHERNET_H
++
++#define ETHERNET_ADDRESS_LENGTH				6		/* !< Ethernet Address Length */
++#define ETHERNET_HEADER_SIZE				14		/* !< Ethernet Header Length */
++#define LLC_HEADER_SIZE						6		/* !< LLC Header Length */
++#define TYPE_LENGTH_FIELD_SIZE				2		/* !< Type/Length Size */
++#define MINIMUM_ETHERNET_PACKET_SIZE		60		/* !< Minimum Ethernet Packet Size */
++#define MAXIMUM_ETHERNET_PACKET_SIZE		1514	/* !< Maximum Ethernet Packet Size */
++
++#define RT_ETH_IS_MULTICAST(_pAddr)	((((UCHAR *)(_pAddr))[0]&0x01) != 0)		/* !< Is Multicast Address? */
++#define RT_ETH_IS_BROADCAST(_pAddr)	(\
++		((UCHAR *)(_pAddr))[0] == 0xff	&&		\
++		((UCHAR *)(_pAddr))[1] == 0xff	&&		\
++		((UCHAR *)(_pAddr))[2] == 0xff	&&		\
++		((UCHAR *)(_pAddr))[3] == 0xff	&&		\
++		((UCHAR *)(_pAddr))[4] == 0xff	&&		\
++		((UCHAR *)(_pAddr))[5] == 0xff)	/* !< Is Broadcast Address? */
++
++
++#endif /*  #ifndef __INC_ETHERNET_H */
+diff --git a/drivers/net/wireless/rtl8812au/include/gspi_hal.h b/drivers/net/wireless/rtl8812au/include/gspi_hal.h
+new file mode 100644
+index 0000000..98fec09
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/gspi_hal.h
+@@ -0,0 +1,35 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __GSPI_HAL_H__
++#define __GSPI_HAL_H__
++
++
++void spi_int_dpc(PADAPTER padapter, u32 sdio_hisr);
++u8 rtw_set_hal_ops(_adapter *padapter);
++
++#ifdef CONFIG_RTL8188E
++	void rtl8188es_set_hal_ops(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_RTL8723B
++	void rtl8723bs_set_hal_ops(PADAPTER padapter);
++#endif
++
++#endif /* __GSPI_HAL_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/gspi_ops.h b/drivers/net/wireless/rtl8812au/include/gspi_ops.h
+new file mode 100644
+index 0000000..7a8cb63
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/gspi_ops.h
+@@ -0,0 +1,185 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __GSPI_OPS_H__
++#define __GSPI_OPS_H__
++
++/* follwing defination is based on
++ * GSPI spec of RTL8723, we temp
++ * suppose that it will be the same
++ * for diff chips of GSPI, if not
++ * we should move it to HAL folder */
++#define SPI_LOCAL_DOMAIN				0x0
++#define WLAN_IOREG_DOMAIN			0x8
++#define FW_FIFO_DOMAIN				0x4
++#define TX_HIQ_DOMAIN					0xc
++#define TX_MIQ_DOMAIN					0xd
++#define TX_LOQ_DOMAIN					0xe
++#define RX_RXFIFO_DOMAIN				0x1f
++
++/* IO Bus domain address mapping */
++#define DEFUALT_OFFSET					0x0
++#define SPI_LOCAL_OFFSET				0x10250000
++#define WLAN_IOREG_OFFSET			0x10260000
++#define FW_FIFO_OFFSET				0x10270000
++#define TX_HIQ_OFFSET					0x10310000
++#define TX_MIQ_OFFSET					0x1032000
++#define TX_LOQ_OFFSET					0x10330000
++#define RX_RXOFF_OFFSET				0x10340000
++
++/* SPI Local registers */
++#define SPI_REG_TX_CTRL					0x0000 /* SPI Tx Control */
++#define SPI_REG_STATUS_RECOVERY		0x0004
++#define SPI_REG_INT_TIMEOUT			0x0006
++#define SPI_REG_HIMR					0x0014 /* SPI Host Interrupt Mask */
++#define SPI_REG_HISR					0x0018 /* SPI Host Interrupt Service Routine */
++#define SPI_REG_RX0_REQ_LEN			0x001C /* RXDMA Request Length */
++#define SPI_REG_FREE_TXPG				0x0020 /* Free Tx Buffer Page */
++#define SPI_REG_HCPWM1					0x0024 /* HCI Current Power Mode 1 */
++#define SPI_REG_HCPWM2					0x0026 /* HCI Current Power Mode 2 */
++#define SPI_REG_HTSFR_INFO				0x0030 /* HTSF Informaion */
++#define SPI_REG_HRPWM1					0x0080 /* HCI Request Power Mode 1 */
++#define SPI_REG_HRPWM2					0x0082 /* HCI Request Power Mode 2 */
++#define SPI_REG_HPS_CLKR				0x0084 /* HCI Power Save Clock */
++#define SPI_REG_HSUS_CTRL				0x0086 /* SPI HCI Suspend Control */
++#define SPI_REG_HIMR_ON				0x0090 /* SPI Host Extension Interrupt Mask Always */
++#define SPI_REG_HISR_ON				0x0091 /* SPI Host Extension Interrupt Status Always */
++#define SPI_REG_CFG						0x00F0 /* SPI Configuration Register */
++
++#define SPI_TX_CTRL				(SPI_REG_TX_CTRL | SPI_LOCAL_OFFSET)
++#define SPI_STATUS_RECOVERY			(SPI_REG_STATUS_RECOVERY | SPI_LOCAL_OFFSET)
++#define SPI_INT_TIMEOUT					(SPI_REG_INT_TIMEOUT | SPI_LOCAL_OFFSET)
++#define SPI_HIMR				(SPI_REG_HIMR | SPI_LOCAL_OFFSET)
++#define SPI_HISR				(SPI_REG_HISR | SPI_LOCAL_OFFSET)
++#define SPI_RX0_REQ_LEN_1_BYTE		(SPI_REG_RX0_REQ_LEN | SPI_LOCAL_OFFSET)
++#define SPI_FREE_TXPG			(SPI_REG_FREE_TXPG | SPI_LOCAL_OFFSET)
++
++#define	SPI_HIMR_DISABLED				0
++
++/* SPI HIMR MASK diff with SDIO */
++#define SPI_HISR_RX_REQUEST			BIT(0)
++#define SPI_HISR_AVAL					BIT(1)
++#define SPI_HISR_TXERR					BIT(2)
++#define SPI_HISR_RXERR					BIT(3)
++#define SPI_HISR_TXFOVW				BIT(4)
++#define SPI_HISR_RXFOVW				BIT(5)
++#define SPI_HISR_TXBCNOK				BIT(6)
++#define SPI_HISR_TXBCNERR				BIT(7)
++#define SPI_HISR_BCNERLY_INT			BIT(16)
++#define SPI_HISR_ATIMEND				BIT(17)
++#define SPI_HISR_ATIMEND_E				BIT(18)
++#define SPI_HISR_CTWEND				BIT(19)
++#define SPI_HISR_C2HCMD				BIT(20)
++#define SPI_HISR_CPWM1					BIT(21)
++#define SPI_HISR_CPWM2					BIT(22)
++#define SPI_HISR_HSISR_IND				BIT(23)
++#define SPI_HISR_GTINT3_IND				BIT(24)
++#define SPI_HISR_GTINT4_IND				BIT(25)
++#define SPI_HISR_PSTIMEOUT				BIT(26)
++#define SPI_HISR_OCPINT					BIT(27)
++#define SPI_HISR_TSF_BIT32_TOGGLE		BIT(29)
++
++#define MASK_SPI_HISR_CLEAR		(SPI_HISR_TXERR |\
++		SPI_HISR_RXERR |\
++		SPI_HISR_TXFOVW |\
++		SPI_HISR_RXFOVW |\
++		SPI_HISR_TXBCNOK |\
++		SPI_HISR_TXBCNERR |\
++		SPI_HISR_C2HCMD |\
++		SPI_HISR_CPWM1 |\
++		SPI_HISR_CPWM2 |\
++		SPI_HISR_HSISR_IND |\
++		SPI_HISR_GTINT3_IND |\
++		SPI_HISR_GTINT4_IND |\
++		SPI_HISR_PSTIMEOUT |\
++		SPI_HISR_OCPINT)
++
++#define REG_LEN_FORMAT(pcmd, x) 			SET_BITS_TO_LE_4BYTE(pcmd, 0, 8, x)/* (x<<(unsigned int)24) */
++#define REG_ADDR_FORMAT(pcmd, x) 			SET_BITS_TO_LE_4BYTE(pcmd, 8, 16, x)/* (x<<(unsigned int)16) */
++#define REG_DOMAIN_ID_FORMAT(pcmd, x) 		SET_BITS_TO_LE_4BYTE(pcmd, 24, 5, x)/* (x<<(unsigned int)0) */
++#define REG_FUN_FORMAT(pcmd, x) 			SET_BITS_TO_LE_4BYTE(pcmd, 29, 2, x)/* (x<<(unsigned int)5) */
++#define REG_RW_FORMAT(pcmd, x) 				SET_BITS_TO_LE_4BYTE(pcmd, 31, 1, x)/* (x<<(unsigned int)7) */
++
++#define FIFO_LEN_FORMAT(pcmd, x) 			SET_BITS_TO_LE_4BYTE(pcmd, 0, 16, x)/* (x<<(unsigned int)24)
++ * #define FIFO_ADDR_FORMAT(pcmd,x) 			SET_BITS_TO_LE_4BYTE(pcmd, 8, 16, x) */ /* (x<<(unsigned int)16) */
++#define FIFO_DOMAIN_ID_FORMAT(pcmd, x) 	SET_BITS_TO_LE_4BYTE(pcmd, 24, 5, x)/* (x<<(unsigned int)0) */
++#define FIFO_FUN_FORMAT(pcmd, x) 			SET_BITS_TO_LE_4BYTE(pcmd, 29, 2, x)/* (x<<(unsigned int)5) */
++#define FIFO_RW_FORMAT(pcmd, x) 			SET_BITS_TO_LE_4BYTE(pcmd, 31, 1, x)/* (x<<(unsigned int)7) */
++
++
++/* get status dword0 */
++#define GET_STATUS_PUB_PAGE_NUM(status)		LE_BITS_TO_4BYTE(status, 24, 8)
++#define GET_STATUS_HI_PAGE_NUM(status)		LE_BITS_TO_4BYTE(status, 18, 6)
++#define GET_STATUS_MID_PAGE_NUM(status)		LE_BITS_TO_4BYTE(status, 12, 6)
++#define GET_STATUS_LOW_PAGE_NUM(status)		LE_BITS_TO_4BYTE(status, 6, 6)
++#define GET_STATUS_HISR_HI6BIT(status)			LE_BITS_TO_4BYTE(status, 0, 6)
++
++/* get status dword1 */
++#define GET_STATUS_HISR_MID8BIT(status)		LE_BITS_TO_4BYTE(status + 4, 24, 8)
++#define GET_STATUS_HISR_LOW8BIT(status)		LE_BITS_TO_4BYTE(status + 4, 16, 8)
++#define GET_STATUS_ERROR(status)				LE_BITS_TO_4BYTE(status + 4, 17, 1)
++#define GET_STATUS_INT(status)				LE_BITS_TO_4BYTE(status + 4, 16, 1)
++#define GET_STATUS_RX_LENGTH(status)			LE_BITS_TO_4BYTE(status + 4, 0, 16)
++
++
++#define RXDESC_SIZE	24
++
++
++struct spi_more_data {
++	unsigned long more_data;
++	unsigned long len;
++};
++
++#ifdef CONFIG_RTL8188E
++	void rtl8188es_set_hal_ops(PADAPTER padapter);
++	#define set_hal_ops rtl8188es_set_hal_ops
++#endif
++extern void spi_set_chip_endian(PADAPTER padapter);
++extern unsigned int spi_write8_endian(ADAPTER *Adapter, unsigned int addr, unsigned int buf, u32 big);
++extern void spi_set_intf_ops(_adapter *padapter, struct _io_ops *pops);
++extern void spi_set_chip_endian(PADAPTER padapter);
++extern void InitInterrupt8723ASdio(PADAPTER padapter);
++extern void InitSysInterrupt8723ASdio(PADAPTER padapter);
++extern void EnableInterrupt8723ASdio(PADAPTER padapter);
++extern void DisableInterrupt8723ASdio(PADAPTER padapter);
++extern void spi_int_hdl(PADAPTER padapter);
++extern u8 HalQueryTxBufferStatus8723ASdio(PADAPTER padapter);
++#ifdef CONFIG_RTL8723B
++	extern void InitInterrupt8723BSdio(PADAPTER padapter);
++	extern void InitSysInterrupt8723BSdio(PADAPTER padapter);
++	extern void EnableInterrupt8723BSdio(PADAPTER padapter);
++	extern void DisableInterrupt8723BSdio(PADAPTER padapter);
++	extern u8 HalQueryTxBufferStatus8723BSdio(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_RTL8188E
++	extern void InitInterrupt8188EGspi(PADAPTER padapter);
++	extern void EnableInterrupt8188EGspi(PADAPTER padapter);
++	extern void DisableInterrupt8188EGspi(PADAPTER padapter);
++	extern void UpdateInterruptMask8188EGspi(PADAPTER padapter, u32 AddMSR, u32 RemoveMSR);
++	extern u8 HalQueryTxBufferStatus8189EGspi(PADAPTER padapter);
++	extern u8 HalQueryTxOQTBufferStatus8189EGspi(PADAPTER padapter);
++	extern void ClearInterrupt8188EGspi(PADAPTER padapter);
++	extern u8 CheckIPSStatus(PADAPTER padapter);
++#endif /* CONFIG_RTL8188E */
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	extern u8 RecvOnePkt(PADAPTER padapter);
++#endif /* CONFIG_WOWLAN */
++
++#endif /* __GSPI_OPS_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/gspi_ops_linux.h b/drivers/net/wireless/rtl8812au/include/gspi_ops_linux.h
+new file mode 100644
+index 0000000..9bd18da
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/gspi_ops_linux.h
+@@ -0,0 +1,23 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __SDIO_OPS_LINUX_H__
++#define __SDIO_OPS_LINUX_H__
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/gspi_osintf.h b/drivers/net/wireless/rtl8812au/include/gspi_osintf.h
+new file mode 100644
+index 0000000..e51d2e4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/gspi_osintf.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __SDIO_OSINTF_H__
++#define __SDIO_OSINTF_H__
++
++
++#ifdef PLATFORM_OS_CE
++	extern NDIS_STATUS ce_sd_get_dev_hdl(PADAPTER padapter);
++	SD_API_STATUS ce_sd_int_callback(SD_DEVICE_HANDLE hDevice, PADAPTER padapter);
++	extern void sd_setup_irs(PADAPTER padapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/h2clbk.h b/drivers/net/wireless/rtl8812au/include/h2clbk.h
+new file mode 100644
+index 0000000..e7f0df5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/h2clbk.h
+@@ -0,0 +1,31 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#define _H2CLBK_H_
++
++
++void _lbk_cmd(PADAPTER Adapter);
++
++void _lbk_rsp(PADAPTER Adapter);
++
++void _lbk_evt(IN PADAPTER Adapter);
++
++void h2c_event_callback(unsigned char *dev, unsigned char *pbuf);
+diff --git a/drivers/net/wireless/rtl8812au/include/hal_btcoex.h b/drivers/net/wireless/rtl8812au/include/hal_btcoex.h
+new file mode 100644
+index 0000000..6090301
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/hal_btcoex.h
+@@ -0,0 +1,94 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_BTCOEX_H__
++#define __HAL_BTCOEX_H__
++
++#include <drv_types.h>
++
++/* Some variables can't get from outsrc BT-Coex,
++ * so we need to save here */
++typedef struct _BT_COEXIST {
++	u8 bBtExist;
++	u8 btTotalAntNum;
++	u8 btChipType;
++	u8 bInitlized;
++	u8 btAntisolation;
++} BT_COEXIST, *PBT_COEXIST;
++
++void DBG_BT_INFO(u8 *dbgmsg);
++
++void hal_btcoex_SetBTCoexist(PADAPTER padapter, u8 bBtExist);
++u8 hal_btcoex_IsBtExist(PADAPTER padapter);
++u8 hal_btcoex_IsBtDisabled(PADAPTER);
++void hal_btcoex_SetChipType(PADAPTER padapter, u8 chipType);
++void hal_btcoex_SetPgAntNum(PADAPTER padapter, u8 antNum);
++
++u8 hal_btcoex_Initialize(PADAPTER padapter);
++void hal_btcoex_PowerOnSetting(PADAPTER padapter);
++void hal_btcoex_PreLoadFirmware(PADAPTER padapter);
++void hal_btcoex_InitHwConfig(PADAPTER padapter, u8 bWifiOnly);
++
++void hal_btcoex_IpsNotify(PADAPTER padapter, u8 type);
++void hal_btcoex_LpsNotify(PADAPTER padapter, u8 type);
++void hal_btcoex_ScanNotify(PADAPTER padapter, u8 type);
++void hal_btcoex_ConnectNotify(PADAPTER padapter, u8 action);
++void hal_btcoex_MediaStatusNotify(PADAPTER padapter, u8 mediaStatus);
++void hal_btcoex_SpecialPacketNotify(PADAPTER padapter, u8 pktType);
++void hal_btcoex_IQKNotify(PADAPTER padapter, u8 state);
++void hal_btcoex_BtInfoNotify(PADAPTER padapter, u8 length, u8 *tmpBuf);
++void hal_btcoex_BtMpRptNotify(PADAPTER padapter, u8 length, u8 *tmpBuf);
++void hal_btcoex_SuspendNotify(PADAPTER padapter, u8 state);
++void hal_btcoex_HaltNotify(PADAPTER padapter);
++void hal_btcoex_ScoreBoardStatusNotify(PADAPTER padapter, u8 length, u8 *tmpBuf);
++void hal_btcoex_SwitchBtTRxMask(PADAPTER padapter);
++
++void hal_btcoex_Hanlder(PADAPTER padapter);
++
++s32 hal_btcoex_IsBTCoexRejectAMPDU(PADAPTER padapter);
++s32 hal_btcoex_IsBTCoexCtrlAMPDUSize(PADAPTER padapter);
++u32 hal_btcoex_GetAMPDUSize(PADAPTER padapter);
++void hal_btcoex_SetManualControl(PADAPTER padapter, u8 bmanual);
++u8 hal_btcoex_1Ant(PADAPTER padapter);
++u8 hal_btcoex_IsBtControlLps(PADAPTER);
++u8 hal_btcoex_IsLpsOn(PADAPTER);
++u8 hal_btcoex_RpwmVal(PADAPTER);
++u8 hal_btcoex_LpsVal(PADAPTER);
++u32 hal_btcoex_GetRaMask(PADAPTER);
++void hal_btcoex_RecordPwrMode(PADAPTER padapter, u8 *pCmdBuf, u8 cmdLen);
++void hal_btcoex_DisplayBtCoexInfo(PADAPTER, u8 *pbuf, u32 bufsize);
++void hal_btcoex_SetDBG(PADAPTER, u32 *pDbgModule);
++u32 hal_btcoex_GetDBG(PADAPTER, u8 *pStrBuf, u32 bufSize);
++u8 hal_btcoex_IncreaseScanDeviceNum(PADAPTER);
++u8 hal_btcoex_IsBtLinkExist(PADAPTER);
++void hal_btcoex_SetBtPatchVersion(PADAPTER, u16 btHciVer, u16 btPatchVer);
++void hal_btcoex_SetHciVersion(PADAPTER, u16 hciVersion);
++void hal_btcoex_SendScanNotify(PADAPTER, u8 type);
++void hal_btcoex_StackUpdateProfileInfo(void);
++void hal_btcoex_pta_off_on_notify(PADAPTER padapter, u8 bBTON);
++void hal_btcoex_SetAntIsolationType(PADAPTER padapter, u8 anttype);
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	int hal_btcoex_AntIsolationConfig_ParaFile(IN PADAPTER	Adapter, IN char *pFileName);
++	int hal_btcoex_ParseAntIsolationConfigFile(PADAPTER Adapter, char	*buffer);
++#endif /* CONFIG_LOAD_PHY_PARA_FROM_FILE */
++u16 hal_btcoex_btreg_read(PADAPTER padapter, u8 type, u16 addr, u32 *data);
++u16 hal_btcoex_btreg_write(PADAPTER padapter, u8 type, u16 addr, u16 val);
++void hal_btcoex_set_rfe_type(u8 type);
++void hal_btcoex_switchband_notify(u8 under_scan, u8 band_type);
++#endif /* !__HAL_BTCOEX_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/hal_com.h b/drivers/net/wireless/rtl8812au/include/hal_com.h
+new file mode 100644
+index 0000000..f4e1363
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/hal_com.h
+@@ -0,0 +1,660 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_COMMON_H__
++#define __HAL_COMMON_H__
++
++#include "HalVerDef.h"
++#include "hal_pg.h"
++#include "hal_phy.h"
++#include "hal_phy_reg.h"
++#include "hal_com_reg.h"
++#include "hal_com_phycfg.h"
++#include "../hal/hal_com_c2h.h"
++
++/*------------------------------ Tx Desc definition Macro ------------------------*/
++/* #pragma mark -- Tx Desc related definition. -- */
++/* ----------------------------------------------------------------------------
++ * -----------------------------------------------------------
++ *	Rate
++ * -----------------------------------------------------------
++ * CCK Rates, TxHT = 0 */
++#define DESC_RATE1M					0x00
++#define DESC_RATE2M					0x01
++#define DESC_RATE5_5M				0x02
++#define DESC_RATE11M				0x03
++
++/* OFDM Rates, TxHT = 0 */
++#define DESC_RATE6M					0x04
++#define DESC_RATE9M					0x05
++#define DESC_RATE12M				0x06
++#define DESC_RATE18M				0x07
++#define DESC_RATE24M				0x08
++#define DESC_RATE36M				0x09
++#define DESC_RATE48M				0x0a
++#define DESC_RATE54M				0x0b
++
++/* MCS Rates, TxHT = 1 */
++#define DESC_RATEMCS0				0x0c
++#define DESC_RATEMCS1				0x0d
++#define DESC_RATEMCS2				0x0e
++#define DESC_RATEMCS3				0x0f
++#define DESC_RATEMCS4				0x10
++#define DESC_RATEMCS5				0x11
++#define DESC_RATEMCS6				0x12
++#define DESC_RATEMCS7				0x13
++#define DESC_RATEMCS8				0x14
++#define DESC_RATEMCS9				0x15
++#define DESC_RATEMCS10				0x16
++#define DESC_RATEMCS11				0x17
++#define DESC_RATEMCS12				0x18
++#define DESC_RATEMCS13				0x19
++#define DESC_RATEMCS14				0x1a
++#define DESC_RATEMCS15				0x1b
++#define DESC_RATEMCS16				0x1C
++#define DESC_RATEMCS17				0x1D
++#define DESC_RATEMCS18				0x1E
++#define DESC_RATEMCS19				0x1F
++#define DESC_RATEMCS20				0x20
++#define DESC_RATEMCS21				0x21
++#define DESC_RATEMCS22				0x22
++#define DESC_RATEMCS23				0x23
++#define DESC_RATEMCS24				0x24
++#define DESC_RATEMCS25				0x25
++#define DESC_RATEMCS26				0x26
++#define DESC_RATEMCS27				0x27
++#define DESC_RATEMCS28				0x28
++#define DESC_RATEMCS29				0x29
++#define DESC_RATEMCS30				0x2A
++#define DESC_RATEMCS31				0x2B
++#define DESC_RATEVHTSS1MCS0		0x2C
++#define DESC_RATEVHTSS1MCS1		0x2D
++#define DESC_RATEVHTSS1MCS2		0x2E
++#define DESC_RATEVHTSS1MCS3		0x2F
++#define DESC_RATEVHTSS1MCS4		0x30
++#define DESC_RATEVHTSS1MCS5		0x31
++#define DESC_RATEVHTSS1MCS6		0x32
++#define DESC_RATEVHTSS1MCS7		0x33
++#define DESC_RATEVHTSS1MCS8		0x34
++#define DESC_RATEVHTSS1MCS9		0x35
++#define DESC_RATEVHTSS2MCS0		0x36
++#define DESC_RATEVHTSS2MCS1		0x37
++#define DESC_RATEVHTSS2MCS2		0x38
++#define DESC_RATEVHTSS2MCS3		0x39
++#define DESC_RATEVHTSS2MCS4		0x3A
++#define DESC_RATEVHTSS2MCS5		0x3B
++#define DESC_RATEVHTSS2MCS6		0x3C
++#define DESC_RATEVHTSS2MCS7		0x3D
++#define DESC_RATEVHTSS2MCS8		0x3E
++#define DESC_RATEVHTSS2MCS9		0x3F
++#define DESC_RATEVHTSS3MCS0		0x40
++#define DESC_RATEVHTSS3MCS1		0x41
++#define DESC_RATEVHTSS3MCS2		0x42
++#define DESC_RATEVHTSS3MCS3		0x43
++#define DESC_RATEVHTSS3MCS4		0x44
++#define DESC_RATEVHTSS3MCS5		0x45
++#define DESC_RATEVHTSS3MCS6		0x46
++#define DESC_RATEVHTSS3MCS7		0x47
++#define DESC_RATEVHTSS3MCS8		0x48
++#define DESC_RATEVHTSS3MCS9		0x49
++#define DESC_RATEVHTSS4MCS0		0x4A
++#define DESC_RATEVHTSS4MCS1		0x4B
++#define DESC_RATEVHTSS4MCS2		0x4C
++#define DESC_RATEVHTSS4MCS3		0x4D
++#define DESC_RATEVHTSS4MCS4		0x4E
++#define DESC_RATEVHTSS4MCS5		0x4F
++#define DESC_RATEVHTSS4MCS6		0x50
++#define DESC_RATEVHTSS4MCS7		0x51
++#define DESC_RATEVHTSS4MCS8		0x52
++#define DESC_RATEVHTSS4MCS9		0x53
++
++#define HDATA_RATE(rate)\
++	(rate == DESC_RATE1M) ? "CCK_1M" :\
++	(rate == DESC_RATE2M) ? "CCK_2M" :\
++	(rate == DESC_RATE5_5M) ? "CCK5_5M" :\
++	(rate == DESC_RATE11M) ? "CCK_11M" :\
++	(rate == DESC_RATE6M) ? "OFDM_6M" :\
++	(rate == DESC_RATE9M) ? "OFDM_9M" :\
++	(rate == DESC_RATE12M) ? "OFDM_12M" :\
++	(rate == DESC_RATE18M) ? "OFDM_18M" :\
++	(rate == DESC_RATE24M) ? "OFDM_24M" :\
++	(rate == DESC_RATE36M) ? "OFDM_36M" :\
++	(rate == DESC_RATE48M) ? "OFDM_48M" :\
++	(rate == DESC_RATE54M) ? "OFDM_54M" :\
++	(rate == DESC_RATEMCS0) ? "MCS0" :\
++	(rate == DESC_RATEMCS1) ? "MCS1" :\
++	(rate == DESC_RATEMCS2) ? "MCS2" :\
++	(rate == DESC_RATEMCS3) ? "MCS3" :\
++	(rate == DESC_RATEMCS4) ? "MCS4" :\
++	(rate == DESC_RATEMCS5) ? "MCS5" :\
++	(rate == DESC_RATEMCS6) ? "MCS6" :\
++	(rate == DESC_RATEMCS7) ? "MCS7" :\
++	(rate == DESC_RATEMCS8) ? "MCS8" :\
++	(rate == DESC_RATEMCS9) ? "MCS9" :\
++	(rate == DESC_RATEMCS10) ? "MCS10" :\
++	(rate == DESC_RATEMCS11) ? "MCS11" :\
++	(rate == DESC_RATEMCS12) ? "MCS12" :\
++	(rate == DESC_RATEMCS13) ? "MCS13" :\
++	(rate == DESC_RATEMCS14) ? "MCS14" :\
++	(rate == DESC_RATEMCS15) ? "MCS15" :\
++	(rate == DESC_RATEMCS16) ? "MCS16" :\
++	(rate == DESC_RATEMCS17) ? "MCS17" :\
++	(rate == DESC_RATEMCS18) ? "MCS18" :\
++	(rate == DESC_RATEMCS19) ? "MCS19" :\
++	(rate == DESC_RATEMCS20) ? "MCS20" :\
++	(rate == DESC_RATEMCS21) ? "MCS21" :\
++	(rate == DESC_RATEMCS22) ? "MCS22" :\
++	(rate == DESC_RATEMCS23) ? "MCS23" :\
++	(rate == DESC_RATEVHTSS1MCS0) ? "VHTSS1MCS0" :\
++	(rate == DESC_RATEVHTSS1MCS1) ? "VHTSS1MCS1" :\
++	(rate == DESC_RATEVHTSS1MCS2) ? "VHTSS1MCS2" :\
++	(rate == DESC_RATEVHTSS1MCS3) ? "VHTSS1MCS3" :\
++	(rate == DESC_RATEVHTSS1MCS4) ? "VHTSS1MCS4" :\
++	(rate == DESC_RATEVHTSS1MCS5) ? "VHTSS1MCS5" :\
++	(rate == DESC_RATEVHTSS1MCS6) ? "VHTSS1MCS6" :\
++	(rate == DESC_RATEVHTSS1MCS7) ? "VHTSS1MCS7" :\
++	(rate == DESC_RATEVHTSS1MCS8) ? "VHTSS1MCS8" :\
++	(rate == DESC_RATEVHTSS1MCS9) ? "VHTSS1MCS9" :\
++	(rate == DESC_RATEVHTSS2MCS0) ? "VHTSS2MCS0" :\
++	(rate == DESC_RATEVHTSS2MCS1) ? "VHTSS2MCS1" :\
++	(rate == DESC_RATEVHTSS2MCS2) ? "VHTSS2MCS2" :\
++	(rate == DESC_RATEVHTSS2MCS3) ? "VHTSS2MCS3" :\
++	(rate == DESC_RATEVHTSS2MCS4) ? "VHTSS2MCS4" :\
++	(rate == DESC_RATEVHTSS2MCS5) ? "VHTSS2MCS5" :\
++	(rate == DESC_RATEVHTSS2MCS6) ? "VHTSS2MCS6" :\
++	(rate == DESC_RATEVHTSS2MCS7) ? "VHTSS2MCS7" :\
++	(rate == DESC_RATEVHTSS2MCS8) ? "VHTSS2MCS8" :\
++	(rate == DESC_RATEVHTSS2MCS9) ? "VHTSS2MCS9" :\
++	(rate == DESC_RATEVHTSS3MCS0) ? "VHTSS3MCS0" :\
++	(rate == DESC_RATEVHTSS3MCS1) ? "VHTSS3MCS1" :\
++	(rate == DESC_RATEVHTSS3MCS2) ? "VHTSS3MCS2" :\
++	(rate == DESC_RATEVHTSS3MCS3) ? "VHTSS3MCS3" :\
++	(rate == DESC_RATEVHTSS3MCS4) ? "VHTSS3MCS4" :\
++	(rate == DESC_RATEVHTSS3MCS5) ? "VHTSS3MCS5" :\
++	(rate == DESC_RATEVHTSS3MCS6) ? "VHTSS3MCS6" :\
++	(rate == DESC_RATEVHTSS3MCS7) ? "VHTSS3MCS7" :\
++	(rate == DESC_RATEVHTSS3MCS8) ? "VHTSS3MCS8" :\
++	(rate == DESC_RATEVHTSS3MCS9) ? "VHTSS3MCS9" : "UNKNOWN"
++
++#define HDATA_BW(bw)\
++	(bw == CHANNEL_WIDTH_20) ? "20M" :\
++	(bw == CHANNEL_WIDTH_40) ? "40M" :\
++	(bw == CHANNEL_WIDTH_80) ? "80M" :\
++	(bw == CHANNEL_WIDTH_160) ? "160M" : "UNKNOWN"
++
++enum {
++	UP_LINK,
++	DOWN_LINK,
++};
++typedef enum _RT_MEDIA_STATUS {
++	RT_MEDIA_DISCONNECT = 0,
++	RT_MEDIA_CONNECT       = 1
++} RT_MEDIA_STATUS;
++
++#define MAX_DLFW_PAGE_SIZE			4096	/* @ page : 4k bytes */
++typedef enum _FIRMWARE_SOURCE {
++	FW_SOURCE_IMG_FILE = 0,
++	FW_SOURCE_HEADER_FILE = 1,		/* from header file */
++} FIRMWARE_SOURCE, *PFIRMWARE_SOURCE;
++
++typedef enum _CH_SW_USE_CASE {
++	CH_SW_USE_CASE_TDLS		= 0,
++	CH_SW_USE_CASE_MCC		= 1
++} CH_SW_USE_CASE;
++
++typedef enum _WAKEUP_REASON{
++	RX_PAIRWISEKEY					= 0x01,
++	RX_GTK							= 0x02,
++	RX_FOURWAY_HANDSHAKE			= 0x03,
++	RX_DISASSOC						= 0x04,
++	RX_DEAUTH						= 0x08,
++	RX_ARP_REQUEST					= 0x09,
++	FW_DECISION_DISCONNECT			= 0x10,
++	RX_MAGIC_PKT					= 0x21,
++	RX_UNICAST_PKT					= 0x22,
++	RX_PATTERN_PKT					= 0x23,
++	RTD3_SSID_MATCH					= 0x24,
++	RX_REALWOW_V2_WAKEUP_PKT		= 0x30,
++	RX_REALWOW_V2_ACK_LOST			= 0x31,
++	ENABLE_FAIL_DMA_IDLE			= 0x40,
++	ENABLE_FAIL_DMA_PAUSE			= 0x41,
++	RTIME_FAIL_DMA_IDLE				= 0x42,
++	RTIME_FAIL_DMA_PAUSE			= 0x43,
++	RX_PNO							= 0x55,
++	AP_OFFLOAD_WAKEUP				= 0x66,
++	CLK_32K_UNLOCK					= 0xFD,
++	CLK_32K_LOCK					= 0xFE
++}WAKEUP_REASON;
++
++/*
++ * Queue Select Value in TxDesc
++ *   */
++#define QSLT_BK							0x2/* 0x01 */
++#define QSLT_BE							0x0
++#define QSLT_VI							0x5/* 0x4 */
++#define QSLT_VO							0x7/* 0x6 */
++#define QSLT_BEACON						0x10
++#define QSLT_HIGH						0x11
++#define QSLT_MGNT						0x12
++#define QSLT_CMD						0x13
++
++/* BK, BE, VI, VO, HCCA, MANAGEMENT, COMMAND, HIGH, BEACON.
++ * #define MAX_TX_QUEUE		9 */
++
++#define TX_SELE_HQ			BIT(0)		/* High Queue */
++#define TX_SELE_LQ			BIT(1)		/* Low Queue */
++#define TX_SELE_NQ			BIT(2)		/* Normal Queue */
++#define TX_SELE_EQ			BIT(3)		/* Extern Queue */
++
++#define PageNum_128(_Len)		(u32)(((_Len)>>7) + ((_Len) & 0x7F ? 1 : 0))
++#define PageNum_256(_Len)		(u32)(((_Len)>>8) + ((_Len) & 0xFF ? 1 : 0))
++#define PageNum_512(_Len)		(u32)(((_Len)>>9) + ((_Len) & 0x1FF ? 1 : 0))
++#define PageNum(_Len, _Size)		(u32)(((_Len)/(_Size)) + ((_Len)&((_Size) - 1) ? 1 : 0))
++
++struct dbg_rx_counter {
++	u32	rx_pkt_ok;
++	u32	rx_pkt_crc_error;
++	u32	rx_pkt_drop;
++	u32	rx_ofdm_fa;
++	u32	rx_cck_fa;
++	u32	rx_ht_fa;
++};
++
++#ifdef CONFIG_MBSSID_CAM
++	#define DBG_MBID_CAM_DUMP
++
++	void rtw_mbid_cam_init(struct dvobj_priv *dvobj);
++	void rtw_mbid_cam_deinit(struct dvobj_priv *dvobj);
++	void rtw_mbid_cam_reset(_adapter *adapter);
++	u8 rtw_get_max_mbid_cam_id(_adapter *adapter);
++	u8 rtw_get_mbid_cam_entry_num(_adapter *adapter);
++	int rtw_mbid_cam_cache_dump(void *sel, const char *fun_name , _adapter *adapter);
++	int rtw_mbid_cam_dump(void *sel, const char *fun_name, _adapter *adapter);
++	void rtw_mbid_cam_restore(_adapter *adapter);
++#endif
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++	void rtw_hal_set_macaddr_mbid(_adapter *adapter, u8 *mac_addr);
++	void rtw_hal_change_macaddr_mbid(_adapter *adapter, u8 *mac_addr);
++#endif
++
++void rtw_dump_mac_rx_counters(_adapter *padapter, struct dbg_rx_counter *rx_counter);
++void rtw_dump_phy_rx_counters(_adapter *padapter, struct dbg_rx_counter *rx_counter);
++void rtw_reset_mac_rx_counters(_adapter *padapter);
++void rtw_reset_phy_rx_counters(_adapter *padapter);
++void rtw_reset_phy_trx_ok_counters(_adapter *padapter);
++
++#ifdef DBG_RX_COUNTER_DUMP
++	#define DUMP_DRV_RX_COUNTER	BIT0
++	#define DUMP_MAC_RX_COUNTER	BIT1
++	#define DUMP_PHY_RX_COUNTER	BIT2
++	#define DUMP_DRV_TRX_COUNTER_DATA	BIT3
++
++	void rtw_dump_phy_rxcnts_preprocess(_adapter *padapter, u8 rx_cnt_mode);
++	void rtw_dump_rx_counters(_adapter *padapter);
++#endif
++
++void dump_chip_info(HAL_VERSION	ChipVersion);
++void rtw_hal_config_rftype(PADAPTER  padapter);
++
++#define BAND_CAP_2G			BIT0
++#define BAND_CAP_5G			BIT1
++#define BAND_CAP_BIT_NUM	2
++
++#define BW_CAP_5M		BIT0
++#define BW_CAP_10M		BIT1
++#define BW_CAP_20M		BIT2
++#define BW_CAP_40M		BIT3
++#define BW_CAP_80M		BIT4
++#define BW_CAP_160M		BIT5
++#define BW_CAP_80_80M	BIT6
++#define BW_CAP_BIT_NUM	7
++
++#define PROTO_CAP_11B		BIT0
++#define PROTO_CAP_11G		BIT1
++#define PROTO_CAP_11N		BIT2
++#define PROTO_CAP_11AC		BIT3
++#define PROTO_CAP_BIT_NUM	4
++
++#define WL_FUNC_P2P			BIT0
++#define WL_FUNC_MIRACAST	BIT1
++#define WL_FUNC_TDLS		BIT2
++#define WL_FUNC_FTM			BIT3
++#define WL_FUNC_BIT_NUM		4
++
++int hal_spec_init(_adapter *adapter);
++void dump_hal_spec(void *sel, _adapter *adapter);
++
++bool hal_chk_band_cap(_adapter *adapter, u8 cap);
++bool hal_chk_bw_cap(_adapter *adapter, u8 cap);
++bool hal_chk_proto_cap(_adapter *adapter, u8 cap);
++bool hal_is_band_support(_adapter *adapter, u8 band);
++bool hal_is_bw_support(_adapter *adapter, u8 bw);
++bool hal_is_wireless_mode_support(_adapter *adapter, u8 mode);
++u8 hal_largest_bw(_adapter *adapter, u8 in_bw);
++
++bool hal_chk_wl_func(_adapter *adapter, u8 func);
++
++u8 hal_com_config_channel_plan(
++	IN	PADAPTER padapter,
++	IN	char *hw_alpha2,
++	IN	u8 hw_chplan,
++	IN	char *sw_alpha2,
++	IN	u8 sw_chplan,
++	IN	u8 def_chplan,
++	IN	BOOLEAN AutoLoadFail
++);
++
++int hal_config_macaddr(_adapter *adapter, bool autoload_fail);
++
++BOOLEAN
++HAL_IsLegalChannel(
++	IN	PADAPTER	Adapter,
++	IN	u32			Channel
++);
++
++u8	MRateToHwRate(u8 rate);
++
++u8	HwRateToMRate(u8 rate);
++
++void	HalSetBrateCfg(
++	IN PADAPTER		Adapter,
++	IN u8			*mBratesOS,
++	OUT u16			*pBrateCfg);
++
++BOOLEAN
++Hal_MappingOutPipe(
++	IN	PADAPTER	pAdapter,
++	IN	u8		NumOutPipe
++);
++
++
++void rtw_restore_mac_addr(_adapter *adapter);/*set mac addr when hal_init for all iface*/
++void rtw_hal_dump_macaddr(void *sel, _adapter *adapter);
++
++void rtw_init_hal_com_default_value(PADAPTER Adapter);
++
++void c2h_evt_clear(_adapter *adapter);
++s32 c2h_evt_read(_adapter *adapter, u8 *buf);
++s32 c2h_evt_read_88xx(_adapter *adapter, u8 *buf);
++
++u8  rtw_hal_networktype_to_raid(_adapter *adapter, struct sta_info *psta);
++u8 rtw_get_mgntframe_raid(_adapter *adapter, unsigned char network_type);
++void rtw_hal_update_sta_rate_mask(PADAPTER padapter, struct sta_info *psta);
++
++/* access HW only */
++u32 rtw_sec_read_cam(_adapter *adapter, u8 addr);
++void rtw_sec_write_cam(_adapter *adapter, u8 addr, u32 wdata);
++void rtw_sec_read_cam_ent(_adapter *adapter, u8 id, u8 *ctrl, u8 *mac, u8 *key);
++void rtw_sec_write_cam_ent(_adapter *adapter, u8 id, u16 ctrl, u8 *mac, u8 *key);
++void rtw_sec_clr_cam_ent(_adapter *adapter, u8 id);
++bool rtw_sec_read_cam_is_gk(_adapter *adapter, u8 id);
++
++void rtw_hal_set_msr(_adapter *adapter, u8 net_type);
++void rtw_hal_set_macaddr_port(_adapter *adapter, u8 *val);
++void rtw_hal_get_macaddr_port(_adapter *adapter, u8 *mac_addr);
++
++void rtw_hal_set_bssid(_adapter *adapter, u8 *val);
++
++void hw_var_port_switch(_adapter *adapter);
++
++void SetHwReg(PADAPTER padapter, u8 variable, u8 *val);
++void GetHwReg(PADAPTER padapter, u8 variable, u8 *val);
++void rtw_hal_check_rxfifo_full(_adapter *adapter);
++
++u8 SetHalDefVar(_adapter *adapter, HAL_DEF_VARIABLE variable, void *value);
++u8 GetHalDefVar(_adapter *adapter, HAL_DEF_VARIABLE variable, void *value);
++
++BOOLEAN
++eqNByte(
++	u8	*str1,
++	u8	*str2,
++	u32	num
++);
++
++u32
++MapCharToHexDigit(
++	IN	char	chTmp
++);
++
++BOOLEAN
++GetHexValueFromString(
++	IN		char			*szStr,
++	IN OUT	u32			*pu4bVal,
++	IN OUT	u32			*pu4bMove
++);
++
++BOOLEAN
++GetFractionValueFromString(
++	IN		char		*szStr,
++	IN OUT	u8			*pInteger,
++	IN OUT	u8			*pFraction,
++	IN OUT	u32		*pu4bMove
++);
++
++BOOLEAN
++IsCommentString(
++	IN		char		*szStr
++);
++
++BOOLEAN
++ParseQualifiedString(
++	IN	char *In,
++	IN OUT  u32 *Start,
++	OUT	char *Out,
++	IN	char  LeftQualifier,
++	IN	char  RightQualifier
++);
++
++BOOLEAN
++GetU1ByteIntegerFromStringInDecimal(
++	IN		char *Str,
++	IN OUT	u8 *pInt
++);
++
++BOOLEAN
++isAllSpaceOrTab(
++	u8	*data,
++	u8	size
++);
++
++void linked_info_dump(_adapter *padapter, u8 benable);
++#ifdef DBG_RX_SIGNAL_DISPLAY_RAW_DATA
++	void rtw_get_raw_rssi_info(void *sel, _adapter *padapter);
++	void rtw_dump_raw_rssi_info(_adapter *padapter, void *sel);
++#endif
++
++#ifdef DBG_RX_DFRAME_RAW_DATA
++	void rtw_dump_rx_dframe_info(_adapter *padapter, void *sel);
++#endif
++void rtw_store_phy_info(_adapter *padapter, union recv_frame *prframe);
++#define		HWSET_MAX_SIZE			1024
++#ifdef CONFIG_EFUSE_CONFIG_FILE
++	#define		EFUSE_FILE_COLUMN_NUM		16
++	u32 Hal_readPGDataFromConfigFile(PADAPTER padapter);
++	u32 Hal_ReadMACAddrFromFile(PADAPTER padapter, u8 *mac_addr);
++#endif /* CONFIG_EFUSE_CONFIG_FILE */
++
++int check_phy_efuse_tx_power_info_valid(PADAPTER padapter);
++int hal_efuse_macaddr_offset(_adapter *adapter);
++int Hal_GetPhyEfuseMACAddr(PADAPTER padapter, u8 *mac_addr);
++void rtw_dump_cur_efuse(PADAPTER padapter);
++
++#ifdef CONFIG_RF_POWER_TRIM
++	void rtw_bb_rf_gain_offset(_adapter *padapter);
++#endif /*CONFIG_RF_POWER_TRIM*/
++
++void dm_DynamicUsbTxAgg(_adapter *padapter, u8 from_timer);
++u8 rtw_hal_busagg_qsel_check(_adapter *padapter, u8 pre_qsel, u8 next_qsel);
++void GetHalODMVar(
++	PADAPTER				Adapter,
++	HAL_ODM_VARIABLE		eVariable,
++	PVOID					pValue1,
++	PVOID					pValue2);
++void SetHalODMVar(
++	PADAPTER				Adapter,
++	HAL_ODM_VARIABLE		eVariable,
++	PVOID					pValue1,
++	BOOLEAN					bSet);
++
++#ifdef CONFIG_BACKGROUND_NOISE_MONITOR
++struct noise_info {
++	u8		bPauseDIG;
++	u8		IGIValue;
++	u32 	max_time;/* ms	 */
++	u8		chan;
++};
++#endif
++
++void rtw_get_noise(_adapter *padapter);
++u8 rtw_get_current_tx_rate(_adapter *padapter, u8 macid);
++u8 rtw_get_current_tx_sgi(_adapter *padapter, u8 macid);
++void rtw_hal_construct_NullFunctionData(PADAPTER, u8 *pframe, u32 *pLength, u8 *StaAddr, u8 bQoS, u8 AC, u8 bEosp, u8 bForcePowerSave);
++
++void rtw_hal_set_fw_rsvd_page(_adapter *adapter, bool finished);
++
++#ifdef CONFIG_TDLS
++	#ifdef CONFIG_TDLS_CH_SW
++		s32 rtw_hal_ch_sw_oper_offload(_adapter *padapter, u8 channel, u8 channel_offset, u16 bwmode);
++	#endif
++#endif
++
++#ifdef CONFIG_GPIO_API
++	u8 rtw_hal_get_gpio(_adapter *adapter, u8 gpio_num);
++	int rtw_hal_set_gpio_output_value(_adapter *adapter, u8 gpio_num, bool isHigh);
++	int rtw_hal_config_gpio(_adapter *adapter, u8 gpio_num, bool isOutput);
++	int rtw_hal_register_gpio_interrupt(_adapter *adapter, int gpio_num, void(*callback)(u8 level));
++	int rtw_hal_disable_gpio_interrupt(_adapter *adapter, int gpio_num);
++#endif
++
++s8 rtw_hal_ch_sw_iqk_info_search(_adapter *padapter, u8 central_chnl, u8 bw_mode);
++void rtw_hal_ch_sw_iqk_info_backup(_adapter *adapter);
++void rtw_hal_ch_sw_iqk_info_restore(_adapter *padapter, u8 ch_sw_use_case);
++
++#ifdef CONFIG_GPIO_WAKEUP
++	void rtw_hal_switch_gpio_wl_ctrl(_adapter *padapter, u8 index, u8 enable);
++	void rtw_hal_set_output_gpio(_adapter *padapter, u8 index, u8 outputval);
++#endif
++
++typedef enum _HAL_PHYDM_OPS {
++	HAL_PHYDM_DIS_ALL_FUNC,
++	HAL_PHYDM_FUNC_SET,
++	HAL_PHYDM_FUNC_CLR,
++	HAL_PHYDM_ABILITY_BK,
++	HAL_PHYDM_ABILITY_RESTORE,
++	HAL_PHYDM_ABILITY_SET,
++	HAL_PHYDM_ABILITY_GET,
++} HAL_PHYDM_OPS;
++
++
++#define DYNAMIC_FUNC_DISABLE		(0x0)
++u32 rtw_phydm_ability_ops(_adapter *adapter, HAL_PHYDM_OPS ops, u32 ability);
++
++#define rtw_phydm_func_disable_all(adapter)	\
++	rtw_phydm_ability_ops(adapter, HAL_PHYDM_DIS_ALL_FUNC, 0)
++
++#define rtw_phydm_func_for_offchannel(adapter) \
++	do { \
++		rtw_phydm_ability_ops(adapter, HAL_PHYDM_DIS_ALL_FUNC, 0); \
++		if (rtw_odm_adaptivity_needed(adapter)) \
++			rtw_phydm_ability_ops(adapter, HAL_PHYDM_FUNC_SET, ODM_BB_ADAPTIVITY); \
++	} while (0)
++
++#define rtw_phydm_func_set(adapter, ability)	\
++	rtw_phydm_ability_ops(adapter, HAL_PHYDM_FUNC_SET, ability)
++
++#define rtw_phydm_func_clr(adapter, ability)	\
++	rtw_phydm_ability_ops(adapter, HAL_PHYDM_FUNC_CLR, ability)
++
++#define rtw_phydm_ability_backup(adapter)	\
++	rtw_phydm_ability_ops(adapter, HAL_PHYDM_ABILITY_BK, 0)
++
++#define rtw_phydm_ability_restore(adapter)	\
++	rtw_phydm_ability_ops(adapter, HAL_PHYDM_ABILITY_RESTORE, 0)
++
++#define rtw_phydm_ability_set(adapter, ability)	\
++	rtw_phydm_ability_ops(adapter, HAL_PHYDM_ABILITY_SET, ability)
++
++static inline u32 rtw_phydm_ability_get(_adapter *adapter)
++{
++	return rtw_phydm_ability_ops(adapter, HAL_PHYDM_ABILITY_GET, 0);
++}
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	extern char *rtw_phy_file_path;
++	extern char rtw_phy_para_file_path[PATH_LENGTH_MAX];
++	#define GetLineFromBuffer(buffer)   strsep(&buffer, "\r\n")
++#endif
++
++#ifdef CONFIG_FW_C2H_DEBUG
++	void Debug_FwC2H(PADAPTER padapter, u8 *pdata, u8 len);
++#endif
++/*CONFIG_FW_C2H_DEBUG*/
++
++void update_IOT_info(_adapter *padapter);
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	void rtw_acs_start(_adapter *padapter, bool bStart);
++#endif
++
++void hal_set_crystal_cap(_adapter *adapter, u8 crystal_cap);
++void rtw_hal_correct_tsf(_adapter *padapter, u8 hw_port, u64 tsf);
++
++void ResumeTxBeacon(_adapter *padapter);
++void StopTxBeacon(_adapter *padapter);
++#ifdef CONFIG_MI_WITH_MBSSID_CAM /*HW port0 - MBSS*/
++	void hw_var_set_opmode_mbid(_adapter *Adapter, u8 mode);
++	u8 rtw_mbid_camid_alloc(_adapter *adapter, u8 *mac_addr);
++#endif
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	u8	rtw_hal_antdiv_before_linked(_adapter *padapter);
++	void	rtw_hal_antdiv_rssi_compared(_adapter *padapter, WLAN_BSSID_EX *dst, WLAN_BSSID_EX *src);
++#endif
++
++#ifdef DBG_SEC_CAM_MOVE
++	void rtw_hal_move_sta_gk_to_dk(_adapter *adapter);
++	void rtw_hal_read_sta_dk_key(_adapter *adapter, u8 key_id);
++#endif
++
++#ifdef CONFIG_LPS_PG
++	u8 rtw_hal_set_lps_pg_info(_adapter *adapter);
++#endif
++
++#ifdef CONFIG_SUPPORT_FIFO_DUMP
++int rtw_hal_get_rsvd_page(_adapter *adapter, u32 page_offset, u32 page_num, u8 *buffer, u32 buffer_size);
++#endif
++
++#ifdef CONFIG_WOWLAN
++struct rtl_wow_pattern {
++	u16	crc;
++	u8	type;
++	u32	mask[4];
++};
++void rtw_wow_pattern_cam_dump(_adapter *adapter);
++
++#ifdef CONFIG_WOW_PATTERN_HW_CAM
++void rtw_wow_pattern_read_cam_ent(_adapter *adapter, u8 id, struct  rtl_wow_pattern *context);
++void rtw_dump_wow_pattern(void *sel, struct rtl_wow_pattern *pwow_pattern, u8 idx);
++#endif
++#endif
++#ifdef CONFIG_PHY_CAPABILITY_QUERY
++void rtw_dump_phy_cap(void *sel, _adapter *adapter);
++#endif
++#endif /* __HAL_COMMON_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/hal_com_h2c.h b/drivers/net/wireless/rtl8812au/include/hal_com_h2c.h
+new file mode 100644
+index 0000000..f8c3c9f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/hal_com_h2c.h
+@@ -0,0 +1,483 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __COMMON_H2C_H__
++#define __COMMON_H2C_H__
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD DEFINITION    ------------------------------------------------
++ * ---------------------------------------------------------------------------------------------------------
++ * 88e, 8723b, 8812, 8821, 92e use the same FW code base */
++enum h2c_cmd {
++	/* Common Class: 000 */
++	H2C_RSVD_PAGE = 0x00,
++	H2C_MEDIA_STATUS_RPT = 0x01,
++	H2C_SCAN_ENABLE = 0x02,
++	H2C_KEEP_ALIVE = 0x03,
++	H2C_DISCON_DECISION = 0x04,
++	H2C_PSD_OFFLOAD = 0x05,
++	H2C_AP_OFFLOAD = 0x08,
++	H2C_BCN_RSVDPAGE = 0x09,
++	H2C_PROBERSP_RSVDPAGE = 0x0A,
++	H2C_FCS_RSVDPAGE = 0x10,
++	H2C_FCS_INFO = 0x11,
++	H2C_AP_WOW_GPIO_CTRL = 0x13,
++#ifdef CONFIG_MCC_MODE
++	H2C_MCC_UPDATE_PARAM = 0x15,
++	H2C_MCC_MACID_BITMAP = 0x16,
++	H2C_MCC_LOCATION = 0x10,
++	H2C_MCC_INFO = 0x18,
++	H2C_MCC_NOA_PARAM = 0x19,
++	H2C_MCC_IQK_PARAM = 0x1A,
++#endif /* CONFIG_MCC_MODE */
++	H2C_CHNL_SWITCH_OPER_OFFLOAD = 0x1C,
++
++	/* PoweSave Class: 001 */
++	H2C_SET_PWR_MODE = 0x20,
++	H2C_PS_TUNING_PARA = 0x21,
++	H2C_PS_TUNING_PARA2 = 0x22,
++	H2C_P2P_LPS_PARAM = 0x23,
++	H2C_P2P_PS_OFFLOAD = 0x24,
++	H2C_PS_SCAN_ENABLE = 0x25,
++	H2C_SAP_PS_ = 0x26,
++	H2C_INACTIVE_PS_ = 0x27, /* Inactive_PS */
++	H2C_FWLPS_IN_IPS_ = 0x28,
++#ifdef CONFIG_LPS_POFF
++	H2C_LPS_POFF_CTRL = 0x29,
++	H2C_LPS_POFF_PARAM = 0x2A,
++#endif
++#ifdef CONFIG_LPS_PG
++	H2C_LPS_PG_INFO = 0x2B,
++#endif
++	/* Dynamic Mechanism Class: 010 */
++	H2C_MACID_CFG = 0x40,
++	H2C_TXBF = 0x41,
++	H2C_RSSI_SETTING = 0x42,
++	H2C_AP_REQ_TXRPT = 0x43,
++	H2C_INIT_RATE_COLLECT = 0x44,
++	H2C_IQ_CALIBRATION	= 0x45,
++
++	H2C_RA_MASK_3SS = 0x46,/* for 8814A */
++	H2C_RA_PARA_ADJUST = 0x47,/* CONFIG_RA_DBG_CMD */
++	H2C_DYNAMIC_TX_PATH = 0x48,/* for 8814A */
++
++	H2C_FW_TRACE_EN = 0x49,
++
++	/* BT Class: 011 */
++	H2C_B_TYPE_TDMA = 0x60,
++	H2C_BT_INFO = 0x61,
++	H2C_FORCE_BT_TXPWR = 0x62,
++	H2C_BT_IGNORE_WLANACT = 0x63,
++	H2C_DAC_SWING_VALUE = 0x64,
++	H2C_ANT_SEL_RSV = 0x65,
++	H2C_WL_OPMODE = 0x66,
++	H2C_BT_MP_OPER = 0x67,
++	H2C_BT_CONTROL = 0x68,
++	H2C_BT_WIFI_CTRL = 0x69,
++	H2C_BT_FW_PATCH = 0x6A,
++
++	/* WOWLAN Class: 100 */
++	H2C_WOWLAN = 0x80,
++	H2C_REMOTE_WAKE_CTRL = 0x81,
++	H2C_AOAC_GLOBAL_INFO = 0x82,
++	H2C_AOAC_RSVD_PAGE = 0x83,
++	H2C_AOAC_RSVD_PAGE2 = 0x84,
++	H2C_D0_SCAN_OFFLOAD_CTRL = 0x85,
++	H2C_D0_SCAN_OFFLOAD_INFO = 0x86,
++	H2C_CHNL_SWITCH_OFFLOAD = 0x87,
++	H2C_AOAC_RSVDPAGE3 = 0x88,
++	H2C_P2P_OFFLOAD_RSVD_PAGE = 0x8A,
++	H2C_P2P_OFFLOAD = 0x8B,
++
++	H2C_RESET_TSF = 0xC0,
++	H2C_BCNHWSEQ = 0xC5,
++	H2C_MAXID,
++};
++
++#define H2C_INACTIVE_PS_LEN		3
++#define H2C_RSVDPAGE_LOC_LEN		5
++#define H2C_MEDIA_STATUS_RPT_LEN		3
++#define H2C_KEEP_ALIVE_CTRL_LEN	2
++#define H2C_DISCON_DECISION_LEN		3
++#define H2C_AP_OFFLOAD_LEN		3
++#define H2C_AP_WOW_GPIO_CTRL_LEN	4
++#define H2C_AP_PS_LEN			2
++#define H2C_PWRMODE_LEN			7
++#define H2C_PSTUNEPARAM_LEN			4
++#define H2C_MACID_CFG_LEN		7
++#define H2C_BTMP_OPER_LEN			5
++#define H2C_WOWLAN_LEN			5
++#define H2C_REMOTE_WAKE_CTRL_LEN	3
++#define H2C_AOAC_GLOBAL_INFO_LEN	2
++#define H2C_AOAC_RSVDPAGE_LOC_LEN	7
++#define H2C_SCAN_OFFLOAD_CTRL_LEN	4
++#define H2C_BT_FW_PATCH_LEN			6
++#define H2C_RSSI_SETTING_LEN		4
++#define H2C_AP_REQ_TXRPT_LEN		2
++#define H2C_FORCE_BT_TXPWR_LEN		3
++#define H2C_BCN_RSVDPAGE_LEN		5
++#define H2C_PROBERSP_RSVDPAGE_LEN	5
++#define H2C_P2PRSVDPAGE_LOC_LEN	5
++#define H2C_P2P_OFFLOAD_LEN	3
++#ifdef CONFIG_MCC_MODE
++	#define H2C_MCC_INFO_LEN			7
++	#define H2C_MCC_LOCATION_LEN		3
++	#define H2C_MCC_MACID_BITMAP_LEN	6
++	#define H2C_MCC_UPDATE_INFO_LEN		4
++	#define H2C_MCC_NOA_PARAM_LEN		4
++	#define H2C_MCC_IQK_PARAM_LEN		7
++#endif /* CONFIG_MCC_MODE */
++#ifdef CONFIG_LPS_PG
++	#define H2C_LPS_PG_INFO_LEN		2
++	#define H2C_LPSPG_LEN			16
++#endif
++#ifdef CONFIG_LPS_POFF
++	#define H2C_LPS_POFF_CTRL_LEN		1
++	#define H2C_LPS_POFF_PARAM_LEN		5
++#endif
++#define eqMacAddr(a, b)						(((a)[0] == (b)[0] && (a)[1] == (b)[1] && (a)[2] == (b)[2] && (a)[3] == (b)[3] && (a)[4] == (b)[4] && (a)[5] == (b)[5]) ? 1 : 0)
++#define cpMacAddr(des, src)					((des)[0] = (src)[0], (des)[1] = (src)[1], (des)[2] = (src)[2], (des)[3] = (src)[3], (des)[4] = (src)[4], (des)[5] = (src)[5])
++#define cpIpAddr(des, src)					((des)[0] = (src)[0], (des)[1] = (src)[1], (des)[2] = (src)[2], (des)[3] = (src)[3])
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++/*
++* ARP packet
++*
++* LLC Header */
++#define GET_ARP_PKT_LLC_TYPE(__pHeader)					ReadLE2Byte(((u8 *)(__pHeader)) + 6)
++
++/* ARP element */
++#define GET_ARP_PKT_OPERATION(__pHeader)				ReadLE2Byte(((u8 *)(__pHeader)) + 6)
++#define GET_ARP_PKT_SENDER_MAC_ADDR(__pHeader, _val)	cpMacAddr((u8 *)(_val), ((u8 *)(__pHeader))+8)
++#define GET_ARP_PKT_SENDER_IP_ADDR(__pHeader, _val)		cpIpAddr((u8 *)(_val), ((u8 *)(__pHeader))+14)
++#define GET_ARP_PKT_TARGET_MAC_ADDR(__pHeader, _val)	cpMacAddr((u8 *)(_val), ((u8 *)(__pHeader))+18)
++#define GET_ARP_PKT_TARGET_IP_ADDR(__pHeader, _val)	cpIpAddr((u8 *)(_val), ((u8 *)(__pHeader))+24)
++
++#define SET_ARP_PKT_HW(__pHeader, __Value)					WriteLE2Byte(((u8 *)(__pHeader)) + 0, __Value)
++#define SET_ARP_PKT_PROTOCOL(__pHeader, __Value)			WriteLE2Byte(((u8 *)(__pHeader)) + 2, __Value)
++#define SET_ARP_PKT_HW_ADDR_LEN(__pHeader, __Value)			WriteLE1Byte(((u8 *)(__pHeader)) + 4, __Value)
++#define SET_ARP_PKT_PROTOCOL_ADDR_LEN(__pHeader, __Value)	WriteLE1Byte(((u8 *)(__pHeader)) + 5, __Value)
++#define SET_ARP_PKT_OPERATION(__pHeader, __Value)			WriteLE2Byte(((u8 *)(__pHeader)) + 6, __Value)
++#define SET_ARP_PKT_SENDER_MAC_ADDR(__pHeader, _val)	cpMacAddr(((u8 *)(__pHeader))+8, (u8 *)(_val))
++#define SET_ARP_PKT_SENDER_IP_ADDR(__pHeader, _val)		cpIpAddr(((u8 *)(__pHeader))+14, (u8 *)(_val))
++#define SET_ARP_PKT_TARGET_MAC_ADDR(__pHeader, _val)	cpMacAddr(((u8 *)(__pHeader))+18, (u8 *)(_val))
++#define SET_ARP_PKT_TARGET_IP_ADDR(__pHeader, _val)		cpIpAddr(((u8 *)(__pHeader))+24, (u8 *)(_val))
++
++#define FW_WOWLAN_FUN_EN				BIT(0)
++#define FW_WOWLAN_PATTERN_MATCH			BIT(1)
++#define FW_WOWLAN_MAGIC_PKT				BIT(2)
++#define FW_WOWLAN_UNICAST				BIT(3)
++#define FW_WOWLAN_ALL_PKT_DROP			BIT(4)
++#define FW_WOWLAN_GPIO_ACTIVE			BIT(5)
++#define FW_WOWLAN_REKEY_WAKEUP			BIT(6)
++#define FW_WOWLAN_DEAUTH_WAKEUP			BIT(7)
++
++#define FW_WOWLAN_GPIO_WAKEUP_EN		BIT(0)
++#define FW_FW_PARSE_MAGIC_PKT			BIT(1)
++
++#define FW_REMOTE_WAKE_CTRL_EN			BIT(0)
++#define FW_REALWOWLAN_EN				BIT(5)
++
++#define FW_WOWLAN_KEEP_ALIVE_EN			BIT(0)
++#define FW_ADOPT_USER					BIT(1)
++#define FW_WOWLAN_KEEP_ALIVE_PKT_TYPE	BIT(2)
++
++#define FW_REMOTE_WAKE_CTRL_EN			BIT(0)
++#define FW_ARP_EN						BIT(1)
++#define FW_REALWOWLAN_EN				BIT(5)
++#define FW_WOW_FW_UNICAST_EN			BIT(7)
++
++#endif /* CONFIG_WOWLAN */
++
++/* _RSVDPAGE_LOC_CMD_0x00 */
++#define SET_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_H2CCMD_RSVDPAGE_LOC_PSPOLL(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_H2CCMD_RSVDPAGE_LOC_NULL_DATA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_H2CCMD_RSVDPAGE_LOC_BT_QOS_NULL_DATA(__pH2CCmd, __Value)SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++
++/* _MEDIA_STATUS_RPT_PARM_CMD_0x01 */
++#define SET_H2CCMD_MSRRPT_PARM_OPMODE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(((u8 *)(__pH2CCmd)), 0, 1, (__Value))
++#define SET_H2CCMD_MSRRPT_PARM_MACID_IND(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(((u8 *)(__pH2CCmd)), 1, 1, (__Value))
++#define SET_H2CCMD_MSRRPT_PARM_MIRACAST(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(((u8 *)(__pH2CCmd)), 2, 1, (__Value))
++#define SET_H2CCMD_MSRRPT_PARM_MIRACAST_SINK(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(((u8 *)(__pH2CCmd)), 3, 1, (__Value))
++#define SET_H2CCMD_MSRRPT_PARM_ROLE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(((u8 *)(__pH2CCmd)), 4, 4, (__Value))
++#define SET_H2CCMD_MSRRPT_PARM_MACID(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(((u8 *)(__pH2CCmd)) + 1, 0, 8, (__Value))
++#define SET_H2CCMD_MSRRPT_PARM_MACID_END(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(((u8 *)(__pH2CCmd)) + 2, 0, 8, (__Value))
++
++#define GET_H2CCMD_MSRRPT_PARM_OPMODE(__pH2CCmd)		LE_BITS_TO_1BYTE(((u8 *)(__pH2CCmd)), 0, 1)
++#define GET_H2CCMD_MSRRPT_PARM_MIRACAST(__pH2CCmd)		LE_BITS_TO_1BYTE(((u8 *)(__pH2CCmd)), 2, 1)
++#define GET_H2CCMD_MSRRPT_PARM_MIRACAST_SINK(__pH2CCmd)	LE_BITS_TO_1BYTE(((u8 *)(__pH2CCmd)), 3, 1)
++#define GET_H2CCMD_MSRRPT_PARM_ROLE(__pH2CCmd)			LE_BITS_TO_1BYTE(((u8 *)(__pH2CCmd)), 4, 4)
++
++#define H2C_MSR_ROLE_RSVD	0
++#define H2C_MSR_ROLE_STA	1
++#define H2C_MSR_ROLE_AP		2
++#define H2C_MSR_ROLE_GC		3
++#define H2C_MSR_ROLE_GO		4
++#define H2C_MSR_ROLE_TDLS	5
++#define H2C_MSR_ROLE_ADHOC	6
++#define H2C_MSR_ROLE_MAX	7
++
++extern const char *const _h2c_msr_role_str[];
++#define h2c_msr_role_str(role) (((role) >= H2C_MSR_ROLE_MAX) ? _h2c_msr_role_str[H2C_MSR_ROLE_MAX] : _h2c_msr_role_str[(role)])
++
++#define H2C_MSR_FMT "%s %s%s"
++#define H2C_MSR_ARG(h2c_msr) \
++	GET_H2CCMD_MSRRPT_PARM_OPMODE((h2c_msr)) ? " C" : "", \
++	h2c_msr_role_str(GET_H2CCMD_MSRRPT_PARM_ROLE((h2c_msr))), \
++	GET_H2CCMD_MSRRPT_PARM_MIRACAST((h2c_msr)) ? (GET_H2CCMD_MSRRPT_PARM_MIRACAST_SINK((h2c_msr)) ? " MSINK" : " MSRC") : ""
++
++s32 rtw_hal_set_FwMediaStatusRpt_cmd(_adapter *adapter, bool opmode, bool miracast, bool miracast_sink, u8 role, u8 macid, bool macid_ind, u8 macid_end);
++s32 rtw_hal_set_FwMediaStatusRpt_single_cmd(_adapter *adapter, bool opmode, bool miracast, bool miracast_sink, u8 role, u8 macid);
++s32 rtw_hal_set_FwMediaStatusRpt_range_cmd(_adapter *adapter, bool opmode, bool miracast, bool miracast_sink, u8 role, u8 macid, u8 macid_end);
++
++/* _KEEP_ALIVE_CMD_0x03 */
++#define SET_H2CCMD_KEEPALIVE_PARM_ENABLE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_H2CCMD_KEEPALIVE_PARM_ADOPT(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_H2CCMD_KEEPALIVE_PARM_PKT_TYPE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_H2CCMD_KEEPALIVE_PARM_CHECK_PERIOD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++
++/* _DISCONNECT_DECISION_CMD_0x04 */
++#define SET_H2CCMD_DISCONDECISION_PARM_ENABLE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_H2CCMD_DISCONDECISION_PARM_ADOPT(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_H2CCMD_DISCONDECISION_PARM_CHECK_PERIOD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_H2CCMD_DISCONDECISION_PARM_TRY_PKT_NUM(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++
++/* _AP_Offload 0x08 */
++#define SET_H2CCMD_AP_WOWLAN_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++/* _BCN_RsvdPage	0x09 */
++#define SET_H2CCMD_AP_WOWLAN_RSVDPAGE_LOC_BCN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++/* _Probersp_RsvdPage 0x0a */
++#define SET_H2CCMD_AP_WOWLAN_RSVDPAGE_LOC_ProbeRsp(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++/* _Probersp_RsvdPage 0x13 */
++#define SET_H2CCMD_AP_WOW_GPIO_CTRL_INDEX(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 4, __Value)
++#define SET_H2CCMD_AP_WOW_GPIO_CTRL_C2H_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 1, __Value)
++#define SET_H2CCMD_AP_WOW_GPIO_CTRL_PLUS(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 5, 1, __Value)
++#define SET_H2CCMD_AP_WOW_GPIO_CTRL_HIGH_ACTIVE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 6, 1, __Value)
++#define SET_H2CCMD_AP_WOW_GPIO_CTRL_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 7, 1, __Value)
++#define SET_H2CCMD_AP_WOW_GPIO_CTRL_DURATION(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_H2CCMD_AP_WOW_GPIO_CTRL_C2H_DURATION(__pH2CCmd, __Value)SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++/* _AP_PS 0x26 */
++#define SET_H2CCMD_AP_WOW_PS_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_H2CCMD_AP_WOW_PS_32K_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_H2CCMD_AP_WOW_PS_RF(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_H2CCMD_AP_WOW_PS_DURATION(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++
++#ifdef CONFIG_LPS_POFF
++/*PARTIAL OFF Control 0x29*/
++#define SET_H2CCMD_LPS_POFF_CTRL_EN(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++/*PARTIAL OFF PARAM   0x2A*/
++#define SET_H2CCMD_LPS_POFF_PARAM_RDVLD(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_H2CCMD_LPS_POFF_PARAM_WRVLD(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_H2CCMD_LPS_POFF_PARAM_STARTADDL(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_H2CCMD_LPS_POFF_PARAM_STARTADDH(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++#define SET_H2CCMD_LPS_POFF_PARAM_ENDADDL(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++#define SET_H2CCMD_LPS_POFF_PARAM_ENDADDH(__pH2CCmd, __Value) \
++	SET_BITS_TO_LE_1BYTE(__pH2CCmd+4, 0, 8, __Value)
++#endif
++
++#ifdef CONFIG_MCC_MODE
++/* MCC LOC CMD 0x10 */
++#define SET_H2CCMD_MCC_RSVDPAGE_LOC(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++
++/* MCC MAC ID CMD 0x16 */
++#define SET_H2CCMD_MCC_MACID_BITMAP_L(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_H2CCMD_MCC_MACID_BITMAP_H(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++
++/* MCC INFO CMD 0x18 */
++#define SET_H2CCMD_MCC_INFO_ORDER(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 4, __Value)
++#define SET_H2CCMD_MCC_INFO_TOTALNUM(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 4, __Value)
++#define SET_H2CCMD_MCC_INFO_CHIDX(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_H2CCMD_MCC_INFO_BW(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 2, __Value)
++#define SET_H2CCMD_MCC_INFO_BW40SC(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 2, 3, __Value)
++#define SET_H2CCMD_MCC_INFO_BW80SC(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 5, 3, __Value)
++#define SET_H2CCMD_MCC_INFO_DURATION(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_H2CCMD_MCC_INFO_ROLE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 3, __Value)
++#define SET_H2CCMD_MCC_INFO_INCURCH(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 3, 1, __Value)
++#define SET_H2CCMD_MCC_INFO_RSVD0(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 4, 4, __Value)
++#define SET_H2CCMD_MCC_INFO_RSVD1(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++#define SET_H2CCMD_MCC_INFO_RFETYPE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+6, 0, 4, __Value)
++#define SET_H2CCMD_MCC_INFO_DISTXNULL(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+6, 4, 1, __Value)
++#define SET_H2CCMD_MCC_INFO_C2HRPT(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+6, 5, 2, __Value)
++#define SET_H2CCMD_MCC_INFO_CHSCAN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+6, 7, 1, __Value)
++
++/* MCC NoA CMD 0x19 */
++#define SET_H2CCMD_MCC_NOA_FW_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_H2CCMD_MCC_NOA_TSF_SYNC_OFFSET(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 7, __Value)
++#define SET_H2CCMD_MCC_NOA_START_TIME(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_H2CCMD_MCC_NOA_INTERVAL(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_H2CCMD_MCC_EARLY_TIME(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++
++/* MCC IQK CMD 0x1A */
++#define SET_H2CCMD_MCC_IQK_READY(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_H2CCMD_MCC_IQK_ORDER(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 2, __Value)
++#define SET_H2CCMD_MCC_IQK_RX_L(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_H2CCMD_MCC_IQK_RX_M1(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 2, __Value)
++#define SET_H2CCMD_MCC_IQK_RX_M2(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 2, 6, __Value)
++#define SET_H2CCMD_MCC_IQK_RX_H(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 4, __Value)
++#define SET_H2CCMD_MCC_IQK_TX_L(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_H2CCMD_MCC_IQK_TX_M1(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 3, __Value)
++#define SET_H2CCMD_MCC_IQK_TX_M2(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 3, 5, __Value)
++#define SET_H2CCMD_MCC_IQK_TX_H(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+6, 0, 6, __Value)
++#endif /* CONFIG_MCC_MODE */
++
++/* CHNL SWITCH OPER OFFLOAD 0x1C */
++#define SET_H2CCMD_CH_SW_OPER_OFFLOAD_CH_NUM(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_H2CCMD_CH_SW_OPER_OFFLOAD_BW_MODE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd) + 1, 0, 2, __Value)
++#define SET_H2CCMD_CH_SW_OPER_OFFLOAD_BW_40M_SC(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd) + 1, 2, 3, __Value)
++#define SET_H2CCMD_CH_SW_OPER_OFFLOAD_BW_80M_SC(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd) + 1, 5, 3, __Value)
++#define SET_H2CCMD_CH_SW_OPER_OFFLOAD_RFE_TYPE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd) + 2, 0, 4, __Value)
++
++/* _WoWLAN PARAM_CMD_0x80 */
++#define SET_H2CCMD_WOWLAN_FUNC_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_H2CCMD_WOWLAN_PATTERN_MATCH_ENABLE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_H2CCMD_WOWLAN_MAGIC_PKT_ENABLE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_H2CCMD_WOWLAN_UNICAST_PKT_ENABLE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 3, 1, __Value)
++#define SET_H2CCMD_WOWLAN_ALL_PKT_DROP(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 1, __Value)
++#define SET_H2CCMD_WOWLAN_GPIO_ACTIVE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 5, 1, __Value)
++#define SET_H2CCMD_WOWLAN_REKEY_WAKE_UP(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 6, 1, __Value)
++#define SET_H2CCMD_WOWLAN_DISCONNECT_WAKE_UP(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 7, 1, __Value)
++#define SET_H2CCMD_WOWLAN_GPIONUM(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 7, __Value)
++#define SET_H2CCMD_WOWLAN_DATAPIN_WAKE_UP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 7, 1, __Value)
++#define SET_H2CCMD_WOWLAN_GPIO_DURATION(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_H2CCMD_WOWLAN_GPIO_PULSE_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 1, __Value)
++#define SET_H2CCMD_WOWLAN_GPIO_PULSE_COUNT(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 1, 7, __Value)
++#define SET_H2CCMD_WOWLAN_LOWPR_RX(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 1, __Value)
++#define SET_H2CCMD_WOWLAN_CHANGE_UNIT(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 2, 1, __Value)
++/* _REMOTE_WAKEUP_CMD_0x81 */
++#define SET_H2CCMD_REMOTE_WAKECTRL_ENABLE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_H2CCMD_REMOTE_WAKE_CTRL_ARP_OFFLOAD_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_H2CCMD_REMOTE_WAKE_CTRL_NDP_OFFLOAD_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_H2CCMD_REMOTE_WAKE_CTRL_GTK_OFFLOAD_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 3, 1, __Value)
++#define SET_H2CCMD_REMOTE_WAKE_CTRL_NLO_OFFLOAD_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 1, __Value)
++#define SET_H2CCMD_REMOTE_WAKE_CTRL_FW_UNICAST_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 7, 1, __Value)
++#define SET_H2CCMD_REMOTE_WAKE_CTRL_P2P_OFFLAD_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 1, __Value)
++#define SET_H2CCMD_REMOTE_WAKE_CTRL_NBNS_FILTER_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 2, 1, __Value)
++#define SET_H2CCMD_REMOTE_WAKE_CTRL_ARP_ACTION(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 1, __Value)
++#define SET_H2CCMD_REMOTE_WAKE_CTRL_FW_PARSING_UNTIL_WAKEUP(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 4, 1, __Value)
++
++/* AOAC_GLOBAL_INFO_0x82 */
++#define SET_H2CCMD_AOAC_GLOBAL_INFO_PAIRWISE_ENC_ALG(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_H2CCMD_AOAC_GLOBAL_INFO_GROUP_ENC_ALG(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++
++/* AOAC_RSVDPAGE_LOC_0x83 */
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_REMOTE_WAKE_CTRL_INFO(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd), 0, 8, __Value)
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_ARP_RSP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_NEIGHBOR_ADV(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_GTK_RSP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_GTK_INFO(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#ifdef CONFIG_GTK_OL
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_GTK_EXT_MEM(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++#endif /* CONFIG_GTK_OL */
++
++/* AOAC_RSVDPAGE_2_0x84 */
++
++/* AOAC_RSVDPAGE_3_0x88 */
++#ifdef CONFIG_PNO_SUPPORT
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_NLO_INFO(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd), 0, 8, __Value)
++#endif
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_AOAC_REPORT(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd) + 1, 0, 8, __Value)
++
++#ifdef CONFIG_PNO_SUPPORT
++/* D0_Scan_Offload_Info_0x86 */
++#define SET_H2CCMD_AOAC_NLO_FUN_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd), 3, 1, __Value)
++#define SET_H2CCMD_AOAC_NLO_IPS_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd), 4, 1, __Value)
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_PROBE_PACKET(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_SCAN_INFO(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_H2CCMD_AOAC_RSVDPAGE_LOC_SSID_INFO(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#endif /* CONFIG_PNO_SUPPORT */
++
++#ifdef CONFIG_P2P_WOWLAN
++/* P2P_RsvdPage_0x8a */
++#define SET_H2CCMD_RSVDPAGE_LOC_P2P_BCN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_H2CCMD_RSVDPAGE_LOC_P2P_PROBE_RSP(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_H2CCMD_RSVDPAGE_LOC_P2P_NEGO_RSP(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_H2CCMD_RSVDPAGE_LOC_P2P_INVITE_RSP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_H2CCMD_RSVDPAGE_LOC_P2P_PD_RSP(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#endif /* CONFIG_P2P_WOWLAN */
++
++#ifdef CONFIG_LPS_PG
++#define SET_H2CCMD_LPSPG_SEC_CAM_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)/*SecurityCAM_En*/
++#define SET_H2CCMD_LPSPG_MBID_CAM_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)/*BSSIDCAM_En*/
++#define SET_H2CCMD_LPSPG_PMC_CAM_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)/*PatternMatchCAM_En*/
++#define SET_H2CCMD_LPSPG_MACID_SEARCH_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 3, 1, __Value)/*MACIDSearch_En*/
++#define SET_H2CCMD_LPSPG_TXSC_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 1, __Value)/*TXSC_En*/
++#define SET_H2CCMD_LPSPG_MU_RATE_TB_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd, 5, 1, __Value)/*MURateTable_En*/
++#define SET_H2CCMD_LPSPG_LOC(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)/*Loc_LPS_PG*/
++#endif
++
++/* ---------------------------------------------------------------------------------------------------------
++ * -------------------------------------------    Structure    --------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++typedef struct _RSVDPAGE_LOC {
++	u8 LocProbeRsp;
++	u8 LocPsPoll;
++	u8 LocNullData;
++	u8 LocQosNull;
++	u8 LocBTQosNull;
++#ifdef CONFIG_WOWLAN
++	u8 LocRemoteCtrlInfo;
++	u8 LocArpRsp;
++	u8 LocNbrAdv;
++	u8 LocGTKRsp;
++	u8 LocGTKInfo;
++	u8 LocProbeReq;
++	u8 LocNetList;
++#ifdef CONFIG_GTK_OL
++	u8 LocGTKEXTMEM;
++#endif /* CONFIG_GTK_OL */
++#ifdef CONFIG_WOW_PATTERN_HW_CAM
++	u8 LocAOACReport;
++#endif
++#ifdef CONFIG_PNO_SUPPORT
++	u8 LocPNOInfo;
++	u8 LocScanInfo;
++	u8 LocSSIDInfo;
++	u8 LocProbePacket;
++#endif /* CONFIG_PNO_SUPPORT */
++#endif /* CONFIG_WOWLAN	 */
++	u8 LocApOffloadBCN;
++#ifdef CONFIG_P2P_WOWLAN
++	u8 LocP2PBeacon;
++	u8 LocP2PProbeRsp;
++	u8 LocNegoRsp;
++	u8 LocInviteRsp;
++	u8 LocPDRsp;
++#endif /* CONFIG_P2P_WOWLAN */
++} RSVDPAGE_LOC, *PRSVDPAGE_LOC;
++
++#endif
++void dump_TX_FIFO(PADAPTER padapter, u8 page_num, u16 page_size);
++u8 rtw_hal_set_fw_media_status_cmd(_adapter *adapter, u8 mstatus, u8 macid);
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	/* WOW command function */
++	void rtw_hal_set_fw_wow_related_cmd(_adapter *padapter, u8 enable);
++	#ifdef CONFIG_P2P_WOWLAN
++		/* H2C 0x8A */
++		u8 rtw_hal_set_FwP2PRsvdPage_cmd(_adapter *adapter, PRSVDPAGE_LOC rsvdpageloc);
++		/* H2C 0x8B */
++		u8 rtw_hal_set_p2p_wowlan_offload_cmd(_adapter *adapter);
++	#endif /* CONFIG_P2P_WOWLAN */
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/hal_com_led.h b/drivers/net/wireless/rtl8812au/include/hal_com_led.h
+new file mode 100644
+index 0000000..01dbb9c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/hal_com_led.h
+@@ -0,0 +1,396 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_COMMON_LED_H_
++#define __HAL_COMMON_LED_H_
++
++
++#define MSECS(t)        (HZ * ((t) / 1000) + (HZ * ((t) % 1000)) / 1000)
++
++/* ********************************************************************************
++ *	LED Behavior Constant.
++ * ********************************************************************************
++ * Default LED behavior.
++ *   */
++#define LED_BLINK_NORMAL_INTERVAL	100
++#define LED_BLINK_SLOWLY_INTERVAL	200
++#define LED_BLINK_LONG_INTERVAL	400
++#define LED_INITIAL_INTERVAL		1800
++
++/* LED Customerization */
++
++/* NETTRONIX */
++#define LED_BLINK_NORMAL_INTERVAL_NETTRONIX	100
++#define LED_BLINK_SLOWLY_INTERVAL_NETTRONIX	2000
++
++/* PORNET */
++#define LED_BLINK_SLOWLY_INTERVAL_PORNET	1000
++#define LED_BLINK_NORMAL_INTERVAL_PORNET	100
++#define LED_BLINK_FAST_INTERVAL_BITLAND		30
++
++/* AzWave. */
++#define LED_CM2_BLINK_ON_INTERVAL		250
++#define LED_CM2_BLINK_OFF_INTERVAL		4750
++#define LED_CM8_BLINK_OFF_INTERVAL		3750	/* for QMI */
++
++/* RunTop */
++#define LED_RunTop_BLINK_INTERVAL		300
++
++/* ALPHA */
++#define LED_BLINK_NO_LINK_INTERVAL_ALPHA	1000
++#define LED_BLINK_NO_LINK_INTERVAL_ALPHA_500MS 500 /* add by ylb 20121012 for customer led for alpha */
++#define LED_BLINK_LINK_INTERVAL_ALPHA		500	/* 500 */
++#define LED_BLINK_SCAN_INTERVAL_ALPHA		180	/* 150 */
++#define LED_BLINK_FASTER_INTERVAL_ALPHA		50
++#define LED_BLINK_WPS_SUCESS_INTERVAL_ALPHA	5000
++
++/* 111122 by hpfan: Customized for Xavi */
++#define LED_CM11_BLINK_INTERVAL			300
++#define LED_CM11_LINK_ON_INTERVEL		3000
++
++/* Netgear */
++#define LED_BLINK_LINK_INTERVAL_NETGEAR		500
++#define LED_BLINK_LINK_SLOWLY_INTERVAL_NETGEAR		1000
++
++#define LED_WPS_BLINK_OFF_INTERVAL_NETGEAR		100
++#define LED_WPS_BLINK_ON_INTERVAL_NETGEAR		500
++
++/* Belkin AC950 */
++#define LED_BLINK_LINK_INTERVAL_ON_BELKIN		200
++#define LED_BLINK_LINK_INTERVAL_OFF_BELKIN		100
++#define LED_BLINK_ERROR_INTERVAL_BELKIN		100
++
++/* by chiyokolin for Azurewave */
++#define LED_CM12_BLINK_INTERVAL_5Mbps		160
++#define LED_CM12_BLINK_INTERVAL_10Mbps		80
++#define LED_CM12_BLINK_INTERVAL_20Mbps		50
++#define LED_CM12_BLINK_INTERVAL_40Mbps		40
++#define LED_CM12_BLINK_INTERVAL_80Mbps		30
++#define LED_CM12_BLINK_INTERVAL_MAXMbps		25
++
++/* Dlink */
++#define	LED_BLINK_NO_LINK_INTERVAL		1000
++#define	LED_BLINK_LINK_IDEL_INTERVAL		100
++
++#define	LED_BLINK_SCAN_ON_INTERVAL		30
++#define	LED_BLINK_SCAN_OFF_INTERVAL		300
++
++#define LED_WPS_BLINK_ON_INTERVAL_DLINK		30
++#define LED_WPS_BLINK_OFF_INTERVAL_DLINK			300
++#define LED_WPS_BLINK_LINKED_ON_INTERVAL_DLINK			5000
++
++/* ********************************************************************************
++ * LED object.
++ * ******************************************************************************** */
++
++typedef enum _LED_CTL_MODE {
++	LED_CTL_POWER_ON = 1,
++	LED_CTL_LINK = 2,
++	LED_CTL_NO_LINK = 3,
++	LED_CTL_TX = 4,
++	LED_CTL_RX = 5,
++	LED_CTL_SITE_SURVEY = 6,
++	LED_CTL_POWER_OFF = 7,
++	LED_CTL_START_TO_LINK = 8,
++	LED_CTL_START_WPS = 9,
++	LED_CTL_STOP_WPS = 10,
++	LED_CTL_START_WPS_BOTTON = 11, /* added for runtop */
++	LED_CTL_STOP_WPS_FAIL = 12, /* added for ALPHA	 */
++	LED_CTL_STOP_WPS_FAIL_OVERLAP = 13, /* added for BELKIN */
++	LED_CTL_CONNECTION_NO_TRANSFER = 14,
++} LED_CTL_MODE;
++
++typedef	enum _LED_STATE {
++	LED_UNKNOWN = 0,
++	RTW_LED_ON = 1,
++	RTW_LED_OFF = 2,
++	LED_BLINK_NORMAL = 3,
++	LED_BLINK_SLOWLY = 4,
++	LED_BLINK_POWER_ON = 5,
++	LED_BLINK_SCAN = 6,	/* LED is blinking during scanning period, the # of times to blink is depend on time for scanning. */
++	LED_BLINK_NO_LINK = 7, /* LED is blinking during no link state. */
++	LED_BLINK_StartToBlink = 8, /* Customzied for Sercomm Printer Server case */
++	LED_BLINK_TXRX = 9,
++	LED_BLINK_WPS = 10,	/* LED is blinkg during WPS communication */
++	LED_BLINK_WPS_STOP = 11,	/* for ALPHA */
++	LED_BLINK_WPS_STOP_OVERLAP = 12,	/* for BELKIN */
++	LED_BLINK_RUNTOP = 13,	/* Customized for RunTop */
++	LED_BLINK_CAMEO = 14,
++	LED_BLINK_XAVI = 15,
++	LED_BLINK_ALWAYS_ON = 16,
++	LED_BLINK_LINK_IN_PROCESS = 17,  /* Customized for Belkin AC950 */
++	LED_BLINK_AUTH_ERROR = 18,  /* Customized for Belkin AC950 */
++	LED_BLINK_Azurewave_5Mbps = 19,
++	LED_BLINK_Azurewave_10Mbps = 20,
++	LED_BLINK_Azurewave_20Mbps = 21,
++	LED_BLINK_Azurewave_40Mbps = 22,
++	LED_BLINK_Azurewave_80Mbps = 23,
++	LED_BLINK_Azurewave_MAXMbps = 24,
++	LED_BLINK_LINK_IDEL = 25,
++	LED_BLINK_WPS_LINKED = 26,
++} LED_STATE;
++
++typedef enum _LED_PIN {
++	LED_PIN_GPIO0,
++	LED_PIN_LED0,
++	LED_PIN_LED1,
++	LED_PIN_LED2
++} LED_PIN;
++
++
++/* ********************************************************************************
++ * PCIE LED Definition.
++ * ******************************************************************************** */
++#ifdef CONFIG_PCI_HCI
++typedef	enum _LED_STRATEGY_PCIE {
++	SW_LED_MODE0, /* SW control 1 LED via GPIO0. It is default option. */
++	SW_LED_MODE1, /* SW control for PCI Express */
++	SW_LED_MODE2, /* SW control for Cameo. */
++	SW_LED_MODE3, /* SW contorl for RunTop. */
++	SW_LED_MODE4, /* SW control for Netcore */
++	SW_LED_MODE5, /* added by vivi, for led new mode, DLINK */
++	SW_LED_MODE6, /* added by vivi, for led new mode, PRONET */
++	SW_LED_MODE7, /* added by chiyokolin, for Lenovo, PCI Express Minicard Spec Rev.1.2 spec */
++	SW_LED_MODE8, /* added by chiyokolin, for QMI */
++	SW_LED_MODE9, /* added by chiyokolin, for BITLAND-LENOVO, PCI Express Minicard Spec Rev.1.1	 */
++	SW_LED_MODE10, /* added by chiyokolin, for Edimax-ASUS */
++	SW_LED_MODE11,	/* added by hpfan, for Xavi */
++	SW_LED_MODE12,	/* added by chiyokolin, for Azurewave */
++	HW_LED, /* HW control 2 LEDs, LED0 and LED1 (there are 4 different control modes) */
++} LED_STRATEGY_PCIE, *PLED_STRATEGY_PCIE;
++
++typedef struct _LED_PCIE {
++	PADAPTER		padapter;
++
++	LED_PIN			LedPin;	/* Identify how to implement this SW led. */
++
++	LED_STATE		CurrLedState; /* Current LED state. */
++	BOOLEAN			bLedOn; /* TRUE if LED is ON, FALSE if LED is OFF. */
++
++	BOOLEAN			bLedBlinkInProgress; /* TRUE if it is blinking, FALSE o.w.. */
++	BOOLEAN			bLedWPSBlinkInProgress; /* TRUE if it is blinking, FALSE o.w.. */
++
++	BOOLEAN			bLedSlowBlinkInProgress;/* added by vivi, for led new mode */
++	u32				BlinkTimes; /* Number of times to toggle led state for blinking. */
++	LED_STATE		BlinkingLedState; /* Next state for blinking, either LED_ON or LED_OFF are. */
++
++	_timer			BlinkTimer; /* Timer object for led blinking. */
++} LED_PCIE, *PLED_PCIE;
++
++typedef struct _LED_PCIE	LED_DATA, *PLED_DATA;
++typedef enum _LED_STRATEGY_PCIE	LED_STRATEGY, *PLED_STRATEGY;
++
++VOID
++LedControlPCIE(
++	IN	PADAPTER		Adapter,
++	IN	LED_CTL_MODE		LedAction
++);
++
++VOID
++gen_RefreshLedState(
++	IN	PADAPTER		Adapter);
++
++/* ********************************************************************************
++ * USB  LED Definition.
++ * ******************************************************************************** */
++#elif defined(CONFIG_USB_HCI)
++
++#define IS_LED_WPS_BLINKING(_LED_USB)	(((PLED_USB)_LED_USB)->CurrLedState == LED_BLINK_WPS \
++		|| ((PLED_USB)_LED_USB)->CurrLedState == LED_BLINK_WPS_STOP \
++		|| ((PLED_USB)_LED_USB)->bLedWPSBlinkInProgress)
++
++#define IS_LED_BLINKING(_LED_USB)	(((PLED_USB)_LED_USB)->bLedWPSBlinkInProgress \
++		|| ((PLED_USB)_LED_USB)->bLedScanBlinkInProgress)
++
++
++typedef	enum _LED_STRATEGY_USB {
++	SW_LED_MODE0, /* SW control 1 LED via GPIO0. It is default option. */
++	SW_LED_MODE1, /* 2 LEDs, through LED0 and LED1. For ALPHA. */
++	SW_LED_MODE2, /* SW control 1 LED via GPIO0, customized for AzWave 8187 minicard. */
++	SW_LED_MODE3, /* SW control 1 LED via GPIO0, customized for Sercomm Printer Server case. */
++	SW_LED_MODE4, /* for Edimax / Belkin */
++	SW_LED_MODE5, /* for Sercomm / Belkin	 */
++	SW_LED_MODE6,	/* for 88CU minicard, porting from ce SW_LED_MODE7 */
++	SW_LED_MODE7,	/* for Netgear special requirement */
++	SW_LED_MODE8, /* for LC */
++	SW_LED_MODE9, /* for Belkin AC950 */
++	SW_LED_MODE10, /* for Netgear A6200V2 */
++	SW_LED_MODE11, /* for Edimax / ASUS */
++	SW_LED_MODE12, /* for WNC/NEC */
++	SW_LED_MODE13, /* for Netgear A6100, 8811Au */
++	SW_LED_MODE14, /* for Buffalo, DNI, 8811Au */
++	SW_LED_MODE15, /* for DLINK,  8811Au/8812AU	 */
++	HW_LED, /* HW control 2 LEDs, LED0 and LED1 (there are 4 different control modes, see MAC.CONFIG1 for details.) */
++} LED_STRATEGY_USB, *PLED_STRATEGY_USB;
++
++
++typedef struct _LED_USB {
++	PADAPTER			padapter;
++
++	LED_PIN				LedPin;	/* Identify how to implement this SW led. */
++
++	LED_STATE			CurrLedState; /* Current LED state. */
++	BOOLEAN				bLedOn; /* TRUE if LED is ON, FALSE if LED is OFF. */
++
++	BOOLEAN				bSWLedCtrl;
++
++	BOOLEAN				bLedBlinkInProgress; /* TRUE if it is blinking, FALSE o.w.. */
++	/* ALPHA, added by chiyoko, 20090106 */
++	BOOLEAN				bLedNoLinkBlinkInProgress;
++	BOOLEAN				bLedLinkBlinkInProgress;
++	BOOLEAN				bLedStartToLinkBlinkInProgress;
++	BOOLEAN				bLedScanBlinkInProgress;
++	BOOLEAN				bLedWPSBlinkInProgress;
++
++	u32					BlinkTimes; /* Number of times to toggle led state for blinking. */
++	u8					BlinkCounter; /* Added for turn off overlap led after blinking a while, by page, 20120821 */
++	LED_STATE			BlinkingLedState; /* Next state for blinking, either LED_ON or LED_OFF are. */
++
++	_timer				BlinkTimer; /* Timer object for led blinking. */
++
++	_workitem			BlinkWorkItem; /* Workitem used by BlinkTimer to manipulate H/W to blink LED.' */
++} LED_USB, *PLED_USB;
++
++typedef struct _LED_USB	LED_DATA, *PLED_DATA;
++typedef enum _LED_STRATEGY_USB	LED_STRATEGY, *PLED_STRATEGY;
++
++VOID
++LedControlUSB(
++	IN	PADAPTER		Adapter,
++	IN	LED_CTL_MODE		LedAction
++);
++
++
++/* ********************************************************************************
++ * SDIO LED Definition.
++ * ******************************************************************************** */
++#elif defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++
++#define IS_LED_WPS_BLINKING(_LED_SDIO)	(((PLED_SDIO)_LED_SDIO)->CurrLedState == LED_BLINK_WPS \
++		|| ((PLED_SDIO)_LED_SDIO)->CurrLedState == LED_BLINK_WPS_STOP \
++		|| ((PLED_SDIO)_LED_SDIO)->bLedWPSBlinkInProgress)
++
++#define IS_LED_BLINKING(_LED_SDIO)	(((PLED_SDIO)_LED_SDIO)->bLedWPSBlinkInProgress \
++		|| ((PLED_SDIO)_LED_SDIO)->bLedScanBlinkInProgress)
++
++
++typedef	enum _LED_STRATEGY_SDIO {
++	SW_LED_MODE0, /* SW control 1 LED via GPIO0. It is default option. */
++	SW_LED_MODE1, /* 2 LEDs, through LED0 and LED1. For ALPHA. */
++	SW_LED_MODE2, /* SW control 1 LED via GPIO0, customized for AzWave 8187 minicard. */
++	SW_LED_MODE3, /* SW control 1 LED via GPIO0, customized for Sercomm Printer Server case. */
++	SW_LED_MODE4, /* for Edimax / Belkin */
++	SW_LED_MODE5, /* for Sercomm / Belkin	 */
++	SW_LED_MODE6,	/* for 88CU minicard, porting from ce SW_LED_MODE7 */
++	HW_LED, /* HW control 2 LEDs, LED0 and LED1 (there are 4 different control modes, see MAC.CONFIG1 for details.) */
++} LED_STRATEGY_SDIO, *PLED_STRATEGY_SDIO;
++
++typedef struct _LED_SDIO {
++	PADAPTER			padapter;
++
++	LED_PIN				LedPin;	/* Identify how to implement this SW led. */
++
++	LED_STATE			CurrLedState; /* Current LED state. */
++	BOOLEAN				bLedOn; /* TRUE if LED is ON, FALSE if LED is OFF. */
++
++	BOOLEAN				bSWLedCtrl;
++
++	BOOLEAN				bLedBlinkInProgress; /* TRUE if it is blinking, FALSE o.w.. */
++	/* ALPHA, added by chiyoko, 20090106 */
++	BOOLEAN				bLedNoLinkBlinkInProgress;
++	BOOLEAN				bLedLinkBlinkInProgress;
++	BOOLEAN				bLedStartToLinkBlinkInProgress;
++	BOOLEAN				bLedScanBlinkInProgress;
++	BOOLEAN				bLedWPSBlinkInProgress;
++
++	u32					BlinkTimes; /* Number of times to toggle led state for blinking. */
++	LED_STATE			BlinkingLedState; /* Next state for blinking, either LED_ON or LED_OFF are. */
++
++	_timer				BlinkTimer; /* Timer object for led blinking. */
++
++	_workitem			BlinkWorkItem; /* Workitem used by BlinkTimer to manipulate H/W to blink LED. */
++} LED_SDIO, *PLED_SDIO;
++
++typedef struct _LED_SDIO	LED_DATA, *PLED_DATA;
++typedef enum _LED_STRATEGY_SDIO	LED_STRATEGY, *PLED_STRATEGY;
++
++VOID
++LedControlSDIO(
++	IN	PADAPTER		Adapter,
++	IN	LED_CTL_MODE		LedAction
++);
++
++#endif
++
++struct led_priv {
++	/* add for led controll */
++	LED_DATA			SwLed0;
++	LED_DATA			SwLed1;
++	LED_DATA			SwLed2;
++	LED_STRATEGY		LedStrategy;
++	u8					bRegUseLed;
++	void (*LedControlHandler)(_adapter *padapter, LED_CTL_MODE LedAction);
++	void (*SwLedOn)(_adapter *padapter, PLED_DATA pLed);
++	void (*SwLedOff)(_adapter *padapter, PLED_DATA pLed);
++	/* add for led controll */
++};
++
++#ifdef CONFIG_SW_LED
++#define rtw_led_control(adapter, LedAction) \
++	do { \
++		if ((adapter)->ledpriv.LedControlHandler) \
++			(adapter)->ledpriv.LedControlHandler((adapter), (LedAction)); \
++	} while (0)
++#else /* CONFIG_SW_LED */
++#define rtw_led_control(adapter, LedAction)
++#endif /* CONFIG_SW_LED */
++
++#define SwLedOn(adapter, pLed) \
++	do { \
++		if ((adapter)->ledpriv.SwLedOn) \
++			(adapter)->ledpriv.SwLedOn((adapter), (pLed)); \
++	} while (0)
++
++#define SwLedOff(adapter, pLed) \
++	do { \
++		if ((adapter)->ledpriv.SwLedOff) \
++			(adapter)->ledpriv.SwLedOff((adapter), (pLed)); \
++	} while (0)
++
++void BlinkTimerCallback(void *data);
++void BlinkWorkItemCallback(_workitem *work);
++
++void ResetLedStatus(PLED_DATA pLed);
++
++void
++InitLed(
++	_adapter			*padapter,
++	PLED_DATA		pLed,
++	LED_PIN			LedPin
++);
++
++void
++DeInitLed(
++	PLED_DATA		pLed
++);
++
++/* hal... */
++extern void BlinkHandler(PLED_DATA	pLed);
++
++#endif /* __RTW_LED_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/hal_com_phycfg.h b/drivers/net/wireless/rtl8812au/include/hal_com_phycfg.h
+new file mode 100644
+index 0000000..6602a23
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/hal_com_phycfg.h
+@@ -0,0 +1,348 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_COM_PHYCFG_H__
++#define __HAL_COM_PHYCFG_H__
++
++#define		PathA                     			0x0	/* Useless */
++#define		PathB			0x1
++#define		PathC			0x2
++#define		PathD			0x3
++
++typedef enum _RF_TX_NUM {
++	RF_1TX = 0,
++	RF_2TX,
++	RF_3TX,
++	RF_4TX,
++	RF_MAX_TX_NUM,
++	RF_TX_NUM_NONIMPLEMENT,
++} RF_TX_NUM;
++
++#define MAX_POWER_INDEX		0x3F
++
++typedef enum _REGULATION_TXPWR_LMT {
++	TXPWR_LMT_FCC = 0,
++	TXPWR_LMT_MKK = 1,
++	TXPWR_LMT_ETSI = 2,
++	TXPWR_LMT_WW = 3,
++
++	TXPWR_LMT_MAX_REGULATION_NUM = 4
++} REGULATION_TXPWR_LMT;
++
++#define TX_PWR_LMT_REF_VHT_FROM_HT	BIT0
++#define TX_PWR_LMT_REF_HT_FROM_VHT	BIT1
++
++/*------------------------------Define structure----------------------------*/
++typedef struct _BB_REGISTER_DEFINITION {
++	u32 rfintfs;			/* set software control: */
++	/*		0x870~0x877[8 bytes] */
++
++	u32 rfintfo; 			/* output data: */
++	/*		0x860~0x86f [16 bytes] */
++
++	u32 rfintfe; 			/* output enable: */
++	/*		0x860~0x86f [16 bytes] */
++
++	u32 rf3wireOffset;	/* LSSI data: */
++	/*		0x840~0x84f [16 bytes] */
++
++	u32 rfHSSIPara2;	/* wire parameter control2 :  */
++	/*		0x824~0x827,0x82c~0x82f, 0x834~0x837, 0x83c~0x83f [16 bytes] */
++
++	u32 rfLSSIReadBack;	/* LSSI RF readback data SI mode */
++	/*		0x8a0~0x8af [16 bytes] */
++
++	u32 rfLSSIReadBackPi;	/* LSSI RF readback data PI mode 0x8b8-8bc for Path A and B */
++
++} BB_REGISTER_DEFINITION_T, *PBB_REGISTER_DEFINITION_T;
++
++
++/* ---------------------------------------------------------------------- */
++u8
++PHY_GetTxPowerByRateBase(
++	IN	PADAPTER		Adapter,
++	IN	u8				Band,
++	IN	u8				RfPath,
++	IN	u8				TxNum,
++	IN	RATE_SECTION	RateSection
++);
++
++VOID
++PHY_GetRateValuesOfTxPowerByRate(
++	IN	PADAPTER pAdapter,
++	IN	u32 RegAddr,
++	IN	u32 BitMask,
++	IN	u32 Value,
++	OUT	u8 *Rate,
++	OUT	s8 *PwrByRateVal,
++	OUT	u8 *RateNum
++);
++
++u8
++PHY_GetRateIndexOfTxPowerByRate(
++	IN	u8	Rate
++);
++
++VOID
++PHY_SetTxPowerIndexByRateSection(
++	IN	PADAPTER		pAdapter,
++	IN	u8				RFPath,
++	IN	u8				Channel,
++	IN	u8				RateSection
++);
++
++s8
++_PHY_GetTxPowerByRate(
++	IN	PADAPTER	pAdapter,
++	IN	u8			Band,
++	IN	u8			RFPath,
++	IN	u8			TxNum,
++	IN	u8			RateIndex
++);
++
++s8
++PHY_GetTxPowerByRate(
++	IN	PADAPTER	pAdapter,
++	IN	u8			Band,
++	IN	u8			RFPath,
++	IN	u8			TxNum,
++	IN	u8			RateIndex
++);
++
++#ifdef CONFIG_PHYDM_POWERTRACK_BY_TSSI
++s8
++PHY_GetTxPowerByRateOriginal(
++	IN	PADAPTER	pAdapter,
++	IN	u8			Band,
++	IN	u8			RFPath,
++	IN	u8			TxNum,
++	IN	u8			Rate
++);
++#endif
++
++VOID
++PHY_SetTxPowerByRate(
++	IN	PADAPTER	pAdapter,
++	IN	u8			Band,
++	IN	u8			RFPath,
++	IN	u8			TxNum,
++	IN	u8			Rate,
++	IN	s8			Value
++);
++
++VOID
++PHY_SetTxPowerLevelByPath(
++	IN	PADAPTER	Adapter,
++	IN	u8			channel,
++	IN	u8			path
++);
++
++VOID
++PHY_SetTxPowerIndexByRateArray(
++	IN	PADAPTER		pAdapter,
++	IN	u8				RFPath,
++	IN	CHANNEL_WIDTH	BandWidth,
++	IN	u8				Channel,
++	IN	u8				*Rates,
++	IN	u8				RateArraySize
++);
++
++VOID
++PHY_InitTxPowerByRate(
++	IN	PADAPTER	pAdapter
++);
++
++VOID
++PHY_StoreTxPowerByRate(
++	IN	PADAPTER	pAdapter,
++	IN	u32			Band,
++	IN	u32			RfPath,
++	IN	u32			TxNum,
++	IN	u32			RegAddr,
++	IN	u32			BitMask,
++	IN	u32			Data
++);
++
++VOID
++PHY_TxPowerByRateConfiguration(
++	IN  PADAPTER			pAdapter
++);
++
++u8
++PHY_GetTxPowerIndexBase(
++	IN	PADAPTER		pAdapter,
++	IN	u8				RFPath,
++	IN	u8				Rate,
++	IN	CHANNEL_WIDTH	BandWidth,
++	IN	u8				Channel,
++	OUT PBOOLEAN		bIn24G
++);
++
++s8
++PHY_GetTxPowerLimit(
++	IN	PADAPTER		Adapter,
++	IN	u32				RegPwrTblSel,
++	IN	BAND_TYPE		Band,
++	IN	CHANNEL_WIDTH	Bandwidth,
++	IN	u8				RfPath,
++	IN	u8				DataRate,
++	IN	u8				Channel
++);
++
++s8
++PHY_GetTxPowerLimit_no_sc(
++	IN	PADAPTER			Adapter,
++	IN	u32					RegPwrTblSel,
++	IN	BAND_TYPE			Band,
++	IN	CHANNEL_WIDTH		Bandwidth,
++	IN	u8					RfPath,
++	IN	u8					DataRate,
++	IN	u8					Channel
++);
++
++#ifdef CONFIG_PHYDM_POWERTRACK_BY_TSSI
++s8
++PHY_GetTxPowerLimitOriginal(
++	IN	PADAPTER		Adapter,
++	IN	u32				RegPwrTblSel,
++	IN	BAND_TYPE		Band,
++	IN	CHANNEL_WIDTH	Bandwidth,
++	IN	u8				RfPath,
++	IN	u8				DataRate,
++	IN	u8				Channel
++);
++#endif
++
++VOID
++PHY_ConvertTxPowerLimitToPowerIndex(
++	IN	PADAPTER			Adapter
++);
++
++VOID
++PHY_InitTxPowerLimit(
++	IN	PADAPTER			Adapter
++);
++
++s8
++PHY_GetTxPowerTrackingOffset(
++	PADAPTER	pAdapter,
++	u8			Rate,
++	u8			RFPath
++);
++
++struct txpwr_idx_comp {
++	u8 base;
++	s8 by_rate;
++	s8 limit;
++	s8 tpt;
++	s8 ebias;
++};
++
++u8
++PHY_GetTxPowerIndex(
++	IN	PADAPTER			pAdapter,
++	IN	u8					RFPath,
++	IN	u8					Rate,
++	IN	CHANNEL_WIDTH		BandWidth,
++	IN	u8					Channel
++);
++
++VOID
++PHY_SetTxPowerIndex(
++	IN	PADAPTER		pAdapter,
++	IN	u32				PowerIndex,
++	IN	u8				RFPath,
++	IN	u8				Rate
++);
++
++void dump_tx_power_idx_title(void *sel, _adapter *adapter);
++void dump_tx_power_idx_by_path_rs(void *sel, _adapter *adapter, u8 rfpath, u8 rs);
++void dump_tx_power_idx(void *sel, _adapter *adapter);
++
++bool phy_is_tx_power_limit_needed(_adapter *adapter);
++bool phy_is_tx_power_by_rate_needed(_adapter *adapter);
++int phy_load_tx_power_by_rate(_adapter *adapter, u8 chk_file);
++int phy_load_tx_power_limit(_adapter *adapter, u8 chk_file);
++void phy_load_tx_power_ext_info(_adapter *adapter, u8 chk_file);
++void phy_reload_tx_power_ext_info(_adapter *adapter);
++void phy_reload_default_tx_power_ext_info(_adapter *adapter);
++
++const struct map_t *hal_pg_txpwr_def_info(_adapter *adapter);
++
++void dump_pg_txpwr_info_2g(void *sel, TxPowerInfo24G *txpwr_info, u8 rfpath_num, u8 max_tx_cnt);
++void dump_pg_txpwr_info_5g(void *sel, TxPowerInfo5G *txpwr_info, u8 rfpath_num, u8 max_tx_cnt);
++
++void dump_hal_txpwr_info_2g(void *sel, _adapter *adapter, u8 rfpath_num, u8 max_tx_cnt);
++void dump_hal_txpwr_info_5g(void *sel, _adapter *adapter, u8 rfpath_num, u8 max_tx_cnt);
++
++void hal_load_txpwr_info(
++	_adapter *adapter,
++	TxPowerInfo24G *pwr_info_2g,
++	TxPowerInfo5G *pwr_info_5g,
++	u8 *pg_data
++);
++
++void dump_tx_power_ext_info(void *sel, _adapter *adapter);
++void dump_target_tx_power(void *sel, _adapter *adapter);
++void dump_tx_power_by_rate(void *sel, _adapter *adapter);
++void dump_tx_power_limit(void *sel, _adapter *adapter);
++
++int rtw_get_phy_file_path(_adapter *adapter, const char *file_name);
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++#define MAC_FILE_FW_NIC			"FW_NIC.bin"
++#define MAC_FILE_FW_WW_IMG		"FW_WoWLAN.bin"
++#define PHY_FILE_MAC_REG		"MAC_REG.txt"
++
++#define PHY_FILE_AGC_TAB		"AGC_TAB.txt"
++#define PHY_FILE_PHY_REG		"PHY_REG.txt"
++#define PHY_FILE_PHY_REG_MP		"PHY_REG_MP.txt"
++#define PHY_FILE_PHY_REG_PG		"PHY_REG_PG.txt"
++
++#define PHY_FILE_RADIO_A		"RadioA.txt"
++#define PHY_FILE_RADIO_B		"RadioB.txt"
++#define PHY_FILE_RADIO_C		"RadioC.txt"
++#define PHY_FILE_RADIO_D		"RadioD.txt"
++#define PHY_FILE_TXPWR_TRACK	"TxPowerTrack.txt"
++#define PHY_FILE_TXPWR_LMT		"TXPWR_LMT.txt"
++
++#define PHY_FILE_WIFI_ANT_ISOLATION	"wifi_ant_isolation.txt"
++
++#define MAX_PARA_FILE_BUF_LEN	25600
++
++#define LOAD_MAC_PARA_FILE				BIT0
++#define LOAD_BB_PARA_FILE					BIT1
++#define LOAD_BB_PG_PARA_FILE				BIT2
++#define LOAD_BB_MP_PARA_FILE				BIT3
++#define LOAD_RF_PARA_FILE					BIT4
++#define LOAD_RF_TXPWR_TRACK_PARA_FILE	BIT5
++#define LOAD_RF_TXPWR_LMT_PARA_FILE		BIT6
++
++int phy_ConfigMACWithParaFile(IN PADAPTER	Adapter, IN char	*pFileName);
++int phy_ConfigBBWithParaFile(IN PADAPTER	Adapter, IN char	*pFileName, IN u32	ConfigType);
++int phy_ConfigBBWithPgParaFile(IN PADAPTER	Adapter, IN const char *pFileName);
++int phy_ConfigBBWithMpParaFile(IN PADAPTER	Adapter, IN char	*pFileName);
++int PHY_ConfigRFWithParaFile(IN	PADAPTER	Adapter, IN char	*pFileName, IN u8	eRFPath);
++int PHY_ConfigRFWithTxPwrTrackParaFile(IN PADAPTER	Adapter, IN char	*pFileName);
++int PHY_ConfigRFWithPowerLimitTableParaFile(IN PADAPTER	Adapter, IN const char *pFileName);
++void phy_free_filebuf_mask(_adapter *padapter, u8 mask);
++void phy_free_filebuf(_adapter *padapter);
++#endif /* CONFIG_LOAD_PHY_PARA_FROM_FILE */
++
++#endif /* __HAL_COMMON_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/hal_com_reg.h b/drivers/net/wireless/rtl8812au/include/hal_com_reg.h
+new file mode 100644
+index 0000000..4ab4feb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/hal_com_reg.h
+@@ -0,0 +1,1818 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_COMMON_REG_H__
++#define __HAL_COMMON_REG_H__
++
++
++#define MAC_ADDR_LEN				6
++
++#define HAL_NAV_UPPER_UNIT		128		/* micro-second */
++
++/* 8188E PKT_BUFF_ACCESS_CTRL value */
++#define TXPKT_BUF_SELECT				0x69
++#define RXPKT_BUF_SELECT				0xA5
++#define DISABLE_TRXPKT_BUF_ACCESS		0x0
++
++#ifndef RTW_HALMAC
++/* ************************************************************
++*
++* ************************************************************ */
++
++/* -----------------------------------------------------
++*
++*	0x0000h ~ 0x00FFh	System Configuration
++*
++* ----------------------------------------------------- */
++#define REG_SYS_ISO_CTRL				0x0000
++#define REG_SYS_FUNC_EN				0x0002
++#define REG_APS_FSMCO					0x0004
++#define REG_SYS_CLKR					0x0008
++#define REG_SYS_CLK_CTRL				REG_SYS_CLKR
++#define REG_9346CR						0x000A
++#define REG_SYS_EEPROM_CTRL			0x000A
++#define REG_EE_VPD						0x000C
++#define REG_AFE_MISC					0x0010
++#define REG_SPS0_CTRL					0x0011
++#define REG_SPS0_CTRL_6					0x0016
++#define REG_POWER_OFF_IN_PROCESS		0x0017
++#define REG_SPS_OCP_CFG				0x0018
++#define REG_RSV_CTRL					0x001C
++#define REG_RF_CTRL						0x001F
++#define REG_LDOA15_CTRL				0x0020
++#define REG_LDOV12D_CTRL				0x0021
++#define REG_LDOHCI12_CTRL				0x0022
++#define REG_LPLDO_CTRL					0x0023
++#define REG_AFE_XTAL_CTRL				0x0024
++#define REG_AFE_LDO_CTRL				0x0027 /* 1.5v for 8188EE test chip, 1.4v for MP chip */
++#define REG_AFE_PLL_CTRL				0x0028
++#define REG_MAC_PHY_CTRL				0x002c /* for 92d, DMDP, SMSP, DMSP contrl */
++#define REG_APE_PLL_CTRL_EXT			0x002c
++#define REG_EFUSE_CTRL					0x0030
++#define REG_EFUSE_TEST					0x0034
++#define REG_PWR_DATA					0x0038
++#define REG_CAL_TIMER					0x003C
++#define REG_ACLK_MON					0x003E
++#define REG_GPIO_MUXCFG				0x0040
++#define REG_GPIO_IO_SEL					0x0042
++#define REG_MAC_PINMUX_CFG			0x0043
++#define REG_GPIO_PIN_CTRL				0x0044
++#define REG_GPIO_INTM					0x0048
++#define REG_LEDCFG0						0x004C
++#define REG_LEDCFG1						0x004D
++#define REG_LEDCFG2						0x004E
++#define REG_LEDCFG3						0x004F
++#define REG_FSIMR						0x0050
++#define REG_FSISR						0x0054
++#define REG_HSIMR						0x0058
++#define REG_HSISR						0x005c
++#define REG_GPIO_PIN_CTRL_2			0x0060 /* RTL8723 WIFI/BT/GPS Multi-Function GPIO Pin Control. */
++#define REG_GPIO_IO_SEL_2				0x0062 /* RTL8723 WIFI/BT/GPS Multi-Function GPIO Select. */
++#define REG_MULTI_FUNC_CTRL			0x0068 /* RTL8723 WIFI/BT/GPS Multi-Function control source. */
++#define REG_GSSR						0x006c
++#define REG_AFE_XTAL_CTRL_EXT			0x0078 /* RTL8188E */
++#define REG_XCK_OUT_CTRL				0x007c /* RTL8188E */
++#define REG_MCUFWDL					0x0080
++#define REG_WOL_EVENT					0x0081 /* RTL8188E */
++#define REG_MCUTSTCFG					0x0084
++#define REG_FDHM0						0x0088
++#define REG_HOST_SUSP_CNT				0x00BC	/* RTL8192C Host suspend counter on FPGA platform */
++#define REG_SYSTEM_ON_CTRL			0x00CC	/* For 8723AE Reset after S3 */
++#define REG_EFUSE_ACCESS				0x00CF	/* Efuse access protection for RTL8723 */
++#define REG_BIST_SCAN					0x00D0
++#define REG_BIST_RPT					0x00D4
++#define REG_BIST_ROM_RPT				0x00D8
++#define REG_USB_SIE_INTF				0x00E0
++#define REG_PCIE_MIO_INTF				0x00E4
++#define REG_PCIE_MIO_INTD				0x00E8
++#define REG_HPON_FSM					0x00EC
++#define REG_SYS_CFG						0x00F0
++#define REG_GPIO_OUTSTS				0x00F4	/* For RTL8723 only. */
++#define REG_TYPE_ID						0x00FC
++
++/*
++* 2010/12/29 MH Add for 92D
++*   */
++#define REG_MAC_PHY_CTRL_NORMAL		0x00f8
++
++
++/* -----------------------------------------------------
++*
++*	0x0100h ~ 0x01FFh	MACTOP General Configuration
++*
++* ----------------------------------------------------- */
++#define REG_CR							0x0100
++#define REG_PBP							0x0104
++#define REG_PKT_BUFF_ACCESS_CTRL		0x0106
++#define REG_TRXDMA_CTRL				0x010C
++#define REG_TRXFF_BNDY					0x0114
++#define REG_TRXFF_STATUS				0x0118
++#define REG_RXFF_PTR					0x011C
++#define REG_HIMR						0x0120
++#define REG_HISR						0x0124
++#define REG_HIMRE						0x0128
++#define REG_HISRE						0x012C
++#define REG_CPWM						0x012F
++#define REG_FWIMR						0x0130
++#define REG_FWISR						0x0134
++#define REG_FTIMR						0x0138
++#define REG_FTISR						0x013C /* RTL8192C */
++#define REG_PKTBUF_DBG_CTRL			0x0140
++#define REG_RXPKTBUF_CTRL				(REG_PKTBUF_DBG_CTRL+2)
++#define REG_PKTBUF_DBG_DATA_L			0x0144
++#define REG_PKTBUF_DBG_DATA_H		0x0148
++
++#define REG_TC0_CTRL					0x0150
++#define REG_TC1_CTRL					0x0154
++#define REG_TC2_CTRL					0x0158
++#define REG_TC3_CTRL					0x015C
++#define REG_TC4_CTRL					0x0160
++#define REG_TCUNIT_BASE				0x0164
++#define REG_MBIST_START				0x0174
++#define REG_MBIST_DONE					0x0178
++#define REG_MBIST_FAIL					0x017C
++#define REG_32K_CTRL					0x0194 /* RTL8188E */
++#define REG_C2HEVT_MSG_NORMAL		0x01A0
++#define REG_C2HEVT_CLEAR				0x01AF
++#define REG_MCUTST_1					0x01c0
++#define REG_MCUTST_WOWLAN			0x01C7	/* Defined after 8188E series. */
++#define REG_FMETHR						0x01C8
++#define REG_HMETFR						0x01CC
++#define REG_HMEBOX_0					0x01D0
++#define REG_HMEBOX_1					0x01D4
++#define REG_HMEBOX_2					0x01D8
++#define REG_HMEBOX_3					0x01DC
++#define REG_LLT_INIT					0x01E0
++#define REG_HMEBOX_EXT_0				0x01F0
++#define REG_HMEBOX_EXT_1				0x01F4
++#define REG_HMEBOX_EXT_2				0x01F8
++#define REG_HMEBOX_EXT_3				0x01FC
++
++
++/* -----------------------------------------------------
++*
++*	0x0200h ~ 0x027Fh	TXDMA Configuration
++*
++* ----------------------------------------------------- */
++#define REG_RQPN						0x0200
++#define REG_FIFOPAGE					0x0204
++#define REG_TDECTRL						0x0208
++#define REG_TXDMA_OFFSET_CHK			0x020C
++#define REG_TXDMA_STATUS				0x0210
++#define REG_RQPN_NPQ					0x0214
++#define REG_AUTO_LLT					0x0224
++
++
++/* -----------------------------------------------------
++*
++*	0x0280h ~ 0x02FFh	RXDMA Configuration
++*
++* ----------------------------------------------------- */
++#define REG_RXDMA_AGG_PG_TH			0x0280
++#define REG_RXPKT_NUM					0x0284
++#define REG_RXDMA_STATUS				0x0288
++
++/* -----------------------------------------------------
++*
++*	0x0300h ~ 0x03FFh	PCIe
++*
++* ----------------------------------------------------- */
++#ifndef CONFIG_TRX_BD_ARCH	/* prevent CONFIG_TRX_BD_ARCH to use old registers */
++
++#define REG_PCIE_CTRL_REG				0x0300
++#define REG_INT_MIG					0x0304	/* Interrupt Migration */
++#define REG_BCNQ_DESA					0x0308	/* TX Beacon Descriptor Address */
++#define REG_HQ_DESA					0x0310	/* TX High Queue Descriptor Address */
++#define REG_MGQ_DESA					0x0318	/* TX Manage Queue Descriptor Address */
++#define REG_VOQ_DESA					0x0320	/* TX VO Queue Descriptor Address */
++#define REG_VIQ_DESA					0x0328	/* TX VI Queue Descriptor Address */
++#define REG_BEQ_DESA					0x0330	/* TX BE Queue Descriptor Address */
++#define REG_BKQ_DESA					0x0338	/* TX BK Queue Descriptor Address */
++#define REG_RX_DESA					0x0340	/* RX Queue Descriptor Address */
++/* sherry added for DBI Read/Write  20091126 */
++#define REG_DBI_WDATA					0x0348	/*  Backdoor REG for Access Configuration */
++#define REG_DBI_RDATA					0x034C	/* Backdoor REG for Access Configuration */
++#define REG_DBI_CTRL					0x0350	/* Backdoor REG for Access Configuration */
++#define REG_DBI_FLAG					0x0352	/* Backdoor REG for Access Configuration */
++#define REG_MDIO					0x0354	/* MDIO for Access PCIE PHY */
++#define REG_DBG_SEL					0x0360	/* Debug Selection Register */
++#define REG_PCIE_HRPWM					0x0361	/* PCIe RPWM */
++#define REG_PCIE_HCPWM					0x0363	/* PCIe CPWM */
++#define REG_WATCH_DOG					0x0368
++#define REG_RX_RXBD_NUM					0x0382
++
++/* RTL8723 series ------------------------------- */
++#define REG_PCIE_HISR_EN				0x0394	/* PCIE Local Interrupt Enable Register */
++#define REG_PCIE_HISR					0x03A0
++#define REG_PCIE_HISRE					0x03A4
++#define REG_PCIE_HIMR					0x03A8
++#define REG_PCIE_HIMRE					0x03AC
++
++#endif /* !CONFIG_TRX_BD_ARCH */
++
++#define REG_USB_HIMR					0xFE38
++#define REG_USB_HIMRE					0xFE3C
++#define REG_USB_HISR					0xFE78
++#define REG_USB_HISRE					0xFE7C
++
++
++/* -----------------------------------------------------
++*
++*	0x0400h ~ 0x047Fh	Protocol Configuration
++*
++* ----------------------------------------------------- */
++
++/* 92C, 92D */
++#define REG_VOQ_INFO	0x0400
++#define REG_VIQ_INFO	0x0404
++#define REG_BEQ_INFO	0x0408
++#define REG_BKQ_INFO	0x040C
++
++/* 88E, 8723A, 8812A, 8821A, 92E, 8723B */
++#define REG_Q0_INFO	0x400
++#define REG_Q1_INFO	0x404
++#define REG_Q2_INFO	0x408
++#define REG_Q3_INFO	0x40C
++
++#define REG_MGQ_INFO	0x0410
++#define REG_HGQ_INFO	0x0414
++#define REG_BCNQ_INFO	0x0418
++#define REG_TXPKT_EMPTY				0x041A
++#define REG_CPU_MGQ_INFORMATION		0x041C
++#define REG_FWHW_TXQ_CTRL				0x0420
++#define REG_HWSEQ_CTRL					0x0423
++#define REG_BCNQ_BDNY					0x0424
++#define REG_MGQ_BDNY					0x0425
++#define REG_LIFETIME_CTRL				0x0426
++#define REG_MULTI_BCNQ_OFFSET			0x0427
++#define REG_SPEC_SIFS					0x0428
++#define REG_RL							0x042A
++#define REG_DARFRC						0x0430
++#define REG_RARFRC						0x0438
++#define REG_RRSR						0x0440
++#define REG_ARFR0						0x0444
++#define REG_ARFR1						0x0448
++#define REG_ARFR2						0x044C
++#define REG_ARFR3						0x0450
++#define REG_CCK_CHECK					0x0454
++#define REG_BCNQ1_BDNY					0x0457
++
++#define REG_AGGLEN_LMT					0x0458
++#define REG_AMPDU_MIN_SPACE			0x045C
++#define REG_WMAC_LBK_BF_HD			0x045D
++#define REG_FAST_EDCA_CTRL				0x0460
++#define REG_RD_RESP_PKT_TH				0x0463
++
++/* 8723A, 8812A, 8821A, 92E, 8723B */
++#define REG_Q4_INFO	0x468
++#define REG_Q5_INFO	0x46C
++#define REG_Q6_INFO	0x470
++#define REG_Q7_INFO	0x474
++
++#define REG_INIRTS_RATE_SEL				0x0480
++#define REG_INIDATA_RATE_SEL			0x0484
++
++/* 8723B, 92E, 8812A, 8821A*/
++#define REG_MACID_SLEEP_3				0x0484
++#define REG_MACID_SLEEP_1				0x0488
++
++#define REG_POWER_STAGE1				0x04B4
++#define REG_POWER_STAGE2				0x04B8
++#define REG_PKT_VO_VI_LIFE_TIME		0x04C0
++#define REG_PKT_BE_BK_LIFE_TIME		0x04C2
++#define REG_STBC_SETTING				0x04C4
++#define REG_QUEUE_CTRL					0x04C6
++#define REG_SINGLE_AMPDU_CTRL			0x04c7
++#define REG_PROT_MODE_CTRL			0x04C8
++#define REG_MAX_AGGR_NUM				0x04CA
++#define REG_RTS_MAX_AGGR_NUM			0x04CB
++#define REG_BAR_MODE_CTRL				0x04CC
++#define REG_RA_TRY_RATE_AGG_LMT		0x04CF
++
++/* 8723A */
++#define REG_MACID_DROP	0x04D0
++
++/* 88E */
++#define REG_EARLY_MODE_CONTROL	0x04D0
++
++/* 8723B, 92E, 8812A, 8821A */
++#define REG_MACID_SLEEP_2	0x04D0
++
++/* 8723A, 8723B, 92E, 8812A, 8821A */
++#define REG_MACID_SLEEP	0x04D4
++
++#define REG_NQOS_SEQ					0x04DC
++#define REG_QOS_SEQ					0x04DE
++#define REG_NEED_CPU_HANDLE			0x04E0
++#define REG_PKT_LOSE_RPT				0x04E1
++#define REG_PTCL_ERR_STATUS			0x04E2
++#define REG_TX_RPT_CTRL					0x04EC
++#define REG_TX_RPT_TIME					0x04F0	/* 2 byte */
++#define REG_DUMMY						0x04FC
++
++/* -----------------------------------------------------
++*
++*	0x0500h ~ 0x05FFh	EDCA Configuration
++*
++* ----------------------------------------------------- */
++#define REG_EDCA_VO_PARAM				0x0500
++#define REG_EDCA_VI_PARAM				0x0504
++#define REG_EDCA_BE_PARAM				0x0508
++#define REG_EDCA_BK_PARAM				0x050C
++#define REG_BCNTCFG						0x0510
++#define REG_PIFS							0x0512
++#define REG_RDG_PIFS					0x0513
++#define REG_SIFS_CTX					0x0514
++#define REG_SIFS_TRX					0x0516
++#define REG_TSFTR_SYN_OFFSET			0x0518
++#define REG_AGGR_BREAK_TIME			0x051A
++#define REG_SLOT						0x051B
++#define REG_TX_PTCL_CTRL				0x0520
++#define REG_TXPAUSE						0x0522
++#define REG_DIS_TXREQ_CLR				0x0523
++#define REG_RD_CTRL						0x0524
++/*
++* Format for offset 540h-542h:
++*	[3:0]:   TBTT prohibit setup in unit of 32us. The time for HW getting beacon content before TBTT.
++*	[7:4]:   Reserved.
++*	[19:8]:  TBTT prohibit hold in unit of 32us. The time for HW holding to send the beacon packet.
++*	[23:20]: Reserved
++* Description:
++*	              |
++*      |<--Setup--|--Hold------------>|
++*   --------------|----------------------
++*                 |
++*                TBTT
++* Note: We cannot update beacon content to HW or send any AC packets during the time between Setup and Hold.
++* Described by Designer Tim and Bruce, 2011-01-14.
++*   */
++#define REG_TBTT_PROHIBIT				0x0540
++#define REG_RD_NAV_NXT					0x0544
++#define REG_NAV_PROT_LEN				0x0546
++#define REG_BCN_CTRL					0x0550
++#define REG_BCN_CTRL_1					0x0551
++#define REG_MBID_NUM					0x0552
++#define REG_DUAL_TSF_RST				0x0553
++#define REG_BCN_INTERVAL				0x0554	/* The same as REG_MBSSID_BCN_SPACE */
++#define REG_DRVERLYINT					0x0558
++#define REG_BCNDMATIM					0x0559
++#define REG_ATIMWND					0x055A
++#define REG_USTIME_TSF					0x055C
++#define REG_BCN_MAX_ERR				0x055D
++#define REG_RXTSF_OFFSET_CCK			0x055E
++#define REG_RXTSF_OFFSET_OFDM			0x055F
++#define REG_TSFTR						0x0560
++#define REG_TSFTR1						0x0568	/* HW Port 1 TSF Register */
++#define REG_ATIMWND_1					0x0570
++#define REG_P2P_CTWIN					0x0572 /* 1 Byte long (in unit of TU) */
++#define REG_PSTIMER						0x0580
++#define REG_TIMER0						0x0584
++#define REG_TIMER1						0x0588
++#define REG_ACMHWCTRL					0x05C0
++#define REG_NOA_DESC_SEL				0x05CF
++#define REG_NOA_DESC_DURATION		0x05E0
++#define REG_NOA_DESC_INTERVAL			0x05E4
++#define REG_NOA_DESC_START			0x05E8
++#define REG_NOA_DESC_COUNT			0x05EC
++
++#define REG_DMC							0x05F0	/* Dual MAC Co-Existence Register */
++#define REG_SCH_TX_CMD					0x05F8
++
++#define REG_FW_RESET_TSF_CNT_1		0x05FC
++#define REG_FW_RESET_TSF_CNT_0		0x05FD
++#define REG_FW_BCN_DIS_CNT			0x05FE
++
++/* -----------------------------------------------------
++*
++*	0x0600h ~ 0x07FFh	WMAC Configuration
++*
++* ----------------------------------------------------- */
++#define REG_APSD_CTRL					0x0600
++#define REG_BWOPMODE					0x0603
++#define REG_TCR							0x0604
++#define REG_RCR							0x0608
++#define REG_RX_PKT_LIMIT				0x060C
++#define REG_RX_DLK_TIME				0x060D
++#define REG_RX_DRVINFO_SZ				0x060F
++
++#define REG_MACID						0x0610
++#define REG_BSSID						0x0618
++#define REG_MAR							0x0620
++#define REG_MBIDCAMCFG_1				0x0628
++#define REG_MBIDCAMCFG_2				0x062C
++
++#define REG_PNO_STATUS					0x0631
++#define REG_USTIME_EDCA				0x0638
++#define REG_MAC_SPEC_SIFS				0x063A
++/* 20100719 Joseph: Hardware register definition change. (HW datasheet v54) */
++#define REG_RESP_SIFS_CCK				0x063C	/* [15:8]SIFS_R2T_OFDM, [7:0]SIFS_R2T_CCK */
++#define REG_RESP_SIFS_OFDM                    0x063E	/* [15:8]SIFS_T2T_OFDM, [7:0]SIFS_T2T_CCK */
++
++#define REG_ACKTO						0x0640
++#define REG_CTS2TO						0x0641
++#define REG_EIFS							0x0642
++
++
++/* RXERR_RPT */
++#define RXERR_TYPE_OFDM_PPDU			0
++#define RXERR_TYPE_OFDM_FALSE_ALARM	1
++#define RXERR_TYPE_OFDM_MPDU_OK		2
++#define RXERR_TYPE_OFDM_MPDU_FAIL	3
++#define RXERR_TYPE_CCK_PPDU			4
++#define RXERR_TYPE_CCK_FALSE_ALARM	5
++#define RXERR_TYPE_CCK_MPDU_OK		6
++#define RXERR_TYPE_CCK_MPDU_FAIL		7
++#define RXERR_TYPE_HT_PPDU				8
++#define RXERR_TYPE_HT_FALSE_ALARM	9
++#define RXERR_TYPE_HT_MPDU_TOTAL		10
++#define RXERR_TYPE_HT_MPDU_OK			11
++#define RXERR_TYPE_HT_MPDU_FAIL		12
++#define RXERR_TYPE_RX_FULL_DROP		15
++
++#define RXERR_COUNTER_MASK			0xFFFFF
++#define RXERR_RPT_RST					BIT(27)
++#define _RXERR_RPT_SEL(type)			((type) << 28)
++
++/*
++* Note:
++*	The NAV upper value is very important to WiFi 11n 5.2.3 NAV test. The default value is
++*	always too small, but the WiFi TestPlan test by 25,000 microseconds of NAV through sending
++*	CTS in the air. We must update this value greater than 25,000 microseconds to pass the item.
++*	The offset of NAV_UPPER in 8192C Spec is incorrect, and the offset should be 0x0652. Commented
++*	by SD1 Scott.
++* By Bruce, 2011-07-18.
++*   */
++#define REG_NAV_UPPER					0x0652	/* unit of 128 */
++
++/* WMA, BA, CCX */
++#define REG_NAV_CTRL					0x0650
++#define REG_BACAMCMD					0x0654
++#define REG_BACAMCONTENT				0x0658
++#define REG_LBDLY						0x0660
++#define REG_FWDLY						0x0661
++#define REG_RXERR_RPT					0x0664
++#define REG_WMAC_TRXPTCL_CTL			0x0668
++
++/* Security */
++#define REG_CAMCMD						0x0670
++#define REG_CAMWRITE					0x0674
++#define REG_CAMREAD					0x0678
++#define REG_CAMDBG						0x067C
++#define REG_SECCFG						0x0680
++
++/* Power */
++#define REG_WOW_CTRL					0x0690
++#define REG_PS_RX_INFO					0x0692
++#define REG_UAPSD_TID					0x0693
++#define REG_WKFMCAM_CMD				0x0698
++#define REG_WKFMCAM_NUM				REG_WKFMCAM_CMD
++#define REG_WKFMCAM_RWD				0x069C
++#define REG_RXFLTMAP0					0x06A0
++#define REG_RXFLTMAP1					0x06A2
++#define REG_RXFLTMAP2					0x06A4
++#define REG_BCN_PSR_RPT				0x06A8
++#define REG_BT_COEX_TABLE				0x06C0
++
++/* Hardware Port 1 */
++#define REG_MACID1						0x0700
++#define REG_BSSID1						0x0708
++/* Hardware Port 2 */
++#define REG_MACID2						0x1620
++#define REG_BSSID2						0x1628
++/* Hardware Port 3*/
++#define REG_MACID3						0x1630
++#define REG_BSSID3						0x1638
++/* Hardware Port 4 */
++#define REG_MACID4						0x1640
++#define REG_BSSID4						0x1648
++
++
++#define REG_CR_EXT						0x1100
++
++/* -----------------------------------------------------
++*
++*	0xFE00h ~ 0xFE55h	USB Configuration
++*
++* ----------------------------------------------------- */
++#define REG_USB_INFO					0xFE17
++#define REG_USB_SPECIAL_OPTION		0xFE55
++#define REG_USB_DMA_AGG_TO			0xFE5B
++#define REG_USB_AGG_TO					0xFE5C
++#define REG_USB_AGG_TH					0xFE5D
++
++#define REG_USB_HRPWM					0xFE58
++#define REG_USB_HCPWM					0xFE57
++
++/* for 92DU high_Queue low_Queue Normal_Queue select */
++#define REG_USB_High_NORMAL_Queue_Select_MAC0	0xFE44
++/* #define REG_USB_LOW_Queue_Select_MAC0		0xFE45 */
++#define REG_USB_High_NORMAL_Queue_Select_MAC1	0xFE47
++/* #define REG_USB_LOW_Queue_Select_MAC1		0xFE48 */
++
++/* For test chip */
++#define REG_TEST_USB_TXQS				0xFE48
++#define REG_TEST_SIE_VID				0xFE60		/* 0xFE60~0xFE61 */
++#define REG_TEST_SIE_PID				0xFE62		/* 0xFE62~0xFE63 */
++#define REG_TEST_SIE_OPTIONAL			0xFE64
++#define REG_TEST_SIE_CHIRP_K			0xFE65
++#define REG_TEST_SIE_PHY				0xFE66		/* 0xFE66~0xFE6B */
++#define REG_TEST_SIE_MAC_ADDR			0xFE70		/* 0xFE70~0xFE75 */
++#define REG_TEST_SIE_STRING			0xFE80		/* 0xFE80~0xFEB9 */
++
++
++/* For normal chip */
++#define REG_NORMAL_SIE_VID				0xFE60		/* 0xFE60~0xFE61 */
++#define REG_NORMAL_SIE_PID				0xFE62		/* 0xFE62~0xFE63 */
++#define REG_NORMAL_SIE_OPTIONAL		0xFE64
++#define REG_NORMAL_SIE_EP				0xFE65		/* 0xFE65~0xFE67 */
++#define REG_NORMAL_SIE_PHY			0xFE68		/* 0xFE68~0xFE6B */
++#define REG_NORMAL_SIE_OPTIONAL2		0xFE6C
++#define REG_NORMAL_SIE_GPS_EP			0xFE6D		/* 0xFE6D, for RTL8723 only. */
++#define REG_NORMAL_SIE_MAC_ADDR		0xFE70		/* 0xFE70~0xFE75 */
++#define REG_NORMAL_SIE_STRING			0xFE80		/* 0xFE80~0xFEDF */
++
++
++/* -----------------------------------------------------
++*
++*	Redifine 8192C register definition for compatibility
++*
++* ----------------------------------------------------- */
++
++/* TODO: use these definition when using REG_xxx naming rule.
++* NOTE: DO NOT Remove these definition. Use later. */
++
++#define EFUSE_CTRL				REG_EFUSE_CTRL		/* E-Fuse Control. */
++#define EFUSE_TEST				REG_EFUSE_TEST		/* E-Fuse Test. */
++#define MSR						(REG_CR + 2)		/* Media Status register */
++/* #define ISR						REG_HISR */
++#define MSR1						REG_CR_EXT
++
++#define TSFR						REG_TSFTR			/* Timing Sync Function Timer Register. */
++#define TSFR1					REG_TSFTR1			/* HW Port 1 TSF Register */
++
++#define PBP						REG_PBP
++
++/* Redifine MACID register, to compatible prior ICs. */
++#define IDR0						REG_MACID			/* MAC ID Register, Offset 0x0050-0x0053 */
++#define IDR4						(REG_MACID + 4)		/* MAC ID Register, Offset 0x0054-0x0055 */
++
++
++/*
++* 9. Security Control Registers	(Offset: )
++*   */
++#define RWCAM					REG_CAMCMD		/* IN 8190 Data Sheet is called CAMcmd */
++#define WCAMI					REG_CAMWRITE	/* Software write CAM input content */
++#define RCAMO					REG_CAMREAD		/* Software read/write CAM config */
++#define CAMDBG					REG_CAMDBG
++#define SECR						REG_SECCFG		/* Security Configuration Register */
++
++/* Unused register */
++#define UnusedRegister			0x1BF
++#define DCAM					UnusedRegister
++#define PSR						UnusedRegister
++#define BBAddr					UnusedRegister
++#define PhyDataR					UnusedRegister
++
++/* Min Spacing related settings. */
++#define MAX_MSS_DENSITY_2T			0x13
++#define MAX_MSS_DENSITY_1T			0x0A
++
++/* ----------------------------------------------------------------------------
++* 8192C Cmd9346CR bits					(Offset 0xA, 16bit)
++* ---------------------------------------------------------------------------- */
++#define CmdEEPROM_En				BIT5	 /* EEPROM enable when set 1 */
++#define CmdEERPOMSEL				BIT4	/* System EEPROM select, 0: boot from E-FUSE, 1: The EEPROM used is 9346 */
++#define Cmd9346CR_9356SEL			BIT4
++
++/* ----------------------------------------------------------------------------
++* 8192C GPIO MUX Configuration Register (offset 0x40, 4 byte)
++* ---------------------------------------------------------------------------- */
++#define GPIOSEL_GPIO				0
++#define GPIOSEL_ENBT				BIT5
++
++/* ----------------------------------------------------------------------------
++* 8192C GPIO PIN Control Register (offset 0x44, 4 byte)
++* ---------------------------------------------------------------------------- */
++#define GPIO_IN					REG_GPIO_PIN_CTRL		/* GPIO pins input value */
++#define GPIO_OUT				(REG_GPIO_PIN_CTRL+1)	/* GPIO pins output value */
++#define GPIO_IO_SEL				(REG_GPIO_PIN_CTRL+2)	/* GPIO pins output enable when a bit is set to "1"; otherwise, input is configured. */
++#define GPIO_MOD				(REG_GPIO_PIN_CTRL+3)
++
++/* ----------------------------------------------------------------------------
++* 8811A GPIO PIN Control Register (offset 0x60, 4 byte)
++* ---------------------------------------------------------------------------- */
++#define GPIO_IN_8811A			REG_GPIO_PIN_CTRL_2		/* GPIO pins input value */
++#define GPIO_OUT_8811A			(REG_GPIO_PIN_CTRL_2+1)	/* GPIO pins output value */
++#define GPIO_IO_SEL_8811A		(REG_GPIO_PIN_CTRL_2+2)	/* GPIO pins output enable when a bit is set to "1"; otherwise, input is configured. */
++#define GPIO_MOD_8811A			(REG_GPIO_PIN_CTRL_2+3)
++
++/* ----------------------------------------------------------------------------
++* 8723/8188E Host System Interrupt Mask Register (offset 0x58, 32 byte)
++* ---------------------------------------------------------------------------- */
++#define HSIMR_GPIO12_0_INT_EN			BIT0
++#define HSIMR_SPS_OCP_INT_EN			BIT5
++#define HSIMR_RON_INT_EN				BIT6
++#define HSIMR_PDN_INT_EN				BIT7
++#define HSIMR_GPIO9_INT_EN				BIT25
++
++/* ----------------------------------------------------------------------------
++* 8723/8188E Host System Interrupt Status Register (offset 0x5C, 32 byte)
++* ---------------------------------------------------------------------------- */
++#define HSISR_GPIO12_0_INT				BIT0
++#define HSISR_SPS_OCP_INT				BIT5
++#define HSISR_RON_INT					BIT6
++#define HSISR_PDNINT					BIT7
++#define HSISR_GPIO9_INT					BIT25
++
++/* ----------------------------------------------------------------------------
++* 8192C (MSR) Media Status Register	(Offset 0x4C, 8 bits)
++* ---------------------------------------------------------------------------- */
++/*
++Network Type
++00: No link
++01: Link in ad hoc network
++10: Link in infrastructure network
++11: AP mode
++Default: 00b.
++*/
++#define MSR_NOLINK				0x00
++#define MSR_ADHOC				0x01
++#define MSR_INFRA				0x02
++#define MSR_AP					0x03
++
++/* ----------------------------------------------------------------------------
++* USB INTR CONTENT
++* ---------------------------------------------------------------------------- */
++#define USB_C2H_CMDID_OFFSET					0
++#define USB_C2H_SEQ_OFFSET					1
++#define USB_C2H_EVENT_OFFSET					2
++#define USB_INTR_CPWM_OFFSET					16
++#define USB_INTR_CONTENT_C2H_OFFSET			0
++#define USB_INTR_CONTENT_CPWM1_OFFSET		16
++#define USB_INTR_CONTENT_CPWM2_OFFSET		20
++#define USB_INTR_CONTENT_HISR_OFFSET			48
++#define USB_INTR_CONTENT_HISRE_OFFSET		52
++#define USB_INTR_CONTENT_LENGTH				56
++
++/* ----------------------------------------------------------------------------
++* Response Rate Set Register	(offset 0x440, 24bits)
++* ---------------------------------------------------------------------------- */
++#define RRSR_1M					BIT0
++#define RRSR_2M					BIT1
++#define RRSR_5_5M				BIT2
++#define RRSR_11M				BIT3
++#define RRSR_6M					BIT4
++#define RRSR_9M					BIT5
++#define RRSR_12M				BIT6
++#define RRSR_18M				BIT7
++#define RRSR_24M				BIT8
++#define RRSR_36M				BIT9
++#define RRSR_48M				BIT10
++#define RRSR_54M				BIT11
++#define RRSR_MCS0				BIT12
++#define RRSR_MCS1				BIT13
++#define RRSR_MCS2				BIT14
++#define RRSR_MCS3				BIT15
++#define RRSR_MCS4				BIT16
++#define RRSR_MCS5				BIT17
++#define RRSR_MCS6				BIT18
++#define RRSR_MCS7				BIT19
++
++#define RRSR_CCK_RATES (RRSR_11M | RRSR_5_5M | RRSR_2M | RRSR_1M)
++#define RRSR_OFDM_RATES (RRSR_54M | RRSR_48M | RRSR_36M | RRSR_24M | RRSR_18M | RRSR_12M | RRSR_9M | RRSR_6M)
++
++/* WOL bit information */
++#define HAL92C_WOL_PTK_UPDATE_EVENT		BIT0
++#define HAL92C_WOL_GTK_UPDATE_EVENT		BIT1
++#define HAL92C_WOL_DISASSOC_EVENT		BIT2
++#define HAL92C_WOL_DEAUTH_EVENT			BIT3
++#define HAL92C_WOL_FW_DISCONNECT_EVENT	BIT4
++
++
++/*----------------------------------------------------------------------------
++**      REG_CCK_CHECK						(offset 0x454)
++------------------------------------------------------------------------------*/
++#define BIT_BCN_PORT_SEL		BIT5
++
++#endif /* RTW_HALMAC */
++
++/* ----------------------------------------------------------------------------
++ * Rate Definition
++ * ---------------------------------------------------------------------------- */
++/* CCK */
++#define	RATR_1M					0x00000001
++#define	RATR_2M					0x00000002
++#define	RATR_55M					0x00000004
++#define	RATR_11M					0x00000008
++/* OFDM		 */
++#define	RATR_6M					0x00000010
++#define	RATR_9M					0x00000020
++#define	RATR_12M					0x00000040
++#define	RATR_18M					0x00000080
++#define	RATR_24M					0x00000100
++#define	RATR_36M					0x00000200
++#define	RATR_48M					0x00000400
++#define	RATR_54M					0x00000800
++/* MCS 1 Spatial Stream	 */
++#define	RATR_MCS0					0x00001000
++#define	RATR_MCS1					0x00002000
++#define	RATR_MCS2					0x00004000
++#define	RATR_MCS3					0x00008000
++#define	RATR_MCS4					0x00010000
++#define	RATR_MCS5					0x00020000
++#define	RATR_MCS6					0x00040000
++#define	RATR_MCS7					0x00080000
++/* MCS 2 Spatial Stream */
++#define	RATR_MCS8					0x00100000
++#define	RATR_MCS9					0x00200000
++#define	RATR_MCS10					0x00400000
++#define	RATR_MCS11					0x00800000
++#define	RATR_MCS12					0x01000000
++#define	RATR_MCS13					0x02000000
++#define	RATR_MCS14					0x04000000
++#define	RATR_MCS15					0x08000000
++
++/* CCK */
++#define RATE_1M					BIT(0)
++#define RATE_2M					BIT(1)
++#define RATE_5_5M				BIT(2)
++#define RATE_11M				BIT(3)
++/* OFDM */
++#define RATE_6M					BIT(4)
++#define RATE_9M					BIT(5)
++#define RATE_12M				BIT(6)
++#define RATE_18M				BIT(7)
++#define RATE_24M				BIT(8)
++#define RATE_36M				BIT(9)
++#define RATE_48M				BIT(10)
++#define RATE_54M				BIT(11)
++/* MCS 1 Spatial Stream */
++#define RATE_MCS0				BIT(12)
++#define RATE_MCS1				BIT(13)
++#define RATE_MCS2				BIT(14)
++#define RATE_MCS3				BIT(15)
++#define RATE_MCS4				BIT(16)
++#define RATE_MCS5				BIT(17)
++#define RATE_MCS6				BIT(18)
++#define RATE_MCS7				BIT(19)
++/* MCS 2 Spatial Stream */
++#define RATE_MCS8				BIT(20)
++#define RATE_MCS9				BIT(21)
++#define RATE_MCS10				BIT(22)
++#define RATE_MCS11				BIT(23)
++#define RATE_MCS12				BIT(24)
++#define RATE_MCS13				BIT(25)
++#define RATE_MCS14				BIT(26)
++#define RATE_MCS15				BIT(27)
++
++
++/* ALL CCK Rate */
++#define	RATE_ALL_CCK				(RATR_1M | RATR_2M | RATR_55M | RATR_11M)
++#define	RATE_ALL_OFDM_AG			(RATR_6M | RATR_9M | RATR_12M | RATR_18M | RATR_24M|\
++	RATR_36M | RATR_48M | RATR_54M)
++#define	RATE_ALL_OFDM_1SS			(RATR_MCS0 | RATR_MCS1 | RATR_MCS2 | RATR_MCS3 |\
++	RATR_MCS4 | RATR_MCS5 | RATR_MCS6 | RATR_MCS7)
++#define	RATE_ALL_OFDM_2SS			(RATR_MCS8 | RATR_MCS9 | RATR_MCS10 | RATR_MCS11|\
++	RATR_MCS12 | RATR_MCS13 | RATR_MCS14 | RATR_MCS15)
++
++#define RATE_BITMAP_ALL			0xFFFFF
++
++/* Only use CCK 1M rate for ACK */
++#define RATE_RRSR_CCK_ONLY_1M		0xFFFF1
++#define RATE_RRSR_WITHOUT_CCK		0xFFFF0
++
++/* ----------------------------------------------------------------------------
++ * BW_OPMODE bits				(Offset 0x603, 8bit)
++ * ---------------------------------------------------------------------------- */
++#define BW_OPMODE_20MHZ			BIT2
++#define BW_OPMODE_5G				BIT1
++
++/* ----------------------------------------------------------------------------
++ * CAM Config Setting (offset 0x680, 1 byte)
++ * ----------------------------------------------------------------------------			 */
++#define CAM_VALID				BIT15
++#define CAM_NOTVALID			0x0000
++#define CAM_USEDK				BIT5
++
++#define CAM_CONTENT_COUNT	8
++
++#define CAM_NONE				0x0
++#define CAM_WEP40				0x01
++#define CAM_TKIP				0x02
++#define CAM_AES					0x04
++#define CAM_WEP104				0x05
++#define CAM_SMS4				0x6
++
++#define TOTAL_CAM_ENTRY		32
++#define HALF_CAM_ENTRY			16
++
++#define CAM_CONFIG_USEDK		_TRUE
++#define CAM_CONFIG_NO_USEDK	_FALSE
++
++#define CAM_WRITE				BIT16
++#define CAM_READ				0x00000000
++#define CAM_POLLINIG			BIT31
++
++/*
++ * 10. Power Save Control Registers
++ *   */
++#define WOW_PMEN				BIT0 /* Power management Enable. */
++#define WOW_WOMEN				BIT1 /* WoW function on or off. */
++#define WOW_MAGIC				BIT2 /* Magic packet */
++#define WOW_UWF				BIT3 /* Unicast Wakeup frame. */
++
++/*
++ * 12. Host Interrupt Status Registers
++ *
++ * ----------------------------------------------------------------------------
++ * 8190 IMR/ISR bits
++ * ---------------------------------------------------------------------------- */
++#define IMR8190_DISABLED		0x0
++#define IMR_DISABLED			0x0
++/* IMR DW0 Bit 0-31 */
++#define IMR_BCNDMAINT6			BIT31		/* Beacon DMA Interrupt 6 */
++#define IMR_BCNDMAINT5			BIT30		/* Beacon DMA Interrupt 5 */
++#define IMR_BCNDMAINT4			BIT29		/* Beacon DMA Interrupt 4 */
++#define IMR_BCNDMAINT3			BIT28		/* Beacon DMA Interrupt 3 */
++#define IMR_BCNDMAINT2			BIT27		/* Beacon DMA Interrupt 2 */
++#define IMR_BCNDMAINT1			BIT26		/* Beacon DMA Interrupt 1 */
++#define IMR_BCNDOK8				BIT25		/* Beacon Queue DMA OK Interrup 8 */
++#define IMR_BCNDOK7				BIT24		/* Beacon Queue DMA OK Interrup 7 */
++#define IMR_BCNDOK6				BIT23		/* Beacon Queue DMA OK Interrup 6 */
++#define IMR_BCNDOK5				BIT22		/* Beacon Queue DMA OK Interrup 5 */
++#define IMR_BCNDOK4				BIT21		/* Beacon Queue DMA OK Interrup 4 */
++#define IMR_BCNDOK3				BIT20		/* Beacon Queue DMA OK Interrup 3 */
++#define IMR_BCNDOK2				BIT19		/* Beacon Queue DMA OK Interrup 2 */
++#define IMR_BCNDOK1				BIT18		/* Beacon Queue DMA OK Interrup 1 */
++#define IMR_TIMEOUT2			BIT17		/* Timeout interrupt 2 */
++#define IMR_TIMEOUT1			BIT16		/* Timeout interrupt 1 */
++#define IMR_TXFOVW				BIT15		/* Transmit FIFO Overflow */
++#define IMR_PSTIMEOUT			BIT14		/* Power save time out interrupt */
++#define IMR_BcnInt				BIT13		/* Beacon DMA Interrupt 0 */
++#define IMR_RXFOVW				BIT12		/* Receive FIFO Overflow */
++#define IMR_RDU					BIT11		/* Receive Descriptor Unavailable */
++#define IMR_ATIMEND				BIT10		/* For 92C, ATIM Window End Interrupt. For 8723 and later ICs, it also means P2P CTWin End interrupt. */
++#define IMR_BDOK				BIT9		/* Beacon Queue DMA OK Interrup */
++#define IMR_HIGHDOK				BIT8		/* High Queue DMA OK Interrupt */
++#define IMR_TBDOK				BIT7		/* Transmit Beacon OK interrup */
++#define IMR_MGNTDOK			BIT6		/* Management Queue DMA OK Interrupt */
++#define IMR_TBDER				BIT5		/* For 92C, Transmit Beacon Error Interrupt */
++#define IMR_BKDOK				BIT4		/* AC_BK DMA OK Interrupt */
++#define IMR_BEDOK				BIT3		/* AC_BE DMA OK Interrupt */
++#define IMR_VIDOK				BIT2		/* AC_VI DMA OK Interrupt */
++#define IMR_VODOK				BIT1		/* AC_VO DMA Interrupt */
++#define IMR_ROK					BIT0		/* Receive DMA OK Interrupt */
++
++/* 13. Host Interrupt Status Extension Register	 (Offset: 0x012C-012Eh) */
++#define IMR_TSF_BIT32_TOGGLE	BIT15
++#define IMR_BcnInt_E				BIT12
++#define IMR_TXERR				BIT11
++#define IMR_RXERR				BIT10
++#define IMR_C2HCMD				BIT9
++#define IMR_CPWM				BIT8
++/* RSVD [2-7] */
++#define IMR_OCPINT				BIT1
++#define IMR_WLANOFF			BIT0
++
++/* ----------------------------------------------------------------------------
++ * 8723E series PCIE Host IMR/ISR bit
++ * ---------------------------------------------------------------------------- */
++/* IMR DW0 Bit 0-31 */
++#define PHIMR_TIMEOUT2				BIT31
++#define PHIMR_TIMEOUT1				BIT30
++#define PHIMR_PSTIMEOUT			BIT29
++#define PHIMR_GTINT4				BIT28
++#define PHIMR_GTINT3				BIT27
++#define PHIMR_TXBCNERR				BIT26
++#define PHIMR_TXBCNOK				BIT25
++#define PHIMR_TSF_BIT32_TOGGLE	BIT24
++#define PHIMR_BCNDMAINT3			BIT23
++#define PHIMR_BCNDMAINT2			BIT22
++#define PHIMR_BCNDMAINT1			BIT21
++#define PHIMR_BCNDMAINT0			BIT20
++#define PHIMR_BCNDOK3				BIT19
++#define PHIMR_BCNDOK2				BIT18
++#define PHIMR_BCNDOK1				BIT17
++#define PHIMR_BCNDOK0				BIT16
++#define PHIMR_HSISR_IND_ON			BIT15
++#define PHIMR_BCNDMAINT_E			BIT14
++#define PHIMR_ATIMEND_E			BIT13
++#define PHIMR_ATIM_CTW_END		BIT12
++#define PHIMR_HISRE_IND			BIT11	/* RO. HISRE Indicator (HISRE & HIMRE is true, this bit is set to 1) */
++#define PHIMR_C2HCMD				BIT10
++#define PHIMR_CPWM2				BIT9
++#define PHIMR_CPWM					BIT8
++#define PHIMR_HIGHDOK				BIT7		/* High Queue DMA OK Interrupt */
++#define PHIMR_MGNTDOK				BIT6		/* Management Queue DMA OK Interrupt */
++#define PHIMR_BKDOK					BIT5		/* AC_BK DMA OK Interrupt */
++#define PHIMR_BEDOK					BIT4		/* AC_BE DMA OK Interrupt */
++#define PHIMR_VIDOK					BIT3		/* AC_VI DMA OK Interrupt */
++#define PHIMR_VODOK				BIT2		/* AC_VO DMA Interrupt */
++#define PHIMR_RDU					BIT1		/* Receive Descriptor Unavailable */
++#define PHIMR_ROK					BIT0		/* Receive DMA OK Interrupt */
++
++/* PCIE Host Interrupt Status Extension bit */
++#define PHIMR_BCNDMAINT7			BIT23
++#define PHIMR_BCNDMAINT6			BIT22
++#define PHIMR_BCNDMAINT5			BIT21
++#define PHIMR_BCNDMAINT4			BIT20
++#define PHIMR_BCNDOK7				BIT19
++#define PHIMR_BCNDOK6				BIT18
++#define PHIMR_BCNDOK5				BIT17
++#define PHIMR_BCNDOK4				BIT16
++/* bit12 15: RSVD */
++#define PHIMR_TXERR					BIT11
++#define PHIMR_RXERR					BIT10
++#define PHIMR_TXFOVW				BIT9
++#define PHIMR_RXFOVW				BIT8
++/* bit2-7: RSVD */
++#define PHIMR_OCPINT				BIT1
++/* bit0: RSVD */
++
++#define UHIMR_TIMEOUT2				BIT31
++#define UHIMR_TIMEOUT1				BIT30
++#define UHIMR_PSTIMEOUT			BIT29
++#define UHIMR_GTINT4				BIT28
++#define UHIMR_GTINT3				BIT27
++#define UHIMR_TXBCNERR				BIT26
++#define UHIMR_TXBCNOK				BIT25
++#define UHIMR_TSF_BIT32_TOGGLE	BIT24
++#define UHIMR_BCNDMAINT3			BIT23
++#define UHIMR_BCNDMAINT2			BIT22
++#define UHIMR_BCNDMAINT1			BIT21
++#define UHIMR_BCNDMAINT0			BIT20
++#define UHIMR_BCNDOK3				BIT19
++#define UHIMR_BCNDOK2				BIT18
++#define UHIMR_BCNDOK1				BIT17
++#define UHIMR_BCNDOK0				BIT16
++#define UHIMR_HSISR_IND			BIT15
++#define UHIMR_BCNDMAINT_E			BIT14
++/* RSVD	BIT13 */
++#define UHIMR_CTW_END				BIT12
++/* RSVD	BIT11 */
++#define UHIMR_C2HCMD				BIT10
++#define UHIMR_CPWM2				BIT9
++#define UHIMR_CPWM					BIT8
++#define UHIMR_HIGHDOK				BIT7		/* High Queue DMA OK Interrupt */
++#define UHIMR_MGNTDOK				BIT6		/* Management Queue DMA OK Interrupt */
++#define UHIMR_BKDOK				BIT5		/* AC_BK DMA OK Interrupt */
++#define UHIMR_BEDOK				BIT4		/* AC_BE DMA OK Interrupt */
++#define UHIMR_VIDOK					BIT3		/* AC_VI DMA OK Interrupt */
++#define UHIMR_VODOK				BIT2		/* AC_VO DMA Interrupt */
++#define UHIMR_RDU					BIT1		/* Receive Descriptor Unavailable */
++#define UHIMR_ROK					BIT0		/* Receive DMA OK Interrupt */
++
++/* USB Host Interrupt Status Extension bit */
++#define UHIMR_BCNDMAINT7			BIT23
++#define UHIMR_BCNDMAINT6			BIT22
++#define UHIMR_BCNDMAINT5			BIT21
++#define UHIMR_BCNDMAINT4			BIT20
++#define UHIMR_BCNDOK7				BIT19
++#define UHIMR_BCNDOK6				BIT18
++#define UHIMR_BCNDOK5				BIT17
++#define UHIMR_BCNDOK4				BIT16
++/* bit14-15: RSVD */
++#define UHIMR_ATIMEND_E			BIT13
++#define UHIMR_ATIMEND				BIT12
++#define UHIMR_TXERR					BIT11
++#define UHIMR_RXERR					BIT10
++#define UHIMR_TXFOVW				BIT9
++#define UHIMR_RXFOVW				BIT8
++/* bit2-7: RSVD */
++#define UHIMR_OCPINT				BIT1
++/* bit0: RSVD */
++
++
++#define HAL_NIC_UNPLUG_ISR			0xFFFFFFFF	/* The value when the NIC is unplugged for PCI. */
++#define HAL_NIC_UNPLUG_PCI_ISR		0xEAEAEAEA	/* The value when the NIC is unplugged for PCI in PCI interrupt (page 3). */
++
++/* ----------------------------------------------------------------------------
++ * 8188 IMR/ISR bits
++ * ---------------------------------------------------------------------------- */
++#define IMR_DISABLED_88E			0x0
++/* IMR DW0(0x0060-0063) Bit 0-31 */
++#define IMR_TXCCK_88E				BIT30		/* TXRPT interrupt when CCX bit of the packet is set	 */
++#define IMR_PSTIMEOUT_88E			BIT29		/* Power Save Time Out Interrupt */
++#define IMR_GTINT4_88E				BIT28		/* When GTIMER4 expires, this bit is set to 1	 */
++#define IMR_GTINT3_88E				BIT27		/* When GTIMER3 expires, this bit is set to 1	 */
++#define IMR_TBDER_88E				BIT26		/* Transmit Beacon0 Error			 */
++#define IMR_TBDOK_88E				BIT25		/* Transmit Beacon0 OK			 */
++#define IMR_TSF_BIT32_TOGGLE_88E	BIT24		/* TSF Timer BIT32 toggle indication interrupt			 */
++#define IMR_BCNDMAINT0_88E		BIT20		/* Beacon DMA Interrupt 0			 */
++#define IMR_BCNDERR0_88E			BIT16		/* Beacon Queue DMA Error 0 */
++#define IMR_HSISR_IND_ON_INT_88E	BIT15		/* HSISR Indicator (HSIMR & HSISR is true, this bit is set to 1)			 */
++#define IMR_BCNDMAINT_E_88E		BIT14		/* Beacon DMA Interrupt Extension for Win7			 */
++#define IMR_ATIMEND_88E			BIT12		/* CTWidnow End or ATIM Window End */
++#define IMR_HISR1_IND_INT_88E		BIT11		/* HISR1 Indicator (HISR1 & HIMR1 is true, this bit is set to 1) */
++#define IMR_C2HCMD_88E				BIT10		/* CPU to Host Command INT Status, Write 1 clear	 */
++#define IMR_CPWM2_88E				BIT9			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define IMR_CPWM_88E				BIT8			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define IMR_HIGHDOK_88E			BIT7			/* High Queue DMA OK	 */
++#define IMR_MGNTDOK_88E			BIT6			/* Management Queue DMA OK	 */
++#define IMR_BKDOK_88E				BIT5			/* AC_BK DMA OK		 */
++#define IMR_BEDOK_88E				BIT4			/* AC_BE DMA OK	 */
++#define IMR_VIDOK_88E				BIT3			/* AC_VI DMA OK		 */
++#define IMR_VODOK_88E				BIT2			/* AC_VO DMA OK	 */
++#define IMR_RDU_88E					BIT1			/* Rx Descriptor Unavailable	 */
++#define IMR_ROK_88E					BIT0			/* Receive DMA OK */
++
++/* IMR DW1(0x00B4-00B7) Bit 0-31 */
++#define IMR_BCNDMAINT7_88E		BIT27		/* Beacon DMA Interrupt 7 */
++#define IMR_BCNDMAINT6_88E		BIT26		/* Beacon DMA Interrupt 6 */
++#define IMR_BCNDMAINT5_88E		BIT25		/* Beacon DMA Interrupt 5 */
++#define IMR_BCNDMAINT4_88E		BIT24		/* Beacon DMA Interrupt 4 */
++#define IMR_BCNDMAINT3_88E		BIT23		/* Beacon DMA Interrupt 3 */
++#define IMR_BCNDMAINT2_88E		BIT22		/* Beacon DMA Interrupt 2 */
++#define IMR_BCNDMAINT1_88E		BIT21		/* Beacon DMA Interrupt 1 */
++#define IMR_BCNDOK7_88E			BIT20		/* Beacon Queue DMA OK Interrup 7 */
++#define IMR_BCNDOK6_88E			BIT19		/* Beacon Queue DMA OK Interrup 6 */
++#define IMR_BCNDOK5_88E			BIT18		/* Beacon Queue DMA OK Interrup 5 */
++#define IMR_BCNDOK4_88E			BIT17		/* Beacon Queue DMA OK Interrup 4 */
++#define IMR_BCNDOK3_88E			BIT16		/* Beacon Queue DMA OK Interrup 3 */
++#define IMR_BCNDOK2_88E			BIT15		/* Beacon Queue DMA OK Interrup 2 */
++#define IMR_BCNDOK1_88E			BIT14		/* Beacon Queue DMA OK Interrup 1 */
++#define IMR_ATIMEND_E_88E			BIT13		/* ATIM Window End Extension for Win7 */
++#define IMR_TXERR_88E				BIT11		/* Tx Error Flag Interrupt Status, write 1 clear. */
++#define IMR_RXERR_88E				BIT10		/* Rx Error Flag INT Status, Write 1 clear */
++#define IMR_TXFOVW_88E				BIT9			/* Transmit FIFO Overflow */
++#define IMR_RXFOVW_88E				BIT8			/* Receive FIFO Overflow */
++
++/*===================================================================
++=====================================================================
++Here the register defines are for 92C. When the define is as same with 92C,
++we will use the 92C's define for the consistency
++So the following defines for 92C is not entire!!!!!!
++=====================================================================
++=====================================================================*/
++/*
++Based on Datasheet V33---090401
++Register Summary
++Current IOREG MAP
++0x0000h ~ 0x00FFh   System Configuration (256 Bytes)
++0x0100h ~ 0x01FFh   MACTOP General Configuration (256 Bytes)
++0x0200h ~ 0x027Fh   TXDMA Configuration (128 Bytes)
++0x0280h ~ 0x02FFh   RXDMA Configuration (128 Bytes)
++0x0300h ~ 0x03FFh   PCIE EMAC Reserved Region (256 Bytes)
++0x0400h ~ 0x04FFh   Protocol Configuration (256 Bytes)
++0x0500h ~ 0x05FFh   EDCA Configuration (256 Bytes)
++0x0600h ~ 0x07FFh   WMAC Configuration (512 Bytes)
++0x2000h ~ 0x3FFFh   8051 FW Download Region (8196 Bytes)
++*/
++/* ---------------------------------------------------------------------------- */
++/*		 8192C (TXPAUSE) transmission pause 	(Offset 0x522, 8 bits) */
++/* ---------------------------------------------------------------------------- */
++/* Note:
++*	The the bits of stoping AC(VO/VI/BE/BK) queue in datasheet RTL8192S/RTL8192C are wrong,
++*	the correct arragement is VO - Bit0, VI - Bit1, BE - Bit2, and BK - Bit3.
++*	8723 and 88E may be not correct either in the eralier version. Confirmed with DD Tim.
++* By Bruce, 2011-09-22. */
++#define StopBecon		BIT6
++#define StopHigh			BIT5
++#define StopMgt			BIT4
++#define StopBK			BIT3
++#define StopBE			BIT2
++#define StopVI			BIT1
++#define StopVO			BIT0
++
++/* ----------------------------------------------------------------------------
++ * 8192C (RCR) Receive Configuration Register	(Offset 0x608, 32 bits)
++ * ---------------------------------------------------------------------------- */
++#define RCR_APPFCS				BIT31	/* WMAC append FCS after pauload */
++#define RCR_APP_MIC				BIT30	/* MACRX will retain the MIC at the bottom of the packet. */
++#define RCR_APP_ICV				BIT29	/* MACRX will retain the ICV at the bottom of the packet. */
++#define RCR_APP_PHYST_RXFF		BIT28	/* PHY Status is appended before RX packet in RXFF */
++#define RCR_APP_BA_SSN			BIT27	/* SSN of previous TXBA is appended as after original RXDESC as the 4-th DW of RXDESC. */
++#define RCR_VHT_DACK			BIT26	/* This bit to control response type for vht single mpdu data packet. 1. ACK as response 0. BA as response */
++#define RCR_TCPOFLD_EN			BIT25	/* Enable TCP checksum offload */
++#define RCR_ENMBID				BIT24	/* Enable Multiple BssId. Only response ACK to the packets whose DID(A1) matching to the addresses in the MBSSID CAM Entries. */
++#define RCR_LSIGEN				BIT23	/* Enable LSIG TXOP Protection function. Search KEYCAM for each rx packet to check if LSIGEN bit is set. */
++#define RCR_MFBEN				BIT22	/* Enable immediate MCS Feedback function. When Rx packet with MRQ = 1'b1, then search KEYCAM to find sender's MCS Feedback function and send response. */
++#define RCR_DISCHKPPDLLEN		BIT21	/* Do not check PPDU while the PPDU length is smaller than 14 byte. */
++#define RCR_PKTCTL_DLEN			BIT20	/* While rx path dead lock occurs, reset rx path */
++#define RCR_DISGCLK				BIT19	/* Disable macrx clock gating control (no used) */
++#define RCR_TIM_PARSER_EN		BIT18	/* RX Beacon TIM Parser. */
++#define RCR_BC_MD_EN			BIT17	/* Broadcast data packet more data bit check interrupt enable.*/
++#define RCR_UC_MD_EN			BIT16	/* Unicast data packet more data bit check interrupt enable. */
++#define RCR_RXSK_PERPKT			BIT15	/* Executing key search per MPDU */
++#define RCR_HTC_LOC_CTRL		BIT14	/* MFC<--HTC = 1 MFC-->HTC = 0 */
++#define RCR_AMF					BIT13	/* Accept management type frame */
++#define RCR_ACF					BIT12	/* Accept control type frame. Control frames BA, BAR, and PS-Poll (when in AP mode) are not controlled by this bit. They are controlled by ADF. */
++#define RCR_ADF					BIT11	/* Accept data type frame. This bit also regulates BA, BAR, and PS-Poll (AP mode only). */
++#define RCR_DISDECMYPKT			BIT10	/* This bit determines whether hw need to do decryption.1: If A1 match, do decryption.0: Do decryption. */
++#define RCR_AICV					BIT9		/* Accept ICV error packet */
++#define RCR_ACRC32				BIT8		/* Accept CRC32 error packet */
++#define RCR_CBSSID_BCN			BIT7		/* Accept BSSID match packet (Rx beacon, probe rsp) */
++#define RCR_CBSSID_DATA		BIT6		/* Accept BSSID match packet (Data) */
++#define RCR_APWRMGT			BIT5		/* Accept power management packet */
++#define RCR_ADD3				BIT4		/* Accept address 3 match packet */
++#define RCR_AB					BIT3		/* Accept broadcast packet */
++#define RCR_AM					BIT2		/* Accept multicast packet */
++#define RCR_APM					BIT1		/* Accept physical match packet */
++#define RCR_AAP					BIT0		/* Accept all unicast packet */
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0000h ~ 0x00FFh	System Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* 2 SYS_ISO_CTRL */
++#define ISO_MD2PP				BIT(0)
++#define ISO_UA2USB				BIT(1)
++#define ISO_UD2CORE				BIT(2)
++#define ISO_PA2PCIE				BIT(3)
++#define ISO_PD2CORE				BIT(4)
++#define ISO_IP2MAC				BIT(5)
++#define ISO_DIOP					BIT(6)
++#define ISO_DIOE					BIT(7)
++#define ISO_EB2CORE				BIT(8)
++#define ISO_DIOR					BIT(9)
++#define PWC_EV12V				BIT(15)
++
++
++/* 2 SYS_FUNC_EN */
++#define FEN_BBRSTB				BIT(0)
++#define FEN_BB_GLB_RSTn		BIT(1)
++#define FEN_USBA				BIT(2)
++#define FEN_UPLL				BIT(3)
++#define FEN_USBD				BIT(4)
++#define FEN_DIO_PCIE			BIT(5)
++#define FEN_PCIEA				BIT(6)
++#define FEN_PPLL					BIT(7)
++#define FEN_PCIED				BIT(8)
++#define FEN_DIOE				BIT(9)
++#define FEN_CPUEN				BIT(10)
++#define FEN_DCORE				BIT(11)
++#define FEN_ELDR				BIT(12)
++#define FEN_EN_25_1				BIT(13)
++#define FEN_HWPDN				BIT(14)
++#define FEN_MREGEN				BIT(15)
++
++/* 2 APS_FSMCO */
++#define PFM_LDALL				BIT(0)
++#define PFM_ALDN				BIT(1)
++#define PFM_LDKP				BIT(2)
++#define PFM_WOWL				BIT(3)
++#define EnPDN					BIT(4)
++#define PDN_PL					BIT(5)
++#define APFM_ONMAC				BIT(8)
++#define APFM_OFF				BIT(9)
++#define APFM_RSM				BIT(10)
++#define AFSM_HSUS				BIT(11)
++#define AFSM_PCIE				BIT(12)
++#define APDM_MAC				BIT(13)
++#define APDM_HOST				BIT(14)
++#define APDM_HPDN				BIT(15)
++#define RDY_MACON				BIT(16)
++#define SUS_HOST				BIT(17)
++#define ROP_ALD					BIT(20)
++#define ROP_PWR					BIT(21)
++#define ROP_SPS					BIT(22)
++#define SOP_MRST				BIT(25)
++#define SOP_FUSE				BIT(26)
++#define SOP_ABG					BIT(27)
++#define SOP_AMB					BIT(28)
++#define SOP_RCK					BIT(29)
++#define SOP_A8M					BIT(30)
++#define XOP_BTCK				BIT(31)
++
++/* 2 SYS_CLKR */
++#define ANAD16V_EN				BIT(0)
++#define ANA8M					BIT(1)
++#define MACSLP					BIT(4)
++#define LOADER_CLK_EN			BIT(5)
++
++
++/* 2 9346CR /REG_SYS_EEPROM_CTRL */
++#define BOOT_FROM_EEPROM		BIT(4)
++#define EEPROMSEL				BIT(4)
++#define EEPROM_EN				BIT(5)
++
++
++/* 2 RF_CTRL */
++#define RF_EN					BIT(0)
++#define RF_RSTB					BIT(1)
++#define RF_SDMRSTB				BIT(2)
++
++
++/* 2 LDOV12D_CTRL */
++#define LDV12_EN				BIT(0)
++#define LDV12_SDBY				BIT(1)
++#define LPLDO_HSM				BIT(2)
++#define LPLDO_LSM_DIS			BIT(3)
++#define _LDV12_VADJ(x)			(((x) & 0xF) << 4)
++
++
++
++/* 2 EFUSE_TEST (For RTL8723 partially) */
++#define EF_TRPT					BIT(7)
++#define EF_CELL_SEL				(BIT(8) | BIT(9)) /* 00: Wifi Efuse, 01: BT Efuse0, 10: BT Efuse1, 11: BT Efuse2 */
++#define LDOE25_EN				BIT(31)
++#define EFUSE_SEL(x)				(((x) & 0x3) << 8)
++#define EFUSE_SEL_MASK			0x300
++#define EFUSE_WIFI_SEL_0		0x0
++#define EFUSE_BT_SEL_0			0x1
++#define EFUSE_BT_SEL_1			0x2
++#define EFUSE_BT_SEL_2			0x3
++
++
++/* 2 8051FWDL
++ * 2 MCUFWDL */
++#define MCUFWDL_EN				BIT(0)
++#define MCUFWDL_RDY			BIT(1)
++#define FWDL_ChkSum_rpt		BIT(2)
++#define MACINI_RDY				BIT(3)
++#define BBINI_RDY				BIT(4)
++#define RFINI_RDY				BIT(5)
++#define WINTINI_RDY				BIT(6)
++#define RAM_DL_SEL				BIT(7)
++#define CPU_DL_READY			BIT(15) /* add flag  by gw for fw download ready 20130826 */
++#define ROM_DLEN				BIT(19)
++#define CPRST					BIT(23)
++
++
++/* 2 REG_SYS_CFG */
++#define XCLK_VLD				BIT(0)
++#define ACLK_VLD				BIT(1)
++#define UCLK_VLD				BIT(2)
++#define PCLK_VLD				BIT(3)
++#define PCIRSTB					BIT(4)
++#define V15_VLD					BIT(5)
++#define SW_OFFLOAD_EN			BIT(7)
++#define SIC_IDLE					BIT(8)
++#define BD_MAC2					BIT(9)
++#define BD_MAC1					BIT(10)
++#define IC_MACPHY_MODE		BIT(11)
++#define CHIP_VER				(BIT(12) | BIT(13) | BIT(14) | BIT(15))
++#define BT_FUNC					BIT(16)
++#define VENDOR_ID				BIT(19)
++#define EXT_VENDOR_ID			(BIT(18) | BIT(19)) /* Currently only for RTL8723B */
++#define PAD_HWPD_IDN			BIT(22)
++#define TRP_VAUX_EN				BIT(23)	/* RTL ID */
++#define TRP_BT_EN				BIT(24)
++#define BD_PKG_SEL				BIT(25)
++#define BD_HCI_SEL				BIT(26)
++#define TYPE_ID					BIT(27)
++#define RF_TYPE_ID				BIT(27)
++
++#define RTL_ID					BIT(23) /* TestChip ID, 1:Test(RLE); 0:MP(RL) */
++#define SPS_SEL					BIT(24) /* 1:LDO regulator mode; 0:Switching regulator mode */
++
++
++#define CHIP_VER_RTL_MASK		0xF000	/* Bit 12 ~ 15 */
++#define CHIP_VER_RTL_SHIFT		12
++#define EXT_VENDOR_ID_SHIFT	18
++
++/* 2 REG_GPIO_OUTSTS (For RTL8723 only) */
++#define EFS_HCI_SEL				(BIT(0) | BIT(1))
++#define PAD_HCI_SEL				(BIT(2) | BIT(3))
++#define HCI_SEL					(BIT(4) | BIT(5))
++#define PKG_SEL_HCI				BIT(6)
++#define FEN_GPS					BIT(7)
++#define FEN_BT					BIT(8)
++#define FEN_WL					BIT(9)
++#define FEN_PCI					BIT(10)
++#define FEN_USB					BIT(11)
++#define BTRF_HWPDN_N			BIT(12)
++#define WLRF_HWPDN_N			BIT(13)
++#define PDN_BT_N				BIT(14)
++#define PDN_GPS_N				BIT(15)
++#define BT_CTL_HWPDN			BIT(16)
++#define GPS_CTL_HWPDN			BIT(17)
++#define PPHY_SUSB				BIT(20)
++#define UPHY_SUSB				BIT(21)
++#define PCI_SUSEN				BIT(22)
++#define USB_SUSEN				BIT(23)
++#define RF_RL_ID					(BIT(31) | BIT(30) | BIT(29) | BIT(28))
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* 2 Function Enable Registers
++ * 2 CR */
++#define HCI_TXDMA_EN			BIT(0)
++#define HCI_RXDMA_EN			BIT(1)
++#define TXDMA_EN				BIT(2)
++#define RXDMA_EN				BIT(3)
++#define PROTOCOL_EN				BIT(4)
++#define SCHEDULE_EN				BIT(5)
++#define MACTXEN					BIT(6)
++#define MACRXEN					BIT(7)
++#define ENSWBCN					BIT(8)
++#define ENSEC					BIT(9)
++#define CALTMR_EN				BIT(10)	/* 32k CAL TMR enable */
++
++/* Network type */
++#define _NETTYPE(x)				(((x) & 0x3) << 16)
++#define MASK_NETTYPE			0x30000
++#define NT_NO_LINK				0x0
++#define NT_LINK_AD_HOC			0x1
++#define NT_LINK_AP				0x2
++#define NT_AS_AP				0x3
++
++/* 2 PBP - Page Size Register */
++#define GET_RX_PAGE_SIZE(value)			((value) & 0xF)
++#define GET_TX_PAGE_SIZE(value)			(((value) & 0xF0) >> 4)
++#define _PSRX_MASK				0xF
++#define _PSTX_MASK				0xF0
++#define _PSRX(x)				(x)
++#define _PSTX(x)				((x) << 4)
++
++#define PBP_64					0x0
++#define PBP_128					0x1
++#define PBP_256					0x2
++#define PBP_512					0x3
++#define PBP_1024				0x4
++
++
++/* 2 TX/RXDMA */
++#define RXDMA_ARBBW_EN		BIT(0)
++#define RXSHFT_EN				BIT(1)
++#define RXDMA_AGG_EN			BIT(2)
++#define QS_VO_QUEUE			BIT(8)
++#define QS_VI_QUEUE				BIT(9)
++#define QS_BE_QUEUE			BIT(10)
++#define QS_BK_QUEUE			BIT(11)
++#define QS_MANAGER_QUEUE		BIT(12)
++#define QS_HIGH_QUEUE			BIT(13)
++
++#define HQSEL_VOQ				BIT(0)
++#define HQSEL_VIQ				BIT(1)
++#define HQSEL_BEQ				BIT(2)
++#define HQSEL_BKQ				BIT(3)
++#define HQSEL_MGTQ				BIT(4)
++#define HQSEL_HIQ				BIT(5)
++
++/* For normal driver, 0x10C */
++#define _TXDMA_CMQ_MAP(x)			(((x) & 0x3) << 16)
++#define _TXDMA_HIQ_MAP(x)			(((x) & 0x3) << 14)
++#define _TXDMA_MGQ_MAP(x)			(((x) & 0x3) << 12)
++#define _TXDMA_BKQ_MAP(x)			(((x) & 0x3) << 10)
++#define _TXDMA_BEQ_MAP(x)			(((x) & 0x3) << 8)
++#define _TXDMA_VIQ_MAP(x)			(((x) & 0x3) << 6)
++#define _TXDMA_VOQ_MAP(x)			(((x) & 0x3) << 4)
++
++#define QUEUE_EXTRA				0
++#define QUEUE_LOW				1
++#define QUEUE_NORMAL			2
++#define QUEUE_HIGH				3
++
++
++/* 2 TRXFF_BNDY */
++
++
++/* 2 LLT_INIT */
++#define _LLT_NO_ACTIVE				0x0
++#define _LLT_WRITE_ACCESS			0x1
++#define _LLT_READ_ACCESS			0x2
++
++#define _LLT_INIT_DATA(x)			((x) & 0xFF)
++#define _LLT_INIT_ADDR(x)			(((x) & 0xFF) << 8)
++#define _LLT_OP(x)					(((x) & 0x3) << 30)
++#define _LLT_OP_VALUE(x)			(((x) >> 30) & 0x3)
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++/* 2 RQPN */
++#define _HPQ(x)					((x) & 0xFF)
++#define _LPQ(x)					(((x) & 0xFF) << 8)
++#define _PUBQ(x)					(((x) & 0xFF) << 16)
++#define _NPQ(x)					((x) & 0xFF)			/* NOTE: in RQPN_NPQ register */
++#define _EPQ(x)					(((x) & 0xFF) << 16)	/* NOTE: in RQPN_EPQ register */
++
++
++#define HPQ_PUBLIC_DIS			BIT(24)
++#define LPQ_PUBLIC_DIS			BIT(25)
++#define LD_RQPN					BIT(31)
++
++
++/* 2 TDECTL */
++#define BLK_DESC_NUM_SHIFT			4
++#define BLK_DESC_NUM_MASK			0xF
++
++
++/* 2 TXDMA_OFFSET_CHK */
++#define DROP_DATA_EN				BIT(9)
++
++/* 2 AUTO_LLT */
++#define BIT_SHIFT_TXPKTNUM 24
++#define BIT_MASK_TXPKTNUM 0xff
++#define BIT_TXPKTNUM(x) (((x) & BIT_MASK_TXPKTNUM) << BIT_SHIFT_TXPKTNUM)
++
++#define BIT_TDE_DBG_SEL BIT(23)
++#define BIT_AUTO_INIT_LLT BIT(16)
++
++#define BIT_SHIFT_Tx_OQT_free_space 8
++#define BIT_MASK_Tx_OQT_free_space 0xff
++#define BIT_Tx_OQT_free_space(x) (((x) & BIT_MASK_Tx_OQT_free_space) << BIT_SHIFT_Tx_OQT_free_space)
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x028Bh	RX DMA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* 2 REG_RXDMA_CONTROL, 0x0286h
++ * Write only. When this bit is set, RXDMA will decrease RX PKT counter by one. Before
++ * this bit is polled, FW shall update RXFF_RD_PTR first. This register is write pulse and auto clear.
++ * #define RXPKT_RELEASE_POLL			BIT(0)
++ * Read only. When RXMA finishes on-going DMA operation, RXMDA will report idle state in
++ * this bit. FW can start releasing packets after RXDMA entering idle mode.
++ * #define RXDMA_IDLE					BIT(1)
++ * When this bit is set, RXDMA will enter this mode after on-going RXDMA packet to host
++ * completed, and stop DMA packet to host. RXDMA will then report Default: 0;
++ * #define RW_RELEASE_EN				BIT(2) */
++
++/* 2 REG_RXPKT_NUM, 0x0284 */
++#define	RXPKT_RELEASE_POLL	BIT(16)
++#define	RXDMA_IDLE				BIT(17)
++#define	RW_RELEASE_EN			BIT(18)
++
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++/* 2 FWHW_TXQ_CTRL */
++#define EN_AMPDU_RTY_NEW			BIT(7)
++
++
++/* 2 SPEC SIFS */
++#define _SPEC_SIFS_CCK(x)			((x) & 0xFF)
++#define _SPEC_SIFS_OFDM(x)			(((x) & 0xFF) << 8)
++
++/* 2 RL */
++#define	RETRY_LIMIT_SHORT_SHIFT			8
++#define	RETRY_LIMIT_LONG_SHIFT			0
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* 2 EDCA setting */
++#define AC_PARAM_TXOP_LIMIT_OFFSET		16
++#define AC_PARAM_ECW_MAX_OFFSET			12
++#define AC_PARAM_ECW_MIN_OFFSET			8
++#define AC_PARAM_AIFS_OFFSET				0
++
++
++#define _LRL(x)					((x) & 0x3F)
++#define _SRL(x)					(((x) & 0x3F) << 8)
++
++
++/* 2 BCN_CTRL */
++#define EN_TXBCN_RPT			BIT(2)
++#define EN_BCN_FUNCTION		BIT(3)
++#define STOP_BCNQ				BIT(6)
++#define DIS_RX_BSSID_FIT		BIT(6)
++
++#define DIS_ATIM					BIT(0)
++#define DIS_BCNQ_SUB			BIT(1)
++#define DIS_TSF_UDT				BIT(4)
++
++/* The same function but different bit field. */
++#define DIS_TSF_UDT0_NORMAL_CHIP	BIT(4)
++#define DIS_TSF_UDT0_TEST_CHIP	BIT(5)
++
++
++/* 2 ACMHWCTRL */
++#define AcmHw_HwEn				BIT(0)
++#define AcmHw_BeqEn			BIT(1)
++#define AcmHw_ViqEn				BIT(2)
++#define AcmHw_VoqEn			BIT(3)
++#define AcmHw_BeqStatus		BIT(4)
++#define AcmHw_ViqStatus			BIT(5)
++#define AcmHw_VoqStatus		BIT(6)
++
++/* 2 */ /* REG_DUAL_TSF_RST (0x553) */
++#define DUAL_TSF_RST_P2P		BIT(4)
++
++/* 2 */ /* REG_NOA_DESC_SEL (0x5CF) */
++#define NOA_DESC_SEL_0			0
++#define NOA_DESC_SEL_1			BIT(4)
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* 2 APSD_CTRL */
++#define APSDOFF					BIT(6)
++
++/* 2 TCR */
++#define TSFRST					BIT(0)
++#define DIS_GCLK					BIT(1)
++#define PAD_SEL					BIT(2)
++#define PWR_ST					BIT(6)
++#define PWRBIT_OW_EN			BIT(7)
++#define ACRC						BIT(8)
++#define CFENDFORM				BIT(9)
++#define ICV						BIT(10)
++
++
++/* 2 RCR */
++#define AAP						BIT(0)
++#define APM						BIT(1)
++#define AM						BIT(2)
++#define AB						BIT(3)
++#define ADD3						BIT(4)
++#define APWRMGT				BIT(5)
++#define CBSSID					BIT(6)
++#define CBSSID_DATA				BIT(6)
++#define CBSSID_BCN				BIT(7)
++#define ACRC32					BIT(8)
++#define AICV						BIT(9)
++#define ADF						BIT(11)
++#define ACF						BIT(12)
++#define AMF						BIT(13)
++#define HTC_LOC_CTRL			BIT(14)
++#define UC_DATA_EN				BIT(16)
++#define BM_DATA_EN				BIT(17)
++#define MFBEN					BIT(22)
++#define LSIGEN					BIT(23)
++#define EnMBID					BIT(24)
++#define FORCEACK				BIT(26)
++#define APP_BASSN				BIT(27)
++#define APP_PHYSTS				BIT(28)
++#define APP_ICV					BIT(29)
++#define APP_MIC					BIT(30)
++#define APP_FCS					BIT(31)
++
++
++/* 2 SECCFG */
++#define SCR_TxUseDK				BIT(0)			/* Force Tx Use Default Key */
++#define SCR_RxUseDK				BIT(1)			/* Force Rx Use Default Key */
++#define SCR_TxEncEnable			BIT(2)			/* Enable Tx Encryption */
++#define SCR_RxDecEnable			BIT(3)			/* Enable Rx Decryption */
++#define SCR_SKByA2				BIT(4)			/* Search kEY BY A2 */
++#define SCR_NoSKMC				BIT(5)			/* No Key Search Multicast */
++#define SCR_TXBCUSEDK			BIT(6)			/* Force Tx Broadcast packets Use Default Key */
++#define SCR_RXBCUSEDK			BIT(7)			/* Force Rx Broadcast packets Use Default Key */
++#define SCR_CHK_KEYID			BIT(8)
++#define SCR_CHK_BMC				BIT(9)			/* add option to support a2+keyid+bcm */
++
++/*REG_MBIDCAMCFG           (Offset 0x0628/0x62C)*/
++#define BIT_MBIDCAM_POLL		BIT(31)
++#define BIT_MBIDCAM_WT_EN		BIT(30)
++
++#define MBIDCAM_ADDR_MASK		0x1F
++#define MBIDCAM_ADDR_SHIFT		24
++
++#define BIT_MBIDCAM_VALID		BIT(23)
++#define BIT_LSIC_TXOP_EN		BIT(17)
++#define BIT_CTS_EN				BIT(16)
++
++/* -----------------------------------------------------
++ *
++ *	SDIO Bus Specification
++ *
++ * ----------------------------------------------------- */
++
++/* I/O bus domain address mapping */
++#define SDIO_LOCAL_BASE		0x10250000
++#define WLAN_IOREG_BASE		0x10260000
++#define FIRMWARE_FIFO_BASE	0x10270000
++#define TX_HIQ_BASE				0x10310000
++#define TX_MIQ_BASE				0x10320000
++#define TX_LOQ_BASE				0x10330000
++#define TX_EPQ_BASE				0x10350000
++#define RX_RX0FF_BASE			0x10340000
++
++/* SDIO host local register space mapping. */
++#define SDIO_LOCAL_MSK				0x0FFF
++#define WLAN_IOREG_MSK		0x7FFF
++#define WLAN_FIFO_MSK			      	0x1FFF	/* Aggregation Length[12:0] */
++#define WLAN_RX0FF_MSK				0x0003
++
++#define SDIO_WITHOUT_REF_DEVICE_ID	0	/* Without reference to the SDIO Device ID */
++#define SDIO_LOCAL_DEVICE_ID           		0	/* 0b[16], 000b[15:13] */
++#define WLAN_TX_HIQ_DEVICE_ID			4	/* 0b[16], 100b[15:13] */
++#define WLAN_TX_MIQ_DEVICE_ID 		5	/* 0b[16], 101b[15:13] */
++#define WLAN_TX_LOQ_DEVICE_ID 		6	/* 0b[16], 110b[15:13] */
++#define WLAN_TX_EXQ_DEVICE_ID		3	/* 0b[16], 011b[15:13] */
++#define WLAN_RX0FF_DEVICE_ID 			7	/* 0b[16], 111b[15:13] */
++#define WLAN_IOREG_DEVICE_ID 			8	/* 1b[16] */
++
++/* SDIO Tx Free Page Index */
++#define HI_QUEUE_IDX			0
++#define MID_QUEUE_IDX			1
++#define LOW_QUEUE_IDX				2
++#define PUBLIC_QUEUE_IDX			3
++
++#define SDIO_MAX_TX_QUEUE			3		/* HIQ, MIQ and LOQ */
++#define SDIO_MAX_RX_QUEUE			1
++
++#define SDIO_REG_TX_CTRL			0x0000 /* SDIO Tx Control */
++#define SDIO_REG_HIMR				0x0014 /* SDIO Host Interrupt Mask */
++#define SDIO_REG_HISR				0x0018 /* SDIO Host Interrupt Service Routine */
++#define SDIO_REG_HCPWM			0x0019 /* HCI Current Power Mode */
++#define SDIO_REG_RX0_REQ_LEN		0x001C /* RXDMA Request Length */
++#define SDIO_REG_OQT_FREE_PG		0x001E /* OQT Free Page */
++#define SDIO_REG_FREE_TXPG			0x0020 /* Free Tx Buffer Page */
++#define SDIO_REG_HCPWM1			0x0024 /* HCI Current Power Mode 1 */
++#define SDIO_REG_HCPWM2			0x0026 /* HCI Current Power Mode 2 */
++#define SDIO_REG_FREE_TXPG_SEQ	0x0028 /* Free Tx Page Sequence */
++#define SDIO_REG_HTSFR_INFO		0x0030 /* HTSF Informaion */
++#define SDIO_REG_HRPWM1			0x0080 /* HCI Request Power Mode 1 */
++#define SDIO_REG_HRPWM2			0x0082 /* HCI Request Power Mode 2 */
++#define SDIO_REG_HPS_CLKR			0x0084 /* HCI Power Save Clock */
++#define SDIO_REG_HSUS_CTRL			0x0086 /* SDIO HCI Suspend Control */
++#define SDIO_REG_HIMR_ON			0x0090 /* SDIO Host Extension Interrupt Mask Always */
++#define SDIO_REG_HISR_ON			0x0091 /* SDIO Host Extension Interrupt Status Always */
++
++#define SDIO_HIMR_DISABLED			0
++
++/* RTL8723/RTL8188E SDIO Host Interrupt Mask Register */
++#define SDIO_HIMR_RX_REQUEST_MSK		BIT0
++#define SDIO_HIMR_AVAL_MSK			BIT1
++#define SDIO_HIMR_TXERR_MSK			BIT2
++#define SDIO_HIMR_RXERR_MSK			BIT3
++#define SDIO_HIMR_TXFOVW_MSK			BIT4
++#define SDIO_HIMR_RXFOVW_MSK			BIT5
++#define SDIO_HIMR_TXBCNOK_MSK			BIT6
++#define SDIO_HIMR_TXBCNERR_MSK		BIT7
++#define SDIO_HIMR_BCNERLY_INT_MSK		BIT16
++#define SDIO_HIMR_C2HCMD_MSK			BIT17
++#define SDIO_HIMR_CPWM1_MSK			BIT18
++#define SDIO_HIMR_CPWM2_MSK			BIT19
++#define SDIO_HIMR_HSISR_IND_MSK		BIT20
++#define SDIO_HIMR_GTINT3_IND_MSK		BIT21
++#define SDIO_HIMR_GTINT4_IND_MSK		BIT22
++#define SDIO_HIMR_PSTIMEOUT_MSK		BIT23
++#define SDIO_HIMR_OCPINT_MSK			BIT24
++#define SDIO_HIMR_ATIMEND_MSK			BIT25
++#define SDIO_HIMR_ATIMEND_E_MSK		BIT26
++#define SDIO_HIMR_CTWEND_MSK			BIT27
++
++/* RTL8188E SDIO Specific */
++#define SDIO_HIMR_MCU_ERR_MSK			BIT28
++#define SDIO_HIMR_TSF_BIT32_TOGGLE_MSK		BIT29
++
++/* SDIO Host Interrupt Service Routine */
++#define SDIO_HISR_RX_REQUEST			BIT0
++#define SDIO_HISR_AVAL					BIT1
++#define SDIO_HISR_TXERR					BIT2
++#define SDIO_HISR_RXERR					BIT3
++#define SDIO_HISR_TXFOVW				BIT4
++#define SDIO_HISR_RXFOVW				BIT5
++#define SDIO_HISR_TXBCNOK				BIT6
++#define SDIO_HISR_TXBCNERR				BIT7
++#define SDIO_HISR_BCNERLY_INT			BIT16
++#define SDIO_HISR_C2HCMD				BIT17
++#define SDIO_HISR_CPWM1				BIT18
++#define SDIO_HISR_CPWM2				BIT19
++#define SDIO_HISR_HSISR_IND			BIT20
++#define SDIO_HISR_GTINT3_IND			BIT21
++#define SDIO_HISR_GTINT4_IND			BIT22
++#define SDIO_HISR_PSTIMEOUT			BIT23
++#define SDIO_HISR_OCPINT				BIT24
++#define SDIO_HISR_ATIMEND				BIT25
++#define SDIO_HISR_ATIMEND_E			BIT26
++#define SDIO_HISR_CTWEND				BIT27
++
++/* RTL8188E SDIO Specific */
++#define SDIO_HISR_MCU_ERR				BIT28
++#define SDIO_HISR_TSF_BIT32_TOGGLE	BIT29
++
++#define MASK_SDIO_HISR_CLEAR		(SDIO_HISR_TXERR |\
++		SDIO_HISR_RXERR |\
++		SDIO_HISR_TXFOVW |\
++		SDIO_HISR_RXFOVW |\
++		SDIO_HISR_TXBCNOK |\
++		SDIO_HISR_TXBCNERR |\
++		SDIO_HISR_C2HCMD |\
++		SDIO_HISR_CPWM1 |\
++		SDIO_HISR_CPWM2 |\
++		SDIO_HISR_HSISR_IND |\
++		SDIO_HISR_GTINT3_IND |\
++		SDIO_HISR_GTINT4_IND |\
++		SDIO_HISR_PSTIMEOUT |\
++		SDIO_HISR_OCPINT)
++
++/* SDIO HCI Suspend Control Register */
++#define HCI_RESUME_PWR_RDY			BIT1
++#define HCI_SUS_CTRL					BIT0
++
++/* SDIO Tx FIFO related */
++#define SDIO_TX_FREE_PG_QUEUE			4	/* The number of Tx FIFO free page */
++#define SDIO_TX_FIFO_PAGE_SZ			128
++
++#ifdef CONFIG_SDIO_HCI
++	#define MAX_TX_AGG_PACKET_NUMBER	0x8
++#else
++	#define MAX_TX_AGG_PACKET_NUMBER	0xFF
++	#define MAX_TX_AGG_PACKET_NUMBER_8812	64
++#endif
++
++/* -----------------------------------------------------
++ *
++ *	0xFE00h ~ 0xFE55h	USB Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* 2 USB Information (0xFE17) */
++#define USB_IS_HIGH_SPEED			0
++#define USB_IS_FULL_SPEED			1
++#define USB_SPEED_MASK				BIT(5)
++
++#define USB_NORMAL_SIE_EP_MASK	0xF
++#define USB_NORMAL_SIE_EP_SHIFT	4
++
++/* 2 Special Option */
++#define USB_AGG_EN				BIT(3)
++
++/* 0; Use interrupt endpoint to upload interrupt pkt
++ * 1; Use bulk endpoint to upload interrupt pkt, */
++#define INT_BULK_SEL			BIT(4)
++
++/* 2REG_C2HEVT_CLEAR */
++#define C2H_EVT_HOST_CLOSE		0x00	/* Set by driver and notify FW that the driver has read the C2H command message */
++#define C2H_EVT_FW_CLOSE		0xFF	/* Set by FW indicating that FW had set the C2H command message and it's not yet read by driver. */
++
++
++/* 2REG_MULTI_FUNC_CTRL(For RTL8723 Only) */
++#define WL_HWPDN_EN			BIT0	/* Enable GPIO[9] as WiFi HW PDn source */
++#define WL_HWPDN_SL			BIT1	/* WiFi HW PDn polarity control */
++#define WL_FUNC_EN				BIT2	/* WiFi function enable */
++#define WL_HWROF_EN			BIT3	/* Enable GPIO[9] as WiFi RF HW PDn source */
++#define BT_HWPDN_EN			BIT16	/* Enable GPIO[11] as BT HW PDn source */
++#define BT_HWPDN_SL			BIT17	/* BT HW PDn polarity control */
++#define BT_FUNC_EN				BIT18	/* BT function enable */
++#define BT_HWROF_EN			BIT19	/* Enable GPIO[11] as BT/GPS RF HW PDn source */
++#define GPS_HWPDN_EN			BIT20	/* Enable GPIO[10] as GPS HW PDn source */
++#define GPS_HWPDN_SL			BIT21	/* GPS HW PDn polarity control */
++#define GPS_FUNC_EN			BIT22	/* GPS function enable */
++
++/* 3 REG_LIFECTRL_CTRL */
++#define HAL92C_EN_PKT_LIFE_TIME_BK		BIT3
++#define HAL92C_EN_PKT_LIFE_TIME_BE		BIT2
++#define HAL92C_EN_PKT_LIFE_TIME_VI		BIT1
++#define HAL92C_EN_PKT_LIFE_TIME_VO		BIT0
++
++#define HAL92C_MSDU_LIFE_TIME_UNIT		128	/* in us, said by Tim. */
++
++/* 2 8192D PartNo. */
++#define PARTNO_92D_NIC							(BIT7 | BIT6)
++#define PARTNO_92D_NIC_REMARK				(BIT5 | BIT4)
++#define PARTNO_SINGLE_BAND_VS				BIT3
++#define PARTNO_SINGLE_BAND_VS_REMARK		BIT1
++#define PARTNO_CONCURRENT_BAND_VC			(BIT3 | BIT2)
++#define PARTNO_CONCURRENT_BAND_VC_REMARK	(BIT1 | BIT0)
++
++/* ********************************************************
++ * General definitions
++ * ******************************************************** */
++
++#define LAST_ENTRY_OF_TX_PKT_BUFFER_8188E(__Adapter)	   (IS_VENDOR_8188E_I_CUT_SERIES(__Adapter) ? 255 : 175)
++#define LAST_ENTRY_OF_TX_PKT_BUFFER_8812			255
++#define LAST_ENTRY_OF_TX_PKT_BUFFER_8723B		255
++#define LAST_ENTRY_OF_TX_PKT_BUFFER_8192C		255
++#define LAST_ENTRY_OF_TX_PKT_BUFFER_8703B		255
++#define LAST_ENTRY_OF_TX_PKT_BUFFER_DUAL_MAC	127
++#define LAST_ENTRY_OF_TX_PKT_BUFFER_8188F		255
++#define LAST_ENTRY_OF_TX_PKT_BUFFER_8723D		255
++
++#define POLLING_LLT_THRESHOLD				20
++#if defined(CONFIG_RTL8723B) && defined(CONFIG_PCI_HCI)
++	#define POLLING_READY_TIMEOUT_COUNT		6000
++#else
++	#define POLLING_READY_TIMEOUT_COUNT		1000
++#endif
++
++
++/* GPIO BIT */
++#define	HAL_8812A_HW_GPIO_WPS_BIT	BIT2
++#define	HAL_8192C_HW_GPIO_WPS_BIT	BIT2
++#define	HAL_8192EU_HW_GPIO_WPS_BIT	BIT7
++#define	HAL_8188E_HW_GPIO_WPS_BIT	BIT7
++
++#endif /* __HAL_COMMON_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/hal_data.h b/drivers/net/wireless/rtl8812au/include/hal_data.h
+new file mode 100755
+index 0000000..8ae5ba5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/hal_data.h
+@@ -0,0 +1,775 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_DATA_H__
++#define __HAL_DATA_H__
++
++#if 1/* def  CONFIG_SINGLE_IMG */
++
++#include "../hal/phydm/phydm_precomp.h"
++#ifdef CONFIG_BT_COEXIST
++	#include <hal_btcoex.h>
++#endif
++
++#ifdef CONFIG_SDIO_HCI
++	#include <hal_sdio.h>
++#endif
++#ifdef CONFIG_GSPI_HCI
++	#include <hal_gspi.h>
++#endif
++/*
++ * <Roger_Notes> For RTL8723 WiFi/BT/GPS multi-function configuration. 2010.10.06.
++ *   */
++typedef enum _RT_MULTI_FUNC {
++	RT_MULTI_FUNC_NONE	= 0x00,
++	RT_MULTI_FUNC_WIFI	= 0x01,
++	RT_MULTI_FUNC_BT		= 0x02,
++	RT_MULTI_FUNC_GPS	= 0x04,
++} RT_MULTI_FUNC, *PRT_MULTI_FUNC;
++/*
++ * <Roger_Notes> For RTL8723 WiFi PDn/GPIO polarity control configuration. 2010.10.08.
++ *   */
++typedef enum _RT_POLARITY_CTL {
++	RT_POLARITY_LOW_ACT	= 0,
++	RT_POLARITY_HIGH_ACT	= 1,
++} RT_POLARITY_CTL, *PRT_POLARITY_CTL;
++
++/* For RTL8723 regulator mode. by tynli. 2011.01.14. */
++typedef enum _RT_REGULATOR_MODE {
++	RT_SWITCHING_REGULATOR	= 0,
++	RT_LDO_REGULATOR			= 1,
++} RT_REGULATOR_MODE, *PRT_REGULATOR_MODE;
++
++/*
++ * Interface type.
++ *   */
++typedef	enum _INTERFACE_SELECT_PCIE {
++	INTF_SEL0_SOLO_MINICARD			= 0,		/* WiFi solo-mCard */
++	INTF_SEL1_BT_COMBO_MINICARD		= 1,		/* WiFi+BT combo-mCard */
++	INTF_SEL2_PCIe						= 2,		/* PCIe Card */
++} INTERFACE_SELECT_PCIE, *PINTERFACE_SELECT_PCIE;
++
++
++typedef	enum _INTERFACE_SELECT_USB {
++	INTF_SEL0_USB 				= 0,		/* USB */
++	INTF_SEL1_USB_High_Power  	= 1,		/* USB with high power PA */
++	INTF_SEL2_MINICARD		  	= 2,		/* Minicard */
++	INTF_SEL3_USB_Solo 		= 3,		/* USB solo-Slim module */
++	INTF_SEL4_USB_Combo		= 4,		/* USB Combo-Slim module */
++	INTF_SEL5_USB_Combo_MF	= 5,		/* USB WiFi+BT Multi-Function Combo, i.e., Proprietary layout(AS-VAU) which is the same as SDIO card */
++} INTERFACE_SELECT_USB, *PINTERFACE_SELECT_USB;
++
++typedef enum _RT_AMPDU_BRUST_MODE {
++	RT_AMPDU_BRUST_NONE		= 0,
++	RT_AMPDU_BRUST_92D		= 1,
++	RT_AMPDU_BRUST_88E		= 2,
++	RT_AMPDU_BRUST_8812_4	= 3,
++	RT_AMPDU_BRUST_8812_8	= 4,
++	RT_AMPDU_BRUST_8812_12	= 5,
++	RT_AMPDU_BRUST_8812_15	= 6,
++	RT_AMPDU_BRUST_8723B		= 7,
++} RT_AMPDU_BRUST, *PRT_AMPDU_BRUST_MODE;
++
++/* Tx Power Limit Table Size */
++#define MAX_REGULATION_NUM						4
++#define MAX_RF_PATH_NUM_IN_POWER_LIMIT_TABLE	4
++#define MAX_2_4G_BANDWIDTH_NUM					2
++#define MAX_RATE_SECTION_NUM						10
++#define MAX_5G_BANDWIDTH_NUM						4
++
++#define MAX_BASE_NUM_IN_PHY_REG_PG_2_4G			10 /* CCK:1, OFDM:1, HT:4, VHT:4 */
++#define MAX_BASE_NUM_IN_PHY_REG_PG_5G			9 /* OFDM:1, HT:4, VHT:4 */
++
++
++/* ###### duplicate code,will move to ODM ######### */
++/* #define IQK_MAC_REG_NUM		4 */
++/* #define IQK_ADDA_REG_NUM		16 */
++
++/* #define IQK_BB_REG_NUM			10 */
++#define IQK_BB_REG_NUM_92C	9
++#define IQK_BB_REG_NUM_92D	10
++#define IQK_BB_REG_NUM_test	6
++
++#define IQK_Matrix_Settings_NUM_92D	(1+24+21)
++
++/* #define HP_THERMAL_NUM		8 */
++/* ###### duplicate code,will move to ODM ######### */
++
++#ifdef RTW_RX_AGGREGATION
++typedef enum _RX_AGG_MODE {
++	RX_AGG_DISABLE,
++	RX_AGG_DMA,
++	RX_AGG_USB,
++	RX_AGG_MIX
++} RX_AGG_MODE;
++
++/* #define MAX_RX_DMA_BUFFER_SIZE	10240 */		/* 10K for 8192C RX DMA buffer */
++
++#endif /* RTW_RX_AGGREGATION */
++
++/* E-Fuse */
++#ifdef CONFIG_RTL8188E
++	#define EFUSE_MAP_SIZE	512
++#endif
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) || defined(CONFIG_RTL8814A)
++	#define EFUSE_MAP_SIZE	512
++#endif
++#ifdef CONFIG_RTL8192E
++	#define EFUSE_MAP_SIZE	512
++#endif
++#ifdef CONFIG_RTL8723B
++	#define EFUSE_MAP_SIZE	512
++#endif
++#ifdef CONFIG_RTL8814A
++	#define EFUSE_MAP_SIZE	512
++#endif
++#ifdef CONFIG_RTL8703B
++	#define EFUSE_MAP_SIZE	512
++#endif
++#ifdef CONFIG_RTL8723D
++	#define EFUSE_MAP_SIZE	512
++#endif
++#ifdef CONFIG_RTL8188F
++	#define EFUSE_MAP_SIZE	512
++#endif
++
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++	#define EFUSE_MAX_SIZE	1024
++#elif defined(CONFIG_RTL8188E) || defined(CONFIG_RTL8188F) || defined(CONFIG_RTL8703B) || defined(CONFIG_RTL8723D)
++	#define EFUSE_MAX_SIZE	256
++#else
++	#define EFUSE_MAX_SIZE	512
++#endif
++/* end of E-Fuse */
++
++#define Mac_OFDM_OK			0x00000000
++#define Mac_OFDM_Fail		0x10000000
++#define Mac_OFDM_FasleAlarm	0x20000000
++#define Mac_CCK_OK			0x30000000
++#define Mac_CCK_Fail		0x40000000
++#define Mac_CCK_FasleAlarm	0x50000000
++#define Mac_HT_OK			0x60000000
++#define Mac_HT_Fail			0x70000000
++#define Mac_HT_FasleAlarm	0x90000000
++#define Mac_DropPacket		0xA0000000
++
++#ifdef CONFIG_RF_POWER_TRIM
++#if defined(CONFIG_RTL8723B)
++	#define REG_RF_BB_GAIN_OFFSET	0x7f
++	#define RF_GAIN_OFFSET_MASK		0xfffff
++#elif defined(CONFIG_RTL8188E)
++	#define REG_RF_BB_GAIN_OFFSET	0x55
++	#define RF_GAIN_OFFSET_MASK		0xfffff
++#else
++	#define REG_RF_BB_GAIN_OFFSET	0x55
++	#define RF_GAIN_OFFSET_MASK		0xfffff
++#endif /* CONFIG_RTL8723B */
++#endif /*CONFIG_RF_POWER_TRIM*/
++
++/* For store initial value of BB register */
++typedef struct _BB_INIT_REGISTER {
++	u16	offset;
++	u32	value;
++
++} BB_INIT_REGISTER, *PBB_INIT_REGISTER;
++
++#define PAGE_SIZE_128	128
++#define PAGE_SIZE_256	256
++#define PAGE_SIZE_512	512
++
++#define HCI_SUS_ENTER		0
++#define HCI_SUS_LEAVING		1
++#define HCI_SUS_LEAVE		2
++#define HCI_SUS_ENTERING	3
++#define HCI_SUS_ERR			4
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++typedef enum _ACS_OP {
++	ACS_INIT,		/*ACS - Variable init*/
++	ACS_RESET,		/*ACS - NHM Counter reset*/
++	ACS_SELECT,		/*ACS - NHM Counter Statistics */
++} ACS_OP;
++
++typedef enum _ACS_STATE {
++	ACS_DISABLE,
++	ACS_ENABLE,
++} ACS_STATE;
++
++struct auto_chan_sel {
++	ATOMIC_T state;
++	u8	ch; /* previous channel*/
++};
++#endif /*CONFIG_AUTO_CHNL_SEL_NHM*/
++
++#define EFUSE_FILE_UNUSED 0
++#define EFUSE_FILE_FAILED 1
++#define EFUSE_FILE_LOADED 2
++
++#define MACADDR_FILE_UNUSED 0
++#define MACADDR_FILE_FAILED 1
++#define MACADDR_FILE_LOADED 2
++
++#define KFREE_FLAG_ON				BIT0
++#define KFREE_FLAG_THERMAL_K_ON		BIT1
++
++#define MAX_IQK_INFO_BACKUP_CHNL_NUM	5
++#define MAX_IQK_INFO_BACKUP_REG_NUM		10
++
++struct kfree_data_t {
++	u8 flag;
++	s8 bb_gain[BB_GAIN_NUM][RF_PATH_MAX];
++
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	s8 pa_bias_5g[RF_PATH_MAX];
++	s8 pad_bias_5g[RF_PATH_MAX];
++#endif
++	s8 thermal;
++};
++
++bool kfree_data_is_bb_gain_empty(struct kfree_data_t *data);
++
++struct hal_spec_t {
++	char *ic_name;
++	u8 macid_num;
++
++	u8 sec_cam_ent_num;
++	u8 sec_cap;
++
++	u8 rfpath_num;	/* used for tx power index path */
++	u8 max_tx_cnt;
++	u8 nss_num;
++	u8 band_cap;	/* value of BAND_CAP_XXX */
++	u8 bw_cap;		/* value of BW_CAP_XXX */
++	u8 port_num;
++	u8 proto_cap;	/* value of PROTO_CAP_XXX */
++	u8 wl_func;		/* value of WL_FUNC_XXX */
++};
++
++#define HAL_SPEC_CHK_RF_PATH(_spec, _path) ((_spec)->rfpath_num > (_path))
++#define HAL_SPEC_CHK_TX_CNT(_spec, _cnt_idx) ((_spec)->max_tx_cnt > (_cnt_idx))
++
++#ifdef CONFIG_PHY_CAPABILITY_QUERY
++struct phy_spec_t {
++	u32 trx_cap;
++	u32 stbc_cap;
++	u32 ldpc_cap;
++	u32 txbf_param;
++	u32 txbf_cap;
++};
++#endif
++struct hal_iqk_reg_backup {
++	u8 central_chnl;
++	u8 bw_mode;
++	u32 reg_backup[MAX_RF_PATH][MAX_IQK_INFO_BACKUP_REG_NUM];
++};
++
++typedef struct hal_com_data {
++	HAL_VERSION			VersionID;
++	RT_MULTI_FUNC		MultiFunc; /* For multi-function consideration. */
++	RT_POLARITY_CTL		PolarityCtl; /* For Wifi PDn Polarity control. */
++	RT_REGULATOR_MODE	RegulatorMode; /* switching regulator or LDO */
++	u8	hw_init_completed;
++	/****** FW related ******/
++	u16	FirmwareVersion;
++	u16	FirmwareVersionRev;
++	u16	FirmwareSubVersion;
++	u16	FirmwareSignature;
++	u8	RegFWOffload;
++	u8	fw_ractrl;
++	u8	FwRsvdPageStartOffset; /* 2010.06.23. Added by tynli. Reserve page start offset except beacon in TxQ.*/
++	u8	LastHMEBoxNum;	/* H2C - for host message to fw */
++
++	/****** current WIFI_PHY values ******/
++	WIRELESS_MODE	CurrentWirelessMode;
++	CHANNEL_WIDTH	CurrentChannelBW;
++	BAND_TYPE		CurrentBandType;	/* 0:2.4G, 1:5G */
++	BAND_TYPE		BandSet;
++	u8				CurrentChannel;
++	u8				cch_20;
++	u8				cch_40;
++	u8				cch_80;
++	u8				CurrentCenterFrequencyIndex1;
++	u8				nCur40MhzPrimeSC;	/* Control channel sub-carrier */
++	u8				nCur80MhzPrimeSC;   /* used for primary 40MHz of 80MHz mode */
++	BOOLEAN		bSwChnlAndSetBWInProgress;
++	u8				bDisableSWChannelPlan; /* flag of disable software change channel plan	 */
++	u16				BasicRateSet;
++	u32				ReceiveConfig;
++	u8				rx_tsf_addr_filter_config; /* for 8822B/8821C USE */
++	BOOLEAN			bSwChnl;
++	BOOLEAN			bSetChnlBW;
++	BOOLEAN			bSWToBW40M;
++	BOOLEAN			bSWToBW80M;
++	BOOLEAN			bChnlBWInitialized;
++	u32				BackUp_BB_REG_4_2nd_CCA[3];
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	struct auto_chan_sel acs;
++#endif
++	/****** rf_ctrl *****/
++	u8	rf_chip;
++	u8	rf_type;
++	u8	PackageType;
++	u8	NumTotalRFPath;
++
++	/****** Debug ******/
++	u16	ForcedDataRate;	/* Force Data Rate. 0: Auto, 0x02: 1M ~ 0x6C: 54M. */
++	u8	u1ForcedIgiLb;	/* forced IGI lower bound */
++	u8	bDumpRxPkt;
++	u8	bDumpTxPkt;
++	u8	bDisableTXPowerTraining;
++
++
++	/****** EEPROM setting.******/
++	u8	bautoload_fail_flag;
++	u8	efuse_file_status;
++	u8	macaddr_file_status;
++	u8	EepromOrEfuse;
++	u8	efuse_eeprom_data[EEPROM_MAX_SIZE]; /*92C:256bytes, 88E:512bytes, we use union set (512bytes)*/
++	u8	InterfaceSel; /* board type kept in eFuse */
++	u16	CustomerID;
++
++	u16	EEPROMVID;
++	u16	EEPROMSVID;
++#ifdef CONFIG_USB_HCI
++	u8	EEPROMUsbSwitch;
++	u16	EEPROMPID;
++	u16	EEPROMSDID;
++#endif
++#ifdef CONFIG_PCI_HCI
++	u16	EEPROMDID;
++	u16	EEPROMSMID;
++#endif
++
++	u8	EEPROMCustomerID;
++	u8	EEPROMSubCustomerID;
++	u8	EEPROMVersion;
++	u8	EEPROMRegulatory;
++	u8	EEPROMThermalMeter;
++	u8	EEPROMBluetoothCoexist;
++	u8	EEPROMBluetoothType;
++	u8	EEPROMBluetoothAntNum;
++	u8	EEPROMBluetoothAntIsolation;
++	u8	EEPROMBluetoothRadioShared;
++	u8	EEPROMMACAddr[ETH_ALEN];
++
++#ifdef CONFIG_RF_POWER_TRIM
++	u8	EEPROMRFGainOffset;
++	u8	EEPROMRFGainVal;
++	struct kfree_data_t kfree_data;
++#endif /*CONFIG_RF_POWER_TRIM*/
++
++#if defined(CONFIG_RTL8723B) || defined(CONFIG_RTL8703B) || \
++	defined(CONFIG_RTL8723D)
++	u8	adjuseVoltageVal;
++	u8	need_restore;
++#endif
++	u8	EfuseUsedPercentage;
++	u16	EfuseUsedBytes;
++	/*u8		EfuseMap[2][HWSET_MAX_SIZE_JAGUAR];*/
++	EFUSE_HAL	EfuseHal;
++
++	/*---------------------------------------------------------------------------------*/
++	/* 2.4G TX power info for target TX power*/
++	u8	Index24G_CCK_Base[MAX_RF_PATH][CENTER_CH_2G_NUM];
++	u8	Index24G_BW40_Base[MAX_RF_PATH][CENTER_CH_2G_NUM];
++	s8	CCK_24G_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8	OFDM_24G_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8	BW20_24G_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8	BW40_24G_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++
++	/* 5G TX power info for target TX power*/
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	u8	Index5G_BW40_Base[MAX_RF_PATH][CENTER_CH_5G_ALL_NUM];
++	u8	Index5G_BW80_Base[MAX_RF_PATH][CENTER_CH_5G_80M_NUM];
++	s8	OFDM_5G_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8	BW20_5G_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8	BW40_5G_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8	BW80_5G_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++#endif
++
++	u8	Regulation2_4G;
++	u8	Regulation5G;
++
++	/********************************
++	*	TX power by rate table at most 4RF path.
++	*	The register is
++	*
++	*	VHT TX power by rate off setArray =
++	*	Band:-2G&5G = 0 / 1
++	*	RF: at most 4*4 = ABCD=0/1/2/3
++	*	CCK=0 OFDM=1/2 HT-MCS 0-15=3/4/56 VHT=7/8/9/10/11
++	**********************************/
++	u8	TxPwrByRateTable;
++	u8	TxPwrByRateBand;
++	s8	TxPwrByRateOffset[TX_PWR_BY_RATE_NUM_BAND]
++		[TX_PWR_BY_RATE_NUM_RF]
++		[TX_PWR_BY_RATE_NUM_RF]
++		[TX_PWR_BY_RATE_NUM_RATE];
++
++#ifdef CONFIG_PHYDM_POWERTRACK_BY_TSSI
++	s8	TxPwrByRate[TX_PWR_BY_RATE_NUM_BAND]
++		[TX_PWR_BY_RATE_NUM_RF]
++		[TX_PWR_BY_RATE_NUM_RF]
++		[TX_PWR_BY_RATE_NUM_RATE];
++#endif
++	/* --------------------------------------------------------------------------------- */
++
++	u8 tx_pwr_lmt_5g_20_40_ref;
++
++	/* Power Limit Table for 2.4G */
++	s8	TxPwrLimit_2_4G[MAX_REGULATION_NUM]
++		[MAX_2_4G_BANDWIDTH_NUM]
++		[MAX_RATE_SECTION_NUM]
++		[CENTER_CH_2G_NUM]
++		[MAX_RF_PATH];
++
++	/* Power Limit Table for 5G */
++	s8	TxPwrLimit_5G[MAX_REGULATION_NUM]
++		[MAX_5G_BANDWIDTH_NUM]
++		[MAX_RATE_SECTION_NUM]
++		[CENTER_CH_5G_ALL_NUM]
++		[MAX_RF_PATH];
++
++
++#ifdef CONFIG_PHYDM_POWERTRACK_BY_TSSI
++	s8	TxPwrLimit_2_4G_Original[MAX_REGULATION_NUM]
++		[MAX_2_4G_BANDWIDTH_NUM]
++		[MAX_RATE_SECTION_NUM]
++		[CENTER_CH_2G_NUM]
++		[MAX_RF_PATH];
++
++
++	s8	TxPwrLimit_5G_Original[MAX_REGULATION_NUM]
++		[MAX_5G_BANDWIDTH_NUM]
++		[MAX_RATE_SECTION_NUM]
++		[CENTER_CH_5G_ALL_NUM]
++		[MAX_RF_PATH];
++
++#endif
++
++	/* Store the original power by rate value of the base of each rate section of rf path A & B */
++	u8	TxPwrByRateBase2_4G[TX_PWR_BY_RATE_NUM_RF]
++		[TX_PWR_BY_RATE_NUM_RF]
++		[MAX_BASE_NUM_IN_PHY_REG_PG_2_4G];
++	u8	TxPwrByRateBase5G[TX_PWR_BY_RATE_NUM_RF]
++		[TX_PWR_BY_RATE_NUM_RF]
++		[MAX_BASE_NUM_IN_PHY_REG_PG_5G];
++
++	u8	txpwr_by_rate_loaded:1;
++	u8	txpwr_by_rate_from_file:1;
++	u8	txpwr_limit_loaded:1;
++	u8	txpwr_limit_from_file:1;
++	u8	RfPowerTrackingType;
++
++	/* Read/write are allow for following hardware information variables	 */
++	u8	CrystalCap;
++
++	u8	PAType_2G;
++	u8	PAType_5G;
++	u8	LNAType_2G;
++	u8	LNAType_5G;
++	u8	ExternalPA_2G;
++	u8	ExternalLNA_2G;
++	u8	ExternalPA_5G;
++	u8	ExternalLNA_5G;
++	u16	TypeGLNA;
++	u16	TypeGPA;
++	u16	TypeALNA;
++	u16	TypeAPA;
++	u16	RFEType;
++
++	u8	bLedOpenDrain; /* Support Open-drain arrangement for controlling the LED. Added by Roger, 2009.10.16. */
++	u32	AcParam_BE; /* Original parameter for BE, use for EDCA turbo.	*/
++
++	BB_REGISTER_DEFINITION_T	PHYRegDef[MAX_RF_PATH];	/* Radio A/B/C/D */
++
++	u32	RfRegChnlVal[MAX_RF_PATH];
++
++	/* RDG enable */
++	BOOLEAN	 bRDGEnable;
++
++	u8	RegTxPause;
++	/* Beacon function related global variable. */
++	u8	RegBcnCtrlVal;
++	u8	RegFwHwTxQCtrl;
++	u8	RegReg542;
++	u8	RegCR_1;
++	u8	Reg837;
++	u16	RegRRSR;
++
++	/****** antenna diversity ******/
++	u8	AntDivCfg;
++	u8	with_extenal_ant_switch;
++	u8	b_fix_tx_ant;
++	u8	AntDetection;
++	u8	TRxAntDivType;
++	u8	ant_path; /* for 8723B s0/s1 selection	 */
++	u32	AntennaTxPath;					/* Antenna path Tx */
++	u32	AntennaRxPath;					/* Antenna path Rx */
++	u8 sw_antdiv_bl_state;
++
++	/******** PHY DM & DM Section **********/
++	u8			DM_Type;
++	_lock		IQKSpinLock;
++	u8			INIDATA_RATE[MACID_NUM_SW_LIMIT];
++	/* Upper and Lower Signal threshold for Rate Adaptive*/
++	int			EntryMinUndecoratedSmoothedPWDB;
++	int			EntryMaxUndecoratedSmoothedPWDB;
++	int			MinUndecoratedPWDBForDM;
++	DM_ODM_T	odmpriv;
++	u8			bIQKInitialized;
++	u8			bNeedIQK;
++	u8		IQK_MP_Switch;
++	/******** PHY DM & DM Section **********/
++
++
++
++	/* 2010/08/09 MH Add CU power down mode. */
++	BOOLEAN		pwrdown;
++
++	/* Add for dual MAC  0--Mac0 1--Mac1 */
++	u32	interfaceIndex;
++
++#ifdef CONFIG_P2P
++	u8	p2p_ps_offload;
++#endif
++	/* Auto FSM to Turn On, include clock, isolation, power control for MAC only */
++	u8	bMacPwrCtrlOn;
++	u8 hci_sus_state;
++
++	u8	RegIQKFWOffload;
++	struct submit_ctx	iqk_sctx;
++
++	RT_AMPDU_BRUST		AMPDUBurstMode; /* 92C maybe not use, but for compile successfully */
++
++	u8	OutEpQueueSel;
++	u8	OutEpNumber;
++
++#ifdef RTW_RX_AGGREGATION
++	RX_AGG_MODE rxagg_mode;
++
++	/* For RX Aggregation DMA Mode */
++	u8 rxagg_dma_size;
++	u8 rxagg_dma_timeout;
++#endif /* RTW_RX_AGGREGATION */
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	/*  */
++	/* For SDIO Interface HAL related */
++	/*  */
++
++	/*  */
++	/* SDIO ISR Related */
++	/*
++	*	u32			IntrMask[1];
++	*	u32			IntrMaskToSet[1];
++	*	LOG_INTERRUPT		InterruptLog; */
++	u32			sdio_himr;
++	u32			sdio_hisr;
++#ifndef RTW_HALMAC
++	/*  */
++	/* SDIO Tx FIFO related. */
++	/*  */
++	/* HIQ, MID, LOW, PUB free pages; padapter->xmitpriv.free_txpg */
++	u8			SdioTxFIFOFreePage[SDIO_TX_FREE_PG_QUEUE];
++	_lock		SdioTxFIFOFreePageLock;
++	u8			SdioTxOQTMaxFreeSpace;
++	u8			SdioTxOQTFreeSpace;
++#else /* RTW_HALMAC */
++	u16			SdioTxOQTFreeSpace;
++#endif /* RTW_HALMAC */
++
++	/*  */
++	/* SDIO Rx FIFO related. */
++	/*  */
++	u8			SdioRxFIFOCnt;
++	u16			SdioRxFIFOSize;
++
++#ifndef RTW_HALMAC
++	u32			sdio_tx_max_len[SDIO_MAX_TX_QUEUE];/* H, N, L, used for sdio tx aggregation max length per queue */
++#else
++#ifdef CONFIG_RTL8821C
++	u16			tx_high_page;
++	u16			tx_low_page;
++	u16			tx_normal_page;
++	u16			tx_extra_page;
++	u16			tx_pub_page;
++	u16			max_oqt_page;
++	u32			max_xmit_size_vovi;
++	u32			max_xmit_size_bebk;
++#endif
++#endif /* !RTW_HALMAC */
++#endif /* CONFIG_SDIO_HCI */
++
++#ifdef CONFIG_USB_HCI
++
++	/* 2010/12/10 MH Add for USB aggreation mode dynamic shceme. */
++	BOOLEAN		UsbRxHighSpeedMode;
++	BOOLEAN		UsbTxVeryHighSpeedMode;
++	u32			UsbBulkOutSize;
++	BOOLEAN		bSupportUSB3;
++	u8			usb_intf_start;
++
++	/* Interrupt relatd register information. */
++	u32			IntArray[3];/* HISR0,HISR1,HSISR */
++	u32			IntrMask[3];
++	u8			C2hArray[16];
++#ifdef CONFIG_USB_TX_AGGREGATION
++	u8			UsbTxAggMode;
++	u8			UsbTxAggDescNum;
++#endif /* CONFIG_USB_TX_AGGREGATION */
++
++#ifdef CONFIG_USB_RX_AGGREGATION
++	u16			HwRxPageSize;				/* Hardware setting */
++
++	/* For RX Aggregation USB Mode */
++	u8			rxagg_usb_size;
++	u8			rxagg_usb_timeout;
++#endif/* CONFIG_USB_RX_AGGREGATION */
++#endif /* CONFIG_USB_HCI */
++
++
++#ifdef CONFIG_PCI_HCI
++	/*  */
++	/* EEPROM setting. */
++	/*  */
++	u32			TransmitConfig;
++	u32			IntrMaskToSet[2];
++	u32			IntArray[4];
++	u32			IntrMask[4];
++	u32			SysIntArray[1];
++	u32			SysIntrMask[1];
++	u32			IntrMaskReg[2];
++	u32			IntrMaskDefault[4];
++
++	BOOLEAN		bL1OffSupport;
++	BOOLEAN	bSupportBackDoor;
++
++	u8			bDefaultAntenna;
++
++	u8			bInterruptMigration;
++	u8			bDisableTxInt;
++
++	u16			RxTag;
++#endif /* CONFIG_PCI_HCI */
++
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	struct sreset_priv srestpriv;
++#endif /* #ifdef DBG_CONFIG_ERROR_DETECT */
++
++#ifdef CONFIG_BT_COEXIST
++	/* For bluetooth co-existance */
++	BT_COEXIST		bt_coexist;
++#endif /* CONFIG_BT_COEXIST */
++
++#if defined(CONFIG_RTL8723B) || defined(CONFIG_RTL8703B) \
++	|| defined(CONFIG_RTL8188F) || defined(CONFIG_RTL8723D)
++#ifndef CONFIG_PCI_HCI	/* mutual exclusive with PCI -- so they're SDIO and GSPI */
++	/* Interrupt relatd register information. */
++	u32			SysIntrStatus;
++	u32			SysIntrMask;
++#endif
++#endif /*endif CONFIG_RTL8723B	*/
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	char	para_file_buf[MAX_PARA_FILE_BUF_LEN];
++	char *mac_reg;
++	u32	mac_reg_len;
++	char *bb_phy_reg;
++	u32	bb_phy_reg_len;
++	char *bb_agc_tab;
++	u32	bb_agc_tab_len;
++	char *bb_phy_reg_pg;
++	u32	bb_phy_reg_pg_len;
++	char *bb_phy_reg_mp;
++	u32	bb_phy_reg_mp_len;
++	char *rf_radio_a;
++	u32	rf_radio_a_len;
++	char *rf_radio_b;
++	u32	rf_radio_b_len;
++	char *rf_tx_pwr_track;
++	u32	rf_tx_pwr_track_len;
++	char *rf_tx_pwr_lmt;
++	u32	rf_tx_pwr_lmt_len;
++#endif
++
++#ifdef CONFIG_BACKGROUND_NOISE_MONITOR
++	s16 noise[ODM_MAX_CHANNEL_NUM];
++#endif
++
++	struct hal_spec_t hal_spec;
++#ifdef CONFIG_PHY_CAPABILITY_QUERY
++	struct phy_spec_t phy_spec;
++#endif
++	u8	RfKFreeEnable;
++	u8	RfKFree_ch_group;
++	BOOLEAN				bCCKinCH14;
++	BB_INIT_REGISTER	RegForRecover[5];
++
++#if defined(CONFIG_PCI_HCI) && defined(RTL8814AE_SW_BCN)
++	BOOLEAN bCorrectBCN;
++#endif
++	u32 RxGainOffset[4]; /*{2G, 5G_Low, 5G_Middle, G_High}*/
++	u8 BackUp_IG_REG_4_Chnl_Section[4]; /*{A,B,C,D}*/
++
++	struct hal_iqk_reg_backup iqk_reg_backup[MAX_IQK_INFO_BACKUP_CHNL_NUM];
++
++#ifdef CONFIG_BEAMFORMING
++	u8 backup_snd_ptcl_ctrl;
++#ifdef RTW_BEAMFORMING_VERSION_2
++	struct beamforming_info beamforming_info;
++#endif /* RTW_BEAMFORMING_VERSION_2 */
++#endif /* CONFIG_BEAMFORMING */
++} HAL_DATA_COMMON, *PHAL_DATA_COMMON;
++
++
++
++typedef struct hal_com_data HAL_DATA_TYPE, *PHAL_DATA_TYPE;
++#define GET_HAL_DATA(__pAdapter)			((HAL_DATA_TYPE *)((__pAdapter)->HalData))
++#define GET_HAL_SPEC(__pAdapter)			(&(GET_HAL_DATA((__pAdapter))->hal_spec))
++#define GET_ODM(__pAdapter)			(&(GET_HAL_DATA((__pAdapter))->odmpriv))
++
++#define GET_HAL_RFPATH_NUM(__pAdapter)		(((HAL_DATA_TYPE *)((__pAdapter)->HalData))->NumTotalRFPath)
++#define RT_GetInterfaceSelection(_Adapter)		(GET_HAL_DATA(_Adapter)->InterfaceSel)
++#define GET_RF_TYPE(__pAdapter)				(GET_HAL_DATA(__pAdapter)->rf_type)
++#define GET_KFREE_DATA(_adapter) (&(GET_HAL_DATA((_adapter))->kfree_data))
++
++#define	SUPPORT_HW_RADIO_DETECT(Adapter)	(RT_GetInterfaceSelection(Adapter) == INTF_SEL2_MINICARD || \
++		RT_GetInterfaceSelection(Adapter) == INTF_SEL3_USB_Solo || \
++		RT_GetInterfaceSelection(Adapter) == INTF_SEL4_USB_Combo)
++
++#define get_hal_mac_addr(adapter)				(GET_HAL_DATA(adapter)->EEPROMMACAddr)
++#define is_boot_from_eeprom(adapter)			(GET_HAL_DATA(adapter)->EepromOrEfuse)
++#define rtw_get_hw_init_completed(adapter)		(GET_HAL_DATA(adapter)->hw_init_completed)
++#define rtw_is_hw_init_completed(adapter)		(GET_HAL_DATA(adapter)->hw_init_completed == _TRUE)
++#endif
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++#define GET_ACS_STATE(padapter)					(ATOMIC_READ(&GET_HAL_DATA(padapter)->acs.state))
++#define SET_ACS_STATE(padapter, set_state)			(ATOMIC_SET(&GET_HAL_DATA(padapter)->acs.state, set_state))
++#define rtw_get_acs_channel(padapter)				(GET_HAL_DATA(padapter)->acs.ch)
++#define rtw_set_acs_channel(padapter, survey_ch)	(GET_HAL_DATA(padapter)->acs.ch = survey_ch)
++#endif /*CONFIG_AUTO_CHNL_SEL_NHM*/
++
++#ifdef RTW_HALMAC
++int rtw_halmac_deinit_adapter(struct dvobj_priv *);
++#endif /* RTW_HALMAC */
++
++#endif /* __HAL_DATA_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/hal_gspi.h b/drivers/net/wireless/rtl8812au/include/hal_gspi.h
+new file mode 100644
+index 0000000..68119c5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/hal_gspi.h
+@@ -0,0 +1,31 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_GSPI_H_
++#define __HAL_GSPI_H_
++
++#define ffaddr2deviceId(pdvobj, addr)	(pdvobj->Queue2Pipe[addr])
++
++u8 rtw_hal_gspi_max_txoqt_free_space(_adapter *padapter);
++u8 rtw_hal_gspi_query_tx_freepage(_adapter *padapter, u8 PageIdx, u8 RequiredPageNum);
++void rtw_hal_gspi_update_tx_freepage(_adapter *padapter, u8 PageIdx, u8 RequiredPageNum);
++void rtw_hal_set_gspi_tx_max_length(PADAPTER padapter, u8 numHQ, u8 numNQ, u8 numLQ, u8 numPubQ);
++u32 rtw_hal_get_gspi_tx_max_length(PADAPTER padapter, u8 queue_idx);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/hal_ic_cfg.h b/drivers/net/wireless/rtl8812au/include/hal_ic_cfg.h
+new file mode 100644
+index 0000000..4f79c60
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/hal_ic_cfg.h
+@@ -0,0 +1,111 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_IC_CFG_H__
++#define __HAL_IC_CFG_H__
++
++#define RTL8188E_SUPPORT				0
++#define RTL8812A_SUPPORT				0
++#define RTL8821A_SUPPORT				0
++#define RTL8723B_SUPPORT				0
++#define RTL8723D_SUPPORT				0
++#define RTL8192E_SUPPORT				0
++#define RTL8814A_SUPPORT				0
++#define RTL8195A_SUPPORT				0
++#define RTL8197F_SUPPORT				0
++#define RTL8703B_SUPPORT				0
++#define RTL8188F_SUPPORT				0
++#define RTL8822B_SUPPORT				0
++#define RTL8821B_SUPPORT				0
++#define RTL8821C_SUPPORT				0
++
++/*#if (RTL8188E_SUPPORT==1)*/
++#define RATE_ADAPTIVE_SUPPORT			0
++#define POWER_TRAINING_ACTIVE			0
++
++#ifdef CONFIG_MULTIDRV
++#endif
++
++#ifdef CONFIG_RTL8188E
++	#undef RTL8188E_SUPPORT
++	#undef RATE_ADAPTIVE_SUPPORT
++	#undef POWER_TRAINING_ACTIVE
++
++	#define RTL8188E_SUPPORT				1
++	#define RATE_ADAPTIVE_SUPPORT			1
++	#define POWER_TRAINING_ACTIVE			1
++	#define CONFIG_GET_RAID_BY_DRV
++#endif
++
++#ifdef CONFIG_RTL8812A
++	#undef RTL8812A_SUPPORT
++	#define RTL8812A_SUPPORT				1
++#endif
++
++#ifdef CONFIG_RTL8821A
++	#undef RTL8821A_SUPPORT
++	#define RTL8821A_SUPPORT				1
++#endif
++
++#ifdef CONFIG_RTL8192E
++	#undef RTL8192E_SUPPORT
++	#define RTL8192E_SUPPORT				1
++#endif
++
++#ifdef CONFIG_RTL8723B
++	#undef RTL8723B_SUPPORT
++	#define RTL8723B_SUPPORT				1
++#endif
++
++#ifdef CONFIG_RTL8723D
++	#undef RTL8723D_SUPPORT
++	#define RTL8723D_SUPPORT				1
++#endif
++
++#ifdef CONFIG_RTL8814A
++	#undef RTL8814A_SUPPORT
++	#define RTL8814A_SUPPORT				1
++#endif
++
++#ifdef CONFIG_RTL8703B
++	#undef RTL8703B_SUPPORT
++	#define RTL8703B_SUPPORT				1
++#endif
++
++#ifdef CONFIG_RTL8188F
++	#undef RTL8188F_SUPPORT
++	#define RTL8188F_SUPPORT				1
++#endif
++
++#ifdef CONFIG_RTL8822B
++	#undef RTL8822B_SUPPORT
++	#define RTL8822B_SUPPORT				1
++#endif
++
++#ifdef CONFIG_RTL8821C
++	#undef RTL8821C_SUPPORT
++	#define RTL8821C_SUPPORT				1
++	#define LOAD_FW_HEADER_FROM_DRIVER
++	#define CONFIG_PHY_CAPABILITY_QUERY
++	#ifdef CONFIG_CONCURRENT_MODE
++	#define CONFIG_SUPPORT_FW_MULTI_PORT
++	#endif
++#endif
++
++#endif /*__HAL_IC_CFG_H__*/
+diff --git a/drivers/net/wireless/rtl8812au/include/hal_intf.h b/drivers/net/wireless/rtl8812au/include/hal_intf.h
+new file mode 100644
+index 0000000..f751e44
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/hal_intf.h
+@@ -0,0 +1,729 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_INTF_H__
++#define __HAL_INTF_H__
++
++
++enum RTL871X_HCI_TYPE {
++	RTW_PCIE	= BIT0,
++	RTW_USB	= BIT1,
++	RTW_SDIO	= BIT2,
++	RTW_GSPI	= BIT3,
++};
++
++enum _CHIP_TYPE {
++
++	NULL_CHIP_TYPE,
++	RTL8188E,
++	RTL8192E,
++	RTL8812,
++	RTL8821, /* RTL8811 */
++	RTL8723B,
++	RTL8814A,
++	RTL8703B,
++	RTL8188F,
++	RTL8822B,
++	RTL8723D,
++	RTL8821C,
++	MAX_CHIP_TYPE
++};
++
++extern const u32 _chip_type_to_odm_ic_type[];
++#define chip_type_to_odm_ic_type(chip_type) (((chip_type) >= MAX_CHIP_TYPE) ? _chip_type_to_odm_ic_type[MAX_CHIP_TYPE] : _chip_type_to_odm_ic_type[(chip_type)])
++
++typedef enum _HAL_HW_TIMER_TYPE {
++	HAL_TIMER_NONE = 0,
++	HAL_TIMER_TXBF = 1,
++	HAL_TIMER_EARLYMODE = 2,
++} HAL_HW_TIMER_TYPE, *PHAL_HW_TIMER_TYPE;
++
++
++typedef enum _HW_VARIABLES {
++	HW_VAR_MEDIA_STATUS,
++	HW_VAR_SET_OPMODE,
++	HW_VAR_MAC_ADDR,
++	HW_VAR_BSSID,
++	HW_VAR_INIT_RTS_RATE,
++	HW_VAR_BASIC_RATE,
++	HW_VAR_TXPAUSE,
++	HW_VAR_BCN_FUNC,
++	HW_VAR_CORRECT_TSF,
++	HW_VAR_CHECK_BSSID,
++	HW_VAR_MLME_DISCONNECT,
++	HW_VAR_MLME_SITESURVEY,
++	HW_VAR_MLME_JOIN,
++	HW_VAR_ON_RCR_AM,
++	HW_VAR_OFF_RCR_AM,
++	HW_VAR_BEACON_INTERVAL,
++	HW_VAR_SLOT_TIME,
++	HW_VAR_RESP_SIFS,
++	HW_VAR_ACK_PREAMBLE,
++	HW_VAR_SEC_CFG,
++	HW_VAR_SEC_DK_CFG,
++	HW_VAR_BCN_VALID,
++	HW_VAR_RF_TYPE,
++	/* PHYDM odm->SupportAbility */
++	HW_VAR_CAM_EMPTY_ENTRY,
++	HW_VAR_CAM_INVALID_ALL,
++	HW_VAR_AC_PARAM_VO,
++	HW_VAR_AC_PARAM_VI,
++	HW_VAR_AC_PARAM_BE,
++	HW_VAR_AC_PARAM_BK,
++	HW_VAR_ACM_CTRL,
++	HW_VAR_AMPDU_MIN_SPACE,
++	HW_VAR_AMPDU_FACTOR,
++	HW_VAR_RXDMA_AGG_PG_TH,
++	HW_VAR_SET_RPWM,
++	HW_VAR_CPWM,
++	HW_VAR_H2C_FW_PWRMODE,
++	HW_VAR_H2C_PS_TUNE_PARAM,
++	HW_VAR_H2C_FW_JOINBSSRPT,
++	HW_VAR_FWLPS_RF_ON,
++	HW_VAR_H2C_FW_P2P_PS_OFFLOAD,
++#ifdef CONFIG_LPS_POFF
++	HW_VAR_LPS_POFF_INIT,
++	HW_VAR_LPS_POFF_DEINIT,
++	HW_VAR_LPS_POFF_SET_MODE,
++	HW_VAR_LPS_POFF_WOW_EN,
++#endif
++	HW_VAR_TRIGGER_GPIO_0,
++	HW_VAR_BT_SET_COEXIST,
++	HW_VAR_BT_ISSUE_DELBA,
++	HW_VAR_SWITCH_EPHY_WoWLAN,
++	HW_VAR_EFUSE_USAGE,
++	HW_VAR_EFUSE_BYTES,
++	HW_VAR_EFUSE_BT_USAGE,
++	HW_VAR_EFUSE_BT_BYTES,
++	HW_VAR_FIFO_CLEARN_UP,
++	HW_VAR_RESTORE_HW_SEQ,
++	HW_VAR_CHECK_TXBUF,
++	HW_VAR_PCIE_STOP_TX_DMA,
++	HW_VAR_APFM_ON_MAC, /* Auto FSM to Turn On, include clock, isolation, power control for MAC only */
++	HW_VAR_HCI_SUS_STATE,
++	/* The valid upper nav range for the HW updating, if the true value is larger than the upper range, the HW won't update it. */
++	/* Unit in microsecond. 0 means disable this function. */
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	HW_VAR_WOWLAN,
++	HW_VAR_WAKEUP_REASON,
++#endif
++	HW_VAR_RPWM_TOG,
++#ifdef CONFIG_GPIO_WAKEUP
++	HW_SET_GPIO_WL_CTRL,
++#endif
++	HW_VAR_SYS_CLKR,
++	HW_VAR_NAV_UPPER,
++	HW_VAR_C2H_HANDLE,
++	HW_VAR_RPT_TIMER_SETTING,
++	HW_VAR_TX_RPT_MAX_MACID,
++	HW_VAR_CHK_HI_QUEUE_EMPTY,
++	HW_VAR_DL_BCN_SEL,
++	HW_VAR_AMPDU_MAX_TIME,
++	HW_VAR_WIRELESS_MODE,
++	HW_VAR_USB_MODE,
++	HW_VAR_PORT_SWITCH,
++	HW_VAR_DO_IQK,
++	HW_VAR_DM_IN_LPS,
++	HW_VAR_SET_REQ_FW_PS,
++	HW_VAR_FW_PS_STATE,
++	HW_VAR_SOUNDING_ENTER,
++	HW_VAR_SOUNDING_LEAVE,
++	HW_VAR_SOUNDING_RATE,
++	HW_VAR_SOUNDING_STATUS,
++	HW_VAR_SOUNDING_FW_NDPA,
++	HW_VAR_SOUNDING_CLK,
++	HW_VAR_SOUNDING_SET_GID_TABLE,
++	/*Add by YuChen for TXBF HW timer*/
++	HW_VAR_HW_REG_TIMER_INIT,
++	HW_VAR_HW_REG_TIMER_RESTART,
++	HW_VAR_HW_REG_TIMER_START,
++	HW_VAR_HW_REG_TIMER_STOP,
++	/*Add by YuChen for TXBF HW timer*/
++	HW_VAR_DL_RSVD_PAGE,
++	HW_VAR_MACID_LINK,
++	HW_VAR_MACID_NOLINK,
++	HW_VAR_MACID_SLEEP,
++	HW_VAR_MACID_WAKEUP,
++	HW_VAR_DUMP_MAC_QUEUE_INFO,
++	HW_VAR_ASIX_IOT,
++#ifdef CONFIG_MBSSID_CAM
++	HW_VAR_MBSSID_CAM_WRITE,
++	HW_VAR_MBSSID_CAM_CLEAR,
++	HW_VAR_RCR_MBSSID_EN,
++#endif
++	HW_VAR_EN_HW_UPDATE_TSF,
++	HW_VAR_CH_SW_NEED_TO_TAKE_CARE_IQK_INFO,
++	HW_VAR_CH_SW_IQK_INFO_BACKUP,
++	HW_VAR_CH_SW_IQK_INFO_RESTORE,
++#ifdef CONFIG_TDLS
++	HW_VAR_TDLS_WRCR,
++	HW_VAR_TDLS_RS_RCR,
++#ifdef CONFIG_TDLS_CH_SW
++	HW_VAR_TDLS_BCN_EARLY_C2H_RPT
++#endif
++#endif
++} HW_VARIABLES;
++
++typedef enum _HAL_DEF_VARIABLE {
++	HAL_DEF_UNDERCORATEDSMOOTHEDPWDB,
++	HAL_DEF_IS_SUPPORT_ANT_DIV,
++	HAL_DEF_DRVINFO_SZ,
++	HAL_DEF_MAX_RECVBUF_SZ,
++	HAL_DEF_RX_PACKET_OFFSET,
++	HAL_DEF_RX_DMA_SZ_WOW,
++	HAL_DEF_RX_DMA_SZ,
++	HAL_DEF_RX_PAGE_SIZE,
++	HAL_DEF_DBG_DUMP_RXPKT,/* for dbg */
++	HAL_DEF_RA_DECISION_RATE,
++	HAL_DEF_RA_SGI,
++	HAL_DEF_PT_PWR_STATUS,
++	HAL_DEF_TX_LDPC,				/* LDPC support */
++	HAL_DEF_RX_LDPC,				/* LDPC support */
++	HAL_DEF_TX_STBC,				/* TX STBC support */
++	HAL_DEF_RX_STBC,				/* RX STBC support */
++	HAL_DEF_EXPLICIT_BEAMFORMER,/* Explicit  Compressed Steering Capable */
++	HAL_DEF_EXPLICIT_BEAMFORMEE,/* Explicit Compressed Beamforming Feedback Capable */
++	HAL_DEF_VHT_MU_BEAMFORMER,	/* VHT MU Beamformer support */
++	HAL_DEF_VHT_MU_BEAMFORMEE,	/* VHT MU Beamformee support */
++	HAL_DEF_BEAMFORMER_CAP,
++	HAL_DEF_BEAMFORMEE_CAP,
++	HW_VAR_MAX_RX_AMPDU_FACTOR,
++	HW_DEF_RA_INFO_DUMP,
++	HAL_DEF_DBG_DUMP_TXPKT,
++
++	HAL_DEF_TX_PAGE_SIZE,
++	HAL_DEF_TX_PAGE_BOUNDARY,
++	HAL_DEF_TX_PAGE_BOUNDARY_WOWLAN,
++	HAL_DEF_ANT_DETECT,/* to do for 8723a */
++	HAL_DEF_PCI_SUUPORT_L1_BACKDOOR, /* Determine if the L1 Backdoor setting is turned on. */
++	HAL_DEF_PCI_AMD_L1_SUPPORT,
++	HAL_DEF_PCI_ASPM_OSC, /* Support for ASPM OSC, added by Roger, 2013.03.27. */
++	HAL_DEF_MACID_SLEEP, /* Support for MACID sleep */
++	HAL_DEF_DBG_DIS_PWT, /* disable Tx power training or not. */
++	HAL_DEF_EFUSE_USAGE,	/* Get current EFUSE utilization. 2008.12.19. Added by Roger. */
++	HAL_DEF_EFUSE_BYTES,
++	HW_VAR_BEST_AMPDU_DENSITY,
++} HAL_DEF_VARIABLE;
++
++typedef enum _HAL_ODM_VARIABLE {
++	HAL_ODM_STA_INFO,
++	HAL_ODM_P2P_STATE,
++	HAL_ODM_WIFI_DISPLAY_STATE,
++	HAL_ODM_NOISE_MONITOR,
++	HAL_ODM_REGULATION,
++	HAL_ODM_INITIAL_GAIN,
++	HAL_ODM_FA_CNT_DUMP,
++	HAL_ODM_DBG_FLAG,
++	HAL_ODM_DBG_LEVEL,
++	HAL_ODM_RX_INFO_DUMP,
++	HAL_ODM_RX_Dframe_INFO,
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	HAL_ODM_AUTO_CHNL_SEL,
++#endif
++#ifdef CONFIG_ANTENNA_DIVERSITY
++	HAL_ODM_ANTDIV_SELECT
++#endif
++} HAL_ODM_VARIABLE;
++
++typedef enum _HAL_INTF_PS_FUNC {
++	HAL_USB_SELECT_SUSPEND,
++	HAL_MAX_ID,
++} HAL_INTF_PS_FUNC;
++
++typedef s32(*c2h_id_filter)(u8 *c2h_evt);
++
++struct txpwr_idx_comp;
++
++struct hal_ops {
++	/*** initialize section ***/
++	void	(*read_chip_version)(_adapter *padapter);
++	void	(*init_default_value)(_adapter *padapter);
++	void	(*intf_chip_configure)(_adapter *padapter);
++	void	(*read_adapter_info)(_adapter *padapter);
++	u32(*hal_power_on)(_adapter *padapter);
++	void	(*hal_power_off)(_adapter *padapter);
++	u32(*hal_init)(_adapter *padapter);
++	u32(*hal_deinit)(_adapter *padapter);
++	void	(*dm_init)(_adapter *padapter);
++	void	(*dm_deinit)(_adapter *padapter);
++
++	/*** xmit section ***/
++	s32(*init_xmit_priv)(_adapter *padapter);
++	void	(*free_xmit_priv)(_adapter *padapter);
++	s32(*hal_xmit)(_adapter *padapter, struct xmit_frame *pxmitframe);
++	/*
++	 * mgnt_xmit should be implemented to run in interrupt context
++	 */
++	s32(*mgnt_xmit)(_adapter *padapter, struct xmit_frame *pmgntframe);
++	s32(*hal_xmitframe_enqueue)(_adapter *padapter, struct xmit_frame *pxmitframe);
++#ifdef CONFIG_XMIT_THREAD_MODE
++	s32(*xmit_thread_handler)(_adapter *padapter);
++#endif
++	void	(*run_thread)(_adapter *padapter);
++	void	(*cancel_thread)(_adapter *padapter);
++
++	/*** recv section ***/
++	s32(*init_recv_priv)(_adapter *padapter);
++	void	(*free_recv_priv)(_adapter *padapter);
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_PCI_HCI)
++	u32(*inirp_init)(_adapter *padapter);
++	u32(*inirp_deinit)(_adapter *padapter);
++#endif
++	/*** interrupt hdl section ***/
++	void	(*enable_interrupt)(_adapter *padapter);
++	void	(*disable_interrupt)(_adapter *padapter);
++	u8(*check_ips_status)(_adapter *padapter);
++#if defined(CONFIG_PCI_HCI)
++	s32(*interrupt_handler)(_adapter *padapter);
++#endif
++
++#if defined(CONFIG_USB_HCI) && defined(CONFIG_SUPPORT_USB_INT)
++	void	(*interrupt_handler)(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif
++
++#if defined(CONFIG_PCI_HCI)
++	void	(*irp_reset)(_adapter *padapter);
++#endif
++
++	/*** DM section ***/
++
++	void	(*InitSwLeds)(_adapter *padapter);
++	void	(*DeInitSwLeds)(_adapter *padapter);
++
++	void	(*set_chnl_bw_handler)(_adapter *padapter, u8 channel, CHANNEL_WIDTH Bandwidth, u8 Offset40, u8 Offset80);
++
++	void	(*set_tx_power_level_handler)(_adapter *padapter, u8 channel);
++	void	(*get_tx_power_level_handler)(_adapter *padapter, s32 *powerlevel);
++
++	void (*set_tx_power_index_handler)(_adapter *padapter, u32 powerindex, u8 rfpath, u8 rate);
++	u8(*get_tx_power_index_handler)(_adapter *padapter, u8 rfpath, u8 rate, u8 bandwidth, u8 channel, struct txpwr_idx_comp *tic);
++
++	void	(*hal_dm_watchdog)(_adapter *padapter);
++#ifdef CONFIG_LPS_LCLK_WD_TIMER
++	void	(*hal_dm_watchdog_in_lps)(_adapter *padapter);
++#endif
++
++	void	(*SetHwRegHandler)(_adapter *padapter, u8	variable, u8 *val);
++	void	(*GetHwRegHandler)(_adapter *padapter, u8	variable, u8 *val);
++
++#ifdef CONFIG_C2H_PACKET_EN
++	void	(*SetHwRegHandlerWithBuf)(_adapter *padapter, u8 variable, u8 *pbuf, int len);
++#endif
++
++	u8(*GetHalDefVarHandler)(_adapter *padapter, HAL_DEF_VARIABLE eVariable, PVOID pValue);
++	u8(*SetHalDefVarHandler)(_adapter *padapter, HAL_DEF_VARIABLE eVariable, PVOID pValue);
++
++	void	(*GetHalODMVarHandler)(_adapter *padapter, HAL_ODM_VARIABLE eVariable, PVOID pValue1, PVOID pValue2);
++	void	(*SetHalODMVarHandler)(_adapter *padapter, HAL_ODM_VARIABLE eVariable, PVOID pValue1, BOOLEAN bSet);
++
++	void	(*UpdateRAMaskHandler)(_adapter *padapter, struct sta_info *psta, u32 mac_id, u8 rssi_level);
++	void	(*SetBeaconRelatedRegistersHandler)(_adapter *padapter);
++
++	u8(*interface_ps_func)(_adapter *padapter, HAL_INTF_PS_FUNC efunc_id, u8 *val);
++
++	u32(*read_bbreg)(_adapter *padapter, u32 RegAddr, u32 BitMask);
++	void	(*write_bbreg)(_adapter *padapter, u32 RegAddr, u32 BitMask, u32 Data);
++	u32(*read_rfreg)(_adapter *padapter, u8 eRFPath, u32 RegAddr, u32 BitMask);
++	void	(*write_rfreg)(_adapter *padapter, u8 eRFPath, u32 RegAddr, u32 BitMask, u32 Data);
++
++#ifdef CONFIG_HOSTAPD_MLME
++	s32(*hostap_mgnt_xmit_entry)(_adapter *padapter, _pkt *pkt);
++#endif
++
++	void (*EfusePowerSwitch)(_adapter *padapter, u8 bWrite, u8 PwrState);
++	void (*BTEfusePowerSwitch)(_adapter *padapter, u8 bWrite, u8 PwrState);
++	void (*ReadEFuse)(_adapter *padapter, u8 efuseType, u16 _offset, u16 _size_byte, u8 *pbuf, BOOLEAN bPseudoTest);
++	void (*EFUSEGetEfuseDefinition)(_adapter *padapter, u8 efuseType, u8 type, void *pOut, BOOLEAN bPseudoTest);
++	u16(*EfuseGetCurrentSize)(_adapter *padapter, u8 efuseType, BOOLEAN bPseudoTest);
++	int	(*Efuse_PgPacketRead)(_adapter *padapter, u8 offset, u8 *data, BOOLEAN bPseudoTest);
++	int	(*Efuse_PgPacketWrite)(_adapter *padapter, u8 offset, u8 word_en, u8 *data, BOOLEAN bPseudoTest);
++	u8(*Efuse_WordEnableDataWrite)(_adapter *padapter, u16 efuse_addr, u8 word_en, u8 *data, BOOLEAN bPseudoTest);
++	BOOLEAN(*Efuse_PgPacketWrite_BT)(_adapter *padapter, u8 offset, u8 word_en, u8 *data, BOOLEAN bPseudoTest);
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	void (*sreset_init_value)(_adapter *padapter);
++	void (*sreset_reset_value)(_adapter *padapter);
++	void (*silentreset)(_adapter *padapter);
++	void (*sreset_xmit_status_check)(_adapter *padapter);
++	void (*sreset_linked_status_check)(_adapter *padapter);
++	u8(*sreset_get_wifi_status)(_adapter *padapter);
++	bool (*sreset_inprogress)(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_IOL
++	int (*IOL_exec_cmds_sync)(_adapter *padapter, struct xmit_frame *xmit_frame, u32 max_wating_ms, u32 bndy_cnt);
++#endif
++
++	void (*hal_notch_filter)(_adapter *adapter, bool enable);
++	s32(*c2h_handler)(_adapter *padapter, u8 *c2h_evt);
++	c2h_id_filter c2h_id_filter_ccx;
++	s32(*fill_h2c_cmd)(PADAPTER, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++	void (*fill_fake_txdesc)(PADAPTER, u8 *pDesc, u32 BufferLen,
++				 u8 IsPsPoll, u8 IsBTQosNull, u8 bDataFrame);
++	s32(*fw_dl)(_adapter *adapter, u8 wowlan);
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN) || defined(CONFIG_PCI_HCI)
++	void (*clear_interrupt)(_adapter *padapter);
++#endif
++	u8(*hal_get_tx_buff_rsvd_page_num)(_adapter *adapter, bool wowlan);
++#ifdef CONFIG_GPIO_API
++	void (*update_hisr_hsisr_ind)(PADAPTER padapter, u32 flag);
++	int (*hal_gpio_func_check)(_adapter *padapter, u8 gpio_num);
++	void (*hal_gpio_multi_func_reset)(_adapter *padapter, u8 gpio_num);
++#endif
++	void (*fw_correct_bcn)(PADAPTER padapter);
++
++#ifdef RTW_HALMAC
++	u8(*init_mac_register)(PADAPTER);
++	u8(*init_phy)(PADAPTER);
++#endif /* RTW_HALMAC */
++};
++
++typedef	enum _RT_EEPROM_TYPE {
++	EEPROM_93C46,
++	EEPROM_93C56,
++	EEPROM_BOOT_EFUSE,
++} RT_EEPROM_TYPE, *PRT_EEPROM_TYPE;
++
++
++
++#define RF_CHANGE_BY_INIT	0
++#define RF_CHANGE_BY_IPS	BIT28
++#define RF_CHANGE_BY_PS	BIT29
++#define RF_CHANGE_BY_HW	BIT30
++#define RF_CHANGE_BY_SW	BIT31
++
++typedef enum _HARDWARE_TYPE {
++	HARDWARE_TYPE_RTL8188EE,
++	HARDWARE_TYPE_RTL8188EU,
++	HARDWARE_TYPE_RTL8188ES,
++	/*	NEW_GENERATION_IC */
++	HARDWARE_TYPE_RTL8192EE,
++	HARDWARE_TYPE_RTL8192EU,
++	HARDWARE_TYPE_RTL8192ES,
++	HARDWARE_TYPE_RTL8812E,
++	HARDWARE_TYPE_RTL8812AU,
++	HARDWARE_TYPE_RTL8811AU,
++	HARDWARE_TYPE_RTL8821E,
++	HARDWARE_TYPE_RTL8821U,
++	HARDWARE_TYPE_RTL8821S,
++	HARDWARE_TYPE_RTL8723BE,
++	HARDWARE_TYPE_RTL8723BU,
++	HARDWARE_TYPE_RTL8723BS,
++	HARDWARE_TYPE_RTL8814AE,
++	HARDWARE_TYPE_RTL8814AU,
++	HARDWARE_TYPE_RTL8814AS,
++	HARDWARE_TYPE_RTL8821BE,
++	HARDWARE_TYPE_RTL8821BU,
++	HARDWARE_TYPE_RTL8821BS,
++	HARDWARE_TYPE_RTL8822BE,
++	HARDWARE_TYPE_RTL8822BU,
++	HARDWARE_TYPE_RTL8822BS,
++	HARDWARE_TYPE_RTL8703BE,
++	HARDWARE_TYPE_RTL8703BU,
++	HARDWARE_TYPE_RTL8703BS,
++	HARDWARE_TYPE_RTL8188FE,
++	HARDWARE_TYPE_RTL8188FU,
++	HARDWARE_TYPE_RTL8188FS,
++	HARDWARE_TYPE_RTL8723DE,
++	HARDWARE_TYPE_RTL8723DU,
++	HARDWARE_TYPE_RTL8723DS,
++	HARDWARE_TYPE_RTL8821CE,
++	HARDWARE_TYPE_RTL8821CU,
++	HARDWARE_TYPE_RTL8821CS,
++	HARDWARE_TYPE_MAX,
++} HARDWARE_TYPE;
++
++#define IS_NEW_GENERATION_IC(_Adapter)	(rtw_get_hw_type(_Adapter) >= HARDWARE_TYPE_RTL8192EE)
++/*
++ * RTL8188E Series
++ *   */
++#define IS_HARDWARE_TYPE_8188EE(_Adapter)	(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8188EE)
++#define IS_HARDWARE_TYPE_8188EU(_Adapter)	(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8188EU)
++#define IS_HARDWARE_TYPE_8188ES(_Adapter)	(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8188ES)
++#define	IS_HARDWARE_TYPE_8188E(_Adapter)	\
++	(IS_HARDWARE_TYPE_8188EE(_Adapter) || IS_HARDWARE_TYPE_8188EU(_Adapter) || IS_HARDWARE_TYPE_8188ES(_Adapter))
++
++/* RTL8812 Series */
++#define IS_HARDWARE_TYPE_8812E(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8812E)
++#define IS_HARDWARE_TYPE_8812AU(_Adapter)	(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8812AU)
++#define IS_HARDWARE_TYPE_8812(_Adapter)			\
++	(IS_HARDWARE_TYPE_8812E(_Adapter) || IS_HARDWARE_TYPE_8812AU(_Adapter))
++
++/* RTL8821 Series */
++#define IS_HARDWARE_TYPE_8821E(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8821E)
++#define IS_HARDWARE_TYPE_8811AU(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8811AU)
++#define IS_HARDWARE_TYPE_8821U(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8821U || \
++		rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8811AU)
++#define IS_HARDWARE_TYPE_8821S(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8821S)
++#define IS_HARDWARE_TYPE_8821(_Adapter)			\
++	(IS_HARDWARE_TYPE_8821E(_Adapter) || IS_HARDWARE_TYPE_8821U(_Adapter) || IS_HARDWARE_TYPE_8821S(_Adapter))
++
++#define IS_HARDWARE_TYPE_JAGUAR(_Adapter)		\
++	(IS_HARDWARE_TYPE_8812(_Adapter) || IS_HARDWARE_TYPE_8821(_Adapter))
++
++/* RTL8192E Series */
++#define IS_HARDWARE_TYPE_8192EE(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8192EE)
++#define IS_HARDWARE_TYPE_8192EU(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8192EU)
++#define IS_HARDWARE_TYPE_8192ES(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8192ES)
++
++#define IS_HARDWARE_TYPE_8192E(_Adapter)		\
++	(IS_HARDWARE_TYPE_8192EE(_Adapter) || IS_HARDWARE_TYPE_8192EU(_Adapter) || IS_HARDWARE_TYPE_8192ES(_Adapter))
++
++#define IS_HARDWARE_TYPE_8723BE(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8723BE)
++#define IS_HARDWARE_TYPE_8723BU(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8723BU)
++#define IS_HARDWARE_TYPE_8723BS(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8723BS)
++
++#define IS_HARDWARE_TYPE_8723B(_Adapter) \
++	(IS_HARDWARE_TYPE_8723BE(_Adapter) || IS_HARDWARE_TYPE_8723BU(_Adapter) || IS_HARDWARE_TYPE_8723BS(_Adapter))
++
++/* RTL8814A Series */
++#define IS_HARDWARE_TYPE_8814AE(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8814AE)
++#define IS_HARDWARE_TYPE_8814AU(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8814AU)
++#define IS_HARDWARE_TYPE_8814AS(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8814AS)
++
++#define IS_HARDWARE_TYPE_8814A(_Adapter)		\
++	(IS_HARDWARE_TYPE_8814AE(_Adapter) || IS_HARDWARE_TYPE_8814AU(_Adapter) || IS_HARDWARE_TYPE_8814AS(_Adapter))
++
++/* RTL8703B Series */
++#define IS_HARDWARE_TYPE_8703BE(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8703BE)
++#define IS_HARDWARE_TYPE_8703BS(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8703BS)
++#define IS_HARDWARE_TYPE_8703BU(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8703BU)
++#define	IS_HARDWARE_TYPE_8703B(_Adapter)			\
++	(IS_HARDWARE_TYPE_8703BE(_Adapter) || IS_HARDWARE_TYPE_8703BU(_Adapter) || IS_HARDWARE_TYPE_8703BS(_Adapter))
++
++/* RTL8723D Series */
++#define IS_HARDWARE_TYPE_8723DE(_Adapter)\
++	(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8723DE)
++#define IS_HARDWARE_TYPE_8723DS(_Adapter)\
++	(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8723DS)
++#define IS_HARDWARE_TYPE_8723DU(_Adapter)\
++	(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8723DU)
++#define	IS_HARDWARE_TYPE_8723D(_Adapter)\
++	(IS_HARDWARE_TYPE_8723DE(_Adapter) || \
++	 IS_HARDWARE_TYPE_8723DU(_Adapter) || \
++	 IS_HARDWARE_TYPE_8723DS(_Adapter))
++
++/* RTL8188F Series */
++#define IS_HARDWARE_TYPE_8188FE(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8188FE)
++#define IS_HARDWARE_TYPE_8188FS(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8188FS)
++#define IS_HARDWARE_TYPE_8188FU(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8188FU)
++#define	IS_HARDWARE_TYPE_8188F(_Adapter)			\
++	(IS_HARDWARE_TYPE_8188FE(_Adapter) || IS_HARDWARE_TYPE_8188FU(_Adapter) || IS_HARDWARE_TYPE_8188FS(_Adapter))
++
++#define IS_HARDWARE_TYPE_8821BE(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8821BE)
++#define IS_HARDWARE_TYPE_8821BU(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8821BU)
++#define IS_HARDWARE_TYPE_8821BS(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8821BS)
++
++#define IS_HARDWARE_TYPE_8821B(_Adapter)		\
++	(IS_HARDWARE_TYPE_8821BE(_Adapter) || IS_HARDWARE_TYPE_8821BU(_Adapter) || IS_HARDWARE_TYPE_8821BS(_Adapter))
++
++#define IS_HARDWARE_TYPE_8822BE(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8822BE)
++#define IS_HARDWARE_TYPE_8822BU(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8822BU)
++#define IS_HARDWARE_TYPE_8822BS(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8822BS)
++#define IS_HARDWARE_TYPE_8822B(_Adapter)		\
++	(IS_HARDWARE_TYPE_8822BE(_Adapter) || IS_HARDWARE_TYPE_8822BU(_Adapter) || IS_HARDWARE_TYPE_8822BS(_Adapter))
++
++#define IS_HARDWARE_TYPE_8821CE(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8821CE)
++#define IS_HARDWARE_TYPE_8821CU(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8821CU)
++#define IS_HARDWARE_TYPE_8821CS(_Adapter)		(rtw_get_hw_type(_Adapter) == HARDWARE_TYPE_RTL8821CS)
++#define IS_HARDWARE_TYPE_8821C(_Adapter)		\
++	(IS_HARDWARE_TYPE_8821CE(_Adapter) || IS_HARDWARE_TYPE_8821CU(_Adapter) || IS_HARDWARE_TYPE_8821CS(_Adapter))
++
++#define IS_HARDWARE_TYPE_JAGUAR2(_Adapter)		\
++	(IS_HARDWARE_TYPE_8814A(_Adapter) || IS_HARDWARE_TYPE_8821B(_Adapter) || IS_HARDWARE_TYPE_8822B(_Adapter) || IS_HARDWARE_TYPE_8821C(_Adapter))
++
++#define IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(_Adapter)		\
++	(IS_HARDWARE_TYPE_JAGUAR(_Adapter) || IS_HARDWARE_TYPE_JAGUAR2(_Adapter))
++
++
++
++typedef enum _wowlan_subcode {
++	WOWLAN_ENABLE			= 0,
++	WOWLAN_DISABLE			= 1,
++	WOWLAN_AP_ENABLE		= 2,
++	WOWLAN_AP_DISABLE		= 3,
++	WOWLAN_PATTERN_CLEAN		= 4
++} wowlan_subcode;
++
++struct wowlan_ioctl_param {
++	unsigned int subcode;
++	unsigned int subcode_value;
++	unsigned int wakeup_reason;
++};
++
++u8 rtw_hal_data_init(_adapter *padapter);
++void rtw_hal_data_deinit(_adapter *padapter);
++
++void rtw_hal_def_value_init(_adapter *padapter);
++
++void	rtw_hal_free_data(_adapter *padapter);
++
++void rtw_hal_dm_init(_adapter *padapter);
++void rtw_hal_dm_deinit(_adapter *padapter);
++void rtw_hal_sw_led_init(_adapter *padapter);
++void rtw_hal_sw_led_deinit(_adapter *padapter);
++
++u32 rtw_hal_power_on(_adapter *padapter);
++void rtw_hal_power_off(_adapter *padapter);
++
++uint rtw_hal_init(_adapter *padapter);
++uint rtw_hal_deinit(_adapter *padapter);
++void rtw_hal_stop(_adapter *padapter);
++void rtw_hal_set_hwreg(PADAPTER padapter, u8 variable, u8 *val);
++void rtw_hal_get_hwreg(PADAPTER padapter, u8 variable, u8 *val);
++
++#ifdef CONFIG_C2H_PACKET_EN
++	void rtw_hal_set_hwreg_with_buf(_adapter *padapter, u8 variable, u8 *pbuf, int len);
++#endif
++
++void rtw_hal_chip_configure(_adapter *padapter);
++void rtw_hal_read_chip_info(_adapter *padapter);
++void rtw_hal_read_chip_version(_adapter *padapter);
++
++u8 rtw_hal_set_def_var(_adapter *padapter, HAL_DEF_VARIABLE eVariable, PVOID pValue);
++u8 rtw_hal_get_def_var(_adapter *padapter, HAL_DEF_VARIABLE eVariable, PVOID pValue);
++
++void rtw_hal_set_odm_var(_adapter *padapter, HAL_ODM_VARIABLE eVariable, PVOID pValue1, BOOLEAN bSet);
++void	rtw_hal_get_odm_var(_adapter *padapter, HAL_ODM_VARIABLE eVariable, PVOID pValue1, PVOID pValue2);
++
++void rtw_hal_enable_interrupt(_adapter *padapter);
++void rtw_hal_disable_interrupt(_adapter *padapter);
++
++u8 rtw_hal_check_ips_status(_adapter *padapter);
++
++#if defined(CONFIG_USB_HCI) || defined(CONFIG_PCI_HCI)
++	u32	rtw_hal_inirp_init(_adapter *padapter);
++	u32	rtw_hal_inirp_deinit(_adapter *padapter);
++#endif
++
++#if defined(CONFIG_PCI_HCI)
++	void	rtw_hal_irp_reset(_adapter *padapter);
++#endif
++
++u8	rtw_hal_intf_ps_func(_adapter *padapter, HAL_INTF_PS_FUNC efunc_id, u8 *val);
++
++s32	rtw_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++s32	rtw_hal_xmit(_adapter *padapter, struct xmit_frame *pxmitframe);
++s32	rtw_hal_mgnt_xmit(_adapter *padapter, struct xmit_frame *pmgntframe);
++
++s32	rtw_hal_init_xmit_priv(_adapter *padapter);
++void	rtw_hal_free_xmit_priv(_adapter *padapter);
++
++s32	rtw_hal_init_recv_priv(_adapter *padapter);
++void	rtw_hal_free_recv_priv(_adapter *padapter);
++
++void rtw_hal_update_ra_mask(struct sta_info *psta, u8 rssi_level);
++void rtw_update_ramask(_adapter *padapter, struct sta_info *psta, u32 mac_id, u8 rssi_level);
++
++void	rtw_hal_start_thread(_adapter *padapter);
++void	rtw_hal_stop_thread(_adapter *padapter);
++
++void rtw_hal_bcn_related_reg_setting(_adapter *padapter);
++
++u32	rtw_hal_read_bbreg(_adapter *padapter, u32 RegAddr, u32 BitMask);
++void	rtw_hal_write_bbreg(_adapter *padapter, u32 RegAddr, u32 BitMask, u32 Data);
++u32	rtw_hal_read_rfreg(_adapter *padapter, u32 eRFPath, u32 RegAddr, u32 BitMask);
++void	rtw_hal_write_rfreg(_adapter *padapter, u32 eRFPath, u32 RegAddr, u32 BitMask, u32 Data);
++
++#define PHY_QueryBBReg(Adapter, RegAddr, BitMask) rtw_hal_read_bbreg((Adapter), (RegAddr), (BitMask))
++#define PHY_SetBBReg(Adapter, RegAddr, BitMask, Data) rtw_hal_write_bbreg((Adapter), (RegAddr), (BitMask), (Data))
++#define PHY_QueryRFReg(Adapter, eRFPath, RegAddr, BitMask) rtw_hal_read_rfreg((Adapter), (eRFPath), (RegAddr), (BitMask))
++#define PHY_SetRFReg(Adapter, eRFPath, RegAddr, BitMask, Data) rtw_hal_write_rfreg((Adapter), (eRFPath), (RegAddr), (BitMask), (Data))
++
++#define PHY_SetMacReg	PHY_SetBBReg
++#define PHY_QueryMacReg PHY_QueryBBReg
++
++#if defined(CONFIG_PCI_HCI)
++	s32	rtw_hal_interrupt_handler(_adapter *padapter);
++#endif
++#if  defined(CONFIG_USB_HCI) && defined(CONFIG_SUPPORT_USB_INT)
++	void	rtw_hal_interrupt_handler(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif
++
++void	rtw_hal_set_chnl_bw(_adapter *padapter, u8 channel, CHANNEL_WIDTH Bandwidth, u8 Offset40, u8 Offset80);
++void	rtw_hal_dm_watchdog(_adapter *padapter);
++void	rtw_hal_dm_watchdog_in_lps(_adapter *padapter);
++
++void	rtw_hal_set_tx_power_level(_adapter *padapter, u8 channel);
++void	rtw_hal_get_tx_power_level(_adapter *padapter, s32 *powerlevel);
++
++#ifdef CONFIG_HOSTAPD_MLME
++	s32	rtw_hal_hostap_mgnt_xmit_entry(_adapter *padapter, _pkt *pkt);
++#endif
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++void rtw_hal_sreset_init(_adapter *padapter);
++void rtw_hal_sreset_reset(_adapter *padapter);
++void rtw_hal_sreset_reset_value(_adapter *padapter);
++void rtw_hal_sreset_xmit_status_check(_adapter *padapter);
++void rtw_hal_sreset_linked_status_check(_adapter *padapter);
++u8   rtw_hal_sreset_get_wifi_status(_adapter *padapter);
++bool rtw_hal_sreset_inprogress(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_IOL
++int rtw_hal_iol_cmd(ADAPTER *adapter, struct xmit_frame *xmit_frame, u32 max_wating_ms, u32 bndy_cnt);
++#endif
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++s32 rtw_hal_xmit_thread_handler(_adapter *padapter);
++#endif
++
++void rtw_hal_notch_filter(_adapter *adapter, bool enable);
++
++bool rtw_hal_c2h_valid(_adapter *adapter, u8 *buf);
++s32 rtw_hal_c2h_evt_read(_adapter *adapter, u8 *buf);
++s32 rtw_hal_c2h_handler(_adapter *adapter, u8 *c2h_evt);
++c2h_id_filter rtw_hal_c2h_id_filter_ccx(_adapter *adapter);
++
++s32 rtw_hal_is_disable_sw_channel_plan(PADAPTER padapter);
++
++s32 rtw_hal_macid_sleep(PADAPTER padapter, u8 macid);
++s32 rtw_hal_macid_wakeup(PADAPTER padapter, u8 macid);
++
++s32 rtw_hal_fill_h2c_cmd(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++void rtw_hal_fill_fake_txdesc(_adapter *padapter, u8 *pDesc, u32 BufferLen,
++			      u8 IsPsPoll, u8 IsBTQosNull, u8 bDataFrame);
++u8 rtw_hal_get_txbuff_rsvd_page_num(_adapter *adapter, bool wowlan);
++
++#ifdef CONFIG_GPIO_API
++void rtw_hal_update_hisr_hsisr_ind(_adapter *padapter, u32 flag);
++int rtw_hal_gpio_func_check(_adapter *padapter, u8 gpio_num);
++void rtw_hal_gpio_multi_func_reset(_adapter *padapter, u8 gpio_num);
++#endif
++
++void rtw_hal_fw_correct_bcn(_adapter *padapter);
++s32 rtw_hal_fw_dl(_adapter *padapter, u8 wowlan);
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	void rtw_hal_clear_interrupt(_adapter *padapter);
++#endif
++
++void rtw_hal_set_tx_power_index(PADAPTER, u32 powerindex, u8 rfpath, u8 rate);
++u8 rtw_hal_get_tx_power_index(PADAPTER, u8 rfpath, u8 rate, u8 bandwidth, u8 channel,struct txpwr_idx_comp *tic);
++
++u8 rtw_hal_ops_check(_adapter *padapter);
++
++#ifdef RTW_HALMAC
++	u8 rtw_hal_init_mac_register(PADAPTER);
++	u8 rtw_hal_init_phy(PADAPTER);
++#endif /* RTW_HALMAC */
++
++#endif /* __HAL_INTF_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/hal_pg.h b/drivers/net/wireless/rtl8812au/include/hal_pg.h
+new file mode 100644
+index 0000000..3e81142
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/hal_pg.h
+@@ -0,0 +1,795 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __HAL_PG_H__
++#define __HAL_PG_H__
++
++#define PPG_BB_GAIN_2G_TX_OFFSET_MASK	0x0F
++#define PPG_BB_GAIN_2G_TXB_OFFSET_MASK	0xF0
++
++#define PPG_BB_GAIN_5G_TX_OFFSET_MASK	0x1F
++#define PPG_THERMAL_OFFSET_MASK			0x1F
++#define KFREE_BB_GAIN_2G_TX_OFFSET(_ppg_v) (((_ppg_v) == PPG_BB_GAIN_2G_TX_OFFSET_MASK) ? 0 : (((_ppg_v) & 0x01) ? ((_ppg_v) >> 1) : (-((_ppg_v) >> 1))))
++#define KFREE_BB_GAIN_5G_TX_OFFSET(_ppg_v) (((_ppg_v) == PPG_BB_GAIN_5G_TX_OFFSET_MASK) ? 0 : (((_ppg_v) & 0x01) ? ((_ppg_v) >> 1) : (-((_ppg_v) >> 1))))
++#define KFREE_THERMAL_OFFSET(_ppg_v) (((_ppg_v) == PPG_THERMAL_OFFSET_MASK) ? 0 : (((_ppg_v) & 0x01) ? ((_ppg_v) >> 1) : (-((_ppg_v) >> 1))))
++
++/* ****************************************************
++ *			EEPROM/Efuse PG Offset for 88EE/88EU/88ES
++ * **************************************************** */
++#define EEPROM_TX_PWR_INX_88E					0x10
++
++#define EEPROM_ChannelPlan_88E					0xB8
++#define EEPROM_XTAL_88E						0xB9
++#define EEPROM_THERMAL_METER_88E				0xBA
++#define EEPROM_IQK_LCK_88E						0xBB
++
++#define EEPROM_RF_BOARD_OPTION_88E			0xC1
++#define EEPROM_RF_FEATURE_OPTION_88E			0xC2
++#define EEPROM_RF_BT_SETTING_88E				0xC3
++#define EEPROM_VERSION_88E						0xC4
++#define EEPROM_CustomID_88E					0xC5
++#define EEPROM_RF_ANTENNA_OPT_88E			0xC9
++#define EEPROM_COUNTRY_CODE_88E				0xCB
++
++/* RTL88EE */
++#define EEPROM_MAC_ADDR_88EE					0xD0
++#define EEPROM_VID_88EE						0xD6
++#define EEPROM_DID_88EE						0xD8
++#define EEPROM_SVID_88EE						0xDA
++#define EEPROM_SMID_88EE						0xDC
++
++/* RTL88EU */
++#define EEPROM_MAC_ADDR_88EU					0xD7
++#define EEPROM_VID_88EU						0xD0
++#define EEPROM_PID_88EU						0xD2
++#define EEPROM_USB_OPTIONAL_FUNCTION0		0xD4 /* 8188EU, 8192EU, 8812AU is the same */
++#define EEPROM_USB_OPTIONAL_FUNCTION0_8811AU 0x104
++
++/* RTL88ES */
++#define EEPROM_MAC_ADDR_88ES					0x11A
++/* ****************************************************
++ *			EEPROM/Efuse PG Offset for 8192EE/8192EU/8192ES
++ * **************************************************** */
++#define GET_PG_KFREE_ON_8192E(_pg_m)			LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC1, 4, 1)
++#define GET_PG_KFREE_THERMAL_K_ON_8192E(_pg_m)	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 5, 1)
++
++#define PPG_BB_GAIN_2G_TXA_OFFSET_8192E	0x1F6
++#define PPG_THERMAL_OFFSET_8192E		0x1F5
++
++/* 0x10 ~ 0x63 = TX power area. */
++#define	EEPROM_TX_PWR_INX_8192E				0x10
++
++#define	EEPROM_ChannelPlan_8192E				0xB8
++#define	EEPROM_XTAL_8192E						0xB9
++#define	EEPROM_THERMAL_METER_8192E			0xBA
++#define	EEPROM_IQK_LCK_8192E					0xBB
++#define	EEPROM_2G_5G_PA_TYPE_8192E			0xBC
++#define	EEPROM_2G_LNA_TYPE_GAIN_SEL_8192E	0xBD
++#define	EEPROM_5G_LNA_TYPE_GAIN_SEL_8192E	0xBF
++
++#define	EEPROM_RF_BOARD_OPTION_8192E		0xC1
++#define	EEPROM_RF_FEATURE_OPTION_8192E		0xC2
++#define	EEPROM_RF_BT_SETTING_8192E			0xC3
++#define	EEPROM_VERSION_8192E					0xC4
++#define	EEPROM_CustomID_8192E				0xC5
++#define	EEPROM_TX_BBSWING_2G_8192E			0xC6
++#define	EEPROM_TX_BBSWING_5G_8192E			0xC7
++#define	EEPROM_TX_PWR_CALIBRATE_RATE_8192E	0xC8
++#define	EEPROM_RF_ANTENNA_OPT_8192E			0xC9
++#define	EEPROM_RFE_OPTION_8192E				0xCA
++#define	EEPROM_RFE_OPTION_8188E				0xCA
++#define EEPROM_COUNTRY_CODE_8192E			0xCB
++
++/* RTL8192EE */
++#define	EEPROM_MAC_ADDR_8192EE				0xD0
++#define	EEPROM_VID_8192EE						0xD6
++#define	EEPROM_DID_8192EE						0xD8
++#define	EEPROM_SVID_8192EE					0xDA
++#define	EEPROM_SMID_8192EE					0xDC
++
++/* RTL8192EU */
++#define	EEPROM_MAC_ADDR_8192EU				0xD7
++#define	EEPROM_VID_8192EU						0xD0
++#define	EEPROM_PID_8192EU						0xD2
++#define	EEPROM_PA_TYPE_8192EU		0xBC
++#define	EEPROM_LNA_TYPE_2G_8192EU	0xBD
++#define	EEPROM_LNA_TYPE_5G_8192EU	0xBF
++
++/* RTL8192ES */
++#define	EEPROM_MAC_ADDR_8192ES				0x11A
++/* ****************************************************
++ *			EEPROM/Efuse PG Offset for 8812AE/8812AU/8812AS
++ * ****************************************************
++ * 0x10 ~ 0x63 = TX power area. */
++#define EEPROM_USB_MODE_8812					0x08
++#define EEPROM_TX_PWR_INX_8812				0x10
++
++#define EEPROM_ChannelPlan_8812				0xB8
++#define EEPROM_XTAL_8812						0xB9
++#define EEPROM_THERMAL_METER_8812			0xBA
++#define EEPROM_IQK_LCK_8812					0xBB
++#define EEPROM_2G_5G_PA_TYPE_8812			0xBC
++#define EEPROM_2G_LNA_TYPE_GAIN_SEL_8812	0xBD
++#define EEPROM_5G_LNA_TYPE_GAIN_SEL_8812	0xBF
++
++#define EEPROM_RF_BOARD_OPTION_8812			0xC1
++#define EEPROM_RF_FEATURE_OPTION_8812		0xC2
++#define EEPROM_RF_BT_SETTING_8812				0xC3
++#define EEPROM_VERSION_8812					0xC4
++#define EEPROM_CustomID_8812					0xC5
++#define EEPROM_TX_BBSWING_2G_8812			0xC6
++#define EEPROM_TX_BBSWING_5G_8812			0xC7
++#define EEPROM_TX_PWR_CALIBRATE_RATE_8812	0xC8
++#define EEPROM_RF_ANTENNA_OPT_8812			0xC9
++#define EEPROM_RFE_OPTION_8812				0xCA
++#define EEPROM_COUNTRY_CODE_8812			0xCB
++
++/* RTL8812AE */
++#define EEPROM_MAC_ADDR_8812AE				0xD0
++#define EEPROM_VID_8812AE						0xD6
++#define EEPROM_DID_8812AE						0xD8
++#define EEPROM_SVID_8812AE						0xDA
++#define EEPROM_SMID_8812AE					0xDC
++
++/* RTL8812AU */
++#define EEPROM_MAC_ADDR_8812AU				0xD7
++#define EEPROM_VID_8812AU						0xD0
++#define EEPROM_PID_8812AU						0xD2
++#define EEPROM_PA_TYPE_8812AU					0xBC
++#define EEPROM_LNA_TYPE_2G_8812AU			0xBD
++#define EEPROM_LNA_TYPE_5G_8812AU			0xBF
++
++/* RTL8814AU */
++#define	EEPROM_MAC_ADDR_8814AU				0xD8
++#define	EEPROM_VID_8814AU						0xD0
++#define	EEPROM_PID_8814AU						0xD2
++#define	EEPROM_PA_TYPE_8814AU				0xBC
++#define	EEPROM_LNA_TYPE_2G_8814AU			0xBD
++#define	EEPROM_LNA_TYPE_5G_8814AU			0xBF
++
++/* RTL8814AE */
++#define EEPROM_MAC_ADDR_8814AE				0xD0
++#define EEPROM_VID_8814AE						0xD6
++#define EEPROM_DID_8814AE						0xD8
++#define EEPROM_SVID_8814AE						0xDA
++#define EEPROM_SMID_8814AE					0xDC
++
++/* ****************************************************
++ *			EEPROM/Efuse PG Offset for 8814AU
++ * **************************************************** */
++#define GET_PG_KFREE_ON_8814A(_pg_m)			LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 4, 1)
++#define GET_PG_KFREE_THERMAL_K_ON_8814A(_pg_m)	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 5, 1)
++#define GET_PG_TX_POWER_TRACKING_MODE_8814A(_pg_m)	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 6, 2)
++
++#define KFREE_GAIN_DATA_LENGTH_8814A	22
++
++#define PPG_BB_GAIN_2G_TXBA_OFFSET_8814A	0x3EE
++
++#define PPG_THERMAL_OFFSET_8814A		0x3EF
++
++#define EEPROM_TX_PWR_INX_8814				0x10
++#define EEPROM_USB_MODE_8814A				0x0E
++#define EEPROM_ChannelPlan_8814				0xB8
++#define EEPROM_XTAL_8814					0xB9
++#define EEPROM_THERMAL_METER_8814			0xBA
++#define	EEPROM_IQK_LCK_8814					0xBB
++
++
++#define EEPROM_PA_TYPE_8814					0xBC
++#define EEPROM_LNA_TYPE_AB_2G_8814			0xBD
++#define	EEPROM_LNA_TYPE_CD_2G_8814			0xBE
++#define EEPROM_LNA_TYPE_AB_5G_8814			0xBF
++#define EEPROM_LNA_TYPE_CD_5G_8814			0xC0
++#define	EEPROM_RF_BOARD_OPTION_8814			0xC1
++#define	EEPROM_RF_BT_SETTING_8814			0xC3
++#define	EEPROM_VERSION_8814					0xC4
++#define	EEPROM_CustomID_8814				0xC5
++#define	EEPROM_TX_BBSWING_2G_8814			0xC6
++#define	EEPROM_TX_BBSWING_5G_8814			0xC7
++#define EEPROM_TRX_ANTENNA_OPTION_8814		0xC9
++#define	EEPROM_RFE_OPTION_8814				0xCA
++#define EEPROM_COUNTRY_CODE_8814			0xCB
++
++/*Extra Info for 8814A Initial Gain Fine Tune  suggested by Willis, JIRA: MP123*/
++#define	EEPROM_IG_OFFSET_4_AB_2G_8814A				0x120
++#define	EEPROM_IG_OFFSET_4_CD_2G_8814A				0x121
++#define	EEPROM_IG_OFFSET_4_AB_5GL_8814A				0x122
++#define	EEPROM_IG_OFFSET_4_CD_5GL_8814A				0x123
++#define	EEPROM_IG_OFFSET_4_AB_5GM_8814A				0x124
++#define	EEPROM_IG_OFFSET_4_CD_5GM_8814A				0x125
++#define	EEPROM_IG_OFFSET_4_AB_5GH_8814A				0x126
++#define	EEPROM_IG_OFFSET_4_CD_5GH_8814A				0x127
++
++/* ****************************************************
++ *			EEPROM/Efuse PG Offset for 8821AE/8821AU/8821AS
++ * **************************************************** */
++
++#define GET_PG_KFREE_ON_8821A(_pg_m)			LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 4, 1)
++#define GET_PG_KFREE_THERMAL_K_ON_8821A(_pg_m)	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 5, 1)
++
++#define PPG_BB_GAIN_2G_TXA_OFFSET_8821A		0x1F6
++#define PPG_THERMAL_OFFSET_8821A			0x1F5
++#define PPG_BB_GAIN_5GLB1_TXA_OFFSET_8821A	0x1F4
++#define PPG_BB_GAIN_5GLB2_TXA_OFFSET_8821A	0x1F3
++#define PPG_BB_GAIN_5GMB1_TXA_OFFSET_8821A	0x1F2
++#define PPG_BB_GAIN_5GMB2_TXA_OFFSET_8821A	0x1F1
++#define PPG_BB_GAIN_5GHB_TXA_OFFSET_8821A	0x1F0
++
++#define EEPROM_TX_PWR_INX_8821				0x10
++
++#define EEPROM_ChannelPlan_8821				0xB8
++#define EEPROM_XTAL_8821						0xB9
++#define EEPROM_THERMAL_METER_8821			0xBA
++#define EEPROM_IQK_LCK_8821					0xBB
++
++
++#define EEPROM_RF_BOARD_OPTION_8821			0xC1
++#define EEPROM_RF_FEATURE_OPTION_8821		0xC2
++#define EEPROM_RF_BT_SETTING_8821				0xC3
++#define EEPROM_VERSION_8821					0xC4
++#define EEPROM_CustomID_8821					0xC5
++#define EEPROM_RF_ANTENNA_OPT_8821			0xC9
++
++/* RTL8821AE */
++#define EEPROM_MAC_ADDR_8821AE				0xD0
++#define EEPROM_VID_8821AE						0xD6
++#define EEPROM_DID_8821AE						0xD8
++#define EEPROM_SVID_8821AE						0xDA
++#define EEPROM_SMID_8821AE					0xDC
++
++/* RTL8821AU */
++#define EEPROM_PA_TYPE_8821AU					0xBC
++#define EEPROM_LNA_TYPE_8821AU				0xBF
++
++/* RTL8821AS */
++#define EEPROM_MAC_ADDR_8821AS				0x11A
++
++/* RTL8821AU */
++#define EEPROM_MAC_ADDR_8821AU				0x107
++#define EEPROM_VID_8821AU						0x100
++#define EEPROM_PID_8821AU						0x102
++
++
++/* ****************************************************
++ *			EEPROM/Efuse PG Offset for 8192 SE/SU
++ * **************************************************** */
++#define EEPROM_VID_92SE						0x0A
++#define EEPROM_DID_92SE						0x0C
++#define EEPROM_SVID_92SE						0x0E
++#define EEPROM_SMID_92SE						0x10
++
++#define EEPROM_MAC_ADDR_92S					0x12
++
++#define EEPROM_TSSI_A_92SE						0x74
++#define EEPROM_TSSI_B_92SE						0x75
++
++#define EEPROM_Version_92SE					0x7C
++
++
++#define EEPROM_VID_92SU						0x08
++#define EEPROM_PID_92SU						0x0A
++
++#define EEPROM_Version_92SU					0x50
++#define EEPROM_TSSI_A_92SU						0x6b
++#define EEPROM_TSSI_B_92SU						0x6c
++
++/* ====================================================
++	EEPROM/Efuse PG Offset for 8188FE/8188FU/8188FS
++   ====================================================
++ */
++
++#define GET_PG_KFREE_ON_8188F(_pg_m)			LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC1, 4, 1)
++#define GET_PG_KFREE_THERMAL_K_ON_8188F(_pg_m)	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 5, 1)
++
++#define PPG_BB_GAIN_2G_TXA_OFFSET_8188F	0xEE
++#define PPG_THERMAL_OFFSET_8188F		0xEF
++
++/* 0x10 ~ 0x63 = TX power area. */
++#define	EEPROM_TX_PWR_INX_8188F				0x10
++
++#define	EEPROM_ChannelPlan_8188F			0xB8
++#define	EEPROM_XTAL_8188F					0xB9
++#define	EEPROM_THERMAL_METER_8188F			0xBA
++#define	EEPROM_IQK_LCK_8188F				0xBB
++#define	EEPROM_2G_5G_PA_TYPE_8188F			0xBC
++#define	EEPROM_2G_LNA_TYPE_GAIN_SEL_8188F	0xBD
++#define	EEPROM_5G_LNA_TYPE_GAIN_SEL_8188F	0xBF
++
++#define	EEPROM_RF_BOARD_OPTION_8188F		0xC1
++#define	EEPROM_FEATURE_OPTION_8188F			0xC2
++#define	EEPROM_RF_BT_SETTING_8188F			0xC3
++#define	EEPROM_VERSION_8188F				0xC4
++#define	EEPROM_CustomID_8188F				0xC5
++#define	EEPROM_TX_BBSWING_2G_8188F			0xC6
++#define	EEPROM_TX_PWR_CALIBRATE_RATE_8188F	0xC8
++#define	EEPROM_RF_ANTENNA_OPT_8188F			0xC9
++#define	EEPROM_RFE_OPTION_8188F				0xCA
++#define EEPROM_COUNTRY_CODE_8188F			0xCB
++#define EEPROM_CUSTOMER_ID_8188F			0x7F
++#define EEPROM_SUBCUSTOMER_ID_8188F			0x59
++
++/* RTL8188FU */
++#define EEPROM_MAC_ADDR_8188FU				0xD7
++#define EEPROM_VID_8188FU					0xD0
++#define EEPROM_PID_8188FU					0xD2
++#define EEPROM_PA_TYPE_8188FU				0xBC
++#define EEPROM_LNA_TYPE_2G_8188FU			0xBD
++#define EEPROM_USB_OPTIONAL_FUNCTION0_8188FU 0xD4
++
++/* RTL8188FS */
++#define	EEPROM_MAC_ADDR_8188FS				0x11A
++#define EEPROM_Voltage_ADDR_8188F			0x8
++
++/* ****************************************************
++ *			EEPROM/Efuse PG Offset for 8723BE/8723BU/8723BS
++ * ****************************************************
++ * 0x10 ~ 0x63 = TX power area. */
++#define	EEPROM_TX_PWR_INX_8723B				0x10
++
++#define	EEPROM_ChannelPlan_8723B				0xB8
++#define	EEPROM_XTAL_8723B						0xB9
++#define	EEPROM_THERMAL_METER_8723B			0xBA
++#define	EEPROM_IQK_LCK_8723B					0xBB
++#define	EEPROM_2G_5G_PA_TYPE_8723B			0xBC
++#define	EEPROM_2G_LNA_TYPE_GAIN_SEL_8723B	0xBD
++#define	EEPROM_5G_LNA_TYPE_GAIN_SEL_8723B	0xBF
++
++#define	EEPROM_RF_BOARD_OPTION_8723B		0xC1
++#define	EEPROM_FEATURE_OPTION_8723B			0xC2
++#define	EEPROM_RF_BT_SETTING_8723B			0xC3
++#define	EEPROM_VERSION_8723B					0xC4
++#define	EEPROM_CustomID_8723B				0xC5
++#define	EEPROM_TX_BBSWING_2G_8723B			0xC6
++#define	EEPROM_TX_PWR_CALIBRATE_RATE_8723B	0xC8
++#define	EEPROM_RF_ANTENNA_OPT_8723B		0xC9
++#define	EEPROM_RFE_OPTION_8723B				0xCA
++#define EEPROM_COUNTRY_CODE_8723B			0xCB
++
++/* RTL8723BE */
++#define EEPROM_MAC_ADDR_8723BE				0xD0
++#define EEPROM_VID_8723BE						0xD6
++#define EEPROM_DID_8723BE						0xD8
++#define EEPROM_SVID_8723BE						0xDA
++#define EEPROM_SMID_8723BE						0xDC
++
++/* RTL8723BU */
++#define EEPROM_MAC_ADDR_8723BU				0x107
++#define EEPROM_VID_8723BU						0x100
++#define EEPROM_PID_8723BU						0x102
++#define EEPROM_PA_TYPE_8723BU					0xBC
++#define EEPROM_LNA_TYPE_2G_8723BU				0xBD
++
++
++/* RTL8723BS */
++#define	EEPROM_MAC_ADDR_8723BS				0x11A
++#define EEPROM_Voltage_ADDR_8723B			0x8
++
++/* ****************************************************
++ *			EEPROM/Efuse PG Offset for 8703B
++ * **************************************************** */
++#define GET_PG_KFREE_ON_8703B(_pg_m)			LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC1, 4, 1)
++#define GET_PG_KFREE_THERMAL_K_ON_8703B(_pg_m)	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 5, 1)
++
++#define PPG_BB_GAIN_2G_TXA_OFFSET_8703B	0xEE
++#define PPG_THERMAL_OFFSET_8703B		0xEF
++
++#define	EEPROM_TX_PWR_INX_8703B				0x10
++
++#define	EEPROM_ChannelPlan_8703B				0xB8
++#define	EEPROM_XTAL_8703B					0xB9
++#define	EEPROM_THERMAL_METER_8703B			0xBA
++#define	EEPROM_IQK_LCK_8703B					0xBB
++#define	EEPROM_2G_5G_PA_TYPE_8703B			0xBC
++#define	EEPROM_2G_LNA_TYPE_GAIN_SEL_8703B	0xBD
++#define	EEPROM_5G_LNA_TYPE_GAIN_SEL_8703B	0xBF
++
++#define	EEPROM_RF_BOARD_OPTION_8703B		0xC1
++#define	EEPROM_FEATURE_OPTION_8703B			0xC2
++#define	EEPROM_RF_BT_SETTING_8703B			0xC3
++#define	EEPROM_VERSION_8703B					0xC4
++#define	EEPROM_CustomID_8703B					0xC5
++#define	EEPROM_TX_BBSWING_2G_8703B			0xC6
++#define	EEPROM_TX_PWR_CALIBRATE_RATE_8703B	0xC8
++#define	EEPROM_RF_ANTENNA_OPT_8703B		0xC9
++#define	EEPROM_RFE_OPTION_8703B				0xCA
++#define EEPROM_COUNTRY_CODE_8703B			0xCB
++
++/* RTL8703BU */
++#define EEPROM_MAC_ADDR_8703BU                          0x107
++#define EEPROM_VID_8703BU                               0x100
++#define EEPROM_PID_8703BU                               0x102
++#define EEPROM_USB_OPTIONAL_FUNCTION0_8703BU            0x104
++#define EEPROM_PA_TYPE_8703BU                           0xBC
++#define EEPROM_LNA_TYPE_2G_8703BU                       0xBD
++
++/* RTL8703BS */
++#define	EEPROM_MAC_ADDR_8703BS				0x11A
++#define	EEPROM_Voltage_ADDR_8703B			0x8
++
++/*
++ * ====================================================
++ *	EEPROM/Efuse PG Offset for 8822B
++ * ====================================================
++ */
++#define GET_PG_KFREE_ON_8822B(_pg_m)		LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC1, 4, 1)
++#define GET_PG_KFREE_THERMAL_K_ON_8822B(_pg_m)	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 5, 1)
++
++#define PPG_BB_GAIN_2G_TXA_OFFSET_8822B		0xEE
++#define PPG_THERMAL_OFFSET_8822B		0xEF
++
++#define	EEPROM_TX_PWR_INX_8822B			0x10
++
++#define	EEPROM_ChannelPlan_8822B		0xB8
++#define	EEPROM_XTAL_8822B			0xB9
++#define	EEPROM_THERMAL_METER_8822B		0xBA
++#define	EEPROM_IQK_LCK_8822B			0xBB
++#define	EEPROM_2G_5G_PA_TYPE_8822B		0xBC
++/* PATH A & PATH B */
++#define	EEPROM_2G_LNA_TYPE_GAIN_SEL_AB_8822B	0xBD
++/* PATH C & PATH D */
++#define	EEPROM_2G_LNA_TYPE_GAIN_SEL_CD_8822B	0xBE
++/* PATH A & PATH B */
++#define	EEPROM_5G_LNA_TYPE_GAIN_SEL_AB_8822B	0xBF
++/* PATH C & PATH D */
++#define	EEPROM_5G_LNA_TYPE_GAIN_SEL_CD_8822B	0xC0
++
++#define	EEPROM_RF_BOARD_OPTION_8822B		0xC1
++#define	EEPROM_FEATURE_OPTION_8822B		0xC2
++#define	EEPROM_RF_BT_SETTING_8822B		0xC3
++#define	EEPROM_VERSION_8822B			0xC4
++#define	EEPROM_CustomID_8822B			0xC5
++#define	EEPROM_TX_BBSWING_2G_8822B		0xC6
++#define	EEPROM_TX_PWR_CALIBRATE_RATE_8822B	0xC8
++#define	EEPROM_RF_ANTENNA_OPT_8822B		0xC9
++#define	EEPROM_RFE_OPTION_8822B			0xCA
++#define EEPROM_COUNTRY_CODE_8822B		0xCB
++
++/* RTL8822BU */
++#define EEPROM_MAC_ADDR_8822BU			0x107
++#define EEPROM_VID_8822BU			0x100
++#define EEPROM_PID_8822BU			0x102
++#define EEPROM_USB_OPTIONAL_FUNCTION0_8822BU	0x104
++#define EEPROM_USB_MODE_8822BU			0x06
++
++/* RTL8822BS */
++#define	EEPROM_MAC_ADDR_8822BS			0x11A
++
++/* RTL8822BE */
++#define	EEPROM_MAC_ADDR_8822BE			0xD0
++/*
++ * ====================================================
++ *	EEPROM/Efuse PG Offset for 8821C
++ * ====================================================
++ */
++#define GET_PG_KFREE_ON_8821C(_pg_m)		LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC1, 4, 1)
++#define GET_PG_KFREE_THERMAL_K_ON_8821C(_pg_m)	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 5, 1)
++
++#define PPG_BB_GAIN_2G_TXA_OFFSET_8821C		0xEE
++#define PPG_THERMAL_OFFSET_8821C		0xEF
++
++#define	EEPROM_TX_PWR_INX_8821C			0x10
++
++#define	EEPROM_ChannelPlan_8821C		0xB8
++#define	EEPROM_XTAL_8821C			0xB9
++#define	EEPROM_THERMAL_METER_8821C		0xBA
++#define	EEPROM_IQK_LCK_8821C			0xBB
++#define	EEPROM_2G_5G_PA_TYPE_8821C		0xBC
++/* PATH A & PATH B */
++#define	EEPROM_2G_LNA_TYPE_GAIN_SEL_AB_8821C	0xBD
++/* PATH C & PATH D */
++#define	EEPROM_2G_LNA_TYPE_GAIN_SEL_CD_8821C	0xBE
++/* PATH A & PATH B */
++#define	EEPROM_5G_LNA_TYPE_GAIN_SEL_AB_8821C	0xBF
++/* PATH C & PATH D */
++#define	EEPROM_5G_LNA_TYPE_GAIN_SEL_CD_8821C	0xC0
++
++#define	EEPROM_RF_BOARD_OPTION_8821C		0xC1
++#define	EEPROM_FEATURE_OPTION_8821C		0xC2
++#define	EEPROM_RF_BT_SETTING_8821C		0xC3
++#define	EEPROM_VERSION_8821C			0xC4
++#define	EEPROM_CustomID_8821C			0xC5
++#define	EEPROM_TX_BBSWING_2G_8821C		0xC6
++#define	EEPROM_TX_PWR_CALIBRATE_RATE_8821C	0xC8
++#define	EEPROM_RF_ANTENNA_OPT_8821C		0xC9
++#define	EEPROM_RFE_OPTION_8821C			0xCA
++#define EEPROM_COUNTRY_CODE_8821C		0xCB
++
++/* RTL8821CU */
++#define EEPROM_MAC_ADDR_8821CU			0x107
++#define EEPROM_VID_8821CU					0x100
++#define EEPROM_PID_8821CU					0x102
++#define EEPROM_USB_OPTIONAL_FUNCTION0_8821CU	0x104
++#define EEPROM_USB_MODE_8821CU			0x06
++
++/* RTL8821CS */
++#define	EEPROM_MAC_ADDR_8821CS			0x11A
++
++/* RTL8821CE */
++#define	EEPROM_MAC_ADDR_8821CE			0xD0
++/* ****************************************************
++ *	EEPROM/Efuse PG Offset for 8723D
++ * **************************************************** */
++#define GET_PG_KFREE_ON_8723D(_pg_m)	\
++	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC1, 4, 1)
++#define GET_PG_KFREE_THERMAL_K_ON_8723D(_pg_m)	\
++	LE_BITS_TO_1BYTE(((u8 *)(_pg_m)) + 0xC8, 5, 1)
++
++#define PPG_BB_GAIN_2G_TXA_OFFSET_8723D		0xEE
++#define PPG_THERMAL_OFFSET_8723D		0xEF
++
++#define	EEPROM_TX_PWR_INX_8723D			0x10
++
++#define	EEPROM_ChannelPlan_8723D		0xB8
++#define	EEPROM_XTAL_8723D			0xB9
++#define	EEPROM_THERMAL_METER_8723D		0xBA
++#define	EEPROM_IQK_LCK_8723D			0xBB
++#define	EEPROM_2G_5G_PA_TYPE_8723D		0xBC
++#define	EEPROM_2G_LNA_TYPE_GAIN_SEL_8723D	0xBD
++#define	EEPROM_5G_LNA_TYPE_GAIN_SEL_8723D	0xBF
++
++#define	EEPROM_RF_BOARD_OPTION_8723D		0xC1
++#define	EEPROM_FEATURE_OPTION_8723D		0xC2
++#define	EEPROM_RF_BT_SETTING_8723D		0xC3
++#define	EEPROM_VERSION_8723D			0xC4
++#define	EEPROM_CustomID_8723D			0xC5
++#define	EEPROM_TX_BBSWING_2G_8723D		0xC6
++#define	EEPROM_TX_PWR_CALIBRATE_RATE_8723D	0xC8
++#define	EEPROM_RF_ANTENNA_OPT_8723D		0xC9
++#define	EEPROM_RFE_OPTION_8723D			0xCA
++#define EEPROM_COUNTRY_CODE_8723D		0xCB
++
++/* RTL8723DE */
++#define EEPROM_MAC_ADDR_8723DE              0xD0
++#define EEPROM_VID_8723DE                   0xD6
++#define EEPROM_DID_8723DE                   0xD8
++#define EEPROM_SVID_8723DE                  0xDA
++#define EEPROM_SMID_8723DE                  0xDC
++
++/* RTL8723DU */
++#define EEPROM_MAC_ADDR_8723DU                  0x107
++#define EEPROM_VID_8723DU                       0x100
++#define EEPROM_PID_8723DU                       0x102
++#define EEPROM_USB_OPTIONAL_FUNCTION0_8723DU    0x104
++
++/* RTL8723BS */
++#define	EEPROM_MAC_ADDR_8723DS			0x11A
++#define	EEPROM_Voltage_ADDR_8723D		0x8
++
++/* ****************************************************
++ *			EEPROM/Efuse Value Type
++ * **************************************************** */
++#define EETYPE_TX_PWR							0x0
++/* ****************************************************
++ *			EEPROM/Efuse Default Value
++ * **************************************************** */
++#define EEPROM_CID_DEFAULT					0x0
++#define EEPROM_CID_DEFAULT_EXT				0xFF /* Reserved for Realtek */
++#define EEPROM_CID_TOSHIBA						0x4
++#define EEPROM_CID_CCX							0x10
++#define EEPROM_CID_QMI							0x0D
++#define EEPROM_CID_WHQL						0xFE
++
++#define EEPROM_CHANNEL_PLAN_FCC				0x0
++#define EEPROM_CHANNEL_PLAN_IC				0x1
++#define EEPROM_CHANNEL_PLAN_ETSI				0x2
++#define EEPROM_CHANNEL_PLAN_SPAIN			0x3
++#define EEPROM_CHANNEL_PLAN_FRANCE			0x4
++#define EEPROM_CHANNEL_PLAN_MKK				0x5
++#define EEPROM_CHANNEL_PLAN_MKK1				0x6
++#define EEPROM_CHANNEL_PLAN_ISRAEL			0x7
++#define EEPROM_CHANNEL_PLAN_TELEC			0x8
++#define EEPROM_CHANNEL_PLAN_GLOBAL_DOMAIN	0x9
++#define EEPROM_CHANNEL_PLAN_WORLD_WIDE_13	0xA
++#define EEPROM_CHANNEL_PLAN_NCC_TAIWAN		0xB
++#define EEPROM_CHANNEL_PLAN_CHIAN			0XC
++#define EEPROM_CHANNEL_PLAN_SINGAPORE_INDIA_MEXICO  0XD
++#define EEPROM_CHANNEL_PLAN_KOREA			0xE
++#define EEPROM_CHANNEL_PLAN_TURKEY	0xF
++#define EEPROM_CHANNEL_PLAN_JAPAN	0x10
++#define EEPROM_CHANNEL_PLAN_FCC_NO_DFS		0x11
++#define EEPROM_CHANNEL_PLAN_JAPAN_NO_DFS	0x12
++#define EEPROM_CHANNEL_PLAN_WORLD_WIDE_5G	0x13
++#define EEPROM_CHANNEL_PLAN_TAIWAN_NO_DFS	0x14
++
++#define EEPROM_USB_OPTIONAL1					0xE
++#define EEPROM_CHANNEL_PLAN_BY_HW_MASK		0x80
++
++#define RTL_EEPROM_ID							0x8129
++#define EEPROM_Default_TSSI						0x0
++#define EEPROM_Default_BoardType				0x02
++#define EEPROM_Default_ThermalMeter			0x12
++#define EEPROM_Default_ThermalMeter_92SU		0x7
++#define EEPROM_Default_ThermalMeter_88E		0x18
++#define EEPROM_Default_ThermalMeter_8812		0x18
++#define	EEPROM_Default_ThermalMeter_8192E			0x1A
++#define	EEPROM_Default_ThermalMeter_8723B		0x18
++#define	EEPROM_Default_ThermalMeter_8703B		0x18
++#define	EEPROM_Default_ThermalMeter_8723D		0x18
++#define	EEPROM_Default_ThermalMeter_8188F		0x18
++#define EEPROM_Default_ThermalMeter_8814A		0x18
++
++
++#define EEPROM_Default_CrystalCap				0x0
++#define EEPROM_Default_CrystalCap_8723A		0x20
++#define EEPROM_Default_CrystalCap_88E			0x20
++#define EEPROM_Default_CrystalCap_8812			0x20
++#define EEPROM_Default_CrystalCap_8814			0x20
++#define EEPROM_Default_CrystalCap_8192E			0x20
++#define EEPROM_Default_CrystalCap_8723B			0x20
++#define EEPROM_Default_CrystalCap_8703B			0x20
++#define EEPROM_Default_CrystalCap_8723D			0x20
++#define EEPROM_Default_CrystalCap_8188F			0x20
++#define EEPROM_Default_CrystalFreq				0x0
++#define EEPROM_Default_TxPowerLevel_92C		0x22
++#define EEPROM_Default_TxPowerLevel_2G			0x2C
++#define EEPROM_Default_TxPowerLevel_5G			0x22
++#define EEPROM_Default_TxPowerLevel			0x22
++#define EEPROM_Default_HT40_2SDiff				0x0
++#define EEPROM_Default_HT20_Diff				2
++#define EEPROM_Default_LegacyHTTxPowerDiff		0x3
++#define EEPROM_Default_LegacyHTTxPowerDiff_92C	0x3
++#define EEPROM_Default_LegacyHTTxPowerDiff_92D	0x4
++#define EEPROM_Default_HT40_PwrMaxOffset		0
++#define EEPROM_Default_HT20_PwrMaxOffset		0
++
++#define EEPROM_Default_PID						0x1234
++#define EEPROM_Default_VID						0x5678
++#define EEPROM_Default_CustomerID				0xAB
++#define EEPROM_Default_CustomerID_8188E		0x00
++#define EEPROM_Default_SubCustomerID			0xCD
++#define EEPROM_Default_Version					0
++
++#define EEPROM_Default_externalPA_C9		0x00
++#define EEPROM_Default_externalPA_CC		0xFF
++#define EEPROM_Default_internalPA_SP3T_C9	0xAA
++#define EEPROM_Default_internalPA_SP3T_CC	0xAF
++#define EEPROM_Default_internalPA_SPDT_C9	0xAA
++#ifdef CONFIG_PCI_HCI
++	#define EEPROM_Default_internalPA_SPDT_CC	0xA0
++#else
++	#define EEPROM_Default_internalPA_SPDT_CC	0xFA
++#endif
++#define EEPROM_Default_PAType						0
++#define EEPROM_Default_LNAType						0
++
++/* New EFUSE default value */
++#define EEPROM_DEFAULT_CHANNEL_PLAN		0x7F
++#define EEPROM_DEFAULT_BOARD_OPTION		0x00
++#define EEPROM_DEFAULT_RFE_OPTION_8192E 0xFF
++#define EEPROM_DEFAULT_RFE_OPTION_8188E 0xFF
++#define EEPROM_DEFAULT_RFE_OPTION		0x04
++#define EEPROM_DEFAULT_FEATURE_OPTION	0x00
++#define EEPROM_DEFAULT_BT_OPTION			0x10
++
++
++#define EEPROM_DEFAULT_TX_CALIBRATE_RATE	0x00
++
++/* PCIe related */
++#define	EEPROM_PCIE_DEV_CAP_01				0xE0 /* Express device capability in PCIe configuration space, i.e., map to offset 0x74 */
++#define	EEPROM_PCIE_DEV_CAP_02				0xE1 /* Express device capability in PCIe configuration space, i.e., map to offset 0x75 */
++
++
++/*
++ * For VHT series TX power by rate table.
++ * VHT TX power by rate off setArray =
++ * Band:-2G&5G = 0 / 1
++ * RF: at most 4*4 = ABCD=0/1/2/3
++ * CCK=0 OFDM=1/2 HT-MCS 0-15=3/4/56 VHT=7/8/9/10/11
++ *   */
++#define TX_PWR_BY_RATE_NUM_BAND			2
++#define TX_PWR_BY_RATE_NUM_RF			4
++#define TX_PWR_BY_RATE_NUM_RATE			84
++
++#define TXPWR_LMT_MAX_RF				4
++
++/* ----------------------------------------------------------------------------
++ * EEPROM/EFUSE data structure definition.
++ * ---------------------------------------------------------------------------- */
++
++/* For 88E new structure */
++
++/*
++2.4G:
++{
++{1,2},
++{3,4,5},
++{6,7,8},
++{9,10,11},
++{12,13},
++{14}
++}
++
++5G:
++{
++{36,38,40},
++{44,46,48},
++{52,54,56},
++{60,62,64},
++{100,102,104},
++{108,110,112},
++{116,118,120},
++{124,126,128},
++{132,134,136},
++{140,142,144},
++{149,151,153},
++{157,159,161},
++{173,175,177},
++}
++*/
++#define	MAX_RF_PATH				4
++#define RF_PATH_MAX				MAX_RF_PATH
++#define	MAX_CHNL_GROUP_24G		6
++#define	MAX_CHNL_GROUP_5G		14
++
++/* It must always set to 4, otherwise read efuse table sequence will be wrong. */
++#define	MAX_TX_COUNT				4
++
++typedef struct _TxPowerInfo24G {
++	u8 IndexCCK_Base[MAX_RF_PATH][MAX_CHNL_GROUP_24G];
++	u8 IndexBW40_Base[MAX_RF_PATH][MAX_CHNL_GROUP_24G];
++	/* If only one tx, only BW20 and OFDM are used. */
++	s8 CCK_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8 OFDM_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8 BW20_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8 BW40_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++} TxPowerInfo24G, *PTxPowerInfo24G;
++
++typedef struct _TxPowerInfo5G {
++	u8 IndexBW40_Base[MAX_RF_PATH][MAX_CHNL_GROUP_5G];
++	/* If only one tx, only BW20, OFDM, BW80 and BW160 are used. */
++	s8 OFDM_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8 BW20_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8 BW40_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8 BW80_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++	s8 BW160_Diff[MAX_RF_PATH][MAX_TX_COUNT];
++} TxPowerInfo5G, *PTxPowerInfo5G;
++
++
++typedef	enum _BT_Ant_NUM {
++	Ant_x2	= 0,
++	Ant_x1	= 1
++} BT_Ant_NUM, *PBT_Ant_NUM;
++
++typedef	enum _BT_CoType {
++	BT_2WIRE		= 0,
++	BT_ISSC_3WIRE	= 1,
++	BT_ACCEL		= 2,
++	BT_CSR_BC4		= 3,
++	BT_CSR_BC8		= 4,
++	BT_RTL8756		= 5,
++	BT_RTL8723A		= 6,
++	BT_RTL8821		= 7,
++	BT_RTL8723B		= 8,
++	BT_RTL8192E		= 9,
++	BT_RTL8814A		= 10,
++	BT_RTL8812A		= 11,
++	BT_RTL8703B		= 12,
++	BT_RTL8822B		= 13,
++	BT_RTL8723D		= 14,
++	BT_RTL8821C		= 15
++} BT_CoType, *PBT_CoType;
++
++typedef	enum _BT_RadioShared {
++	BT_Radio_Shared	= 0,
++	BT_Radio_Individual	= 1,
++} BT_RadioShared, *PBT_RadioShared;
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/hal_phy.h b/drivers/net/wireless/rtl8812au/include/hal_phy.h
+new file mode 100644
+index 0000000..af1dcad
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/hal_phy.h
+@@ -0,0 +1,243 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_PHY_H__
++#define __HAL_PHY_H__
++
++
++#if DISABLE_BB_RF
++	#define	HAL_FW_ENABLE				0
++	#define	HAL_MAC_ENABLE			0
++	#define	HAL_BB_ENABLE				0
++	#define	HAL_RF_ENABLE				0
++#else /* FPGA_PHY and ASIC */
++	#define	HAL_FW_ENABLE				1
++	#define	HAL_MAC_ENABLE			1
++	#define	HAL_BB_ENABLE				1
++	#define	HAL_RF_ENABLE				1
++#endif
++
++#define	RF6052_MAX_TX_PWR			0x3F
++#define	RF6052_MAX_REG_88E			0xFF
++#define	RF6052_MAX_REG_92C			0x7F
++
++#define	RF6052_MAX_REG	\
++	((RF6052_MAX_REG_88E > RF6052_MAX_REG_92C) ? RF6052_MAX_REG_88E : RF6052_MAX_REG_92C)
++
++#define GET_RF6052_REAL_MAX_REG(_Adapter)	\
++	(IS_HARDWARE_TYPE_8188E(_Adapter) ? RF6052_MAX_REG_88E : RF6052_MAX_REG_92C)
++
++#define	RF6052_MAX_PATH				2
++
++/*
++ * Antenna detection method, i.e., using single tone detection or RSSI reported from each antenna detected.
++ * Added by Roger, 2013.05.22.
++ *   */
++#define ANT_DETECT_BY_SINGLE_TONE	BIT0
++#define ANT_DETECT_BY_RSSI				BIT1
++#define IS_ANT_DETECT_SUPPORT_SINGLE_TONE(__Adapter)		((GET_HAL_DATA(__Adapter)->AntDetection) & ANT_DETECT_BY_SINGLE_TONE)
++#define IS_ANT_DETECT_SUPPORT_RSSI(__Adapter)		((GET_HAL_DATA(__Adapter)->AntDetection) & ANT_DETECT_BY_RSSI)
++
++
++/*--------------------------Define Parameters-------------------------------*/
++typedef	enum _RF_TYPE {
++	RF_TYPE_MIN = 0,	/* 0 */
++	RF_8225 = 1,			/* 1 11b/g RF for verification only */
++	RF_8256 = 2,			/* 2 11b/g/n */
++	RF_8258 = 3,			/* 3 11a/b/g/n RF */
++	RF_6052 = 4,			/* 4 11b/g/n RF */
++	RF_PSEUDO_11N = 5,	/* 5, It is a temporality RF. */
++	RF_TYPE_MAX
++} RF_TYPE_E, *PRF_TYPE_E;
++
++#define	TX_1S			0
++#define	TX_2S			1
++#define	TX_3S			2
++#define	TX_4S			3
++
++typedef enum _ANTENNA_PATH {
++	ANTENNA_NONE	= 0,
++	ANTENNA_D		= 1,
++	ANTENNA_C		= 2,
++	ANTENNA_CD	= 3,
++	ANTENNA_B		= 4,
++	ANTENNA_BD	= 5,
++	ANTENNA_BC	= 6,
++	ANTENNA_BCD	= 7,
++	ANTENNA_A		= 8,
++	ANTENNA_AD	= 9,
++	ANTENNA_AC	= 10,
++	ANTENNA_ACD	= 11,
++	ANTENNA_AB	= 12,
++	ANTENNA_ABD	= 13,
++	ANTENNA_ABC	= 14,
++	ANTENNA_ABCD	= 15
++} ANTENNA_PATH;
++
++typedef enum _RF_CONTENT {
++	radioa_txt = 0x1000,
++	radiob_txt = 0x1001,
++	radioc_txt = 0x1002,
++	radiod_txt = 0x1003
++} RF_CONTENT;
++
++typedef enum _BaseBand_Config_Type {
++	BaseBand_Config_PHY_REG = 0,			/* Radio Path A */
++	BaseBand_Config_AGC_TAB = 1,			/* Radio Path B */
++	BaseBand_Config_AGC_TAB_2G = 2,
++	BaseBand_Config_AGC_TAB_5G = 3,
++	BaseBand_Config_PHY_REG_PG
++} BaseBand_Config_Type, *PBaseBand_Config_Type;
++
++typedef enum _HW_BLOCK {
++	HW_BLOCK_MAC = 0,
++	HW_BLOCK_PHY0 = 1,
++	HW_BLOCK_PHY1 = 2,
++	HW_BLOCK_RF = 3,
++	HW_BLOCK_MAXIMUM = 4, /* Never use this */
++} HW_BLOCK_E, *PHW_BLOCK_E;
++
++typedef enum _WIRELESS_MODE {
++	WIRELESS_MODE_UNKNOWN = 0x00,
++	WIRELESS_MODE_A = 0x01,
++	WIRELESS_MODE_B = 0x02,
++	WIRELESS_MODE_G = 0x04,
++	WIRELESS_MODE_AUTO = 0x08,
++	WIRELESS_MODE_N_24G = 0x10,
++	WIRELESS_MODE_N_5G = 0x20,
++	WIRELESS_MODE_AC_5G = 0x40,
++	WIRELESS_MODE_AC_24G  = 0x80,
++	WIRELESS_MODE_AC_ONLY  = 0x100,
++} WIRELESS_MODE;
++
++typedef enum _SwChnlCmdID {
++	CmdID_End,
++	CmdID_SetTxPowerLevel,
++	CmdID_BBRegWrite10,
++	CmdID_WritePortUlong,
++	CmdID_WritePortUshort,
++	CmdID_WritePortUchar,
++	CmdID_RF_WriteReg,
++} SwChnlCmdID;
++
++typedef struct _SwChnlCmd {
++	SwChnlCmdID	CmdID;
++	u32				Para1;
++	u32				Para2;
++	u32				msDelay;
++} SwChnlCmd;
++
++typedef struct _R_ANTENNA_SELECT_OFDM {
++	u32			r_tx_antenna:4;
++	u32			r_ant_l:4;
++	u32			r_ant_non_ht:4;
++	u32			r_ant_ht1:4;
++	u32			r_ant_ht2:4;
++	u32			r_ant_ht_s1:4;
++	u32			r_ant_non_ht_s1:4;
++	u32			OFDM_TXSC:2;
++	u32			Reserved:2;
++} R_ANTENNA_SELECT_OFDM;
++
++typedef struct _R_ANTENNA_SELECT_CCK {
++	u8			r_cckrx_enable_2:2;
++	u8			r_cckrx_enable:2;
++	u8			r_ccktx_enable:4;
++} R_ANTENNA_SELECT_CCK;
++
++typedef struct RF_Shadow_Compare_Map {
++	/* Shadow register value */
++	u32		Value;
++	/* Compare or not flag */
++	u8		Compare;
++	/* Record If it had ever modified unpredicted */
++	u8		ErrorOrNot;
++	/* Recorver Flag */
++	u8		Recorver;
++	/*  */
++	u8		Driver_Write;
++} RF_SHADOW_T;
++
++/*--------------------------Exported Function prototype---------------------*/
++
++u32
++PHY_CalculateBitShift(
++	u32 BitMask
++);
++
++u32
++PHY_RFShadowRead(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset);
++
++VOID
++PHY_RFShadowWrite(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset,
++	IN	u32				Data);
++
++BOOLEAN
++PHY_RFShadowCompare(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset);
++
++VOID
++PHY_RFShadowRecorver(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset);
++
++VOID
++PHY_RFShadowCompareAll(
++	IN	PADAPTER		Adapter);
++
++VOID
++PHY_RFShadowRecorverAll(
++	IN	PADAPTER		Adapter);
++
++VOID
++PHY_RFShadowCompareFlagSet(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset,
++	IN	u8				Type);
++
++VOID
++PHY_RFShadowRecorverFlagSet(
++	IN	PADAPTER		Adapter,
++	IN	u8				eRFPath,
++	IN	u32				Offset,
++	IN	u8				Type);
++
++VOID
++PHY_RFShadowCompareFlagSetAll(
++	IN	PADAPTER		Adapter);
++
++VOID
++PHY_RFShadowRecorverFlagSetAll(
++	IN	PADAPTER		Adapter);
++
++VOID
++PHY_RFShadowRefresh(
++	IN	PADAPTER		Adapter);
++
++#endif /* __HAL_COMMON_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/hal_phy_reg.h b/drivers/net/wireless/rtl8812au/include/hal_phy_reg.h
+new file mode 100644
+index 0000000..9a92e40
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/hal_phy_reg.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_PHY_REG_H__
++#define __HAL_PHY_REG_H__
++
++/* for PutRFRegsetting & GetRFRegSetting BitMask
++ * #if (RTL92SE_FPGA_VERIFY == 1)
++ * #define		bRFRegOffsetMask	0xfff
++ * #else */
++#define		bRFRegOffsetMask	0xfffff
++/* #endif */
++
++#endif /* __HAL_PHY_REG_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/hal_sdio.h b/drivers/net/wireless/rtl8812au/include/hal_sdio.h
+new file mode 100644
+index 0000000..5e7c5db
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/hal_sdio.h
+@@ -0,0 +1,31 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __HAL_SDIO_H_
++#define __HAL_SDIO_H_
++
++#define ffaddr2deviceId(pdvobj, addr)	(pdvobj->Queue2Pipe[addr])
++
++u8 rtw_hal_sdio_max_txoqt_free_space(_adapter *padapter);
++u8 rtw_hal_sdio_query_tx_freepage(_adapter *padapter, u8 PageIdx, u8 RequiredPageNum);
++void rtw_hal_sdio_update_tx_freepage(_adapter *padapter, u8 PageIdx, u8 RequiredPageNum);
++void rtw_hal_set_sdio_tx_max_length(PADAPTER padapter, u8 numHQ, u8 numNQ, u8 numLQ, u8 numPubQ);
++u32 rtw_hal_get_sdio_tx_max_length(PADAPTER padapter, u8 queue_idx);
++
++#endif /* __RTW_LED_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/ieee80211.h b/drivers/net/wireless/rtl8812au/include/ieee80211.h
+new file mode 100644
+index 0000000..7a50a07
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/ieee80211.h
+@@ -0,0 +1,1918 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __IEEE80211_H
++#define __IEEE80211_H
++
++
++#ifndef CONFIG_RTL8711FW
++
++	#if defined PLATFORM_OS_XP
++		#include <ntstrsafe.h>
++	#endif
++#else
++
++#endif
++
++#define MGMT_QUEUE_NUM 5
++
++#define ETH_ALEN	6
++#define ETH_TYPE_LEN		2
++#define PAYLOAD_TYPE_LEN	1
++
++#define NET80211_TU_TO_US	1024		/* unit:us */
++#define DEFAULT_BCN_INTERVAL 100 /* 100 ms */
++
++#ifdef CONFIG_AP_MODE
++
++#define RTL_IOCTL_HOSTAPD (SIOCIWFIRSTPRIV + 28)
++
++/* RTL871X_IOCTL_HOSTAPD ioctl() cmd: */
++enum {
++	RTL871X_HOSTAPD_FLUSH = 1,
++	RTL871X_HOSTAPD_ADD_STA = 2,
++	RTL871X_HOSTAPD_REMOVE_STA = 3,
++	RTL871X_HOSTAPD_GET_INFO_STA = 4,
++	/* REMOVED: PRISM2_HOSTAPD_RESET_TXEXC_STA = 5, */
++	RTL871X_HOSTAPD_GET_WPAIE_STA = 5,
++	RTL871X_SET_ENCRYPTION = 6,
++	RTL871X_GET_ENCRYPTION = 7,
++	RTL871X_HOSTAPD_SET_FLAGS_STA = 8,
++	RTL871X_HOSTAPD_GET_RID = 9,
++	RTL871X_HOSTAPD_SET_RID = 10,
++	RTL871X_HOSTAPD_SET_ASSOC_AP_ADDR = 11,
++	RTL871X_HOSTAPD_SET_GENERIC_ELEMENT = 12,
++	RTL871X_HOSTAPD_MLME = 13,
++	RTL871X_HOSTAPD_SCAN_REQ = 14,
++	RTL871X_HOSTAPD_STA_CLEAR_STATS = 15,
++	RTL871X_HOSTAPD_SET_BEACON = 16,
++	RTL871X_HOSTAPD_SET_WPS_BEACON = 17,
++	RTL871X_HOSTAPD_SET_WPS_PROBE_RESP = 18,
++	RTL871X_HOSTAPD_SET_WPS_ASSOC_RESP = 19,
++	RTL871X_HOSTAPD_SET_HIDDEN_SSID = 20,
++	RTL871X_HOSTAPD_SET_MACADDR_ACL = 21,
++	RTL871X_HOSTAPD_ACL_ADD_STA = 22,
++	RTL871X_HOSTAPD_ACL_REMOVE_STA = 23,
++};
++
++/* STA flags */
++#define WLAN_STA_AUTH BIT(0)
++#define WLAN_STA_ASSOC BIT(1)
++#define WLAN_STA_PS BIT(2)
++#define WLAN_STA_TIM BIT(3)
++#define WLAN_STA_PERM BIT(4)
++#define WLAN_STA_AUTHORIZED BIT(5)
++#define WLAN_STA_PENDING_POLL BIT(6) /* pending activity poll not ACKed */
++#define WLAN_STA_SHORT_PREAMBLE BIT(7)
++#define WLAN_STA_PREAUTH BIT(8)
++#define WLAN_STA_WME BIT(9)
++#define WLAN_STA_MFP BIT(10)
++#define WLAN_STA_HT BIT(11)
++#define WLAN_STA_WPS BIT(12)
++#define WLAN_STA_MAYBE_WPS BIT(13)
++#define WLAN_STA_VHT BIT(14)
++#define WLAN_STA_NONERP BIT(31)
++
++#endif
++
++#define IEEE_CMD_SET_WPA_PARAM			1
++#define IEEE_CMD_SET_WPA_IE				2
++#define IEEE_CMD_SET_ENCRYPTION			3
++#define IEEE_CMD_MLME						4
++
++#define IEEE_PARAM_WPA_ENABLED				1
++#define IEEE_PARAM_TKIP_COUNTERMEASURES		2
++#define IEEE_PARAM_DROP_UNENCRYPTED			3
++#define IEEE_PARAM_PRIVACY_INVOKED			4
++#define IEEE_PARAM_AUTH_ALGS					5
++#define IEEE_PARAM_IEEE_802_1X				6
++#define IEEE_PARAM_WPAX_SELECT				7
++
++#define AUTH_ALG_OPEN_SYSTEM			0x1
++#define AUTH_ALG_SHARED_KEY			0x2
++#define AUTH_ALG_LEAP				0x00000004
++
++#define IEEE_MLME_STA_DEAUTH				1
++#define IEEE_MLME_STA_DISASSOC			2
++
++#define IEEE_CRYPT_ERR_UNKNOWN_ALG			2
++#define IEEE_CRYPT_ERR_UNKNOWN_ADDR			3
++#define IEEE_CRYPT_ERR_CRYPT_INIT_FAILED		4
++#define IEEE_CRYPT_ERR_KEY_SET_FAILED			5
++#define IEEE_CRYPT_ERR_TX_KEY_SET_FAILED		6
++#define IEEE_CRYPT_ERR_CARD_CONF_FAILED		7
++
++
++#define	IEEE_CRYPT_ALG_NAME_LEN			16
++
++#define WPA_CIPHER_NONE	BIT(0)
++#define WPA_CIPHER_WEP40	BIT(1)
++#define WPA_CIPHER_WEP104 BIT(2)
++#define WPA_CIPHER_TKIP	BIT(3)
++#define WPA_CIPHER_CCMP	BIT(4)
++
++
++
++#define WPA_SELECTOR_LEN 4
++extern u8 RTW_WPA_OUI_TYPE[] ;
++extern u16 RTW_WPA_VERSION ;
++extern u8 WPA_AUTH_KEY_MGMT_NONE[];
++extern u8 WPA_AUTH_KEY_MGMT_UNSPEC_802_1X[];
++extern u8 WPA_AUTH_KEY_MGMT_PSK_OVER_802_1X[];
++extern u8 WPA_CIPHER_SUITE_NONE[];
++extern u8 WPA_CIPHER_SUITE_WEP40[];
++extern u8 WPA_CIPHER_SUITE_TKIP[];
++extern u8 WPA_CIPHER_SUITE_WRAP[];
++extern u8 WPA_CIPHER_SUITE_CCMP[];
++extern u8 WPA_CIPHER_SUITE_WEP104[];
++
++
++#define RSN_HEADER_LEN 4
++#define RSN_SELECTOR_LEN 4
++
++extern u16 RSN_VERSION_BSD;
++extern u8 RSN_AUTH_KEY_MGMT_UNSPEC_802_1X[];
++extern u8 RSN_AUTH_KEY_MGMT_PSK_OVER_802_1X[];
++extern u8 RSN_CIPHER_SUITE_NONE[];
++extern u8 RSN_CIPHER_SUITE_WEP40[];
++extern u8 RSN_CIPHER_SUITE_TKIP[];
++extern u8 RSN_CIPHER_SUITE_WRAP[];
++extern u8 RSN_CIPHER_SUITE_CCMP[];
++extern u8 RSN_CIPHER_SUITE_WEP104[];
++
++
++typedef enum _RATEID_IDX_ {
++	RATEID_IDX_BGN_40M_2SS = 0,
++	RATEID_IDX_BGN_40M_1SS = 1,
++	RATEID_IDX_BGN_20M_2SS_BN = 2,
++	RATEID_IDX_BGN_20M_1SS_BN = 3,
++	RATEID_IDX_GN_N2SS = 4,
++	RATEID_IDX_GN_N1SS = 5,
++	RATEID_IDX_BG = 6,
++	RATEID_IDX_G = 7,
++	RATEID_IDX_B = 8,
++	RATEID_IDX_VHT_2SS = 9,
++	RATEID_IDX_VHT_1SS = 10,
++	RATEID_IDX_MIX1 = 11,
++	RATEID_IDX_MIX2 = 12,
++	RATEID_IDX_VHT_3SS = 13,
++	RATEID_IDX_BGN_3SS = 14,
++} RATEID_IDX, *PRATEID_IDX;
++
++typedef enum _RATR_TABLE_MODE {
++	RATR_INX_WIRELESS_NGB = 0,	/* BGN 40 Mhz 2SS 1SS */
++	RATR_INX_WIRELESS_NG = 1,		/* GN or N */
++	RATR_INX_WIRELESS_NB = 2,		/* BGN 20 Mhz 2SS 1SS  or BN */
++	RATR_INX_WIRELESS_N = 3,
++	RATR_INX_WIRELESS_GB = 4,
++	RATR_INX_WIRELESS_G = 5,
++	RATR_INX_WIRELESS_B = 6,
++	RATR_INX_WIRELESS_MC = 7,
++	RATR_INX_WIRELESS_AC_N = 8,
++} RATR_TABLE_MODE, *PRATR_TABLE_MODE;
++
++
++enum NETWORK_TYPE {
++	WIRELESS_INVALID = 0,
++	/* Sub-Element */
++	WIRELESS_11B = BIT(0), /* tx: cck only , rx: cck only, hw: cck */
++	WIRELESS_11G = BIT(1), /* tx: ofdm only, rx: ofdm & cck, hw: cck & ofdm */
++	WIRELESS_11A = BIT(2), /* tx: ofdm only, rx: ofdm only, hw: ofdm only */
++	WIRELESS_11_24N = BIT(3), /* tx: MCS only, rx: MCS & cck, hw: MCS & cck */
++	WIRELESS_11_5N = BIT(4), /* tx: MCS only, rx: MCS & ofdm, hw: ofdm only */
++	WIRELESS_AUTO = BIT(5),
++	WIRELESS_11AC = BIT(6),
++
++	/* Combination */
++	/* Type for current wireless mode */
++	WIRELESS_11BG = (WIRELESS_11B | WIRELESS_11G), /* tx: cck & ofdm, rx: cck & ofdm & MCS, hw: cck & ofdm */
++	WIRELESS_11G_24N = (WIRELESS_11G | WIRELESS_11_24N), /* tx: ofdm & MCS, rx: ofdm & cck & MCS, hw: cck & ofdm */
++	WIRELESS_11A_5N = (WIRELESS_11A | WIRELESS_11_5N), /* tx: ofdm & MCS, rx: ofdm & MCS, hw: ofdm only */
++	WIRELESS_11B_24N = (WIRELESS_11B | WIRELESS_11_24N), /* tx: ofdm & cck & MCS, rx: ofdm & cck & MCS, hw: ofdm & cck */
++	WIRELESS_11BG_24N = (WIRELESS_11B | WIRELESS_11G | WIRELESS_11_24N), /* tx: ofdm & cck & MCS, rx: ofdm & cck & MCS, hw: ofdm & cck */
++	WIRELESS_11_24AC = (WIRELESS_11G | WIRELESS_11AC),
++	WIRELESS_11_5AC = (WIRELESS_11A | WIRELESS_11AC),
++
++
++	/* Type for registry default wireless mode */
++	WIRELESS_11AGN = (WIRELESS_11A | WIRELESS_11G | WIRELESS_11_24N | WIRELESS_11_5N), /* tx: ofdm & MCS, rx: ofdm & MCS, hw: ofdm only */
++	WIRELESS_11ABGN = (WIRELESS_11A | WIRELESS_11B | WIRELESS_11G | WIRELESS_11_24N | WIRELESS_11_5N),
++	WIRELESS_MODE_24G = (WIRELESS_11B | WIRELESS_11G | WIRELESS_11_24N),
++	WIRELESS_MODE_5G = (WIRELESS_11A | WIRELESS_11_5N | WIRELESS_11AC),
++	WIRELESS_MODE_MAX = (WIRELESS_11A | WIRELESS_11B | WIRELESS_11G | WIRELESS_11_24N | WIRELESS_11_5N | WIRELESS_11AC),
++};
++
++#define SUPPORTED_24G_NETTYPE_MSK WIRELESS_MODE_24G
++#define SUPPORTED_5G_NETTYPE_MSK WIRELESS_MODE_5G
++
++#define IsLegacyOnly(NetType)  ((NetType) == ((NetType) & (WIRELESS_11BG | WIRELESS_11A)))
++
++#define IsSupported24G(NetType) ((NetType) & SUPPORTED_24G_NETTYPE_MSK ? _TRUE : _FALSE)
++#define IsSupported5G(NetType) ((NetType) & SUPPORTED_5G_NETTYPE_MSK ? _TRUE : _FALSE)
++
++#define IsEnableHWCCK(NetType) IsSupported24G(NetType)
++#define IsEnableHWOFDM(NetType) ((NetType) & (WIRELESS_11G | WIRELESS_11_24N | SUPPORTED_5G_NETTYPE_MSK) ? _TRUE : _FALSE)
++
++#define IsSupportedRxCCK(NetType) IsEnableHWCCK(NetType)
++#define IsSupportedRxOFDM(NetType) IsEnableHWOFDM(NetType)
++#define IsSupportedRxHT(NetType) IsEnableHWOFDM(NetType)
++
++#define IsSupportedTxCCK(NetType) ((NetType) & (WIRELESS_11B) ? _TRUE : _FALSE)
++#define IsSupportedTxOFDM(NetType) ((NetType) & (WIRELESS_11G | WIRELESS_11A) ? _TRUE : _FALSE)
++#define IsSupportedHT(NetType) ((NetType) & (WIRELESS_11_24N | WIRELESS_11_5N) ? _TRUE : _FALSE)
++
++#define IsSupportedVHT(NetType) ((NetType) & (WIRELESS_11AC) ? _TRUE : _FALSE)
++
++
++typedef struct ieee_param {
++	u32 cmd;
++	u8 sta_addr[ETH_ALEN];
++	union {
++		struct {
++			u8 name;
++			u32 value;
++		} wpa_param;
++		struct {
++			u32 len;
++			u8 reserved[32];
++			u8 data[0];
++		} wpa_ie;
++		struct {
++			int command;
++			int reason_code;
++		} mlme;
++		struct {
++			u8 alg[IEEE_CRYPT_ALG_NAME_LEN];
++			u8 set_tx;
++			u32 err;
++			u8 idx;
++			u8 seq[8]; /* sequence counter (set: RX, get: TX) */
++			u16 key_len;
++			u8 key[0];
++		} crypt;
++#ifdef CONFIG_AP_MODE
++		struct {
++			u16 aid;
++			u16 capability;
++			int flags;
++			u8 tx_supp_rates[16];
++			struct rtw_ieee80211_ht_cap ht_cap;
++		} add_sta;
++		struct {
++			u8	reserved[2];/* for set max_num_sta */
++			u8	buf[0];
++		} bcn_ie;
++#endif
++
++	} u;
++} ieee_param;
++
++#ifdef CONFIG_AP_MODE
++typedef struct ieee_param_ex {
++	u32 cmd;
++	u8 sta_addr[ETH_ALEN];
++	u8 data[0];
++} ieee_param_ex;
++
++struct sta_data {
++	u16 aid;
++	u16 capability;
++	int flags;
++	u32 sta_set;
++	u8 tx_supp_rates[16];
++	u32 tx_supp_rates_len;
++	struct rtw_ieee80211_ht_cap ht_cap;
++	u64	rx_pkts;
++	u64	rx_bytes;
++	u64	rx_drops;
++	u64	tx_pkts;
++	u64	tx_bytes;
++	u64	tx_drops;
++};
++#endif
++
++
++#if WIRELESS_EXT < 17
++	#define IW_QUAL_QUAL_INVALID   0x10
++	#define IW_QUAL_LEVEL_INVALID  0x20
++	#define IW_QUAL_NOISE_INVALID  0x40
++	#define IW_QUAL_QUAL_UPDATED   0x1
++	#define IW_QUAL_LEVEL_UPDATED  0x2
++	#define IW_QUAL_NOISE_UPDATED  0x4
++#endif
++
++#define IEEE80211_DATA_LEN		2304
++/* Maximum size for the MA-UNITDATA primitive, 802.11 standard section
++   6.2.1.1.2.
++
++   The figure in section 7.1.2 suggests a body size of up to 2312
++   bytes is allowed, which is a bit confusing, I suspect this
++   represents the 2304 bytes of real data, plus a possible 8 bytes of
++   WEP IV and ICV. (this interpretation suggested by Ramiro Barreiro) */
++
++
++#define IEEE80211_HLEN			30
++#define IEEE80211_FRAME_LEN		(IEEE80211_DATA_LEN + IEEE80211_HLEN)
++
++
++/* this is stolen from ipw2200 driver */
++#define IEEE_IBSS_MAC_HASH_SIZE 31
++
++struct ieee_ibss_seq {
++	u8 mac[ETH_ALEN];
++	u16 seq_num;
++	u16 frag_num;
++	unsigned long packet_time;
++	_list	list;
++};
++
++#if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8711FW) || defined(PLATFORM_FREEBSD)
++
++struct rtw_ieee80211_hdr {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[ETH_ALEN];
++	u8 addr2[ETH_ALEN];
++	u8 addr3[ETH_ALEN];
++	u16 seq_ctl;
++	u8 addr4[ETH_ALEN];
++} __attribute__((packed));
++
++struct rtw_ieee80211_hdr_3addr {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[ETH_ALEN];
++	u8 addr2[ETH_ALEN];
++	u8 addr3[ETH_ALEN];
++	u16 seq_ctl;
++} __attribute__((packed));
++
++
++struct rtw_ieee80211_hdr_qos {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[ETH_ALEN];
++	u8 addr2[ETH_ALEN];
++	u8 addr3[ETH_ALEN];
++	u16 seq_ctl;
++	u8 addr4[ETH_ALEN];
++	u16	qc;
++}  __attribute__((packed));
++
++struct rtw_ieee80211_hdr_3addr_qos {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[ETH_ALEN];
++	u8 addr2[ETH_ALEN];
++	u8 addr3[ETH_ALEN];
++	u16 seq_ctl;
++	u16     qc;
++}  __attribute__((packed));
++
++struct eapol {
++	u8 snap[6];
++	u16 ethertype;
++	u8 version;
++	u8 type;
++	u16 length;
++} __attribute__((packed));
++
++#endif
++
++
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++struct rtw_ieee80211_hdr {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[ETH_ALEN];
++	u8 addr2[ETH_ALEN];
++	u8 addr3[ETH_ALEN];
++	u16 seq_ctl;
++	u8 addr4[ETH_ALEN];
++};
++
++struct rtw_ieee80211_hdr_3addr {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[ETH_ALEN];
++	u8 addr2[ETH_ALEN];
++	u8 addr3[ETH_ALEN];
++	u16 seq_ctl;
++};
++
++
++struct rtw_ieee80211_hdr_qos {
++	struct rtw_ieee80211_hdr wlan_hdr;
++	u16	qc;
++};
++
++struct rtw_ieee80211_hdr_3addr_qos {
++	struct  rtw_ieee80211_hdr_3addr wlan_hdr;
++	u16     qc;
++};
++
++struct eapol {
++	u8 snap[6];
++	u16 ethertype;
++	u8 version;
++	u8 type;
++	u16 length;
++};
++#pragma pack()
++
++#endif
++
++
++
++enum eap_type {
++	EAP_PACKET = 0,
++	EAPOL_START,
++	EAPOL_LOGOFF,
++	EAPOL_KEY,
++	EAPOL_ENCAP_ASF_ALERT
++};
++
++#define IEEE80211_3ADDR_LEN 24
++#define IEEE80211_4ADDR_LEN 30
++#define IEEE80211_FCS_LEN    4
++
++#define MIN_FRAG_THRESHOLD     256U
++#define	MAX_FRAG_THRESHOLD     2346U
++
++/* Frame control field constants */
++#define RTW_IEEE80211_FCTL_VERS		0x0003
++#define RTW_IEEE80211_FCTL_FTYPE		0x000c
++#define RTW_IEEE80211_FCTL_STYPE		0x00f0
++#define RTW_IEEE80211_FCTL_TODS		0x0100
++#define RTW_IEEE80211_FCTL_FROMDS	0x0200
++#define RTW_IEEE80211_FCTL_MOREFRAGS	0x0400
++#define RTW_IEEE80211_FCTL_RETRY		0x0800
++#define RTW_IEEE80211_FCTL_PM		0x1000
++#define RTW_IEEE80211_FCTL_MOREDATA	0x2000
++#define RTW_IEEE80211_FCTL_PROTECTED	0x4000
++#define RTW_IEEE80211_FCTL_ORDER		0x8000
++#define RTW_IEEE80211_FCTL_CTL_EXT	0x0f00
++
++#define RTW_IEEE80211_FTYPE_MGMT		0x0000
++#define RTW_IEEE80211_FTYPE_CTL		0x0004
++#define RTW_IEEE80211_FTYPE_DATA		0x0008
++#define RTW_IEEE80211_FTYPE_EXT		0x000c
++
++/* management */
++#define RTW_IEEE80211_STYPE_ASSOC_REQ	0x0000
++#define RTW_IEEE80211_STYPE_ASSOC_RESP	0x0010
++#define RTW_IEEE80211_STYPE_REASSOC_REQ	0x0020
++#define RTW_IEEE80211_STYPE_REASSOC_RESP	0x0030
++#define RTW_IEEE80211_STYPE_PROBE_REQ	0x0040
++#define RTW_IEEE80211_STYPE_PROBE_RESP	0x0050
++#define RTW_IEEE80211_STYPE_BEACON		0x0080
++#define RTW_IEEE80211_STYPE_ATIM		0x0090
++#define RTW_IEEE80211_STYPE_DISASSOC	0x00A0
++#define RTW_IEEE80211_STYPE_AUTH		0x00B0
++#define RTW_IEEE80211_STYPE_DEAUTH		0x00C0
++#define RTW_IEEE80211_STYPE_ACTION		0x00D0
++
++/* control */
++#define RTW_IEEE80211_STYPE_CTL_EXT		0x0060
++#define RTW_IEEE80211_STYPE_BACK_REQ		0x0080
++#define RTW_IEEE80211_STYPE_BACK		0x0090
++#define RTW_IEEE80211_STYPE_PSPOLL		0x00A0
++#define RTW_IEEE80211_STYPE_RTS		0x00B0
++#define RTW_IEEE80211_STYPE_CTS		0x00C0
++#define RTW_IEEE80211_STYPE_ACK		0x00D0
++#define RTW_IEEE80211_STYPE_CFEND		0x00E0
++#define RTW_IEEE80211_STYPE_CFENDACK		0x00F0
++
++/* data */
++#define RTW_IEEE80211_STYPE_DATA		0x0000
++#define RTW_IEEE80211_STYPE_DATA_CFACK	0x0010
++#define RTW_IEEE80211_STYPE_DATA_CFPOLL	0x0020
++#define RTW_IEEE80211_STYPE_DATA_CFACKPOLL	0x0030
++#define RTW_IEEE80211_STYPE_NULLFUNC	0x0040
++#define RTW_IEEE80211_STYPE_CFACK		0x0050
++#define RTW_IEEE80211_STYPE_CFPOLL		0x0060
++#define RTW_IEEE80211_STYPE_CFACKPOLL	0x0070
++#define RTW_IEEE80211_STYPE_QOS_DATA		0x0080
++#define RTW_IEEE80211_STYPE_QOS_DATA_CFACK		0x0090
++#define RTW_IEEE80211_STYPE_QOS_DATA_CFPOLL		0x00A0
++#define RTW_IEEE80211_STYPE_QOS_DATA_CFACKPOLL	0x00B0
++#define RTW_IEEE80211_STYPE_QOS_NULLFUNC	0x00C0
++#define RTW_IEEE80211_STYPE_QOS_CFACK		0x00D0
++#define RTW_IEEE80211_STYPE_QOS_CFPOLL		0x00E0
++#define RTW_IEEE80211_STYPE_QOS_CFACKPOLL	0x00F0
++
++/* sequence control field */
++#define RTW_IEEE80211_SCTL_FRAG	0x000F
++#define RTW_IEEE80211_SCTL_SEQ	0xFFF0
++
++
++#define RTW_ERP_INFO_NON_ERP_PRESENT BIT(0)
++#define RTW_ERP_INFO_USE_PROTECTION BIT(1)
++#define RTW_ERP_INFO_BARKER_PREAMBLE_MODE BIT(2)
++
++/* QoS,QOS */
++#define NORMAL_ACK			0
++#define NO_ACK				1
++#define NON_EXPLICIT_ACK	2
++#define BLOCK_ACK			3
++
++#ifndef ETH_P_PAE
++	#define ETH_P_PAE 0x888E /* Port Access Entity (IEEE 802.1X) */
++#endif /* ETH_P_PAE */
++
++#define ETH_P_PREAUTH 0x88C7 /* IEEE 802.11i pre-authentication */
++
++#define ETH_P_ECONET	0x0018
++
++#ifndef ETH_P_80211_RAW
++	#define ETH_P_80211_RAW (ETH_P_ECONET + 1)
++#endif
++
++/* IEEE 802.11 defines */
++
++#define P80211_OUI_LEN 3
++
++#if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8711FW) || defined(PLATFORM_FREEBSD)
++
++struct ieee80211_snap_hdr {
++
++	u8    dsap;   /* always 0xAA */
++	u8    ssap;   /* always 0xAA */
++	u8    ctrl;   /* always 0x03 */
++	u8    oui[P80211_OUI_LEN];    /* organizational universal id */
++
++} __attribute__((packed));
++
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++struct ieee80211_snap_hdr {
++
++	u8    dsap;   /* always 0xAA */
++	u8    ssap;   /* always 0xAA */
++	u8    ctrl;   /* always 0x03 */
++	u8    oui[P80211_OUI_LEN];    /* organizational universal id */
++
++};
++#pragma pack()
++
++#endif
++
++
++#define SNAP_SIZE sizeof(struct ieee80211_snap_hdr)
++
++#define WLAN_FC_GET_TYPE(fc) ((fc) & RTW_IEEE80211_FCTL_FTYPE)
++#define WLAN_FC_GET_STYPE(fc) ((fc) & RTW_IEEE80211_FCTL_STYPE)
++
++#define WLAN_QC_GET_TID(qc) ((qc) & 0x0f)
++
++#define WLAN_GET_SEQ_FRAG(seq) ((seq) & RTW_IEEE80211_SCTL_FRAG)
++#define WLAN_GET_SEQ_SEQ(seq)  ((seq) & RTW_IEEE80211_SCTL_SEQ)
++
++/* Authentication algorithms */
++#define WLAN_AUTH_OPEN 0
++#define WLAN_AUTH_SHARED_KEY 1
++
++#define WLAN_AUTH_CHALLENGE_LEN 128
++
++#define WLAN_CAPABILITY_BSS (1<<0)
++#define WLAN_CAPABILITY_IBSS (1<<1)
++#define WLAN_CAPABILITY_CF_POLLABLE (1<<2)
++#define WLAN_CAPABILITY_CF_POLL_REQUEST (1<<3)
++#define WLAN_CAPABILITY_PRIVACY (1<<4)
++#define WLAN_CAPABILITY_SHORT_PREAMBLE (1<<5)
++#define WLAN_CAPABILITY_PBCC (1<<6)
++#define WLAN_CAPABILITY_CHANNEL_AGILITY (1<<7)
++#define WLAN_CAPABILITY_SHORT_SLOT (1<<10)
++
++/* Status codes */
++#define WLAN_STATUS_SUCCESS 0
++#define WLAN_STATUS_UNSPECIFIED_FAILURE 1
++#define WLAN_STATUS_CAPS_UNSUPPORTED 10
++#define WLAN_STATUS_REASSOC_NO_ASSOC 11
++#define WLAN_STATUS_ASSOC_DENIED_UNSPEC 12
++#define WLAN_STATUS_NOT_SUPPORTED_AUTH_ALG 13
++#define WLAN_STATUS_UNKNOWN_AUTH_TRANSACTION 14
++#define WLAN_STATUS_CHALLENGE_FAIL 15
++#define WLAN_STATUS_AUTH_TIMEOUT 16
++#define WLAN_STATUS_AP_UNABLE_TO_HANDLE_NEW_STA 17
++#define WLAN_STATUS_ASSOC_DENIED_RATES 18
++/* 802.11b */
++#define WLAN_STATUS_ASSOC_DENIED_NOSHORT 19
++#define WLAN_STATUS_ASSOC_DENIED_NOPBCC 20
++#define WLAN_STATUS_ASSOC_DENIED_NOAGILITY 21
++
++/* Reason codes */
++#define WLAN_REASON_UNSPECIFIED 1
++#define WLAN_REASON_PREV_AUTH_NOT_VALID 2
++#define WLAN_REASON_DEAUTH_LEAVING 3
++#define WLAN_REASON_DISASSOC_DUE_TO_INACTIVITY 4
++#define WLAN_REASON_DISASSOC_AP_BUSY 5
++#define WLAN_REASON_CLASS2_FRAME_FROM_NONAUTH_STA 6
++#define WLAN_REASON_CLASS3_FRAME_FROM_NONASSOC_STA 7
++#define WLAN_REASON_DISASSOC_STA_HAS_LEFT 8
++#define WLAN_REASON_STA_REQ_ASSOC_WITHOUT_AUTH 9
++#define WLAN_REASON_ACTIVE_ROAM 65533
++#define WLAN_REASON_JOIN_WRONG_CHANNEL       65534
++#define WLAN_REASON_EXPIRATION_CHK 65535
++
++/* Information Element IDs */
++#define WLAN_EID_SSID 0
++#define WLAN_EID_SUPP_RATES 1
++#define WLAN_EID_FH_PARAMS 2
++#define WLAN_EID_DS_PARAMS 3
++#define WLAN_EID_CF_PARAMS 4
++#define WLAN_EID_TIM 5
++#define WLAN_EID_IBSS_PARAMS 6
++#define WLAN_EID_CHALLENGE 16
++/* EIDs defined by IEEE 802.11h - START */
++#define WLAN_EID_PWR_CONSTRAINT 32
++#define WLAN_EID_PWR_CAPABILITY 33
++#define WLAN_EID_TPC_REQUEST 34
++#define WLAN_EID_TPC_REPORT 35
++#define WLAN_EID_SUPPORTED_CHANNELS 36
++#define WLAN_EID_CHANNEL_SWITCH 37
++#define WLAN_EID_MEASURE_REQUEST 38
++#define WLAN_EID_MEASURE_REPORT 39
++#define WLAN_EID_QUITE 40
++#define WLAN_EID_IBSS_DFS 41
++/* EIDs defined by IEEE 802.11h - END */
++#define WLAN_EID_ERP_INFO 42
++#define WLAN_EID_HT_CAP 45
++#define WLAN_EID_RSN 48
++#define WLAN_EID_EXT_SUPP_RATES 50
++#define WLAN_EID_MOBILITY_DOMAIN 54
++#define WLAN_EID_FAST_BSS_TRANSITION 55
++#define WLAN_EID_TIMEOUT_INTERVAL 56
++#define WLAN_EID_RIC_DATA 57
++#define WLAN_EID_HT_OPERATION 61
++#define WLAN_EID_SECONDARY_CHANNEL_OFFSET 62
++#define WLAN_EID_20_40_BSS_COEXISTENCE 72
++#define WLAN_EID_20_40_BSS_INTOLERANT 73
++#define WLAN_EID_OVERLAPPING_BSS_SCAN_PARAMS 74
++#define WLAN_EID_MMIE 76
++#define WLAN_EID_VENDOR_SPECIFIC 221
++#define WLAN_EID_GENERIC (WLAN_EID_VENDOR_SPECIFIC)
++#define WLAN_EID_VHT_CAPABILITY 191
++#define WLAN_EID_VHT_OPERATION 192
++#define WLAN_EID_VHT_OP_MODE_NOTIFY 199
++
++#define IEEE80211_MGMT_HDR_LEN 24
++#define IEEE80211_DATA_HDR3_LEN 24
++#define IEEE80211_DATA_HDR4_LEN 30
++
++
++#define IEEE80211_STATMASK_SIGNAL (1<<0)
++#define IEEE80211_STATMASK_RSSI (1<<1)
++#define IEEE80211_STATMASK_NOISE (1<<2)
++#define IEEE80211_STATMASK_RATE (1<<3)
++#define IEEE80211_STATMASK_WEMASK 0x7
++
++
++#define IEEE80211_CCK_MODULATION    (1<<0)
++#define IEEE80211_OFDM_MODULATION   (1<<1)
++
++#define IEEE80211_24GHZ_BAND     (1<<0)
++#define IEEE80211_52GHZ_BAND     (1<<1)
++
++#define IEEE80211_CCK_RATE_LEN		4
++#define IEEE80211_NUM_OFDM_RATESLEN	8
++
++
++#define IEEE80211_CCK_RATE_1MB		        0x02
++#define IEEE80211_CCK_RATE_2MB		        0x04
++#define IEEE80211_CCK_RATE_5MB		        0x0B
++#define IEEE80211_CCK_RATE_11MB		        0x16
++#define IEEE80211_OFDM_RATE_LEN		8
++#define IEEE80211_OFDM_RATE_6MB		        0x0C
++#define IEEE80211_OFDM_RATE_9MB		        0x12
++#define IEEE80211_OFDM_RATE_12MB		0x18
++#define IEEE80211_OFDM_RATE_18MB		0x24
++#define IEEE80211_OFDM_RATE_24MB		0x30
++#define IEEE80211_OFDM_RATE_36MB		0x48
++#define IEEE80211_OFDM_RATE_48MB		0x60
++#define IEEE80211_OFDM_RATE_54MB		0x6C
++#define IEEE80211_BASIC_RATE_MASK		0x80
++
++#define IEEE80211_CCK_RATE_1MB_MASK		(1<<0)
++#define IEEE80211_CCK_RATE_2MB_MASK		(1<<1)
++#define IEEE80211_CCK_RATE_5MB_MASK		(1<<2)
++#define IEEE80211_CCK_RATE_11MB_MASK		(1<<3)
++#define IEEE80211_OFDM_RATE_6MB_MASK		(1<<4)
++#define IEEE80211_OFDM_RATE_9MB_MASK		(1<<5)
++#define IEEE80211_OFDM_RATE_12MB_MASK		(1<<6)
++#define IEEE80211_OFDM_RATE_18MB_MASK		(1<<7)
++#define IEEE80211_OFDM_RATE_24MB_MASK		(1<<8)
++#define IEEE80211_OFDM_RATE_36MB_MASK		(1<<9)
++#define IEEE80211_OFDM_RATE_48MB_MASK		(1<<10)
++#define IEEE80211_OFDM_RATE_54MB_MASK		(1<<11)
++
++#define IEEE80211_CCK_RATES_MASK	        0x0000000F
++#define IEEE80211_CCK_BASIC_RATES_MASK	(IEEE80211_CCK_RATE_1MB_MASK | \
++		IEEE80211_CCK_RATE_2MB_MASK)
++#define IEEE80211_CCK_DEFAULT_RATES_MASK	(IEEE80211_CCK_BASIC_RATES_MASK | \
++		IEEE80211_CCK_RATE_5MB_MASK | \
++		IEEE80211_CCK_RATE_11MB_MASK)
++
++#define IEEE80211_OFDM_RATES_MASK		0x00000FF0
++#define IEEE80211_OFDM_BASIC_RATES_MASK	(IEEE80211_OFDM_RATE_6MB_MASK | \
++		IEEE80211_OFDM_RATE_12MB_MASK | \
++		IEEE80211_OFDM_RATE_24MB_MASK)
++#define IEEE80211_OFDM_DEFAULT_RATES_MASK	(IEEE80211_OFDM_BASIC_RATES_MASK | \
++		IEEE80211_OFDM_RATE_9MB_MASK  | \
++		IEEE80211_OFDM_RATE_18MB_MASK | \
++		IEEE80211_OFDM_RATE_36MB_MASK | \
++		IEEE80211_OFDM_RATE_48MB_MASK | \
++		IEEE80211_OFDM_RATE_54MB_MASK)
++#define IEEE80211_DEFAULT_RATES_MASK (IEEE80211_OFDM_DEFAULT_RATES_MASK | \
++				      IEEE80211_CCK_DEFAULT_RATES_MASK)
++
++#define IEEE80211_NUM_OFDM_RATES	    8
++#define IEEE80211_NUM_CCK_RATES	            4
++#define IEEE80211_OFDM_SHIFT_MASK_A         4
++
++
++enum MGN_RATE {
++	MGN_1M		= 0x02,
++	MGN_2M		= 0x04,
++	MGN_5_5M	= 0x0B,
++	MGN_6M		= 0x0C,
++	MGN_9M		= 0x12,
++	MGN_11M	= 0x16,
++	MGN_12M	= 0x18,
++	MGN_18M	= 0x24,
++	MGN_24M	= 0x30,
++	MGN_36M	= 0x48,
++	MGN_48M	= 0x60,
++	MGN_54M	= 0x6C,
++	MGN_MCS32	= 0x7F,
++	MGN_MCS0,
++	MGN_MCS1,
++	MGN_MCS2,
++	MGN_MCS3,
++	MGN_MCS4,
++	MGN_MCS5,
++	MGN_MCS6,
++	MGN_MCS7,
++	MGN_MCS8,
++	MGN_MCS9,
++	MGN_MCS10,
++	MGN_MCS11,
++	MGN_MCS12,
++	MGN_MCS13,
++	MGN_MCS14,
++	MGN_MCS15,
++	MGN_MCS16,
++	MGN_MCS17,
++	MGN_MCS18,
++	MGN_MCS19,
++	MGN_MCS20,
++	MGN_MCS21,
++	MGN_MCS22,
++	MGN_MCS23,
++	MGN_MCS24,
++	MGN_MCS25,
++	MGN_MCS26,
++	MGN_MCS27,
++	MGN_MCS28,
++	MGN_MCS29,
++	MGN_MCS30,
++	MGN_MCS31,
++	MGN_VHT1SS_MCS0,
++	MGN_VHT1SS_MCS1,
++	MGN_VHT1SS_MCS2,
++	MGN_VHT1SS_MCS3,
++	MGN_VHT1SS_MCS4,
++	MGN_VHT1SS_MCS5,
++	MGN_VHT1SS_MCS6,
++	MGN_VHT1SS_MCS7,
++	MGN_VHT1SS_MCS8,
++	MGN_VHT1SS_MCS9,
++	MGN_VHT2SS_MCS0,
++	MGN_VHT2SS_MCS1,
++	MGN_VHT2SS_MCS2,
++	MGN_VHT2SS_MCS3,
++	MGN_VHT2SS_MCS4,
++	MGN_VHT2SS_MCS5,
++	MGN_VHT2SS_MCS6,
++	MGN_VHT2SS_MCS7,
++	MGN_VHT2SS_MCS8,
++	MGN_VHT2SS_MCS9,
++	MGN_VHT3SS_MCS0,
++	MGN_VHT3SS_MCS1,
++	MGN_VHT3SS_MCS2,
++	MGN_VHT3SS_MCS3,
++	MGN_VHT3SS_MCS4,
++	MGN_VHT3SS_MCS5,
++	MGN_VHT3SS_MCS6,
++	MGN_VHT3SS_MCS7,
++	MGN_VHT3SS_MCS8,
++	MGN_VHT3SS_MCS9,
++	MGN_VHT4SS_MCS0,
++	MGN_VHT4SS_MCS1,
++	MGN_VHT4SS_MCS2,
++	MGN_VHT4SS_MCS3,
++	MGN_VHT4SS_MCS4,
++	MGN_VHT4SS_MCS5,
++	MGN_VHT4SS_MCS6,
++	MGN_VHT4SS_MCS7,
++	MGN_VHT4SS_MCS8,
++	MGN_VHT4SS_MCS9,
++	MGN_UNKNOWN
++};
++
++#define IS_HT_RATE(_rate)	((_rate) >= MGN_MCS0 && (_rate) <= MGN_MCS31)
++#define IS_VHT_RATE(_rate)	((_rate) >= MGN_VHT1SS_MCS0 && (_rate) <= MGN_VHT4SS_MCS9)
++#define IS_CCK_RATE(_rate)	((_rate) == MGN_1M || (_rate) == MGN_2M || (_rate) == MGN_5_5M || (_rate) == MGN_11M)
++#define IS_OFDM_RATE(_rate)	((_rate) >= MGN_6M && (_rate) <= MGN_54M  && (_rate) != MGN_11M)
++
++#define IS_HT1SS_RATE(_rate) ((_rate) >= MGN_MCS0 && (_rate) <= MGN_MCS7)
++#define IS_HT2SS_RATE(_rate) ((_rate) >= MGN_MCS8 && (_rate) <= MGN_MCS15)
++#define IS_HT3SS_RATE(_rate) ((_rate) >= MGN_MCS16 && (_rate) <= MGN_MCS23)
++#define IS_HT4SS_RATE(_rate) ((_rate) >= MGN_MCS24 && (_rate) <= MGN_MCS31)
++
++#define IS_VHT1SS_RATE(_rate) ((_rate) >= MGN_VHT1SS_MCS0 && (_rate) <= MGN_VHT1SS_MCS9)
++#define IS_VHT2SS_RATE(_rate) ((_rate) >= MGN_VHT2SS_MCS0 && (_rate) <= MGN_VHT2SS_MCS9)
++#define IS_VHT3SS_RATE(_rate) ((_rate) >= MGN_VHT3SS_MCS0 && (_rate) <= MGN_VHT3SS_MCS9)
++#define IS_VHT4SS_RATE(_rate) ((_rate) >= MGN_VHT4SS_MCS0 && (_rate) <= MGN_VHT4SS_MCS9)
++
++#define IS_1T_RATE(_rate)	(IS_CCK_RATE((_rate)) || IS_OFDM_RATE((_rate)) || IS_HT1SS_RATE((_rate)) || IS_VHT1SS_RATE((_rate)))
++#define IS_2T_RATE(_rate)	(IS_HT2SS_RATE((_rate)) || IS_VHT2SS_RATE((_rate)))
++#define IS_3T_RATE(_rate)	(IS_HT3SS_RATE((_rate)) || IS_VHT3SS_RATE((_rate)))
++#define IS_4T_RATE(_rate)	(IS_HT4SS_RATE((_rate)) || IS_VHT4SS_RATE((_rate)))
++
++#define MGN_RATE_STR(_rate) \
++	(_rate == MGN_1M) ? "CCK_1M" : \
++	(_rate == MGN_2M) ? "CCK_2M" : \
++	(_rate == MGN_5_5M) ? "CCK_5.5M" : \
++	(_rate == MGN_11M) ? "CCK_11M" : \
++	(_rate == MGN_6M) ? "OFDM_6M" : \
++	(_rate == MGN_9M) ? "OFDM_9M" : \
++	(_rate == MGN_12M) ? "OFDM_12M" : \
++	(_rate == MGN_18M) ? "OFDM_18M" : \
++	(_rate == MGN_24M) ? "OFDM_24M" : \
++	(_rate == MGN_36M) ? "OFDM_36M" : \
++	(_rate == MGN_48M) ? "OFDM_48M" : \
++	(_rate == MGN_54M) ? "OFDM_54M" : \
++	(_rate == MGN_MCS32) ? "MCS32" : \
++	(_rate == MGN_MCS0) ? "MCS0" : \
++	(_rate == MGN_MCS1) ? "MCS1" : \
++	(_rate == MGN_MCS2) ? "MCS2" : \
++	(_rate == MGN_MCS3) ? "MCS3" : \
++	(_rate == MGN_MCS4) ? "MCS4" : \
++	(_rate == MGN_MCS5) ? "MCS5" : \
++	(_rate == MGN_MCS6) ? "MCS6" : \
++	(_rate == MGN_MCS7) ? "MCS7" : \
++	(_rate == MGN_MCS8) ? "MCS8" : \
++	(_rate == MGN_MCS9) ? "MCS9" : \
++	(_rate == MGN_MCS10) ? "MCS10" : \
++	(_rate == MGN_MCS11) ? "MCS11" : \
++	(_rate == MGN_MCS12) ? "MCS12" : \
++	(_rate == MGN_MCS13) ? "MCS13" : \
++	(_rate == MGN_MCS14) ? "MCS14" : \
++	(_rate == MGN_MCS15) ? "MCS15" : \
++	(_rate == MGN_MCS16) ? "MCS16" : \
++	(_rate == MGN_MCS17) ? "MCS17" : \
++	(_rate == MGN_MCS18) ? "MCS18" : \
++	(_rate == MGN_MCS19) ? "MCS19" : \
++	(_rate == MGN_MCS20) ? "MCS20" : \
++	(_rate == MGN_MCS21) ? "MCS21" : \
++	(_rate == MGN_MCS22) ? "MCS22" : \
++	(_rate == MGN_MCS23) ? "MCS23" : \
++	(_rate == MGN_MCS24) ? "MCS24" : \
++	(_rate == MGN_MCS25) ? "MCS25" : \
++	(_rate == MGN_MCS26) ? "MCS26" : \
++	(_rate == MGN_MCS27) ? "MCS27" : \
++	(_rate == MGN_MCS28) ? "MCS28" : \
++	(_rate == MGN_MCS29) ? "MCS29" : \
++	(_rate == MGN_MCS30) ? "MCS30" : \
++	(_rate == MGN_MCS31) ? "MCS31" : \
++	(_rate == MGN_VHT1SS_MCS0) ? "VHT1SMCS0" : \
++	(_rate == MGN_VHT1SS_MCS1) ? "VHT1SMCS1" : \
++	(_rate == MGN_VHT1SS_MCS2) ? "VHT1SMCS2" : \
++	(_rate == MGN_VHT1SS_MCS3) ? "VHT1SMCS3" : \
++	(_rate == MGN_VHT1SS_MCS4) ? "VHT1SMCS4" : \
++	(_rate == MGN_VHT1SS_MCS5) ? "VHT1SMCS5" : \
++	(_rate == MGN_VHT1SS_MCS6) ? "VHT1SMCS6" : \
++	(_rate == MGN_VHT1SS_MCS7) ? "VHT1SMCS7" : \
++	(_rate == MGN_VHT1SS_MCS8) ? "VHT1SMCS8" : \
++	(_rate == MGN_VHT1SS_MCS9) ? "VHT1SMCS9" : \
++	(_rate == MGN_VHT2SS_MCS0) ? "VHT2SMCS0" : \
++	(_rate == MGN_VHT2SS_MCS1) ? "VHT2SMCS1" : \
++	(_rate == MGN_VHT2SS_MCS2) ? "VHT2SMCS2" : \
++	(_rate == MGN_VHT2SS_MCS3) ? "VHT2SMCS3" : \
++	(_rate == MGN_VHT2SS_MCS4) ? "VHT2SMCS4" : \
++	(_rate == MGN_VHT2SS_MCS5) ? "VHT2SMCS5" : \
++	(_rate == MGN_VHT2SS_MCS6) ? "VHT2SMCS6" : \
++	(_rate == MGN_VHT2SS_MCS7) ? "VHT2SMCS7" : \
++	(_rate == MGN_VHT2SS_MCS8) ? "VHT2SMCS8" : \
++	(_rate == MGN_VHT2SS_MCS9) ? "VHT2SMCS9" : \
++	(_rate == MGN_VHT3SS_MCS0) ? "VHT3SMCS0" : \
++	(_rate == MGN_VHT3SS_MCS1) ? "VHT3SMCS1" : \
++	(_rate == MGN_VHT3SS_MCS2) ? "VHT3SMCS2" : \
++	(_rate == MGN_VHT3SS_MCS3) ? "VHT3SMCS3" : \
++	(_rate == MGN_VHT3SS_MCS4) ? "VHT3SMCS4" : \
++	(_rate == MGN_VHT3SS_MCS5) ? "VHT3SMCS5" : \
++	(_rate == MGN_VHT3SS_MCS6) ? "VHT3SMCS6" : \
++	(_rate == MGN_VHT3SS_MCS7) ? "VHT3SMCS7" : \
++	(_rate == MGN_VHT3SS_MCS8) ? "VHT3SMCS8" : \
++	(_rate == MGN_VHT3SS_MCS9) ? "VHT3SMCS9" : \
++	(_rate == MGN_VHT4SS_MCS0) ? "VHT4SMCS0" : \
++	(_rate == MGN_VHT4SS_MCS1) ? "VHT4SMCS1" : \
++	(_rate == MGN_VHT4SS_MCS2) ? "VHT4SMCS2" : \
++	(_rate == MGN_VHT4SS_MCS3) ? "VHT4SMCS3" : \
++	(_rate == MGN_VHT4SS_MCS4) ? "VHT4SMCS4" : \
++	(_rate == MGN_VHT4SS_MCS5) ? "VHT4SMCS5" : \
++	(_rate == MGN_VHT4SS_MCS6) ? "VHT4SMCS6" : \
++	(_rate == MGN_VHT4SS_MCS7) ? "VHT4SMCS7" : \
++	(_rate == MGN_VHT4SS_MCS8) ? "VHT4SMCS8" : \
++	(_rate == MGN_VHT4SS_MCS9) ? "VHT4SMCS9" : "UNKNOWN"
++
++typedef enum _RATE_SECTION {
++	CCK = 0,
++	OFDM = 1,
++	HT_MCS0_MCS7 = 2,
++	HT_MCS8_MCS15 = 3,
++	HT_MCS16_MCS23 = 4,
++	HT_MCS24_MCS31 = 5,
++	HT_1SS = HT_MCS0_MCS7,
++	HT_2SS = HT_MCS8_MCS15,
++	HT_3SS = HT_MCS16_MCS23,
++	HT_4SS = HT_MCS24_MCS31,
++	VHT_1SSMCS0_1SSMCS9 = 6,
++	VHT_2SSMCS0_2SSMCS9 = 7,
++	VHT_3SSMCS0_3SSMCS9 = 8,
++	VHT_4SSMCS0_4SSMCS9 = 9,
++	VHT_1SS = VHT_1SSMCS0_1SSMCS9,
++	VHT_2SS = VHT_2SSMCS0_2SSMCS9,
++	VHT_3SS = VHT_3SSMCS0_3SSMCS9,
++	VHT_4SS = VHT_4SSMCS0_4SSMCS9,
++	RATE_SECTION_NUM,
++} RATE_SECTION;
++
++const char *rate_section_str(u8 section);
++
++#define IS_CCK_RATE_SECTION(section) ((section) == CCK)
++#define IS_OFDM_RATE_SECTION(section) ((section) == OFDM)
++#define IS_HT_RATE_SECTION(section) ((section) >= HT_1SS && (section) <= HT_4SS)
++#define IS_VHT_RATE_SECTION(section) ((section) >= VHT_1SS && (section) <= VHT_4SS)
++
++#define IS_1T_RATE_SECTION(section) ((section) == CCK || (section) == OFDM || (section) == HT_1SS || (section) == VHT_1SS)
++#define IS_2T_RATE_SECTION(section) ((section) == HT_2SS || (section) == VHT_2SS)
++#define IS_3T_RATE_SECTION(section) ((section) == HT_3SS || (section) == VHT_3SS)
++#define IS_4T_RATE_SECTION(section) ((section) == HT_4SS || (section) == VHT_4SS)
++
++extern u8 mgn_rates_cck[];
++extern u8 mgn_rates_ofdm[];
++extern u8 mgn_rates_mcs0_7[];
++extern u8 mgn_rates_mcs8_15[];
++extern u8 mgn_rates_mcs16_23[];
++extern u8 mgn_rates_mcs24_31[];
++extern u8 mgn_rates_vht1ss[];
++extern u8 mgn_rates_vht2ss[];
++extern u8 mgn_rates_vht3ss[];
++extern u8 mgn_rates_vht4ss[];
++
++struct rate_section_ent {
++	u8 tx_num; /* value of RF_TX_NUM */
++	u8 rate_num;
++	u8 *rates;
++};
++
++extern struct rate_section_ent rates_by_sections[];
++
++#define rate_section_to_tx_num(section) (rates_by_sections[(section)].tx_num)
++#define rate_section_rate_num(section) (rates_by_sections[(section)].rate_num)
++
++/* NOTE: This data is for statistical purposes; not all hardware provides this
++ *       information for frames received.  Not setting these will not cause
++ *       any adverse affects. */
++struct ieee80211_rx_stats {
++	/* u32 mac_time[2]; */
++	s8 rssi;
++	u8 signal;
++	u8 noise;
++	u8 received_channel;
++	u16 rate; /* in 100 kbps */
++	/* u8 control; */
++	u8 mask;
++	u8 freq;
++	u16 len;
++};
++
++/* IEEE 802.11 requires that STA supports concurrent reception of at least
++ * three fragmented frames. This define can be increased to support more
++ * concurrent frames, but it should be noted that each entry can consume about
++ * 2 kB of RAM and increasing cache size will slow down frame reassembly. */
++#define IEEE80211_FRAG_CACHE_LEN 4
++
++struct ieee80211_frag_entry {
++	u32 first_frag_time;
++	uint seq;
++	uint last_frag;
++	uint qos;   /* jackson */
++	uint tid;	/* jackson */
++	struct sk_buff *skb;
++	u8 src_addr[ETH_ALEN];
++	u8 dst_addr[ETH_ALEN];
++};
++
++#ifndef PLATFORM_FREEBSD /* Baron BSD has already defined */
++struct ieee80211_stats {
++	uint tx_unicast_frames;
++	uint tx_multicast_frames;
++	uint tx_fragments;
++	uint tx_unicast_octets;
++	uint tx_multicast_octets;
++	uint tx_deferred_transmissions;
++	uint tx_single_retry_frames;
++	uint tx_multiple_retry_frames;
++	uint tx_retry_limit_exceeded;
++	uint tx_discards;
++	uint rx_unicast_frames;
++	uint rx_multicast_frames;
++	uint rx_fragments;
++	uint rx_unicast_octets;
++	uint rx_multicast_octets;
++	uint rx_fcs_errors;
++	uint rx_discards_no_buffer;
++	uint tx_discards_wrong_sa;
++	uint rx_discards_undecryptable;
++	uint rx_message_in_msg_fragments;
++	uint rx_message_in_bad_msg_fragments;
++};
++#endif /* PLATFORM_FREEBSD */
++struct ieee80211_softmac_stats {
++	uint rx_ass_ok;
++	uint rx_ass_err;
++	uint rx_probe_rq;
++	uint tx_probe_rs;
++	uint tx_beacons;
++	uint rx_auth_rq;
++	uint rx_auth_rs_ok;
++	uint rx_auth_rs_err;
++	uint tx_auth_rq;
++	uint no_auth_rs;
++	uint no_ass_rs;
++	uint tx_ass_rq;
++	uint rx_ass_rq;
++	uint tx_probe_rq;
++	uint reassoc;
++	uint swtxstop;
++	uint swtxawake;
++};
++
++#define SEC_KEY_1         (1<<0)
++#define SEC_KEY_2         (1<<1)
++#define SEC_KEY_3         (1<<2)
++#define SEC_KEY_4         (1<<3)
++#define SEC_ACTIVE_KEY    (1<<4)
++#define SEC_AUTH_MODE     (1<<5)
++#define SEC_UNICAST_GROUP (1<<6)
++#define SEC_LEVEL         (1<<7)
++#define SEC_ENABLED       (1<<8)
++
++#define SEC_LEVEL_0      0 /* None */
++#define SEC_LEVEL_1      1 /* WEP 40 and 104 bit */
++#define SEC_LEVEL_2      2 /* Level 1 + TKIP */
++#define SEC_LEVEL_2_CKIP 3 /* Level 1 + CKIP */
++#define SEC_LEVEL_3      4 /* Level 2 + CCMP */
++
++#define WEP_KEYS 4
++#define WEP_KEY_LEN 13
++
++#ifdef CONFIG_IEEE80211W
++	#define BIP_MAX_KEYID 5
++	#define BIP_AAD_SIZE  20
++#endif /* CONFIG_IEEE80211W */
++
++#if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8711FW)
++
++struct ieee80211_security {
++	u16 active_key:2,
++	    enabled:1,
++	    auth_mode:2,
++	    auth_algo:4,
++	    unicast_uses_group:1;
++	u8 key_sizes[WEP_KEYS];
++	u8 keys[WEP_KEYS][WEP_KEY_LEN];
++	u8 level;
++	u16 flags;
++} __attribute__((packed));
++
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++struct ieee80211_security {
++	u16 active_key:2,
++	    enabled:1,
++	    auth_mode:2,
++	    auth_algo:4,
++	    unicast_uses_group:1;
++	u8 key_sizes[WEP_KEYS];
++	u8 keys[WEP_KEYS][WEP_KEY_LEN];
++	u8 level;
++	u16 flags;
++} ;
++#pragma pack()
++
++#endif
++
++/*
++
++ 802.11 data frame from AP
++
++      ,-------------------------------------------------------------------.
++Bytes |  2   |  2   |    6    |    6    |    6    |  2   | 0..2312 |   4  |
++      |------|------|---------|---------|---------|------|---------|------|
++Desc. | ctrl | dura |  DA/RA  |   TA    |    SA   | Sequ |  frame  |  fcs |
++      |      | tion | (BSSID) |         |         | ence |  data   |      |
++      `-------------------------------------------------------------------'
++
++Total: 28-2340 bytes
++
++*/
++
++struct ieee80211_header_data {
++	u16 frame_ctl;
++	u16 duration_id;
++	u8 addr1[6];
++	u8 addr2[6];
++	u8 addr3[6];
++	u16 seq_ctrl;
++};
++
++#define BEACON_PROBE_SSID_ID_POSITION 12
++
++/* Management Frame Information Element Types */
++#define MFIE_TYPE_SSID       0
++#define MFIE_TYPE_RATES      1
++#define MFIE_TYPE_FH_SET     2
++#define MFIE_TYPE_DS_SET     3
++#define MFIE_TYPE_CF_SET     4
++#define MFIE_TYPE_TIM        5
++#define MFIE_TYPE_IBSS_SET   6
++#define MFIE_TYPE_CHALLENGE  16
++#define MFIE_TYPE_ERP        42
++#define MFIE_TYPE_RSN	     48
++#define MFIE_TYPE_RATES_EX   50
++#define MFIE_TYPE_GENERIC    221
++
++#if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8711FW)
++
++struct ieee80211_info_element_hdr {
++	u8 id;
++	u8 len;
++} __attribute__((packed));
++
++struct ieee80211_info_element {
++	u8 id;
++	u8 len;
++	u8 data[0];
++} __attribute__((packed));
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++struct ieee80211_info_element_hdr {
++	u8 id;
++	u8 len;
++} ;
++
++struct ieee80211_info_element {
++	u8 id;
++	u8 len;
++	u8 data[0];
++} ;
++#pragma pack()
++
++#endif
++
++
++/*
++ * These are the data types that can make up management packets
++ *
++	u16 auth_algorithm;
++	u16 auth_sequence;
++	u16 beacon_interval;
++	u16 capability;
++	u8 current_ap[ETH_ALEN];
++	u16 listen_interval;
++	struct {
++		u16 association_id:14, reserved:2;
++	} __attribute__ ((packed));
++	u32 time_stamp[2];
++	u16 reason;
++	u16 status;
++*/
++
++#define IEEE80211_DEFAULT_TX_ESSID "Penguin"
++#define IEEE80211_DEFAULT_BASIC_RATE 10
++
++
++#if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8711FW)
++
++
++struct ieee80211_authentication {
++	struct ieee80211_header_data header;
++	u16 algorithm;
++	u16 transaction;
++	u16 status;
++	/* struct ieee80211_info_element_hdr info_element; */
++} __attribute__((packed));
++
++
++struct ieee80211_probe_response {
++	struct ieee80211_header_data header;
++	u32 time_stamp[2];
++	u16 beacon_interval;
++	u16 capability;
++	struct ieee80211_info_element info_element;
++} __attribute__((packed));
++
++struct ieee80211_probe_request {
++	struct ieee80211_header_data header;
++	/*struct ieee80211_info_element info_element;*/
++} __attribute__((packed));
++
++struct ieee80211_assoc_request_frame {
++	struct rtw_ieee80211_hdr_3addr header;
++	u16 capability;
++	u16 listen_interval;
++	/* u8 current_ap[ETH_ALEN]; */
++	struct ieee80211_info_element_hdr info_element;
++} __attribute__((packed));
++
++struct ieee80211_assoc_response_frame {
++	struct rtw_ieee80211_hdr_3addr header;
++	u16 capability;
++	u16 status;
++	u16 aid;
++	/*	struct ieee80211_info_element info_element;  supported rates  */
++} __attribute__((packed));
++#endif
++
++
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++
++struct ieee80211_authentication {
++	struct ieee80211_header_data header;
++	u16 algorithm;
++	u16 transaction;
++	u16 status;
++	/* struct ieee80211_info_element_hdr info_element; */
++} ;
++
++
++struct ieee80211_probe_response {
++	struct ieee80211_header_data header;
++	u32 time_stamp[2];
++	u16 beacon_interval;
++	u16 capability;
++	struct ieee80211_info_element info_element;
++} ;
++
++struct ieee80211_probe_request {
++	struct ieee80211_header_data header;
++	/*struct ieee80211_info_element info_element;*/
++} ;
++
++struct ieee80211_assoc_request_frame {
++	struct rtw_ieee80211_hdr_3addr header;
++	u16 capability;
++	u16 listen_interval;
++	/* u8 current_ap[ETH_ALEN]; */
++	struct ieee80211_info_element_hdr info_element;
++} ;
++
++struct ieee80211_assoc_response_frame {
++	struct rtw_ieee80211_hdr_3addr header;
++	u16 capability;
++	u16 status;
++	u16 aid;
++	/*	struct ieee80211_info_element info_element;  supported rates  */
++};
++
++#pragma pack()
++
++#endif
++
++
++
++
++struct ieee80211_txb {
++	u8 nr_frags;
++	u8 encrypted;
++	u16 reserved;
++	u16 frag_size;
++	u16 payload_size;
++	struct sk_buff *fragments[0];
++};
++
++
++/* SWEEP TABLE ENTRIES NUMBER*/
++#define MAX_SWEEP_TAB_ENTRIES		  42
++#define MAX_SWEEP_TAB_ENTRIES_PER_PACKET  7
++/* MAX_RATES_LENGTH needs to be 12.  The spec says 8, and many APs
++ * only use 8, and then use extended rates for the remaining supported
++ * rates.  Other APs, however, stick all of their supported rates on the
++ * main rates information element... */
++#define MAX_RATES_LENGTH                  ((u8)12)
++#define MAX_RATES_EX_LENGTH               ((u8)16)
++#define MAX_NETWORK_COUNT                  128
++#define MAX_CHANNEL_NUMBER                 161
++#define IEEE80211_SOFTMAC_SCAN_TIME	  400
++/* (HZ / 2) */
++#define IEEE80211_SOFTMAC_ASSOC_RETRY_TIME (HZ * 2)
++
++#define CRC_LENGTH                 4U
++
++#define MAX_WPA_IE_LEN (256)
++#define MAX_WPS_IE_LEN (512)
++#define MAX_P2P_IE_LEN (256)
++#define MAX_WFD_IE_LEN (128)
++
++#define NETWORK_EMPTY_ESSID (1<<0)
++#define NETWORK_HAS_OFDM    (1<<1)
++#define NETWORK_HAS_CCK     (1<<2)
++
++#define IEEE80211_DTIM_MBCAST 4
++#define IEEE80211_DTIM_UCAST 2
++#define IEEE80211_DTIM_VALID 1
++#define IEEE80211_DTIM_INVALID 0
++
++#define IEEE80211_PS_DISABLED 0
++#define IEEE80211_PS_UNICAST IEEE80211_DTIM_UCAST
++#define IEEE80211_PS_MBCAST IEEE80211_DTIM_MBCAST
++#define IW_ESSID_MAX_SIZE 32
++#if 0
++struct ieee80211_network {
++	/* These entries are used to identify a unique network */
++	u8 bssid[ETH_ALEN];
++	u8 channel;
++	/* Ensure null-terminated for any debug msgs */
++	u8 ssid[IW_ESSID_MAX_SIZE + 1];
++	u8 ssid_len;
++	u8	rssi;	/* relative signal strength */
++	u8	sq;		/* signal quality */
++
++	/* These are network statistics */
++	/* struct ieee80211_rx_stats stats; */
++	u16 capability;
++	u16	aid;
++	u8 rates[MAX_RATES_LENGTH];
++	u8 rates_len;
++	u8 rates_ex[MAX_RATES_EX_LENGTH];
++	u8 rates_ex_len;
++
++	u8 edca_parmsets[18];
++
++	u8 mode;
++	u8 flags;
++	u8 time_stamp[8];
++	u16 beacon_interval;
++	u16 listen_interval;
++	u16 atim_window;
++	u8 wpa_ie[MAX_WPA_IE_LEN];
++	size_t wpa_ie_len;
++	u8 rsn_ie[MAX_WPA_IE_LEN];
++	size_t rsn_ie_len;
++	u8 country[6];
++	u8 dtim_period;
++	u8 dtim_data;
++	u8 power_constraint;
++	u8 qosinfo;
++	u8 qbssload[5];
++	u8 network_type;
++	int join_res;
++	unsigned long	last_scanned;
++};
++#endif
++/*
++join_res:
++-1: authentication fail
++-2: association fail
++> 0: TID
++*/
++
++#ifndef PLATFORM_FREEBSD /* Baron BSD has already defined */
++
++enum ieee80211_state {
++
++	/* the card is not linked at all */
++	IEEE80211_NOLINK = 0,
++
++	/* IEEE80211_ASSOCIATING* are for BSS client mode
++	 * the driver shall not perform RX filtering unless
++	 * the state is LINKED.
++	 * The driver shall just check for the state LINKED and
++	 * defaults to NOLINK for ALL the other states (including
++	 * LINKED_SCANNING)
++	 */
++
++	/* the association procedure will start (wq scheduling)*/
++	IEEE80211_ASSOCIATING,
++	IEEE80211_ASSOCIATING_RETRY,
++
++	/* the association procedure is sending AUTH request*/
++	IEEE80211_ASSOCIATING_AUTHENTICATING,
++
++	/* the association procedure has successfully authentcated
++	 * and is sending association request
++	 */
++	IEEE80211_ASSOCIATING_AUTHENTICATED,
++
++	/* the link is ok. the card associated to a BSS or linked
++	 * to a ibss cell or acting as an AP and creating the bss
++	 */
++	IEEE80211_LINKED,
++
++	/* same as LINKED, but the driver shall apply RX filter
++	 * rules as we are in NO_LINK mode. As the card is still
++	 * logically linked, but it is doing a syncro site survey
++	 * then it will be back to LINKED state.
++	 */
++	IEEE80211_LINKED_SCANNING,
++
++};
++#endif /* PLATFORM_FREEBSD */
++
++#define DEFAULT_MAX_SCAN_AGE (15 * HZ)
++#define DEFAULT_FTS 2346
++#define MAC_FMT "%02x:%02x:%02x:%02x:%02x:%02x"
++#define MAC_ARG(x) ((u8 *)(x))[0], ((u8 *)(x))[1], ((u8 *)(x))[2], ((u8 *)(x))[3], ((u8 *)(x))[4], ((u8 *)(x))[5]
++#define MAC_SFMT "%02hhx:%02hhx:%02hhx:%02hhx:%02hhx:%02hhx"
++#define MAC_SARG(x) ((u8*)(x)),((u8*)(x)) + 1,((u8*)(x)) + 2,((u8*)(x)) + 3,((u8*)(x)) + 4,((u8*)(x)) + 5
++#define IP_FMT "%d.%d.%d.%d"
++#define IP_ARG(x) ((u8 *)(x))[0], ((u8 *)(x))[1], ((u8 *)(x))[2], ((u8 *)(x))[3]
++#define PORT_FMT "%u"
++#define PORT_ARG(x) ntohs(*((u16 *)(x)))
++
++#ifdef PLATFORM_FREEBSD /* Baron change func to macro */
++#define is_multicast_mac_addr(Addr) ((((Addr[0]) & 0x01) == 0x01) && ((Addr[0]) != 0xff))
++#define is_broadcast_mac_addr(Addr) ((((Addr[0]) & 0xff) == 0xff) && (((Addr[1]) & 0xff) == 0xff) && \
++	(((Addr[2]) & 0xff) == 0xff) && (((Addr[3]) & 0xff) == 0xff) && (((Addr[4]) & 0xff) == 0xff) && \
++				     (((Addr[5]) & 0xff) == 0xff))
++#else
++extern __inline int is_multicast_mac_addr(const u8 *addr)
++{
++	return (addr[0] != 0xff) && (0x01 & addr[0]);
++}
++
++extern __inline int is_broadcast_mac_addr(const u8 *addr)
++{
++	return ((addr[0] == 0xff) && (addr[1] == 0xff) && (addr[2] == 0xff) &&   \
++		(addr[3] == 0xff) && (addr[4] == 0xff) && (addr[5] == 0xff));
++}
++
++extern __inline int is_zero_mac_addr(const u8 *addr)
++{
++	return ((addr[0] == 0x00) && (addr[1] == 0x00) && (addr[2] == 0x00) &&   \
++		(addr[3] == 0x00) && (addr[4] == 0x00) && (addr[5] == 0x00));
++}
++#endif /* PLATFORM_FREEBSD */
++
++#define CFG_IEEE80211_RESERVE_FCS (1<<0)
++#define CFG_IEEE80211_COMPUTE_FCS (1<<1)
++
++typedef struct tx_pending_t {
++	int frag;
++	struct ieee80211_txb *txb;
++} tx_pending_t;
++
++
++
++#define TID_NUM	16
++
++#define IEEE_A            (1<<0)
++#define IEEE_B            (1<<1)
++#define IEEE_G            (1<<2)
++#define IEEE_MODE_MASK    (IEEE_A | IEEE_B | IEEE_G)
++
++/* Baron move to ieee80211.c */
++int ieee80211_is_empty_essid(const char *essid, int essid_len);
++int ieee80211_get_hdrlen(u16 fc);
++
++#if 0
++	/* Action frame categories (IEEE 802.11-2007, 7.3.1.11, Table 7-24) */
++	#define WLAN_ACTION_SPECTRUM_MGMT 0
++	#define WLAN_ACTION_QOS 1
++	#define WLAN_ACTION_DLS 2
++	#define WLAN_ACTION_BLOCK_ACK 3
++	#define WLAN_ACTION_RADIO_MEASUREMENT 5
++	#define WLAN_ACTION_FT 6
++	#define WLAN_ACTION_SA_QUERY 8
++	#define WLAN_ACTION_WMM 17
++#endif
++
++
++/* Action category code */
++enum rtw_ieee80211_category {
++	RTW_WLAN_CATEGORY_SPECTRUM_MGMT = 0,
++	RTW_WLAN_CATEGORY_QOS = 1,
++	RTW_WLAN_CATEGORY_DLS = 2,
++	RTW_WLAN_CATEGORY_BACK = 3,
++	RTW_WLAN_CATEGORY_PUBLIC = 4, /* IEEE 802.11 public action frames */
++	RTW_WLAN_CATEGORY_RADIO_MEASUREMENT  = 5,
++	RTW_WLAN_CATEGORY_FT = 6,
++	RTW_WLAN_CATEGORY_HT = 7,
++	RTW_WLAN_CATEGORY_SA_QUERY = 8,
++	RTW_WLAN_CATEGORY_UNPROTECTED_WNM = 11, /* add for CONFIG_IEEE80211W, none 11w also can use */
++	RTW_WLAN_CATEGORY_TDLS = 12,
++	RTW_WLAN_CATEGORY_SELF_PROTECTED = 15, /* add for CONFIG_IEEE80211W, none 11w also can use */
++	RTW_WLAN_CATEGORY_WMM = 17,
++	RTW_WLAN_CATEGORY_VHT = 21,
++	RTW_WLAN_CATEGORY_P2P = 0x7f,/* P2P action frames */
++};
++
++/* SPECTRUM_MGMT action code */
++enum rtw_ieee80211_spectrum_mgmt_actioncode {
++	RTW_WLAN_ACTION_SPCT_MSR_REQ = 0,
++	RTW_WLAN_ACTION_SPCT_MSR_RPRT = 1,
++	RTW_WLAN_ACTION_SPCT_TPC_REQ = 2,
++	RTW_WLAN_ACTION_SPCT_TPC_RPRT = 3,
++	RTW_WLAN_ACTION_SPCT_CHL_SWITCH = 4,
++	RTW_WLAN_ACTION_SPCT_EXT_CHL_SWITCH = 5,
++};
++
++enum _PUBLIC_ACTION {
++	ACT_PUBLIC_BSSCOEXIST = 0, /* 20/40 BSS Coexistence */
++	ACT_PUBLIC_DSE_ENABLE = 1,
++	ACT_PUBLIC_DSE_DEENABLE = 2,
++	ACT_PUBLIC_DSE_REG_LOCATION = 3,
++	ACT_PUBLIC_EXT_CHL_SWITCH = 4,
++	ACT_PUBLIC_DSE_MSR_REQ = 5,
++	ACT_PUBLIC_DSE_MSR_RPRT = 6,
++	ACT_PUBLIC_MP = 7, /* Measurement Pilot */
++	ACT_PUBLIC_DSE_PWR_CONSTRAINT = 8,
++	ACT_PUBLIC_VENDOR = 9, /* for WIFI_DIRECT */
++	ACT_PUBLIC_GAS_INITIAL_REQ = 10,
++	ACT_PUBLIC_GAS_INITIAL_RSP = 11,
++	ACT_PUBLIC_GAS_COMEBACK_REQ = 12,
++	ACT_PUBLIC_GAS_COMEBACK_RSP = 13,
++	ACT_PUBLIC_TDLS_DISCOVERY_RSP = 14,
++	ACT_PUBLIC_LOCATION_TRACK = 15,
++	ACT_PUBLIC_MAX
++};
++
++#ifdef CONFIG_TDLS
++enum TDLS_ACTION_FIELD {
++	TDLS_SETUP_REQUEST = 0,
++	TDLS_SETUP_RESPONSE = 1,
++	TDLS_SETUP_CONFIRM = 2,
++	TDLS_TEARDOWN = 3,
++	TDLS_PEER_TRAFFIC_INDICATION = 4,
++	TDLS_CHANNEL_SWITCH_REQUEST = 5,
++	TDLS_CHANNEL_SWITCH_RESPONSE = 6,
++	TDLS_PEER_PSM_REQUEST = 7,
++	TDLS_PEER_PSM_RESPONSE = 8,
++	TDLS_PEER_TRAFFIC_RESPONSE = 9,
++	TDLS_DISCOVERY_REQUEST = 10,
++	TDLS_DISCOVERY_RESPONSE = 14,	/* it's used in public action frame */
++};
++
++#define	TUNNELED_PROBE_REQ	15
++#define	TUNNELED_PROBE_RSP	16
++#endif /* CONFIG_TDLS */
++
++/* BACK action code */
++enum rtw_ieee80211_back_actioncode {
++	RTW_WLAN_ACTION_ADDBA_REQ = 0,
++	RTW_WLAN_ACTION_ADDBA_RESP = 1,
++	RTW_WLAN_ACTION_DELBA = 2,
++};
++
++/* HT features action code */
++enum rtw_ieee80211_ht_actioncode {
++	RTW_WLAN_ACTION_HT_NOTI_CHNL_WIDTH = 0,
++	RTW_WLAN_ACTION_HT_SM_PS = 1,
++	RTW_WLAN_ACTION_HT_PSMP = 2,
++	RTW_WLAN_ACTION_HT_SET_PCO_PHASE = 3,
++	RTW_WLAN_ACTION_HT_CSI = 4,
++	RTW_WLAN_ACTION_HT_NON_COMPRESS_BEAMFORMING = 5,
++	RTW_WLAN_ACTION_HT_COMPRESS_BEAMFORMING = 6,
++	RTW_WLAN_ACTION_HT_ASEL_FEEDBACK = 7,
++};
++
++/* BACK (block-ack) parties */
++enum rtw_ieee80211_back_parties {
++	RTW_WLAN_BACK_RECIPIENT = 0,
++	RTW_WLAN_BACK_INITIATOR = 1,
++	RTW_WLAN_BACK_TIMER = 2,
++};
++
++/*20/40 BSS Coexistence element */
++#define RTW_WLAN_20_40_BSS_COEX_INFO_REQ            BIT(0)
++#define RTW_WLAN_20_40_BSS_COEX_40MHZ_INTOL         BIT(1)
++#define RTW_WLAN_20_40_BSS_COEX_20MHZ_WIDTH_REQ     BIT(2)
++#define RTW_WLAN_20_40_BSS_COEX_OBSS_EXEMPT_REQ     BIT(3)
++#define RTW_WLAN_20_40_BSS_COEX_OBSS_EXEMPT_GRNT    BIT(4)
++
++/* VHT features action code */
++enum rtw_ieee80211_vht_actioncode {
++	RTW_WLAN_ACTION_VHT_COMPRESSED_BEAMFORMING = 0,
++	RTW_WLAN_ACTION_VHT_GROUPID_MANAGEMENT = 1,
++	RTW_WLAN_ACTION_VHT_OPMODE_NOTIFICATION = 2,
++};
++
++
++#define OUI_MICROSOFT 0x0050f2 /* Microsoft (also used in Wi-Fi specs)
++				* 00:50:F2 */
++#ifndef PLATFORM_FREEBSD /* Baron BSD has defined */
++	#define WME_OUI_TYPE 2
++#endif /* PLATFORM_FREEBSD */
++#define WME_OUI_SUBTYPE_INFORMATION_ELEMENT 0
++#define WME_OUI_SUBTYPE_PARAMETER_ELEMENT 1
++#define WME_OUI_SUBTYPE_TSPEC_ELEMENT 2
++#define WME_VERSION 1
++
++#define WME_ACTION_CODE_SETUP_REQUEST 0
++#define WME_ACTION_CODE_SETUP_RESPONSE 1
++#define WME_ACTION_CODE_TEARDOWN 2
++
++#define WME_SETUP_RESPONSE_STATUS_ADMISSION_ACCEPTED 0
++#define WME_SETUP_RESPONSE_STATUS_INVALID_PARAMETERS 1
++#define WME_SETUP_RESPONSE_STATUS_REFUSED 3
++
++#define WME_TSPEC_DIRECTION_UPLINK 0
++#define WME_TSPEC_DIRECTION_DOWNLINK 1
++#define WME_TSPEC_DIRECTION_BI_DIRECTIONAL 3
++
++
++#define OUI_BROADCOM 0x00904c /* Broadcom (Epigram) */
++
++#define VENDOR_HT_CAPAB_OUI_TYPE 0x33 /* 00-90-4c:0x33 */
++
++/**
++ * enum rtw_ieee80211_channel_flags - channel flags
++ *
++ * Channel flags set by the regulatory control code.
++ *
++ * @RTW_IEEE80211_CHAN_DISABLED: This channel is disabled.
++ * @RTW_IEEE80211_CHAN_PASSIVE_SCAN: Only passive scanning is permitted
++ *      on this channel.
++ * @RTW_IEEE80211_CHAN_NO_IBSS: IBSS is not allowed on this channel.
++ * @RTW_IEEE80211_CHAN_RADAR: Radar detection is required on this channel.
++ * @RTW_IEEE80211_CHAN_NO_HT40PLUS: extension channel above this channel
++ *      is not permitted.
++ * @RTW_IEEE80211_CHAN_NO_HT40MINUS: extension channel below this channel
++ *      is not permitted.
++ */
++enum rtw_ieee80211_channel_flags {
++	RTW_IEEE80211_CHAN_DISABLED         = 1 << 0,
++	RTW_IEEE80211_CHAN_PASSIVE_SCAN     = 1 << 1,
++	RTW_IEEE80211_CHAN_NO_IBSS          = 1 << 2,
++	RTW_IEEE80211_CHAN_RADAR            = 1 << 3,
++	RTW_IEEE80211_CHAN_NO_HT40PLUS      = 1 << 4,
++	RTW_IEEE80211_CHAN_NO_HT40MINUS     = 1 << 5,
++};
++
++#define RTW_IEEE80211_CHAN_NO_HT40 \
++	(RTW_IEEE80211_CHAN_NO_HT40PLUS | RTW_IEEE80211_CHAN_NO_HT40MINUS)
++
++/* Represent channel details, subset of ieee80211_channel */
++struct rtw_ieee80211_channel {
++	/* enum ieee80211_band band; */
++	/* u16 center_freq; */
++	u16 hw_value;
++	u32 flags;
++	/* int max_antenna_gain; */
++	/* int max_power; */
++	/* int max_reg_power; */
++	/* bool beacon_found; */
++	/* u32 orig_flags; */
++	/* int orig_mag; */
++	/* int orig_mpwr; */
++};
++
++#define CHAN_FMT \
++	/*"band:%d, "*/ \
++	/*"center_freq:%u, "*/ \
++	"hw_value:%u, " \
++	"flags:0x%08x" \
++	/*"max_antenna_gain:%d\n"*/ \
++	/*"max_power:%d\n"*/ \
++	/*"max_reg_power:%d\n"*/ \
++	/*"beacon_found:%u\n"*/ \
++	/*"orig_flags:0x%08x\n"*/ \
++	/*"orig_mag:%d\n"*/ \
++	/*"orig_mpwr:%d\n"*/
++
++#define CHAN_ARG(channel) \
++	/*(channel)->band*/ \
++	/*, (channel)->center_freq*/ \
++	(channel)->hw_value \
++	, (channel)->flags \
++	/*, (channel)->max_antenna_gain*/ \
++	/*, (channel)->max_power*/ \
++	/*, (channel)->max_reg_power*/ \
++	/*, (channel)->beacon_found*/ \
++	/*, (channel)->orig_flags*/ \
++	/*, (channel)->orig_mag*/ \
++	/*, (channel)->orig_mpwr*/ \
++
++/* Parsed Information Elements */
++struct rtw_ieee802_11_elems {
++	u8 *ssid;
++	u8 ssid_len;
++	u8 *supp_rates;
++	u8 supp_rates_len;
++	u8 *fh_params;
++	u8 fh_params_len;
++	u8 *ds_params;
++	u8 ds_params_len;
++	u8 *cf_params;
++	u8 cf_params_len;
++	u8 *tim;
++	u8 tim_len;
++	u8 *ibss_params;
++	u8 ibss_params_len;
++	u8 *challenge;
++	u8 challenge_len;
++	u8 *erp_info;
++	u8 erp_info_len;
++	u8 *ext_supp_rates;
++	u8 ext_supp_rates_len;
++	u8 *wpa_ie;
++	u8 wpa_ie_len;
++	u8 *rsn_ie;
++	u8 rsn_ie_len;
++	u8 *wme;
++	u8 wme_len;
++	u8 *wme_tspec;
++	u8 wme_tspec_len;
++	u8 *wps_ie;
++	u8 wps_ie_len;
++	u8 *power_cap;
++	u8 power_cap_len;
++	u8 *supp_channels;
++	u8 supp_channels_len;
++	u8 *mdie;
++	u8 mdie_len;
++	u8 *ftie;
++	u8 ftie_len;
++	u8 *timeout_int;
++	u8 timeout_int_len;
++	u8 *ht_capabilities;
++	u8 ht_capabilities_len;
++	u8 *ht_operation;
++	u8 ht_operation_len;
++	u8 *vendor_ht_cap;
++	u8 vendor_ht_cap_len;
++	u8 *vht_capabilities;
++	u8 vht_capabilities_len;
++	u8 *vht_operation;
++	u8 vht_operation_len;
++	u8 *vht_op_mode_notify;
++	u8 vht_op_mode_notify_len;
++};
++
++typedef enum { ParseOK = 0, ParseUnknown = 1, ParseFailed = -1 } ParseRes;
++
++ParseRes rtw_ieee802_11_parse_elems(u8 *start, uint len,
++				struct rtw_ieee802_11_elems *elems,
++				int show_errors);
++
++u8 *rtw_set_fixed_ie(unsigned char *pbuf, unsigned int len, unsigned char *source, unsigned int *frlen);
++u8 *rtw_set_ie(u8 *pbuf, sint index, uint len, u8 *source, uint *frlen);
++
++enum secondary_ch_offset {
++	SCN = 0, /* no secondary channel */
++	SCA = 1, /* secondary channel above */
++	SCB = 3,  /* secondary channel below */
++};
++u8 secondary_ch_offset_to_hal_ch_offset(u8 ch_offset);
++u8 hal_ch_offset_to_secondary_ch_offset(u8 ch_offset);
++u8 *rtw_set_ie_ch_switch(u8 *buf, u32 *buf_len, u8 ch_switch_mode, u8 new_ch, u8 ch_switch_cnt);
++u8 *rtw_set_ie_secondary_ch_offset(u8 *buf, u32 *buf_len, u8 secondary_ch_offset);
++u8 *rtw_set_ie_mesh_ch_switch_parm(u8 *buf, u32 *buf_len, u8 ttl, u8 flags, u16 reason, u16 precedence);
++
++u8 *rtw_get_ie(u8 *pbuf, sint index, sint *len, sint limit);
++u8 *rtw_get_ie_ex(u8 *in_ie, uint in_len, u8 eid, u8 *oui, u8 oui_len, u8 *ie, uint *ielen);
++int rtw_ies_remove_ie(u8 *ies, uint *ies_len, uint offset, u8 eid, u8 *oui, u8 oui_len);
++
++void rtw_set_supported_rate(u8 *SupportedRates, uint mode) ;
++
++unsigned char *rtw_get_wpa_ie(unsigned char *pie, int *wpa_ie_len, int limit);
++unsigned char *rtw_get_wpa2_ie(unsigned char *pie, int *rsn_ie_len, int limit);
++int rtw_get_wpa_cipher_suite(u8 *s);
++int rtw_get_wpa2_cipher_suite(u8 *s);
++int rtw_get_wapi_ie(u8 *in_ie, uint in_len, u8 *wapi_ie, u16 *wapi_len);
++int rtw_parse_wpa_ie(u8 *wpa_ie, int wpa_ie_len, int *group_cipher, int *pairwise_cipher, int *is_8021x);
++int rtw_parse_wpa2_ie(u8 *wpa_ie, int wpa_ie_len, int *group_cipher, int *pairwise_cipher, int *is_8021x);
++
++int rtw_get_sec_ie(u8 *in_ie, uint in_len, u8 *rsn_ie, u16 *rsn_len, u8 *wpa_ie, u16 *wpa_len);
++
++u8 rtw_is_wps_ie(u8 *ie_ptr, uint *wps_ielen);
++u8 *rtw_get_wps_ie_from_scan_queue(u8 *in_ie, uint in_len, u8 *wps_ie, uint *wps_ielen, u8 frame_type);
++u8 *rtw_get_wps_ie(u8 *in_ie, uint in_len, u8 *wps_ie, uint *wps_ielen);
++u8 *rtw_get_wps_attr(u8 *wps_ie, uint wps_ielen, u16 target_attr_id , u8 *buf_attr, u32 *len_attr);
++u8 *rtw_get_wps_attr_content(u8 *wps_ie, uint wps_ielen, u16 target_attr_id , u8 *buf_content, uint *len_content);
++
++/**
++ * for_each_ie - iterate over continuous IEs
++ * @ie:
++ * @buf:
++ * @buf_len:
++ */
++#define for_each_ie(ie, buf, buf_len) \
++	for (ie = (void *)buf; (((u8 *)ie) - ((u8 *)buf) + 1) < buf_len; ie = (void *)(((u8 *)ie) + *(((u8 *)ie)+1) + 2))
++
++void dump_ies(void *sel, u8 *buf, u32 buf_len);
++
++#ifdef CONFIG_80211N_HT
++void dump_ht_cap_ie_content(void *sel, u8 *buf, u32 buf_len);
++#endif
++
++void dump_wps_ie(void *sel, u8 *ie, u32 ie_len);
++
++void rtw_ies_get_chbw(u8 *ies, int ies_len, u8 *ch, u8 *bw, u8 *offset);
++
++void rtw_bss_get_chbw(WLAN_BSSID_EX *bss, u8 *ch, u8 *bw, u8 *offset);
++
++bool rtw_is_chbw_grouped(u8 ch_a, u8 bw_a, u8 offset_a
++	, u8 ch_b, u8 bw_b, u8 offset_b);
++void rtw_sync_chbw(u8 *req_ch, u8 *req_bw, u8 *req_offset
++	, u8 *g_ch, u8 *g_bw, u8 *g_offset);
++
++u32 rtw_get_p2p_merged_ies_len(u8 *in_ie, u32 in_len);
++int rtw_p2p_merge_ies(u8 *in_ie, u32 in_len, u8 *merge_ie);
++void dump_p2p_ie(void *sel, u8 *ie, u32 ie_len);
++u8 *rtw_get_p2p_ie(u8 *in_ie, int in_len, u8 *p2p_ie, uint *p2p_ielen);
++u8 *rtw_get_p2p_attr(u8 *p2p_ie, uint p2p_ielen, u8 target_attr_id, u8 *buf_attr, u32 *len_attr);
++u8 *rtw_get_p2p_attr_content(u8 *p2p_ie, uint p2p_ielen, u8 target_attr_id, u8 *buf_content, uint *len_content);
++u32 rtw_set_p2p_attr_content(u8 *pbuf, u8 attr_id, u16 attr_len, u8 *pdata_attr);
++uint rtw_del_p2p_ie(u8 *ies, uint ies_len_ori, const char *msg);
++uint rtw_del_p2p_attr(u8 *ie, uint ielen_ori, u8 attr_id);
++u8 *rtw_bss_ex_get_p2p_ie(WLAN_BSSID_EX *bss_ex, u8 *p2p_ie, uint *p2p_ielen);
++void rtw_bss_ex_del_p2p_ie(WLAN_BSSID_EX *bss_ex);
++void rtw_bss_ex_del_p2p_attr(WLAN_BSSID_EX *bss_ex, u8 attr_id);
++
++void dump_wfd_ie(void *sel, u8 *ie, u32 ie_len);
++u8 *rtw_get_wfd_ie(u8 *in_ie, int in_len, u8 *wfd_ie, uint *wfd_ielen);
++u8 *rtw_get_wfd_attr(u8 *wfd_ie, uint wfd_ielen, u8 target_attr_id, u8 *buf_attr, u32 *len_attr);
++u8 *rtw_get_wfd_attr_content(u8 *wfd_ie, uint wfd_ielen, u8 target_attr_id, u8 *buf_content, uint *len_content);
++uint rtw_del_wfd_ie(u8 *ies, uint ies_len_ori, const char *msg);
++uint rtw_del_wfd_attr(u8 *ie, uint ielen_ori, u8 attr_id);
++u8 *rtw_bss_ex_get_wfd_ie(WLAN_BSSID_EX *bss_ex, u8 *wfd_ie, uint *wfd_ielen);
++void rtw_bss_ex_del_wfd_ie(WLAN_BSSID_EX *bss_ex);
++void rtw_bss_ex_del_wfd_attr(WLAN_BSSID_EX *bss_ex, u8 attr_id);
++
++uint	rtw_get_rateset_len(u8	*rateset);
++
++struct registry_priv;
++int rtw_generate_ie(struct registry_priv *pregistrypriv);
++
++int rtw_get_bit_value_from_ieee_value(u8 val);
++
++uint	rtw_is_cckrates_included(u8 *rate);
++
++uint	rtw_is_cckratesonly_included(u8 *rate);
++
++int rtw_check_network_type(unsigned char *rate, int ratelen, int channel);
++
++void rtw_get_bcn_info(struct wlan_network *pnetwork);
++
++u8 rtw_check_invalid_mac_address(u8 *mac_addr, u8 check_local_bit);
++void rtw_macaddr_cfg(u8 *out, const u8 *hw_mac_addr);
++
++u16 rtw_mcs_rate(u8 rf_type, u8 bw_40MHz, u8 short_GI, unsigned char *MCS_rate);
++u8	rtw_ht_mcsset_to_nss(u8 *supp_mcs_set);
++
++int rtw_action_frame_parse(const u8 *frame, u32 frame_len, u8 *category, u8 *action);
++const char *action_public_str(u8 action);
++
++u8 key_2char2num(u8 hch, u8 lch);
++u8 str_2char2num(u8 hch, u8 lch);
++void macstr2num(u8 *dst, u8 *src);
++u8 convert_ip_addr(u8 hch, u8 mch, u8 lch);
++int wifirate2_ratetbl_inx(unsigned char rate);
++
++#endif /* IEEE80211_H */
+diff --git a/drivers/net/wireless/rtl8812au/include/ieee80211_ext.h b/drivers/net/wireless/rtl8812au/include/ieee80211_ext.h
+new file mode 100644
+index 0000000..03cc330
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/ieee80211_ext.h
+@@ -0,0 +1,476 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __IEEE80211_EXT_H
++#define __IEEE80211_EXT_H
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++#define WMM_OUI_TYPE 2
++#define WMM_OUI_SUBTYPE_INFORMATION_ELEMENT 0
++#define WMM_OUI_SUBTYPE_PARAMETER_ELEMENT 1
++#define WMM_OUI_SUBTYPE_TSPEC_ELEMENT 2
++#define WMM_VERSION 1
++
++#define WPA_PROTO_WPA BIT(0)
++#define WPA_PROTO_RSN BIT(1)
++
++#define WPA_KEY_MGMT_IEEE8021X BIT(0)
++#define WPA_KEY_MGMT_PSK BIT(1)
++#define WPA_KEY_MGMT_NONE BIT(2)
++#define WPA_KEY_MGMT_IEEE8021X_NO_WPA BIT(3)
++#define WPA_KEY_MGMT_WPA_NONE BIT(4)
++
++
++#define WPA_CAPABILITY_PREAUTH BIT(0)
++#define WPA_CAPABILITY_MGMT_FRAME_PROTECTION BIT(6)
++#define WPA_CAPABILITY_PEERKEY_ENABLED BIT(9)
++
++
++#define PMKID_LEN 16
++
++
++#ifdef PLATFORM_LINUX
++struct wpa_ie_hdr {
++	u8 elem_id;
++	u8 len;
++	u8 oui[4]; /* 24-bit OUI followed by 8-bit OUI type */
++	u8 version[2]; /* little endian */
++} __attribute__((packed));
++
++struct rsn_ie_hdr {
++	u8 elem_id; /* WLAN_EID_RSN */
++	u8 len;
++	u8 version[2]; /* little endian */
++} __attribute__((packed));
++
++struct wme_ac_parameter {
++#if defined(CONFIG_LITTLE_ENDIAN)
++	/* byte 1 */
++	u8	aifsn:4,
++	     acm:1,
++	     aci:2,
++	     reserved:1;
++
++	/* byte 2 */
++	u8	eCWmin:4,
++	     eCWmax:4;
++#elif defined(CONFIG_BIG_ENDIAN)
++	/* byte 1 */
++	u8	reserved:1,
++	     aci:2,
++	     acm:1,
++	     aifsn:4;
++
++	/* byte 2 */
++	u8	eCWmax:4,
++	     eCWmin:4;
++#else
++#error	"Please fix <endian.h>"
++#endif
++
++	/* bytes 3 & 4 */
++	u16 txopLimit;
++} __attribute__((packed));
++
++struct wme_parameter_element {
++	/* required fields for WME version 1 */
++	u8 oui[3];
++	u8 oui_type;
++	u8 oui_subtype;
++	u8 version;
++	u8 acInfo;
++	u8 reserved;
++	struct wme_ac_parameter ac[4];
++
++} __attribute__((packed));
++
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++
++struct wpa_ie_hdr {
++	u8 elem_id;
++	u8 len;
++	u8 oui[4]; /* 24-bit OUI followed by 8-bit OUI type */
++	u8 version[2]; /* little endian */
++};
++
++struct rsn_ie_hdr {
++	u8 elem_id; /* WLAN_EID_RSN */
++	u8 len;
++	u8 version[2]; /* little endian */
++};
++
++#pragma pack()
++
++#endif
++
++#define WPA_PUT_LE16(a, val)			\
++	do {					\
++		(a)[1] = ((u16) (val)) >> 8;	\
++		(a)[0] = ((u16) (val)) & 0xff;	\
++	} while (0)
++
++#define WPA_PUT_BE32(a, val)					\
++	do {							\
++		(a)[0] = (u8) ((((u32) (val)) >> 24) & 0xff);	\
++		(a)[1] = (u8) ((((u32) (val)) >> 16) & 0xff);	\
++		(a)[2] = (u8) ((((u32) (val)) >> 8) & 0xff);	\
++		(a)[3] = (u8) (((u32) (val)) & 0xff);		\
++	} while (0)
++
++#define WPA_PUT_LE32(a, val)					\
++	do {							\
++		(a)[3] = (u8) ((((u32) (val)) >> 24) & 0xff);	\
++		(a)[2] = (u8) ((((u32) (val)) >> 16) & 0xff);	\
++		(a)[1] = (u8) ((((u32) (val)) >> 8) & 0xff);	\
++		(a)[0] = (u8) (((u32) (val)) & 0xff);		\
++	} while (0)
++
++#define RSN_SELECTOR_PUT(a, val) WPA_PUT_BE32((u8 *) (a), (val))
++/* #define RSN_SELECTOR_PUT(a, val) WPA_PUT_LE32((u8 *) (a), (val)) */
++
++
++
++/* Action category code */
++enum ieee80211_category {
++	WLAN_CATEGORY_SPECTRUM_MGMT = 0,
++	WLAN_CATEGORY_QOS = 1,
++	WLAN_CATEGORY_DLS = 2,
++	WLAN_CATEGORY_BACK = 3,
++	WLAN_CATEGORY_HT = 7,
++	WLAN_CATEGORY_WMM = 17,
++};
++
++/* SPECTRUM_MGMT action code */
++enum ieee80211_spectrum_mgmt_actioncode {
++	WLAN_ACTION_SPCT_MSR_REQ = 0,
++	WLAN_ACTION_SPCT_MSR_RPRT = 1,
++	WLAN_ACTION_SPCT_TPC_REQ = 2,
++	WLAN_ACTION_SPCT_TPC_RPRT = 3,
++	WLAN_ACTION_SPCT_CHL_SWITCH = 4,
++	WLAN_ACTION_SPCT_EXT_CHL_SWITCH = 5,
++};
++
++/* BACK action code */
++enum ieee80211_back_actioncode {
++	WLAN_ACTION_ADDBA_REQ = 0,
++	WLAN_ACTION_ADDBA_RESP = 1,
++	WLAN_ACTION_DELBA = 2,
++};
++
++/* HT features action code */
++enum ieee80211_ht_actioncode {
++	WLAN_ACTION_NOTIFY_CH_WIDTH = 0,
++	WLAN_ACTION_SM_PS = 1,
++	WLAN_ACTION_PSPM = 2,
++	WLAN_ACTION_PCO_PHASE = 3,
++	WLAN_ACTION_MIMO_CSI_MX = 4,
++	WLAN_ACTION_MIMO_NONCP_BF = 5,
++	WLAN_ACTION_MIMP_CP_BF = 6,
++	WLAN_ACTION_ASEL_INDICATES_FB = 7,
++	WLAN_ACTION_HI_INFO_EXCHG = 8,
++};
++
++/* BACK (block-ack) parties */
++enum ieee80211_back_parties {
++	WLAN_BACK_RECIPIENT = 0,
++	WLAN_BACK_INITIATOR = 1,
++	WLAN_BACK_TIMER = 2,
++};
++
++#ifdef PLATFORM_LINUX
++
++struct ieee80211_mgmt {
++	u16 frame_control;
++	u16 duration;
++	u8 da[6];
++	u8 sa[6];
++	u8 bssid[6];
++	u16 seq_ctrl;
++	union {
++		struct {
++			u16 auth_alg;
++			u16 auth_transaction;
++			u16 status_code;
++			/* possibly followed by Challenge text */
++			u8 variable[0];
++		}  __attribute__((packed)) auth;
++		struct {
++			u16 reason_code;
++		}  __attribute__((packed)) deauth;
++		struct {
++			u16 capab_info;
++			u16 listen_interval;
++			/* followed by SSID and Supported rates */
++			u8 variable[0];
++		}  __attribute__((packed)) assoc_req;
++		struct {
++			u16 capab_info;
++			u16 status_code;
++			u16 aid;
++			/* followed by Supported rates */
++			u8 variable[0];
++		}  __attribute__((packed)) assoc_resp, reassoc_resp;
++		struct {
++			u16 capab_info;
++			u16 listen_interval;
++			u8 current_ap[6];
++			/* followed by SSID and Supported rates */
++			u8 variable[0];
++		}  __attribute__((packed)) reassoc_req;
++		struct {
++			u16 reason_code;
++		}  __attribute__((packed)) disassoc;
++		struct {
++			__le64 timestamp;
++			u16 beacon_int;
++			u16 capab_info;
++			/* followed by some of SSID, Supported rates,
++			 * FH Params, DS Params, CF Params, IBSS Params, TIM */
++			u8 variable[0];
++		}  __attribute__((packed)) beacon;
++		struct {
++			/* only variable items: SSID, Supported rates */
++			u8 variable[0];
++		}  __attribute__((packed)) probe_req;
++		struct {
++			__le64 timestamp;
++			u16 beacon_int;
++			u16 capab_info;
++			/* followed by some of SSID, Supported rates,
++			 * FH Params, DS Params, CF Params, IBSS Params */
++			u8 variable[0];
++		}  __attribute__((packed)) probe_resp;
++		struct {
++			u8 category;
++			union {
++				struct {
++					u8 action_code;
++					u8 dialog_token;
++					u8 status_code;
++					u8 variable[0];
++				}  __attribute__((packed)) wme_action;
++#if 0
++				struct {
++					u8 action_code;
++					u8 element_id;
++					u8 length;
++					struct ieee80211_channel_sw_ie sw_elem;
++				}  __attribute__((packed)) chan_switch;
++				struct {
++					u8 action_code;
++					u8 dialog_token;
++					u8 element_id;
++					u8 length;
++					struct ieee80211_msrment_ie msr_elem;
++				}  __attribute__((packed)) measurement;
++#endif
++				struct {
++					u8 action_code;
++					u8 dialog_token;
++					u16 capab;
++					u16 timeout;
++					u16 start_seq_num;
++				}  __attribute__((packed)) addba_req;
++				struct {
++					u8 action_code;
++					u8 dialog_token;
++					u16 status;
++					u16 capab;
++					u16 timeout;
++				}  __attribute__((packed)) addba_resp;
++				struct {
++					u8 action_code;
++					u16 params;
++					u16 reason_code;
++				}  __attribute__((packed)) delba;
++				struct {
++					u8 action_code;
++					/* capab_info for open and confirm,
++					 * reason for close
++					 */
++					u16 aux;
++					/* Followed in plink_confirm by status
++					 * code, AID and supported rates,
++					 * and directly by supported rates in
++					 * plink_open and plink_close
++					 */
++					u8 variable[0];
++				}  __attribute__((packed)) plink_action;
++				struct {
++					u8 action_code;
++					u8 variable[0];
++				}  __attribute__((packed)) mesh_action;
++			} __attribute__((packed)) u;
++		}  __attribute__((packed)) action;
++	} __attribute__((packed)) u;
++} __attribute__((packed));
++
++#endif
++
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++
++struct ieee80211_mgmt {
++	u16 frame_control;
++	u16 duration;
++	u8 da[6];
++	u8 sa[6];
++	u8 bssid[6];
++	u16 seq_ctrl;
++	union {
++		struct {
++			u16 auth_alg;
++			u16 auth_transaction;
++			u16 status_code;
++			/* possibly followed by Challenge text */
++			u8 variable[0];
++		}  auth;
++		struct {
++			u16 reason_code;
++		}  deauth;
++		struct {
++			u16 capab_info;
++			u16 listen_interval;
++			/* followed by SSID and Supported rates */
++			u8 variable[0];
++		}  assoc_req;
++		struct {
++			u16 capab_info;
++			u16 status_code;
++			u16 aid;
++			/* followed by Supported rates */
++			u8 variable[0];
++		}  assoc_resp, reassoc_resp;
++		struct {
++			u16 capab_info;
++			u16 listen_interval;
++			u8 current_ap[6];
++			/* followed by SSID and Supported rates */
++			u8 variable[0];
++		}  reassoc_req;
++		struct {
++			u16 reason_code;
++		}  disassoc;
++#if 0
++		struct {
++			__le64 timestamp;
++			u16 beacon_int;
++			u16 capab_info;
++			/* followed by some of SSID, Supported rates,
++			 * FH Params, DS Params, CF Params, IBSS Params, TIM */
++			u8 variable[0];
++		}  beacon;
++		struct {
++			/* only variable items: SSID, Supported rates */
++			u8 variable[0];
++		}  probe_req;
++
++		struct {
++			__le64 timestamp;
++			u16 beacon_int;
++			u16 capab_info;
++			/* followed by some of SSID, Supported rates,
++			 * FH Params, DS Params, CF Params, IBSS Params */
++			u8 variable[0];
++		}  probe_resp;
++#endif
++		struct {
++			u8 category;
++			union {
++				struct {
++					u8 action_code;
++					u8 dialog_token;
++					u8 status_code;
++					u8 variable[0];
++				}  wme_action;
++				#if 0
++				struct{
++					u8 action_code;
++					u8 element_id;
++					u8 length;
++					struct ieee80211_channel_sw_ie sw_elem;
++				}  chan_switch;
++				struct{
++					u8 action_code;
++					u8 dialog_token;
++					u8 element_id;
++					u8 length;
++					struct ieee80211_msrment_ie msr_elem;
++				}  measurement;
++				#endif
++				struct {
++					u8 action_code;
++					u8 dialog_token;
++					u16 capab;
++					u16 timeout;
++					u16 start_seq_num;
++				}  addba_req;
++				struct {
++					u8 action_code;
++					u8 dialog_token;
++					u16 status;
++					u16 capab;
++					u16 timeout;
++				}  addba_resp;
++				struct {
++					u8 action_code;
++					u16 params;
++					u16 reason_code;
++				}  delba;
++				struct {
++					u8 action_code;
++					/* capab_info for open and confirm,
++					 * reason for close
++					 */
++					u16 aux;
++					/* Followed in plink_confirm by status
++					 * code, AID and supported rates,
++					 * and directly by supported rates in
++					 * plink_open and plink_close
++					 */
++					u8 variable[0];
++				}  plink_action;
++				struct {
++					u8 action_code;
++					u8 variable[0];
++				}  mesh_action;
++			} u;
++		}  action;
++	} u;
++} ;
++
++#pragma pack()
++
++#endif
++
++/* mgmt header + 1 byte category code */
++#define IEEE80211_MIN_ACTION_SIZE FIELD_OFFSET(struct ieee80211_mgmt, u.action.u)
++
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/if_ether.h b/drivers/net/wireless/rtl8812au/include/if_ether.h
+new file mode 100644
+index 0000000..9d08f56
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/if_ether.h
+@@ -0,0 +1,111 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef _LINUX_IF_ETHER_H
++#define _LINUX_IF_ETHER_H
++
++/*
++ *	IEEE 802.3 Ethernet magic constants.  The frame sizes omit the preamble
++ *	and FCS/CRC (frame check sequence).
++ */
++
++#define ETH_ALEN	6		/* Octets in one ethernet addr	 */
++#define ETH_HLEN	14		/* Total octets in header.	 */
++#define ETH_ZLEN	60		/* Min. octets in frame sans FCS */
++#define ETH_DATA_LEN	1500		/* Max. octets in payload	 */
++#define ETH_FRAME_LEN	1514		/* Max. octets in frame sans FCS */
++
++/*
++ *	These are the defined Ethernet Protocol ID's.
++ */
++
++#define ETH_P_LOOP	0x0060		/* Ethernet Loopback packet	*/
++#define ETH_P_PUP	0x0200		/* Xerox PUP packet		*/
++#define ETH_P_PUPAT	0x0201		/* Xerox PUP Addr Trans packet	*/
++#define ETH_P_IP	0x0800		/* Internet Protocol packet	*/
++#define ETH_P_X25	0x0805		/* CCITT X.25			*/
++#define ETH_P_ARP	0x0806		/* Address Resolution packet	*/
++#define	ETH_P_BPQ	0x08FF		/* G8BPQ AX.25 Ethernet Packet	[ NOT AN OFFICIALLY REGISTERED ID ] */
++#define ETH_P_IEEEPUP	0x0a00		/* Xerox IEEE802.3 PUP packet */
++#define ETH_P_IEEEPUPAT	0x0a01		/* Xerox IEEE802.3 PUP Addr Trans packet */
++#define ETH_P_DEC       0x6000          /* DEC Assigned proto          */
++#define ETH_P_DNA_DL    0x6001          /* DEC DNA Dump/Load           */
++#define ETH_P_DNA_RC    0x6002          /* DEC DNA Remote Console      */
++#define ETH_P_DNA_RT    0x6003          /* DEC DNA Routing             */
++#define ETH_P_LAT       0x6004          /* DEC LAT                     */
++#define ETH_P_DIAG      0x6005          /* DEC Diagnostics             */
++#define ETH_P_CUST      0x6006          /* DEC Customer use            */
++#define ETH_P_SCA       0x6007          /* DEC Systems Comms Arch      */
++#define ETH_P_RARP      0x8035		/* Reverse Addr Res packet	*/
++#define ETH_P_ATALK	0x809B		/* Appletalk DDP		*/
++#define ETH_P_AARP	0x80F3		/* Appletalk AARP		*/
++#define ETH_P_8021Q	0x8100          /* 802.1Q VLAN Extended Header */
++#define ETH_P_IPX	0x8137		/* IPX over DIX			*/
++#define ETH_P_IPV6	0x86DD		/* IPv6 over bluebook		*/
++#define ETH_P_PPP_DISC	0x8863		/* PPPoE discovery messages    */
++#define ETH_P_PPP_SES	0x8864		/* PPPoE session messages	*/
++#define ETH_P_ATMMPOA	0x884c		/* MultiProtocol Over ATM	*/
++#define ETH_P_ATMFATE	0x8884		/* Frame-based ATM Transport
++					 * over Ethernet
++					 */
++
++/*
++ *	Non DIX types. Won't clash for 1500 types.
++ */
++
++#define ETH_P_802_3	0x0001		/* Dummy type for 802.3 frames */
++#define ETH_P_AX25	0x0002		/* Dummy protocol id for AX.25 */
++#define ETH_P_ALL	0x0003		/* Every packet (be careful!!!) */
++#define ETH_P_802_2	0x0004		/* 802.2 frames 		*/
++#define ETH_P_SNAP	0x0005		/* Internal only		*/
++#define ETH_P_DDCMP     0x0006          /* DEC DDCMP: Internal only    */
++#define ETH_P_WAN_PPP   0x0007          /* Dummy type for WAN PPP frames*/
++#define ETH_P_PPP_MP    0x0008          /* Dummy type for PPP MP frames */
++#define ETH_P_LOCALTALK 0x0009		/* Localtalk pseudo type 	*/
++#define ETH_P_PPPTALK	0x0010		/* Dummy type for Atalk over PPP*/
++#define ETH_P_TR_802_2	0x0011		/* 802.2 frames 		*/
++#define ETH_P_MOBITEX	0x0015		/* Mobitex (kaz@cafe.net)	*/
++#define ETH_P_CONTROL	0x0016		/* Card specific control frames */
++#define ETH_P_IRDA	0x0017		/* Linux-IrDA			*/
++#define ETH_P_ECONET	0x0018		/* Acorn Econet			*/
++
++/*
++ *	This is an Ethernet frame header.
++ */
++
++struct ethhdr {
++	unsigned char	h_dest[ETH_ALEN];	/* destination eth addr	*/
++	unsigned char	h_source[ETH_ALEN];	/* source ether addr	*/
++	unsigned short	h_proto;		/* packet type ID field	*/
++};
++
++struct _vlan {
++	unsigned short       h_vlan_TCI;                /* Encapsulates priority and VLAN ID */
++	unsigned short       h_vlan_encapsulated_proto;
++};
++
++
++
++#define get_vlan_id(pvlan) ((ntohs((unsigned short)pvlan->h_vlan_TCI)) & 0xfff)
++#define get_vlan_priority(pvlan) ((ntohs((unsigned short)pvlan->h_vlan_TCI))>>13)
++#define get_vlan_encap_proto(pvlan) (ntohs((unsigned short)pvlan->h_vlan_encapsulated_proto))
++
++
++#endif	/* _LINUX_IF_ETHER_H */
+diff --git a/drivers/net/wireless/rtl8812au/include/ip.h b/drivers/net/wireless/rtl8812au/include/ip.h
+new file mode 100644
+index 0000000..c78034d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/ip.h
+@@ -0,0 +1,140 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _LINUX_IP_H
++#define _LINUX_IP_H
++
++/* SOL_IP socket options */
++
++#define IPTOS_TOS_MASK		0x1E
++#define IPTOS_TOS(tos)		((tos)&IPTOS_TOS_MASK)
++#define	IPTOS_LOWDELAY		0x10
++#define	IPTOS_THROUGHPUT	0x08
++#define	IPTOS_RELIABILITY	0x04
++#define	IPTOS_MINCOST		0x02
++
++#define IPTOS_PREC_MASK		0xE0
++#define IPTOS_PREC(tos)		((tos)&IPTOS_PREC_MASK)
++#define IPTOS_PREC_NETCONTROL           0xe0
++#define IPTOS_PREC_INTERNETCONTROL      0xc0
++#define IPTOS_PREC_CRITIC_ECP           0xa0
++#define IPTOS_PREC_FLASHOVERRIDE        0x80
++#define IPTOS_PREC_FLASH                0x60
++#define IPTOS_PREC_IMMEDIATE            0x40
++#define IPTOS_PREC_PRIORITY             0x20
++#define IPTOS_PREC_ROUTINE              0x00
++
++
++/* IP options */
++#define IPOPT_COPY		0x80
++#define IPOPT_CLASS_MASK	0x60
++#define IPOPT_NUMBER_MASK	0x1f
++
++#define	IPOPT_COPIED(o)		((o)&IPOPT_COPY)
++#define	IPOPT_CLASS(o)		((o)&IPOPT_CLASS_MASK)
++#define	IPOPT_NUMBER(o)		((o)&IPOPT_NUMBER_MASK)
++
++#define	IPOPT_CONTROL		0x00
++#define	IPOPT_RESERVED1		0x20
++#define	IPOPT_MEASUREMENT	0x40
++#define	IPOPT_RESERVED2		0x60
++
++#define IPOPT_END	(0 | IPOPT_CONTROL)
++#define IPOPT_NOOP	(1 | IPOPT_CONTROL)
++#define IPOPT_SEC	(2 | IPOPT_CONTROL | IPOPT_COPY)
++#define IPOPT_LSRR	(3 | IPOPT_CONTROL | IPOPT_COPY)
++#define IPOPT_TIMESTAMP	(4 | IPOPT_MEASUREMENT)
++#define IPOPT_RR	(7 | IPOPT_CONTROL)
++#define IPOPT_SID	(8 | IPOPT_CONTROL | IPOPT_COPY)
++#define IPOPT_SSRR	(9 | IPOPT_CONTROL | IPOPT_COPY)
++#define IPOPT_RA	(20 | IPOPT_CONTROL | IPOPT_COPY)
++
++#define IPVERSION	4
++#define MAXTTL		255
++#define IPDEFTTL	64
++
++/* struct timestamp, struct route and MAX_ROUTES are removed.
++
++   REASONS: it is clear that nobody used them because:
++   - MAX_ROUTES value was wrong.
++   - "struct route" was wrong.
++   - "struct timestamp" had fatally misaligned bitfields and was completely unusable.
++ */
++
++#define IPOPT_OPTVAL 0
++#define IPOPT_OLEN   1
++#define IPOPT_OFFSET 2
++#define IPOPT_MINOFF 4
++#define MAX_IPOPTLEN 40
++#define IPOPT_NOP IPOPT_NOOP
++#define IPOPT_EOL IPOPT_END
++#define IPOPT_TS  IPOPT_TIMESTAMP
++
++#define	IPOPT_TS_TSONLY		0		/* timestamps only */
++#define	IPOPT_TS_TSANDADDR	1		/* timestamps and addresses */
++#define	IPOPT_TS_PRESPEC	3		/* specified modules only */
++
++#ifdef PLATFORM_LINUX
++
++struct ip_options {
++	__u32		faddr;				/* Saved first hop address */
++	unsigned char	optlen;
++	unsigned char srr;
++	unsigned char rr;
++	unsigned char ts;
++	unsigned char is_setbyuser:1,			/* Set by setsockopt?			*/
++		 is_data:1,			/* Options in __data, rather than skb	*/
++		 is_strictroute:1,		/* Strict source route			*/
++		 srr_is_hit:1,			/* Packet destination addr was our one	*/
++		 is_changed:1,			/* IP checksum more not valid		*/
++		 rr_needaddr:1,			/* Need to record addr of outgoing dev	*/
++		 ts_needtime:1,			/* Need to record timestamp		*/
++		 ts_needaddr:1;			/* Need to record addr of outgoing dev */
++	unsigned char router_alert;
++	unsigned char __pad1;
++	unsigned char __pad2;
++	unsigned char __data[0];
++};
++
++#define optlength(opt) (sizeof(struct ip_options) + opt->optlen)
++#endif
++
++struct iphdr {
++#if defined(__LITTLE_ENDIAN_BITFIELD)
++	__u8	ihl:4,
++		version:4;
++#elif defined (__BIG_ENDIAN_BITFIELD)
++	__u8	version:4,
++		ihl:4;
++#else
++#error	"Please fix <asm/byteorder.h>"
++#endif
++	__u8	tos;
++	__u16	tot_len;
++	__u16	id;
++	__u16	frag_off;
++	__u8	ttl;
++	__u8	protocol;
++	__u16	check;
++	__u32	saddr;
++	__u32	daddr;
++	/*The options start here. */
++};
++
++#endif	/* _LINUX_IP_H */
+diff --git a/drivers/net/wireless/rtl8812au/include/linux/wireless.h b/drivers/net/wireless/rtl8812au/include/linux/wireless.h
+new file mode 100644
+index 0000000..b4bb716
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/linux/wireless.h
+@@ -0,0 +1,92 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef _LINUX_WIRELESS_H
++#define _LINUX_WIRELESS_H
++
++/***************************** INCLUDES *****************************/
++
++#if 0
++	#include <linux/types.h>		/* for __u* and __s* typedefs */
++	#include <linux/socket.h>		/* for "struct sockaddr" et al	*/
++	#include <linux/if.h>			/* for IFNAMSIZ and co... */
++#else
++	#define __user
++	/* typedef uint16_t	__u16; */
++	#include <sys/socket.h>			/* for "struct sockaddr" et al	*/
++	#include <net/if.h>			/* for IFNAMSIZ and co... */
++#endif
++
++/****************************** TYPES ******************************/
++#ifdef CONFIG_COMPAT
++struct compat_iw_point {
++	compat_caddr_t pointer;
++	__u16 length;
++	__u16 flags;
++};
++#endif
++/* --------------------------- SUBTYPES --------------------------- */
++/*
++ *	For all data larger than 16 octets, we need to use a
++ *	pointer to memory allocated in user space.
++ */
++struct	iw_point {
++	void __user	*pointer;	/* Pointer to the data  (in user space) */
++	__u16		length;		/* number of fields or size in bytes */
++	__u16		flags;		/* Optional params */
++};
++
++
++/* ------------------------ IOCTL REQUEST ------------------------ */
++/*
++ * This structure defines the payload of an ioctl, and is used
++ * below.
++ *
++ * Note that this structure should fit on the memory footprint
++ * of iwreq (which is the same as ifreq), which mean a max size of
++ * 16 octets = 128 bits. Warning, pointers might be 64 bits wide...
++ * You should check this when increasing the structures defined
++ * above in this file...
++ */
++union	iwreq_data {
++	/* Config - generic */
++	char		name[IFNAMSIZ];
++	/* Name : used to verify the presence of  wireless extensions.
++	 * Name of the protocol/provider... */
++
++	struct iw_point	data;		/* Other large parameters */
++};
++
++/*
++ * The structure to exchange data for ioctl.
++ * This structure is the same as 'struct ifreq', but (re)defined for
++ * convenience...
++ * Do I need to remind you about structure size (32 octets) ?
++ */
++struct	iwreq {
++	union {
++		char	ifrn_name[IFNAMSIZ];	/* if name, e.g. "eth0" */
++	} ifr_ifrn;
++
++	/* Data part (defined just above) */
++	union	iwreq_data	u;
++};
++
++#endif	/* _LINUX_WIRELESS_H */
+diff --git a/drivers/net/wireless/rtl8812au/include/mlme_osdep.h b/drivers/net/wireless/rtl8812au/include/mlme_osdep.h
+new file mode 100644
+index 0000000..8dcc589
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/mlme_osdep.h
+@@ -0,0 +1,36 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef	__MLME_OSDEP_H_
++#define __MLME_OSDEP_H_
++
++
++#if defined(PLATFORM_WINDOWS) || defined(PLATFORM_MPIXEL)
++	extern int time_after(u32 now, u32 old);
++#endif
++
++extern void rtw_init_mlme_timer(_adapter *padapter);
++extern void rtw_os_indicate_disconnect(_adapter *adapter, u16 reason, u8 locally_generated);
++extern void rtw_os_indicate_connect(_adapter *adapter);
++void rtw_os_indicate_scan_done(_adapter *padapter, bool aborted);
++extern void rtw_report_sec_ie(_adapter *adapter, u8 authmode, u8 *sec_ie);
++
++void rtw_reset_securitypriv(_adapter *adapter);
++
++#endif /* _MLME_OSDEP_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/mp_custom_oid.h b/drivers/net/wireless/rtl8812au/include/mp_custom_oid.h
+new file mode 100644
+index 0000000..7ca76ad
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/mp_custom_oid.h
+@@ -0,0 +1,353 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef	__CUSTOM_OID_H
++#define __CUSTOM_OID_H
++
++/* by Owen
++ * 0xFF818000 - 0xFF81802F		RTL8180 Mass Production Kit
++ * 0xFF818500 - 0xFF81850F		RTL8185 Setup Utility
++ * 0xFF818580 - 0xFF81858F		RTL8185 Phy Status Utility */
++
++/*  */
++
++/* by Owen for Production Kit
++ * For Production Kit with Agilent Equipments
++ * in order to make our custom oids hopefully somewhat unique
++ * we will use 0xFF (indicating implementation specific OID)
++ * 81(first byte of non zero Realtek unique identifier)
++ * 80 (second byte of non zero Realtek unique identifier)
++ * XX (the custom OID number - providing 255 possible custom oids) */
++
++#define OID_RT_PRO_RESET_DUT				0xFF818000
++#define OID_RT_PRO_SET_DATA_RATE			0xFF818001
++#define OID_RT_PRO_START_TEST				0xFF818002
++#define OID_RT_PRO_STOP_TEST			0xFF818003
++#define OID_RT_PRO_SET_PREAMBLE				0xFF818004
++#define OID_RT_PRO_SET_SCRAMBLER			0xFF818005
++#define OID_RT_PRO_SET_FILTER_BB			0xFF818006
++#define OID_RT_PRO_SET_MANUAL_DIVERSITY_BB		0xFF818007
++#define OID_RT_PRO_SET_CHANNEL_DIRECT_CALL		0xFF818008
++#define OID_RT_PRO_SET_SLEEP_MODE_DIRECT_CALL		0xFF818009
++#define OID_RT_PRO_SET_WAKE_MODE_DIRECT_CALL		0xFF81800A
++
++#define OID_RT_PRO_SET_TX_ANTENNA_BB			0xFF81800D
++#define OID_RT_PRO_SET_ANTENNA_BB			0xFF81800E
++#define OID_RT_PRO_SET_CR_SCRAMBLER			0xFF81800F
++#define OID_RT_PRO_SET_CR_NEW_FILTER			0xFF818010
++#define OID_RT_PRO_SET_TX_POWER_CONTROL			0xFF818011
++#define OID_RT_PRO_SET_CR_TX_CONFIG			0xFF818012
++#define OID_RT_PRO_GET_TX_POWER_CONTROL			0xFF818013
++#define OID_RT_PRO_GET_CR_SIGNAL_QUALITY		0xFF818014
++#define OID_RT_PRO_SET_CR_SETPOINT			0xFF818015
++#define OID_RT_PRO_SET_INTEGRATOR			0xFF818016
++#define OID_RT_PRO_SET_SIGNAL_QUALITY			0xFF818017
++#define OID_RT_PRO_GET_INTEGRATOR			0xFF818018
++#define OID_RT_PRO_GET_SIGNAL_QUALITY			0xFF818019
++#define OID_RT_PRO_QUERY_EEPROM_TYPE			0xFF81801A
++#define OID_RT_PRO_WRITE_MAC_ADDRESS			0xFF81801B
++#define OID_RT_PRO_READ_MAC_ADDRESS			0xFF81801C
++#define OID_RT_PRO_WRITE_CIS_DATA			0xFF81801D
++#define OID_RT_PRO_READ_CIS_DATA			0xFF81801E
++#define OID_RT_PRO_WRITE_POWER_CONTROL			0xFF81801F
++#define OID_RT_PRO_READ_POWER_CONTROL			0xFF818020
++#define OID_RT_PRO_WRITE_EEPROM				0xFF818021
++#define OID_RT_PRO_READ_EEPROM				0xFF818022
++#define OID_RT_PRO_RESET_TX_PACKET_SENT			0xFF818023
++#define OID_RT_PRO_QUERY_TX_PACKET_SENT			0xFF818024
++#define OID_RT_PRO_RESET_RX_PACKET_RECEIVED		0xFF818025
++#define OID_RT_PRO_QUERY_RX_PACKET_RECEIVED		0xFF818026
++#define OID_RT_PRO_QUERY_RX_PACKET_CRC32_ERROR		0xFF818027
++#define OID_RT_PRO_QUERY_CURRENT_ADDRESS		0xFF818028
++#define OID_RT_PRO_QUERY_PERMANENT_ADDRESS		0xFF818029
++#define OID_RT_PRO_SET_PHILIPS_RF_PARAMETERS		0xFF81802A
++#define OID_RT_PRO_RECEIVE_PACKET			0xFF81802C
++/* added by Owen on 04/08/03 for Cameo's request */
++#define OID_RT_PRO_WRITE_EEPROM_BYTE			0xFF81802D
++#define OID_RT_PRO_READ_EEPROM_BYTE			0xFF81802E
++#define OID_RT_PRO_SET_MODULATION			0xFF81802F
++/*  */
++
++/* Sean		 */
++#define OID_RT_DRIVER_OPTION				0xFF818080
++#define OID_RT_RF_OFF					0xFF818081
++#define OID_RT_AUTH_STATUS				0xFF818082
++
++/* ************************************************************************ */
++#define OID_RT_PRO_SET_CONTINUOUS_TX			0xFF81800B
++#define OID_RT_PRO_SET_SINGLE_CARRIER_TX		0xFF81800C
++#define OID_RT_PRO_SET_CARRIER_SUPPRESSION_TX		0xFF81802B
++#define OID_RT_PRO_SET_SINGLE_TONE_TX			0xFF818043
++/* ************************************************************************ */
++
++
++/* by Owen for RTL8185 Phy Status Report Utility */
++#define OID_RT_UTILITY_FALSE_ALARM_COUNTERS				0xFF818580
++#define OID_RT_UTILITY_SELECT_DEBUG_MODE				0xFF818581
++#define OID_RT_UTILITY_SELECT_SUBCARRIER_NUMBER				0xFF818582
++#define OID_RT_UTILITY_GET_RSSI_STATUS					0xFF818583
++#define OID_RT_UTILITY_GET_FRAME_DETECTION_STATUS			0xFF818584
++#define OID_RT_UTILITY_GET_AGC_AND_FREQUENCY_OFFSET_ESTIMATION_STATUS	0xFF818585
++#define OID_RT_UTILITY_GET_CHANNEL_ESTIMATION_STATUS			0xFF818586
++/*  */
++
++/* by Owen on 03/09/19-03/09/22 for RTL8185 */
++#define OID_RT_WIRELESS_MODE				0xFF818500
++#define OID_RT_SUPPORTED_RATES				0xFF818501
++#define OID_RT_DESIRED_RATES				0xFF818502
++#define OID_RT_WIRELESS_MODE_STARTING_ADHOC		0xFF818503
++/*  */
++
++#define OID_RT_GET_CONNECT_STATE	0xFF030001
++#define OID_RT_RESCAN		0xFF030002
++#define OID_RT_SET_KEY_LENGTH				0xFF030003
++#define OID_RT_SET_DEFAULT_KEY_ID			0xFF030004
++
++#define OID_RT_SET_CHANNEL				0xFF010182
++#define OID_RT_SET_SNIFFER_MODE	0xFF010183
++#define OID_RT_GET_SIGNAL_QUALITY	0xFF010184
++#define OID_RT_GET_SMALL_PACKET_CRC			0xFF010185
++#define OID_RT_GET_MIDDLE_PACKET_CRC			0xFF010186
++#define OID_RT_GET_LARGE_PACKET_CRC			0xFF010187
++#define OID_RT_GET_TX_RETRY				0xFF010188
++#define OID_RT_GET_RX_RETRY				0xFF010189
++#define OID_RT_PRO_SET_FW_DIG_STATE			0xFF01018A/* S */
++#define OID_RT_PRO_SET_FW_RA_STATE			0xFF01018B/* S */
++
++#define OID_RT_GET_RX_TOTAL_PACKET			0xFF010190
++#define OID_RT_GET_TX_BEACON_OK				0xFF010191
++#define OID_RT_GET_TX_BEACON_ERR			0xFF010192
++#define OID_RT_GET_RX_ICV_ERR				0xFF010193
++#define OID_RT_SET_ENCRYPTION_ALGORITHM			0xFF010194
++#define OID_RT_SET_NO_AUTO_RESCAN			0xFF010195
++#define OID_RT_GET_PREAMBLE_MODE			0xFF010196
++#define OID_RT_GET_DRIVER_UP_DELTA_TIME			0xFF010197
++#define OID_RT_GET_AP_IP				0xFF010198
++#define OID_RT_GET_CHANNELPLAN				0xFF010199
++#define OID_RT_SET_PREAMBLE_MODE			0xFF01019A
++#define OID_RT_SET_BCN_INTVL				0xFF01019B
++#define OID_RT_GET_RF_VENDER				0xFF01019C
++#define OID_RT_DEDICATE_PROBE				0xFF01019D
++#define OID_RT_PRO_RX_FILTER_PATTERN			0xFF01019E
++
++#define OID_RT_GET_DCST_CURRENT_THRESHOLD		0xFF01019F
++
++#define OID_RT_GET_CCA_ERR				0xFF0101A0
++#define OID_RT_GET_CCA_UPGRADE_THRESHOLD		0xFF0101A1
++#define OID_RT_GET_CCA_FALLBACK_THRESHOLD		0xFF0101A2
++
++#define OID_RT_GET_CCA_UPGRADE_EVALUATE_TIMES		0xFF0101A3
++#define OID_RT_GET_CCA_FALLBACK_EVALUATE_TIMES		0xFF0101A4
++
++/* by Owen on 03/31/03 for Cameo's request */
++#define OID_RT_SET_RATE_ADAPTIVE			0xFF0101A5
++/*  */
++#define OID_RT_GET_DCST_EVALUATE_PERIOD			0xFF0101A5
++#define OID_RT_GET_DCST_TIME_UNIT_INDEX			0xFF0101A6
++#define OID_RT_GET_TOTAL_TX_BYTES			0xFF0101A7
++#define OID_RT_GET_TOTAL_RX_BYTES			0xFF0101A8
++#define OID_RT_CURRENT_TX_POWER_LEVEL			0xFF0101A9
++#define OID_RT_GET_ENC_KEY_MISMATCH_COUNT		0xFF0101AA
++#define OID_RT_GET_ENC_KEY_MATCH_COUNT			0xFF0101AB
++#define OID_RT_GET_CHANNEL				0xFF0101AC
++
++#define OID_RT_SET_CHANNELPLAN				0xFF0101AD
++#define OID_RT_GET_HARDWARE_RADIO_OFF			0xFF0101AE
++#define OID_RT_CHANNELPLAN_BY_COUNTRY			0xFF0101AF
++#define OID_RT_SCAN_AVAILABLE_BSSID			0xFF0101B0
++#define OID_RT_GET_HARDWARE_VERSION			0xFF0101B1
++#define OID_RT_GET_IS_ROAMING				0xFF0101B2
++#define OID_RT_GET_IS_PRIVACY				0xFF0101B3
++#define OID_RT_GET_KEY_MISMATCH				0xFF0101B4
++#define OID_RT_SET_RSSI_ROAM_TRAFFIC_TH			0xFF0101B5
++#define OID_RT_SET_RSSI_ROAM_SIGNAL_TH			0xFF0101B6
++#define OID_RT_RESET_LOG				0xFF0101B7
++#define OID_RT_GET_LOG					0xFF0101B8
++#define OID_RT_SET_INDICATE_HIDDEN_AP			0xFF0101B9
++#define OID_RT_GET_HEADER_FAIL				0xFF0101BA
++#define OID_RT_SUPPORTED_WIRELESS_MODE			0xFF0101BB
++#define OID_RT_GET_CHANNEL_LIST				0xFF0101BC
++#define OID_RT_GET_SCAN_IN_PROGRESS			0xFF0101BD
++#define OID_RT_GET_TX_INFO				0xFF0101BE
++#define OID_RT_RF_READ_WRITE_OFFSET			0xFF0101BF
++#define OID_RT_RF_READ_WRITE				0xFF0101C0
++
++/* For Netgear request. 2005.01.13, by rcnjko. */
++#define OID_RT_FORCED_DATA_RATE				0xFF0101C1
++#define OID_RT_WIRELESS_MODE_FOR_SCAN_LIST		0xFF0101C2
++/* For Netgear request. 2005.02.17, by rcnjko. */
++#define OID_RT_GET_BSS_WIRELESS_MODE			0xFF0101C3
++/* For AZ project. 2005.06.27, by rcnjko. */
++#define OID_RT_SCAN_WITH_MAGIC_PACKET			0xFF0101C4
++
++/* Vincent 8185MP */
++#define OID_RT_PRO_RX_FILTER				0xFF0111C0
++
++/* Andy TEST
++ * #define OID_RT_PRO_WRITE_REGISTRY			0xFF0111C1
++ * #define OID_RT_PRO_READ_REGISTRY			0xFF0111C2 */
++#define OID_CE_USB_WRITE_REGISTRY			0xFF0111C1
++#define OID_CE_USB_READ_REGISTRY			0xFF0111C2
++
++
++#define OID_RT_PRO_SET_INITIAL_GAIN			0xFF0111C3
++#define OID_RT_PRO_SET_BB_RF_STANDBY_MODE		0xFF0111C4
++#define OID_RT_PRO_SET_BB_RF_SHUTDOWN_MODE		0xFF0111C5
++#define OID_RT_PRO_SET_TX_CHARGE_PUMP			0xFF0111C6
++#define OID_RT_PRO_SET_RX_CHARGE_PUMP			0xFF0111C7
++#define OID_RT_PRO_RF_WRITE_REGISTRY			0xFF0111C8
++#define OID_RT_PRO_RF_READ_REGISTRY			0xFF0111C9
++#define OID_RT_PRO_QUERY_RF_TYPE			0xFF0111CA
++
++/* AP OID */
++#define OID_RT_AP_GET_ASSOCIATED_STATION_LIST		0xFF010300
++#define OID_RT_AP_GET_CURRENT_TIME_STAMP		0xFF010301
++#define OID_RT_AP_SWITCH_INTO_AP_MODE			0xFF010302
++#define OID_RT_AP_SET_DTIM_PERIOD			0xFF010303
++#define OID_RT_AP_SUPPORTED				0xFF010304	/* Determine if driver supports AP mode. 2004.08.27, by rcnjko. */
++#define OID_RT_AP_SET_PASSPHRASE			0xFF010305	/* Set WPA-PSK passphrase into authenticator. 2005.07.08, byrcnjko. */
++
++/* 8187MP. 2004.09.06, by rcnjko. */
++#define OID_RT_PRO8187_WI_POLL				0xFF818780
++#define OID_RT_PRO_WRITE_BB_REG				0xFF818781
++#define OID_RT_PRO_READ_BB_REG				0xFF818782
++#define OID_RT_PRO_WRITE_RF_REG				0xFF818783
++#define OID_RT_PRO_READ_RF_REG				0xFF818784
++
++/* Meeting House. added by Annie, 2005-07-20. */
++#define OID_RT_MH_VENDER_ID				0xFFEDC100
++
++/* 8711 MP OID added 20051230. */
++#define OID_RT_PRO8711_JOIN_BSS				0xFF871100/* S */
++
++#define OID_RT_PRO_READ_REGISTER			0xFF871101 /* Q */
++#define OID_RT_PRO_WRITE_REGISTER			0xFF871102 /* S */
++
++#define OID_RT_PRO_BURST_READ_REGISTER			0xFF871103 /* Q		 */
++#define OID_RT_PRO_BURST_WRITE_REGISTER 		0xFF871104 /* S */
++
++#define OID_RT_PRO_WRITE_TXCMD				0xFF871105 /* S */
++
++#define OID_RT_PRO_READ16_EEPROM			0xFF871106 /* Q */
++#define OID_RT_PRO_WRITE16_EEPROM			0xFF871107 /* S */
++
++#define OID_RT_PRO_H2C_SET_COMMAND			0xFF871108 /* S */
++#define OID_RT_PRO_H2C_QUERY_RESULT			0xFF871109 /* Q */
++
++#define OID_RT_PRO8711_WI_POLL				0xFF87110A /* Q */
++#define OID_RT_PRO8711_PKT_LOSS				0xFF87110B /* Q */
++#define OID_RT_RD_ATTRIB_MEM				0xFF87110C/* Q */
++#define OID_RT_WR_ATTRIB_MEM				0xFF87110D/* S */
++
++
++/* Method 2 for H2C/C2H */
++#define OID_RT_PRO_H2C_CMD_MODE				0xFF871110 /* S */
++#define OID_RT_PRO_H2C_CMD_RSP_MODE			0xFF871111 /* Q */
++#define OID_RT_PRO_H2C_CMD_EVENT_MODE			0xFF871112 /* S */
++#define OID_RT_PRO_WAIT_C2H_EVENT			0xFF871113 /* Q */
++#define OID_RT_PRO_RW_ACCESS_PROTOCOL_TEST		0xFF871114/* Q */
++
++#define OID_RT_PRO_SCSI_ACCESS_TEST			0xFF871115 /* Q, S */
++
++#define OID_RT_PRO_SCSI_TCPIPOFFLOAD_OUT		0xFF871116 /* S */
++#define OID_RT_PRO_SCSI_TCPIPOFFLOAD_IN			0xFF871117 /* Q, S */
++#define OID_RT_RRO_RX_PKT_VIA_IOCTRL			0xFF871118 /* Q */
++#define OID_RT_RRO_RX_PKTARRAY_VIA_IOCTRL		0xFF871119 /* Q */
++
++#define OID_RT_RPO_SET_PWRMGT_TEST			0xFF87111A /* S */
++#define OID_RT_PRO_QRY_PWRMGT_TEST			0XFF87111B /* Q */
++#define OID_RT_RPO_ASYNC_RWIO_TEST			0xFF87111C /* S */
++#define OID_RT_RPO_ASYNC_RWIO_POLL			0xFF87111D /* Q */
++#define OID_RT_PRO_SET_RF_INTFS				0xFF87111E /* S */
++#define OID_RT_POLL_RX_STATUS				0xFF87111F /* Q */
++
++#define OID_RT_PRO_CFG_DEBUG_MESSAGE			0xFF871120 /* Q, S */
++#define OID_RT_PRO_SET_DATA_RATE_EX			0xFF871121/* S */
++#define OID_RT_PRO_SET_BASIC_RATE			0xFF871122/* S */
++#define OID_RT_PRO_READ_TSSI				0xFF871123/* S */
++#define OID_RT_PRO_SET_POWER_TRACKING			0xFF871124/* S */
++
++
++#define OID_RT_PRO_QRY_PWRSTATE				0xFF871150 /* Q */
++#define OID_RT_PRO_SET_PWRSTATE				0xFF871151 /* S */
++
++/* Method 2 , using workitem */
++#define OID_RT_SET_READ_REG				0xFF871181 /* S */
++#define OID_RT_SET_WRITE_REG				0xFF871182 /* S */
++#define OID_RT_SET_BURST_READ_REG			0xFF871183 /* S */
++#define OID_RT_SET_BURST_WRITE_REG			0xFF871184 /* S */
++#define OID_RT_SET_WRITE_TXCMD				0xFF871185 /* S */
++#define OID_RT_SET_READ16_EEPROM			0xFF871186 /* S */
++#define OID_RT_SET_WRITE16_EEPROM			0xFF871187 /* S */
++#define OID_RT_QRY_POLL_WKITEM				0xFF871188 /* Q */
++
++/* For SDIO INTERFACE only */
++#define OID_RT_PRO_SYNCPAGERW_SRAM			0xFF8711A0 /* Q, S */
++#define OID_RT_PRO_871X_DRV_EXT			0xFF8711A1
++
++/* For USB INTERFACE only */
++#define OID_RT_PRO_USB_VENDOR_REQ			0xFF8711B0 /* Q, S */
++#define OID_RT_PRO_SCSI_AUTO_TEST			0xFF8711B1 /* S */
++#define OID_RT_PRO_USB_MAC_AC_FIFO_WRITE		0xFF8711B2 /* S */
++#define OID_RT_PRO_USB_MAC_RX_FIFO_READ			0xFF8711B3 /* Q */
++#define OID_RT_PRO_USB_MAC_RX_FIFO_POLLING		0xFF8711B4 /* Q */
++
++#define OID_RT_PRO_H2C_SET_RATE_TABLE			0xFF8711FB /* S */
++#define OID_RT_PRO_H2C_GET_RATE_TABLE			0xFF8711FC /* S */
++#define OID_RT_PRO_H2C_C2H_LBK_TEST			0xFF8711FE
++
++#define OID_RT_PRO_ENCRYPTION_CTRL			0xFF871200 /* Q, S */
++#define OID_RT_PRO_ADD_STA_INFO				0xFF871201 /* S */
++#define OID_RT_PRO_DELE_STA_INFO    			0xFF871202 /* S */
++#define OID_RT_PRO_QUERY_DR_VARIABLE   			0xFF871203 /* Q */
++
++#define OID_RT_PRO_RX_PACKET_TYPE			0xFF871204 /* Q, S */
++
++#define OID_RT_PRO_READ_EFUSE				0xFF871205 /* Q */
++#define OID_RT_PRO_WRITE_EFUSE				0xFF871206 /* S */
++#define OID_RT_PRO_RW_EFUSE_PGPKT			0xFF871207 /* Q, S */
++#define OID_RT_GET_EFUSE_CURRENT_SIZE			0xFF871208 /* Q */
++
++#define OID_RT_SET_BANDWIDTH				0xFF871209 /* S */
++#define OID_RT_SET_CRYSTAL_CAP				0xFF87120A /* S */
++
++#define OID_RT_SET_RX_PACKET_TYPE    			0xFF87120B /* S */
++
++#define OID_RT_GET_EFUSE_MAX_SIZE			0xFF87120C /* Q */
++
++#define OID_RT_PRO_SET_TX_AGC_OFFSET			0xFF87120D /* S */
++
++#define OID_RT_PRO_SET_PKT_TEST_MODE			0xFF87120E /* S */
++
++#define OID_RT_PRO_FOR_EVM_TEST_SETTING			0xFF87120F /* S */
++
++#define OID_RT_PRO_GET_THERMAL_METER			0xFF871210 /* Q */
++
++#define OID_RT_RESET_PHY_RX_PACKET_COUNT		0xFF871211 /* S */
++#define OID_RT_GET_PHY_RX_PACKET_RECEIVED		0xFF871212 /* Q */
++#define OID_RT_GET_PHY_RX_PACKET_CRC32_ERROR		0xFF871213 /* Q */
++
++#define OID_RT_SET_POWER_DOWN				0xFF871214 /* S */
++
++#define OID_RT_GET_POWER_MODE				0xFF871215 /* Q */
++
++#define OID_RT_PRO_EFUSE				0xFF871216 /* Q, S */
++#define OID_RT_PRO_EFUSE_MAP				0xFF871217 /* Q, S */
++
++#endif /* #ifndef	__CUSTOM_OID_H */
+diff --git a/drivers/net/wireless/rtl8812au/include/nic_spec.h b/drivers/net/wireless/rtl8812au/include/nic_spec.h
+new file mode 100644
+index 0000000..c0a952f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/nic_spec.h
+@@ -0,0 +1,46 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#ifndef __NIC_SPEC_H__
++#define __NIC_SPEC_H__
++
++#include <drv_conf.h>
++
++#define RTL8711_MCTRL_		(0x20000)
++#define RTL8711_UART_		(0x30000)
++#define RTL8711_TIMER_		(0x40000)
++#define RTL8711_FINT_		(0x50000)
++#define RTL8711_HINT_		(0x50000)
++#define RTL8711_GPIO_		(0x60000)
++#define RTL8711_WLANCTRL_	(0x200000)
++#define RTL8711_WLANFF_		(0xe00000)
++#define RTL8711_HCICTRL_	(0x600000)
++#define RTL8711_SYSCFG_		(0x620000)
++#define RTL8711_SYSCTRL_	(0x620000)
++#define RTL8711_MCCTRL_		(0x020000)
++
++
++#include <rtl8711_regdef.h>
++
++#include <rtl8711_bitdef.h>
++
++
++#endif /* __RTL8711_SPEC_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/osdep_intf.h b/drivers/net/wireless/rtl8812au/include/osdep_intf.h
+new file mode 100644
+index 0000000..a73ed28
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/osdep_intf.h
+@@ -0,0 +1,167 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __OSDEP_INTF_H_
++#define __OSDEP_INTF_H_
++
++
++struct intf_priv {
++
++	u8 *intf_dev;
++	u32	max_iosz;	/* USB2.0: 128, USB1.1: 64, SDIO:64 */
++	u32	max_xmitsz; /* USB2.0: unlimited, SDIO:512 */
++	u32	max_recvsz; /* USB2.0: unlimited, SDIO:512 */
++
++	volatile u8 *io_rwmem;
++	volatile u8 *allocated_io_rwmem;
++	u32	io_wsz; /* unit: 4bytes */
++	u32	io_rsz;/* unit: 4bytes */
++	u8 intf_status;
++
++	void (*_bus_io)(u8 *priv);
++
++	/*
++	Under Sync. IRP (SDIO/USB)
++	A protection mechanism is necessary for the io_rwmem(read/write protocol)
++
++	Under Async. IRP (SDIO/USB)
++	The protection mechanism is through the pending queue.
++	*/
++
++	_mutex ioctl_mutex;
++
++
++#ifdef PLATFORM_LINUX
++#ifdef CONFIG_USB_HCI
++	/* when in USB, IO is through interrupt in/out endpoints */
++	struct usb_device	*udev;
++	PURB	piorw_urb;
++	u8 io_irp_cnt;
++	u8 bio_irp_pending;
++	_sema io_retevt;
++	_timer	io_timer;
++	u8 bio_irp_timeout;
++	u8 bio_timer_cancel;
++#endif
++#endif
++
++#ifdef PLATFORM_OS_XP
++#ifdef CONFIG_SDIO_HCI
++	/* below is for io_rwmem... */
++	PMDL pmdl;
++	PSDBUS_REQUEST_PACKET  sdrp;
++	PSDBUS_REQUEST_PACKET  recv_sdrp;
++	PSDBUS_REQUEST_PACKET  xmit_sdrp;
++
++	PIRP		piorw_irp;
++
++#endif
++#ifdef CONFIG_USB_HCI
++	PURB	piorw_urb;
++	PIRP		piorw_irp;
++	u8 io_irp_cnt;
++	u8 bio_irp_pending;
++	_sema io_retevt;
++#endif
++#endif
++
++};
++
++
++#ifdef CONFIG_R871X_TEST
++	int rtw_start_pseudo_adhoc(_adapter *padapter);
++	int rtw_stop_pseudo_adhoc(_adapter *padapter);
++#endif
++
++struct dvobj_priv *devobj_init(void);
++void devobj_deinit(struct dvobj_priv *pdvobj);
++
++u8 rtw_init_drv_sw(_adapter *padapter);
++u8 rtw_free_drv_sw(_adapter *padapter);
++u8 rtw_reset_drv_sw(_adapter *padapter);
++void rtw_dev_unload(PADAPTER padapter);
++
++u32 rtw_start_drv_threads(_adapter *padapter);
++void rtw_stop_drv_threads(_adapter *padapter);
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++void rtw_cancel_dynamic_chk_timer(_adapter *padapter);
++#endif
++void rtw_cancel_all_timer(_adapter *padapter);
++
++uint loadparam(_adapter *adapter);
++
++#ifdef PLATFORM_LINUX
++int rtw_ioctl(struct net_device *dev, struct ifreq *rq, int cmd);
++
++int rtw_init_netdev_name(struct net_device *pnetdev, const char *ifname);
++struct net_device *rtw_init_netdev(_adapter *padapter);
++
++void rtw_os_ndev_free(_adapter *adapter);
++int rtw_os_ndev_init(_adapter *adapter, char *name);
++void rtw_os_ndev_deinit(_adapter *adapter);
++void rtw_os_ndevs_unregister(struct dvobj_priv *dvobj);
++int rtw_os_ndevs_init(struct dvobj_priv *dvobj);
++void rtw_os_ndevs_deinit(struct dvobj_priv *dvobj);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++u16 rtw_recv_select_queue(struct sk_buff *skb);
++#endif /* LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35) */
++
++int rtw_ndev_notifier_register(void);
++void rtw_ndev_notifier_unregister(void);
++
++#include "../os_dep/linux/rtw_proc.h"
++
++#ifdef CONFIG_IOCTL_CFG80211
++	#include "../os_dep/linux/ioctl_cfg80211.h"
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++#endif /* PLATFORM_LINUX */
++
++
++#ifdef PLATFORM_FREEBSD
++extern int rtw_ioctl(struct ifnet *ifp, u_long cmd, caddr_t data);
++#endif
++
++void rtw_ips_dev_unload(_adapter *padapter);
++
++#ifdef CONFIG_IPS
++int rtw_ips_pwr_up(_adapter *padapter);
++void rtw_ips_pwr_down(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++struct _io_ops;
++struct dvobj_priv;
++_adapter *rtw_drv_add_vir_if(_adapter *primary_padapter, void (*set_intf_ops)(_adapter *primary_padapter, struct _io_ops *pops));
++void rtw_drv_stop_vir_ifaces(struct dvobj_priv *dvobj);
++void rtw_drv_free_vir_ifaces(struct dvobj_priv *dvobj);
++#endif
++
++void rtw_ndev_destructor(_nic_hdl ndev);
++
++#ifdef CONFIG_ARP_KEEP_ALIVE
++int	rtw_gw_addr_query(_adapter *padapter);
++#endif
++
++int rtw_suspend_common(_adapter *padapter);
++int rtw_resume_common(_adapter *padapter);
++
++#endif /* _OSDEP_INTF_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/osdep_service.h b/drivers/net/wireless/rtl8812au/include/osdep_service.h
+new file mode 100644
+index 0000000..c2c2905
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/osdep_service.h
+@@ -0,0 +1,666 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __OSDEP_SERVICE_H_
++#define __OSDEP_SERVICE_H_
++
++
++#define _FAIL		0
++#define _SUCCESS	1
++#define RTW_RX_HANDLED 2
++/* #define RTW_STATUS_TIMEDOUT -110 */
++
++#undef _TRUE
++#define _TRUE		1
++
++#undef _FALSE
++#define _FALSE		0
++
++
++#ifdef PLATFORM_FREEBSD
++	#include <osdep_service_bsd.h>
++#endif
++
++#ifdef PLATFORM_LINUX
++	#include <osdep_service_linux.h>
++#endif
++
++#ifdef PLATFORM_OS_XP
++	#include <osdep_service_xp.h>
++#endif
++
++#ifdef PLATFORM_OS_CE
++	#include <osdep_service_ce.h>
++#endif
++
++#define RTW_TIMER_HDL_NAME(name) rtw_##name##_timer_hdl
++#define RTW_DECLARE_TIMER_HDL(name) void RTW_TIMER_HDL_NAME(name)(RTW_TIMER_HDL_ARGS)
++
++/* #include <rtw_byteorder.h> */
++
++#ifndef BIT
++	#define BIT(x)	(1 << (x))
++#endif
++
++#define BIT0	0x00000001
++#define BIT1	0x00000002
++#define BIT2	0x00000004
++#define BIT3	0x00000008
++#define BIT4	0x00000010
++#define BIT5	0x00000020
++#define BIT6	0x00000040
++#define BIT7	0x00000080
++#define BIT8	0x00000100
++#define BIT9	0x00000200
++#define BIT10	0x00000400
++#define BIT11	0x00000800
++#define BIT12	0x00001000
++#define BIT13	0x00002000
++#define BIT14	0x00004000
++#define BIT15	0x00008000
++#define BIT16	0x00010000
++#define BIT17	0x00020000
++#define BIT18	0x00040000
++#define BIT19	0x00080000
++#define BIT20	0x00100000
++#define BIT21	0x00200000
++#define BIT22	0x00400000
++#define BIT23	0x00800000
++#define BIT24	0x01000000
++#define BIT25	0x02000000
++#define BIT26	0x04000000
++#define BIT27	0x08000000
++#define BIT28	0x10000000
++#define BIT29	0x20000000
++#define BIT30	0x40000000
++#define BIT31	0x80000000
++#define BIT32	0x0100000000
++#define BIT33	0x0200000000
++#define BIT34	0x0400000000
++#define BIT35	0x0800000000
++#define BIT36	0x1000000000
++
++extern int RTW_STATUS_CODE(int error_code);
++
++#ifndef RTK_DMP_PLATFORM
++	#define CONFIG_USE_VMALLOC
++#endif
++
++/* flags used for rtw_mstat_update() */
++enum mstat_f {
++	/* type: 0x00ff */
++	MSTAT_TYPE_VIR = 0x00,
++	MSTAT_TYPE_PHY = 0x01,
++	MSTAT_TYPE_SKB = 0x02,
++	MSTAT_TYPE_USB = 0x03,
++	MSTAT_TYPE_MAX = 0x04,
++
++	/* func: 0xff00 */
++	MSTAT_FUNC_UNSPECIFIED = 0x00 << 8,
++	MSTAT_FUNC_IO = 0x01 << 8,
++	MSTAT_FUNC_TX_IO = 0x02 << 8,
++	MSTAT_FUNC_RX_IO = 0x03 << 8,
++	MSTAT_FUNC_TX = 0x04 << 8,
++	MSTAT_FUNC_RX = 0x05 << 8,
++	MSTAT_FUNC_CFG_VENDOR = 0x06 << 8,
++	MSTAT_FUNC_MAX = 0x07 << 8,
++};
++
++#define mstat_tf_idx(flags) ((flags) & 0xff)
++#define mstat_ff_idx(flags) (((flags) & 0xff00) >> 8)
++
++typedef enum mstat_status {
++	MSTAT_ALLOC_SUCCESS = 0,
++	MSTAT_ALLOC_FAIL,
++	MSTAT_FREE
++} MSTAT_STATUS;
++
++#ifdef DBG_MEM_ALLOC
++void rtw_mstat_update(const enum mstat_f flags, const MSTAT_STATUS status, u32 sz);
++void rtw_mstat_dump(void *sel);
++u8 *dbg_rtw_vmalloc(u32 sz, const enum mstat_f flags, const char *func, const int line);
++u8 *dbg_rtw_zvmalloc(u32 sz, const enum mstat_f flags, const char *func, const int line);
++void dbg_rtw_vmfree(u8 *pbuf, const enum mstat_f flags, u32 sz, const char *func, const int line);
++u8 *dbg_rtw_malloc(u32 sz, const enum mstat_f flags, const char *func, const int line);
++u8 *dbg_rtw_zmalloc(u32 sz, const enum mstat_f flags, const char *func, const int line);
++void dbg_rtw_mfree(u8 *pbuf, const enum mstat_f flags, u32 sz, const char *func, const int line);
++
++struct sk_buff *dbg_rtw_skb_alloc(unsigned int size, const enum mstat_f flags, const char *func, const int line);
++void dbg_rtw_skb_free(struct sk_buff *skb, const enum mstat_f flags, const char *func, const int line);
++struct sk_buff *dbg_rtw_skb_copy(const struct sk_buff *skb, const enum mstat_f flags, const char *func, const int line);
++struct sk_buff *dbg_rtw_skb_clone(struct sk_buff *skb, const enum mstat_f flags, const char *func, const int line);
++int dbg_rtw_netif_rx(_nic_hdl ndev, struct sk_buff *skb, const enum mstat_f flags, const char *func, int line);
++void dbg_rtw_skb_queue_purge(struct sk_buff_head *list, enum mstat_f flags, const char *func, int line);
++#ifdef CONFIG_USB_HCI
++void *dbg_rtw_usb_buffer_alloc(struct usb_device *dev, size_t size, dma_addr_t *dma, const enum mstat_f flags, const char *func, const int line);
++void dbg_rtw_usb_buffer_free(struct usb_device *dev, size_t size, void *addr, dma_addr_t dma, const enum mstat_f flags, const char *func, const int line);
++#endif /* CONFIG_USB_HCI */
++
++#ifdef CONFIG_USE_VMALLOC
++#define rtw_vmalloc(sz)			dbg_rtw_vmalloc((sz), MSTAT_TYPE_VIR, __FUNCTION__, __LINE__)
++#define rtw_zvmalloc(sz)			dbg_rtw_zvmalloc((sz), MSTAT_TYPE_VIR, __FUNCTION__, __LINE__)
++#define rtw_vmfree(pbuf, sz)		dbg_rtw_vmfree((pbuf), (sz), MSTAT_TYPE_VIR, __FUNCTION__, __LINE__)
++#define rtw_vmalloc_f(sz, mstat_f)			dbg_rtw_vmalloc((sz), ((mstat_f) & 0xff00) | MSTAT_TYPE_VIR, __FUNCTION__, __LINE__)
++#define rtw_zvmalloc_f(sz, mstat_f)		dbg_rtw_zvmalloc((sz), ((mstat_f) & 0xff00) | MSTAT_TYPE_VIR, __FUNCTION__, __LINE__)
++#define rtw_vmfree_f(pbuf, sz, mstat_f)	dbg_rtw_vmfree((pbuf), (sz), ((mstat_f) & 0xff00) | MSTAT_TYPE_VIR, __FUNCTION__, __LINE__)
++#else /* CONFIG_USE_VMALLOC */
++#define rtw_vmalloc(sz)			dbg_rtw_malloc((sz), MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_zvmalloc(sz)			dbg_rtw_zmalloc((sz), MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_vmfree(pbuf, sz)		dbg_rtw_mfree((pbuf), (sz), MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_vmalloc_f(sz, mstat_f)			dbg_rtw_malloc((sz), ((mstat_f) & 0xff00) | MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_zvmalloc_f(sz, mstat_f)		dbg_rtw_zmalloc((sz), ((mstat_f) & 0xff00) | MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_vmfree_f(pbuf, sz, mstat_f)	dbg_rtw_mfree((pbuf), (sz), ((mstat_f) & 0xff00) | MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#endif /* CONFIG_USE_VMALLOC */
++#define rtw_malloc(sz)			dbg_rtw_malloc((sz), MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_zmalloc(sz)			dbg_rtw_zmalloc((sz), MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_mfree(pbuf, sz)		dbg_rtw_mfree((pbuf), (sz), MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_malloc_f(sz, mstat_f)			dbg_rtw_malloc((sz), ((mstat_f) & 0xff00) | MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_zmalloc_f(sz, mstat_f)			dbg_rtw_zmalloc((sz), ((mstat_f) & 0xff00) | MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++#define rtw_mfree_f(pbuf, sz, mstat_f)		dbg_rtw_mfree((pbuf), (sz), ((mstat_f) & 0xff00) | MSTAT_TYPE_PHY, __FUNCTION__, __LINE__)
++
++#define rtw_skb_alloc(size)	dbg_rtw_skb_alloc((size), MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_free(skb)	dbg_rtw_skb_free((skb), MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_alloc_f(size, mstat_f)	dbg_rtw_skb_alloc((size), ((mstat_f) & 0xff00) | MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_free_f(skb, mstat_f)	dbg_rtw_skb_free((skb), ((mstat_f) & 0xff00) | MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_copy(skb)	dbg_rtw_skb_copy((skb), MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_clone(skb)	dbg_rtw_skb_clone((skb), MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_copy_f(skb, mstat_f)	dbg_rtw_skb_copy((skb), ((mstat_f) & 0xff00) | MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_clone_f(skb, mstat_f)	dbg_rtw_skb_clone((skb), ((mstat_f) & 0xff00) | MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_netif_rx(ndev, skb)	dbg_rtw_netif_rx(ndev, skb, MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#define rtw_skb_queue_purge(sk_buff_head) dbg_rtw_skb_queue_purge(sk_buff_head, MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#ifdef CONFIG_USB_HCI
++#define rtw_usb_buffer_alloc(dev, size, dma)		dbg_rtw_usb_buffer_alloc((dev), (size), (dma), MSTAT_TYPE_USB, __FUNCTION__, __LINE__)
++#define rtw_usb_buffer_free(dev, size, addr, dma)	dbg_rtw_usb_buffer_free((dev), (size), (addr), (dma), MSTAT_TYPE_USB, __FUNCTION__, __LINE__)
++#define rtw_usb_buffer_alloc_f(dev, size, dma, mstat_f)			dbg_rtw_usb_buffer_alloc((dev), (size), (dma), ((mstat_f) & 0xff00) | MSTAT_TYPE_USB, __FUNCTION__, __LINE__)
++#define rtw_usb_buffer_free_f(dev, size, addr, dma, mstat_f)	dbg_rtw_usb_buffer_free((dev), (size), (addr), (dma), ((mstat_f) & 0xff00) | MSTAT_TYPE_USB, __FUNCTION__, __LINE__)
++#endif /* CONFIG_USB_HCI */
++
++#else /* DBG_MEM_ALLOC */
++#define rtw_mstat_update(flag, status, sz) do {} while (0)
++#define rtw_mstat_dump(sel) do {} while (0)
++u8 *_rtw_vmalloc(u32 sz);
++u8 *_rtw_zvmalloc(u32 sz);
++void	_rtw_vmfree(u8 *pbuf, u32 sz);
++u8 *_rtw_zmalloc(u32 sz);
++u8 *_rtw_malloc(u32 sz);
++void	_rtw_mfree(u8 *pbuf, u32 sz);
++
++struct sk_buff *_rtw_skb_alloc(u32 sz);
++void _rtw_skb_free(struct sk_buff *skb);
++struct sk_buff *_rtw_skb_copy(const struct sk_buff *skb);
++struct sk_buff *_rtw_skb_clone(struct sk_buff *skb);
++int _rtw_netif_rx(_nic_hdl ndev, struct sk_buff *skb);
++void _rtw_skb_queue_purge(struct sk_buff_head *list);
++
++#ifdef CONFIG_USB_HCI
++void *_rtw_usb_buffer_alloc(struct usb_device *dev, size_t size, dma_addr_t *dma);
++void _rtw_usb_buffer_free(struct usb_device *dev, size_t size, void *addr, dma_addr_t dma);
++#endif /* CONFIG_USB_HCI */
++
++#ifdef CONFIG_USE_VMALLOC
++#define rtw_vmalloc(sz)			_rtw_vmalloc((sz))
++#define rtw_zvmalloc(sz)			_rtw_zvmalloc((sz))
++#define rtw_vmfree(pbuf, sz)		_rtw_vmfree((pbuf), (sz))
++#define rtw_vmalloc_f(sz, mstat_f)			_rtw_vmalloc((sz))
++#define rtw_zvmalloc_f(sz, mstat_f)		_rtw_zvmalloc((sz))
++#define rtw_vmfree_f(pbuf, sz, mstat_f)	_rtw_vmfree((pbuf), (sz))
++#else /* CONFIG_USE_VMALLOC */
++#define rtw_vmalloc(sz)			_rtw_malloc((sz))
++#define rtw_zvmalloc(sz)			_rtw_zmalloc((sz))
++#define rtw_vmfree(pbuf, sz)		_rtw_mfree((pbuf), (sz))
++#define rtw_vmalloc_f(sz, mstat_f)			_rtw_malloc((sz))
++#define rtw_zvmalloc_f(sz, mstat_f)		_rtw_zmalloc((sz))
++#define rtw_vmfree_f(pbuf, sz, mstat_f)	_rtw_mfree((pbuf), (sz))
++#endif /* CONFIG_USE_VMALLOC */
++#define rtw_malloc(sz)			_rtw_malloc((sz))
++#define rtw_zmalloc(sz)			_rtw_zmalloc((sz))
++#define rtw_mfree(pbuf, sz)		_rtw_mfree((pbuf), (sz))
++#define rtw_malloc_f(sz, mstat_f)			_rtw_malloc((sz))
++#define rtw_zmalloc_f(sz, mstat_f)			_rtw_zmalloc((sz))
++#define rtw_mfree_f(pbuf, sz, mstat_f)		_rtw_mfree((pbuf), (sz))
++
++#define rtw_skb_alloc(size) _rtw_skb_alloc((size))
++#define rtw_skb_free(skb) _rtw_skb_free((skb))
++#define rtw_skb_alloc_f(size, mstat_f)	_rtw_skb_alloc((size))
++#define rtw_skb_free_f(skb, mstat_f)	_rtw_skb_free((skb))
++#define rtw_skb_copy(skb)	_rtw_skb_copy((skb))
++#define rtw_skb_clone(skb)	_rtw_skb_clone((skb))
++#define rtw_skb_copy_f(skb, mstat_f)	_rtw_skb_copy((skb))
++#define rtw_skb_clone_f(skb, mstat_f)	_rtw_skb_clone((skb))
++#define rtw_netif_rx(ndev, skb) _rtw_netif_rx(ndev, skb)
++#define rtw_skb_queue_purge(sk_buff_head) _rtw_skb_queue_purge(sk_buff_head)
++#ifdef CONFIG_USB_HCI
++#define rtw_usb_buffer_alloc(dev, size, dma) _rtw_usb_buffer_alloc((dev), (size), (dma))
++#define rtw_usb_buffer_free(dev, size, addr, dma) _rtw_usb_buffer_free((dev), (size), (addr), (dma))
++#define rtw_usb_buffer_alloc_f(dev, size, dma, mstat_f) _rtw_usb_buffer_alloc((dev), (size), (dma))
++#define rtw_usb_buffer_free_f(dev, size, addr, dma, mstat_f) _rtw_usb_buffer_free((dev), (size), (addr), (dma))
++#endif /* CONFIG_USB_HCI */
++#endif /* DBG_MEM_ALLOC */
++
++extern void	*rtw_malloc2d(int h, int w, size_t size);
++extern void	rtw_mfree2d(void *pbuf, int h, int w, int size);
++
++extern void	_rtw_memcpy(void *dec, const void *sour, u32 sz);
++extern void _rtw_memmove(void *dst, const void *src, u32 sz);
++extern int	_rtw_memcmp(const void *dst, const void *src, u32 sz);
++extern void	_rtw_memset(void *pbuf, int c, u32 sz);
++
++extern void	_rtw_init_listhead(_list *list);
++extern u32	rtw_is_list_empty(_list *phead);
++extern void	rtw_list_insert_head(_list *plist, _list *phead);
++extern void	rtw_list_insert_tail(_list *plist, _list *phead);
++#ifndef PLATFORM_FREEBSD
++extern void	rtw_list_delete(_list *plist);
++#endif /* PLATFORM_FREEBSD */
++
++extern void	_rtw_init_sema(_sema *sema, int init_val);
++extern void	_rtw_free_sema(_sema	*sema);
++extern void	_rtw_up_sema(_sema	*sema);
++extern u32	_rtw_down_sema(_sema *sema);
++extern void	_rtw_mutex_init(_mutex *pmutex);
++extern void	_rtw_mutex_free(_mutex *pmutex);
++#ifndef PLATFORM_FREEBSD
++extern void	_rtw_spinlock_init(_lock *plock);
++#endif /* PLATFORM_FREEBSD */
++extern void	_rtw_spinlock_free(_lock *plock);
++extern void	_rtw_spinlock(_lock	*plock);
++extern void	_rtw_spinunlock(_lock	*plock);
++extern void	_rtw_spinlock_ex(_lock	*plock);
++extern void	_rtw_spinunlock_ex(_lock	*plock);
++
++extern void	_rtw_init_queue(_queue *pqueue);
++extern void _rtw_deinit_queue(_queue *pqueue);
++extern u32	_rtw_queue_empty(_queue	*pqueue);
++extern u32	rtw_end_of_queue_search(_list *queue, _list *pelement);
++
++extern u32	rtw_get_current_time(void);
++extern u32	rtw_systime_to_ms(u32 systime);
++extern u32	rtw_ms_to_systime(u32 ms);
++extern s32	rtw_get_passing_time_ms(u32 start);
++extern s32	rtw_get_time_interval_ms(u32 start, u32 end);
++
++extern void	rtw_sleep_schedulable(int ms);
++
++extern void	rtw_msleep_os(int ms);
++extern void	rtw_usleep_os(int us);
++
++extern u32	rtw_atoi(u8 *s);
++
++#ifdef DBG_DELAY_OS
++#define rtw_mdelay_os(ms) _rtw_mdelay_os((ms), __FUNCTION__, __LINE__)
++#define rtw_udelay_os(ms) _rtw_udelay_os((ms), __FUNCTION__, __LINE__)
++extern void _rtw_mdelay_os(int ms, const char *func, const int line);
++extern void _rtw_udelay_os(int us, const char *func, const int line);
++#else
++extern void	rtw_mdelay_os(int ms);
++extern void	rtw_udelay_os(int us);
++#endif
++
++extern void rtw_yield_os(void);
++
++
++extern void rtw_init_timer(_timer *ptimer, void *padapter, void *pfunc);
++
++
++__inline static unsigned char _cancel_timer_ex(_timer *ptimer)
++{
++#ifdef PLATFORM_LINUX
++	return del_timer_sync(ptimer);
++#endif
++#ifdef PLATFORM_FREEBSD
++	_cancel_timer(ptimer, 0);
++	return 0;
++#endif
++#ifdef PLATFORM_WINDOWS
++	u8 bcancelled;
++
++	_cancel_timer(ptimer, &bcancelled);
++
++	return bcancelled;
++#endif
++}
++
++static __inline void thread_enter(char *name)
++{
++#ifdef PLATFORM_LINUX
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++	daemonize("%s", name);
++#endif
++	allow_signal(SIGTERM);
++#endif
++#ifdef PLATFORM_FREEBSD
++	printf("%s", "RTKTHREAD_enter");
++#endif
++}
++
++__inline static void flush_signals_thread(void)
++{
++#ifdef PLATFORM_LINUX
++	if (signal_pending(current))
++		flush_signals(current);
++#endif
++}
++
++__inline static _OS_STATUS res_to_status(sint res)
++{
++
++#if defined(PLATFORM_LINUX) || defined (PLATFORM_MPIXEL) || defined (PLATFORM_FREEBSD)
++	return res;
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++	if (res == _SUCCESS)
++		return NDIS_STATUS_SUCCESS;
++	else
++		return NDIS_STATUS_FAILURE;
++
++#endif
++
++}
++
++__inline static void rtw_dump_stack(void)
++{
++#ifdef PLATFORM_LINUX
++	dump_stack();
++#endif
++}
++
++#ifdef PLATFORM_LINUX
++#define rtw_warn_on(condition) WARN_ON(condition)
++#else
++#define rtw_warn_on(condition) do {} while (0)
++#endif
++
++__inline static int rtw_bug_check(void *parg1, void *parg2, void *parg3, void *parg4)
++{
++	int ret = _TRUE;
++
++#ifdef PLATFORM_WINDOWS
++	if (((uint)parg1) <= 0x7fffffff ||
++	    ((uint)parg2) <= 0x7fffffff ||
++	    ((uint)parg3) <= 0x7fffffff ||
++	    ((uint)parg4) <= 0x7fffffff) {
++		ret = _FALSE;
++		KeBugCheckEx(0x87110000, (ULONG_PTR)parg1, (ULONG_PTR)parg2, (ULONG_PTR)parg3, (ULONG_PTR)parg4);
++	}
++#endif
++
++	return ret;
++
++}
++
++#define _RND(sz, r) ((((sz)+((r)-1))/(r))*(r))
++#define RND4(x)	(((x >> 2) + (((x & 3) == 0) ? 0 : 1)) << 2)
++
++__inline static u32 _RND4(u32 sz)
++{
++
++	u32	val;
++
++	val = ((sz >> 2) + ((sz & 3) ? 1 : 0)) << 2;
++
++	return val;
++
++}
++
++__inline static u32 _RND8(u32 sz)
++{
++
++	u32	val;
++
++	val = ((sz >> 3) + ((sz & 7) ? 1 : 0)) << 3;
++
++	return val;
++
++}
++
++__inline static u32 _RND128(u32 sz)
++{
++
++	u32	val;
++
++	val = ((sz >> 7) + ((sz & 127) ? 1 : 0)) << 7;
++
++	return val;
++
++}
++
++__inline static u32 _RND256(u32 sz)
++{
++
++	u32	val;
++
++	val = ((sz >> 8) + ((sz & 255) ? 1 : 0)) << 8;
++
++	return val;
++
++}
++
++__inline static u32 _RND512(u32 sz)
++{
++
++	u32	val;
++
++	val = ((sz >> 9) + ((sz & 511) ? 1 : 0)) << 9;
++
++	return val;
++
++}
++
++__inline static u32 bitshift(u32 bitmask)
++{
++	u32 i;
++
++	for (i = 0; i <= 31; i++)
++		if (((bitmask >> i) &  0x1) == 1)
++			break;
++
++	return i;
++}
++
++static inline int largest_bit(u32 bitmask)
++{
++	int i;
++
++	for (i = 31; i >= 0; i--)
++		if (bitmask & BIT(i))
++			break;
++
++	return i;
++}
++
++#define rtw_min(a, b) ((a > b) ? b : a)
++#define rtw_is_range_a_in_b(hi_a, lo_a, hi_b, lo_b) (((hi_a) <= (hi_b)) && ((lo_a) >= (lo_b)))
++#define rtw_is_range_overlap(hi_a, lo_a, hi_b, lo_b) (((hi_a) > (lo_b)) && ((lo_a) < (hi_b)))
++
++#ifndef MAC_FMT
++#define MAC_FMT "%02x:%02x:%02x:%02x:%02x:%02x"
++#endif
++#ifndef MAC_ARG
++#define MAC_ARG(x) ((u8 *)(x))[0], ((u8 *)(x))[1], ((u8 *)(x))[2], ((u8 *)(x))[3], ((u8 *)(x))[4], ((u8 *)(x))[5]
++#endif
++
++
++extern void rtw_suspend_lock_init(void);
++extern void rtw_suspend_lock_uninit(void);
++extern void rtw_lock_suspend(void);
++extern void rtw_unlock_suspend(void);
++extern void rtw_lock_suspend_timeout(u32 timeout_ms);
++extern void rtw_lock_ext_suspend_timeout(u32 timeout_ms);
++extern void rtw_lock_rx_suspend_timeout(u32 timeout_ms);
++extern void rtw_lock_traffic_suspend_timeout(u32 timeout_ms);
++extern void rtw_lock_resume_scan_timeout(u32 timeout_ms);
++extern void rtw_resume_lock_suspend(void);
++extern void rtw_resume_unlock_suspend(void);
++#ifdef CONFIG_AP_WOWLAN
++extern void rtw_softap_lock_suspend(void);
++extern void rtw_softap_unlock_suspend(void);
++#endif
++
++extern void ATOMIC_SET(ATOMIC_T *v, int i);
++extern int ATOMIC_READ(ATOMIC_T *v);
++extern void ATOMIC_ADD(ATOMIC_T *v, int i);
++extern void ATOMIC_SUB(ATOMIC_T *v, int i);
++extern void ATOMIC_INC(ATOMIC_T *v);
++extern void ATOMIC_DEC(ATOMIC_T *v);
++extern int ATOMIC_ADD_RETURN(ATOMIC_T *v, int i);
++extern int ATOMIC_SUB_RETURN(ATOMIC_T *v, int i);
++extern int ATOMIC_INC_RETURN(ATOMIC_T *v);
++extern int ATOMIC_DEC_RETURN(ATOMIC_T *v);
++
++/* File operation APIs, just for linux now */
++extern int rtw_is_file_readable(char *path);
++extern int rtw_retrieve_from_file(char *path, u8 *buf, u32 sz);
++extern int rtw_store_to_file(char *path, u8 *buf, u32 sz);
++
++
++#ifndef PLATFORM_FREEBSD
++extern void rtw_free_netdev(struct net_device *netdev);
++#endif /* PLATFORM_FREEBSD */
++
++
++extern u64 rtw_modular64(u64 x, u64 y);
++extern u64 rtw_division64(u64 x, u64 y);
++extern u32 rtw_random32(void);
++
++/* Macros for handling unaligned memory accesses */
++
++#define RTW_GET_BE16(a) ((u16) (((a)[0] << 8) | (a)[1]))
++#define RTW_PUT_BE16(a, val)			\
++	do {					\
++		(a)[0] = ((u16) (val)) >> 8;	\
++		(a)[1] = ((u16) (val)) & 0xff;	\
++	} while (0)
++
++#define RTW_GET_LE16(a) ((u16) (((a)[1] << 8) | (a)[0]))
++#define RTW_PUT_LE16(a, val)			\
++	do {					\
++		(a)[1] = ((u16) (val)) >> 8;	\
++		(a)[0] = ((u16) (val)) & 0xff;	\
++	} while (0)
++
++#define RTW_GET_BE24(a) ((((u32) (a)[0]) << 16) | (((u32) (a)[1]) << 8) | \
++			 ((u32) (a)[2]))
++#define RTW_PUT_BE24(a, val)					\
++	do {							\
++		(a)[0] = (u8) ((((u32) (val)) >> 16) & 0xff);	\
++		(a)[1] = (u8) ((((u32) (val)) >> 8) & 0xff);	\
++		(a)[2] = (u8) (((u32) (val)) & 0xff);		\
++	} while (0)
++
++#define RTW_GET_BE32(a) ((((u32) (a)[0]) << 24) | (((u32) (a)[1]) << 16) | \
++			 (((u32) (a)[2]) << 8) | ((u32) (a)[3]))
++#define RTW_PUT_BE32(a, val)					\
++	do {							\
++		(a)[0] = (u8) ((((u32) (val)) >> 24) & 0xff);	\
++		(a)[1] = (u8) ((((u32) (val)) >> 16) & 0xff);	\
++		(a)[2] = (u8) ((((u32) (val)) >> 8) & 0xff);	\
++		(a)[3] = (u8) (((u32) (val)) & 0xff);		\
++	} while (0)
++
++#define RTW_GET_LE32(a) ((((u32) (a)[3]) << 24) | (((u32) (a)[2]) << 16) | \
++			 (((u32) (a)[1]) << 8) | ((u32) (a)[0]))
++#define RTW_PUT_LE32(a, val)					\
++	do {							\
++		(a)[3] = (u8) ((((u32) (val)) >> 24) & 0xff);	\
++		(a)[2] = (u8) ((((u32) (val)) >> 16) & 0xff);	\
++		(a)[1] = (u8) ((((u32) (val)) >> 8) & 0xff);	\
++		(a)[0] = (u8) (((u32) (val)) & 0xff);		\
++	} while (0)
++
++#define RTW_GET_BE64(a) ((((u64) (a)[0]) << 56) | (((u64) (a)[1]) << 48) | \
++			 (((u64) (a)[2]) << 40) | (((u64) (a)[3]) << 32) | \
++			 (((u64) (a)[4]) << 24) | (((u64) (a)[5]) << 16) | \
++			 (((u64) (a)[6]) << 8) | ((u64) (a)[7]))
++#define RTW_PUT_BE64(a, val)				\
++	do {						\
++		(a)[0] = (u8) (((u64) (val)) >> 56);	\
++		(a)[1] = (u8) (((u64) (val)) >> 48);	\
++		(a)[2] = (u8) (((u64) (val)) >> 40);	\
++		(a)[3] = (u8) (((u64) (val)) >> 32);	\
++		(a)[4] = (u8) (((u64) (val)) >> 24);	\
++		(a)[5] = (u8) (((u64) (val)) >> 16);	\
++		(a)[6] = (u8) (((u64) (val)) >> 8);	\
++		(a)[7] = (u8) (((u64) (val)) & 0xff);	\
++	} while (0)
++
++#define RTW_GET_LE64(a) ((((u64) (a)[7]) << 56) | (((u64) (a)[6]) << 48) | \
++			 (((u64) (a)[5]) << 40) | (((u64) (a)[4]) << 32) | \
++			 (((u64) (a)[3]) << 24) | (((u64) (a)[2]) << 16) | \
++			 (((u64) (a)[1]) << 8) | ((u64) (a)[0]))
++
++void rtw_buf_free(u8 **buf, u32 *buf_len);
++void rtw_buf_update(u8 **buf, u32 *buf_len, u8 *src, u32 src_len);
++
++struct rtw_cbuf {
++	u32 write;
++	u32 read;
++	u32 size;
++	void *bufs[0];
++};
++
++bool rtw_cbuf_full(struct rtw_cbuf *cbuf);
++bool rtw_cbuf_empty(struct rtw_cbuf *cbuf);
++bool rtw_cbuf_push(struct rtw_cbuf *cbuf, void *buf);
++void *rtw_cbuf_pop(struct rtw_cbuf *cbuf);
++struct rtw_cbuf *rtw_cbuf_alloc(u32 size);
++void rtw_cbuf_free(struct rtw_cbuf *cbuf);
++
++struct map_seg_t {
++	u16 sa;
++	u16 len;
++	u8 *c;
++};
++
++struct map_t {
++	u16 len;
++	u16 seg_num;
++	u8 init_value;
++	struct map_seg_t *segs;
++};
++
++#define MAPSEG_ARRAY_ENT(_sa, _len, _c, arg...) \
++	{ .sa = _sa, .len = _len, .c = (u8[_len]){ _c, ##arg}, }
++
++#define MAPSEG_PTR_ENT(_sa, _len, _p) \
++	{ .sa = _sa, .len = _len, .c = _p, }
++
++#define MAP_ENT(_len, _seg_num, _init_v, _seg, arg...) \
++	{ .len = _len, .seg_num = _seg_num, .init_value = _init_v, .segs = (struct map_seg_t[_seg_num]){ _seg, ##arg}, }
++
++int map_readN(const struct map_t *map, u16 offset, u16 len, u8 *buf);
++u8 map_read8(const struct map_t *map, u16 offset);
++
++/* String handler */
++
++BOOLEAN IsHexDigit(char chTmp);
++BOOLEAN is_alpha(char chTmp);
++char alpha_to_upper(char c);
++
++/*
++ * Write formatted output to sized buffer
++ */
++#ifdef PLATFORM_LINUX
++#define rtw_sprintf(buf, size, format, arg...)	snprintf(buf, size, format, ##arg)
++#else /* !PLATFORM_LINUX */
++#error "NOT DEFINE \"rtw_sprintf\"!!"
++#endif /* !PLATFORM_LINUX */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/osdep_service_bsd.h b/drivers/net/wireless/rtl8812au/include/osdep_service_bsd.h
+new file mode 100644
+index 0000000..b56ccbb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/osdep_service_bsd.h
+@@ -0,0 +1,749 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __OSDEP_BSD_SERVICE_H_
++#define __OSDEP_BSD_SERVICE_H_
++
++
++#include <sys/cdefs.h>
++#include <sys/types.h>
++#include <sys/systm.h>
++#include <sys/param.h>
++#include <sys/sockio.h>
++#include <sys/sysctl.h>
++#include <sys/lock.h>
++#include <sys/mutex.h>
++#include <sys/mbuf.h>
++#include <sys/kernel.h>
++#include <sys/socket.h>
++#include <sys/systm.h>
++#include <sys/malloc.h>
++#include <sys/module.h>
++#include <sys/bus.h>
++#include <sys/endian.h>
++#include <sys/kdb.h>
++#include <sys/kthread.h>
++#include <sys/malloc.h>
++#include <sys/time.h>
++#include <machine/atomic.h>
++#include <machine/bus.h>
++#include <machine/resource.h>
++#include <sys/rman.h>
++
++#include <net/bpf.h>
++#include <net/if.h>
++#include <net/if_arp.h>
++#include <net/ethernet.h>
++#include <net/if_dl.h>
++#include <net/if_media.h>
++#include <net/if_types.h>
++#include <net/route.h>
++
++
++#include <netinet/in.h>
++#include <netinet/in_systm.h>
++#include <netinet/in_var.h>
++#include <netinet/if_ether.h>
++#include <if_ether.h>
++
++#include <net80211/ieee80211_var.h>
++#include <net80211/ieee80211_regdomain.h>
++#include <net80211/ieee80211_radiotap.h>
++#include <net80211/ieee80211_ratectl.h>
++
++#include <dev/usb/usb.h>
++#include <dev/usb/usbdi.h>
++#include "usbdevs.h"
++
++#define	USB_DEBUG_VAR rum_debug
++#include <dev/usb/usb_debug.h>
++
++#if 1 //Baron porting from linux, it's all temp solution, needs to check again
++#include <sys/sema.h>
++#include <sys/pcpu.h> /* XXX for PCPU_GET */
++//	typedef struct 	semaphore _sema;
++	typedef struct 	sema _sema;
++//	typedef	spinlock_t	_lock;
++	typedef	struct mtx	_lock;
++	typedef struct mtx 		_mutex;
++	typedef struct timer_list _timer;
++	struct list_head {
++	struct list_head *next, *prev;
++	};
++	struct	__queue	{
++		struct	list_head	queue;	
++		_lock	lock;
++	};
++
++	//typedef	struct sk_buff	_pkt;
++	typedef	struct mbuf	_pkt;
++	typedef struct mbuf	_buffer;
++	
++	typedef struct	__queue	_queue;
++	typedef struct	list_head	_list;
++	typedef	int	_OS_STATUS;
++	//typedef u32	_irqL;
++	typedef unsigned long _irqL;
++	typedef	struct	ifnet * _nic_hdl;
++	
++	typedef pid_t		_thread_hdl_;
++//	typedef struct thread		_thread_hdl_;
++	typedef void		thread_return;
++	typedef void*	thread_context;
++
++	//#define thread_exit() complete_and_exit(NULL, 0)
++
++	#define thread_exit() do{printf("%s", "RTKTHREAD_exit");}while(0)
++
++	typedef void timer_hdl_return;
++	typedef void* timer_hdl_context;
++	typedef struct work_struct _workitem;
++
++#define   KERNEL_VERSION(a,b,c) (((a) << 16) + ((b) << 8) + (c))
++/* emulate a modern version */
++#define LINUX_VERSION_CODE KERNEL_VERSION(2, 6, 35)
++
++#define WIRELESS_EXT -1
++#define HZ hz
++#define spin_lock_irqsave mtx_lock_irqsave
++#define spin_lock_bh mtx_lock_irqsave
++#define mtx_lock_irqsave(lock, x) mtx_lock(lock)//{local_irq_save((x)); mtx_lock_spin((lock));}
++//#define IFT_RTW	0xf9 //ifnet allocate type for RTW
++#define free_netdev if_free
++#define LIST_CONTAINOR(ptr, type, member) \
++        ((type *)((char *)(ptr)-(SIZE_T)(&((type *)0)->member)))
++#define container_of(p,t,n) (t*)((p)-&(((t*)0)->n))
++/* 
++ * Linux timers are emulated using FreeBSD callout functions
++ * (and taskqueue functionality).
++ *
++ * Currently no timer stats functionality.
++ *
++ * See (linux_compat) processes.c
++ *
++ */
++struct timer_list {
++
++        /* FreeBSD callout related fields */
++        struct callout callout;
++
++ 	//timeout function
++        void (*function)(void*);
++	//argument
++	 void *arg;
++        
++};
++struct workqueue_struct;
++struct work_struct;
++typedef void (*work_func_t)(struct work_struct *work);
++/* Values for the state of an item of work (work_struct) */
++typedef enum work_state {
++        WORK_STATE_UNSET = 0,
++        WORK_STATE_CALLOUT_PENDING = 1,
++        WORK_STATE_TASK_PENDING = 2,
++        WORK_STATE_WORK_CANCELLED = 3        
++} work_state_t;
++
++struct work_struct {
++        struct task task; /* FreeBSD task */
++        work_state_t state; /* the pending or otherwise state of work. */
++        work_func_t func;       
++};
++#define spin_unlock_irqrestore mtx_unlock_irqrestore
++#define spin_unlock_bh mtx_unlock_irqrestore
++#define mtx_unlock_irqrestore(lock,x)    mtx_unlock(lock);
++extern void	_rtw_spinlock_init(_lock *plock);
++
++//modify private structure to match freebsd
++#define BITS_PER_LONG 32
++union ktime {
++	s64	tv64;
++#if BITS_PER_LONG != 64 && !defined(CONFIG_KTIME_SCALAR)
++	struct {
++#ifdef __BIG_ENDIAN
++	s32	sec, nsec;
++#else
++	s32	nsec, sec;
++#endif
++	} tv;
++#endif
++};
++#define kmemcheck_bitfield_begin(name)
++#define kmemcheck_bitfield_end(name)
++#define CHECKSUM_NONE 0
++typedef unsigned char *sk_buff_data_t;
++typedef union ktime ktime_t;		/* Kill this */
++
++void rtw_mtx_lock(_lock *plock);
++	
++void rtw_mtx_unlock(_lock *plock);
++
++/** 
++ *	struct sk_buff - socket buffer
++ *	@next: Next buffer in list
++ *	@prev: Previous buffer in list
++ *	@sk: Socket we are owned by
++ *	@tstamp: Time we arrived
++ *	@dev: Device we arrived on/are leaving by
++ *	@transport_header: Transport layer header
++ *	@network_header: Network layer header
++ *	@mac_header: Link layer header
++ *	@_skb_refdst: destination entry (with norefcount bit)
++ *	@sp: the security path, used for xfrm
++ *	@cb: Control buffer. Free for use by every layer. Put private vars here
++ *	@len: Length of actual data
++ *	@data_len: Data length
++ *	@mac_len: Length of link layer header
++ *	@hdr_len: writable header length of cloned skb
++ *	@csum: Checksum (must include start/offset pair)
++ *	@csum_start: Offset from skb->head where checksumming should start
++ *	@csum_offset: Offset from csum_start where checksum should be stored
++ *	@local_df: allow local fragmentation
++ *	@cloned: Head may be cloned (check refcnt to be sure)
++ *	@nohdr: Payload reference only, must not modify header
++ *	@pkt_type: Packet class
++ *	@fclone: skbuff clone status
++ *	@ip_summed: Driver fed us an IP checksum
++ *	@priority: Packet queueing priority
++ *	@users: User count - see {datagram,tcp}.c
++ *	@protocol: Packet protocol from driver
++ *	@truesize: Buffer size 
++ *	@head: Head of buffer
++ *	@data: Data head pointer
++ *	@tail: Tail pointer
++ *	@end: End pointer
++ *	@destructor: Destruct function
++ *	@mark: Generic packet mark
++ *	@nfct: Associated connection, if any
++ *	@ipvs_property: skbuff is owned by ipvs
++ *	@peeked: this packet has been seen already, so stats have been
++ *		done for it, don't do them again
++ *	@nf_trace: netfilter packet trace flag
++ *	@nfctinfo: Relationship of this skb to the connection
++ *	@nfct_reasm: netfilter conntrack re-assembly pointer
++ *	@nf_bridge: Saved data about a bridged frame - see br_netfilter.c
++ *	@skb_iif: ifindex of device we arrived on
++ *	@rxhash: the packet hash computed on receive
++ *	@queue_mapping: Queue mapping for multiqueue devices
++ *	@tc_index: Traffic control index
++ *	@tc_verd: traffic control verdict
++ *	@ndisc_nodetype: router type (from link layer)
++ *	@dma_cookie: a cookie to one of several possible DMA operations
++ *		done by skb DMA functions
++ *	@secmark: security marking
++ *	@vlan_tci: vlan tag control information
++ */
++
++struct sk_buff {
++	/* These two members must be first. */
++	struct sk_buff		*next;
++	struct sk_buff		*prev;
++
++	ktime_t			tstamp;
++
++	struct sock		*sk;
++	//struct net_device	*dev;
++	struct ifnet *dev;
++
++	/*
++	 * This is the control buffer. It is free to use for every
++	 * layer. Please put your private variables there. If you
++	 * want to keep them across layers you have to do a skb_clone()
++	 * first. This is owned by whoever has the skb queued ATM.
++	 */
++	char			cb[48] __aligned(8);
++
++	unsigned long		_skb_refdst;
++#ifdef CONFIG_XFRM
++	struct	sec_path	*sp;
++#endif
++	unsigned int		len,
++				data_len;
++	u16			mac_len,
++				hdr_len;
++	union {
++		u32		csum;
++		struct {
++			u16	csum_start;
++			u16	csum_offset;
++		}smbol2;
++	}smbol1;
++	u32			priority;
++	kmemcheck_bitfield_begin(flags1);
++	u8			local_df:1,
++				cloned:1,
++				ip_summed:2,
++				nohdr:1,
++				nfctinfo:3;
++	u8			pkt_type:3,
++				fclone:2,
++				ipvs_property:1,
++				peeked:1,
++				nf_trace:1;
++	kmemcheck_bitfield_end(flags1);
++	u16			protocol;
++
++	void			(*destructor)(struct sk_buff *skb);
++#if defined(CONFIG_NF_CONNTRACK) || defined(CONFIG_NF_CONNTRACK_MODULE)
++	struct nf_conntrack	*nfct;
++	struct sk_buff		*nfct_reasm;
++#endif
++#ifdef CONFIG_BRIDGE_NETFILTER
++	struct nf_bridge_info	*nf_bridge;
++#endif
++
++	int			skb_iif;
++#ifdef CONFIG_NET_SCHED
++	u16			tc_index;	/* traffic control index */
++#ifdef CONFIG_NET_CLS_ACT
++	u16			tc_verd;	/* traffic control verdict */
++#endif
++#endif
++
++	u32			rxhash;
++
++	kmemcheck_bitfield_begin(flags2);
++	u16			queue_mapping:16;
++#ifdef CONFIG_IPV6_NDISC_NODETYPE
++	u8			ndisc_nodetype:2,
++				deliver_no_wcard:1;
++#else
++	u8			deliver_no_wcard:1;
++#endif
++	kmemcheck_bitfield_end(flags2);
++
++	/* 0/14 bit hole */
++
++#ifdef CONFIG_NET_DMA
++	dma_cookie_t		dma_cookie;
++#endif
++#ifdef CONFIG_NETWORK_SECMARK
++	u32			secmark;
++#endif
++	union {
++		u32		mark;
++		u32		dropcount;
++	}symbol3;
++
++	u16			vlan_tci;
++
++	sk_buff_data_t		transport_header;
++	sk_buff_data_t		network_header;
++	sk_buff_data_t		mac_header;
++	/* These elements must be at the end, see alloc_skb() for details.  */
++	sk_buff_data_t		tail;
++	sk_buff_data_t		end;
++	unsigned char		*head,
++				*data;
++	unsigned int		truesize;
++	atomic_t		users;
++};
++struct sk_buff_head {
++	/* These two members must be first. */
++	struct sk_buff	*next;
++	struct sk_buff	*prev;
++
++	u32		qlen;
++	_lock	lock;
++};
++#define skb_tail_pointer(skb)	skb->tail
++static inline unsigned char *skb_put(struct sk_buff *skb, unsigned int len)
++{
++	unsigned char *tmp = skb_tail_pointer(skb);
++	//SKB_LINEAR_ASSERT(skb);
++	skb->tail += len;
++	skb->len  += len;
++	return tmp;
++}
++
++static inline unsigned char *__skb_pull(struct sk_buff *skb, unsigned int len)
++{
++	skb->len -= len;
++	if(skb->len < skb->data_len)
++		printf("%s(),%d,error!\n",__FUNCTION__,__LINE__);
++	return skb->data += len;
++}
++static inline unsigned char *skb_pull(struct sk_buff *skb, unsigned int len)
++{
++	#ifdef PLATFORM_FREEBSD
++	return __skb_pull(skb, len);
++	#else
++	return unlikely(len > skb->len) ? NULL : __skb_pull(skb, len);
++	#endif //PLATFORM_FREEBSD
++}
++static inline u32 skb_queue_len(const struct sk_buff_head *list_)
++{
++	return list_->qlen;
++}
++static inline void __skb_insert(struct sk_buff *newsk,
++				struct sk_buff *prev, struct sk_buff *next,
++				struct sk_buff_head *list)
++{
++	newsk->next = next;
++	newsk->prev = prev;
++	next->prev  = prev->next = newsk;
++	list->qlen++;
++}
++static inline void __skb_queue_before(struct sk_buff_head *list,
++				      struct sk_buff *next,
++				      struct sk_buff *newsk)
++{
++	__skb_insert(newsk, next->prev, next, list);
++}
++static inline void skb_queue_tail(struct sk_buff_head *list,
++				   struct sk_buff *newsk)
++{
++	mtx_lock(&list->lock);
++	__skb_queue_before(list, (struct sk_buff *)list, newsk);
++	mtx_unlock(&list->lock);
++}
++static inline struct sk_buff *skb_peek(struct sk_buff_head *list_)
++{
++	struct sk_buff *list = ((struct sk_buff *)list_)->next;
++	if (list == (struct sk_buff *)list_)
++		list = NULL;
++	return list;
++}
++static inline void __skb_unlink(struct sk_buff *skb, struct sk_buff_head *list)
++{
++	struct sk_buff *next, *prev;
++
++	list->qlen--;
++	next	   = skb->next;
++	prev	   = skb->prev;
++	skb->next  = skb->prev = NULL;
++	next->prev = prev;
++	prev->next = next;
++}
++
++static inline struct sk_buff *skb_dequeue(struct sk_buff_head *list)
++{
++	mtx_lock(&list->lock);
++
++	struct sk_buff *skb = skb_peek(list);
++	if (skb)
++		__skb_unlink(skb, list);
++
++	mtx_unlock(&list->lock);
++
++	return skb;
++}
++static inline void skb_reserve(struct sk_buff *skb, int len)
++{
++	skb->data += len;
++	skb->tail += len;
++}
++static inline void __skb_queue_head_init(struct sk_buff_head *list)
++{
++	list->prev = list->next = (struct sk_buff *)list;
++	list->qlen = 0;
++}
++/*
++ * This function creates a split out lock class for each invocation;
++ * this is needed for now since a whole lot of users of the skb-queue
++ * infrastructure in drivers have different locking usage (in hardirq)
++ * than the networking core (in softirq only). In the long run either the
++ * network layer or drivers should need annotation to consolidate the
++ * main types of usage into 3 classes.
++ */
++static inline void skb_queue_head_init(struct sk_buff_head *list)
++{
++	_rtw_spinlock_init(&list->lock);
++	__skb_queue_head_init(list);
++}
++unsigned long copy_from_user(void *to, const void *from, unsigned long n);
++unsigned long copy_to_user(void *to, const void *from, unsigned long n);
++struct sk_buff * dev_alloc_skb(unsigned int size);
++struct sk_buff *skb_clone(const struct sk_buff *skb);
++void dev_kfree_skb_any(struct sk_buff *skb);
++#endif //Baron porting from linux, it's all temp solution, needs to check again
++
++
++#if 1 // kenny add Linux compatibility code for Linux USB driver
++#include <dev/usb/usb_compat_linux.h>
++
++#define __init		// __attribute ((constructor))
++#define __exit		// __attribute ((destructor))
++
++/*
++ * Definitions for module_init and module_exit macros.
++ *
++ * These macros will use the SYSINIT framework to call a specified
++ * function (with no arguments) on module loading or unloading.
++ * 
++ */
++
++void module_init_exit_wrapper(void *arg);
++
++#define module_init(initfn)                             \
++        SYSINIT(mod_init_ ## initfn,                    \
++                SI_SUB_KLD, SI_ORDER_FIRST,             \
++                module_init_exit_wrapper, initfn)
++
++#define module_exit(exitfn)                             \
++        SYSUNINIT(mod_exit_ ## exitfn,                  \
++                  SI_SUB_KLD, SI_ORDER_ANY,             \
++                  module_init_exit_wrapper, exitfn)
++
++/*
++ * The usb_register and usb_deregister functions are used to register
++ * usb drivers with the usb subsystem. 
++ */
++int usb_register(struct usb_driver *driver);
++int usb_deregister(struct usb_driver *driver);
++
++/*
++ * usb_get_dev and usb_put_dev - increment/decrement the reference count 
++ * of the usb device structure.
++ *
++ * Original body of usb_get_dev:
++ *
++ *       if (dev)
++ *               get_device(&dev->dev);
++ *       return dev;
++ *
++ * Reference counts are not currently used in this compatibility
++ * layer. So these functions will do nothing.
++ */
++static inline struct usb_device *
++usb_get_dev(struct usb_device *dev)
++{
++        return dev;
++}
++
++static inline void 
++usb_put_dev(struct usb_device *dev)
++{
++        return;
++}
++
++
++// rtw_usb_compat_linux
++int rtw_usb_submit_urb(struct urb *urb, uint16_t mem_flags);
++int rtw_usb_unlink_urb(struct urb *urb);
++int rtw_usb_clear_halt(struct usb_device *dev, struct usb_host_endpoint *uhe);
++int rtw_usb_control_msg(struct usb_device *dev, struct usb_host_endpoint *uhe,
++    uint8_t request, uint8_t requesttype,
++    uint16_t value, uint16_t index, void *data,
++    uint16_t size, usb_timeout_t timeout);
++int rtw_usb_set_interface(struct usb_device *dev, uint8_t iface_no, uint8_t alt_index);
++int rtw_usb_setup_endpoint(struct usb_device *dev,
++    struct usb_host_endpoint *uhe, usb_size_t bufsize);
++struct urb *rtw_usb_alloc_urb(uint16_t iso_packets, uint16_t mem_flags);
++struct usb_host_endpoint *rtw_usb_find_host_endpoint(struct usb_device *dev, uint8_t type, uint8_t ep);
++struct usb_host_interface *rtw_usb_altnum_to_altsetting(const struct usb_interface *intf, uint8_t alt_index);
++struct usb_interface *rtw_usb_ifnum_to_if(struct usb_device *dev, uint8_t iface_no);
++void *rtw_usbd_get_intfdata(struct usb_interface *intf);
++void rtw_usb_linux_register(void *arg);
++void rtw_usb_linux_deregister(void *arg);
++void rtw_usb_linux_free_device(struct usb_device *dev);
++void rtw_usb_free_urb(struct urb *urb);
++void rtw_usb_init_urb(struct urb *urb);
++void rtw_usb_kill_urb(struct urb *urb);
++void rtw_usb_set_intfdata(struct usb_interface *intf, void *data);
++void rtw_usb_fill_bulk_urb(struct urb *urb, struct usb_device *udev,
++    struct usb_host_endpoint *uhe, void *buf,
++    int length, usb_complete_t callback, void *arg);
++int rtw_usb_bulk_msg(struct usb_device *udev, struct usb_host_endpoint *uhe,
++    void *data, int len, uint16_t *pactlen, usb_timeout_t timeout);
++void *usb_get_intfdata(struct usb_interface *intf);
++int usb_linux_init_endpoints(struct usb_device *udev);
++
++
++
++typedef struct urb *  PURB;
++
++typedef unsigned gfp_t;
++#define __GFP_WAIT      ((gfp_t)0x10u)  /* Can wait and reschedule? */
++#define __GFP_HIGH      ((gfp_t)0x20u)  /* Should access emergency pools? */
++#define __GFP_IO        ((gfp_t)0x40u)  /* Can start physical IO? */
++#define __GFP_FS        ((gfp_t)0x80u)  /* Can call down to low-level FS? */
++#define __GFP_COLD      ((gfp_t)0x100u) /* Cache-cold page required */
++#define __GFP_NOWARN    ((gfp_t)0x200u) /* Suppress page allocation failure warning */
++#define __GFP_REPEAT    ((gfp_t)0x400u) /* Retry the allocation.  Might fail */
++#define __GFP_NOFAIL    ((gfp_t)0x800u) /* Retry for ever.  Cannot fail */
++#define __GFP_NORETRY   ((gfp_t)0x1000u)/* Do not retry.  Might fail */
++#define __GFP_NO_GROW   ((gfp_t)0x2000u)/* Slab internal usage */
++#define __GFP_COMP      ((gfp_t)0x4000u)/* Add compound page metadata */
++#define __GFP_ZERO      ((gfp_t)0x8000u)/* Return zeroed page on success */
++#define __GFP_NOMEMALLOC ((gfp_t)0x10000u) /* Don't use emergency reserves */
++#define __GFP_HARDWALL   ((gfp_t)0x20000u) /* Enforce hardwall cpuset memory allocs */
++
++/* This equals 0, but use constants in case they ever change */
++#define GFP_NOWAIT      (GFP_ATOMIC & ~__GFP_HIGH)
++/* GFP_ATOMIC means both !wait (__GFP_WAIT not set) and use emergency pool */
++#define GFP_ATOMIC      (__GFP_HIGH)
++#define GFP_NOIO        (__GFP_WAIT)
++#define GFP_NOFS        (__GFP_WAIT | __GFP_IO)
++#define GFP_KERNEL      (__GFP_WAIT | __GFP_IO | __GFP_FS)
++#define GFP_USER        (__GFP_WAIT | __GFP_IO | __GFP_FS | __GFP_HARDWALL)
++#define GFP_HIGHUSER    (__GFP_WAIT | __GFP_IO | __GFP_FS | __GFP_HARDWALL | \
++                         __GFP_HIGHMEM)
++
++
++#endif // kenny add Linux compatibility code for Linux USB
++
++__inline static _list *get_next(_list	*list)
++{
++	return list->next;
++}	
++
++__inline static _list	*get_list_head(_queue	*queue)
++{
++	return (&(queue->queue));
++}
++
++	
++#define LIST_CONTAINOR(ptr, type, member) \
++        ((type *)((char *)(ptr)-(SIZE_T)(&((type *)0)->member)))	
++
++        
++__inline static void _enter_critical(_lock *plock, _irqL *pirqL)
++{
++	spin_lock_irqsave(plock, *pirqL);
++}
++
++__inline static void _exit_critical(_lock *plock, _irqL *pirqL)
++{
++	spin_unlock_irqrestore(plock, *pirqL);
++}
++
++__inline static void _enter_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	spin_lock_irqsave(plock, *pirqL);
++}
++
++__inline static void _exit_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	spin_unlock_irqrestore(plock, *pirqL);
++}
++
++__inline static void _enter_critical_bh(_lock *plock, _irqL *pirqL)
++{
++	spin_lock_bh(plock, *pirqL);
++}
++
++__inline static void _exit_critical_bh(_lock *plock, _irqL *pirqL)
++{
++	spin_unlock_bh(plock, *pirqL);
++}
++
++__inline static void _enter_critical_mutex(_mutex *pmutex, _irqL *pirqL)
++{
++
++		mtx_lock(pmutex);
++
++}
++
++
++__inline static void _exit_critical_mutex(_mutex *pmutex, _irqL *pirqL)
++{
++
++		mtx_unlock(pmutex);
++
++}
++static inline void __list_del(struct list_head * prev, struct list_head * next)
++{
++	next->prev = prev;
++	prev->next = next;
++}
++static inline void INIT_LIST_HEAD(struct list_head *list)
++{
++	list->next = list;
++	list->prev = list;
++}
++__inline static void rtw_list_delete(_list *plist)
++{
++	__list_del(plist->prev, plist->next);
++	INIT_LIST_HEAD(plist);
++}
++
++__inline static void _init_timer(_timer *ptimer,_nic_hdl padapter,void *pfunc,void* cntx)
++{
++	ptimer->function = pfunc;
++	ptimer->arg = cntx;
++	callout_init(&ptimer->callout, CALLOUT_MPSAFE);
++}
++
++__inline static void _set_timer(_timer *ptimer,u32 delay_time)
++{	
++	//	mod_timer(ptimer , (jiffies+(delay_time*HZ/1000)));
++	if(ptimer->function && ptimer->arg){
++		rtw_mtx_lock(NULL);
++		callout_reset(&ptimer->callout, delay_time,ptimer->function, ptimer->arg);
++		rtw_mtx_unlock(NULL);
++	}
++}
++
++__inline static void _cancel_timer(_timer *ptimer,u8 *bcancelled)
++{
++	//	del_timer_sync(ptimer); 	
++	//	*bcancelled=  _TRUE;//TRUE ==1; FALSE==0	
++	rtw_mtx_lock(NULL);
++	callout_drain(&ptimer->callout);
++	rtw_mtx_unlock(NULL);
++}
++
++__inline static void _init_workitem(_workitem *pwork, void *pfunc, PVOID cntx)
++{
++	printf("%s Not implement yet! \n",__FUNCTION__);
++}
++
++__inline static void _set_workitem(_workitem *pwork)
++{
++	printf("%s Not implement yet! \n",__FUNCTION__);
++//	schedule_work(pwork);
++}
++
++//
++// Global Mutex: can only be used at PASSIVE level.
++//
++
++#define ACQUIRE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++}
++
++#define RELEASE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++}
++
++#define ATOMIC_INIT(i)  { (i) }
++
++static __inline void thread_enter(char *name);
++
++//Atomic integer operations
++typedef uint32_t ATOMIC_T ;
++
++#define rtw_netdev_priv(netdev) (((struct ifnet *)netdev)->if_softc)
++
++#define rtw_free_netdev(netdev) if_free((netdev))
++
++#define NDEV_FMT "%s"
++#define NDEV_ARG(ndev) ""
++#define ADPT_FMT "%s"
++#define ADPT_ARG(adapter) ""
++#define FUNC_NDEV_FMT "%s"
++#define FUNC_NDEV_ARG(ndev) __func__
++#define FUNC_ADPT_FMT "%s"
++#define FUNC_ADPT_ARG(adapter) __func__
++
++#define STRUCT_PACKED
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/include/osdep_service_ce.h b/drivers/net/wireless/rtl8812au/include/osdep_service_ce.h
+new file mode 100644
+index 0000000..04c5b18
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/osdep_service_ce.h
+@@ -0,0 +1,192 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __OSDEP_CE_SERVICE_H_
++#define __OSDEP_CE_SERVICE_H_
++
++
++#include <ndis.h>
++#include <ntddndis.h>
++
++#ifdef CONFIG_SDIO_HCI
++#include "SDCardDDK.h"
++#endif
++
++#ifdef CONFIG_USB_HCI
++#include <usbdi.h>
++#endif
++
++typedef HANDLE 	_sema;
++typedef	LIST_ENTRY	_list;
++typedef NDIS_STATUS _OS_STATUS;
++
++typedef NDIS_SPIN_LOCK	_lock;
++
++typedef HANDLE 		_rwlock; //Mutex
++
++typedef u32	_irqL;
++
++typedef NDIS_HANDLE  _nic_hdl;
++
++
++typedef NDIS_MINIPORT_TIMER    _timer;
++
++struct	__queue	{
++	LIST_ENTRY	queue;
++	_lock	lock;
++};
++
++typedef	NDIS_PACKET	_pkt;
++typedef NDIS_BUFFER	_buffer;
++typedef struct	__queue	_queue;
++
++typedef HANDLE 	_thread_hdl_;
++typedef DWORD thread_return;
++typedef void*	thread_context;
++typedef NDIS_WORK_ITEM _workitem;
++
++#define thread_exit() ExitThread(STATUS_SUCCESS); return 0;
++
++
++#define SEMA_UPBND	(0x7FFFFFFF)   //8192
++
++__inline static _list *get_prev(_list	*list)
++{
++	return list->Blink;
++}
++	
++__inline static _list *get_next(_list	*list)
++{
++	return list->Flink;
++}
++
++__inline static _list	*get_list_head(_queue	*queue)
++{
++	return (&(queue->queue));
++}
++
++#define LIST_CONTAINOR(ptr, type, member) CONTAINING_RECORD(ptr, type, member)
++
++__inline static void _enter_critical(_lock *plock, _irqL *pirqL)
++{
++	NdisAcquireSpinLock(plock);
++}
++
++__inline static void _exit_critical(_lock *plock, _irqL *pirqL)
++{
++	NdisReleaseSpinLock(plock);
++}
++
++__inline static _enter_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	NdisDprAcquireSpinLock(plock);	
++}
++
++__inline static _exit_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	NdisDprReleaseSpinLock(plock);	
++}
++
++
++__inline static void _enter_hwio_critical(_rwlock *prwlock, _irqL *pirqL)
++{
++	WaitForSingleObject(*prwlock, INFINITE );
++
++}
++
++__inline static void _exit_hwio_critical(_rwlock *prwlock, _irqL *pirqL)
++{
++	ReleaseMutex(*prwlock);
++}
++
++__inline static void rtw_list_delete(_list *plist)
++{
++	RemoveEntryList(plist);
++	InitializeListHead(plist);
++}
++
++#define RTW_TIMER_HDL_ARGS IN PVOID SystemSpecific1, IN PVOID FunctionContext, IN PVOID SystemSpecific2, IN PVOID SystemSpecific3
++
++__inline static void _init_timer(_timer *ptimer,_nic_hdl nic_hdl,void *pfunc,PVOID cntx)
++{
++	NdisMInitializeTimer(ptimer, nic_hdl, pfunc, cntx);
++}
++
++__inline static void _set_timer(_timer *ptimer,u32 delay_time)
++{
++ 	NdisMSetTimer(ptimer,delay_time);
++}
++
++__inline static void _cancel_timer(_timer *ptimer,u8 *bcancelled)
++{
++	NdisMCancelTimer(ptimer,bcancelled);
++}
++
++__inline static void _init_workitem(_workitem *pwork, void *pfunc, PVOID cntx)
++{
++
++	NdisInitializeWorkItem(pwork, pfunc, cntx);
++}
++
++__inline static void _set_workitem(_workitem *pwork)
++{
++	NdisScheduleWorkItem(pwork);
++}
++
++#define ATOMIC_INIT(i)  { (i) }
++
++//
++// Global Mutex: can only be used at PASSIVE level.
++//
++
++#define ACQUIRE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++    while (NdisInterlockedIncrement((PULONG)&(_MutexCounter)) != 1)\
++    {                                                           \
++        NdisInterlockedDecrement((PULONG)&(_MutexCounter));        \
++        NdisMSleep(10000);                          \
++    }                                                           \
++}
++
++#define RELEASE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++    NdisInterlockedDecrement((PULONG)&(_MutexCounter));              \
++}
++
++// limitation of path length
++#define PATH_LENGTH_MAX MAX_PATH
++
++//Atomic integer operations
++#define ATOMIC_T LONG
++
++#define NDEV_FMT "%s"
++#define NDEV_ARG(ndev) ""
++#define ADPT_FMT "%s"
++#define ADPT_ARG(adapter) ""
++#define FUNC_NDEV_FMT "%s"
++#define FUNC_NDEV_ARG(ndev) __func__
++#define FUNC_ADPT_FMT "%s"
++#define FUNC_ADPT_ARG(adapter) __func__
++
++#define STRUCT_PACKED
++
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/include/osdep_service_linux.h b/drivers/net/wireless/rtl8812au/include/osdep_service_linux.h
+new file mode 100644
+index 0000000..060dbe6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/osdep_service_linux.h
+@@ -0,0 +1,429 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __OSDEP_LINUX_SERVICE_H_
++#define __OSDEP_LINUX_SERVICE_H_
++
++#include <linux/version.h>
++#include <linux/spinlock.h>
++#include <linux/compiler.h>
++#include <linux/kernel.h>
++#include <linux/errno.h>
++#include <linux/init.h>
++#include <linux/slab.h>
++#include <linux/module.h>
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 5))
++	#include <linux/kref.h>
++#endif
++/* #include <linux/smp_lock.h> */
++#include <linux/netdevice.h>
++#include <linux/skbuff.h>
++#include <linux/circ_buf.h>
++#include <asm/uaccess.h>
++#include <asm/byteorder.h>
++#include <asm/atomic.h>
++#include <asm/io.h>
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 26))
++	#include <asm/semaphore.h>
++#else
++	#include <linux/semaphore.h>
++#endif
++#include <linux/sem.h>
++#include <linux/sched.h>
++#include <linux/etherdevice.h>
++#include <linux/wireless.h>
++#include <net/iw_handler.h>
++#include <linux/if_arp.h>
++#include <linux/rtnetlink.h>
++#include <linux/delay.h>
++#include <linux/interrupt.h>	/* for struct tasklet_struct */
++#include <linux/ip.h>
++#include <linux/kthread.h>
++#include <linux/list.h>
++#include <linux/vmalloc.h>
++
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 5, 41))
++	#include <linux/tqueue.h>
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 7, 0))
++	#include <uapi/linux/limits.h>
++#else
++	#include <linux/limits.h>
++#endif
++
++#ifdef RTK_DMP_PLATFORM
++	#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 12))
++		#include <linux/pageremap.h>
++	#endif
++	#include <asm/io.h>
++#endif
++
++#ifdef CONFIG_NET_RADIO
++	#define CONFIG_WIRELESS_EXT
++#endif
++
++/* Monitor mode */
++#include <net/ieee80211_radiotap.h>
++#include <linux/ieee80211.h>
++#ifdef CONFIG_IOCTL_CFG80211
++	/*	#include <linux/ieee80211.h> */
++	#include <net/cfg80211.h>
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
++	#include <linux/in.h>
++	#include <linux/udp.h>
++#endif
++
++#ifdef CONFIG_HAS_EARLYSUSPEND
++	#include <linux/earlysuspend.h>
++#endif /* CONFIG_HAS_EARLYSUSPEND */
++
++#ifdef CONFIG_EFUSE_CONFIG_FILE
++	#include <linux/fs.h>
++#endif
++
++#ifdef CONFIG_USB_HCI
++	#include <linux/usb.h>
++	#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 21))
++		#include <linux/usb_ch9.h>
++	#else
++		#include <linux/usb/ch9.h>
++	#endif
++#endif
++
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	#include <net/sock.h>
++	#include <net/tcp.h>
++	#include <linux/udp.h>
++	#include <linux/in.h>
++	#include <linux/netlink.h>
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++
++#ifdef CONFIG_USB_HCI
++	typedef struct urb   *PURB;
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 22))
++		#ifdef CONFIG_USB_SUSPEND
++			#define CONFIG_AUTOSUSPEND	1
++		#endif
++	#endif
++#endif
++
++typedef struct	semaphore _sema;
++typedef	spinlock_t	_lock;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37))
++	typedef struct mutex		_mutex;
++#else
++	typedef struct semaphore	_mutex;
++#endif
++typedef struct timer_list _timer;
++
++struct	__queue	{
++	struct	list_head	queue;
++	_lock	lock;
++};
++
++typedef	struct sk_buff	_pkt;
++typedef unsigned char	_buffer;
++
++typedef struct	__queue	_queue;
++typedef struct	list_head	_list;
++typedef	int	_OS_STATUS;
++/* typedef u32	_irqL; */
++typedef unsigned long _irqL;
++typedef	struct	net_device *_nic_hdl;
++
++typedef void		*_thread_hdl_;
++typedef int		thread_return;
++typedef void	*thread_context;
++
++#define thread_exit() complete_and_exit(NULL, 0)
++
++typedef void timer_hdl_return;
++typedef void *timer_hdl_context;
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 5, 41))
++	typedef struct work_struct _workitem;
++#else
++	typedef struct tq_struct _workitem;
++#endif
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 24))
++	#define DMA_BIT_MASK(n) (((n) == 64) ? ~0ULL : ((1ULL<<(n))-1))
++#endif
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 22))
++/* Porting from linux kernel, for compatible with old kernel. */
++static inline unsigned char *skb_tail_pointer(const struct sk_buff *skb)
++{
++	return skb->tail;
++}
++
++static inline void skb_reset_tail_pointer(struct sk_buff *skb)
++{
++	skb->tail = skb->data;
++}
++
++static inline void skb_set_tail_pointer(struct sk_buff *skb, const int offset)
++{
++	skb->tail = skb->data + offset;
++}
++
++static inline unsigned char *skb_end_pointer(const struct sk_buff *skb)
++{
++	return skb->end;
++}
++#endif
++
++__inline static _list *get_next(_list	*list)
++{
++	return list->next;
++}
++
++__inline static _list	*get_list_head(_queue	*queue)
++{
++	return &(queue->queue);
++}
++
++
++#define LIST_CONTAINOR(ptr, type, member) \
++	((type *)((char *)(ptr)-(SIZE_T)(&((type *)0)->member)))
++
++
++__inline static void _enter_critical(_lock *plock, _irqL *pirqL)
++{
++	spin_lock_irqsave(plock, *pirqL);
++}
++
++__inline static void _exit_critical(_lock *plock, _irqL *pirqL)
++{
++	spin_unlock_irqrestore(plock, *pirqL);
++}
++
++__inline static void _enter_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	spin_lock_irqsave(plock, *pirqL);
++}
++
++__inline static void _exit_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	spin_unlock_irqrestore(plock, *pirqL);
++}
++
++__inline static void _enter_critical_bh(_lock *plock, _irqL *pirqL)
++{
++	spin_lock_bh(plock);
++}
++
++__inline static void _exit_critical_bh(_lock *plock, _irqL *pirqL)
++{
++	spin_unlock_bh(plock);
++}
++
++__inline static int _enter_critical_mutex(_mutex *pmutex, _irqL *pirqL)
++{
++	int ret = 0;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37))
++	/* mutex_lock(pmutex); */
++	ret = mutex_lock_interruptible(pmutex);
++#else
++	ret = down_interruptible(pmutex);
++#endif
++	return ret;
++}
++
++
++__inline static void _exit_critical_mutex(_mutex *pmutex, _irqL *pirqL)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37))
++	mutex_unlock(pmutex);
++#else
++	up(pmutex);
++#endif
++}
++
++__inline static void rtw_list_delete(_list *plist)
++{
++	list_del_init(plist);
++}
++
++#define RTW_TIMER_HDL_ARGS void *FunctionContext
++
++__inline static void _init_timer(_timer *ptimer, _nic_hdl nic_hdl, void *pfunc, void *cntx)
++{
++	/* setup_timer(ptimer, pfunc,(u32)cntx);	 */
++	ptimer->function = pfunc;
++	ptimer->data = (unsigned long)cntx;
++	init_timer(ptimer);
++}
++
++__inline static void _set_timer(_timer *ptimer, u32 delay_time)
++{
++	mod_timer(ptimer , (jiffies + (delay_time * HZ / 1000)));
++}
++
++__inline static void _cancel_timer(_timer *ptimer, u8 *bcancelled)
++{
++	del_timer_sync(ptimer);
++	*bcancelled = 1;
++}
++
++
++static inline void _init_workitem(_workitem *pwork, void *pfunc, void *cntx)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 20))
++	INIT_WORK(pwork, pfunc);
++#elif (LINUX_VERSION_CODE > KERNEL_VERSION(2, 5, 41))
++	INIT_WORK(pwork, pfunc, pwork);
++#else
++	INIT_TQUEUE(pwork, pfunc, pwork);
++#endif
++}
++
++__inline static void _set_workitem(_workitem *pwork)
++{
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 5, 41))
++	schedule_work(pwork);
++#else
++	schedule_task(pwork);
++#endif
++}
++
++__inline static void _cancel_workitem_sync(_workitem *pwork)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 22))
++	cancel_work_sync(pwork);
++#elif (LINUX_VERSION_CODE > KERNEL_VERSION(2, 5, 41))
++	flush_scheduled_work();
++#else
++	flush_scheduled_tasks();
++#endif
++}
++/*
++ * Global Mutex: can only be used at PASSIVE level.
++ *   */
++
++#define ACQUIRE_GLOBAL_MUTEX(_MutexCounter)                              \
++	{                                                               \
++		while (atomic_inc_return((atomic_t *)&(_MutexCounter)) != 1) { \
++			atomic_dec((atomic_t *)&(_MutexCounter));        \
++			msleep(10);                          \
++		}                                                           \
++	}
++
++#define RELEASE_GLOBAL_MUTEX(_MutexCounter)                              \
++	{                                                               \
++		atomic_dec((atomic_t *)&(_MutexCounter));        \
++	}
++
++static inline int rtw_netif_queue_stopped(struct net_device *pnetdev)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	return (netif_tx_queue_stopped(netdev_get_tx_queue(pnetdev, 0)) &&
++		netif_tx_queue_stopped(netdev_get_tx_queue(pnetdev, 1)) &&
++		netif_tx_queue_stopped(netdev_get_tx_queue(pnetdev, 2)) &&
++		netif_tx_queue_stopped(netdev_get_tx_queue(pnetdev, 3)));
++#else
++	return netif_queue_stopped(pnetdev);
++#endif
++}
++
++static inline void rtw_netif_wake_queue(struct net_device *pnetdev)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	netif_tx_wake_all_queues(pnetdev);
++#else
++	netif_wake_queue(pnetdev);
++#endif
++}
++
++static inline void rtw_netif_start_queue(struct net_device *pnetdev)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	netif_tx_start_all_queues(pnetdev);
++#else
++	netif_start_queue(pnetdev);
++#endif
++}
++
++static inline void rtw_netif_stop_queue(struct net_device *pnetdev)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	netif_tx_stop_all_queues(pnetdev);
++#else
++	netif_stop_queue(pnetdev);
++#endif
++}
++static inline void rtw_netif_carrier_on(struct net_device *pnetdev)
++{
++	netif_device_attach(pnetdev);
++	netif_carrier_on(pnetdev);
++}
++static inline int rtw_merge_string(char *dst, int dst_len, const char *src1, const char *src2)
++{
++	int	len = 0;
++	len += snprintf(dst + len, dst_len - len, "%s", src1);
++	len += snprintf(dst + len, dst_len - len, "%s", src2);
++
++	return len;
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 27))
++	#define rtw_signal_process(pid, sig) kill_pid(find_vpid((pid)), (sig), 1)
++#else /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 27)) */
++	#define rtw_signal_process(pid, sig) kill_proc((pid), (sig), 1)
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 27)) */
++
++
++/* Suspend lock prevent system from going suspend */
++#ifdef CONFIG_WAKELOCK
++	#include <linux/wakelock.h>
++#elif defined(CONFIG_ANDROID_POWER)
++	#include <linux/android_power.h>
++#endif
++
++/* limitation of path length */
++#define PATH_LENGTH_MAX PATH_MAX
++
++/* Atomic integer operations */
++#define ATOMIC_T atomic_t
++
++#define rtw_netdev_priv(netdev) (((struct rtw_netdev_priv_indicator *)netdev_priv(netdev))->priv)
++
++#define NDEV_FMT "%s"
++#define NDEV_ARG(ndev) ndev->name
++#define ADPT_FMT "%s"
++#define ADPT_ARG(adapter) adapter->pnetdev->name
++#define FUNC_NDEV_FMT "%s(%s)"
++#define FUNC_NDEV_ARG(ndev) __func__, ndev->name
++#define FUNC_ADPT_FMT "%s(%s)"
++#define FUNC_ADPT_ARG(adapter) __func__, adapter->pnetdev->name
++
++struct rtw_netdev_priv_indicator {
++	void *priv;
++	u32 sizeof_priv;
++};
++struct net_device *rtw_alloc_etherdev_with_old_priv(int sizeof_priv, void *old_priv);
++extern struct net_device *rtw_alloc_etherdev(int sizeof_priv);
++
++#define STRUCT_PACKED __attribute__ ((packed))
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/osdep_service_xp.h b/drivers/net/wireless/rtl8812au/include/osdep_service_xp.h
+new file mode 100644
+index 0000000..45d54af
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/osdep_service_xp.h
+@@ -0,0 +1,202 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *                                        
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __OSDEP_LINUX_SERVICE_H_
++#define __OSDEP_LINUX_SERVICE_H_
++
++	#include <ndis.h>
++	#include <ntddk.h>
++	#include <ntddndis.h>
++	#include <ntdef.h>
++
++#ifdef CONFIG_USB_HCI
++	#include <usb.h>
++	#include <usbioctl.h>
++	#include <usbdlib.h>
++#endif
++
++	typedef KSEMAPHORE 	_sema;
++	typedef	LIST_ENTRY	_list;
++	typedef NDIS_STATUS _OS_STATUS;
++	
++
++	typedef NDIS_SPIN_LOCK	_lock;
++
++	typedef KMUTEX 			_mutex;
++
++	typedef KIRQL	_irqL;
++
++	// USB_PIPE for WINCE , but handle can be use just integer under windows
++	typedef NDIS_HANDLE  _nic_hdl;
++
++
++	typedef NDIS_MINIPORT_TIMER    _timer;
++
++	struct	__queue	{
++		LIST_ENTRY	queue;	
++		_lock	lock;
++	};
++
++	typedef	NDIS_PACKET	_pkt;
++	typedef NDIS_BUFFER	_buffer;
++	typedef struct	__queue	_queue;
++	
++	typedef PKTHREAD _thread_hdl_;
++	typedef void	thread_return;
++	typedef void* thread_context;
++
++	typedef NDIS_WORK_ITEM _workitem;
++
++	#define thread_exit() PsTerminateSystemThread(STATUS_SUCCESS);
++
++	#define HZ			10000000
++	#define SEMA_UPBND	(0x7FFFFFFF)   //8192
++	
++__inline static _list *get_next(_list	*list)
++{
++	return list->Flink;
++}	
++
++__inline static _list	*get_list_head(_queue	*queue)
++{
++	return (&(queue->queue));
++}
++	
++
++#define LIST_CONTAINOR(ptr, type, member) CONTAINING_RECORD(ptr, type, member)
++     
++
++__inline static _enter_critical(_lock *plock, _irqL *pirqL)
++{
++	NdisAcquireSpinLock(plock);	
++}
++
++__inline static _exit_critical(_lock *plock, _irqL *pirqL)
++{
++	NdisReleaseSpinLock(plock);	
++}
++
++
++__inline static _enter_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	NdisDprAcquireSpinLock(plock);	
++}
++
++__inline static _exit_critical_ex(_lock *plock, _irqL *pirqL)
++{
++	NdisDprReleaseSpinLock(plock);	
++}
++
++__inline static void _enter_critical_bh(_lock *plock, _irqL *pirqL)
++{
++	NdisDprAcquireSpinLock(plock);
++}
++
++__inline static void _exit_critical_bh(_lock *plock, _irqL *pirqL)
++{
++	NdisDprReleaseSpinLock(plock);
++}
++
++__inline static _enter_critical_mutex(_mutex *pmutex, _irqL *pirqL)
++{
++	KeWaitForSingleObject(pmutex, Executive, KernelMode, FALSE, NULL);
++}
++
++
++__inline static _exit_critical_mutex(_mutex *pmutex, _irqL *pirqL)
++{
++	KeReleaseMutex(pmutex, FALSE);
++}
++
++
++__inline static void rtw_list_delete(_list *plist)
++{
++	RemoveEntryList(plist);
++	InitializeListHead(plist);	
++}
++
++#define RTW_TIMER_HDL_ARGS IN PVOID SystemSpecific1, IN PVOID FunctionContext, IN PVOID SystemSpecific2, IN PVOID SystemSpecific3
++
++__inline static void _init_timer(_timer *ptimer,_nic_hdl nic_hdl,void *pfunc,PVOID cntx)
++{
++	NdisMInitializeTimer(ptimer, nic_hdl, pfunc, cntx);
++}
++
++__inline static void _set_timer(_timer *ptimer,u32 delay_time)
++{	
++ 	NdisMSetTimer(ptimer,delay_time);	
++}
++
++__inline static void _cancel_timer(_timer *ptimer,u8 *bcancelled)
++{
++	NdisMCancelTimer(ptimer,bcancelled);
++}
++
++__inline static void _init_workitem(_workitem *pwork, void *pfunc, PVOID cntx)
++{
++
++	NdisInitializeWorkItem(pwork, pfunc, cntx);
++}
++
++__inline static void _set_workitem(_workitem *pwork)
++{
++	NdisScheduleWorkItem(pwork);
++}
++
++
++#define ATOMIC_INIT(i)  { (i) }
++
++//
++// Global Mutex: can only be used at PASSIVE level.
++//
++
++#define ACQUIRE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++    while (NdisInterlockedIncrement((PULONG)&(_MutexCounter)) != 1)\
++    {                                                           \
++        NdisInterlockedDecrement((PULONG)&(_MutexCounter));        \
++        NdisMSleep(10000);                          \
++    }                                                           \
++}
++
++#define RELEASE_GLOBAL_MUTEX(_MutexCounter)                              \
++{                                                               \
++    NdisInterlockedDecrement((PULONG)&(_MutexCounter));              \
++}
++
++// limitation of path length
++#define PATH_LENGTH_MAX MAX_PATH
++
++//Atomic integer operations
++#define ATOMIC_T LONG
++
++
++#define NDEV_FMT "%s"
++#define NDEV_ARG(ndev) ""
++#define ADPT_FMT "%s"
++#define ADPT_ARG(adapter) ""
++#define FUNC_NDEV_FMT "%s"
++#define FUNC_NDEV_ARG(ndev) __func__
++#define FUNC_ADPT_FMT "%s"
++#define FUNC_ADPT_ARG(adapter) __func__
++
++#define STRUCT_PACKED
++
++#endif
++
+diff --git a/drivers/net/wireless/rtl8812au/include/pci_hal.h b/drivers/net/wireless/rtl8812au/include/pci_hal.h
+new file mode 100644
+index 0000000..8aa1a56
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/pci_hal.h
+@@ -0,0 +1,53 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __PCI_HAL_H__
++#define __PCI_HAL_H__
++
++#ifdef CONFIG_RTL8188E
++	void rtl8188ee_set_hal_ops(_adapter *padapter);
++#endif
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++	void rtl8812ae_set_hal_ops(_adapter *padapter);
++#endif
++
++#if defined(CONFIG_RTL8192E)
++	void rtl8192ee_set_hal_ops(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_RTL8723B
++	void rtl8723be_set_hal_ops(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_RTL8723D
++	void rtl8723de_set_hal_ops(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_RTL8814A
++	void rtl8814ae_set_hal_ops(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_RTL8822B
++	void rtl8822be_set_hal_ops(PADAPTER padapter);
++#endif
++
++u8 rtw_set_hal_ops(_adapter *padapter);
++
++#endif /* __PCIE_HAL_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/pci_ops.h b/drivers/net/wireless/rtl8812au/include/pci_ops.h
+new file mode 100644
+index 0000000..bef8237
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/pci_ops.h
+@@ -0,0 +1,92 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __PCI_OPS_H_
++#define __PCI_OPS_H_
++
++
++#ifdef CONFIG_RTL8188E
++	u32	rtl8188ee_init_desc_ring(_adapter *padapter);
++	u32	rtl8188ee_free_desc_ring(_adapter *padapter);
++	void	rtl8188ee_reset_desc_ring(_adapter *padapter);
++	int	rtl8188ee_interrupt(PADAPTER Adapter);
++	void	rtl8188ee_xmit_tasklet(void *priv);
++	void	rtl8188ee_recv_tasklet(void *priv);
++	void	rtl8188ee_prepare_bcn_tasklet(void *priv);
++	void	rtl8188ee_set_intf_ops(struct _io_ops	*pops);
++#endif
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++	u32	rtl8812ae_init_desc_ring(_adapter *padapter);
++	u32	rtl8812ae_free_desc_ring(_adapter *padapter);
++	void	rtl8812ae_reset_desc_ring(_adapter *padapter);
++	int	rtl8812ae_interrupt(PADAPTER Adapter);
++	void	rtl8812ae_xmit_tasklet(void *priv);
++	void	rtl8812ae_recv_tasklet(void *priv);
++	void	rtl8812ae_prepare_bcn_tasklet(void *priv);
++	void	rtl8812ae_set_intf_ops(struct _io_ops	*pops);
++#endif
++
++#ifdef CONFIG_RTL8192E
++	u32	rtl8192ee_init_desc_ring(_adapter *padapter);
++	u32	rtl8192ee_free_desc_ring(_adapter *padapter);
++	void	rtl8192ee_reset_desc_ring(_adapter *padapter);
++	void	rtl8192ee_recv_tasklet(void *priv);
++	void	rtl8192ee_prepare_bcn_tasklet(void *priv);
++	int	rtl8192ee_interrupt(PADAPTER Adapter);
++	void	rtl8192ee_set_intf_ops(struct _io_ops	*pops);
++#endif
++
++#ifdef CONFIG_RTL8723B
++	u32	rtl8723be_init_desc_ring(_adapter *padapter);
++	u32	rtl8723be_free_desc_ring(_adapter *padapter);
++	void	rtl8723be_reset_desc_ring(_adapter *padapter);
++	int	rtl8723be_interrupt(PADAPTER Adapter);
++	void	rtl8723be_recv_tasklet(void *priv);
++	void	rtl8723be_prepare_bcn_tasklet(void *priv);
++	void	rtl8723be_set_intf_ops(struct _io_ops	*pops);
++#endif
++
++#ifdef CONFIG_RTL8723D
++	u32	rtl8723de_init_desc_ring(_adapter *padapter);
++	u32	rtl8723de_free_desc_ring(_adapter *padapter);
++	void	rtl8723de_reset_desc_ring(_adapter *padapter);
++	int	rtl8723de_interrupt(PADAPTER Adapter);
++	void	rtl8723de_recv_tasklet(void *priv);
++	void	rtl8723de_prepare_bcn_tasklet(void *priv);
++	void	rtl8723de_set_intf_ops(struct _io_ops	*pops);
++	u8 check_tx_desc_resource(_adapter *padapter, int prio);
++#endif
++
++#ifdef CONFIG_RTL8814A
++	u32	rtl8814ae_init_desc_ring(_adapter *padapter);
++	u32	rtl8814ae_free_desc_ring(_adapter *padapter);
++	void	rtl8814ae_reset_desc_ring(_adapter *padapter);
++	int	rtl8814ae_interrupt(PADAPTER Adapter);
++	void	rtl8814ae_xmit_tasklet(void *priv);
++	void	rtl8814ae_recv_tasklet(void *priv);
++	void	rtl8814ae_prepare_bcn_tasklet(void *priv);
++	void	rtl8814ae_set_intf_ops(struct _io_ops	*pops);
++#endif
++
++#ifdef CONFIG_RTL8822B
++	void rtl8822be_set_intf_ops(struct _io_ops *pops);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/pci_osintf.h b/drivers/net/wireless/rtl8812au/include/pci_osintf.h
+new file mode 100644
+index 0000000..286bcdd
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/pci_osintf.h
+@@ -0,0 +1,42 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __PCI_OSINTF_H
++#define __PCI_OSINTF_H
++
++#ifdef RTK_129X_PLATFORM
++#define PCIE_SLOT1_MEM_START	0x9804F000
++#define PCIE_SLOT1_MEM_LEN	0x1000
++#define PCIE_SLOT1_MASK		0x9804ED00
++
++#define PCIE_SLOT2_MEM_START	0x9803C000
++#define PCIE_SLOT2_MEM_LEN	0x1000
++#define PCIE_SLOT2_MASK		0x9803BD00
++
++#define PCIE_TRANSLATE_OFFSET   4 /* offset from MASK reg */
++#endif
++
++void	rtw_pci_disable_aspm(_adapter *padapter);
++void	rtw_pci_enable_aspm(_adapter *padapter);
++void	PlatformClearPciPMEStatus(PADAPTER Adapter);
++#ifdef CONFIG_64BIT_DMA
++	u8	PlatformEnableDMA64(PADAPTER Adapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/recv_osdep.h b/drivers/net/wireless/rtl8812au/include/recv_osdep.h
+new file mode 100644
+index 0000000..604875d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/recv_osdep.h
+@@ -0,0 +1,61 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RECV_OSDEP_H_
++#define __RECV_OSDEP_H_
++
++
++extern sint _rtw_init_recv_priv(struct recv_priv *precvpriv, _adapter *padapter);
++extern void _rtw_free_recv_priv(struct recv_priv *precvpriv);
++
++
++extern s32  rtw_recv_entry(union recv_frame *precv_frame);
++extern int rtw_recv_indicatepkt(_adapter *adapter, union recv_frame *precv_frame);
++extern void rtw_recv_returnpacket(IN _nic_hdl cnxt, IN _pkt *preturnedpkt);
++
++extern int rtw_recv_monitor(_adapter *padapter, union recv_frame *precv_frame);
++
++extern void rtw_hostapd_mlme_rx(_adapter *padapter, union recv_frame *precv_frame);
++
++struct sta_info;
++extern void rtw_handle_tkip_mic_err(_adapter *padapter, struct sta_info *sta, u8 bgroup);
++
++
++int rtw_os_recv_resource_init(struct recv_priv *precvpriv, _adapter *padapter);
++int rtw_os_recv_resource_alloc(_adapter *padapter, union recv_frame *precvframe);
++void rtw_os_recv_resource_free(struct recv_priv *precvpriv);
++
++
++int rtw_os_alloc_recvframe(_adapter *padapter, union recv_frame *precvframe, u8 *pdata, _pkt *pskb);
++int rtw_os_recvframe_duplicate_skb(_adapter *padapter, union recv_frame *pcloneframe, _pkt *pskb);
++void rtw_os_free_recvframe(union recv_frame *precvframe);
++
++
++int rtw_os_recvbuf_resource_alloc(_adapter *padapter, struct recv_buf *precvbuf);
++int rtw_os_recvbuf_resource_free(_adapter *padapter, struct recv_buf *precvbuf);
++
++_pkt *rtw_os_alloc_msdu_pkt(union recv_frame *prframe, u16 nSubframe_Length, u8 *pdata);
++void rtw_os_recv_indicate_pkt(_adapter *padapter, _pkt *pkt, struct rx_pkt_attrib *pattrib);
++
++void rtw_os_read_port(_adapter *padapter, struct recv_buf *precvbuf);
++
++void rtw_init_recv_timer(struct recv_reorder_ctrl *preorder_ctrl);
++
++
++#endif /*  */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8188e_cmd.h b/drivers/net/wireless/rtl8812au/include/rtl8188e_cmd.h
+new file mode 100644
+index 0000000..a3d6e01
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8188e_cmd.h
+@@ -0,0 +1,179 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188E_CMD_H__
++#define __RTL8188E_CMD_H__
++
++#if 0
++enum cmd_msg_element_id {
++	NONE_CMDMSG_EID,
++	AP_OFFLOAD_EID = 0,
++	SET_PWRMODE_EID = 1,
++	JOINBSS_RPT_EID = 2,
++	RSVD_PAGE_EID = 3,
++	RSSI_4_EID = 4,
++	RSSI_SETTING_EID = 5,
++	MACID_CONFIG_EID = 6,
++	MACID_PS_MODE_EID = 7,
++	P2P_PS_OFFLOAD_EID = 8,
++	SELECTIVE_SUSPEND_ROF_CMD = 9,
++	P2P_PS_CTW_CMD_EID = 32,
++	MAX_CMDMSG_EID
++};
++#else
++typedef enum _RTL8188E_H2C_CMD_ID {
++	/* Class Common */
++	H2C_COM_RSVD_PAGE			= 0x00,
++	H2C_COM_MEDIA_STATUS_RPT	= 0x01,
++	H2C_COM_SCAN					= 0x02,
++	H2C_COM_KEEP_ALIVE			= 0x03,
++	H2C_COM_DISCNT_DECISION		= 0x04,
++#ifndef CONFIG_WOWLAN
++	H2C_COM_WWLAN				= 0x05,
++#endif
++	H2C_COM_INIT_OFFLOAD			= 0x06,
++	H2C_COM_REMOTE_WAKE_CTL	= 0x07,
++	H2C_COM_AP_OFFLOAD			= 0x08,
++	H2C_COM_BCN_RSVD_PAGE		= 0x09,
++	H2C_COM_PROB_RSP_RSVD_PAGE	= 0x0A,
++
++	/* Class PS */
++	H2C_PS_PWR_MODE				= 0x20,
++	H2C_PS_TUNE_PARA				= 0x21,
++	H2C_PS_TUNE_PARA_2			= 0x22,
++	H2C_PS_LPS_PARA				= 0x23,
++	H2C_PS_P2P_OFFLOAD			= 0x24,
++
++	/* Class DM */
++	H2C_DM_MACID_CFG				= 0x40,
++	H2C_DM_TXBF					= 0x41,
++	H2C_RSSI_REPORT				= 0x42,
++	/* Class BT */
++	H2C_BT_COEX_MASK				= 0x60,
++	H2C_BT_COEX_GPIO_MODE		= 0x61,
++	H2C_BT_DAC_SWING_VAL			= 0x62,
++	H2C_BT_PSD_RST				= 0x63,
++
++	/* Class Remote WakeUp */
++#ifdef CONFIG_WOWLAN
++	H2C_COM_WWLAN				= 0x80,
++	H2C_COM_REMOTE_WAKE_CTRL	= 0x81,
++	H2C_COM_AOAC_GLOBAL_INFO	= 0x82,
++	H2C_COM_AOAC_RSVD_PAGE		= 0x83,
++#endif
++
++	/* Class */
++	/* H2C_RESET_TSF				=0xc0, */
++} RTL8188E_H2C_CMD_ID;
++
++#endif
++
++
++struct cmd_msg_parm {
++	u8 eid; /* element id */
++	u8 sz; /* sz */
++	u8 buf[6];
++};
++
++enum {
++	PWRS
++};
++
++typedef struct _SETPWRMODE_PARM {
++	u8 Mode;/* 0:Active,1:LPS,2:WMMPS */
++	/* u8 RLBM:4; */ /* 0:Min,1:Max,2: User define */
++	u8 SmartPS_RLBM;/* LPS=0:PS_Poll,1:PS_Poll,2:NullData,WMM=0:PS_Poll,1:NullData */
++	u8 AwakeInterval;	/* unit: beacon interval */
++	u8 bAllQueueUAPSD;
++	u8 PwrState;/* AllON(0x0c),RFON(0x04),RFOFF(0x00) */
++} SETPWRMODE_PARM, *PSETPWRMODE_PARM;
++
++struct H2C_SS_RFOFF_PARAM {
++	u8 ROFOn; /* 1: on, 0:off */
++	u16 gpio_period; /* unit: 1024 us */
++} __attribute__((packed));
++
++
++typedef struct JOINBSSRPT_PARM_88E {
++	u8 OpMode;	/* RT_MEDIA_STATUS */
++#ifdef CONFIG_WOWLAN
++	u8 MacID;       /* MACID */
++#endif /* CONFIG_WOWLAN */
++} JOINBSSRPT_PARM_88E, *PJOINBSSRPT_PARM_88E;
++
++#if 0
++/* move to hal_com_h2c.h */
++typedef struct _RSVDPAGE_LOC_88E {
++	u8 LocProbeRsp;
++	u8 LocPsPoll;
++	u8 LocNullData;
++	u8 LocQosNull;
++	u8 LocBTQosNull;
++#ifdef CONFIG_WOWLAN
++	u8 LocRemoteCtrlInfo;
++	u8 LocArpRsp;
++	u8 LocNbrAdv;
++	u8 LocGTKRsp;
++	u8 LocGTKInfo;
++	u8 LocProbeReq;
++	u8 LocNetList;
++#endif /* CONFIG_WOWLAN	 */
++} RSVDPAGE_LOC_88E, *PRSVDPAGE_LOC_88E;
++#endif
++
++/* host message to firmware cmd */
++void rtl8188e_set_FwPwrMode_cmd(PADAPTER padapter, u8 Mode);
++void rtl8188e_set_FwJoinBssReport_cmd(PADAPTER padapter, u8 mstatus);
++u8 rtl8188e_set_rssi_cmd(PADAPTER padapter, u8 *param);
++u8 rtl8188e_set_raid_cmd(_adapter *padapter, u32 bitmap, u8 *arg, u8 bw);
++s32 FillH2CCmd_88E(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++/* u8 rtl8192c_set_FwSelectSuspend_cmd(PADAPTER padapter, u8 bfwpoll, u16 period); */
++u8 GetTxBufferRsvdPageNum8188E(_adapter *padapter, bool wowlan);
++
++
++#ifdef CONFIG_P2P
++	void rtl8188e_set_p2p_ps_offload_cmd(PADAPTER padapter, u8 p2p_ps_state);
++#endif /* CONFIG_P2P */
++
++void CheckFwRsvdPageContent(PADAPTER padapter);
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++	/* u8 rtl8188e_reset_tsf(_adapter *padapter, u8 reset_port); */
++	int reset_tsf(PADAPTER Adapter, u8 reset_port);
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++
++/* #define H2C_8188E_RSVDPAGE_LOC_LEN      5 */
++/* #define H2C_8188E_AOAC_RSVDPAGE_LOC_LEN 7 */
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD CONTENT    --------------------------------------------------
++ * ---------------------------------------------------------------------------------------------------------
++ *   */
++#if 0
++	/* move to hal_com_h2c.h
++	* _RSVDPAGE_LOC_CMD_0x00 */
++	#define SET_8188E_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(__pH2CCmd, __Value)     SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++	#define SET_8188E_H2CCMD_RSVDPAGE_LOC_PSPOLL(__pH2CCmd, __Value)            SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++	#define SET_8188E_H2CCMD_RSVDPAGE_LOC_NULL_DATA(__pH2CCmd, __Value)     SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++	#define SET_8188E_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(__pH2CCmd, __Value)     SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++	/*  AOAC_RSVDPAGE_LOC_0x83 */
++	#define SET_8188E_H2CCMD_AOAC_RSVDPAGE_LOC_REMOTE_WAKE_CTRL_INFO(__pH2CCmd, __Value)        SET_BITS_TO_LE_1BYTE((__pH2CCmd), 0, 8, __Value)
++	#define SET_8188E_H2CCMD_AOAC_RSVDPAGE_LOC_ARP_RSP(__pH2CCmd, __Value)                  SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#endif
++#endif/* __RTL8188E_CMD_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8188e_dm.h b/drivers/net/wireless/rtl8812au/include/rtl8188e_dm.h
+new file mode 100644
+index 0000000..a4c2527
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8188e_dm.h
+@@ -0,0 +1,32 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188E_DM_H__
++#define __RTL8188E_DM_H__
++
++void rtl8188e_init_dm_priv(IN PADAPTER Adapter);
++void rtl8188e_deinit_dm_priv(IN PADAPTER Adapter);
++void rtl8188e_InitHalDm(IN PADAPTER Adapter);
++void rtl8188e_HalDmWatchDog(IN PADAPTER Adapter);
++
++/* VOID rtl8192c_dm_CheckTXPowerTracking(IN PADAPTER Adapter); */
++
++/* void rtl8192c_dm_RF_Saving(IN PADAPTER pAdapter, IN u8 bForceInNormal); */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8188e_hal.h b/drivers/net/wireless/rtl8812au/include/rtl8188e_hal.h
+new file mode 100644
+index 0000000..8954ca2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8188e_hal.h
+@@ -0,0 +1,312 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188E_HAL_H__
++#define __RTL8188E_HAL_H__
++
++/* #include "hal_com.h" */
++#include "hal_data.h"
++
++/* include HAL Related header after HAL Related compiling flags */
++#include "rtl8188e_spec.h"
++#include "Hal8188EPhyReg.h"
++#include "Hal8188EPhyCfg.h"
++#include "rtl8188e_rf.h"
++#include "rtl8188e_dm.h"
++#include "rtl8188e_recv.h"
++#include "rtl8188e_xmit.h"
++#include "rtl8188e_cmd.h"
++#include "rtl8188e_led.h"
++#include "Hal8188EPwrSeq.h"
++#ifdef DBG_CONFIG_ERROR_DETECT
++	#include "rtl8188e_sreset.h"
++#endif
++
++/* --------------------------------------------------------------------- */
++/*		RTL8188E Power Configuration CMDs for USB/SDIO/PCIE interfaces */
++/* --------------------------------------------------------------------- */
++#define Rtl8188E_NIC_PWR_ON_FLOW				rtl8188E_power_on_flow
++#define Rtl8188E_NIC_RF_OFF_FLOW				rtl8188E_radio_off_flow
++#define Rtl8188E_NIC_DISABLE_FLOW				rtl8188E_card_disable_flow
++#define Rtl8188E_NIC_ENABLE_FLOW				rtl8188E_card_enable_flow
++#define Rtl8188E_NIC_SUSPEND_FLOW				rtl8188E_suspend_flow
++#define Rtl8188E_NIC_RESUME_FLOW				rtl8188E_resume_flow
++#define Rtl8188E_NIC_PDN_FLOW					rtl8188E_hwpdn_flow
++#define Rtl8188E_NIC_LPS_ENTER_FLOW			rtl8188E_enter_lps_flow
++#define Rtl8188E_NIC_LPS_LEAVE_FLOW			rtl8188E_leave_lps_flow
++
++
++#if 1 /* download firmware related data structure */
++#define MAX_FW_8188E_SIZE			0x8000 /* 32768, 32k / 16384, 16k */
++
++#define FW_8188E_SIZE				0x4000 /* 16384, 16k */
++#define FW_8188E_SIZE_2			0x8000 /* 32768, 32k */
++
++#define FW_8188E_START_ADDRESS	0x1000
++#define FW_8188E_END_ADDRESS		0x1FFF /* 0x5FFF */
++
++
++#define IS_FW_HEADER_EXIST_88E(_pFwHdr)	((le16_to_cpu(_pFwHdr->Signature) & 0xFFF0) == 0x88E0)
++
++typedef struct _RT_FIRMWARE_8188E {
++	FIRMWARE_SOURCE	eFWSource;
++#ifdef CONFIG_EMBEDDED_FWIMG
++	u8			*szFwBuffer;
++#else
++	u8			szFwBuffer[MAX_FW_8188E_SIZE];
++#endif
++	u32			ulFwLength;
++} RT_FIRMWARE_8188E, *PRT_FIRMWARE_8188E;
++
++/*
++ * This structure must be cared byte-ordering
++ *   */
++
++typedef struct _RT_8188E_FIRMWARE_HDR {
++	/* 8-byte alinment required */
++
++	/* --- LONG WORD 0 ---- */
++	u16		Signature;	/* 92C0: test chip; 92C, 88C0: test chip; 88C1: MP A-cut; 92C1: MP A-cut */
++	u8		Category;	/* AP/NIC and USB/PCI */
++	u8		Function;	/* Reserved for different FW function indcation, for further use when driver needs to download different FW in different conditions */
++	u16		Version;		/* FW Version */
++	u8		Subversion;	/* FW Subversion, default 0x00 */
++	u16		Rsvd1;
++
++
++	/* --- LONG WORD 1 ---- */
++	u8		Month;	/* Release time Month field */
++	u8		Date;	/* Release time Date field */
++	u8		Hour;	/* Release time Hour field */
++	u8		Minute;	/* Release time Minute field */
++	u16		RamCodeSize;	/* The size of RAM code */
++	u8		Foundry;
++	u8		Rsvd2;
++
++	/* --- LONG WORD 2 ---- */
++	u32		SvnIdx;	/* The SVN entry index */
++	u32		Rsvd3;
++
++	/* --- LONG WORD 3 ---- */
++	u32		Rsvd4;
++	u32		Rsvd5;
++} RT_8188E_FIRMWARE_HDR, *PRT_8188E_FIRMWARE_HDR;
++#endif /* download firmware related data structure */
++
++
++#define DRIVER_EARLY_INT_TIME_8188E			0x05
++#define BCN_DMA_ATIME_INT_TIME_8188E		0x02
++
++
++/* #define MAX_RX_DMA_BUFFER_SIZE_88E	      0x2400 */ /* 9k for 88E nornal chip , */ /* MaxRxBuff=10k-max(TxReportSize(64*8), WOLPattern(16*24)) */
++#define RX_DMA_SIZE_88E(__Adapter) ((!IS_VENDOR_8188E_I_CUT_SERIES(__Adapter))?0x2800:0x4000)
++
++#ifdef CONFIG_WOWLAN
++	#define RESV_FMWF	(WKFMCAM_SIZE * MAX_WKFM_CAM_NUM) /* 16 entries, for each is 24 bytes*/
++#else
++	#define RESV_FMWF	0
++#endif
++
++#define RX_DMA_RESERVD_FW_FEATURE	0x200 /* for tx report (64*8) */
++
++#define MAX_RX_DMA_BUFFER_SIZE_88E(__Adapter) (RX_DMA_SIZE_88E(__Adapter)-RX_DMA_RESERVD_FW_FEATURE)
++
++#define MAX_TX_REPORT_BUFFER_SIZE			0x0400 /* 1k */
++
++/* Note: We will divide number of page equally for each queue other than public queue!
++ * 22k = 22528 bytes = 176 pages (@page =  128 bytes)
++ * must reserved about 7 pages for LPS =>  176-7 = 169 (0xA9)
++ * 2*BCN / 1*ps-poll / 1*null-data /1*prob_rsp /1*QOS null-data /1*BT QOS null-data  */
++
++#define BCNQ_PAGE_NUM_88E		0x08
++
++/* For WoWLan , more reserved page */
++#ifdef CONFIG_WOWLAN
++	#define WOWLAN_PAGE_NUM_88E	0x00
++#else
++	#define WOWLAN_PAGE_NUM_88E	0x00
++#endif
++
++/* Note:
++Tx FIFO Size : previous CUT:22K /I_CUT after:32KB
++Tx page Size : 128B
++Total page numbers : 176(0xB0) / 256(0x100)
++*/
++#define TOTAL_PAGE_NUMBER_88E(_Adapter)	((IS_VENDOR_8188E_I_CUT_SERIES(_Adapter)?0x100:0xB0) - 1)/* must reserved 1 page for dma issue */
++#define TX_TOTAL_PAGE_NUMBER_88E(_Adapter)	(TOTAL_PAGE_NUMBER_88E(_Adapter) - BCNQ_PAGE_NUM_88E - WOWLAN_PAGE_NUM_88E)
++#define TX_PAGE_BOUNDARY_88E(_Adapter)		(TX_TOTAL_PAGE_NUMBER_88E(_Adapter) + 1) /* beacon header start address */
++
++#define WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_88E(_Adapter)	TX_TOTAL_PAGE_NUMBER_88E(_Adapter)
++#define WMM_NORMAL_TX_PAGE_BOUNDARY_88E(_Adapter)		(WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_88E(_Adapter) + 1)
++
++/* For Normal Chip Setting
++ * (HPQ + LPQ + NPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER_8723B */
++#define NORMAL_PAGE_NUM_HPQ_88E		0x0
++#define NORMAL_PAGE_NUM_LPQ_88E		0x09
++#define NORMAL_PAGE_NUM_NPQ_88E		0x0
++
++/* Note: For Normal Chip Setting, modify later */
++#define WMM_NORMAL_PAGE_NUM_HPQ_88E		0x29
++#define WMM_NORMAL_PAGE_NUM_LPQ_88E		0x1C
++#define WMM_NORMAL_PAGE_NUM_NPQ_88E		0x1C
++
++
++/* -------------------------------------------------------------------------
++ *	Chip specific
++ * ------------------------------------------------------------------------- */
++#define CHIP_BONDING_IDENTIFIER(_value)	(((_value)>>22) & 0x3)
++#define CHIP_BONDING_92C_1T2R	0x1
++#define CHIP_BONDING_88C_USB_MCARD	0x2
++#define CHIP_BONDING_88C_USB_HP	0x1
++
++/* -------------------------------------------------------------------------
++ *	Channel Plan
++ * ------------------------------------------------------------------------- */
++
++
++#define EFUSE_REAL_CONTENT_LEN		512
++#define EFUSE_MAP_LEN				128
++#define EFUSE_MAX_SECTION			16
++#define EFUSE_IC_ID_OFFSET			506	/* For some inferiority IC purpose. added by Roger, 2009.09.02. */
++#define AVAILABLE_EFUSE_ADDR(addr)	(addr < EFUSE_REAL_CONTENT_LEN)
++/*
++ * <Roger_Notes>
++ * To prevent out of boundary programming case,
++ * leave 1byte and program full section
++ * 9bytes + 1byt + 5bytes and pre 1byte.
++ * For worst case:
++ * | 1byte|----8bytes----|1byte|--5bytes--|
++ * |         |            Reserved(14bytes)	      |
++ *   */
++#define EFUSE_OOB_PROTECT_BYTES 		15	/* PG data exclude header, dummy 6 bytes frome CP test and reserved 1byte. */
++
++#define		EFUSE_REAL_CONTENT_LEN_88E	256
++#define		EFUSE_MAP_LEN_88E		512
++#define		EFUSE_MAX_SECTION_88E		64
++#define		EFUSE_MAX_WORD_UNIT_88E		4
++#define		EFUSE_IC_ID_OFFSET_88E			506	/* For some inferiority IC purpose. added by Roger, 2009.09.02. */
++#define		AVAILABLE_EFUSE_ADDR_88E(addr)	(addr < EFUSE_REAL_CONTENT_LEN_88E)
++/* <Roger_Notes> To prevent out of boundary programming case, leave 1byte and program full section
++ * 9bytes + 1byt + 5bytes and pre 1byte.
++ * For worst case:
++ * | 2byte|----8bytes----|1byte|--7bytes--|  */ /* 92D */
++#define 		EFUSE_OOB_PROTECT_BYTES_88E	18	/* PG data exclude header, dummy 7 bytes frome CP test and reserved 1byte. */
++#define		EFUSE_PROTECT_BYTES_BANK_88E	16
++
++
++/* ********************************************************
++ *			EFUSE for BT definition
++ * ******************************************************** */
++#define EFUSE_BT_REAL_CONTENT_LEN		1536	/* 512*3 */
++#define EFUSE_BT_MAP_LEN				1024	/* 1k bytes */
++#define EFUSE_BT_MAX_SECTION			128		/* 1024/8 */
++
++#define EFUSE_PROTECT_BYTES_BANK		16
++
++#define INCLUDE_MULTI_FUNC_BT(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_BT)
++#define INCLUDE_MULTI_FUNC_GPS(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_GPS)
++
++/* #define IS_MULTI_FUNC_CHIP(_Adapter)	(((((PHAL_DATA_TYPE)(_Adapter->HalData))->MultiFunc) & (RT_MULTI_FUNC_BT|RT_MULTI_FUNC_GPS)) ? _TRUE : _FALSE) */
++
++/* #define RT_IS_FUNC_DISABLED(__pAdapter, __FuncBits) ( (__pAdapter)->DisabledFunctions & (__FuncBits) ) */
++
++#ifdef CONFIG_PCI_HCI
++	/* according to the define in the rtw_xmit.h, rtw_recv.h */
++	#define TX_DESC_NUM_8188EE  TXDESC_NUM   /* 128 */
++	#ifdef CONFIG_CONCURRENT_MODE
++		/*#define BE_QUEUE_TX_DESC_NUM_8188EE  (TXDESC_NUM<<1)*/		/* 256 */
++		#define BE_QUEUE_TX_DESC_NUM_8188EE  ((TXDESC_NUM<<1)+(TXDESC_NUM>>1))    /* 320 */
++		/*#define BE_QUEUE_TX_DESC_NUM_8188EE  ((TXDESC_NUM<<1)+TXDESC_NUM)*/    /* 384 */
++	#else
++		#define BE_QUEUE_TX_DESC_NUM_8188EE  TXDESC_NUM /* 128 */
++		/*#define BE_QUEUE_TX_DESC_NUM_8188EE  (TXDESC_NUM+(TXDESC_NUM>>1)) */ /* 192 */
++	#endif
++
++	void InterruptRecognized8188EE(PADAPTER Adapter, PRT_ISR_CONTENT pIsrContent);
++	void UpdateInterruptMask8188EE(PADAPTER Adapter, u32 AddMSR, u32 AddMSR1, u32 RemoveMSR, u32 RemoveMSR1);
++#endif /* CONFIG_PCI_HCI */
++
++/* rtl8188e_hal_init.c */
++
++s32 rtl8188e_FirmwareDownload(PADAPTER padapter, BOOLEAN  bUsedWoWLANFw);
++void _8051Reset88E(PADAPTER padapter);
++void rtl8188e_InitializeFirmwareVars(PADAPTER padapter);
++
++
++s32 InitLLTTable(PADAPTER padapter, u8 txpktbuf_bndy);
++
++/* EFuse */
++u8 GetEEPROMSize8188E(PADAPTER padapter);
++void Hal_InitPGData88E(PADAPTER padapter);
++void Hal_EfuseParseIDCode88E(PADAPTER padapter, u8 *hwinfo);
++void Hal_ReadTxPowerInfo88E(PADAPTER padapter, u8 *hwinfo, BOOLEAN	AutoLoadFail);
++
++void Hal_EfuseParseEEPROMVer88E(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void rtl8188e_EfuseParseChnlPlan(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseCustomerID88E(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_ReadAntennaDiversity88E(PADAPTER pAdapter, u8 *PROMContent, BOOLEAN AutoLoadFail);
++void Hal_ReadThermalMeter_88E(PADAPTER	Adapter, u8 *PROMContent, BOOLEAN	AutoloadFail);
++void Hal_EfuseParseXtal_8188E(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseBoardType88E(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_ReadPowerSavingMode88E(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_ReadPAType_8188E(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++void Hal_ReadAmplifierType_8188E(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++void Hal_ReadRFEType_8188E(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++
++BOOLEAN HalDetectPwrDownMode88E(PADAPTER Adapter);
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	void Hal_DetectWoWMode(PADAPTER pAdapter);
++#endif /* CONFIG_WOWLAN */
++
++
++#ifdef CONFIG_RF_POWER_TRIM
++	void Hal_ReadRFGainOffset(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++#endif /*CONFIG_RF_POWER_TRIM*/
++
++void rtl8188e_init_default_value(_adapter *adapter);
++
++void rtl8188e_set_hal_ops(struct hal_ops *pHalFunc);
++void init_hal_spec_8188e(_adapter *adapter);
++
++/* register */
++void SetBcnCtrlReg(PADAPTER padapter, u8 SetBits, u8 ClearBits);
++
++void rtl8188e_start_thread(_adapter *padapter);
++void rtl8188e_stop_thread(_adapter *padapter);
++
++void rtw_IOL_cmd_tx_pkt_buf_dump(ADAPTER *Adapter, int data_len);
++#ifdef CONFIG_IOL_EFUSE_PATCH
++	s32 rtl8188e_iol_efuse_patch(PADAPTER padapter);
++#endif/* CONFIG_IOL_EFUSE_PATCH */
++void _InitTransferPageSize(PADAPTER padapter);
++
++void SetHwReg8188E(PADAPTER padapter, u8 variable, u8 *val);
++void GetHwReg8188E(PADAPTER padapter, u8 variable, u8 *val);
++
++u8
++GetHalDefVar8188E(
++	IN	PADAPTER				Adapter,
++	IN	HAL_DEF_VARIABLE		eVariable,
++	IN	PVOID					pValue
++);
++#ifdef CONFIG_GPIO_API
++int rtl8188e_GpioFuncCheck(PADAPTER adapter, u8 gpio_num);
++#endif
++#endif /* __RTL8188E_HAL_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8188e_led.h b/drivers/net/wireless/rtl8812au/include/rtl8188e_led.h
+new file mode 100644
+index 0000000..8d0feee
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8188e_led.h
+@@ -0,0 +1,40 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188E_LED_H__
++#define __RTL8188E_LED_H__
++
++
++/* ********************************************************************************
++ * Interface to manipulate LED objects.
++ * ******************************************************************************** */
++#ifdef CONFIG_USB_HCI
++	void rtl8188eu_InitSwLeds(PADAPTER padapter);
++	void rtl8188eu_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_PCI_HCI
++	void rtl8188ee_InitSwLeds(PADAPTER padapter);
++	void rtl8188ee_DeInitSwLeds(PADAPTER padapter);
++#endif
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	void rtl8188es_InitSwLeds(PADAPTER padapter);
++	void rtl8188es_DeInitSwLeds(PADAPTER padapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8188e_recv.h b/drivers/net/wireless/rtl8812au/include/rtl8188e_recv.h
+new file mode 100644
+index 0000000..2f574a8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8188e_recv.h
+@@ -0,0 +1,170 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188E_RECV_H__
++#define __RTL8188E_RECV_H__
++
++#define RECV_BLK_SZ 512
++#define RECV_BLK_CNT 16
++#define RECV_BLK_TH RECV_BLK_CNT
++
++#if defined(CONFIG_USB_HCI)
++
++	#ifndef MAX_RECVBUF_SZ
++		#ifdef PLATFORM_OS_CE
++			#define MAX_RECVBUF_SZ (8192+1024) /* 8K+1k */
++		#else
++			#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++				/* #define MAX_RECVBUF_SZ (32768) */ /* 32k */
++				/* #define MAX_RECVBUF_SZ (16384) */ /* 16K */
++				/* #define MAX_RECVBUF_SZ (10240) */ /* 10K */
++				#ifdef CONFIG_PLATFORM_MSTAR
++					#define MAX_RECVBUF_SZ (8192) /* 8K */
++				#else
++					#define MAX_RECVBUF_SZ (15360) /* 15k < 16k */
++				#endif
++				/* #define MAX_RECVBUF_SZ (8192+1024) */ /* 8K+1k */
++			#else
++				#define MAX_RECVBUF_SZ (4000) /* about 4K */
++			#endif
++		#endif
++	#endif /* !MAX_RECVBUF_SZ */
++
++#elif defined(CONFIG_PCI_HCI)
++	/* #ifndef CONFIG_MINIMAL_MEMORY_USAGE */
++	/*	#define MAX_RECVBUF_SZ (9100) */
++	/* #else */
++	#define MAX_RECVBUF_SZ (4000) /* about 4K
++	* #endif */
++
++
++#elif defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++
++	#define MAX_RECVBUF_SZ (10240)
++
++#endif
++
++/* Rx smooth factor */
++#define	Rx_Smooth_Factor (20)
++
++#define TX_RPT1_PKT_LEN 8
++
++typedef struct rxreport_8188e {
++	/* Offset 0 */
++	u32 pktlen:14;
++	u32 crc32:1;
++	u32 icverr:1;
++	u32 drvinfosize:4;
++	u32 security:3;
++	u32 qos:1;
++	u32 shift:2;
++	u32 physt:1;
++	u32 swdec:1;
++	u32 ls:1;
++	u32 fs:1;
++	u32 eor:1;
++	u32 own:1;
++
++	/* Offset 4 */
++	u32 macid:5;
++	u32 tid:4;
++	u32 hwrsvd:4;
++	u32 amsdu:1;
++	u32 paggr:1;
++	u32 faggr:1;
++	u32 a1fit:4;
++	u32 a2fit:4;
++	u32 pam:1;
++	u32 pwr:1;
++	u32 md:1;
++	u32 mf:1;
++	u32 type:2;
++	u32 mc:1;
++	u32 bc:1;
++
++	/* Offset 8 */
++	u32 seq:12;
++	u32 frag:4;
++	u32 nextpktlen:14;
++	u32 nextind:1;
++	u32 rsvd0831:1;
++
++	/* Offset 12 */
++	u32 rxmcs:6;
++	u32 rxht:1;
++	u32 gf:1;
++	u32 splcp:1;
++	u32 bw:1;
++	u32 htc:1;
++	u32 eosp:1;
++	u32 bssidfit:2;
++	u32 rpt_sel:2;
++	u32 rsvd1216:13;
++	u32 pattern_match:1;
++	u32 unicastwake:1;
++	u32 magicwake:1;
++
++	/* Offset 16 */
++	/*
++	u32 pattern0match:1;
++	u32 pattern1match:1;
++	u32 pattern2match:1;
++	u32 pattern3match:1;
++	u32 pattern4match:1;
++	u32 pattern5match:1;
++	u32 pattern6match:1;
++	u32 pattern7match:1;
++	u32 pattern8match:1;
++	u32 pattern9match:1;
++	u32 patternamatch:1;
++	u32 patternbmatch:1;
++	u32 patterncmatch:1;
++	u32 rsvd1613:19;
++	*/
++	u32 rsvd16;
++
++	/* Offset 20 */
++	u32 tsfl;
++
++	/* Offset 24 */
++	u32 bassn:12;
++	u32 bavld:1;
++	u32 rsvd2413:19;
++} RXREPORT, *PRXREPORT;
++
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	s32 rtl8188es_init_recv_priv(PADAPTER padapter);
++	void rtl8188es_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_USB_HCI
++	void rtl8188eu_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf);
++	s32 rtl8188eu_init_recv_priv(PADAPTER padapter);
++	void rtl8188eu_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8188ee_init_recv_priv(PADAPTER padapter);
++	void rtl8188ee_free_recv_priv(PADAPTER padapter);
++#endif
++
++void rtl8188e_query_rx_desc_status(union recv_frame *precvframe, struct recv_stat *prxstat);
++
++#endif /* __RTL8188E_RECV_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8188e_rf.h b/drivers/net/wireless/rtl8812au/include/rtl8188e_rf.h
+new file mode 100644
+index 0000000..6588126
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8188e_rf.h
+@@ -0,0 +1,32 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188E_RF_H__
++#define __RTL8188E_RF_H__
++
++
++
++int	PHY_RF6052_Config8188E(IN	PADAPTER		Adapter);
++void		rtl8188e_RF_ChangeTxPath(IN	PADAPTER	Adapter,
++		IN	u16		DataRate);
++void		rtl8188e_PHY_RF6052SetBandwidth(
++	IN	PADAPTER				Adapter,
++	IN	CHANNEL_WIDTH		Bandwidth);
++
++#endif/* __RTL8188E_RF_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8188e_spec.h b/drivers/net/wireless/rtl8812au/include/rtl8188e_spec.h
+new file mode 100644
+index 0000000..c7698a6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8188e_spec.h
+@@ -0,0 +1,165 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#ifndef __RTL8188E_SPEC_H__
++#define __RTL8188E_SPEC_H__
++
++
++/* ************************************************************
++ * 8188E Regsiter offset definition
++ * ************************************************************ */
++
++
++/* ************************************************************
++ *
++ * ************************************************************ */
++
++/* -----------------------------------------------------
++ *
++ *	0x0000h ~ 0x00FFh	System Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_BB_PAD_CTRL				0x0064
++#define REG_HMEBOX_E0					0x0088
++#define REG_HMEBOX_E1					0x008A
++#define REG_HMEBOX_E2					0x008C
++#define REG_HMEBOX_E3					0x008E
++#define REG_HMEBOX_EXT_0				0x01F0
++#define REG_HMEBOX_EXT_1				0x01F4
++#define REG_HMEBOX_EXT_2				0x01F8
++#define REG_HMEBOX_EXT_3				0x01FC
++#define REG_HIMR_88E					0x00B0 /* RTL8188E */
++#define REG_HISR_88E					0x00B4 /* RTL8188E */
++#define REG_HIMRE_88E					0x00B8 /* RTL8188E */
++#define REG_HISRE_88E					0x00BC /* RTL8188E */
++#define REG_MACID_NO_LINK_0			0x0484
++#define REG_MACID_NO_LINK_1			0x0488
++#define REG_MACID_PAUSE_0			0x048c
++#define REG_MACID_PAUSE_1			0x0490
++
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_PKTBUF_DBG_ADDR			(REG_PKTBUF_DBG_CTRL)
++#define REG_RXPKTBUF_DBG				(REG_PKTBUF_DBG_CTRL+2)
++#define REG_TXPKTBUF_DBG				(REG_PKTBUF_DBG_CTRL+3)
++#define REG_WOWLAN_WAKE_REASON		REG_MCUTST_WOWLAN
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0300h ~ 0x03FFh	PCIe
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++#ifdef CONFIG_WOWLAN
++	#define REG_TXPKTBUF_IV_LOW             0x01a4
++	#define REG_TXPKTBUF_IV_HIGH            0x01a8
++#endif
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++#ifdef CONFIG_RF_POWER_TRIM
++	#define EEPROM_RF_GAIN_OFFSET			0xC1
++	#define EEPROM_RF_GAIN_VAL				0xF6
++	#define EEPROM_THERMAL_OFFSET			0xF5
++#endif /*CONFIG_RF_POWER_TRIM*/
++/* ----------------------------------------------------------------------------
++ * 88E Driver Initialization Offload REG_FDHM0(Offset 0x88, 8 bits)
++ * ----------------------------------------------------------------------------
++ * IOL config for REG_FDHM0(Reg0x88) */
++#define CMD_INIT_LLT					BIT0
++#define CMD_READ_EFUSE_MAP		BIT1
++#define CMD_EFUSE_PATCH			BIT2
++#define CMD_IOCONFIG				BIT3
++#define CMD_INIT_LLT_ERR			BIT4
++#define CMD_READ_EFUSE_MAP_ERR	BIT5
++#define CMD_EFUSE_PATCH_ERR		BIT6
++#define CMD_IOCONFIG_ERR			BIT7
++
++/* -----------------------------------------------------
++ *
++ *	Redifine register definition for compatibility
++ *
++ * ----------------------------------------------------- */
++
++/* TODO: use these definition when using REG_xxx naming rule.
++ * NOTE: DO NOT Remove these definition. Use later. */
++#define ISR_88E				REG_HISR_88E
++
++#ifdef CONFIG_PCI_HCI
++	/* #define IMR_RX_MASK		(IMR_ROK_88E|IMR_RDU_88E|IMR_RXFOVW_88E) */
++	#define IMR_TX_MASK			(IMR_VODOK_88E | IMR_VIDOK_88E | IMR_BEDOK_88E | IMR_BKDOK_88E | IMR_MGNTDOK_88E | IMR_HIGHDOK_88E | IMR_BCNDERR0_88E)
++
++	#ifdef CONFIG_CONCURRENT_MODE
++		#define RT_BCN_INT_MASKS	(IMR_BCNDMAINT0_88E | IMR_TBDOK_88E | IMR_TBDER_88E | IMR_BCNDMAINT_E_88E)
++	#else
++		#define RT_BCN_INT_MASKS	(IMR_BCNDMAINT0_88E | IMR_TBDOK_88E | IMR_TBDER_88E)
++	#endif
++
++	#define RT_AC_INT_MASKS	(IMR_VIDOK_88E | IMR_VODOK_88E | IMR_BEDOK_88E | IMR_BKDOK_88E)
++#endif
++
++
++/* ********************************************************
++ * General definitions
++ * ******************************************************** */
++
++#define MACID_NUM_88E 64
++#define SEC_CAM_ENT_NUM_88E 32
++#define HW_PORT_NUM_88E	2
++#define NSS_NUM_88E 1
++#define BAND_CAP_88E (BAND_CAP_2G)
++#define BW_CAP_88E (BW_CAP_20M | BW_CAP_40M)
++#define PROTO_CAP_88E (PROTO_CAP_11B | PROTO_CAP_11G | PROTO_CAP_11N)
++
++/* ----------------------------------------------------------------------------
++ * 8192C EEPROM/EFUSE share register definition.
++ * ---------------------------------------------------------------------------- */
++
++#define EFUSE_ACCESS_ON			0x69	/* For RTL8723 only. */
++#define EFUSE_ACCESS_OFF			0x00	/* For RTL8723 only. */
++
++#endif /* __RTL8188E_SPEC_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8188e_sreset.h b/drivers/net/wireless/rtl8812au/include/rtl8188e_sreset.h
+new file mode 100644
+index 0000000..d0214ac
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8188e_sreset.h
+@@ -0,0 +1,29 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8188E_SRESET_H_
++#define _RTL8188E_SRESET_H_
++
++#include <rtw_sreset.h>
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	extern void rtl8188e_sreset_xmit_status_check(_adapter *padapter);
++	extern void rtl8188e_sreset_linked_status_check(_adapter *padapter);
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8188e_xmit.h b/drivers/net/wireless/rtl8812au/include/rtl8188e_xmit.h
+new file mode 100644
+index 0000000..c04a66c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8188e_xmit.h
+@@ -0,0 +1,300 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188E_XMIT_H__
++#define __RTL8188E_XMIT_H__
++
++
++
++
++/* For 88e early mode */
++#define SET_EARLYMODE_PKTNUM(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 0, 3, __Value)
++#define SET_EARLYMODE_LEN0(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 4, 12, __Value)
++#define SET_EARLYMODE_LEN1(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 16, 12, __Value)
++#define SET_EARLYMODE_LEN2_1(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 28, 4, __Value)
++#define SET_EARLYMODE_LEN2_2(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 8, __Value)
++#define SET_EARLYMODE_LEN3(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 8, 12, __Value)
++#define SET_EARLYMODE_LEN4(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 20, 12, __Value)
++
++/*
++ * defined for TX DESC Operation
++ *   */
++
++#define MAX_TID (15)
++
++/* OFFSET 0 */
++#define OFFSET_SZ	0
++#define OFFSET_SHT	16
++#define BMC		BIT(24)
++#define LSG		BIT(26)
++#define FSG		BIT(27)
++#define OWN		BIT(31)
++
++
++/* OFFSET 4 */
++#define PKT_OFFSET_SZ		0
++#define QSEL_SHT			8
++#define RATE_ID_SHT			16
++#define NAVUSEHDR			BIT(20)
++#define SEC_TYPE_SHT		22
++#define PKT_OFFSET_SHT		26
++
++/* OFFSET 8 */
++#define AGG_EN				BIT(12)
++#define AGG_BK					BIT(16)
++#define AMPDU_DENSITY_SHT	20
++#define ANTSEL_A			BIT(24)
++#define ANTSEL_B			BIT(25)
++#define TX_ANT_CCK_SHT		26
++#define TX_ANTL_SHT			28
++#define TX_ANT_HT_SHT		30
++
++/* OFFSET 12 */
++#define SEQ_SHT				16
++#define EN_HWSEQ			BIT(31)
++
++/* OFFSET 16 */
++#define	QOS                          BIT(6)
++#define	HW_SSN				BIT(7)
++#define	USERATE			BIT(8)
++#define	DISDATAFB			BIT(10)
++#define   CTS_2_SELF			BIT(11)
++#define	RTS_EN				BIT(12)
++#define	HW_RTS_EN			BIT(13)
++#define	DATA_SHORT			BIT(24)
++#define	PWR_STATUS_SHT	15
++#define	DATA_SC_SHT		20
++#define	DATA_BW			BIT(25)
++
++/* OFFSET 20 */
++#define	RTY_LMT_EN			BIT(17)
++
++
++/* OFFSET 20 */
++#define SGI					BIT(6)
++#define USB_TXAGG_NUM_SHT	24
++
++typedef struct txdesc_88e {
++	/* Offset 0 */
++	u32 pktlen:16;
++	u32 offset:8;
++	u32 bmc:1;
++	u32 htc:1;
++	u32 ls:1;
++	u32 fs:1;
++	u32 linip:1;
++	u32 noacm:1;
++	u32 gf:1;
++	u32 own:1;
++
++	/* Offset 4 */
++	u32 macid:6;
++	u32 rsvd0406:2;
++	u32 qsel:5;
++	u32 rd_nav_ext:1;
++	u32 lsig_txop_en:1;
++	u32 pifs:1;
++	u32 rate_id:4;
++	u32 navusehdr:1;
++	u32 en_desc_id:1;
++	u32 sectype:2;
++	u32 rsvd0424:2;
++	u32 pkt_offset:5;	/* unit: 8 bytes */
++	u32 rsvd0431:1;
++
++	/* Offset 8 */
++	u32 rts_rc:6;
++	u32 data_rc:6;
++	u32 agg_en:1;
++	u32 rd_en:1;
++	u32 bar_rty_th:2;
++	u32 bk:1;
++	u32 morefrag:1;
++	u32 raw:1;
++	u32 ccx:1;
++	u32 ampdu_density:3;
++	u32 bt_null:1;
++	u32 ant_sel_a:1;
++	u32 ant_sel_b:1;
++	u32 tx_ant_cck:2;
++	u32 tx_antl:2;
++	u32 tx_ant_ht:2;
++
++	/* Offset 12 */
++	u32 nextheadpage:8;
++	u32 tailpage:8;
++	u32 seq:12;
++	u32 cpu_handle:1;
++	u32 tag1:1;
++	u32 trigger_int:1;
++	u32 hwseq_en:1;
++
++	/* Offset 16 */
++	u32 rtsrate:5;
++	u32 ap_dcfe:1;
++	u32 hwseq_sel:2;
++	u32 userate:1;
++	u32 disrtsfb:1;
++	u32 disdatafb:1;
++	u32 cts2self:1;
++	u32 rtsen:1;
++	u32 hw_rts_en:1;
++	u32 port_id:1;
++	u32 pwr_status:3;
++	u32 wait_dcts:1;
++	u32 cts2ap_en:1;
++	u32 data_sc:2;
++	u32 data_stbc:2;
++	u32 data_short:1;
++	u32 data_bw:1;
++	u32 rts_short:1;
++	u32 rts_bw:1;
++	u32 rts_sc:2;
++	u32 vcs_stbc:2;
++
++	/* Offset 20 */
++	u32 datarate:6;
++	u32 sgi:1;
++	u32 try_rate:1;
++	u32 data_ratefb_lmt:5;
++	u32 rts_ratefb_lmt:4;
++	u32 rty_lmt_en:1;
++	u32 data_rt_lmt:6;
++	u32 usb_txagg_num:8;
++
++	/* Offset 24 */
++	u32 txagg_a:5;
++	u32 txagg_b:5;
++	u32 use_max_len:1;
++	u32 max_agg_num:5;
++	u32 mcsg1_max_len:4;
++	u32 mcsg2_max_len:4;
++	u32 mcsg3_max_len:4;
++	u32 mcs7_sgi_max_len:4;
++
++	/* Offset 28 */
++	u32 checksum:16;	/* TxBuffSize(PCIe)/CheckSum(USB) */
++	u32 sw0:8; /* offset 30 */
++	u32 sw1:4;
++	u32 mcs15_sgi_max_len:4;
++} TXDESC_8188E, *PTXDESC_8188E;
++
++#define txdesc_set_ccx_sw_88e(txdesc, value) \
++	do { \
++		((struct txdesc_88e *)(txdesc))->sw1 = (((value)>>8) & 0x0f); \
++		((struct txdesc_88e *)(txdesc))->sw0 = ((value) & 0xff); \
++	} while (0)
++
++struct txrpt_ccx_88e {
++	/* offset 0 */
++	u8 tag1:1;
++	u8 pkt_num:3;
++	u8 txdma_underflow:1;
++	u8 int_bt:1;
++	u8 int_tri:1;
++	u8 int_ccx:1;
++
++	/* offset 1 */
++	u8 mac_id:6;
++	u8 pkt_ok:1;
++	u8 bmc:1;
++
++	/* offset 2 */
++	u8 retry_cnt:6;
++	u8 lifetime_over:1;
++	u8 retry_over:1;
++
++	/* offset 3 */
++	u8 ccx_qtime0;
++	u8 ccx_qtime1;
++
++	/* offset 5 */
++	u8 final_data_rate;
++
++	/* offset 6 */
++	u8 sw1:4;
++	u8 qsel:4;
++
++	/* offset 7 */
++	u8 sw0;
++};
++
++#define txrpt_ccx_sw_88e(txrpt_ccx) ((txrpt_ccx)->sw0 + ((txrpt_ccx)->sw1<<8))
++#define txrpt_ccx_qtime_88e(txrpt_ccx) ((txrpt_ccx)->ccx_qtime0+((txrpt_ccx)->ccx_qtime1<<8))
++
++#define SET_TX_DESC_SEC_TYPE_8188E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 22, 2, __Value)
++
++void rtl8188e_fill_fake_txdesc(PADAPTER	padapter, u8 *pDesc, u32 BufferLen,
++			       u8 IsPsPoll, u8	IsBTQosNull, u8 bDataFrame);
++void rtl8188e_cal_txdesc_chksum(struct tx_desc	*ptxdesc);
++#if defined(CONFIG_CONCURRENT_MODE)
++	void fill_txdesc_force_bmc_camid(struct pkt_attrib *pattrib, struct tx_desc *ptxdesc);
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	s32 rtl8188es_init_xmit_priv(PADAPTER padapter);
++	void rtl8188es_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8188es_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8188es_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8188es_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	thread_return rtl8188es_xmit_thread(thread_context context);
++	s32 rtl8188es_xmit_buf_handler(PADAPTER padapter);
++
++	#ifdef CONFIG_SDIO_TX_TASKLET
++		void rtl8188es_xmit_tasklet(void *priv);
++	#endif
++#endif
++
++#ifdef CONFIG_USB_HCI
++	s32 rtl8188eu_init_xmit_priv(PADAPTER padapter);
++	void rtl8188eu_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8188eu_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8188eu_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8188eu_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8188eu_xmit_buf_handler(PADAPTER padapter);
++	void rtl8188eu_xmit_tasklet(void *priv);
++	s32 rtl8188eu_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8188ee_init_xmit_priv(PADAPTER padapter);
++	void rtl8188ee_free_xmit_priv(PADAPTER padapter);
++	void	rtl8188ee_xmitframe_resume(_adapter *padapter);
++	s32 rtl8188ee_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8188ee_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8188ee_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	void rtl8188ee_xmit_tasklet(void *priv);
++#endif
++
++
++
++#ifdef CONFIG_TX_EARLY_MODE
++	void UpdateEarlyModeInfo8188E(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++#endif
++
++#ifdef CONFIG_XMIT_ACK
++	void dump_txrpt_ccx_88e(void *buf);
++	void handle_txrpt_ccx_88e(_adapter *adapter, u8 *buf);
++#else
++	#define dump_txrpt_ccx_88e(buf) do {} while (0)
++	#define handle_txrpt_ccx_88e(adapter, buf) do {} while (0)
++#endif /* CONFIG_XMIT_ACK */
++
++void _dbg_dump_tx_info(_adapter	*padapter, int frame_tag, struct tx_desc *ptxdesc);
++#endif /* __RTL8188E_XMIT_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8188f_cmd.h b/drivers/net/wireless/rtl8812au/include/rtl8188f_cmd.h
+new file mode 100644
+index 0000000..6536503
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8188f_cmd.h
+@@ -0,0 +1,219 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188F_CMD_H__
++#define __RTL8188F_CMD_H__
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD DEFINITION    ------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++enum h2c_cmd_8188F {
++	/* Common Class: 000 */
++	H2C_8188F_RSVD_PAGE = 0x00,
++	H2C_8188F_MEDIA_STATUS_RPT = 0x01,
++	H2C_8188F_SCAN_ENABLE = 0x02,
++	H2C_8188F_KEEP_ALIVE = 0x03,
++	H2C_8188F_DISCON_DECISION = 0x04,
++	H2C_8188F_PSD_OFFLOAD = 0x05,
++	H2C_8188F_AP_OFFLOAD = 0x08,
++	H2C_8188F_BCN_RSVDPAGE = 0x09,
++	H2C_8188F_PROBERSP_RSVDPAGE = 0x0A,
++	H2C_8188F_FCS_RSVDPAGE = 0x10,
++	H2C_8188F_FCS_INFO = 0x11,
++	H2C_8188F_AP_WOW_GPIO_CTRL = 0x13,
++
++	/* PoweSave Class: 001 */
++	H2C_8188F_SET_PWR_MODE = 0x20,
++	H2C_8188F_PS_TUNING_PARA = 0x21,
++	H2C_8188F_PS_TUNING_PARA2 = 0x22,
++	H2C_8188F_P2P_LPS_PARAM = 0x23,
++	H2C_8188F_P2P_PS_OFFLOAD = 0x24,
++	H2C_8188F_PS_SCAN_ENABLE = 0x25,
++	H2C_8188F_SAP_PS_ = 0x26,
++	H2C_8188F_INACTIVE_PS_ = 0x27, /* Inactive_PS */
++	H2C_8188F_FWLPS_IN_IPS_ = 0x28,
++
++	/* Dynamic Mechanism Class: 010 */
++	H2C_8188F_MACID_CFG = 0x40,
++	H2C_8188F_TXBF = 0x41,
++	H2C_8188F_RSSI_SETTING = 0x42,
++	H2C_8188F_AP_REQ_TXRPT = 0x43,
++	H2C_8188F_INIT_RATE_COLLECT = 0x44,
++	H2C_8188F_RA_PARA_ADJUST = 0x46,
++
++	/* BT Class: 011 */
++	H2C_8188F_B_TYPE_TDMA = 0x60,
++	H2C_8188F_BT_INFO = 0x61,
++	H2C_8188F_FORCE_BT_TXPWR = 0x62,
++	H2C_8188F_BT_IGNORE_WLANACT = 0x63,
++	H2C_8188F_DAC_SWING_VALUE = 0x64,
++	H2C_8188F_ANT_SEL_RSV = 0x65,
++	H2C_8188F_WL_OPMODE = 0x66,
++	H2C_8188F_BT_MP_OPER = 0x67,
++	H2C_8188F_BT_CONTROL = 0x68,
++	H2C_8188F_BT_WIFI_CTRL = 0x69,
++	H2C_8188F_BT_FW_PATCH = 0x6A,
++	H2C_8188F_BT_WLAN_CALIBRATION = 0x6D,
++
++	/* WOWLAN Class: 100 */
++	H2C_8188F_WOWLAN = 0x80,
++	H2C_8188F_REMOTE_WAKE_CTRL = 0x81,
++	H2C_8188F_AOAC_GLOBAL_INFO = 0x82,
++	H2C_8188F_AOAC_RSVD_PAGE = 0x83,
++	H2C_8188F_AOAC_RSVD_PAGE2 = 0x84,
++	H2C_8188F_D0_SCAN_OFFLOAD_CTRL = 0x85,
++	H2C_8188F_D0_SCAN_OFFLOAD_INFO = 0x86,
++	H2C_8188F_CHNL_SWITCH_OFFLOAD = 0x87,
++	H2C_8188F_P2P_OFFLOAD_RSVD_PAGE = 0x8A,
++	H2C_8188F_P2P_OFFLOAD = 0x8B,
++
++	H2C_8188F_RESET_TSF = 0xC0,
++	H2C_8188F_MAXID,
++};
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD CONTENT    --------------------------------------------------
++ * ---------------------------------------------------------------------------------------------------------
++ * _RSVDPAGE_LOC_CMD_0x00 */
++#define SET_8188F_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8188F_H2CCMD_RSVDPAGE_LOC_PSPOLL(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_8188F_H2CCMD_RSVDPAGE_LOC_NULL_DATA(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8188F_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8188F_H2CCMD_RSVDPAGE_LOC_BT_QOS_NULL_DATA(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++
++/* _KEEP_ALIVE_CMD_0x03 */
++#define SET_8188F_H2CCMD_KEEPALIVE_PARM_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8188F_H2CCMD_KEEPALIVE_PARM_ADOPT(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8188F_H2CCMD_KEEPALIVE_PARM_PKT_TYPE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_8188F_H2CCMD_KEEPALIVE_PARM_CHECK_PERIOD(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++
++/* _DISCONNECT_DECISION_CMD_0x04 */
++#define SET_8188F_H2CCMD_DISCONDECISION_PARM_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8188F_H2CCMD_DISCONDECISION_PARM_ADOPT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8188F_H2CCMD_DISCONDECISION_PARM_CHECK_PERIOD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8188F_H2CCMD_DISCONDECISION_PARM_TRY_PKT_NUM(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++
++/* _PWR_MOD_CMD_0x20 */
++#define SET_8188F_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8188F_H2CCMD_PWRMODE_PARM_RLBM(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 4, __Value)
++#define SET_8188F_H2CCMD_PWRMODE_PARM_SMART_PS(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 4, 4, __Value)
++#define SET_8188F_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8188F_H2CCMD_PWRMODE_PARM_ALL_QUEUE_UAPSD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8188F_H2CCMD_PWRMODE_PARM_BCN_EARLY_C2H_RPT(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 2, 1, __Value)
++#define SET_8188F_H2CCMD_PWRMODE_PARM_PWR_STATE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8188F_H2CCMD_PWRMODE_PARM_BYTE5(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++#define GET_8188F_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd)					LE_BITS_TO_1BYTE(__pH2CCmd, 0, 8)
++
++/* _PS_TUNE_PARAM_CMD_0x21 */
++#define SET_8188F_H2CCMD_PSTUNE_PARM_BCN_TO_LIMIT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8188F_H2CCMD_PSTUNE_PARM_DTIM_TIMEOUT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8188F_H2CCMD_PSTUNE_PARM_ADOPT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 1, __Value)
++#define SET_8188F_H2CCMD_PSTUNE_PARM_PS_TIMEOUT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 1, 7, __Value)
++#define SET_8188F_H2CCMD_PSTUNE_PARM_DTIM_PERIOD(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++
++/* _MACID_CFG_CMD_0x40 */
++#define SET_8188F_H2CCMD_MACID_CFG_MACID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_RAID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 5, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_SGI_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 7, 1, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_BW(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 2, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_NO_UPDATE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 3, 1, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_VHT_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 4, 2, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_DISPT(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 6, 1, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_DISRA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 7, 1, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_RATE_MASK0(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_RATE_MASK1(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+4, 0, 8, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_RATE_MASK2(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+5, 0, 8, __Value)
++#define SET_8188F_H2CCMD_MACID_CFG_RATE_MASK3(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+6, 0, 8, __Value)
++
++/* _RSSI_SETTING_CMD_0x42 */
++#define SET_8188F_H2CCMD_RSSI_SETTING_MACID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8188F_H2CCMD_RSSI_SETTING_RSSI(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 7, __Value)
++#define SET_8188F_H2CCMD_RSSI_SETTING_ULDL_STATE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++
++/* _AP_REQ_TXRPT_CMD_0x43 */
++#define SET_8188F_H2CCMD_APREQRPT_PARM_MACID1(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8188F_H2CCMD_APREQRPT_PARM_MACID2(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++
++/* _FORCE_BT_TXPWR_CMD_0x62 */
++#define SET_8188F_H2CCMD_BT_PWR_IDX(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++
++/* _FORCE_BT_MP_OPER_CMD_0x67 */
++#define SET_8188F_H2CCMD_BT_MPOPER_VER(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 4, __Value)
++#define SET_8188F_H2CCMD_BT_MPOPER_REQNUM(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 4, __Value)
++#define SET_8188F_H2CCMD_BT_MPOPER_IDX(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8188F_H2CCMD_BT_MPOPER_PARAM1(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++#define SET_8188F_H2CCMD_BT_MPOPER_PARAM2(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++#define SET_8188F_H2CCMD_BT_MPOPER_PARAM3(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+4, 0, 8, __Value)
++
++/* _BT_FW_PATCH_0x6A */
++#define SET_8188F_H2CCMD_BT_FW_PATCH_SIZE(__pH2CCmd, __Value)					SET_BITS_TO_LE_2BYTE((pu1Byte)(__pH2CCmd), 0, 16, __Value)
++#define SET_8188F_H2CCMD_BT_FW_PATCH_ADDR0(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8188F_H2CCMD_BT_FW_PATCH_ADDR1(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8188F_H2CCMD_BT_FW_PATCH_ADDR2(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8188F_H2CCMD_BT_FW_PATCH_ADDR3(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++
++/* ---------------------------------------------------------------------------------------------------------
++ * -------------------------------------------    Structure    --------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    Function Statement     --------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++/* host message to firmware cmd */
++void rtl8188f_set_FwPwrMode_cmd(PADAPTER padapter, u8 Mode);
++void rtl8188f_set_FwJoinBssRpt_cmd(PADAPTER padapter, u8 mstatus);
++void rtl8188f_set_rssi_cmd(PADAPTER padapter, u8 *param);
++void rtl8188f_fw_try_ap_cmd(PADAPTER padapter, u32 need_ack);
++/* s32 rtl8188f_set_lowpwr_lps_cmd(PADAPTER padapter, u8 enable); */
++void rtl8188f_set_FwPsTuneParam_cmd(PADAPTER padapter);
++void rtl8188f_set_FwMacIdConfig_cmd(_adapter *padapter, u8 mac_id, u8 raid, u8 bw, u8 sgi, u32 mask);
++void rtl8188f_set_FwBtMpOper_cmd(PADAPTER padapter, u8 idx, u8 ver, u8 reqnum, u8 *param);
++void rtl8188f_download_rsvd_page(PADAPTER padapter, u8 mstatus);
++#ifdef CONFIG_BT_COEXIST
++	void rtl8188f_download_BTCoex_AP_mode_rsvd_page(PADAPTER padapter);
++#endif /* CONFIG_BT_COEXIST */
++#ifdef CONFIG_P2P
++void rtl8188f_set_p2p_ps_offload_cmd(PADAPTER padapter, u8 p2p_ps_state);
++#endif /* CONFIG_P2P */
++
++void CheckFwRsvdPageContent(PADAPTER padapter);
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++void rtl8188f_set_BcnEarly_C2H_Rpt_cmd(PADAPTER padapter, u8 enable);
++#endif
++#endif
++
++#ifdef CONFIG_P2P_WOWLAN
++void rtl8188f_set_p2p_wowlan_offload_cmd(PADAPTER padapter);
++#endif
++
++void rtl8188f_set_FwPwrModeInIPS_cmd(PADAPTER padapter, u8 cmd_param);
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++u8 rtl8188f_reset_tsf(_adapter *padapter, u8 reset_port);
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++s32 FillH2CCmd8188F(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++u8 GetTxBufferRsvdPageNum8188F(_adapter *padapter, bool wowlan);
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8188f_dm.h b/drivers/net/wireless/rtl8812au/include/rtl8188f_dm.h
+new file mode 100644
+index 0000000..78aeab0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8188f_dm.h
+@@ -0,0 +1,47 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188F_DM_H__
++#define __RTL8188F_DM_H__
++/* ************************************************************
++ * Description:
++ *
++ * This file is for 8188F dynamic mechanism only
++ *
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * structure and define
++ * ************************************************************ */
++
++/* ************************************************************
++ * function prototype
++ * ************************************************************ */
++
++void rtl8188f_init_dm_priv(PADAPTER padapter);
++void rtl8188f_deinit_dm_priv(PADAPTER padapter);
++
++void rtl8188f_InitHalDm(PADAPTER padapter);
++void rtl8188f_HalDmWatchDog(PADAPTER padapter);
++void rtl8188f_HalDmWatchDog_in_LPS(PADAPTER padapter);
++void rtl8188f_hal_dm_in_lps(PADAPTER padapter);
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8188f_hal.h b/drivers/net/wireless/rtl8812au/include/rtl8188f_hal.h
+new file mode 100644
+index 0000000..8741fb2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8188f_hal.h
+@@ -0,0 +1,288 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188F_HAL_H__
++#define __RTL8188F_HAL_H__
++
++#include "hal_data.h"
++
++#include "rtl8188f_spec.h"
++#include "rtl8188f_rf.h"
++#include "rtl8188f_dm.h"
++#include "rtl8188f_recv.h"
++#include "rtl8188f_xmit.h"
++#include "rtl8188f_cmd.h"
++#include "rtl8188f_led.h"
++#include "Hal8188FPwrSeq.h"
++#include "Hal8188FPhyReg.h"
++#include "Hal8188FPhyCfg.h"
++#ifdef DBG_CONFIG_ERROR_DETECT
++#include "rtl8188f_sreset.h"
++#endif
++
++#define FW_8188F_SIZE			0x8000
++#define FW_8188F_START_ADDRESS	0x1000
++#define FW_8188F_END_ADDRESS		0x1FFF /* 0x5FFF */
++
++#define IS_FW_HEADER_EXIST_8188F(_pFwHdr)	((le16_to_cpu(_pFwHdr->Signature) & 0xFFF0) == 0x88F0)
++
++typedef struct _RT_FIRMWARE {
++	FIRMWARE_SOURCE	eFWSource;
++#ifdef CONFIG_EMBEDDED_FWIMG
++	u8			*szFwBuffer;
++#else
++	u8			szFwBuffer[FW_8188F_SIZE];
++#endif
++	u32			ulFwLength;
++} RT_FIRMWARE_8188F, *PRT_FIRMWARE_8188F;
++
++/*
++ * This structure must be cared byte-ordering
++ *
++ * Added by tynli. 2009.12.04. */
++typedef struct _RT_8188F_FIRMWARE_HDR {
++	/* 8-byte alinment required */
++
++	/* --- LONG WORD 0 ---- */
++	u16		Signature;	/* 92C0: test chip; 92C, 88C0: test chip; 88C1: MP A-cut; 92C1: MP A-cut */
++	u8		Category;	/* AP/NIC and USB/PCI */
++	u8		Function;	/* Reserved for different FW function indcation, for further use when driver needs to download different FW in different conditions */
++	u16		Version;		/* FW Version */
++	u16		Subversion;	/* FW Subversion, default 0x00 */
++
++	/* --- LONG WORD 1 ---- */
++	u8		Month;	/* Release time Month field */
++	u8		Date;	/* Release time Date field */
++	u8		Hour;	/* Release time Hour field */
++	u8		Minute;	/* Release time Minute field */
++	u16		RamCodeSize;	/* The size of RAM code */
++	u16		Rsvd2;
++
++	/* --- LONG WORD 2 ---- */
++	u32		SvnIdx;	/* The SVN entry index */
++	u32		Rsvd3;
++
++	/* --- LONG WORD 3 ---- */
++	u32		Rsvd4;
++	u32		Rsvd5;
++} RT_8188F_FIRMWARE_HDR, *PRT_8188F_FIRMWARE_HDR;
++
++#define DRIVER_EARLY_INT_TIME_8188F		0x05
++#define BCN_DMA_ATIME_INT_TIME_8188F		0x02
++
++/* for 8188F
++ * TX 32K, RX 16K, Page size 128B for TX, 8B for RX */
++#define PAGE_SIZE_TX_8188F			128
++#define PAGE_SIZE_RX_8188F			8
++
++#define RX_DMA_SIZE_8188F			0x4000	/* 16K */
++#ifdef CONFIG_FW_C2H_DEBUG
++	#define RX_DMA_RESERVED_SIZE_8188F	0x100	/* 256B, reserved for c2h debug message */
++#else
++	#define RX_DMA_RESERVED_SIZE_8188F	0x80	/* 128B, reserved for tx report */
++#endif
++
++#ifdef CONFIG_WOWLAN
++	#define RESV_FMWF	(WKFMCAM_SIZE * MAX_WKFM_CAM_NUM) /* 16 entries, for each is 24 bytes*/
++#else
++	#define RESV_FMWF	0
++#endif
++
++#define RX_DMA_BOUNDARY_8188F		(RX_DMA_SIZE_8188F - RX_DMA_RESERVED_SIZE_8188F - 1)
++
++/* Note: We will divide number of page equally for each queue other than public queue! */
++
++/* For General Reserved Page Number(Beacon Queue is reserved page)
++ * Beacon:2, PS-Poll:1, Null Data:1,Qos Null Data:1,BT Qos Null Data:1 */
++#define BCNQ_PAGE_NUM_8188F		0x08
++#ifdef CONFIG_CONCURRENT_MODE
++	#define BCNQ1_PAGE_NUM_8188F		0x08 /* 0x04 */
++#else
++	#define BCNQ1_PAGE_NUM_8188F		0x00
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++#undef BCNQ1_PAGE_NUM_8188F
++#define BCNQ1_PAGE_NUM_8188F		0x00 /* 0x04 */
++#endif
++
++/* For WoWLan , more reserved page
++ * ARP Rsp:1, RWC:1, GTK Info:1,GTK RSP:2,GTK EXT MEM:2, PNO: 6 */
++#ifdef CONFIG_WOWLAN
++	#define WOWLAN_PAGE_NUM_8188F	0x07
++#else
++	#define WOWLAN_PAGE_NUM_8188F	0x00
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++#undef WOWLAN_PAGE_NUM_8188F
++#define WOWLAN_PAGE_NUM_8188F	0x15
++#endif
++
++#ifdef CONFIG_AP_WOWLAN
++#define AP_WOWLAN_PAGE_NUM_8188F	0x02
++#endif
++
++#define TX_TOTAL_PAGE_NUMBER_8188F	(0xFF - BCNQ_PAGE_NUM_8188F - BCNQ1_PAGE_NUM_8188F - WOWLAN_PAGE_NUM_8188F)
++#define TX_PAGE_BOUNDARY_8188F		(TX_TOTAL_PAGE_NUMBER_8188F + 1)
++
++#define WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8188F	TX_TOTAL_PAGE_NUMBER_8188F
++#define WMM_NORMAL_TX_PAGE_BOUNDARY_8188F		(WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8188F + 1)
++
++/* For Normal Chip Setting
++ * (HPQ + LPQ + NPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER_8188F */
++#define NORMAL_PAGE_NUM_HPQ_8188F		0x0C
++#define NORMAL_PAGE_NUM_LPQ_8188F		0x02
++#define NORMAL_PAGE_NUM_NPQ_8188F		0x02
++
++/* Note: For Normal Chip Setting, modify later */
++#define WMM_NORMAL_PAGE_NUM_HPQ_8188F		0x30
++#define WMM_NORMAL_PAGE_NUM_LPQ_8188F		0x20
++#define WMM_NORMAL_PAGE_NUM_NPQ_8188F		0x20
++
++
++#include "HalVerDef.h"
++#include "hal_com.h"
++
++#define EFUSE_OOB_PROTECT_BYTES		15
++
++#define HAL_EFUSE_MEMORY
++
++#define HWSET_MAX_SIZE_8188F			512
++#define EFUSE_REAL_CONTENT_LEN_8188F		512
++#define EFUSE_MAP_LEN_8188F				512
++#define EFUSE_MAX_SECTION_8188F			64
++
++#define EFUSE_IC_ID_OFFSET			506	/* For some inferiority IC purpose. added by Roger, 2009.09.02. */
++#define AVAILABLE_EFUSE_ADDR(addr)	(addr < EFUSE_REAL_CONTENT_LEN_8188F)
++
++#define EFUSE_ACCESS_ON			0x69	/* For RTL8188 only. */
++#define EFUSE_ACCESS_OFF			0x00	/* For RTL8188 only. */
++
++/* ********************************************************
++ *			EFUSE for BT definition
++ * ******************************************************** */
++#define EFUSE_BT_REAL_BANK_CONTENT_LEN	512
++#define EFUSE_BT_REAL_CONTENT_LEN		1536	/* 512*3 */
++#define EFUSE_BT_MAP_LEN				1024	/* 1k bytes */
++#define EFUSE_BT_MAX_SECTION			128		/* 1024/8 */
++
++#define EFUSE_PROTECT_BYTES_BANK		16
++
++typedef struct _C2H_EVT_HDR {
++	u8	CmdID;
++	u8	CmdLen;
++	u8	CmdSeq;
++} __attribute__((__packed__)) C2H_EVT_HDR, *PC2H_EVT_HDR;
++
++#define INCLUDE_MULTI_FUNC_BT(_Adapter)		(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_BT)
++#define INCLUDE_MULTI_FUNC_GPS(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_GPS)
++
++/* rtl8188a_hal_init.c */
++s32 rtl8188f_FirmwareDownload(PADAPTER padapter, BOOLEAN  bUsedWoWLANFw);
++void rtl8188f_FirmwareSelfReset(PADAPTER padapter);
++void rtl8188f_InitializeFirmwareVars(PADAPTER padapter);
++
++void rtl8188f_InitAntenna_Selection(PADAPTER padapter);
++void rtl8188f_DeinitAntenna_Selection(PADAPTER padapter);
++void rtl8188f_CheckAntenna_Selection(PADAPTER padapter);
++void rtl8188f_init_default_value(PADAPTER padapter);
++
++s32 rtl8188f_InitLLTTable(PADAPTER padapter);
++
++s32 CardDisableHWSM(PADAPTER padapter, u8 resetMCU);
++s32 CardDisableWithoutHWSM(PADAPTER padapter);
++
++/* EFuse */
++u8 GetEEPROMSize8188F(PADAPTER padapter);
++void Hal_InitPGData(PADAPTER padapter, u8 *PROMContent);
++void Hal_EfuseParseIDCode(PADAPTER padapter, u8 *hwinfo);
++void Hal_EfuseParseTxPowerInfo_8188F(PADAPTER padapter, u8 *PROMContent, BOOLEAN AutoLoadFail);
++/* void Hal_EfuseParseBTCoexistInfo_8188F(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail); */
++void Hal_EfuseParseEEPROMVer_8188F(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseChnlPlan_8188F(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseCustomerID_8188F(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParsePowerSavingMode_8188F(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseAntennaDiversity_8188F(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseXtal_8188F(PADAPTER pAdapter, u8 *hwinfo, u8 AutoLoadFail);
++void Hal_EfuseParseThermalMeter_8188F(PADAPTER padapter, u8 *hwinfo, u8 AutoLoadFail);
++void Hal_EfuseParseKFreeData_8188F(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++
++#if 0 /* Do not need for rtl8188f */
++VOID Hal_EfuseParseVoltage_8188F(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN	AutoLoadFail);
++#endif
++
++#ifdef CONFIG_C2H_PACKET_EN
++void rtl8188f_c2h_packet_handler(PADAPTER padapter, u8 *pbuf, u16 length);
++#endif
++
++void rtl8188f_set_pll_ref_clk_sel(_adapter *adapter, u8 sel);
++
++void rtl8188f_set_hal_ops(struct hal_ops *pHalFunc);
++void init_hal_spec_8188f(_adapter *adapter);
++void SetHwReg8188F(PADAPTER padapter, u8 variable, u8 *val);
++void GetHwReg8188F(PADAPTER padapter, u8 variable, u8 *val);
++#ifdef CONFIG_C2H_PACKET_EN
++void SetHwRegWithBuf8188F(PADAPTER padapter, u8 variable, u8 *pbuf, int len);
++#endif /* CONFIG_C2H_PACKET_EN */
++u8 SetHalDefVar8188F(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++u8 GetHalDefVar8188F(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++
++/* register */
++void rtl8188f_InitBeaconParameters(PADAPTER padapter);
++void rtl8188f_InitBeaconMaxError(PADAPTER padapter, u8 InfraMode);
++void	_InitBurstPktLen_8188FS(PADAPTER Adapter);
++void _8051Reset8188(PADAPTER padapter);
++#ifdef CONFIG_WOWLAN
++void Hal_DetectWoWMode(PADAPTER pAdapter);
++#endif /* CONFIG_WOWLAN */
++
++void rtl8188f_start_thread(_adapter *padapter);
++void rtl8188f_stop_thread(_adapter *padapter);
++
++#if defined(CONFIG_CHECK_BT_HANG) && defined(CONFIG_BT_COEXIST)
++	void rtl8188fs_init_checkbthang_workqueue(_adapter *adapter);
++	void rtl8188fs_free_checkbthang_workqueue(_adapter *adapter);
++	void rtl8188fs_cancle_checkbthang_workqueue(_adapter *adapter);
++	void rtl8188fs_hal_check_bt_hang(_adapter *adapter);
++#endif
++
++#ifdef CONFIG_GPIO_WAKEUP
++void HalSetOutPutGPIO(PADAPTER padapter, u8 index, u8 OutPutValue);
++#endif
++
++#ifdef CONFIG_MP_INCLUDED
++int FirmwareDownloadBT(IN PADAPTER Adapter, PRT_MP_FIRMWARE pFirmware);
++#endif
++
++void CCX_FwC2HTxRpt_8188f(PADAPTER padapter, u8 *pdata, u8 len);
++#ifdef CONFIG_FW_C2H_DEBUG
++void Debug_FwC2H_8188f(PADAPTER padapter, u8 *pdata, u8 len);
++#endif /* CONFIG_FW_C2H_DEBUG */
++s32 c2h_id_filter_ccx_8188f(u8 *buf);
++s32 c2h_handler_8188f(PADAPTER padapter, u8 *pC2hEvent);
++u8 MRateToHwRate8188F(u8  rate);
++u8 HwRateToMRate8188F(u8	 rate);
++
++#ifdef CONFIG_PCI_HCI
++BOOLEAN	InterruptRecognized8188FE(PADAPTER Adapter);
++VOID	UpdateInterruptMask8188FE(PADAPTER Adapter, u32 AddMSR, u32 AddMSR1, u32 RemoveMSR, u32 RemoveMSR1);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8188f_led.h b/drivers/net/wireless/rtl8812au/include/rtl8188f_led.h
+new file mode 100644
+index 0000000..232ede5
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8188f_led.h
+@@ -0,0 +1,48 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188F_LED_H__
++#define __RTL8188F_LED_H__
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++
++/* ********************************************************************************
++ * Interface to manipulate LED objects.
++ * ******************************************************************************** */
++#ifdef CONFIG_USB_HCI
++void rtl8188fu_InitSwLeds(PADAPTER padapter);
++void rtl8188fu_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_SDIO_HCI
++void rtl8188fs_InitSwLeds(PADAPTER padapter);
++void rtl8188fs_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_GSPI_HCI
++void rtl8188fs_InitSwLeds(PADAPTER padapter);
++void rtl8188fs_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_PCI_HCI
++void rtl8188fe_InitSwLeds(PADAPTER padapter);
++void rtl8188fe_DeInitSwLeds(PADAPTER padapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8188f_recv.h b/drivers/net/wireless/rtl8812au/include/rtl8188f_recv.h
+new file mode 100644
+index 0000000..a5bfb54
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8188f_recv.h
+@@ -0,0 +1,72 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188F_RECV_H__
++#define __RTL8188F_RECV_H__
++
++#if defined(CONFIG_USB_HCI)
++	#ifndef MAX_RECVBUF_SZ
++		#ifdef PLATFORM_OS_CE
++			#define MAX_RECVBUF_SZ (8192+1024) /* 8K+1k */
++		#else
++			#ifdef CONFIG_MINIMAL_MEMORY_USAGE
++				#define MAX_RECVBUF_SZ (4000) /* about 4K */
++			#else
++				#ifdef CONFIG_PLATFORM_MSTAR
++					#define MAX_RECVBUF_SZ (8192) /* 8K */
++				#elif defined(CONFIG_PLATFORM_HISILICON)
++					#define MAX_RECVBUF_SZ (16384) /* 16k */
++				#else
++					#define MAX_RECVBUF_SZ (32768) /* 32k */
++				#endif
++				/* #define MAX_RECVBUF_SZ (20480) */ /* 20K */
++				/* #define MAX_RECVBUF_SZ (10240)  */ /* 10K */
++				/* #define MAX_RECVBUF_SZ (16384) */ /* 16k - 92E RX BUF :16K */
++				/* #define MAX_RECVBUF_SZ (8192+1024) */ /* 8K+1k		 */
++			#endif
++		#endif
++	#endif /* !MAX_RECVBUF_SZ */
++#elif defined(CONFIG_PCI_HCI)
++	#define MAX_RECVBUF_SZ (4000) /* about 4K */
++#elif defined(CONFIG_SDIO_HCI)
++	#define MAX_RECVBUF_SZ (RX_DMA_BOUNDARY_8188F + 1)
++#endif /* CONFIG_SDIO_HCI */
++
++/* Rx smooth factor */
++#define	Rx_Smooth_Factor (20)
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++s32 rtl8188fs_init_recv_priv(PADAPTER padapter);
++void rtl8188fs_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_USB_HCI
++int rtl8188fu_init_recv_priv(_adapter *padapter);
++void rtl8188fu_free_recv_priv(_adapter *padapter);
++void rtl8188fu_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++s32 rtl8188fe_init_recv_priv(PADAPTER padapter);
++void rtl8188fe_free_recv_priv(PADAPTER padapter);
++#endif
++
++void rtl8188f_query_rx_desc_status(union recv_frame *precvframe, u8 *pdesc);
++
++#endif /* __RTL8188F_RECV_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8188f_rf.h b/drivers/net/wireless/rtl8812au/include/rtl8188f_rf.h
+new file mode 100644
+index 0000000..185d2d0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8188f_rf.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188F_RF_H__
++#define __RTL8188F_RF_H__
++
++int	PHY_RF6052_Config8188F(IN	PADAPTER		Adapter);
++
++VOID
++PHY_RF6052SetBandwidth8188F(
++	IN	PADAPTER				Adapter,
++	IN	CHANNEL_WIDTH		Bandwidth);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8188f_spec.h b/drivers/net/wireless/rtl8812au/include/rtl8188f_spec.h
+new file mode 100644
+index 0000000..23de47e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8188f_spec.h
+@@ -0,0 +1,303 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#ifndef __RTL8188F_SPEC_H__
++#define __RTL8188F_SPEC_H__
++
++#include <drv_conf.h>
++
++
++#define HAL_NAV_UPPER_UNIT_8188F		128		/* micro-second */
++
++/* -----------------------------------------------------
++ *
++ *	0x0000h ~ 0x00FFh	System Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RSV_CTRL_8188F				0x001C	/* 3 Byte */
++#define REG_BT_WIFI_ANTENNA_SWITCH_8188F	0x0038
++#define REG_HSISR_8188F					0x005c
++#define REG_PAD_CTRL1_8188F		0x0064
++#define REG_AFE_CTRL_4_8188F		0x0078
++#define REG_HMEBOX_DBG_0_8188F	0x0088
++#define REG_HMEBOX_DBG_1_8188F	0x008A
++#define REG_HMEBOX_DBG_2_8188F	0x008C
++#define REG_HMEBOX_DBG_3_8188F	0x008E
++#define REG_HIMR0_8188F					0x00B0
++#define REG_HISR0_8188F					0x00B4
++#define REG_HIMR1_8188F					0x00B8
++#define REG_HISR1_8188F					0x00BC
++#define REG_PMC_DBG_CTRL2_8188F			0x00CC
++
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_C2HEVT_CMD_ID_8188F	0x01A0
++#define REG_C2HEVT_CMD_LEN_8188F	0x01AE
++#define REG_WOWLAN_WAKE_REASON 0x01C7
++#define REG_WOWLAN_GTK_DBG1	0x630
++#define REG_WOWLAN_GTK_DBG2	0x634
++
++#define REG_HMEBOX_EXT0_8188F			0x01F0
++#define REG_HMEBOX_EXT1_8188F			0x01F4
++#define REG_HMEBOX_EXT2_8188F			0x01F8
++#define REG_HMEBOX_EXT3_8188F			0x01FC
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RXDMA_CONTROL_8188F		0x0286 /* Control the RX DMA. */
++#define REG_RXDMA_MODE_CTRL_8188F		0x0290
++
++/* -----------------------------------------------------
++ *
++ *	0x0300h ~ 0x03FFh	PCIe
++ *
++ * ----------------------------------------------------- */
++#define	REG_PCIE_CTRL_REG_8188F		0x0300
++#define	REG_INT_MIG_8188F				0x0304	/* Interrupt Migration */
++#define	REG_BCNQ_DESA_8188F			0x0308	/* TX Beacon Descriptor Address */
++#define	REG_HQ_DESA_8188F				0x0310	/* TX High Queue Descriptor Address */
++#define	REG_MGQ_DESA_8188F			0x0318	/* TX Manage Queue Descriptor Address */
++#define	REG_VOQ_DESA_8188F			0x0320	/* TX VO Queue Descriptor Address */
++#define	REG_VIQ_DESA_8188F				0x0328	/* TX VI Queue Descriptor Address */
++#define	REG_BEQ_DESA_8188F			0x0330	/* TX BE Queue Descriptor Address */
++#define	REG_BKQ_DESA_8188F			0x0338	/* TX BK Queue Descriptor Address */
++#define	REG_RX_DESA_8188F				0x0340	/* RX Queue	Descriptor Address */
++#define	REG_DBI_WDATA_8188F			0x0348	/* DBI Write Data */
++#define	REG_DBI_RDATA_8188F			0x034C	/* DBI Read Data */
++#define	REG_DBI_ADDR_8188F				0x0350	/* DBI Address */
++#define	REG_DBI_FLAG_8188F				0x0352	/* DBI Read/Write Flag */
++#define	REG_MDIO_WDATA_8188F		0x0354	/* MDIO for Write PCIE PHY */
++#define	REG_MDIO_RDATA_8188F			0x0356	/* MDIO for Reads PCIE PHY */
++#define	REG_MDIO_CTL_8188F			0x0358	/* MDIO for Control */
++#define	REG_DBG_SEL_8188F				0x0360	/* Debug Selection Register */
++#define	REG_PCIE_HRPWM_8188F			0x0361	/* PCIe RPWM */
++#define	REG_PCIE_HCPWM_8188F			0x0363	/* PCIe CPWM */
++#define	REG_PCIE_MULTIFET_CTRL_8188F	0x036A	/* PCIE Multi-Fethc Control */
++
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_TXPKTBUF_BCNQ_BDNY_8188F	0x0424
++#define REG_TXPKTBUF_MGQ_BDNY_8188F	0x0425
++#define REG_TXPKTBUF_WMAC_LBK_BF_HD_8188F	0x045D
++#ifdef CONFIG_WOWLAN
++#define REG_TXPKTBUF_IV_LOW             0x0484
++#define REG_TXPKTBUF_IV_HIGH            0x0488
++#endif
++#define REG_AMPDU_BURST_MODE_8188F	0x04BC
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_SECONDARY_CCA_CTRL_8188F	0x0577
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++
++
++/* ************************************************************
++ * SDIO Bus Specification
++ * ************************************************************ */
++
++/* -----------------------------------------------------
++ * SDIO CMD Address Mapping
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * I/O bus domain (Host)
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * SDIO register
++ * ----------------------------------------------------- */
++#define SDIO_REG_HIQ_FREEPG_8188F		0x0020
++#define SDIO_REG_MID_FREEPG_8188F		0x0022
++#define SDIO_REG_LOW_FREEPG_8188F		0x0024
++#define SDIO_REG_PUB_FREEPG_8188F		0x0026
++#define SDIO_REG_EXQ_FREEPG_8188F		0x0028
++#define SDIO_REG_AC_OQT_FREEPG_8188F	0x002A
++#define SDIO_REG_NOAC_OQT_FREEPG_8188F	0x002B
++
++#define SDIO_REG_HCPWM1_8188F			0x0038
++
++/* indirect access */
++#define SDIO_REG_INDIRECT_REG_CFG_8188F		0x40
++#define SET_INDIRECT_REG_ADDR(_cmd, _addr)	SET_BITS_TO_LE_2BYTE(((u8 *)(_cmd)) + 0, 0, 16, (_addr))
++#define SET_INDIRECT_REG_SIZE_1BYTE(_cmd)	SET_BITS_TO_LE_1BYTE(((u8 *)(_cmd)) + 2, 0, 2, 0)
++#define SET_INDIRECT_REG_SIZE_2BYTE(_cmd)	SET_BITS_TO_LE_1BYTE(((u8 *)(_cmd)) + 2, 0, 2, 1)
++#define SET_INDIRECT_REG_SIZE_4BYTE(_cmd)	SET_BITS_TO_LE_1BYTE(((u8 *)(_cmd)) + 2, 0, 2, 2)
++#define SET_INDIRECT_REG_WRITE(_cmd)		SET_BITS_TO_LE_1BYTE(((u8 *)(_cmd)) + 2, 2, 1, 1)
++#define SET_INDIRECT_REG_READ(_cmd)			SET_BITS_TO_LE_1BYTE(((u8 *)(_cmd)) + 2, 3, 1, 1)
++#define GET_INDIRECT_REG_RDY(_cmd)			LE_BITS_TO_1BYTE(((u8 *)(_cmd)) + 2, 4, 1)
++
++#define SDIO_REG_INDIRECT_REG_DATA_8188F	0x44
++
++/* ****************************************************************************
++ *	8188 Regsiter Bit and Content definition
++ * **************************************************************************** */
++
++/* 2 HSISR
++ * interrupt mask which needs to clear */
++#define MASK_HSISR_CLEAR		(HSISR_GPIO12_0_INT |\
++		HSISR_SPS_OCP_INT |\
++		HSISR_RON_INT |\
++		HSISR_PDNINT |\
++		HSISR_GPIO9_INT)
++
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define BIT_USB_RXDMA_AGG_EN	BIT(31)
++#define RXDMA_AGG_MODE_EN		BIT(1)
++
++#ifdef CONFIG_WOWLAN
++#define RXPKT_RELEASE_POLL		BIT(16)
++#define RXDMA_IDLE				BIT(17)
++#define RW_RELEASE_EN			BIT(18)
++#endif
++
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* ----------------------------------------------------------------------------
++ * 8188F REG_CCK_CHECK						(offset 0x454)
++ * ---------------------------------------------------------------------------- */
++#define BIT_BCN_PORT_SEL		BIT5
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* ----------------------------------------------------------------------------
++ * 8195 IMR/ISR bits						(offset 0xB0,  8bits)
++ * ---------------------------------------------------------------------------- */
++#define	IMR_DISABLED_8188F					0
++/* IMR DW0(0x00B0-00B3) Bit 0-31 */
++#define	IMR_TIMER2_8188F					BIT31		/* Timeout interrupt 2 */
++#define	IMR_TIMER1_8188F					BIT30		/* Timeout interrupt 1	 */
++#define	IMR_PSTIMEOUT_8188F				BIT29		/* Power Save Time Out Interrupt */
++#define	IMR_GTINT4_8188F					BIT28		/* When GTIMER4 expires, this bit is set to 1	 */
++#define	IMR_GTINT3_8188F					BIT27		/* When GTIMER3 expires, this bit is set to 1	 */
++#define	IMR_TXBCN0ERR_8188F				BIT26		/* Transmit Beacon0 Error			 */
++#define	IMR_TXBCN0OK_8188F				BIT25		/* Transmit Beacon0 OK			 */
++#define	IMR_TSF_BIT32_TOGGLE_8188F		BIT24		/* TSF Timer BIT32 toggle indication interrupt			 */
++#define	IMR_BCNDMAINT0_8188F				BIT20		/* Beacon DMA Interrupt 0			 */
++#define	IMR_BCNDERR0_8188F				BIT16		/* Beacon Queue DMA OK0			 */
++#define	IMR_HSISR_IND_ON_INT_8188F		BIT15		/* HSISR Indicator (HSIMR & HSISR is true, this bit is set to 1) */
++#define	IMR_BCNDMAINT_E_8188F			BIT14		/* Beacon DMA Interrupt Extension for Win7			 */
++#define	IMR_ATIMEND_8188F				BIT12		/* CTWidnow End or ATIM Window End */
++#define	IMR_C2HCMD_8188F					BIT10		/* CPU to Host Command INT Status, Write 1 clear	 */
++#define	IMR_CPWM2_8188F					BIT9			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_CPWM_8188F					BIT8			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_HIGHDOK_8188F				BIT7			/* High Queue DMA OK	 */
++#define	IMR_MGNTDOK_8188F				BIT6			/* Management Queue DMA OK	 */
++#define	IMR_BKDOK_8188F					BIT5			/* AC_BK DMA OK		 */
++#define	IMR_BEDOK_8188F					BIT4			/* AC_BE DMA OK	 */
++#define	IMR_VIDOK_8188F					BIT3			/* AC_VI DMA OK		 */
++#define	IMR_VODOK_8188F					BIT2			/* AC_VO DMA OK	 */
++#define	IMR_RDU_8188F					BIT1			/* Rx Descriptor Unavailable	 */
++#define	IMR_ROK_8188F					BIT0			/* Receive DMA OK */
++
++/* IMR DW1(0x00B4-00B7) Bit 0-31 */
++#define	IMR_BCNDMAINT7_8188F				BIT27		/* Beacon DMA Interrupt 7 */
++#define	IMR_BCNDMAINT6_8188F				BIT26		/* Beacon DMA Interrupt 6 */
++#define	IMR_BCNDMAINT5_8188F				BIT25		/* Beacon DMA Interrupt 5 */
++#define	IMR_BCNDMAINT4_8188F				BIT24		/* Beacon DMA Interrupt 4 */
++#define	IMR_BCNDMAINT3_8188F				BIT23		/* Beacon DMA Interrupt 3 */
++#define	IMR_BCNDMAINT2_8188F				BIT22		/* Beacon DMA Interrupt 2 */
++#define	IMR_BCNDMAINT1_8188F				BIT21		/* Beacon DMA Interrupt 1 */
++#define	IMR_BCNDOK7_8188F					BIT20		/* Beacon Queue DMA OK Interrup 7 */
++#define	IMR_BCNDOK6_8188F					BIT19		/* Beacon Queue DMA OK Interrup 6 */
++#define	IMR_BCNDOK5_8188F					BIT18		/* Beacon Queue DMA OK Interrup 5 */
++#define	IMR_BCNDOK4_8188F					BIT17		/* Beacon Queue DMA OK Interrup 4 */
++#define	IMR_BCNDOK3_8188F					BIT16		/* Beacon Queue DMA OK Interrup 3 */
++#define	IMR_BCNDOK2_8188F					BIT15		/* Beacon Queue DMA OK Interrup 2 */
++#define	IMR_BCNDOK1_8188F					BIT14		/* Beacon Queue DMA OK Interrup 1 */
++#define	IMR_ATIMEND_E_8188F				BIT13		/* ATIM Window End Extension for Win7 */
++#define	IMR_TXERR_8188F					BIT11		/* Tx Error Flag Interrupt Status, write 1 clear. */
++#define	IMR_RXERR_8188F					BIT10		/* Rx Error Flag INT Status, Write 1 clear */
++#define	IMR_TXFOVW_8188F					BIT9			/* Transmit FIFO Overflow */
++#define	IMR_RXFOVW_8188F					BIT8			/* Receive FIFO Overflow */
++
++#ifdef CONFIG_PCI_HCI
++/* #define IMR_RX_MASK		(IMR_ROK_8188F|IMR_RDU_8188F|IMR_RXFOVW_8188F) */
++#define IMR_TX_MASK			(IMR_VODOK_8188F | IMR_VIDOK_8188F | IMR_BEDOK_8188F | IMR_BKDOK_8188F | IMR_MGNTDOK_8188F | IMR_HIGHDOK_8188F)
++
++#define RT_BCN_INT_MASKS	(IMR_BCNDMAINT0_8188F | IMR_TXBCN0OK_8188F | IMR_TXBCN0ERR_8188F | IMR_BCNDERR0_8188F)
++
++#define RT_AC_INT_MASKS	(IMR_VIDOK_8188F | IMR_VODOK_8188F | IMR_BEDOK_8188F | IMR_BKDOK_8188F)
++#endif
++
++/* ********************************************************
++ * General definitions
++ * ******************************************************** */
++
++#define MACID_NUM_8188F 16
++#define SEC_CAM_ENT_NUM_8188F 16
++#define HW_PORT_NUM_8188F	2
++#define NSS_NUM_8188F 1
++#define BAND_CAP_8188F (BAND_CAP_2G)
++#define BW_CAP_8188F (BW_CAP_20M | BW_CAP_40M)
++#define PROTO_CAP_8188F (PROTO_CAP_11B | PROTO_CAP_11G | PROTO_CAP_11N)
++
++#endif /* __RTL8188F_SPEC_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8188f_sreset.h b/drivers/net/wireless/rtl8812au/include/rtl8188f_sreset.h
+new file mode 100644
+index 0000000..ef5b0ff
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8188f_sreset.h
+@@ -0,0 +1,29 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8188F_SRESET_H_
++#define _RTL8188F_SRESET_H_
++
++#include <rtw_sreset.h>
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++extern void rtl8188f_sreset_xmit_status_check(_adapter *padapter);
++extern void rtl8188f_sreset_linked_status_check(_adapter *padapter);
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8188f_xmit.h b/drivers/net/wireless/rtl8812au/include/rtl8188f_xmit.h
+new file mode 100644
+index 0000000..be88ca4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8188f_xmit.h
+@@ -0,0 +1,338 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8188F_XMIT_H__
++#define __RTL8188F_XMIT_H__
++
++
++#define MAX_TID (15)
++
++
++#ifndef __INC_HAL8188FDESC_H
++#define __INC_HAL8188FDESC_H
++
++#define RX_STATUS_DESC_SIZE_8188F		24
++#define RX_DRV_INFO_SIZE_UNIT_8188F 8
++
++
++/* DWORD 0 */
++#define SET_RX_STATUS_DESC_PKT_LEN_8188F(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++#define SET_RX_STATUS_DESC_EOR_8188F(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 30, 1, __Value)
++#define SET_RX_STATUS_DESC_OWN_8188F(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 31, 1, __Value)
++
++#define GET_RX_STATUS_DESC_PKT_LEN_8188F(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 0, 14)
++#define GET_RX_STATUS_DESC_CRC32_8188F(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 14, 1)
++#define GET_RX_STATUS_DESC_ICV_8188F(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++#define GET_RX_STATUS_DESC_DRVINFO_SIZE_8188F(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 4)
++#define GET_RX_STATUS_DESC_SECURITY_8188F(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 20, 3)
++#define GET_RX_STATUS_DESC_QOS_8188F(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 23, 1)
++#define GET_RX_STATUS_DESC_SHIFT_8188F(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 24, 2)
++#define GET_RX_STATUS_DESC_PHY_STATUS_8188F(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 26, 1)
++#define GET_RX_STATUS_DESC_SWDEC_8188F(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 27, 1)
++#define GET_RX_STATUS_DESC_LAST_SEG_8188F(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 28, 1)
++#define GET_RX_STATUS_DESC_FIRST_SEG_8188F(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 29, 1)
++#define GET_RX_STATUS_DESC_EOR_8188F(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 30, 1)
++#define GET_RX_STATUS_DESC_OWN_8188F(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 31, 1)
++
++/* DWORD 1 */
++#define GET_RX_STATUS_DESC_MACID_8188F(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 0, 7)
++#define GET_RX_STATUS_DESC_TID_8188F(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 8, 4)
++#define GET_RX_STATUS_DESC_AMSDU_8188F(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 13, 1)
++#define GET_RX_STATUS_DESC_RXID_MATCH_8188F(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+4, 14, 1)
++#define GET_RX_STATUS_DESC_PAGGR_8188F(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 15, 1)
++#define GET_RX_STATUS_DESC_A1_FIT_8188F(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 16, 4)
++#define GET_RX_STATUS_DESC_CHKERR_8188F(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 20, 1)
++#define GET_RX_STATUS_DESC_IPVER_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 21, 1)
++#define GET_RX_STATUS_DESC_IS_TCPUDP__8188F(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+4, 22, 1)
++#define GET_RX_STATUS_DESC_CHK_VLD_8188F(__pRxDesc)	LE_BITS_TO_4BYTE(__pRxDesc+4, 23, 1)
++#define GET_RX_STATUS_DESC_PAM_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 24, 1)
++#define GET_RX_STATUS_DESC_PWR_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 25, 1)
++#define GET_RX_STATUS_DESC_MORE_DATA_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 26, 1)
++#define GET_RX_STATUS_DESC_MORE_FRAG_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 27, 1)
++#define GET_RX_STATUS_DESC_TYPE_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 28, 2)
++#define GET_RX_STATUS_DESC_MC_8188F(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 30, 1)
++#define GET_RX_STATUS_DESC_BC_8188F(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 31, 1)
++
++/* DWORD 2 */
++#define GET_RX_STATUS_DESC_SEQ_8188F(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 0, 12)
++#define GET_RX_STATUS_DESC_FRAG_8188F(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 12, 4)
++#define GET_RX_STATUS_DESC_RX_IS_QOS_8188F(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 16, 1)
++#define GET_RX_STATUS_DESC_WLANHD_IV_LEN_8188F(__pRxStatusDesc)	LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 18, 6)
++#define GET_RX_STATUS_DESC_RPT_SEL_8188F(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 28, 1)
++
++/* DWORD 3 */
++#define GET_RX_STATUS_DESC_RX_RATE_8188F(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 0, 7)
++#define GET_RX_STATUS_DESC_HTC_8188F(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 10, 1)
++#define GET_RX_STATUS_DESC_EOSP_8188F(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 11, 1)
++#define GET_RX_STATUS_DESC_BSSID_FIT_8188F(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 12, 2)
++#ifdef CONFIG_USB_RX_AGGREGATION
++#define GET_RX_STATUS_DESC_USB_AGG_PKTNUM_8188F(__pRxStatusDesc)	LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 16, 8)
++#endif
++#define GET_RX_STATUS_DESC_PATTERN_MATCH_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 29, 1)
++#define GET_RX_STATUS_DESC_UNICAST_MATCH_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 30, 1)
++#define GET_RX_STATUS_DESC_MAGIC_MATCH_8188F(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+12, 31, 1)
++
++/* DWORD 6 */
++#define GET_RX_STATUS_DESC_SPLCP_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 0, 1)
++#define GET_RX_STATUS_DESC_LDPC_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 1, 1)
++#define GET_RX_STATUS_DESC_STBC_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 2, 1)
++#define GET_RX_STATUS_DESC_BW_8188F(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 4, 2)
++
++/* DWORD 5 */
++#define GET_RX_STATUS_DESC_TSFL_8188F(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+20, 0, 32)
++
++#define GET_RX_STATUS_DESC_BUFF_ADDR_8188F(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+24, 0, 32)
++#define GET_RX_STATUS_DESC_BUFF_ADDR64_8188F(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+28, 0, 32)
++
++#define SET_RX_STATUS_DESC_BUFF_ADDR_8188F(__pRxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pRxDesc+24, 0, 32, __Value)
++
++
++/* Dword 0 */
++#define GET_TX_DESC_OWN_8188F(__pTxDesc)				LE_BITS_TO_4BYTE(__pTxDesc, 31, 1)
++
++#define SET_TX_DESC_PKT_SIZE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 16, __Value)
++#define SET_TX_DESC_OFFSET_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 8, __Value)
++#define SET_TX_DESC_BMC_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 24, 1, __Value)
++#define SET_TX_DESC_HTC_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 25, 1, __Value)
++#define SET_TX_DESC_LAST_SEG_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 26, 1, __Value)
++#define SET_TX_DESC_FIRST_SEG_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 27, 1, __Value)
++#define SET_TX_DESC_LINIP_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 28, 1, __Value)
++#define SET_TX_DESC_NO_ACM_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 29, 1, __Value)
++#define SET_TX_DESC_GF_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 30, 1, __Value)
++#define SET_TX_DESC_OWN_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 31, 1, __Value)
++
++/* Dword 1 */
++#define SET_TX_DESC_MACID_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 7, __Value)
++#define SET_TX_DESC_QUEUE_SEL_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 8, 5, __Value)
++#define SET_TX_DESC_RDG_NAV_EXT_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 13, 1, __Value)
++#define SET_TX_DESC_LSIG_TXOP_EN_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 14, 1, __Value)
++#define SET_TX_DESC_PIFS_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 15, 1, __Value)
++#define SET_TX_DESC_RATE_ID_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 16, 5, __Value)
++#define SET_TX_DESC_EN_DESC_ID_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 21, 1, __Value)
++#define SET_TX_DESC_SEC_TYPE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 22, 2, __Value)
++#define SET_TX_DESC_PKT_OFFSET_8188F(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 24, 5, __Value)
++
++
++/* Dword 2 */
++#define SET_TX_DESC_PAID_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 0,  9, __Value)
++#define SET_TX_DESC_CCA_RTS_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 10, 2, __Value)
++#define SET_TX_DESC_AGG_ENABLE_8188F(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 12, 1, __Value)
++#define SET_TX_DESC_RDG_ENABLE_8188F(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 13, 1, __Value)
++#define SET_TX_DESC_AGG_BREAK_8188F(__pTxDesc, __Value)				SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 16, 1, __Value)
++#define SET_TX_DESC_MORE_FRAG_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 17, 1, __Value)
++#define SET_TX_DESC_RAW_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 18, 1, __Value)
++#define SET_TX_DESC_SPE_RPT_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 19, 1, __Value)
++#define SET_TX_DESC_AMPDU_DENSITY_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 20, 3, __Value)
++#define SET_TX_DESC_BT_INT_8188F(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 23, 1, __Value)
++#define SET_TX_DESC_GID_8188F(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 24, 6, __Value)
++
++
++/* Dword 3 */
++#define SET_TX_DESC_WHEADER_LEN_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 0, 4, __Value)
++#define SET_TX_DESC_CHK_EN_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 4, 1, __Value)
++#define SET_TX_DESC_EARLY_MODE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 5, 1, __Value)
++#define SET_TX_DESC_HWSEQ_SEL_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 6, 2, __Value)
++#define SET_TX_DESC_USE_RATE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 8, 1, __Value)
++#define SET_TX_DESC_DISABLE_RTS_FB_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 9, 1, __Value)
++#define SET_TX_DESC_DISABLE_FB_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 10, 1, __Value)
++#define SET_TX_DESC_CTS2SELF_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 11, 1, __Value)
++#define SET_TX_DESC_RTS_ENABLE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 12, 1, __Value)
++#define SET_TX_DESC_HW_RTS_ENABLE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 13, 1, __Value)
++#define SET_TX_DESC_NAV_USE_HDR_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 15, 1, __Value)
++#define SET_TX_DESC_USE_MAX_LEN_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 16, 1, __Value)
++#define SET_TX_DESC_MAX_AGG_NUM_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 17, 5, __Value)
++#define SET_TX_DESC_NDPA_8188F(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 22, 2, __Value)
++#define SET_TX_DESC_AMPDU_MAX_TIME_8188F(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 24, 8, __Value)
++
++/* Dword 4 */
++#define SET_TX_DESC_TX_RATE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 0, 7, __Value)
++#define SET_TX_DESC_DATA_RATE_FB_LIMIT_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 8, 5, __Value)
++#define SET_TX_DESC_RTS_RATE_FB_LIMIT_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 13, 4, __Value)
++#define SET_TX_DESC_RETRY_LIMIT_ENABLE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 17, 1, __Value)
++#define SET_TX_DESC_DATA_RETRY_LIMIT_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 18, 6, __Value)
++#define SET_TX_DESC_RTS_RATE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 24, 5, __Value)
++
++
++/* Dword 5 */
++#define SET_TX_DESC_DATA_SC_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 0, 4, __Value)
++#define SET_TX_DESC_DATA_SHORT_8188F(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 4, 1, __Value)
++#define SET_TX_DESC_DATA_BW_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 5, 2, __Value)
++#define SET_TX_DESC_DATA_LDPC_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 7, 1, __Value)
++#define SET_TX_DESC_DATA_STBC_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 8, 2, __Value)
++#define SET_TX_DESC_CTROL_STBC_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 10, 2, __Value)
++#define SET_TX_DESC_RTS_SHORT_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 12, 1, __Value)
++#define SET_TX_DESC_RTS_SC_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 13, 4, __Value)
++
++
++/* Dword 6 */
++#define SET_TX_DESC_SW_DEFINE_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 0, 12, __Value)
++#define SET_TX_DESC_MBSSID_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 12, 4, __Value)
++#define SET_TX_DESC_ANTSEL_A_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 16, 3, __Value)
++#define SET_TX_DESC_ANTSEL_B_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 19, 3, __Value)
++#define SET_TX_DESC_ANTSEL_C_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 22, 3, __Value)
++#define SET_TX_DESC_ANTSEL_D_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 25, 3, __Value)
++
++/* Dword 7 */
++#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++#define SET_TX_DESC_TX_BUFFER_SIZE_8188F(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#else
++#define SET_TX_DESC_TX_DESC_CHECKSUM_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#endif
++#define SET_TX_DESC_USB_TXAGG_NUM_8188F(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 24, 8, __Value)
++#if (DEV_BUS_TYPE == RT_SDIO_INTERFACE)
++#define SET_TX_DESC_SDIO_TXSEQ_8188F(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 16, 8, __Value)
++#endif
++
++/* Dword 8 */
++#define SET_TX_DESC_HWSEQ_EN_8188F(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 15, 1, __Value)
++
++/* Dword 9 */
++#define SET_TX_DESC_SEQ_8188F(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 12, 12, __Value)
++
++/* Dword 10 */
++#define SET_TX_DESC_TX_BUFFER_ADDRESS_8188F(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+40, 0, 32, __Value)
++#define GET_TX_DESC_TX_BUFFER_ADDRESS_8188F(__pTxDesc)	LE_BITS_TO_4BYTE(__pTxDesc+40, 0, 32)
++
++/* Dword 11 */
++#define SET_TX_DESC_NEXT_DESC_ADDRESS_8188F(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+48, 0, 32, __Value)
++
++
++#define SET_EARLYMODE_PKTNUM_8188F(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 0, 4, __Value)
++#define SET_EARLYMODE_LEN0_8188F(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 4, 15, __Value)
++#define SET_EARLYMODE_LEN1_1_8188F(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 19, 13, __Value)
++#define SET_EARLYMODE_LEN1_2_8188F(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 2, __Value)
++#define SET_EARLYMODE_LEN2_8188F(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 2, 15,	__Value)
++#define SET_EARLYMODE_LEN3_8188F(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 17, 15, __Value)
++
++#endif
++/* -----------------------------------------------------------
++ *
++ *	Rate
++ *
++ * -----------------------------------------------------------
++ * CCK Rates, TxHT = 0 */
++#define DESC8188F_RATE1M				0x00
++#define DESC8188F_RATE2M				0x01
++#define DESC8188F_RATE5_5M				0x02
++#define DESC8188F_RATE11M				0x03
++
++/* OFDM Rates, TxHT = 0 */
++#define DESC8188F_RATE6M				0x04
++#define DESC8188F_RATE9M				0x05
++#define DESC8188F_RATE12M				0x06
++#define DESC8188F_RATE18M				0x07
++#define DESC8188F_RATE24M				0x08
++#define DESC8188F_RATE36M				0x09
++#define DESC8188F_RATE48M				0x0a
++#define DESC8188F_RATE54M				0x0b
++
++/* MCS Rates, TxHT = 1 */
++#define DESC8188F_RATEMCS0				0x0c
++#define DESC8188F_RATEMCS1				0x0d
++#define DESC8188F_RATEMCS2				0x0e
++#define DESC8188F_RATEMCS3				0x0f
++#define DESC8188F_RATEMCS4				0x10
++#define DESC8188F_RATEMCS5				0x11
++#define DESC8188F_RATEMCS6				0x12
++#define DESC8188F_RATEMCS7				0x13
++#define DESC8188F_RATEMCS8				0x14
++#define DESC8188F_RATEMCS9				0x15
++#define DESC8188F_RATEMCS10		0x16
++#define DESC8188F_RATEMCS11		0x17
++#define DESC8188F_RATEMCS12		0x18
++#define DESC8188F_RATEMCS13		0x19
++#define DESC8188F_RATEMCS14		0x1a
++#define DESC8188F_RATEMCS15		0x1b
++#define DESC8188F_RATEVHTSS1MCS0		0x2c
++#define DESC8188F_RATEVHTSS1MCS1		0x2d
++#define DESC8188F_RATEVHTSS1MCS2		0x2e
++#define DESC8188F_RATEVHTSS1MCS3		0x2f
++#define DESC8188F_RATEVHTSS1MCS4		0x30
++#define DESC8188F_RATEVHTSS1MCS5		0x31
++#define DESC8188F_RATEVHTSS1MCS6		0x32
++#define DESC8188F_RATEVHTSS1MCS7		0x33
++#define DESC8188F_RATEVHTSS1MCS8		0x34
++#define DESC8188F_RATEVHTSS1MCS9		0x35
++#define DESC8188F_RATEVHTSS2MCS0		0x36
++#define DESC8188F_RATEVHTSS2MCS1		0x37
++#define DESC8188F_RATEVHTSS2MCS2		0x38
++#define DESC8188F_RATEVHTSS2MCS3		0x39
++#define DESC8188F_RATEVHTSS2MCS4		0x3a
++#define DESC8188F_RATEVHTSS2MCS5		0x3b
++#define DESC8188F_RATEVHTSS2MCS6		0x3c
++#define DESC8188F_RATEVHTSS2MCS7		0x3d
++#define DESC8188F_RATEVHTSS2MCS8		0x3e
++#define DESC8188F_RATEVHTSS2MCS9		0x3f
++
++
++#define	RX_HAL_IS_CCK_RATE_8188F(pDesc)\
++	(GET_RX_STATUS_DESC_RX_RATE_8188F(pDesc) == DESC8188F_RATE1M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8188F(pDesc) == DESC8188F_RATE2M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8188F(pDesc) == DESC8188F_RATE5_5M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8188F(pDesc) == DESC8188F_RATE11M)
++
++
++void rtl8188f_update_txdesc(struct xmit_frame *pxmitframe, u8 *pmem);
++void rtl8188f_fill_fake_txdesc(PADAPTER padapter, u8 *pDesc, u32 BufferLen, u8 IsPsPoll, u8 IsBTQosNull, u8 bDataFrame);
++#if defined(CONFIG_CONCURRENT_MODE)
++void fill_txdesc_force_bmc_camid(struct pkt_attrib *pattrib, u8 *ptxdesc);
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++s32 rtl8188fs_init_xmit_priv(PADAPTER padapter);
++void rtl8188fs_free_xmit_priv(PADAPTER padapter);
++s32 rtl8188fs_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++s32 rtl8188fs_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++s32	rtl8188fs_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++s32 rtl8188fs_xmit_buf_handler(PADAPTER padapter);
++thread_return rtl8188fs_xmit_thread(thread_context context);
++#define hal_xmit_handler rtl8188fs_xmit_buf_handler
++#endif
++
++#ifdef CONFIG_USB_HCI
++s32 rtl8188fu_xmit_buf_handler(PADAPTER padapter);
++#define hal_xmit_handler rtl8188fu_xmit_buf_handler
++
++
++s32 rtl8188fu_init_xmit_priv(PADAPTER padapter);
++void rtl8188fu_free_xmit_priv(PADAPTER padapter);
++s32 rtl8188fu_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++s32 rtl8188fu_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++s32	 rtl8188fu_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++/* s32 rtl8812au_xmit_buf_handler(PADAPTER padapter); */
++void rtl8188fu_xmit_tasklet(void *priv);
++s32 rtl8188fu_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++void _dbg_dump_tx_info(_adapter	*padapter, int frame_tag, struct tx_desc *ptxdesc);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++s32 rtl8188fe_init_xmit_priv(PADAPTER padapter);
++void rtl8188fe_free_xmit_priv(PADAPTER padapter);
++struct xmit_buf *rtl8188fe_dequeue_xmitbuf(struct rtw_tx_ring *ring);
++void	rtl8188fe_xmitframe_resume(_adapter *padapter);
++s32 rtl8188fe_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++s32 rtl8188fe_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++s32	rtl8188fe_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++void rtl8188fe_xmit_tasklet(void *priv);
++#endif
++
++u8	BWMapping_8188F(PADAPTER Adapter, struct pkt_attrib *pattrib);
++u8	SCMapping_8188F(PADAPTER Adapter, struct pkt_attrib	*pattrib);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8192e_cmd.h b/drivers/net/wireless/rtl8812au/include/rtl8192e_cmd.h
+new file mode 100644
+index 0000000..50eb927
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8192e_cmd.h
+@@ -0,0 +1,176 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192E_CMD_H__
++#define __RTL8192E_CMD_H__
++
++typedef enum _RTL8192E_H2C_CMD {
++	H2C_8192E_RSVDPAGE	= 0x00,
++	H2C_8192E_MSRRPT	= 0x01,
++	H2C_8192E_SCAN		= 0x02,
++	H2C_8192E_KEEP_ALIVE_CTRL = 0x03,
++	H2C_8192E_DISCONNECT_DECISION = 0x04,
++	H2C_8192E_INIT_OFFLOAD = 0x06,
++	H2C_8192E_AP_OFFLOAD = 0x08,
++	H2C_8192E_BCN_RSVDPAGE = 0x09,
++	H2C_8192E_PROBERSP_RSVDPAGE = 0x0a,
++
++	H2C_8192E_AP_WOW_GPIO_CTRL = 0x13,
++
++	H2C_8192E_SETPWRMODE = 0x20,
++	H2C_8192E_PS_TUNING_PARA = 0x21,
++	H2C_8192E_PS_TUNING_PARA2 = 0x22,
++	H2C_8192E_PS_LPS_PARA = 0x23,
++	H2C_8192E_P2P_PS_OFFLOAD = 0x24,
++	H2C_8192E_SAP_PS = 0x26,
++	H2C_8192E_RA_MASK = 0x40,
++	H2C_8192E_RSSI_REPORT = 0x42,
++	H2C_8192E_RA_PARA_ADJUST = 0x46,
++
++	H2C_8192E_WO_WLAN = 0x80,
++	H2C_8192E_REMOTE_WAKE_CTRL = 0x81,
++	H2C_8192E_AOAC_GLOBAL_INFO = 0x82,
++	H2C_8192E_AOAC_RSVDPAGE = 0x83,
++
++	/* Not defined in new 88E H2C CMD Format */
++	H2C_8192E_SELECTIVE_SUSPEND_ROF_CMD,
++	H2C_8192E_P2P_PS_MODE,
++	H2C_8192E_PSD_RESULT,
++	MAX_8192E_H2CCMD
++} RTL8192E_H2C_CMD;
++
++struct cmd_msg_parm {
++	u8 eid; /* element id */
++	u8 sz; /* sz */
++	u8 buf[6];
++};
++
++enum {
++	PWRS
++};
++
++typedef struct _SETPWRMODE_PARM {
++	u8 Mode;/* 0:Active,1:LPS,2:WMMPS */
++	/* u8 RLBM:4; */ /* 0:Min,1:Max,2: User define */
++	u8 SmartPS_RLBM;/* LPS=0:PS_Poll,1:PS_Poll,2:NullData,WMM=0:PS_Poll,1:NullData */
++	u8 AwakeInterval;	/* unit: beacon interval */
++	u8 bAllQueueUAPSD;
++	u8 PwrState;/* AllON(0x0c),RFON(0x04),RFOFF(0x00) */
++} SETPWRMODE_PARM, *PSETPWRMODE_PARM;
++
++struct H2C_SS_RFOFF_PARAM {
++	u8 ROFOn; /* 1: on, 0:off */
++	u16 gpio_period; /* unit: 1024 us */
++} __attribute__((packed));
++
++
++typedef struct JOINBSSRPT_PARM_92E {
++	u8 OpMode;	/* RT_MEDIA_STATUS */
++#ifdef CONFIG_WOWLAN
++	u8 MacID;       /* MACID */
++#endif /* CONFIG_WOWLAN */
++} JOINBSSRPT_PARM_92E, *PJOINBSSRPT_PARM_92E;
++
++/* move to hal_com_h2c.h
++typedef struct _RSVDPAGE_LOC_92E {
++	u8 LocProbeRsp;
++	u8 LocPsPoll;
++	u8 LocNullData;
++	u8 LocQosNull;
++	u8 LocBTQosNull;
++} RSVDPAGE_LOC_92E, *PRSVDPAGE_LOC_92E;
++*/
++
++
++/* _SETPWRMODE_PARM */
++#define SET_8192E_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8192E_H2CCMD_PWRMODE_PARM_RLBM(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 4, __Value)
++#define SET_8192E_H2CCMD_PWRMODE_PARM_SMART_PS(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 4, 4, __Value)
++#define SET_8192E_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8192E_H2CCMD_PWRMODE_PARM_ALL_QUEUE_UAPSD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8192E_H2CCMD_PWRMODE_PARM_BCN_EARLY_C2H_RPT(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 2, 1, __Value)
++#define SET_8192E_H2CCMD_PWRMODE_PARM_PWR_STATE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8192E_H2CCMD_PWRMODE_PARM_BYTE5(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++#define GET_8192E_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd)						LE_BITS_TO_1BYTE(__pH2CCmd, 0, 8)
++
++/* _P2P_PS_OFFLOAD */
++#define SET_8192E_H2CCMD_P2P_PS_OFFLOAD_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8192E_H2CCMD_P2P_PS_OFFLOAD_ROLE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8192E_H2CCMD_P2P_PS_OFFLOAD_CTWINDOW_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_8192E_H2CCMD_P2P_PS_OFFLOAD_NOA0_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 3, 1, __Value)
++#define SET_8192E_H2CCMD_P2P_PS_OFFLOAD_NOA1_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 1, __Value)
++#define SET_8192E_H2CCMD_P2P_PS_OFFLOAD_ALLSTASLEEP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 5, 1, __Value)
++
++
++/* host message to firmware cmd */
++void rtl8192e_set_FwPwrMode_cmd(PADAPTER padapter, u8 Mode);
++void rtl8192e_set_FwJoinBssReport_cmd(PADAPTER padapter, u8 mstatus);
++u8 rtl8192e_set_rssi_cmd(PADAPTER padapter, u8 *param);
++void rtl8192e_set_raid_cmd(PADAPTER padapter, u32 bitmap, u8 *arg, u8 bw);
++s32 FillH2CCmd_8192E(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++u8 GetTxBufferRsvdPageNum8192E(_adapter *padapter, bool wowlan);
++/* u8 rtl8192c_set_FwSelectSuspend_cmd(PADAPTER padapter, u8 bfwpoll, u16 period); */
++s32 c2h_handler_8192e(PADAPTER padapter, u8 *buf);
++#ifdef CONFIG_BT_COEXIST
++	void rtl8192e_download_BTCoex_AP_mode_rsvd_page(PADAPTER padapter);
++#endif /* CONFIG_BT_COEXIST */
++#ifdef CONFIG_P2P_PS
++	void rtl8192e_set_p2p_ps_offload_cmd(PADAPTER padapter, u8 p2p_ps_state);
++#endif /* CONFIG_P2P */
++
++void CheckFwRsvdPageContent(PADAPTER padapter);
++
++#ifdef CONFIG_TDLS
++	#ifdef CONFIG_TDLS_CH_SW
++		void rtl8192e_set_BcnEarly_C2H_Rpt_cmd(PADAPTER padapter, u8 enable);
++	#endif
++#endif
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++	int reset_tsf(PADAPTER Adapter, u8 reset_port);
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++
++/* / TX Feedback Content */
++#define	USEC_UNIT_FOR_8192E_C2H_TX_RPT_QUEUE_TIME			256
++
++#define	GET_8192E_C2H_TX_RPT_QUEUE_SELECT(_Header)			LE_BITS_TO_1BYTE((_Header + 0), 0, 5)
++#define	GET_8192E_C2H_TX_RPT_PKT_BROCAST(_Header)			LE_BITS_TO_1BYTE((_Header + 0), 5, 1)
++#define	GET_8192E_C2H_TX_RPT_LIFE_TIME_OVER(_Header)			LE_BITS_TO_1BYTE((_Header + 0), 6, 1)
++#define	GET_8192E_C2H_TX_RPT_RETRY_OVER(_Header)				LE_BITS_TO_1BYTE((_Header + 0), 7, 1)
++#define	GET_8192E_C2H_TX_RPT_MAC_ID(_Header)					LE_BITS_TO_1BYTE((_Header + 1), 0, 8)
++#define	GET_8192E_C2H_TX_RPT_DATA_RETRY_CNT(_Header)		LE_BITS_TO_1BYTE((_Header + 2), 0, 6)
++#define	GET_8192E_C2H_TX_RPT_QUEUE_TIME(_Header)				LE_BITS_TO_2BYTE((_Header + 3), 0, 16)	/* In unit of 256 microseconds. */
++#define	GET_8192E_C2H_TX_RPT_FINAL_DATA_RATE(_Header)		LE_BITS_TO_1BYTE((_Header + 5), 0, 8)
++
++
++
++void C2HContentParsing8192E(
++	IN	PADAPTER		Adapter,
++	IN	u1Byte			c2hCmdId,
++	IN	u1Byte			c2hCmdLen,
++	IN	pu1Byte			tmpBuf
++);
++VOID
++C2HPacketHandler_8192E(
++	IN	PADAPTER		Adapter,
++	IN	pu1Byte			Buffer,
++	IN	u1Byte			Length
++);
++
++#endif /* __RTL8192E_CMD_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8192e_dm.h b/drivers/net/wireless/rtl8812au/include/rtl8192e_dm.h
+new file mode 100644
+index 0000000..ff1b341
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8192e_dm.h
+@@ -0,0 +1,33 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192E_DM_H__
++#define __RTL8192E_DM_H__
++
++
++void rtl8192e_init_dm_priv(IN PADAPTER Adapter);
++void rtl8192e_deinit_dm_priv(IN PADAPTER Adapter);
++void rtl8192e_InitHalDm(IN PADAPTER Adapter);
++void rtl8192e_HalDmWatchDog(IN PADAPTER Adapter);
++
++/* VOID rtl8192c_dm_CheckTXPowerTracking(IN PADAPTER Adapter); */
++
++/* void rtl8192c_dm_RF_Saving(IN PADAPTER pAdapter, IN u8 bForceInNormal); */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8192e_hal.h b/drivers/net/wireless/rtl8812au/include/rtl8192e_hal.h
+new file mode 100644
+index 0000000..b052fc6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8192e_hal.h
+@@ -0,0 +1,332 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192E_HAL_H__
++#define __RTL8192E_HAL_H__
++
++/* #include "hal_com.h" */
++
++#include "hal_data.h"
++
++/* include HAL Related header after HAL Related compiling flags */
++#include "rtl8192e_spec.h"
++#include "rtl8192e_rf.h"
++#include "rtl8192e_dm.h"
++#include "rtl8192e_recv.h"
++#include "rtl8192e_xmit.h"
++#include "rtl8192e_cmd.h"
++#include "rtl8192e_led.h"
++#include "Hal8192EPwrSeq.h"
++#include "Hal8192EPhyReg.h"
++#include "Hal8192EPhyCfg.h"
++
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	#include "rtl8192e_sreset.h"
++#endif
++
++/* ---------------------------------------------------------------------
++ *		RTL8192E Power Configuration CMDs for PCIe interface
++ * --------------------------------------------------------------------- */
++#define Rtl8192E_NIC_PWR_ON_FLOW				rtl8192E_power_on_flow
++#define Rtl8192E_NIC_RF_OFF_FLOW				rtl8192E_radio_off_flow
++#define Rtl8192E_NIC_DISABLE_FLOW				rtl8192E_card_disable_flow
++#define Rtl8192E_NIC_ENABLE_FLOW				rtl8192E_card_enable_flow
++#define Rtl8192E_NIC_SUSPEND_FLOW				rtl8192E_suspend_flow
++#define Rtl8192E_NIC_RESUME_FLOW				rtl8192E_resume_flow
++#define Rtl8192E_NIC_PDN_FLOW					rtl8192E_hwpdn_flow
++#define Rtl8192E_NIC_LPS_ENTER_FLOW			rtl8192E_enter_lps_flow
++#define Rtl8192E_NIC_LPS_LEAVE_FLOW			rtl8192E_leave_lps_flow
++
++
++#if 1 /* download firmware related data structure */
++#define FW_SIZE_8192E			0x8000 /* Compatible with RTL8192e Maximal RAM code size 32k */
++#define FW_START_ADDRESS		0x1000
++#define FW_END_ADDRESS			0x5FFF
++
++
++#define IS_FW_HEADER_EXIST_8192E(_pFwHdr)	((GET_FIRMWARE_HDR_SIGNATURE_8192E(_pFwHdr) & 0xFFF0) == 0x92E0)
++
++
++
++typedef struct _RT_FIRMWARE_8192E {
++	FIRMWARE_SOURCE	eFWSource;
++#ifdef CONFIG_EMBEDDED_FWIMG
++	u8			*szFwBuffer;
++#else
++	u8			szFwBuffer[FW_SIZE_8192E];
++#endif
++	u32			ulFwLength;
++} RT_FIRMWARE_8192E, *PRT_FIRMWARE_8192E;
++
++/*
++ * This structure must be cared byte-ordering
++ *
++ * Added by tynli. 2009.12.04. */
++
++/* *****************************************************
++ *					Firmware Header(8-byte alinment required)
++ * *****************************************************
++ * --- LONG WORD 0 ---- */
++#define GET_FIRMWARE_HDR_SIGNATURE_8192E(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr, 0, 16) /* 92C0: test chip; 92C, 88C0: test chip; 88C1: MP A-cut; 92C1: MP A-cut */
++#define GET_FIRMWARE_HDR_CATEGORY_8192E(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr, 16, 8) /* AP/NIC and USB/PCI */
++#define GET_FIRMWARE_HDR_FUNCTION_8192E(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr, 24, 8) /* Reserved for different FW function indcation, for further use when driver needs to download different FW in different conditions */
++#define GET_FIRMWARE_HDR_VERSION_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+4, 0, 16)/* FW Version */
++#define GET_FIRMWARE_HDR_SUB_VER_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+4, 16, 8) /* FW Subversion, default 0x00 */
++#define GET_FIRMWARE_HDR_RSVD1_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+4, 24, 8)
++
++/* --- LONG WORD 1 ---- */
++#define GET_FIRMWARE_HDR_MONTH_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+8, 0, 8) /* Release time Month field */
++#define GET_FIRMWARE_HDR_DATE_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+8, 8, 8) /* Release time Date field */
++#define GET_FIRMWARE_HDR_HOUR_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+8, 16, 8)/* Release time Hour field */
++#define GET_FIRMWARE_HDR_MINUTE_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+8, 24, 8)/* Release time Minute field */
++#define GET_FIRMWARE_HDR_ROMCODE_SIZE_8192E(__FwHdr)	LE_BITS_TO_4BYTE(__FwHdr+12, 0, 16)/* The size of RAM code */
++#define GET_FIRMWARE_HDR_RSVD2_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+12, 16, 16)
++
++/* --- LONG WORD 2 ---- */
++#define GET_FIRMWARE_HDR_SVN_IDX_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+16, 0, 32)/* The SVN entry index */
++#define GET_FIRMWARE_HDR_RSVD3_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+20, 0, 32)
++
++/* --- LONG WORD 3 ---- */
++#define GET_FIRMWARE_HDR_RSVD4_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+24, 0, 32)
++#define GET_FIRMWARE_HDR_RSVD5_8192E(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+28, 0, 32)
++
++#endif /* download firmware related data structure */
++
++#define DRIVER_EARLY_INT_TIME_8192E		0x05
++#define BCN_DMA_ATIME_INT_TIME_8192E		0x02
++#define RX_DMA_SIZE_8192E					0x4000	/* 16K*/
++
++#ifdef CONFIG_WOWLAN
++	#define RESV_FMWF	(WKFMCAM_SIZE * MAX_WKFM_CAM_NUM) /* 16 entries, for each is 24 bytes*/
++#else
++	#define RESV_FMWF	0
++#endif
++
++#ifdef CONFIG_FW_C2H_DEBUG
++	#define RX_DMA_RESERVED_SIZE_8192E	0x100	/* 256B, reserved for c2h debug message*/
++#else
++	#define RX_DMA_RESERVED_SIZE_8192E	0x40	/* 64B, reserved for c2h event(16bytes) or ccx(8 Bytes)*/
++#endif
++#define MAX_RX_DMA_BUFFER_SIZE_8192E		(RX_DMA_SIZE_8192E-RX_DMA_RESERVED_SIZE_8192E)	/*RX 16K*/
++
++/* For General Reserved Page Number(Beacon Queue is reserved page)
++ * if (CONFIG_2BCN_EN) Beacon:4, PS-Poll:1, Null Data:1,Prob Rsp:1,Qos Null Data:1
++ * Beacon:2, PS-Poll:1, Null Data:1,Prob Rsp:1,Qos Null Data:1 */
++#define RSVD_PAGE_NUM_8192E		0x08
++/* For WoWLan , more reserved page
++ * ARP Rsp:1, RWC:1, GTK Info:1,GTK RSP:2,GTK EXT MEM:2, PNO: 6 */
++#ifdef CONFIG_WOWLAN
++	#define WOWLAN_PAGE_NUM_8192E	0x07
++#else
++	#define WOWLAN_PAGE_NUM_8192E	0x00
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++	#undef WOWLAN_PAGE_NUM_8192E
++	#define WOWLAN_PAGE_NUM_8192E	0x0d
++#endif
++
++/* Note:
++Tx FIFO Size : 64KB
++Tx page Size : 256B
++Total page numbers : 256(0x100)
++*/
++
++#define	TOTAL_RSVD_PAGE_NUMBER_8192E	(RSVD_PAGE_NUM_8192E + WOWLAN_PAGE_NUM_8192E)
++
++#define	TOTAL_PAGE_NUMBER_8192E	(0x100)
++#define	TX_TOTAL_PAGE_NUMBER_8192E	(TOTAL_PAGE_NUMBER_8192E - TOTAL_RSVD_PAGE_NUMBER_8192E)
++
++#define	TX_PAGE_BOUNDARY_8192E	(TX_TOTAL_PAGE_NUMBER_8192E) /* beacon header start address */
++
++
++#define PAGE_SIZE_TX_92E	PAGE_SIZE_256
++#define RSVD_PKT_LEN_92E	(TOTAL_RSVD_PAGE_NUMBER_8192E * PAGE_SIZE_TX_92E)
++
++#define TX_PAGE_LOAD_FW_BOUNDARY_8192E		0x47 /* 0xA5 */
++#define TX_PAGE_BOUNDARY_WOWLAN_8192E		0xE0
++
++/* For Normal Chip Setting
++ * (HPQ + LPQ + NPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER_92C */
++
++#define NORMAL_PAGE_NUM_HPQ_8192E			0x10
++#define NORMAL_PAGE_NUM_LPQ_8192E			0x10
++#define NORMAL_PAGE_NUM_NPQ_8192E			0x10
++#define NORMAL_PAGE_NUM_EPQ_8192E			0x00
++
++
++/* Note: For WMM Normal Chip Setting ,modify later */
++#define WMM_NORMAL_PAGE_NUM_HPQ_8192E		NORMAL_PAGE_NUM_HPQ_8192E
++#define WMM_NORMAL_PAGE_NUM_LPQ_8192E		NORMAL_PAGE_NUM_LPQ_8192E
++#define WMM_NORMAL_PAGE_NUM_NPQ_8192E		NORMAL_PAGE_NUM_NPQ_8192E
++
++
++/* -------------------------------------------------------------------------
++ *	Chip specific
++ * ------------------------------------------------------------------------- */
++
++/* pic buffer descriptor */
++#define RTL8192EE_SEG_NUM			TX_BUFFER_SEG_NUM
++#define TX_DESC_NUM_92E			128
++#define RX_DESC_NUM_92E			128
++
++/* -------------------------------------------------------------------------
++ *	Channel Plan
++ * ------------------------------------------------------------------------- */
++
++#define		HWSET_MAX_SIZE_8192E			512
++
++#define		EFUSE_REAL_CONTENT_LEN_8192E	512
++
++#define		EFUSE_MAP_LEN_8192E			512
++#define		EFUSE_MAX_SECTION_8192E		64
++#define		EFUSE_MAX_WORD_UNIT_8192E		4
++#define		EFUSE_IC_ID_OFFSET_8192E		506	/* For some inferiority IC purpose. added by Roger, 2009.09.02. */
++#define		AVAILABLE_EFUSE_ADDR_8192E(addr)	(addr < EFUSE_REAL_CONTENT_LEN_8192E)
++/*
++ * <Roger_Notes> To prevent out of boundary programming case, leave 1byte and program full section
++ * 9bytes + 1byt + 5bytes and pre 1byte.
++ * For worst case:
++ * | 1byte|----8bytes----|1byte|--5bytes--|
++ * |         |            Reserved(14bytes)	      |
++ *   */
++#define		EFUSE_OOB_PROTECT_BYTES_8192E 		15	/* PG data exclude header, dummy 6 bytes frome CP test and reserved 1byte. */
++
++
++
++/* ********************************************************
++ *			EFUSE for BT definition
++ * ******************************************************** */
++#define		EFUSE_BT_REAL_BANK_CONTENT_LEN_8192E	512
++#define		EFUSE_BT_REAL_CONTENT_LEN_8192E			1024	/* 512*2 */
++#define		EFUSE_BT_MAP_LEN_8192E					1024	/* 1k bytes */
++#define		EFUSE_BT_MAX_SECTION_8192E				128		/* 1024/8 */
++
++#define		EFUSE_PROTECT_BYTES_BANK_8192E			16
++#define		EFUSE_MAX_BANK_8192E					3
++/* *********************************************************** */
++
++#define INCLUDE_MULTI_FUNC_BT(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_BT)
++#define INCLUDE_MULTI_FUNC_GPS(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_GPS)
++
++/* #define IS_MULTI_FUNC_CHIP(_Adapter)	(((((PHAL_DATA_TYPE)(_Adapter->HalData))->MultiFunc) & (RT_MULTI_FUNC_BT|RT_MULTI_FUNC_GPS)) ? _TRUE : _FALSE) */
++
++/* #define RT_IS_FUNC_DISABLED(__pAdapter, __FuncBits) ( (__pAdapter)->DisabledFunctions & (__FuncBits) ) */
++
++/* rtl8812_hal_init.c */
++void	_8051Reset8192E(PADAPTER padapter);
++s32	FirmwareDownload8192E(PADAPTER Adapter, BOOLEAN bUsedWoWLANFw);
++void	InitializeFirmwareVars8192E(PADAPTER padapter);
++
++s32	InitLLTTable8192E(PADAPTER padapter, u8 txpktbuf_bndy);
++
++/* EFuse */
++u8	GetEEPROMSize8192E(PADAPTER padapter);
++void	hal_InitPGData_8192E(PADAPTER padapter, u8 *PROMContent);
++void	Hal_EfuseParseIDCode8192E(PADAPTER padapter, u8 *hwinfo);
++void	Hal_ReadPROMVersion8192E(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	Hal_ReadPowerSavingMode8192E(PADAPTER padapter, u8	*hwinfo, BOOLEAN	AutoLoadFail);
++void	Hal_ReadTxPowerInfo8192E(PADAPTER padapter, u8 *hwinfo, BOOLEAN	AutoLoadFail);
++void	Hal_ReadBoardType8192E(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	Hal_ReadThermalMeter_8192E(PADAPTER	Adapter, u8 *PROMContent, BOOLEAN	AutoloadFail);
++void	Hal_ReadChannelPlan8192E(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	Hal_EfuseParseXtal_8192E(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	Hal_ReadAntennaDiversity8192E(PADAPTER pAdapter, u8 *PROMContent, BOOLEAN AutoLoadFail);
++void	Hal_ReadPAType_8192E(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++void	Hal_ReadAmplifierType_8192E(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++void	Hal_ReadRFEType_8192E(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++void	Hal_EfuseParseBTCoexistInfo8192E(PADAPTER Adapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	Hal_EfuseParseKFreeData_8192E(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++
++u8 Hal_CrystalAFEAdjust(_adapter *Adapter);
++
++BOOLEAN HalDetectPwrDownMode8192E(PADAPTER Adapter);
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	void Hal_DetectWoWMode(PADAPTER pAdapter);
++#endif /* CONFIG_WOWLAN */
++
++/***********************************************************/
++/* RTL8192E-MAC Setting */
++VOID _InitQueueReservedPage_8192E(IN  PADAPTER Adapter);
++VOID _InitQueuePriority_8192E(IN	PADAPTER Adapter);
++VOID _InitTxBufferBoundary_8192E(IN PADAPTER Adapter, IN u8 txpktbuf_bndy);
++VOID _InitPageBoundary_8192E(IN PADAPTER Adapter);
++/* VOID _InitTransferPageSize_8192E(IN PADAPTER Adapter); */
++VOID _InitDriverInfoSize_8192E(IN PADAPTER Adapter, IN u8 drvInfoSize);
++VOID _InitRDGSetting_8192E(PADAPTER Adapter);
++void _InitID_8192E(IN  PADAPTER Adapter);
++VOID _InitNetworkType_8192E(IN  PADAPTER Adapter);
++VOID _InitWMACSetting_8192E(IN PADAPTER Adapter);
++VOID _InitAdaptiveCtrl_8192E(IN  PADAPTER Adapter);
++VOID _InitRateFallback_8192E(IN  PADAPTER Adapter);
++VOID _InitEDCA_8192E(IN  PADAPTER Adapter);
++VOID _InitRetryFunction_8192E(IN  PADAPTER Adapter);
++VOID _BBTurnOnBlock_8192E(IN	PADAPTER Adapter);
++VOID _InitBeaconParameters_8192E(IN  PADAPTER Adapter);
++VOID _InitBeaconMaxError_8192E(
++	IN  PADAPTER	Adapter,
++	IN	BOOLEAN		InfraMode
++);
++void SetBeaconRelatedRegisters8192E(PADAPTER padapter);
++VOID hal_ReadRFType_8192E(PADAPTER	Adapter);
++/* RTL8192E-MAC Setting
++ ***********************************************************/
++
++void SetHwReg8192E(PADAPTER Adapter, u8 variable, u8 *val);
++void GetHwReg8192E(PADAPTER Adapter, u8 variable, u8 *val);
++u8
++SetHalDefVar8192E(
++	IN	PADAPTER				Adapter,
++	IN	HAL_DEF_VARIABLE		eVariable,
++	IN	PVOID					pValue
++);
++u8
++GetHalDefVar8192E(
++	IN	PADAPTER				Adapter,
++	IN	HAL_DEF_VARIABLE		eVariable,
++	IN	PVOID					pValue
++);
++
++void rtl8192e_set_hal_ops(struct hal_ops *pHalFunc);
++void init_hal_spec_8192e(_adapter *adapter);
++void rtl8192e_init_default_value(_adapter *padapter);
++/* register */
++void SetBcnCtrlReg(PADAPTER padapter, u8 SetBits, u8 ClearBits);
++
++void rtl8192e_start_thread(_adapter *padapter);
++void rtl8192e_stop_thread(_adapter *padapter);
++
++#ifdef CONFIG_PCI_HCI
++	BOOLEAN	InterruptRecognized8192EE(PADAPTER Adapter);
++	u16	get_txdesc_buf_addr(u16 ff_hwaddr);
++#endif
++
++#ifdef CONFIG_SDIO_HCI
++	#ifdef CONFIG_SDIO_TX_ENABLE_AVAL_INT
++		void _init_available_page_threshold(PADAPTER padapter, u8 numHQ, u8 numNQ, u8 numLQ, u8 numPubQ);
++	#endif
++#endif
++
++#ifdef CONFIG_BT_COEXIST
++	void rtl8192e_combo_card_WifiOnlyHwInit(PADAPTER Adapter);
++#endif
++
++#endif /* __RTL8192E_HAL_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8192e_led.h b/drivers/net/wireless/rtl8812au/include/rtl8192e_led.h
+new file mode 100644
+index 0000000..d79bd91
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8192e_led.h
+@@ -0,0 +1,40 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192E_LED_H__
++#define __RTL8192E_LED_H__
++
++
++/* ********************************************************************************
++ * Interface to manipulate LED objects.
++ * ******************************************************************************** */
++#ifdef CONFIG_USB_HCI
++	void rtl8192eu_InitSwLeds(PADAPTER padapter);
++	void rtl8192eu_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_PCI_HCI
++	void rtl8192ee_InitSwLeds(PADAPTER padapter);
++	void rtl8192ee_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_SDIO_HCI
++	void rtl8192es_InitSwLeds(PADAPTER padapter);
++	void rtl8192es_DeInitSwLeds(PADAPTER padapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8192e_recv.h b/drivers/net/wireless/rtl8812au/include/rtl8192e_recv.h
+new file mode 100644
+index 0000000..34f081c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8192e_recv.h
+@@ -0,0 +1,173 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192E_RECV_H__
++#define __RTL8192E_RECV_H__
++
++#if defined(CONFIG_USB_HCI)
++
++	#ifndef MAX_RECVBUF_SZ
++		#ifdef PLATFORM_OS_CE
++			#define MAX_RECVBUF_SZ (8192+1024) /* 8K+1k */
++		#else
++			#ifdef CONFIG_MINIMAL_MEMORY_USAGE
++				#define MAX_RECVBUF_SZ (4000) /* about 4K */
++			#else
++				#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++					#define MAX_RECVBUF_SZ (rtw_rtkm_get_buff_size()) /*depend rtkm*/
++				#elif defined(CONFIG_PLATFORM_HISILICON)
++					#define MAX_RECVBUF_SZ (16384) /* 16k */
++				#else
++					#define MAX_RECVBUF_SZ (32768) /* 32k */
++				#endif
++				/* #define MAX_RECVBUF_SZ (20480) */ /* 20K */
++				/* #define MAX_RECVBUF_SZ (10240)  */ /* 10K */
++				/* #define MAX_RECVBUF_SZ (16384) */ /* 16k - 92E RX BUF :16K */
++				/* #define MAX_RECVBUF_SZ (8192+1024) */ /* 8K+1k		 */
++			#endif
++		#endif
++	#endif /* !MAX_RECVBUF_SZ */
++
++#elif defined(CONFIG_PCI_HCI)
++	/* #ifndef CONFIG_MINIMAL_MEMORY_USAGE */
++	/*	#define MAX_RECVBUF_SZ (9100) */
++	/* #else */
++	#define MAX_RECVBUF_SZ (4000) /* about 4K
++	* #endif */
++
++
++#elif defined(CONFIG_SDIO_HCI)
++
++	#define MAX_RECVBUF_SZ (16384)
++
++#endif
++
++
++/* Rx smooth factor */
++#define Rx_Smooth_Factor (20)
++
++/* *************
++ * [1] Rx Buffer Descriptor (for PCIE) buffer descriptor architecture
++ * DWORD 0 */
++#define SET_RX_BUFFER_DESC_DATA_LENGTH_92E(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++#define SET_RX_BUFFER_DESC_LS_92E(__pRxStatusDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 15, 1, __Value)
++#define SET_RX_BUFFER_DESC_FS_92E(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 16, 1, __Value)
++#define SET_RX_BUFFER_DESC_TOTAL_LENGTH_92E(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 16, 15, __Value)
++
++#define GET_RX_BUFFER_DESC_OWN_92E(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 31, 1)
++#define GET_RX_BUFFER_DESC_LS_92E(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++#define GET_RX_BUFFER_DESC_FS_92E(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 1)
++#define GET_RX_BUFFER_DESC_TOTAL_LENGTH_92E(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 15)
++
++
++/* DWORD 1 */
++#define SET_RX_BUFFER_PHYSICAL_LOW_92E(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc+4, 0, 32, __Value)
++#define GET_RX_BUFFER_PHYSICAL_LOW_92E(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 0, 32)
++
++/* DWORD 2 */
++#define SET_RX_BUFFER_PHYSICAL_HIGH_92E(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc+8, 0, 32, __Value)
++
++/* *************
++ * [2] Rx Descriptor
++ * DWORD 0 */
++#define GET_RX_STATUS_DESC_PKT_LEN_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 0, 14)
++#define GET_RX_STATUS_DESC_CRC32_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 14, 1)
++#define GET_RX_STATUS_DESC_ICVERR_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++#define GET_RX_STATUS_DESC_DRVINFO_SIZE_92E(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 4)
++#define GET_RX_STATUS_DESC_SECURITY_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 20, 3)
++#define GET_RX_STATUS_DESC_QOS_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 23, 1)
++#define GET_RX_STATUS_DESC_SHIFT_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 24, 2)
++#define GET_RX_STATUS_DESC_PHY_STATUS_92E(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 26, 1)
++#define GET_RX_STATUS_DESC_SWDEC_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 27, 1)
++#define GET_RX_STATUS_DESC_EOR_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 30, 1)
++#define GET_RX_STATUS_DESC_OWN_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 31, 1)
++
++
++#define SET_RX_STATUS_DESC_PKT_LEN_92E(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++#define SET_RX_STATUS_DESC_EOR_92E(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 30, 1, __Value)
++#define SET_RX_STATUS_DESC_OWN_92E(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 31, 1, __Value)
++
++/* DWORD 1 */
++#define GET_RX_STATUS_DESC_MACID_92E(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 0, 7)
++#define GET_RX_STATUS_DESC_TID_92E(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 8, 4)
++#define GET_RX_STATUS_DESC_MACID_VLD_92E(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 12, 1)
++#define GET_RX_STATUS_DESC_AMSDU_92E(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 13, 1)
++#define GET_RX_STATUS_DESC_RXID_MATCH_92E(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 14, 1)
++#define GET_RX_STATUS_DESC_PAGGR_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 15, 1)
++#define GET_RX_STATUS_DESC_A1_FITS_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 16, 4)
++#define GET_RX_STATUS_DESC_TCPOFFLOAD_CHKERR_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 20, 1)
++#define GET_RX_STATUS_DESC_TCPOFFLOAD_IPVER_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 21, 1)
++#define GET_RX_STATUS_DESC_TCPOFFLOAD_IS_TCPUDP_92E(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 22, 1)
++#define GET_RX_STATUS_DESC_TCPOFFLOAD_CHK_VLD_92E(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 23, 1)
++#define GET_RX_STATUS_DESC_PAM_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 24, 1)
++#define GET_RX_STATUS_DESC_PWR_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 25, 1)
++#define GET_RX_STATUS_DESC_MORE_DATA_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 26, 1)
++#define GET_RX_STATUS_DESC_MORE_FRAG_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 27, 1)
++#define GET_RX_STATUS_DESC_TYPE_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 28, 2)
++#define GET_RX_STATUS_DESC_MC_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 30, 1)
++#define GET_RX_STATUS_DESC_BC_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 31, 1)
++
++/* DWORD 2 */
++#define GET_RX_STATUS_DESC_SEQ_92E(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 0, 12)
++#define GET_RX_STATUS_DESC_FRAG_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 12, 4)
++#define GET_RX_STATUS_DESC_RX_IS_QOS_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 16, 1)
++
++#define GET_RX_STATUS_DESC_WLANHD_IV_LEN_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 18, 6)
++#define GET_RX_STATUS_DESC_HWRSVD_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 24, 4)
++#define GET_RX_STATUS_DESC_FCS_OK_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 31, 1)
++#define GET_RX_STATUS_DESC_RPT_SEL_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 28, 1)
++
++/* DWORD 3 */
++#define GET_RX_STATUS_DESC_RX_RATE_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 0, 7)
++#define GET_RX_STATUS_DESC_HTC_92E(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 10, 1)
++#define GET_RX_STATUS_DESC_EOSP_92E(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 11, 1)
++#define GET_RX_STATUS_DESC_BSSID_FIT_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 12, 2)
++#define GET_RX_STATUS_DESC_DMA_AGG_NUM_92E(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 16, 8)
++
++#define GET_RX_STATUS_DESC_PATTERN_MATCH_92E(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 29, 1)
++#define GET_RX_STATUS_DESC_UNICAST_92E(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 30, 1)
++#define GET_RX_STATUS_DESC_MAGIC_WAKE_92E(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 31, 1)
++
++
++/* DWORD 5 */
++#define GET_RX_STATUS_DESC_TSFL_92E(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+20, 0, 32)
++
++#define GET_RX_STATUS_DESC_BUFF_ADDR_92E(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+24, 0, 32)
++#define GET_RX_STATUS_DESC_BUFF_ADDR64_92E(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+28, 0, 32)
++
++
++#ifdef CONFIG_SDIO_HCI
++	s32 rtl8192es_init_recv_priv(PADAPTER padapter);
++	void rtl8192es_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_USB_HCI
++	void rtl8192eu_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf);
++	s32 rtl8192eu_init_recv_priv(PADAPTER padapter);
++	void rtl8192eu_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8192ee_init_recv_priv(PADAPTER padapter);
++	void rtl8192ee_free_recv_priv(PADAPTER padapter);
++#endif
++
++void rtl8192e_query_rx_desc_status(union recv_frame *precvframe, u8 *pdesc);
++
++#endif /* __RTL8192E_RECV_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8192e_rf.h b/drivers/net/wireless/rtl8812au/include/rtl8192e_rf.h
+new file mode 100644
+index 0000000..cd344a4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8192e_rf.h
+@@ -0,0 +1,33 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192E_RF_H__
++#define __RTL8192E_RF_H__
++
++VOID
++PHY_RF6052SetBandwidth8192E(
++	IN	PADAPTER				Adapter,
++	IN	CHANNEL_WIDTH		Bandwidth);
++
++
++int
++PHY_RF6052_Config_8192E(
++	IN	PADAPTER	Adapter);
++
++#endif/* __RTL8192E_RF_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8192e_spec.h b/drivers/net/wireless/rtl8812au/include/rtl8192e_spec.h
+new file mode 100644
+index 0000000..7b3c83a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8192e_spec.h
+@@ -0,0 +1,329 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#ifndef __RTL8192E_SPEC_H__
++#define __RTL8192E_SPEC_H__
++
++#include <drv_conf.h>
++
++#define HAL_NAV_UPPER_UNIT_8192E		128		/* micro-second */
++
++/* ************************************************************
++ * 8192E Regsiter offset definition
++ * ************************************************************ */
++
++/* ************************************************************
++ *
++ * ************************************************************ */
++
++/* -----------------------------------------------------
++ *
++ *	0x0000h ~ 0x00FFh	System Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_SYS_SWR_CTRL1_8192E		0x0010	/* 1 Byte        */
++#define REG_SYS_SWR_CTRL2_8192E		0x0014	/* 1 Byte      */
++#define REG_AFE_CTRL1_8192E			0x0024
++#define REG_AFE_CTRL2_8192E			0x0028
++#define REG_AFE_CTRL3_8192E			0x002c
++
++#define REG_PAD_CTRL1_8192E			0x0064
++#define REG_SDIO_CTRL_8192E			0x0070
++#define REG_OPT_CTRL_8192E				0x0074
++#define REG_RF_B_CTRL_8192E			0x0076
++#define REG_AFE_CTRL4_8192E			0x0078
++#define REG_LDO_SWR_CTRL				0x007C
++#define REG_FW_DRV_MSG_8192E			0x0088
++#define REG_HMEBOX_E2_E3_8192E		0x008C
++#define REG_HIMR0_8192E				0x00B0
++#define REG_HISR0_8192E					0x00B4
++#define REG_HIMR1_8192E					0x00B8
++#define REG_HISR1_8192E					0x00BC
++
++#define REG_SYS_CFG1_8192E				0x00F0
++#define REG_SYS_CFG2_8192E				0x00FC
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_PKTBUF_DBG_ADDR			(REG_PKTBUF_DBG_CTRL)
++#define REG_RXPKTBUF_DBG				(REG_PKTBUF_DBG_CTRL+2)
++#define REG_TXPKTBUF_DBG				(REG_PKTBUF_DBG_CTRL+3)
++#define REG_WOWLAN_WAKE_REASON		REG_MCUTST_WOWLAN
++
++#define REG_RSVD3_8192E					0x0168
++#define REG_C2HEVT_CMD_SEQ_88XX		0x01A1
++#define REG_C2hEVT_CMD_CONTENT_88XX	0x01A2
++#define REG_C2HEVT_CMD_LEN_88XX		0x01AE
++
++#define REG_HMEBOX_EXT0_8192E			0x01F0
++#define REG_HMEBOX_EXT1_8192E			0x01F4
++#define REG_HMEBOX_EXT2_8192E			0x01F8
++#define REG_HMEBOX_EXT3_8192E			0x01FC
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_DWBCN0_CTRL             0x0208
++#define REG_DWBCN1_CTRL             0x0228
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RXDMA_8192E					0x0290
++#define REG_EARLY_MODE_CONTROL_8192E		0x02BC
++
++#define REG_RSVD5_8192E					0x02F0
++#define REG_RSVD6_8192E					0x02F4
++#define REG_RSVD7_8192E					0x02F8
++#define REG_RSVD8_8192E					0x02FC
++
++/* -----------------------------------------------------
++ *
++ *	0x0300h ~ 0x03FFh	PCIe
++ *
++ * ----------------------------------------------------- */
++#define	REG_PCIE_CTRL_REG_8192E			0x0300
++#define	REG_INT_MIG_8192E					0x0304	/* Interrupt Migration */
++#define	REG_BCNQ_TXBD_DESA_8192E		0x0308	/* TX Beacon Descriptor Address */
++#define	REG_MGQ_TXBD_DESA_8192E			0x0310	/* TX Manage Queue Descriptor Address */
++#define	REG_VOQ_TXBD_DESA_8192E			0x0318	/* TX VO Queue Descriptor Address */
++#define	REG_VIQ_TXBD_DESA_8192E			0x0320	/* TX VI Queue Descriptor Address */
++#define	REG_BEQ_TXBD_DESA_8192E			0x0328	/* TX BE Queue Descriptor Address */
++#define	REG_BKQ_TXBD_DESA_8192E			0x0330	/* TX BK Queue Descriptor Address */
++#define	REG_RXQ_RXBD_DESA_8192E			0x0338	/* RX Queue	Descriptor Address */
++#define	REG_HI0Q_TXBD_DESA_8192E			0x0340
++#define	REG_HI1Q_TXBD_DESA_8192E			0x0348
++#define	REG_HI2Q_TXBD_DESA_8192E			0x0350
++#define	REG_HI3Q_TXBD_DESA_8192E			0x0358
++#define	REG_HI4Q_TXBD_DESA_8192E			0x0360
++#define	REG_HI5Q_TXBD_DESA_8192E			0x0368
++#define	REG_HI6Q_TXBD_DESA_8192E			0x0370
++#define	REG_HI7Q_TXBD_DESA_8192E			0x0378
++#define	REG_MGQ_TXBD_NUM_8192E			0x0380
++#define	REG_RX_RXBD_NUM_8192E			0x0382
++#define	REG_VOQ_TXBD_NUM_8192E			0x0384
++#define	REG_VIQ_TXBD_NUM_8192E			0x0386
++#define	REG_BEQ_TXBD_NUM_8192E			0x0388
++#define	REG_BKQ_TXBD_NUM_8192E			0x038A
++#define	REG_HI0Q_TXBD_NUM_8192E			0x038C
++#define	REG_HI1Q_TXBD_NUM_8192E			0x038E
++#define	REG_HI2Q_TXBD_NUM_8192E			0x0390
++#define	REG_HI3Q_TXBD_NUM_8192E			0x0392
++#define	REG_HI4Q_TXBD_NUM_8192E			0x0394
++#define	REG_HI5Q_TXBD_NUM_8192E			0x0396
++#define	REG_HI6Q_TXBD_NUM_8192E			0x0398
++#define	REG_HI7Q_TXBD_NUM_8192E			0x039A
++#define	REG_TSFTIMER_HCI_8192E			0x039C
++
++/* Read Write Point */
++#define	REG_VOQ_TXBD_IDX_8192E			0x03A0
++#define	REG_VIQ_TXBD_IDX_8192E			0x03A4
++#define	REG_BEQ_TXBD_IDX_8192E			0x03A8
++#define	REG_BKQ_TXBD_IDX_8192E			0x03AC
++#define	REG_MGQ_TXBD_IDX_8192E			0x03B0
++#define	REG_RXQ_TXBD_IDX_8192E			0x03B4
++#define	REG_HI0Q_TXBD_IDX_8192E			0x03B8
++#define	REG_HI1Q_TXBD_IDX_8192E			0x03BC
++#define	REG_HI2Q_TXBD_IDX_8192E			0x03C0
++#define	REG_HI3Q_TXBD_IDX_8192E			0x03C4
++#define	REG_HI4Q_TXBD_IDX_8192E			0x03C8
++#define	REG_HI5Q_TXBD_IDX_8192E			0x03CC
++#define	REG_HI6Q_TXBD_IDX_8192E			0x03D0
++#define	REG_HI7Q_TXBD_IDX_8192E			0x03D4
++
++#define	REG_PCIE_HCPWM_8192EE			0x03D8 /* ?????? */
++#define	REG_PCIE_HRPWM_8192EE			0x03DC	/* PCIe RPWM */ /* ?????? */
++#define	REG_DBI_WDATA_V1_8192E			0x03E8
++#define	REG_DBI_RDATA_V1_8192E			0x03EC
++#define	REG_DBI_FLAG_V1_8192E				0x03F0
++#define	REG_MDIO_V1_8192E					0x3F4
++#define	REG_PCIE_MIX_CFG_8192E				0x3F8
++
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_TXBF_CTRL_8192E				0x042C
++#define REG_ARFR0_8192E					0x0444
++#define REG_ARFR1_8192E					0x044C
++#define REG_CCK_CHECK_8192E				0x0454
++#define REG_AMPDU_MAX_TIME_8192E			0x0456
++#define REG_BCNQ1_BDNY_8192E				0x0457
++
++#define REG_AMPDU_MAX_LENGTH_8192E	0x0458
++#define REG_WMAC_LBK_BUF_HD_8192E			0x045D
++#define REG_NDPA_OPT_CTRL_8192E		0x045F
++#define REG_DATA_SC_8192E				0x0483
++#ifdef CONFIG_WOWLAN
++	#define REG_TXPKTBUF_IV_LOW             0x0484
++	#define REG_TXPKTBUF_IV_HIGH            0x0488
++#endif
++#define REG_ARFR2_8192E					0x048C
++#define REG_ARFR3_8192E					0x0494
++#define REG_TXRPT_START_OFFSET			0x04AC
++#define REG_AMPDU_BURST_MODE_8192E	0x04BC
++#define REG_HT_SINGLE_AMPDU_8192E		0x04C7
++#define REG_MACID_PKT_DROP0_8192E		0x04D0
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_CTWND_8192E					0x0572
++#define REG_SECONDARY_CCA_CTRL_8192E	0x0577
++#define REG_SCH_TXCMD_8192E			0x05F8
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_MAC_CR_8192E				0x0600
++
++#define REG_MAC_TX_SM_STATE_8192E		0x06B4
++
++/* Power */
++#define REG_BFMER0_INFO_8192E			0x06E4
++#define REG_BFMER1_INFO_8192E			0x06EC
++#define REG_CSI_RPT_PARAM_BW20_8192E	0x06F4
++#define REG_CSI_RPT_PARAM_BW40_8192E	0x06F8
++#define REG_CSI_RPT_PARAM_BW80_8192E	0x06FC
++
++/* Hardware Port 2 */
++#define REG_BFMEE_SEL_8192E				0x0714
++#define REG_SND_PTCL_CTRL_8192E		0x0718
++
++
++/* -----------------------------------------------------
++ *
++ *	Redifine register definition for compatibility
++ *
++ * ----------------------------------------------------- */
++
++/* TODO: use these definition when using REG_xxx naming rule.
++ * NOTE: DO NOT Remove these definition. Use later. */
++#define	ISR_8192E							REG_HISR0_8192E
++
++/* ----------------------------------------------------------------------------
++ * 8192E IMR/ISR bits						(offset 0xB0,  8bits)
++ * ---------------------------------------------------------------------------- */
++#define	IMR_DISABLED_8192E					0
++/* IMR DW0(0x00B0-00B3) Bit 0-31 */
++#define	IMR_TIMER2_8192E					BIT31		/* Timeout interrupt 2 */
++#define	IMR_TIMER1_8192E					BIT30		/* Timeout interrupt 1	 */
++#define	IMR_PSTIMEOUT_8192E				BIT29		/* Power Save Time Out Interrupt */
++#define	IMR_GTINT4_8192E					BIT28		/* When GTIMER4 expires, this bit is set to 1	 */
++#define	IMR_GTINT3_8192E					BIT27		/* When GTIMER3 expires, this bit is set to 1	 */
++#define	IMR_TXBCN0ERR_8192E				BIT26		/* Transmit Beacon0 Error			 */
++#define	IMR_TXBCN0OK_8192E					BIT25		/* Transmit Beacon0 OK			 */
++#define	IMR_TSF_BIT32_TOGGLE_8192E		BIT24		/* TSF Timer BIT32 toggle indication interrupt			 */
++#define	IMR_BCNDMAINT0_8192E				BIT20		/* Beacon DMA Interrupt 0			 */
++#define	IMR_BCNDERR0_8192E					BIT16		/* Beacon Queue DMA OK0			 */
++#define	IMR_HSISR_IND_ON_INT_8192E		BIT15		/* HSISR Indicator (HSIMR & HSISR is true, this bit is set to 1) */
++#define	IMR_BCNDMAINT_E_8192E				BIT14		/* Beacon DMA Interrupt Extension for Win7			 */
++#define	IMR_ATIMEND_8192E					BIT12		/* CTWidnow End or ATIM Window End */
++#define	IMR_C2HCMD_8192E					BIT10		/* CPU to Host Command INT Status, Write 1 clear	 */
++#define	IMR_CPWM2_8192E					BIT9			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_CPWM_8192E						BIT8			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_HIGHDOK_8192E					BIT7			/* High Queue DMA OK	 */
++#define	IMR_MGNTDOK_8192E					BIT6			/* Management Queue DMA OK	 */
++#define	IMR_BKDOK_8192E					BIT5			/* AC_BK DMA OK		 */
++#define	IMR_BEDOK_8192E					BIT4			/* AC_BE DMA OK	 */
++#define	IMR_VIDOK_8192E					BIT3			/* AC_VI DMA OK		 */
++#define	IMR_VODOK_8192E					BIT2			/* AC_VO DMA OK	 */
++#define	IMR_RDU_8192E						BIT1			/* Rx Descriptor Unavailable	 */
++#define	IMR_ROK_8192E						BIT0			/* Receive DMA OK */
++
++/* IMR DW1(0x00B4-00B7) Bit 0-31 */
++#define	IMR_BCNDMAINT7_8192E				BIT27		/* Beacon DMA Interrupt 7 */
++#define	IMR_BCNDMAINT6_8192E				BIT26		/* Beacon DMA Interrupt 6 */
++#define	IMR_BCNDMAINT5_8192E				BIT25		/* Beacon DMA Interrupt 5 */
++#define	IMR_BCNDMAINT4_8192E				BIT24		/* Beacon DMA Interrupt 4 */
++#define	IMR_BCNDMAINT3_8192E				BIT23		/* Beacon DMA Interrupt 3 */
++#define	IMR_BCNDMAINT2_8192E				BIT22		/* Beacon DMA Interrupt 2 */
++#define	IMR_BCNDMAINT1_8192E				BIT21		/* Beacon DMA Interrupt 1 */
++#define	IMR_BCNDOK7_8192E					BIT20		/* Beacon Queue DMA OK Interrup 7 */
++#define	IMR_BCNDOK6_8192E					BIT19		/* Beacon Queue DMA OK Interrup 6 */
++#define	IMR_BCNDOK5_8192E					BIT18		/* Beacon Queue DMA OK Interrup 5 */
++#define	IMR_BCNDOK4_8192E					BIT17		/* Beacon Queue DMA OK Interrup 4 */
++#define	IMR_BCNDOK3_8192E					BIT16		/* Beacon Queue DMA OK Interrup 3 */
++#define	IMR_BCNDOK2_8192E					BIT15		/* Beacon Queue DMA OK Interrup 2 */
++#define	IMR_BCNDOK1_8192E					BIT14		/* Beacon Queue DMA OK Interrup 1 */
++#define	IMR_ATIMEND_E_8192E				BIT13		/* ATIM Window End Extension for Win7 */
++#define	IMR_TXERR_8192E					BIT11		/* Tx Error Flag Interrupt Status, write 1 clear. */
++#define	IMR_RXERR_8192E					BIT10		/* Rx Error Flag INT Status, Write 1 clear */
++#define	IMR_TXFOVW_8192E					BIT9			/* Transmit FIFO Overflow */
++#define	IMR_RXFOVW_8192E					BIT8			/* Receive FIFO Overflow */
++
++/* ----------------------------------------------------------------------------
++ * 8192E Auto LLT bits						(offset 0x224,  8bits)
++ * ----------------------------------------------------------------------------
++ * 224 REG_AUTO_LLT
++ * move to hal_com_reg.h */
++
++/* ----------------------------------------------------------------------------
++ * 8192E Auto LLT bits						(offset 0x290,  32bits)
++ * ---------------------------------------------------------------------------- */
++#define BIT_DMA_MODE			BIT1
++#define BIT_USB_RXDMA_AGG_EN	BIT31
++
++/* ----------------------------------------------------------------------------
++ * 8192E REG_SYS_CFG1						(offset 0xF0,  32bits)
++ * ---------------------------------------------------------------------------- */
++#define BIT_SPSLDO_SEL			BIT24
++
++
++/* ----------------------------------------------------------------------------
++ * 8192E REG_CCK_CHECK						(offset 0x454,  8bits)
++ * ---------------------------------------------------------------------------- */
++#define BIT_BCN_PORT_SEL		BIT5
++
++/* ****************************************************************************
++ * Regsiter Bit and Content definition
++ * **************************************************************************** */
++
++/* 2 ACMHWCTRL 0x05C0 */
++#define	AcmHw_HwEn_8192E				BIT(0)
++#define	AcmHw_VoqEn_8192E				BIT(1)
++#define	AcmHw_ViqEn_8192E				BIT(2)
++#define	AcmHw_BeqEn_8192E				BIT(3)
++#define	AcmHw_VoqStatus_8192E			BIT(5)
++#define	AcmHw_ViqStatus_8192E			BIT(6)
++#define	AcmHw_BeqStatus_8192E			BIT(7)
++
++/* ********************************************************
++ * General definitions
++ * ******************************************************** */
++
++#define MACID_NUM_8192E 128
++#define SEC_CAM_ENT_NUM_8192E 64
++#define HW_PORT_NUM_8192E	2
++#define NSS_NUM_8192E 2
++#define BAND_CAP_8192E (BAND_CAP_2G)
++#define BW_CAP_8192E (BW_CAP_20M | BW_CAP_40M)
++#define PROTO_CAP_8192E (PROTO_CAP_11B | PROTO_CAP_11G | PROTO_CAP_11N)
++
++#endif /* __RTL8192E_SPEC_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8192e_sreset.h b/drivers/net/wireless/rtl8812au/include/rtl8192e_sreset.h
+new file mode 100644
+index 0000000..7430d9a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8192e_sreset.h
+@@ -0,0 +1,29 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL88812A_SRESET_H_
++#define _RTL8812A_SRESET_H_
++
++#include <rtw_sreset.h>
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	extern void rtl8192e_sreset_xmit_status_check(_adapter *padapter);
++	extern void rtl8192e_sreset_linked_status_check(_adapter *padapter);
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8192e_xmit.h b/drivers/net/wireless/rtl8812au/include/rtl8192e_xmit.h
+new file mode 100644
+index 0000000..23deb8d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8192e_xmit.h
+@@ -0,0 +1,451 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8192E_XMIT_H__
++#define __RTL8192E_XMIT_H__
++
++typedef struct txdescriptor_8192e {
++	/* Offset 0 */
++	u32 pktlen:16;
++	u32 offset:8;
++	u32 bmc:1;
++	u32 htc:1;
++	u32 ls:1;
++	u32 fs:1;
++	u32 linip:1;
++	u32 noacm:1;
++	u32 gf:1;
++	u32 own:1;
++
++	/* Offset 4 */
++	u32 macid:6;
++	u32 rsvd0406:2;
++	u32 qsel:5;
++	u32 rd_nav_ext:1;
++	u32 lsig_txop_en:1;
++	u32 pifs:1;
++	u32 rate_id:4;
++	u32 navusehdr:1;
++	u32 en_desc_id:1;
++	u32 sectype:2;
++	u32 rsvd0424:2;
++	u32 pkt_offset:5;	/* unit: 8 bytes */
++	u32 rsvd0431:1;
++
++	/* Offset 8 */
++	u32 rts_rc:6;
++	u32 data_rc:6;
++	u32 agg_en:1;
++	u32 rd_en:1;
++	u32 bar_rty_th:2;
++	u32 bk:1;
++	u32 morefrag:1;
++	u32 raw:1;
++	u32 ccx:1;
++	u32 ampdu_density:3;
++	u32 bt_null:1;
++	u32 ant_sel_a:1;
++	u32 ant_sel_b:1;
++	u32 tx_ant_cck:2;
++	u32 tx_antl:2;
++	u32 tx_ant_ht:2;
++
++	/* Offset 12 */
++	u32 nextheadpage:8;
++	u32 tailpage:8;
++	u32 seq:12;
++	u32 cpu_handle:1;
++	u32 tag1:1;
++	u32 trigger_int:1;
++	u32 hwseq_en:1;
++
++	/* Offset 16 */
++	u32 rtsrate:5;
++	u32 ap_dcfe:1;
++	u32 hwseq_sel:2;
++	u32 userate:1;
++	u32 disrtsfb:1;
++	u32 disdatafb:1;
++	u32 cts2self:1;
++	u32 rtsen:1;
++	u32 hw_rts_en:1;
++	u32 port_id:1;
++	u32 pwr_status:3;
++	u32 wait_dcts:1;
++	u32 cts2ap_en:1;
++	u32 data_sc:2;
++	u32 data_stbc:2;
++	u32 data_short:1;
++	u32 data_bw:1;
++	u32 rts_short:1;
++	u32 rts_bw:1;
++	u32 rts_sc:2;
++	u32 vcs_stbc:2;
++
++	/* Offset 20 */
++	u32 datarate:6;
++	u32 sgi:1;
++	u32 try_rate:1;
++	u32 data_ratefb_lmt:5;
++	u32 rts_ratefb_lmt:4;
++	u32 rty_lmt_en:1;
++	u32 data_rt_lmt:6;
++	u32 usb_txagg_num:8;
++
++	/* Offset 24 */
++	u32 txagg_a:5;
++	u32 txagg_b:5;
++	u32 use_max_len:1;
++	u32 max_agg_num:5;
++	u32 mcsg1_max_len:4;
++	u32 mcsg2_max_len:4;
++	u32 mcsg3_max_len:4;
++	u32 mcs7_sgi_max_len:4;
++
++	/* Offset 28 */
++	u32 checksum:16;	/* TxBuffSize(PCIe)/CheckSum(USB) */
++	u32 mcsg4_max_len:4;
++	u32 mcsg5_max_len:4;
++	u32 mcsg6_max_len:4;
++	u32 mcs15_sgi_max_len:4;
++} TXDESC_8192E, *PTXDESC_8192E;
++
++
++
++/* For 88e early mode */
++#define SET_EARLYMODE_PKTNUM(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 0, 3, __Value)
++#define SET_EARLYMODE_LEN0(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 4, 12, __Value)
++#define SET_EARLYMODE_LEN1(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 16, 12, __Value)
++#define SET_EARLYMODE_LEN2_1(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 28, 4, __Value)
++#define SET_EARLYMODE_LEN2_2(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 8, __Value)
++#define SET_EARLYMODE_LEN3(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 8, 12, __Value)
++#define SET_EARLYMODE_LEN4(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 20, 12, __Value)
++
++/*
++ * defined for TX DESC Operation
++ *   */
++
++#define MAX_TID (15)
++
++/* OFFSET 0 */
++#define OFFSET_SZ	0
++#define OFFSET_SHT	16
++#define BMC		BIT(24)
++#define LSG		BIT(26)
++#define FSG		BIT(27)
++#define OWN		BIT(31)
++
++
++/* OFFSET 4 */
++#define PKT_OFFSET_SZ		0
++#define QSEL_SHT			8
++#define RATE_ID_SHT			16
++#define NAVUSEHDR			BIT(20)
++#define SEC_TYPE_SHT		22
++#define PKT_OFFSET_SHT		26
++
++/* OFFSET 8 */
++#define AGG_EN				BIT(12)
++#define AGG_BK					BIT(16)
++#define AMPDU_DENSITY_SHT	20
++#define ANTSEL_A			BIT(24)
++#define ANTSEL_B			BIT(25)
++#define TX_ANT_CCK_SHT		26
++#define TX_ANTL_SHT			28
++#define TX_ANT_HT_SHT		30
++
++/* OFFSET 12 */
++#define SEQ_SHT				16
++#define EN_HWSEQ			BIT(31)
++
++/* OFFSET 16 */
++#define	QOS                          BIT(6)
++#define	HW_SSN				BIT(7)
++#define	USERATE			BIT(8)
++#define	DISDATAFB			BIT(10)
++#define   CTS_2_SELF			BIT(11)
++#define	RTS_EN				BIT(12)
++#define	HW_RTS_EN			BIT(13)
++#define	DATA_SHORT			BIT(24)
++#define	PWR_STATUS_SHT	15
++#define	DATA_SC_SHT		20
++#define	DATA_BW			BIT(25)
++
++/* OFFSET 20 */
++#define	RTY_LMT_EN			BIT(17)
++
++
++/* OFFSET 20 */
++#define SGI					BIT(6)
++#define USB_TXAGG_NUM_SHT	24
++
++
++/* *****Tx Desc Buffer content */
++
++/* config element for each tx buffer
++ *
++#define SET_TXBUFFER_DESC_LEN_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*16), 0, 16, __Valeu)
++#define SET_TXBUFFER_DESC_AMSDU_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*16), 31, 1, __Valeu)
++#define SET_TXBUFFER_DESC_ADD_LOW_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*16)+4, 0, 32, __Valeu)
++#define SET_TXBUFFER_DESC_ADD_HIGT_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*16)+8, 0, 32, __Valeu)
++*/
++#define SET_TXBUFFER_DESC_LEN_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*8), 0, 16, __Valeu)
++#define SET_TXBUFFER_DESC_AMSDU_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*8), 31, 1, __Valeu)
++#define SET_TXBUFFER_DESC_ADD_LOW_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*8)+4, 0, 32, __Valeu)
++#define SET_TXBUFFER_DESC_ADD_HIGT_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*16)+8, 0, 32, __Valeu)
++
++
++/* Dword 0 */
++#define SET_TX_BUFF_DESC_LEN_0_92E(__pTxDesc, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 14, __Valeu)
++#define SET_TX_BUFF_DESC_PSB_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 15, __Value)
++#define SET_TX_BUFF_DESC_OWN_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 31, 1, __Value)
++/* Dword 1 */
++#define SET_TX_BUFF_DESC_ADDR_LOW_0_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 32, __Value)
++#define GET_TX_DESC_TX_BUFFER_ADDRESS_92E(__pTxDesc) LE_BITS_TO_4BYTE(__pTxDesc+4, 0, 32)
++
++
++/* Dword 2 */
++#define SET_TX_BUFF_DESC_ADDR_HIGH_0_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 0, 32, __Value)
++/* Dword 3, RESERVED */
++
++
++/* *****Tx Desc content
++ * Dword 0 */
++#define SET_TX_DESC_PKT_SIZE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 16, __Value)
++#define SET_TX_DESC_OFFSET_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 8, __Value)
++#define SET_TX_DESC_BMC_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 24, 1, __Value)
++#define SET_TX_DESC_HTC_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 25, 1, __Value)
++#define SET_TX_DESC_LAST_SEG_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 26, 1, __Value)
++#define SET_TX_DESC_FIRST_SEG_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 27, 1, __Value)
++#define SET_TX_DESC_LINIP_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 28, 1, __Value)
++#define SET_TX_DESC_NO_ACM_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 29, 1, __Value)
++#define SET_TX_DESC_GF_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 30, 1, __Value)
++#define SET_TX_DESC_OWN_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 31, 1, __Value)
++#define GET_TX_DESC_OWN_92E(__pTxDesc) LE_BITS_TO_4BYTE(__pTxDesc, 31, 1)
++
++/* Dword 1 */
++#define SET_TX_DESC_MACID_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 7, __Value)
++#define SET_TX_DESC_QUEUE_SEL_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 8, 5, __Value)
++#define SET_TX_DESC_RDG_NAV_EXT_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 13, 1, __Value)
++#define SET_TX_DESC_LSIG_TXOP_EN_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 14, 1, __Value)
++#define SET_TX_DESC_PIFS_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 15, 1, __Value)
++#define SET_TX_DESC_RATE_ID_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 16, 5, __Value)
++#define SET_TX_DESC_EN_DESC_ID_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 21, 1, __Value)
++#define SET_TX_DESC_SEC_TYPE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 22, 2, __Value)
++#define SET_TX_DESC_PKT_OFFSET_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 24, 5, __Value)
++#define SET_TX_DESC_MORE_DATA_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 29, 1, __Value)
++#define SET_TX_DESC_TXOP_PS_CAP_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 30, 1, __Value)
++#define SET_TX_DESC_TXOP_PS_MODE_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 31, 1, __Value)
++
++
++/* Dword 2 */
++#define SET_TX_DESC_PAID_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 0,  9, __Value)
++#define SET_TX_DESC_CCA_RTS_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 10, 2, __Value)
++#define SET_TX_DESC_AGG_ENABLE_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 12, 1, __Value)
++#define SET_TX_DESC_RDG_ENABLE_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 13, 1, __Value)
++#define SET_TX_DESC_NULL_0_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 14, 1, __Value)
++#define SET_TX_DESC_NULL_1_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 15, 1, __Value)
++#define SET_TX_DESC_BK_92E(__pTxDesc, __Value)				SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 16, 1, __Value)
++#define SET_TX_DESC_MORE_FRAG_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 17, 1, __Value)
++#define SET_TX_DESC_RAW_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 18, 1, __Value)
++#define GET_TX_DESC_MORE_FRAG_92E(__pTxDesc)				LE_BITS_TO_4BYTE(__pTxDesc+8, 17, 1)
++#define SET_TX_DESC_SPE_RPT_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 19, 1, __Value)
++#define SET_TX_DESC_AMPDU_DENSITY_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 20, 3, __Value)
++#define SET_TX_DESC_BT_NULL_92E(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 23, 1, __Value)
++#define SET_TX_DESC_GID_92E(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 24, 6, __Value)
++
++
++/* Dword 3 */
++#define SET_TX_DESC_WHEADER_LEN_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 0, 4, __Value)
++#define SET_TX_DESC_CHK_EN_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 4, 1, __Value)
++#define SET_TX_DESC_EARLY_RATE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 5, 1, __Value)
++#define SET_TX_DESC_HWSEQ_SEL_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 6, 2, __Value)
++#define SET_TX_DESC_USE_RATE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 8, 1, __Value)
++#define SET_TX_DESC_DISABLE_RTS_FB_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 9, 1, __Value)
++#define SET_TX_DESC_DISABLE_FB_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 10, 1, __Value)
++#define SET_TX_DESC_CTS2SELF_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 11, 1, __Value)
++#define SET_TX_DESC_RTS_ENABLE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 12, 1, __Value)
++#define SET_TX_DESC_HW_RTS_ENABLE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 13, 1, __Value)
++#define SET_TX_DESC_HW_PORT_ID_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 14, 1, __Value)
++#define SET_TX_DESC_NAV_USE_HDR_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 15, 1, __Value)
++#define SET_TX_DESC_USE_MAX_LEN_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 16, 1, __Value)
++#define SET_TX_DESC_MAX_AGG_NUM_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 17, 5, __Value)
++#define SET_TX_DESC_NDPA_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 22, 2, __Value)
++#define SET_TX_DESC_AMPDU_MAX_TIME_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 24, 8, __Value)
++
++/* Dword 4 */
++#define SET_TX_DESC_TX_RATE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 0, 7, __Value)
++#define SET_TX_DESC_TRY_RATE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 7, 1, __Value)
++#define SET_TX_DESC_DATA_RATE_FB_LIMIT_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 8, 5, __Value)
++#define SET_TX_DESC_RTS_RATE_FB_LIMIT_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 13, 4, __Value)
++#define SET_TX_DESC_RETRY_LIMIT_ENABLE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 17, 1, __Value)
++#define SET_TX_DESC_DATA_RETRY_LIMIT_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 18, 6, __Value)
++#define SET_TX_DESC_RTS_RATE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 24, 5, __Value)
++#define SET_TX_DESC_PCTS_ENABLE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 29, 1, __Value)
++#define SET_TX_DESC_PCTS_MASK_IDX_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 30, 2, __Value)
++
++
++/* Dword 5 */
++#define SET_TX_DESC_DATA_SC_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 0, 4, __Value)
++#define SET_TX_DESC_DATA_SHORT_92E(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 4, 1, __Value)
++#define SET_TX_DESC_DATA_BW_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 5, 2, __Value)
++#define SET_TX_DESC_DATA_LDPC_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 7, 1, __Value)
++#define SET_TX_DESC_DATA_STBC_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 8, 2, __Value)
++#define SET_TX_DESC_VCS_STBC_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 10, 2, __Value)
++#define SET_TX_DESC_RTS_SHORT_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 12, 1, __Value)
++#define SET_TX_DESC_RTS_SC_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 13, 4, __Value)
++#define SET_TX_DESC_TX_ANT_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 24, 4, __Value)
++#define SET_TX_DESC_TX_POWER_0_PSET_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 28, 3, __Value)
++
++/* Dword 6 */
++#define SET_TX_DESC_SW_DEFINE_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 0, 12, __Value)
++#define SET_TX_DESC_MBSSID_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 12, 4, __Value)
++#define SET_TX_DESC_ANTSEL_A_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 16, 3, __Value)
++#define SET_TX_DESC_ANTSEL_B_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 19, 3, __Value)
++#define SET_TX_DESC_ANTSEL_C_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 22, 3, __Value)
++#define SET_TX_DESC_ANTSEL_D_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 25, 3, __Value)
++
++/* Dword 7 */
++#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++	#define SET_TX_DESC_TX_BUFFER_SIZE_92E(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#else
++	#define SET_TX_DESC_TX_DESC_CHECKSUM_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#endif
++#define SET_TX_DESC_USB_TXAGG_NUM_92E(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 24, 8, __Value)
++
++
++/* #define SET_TX_DESC_HWSEQ_EN_92E(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 15, 1, __Value) */
++/* Dword 8 */
++
++#define SET_TX_DESC_RTS_RC_92E(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 0, 6, __Value)
++#define SET_TX_DESC_BAR_RTY_TH_92E(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 6, 2, __Value)
++#define SET_TX_DESC_DATA_RC_92E(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 8, 6, __Value)
++#define SET_TX_DESC_EN_HWSEQ_92E(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 15, 1, __Value)
++#define SET_TX_DESC_NEXT_HEAD_PAGE_92E(__pTxDesc, __Value)(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 16, 8, __Value)
++#define SET_TX_DESC_TAIL_PAGE_92E(__pTxDesc, __Value)(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 24, 8, __Value)
++
++/* Dword 9 */
++#define SET_TX_DESC_PADDING_LENGTH_92E(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 0, 11, __Value)
++#define SET_TX_DESC_TXBF_PATH_92E(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 11, 1, __Value)
++#define SET_TX_DESC_SEQ_92E(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 12, 12, __Value)
++#define SET_TX_DESC_FINAL_DATA_RATE_92E(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 24, 8, __Value)
++
++
++#define SET_EARLYMODE_PKTNUM_92E(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 0, 4, __Value)
++#define SET_EARLYMODE_LEN0_92E(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 4, 15, __Value)
++#define SET_EARLYMODE_LEN1_1_92E(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 19, 13, __Value)
++#define SET_EARLYMODE_LEN1_2_92E(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 2, __Value)
++#define SET_EARLYMODE_LEN2_92E(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 2, 15,  __Value)
++#define SET_EARLYMODE_LEN3_92E(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 17, 15, __Value)
++
++void rtl8192e_cal_txdesc_chksum(u8 *ptxdesc);
++
++#ifdef CONFIG_USB_HCI
++	s32 rtl8192eu_init_xmit_priv(PADAPTER padapter);
++	void rtl8192eu_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8192eu_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8192eu_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8192eu_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8192eu_xmit_buf_handler(PADAPTER padapter);
++	#define hal_xmit_handler rtl8192eu_xmit_buf_handler
++	void rtl8192eu_xmit_tasklet(void *priv);
++	s32 rtl8192eu_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8192ee_init_xmit_priv(PADAPTER padapter);
++	void rtl8192ee_free_xmit_priv(PADAPTER padapter);
++	struct xmit_buf *rtl8192ee_dequeue_xmitbuf(struct rtw_tx_ring *ring);
++	s32	rtl8192ee_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	void	rtl8192ee_xmitframe_resume(_adapter *padapter);
++	s32 rtl8192ee_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8192ee_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	void rtl8192ee_xmit_tasklet(void *priv);
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	s32 rtl8192es_init_xmit_priv(PADAPTER padapter);
++	void rtl8192es_free_xmit_priv(PADAPTER padapter);
++
++	s32 rtl8192es_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8192es_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8192es_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	thread_return rtl8192es_xmit_thread(thread_context context);
++	s32 rtl8192es_xmit_buf_handler(PADAPTER padapter);
++
++	#ifdef CONFIG_SDIO_TX_TASKLET
++		void rtl8192es_xmit_tasklet(void *priv);
++	#endif
++#endif
++
++struct txrpt_ccx_92e {
++	/* offset 0 */
++	u8 tag1:1;
++	u8 pkt_num:3;
++	u8 txdma_underflow:1;
++	u8 int_bt:1;
++	u8 int_tri:1;
++	u8 int_ccx:1;
++
++	/* offset 1 */
++	u8 mac_id:6;
++	u8 pkt_ok:1;
++	u8 bmc:1;
++
++	/* offset 2 */
++	u8 retry_cnt:6;
++	u8 lifetime_over:1;
++	u8 retry_over:1;
++
++	/* offset 3 */
++	u8 ccx_qtime0;
++	u8 ccx_qtime1;
++
++	/* offset 5 */
++	u8 final_data_rate;
++
++	/* offset 6 */
++	u8 sw1:4;
++	u8 qsel:4;
++
++	/* offset 7 */
++	u8 sw0;
++};
++
++#ifdef CONFIG_TX_EARLY_MODE
++	void UpdateEarlyModeInfo8192E(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++#endif
++s32	rtl8192e_init_xmit_priv(_adapter *padapter);
++void _dbg_dump_tx_info(_adapter	*padapter, int frame_tag, u8 *ptxdesc);
++
++void rtl8192e_fill_fake_txdesc(PADAPTER	padapter, u8 *pDesc, u32 BufferLen,
++			       u8 IsPsPoll, u8	IsBTQosNull, u8 bDataFrame);
++void rtl8192e_cal_txdesc_chksum(u8 *ptxdesc);
++
++u8	BWMapping_92E(PADAPTER Adapter, struct pkt_attrib *pattrib);
++u8	SCMapping_92E(PADAPTER Adapter, struct pkt_attrib	*pattrib);
++void fill_txdesc_phy(PADAPTER padapter, struct pkt_attrib *pattrib, u8 *ptxdesc);
++void fill_txdesc_vcs(struct pkt_attrib *pattrib, u8 *ptxdesc);
++#if defined(CONFIG_CONCURRENT_MODE)
++	void fill_txdesc_force_bmc_camid(struct pkt_attrib *pattrib, u8 *ptxdesc);
++#endif
++void fill_txdesc_sectype(struct pkt_attrib *pattrib, u8 *ptxdesc);
++void rtl8192e_fixed_rate(_adapter *padapter, u8 *ptxdesc);
++
++#endif /* __RTL8192E_XMIT_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8703b_cmd.h b/drivers/net/wireless/rtl8812au/include/rtl8703b_cmd.h
+new file mode 100644
+index 0000000..cdf51c7
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8703b_cmd.h
+@@ -0,0 +1,218 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8703B_CMD_H__
++#define __RTL8703B_CMD_H__
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD DEFINITION    ------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++enum h2c_cmd_8703B {
++	/* Common Class: 000 */
++	H2C_8703B_RSVD_PAGE = 0x00,
++	H2C_8703B_MEDIA_STATUS_RPT = 0x01,
++	H2C_8703B_SCAN_ENABLE = 0x02,
++	H2C_8703B_KEEP_ALIVE = 0x03,
++	H2C_8703B_DISCON_DECISION = 0x04,
++	H2C_8703B_PSD_OFFLOAD = 0x05,
++	H2C_8703B_AP_OFFLOAD = 0x08,
++	H2C_8703B_BCN_RSVDPAGE = 0x09,
++	H2C_8703B_PROBERSP_RSVDPAGE = 0x0A,
++	H2C_8703B_FCS_RSVDPAGE = 0x10,
++	H2C_8703B_FCS_INFO = 0x11,
++	H2C_8703B_AP_WOW_GPIO_CTRL = 0x13,
++
++	/* PoweSave Class: 001 */
++	H2C_8703B_SET_PWR_MODE = 0x20,
++	H2C_8703B_PS_TUNING_PARA = 0x21,
++	H2C_8703B_PS_TUNING_PARA2 = 0x22,
++	H2C_8703B_P2P_LPS_PARAM = 0x23,
++	H2C_8703B_P2P_PS_OFFLOAD = 0x24,
++	H2C_8703B_PS_SCAN_ENABLE = 0x25,
++	H2C_8703B_SAP_PS_ = 0x26,
++	H2C_8703B_INACTIVE_PS_ = 0x27, /* Inactive_PS */
++	H2C_8703B_FWLPS_IN_IPS_ = 0x28,
++
++	/* Dynamic Mechanism Class: 010 */
++	H2C_8703B_MACID_CFG = 0x40,
++	H2C_8703B_TXBF = 0x41,
++	H2C_8703B_RSSI_SETTING = 0x42,
++	H2C_8703B_AP_REQ_TXRPT = 0x43,
++	H2C_8703B_INIT_RATE_COLLECT = 0x44,
++	H2C_8703B_RA_PARA_ADJUST = 0x46,
++
++	/* BT Class: 011 */
++	H2C_8703B_B_TYPE_TDMA = 0x60,
++	H2C_8703B_BT_INFO = 0x61,
++	H2C_8703B_FORCE_BT_TXPWR = 0x62,
++	H2C_8703B_BT_IGNORE_WLANACT = 0x63,
++	H2C_8703B_DAC_SWING_VALUE = 0x64,
++	H2C_8703B_ANT_SEL_RSV = 0x65,
++	H2C_8703B_WL_OPMODE = 0x66,
++	H2C_8703B_BT_MP_OPER = 0x67,
++	H2C_8703B_BT_CONTROL = 0x68,
++	H2C_8703B_BT_WIFI_CTRL = 0x69,
++	H2C_8703B_BT_FW_PATCH = 0x6A,
++	H2C_8703B_BT_WLAN_CALIBRATION = 0x6D,
++
++	/* WOWLAN Class: 100 */
++	H2C_8703B_WOWLAN = 0x80,
++	H2C_8703B_REMOTE_WAKE_CTRL = 0x81,
++	H2C_8703B_AOAC_GLOBAL_INFO = 0x82,
++	H2C_8703B_AOAC_RSVD_PAGE = 0x83,
++	H2C_8703B_AOAC_RSVD_PAGE2 = 0x84,
++	H2C_8703B_D0_SCAN_OFFLOAD_CTRL = 0x85,
++	H2C_8703B_D0_SCAN_OFFLOAD_INFO = 0x86,
++	H2C_8703B_CHNL_SWITCH_OFFLOAD = 0x87,
++	H2C_8703B_P2P_OFFLOAD_RSVD_PAGE = 0x8A,
++	H2C_8703B_P2P_OFFLOAD = 0x8B,
++
++	H2C_8703B_RESET_TSF = 0xC0,
++	H2C_8703B_MAXID,
++};
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD CONTENT    --------------------------------------------------
++ * ---------------------------------------------------------------------------------------------------------
++ * _RSVDPAGE_LOC_CMD_0x00 */
++#define SET_8703B_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8703B_H2CCMD_RSVDPAGE_LOC_PSPOLL(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_8703B_H2CCMD_RSVDPAGE_LOC_NULL_DATA(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8703B_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8703B_H2CCMD_RSVDPAGE_LOC_BT_QOS_NULL_DATA(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++
++/* _KEEP_ALIVE_CMD_0x03 */
++#define SET_8703B_H2CCMD_KEEPALIVE_PARM_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8703B_H2CCMD_KEEPALIVE_PARM_ADOPT(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8703B_H2CCMD_KEEPALIVE_PARM_PKT_TYPE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_8703B_H2CCMD_KEEPALIVE_PARM_CHECK_PERIOD(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++
++/* _DISCONNECT_DECISION_CMD_0x04 */
++#define SET_8703B_H2CCMD_DISCONDECISION_PARM_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8703B_H2CCMD_DISCONDECISION_PARM_ADOPT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8703B_H2CCMD_DISCONDECISION_PARM_CHECK_PERIOD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8703B_H2CCMD_DISCONDECISION_PARM_TRY_PKT_NUM(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++
++/* _PWR_MOD_CMD_0x20 */
++#define SET_8703B_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8703B_H2CCMD_PWRMODE_PARM_RLBM(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 4, __Value)
++#define SET_8703B_H2CCMD_PWRMODE_PARM_SMART_PS(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 4, 4, __Value)
++#define SET_8703B_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8703B_H2CCMD_PWRMODE_PARM_ALL_QUEUE_UAPSD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8703B_H2CCMD_PWRMODE_PARM_BCN_EARLY_C2H_RPT(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 2, 1, __Value)
++#define SET_8703B_H2CCMD_PWRMODE_PARM_PWR_STATE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8703B_H2CCMD_PWRMODE_PARM_BYTE5(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++#define GET_8703B_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd)					LE_BITS_TO_1BYTE(__pH2CCmd, 0, 8)
++
++/* _PS_TUNE_PARAM_CMD_0x21 */
++#define SET_8703B_H2CCMD_PSTUNE_PARM_BCN_TO_LIMIT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8703B_H2CCMD_PSTUNE_PARM_DTIM_TIMEOUT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8703B_H2CCMD_PSTUNE_PARM_ADOPT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 1, __Value)
++#define SET_8703B_H2CCMD_PSTUNE_PARM_PS_TIMEOUT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 1, 7, __Value)
++#define SET_8703B_H2CCMD_PSTUNE_PARM_DTIM_PERIOD(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++
++/* _MACID_CFG_CMD_0x40 */
++#define SET_8703B_H2CCMD_MACID_CFG_MACID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_RAID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 5, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_SGI_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 7, 1, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_BW(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 2, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_NO_UPDATE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 3, 1, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_VHT_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 4, 2, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_DISPT(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 6, 1, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_DISRA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 7, 1, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_RATE_MASK0(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_RATE_MASK1(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+4, 0, 8, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_RATE_MASK2(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+5, 0, 8, __Value)
++#define SET_8703B_H2CCMD_MACID_CFG_RATE_MASK3(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+6, 0, 8, __Value)
++
++/* _RSSI_SETTING_CMD_0x42 */
++#define SET_8703B_H2CCMD_RSSI_SETTING_MACID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8703B_H2CCMD_RSSI_SETTING_RSSI(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 7, __Value)
++#define SET_8703B_H2CCMD_RSSI_SETTING_ULDL_STATE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++
++/* _AP_REQ_TXRPT_CMD_0x43 */
++#define SET_8703B_H2CCMD_APREQRPT_PARM_MACID1(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8703B_H2CCMD_APREQRPT_PARM_MACID2(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++
++/* _FORCE_BT_TXPWR_CMD_0x62 */
++#define SET_8703B_H2CCMD_BT_PWR_IDX(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++
++/* _FORCE_BT_MP_OPER_CMD_0x67 */
++#define SET_8703B_H2CCMD_BT_MPOPER_VER(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 4, __Value)
++#define SET_8703B_H2CCMD_BT_MPOPER_REQNUM(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 4, __Value)
++#define SET_8703B_H2CCMD_BT_MPOPER_IDX(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8703B_H2CCMD_BT_MPOPER_PARAM1(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++#define SET_8703B_H2CCMD_BT_MPOPER_PARAM2(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++#define SET_8703B_H2CCMD_BT_MPOPER_PARAM3(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+4, 0, 8, __Value)
++
++/* _BT_FW_PATCH_0x6A */
++#define SET_8703B_H2CCMD_BT_FW_PATCH_SIZE(__pH2CCmd, __Value)					SET_BITS_TO_LE_2BYTE((pu1Byte)(__pH2CCmd), 0, 16, __Value)
++#define SET_8703B_H2CCMD_BT_FW_PATCH_ADDR0(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8703B_H2CCMD_BT_FW_PATCH_ADDR1(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8703B_H2CCMD_BT_FW_PATCH_ADDR2(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8703B_H2CCMD_BT_FW_PATCH_ADDR3(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++/* ---------------------------------------------------------------------------------------------------------
++ * -------------------------------------------    Structure    --------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    Function Statement     --------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++/* host message to firmware cmd */
++void rtl8703b_set_FwPwrMode_cmd(PADAPTER padapter, u8 Mode);
++void rtl8703b_set_FwJoinBssRpt_cmd(PADAPTER padapter, u8 mstatus);
++void rtl8703b_set_rssi_cmd(PADAPTER padapter, u8 *param);
++void rtl8703b_fw_try_ap_cmd(PADAPTER padapter, u32 need_ack);
++/* s32 rtl8703b_set_lowpwr_lps_cmd(PADAPTER padapter, u8 enable); */
++void rtl8703b_set_FwPsTuneParam_cmd(PADAPTER padapter);
++void rtl8703b_set_FwMacIdConfig_cmd(_adapter *padapter, u8 mac_id, u8 raid, u8 bw, u8 sgi, u32 mask);
++void rtl8703b_set_FwBtMpOper_cmd(PADAPTER padapter, u8 idx, u8 ver, u8 reqnum, u8 *param);
++void rtl8703b_download_rsvd_page(PADAPTER padapter, u8 mstatus);
++#ifdef CONFIG_BT_COEXIST
++	void rtl8703b_download_BTCoex_AP_mode_rsvd_page(PADAPTER padapter);
++#endif /* CONFIG_BT_COEXIST */
++#ifdef CONFIG_P2P
++	void rtl8703b_set_p2p_ps_offload_cmd(PADAPTER padapter, u8 p2p_ps_state);
++#endif /* CONFIG_P2P */
++
++void CheckFwRsvdPageContent(PADAPTER padapter);
++
++#ifdef CONFIG_TDLS
++	#ifdef CONFIG_TDLS_CH_SW
++		void rtl8703b_set_BcnEarly_C2H_Rpt_cmd(PADAPTER padapter, u8 enable);
++	#endif
++#endif
++
++#ifdef CONFIG_P2P_WOWLAN
++	void rtl8703b_set_p2p_wowlan_offload_cmd(PADAPTER padapter);
++#endif
++
++void rtl8703b_set_FwPwrModeInIPS_cmd(PADAPTER padapter, u8 cmd_param);
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++	u8 rtl8703b_reset_tsf(_adapter *padapter, u8 reset_port);
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++s32 FillH2CCmd8703B(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++u8 GetTxBufferRsvdPageNum8703B(_adapter *padapter, bool wowlan);
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8703b_dm.h b/drivers/net/wireless/rtl8812au/include/rtl8703b_dm.h
+new file mode 100644
+index 0000000..4ee834d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8703b_dm.h
+@@ -0,0 +1,47 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8703B_DM_H__
++#define __RTL8703B_DM_H__
++/* ************************************************************
++ * Description:
++ *
++ * This file is for 8703B dynamic mechanism only
++ *
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * structure and define
++ * ************************************************************ */
++
++/* ************************************************************
++ * function prototype
++ * ************************************************************ */
++
++void rtl8703b_init_dm_priv(PADAPTER padapter);
++void rtl8703b_deinit_dm_priv(PADAPTER padapter);
++
++void rtl8703b_InitHalDm(PADAPTER padapter);
++void rtl8703b_HalDmWatchDog(PADAPTER padapter);
++void rtl8703b_HalDmWatchDog_in_LPS(PADAPTER padapter);
++void rtl8703b_hal_dm_in_lps(PADAPTER padapter);
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8703b_hal.h b/drivers/net/wireless/rtl8812au/include/rtl8703b_hal.h
+new file mode 100644
+index 0000000..1f81d89
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8703b_hal.h
+@@ -0,0 +1,292 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8703B_HAL_H__
++#define __RTL8703B_HAL_H__
++
++#include "hal_data.h"
++
++#include "rtl8703b_spec.h"
++#include "rtl8703b_rf.h"
++#include "rtl8703b_dm.h"
++#include "rtl8703b_recv.h"
++#include "rtl8703b_xmit.h"
++#include "rtl8703b_cmd.h"
++#include "rtl8703b_led.h"
++#include "Hal8703BPwrSeq.h"
++#include "Hal8703BPhyReg.h"
++#include "Hal8703BPhyCfg.h"
++#ifdef DBG_CONFIG_ERROR_DETECT
++	#include "rtl8703b_sreset.h"
++#endif
++
++#define FW_8703B_SIZE			0x8000
++#define FW_8703B_START_ADDRESS	0x1000
++#define FW_8703B_END_ADDRESS		0x1FFF /* 0x5FFF */
++
++#define IS_FW_HEADER_EXIST_8703B(_pFwHdr)	((le16_to_cpu(_pFwHdr->Signature) & 0xFFF0) == 0x03B0)
++
++typedef struct _RT_FIRMWARE {
++	FIRMWARE_SOURCE	eFWSource;
++#ifdef CONFIG_EMBEDDED_FWIMG
++	u8			*szFwBuffer;
++#else
++	u8			szFwBuffer[FW_8703B_SIZE];
++#endif
++	u32			ulFwLength;
++} RT_FIRMWARE_8703B, *PRT_FIRMWARE_8703B;
++
++/*
++ * This structure must be cared byte-ordering
++ *
++ * Added by tynli. 2009.12.04. */
++typedef struct _RT_8703B_FIRMWARE_HDR {
++	/* 8-byte alinment required */
++
++	/* --- LONG WORD 0 ---- */
++	u16		Signature;	/* 92C0: test chip; 92C, 88C0: test chip; 88C1: MP A-cut; 92C1: MP A-cut */
++	u8		Category;	/* AP/NIC and USB/PCI */
++	u8		Function;	/* Reserved for different FW function indcation, for further use when driver needs to download different FW in different conditions */
++	u16		Version;		/* FW Version */
++	u16		Subversion;	/* FW Subversion, default 0x00 */
++
++	/* --- LONG WORD 1 ---- */
++	u8		Month;	/* Release time Month field */
++	u8		Date;	/* Release time Date field */
++	u8		Hour;	/* Release time Hour field */
++	u8		Minute;	/* Release time Minute field */
++	u16		RamCodeSize;	/* The size of RAM code */
++	u16		Rsvd2;
++
++	/* --- LONG WORD 2 ---- */
++	u32		SvnIdx;	/* The SVN entry index */
++	u32		Rsvd3;
++
++	/* --- LONG WORD 3 ---- */
++	u32		Rsvd4;
++	u32		Rsvd5;
++} RT_8703B_FIRMWARE_HDR, *PRT_8703B_FIRMWARE_HDR;
++
++#define DRIVER_EARLY_INT_TIME_8703B		0x05
++#define BCN_DMA_ATIME_INT_TIME_8703B		0x02
++
++/* for 8703B
++ * TX 32K, RX 16K, Page size 128B for TX, 8B for RX */
++#define PAGE_SIZE_TX_8703B			128
++#define PAGE_SIZE_RX_8703B			8
++
++#define TX_DMA_SIZE_8703B			0x8000	/* 32K(TX) */
++#define RX_DMA_SIZE_8703B			0x4000	/* 16K(RX) */
++
++#ifdef CONFIG_WOWLAN
++	#define RESV_FMWF	(WKFMCAM_SIZE * MAX_WKFM_CAM_NUM) /* 16 entries, for each is 24 bytes*/
++#else
++	#define RESV_FMWF	0
++#endif
++
++#ifdef CONFIG_FW_C2H_DEBUG
++	#define RX_DMA_RESERVED_SIZE_8703B	0x100	/* 256B, reserved for c2h debug message */
++#else
++	#define RX_DMA_RESERVED_SIZE_8703B	0x80	/* 128B, reserved for tx report */
++#endif
++#define RX_DMA_BOUNDARY_8703B		(RX_DMA_SIZE_8703B - RX_DMA_RESERVED_SIZE_8703B - 1)
++
++
++/* Note: We will divide number of page equally for each queue other than public queue! */
++
++/* For General Reserved Page Number(Beacon Queue is reserved page)
++ * Beacon:2, PS-Poll:1, Null Data:1,Qos Null Data:1,BT Qos Null Data:1 */
++#define BCNQ_PAGE_NUM_8703B		0x08
++#ifdef CONFIG_CONCURRENT_MODE
++	#define BCNQ1_PAGE_NUM_8703B		0x08 /* 0x04 */
++#else
++	#define BCNQ1_PAGE_NUM_8703B		0x00
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++	#undef BCNQ1_PAGE_NUM_8703B
++	#define BCNQ1_PAGE_NUM_8703B		0x00 /* 0x04 */
++#endif
++
++/* For WoWLan , more reserved page
++ * ARP Rsp:1, RWC:1, GTK Info:1,GTK RSP:2,GTK EXT MEM:2, PNO: 6 */
++#ifdef CONFIG_WOWLAN
++	#define WOWLAN_PAGE_NUM_8703B	0x07
++#else
++	#define WOWLAN_PAGE_NUM_8703B	0x00
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++	#undef WOWLAN_PAGE_NUM_8703B
++	#define WOWLAN_PAGE_NUM_8703B	0x15
++#endif
++
++#ifdef CONFIG_AP_WOWLAN
++	#define AP_WOWLAN_PAGE_NUM_8703B	0x02
++#endif
++
++#define TX_TOTAL_PAGE_NUMBER_8703B	(0xFF - BCNQ_PAGE_NUM_8703B - BCNQ1_PAGE_NUM_8703B - WOWLAN_PAGE_NUM_8703B)
++#define TX_PAGE_BOUNDARY_8703B		(TX_TOTAL_PAGE_NUMBER_8703B + 1)
++
++#define WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8703B	TX_TOTAL_PAGE_NUMBER_8703B
++#define WMM_NORMAL_TX_PAGE_BOUNDARY_8703B		(WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8703B + 1)
++
++/* For Normal Chip Setting
++ * (HPQ + LPQ + NPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER_8703B */
++#define NORMAL_PAGE_NUM_HPQ_8703B		0x0C
++#define NORMAL_PAGE_NUM_LPQ_8703B		0x02
++#define NORMAL_PAGE_NUM_NPQ_8703B		0x02
++
++/* Note: For Normal Chip Setting, modify later */
++#define WMM_NORMAL_PAGE_NUM_HPQ_8703B		0x30
++#define WMM_NORMAL_PAGE_NUM_LPQ_8703B		0x20
++#define WMM_NORMAL_PAGE_NUM_NPQ_8703B		0x20
++
++
++#include "HalVerDef.h"
++#include "hal_com.h"
++
++#define EFUSE_OOB_PROTECT_BYTES		15
++
++#define HAL_EFUSE_MEMORY
++
++#define HWSET_MAX_SIZE_8703B			256
++#define EFUSE_REAL_CONTENT_LEN_8703B		256
++#define EFUSE_MAP_LEN_8703B				512
++#define EFUSE_MAX_SECTION_8703B			64
++
++#define EFUSE_IC_ID_OFFSET			506	/* For some inferiority IC purpose. added by Roger, 2009.09.02. */
++#define AVAILABLE_EFUSE_ADDR(addr)	(addr < EFUSE_REAL_CONTENT_LEN_8703B)
++
++#define EFUSE_ACCESS_ON			0x69
++#define EFUSE_ACCESS_OFF			0x00
++
++/* ********************************************************
++ *			EFUSE for BT definition
++ * ******************************************************** */
++#define BANK_NUM		1
++#define EFUSE_BT_REAL_BANK_CONTENT_LEN	128
++#define EFUSE_BT_REAL_CONTENT_LEN		(EFUSE_BT_REAL_BANK_CONTENT_LEN * BANK_NUM)
++#define EFUSE_BT_MAP_LEN				1024	/* 1k bytes */
++#define EFUSE_BT_MAX_SECTION			(EFUSE_BT_MAP_LEN / 8)
++#define EFUSE_PROTECT_BYTES_BANK		16
++
++typedef struct _C2H_EVT_HDR {
++	u8	CmdID;
++	u8	CmdLen;
++	u8	CmdSeq;
++} __attribute__((__packed__)) C2H_EVT_HDR, *PC2H_EVT_HDR;
++
++typedef enum tag_Package_Definition {
++	PACKAGE_DEFAULT,
++	PACKAGE_QFN68,
++	PACKAGE_TFBGA90,
++	PACKAGE_TFBGA80,
++	PACKAGE_TFBGA79
++} PACKAGE_TYPE_E;
++
++#define INCLUDE_MULTI_FUNC_BT(_Adapter)		(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_BT)
++#define INCLUDE_MULTI_FUNC_GPS(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_GPS)
++
++/* rtl8703b_hal_init.c */
++s32 rtl8703b_FirmwareDownload(PADAPTER padapter, BOOLEAN  bUsedWoWLANFw);
++void rtl8703b_FirmwareSelfReset(PADAPTER padapter);
++void rtl8703b_InitializeFirmwareVars(PADAPTER padapter);
++
++void rtl8703b_InitAntenna_Selection(PADAPTER padapter);
++void rtl8703b_DeinitAntenna_Selection(PADAPTER padapter);
++void rtl8703b_CheckAntenna_Selection(PADAPTER padapter);
++void rtl8703b_init_default_value(PADAPTER padapter);
++
++s32 rtl8703b_InitLLTTable(PADAPTER padapter);
++
++s32 CardDisableHWSM(PADAPTER padapter, u8 resetMCU);
++s32 CardDisableWithoutHWSM(PADAPTER padapter);
++
++/* EFuse */
++u8 GetEEPROMSize8703B(PADAPTER padapter);
++void Hal_InitPGData(PADAPTER padapter, u8 *PROMContent);
++void Hal_EfuseParseIDCode(PADAPTER padapter, u8 *hwinfo);
++void Hal_EfuseParseTxPowerInfo_8703B(PADAPTER padapter, u8 *PROMContent, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseBTCoexistInfo_8703B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseEEPROMVer_8703B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseChnlPlan_8703B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseCustomerID_8703B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseAntennaDiversity_8703B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseXtal_8703B(PADAPTER pAdapter, u8 *hwinfo, u8 AutoLoadFail);
++void Hal_EfuseParseThermalMeter_8703B(PADAPTER padapter, u8 *hwinfo, u8 AutoLoadFail);
++VOID Hal_EfuseParseVoltage_8703B(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN	AutoLoadFail);
++VOID Hal_EfuseParseBoardType_8703B(PADAPTER Adapter,	u8	*PROMContent, BOOLEAN AutoloadFail);
++
++#ifdef CONFIG_C2H_PACKET_EN
++	void rtl8703b_c2h_packet_handler(PADAPTER padapter, u8 *pbuf, u16 length);
++#endif
++
++
++void rtl8703b_set_hal_ops(struct hal_ops *pHalFunc);
++void init_hal_spec_8703b(_adapter *adapter);
++void SetHwReg8703B(PADAPTER padapter, u8 variable, u8 *val);
++void GetHwReg8703B(PADAPTER padapter, u8 variable, u8 *val);
++#ifdef CONFIG_C2H_PACKET_EN
++	void SetHwRegWithBuf8703B(PADAPTER padapter, u8 variable, u8 *pbuf, int len);
++#endif /* CONFIG_C2H_PACKET_EN */
++u8 SetHalDefVar8703B(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++u8 GetHalDefVar8703B(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++
++/* register */
++void rtl8703b_InitBeaconParameters(PADAPTER padapter);
++void rtl8703b_InitBeaconMaxError(PADAPTER padapter, u8 InfraMode);
++void	_InitBurstPktLen_8703BS(PADAPTER Adapter);
++void _InitLTECoex_8703BS(PADAPTER Adapter);
++void _InitMacAPLLSetting_8703B(PADAPTER Adapter);
++void _8051Reset8703(PADAPTER padapter);
++#ifdef CONFIG_WOWLAN
++	void Hal_DetectWoWMode(PADAPTER pAdapter);
++#endif /* CONFIG_WOWLAN */
++
++void rtl8703b_start_thread(_adapter *padapter);
++void rtl8703b_stop_thread(_adapter *padapter);
++
++#if defined(CONFIG_CHECK_BT_HANG) && defined(CONFIG_BT_COEXIST)
++	void rtl8703bs_init_checkbthang_workqueue(_adapter *adapter);
++	void rtl8703bs_free_checkbthang_workqueue(_adapter *adapter);
++	void rtl8703bs_cancle_checkbthang_workqueue(_adapter *adapter);
++	void rtl8703bs_hal_check_bt_hang(_adapter *adapter);
++#endif
++
++#ifdef CONFIG_GPIO_WAKEUP
++	void HalSetOutPutGPIO(PADAPTER padapter, u8 index, u8 OutPutValue);
++#endif
++#ifdef CONFIG_MP_INCLUDED
++int FirmwareDownloadBT(IN PADAPTER Adapter, PRT_MP_FIRMWARE pFirmware);
++#endif
++void CCX_FwC2HTxRpt_8703b(PADAPTER padapter, u8 *pdata, u8 len);
++s32 c2h_id_filter_ccx_8703b(u8 *buf);
++s32 c2h_handler_8703b(PADAPTER padapter, u8 *pC2hEvent);
++u8 MRateToHwRate8703B(u8  rate);
++u8 HwRateToMRate8703B(u8	 rate);
++
++void Hal_ReadRFGainOffset(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++
++#ifdef CONFIG_PCI_HCI
++	BOOLEAN	InterruptRecognized8703BE(PADAPTER Adapter);
++	VOID	UpdateInterruptMask8703BE(PADAPTER Adapter, u32 AddMSR, u32 AddMSR1, u32 RemoveMSR, u32 RemoveMSR1);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8703b_led.h b/drivers/net/wireless/rtl8812au/include/rtl8703b_led.h
+new file mode 100644
+index 0000000..fb11fdd
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8703b_led.h
+@@ -0,0 +1,48 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8703B_LED_H__
++#define __RTL8703B_LED_H__
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++
++/* ********************************************************************************
++ * Interface to manipulate LED objects.
++ * ******************************************************************************** */
++#ifdef CONFIG_USB_HCI
++	void rtl8703bu_InitSwLeds(PADAPTER padapter);
++	void rtl8703bu_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_SDIO_HCI
++	void rtl8703bs_InitSwLeds(PADAPTER padapter);
++	void rtl8703bs_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_GSPI_HCI
++	void rtl8703bs_InitSwLeds(PADAPTER padapter);
++	void rtl8703bs_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_PCI_HCI
++	void rtl8703be_InitSwLeds(PADAPTER padapter);
++	void rtl8703be_DeInitSwLeds(PADAPTER padapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8703b_recv.h b/drivers/net/wireless/rtl8812au/include/rtl8703b_recv.h
+new file mode 100644
+index 0000000..4c82652
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8703b_recv.h
+@@ -0,0 +1,91 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8703B_RECV_H__
++#define __RTL8703B_RECV_H__
++
++#define RECV_BLK_SZ 512
++#define RECV_BLK_CNT 16
++#define RECV_BLK_TH RECV_BLK_CNT
++
++#if defined(CONFIG_USB_HCI)
++
++	#ifndef MAX_RECVBUF_SZ
++		#ifdef PLATFORM_OS_CE
++			#define MAX_RECVBUF_SZ (8192+1024) /* 8K+1k */
++		#else
++			#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++				/* #define MAX_RECVBUF_SZ (32768) */ /* 32k */
++				/* #define MAX_RECVBUF_SZ (16384) */ /* 16K */
++				/* #define MAX_RECVBUF_SZ (10240) */ /* 10K */
++				#ifdef CONFIG_PLATFORM_MSTAR
++					#define MAX_RECVBUF_SZ (8192) /* 8K */
++				#else
++					#define MAX_RECVBUF_SZ (15360) /* 15k < 16k */
++				#endif
++				/* #define MAX_RECVBUF_SZ (8192+1024) */ /* 8K+1k */
++			#else
++				#define MAX_RECVBUF_SZ (4000) /* about 4K */
++			#endif
++		#endif
++	#endif /* !MAX_RECVBUF_SZ */
++
++#elif defined(CONFIG_PCI_HCI)
++	/* #ifndef CONFIG_MINIMAL_MEMORY_USAGE */
++	/*	#define MAX_RECVBUF_SZ (9100) */
++	/* #else */
++	#define MAX_RECVBUF_SZ (4000) /* about 4K
++	* #endif */
++
++
++#elif defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++
++	#define MAX_RECVBUF_SZ (RX_DMA_SIZE_8703B - RX_DMA_RESERVED_SIZE_8703B)
++
++#endif
++
++/* Rx smooth factor */
++#define	Rx_Smooth_Factor (20)
++
++#ifdef CONFIG_SDIO_HCI
++	#ifndef CONFIG_SDIO_RX_COPY
++		#undef MAX_RECVBUF_SZ
++		#define MAX_RECVBUF_SZ	(RX_DMA_SIZE_8703B - RX_DMA_RESERVED_SIZE_8703B)
++	#endif /* !CONFIG_SDIO_RX_COPY */
++#endif /* CONFIG_SDIO_HCI */
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	s32 rtl8703bs_init_recv_priv(PADAPTER padapter);
++	void rtl8703bs_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_USB_HCI
++	int rtl8703bu_init_recv_priv(_adapter *padapter);
++	void rtl8703bu_free_recv_priv(_adapter *padapter);
++	void rtl8703bu_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8703be_init_recv_priv(PADAPTER padapter);
++	void rtl8703be_free_recv_priv(PADAPTER padapter);
++#endif
++
++void rtl8703b_query_rx_desc_status(union recv_frame *precvframe, u8 *pdesc);
++
++#endif /* __RTL8703B_RECV_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8703b_rf.h b/drivers/net/wireless/rtl8812au/include/rtl8703b_rf.h
+new file mode 100644
+index 0000000..0d3d0aa
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8703b_rf.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8703B_RF_H__
++#define __RTL8703B_RF_H__
++
++int	PHY_RF6052_Config8703B(IN	PADAPTER		Adapter);
++
++VOID
++PHY_RF6052SetBandwidth8703B(
++	IN	PADAPTER				Adapter,
++	IN	CHANNEL_WIDTH		Bandwidth);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8703b_spec.h b/drivers/net/wireless/rtl8812au/include/rtl8703b_spec.h
+new file mode 100644
+index 0000000..9f9491e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8703b_spec.h
+@@ -0,0 +1,480 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#ifndef __RTL8703B_SPEC_H__
++#define __RTL8703B_SPEC_H__
++
++#include <drv_conf.h>
++
++
++#define HAL_NAV_UPPER_UNIT_8703B		128		/* micro-second */
++
++/* -----------------------------------------------------
++ *
++ *	0x0000h ~ 0x00FFh	System Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_SYS_ISO_CTRL_8703B			0x0000	/* 2 Byte */
++#define REG_SYS_FUNC_EN_8703B			0x0002	/* 2 Byte */
++#define REG_APS_FSMCO_8703B			0x0004	/* 4 Byte */
++#define REG_SYS_CLKR_8703B				0x0008	/* 2 Byte */
++#define REG_9346CR_8703B				0x000A	/* 2 Byte */
++#define REG_EE_VPD_8703B				0x000C	/* 2 Byte */
++#define REG_AFE_MISC_8703B				0x0010	/* 1 Byte */
++#define REG_SPS0_CTRL_8703B				0x0011	/* 7 Byte */
++#define REG_SPS_OCP_CFG_8703B			0x0018	/* 4 Byte */
++#define REG_RSV_CTRL_8703B				0x001C	/* 3 Byte */
++#define REG_RF_CTRL_8703B				0x001F	/* 1 Byte */
++#define REG_LPLDO_CTRL_8703B			0x0023	/* 1 Byte */
++#define REG_AFE_XTAL_CTRL_8703B		0x0024	/* 4 Byte */
++#define REG_AFE_PLL_CTRL_8703B			0x0028	/* 4 Byte */
++#define REG_MAC_PLL_CTRL_EXT_8703B		0x002c	/* 4 Byte */
++#define REG_EFUSE_CTRL_8703B			0x0030
++#define REG_EFUSE_TEST_8703B			0x0034
++#define REG_PWR_DATA_8703B				0x0038
++#define REG_CAL_TIMER_8703B				0x003C
++#define REG_ACLK_MON_8703B				0x003E
++#define REG_GPIO_MUXCFG_8703B			0x0040
++#define REG_GPIO_IO_SEL_8703B			0x0042
++#define REG_MAC_PINMUX_CFG_8703B		0x0043
++#define REG_GPIO_PIN_CTRL_8703B			0x0044
++#define REG_GPIO_INTM_8703B				0x0048
++#define REG_LEDCFG0_8703B				0x004C
++#define REG_LEDCFG1_8703B				0x004D
++#define REG_LEDCFG2_8703B				0x004E
++#define REG_LEDCFG3_8703B				0x004F
++#define REG_FSIMR_8703B					0x0050
++#define REG_FSISR_8703B					0x0054
++#define REG_HSIMR_8703B					0x0058
++#define REG_HSISR_8703B					0x005c
++#define REG_GPIO_EXT_CTRL				0x0060
++#define REG_PAD_CTRL1_8703B		0x0064
++#define REG_MULTI_FUNC_CTRL_8703B		0x0068
++#define REG_GPIO_STATUS_8703B			0x006C
++#define REG_SDIO_CTRL_8703B				0x0070
++#define REG_OPT_CTRL_8703B				0x0074
++#define REG_AFE_CTRL_4_8703B		0x0078
++#define REG_MCUFWDL_8703B				0x0080
++#define REG_HMEBOX_DBG_0_8703B	0x0088
++#define REG_HMEBOX_DBG_1_8703B	0x008A
++#define REG_HMEBOX_DBG_2_8703B	0x008C
++#define REG_HMEBOX_DBG_3_8703B	0x008E
++#define REG_HIMR0_8703B					0x00B0
++#define REG_HISR0_8703B					0x00B4
++#define REG_HIMR1_8703B					0x00B8
++#define REG_HISR1_8703B					0x00BC
++#define REG_PMC_DBG_CTRL2_8703B			0x00CC
++#define	REG_EFUSE_BURN_GNT_8703B		0x00CF
++#define REG_HPON_FSM_8703B				0x00EC
++#define REG_SYS_CFG_8703B				0x00F0
++#define REG_SYS_CFG1_8703B				0x00FC
++#define REG_ROM_VERSION					0x00FD
++
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_C2HEVT_CMD_ID_8703B	0x01A0
++#define REG_C2HEVT_CMD_SEQ_88XX		0x01A1
++#define REG_C2hEVT_CMD_CONTENT_88XX	0x01A2
++#define REG_C2HEVT_CMD_LEN_8703B        0x01AE
++#define REG_C2HEVT_CMD_LEN_88XX		REG_C2HEVT_CMD_LEN_8703B
++#define REG_C2HEVT_CLEAR_8703B			0x01AF
++#define REG_MCUTST_1_8703B				0x01C0
++#define REG_WOWLAN_WAKE_REASON 0x01C7
++#define REG_FMETHR_8703B				0x01C8
++#define REG_HMETFR_8703B				0x01CC
++#define REG_HMEBOX_0_8703B				0x01D0
++#define REG_HMEBOX_1_8703B				0x01D4
++#define REG_HMEBOX_2_8703B				0x01D8
++#define REG_HMEBOX_3_8703B				0x01DC
++#define REG_LLT_INIT_8703B				0x01E0
++#define REG_HMEBOX_EXT0_8703B			0x01F0
++#define REG_HMEBOX_EXT1_8703B			0x01F4
++#define REG_HMEBOX_EXT2_8703B			0x01F8
++#define REG_HMEBOX_EXT3_8703B			0x01FC
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RQPN_8703B					0x0200
++#define REG_FIFOPAGE_8703B				0x0204
++#define REG_DWBCN0_CTRL_8703B			REG_TDECTRL
++#define REG_TXDMA_OFFSET_CHK_8703B	0x020C
++#define REG_TXDMA_STATUS_8703B		0x0210
++#define REG_RQPN_NPQ_8703B			0x0214
++#define REG_DWBCN1_CTRL_8703B			0x0228
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RXDMA_AGG_PG_TH_8703B		0x0280
++#define REG_FW_UPD_RDPTR_8703B		0x0284 /* FW shall update this register before FW write RXPKT_RELEASE_POLL to 1 */
++#define REG_RXDMA_CONTROL_8703B		0x0286 /* Control the RX DMA. */
++#define REG_RXPKT_NUM_8703B			0x0287 /* The number of packets in RXPKTBUF.	 */
++#define REG_RXDMA_STATUS_8703B			0x0288
++#define REG_RXDMA_MODE_CTRL_8703B		0x0290
++#define REG_EARLY_MODE_CONTROL_8703B	0x02BC
++#define REG_RSVD5_8703B					0x02F0
++#define REG_RSVD6_8703B					0x02F4
++
++/* -----------------------------------------------------
++ *
++ *	0x0300h ~ 0x03FFh	PCIe
++ *
++ * ----------------------------------------------------- */
++#define	REG_PCIE_CTRL_REG_8703B		0x0300
++#define	REG_INT_MIG_8703B				0x0304	/* Interrupt Migration */
++#define	REG_BCNQ_DESA_8703B			0x0308	/* TX Beacon Descriptor Address */
++#define	REG_HQ_DESA_8703B				0x0310	/* TX High Queue Descriptor Address */
++#define	REG_MGQ_DESA_8703B			0x0318	/* TX Manage Queue Descriptor Address */
++#define	REG_VOQ_DESA_8703B			0x0320	/* TX VO Queue Descriptor Address */
++#define	REG_VIQ_DESA_8703B				0x0328	/* TX VI Queue Descriptor Address */
++#define	REG_BEQ_DESA_8703B			0x0330	/* TX BE Queue Descriptor Address */
++#define	REG_BKQ_DESA_8703B			0x0338	/* TX BK Queue Descriptor Address */
++#define	REG_RX_DESA_8703B				0x0340	/* RX Queue	Descriptor Address */
++#define	REG_DBI_WDATA_8703B			0x0348	/* DBI Write Data */
++#define	REG_DBI_RDATA_8703B			0x034C	/* DBI Read Data */
++#define	REG_DBI_ADDR_8703B				0x0350	/* DBI Address */
++#define	REG_DBI_FLAG_8703B				0x0352	/* DBI Read/Write Flag */
++#define	REG_MDIO_WDATA_8703B		0x0354	/* MDIO for Write PCIE PHY */
++#define	REG_MDIO_RDATA_8703B			0x0356	/* MDIO for Reads PCIE PHY */
++#define	REG_MDIO_CTL_8703B			0x0358	/* MDIO for Control */
++#define	REG_DBG_SEL_8703B				0x0360	/* Debug Selection Register */
++#define	REG_PCIE_HRPWM_8703B			0x0361	/* PCIe RPWM */
++#define	REG_PCIE_HCPWM_8703B			0x0363	/* PCIe CPWM */
++#define	REG_PCIE_MULTIFET_CTRL_8703B	0x036A	/* PCIE Multi-Fethc Control */
++
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_VOQ_INFORMATION_8703B		0x0400
++#define REG_VIQ_INFORMATION_8703B		0x0404
++#define REG_BEQ_INFORMATION_8703B		0x0408
++#define REG_BKQ_INFORMATION_8703B		0x040C
++#define REG_MGQ_INFORMATION_8703B		0x0410
++#define REG_HGQ_INFORMATION_8703B		0x0414
++#define REG_BCNQ_INFORMATION_8703B	0x0418
++#define REG_TXPKT_EMPTY_8703B			0x041A
++
++#define REG_FWHW_TXQ_CTRL_8703B		0x0420
++#define REG_HWSEQ_CTRL_8703B			0x0423
++#define REG_TXPKTBUF_BCNQ_BDNY_8703B	0x0424
++#define REG_TXPKTBUF_MGQ_BDNY_8703B	0x0425
++#define REG_LIFECTRL_CTRL_8703B			0x0426
++#define REG_MULTI_BCNQ_OFFSET_8703B	0x0427
++#define REG_SPEC_SIFS_8703B				0x0428
++#define REG_RL_8703B						0x042A
++#define REG_TXBF_CTRL_8703B				0x042C
++#define REG_DARFRC_8703B				0x0430
++#define REG_RARFRC_8703B				0x0438
++#define REG_RRSR_8703B					0x0440
++#define REG_ARFR0_8703B					0x0444
++#define REG_ARFR1_8703B					0x044C
++#define REG_CCK_CHECK_8703B				0x0454
++#define REG_AMPDU_MAX_TIME_8703B		0x0456
++#define REG_TXPKTBUF_BCNQ_BDNY1_8703B	0x0457
++
++#define REG_AMPDU_MAX_LENGTH_8703B	0x0458
++#define REG_TXPKTBUF_WMAC_LBK_BF_HD_8703B	0x045D
++#define REG_NDPA_OPT_CTRL_8703B		0x045F
++#define REG_FAST_EDCA_CTRL_8703B		0x0460
++#define REG_RD_RESP_PKT_TH_8703B		0x0463
++#define REG_DATA_SC_8703B				0x0483
++#ifdef CONFIG_WOWLAN
++	#define REG_TXPKTBUF_IV_LOW             0x0484
++	#define REG_TXPKTBUF_IV_HIGH            0x0488
++#endif
++#define REG_TXRPT_START_OFFSET		0x04AC
++#define REG_POWER_STAGE1_8703B		0x04B4
++#define REG_POWER_STAGE2_8703B		0x04B8
++#define REG_AMPDU_BURST_MODE_8703B	0x04BC
++#define REG_PKT_VO_VI_LIFE_TIME_8703B	0x04C0
++#define REG_PKT_BE_BK_LIFE_TIME_8703B	0x04C2
++#define REG_STBC_SETTING_8703B			0x04C4
++#define REG_HT_SINGLE_AMPDU_8703B		0x04C7
++#define REG_PROT_MODE_CTRL_8703B		0x04C8
++#define REG_MAX_AGGR_NUM_8703B		0x04CA
++#define REG_RTS_MAX_AGGR_NUM_8703B	0x04CB
++#define REG_BAR_MODE_CTRL_8703B		0x04CC
++#define REG_RA_TRY_RATE_AGG_LMT_8703B	0x04CF
++#define REG_MACID_PKT_DROP0_8703B		0x04D0
++#define REG_MACID_PKT_SLEEP_8703B		0x04D4
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_EDCA_VO_PARAM_8703B		0x0500
++#define REG_EDCA_VI_PARAM_8703B		0x0504
++#define REG_EDCA_BE_PARAM_8703B		0x0508
++#define REG_EDCA_BK_PARAM_8703B		0x050C
++#define REG_BCNTCFG_8703B				0x0510
++#define REG_PIFS_8703B					0x0512
++#define REG_RDG_PIFS_8703B				0x0513
++#define REG_SIFS_CTX_8703B				0x0514
++#define REG_SIFS_TRX_8703B				0x0516
++#define REG_AGGR_BREAK_TIME_8703B		0x051A
++#define REG_SLOT_8703B					0x051B
++#define REG_TX_PTCL_CTRL_8703B			0x0520
++#define REG_TXPAUSE_8703B				0x0522
++#define REG_DIS_TXREQ_CLR_8703B		0x0523
++#define REG_RD_CTRL_8703B				0x0524
++/*
++ * Format for offset 540h-542h:
++ *	[3:0]:   TBTT prohibit setup in unit of 32us. The time for HW getting beacon content before TBTT.
++ *	[7:4]:   Reserved.
++ *	[19:8]:  TBTT prohibit hold in unit of 32us. The time for HW holding to send the beacon packet.
++ *	[23:20]: Reserved
++ * Description:
++ *	              |
++ * |<--Setup--|--Hold------------>|
++ *	--------------|----------------------
++ * |
++ * TBTT
++ * Note: We cannot update beacon content to HW or send any AC packets during the time between Setup and Hold.
++ * Described by Designer Tim and Bruce, 2011-01-14.
++ *   */
++#define REG_TBTT_PROHIBIT_8703B			0x0540
++#define REG_RD_NAV_NXT_8703B			0x0544
++#define REG_NAV_PROT_LEN_8703B			0x0546
++#define REG_BCN_CTRL_8703B				0x0550
++#define REG_BCN_CTRL_1_8703B			0x0551
++#define REG_MBID_NUM_8703B				0x0552
++#define REG_DUAL_TSF_RST_8703B			0x0553
++#define REG_BCN_INTERVAL_8703B			0x0554
++#define REG_DRVERLYINT_8703B			0x0558
++#define REG_BCNDMATIM_8703B			0x0559
++#define REG_ATIMWND_8703B				0x055A
++#define REG_USTIME_TSF_8703B			0x055C
++#define REG_BCN_MAX_ERR_8703B			0x055D
++#define REG_RXTSF_OFFSET_CCK_8703B		0x055E
++#define REG_RXTSF_OFFSET_OFDM_8703B	0x055F
++#define REG_TSFTR_8703B					0x0560
++#define REG_CTWND_8703B					0x0572
++#define REG_SECONDARY_CCA_CTRL_8703B	0x0577
++#define REG_PSTIMER_8703B				0x0580
++#define REG_TIMER0_8703B				0x0584
++#define REG_TIMER1_8703B				0x0588
++#define REG_ACMHWCTRL_8703B			0x05C0
++#define REG_SCH_TXCMD_8703B			0x05F8
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_MAC_CR_8703B				0x0600
++#define REG_TCR_8703B					0x0604
++#define REG_RCR_8703B					0x0608
++#define REG_RX_PKT_LIMIT_8703B			0x060C
++#define REG_RX_DLK_TIME_8703B			0x060D
++#define REG_RX_DRVINFO_SZ_8703B		0x060F
++
++#define REG_MACID_8703B					0x0610
++#define REG_BSSID_8703B					0x0618
++#define REG_MAR_8703B					0x0620
++#define REG_MBIDCAMCFG_8703B			0x0628
++#define REG_WOWLAN_GTK_DBG1	0x630
++#define REG_WOWLAN_GTK_DBG2	0x634
++
++#define REG_USTIME_EDCA_8703B			0x0638
++#define REG_MAC_SPEC_SIFS_8703B		0x063A
++#define REG_RESP_SIFP_CCK_8703B			0x063C
++#define REG_RESP_SIFS_OFDM_8703B		0x063E
++#define REG_ACKTO_8703B					0x0640
++#define REG_CTS2TO_8703B				0x0641
++#define REG_EIFS_8703B					0x0642
++
++#define REG_NAV_UPPER_8703B			0x0652	/* unit of 128 */
++#define REG_TRXPTCL_CTL_8703B			0x0668
++
++/* Security */
++#define REG_CAMCMD_8703B				0x0670
++#define REG_CAMWRITE_8703B				0x0674
++#define REG_CAMREAD_8703B				0x0678
++#define REG_CAMDBG_8703B				0x067C
++#define REG_SECCFG_8703B				0x0680
++
++/* Power */
++#define REG_WOW_CTRL_8703B				0x0690
++#define REG_PS_RX_INFO_8703B			0x0692
++#define REG_UAPSD_TID_8703B				0x0693
++#define REG_WKFMCAM_CMD_8703B			0x0698
++#define REG_WKFMCAM_NUM_8703B			0x0698
++#define REG_WKFMCAM_RWD_8703B			0x069C
++#define REG_RXFLTMAP0_8703B				0x06A0
++#define REG_RXFLTMAP1_8703B				0x06A2
++#define REG_RXFLTMAP2_8703B				0x06A4
++#define REG_BCN_PSR_RPT_8703B			0x06A8
++#define REG_BT_COEX_TABLE_8703B		0x06C0
++#define REG_BFMER0_INFO_8703B			0x06E4
++#define REG_BFMER1_INFO_8703B			0x06EC
++#define REG_CSI_RPT_PARAM_BW20_8703B	0x06F4
++#define REG_CSI_RPT_PARAM_BW40_8703B	0x06F8
++#define REG_CSI_RPT_PARAM_BW80_8703B	0x06FC
++
++/* Hardware Port 2 */
++#define REG_MACID1_8703B				0x0700
++#define REG_BSSID1_8703B				0x0708
++#define REG_BFMEE_SEL_8703B				0x0714
++#define REG_SND_PTCL_CTRL_8703B		0x0718
++
++/* LTE_COEX */
++#define REG_LTECOEX_CTRL			0x07C0
++#define REG_LTECOEX_WRITE_DATA		0x07C4
++#define REG_LTECOEX_READ_DATA		0x07C8
++#define REG_LTECOEX_PATH_CONTROL	0x70
++
++/* ************************************************************
++ * SDIO Bus Specification
++ * ************************************************************ */
++
++/* -----------------------------------------------------
++ * SDIO CMD Address Mapping
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * I/O bus domain (Host)
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * SDIO register
++ * ----------------------------------------------------- */
++#define SDIO_REG_HCPWM1_8703B	0x025 /* HCI Current Power Mode 1 */
++
++
++/* ****************************************************************************
++ *	8703 Regsiter Bit and Content definition
++ * **************************************************************************** */
++
++#define BIT_USB_RXDMA_AGG_EN	BIT(31)
++#define RXDMA_AGG_MODE_EN		BIT(1)
++
++#ifdef CONFIG_WOWLAN
++	#define RXPKT_RELEASE_POLL		BIT(16)
++	#define RXDMA_IDLE				BIT(17)
++	#define RW_RELEASE_EN			BIT(18)
++#endif
++
++/* 2 HSISR
++ * interrupt mask which needs to clear */
++#define MASK_HSISR_CLEAR		(HSISR_GPIO12_0_INT |\
++		HSISR_SPS_OCP_INT |\
++		HSISR_RON_INT |\
++		HSISR_PDNINT |\
++		HSISR_GPIO9_INT)
++
++
++/* ----------------------------------------------------------------------------
++ * 8703B REG_CCK_CHECK						(offset 0x454)
++ * ---------------------------------------------------------------------------- */
++#define BIT_BCN_PORT_SEL		BIT5
++
++#ifdef CONFIG_RF_POWER_TRIM
++
++	#ifdef CONFIG_RTL8703B
++		#define EEPROM_RF_GAIN_OFFSET			0xC1
++	#endif
++
++	#define EEPROM_RF_GAIN_VAL				0x1F6
++#endif /*CONFIG_RF_POWER_TRIM*/
++
++
++/* ----------------------------------------------------------------------------
++ * 8195 IMR/ISR bits						(offset 0xB0,  8bits)
++ * ---------------------------------------------------------------------------- */
++#define	IMR_DISABLED_8703B					0
++/* IMR DW0(0x00B0-00B3) Bit 0-31 */
++#define	IMR_TIMER2_8703B					BIT31		/* Timeout interrupt 2 */
++#define	IMR_TIMER1_8703B					BIT30		/* Timeout interrupt 1	 */
++#define	IMR_PSTIMEOUT_8703B				BIT29		/* Power Save Time Out Interrupt */
++#define	IMR_GTINT4_8703B					BIT28		/* When GTIMER4 expires, this bit is set to 1	 */
++#define	IMR_GTINT3_8703B					BIT27		/* When GTIMER3 expires, this bit is set to 1	 */
++#define	IMR_TXBCN0ERR_8703B				BIT26		/* Transmit Beacon0 Error			 */
++#define	IMR_TXBCN0OK_8703B				BIT25		/* Transmit Beacon0 OK			 */
++#define	IMR_TSF_BIT32_TOGGLE_8703B		BIT24		/* TSF Timer BIT32 toggle indication interrupt			 */
++#define	IMR_BCNDMAINT0_8703B				BIT20		/* Beacon DMA Interrupt 0			 */
++#define	IMR_BCNDERR0_8703B				BIT16		/* Beacon Queue DMA OK0			 */
++#define	IMR_HSISR_IND_ON_INT_8703B		BIT15		/* HSISR Indicator (HSIMR & HSISR is true, this bit is set to 1) */
++#define	IMR_BCNDMAINT_E_8703B			BIT14		/* Beacon DMA Interrupt Extension for Win7			 */
++#define	IMR_ATIMEND_8703B				BIT12		/* CTWidnow End or ATIM Window End */
++#define	IMR_C2HCMD_8703B					BIT10		/* CPU to Host Command INT Status, Write 1 clear	 */
++#define	IMR_CPWM2_8703B					BIT9			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_CPWM_8703B					BIT8			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_HIGHDOK_8703B				BIT7			/* High Queue DMA OK	 */
++#define	IMR_MGNTDOK_8703B				BIT6			/* Management Queue DMA OK	 */
++#define	IMR_BKDOK_8703B					BIT5			/* AC_BK DMA OK		 */
++#define	IMR_BEDOK_8703B					BIT4			/* AC_BE DMA OK	 */
++#define	IMR_VIDOK_8703B					BIT3			/* AC_VI DMA OK		 */
++#define	IMR_VODOK_8703B					BIT2			/* AC_VO DMA OK	 */
++#define	IMR_RDU_8703B					BIT1			/* Rx Descriptor Unavailable	 */
++#define	IMR_ROK_8703B					BIT0			/* Receive DMA OK */
++
++/* IMR DW1(0x00B4-00B7) Bit 0-31 */
++#define	IMR_BCNDMAINT7_8703B				BIT27		/* Beacon DMA Interrupt 7 */
++#define	IMR_BCNDMAINT6_8703B				BIT26		/* Beacon DMA Interrupt 6 */
++#define	IMR_BCNDMAINT5_8703B				BIT25		/* Beacon DMA Interrupt 5 */
++#define	IMR_BCNDMAINT4_8703B				BIT24		/* Beacon DMA Interrupt 4 */
++#define	IMR_BCNDMAINT3_8703B				BIT23		/* Beacon DMA Interrupt 3 */
++#define	IMR_BCNDMAINT2_8703B				BIT22		/* Beacon DMA Interrupt 2 */
++#define	IMR_BCNDMAINT1_8703B				BIT21		/* Beacon DMA Interrupt 1 */
++#define	IMR_BCNDOK7_8703B					BIT20		/* Beacon Queue DMA OK Interrup 7 */
++#define	IMR_BCNDOK6_8703B					BIT19		/* Beacon Queue DMA OK Interrup 6 */
++#define	IMR_BCNDOK5_8703B					BIT18		/* Beacon Queue DMA OK Interrup 5 */
++#define	IMR_BCNDOK4_8703B					BIT17		/* Beacon Queue DMA OK Interrup 4 */
++#define	IMR_BCNDOK3_8703B					BIT16		/* Beacon Queue DMA OK Interrup 3 */
++#define	IMR_BCNDOK2_8703B					BIT15		/* Beacon Queue DMA OK Interrup 2 */
++#define	IMR_BCNDOK1_8703B					BIT14		/* Beacon Queue DMA OK Interrup 1 */
++#define	IMR_ATIMEND_E_8703B				BIT13		/* ATIM Window End Extension for Win7 */
++#define	IMR_TXERR_8703B					BIT11		/* Tx Error Flag Interrupt Status, write 1 clear. */
++#define	IMR_RXERR_8703B					BIT10		/* Rx Error Flag INT Status, Write 1 clear */
++#define	IMR_TXFOVW_8703B					BIT9			/* Transmit FIFO Overflow */
++#define	IMR_RXFOVW_8703B					BIT8			/* Receive FIFO Overflow */
++
++#ifdef CONFIG_PCI_HCI
++	/* #define IMR_RX_MASK		(IMR_ROK_8703B|IMR_RDU_8703B|IMR_RXFOVW_8703B) */
++	#define IMR_TX_MASK			(IMR_VODOK_8703B | IMR_VIDOK_8703B | IMR_BEDOK_8703B | IMR_BKDOK_8703B | IMR_MGNTDOK_8703B | IMR_HIGHDOK_8703B)
++
++	#define RT_BCN_INT_MASKS	(IMR_BCNDMAINT0_8703B | IMR_TXBCN0OK_8703B | IMR_TXBCN0ERR_8703B | IMR_BCNDERR0_8703B)
++
++	#define RT_AC_INT_MASKS	(IMR_VIDOK_8703B | IMR_VODOK_8703B | IMR_BEDOK_8703B | IMR_BKDOK_8703B)
++#endif
++
++/* ********************************************************
++ * General definitions
++ * ******************************************************** */
++
++#define MACID_NUM_8703B 16
++#define SEC_CAM_ENT_NUM_8703B 16
++#define HW_PORT_NUM_8703B	2
++#define NSS_NUM_8703B 1
++#define BAND_CAP_8703B (BAND_CAP_2G)
++#define BW_CAP_8703B (BW_CAP_20M | BW_CAP_40M)
++#define PROTO_CAP_8703B (PROTO_CAP_11B | PROTO_CAP_11G | PROTO_CAP_11N)
++
++#endif /* __RTL8703B_SPEC_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8703b_sreset.h b/drivers/net/wireless/rtl8812au/include/rtl8703b_sreset.h
+new file mode 100644
+index 0000000..fbed1fb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8703b_sreset.h
+@@ -0,0 +1,29 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8703B_SRESET_H_
++#define _RTL8703B_SRESET_H_
++
++#include <rtw_sreset.h>
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	extern void rtl8703b_sreset_xmit_status_check(_adapter *padapter);
++	extern void rtl8703b_sreset_linked_status_check(_adapter *padapter);
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8703b_xmit.h b/drivers/net/wireless/rtl8812au/include/rtl8703b_xmit.h
+new file mode 100644
+index 0000000..c44609c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8703b_xmit.h
+@@ -0,0 +1,338 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8703B_XMIT_H__
++#define __RTL8703B_XMIT_H__
++
++
++#define MAX_TID (15)
++
++
++#ifndef __INC_HAL8703BDESC_H
++	#define __INC_HAL8703BDESC_H
++
++	#define RX_STATUS_DESC_SIZE_8703B		24
++	#define RX_DRV_INFO_SIZE_UNIT_8703B 8
++
++
++	/* DWORD 0 */
++	#define SET_RX_STATUS_DESC_PKT_LEN_8703B(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++	#define SET_RX_STATUS_DESC_EOR_8703B(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 30, 1, __Value)
++	#define SET_RX_STATUS_DESC_OWN_8703B(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 31, 1, __Value)
++
++	#define GET_RX_STATUS_DESC_PKT_LEN_8703B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 0, 14)
++	#define GET_RX_STATUS_DESC_CRC32_8703B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 14, 1)
++	#define GET_RX_STATUS_DESC_ICV_8703B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++	#define GET_RX_STATUS_DESC_DRVINFO_SIZE_8703B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 4)
++	#define GET_RX_STATUS_DESC_SECURITY_8703B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 20, 3)
++	#define GET_RX_STATUS_DESC_QOS_8703B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 23, 1)
++	#define GET_RX_STATUS_DESC_SHIFT_8703B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 24, 2)
++	#define GET_RX_STATUS_DESC_PHY_STATUS_8703B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 26, 1)
++	#define GET_RX_STATUS_DESC_SWDEC_8703B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 27, 1)
++	#define GET_RX_STATUS_DESC_LAST_SEG_8703B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 28, 1)
++	#define GET_RX_STATUS_DESC_FIRST_SEG_8703B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 29, 1)
++	#define GET_RX_STATUS_DESC_EOR_8703B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 30, 1)
++	#define GET_RX_STATUS_DESC_OWN_8703B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 31, 1)
++
++	/* DWORD 1 */
++	#define GET_RX_STATUS_DESC_MACID_8703B(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 0, 7)
++	#define GET_RX_STATUS_DESC_TID_8703B(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 8, 4)
++	#define GET_RX_STATUS_DESC_AMSDU_8703B(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 13, 1)
++	#define GET_RX_STATUS_DESC_RXID_MATCH_8703B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+4, 14, 1)
++	#define GET_RX_STATUS_DESC_PAGGR_8703B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 15, 1)
++	#define GET_RX_STATUS_DESC_A1_FIT_8703B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 16, 4)
++	#define GET_RX_STATUS_DESC_CHKERR_8703B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 20, 1)
++	#define GET_RX_STATUS_DESC_IPVER_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 21, 1)
++	#define GET_RX_STATUS_DESC_IS_TCPUDP__8703B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+4, 22, 1)
++	#define GET_RX_STATUS_DESC_CHK_VLD_8703B(__pRxDesc)	LE_BITS_TO_4BYTE(__pRxDesc+4, 23, 1)
++	#define GET_RX_STATUS_DESC_PAM_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 24, 1)
++	#define GET_RX_STATUS_DESC_PWR_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 25, 1)
++	#define GET_RX_STATUS_DESC_MORE_DATA_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 26, 1)
++	#define GET_RX_STATUS_DESC_MORE_FRAG_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 27, 1)
++	#define GET_RX_STATUS_DESC_TYPE_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 28, 2)
++	#define GET_RX_STATUS_DESC_MC_8703B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 30, 1)
++	#define GET_RX_STATUS_DESC_BC_8703B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 31, 1)
++
++	/* DWORD 2 */
++	#define GET_RX_STATUS_DESC_SEQ_8703B(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 0, 12)
++	#define GET_RX_STATUS_DESC_FRAG_8703B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 12, 4)
++	#define GET_RX_STATUS_DESC_RX_IS_QOS_8703B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 16, 1)
++	#define GET_RX_STATUS_DESC_WLANHD_IV_LEN_8703B(__pRxStatusDesc)	LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 18, 6)
++	#define GET_RX_STATUS_DESC_RPT_SEL_8703B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 28, 1)
++
++	/* DWORD 3 */
++	#define GET_RX_STATUS_DESC_RX_RATE_8703B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 0, 7)
++	#define GET_RX_STATUS_DESC_HTC_8703B(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 10, 1)
++	#define GET_RX_STATUS_DESC_EOSP_8703B(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 11, 1)
++	#define GET_RX_STATUS_DESC_BSSID_FIT_8703B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 12, 2)
++	#ifdef CONFIG_USB_RX_AGGREGATION
++		#define GET_RX_STATUS_DESC_USB_AGG_PKTNUM_8703B(__pRxStatusDesc)	LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 16, 8)
++	#endif
++	#define GET_RX_STATUS_DESC_PATTERN_MATCH_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 29, 1)
++	#define GET_RX_STATUS_DESC_UNICAST_MATCH_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 30, 1)
++	#define GET_RX_STATUS_DESC_MAGIC_MATCH_8703B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+12, 31, 1)
++
++	/* DWORD 6 */
++	#define GET_RX_STATUS_DESC_SPLCP_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 0, 1)
++	#define GET_RX_STATUS_DESC_LDPC_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 1, 1)
++	#define GET_RX_STATUS_DESC_STBC_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 2, 1)
++	#define GET_RX_STATUS_DESC_BW_8703B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 4, 2)
++
++	/* DWORD 5 */
++	#define GET_RX_STATUS_DESC_TSFL_8703B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+20, 0, 32)
++
++	#define GET_RX_STATUS_DESC_BUFF_ADDR_8703B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+24, 0, 32)
++	#define GET_RX_STATUS_DESC_BUFF_ADDR64_8703B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+28, 0, 32)
++
++	#define SET_RX_STATUS_DESC_BUFF_ADDR_8703B(__pRxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pRxDesc+24, 0, 32, __Value)
++
++
++	/* Dword 0 */
++	#define GET_TX_DESC_OWN_8703B(__pTxDesc)				LE_BITS_TO_4BYTE(__pTxDesc, 31, 1)
++
++	#define SET_TX_DESC_PKT_SIZE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 16, __Value)
++	#define SET_TX_DESC_OFFSET_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 8, __Value)
++	#define SET_TX_DESC_BMC_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 24, 1, __Value)
++	#define SET_TX_DESC_HTC_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 25, 1, __Value)
++	#define SET_TX_DESC_LAST_SEG_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 26, 1, __Value)
++	#define SET_TX_DESC_FIRST_SEG_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 27, 1, __Value)
++	#define SET_TX_DESC_LINIP_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 28, 1, __Value)
++	#define SET_TX_DESC_NO_ACM_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 29, 1, __Value)
++	#define SET_TX_DESC_GF_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 30, 1, __Value)
++	#define SET_TX_DESC_OWN_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 31, 1, __Value)
++
++	/* Dword 1 */
++	#define SET_TX_DESC_MACID_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 7, __Value)
++	#define SET_TX_DESC_QUEUE_SEL_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 8, 5, __Value)
++	#define SET_TX_DESC_RDG_NAV_EXT_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 13, 1, __Value)
++	#define SET_TX_DESC_LSIG_TXOP_EN_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 14, 1, __Value)
++	#define SET_TX_DESC_PIFS_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 15, 1, __Value)
++	#define SET_TX_DESC_RATE_ID_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 16, 5, __Value)
++	#define SET_TX_DESC_EN_DESC_ID_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 21, 1, __Value)
++	#define SET_TX_DESC_SEC_TYPE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 22, 2, __Value)
++	#define SET_TX_DESC_PKT_OFFSET_8703B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 24, 5, __Value)
++
++
++	/* Dword 2 */
++	#define SET_TX_DESC_PAID_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 0,  9, __Value)
++	#define SET_TX_DESC_CCA_RTS_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 10, 2, __Value)
++	#define SET_TX_DESC_AGG_ENABLE_8703B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 12, 1, __Value)
++	#define SET_TX_DESC_RDG_ENABLE_8703B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 13, 1, __Value)
++	#define SET_TX_DESC_AGG_BREAK_8703B(__pTxDesc, __Value)				SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 16, 1, __Value)
++	#define SET_TX_DESC_MORE_FRAG_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 17, 1, __Value)
++	#define SET_TX_DESC_RAW_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 18, 1, __Value)
++	#define SET_TX_DESC_SPE_RPT_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 19, 1, __Value)
++	#define SET_TX_DESC_AMPDU_DENSITY_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 20, 3, __Value)
++	#define SET_TX_DESC_BT_INT_8703B(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 23, 1, __Value)
++	#define SET_TX_DESC_GID_8703B(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 24, 6, __Value)
++
++
++	/* Dword 3 */
++	#define SET_TX_DESC_WHEADER_LEN_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 0, 4, __Value)
++	#define SET_TX_DESC_CHK_EN_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 4, 1, __Value)
++	#define SET_TX_DESC_EARLY_MODE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 5, 1, __Value)
++	#define SET_TX_DESC_HWSEQ_SEL_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 6, 2, __Value)
++	#define SET_TX_DESC_USE_RATE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 8, 1, __Value)
++	#define SET_TX_DESC_DISABLE_RTS_FB_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 9, 1, __Value)
++	#define SET_TX_DESC_DISABLE_FB_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 10, 1, __Value)
++	#define SET_TX_DESC_CTS2SELF_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 11, 1, __Value)
++	#define SET_TX_DESC_RTS_ENABLE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 12, 1, __Value)
++	#define SET_TX_DESC_HW_RTS_ENABLE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 13, 1, __Value)
++	#define SET_TX_DESC_NAV_USE_HDR_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 15, 1, __Value)
++	#define SET_TX_DESC_USE_MAX_LEN_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 16, 1, __Value)
++	#define SET_TX_DESC_MAX_AGG_NUM_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 17, 5, __Value)
++	#define SET_TX_DESC_NDPA_8703B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 22, 2, __Value)
++	#define SET_TX_DESC_AMPDU_MAX_TIME_8703B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 24, 8, __Value)
++
++	/* Dword 4 */
++	#define SET_TX_DESC_TX_RATE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 0, 7, __Value)
++	#define SET_TX_DESC_DATA_RATE_FB_LIMIT_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 8, 5, __Value)
++	#define SET_TX_DESC_RTS_RATE_FB_LIMIT_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 13, 4, __Value)
++	#define SET_TX_DESC_RETRY_LIMIT_ENABLE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 17, 1, __Value)
++	#define SET_TX_DESC_DATA_RETRY_LIMIT_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 18, 6, __Value)
++	#define SET_TX_DESC_RTS_RATE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 24, 5, __Value)
++
++
++	/* Dword 5 */
++	#define SET_TX_DESC_DATA_SC_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 0, 4, __Value)
++	#define SET_TX_DESC_DATA_SHORT_8703B(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 4, 1, __Value)
++	#define SET_TX_DESC_DATA_BW_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 5, 2, __Value)
++	#define SET_TX_DESC_DATA_LDPC_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 7, 1, __Value)
++	#define SET_TX_DESC_DATA_STBC_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 8, 2, __Value)
++	#define SET_TX_DESC_CTROL_STBC_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 10, 2, __Value)
++	#define SET_TX_DESC_RTS_SHORT_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 12, 1, __Value)
++	#define SET_TX_DESC_RTS_SC_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 13, 4, __Value)
++
++
++	/* Dword 6 */
++	#define SET_TX_DESC_SW_DEFINE_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 0, 12, __Value)
++	#define SET_TX_DESC_MBSSID_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 12, 4, __Value)
++	#define SET_TX_DESC_ANTSEL_A_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 16, 3, __Value)
++	#define SET_TX_DESC_ANTSEL_B_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 19, 3, __Value)
++	#define SET_TX_DESC_ANTSEL_C_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 22, 3, __Value)
++	#define SET_TX_DESC_ANTSEL_D_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 25, 3, __Value)
++
++	/* Dword 7 */
++	#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++		#define SET_TX_DESC_TX_BUFFER_SIZE_8703B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++	#else
++		#define SET_TX_DESC_TX_DESC_CHECKSUM_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++	#endif
++	#define SET_TX_DESC_USB_TXAGG_NUM_8703B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 24, 8, __Value)
++	#if (DEV_BUS_TYPE == RT_SDIO_INTERFACE)
++		#define SET_TX_DESC_SDIO_TXSEQ_8703B(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 16, 8, __Value)
++	#endif
++
++	/* Dword 8 */
++	#define SET_TX_DESC_HWSEQ_EN_8703B(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 15, 1, __Value)
++
++	/* Dword 9 */
++	#define SET_TX_DESC_SEQ_8703B(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 12, 12, __Value)
++
++	/* Dword 10 */
++	#define SET_TX_DESC_TX_BUFFER_ADDRESS_8703B(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+40, 0, 32, __Value)
++	#define GET_TX_DESC_TX_BUFFER_ADDRESS_8703B(__pTxDesc)	LE_BITS_TO_4BYTE(__pTxDesc+40, 0, 32)
++
++	/* Dword 11 */
++	#define SET_TX_DESC_NEXT_DESC_ADDRESS_8703B(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+48, 0, 32, __Value)
++
++
++	#define SET_EARLYMODE_PKTNUM_8703B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 0, 4, __Value)
++	#define SET_EARLYMODE_LEN0_8703B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 4, 15, __Value)
++	#define SET_EARLYMODE_LEN1_1_8703B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 19, 13, __Value)
++	#define SET_EARLYMODE_LEN1_2_8703B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 2, __Value)
++	#define SET_EARLYMODE_LEN2_8703B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 2, 15,	__Value)
++	#define SET_EARLYMODE_LEN3_8703B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 17, 15, __Value)
++
++#endif
++/* -----------------------------------------------------------
++ *
++ *	Rate
++ *
++ * -----------------------------------------------------------
++ * CCK Rates, TxHT = 0 */
++#define DESC8703B_RATE1M				0x00
++#define DESC8703B_RATE2M				0x01
++#define DESC8703B_RATE5_5M				0x02
++#define DESC8703B_RATE11M				0x03
++
++/* OFDM Rates, TxHT = 0 */
++#define DESC8703B_RATE6M				0x04
++#define DESC8703B_RATE9M				0x05
++#define DESC8703B_RATE12M				0x06
++#define DESC8703B_RATE18M				0x07
++#define DESC8703B_RATE24M				0x08
++#define DESC8703B_RATE36M				0x09
++#define DESC8703B_RATE48M				0x0a
++#define DESC8703B_RATE54M				0x0b
++
++/* MCS Rates, TxHT = 1 */
++#define DESC8703B_RATEMCS0				0x0c
++#define DESC8703B_RATEMCS1				0x0d
++#define DESC8703B_RATEMCS2				0x0e
++#define DESC8703B_RATEMCS3				0x0f
++#define DESC8703B_RATEMCS4				0x10
++#define DESC8703B_RATEMCS5				0x11
++#define DESC8703B_RATEMCS6				0x12
++#define DESC8703B_RATEMCS7				0x13
++#define DESC8703B_RATEMCS8				0x14
++#define DESC8703B_RATEMCS9				0x15
++#define DESC8703B_RATEMCS10		0x16
++#define DESC8703B_RATEMCS11		0x17
++#define DESC8703B_RATEMCS12		0x18
++#define DESC8703B_RATEMCS13		0x19
++#define DESC8703B_RATEMCS14		0x1a
++#define DESC8703B_RATEMCS15		0x1b
++#define DESC8703B_RATEVHTSS1MCS0		0x2c
++#define DESC8703B_RATEVHTSS1MCS1		0x2d
++#define DESC8703B_RATEVHTSS1MCS2		0x2e
++#define DESC8703B_RATEVHTSS1MCS3		0x2f
++#define DESC8703B_RATEVHTSS1MCS4		0x30
++#define DESC8703B_RATEVHTSS1MCS5		0x31
++#define DESC8703B_RATEVHTSS1MCS6		0x32
++#define DESC8703B_RATEVHTSS1MCS7		0x33
++#define DESC8703B_RATEVHTSS1MCS8		0x34
++#define DESC8703B_RATEVHTSS1MCS9		0x35
++#define DESC8703B_RATEVHTSS2MCS0		0x36
++#define DESC8703B_RATEVHTSS2MCS1		0x37
++#define DESC8703B_RATEVHTSS2MCS2		0x38
++#define DESC8703B_RATEVHTSS2MCS3		0x39
++#define DESC8703B_RATEVHTSS2MCS4		0x3a
++#define DESC8703B_RATEVHTSS2MCS5		0x3b
++#define DESC8703B_RATEVHTSS2MCS6		0x3c
++#define DESC8703B_RATEVHTSS2MCS7		0x3d
++#define DESC8703B_RATEVHTSS2MCS8		0x3e
++#define DESC8703B_RATEVHTSS2MCS9		0x3f
++
++
++#define	RX_HAL_IS_CCK_RATE_8703B(pDesc)\
++	(GET_RX_STATUS_DESC_RX_RATE_8703B(pDesc) == DESC8703B_RATE1M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8703B(pDesc) == DESC8703B_RATE2M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8703B(pDesc) == DESC8703B_RATE5_5M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8703B(pDesc) == DESC8703B_RATE11M)
++
++
++void rtl8703b_update_txdesc(struct xmit_frame *pxmitframe, u8 *pmem);
++void rtl8703b_fill_fake_txdesc(PADAPTER padapter, u8 *pDesc, u32 BufferLen, u8 IsPsPoll, u8 IsBTQosNull, u8 bDataFrame);
++#if defined(CONFIG_CONCURRENT_MODE)
++	void fill_txdesc_force_bmc_camid(struct pkt_attrib *pattrib, u8 *ptxdesc);
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	s32 rtl8703bs_init_xmit_priv(PADAPTER padapter);
++	void rtl8703bs_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8703bs_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8703bs_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8703bs_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8703bs_xmit_buf_handler(PADAPTER padapter);
++	thread_return rtl8703bs_xmit_thread(thread_context context);
++	#define hal_xmit_handler rtl8703bs_xmit_buf_handler
++#endif
++
++#ifdef CONFIG_USB_HCI
++	s32 rtl8703bu_xmit_buf_handler(PADAPTER padapter);
++	#define hal_xmit_handler rtl8703bu_xmit_buf_handler
++
++
++	s32 rtl8703bu_init_xmit_priv(PADAPTER padapter);
++	void rtl8703bu_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8703bu_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8703bu_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	 rtl8703bu_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	/* s32 rtl8812au_xmit_buf_handler(PADAPTER padapter); */
++	void rtl8703bu_xmit_tasklet(void *priv);
++	s32 rtl8703bu_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++	void _dbg_dump_tx_info(_adapter	*padapter, int frame_tag, struct tx_desc *ptxdesc);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8703be_init_xmit_priv(PADAPTER padapter);
++	void rtl8703be_free_xmit_priv(PADAPTER padapter);
++	struct xmit_buf *rtl8703be_dequeue_xmitbuf(struct rtw_tx_ring *ring);
++	void	rtl8703be_xmitframe_resume(_adapter *padapter);
++	s32 rtl8703be_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8703be_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8703be_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	void rtl8703be_xmit_tasklet(void *priv);
++#endif
++
++u8	BWMapping_8703B(PADAPTER Adapter, struct pkt_attrib *pattrib);
++u8	SCMapping_8703B(PADAPTER Adapter, struct pkt_attrib	*pattrib);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8723b_cmd.h b/drivers/net/wireless/rtl8812au/include/rtl8723b_cmd.h
+new file mode 100644
+index 0000000..dadb82c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8723b_cmd.h
+@@ -0,0 +1,218 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723B_CMD_H__
++#define __RTL8723B_CMD_H__
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD DEFINITION    ------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++enum h2c_cmd_8723B {
++	/* Common Class: 000 */
++	H2C_8723B_RSVD_PAGE = 0x00,
++	H2C_8723B_MEDIA_STATUS_RPT = 0x01,
++	H2C_8723B_SCAN_ENABLE = 0x02,
++	H2C_8723B_KEEP_ALIVE = 0x03,
++	H2C_8723B_DISCON_DECISION = 0x04,
++	H2C_8723B_PSD_OFFLOAD = 0x05,
++	H2C_8723B_AP_OFFLOAD = 0x08,
++	H2C_8723B_BCN_RSVDPAGE = 0x09,
++	H2C_8723B_PROBERSP_RSVDPAGE = 0x0A,
++	H2C_8723B_FCS_RSVDPAGE = 0x10,
++	H2C_8723B_FCS_INFO = 0x11,
++	H2C_8723B_AP_WOW_GPIO_CTRL = 0x13,
++
++	/* PoweSave Class: 001 */
++	H2C_8723B_SET_PWR_MODE = 0x20,
++	H2C_8723B_PS_TUNING_PARA = 0x21,
++	H2C_8723B_PS_TUNING_PARA2 = 0x22,
++	H2C_8723B_P2P_LPS_PARAM = 0x23,
++	H2C_8723B_P2P_PS_OFFLOAD = 0x24,
++	H2C_8723B_PS_SCAN_ENABLE = 0x25,
++	H2C_8723B_SAP_PS_ = 0x26,
++	H2C_8723B_INACTIVE_PS_ = 0x27, /* Inactive_PS */
++	H2C_8723B_FWLPS_IN_IPS_ = 0x28,
++
++	/* Dynamic Mechanism Class: 010 */
++	H2C_8723B_MACID_CFG = 0x40,
++	H2C_8723B_TXBF = 0x41,
++	H2C_8723B_RSSI_SETTING = 0x42,
++	H2C_8723B_AP_REQ_TXRPT = 0x43,
++	H2C_8723B_INIT_RATE_COLLECT = 0x44,
++	H2C_8723B_RA_PARA_ADJUST = 0x46,
++
++	/* BT Class: 011 */
++	H2C_8723B_B_TYPE_TDMA = 0x60,
++	H2C_8723B_BT_INFO = 0x61,
++	H2C_8723B_FORCE_BT_TXPWR = 0x62,
++	H2C_8723B_BT_IGNORE_WLANACT = 0x63,
++	H2C_8723B_DAC_SWING_VALUE = 0x64,
++	H2C_8723B_ANT_SEL_RSV = 0x65,
++	H2C_8723B_WL_OPMODE = 0x66,
++	H2C_8723B_BT_MP_OPER = 0x67,
++	H2C_8723B_BT_CONTROL = 0x68,
++	H2C_8723B_BT_WIFI_CTRL = 0x69,
++	H2C_8723B_BT_FW_PATCH = 0x6A,
++	H2C_8723B_BT_WLAN_CALIBRATION = 0x6D,
++
++	/* WOWLAN Class: 100 */
++	H2C_8723B_WOWLAN = 0x80,
++	H2C_8723B_REMOTE_WAKE_CTRL = 0x81,
++	H2C_8723B_AOAC_GLOBAL_INFO = 0x82,
++	H2C_8723B_AOAC_RSVD_PAGE = 0x83,
++	H2C_8723B_AOAC_RSVD_PAGE2 = 0x84,
++	H2C_8723B_D0_SCAN_OFFLOAD_CTRL = 0x85,
++	H2C_8723B_D0_SCAN_OFFLOAD_INFO = 0x86,
++	H2C_8723B_CHNL_SWITCH_OFFLOAD = 0x87,
++	H2C_8723B_P2P_OFFLOAD_RSVD_PAGE = 0x8A,
++	H2C_8723B_P2P_OFFLOAD = 0x8B,
++
++	H2C_8723B_RESET_TSF = 0xC0,
++	H2C_8723B_MAXID,
++};
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD CONTENT    --------------------------------------------------
++ * ---------------------------------------------------------------------------------------------------------
++ * _RSVDPAGE_LOC_CMD_0x00 */
++#define SET_8723B_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723B_H2CCMD_RSVDPAGE_LOC_PSPOLL(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_8723B_H2CCMD_RSVDPAGE_LOC_NULL_DATA(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8723B_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8723B_H2CCMD_RSVDPAGE_LOC_BT_QOS_NULL_DATA(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++
++/* _KEEP_ALIVE_CMD_0x03 */
++#define SET_8723B_H2CCMD_KEEPALIVE_PARM_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8723B_H2CCMD_KEEPALIVE_PARM_ADOPT(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8723B_H2CCMD_KEEPALIVE_PARM_PKT_TYPE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_8723B_H2CCMD_KEEPALIVE_PARM_CHECK_PERIOD(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++
++/* _DISCONNECT_DECISION_CMD_0x04 */
++#define SET_8723B_H2CCMD_DISCONDECISION_PARM_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8723B_H2CCMD_DISCONDECISION_PARM_ADOPT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8723B_H2CCMD_DISCONDECISION_PARM_CHECK_PERIOD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8723B_H2CCMD_DISCONDECISION_PARM_TRY_PKT_NUM(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++
++/* _PWR_MOD_CMD_0x20 */
++#define SET_8723B_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723B_H2CCMD_PWRMODE_PARM_RLBM(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 4, __Value)
++#define SET_8723B_H2CCMD_PWRMODE_PARM_SMART_PS(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 4, 4, __Value)
++#define SET_8723B_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8723B_H2CCMD_PWRMODE_PARM_ALL_QUEUE_UAPSD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8723B_H2CCMD_PWRMODE_PARM_BCN_EARLY_C2H_RPT(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 2, 1, __Value)
++#define SET_8723B_H2CCMD_PWRMODE_PARM_PWR_STATE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8723B_H2CCMD_PWRMODE_PARM_BYTE5(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++#define GET_8723B_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd)					LE_BITS_TO_1BYTE(__pH2CCmd, 0, 8)
++
++/* _PS_TUNE_PARAM_CMD_0x21 */
++#define SET_8723B_H2CCMD_PSTUNE_PARM_BCN_TO_LIMIT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723B_H2CCMD_PSTUNE_PARM_DTIM_TIMEOUT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8723B_H2CCMD_PSTUNE_PARM_ADOPT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 1, __Value)
++#define SET_8723B_H2CCMD_PSTUNE_PARM_PS_TIMEOUT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 1, 7, __Value)
++#define SET_8723B_H2CCMD_PSTUNE_PARM_DTIM_PERIOD(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++
++/* _MACID_CFG_CMD_0x40 */
++#define SET_8723B_H2CCMD_MACID_CFG_MACID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_RAID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 5, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_SGI_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 7, 1, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_BW(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 2, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_NO_UPDATE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 3, 1, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_VHT_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 4, 2, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_DISPT(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 6, 1, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_DISRA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 7, 1, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_RATE_MASK0(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_RATE_MASK1(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+4, 0, 8, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_RATE_MASK2(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+5, 0, 8, __Value)
++#define SET_8723B_H2CCMD_MACID_CFG_RATE_MASK3(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+6, 0, 8, __Value)
++
++/* _RSSI_SETTING_CMD_0x42 */
++#define SET_8723B_H2CCMD_RSSI_SETTING_MACID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723B_H2CCMD_RSSI_SETTING_RSSI(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 7, __Value)
++#define SET_8723B_H2CCMD_RSSI_SETTING_ULDL_STATE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++
++/* _AP_REQ_TXRPT_CMD_0x43 */
++#define SET_8723B_H2CCMD_APREQRPT_PARM_MACID1(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723B_H2CCMD_APREQRPT_PARM_MACID2(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++
++/* _FORCE_BT_TXPWR_CMD_0x62 */
++#define SET_8723B_H2CCMD_BT_PWR_IDX(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++
++/* _FORCE_BT_MP_OPER_CMD_0x67 */
++#define SET_8723B_H2CCMD_BT_MPOPER_VER(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 4, __Value)
++#define SET_8723B_H2CCMD_BT_MPOPER_REQNUM(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 4, __Value)
++#define SET_8723B_H2CCMD_BT_MPOPER_IDX(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8723B_H2CCMD_BT_MPOPER_PARAM1(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++#define SET_8723B_H2CCMD_BT_MPOPER_PARAM2(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++#define SET_8723B_H2CCMD_BT_MPOPER_PARAM3(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+4, 0, 8, __Value)
++
++/* _BT_FW_PATCH_0x6A */
++#define SET_8723B_H2CCMD_BT_FW_PATCH_SIZE(__pH2CCmd, __Value)					SET_BITS_TO_LE_2BYTE((pu1Byte)(__pH2CCmd), 0, 16, __Value)
++#define SET_8723B_H2CCMD_BT_FW_PATCH_ADDR0(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8723B_H2CCMD_BT_FW_PATCH_ADDR1(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8723B_H2CCMD_BT_FW_PATCH_ADDR2(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8723B_H2CCMD_BT_FW_PATCH_ADDR3(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++/* ---------------------------------------------------------------------------------------------------------
++ * -------------------------------------------    Structure    --------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    Function Statement     --------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++/* host message to firmware cmd */
++void rtl8723b_set_FwPwrMode_cmd(PADAPTER padapter, u8 Mode);
++void rtl8723b_set_FwJoinBssRpt_cmd(PADAPTER padapter, u8 mstatus);
++void rtl8723b_set_rssi_cmd(PADAPTER padapter, u8 *param);
++void rtl8723b_fw_try_ap_cmd(PADAPTER padapter, u32 need_ack);
++/* s32 rtl8723b_set_lowpwr_lps_cmd(PADAPTER padapter, u8 enable); */
++void rtl8723b_set_FwPsTuneParam_cmd(PADAPTER padapter);
++void rtl8723b_set_FwMacIdConfig_cmd(_adapter *padapter, u8 mac_id, u8 raid, u8 bw, u8 sgi, u32 mask);
++void rtl8723b_set_FwBtMpOper_cmd(PADAPTER padapter, u8 idx, u8 ver, u8 reqnum, u8 *param);
++void rtl8723b_download_rsvd_page(PADAPTER padapter, u8 mstatus);
++#ifdef CONFIG_BT_COEXIST
++	void rtl8723b_download_BTCoex_AP_mode_rsvd_page(PADAPTER padapter);
++#endif /* CONFIG_BT_COEXIST */
++#ifdef CONFIG_P2P
++	void rtl8723b_set_p2p_ps_offload_cmd(PADAPTER padapter, u8 p2p_ps_state);
++#endif /* CONFIG_P2P */
++
++void CheckFwRsvdPageContent(PADAPTER padapter);
++
++#ifdef CONFIG_TDLS
++	#ifdef CONFIG_TDLS_CH_SW
++		void rtl8723b_set_BcnEarly_C2H_Rpt_cmd(PADAPTER padapter, u8 enable);
++	#endif
++#endif
++
++#ifdef CONFIG_P2P_WOWLAN
++	void rtl8723b_set_p2p_wowlan_offload_cmd(PADAPTER padapter);
++#endif
++
++void rtl8723b_set_FwPwrModeInIPS_cmd(PADAPTER padapter, u8 cmd_param);
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++	u8 rtl8723b_reset_tsf(_adapter *padapter, u8 reset_port);
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++s32 FillH2CCmd8723B(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++u8 GetTxBufferRsvdPageNum8723B(_adapter *padapter, bool wowlan);
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8723b_dm.h b/drivers/net/wireless/rtl8812au/include/rtl8723b_dm.h
+new file mode 100644
+index 0000000..a3bb7df
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8723b_dm.h
+@@ -0,0 +1,47 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723B_DM_H__
++#define __RTL8723B_DM_H__
++/* ************************************************************
++ * Description:
++ *
++ * This file is for 8723B dynamic mechanism only
++ *
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * structure and define
++ * ************************************************************ */
++
++/* ************************************************************
++ * function prototype
++ * ************************************************************ */
++
++void rtl8723b_init_dm_priv(PADAPTER padapter);
++void rtl8723b_deinit_dm_priv(PADAPTER padapter);
++
++void rtl8723b_InitHalDm(PADAPTER padapter);
++void rtl8723b_HalDmWatchDog(PADAPTER padapter);
++void rtl8723b_HalDmWatchDog_in_LPS(PADAPTER padapter);
++void rtl8723b_hal_dm_in_lps(PADAPTER padapter);
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8723b_hal.h b/drivers/net/wireless/rtl8812au/include/rtl8723b_hal.h
+new file mode 100755
+index 0000000..e6391a4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8723b_hal.h
+@@ -0,0 +1,298 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723B_HAL_H__
++#define __RTL8723B_HAL_H__
++
++#include "hal_data.h"
++
++#include "rtl8723b_spec.h"
++#include "rtl8723b_rf.h"
++#include "rtl8723b_dm.h"
++#include "rtl8723b_recv.h"
++#include "rtl8723b_xmit.h"
++#include "rtl8723b_cmd.h"
++#include "rtl8723b_led.h"
++#include "Hal8723BPwrSeq.h"
++#include "Hal8723BPhyReg.h"
++#include "Hal8723BPhyCfg.h"
++#ifdef DBG_CONFIG_ERROR_DETECT
++	#include "rtl8723b_sreset.h"
++#endif
++
++#define FW_8723B_SIZE			0x8000
++#define FW_8723B_START_ADDRESS	0x1000
++#define FW_8723B_END_ADDRESS		0x1FFF /* 0x5FFF */
++
++#define IS_FW_HEADER_EXIST_8723B(_pFwHdr)	((le16_to_cpu(_pFwHdr->Signature) & 0xFFF0) == 0x5300)
++
++typedef struct _RT_FIRMWARE {
++	FIRMWARE_SOURCE	eFWSource;
++#ifdef CONFIG_EMBEDDED_FWIMG
++	u8			*szFwBuffer;
++#else
++	u8			szFwBuffer[FW_8723B_SIZE];
++#endif
++	u32			ulFwLength;
++} RT_FIRMWARE_8723B, *PRT_FIRMWARE_8723B;
++
++/*
++ * This structure must be cared byte-ordering
++ *
++ * Added by tynli. 2009.12.04. */
++typedef struct _RT_8723B_FIRMWARE_HDR {
++	/* 8-byte alinment required */
++
++	/* --- LONG WORD 0 ---- */
++	u16		Signature;	/* 92C0: test chip; 92C, 88C0: test chip; 88C1: MP A-cut; 92C1: MP A-cut */
++	u8		Category;	/* AP/NIC and USB/PCI */
++	u8		Function;	/* Reserved for different FW function indcation, for further use when driver needs to download different FW in different conditions */
++	u16		Version;		/* FW Version */
++	u16		Subversion;	/* FW Subversion, default 0x00 */
++
++	/* --- LONG WORD 1 ---- */
++	u8		Month;	/* Release time Month field */
++	u8		Date;	/* Release time Date field */
++	u8		Hour;	/* Release time Hour field */
++	u8		Minute;	/* Release time Minute field */
++	u16		RamCodeSize;	/* The size of RAM code */
++	u16		Rsvd2;
++
++	/* --- LONG WORD 2 ---- */
++	u32		SvnIdx;	/* The SVN entry index */
++	u32		Rsvd3;
++
++	/* --- LONG WORD 3 ---- */
++	u32		Rsvd4;
++	u32		Rsvd5;
++} RT_8723B_FIRMWARE_HDR, *PRT_8723B_FIRMWARE_HDR;
++
++#define DRIVER_EARLY_INT_TIME_8723B		0x05
++#define BCN_DMA_ATIME_INT_TIME_8723B		0x02
++
++/* for 8723B
++ * TX 32K, RX 16K, Page size 128B for TX, 8B for RX */
++#define PAGE_SIZE_TX_8723B			128
++#define PAGE_SIZE_RX_8723B			8
++
++#define TX_DMA_SIZE_8723B			0x8000	/* 32K(TX) */
++#define RX_DMA_SIZE_8723B			0x4000	/* 16K(RX) */
++
++#ifdef CONFIG_WOWLAN
++	#define RESV_FMWF	(WKFMCAM_SIZE * MAX_WKFM_CAM_NUM) /* 16 entries, for each is 24 bytes*/
++#else
++	#define RESV_FMWF	0
++#endif
++
++#ifdef CONFIG_FW_C2H_DEBUG
++	#define RX_DMA_RESERVED_SIZE_8723B	0x100	/* 256B, reserved for c2h debug message */
++#else
++	#define RX_DMA_RESERVED_SIZE_8723B	0x80	/* 128B, reserved for tx report */
++#endif
++#define RX_DMA_BOUNDARY_8723B		(RX_DMA_SIZE_8723B - RX_DMA_RESERVED_SIZE_8723B - 1)
++
++
++/* Note: We will divide number of page equally for each queue other than public queue! */
++
++/* For General Reserved Page Number(Beacon Queue is reserved page)
++ * Beacon:2, PS-Poll:1, Null Data:1,Qos Null Data:1,BT Qos Null Data:1 */
++#define BCNQ_PAGE_NUM_8723B		0x08
++#ifdef CONFIG_CONCURRENT_MODE
++	#define BCNQ1_PAGE_NUM_8723B		0x08 /* 0x04 */
++#else
++	#define BCNQ1_PAGE_NUM_8723B		0x00
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++	#undef BCNQ1_PAGE_NUM_8723B
++	#define BCNQ1_PAGE_NUM_8723B		0x00 /* 0x04 */
++#endif
++
++/* For WoWLan , more reserved page
++ * ARP Rsp:1, RWC:1, GTK Info:1,GTK RSP:2,GTK EXT MEM:2, PNO: 6 */
++#ifdef CONFIG_WOWLAN
++	#define WOWLAN_PAGE_NUM_8723B	0x07
++#else
++	#define WOWLAN_PAGE_NUM_8723B	0x00
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++	#undef WOWLAN_PAGE_NUM_8723B
++	#define WOWLAN_PAGE_NUM_8723B	0x15
++#endif
++
++#ifdef CONFIG_AP_WOWLAN
++	#define AP_WOWLAN_PAGE_NUM_8723B	0x02
++#endif
++
++#define TX_TOTAL_PAGE_NUMBER_8723B	(0xFF - BCNQ_PAGE_NUM_8723B - BCNQ1_PAGE_NUM_8723B - WOWLAN_PAGE_NUM_8723B)
++#define TX_PAGE_BOUNDARY_8723B		(TX_TOTAL_PAGE_NUMBER_8723B + 1)
++
++#define WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8723B	TX_TOTAL_PAGE_NUMBER_8723B
++#define WMM_NORMAL_TX_PAGE_BOUNDARY_8723B		(WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8723B + 1)
++
++/* For Normal Chip Setting
++ * (HPQ + LPQ + NPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER_8723B */
++#define NORMAL_PAGE_NUM_HPQ_8723B		0x0C
++#define NORMAL_PAGE_NUM_LPQ_8723B		0x02
++#define NORMAL_PAGE_NUM_NPQ_8723B		0x02
++
++/* Note: For Normal Chip Setting, modify later */
++#define WMM_NORMAL_PAGE_NUM_HPQ_8723B		0x30
++#define WMM_NORMAL_PAGE_NUM_LPQ_8723B		0x20
++#define WMM_NORMAL_PAGE_NUM_NPQ_8723B		0x20
++
++
++#include "HalVerDef.h"
++#include "hal_com.h"
++
++#define EFUSE_OOB_PROTECT_BYTES		15
++
++#define HAL_EFUSE_MEMORY
++
++#define HWSET_MAX_SIZE_8723B			512
++#define EFUSE_REAL_CONTENT_LEN_8723B		512
++#define EFUSE_MAP_LEN_8723B				512
++#define EFUSE_MAX_SECTION_8723B			64
++
++#define EFUSE_IC_ID_OFFSET			506	/* For some inferiority IC purpose. added by Roger, 2009.09.02. */
++#define AVAILABLE_EFUSE_ADDR(addr)	(addr < EFUSE_REAL_CONTENT_LEN_8723B)
++
++#define EFUSE_ACCESS_ON			0x69	/* For RTL8723 only. */
++#define EFUSE_ACCESS_OFF			0x00	/* For RTL8723 only. */
++
++/* ********************************************************
++ *			EFUSE for BT definition
++ * ******************************************************** */
++#define EFUSE_BT_REAL_BANK_CONTENT_LEN	512
++#define EFUSE_BT_REAL_CONTENT_LEN		1536	/* 512*3 */
++#define EFUSE_BT_MAP_LEN				1024	/* 1k bytes */
++#define EFUSE_BT_MAX_SECTION			128		/* 1024/8 */
++
++#define EFUSE_PROTECT_BYTES_BANK		16
++
++typedef struct _C2H_EVT_HDR {
++	u8	CmdID;
++	u8	CmdLen;
++	u8	CmdSeq;
++} __attribute__((__packed__)) C2H_EVT_HDR, *PC2H_EVT_HDR;
++
++typedef enum tag_Package_Definition {
++	PACKAGE_DEFAULT,
++	PACKAGE_QFN68,
++	PACKAGE_TFBGA90,
++	PACKAGE_TFBGA80,
++	PACKAGE_TFBGA79
++} PACKAGE_TYPE_E;
++
++#define INCLUDE_MULTI_FUNC_BT(_Adapter)		(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_BT)
++#define INCLUDE_MULTI_FUNC_GPS(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_GPS)
++
++/* rtl8723a_hal_init.c */
++s32 rtl8723b_FirmwareDownload(PADAPTER padapter, BOOLEAN  bUsedWoWLANFw);
++void rtl8723b_FirmwareSelfReset(PADAPTER padapter);
++void rtl8723b_InitializeFirmwareVars(PADAPTER padapter);
++
++void rtl8723b_InitAntenna_Selection(PADAPTER padapter);
++void rtl8723b_DeinitAntenna_Selection(PADAPTER padapter);
++void rtl8723b_CheckAntenna_Selection(PADAPTER padapter);
++void rtl8723b_init_default_value(PADAPTER padapter);
++
++s32 rtl8723b_InitLLTTable(PADAPTER padapter);
++
++s32 CardDisableHWSM(PADAPTER padapter, u8 resetMCU);
++s32 CardDisableWithoutHWSM(PADAPTER padapter);
++
++/* EFuse */
++u8 GetEEPROMSize8723B(PADAPTER padapter);
++void Hal_InitPGData(PADAPTER padapter, u8 *PROMContent);
++void Hal_EfuseParseIDCode(PADAPTER padapter, u8 *hwinfo);
++void Hal_EfuseParseTxPowerInfo_8723B(PADAPTER padapter, u8 *PROMContent, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseBTCoexistInfo_8723B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseEEPROMVer_8723B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseChnlPlan_8723B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseCustomerID_8723B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseAntennaDiversity_8723B(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseXtal_8723B(PADAPTER pAdapter, u8 *hwinfo, u8 AutoLoadFail);
++void Hal_EfuseParseThermalMeter_8723B(PADAPTER padapter, u8 *hwinfo, u8 AutoLoadFail);
++VOID Hal_EfuseParsePackageType_8723B(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++VOID Hal_EfuseParseVoltage_8723B(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN	AutoLoadFail);
++VOID Hal_EfuseParseBoardType_8723B(PADAPTER Adapter,	u8	*PROMContent, BOOLEAN AutoloadFail);
++
++#ifdef CONFIG_C2H_PACKET_EN
++	void rtl8723b_c2h_packet_handler(PADAPTER padapter, u8 *pbuf, u16 length);
++#endif
++
++
++void rtl8723b_set_hal_ops(struct hal_ops *pHalFunc);
++void init_hal_spec_8723b(_adapter *adapter);
++void SetHwReg8723B(PADAPTER padapter, u8 variable, u8 *val);
++void GetHwReg8723B(PADAPTER padapter, u8 variable, u8 *val);
++#ifdef CONFIG_C2H_PACKET_EN
++	void SetHwRegWithBuf8723B(PADAPTER padapter, u8 variable, u8 *pbuf, int len);
++#endif /* CONFIG_C2H_PACKET_EN */
++u8 SetHalDefVar8723B(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++u8 GetHalDefVar8723B(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++
++/* register */
++void rtl8723b_InitBeaconParameters(PADAPTER padapter);
++void rtl8723b_InitBeaconMaxError(PADAPTER padapter, u8 InfraMode);
++void	_InitBurstPktLen_8723BS(PADAPTER Adapter);
++void _8051Reset8723(PADAPTER padapter);
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++	void Hal_DetectWoWMode(PADAPTER pAdapter);
++#endif /* CONFIG_WOWLAN */
++
++void rtl8723b_start_thread(_adapter *padapter);
++void rtl8723b_stop_thread(_adapter *padapter);
++
++#if defined(CONFIG_CHECK_BT_HANG) && defined(CONFIG_BT_COEXIST)
++	void rtl8723bs_init_checkbthang_workqueue(_adapter *adapter);
++	void rtl8723bs_free_checkbthang_workqueue(_adapter *adapter);
++	void rtl8723bs_cancle_checkbthang_workqueue(_adapter *adapter);
++	void rtl8723bs_hal_check_bt_hang(_adapter *adapter);
++#endif
++
++#ifdef CONFIG_GPIO_WAKEUP
++	void HalSetOutPutGPIO(PADAPTER padapter, u8 index, u8 OutPutValue);
++#endif
++#ifdef CONFIG_MP_INCLUDED
++int FirmwareDownloadBT(IN PADAPTER Adapter, PRT_MP_FIRMWARE pFirmware);
++#endif
++void CCX_FwC2HTxRpt_8723b(PADAPTER padapter, u8 *pdata, u8 len);
++s32 c2h_id_filter_ccx_8723b(u8 *buf);
++s32 c2h_handler_8723b(PADAPTER padapter, u8 *pC2hEvent);
++u8 MRateToHwRate8723B(u8  rate);
++u8 HwRateToMRate8723B(u8	 rate);
++
++#ifdef CONFIG_RF_POWER_TRIM
++	void Hal_ReadRFGainOffset(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++#endif /*CONFIG_RF_POWER_TRIM*/
++
++#ifdef CONFIG_PCI_HCI
++	BOOLEAN	InterruptRecognized8723BE(PADAPTER Adapter);
++	VOID	UpdateInterruptMask8723BE(PADAPTER Adapter, u32 AddMSR, u32 AddMSR1, u32 RemoveMSR, u32 RemoveMSR1);
++#endif
++
++#ifdef CONFIG_GPIO_API
++int rtl8723b_GpioFuncCheck(PADAPTER adapter, u8 gpio_num);
++VOID rtl8723b_GpioMultiFuncReset(PADAPTER adapter, u8 gpio_num);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8723b_led.h b/drivers/net/wireless/rtl8812au/include/rtl8723b_led.h
+new file mode 100755
+index 0000000..0a7b2c9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8723b_led.h
+@@ -0,0 +1,48 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723B_LED_H__
++#define __RTL8723B_LED_H__
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++
++/* ********************************************************************************
++ * Interface to manipulate LED objects.
++ * ******************************************************************************** */
++#ifdef CONFIG_USB_HCI
++	void rtl8723bu_InitSwLeds(PADAPTER padapter);
++	void rtl8723bu_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_SDIO_HCI
++	void rtl8723bs_InitSwLeds(PADAPTER padapter);
++	void rtl8723bs_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_GSPI_HCI
++	void rtl8723bs_InitSwLeds(PADAPTER padapter);
++	void rtl8723bs_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_PCI_HCI
++	void rtl8723be_InitSwLeds(PADAPTER padapter);
++	void rtl8723be_DeInitSwLeds(PADAPTER padapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8723b_recv.h b/drivers/net/wireless/rtl8812au/include/rtl8723b_recv.h
+new file mode 100755
+index 0000000..fd9faef
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8723b_recv.h
+@@ -0,0 +1,91 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723B_RECV_H__
++#define __RTL8723B_RECV_H__
++
++#define RECV_BLK_SZ 512
++#define RECV_BLK_CNT 16
++#define RECV_BLK_TH RECV_BLK_CNT
++
++#if defined(CONFIG_USB_HCI)
++
++	#ifndef MAX_RECVBUF_SZ
++		#ifdef PLATFORM_OS_CE
++			#define MAX_RECVBUF_SZ (8192+1024) /* 8K+1k */
++		#else
++			#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++				/* #define MAX_RECVBUF_SZ (32768) */ /* 32k */
++				/* #define MAX_RECVBUF_SZ (16384) */ /* 16K */
++				/* #define MAX_RECVBUF_SZ (10240) */ /* 10K */
++				#ifdef CONFIG_PLATFORM_MSTAR
++					#define MAX_RECVBUF_SZ (8192) /* 8K */
++				#else
++					#define MAX_RECVBUF_SZ (15360) /* 15k < 16k */
++				#endif
++				/* #define MAX_RECVBUF_SZ (8192+1024) */ /* 8K+1k */
++			#else
++				#define MAX_RECVBUF_SZ (4000) /* about 4K */
++			#endif
++		#endif
++	#endif /* !MAX_RECVBUF_SZ */
++
++#elif defined(CONFIG_PCI_HCI)
++	/* #ifndef CONFIG_MINIMAL_MEMORY_USAGE */
++	/*	#define MAX_RECVBUF_SZ (9100) */
++	/* #else */
++	#define MAX_RECVBUF_SZ (4000) /* about 4K
++	* #endif */
++
++
++#elif defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++
++	#define MAX_RECVBUF_SZ  (RX_DMA_SIZE_8723B - RX_DMA_RESERVED_SIZE_8723B)
++
++#endif
++
++/* Rx smooth factor */
++#define	Rx_Smooth_Factor (20)
++
++#ifdef CONFIG_SDIO_HCI
++	#ifndef CONFIG_SDIO_RX_COPY
++		#undef MAX_RECVBUF_SZ
++		#define MAX_RECVBUF_SZ	(RX_DMA_SIZE_8723B - RX_DMA_RESERVED_SIZE_8723B)
++	#endif /* !CONFIG_SDIO_RX_COPY */
++#endif /* CONFIG_SDIO_HCI */
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	s32 rtl8723bs_init_recv_priv(PADAPTER padapter);
++	void rtl8723bs_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_USB_HCI
++	int rtl8723bu_init_recv_priv(_adapter *padapter);
++	void rtl8723bu_free_recv_priv(_adapter *padapter);
++	void rtl8723bu_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8723be_init_recv_priv(PADAPTER padapter);
++	void rtl8723be_free_recv_priv(PADAPTER padapter);
++#endif
++
++void rtl8723b_query_rx_desc_status(union recv_frame *precvframe, u8 *pdesc);
++
++#endif /* __RTL8723B_RECV_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8723b_rf.h b/drivers/net/wireless/rtl8812au/include/rtl8723b_rf.h
+new file mode 100644
+index 0000000..bf56dde
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8723b_rf.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723B_RF_H__
++#define __RTL8723B_RF_H__
++
++int	PHY_RF6052_Config8723B(IN	PADAPTER		Adapter);
++
++VOID
++PHY_RF6052SetBandwidth8723B(
++	IN	PADAPTER				Adapter,
++	IN	CHANNEL_WIDTH		Bandwidth);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8723b_spec.h b/drivers/net/wireless/rtl8812au/include/rtl8723b_spec.h
+new file mode 100755
+index 0000000..85b9d1e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8723b_spec.h
+@@ -0,0 +1,296 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#ifndef __RTL8723B_SPEC_H__
++#define __RTL8723B_SPEC_H__
++
++#include <drv_conf.h>
++
++
++#define HAL_NAV_UPPER_UNIT_8723B		128		/* micro-second */
++
++/* -----------------------------------------------------
++ *
++ *	0x0000h ~ 0x00FFh	System Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RSV_CTRL_8723B				0x001C	/* 3 Byte */
++#define REG_BT_WIFI_ANTENNA_SWITCH_8723B	0x0038
++#define REG_HSISR_8723B					0x005c
++#define REG_PAD_CTRL1_8723B		0x0064
++#define REG_AFE_CTRL_4_8723B		0x0078
++#define REG_HMEBOX_DBG_0_8723B	0x0088
++#define REG_HMEBOX_DBG_1_8723B	0x008A
++#define REG_HMEBOX_DBG_2_8723B	0x008C
++#define REG_HMEBOX_DBG_3_8723B	0x008E
++#define REG_HIMR0_8723B					0x00B0
++#define REG_HISR0_8723B					0x00B4
++#define REG_HIMR1_8723B					0x00B8
++#define REG_HISR1_8723B					0x00BC
++#define REG_PMC_DBG_CTRL2_8723B			0x00CC
++
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_C2HEVT_CMD_ID_8723B	0x01A0
++#define REG_C2HEVT_CMD_LEN_8723B	0x01AE
++#define REG_WOWLAN_WAKE_REASON 0x01C7
++#define REG_WOWLAN_GTK_DBG1	0x630
++#define REG_WOWLAN_GTK_DBG2	0x634
++
++#define REG_HMEBOX_EXT0_8723B			0x01F0
++#define REG_HMEBOX_EXT1_8723B			0x01F4
++#define REG_HMEBOX_EXT2_8723B			0x01F8
++#define REG_HMEBOX_EXT3_8723B			0x01FC
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RXDMA_CONTROL_8723B		0x0286 /* Control the RX DMA. */
++#define REG_RXDMA_MODE_CTRL_8723B		0x0290
++
++/* -----------------------------------------------------
++ *
++ *	0x0300h ~ 0x03FFh	PCIe
++ *
++ * ----------------------------------------------------- */
++#define	REG_PCIE_CTRL_REG_8723B		0x0300
++#define	REG_INT_MIG_8723B				0x0304	/* Interrupt Migration */
++#define	REG_BCNQ_DESA_8723B			0x0308	/* TX Beacon Descriptor Address */
++#define	REG_HQ_DESA_8723B				0x0310	/* TX High Queue Descriptor Address */
++#define	REG_MGQ_DESA_8723B			0x0318	/* TX Manage Queue Descriptor Address */
++#define	REG_VOQ_DESA_8723B			0x0320	/* TX VO Queue Descriptor Address */
++#define	REG_VIQ_DESA_8723B				0x0328	/* TX VI Queue Descriptor Address */
++#define	REG_BEQ_DESA_8723B			0x0330	/* TX BE Queue Descriptor Address */
++#define	REG_BKQ_DESA_8723B			0x0338	/* TX BK Queue Descriptor Address */
++#define	REG_RX_DESA_8723B				0x0340	/* RX Queue	Descriptor Address */
++#define	REG_DBI_WDATA_8723B			0x0348	/* DBI Write Data */
++#define	REG_DBI_RDATA_8723B			0x034C	/* DBI Read Data */
++#define	REG_DBI_ADDR_8723B				0x0350	/* DBI Address */
++#define	REG_DBI_FLAG_8723B				0x0352	/* DBI Read/Write Flag */
++#define	REG_MDIO_WDATA_8723B		0x0354	/* MDIO for Write PCIE PHY */
++#define	REG_MDIO_RDATA_8723B			0x0356	/* MDIO for Reads PCIE PHY */
++#define	REG_MDIO_CTL_8723B			0x0358	/* MDIO for Control */
++#define	REG_DBG_SEL_8723B				0x0360	/* Debug Selection Register */
++#define	REG_PCIE_HRPWM_8723B			0x0361	/* PCIe RPWM */
++#define	REG_PCIE_HCPWM_8723B			0x0363	/* PCIe CPWM */
++#define	REG_PCIE_MULTIFET_CTRL_8723B	0x036A	/* PCIE Multi-Fethc Control */
++
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_TXPKTBUF_BCNQ_BDNY_8723B	0x0424
++#define REG_TXPKTBUF_MGQ_BDNY_8723B	0x0425
++#define REG_TXPKTBUF_WMAC_LBK_BF_HD_8723B	0x045D
++#ifdef CONFIG_WOWLAN
++	#define REG_TXPKTBUF_IV_LOW             0x0484
++	#define REG_TXPKTBUF_IV_HIGH            0x0488
++#endif
++#define REG_AMPDU_BURST_MODE_8723B	0x04BC
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_SECONDARY_CCA_CTRL_8723B	0x0577
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++
++
++/* ************************************************************
++ * SDIO Bus Specification
++ * ************************************************************ */
++
++/* -----------------------------------------------------
++ * SDIO CMD Address Mapping
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * I/O bus domain (Host)
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * SDIO register
++ * ----------------------------------------------------- */
++#define SDIO_REG_HCPWM1_8723B	0x025 /* HCI Current Power Mode 1 */
++
++
++/* ****************************************************************************
++ *	8723 Regsiter Bit and Content definition
++ * **************************************************************************** */
++
++/* 2 HSISR
++ * interrupt mask which needs to clear */
++#define MASK_HSISR_CLEAR		(HSISR_GPIO12_0_INT |\
++		HSISR_SPS_OCP_INT |\
++		HSISR_RON_INT |\
++		HSISR_PDNINT |\
++		HSISR_GPIO9_INT)
++
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++#undef IS_E_CUT
++#define IS_E_CUT(version)		FALSE
++#undef IS_F_CUT
++#define IS_F_CUT(version)		((GET_CVID_CUT_VERSION(version) == E_CUT_VERSION) ? TRUE : FALSE)
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define BIT_USB_RXDMA_AGG_EN	BIT(31)
++#define RXDMA_AGG_MODE_EN		BIT(1)
++
++#ifdef CONFIG_WOWLAN
++	#define RXPKT_RELEASE_POLL		BIT(16)
++	#define RXDMA_IDLE				BIT(17)
++	#define RW_RELEASE_EN			BIT(18)
++#endif
++
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* ----------------------------------------------------------------------------
++ * 8723B REG_CCK_CHECK						(offset 0x454)
++ * ---------------------------------------------------------------------------- */
++#define BIT_BCN_PORT_SEL		BIT5
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++#ifdef CONFIG_RF_POWER_TRIM
++
++	#ifdef CONFIG_RTL8723B
++		#define EEPROM_RF_GAIN_OFFSET			0xC1
++	#endif
++
++	#define EEPROM_RF_GAIN_VAL				0x1F6
++#endif /*CONFIG_RF_POWER_TRIM*/
++
++
++/* ----------------------------------------------------------------------------
++ * 8195 IMR/ISR bits						(offset 0xB0,  8bits)
++ * ---------------------------------------------------------------------------- */
++#define	IMR_DISABLED_8723B					0
++/* IMR DW0(0x00B0-00B3) Bit 0-31 */
++#define	IMR_TIMER2_8723B					BIT31		/* Timeout interrupt 2 */
++#define	IMR_TIMER1_8723B					BIT30		/* Timeout interrupt 1	 */
++#define	IMR_PSTIMEOUT_8723B				BIT29		/* Power Save Time Out Interrupt */
++#define	IMR_GTINT4_8723B					BIT28		/* When GTIMER4 expires, this bit is set to 1	 */
++#define	IMR_GTINT3_8723B					BIT27		/* When GTIMER3 expires, this bit is set to 1	 */
++#define	IMR_TXBCN0ERR_8723B				BIT26		/* Transmit Beacon0 Error			 */
++#define	IMR_TXBCN0OK_8723B				BIT25		/* Transmit Beacon0 OK			 */
++#define	IMR_TSF_BIT32_TOGGLE_8723B		BIT24		/* TSF Timer BIT32 toggle indication interrupt			 */
++#define	IMR_BCNDMAINT0_8723B				BIT20		/* Beacon DMA Interrupt 0			 */
++#define	IMR_BCNDERR0_8723B				BIT16		/* Beacon Queue DMA OK0			 */
++#define	IMR_HSISR_IND_ON_INT_8723B		BIT15		/* HSISR Indicator (HSIMR & HSISR is true, this bit is set to 1) */
++#define	IMR_BCNDMAINT_E_8723B			BIT14		/* Beacon DMA Interrupt Extension for Win7			 */
++#define	IMR_ATIMEND_8723B				BIT12		/* CTWidnow End or ATIM Window End */
++#define	IMR_C2HCMD_8723B					BIT10		/* CPU to Host Command INT Status, Write 1 clear	 */
++#define	IMR_CPWM2_8723B					BIT9			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_CPWM_8723B					BIT8			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_HIGHDOK_8723B				BIT7			/* High Queue DMA OK	 */
++#define	IMR_MGNTDOK_8723B				BIT6			/* Management Queue DMA OK	 */
++#define	IMR_BKDOK_8723B					BIT5			/* AC_BK DMA OK		 */
++#define	IMR_BEDOK_8723B					BIT4			/* AC_BE DMA OK	 */
++#define	IMR_VIDOK_8723B					BIT3			/* AC_VI DMA OK		 */
++#define	IMR_VODOK_8723B					BIT2			/* AC_VO DMA OK	 */
++#define	IMR_RDU_8723B					BIT1			/* Rx Descriptor Unavailable	 */
++#define	IMR_ROK_8723B					BIT0			/* Receive DMA OK */
++
++/* IMR DW1(0x00B4-00B7) Bit 0-31 */
++#define	IMR_BCNDMAINT7_8723B				BIT27		/* Beacon DMA Interrupt 7 */
++#define	IMR_BCNDMAINT6_8723B				BIT26		/* Beacon DMA Interrupt 6 */
++#define	IMR_BCNDMAINT5_8723B				BIT25		/* Beacon DMA Interrupt 5 */
++#define	IMR_BCNDMAINT4_8723B				BIT24		/* Beacon DMA Interrupt 4 */
++#define	IMR_BCNDMAINT3_8723B				BIT23		/* Beacon DMA Interrupt 3 */
++#define	IMR_BCNDMAINT2_8723B				BIT22		/* Beacon DMA Interrupt 2 */
++#define	IMR_BCNDMAINT1_8723B				BIT21		/* Beacon DMA Interrupt 1 */
++#define	IMR_BCNDOK7_8723B					BIT20		/* Beacon Queue DMA OK Interrup 7 */
++#define	IMR_BCNDOK6_8723B					BIT19		/* Beacon Queue DMA OK Interrup 6 */
++#define	IMR_BCNDOK5_8723B					BIT18		/* Beacon Queue DMA OK Interrup 5 */
++#define	IMR_BCNDOK4_8723B					BIT17		/* Beacon Queue DMA OK Interrup 4 */
++#define	IMR_BCNDOK3_8723B					BIT16		/* Beacon Queue DMA OK Interrup 3 */
++#define	IMR_BCNDOK2_8723B					BIT15		/* Beacon Queue DMA OK Interrup 2 */
++#define	IMR_BCNDOK1_8723B					BIT14		/* Beacon Queue DMA OK Interrup 1 */
++#define	IMR_ATIMEND_E_8723B				BIT13		/* ATIM Window End Extension for Win7 */
++#define	IMR_TXERR_8723B					BIT11		/* Tx Error Flag Interrupt Status, write 1 clear. */
++#define	IMR_RXERR_8723B					BIT10		/* Rx Error Flag INT Status, Write 1 clear */
++#define	IMR_TXFOVW_8723B					BIT9			/* Transmit FIFO Overflow */
++#define	IMR_RXFOVW_8723B					BIT8			/* Receive FIFO Overflow */
++
++#ifdef CONFIG_PCI_HCI
++	/* #define IMR_RX_MASK		(IMR_ROK_8723B|IMR_RDU_8723B|IMR_RXFOVW_8723B) */
++	#define IMR_TX_MASK			(IMR_VODOK_8723B | IMR_VIDOK_8723B | IMR_BEDOK_8723B | IMR_BKDOK_8723B | IMR_MGNTDOK_8723B | IMR_HIGHDOK_8723B)
++
++	#define RT_BCN_INT_MASKS	(IMR_BCNDMAINT0_8723B | IMR_TXBCN0OK_8723B | IMR_TXBCN0ERR_8723B | IMR_BCNDERR0_8723B)
++
++	#define RT_AC_INT_MASKS	(IMR_VIDOK_8723B | IMR_VODOK_8723B | IMR_BEDOK_8723B | IMR_BKDOK_8723B)
++#endif
++
++/* ********************************************************
++ * General definitions
++ * ******************************************************** */
++
++#define MACID_NUM_8723B 128
++#define SEC_CAM_ENT_NUM_8723B 64
++#define HW_PORT_NUM_8723B	2
++#define NSS_NUM_8723B 1
++#define BAND_CAP_8723B (BAND_CAP_2G)
++#define BW_CAP_8723B (BW_CAP_20M | BW_CAP_40M)
++#define PROTO_CAP_8723B (PROTO_CAP_11B | PROTO_CAP_11G | PROTO_CAP_11N)
++
++#endif /* __RTL8723B_SPEC_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8723b_sreset.h b/drivers/net/wireless/rtl8812au/include/rtl8723b_sreset.h
+new file mode 100644
+index 0000000..8067359
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8723b_sreset.h
+@@ -0,0 +1,29 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8723B_SRESET_H_
++#define _RTL8723B_SRESET_H_
++
++#include <rtw_sreset.h>
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	extern void rtl8723b_sreset_xmit_status_check(_adapter *padapter);
++	extern void rtl8723b_sreset_linked_status_check(_adapter *padapter);
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8723b_xmit.h b/drivers/net/wireless/rtl8812au/include/rtl8723b_xmit.h
+new file mode 100755
+index 0000000..7cc33e1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8723b_xmit.h
+@@ -0,0 +1,338 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723B_XMIT_H__
++#define __RTL8723B_XMIT_H__
++
++
++#define MAX_TID (15)
++
++
++#ifndef __INC_HAL8723BDESC_H
++	#define __INC_HAL8723BDESC_H
++
++	#define RX_STATUS_DESC_SIZE_8723B		24
++	#define RX_DRV_INFO_SIZE_UNIT_8723B 8
++
++
++	/* DWORD 0 */
++	#define SET_RX_STATUS_DESC_PKT_LEN_8723B(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++	#define SET_RX_STATUS_DESC_EOR_8723B(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 30, 1, __Value)
++	#define SET_RX_STATUS_DESC_OWN_8723B(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 31, 1, __Value)
++
++	#define GET_RX_STATUS_DESC_PKT_LEN_8723B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 0, 14)
++	#define GET_RX_STATUS_DESC_CRC32_8723B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 14, 1)
++	#define GET_RX_STATUS_DESC_ICV_8723B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++	#define GET_RX_STATUS_DESC_DRVINFO_SIZE_8723B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 4)
++	#define GET_RX_STATUS_DESC_SECURITY_8723B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 20, 3)
++	#define GET_RX_STATUS_DESC_QOS_8723B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 23, 1)
++	#define GET_RX_STATUS_DESC_SHIFT_8723B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 24, 2)
++	#define GET_RX_STATUS_DESC_PHY_STATUS_8723B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 26, 1)
++	#define GET_RX_STATUS_DESC_SWDEC_8723B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 27, 1)
++	#define GET_RX_STATUS_DESC_LAST_SEG_8723B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 28, 1)
++	#define GET_RX_STATUS_DESC_FIRST_SEG_8723B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 29, 1)
++	#define GET_RX_STATUS_DESC_EOR_8723B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 30, 1)
++	#define GET_RX_STATUS_DESC_OWN_8723B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 31, 1)
++
++	/* DWORD 1 */
++	#define GET_RX_STATUS_DESC_MACID_8723B(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 0, 7)
++	#define GET_RX_STATUS_DESC_TID_8723B(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 8, 4)
++	#define GET_RX_STATUS_DESC_AMSDU_8723B(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 13, 1)
++	#define GET_RX_STATUS_DESC_RXID_MATCH_8723B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+4, 14, 1)
++	#define GET_RX_STATUS_DESC_PAGGR_8723B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 15, 1)
++	#define GET_RX_STATUS_DESC_A1_FIT_8723B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 16, 4)
++	#define GET_RX_STATUS_DESC_CHKERR_8723B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 20, 1)
++	#define GET_RX_STATUS_DESC_IPVER_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 21, 1)
++	#define GET_RX_STATUS_DESC_IS_TCPUDP__8723B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+4, 22, 1)
++	#define GET_RX_STATUS_DESC_CHK_VLD_8723B(__pRxDesc)	LE_BITS_TO_4BYTE(__pRxDesc+4, 23, 1)
++	#define GET_RX_STATUS_DESC_PAM_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 24, 1)
++	#define GET_RX_STATUS_DESC_PWR_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 25, 1)
++	#define GET_RX_STATUS_DESC_MORE_DATA_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 26, 1)
++	#define GET_RX_STATUS_DESC_MORE_FRAG_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 27, 1)
++	#define GET_RX_STATUS_DESC_TYPE_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 28, 2)
++	#define GET_RX_STATUS_DESC_MC_8723B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 30, 1)
++	#define GET_RX_STATUS_DESC_BC_8723B(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 31, 1)
++
++	/* DWORD 2 */
++	#define GET_RX_STATUS_DESC_SEQ_8723B(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 0, 12)
++	#define GET_RX_STATUS_DESC_FRAG_8723B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 12, 4)
++	#define GET_RX_STATUS_DESC_RX_IS_QOS_8723B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 16, 1)
++	#define GET_RX_STATUS_DESC_WLANHD_IV_LEN_8723B(__pRxStatusDesc)	LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 18, 6)
++	#define GET_RX_STATUS_DESC_RPT_SEL_8723B(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 28, 1)
++
++	/* DWORD 3 */
++	#define GET_RX_STATUS_DESC_RX_RATE_8723B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 0, 7)
++	#define GET_RX_STATUS_DESC_HTC_8723B(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 10, 1)
++	#define GET_RX_STATUS_DESC_EOSP_8723B(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 11, 1)
++	#define GET_RX_STATUS_DESC_BSSID_FIT_8723B(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 12, 2)
++	#ifdef CONFIG_USB_RX_AGGREGATION
++		#define GET_RX_STATUS_DESC_USB_AGG_PKTNUM_8723B(__pRxStatusDesc)	LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 16, 8)
++	#endif
++	#define GET_RX_STATUS_DESC_PATTERN_MATCH_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 29, 1)
++	#define GET_RX_STATUS_DESC_UNICAST_MATCH_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 30, 1)
++	#define GET_RX_STATUS_DESC_MAGIC_MATCH_8723B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+12, 31, 1)
++
++	/* DWORD 6 */
++	#define GET_RX_STATUS_DESC_SPLCP_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 0, 1)
++	#define GET_RX_STATUS_DESC_LDPC_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 1, 1)
++	#define GET_RX_STATUS_DESC_STBC_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 2, 1)
++	#define GET_RX_STATUS_DESC_BW_8723B(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 4, 2)
++
++	/* DWORD 5 */
++	#define GET_RX_STATUS_DESC_TSFL_8723B(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+20, 0, 32)
++
++	#define GET_RX_STATUS_DESC_BUFF_ADDR_8723B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+24, 0, 32)
++	#define GET_RX_STATUS_DESC_BUFF_ADDR64_8723B(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+28, 0, 32)
++
++	#define SET_RX_STATUS_DESC_BUFF_ADDR_8723B(__pRxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pRxDesc+24, 0, 32, __Value)
++
++
++	/* Dword 0 */
++	#define GET_TX_DESC_OWN_8723B(__pTxDesc)				LE_BITS_TO_4BYTE(__pTxDesc, 31, 1)
++
++	#define SET_TX_DESC_PKT_SIZE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 16, __Value)
++	#define SET_TX_DESC_OFFSET_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 8, __Value)
++	#define SET_TX_DESC_BMC_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 24, 1, __Value)
++	#define SET_TX_DESC_HTC_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 25, 1, __Value)
++	#define SET_TX_DESC_LAST_SEG_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 26, 1, __Value)
++	#define SET_TX_DESC_FIRST_SEG_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 27, 1, __Value)
++	#define SET_TX_DESC_LINIP_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 28, 1, __Value)
++	#define SET_TX_DESC_NO_ACM_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 29, 1, __Value)
++	#define SET_TX_DESC_GF_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 30, 1, __Value)
++	#define SET_TX_DESC_OWN_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 31, 1, __Value)
++
++	/* Dword 1 */
++	#define SET_TX_DESC_MACID_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 7, __Value)
++	#define SET_TX_DESC_QUEUE_SEL_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 8, 5, __Value)
++	#define SET_TX_DESC_RDG_NAV_EXT_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 13, 1, __Value)
++	#define SET_TX_DESC_LSIG_TXOP_EN_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 14, 1, __Value)
++	#define SET_TX_DESC_PIFS_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 15, 1, __Value)
++	#define SET_TX_DESC_RATE_ID_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 16, 5, __Value)
++	#define SET_TX_DESC_EN_DESC_ID_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 21, 1, __Value)
++	#define SET_TX_DESC_SEC_TYPE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 22, 2, __Value)
++	#define SET_TX_DESC_PKT_OFFSET_8723B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 24, 5, __Value)
++
++
++	/* Dword 2 */
++	#define SET_TX_DESC_PAID_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 0,  9, __Value)
++	#define SET_TX_DESC_CCA_RTS_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 10, 2, __Value)
++	#define SET_TX_DESC_AGG_ENABLE_8723B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 12, 1, __Value)
++	#define SET_TX_DESC_RDG_ENABLE_8723B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 13, 1, __Value)
++	#define SET_TX_DESC_AGG_BREAK_8723B(__pTxDesc, __Value)				SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 16, 1, __Value)
++	#define SET_TX_DESC_MORE_FRAG_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 17, 1, __Value)
++	#define SET_TX_DESC_RAW_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 18, 1, __Value)
++	#define SET_TX_DESC_SPE_RPT_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 19, 1, __Value)
++	#define SET_TX_DESC_AMPDU_DENSITY_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 20, 3, __Value)
++	#define SET_TX_DESC_BT_INT_8723B(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 23, 1, __Value)
++	#define SET_TX_DESC_GID_8723B(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 24, 6, __Value)
++
++
++	/* Dword 3 */
++	#define SET_TX_DESC_WHEADER_LEN_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 0, 4, __Value)
++	#define SET_TX_DESC_CHK_EN_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 4, 1, __Value)
++	#define SET_TX_DESC_EARLY_MODE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 5, 1, __Value)
++	#define SET_TX_DESC_HWSEQ_SEL_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 6, 2, __Value)
++	#define SET_TX_DESC_USE_RATE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 8, 1, __Value)
++	#define SET_TX_DESC_DISABLE_RTS_FB_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 9, 1, __Value)
++	#define SET_TX_DESC_DISABLE_FB_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 10, 1, __Value)
++	#define SET_TX_DESC_CTS2SELF_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 11, 1, __Value)
++	#define SET_TX_DESC_RTS_ENABLE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 12, 1, __Value)
++	#define SET_TX_DESC_HW_RTS_ENABLE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 13, 1, __Value)
++	#define SET_TX_DESC_NAV_USE_HDR_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 15, 1, __Value)
++	#define SET_TX_DESC_USE_MAX_LEN_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 16, 1, __Value)
++	#define SET_TX_DESC_MAX_AGG_NUM_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 17, 5, __Value)
++	#define SET_TX_DESC_NDPA_8723B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 22, 2, __Value)
++	#define SET_TX_DESC_AMPDU_MAX_TIME_8723B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 24, 8, __Value)
++
++	/* Dword 4 */
++	#define SET_TX_DESC_TX_RATE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 0, 7, __Value)
++	#define SET_TX_DESC_DATA_RATE_FB_LIMIT_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 8, 5, __Value)
++	#define SET_TX_DESC_RTS_RATE_FB_LIMIT_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 13, 4, __Value)
++	#define SET_TX_DESC_RETRY_LIMIT_ENABLE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 17, 1, __Value)
++	#define SET_TX_DESC_DATA_RETRY_LIMIT_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 18, 6, __Value)
++	#define SET_TX_DESC_RTS_RATE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 24, 5, __Value)
++
++
++	/* Dword 5 */
++	#define SET_TX_DESC_DATA_SC_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 0, 4, __Value)
++	#define SET_TX_DESC_DATA_SHORT_8723B(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 4, 1, __Value)
++	#define SET_TX_DESC_DATA_BW_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 5, 2, __Value)
++	#define SET_TX_DESC_DATA_LDPC_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 7, 1, __Value)
++	#define SET_TX_DESC_DATA_STBC_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 8, 2, __Value)
++	#define SET_TX_DESC_CTROL_STBC_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 10, 2, __Value)
++	#define SET_TX_DESC_RTS_SHORT_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 12, 1, __Value)
++	#define SET_TX_DESC_RTS_SC_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 13, 4, __Value)
++
++
++	/* Dword 6 */
++	#define SET_TX_DESC_SW_DEFINE_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 0, 12, __Value)
++	#define SET_TX_DESC_MBSSID_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 12, 4, __Value)
++	#define SET_TX_DESC_ANTSEL_A_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 16, 3, __Value)
++	#define SET_TX_DESC_ANTSEL_B_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 19, 3, __Value)
++	#define SET_TX_DESC_ANTSEL_C_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 22, 3, __Value)
++	#define SET_TX_DESC_ANTSEL_D_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 25, 3, __Value)
++
++	/* Dword 7 */
++	#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++		#define SET_TX_DESC_TX_BUFFER_SIZE_8723B(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++	#else
++		#define SET_TX_DESC_TX_DESC_CHECKSUM_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++	#endif
++	#define SET_TX_DESC_USB_TXAGG_NUM_8723B(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 24, 8, __Value)
++	#if (DEV_BUS_TYPE == RT_SDIO_INTERFACE)
++		#define SET_TX_DESC_SDIO_TXSEQ_8723B(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 16, 8, __Value)
++	#endif
++
++	/* Dword 8 */
++	#define SET_TX_DESC_HWSEQ_EN_8723B(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 15, 1, __Value)
++
++	/* Dword 9 */
++	#define SET_TX_DESC_SEQ_8723B(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 12, 12, __Value)
++
++	/* Dword 10 */
++	#define SET_TX_DESC_TX_BUFFER_ADDRESS_8723B(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+40, 0, 32, __Value)
++	#define GET_TX_DESC_TX_BUFFER_ADDRESS_8723B(__pTxDesc)	LE_BITS_TO_4BYTE(__pTxDesc+40, 0, 32)
++
++	/* Dword 11 */
++	#define SET_TX_DESC_NEXT_DESC_ADDRESS_8723B(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+48, 0, 32, __Value)
++
++
++	#define SET_EARLYMODE_PKTNUM_8723B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 0, 4, __Value)
++	#define SET_EARLYMODE_LEN0_8723B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 4, 15, __Value)
++	#define SET_EARLYMODE_LEN1_1_8723B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 19, 13, __Value)
++	#define SET_EARLYMODE_LEN1_2_8723B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 2, __Value)
++	#define SET_EARLYMODE_LEN2_8723B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 2, 15,	__Value)
++	#define SET_EARLYMODE_LEN3_8723B(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 17, 15, __Value)
++
++#endif
++/* -----------------------------------------------------------
++ *
++ *	Rate
++ *
++ * -----------------------------------------------------------
++ * CCK Rates, TxHT = 0 */
++#define DESC8723B_RATE1M				0x00
++#define DESC8723B_RATE2M				0x01
++#define DESC8723B_RATE5_5M				0x02
++#define DESC8723B_RATE11M				0x03
++
++/* OFDM Rates, TxHT = 0 */
++#define DESC8723B_RATE6M				0x04
++#define DESC8723B_RATE9M				0x05
++#define DESC8723B_RATE12M				0x06
++#define DESC8723B_RATE18M				0x07
++#define DESC8723B_RATE24M				0x08
++#define DESC8723B_RATE36M				0x09
++#define DESC8723B_RATE48M				0x0a
++#define DESC8723B_RATE54M				0x0b
++
++/* MCS Rates, TxHT = 1 */
++#define DESC8723B_RATEMCS0				0x0c
++#define DESC8723B_RATEMCS1				0x0d
++#define DESC8723B_RATEMCS2				0x0e
++#define DESC8723B_RATEMCS3				0x0f
++#define DESC8723B_RATEMCS4				0x10
++#define DESC8723B_RATEMCS5				0x11
++#define DESC8723B_RATEMCS6				0x12
++#define DESC8723B_RATEMCS7				0x13
++#define DESC8723B_RATEMCS8				0x14
++#define DESC8723B_RATEMCS9				0x15
++#define DESC8723B_RATEMCS10		0x16
++#define DESC8723B_RATEMCS11		0x17
++#define DESC8723B_RATEMCS12		0x18
++#define DESC8723B_RATEMCS13		0x19
++#define DESC8723B_RATEMCS14		0x1a
++#define DESC8723B_RATEMCS15		0x1b
++#define DESC8723B_RATEVHTSS1MCS0		0x2c
++#define DESC8723B_RATEVHTSS1MCS1		0x2d
++#define DESC8723B_RATEVHTSS1MCS2		0x2e
++#define DESC8723B_RATEVHTSS1MCS3		0x2f
++#define DESC8723B_RATEVHTSS1MCS4		0x30
++#define DESC8723B_RATEVHTSS1MCS5		0x31
++#define DESC8723B_RATEVHTSS1MCS6		0x32
++#define DESC8723B_RATEVHTSS1MCS7		0x33
++#define DESC8723B_RATEVHTSS1MCS8		0x34
++#define DESC8723B_RATEVHTSS1MCS9		0x35
++#define DESC8723B_RATEVHTSS2MCS0		0x36
++#define DESC8723B_RATEVHTSS2MCS1		0x37
++#define DESC8723B_RATEVHTSS2MCS2		0x38
++#define DESC8723B_RATEVHTSS2MCS3		0x39
++#define DESC8723B_RATEVHTSS2MCS4		0x3a
++#define DESC8723B_RATEVHTSS2MCS5		0x3b
++#define DESC8723B_RATEVHTSS2MCS6		0x3c
++#define DESC8723B_RATEVHTSS2MCS7		0x3d
++#define DESC8723B_RATEVHTSS2MCS8		0x3e
++#define DESC8723B_RATEVHTSS2MCS9		0x3f
++
++
++#define	RX_HAL_IS_CCK_RATE_8723B(pDesc)\
++	(GET_RX_STATUS_DESC_RX_RATE_8723B(pDesc) == DESC8723B_RATE1M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8723B(pDesc) == DESC8723B_RATE2M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8723B(pDesc) == DESC8723B_RATE5_5M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8723B(pDesc) == DESC8723B_RATE11M)
++
++
++void rtl8723b_update_txdesc(struct xmit_frame *pxmitframe, u8 *pmem);
++void rtl8723b_fill_fake_txdesc(PADAPTER padapter, u8 *pDesc, u32 BufferLen, u8 IsPsPoll, u8 IsBTQosNull, u8 bDataFrame);
++#if defined(CONFIG_CONCURRENT_MODE)
++	void fill_txdesc_force_bmc_camid(struct pkt_attrib *pattrib, u8 *ptxdesc);
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	s32 rtl8723bs_init_xmit_priv(PADAPTER padapter);
++	void rtl8723bs_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8723bs_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8723bs_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8723bs_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8723bs_xmit_buf_handler(PADAPTER padapter);
++	thread_return rtl8723bs_xmit_thread(thread_context context);
++	#define hal_xmit_handler rtl8723bs_xmit_buf_handler
++#endif
++
++#ifdef CONFIG_USB_HCI
++	s32 rtl8723bu_xmit_buf_handler(PADAPTER padapter);
++	#define hal_xmit_handler rtl8723bu_xmit_buf_handler
++
++
++	s32 rtl8723bu_init_xmit_priv(PADAPTER padapter);
++	void rtl8723bu_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8723bu_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8723bu_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	 rtl8723bu_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	/* s32 rtl8812au_xmit_buf_handler(PADAPTER padapter); */
++	void rtl8723bu_xmit_tasklet(void *priv);
++	s32 rtl8723bu_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++	void _dbg_dump_tx_info(_adapter	*padapter, int frame_tag, struct tx_desc *ptxdesc);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8723be_init_xmit_priv(PADAPTER padapter);
++	void rtl8723be_free_xmit_priv(PADAPTER padapter);
++	struct xmit_buf *rtl8723be_dequeue_xmitbuf(struct rtw_tx_ring *ring);
++	void	rtl8723be_xmitframe_resume(_adapter *padapter);
++	s32 rtl8723be_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8723be_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8723be_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	void rtl8723be_xmit_tasklet(void *priv);
++#endif
++
++u8	BWMapping_8723B(PADAPTER Adapter, struct pkt_attrib *pattrib);
++u8	SCMapping_8723B(PADAPTER Adapter, struct pkt_attrib	*pattrib);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8723d_cmd.h b/drivers/net/wireless/rtl8812au/include/rtl8723d_cmd.h
+new file mode 100644
+index 0000000..86d4868
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8723d_cmd.h
+@@ -0,0 +1,211 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723D_CMD_H__
++#define __RTL8723D_CMD_H__
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD DEFINITION    ------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++enum h2c_cmd_8723D {
++	/* Common Class: 000 */
++	H2C_8723D_RSVD_PAGE = 0x00,
++	H2C_8723D_MEDIA_STATUS_RPT = 0x01,
++	H2C_8723D_SCAN_ENABLE = 0x02,
++	H2C_8723D_KEEP_ALIVE = 0x03,
++	H2C_8723D_DISCON_DECISION = 0x04,
++	H2C_8723D_PSD_OFFLOAD = 0x05,
++	H2C_8723D_AP_OFFLOAD = 0x08,
++	H2C_8723D_BCN_RSVDPAGE = 0x09,
++	H2C_8723D_PROBERSP_RSVDPAGE = 0x0A,
++	H2C_8723D_FCS_RSVDPAGE = 0x10,
++	H2C_8723D_FCS_INFO = 0x11,
++	H2C_8723D_AP_WOW_GPIO_CTRL = 0x13,
++
++	/* PoweSave Class: 001 */
++	H2C_8723D_SET_PWR_MODE = 0x20,
++	H2C_8723D_PS_TUNING_PARA = 0x21,
++	H2C_8723D_PS_TUNING_PARA2 = 0x22,
++	H2C_8723D_P2P_LPS_PARAM = 0x23,
++	H2C_8723D_P2P_PS_OFFLOAD = 0x24,
++	H2C_8723D_PS_SCAN_ENABLE = 0x25,
++	H2C_8723D_SAP_PS_ = 0x26,
++	H2C_8723D_INACTIVE_PS_ = 0x27, /* Inactive_PS */
++	H2C_8723D_FWLPS_IN_IPS_ = 0x28,
++
++	/* Dynamic Mechanism Class: 010 */
++	H2C_8723D_MACID_CFG = 0x40,
++	H2C_8723D_TXBF = 0x41,
++	H2C_8723D_RSSI_SETTING = 0x42,
++	H2C_8723D_AP_REQ_TXRPT = 0x43,
++	H2C_8723D_INIT_RATE_COLLECT = 0x44,
++	H2C_8723D_RA_PARA_ADJUST = 0x46,
++
++	/* BT Class: 011 */
++	H2C_8723D_B_TYPE_TDMA = 0x60,
++	H2C_8723D_BT_INFO = 0x61,
++	H2C_8723D_FORCE_BT_TXPWR = 0x62,
++	H2C_8723D_BT_IGNORE_WLANACT = 0x63,
++	H2C_8723D_DAC_SWING_VALUE = 0x64,
++	H2C_8723D_ANT_SEL_RSV = 0x65,
++	H2C_8723D_WL_OPMODE = 0x66,
++	H2C_8723D_BT_MP_OPER = 0x67,
++	H2C_8723D_BT_CONTROL = 0x68,
++	H2C_8723D_BT_WIFI_CTRL = 0x69,
++	H2C_8723D_BT_FW_PATCH = 0x6A,
++	H2C_8723D_BT_WLAN_CALIBRATION = 0x6D,
++
++	/* WOWLAN Class: 100 */
++	H2C_8723D_WOWLAN = 0x80,
++	H2C_8723D_REMOTE_WAKE_CTRL = 0x81,
++	H2C_8723D_AOAC_GLOBAL_INFO = 0x82,
++	H2C_8723D_AOAC_RSVD_PAGE = 0x83,
++	H2C_8723D_AOAC_RSVD_PAGE2 = 0x84,
++	H2C_8723D_D0_SCAN_OFFLOAD_CTRL = 0x85,
++	H2C_8723D_D0_SCAN_OFFLOAD_INFO = 0x86,
++	H2C_8723D_CHNL_SWITCH_OFFLOAD = 0x87,
++	H2C_8723D_P2P_OFFLOAD_RSVD_PAGE = 0x8A,
++	H2C_8723D_P2P_OFFLOAD = 0x8B,
++
++	H2C_8723D_RESET_TSF = 0xC0,
++	H2C_8723D_MAXID,
++};
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    H2C CMD CONTENT    --------------------------------------------------
++ * ---------------------------------------------------------------------------------------------------------
++ * _RSVDPAGE_LOC_CMD_0x00 */
++#define SET_8723D_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723D_H2CCMD_RSVDPAGE_LOC_PSPOLL(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_8723D_H2CCMD_RSVDPAGE_LOC_NULL_DATA(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8723D_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8723D_H2CCMD_RSVDPAGE_LOC_BT_QOS_NULL_DATA(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++
++/* _KEEP_ALIVE_CMD_0x03 */
++#define SET_8723D_H2CCMD_KEEPALIVE_PARM_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8723D_H2CCMD_KEEPALIVE_PARM_ADOPT(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8723D_H2CCMD_KEEPALIVE_PARM_PKT_TYPE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_8723D_H2CCMD_KEEPALIVE_PARM_CHECK_PERIOD(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++
++/* _DISCONNECT_DECISION_CMD_0x04 */
++#define SET_8723D_H2CCMD_DISCONDECISION_PARM_ENABLE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8723D_H2CCMD_DISCONDECISION_PARM_ADOPT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8723D_H2CCMD_DISCONDECISION_PARM_CHECK_PERIOD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8723D_H2CCMD_DISCONDECISION_PARM_TRY_PKT_NUM(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++
++/* _PWR_MOD_CMD_0x20 */
++#define SET_8723D_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723D_H2CCMD_PWRMODE_PARM_RLBM(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 4, __Value)
++#define SET_8723D_H2CCMD_PWRMODE_PARM_SMART_PS(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 4, 4, __Value)
++#define SET_8723D_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8723D_H2CCMD_PWRMODE_PARM_ALL_QUEUE_UAPSD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8723D_H2CCMD_PWRMODE_PARM_PWR_STATE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8723D_H2CCMD_PWRMODE_PARM_BYTE5(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++#define GET_8723D_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd)					LE_BITS_TO_1BYTE(__pH2CCmd, 0, 8)
++
++/* _PS_TUNE_PARAM_CMD_0x21 */
++#define SET_8723D_H2CCMD_PSTUNE_PARM_BCN_TO_LIMIT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723D_H2CCMD_PSTUNE_PARM_DTIM_TIMEOUT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8723D_H2CCMD_PSTUNE_PARM_ADOPT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 1, __Value)
++#define SET_8723D_H2CCMD_PSTUNE_PARM_PS_TIMEOUT(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 1, 7, __Value)
++#define SET_8723D_H2CCMD_PSTUNE_PARM_DTIM_PERIOD(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++
++/* _MACID_CFG_CMD_0x40 */
++#define SET_8723D_H2CCMD_MACID_CFG_MACID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_RAID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 5, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_SGI_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 7, 1, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_BW(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 2, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_NO_UPDATE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 3, 1, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_VHT_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 4, 2, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_DISPT(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 6, 1, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_DISRA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 7, 1, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_RATE_MASK0(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_RATE_MASK1(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+4, 0, 8, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_RATE_MASK2(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+5, 0, 8, __Value)
++#define SET_8723D_H2CCMD_MACID_CFG_RATE_MASK3(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+6, 0, 8, __Value)
++
++/* _RSSI_SETTING_CMD_0x42 */
++#define SET_8723D_H2CCMD_RSSI_SETTING_MACID(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723D_H2CCMD_RSSI_SETTING_RSSI(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 7, __Value)
++#define SET_8723D_H2CCMD_RSSI_SETTING_ULDL_STATE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++
++/* _AP_REQ_TXRPT_CMD_0x43 */
++#define SET_8723D_H2CCMD_APREQRPT_PARM_MACID1(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8723D_H2CCMD_APREQRPT_PARM_MACID2(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++
++/* _FORCE_BT_TXPWR_CMD_0x62 */
++#define SET_8723D_H2CCMD_BT_PWR_IDX(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++
++/* _FORCE_BT_MP_OPER_CMD_0x67 */
++#define SET_8723D_H2CCMD_BT_MPOPER_VER(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 4, __Value)
++#define SET_8723D_H2CCMD_BT_MPOPER_REQNUM(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 4, __Value)
++#define SET_8723D_H2CCMD_BT_MPOPER_IDX(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+1, 0, 8, __Value)
++#define SET_8723D_H2CCMD_BT_MPOPER_PARAM1(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+2, 0, 8, __Value)
++#define SET_8723D_H2CCMD_BT_MPOPER_PARAM2(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+3, 0, 8, __Value)
++#define SET_8723D_H2CCMD_BT_MPOPER_PARAM3(__pH2CCmd, __Value)							SET_BITS_TO_LE_1BYTE(__pH2CCmd+4, 0, 8, __Value)
++
++/* _BT_FW_PATCH_0x6A */
++#define SET_8723D_H2CCMD_BT_FW_PATCH_SIZE(__pH2CCmd, __Value)					SET_BITS_TO_LE_2BYTE((pu1Byte)(__pH2CCmd), 0, 16, __Value)
++#define SET_8723D_H2CCMD_BT_FW_PATCH_ADDR0(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8723D_H2CCMD_BT_FW_PATCH_ADDR1(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8723D_H2CCMD_BT_FW_PATCH_ADDR2(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8723D_H2CCMD_BT_FW_PATCH_ADDR3(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++/* ---------------------------------------------------------------------------------------------------------
++ * -------------------------------------------    Structure    --------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++
++/* ---------------------------------------------------------------------------------------------------------
++ * ----------------------------------    Function Statement     --------------------------------------------------
++ * --------------------------------------------------------------------------------------------------------- */
++
++/* host message to firmware cmd */
++void rtl8723d_set_FwPwrMode_cmd(PADAPTER padapter, u8 Mode);
++void rtl8723d_set_FwJoinBssRpt_cmd(PADAPTER padapter, u8 mstatus);
++void rtl8723d_set_rssi_cmd(PADAPTER padapter, u8 *param);
++void rtl8723d_fw_try_ap_cmd(PADAPTER padapter, u32 need_ack);
++/* s32 rtl8723d_set_lowpwr_lps_cmd(PADAPTER padapter, u8 enable); */
++void rtl8723d_set_FwPsTuneParam_cmd(PADAPTER padapter);
++void rtl8723d_set_FwMacIdConfig_cmd(_adapter *padapter, u8 mac_id, u8 raid, u8 bw, u8 sgi, u32 mask);
++void rtl8723d_set_FwBtMpOper_cmd(PADAPTER padapter, u8 idx, u8 ver, u8 reqnum, u8 *param);
++void rtl8723d_download_rsvd_page(PADAPTER padapter, u8 mstatus);
++#ifdef CONFIG_BT_COEXIST
++	void rtl8723d_download_BTCoex_AP_mode_rsvd_page(PADAPTER padapter);
++#endif /* CONFIG_BT_COEXIST */
++#ifdef CONFIG_P2P
++	void rtl8723d_set_p2p_ps_offload_cmd(PADAPTER padapter, u8 p2p_ps_state);
++#endif /* CONFIG_P2P */
++
++void CheckFwRsvdPageContent(PADAPTER padapter);
++
++#ifdef CONFIG_P2P_WOWLAN
++	void rtl8723d_set_p2p_wowlan_offload_cmd(PADAPTER padapter);
++#endif
++
++void rtl8723d_set_FwPwrModeInIPS_cmd(PADAPTER padapter, u8 cmd_param);
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++	u8 rtl8723d_reset_tsf(_adapter *padapter, u8 reset_port);
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++s32 FillH2CCmd8723D(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++u8 GetTxBufferRsvdPageNum8723D(_adapter *padapter, bool wowlan);
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8723d_dm.h b/drivers/net/wireless/rtl8812au/include/rtl8723d_dm.h
+new file mode 100644
+index 0000000..bae086d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8723d_dm.h
+@@ -0,0 +1,47 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723D_DM_H__
++#define __RTL8723D_DM_H__
++/* ************************************************************
++ * Description:
++ *
++ * This file is for 8723D dynamic mechanism only
++ *
++ *
++ * ************************************************************ */
++
++/* ************************************************************
++ * structure and define
++ * ************************************************************ */
++
++/* ************************************************************
++ * function prototype
++ * ************************************************************ */
++
++void rtl8723d_init_dm_priv(PADAPTER padapter);
++void rtl8723d_deinit_dm_priv(PADAPTER padapter);
++
++void rtl8723d_InitHalDm(PADAPTER padapter);
++void rtl8723d_HalDmWatchDog(PADAPTER padapter);
++void rtl8723d_HalDmWatchDog_in_LPS(PADAPTER padapter);
++void rtl8723d_hal_dm_in_lps(PADAPTER padapter);
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8723d_hal.h b/drivers/net/wireless/rtl8812au/include/rtl8723d_hal.h
+new file mode 100644
+index 0000000..7da9541
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8723d_hal.h
+@@ -0,0 +1,331 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723D_HAL_H__
++#define __RTL8723D_HAL_H__
++
++#include "hal_data.h"
++
++#include "rtl8723d_spec.h"
++#include "rtl8723d_rf.h"
++#include "rtl8723d_dm.h"
++#include "rtl8723d_recv.h"
++#include "rtl8723d_xmit.h"
++#include "rtl8723d_cmd.h"
++#include "rtl8723d_led.h"
++#include "Hal8723DPwrSeq.h"
++#include "Hal8723DPhyReg.h"
++#include "Hal8723DPhyCfg.h"
++#ifdef DBG_CONFIG_ERROR_DETECT
++	#include "rtl8723d_sreset.h"
++#endif
++#ifdef CONFIG_LPS_POFF
++	#include "rtl8723d_lps_poff.h"
++#endif
++
++#define FW_8723D_SIZE		0x8000
++#define FW_8723D_START_ADDRESS	0x1000
++#define FW_8723D_END_ADDRESS	0x1FFF /* 0x5FFF */
++
++#define IS_FW_HEADER_EXIST_8723D(_pFwHdr)\
++	((le16_to_cpu(_pFwHdr->Signature) & 0xFFF0) == 0x23D0)
++
++typedef struct _RT_FIRMWARE {
++	FIRMWARE_SOURCE	eFWSource;
++#ifdef CONFIG_EMBEDDED_FWIMG
++	u8			*szFwBuffer;
++#else
++	u8			szFwBuffer[FW_8723D_SIZE];
++#endif
++	u32			ulFwLength;
++} RT_FIRMWARE_8723D, *PRT_FIRMWARE_8723D;
++
++/*
++ * This structure must be cared byte-ordering
++ *
++ * Added by tynli. 2009.12.04. */
++typedef struct _RT_8723D_FIRMWARE_HDR {
++	/* 8-byte alinment required */
++
++	/* --- LONG WORD 0 ---- */
++	u16		Signature;	/* 92C0: test chip; 92C, 88C0: test chip; 88C1: MP A-cut; 92C1: MP A-cut */
++	u8		Category;	/* AP/NIC and USB/PCI */
++	u8		Function;	/* Reserved for different FW function indcation, for further use when driver needs to download different FW in different conditions */
++	u16		Version;		/* FW Version */
++	u16		Subversion;	/* FW Subversion, default 0x00 */
++
++	/* --- LONG WORD 1 ---- */
++	u8		Month;	/* Release time Month field */
++	u8		Date;	/* Release time Date field */
++	u8		Hour;	/* Release time Hour field */
++	u8		Minute;	/* Release time Minute field */
++	u16		RamCodeSize;	/* The size of RAM code */
++	u16		Rsvd2;
++
++	/* --- LONG WORD 2 ---- */
++	u32		SvnIdx;	/* The SVN entry index */
++	u32		Rsvd3;
++
++	/* --- LONG WORD 3 ---- */
++	u32		Rsvd4;
++	u32		Rsvd5;
++} RT_8723D_FIRMWARE_HDR, *PRT_8723D_FIRMWARE_HDR;
++
++#define DRIVER_EARLY_INT_TIME_8723D		0x05
++#define BCN_DMA_ATIME_INT_TIME_8723D		0x02
++
++/* for 8723D
++ * TX 32K, RX 16K, Page size 128B for TX, 8B for RX */
++#define PAGE_SIZE_TX_8723D			128
++#define PAGE_SIZE_RX_8723D			8
++
++#define TX_DMA_SIZE_8723D			0x8000	/* 32K(TX) */
++#define RX_DMA_SIZE_8723D			0x4000	/* 16K(RX) */
++
++#ifdef CONFIG_WOWLAN
++	#define RESV_FMWF	(WKFMCAM_SIZE * MAX_WKFM_CAM_NUM) /* 16 entries, for each is 24 bytes*/
++#else
++	#define RESV_FMWF	0
++#endif
++
++#ifdef CONFIG_FW_C2H_DEBUG
++	#define RX_DMA_RESERVED_SIZE_8723D	0x100	/* 256B, reserved for c2h debug message */
++#else
++	#define RX_DMA_RESERVED_SIZE_8723D	0x80	/* 128B, reserved for tx report */
++#endif
++#define RX_DMA_BOUNDARY_8723D\
++	(RX_DMA_SIZE_8723D - RX_DMA_RESERVED_SIZE_8723D - 1)
++
++
++/* Note: We will divide number of page equally for each queue other than public queue! */
++
++/* For General Reserved Page Number(Beacon Queue is reserved page)
++ * Beacon:2, PS-Poll:1, Null Data:1,Qos Null Data:1,BT Qos Null Data:1 */
++#define BCNQ_PAGE_NUM_8723D		0x08
++#ifdef CONFIG_CONCURRENT_MODE
++	#define BCNQ1_PAGE_NUM_8723D		0x08 /* 0x04 */
++#else
++	#define BCNQ1_PAGE_NUM_8723D		0x00
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++	#undef BCNQ1_PAGE_NUM_8723D
++	#define BCNQ1_PAGE_NUM_8723D		0x00 /* 0x04 */
++#endif
++
++/* For WoWLan , more reserved page
++ * ARP Rsp:1, RWC:1, GTK Info:1,GTK RSP:2,GTK EXT MEM:2, PNO: 6 */
++#ifdef CONFIG_WOWLAN
++	#define WOWLAN_PAGE_NUM_8723D	0x07
++#else
++	#define WOWLAN_PAGE_NUM_8723D	0x00
++#endif
++
++#ifdef CONFIG_PNO_SUPPORT
++	#undef WOWLAN_PAGE_NUM_8723D
++	#define WOWLAN_PAGE_NUM_8723D	0x15
++#endif
++
++#ifdef CONFIG_AP_WOWLAN
++	#define AP_WOWLAN_PAGE_NUM_8723D	0x02
++#endif
++
++#define TX_TOTAL_PAGE_NUMBER_8723D\
++	(0xFF - BCNQ_PAGE_NUM_8723D - BCNQ1_PAGE_NUM_8723D - WOWLAN_PAGE_NUM_8723D)
++#define TX_PAGE_BOUNDARY_8723D		(TX_TOTAL_PAGE_NUMBER_8723D + 1)
++
++#define WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8723D	TX_TOTAL_PAGE_NUMBER_8723D
++#define WMM_NORMAL_TX_PAGE_BOUNDARY_8723D\
++	(WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8723D + 1)
++
++/* For Normal Chip Setting
++ * (HPQ + LPQ + NPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER_8723D */
++#define NORMAL_PAGE_NUM_HPQ_8723D		0x0C
++#define NORMAL_PAGE_NUM_LPQ_8723D		0x02
++#define NORMAL_PAGE_NUM_NPQ_8723D		0x02
++
++/* Note: For Normal Chip Setting, modify later */
++#define WMM_NORMAL_PAGE_NUM_HPQ_8723D		0x30
++#define WMM_NORMAL_PAGE_NUM_LPQ_8723D		0x20
++#define WMM_NORMAL_PAGE_NUM_NPQ_8723D		0x20
++
++
++#include "HalVerDef.h"
++#include "hal_com.h"
++
++#define EFUSE_OOB_PROTECT_BYTES			15
++
++#define HAL_EFUSE_MEMORY
++#define HWSET_MAX_SIZE_8723D                512
++#define EFUSE_REAL_CONTENT_LEN_8723D        256
++#define EFUSE_MAP_LEN_8723D                 512
++#define EFUSE_MAX_SECTION_8723D             64
++
++/* For some inferiority IC purpose. added by Roger, 2009.09.02.*/
++#define EFUSE_IC_ID_OFFSET			506
++#define AVAILABLE_EFUSE_ADDR(addr)	(addr < EFUSE_REAL_CONTENT_LEN_8723D)
++
++#define EFUSE_ACCESS_ON		0x69
++#define EFUSE_ACCESS_OFF	0x00
++
++/* ********************************************************
++ *			EFUSE for BT definition
++ * ******************************************************** */
++#define BANK_NUM			1
++#define EFUSE_BT_REAL_BANK_CONTENT_LEN	128
++#define EFUSE_BT_REAL_CONTENT_LEN	\
++	(EFUSE_BT_REAL_BANK_CONTENT_LEN * BANK_NUM)
++#define EFUSE_BT_MAP_LEN		1024	/* 1k bytes */
++#define EFUSE_BT_MAX_SECTION		(EFUSE_BT_MAP_LEN / 8)
++#define EFUSE_PROTECT_BYTES_BANK	16
++
++typedef struct _C2H_EVT_HDR {
++	u8	CmdID;
++	u8	CmdLen;
++	u8	CmdSeq;
++} __attribute__((__packed__)) C2H_EVT_HDR, *PC2H_EVT_HDR;
++
++typedef enum tag_Package_Definition {
++	PACKAGE_DEFAULT,
++	PACKAGE_QFN68,
++	PACKAGE_TFBGA90,
++	PACKAGE_TFBGA80,
++	PACKAGE_TFBGA79
++} PACKAGE_TYPE_E;
++
++#define INCLUDE_MULTI_FUNC_BT(_Adapter) \
++	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_BT)
++#define INCLUDE_MULTI_FUNC_GPS(_Adapter) \
++	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_GPS)
++
++#ifdef CONFIG_FILE_FWIMG
++	extern char *rtw_fw_file_path;
++	extern char *rtw_fw_wow_file_path;
++	#ifdef CONFIG_MP_INCLUDED
++		extern char *rtw_fw_mp_bt_file_path;
++	#endif /* CONFIG_MP_INCLUDED */
++#endif /* CONFIG_FILE_FWIMG */
++
++/* rtl8723d_hal_init.c */
++s32 rtl8723d_FirmwareDownload(PADAPTER padapter, BOOLEAN  bUsedWoWLANFw);
++void rtl8723d_FirmwareSelfReset(PADAPTER padapter);
++void rtl8723d_InitializeFirmwareVars(PADAPTER padapter);
++
++void rtl8723d_InitAntenna_Selection(PADAPTER padapter);
++void rtl8723d_DeinitAntenna_Selection(PADAPTER padapter);
++void rtl8723d_CheckAntenna_Selection(PADAPTER padapter);
++void rtl8723d_init_default_value(PADAPTER padapter);
++
++s32 rtl8723d_InitLLTTable(PADAPTER padapter);
++
++s32 CardDisableHWSM(PADAPTER padapter, u8 resetMCU);
++s32 CardDisableWithoutHWSM(PADAPTER padapter);
++
++/* EFuse */
++u8 GetEEPROMSize8723D(PADAPTER padapter);
++void Hal_InitPGData(PADAPTER padapter, u8 *PROMContent);
++void Hal_EfuseParseIDCode(PADAPTER padapter, u8 *hwinfo);
++void Hal_EfuseParseTxPowerInfo_8723D(PADAPTER padapter,
++				     u8 *PROMContent, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseBTCoexistInfo_8723D(PADAPTER padapter,
++				       u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseEEPROMVer_8723D(PADAPTER padapter,
++				   u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParsePackageType_8723D(PADAPTER pAdapter,
++				     u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseChnlPlan_8723D(PADAPTER padapter,
++				  u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseCustomerID_8723D(PADAPTER padapter,
++				    u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseAntennaDiversity_8723D(PADAPTER padapter,
++		u8 *hwinfo, BOOLEAN AutoLoadFail);
++void Hal_EfuseParseXtal_8723D(PADAPTER pAdapter,
++			      u8 *hwinfo, u8 AutoLoadFail);
++void Hal_EfuseParseThermalMeter_8723D(PADAPTER padapter,
++				      u8 *hwinfo, u8 AutoLoadFail);
++VOID Hal_EfuseParseVoltage_8723D(PADAPTER pAdapter,
++				 u8 *hwinfo, BOOLEAN	AutoLoadFail);
++VOID Hal_EfuseParseBoardType_8723D(PADAPTER Adapter,
++				   u8	*PROMContent, BOOLEAN AutoloadFail);
++
++#ifdef CONFIG_C2H_PACKET_EN
++	void rtl8723d_c2h_packet_handler(PADAPTER padapter, u8 *pbuf, u16 length);
++#endif
++
++
++void rtl8723d_set_hal_ops(struct hal_ops *pHalFunc);
++void init_hal_spec_8723d(_adapter *adapter);
++void SetHwReg8723D(PADAPTER padapter, u8 variable, u8 *val);
++void GetHwReg8723D(PADAPTER padapter, u8 variable, u8 *val);
++#ifdef CONFIG_C2H_PACKET_EN
++	void SetHwRegWithBuf8723D(PADAPTER padapter, u8 variable, u8 *pbuf, int len);
++#endif /* CONFIG_C2H_PACKET_EN */
++u8 SetHalDefVar8723D(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++u8 GetHalDefVar8723D(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++
++/* register */
++void rtl8723d_InitBeaconParameters(PADAPTER padapter);
++void rtl8723d_InitBeaconMaxError(PADAPTER padapter, u8 InfraMode);
++void _InitBurstPktLen_8723DS(PADAPTER Adapter);
++void _InitLTECoex_8723DS(PADAPTER Adapter);
++void _InitMacAPLLSetting_8723D(PADAPTER Adapter);
++void _8051Reset8723(PADAPTER padapter);
++#ifdef CONFIG_WOWLAN
++	void Hal_DetectWoWMode(PADAPTER pAdapter);
++#endif /* CONFIG_WOWLAN */
++
++void rtl8723d_start_thread(_adapter *padapter);
++void rtl8723d_stop_thread(_adapter *padapter);
++
++#if defined(CONFIG_CHECK_BT_HANG) && defined(CONFIG_BT_COEXIST)
++	void rtl8723ds_init_checkbthang_workqueue(_adapter *adapter);
++	void rtl8723ds_free_checkbthang_workqueue(_adapter *adapter);
++	void rtl8723ds_cancle_checkbthang_workqueue(_adapter *adapter);
++	void rtl8723ds_hal_check_bt_hang(_adapter *adapter);
++#endif
++
++#ifdef CONFIG_GPIO_WAKEUP
++	void HalSetOutPutGPIO(PADAPTER padapter, u8 index, u8 OutPutValue);
++#endif
++#ifdef CONFIG_MP_INCLUDED
++int FirmwareDownloadBT(IN PADAPTER Adapter, PRT_MP_FIRMWARE pFirmware);
++#endif
++void CCX_FwC2HTxRpt_8723d(PADAPTER padapter, u8 *pdata, u8 len);
++s32 c2h_id_filter_ccx_8723d(u8 *buf);
++s32 c2h_handler_8723d(PADAPTER padapter, u8 *pC2hEvent);
++u8 MRateToHwRate8723D(u8 rate);
++u8 HwRateToMRate8723D(u8 rate);
++
++void Hal_ReadRFGainOffset(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++
++#if defined(CONFIG_CHECK_BT_HANG) && defined(CONFIG_BT_COEXIST)
++	void check_bt_status_work(void *data);
++#endif
++
++#ifdef CONFIG_USB_HCI
++	void rtl8723d_cal_txdesc_chksum(struct tx_desc *ptxdesc);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	BOOLEAN	InterruptRecognized8723DE(PADAPTER Adapter);
++	VOID	UpdateInterruptMask8723DE(PADAPTER Adapter, u32 AddMSR, u32 AddMSR1, u32 RemoveMSR, u32 RemoveMSR1);
++	u16 get_txbufdesc_idx_hwaddr(u16 ff_hwaddr);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8723d_led.h b/drivers/net/wireless/rtl8812au/include/rtl8723d_led.h
+new file mode 100644
+index 0000000..439ee82
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8723d_led.h
+@@ -0,0 +1,48 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723D_LED_H__
++#define __RTL8723D_LED_H__
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++
++
++/* ********************************************************************************
++ * Interface to manipulate LED objects.
++ * ******************************************************************************** */
++#ifdef CONFIG_USB_HCI
++	void rtl8723du_InitSwLeds(PADAPTER padapter);
++	void rtl8723du_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_SDIO_HCI
++	void rtl8723ds_InitSwLeds(PADAPTER padapter);
++	void rtl8723ds_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_GSPI_HCI
++	void rtl8723ds_InitSwLeds(PADAPTER padapter);
++	void rtl8723ds_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_PCI_HCI
++	void rtl8723de_InitSwLeds(PADAPTER padapter);
++	void rtl8723de_DeInitSwLeds(PADAPTER padapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8723d_lps_poff.h b/drivers/net/wireless/rtl8812au/include/rtl8723d_lps_poff.h
+new file mode 100644
+index 0000000..c466d40
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8723d_lps_poff.h
+@@ -0,0 +1,61 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++/******************************************** CONST  ************************/
++#define NUM_OF_REGISTER_BANK	13
++#define NUM_OF_TOTAL_DWORD (NUM_OF_REGISTER_BANK * 64)
++#define TOTAL_LEN_FOR_HIOE ((NUM_OF_TOTAL_DWORD + 1) * 8)
++#define LPS_POFF_STATIC_FILE_LEN (TOTAL_LEN_FOR_HIOE + TXDESC_SIZE)
++#define LPS_POFF_DYNAMIC_FILE_LEN	(512 + TXDESC_SIZE)
++/******************************************** CONST  ************************/
++
++/******************************************** MACRO   ************************/
++/* HOIE Entry Definition */
++#define SET_HOIE_ENTRY_LOW_DATA(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE),	0, 16, __Value)
++#define SET_HOIE_ENTRY_HIGH_DATA(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE), 16, 16, __Value)
++#define SET_HOIE_ENTRY_MODE_SELECT(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE)+4, 0, 1, __Value)
++#define SET_HOIE_ENTRY_ADDRESS(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE)+4, 1, 14, __Value)
++#define SET_HOIE_ENTRY_BYTE_MASK(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE)+4, 15, 4, __Value)
++#define SET_HOIE_ENTRY_IO_LOCK(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE)+4, 19, 1, __Value)
++#define SET_HOIE_ENTRY_RD_EN(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE)+4, 20, 1, __Value)
++#define SET_HOIE_ENTRY_WR_EN(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE)+4, 21, 1, __Value)
++#define SET_HOIE_ENTRY_RAW_RW(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE)+4, 22, 1, __Value)
++#define SET_HOIE_ENTRY_RAW(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE)+4, 23, 1, __Value)
++#define SET_HOIE_ENTRY_IO_DELAY(__pHOIE, __Value) \
++	SET_BITS_TO_LE_4BYTE((__pHOIE)+4, 24, 8, __Value)
++
++/*********************Function Definition*******************************************/
++void rtl8723d_lps_poff_init(PADAPTER padapter);
++void rtl8723d_lps_poff_deinit(PADAPTER padapter);
++bool rtl8723d_lps_poff_get_txbndy_status(PADAPTER padapter);
++void rtl8723d_lps_poff_h2c_ctrl(PADAPTER padapter, u8 enable);
++void rtl8723d_lps_poff_set_ps_mode(PADAPTER padapter, bool bEnterLPS);
++bool rtl8723d_lps_poff_get_status(PADAPTER padapter);
++void rtl8723d_lps_poff_wow(PADAPTER padapter);
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8723d_recv.h b/drivers/net/wireless/rtl8812au/include/rtl8723d_recv.h
+new file mode 100644
+index 0000000..6343ec8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8723d_recv.h
+@@ -0,0 +1,120 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723D_RECV_H__
++#define __RTL8723D_RECV_H__
++
++#define RECV_BLK_SZ 512
++#define RECV_BLK_CNT 16
++#define RECV_BLK_TH RECV_BLK_CNT
++
++#if defined(CONFIG_USB_HCI)
++
++	#ifndef MAX_RECVBUF_SZ
++		#ifdef PLATFORM_OS_CE
++			#define MAX_RECVBUF_SZ (8192+1024) /* 8K+1k */
++		#else
++			#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++				/* #define MAX_RECVBUF_SZ (32768) */ /* 32k */
++				/* #define MAX_RECVBUF_SZ (16384) */ /* 16K */
++				/* #define MAX_RECVBUF_SZ (10240) */ /* 10K */
++				#ifdef CONFIG_PLATFORM_MSTAR
++					#define MAX_RECVBUF_SZ (8192) /* 8K */
++				#else
++					#define MAX_RECVBUF_SZ (15360) /* 15k < 16k */
++				#endif
++				/* #define MAX_RECVBUF_SZ (8192+1024) */ /* 8K+1k */
++			#else
++				#define MAX_RECVBUF_SZ (4000) /* about 4K */
++			#endif
++		#endif
++	#endif /* !MAX_RECVBUF_SZ */
++
++#elif defined(CONFIG_PCI_HCI)
++	/* #ifndef CONFIG_MINIMAL_MEMORY_USAGE */
++	/*	#define MAX_RECVBUF_SZ (9100) */
++	/* #else */
++	#define MAX_RECVBUF_SZ (4000) /* about 4K
++	* #endif */
++
++
++#elif defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++
++	#define MAX_RECVBUF_SZ (RX_DMA_BOUNDARY_8723D + 1)
++
++#endif
++
++/* Rx smooth factor */
++#define	Rx_Smooth_Factor (20)
++
++#ifdef CONFIG_SDIO_HCI
++	#ifndef CONFIG_SDIO_RX_COPY
++		#undef MAX_RECVBUF_SZ
++		#define MAX_RECVBUF_SZ	(RX_DMA_SIZE_8723D - RX_DMA_RESERVED_SIZE_8723D)
++	#endif /* !CONFIG_SDIO_RX_COPY */
++#endif /* CONFIG_SDIO_HCI */
++
++/*-----------------------------------------------------------------*/
++/*	RTL8723D RX BUFFER DESC                                      */
++/*-----------------------------------------------------------------*/
++/*DWORD 0*/
++#define SET_RX_BUFFER_DESC_DATA_LENGTH_8723D(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++#define SET_RX_BUFFER_DESC_LS_8723D(__pRxStatusDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 15, 1, __Value)
++#define SET_RX_BUFFER_DESC_FS_8723D(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 16, 1, __Value)
++#define SET_RX_BUFFER_DESC_TOTAL_LENGTH_8723D(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 16, 15, __Value)
++
++#define GET_RX_BUFFER_DESC_OWN_8723D(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 31, 1)
++#define GET_RX_BUFFER_DESC_LS_8723D(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++#define GET_RX_BUFFER_DESC_FS_8723D(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 1)
++#ifdef USING_RX_TAG
++	#define GET_RX_BUFFER_DESC_RX_TAG_8723D(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 13)
++#else
++	#define GET_RX_BUFFER_DESC_TOTAL_LENGTH_8723D(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 15)
++#endif
++
++/*DWORD 1*/
++#define SET_RX_BUFFER_PHYSICAL_LOW_8723D(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc+4, 0, 32, __Value)
++
++/*DWORD 2*/
++#ifdef CONFIG_64BIT_DMA
++	#define SET_RX_BUFFER_PHYSICAL_HIGH_8723D(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc+8, 0, 32, __Value)
++#else
++	#define SET_RX_BUFFER_PHYSICAL_HIGH_8723D(__pRxStatusDesc, __Value)
++#endif
++
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	s32 rtl8723ds_init_recv_priv(PADAPTER padapter);
++	void rtl8723ds_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_USB_HCI
++	int rtl8723du_init_recv_priv(_adapter *padapter);
++	void rtl8723du_free_recv_priv(_adapter *padapter);
++	void rtl8723du_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8723de_init_recv_priv(PADAPTER padapter);
++	void rtl8723de_free_recv_priv(PADAPTER padapter);
++#endif
++
++void rtl8723d_query_rx_desc_status(union recv_frame *precvframe, u8 *pdesc);
++
++#endif /* __RTL8723D_RECV_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8723d_rf.h b/drivers/net/wireless/rtl8812au/include/rtl8723d_rf.h
+new file mode 100644
+index 0000000..0aa5813
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8723d_rf.h
+@@ -0,0 +1,26 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723D_RF_H__
++#define __RTL8723D_RF_H__
++
++int PHY_RF6052_Config8723D(IN PADAPTER pdapter);
++
++void PHY_RF6052SetBandwidth8723D(IN PADAPTER Adapter, IN CHANNEL_WIDTH Bandwidth);
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8723d_spec.h b/drivers/net/wireless/rtl8812au/include/rtl8723d_spec.h
+new file mode 100644
+index 0000000..1d41056
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8723d_spec.h
+@@ -0,0 +1,457 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#ifndef __RTL8723D_SPEC_H__
++#define __RTL8723D_SPEC_H__
++
++#include <drv_conf.h>
++
++
++#define HAL_NAV_UPPER_UNIT_8723D		128		/* micro-second */
++
++/* -----------------------------------------------------
++ *
++ *	0x0000h ~ 0x00FFh	System Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_SYS_ISO_CTRL_8723D			0x0000	/* 2 Byte */
++#define REG_SYS_FUNC_EN_8723D			0x0002	/* 2 Byte */
++#define REG_APS_FSMCO_8723D			0x0004	/* 4 Byte */
++#define REG_SYS_CLKR_8723D				0x0008	/* 2 Byte */
++#define REG_9346CR_8723D				0x000A	/* 2 Byte */
++#define REG_EE_VPD_8723D				0x000C	/* 2 Byte */
++#define REG_AFE_MISC_8723D				0x0010	/* 1 Byte */
++#define REG_SPS0_CTRL_8723D				0x0011	/* 7 Byte */
++#define REG_SPS_OCP_CFG_8723D			0x0018	/* 4 Byte */
++#define REG_RSV_CTRL_8723D				0x001C	/* 3 Byte */
++#define REG_RF_CTRL_8723D				0x001F	/* 1 Byte */
++#define REG_LPLDO_CTRL_8723D			0x0023	/* 1 Byte */
++#define REG_AFE_XTAL_CTRL_8723D		0x0024	/* 4 Byte */
++#define REG_AFE_PLL_CTRL_8723D			0x0028	/* 4 Byte */
++#define REG_MAC_PLL_CTRL_EXT_8723D		0x002c	/* 4 Byte */
++#define REG_EFUSE_CTRL_8723D			0x0030
++#define REG_EFUSE_TEST_8723D			0x0034
++#define REG_PWR_DATA_8723D				0x0038
++#define REG_CAL_TIMER_8723D				0x003C
++#define REG_ACLK_MON_8723D				0x003E
++#define REG_GPIO_MUXCFG_8723D			0x0040
++#define REG_GPIO_IO_SEL_8723D			0x0042
++#define REG_MAC_PINMUX_CFG_8723D		0x0043
++#define REG_GPIO_PIN_CTRL_8723D			0x0044
++#define REG_GPIO_INTM_8723D				0x0048
++#define REG_LEDCFG0_8723D				0x004C
++#define REG_LEDCFG1_8723D				0x004D
++#define REG_LEDCFG2_8723D				0x004E
++#define REG_LEDCFG3_8723D				0x004F
++#define REG_FSIMR_8723D					0x0050
++#define REG_FSISR_8723D					0x0054
++#define REG_HSIMR_8723D					0x0058
++#define REG_HSISR_8723D					0x005c
++#define REG_GPIO_EXT_CTRL				0x0060
++#define REG_PAD_CTRL1_8723D		0x0064
++#define REG_MULTI_FUNC_CTRL_8723D		0x0068
++#define REG_GPIO_STATUS_8723D			0x006C
++#define REG_SDIO_CTRL_8723D				0x0070
++#define REG_OPT_CTRL_8723D				0x0074
++#define REG_AFE_CTRL_4_8723D		0x0078
++#define REG_MCUFWDL_8723D				0x0080
++#define REG_8051FW_CTRL_8723D			0x0080
++#define REG_HMEBOX_DBG_0_8723D	0x0088
++#define REG_HMEBOX_DBG_1_8723D	0x008A
++#define REG_HMEBOX_DBG_2_8723D	0x008C
++#define REG_HMEBOX_DBG_3_8723D	0x008E
++#define REG_WLLPS_CTRL		0x0090
++#define REG_HIMR0_8723D					0x00B0
++#define REG_HISR0_8723D					0x00B4
++#define REG_HIMR1_8723D					0x00B8
++#define REG_HISR1_8723D					0x00BC
++#define REG_PMC_DBG_CTRL2_8723D			0x00CC
++#define	REG_EFUSE_BURN_GNT_8723D		0x00CF
++#define REG_HPON_FSM_8723D				0x00EC
++#define REG_SYS_CFG_8723D				0x00FC
++#define REG_ROM_VERSION					0x00FD
++
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_C2HEVT_CMD_ID_8723D	0x01A0
++#define REG_C2HEVT_CMD_SEQ_88XX		0x01A1
++#define REG_C2hEVT_CMD_CONTENT_88XX	0x01A2
++#define REG_C2HEVT_CMD_LEN_8723D        0x01AE
++#define REG_C2HEVT_CLEAR_8723D			0x01AF
++#define REG_MCUTST_1_8723D				0x01C0
++#define REG_WOWLAN_WAKE_REASON 0x01C7
++#define REG_FMETHR_8723D				0x01C8
++#define REG_HMETFR_8723D				0x01CC
++#define REG_HMEBOX_0_8723D				0x01D0
++#define REG_HMEBOX_1_8723D				0x01D4
++#define REG_HMEBOX_2_8723D				0x01D8
++#define REG_HMEBOX_3_8723D				0x01DC
++#define REG_LLT_INIT_8723D				0x01E0
++#define REG_HMEBOX_EXT0_8723D			0x01F0
++#define REG_HMEBOX_EXT1_8723D			0x01F4
++#define REG_HMEBOX_EXT2_8723D			0x01F8
++#define REG_HMEBOX_EXT3_8723D			0x01FC
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RQPN_8723D					0x0200
++#define REG_FIFOPAGE_8723D				0x0204
++#define REG_DWBCN0_CTRL_8723D			REG_TDECTRL
++#define REG_TXDMA_OFFSET_CHK_8723D	0x020C
++#define REG_TXDMA_STATUS_8723D		0x0210
++#define REG_RQPN_NPQ_8723D			0x0214
++#define REG_DWBCN1_CTRL_8723D			0x0228
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RXDMA_AGG_PG_TH_8723D		0x0280
++#define REG_FW_UPD_RDPTR_8723D		0x0284 /* FW shall update this register before FW write RXPKT_RELEASE_POLL to 1 */
++#define REG_RXDMA_CONTROL_8723D		0x0286 /* Control the RX DMA. */
++#define REG_RXDMA_STATUS_8723D			0x0288
++#define REG_RXDMA_MODE_CTRL_8723D		0x0290
++#define REG_EARLY_MODE_CONTROL_8723D	0x02BC
++#define REG_RSVD5_8723D					0x02F0
++#define REG_RSVD6_8723D					0x02F4
++
++/* -----------------------------------------------------
++ *
++ *	0x0300h ~ 0x03FFh	PCIe
++ *
++ * ----------------------------------------------------- */
++#define	REG_PCIE_CTRL_REG_8723D			0x0300
++#define	REG_INT_MIG_8723D				0x0304	/* Interrupt Migration */
++#define	REG_BCNQ_TXBD_DESA_8723D		0x0308	/* TX Beacon Descriptor Address */
++#define	REG_MGQ_TXBD_DESA_8723D			0x0310	/* TX Manage Queue Descriptor Address */
++#define	REG_VOQ_TXBD_DESA_8723D			0x0318	/* TX VO Queue Descriptor Address */
++#define	REG_VIQ_TXBD_DESA_8723D			0x0320	/* TX VI Queue Descriptor Address */
++#define	REG_BEQ_TXBD_DESA_8723D			0x0328	/* TX BE Queue Descriptor Address */
++#define	REG_BKQ_TXBD_DESA_8723D			0x0330	/* TX BK Queue Descriptor Address */
++#define	REG_RXQ_RXBD_DESA_8723D			0x0338	/* RX Queue	Descriptor Address */
++#define REG_HI0Q_TXBD_DESA_8723D		0x0340
++#define REG_HI1Q_TXBD_DESA_8723D		0x0348
++#define REG_HI2Q_TXBD_DESA_8723D		0x0350
++#define REG_HI3Q_TXBD_DESA_8723D		0x0358
++#define REG_HI4Q_TXBD_DESA_8723D		0x0360
++#define REG_HI5Q_TXBD_DESA_8723D		0x0368
++#define REG_HI6Q_TXBD_DESA_8723D		0x0370
++#define REG_HI7Q_TXBD_DESA_8723D		0x0378
++#define	REG_MGQ_TXBD_NUM_8723D			0x0380
++#define	REG_RX_RXBD_NUM_8723D			0x0382
++#define	REG_VOQ_TXBD_NUM_8723D			0x0384
++#define	REG_VIQ_TXBD_NUM_8723D			0x0386
++#define	REG_BEQ_TXBD_NUM_8723D			0x0388
++#define	REG_BKQ_TXBD_NUM_8723D			0x038A
++#define	REG_HI0Q_TXBD_NUM_8723D			0x038C
++#define	REG_HI1Q_TXBD_NUM_8723D			0x038E
++#define	REG_HI2Q_TXBD_NUM_8723D			0x0390
++#define	REG_HI3Q_TXBD_NUM_8723D			0x0392
++#define	REG_HI4Q_TXBD_NUM_8723D			0x0394
++#define	REG_HI5Q_TXBD_NUM_8723D			0x0396
++#define	REG_HI6Q_TXBD_NUM_8723D			0x0398
++#define	REG_HI7Q_TXBD_NUM_8723D			0x039A
++#define	REG_TSFTIMER_HCI_8723D			0x039C
++#define	REG_BD_RW_PTR_CLR_8723D			0x039C
++
++/* Read Write Point */
++#define	REG_VOQ_TXBD_IDX_8723D			0x03A0
++#define	REG_VIQ_TXBD_IDX_8723D			0x03A4
++#define	REG_BEQ_TXBD_IDX_8723D			0x03A8
++#define	REG_BKQ_TXBD_IDX_8723D			0x03AC
++#define	REG_MGQ_TXBD_IDX_8723D			0x03B0
++#define	REG_RXQ_TXBD_IDX_8723D			0x03B4
++#define	REG_HI0Q_TXBD_IDX_8723D			0x03B8
++#define	REG_HI1Q_TXBD_IDX_8723D			0x03BC
++#define	REG_HI2Q_TXBD_IDX_8723D			0x03C0
++#define	REG_HI3Q_TXBD_IDX_8723D			0x03C4
++#define	REG_HI4Q_TXBD_IDX_8723D			0x03C8
++#define	REG_HI5Q_TXBD_IDX_8723D			0x03CC
++#define	REG_HI6Q_TXBD_IDX_8723D			0x03D0
++#define	REG_HI7Q_TXBD_IDX_8723D			0x03D4
++
++#define	REG_PCIE_HCPWM_8723DE			0x03D8 /* ?????? */
++#define	REG_PCIE_HRPWM_8723DE			0x03DC	/* PCIe RPWM  ?????? */
++#define	REG_DBI_WDATA_V1_8723D			0x03E8
++#define	REG_DBI_RDATA_V1_8723D			0x03EC
++#define	REG_DBI_FLAG_V1_8723D			0x03F0
++#define REG_MDIO_V1_8723D				0x03F4
++#define REG_PCIE_MIX_CFG_8723D			0x03F8
++#define REG_HCI_MIX_CFG_8723D			0x03FC
++
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_VOQ_INFORMATION_8723D		0x0400
++#define REG_VIQ_INFORMATION_8723D		0x0404
++#define REG_BEQ_INFORMATION_8723D		0x0408
++#define REG_BKQ_INFORMATION_8723D		0x040C
++#define REG_MGQ_INFORMATION_8723D		0x0410
++#define REG_HGQ_INFORMATION_8723D		0x0414
++#define REG_BCNQ_INFORMATION_8723D	0x0418
++#define REG_TXPKT_EMPTY_8723D			0x041A
++
++#define REG_FWHW_TXQ_CTRL_8723D		0x0420
++#define REG_HWSEQ_CTRL_8723D			0x0423
++#define REG_TXPKTBUF_BCNQ_BDNY_8723D	0x0424
++#define REG_TXPKTBUF_MGQ_BDNY_8723D	0x0425
++#define REG_LIFECTRL_CTRL_8723D			0x0426
++#define REG_MULTI_BCNQ_OFFSET_8723D	0x0427
++#define REG_SPEC_SIFS_8723D				0x0428
++#define REG_RL_8723D						0x042A
++#define REG_TXBF_CTRL_8723D				0x042C
++#define REG_DARFRC_8723D				0x0430
++#define REG_RARFRC_8723D				0x0438
++#define REG_RRSR_8723D					0x0440
++#define REG_ARFR0_8723D					0x0444
++#define REG_ARFR1_8723D					0x044C
++#define REG_CCK_CHECK_8723D				0x0454
++#define REG_AMPDU_MAX_TIME_8723D		0x0456
++#define REG_TXPKTBUF_BCNQ_BDNY1_8723D	0x0457
++
++#define REG_AMPDU_MAX_LENGTH_8723D	0x0458
++#define REG_TXPKTBUF_WMAC_LBK_BF_HD_8723D	0x045D
++#define REG_NDPA_OPT_CTRL_8723D		0x045F
++#define REG_FAST_EDCA_CTRL_8723D		0x0460
++#define REG_RD_RESP_PKT_TH_8723D		0x0463
++#define REG_DATA_SC_8723D				0x0483
++#ifdef CONFIG_WOWLAN
++	#define REG_TXPKTBUF_IV_LOW             0x0484
++	#define REG_TXPKTBUF_IV_HIGH            0x0488
++#endif
++#define REG_TXRPT_START_OFFSET		0x04AC
++#define REG_POWER_STAGE1_8723D		0x04B4
++#define REG_POWER_STAGE2_8723D		0x04B8
++#define REG_AMPDU_BURST_MODE_8723D	0x04BC
++#define REG_PKT_VO_VI_LIFE_TIME_8723D	0x04C0
++#define REG_PKT_BE_BK_LIFE_TIME_8723D	0x04C2
++#define REG_STBC_SETTING_8723D			0x04C4
++#define REG_HT_SINGLE_AMPDU_8723D		0x04C7
++#define REG_PROT_MODE_CTRL_8723D		0x04C8
++#define REG_MAX_AGGR_NUM_8723D		0x04CA
++#define REG_RTS_MAX_AGGR_NUM_8723D	0x04CB
++#define REG_BAR_MODE_CTRL_8723D		0x04CC
++#define REG_RA_TRY_RATE_AGG_LMT_8723D	0x04CF
++#define REG_MACID_PKT_DROP0_8723D		0x04D0
++#define REG_MACID_PKT_SLEEP_8723D		0x04D4
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_EDCA_VO_PARAM_8723D		0x0500
++#define REG_EDCA_VI_PARAM_8723D		0x0504
++#define REG_EDCA_BE_PARAM_8723D		0x0508
++#define REG_EDCA_BK_PARAM_8723D		0x050C
++#define REG_BCNTCFG_8723D				0x0510
++#define REG_PIFS_8723D					0x0512
++#define REG_RDG_PIFS_8723D				0x0513
++#define REG_SIFS_CTX_8723D				0x0514
++#define REG_SIFS_TRX_8723D				0x0516
++#define REG_AGGR_BREAK_TIME_8723D		0x051A
++#define REG_SLOT_8723D					0x051B
++#define REG_TX_PTCL_CTRL_8723D			0x0520
++#define REG_TXPAUSE_8723D				0x0522
++#define REG_DIS_TXREQ_CLR_8723D		0x0523
++#define REG_RD_CTRL_8723D				0x0524
++/*
++ * Format for offset 540h-542h:
++ *	[3:0]:   TBTT prohibit setup in unit of 32us. The time for HW getting beacon content before TBTT.
++ *	[7:4]:   Reserved.
++ *	[19:8]:  TBTT prohibit hold in unit of 32us. The time for HW holding to send the beacon packet.
++ *	[23:20]: Reserved
++ * Description:
++ *	              |
++ * |<--Setup--|--Hold------------>|
++ *	--------------|----------------------
++ * |
++ * TBTT
++ * Note: We cannot update beacon content to HW or send any AC packets during the time between Setup and Hold.
++ * Described by Designer Tim and Bruce, 2011-01-14.
++ *   */
++#define REG_TBTT_PROHIBIT_8723D			0x0540
++#define REG_RD_NAV_NXT_8723D			0x0544
++#define REG_NAV_PROT_LEN_8723D			0x0546
++#define REG_BCN_CTRL_8723D				0x0550
++#define REG_BCN_CTRL_1_8723D			0x0551
++#define REG_MBID_NUM_8723D				0x0552
++#define REG_DUAL_TSF_RST_8723D			0x0553
++#define REG_BCN_INTERVAL_8723D			0x0554
++#define REG_DRVERLYINT_8723D			0x0558
++#define REG_BCNDMATIM_8723D			0x0559
++#define REG_ATIMWND_8723D				0x055A
++#define REG_USTIME_TSF_8723D			0x055C
++#define REG_BCN_MAX_ERR_8723D			0x055D
++#define REG_RXTSF_OFFSET_CCK_8723D		0x055E
++#define REG_RXTSF_OFFSET_OFDM_8723D	0x055F
++#define REG_TSFTR_8723D					0x0560
++#define REG_CTWND_8723D					0x0572
++#define REG_SECONDARY_CCA_CTRL_8723D	0x0577
++#define REG_PSTIMER_8723D				0x0580
++#define REG_TIMER0_8723D				0x0584
++#define REG_TIMER1_8723D				0x0588
++#define REG_ACMHWCTRL_8723D			0x05C0
++#define REG_SCH_TXCMD_8723D			0x05F8
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_MAC_CR_8723D				0x0600
++#define REG_TCR_8723D					0x0604
++#define REG_RCR_8723D					0x0608
++#define REG_RX_PKT_LIMIT_8723D			0x060C
++#define REG_RX_DLK_TIME_8723D			0x060D
++#define REG_RX_DRVINFO_SZ_8723D		0x060F
++
++#define REG_MACID_8723D					0x0610
++#define REG_BSSID_8723D					0x0618
++#define REG_MAR_8723D					0x0620
++#define REG_MBIDCAMCFG_8723D			0x0628
++#define REG_WOWLAN_GTK_DBG1	0x630
++#define REG_WOWLAN_GTK_DBG2	0x634
++
++#define REG_USTIME_EDCA_8723D			0x0638
++#define REG_MAC_SPEC_SIFS_8723D		0x063A
++#define REG_RESP_SIFP_CCK_8723D			0x063C
++#define REG_RESP_SIFS_OFDM_8723D		0x063E
++#define REG_ACKTO_8723D					0x0640
++#define REG_CTS2TO_8723D				0x0641
++#define REG_EIFS_8723D					0x0642
++
++#define REG_NAV_UPPER_8723D			0x0652	/* unit of 128 */
++#define REG_TRXPTCL_CTL_8723D			0x0668
++
++/* Security */
++#define REG_CAMCMD_8723D				0x0670
++#define REG_CAMWRITE_8723D				0x0674
++#define REG_CAMREAD_8723D				0x0678
++#define REG_CAMDBG_8723D				0x067C
++#define REG_SECCFG_8723D				0x0680
++
++/* Power */
++#define REG_WOW_CTRL_8723D				0x0690
++#define REG_PS_RX_INFO_8723D			0x0692
++#define REG_UAPSD_TID_8723D				0x0693
++#define REG_WKFMCAM_CMD_8723D			0x0698
++#define REG_WKFMCAM_NUM_8723D			0x0698
++#define REG_WKFMCAM_RWD_8723D			0x069C
++#define REG_RXFLTMAP0_8723D				0x06A0
++#define REG_RXFLTMAP1_8723D				0x06A2
++#define REG_RXFLTMAP2_8723D				0x06A4
++#define REG_BCN_PSR_RPT_8723D			0x06A8
++#define REG_BT_COEX_TABLE_8723D		0x06C0
++#define REG_BFMER0_INFO_8723D			0x06E4
++#define REG_BFMER1_INFO_8723D			0x06EC
++#define REG_CSI_RPT_PARAM_BW20_8723D	0x06F4
++#define REG_CSI_RPT_PARAM_BW40_8723D	0x06F8
++#define REG_CSI_RPT_PARAM_BW80_8723D	0x06FC
++
++/* Hardware Port 2 */
++#define REG_MACID1_8723D				0x0700
++#define REG_BSSID1_8723D				0x0708
++#define REG_BFMEE_SEL_8723D				0x0714
++#define REG_SND_PTCL_CTRL_8723D		0x0718
++
++/* LTE_COEX */
++#define REG_LTECOEX_CTRL			0x07C0
++#define REG_LTECOEX_WRITE_DATA		0x07C4
++#define REG_LTECOEX_READ_DATA		0x07C8
++#define REG_LTECOEX_PATH_CONTROL	0x70
++
++/* ************************************************************
++ * SDIO Bus Specification
++ * ************************************************************ */
++
++/* -----------------------------------------------------
++ * SDIO CMD Address Mapping
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * I/O bus domain (Host)
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * SDIO register
++ * ----------------------------------------------------- */
++#define SDIO_REG_HCPWM1_8723D	0x025 /* HCI Current Power Mode 1 */
++
++
++/* ****************************************************************************
++ *	8723 Regsiter Bit and Content definition
++ * **************************************************************************** */
++
++#define BIT_USB_RXDMA_AGG_EN	BIT(31)
++#define RXDMA_AGG_MODE_EN		BIT(1)
++
++#ifdef CONFIG_WOWLAN
++	#define RXPKT_RELEASE_POLL		BIT(16)
++	#define RXDMA_IDLE				BIT(17)
++	#define RW_RELEASE_EN			BIT(18)
++#endif
++
++/* 2 HSISR
++ * interrupt mask which needs to clear */
++#define MASK_HSISR_CLEAR		(HSISR_GPIO12_0_INT |\
++		HSISR_SPS_OCP_INT |\
++		HSISR_RON_INT |\
++		HSISR_PDNINT |\
++		HSISR_GPIO9_INT)
++
++#ifdef CONFIG_RF_POWER_TRIM
++	#ifdef CONFIG_RTL8723D
++		#define EEPROM_RF_GAIN_OFFSET			0xC1
++	#endif
++
++	#define EEPROM_RF_GAIN_VAL				0x1F6
++#endif /*CONFIG_RF_POWER_TRIM*/
++
++#ifdef CONFIG_PCI_HCI
++	/* #define IMR_RX_MASK		(IMR_ROK_8723D|IMR_RDU_8723D|IMR_RXFOVW_8723D) */
++	#define IMR_TX_MASK			(IMR_VODOK_8723D | IMR_VIDOK_8723D | IMR_BEDOK_8723D | IMR_BKDOK_8723D | IMR_MGNTDOK_8723D | IMR_HIGHDOK_8723D)
++
++	#define RT_BCN_INT_MASKS	(IMR_BCNDMAINT0_8723D | IMR_TXBCN0OK_8723D | IMR_TXBCN0ERR_8723D | IMR_BCNDERR0_8723D)
++
++	#define RT_AC_INT_MASKS	(IMR_VIDOK_8723D | IMR_VODOK_8723D | IMR_BEDOK_8723D | IMR_BKDOK_8723D)
++#endif
++
++/* ********************************************************
++ * General definitions
++ * ******************************************************** */
++
++#define MACID_NUM_8723D 16
++#define SEC_CAM_ENT_NUM_8723D 32
++#define HW_PORT_NUM_8723D 3	/*port0, port1, port2*/
++#define NSS_NUM_8723D 1
++#define BAND_CAP_8723D (BAND_CAP_2G)
++#define BW_CAP_8723D (BW_CAP_20M | BW_CAP_40M)
++#define PROTO_CAP_8723D (PROTO_CAP_11B | PROTO_CAP_11G | PROTO_CAP_11N)
++
++#endif /* __RTL8723D_SPEC_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8723d_sreset.h b/drivers/net/wireless/rtl8812au/include/rtl8723d_sreset.h
+new file mode 100644
+index 0000000..aafe7c8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8723d_sreset.h
+@@ -0,0 +1,29 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8723D_SRESET_H_
++#define _RTL8723D_SRESET_H_
++
++#include <rtw_sreset.h>
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	extern void rtl8723d_sreset_xmit_status_check(_adapter *padapter);
++	extern void rtl8723d_sreset_linked_status_check(_adapter *padapter);
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8723d_xmit.h b/drivers/net/wireless/rtl8812au/include/rtl8723d_xmit.h
+new file mode 100644
+index 0000000..20f98b0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8723d_xmit.h
+@@ -0,0 +1,522 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8723D_XMIT_H__
++#define __RTL8723D_XMIT_H__
++
++
++#define MAX_TID (15)
++
++
++#ifndef __INC_HAL8723DDESC_H
++#define __INC_HAL8723DDESC_H
++
++#define RX_STATUS_DESC_SIZE_8723D		24
++#define RX_DRV_INFO_SIZE_UNIT_8723D 8
++
++
++/* DWORD 0 */
++#define SET_RX_STATUS_DESC_PKT_LEN_8723D(__pRxStatusDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++#define SET_RX_STATUS_DESC_EOR_8723D(__pRxStatusDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 30, 1, __Value)
++#define SET_RX_STATUS_DESC_OWN_8723D(__pRxStatusDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 31, 1, __Value)
++
++#define GET_RX_STATUS_DESC_PKT_LEN_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 0, 14)
++#define GET_RX_STATUS_DESC_CRC32_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 14, 1)
++#define GET_RX_STATUS_DESC_ICV_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++#define GET_RX_STATUS_DESC_DRVINFO_SIZE_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 4)
++#define GET_RX_STATUS_DESC_SECURITY_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 20, 3)
++#define GET_RX_STATUS_DESC_QOS_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 23, 1)
++#define GET_RX_STATUS_DESC_SHIFT_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 24, 2)
++#define GET_RX_STATUS_DESC_PHY_STATUS_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 26, 1)
++#define GET_RX_STATUS_DESC_SWDEC_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 27, 1)
++#define GET_RX_STATUS_DESC_EOR_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 30, 1)
++#define GET_RX_STATUS_DESC_OWN_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc, 31, 1)
++
++/* DWORD 1 */
++#define GET_RX_STATUS_DESC_MACID_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 0, 7)
++#define GET_RX_STATUS_DESC_TID_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 8, 4)
++#define GET_RX_STATUS_DESC_AMSDU_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 13, 1)
++#define GET_RX_STATUS_DESC_RXID_MATCH_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 14, 1)
++#define GET_RX_STATUS_DESC_PAGGR_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 15, 1)
++#define GET_RX_STATUS_DESC_A1_FIT_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 16, 4)
++#define GET_RX_STATUS_DESC_CHKERR_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 20, 1)
++#define GET_RX_STATUS_DESC_IPVER_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 21, 1)
++#define GET_RX_STATUS_DESC_IS_TCPUDP__8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 22, 1)
++#define GET_RX_STATUS_DESC_CHK_VLD_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 23, 1)
++#define GET_RX_STATUS_DESC_PAM_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 24, 1)
++#define GET_RX_STATUS_DESC_PWR_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 25, 1)
++#define GET_RX_STATUS_DESC_MORE_DATA_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 26, 1)
++#define GET_RX_STATUS_DESC_MORE_FRAG_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 27, 1)
++#define GET_RX_STATUS_DESC_TYPE_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 28, 2)
++#define GET_RX_STATUS_DESC_MC_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 30, 1)
++#define GET_RX_STATUS_DESC_BC_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+4, 31, 1)
++
++/* DWORD 2 */
++#define GET_RX_STATUS_DESC_SEQ_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 0, 12)
++#define GET_RX_STATUS_DESC_FRAG_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 12, 4)
++#define GET_RX_STATUS_DESC_RX_IS_QOS_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 16, 1)
++#define GET_RX_STATUS_DESC_WLANHD_IV_LEN_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 18, 6)
++#define GET_RX_STATUS_DESC_RPT_SEL_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 28, 1)
++#define GET_RX_STATUS_DESC_FCS_OK_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 31, 1)
++
++/* DWORD 3 */
++#define GET_RX_STATUS_DESC_RX_RATE_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 0, 7)
++#define GET_RX_STATUS_DESC_HTC_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 10, 1)
++#define GET_RX_STATUS_DESC_EOSP_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 11, 1)
++#define GET_RX_STATUS_DESC_BSSID_FIT_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 12, 2)
++#ifdef CONFIG_USB_RX_AGGREGATION
++#define GET_RX_STATUS_DESC_USB_AGG_PKTNUM_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 16, 8)
++#endif
++#define GET_RX_STATUS_DESC_PATTERN_MATCH_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+12, 29, 1)
++#define GET_RX_STATUS_DESC_UNICAST_MATCH_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+12, 30, 1)
++#define GET_RX_STATUS_DESC_MAGIC_MATCH_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+12, 31, 1)
++
++/* DWORD 6 */
++#define GET_RX_STATUS_DESC_MATCH_ID_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+16, 0, 7)
++
++/* DWORD 5 */
++#define GET_RX_STATUS_DESC_TSFL_8723D(__pRxStatusDesc) \
++	LE_BITS_TO_4BYTE(__pRxStatusDesc+20, 0, 32)
++
++#define GET_RX_STATUS_DESC_BUFF_ADDR_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+24, 0, 32)
++#define GET_RX_STATUS_DESC_BUFF_ADDR64_8723D(__pRxDesc) \
++	LE_BITS_TO_4BYTE(__pRxDesc+28, 0, 32)
++
++#define SET_RX_STATUS_DESC_BUFF_ADDR_8723D(__pRxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pRxDesc+24, 0, 32, __Value)
++
++
++/* Dword 0, rsvd: bit26, bit28 */
++#define GET_TX_DESC_OWN_8723D(__pTxDesc)\
++	LE_BITS_TO_4BYTE(__pTxDesc, 31, 1)
++
++#define SET_TX_DESC_PKT_SIZE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 16, __Value)
++#define SET_TX_DESC_OFFSET_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 8, __Value)
++#define SET_TX_DESC_BMC_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc, 24, 1, __Value)
++#define SET_TX_DESC_HTC_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc, 25, 1, __Value)
++#define SET_TX_DESC_AMSDU_PAD_EN_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc, 27, 1, __Value)
++#define SET_TX_DESC_NO_ACM_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc, 29, 1, __Value)
++#define SET_TX_DESC_GF_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc, 30, 1, __Value)
++
++/* Dword 1 */
++#define SET_TX_DESC_MACID_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 7, __Value)
++#define SET_TX_DESC_QUEUE_SEL_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 8, 5, __Value)
++#define SET_TX_DESC_RDG_NAV_EXT_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 13, 1, __Value)
++#define SET_TX_DESC_LSIG_TXOP_EN_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 14, 1, __Value)
++#define SET_TX_DESC_PIFS_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 15, 1, __Value)
++#define SET_TX_DESC_RATE_ID_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 16, 5, __Value)
++#define SET_TX_DESC_EN_DESC_ID_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 21, 1, __Value)
++#define SET_TX_DESC_SEC_TYPE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 22, 2, __Value)
++#define SET_TX_DESC_PKT_OFFSET_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 24, 5, __Value)
++#define SET_TX_DESC_MORE_DATA_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 29, 1, __Value)
++
++/* Dword 2  remove P_AID, G_ID field*/
++#define SET_TX_DESC_CCA_RTS_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 10, 2, __Value)
++#define SET_TX_DESC_AGG_ENABLE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 12, 1, __Value)
++#define SET_TX_DESC_RDG_ENABLE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 13, 1, __Value)
++#define SET_TX_DESC_NULL0_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 14, 1, __Value)
++#define SET_TX_DESC_NULL1_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 15, 1, __Value)
++#define SET_TX_DESC_BK_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 16, 1, __Value)
++#define SET_TX_DESC_MORE_FRAG_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 17, 1, __Value)
++#define SET_TX_DESC_RAW_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 18, 1, __Value)
++#define SET_TX_DESC_CCX_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 19, 1, __Value)
++#define SET_TX_DESC_AMPDU_DENSITY_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 20, 3, __Value)
++#define SET_TX_DESC_BT_INT_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 23, 1, __Value)
++#define SET_TX_DESC_FTM_EN_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 30, 1, __Value)
++
++/* Dword 3 */
++#define SET_TX_DESC_NAV_USE_HDR_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 5, 1, __Value)
++#define SET_TX_DESC_HWSEQ_SEL_8723D(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 6, 2, __Value)
++#define SET_TX_DESC_USE_RATE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 8, 1, __Value)
++#define SET_TX_DESC_DISABLE_RTS_FB_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 9, 1, __Value)
++#define SET_TX_DESC_DISABLE_FB_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 10, 1, __Value)
++#define SET_TX_DESC_CTS2SELF_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 11, 1, __Value)
++#define SET_TX_DESC_RTS_ENABLE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 12, 1, __Value)
++#define SET_TX_DESC_HW_RTS_ENABLE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 13, 1, __Value)
++#define SET_TX_DESC_PORT_ID_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 14, 2, __Value)
++#define SET_TX_DESC_USE_MAX_LEN_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 16, 1, __Value)
++#define SET_TX_DESC_MAX_AGG_NUM_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 17, 5, __Value)
++#define SET_TX_DESC_AMPDU_MAX_TIME_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 24, 8, __Value)
++
++/* Dword 4 */
++#define SET_TX_DESC_TX_RATE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 0, 7, __Value)
++#define SET_TX_DESC_TX_TRY_RATE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 7, 1, __Value)
++#define SET_TX_DESC_DATA_RATE_FB_LIMIT_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 8, 5, __Value)
++#define SET_TX_DESC_RTS_RATE_FB_LIMIT_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 13, 4, __Value)
++#define SET_TX_DESC_RETRY_LIMIT_ENABLE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 17, 1, __Value)
++#define SET_TX_DESC_DATA_RETRY_LIMIT_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 18, 6, __Value)
++#define SET_TX_DESC_RTS_RATE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 24, 5, __Value)
++#define SET_TX_DESC_PCTS_EN_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 29, 1, __Value)
++#define SET_TX_DESC_PCTS_MASK_IDX_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 30, 2, __Value)
++
++/* Dword 5 */
++#define SET_TX_DESC_DATA_SC_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 0, 4, __Value)
++#define SET_TX_DESC_DATA_SHORT_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 4, 1, __Value)
++#define SET_TX_DESC_DATA_BW_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 5, 2, __Value)
++#define SET_TX_DESC_DATA_STBC_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 8, 2, __Value)
++#define SET_TX_DESC_RTS_STBC_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 10, 2, __Value)
++#define SET_TX_DESC_RTS_SHORT_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 12, 1, __Value)
++#define SET_TX_DESC_RTS_SC_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 13, 4, __Value)
++#define SET_TX_DESC_PATH_A_EN_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 24, 1, __Value)
++#define SET_TX_DESC_TXPWR_OF_SET_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 28, 3, __Value)
++
++/* Dword 6 */
++#define SET_TX_DESC_SW_DEFINE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 0, 12, __Value)
++#define SET_TX_DESC_MBSSID_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 12, 4, __Value)
++#define SET_TX_DESC_RF_SEL_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 16, 3, __Value)
++
++/* Dword 7 */
++#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++#define SET_TX_DESC_TX_BUFFER_SIZE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#elif(DEV_BUS_TYPE == RT_USB_INTERFACE)
++#define SET_TX_DESC_TX_DESC_CHECKSUM_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#else
++#define SET_TX_DESC_TX_TIMESTAMP_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 6, 18, __Value)
++#endif
++
++#define SET_TX_DESC_USB_TXAGG_NUM_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 24, 8, __Value)
++
++/* Dword 8 */
++#define SET_TX_DESC_RTS_RC_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 0, 6, __Value)
++#define SET_TX_DESC_BAR_RC_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 6, 2, __Value)
++#define SET_TX_DESC_DATA_RC_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 8, 6, __Value)
++#define SET_TX_DESC_HWSEQ_EN_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 15, 1, __Value)
++#define SET_TX_DESC_NEXTHEADPAGE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 16, 8, __Value)
++#define SET_TX_DESC_TAILPAGE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 24, 8, __Value)
++
++/* Dword 9 */
++#define SET_TX_DESC_PADDING_LEN_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 0, 11, __Value)
++#define SET_TX_DESC_SEQ_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 12, 12, __Value)
++#define SET_TX_DESC_FINAL_DATA_RATE_8723D(__pTxDesc, __Value) \
++	SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 24, 8, __Value)
++
++
++#define SET_EARLYMODE_PKTNUM_8723D(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 0, 4, __Value)
++#define SET_EARLYMODE_LEN0_8723D(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 4, 15, __Value)
++#define SET_EARLYMODE_LEN1_1_8723D(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 19, 13, __Value)
++#define SET_EARLYMODE_LEN1_2_8723D(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 2, __Value)
++#define SET_EARLYMODE_LEN2_8723D(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 2, 15,	__Value)
++#define SET_EARLYMODE_LEN3_8723D(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 17, 15, __Value)
++
++
++/*-----------------------------------------------------------------*/
++/*	RTL8723D TX BUFFER DESC                                      */
++/*-----------------------------------------------------------------*/
++#ifdef CONFIG_64BIT_DMA
++	#define SET_TXBUFFER_DESC_LEN_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*16), 0, 16, __Valeu)
++	#define SET_TXBUFFER_DESC_AMSDU_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*16), 31, 1, __Valeu)
++	#define SET_TXBUFFER_DESC_ADD_LOW_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*16)+4, 0, 32, __Valeu)
++	#define SET_TXBUFFER_DESC_ADD_HIGT_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*16)+8, 0, 32, __Valeu)
++#else
++	#define SET_TXBUFFER_DESC_LEN_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*8), 0, 16, __Valeu)
++	#define SET_TXBUFFER_DESC_AMSDU_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*8), 31, 1, __Valeu)
++	#define SET_TXBUFFER_DESC_ADD_LOW_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Offset*8)+4, 0, 32, __Valeu)
++	#define SET_TXBUFFER_DESC_ADD_HIGT_WITH_OFFSET(__pTxDesc, __Offset, __Valeu)	/* 64 BIT mode only */
++#endif
++/* ********************************************************* */
++
++/* 64 bits  -- 32 bits */
++/* =======     ======= */
++/* Dword 0     0 */
++#define SET_TX_BUFF_DESC_LEN_0_8723D(__pTxDesc, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 14, __Valeu)
++#define SET_TX_BUFF_DESC_PSB_8723D(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 15, __Value)
++#define SET_TX_BUFF_DESC_OWN_8723D(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 31, 1, __Value)
++
++/* Dword 1     1 */
++#define SET_TX_BUFF_DESC_ADDR_LOW_0_8723D(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 32, __Value)
++#define GET_TX_BUFF_DESC_ADDR_LOW_0_8723D(__pTxDesc) LE_BITS_TO_4BYTE(__pTxDesc+4, 0, 32)
++/* Dword 2     NA */
++#define SET_TX_BUFF_DESC_ADDR_HIGH_0_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_ADD_HIGT_WITH_OFFSET(__pTxDesc, 0, __Value)
++#ifdef CONFIG_64BIT_DMA
++	#define GET_TX_BUFF_DESC_ADDR_HIGH_0_8723D(__pTxDesc) LE_BITS_TO_4BYTE(__pTxDesc+8, 0, 32)
++#else
++	#define GET_TX_BUFF_DESC_ADDR_HIGH_0_8723D(__pTxDesc) 0
++#endif
++/* Dword 3     NA */
++/* RESERVED 0 */
++/* Dword 4     2 */
++#define SET_TX_BUFF_DESC_LEN_1_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_LEN_WITH_OFFSET(__pTxDesc, 1, __Value)
++#define SET_TX_BUFF_DESC_AMSDU_1_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_AMSDU_WITH_OFFSET(__pTxDesc, 1, __Value)
++/* Dword 5     3 */
++#define SET_TX_BUFF_DESC_ADDR_LOW_1_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_ADD_LOW_WITH_OFFSET(__pTxDesc, 1, __Value)
++/* Dword 6     NA */
++#define SET_TX_BUFF_DESC_ADDR_HIGH_1_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_ADD_HIGT_WITH_OFFSET(__pTxDesc, 1, __Value)
++/* Dword 7     NA */
++/*RESERVED 0 */
++/* Dword 8     4 */
++#define SET_TX_BUFF_DESC_LEN_2_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_LEN_WITH_OFFSET(__pTxDesc, 2, __Value)
++#define SET_TX_BUFF_DESC_AMSDU_2_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_AMSDU_WITH_OFFSET(__pTxDesc, 2, __Value)
++/* Dword 9     5 */
++#define SET_TX_BUFF_DESC_ADDR_LOW_2_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_ADD_LOW_WITH_OFFSET(__pTxDesc, 2, __Value)
++/* Dword 10    NA */
++#define SET_TX_BUFF_DESC_ADDR_HIGH_2_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_ADD_HIGT_WITH_OFFSET(__pTxDesc, 2, __Value)
++/* Dword 11    NA */
++/*RESERVED 0 */
++/* Dword 12    6 */
++#define SET_TX_BUFF_DESC_LEN_3_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_LEN_WITH_OFFSET(__pTxDesc, 3, __Value)
++#define SET_TX_BUFF_DESC_AMSDU_3_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_AMSDU_WITH_OFFSET(__pTxDesc, 3, __Value)
++/* Dword 13    7 */
++#define SET_TX_BUFF_DESC_ADDR_LOW_3_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_ADD_LOW_WITH_OFFSET(__pTxDesc, 3, __Value)
++/* Dword 14    NA */
++#define SET_TX_BUFF_DESC_ADDR_HIGH_3_8723D(__pTxDesc, __Value) SET_TXBUFFER_DESC_ADD_HIGT_WITH_OFFSET(__pTxDesc, 3, __Value)
++/* Dword 15    NA */
++/*RESERVED 0 */
++
++
++#endif
++/* -----------------------------------------------------------
++ *
++ *	Rate
++ *
++ * -----------------------------------------------------------
++ * CCK Rates, TxHT = 0 */
++#define DESC8723D_RATE1M				0x00
++#define DESC8723D_RATE2M				0x01
++#define DESC8723D_RATE5_5M				0x02
++#define DESC8723D_RATE11M				0x03
++
++/* OFDM Rates, TxHT = 0 */
++#define DESC8723D_RATE6M				0x04
++#define DESC8723D_RATE9M				0x05
++#define DESC8723D_RATE12M				0x06
++#define DESC8723D_RATE18M				0x07
++#define DESC8723D_RATE24M				0x08
++#define DESC8723D_RATE36M				0x09
++#define DESC8723D_RATE48M				0x0a
++#define DESC8723D_RATE54M				0x0b
++
++/* MCS Rates, TxHT = 1 */
++#define DESC8723D_RATEMCS0				0x0c
++#define DESC8723D_RATEMCS1				0x0d
++#define DESC8723D_RATEMCS2				0x0e
++#define DESC8723D_RATEMCS3				0x0f
++#define DESC8723D_RATEMCS4				0x10
++#define DESC8723D_RATEMCS5				0x11
++#define DESC8723D_RATEMCS6				0x12
++#define DESC8723D_RATEMCS7				0x13
++#define DESC8723D_RATEMCS8				0x14
++#define DESC8723D_RATEMCS9				0x15
++#define DESC8723D_RATEMCS10		0x16
++#define DESC8723D_RATEMCS11		0x17
++#define DESC8723D_RATEMCS12		0x18
++#define DESC8723D_RATEMCS13		0x19
++#define DESC8723D_RATEMCS14		0x1a
++#define DESC8723D_RATEMCS15		0x1b
++#define DESC8723D_RATEVHTSS1MCS0		0x2c
++#define DESC8723D_RATEVHTSS1MCS1		0x2d
++#define DESC8723D_RATEVHTSS1MCS2		0x2e
++#define DESC8723D_RATEVHTSS1MCS3		0x2f
++#define DESC8723D_RATEVHTSS1MCS4		0x30
++#define DESC8723D_RATEVHTSS1MCS5		0x31
++#define DESC8723D_RATEVHTSS1MCS6		0x32
++#define DESC8723D_RATEVHTSS1MCS7		0x33
++#define DESC8723D_RATEVHTSS1MCS8		0x34
++#define DESC8723D_RATEVHTSS1MCS9		0x35
++#define DESC8723D_RATEVHTSS2MCS0		0x36
++#define DESC8723D_RATEVHTSS2MCS1		0x37
++#define DESC8723D_RATEVHTSS2MCS2		0x38
++#define DESC8723D_RATEVHTSS2MCS3		0x39
++#define DESC8723D_RATEVHTSS2MCS4		0x3a
++#define DESC8723D_RATEVHTSS2MCS5		0x3b
++#define DESC8723D_RATEVHTSS2MCS6		0x3c
++#define DESC8723D_RATEVHTSS2MCS7		0x3d
++#define DESC8723D_RATEVHTSS2MCS8		0x3e
++#define DESC8723D_RATEVHTSS2MCS9		0x3f
++
++
++#define	RX_HAL_IS_CCK_RATE_8723D(pDesc)\
++	(GET_RX_STATUS_DESC_RX_RATE_8723D(pDesc) == DESC8723D_RATE1M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8723D(pDesc) == DESC8723D_RATE2M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8723D(pDesc) == DESC8723D_RATE5_5M || \
++	 GET_RX_STATUS_DESC_RX_RATE_8723D(pDesc) == DESC8723D_RATE11M)
++
++#ifdef CONFIG_TRX_BD_ARCH
++	struct tx_desc;
++#endif
++
++void rtl8723d_cal_txdesc_chksum(struct tx_desc *ptxdesc);
++void rtl8723d_update_txdesc(struct xmit_frame *pxmitframe, u8 *pmem);
++void rtl8723d_fill_txdesc_sectype(struct pkt_attrib *pattrib, struct tx_desc *ptxdesc);
++void rtl8723d_fill_txdesc_vcs(PADAPTER padapter, struct pkt_attrib *pattrib, struct tx_desc *ptxdesc);
++void rtl8723d_fill_txdesc_phy(PADAPTER padapter, struct pkt_attrib *pattrib, struct tx_desc *ptxdesc);
++void rtl8723d_fill_fake_txdesc(PADAPTER padapter, u8 *pDesc, u32 BufferLen, u8 IsPsPoll, u8 IsBTQosNull, u8 bDataFrame);
++
++#if defined(CONFIG_CONCURRENT_MODE)
++	void fill_txdesc_force_bmc_camid(struct pkt_attrib *pattrib, u8 *ptxdesc);
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	s32 rtl8723ds_init_xmit_priv(PADAPTER padapter);
++	void rtl8723ds_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8723ds_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8723ds_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8723ds_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8723ds_xmit_buf_handler(PADAPTER padapter);
++	thread_return rtl8723ds_xmit_thread(thread_context context);
++	#define hal_xmit_handler rtl8723ds_xmit_buf_handler
++#endif
++
++#ifdef CONFIG_USB_HCI
++	s32 rtl8723du_xmit_buf_handler(PADAPTER padapter);
++	#define hal_xmit_handler rtl8723du_xmit_buf_handler
++	s32 rtl8723du_init_xmit_priv(PADAPTER padapter);
++	void rtl8723du_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8723du_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8723du_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	 rtl8723du_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	void rtl8723du_xmit_tasklet(void *priv);
++	s32 rtl8723du_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++	void _dbg_dump_tx_info(_adapter	*padapter, int frame_tag, struct tx_desc *ptxdesc);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8723de_init_xmit_priv(PADAPTER padapter);
++	void rtl8723de_free_xmit_priv(PADAPTER padapter);
++	struct xmit_buf *rtl8723de_dequeue_xmitbuf(struct rtw_tx_ring *ring);
++	void	rtl8723de_xmitframe_resume(_adapter *padapter);
++	s32 rtl8723de_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8723de_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8723de_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	void rtl8723de_xmit_tasklet(void *priv);
++#endif
++
++u8	BWMapping_8723D(PADAPTER Adapter, struct pkt_attrib *pattrib);
++u8	SCMapping_8723D(PADAPTER Adapter, struct pkt_attrib	*pattrib);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8812a_cmd.h b/drivers/net/wireless/rtl8812au/include/rtl8812a_cmd.h
+new file mode 100644
+index 0000000..e03e6e2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8812a_cmd.h
+@@ -0,0 +1,182 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8812A_CMD_H__
++#define __RTL8812A_CMD_H__
++
++typedef enum _RTL8812_H2C_CMD {
++	H2C_8812_RSVDPAGE = 0,
++	H2C_8812_MSRRPT = 1,
++	H2C_8812_SCAN = 2,
++	H2C_8812_KEEP_ALIVE_CTRL = 3,
++	H2C_8812_DISCONNECT_DECISION = 4,
++
++	H2C_8812_INIT_OFFLOAD = 6,
++	H2C_8812_AP_OFFLOAD = 8,
++	H2C_8812_BCN_RSVDPAGE = 9,
++	H2C_8812_PROBERSP_RSVDPAGE = 10,
++
++	H2C_8812_SETPWRMODE = 0x20,
++	H2C_8812_PS_TUNING_PARA = 0x21,
++	H2C_8812_PS_TUNING_PARA2 = 0x22,
++	H2C_8812_PS_LPS_PARA = 0x23,
++	H2C_8812_P2P_PS_OFFLOAD = 0x24,
++	H2C_8812_INACTIVE_PS = 0x27,
++	H2C_8812_RA_MASK = 0x40,
++	H2C_8812_TxBF = 0x41,
++	H2C_8812_RSSI_REPORT = 0x42,
++	H2C_8812_IQ_CALIBRATION = 0x45,
++	H2C_8812_RA_PARA_ADJUST = 0x46,
++
++	H2C_8812_BT_FW_PATCH = 0x6a,
++
++	H2C_8812_WO_WLAN = 0x80,
++	H2C_8812_REMOTE_WAKE_CTRL = 0x81,
++	H2C_8812_AOAC_GLOBAL_INFO = 0x82,
++	H2C_8812_AOAC_RSVDPAGE = 0x83,
++	H2C_8812_FW_SWCHANNL = 0x87,
++
++	H2C_8812_TSF_RESET = 0xC0,
++
++	MAX_8812_H2CCMD
++} RTL8812_H2C_CMD;
++
++struct cmd_msg_parm {
++	u8 eid; /* element id */
++	u8 sz; /* sz */
++	u8 buf[6];
++};
++
++enum {
++	PWRS
++};
++
++struct H2C_SS_RFOFF_PARAM {
++	u8 ROFOn; /* 1: on, 0:off */
++	u16 gpio_period; /* unit: 1024 us */
++} __attribute__((packed));
++
++
++
++/* _RSVDPAGE_LOC_CMD0 */
++#define SET_8812_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8812_H2CCMD_RSVDPAGE_LOC_PSPOLL(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_8812_H2CCMD_RSVDPAGE_LOC_NULL_DATA(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8812_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8812_H2CCMD_RSVDPAGE_LOC_BT_QOS_NULL_DATA(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++
++/* _SETPWRMODE_PARM */
++#define SET_8812_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8812_H2CCMD_PWRMODE_PARM_RLBM(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 4, __Value)
++#define SET_8812_H2CCMD_PWRMODE_PARM_SMART_PS(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 4, 4, __Value)
++#define SET_8812_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8812_H2CCMD_PWRMODE_PARM_ALL_QUEUE_UAPSD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8812_H2CCMD_PWRMODE_PARM_BCN_EARLY_C2H_RPT(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 2, 1, __Value)
++#define SET_8812_H2CCMD_PWRMODE_PARM_PWR_STATE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8812_H2CCMD_PWRMODE_PARM_BYTE5(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++#define GET_8812_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd)							LE_BITS_TO_1BYTE(__pH2CCmd, 0, 8)
++
++/* _P2P_PS_OFFLOAD */
++#define SET_8812_H2CCMD_P2P_PS_OFFLOAD_ENABLE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8812_H2CCMD_P2P_PS_OFFLOAD_ROLE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8812_H2CCMD_P2P_PS_OFFLOAD_CTWINDOW_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_8812_H2CCMD_P2P_PS_OFFLOAD_NOA0_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 3, 1, __Value)
++#define SET_8812_H2CCMD_P2P_PS_OFFLOAD_NOA1_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 1, __Value)
++#define SET_8812_H2CCMD_P2P_PS_OFFLOAD_ALLSTASLEEP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 5, 1, __Value)
++#define SET_8812_H2CCMD_P2P_PS_OFFLOAD_DISCOVERY(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 6, 1, __Value)
++
++
++void	Set_RA_LDPC_8812(struct sta_info	*psta, BOOLEAN bLDPC);
++
++/* host message to firmware cmd */
++s32 FillH2CCmd_8812(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++void rtl8812_set_FwPwrMode_cmd(PADAPTER padapter, u8 PSMode);
++void rtl8812_set_FwJoinBssReport_cmd(PADAPTER padapter, u8 mstatus);
++u8 rtl8812_set_rssi_cmd(PADAPTER padapter, u8 *param);
++void rtl8812_set_raid_cmd(PADAPTER padapter, u32 bitmap, u8 *arg, u8 bw);
++void rtl8812_set_wowlan_cmd(_adapter *padapter, u8 enable);
++s32 FillH2CCmd_8812(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++u8 GetTxBufferRsvdPageNum8812(_adapter *padapter, bool wowlan);
++
++#ifdef CONFIG_BT_COEXIST
++void rtl8812a_download_BTCoex_AP_mode_rsvd_page(PADAPTER padapter);
++#endif /* CONFIG_BT_COEXIST */
++#ifdef CONFIG_P2P_PS
++void rtl8812_set_p2p_ps_offload_cmd(PADAPTER padapter, u8 p2p_ps_state);
++#endif /* CONFIG_P2P */
++
++#ifdef CONFIG_FWLPS_IN_IPS
++void rtl8812_set_FwPwrModeInIPS_cmd(PADAPTER padapter, u8 cmd_param);
++#endif
++
++void CheckFwRsvdPageContent(PADAPTER padapter);
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++void rtl8812_set_BcnEarly_C2H_Rpt_cmd(PADAPTER padapter, u8 enable);
++#endif
++#endif
++
++#ifdef CONFIG_TSF_RESET_OFFLOAD
++int reset_tsf(PADAPTER Adapter, u8 reset_port);
++#endif /* CONFIG_TSF_RESET_OFFLOAD */
++
++/* ------------------------------------
++ * C2H format
++ * ------------------------------------ */
++
++/* TX Beamforming */
++#define GET_8812_C2H_TXBF_ORIGINATE(_Header)			LE_BITS_TO_1BYTE(_Header, 0, 8)
++#define GET_8812_C2H_TXBF_MACID(_Header)				LE_BITS_TO_1BYTE((_Header + 1), 0, 8)
++
++
++
++/* / TX Feedback Content */
++#define	USEC_UNIT_FOR_8812_C2H_TX_RPT_QUEUE_TIME			256
++
++#define	GET_8812_C2H_TX_RPT_QUEUE_SELECT(_Header)			LE_BITS_TO_1BYTE((_Header + 0), 0, 5)
++#define	GET_8812_C2H_TX_RPT_PKT_BROCAST(_Header)			LE_BITS_TO_1BYTE((_Header + 0), 5, 1)
++#define	GET_8812_C2H_TX_RPT_LIFE_TIME_OVER(_Header)			LE_BITS_TO_1BYTE((_Header + 0), 6, 1)
++#define	GET_8812_C2H_TX_RPT_RETRY_OVER(_Header)				LE_BITS_TO_1BYTE((_Header + 0), 7, 1)
++#define	GET_8812_C2H_TX_RPT_MAC_ID(_Header)					LE_BITS_TO_1BYTE((_Header + 1), 0, 8)
++#define	GET_8812_C2H_TX_RPT_DATA_RETRY_CNT(_Header)		LE_BITS_TO_1BYTE((_Header + 2), 0, 6)
++#define	GET_8812_C2H_TX_RPT_QUEUE_TIME(_Header)				LE_BITS_TO_2BYTE((_Header + 3), 0, 16)	/* In unit of 256 microseconds. */
++#define	GET_8812_C2H_TX_RPT_FINAL_DATA_RATE(_Header)		LE_BITS_TO_1BYTE((_Header + 5), 0, 8)
++
++/* BT_FW_PATCH */
++#define SET_8812_H2CCMD_BT_FW_PATCH_SIZE(__pH2CCmd, __Value)					SET_BITS_TO_LE_2BYTE((pu1Byte)(__pH2CCmd), 0, 16, __Value)
++#define SET_8812_H2CCMD_BT_FW_PATCH_ADDR0(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((pu1Byte)(__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8812_H2CCMD_BT_FW_PATCH_ADDR1(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((pu1Byte)(__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8812_H2CCMD_BT_FW_PATCH_ADDR2(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((pu1Byte)(__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8812_H2CCMD_BT_FW_PATCH_ADDR3(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((pu1Byte)(__pH2CCmd)+5, 0, 8, __Value)
++
++int	rtl8812_iqk_wait(_adapter *padapter, u32 timeout_ms);
++void	rtl8812_iqk_done(_adapter *padapter);
++
++s32
++_C2HContentParsing8812(
++	IN	PADAPTER	Adapter,
++	IN	u8			c2hCmdId,
++	IN	u8			c2hCmdLen,
++	IN	u8			*tmpBuf
++);
++void	C2HPacketHandler_8812(PADAPTER Adapter, u8 *Buffer, u8 Length);
++
++#endif/* __RTL8812A_CMD_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8812a_dm.h b/drivers/net/wireless/rtl8812au/include/rtl8812a_dm.h
+new file mode 100644
+index 0000000..fef5824
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8812a_dm.h
+@@ -0,0 +1,32 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8812A_DM_H__
++#define __RTL8812A_DM_H__
++
++void rtl8812_init_dm_priv(IN PADAPTER Adapter);
++void rtl8812_deinit_dm_priv(IN PADAPTER Adapter);
++void rtl8812_InitHalDm(IN PADAPTER Adapter);
++void rtl8812_HalDmWatchDog(IN PADAPTER Adapter);
++
++/* VOID rtl8192c_dm_CheckTXPowerTracking(IN PADAPTER Adapter); */
++
++/* void rtl8192c_dm_RF_Saving(IN PADAPTER pAdapter, IN u8 bForceInNormal); */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8812a_hal.h b/drivers/net/wireless/rtl8812au/include/rtl8812a_hal.h
+new file mode 100644
+index 0000000..8c3db36
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8812a_hal.h
+@@ -0,0 +1,362 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8812A_HAL_H__
++#define __RTL8812A_HAL_H__
++
++/* #include "hal_com.h" */
++#include "hal_data.h"
++
++/* include HAL Related header after HAL Related compiling flags */
++#include "rtl8812a_spec.h"
++#include "rtl8812a_rf.h"
++#include "rtl8812a_dm.h"
++#include "rtl8812a_recv.h"
++#include "rtl8812a_xmit.h"
++#include "rtl8812a_cmd.h"
++#include "rtl8812a_led.h"
++#include "Hal8812PwrSeq.h"
++#include "Hal8821APwrSeq.h" /* for 8821A/8811A */
++#include "Hal8812PhyReg.h"
++#include "Hal8812PhyCfg.h"
++#ifdef DBG_CONFIG_ERROR_DETECT
++#include "rtl8812a_sreset.h"
++#endif
++
++/* ---------------------------------------------------------------------
++ *		RTL8812 Power Configuration CMDs for PCIe interface
++ * --------------------------------------------------------------------- */
++#define Rtl8812_NIC_PWR_ON_FLOW				rtl8812_power_on_flow
++#define Rtl8812_NIC_RF_OFF_FLOW				rtl8812_radio_off_flow
++#define Rtl8812_NIC_DISABLE_FLOW				rtl8812_card_disable_flow
++#define Rtl8812_NIC_ENABLE_FLOW				rtl8812_card_enable_flow
++#define Rtl8812_NIC_SUSPEND_FLOW				rtl8812_suspend_flow
++#define Rtl8812_NIC_RESUME_FLOW				rtl8812_resume_flow
++#define Rtl8812_NIC_PDN_FLOW					rtl8812_hwpdn_flow
++#define Rtl8812_NIC_LPS_ENTER_FLOW			rtl8812_enter_lps_flow
++#define Rtl8812_NIC_LPS_LEAVE_FLOW				rtl8812_leave_lps_flow
++
++/* ---------------------------------------------------------------------
++ *		RTL8821 Power Configuration CMDs for PCIe interface
++ * --------------------------------------------------------------------- */
++#define Rtl8821A_NIC_PWR_ON_FLOW				rtl8821A_power_on_flow
++#define Rtl8821A_NIC_RF_OFF_FLOW				rtl8821A_radio_off_flow
++#define Rtl8821A_NIC_DISABLE_FLOW				rtl8821A_card_disable_flow
++#define Rtl8821A_NIC_ENABLE_FLOW				rtl8821A_card_enable_flow
++#define Rtl8821A_NIC_SUSPEND_FLOW				rtl8821A_suspend_flow
++#define Rtl8821A_NIC_RESUME_FLOW				rtl8821A_resume_flow
++#define Rtl8821A_NIC_PDN_FLOW					rtl8821A_hwpdn_flow
++#define Rtl8821A_NIC_LPS_ENTER_FLOW			rtl8821A_enter_lps_flow
++#define Rtl8821A_NIC_LPS_LEAVE_FLOW			rtl8821A_leave_lps_flow
++
++
++#if 1 /* download firmware related data structure */
++#define FW_SIZE_8812			0x8000 /* Compatible with RTL8723 Maximal RAM code size 24K.   modified to 32k, TO compatible with 92d maximal fw size 32k */
++#define FW_START_ADDRESS		0x1000
++#define FW_END_ADDRESS		0x5FFF
++
++
++
++typedef struct _RT_FIRMWARE_8812 {
++	FIRMWARE_SOURCE	eFWSource;
++#ifdef CONFIG_EMBEDDED_FWIMG
++	u8			*szFwBuffer;
++#else
++	u8			szFwBuffer[FW_SIZE_8812];
++#endif
++	u32			ulFwLength;
++} RT_FIRMWARE_8812, *PRT_FIRMWARE_8812;
++
++/*
++ * This structure must be cared byte-ordering
++ *
++ * Added by tynli. 2009.12.04. */
++#define IS_FW_HEADER_EXIST_8812(_pFwHdr)	((GET_FIRMWARE_HDR_SIGNATURE_8812(_pFwHdr) & 0xFFF0) == 0x9500)
++
++#define IS_FW_HEADER_EXIST_8821(_pFwHdr)	((GET_FIRMWARE_HDR_SIGNATURE_8812(_pFwHdr) & 0xFFF0) == 0x2100)
++/* *****************************************************
++ *					Firmware Header(8-byte alinment required)
++ * *****************************************************
++ * --- LONG WORD 0 ---- */
++#define GET_FIRMWARE_HDR_SIGNATURE_8812(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr, 0, 16) /* 92C0: test chip; 92C, 88C0: test chip; 88C1: MP A-cut; 92C1: MP A-cut */
++#define GET_FIRMWARE_HDR_CATEGORY_8812(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr, 16, 8) /* AP/NIC and USB/PCI */
++#define GET_FIRMWARE_HDR_FUNCTION_8812(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr, 24, 8) /* Reserved for different FW function indcation, for further use when driver needs to download different FW in different conditions */
++#define GET_FIRMWARE_HDR_VERSION_8812(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr+4, 0, 16)/* FW Version */
++#define GET_FIRMWARE_HDR_SUB_VER_8812(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr+4, 16, 8) /* FW Subversion, default 0x00 */
++#define GET_FIRMWARE_HDR_RSVD1_8812(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+4, 24, 8)
++
++/* --- LONG WORD 1 ---- */
++#define GET_FIRMWARE_HDR_MONTH_8812(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+8, 0, 8) /* Release time Month field */
++#define GET_FIRMWARE_HDR_DATE_8812(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+8, 8, 8) /* Release time Date field */
++#define GET_FIRMWARE_HDR_HOUR_8812(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+8, 16, 8)/* Release time Hour field */
++#define GET_FIRMWARE_HDR_MINUTE_8812(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr+8, 24, 8)/* Release time Minute field */
++#define GET_FIRMWARE_HDR_ROMCODE_SIZE_8812(__FwHdr)	LE_BITS_TO_4BYTE(__FwHdr+12, 0, 16)/* The size of RAM code */
++#define GET_FIRMWARE_HDR_RSVD2_8812(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+12, 16, 16)
++
++/* --- LONG WORD 2 ---- */
++#define GET_FIRMWARE_HDR_SVN_IDX_8812(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr+16, 0, 32)/* The SVN entry index */
++#define GET_FIRMWARE_HDR_RSVD3_8812(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+20, 0, 32)
++
++/* --- LONG WORD 3 ---- */
++#define GET_FIRMWARE_HDR_RSVD4_8812(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+24, 0, 32)
++#define GET_FIRMWARE_HDR_RSVD5_8812(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+28, 0, 32)
++
++#endif /* download firmware related data structure */
++
++
++#define DRIVER_EARLY_INT_TIME_8812		0x05
++#define BCN_DMA_ATIME_INT_TIME_8812		0x02
++
++/* for 8812
++ * TX 128K, RX 16K, Page size 512B for TX, 128B for RX */
++#define MAX_RX_DMA_BUFFER_SIZE_8812	0x3E80 /* RX 16K */
++
++#ifdef CONFIG_WOWLAN
++	#define RESV_FMWF	(WKFMCAM_SIZE * MAX_WKFM_CAM_NUM) /* 16 entries, for each is 24 bytes*/
++#else
++	#define RESV_FMWF	0
++#endif
++
++#ifdef CONFIG_FW_C2H_DEBUG
++	#define RX_DMA_RESERVED_SIZE_8812	0x100	/* 256B, reserved for c2h debug message */
++#else
++	#define RX_DMA_RESERVED_SIZE_8812	0x0	/* 0B */
++#endif
++#define RX_DMA_BOUNDARY_8812		(MAX_RX_DMA_BUFFER_SIZE_8812 - RX_DMA_RESERVED_SIZE_8812 - 1)
++
++#define BCNQ_PAGE_NUM_8812		0x07
++
++/* For WoWLan , more reserved page
++ * ARP Rsp:1, RWC:1, GTK Info:1,GTK RSP:1,GTK EXT MEM:1, PNO: 6 */
++#ifdef CONFIG_WOWLAN
++	#define WOWLAN_PAGE_NUM_8812	0x05
++#else
++	#define WOWLAN_PAGE_NUM_8812	0x00
++#endif
++
++
++#ifdef CONFIG_BEAMFORMER_FW_NDPA
++	#define FW_NDPA_PAGE_NUM	0x02
++#else
++	#define FW_NDPA_PAGE_NUM	0x00
++#endif
++
++#define TX_TOTAL_PAGE_NUMBER_8812	(0xFF - BCNQ_PAGE_NUM_8812 - WOWLAN_PAGE_NUM_8812-FW_NDPA_PAGE_NUM)
++#define TX_PAGE_BOUNDARY_8812			(TX_TOTAL_PAGE_NUMBER_8812 + 1)
++
++#define TX_PAGE_BOUNDARY_WOWLAN_8812		(0xFF - BCNQ_PAGE_NUM_8812 - WOWLAN_PAGE_NUM_8812 + 1)
++
++#define WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8812	TX_TOTAL_PAGE_NUMBER_8812
++#define WMM_NORMAL_TX_PAGE_BOUNDARY_8812		(WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8812 + 1)
++
++/* For Normal Chip Setting
++ * (HPQ + LPQ + NPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER_8812 */
++#define NORMAL_PAGE_NUM_LPQ_8812				0x10
++#define NORMAL_PAGE_NUM_HPQ_8812			0x10
++#define NORMAL_PAGE_NUM_NPQ_8812			0x00
++
++#define WMM_NORMAL_PAGE_NUM_HPQ_8812		0x30
++#define WMM_NORMAL_PAGE_NUM_LPQ_8812		0x20
++#define WMM_NORMAL_PAGE_NUM_NPQ_8812		0x20
++
++
++/* for 8821A
++ * TX 64K, RX 16K, Page size 256B for TX, 128B for RX */
++#define PAGE_SIZE_TX_8821A					256
++#define PAGE_SIZE_RX_8821A					128
++
++#define MAX_RX_DMA_BUFFER_SIZE_8821			0x3E80 /* RX 16K */
++
++#ifdef CONFIG_FW_C2H_DEBUG
++	#define RX_DMA_RESERVED_SIZE_8821	0x100	/* 256B, reserved for c2h debug message */
++#else
++	#define RX_DMA_RESERVED_SIZE_8821	0x0	/* 0B */
++#endif
++#define RX_DMA_BOUNDARY_8821		(MAX_RX_DMA_BUFFER_SIZE_8821 - RX_DMA_RESERVED_SIZE_8821 - 1)
++
++#define BCNQ_PAGE_NUM_8821		0x08
++#ifdef CONFIG_CONCURRENT_MODE
++	#define BCNQ1_PAGE_NUM_8821		0x04
++#else
++	#define BCNQ1_PAGE_NUM_8821		0x00
++#endif
++
++/* For WoWLan , more reserved page
++ * ARP Rsp:1, RWC:1, GTK Info:1,GTK RSP:1,GTK EXT MEM:1, PNO: 6 */
++#ifdef CONFIG_WOWLAN
++	#define WOWLAN_PAGE_NUM_8821	0x06
++#else
++	#define WOWLAN_PAGE_NUM_8821	0x00
++#endif
++
++#define TX_TOTAL_PAGE_NUMBER_8821	(0xFF - BCNQ_PAGE_NUM_8821 - BCNQ1_PAGE_NUM_8821 - WOWLAN_PAGE_NUM_8821)
++#define TX_PAGE_BOUNDARY_8821				(TX_TOTAL_PAGE_NUMBER_8821 + 1)
++/* #define TX_PAGE_BOUNDARY_WOWLAN_8821		0xE0 */
++
++#define WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8821	TX_TOTAL_PAGE_NUMBER_8821
++#define WMM_NORMAL_TX_PAGE_BOUNDARY_8821		(WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8821 + 1)
++
++
++/* (HPQ + LPQ + NPQ + PUBQ) shall be TX_TOTAL_PAGE_NUMBER */
++#define NORMAL_PAGE_NUM_LPQ_8821			0x08/* 0x10 */
++#define NORMAL_PAGE_NUM_HPQ_8821		0x08/* 0x10 */
++#define NORMAL_PAGE_NUM_NPQ_8821		0x00
++
++#define WMM_NORMAL_PAGE_NUM_HPQ_8821		0x30
++#define WMM_NORMAL_PAGE_NUM_LPQ_8821		0x20
++#define WMM_NORMAL_PAGE_NUM_NPQ_8821		0x20
++
++#define MCC_NORMAL_PAGE_NUM_HPQ_8821		0x10
++#define MCC_NORMAL_PAGE_NUM_LPQ_8821		0x10
++#define MCC_NORMAL_PAGE_NUM_NPQ_8821		0x10
++
++#define	EFUSE_HIDDEN_812AU					0
++#define	EFUSE_HIDDEN_812AU_VS				1
++#define	EFUSE_HIDDEN_812AU_VL				2
++#define	EFUSE_HIDDEN_812AU_VN				3
++
++#if 0
++#define EFUSE_REAL_CONTENT_LEN_JAGUAR		1024
++#define HWSET_MAX_SIZE_JAGUAR					1024
++#else
++#define EFUSE_REAL_CONTENT_LEN_JAGUAR		512
++#define HWSET_MAX_SIZE_JAGUAR					512
++#endif
++
++#define EFUSE_MAX_BANK_8812A					2
++#define EFUSE_MAP_LEN_JAGUAR					512
++#define EFUSE_MAX_SECTION_JAGUAR				64
++#define EFUSE_MAX_WORD_UNIT_JAGUAR			4
++#define EFUSE_IC_ID_OFFSET_JAGUAR				506	/* For some inferiority IC purpose. added by Roger, 2009.09.02. */
++#define AVAILABLE_EFUSE_ADDR_8812(addr)	(addr < EFUSE_REAL_CONTENT_LEN_JAGUAR)
++/* <Roger_Notes> To prevent out of boundary programming case, leave 1byte and program full section
++ * 9bytes + 1byt + 5bytes and pre 1byte.
++ * For worst case:
++ * | 2byte|----8bytes----|1byte|--7bytes--|  */ /* 92D */
++#define EFUSE_OOB_PROTECT_BYTES_JAGUAR		18	/* PG data exclude header, dummy 7 bytes frome CP test and reserved 1byte. */
++#define EFUSE_PROTECT_BYTES_BANK_JAGUAR		16
++
++#define INCLUDE_MULTI_FUNC_BT(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_BT)
++#define INCLUDE_MULTI_FUNC_GPS(_Adapter)	(GET_HAL_DATA(_Adapter)->MultiFunc & RT_MULTI_FUNC_GPS)
++
++/* #define IS_MULTI_FUNC_CHIP(_Adapter)	(((((PHAL_DATA_TYPE)(_Adapter->HalData))->MultiFunc) & (RT_MULTI_FUNC_BT|RT_MULTI_FUNC_GPS)) ? _TRUE : _FALSE) */
++
++/* #define RT_IS_FUNC_DISABLED(__pAdapter, __FuncBits) ( (__pAdapter)->DisabledFunctions & (__FuncBits) ) */
++#define HAL_EFUSE_MEMORY
++
++/* ********************************************************
++ *			EFUSE for BT definition
++ * ******************************************************** */
++#define BANK_NUM			2
++#define EFUSE_BT_REAL_BANK_CONTENT_LEN	512
++#define EFUSE_BT_REAL_CONTENT_LEN	\
++	(EFUSE_BT_REAL_BANK_CONTENT_LEN * BANK_NUM)
++#define EFUSE_BT_MAP_LEN		1024	/* 1k bytes */
++#define EFUSE_BT_MAX_SECTION		(EFUSE_BT_MAP_LEN / 8)
++#define EFUSE_PROTECT_BYTES_BANK	16
++
++#define AVAILABLE_EFUSE_ADDR(addr)	(addr < EFUSE_BT_REAL_CONTENT_LEN)
++
++#ifdef CONFIG_FILE_FWIMG
++extern char *rtw_fw_file_path;
++#ifdef CONFIG_WOWLAN
++extern char *rtw_fw_wow_file_path;
++#endif
++#ifdef CONFIG_MP_INCLUDED
++extern char *rtw_fw_mp_bt_file_path;
++#endif
++#endif
++
++
++/* rtl8812_hal_init.c */
++void	_8051Reset8812(PADAPTER padapter);
++s32	FirmwareDownload8812(PADAPTER Adapter, BOOLEAN bUsedWoWLANFw);
++void	InitializeFirmwareVars8812(PADAPTER padapter);
++
++s32	_LLTWrite_8812A(PADAPTER Adapter, u32 address, u32 data);
++s32	InitLLTTable8812A(PADAPTER padapter, u8 txpktbuf_bndy);
++void InitRDGSetting8812A(PADAPTER padapter);
++
++void CheckAutoloadState8812A(PADAPTER padapter);
++
++/* EFuse */
++u8	GetEEPROMSize8812A(PADAPTER padapter);
++void InitPGData8812A(PADAPTER padapter);
++void	Hal_EfuseParseIDCode8812A(PADAPTER padapter, u8 *hwinfo);
++void	Hal_ReadPROMVersion8812A(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	Hal_ReadTxPowerInfo8812A(PADAPTER padapter, u8 *hwinfo, BOOLEAN	AutoLoadFail);
++void	Hal_ReadBoardType8812A(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	Hal_ReadThermalMeter_8812A(PADAPTER	Adapter, u8 *PROMContent, BOOLEAN	AutoloadFail);
++void	Hal_ReadChannelPlan8812A(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	Hal_EfuseParseXtal_8812A(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	Hal_ReadAntennaDiversity8812A(PADAPTER pAdapter, u8 *PROMContent, BOOLEAN AutoLoadFail);
++void	Hal_ReadAmplifierType_8812A(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++void	Hal_ReadPAType_8821A(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++void	Hal_ReadRFEType_8812A(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++void	Hal_EfuseParseBTCoexistInfo8812A(PADAPTER Adapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	hal_ReadUsbType_8812AU(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++#ifdef CONFIG_MP_INCLUDED
++int	FirmwareDownloadBT(PADAPTER Adapter, PRT_MP_FIRMWARE pFirmware);
++#endif
++void	Hal_ReadRemoteWakeup_8812A(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++
++BOOLEAN HalDetectPwrDownMode8812(PADAPTER Adapter);
++void Hal_EfuseParseKFreeData_8821A(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++
++#ifdef CONFIG_WOWLAN
++void Hal_DetectWoWMode(PADAPTER pAdapter);
++#endif /* CONFIG_WOWLAN */
++
++void _InitBeaconParameters_8812A(PADAPTER padapter);
++void SetBeaconRelatedRegisters8812A(PADAPTER padapter);
++
++void ReadRFType8812A(PADAPTER padapter);
++void InitDefaultValue8821A(PADAPTER padapter);
++
++void SetHwReg8812A(PADAPTER padapter, u8 variable, u8 *pval);
++void GetHwReg8812A(PADAPTER padapter, u8 variable, u8 *pval);
++u8 SetHalDefVar8812A(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++u8 GetHalDefVar8812A(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++s32 c2h_id_filter_ccx_8812a(u8 *buf);
++void rtl8812_set_hal_ops(struct hal_ops *pHalFunc);
++void init_hal_spec_8812a(_adapter *adapter);
++void init_hal_spec_8821a(_adapter *adapter);
++
++/* register */
++void SetBcnCtrlReg(PADAPTER padapter, u8 SetBits, u8 ClearBits);
++
++void rtl8812_start_thread(PADAPTER padapter);
++void rtl8812_stop_thread(PADAPTER padapter);
++
++#ifdef CONFIG_PCI_HCI
++BOOLEAN	InterruptRecognized8812AE(PADAPTER Adapter);
++VOID	UpdateInterruptMask8812AE(PADAPTER Adapter, u32 AddMSR, u32 AddMSR1, u32 RemoveMSR, u32 RemoveMSR1);
++#endif
++
++#ifdef CONFIG_BT_COEXIST
++void rtl8812a_combo_card_WifiOnlyHwInit(PADAPTER Adapter);
++#endif
++
++VOID
++Hal_PatchwithJaguar_8812(
++	IN PADAPTER				Adapter,
++	IN RT_MEDIA_STATUS		MediaStatus
++);
++
++#endif /* __RTL8188E_HAL_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8812a_led.h b/drivers/net/wireless/rtl8812au/include/rtl8812a_led.h
+new file mode 100644
+index 0000000..28840be
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8812a_led.h
+@@ -0,0 +1,41 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8812A_LED_H__
++#define __RTL8812A_LED_H__
++
++
++/* ********************************************************************************
++ * Interface to manipulate LED objects.
++ * ******************************************************************************** */
++#ifdef CONFIG_USB_HCI
++void rtl8812au_InitSwLeds(PADAPTER padapter);
++void rtl8812au_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_PCI_HCI
++void rtl8812ae_InitSwLeds(PADAPTER padapter);
++void rtl8812ae_DeInitSwLeds(PADAPTER padapter);
++#endif
++#ifdef CONFIG_SDIO_HCI
++void rtl8821as_hw_led_config(PADAPTER adapter);
++void rtl8821as_InitSwLeds(PADAPTER padapter);
++void rtl8821as_DeInitSwLeds(PADAPTER padapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8812a_recv.h b/drivers/net/wireless/rtl8812au/include/rtl8812a_recv.h
+new file mode 100644
+index 0000000..4e7b4ed
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8812a_recv.h
+@@ -0,0 +1,158 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8812A_RECV_H__
++#define __RTL8812A_RECV_H__
++
++#if defined(CONFIG_USB_HCI)
++
++	#ifndef MAX_RECVBUF_SZ
++		#ifdef PLATFORM_OS_CE
++			#define MAX_RECVBUF_SZ (8192+1024) /* 8K+1k */
++		#else
++			#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++				#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++					#define MAX_RECVBUF_SZ (rtw_rtkm_get_buff_size()) /*depend rtkm*/
++				#else
++					#define MAX_RECVBUF_SZ (32768)  /*32k*/
++				#endif
++				/* #define MAX_RECVBUF_SZ (24576) */ /* 24k */
++				/* #define MAX_RECVBUF_SZ (20480) */ /* 20K */
++				/* #define MAX_RECVBUF_SZ (10240) */ /* 10K */
++				/* #define MAX_RECVBUF_SZ (15360) */ /* 15k < 16k */
++				/* #define MAX_RECVBUF_SZ (8192+1024) */ /* 8K+1k */
++				#ifdef CONFIG_PLATFORM_NOVATEK_NT72668
++					#undef MAX_RECVBUF_SZ
++					#define MAX_RECVBUF_SZ (15360) /* 15k < 16k */
++				#endif /* CONFIG_PLATFORM_NOVATEK_NT72668 */
++			#else
++				#define MAX_RECVBUF_SZ (4000) /* about 4K */
++			#endif
++		#endif
++	#endif /* !MAX_RECVBUF_SZ */
++
++#elif defined(CONFIG_PCI_HCI)
++	/* #ifndef CONFIG_MINIMAL_MEMORY_USAGE */
++	/*	#define MAX_RECVBUF_SZ (9100) */
++	/* #else */
++	#define MAX_RECVBUF_SZ (4000) /* about 4K
++	* #endif */
++
++
++#elif defined(CONFIG_SDIO_HCI)
++
++	#define MAX_RECVBUF_SZ (RX_DMA_BOUNDARY_8821 + 1)
++
++#endif
++
++
++/* Rx smooth factor */
++#define Rx_Smooth_Factor (20)
++
++/* DWORD 0 */
++#define SET_RX_STATUS_DESC_PKT_LEN_8812(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++#define SET_RX_STATUS_DESC_EOR_8812(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 30, 1, __Value)
++#define SET_RX_STATUS_DESC_OWN_8812(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 31, 1, __Value)
++
++#define GET_RX_STATUS_DESC_PKT_LEN_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 0, 14)
++#define GET_RX_STATUS_DESC_CRC32_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 14, 1)
++#define GET_RX_STATUS_DESC_ICV_8812(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++#define GET_RX_STATUS_DESC_DRVINFO_SIZE_8812(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 4)
++#define GET_RX_STATUS_DESC_SECURITY_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 20, 3)
++#define GET_RX_STATUS_DESC_QOS_8812(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 23, 1)
++#define GET_RX_STATUS_DESC_SHIFT_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 24, 2)
++#define GET_RX_STATUS_DESC_PHY_STATUS_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 26, 1)
++#define GET_RX_STATUS_DESC_SWDEC_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 27, 1)
++#define GET_RX_STATUS_DESC_LAST_SEG_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 28, 1)
++#define GET_RX_STATUS_DESC_FIRST_SEG_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 29, 1)
++#define GET_RX_STATUS_DESC_EOR_8812(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 30, 1)
++#define GET_RX_STATUS_DESC_OWN_8812(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 31, 1)
++
++/* DWORD 1 */
++#define GET_RX_STATUS_DESC_MACID_8812(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 0, 7)
++#define GET_RX_STATUS_DESC_TID_8812(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 8, 4)
++#define GET_RX_STATUS_DESC_AMSDU_8812(__pRxDesc)					LE_BITS_TO_4BYTE(__pRxDesc+4, 13, 1)
++#define GET_RX_STATUS_DESC_RXID_MATCH_8812(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+4, 14, 1)
++#define GET_RX_STATUS_DESC_PAGGR_8812(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 15, 1)
++#define GET_RX_STATUS_DESC_A1_FIT_8812(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 16, 4)
++#define GET_RX_STATUS_DESC_CHKERR_8812(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 20, 1)
++#define GET_RX_STATUS_DESC_IPVER_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 21, 1)
++#define GET_RX_STATUS_DESC_IS_TCPUDP__8812(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+4, 22, 1)
++#define GET_RX_STATUS_DESC_CHK_VLD_8812(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+4, 23, 1)
++#define GET_RX_STATUS_DESC_PAM_8812(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 24, 1)
++#define GET_RX_STATUS_DESC_PWR_8812(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 25, 1)
++#define GET_RX_STATUS_DESC_MORE_DATA_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 26, 1)
++#define GET_RX_STATUS_DESC_MORE_FRAG_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 27, 1)
++#define GET_RX_STATUS_DESC_TYPE_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+4, 28, 2)
++#define GET_RX_STATUS_DESC_MC_8812(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 30, 1)
++#define GET_RX_STATUS_DESC_BC_8812(__pRxDesc)				LE_BITS_TO_4BYTE(__pRxDesc+4, 31, 1)
++
++/* DWORD 2 */
++#define GET_RX_STATUS_DESC_SEQ_8812(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 0, 12)
++#define GET_RX_STATUS_DESC_FRAG_8812(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 12, 4)
++#define GET_RX_STATUS_DESC_RX_IS_QOS_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 16, 1)
++#define GET_RX_STATUS_DESC_WLANHD_IV_LEN_8812(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 18, 6)
++#define GET_RX_STATUS_DESC_RPT_SEL_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 28, 1)
++
++/* DWORD 3 */
++#define GET_RX_STATUS_DESC_RX_RATE_8812(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 0, 7)
++#define GET_RX_STATUS_DESC_HTC_8812(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 10, 1)
++#define GET_RX_STATUS_DESC_EOSP_8812(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 11, 1)
++#define GET_RX_STATUS_DESC_BSSID_FIT_8812(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 12, 2)
++#ifdef CONFIG_USB_RX_AGGREGATION
++#define GET_RX_STATUS_DESC_USB_AGG_PKTNUM_8812(__pRxStatusDesc)	LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 16, 8)
++#endif
++#define GET_RX_STATUS_DESC_PATTERN_MATCH_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 29, 1)
++#define GET_RX_STATUS_DESC_UNICAST_MATCH_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 30, 1)
++#define GET_RX_STATUS_DESC_MAGIC_MATCH_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+12, 31, 1)
++
++/* DWORD 6 */
++#define GET_RX_STATUS_DESC_SPLCP_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 0, 1)
++#define GET_RX_STATUS_DESC_LDPC_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 1, 1)
++#define GET_RX_STATUS_DESC_STBC_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 2, 1)
++#define GET_RX_STATUS_DESC_BW_8812(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+16, 4, 2)
++
++/* DWORD 5 */
++#define GET_RX_STATUS_DESC_TSFL_8812(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+20, 0, 32)
++
++#define GET_RX_STATUS_DESC_BUFF_ADDR_8812(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+24, 0, 32)
++#define GET_RX_STATUS_DESC_BUFF_ADDR64_8812(__pRxDesc)		LE_BITS_TO_4BYTE(__pRxDesc+28, 0, 32)
++
++#define SET_RX_STATUS_DESC_BUFF_ADDR_8812(__pRxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pRxDesc+24, 0, 32, __Value)
++
++
++#ifdef CONFIG_SDIO_HCI
++s32 InitRecvPriv8821AS(PADAPTER padapter);
++void FreeRecvPriv8821AS(PADAPTER padapter);
++#endif /* CONFIG_SDIO_HCI */
++
++#ifdef CONFIG_USB_HCI
++void rtl8812au_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf);
++s32 rtl8812au_init_recv_priv(PADAPTER padapter);
++void rtl8812au_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++s32 rtl8812ae_init_recv_priv(PADAPTER padapter);
++void rtl8812ae_free_recv_priv(PADAPTER padapter);
++#endif
++
++void rtl8812_query_rx_desc_status(union recv_frame *precvframe, u8 *pdesc);
++
++#endif /* __RTL8812A_RECV_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8812a_rf.h b/drivers/net/wireless/rtl8812au/include/rtl8812a_rf.h
+new file mode 100644
+index 0000000..9a7175d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8812a_rf.h
+@@ -0,0 +1,33 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8812A_RF_H__
++#define __RTL8812A_RF_H__
++
++VOID
++PHY_RF6052SetBandwidth8812(
++	IN	PADAPTER				Adapter,
++	IN	CHANNEL_WIDTH		Bandwidth);
++
++
++int
++PHY_RF6052_Config_8812(
++	IN	PADAPTER	Adapter);
++
++#endif/* __RTL8188E_RF_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8812a_spec.h b/drivers/net/wireless/rtl8812au/include/rtl8812a_spec.h
+new file mode 100644
+index 0000000..dc7bd3d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8812a_spec.h
+@@ -0,0 +1,276 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#ifndef __RTL8812A_SPEC_H__
++#define __RTL8812A_SPEC_H__
++
++#include <drv_conf.h>
++
++
++/* ************************************************************
++* 8812 Regsiter offset definition
++* ************************************************************ */
++
++/* ************************************************************
++*
++* ************************************************************ */
++
++/* -----------------------------------------------------
++*
++*	0x0000h ~ 0x00FFh	System Configuration
++*
++* ----------------------------------------------------- */
++#define REG_SYS_CLKR_8812A				0x0008
++#define REG_AFE_PLL_CTRL_8812A		0x0028
++#define REG_HSIMR_8812					0x0058
++#define REG_HSISR_8812					0x005c
++#define REG_GPIO_EXT_CTRL				0x0060
++#define REG_GPIO_STATUS_8812			0x006C
++#define REG_SDIO_CTRL_8812				0x0070
++#define REG_OPT_CTRL_8812				0x0074
++#define REG_RF_B_CTRL_8812				0x0076
++#define REG_FW_DRV_MSG_8812			0x0088
++#define REG_HMEBOX_E2_E3_8812			0x008C
++#define REG_HIMR0_8812					0x00B0
++#define REG_HISR0_8812					0x00B4
++#define REG_HIMR1_8812					0x00B8
++#define REG_HISR1_8812					0x00BC
++#define REG_EFUSE_BURN_GNT_8812		0x00CF
++#define REG_SYS_CFG1_8812				0x00FC
++
++/* -----------------------------------------------------
++*
++*	0x0100h ~ 0x01FFh	MACTOP General Configuration
++*
++* ----------------------------------------------------- */
++#define REG_CR_8812A					0x100
++#define REG_PKTBUF_DBG_ADDR			(REG_PKTBUF_DBG_CTRL)
++#define REG_RXPKTBUF_DBG				(REG_PKTBUF_DBG_CTRL+2)
++#define REG_TXPKTBUF_DBG				(REG_PKTBUF_DBG_CTRL+3)
++#define REG_WOWLAN_WAKE_REASON			REG_MCUTST_WOWLAN
++
++#define REG_RSVD3_8812					0x0168
++#define REG_C2HEVT_CMD_SEQ_88XX		0x01A1
++#define REG_C2hEVT_CMD_CONTENT_88XX	0x01A2
++#define REG_C2HEVT_CMD_LEN_88XX		0x01AE
++
++#define REG_HMEBOX_EXT0_8812			0x01F0
++#define REG_HMEBOX_EXT1_8812			0x01F4
++#define REG_HMEBOX_EXT2_8812			0x01F8
++#define REG_HMEBOX_EXT3_8812			0x01FC
++
++/* -----------------------------------------------------
++*
++*	0x0200h ~ 0x027Fh	TXDMA Configuration
++*
++* ----------------------------------------------------- */
++#define REG_DWBCN0_CTRL_8812				REG_TDECTRL
++#define REG_DWBCN1_CTRL_8812				0x0228
++
++/* -----------------------------------------------------
++*
++*	0x0280h ~ 0x02FFh	RXDMA Configuration
++*
++* ----------------------------------------------------- */
++#define REG_TDECTRL_8812A				0x0208
++#define REG_RXDMA_CONTROL_8812A		0x0286		/*Control the RX DMA.*/
++#define REG_RXDMA_PRO_8812			0x0290
++#define REG_EARLY_MODE_CONTROL_8812	0x02BC
++#define REG_RSVD5_8812					0x02F0
++#define REG_RSVD6_8812					0x02F4
++#define REG_RSVD7_8812					0x02F8
++#define REG_RSVD8_8812					0x02FC
++
++
++/* -----------------------------------------------------
++*
++*	0x0300h ~ 0x03FFh	PCIe
++*
++* ----------------------------------------------------- */
++#define	REG_PCIE_CTRL_REG_8812A		0x0300
++#define	REG_DBI_WDATA_8812			0x0348	/* DBI Write Data */
++#define	REG_DBI_RDATA_8812			0x034C	/* DBI Read Data */
++#define	REG_DBI_ADDR_8812				0x0350	/* DBI Address */
++#define	REG_DBI_FLAG_8812				0x0352	/* DBI Read/Write Flag */
++#define	REG_MDIO_WDATA_8812			0x0354	/* MDIO for Write PCIE PHY */
++#define	REG_MDIO_RDATA_8812			0x0356	/* MDIO for Reads PCIE PHY */
++#define	REG_MDIO_CTL_8812				0x0358	/* MDIO for Control */
++#define	REG_PCIE_MULTIFET_CTRL_8812	0x036A	/* PCIE Multi-Fethc Control */
++
++/* -----------------------------------------------------
++*
++*	0x0400h ~ 0x047Fh	Protocol Configuration
++*
++* ----------------------------------------------------- */
++#define REG_TXPKT_EMPTY_8812A			0x041A
++#define REG_FWHW_TXQ_CTRL_8812A		0x0420
++#define REG_TXBF_CTRL_8812A			0x042C
++#define REG_ARFR0_8812					0x0444
++#define REG_ARFR1_8812					0x044C
++#define REG_CCK_CHECK_8812				0x0454
++#define REG_AMPDU_MAX_TIME_8812		0x0456
++#define REG_TXPKTBUF_BCNQ_BDNY1_8812	0x0457
++
++#define REG_AMPDU_MAX_LENGTH_8812	0x0458
++#define REG_TXPKTBUF_WMAC_LBK_BF_HD_8812	0x045D
++#define REG_NDPA_OPT_CTRL_8812A		0x045F
++#define REG_DATA_SC_8812				0x0483
++#ifdef CONFIG_WOWLAN
++#define REG_TXPKTBUF_IV_LOW             0x0484
++#define REG_TXPKTBUF_IV_HIGH            0x0488
++#endif
++#define REG_ARFR2_8812					0x048C
++#define REG_ARFR3_8812					0x0494
++#define REG_TXRPT_START_OFFSET		0x04AC
++#define REG_AMPDU_BURST_MODE_8812	0x04BC
++#define REG_HT_SINGLE_AMPDU_8812		0x04C7
++#define REG_MACID_PKT_DROP0_8812		0x04D0
++
++/* -----------------------------------------------------
++*
++*	0x0500h ~ 0x05FFh	EDCA Configuration
++*
++* ----------------------------------------------------- */
++#define REG_TXPAUSE_8812A				0x0522
++#define REG_CTWND_8812					0x0572
++#define REG_SECONDARY_CCA_CTRL_8812	0x0577
++#define REG_SCH_TXCMD_8812A			0x05F8
++
++/* -----------------------------------------------------
++*
++*	0x0600h ~ 0x07FFh	WMAC Configuration
++*
++* ----------------------------------------------------- */
++#define REG_MAC_CR_8812				0x0600
++
++#define REG_MAC_TX_SM_STATE_8812		0x06B4
++
++/* Power */
++#define REG_BFMER0_INFO_8812A			0x06E4
++#define REG_BFMER1_INFO_8812A			0x06EC
++#define REG_CSI_RPT_PARAM_BW20_8812A	0x06F4
++#define REG_CSI_RPT_PARAM_BW40_8812A	0x06F8
++#define REG_CSI_RPT_PARAM_BW80_8812A	0x06FC
++
++/* Hardware Port 2 */
++#define REG_BFMEE_SEL_8812A			0x0714
++#define REG_SND_PTCL_CTRL_8812A		0x0718
++
++
++/* -----------------------------------------------------
++*
++*	Redifine register definition for compatibility
++*
++* ----------------------------------------------------- */
++
++/* TODO: use these definition when using REG_xxx naming rule.
++* NOTE: DO NOT Remove these definition. Use later. */
++#define	ISR_8812							REG_HISR0_8812
++
++/* ----------------------------------------------------------------------------
++* 8195 IMR/ISR bits						(offset 0xB0,  8bits)
++* ---------------------------------------------------------------------------- */
++#define	IMR_DISABLED_8812					0
++/* IMR DW0(0x00B0-00B3) Bit 0-31 */
++#define	IMR_TIMER2_8812					BIT31		/* Timeout interrupt 2 */
++#define	IMR_TIMER1_8812					BIT30		/* Timeout interrupt 1	 */
++#define	IMR_PSTIMEOUT_8812				BIT29		/* Power Save Time Out Interrupt */
++#define	IMR_GTINT4_8812					BIT28		/* When GTIMER4 expires, this bit is set to 1	 */
++#define	IMR_GTINT3_8812					BIT27		/* When GTIMER3 expires, this bit is set to 1	 */
++#define	IMR_TXBCN0ERR_8812				BIT26		/* Transmit Beacon0 Error			 */
++#define	IMR_TXBCN0OK_8812					BIT25		/* Transmit Beacon0 OK			 */
++#define	IMR_TSF_BIT32_TOGGLE_8812		BIT24		/* TSF Timer BIT32 toggle indication interrupt			 */
++#define	IMR_BCNDMAINT0_8812				BIT20		/* Beacon DMA Interrupt 0			 */
++#define	IMR_BCNDERR0_8812					BIT16		/* Beacon Queue DMA OK0			 */
++#define	IMR_HSISR_IND_ON_INT_8812		BIT15		/* HSISR Indicator (HSIMR & HSISR is true, this bit is set to 1) */
++#define	IMR_BCNDMAINT_E_8812				BIT14		/* Beacon DMA Interrupt Extension for Win7			 */
++#define	IMR_ATIMEND_8812					BIT12		/* CTWidnow End or ATIM Window End */
++#define	IMR_C2HCMD_8812					BIT10		/* CPU to Host Command INT Status, Write 1 clear	 */
++#define	IMR_CPWM2_8812					BIT9			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_CPWM_8812						BIT8			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_HIGHDOK_8812					BIT7			/* High Queue DMA OK	 */
++#define	IMR_MGNTDOK_8812					BIT6			/* Management Queue DMA OK	 */
++#define	IMR_BKDOK_8812					BIT5			/* AC_BK DMA OK		 */
++#define	IMR_BEDOK_8812					BIT4			/* AC_BE DMA OK	 */
++#define	IMR_VIDOK_8812					BIT3			/* AC_VI DMA OK		 */
++#define	IMR_VODOK_8812					BIT2			/* AC_VO DMA OK	 */
++#define	IMR_RDU_8812						BIT1			/* Rx Descriptor Unavailable	 */
++#define	IMR_ROK_8812						BIT0			/* Receive DMA OK */
++
++/* IMR DW1(0x00B4-00B7) Bit 0-31 */
++#define	IMR_BCNDMAINT7_8812				BIT27		/* Beacon DMA Interrupt 7 */
++#define	IMR_BCNDMAINT6_8812				BIT26		/* Beacon DMA Interrupt 6 */
++#define	IMR_BCNDMAINT5_8812				BIT25		/* Beacon DMA Interrupt 5 */
++#define	IMR_BCNDMAINT4_8812				BIT24		/* Beacon DMA Interrupt 4 */
++#define	IMR_BCNDMAINT3_8812				BIT23		/* Beacon DMA Interrupt 3 */
++#define	IMR_BCNDMAINT2_8812				BIT22		/* Beacon DMA Interrupt 2 */
++#define	IMR_BCNDMAINT1_8812				BIT21		/* Beacon DMA Interrupt 1 */
++#define	IMR_BCNDOK7_8812					BIT20		/* Beacon Queue DMA OK Interrup 7 */
++#define	IMR_BCNDOK6_8812					BIT19		/* Beacon Queue DMA OK Interrup 6 */
++#define	IMR_BCNDOK5_8812					BIT18		/* Beacon Queue DMA OK Interrup 5 */
++#define	IMR_BCNDOK4_8812					BIT17		/* Beacon Queue DMA OK Interrup 4 */
++#define	IMR_BCNDOK3_8812					BIT16		/* Beacon Queue DMA OK Interrup 3 */
++#define	IMR_BCNDOK2_8812					BIT15		/* Beacon Queue DMA OK Interrup 2 */
++#define	IMR_BCNDOK1_8812					BIT14		/* Beacon Queue DMA OK Interrup 1 */
++#define	IMR_ATIMEND_E_8812				BIT13		/* ATIM Window End Extension for Win7 */
++#define	IMR_TXERR_8812					BIT11		/* Tx Error Flag Interrupt Status, write 1 clear. */
++#define	IMR_RXERR_8812					BIT10		/* Rx Error Flag INT Status, Write 1 clear */
++#define	IMR_TXFOVW_8812					BIT9			/* Transmit FIFO Overflow */
++#define	IMR_RXFOVW_8812					BIT8			/* Receive FIFO Overflow */
++
++
++#ifdef CONFIG_PCI_HCI
++/* #define IMR_RX_MASK		(IMR_ROK_8812|IMR_RDU_8812|IMR_RXFOVW_8812) */
++#define IMR_TX_MASK			(IMR_VODOK_8812 | IMR_VIDOK_8812 | IMR_BEDOK_8812 | IMR_BKDOK_8812 | IMR_MGNTDOK_8812 | IMR_HIGHDOK_8812)
++
++#define RT_BCN_INT_MASKS	(IMR_BCNDMAINT0_8812 | IMR_TXBCN0OK_8812 | IMR_TXBCN0ERR_8812 | IMR_BCNDERR0_8812)
++
++#define RT_AC_INT_MASKS	(IMR_VIDOK_8812 | IMR_VODOK_8812 | IMR_BEDOK_8812 | IMR_BKDOK_8812)
++#endif
++
++
++/* ****************************************************************************
++* Regsiter Bit and Content definition
++* **************************************************************************** */
++
++/* 2 ACMHWCTRL 0x05C0 */
++#define	AcmHw_HwEn_8812				BIT(0)
++#define	AcmHw_VoqEn_8812				BIT(1)
++#define	AcmHw_ViqEn_8812				BIT(2)
++#define	AcmHw_BeqEn_8812				BIT(3)
++#define	AcmHw_VoqStatus_8812			BIT(5)
++#define	AcmHw_ViqStatus_8812			BIT(6)
++#define	AcmHw_BeqStatus_8812			BIT(7)
++
++/* ********************************************************
++* General definitions
++* ******************************************************** */
++
++#define MACID_NUM_8812A 128
++#define SEC_CAM_ENT_NUM_8812A 64
++#define HW_PORT_NUM_8812A	2
++#define NSS_NUM_8812A 2
++#define BAND_CAP_8812A (BAND_CAP_2G | BAND_CAP_5G)
++#define BW_CAP_8812A (BW_CAP_20M | BW_CAP_40M | BW_CAP_80M)
++#define PROTO_CAP_8812A (PROTO_CAP_11B | PROTO_CAP_11G | PROTO_CAP_11N | PROTO_CAP_11AC)
++
++#endif /* __RTL8812A_SPEC_H__ */
++
++#ifdef CONFIG_RTL8821A
++#include "rtl8821a_spec.h"
++#endif /* CONFIG_RTL8821A */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8812a_sreset.h b/drivers/net/wireless/rtl8812au/include/rtl8812a_sreset.h
+new file mode 100644
+index 0000000..1d166dc
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8812a_sreset.h
+@@ -0,0 +1,29 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL88812A_SRESET_H_
++#define _RTL8812A_SRESET_H_
++
++#include <rtw_sreset.h>
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++extern void rtl8812_sreset_xmit_status_check(_adapter *padapter);
++extern void rtl8812_sreset_linked_status_check(_adapter *padapter);
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8812a_xmit.h b/drivers/net/wireless/rtl8812au/include/rtl8812a_xmit.h
+new file mode 100644
+index 0000000..9fe4dfb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8812a_xmit.h
+@@ -0,0 +1,371 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8812A_XMIT_H__
++#define __RTL8812A_XMIT_H__
++
++
++/* For 88e early mode */
++#define SET_EARLYMODE_PKTNUM(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 0, 3, __Value)
++#define SET_EARLYMODE_LEN0(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 4, 12, __Value)
++#define SET_EARLYMODE_LEN1(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 16, 12, __Value)
++#define SET_EARLYMODE_LEN2_1(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr, 28, 4, __Value)
++#define SET_EARLYMODE_LEN2_2(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 8, __Value)
++#define SET_EARLYMODE_LEN3(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 8, 12, __Value)
++#define SET_EARLYMODE_LEN4(__pAddr, __Value) SET_BITS_TO_LE_4BYTE(__pAddr+4, 20, 12, __Value)
++
++/*
++ * defined for TX DESC Operation
++ *   */
++
++#define MAX_TID (15)
++
++/* OFFSET 0 */
++#define OFFSET_SZ	0
++#define OFFSET_SHT	16
++#define BMC			BIT(24)
++#define LSG			BIT(26)
++#define FSG			BIT(27)
++#define OWN		BIT(31)
++
++
++/* OFFSET 4 */
++#define PKT_OFFSET_SZ		0
++#define QSEL_SHT			8
++#define RATE_ID_SHT			16
++#define NAVUSEHDR			BIT(20)
++#define SEC_TYPE_SHT		22
++#define PKT_OFFSET_SHT		26
++
++/* OFFSET 8 */
++#define AGG_EN				BIT(12)
++#define AGG_BK				BIT(16)
++#define AMPDU_DENSITY_SHT	20
++#define ANTSEL_A			BIT(24)
++#define ANTSEL_B			BIT(25)
++#define TX_ANT_CCK_SHT		26
++#define TX_ANTL_SHT			28
++#define TX_ANT_HT_SHT		30
++
++/* OFFSET 12 */
++#define SEQ_SHT				16
++#define EN_HWSEQ			BIT(31)
++
++/* OFFSET 16 */
++#define QOS					BIT(6)
++#define	HW_SSN				BIT(7)
++#define USERATE				BIT(8)
++#define DISDATAFB			BIT(10)
++#define CTS_2_SELF			BIT(11)
++#define	RTS_EN				BIT(12)
++#define	HW_RTS_EN			BIT(13)
++#define DATA_SHORT			BIT(24)
++#define PWR_STATUS_SHT	15
++#define DATA_SC_SHT		20
++#define DATA_BW				BIT(25)
++
++/* OFFSET 20 */
++#define	RTY_LMT_EN			BIT(17)
++
++/* OFFSET 20 */
++#define SGI					BIT(6)
++#define USB_TXAGG_NUM_SHT	24
++
++typedef struct txdescriptor_8812 {
++	/* Offset 0 */
++	u32 pktlen:16;
++	u32 offset:8;
++	u32 bmc:1;
++	u32 htc:1;
++	u32 ls:1;
++	u32 fs:1;
++	u32 linip:1;
++	u32 noacm:1;
++	u32 gf:1;
++	u32 own:1;
++
++	/* Offset 4 */
++	u32 macid:6;
++	u32 rsvd0406:2;
++	u32 qsel:5;
++	u32 rd_nav_ext:1;
++	u32 lsig_txop_en:1;
++	u32 pifs:1;
++	u32 rate_id:4;
++	u32 navusehdr:1;
++	u32 en_desc_id:1;
++	u32 sectype:2;
++	u32 rsvd0424:2;
++	u32 pkt_offset:5;	/* unit: 8 bytes */
++	u32 rsvd0431:1;
++
++	/* Offset 8 */
++	u32 rts_rc:6;
++	u32 data_rc:6;
++	u32 agg_en:1;
++	u32 rd_en:1;
++	u32 bar_rty_th:2;
++	u32 bk:1;
++	u32 morefrag:1;
++	u32 raw:1;
++	u32 ccx:1;
++	u32 ampdu_density:3;
++	u32 bt_null:1;
++	u32 ant_sel_a:1;
++	u32 ant_sel_b:1;
++	u32 tx_ant_cck:2;
++	u32 tx_antl:2;
++	u32 tx_ant_ht:2;
++
++	/* Offset 12 */
++	u32 nextheadpage:8;
++	u32 tailpage:8;
++	u32 seq:12;
++	u32 cpu_handle:1;
++	u32 tag1:1;
++	u32 trigger_int:1;
++	u32 hwseq_en:1;
++
++	/* Offset 16 */
++	u32 rtsrate:5;
++	u32 ap_dcfe:1;
++	u32 hwseq_sel:2;
++	u32 userate:1;
++	u32 disrtsfb:1;
++	u32 disdatafb:1;
++	u32 cts2self:1;
++	u32 rtsen:1;
++	u32 hw_rts_en:1;
++	u32 port_id:1;
++	u32 pwr_status:3;
++	u32 wait_dcts:1;
++	u32 cts2ap_en:1;
++	u32 data_sc:2;
++	u32 data_stbc:2;
++	u32 data_short:1;
++	u32 data_bw:1;
++	u32 rts_short:1;
++	u32 rts_bw:1;
++	u32 rts_sc:2;
++	u32 vcs_stbc:2;
++
++	/* Offset 20 */
++	u32 datarate:6;
++	u32 sgi:1;
++	u32 try_rate:1;
++	u32 data_ratefb_lmt:5;
++	u32 rts_ratefb_lmt:4;
++	u32 rty_lmt_en:1;
++	u32 data_rt_lmt:6;
++	u32 usb_txagg_num:8;
++
++	/* Offset 24 */
++	u32 txagg_a:5;
++	u32 txagg_b:5;
++	u32 use_max_len:1;
++	u32 max_agg_num:5;
++	u32 mcsg1_max_len:4;
++	u32 mcsg2_max_len:4;
++	u32 mcsg3_max_len:4;
++	u32 mcs7_sgi_max_len:4;
++
++	/* Offset 28 */
++	u32 checksum:16;	/* TxBuffSize(PCIe)/CheckSum(USB) */
++	u32 mcsg4_max_len:4;
++	u32 mcsg5_max_len:4;
++	u32 mcsg6_max_len:4;
++	u32 mcs15_sgi_max_len:4;
++
++	/* Offset 32 */
++	u32 rsvd32;
++
++	/* Offset 36 */
++	u32 rsvd36;
++} TXDESC_8812, *PTXDESC_8812;
++
++
++/* Dword 0 */
++#define GET_TX_DESC_OWN_8812(__pTxDesc)				LE_BITS_TO_4BYTE(__pTxDesc, 31, 1)
++#define SET_TX_DESC_PKT_SIZE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 16, __Value)
++#define SET_TX_DESC_OFFSET_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 8, __Value)
++#define SET_TX_DESC_BMC_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 24, 1, __Value)
++#define SET_TX_DESC_HTC_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 25, 1, __Value)
++#define SET_TX_DESC_LAST_SEG_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 26, 1, __Value)
++#define SET_TX_DESC_FIRST_SEG_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 27, 1, __Value)
++#define SET_TX_DESC_LINIP_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 28, 1, __Value)
++#define SET_TX_DESC_NO_ACM_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 29, 1, __Value)
++#define SET_TX_DESC_GF_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 30, 1, __Value)
++#define SET_TX_DESC_OWN_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc, 31, 1, __Value)
++
++/* Dword 1 */
++#define SET_TX_DESC_MACID_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 7, __Value)
++#define SET_TX_DESC_QUEUE_SEL_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 8, 5, __Value)
++#define SET_TX_DESC_RDG_NAV_EXT_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 13, 1, __Value)
++#define SET_TX_DESC_LSIG_TXOP_EN_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 14, 1, __Value)
++#define SET_TX_DESC_PIFS_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 15, 1, __Value)
++#define SET_TX_DESC_RATE_ID_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 16, 5, __Value)
++#define SET_TX_DESC_EN_DESC_ID_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 21, 1, __Value)
++#define SET_TX_DESC_SEC_TYPE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 22, 2, __Value)
++#define SET_TX_DESC_PKT_OFFSET_8812(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 24, 5, __Value)
++
++/* Dword 2 */
++#define SET_TX_DESC_PAID_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 0,  9, __Value)
++#define SET_TX_DESC_CCA_RTS_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 10, 2, __Value)
++#define SET_TX_DESC_AGG_ENABLE_8812(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 12, 1, __Value)
++#define SET_TX_DESC_RDG_ENABLE_8812(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 13, 1, __Value)
++#define SET_TX_DESC_AGG_BREAK_8812(__pTxDesc, __Value)				SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 16, 1, __Value)
++#define SET_TX_DESC_MORE_FRAG_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 17, 1, __Value)
++#define SET_TX_DESC_RAW_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 18, 1, __Value)
++#define SET_TX_DESC_SPE_RPT_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 19, 1, __Value)
++#define SET_TX_DESC_AMPDU_DENSITY_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 20, 3, __Value)
++#define SET_TX_DESC_BT_INT_8812(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 23, 1, __Value)
++#define SET_TX_DESC_GID_8812(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 24, 6, __Value)
++
++/* Dword 3 */
++#define SET_TX_DESC_WHEADER_LEN_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 0, 4, __Value)
++#define SET_TX_DESC_CHK_EN_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 4, 1, __Value)
++#define SET_TX_DESC_EARLY_MODE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 5, 1, __Value)
++#define SET_TX_DESC_HWSEQ_SEL_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 6, 2, __Value)
++#define SET_TX_DESC_USE_RATE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 8, 1, __Value)
++#define SET_TX_DESC_DISABLE_RTS_FB_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 9, 1, __Value)
++#define SET_TX_DESC_DISABLE_FB_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 10, 1, __Value)
++#define SET_TX_DESC_CTS2SELF_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 11, 1, __Value)
++#define SET_TX_DESC_RTS_ENABLE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 12, 1, __Value)
++#define SET_TX_DESC_HW_RTS_ENABLE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 13, 1, __Value)
++#define SET_TX_DESC_NAV_USE_HDR_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 15, 1, __Value)
++#define SET_TX_DESC_USE_MAX_LEN_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 16, 1, __Value)
++#define SET_TX_DESC_MAX_AGG_NUM_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 17, 5, __Value)
++#define SET_TX_DESC_NDPA_8812(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 22, 2, __Value)
++#define SET_TX_DESC_AMPDU_MAX_TIME_8812(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 24, 8, __Value)
++
++/* Dword 4 */
++#define SET_TX_DESC_TX_RATE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 0, 7, __Value)
++#define SET_TX_DESC_DATA_RATE_FB_LIMIT_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 8, 5, __Value)
++#define SET_TX_DESC_RTS_RATE_FB_LIMIT_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 13, 4, __Value)
++#define SET_TX_DESC_RETRY_LIMIT_ENABLE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 17, 1, __Value)
++#define SET_TX_DESC_DATA_RETRY_LIMIT_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 18, 6, __Value)
++#define SET_TX_DESC_RTS_RATE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 24, 5, __Value)
++
++/* Dword 5 */
++#define SET_TX_DESC_DATA_SC_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 0, 4, __Value)
++#define SET_TX_DESC_DATA_SHORT_8812(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 4, 1, __Value)
++#define SET_TX_DESC_DATA_BW_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 5, 2, __Value)
++#define SET_TX_DESC_DATA_LDPC_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 7, 1, __Value)
++#define SET_TX_DESC_DATA_STBC_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 8, 2, __Value)
++#define SET_TX_DESC_CTROL_STBC_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 10, 2, __Value)
++#define SET_TX_DESC_RTS_SHORT_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 12, 1, __Value)
++#define SET_TX_DESC_RTS_SC_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 13, 4, __Value)
++#define SET_TX_DESC_TX_ANT_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 24, 4, __Value)
++
++/* Dword 6 */
++#define SET_TX_DESC_SW_DEFINE_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 0, 12, __Value)
++#define SET_TX_DESC_ANTSEL_A_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 16, 3, __Value)
++#define SET_TX_DESC_ANTSEL_B_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 19, 3, __Value)
++#define SET_TX_DESC_ANTSEL_C_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 22, 3, __Value)
++#define SET_TX_DESC_ANTSEL_D_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 25, 3, __Value)
++#define SET_TX_DESC_MBSSID_8821(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 12, 4, __Value)
++
++/* Dword 7 */
++#define SET_TX_DESC_TX_BUFFER_SIZE_8812(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#define SET_TX_DESC_TX_DESC_CHECKSUM_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#define SET_TX_DESC_USB_TXAGG_NUM_8812(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 24, 8, __Value)
++#ifdef CONFIG_SDIO_HCI
++#define SET_TX_DESC_SDIO_TXSEQ_8812(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 16, 8, __Value)
++#endif
++
++/* Dword 8 */
++#define SET_TX_DESC_HWSEQ_EN_8812(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 15, 1, __Value)
++
++/* Dword 9 */
++#define SET_TX_DESC_SEQ_8812(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 12, 12, __Value)
++
++/* Dword 10 */
++#define SET_TX_DESC_TX_BUFFER_ADDRESS_8812(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+40, 0, 32, __Value)
++#define GET_TX_DESC_TX_BUFFER_ADDRESS_8812(__pTxDesc)	LE_BITS_TO_4BYTE(__pTxDesc+40, 0, 32)
++
++/* Dword 11 */
++#define SET_TX_DESC_NEXT_DESC_ADDRESS_8812(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+48, 0, 32, __Value)
++
++
++#define SET_EARLYMODE_PKTNUM_8812(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 0, 4, __Value)
++#define SET_EARLYMODE_LEN0_8812(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 4, 15, __Value)
++#define SET_EARLYMODE_LEN1_1_8812(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 19, 13, __Value)
++#define SET_EARLYMODE_LEN1_2_8812(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 2, __Value)
++#define SET_EARLYMODE_LEN2_8812(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 2, 15,  __Value)
++#define SET_EARLYMODE_LEN3_8812(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 17, 15, __Value)
++
++#ifdef CONFIG_TX_EARLY_MODE
++	#define USB_DUMMY_OFFSET		2
++#else
++	#define USB_DUMMY_OFFSET		1
++#endif
++#define USB_DUMMY_LENGTH		(USB_DUMMY_OFFSET * PACKET_OFFSET_SZ)
++
++
++void rtl8812a_cal_txdesc_chksum(u8 *ptxdesc);
++void rtl8812a_fill_fake_txdesc(PADAPTER	padapter, u8 *pDesc, u32 BufferLen, u8 IsPsPoll, u8	IsBTQosNull, u8 bDataFrame);
++void rtl8812a_fill_txdesc_sectype(struct pkt_attrib *pattrib, u8 *ptxdesc);
++void rtl8812a_fill_txdesc_vcs(PADAPTER padapter, struct pkt_attrib *pattrib, u8 *ptxdesc);
++void rtl8812a_fill_txdesc_phy(PADAPTER padapter, struct pkt_attrib *pattrib, u8 *ptxdesc);
++#if defined(CONFIG_CONCURRENT_MODE)
++void fill_txdesc_force_bmc_camid(struct pkt_attrib *pattrib, u8 *ptxdesc);
++#endif
++
++#ifdef CONFIG_USB_HCI
++s32 rtl8812au_init_xmit_priv(PADAPTER padapter);
++void rtl8812au_free_xmit_priv(PADAPTER padapter);
++s32 rtl8812au_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++s32 rtl8812au_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++s32	 rtl8812au_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++s32 rtl8812au_xmit_buf_handler(PADAPTER padapter);
++void rtl8812au_xmit_tasklet(void *priv);
++s32 rtl8812au_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++s32 rtl8812ae_init_xmit_priv(PADAPTER padapter);
++void rtl8812ae_free_xmit_priv(PADAPTER padapter);
++struct xmit_buf *rtl8812ae_dequeue_xmitbuf(struct rtw_tx_ring *ring);
++void	rtl8812ae_xmitframe_resume(_adapter *padapter);
++s32 rtl8812ae_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++s32 rtl8812ae_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++s32	rtl8812ae_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++void rtl8812ae_xmit_tasklet(void *priv);
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++s32 rtl8812ae_xmit_buf_handler(_adapter *padapter);
++#endif
++
++#endif
++
++#ifdef CONFIG_TX_EARLY_MODE
++void UpdateEarlyModeInfo8812(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++#endif
++
++void _dbg_dump_tx_info(_adapter	*padapter, int frame_tag, u8 *ptxdesc);
++
++u8	BWMapping_8812(PADAPTER Adapter, struct pkt_attrib *pattrib);
++
++u8	SCMapping_8812(PADAPTER Adapter, struct pkt_attrib	*pattrib);
++
++#endif /* __RTL8812_XMIT_H__ */
++
++#ifdef CONFIG_RTL8821A
++#include "rtl8821a_xmit.h"
++#endif /* CONFIG_RTL8821A */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8814a_cmd.h b/drivers/net/wireless/rtl8812au/include/rtl8814a_cmd.h
+new file mode 100755
+index 0000000..e2e0236
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8814a_cmd.h
+@@ -0,0 +1,158 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8814A_CMD_H__
++#define __RTL8814A_CMD_H__
++#include "hal_com_h2c.h"
++
++/* _RSVDPAGE_LOC_CMD0 */
++#define SET_8814A_H2CCMD_RSVDPAGE_LOC_PROBE_RSP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8814A_H2CCMD_RSVDPAGE_LOC_PSPOLL(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_8814A_H2CCMD_RSVDPAGE_LOC_NULL_DATA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8814A_H2CCMD_RSVDPAGE_LOC_QOS_NULL_DATA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8814A_H2CCMD_RSVDPAGE_LOC_BT_QOS_NULL_DATA(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++
++/* _SETPWRMODE_PARM */
++#define SET_8814A_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8814A_H2CCMD_PWRMODE_PARM_RLBM(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 4, __Value)
++#define SET_8814A_H2CCMD_PWRMODE_PARM_SMART_PS(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 4, 4, __Value)
++#define SET_8814A_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8814A_H2CCMD_PWRMODE_PARM_ALL_QUEUE_UAPSD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_8814A_H2CCMD_PWRMODE_PARM_BCN_EARLY_C2H_RPT(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 2, 1, __Value)
++#define SET_8814A_H2CCMD_PWRMODE_PARM_PWR_STATE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++#define SET_8814A_H2CCMD_PWRMODE_PARM_BYTE5(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+5, 0, 8, __Value)
++
++#define GET_8814A_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd)					LE_BITS_TO_1BYTE(__pH2CCmd, 0, 8)
++
++
++/* _WoWLAN PARAM_CMD5 */
++#define SET_8814A_H2CCMD_WOWLAN_FUNC_ENABLE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8814A_H2CCMD_WOWLAN_PATTERN_MATCH_ENABLE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8814A_H2CCMD_WOWLAN_MAGIC_PKT_ENABLE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_8814A_H2CCMD_WOWLAN_UNICAST_PKT_ENABLE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 3, 1, __Value)
++#define SET_8814A_H2CCMD_WOWLAN_ALL_PKT_DROP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 1, __Value)
++#define SET_8814A_H2CCMD_WOWLAN_GPIO_ACTIVE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 5, 1, __Value)
++#define SET_8814A_H2CCMD_WOWLAN_REKEY_WAKE_UP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 6, 1, __Value)
++#define SET_8814A_H2CCMD_WOWLAN_DISCONNECT_WAKE_UP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 7, 1, __Value)
++#define SET_8814A_H2CCMD_WOWLAN_GPIONUM(__pH2CCmd, __Value)					SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_8814A_H2CCMD_WOWLAN_GPIO_DURATION(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++
++
++/* WLANINFO_PARM */
++#define SET_8814A_H2CCMD_WLANINFO_PARM_OPMODE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8814A_H2CCMD_WLANINFO_PARM_CHANNEL(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_8814A_H2CCMD_WLANINFO_PARM_BW40MHZ(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++
++/* _REMOTE_WAKEUP_CMD7 */
++#define SET_8814A_H2CCMD_REMOTE_WAKECTRL_ENABLE(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8814A_H2CCMD_REMOTE_WAKE_CTRL_ARP_OFFLOAD_EN(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8814A_H2CCMD_REMOTE_WAKE_CTRL_NDP_OFFLOAD_EN(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_8814A_H2CCMD_REMOTE_WAKE_CTRL_GTK_OFFLOAD_EN(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 3, 1, __Value)
++
++
++/* _AP_OFFLOAD_CMD8 */
++#define SET_8814A_H2CCMD_AP_OFFLOAD_ON(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_8814A_H2CCMD_AP_OFFLOAD_HIDDEN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++#define SET_8814A_H2CCMD_AP_OFFLOAD_DENYANY(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_8814A_H2CCMD_AP_OFFLOAD_WAKEUP_EVT_RPT(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++
++/* _PWR_MOD_CMD20 */
++#define SET_88E_H2CCMD_PWRMODE_PARM_MODE(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 8, __Value)
++#define SET_88E_H2CCMD_PWRMODE_PARM_RLBM(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 4, __Value)
++#define SET_88E_H2CCMD_PWRMODE_PARM_SMART_PS(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 4, 4, __Value)
++#define SET_88E_H2CCMD_PWRMODE_PARM_BCN_PASS_TIME(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+2, 0, 8, __Value)
++#define SET_88E_H2CCMD_PWRMODE_PARM_ALL_QUEUE_UAPSD(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+3, 0, 8, __Value)
++#define SET_88E_H2CCMD_PWRMODE_PARM_PWR_STATE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+4, 0, 8, __Value)
++
++/*BCNHWSEQ*/
++#define SET_8814A_H2CCMD_BCNHWSEQ_EN(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd), 0, 1, __Value)
++#define SET_8814A_H2CCMD_BCNHWSEQ_BCN_NUMBER(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd), 1, 3, __Value)
++#define SET_8814A_H2CCMD_BCNHWSEQ_HWSEQ(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd), 6, 1, __Value)
++#define SET_8814A_H2CCMD_BCNHWSEQ_EXHWSEQ(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd), 7, 1, __Value)
++#define SET_8814A_H2CCMD_BCNHWSEQ_PAGE(__pH2CCmd, __Value)	SET_BITS_TO_LE_1BYTE((__pH2CCmd)+1, 0, 8, __Value)
++void rtl8814_fw_update_beacon_cmd(_adapter *padapter);
++
++/* TX Beamforming */
++#define GET_8814A_C2H_TXBF_ORIGINATE(_Header)			LE_BITS_TO_1BYTE(_Header, 0, 8)
++#define GET_8814A_C2H_TXBF_MACID(_Header)				LE_BITS_TO_1BYTE((_Header + 1), 0, 8)
++
++
++
++/* / TX Feedback Content */
++#define	USEC_UNIT_FOR_8814A_C2H_TX_RPT_QUEUE_TIME			256
++
++#define	GET_8814A_C2H_TX_RPT_QUEUE_SELECT(_Header)			LE_BITS_TO_1BYTE((_Header + 0), 0, 5)
++#define	GET_8814A_C2H_TX_RPT_PKT_BROCAST(_Header)			LE_BITS_TO_1BYTE((_Header + 0), 5, 1)
++#define	GET_8814A_C2H_TX_RPT_LIFE_TIME_OVER(_Header)			LE_BITS_TO_1BYTE((_Header + 0), 6, 1)
++#define	GET_8814A_C2H_TX_RPT_RETRY_OVER(_Header)				LE_BITS_TO_1BYTE((_Header + 0), 7, 1)
++#define	GET_8814A_C2H_TX_RPT_MAC_ID(_Header)					LE_BITS_TO_1BYTE((_Header + 1), 0, 8)
++#define	GET_8814A_C2H_TX_RPT_DATA_RETRY_CNT(_Header)		LE_BITS_TO_1BYTE((_Header + 2), 0, 6)
++#define	GET_8814A_C2H_TX_RPT_QUEUE_TIME(_Header)				LE_BITS_TO_2BYTE((_Header + 3), 0, 16)	/* In unit of 256 microseconds. */
++#define	GET_8814A_C2H_TX_RPT_FINAL_DATA_RATE(_Header)		LE_BITS_TO_1BYTE((_Header + 5), 0, 8)
++
++
++/* _P2P_PS_OFFLOAD */
++#define SET_8814A_H2CCMD_P2P_PS_OFFLOAD_ENABLE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 0, 1, __Value)
++#define SET_8814A_H2CCMD_P2P_PS_OFFLOAD_ROLE(__pH2CCmd, __Value)				SET_BITS_TO_LE_1BYTE(__pH2CCmd, 1, 1, __Value)
++#define SET_8814A_H2CCMD_P2P_PS_OFFLOAD_CTWINDOW_EN(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 2, 1, __Value)
++#define SET_8814A_H2CCMD_P2P_PS_OFFLOAD_NOA0_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 3, 1, __Value)
++#define SET_8814A_H2CCMD_P2P_PS_OFFLOAD_NOA1_EN(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 4, 1, __Value)
++#define SET_8814A_H2CCMD_P2P_PS_OFFLOAD_ALLSTASLEEP(__pH2CCmd, __Value)		SET_BITS_TO_LE_1BYTE(__pH2CCmd, 5, 1, __Value)
++#define SET_8814A_H2CCMD_P2P_PS_OFFLOAD_DISCOVERY(__pH2CCmd, __Value)			SET_BITS_TO_LE_1BYTE(__pH2CCmd, 6, 1, __Value)
++
++s32 FillH2CCmd_8814(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
++void rtl8814_set_raid_cmd(PADAPTER padapter, u64 bitmap, u8 *arg, u8 bw);
++void rtl8814_set_wowlan_cmd(_adapter *padapter, u8 enable);
++void rtl8814_set_FwJoinBssReport_cmd(PADAPTER padapter, u8 mstatus);
++void rtl8814_set_FwPwrMode_cmd(PADAPTER padapter, u8 PSMode);
++u8 GetTxBufferRsvdPageNum8814(_adapter *padapter, bool wowlan);
++u8 rtl8814_set_rssi_cmd(_adapter *padapter, u8 *param);
++
++#ifdef CONFIG_TDLS
++	#ifdef CONFIG_TDLS_CH_SW
++		void rtl8814_set_BcnEarly_C2H_Rpt_cmd(PADAPTER padapter, u8 enable);
++	#endif
++#endif
++
++void
++Set_RA_LDPC_8814(
++	struct sta_info	*psta,
++	BOOLEAN			bLDPC
++);
++int rtl8814_iqk_wait(_adapter *padapter, u32 timeout_ms);
++void rtl8814_iqk_done(_adapter *padapter);
++VOID
++C2HPacketHandler_8814(
++	IN	PADAPTER	Adapter,
++	IN	u8			*Buffer,
++	IN	u8			Length
++);
++#ifdef CONFIG_P2P_PS
++	void rtl8814_set_p2p_ps_offload_cmd(PADAPTER padapter, u8 p2p_ps_state);
++#endif /* CONFIG_P2P */
++
++s32
++_C2HContentParsing8814(
++	IN	PADAPTER	Adapter,
++	IN	u8			c2hCmdId,
++	IN	u8			c2hCmdLen,
++	IN	u8			*tmpBuf
++);
++
++#endif/* __RTL8814A_CMD_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8814a_dm.h b/drivers/net/wireless/rtl8812au/include/rtl8814a_dm.h
+new file mode 100644
+index 0000000..bb925e4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8814a_dm.h
+@@ -0,0 +1,28 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8814A_DM_H__
++#define __RTL8814A_DM_H__
++
++void rtl8814_init_dm_priv(IN PADAPTER Adapter);
++void rtl8814_deinit_dm_priv(IN PADAPTER Adapter);
++void rtl8814_InitHalDm(IN PADAPTER Adapter);
++void rtl8814_HalDmWatchDog(IN PADAPTER Adapter);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8814a_hal.h b/drivers/net/wireless/rtl8812au/include/rtl8814a_hal.h
+new file mode 100755
+index 0000000..a2846bb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8814a_hal.h
+@@ -0,0 +1,325 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8814A_HAL_H__
++#define __RTL8814A_HAL_H__
++
++/* #include "hal_com.h" */
++#include "hal_data.h"
++
++/* include HAL Related header after HAL Related compiling flags */
++#include "rtl8814a_spec.h"
++#include "rtl8814a_rf.h"
++#include "rtl8814a_dm.h"
++#include "rtl8814a_recv.h"
++#include "rtl8814a_xmit.h"
++#include "rtl8814a_cmd.h"
++#include "rtl8814a_led.h"
++#include "Hal8814PwrSeq.h"
++#include "Hal8814PhyReg.h"
++#include "Hal8814PhyCfg.h"
++#ifdef DBG_CONFIG_ERROR_DETECT
++	#include "rtl8814a_sreset.h"
++#endif /* DBG_CONFIG_ERROR_DETECT */
++
++enum {
++	VOLTAGE_V25						= 0x03,
++	LDOE25_SHIFT					= 28 ,
++};
++/* max. iram is 64k , max dmen is 32k. Total = 96k = 0x18000*/
++#define FW_SIZE							0x18000
++#define FW_START_ADDRESS   0x1000
++typedef struct _RT_FIRMWARE_8814 {
++	FIRMWARE_SOURCE	eFWSource;
++#ifdef CONFIG_EMBEDDED_FWIMG
++	u8			*szFwBuffer;
++#else
++	u8			szFwBuffer[FW_SIZE];
++#endif
++	u32			ulFwLength;
++} RT_FIRMWARE_8814, *PRT_FIRMWARE_8814;
++
++#define PAGE_SIZE_TX_8814	PAGE_SIZE_128
++#define BCNQ_PAGE_NUM_8814		0x08
++
++#define Rtl8814A_NIC_PWR_ON_FLOW				rtl8814A_power_on_flow
++#define Rtl8814A_NIC_RF_OFF_FLOW				rtl8814A_radio_off_flow
++#define Rtl8814A_NIC_DISABLE_FLOW				rtl8814A_card_disable_flow
++#define Rtl8814A_NIC_ENABLE_FLOW				rtl8814A_card_enable_flow
++#define Rtl8814A_NIC_SUSPEND_FLOW				rtl8814A_suspend_flow
++#define Rtl8814A_NIC_RESUME_FLOW				rtl8814A_resume_flow
++#define Rtl8814A_NIC_PDN_FLOW					rtl8814A_hwpdn_flow
++#define Rtl8814A_NIC_LPS_ENTER_FLOW			rtl8814A_enter_lps_flow
++#define Rtl8814A_NIC_LPS_LEAVE_FLOW			rtl8814A_leave_lps_flow
++
++/* *****************************************************
++ *				New	Firmware Header(8-byte alinment required)
++ * *****************************************************
++ * --- LONG WORD 0 ---- */
++#define GET_FIRMWARE_HDR_SIGNATURE_3081(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr, 0, 16)
++#define GET_FIRMWARE_HDR_CATEGORY_3081(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr, 16, 8) /* AP/NIC and USB/PCI */
++#define GET_FIRMWARE_HDR_FUNCTION_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr, 24, 8) /* Reserved for different FW function indcation, for further use when driver needs to download different FW in different conditions */
++#define GET_FIRMWARE_HDR_VERSION_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+4, 0, 16)/* FW Version */
++#define GET_FIRMWARE_HDR_SUB_VER_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+4, 16, 8) /* FW Subversion, default 0x00 */
++#define GET_FIRMWARE_HDR_SUB_IDX_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+4, 24, 8) /* FW Subversion Index */
++
++/* --- LONG WORD 1 ---- */
++#define GET_FIRMWARE_HDR_SVN_IDX_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+8, 0, 32)/* The SVN entry index */
++#define GET_FIRMWARE_HDR_RSVD1_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+12, 0, 32)
++
++/* --- LONG WORD 2 ---- */
++#define GET_FIRMWARE_HDR_MONTH_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+16, 0, 8) /* Release time Month field */
++#define GET_FIRMWARE_HDR_DATE_3081(__FwHdr)				LE_BITS_TO_4BYTE(__FwHdr+16, 8, 8) /* Release time Date field */
++#define GET_FIRMWARE_HDR_HOUR_3081(__FwHdr)				LE_BITS_TO_4BYTE(__FwHdr+16, 16, 8)/* Release time Hour field */
++#define GET_FIRMWARE_HDR_MINUTE_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+16, 24, 8)/* Release time Minute field */
++#define GET_FIRMWARE_HDR_YEAR_3081(__FwHdr)				LE_BITS_TO_4BYTE(__FwHdr+20, 0, 16)/* Release time Year field */
++#define GET_FIRMWARE_HDR_FOUNDRY_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+20, 16, 8)/* Release time Foundry field */
++#define GET_FIRMWARE_HDR_RSVD2_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+20, 24, 8)
++
++/* --- LONG WORD 3 ---- */
++#define GET_FIRMWARE_HDR_MEM_UASGE_DL_FROM_3081(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr+24, 0, 1)
++#define GET_FIRMWARE_HDR_MEM_UASGE_BOOT_FROM_3081(__FwHdr)	LE_BITS_TO_4BYTE(__FwHdr+24, 1, 1)
++#define GET_FIRMWARE_HDR_MEM_UASGE_BOOT_LOADER_3081(__FwHdr)LE_BITS_TO_4BYTE(__FwHdr+24, 2, 1)
++#define GET_FIRMWARE_HDR_MEM_UASGE_IRAM_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+24, 3, 1)
++#define GET_FIRMWARE_HDR_MEM_UASGE_ERAM_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+24, 4, 1)
++#define GET_FIRMWARE_HDR_MEM_UASGE_RSVD4_3081(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr+24, 5, 3)
++#define GET_FIRMWARE_HDR_RSVD3_3081(__FwHdr)					LE_BITS_TO_4BYTE(__FwHdr+24, 8, 8)
++#define GET_FIRMWARE_HDR_BOOT_LOADER_SZ_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+24, 16, 16)
++#define GET_FIRMWARE_HDR_RSVD5_3081(__FwHdr)					LE_BITS_TO_4BYTE(__FwHdr+28, 0, 32)
++
++/* --- LONG WORD 4 ---- */
++#define GET_FIRMWARE_HDR_TOTAL_DMEM_SZ_3081(__FwHdr)	LE_BITS_TO_4BYTE(__FwHdr+36, 0, 32)
++#define GET_FIRMWARE_HDR_FW_CFG_SZ_3081(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr+36, 0, 16)
++#define GET_FIRMWARE_HDR_FW_ATTR_SZ_3081(__FwHdr)		LE_BITS_TO_4BYTE(__FwHdr+36, 16, 16)
++
++/* --- LONG WORD 5 ---- */
++#define GET_FIRMWARE_HDR_IROM_3081(__FwHdr)				LE_BITS_TO_4BYTE(__FwHdr+40, 0, 32)
++#define GET_FIRMWARE_HDR_EROM_3081(__FwHdr)				LE_BITS_TO_4BYTE(__FwHdr+44, 0, 32)
++
++/* --- LONG WORD 6 ---- */
++#define GET_FIRMWARE_HDR_IRAM_SZ_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+48, 0, 32)
++#define GET_FIRMWARE_HDR_ERAM_SZ_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+52, 0, 32)
++
++/* --- LONG WORD 7 ---- */
++#define GET_FIRMWARE_HDR_RSVD6_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+56, 0, 32)
++#define GET_FIRMWARE_HDR_RSVD7_3081(__FwHdr)			LE_BITS_TO_4BYTE(__FwHdr+60, 0, 32)
++
++
++
++/*
++ * 2013/08/16 MH MOve from SDIO.h for common use.
++ *   */
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_USB_HCI)
++	#define TRX_SHARE_MODE_8814A				0	/* TRX Buffer Share Index */
++	#define BASIC_RXFF_SIZE_8814A				24576/* Basic RXFF Size is 24K = 24*1024 Unit: Byte */
++	#define TRX_SHARE_BUFF_UNIT_8814A			65536/* TRX Share Buffer unit Size 64K = 64*1024 Unit: Byte */
++	#define TRX_SHARE_BUFF_UNIT_PAGE_8814A	(TRX_SHARE_BUFF_UNIT_8814A/PAGE_SIZE_8814A)/* 512 Pages */
++
++	/* Origin: */
++	#define  HPQ_PGNUM_8814A					0x20	/* High Queue */
++	#define  LPQ_PGNUM_8814A					0x20	/* Low Queue */
++	#define  NPQ_PGNUM_8814A					0x20	/* Normal Queue */
++	#define  EPQ_PGNUM_8814A					0x20	/* Extra Queue */
++
++#else	/*  #if defined(CONFIG_SDIO_HCI) || defined(CONFIG_USB_HCI) */
++
++	#define  HPQ_PGNUM_8814A		20
++	#define  NPQ_PGNUM_8814A		20
++	#define  LPQ_PGNUM_8814A		20 /* 1972 */
++	#define  EPQ_PGNUM_8814A		20
++	#define  BCQ_PGNUM_8814A		32
++
++#endif /* #if defined(CONFIG_SDIO_HCI) || defined(CONFIG_USB_HCI) */
++
++#ifdef CONFIG_WOWLAN
++	#define WOWLAN_PAGE_NUM_8814	0x00
++#else
++	#define WOWLAN_PAGE_NUM_8814	0x00
++#endif
++
++#define PAGE_SIZE_8814A						128/* TXFF Page Size, Unit: Byte */
++#define MAX_RX_DMA_BUFFER_SIZE_8814A		0x5C00	/* BASIC_RXFF_SIZE_8814A + TRX_SHARE_MODE_8814A * TRX_SHARE_BUFF_UNIT_8814A */ /* Basic RXFF Size + ShareBuffer Size */
++#define TX_PAGE_BOUNDARY_8814A			TXPKT_PGNUM_8814A	/* Need to enlarge boundary, by KaiYuan */
++#define TX_PAGE_BOUNDARY_WOWLAN_8814A	TXPKT_PGNUM_8814A	/* TODO: 20130415 KaiYuan Check this value later */
++
++#ifdef CONFIG_FW_C2H_DEBUG
++	#define RX_DMA_RESERVED_SIZE_8814A	0x100	/* 256B, reserved for c2h debug message */
++#else
++	#define RX_DMA_RESERVED_SIZE_8814A	0x0	/* 0B */
++#endif
++#define RX_DMA_BOUNDARY_8814A		(MAX_RX_DMA_BUFFER_SIZE_8814A - RX_DMA_RESERVED_SIZE_8814A - 1)
++
++#define  TOTAL_PGNUM_8814A		2048
++#define  TXPKT_PGNUM_8814A		(2048 - BCNQ_PAGE_NUM_8814-WOWLAN_PAGE_NUM_8814)
++#define  PUB_PGNUM_8814A		(TXPKT_PGNUM_8814A-HPQ_PGNUM_8814A-NPQ_PGNUM_8814A-LPQ_PGNUM_8814A-EPQ_PGNUM_8814A)
++
++/* Note: For WMM Normal Chip Setting ,modify later */
++#define WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8814A	TX_PAGE_BOUNDARY_8814A
++#define WMM_NORMAL_TX_PAGE_BOUNDARY_8814A		(WMM_NORMAL_TX_TOTAL_PAGE_NUMBER_8814A + 1)
++
++#define DRIVER_EARLY_INT_TIME_8814		0x05
++#define BCN_DMA_ATIME_INT_TIME_8814		0x02
++
++
++#define MAX_PAGE_SIZE			4096	/* @ page : 4k bytes */
++
++#define EFUSE_MAX_SECTION_JAGUAR				64
++
++#define	HWSET_MAX_SIZE_8814A			512
++
++#define	EFUSE_REAL_CONTENT_LEN_8814A	1024
++#define	EFUSE_MAX_BANK_8814A		2
++
++#define	EFUSE_MAP_LEN_8814A			512
++#define	EFUSE_MAX_SECTION_8814A		64
++#define	EFUSE_MAX_WORD_UNIT_8814A		4
++#define	EFUSE_PROTECT_BYTES_BANK_8814A		16
++
++#define	EFUSE_IC_ID_OFFSET_8814A		506	/* For some inferiority IC purpose. added by Roger, 2009.09.02. */
++#define AVAILABLE_EFUSE_ADDR_8814A(addr)	(addr < EFUSE_REAL_CONTENT_LEN_8814A)
++
++/*-------------------------------------------------------------------------
++Chip specific
++-------------------------------------------------------------------------*/
++
++/* pic buffer descriptor */
++#if 1 /* according to the define in the rtw_xmit.h, rtw_recv.h */
++	#define RTL8814AE_SEG_NUM  TX_BUFFER_SEG_NUM /* 0:2 seg, 1: 4 seg, 2: 8 seg */
++	#define TX_DESC_NUM_8814A  TXDESC_NUM   /* 128 */
++	#define RX_DESC_NUM_8814A  PCI_MAX_RX_COUNT /* 128 */
++	#ifdef CONFIG_CONCURRENT_MODE
++		#define BE_QUEUE_TX_DESC_NUM_8814A  (TXDESC_NUM<<1)    /* 256 */
++	#else
++		#define BE_QUEUE_TX_DESC_NUM_8814A  (TXDESC_NUM+(TXDESC_NUM>>1)) /* 192 */
++	#endif
++#else
++	#define RTL8814AE_SEG_NUM  TX_BUFFER_SEG_NUM /* 0:2 seg, 1: 4 seg, 2: 8 seg */
++	#define TX_DESC_NUM_8814A  128 /* 1024//2048 change by ylb 20130624 */
++	#define RX_DESC_NUM_8814A  128 /* 1024 //512 change by ylb 20130624 */
++#endif
++
++/* <Roger_Notes> To prevent out of boundary programming case, leave 1byte and program full section
++ * 9bytes + 1byt + 5bytes and pre 1byte.
++ * For worst case:
++ * | 1byte|----8bytes----|1byte|--5bytes--|
++ * |         |            Reserved(14bytes)	      |
++ *   */
++#define	EFUSE_OOB_PROTECT_BYTES		15	/* PG data exclude header, dummy 6 bytes frome CP test and reserved 1byte. */
++
++/* rtl8814_hal_init.c */
++s32 FirmwareDownload8814A(PADAPTER	Adapter, BOOLEAN bUsedWoWLANFw);
++void	InitializeFirmwareVars8814(PADAPTER padapter);
++
++VOID
++Hal_InitEfuseVars_8814A(
++	IN	PADAPTER	Adapter
++);
++
++s32 InitLLTTable8814A(
++	IN	PADAPTER	Adapter
++);
++
++
++void InitRDGSetting8814A(PADAPTER padapter);
++
++/* void CheckAutoloadState8812A(PADAPTER padapter); */
++
++/* EFuse */
++u8	GetEEPROMSize8814A(PADAPTER padapter);
++VOID hal_InitPGData_8814A(
++ IN PADAPTER  padapter,
++ IN OUT u8   *PROMContent
++);
++
++void	hal_ReadPROMVersion8814A(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	hal_ReadTxPowerInfo8814A(PADAPTER padapter, u8 *hwinfo, BOOLEAN	AutoLoadFail);
++void	hal_ReadBoardType8814A(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	hal_ReadThermalMeter_8814A(PADAPTER	Adapter, u8 *PROMContent, BOOLEAN	AutoloadFail);
++void	hal_ReadChannelPlan8814A(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	hal_EfuseParseXtal_8814A(PADAPTER pAdapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++void	hal_ReadAntennaDiversity8814A(PADAPTER pAdapter, u8 *PROMContent, BOOLEAN AutoLoadFail);
++void	hal_Read_TRX_antenna_8814A(PADAPTER	Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++VOID hal_ReadAmplifierType_8814A(
++	IN	PADAPTER		Adapter
++);
++VOID hal_ReadPAType_8814A(
++	IN	PADAPTER	Adapter,
++	IN	u8			*PROMContent,
++	IN	BOOLEAN		AutoloadFail,
++	OUT u8		*pPAType,
++	OUT u8		*pLNAType
++);
++
++void hal_ReadPowerTrackingType_8814A(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++
++void hal_GetRxGainOffset_8814A(
++	PADAPTER	Adapter,
++	pu1Byte		PROMContent,
++	BOOLEAN		AutoloadFail
++);
++void Hal_EfuseParseKFreeData_8814A(
++	IN		PADAPTER		Adapter,
++	IN		u8				*PROMContent,
++	IN		BOOLEAN			AutoloadFail);
++void	hal_ReadRFEType_8814A(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++void	hal_EfuseParseBTCoexistInfo8814A(PADAPTER Adapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++
++/* void	hal_ReadUsbType_8812AU(PADAPTER Adapter, u8 *PROMContent, BOOLEAN AutoloadFail);
++ * int	FirmwareDownloadBT(PADAPTER Adapter, PRT_MP_FIRMWARE pFirmware); */
++void	hal_ReadRemoteWakeup_8814A(PADAPTER padapter, u8 *hwinfo, BOOLEAN AutoLoadFail);
++u8	MgntQuery_NssTxRate(u16 Rate);
++
++/* BOOLEAN HalDetectPwrDownMode8812(PADAPTER Adapter); */
++
++#ifdef CONFIG_WOWLAN
++	void Hal_DetectWoWMode(PADAPTER pAdapter);
++#endif /* CONFIG_WOWLAN */
++
++void _InitBeaconParameters_8814A(PADAPTER padapter);
++void SetBeaconRelatedRegisters8814A(PADAPTER padapter);
++
++void ReadRFType8814A(PADAPTER padapter);
++void InitDefaultValue8814A(PADAPTER padapter);
++
++void SetHwReg8814A(PADAPTER padapter, u8 variable, u8 *pval);
++void GetHwReg8814A(PADAPTER padapter, u8 variable, u8 *pval);
++u8 SetHalDefVar8814A(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++u8 GetHalDefVar8814A(PADAPTER padapter, HAL_DEF_VARIABLE variable, void *pval);
++s32 c2h_id_filter_ccx_8814a(u8 *buf);
++void rtl8814_set_hal_ops(struct hal_ops *pHalFunc);
++void init_hal_spec_8814a(_adapter *adapter);
++
++/* register */
++void SetBcnCtrlReg(PADAPTER padapter, u8 SetBits, u8 ClearBits);
++void SetBcnCtrlReg(PADAPTER	Adapter, u8	SetBits, u8	ClearBits);
++void rtl8814_start_thread(PADAPTER padapter);
++void rtl8814_stop_thread(PADAPTER padapter);
++
++
++#ifdef CONFIG_PCI_HCI
++	BOOLEAN	InterruptRecognized8814AE(PADAPTER Adapter);
++	VOID	UpdateInterruptMask8814AE(PADAPTER Adapter, u32 AddMSR, u32 AddMSR1, u32 RemoveMSR, u32 RemoveMSR1);
++	u16	get_txbd_idx_addr(u16 ff_hwaddr);
++#endif
++
++#ifdef CONFIG_BT_COEXIST
++	void rtl8812a_combo_card_WifiOnlyHwInit(PADAPTER Adapter);
++#endif
++
++#endif /* __RTL8188E_HAL_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8814a_led.h b/drivers/net/wireless/rtl8812au/include/rtl8814a_led.h
+new file mode 100644
+index 0000000..1137a9b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8814a_led.h
+@@ -0,0 +1,40 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8814A_LED_H__
++#define __RTL8814A_LED_H__
++
++
++/* ********************************************************************************
++ * Interface to manipulate LED objects.
++ * ******************************************************************************** */
++#ifdef CONFIG_USB_HCI
++	void rtl8814au_InitSwLeds(PADAPTER padapter);
++	void rtl8814au_DeInitSwLeds(PADAPTER padapter);
++#endif /* CONFIG_USB_HCI */
++#ifdef CONFIG_PCI_HCI
++	void rtl8814ae_InitSwLeds(PADAPTER padapter);
++	void rtl8814ae_DeInitSwLeds(PADAPTER padapter);
++#endif /* CONFIG_PCI_HCI */
++#ifdef CONFIG_SDIO_HCI
++	void rtl8814s_InitSwLeds(PADAPTER padapter);
++	void rtl8814s_DeInitSwLeds(PADAPTER padapter);
++#endif /* CONFIG_SDIO_HCI */
++
++#endif /* __RTL8814A_LED_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8814a_recv.h b/drivers/net/wireless/rtl8812au/include/rtl8814a_recv.h
+new file mode 100755
+index 0000000..e9626f3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8814a_recv.h
+@@ -0,0 +1,191 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8814A_RECV_H__
++#define __RTL8814A_RECV_H__
++
++#if defined(CONFIG_USB_HCI)
++
++	#ifndef MAX_RECVBUF_SZ
++		#ifdef PLATFORM_OS_CE
++			#define MAX_RECVBUF_SZ (8192+1024) /* 8K+1k */
++		#else
++			#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++				#ifdef CONFIG_PLATFORM_MSTAR
++					#define MAX_RECVBUF_SZ (8192) /* 8K */
++				#else
++					#define MAX_RECVBUF_SZ (32768) /* 32k */
++				#endif
++				/* #define MAX_RECVBUF_SZ (24576) */ /* 24k */
++				/* #define MAX_RECVBUF_SZ (20480) */ /* 20K */
++				/* #define MAX_RECVBUF_SZ (10240) */ /* 10K */
++				/* #define MAX_RECVBUF_SZ (15360) */ /* 15k < 16k */
++				/* #define MAX_RECVBUF_SZ (8192+1024) */ /* 8K+1k */
++			#else
++				#define MAX_RECVBUF_SZ (4000) /* about 4K */
++			#endif
++		#endif
++	#endif /* !MAX_RECVBUF_SZ */
++
++#elif defined(CONFIG_PCI_HCI)
++	/* #ifndef CONFIG_MINIMAL_MEMORY_USAGE */
++	/*	#define MAX_RECVBUF_SZ (9100) */
++	/* #else */
++	#define MAX_RECVBUF_SZ (4000) /* about 4K
++	* #endif */
++
++
++#elif defined(CONFIG_SDIO_HCI)
++	#if 0
++		/* temp solution */
++		#ifdef CONFIG_SDIO_RX_COPY
++			#define MAX_RECVBUF_SZ (10240)
++		#else /*  !CONFIG_SDIO_RX_COPY */
++			#define MAX_RECVBUF_SZ	MAX_RX_DMA_BUFFER_SIZE_8821
++		#endif /*  !CONFIG_SDIO_RX_COPY */
++	#endif
++#endif
++
++
++/* RX buffer descriptor */
++/* DWORD 0 */
++#define SET_RX_BUFFER_DESC_DATA_LENGTH_8814A(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++#define SET_RX_BUFFER_DESC_LS_8814A(__pRxStatusDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 14, 1, __Value)
++#define SET_RX_BUFFER_DESC_FS_8814A(__pRxStatusDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 15, 1, __Value)
++#define SET_RX_BUFFER_DESC_TOTAL_LENGTH_8814A(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 16, 16, __Value)
++
++#define GET_RX_BUFFER_DESC_OWN_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc, 31, 1)
++#define GET_RX_BUFFER_DESC_LS_8814A(__pRxStatusDesc)							LE_BITS_TO_4BYTE(__pRxStatusDesc, 14, 1)
++#define GET_RX_BUFFER_DESC_FS_8814A(__pRxStatusDesc)							LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++#define GET_RX_BUFFER_DESC_TOTAL_LENGTH_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 15)
++
++/* DWORD 1 */
++#define SET_RX_BUFFER_PHYSICAL_LOW_8814A(__pRxStatusDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pRxStatusDesc+4, 0, 32, __Value)
++#define GET_RX_BUFFER_PHYSICAL_LOW_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 0, 32)
++
++/* DWORD 2 */
++#define SET_RX_BUFFER_PHYSICAL_HIGH_8814A(__pRxStatusDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pRxStatusDesc+8, 0, 32, __Value)
++
++/* DWORD 3*/ /* RESERVED */
++
++
++#if 0
++	/* =============
++	* RX Info
++	* ============== */
++#endif
++/* DWORD 0 */
++#define SET_RX_STATUS_DESC_PKT_LEN_8814A(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 0, 14, __Value)
++#define SET_RX_STATUS_DESC_EOR_8814A(__pRxStatusDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 30, 1, __Value)
++#define SET_RX_STATUS_DESC_OWN_8814AE(__pRxStatusDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pRxStatusDesc, 31, 1, __Value)
++
++#define GET_RX_STATUS_DESC_PKT_LEN_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 0, 14)
++#define GET_RX_STATUS_DESC_CRC32_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc, 14, 1)
++#define GET_RX_STATUS_DESC_ICV_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc, 15, 1)
++#define GET_RX_STATUS_DESC_DRVINFO_SIZE_8814A(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 16, 4)
++#define GET_RX_STATUS_DESC_SECURITY_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 20, 3)
++#define GET_RX_STATUS_DESC_QOS_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc, 23, 1)
++#define GET_RX_STATUS_DESC_SHIFT_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc, 24, 2)
++#define GET_RX_STATUS_DESC_PHY_STATUS_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 26, 1)
++#define GET_RX_STATUS_DESC_SWDEC_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc, 27, 1)
++#define GET_RX_STATUS_DESC_LAST_SEG_8814AE(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 28, 1)
++#define GET_RX_STATUS_DESC_EOR_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc, 30, 1)
++
++/* DWORD 1 */
++#define GET_RX_STATUS_DESC_MACID_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 0, 7)
++#define GET_RX_STATUS_DESC_EXT_SECTYPE_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 7, 1)/* 20130415 KaiYuan add for 8814 */
++#define GET_RX_STATUS_DESC_TID_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 8, 4)
++#define GET_RX_STATUS_DESC_MACID_VLD_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 12, 1)
++#define GET_RX_STATUS_DESC_AMSDU_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 13, 1)
++#define GET_RX_STATUS_DESC_RXID_MATCH_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 14, 1)
++#define GET_RX_STATUS_DESC_PAGGR_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 15, 1)
++#define GET_RX_STATUS_DESC_TCPOFFLOAD_CHKERR_8814A(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 20, 1)
++#define GET_RX_STATUS_DESC_TCPOFFLOAD_IPVER_8814A(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 21, 1)
++#define GET_RX_STATUS_DESC_TCPOFFLOAD_IS_TCPUDP_8814A(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 22, 1)
++#define GET_RX_STATUS_DESC_TCPOFFLOAD_CHK_VLD_8814A(__pRxStatusDesc)		LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 23, 1)
++#define GET_RX_STATUS_DESC_PAM_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 24, 1)
++#define GET_RX_STATUS_DESC_PWR_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 25, 1)
++#define GET_RX_STATUS_DESC_MORE_DATA_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 26, 1)
++#define GET_RX_STATUS_DESC_MORE_FRAG_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 27, 1)
++#define GET_RX_STATUS_DESC_TYPE_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 28, 2)
++#define GET_RX_STATUS_DESC_FIRST_SEG_8814AE(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc, 29, 1)
++#define GET_RX_STATUS_DESC_EOR_8814AE(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc, 30, 1)
++#define GET_RX_STATUS_DESC_MC_8814A(__pRxStatusDesc)							LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 30, 1)
++#define GET_RX_STATUS_DESC_BC_8814A(__pRxStatusDesc)							LE_BITS_TO_4BYTE(__pRxStatusDesc+4, 31, 1)
++
++/* DWORD 2 */
++#define GET_RX_STATUS_DESC_SEQ_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 0, 12)
++#define GET_RX_STATUS_DESC_FRAG_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 12, 4)
++#ifdef CONFIG_USB_RX_AGGREGATION
++	#define GET_RX_STATUS_DESC_USB_AGG_PKTNUM_8814A(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 16, 8)
++#else
++	#define GET_RX_STATUS_DESC_RX_IS_QOS_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 16, 1)
++#endif
++#define GET_RX_STATUS_DESC_WLANHD_IV_LEN_8814A(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 18, 6)
++#define GET_RX_STATUS_DESC_HWRSVD_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 24, 4)
++#define GET_RX_STATUS_C2H_8814A(__pRxStatusDesc)								LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 28, 1)
++#define GET_RX_STATUS_DESC_FCS_OK_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+8, 31, 1)
++
++/* DWORD 3 */
++#define GET_RX_STATUS_DESC_RX_RATE_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 0, 7)
++#define GET_RX_STATUS_DESC_BSSID_FIT_H_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 7, 3)/* 20130415 KaiYuan add for 8814 */
++#define GET_RX_STATUS_DESC_HTC_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 10, 1)
++#define GET_RX_STATUS_DESC_EOSP_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 11, 1)
++#define GET_RX_STATUS_DESC_BSSID_FIT_L_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 12, 2)
++#define GET_RX_STATUS_DESC_DMA_AGG_NUM_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 16, 8)/* 20130415 KaiYuan Check if it exist anymore */
++#define GET_RX_STATUS_DESC_PATTERN_MATCH_8814A(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 29, 1)
++#define GET_RX_STATUS_DESC_UNICAST_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 30, 1)
++#define GET_RX_STATUS_DESC_MAGIC_WAKE_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+12, 31, 1)
++
++/* DWORD 4 */
++#define GET_RX_STATUS_DESC_PATTERN_IDX_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+16, 0, 8)
++#define GET_RX_STATUS_DESC_RX_EOF_8814A(__pRxStatusDesc)					LE_BITS_TO_4BYTE(__pRxStatusDesc+16, 8, 1)
++#define GET_RX_STATUS_DESC_RX_SCRAMBLER_8814A(__pRxStatusDesc)				LE_BITS_TO_4BYTE(__pRxStatusDesc+16, 9, 7)
++#define GET_RX_STATUS_DESC_RX_PRE_NDP_VLD_8814A(__pRxStatusDesc)			LE_BITS_TO_4BYTE(__pRxStatusDesc+16, 16, 1)
++#define GET_RX_STATUS_DESC_A1_FIT_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+16, 24, 5)
++
++
++/* DWORD 5 */
++#define GET_RX_STATUS_DESC_TSFL_8814A(__pRxStatusDesc)						LE_BITS_TO_4BYTE(__pRxStatusDesc+20, 0, 32)
++
++
++/* Rx smooth factor */
++#define Rx_Smooth_Factor (20)
++
++#ifdef CONFIG_USB_HCI
++	s32 rtl8814au_init_recv_priv(PADAPTER padapter);
++	void rtl8814au_free_recv_priv(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8814ae_init_recv_priv(PADAPTER padapter);
++	void rtl8814ae_free_recv_priv(PADAPTER padapter);
++#endif
++
++#if 0
++	/* temp solution */
++	#ifdef CONFIG_SDIO_HCI
++		s32 InitRecvPriv8821AS(PADAPTER padapter);
++		void FreeRecvPriv8821AS(PADAPTER padapter);
++	#endif /*  CONFIG_SDIO_HCI */
++#endif
++
++void rtl8814_query_rx_desc_status(union recv_frame *precvframe, u8 *pdesc);
++
++#endif /* __RTL8814A_RECV_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8814a_rf.h b/drivers/net/wireless/rtl8812au/include/rtl8814a_rf.h
+new file mode 100644
+index 0000000..7b11d99
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8814a_rf.h
+@@ -0,0 +1,33 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8814A_RF_H__
++#define __RTL8814A_RF_H__
++
++VOID
++PHY_RF6052SetBandwidth8814A(
++	IN	PADAPTER				Adapter,
++	IN	CHANNEL_WIDTH		Bandwidth);
++
++
++int
++PHY_RF6052_Config_8814A(
++	IN	PADAPTER	Adapter);
++
++#endif/* __RTL8188E_RF_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8814a_spec.h b/drivers/net/wireless/rtl8812au/include/rtl8814a_spec.h
+new file mode 100755
+index 0000000..43a6381
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8814a_spec.h
+@@ -0,0 +1,651 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#ifndef __RTL8814A_SPEC_H__
++#define __RTL8814A_SPEC_H__
++
++#include <drv_conf.h>
++
++
++/* ************************************************************
++ *
++ * ************************************************************ */
++
++/* -----------------------------------------------------
++ *
++ *	0x0000h ~ 0x00FFh	System Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_SYS_ISO_CTRL_8814A			0x0000	/* 2 Byte */
++#define REG_SYS_FUNC_EN_8814A			0x0002	/* 2 Byte */
++#define REG_SYS_PW_CTRL_8814A			0x0004	/* 4 Byte        */
++#define REG_SYS_CLKR_8814A				0x0008	/* 2 Byte */
++#define REG_SYS_EEPROM_CTRL_8814A		0x000A	/* 2 Byte        */
++#define REG_EE_VPD_8814A				0x000C	/* 2 Byte */
++#define REG_SYS_SWR_CTRL1_8814A			0x0010	/* 1 Byte */
++#define REG_SPS0_CTRL_8814A				0x0011	/* 7 Byte */
++#define REG_SYS_SWR_CTRL3_8814A			0x0018	/* 4 Byte */
++#define REG_RSV_CTRL_8814A				0x001C	/* 3 Byte */
++#define REG_RF_CTRL0_8814A				0x001F	/* 1 Byte */
++#define REG_RF_CTRL1_8814A				0x0020	/* 1 Byte */
++#define REG_RF_CTRL2_8814A				0x0021	/* 1 Byte */
++#define REG_LPLDO_CTRL_8814A			0x0023	/* 1 Byte */
++#define REG_AFE_CTRL1_8814A				0x0024	/* 4 Byte        */
++#define REG_AFE_CTRL2_8814A				0x0028	/* 4 Byte        */
++#define REG_AFE_CTRL3_8814A				0x002c	/* 4 Byte  */
++#define REG_EFUSE_CTRL_8814A			0x0030
++#define REG_LDO_EFUSE_CTRL_8814A		0x0034
++#define REG_PWR_DATA_8814A				0x0038
++#define REG_CAL_TIMER_8814A				0x003C
++#define REG_ACLK_MON_8814A				0x003E
++#define REG_GPIO_MUXCFG_8814A			0x0040
++#define REG_GPIO_IO_SEL_8814A			0x0042
++#define REG_MAC_PINMUX_CFG_8814A		0x0043
++#define REG_GPIO_PIN_CTRL_8814A			0x0044
++#define REG_GPIO_INTM_8814A				0x0048
++#define REG_LEDCFG0_8814A				0x004C
++#define REG_LEDCFG1_8814A				0x004D
++#define REG_LEDCFG2_8814A				0x004E
++#define REG_LEDCFG3_8814A				0x004F
++#define REG_FSIMR_8814A					0x0050
++#define REG_FSISR_8814A					0x0054
++#define REG_HSIMR_8814A					0x0058
++#define REG_HSISR_8814A					0x005c
++#define REG_GPIO_EXT_CTRL_8814A			0x0060
++#define REG_GPIO_STATUS_8814A			0x006C
++#define REG_SDIO_CTRL_8814A				0x0070
++#define REG_HCI_OPT_CTRL_8814A			0x0074
++#define REG_RF_CTRL3_8814A				0x0076	/* 1 Byte */
++#define REG_AFE_CTRL4_8814A				0x0078
++#define REG_8051FW_CTRL_8814A			0x0080
++#define REG_HIMR0_8814A					0x00B0
++#define REG_HISR0_8814A					0x00B4
++#define REG_HIMR1_8814A					0x00B8
++#define REG_HISR1_8814A					0x00BC
++#define REG_SYS_CFG1_8814A				0x00F0
++#define REG_SYS_CFG2_8814A				0x00FC
++#define REG_SYS_CFG3_8814A				0x1000
++
++/* -----------------------------------------------------
++ *
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_CR_8814A						0x0100
++#define REG_PBP_8814A					0x0104
++#define REG_PKT_BUFF_ACCESS_CTRL_8814A	0x0106
++#define REG_TRXDMA_CTRL_8814A			0x010C
++#define REG_TRXFF_BNDY_8814A			0x0114
++#define REG_TRXFF_STATUS_8814A			0x0118
++#define REG_RXFF_PTR_8814A				0x011C
++#define REG_CPWM_8814A					0x012F
++#define REG_FWIMR_8814A					0x0130
++#define REG_FWISR_8814A					0x0134
++#define REG_FTIMR_8814A					0x0138
++#define REG_PKTBUF_DBG_CTRL_8814A		0x0140
++#define REG_RXPKTBUF_CTRL_8814A		0x0142
++#define REG_PKTBUF_DBG_DATA_L_8814A	0x0144
++#define REG_PKTBUF_DBG_DATA_H_8814A	0x0148
++
++#define REG_WOWLAN_WAKE_REASON			REG_MCUTST_WOWLAN
++
++#define REG_TC0_CTRL_8814A				0x0150
++#define REG_TC1_CTRL_8814A				0x0154
++#define REG_TC2_CTRL_8814A				0x0158
++#define REG_TC3_CTRL_8814A				0x015C
++#define REG_TC4_CTRL_8814A				0x0160
++#define REG_TCUNIT_BASE_8814A			0x0164
++#define REG_RSVD3_8814A					0x0168
++#define REG_C2HEVT_MSG_NORMAL_8814A	0x01A0
++#define REG_C2HEVT_CLEAR_8814A			0x01AF
++#define REG_MCUTST_1_8814A				0x01C0
++#define REG_MCUTST_WOWLAN_8814A		0x01C7
++#define REG_FMETHR_8814A				0x01C8
++#define REG_HMETFR_8814A				0x01CC
++#define REG_HMEBOX_0_8814A				0x01D0
++#define REG_HMEBOX_1_8814A				0x01D4
++#define REG_HMEBOX_2_8814A				0x01D8
++#define REG_HMEBOX_3_8814A				0x01DC
++#define REG_LLT_INIT_8814A				0x01E0
++#define REG_LLT_ADDR_8814A				0x01E4 /* 20130415 KaiYuan add for 8814 */
++#define REG_HMEBOX_EXT0_8814A			0x01F0
++#define REG_HMEBOX_EXT1_8814A			0x01F4
++#define REG_HMEBOX_EXT2_8814A			0x01F8
++#define REG_HMEBOX_EXT3_8814A			0x01FC
++
++/* -----------------------------------------------------
++ *
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_FIFOPAGE_CTRL_1_8814A			0x0200
++#define REG_FIFOPAGE_CTRL_2_8814A		0x0204
++#define REG_AUTO_LLT_8814A					0x0208
++#define REG_TXDMA_OFFSET_CHK_8814A	0x020C
++#define REG_TXDMA_STATUS_8814A			0x0210
++#define REG_RQPN_NPQ_8814A				0x0214
++#define REG_TQPNT1_8814A					0x0218
++#define REG_TQPNT2_8814A					0x021C
++#define REG_TQPNT3_8814A					0x0220
++#define REG_TQPNT4_8814A					0x0224
++#define REG_RQPN_CTRL_1_8814A				0x0228
++#define REG_RQPN_CTRL_2_8814A				0x022C
++#define REG_FIFOPAGE_INFO_1_8814A			0x0230
++#define REG_FIFOPAGE_INFO_2_8814A			0x0234
++#define REG_FIFOPAGE_INFO_3_8814A			0x0238
++#define REG_FIFOPAGE_INFO_4_8814A			0x023C
++#define REG_FIFOPAGE_INFO_5_8814A			0x0240
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_RXDMA_AGG_PG_TH_8814A		0x0280
++#define REG_RXPKT_NUM_8814A				0x0284 /* The number of packets in RXPKTBUF. */
++#define REG_RXDMA_CONTROL_8814A			0x0286 /* ?????? Control the RX DMA. */
++#define REG_RXDMA_STATUS_8814A			0x0288
++#define REG_RXDMA_MODE_8814A				0x0290 /* ?????? */
++#define REG_EARLY_MODE_CONTROL_8814A	0x02BC /* ?????? */
++#define REG_RSVD5_8814A					0x02F0 /* ?????? */
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0300h ~ 0x03FFh	PCIe
++ *
++ * ----------------------------------------------------- */
++#define	REG_PCIE_CTRL_REG_8814A			0x0300
++#define	REG_INT_MIG_8814A				0x0304	/* Interrupt Migration */
++#define	REG_BCNQ_TXBD_DESA_8814A		0x0308	/* TX Beacon Descriptor Address */
++#define	REG_MGQ_TXBD_DESA_8814A			0x0310	/* TX Manage Queue Descriptor Address */
++#define	REG_VOQ_TXBD_DESA_8814A			0x0318	/* TX VO Queue Descriptor Address */
++#define	REG_VIQ_TXBD_DESA_8814A			0x0320	/* TX VI Queue Descriptor Address */
++#define	REG_BEQ_TXBD_DESA_8814A			0x0328	/* TX BE Queue Descriptor Address */
++#define	REG_BKQ_TXBD_DESA_8814A			0x0330	/* TX BK Queue Descriptor Address */
++#define	REG_RXQ_RXBD_DESA_8814A			0x0338	/* RX Queue	Descriptor Address */
++#define REG_HI0Q_TXBD_DESA_8814A		0x0340
++#define REG_HI1Q_TXBD_DESA_8814A		0x0348
++#define REG_HI2Q_TXBD_DESA_8814A		0x0350
++#define REG_HI3Q_TXBD_DESA_8814A		0x0358
++#define REG_HI4Q_TXBD_DESA_8814A		0x0360
++#define REG_HI5Q_TXBD_DESA_8814A		0x0368
++#define REG_HI6Q_TXBD_DESA_8814A		0x0370
++#define REG_HI7Q_TXBD_DESA_8814A		0x0378
++#define	REG_MGQ_TXBD_NUM_8814A			0x0380
++#define	REG_RX_RXBD_NUM_8814A			0x0382
++#define	REG_VOQ_TXBD_NUM_8814A			0x0384
++#define	REG_VIQ_TXBD_NUM_8814A			0x0386
++#define	REG_BEQ_TXBD_NUM_8814A			0x0388
++#define	REG_BKQ_TXBD_NUM_8814A			0x038A
++#define	REG_HI0Q_TXBD_NUM_8814A			0x038C
++#define	REG_HI1Q_TXBD_NUM_8814A			0x038E
++#define	REG_HI2Q_TXBD_NUM_8814A			0x0390
++#define	REG_HI3Q_TXBD_NUM_8814A			0x0392
++#define	REG_HI4Q_TXBD_NUM_8814A			0x0394
++#define	REG_HI5Q_TXBD_NUM_8814A			0x0396
++#define	REG_HI6Q_TXBD_NUM_8814A			0x0398
++#define	REG_HI7Q_TXBD_NUM_8814A			0x039A
++#define	REG_TSFTIMER_HCI_8814A			0x039C
++
++/* Read Write Point */
++#define	REG_VOQ_TXBD_IDX_8814A			0x03A0
++#define	REG_VIQ_TXBD_IDX_8814A			0x03A4
++#define	REG_BEQ_TXBD_IDX_8814A			0x03A8
++#define	REG_BKQ_TXBD_IDX_8814A			0x03AC
++#define	REG_MGQ_TXBD_IDX_8814A			0x03B0
++#define	REG_RXQ_TXBD_IDX_8814A			0x03B4
++#define	REG_HI0Q_TXBD_IDX_8814A			0x03B8
++#define	REG_HI1Q_TXBD_IDX_8814A			0x03BC
++#define	REG_HI2Q_TXBD_IDX_8814A			0x03C0
++#define	REG_HI3Q_TXBD_IDX_8814A			0x03C4
++#define	REG_HI4Q_TXBD_IDX_8814A			0x03C8
++#define	REG_HI5Q_TXBD_IDX_8814A			0x03CC
++#define	REG_HI6Q_TXBD_IDX_8814A			0x03D0
++#define	REG_HI7Q_TXBD_IDX_8814A			0x03D4
++#define REG_DBG_SEL_V1_8814A				0x03D8
++#define REG_PCIE_HRPWM1_V1_8814A			0x03D9
++#define REG_PCIE_HCPWM1_V1_8814A			0x03DA
++#define REG_PCIE_CTRL2_8814A				0x03DB
++#define REG_PCIE_HRPWM2_V1_8814A			0x03DC
++#define REG_PCIE_HCPWM2_V1_8814A			0x03DE
++#define REG_PCIE_H2C_MSG_V1_8814A		0x03E0
++#define REG_PCIE_C2H_MSG_V1_8814A		0x03E4
++#define REG_DBI_WDATA_V1_8814A			0x03E8
++#define REG_DBI_RDATA_V1_8814A			0x03EC
++#define REG_DBI_FLAG_V1_8814A				0x03F0
++#define REG_MDIO_V1_8814A					0x03F4
++#define REG_PCIE_MIX_CFG_8814A			0x03F8
++#define REG_DBG_8814A						0x03FC
++/* -----------------------------------------------------
++ *
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_VOQ_INFORMATION_8814A		0x0400
++#define REG_VIQ_INFORMATION_8814A		0x0404
++#define REG_BEQ_INFORMATION_8814A		0x0408
++#define REG_BKQ_INFORMATION_8814A		0x040C
++#define REG_MGQ_INFORMATION_8814A		0x0410
++#define REG_HGQ_INFORMATION_8814A		0x0414
++#define REG_BCNQ_INFORMATION_8814A	0x0418
++#define REG_TXPKT_EMPTY_8814A			0x041A
++#define REG_CPU_MGQ_INFORMATION_8814A	0x041C
++#define REG_FWHW_TXQ_CTRL_8814A		0x0420
++#define REG_HWSEQ_CTRL_8814A			0x0423
++#define REG_TXPKTBUF_BCNQ_BDNY_8814A	0x0424
++/* #define REG_MGQ_BDNY_8814A				0x0425 */
++#define REG_LIFETIME_EN_8814A				0x0426
++/* #define REG_FW_FREE_TAIL_8814A			0x0427 */
++#define REG_SPEC_SIFS_8814A				0x0428
++#define REG_RETRY_LIMIT_8814A				0x042A
++#define REG_TXBF_CTRL_8814A				0x042C
++#define REG_DARFRC_8814A				0x0430
++#define REG_RARFRC_8814A				0x0438
++#define REG_RRSR_8814A					0x0440
++#define REG_ARFR0_8814A					0x0444
++#define REG_ARFR1_8814A					0x044C
++#define REG_CCK_CHECK_8814A				0x0454
++#define REG_AMPDU_MAX_TIME_8814A			0x0455
++#define REG_TXPKTBUF_BCNQ1_BDNY_8814A	0x0456
++#define REG_AMPDU_MAX_LENGTH_8814A	0x0458
++#define REG_ACQ_STOP_8814A				0x045C
++#define REG_NDPA_RATE_8814A				0x045D
++#define REG_TX_HANG_CTRL_8814A			0x045E
++#define REG_NDPA_OPT_CTRL_8814A		0x045F
++#define REG_FAST_EDCA_CTRL_8814A		0x0460
++#define REG_RD_RESP_PKT_TH_8814A		0x0463
++#define REG_CMDQ_INFO_8814A				0x0464
++#define REG_Q4_INFO_8814A					0x0468
++#define REG_Q5_INFO_8814A					0x046C
++#define REG_Q6_INFO_8814A					0x0470
++#define REG_Q7_INFO_8814A					0x0474
++#define REG_WMAC_LBK_BUF_HD_8814A		0x0478
++#define REG_MGQ_PGBNDY_8814A				0x047A
++#define REG_INIRTS_RATE_SEL_8814A			0x0480
++#define REG_BASIC_CFEND_RATE_8814A		0x0481
++#define REG_STBC_CFEND_RATE_8814A		0x0482
++#define REG_DATA_SC_8814A					0x0483
++#define REG_MACID_SLEEP3_8814A			0x0484
++#define REG_MACID_SLEEP1_8814A			0x0488
++#ifdef CONFIG_WOWLAN
++	#define REG_TXPKTBUF_IV_LOW				0x0484
++	#define REG_TXPKTBUF_IV_HIGH			0x0488
++#endif /* CONFIG_WOWLAN */
++#define REG_ARFR2_8814A					0x048C
++#define REG_ARFR3_8814A					0x0494
++#define REG_ARFR4_8814A					0x049C
++#define REG_ARFR5_8814A					0x04A4
++#define REG_TXRPT_START_OFFSET_8814A		0x04AC
++#define REG_TRYING_CNT_TH_8814A			0x04B0
++#define REG_POWER_STAGE1_8814A		0x04B4
++#define REG_POWER_STAGE2_8814A		0x04B8
++#define REG_SW_AMPDU_BURST_MODE_CTRL_8814A	0x04BC
++#define REG_PKT_LIFE_TIME_8814A			0x04C0
++#define REG_PKT_BE_BK_LIFE_TIME_8814A		0x04C2 /* ?????? */
++#define REG_STBC_SETTING_8814A			0x04C4
++#define REG_STBC_8814A						0x04C5
++#define REG_QUEUE_CTRL_8814A				0x04C6
++#define REG_SINGLE_AMPDU_CTRL_8814A		0x04C7
++#define REG_PROT_MODE_CTRL_8814A		0x04C8
++#define REG_MAX_AGGR_NUM_8814A		0x04CA
++#define REG_RTS_MAX_AGGR_NUM_8814A	0x04CB
++#define REG_BAR_MODE_CTRL_8814A		0x04CC
++#define REG_RA_TRY_RATE_AGG_LMT_8814A	0x04CF
++#define REG_MACID_SLEEP2_8814A			0x04D0
++#define REG_MACID_SLEEP0_8814A			0x04D4
++#define REG_HW_SEQ0_8814A				0x04D8
++#define REG_HW_SEQ1_8814A				0x04DA
++#define REG_HW_SEQ2_8814A				0x04DC
++#define REG_HW_SEQ3_8814A				0x04DE
++#define REG_NULL_PKT_STATUS_8814A			0x04E0
++#define REG_PTCL_ERR_STATUS_8814A			0x04E2
++#define REG_DROP_PKT_NUM_8814A			0x04EC
++#define REG_PTCL_TX_RPT_8814A				0x04F0
++#define REG_Dummy_8814A					0x04FC
++
++
++/* -----------------------------------------------------
++ *
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_EDCA_VO_PARAM_8814A			0x0500
++#define REG_EDCA_VI_PARAM_8814A			0x0504
++#define REG_EDCA_BE_PARAM_8814A			0x0508
++#define REG_EDCA_BK_PARAM_8814A			0x050C
++#define REG_BCNTCFG_8814A					0x0510
++#define REG_PIFS_8814A						0x0512
++#define REG_RDG_PIFS_8814A					0x0513
++#define REG_SIFS_CTX_8814A					0x0514
++#define REG_SIFS_TRX_8814A					0x0516
++#define REG_AGGR_BREAK_TIME_8814A			0x051A
++#define REG_SLOT_8814A						0x051B
++#define REG_TX_PTCL_CTRL_8814A				0x0520
++#define REG_TXPAUSE_8814A					0x0522
++#define REG_DIS_TXREQ_CLR_8814A			0x0523
++#define REG_RD_CTRL_8814A					0x0524
++/*
++ * Format for offset 540h-542h:
++ *	[3:0]:   TBTT prohibit setup in unit of 32us. The time for HW getting beacon content before TBTT.
++ *	[7:4]:   Reserved.
++ *	[19:8]:  TBTT prohibit hold in unit of 32us. The time for HW holding to send the beacon packet.
++ *	[23:20]: Reserved
++ * Description:
++ *	              |
++ * |<--Setup--|--Hold------------>|
++ *	--------------|----------------------
++ * |
++ * TBTT
++ * Note: We cannot update beacon content to HW or send any AC packets during the time between Setup and Hold.
++ * Described by Designer Tim and Bruce, 2011-01-14.
++ *   */
++#define REG_TBTT_PROHIBIT_8814A			0x0540
++#define REG_RD_NAV_NXT_8814A				0x0544
++#define REG_NAV_PROT_LEN_8814A			0x0546
++#define REG_BCN_CTRL_8814A					0x0550
++#define REG_BCN_CTRL_1_8814A				0x0551
++#define REG_MBID_NUM_8814A				0x0552
++#define REG_DUAL_TSF_RST_8814A				0x0553
++#define REG_MBSSID_BCN_SPACE_8814A		0x0554
++#define REG_DRVERLYINT_8814A				0x0558
++#define REG_BCNDMATIM_8814A				0x0559
++#define REG_ATIMWND_8814A					0x055A
++#define REG_USTIME_TSF_8814A				0x055C
++#define REG_BCN_MAX_ERR_8814A				0x055D
++#define REG_RXTSF_OFFSET_CCK_8814A		0x055E
++#define REG_RXTSF_OFFSET_OFDM_8814A		0x055F
++#define REG_TSFTR_8814A						0x0560
++#define REG_CTWND_8814A					0x0572
++#define REG_SECONDARY_CCA_CTRL_8814A		0x0577 /* ?????? */
++#define REG_PSTIMER_8814A					0x0580
++#define REG_TIMER0_8814A					0x0584
++#define REG_TIMER1_8814A					0x0588
++#define REG_BCN_PREDL_ITV_8814A			0x058F	/* Pre download beacon interval */
++#define REG_ACMHWCTRL_8814A				0x05C0
++#define REG_P2P_RST_8814A				0x05F0
++
++/* -----------------------------------------------------
++ *
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ *
++ * ----------------------------------------------------- */
++#define REG_MAC_CR_8814A					0x0600
++#define REG_TCR_8814A						0x0604
++#define REG_RCR_8814A						0x0608
++#define REG_RX_PKT_LIMIT_8814A				0x060C
++#define REG_RX_DLK_TIME_8814A				0x060D
++#define REG_RX_DRVINFO_SZ_8814A			0x060F
++
++#define REG_MACID_8814A					0x0610
++#define REG_BSSID_8814A						0x0618
++#define REG_MAR_8814A						0x0620
++#define REG_MBIDCAMCFG_8814A				0x0628
++
++#define REG_USTIME_EDCA_8814A				0x0638
++#define REG_MAC_SPEC_SIFS_8814A			0x063A
++#define REG_RESP_SIFP_CCK_8814A			0x063C
++#define REG_RESP_SIFS_OFDM_8814A			0x063E
++#define REG_ACKTO_8814A					0x0640
++#define REG_CTS2TO_8814A					0x0641
++#define REG_EIFS_8814A						0x0642
++
++#define	REG_NAV_UPPER_8814A				0x0652	/* unit of 128 */
++#define REG_TRXPTCL_CTL_8814A				0x0668
++
++/* Security */
++#define REG_CAMCMD_8814A					0x0670
++#define REG_CAMWRITE_8814A				0x0674
++#define REG_CAMREAD_8814A					0x0678
++#define REG_CAMDBG_8814A					0x067C
++#define REG_SECCFG_8814A					0x0680
++
++/* Power */
++#define REG_WOW_CTRL_8814A				0x0690
++#define REG_PS_RX_INFO_8814A				0x0692
++#define REG_UAPSD_TID_8814A				0x0693
++#define REG_WKFMCAM_NUM_8814A			0x0698
++#define REG_RXFLTMAP0_8814A				0x06A0
++#define REG_RXFLTMAP1_8814A				0x06A2
++#define REG_RXFLTMAP2_8814A				0x06A4
++#define REG_BCN_PSR_RPT_8814A				0x06A8
++#define REG_BT_COEX_TABLE_8814A			0x06C0
++#define REG_TX_DATA_RSP_RATE_8814A		0x06DE
++#define REG_ASSOCIATED_BFMER0_INFO_8814A	0x06E4
++#define REG_ASSOCIATED_BFMER1_INFO_8814A	0x06EC
++#define REG_CSI_RPT_PARAM_BW20_8814A		0x06F4
++#define REG_CSI_RPT_PARAM_BW40_8814A		0x06F8
++#define REG_CSI_RPT_PARAM_BW80_8814A		0x06FC
++
++/* Hardware Port 2 */
++#define REG_MACID1_8814A					0x0700
++#define REG_BSSID1_8814A					0x0708
++/* Hardware Port 3 */
++#define REG_MACID2_8814A					0x1620
++#define REG_BSSID2_8814A					0x1628
++/* Hardware Port 4 */
++#define REG_MACID3_8814A					0x1630
++#define REG_BSSID3_8814A					0x1638
++/* Hardware Port 5 */
++#define REG_MACID4_8814A					0x1640
++#define REG_BSSID4_8814A					0x1648
++
++#define REG_ASSOCIATED_BFMEE_SEL_8814A	0x0714
++#define REG_SND_PTCL_CTRL_8814A			0x0718
++#define REG_IQ_DUMP_8814A					0x07C0
++
++/**** page 19 ****/
++/* TX BeamForming */
++#define	REG_BB_TXBF_ANT_SET_BF1				0x19ac
++#define	REG_BB_TXBF_ANT_SET_BF0				0x19b4
++
++/*	0x1200h ~ 0x12FFh	DDMA CTRL
++ *
++ * ----------------------------------------------------- */
++#define REG_DDMA_CH0SA                   0x1200
++#define REG_DDMA_CH0DA                   0x1204
++#define REG_DDMA_CH0CTRL                0x1208
++#define REG_DDMA_CH1SA                   0x1210
++#define REG_DDMA_CH1DA	0x1214
++#define REG_DDMA_CH1CTRL                0x1218
++#define REG_DDMA_CH2SA                   0x1220
++#define REG_DDMA_CH2DA                   0x1224
++#define REG_DDMA_CH2CTRL                0x1228
++#define REG_DDMA_CH3SA                   0x1230
++#define REG_DDMA_CH3DA                   0x1234
++#define REG_DDMA_CH3CTRL                0x1238
++#define REG_DDMA_CH4SA                   0x1240
++#define REG_DDMA_CH4DA                   0x1244
++#define REG_DDMA_CH4CTRL                0x1248
++#define REG_DDMA_CH5SA                   0x1250
++#define REG_DDMA_CH5DA                   0x1254
++#define REG_DDMA_CH5CTRL                0x1258
++#define REG_DDMA_INT_MSK                0x12E0
++#define REG_DDMA_CHSTATUS              0x12E8
++#define REG_DDMA_CHKSUM                 0x12F0
++#define REG_DDMA_MONITER                0x12FC
++
++#define DDMA_LEN_MASK		0x0001FFFF
++#define FW_CHKSUM_DUMMY_SZ		8
++#define DDMA_CH_CHKSUM_CNT		BIT(24)
++#define DDMA_RST_CHKSUM_STS		BIT(25)
++#define DDMA_MODE_BLOCK_CPU		BIT(26)
++#define DDMA_CHKSUM_FAIL			BIT(27)
++#define DDMA_DA_W_DISABLE			BIT(28)
++#define DDMA_CHKSUM_EN			BIT(29)
++#define DDMA_CH_OWN	BIT(31)
++
++
++/* 3081 FWDL */
++#define FWDL_EN                 BIT0
++#define IMEM_BOOT_DL_RDY        BIT1
++#define IMEM_BOOT_CHKSUM_FAIL   BIT2
++#define IMEM_DL_RDY             BIT3
++#define IMEM_CHKSUM_OK        BIT4
++#define DMEM_DL_RDY             BIT5
++#define DMEM_CHKSUM_OK        BIT6
++#define EMEM_DL_RDY             BIT7
++#define EMEM_CHKSUM_FAIL        BIT8
++#define EMEM_TXBUF_DL_RDY       BIT9
++#define EMEM_TXBUF_CHKSUM_FAIL  BIT10
++#define CPU_CLK_SWITCH_BUSY     BIT11
++#define CPU_CLK_SEL             (BIT12 | BIT13)
++#define FWDL_OK                 BIT14
++#define FW_INIT_RDY             BIT15
++#define R_EN_BOOT_FLASH         BIT20
++
++#define OCPBASE_IMEM_3081        0x00000000
++#define OCPBASE_DMEM_3081        0x00200000
++#define OCPBASE_RPTBUF_3081      0x18660000
++#define OCPBASE_RXBUF2_3081      0x18680000
++#define OCPBASE_RXBUF_3081       0x18700000
++#define OCPBASE_TXBUF_3081       0x18780000
++
++
++#define REG_FAST_EDCA_VOVI_SETTING_8814A 0x1448
++#define REG_FAST_EDCA_BEBK_SETTING_8814A 0x144C
++
++
++/* -----------------------------------------------------
++ *   */
++
++
++/* -----------------------------------------------------
++ *
++ *	Redifine 8192C register definition for compatibility
++ *
++ * ----------------------------------------------------- */
++
++/* TODO: use these definition when using REG_xxx naming rule.
++ * NOTE: DO NOT Remove these definition. Use later. */
++#define	EFUSE_CTRL_8814A					REG_EFUSE_CTRL_8814A		/* E-Fuse Control. */
++#define	EFUSE_TEST_8814A					REG_LDO_EFUSE_CTRL_8814A		/* E-Fuse Test. */
++#define	MSR_8814A							(REG_CR_8814A + 2)		/* Media Status register */
++#define	ISR_8814A							REG_HISR0_8814A
++#define	TSFR_8814A							REG_TSFTR_8814A			/* Timing Sync Function Timer Register. */
++
++#define PBP_8814A							REG_PBP_8814A
++
++/* Redifine MACID register, to compatible prior ICs. */
++#define	IDR0_8814A							REG_MACID_8814A			/* MAC ID Register, Offset 0x0050-0x0053 */
++#define	IDR4_8814A							(REG_MACID_8814A + 4)	/* MAC ID Register, Offset 0x0054-0x0055 */
++
++
++/*
++ * 9. Security Control Registers	(Offset: )
++ *   */
++#define	RWCAM_8814A						REG_CAMCMD_8814A		/* IN 8190 Data Sheet is called CAMcmd */
++#define	WCAMI_8814A						REG_CAMWRITE_8814A		/* Software write CAM input content */
++#define	RCAMO_8814A						REG_CAMREAD_8814A		/* Software read/write CAM config */
++#define	CAMDBG_8814A						REG_CAMDBG_8814A
++#define	SECR_8814A							REG_SECCFG_8814A		/* Security Configuration Register */
++
++
++/* ----------------------------------------------------------------------------
++ * 8195 IMR/ISR bits						(offset 0xB0,  8bits)
++ * ---------------------------------------------------------------------------- */
++#define	IMR_DISABLED_8814A					0
++/* IMR DW0(0x00B0-00B3) Bit 0-31 */
++#define	IMR_TIMER2_8814A					BIT31		/* Timeout interrupt 2 */
++#define	IMR_TIMER1_8814A					BIT30		/* Timeout interrupt 1	 */
++#define	IMR_PSTIMEOUT_8814A				BIT29		/* Power Save Time Out Interrupt */
++#define	IMR_GTINT4_8814A					BIT28		/* When GTIMER4 expires, this bit is set to 1	 */
++#define	IMR_GTINT3_8814A					BIT27		/* When GTIMER3 expires, this bit is set to 1	 */
++#define	IMR_TXBCN0ERR_8814A				BIT26		/* Transmit Beacon0 Error			 */
++#define	IMR_TXBCN0OK_8814A					BIT25		/* Transmit Beacon0 OK			 */
++#define	IMR_TSF_BIT32_TOGGLE_8814A		BIT24		/* TSF Timer BIT32 toggle indication interrupt			 */
++#define	IMR_BCNDMAINT0_8814A				BIT20		/* Beacon DMA Interrupt 0			 */
++#define	IMR_BCNDERR0_8814A					BIT16		/* Beacon Queue DMA OK0			 */
++#define	IMR_HSISR_IND_ON_INT_8814A		BIT15		/* HSISR Indicator (HSIMR & HSISR is true, this bit is set to 1) */
++#define	IMR_BCNDMAINT_E_8814A				BIT14		/* Beacon DMA Interrupt Extension for Win7			 */
++#define	IMR_ATIMEND_8814A					BIT12		/* CTWidnow End or ATIM Window End */
++#define	IMR_C2HCMD_8814A					BIT10		/* CPU to Host Command INT Status, Write 1 clear	 */
++#define	IMR_CPWM2_8814A					BIT9			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_CPWM_8814A						BIT8			/* CPU power Mode exchange INT Status, Write 1 clear	 */
++#define	IMR_HIGHDOK_8814A					BIT7			/* High Queue DMA OK	 */
++#define	IMR_MGNTDOK_8814A					BIT6			/* Management Queue DMA OK	 */
++#define	IMR_BKDOK_8814A					BIT5			/* AC_BK DMA OK		 */
++#define	IMR_BEDOK_8814A					BIT4			/* AC_BE DMA OK	 */
++#define	IMR_VIDOK_8814A					BIT3			/* AC_VI DMA OK		 */
++#define	IMR_VODOK_8814A					BIT2			/* AC_VO DMA OK	 */
++#define	IMR_RDU_8814A						BIT1			/* Rx Descriptor Unavailable	 */
++#define	IMR_ROK_8814A						BIT0			/* Receive DMA OK */
++
++/* IMR DW1(0x00B4-00B7) Bit 0-31 */
++#define	IMR_MCUERR_8814A						BIT28		/* Beacon DMA Interrupt 7 */
++#define	IMR_BCNDMAINT7_8814A				BIT27		/* Beacon DMA Interrupt 7 */
++#define	IMR_BCNDMAINT6_8814A				BIT26		/* Beacon DMA Interrupt 6 */
++#define	IMR_BCNDMAINT5_8814A				BIT25		/* Beacon DMA Interrupt 5 */
++#define	IMR_BCNDMAINT4_8814A				BIT24		/* Beacon DMA Interrupt 4 */
++#define	IMR_BCNDMAINT3_8814A				BIT23		/* Beacon DMA Interrupt 3 */
++#define	IMR_BCNDMAINT2_8814A				BIT22		/* Beacon DMA Interrupt 2 */
++#define	IMR_BCNDMAINT1_8814A				BIT21		/* Beacon DMA Interrupt 1 */
++#define	IMR_BCNDOK7_8814A					BIT20		/* Beacon Queue DMA OK Interrup 7 */
++#define	IMR_BCNDOK6_8814A					BIT19		/* Beacon Queue DMA OK Interrup 6 */
++#define	IMR_BCNDOK5_8814A					BIT18		/* Beacon Queue DMA OK Interrup 5 */
++#define	IMR_BCNDOK4_8814A					BIT17		/* Beacon Queue DMA OK Interrup 4 */
++#define	IMR_BCNDOK3_8814A					BIT16		/* Beacon Queue DMA OK Interrup 3 */
++#define	IMR_BCNDOK2_8814A					BIT15		/* Beacon Queue DMA OK Interrup 2 */
++#define	IMR_BCNDOK1_8814A					BIT14		/* Beacon Queue DMA OK Interrup 1 */
++#define	IMR_ATIMEND_E_8814A				BIT13		/* ATIM Window End Extension for Win7 */
++#define	IMR_TXERR_8814A					BIT11		/* Tx Error Flag Interrupt Status, write 1 clear. */
++#define	IMR_RXERR_8814A					BIT10		/* Rx Error Flag INT Status, Write 1 clear */
++#define	IMR_TXFOVW_8814A					BIT9			/* Transmit FIFO Overflow */
++#define	IMR_RXFOVW_8814A					BIT8			/* Receive FIFO Overflow */
++
++
++#ifdef CONFIG_PCI_HCI
++	#define IMR_TX_MASK			(IMR_VODOK_8814A | IMR_VIDOK_8814A | IMR_BEDOK_8814A | IMR_BKDOK_8814A | IMR_MGNTDOK_8814A | IMR_HIGHDOK_8814A)
++
++	#define RT_BCN_INT_MASKS	(IMR_BCNDMAINT0_8814A | IMR_TXBCN0OK_8814A | IMR_TXBCN0ERR_8814A | IMR_BCNDERR0_8814A)
++
++	#define RT_AC_INT_MASKS	(IMR_VIDOK_8814A | IMR_VODOK_8814A | IMR_BEDOK_8814A | IMR_BKDOK_8814A)
++#endif
++
++
++/*===================================================================
++=====================================================================
++Here the register defines are for 92C. When the define is as same with 92C,
++we will use the 92C's define for the consistency
++So the following defines for 92C is not entire!!!!!!
++=====================================================================
++=====================================================================*/
++
++
++/* -----------------------------------------------------
++ *
++ *	0xFE00h ~ 0xFE55h	USB Configuration
++ *
++ * ----------------------------------------------------- */
++
++/* 2 Special Option */
++#define USB_AGG_EN_8814A			BIT(7)
++#define REG_USB_HRPWM_U3			0xF052
++
++#define LAST_ENTRY_OF_TX_PKT_BUFFER_8814A       (2048-1)	/* 20130415 KaiYuan add for 8814 */
++
++#define MACID_NUM_8814A 128
++#define SEC_CAM_ENT_NUM_8814A 64
++#define HW_PORT_NUM_8814A	5
++#define NSS_NUM_8814A 3
++#define BAND_CAP_8814A (BAND_CAP_2G | BAND_CAP_5G)
++#define BW_CAP_8814A (BW_CAP_20M | BW_CAP_40M | BW_CAP_80M)
++#define PROTO_CAP_8814A (PROTO_CAP_11B | PROTO_CAP_11G | PROTO_CAP_11N | PROTO_CAP_11AC)
++
++#endif /* __RTL8814A_SPEC_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8814a_sreset.h b/drivers/net/wireless/rtl8812au/include/rtl8814a_sreset.h
+new file mode 100644
+index 0000000..5d95e1f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8814a_sreset.h
+@@ -0,0 +1,29 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL88814A_SRESET_H_
++#define _RTL8814A_SRESET_H_
++
++#include <rtw_sreset.h>
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	extern void rtl8814_sreset_xmit_status_check(_adapter *padapter);
++	extern void rtl8814_sreset_linked_status_check(_adapter *padapter);
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8814a_xmit.h b/drivers/net/wireless/rtl8812au/include/rtl8814a_xmit.h
+new file mode 100755
+index 0000000..099760d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8814a_xmit.h
+@@ -0,0 +1,310 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8814A_XMIT_H__
++#define __RTL8814A_XMIT_H__
++
++typedef struct txdescriptor_8814 {
++	/* Offset 0 */
++	u32 pktlen:16;
++	u32 offset:8;
++	u32 bmc:1;
++	u32 htc:1;
++	u32 ls:1;
++} TXDESC_8814, *PTXDESC_8814;
++
++
++#define OFFSET_SZ	0
++#define OFFSET_SHT	16
++
++
++
++#ifdef CONFIG_SDIO_HCI
++	#define SET_TX_DESC_SDIO_TXSEQ_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 16, 8, __Value)
++#endif /* CONFIG_SDIO_HCI */
++
++/* -----------------------------------------------------------------
++ *	RTL8814A TX BUFFER DESC
++ * -----------------------------------------------------------------
++ *
++- Each TXBD has 4 segment.
++ -- For 32 bit, each segment is 8 bytes.
++ -- For 64 bit, each segment is 16 bytes.
++*/
++#if 0
++	#if 1 /* 32 bit */
++		#define SET_TX_EXTBUFF_DESC_LEN_8814A(__pTxDesc, __Value, __Set) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Set*8), 0, 16, __Value)
++		#define SET_TX_EXTBUFF_DESC_ADDR_LOW_8814A(__pTxDesc, __Value, __Set) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Set*8)+4, 0, 32, __Value)
++	#else /* 64 bit */
++		#define SET_TX_EXTBUFF_DESC_LEN_8814A(__pTxDesc, __Value, __Set) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Set*16), 0, 16, __Value)
++		#define SET_TX_EXTBUFF_DESC_ADDR_LOW_8814A(__pTxDesc, __Value, __Set) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Set*16)+4, 0, 32, __Value)
++	#endif
++	#define SET_TX_EXTBUFF_DESC_ADDR_HIGH_8814A(__pTxDesc, __Value, __Set) SET_BITS_TO_LE_4BYTE(__pTxDesc+(__Set*16)+8, 0, 32, __Value)
++#endif
++/*c2h-DWORD 2*/
++#define GET_RX_STATUS_DESC_RPT_SEL_8814A(__pRxDesc)			LE_BITS_TO_4BYTE(__pRxDesc+8, 28, 1)
++
++/* *********************************************************
++ * for Txfilldescroptor8814Ae, fill the desc content. */
++#if 1 /* 32 bit */
++	#define SET_TXBUFFER_DESC_LEN_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*8), 0, 16, __Valeu)
++	#define SET_TXBUFFER_DESC_AMSDU_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*8), 31, 1, __Valeu)
++	#define SET_TXBUFFER_DESC_ADD_LOW_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*8)+4, 0, 32, __Valeu)
++#else /* 64 bit */
++	#define SET_TXBUFFER_DESC_LEN_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*16), 0, 16, __Valeu)
++	#define SET_TXBUFFER_DESC_AMSDU_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*16), 31, 1, __Valeu)
++	#define SET_TXBUFFER_DESC_ADD_LOW_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*16)+4, 0, 32, __Valeu)
++#endif
++#define SET_TXBUFFER_DESC_ADD_HIGT_WITH_OFFSET(__pTxDesc, __Offset, __Valeu) SET_BITS_TO_LE_4BYTE(__pTxDesc+((__Offset)*16)+8, 0, 32, __Valeu)
++
++/* ********************************************************* */
++
++/* TX buffer
++ * *************
++ * Dword 0 */
++#define SET_TX_BUFF_DESC_LEN_0_8814A(__pTxDesc, __Valeu)			SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 16, __Valeu)
++#define SET_TX_BUFF_DESC_PSB_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 15, __Value)
++#define SET_TX_BUFF_DESC_OWN_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc, 31, 1, __Value)
++#define GET_TX_BUFF_DESC_OWN_8814A(__pTxDesc)				LE_BITS_TO_4BYTE(__pTxDesc, 31, 1)
++
++/* Dword 1 */
++#define SET_TX_BUFF_DESC_ADDR_LOW_0_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 32, __Value)
++#define GET_TX_BUFF_DESC_ADDR_LOW_0_8814A(__pTxDesc)			LE_BITS_TO_4BYTE(__pTxDesc+4, 0, 32)
++/* Dword 2 */
++#define SET_TX_BUFF_DESC_ADDR_HIGH_0_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 0, 32, __Value)
++#define GET_TX_BUFF_DESC_ADDR_HIGH_0_8814A(__pTxDesc)			LE_BITS_TO_4BYTE(__pTxDesc+8, 0, 32)
++/* Dword 3 */ /* RESERVED 0 */
++
++#if 0 /* 64 bit */
++	/* Dword 4 */
++	#define SET_TX_BUFF_DESC_LEN_1_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 0, 16, __Value)
++	#define SET_TX_BUFF_DESC_AMSDU_1_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 31, 1, __Value)
++	/* Dword 5 */
++	#define SET_TX_BUFF_DESC_ADDR_LOW_1_8814A(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 0, 32, __Value)
++	/* Dword 6 */
++	#define SET_TX_BUFF_DESC_ADDR_HIGH_1_8814A(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 0, 32, __Value)
++	/* Dword 7 */ /* RESERVED 0 */
++	/* Dword 8 */
++	#define SET_TX_BUFF_DESC_LEN_2_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 0, 16, __Value)
++	#define SET_TX_BUFF_DESC_AMSDU_2_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 31, 1, __Value)
++	/* Dword 9 */
++	#define SET_TX_BUFF_DESC_ADDR_LOW_2_8814A(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 0, 32, __Value)
++	/* Dword 10 */
++	#define SET_TX_BUFF_DESC_ADDR_HIGH_2_8814A(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+40, 0, 32, __Value)
++	/* Dword 11 */ /* RESERVED 0 */
++	/* Dword 12 */
++	#define SET_TX_BUFF_DESC_LEN_3_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+48, 0, 16, __Value)
++	#define SET_TX_BUFF_DESC_AMSDU_3_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+48, 31, 1, __Value)
++	/* Dword 13 */
++	#define SET_TX_BUFF_DESC_ADDR_LOW_3_8814A(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+52, 0, 32, __Value)
++	/* Dword 14 */
++	#define SET_TX_BUFF_DESC_ADDR_HIGH_3_8814A(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+56, 0, 32, __Value)
++	/* Dword 15 */ /* RESERVED 0 */
++#endif
++
++/* *****Desc content
++ * TX Info
++ * *************
++ * Dword 0 */
++#define SET_TX_DESC_PKT_SIZE_8814A(__pTxDesc, __Value)						SET_BITS_TO_LE_4BYTE(__pTxDesc, 0, 16, __Value)
++#define GET_TX_DESC_PKT_SIZE_8814A(__pTxDesc)									LE_BITS_TO_4BYTE(__pTxDesc, 0, 16)
++#define SET_TX_DESC_OFFSET_8814A(__pTxDesc, __Value)							SET_BITS_TO_LE_4BYTE(__pTxDesc, 16, 8, __Value)
++#define GET_TX_DESC_OFFSET_8814A(__pTxDesc)									LE_BITS_TO_4BYTE(__pTxDesc, 16, 8)
++#define SET_TX_DESC_BMC_8814A(__pTxDesc, __Value)							SET_BITS_TO_LE_4BYTE(__pTxDesc, 24, 1, __Value)
++#define SET_TX_DESC_HTC_8814A(__pTxDesc, __Value)								SET_BITS_TO_LE_4BYTE(__pTxDesc, 25, 1, __Value)
++#define SET_TX_DESC_LAST_SEG_8814A(__pTxDesc, __Value)						SET_BITS_TO_LE_4BYTE(__pTxDesc, 26, 1, __Value)
++#define SET_TX_DESC_LINIP_8814A(__pTxDesc, __Value)							SET_BITS_TO_LE_4BYTE(__pTxDesc, 28, 1, __Value)
++#define SET_TX_DESC_AMSDU_PAD_EN_8814A(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc, 27, 1, __Value)
++#define SET_TX_DESC_NO_ACM_8814A(__pTxDesc, __Value)							SET_BITS_TO_LE_4BYTE(__pTxDesc, 29, 1, __Value)
++#define SET_TX_DESC_GF_8814A(__pTxDesc, __Value)								SET_BITS_TO_LE_4BYTE(__pTxDesc, 30, 1, __Value)
++#define SET_TX_DESC_DISQSELSEQ_8814A(__pTxDesc, __Value)						SET_BITS_TO_LE_4BYTE(__pTxDesc, 31, 1, __Value)
++
++/* Dword 1 */
++#define SET_TX_DESC_MACID_8814A(__pTxDesc, __Value)							SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 0, 7, __Value)
++#define SET_TX_DESC_QUEUE_SEL_8814A(__pTxDesc, __Value)						SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 8, 5, __Value)
++#define SET_TX_DESC_RDG_NAV_EXT_8814A(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 13, 1, __Value)
++#define SET_TX_DESC_LSIG_TXOP_EN_8814A(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 14, 1, __Value)
++#define SET_TX_DESC_PIFS_8814A(__pTxDesc, __Value)							SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 15, 1, __Value)
++#define SET_TX_DESC_RATE_ID_8814A(__pTxDesc, __Value)							SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 16, 5, __Value)
++#define SET_TX_DESC_EN_DESC_ID_8814A(__pTxDesc, __Value)						SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 21, 1, __Value)
++#define SET_TX_DESC_SEC_TYPE_8814A(__pTxDesc, __Value)						SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 22, 2, __Value)
++#define SET_TX_DESC_PKT_OFFSET_8814A(__pTxDesc, __Value)						SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 24, 5, __Value)
++#define SET_TX_DESC_MORE_DATA_8814A(__pTxDesc, __Value)						SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 29, 1, __Value)
++#define SET_TX_DESC_TXOP_PS_CAP_8814A(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 30, 1, __Value)
++#define SET_TX_DESC_TXOP_PS_MODE_8814A(__pTxDesc, __Value)					SET_BITS_TO_LE_4BYTE(__pTxDesc+4, 31, 1, __Value)
++
++
++/* Dword 2 */
++#define SET_TX_DESC_PAID_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 0,  9, __Value)
++#define SET_TX_DESC_CCA_RTS_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 10, 2, __Value)
++#define SET_TX_DESC_AGG_ENABLE_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 12, 1, __Value)
++#define SET_TX_DESC_RDG_ENABLE_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 13, 1, __Value)
++#define SET_TX_DESC_NULL_0_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 14, 1, __Value)
++#define SET_TX_DESC_NULL_1_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 15, 1, __Value)
++#define SET_TX_DESC_BK_8814A(__pTxDesc, __Value)				SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 16, 1, __Value)
++#define SET_TX_DESC_MORE_FRAG_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 17, 1, __Value)
++#define GET_TX_DESC_MORE_FRAG_8814A(__pTxDesc)				LE_BITS_TO_4BYTE(__pTxDesc+8, 17, 1)
++#define SET_TX_DESC_RAW_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 18, 1, __Value)
++#define SET_TX_DESC_SPE_RPT_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 19, 1, __Value)
++#define SET_TX_DESC_AMPDU_DENSITY_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 20, 3, __Value)
++#define SET_TX_DESC_BT_NULL_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 23, 1, __Value)
++#define SET_TX_DESC_GID_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 24, 6, __Value)
++#define SET_TX_DESC_HW_AES_IV_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+8, 31, 1, __Value)
++
++
++/* Dword 3 */
++#define SET_TX_DESC_WHEADER_LEN_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 0, 5, __Value)
++#define SET_TX_DESC_EARLY_RATE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 5, 1, __Value)
++#define SET_TX_DESC_HW_SSN_SEL_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 6, 2, __Value)
++#define SET_TX_DESC_USE_RATE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 8, 1, __Value)
++#define SET_TX_DESC_DISABLE_RTS_FB_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 9, 1, __Value)
++#define SET_TX_DESC_DISABLE_FB_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 10, 1, __Value)
++#define SET_TX_DESC_CTS2SELF_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 11, 1, __Value)
++#define SET_TX_DESC_RTS_ENABLE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 12, 1, __Value)
++#define SET_TX_DESC_HW_RTS_ENABLE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 13, 1, __Value)
++#define SET_TX_DESC_CHECK_EN_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 14, 1, __Value)
++#define SET_TX_DESC_NAV_USE_HDR_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 15, 1, __Value)
++#define SET_TX_DESC_USE_MAX_LEN_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 16, 1, __Value)
++#define SET_TX_DESC_MAX_AGG_NUM_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 17, 5, __Value)
++#define SET_TX_DESC_NDPA_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 22, 2, __Value)
++#define SET_TX_DESC_AMPDU_MAX_TIME_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+12, 24, 8, __Value)
++
++/* Dword 4 */
++#define SET_TX_DESC_TX_RATE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 0, 7, __Value)
++#define SET_TX_DESC_TRY_RATE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 7, 1, __Value)
++#define SET_TX_DESC_DATA_RATE_FB_LIMIT_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 8, 5, __Value)
++#define SET_TX_DESC_RTS_RATE_FB_LIMIT_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 13, 4, __Value)
++#define SET_TX_DESC_RETRY_LIMIT_ENABLE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 17, 1, __Value)
++#define SET_TX_DESC_DATA_RETRY_LIMIT_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 18, 6, __Value)
++#define SET_TX_DESC_RTS_RATE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 24, 5, __Value)
++#define SET_TX_DESC_PCTS_ENABLE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 29, 1, __Value)
++#define SET_TX_DESC_PCTS_MASK_IDX_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+16, 30, 2, __Value)
++
++
++/* Dword 5 */
++#define SET_TX_DESC_DATA_SC_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 0, 4, __Value)
++#define SET_TX_DESC_DATA_SHORT_8814A(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 4, 1, __Value)
++#define SET_TX_DESC_DATA_BW_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 5, 2, __Value)
++#define SET_TX_DESC_DATA_LDPC_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 7, 1, __Value)
++#define SET_TX_DESC_DATA_STBC_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 8, 2, __Value)
++#define SET_TX_DESC_CTROL_STBC_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 10, 2, __Value)
++#define SET_TX_DESC_RTS_SHORT_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 12, 1, __Value)
++#define SET_TX_DESC_RTS_SC_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 13, 4, __Value)
++#define SET_TX_DESC_SIGNALING_TA_PKT_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 17, 1, __Value)
++#define SET_TX_DESC_PORT_ID_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 21, 3, __Value)/* 20130415 KaiYuan add for 8814 */
++#define SET_TX_DESC_TX_ANT_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 24, 4, __Value)
++#define SET_TX_DESC_TX_POWER_OFFSET_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+20, 28, 3, __Value)
++
++/* Dword 6 */
++#define SET_TX_DESC_SW_DEFINE_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 0, 12, __Value)
++#define SET_TX_DESC_MBSSID_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 12, 4, __Value)
++#define SET_TX_DESC_ANTSEL_A_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 16, 3, __Value)
++#define SET_TX_DESC_ANTSEL_B_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 19, 3, __Value)
++#define SET_TX_DESC_ANT_MAPA_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 22, 2, __Value)
++#define SET_TX_DESC_ANT_MAPB_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 24, 2, __Value)
++#define SET_TX_DESC_ANT_MAPC_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 26, 2, __Value)
++#define SET_TX_DESC_ANT_MAPD_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+24, 28, 2, __Value)
++
++
++/* Dword 7 */
++#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
++	#define SET_TX_DESC_TX_BUFFER_SIZE_8814A(__pTxDesc, __Value)		SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#else
++	#define SET_TX_DESC_TX_DESC_CHECKSUM_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 0, 16, __Value)
++#endif
++#define SET_TX_DESC_NTX_MAP_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 20, 4, __Value)
++#define SET_TX_DESC_USB_TXAGG_NUM_8814A(__pTxDesc, __Value) SET_BITS_TO_LE_4BYTE(__pTxDesc+28, 24, 8, __Value)
++
++
++/* Dword 8 */
++#define SET_TX_DESC_RTS_RC_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 0, 6, __Value)
++#define SET_TX_DESC_BAR_RTY_TH_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 6, 2, __Value)
++#define SET_TX_DESC_DATA_RC_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 8, 6, __Value)
++#define SET_TX_DESC_EN_HWEXSEQ_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 14, 1, __Value)
++#define SET_TX_DESC_HWSEQ_EN_8814A(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 15, 1, __Value)
++#if (DEV_BUS_TYPE != RT_SDIO_INTERFACE)
++	#define SET_TX_DESC_NEXT_HEAD_PAGE_L_8814A(__pTxDesc, __Value)(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 16, 8, __Value)
++#else
++	#define SET_TX_DESC_SDIO_SEQ_8814A(__pTxDesc, __Value)(__pTxDesc, __Value) 			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 16, 8, __Value) /* 20130415 KaiYuan add for 8814AS */
++#endif
++#define SET_TX_DESC_TAIL_PAGE_L_8814A(__pTxDesc, __Value)(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+32, 24, 8, __Value)
++
++/* Dword 9 */
++#define SET_TX_DESC_PADDING_LENGTH_8814A(__pTxDesc, __Value)						SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 0, 11, __Value)
++#define SET_TX_DESC_TXBF_PATH_8814A(__pTxDesc, __Value)								SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 11, 1, __Value)
++#define SET_TX_DESC_SEQ_8814A(__pTxDesc, __Value)										SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 12, 12, __Value)
++#define SET_TX_DESC_NEXT_HEAD_PAGE_H_8814A(__pTxDesc, __Value)(__pTxDesc, __Value)	SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 24, 4, __Value)
++#define SET_TX_DESC_TAIL_PAGE_H_8814A(__pTxDesc, __Value)(__pTxDesc, __Value)			SET_BITS_TO_LE_4BYTE(__pTxDesc+36, 28, 4, __Value)
++
++
++
++#define SET_EARLYMODE_PKTNUM_8814A(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 0, 4, __Value)
++#define SET_EARLYMODE_LEN0_8814A(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 4, 15, __Value)
++#define SET_EARLYMODE_LEN1_1_8814A(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr, 19, 13, __Value)
++#define SET_EARLYMODE_LEN1_2_8814A(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 0, 2, __Value)
++#define SET_EARLYMODE_LEN2_8814A(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 2, 15,  __Value)
++#define SET_EARLYMODE_LEN3_8814A(__pAddr, __Value)					SET_BITS_TO_LE_4BYTE(__pAddr+4, 17, 15, __Value)
++
++
++void rtl8814a_cal_txdesc_chksum(u8 *ptxdesc);
++void rtl8814a_fill_fake_txdesc(PADAPTER	padapter, u8 *pDesc, u32 BufferLen, u8 IsPsPoll, u8	IsBTQosNull, u8 bDataFrame);
++void rtl8814a_fill_txdesc_sectype(struct pkt_attrib *pattrib, u8 *ptxdesc);
++void rtl8814a_fill_txdesc_vcs(PADAPTER padapter, struct pkt_attrib *pattrib, u8 *ptxdesc);
++void rtl8814a_fill_txdesc_phy(PADAPTER padapter, struct pkt_attrib *pattrib, u8 *ptxdesc);
++#if defined(CONFIG_CONCURRENT_MODE)
++	void fill_txdesc_force_bmc_camid(struct pkt_attrib *pattrib, u8 *ptxdesc);
++#endif
++
++#ifdef CONFIG_USB_HCI
++	s32 rtl8814au_init_xmit_priv(PADAPTER padapter);
++	void rtl8814au_free_xmit_priv(PADAPTER padapter);
++	s32 rtl8814au_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8814au_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	 rtl8814au_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8814au_xmit_buf_handler(PADAPTER padapter);
++	void rtl8814au_xmit_tasklet(void *priv);
++	s32 rtl8814au_xmitframe_complete(_adapter *padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++#endif /* CONFIG_USB_HCI */
++
++#ifdef CONFIG_PCI_HCI
++	s32 rtl8814ae_init_xmit_priv(PADAPTER padapter);
++	void rtl8814ae_free_xmit_priv(PADAPTER padapter);
++	struct xmit_buf *rtl8814ae_dequeue_xmitbuf(struct rtw_tx_ring *ring);
++	void rtl8814ae_xmitframe_resume(_adapter *padapter);
++	s32 rtl8814ae_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++	s32 rtl8814ae_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++	s32	rtl8814ae_hal_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++	void rtl8814ae_xmit_tasklet(void *priv);
++#endif
++
++void _dbg_dump_tx_info(_adapter	*padapter, int frame_tag, u8 *ptxdesc);
++u8
++SCMapping_8814(
++	IN	PADAPTER		Adapter,
++	IN	struct pkt_attrib	*pattrib
++);
++
++u8
++BWMapping_8814(
++	IN	PADAPTER		Adapter,
++	IN	struct pkt_attrib	*pattrib
++);
++
++
++#endif /* __RTL8814_XMIT_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8821a_spec.h b/drivers/net/wireless/rtl8812au/include/rtl8821a_spec.h
+new file mode 100644
+index 0000000..b4dfe3f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8821a_spec.h
+@@ -0,0 +1,108 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#ifndef __RTL8821A_SPEC_H__
++#define __RTL8821A_SPEC_H__
++
++#include <drv_conf.h>
++/* This file should based on "hal_com_reg.h" */
++#include <hal_com_reg.h>
++/* Because 8812a and 8821a is the same serial,
++ * most of 8821a register definitions are the same as 8812a. */
++#include <rtl8812a_spec.h>
++
++
++/* ************************************************************
++ * 8821A Regsiter offset definition
++ * ************************************************************ */
++
++/* ************************************************************
++ * MAC register
++ * ************************************************************ */
++
++/* -----------------------------------------------------
++ *	0x0000h ~ 0x00FFh	System Configuration
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *	0x0100h ~ 0x01FFh	MACTOP General Configuration
++ * ----------------------------------------------------- */
++#define REG_WOWLAN_WAKE_REASON          REG_MCUTST_WOWLAN
++
++/* -----------------------------------------------------
++ *	0x0200h ~ 0x027Fh	TXDMA Configuration
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *	0x0280h ~ 0x02FFh	RXDMA Configuration
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *	0x0300h ~ 0x03FFh	PCIe
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *	0x0400h ~ 0x047Fh	Protocol Configuration
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *	0x0500h ~ 0x05FFh	EDCA Configuration
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ *	0x0600h ~ 0x07FFh	WMAC Configuration
++ * ----------------------------------------------------- */
++
++
++/* ************************************************************
++ * SDIO Bus Specification
++ * ************************************************************ */
++
++/* -----------------------------------------------------
++ * SDIO CMD Address Mapping
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * I/O bus domain (Host)
++ * ----------------------------------------------------- */
++
++/* -----------------------------------------------------
++ * SDIO register
++ * ----------------------------------------------------- */
++#undef SDIO_REG_HCPWM1
++#define SDIO_REG_FREE_TXPG2		0x024
++#define SDIO_REG_HCPWM1			0x025
++
++
++/* ************************************************************
++ * Regsiter Bit and Content definition
++ * ************************************************************ */
++
++/* ********************************************************
++ * General definitions
++ * ******************************************************** */
++
++#define MACID_NUM_8821A 128
++#define SEC_CAM_ENT_NUM_8821A 64
++#define HW_PORT_NUM_8821A	2
++#define NSS_NUM_8821A 1
++#define BAND_CAP_8821A (BAND_CAP_2G | BAND_CAP_5G)
++#define BW_CAP_8821A (BW_CAP_20M | BW_CAP_40M | BW_CAP_80M)
++#define PROTO_CAP_8821A (PROTO_CAP_11B | PROTO_CAP_11G | PROTO_CAP_11N | PROTO_CAP_11AC)
++
++#endif /* __RTL8821A_SPEC_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8821a_xmit.h b/drivers/net/wireless/rtl8812au/include/rtl8821a_xmit.h
+new file mode 100644
+index 0000000..d7a97e3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8821a_xmit.h
+@@ -0,0 +1,178 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTL8821A_XMIT_H__
++#define __RTL8821A_XMIT_H__
++
++#include <drv_types.h>
++
++typedef struct txdescriptor_8821a {
++	/* Offset 0 */
++	u32 pktlen:16;
++	u32 offset:8;
++	u32 bmc:1;
++	u32 htc:1;
++	u32 rsvd0026:1;
++	u32 rsvd0027:1;
++	u32 linip:1;
++	u32 noacm:1;
++	u32 gf:1;
++	u32 rsvd0031:1;
++
++	/* Offset 4 */
++	u32 macid:7;
++	u32 rsvd0407:1;
++	u32 qsel:5;
++	u32 rdg_nav_ext:1;
++	u32 lsig_txop_en:1;
++	u32 pifs:1;
++	u32 rate_id:5;
++	u32 en_desc_id:1;
++	u32 sectype:2;
++	u32 pkt_offset:5; /* unit: 8 bytes */
++	u32 moredata:1;
++	u32 txop_ps_cap:1;
++	u32 txop_ps_mode:1;
++
++	/* Offset 8 */
++	u32 p_aid:9;
++	u32 rsvd0809:1;
++	u32 cca_rts:2;
++	u32 agg_en:1;
++	u32 rdg_en:1;
++	u32 null_0:1;
++	u32 null_1:1;
++	u32 bk:1;
++	u32 morefrag:1;
++	u32 raw:1;
++	u32 spe_rpt:1;
++	u32 ampdu_density:3;
++	u32 bt_null:1;
++	u32 g_id:6;
++	u32 rsvd0830:2;
++
++	/* Offset 12 */
++	u32 wheader_len:4;
++	u32 chk_en:1;
++	u32 early_rate:1;
++	u32 hw_ssn_sel:2;
++	u32 userate:1;
++	u32 disrtsfb:1;
++	u32 disdatafb:1;
++	u32 cts2self:1;
++	u32 rtsen:1;
++	u32 hw_rts_en:1;
++	u32 port_id:1;
++	u32 navusehdr:1;
++	u32 use_max_len:1;
++	u32 max_agg_num:5;
++	u32 ndpa:2;
++	u32 ampdu_max_time:8;
++
++	/* Offset 16 */
++	u32 datarate:7;
++	u32 try_rate:1;
++	u32 data_ratefb_lmt:5;
++	u32 rts_ratefb_lmt:4;
++	u32 rty_lmt_en:1;
++	u32 data_rt_lmt:6;
++	u32 rtsrate:5;
++	u32 pcts_en:1;
++	u32 pcts_mask_idx:2;
++
++	/* Offset 20 */
++	u32 data_sc:4;
++	u32 data_short:1;
++	u32 data_bw:2;
++	u32 data_ldpc:1;
++	u32 data_stbc:2;
++	u32 vcs_stbc:2;
++	u32 rts_short:1;
++	u32 rts_sc:4;
++	u32 rsvd2016:7;
++	u32 tx_ant:4;
++	u32 txpwr_offset:3;
++	u32 rsvd2031:1;
++
++	/* Offset 24 */
++	u32 sw_define:12;
++	u32 mbssid:4;
++	u32 antsel_A:3;
++	u32 antsel_B:3;
++	u32 antsel_C:3;
++	u32 antsel_D:3;
++	u32 rsvd2428:4;
++
++	/* Offset 28 */
++	u32 checksum:16;
++	u32 rsvd2816:8;
++	u32 usb_txagg_num:8;
++
++	/* Offset 32 */
++	u32 rts_rc:6;
++	u32 bar_rty_th:2;
++	u32 data_rc:6;
++	u32 rsvd3214:1;
++	u32 en_hwseq:1;
++	u32 nextneadpage:8;
++	u32 tailpage:8;
++
++	/* Offset 36 */
++	u32 padding_len:11;
++	u32 txbf_path:1;
++	u32 seq:12;
++	u32 final_data_rate:8;
++} TXDESC_8821A, *PTXDESC_8821A;
++
++#ifdef CONFIG_SDIO_HCI
++s32 InitXmitPriv8821AS(PADAPTER padapter);
++void FreeXmitPriv8821AS(PADAPTER padapter);
++s32 XmitBufHandler8821AS(PADAPTER padapter);
++s32 MgntXmit8821AS(PADAPTER padapter, struct xmit_frame *pmgntframe);
++s32	HalXmitNoLock8821AS(PADAPTER padapter, struct xmit_frame *pxmitframe);
++s32 HalXmit8821AS(PADAPTER padapter, struct xmit_frame *pxmitframe);
++#ifndef CONFIG_SDIO_TX_TASKLET
++thread_return XmitThread8821AS(thread_context context);
++#endif /* !CONFIG_SDIO_TX_TASKLET */
++#endif /* CONFIG_SDIO_HCI */
++
++#if 0
++#ifdef CONFIG_USB_HCI
++s32 rtl8821au_init_xmit_priv(PADAPTER padapter);
++void rtl8821au_free_xmit_priv(PADAPTER padapter);
++s32 rtl8821au_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++s32 rtl8821au_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++s32 rtl8821au_hal_xmitframe_enqueue(PADAPTER padapter, struct xmit_frame *pxmitframe);
++s32 rtl8821au_xmit_buf_handler(PADAPTER padapter);
++void rtl8821au_xmit_tasklet(void *priv);
++s32 rtl8821au_xmitframe_complete(PADAPTER padapter, struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++#endif /* CONFIG_USB_HCI */
++
++#ifdef CONFIG_PCI_HCI
++s32 rtl8821e_init_xmit_priv(PADAPTER padapter);
++void rtl8821e_free_xmit_priv(PADAPTER padapter);
++struct xmit_buf *rtl8821e_dequeue_xmitbuf(struct rtw_tx_ring *ring);
++void rtl8821e_xmitframe_resume(PADAPTER padapter);
++s32 rtl8821e_hal_xmit(PADAPTER padapter, struct xmit_frame *pxmitframe);
++s32 rtl8821e_mgnt_xmit(PADAPTER padapter, struct xmit_frame *pmgntframe);
++void rtl8821e_xmit_tasklet(void *priv);
++#endif /* CONFIG_PCI_HCI */
++#endif
++
++#endif /* __RTL8821_XMIT_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8821c_hal.h b/drivers/net/wireless/rtl8812au/include/rtl8821c_hal.h
+new file mode 100644
+index 0000000..fd6586e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8821c_hal.h
+@@ -0,0 +1,86 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8821C_HAL_H_
++#define _RTL8821C_HAL_H_
++
++#include <osdep_service.h>		/* BIT(x) */
++#include "../hal/halmac/halmac_api.h"	/* MAC REG definition */
++#include "hal_data.h"
++#include "rtl8821c_spec.h"
++#include "../hal/rtl8821c/hal8821c_fw.h"
++
++#ifdef CONFIG_USB_HCI
++#include <rtl8821cu_hal.h>
++#endif
++#ifdef CONFIG_SDIO_HCI
++#include <rtl8821cs_hal.h>
++#endif
++#ifdef CONFIG_PCI_HCI
++#include <rtl8821ce_hal.h>
++#endif
++
++#ifdef CONFIG_SUPPORT_TRX_SHARED
++#define FIFO_BLOCK_SIZE		32768 /*@Block size = 32K*/
++#define RX_FIFO_EXPANDING	(1 * FIFO_BLOCK_SIZE)
++#else
++#define RX_FIFO_EXPANDING	0
++#endif
++
++
++#if defined(CONFIG_USB_HCI)
++
++	#ifndef MAX_RECVBUF_SZ
++		#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++			#ifdef CONFIG_PLATFORM_MSTAR
++				#define MAX_RECVBUF_SZ (8192 + RX_FIFO_EXPANDING) /* 8K */
++			#else
++				/* 8821C - RX FIFO :16K ,for RX agg DMA mode = 16K, Rx agg USB mode could large than 16k*/
++				#define MAX_RECVBUF_SZ		(HALMAC_RX_FIFO_SIZE_8821C + RX_FIFO_EXPANDING)
++			#endif
++			/*#define MAX_RECVBUF_SZ_8821C (24576)*/ /* 24k*/
++			/*#define MAX_RECVBUF_SZ_8821C (20480)*/ /*20K*/
++			/*#define MAX_RECVBUF_SZ_8821C (10240) */ /*10K*/
++			/*#define MAX_RECVBUF_SZ_8821C (15360)*/ /*15k < 16k*/
++			/*#define MAX_RECVBUF_SZ_8821C (8192+1024)*/ /* 8K+1k*/
++		#else
++			#define MAX_RECVBUF_SZ (4096 + RX_FIFO_EXPANDING) /* about 4K */
++		#endif
++	#endif/* !MAX_RECVBUF_SZ*/
++
++#elif defined(CONFIG_PCI_HCI)
++	/*#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++	#define MAX_RECVBUF_SZ (9100)
++	#else*/
++	#define MAX_RECVBUF_SZ (4096 + RX_FIFO_EXPANDING) /* about 4K */
++	/*#endif*/
++
++#elif defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	#define MAX_RECVBUF_SZ	(HALMAC_RX_FIFO_SIZE_8821C + RX_FIFO_EXPANDING)
++#endif
++
++void init_hal_spec_rtl8821c(PADAPTER);
++/* MP Functions */
++#ifdef CONFIG_MP_INCLUDED
++void rtl8821c_phy_init_haldm(PADAPTER);				/* rtw_mp.c */
++void rtl8821c_prepare_mp_txdesc(PADAPTER, struct mp_priv *);	/* rtw_mp.c */
++void rtl8821c_mp_config_rfpath(PADAPTER);			/* hal_mp.c */
++#endif
++
++#endif /* _RTL8821C_HAL_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8821c_spec.h b/drivers/net/wireless/rtl8812au/include/rtl8821c_spec.h
+new file mode 100644
+index 0000000..222be6a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8821c_spec.h
+@@ -0,0 +1,198 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#ifndef __RTL8821C_SPEC_H__
++#define __RTL8821C_SPEC_H__
++
++#define EFUSE_MAP_SIZE		HALMAC_EFUSE_SIZE_8821C
++
++#define MACID_NUM_8821C	128
++#define NSS_NUM_8821C		1
++#define HW_PORT_NUM_8821C	5
++
++/*
++ * MAC Register definition
++ */
++#define REG_AFE_XTAL_CTRL			REG_AFE_CTRL1_8821C	/* hal_com.c & phydm */
++#define REG_AFE_PLL_CTRL			REG_AFE_CTRL2_8821C	/* hal_com.c & phydm */
++#define REG_MAC_PHY_CTRL			REG_AFE_CTRL3_8821C	/* phydm only */
++#define REG_LEDCFG0					REG_LED_CFG_8821C	/* rtw_mp.c */
++#define MSR							(REG_CR_8821C + 2)	/* rtw_mp.c */
++#define MSR1						REG_CR_EXT_8821C	/* rtw_mp.c & hal_com.c */
++#define REG_C2HEVT_MSG_NORMAL		0x1A0			/* hal_com.c */
++#define REG_C2HEVT_CLEAR			0x1AF			/* hal_com.c */
++#define REG_BCN_CTRL_1				REG_BCN_CTRL_CLINT0_8821C/* hal_com.c */
++#define REG_TSFTR1					REG_FREERUN_CNT_8821C	/* hal_com.c */
++#define REG_RXFLTMAP2				REG_RXFLTMAP_8821C	/* rtw_mp.c */
++#define REG_WOWLAN_WAKE_REASON	0x01C7
++
++/* RXERR_RPT, for rtw_mp.c */
++#define RXERR_TYPE_OFDM_PPDU		0
++#define RXERR_TYPE_OFDM_FALSE_ALARM	2
++#define RXERR_TYPE_OFDM_MPDU_OK		0
++#define RXERR_TYPE_OFDM_MPDU_FAIL	1
++#define RXERR_TYPE_CCK_PPDU		3
++#define RXERR_TYPE_CCK_FALSE_ALARM	5
++#define RXERR_TYPE_CCK_MPDU_OK		3
++#define RXERR_TYPE_CCK_MPDU_FAIL	4
++#define RXERR_TYPE_HT_PPDU		8
++#define RXERR_TYPE_HT_FALSE_ALARM	9
++#define RXERR_TYPE_HT_MPDU_TOTAL	6
++#define RXERR_TYPE_HT_MPDU_OK		6
++#define RXERR_TYPE_HT_MPDU_FAIL		7
++#define RXERR_TYPE_RX_FULL_DROP		10
++
++#define RXERR_COUNTER_MASK		BIT_MASK_RPT_COUNTER_8821C
++#define RXERR_RPT_RST			BIT_RXERR_RPT_RST_8821C
++#define _RXERR_RPT_SEL(type)		(BIT_RXERR_RPT_SEL_V1_3_0_8821C(type) \
++		| ((type & 0x10) ? BIT_RXERR_RPT_SEL_V1_4_8821C : 0))
++
++/*
++ * BB Register definition
++ */
++#define rPMAC_Reset				0x100	/* hal_mp.c */
++
++#define rFPGA0_RFMOD				0x800
++#define rFPGA0_TxInfo				0x804
++#define rOFDMCCKEN_Jaguar		0x808	/* hal_mp.c */
++#define rFPGA0_TxGainStage		0x80C	/* phydm only */
++#define rFPGA0_XA_HSSIParameter1	0x820	/* hal_mp.c */
++#define rFPGA0_XA_HSSIParameter2	0x824	/* hal_mp.c */
++#define rFPGA0_XB_HSSIParameter1	0x828	/* hal_mp.c */
++#define rFPGA0_XB_HSSIParameter2	0x82C	/* hal_mp.c */
++#define rTxAGC_B_Rate18_06		0x830
++#define rTxAGC_B_Rate54_24		0x834
++#define rTxAGC_B_CCK1_55_Mcs32	0x838
++#define rCCAonSec_Jaguar			0x838	/* hal_mp.c */
++#define rTxAGC_B_Mcs03_Mcs00		0x83C
++#define rTxAGC_B_Mcs07_Mcs04		0x848
++#define rTxAGC_B_Mcs11_Mcs08		0x84C
++#define rFPGA0_XA_RFInterfaceOE		0x860
++#define rFPGA0_XB_RFInterfaceOE		0x864
++#define rTxAGC_B_Mcs15_Mcs12		0x868
++#define rTxAGC_B_CCK11_A_CCK2_11	0x86C
++#define rFPGA0_XAB_RFInterfaceSW		0x870
++#define rFPGA0_XAB_RFParameter		0x878
++#define rFPGA0_AnalogParameter4		0x88C	/* hal_mp.c & phydm */
++#define rFPGA0_XB_LSSIReadBack		0x8A4	/* phydm */
++#define rHSSIRead_Jaguar				0x8B0	/* RF read addr (rtl8821c_phy.c) */
++
++#define	rC_TxScale_Jaguar2			0x181C  /* Pah_C TX scaling factor (hal_mp.c) */
++#define	rC_IGI_Jaguar2				0x1850	/* Initial Gain for path-C (hal_mp.c) */
++
++#define rFPGA1_TxInfo					0x90C	/* hal_mp.c */
++#define rSingleTone_ContTx_Jaguar		0x914	/* hal_mp.c */
++
++#define rCCK0_System					0xA00
++#define rCCK0_AFESetting				0xA04
++
++#define rCCK0_DSPParameter2			0xA1C
++#define rCCK0_TxFilter1				0xA20
++#define rCCK0_TxFilter2				0xA24
++#define rCCK0_DebugPort				0xA28
++#define rCCK0_FalseAlarmReport		0xA2C
++
++#define	rD_TxScale_Jaguar2			0x1A1C  /* Path_D TX scaling factor (hal_mp.c) */
++#define	rD_IGI_Jaguar2				0x1A50	/* Initial Gain for path-D (hal_mp.c) */
++
++#define rOFDM0_TRxPathEnable			0xC04
++#define rOFDM0_TRMuxPar				0xC08
++#define rA_TxScale_Jaguar				0xC1C	/* Pah_A TX scaling factor (hal_mp.c) */
++#define rOFDM0_RxDetector1			0xC30	/* rtw_mp.c */
++#define rOFDM0_ECCAThreshold			0xC4C	/* phydm only */
++#define rOFDM0_XAAGCCore1			0xC50	/* phydm only */
++#define rA_IGI_Jaguar					0xC50	/* Initial Gain for path-A (hal_mp.c) */
++#define rOFDM0_XBAGCCore1			0xC58	/* phydm only */
++#define rOFDM0_XATxIQImbalance		0xC80	/* phydm only */
++#define rA_LSSIWrite_Jaguar			0xC90	/* RF write addr, LSSI Parameter (rtl8821c_phy.c) */
++#define rA_RFE_Pinmux_Jaguar			0xCB0	/* hal_mp.c */
++
++#define rOFDM1_LSTF					0xD00
++#define rOFDM1_TRxPathEnable			0xD04	/* hal_mp.c */
++#define rA_PIRead_Jaguar				0xD04	/* RF readback with PI (rtl8821c_phy.c) */
++#define rA_SIRead_Jaguar				0xD08	/* RF readback with SI (rtl8821c_phy.c) */
++#define rB_PIRead_Jaguar				0xD44	/* RF readback with PI (rtl8821c_phy.c) */
++#define rB_SIRead_Jaguar				0xD48	/* RF readback with SI (rtl8821c_phy.c) */
++
++#define rTxAGC_A_Rate18_06			0xE00
++#define rTxAGC_A_Rate54_24			0xE04
++#define rTxAGC_A_CCK1_Mcs32			0xE08
++#define rTxAGC_A_Mcs03_Mcs00		0xE10
++#define rTxAGC_A_Mcs07_Mcs04		0xE14
++#define rTxAGC_A_Mcs11_Mcs08		0xE18
++#define rTxAGC_A_Mcs15_Mcs12		0xE1C
++#define rB_TxScale_Jaguar				0xE1C	/* Path_B TX scaling factor (hal_mp.c) */
++#define rB_IGI_Jaguar					0xE50	/* Initial Gain for path-B (hal_mp.c) */
++#define rB_LSSIWrite_Jaguar			0xE90	/* RF write addr, LSSI Parameter (rtl8821c_phy.c) */
++#define rB_RFE_Pinmux_Jaguar			0xEB0	/* hal_mp.c */
++
++/* Page1(0x100) */
++#define bBBResetB					0x100
++
++/* Page8(0x800) */
++#define bCCKEn						0x1000000
++#define bOFDMEn						0x2000000
++/* Reg 0x80C rFPGA0_TxGainStage */
++#define bXBTxAGC						0xF00
++#define bXCTxAGC						0xF000
++#define bXDTxAGC						0xF0000
++
++/* PageA(0xA00) */
++#define bCCKBBMode					0x3
++
++#define bCCKScramble					0x8
++#define bCCKTxRate					0x3000
++
++/* General */
++#define bMaskByte0		0xFF		/* mp, rtw_odm.c & phydm */
++#define bMaskByte1		0xFF00		/* hal_mp.c & phydm */
++#define bMaskByte2		0xFF0000	/* hal_mp.c & phydm */
++#define bMaskByte3		0xFF000000	/* hal_mp.c & phydm */
++#define bMaskHWord		0xFFFF0000	/* hal_com.c, rtw_mp.c */
++#define bMaskLWord		0x0000FFFF	/* mp, hal_com.c & phydm */
++#define bMaskDWord		0xFFFFFFFF	/* mp, hal, rtw_odm.c & phydm */
++
++#define bEnable			0x1		/* hal_mp.c, rtw_mp.c */
++#define bDisable			0x0		/* rtw_mp.c */
++
++#define MAX_STALL_TIME		50		/* unit: us, hal_com_phycfg.c */
++
++#define Rx_Smooth_Factor		20		/* phydm only */
++
++/*
++ * RF Register definition
++ */
++#define RF_AC			0x00
++#define RF_AC_Jaguar		0x00	/* hal_mp.c */
++#define RF_CHNLBW		0x18	/* rtl8821c_phy.c */
++#define RF_0x52			0x52
++
++struct hw_port_reg {
++	u32 net_type;	/*reg_offset*/
++	u8 net_type_shift;
++	u32 macaddr;	/*reg_offset*/
++	u32 bssid;	/*reg_offset*/
++	u32 bcn_ctl;			/*reg_offset*/
++	u32 tsf_rst;			/*reg_offset*/
++	u8 tsf_rst_bit;
++	u32 bcn_space;		/*reg_offset*/
++	u8 bcn_space_shift;
++	u16 bcn_space_mask;
++};
++
++#endif /* __RTL8192E_SPEC_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8821cs_hal.h b/drivers/net/wireless/rtl8812au/include/rtl8821cs_hal.h
+new file mode 100644
+index 0000000..97df6e9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8821cs_hal.h
+@@ -0,0 +1,28 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8821CS_HAL_H_
++#define _RTL8821CS_HAL_H_
++
++#include <drv_types.h>		/* PADAPTER */
++
++/* rtl8821cs_ops.c */
++u8 rtl8821cs_set_hal_ops(PADAPTER);
++
++#endif /* _RTL8821CS_HAL_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8821cu_hal.h b/drivers/net/wireless/rtl8812au/include/rtl8821cu_hal.h
+new file mode 100644
+index 0000000..63c25a8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8821cu_hal.h
+@@ -0,0 +1,29 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8821CU_HAL_H_
++#define _RTL8821CU_HAL_H_
++
++#include <drv_types.h>		/* PADAPTER */
++
++/* rtl8821cu_ops.c */
++u8 rtl8821cu_set_hal_ops(PADAPTER);
++void rtl8821cu_set_hw_type(struct dvobj_priv *pdvobj);
++
++#endif /* _RTL8821CU_HAL_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8822b_hal.h b/drivers/net/wireless/rtl8812au/include/rtl8822b_hal.h
+new file mode 100644
+index 0000000..089f97d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8822b_hal.h
+@@ -0,0 +1,216 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8822B_HAL_H_
++#define _RTL8822B_HAL_H_
++
++#include <osdep_service.h>		/* BIT(x) */
++#include <drv_types.h>			/* PADAPTER */
++#include "../hal/halmac/halmac_api.h"	/* MAC REG definition */
++
++
++#define MAX_RECVBUF_SZ		HALMAC_RX_FIFO_SIZE_8822B
++
++/*
++ * MAC Register definition
++ */
++#define REG_AFE_XTAL_CTRL	REG_AFE_CTRL1_8822B	/* hal_com.c & phydm */
++#define REG_AFE_PLL_CTRL	REG_AFE_CTRL2_8822B	/* hal_com.c & phydm */
++#define REG_MAC_PHY_CTRL	REG_AFE_CTRL3_8822B	/* phydm only */
++#define REG_LEDCFG0		REG_LED_CFG_8822B	/* rtw_mp.c */
++#define MSR			(REG_CR_8822B + 2)	/* rtw_mp.c & hal_com.c */
++#define MSR1			REG_CR_EXT_8822B	/* rtw_mp.c & hal_com.c */
++#define REG_C2HEVT_MSG_NORMAL	0x1A0			/* hal_com.c */
++#define REG_C2HEVT_CLEAR	0x1AF			/* hal_com.c */
++#define REG_BCN_CTRL_1		REG_BCN_CTRL_CLINT0_8822B	/* hal_com.c */
++#define REG_TSFTR1		REG_FREERUN_CNT_8822B	/* hal_com.c */
++#define REG_RXFLTMAP2		REG_RXFLTMAP_8822B	/* rtw_mp.c */
++
++/* RXERR_RPT, for rtw_mp.c */
++#define RXERR_TYPE_OFDM_PPDU		0
++#define RXERR_TYPE_OFDM_FALSE_ALARM	2
++#define RXERR_TYPE_OFDM_MPDU_OK		0
++#define RXERR_TYPE_OFDM_MPDU_FAIL	1
++#define RXERR_TYPE_CCK_PPDU		3
++#define RXERR_TYPE_CCK_FALSE_ALARM	5
++#define RXERR_TYPE_CCK_MPDU_OK		3
++#define RXERR_TYPE_CCK_MPDU_FAIL	4
++#define RXERR_TYPE_HT_PPDU		8
++#define RXERR_TYPE_HT_FALSE_ALARM	9
++#define RXERR_TYPE_HT_MPDU_TOTAL	6
++#define RXERR_TYPE_HT_MPDU_OK		6
++#define RXERR_TYPE_HT_MPDU_FAIL		7
++#define RXERR_TYPE_RX_FULL_DROP		10
++
++#define RXERR_COUNTER_MASK		BIT_MASK_RPT_COUNTER_8822B
++#define RXERR_RPT_RST			BIT_RXERR_RPT_RST_8822B
++#define _RXERR_RPT_SEL(type)		(BIT_RXERR_RPT_SEL_V1_3_0_8822B(type) \
++					| ((type & 0x10) ? BIT_RXERR_RPT_SEL_V1_4_8822B : 0))
++
++/*
++ * BB Register definition
++ */
++#define rPMAC_Reset			0x100	/* hal_mp.c */
++
++#define	rFPGA0_RFMOD			0x800
++#define rFPGA0_TxInfo			0x804
++#define rOFDMCCKEN_Jaguar		0x808	/* hal_mp.c */
++#define rFPGA0_TxGainStage		0x80C	/* phydm only */
++#define rFPGA0_XA_HSSIParameter1	0x820	/* hal_mp.c */
++#define rFPGA0_XA_HSSIParameter2	0x824	/* hal_mp.c */
++#define rFPGA0_XB_HSSIParameter1	0x828	/* hal_mp.c */
++#define rFPGA0_XB_HSSIParameter2	0x82C	/* hal_mp.c */
++#define rTxAGC_B_Rate18_06		0x830
++#define rTxAGC_B_Rate54_24		0x834
++#define rTxAGC_B_CCK1_55_Mcs32		0x838
++#define rCCAonSec_Jaguar		0x838	/* hal_mp.c */
++#define rTxAGC_B_Mcs03_Mcs00		0x83C
++#define rTxAGC_B_Mcs07_Mcs04		0x848
++#define rTxAGC_B_Mcs11_Mcs08		0x84C
++#define rFPGA0_XA_RFInterfaceOE		0x860
++#define rFPGA0_XB_RFInterfaceOE		0x864
++#define rTxAGC_B_Mcs15_Mcs12		0x868
++#define rTxAGC_B_CCK11_A_CCK2_11	0x86C
++#define rFPGA0_XAB_RFInterfaceSW	0x870
++#define rFPGA0_XAB_RFParameter		0x878
++#define rFPGA0_AnalogParameter4		0x88C	/* hal_mp.c & phydm */
++#define rFPGA0_XB_LSSIReadBack		0x8A4	/* phydm */
++#define rHSSIRead_Jaguar		0x8B0	/* RF read addr (rtl8822b_phy.c) */
++
++#define	rC_TxScale_Jaguar2		0x181C  /* Pah_C TX scaling factor (hal_mp.c) */
++#define	rC_IGI_Jaguar2			0x1850	/* Initial Gain for path-C (hal_mp.c) */
++
++#define rFPGA1_TxInfo			0x90C	/* hal_mp.c */
++#define rSingleTone_ContTx_Jaguar	0x914	/* hal_mp.c */
++/* TX BeamForming */
++#define REG_BB_TX_PATH_SEL_1_8822B	0x93C	/* rtl8822b_phy.c */
++#define REG_BB_TX_PATH_SEL_2_8822B	0x940	/* rtl8822b_phy.c */
++
++/* TX BeamForming */
++#define REG_BB_TXBF_ANT_SET_BF1_8822B	0x19AC	/* rtl8822b_phy.c */
++#define REG_BB_TXBF_ANT_SET_BF0_8822B	0x19B4	/* rtl8822b_phy.c */
++
++#define rCCK0_System			0xA00
++#define rCCK0_AFESetting		0xA04
++
++#define rCCK0_DSPParameter2		0xA1C
++#define rCCK0_TxFilter1			0xA20
++#define rCCK0_TxFilter2			0xA24
++#define rCCK0_DebugPort			0xA28
++#define rCCK0_FalseAlarmReport		0xA2C
++
++#define	rD_TxScale_Jaguar2		0x1A1C  /* Path_D TX scaling factor (hal_mp.c) */
++#define	rD_IGI_Jaguar2			0x1A50	/* Initial Gain for path-D (hal_mp.c) */
++
++#define rOFDM0_TRxPathEnable		0xC04
++#define rOFDM0_TRMuxPar			0xC08
++#define rA_TxScale_Jaguar		0xC1C	/* Pah_A TX scaling factor (hal_mp.c) */
++#define rOFDM0_RxDetector1		0xC30	/* rtw_mp.c */
++#define rOFDM0_ECCAThreshold		0xC4C	/* phydm only */
++#define rOFDM0_XAAGCCore1		0xC50	/* phydm only */
++#define rA_IGI_Jaguar			0xC50	/* Initial Gain for path-A (hal_mp.c) */
++#define rOFDM0_XBAGCCore1		0xC58	/* phydm only */
++#define rOFDM0_XATxIQImbalance		0xC80	/* phydm only */
++#define rA_LSSIWrite_Jaguar		0xC90	/* RF write addr, LSSI Parameter (rtl8822b_phy.c) */
++#define rA_RFE_Pinmux_Jaguar		0xCB0	/* hal_mp.c */
++
++#define rOFDM1_LSTF			0xD00
++#define rOFDM1_TRxPathEnable		0xD04	/* hal_mp.c */
++#define rA_PIRead_Jaguar		0xD04	/* RF readback with PI (rtl8822b_phy.c) */
++#define rA_SIRead_Jaguar		0xD08	/* RF readback with SI (rtl8822b_phy.c) */
++#define rB_PIRead_Jaguar		0xD44	/* RF readback with PI (rtl8822b_phy.c) */
++#define rB_SIRead_Jaguar		0xD48	/* RF readback with SI (rtl8822b_phy.c) */
++
++#define rTxAGC_A_Rate18_06		0xE00
++#define rTxAGC_A_Rate54_24		0xE04
++#define rTxAGC_A_CCK1_Mcs32		0xE08
++#define rTxAGC_A_Mcs03_Mcs00		0xE10
++#define rTxAGC_A_Mcs07_Mcs04		0xE14
++#define rTxAGC_A_Mcs11_Mcs08		0xE18
++#define rTxAGC_A_Mcs15_Mcs12		0xE1C
++#define rB_TxScale_Jaguar		0xE1C	/* Path_B TX scaling factor (hal_mp.c) */
++#define rB_IGI_Jaguar			0xE50	/* Initial Gain for path-B (hal_mp.c) */
++#define rB_LSSIWrite_Jaguar		0xE90	/* RF write addr, LSSI Parameter (rtl8822b_phy.c) */
++#define rB_RFE_Pinmux_Jaguar		0xEB0	/* hal_mp.c */
++
++/* Page1(0x100) */
++#define bBBResetB			0x100
++
++/* Page8(0x800) */
++#define bCCKEn				0x1000000
++#define bOFDMEn				0x2000000
++/* Reg 0x80C rFPGA0_TxGainStage */
++#define bXBTxAGC			0xF00
++#define bXCTxAGC			0xF000
++#define bXDTxAGC			0xF0000
++
++/* PageA(0xA00) */
++#define bCCKBBMode			0x3
++
++#define bCCKScramble			0x8
++#define bCCKTxRate			0x3000
++
++/* General */
++#define bMaskByte0		0xFF		/* mp, rtw_odm.c & phydm */
++#define bMaskByte1		0xFF00		/* hal_mp.c & phydm */
++#define bMaskByte2		0xFF0000	/* hal_mp.c & phydm */
++#define bMaskByte3		0xFF000000	/* hal_mp.c & phydm */
++#define bMaskHWord		0xFFFF0000	/* hal_com.c, rtw_mp.c */
++#define bMaskLWord		0x0000FFFF	/* mp, hal_com.c & phydm */
++#define bMaskDWord		0xFFFFFFFF	/* mp, hal, rtw_odm.c & phydm */
++
++#define bEnable			0x1		/* hal_mp.c, rtw_mp.c */
++#define bDisable		0x0		/* rtw_mp.c */
++
++#define MAX_STALL_TIME		50		/* unit: us, hal_com_phycfg.c */
++
++#define Rx_Smooth_Factor	20		/* phydm only */
++
++/*
++ * RF Register definition
++ */
++#define RF_AC			0x00
++#define RF_AC_Jaguar		0x00	/* hal_mp.c */
++#define RF_CHNLBW		0x18	/* rtl8822b_phy.c */
++#define RF_ModeTableAddr	0x30	/* rtl8822b_phy.c */
++#define RF_ModeTableData0	0x31	/* rtl8822b_phy.c */
++#define RF_ModeTableData1	0x32	/* rtl8822b_phy.c */
++#define RF_0x52			0x52
++#define RF_WeLut_Jaguar		0xEF	/* rtl8822b_phy.c */
++
++/* General Functions */
++void rtl8822b_init_hal_spec(PADAPTER);				/* hal/hal_com.c */
++
++#ifdef CONFIG_MP_INCLUDED
++/* MP Functions */
++#include <rtw_mp.h>		/* struct mp_priv */
++void rtl8822b_phy_init_haldm(PADAPTER);				/* rtw_mp.c */
++void rtl8822b_prepare_mp_txdesc(PADAPTER, struct mp_priv *);	/* rtw_mp.c */
++void rtl8822b_mp_config_rfpath(PADAPTER);			/* hal_mp.c */
++#endif
++
++#ifdef CONFIG_USB_HCI
++#include <rtl8822bu_hal.h>
++#elif defined(CONFIG_SDIO_HCI)
++#include <rtl8822bs_hal.h>
++#elif defined(CONFIG_PCI_HCI)
++#include <rtl8822be_hal.h>
++#endif
++
++#endif /* _RTL8822B_HAL_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8822be_hal.h b/drivers/net/wireless/rtl8812au/include/rtl8822be_hal.h
+new file mode 100755
+index 0000000..8379fab
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8822be_hal.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8822BE_HAL_H_
++#define _RTL8822BE_HAL_H_
++
++#include <drv_types.h>		/* PADAPTER */
++
++#define RT_BCN_INT_MASKS	(BIT20 | BIT25 | BIT26 | BIT16)
++
++/* rtl8822be_ops.c */
++void UpdateInterruptMask8822BE(PADAPTER, u32 AddMSR, u32 AddMSR1, u32 RemoveMSR, u32 RemoveMSR1);
++
++#endif /* _RTL8822BE_HAL_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8822bs_hal.h b/drivers/net/wireless/rtl8812au/include/rtl8822bs_hal.h
+new file mode 100644
+index 0000000..313036d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8822bs_hal.h
+@@ -0,0 +1,32 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8822BS_HAL_H_
++#define _RTL8822BS_HAL_H_
++
++#include <drv_types.h>		/* PADAPTER */
++
++/* rtl8822bs_ops.c */
++void rtl8822bs_set_hal_ops(PADAPTER);
++
++/* rtl8822bs_xmit.c */
++s32 rtl8822bs_dequeue_writeport(PADAPTER);
++#define _dequeue_writeport(a)	rtl8822bs_dequeue_writeport(a)
++
++#endif /* _RTL8822BS_HAL_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtl8822bu_hal.h b/drivers/net/wireless/rtl8812au/include/rtl8822bu_hal.h
+new file mode 100644
+index 0000000..df16056
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtl8822bu_hal.h
+@@ -0,0 +1,63 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL8822BU_HAL_H_
++#define _RTL8822BU_HAL_H_
++
++#ifdef CONFIG_USB_HCI
++	#include <drv_types.h>		/* PADAPTER */
++
++	#ifdef CONFIG_USB_HCI
++		#ifdef USB_PACKET_OFFSET_SZ
++			#define PACKET_OFFSET_SZ (USB_PACKET_OFFSET_SZ)
++		#else
++			#define PACKET_OFFSET_SZ (8)
++		#endif
++		#define TXDESC_OFFSET (TXDESC_SIZE + PACKET_OFFSET_SZ)
++	#endif
++
++	/* undefine MAX_RECVBUF_SZ from rtl8822b_hal.h  */
++	#ifdef MAX_RECVBUF_SZ
++		#undef MAX_RECVBUF_SZ
++	#endif
++
++	/* recv_buffer must be large than usb agg size */
++	#ifndef MAX_RECVBUF_SZ
++		#ifdef PLATFORM_OS_CE
++			#define MAX_RECVBUF_SZ (8192+1024)
++		#else /* !PLATFORM_OS_CE */
++			#ifndef CONFIG_MINIMAL_MEMORY_USAGE
++				#define MAX_RECVBUF_SZ (32768)
++			#else
++				#define MAX_RECVBUF_SZ (4000)
++			#endif
++		#endif /* PLATFORM_OS_CE */
++	#endif /* !MAX_RECVBUF_SZ */
++
++	/* rtl8822bu_ops.c */
++	void rtl8822bu_set_hal_ops(PADAPTER padapter);
++	void rtl8822bu_set_hw_type(struct dvobj_priv *pdvobj);
++
++	/* rtl8822bu_io.c */
++	void rtl8822bu_set_intf_ops(struct _io_ops *pops);
++
++#endif /* CONFIG_USB_HCI */
++
++
++#endif /* _RTL8822BU_HAL_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_android.h b/drivers/net/wireless/rtl8812au/include/rtw_android.h
+new file mode 100644
+index 0000000..2015afe
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_android.h
+@@ -0,0 +1,115 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __RTW_ANDROID_H__
++#define __RTW_ANDROID_H__
++
++enum ANDROID_WIFI_CMD {
++	ANDROID_WIFI_CMD_START,
++	ANDROID_WIFI_CMD_STOP,
++	ANDROID_WIFI_CMD_SCAN_ACTIVE,
++	ANDROID_WIFI_CMD_SCAN_PASSIVE,
++	ANDROID_WIFI_CMD_RSSI,
++	ANDROID_WIFI_CMD_LINKSPEED,
++	ANDROID_WIFI_CMD_RXFILTER_START,
++	ANDROID_WIFI_CMD_RXFILTER_STOP,
++	ANDROID_WIFI_CMD_RXFILTER_ADD,
++	ANDROID_WIFI_CMD_RXFILTER_REMOVE,
++	ANDROID_WIFI_CMD_BTCOEXSCAN_START,
++	ANDROID_WIFI_CMD_BTCOEXSCAN_STOP,
++	ANDROID_WIFI_CMD_BTCOEXMODE,
++	ANDROID_WIFI_CMD_SETSUSPENDOPT,
++	ANDROID_WIFI_CMD_P2P_DEV_ADDR,
++	ANDROID_WIFI_CMD_SETFWPATH,
++	ANDROID_WIFI_CMD_SETBAND,
++	ANDROID_WIFI_CMD_GETBAND,
++	ANDROID_WIFI_CMD_COUNTRY,
++	ANDROID_WIFI_CMD_P2P_SET_NOA,
++	ANDROID_WIFI_CMD_P2P_GET_NOA,
++	ANDROID_WIFI_CMD_P2P_SET_PS,
++	ANDROID_WIFI_CMD_SET_AP_WPS_P2P_IE,
++
++	ANDROID_WIFI_CMD_MIRACAST,
++
++#ifdef CONFIG_PNO_SUPPORT
++	ANDROID_WIFI_CMD_PNOSSIDCLR_SET,
++	ANDROID_WIFI_CMD_PNOSETUP_SET,
++	ANDROID_WIFI_CMD_PNOENABLE_SET,
++	ANDROID_WIFI_CMD_PNODEBUG_SET,
++#endif
++
++	ANDROID_WIFI_CMD_MACADDR,
++
++	ANDROID_WIFI_CMD_BLOCK_SCAN,
++	ANDROID_WIFI_CMD_BLOCK,
++
++	ANDROID_WIFI_CMD_WFD_ENABLE,
++	ANDROID_WIFI_CMD_WFD_DISABLE,
++
++	ANDROID_WIFI_CMD_WFD_SET_TCPPORT,
++	ANDROID_WIFI_CMD_WFD_SET_MAX_TPUT,
++	ANDROID_WIFI_CMD_WFD_SET_DEVTYPE,
++	ANDROID_WIFI_CMD_CHANGE_DTIM,
++	ANDROID_WIFI_CMD_HOSTAPD_SET_MACADDR_ACL,
++	ANDROID_WIFI_CMD_HOSTAPD_ACL_ADD_STA,
++	ANDROID_WIFI_CMD_HOSTAPD_ACL_REMOVE_STA,
++#if defined(CONFIG_GTK_OL) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 1, 0))
++	ANDROID_WIFI_CMD_GTK_REKEY_OFFLOAD,
++#endif /* CONFIG_GTK_OL */
++	ANDROID_WIFI_CMD_P2P_DISABLE,
++	ANDROID_WIFI_CMD_DRIVERVERSION,
++	ANDROID_WIFI_CMD_MAX
++};
++
++int rtw_android_cmdstr_to_num(char *cmdstr);
++int rtw_android_priv_cmd(struct net_device *net, struct ifreq *ifr, int cmd);
++
++#if defined(CONFIG_PNO_SUPPORT) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
++int rtw_android_pno_enable(struct net_device *net, int pno_enable);
++int rtw_android_cfg80211_pno_setup(struct net_device *net,
++		   struct cfg80211_ssid *ssid, int n_ssids, int interval);
++#endif
++
++#if defined(RTW_ENABLE_WIFI_CONTROL_FUNC)
++int rtw_android_wifictrl_func_add(void);
++void rtw_android_wifictrl_func_del(void);
++void *wl_android_prealloc(int section, unsigned long size);
++
++int wifi_get_irq_number(unsigned long *irq_flags_ptr);
++int wifi_set_power(int on, unsigned long msec);
++int wifi_get_mac_addr(unsigned char *buf);
++void *wifi_get_country_code(char *ccode);
++#else
++static int rtw_android_wifictrl_func_add(void)
++{
++	return 0;
++}
++static void rtw_android_wifictrl_func_del(void) {}
++#endif /* defined(RTW_ENABLE_WIFI_CONTROL_FUNC) */
++
++#ifdef CONFIG_GPIO_WAKEUP
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++int wifi_configure_gpio(void);
++#endif /* CONFIG_PLATFORM_INTEL_BYT */
++void wifi_free_gpio(unsigned int gpio);
++#endif /* CONFIG_GPIO_WAKEUP */
++
++
++#endif /* __RTW_ANDROID_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_ap.h b/drivers/net/wireless/rtl8812au/include/rtw_ap.h
+new file mode 100644
+index 0000000..5a0fb53
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_ap.h
+@@ -0,0 +1,88 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_AP_H_
++#define __RTW_AP_H_
++
++
++#ifdef CONFIG_AP_MODE
++
++/* external function */
++extern void rtw_indicate_sta_assoc_event(_adapter *padapter, struct sta_info *psta);
++extern void rtw_indicate_sta_disassoc_event(_adapter *padapter, struct sta_info *psta);
++
++
++void init_mlme_ap_info(_adapter *padapter);
++void free_mlme_ap_info(_adapter *padapter);
++/* void update_BCNTIM(_adapter *padapter); */
++void rtw_add_bcn_ie(_adapter *padapter, WLAN_BSSID_EX *pnetwork, u8 index, u8 *data, u8 len);
++void rtw_remove_bcn_ie(_adapter *padapter, WLAN_BSSID_EX *pnetwork, u8 index);
++void _update_beacon(_adapter *padapter, u8 ie_id, u8 *oui, u8 tx, const char *tag);
++#define update_beacon(adapter, ie_id, oui, tx) _update_beacon((adapter), (ie_id), (oui), (tx), __func__)
++void add_RATid(_adapter *padapter, struct sta_info *psta, u8 rssi_level);
++void expire_timeout_chk(_adapter *padapter);
++void update_sta_info_apmode(_adapter *padapter, struct sta_info *psta);
++void rtw_start_bss_hdl_after_chbw_decided(_adapter *adapter);
++void start_bss_network(_adapter *padapter, struct createbss_parm *parm);
++int rtw_check_beacon_data(_adapter *padapter, u8 *pbuf,  int len);
++void rtw_ap_restore_network(_adapter *padapter);
++
++#if CONFIG_RTW_MACADDR_ACL
++void rtw_set_macaddr_acl(_adapter *adapter, int mode);
++int rtw_acl_add_sta(_adapter *adapter, const u8 *addr);
++int rtw_acl_remove_sta(_adapter *adapter, const u8 *addr);
++#endif /* CONFIG_RTW_MACADDR_ACL */
++
++u8 rtw_ap_set_pairwise_key(_adapter *padapter, struct sta_info *psta);
++int rtw_ap_set_group_key(_adapter *padapter, u8 *key, u8 alg, int keyid);
++int rtw_ap_set_wep_key(_adapter *padapter, u8 *key, u8 keylen, int keyid, u8 set_tx);
++
++#ifdef CONFIG_NATIVEAP_MLME
++void associated_clients_update(_adapter *padapter, u8 updated, u32 sta_info_type);
++void bss_cap_update_on_sta_join(_adapter *padapter, struct sta_info *psta);
++u8 bss_cap_update_on_sta_leave(_adapter *padapter, struct sta_info *psta);
++void sta_info_update(_adapter *padapter, struct sta_info *psta);
++void ap_sta_info_defer_update(_adapter *padapter, struct sta_info *psta);
++u8 ap_free_sta(_adapter *padapter, struct sta_info *psta, bool active, u16 reason, bool enqueue);
++int rtw_sta_flush(_adapter *padapter, bool enqueue);
++int rtw_ap_inform_ch_switch(_adapter *padapter, u8 new_ch, u8 ch_offset);
++void start_ap_mode(_adapter *padapter);
++void stop_ap_mode(_adapter *padapter);
++#endif
++
++void rtw_ap_update_bss_chbw(_adapter *adapter, WLAN_BSSID_EX *bss, u8 ch, u8 bw, u8 offset);
++bool rtw_ap_chbw_decision(_adapter *adapter, s16 req_ch, s8 req_bw, s8 req_offset, u8 *ch, u8 *bw, u8 *offset, u8 *chbw_allow);
++
++#ifdef CONFIG_AUTO_AP_MODE
++extern void rtw_start_auto_ap(_adapter *adapter);
++#endif /* CONFIG_AUTO_AP_MODE */
++
++#endif /* end of CONFIG_AP_MODE */
++
++#endif
++void update_bmc_sta(_adapter *padapter);
++
++void rtw_process_ht_action_smps(_adapter *padapter, u8 *ta, u8 ctrl_field);
++void rtw_process_public_act_bsscoex(_adapter *padapter, u8 *pframe, uint frame_len);
++int rtw_ht_operation_update(_adapter *padapter);
++
++#ifdef CONFIG_SWTIMER_BASED_TXBCN
++void tx_beacon_handlder(struct dvobj_priv *pdvobj);
++void tx_beacon_timer_handlder(struct dvobj_priv *pdvobj);
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_beamforming.h b/drivers/net/wireless/rtl8812au/include/rtw_beamforming.h
+new file mode 100644
+index 0000000..1d46f4b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_beamforming.h
+@@ -0,0 +1,299 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_BEAMFORMING_H_
++#define __RTW_BEAMFORMING_H_
++
++#ifdef CONFIG_BEAMFORMING
++
++#if (BEAMFORMING_SUPPORT == 0) /*for diver defined beamforming*/
++#ifdef RTW_BEAMFORMING_VERSION_2
++#define MAX_NUM_BEAMFORMEE_SU	2
++#define MAX_NUM_BEAMFORMER_SU	2
++#define MAX_NUM_BEAMFORMEE_MU	6
++#define MAX_NUM_BEAMFORMER_MU	1
++
++#define MAX_BEAMFORMEE_ENTRY_NUM	(MAX_NUM_BEAMFORMEE_SU + MAX_NUM_BEAMFORMEE_MU)
++#define MAX_BEAMFORMER_ENTRY_NUM	(MAX_NUM_BEAMFORMER_SU + MAX_NUM_BEAMFORMER_MU)
++
++#define GetInitSoundCnt(_SoundPeriod, _MinSoundPeriod)	((_SoundPeriod)/(_MinSoundPeriod))
++
++#define GET_BEAMFORM_INFO(adapter)	(&GET_HAL_DATA(adapter)->beamforming_info)
++#else /* !RTW_BEAMFORMING_VERSION_2 */
++#define BEAMFORMING_ENTRY_NUM		2
++#define GET_BEAMFORM_INFO(_pmlmepriv)	((struct beamforming_info *)(&(_pmlmepriv)->beamforming_info))
++#endif /* !RTW_BEAMFORMING_VERSION_2 */
++
++typedef enum _BEAMFORMING_ENTRY_STATE {
++	BEAMFORMING_ENTRY_STATE_UNINITIALIZE,
++	BEAMFORMING_ENTRY_STATE_INITIALIZEING,
++	BEAMFORMING_ENTRY_STATE_INITIALIZED,
++	BEAMFORMING_ENTRY_STATE_PROGRESSING,
++	BEAMFORMING_ENTRY_STATE_PROGRESSED,
++} BEAMFORMING_ENTRY_STATE, *PBEAMFORMING_ENTRY_STATE;
++
++
++typedef enum _BEAMFORMING_STATE {
++	BEAMFORMING_STATE_IDLE,
++	BEAMFORMING_STATE_START,
++	BEAMFORMING_STATE_END,
++} BEAMFORMING_STATE, *PBEAMFORMING_STATE;
++
++
++typedef enum _BEAMFORMING_CAP {
++	BEAMFORMING_CAP_NONE = 0x0,
++	BEAMFORMER_CAP_HT_EXPLICIT = 0x1,
++	BEAMFORMEE_CAP_HT_EXPLICIT = 0x2,
++	BEAMFORMER_CAP_VHT_SU = 0x4,			/* Self has er Cap, because Reg er  & peer ee */
++	BEAMFORMEE_CAP_VHT_SU = 0x8, 			/* Self has ee Cap, because Reg ee & peer er */
++	BEAMFORMER_CAP_VHT_MU = 0x10,			/* Self has er Cap, because Reg er & peer ee */
++	BEAMFORMEE_CAP_VHT_MU = 0x20,			/* Self has ee Cap, because Reg ee & peer er */
++	BEAMFORMER_CAP = 0x40,
++	BEAMFORMEE_CAP = 0x80,
++} BEAMFORMING_CAP, *PBEAMFORMING_CAP;
++
++
++typedef enum _SOUNDING_MODE {
++	SOUNDING_SW_VHT_TIMER = 0x0,
++	SOUNDING_SW_HT_TIMER = 0x1,
++	SOUNDING_STOP_All_TIMER = 0x2,
++	SOUNDING_HW_VHT_TIMER = 0x3,
++	SOUNDING_HW_HT_TIMER = 0x4,
++	SOUNDING_STOP_OID_TIMER = 0x5,
++	SOUNDING_AUTO_VHT_TIMER = 0x6,
++	SOUNDING_AUTO_HT_TIMER = 0x7,
++	SOUNDING_FW_VHT_TIMER = 0x8,
++	SOUNDING_FW_HT_TIMER = 0x9,
++} SOUNDING_MODE, *PSOUNDING_MODE;
++
++#ifdef RTW_BEAMFORMING_VERSION_2
++enum _BEAMFORM_ENTRY_HW_STATE {
++	BEAMFORM_ENTRY_HW_STATE_NONE,
++	BEAMFORM_ENTRY_HW_STATE_ADD_INIT,
++	BEAMFORM_ENTRY_HW_STATE_ADDING,
++	BEAMFORM_ENTRY_HW_STATE_ADDED,
++	BEAMFORM_ENTRY_HW_STATE_DELETE_INIT,
++	BEAMFORM_ENTRY_HW_STATE_DELETING,
++	BEAMFORM_ENTRY_HW_STATE_MAX
++};
++
++struct beamformee_entry {
++	u8 used;	/* _TRUE/_FALSE */
++	u8 txbf;
++	u8 sounding;
++	/* Used to construct AID field of NDPA packet */
++	u16 aid;
++	/* Used to Set Reg42C in IBSS mode */
++	u16 mac_id;
++	/* Used to fill Reg42C & Reg714 to compare with P_AID of Tx DESC */
++	u16 p_aid;
++	u16 g_id;
++	/* Used to fill Reg6E4 to fill Mac address of CSI report frame */
++	u8 mac_addr[ETH_ALEN];
++	/* Sounding BandWidth */
++	CHANNEL_WIDTH sound_bw;
++	u16 sound_period;
++
++	BEAMFORMING_CAP cap;
++	enum _BEAMFORM_ENTRY_HW_STATE state;
++
++	/* The BFee need to be sounded when count to zero */
++	u8 SoundCnt;
++	u8 bCandidateSoundingPeer;
++	u8 bSoundingTimeout;
++	u8 bDeleteSounding;
++
++	u16 LogStatusFailCnt:5;	/* 0~21 */
++	u16 DefaultCSICnt:5; /* 0~21 */
++	u8 CSIMatrix[327];
++	u16 CSIMatrixLen;
++
++	u8 NumofSoundingDim;
++	u8 CompSteeringNumofBFer;
++
++	u8 su_reg_index;
++
++	/* MU-MIMO */
++	u8 mu_reg_index;
++	u8 gid_valid[8];
++	u8 user_position[16];
++};
++
++struct beamformer_entry {
++	u8 used;
++	/* p_aid of BFer entry is probably not used */
++	/* Used to fill Reg42C & Reg714 to compare with p_aid of Tx DESC */
++	u16 p_aid;
++	u16 g_id;
++	u8 mac_addr[ETH_ALEN];
++
++	BEAMFORMING_CAP cap;
++	enum _BEAMFORM_ENTRY_HW_STATE state;
++
++	u8 NumofSoundingDim;
++	u8 su_reg_index;
++
++	 /* MU-MIMO */
++	u8 gid_valid[8];
++	u8 user_position[16];
++	u16 aid;
++};
++
++/* The sounding state is recorded by BFer. */
++enum _SOUNDING_STATE {
++	SOUNDING_STATE_NONE		= 0,
++	SOUNDING_STATE_INIT		= 1,
++	SOUNDING_STATE_SU_START		= 2,
++	SOUNDING_STATE_SU_SOUNDDOWN	= 3,
++	SOUNDING_STATE_MU_START		= 4,
++	SOUNDING_STATE_MU_SOUNDDOWN	= 5,
++	SOUNDING_STATE_SOUNDING_TIMEOUT	= 6,
++	SOUNDING_STATE_MAX
++};
++
++struct sounding_info {
++	u8			su_sounding_list[MAX_NUM_BEAMFORMEE_SU];
++	u8			mu_sounding_list[MAX_NUM_BEAMFORMEE_MU];
++
++	enum _SOUNDING_STATE	state;
++	u8			su_bfee_curidx;
++	u8			candidate_mu_bfee_cnt;
++
++	/* For sounding schedule maintenance */
++	u16			min_sounding_period;
++	/* Get from sounding list */
++	/* Ex: SU STA1, SU STA2, MU STA(1~n) => the value will be 2+1=3 */
++	u8			sound_remain_cnt_per_period;
++	/* Real number of SU sound per period */
++	u8			su_sound_num_per_period;
++	/* Real number of MU sound per period */
++	u8			mu_sound_num_per_period;
++};
++
++struct beamforming_info {
++	BEAMFORMING_CAP		beamforming_cap;
++	BEAMFORMING_STATE	beamforming_state;
++	struct beamformee_entry	bfee_entry[MAX_BEAMFORMEE_ENTRY_NUM];
++	struct beamformer_entry	bfer_entry[MAX_BEAMFORMER_ENTRY_NUM];
++	u8			sounding_sequence;
++	u8			beamformee_su_cnt;
++	u8			beamformer_su_cnt;
++	u32			beamformee_su_reg_maping;
++	u32			beamformer_su_reg_maping;
++	/* For MU-MINO */
++	u8			beamformee_mu_cnt;
++	u8			beamformer_mu_cnt;
++	u32			beamformee_mu_reg_maping;
++	u8			first_mu_bfee_index;
++	u8			mu_bfer_curidx;
++
++	struct sounding_info	sounding_info;
++
++	/* For HW configuration */
++	u8			SetHalBFEnterOnDemandCnt;
++	u8			SetHalBFLeaveOnDemandCnt;
++	u8			SetHalSoundownOnDemandCnt;
++};
++
++struct beamformee_entry *beamforming_get_bfee_entry_by_addr(PADAPTER, u8 *ra);
++struct beamformer_entry *beamforming_get_bfer_entry_by_addr(PADAPTER, u8 *ra);
++u8 beamforming_send_vht_gid_mgnt_packet(PADAPTER, struct beamformee_entry*);
++
++#else /* !RTW_BEAMFORMING_VERSION_2 */
++struct beamforming_entry {
++	BOOLEAN	bUsed;
++	BOOLEAN	bSound;
++	u16	aid;			/* Used to construct AID field of NDPA packet. */
++	u16	mac_id;		/* Used to Set Reg42C in IBSS mode. */
++	u16	p_aid;		/* Used to fill Reg42C & Reg714 to compare with P_AID of Tx DESC. */
++	u16 g_id;
++	u8	mac_addr[6];/* Used to fill Reg6E4 to fill Mac address of CSI report frame. */
++	CHANNEL_WIDTH	sound_bw;	/* Sounding BandWidth */
++	u16	sound_period;
++	BEAMFORMING_CAP	beamforming_entry_cap;
++	BEAMFORMING_ENTRY_STATE	beamforming_entry_state;
++	u8				ClockResetTimes;			/*Modified by Jeffery @2015-04-10*/
++	u8				PreLogSeq;				/*Modified by Jeffery @2015-03-30*/
++	u8				LogSeq;					/*Modified by Jeffery @2014-10-29*/
++	u16				LogRetryCnt:3;			/*Modified by Jeffery @2014-10-29*/
++	u16				LogSuccess:2;			/*Modified by Jeffery @2014-10-29*/
++
++	u8	LogStatusFailCnt;
++	u8	PreCsiReport[327];
++	u8	DefaultCsiCnt;
++	BOOLEAN	bDefaultCSI;
++};
++
++struct sounding_info {
++	u8				sound_idx;
++	CHANNEL_WIDTH	sound_bw;
++	SOUNDING_MODE	sound_mode;
++	u16				sound_period;
++};
++
++struct beamforming_info {
++	BEAMFORMING_CAP		beamforming_cap;
++	BEAMFORMING_STATE		beamforming_state;
++	struct beamforming_entry	beamforming_entry[BEAMFORMING_ENTRY_NUM];
++	u8						beamforming_cur_idx;
++	u8						beamforming_in_progress;
++	u8						sounding_sequence;
++	struct sounding_info		sounding_info;
++};
++
++struct rtw_ndpa_sta_info {
++	u16	aid:12;
++	u16	feedback_type:1;
++	u16	nc_index:3;
++};
++
++void	beamforming_notify(PADAPTER adapter);
++BEAMFORMING_CAP beamforming_get_beamform_cap(struct beamforming_info	*pBeamInfo);
++#endif /* !RTW_BEAMFORMING_VERSION_2 */
++
++BEAMFORMING_CAP beamforming_get_entry_beam_cap_by_mac_id(void *mlmepriv, u8 mac_id);
++
++BOOLEAN	beamforming_send_ht_ndpa_packet(PADAPTER Adapter, u8 *ra, CHANNEL_WIDTH bw, u8 qidx);
++BOOLEAN	beamforming_send_vht_ndpa_packet(PADAPTER Adapter, u8 *ra, u16 aid, CHANNEL_WIDTH bw, u8 qidx);
++
++void	beamforming_check_sounding_success(PADAPTER Adapter, BOOLEAN status);
++
++void	beamforming_watchdog(PADAPTER Adapter);
++#endif /*#if (BEAMFORMING_SUPPORT ==0)- for diver defined beamforming*/
++
++enum BEAMFORMING_CTRL_TYPE {
++	BEAMFORMING_CTRL_ENTER = 0,
++	BEAMFORMING_CTRL_LEAVE = 1,
++	BEAMFORMING_CTRL_START_PERIOD = 2,
++	BEAMFORMING_CTRL_END_PERIOD = 3,
++	BEAMFORMING_CTRL_SOUNDING_FAIL = 4,
++	BEAMFORMING_CTRL_SOUNDING_CLK = 5,
++	BEAMFORMING_CTRL_SET_GID_TABLE = 6,
++};
++u32	beamforming_get_report_frame(PADAPTER	 Adapter, union recv_frame *precv_frame);
++void	beamforming_get_ndpa_frame(PADAPTER	 Adapter, union recv_frame *precv_frame);
++u32 beamforming_get_vht_gid_mgnt_frame(PADAPTER, union recv_frame *);
++
++void	beamforming_wk_hdl(_adapter *padapter, u8 type, u8 *pbuf);
++u8	beamforming_wk_cmd(_adapter *padapter, s32 type, u8 *pbuf, s32 size, u8 enqueue);
++void update_attrib_txbf_info(_adapter *padapter, struct pkt_attrib *pattrib, struct sta_info *psta);
++
++#endif /*#ifdef CONFIG_BEAMFORMING */
++
++#endif /*__RTW_BEAMFORMING_H_*/
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_br_ext.h b/drivers/net/wireless/rtl8812au/include/rtw_br_ext.h
+new file mode 100644
+index 0000000..1df8dc6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_br_ext.h
+@@ -0,0 +1,74 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_BR_EXT_H_
++#define _RTW_BR_EXT_H_
++
++#if 1	/* rtw_wifi_driver */
++#define CL_IPV6_PASS	1
++#define MACADDRLEN		6
++#define _DEBUG_ERR		RTW_INFO
++#define _DEBUG_INFO		/* RTW_INFO */
++#define DEBUG_WARN		RTW_INFO
++#define DEBUG_INFO		/* RTW_INFO */
++#define DEBUG_ERR		RTW_INFO
++/* #define GET_MY_HWADDR		((GET_MIB(priv))->dot11OperationEntry.hwaddr) */
++#define GET_MY_HWADDR(padapter)		(adapter_mac_addr(padapter))
++#endif /* rtw_wifi_driver */
++
++#define NAT25_HASH_BITS		4
++#define NAT25_HASH_SIZE		(1 << NAT25_HASH_BITS)
++#define NAT25_AGEING_TIME	300
++
++#ifdef CL_IPV6_PASS
++	#define MAX_NETWORK_ADDR_LEN	17
++#else
++	#define MAX_NETWORK_ADDR_LEN	11
++#endif
++
++struct nat25_network_db_entry {
++	struct nat25_network_db_entry	*next_hash;
++	struct nat25_network_db_entry	**pprev_hash;
++	atomic_t						use_count;
++	unsigned char					macAddr[6];
++	unsigned long					ageing_timer;
++	unsigned char				networkAddr[MAX_NETWORK_ADDR_LEN];
++};
++
++enum NAT25_METHOD {
++	NAT25_MIN,
++	NAT25_CHECK,
++	NAT25_INSERT,
++	NAT25_LOOKUP,
++	NAT25_PARSE,
++	NAT25_MAX
++};
++
++struct br_ext_info {
++	unsigned int	nat25_disable;
++	unsigned int	macclone_enable;
++	unsigned int	dhcp_bcst_disable;
++	int		addPPPoETag;		/* 1: Add PPPoE relay-SID, 0: disable */
++	unsigned char	nat25_dmzMac[MACADDRLEN];
++	unsigned int	nat25sc_disable;
++};
++
++void nat25_db_cleanup(_adapter *priv);
++
++#endif /* _RTW_BR_EXT_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_bt_mp.h b/drivers/net/wireless/rtl8812au/include/rtw_bt_mp.h
+new file mode 100644
+index 0000000..cd6ed0a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_bt_mp.h
+@@ -0,0 +1,293 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef __RTW_BT_MP_H
++#define __RTW_BT_MP_H
++
++
++#if (MP_DRIVER == 1)
++
++#pragma pack(1)
++
++/* definition for BT_UP_OP_BT_READY */
++#define	MP_BT_NOT_READY						0
++#define	MP_BT_READY							1
++
++/* definition for BT_UP_OP_BT_SET_MODE */
++typedef enum _MP_BT_MODE {
++	MP_BT_MODE_RF_TXRX_TEST_MODE							= 0,
++	MP_BT_MODE_BT20_DUT_TEST_MODE							= 1,
++	MP_BT_MODE_BT40_DIRECT_TEST_MODE						= 2,
++	MP_BT_MODE_CONNECT_TEST_MODE							= 3,
++	MP_BT_MODE_MAX
++} MP_BT_MODE, *PMP_BT_MODE;
++
++
++/* definition for BT_UP_OP_BT_SET_TX_RX_PARAMETER */
++typedef struct _BT_TXRX_PARAMETERS {
++	u1Byte		txrxChannel;
++	u4Byte		txrxTxPktCnt;
++	u1Byte		txrxTxPktInterval;
++	u1Byte		txrxPayloadType;
++	u1Byte		txrxPktType;
++	u2Byte		txrxPayloadLen;
++	u4Byte		txrxPktHeader;
++	u1Byte		txrxWhitenCoeff;
++	u1Byte		txrxBdaddr[6];
++	u1Byte		txrxTxGainIndex;
++} BT_TXRX_PARAMETERS, *PBT_TXRX_PARAMETERS;
++
++/* txrxPktType */
++typedef enum _MP_BT_PKT_TYPE {
++	MP_BT_PKT_DH1							= 0,
++	MP_BT_PKT_DH3							= 1,
++	MP_BT_PKT_DH5							= 2,
++	MP_BT_PKT_2DH1							= 3,
++	MP_BT_PKT_2DH3							= 4,
++	MP_BT_PKT_2DH5							= 5,
++	MP_BT_PKT_3DH1							= 6,
++	MP_BT_PKT_3DH3							= 7,
++	MP_BT_PKT_3DH5							= 8,
++	MP_BT_PKT_LE							= 9,
++	MP_BT_PKT_MAX
++} MP_BT_PKT_TYPE, *PMP_BT_PKT_TYPE;
++/* txrxPayloadType */
++typedef enum _MP_BT_PAYLOAD_TYPE {
++	MP_BT_PAYLOAD_01010101					= 0,
++	MP_BT_PAYLOAD_ALL_1						= 1,
++	MP_BT_PAYLOAD_ALL_0						= 2,
++	MP_BT_PAYLOAD_11110000					= 3,
++	MP_BT_PAYLOAD_PRBS9						= 4,
++	MP_BT_PAYLOAD_MAX						= 8,
++} MP_BT_PAYLOAD_TYPE, *PMP_BT_PAYLOAD_TYPE;
++
++
++/* definition for BT_UP_OP_BT_TEST_CTRL */
++typedef enum _MP_BT_TEST_CTRL {
++	MP_BT_TEST_STOP_ALL_TESTS						= 0,
++	MP_BT_TEST_START_RX_TEST						= 1,
++	MP_BT_TEST_START_PACKET_TX_TEST					= 2,
++	MP_BT_TEST_START_CONTINUOUS_TX_TEST			= 3,
++	MP_BT_TEST_START_INQUIRY_SCAN_TEST				= 4,
++	MP_BT_TEST_START_PAGE_SCAN_TEST					= 5,
++	MP_BT_TEST_START_INQUIRY_PAGE_SCAN_TEST			= 6,
++	MP_BT_TEST_START_LEGACY_CONNECT_TEST			= 7,
++	MP_BT_TEST_START_LE_CONNECT_TEST_INITIATOR		= 8,
++	MP_BT_TEST_START_LE_CONNECT_TEST_ADVERTISER	= 9,
++	MP_BT_TEST_MAX
++} MP_BT_TEST_CTRL, *PMP_BT_TEST_CTRL;
++
++
++typedef enum _RTL_EXT_C2H_EVT {
++	EXT_C2H_WIFI_FW_ACTIVE_RSP = 0,
++	EXT_C2H_TRIG_BY_BT_FW = 1,
++	MAX_EXT_C2HEVENT
++} RTL_EXT_C2H_EVT;
++
++/* OP codes definition between the user layer and driver */
++typedef enum _BT_CTRL_OPCODE_UPPER {
++	BT_UP_OP_BT_READY										= 0x00,
++	BT_UP_OP_BT_SET_MODE									= 0x01,
++	BT_UP_OP_BT_SET_TX_RX_PARAMETER						= 0x02,
++	BT_UP_OP_BT_SET_GENERAL								= 0x03,
++	BT_UP_OP_BT_GET_GENERAL								= 0x04,
++	BT_UP_OP_BT_TEST_CTRL									= 0x05,
++	BT_UP_OP_TEST_BT										= 0x06,
++	BT_UP_OP_MAX
++} BT_CTRL_OPCODE_UPPER, *PBT_CTRL_OPCODE_UPPER;
++
++
++typedef enum _BT_SET_GENERAL {
++	BT_GSET_REG											= 0x00,
++	BT_GSET_RESET											= 0x01,
++	BT_GSET_TARGET_BD_ADDR									= 0x02,
++	BT_GSET_TX_PWR_FINETUNE								= 0x03,
++	BT_SET_TRACKING_INTERVAL								= 0x04,
++	BT_SET_THERMAL_METER									= 0x05,
++	BT_ENABLE_CFO_TRACKING									= 0x06,
++	BT_GSET_UPDATE_BT_PATCH								= 0x07,
++	BT_GSET_MAX
++} BT_SET_GENERAL, *PBT_SET_GENERAL;
++
++typedef enum _BT_GET_GENERAL {
++	BT_GGET_REG											= 0x00,
++	BT_GGET_STATUS											= 0x01,
++	BT_GGET_REPORT											= 0x02,
++	BT_GGET_AFH_MAP										= 0x03,
++	BT_GGET_AFH_STATUS										= 0x04,
++	BT_GGET_MAX
++} BT_GET_GENERAL, *PBT_GET_GENERAL;
++
++/* definition for BT_UP_OP_BT_SET_GENERAL */
++typedef enum _BT_REG_TYPE {
++	BT_REG_RF								= 0,
++	BT_REG_MODEM							= 1,
++	BT_REG_BLUEWIZE						= 2,
++	BT_REG_VENDOR							= 3,
++	BT_REG_LE								= 4,
++	BT_REG_MAX
++} BT_REG_TYPE, *PBT_REG_TYPE;
++
++/* definition for BT_LO_OP_GET_AFH_MAP */
++typedef enum _BT_AFH_MAP_TYPE {
++	BT_AFH_MAP_RESULT						= 0,
++	BT_AFH_MAP_WIFI_PSD_ONLY				= 1,
++	BT_AFH_MAP_WIFI_CH_BW_ONLY				= 2,
++	BT_AFH_MAP_BT_PSD_ONLY					= 3,
++	BT_AFH_MAP_HOST_CLASSIFICATION_ONLY	= 4,
++	BT_AFH_MAP_MAX
++} BT_AFH_MAP_TYPE, *PBT_AFH_MAP_TYPE;
++
++/* definition for BT_UP_OP_BT_GET_GENERAL */
++typedef enum _BT_REPORT_TYPE {
++	BT_REPORT_RX_PACKET_CNT				= 0,
++	BT_REPORT_RX_ERROR_BITS				= 1,
++	BT_REPORT_RSSI							= 2,
++	BT_REPORT_CFO_HDR_QUALITY				= 3,
++	BT_REPORT_CONNECT_TARGET_BD_ADDR		= 4,
++	BT_REPORT_MAX
++} BT_REPORT_TYPE, *PBT_REPORT_TYPE;
++
++VOID
++MPTBT_Test(
++	IN	PADAPTER	Adapter,
++	IN	u1Byte		opCode,
++	IN	u1Byte		byte1,
++	IN	u1Byte		byte2,
++	IN	u1Byte		byte3
++);
++
++NDIS_STATUS
++MPTBT_SendOidBT(
++	IN	PADAPTER		pAdapter,
++	IN	PVOID			InformationBuffer,
++	IN	ULONG			InformationBufferLength,
++	OUT	PULONG			BytesRead,
++	OUT	PULONG			BytesNeeded
++);
++
++VOID
++MPTBT_FwC2hBtMpCtrl(
++	PADAPTER	Adapter,
++	pu1Byte	tmpBuf,
++	u1Byte		length
++);
++
++void MPh2c_timeout_handle(void *FunctionContext);
++
++VOID mptbt_BtControlProcess(
++	PADAPTER	Adapter,
++	PVOID		pInBuf
++);
++
++#define	BT_H2C_MAX_RETRY								1
++#define	BT_MAX_C2H_LEN								20
++
++typedef struct _BT_REQ_CMD {
++	UCHAR       opCodeVer;
++	UCHAR       OpCode;
++	USHORT      paraLength;
++	UCHAR       pParamStart[100];
++} BT_REQ_CMD, *PBT_REQ_CMD;
++
++typedef struct _BT_RSP_CMD {
++	USHORT      status;
++	USHORT      paraLength;
++	UCHAR       pParamStart[100];
++} BT_RSP_CMD, *PBT_RSP_CMD;
++
++
++typedef struct _BT_H2C {
++	u1Byte	opCodeVer:4;
++	u1Byte	reqNum:4;
++	u1Byte	opCode;
++	u1Byte	buf[100];
++} BT_H2C, *PBT_H2C;
++
++
++
++typedef struct _BT_EXT_C2H {
++	u1Byte	extendId;
++	u1Byte	statusCode:4;
++	u1Byte	retLen:4;
++	u1Byte	opCodeVer:4;
++	u1Byte	reqNum:4;
++	u1Byte	buf[100];
++} BT_EXT_C2H, *PBT_EXT_C2H;
++
++
++typedef enum _BT_OPCODE_STATUS {
++	BT_OP_STATUS_SUCCESS									= 0x00, /* Success */
++	BT_OP_STATUS_VERSION_MISMATCH							= 0x01,
++	BT_OP_STATUS_UNKNOWN_OPCODE								= 0x02,
++	BT_OP_STATUS_ERROR_PARAMETER							= 0x03,
++	BT_OP_STATUS_MAX
++} BT_OPCODE_STATUS, *PBT_OPCODE_STATUS;
++
++
++
++/* OP codes definition between driver and bt fw */
++typedef enum _BT_CTRL_OPCODE_LOWER {
++	BT_LO_OP_GET_BT_VERSION									= 0x00,
++	BT_LO_OP_RESET												= 0x01,
++	BT_LO_OP_TEST_CTRL											= 0x02,
++	BT_LO_OP_SET_BT_MODE										= 0x03,
++	BT_LO_OP_SET_CHNL_TX_GAIN									= 0x04,
++	BT_LO_OP_SET_PKT_TYPE_LEN									= 0x05,
++	BT_LO_OP_SET_PKT_CNT_L_PL_TYPE								= 0x06,
++	BT_LO_OP_SET_PKT_CNT_H_PKT_INTV							= 0x07,
++	BT_LO_OP_SET_PKT_HEADER									= 0x08,
++	BT_LO_OP_SET_WHITENCOEFF									= 0x09,
++	BT_LO_OP_SET_BD_ADDR_L										= 0x0a,
++	BT_LO_OP_SET_BD_ADDR_H										= 0x0b,
++	BT_LO_OP_WRITE_REG_ADDR									= 0x0c,
++	BT_LO_OP_WRITE_REG_VALUE									= 0x0d,
++	BT_LO_OP_GET_BT_STATUS										= 0x0e,
++	BT_LO_OP_GET_BD_ADDR_L										= 0x0f,
++	BT_LO_OP_GET_BD_ADDR_H										= 0x10,
++	BT_LO_OP_READ_REG											= 0x11,
++	BT_LO_OP_SET_TARGET_BD_ADDR_L								= 0x12,
++	BT_LO_OP_SET_TARGET_BD_ADDR_H								= 0x13,
++	BT_LO_OP_SET_TX_POWER_CALIBRATION							= 0x14,
++	BT_LO_OP_GET_RX_PKT_CNT_L									= 0x15,
++	BT_LO_OP_GET_RX_PKT_CNT_H									= 0x16,
++	BT_LO_OP_GET_RX_ERROR_BITS_L								= 0x17,
++	BT_LO_OP_GET_RX_ERROR_BITS_H								= 0x18,
++	BT_LO_OP_GET_RSSI											= 0x19,
++	BT_LO_OP_GET_CFO_HDR_QUALITY_L								= 0x1a,
++	BT_LO_OP_GET_CFO_HDR_QUALITY_H								= 0x1b,
++	BT_LO_OP_GET_TARGET_BD_ADDR_L								= 0x1c,
++	BT_LO_OP_GET_TARGET_BD_ADDR_H								= 0x1d,
++	BT_LO_OP_GET_AFH_MAP_L										= 0x1e,
++	BT_LO_OP_GET_AFH_MAP_M										= 0x1f,
++	BT_LO_OP_GET_AFH_MAP_H										= 0x20,
++	BT_LO_OP_GET_AFH_STATUS									= 0x21,
++	BT_LO_OP_SET_TRACKING_INTERVAL								= 0x22,
++	BT_LO_OP_SET_THERMAL_METER									= 0x23,
++	BT_LO_OP_ENABLE_CFO_TRACKING								= 0x24,
++	BT_LO_OP_MAX
++} BT_CTRL_OPCODE_LOWER, *PBT_CTRL_OPCODE_LOWER;
++
++
++
++
++#endif  /* #if(MP_DRIVER == 1) */
++
++#endif /*  #ifndef __INC_MPT_BT_H */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_btcoex.h b/drivers/net/wireless/rtl8812au/include/rtw_btcoex.h
+new file mode 100644
+index 0000000..00f4966
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_btcoex.h
+@@ -0,0 +1,438 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_BTCOEX_H__
++#define __RTW_BTCOEX_H__
++
++#include <drv_types.h>
++
++/* For H2C: H2C_BT_MP_OPER. Return status definition to the user layer */
++typedef enum _BT_CTRL_STATUS {
++	BT_STATUS_SUCCESS								= 0x00, /* Success */
++	BT_STATUS_BT_OP_SUCCESS							= 0x01, /* bt fw op execution success */
++	BT_STATUS_H2C_SUCCESS							= 0x02, /* H2c success */
++	BT_STATUS_H2C_FAIL								= 0x03, /* H2c fail */
++	BT_STATUS_H2C_LENGTH_EXCEEDED					= 0x04, /* H2c command length exceeded */
++	BT_STATUS_H2C_TIMTOUT							= 0x05, /* H2c timeout */
++	BT_STATUS_H2C_BT_NO_RSP							= 0x06, /* H2c sent, bt no rsp */
++	BT_STATUS_C2H_SUCCESS							= 0x07, /* C2h success */
++	BT_STATUS_C2H_REQNUM_MISMATCH					= 0x08, /* bt fw wrong rsp */
++	BT_STATUS_OPCODE_U_VERSION_MISMATCH				= 0x08, /* Upper layer OP code version mismatch. */
++	BT_STATUS_OPCODE_L_VERSION_MISMATCH				= 0x0a, /* Lower layer OP code version mismatch. */
++	BT_STATUS_UNKNOWN_OPCODE_U						= 0x0b, /* Unknown Upper layer OP code */
++	BT_STATUS_UNKNOWN_OPCODE_L						= 0x0c, /* Unknown Lower layer OP code */
++	BT_STATUS_PARAMETER_FORMAT_ERROR_U				= 0x0d, /* Wrong parameters sent by upper layer. */
++	BT_STATUS_PARAMETER_FORMAT_ERROR_L				= 0x0e, /* bt fw parameter format is not consistency */
++	BT_STATUS_PARAMETER_OUT_OF_RANGE_U				= 0x0f, /* uppery layer parameter value is out of range */
++	BT_STATUS_PARAMETER_OUT_OF_RANGE_L				= 0x10, /* bt fw parameter value is out of range */
++	BT_STATUS_UNKNOWN_STATUS_L						= 0x11, /* bt returned an defined status code */
++	BT_STATUS_UNKNOWN_STATUS_H						= 0x12, /* driver need to do error handle or not handle-well. */
++	BT_STATUS_WRONG_LEVEL							= 0x13, /* should be under passive level */
++	BT_STATUS_NOT_IMPLEMENT						= 0x14, /* op code not implemented yet */
++	BT_STATUS_BT_STACK_OP_SUCCESS					= 0x15, /* bt stack op execution success */
++	BT_STATUS_BT_STACK_NOT_SUPPORT					= 0x16, /* stack version not support this. */
++	BT_STATUS_BT_STACK_SEND_HCI_EVENT_FAIL			= 0x17, /* send hci event fail */
++	BT_STATUS_BT_STACK_NOT_BIND						= 0x18, /* stack not bind wifi driver */
++	BT_STATUS_BT_STACK_NO_RSP						= 0x19, /* stack doesn't have any rsp. */
++	BT_STATUS_MAX
++} BT_CTRL_STATUS, *PBT_CTRL_STATUS;
++
++#define SET_BT_MP_OPER_RET(OpCode, StatusCode)						((OpCode << 8) | StatusCode)
++#define GET_OP_CODE_FROM_BT_MP_OPER_RET(RetCode)					((RetCode & 0xF0) >> 8)
++#define GET_STATUS_CODE_FROM_BT_MP_OPER_RET(RetCode)				(RetCode & 0x0F)
++#define CHECK_STATUS_CODE_FROM_BT_MP_OPER_RET(RetCode, StatusCode)	(GET_STATUS_CODE_FROM_BT_MP_OPER_RET(RetCode) == StatusCode)
++
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++
++#define NETLINK_USER 31
++#define CONNECT_PORT 30000
++#define CONNECT_PORT_BT 30001
++#define KERNEL_SOCKET_OK 0x01
++#define NETLINK_SOCKET_OK 0x02
++
++#define OTHER 0
++#define RX_ATTEND_ACK 1
++#define RX_LEAVE_ACK 2
++#define RX_BT_LEAVE 3
++#define RX_INVITE_REQ 4
++#define RX_ATTEND_REQ 5
++#define RX_INVITE_RSP 6
++
++#define invite_req "INVITE_REQ"
++#define invite_rsp "INVITE_RSP"
++#define attend_req "ATTEND_REQ"
++#define attend_ack "ATTEND_ACK"
++#define wifi_leave "WIFI_LEAVE"
++#define leave_ack "LEAVE_ACK"
++#define bt_leave "BT_LEAVE"
++
++#define BT_INFO_NOTIFY_CMD 0x0106
++#define BT_INFO_LEN 8
++
++typedef struct _HCI_LINK_INFO {
++	u2Byte					ConnectHandle;
++	u1Byte					IncomingTrafficMode;
++	u1Byte					OutgoingTrafficMode;
++	u1Byte					BTProfile;
++	u1Byte					BTCoreSpec;
++	s1Byte					BT_RSSI;
++	u1Byte					TrafficProfile;
++	u1Byte					linkRole;
++} HCI_LINK_INFO, *PHCI_LINK_INFO;
++
++#define	MAX_BT_ACL_LINK_NUM				8
++
++typedef struct _HCI_EXT_CONFIG {
++	HCI_LINK_INFO				aclLink[MAX_BT_ACL_LINK_NUM];
++	u1Byte					btOperationCode;
++	u2Byte					CurrentConnectHandle;
++	u1Byte					CurrentIncomingTrafficMode;
++	u1Byte					CurrentOutgoingTrafficMode;
++
++	u1Byte					NumberOfACL;
++	u1Byte					NumberOfSCO;
++	u1Byte					CurrentBTStatus;
++	u2Byte					HCIExtensionVer;
++
++	BOOLEAN					bEnableWifiScanNotify;
++} HCI_EXT_CONFIG, *PHCI_EXT_CONFIG;
++
++typedef struct _HCI_PHY_LINK_BSS_INFO {
++	u2Byte						bdCap;			/* capability information */
++
++	/* Qos related. Added by Annie, 2005-11-01. */
++	/* BSS_QOS						BssQos;		 */
++
++} HCI_PHY_LINK_BSS_INFO, *PHCI_PHY_LINK_BSS_INFO;
++
++typedef enum _BT_CONNECT_TYPE {
++	BT_CONNECT_AUTH_REQ								= 0x00,
++	BT_CONNECT_AUTH_RSP								= 0x01,
++	BT_CONNECT_ASOC_REQ								= 0x02,
++	BT_CONNECT_ASOC_RSP								= 0x03,
++	BT_DISCONNECT										= 0x04
++} BT_CONNECT_TYPE, *PBT_CONNECT_TYPE;
++
++
++typedef struct _PACKET_IRP_HCIEVENT_DATA {
++	u8		EventCode;
++	u8		Length; /* total cmd length = extension event length+1(extension event code length) */
++	u8		Data[1]; /* byte1 is extension event code */
++} rtw_HCI_event;
++
++
++struct btinfo_8761ATV {
++	u8 cid;
++	u8 len;
++
++	u8 bConnection:1;
++	u8 bSCOeSCO:1;
++	u8 bInQPage:1;
++	u8 bACLBusy:1;
++	u8 bSCOBusy:1;
++	u8 bHID:1;
++	u8 bA2DP:1;
++	u8 bFTP:1;
++
++	u8 retry_cnt:4;
++	u8 rsvd_34:1;
++	u8 bPage:1;
++	u8 TRxMask:1;
++	u8 Sniff_attempt:1;
++
++	u8 rssi;
++
++	u8 A2dp_rate:1;
++	u8 ReInit:1;
++	u8 MaxPower:1;
++	u8 bEnIgnoreWlanAct:1;
++	u8 TxPowerLow:1;
++	u8 TxPowerHigh:1;
++	u8 eSCO_SCO:1;
++	u8 Master_Slave:1;
++
++	u8 ACL_TRx_TP_low;
++	u8 ACL_TRx_TP_high;
++};
++
++#define HCIOPCODE(_OCF, _OGF)     ((_OGF)<<10|(_OCF))
++#define HCIOPCODELOW(_OCF, _OGF)	(u8)(HCIOPCODE(_OCF, _OGF) & 0x00ff)
++#define HCIOPCODEHIGHT(_OCF, _OGF) (u8)(HCIOPCODE(_OCF, _OGF)>>8)
++#define HCI_OGF(opCode)  (unsigned char)((0xFC00 & (opCode)) >> 10)
++#define HCI_OCF(opCode)  (0x3FF & (opCode))
++
++
++typedef enum _HCI_STATUS {
++	HCI_STATUS_SUCCESS										= 0x00, /* Success */
++	HCI_STATUS_UNKNOW_HCI_CMD								= 0x01, /* Unknown HCI Command */
++	HCI_STATUS_UNKNOW_CONNECT_ID							= 0X02, /* Unknown Connection Identifier */
++	HCI_STATUS_HW_FAIL										= 0X03, /* Hardware Failure */
++	HCI_STATUS_PAGE_TIMEOUT									= 0X04, /* Page Timeout */
++	HCI_STATUS_AUTH_FAIL										= 0X05, /* Authentication Failure */
++	HCI_STATUS_PIN_OR_KEY_MISSING							= 0X06, /* PIN or Key Missing */
++	HCI_STATUS_MEM_CAP_EXCEED								= 0X07, /* Memory Capacity Exceeded */
++	HCI_STATUS_CONNECT_TIMEOUT								= 0X08, /* Connection Timeout */
++	HCI_STATUS_CONNECT_LIMIT									= 0X09, /* Connection Limit Exceeded */
++	HCI_STATUS_SYN_CONNECT_LIMIT								= 0X0a, /* Synchronous Connection Limit To A Device Exceeded */
++	HCI_STATUS_ACL_CONNECT_EXISTS							= 0X0b, /* ACL Connection Already Exists */
++	HCI_STATUS_CMD_DISALLOW									= 0X0c, /* Command Disallowed */
++	HCI_STATUS_CONNECT_RJT_LIMIT_RESOURCE					= 0X0d, /* Connection Rejected due to Limited Resources */
++	HCI_STATUS_CONNECT_RJT_SEC_REASON						= 0X0e, /* Connection Rejected Due To Security Reasons */
++	HCI_STATUS_CONNECT_RJT_UNACCEPT_BD_ADDR				= 0X0f, /* Connection Rejected due to Unacceptable BD_ADDR */
++	HCI_STATUS_CONNECT_ACCEPT_TIMEOUT						= 0X10, /* Connection Accept Timeout Exceeded */
++	HCI_STATUS_UNSUPPORT_FEATURE_PARA_VALUE				= 0X11, /* Unsupported Feature or Parameter Value */
++	HCI_STATUS_INVALID_HCI_CMD_PARA_VALUE					= 0X12, /* Invalid HCI Command Parameters */
++	HCI_STATUS_REMOTE_USER_TERMINATE_CONNECT				= 0X13, /* Remote User Terminated Connection */
++	HCI_STATUS_REMOTE_DEV_TERMINATE_LOW_RESOURCE			= 0X14, /* Remote Device Terminated Connection due to Low Resources */
++	HCI_STATUS_REMOTE_DEV_TERMINATE_CONNECT_POWER_OFF	= 0X15, /* Remote Device Terminated Connection due to Power Off */
++	HCI_STATUS_CONNECT_TERMINATE_LOCAL_HOST				= 0X16, /* Connection Terminated By Local Host */
++	HCI_STATUS_REPEATE_ATTEMPT								= 0X17, /* Repeated Attempts */
++	HCI_STATUS_PAIR_NOT_ALLOW								= 0X18, /* Pairing Not Allowed */
++	HCI_STATUS_UNKNOW_LMP_PDU								= 0X19, /* Unknown LMP PDU */
++	HCI_STATUS_UNSUPPORT_REMOTE_LMP_FEATURE				= 0X1a, /* Unsupported Remote Feature / Unsupported LMP Feature */
++	HCI_STATUS_SOC_OFFSET_REJECT								= 0X1b, /* SCO Offset Rejected */
++	HCI_STATUS_SOC_INTERVAL_REJECT							= 0X1c, /* SCO Interval Rejected */
++	HCI_STATUS_SOC_AIR_MODE_REJECT							= 0X1d, /* SCO Air Mode Rejected */
++	HCI_STATUS_INVALID_LMP_PARA								= 0X1e, /* Invalid LMP Parameters */
++	HCI_STATUS_UNSPECIFIC_ERROR								= 0X1f, /* Unspecified Error */
++	HCI_STATUS_UNSUPPORT_LMP_PARA_VALUE					= 0X20, /* Unsupported LMP Parameter Value */
++	HCI_STATUS_ROLE_CHANGE_NOT_ALLOW						= 0X21, /* Role Change Not Allowed */
++	HCI_STATUS_LMP_RESPONSE_TIMEOUT							= 0X22, /* LMP Response Timeout */
++	HCI_STATUS_LMP_ERROR_TRANSACTION_COLLISION				= 0X23, /* LMP Error Transaction Collision */
++	HCI_STATUS_LMP_PDU_NOT_ALLOW							= 0X24, /* LMP PDU Not Allowed */
++	HCI_STATUS_ENCRYPTION_MODE_NOT_ALLOW					= 0X25, /* Encryption Mode Not Acceptable */
++	HCI_STATUS_LINK_KEY_CAN_NOT_CHANGE						= 0X26, /* Link Key Can Not be Changed */
++	HCI_STATUS_REQUEST_QOS_NOT_SUPPORT						= 0X27, /* Requested QoS Not Supported */
++	HCI_STATUS_INSTANT_PASSED								= 0X28, /* Instant Passed */
++	HCI_STATUS_PAIRING_UNIT_KEY_NOT_SUPPORT					= 0X29, /* Pairing With Unit Key Not Supported */
++	HCI_STATUS_DIFFERENT_TRANSACTION_COLLISION				= 0X2a, /* Different Transaction Collision */
++	HCI_STATUS_RESERVE_1										= 0X2b, /* Reserved */
++	HCI_STATUS_QOS_UNACCEPT_PARA							= 0X2c, /* QoS Unacceptable Parameter */
++	HCI_STATUS_QOS_REJECT										= 0X2d, /* QoS Rejected */
++	HCI_STATUS_CHNL_CLASSIFICATION_NOT_SUPPORT				= 0X2e, /* Channel Classification Not Supported */
++	HCI_STATUS_INSUFFICIENT_SECURITY							= 0X2f, /* Insufficient Security */
++	HCI_STATUS_PARA_OUT_OF_RANGE							= 0x30, /* Parameter Out Of Mandatory Range */
++	HCI_STATUS_RESERVE_2										= 0X31, /* Reserved */
++	HCI_STATUS_ROLE_SWITCH_PENDING							= 0X32, /* Role Switch Pending */
++	HCI_STATUS_RESERVE_3										= 0X33, /* Reserved */
++	HCI_STATUS_RESERVE_SOLT_VIOLATION						= 0X34, /* Reserved Slot Violation */
++	HCI_STATUS_ROLE_SWITCH_FAIL								= 0X35, /* Role Switch Failed */
++	HCI_STATUS_EXTEND_INQUIRY_RSP_TOO_LARGE				= 0X36, /* Extended Inquiry Response Too Large */
++	HCI_STATUS_SEC_SIMPLE_PAIRING_NOT_SUPPORT				= 0X37, /* Secure Simple Pairing Not Supported By Host. */
++	HCI_STATUS_HOST_BUSY_PAIRING								= 0X38, /* Host Busy - Pairing */
++	HCI_STATUS_CONNECT_REJ_NOT_SUIT_CHNL_FOUND			= 0X39, /* Connection Rejected due to No Suitable Channel Found */
++	HCI_STATUS_CONTROLLER_BUSY								= 0X3a /* CONTROLLER BUSY */
++} RTW_HCI_STATUS;
++
++#define HCI_EVENT_COMMAND_COMPLETE					0x0e
++
++#define OGF_EXTENSION									0X3f
++typedef enum HCI_EXTENSION_COMMANDS {
++	HCI_SET_ACL_LINK_DATA_FLOW_MODE				= 0x0010,
++	HCI_SET_ACL_LINK_STATUS							= 0x0020,
++	HCI_SET_SCO_LINK_STATUS							= 0x0030,
++	HCI_SET_RSSI_VALUE								= 0x0040,
++	HCI_SET_CURRENT_BLUETOOTH_STATUS				= 0x0041,
++
++	/* The following is for RTK8723 */
++	HCI_EXTENSION_VERSION_NOTIFY					= 0x0100,
++	HCI_LINK_STATUS_NOTIFY							= 0x0101,
++	HCI_BT_OPERATION_NOTIFY							= 0x0102,
++	HCI_ENABLE_WIFI_SCAN_NOTIFY						= 0x0103,
++	HCI_QUERY_RF_STATUS								= 0x0104,
++	HCI_BT_ABNORMAL_NOTIFY							= 0x0105,
++	HCI_BT_INFO_NOTIFY								= 0x0106,
++	HCI_BT_COEX_NOTIFY								= 0x0107,
++	HCI_BT_PATCH_VERSION_NOTIFY						= 0x0108,
++	HCI_BT_AFH_MAP_NOTIFY							= 0x0109,
++	HCI_BT_REGISTER_VALUE_NOTIFY					= 0x010a,
++
++	/* The following is for IVT */
++	HCI_WIFI_CURRENT_CHANNEL						= 0x0300,
++	HCI_WIFI_CURRENT_BANDWIDTH						= 0x0301,
++	HCI_WIFI_CONNECTION_STATUS						= 0x0302
++} RTW_HCI_EXT_CMD;
++
++#define HCI_EVENT_EXTENSION_RTK						0xfe
++typedef enum HCI_EXTENSION_EVENT_RTK {
++	HCI_EVENT_EXT_WIFI_SCAN_NOTIFY								= 0x01,
++	HCI_EVENT_EXT_WIFI_RF_STATUS_NOTIFY						= 0x02,
++	HCI_EVENT_EXT_BT_INFO_CONTROL								= 0x03,
++	HCI_EVENT_EXT_BT_COEX_CONTROL								= 0x04
++} RTW_HCI_EXT_EVENT;
++
++typedef enum _BT_TRAFFIC_MODE {
++	BT_MOTOR_EXT_BE		= 0x00, /* Best Effort. Default. for HCRP, PAN, SDP, RFCOMM-based profiles like FTP,OPP, SPP, DUN, etc. */
++	BT_MOTOR_EXT_GUL		= 0x01, /* Guaranteed Latency. This type of traffic is used e.g. for HID and AVRCP. */
++	BT_MOTOR_EXT_GUB		= 0X02, /* Guaranteed Bandwidth. */
++	BT_MOTOR_EXT_GULB	= 0X03  /* Guaranteed Latency and Bandwidth. for A2DP and VDP. */
++} BT_TRAFFIC_MODE;
++
++typedef enum _BT_TRAFFIC_MODE_PROFILE {
++	BT_PROFILE_NONE,
++	BT_PROFILE_A2DP,
++	BT_PROFILE_PAN	,
++	BT_PROFILE_HID,
++	BT_PROFILE_SCO
++} BT_TRAFFIC_MODE_PROFILE;
++
++typedef enum _HCI_EXT_BT_OPERATION {
++	HCI_BT_OP_NONE				= 0x0,
++	HCI_BT_OP_INQUIRY_START		= 0x1,
++	HCI_BT_OP_INQUIRY_FINISH		= 0x2,
++	HCI_BT_OP_PAGING_START		= 0x3,
++	HCI_BT_OP_PAGING_SUCCESS		= 0x4,
++	HCI_BT_OP_PAGING_UNSUCCESS	= 0x5,
++	HCI_BT_OP_PAIRING_START		= 0x6,
++	HCI_BT_OP_PAIRING_FINISH		= 0x7,
++	HCI_BT_OP_BT_DEV_ENABLE		= 0x8,
++	HCI_BT_OP_BT_DEV_DISABLE		= 0x9,
++	HCI_BT_OP_MAX
++} HCI_EXT_BT_OPERATION, *PHCI_EXT_BT_OPERATION;
++
++typedef struct _BT_MGNT {
++	BOOLEAN				bBTConnectInProgress;
++	BOOLEAN				bLogLinkInProgress;
++	BOOLEAN				bPhyLinkInProgress;
++	BOOLEAN				bPhyLinkInProgressStartLL;
++	u1Byte				BtCurrentPhyLinkhandle;
++	u2Byte				BtCurrentLogLinkhandle;
++	u1Byte				CurrentConnectEntryNum;
++	u1Byte				DisconnectEntryNum;
++	u1Byte				CurrentBTConnectionCnt;
++	BT_CONNECT_TYPE		BTCurrentConnectType;
++	BT_CONNECT_TYPE		BTReceiveConnectPkt;
++	u1Byte				BTAuthCount;
++	u1Byte				BTAsocCount;
++	BOOLEAN				bStartSendSupervisionPkt;
++	BOOLEAN				BtOperationOn;
++	BOOLEAN				BTNeedAMPStatusChg;
++	BOOLEAN				JoinerNeedSendAuth;
++	HCI_PHY_LINK_BSS_INFO	bssDesc;
++	HCI_EXT_CONFIG		ExtConfig;
++	BOOLEAN				bNeedNotifyAMPNoCap;
++	BOOLEAN				bCreateSpportQos;
++	BOOLEAN				bSupportProfile;
++	u1Byte				BTChannel;
++	BOOLEAN				CheckChnlIsSuit;
++	BOOLEAN				bBtScan;
++	BOOLEAN				btLogoTest;
++	BOOLEAN				bRfStatusNotified;
++	BOOLEAN				bBtRsvedPageDownload;
++} BT_MGNT, *PBT_MGNT;
++
++struct bt_coex_info {
++	/* For Kernel Socket */
++	struct socket *udpsock;
++	struct sockaddr_in wifi_sockaddr; /*wifi socket*/
++	struct sockaddr_in bt_sockaddr;/* BT socket */
++	struct sock *sk_store;/*back up socket for UDP RX int*/
++
++	/* store which socket is OK */
++	u8 sock_open;
++
++	u8 BT_attend;
++	u8 is_exist; /* socket exist */
++	BT_MGNT BtMgnt;
++	struct workqueue_struct *btcoex_wq;
++	struct delayed_work recvmsg_work;
++};
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++
++#define	PACKET_NORMAL			0
++#define	PACKET_DHCP				1
++#define	PACKET_ARP				2
++#define	PACKET_EAPOL			3
++
++void rtw_btcoex_Initialize(PADAPTER);
++void rtw_btcoex_PowerOnSetting(PADAPTER padapter);
++void rtw_btcoex_PreLoadFirmware(PADAPTER padapter);
++void rtw_btcoex_HAL_Initialize(PADAPTER padapter, u8 bWifiOnly);
++void rtw_btcoex_IpsNotify(PADAPTER, u8 type);
++void rtw_btcoex_LpsNotify(PADAPTER, u8 type);
++void rtw_btcoex_ScanNotify(PADAPTER, u8 type);
++void rtw_btcoex_ConnectNotify(PADAPTER, u8 action);
++void rtw_btcoex_MediaStatusNotify(PADAPTER, u8 mediaStatus);
++void rtw_btcoex_SpecialPacketNotify(PADAPTER, u8 pktType);
++void rtw_btcoex_IQKNotify(PADAPTER padapter, u8 state);
++void rtw_btcoex_BtInfoNotify(PADAPTER, u8 length, u8 *tmpBuf);
++void rtw_btcoex_BtMpRptNotify(PADAPTER, u8 length, u8 *tmpBuf);
++void rtw_btcoex_SuspendNotify(PADAPTER, u8 state);
++void rtw_btcoex_HaltNotify(PADAPTER);
++void rtw_btcoex_ScoreBoardStatusNotify(PADAPTER, u8 length, u8 *tmpBuf);
++void rtw_btcoex_switchband_notify(u8 under_scan, u8 band_type);
++void rtw_btcoex_SwitchBtTRxMask(PADAPTER);
++void rtw_btcoex_Switch(PADAPTER, u8 enable);
++u8 rtw_btcoex_IsBtDisabled(PADAPTER);
++void rtw_btcoex_Handler(PADAPTER);
++s32 rtw_btcoex_IsBTCoexRejectAMPDU(PADAPTER padapter);
++s32 rtw_btcoex_IsBTCoexCtrlAMPDUSize(PADAPTER);
++u32 rtw_btcoex_GetAMPDUSize(PADAPTER);
++void rtw_btcoex_SetManualControl(PADAPTER, u8 bmanual);
++u8 rtw_btcoex_1Ant(PADAPTER);
++u8 rtw_btcoex_IsBtControlLps(PADAPTER);
++u8 rtw_btcoex_IsLpsOn(PADAPTER);
++u8 rtw_btcoex_RpwmVal(PADAPTER);
++u8 rtw_btcoex_LpsVal(PADAPTER);
++u32 rtw_btcoex_GetRaMask(PADAPTER);
++void rtw_btcoex_RecordPwrMode(PADAPTER, u8 *pCmdBuf, u8 cmdLen);
++void rtw_btcoex_DisplayBtCoexInfo(PADAPTER, u8 *pbuf, u32 bufsize);
++void rtw_btcoex_SetDBG(PADAPTER, u32 *pDbgModule);
++u32 rtw_btcoex_GetDBG(PADAPTER, u8 *pStrBuf, u32 bufSize);
++u8 rtw_btcoex_IncreaseScanDeviceNum(PADAPTER);
++u8 rtw_btcoex_IsBtLinkExist(PADAPTER);
++void rtw_btcoex_pta_off_on_notify(PADAPTER padapter, u8 bBTON);
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++void rtw_btcoex_SetBtPatchVersion(PADAPTER padapter, u16 btHciVer, u16 btPatchVer);
++void rtw_btcoex_SetHciVersion(PADAPTER  padapter, u16 hciVersion);
++void rtw_btcoex_StackUpdateProfileInfo(void);
++void rtw_btcoex_init_socket(_adapter *padapter);
++void rtw_btcoex_close_socket(_adapter *padapter);
++void rtw_btcoex_dump_tx_msg(u8 *tx_msg, u8 len, u8 *msg_name);
++u8 rtw_btcoex_sendmsgbysocket(_adapter *padapter, u8 *msg, u8 msg_size, bool force);
++u8 rtw_btcoex_create_kernel_socket(_adapter *padapter);
++void rtw_btcoex_close_kernel_socket(_adapter *padapter);
++void rtw_btcoex_recvmsgbysocket(void *data);
++u16 rtw_btcoex_parse_recv_data(u8 *msg, u8 msg_size);
++u8 rtw_btcoex_btinfo_cmd(PADAPTER padapter, u8 *pbuf, u16 length);
++void rtw_btcoex_parse_hci_cmd(_adapter *padapter, u8 *cmd, u16 len);
++void rtw_btcoex_SendEventExtBtCoexControl(PADAPTER Adapter, u8 bNeedDbgRsp, u8 dataLen, void *pData);
++void rtw_btcoex_SendEventExtBtInfoControl(PADAPTER Adapter, u8 dataLen, void *pData);
++void rtw_btcoex_SendScanNotify(PADAPTER padapter, u8 scanType);
++#define BT_SendEventExtBtCoexControl(Adapter, bNeedDbgRsp, dataLen, pData) rtw_btcoex_SendEventExtBtCoexControl(Adapter, bNeedDbgRsp, dataLen, pData)
++#define BT_SendEventExtBtInfoControl(Adapter, dataLen, pData) rtw_btcoex_SendEventExtBtInfoControl(Adapter, dataLen, pData)
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++u16 rtw_btcoex_btreg_read(PADAPTER padapter, u8 type, u16 addr, u32 *data);
++u16 rtw_btcoex_btreg_write(PADAPTER padapter, u8 type, u16 addr, u16 val);
++u8 rtw_btcoex_get_bt_coexist(PADAPTER padapter);
++u8 rtw_btcoex_get_chip_type(PADAPTER padapter);
++u8 rtw_btcoex_get_pg_ant_num(PADAPTER padapter);
++u8 rtw_btcoex_get_pg_single_ant_path(PADAPTER padapter);
++u8 rtw_btcoex_get_pg_rfe_type(PADAPTER padapter);
++u8 rtw_btcoex_is_tfbga_package_type(PADAPTER padapter);
++u8 rtw_btcoex_get_ant_div_cfg(PADAPTER padapter);
++
++/* ==================================================
++ * Below Functions are called by BT-Coex
++ * ================================================== */
++void rtw_btcoex_rx_ampdu_apply(PADAPTER);
++void rtw_btcoex_LPS_Enter(PADAPTER);
++void rtw_btcoex_LPS_Leave(PADAPTER);
++
++#endif /* __RTW_BTCOEX_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_byteorder.h b/drivers/net/wireless/rtl8812au/include/rtw_byteorder.h
+new file mode 100644
+index 0000000..70482d2
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_byteorder.h
+@@ -0,0 +1,38 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTL871X_BYTEORDER_H_
++#define _RTL871X_BYTEORDER_H_
++
++
++#if defined(CONFIG_LITTLE_ENDIAN) && defined (CONFIG_BIG_ENDIAN)
++	#error "Shall be CONFIG_LITTLE_ENDIAN or CONFIG_BIG_ENDIAN, but not both!\n"
++#endif
++
++#if defined(CONFIG_LITTLE_ENDIAN)
++	#ifndef CONFIG_PLATFORM_MSTAR389
++		#include <byteorder/little_endian.h>
++	#endif
++#elif defined (CONFIG_BIG_ENDIAN)
++	#include <byteorder/big_endian.h>
++#else
++	#  error "Must be LITTLE/BIG Endian Host"
++#endif
++
++#endif /* _RTL871X_BYTEORDER_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_cmd.h b/drivers/net/wireless/rtl8812au/include/rtw_cmd.h
+new file mode 100644
+index 0000000..ad583cb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_cmd.h
+@@ -0,0 +1,1306 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_CMD_H_
++#define __RTW_CMD_H_
++
++
++#define C2H_MEM_SZ (16*1024)
++
++#ifndef CONFIG_RTL8711FW
++
++#define FREE_CMDOBJ_SZ	128
++
++#define MAX_CMDSZ	1024
++#define MAX_RSPSZ	512
++#define MAX_EVTSZ	1024
++
++#ifdef PLATFORM_OS_CE
++	#define CMDBUFF_ALIGN_SZ 4
++#else
++	#define CMDBUFF_ALIGN_SZ 512
++#endif
++
++struct cmd_obj {
++	_adapter *padapter;
++	u16	cmdcode;
++	u8	res;
++	u8	*parmbuf;
++	u32	cmdsz;
++	u8	*rsp;
++	u32	rspsz;
++	struct submit_ctx *sctx;
++	u8 no_io;
++	/* _sema 	cmd_sem; */
++	_list	list;
++};
++
++/* cmd flags */
++enum {
++	RTW_CMDF_DIRECTLY = BIT0,
++	RTW_CMDF_WAIT_ACK = BIT1,
++};
++
++struct cmd_priv {
++	_sema	cmd_queue_sema;
++	/* _sema	cmd_done_sema; */
++	_sema	terminate_cmdthread_sema;
++	_queue	cmd_queue;
++	u8	cmd_seq;
++	u8	*cmd_buf;	/* shall be non-paged, and 4 bytes aligned */
++	u8	*cmd_allocated_buf;
++	u8	*rsp_buf;	/* shall be non-paged, and 4 bytes aligned		 */
++	u8	*rsp_allocated_buf;
++	u32	cmd_issued_cnt;
++	u32	cmd_done_cnt;
++	u32	rsp_cnt;
++	ATOMIC_T cmdthd_running;
++	/* u8 cmdthd_running; */
++	u8 stop_req;
++	_adapter *padapter;
++	_mutex sctx_mutex;
++};
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++struct evt_obj {
++	u16	evtcode;
++	u8	res;
++	u8	*parmbuf;
++	u32	evtsz;
++	_list	list;
++};
++#endif
++
++struct	evt_priv {
++#ifdef CONFIG_EVENT_THREAD_MODE
++	_sema	evt_notify;
++	_sema	terminate_evtthread_sema;
++	_queue	evt_queue;
++#endif
++
++#define CONFIG_C2H_WK
++#ifdef CONFIG_C2H_WK
++	_workitem c2h_wk;
++	bool c2h_wk_alive;
++	struct rtw_cbuf *c2h_queue;
++	#define C2H_QUEUE_MAX_LEN 10
++#endif
++
++#ifdef CONFIG_H2CLBK
++	_sema	lbkevt_done;
++	u8	lbkevt_limit;
++	u8	lbkevt_num;
++	u8	*cmdevt_parm;
++#endif
++	ATOMIC_T event_seq;
++	u8	*evt_buf;	/* shall be non-paged, and 4 bytes aligned		 */
++	u8	*evt_allocated_buf;
++	u32	evt_done_cnt;
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	u8	*c2h_mem;
++	u8	*allocated_c2h_mem;
++#ifdef PLATFORM_OS_XP
++	PMDL	pc2h_mdl;
++#endif
++#endif
++
++};
++
++#define init_h2fwcmd_w_parm_no_rsp(pcmd, pparm, code) \
++	do {\
++		_rtw_init_listhead(&pcmd->list);\
++		pcmd->cmdcode = code;\
++		pcmd->parmbuf = (u8 *)(pparm);\
++		pcmd->cmdsz = sizeof (*pparm);\
++		pcmd->rsp = NULL;\
++		pcmd->rspsz = 0;\
++	} while (0)
++
++#define init_h2fwcmd_w_parm_no_parm_rsp(pcmd, code) \
++	do {\
++		_rtw_init_listhead(&pcmd->list);\
++		pcmd->cmdcode = code;\
++		pcmd->parmbuf = NULL;\
++		pcmd->cmdsz = 0;\
++		pcmd->rsp = NULL;\
++		pcmd->rspsz = 0;\
++	} while (0)
++
++struct c2h_evt_hdr {
++	u8 id:4;
++	u8 plen:4;
++	u8 seq;
++	u8 payload[0];
++};
++
++struct c2h_evt_hdr_88xx {
++	u8 id;
++	u8 seq;
++	u8 payload[12];
++	u8 plen;
++	u8 trigger;
++};
++
++#define c2h_evt_valid(c2h_evt) ((c2h_evt)->id || (c2h_evt)->plen)
++
++struct P2P_PS_Offload_t {
++	u8 Offload_En:1;
++	u8 role:1; /* 1: Owner, 0: Client */
++	u8 CTWindow_En:1;
++	u8 NoA0_En:1;
++	u8 NoA1_En:1;
++	u8 AllStaSleep:1; /* Only valid in Owner */
++	u8 discovery:1;
++	u8 rsvd:1;
++};
++
++struct P2P_PS_CTWPeriod_t {
++	u8 CTWPeriod;	/* TU */
++};
++
++#ifdef CONFIG_P2P_WOWLAN
++
++struct P2P_WoWlan_Offload_t {
++	u8 Disconnect_Wkup_Drv:1;
++	u8 role:2;
++	u8 Wps_Config[2];
++};
++
++#endif /* CONFIG_P2P_WOWLAN */
++
++extern u32 rtw_enqueue_cmd(struct cmd_priv *pcmdpriv, struct cmd_obj *obj);
++extern struct cmd_obj *rtw_dequeue_cmd(struct cmd_priv *pcmdpriv);
++extern void rtw_free_cmd_obj(struct cmd_obj *pcmd);
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++extern u32 rtw_enqueue_evt(struct evt_priv *pevtpriv, struct evt_obj *obj);
++extern struct evt_obj *rtw_dequeue_evt(_queue *queue);
++extern void rtw_free_evt_obj(struct evt_obj *pcmd);
++#endif
++
++void rtw_stop_cmd_thread(_adapter *adapter);
++thread_return rtw_cmd_thread(thread_context context);
++
++extern u32 rtw_init_cmd_priv(struct cmd_priv *pcmdpriv);
++extern void rtw_free_cmd_priv(struct cmd_priv *pcmdpriv);
++
++extern u32 rtw_init_evt_priv(struct evt_priv *pevtpriv);
++extern void rtw_free_evt_priv(struct evt_priv *pevtpriv);
++extern void rtw_cmd_clr_isr(struct cmd_priv *pcmdpriv);
++extern void rtw_evt_notify_isr(struct evt_priv *pevtpriv);
++#ifdef CONFIG_P2P
++u8 p2p_protocol_wk_cmd(_adapter *padapter, int intCmdType);
++#endif /* CONFIG_P2P */
++
++#else
++/* #include <ieee80211.h> */
++#endif	/* CONFIG_RTL8711FW */
++
++enum rtw_drvextra_cmd_id {
++	NONE_WK_CID,
++	STA_MSTATUS_RPT_WK_CID,
++	DYNAMIC_CHK_WK_CID,
++	DM_CTRL_WK_CID,
++	PBC_POLLING_WK_CID,
++	POWER_SAVING_CTRL_WK_CID,/* IPS,AUTOSuspend */
++	LPS_CTRL_WK_CID,
++	ANT_SELECT_WK_CID,
++	P2P_PS_WK_CID,
++	P2P_PROTO_WK_CID,
++	CHECK_HIQ_WK_CID,/* for softap mode, check hi queue if empty */
++	INTEl_WIDI_WK_CID,
++	C2H_WK_CID,
++	RTP_TIMER_CFG_WK_CID,
++	RESET_SECURITYPRIV, /* add for CONFIG_IEEE80211W, none 11w also can use */
++	FREE_ASSOC_RESOURCES, /* add for CONFIG_IEEE80211W, none 11w also can use */
++	DM_IN_LPS_WK_CID,
++	DM_RA_MSK_WK_CID, /* add for STA update RAMask when bandwith change. */
++	BEAMFORMING_WK_CID,
++	LPS_CHANGE_DTIM_CID,
++	BTINFO_WK_CID,
++	DFS_MASTER_WK_CID,
++	SESSION_TRACKER_WK_CID,
++	EN_HW_UPDATE_TSF_WK_CID,
++	TEST_H2C_CID,
++	MAX_WK_CID
++};
++
++enum LPS_CTRL_TYPE {
++	LPS_CTRL_SCAN = 0,
++	LPS_CTRL_JOINBSS = 1,
++	LPS_CTRL_CONNECT = 2,
++	LPS_CTRL_DISCONNECT = 3,
++	LPS_CTRL_SPECIAL_PACKET = 4,
++	LPS_CTRL_LEAVE = 5,
++	LPS_CTRL_TRAFFIC_BUSY = 6,
++	LPS_CTRL_TX_TRAFFIC_LEAVE = 7,
++	LPS_CTRL_RX_TRAFFIC_LEAVE = 8,
++	LPS_CTRL_ENTER = 9,
++	LPS_CTRL_LEAVE_CFG80211_PWRMGMT = 10,
++};
++
++enum STAKEY_TYPE {
++	GROUP_KEY		= 0,
++	UNICAST_KEY		= 1,
++	TDLS_KEY		= 2,
++};
++
++enum RFINTFS {
++	SWSI,
++	HWSI,
++	HWPI,
++};
++
++/*
++Caller Mode: Infra, Ad-HoC(C)
++
++Notes: To enter USB suspend mode
++
++Command Mode
++
++*/
++struct usb_suspend_parm {
++	u32 action;/* 1: sleep, 0:resume */
++};
++
++/*
++Caller Mode: Infra, Ad-HoC
++
++Notes: To join a known BSS.
++
++Command-Event Mode
++
++*/
++
++/*
++Caller Mode: Infra, Ad-Hoc
++
++Notes: To join the specified bss
++
++Command Event Mode
++
++*/
++struct joinbss_parm {
++	WLAN_BSSID_EX network;
++};
++
++/*
++Caller Mode: Infra, Ad-HoC(C)
++
++Notes: To disconnect the current associated BSS
++
++Command Mode
++
++*/
++struct disconnect_parm {
++	u32 deauth_timeout_ms;
++};
++
++/*
++Caller Mode: AP, Ad-HoC(M)
++
++Notes: To create a BSS
++
++Command Mode
++*/
++struct createbss_parm {
++	bool adhoc;
++
++	/* used by AP mode now */
++	s16 req_ch;
++	s8 req_bw;
++	s8 req_offset;
++};
++
++#if 0
++/* Caller Mode: AP, Ad-HoC, Infra */
++/* Notes: To set the NIC mode of RTL8711 */
++/* Command Mode */
++/* The definition of mode: */
++
++#define IW_MODE_AUTO	0	/*  Let the driver decides which AP to join */
++#define IW_MODE_ADHOC	1	/*  Single cell network (Ad-Hoc Clients) */
++#define IW_MODE_INFRA	2	/*  Multi cell network, roaming, .. */
++#define IW_MODE_MASTER	3	/*  Synchronisation master or Access Point */
++#define IW_MODE_REPEAT	4	/*  Wireless Repeater (forwarder) */
++#define IW_MODE_SECOND	5	/*  Secondary master/repeater (backup) */
++#define IW_MODE_MONITOR	6	/*  Passive monitor (listen only) */
++#endif
++
++struct	setopmode_parm {
++	u8	mode;
++	u8	rsvd[3];
++};
++
++/*
++Caller Mode: AP, Ad-HoC, Infra
++
++Notes: To ask RTL8711 performing site-survey
++
++Command-Event Mode
++
++*/
++
++#define RTW_SSID_SCAN_AMOUNT 9 /* for WEXT_CSCAN_AMOUNT 9 */
++#define RTW_CHANNEL_SCAN_AMOUNT (14+37)
++struct sitesurvey_parm {
++	sint scan_mode;	/* active: 1, passive: 0 */
++	/* sint bsslimit;	// 1 ~ 48 */
++	u8 ssid_num;
++	u8 ch_num;
++	NDIS_802_11_SSID ssid[RTW_SSID_SCAN_AMOUNT];
++	struct rtw_ieee80211_channel ch[RTW_CHANNEL_SCAN_AMOUNT];
++};
++
++/*
++Caller Mode: Any
++
++Notes: To set the auth type of RTL8711. open/shared/802.1x
++
++Command Mode
++
++*/
++struct setauth_parm {
++	u8 mode;  /* 0: legacy open, 1: legacy shared 2: 802.1x */
++	u8 _1x;   /* 0: PSK, 1: TLS */
++	u8 rsvd[2];
++};
++
++/*
++Caller Mode: Infra
++
++a. algorithm: wep40, wep104, tkip & aes
++b. keytype: grp key/unicast key
++c. key contents
++
++when shared key ==> keyid is the camid
++when 802.1x ==> keyid [0:1] ==> grp key
++when 802.1x ==> keyid > 2 ==> unicast key
++
++*/
++struct setkey_parm {
++	u8	algorithm;	/* encryption algorithm, could be none, wep40, TKIP, CCMP, wep104 */
++	u8	keyid;
++	u8	grpkey;		/* 1: this is the grpkey for 802.1x. 0: this is the unicast key for 802.1x */
++	u8	set_tx;		/* 1: main tx key for wep. 0: other key. */
++	u8	key[16];	/* this could be 40 or 104 */
++};
++
++/*
++When in AP or Ad-Hoc mode, this is used to
++allocate an sw/hw entry for a newly associated sta.
++
++Command
++
++when shared key ==> algorithm/keyid
++
++*/
++struct set_stakey_parm {
++	u8	addr[ETH_ALEN];
++	u8	algorithm;
++	u8	keyid;
++	u8	key[16];
++};
++
++struct set_stakey_rsp {
++	u8	addr[ETH_ALEN];
++	u8	keyid;
++	u8	rsvd;
++};
++
++/*
++Caller Ad-Hoc/AP
++
++Command -Rsp(AID == CAMID) mode
++
++This is to force fw to add an sta_data entry per driver's request.
++
++FW will write an cam entry associated with it.
++
++*/
++struct set_assocsta_parm {
++	u8	addr[ETH_ALEN];
++};
++
++struct set_assocsta_rsp {
++	u8	cam_id;
++	u8	rsvd[3];
++};
++
++/*
++	Caller Ad-Hoc/AP
++	Command mode
++	This is to force fw to del an sta_data entry per driver's request
++	FW will invalidate the cam entry associated with it.
++*/
++struct del_assocsta_parm {
++	u8	addr[ETH_ALEN];
++};
++
++/*
++Caller Mode: AP/Ad-HoC(M)
++
++Notes: To notify fw that given staid has changed its power state
++
++Command Mode
++
++*/
++struct setstapwrstate_parm {
++	u8	staid;
++	u8	status;
++	u8	hwaddr[6];
++};
++
++/*
++Caller Mode: Any
++
++Notes: To setup the basic rate of RTL8711
++
++Command Mode
++
++*/
++struct	setbasicrate_parm {
++	u8	basicrates[NumRates];
++};
++
++/*
++Caller Mode: Any
++
++Notes: To read the current basic rate
++
++Command-Rsp Mode
++
++*/
++struct getbasicrate_parm {
++	u32 rsvd;
++};
++
++struct getbasicrate_rsp {
++	u8 basicrates[NumRates];
++};
++
++/*
++Caller Mode: Any
++
++Notes: To setup the data rate of RTL8711
++
++Command Mode
++
++*/
++struct setdatarate_parm {
++#ifdef MP_FIRMWARE_OFFLOAD
++	u32	curr_rateidx;
++#else
++	u8	mac_id;
++	u8	datarates[NumRates];
++#endif
++};
++
++/*
++Caller Mode: Any
++
++Notes: To read the current data rate
++
++Command-Rsp Mode
++
++*/
++struct getdatarate_parm {
++	u32 rsvd;
++
++};
++struct getdatarate_rsp {
++	u8 datarates[NumRates];
++};
++
++
++/*
++Caller Mode: Any
++AP: AP can use the info for the contents of beacon frame
++Infra: STA can use the info when sitesurveying
++Ad-HoC(M): Like AP
++Ad-HoC(C): Like STA
++
++
++Notes: To set the phy capability of the NIC
++
++Command Mode
++
++*/
++
++struct	setphyinfo_parm {
++	struct regulatory_class class_sets[NUM_REGULATORYS];
++	u8	status;
++};
++
++struct	getphyinfo_parm {
++	u32 rsvd;
++};
++
++struct	getphyinfo_rsp {
++	struct regulatory_class class_sets[NUM_REGULATORYS];
++	u8	status;
++};
++
++/*
++Caller Mode: Any
++
++Notes: To set the channel/modem/band
++This command will be used when channel/modem/band is changed.
++
++Command Mode
++
++*/
++struct	setphy_parm {
++	u8	rfchannel;
++	u8	modem;
++};
++
++/*
++Caller Mode: Any
++
++Notes: To get the current setting of channel/modem/band
++
++Command-Rsp Mode
++
++*/
++struct	getphy_parm {
++	u32 rsvd;
++
++};
++struct	getphy_rsp {
++	u8	rfchannel;
++	u8	modem;
++};
++
++struct readBB_parm {
++	u8	offset;
++};
++struct readBB_rsp {
++	u8	value;
++};
++
++struct readTSSI_parm {
++	u8	offset;
++};
++struct readTSSI_rsp {
++	u8	value;
++};
++
++struct readMAC_parm {
++	u8 len;
++	u32	addr;
++};
++
++struct writeBB_parm {
++	u8	offset;
++	u8	value;
++};
++
++struct readRF_parm {
++	u8	offset;
++};
++struct readRF_rsp {
++	u32	value;
++};
++
++struct writeRF_parm {
++	u32	offset;
++	u32	value;
++};
++
++struct getrfintfs_parm {
++	u8	rfintfs;
++};
++
++
++struct Tx_Beacon_param {
++	WLAN_BSSID_EX network;
++};
++
++/*
++	Notes: This command is used for H2C/C2H loopback testing
++
++	mac[0] == 0
++	==> CMD mode, return H2C_SUCCESS.
++	The following condition must be ture under CMD mode
++		mac[1] == mac[4], mac[2] == mac[3], mac[0]=mac[5]= 0;
++		s0 == 0x1234, s1 == 0xabcd, w0 == 0x78563412, w1 == 0x5aa5def7;
++		s2 == (b1 << 8 | b0);
++
++	mac[0] == 1
++	==> CMD_RSP mode, return H2C_SUCCESS_RSP
++
++	The rsp layout shall be:
++	rsp:			parm:
++		mac[0]  =   mac[5];
++		mac[1]  =   mac[4];
++		mac[2]  =   mac[3];
++		mac[3]  =   mac[2];
++		mac[4]  =   mac[1];
++		mac[5]  =   mac[0];
++		s0		=   s1;
++		s1		=   swap16(s0);
++		w0		=	swap32(w1);
++		b0		=	b1
++		s2		=	s0 + s1
++		b1		=	b0
++		w1		=	w0
++
++	mac[0] ==	2
++	==> CMD_EVENT mode, return	H2C_SUCCESS
++	The event layout shall be:
++	event:			parm:
++		mac[0]  =   mac[5];
++		mac[1]  =   mac[4];
++		mac[2]  =   event's sequence number, starting from 1 to parm's marc[3]
++		mac[3]  =   mac[2];
++		mac[4]  =   mac[1];
++		mac[5]  =   mac[0];
++		s0		=   swap16(s0) - event.mac[2];
++		s1		=   s1 + event.mac[2];
++		w0		=	swap32(w0);
++		b0		=	b1
++		s2		=	s0 + event.mac[2]
++		b1		=	b0
++		w1		=	swap32(w1) - event.mac[2];
++
++		parm->mac[3] is the total event counts that host requested.
++
++
++	event will be the same with the cmd's param.
++
++*/
++
++#ifdef CONFIG_H2CLBK
++
++struct seth2clbk_parm {
++	u8 mac[6];
++	u16	s0;
++	u16	s1;
++	u32	w0;
++	u8	b0;
++	u16  s2;
++	u8	b1;
++	u32	w1;
++};
++
++struct geth2clbk_parm {
++	u32 rsv;
++};
++
++struct geth2clbk_rsp {
++	u8	mac[6];
++	u16	s0;
++	u16	s1;
++	u32	w0;
++	u8	b0;
++	u16	s2;
++	u8	b1;
++	u32	w1;
++};
++
++#endif	/* CONFIG_H2CLBK */
++
++/* CMD param Formart for driver extra cmd handler */
++struct drvextra_cmd_parm {
++	int ec_id; /* extra cmd id */
++	int type; /* Can use this field as the type id or command size */
++	int size; /* buffer size */
++	unsigned char *pbuf;
++};
++
++/*------------------- Below are used for RF/BB tunning ---------------------*/
++
++struct	setantenna_parm {
++	u8	tx_antset;
++	u8	rx_antset;
++	u8	tx_antenna;
++	u8	rx_antenna;
++};
++
++struct	enrateadaptive_parm {
++	u32	en;
++};
++
++struct settxagctbl_parm {
++	u32	txagc[MAX_RATES_LENGTH];
++};
++
++struct gettxagctbl_parm {
++	u32 rsvd;
++};
++struct gettxagctbl_rsp {
++	u32	txagc[MAX_RATES_LENGTH];
++};
++
++struct setagcctrl_parm {
++	u32	agcctrl;		/* 0: pure hw, 1: fw */
++};
++
++
++struct setssup_parm	{
++	u32	ss_ForceUp[MAX_RATES_LENGTH];
++};
++
++struct getssup_parm	{
++	u32 rsvd;
++};
++struct getssup_rsp	{
++	u8	ss_ForceUp[MAX_RATES_LENGTH];
++};
++
++
++struct setssdlevel_parm	{
++	u8	ss_DLevel[MAX_RATES_LENGTH];
++};
++
++struct getssdlevel_parm	{
++	u32 rsvd;
++};
++struct getssdlevel_rsp	{
++	u8	ss_DLevel[MAX_RATES_LENGTH];
++};
++
++struct setssulevel_parm	{
++	u8	ss_ULevel[MAX_RATES_LENGTH];
++};
++
++struct getssulevel_parm	{
++	u32 rsvd;
++};
++struct getssulevel_rsp	{
++	u8	ss_ULevel[MAX_RATES_LENGTH];
++};
++
++
++struct	setcountjudge_parm {
++	u8	count_judge[MAX_RATES_LENGTH];
++};
++
++struct	getcountjudge_parm {
++	u32 rsvd;
++};
++struct	getcountjudge_rsp {
++	u8	count_judge[MAX_RATES_LENGTH];
++};
++
++
++struct setratable_parm {
++	u8 ss_ForceUp[NumRates];
++	u8 ss_ULevel[NumRates];
++	u8 ss_DLevel[NumRates];
++	u8 count_judge[NumRates];
++};
++
++struct getratable_parm {
++	uint rsvd;
++};
++struct getratable_rsp {
++	u8 ss_ForceUp[NumRates];
++	u8 ss_ULevel[NumRates];
++	u8 ss_DLevel[NumRates];
++	u8 count_judge[NumRates];
++};
++
++
++/* to get TX,RX retry count */
++struct gettxretrycnt_parm {
++	unsigned int rsvd;
++};
++struct gettxretrycnt_rsp {
++	unsigned long tx_retrycnt;
++};
++
++struct getrxretrycnt_parm {
++	unsigned int rsvd;
++};
++struct getrxretrycnt_rsp {
++	unsigned long rx_retrycnt;
++};
++
++/* to get BCNOK,BCNERR count */
++struct getbcnokcnt_parm {
++	unsigned int rsvd;
++};
++struct getbcnokcnt_rsp {
++	unsigned long  bcnokcnt;
++};
++
++struct getbcnerrcnt_parm {
++	unsigned int rsvd;
++};
++struct getbcnerrcnt_rsp {
++	unsigned long bcnerrcnt;
++};
++
++/* to get current TX power level */
++struct getcurtxpwrlevel_parm {
++	unsigned int rsvd;
++};
++struct getcurtxpwrlevel_rsp {
++	unsigned short tx_power;
++};
++
++struct setprobereqextraie_parm {
++	unsigned char e_id;
++	unsigned char ie_len;
++	unsigned char ie[0];
++};
++
++struct setassocreqextraie_parm {
++	unsigned char e_id;
++	unsigned char ie_len;
++	unsigned char ie[0];
++};
++
++struct setproberspextraie_parm {
++	unsigned char e_id;
++	unsigned char ie_len;
++	unsigned char ie[0];
++};
++
++struct setassocrspextraie_parm {
++	unsigned char e_id;
++	unsigned char ie_len;
++	unsigned char ie[0];
++};
++
++
++struct addBaReq_parm {
++	unsigned int tid;
++	u8	addr[ETH_ALEN];
++};
++
++struct addBaRsp_parm {
++	unsigned int tid;
++	unsigned int start_seq;
++	u8 addr[ETH_ALEN];
++	u8 status;
++	u8 size;
++};
++
++/*H2C Handler index: 46 */
++struct set_ch_parm {
++	u8 ch;
++	u8 bw;
++	u8 ch_offset;
++};
++
++#ifdef MP_FIRMWARE_OFFLOAD
++/*H2C Handler index: 47 */
++struct SetTxPower_parm {
++	u8 TxPower;
++};
++
++/*H2C Handler index: 48 */
++struct SwitchAntenna_parm {
++	u16 antenna_tx;
++	u16 antenna_rx;
++	/*	R_ANTENNA_SELECT_CCK cck_txrx; */
++	u8 cck_txrx;
++};
++
++/*H2C Handler index: 49 */
++struct SetCrystalCap_parm {
++	u32 curr_crystalcap;
++};
++
++/*H2C Handler index: 50 */
++struct SetSingleCarrierTx_parm {
++	u8 bStart;
++};
++
++/*H2C Handler index: 51 */
++struct SetSingleToneTx_parm {
++	u8 bStart;
++	u8 curr_rfpath;
++};
++
++/*H2C Handler index: 52 */
++struct SetCarrierSuppressionTx_parm {
++	u8 bStart;
++	u32 curr_rateidx;
++};
++
++/*H2C Handler index: 53 */
++struct SetContinuousTx_parm {
++	u8 bStart;
++	u8 CCK_flag; /*1:CCK 2:OFDM*/
++	u32 curr_rateidx;
++};
++
++/*H2C Handler index: 54 */
++struct SwitchBandwidth_parm {
++	u8 curr_bandwidth;
++};
++
++#endif	/* MP_FIRMWARE_OFFLOAD */
++
++/*H2C Handler index: 59 */
++struct SetChannelPlan_param {
++	const struct country_chplan *country_ent;
++	u8 channel_plan;
++};
++
++/*H2C Handler index: 60 */
++struct LedBlink_param {
++	PVOID	 pLed;
++};
++
++/*H2C Handler index: 61 */
++struct SetChannelSwitch_param {
++	u8 new_ch_no;
++};
++
++/*H2C Handler index: 62 */
++struct TDLSoption_param {
++	u8 addr[ETH_ALEN];
++	u8 option;
++};
++
++/*H2C Handler index: 64 */
++struct RunInThread_param {
++	void (*func)(void *);
++	void *context;
++};
++
++
++#define GEN_CMD_CODE(cmd)	cmd ## _CMD_
++
++
++/*
++
++Result:
++0x00: success
++0x01: sucess, and check Response.
++0x02: cmd ignored due to duplicated sequcne number
++0x03: cmd dropped due to invalid cmd code
++0x04: reserved.
++
++*/
++
++#define H2C_RSP_OFFSET			512
++
++#define H2C_SUCCESS			0x00
++#define H2C_SUCCESS_RSP			0x01
++#define H2C_DUPLICATED			0x02
++#define H2C_DROPPED			0x03
++#define H2C_PARAMETERS_ERROR		0x04
++#define H2C_REJECTED			0x05
++#define H2C_CMD_OVERFLOW		0x06
++#define H2C_RESERVED			0x07
++#define H2C_ENQ_HEAD			0x08
++#define H2C_ENQ_HEAD_FAIL		0x09
++
++extern u8 rtw_setassocsta_cmd(_adapter  *padapter, u8 *mac_addr);
++extern u8 rtw_setstandby_cmd(_adapter *padapter, uint action);
++u8 rtw_sitesurvey_cmd(_adapter  *padapter, NDIS_802_11_SSID *ssid, int ssid_num, struct rtw_ieee80211_channel *ch, int ch_num);
++
++u8 rtw_create_ibss_cmd(_adapter *adapter, int flags);
++u8 rtw_startbss_cmd(_adapter *adapter, int flags);
++u8 rtw_change_bss_chbw_cmd(_adapter *adapter, int flags, s16 req_ch, s8 req_bw, s8 req_offset);
++
++extern u8 rtw_setphy_cmd(_adapter  *padapter, u8 modem, u8 ch);
++
++struct sta_info;
++extern u8 rtw_setstakey_cmd(_adapter  *padapter, struct sta_info *sta, u8 key_type, bool enqueue);
++extern u8 rtw_clearstakey_cmd(_adapter *padapter, struct sta_info *sta, u8 enqueue);
++
++extern u8 rtw_joinbss_cmd(_adapter  *padapter, struct wlan_network *pnetwork);
++u8 rtw_disassoc_cmd(_adapter *padapter, u32 deauth_timeout_ms, bool enqueue);
++extern u8 rtw_setopmode_cmd(_adapter  *padapter, NDIS_802_11_NETWORK_INFRASTRUCTURE networktype, bool enqueue);
++extern u8 rtw_setdatarate_cmd(_adapter  *padapter, u8 *rateset);
++extern u8 rtw_setbasicrate_cmd(_adapter  *padapter, u8 *rateset);
++extern u8 rtw_getmacreg_cmd(_adapter *padapter, u8 len, u32 addr);
++extern void rtw_usb_catc_trigger_cmd(_adapter *padapter, const char *caller);
++extern u8 rtw_setbbreg_cmd(_adapter *padapter, u8 offset, u8 val);
++extern u8 rtw_setrfreg_cmd(_adapter *padapter, u8 offset, u32 val);
++extern u8 rtw_getbbreg_cmd(_adapter *padapter, u8 offset, u8 *pval);
++extern u8 rtw_getrfreg_cmd(_adapter *padapter, u8 offset, u8 *pval);
++extern u8 rtw_setrfintfs_cmd(_adapter  *padapter, u8 mode);
++extern u8 rtw_setrttbl_cmd(_adapter  *padapter, struct setratable_parm *prate_table);
++extern u8 rtw_getrttbl_cmd(_adapter  *padapter, struct getratable_rsp *pval);
++
++extern u8 rtw_gettssi_cmd(_adapter  *padapter, u8 offset, u8 *pval);
++extern u8 rtw_setfwdig_cmd(_adapter *padapter, u8 type);
++extern u8 rtw_setfwra_cmd(_adapter *padapter, u8 type);
++
++extern u8 rtw_addbareq_cmd(_adapter *padapter, u8 tid, u8 *addr);
++extern u8 rtw_addbarsp_cmd(_adapter *padapter, u8 *addr, u16 tid, u8 status, u8 size, u16 start_seq);
++/* add for CONFIG_IEEE80211W, none 11w also can use */
++extern u8 rtw_reset_securitypriv_cmd(_adapter *padapter);
++extern u8 rtw_free_assoc_resources_cmd(_adapter *padapter);
++extern u8 rtw_dynamic_chk_wk_cmd(_adapter *adapter);
++
++u8 rtw_lps_ctrl_wk_cmd(_adapter *padapter, u8 lps_ctrl_type, u8 enqueue);
++u8 rtw_dm_in_lps_wk_cmd(_adapter *padapter);
++u8 rtw_lps_change_dtim_cmd(_adapter *padapter, u8 dtim);
++
++#if (RATE_ADAPTIVE_SUPPORT == 1)
++u8 rtw_rpt_timer_cfg_cmd(_adapter *padapter, u16 minRptTime);
++#endif
++
++#ifdef CONFIG_ANTENNA_DIVERSITY
++extern  u8 rtw_antenna_select_cmd(_adapter *padapter, u8 antenna, u8 enqueue);
++#endif
++
++u8 rtw_dm_ra_mask_wk_cmd(_adapter *padapter, u8 *psta);
++
++extern u8 rtw_ps_cmd(_adapter *padapter);
++
++#ifdef CONFIG_AP_MODE
++u8 rtw_chk_hi_queue_cmd(_adapter *padapter);
++#ifdef CONFIG_DFS_MASTER
++u8 rtw_dfs_master_cmd(_adapter *adapter, bool enqueue);
++void rtw_dfs_master_timer_hdl(RTW_TIMER_HDL_ARGS);
++void rtw_dfs_master_enable(_adapter *adapter, u8 ch, u8 bw, u8 offset);
++void rtw_dfs_master_disable(_adapter *adapter, u8 ch, u8 bw, u8 offset, bool by_others);
++enum {
++	MLME_STA_CONNECTING,
++	MLME_STA_CONNECTED,
++	MLME_STA_DISCONNECTED,
++	MLME_AP_STARTED,
++	MLME_AP_STOPPED,
++};
++void rtw_dfs_master_status_apply(_adapter *adapter, u8 self_action);
++#endif /* CONFIG_DFS_MASTER */
++#endif /* CONFIG_AP_MODE */
++
++#ifdef CONFIG_BT_COEXIST
++u8 rtw_btinfo_cmd(PADAPTER padapter, u8 *pbuf, u16 length);
++#endif
++
++u8 rtw_test_h2c_cmd(_adapter *adapter, u8 *buf, u8 len);
++
++u8 rtw_enable_hw_update_tsf_cmd(_adapter *padapter);
++
++u8 rtw_set_ch_cmd(_adapter *padapter, u8 ch, u8 bw, u8 ch_offset, u8 enqueue);
++
++u8 rtw_set_chplan_cmd(_adapter *adapter, int flags, u8 chplan, u8 swconfig);
++u8 rtw_set_country_cmd(_adapter *adapter, int flags, const char *country_code, u8 swconfig);
++
++extern u8 rtw_led_blink_cmd(_adapter *padapter, PVOID pLed);
++extern u8 rtw_set_csa_cmd(_adapter *padapter, u8 new_ch_no);
++extern u8 rtw_tdls_cmd(_adapter *padapter, u8 *addr, u8 option);
++
++/* #ifdef CONFIG_C2H_PACKET_EN */
++extern u8 rtw_c2h_packet_wk_cmd(PADAPTER padapter, u8 *pbuf, u16 length);
++/* #else */
++extern u8 rtw_c2h_wk_cmd(PADAPTER padapter, u8 *c2h_evt);
++/* #endif */
++
++u8 rtw_run_in_thread_cmd(PADAPTER padapter, void (*func)(void *), void *context);
++
++u8 session_tracker_chk_cmd(_adapter *adapter, struct sta_info *sta);
++u8 session_tracker_add_cmd(_adapter *adapter, struct sta_info *sta, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port);
++u8 session_tracker_del_cmd(_adapter *adapter, struct sta_info *sta, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port);
++
++u8 rtw_drvextra_cmd_hdl(_adapter *padapter, unsigned char *pbuf);
++
++extern void rtw_survey_cmd_callback(_adapter  *padapter, struct cmd_obj *pcmd);
++extern void rtw_disassoc_cmd_callback(_adapter  *padapter, struct cmd_obj *pcmd);
++extern void rtw_joinbss_cmd_callback(_adapter  *padapter, struct cmd_obj *pcmd);
++void rtw_create_ibss_post_hdl(_adapter *padapter, int status);
++extern void rtw_getbbrfreg_cmdrsp_callback(_adapter  *padapter, struct cmd_obj *pcmd);
++extern void rtw_readtssi_cmdrsp_callback(_adapter	*padapter,  struct cmd_obj *pcmd);
++
++extern void rtw_setstaKey_cmdrsp_callback(_adapter  *padapter,  struct cmd_obj *pcmd);
++extern void rtw_setassocsta_cmdrsp_callback(_adapter  *padapter,  struct cmd_obj *pcmd);
++extern void rtw_getrttbl_cmdrsp_callback(_adapter  *padapter,  struct cmd_obj *pcmd);
++extern void rtw_getmacreg_cmdrsp_callback(_adapter *padapter,  struct cmd_obj *pcmd);
++
++
++struct _cmd_callback {
++	u32	cmd_code;
++	void (*callback)(_adapter  *padapter, struct cmd_obj *cmd);
++};
++
++enum rtw_h2c_cmd {
++	GEN_CMD_CODE(_Read_MACREG) ,	/*0*/
++	GEN_CMD_CODE(_Write_MACREG) ,
++	GEN_CMD_CODE(_Read_BBREG) ,
++	GEN_CMD_CODE(_Write_BBREG) ,
++	GEN_CMD_CODE(_Read_RFREG) ,
++	GEN_CMD_CODE(_Write_RFREG) , /*5*/
++	GEN_CMD_CODE(_Read_EEPROM) ,
++	GEN_CMD_CODE(_Write_EEPROM) ,
++	GEN_CMD_CODE(_Read_EFUSE) ,
++	GEN_CMD_CODE(_Write_EFUSE) ,
++
++	GEN_CMD_CODE(_Read_CAM) ,	/*10*/
++	GEN_CMD_CODE(_Write_CAM) ,
++	GEN_CMD_CODE(_setBCNITV),
++	GEN_CMD_CODE(_setMBIDCFG),
++	GEN_CMD_CODE(_JoinBss),   /*14*/
++	GEN_CMD_CODE(_DisConnect) , /*15*/
++	GEN_CMD_CODE(_CreateBss) ,
++	GEN_CMD_CODE(_SetOpMode) ,
++	GEN_CMD_CODE(_SiteSurvey),  /*18*/
++	GEN_CMD_CODE(_SetAuth) ,
++
++	GEN_CMD_CODE(_SetKey) ,	/*20*/
++	GEN_CMD_CODE(_SetStaKey) ,
++	GEN_CMD_CODE(_SetAssocSta) ,
++	GEN_CMD_CODE(_DelAssocSta) ,
++	GEN_CMD_CODE(_SetStaPwrState) ,
++	GEN_CMD_CODE(_SetBasicRate) , /*25*/
++	GEN_CMD_CODE(_GetBasicRate) ,
++	GEN_CMD_CODE(_SetDataRate) ,
++	GEN_CMD_CODE(_GetDataRate) ,
++	GEN_CMD_CODE(_SetPhyInfo) ,
++
++	GEN_CMD_CODE(_GetPhyInfo) ,	/*30*/
++	GEN_CMD_CODE(_SetPhy) ,
++	GEN_CMD_CODE(_GetPhy) ,
++	GEN_CMD_CODE(_readRssi) ,
++	GEN_CMD_CODE(_readGain) ,
++	GEN_CMD_CODE(_SetAtim) , /*35*/
++	GEN_CMD_CODE(_SetPwrMode) ,
++	GEN_CMD_CODE(_JoinbssRpt),
++	GEN_CMD_CODE(_SetRaTable) ,
++	GEN_CMD_CODE(_GetRaTable) ,
++
++	GEN_CMD_CODE(_GetCCXReport), /*40*/
++	GEN_CMD_CODE(_GetDTMReport),
++	GEN_CMD_CODE(_GetTXRateStatistics),
++	GEN_CMD_CODE(_SetUsbSuspend),
++	GEN_CMD_CODE(_SetH2cLbk),
++	GEN_CMD_CODE(_AddBAReq) , /*45*/
++	GEN_CMD_CODE(_SetChannel), /*46*/
++	GEN_CMD_CODE(_SetTxPower),
++	GEN_CMD_CODE(_SwitchAntenna),
++	GEN_CMD_CODE(_SetCrystalCap),
++	GEN_CMD_CODE(_SetSingleCarrierTx), /*50*/
++
++	GEN_CMD_CODE(_SetSingleToneTx),/*51*/
++	GEN_CMD_CODE(_SetCarrierSuppressionTx),
++	GEN_CMD_CODE(_SetContinuousTx),
++	GEN_CMD_CODE(_SwitchBandwidth), /*54*/
++	GEN_CMD_CODE(_TX_Beacon), /*55*/
++
++	GEN_CMD_CODE(_Set_MLME_EVT), /*56*/
++	GEN_CMD_CODE(_Set_Drv_Extra), /*57*/
++	GEN_CMD_CODE(_Set_H2C_MSG), /*58*/
++
++	GEN_CMD_CODE(_SetChannelPlan), /*59*/
++	GEN_CMD_CODE(_LedBlink), /*60*/
++
++	GEN_CMD_CODE(_SetChannelSwitch), /*61*/
++	GEN_CMD_CODE(_TDLS), /*62*/
++	GEN_CMD_CODE(_ChkBMCSleepq), /*63*/
++
++	GEN_CMD_CODE(_RunInThreadCMD), /*64*/
++	GEN_CMD_CODE(_AddBARsp) , /*65*/
++
++	MAX_H2CCMD
++};
++
++#define _GetMACReg_CMD_ _Read_MACREG_CMD_
++#define _SetMACReg_CMD_ _Write_MACREG_CMD_
++#define _GetBBReg_CMD_		_Read_BBREG_CMD_
++#define _SetBBReg_CMD_		_Write_BBREG_CMD_
++#define _GetRFReg_CMD_		_Read_RFREG_CMD_
++#define _SetRFReg_CMD_		_Write_RFREG_CMD_
++
++#ifdef _RTW_CMD_C_
++struct _cmd_callback	rtw_cmd_callback[] = {
++	{GEN_CMD_CODE(_Read_MACREG), &rtw_getmacreg_cmdrsp_callback}, /*0*/
++	{GEN_CMD_CODE(_Write_MACREG), NULL},
++	{GEN_CMD_CODE(_Read_BBREG), &rtw_getbbrfreg_cmdrsp_callback},
++	{GEN_CMD_CODE(_Write_BBREG), NULL},
++	{GEN_CMD_CODE(_Read_RFREG), &rtw_getbbrfreg_cmdrsp_callback},
++	{GEN_CMD_CODE(_Write_RFREG), NULL}, /*5*/
++	{GEN_CMD_CODE(_Read_EEPROM), NULL},
++	{GEN_CMD_CODE(_Write_EEPROM), NULL},
++	{GEN_CMD_CODE(_Read_EFUSE), NULL},
++	{GEN_CMD_CODE(_Write_EFUSE), NULL},
++
++	{GEN_CMD_CODE(_Read_CAM),	NULL},	/*10*/
++	{GEN_CMD_CODE(_Write_CAM),	 NULL},
++	{GEN_CMD_CODE(_setBCNITV), NULL},
++	{GEN_CMD_CODE(_setMBIDCFG), NULL},
++	{GEN_CMD_CODE(_JoinBss), &rtw_joinbss_cmd_callback},  /*14*/
++	{GEN_CMD_CODE(_DisConnect), &rtw_disassoc_cmd_callback}, /*15*/
++	{GEN_CMD_CODE(_CreateBss), NULL},
++	{GEN_CMD_CODE(_SetOpMode), NULL},
++	{GEN_CMD_CODE(_SiteSurvey), &rtw_survey_cmd_callback}, /*18*/
++	{GEN_CMD_CODE(_SetAuth), NULL},
++
++	{GEN_CMD_CODE(_SetKey), NULL},	/*20*/
++	{GEN_CMD_CODE(_SetStaKey), &rtw_setstaKey_cmdrsp_callback},
++	{GEN_CMD_CODE(_SetAssocSta), &rtw_setassocsta_cmdrsp_callback},
++	{GEN_CMD_CODE(_DelAssocSta), NULL},
++	{GEN_CMD_CODE(_SetStaPwrState), NULL},
++	{GEN_CMD_CODE(_SetBasicRate), NULL}, /*25*/
++	{GEN_CMD_CODE(_GetBasicRate), NULL},
++	{GEN_CMD_CODE(_SetDataRate), NULL},
++	{GEN_CMD_CODE(_GetDataRate), NULL},
++	{GEN_CMD_CODE(_SetPhyInfo), NULL},
++
++	{GEN_CMD_CODE(_GetPhyInfo), NULL}, /*30*/
++	{GEN_CMD_CODE(_SetPhy), NULL},
++	{GEN_CMD_CODE(_GetPhy), NULL},
++	{GEN_CMD_CODE(_readRssi), NULL},
++	{GEN_CMD_CODE(_readGain), NULL},
++	{GEN_CMD_CODE(_SetAtim), NULL}, /*35*/
++	{GEN_CMD_CODE(_SetPwrMode), NULL},
++	{GEN_CMD_CODE(_JoinbssRpt), NULL},
++	{GEN_CMD_CODE(_SetRaTable), NULL},
++	{GEN_CMD_CODE(_GetRaTable) , NULL},
++
++	{GEN_CMD_CODE(_GetCCXReport), NULL}, /*40*/
++	{GEN_CMD_CODE(_GetDTMReport),	NULL},
++	{GEN_CMD_CODE(_GetTXRateStatistics), NULL},
++	{GEN_CMD_CODE(_SetUsbSuspend), NULL},
++	{GEN_CMD_CODE(_SetH2cLbk), NULL},
++	{GEN_CMD_CODE(_AddBAReq), NULL}, /*45*/
++	{GEN_CMD_CODE(_SetChannel), NULL},		/*46*/
++	{GEN_CMD_CODE(_SetTxPower), NULL},
++	{GEN_CMD_CODE(_SwitchAntenna), NULL},
++	{GEN_CMD_CODE(_SetCrystalCap), NULL},
++	{GEN_CMD_CODE(_SetSingleCarrierTx), NULL},	/*50*/
++
++	{GEN_CMD_CODE(_SetSingleToneTx), NULL}, /*51*/
++	{GEN_CMD_CODE(_SetCarrierSuppressionTx), NULL},
++	{GEN_CMD_CODE(_SetContinuousTx), NULL},
++	{GEN_CMD_CODE(_SwitchBandwidth), NULL},		/*54*/
++	{GEN_CMD_CODE(_TX_Beacon), NULL},/*55*/
++
++	{GEN_CMD_CODE(_Set_MLME_EVT), NULL},/*56*/
++	{GEN_CMD_CODE(_Set_Drv_Extra), NULL},/*57*/
++	{GEN_CMD_CODE(_Set_H2C_MSG), NULL},/*58*/
++	{GEN_CMD_CODE(_SetChannelPlan), NULL},/*59*/
++	{GEN_CMD_CODE(_LedBlink), NULL},/*60*/
++
++	{GEN_CMD_CODE(_SetChannelSwitch), NULL},/*61*/
++	{GEN_CMD_CODE(_TDLS), NULL},/*62*/
++	{GEN_CMD_CODE(_ChkBMCSleepq), NULL}, /*63*/
++
++	{GEN_CMD_CODE(_RunInThreadCMD), NULL},/*64*/
++	{GEN_CMD_CODE(_AddBARsp), NULL}, /*65*/
++};
++#endif
++
++#define CMD_FMT "cmd=%d,%d,%d"
++#define CMD_ARG(cmd) \
++	(cmd)->cmdcode, \
++	(cmd)->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra) ? ((struct drvextra_cmd_parm *)(cmd)->parmbuf)->ec_id : ((cmd)->cmdcode == GEN_CMD_CODE(_Set_MLME_EVT) ? ((struct C2HEvent_Header *)(cmd)->parmbuf)->ID : 0), \
++	(cmd)->cmdcode == GEN_CMD_CODE(_Set_Drv_Extra) ? ((struct drvextra_cmd_parm *)(cmd)->parmbuf)->type : 0
++
++#endif /* _CMD_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_debug.h b/drivers/net/wireless/rtl8812au/include/rtw_debug.h
+new file mode 100644
+index 0000000..1c9a4a9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_debug.h
+@@ -0,0 +1,586 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_DEBUG_H__
++#define __RTW_DEBUG_H__
++
++/* driver log level*/
++enum {
++	_DRV_NONE_ = 0,
++	_DRV_ALWAYS_ = 1,
++	_DRV_ERR_ = 2,
++	_DRV_WARNING_ = 3,
++	_DRV_INFO_ = 4,
++	_DRV_DEBUG_ = 5,
++	_DRV_MAX_ = 6
++};
++
++#define DRIVER_PREFIX "RTW: "
++
++#ifdef PLATFORM_OS_CE
++extern void rtl871x_cedbg(const char *fmt, ...);
++#endif
++
++#ifdef PLATFORM_WINDOWS
++	#define RTW_PRINT do {} while (0)
++	#define RTW_ERR do {} while (0)
++	#define RTW_WARN do {} while (0)
++	#define RTW_INFO do {} while (0)
++	#define RTW_DBG do {} while (0)
++	#define RTW_PRINT_SEL do {} while (0)
++	#define _RTW_PRINT do {} while (0)
++	#define _RTW_ERR do {} while (0)
++	#define _RTW_WARN do {} while (0)
++	#define _RTW_INFO do {} while (0)
++	#define _RTW_DBG do {} while (0)
++	#define _RTW_PRINT_SEL do {} while (0)
++#else
++	#define RTW_PRINT(x, ...) do {} while (0)
++	#define RTW_ERR(x, ...) do {} while (0)
++	#define RTW_WARN(x,...) do {} while (0)
++	#define RTW_INFO(x,...) do {} while (0)
++	#define RTW_DBG(x,...) do {} while (0)
++	#define RTW_PRINT_SEL(x,...) do {} while (0)
++	#define _RTW_PRINT(x, ...) do {} while (0)
++	#define _RTW_ERR(x, ...) do {} while (0)
++	#define _RTW_WARN(x,...) do {} while (0)
++	#define _RTW_INFO(x,...) do {} while (0)
++	#define _RTW_DBG(x,...) do {} while (0)
++	#define _RTW_PRINT_SEL(x,...) do {} while (0)
++#endif
++
++#define RTW_INFO_DUMP(_TitleString, _HexData, _HexDataLen) do {} while (0)
++#define RTW_DBG_DUMP(_TitleString, _HexData, _HexDataLen) do {} while (0)
++#define _RTW_INFO_DUMP(_TitleString, _HexData, _HexDataLen) do {} while (0)
++#define _RTW_DBG_DUMP(_TitleString, _HexData, _HexDataLen) do {} while (0)
++
++#define RTW_DBG_EXPR(EXPR) do {} while (0)
++
++#define RTW_DBGDUMP 0 /* 'stream' for _dbgdump */
++
++/* don't use these 3 APIs anymore, will be removed later */
++#define RT_TRACE(_Comp, _Level, Fmt) do {} while (0)
++
++
++#undef _dbgdump
++#undef _seqdump
++
++#if defined(PLATFORM_WINDOWS) && defined(PLATFORM_OS_XP)
++	#define _dbgdump DbgPrint
++	#define _seqdump(sel, fmt, arg...) _dbgdump(fmt, ##arg)
++#elif defined(PLATFORM_WINDOWS) && defined(PLATFORM_OS_CE)
++	#define _dbgdump rtl871x_cedbg
++	#define _seqdump(sel, fmt, arg...) _dbgdump(fmt, ##arg)
++#elif defined PLATFORM_LINUX
++	#define _dbgdump printk
++	#define _seqdump seq_printf
++#elif defined PLATFORM_FREEBSD
++	#define _dbgdump printf
++	#define _seqdump(sel, fmt, arg...) _dbgdump(fmt, ##arg)
++#endif
++
++#ifdef CONFIG_RTW_DEBUG
++
++#ifndef _OS_INTFS_C_
++extern uint rtw_drv_log_level;
++#endif
++
++#if defined(_dbgdump)
++
++/* with driver-defined prefix */
++#undef RTW_PRINT
++#define RTW_PRINT(fmt, arg...)     \
++	do {\
++		if (_DRV_ALWAYS_ <= rtw_drv_log_level) {\
++			_dbgdump(DRIVER_PREFIX fmt, ##arg);\
++		} \
++	} while (0)
++
++#undef RTW_ERR
++#define RTW_ERR(fmt, arg...)     \
++	do {\
++		if (_DRV_ERR_ <= rtw_drv_log_level) {\
++			_dbgdump(DRIVER_PREFIX"ERROR " fmt, ##arg);\
++		} \
++	} while (0)
++
++
++#undef RTW_WARN
++#define RTW_WARN(fmt, arg...)     \
++	do {\
++		if (_DRV_WARNING_ <= rtw_drv_log_level) {\
++			_dbgdump(DRIVER_PREFIX"WARN " fmt, ##arg);\
++		} \
++	} while (0)
++
++#undef RTW_INFO
++#define RTW_INFO(fmt, arg...)     \
++	do {\
++		if (_DRV_INFO_ <= rtw_drv_log_level) {\
++			_dbgdump(DRIVER_PREFIX fmt, ##arg);\
++		} \
++	} while (0)
++
++
++#undef RTW_DBG
++#define RTW_DBG(fmt, arg...)     \
++	do {\
++		if (_DRV_DEBUG_ <= rtw_drv_log_level) {\
++			_dbgdump(DRIVER_PREFIX fmt, ##arg);\
++		} \
++	} while (0)
++
++
++#undef RTW_INFO_DUMP
++#define RTW_INFO_DUMP(_TitleString, _HexData, _HexDataLen)			\
++	do {\
++		if (_DRV_INFO_ <= rtw_drv_log_level) {	\
++			int __i;								\
++			u8	*ptr = (u8 *)_HexData;				\
++			_dbgdump("%s", DRIVER_PREFIX);						\
++			_dbgdump(_TitleString);						\
++			for (__i = 0; __i < (int)_HexDataLen; __i++) {				\
++				_dbgdump("%02X%s", ptr[__i], (((__i + 1) % 4) == 0) ? "  " : " ");	\
++				if (((__i + 1) % 16) == 0)	\
++					_dbgdump("\n");			\
++			}								\
++			_dbgdump("\n");							\
++		} \
++	} while (0)
++
++#undef RTW_DBG_DUMP
++#define RTW_DBG_DUMP(_TitleString, _HexData, _HexDataLen)			\
++	do {\
++		if (_DRV_DEBUG_ <= rtw_drv_log_level) { \
++			int __i;								\
++			u8	*ptr = (u8 *)_HexData;				\
++			_dbgdump("%s", DRIVER_PREFIX);						\
++			_dbgdump(_TitleString);						\
++			for (__i = 0; __i < (int)_HexDataLen; __i++) {				\
++				_dbgdump("%02X%s", ptr[__i], (((__i + 1) % 4) == 0) ? "  " : " ");	\
++				if (((__i + 1) % 16) == 0)	\
++					_dbgdump("\n");			\
++			}								\
++			_dbgdump("\n");							\
++		} \
++	} while (0)
++
++
++
++/* without driver-defined prefix */
++#undef _RTW_PRINT
++#define _RTW_PRINT(fmt, arg...)     \
++	do {\
++		if (_DRV_ALWAYS_ <= rtw_drv_log_level) {\
++			_dbgdump(fmt, ##arg);\
++		} \
++	} while (0)
++
++#undef _RTW_ERR
++#define _RTW_ERR(fmt, arg...)     \
++	do {\
++		if (_DRV_ERR_ <= rtw_drv_log_level) {\
++			_dbgdump(fmt, ##arg);\
++		} \
++	} while (0)
++
++
++#undef _RTW_WARN
++#define _RTW_WARN(fmt, arg...)     \
++	do {\
++		if (_DRV_WARNING_ <= rtw_drv_log_level) {\
++			_dbgdump(fmt, ##arg);\
++		} \
++	} while (0)
++
++#undef _RTW_INFO
++#define _RTW_INFO(fmt, arg...)     \
++	do {\
++		if (_DRV_INFO_ <= rtw_drv_log_level) {\
++			_dbgdump(fmt, ##arg);\
++		} \
++	} while (0)
++
++#undef _RTW_DBG
++#define _RTW_DBG(fmt, arg...)     \
++	do {\
++		if (_DRV_DEBUG_ <= rtw_drv_log_level) {\
++			_dbgdump(fmt, ##arg);\
++		} \
++	} while (0)
++
++
++#undef _RTW_INFO_DUMP
++#define _RTW_INFO_DUMP(_TitleString, _HexData, _HexDataLen)			\
++	if (_DRV_INFO_ <= rtw_drv_log_level) {	\
++		int __i;								\
++		u8	*ptr = (u8 *)_HexData;				\
++		_dbgdump(_TitleString);						\
++		for (__i = 0; __i<(int)_HexDataLen; __i++)				\
++		{								\
++			_dbgdump("%02X%s", ptr[__i], (((__i + 1) % 4) == 0) ? "  " : " ");	\
++			if (((__i + 1) % 16) == 0)	_dbgdump("\n");			\
++		}								\
++		_dbgdump("\n");							\
++	}
++
++#undef _RTW_DBG_DUMP
++#define _RTW_DBG_DUMP(_TitleString, _HexData, _HexDataLen)			\
++	if (_DRV_DEBUG_ <= rtw_drv_log_level) { \
++		int __i;								\
++		u8	*ptr = (u8 *)_HexData;				\
++		_dbgdump(_TitleString);						\
++		for (__i = 0; __i<(int)_HexDataLen; __i++)				\
++		{								\
++			_dbgdump("%02X%s", ptr[__i], (((__i + 1) % 4) == 0) ? "  " : " ");	\
++			if (((__i + 1) % 16) == 0)	_dbgdump("\n");			\
++		}								\
++		_dbgdump("\n");							\
++	}
++
++/* other debug APIs */
++#undef RTW_DBG_EXPR
++#define RTW_DBG_EXPR(EXPR) do { if (_DRV_DEBUG_ <= rtw_drv_log_level) EXPR; } while (0)
++
++#endif /* defined(_dbgdump) */
++#endif /* CONFIG_RTW_DEBUG */
++
++
++#if defined(_seqdump)
++/* dump message to selected 'stream' with driver-defined prefix */
++#undef RTW_PRINT_SEL
++#define RTW_PRINT_SEL(sel, fmt, arg...) \
++	do {\
++		if (sel == RTW_DBGDUMP)\
++			RTW_PRINT(fmt, ##arg); \
++		else {\
++			_seqdump(sel, fmt, ##arg) /*rtw_warn_on(1)*/; \
++		} \
++	} while (0)
++
++/* dump message to selected 'stream' */
++#undef _RTW_PRINT_SEL
++#define _RTW_PRINT_SEL(sel, fmt, arg...) \
++	do {\
++		if (sel == RTW_DBGDUMP)\
++			_RTW_PRINT(fmt, ##arg); \
++		else {\
++			_seqdump(sel, fmt, ##arg) /*rtw_warn_on(1)*/; \
++		} \
++	} while (0)
++
++#endif /* defined(_seqdump) */
++
++
++#ifdef CONFIG_DBG_COUNTER
++	#define DBG_COUNTER(counter) counter++
++#else
++	#define DBG_COUNTER(counter)
++#endif
++
++void dump_drv_version(void *sel);
++void dump_log_level(void *sel);
++void dump_drv_cfg(void *sel);
++
++#ifdef CONFIG_SDIO_HCI
++void sd_f0_reg_dump(void *sel, _adapter *adapter);
++void sdio_local_reg_dump(void *sel, _adapter *adapter);
++#endif /* CONFIG_SDIO_HCI */
++
++void mac_reg_dump(void *sel, _adapter *adapter);
++void bb_reg_dump(void *sel, _adapter *adapter);
++void rf_reg_dump(void *sel, _adapter *adapter);
++
++bool rtw_fwdl_test_trigger_chksum_fail(void);
++bool rtw_fwdl_test_trigger_wintint_rdy_fail(void);
++bool rtw_del_rx_ampdu_test_trigger_no_tx_fail(void);
++
++u32 rtw_get_wait_hiq_empty_ms(void);
++void rtw_sink_rtp_seq_dbg(_adapter *adapter, _pkt *pkt);
++
++struct sta_info;
++void sta_rx_reorder_ctl_dump(void *sel, struct sta_info *sta);
++
++struct dvobj_priv;
++void dump_tx_rate_bmp(void *sel, struct dvobj_priv *dvobj);
++void dump_adapters_status(void *sel, struct dvobj_priv *dvobj);
++void dump_adapters_info(void *sel, struct dvobj_priv *dvobj);
++
++struct sec_cam_ent;
++void dump_sec_cam_ent(void *sel, struct sec_cam_ent *ent, int id);
++void dump_sec_cam_ent_title(void *sel, u8 has_id);
++void dump_sec_cam(void *sel, _adapter *adapter);
++void dump_sec_cam_cache(void *sel, _adapter *adapter);
++
++#ifdef CONFIG_PROC_DEBUG
++ssize_t proc_set_write_reg(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_read_reg(struct seq_file *m, void *v);
++ssize_t proc_set_read_reg(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++int proc_get_fwstate(struct seq_file *m, void *v);
++int proc_get_sec_info(struct seq_file *m, void *v);
++int proc_get_mlmext_state(struct seq_file *m, void *v);
++#ifdef CONFIG_LAYER2_ROAMING
++int proc_get_roam_flags(struct seq_file *m, void *v);
++ssize_t proc_set_roam_flags(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_roam_param(struct seq_file *m, void *v);
++ssize_t proc_set_roam_param(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++ssize_t proc_set_roam_tgt_addr(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif /* CONFIG_LAYER2_ROAMING */
++int proc_get_qos_option(struct seq_file *m, void *v);
++int proc_get_ht_option(struct seq_file *m, void *v);
++int proc_get_rf_info(struct seq_file *m, void *v);
++int proc_get_scan_param(struct seq_file *m, void *v);
++ssize_t proc_set_scan_param(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_scan_abort(struct seq_file *m, void *v);
++#ifdef CONFIG_SCAN_BACKOP
++int proc_get_backop_flags_sta(struct seq_file *m, void *v);
++ssize_t proc_set_backop_flags_sta(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_backop_flags_ap(struct seq_file *m, void *v);
++ssize_t proc_set_backop_flags_ap(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif /* CONFIG_SCAN_BACKOP */
++int proc_get_survey_info(struct seq_file *m, void *v);
++ssize_t proc_set_survey_info(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_ap_info(struct seq_file *m, void *v);
++ssize_t proc_reset_trx_info(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_trx_info(struct seq_file *m, void *v);
++int proc_get_rate_ctl(struct seq_file *m, void *v);
++int proc_get_wifi_spec(struct seq_file *m, void *v);
++ssize_t proc_set_rate_ctl(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_bw_ctl(struct seq_file *m, void *v);
++ssize_t proc_set_bw_ctl(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#ifdef DBG_RX_COUNTER_DUMP
++int proc_get_rx_cnt_dump(struct seq_file *m, void *v);
++ssize_t proc_set_rx_cnt_dump(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif
++int proc_get_dis_pwt(struct seq_file *m, void *v);
++ssize_t proc_set_dis_pwt(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++int proc_get_suspend_resume_info(struct seq_file *m, void *v);
++
++ssize_t proc_set_fwdl_test_case(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++ssize_t proc_set_del_rx_ampdu_test_case(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#ifdef CONFIG_DFS_MASTER
++int proc_get_dfs_master_test_case(struct seq_file *m, void *v);
++ssize_t proc_set_dfs_master_test_case(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif /* CONFIG_DFS_MASTER */
++ssize_t proc_set_wait_hiq_empty(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++#ifdef CONFIG_AP_MODE
++int proc_get_all_sta_info(struct seq_file *m, void *v);
++#endif /* CONFIG_AP_MODE */
++
++#ifdef DBG_MEMORY_LEAK
++int proc_get_malloc_cnt(struct seq_file *m, void *v);
++#endif /* DBG_MEMORY_LEAK */
++
++#ifdef CONFIG_FIND_BEST_CHANNEL
++int proc_get_best_channel(struct seq_file *m, void *v);
++ssize_t proc_set_best_channel(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif /* CONFIG_FIND_BEST_CHANNEL */
++
++int proc_get_trx_info_debug(struct seq_file *m, void *v);
++
++int proc_get_rx_signal(struct seq_file *m, void *v);
++ssize_t proc_set_rx_signal(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_hw_status(struct seq_file *m, void *v);
++ssize_t proc_set_hw_status(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++#ifdef CONFIG_80211N_HT
++int proc_get_ht_enable(struct seq_file *m, void *v);
++ssize_t proc_set_ht_enable(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++int proc_get_bw_mode(struct seq_file *m, void *v);
++ssize_t proc_set_bw_mode(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++int proc_get_ampdu_enable(struct seq_file *m, void *v);
++ssize_t proc_set_ampdu_enable(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++int proc_get_mac_rptbuf(struct seq_file *m, void *v);
++
++int proc_get_rx_ampdu(struct seq_file *m, void *v);
++ssize_t proc_set_rx_ampdu(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++void rtw_dump_dft_phy_cap(void *sel, _adapter *adapter);
++void rtw_get_dft_phy_cap(void *sel, _adapter *adapter);
++void rtw_dump_drv_phy_cap(void *sel, _adapter *adapter);
++
++int proc_get_rx_stbc(struct seq_file *m, void *v);
++ssize_t proc_set_rx_stbc(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_stbc_cap(struct seq_file *m, void *v);
++ssize_t proc_set_stbc_cap(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_ldpc_cap(struct seq_file *m, void *v);
++ssize_t proc_set_ldpc_cap(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#ifdef CONFIG_BEAMFORMING
++int proc_get_txbf_cap(struct seq_file *m, void *v);
++ssize_t proc_set_txbf_cap(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif
++int proc_get_rx_ampdu_factor(struct seq_file *m, void *v);
++ssize_t proc_set_rx_ampdu_factor(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++int proc_get_rx_ampdu_density(struct seq_file *m, void *v);
++ssize_t proc_set_rx_ampdu_density(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++int proc_get_tx_ampdu_density(struct seq_file *m, void *v);
++ssize_t proc_set_tx_ampdu_density(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif /* CONFIG_80211N_HT */
++
++int proc_get_en_fwps(struct seq_file *m, void *v);
++ssize_t proc_set_en_fwps(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++#if 0
++int proc_get_two_path_rssi(struct seq_file *m, void *v);
++int proc_get_rssi_disp(struct seq_file *m, void *v);
++ssize_t proc_set_rssi_disp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif
++
++#ifdef CONFIG_BT_COEXIST
++int proc_get_btcoex_dbg(struct seq_file *m, void *v);
++ssize_t proc_set_btcoex_dbg(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_btcoex_info(struct seq_file *m, void *v);
++#endif /* CONFIG_BT_COEXIST */
++
++#if defined(DBG_CONFIG_ERROR_DETECT)
++int proc_get_sreset(struct seq_file *m, void *v);
++ssize_t proc_set_sreset(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif /* DBG_CONFIG_ERROR_DETECT */
++
++int proc_get_odm_adaptivity(struct seq_file *m, void *v);
++ssize_t proc_set_odm_adaptivity(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++#ifdef CONFIG_DBG_COUNTER
++int proc_get_rx_logs(struct seq_file *m, void *v);
++int proc_get_tx_logs(struct seq_file *m, void *v);
++int proc_get_int_logs(struct seq_file *m, void *v);
++#endif
++
++#ifdef CONFIG_PCI_HCI
++int proc_get_rx_ring(struct seq_file *m, void *v);
++int proc_get_tx_ring(struct seq_file *m, void *v);
++#endif
++
++#ifdef CONFIG_WOWLAN
++int proc_get_pattern_info(struct seq_file *m, void *v);
++ssize_t proc_set_pattern_info(struct file *file, const char __user *buffer,
++		size_t count, loff_t *pos, void *data);
++int proc_get_wakeup_reason(struct seq_file *m, void *v);
++#endif
++
++#ifdef CONFIG_GPIO_WAKEUP
++int proc_get_wowlan_gpio_info(struct seq_file *m, void *v);
++ssize_t proc_set_wowlan_gpio_info(struct file *file, const char __user *buffer,
++		size_t count, loff_t *pos, void *data);
++#endif /*CONFIG_GPIO_WAKEUP*/
++
++#ifdef CONFIG_P2P_WOWLAN
++int proc_get_p2p_wowlan_info(struct seq_file *m, void *v);
++#endif /* CONFIG_P2P_WOWLAN */
++
++int proc_get_new_bcn_max(struct seq_file *m, void *v);
++ssize_t proc_set_new_bcn_max(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++#ifdef CONFIG_POWER_SAVING
++int proc_get_ps_info(struct seq_file *m, void *v);
++#endif /* CONFIG_POWER_SAVING */
++
++#ifdef CONFIG_TDLS
++int proc_get_tdls_info(struct seq_file *m, void *v);
++#endif
++
++int proc_get_monitor(struct seq_file *m, void *v);
++ssize_t proc_set_monitor(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++
++#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++int proc_get_rtkm_info(struct seq_file *m, void *v);
++#endif /* CONFIG_PREALLOC_RX_SKB_BUFFER */
++
++#ifdef CONFIG_IEEE80211W
++ssize_t proc_set_tx_sa_query(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_tx_sa_query(struct seq_file *m, void *v);
++ssize_t proc_set_tx_deauth(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_tx_deauth(struct seq_file *m, void *v);
++ssize_t proc_set_tx_auth(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++int proc_get_tx_auth(struct seq_file *m, void *v);
++#endif /* CONFIG_IEEE80211W */
++
++#endif /* CONFIG_PROC_DEBUG */
++
++int proc_get_efuse_map(struct seq_file *m, void *v);
++ssize_t proc_set_efuse_map(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++
++#ifdef CONFIG_MCC_MODE
++int proc_get_mcc_info(struct seq_file *m, void *v);
++ssize_t proc_set_mcc_enable(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++ssize_t proc_set_mcc_single_tx_criteria(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++ssize_t proc_set_mcc_ap_bw20_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++ssize_t proc_set_mcc_ap_bw40_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++ssize_t proc_set_mcc_ap_bw80_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++ssize_t proc_set_mcc_sta_bw20_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++ssize_t proc_set_mcc_sta_bw40_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++ssize_t proc_set_mcc_sta_bw80_target_tp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++#endif /* CONFIG_MCC_MODE */
++
++
++#define _drv_always_		1
++#define _drv_emerg_			2
++#define _drv_alert_			3
++#define _drv_crit_			4
++#define _drv_err_			5
++#define _drv_warning_		6
++#define _drv_notice_		7
++#define _drv_info_			8
++#define _drv_dump_			9
++#define _drv_debug_			10
++
++#define _module_rtl871x_xmit_c_		BIT(0)
++#define _module_xmit_osdep_c_		BIT(1)
++#define _module_rtl871x_recv_c_		BIT(2)
++#define _module_recv_osdep_c_		BIT(3)
++#define _module_rtl871x_mlme_c_		BIT(4)
++#define _module_mlme_osdep_c_		BIT(5)
++#define _module_rtl871x_sta_mgt_c_		BIT(6)
++#define _module_rtl871x_cmd_c_			BIT(7)
++#define _module_cmd_osdep_c_		BIT(8)
++#define _module_rtl871x_io_c_				BIT(9)
++#define _module_io_osdep_c_		BIT(10)
++#define _module_os_intfs_c_			BIT(11)
++#define _module_rtl871x_security_c_		BIT(12)
++#define _module_rtl871x_eeprom_c_			BIT(13)
++#define _module_hal_init_c_		BIT(14)
++#define _module_hci_hal_init_c_		BIT(15)
++#define _module_rtl871x_ioctl_c_		BIT(16)
++#define _module_rtl871x_ioctl_set_c_		BIT(17)
++#define _module_rtl871x_ioctl_query_c_	BIT(18)
++#define _module_rtl871x_pwrctrl_c_			BIT(19)
++#define _module_hci_intfs_c_			BIT(20)
++#define _module_hci_ops_c_			BIT(21)
++#define _module_osdep_service_c_			BIT(22)
++#define _module_mp_			BIT(23)
++#define _module_hci_ops_os_c_			BIT(24)
++#define _module_rtl871x_ioctl_os_c		BIT(25)
++#define _module_rtl8712_cmd_c_		BIT(26)
++/* #define _module_efuse_			BIT(27) */
++#define	_module_rtl8192c_xmit_c_ BIT(28)
++#define _module_hal_xmit_c_	BIT(28)
++#define _module_efuse_			BIT(29)
++#define _module_rtl8712_recv_c_		BIT(30)
++#define _module_rtl8712_led_c_		BIT(31)
++
++#endif /* __RTW_DEBUG_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_eeprom.h b/drivers/net/wireless/rtl8812au/include/rtw_eeprom.h
+new file mode 100644
+index 0000000..9d9103f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_eeprom.h
+@@ -0,0 +1,121 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_EEPROM_H__
++#define __RTW_EEPROM_H__
++
++
++#define	RTL8712_EEPROM_ID			0x8712
++/* #define	EEPROM_MAX_SIZE			256 */
++
++#define	HWSET_MAX_SIZE_128		128
++#define	HWSET_MAX_SIZE_256		256
++#define	HWSET_MAX_SIZE_512		512
++#define HWSET_MAX_SIZE_1024		1024
++
++#define	EEPROM_MAX_SIZE			HWSET_MAX_SIZE_1024
++
++#define	CLOCK_RATE					50			/* 100us		 */
++
++/* - EEPROM opcodes */
++#define EEPROM_READ_OPCODE		06
++#define EEPROM_WRITE_OPCODE		05
++#define EEPROM_ERASE_OPCODE		07
++#define EEPROM_EWEN_OPCODE		19      /* Erase/write enable */
++#define EEPROM_EWDS_OPCODE		16      /* Erase/write disable */
++
++/* Country codes */
++#define USA							0x555320
++#define EUROPE						0x1 /* temp, should be provided later	 */
++#define JAPAN						0x2 /* temp, should be provided later */
++
++/*
++ * Customer ID, note that:
++ * This variable is initiailzed through EEPROM or registry,
++ * however, its definition may be different with that in EEPROM for
++ * EEPROM size consideration. So, we have to perform proper translation between them.
++ * Besides, CustomerID of registry has precedence of that of EEPROM.
++ * defined below. 060703, by rcnjko.
++ *   */
++typedef enum _RT_CUSTOMER_ID {
++	RT_CID_DEFAULT = 0,
++	RT_CID_8187_ALPHA0 = 1,
++	RT_CID_8187_SERCOMM_PS = 2,
++	RT_CID_8187_HW_LED = 3,
++	RT_CID_8187_NETGEAR = 4,
++	RT_CID_WHQL = 5,
++	RT_CID_819x_CAMEO  = 6,
++	RT_CID_819x_RUNTOP = 7,
++	RT_CID_819x_Senao = 8,
++	RT_CID_TOSHIBA = 9,	/* Merge by Jacken, 2008/01/31. */
++	RT_CID_819x_Netcore = 10,
++	RT_CID_Nettronix = 11,
++	RT_CID_DLINK = 12,
++	RT_CID_PRONET = 13,
++	RT_CID_COREGA = 14,
++	RT_CID_CHINA_MOBILE = 15,
++	RT_CID_819x_ALPHA = 16,
++	RT_CID_819x_Sitecom = 17,
++	RT_CID_CCX = 18, /* It's set under CCX logo test and isn't demanded for CCX functions, but for test behavior like retry limit and tx report. By Bruce, 2009-02-17. */
++	RT_CID_819x_Lenovo = 19,
++	RT_CID_819x_QMI = 20,
++	RT_CID_819x_Edimax_Belkin = 21,
++	RT_CID_819x_Sercomm_Belkin = 22,
++	RT_CID_819x_CAMEO1 = 23,
++	RT_CID_819x_MSI = 24,
++	RT_CID_819x_Acer = 25,
++	RT_CID_819x_AzWave_ASUS = 26,
++	RT_CID_819x_AzWave = 27, /* For AzWave in PCIe, The ID is AzWave use and not only Asus */
++	RT_CID_819x_HP = 28,
++	RT_CID_819x_WNC_COREGA = 29,
++	RT_CID_819x_Arcadyan_Belkin = 30,
++	RT_CID_819x_SAMSUNG = 31,
++	RT_CID_819x_CLEVO = 32,
++	RT_CID_819x_DELL = 33,
++	RT_CID_819x_PRONETS = 34,
++	RT_CID_819x_Edimax_ASUS = 35,
++	RT_CID_NETGEAR = 36,
++	RT_CID_PLANEX = 37,
++	RT_CID_CC_C = 38,
++	RT_CID_819x_Xavi = 39,
++	RT_CID_LENOVO_CHINA = 40,
++	RT_CID_INTEL_CHINA = 41,
++	RT_CID_TPLINK_HPWR = 42,
++	RT_CID_819x_Sercomm_Netgear = 43,
++	RT_CID_819x_ALPHA_Dlink = 44,/* add by ylb 20121012 for customer led for alpha */
++	RT_CID_WNC_NEC = 45,/* add by page for NEC */
++	RT_CID_DNI_BUFFALO = 46,/* add by page for NEC */
++} RT_CUSTOMER_ID, *PRT_CUSTOMER_ID;
++
++extern void eeprom_write16(_adapter *padapter, u16 reg, u16 data);
++extern u16 eeprom_read16(_adapter *padapter, u16 reg);
++extern void read_eeprom_content(_adapter *padapter);
++extern void eeprom_read_sz(_adapter *padapter, u16 reg, u8 *data, u32 sz);
++
++extern void read_eeprom_content_by_attrib(_adapter	*padapter);
++
++#ifdef PLATFORM_LINUX
++#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++extern int isAdaptorInfoFileValid(void);
++extern int storeAdaptorInfoFile(char *path, u8 *efuse_data);
++extern int retriveAdaptorInfoFile(char *path, u8 *efuse_data);
++#endif /* CONFIG_ADAPTOR_INFO_CACHING_FILE */
++#endif /* PLATFORM_LINUX */
++
++#endif /* __RTL871X_EEPROM_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_efuse.h b/drivers/net/wireless/rtl8812au/include/rtw_efuse.h
+new file mode 100644
+index 0000000..6ffde1b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_efuse.h
+@@ -0,0 +1,244 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_EFUSE_H__
++#define __RTW_EFUSE_H__
++
++
++#define	EFUSE_ERROE_HANDLE		1
++
++#define	PG_STATE_HEADER		0x01
++#define	PG_STATE_WORD_0		0x02
++#define	PG_STATE_WORD_1		0x04
++#define	PG_STATE_WORD_2		0x08
++#define	PG_STATE_WORD_3		0x10
++#define	PG_STATE_DATA			0x20
++
++#define	PG_SWBYTE_H			0x01
++#define	PG_SWBYTE_L			0x02
++
++#define	PGPKT_DATA_SIZE		8
++
++#define	EFUSE_WIFI				0
++#define	EFUSE_BT				1
++
++enum _EFUSE_DEF_TYPE {
++	TYPE_EFUSE_MAX_SECTION				= 0,
++	TYPE_EFUSE_REAL_CONTENT_LEN			= 1,
++	TYPE_AVAILABLE_EFUSE_BYTES_BANK		= 2,
++	TYPE_AVAILABLE_EFUSE_BYTES_TOTAL	= 3,
++	TYPE_EFUSE_MAP_LEN					= 4,
++	TYPE_EFUSE_PROTECT_BYTES_BANK		= 5,
++	TYPE_EFUSE_CONTENT_LEN_BANK			= 6,
++};
++
++#define		EFUSE_MAX_MAP_LEN		1024
++
++#define		EFUSE_MAX_HW_SIZE		1024
++#define		EFUSE_MAX_SECTION_BASE	16
++
++/*RTL8822B 8821C BT EFUSE Define 1 BANK 128 size logical map 1024*/ 
++#ifdef RTW_HALMAC
++#define BANK_NUM		1
++#define EFUSE_BT_REAL_BANK_CONTENT_LEN	128
++#define EFUSE_BT_REAL_CONTENT_LEN		(EFUSE_BT_REAL_BANK_CONTENT_LEN * BANK_NUM)
++#define EFUSE_BT_MAP_LEN				1024	/* 1k bytes */
++#define EFUSE_BT_MAX_SECTION			(EFUSE_BT_MAP_LEN / 8)
++#define EFUSE_PROTECT_BYTES_BANK		16
++#define AVAILABLE_EFUSE_ADDR(addr)	(addr < EFUSE_BT_REAL_CONTENT_LEN)
++#endif
++
++#define EXT_HEADER(header) ((header & 0x1F) == 0x0F)
++#define ALL_WORDS_DISABLED(wde)	((wde & 0x0F) == 0x0F)
++#define GET_HDR_OFFSET_2_0(header) ((header & 0xE0) >> 5)
++
++#define		EFUSE_REPEAT_THRESHOLD_			3
++
++#define IS_MASKED_MP(ic, txt, offset) (EFUSE_IsAddressMasked_MP_##ic##txt(offset))
++#define IS_MASKED_TC(ic, txt, offset) (EFUSE_IsAddressMasked_TC_##ic##txt(offset))
++#define GET_MASK_ARRAY_LEN_MP(ic, txt) (EFUSE_GetArrayLen_MP_##ic##txt())
++#define GET_MASK_ARRAY_LEN_TC(ic, txt) (EFUSE_GetArrayLen_TC_##ic##txt())
++#define GET_MASK_ARRAY_MP(ic, txt, offset) (EFUSE_GetMaskArray_MP_##ic##txt(offset))
++#define GET_MASK_ARRAY_TC(ic, txt, offset) (EFUSE_GetMaskArray_TC_##ic##txt(offset))
++
++
++#define IS_MASKED(ic, txt, offset) (IS_MASKED_MP(ic, txt, offset))
++#define GET_MASK_ARRAY_LEN(ic, txt) (GET_MASK_ARRAY_LEN_MP(ic, txt))
++#define GET_MASK_ARRAY(ic, txt, out) do { GET_MASK_ARRAY_MP(ic, txt, out); } while (0)
++
++/* *********************************************
++ *	The following is for BT Efuse definition
++ * ********************************************* */
++#define		EFUSE_BT_MAX_MAP_LEN		1024
++#define		EFUSE_MAX_BANK			4
++#define		EFUSE_MAX_BT_BANK		(EFUSE_MAX_BANK-1)
++/* *********************************************
++ *--------------------------Define Parameters-------------------------------*/
++#define		EFUSE_MAX_WORD_UNIT			4
++
++/*------------------------------Define structure----------------------------*/
++typedef struct PG_PKT_STRUCT_A {
++	u8 offset;
++	u8 word_en;
++	u8 data[8];
++	u8 word_cnts;
++} PGPKT_STRUCT, *PPGPKT_STRUCT;
++
++typedef enum {
++	ERR_SUCCESS = 0,
++	ERR_DRIVER_FAILURE,
++	ERR_IO_FAILURE,
++	ERR_WI_TIMEOUT,
++	ERR_WI_BUSY,
++	ERR_BAD_FORMAT,
++	ERR_INVALID_DATA,
++	ERR_NOT_ENOUGH_SPACE,
++	ERR_WRITE_PROTECT,
++	ERR_READ_BACK_FAIL,
++	ERR_OUT_OF_RANGE
++} ERROR_CODE;
++
++/*------------------------------Define structure----------------------------*/
++typedef struct _EFUSE_HAL {
++	u8	fakeEfuseBank;
++	u32	fakeEfuseUsedBytes;
++	u8	fakeEfuseContent[EFUSE_MAX_HW_SIZE];
++	u8	fakeEfuseInitMap[EFUSE_MAX_MAP_LEN];
++	u8	fakeEfuseModifiedMap[EFUSE_MAX_MAP_LEN];
++	u32	EfuseUsedBytes;
++	u8	EfuseUsedPercentage;
++
++	u16	BTEfuseUsedBytes;
++	u8	BTEfuseUsedPercentage;
++	u8	BTEfuseContent[EFUSE_MAX_BT_BANK][EFUSE_MAX_HW_SIZE];
++	u8	BTEfuseInitMap[EFUSE_BT_MAX_MAP_LEN];
++	u8	BTEfuseModifiedMap[EFUSE_BT_MAX_MAP_LEN];
++
++	u16	fakeBTEfuseUsedBytes;
++	u8	fakeBTEfuseContent[EFUSE_MAX_BT_BANK][EFUSE_MAX_HW_SIZE];
++	u8	fakeBTEfuseInitMap[EFUSE_BT_MAX_MAP_LEN];
++	u8	fakeBTEfuseModifiedMap[EFUSE_BT_MAX_MAP_LEN];
++
++	/* EFUSE Configuration, initialized in HAL_CmnInitPGData(). */
++	const u16  MaxSecNum_WiFi;
++	const u16  MaxSecNum_BT;
++	const u16  WordUnit;
++	const u16  PhysicalLen_WiFi;
++	const u16  PhysicalLen_BT;
++	const u16  LogicalLen_WiFi;
++	const u16  LogicalLen_BT;
++	const u16  BankSize;
++	const u16  TotalBankNum;
++	const u16  BankNum_WiFi;
++	const u16  BankNum_BT;
++	const u16  OOBProtectBytes;
++	const u16  ProtectBytes;
++	const u16  BankAvailBytes;
++	const u16  TotalAvailBytes_WiFi;
++	const u16  TotalAvailBytes_BT;
++	const u16  HeaderRetry;
++	const u16  DataRetry;
++
++	ERROR_CODE	  Status;
++
++} EFUSE_HAL, *PEFUSE_HAL;
++
++extern u8 maskfileBuffer[32];
++
++/*------------------------Export global variable----------------------------*/
++extern u8 fakeEfuseBank;
++extern u32 fakeEfuseUsedBytes;
++extern u8 fakeEfuseContent[];
++extern u8 fakeEfuseInitMap[];
++extern u8 fakeEfuseModifiedMap[];
++
++extern u32 BTEfuseUsedBytes;
++extern u8 BTEfuseContent[EFUSE_MAX_BT_BANK][EFUSE_MAX_HW_SIZE];
++extern u8 BTEfuseInitMap[];
++extern u8 BTEfuseModifiedMap[];
++
++extern u32 fakeBTEfuseUsedBytes;
++extern u8 fakeBTEfuseContent[EFUSE_MAX_BT_BANK][EFUSE_MAX_HW_SIZE];
++extern u8 fakeBTEfuseInitMap[];
++extern u8 fakeBTEfuseModifiedMap[];
++/*------------------------Export global variable----------------------------*/
++u8	efuse_bt_GetCurrentSize(PADAPTER padapter, u16 *size);
++u16	efuse_bt_GetMaxSize(PADAPTER padapter);
++
++u8	efuse_GetCurrentSize(PADAPTER padapter, u16 *size);
++u16	efuse_GetMaxSize(PADAPTER padapter);
++u8	rtw_efuse_access(PADAPTER padapter, u8 bRead, u16 start_addr, u16 cnts, u8 *data);
++u8	rtw_efuse_bt_access(PADAPTER adapter, u8 write, u16 addr, u16 cnts, u8 *data);
++
++u8	rtw_efuse_mask_map_read(PADAPTER padapter, u16 addr, u16 cnts, u8 *data);
++u8	rtw_efuse_map_read(PADAPTER padapter, u16 addr, u16 cnts, u8 *data);
++u8	rtw_efuse_map_write(PADAPTER padapter, u16 addr, u16 cnts, u8 *data);
++u8	rtw_BT_efuse_map_read(PADAPTER padapter, u16 addr, u16 cnts, u8 *data);
++u8	rtw_BT_efuse_map_write(PADAPTER padapter, u16 addr, u16 cnts, u8 *data);
++
++u16	Efuse_GetCurrentSize(PADAPTER pAdapter, u8 efuseType, BOOLEAN bPseudoTest);
++u8	Efuse_CalculateWordCnts(u8 word_en);
++void	ReadEFuseByte(PADAPTER Adapter, u16 _offset, u8 *pbuf, BOOLEAN bPseudoTest) ;
++void	EFUSE_GetEfuseDefinition(PADAPTER pAdapter, u8 efuseType, u8 type, void *pOut, BOOLEAN bPseudoTest);
++u8	efuse_OneByteRead(PADAPTER pAdapter, u16 addr, u8 *data, BOOLEAN	 bPseudoTest);
++u8	efuse_OneByteWrite(PADAPTER pAdapter, u16 addr, u8 data, BOOLEAN	 bPseudoTest);
++
++void	BTEfuse_PowerSwitch(PADAPTER pAdapter, u8	bWrite, u8	 PwrState);
++void	Efuse_PowerSwitch(PADAPTER pAdapter, u8	bWrite, u8	 PwrState);
++int	Efuse_PgPacketRead(PADAPTER pAdapter, u8 offset, u8 *data, BOOLEAN bPseudoTest);
++int	Efuse_PgPacketWrite(PADAPTER pAdapter, u8 offset, u8 word_en, u8 *data, BOOLEAN bPseudoTest);
++void	efuse_WordEnableDataRead(u8 word_en, u8 *sourdata, u8 *targetdata);
++u8	Efuse_WordEnableDataWrite(PADAPTER pAdapter, u16 efuse_addr, u8 word_en, u8 *data, BOOLEAN bPseudoTest);
++
++u8	EFUSE_Read1Byte(PADAPTER pAdapter, u16 Address);
++void	EFUSE_ShadowMapUpdate(PADAPTER pAdapter, u8 efuseType, BOOLEAN bPseudoTest);
++void	EFUSE_ShadowRead(PADAPTER pAdapter, u8 Type, u16 Offset, u32 *Value);
++
++VOID	hal_ReadEFuse_BT_logic_map(
++	PADAPTER	padapter,
++	u16			_offset,
++	u16			_size_byte,
++	u8			*pbuf
++);
++u8	EfusePgPacketWrite_BT(
++	PADAPTER	pAdapter,
++	u8			offset,
++	u8			word_en,
++	u8			*pData,
++	u8			bPseudoTest);
++
++#define MAC_HIDDEN_MAX_BW_NUM 8
++extern const u8 _mac_hidden_max_bw_to_hal_bw_cap[];
++#define mac_hidden_max_bw_to_hal_bw_cap(max_bw) (((max_bw) >= MAC_HIDDEN_MAX_BW_NUM) ? 0 : _mac_hidden_max_bw_to_hal_bw_cap[(max_bw)])
++
++#define MAC_HIDDEN_PROTOCOL_NUM 4
++extern const u8 _mac_hidden_proto_to_hal_proto_cap[];
++#define mac_hidden_proto_to_hal_proto_cap(proto) (((proto) >= MAC_HIDDEN_PROTOCOL_NUM) ? 0 : _mac_hidden_proto_to_hal_proto_cap[(proto)])
++
++u8 mac_hidden_wl_func_to_hal_wl_func(u8 func);
++
++#ifdef PLATFORM_LINUX
++u8 rtw_efuse_file_read(PADAPTER padapter, u8 *filepatch, u8 *buf, u32 len);
++#ifdef CONFIG_EFUSE_CONFIG_FILE
++u32 rtw_read_efuse_from_file(const char *path, u8 *buf);
++u32 rtw_read_macaddr_from_file(const char *path, u8 *buf);
++#endif /* CONFIG_EFUSE_CONFIG_FILE */
++#endif /* PLATFORM_LINUX */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_event.h b/drivers/net/wireless/rtl8812au/include/rtw_event.h
+new file mode 100644
+index 0000000..4516e5c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_event.h
+@@ -0,0 +1,135 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_EVENT_H_
++#define _RTW_EVENT_H_
++
++#ifdef CONFIG_H2CLBK
++	#include <h2clbk.h>
++#endif
++
++/*
++Used to report a bss has been scanned
++
++*/
++struct survey_event	{
++	WLAN_BSSID_EX bss;
++};
++
++/*
++Used to report that the requested site survey has been done.
++
++bss_cnt indicates the number of bss that has been reported.
++
++
++*/
++struct surveydone_event {
++	unsigned int	bss_cnt;
++
++};
++
++/*
++Used to report the link result of joinning the given bss
++
++
++join_res:
++-1: authentication fail
++-2: association fail
++> 0: TID
++
++*/
++struct joinbss_event {
++	struct	wlan_network	network;
++};
++
++/*
++Used to report a given STA has joinned the created BSS.
++It is used in AP/Ad-HoC(M) mode.
++
++
++*/
++struct stassoc_event {
++	unsigned char macaddr[6];
++};
++
++struct stadel_event {
++	unsigned char macaddr[6];
++	unsigned char rsvd[2]; /* for reason */
++	unsigned char locally_generated;
++	int mac_id;
++};
++
++struct addba_event {
++	unsigned int tid;
++};
++
++struct wmm_event {
++	unsigned char wmm;
++};
++
++#ifdef CONFIG_H2CLBK
++struct c2hlbk_event {
++	unsigned char mac[6];
++	unsigned short	s0;
++	unsigned short	s1;
++	unsigned int	w0;
++	unsigned char	b0;
++	unsigned short  s2;
++	unsigned char	b1;
++	unsigned int	w1;
++};
++#endif/* CONFIG_H2CLBK */
++
++#define GEN_EVT_CODE(event)	event ## _EVT_
++
++
++
++struct fwevent {
++	u32	parmsize;
++	void (*event_callback)(_adapter *dev, u8 *pbuf);
++};
++
++
++#define C2HEVENT_SZ			32
++
++struct event_node {
++	unsigned char *node;
++	unsigned char evt_code;
++	unsigned short evt_sz;
++	volatile int	*caller_ff_tail;
++	int	caller_ff_sz;
++};
++
++struct c2hevent_queue {
++	volatile int	head;
++	volatile int	tail;
++	struct	event_node	nodes[C2HEVENT_SZ];
++	unsigned char	seq;
++};
++
++#define NETWORK_QUEUE_SZ	4
++
++struct network_queue {
++	volatile int	head;
++	volatile int	tail;
++	WLAN_BSSID_EX networks[NETWORK_QUEUE_SZ];
++};
++
++
++#endif /* _WLANEVENT_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_ht.h b/drivers/net/wireless/rtl8812au/include/rtw_ht.h
+new file mode 100644
+index 0000000..8ae15ed
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_ht.h
+@@ -0,0 +1,219 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_HT_H_
++#define _RTW_HT_H_
++
++
++struct ht_priv {
++	u8	ht_option;
++	u8	ampdu_enable;/* for enable Tx A-MPDU */
++	u8	tx_amsdu_enable;/* for enable Tx A-MSDU */
++	u8	bss_coexist;/* for 20/40 Bss coexist */
++
++	/* u8	baddbareq_issued[16]; */
++	u32	tx_amsdu_maxlen; /* 1: 8k, 0:4k ; default:8k, for tx */
++	u32	rx_ampdu_maxlen; /* for rx reordering ctrl win_sz, updated when join_callback. */
++
++	u8	rx_ampdu_min_spacing;
++
++	u8	ch_offset;/* PRIME_CHNL_OFFSET */
++	u8	sgi_20m;
++	u8	sgi_40m;
++
++	/* for processing Tx A-MPDU */
++	u8	agg_enable_bitmap;
++	/* u8	ADDBA_retry_count; */
++	u8	candidate_tid_bitmap;
++
++	u8	ldpc_cap;
++	u8	stbc_cap;
++	u8	beamform_cap;
++	u8	smps_cap; /*spatial multiplexing power save mode. 0:static SMPS, 1:dynamic SMPS, 3:SMPS disabled, 2:reserved*/
++
++	struct rtw_ieee80211_ht_cap ht_cap;
++
++};
++
++typedef enum AGGRE_SIZE {
++	HT_AGG_SIZE_8K = 0,
++	HT_AGG_SIZE_16K = 1,
++	HT_AGG_SIZE_32K = 2,
++	HT_AGG_SIZE_64K = 3,
++	VHT_AGG_SIZE_128K = 4,
++	VHT_AGG_SIZE_256K = 5,
++	VHT_AGG_SIZE_512K = 6,
++	VHT_AGG_SIZE_1024K = 7,
++} AGGRE_SIZE_E, *PAGGRE_SIZE_E;
++
++typedef enum _RT_HT_INF0_CAP {
++	RT_HT_CAP_USE_TURBO_AGGR = 0x01,
++	RT_HT_CAP_USE_LONG_PREAMBLE = 0x02,
++	RT_HT_CAP_USE_AMPDU = 0x04,
++	RT_HT_CAP_USE_WOW = 0x8,
++	RT_HT_CAP_USE_SOFTAP = 0x10,
++	RT_HT_CAP_USE_92SE = 0x20,
++	RT_HT_CAP_USE_88C_92C = 0x40,
++	RT_HT_CAP_USE_AP_CLIENT_MODE = 0x80,	/* AP team request to reserve this bit, by Emily */
++} RT_HT_INF0_CAPBILITY, *PRT_HT_INF0_CAPBILITY;
++
++typedef enum _RT_HT_INF1_CAP {
++	RT_HT_CAP_USE_VIDEO_CLIENT = 0x01,
++	RT_HT_CAP_USE_JAGUAR_BCUT = 0x02,
++	RT_HT_CAP_USE_JAGUAR_CCUT = 0x04,
++} RT_HT_INF1_CAPBILITY, *PRT_HT_INF1_CAPBILITY;
++
++#define	LDPC_HT_ENABLE_RX			BIT0
++#define	LDPC_HT_ENABLE_TX			BIT1
++#define	LDPC_HT_TEST_TX_ENABLE		BIT2
++#define	LDPC_HT_CAP_TX				BIT3
++
++#define	STBC_HT_ENABLE_RX			BIT0
++#define	STBC_HT_ENABLE_TX			BIT1
++#define	STBC_HT_TEST_TX_ENABLE		BIT2
++#define	STBC_HT_CAP_TX				BIT3
++
++#define	BEAMFORMING_HT_BEAMFORMER_ENABLE	BIT0	/* Declare our NIC supports beamformer */
++#define	BEAMFORMING_HT_BEAMFORMEE_ENABLE	BIT1	/* Declare our NIC supports beamformee */
++#define	BEAMFORMING_HT_BEAMFORMER_TEST		BIT2	/* Transmiting Beamforming no matter the target supports it or not */
++#define	BEAMFORMING_HT_BEAMFORMER_STEER_NUM		(BIT4 | BIT5)
++#define	BEAMFORMING_HT_BEAMFORMEE_CHNL_EST_CAP	(BIT6 | BIT7)
++
++/* ------------------------------------------------------------
++ * The HT Control field
++ * ------------------------------------------------------------ */
++#define SET_HT_CTRL_CSI_STEERING(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart))+2, 6, 2, _val)
++#define SET_HT_CTRL_NDP_ANNOUNCEMENT(_pEleStart, _val)		SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart))+3, 0, 1, _val)
++#define GET_HT_CTRL_NDP_ANNOUNCEMENT(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+3, 0, 1)
++
++/* 20/40 BSS Coexist */
++#define SET_EXT_CAPABILITY_ELE_BSS_COEXIST(_pEleStart, _val)	SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)), 0, 1, _val)
++#define GET_EXT_CAPABILITY_ELE_BSS_COEXIST(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)), 0, 1)
++
++/* HT Capabilities Info field */
++#define HT_CAP_ELE_CAP_INFO(_pEleStart)					((u8 *)(_pEleStart))
++#define GET_HT_CAP_ELE_LDPC_CAP(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)), 0, 1)
++#define GET_HT_CAP_ELE_CHL_WIDTH(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)), 1, 1)
++#define GET_HT_CAP_ELE_SM_PS(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)), 2, 2)
++#define GET_HT_CAP_ELE_GREENFIELD(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)), 4, 1)
++#define GET_HT_CAP_ELE_SHORT_GI20M(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)), 5, 1)
++#define GET_HT_CAP_ELE_SHORT_GI40M(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)), 6, 1)
++#define GET_HT_CAP_ELE_TX_STBC(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)), 7, 1)
++#define GET_HT_CAP_ELE_RX_STBC(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+1, 0, 2)
++#define GET_HT_CAP_ELE_DELAYED_BA(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+1, 2, 1)
++#define GET_HT_CAP_ELE_MAX_AMSDU_LENGTH(_pEleStart)		LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+1, 3, 1)
++#define GET_HT_CAP_ELE_DSSS_CCK_40M(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+1, 4, 1)
++#define GET_HT_CAP_ELE_FORTY_INTOLERANT(_pEleStart)		LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+1, 6, 1)
++#define GET_HT_CAP_ELE_LSIG_TXOP_PROTECT(_pEleStart)	LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+1, 7, 1)
++
++#define SET_HT_CAP_ELE_LDPC_CAP(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)), 0, 1, _val)
++#define SET_HT_CAP_ELE_CHL_WIDTH(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)), 1, 1, _val)
++#define SET_HT_CAP_ELE_SM_PS(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)), 2, 2, _val)
++#define SET_HT_CAP_ELE_GREENFIELD(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)), 4, 1, _val)
++#define SET_HT_CAP_ELE_SHORT_GI20M(_pEleStart, _val)		SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)), 5, 1, _val)
++#define SET_HT_CAP_ELE_SHORT_GI40M(_pEleStart, _val)		SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)), 6, 1, _val)
++#define SET_HT_CAP_ELE_TX_STBC(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)), 7, 1, _val)
++#define SET_HT_CAP_ELE_RX_STBC(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 1, 0, 2, _val)
++#define SET_HT_CAP_ELE_DELAYED_BA(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 1, 2, 1, _val)
++#define SET_HT_CAP_ELE_MAX_AMSDU_LENGTH(_pEleStart, _val)	SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 1, 3, 1, _val)
++#define SET_HT_CAP_ELE_DSSS_CCK_40M(_pEleStart, _val)		SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 1, 4, 1, _val)
++#define SET_HT_CAP_ELE_FORTY_INTOLERANT(_pEleStart, _val)	SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 1, 6, 1, _val)
++#define SET_HT_CAP_ELE_LSIG_TXOP_PROTECT(_pEleStart, _val)	SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 1, 7, 1, _val)
++
++/* A-MPDU Parameters field */
++#define HT_CAP_ELE_AMPDU_PARA(_pEleStart)				(((u8 *)(_pEleStart))+2)
++#define GET_HT_CAP_ELE_MAX_AMPDU_LEN_EXP(_pEleStart)	LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+2, 0, 2)
++#define GET_HT_CAP_ELE_MIN_MPDU_S_SPACE(_pEleStart)		LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+2, 2, 3)
++
++#define HT_AMPDU_PARA_FMT "%02x " \
++	"MAX AMPDU len:%u bytes, MIN MPDU Start Spacing:%u"
++
++#define HT_AMPDU_PARA_ARG(x) \
++	*((u8 *)(x)) \
++	, (1 << (13+GET_HT_CAP_ELE_MAX_AMPDU_LEN_EXP(((u8 *)x)-2)))-1 \
++	, GET_HT_CAP_ELE_MIN_MPDU_S_SPACE(((u8 *)x)-2)
++
++/* Supported MCS Set field */
++#define HT_CAP_ELE_SUP_MCS_SET(_pEleStart)				(((u8 *)(_pEleStart))+3)
++#define HT_CAP_ELE_RX_MCS_MAP(_pEleStart)				HT_CAP_ELE_SUP_MCS_SET(_pEleStart)
++#define GET_HT_CAP_ELE_RX_HIGHEST_DATA_RATE(_pEleStart)	LE_BITS_TO_2BYTE(((u8 *)(_pEleStart))+13, 0, 10)
++#define GET_HT_CAP_ELE_TX_MCS_DEF(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+15, 0, 1)
++#define GET_HT_CAP_ELE_TRX_MCS_NEQ(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+15, 1, 1)
++#define GET_HT_CAP_ELE_TX_MAX_SS(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+15, 2, 2)
++#define GET_HT_CAP_ELE_TX_UEQM(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart))+15, 4, 1)
++
++#define HT_SUP_MCS_SET_FMT "%02x %02x %02x %02x %02x%02x%02x%02x%02x%02x" \
++	/* "\n%02x%02x%02x%02x%02x%02x" */\
++	" %uMbps %s%s%s"
++#define HT_SUP_MCS_SET_ARG(x) ((u8 *)(x))[0], ((u8 *)(x))[1], ((u8 *)(x))[2], ((u8 *)(x))[3], ((u8 *)(x))[4], ((u8 *)(x))[5], \
++	((u8 *)(x))[6], ((u8 *)(x))[7], ((u8 *)(x))[8], ((u8 *)(x))[9] \
++	/*,((u8 *)(x))[10], ((u8 *)(x))[11], ((u8 *)(x))[12], ((u8 *)(x))[13], ((u8 *)(x))[14], ((u8 *)(x))[15] */\
++	, GET_HT_CAP_ELE_RX_HIGHEST_DATA_RATE(((u8 *)x)-3) \
++	, GET_HT_CAP_ELE_TX_MCS_DEF(((u8 *)x)-3) ? "TX_MCS_DEF " : "" \
++	, GET_HT_CAP_ELE_TRX_MCS_NEQ(((u8 *)x)-3) ? "TRX_MCS_NEQ " : "" \
++	, GET_HT_CAP_ELE_TX_UEQM(((u8 *)x)-3) ? "TX_UEQM " : ""
++
++/* TXBF Capabilities */
++#define SET_HT_CAP_TXBF_RECEIVE_NDP_CAP(_pEleStart, _val)				SET_BITS_TO_LE_4BYTE(((u8 *)(_pEleStart))+21, 3, 1, ((u8)_val))
++#define SET_HT_CAP_TXBF_TRANSMIT_NDP_CAP(_pEleStart, _val)				SET_BITS_TO_LE_4BYTE(((u8 *)(_pEleStart))+21, 4, 1, ((u8)_val))
++#define SET_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP(_pEleStart, _val)	SET_BITS_TO_LE_4BYTE(((u8 *)(_pEleStart))+21, 10, 1, ((u8)_val))
++#define SET_HT_CAP_TXBF_EXPLICIT_COMP_FEEDBACK_CAP(_pEleStart, _val)	SET_BITS_TO_LE_4BYTE(((u8 *)(_pEleStart))+21, 15, 2, ((u8)_val))
++#define SET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS(_pEleStart, _val)	SET_BITS_TO_LE_4BYTE(((u8 *)(_pEleStart))+21, 23, 2, ((u8)_val))
++#define SET_HT_CAP_TXBF_CHNL_ESTIMATION_NUM_ANTENNAS(_pEleStart, _val)	SET_BITS_TO_LE_4BYTE(((u8 *)(_pEleStart))+21, 27, 2, ((u8)_val))
++
++
++#define GET_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP(_pEleStart)			LE_BITS_TO_4BYTE(((u8 *)(_pEleStart))+21, 10, 1)
++#define GET_HT_CAP_TXBF_EXPLICIT_COMP_FEEDBACK_CAP(_pEleStart)			LE_BITS_TO_4BYTE(((u8 *)(_pEleStart))+21, 15, 2)
++#define GET_HT_CAP_TXBF_COMP_STEERING_NUM_ANTENNAS(_pEleStart)		LE_BITS_TO_4BYTE(((u8 *)(_pEleStart))+21, 23, 2)
++#define GET_HT_CAP_TXBF_CHNL_ESTIMATION_NUM_ANTENNAS(_pEleStart)		LE_BITS_TO_4BYTE(((u8 *)(_pEleStart))+21, 27, 2)
++
++/* HT Operation element */
++
++#define GET_HT_OP_ELE_PRI_CHL(_pEleStart)					LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)), 0, 8)
++#define SET_HT_OP_ELE_PRI_CHL(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)), 0, 8, _val)
++
++/* HT Operation Info field */
++#define HT_OP_ELE_OP_INFO(_pEleStart)						(((u8 *)(_pEleStart)) + 1)
++#define GET_HT_OP_ELE_2ND_CHL_OFFSET(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 1, 0, 2)
++#define GET_HT_OP_ELE_STA_CHL_WIDTH(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 1, 2, 1)
++#define GET_HT_OP_ELE_RIFS_MODE(_pEleStart)					LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 1, 3, 1)
++#define GET_HT_OP_ELE_HT_PROTECT(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 2, 0, 2)
++#define GET_HT_OP_ELE_NON_GREEN_PRESENT(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 2, 2, 1)
++#define GET_HT_OP_ELE_OBSS_NON_HT_PRESENT(_pEleStart)		LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 2, 4, 1)
++#define GET_HT_OP_ELE_DUAL_BEACON(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 4, 6, 1)
++#define GET_HT_OP_ELE_DUAL_CTS(_pEleStart)					LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 4, 7, 1)
++#define GET_HT_OP_ELE_STBC_BEACON(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 5, 0, 1)
++#define GET_HT_OP_ELE_LSIG_TXOP_PROTECT(_pEleStart)			LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 5, 1, 1)
++#define GET_HT_OP_ELE_PCO_ACTIVE(_pEleStart)				LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 5, 2, 1)
++#define GET_HT_OP_ELE_PCO_PHASE(_pEleStart)					LE_BITS_TO_1BYTE(((u8 *)(_pEleStart)) + 5, 3, 1)
++
++#define SET_HT_OP_ELE_2ND_CHL_OFFSET(_pEleStart, _val)		SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 1, 0, 2, _val)
++#define SET_HT_OP_ELE_STA_CHL_WIDTH(_pEleStart, _val)		SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 1, 2, 1, _val)
++#define SET_HT_OP_ELE_RIFS_MODE(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 1, 3, 1, _val)
++#define SET_HT_OP_ELE_HT_PROTECT(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 2, 0, 2, _val)
++#define SET_HT_OP_ELE_NON_GREEN_PRESENT(_pEleStart, _val)	SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 2, 2, 1, _val)
++#define SET_HT_OP_ELE_OBSS_NON_HT_PRESENT(_pEleStart, _val)	SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 2, 4, 1, _val)
++#define SET_HT_OP_ELE_DUAL_BEACON(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 4, 6, 1, _val)
++#define SET_HT_OP_ELE_DUAL_CTS(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 4, 7, 1, _val)
++#define SET_HT_OP_ELE_STBC_BEACON(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 5, 0, 1, _val)
++#define SET_HT_OP_ELE_LSIG_TXOP_PROTECT(_pEleStart, _val)	SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 5, 1, 1, _val)
++#define SET_HT_OP_ELE_PCO_ACTIVE(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 5, 2, 1, _val)
++#define SET_HT_OP_ELE_PCO_PHASE(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(((u8 *)(_pEleStart)) + 5, 3, 1, _val)
++
++#endif /* _RTL871X_HT_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_io.h b/drivers/net/wireless/rtl8812au/include/rtw_io.h
+new file mode 100644
+index 0000000..44a1749
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_io.h
+@@ -0,0 +1,576 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef _RTW_IO_H_
++#define _RTW_IO_H_
++
++#define NUM_IOREQ		8
++
++#ifdef PLATFORM_WINDOWS
++	#define MAX_PROT_SZ	64
++#endif
++#ifdef PLATFORM_LINUX
++	#define MAX_PROT_SZ	(64-16)
++#endif
++
++#define _IOREADY			0
++#define _IO_WAIT_COMPLETE   1
++#define _IO_WAIT_RSP        2
++
++/* IO COMMAND TYPE */
++#define _IOSZ_MASK_		(0x7F)
++#define _IO_WRITE_		BIT(7)
++#define _IO_FIXED_		BIT(8)
++#define _IO_BURST_		BIT(9)
++#define _IO_BYTE_		BIT(10)
++#define _IO_HW_			BIT(11)
++#define _IO_WORD_		BIT(12)
++#define _IO_SYNC_		BIT(13)
++#define _IO_CMDMASK_	(0x1F80)
++
++
++/*
++	For prompt mode accessing, caller shall free io_req
++	Otherwise, io_handler will free io_req
++*/
++
++
++
++/* IO STATUS TYPE */
++#define _IO_ERR_		BIT(2)
++#define _IO_SUCCESS_	BIT(1)
++#define _IO_DONE_		BIT(0)
++
++
++#define IO_RD32			(_IO_SYNC_ | _IO_WORD_)
++#define IO_RD16			(_IO_SYNC_ | _IO_HW_)
++#define IO_RD8			(_IO_SYNC_ | _IO_BYTE_)
++
++#define IO_RD32_ASYNC	(_IO_WORD_)
++#define IO_RD16_ASYNC	(_IO_HW_)
++#define IO_RD8_ASYNC	(_IO_BYTE_)
++
++#define IO_WR32			(_IO_WRITE_ | _IO_SYNC_ | _IO_WORD_)
++#define IO_WR16			(_IO_WRITE_ | _IO_SYNC_ | _IO_HW_)
++#define IO_WR8			(_IO_WRITE_ | _IO_SYNC_ | _IO_BYTE_)
++
++#define IO_WR32_ASYNC	(_IO_WRITE_ | _IO_WORD_)
++#define IO_WR16_ASYNC	(_IO_WRITE_ | _IO_HW_)
++#define IO_WR8_ASYNC	(_IO_WRITE_ | _IO_BYTE_)
++
++/*
++
++	Only Sync. burst accessing is provided.
++
++*/
++
++#define IO_WR_BURST(x)		(_IO_WRITE_ | _IO_SYNC_ | _IO_BURST_ | ((x) & _IOSZ_MASK_))
++#define IO_RD_BURST(x)		(_IO_SYNC_ | _IO_BURST_ | ((x) & _IOSZ_MASK_))
++
++
++
++/* below is for the intf_option bit defition... */
++
++#define _INTF_ASYNC_	BIT(0)	/* support async io */
++
++struct intf_priv;
++struct intf_hdl;
++struct io_queue;
++
++struct _io_ops {
++	u8(*_read8)(struct intf_hdl *pintfhdl, u32 addr);
++	u16(*_read16)(struct intf_hdl *pintfhdl, u32 addr);
++	u32(*_read32)(struct intf_hdl *pintfhdl, u32 addr);
++
++	int (*_write8)(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++	int (*_write16)(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++	int (*_write32)(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++	int (*_writeN)(struct intf_hdl *pintfhdl, u32 addr, u32 length, u8 *pdata);
++
++	int (*_write8_async)(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++	int (*_write16_async)(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++	int (*_write32_async)(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++
++	void (*_read_mem)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++	void (*_write_mem)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++
++	void (*_sync_irp_protocol_rw)(struct io_queue *pio_q);
++
++	u32(*_read_interrupt)(struct intf_hdl *pintfhdl, u32 addr);
++
++	u32(*_read_port)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++	u32(*_write_port)(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pmem);
++
++	u32(*_write_scsi)(struct intf_hdl *pintfhdl, u32 cnt, u8 *pmem);
++
++	void (*_read_port_cancel)(struct intf_hdl *pintfhdl);
++	void (*_write_port_cancel)(struct intf_hdl *pintfhdl);
++
++#ifdef CONFIG_SDIO_HCI
++	u8(*_sd_f0_read8)(struct intf_hdl *pintfhdl, u32 addr);
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++	u8(*_sd_iread8)(struct intf_hdl *pintfhdl, u32 addr);
++	u16(*_sd_iread16)(struct intf_hdl *pintfhdl, u32 addr);
++	u32(*_sd_iread32)(struct intf_hdl *pintfhdl, u32 addr);
++	int (*_sd_iwrite8)(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++	int (*_sd_iwrite16)(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++	int (*_sd_iwrite32)(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++#endif /* CONFIG_SDIO_INDIRECT_ACCESS */
++#endif
++
++};
++
++struct io_req {
++	_list	list;
++	u32	addr;
++	volatile u32	val;
++	u32	command;
++	u32	status;
++	u8	*pbuf;
++	_sema	sema;
++
++#ifdef PLATFORM_OS_CE
++#ifdef CONFIG_USB_HCI
++	/* URB handler for rtw_write_mem */
++	USB_TRANSFER usb_transfer_write_mem;
++#endif
++#endif
++
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt);
++	u8 *cnxt;
++
++#ifdef PLATFORM_OS_XP
++	PMDL pmdl;
++	PIRP  pirp;
++
++#ifdef CONFIG_SDIO_HCI
++	PSDBUS_REQUEST_PACKET sdrp;
++#endif
++
++#endif
++
++
++};
++
++struct	intf_hdl {
++
++#if 0
++	u32	intf_option;
++	u32	bus_status;
++	u32	do_flush;
++	u8	*adapter;
++	u8	*intf_dev;
++	struct intf_priv	*pintfpriv;
++	u8	cnt;
++	void (*intf_hdl_init)(u8 *priv);
++	void (*intf_hdl_unload)(u8 *priv);
++	void (*intf_hdl_open)(u8 *priv);
++	void (*intf_hdl_close)(u8 *priv);
++	struct	_io_ops	io_ops;
++	/* u8 intf_status;//moved to struct intf_priv */
++	u16 len;
++	u16 done_len;
++#endif
++	_adapter *padapter;
++	struct dvobj_priv *pintf_dev;/*	pointer to &(padapter->dvobjpriv); */
++
++	struct _io_ops	io_ops;
++
++};
++
++struct reg_protocol_rd {
++
++#ifdef CONFIG_LITTLE_ENDIAN
++
++	/* DW1 */
++	u32		NumOfTrans:4;
++	u32		Reserved1:4;
++	u32		Reserved2:24;
++	/* DW2 */
++	u32		ByteCount:7;
++	u32		WriteEnable:1;		/* 0:read, 1:write */
++	u32		FixOrContinuous:1;	/* 0:continuous, 1: Fix */
++	u32		BurstMode:1;
++	u32		Byte1Access:1;
++	u32		Byte2Access:1;
++	u32		Byte4Access:1;
++	u32		Reserved3:3;
++	u32		Reserved4:16;
++	/* DW3 */
++	u32		BusAddress;
++	/* DW4 */
++	/* u32		Value; */
++#else
++
++
++	/* DW1 */
++	u32 Reserved1:4;
++	u32 NumOfTrans:4;
++
++	u32 Reserved2:24;
++
++	/* DW2 */
++	u32 WriteEnable:1;
++	u32 ByteCount:7;
++
++
++	u32 Reserved3:3;
++	u32 Byte4Access:1;
++
++	u32 Byte2Access:1;
++	u32 Byte1Access:1;
++	u32 BurstMode:1;
++	u32 FixOrContinuous:1;
++
++	u32 Reserved4:16;
++
++	/* DW3 */
++	u32		BusAddress;
++
++	/* DW4 */
++	/* u32		Value; */
++
++#endif
++
++};
++
++
++struct reg_protocol_wt {
++
++
++#ifdef CONFIG_LITTLE_ENDIAN
++
++	/* DW1 */
++	u32		NumOfTrans:4;
++	u32		Reserved1:4;
++	u32		Reserved2:24;
++	/* DW2 */
++	u32		ByteCount:7;
++	u32		WriteEnable:1;		/* 0:read, 1:write */
++	u32		FixOrContinuous:1;	/* 0:continuous, 1: Fix */
++	u32		BurstMode:1;
++	u32		Byte1Access:1;
++	u32		Byte2Access:1;
++	u32		Byte4Access:1;
++	u32		Reserved3:3;
++	u32		Reserved4:16;
++	/* DW3 */
++	u32		BusAddress;
++	/* DW4 */
++	u32		Value;
++
++#else
++	/* DW1 */
++	u32 Reserved1:4;
++	u32 NumOfTrans:4;
++
++	u32 Reserved2:24;
++
++	/* DW2 */
++	u32 WriteEnable:1;
++	u32 ByteCount:7;
++
++	u32 Reserved3:3;
++	u32 Byte4Access:1;
++
++	u32 Byte2Access:1;
++	u32 Byte1Access:1;
++	u32 BurstMode:1;
++	u32 FixOrContinuous:1;
++
++	u32 Reserved4:16;
++
++	/* DW3 */
++	u32		BusAddress;
++
++	/* DW4 */
++	u32		Value;
++
++#endif
++
++};
++#ifdef CONFIG_PCI_HCI
++#define MAX_CONTINUAL_IO_ERR 4
++#endif
++
++#ifdef CONFIG_USB_HCI
++#define MAX_CONTINUAL_IO_ERR 4
++#endif
++
++#ifdef CONFIG_SDIO_HCI
++#define SD_IO_TRY_CNT (8)
++#define MAX_CONTINUAL_IO_ERR SD_IO_TRY_CNT
++#endif
++
++#ifdef CONFIG_GSPI_HCI
++#define SD_IO_TRY_CNT (8)
++#define MAX_CONTINUAL_IO_ERR SD_IO_TRY_CNT
++#endif
++
++
++int rtw_inc_and_chk_continual_io_error(struct dvobj_priv *dvobj);
++void rtw_reset_continual_io_error(struct dvobj_priv *dvobj);
++
++/*
++Below is the data structure used by _io_handler
++
++*/
++
++struct io_queue {
++	_lock	lock;
++	_list	free_ioreqs;
++	_list		pending;		/* The io_req list that will be served in the single protocol read/write.	 */
++	_list		processing;
++	u8	*free_ioreqs_buf; /* 4-byte aligned */
++	u8	*pallocated_free_ioreqs_buf;
++	struct	intf_hdl	intf;
++};
++
++struct io_priv {
++
++	_adapter *padapter;
++
++	struct intf_hdl intf;
++
++};
++
++extern uint ioreq_flush(_adapter *adapter, struct io_queue *ioqueue);
++extern void sync_ioreq_enqueue(struct io_req *preq, struct io_queue *ioqueue);
++extern uint sync_ioreq_flush(_adapter *adapter, struct io_queue *ioqueue);
++
++
++extern uint free_ioreq(struct io_req *preq, struct io_queue *pio_queue);
++extern struct io_req *alloc_ioreq(struct io_queue *pio_q);
++
++extern uint register_intf_hdl(u8 *dev, struct intf_hdl *pintfhdl);
++extern void unregister_intf_hdl(struct intf_hdl *pintfhdl);
++
++extern void _rtw_attrib_read(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++extern void _rtw_attrib_write(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++
++extern u8 _rtw_read8(_adapter *adapter, u32 addr);
++extern u16 _rtw_read16(_adapter *adapter, u32 addr);
++extern u32 _rtw_read32(_adapter *adapter, u32 addr);
++extern void _rtw_read_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++extern void _rtw_read_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++extern void _rtw_read_port_cancel(_adapter *adapter);
++
++
++extern int _rtw_write8(_adapter *adapter, u32 addr, u8 val);
++extern int _rtw_write16(_adapter *adapter, u32 addr, u16 val);
++extern int _rtw_write32(_adapter *adapter, u32 addr, u32 val);
++extern int _rtw_writeN(_adapter *adapter, u32 addr, u32 length, u8 *pdata);
++
++#ifdef CONFIG_SDIO_HCI
++u8 _rtw_sd_f0_read8(_adapter *adapter, u32 addr);
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++u8 _rtw_sd_iread8(_adapter *adapter, u32 addr);
++u16 _rtw_sd_iread16(_adapter *adapter, u32 addr);
++u32 _rtw_sd_iread32(_adapter *adapter, u32 addr);
++int _rtw_sd_iwrite8(_adapter *adapter, u32 addr, u8 val);
++int _rtw_sd_iwrite16(_adapter *adapter, u32 addr, u16 val);
++int _rtw_sd_iwrite32(_adapter *adapter, u32 addr, u32 val);
++#endif /* CONFIG_SDIO_INDIRECT_ACCESS */
++#endif /* CONFIG_SDIO_HCI */
++
++extern int _rtw_write8_async(_adapter *adapter, u32 addr, u8 val);
++extern int _rtw_write16_async(_adapter *adapter, u32 addr, u16 val);
++extern int _rtw_write32_async(_adapter *adapter, u32 addr, u32 val);
++
++extern void _rtw_write_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++extern u32 _rtw_write_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++u32 _rtw_write_port_and_wait(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem, int timeout_ms);
++extern void _rtw_write_port_cancel(_adapter *adapter);
++
++#ifdef DBG_IO
++bool match_read_sniff_ranges(u32 addr, u16 len);
++bool match_write_sniff_ranges(u32 addr, u16 len);
++bool match_rf_read_sniff_ranges(u8 path, u32 addr, u32 mask);
++bool match_rf_write_sniff_ranges(u8 path, u32 addr, u32 mask);
++
++extern u8 dbg_rtw_read8(_adapter *adapter, u32 addr, const char *caller, const int line);
++extern u16 dbg_rtw_read16(_adapter *adapter, u32 addr, const char *caller, const int line);
++extern u32 dbg_rtw_read32(_adapter *adapter, u32 addr, const char *caller, const int line);
++
++extern int dbg_rtw_write8(_adapter *adapter, u32 addr, u8 val, const char *caller, const int line);
++extern int dbg_rtw_write16(_adapter *adapter, u32 addr, u16 val, const char *caller, const int line);
++extern int dbg_rtw_write32(_adapter *adapter, u32 addr, u32 val, const char *caller, const int line);
++extern int dbg_rtw_writeN(_adapter *adapter, u32 addr , u32 length , u8 *data, const char *caller, const int line);
++
++#ifdef CONFIG_SDIO_HCI
++u8 dbg_rtw_sd_f0_read8(_adapter *adapter, u32 addr, const char *caller, const int line);
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++u8 dbg_rtw_sd_iread8(_adapter *adapter, u32 addr, const char *caller, const int line);
++u16 dbg_rtw_sd_iread16(_adapter *adapter, u32 addr, const char *caller, const int line);
++u32 dbg_rtw_sd_iread32(_adapter *adapter, u32 addr, const char *caller, const int line);
++int dbg_rtw_sd_iwrite8(_adapter *adapter, u32 addr, u8 val, const char *caller, const int line);
++int dbg_rtw_sd_iwrite16(_adapter *adapter, u32 addr, u16 val, const char *caller, const int line);
++int dbg_rtw_sd_iwrite32(_adapter *adapter, u32 addr, u32 val, const char *caller, const int line);
++#endif /* CONFIG_SDIO_INDIRECT_ACCESS */
++#endif /* CONFIG_SDIO_HCI */
++
++#define rtw_read8(adapter, addr) dbg_rtw_read8((adapter), (addr), __FUNCTION__, __LINE__)
++#define rtw_read16(adapter, addr) dbg_rtw_read16((adapter), (addr), __FUNCTION__, __LINE__)
++#define rtw_read32(adapter, addr) dbg_rtw_read32((adapter), (addr), __FUNCTION__, __LINE__)
++#define rtw_read_mem(adapter, addr, cnt, mem) _rtw_read_mem((adapter), (addr), (cnt), (mem))
++#define rtw_read_port(adapter, addr, cnt, mem) _rtw_read_port((adapter), (addr), (cnt), (mem))
++#define rtw_read_port_cancel(adapter) _rtw_read_port_cancel((adapter))
++
++#define  rtw_write8(adapter, addr, val) dbg_rtw_write8((adapter), (addr), (val), __FUNCTION__, __LINE__)
++#define  rtw_write16(adapter, addr, val) dbg_rtw_write16((adapter), (addr), (val), __FUNCTION__, __LINE__)
++#define  rtw_write32(adapter, addr, val) dbg_rtw_write32((adapter), (addr), (val), __FUNCTION__, __LINE__)
++#define  rtw_writeN(adapter, addr, length, data) dbg_rtw_writeN((adapter), (addr), (length), (data), __FUNCTION__, __LINE__)
++
++#define rtw_write8_async(adapter, addr, val) _rtw_write8_async((adapter), (addr), (val))
++#define rtw_write16_async(adapter, addr, val) _rtw_write16_async((adapter), (addr), (val))
++#define rtw_write32_async(adapter, addr, val) _rtw_write32_async((adapter), (addr), (val))
++
++#define rtw_write_mem(adapter, addr, cnt, mem) _rtw_write_mem((adapter), addr, cnt, mem)
++#define rtw_write_port(adapter, addr, cnt, mem) _rtw_write_port(adapter, addr, cnt, mem)
++#define rtw_write_port_and_wait(adapter, addr, cnt, mem, timeout_ms) _rtw_write_port_and_wait((adapter), (addr), (cnt), (mem), (timeout_ms))
++#define rtw_write_port_cancel(adapter) _rtw_write_port_cancel(adapter)
++
++#ifdef CONFIG_SDIO_HCI
++#define rtw_sd_f0_read8(adapter, addr) dbg_rtw_sd_f0_read8((adapter), (addr), __func__, __LINE__)
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++#define rtw_sd_iread8(adapter, addr) dbg_rtw_sd_iread8((adapter), (addr), __func__, __LINE__)
++#define rtw_sd_iread16(adapter, addr) dbg_rtw_sd_iread16((adapter), (addr), __func__, __LINE__)
++#define rtw_sd_iread32(adapter, addr) dbg_rtw_sd_iread32((adapter), (addr), __func__, __LINE__)
++#define rtw_sd_iwrite8(adapter, addr, val) dbg_rtw_sd_iwrite8((adapter), (addr), (val), __func__, __LINE__)
++#define rtw_sd_iwrite16(adapter, addr, val) dbg_rtw_sd_iwrite16((adapter), (addr), (val), __func__, __LINE__)
++#define rtw_sd_iwrite32(adapter, addr, val) dbg_rtw_sd_iwrite32((adapter), (addr), (val), __func__, __LINE__)
++#endif /* CONFIG_SDIO_INDIRECT_ACCESS */
++#endif /* CONFIG_SDIO_HCI */
++
++#else /* DBG_IO */
++#define match_read_sniff_ranges(addr, len) _FALSE
++#define match_write_sniff_ranges(addr, len) _FALSE
++#define match_rf_read_sniff_ranges(path, addr, mask) _FALSE
++#define match_rf_write_sniff_ranges(path, addr, mask) _FALSE
++#define rtw_read8(adapter, addr) _rtw_read8((adapter), (addr))
++#define rtw_read16(adapter, addr) _rtw_read16((adapter), (addr))
++#define rtw_read32(adapter, addr) _rtw_read32((adapter), (addr))
++#define rtw_read_mem(adapter, addr, cnt, mem) _rtw_read_mem((adapter), (addr), (cnt), (mem))
++#define rtw_read_port(adapter, addr, cnt, mem) _rtw_read_port((adapter), (addr), (cnt), (mem))
++#define rtw_read_port_cancel(adapter) _rtw_read_port_cancel((adapter))
++
++#define  rtw_write8(adapter, addr, val) _rtw_write8((adapter), (addr), (val))
++#define  rtw_write16(adapter, addr, val) _rtw_write16((adapter), (addr), (val))
++#define  rtw_write32(adapter, addr, val) _rtw_write32((adapter), (addr), (val))
++#define  rtw_writeN(adapter, addr, length, data) _rtw_writeN((adapter), (addr), (length), (data))
++
++#define rtw_write8_async(adapter, addr, val) _rtw_write8_async((adapter), (addr), (val))
++#define rtw_write16_async(adapter, addr, val) _rtw_write16_async((adapter), (addr), (val))
++#define rtw_write32_async(adapter, addr, val) _rtw_write32_async((adapter), (addr), (val))
++
++#define rtw_write_mem(adapter, addr, cnt, mem) _rtw_write_mem((adapter), (addr), (cnt), (mem))
++#define rtw_write_port(adapter, addr, cnt, mem) _rtw_write_port((adapter), (addr), (cnt), (mem))
++#define rtw_write_port_and_wait(adapter, addr, cnt, mem, timeout_ms) _rtw_write_port_and_wait((adapter), (addr), (cnt), (mem), (timeout_ms))
++#define rtw_write_port_cancel(adapter) _rtw_write_port_cancel((adapter))
++
++#ifdef CONFIG_SDIO_HCI
++#define rtw_sd_f0_read8(adapter, addr) _rtw_sd_f0_read8((adapter), (addr))
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++#define rtw_sd_iread8(adapter, addr) _rtw_sd_iread8((adapter), (addr))
++#define rtw_sd_iread16(adapter, addr) _rtw_sd_iread16((adapter), (addr))
++#define rtw_sd_iread32(adapter, addr) _rtw_sd_iread32((adapter), (addr))
++#define rtw_sd_iwrite8(adapter, addr, val) _rtw_sd_iwrite8((adapter), (addr), (val))
++#define rtw_sd_iwrite16(adapter, addr, val) _rtw_sd_iwrite16((adapter), (addr), (val))
++#define rtw_sd_iwrite32(adapter, addr, val) _rtw_sd_iwrite32((adapter), (addr), (val))
++#endif /* CONFIG_SDIO_INDIRECT_ACCESS */
++#endif /* CONFIG_SDIO_HCI */
++
++#endif /* DBG_IO */
++
++extern void rtw_write_scsi(_adapter *adapter, u32 cnt, u8 *pmem);
++
++/* ioreq */
++extern void ioreq_read8(_adapter *adapter, u32 addr, u8 *pval);
++extern void ioreq_read16(_adapter *adapter, u32 addr, u16 *pval);
++extern void ioreq_read32(_adapter *adapter, u32 addr, u32 *pval);
++extern void ioreq_write8(_adapter *adapter, u32 addr, u8 val);
++extern void ioreq_write16(_adapter *adapter, u32 addr, u16 val);
++extern void ioreq_write32(_adapter *adapter, u32 addr, u32 val);
++
++
++extern uint async_read8(_adapter *adapter, u32 addr, u8 *pbuff,
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt), u8 *cnxt);
++extern uint async_read16(_adapter *adapter, u32 addr,  u8 *pbuff,
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt), u8 *cnxt);
++extern uint async_read32(_adapter *adapter, u32 addr,  u8 *pbuff,
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt), u8 *cnxt);
++
++extern void async_read_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++extern void async_read_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++
++extern void async_write8(_adapter *adapter, u32 addr, u8 val,
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt), u8 *cnxt);
++extern void async_write16(_adapter *adapter, u32 addr, u16 val,
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt), u8 *cnxt);
++extern void async_write32(_adapter *adapter, u32 addr, u32 val,
++	void (*_async_io_callback)(_adapter *padater, struct io_req *pio_req, u8 *cnxt), u8 *cnxt);
++
++extern void async_write_mem(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++extern void async_write_port(_adapter *adapter, u32 addr, u32 cnt, u8 *pmem);
++
++
++int rtw_init_io_priv(_adapter *padapter, void (*set_intf_ops)(_adapter *padapter, struct _io_ops *pops));
++
++
++extern uint alloc_io_queue(_adapter *adapter);
++extern void free_io_queue(_adapter *adapter);
++extern void async_bus_io(struct io_queue *pio_q);
++extern void bus_sync_io(struct io_queue *pio_q);
++extern u32 _ioreq2rwmem(struct io_queue *pio_q);
++extern void dev_power_down(_adapter *Adapter, u8 bpwrup);
++
++/*
++#define RTL_R8(reg)		rtw_read8(padapter, reg)
++#define RTL_R16(reg)            rtw_read16(padapter, reg)
++#define RTL_R32(reg)            rtw_read32(padapter, reg)
++#define RTL_W8(reg, val8)       rtw_write8(padapter, reg, val8)
++#define RTL_W16(reg, val16)     rtw_write16(padapter, reg, val16)
++#define RTL_W32(reg, val32)     rtw_write32(padapter, reg, val32)
++*/
++
++/*
++#define RTL_W8_ASYNC(reg, val8) rtw_write32_async(padapter, reg, val8)
++#define RTL_W16_ASYNC(reg, val16) rtw_write32_async(padapter, reg, val16)
++#define RTL_W32_ASYNC(reg, val32) rtw_write32_async(padapter, reg, val32)
++
++#define RTL_WRITE_BB(reg, val32)	phy_SetUsbBBReg(padapter, reg, val32)
++#define RTL_READ_BB(reg)	phy_QueryUsbBBReg(padapter, reg)
++*/
++
++#define PlatformEFIOWrite1Byte(_a, _b, _c)		\
++	rtw_write8(_a, _b, _c)
++#define PlatformEFIOWrite2Byte(_a, _b, _c)		\
++	rtw_write16(_a, _b, _c)
++#define PlatformEFIOWrite4Byte(_a, _b, _c)		\
++	rtw_write32(_a, _b, _c)
++
++#define PlatformEFIORead1Byte(_a, _b)		\
++	rtw_read8(_a, _b)
++#define PlatformEFIORead2Byte(_a, _b)		\
++	rtw_read16(_a, _b)
++#define PlatformEFIORead4Byte(_a, _b)		\
++	rtw_read32(_a, _b)
++
++#endif /* _RTL8711_IO_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_ioctl.h b/drivers/net/wireless/rtl8812au/include/rtw_ioctl.h
+new file mode 100644
+index 0000000..b981bf0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_ioctl.h
+@@ -0,0 +1,317 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_IOCTL_H_
++#define _RTW_IOCTL_H_
++
++#ifndef PLATFORM_WINDOWS
++/*	00 - Success
++*	11 - Error */
++#define STATUS_SUCCESS				(0x00000000L)
++#define STATUS_PENDING				(0x00000103L)
++
++#define STATUS_UNSUCCESSFUL			(0xC0000001L)
++#define STATUS_INSUFFICIENT_RESOURCES		(0xC000009AL)
++#define STATUS_NOT_SUPPORTED			(0xC00000BBL)
++
++#define NDIS_STATUS_SUCCESS			((NDIS_STATUS)STATUS_SUCCESS)
++#define NDIS_STATUS_PENDING			((NDIS_STATUS)STATUS_PENDING)
++#define NDIS_STATUS_NOT_RECOGNIZED		((NDIS_STATUS)0x00010001L)
++#define NDIS_STATUS_NOT_COPIED			((NDIS_STATUS)0x00010002L)
++#define NDIS_STATUS_NOT_ACCEPTED		((NDIS_STATUS)0x00010003L)
++#define NDIS_STATUS_CALL_ACTIVE			((NDIS_STATUS)0x00010007L)
++
++#define NDIS_STATUS_FAILURE			((NDIS_STATUS)STATUS_UNSUCCESSFUL)
++#define NDIS_STATUS_RESOURCES			((NDIS_STATUS)STATUS_INSUFFICIENT_RESOURCES)
++#define NDIS_STATUS_CLOSING			((NDIS_STATUS)0xC0010002L)
++#define NDIS_STATUS_BAD_VERSION			((NDIS_STATUS)0xC0010004L)
++#define NDIS_STATUS_BAD_CHARACTERISTICS		((NDIS_STATUS)0xC0010005L)
++#define NDIS_STATUS_ADAPTER_NOT_FOUND		((NDIS_STATUS)0xC0010006L)
++#define NDIS_STATUS_OPEN_FAILED			((NDIS_STATUS)0xC0010007L)
++#define NDIS_STATUS_DEVICE_FAILED		((NDIS_STATUS)0xC0010008L)
++#define NDIS_STATUS_MULTICAST_FULL		((NDIS_STATUS)0xC0010009L)
++#define NDIS_STATUS_MULTICAST_EXISTS		((NDIS_STATUS)0xC001000AL)
++#define NDIS_STATUS_MULTICAST_NOT_FOUND		((NDIS_STATUS)0xC001000BL)
++#define NDIS_STATUS_REQUEST_ABORTED		((NDIS_STATUS)0xC001000CL)
++#define NDIS_STATUS_RESET_IN_PROGRESS		((NDIS_STATUS)0xC001000DL)
++#define NDIS_STATUS_CLOSING_INDICATING		((NDIS_STATUS)0xC001000EL)
++#define NDIS_STATUS_NOT_SUPPORTED		((NDIS_STATUS)STATUS_NOT_SUPPORTED)
++#define NDIS_STATUS_INVALID_PACKET		((NDIS_STATUS)0xC001000FL)
++#define NDIS_STATUS_OPEN_LIST_FULL		((NDIS_STATUS)0xC0010010L)
++#define NDIS_STATUS_ADAPTER_NOT_READY		((NDIS_STATUS)0xC0010011L)
++#define NDIS_STATUS_ADAPTER_NOT_OPEN		((NDIS_STATUS)0xC0010012L)
++#define NDIS_STATUS_NOT_INDICATING		((NDIS_STATUS)0xC0010013L)
++#define NDIS_STATUS_INVALID_LENGTH		((NDIS_STATUS)0xC0010014L)
++#define NDIS_STATUS_INVALID_DATA		((NDIS_STATUS)0xC0010015L)
++#define NDIS_STATUS_BUFFER_TOO_SHORT		((NDIS_STATUS)0xC0010016L)
++#define NDIS_STATUS_INVALID_OID			((NDIS_STATUS)0xC0010017L)
++#define NDIS_STATUS_ADAPTER_REMOVED		((NDIS_STATUS)0xC0010018L)
++#define NDIS_STATUS_UNSUPPORTED_MEDIA		((NDIS_STATUS)0xC0010019L)
++#define NDIS_STATUS_GROUP_ADDRESS_IN_USE	((NDIS_STATUS)0xC001001AL)
++#define NDIS_STATUS_FILE_NOT_FOUND		((NDIS_STATUS)0xC001001BL)
++#define NDIS_STATUS_ERROR_READING_FILE		((NDIS_STATUS)0xC001001CL)
++#define NDIS_STATUS_ALREADY_MAPPED		((NDIS_STATUS)0xC001001DL)
++#define NDIS_STATUS_RESOURCE_CONFLICT		((NDIS_STATUS)0xC001001EL)
++#define NDIS_STATUS_NO_CABLE			((NDIS_STATUS)0xC001001FL)
++
++#define NDIS_STATUS_INVALID_SAP			((NDIS_STATUS)0xC0010020L)
++#define NDIS_STATUS_SAP_IN_USE			((NDIS_STATUS)0xC0010021L)
++#define NDIS_STATUS_INVALID_ADDRESS		((NDIS_STATUS)0xC0010022L)
++#define NDIS_STATUS_VC_NOT_ACTIVATED		((NDIS_STATUS)0xC0010023L)
++#define NDIS_STATUS_DEST_OUT_OF_ORDER		((NDIS_STATUS)0xC0010024L)  /* cause 27 */
++#define NDIS_STATUS_VC_NOT_AVAILABLE		((NDIS_STATUS)0xC0010025L)  /* cause 35, 45 */
++#define NDIS_STATUS_CELLRATE_NOT_AVAILABLE	((NDIS_STATUS)0xC0010026L)  /* cause 37 */
++#define NDIS_STATUS_INCOMPATABLE_QOS		((NDIS_STATUS)0xC0010027L)  /* cause 49 */
++#define NDIS_STATUS_AAL_PARAMS_UNSUPPORTED	((NDIS_STATUS)0xC0010028L)  /* cause 93 */
++#define NDIS_STATUS_NO_ROUTE_TO_DESTINATION	((NDIS_STATUS)0xC0010029L)  /* cause 3 */
++#endif /* #ifndef PLATFORM_WINDOWS */
++
++
++#ifndef OID_802_11_CAPABILITY
++	#define OID_802_11_CAPABILITY                   0x0d010122
++#endif
++
++#ifndef OID_802_11_PMKID
++	#define OID_802_11_PMKID                        0x0d010123
++#endif
++
++
++/* For DDK-defined OIDs */
++#define OID_NDIS_SEG1	0x00010100
++#define OID_NDIS_SEG2	0x00010200
++#define OID_NDIS_SEG3	0x00020100
++#define OID_NDIS_SEG4	0x01010100
++#define OID_NDIS_SEG5	0x01020100
++#define OID_NDIS_SEG6	0x01020200
++#define OID_NDIS_SEG7	0xFD010100
++#define OID_NDIS_SEG8	0x0D010100
++#define OID_NDIS_SEG9	0x0D010200
++#define OID_NDIS_SEG10	0x0D020200
++
++#define SZ_OID_NDIS_SEG1		  23
++#define SZ_OID_NDIS_SEG2		    3
++#define SZ_OID_NDIS_SEG3		    6
++#define SZ_OID_NDIS_SEG4		    6
++#define SZ_OID_NDIS_SEG5		    4
++#define SZ_OID_NDIS_SEG6		    8
++#define SZ_OID_NDIS_SEG7		    7
++#define SZ_OID_NDIS_SEG8		  36
++#define SZ_OID_NDIS_SEG9		  24
++#define SZ_OID_NDIS_SEG10		  19
++
++/* For Realtek-defined OIDs */
++#define OID_MP_SEG1		0xFF871100
++#define OID_MP_SEG2		0xFF818000
++
++#define OID_MP_SEG3		0xFF818700
++#define OID_MP_SEG4		0xFF011100
++
++enum oid_type {
++	QUERY_OID,
++	SET_OID
++};
++
++struct oid_funs_node {
++	unsigned int oid_start; /* the starting number for OID */
++	unsigned int oid_end; /* the ending number for OID */
++	struct oid_obj_priv *node_array;
++	unsigned int array_sz; /* the size of node_array */
++	int query_counter; /* count the number of query hits for this segment  */
++	int set_counter; /* count the number of set hits for this segment  */
++};
++
++struct oid_par_priv {
++	void		*adapter_context;
++	NDIS_OID	oid;
++	void		*information_buf;
++	u32		information_buf_len;
++	u32		*bytes_rw;
++	u32		*bytes_needed;
++	enum oid_type	type_of_oid;
++	u32		dbg;
++};
++
++struct oid_obj_priv {
++	unsigned char	dbg; /* 0: without OID debug message  1: with OID debug message */
++	NDIS_STATUS(*oidfuns)(struct oid_par_priv *poid_par_priv);
++};
++
++#if (defined(CONFIG_MP_INCLUDED) && defined(_RTW_MP_IOCTL_C_)) || \
++	(defined(PLATFORM_WINDOWS) && defined(_RTW_IOCTL_RTL_C_))
++static NDIS_STATUS oid_null_function(struct oid_par_priv *poid_par_priv)
++{
++	return NDIS_STATUS_SUCCESS;
++}
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++int TranslateNdisPsToRtPs(IN NDIS_802_11_POWER_MODE	ndisPsMode);
++
++/* OID Handler for Segment 1 */
++NDIS_STATUS oid_gen_supported_list_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_hardware_status_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_media_supported_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_media_in_use_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_maximum_lookahead_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_maximum_frame_size_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_link_speed_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_transmit_buffer_space_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_receive_buffer_space_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_transmit_block_size_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_receive_block_size_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_vendor_id_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_vendor_description_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_current_packet_filter_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_current_lookahead_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_driver_version_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_maximum_total_size_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_protocol_options_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_mac_options_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_media_connect_status_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_maximum_send_packets_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_vendor_driver_version_hdl(struct oid_par_priv *poid_par_priv);
++
++
++/* OID Handler for Segment 2 */
++NDIS_STATUS oid_gen_physical_medium_hdl(struct oid_par_priv *poid_par_priv);
++
++/* OID Handler for Segment 3 */
++NDIS_STATUS oid_gen_xmit_ok_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_rcv_ok_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_xmit_error_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_rcv_error_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_gen_rcv_no_buffer_hdl(struct oid_par_priv *poid_par_priv);
++
++
++/* OID Handler for Segment 4 */
++NDIS_STATUS oid_802_3_permanent_address_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_current_address_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_multicast_list_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_maximum_list_size_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_mac_options_hdl(struct oid_par_priv *poid_par_priv);
++
++
++
++/* OID Handler for Segment 5 */
++NDIS_STATUS oid_802_3_rcv_error_alignment_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_one_collision_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_more_collisions_hdl(struct oid_par_priv *poid_par_priv);
++
++
++/* OID Handler for Segment 6 */
++NDIS_STATUS oid_802_3_xmit_deferred_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_max_collisions_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_rcv_overrun_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_underrun_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_heartbeat_failure_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_times_crs_lost_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_3_xmit_late_collisions_hdl(struct oid_par_priv *poid_par_priv);
++
++
++
++/* OID Handler for Segment 7 */
++NDIS_STATUS oid_pnp_capabilities_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_pnp_set_power_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_pnp_query_power_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_pnp_add_wake_up_pattern_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_pnp_remove_wake_up_pattern_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_pnp_wake_up_pattern_list_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_pnp_enable_wake_up_hdl(struct oid_par_priv *poid_par_priv);
++
++
++
++/* OID Handler for Segment 8 */
++NDIS_STATUS oid_802_11_bssid_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_ssid_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_infrastructure_mode_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_add_wep_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_remove_wep_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_disassociate_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_authentication_mode_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_privacy_filter_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_bssid_list_scan_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_encryption_status_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_reload_defaults_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_add_key_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_remove_key_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_association_information_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_test_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_media_stream_mode_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_capability_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_pmkid_hdl(struct oid_par_priv *poid_par_priv);
++
++
++
++
++
++/* OID Handler for Segment 9 */
++NDIS_STATUS oid_802_11_network_types_supported_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_network_type_in_use_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_tx_power_level_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_rssi_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_rssi_trigger_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_fragmentation_threshold_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_rts_threshold_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_number_of_antennas_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_rx_antenna_selected_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_tx_antenna_selected_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_supported_rates_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_desired_rates_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_configuration_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_power_mode_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_802_11_bssid_list_hdl(struct oid_par_priv *poid_par_priv);
++
++
++/* OID Handler for Segment 10 */
++NDIS_STATUS oid_802_11_statistics_hdl(struct oid_par_priv *poid_par_priv);
++
++
++/* OID Handler for Segment ED */
++NDIS_STATUS oid_rt_mh_vender_id_hdl(struct oid_par_priv *poid_par_priv);
++
++void Set_802_3_MULTICAST_LIST(ADAPTER *pAdapter, UCHAR *MCListbuf, ULONG MCListlen, BOOLEAN bAcceptAllMulticast);
++
++#endif/* end of PLATFORM_WINDOWS */
++
++#if defined(PLATFORM_LINUX) && defined(CONFIG_WIRELESS_EXT)
++extern struct iw_handler_def  rtw_handlers_def;
++#endif
++
++extern void rtw_request_wps_pbc_event(_adapter *padapter);
++
++extern	NDIS_STATUS drv_query_info(
++	IN	_nic_hdl		MiniportAdapterContext,
++	IN	NDIS_OID		Oid,
++	IN	void			*InformationBuffer,
++	IN	u32			InformationBufferLength,
++	OUT	u32			*BytesWritten,
++	OUT	u32			*BytesNeeded
++);
++
++extern	NDIS_STATUS	drv_set_info(
++	IN	_nic_hdl		MiniportAdapterContext,
++	IN	NDIS_OID		Oid,
++	IN	void			*InformationBuffer,
++	IN	u32			InformationBufferLength,
++	OUT	u32			*BytesRead,
++	OUT	u32			*BytesNeeded
++);
++
++#endif /*  #ifndef __INC_CEINFO_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_ioctl_query.h b/drivers/net/wireless/rtl8812au/include/rtw_ioctl_query.h
+new file mode 100644
+index 0000000..a74d13d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_ioctl_query.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_IOCTL_QUERY_H_
++#define _RTW_IOCTL_QUERY_H_
++
++
++#ifdef PLATFORM_WINDOWS
++u8 query_802_11_capability(_adapter	*padapter, u8 *pucBuf, u32 *pulOutLen);
++u8 query_802_11_association_information(_adapter *padapter, PNDIS_802_11_ASSOCIATION_INFORMATION pAssocInfo);
++#endif
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_ioctl_rtl.h b/drivers/net/wireless/rtl8812au/include/rtw_ioctl_rtl.h
+new file mode 100644
+index 0000000..ddf798f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_ioctl_rtl.h
+@@ -0,0 +1,80 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_IOCTL_RTL_H_
++#define _RTW_IOCTL_RTL_H_
++
++
++/* ************** oid_rtl_seg_01_01 ************** */
++NDIS_STATUS oid_rt_get_signal_quality_hdl(struct oid_par_priv *poid_par_priv);/* 84 */
++NDIS_STATUS oid_rt_get_small_packet_crc_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_middle_packet_crc_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_large_packet_crc_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_tx_retry_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_rx_retry_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_rx_total_packet_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_tx_beacon_ok_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_tx_beacon_err_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_set_fw_dig_state_hdl(struct oid_par_priv *poid_par_priv);	/* 8a */
++NDIS_STATUS oid_rt_pro_set_fw_ra_state_hdl(struct oid_par_priv *poid_par_priv);	/* 8b */
++
++NDIS_STATUS oid_rt_get_rx_icv_err_hdl(struct oid_par_priv *poid_par_priv);/* 93 */
++NDIS_STATUS oid_rt_set_encryption_algorithm_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_preamble_mode_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_ap_ip_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_channelplan_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_set_channelplan_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_set_preamble_mode_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_set_bcn_intvl_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_dedicate_probe_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_total_tx_bytes_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_total_rx_bytes_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_current_tx_power_level_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_enc_key_mismatch_count_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_enc_key_match_count_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_channel_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_hardware_radio_off_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_key_mismatch_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_supported_wireless_mode_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_channel_list_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_scan_in_progress_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_forced_data_rate_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_wireless_mode_for_scan_list_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_bss_wireless_mode_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_scan_with_magic_packet_hdl(struct oid_par_priv *poid_par_priv);
++
++/* **************  oid_rtl_seg_01_03 section start ************** */
++NDIS_STATUS oid_rt_ap_get_associated_station_list_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_ap_switch_into_ap_mode_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_ap_supported_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_ap_set_passphrase_hdl(struct oid_par_priv *poid_par_priv);
++
++/* oid_rtl_seg_01_11 */
++NDIS_STATUS oid_rt_pro_rf_write_registry_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_rf_read_registry_hdl(struct oid_par_priv *poid_par_priv);
++
++/* **************  oid_rtl_seg_03_00 section start **************  */
++NDIS_STATUS oid_rt_get_connect_state_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_set_default_key_id_hdl(struct oid_par_priv *poid_par_priv);
++
++
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_ioctl_set.h b/drivers/net/wireless/rtl8812au/include/rtw_ioctl_set.h
+new file mode 100644
+index 0000000..1f87214
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_ioctl_set.h
+@@ -0,0 +1,75 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_IOCTL_SET_H_
++#define __RTW_IOCTL_SET_H_
++
++
++typedef u8 NDIS_802_11_PMKID_VALUE[16];
++
++typedef struct _BSSIDInfo {
++	NDIS_802_11_MAC_ADDRESS  BSSID;
++	NDIS_802_11_PMKID_VALUE  PMKID;
++} BSSIDInfo, *PBSSIDInfo;
++
++
++#ifdef PLATFORM_OS_XP
++typedef struct _NDIS_802_11_PMKID {
++	u32	Length;
++	u32	BSSIDInfoCount;
++	BSSIDInfo BSSIDInfo[1];
++} NDIS_802_11_PMKID, *PNDIS_802_11_PMKID;
++#endif
++
++
++#ifdef PLATFORM_WINDOWS
++u8 rtw_set_802_11_reload_defaults(_adapter *padapter, NDIS_802_11_RELOAD_DEFAULTS reloadDefaults);
++u8 rtw_set_802_11_test(_adapter *padapter, NDIS_802_11_TEST *test);
++u8 rtw_set_802_11_pmkid(_adapter *pdapter, NDIS_802_11_PMKID *pmkid);
++
++u8 rtw_pnp_set_power_sleep(_adapter *padapter);
++u8 rtw_pnp_set_power_wakeup(_adapter *padapter);
++
++void rtw_pnp_resume_wk(void *context);
++void rtw_pnp_sleep_wk(void *context);
++
++#endif
++
++u8 rtw_set_802_11_add_key(_adapter *padapter, NDIS_802_11_KEY *key);
++u8 rtw_set_802_11_authentication_mode(_adapter *pdapter, NDIS_802_11_AUTHENTICATION_MODE authmode);
++u8 rtw_set_802_11_bssid(_adapter *padapter, u8 *bssid);
++u8 rtw_set_802_11_add_wep(_adapter *padapter, NDIS_802_11_WEP *wep);
++u8 rtw_set_802_11_disassociate(_adapter *padapter);
++u8 rtw_set_802_11_bssid_list_scan(_adapter *padapter, NDIS_802_11_SSID *pssid, int ssid_max_num, struct rtw_ieee80211_channel *ch, int ch_num);
++u8 rtw_set_802_11_infrastructure_mode(_adapter *padapter, NDIS_802_11_NETWORK_INFRASTRUCTURE networktype);
++u8 rtw_set_802_11_remove_wep(_adapter *padapter, u32 keyindex);
++u8 rtw_set_802_11_ssid(_adapter *padapter, NDIS_802_11_SSID *ssid);
++u8 rtw_set_802_11_connect(_adapter *padapter, u8 *bssid, NDIS_802_11_SSID *ssid);
++u8 rtw_set_802_11_remove_key(_adapter *padapter, NDIS_802_11_REMOVE_KEY *key);
++
++u8 rtw_validate_bssid(u8 *bssid);
++u8 rtw_validate_ssid(NDIS_802_11_SSID *ssid);
++
++u16 rtw_get_cur_max_rate(_adapter *adapter);
++int rtw_set_scan_mode(_adapter *adapter, RT_SCAN_TYPE scan_mode);
++int rtw_set_channel_plan(_adapter *adapter, u8 channel_plan);
++int rtw_set_country(_adapter *adapter, const char *country_code);
++int rtw_set_band(_adapter *adapter, u8 band);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_iol.h b/drivers/net/wireless/rtl8812au/include/rtw_iol.h
+new file mode 100644
+index 0000000..b68a525
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_iol.h
+@@ -0,0 +1,136 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_IOL_H_
++#define __RTW_IOL_H_
++
++
++struct xmit_frame	*rtw_IOL_accquire_xmit_frame(ADAPTER *adapter);
++int rtw_IOL_append_cmds(struct xmit_frame *xmit_frame, u8 *IOL_cmds, u32 cmd_len);
++int rtw_IOL_append_LLT_cmd(struct xmit_frame *xmit_frame, u8 page_boundary);
++int rtw_IOL_exec_cmds_sync(ADAPTER *adapter, struct xmit_frame *xmit_frame, u32 max_wating_ms, u32 bndy_cnt);
++bool rtw_IOL_applied(ADAPTER *adapter);
++int rtw_IOL_append_DELAY_US_cmd(struct xmit_frame *xmit_frame, u16 us);
++int rtw_IOL_append_DELAY_MS_cmd(struct xmit_frame *xmit_frame, u16 ms);
++int rtw_IOL_append_END_cmd(struct xmit_frame *xmit_frame);
++
++
++#ifdef CONFIG_IOL_NEW_GENERATION
++#define IOREG_CMD_END_LEN	4
++
++struct ioreg_cfg {
++	u8	length;
++	u8	cmd_id;
++	u16	address;
++	u32	data;
++	u32  mask;
++};
++enum ioreg_cmd {
++	IOREG_CMD_LLT			= 0x01,
++	IOREG_CMD_REFUSE		= 0x02,
++	IOREG_CMD_EFUSE_PATH = 0x03,
++	IOREG_CMD_WB_REG		= 0x04,
++	IOREG_CMD_WW_REG	= 0x05,
++	IOREG_CMD_WD_REG	= 0x06,
++	IOREG_CMD_W_RF		= 0x07,
++	IOREG_CMD_DELAY_US	= 0x10,
++	IOREG_CMD_DELAY_MS	= 0x11,
++	IOREG_CMD_END		= 0xFF,
++};
++void read_efuse_from_txpktbuf(ADAPTER *adapter, int bcnhead, u8 *content, u16 *size);
++
++int _rtw_IOL_append_WB_cmd(struct xmit_frame *xmit_frame, u16 addr, u8 value, u8 mask);
++int _rtw_IOL_append_WW_cmd(struct xmit_frame *xmit_frame, u16 addr, u16 value, u16 mask);
++int _rtw_IOL_append_WD_cmd(struct xmit_frame *xmit_frame, u16 addr, u32 value, u32 mask);
++int _rtw_IOL_append_WRF_cmd(struct xmit_frame *xmit_frame, u8 rf_path, u16 addr, u32 value, u32 mask);
++#define rtw_IOL_append_WB_cmd(xmit_frame, addr, value, mask) _rtw_IOL_append_WB_cmd((xmit_frame), (addr), (value), (mask))
++#define rtw_IOL_append_WW_cmd(xmit_frame, addr, value, mask) _rtw_IOL_append_WW_cmd((xmit_frame), (addr), (value), (mask))
++#define rtw_IOL_append_WD_cmd(xmit_frame, addr, value, mask) _rtw_IOL_append_WD_cmd((xmit_frame), (addr), (value), (mask))
++#define rtw_IOL_append_WRF_cmd(xmit_frame, rf_path, addr, value, mask) _rtw_IOL_append_WRF_cmd((xmit_frame), (rf_path), (addr), (value), (mask))
++
++u8 rtw_IOL_cmd_boundary_handle(struct xmit_frame *pxmit_frame);
++void  rtw_IOL_cmd_buf_dump(ADAPTER *Adapter, int buf_len, u8 *pbuf);
++
++#ifdef CONFIG_IOL_IOREG_CFG_DBG
++struct cmd_cmp {
++	u16 addr;
++	u32 value;
++};
++#endif
++
++#else /* CONFIG_IOL_NEW_GENERATION */
++
++typedef struct _io_offload_cmd {
++	u8 rsvd0;
++	u8 cmd;
++	u16 address;
++	u32 value;
++} IO_OFFLOAD_CMD, IOL_CMD;
++
++#define IOL_CMD_LLT			0x00
++/* #define IOL_CMD_R_EFUSE	0x01 */
++#define IOL_CMD_WB_REG		0x02
++#define IOL_CMD_WW_REG	0x03
++#define IOL_CMD_WD_REG		0x04
++/* #define IOL_CMD_W_RF		0x05 */
++#define IOL_CMD_DELAY_US	0x80
++#define IOL_CMD_DELAY_MS	0x81
++/* #define IOL_CMD_DELAY_S	0x82 */
++#define IOL_CMD_END			0x83
++
++/*****************************************************
++CMD					Address			Value
++(B1)					(B2/B3:H/L addr)	(B4:B7 : MSB:LSB)
++******************************************************
++IOL_CMD_LLT			-				B7: PGBNDY
++IOL_CMD_R_EFUSE	-				-
++IOL_CMD_WB_REG		0x0~0xFFFF		B7
++IOL_CMD_WW_REG	0x0~0xFFFF		B6~B7
++IOL_CMD_WD_REG	0x0~0xFFFF		B4~B7
++IOL_CMD_W_RF		RF Reg			B5~B7
++IOL_CMD_DELAY_US	-				B6~B7
++IOL_CMD_DELAY_MS	-				B6~B7
++IOL_CMD_DELAY_S	-				B6~B7
++IOL_CMD_END		-				-
++******************************************************/
++int _rtw_IOL_append_WB_cmd(struct xmit_frame *xmit_frame, u16 addr, u8 value);
++int _rtw_IOL_append_WW_cmd(struct xmit_frame *xmit_frame, u16 addr, u16 value);
++int _rtw_IOL_append_WD_cmd(struct xmit_frame *xmit_frame, u16 addr, u32 value);
++
++
++int rtw_IOL_exec_cmd_array_sync(PADAPTER adapter, u8 *IOL_cmds, u32 cmd_num, u32 max_wating_ms);
++int rtw_IOL_exec_empty_cmds_sync(ADAPTER *adapter, u32 max_wating_ms);
++
++#ifdef DBG_IO
++int dbg_rtw_IOL_append_WB_cmd(struct xmit_frame *xmit_frame, u16 addr, u8 value, const char *caller, const int line);
++int dbg_rtw_IOL_append_WW_cmd(struct xmit_frame *xmit_frame, u16 addr, u16 value, const char *caller, const int line);
++int dbg_rtw_IOL_append_WD_cmd(struct xmit_frame *xmit_frame, u16 addr, u32 value, const char *caller, const int line);
++#define rtw_IOL_append_WB_cmd(xmit_frame, addr, value) dbg_rtw_IOL_append_WB_cmd((xmit_frame), (addr), (value), __FUNCTION__, __LINE__)
++#define rtw_IOL_append_WW_cmd(xmit_frame, addr, value) dbg_rtw_IOL_append_WW_cmd((xmit_frame), (addr), (value), __FUNCTION__, __LINE__)
++#define rtw_IOL_append_WD_cmd(xmit_frame, addr, value) dbg_rtw_IOL_append_WD_cmd((xmit_frame), (addr), (value), __FUNCTION__, __LINE__)
++#else
++#define rtw_IOL_append_WB_cmd(xmit_frame, addr, value) _rtw_IOL_append_WB_cmd((xmit_frame), (addr), (value))
++#define rtw_IOL_append_WW_cmd(xmit_frame, addr, value) _rtw_IOL_append_WW_cmd((xmit_frame), (addr), (value))
++#define rtw_IOL_append_WD_cmd(xmit_frame, addr, value) _rtw_IOL_append_WD_cmd((xmit_frame), (addr), (value))
++#endif /* DBG_IO */
++#endif /* CONFIG_IOL_NEW_GENERATION */
++
++
++
++#endif /* __RTW_IOL_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_mcc.h b/drivers/net/wireless/rtl8812au/include/rtw_mcc.h
+new file mode 100644
+index 0000000..177dae3
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_mcc.h
+@@ -0,0 +1,207 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ ******************************************************************************/
++#ifdef CONFIG_MCC_MODE
++
++#ifndef _RTW_MCC_H_
++#define _RTW_MCC_H_
++
++#include <drv_types.h> /* PADAPTER */
++
++#define MCC_STATUS_PROCESS_MCC_START_SETTING BIT0
++#define MCC_STATUS_PROCESS_MCC_STOP_SETTING BIT1
++#define MCC_STATUS_NEED_MCC BIT2
++#define MCC_STATUS_DOING_MCC BIT3
++
++
++#define MCC_DURATION 35 /* ms */
++#define MCC_SWCH_FW_EARLY_TIME 10 /* ms */
++#define MCC_EXPIRE_TIME 50 /* ms */
++#define MCC_TOLERANCE_TIME 2 /* 2*2 = 4s */
++
++#define MCC_ROLE_STA_GC_MGMT_QUEUE_MACID 0
++#define MCC_ROLE_SOFTAP_GO_MGMT_QUEUE_MACID 1
++
++/* Lower for stop, Higher for start */
++#define MCC_SETCMD_STATUS_STOP_DISCONNECT 0x0
++#define MCC_SETCMD_STATUS_STOP_SCAN_START 0x1
++#define MCC_SETCMD_STATUS_START_CONNECT 0x80
++#define MCC_SETCMD_STATUS_START_SCAN_DONE 0x81
++
++/*
++* depenad platform or customer requirement(TP unit:Mbps),
++* must be provided by PM or sales or product document
++* too large value means not to limit tx bytes (current for ap mode)
++* NOTE: following values ref from test results
++*/
++#define MCC_AP_BW20_TARGET_TX_TP (300)
++#define MCC_AP_BW40_TARGET_TX_TP (300)
++#define MCC_AP_BW80_TARGET_TX_TP (300)
++#define MCC_STA_BW20_TARGET_TX_TP (35)
++#define MCC_STA_BW40_TARGET_TX_TP (70)
++#define MCC_STA_BW80_TARGET_TX_TP (140)
++#define MCC_SINGLE_TX_CRITERIA 5 /* Mbps */
++
++#define MAX_MCC_NUM 2
++
++#define MCC_STOP(adapter) (adapter->mcc_adapterpriv.mcc_tx_stop)
++#define MCC_EN(adapter) (adapter->registrypriv.en_mcc)
++
++/* Represent Channel Tx Null setting */
++enum mcc_channel_tx_null {
++	MCC_ENABLE_TX_NULL = 0,
++	MCC_DISABLE_TX_NULL = 1,
++};
++
++/* Represent C2H Report setting */
++enum mcc_c2h_report {
++	MCC_C2H_REPORT_DISABLE = 0,
++	MCC_C2H_REPORT_FAIL_STATUS = 1,
++	MCC_C2H_REPORT_ALL_STATUS = 2,
++};
++
++/* Represent Channel Scan */
++enum mcc_channel_scan {
++	MCC_CHIDX = 0,
++	MCC_SCANCH_RSVD_LOC = 1,
++};
++
++/* Represent FW status report of channel switch */
++enum mcc_status_rpt {
++	MCC_RPT_SUCCESS = 0,
++	MCC_RPT_TXNULL_FAIL = 1,
++	MCC_RPT_STOPMCC = 2,
++	MCC_RPT_READY = 3,
++	MCC_RPT_SWICH_CHANNEL_NOTIFY = 7,
++	MCC_RPT_MAX,
++};
++
++enum MCC_ROLE {
++	MCC_ROLE_STA = 0,
++	MCC_ROLE_AP = 1,
++	MCC_ROLE_GC = 2,
++	MCC_ROLE_GO = 3,
++	MCC_ROLE_MAX,
++};
++
++struct mcc_iqk_backup {
++	u16 TX_X;
++	u16 TX_Y;
++	u16 RX_X;
++	u16 RX_Y;
++};
++
++/*  mcc data for adapter */
++struct mcc_adapter_priv {
++	u8 order;		/* FW document, softap/AP must be 0 */
++	u8 role;			/* MCC role(AP,STA,GO,GC) */
++	u8 mcc_duration; /* channel stay period, UNIT:1TU */
++
++	/* flow control */
++	u8 mcc_tx_stop;				/* check if tp stop or not */
++	u8 mcc_tp_limit;				/* check if tp limit or not */
++	u32 mcc_target_tx_bytes_to_port;		/* customer require */
++	u32 mcc_tx_bytes_to_port;	/* already tx to tx fifo (write port) */
++
++	/* data from kernel to check if enqueue data or netif stop queue */
++	u32 mcc_tp;
++	u64 mcc_tx_bytes_from_kernel;
++	u64 mcc_last_tx_bytes_from_kernel;
++
++	/* Backup IQK value for MCC */
++	struct mcc_iqk_backup mcc_iqk_arr[MAX_RF_PATH];
++
++	/* mgmt queue macid to avoid RA issue */
++	u8 mgmt_queue_macid;
++
++	/* set macid bitmap to let fw know which macid should be tx pause */
++	/* all interface share total 16 macid */
++	u16 mcc_macid_bitmap;
++};
++
++struct mcc_obj_priv {
++	u8 duration; /* channel stay period, UNIT:1TU */
++	u8 mcc_c2h_status;
++	u8 cur_mcc_success_cnt; /* used for check mcc switch channel success */
++	u8 prev_mcc_success_cnt; /* used for check mcc switch channel success */
++	u8 mcc_tolerance_time; /* used for detect mcc switch channel success */
++	u8 mcc_loc_rsvd_paga[MAX_MCC_NUM];  /* mcc rsvd page */
++	u8 mcc_status; /* mcc status stop or start .... */
++	u32 mcc_launch_time; /* mcc launch time, used for starting detect mcc switch channel success */
++	_mutex mcc_mutex;
++	_lock mcc_lock;
++	PADAPTER iface[MAX_MCC_NUM]; /* by order, use for mcc parameter cmd */
++	struct submit_ctx mcc_sctx;
++};
++
++/* backup IQK val */
++void rtw_hal_mcc_backup_IQK_val(PADAPTER padapter);
++
++/* check mcc status */
++u8 rtw_hal_check_mcc_status(PADAPTER padapter, u8 mcc_status);
++
++/* set mcc status */
++void rtw_hal_set_mcc_status(PADAPTER padapter, u8 mcc_status);
++
++/* clear mcc status */
++void rtw_hal_clear_mcc_status(PADAPTER padapter, u8 mcc_status);
++
++/* dl mcc rsvd page */
++u8 rtw_hal_dl_mcc_fw_rsvd_page(_adapter *adapter, u8 *pframe, u16 *index
++	, u8 tx_desc, u32 page_size, u8 *page_num, u32 *total_pkt_len, RSVDPAGE_LOC *rsvd_page_loc);
++
++/* handle C2H */
++void rtw_hal_mcc_c2h_handler(PADAPTER padapter, u8 buflen, u8 *tmpBuf);
++
++/* switch channel successfully or not */
++void rtw_hal_mcc_sw_status_check(PADAPTER padapter);
++
++/* change some scan flags under site survey */
++u8 rtw_hal_mcc_change_scan_flag(PADAPTER padapter, u8 *ch, u8 *bw, u8 *offset);
++
++/* record data kernel TX to driver to check MCC concurrent TX */
++void rtw_hal_mcc_calc_tx_bytes_from_kernel(PADAPTER padapter, u32 len);
++
++/* record data to port to let driver do flow ctrl */
++void rtw_hal_mcc_calc_tx_bytes_to_port(PADAPTER padapter, u32 len);
++
++/* check stop write port or not */
++u8 rtw_hal_mcc_stop_tx_bytes_to_port(PADAPTER padapter);
++
++u8 rtw_hal_set_mcc_setting_scan_start(PADAPTER padapter);
++
++u8 rtw_hal_set_mcc_setting_scan_complete(PADAPTER padapter);
++
++u8 rtw_hal_set_mcc_setting_start_bss_network(PADAPTER padapter, u8 chbw_grouped);
++
++u8 rtw_hal_set_mcc_setting_disconnect(PADAPTER padapter);
++
++u8 rtw_hal_set_mcc_setting_join_done_chk_ch(PADAPTER padapter);
++
++u8 rtw_hal_set_mcc_setting_chk_start_clnt_join(PADAPTER padapter, u8 *ch, u8 *bw, u8 *offset, u8 chbw_allow);
++
++void rtw_hal_dump_mcc_info(void *sel, struct dvobj_priv *dvobj);
++
++void update_mcc_mgntframe_attrib(_adapter *padapter, struct pkt_attrib *pattrib);
++
++u8 rtw_hal_mcc_link_status_chk(_adapter *padapter, const char *msg);
++
++void rtw_hal_mcc_issue_null_data(_adapter *padapter, u8 chbw_allow, u8 ps_mode);
++
++#endif /* _RTW_MCC_H_ */
++#endif /* CONFIG_MCC_MODE */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_mem.h b/drivers/net/wireless/rtl8812au/include/rtw_mem.h
+new file mode 100644
+index 0000000..ae6049f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_mem.h
+@@ -0,0 +1,41 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_MEM_H__
++#define __RTW_MEM_H__
++
++#include <drv_conf.h>
++#include <basic_types.h>
++#include <osdep_service.h>
++
++#ifdef CONFIG_PLATFORM_MSTAR_HIGH
++	#define MAX_RTKM_RECVBUF_SZ (31744) /* 31k */
++#else
++	#define MAX_RTKM_RECVBUF_SZ (15360) /* 15k */
++#endif /* CONFIG_PLATFORM_MSTAR_HIGH */
++#define MAX_RTKM_NR_PREALLOC_RECV_SKB 16
++
++u16 rtw_rtkm_get_buff_size(void);
++u8 rtw_rtkm_get_nr_recv_skb(void);
++struct u8 *rtw_alloc_revcbuf_premem(void);
++struct sk_buff *rtw_alloc_skb_premem(u16 in_size);
++int rtw_free_skb_premem(struct sk_buff *pskb);
++
++
++#endif /* __RTW_MEM_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_mi.h b/drivers/net/wireless/rtl8812au/include/rtw_mi.h
+new file mode 100644
+index 0000000..3d37431
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_mi.h
+@@ -0,0 +1,201 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_MI_H_
++#define __RTW_MI_H_
++
++void rtw_mi_update_union_chan_inf(_adapter *adapter, u8 ch, u8 offset , u8 bw);
++int rtw_mi_get_ch_setting_union(_adapter *adapter, u8 *ch, u8 *bw, u8 *offset);
++int rtw_mi_get_ch_setting_union_no_self(_adapter *adapter, u8 *ch, u8 *bw, u8 *offset);
++
++void rtw_mi_status(_adapter *adapter, u8 *sta_num, u8 *ld_sta_num, u8 *lg_sta_num
++	, u8 *ap_num, u8 *ld_ap_num, u8 *uw_num);
++void rtw_mi_status_no_self(_adapter *adapter, u8 *sta_num, u8 *ld_sta_num, u8 *lg_sta_num
++	, u8 *ap_num, u8 *ld_ap_num, u8 *uw_num);
++
++void rtw_mi_update_iface_status(struct mlme_priv *pmlmepriv, sint state);
++
++u8 rtw_mi_mp_mode_check(_adapter *padapter);
++
++#ifdef CONFIG_CONCURRENT_MODE
++#define UNDER_SURVEY_T1	1 /*buddy under suvey*/
++#define UNDER_SURVEY_T2	2 /*buddy under suvey by scan_request*/
++u8 rtw_mi_buddy_under_survey(_adapter *padapter);
++void  rtw_mi_buddy_indicate_scan_done(_adapter *padapter, bool bscan_aborted);
++#endif
++
++u8 rtw_mi_netif_stop_queue(_adapter *padapter, bool carrier_off);
++u8 rtw_mi_buddy_netif_stop_queue(_adapter *padapter, bool carrier_off);
++
++u8 rtw_mi_netif_wake_queue(_adapter *padapter);
++u8 rtw_mi_buddy_netif_wake_queue(_adapter *padapter);
++
++u8 rtw_mi_netif_carrier_on(_adapter *padapter);
++u8 rtw_mi_buddy_netif_carrier_on(_adapter *padapter);
++
++void rtw_mi_scan_abort(_adapter *adapter, bool bwait);
++void rtw_mi_buddy_scan_abort(_adapter *adapter, bool bwait);
++void rtw_mi_start_drv_threads(_adapter *adapter);
++void rtw_mi_buddy_start_drv_threads(_adapter *adapter);
++void rtw_mi_stop_drv_threads(_adapter *adapter);
++void rtw_mi_buddy_stop_drv_threads(_adapter *adapter);
++void rtw_mi_cancel_all_timer(_adapter *adapter);
++void rtw_mi_buddy_cancel_all_timer(_adapter *adapter);
++void rtw_mi_reset_drv_sw(_adapter *adapter);
++void rtw_mi_buddy_reset_drv_sw(_adapter *adapter);
++
++extern void rtw_intf_start(_adapter *adapter);
++extern void rtw_intf_stop(_adapter *adapter);
++void rtw_mi_intf_start(_adapter *adapter);
++void rtw_mi_buddy_intf_start(_adapter *adapter);
++void rtw_mi_intf_stop(_adapter *adapter);
++void rtw_mi_buddy_intf_stop(_adapter *adapter);
++
++void rtw_mi_suspend_free_assoc_resource(_adapter *adapter);
++void rtw_mi_buddy_suspend_free_assoc_resource(_adapter *adapter);
++
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++void rtw_mi_set_scan_deny(_adapter *adapter, u32 ms);
++void rtw_mi_buddy_set_scan_deny(_adapter *adapter, u32 ms);
++#else
++#define rtw_mi_set_scan_deny(adapter, ms) do {} while (0)
++#define rtw_mi_buddy_set_scan_deny(adapter, ms) do {} while (0)
++#endif
++
++u8 rtw_mi_is_scan_deny(_adapter *adapter);
++u8 rtw_mi_buddy_is_scan_deny(_adapter *adapter);
++
++u8 rtw_mi_issue_nulldata(_adapter *padapter, unsigned char *da, unsigned int power_mode, int try_cnt, int wait_ms);
++u8 rtw_mi_buddy_issue_nulldata(_adapter *padapter, unsigned char *da, unsigned int power_mode, int try_cnt, int wait_ms);
++
++void rtw_mi_beacon_update(_adapter *padapter);
++void rtw_mi_buddy_beacon_update(_adapter *padapter);
++
++void rtw_mi_hal_dump_macaddr(_adapter *padapter);
++void rtw_mi_buddy_hal_dump_macaddr(_adapter *padapter);
++
++#ifdef CONFIG_PCI_HCI
++void rtw_mi_xmit_tasklet_schedule(_adapter *padapter);
++void rtw_mi_buddy_xmit_tasklet_schedule(_adapter *padapter);
++#endif
++
++u8 rtw_mi_busy_traffic_check(_adapter *padapter, bool check_sc_interval);
++u8 rtw_mi_buddy_busy_traffic_check(_adapter *padapter, bool check_sc_interval);
++
++u8 rtw_mi_check_mlmeinfo_state(_adapter *padapter, u32 state);
++u8 rtw_mi_buddy_check_mlmeinfo_state(_adapter *padapter, u32 state);
++
++u8 rtw_mi_check_fwstate(_adapter *padapter, sint state);
++u8 rtw_mi_buddy_check_fwstate(_adapter *padapter, sint state);
++enum {
++	MI_LINKED,
++	MI_ASSOC,
++	MI_UNDER_WPS,
++	MI_AP_MODE,
++	MI_AP_ASSOC,
++	MI_ADHOC,
++	MI_ADHOC_ASSOC,
++	MI_STA_NOLINK, /* this is misleading, but not used now */
++	MI_STA_LINKED,
++	MI_STA_LINKING,
++};
++u8 rtw_mi_check_status(_adapter *adapter, u8 type);
++#define rtw_mi_get_union_chan(adapter)	adapter_to_dvobj(adapter)->iface_state.union_ch
++#define rtw_mi_get_union_bw(adapter)		adapter_to_dvobj(adapter)->iface_state.union_bw
++#define rtw_mi_get_union_offset(adapter)	adapter_to_dvobj(adapter)->iface_state.union_offset
++
++#define rtw_mi_get_assoced_sta_num(adapter)	adapter_to_dvobj(adapter)->iface_state.ld_sta_num
++#define rtw_mi_get_ap_num(adapter)			adapter_to_dvobj(adapter)->iface_state.ap_num
++#define rtw_mi_get_sta_num(adapter)			adapter_to_dvobj(adapter)->iface_state.sta_num
++
++void dump_dvobj_mi_status(void *sel, const char *fun_name, _adapter *adapter);
++#ifdef DBG_IFACE_STATUS
++#define DBG_IFACE_STATUS_DUMP(adapter)	dump_dvobj_mi_status(RTW_DBGDUMP, __func__, adapter)
++#endif
++void dump_mi_status(void *sel, struct dvobj_priv *dvobj);
++
++u8 rtw_mi_traffic_statistics(_adapter *padapter);
++u8 rtw_mi_check_miracast_enabled(_adapter *padapter);
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++u8 rtw_mi_check_pending_xmitbuf(_adapter *padapter);
++u8 rtw_mi_buddy_check_pending_xmitbuf(_adapter *padapter);
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++#ifdef CONFIG_RTL8822B
++	#include <rtl8822b_hal.h>
++#else
++	extern s32 _dequeue_writeport(PADAPTER padapter);
++#endif
++u8 rtw_mi_dequeue_writeport(_adapter *padapter);
++u8 rtw_mi_buddy_dequeue_writeport(_adapter *padapter);
++#endif
++
++void rtw_mi_adapter_reset(_adapter *padapter);
++void rtw_mi_buddy_adapter_reset(_adapter *padapter);
++
++u8 rtw_mi_dynamic_check_timer_handlder(_adapter *padapter);
++u8 rtw_mi_buddy_dynamic_check_timer_handlder(_adapter *padapter);
++
++u8 rtw_mi_dev_unload(_adapter *padapter);
++u8 rtw_mi_buddy_dev_unload(_adapter *padapter);
++
++extern void rtw_iface_dynamic_chk_wk_hdl(_adapter *padapter);
++u8 rtw_mi_dynamic_chk_wk_hdl(_adapter *padapter);
++u8 rtw_mi_buddy_dynamic_chk_wk_hdl(_adapter *padapter);
++
++u8 rtw_mi_os_xmit_schedule(_adapter *padapter);
++u8 rtw_mi_buddy_os_xmit_schedule(_adapter *padapter);
++
++u8 rtw_mi_report_survey_event(_adapter *padapter, union recv_frame *precv_frame);
++u8 rtw_mi_buddy_report_survey_event(_adapter *padapter, union recv_frame *precv_frame);
++
++extern void sreset_start_adapter(_adapter *padapter);
++extern void sreset_stop_adapter(_adapter *padapter);
++u8 rtw_mi_sreset_adapter_hdl(_adapter *padapter, u8 bstart);
++u8 rtw_mi_buddy_sreset_adapter_hdl(_adapter *padapter, u8 bstart);
++
++u8 rtw_mi_tx_beacon_hdl(_adapter *padapter);
++u8 rtw_mi_buddy_tx_beacon_hdl(_adapter *padapter);
++
++u8 rtw_mi_set_tx_beacon_cmd(_adapter *padapter);
++u8 rtw_mi_buddy_set_tx_beacon_cmd(_adapter *padapter);
++
++#ifdef CONFIG_P2P
++u8 rtw_mi_p2p_chk_state(_adapter *padapter, enum P2P_STATE p2p_state);
++u8 rtw_mi_buddy_p2p_chk_state(_adapter *padapter, enum P2P_STATE p2p_state);
++u8 rtw_mi_stay_in_p2p_mode(_adapter *padapter);
++u8 rtw_mi_buddy_stay_in_p2p_mode(_adapter *padapter);
++#endif
++
++_adapter *rtw_get_iface_by_id(_adapter *padapter, u8 iface_id);
++_adapter *rtw_get_iface_by_macddr(_adapter *padapter, u8 *mac_addr);
++_adapter *rtw_get_iface_by_hwport(_adapter *padapter, u8 hw_port);
++
++void rtw_mi_buddy_clone_bcmc_packet(_adapter *padapter, union recv_frame *precvframe, u8 *pphy_status);
++
++#ifdef CONFIG_PCI_HCI
++/*API be create temporary for MI, caller is interrupt-handler, PCIE's interrupt handler cannot apply to multi-AP*/
++_adapter *rtw_mi_get_ap_adapter(_adapter *padapter);
++#endif
++
++void rtw_mi_update_ap_bmc_camid(_adapter *padapter, u8 camid_a, u8 camid_b);
++
++#endif /*__RTW_MI_H_*/
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_mlme.h b/drivers/net/wireless/rtl8812au/include/rtw_mlme.h
+new file mode 100644
+index 0000000..1761f97
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_mlme.h
+@@ -0,0 +1,1104 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_MLME_H_
++#define __RTW_MLME_H_
++
++
++#define	MAX_BSS_CNT	128
++/* #define   MAX_JOIN_TIMEOUT	2000 */
++/* #define   MAX_JOIN_TIMEOUT	2500 */
++#define   MAX_JOIN_TIMEOUT	6500
++
++/*	Commented by Albert 20101105
++ *	Increase the scanning timeout because of increasing the SURVEY_TO value. */
++
++#define SCANNING_TIMEOUT 8000
++#ifdef CONFIG_SCAN_BACKOP
++#define CONC_SCANNING_TIMEOUT_SINGLE_BAND 10000
++#define CONC_SCANNING_TIMEOUT_DUAL_BAND 15000
++#endif
++
++#ifdef PALTFORM_OS_WINCE
++#define	SCANQUEUE_LIFETIME 12000000 /* unit:us */
++#else
++#define	SCANQUEUE_LIFETIME 20000 /* 20sec, unit:msec */
++#endif
++
++#define WIFI_NULL_STATE					0x00000000
++#define WIFI_ASOC_STATE					0x00000001 /* Linked */
++#define WIFI_REASOC_STATE				0x00000002
++#define WIFI_SLEEP_STATE				0x00000004
++#define WIFI_STATION_STATE				0x00000008
++#define WIFI_AP_STATE					0x00000010
++#define WIFI_ADHOC_STATE				0x00000020
++#define WIFI_ADHOC_MASTER_STATE			0x00000040
++#define WIFI_UNDER_LINKING				0x00000080
++#define WIFI_UNDER_WPS					0x00000100
++/*#define WIFI_UNDEFINED_STATE			0x00000200*/
++#define WIFI_STA_ALIVE_CHK_STATE		0x00000400
++#define WIFI_SITE_MONITOR				0x00000800 /* under site surveying */
++#define WIFI_WDS						0x00001000
++#define WIFI_WDS_RX_BEACON				0x00002000 /* already rx WDS AP beacon */
++#define WIFI_AUTOCONF					0x00004000
++#define WIFI_AUTOCONF_IND				0x00008000
++#define WIFI_MP_STATE					0x00010000
++#define WIFI_MP_CTX_BACKGROUND			0x00020000 /* in continuous tx background */
++#define WIFI_MP_CTX_ST					0x00040000 /* in continuous tx with single-tone */
++#define WIFI_MP_CTX_BACKGROUND_PENDING	0x00080000 /* pending in continuous tx background due to out of skb */
++#define WIFI_MP_CTX_CCK_HW				0x00100000 /* in continuous tx */
++#define WIFI_MP_CTX_CCK_CS				0x00200000 /* in continuous tx with carrier suppression */
++#define WIFI_MP_LPBK_STATE				0x00400000
++#define WIFI_OP_CH_SWITCHING			0x00800000
++/*#define WIFI_UNDEFINED_STATE			0x01000000*/
++/*#define WIFI_UNDEFINED_STATE			0x02000000*/
++/*#define WIFI_UNDEFINED_STATE			0x04000000*/
++/*#define WIFI_UNDEFINED_STATE			0x08000000*/
++/*#define WIFI_UNDEFINED_STATE			0x10000000*/
++/*#define WIFI_UNDEFINED_STATE			0x20000000*/
++/*#define WIFI_UNDEFINED_STATE			0x40000000*/
++#define WIFI_MONITOR_STATE				0x80000000
++
++#define MIRACAST_DISABLED	0
++#define MIRACAST_SOURCE		BIT0
++#define MIRACAST_SINK		BIT1
++
++#define MIRACAST_MODE_REVERSE(mode) \
++	((((mode) & MIRACAST_SOURCE) ? MIRACAST_SINK : 0) | (((mode) & MIRACAST_SINK) ? MIRACAST_SOURCE : 0))
++
++bool is_miracast_enabled(_adapter *adapter);
++bool rtw_chk_miracast_mode(_adapter *adapter, u8 mode);
++const char *get_miracast_mode_str(int mode);
++void rtw_wfd_st_switch(struct sta_info *sta, bool on);
++
++#define MLME_STATE(adapter) get_fwstate(&((adapter)->mlmepriv))
++
++#define MLME_IS_STA(adapter) (MLME_STATE((adapter)) & WIFI_STATION_STATE)
++#define MLME_IS_AP(adapter) (MLME_STATE((adapter)) & WIFI_AP_STATE)
++#define MLME_IS_ADHOC(adapter) (MLME_STATE((adapter)) & WIFI_ADHOC_STATE)
++#define MLME_IS_ADHOC_MASTER(adapter) (MLME_STATE((adapter)) & WIFI_ADHOC_MASTER_STATE)
++#define MLME_IS_MONITOR(adapter) (MLME_STATE((adapter)) & WIFI_MONITOR_STATE)
++#define MLME_IS_MP(adapter) (MLME_STATE((adapter)) & WIFI_MP_STATE)
++#ifdef CONFIG_P2P
++	#define MLME_IS_GC(adapter) rtw_p2p_chk_role(&(adapter)->wdinfo, P2P_ROLE_CLIENT)
++	#define MLME_IS_GO(adapter) rtw_p2p_chk_role(&(adapter)->wdinfo, P2P_ROLE_GO)
++#else /* !CONFIG_P2P */
++	#define MLME_IS_GC(adapter) 0
++	#define MLME_IS_GO(adapter) 0
++#endif /* !CONFIG_P2P */
++#define MLME_IS_MSRC(adapter) rtw_chk_miracast_mode((adapter), MIRACAST_SOURCE)
++#define MLME_IS_MSINK(adapter) rtw_chk_miracast_mode((adapter), MIRACAST_SINK)
++
++#define MLME_STATE_FMT "%s%s%s%s%s%s%s%s%s%s%s%s%s%s"
++#define MLME_STATE_ARG(adapter) \
++	MLME_IS_STA((adapter)) ? (MLME_IS_GC((adapter)) ? " GC" : " STA") : "", \
++	MLME_IS_AP((adapter)) ? (MLME_IS_GO((adapter)) ? " GO" : " AP") : "", \
++	MLME_IS_ADHOC((adapter)) ? " ADHOC" : "", \
++	MLME_IS_ADHOC_MASTER((adapter)) ? " ADHOC_M" : "", \
++	MLME_IS_MONITOR((adapter)) ? " MONITOR" : "", \
++	MLME_IS_MP((adapter)) ? " MP" : "", \
++	MLME_IS_MSRC((adapter)) ? " MSRC" : "", \
++	MLME_IS_MSINK((adapter)) ? " MSINK" : "", \
++	(MLME_STATE((adapter)) & WIFI_SITE_MONITOR) ? " SCAN" : "", \
++	(MLME_STATE((adapter)) & WIFI_UNDER_LINKING) ? " LINKING" : "", \
++	(MLME_STATE((adapter)) & WIFI_ASOC_STATE) ? " ASOC" : "", \
++	(MLME_STATE((adapter)) & WIFI_OP_CH_SWITCHING) ? " OP_CH_SW" : "", \
++	(MLME_STATE((adapter)) & WIFI_UNDER_WPS) ? " WPS" : "", \
++	(MLME_STATE((adapter)) & WIFI_SLEEP_STATE) ? " SLEEP" : ""
++
++#define _FW_UNDER_LINKING	WIFI_UNDER_LINKING
++#define _FW_LINKED			WIFI_ASOC_STATE
++#define _FW_UNDER_SURVEY	WIFI_SITE_MONITOR
++
++
++enum dot11AuthAlgrthmNum {
++	dot11AuthAlgrthm_Open = 0,
++	dot11AuthAlgrthm_Shared,
++	dot11AuthAlgrthm_8021X,
++	dot11AuthAlgrthm_Auto,
++	dot11AuthAlgrthm_WAPI,
++	dot11AuthAlgrthm_MaxNum
++};
++
++/* Scan type including active and passive scan. */
++typedef enum _RT_SCAN_TYPE {
++	SCAN_PASSIVE,
++	SCAN_ACTIVE,
++	SCAN_MIX,
++} RT_SCAN_TYPE, *PRT_SCAN_TYPE;
++
++#define WIFI_FREQUENCY_BAND_AUTO 0
++#define WIFI_FREQUENCY_BAND_5GHZ 1
++#define WIFI_FREQUENCY_BAND_2GHZ 2
++
++#define rtw_band_valid(band) ((band) <= WIFI_FREQUENCY_BAND_2GHZ)
++
++enum DriverInterface {
++	DRIVER_WEXT =  1,
++	DRIVER_CFG80211 = 2
++};
++
++enum SCAN_RESULT_TYPE {
++	SCAN_RESULT_P2P_ONLY = 0,		/*	Will return all the P2P devices. */
++	SCAN_RESULT_ALL = 1,			/*	Will return all the scanned device, include AP. */
++	SCAN_RESULT_WFD_TYPE = 2		/*	Will just return the correct WFD device. */
++									/*	If this device is Miracast sink device, it will just return all the Miracast source devices. */
++};
++
++/*
++
++there are several "locks" in mlme_priv,
++since mlme_priv is a shared resource between many threads,
++like ISR/Call-Back functions, the OID handlers, and even timer functions.
++
++
++Each _queue has its own locks, already.
++Other items are protected by mlme_priv.lock.
++
++To avoid possible dead lock, any thread trying to modifiying mlme_priv
++SHALL not lock up more than one locks at a time!
++
++*/
++
++
++#define traffic_threshold	10
++#define	traffic_scan_period	500
++
++struct sitesurvey_ctrl {
++	u64	last_tx_pkts;
++	uint	last_rx_pkts;
++	sint	traffic_busy;
++	_timer	sitesurvey_ctrl_timer;
++};
++
++typedef struct _RT_LINK_DETECT_T {
++	u32				NumTxOkInPeriod;
++	u32				NumRxOkInPeriod;
++	u32				NumRxUnicastOkInPeriod;
++	BOOLEAN			bBusyTraffic;
++	BOOLEAN			bTxBusyTraffic;
++	BOOLEAN			bRxBusyTraffic;
++	BOOLEAN			bHigherBusyTraffic; /* For interrupt migration purpose. */
++	BOOLEAN			bHigherBusyRxTraffic; /* We may disable Tx interrupt according as Rx traffic. */
++	BOOLEAN			bHigherBusyTxTraffic; /* We may disable Tx interrupt according as Tx traffic. */
++	/* u8 TrafficBusyState; */
++	u8 TrafficTransitionCount;
++	u32 LowPowerTransitionCount;
++} RT_LINK_DETECT_T, *PRT_LINK_DETECT_T;
++
++struct profile_info {
++	u8	ssidlen;
++	u8	ssid[WLAN_SSID_MAXLEN];
++	u8	peermac[ETH_ALEN];
++};
++
++struct tx_invite_req_info {
++	u8					token;
++	u8					benable;
++	u8					go_ssid[WLAN_SSID_MAXLEN];
++	u8					ssidlen;
++	u8					go_bssid[ETH_ALEN];
++	u8					peer_macaddr[ETH_ALEN];
++	u8					operating_ch;	/*	This information will be set by using the p2p_set op_ch=x */
++	u8					peer_ch;		/*	The listen channel for peer P2P device */
++
++};
++
++struct tx_invite_resp_info {
++	u8					token;	/*	Used to record the dialog token of p2p invitation request frame. */
++};
++
++#ifdef CONFIG_WFD
++
++struct wifi_display_info {
++	u16							wfd_enable;			/*	Eanble/Disable the WFD function. */
++	u16							init_rtsp_ctrlport;	/* init value of rtsp_ctrlport when WFD enable */
++	u16							rtsp_ctrlport;		/* TCP port number at which the this WFD device listens for RTSP messages, 0 when WFD disable */
++	u16							tdls_rtsp_ctrlport;	/* rtsp_ctrlport used by tdls, will sync when rtsp_ctrlport is changed by user */
++	u16							peer_rtsp_ctrlport;	/*	TCP port number at which the peer WFD device listens for RTSP messages */
++													/*	This filed should be filled when receiving the gropu negotiation request */
++
++	u8							peer_session_avail;	/*	WFD session is available or not for the peer wfd device. */
++													/*	This variable will be set when sending the provisioning discovery request to peer WFD device. */
++													/*	And this variable will be reset when it is read by using the iwpriv p2p_get wfd_sa command. */
++	u8							ip_address[4];
++	u8							peer_ip_address[4];
++	u8							wfd_pc;				/*	WFD preferred connection */
++													/*	0 -> Prefer to use the P2P for WFD connection on peer side. */
++													/*	1 -> Prefer to use the TDLS for WFD connection on peer side. */
++
++	u8							wfd_device_type;	/*	WFD Device Type */
++													/*	0 -> WFD Source Device */
++													/*	1 -> WFD Primary Sink Device */
++	enum	SCAN_RESULT_TYPE	scan_result_type;	/*	Used when P2P is enable. This parameter will impact the scan result. */
++	u8 op_wfd_mode;
++	u8 stack_wfd_mode;
++};
++#endif /* CONFIG_WFD */
++
++struct tx_provdisc_req_info {
++	u16					wps_config_method_request;	/*	Used when sending the provisioning request frame */
++	u16					peer_channel_num[2];		/*	The channel number which the receiver stands. */
++	NDIS_802_11_SSID	ssid;
++	u8					peerDevAddr[ETH_ALEN];		/*	Peer device address */
++	u8					peerIFAddr[ETH_ALEN];		/*	Peer interface address */
++	u8					benable;					/*	This provision discovery request frame is trigger to send or not */
++};
++
++struct rx_provdisc_req_info {	/* When peer device issue prov_disc_req first, we should store the following informations */
++	u8					peerDevAddr[ETH_ALEN];		/*	Peer device address */
++	u8					strconfig_method_desc_of_prov_disc_req[4];	/*	description for the config method located in the provisioning discovery request frame.	 */
++																	/*	The UI must know this information to know which config method the remote p2p device is requiring. */
++};
++
++struct tx_nego_req_info {
++	u16					peer_channel_num[2];		/*	The channel number which the receiver stands. */
++	u8					peerDevAddr[ETH_ALEN];		/*	Peer device address */
++	u8					benable;					/*	This negoitation request frame is trigger to send or not */
++	u8					peer_ch;					/*	The listen channel for peer P2P device */
++};
++
++struct group_id_info {
++	u8					go_device_addr[ETH_ALEN];	/*	The GO's device address of this P2P group */
++	u8					ssid[WLAN_SSID_MAXLEN];		/*	The SSID of this P2P group */
++};
++
++struct scan_limit_info {
++	u8					scan_op_ch_only;			/*	When this flag is set, the driver should just scan the operation channel */
++#ifndef CONFIG_P2P_OP_CHK_SOCIAL_CH
++	u8					operation_ch[2];				/*	Store the operation channel of invitation request frame */
++#else
++	u8					operation_ch[5];				/*	Store additional channel 1,6,11  for Android 4.2 IOT & Nexus 4 */
++#endif /* CONFIG_P2P_OP_CHK_SOCIAL_CH */
++};
++
++#ifdef CONFIG_IOCTL_CFG80211
++struct cfg80211_wifidirect_info {
++	_timer					remain_on_ch_timer;
++	u8						restore_channel;
++	struct ieee80211_channel	remain_on_ch_channel;
++	enum nl80211_channel_type	remain_on_ch_type;
++	ATOMIC_T ro_ch_cookie_gen;
++	u64 remain_on_ch_cookie;
++	bool is_ro_ch;
++	u32 last_ro_ch_time; /* this will be updated at the beginning and end of ro_ch */
++};
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++#ifdef CONFIG_P2P_WOWLAN
++
++enum P2P_WOWLAN_RECV_FRAME_TYPE {
++	P2P_WOWLAN_RECV_NEGO_REQ = 0,
++	P2P_WOWLAN_RECV_INVITE_REQ = 1,
++	P2P_WOWLAN_RECV_PROVISION_REQ = 2,
++};
++
++struct p2p_wowlan_info {
++
++	u8						is_trigger;
++	enum P2P_WOWLAN_RECV_FRAME_TYPE	wowlan_recv_frame_type;
++	u8						wowlan_peer_addr[ETH_ALEN];
++	u16						wowlan_peer_wpsconfig;
++	u8						wowlan_peer_is_persistent;
++	u8						wowlan_peer_invitation_type;
++};
++
++#endif /* CONFIG_P2P_WOWLAN */
++
++struct wifidirect_info {
++	_adapter				*padapter;
++	_timer					find_phase_timer;
++	_timer					restore_p2p_state_timer;
++
++	/*	Used to do the scanning. After confirming the peer is availalble, the driver transmits the P2P frame to peer. */
++	_timer					pre_tx_scan_timer;
++	_timer					reset_ch_sitesurvey;
++	_timer					reset_ch_sitesurvey2;	/*	Just for resetting the scan limit function by using p2p nego */
++#ifdef CONFIG_CONCURRENT_MODE
++	/*	Used to switch the channel between legacy AP and listen state. */
++	_timer					ap_p2p_switch_timer;
++#endif
++	struct tx_provdisc_req_info	tx_prov_disc_info;
++	struct rx_provdisc_req_info rx_prov_disc_info;
++	struct tx_invite_req_info	invitereq_info;
++	struct profile_info			profileinfo[P2P_MAX_PERSISTENT_GROUP_NUM];	/*	Store the profile information of persistent group */
++	struct tx_invite_resp_info	inviteresp_info;
++	struct tx_nego_req_info	nego_req_info;
++	struct group_id_info		groupid_info;	/*	Store the group id information when doing the group negotiation handshake. */
++	struct scan_limit_info		rx_invitereq_info;	/*	Used for get the limit scan channel from the Invitation procedure */
++	struct scan_limit_info		p2p_info;		/*	Used for get the limit scan channel from the P2P negotiation handshake */
++#ifdef CONFIG_WFD
++	struct wifi_display_info		*wfd_info;
++#endif
++
++#ifdef CONFIG_P2P_WOWLAN
++	struct p2p_wowlan_info		p2p_wow_info;
++#endif /* CONFIG_P2P_WOWLAN */
++
++	enum P2P_ROLE			role;
++	enum P2P_STATE			pre_p2p_state;
++	enum P2P_STATE			p2p_state;
++	u8						device_addr[ETH_ALEN];	/*	The device address should be the mac address of this device. */
++	u8						interface_addr[ETH_ALEN];
++	u8						social_chan[4];
++	u8						listen_channel;
++	u8						operating_channel;
++	u8						listen_dwell;		/*	This value should be between 1 and 3 */
++	u8						support_rate[8];
++	u8						p2p_wildcard_ssid[P2P_WILDCARD_SSID_LEN];
++	u8						intent;		/*	should only include the intent value. */
++	u8						p2p_peer_interface_addr[ETH_ALEN];
++	u8						p2p_peer_device_addr[ETH_ALEN];
++	u8						peer_intent;	/*	Included the intent value and tie breaker value. */
++	u8						device_name[WPS_MAX_DEVICE_NAME_LEN];	/*	Device name for displaying on searching device screen */
++	u8						device_name_len;
++	u8						profileindex;	/*	Used to point to the index of profileinfo array */
++	u8						peer_operating_ch;
++	u8						find_phase_state_exchange_cnt;
++	u16						device_password_id_for_nego;	/*	The device password ID for group negotation */
++	u8						negotiation_dialog_token;
++	u8						nego_ssid[WLAN_SSID_MAXLEN];	/*	SSID information for group negotitation */
++	u8						nego_ssidlen;
++	u8						p2p_group_ssid[WLAN_SSID_MAXLEN];
++	u8						p2p_group_ssid_len;
++	u8						persistent_supported;		/*	Flag to know the persistent function should be supported or not. */
++														/*	In the Sigma test, the Sigma will provide this enable from the sta_set_p2p CAPI. */
++														/*	0: disable */
++														/*	1: enable */
++	u8						session_available;			/*	Flag to set the WFD session available to enable or disable "by Sigma" */
++														/*	In the Sigma test, the Sigma will disable the session available by using the sta_preset CAPI. */
++														/*	0: disable */
++														/*	1: enable */
++
++	u8						wfd_tdls_enable;			/*	Flag to enable or disable the TDLS by WFD Sigma */
++														/*	0: disable */
++														/*	1: enable */
++	u8						wfd_tdls_weaksec;			/*	Flag to enable or disable the weak security function for TDLS by WFD Sigma */
++														/*	0: disable */
++														/*	In this case, the driver can't issue the tdsl setup request frame. */
++														/*	1: enable */
++														/*	In this case, the driver can issue the tdls setup request frame */
++														/*	even the current security is weak security. */
++
++	enum	P2P_WPSINFO		ui_got_wps_info;			/*	This field will store the WPS value (PIN value or PBC) that UI had got from the user. */
++	u16						supported_wps_cm;			/*	This field describes the WPS config method which this driver supported. */
++														/*	The value should be the combination of config method defined in page104 of WPS v2.0 spec.	 */
++	u8						external_uuid;				/* UUID flag */
++	u8						uuid[16];					/* UUID */
++	uint						channel_list_attr_len;	/*	This field will contain the length of body of P2P Channel List attribute of group negotitation response frame. */
++	u8						channel_list_attr[100];		/*	This field will contain the body of P2P Channel List attribute of group negotitation response frame. */
++														/*	We will use the channel_cnt and channel_list fields when constructing the group negotitation confirm frame. */
++	u8						driver_interface;			/*	Indicate DRIVER_WEXT or DRIVER_CFG80211 */
++
++#ifdef CONFIG_CONCURRENT_MODE
++	u16						ext_listen_interval;	/*	The interval to be available with legacy AP (ms) */
++	u16						ext_listen_period;	/*	The time period to be available for P2P listen state (ms) */
++#endif
++#ifdef CONFIG_P2P_PS
++	enum P2P_PS_MODE		p2p_ps_mode; /* indicate p2p ps mode */
++	enum P2P_PS_STATE		p2p_ps_state; /* indicate p2p ps state */
++	u8						noa_index; /* Identifies and instance of Notice of Absence timing. */
++	u8						ctwindow; /* Client traffic window. A period of time in TU after TBTT. */
++	u8						opp_ps; /* opportunistic power save. */
++	u8						noa_num; /* number of NoA descriptor in P2P IE. */
++	u8						noa_count[P2P_MAX_NOA_NUM]; /* Count for owner, Type of client. */
++	u32						noa_duration[P2P_MAX_NOA_NUM]; /* Max duration for owner, preferred or min acceptable duration for client. */
++	u32						noa_interval[P2P_MAX_NOA_NUM]; /* Length of interval for owner, preferred or max acceptable interval of client. */
++	u32						noa_start_time[P2P_MAX_NOA_NUM]; /* schedule expressed in terms of the lower 4 bytes of the TSF timer. */
++#endif /* CONFIG_P2P_PS */
++};
++
++struct tdls_ss_record {	/* signal strength record */
++	u8		macaddr[ETH_ALEN];
++	u8		RxPWDBAll;
++	u8		is_tdls_sta;	/* _TRUE: direct link sta, _FALSE: else */
++};
++
++struct tdls_temp_mgmt {
++	u8	initiator;	/* 0: None, 1: we initiate, 2: peer initiate */
++	u8	peer_addr[ETH_ALEN];
++};
++
++#ifdef CONFIG_TDLS_CH_SW
++struct tdls_ch_switch {
++	u32	ch_sw_state;
++	ATOMIC_T	chsw_on;
++	u8	addr[ETH_ALEN];
++	u8	off_ch_num;
++	u8	ch_offset;
++	u32	cur_time;
++	u8	delay_switch_back;
++	u8	dump_stack;
++	struct submit_ctx	chsw_sctx;
++};
++#endif
++
++struct tdls_info {
++	u8					ap_prohibited;
++	u8					ch_switch_prohibited;
++	u8					link_established;
++	u8					sta_cnt;
++	u8					sta_maximum;	/* 1:tdls sta is equal (NUM_STA-1), reach max direct link number; 0: else; */
++	struct tdls_ss_record	ss_record;
++#ifdef CONFIG_TDLS_CH_SW
++	struct tdls_ch_switch	chsw_info;
++#endif
++
++	u8					ch_sensing;
++	u8					cur_channel;
++	u8					collect_pkt_num[MAX_CHANNEL_NUM];
++	_lock				cmd_lock;
++	_lock				hdl_lock;
++	u8					watchdog_count;
++	u8					dev_discovered;		/* WFD_TDLS: for sigma test */
++	u8					tdls_enable;
++
++	/* Let wpa_supplicant to setup*/
++	u8					driver_setup;
++#ifdef CONFIG_WFD
++	struct wifi_display_info		*wfd_info;
++#endif
++};
++
++struct tdls_txmgmt {
++	u8 peer[ETH_ALEN];
++	u8 action_code;
++	u8 dialog_token;
++	u16 status_code;
++	u8 *buf;
++	size_t len;
++};
++
++/* used for mlme_priv.roam_flags */
++enum {
++	RTW_ROAM_ON_EXPIRED = BIT0,
++	RTW_ROAM_ON_RESUME = BIT1,
++	RTW_ROAM_ACTIVE = BIT2,
++};
++
++struct beacon_keys {
++	u8 ssid[IW_ESSID_MAX_SIZE];
++	u32 ssid_len;
++	u8 bcn_channel;
++	u16 ht_cap_info;
++	u8 ht_info_infos_0_sco; /* bit0 & bit1 in infos[0] is second channel offset */
++	int encryp_protocol;
++	int pairwise_cipher;
++	int group_cipher;
++	int is_8021x;
++};
++
++struct mlme_priv {
++
++	_lock	lock;
++	sint	fw_state;	/* shall we protect this variable? maybe not necessarily... */
++	u8 bScanInProcess;
++	u8	to_join; /* flag */
++#ifdef CONFIG_LAYER2_ROAMING
++	u8 to_roam; /* roaming trying times */
++	struct wlan_network *roam_network; /* the target of active roam */
++	u8 roam_flags;
++	u8 roam_rssi_diff_th; /* rssi difference threshold for active scan candidate selection */
++	u32 roam_scan_int_ms; /* scan interval for active roam */
++	u32 roam_scanr_exp_ms; /* scan result expire time in ms  for roam */
++	u8 roam_tgt_addr[ETH_ALEN]; /* request to roam to speicific target without other consideration */
++#endif
++
++	u8	*nic_hdl;
++
++#ifdef SUPPLICANT_RTK_VERSION_LOWER_THAN_JB42
++	u8	not_indic_disco;
++#endif
++	_list		*pscanned;
++	_queue	free_bss_pool;
++	_queue	scanned_queue;
++	u8		*free_bss_buf;
++	u32	num_of_scanned;
++
++	NDIS_802_11_SSID	assoc_ssid;
++	u8	assoc_bssid[6];
++
++	struct wlan_network	cur_network;
++	struct wlan_network *cur_network_scanned;
++
++	/* bcn check info */
++	struct beacon_keys cur_beacon_keys; /* save current beacon keys */
++	struct beacon_keys new_beacon_keys; /* save new beacon keys */
++	u8 new_beacon_cnts; /* if new_beacon_cnts >= threshold, ap beacon is changed */
++
++#ifdef CONFIG_ARP_KEEP_ALIVE
++	/* for arp offload keep alive */
++	u8 bGetGateway;
++	u8	gw_mac_addr[6];
++	u8	gw_ip[4];
++#endif
++
++	/* uint wireless_mode; no used, remove it */
++
++	u32	auto_scan_int_ms;
++
++	_timer assoc_timer;
++
++	uint assoc_by_bssid;
++	uint assoc_by_rssi;
++
++	_timer scan_to_timer; /* driver itself handles scan_timeout status. */
++	u32 scan_start_time; /* used to evaluate the time spent in scanning */
++
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++	_timer set_scan_deny_timer;
++	ATOMIC_T set_scan_deny; /* 0: allowed, 1: deny */
++#endif
++
++	struct qos_priv qospriv;
++
++#ifdef CONFIG_80211N_HT
++
++	/* Number of non-HT AP/stations */
++	int num_sta_no_ht;
++
++	/* Number of HT AP/stations 20 MHz */
++	/* int num_sta_ht_20mhz; */
++
++
++	int num_FortyMHzIntolerant;
++
++	struct ht_priv	htpriv;
++
++#endif
++
++#ifdef CONFIG_80211AC_VHT
++	struct vht_priv	vhtpriv;
++#endif
++#ifdef CONFIG_BEAMFORMING
++#if (BEAMFORMING_SUPPORT == 0)/*for driver beamforming*/
++#ifndef RTW_BEAMFORMING_VERSION_2
++	struct beamforming_info	beamforming_info;
++#endif /* !RTW_BEAMFORMING_VERSION_2 */
++#endif
++#endif
++
++#ifdef CONFIG_DFS
++	u8	handle_dfs;
++#endif
++#ifdef CONFIG_DFS_MASTER
++	/* TODO: move to rfctl */
++	_timer dfs_master_timer;
++#endif
++
++	RT_LINK_DETECT_T	LinkDetectInfo;
++
++	u8	acm_mask; /* for wmm acm mask */
++	const struct country_chplan *country_ent;
++	u8	ChannelPlan;
++	RT_SCAN_TYPE	scan_mode; /* active: 1, passive: 0 */
++
++	u8 *wps_probe_req_ie;
++	u32 wps_probe_req_ie_len;
++
++	u8 ext_capab_ie_data[8];/*currently for ap mode only*/
++	u8 ext_capab_ie_len;
++
++#if defined(CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME)
++	/* Number of associated Non-ERP stations (i.e., stations using 802.11b
++	 * in 802.11g BSS) */
++	int num_sta_non_erp;
++
++	/* Number of associated stations that do not support Short Slot Time */
++	int num_sta_no_short_slot_time;
++
++	/* Number of associated stations that do not support Short Preamble */
++	int num_sta_no_short_preamble;
++
++	ATOMIC_T olbc; /* Overlapping Legacy BSS Condition (Legacy b/g)*/
++
++	/* Number of HT associated stations that do not support greenfield */
++	int num_sta_ht_no_gf;
++
++	/* Number of associated non-HT stations */
++	/* int num_sta_no_ht; */
++
++	/* Number of HT associated stations 20 MHz */
++	int num_sta_ht_20mhz;
++
++	/* number of associated stations 40MHz intolerant */
++	int num_sta_40mhz_intolerant;
++
++	/* Overlapping BSS information */
++	ATOMIC_T olbc_ht;
++
++#ifdef CONFIG_80211N_HT
++	int ht_20mhz_width_req;
++	int ht_intolerant_ch_reported;
++	u16 ht_op_mode;
++	u8 sw_to_20mhz; /*switch to 20Mhz BW*/
++#endif /* CONFIG_80211N_HT */
++
++	u8 *assoc_req;
++	u32 assoc_req_len;
++	u8 *assoc_rsp;
++	u32 assoc_rsp_len;
++
++	u8 *wps_beacon_ie;
++	/* u8 *wps_probe_req_ie; */
++	u8 *wps_probe_resp_ie;
++	u8 *wps_assoc_resp_ie; /* for CONFIG_IOCTL_CFG80211, this IE could include p2p ie / wfd ie */
++
++	u32 wps_beacon_ie_len;
++	/* u32 wps_probe_req_ie_len; */
++	u32 wps_probe_resp_ie_len;
++	u32 wps_assoc_resp_ie_len; /* for CONFIG_IOCTL_CFG80211, this IE len could include p2p ie / wfd ie */
++
++	u8 *p2p_beacon_ie;
++	u8 *p2p_probe_req_ie;
++	u8 *p2p_probe_resp_ie;
++	u8 *p2p_go_probe_resp_ie; /* for GO	 */
++	u8 *p2p_assoc_req_ie;
++	u8 *p2p_assoc_resp_ie;
++
++	u32 p2p_beacon_ie_len;
++	u32 p2p_probe_req_ie_len;
++	u32 p2p_probe_resp_ie_len;
++	u32 p2p_go_probe_resp_ie_len; /* for GO */
++	u32 p2p_assoc_req_ie_len;
++	u32 p2p_assoc_resp_ie_len;
++
++	_lock	bcn_update_lock;
++	u8		update_bcn;
++
++	u8 ori_ch;
++	u8 ori_bw;
++	u8 ori_offset;
++#endif /* #if defined (CONFIG_AP_MODE) && defined (CONFIG_NATIVEAP_MLME) */
++
++#if defined(CONFIG_WFD) && defined(CONFIG_IOCTL_CFG80211)
++
++	u8 *wfd_beacon_ie;
++	u8 *wfd_probe_req_ie;
++	u8 *wfd_probe_resp_ie;
++	u8 *wfd_go_probe_resp_ie; /* for GO	 */
++	u8 *wfd_assoc_req_ie;
++	u8 *wfd_assoc_resp_ie;
++
++	u32 wfd_beacon_ie_len;
++	u32 wfd_probe_req_ie_len;
++	u32 wfd_probe_resp_ie_len;
++	u32 wfd_go_probe_resp_ie_len; /* for GO */
++	u32 wfd_assoc_req_ie_len;
++	u32 wfd_assoc_resp_ie_len;
++
++#endif
++
++#ifdef RTK_DMP_PLATFORM
++	/* DMP kobject_hotplug function  signal need in passive level */
++	_workitem	Linkup_workitem;
++	_workitem	Linkdown_workitem;
++#endif
++
++#ifdef CONFIG_INTEL_WIDI
++	int	widi_state;
++	int	listen_state;
++	_timer	listen_timer;
++	ATOMIC_T	rx_probe_rsp; /* 1:receive probe respone from RDS source. */
++	u8	*l2sdTaBuffer;
++	u8	channel_idx;
++	u8	group_cnt;	/* In WiDi 3.5, they specified another scan algo. for WFD/RDS co-existed */
++	u8	sa_ext[L2SDTA_SERVICE_VE_LEN];
++
++	u8	widi_enable;
++	/**
++	 * For WiDi 4; upper layer would set
++	 * p2p_primary_device_type_category_id
++	 * p2p_primary_device_type_sub_category_id
++	 * p2p_secondary_device_type_category_id
++	 * p2p_secondary_device_type_sub_category_id
++	 */
++	u16	p2p_pdt_cid;
++	u16	p2p_pdt_scid;
++	u8	num_p2p_sdt;
++	u16	p2p_sdt_cid[MAX_NUM_P2P_SDT];
++	u16	p2p_sdt_scid[MAX_NUM_P2P_SDT];
++	u8	p2p_reject_disable;	/* When starting NL80211 wpa_supplicant/hostapd, it will call netdev_close */
++							/* such that it will cause p2p disabled. Use this flag to reject. */
++#endif /* CONFIG_INTEL_WIDI */
++	u32 lastscantime;
++#ifdef CONFIG_CONCURRENT_MODE
++	u8	scanning_via_buddy_intf;
++#endif
++
++#if 0
++	u8	NumOfBcnInfoChkFail;
++	u32	timeBcnInfoChkStart;
++#endif
++
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++	u32 vendor_ie_mask[WLAN_MAX_VENDOR_IE_NUM];
++	u8 vendor_ie[WLAN_MAX_VENDOR_IE_NUM][WLAN_MAX_VENDOR_IE_LEN];
++	u32 vendor_ielen[WLAN_MAX_VENDOR_IE_NUM];
++#endif
++};
++
++#define mlme_set_scan_to_timer(mlme, ms) \
++	do { \
++		/* RTW_INFO("%s set_scan_to_timer(%p, %d)\n", __FUNCTION__, (mlme), (ms)); */ \
++		_set_timer(&(mlme)->scan_to_timer, (ms)); \
++	} while (0)
++
++#define rtw_mlme_set_auto_scan_int(adapter, ms) \
++	do { \
++		adapter->mlmepriv.auto_scan_int_ms = ms; \
++	} while (0)
++
++#define RTW_AUTO_SCAN_REASON_UNSPECIFIED	0
++#define RTW_AUTO_SCAN_REASON_2040_BSS		BIT0
++#define RTW_AUTO_SCAN_REASON_ACS			BIT1
++#define RTW_AUTO_SCAN_REASON_ROAM			BIT2
++
++void rtw_mlme_reset_auto_scan_int(_adapter *adapter, u8 *reason);
++
++#ifdef CONFIG_AP_MODE
++
++struct hostapd_priv {
++	_adapter *padapter;
++
++#ifdef CONFIG_HOSTAPD_MLME
++	struct net_device *pmgnt_netdev;
++	struct usb_anchor anchored;
++#endif
++
++};
++
++extern int hostapd_mode_init(_adapter *padapter);
++extern void hostapd_mode_unload(_adapter *padapter);
++#endif
++
++
++extern void rtw_joinbss_event_prehandle(_adapter *adapter, u8 *pbuf);
++extern void rtw_survey_event_callback(_adapter *adapter, u8 *pbuf);
++extern void rtw_surveydone_event_callback(_adapter *adapter, u8 *pbuf);
++extern void rtw_joinbss_event_callback(_adapter *adapter, u8 *pbuf);
++extern void rtw_stassoc_event_callback(_adapter *adapter, u8 *pbuf);
++extern void rtw_stadel_event_callback(_adapter *adapter, u8 *pbuf);
++void rtw_sta_mstatus_report(_adapter *adapter);
++extern void rtw_atimdone_event_callback(_adapter *adapter, u8 *pbuf);
++extern void rtw_cpwm_event_callback(_adapter *adapter, u8 *pbuf);
++extern void rtw_wmm_event_callback(PADAPTER padapter, u8 *pbuf);
++#ifdef CONFIG_IEEE80211W
++void rtw_sta_timeout_event_callback(_adapter *adapter, u8 *pbuf);
++#endif /* CONFIG_IEEE80211W */
++extern void rtw_join_timeout_handler(RTW_TIMER_HDL_ARGS);
++extern void _rtw_scan_timeout_handler(RTW_TIMER_HDL_ARGS);
++
++thread_return event_thread(thread_context context);
++
++extern void rtw_free_network_queue(_adapter *adapter, u8 isfreeall);
++extern int rtw_init_mlme_priv(_adapter *adapter);/* (struct mlme_priv *pmlmepriv); */
++
++extern void rtw_free_mlme_priv(struct mlme_priv *pmlmepriv);
++
++
++extern sint rtw_select_and_join_from_scanned_queue(struct mlme_priv *pmlmepriv);
++extern sint rtw_set_key(_adapter *adapter, struct security_priv *psecuritypriv, sint keyid, u8 set_tx, bool enqueue);
++extern sint rtw_set_auth(_adapter *adapter, struct security_priv *psecuritypriv);
++
++__inline static u8 *get_bssid(struct mlme_priv *pmlmepriv)
++{
++	/* if sta_mode:pmlmepriv->cur_network.network.MacAddress=> bssid */
++	/* if adhoc_mode:pmlmepriv->cur_network.network.MacAddress=> ibss mac address */
++	return pmlmepriv->cur_network.network.MacAddress;
++}
++
++__inline static sint check_fwstate(struct mlme_priv *pmlmepriv, sint state)
++{
++	if ((state == WIFI_NULL_STATE) &&
++		(pmlmepriv->fw_state == WIFI_NULL_STATE))
++		return _TRUE;
++
++	if (pmlmepriv->fw_state & state)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++__inline static sint get_fwstate(struct mlme_priv *pmlmepriv)
++{
++	return pmlmepriv->fw_state;
++}
++
++/*
++ * No Limit on the calling context,
++ * therefore set it to be the critical section...
++ *
++ * ### NOTE:#### (!!!!)
++ * MUST TAKE CARE THAT BEFORE CALLING THIS FUNC, YOU SHOULD HAVE LOCKED pmlmepriv->lock
++ */
++extern void rtw_mi_update_iface_status(struct mlme_priv *pmlmepriv, sint state);
++
++static inline void set_fwstate(struct mlme_priv *pmlmepriv, sint state)
++{
++	pmlmepriv->fw_state |= state;
++
++	/*bScanInProcess hook in phydm*/
++	if (_FW_UNDER_SURVEY == state)
++		pmlmepriv->bScanInProcess = _TRUE;
++
++	rtw_mi_update_iface_status(pmlmepriv, state);
++}
++static inline void init_fwstate(struct mlme_priv *pmlmepriv, sint state)
++{
++	pmlmepriv->fw_state = state;
++
++	/*bScanInProcess hook in phydm*/
++	if (_FW_UNDER_SURVEY == state)
++		pmlmepriv->bScanInProcess = _TRUE;
++
++	rtw_mi_update_iface_status(pmlmepriv, state);
++}
++
++static inline void _clr_fwstate_(struct mlme_priv *pmlmepriv, sint state)
++{
++	pmlmepriv->fw_state &= ~state;
++
++	/*bScanInProcess hook in phydm*/
++	if (_FW_UNDER_SURVEY == state)
++		pmlmepriv->bScanInProcess = _FALSE;
++
++	rtw_mi_update_iface_status(pmlmepriv, state);
++}
++
++/*
++ * No Limit on the calling context,
++ * therefore set it to be the critical section...
++ */
++static inline void clr_fwstate(struct mlme_priv *pmlmepriv, sint state)
++{
++	_irqL irqL;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	_clr_fwstate_(pmlmepriv, state);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++
++static inline void up_scanned_network(struct mlme_priv *pmlmepriv)
++{
++	_irqL irqL;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	pmlmepriv->num_of_scanned++;
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++u8 rtw_is_adapter_up(_adapter *padapter);
++
++__inline static void down_scanned_network(struct mlme_priv *pmlmepriv)
++{
++	_irqL irqL;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	pmlmepriv->num_of_scanned--;
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++
++__inline static void set_scanned_network_val(struct mlme_priv *pmlmepriv, sint val)
++{
++	_irqL irqL;
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	pmlmepriv->num_of_scanned = val;
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++}
++
++extern u16 rtw_get_capability(WLAN_BSSID_EX *bss);
++extern void rtw_update_scanned_network(_adapter *adapter, WLAN_BSSID_EX *target);
++extern void rtw_disconnect_hdl_under_linked(_adapter *adapter, struct sta_info *psta, u8 free_assoc);
++extern void rtw_generate_random_ibss(u8 *pibss);
++extern struct wlan_network *rtw_find_network(_queue *scanned_queue, u8 *addr);
++extern struct wlan_network *rtw_get_oldest_wlan_network(_queue *scanned_queue);
++struct wlan_network *_rtw_find_same_network(_queue *scanned_queue, struct wlan_network *network);
++struct wlan_network *rtw_find_same_network(_queue *scanned_queue, struct wlan_network *network);
++
++extern void rtw_free_assoc_resources(_adapter *adapter, int lock_scanned_queue);
++extern void rtw_indicate_disconnect(_adapter *adapter, u16 reason, u8 locally_generated);
++extern void rtw_indicate_connect(_adapter *adapter);
++void rtw_indicate_scan_done(_adapter *padapter, bool aborted);
++
++void rtw_drv_scan_by_self(_adapter *padapter, u8 reason);
++void rtw_scan_wait_completed(_adapter *adapter);
++u32 rtw_scan_abort_timeout(_adapter *adapter, u32 timeout_ms);
++void rtw_scan_abort_no_wait(_adapter *adapter);
++void rtw_scan_abort(_adapter *adapter);
++
++extern int rtw_restruct_sec_ie(_adapter *adapter, u8 *in_ie, u8 *out_ie, uint in_len);
++extern int rtw_restruct_wmm_ie(_adapter *adapter, u8 *in_ie, u8 *out_ie, uint in_len, uint initial_out_len);
++extern void rtw_init_registrypriv_dev_network(_adapter *adapter);
++
++extern void rtw_update_registrypriv_dev_network(_adapter *adapter);
++
++extern void rtw_get_encrypt_decrypt_from_registrypriv(_adapter *adapter);
++
++extern void _rtw_join_timeout_handler(_adapter *adapter);
++extern void rtw_scan_timeout_handler(_adapter *adapter);
++
++extern void _dynamic_check_timer_handlder(void *FunctionContext);
++extern void rtw_dynamic_check_timer_handlder(_adapter *adapter);
++extern void rtw_iface_dynamic_check_timer_handlder(_adapter *adapter);
++
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++bool rtw_is_scan_deny(_adapter *adapter);
++void rtw_clear_scan_deny(_adapter *adapter);
++void rtw_set_scan_deny_timer_hdl(_adapter *adapter);
++void rtw_set_scan_deny(_adapter *adapter, u32 ms);
++#else
++#define rtw_is_scan_deny(adapter) _FALSE
++#define rtw_clear_scan_deny(adapter) do {} while (0)
++#define rtw_set_scan_deny_timer_hdl(adapter) do {} while (0)
++#define rtw_set_scan_deny(adapter, ms) do {} while (0)
++#endif
++
++void rtw_free_mlme_priv_ie_data(struct mlme_priv *pmlmepriv);
++
++#define MLME_BEACON_IE			0
++#define MLME_PROBE_REQ_IE		1
++#define MLME_PROBE_RESP_IE		2
++#define MLME_GO_PROBE_RESP_IE	3
++#define MLME_ASSOC_REQ_IE		4
++#define MLME_ASSOC_RESP_IE		5
++
++#if defined(CONFIG_WFD) && defined(CONFIG_IOCTL_CFG80211)
++int rtw_mlme_update_wfd_ie_data(struct mlme_priv *mlme, u8 type, u8 *ie, u32 ie_len);
++#endif
++
++
++/* extern struct wlan_network* _rtw_dequeue_network(_queue *queue); */
++
++extern struct wlan_network *_rtw_alloc_network(struct mlme_priv *pmlmepriv);
++
++
++extern void _rtw_free_network(struct mlme_priv *pmlmepriv, struct wlan_network *pnetwork, u8 isfreeall);
++extern void _rtw_free_network_nolock(struct mlme_priv *pmlmepriv, struct wlan_network *pnetwork);
++
++
++extern struct wlan_network *_rtw_find_network(_queue *scanned_queue, u8 *addr);
++
++extern void _rtw_free_network_queue(_adapter *padapter, u8 isfreeall);
++
++extern sint rtw_if_up(_adapter *padapter);
++
++sint rtw_linked_check(_adapter *padapter);
++
++u8 *rtw_get_capability_from_ie(u8 *ie);
++u8 *rtw_get_timestampe_from_ie(u8 *ie);
++u8 *rtw_get_beacon_interval_from_ie(u8 *ie);
++
++
++void rtw_joinbss_reset(_adapter *padapter);
++
++#ifdef CONFIG_80211N_HT
++void	rtw_ht_use_default_setting(_adapter *padapter);
++void rtw_build_wmm_ie_ht(_adapter *padapter, u8 *out_ie, uint *pout_len);
++unsigned int rtw_restructure_ht_ie(_adapter *padapter, u8 *in_ie, u8 *out_ie, uint in_len, uint *pout_len, u8 channel);
++void rtw_update_ht_cap(_adapter *padapter, u8 *pie, uint ie_len, u8 channel);
++void rtw_issue_addbareq_cmd(_adapter *padapter, struct xmit_frame *pxmitframe);
++void rtw_append_exented_cap(_adapter *padapter, u8 *out_ie, uint *pout_len);
++#endif
++
++int rtw_is_same_ibss(_adapter *adapter, struct wlan_network *pnetwork);
++int is_same_network(WLAN_BSSID_EX *src, WLAN_BSSID_EX *dst, u8 feature);
++
++#ifdef CONFIG_LAYER2_ROAMING
++#define rtw_roam_flags(adapter) ((adapter)->mlmepriv.roam_flags)
++#define rtw_chk_roam_flags(adapter, flags) ((adapter)->mlmepriv.roam_flags & flags)
++#define rtw_clr_roam_flags(adapter, flags) \
++	do { \
++		((adapter)->mlmepriv.roam_flags &= ~flags); \
++	} while (0)
++
++#define rtw_set_roam_flags(adapter, flags) \
++	do { \
++		((adapter)->mlmepriv.roam_flags |= flags); \
++	} while (0)
++
++#define rtw_assign_roam_flags(adapter, flags) \
++	do { \
++		((adapter)->mlmepriv.roam_flags = flags); \
++	} while (0)
++
++void _rtw_roaming(_adapter *adapter, struct wlan_network *tgt_network);
++void rtw_roaming(_adapter *adapter, struct wlan_network *tgt_network);
++void rtw_set_to_roam(_adapter *adapter, u8 to_roam);
++u8 rtw_dec_to_roam(_adapter *adapter);
++u8 rtw_to_roam(_adapter *adapter);
++int rtw_select_roaming_candidate(struct mlme_priv *pmlmepriv);
++#else
++#define rtw_roam_flags(adapter) 0
++#define rtw_chk_roam_flags(adapter, flags) 0
++#define rtw_clr_roam_flags(adapter, flags) do {} while (0)
++#define rtw_set_roam_flags(adapter, flags) do {} while (0)
++#define rtw_assign_roam_flags(adapter, flags) do {} while (0)
++#define _rtw_roaming(adapter, tgt_network) do {} while (0)
++#define rtw_roaming(adapter, tgt_network) do {} while (0)
++#define rtw_set_to_roam(adapter, to_roam) do {} while (0)
++#define rtw_dec_to_roam(adapter) 0
++#define rtw_to_roam(adapter) 0
++#define rtw_select_roaming_candidate(mlme) _FAIL
++#endif /* CONFIG_LAYER2_ROAMING */
++
++bool rtw_adjust_chbw(_adapter *adapter, u8 req_ch, u8 *req_bw, u8 *req_offset);
++
++struct sta_media_status_rpt_cmd_parm {
++	struct sta_info *sta;
++	bool connected;
++};
++
++void rtw_sta_media_status_rpt(_adapter *adapter, struct sta_info *sta, bool connected);
++u8 rtw_sta_media_status_rpt_cmd(_adapter *adapter, struct sta_info *sta, bool connected);
++void rtw_sta_media_status_rpt_cmd_hdl(_adapter *adapter, struct sta_media_status_rpt_cmd_parm *parm);
++
++#ifdef CONFIG_INTEL_PROXIM
++void rtw_proxim_enable(_adapter *padapter);
++void rtw_proxim_disable(_adapter *padapter);
++void rtw_proxim_send_packet(_adapter *padapter, u8 *pbuf, u16 len, u8 hw_rate);
++#endif /* CONFIG_INTEL_PROXIM */
++
++#define IPV4_SRC(_iphdr)			(((u8 *)(_iphdr)) + 12)
++#define IPV4_DST(_iphdr)			(((u8 *)(_iphdr)) + 16)
++#define GET_IPV4_IHL(_iphdr)		BE_BITS_TO_1BYTE(((u8 *)(_iphdr)) + 0, 0, 4)
++#define GET_IPV4_PROTOCOL(_iphdr)	BE_BITS_TO_1BYTE(((u8 *)(_iphdr)) + 9, 0, 8)
++#define GET_IPV4_SRC(_iphdr)		BE_BITS_TO_4BYTE(((u8 *)(_iphdr)) + 12, 0, 32)
++#define GET_IPV4_DST(_iphdr)		BE_BITS_TO_4BYTE(((u8 *)(_iphdr)) + 16, 0, 32)
++
++#define GET_UDP_SRC(_udphdr)			BE_BITS_TO_2BYTE(((u8 *)(_udphdr)) + 0, 0, 16)
++#define GET_UDP_DST(_udphdr)			BE_BITS_TO_2BYTE(((u8 *)(_udphdr)) + 2, 0, 16)
++
++#define TCP_SRC(_tcphdr)				(((u8 *)(_tcphdr)) + 0)
++#define TCP_DST(_tcphdr)				(((u8 *)(_tcphdr)) + 2)
++#define GET_TCP_SRC(_tcphdr)			BE_BITS_TO_2BYTE(((u8 *)(_tcphdr)) + 0, 0, 16)
++#define GET_TCP_DST(_tcphdr)			BE_BITS_TO_2BYTE(((u8 *)(_tcphdr)) + 2, 0, 16)
++#define GET_TCP_SEQ(_tcphdr)			BE_BITS_TO_4BYTE(((u8 *)(_tcphdr)) + 4, 0, 32)
++#define GET_TCP_ACK_SEQ(_tcphdr)		BE_BITS_TO_4BYTE(((u8 *)(_tcphdr)) + 8, 0, 32)
++#define GET_TCP_DOFF(_tcphdr)			BE_BITS_TO_1BYTE(((u8 *)(_tcphdr)) + 12, 4, 4)
++#define GET_TCP_FIN(_tcphdr)			BE_BITS_TO_1BYTE(((u8 *)(_tcphdr)) + 13, 0, 1)
++#define GET_TCP_SYN(_tcphdr)			BE_BITS_TO_1BYTE(((u8 *)(_tcphdr)) + 13, 1, 1)
++#define GET_TCP_RST(_tcphdr)			BE_BITS_TO_1BYTE(((u8 *)(_tcphdr)) + 13, 2, 1)
++#define GET_TCP_PSH(_tcphdr)			BE_BITS_TO_1BYTE(((u8 *)(_tcphdr)) + 13, 3, 1)
++#define GET_TCP_ACK(_tcphdr)			BE_BITS_TO_1BYTE(((u8 *)(_tcphdr)) + 13, 4, 1)
++#define GET_TCP_URG(_tcphdr)			BE_BITS_TO_1BYTE(((u8 *)(_tcphdr)) + 13, 5, 1)
++#define GET_TCP_ECE(_tcphdr)			BE_BITS_TO_1BYTE(((u8 *)(_tcphdr)) + 13, 6, 1)
++#define GET_TCP_CWR(_tcphdr)			BE_BITS_TO_1BYTE(((u8 *)(_tcphdr)) + 13, 7, 1)
++
++#endif /* __RTL871X_MLME_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_mlme_ext.h b/drivers/net/wireless/rtl8812au/include/rtw_mlme_ext.h
+new file mode 100644
+index 0000000..850eccb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_mlme_ext.h
+@@ -0,0 +1,1254 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_MLME_EXT_H_
++#define __RTW_MLME_EXT_H_
++
++
++/*	Commented by Albert 20101105
++ *	Increase the SURVEY_TO value from 100 to 150  ( 100ms to 150ms )
++ *	The Realtek 8188CE SoftAP will spend around 100ms to send the probe response after receiving the probe request.
++ *	So, this driver tried to extend the dwell time for each scanning channel.
++ *	This will increase the chance to receive the probe response from SoftAP. */
++
++#define SURVEY_TO		(100)
++#define REAUTH_TO		(300) /* (50) */
++#define REASSOC_TO		(300) /* (50) */
++/* #define DISCONNECT_TO	(3000) */
++#define ADDBA_TO			(2000)
++
++#define LINKED_TO (1) /* unit:2 sec, 1x2 = 2 sec */
++
++#define REAUTH_LIMIT	(4)
++#define REASSOC_LIMIT	(4)
++#define READDBA_LIMIT	(2)
++
++#ifdef CONFIG_GSPI_HCI
++	#define ROAMING_LIMIT	5
++#else
++	#define ROAMING_LIMIT	8
++#endif
++/* #define	IOCMD_REG0		0x10250370 */
++/* #define	IOCMD_REG1		0x10250374 */
++/* #define	IOCMD_REG2		0x10250378 */
++
++/* #define	FW_DYNAMIC_FUN_SWITCH	0x10250364 */
++
++/* #define	WRITE_BB_CMD		0xF0000001 */
++/* #define	SET_CHANNEL_CMD	0xF3000000 */
++/* #define	UPDATE_RA_CMD	0xFD0000A2 */
++
++#define _HW_STATE_NOLINK_		0x00
++#define _HW_STATE_ADHOC_		0x01
++#define _HW_STATE_STATION_	0x02
++#define _HW_STATE_AP_			0x03
++#define _HW_STATE_MONITOR_ 0x04
++
++
++#define		_1M_RATE_	0
++#define		_2M_RATE_	1
++#define		_5M_RATE_	2
++#define		_11M_RATE_	3
++#define		_6M_RATE_	4
++#define		_9M_RATE_	5
++#define		_12M_RATE_	6
++#define		_18M_RATE_	7
++#define		_24M_RATE_	8
++#define		_36M_RATE_	9
++#define		_48M_RATE_	10
++#define		_54M_RATE_	11
++
++/********************************************************
++MCS rate definitions
++*********************************************************/
++#define MCS_RATE_1R	(0x000000ff)
++#define MCS_RATE_2R	(0x0000ffff)
++#define MCS_RATE_3R	(0x00ffffff)
++#define MCS_RATE_4R	(0xffffffff)
++#define MCS_RATE_2R_13TO15_OFF	(0x00001fff)
++
++
++extern unsigned char RTW_WPA_OUI[];
++extern unsigned char WMM_OUI[];
++extern unsigned char WPS_OUI[];
++extern unsigned char WFD_OUI[];
++extern unsigned char P2P_OUI[];
++
++extern unsigned char WMM_INFO_OUI[];
++extern unsigned char WMM_PARA_OUI[];
++
++typedef enum _RT_CHANNEL_DOMAIN {
++	/* ===== 0x00 ~ 0x1F, legacy channel plan ===== */
++	RTW_CHPLAN_FCC = 0x00,
++	RTW_CHPLAN_IC = 0x01,
++	RTW_CHPLAN_ETSI = 0x02,
++	RTW_CHPLAN_SPAIN = 0x03,
++	RTW_CHPLAN_FRANCE = 0x04,
++	RTW_CHPLAN_MKK = 0x05,
++	RTW_CHPLAN_MKK1 = 0x06,
++	RTW_CHPLAN_ISRAEL = 0x07,
++	RTW_CHPLAN_TELEC = 0x08,
++	RTW_CHPLAN_GLOBAL_DOAMIN = 0x09,
++	RTW_CHPLAN_WORLD_WIDE_13 = 0x0A,
++	RTW_CHPLAN_TAIWAN = 0x0B,
++	RTW_CHPLAN_CHINA = 0x0C,
++	RTW_CHPLAN_SINGAPORE_INDIA_MEXICO = 0x0D,
++	RTW_CHPLAN_KOREA = 0x0E,
++	RTW_CHPLAN_TURKEY = 0x0F,
++	RTW_CHPLAN_JAPAN = 0x10,
++	RTW_CHPLAN_FCC_NO_DFS = 0x11,
++	RTW_CHPLAN_JAPAN_NO_DFS = 0x12,
++	RTW_CHPLAN_WORLD_WIDE_5G = 0x13,
++	RTW_CHPLAN_TAIWAN_NO_DFS = 0x14,
++
++	/* ===== 0x20 ~ 0x7F, new channel plan ===== */
++	RTW_CHPLAN_WORLD_NULL = 0x20,
++	RTW_CHPLAN_ETSI1_NULL = 0x21,
++	RTW_CHPLAN_FCC1_NULL = 0x22,
++	RTW_CHPLAN_MKK1_NULL = 0x23,
++	RTW_CHPLAN_ETSI2_NULL = 0x24,
++	RTW_CHPLAN_FCC1_FCC1 = 0x25,
++	RTW_CHPLAN_WORLD_ETSI1 = 0x26,
++	RTW_CHPLAN_MKK1_MKK1 = 0x27,
++	RTW_CHPLAN_WORLD_KCC1 = 0x28,
++	RTW_CHPLAN_WORLD_FCC2 = 0x29,
++	RTW_CHPLAN_FCC2_NULL = 0x2A,
++	RTW_CHPLAN_WORLD_FCC3 = 0x30,
++	RTW_CHPLAN_WORLD_FCC4 = 0x31,
++	RTW_CHPLAN_WORLD_FCC5 = 0x32,
++	RTW_CHPLAN_WORLD_FCC6 = 0x33,
++	RTW_CHPLAN_FCC1_FCC7 = 0x34,
++	RTW_CHPLAN_WORLD_ETSI2 = 0x35,
++	RTW_CHPLAN_WORLD_ETSI3 = 0x36,
++	RTW_CHPLAN_MKK1_MKK2 = 0x37,
++	RTW_CHPLAN_MKK1_MKK3 = 0x38,
++	RTW_CHPLAN_FCC1_NCC1 = 0x39,
++	RTW_CHPLAN_FCC1_NCC2 = 0x40,
++	RTW_CHPLAN_GLOBAL_NULL = 0x41,
++	RTW_CHPLAN_ETSI1_ETSI4 = 0x42,
++	RTW_CHPLAN_FCC1_FCC2 = 0x43,
++	RTW_CHPLAN_FCC1_NCC3 = 0x44,
++	RTW_CHPLAN_WORLD_ETSI5 = 0x45,
++	RTW_CHPLAN_FCC1_FCC8 = 0x46,
++	RTW_CHPLAN_WORLD_ETSI6 = 0x47,
++	RTW_CHPLAN_WORLD_ETSI7 = 0x48,
++	RTW_CHPLAN_WORLD_ETSI8 = 0x49,
++	RTW_CHPLAN_WORLD_ETSI9 = 0x50,
++	RTW_CHPLAN_WORLD_ETSI10 = 0x51,
++	RTW_CHPLAN_WORLD_ETSI11 = 0x52,
++	RTW_CHPLAN_FCC1_NCC4 = 0x53,
++	RTW_CHPLAN_WORLD_ETSI12 = 0x54,
++	RTW_CHPLAN_FCC1_FCC9 = 0x55,
++	RTW_CHPLAN_WORLD_ETSI13 = 0x56,
++	RTW_CHPLAN_FCC1_FCC10 = 0x57,
++	RTW_CHPLAN_MKK2_MKK4 = 0x58,
++	RTW_CHPLAN_WORLD_ETSI14 = 0x59,
++	RTW_CHPLAN_FCC1_FCC5 = 0x60,
++
++	RTW_CHPLAN_MAX,
++	RTW_CHPLAN_REALTEK_DEFINE = 0x7F,
++} RT_CHANNEL_DOMAIN, *PRT_CHANNEL_DOMAIN;
++
++typedef enum _RT_CHANNEL_DOMAIN_2G {
++	RTW_RD_2G_NULL = 0,
++	RTW_RD_2G_WORLD = 1,	/* Worldwird 13 */
++	RTW_RD_2G_ETSI1 = 2,	/* Europe */
++	RTW_RD_2G_FCC1 = 3,		/* US */
++	RTW_RD_2G_MKK1 = 4,		/* Japan */
++	RTW_RD_2G_ETSI2 = 5,	/* France */
++	RTW_RD_2G_GLOBAL = 6,	/* Global domain */
++	RTW_RD_2G_MKK2 = 7,		/* Japan */
++	RTW_RD_2G_FCC2 = 8,		/* US */
++
++	RTW_RD_2G_MAX,
++} RT_CHANNEL_DOMAIN_2G, *PRT_CHANNEL_DOMAIN_2G;
++
++typedef enum _RT_CHANNEL_DOMAIN_5G {
++	RTW_RD_5G_NULL = 0,		/*	*/
++	RTW_RD_5G_ETSI1 = 1,	/* Europe */
++	RTW_RD_5G_ETSI2 = 2,	/* Australia, New Zealand */
++	RTW_RD_5G_ETSI3 = 3,	/* Russia */
++	RTW_RD_5G_FCC1 = 4,		/* US */
++	RTW_RD_5G_FCC2 = 5,		/* FCC w/o DFS Channels */
++	RTW_RD_5G_FCC3 = 6,		/* Bolivia, Chile, El Salvador, Venezuela */
++	RTW_RD_5G_FCC4 = 7,		/* Venezuela */
++	RTW_RD_5G_FCC5 = 8,		/* China */
++	RTW_RD_5G_FCC6 = 9,		/*	*/
++	RTW_RD_5G_FCC7 = 10,	/* US Canada(w/o Weather radar) */
++	RTW_RD_5G_KCC1 = 11,	/* Korea */
++	RTW_RD_5G_MKK1 = 12,	/* Japan */
++	RTW_RD_5G_MKK2 = 13,	/* Japan (W52, W53) */
++	RTW_RD_5G_MKK3 = 14,	/* Japan (W56) */
++	RTW_RD_5G_NCC1 = 15,	/* Taiwan, (w/o Weather radar) */
++	RTW_RD_5G_NCC2 = 16,	/* Taiwan, Band2, Band4 */
++	RTW_RD_5G_NCC3 = 17,	/* Taiwan w/o DFS, Band4 only */
++	RTW_RD_5G_ETSI4 = 18,	/* Europe w/o DFS, Band1 only */
++	RTW_RD_5G_ETSI5 = 19,	/* Australia, New Zealand(w/o Weather radar) */
++	RTW_RD_5G_FCC8 = 20,	/* Latin America */
++	RTW_RD_5G_ETSI6 = 21,	/* Israel, Bahrain, Egypt, India, China, Malaysia */
++	RTW_RD_5G_ETSI7 = 22,	/* China */
++	RTW_RD_5G_ETSI8 = 23,	/* Jordan */
++	RTW_RD_5G_ETSI9 = 24,	/* Lebanon */
++	RTW_RD_5G_ETSI10 = 25,	/* Qatar */
++	RTW_RD_5G_ETSI11 = 26,	/* Russia */
++	RTW_RD_5G_NCC4 = 27,	/* Taiwan, (w/o Weather radar) */
++	RTW_RD_5G_ETSI12 = 28,	/* Indonesia */
++	RTW_RD_5G_FCC9 = 29,	/* (w/o Weather radar) */
++	RTW_RD_5G_ETSI13 = 30,	/* (w/o Weather radar) */
++	RTW_RD_5G_FCC10 = 31,	/* Argentina(w/o Weather radar) */
++	RTW_RD_5G_MKK4 = 32,	/* Japan (W52) */
++	RTW_RD_5G_ETSI14 = 33,	/* Russia */
++
++	/* === Below are driver defined for legacy channel plan compatible, DON'T assign index ==== */
++	RTW_RD_5G_OLD_FCC1,
++	RTW_RD_5G_OLD_NCC1,
++	RTW_RD_5G_OLD_KCC1,
++
++	RTW_RD_5G_MAX,
++} RT_CHANNEL_DOMAIN_5G, *PRT_CHANNEL_DOMAIN_5G;
++
++bool rtw_chplan_is_empty(u8 id);
++#define rtw_is_channel_plan_valid(chplan) (((chplan) < RTW_CHPLAN_MAX || (chplan) == RTW_CHPLAN_REALTEK_DEFINE) && !rtw_chplan_is_empty(chplan))
++#define rtw_is_legacy_channel_plan(chplan) ((chplan) < 0x20)
++
++typedef struct _RT_CHANNEL_PLAN {
++	unsigned char	Channel[MAX_CHANNEL_NUM];
++	unsigned char	Len;
++} RT_CHANNEL_PLAN, *PRT_CHANNEL_PLAN;
++
++typedef struct _RT_CHANNEL_PLAN_2G {
++	unsigned char	Channel[MAX_CHANNEL_NUM_2G];
++	unsigned char	Len;
++} RT_CHANNEL_PLAN_2G, *PRT_CHANNEL_PLAN_2G;
++
++typedef struct _RT_CHANNEL_PLAN_5G {
++	unsigned char	Channel[MAX_CHANNEL_NUM_5G];
++	unsigned char	Len;
++} RT_CHANNEL_PLAN_5G, *PRT_CHANNEL_PLAN_5G;
++
++typedef struct _RT_CHANNEL_PLAN_MAP {
++	u8 Index2G;
++	u8 Index5G;
++	u8 regd; /* value of REGULATION_TXPWR_LMT */
++} RT_CHANNEL_PLAN_MAP, *PRT_CHANNEL_PLAN_MAP;
++
++enum Associated_AP {
++	atherosAP	= 0,
++	broadcomAP	= 1,
++	ciscoAP		= 2,
++	marvellAP	= 3,
++	ralinkAP	= 4,
++	realtekAP	= 5,
++	airgocapAP	= 6,
++	unknownAP	= 7,
++	maxAP,
++};
++
++typedef enum _HT_IOT_PEER {
++	HT_IOT_PEER_UNKNOWN			= 0,
++	HT_IOT_PEER_REALTEK			= 1,
++	HT_IOT_PEER_REALTEK_92SE		= 2,
++	HT_IOT_PEER_BROADCOM		= 3,
++	HT_IOT_PEER_RALINK			= 4,
++	HT_IOT_PEER_ATHEROS			= 5,
++	HT_IOT_PEER_CISCO				= 6,
++	HT_IOT_PEER_MERU				= 7,
++	HT_IOT_PEER_MARVELL			= 8,
++	HT_IOT_PEER_REALTEK_SOFTAP 	= 9,/* peer is RealTek SOFT_AP, by Bohn, 2009.12.17 */
++	HT_IOT_PEER_SELF_SOFTAP 		= 10, /* Self is SoftAP */
++	HT_IOT_PEER_AIRGO				= 11,
++	HT_IOT_PEER_INTEL				= 12,
++	HT_IOT_PEER_RTK_APCLIENT		= 13,
++	HT_IOT_PEER_REALTEK_81XX		= 14,
++	HT_IOT_PEER_REALTEK_WOW		= 15,
++	HT_IOT_PEER_REALTEK_JAGUAR_BCUTAP = 16,
++	HT_IOT_PEER_REALTEK_JAGUAR_CCUTAP = 17,
++	HT_IOT_PEER_MAX				= 18
++} HT_IOT_PEER_E, *PHTIOT_PEER_E;
++
++struct mlme_handler {
++	unsigned int   num;
++	char *str;
++	unsigned int (*func)(_adapter *padapter, union recv_frame *precv_frame);
++};
++
++struct action_handler {
++	unsigned int   num;
++	char *str;
++	unsigned int (*func)(_adapter *padapter, union recv_frame *precv_frame);
++};
++
++enum SCAN_STATE {
++	SCAN_DISABLE = 0,
++	SCAN_START = 1,
++	SCAN_PS_ANNC_WAIT = 2,
++	SCAN_ENTER = 3,
++	SCAN_PROCESS = 4,
++
++	/* backop */
++	SCAN_BACKING_OP = 5,
++	SCAN_BACK_OP = 6,
++	SCAN_LEAVING_OP = 7,
++	SCAN_LEAVE_OP = 8,
++
++	/* SW antenna diversity (before linked) */
++	SCAN_SW_ANTDIV_BL = 9,
++
++	/* legacy p2p */
++	SCAN_TO_P2P_LISTEN = 10,
++	SCAN_P2P_LISTEN = 11,
++
++	SCAN_COMPLETE = 12,
++	SCAN_STATE_MAX,
++};
++
++const char *scan_state_str(u8 state);
++
++enum ss_backop_flag {
++	SS_BACKOP_EN = BIT0, /* backop when linked */
++	SS_BACKOP_EN_NL = BIT1, /* backop even when no linked */
++
++	SS_BACKOP_PS_ANNC = BIT4,
++	SS_BACKOP_TX_RESUME = BIT5,
++};
++
++struct ss_res {
++	u8 state;
++	u8 next_state; /* will set to state on next cmd hdl */
++	int	bss_cnt;
++	int	channel_idx;
++	int	scan_mode;
++	u16 scan_ch_ms;
++	u8 rx_ampdu_accept;
++	u8 rx_ampdu_size;
++	u8 igi_scan;
++	u8 igi_before_scan; /* used for restoring IGI value without enable DIG & FA_CNT */
++#ifdef CONFIG_SCAN_BACKOP
++	u8 backop_flags_sta; /* policy for station mode*/
++	u8 backop_flags_ap; /* policy for ap mode */
++	u8 backop_flags; /* per backop runtime decision */
++	u8 scan_cnt;
++	u8 scan_cnt_max;
++	u32 backop_time; /* the start time of backop */
++	u16 backop_ms;
++#endif
++#if defined(CONFIG_ANTENNA_DIVERSITY) || defined(DBG_SCAN_SW_ANTDIV_BL)
++	u8 is_sw_antdiv_bl_scan;
++#endif
++	u8 ssid_num;
++	u8 ch_num;
++	NDIS_802_11_SSID ssid[RTW_SSID_SCAN_AMOUNT];
++	struct rtw_ieee80211_channel ch[RTW_CHANNEL_SCAN_AMOUNT];
++};
++
++/* #define AP_MODE				0x0C */
++/* #define STATION_MODE	0x08 */
++/* #define AD_HOC_MODE		0x04 */
++/* #define NO_LINK_MODE	0x00 */
++
++#define	WIFI_FW_NULL_STATE			_HW_STATE_NOLINK_
++#define	WIFI_FW_STATION_STATE		_HW_STATE_STATION_
++#define	WIFI_FW_AP_STATE				_HW_STATE_AP_
++#define	WIFI_FW_ADHOC_STATE			_HW_STATE_ADHOC_
++
++#define	WIFI_FW_AUTH_NULL			0x00000100
++#define	WIFI_FW_AUTH_STATE			0x00000200
++#define	WIFI_FW_AUTH_SUCCESS			0x00000400
++
++#define	WIFI_FW_ASSOC_STATE			0x00002000
++#define	WIFI_FW_ASSOC_SUCCESS		0x00004000
++
++#define	WIFI_FW_LINKING_STATE		(WIFI_FW_AUTH_NULL | WIFI_FW_AUTH_STATE | WIFI_FW_AUTH_SUCCESS | WIFI_FW_ASSOC_STATE)
++
++#ifdef CONFIG_TDLS
++enum TDLS_option {
++	TDLS_ESTABLISHED = 1,
++	TDLS_ISSUE_PTI,
++	TDLS_CH_SW_RESP,
++	TDLS_CH_SW_PREPARE,
++	TDLS_CH_SW_START,
++	TDLS_CH_SW_TO_OFF_CHNL,
++	TDLS_CH_SW_TO_BASE_CHNL_UNSOLICITED,
++	TDLS_CH_SW_TO_BASE_CHNL,
++	TDLS_CH_SW_END_TO_BASE_CHNL,
++	TDLS_CH_SW_END,
++	TDLS_RS_RCR,
++	TDLS_TEARDOWN_STA,
++	TDLS_TEARDOWN_STA_LOCALLY,
++	maxTDLS,
++};
++
++#endif /* CONFIG_TDLS */
++
++/*
++ * Usage:
++ * When one iface acted as AP mode and the other iface is STA mode and scanning,
++ * it should switch back to AP's operating channel periodically.
++ * Parameters info:
++ * When the driver scanned RTW_SCAN_NUM_OF_CH channels, it would switch back to AP's operating channel for
++ * RTW_BACK_OP_CH_MS milliseconds.
++ * Example:
++ * For chip supports 2.4G + 5GHz and AP mode is operating in channel 1,
++ * RTW_SCAN_NUM_OF_CH is 8, RTW_BACK_OP_CH_MS is 300
++ * When it's STA mode gets set_scan command,
++ * it would
++ * 1. Doing the scan on channel 1.2.3.4.5.6.7.8
++ * 2. Back to channel 1 for 300 milliseconds
++ * 3. Go through doing site survey on channel 9.10.11.36.40.44.48.52
++ * 4. Back to channel 1 for 300 milliseconds
++ * 5. ... and so on, till survey done.
++ */
++#if defined(CONFIG_ATMEL_RC_PATCH)
++	#define RTW_SCAN_NUM_OF_CH 2
++	#define RTW_BACK_OP_CH_MS 200
++#else
++	#define RTW_SCAN_NUM_OF_CH 3
++	#define RTW_BACK_OP_CH_MS 400
++#endif
++
++struct mlme_ext_info {
++	u32	state;
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++	u8	hw_media_state;
++#endif
++	u32	reauth_count;
++	u32	reassoc_count;
++	u32	link_count;
++	u32	auth_seq;
++	u32	auth_algo;	/* 802.11 auth, could be open, shared, auto */
++	u32	authModeToggle;
++	u32	enc_algo;/* encrypt algorithm; */
++	u32	key_index;	/* this is only valid for legendary wep, 0~3 for key id. */
++	u32	iv;
++	u8	chg_txt[128];
++	u16	aid;
++	u16	bcn_interval;
++	u16	capability;
++	u8	assoc_AP_vendor;
++	u8	slotTime;
++	u8	preamble_mode;
++	u8	WMM_enable;
++	u8	ERP_enable;
++	u8	ERP_IE;
++	u8	HT_enable;
++	u8	HT_caps_enable;
++	u8	HT_info_enable;
++	u8	HT_protection;
++	u8	turboMode_cts2self;
++	u8	turboMode_rtsen;
++	u8	SM_PS;
++	u8	agg_enable_bitmap;
++	u8	ADDBA_retry_count;
++	u8	candidate_tid_bitmap;
++	u8	dialogToken;
++	/* Accept ADDBA Request */
++	BOOLEAN bAcceptAddbaReq;
++	u8	bwmode_updated;
++	u8	hidden_ssid_mode;
++	u8	VHT_enable;
++
++	struct ADDBA_request		ADDBA_req;
++	struct WMM_para_element	WMM_param;
++	struct HT_caps_element	HT_caps;
++	struct HT_info_element		HT_info;
++	WLAN_BSSID_EX			network;/* join network or bss_network, if in ap mode, it is the same to cur_network.network */
++};
++
++/* The channel information about this channel including joining, scanning, and power constraints. */
++typedef struct _RT_CHANNEL_INFO {
++	u8				ChannelNum;		/* The channel number. */
++	RT_SCAN_TYPE	ScanType;		/* Scan type such as passive or active scan. */
++	/* u16				ScanPeriod;		 */ /* Listen time in millisecond in this channel. */
++	/* s32				MaxTxPwrDbm;	 */ /* Max allowed tx power. */
++	/* u32				ExInfo;			 */ /* Extended Information for this channel. */
++#ifdef CONFIG_FIND_BEST_CHANNEL
++	u32				rx_count;
++#endif
++#ifdef CONFIG_DFS_MASTER
++	u32 non_ocp_end_time;
++#endif
++} RT_CHANNEL_INFO, *PRT_CHANNEL_INFO;
++
++#define DFS_MASTER_TIMER_MS 100
++#define CAC_TIME_MS (60*1000)
++#define CAC_TIME_CE_MS (10*60*1000)
++#define NON_OCP_TIME_MS (30*60*1000)
++
++void rtw_rfctl_init(_adapter *adapter);
++
++#ifdef CONFIG_DFS_MASTER
++struct rf_ctl_t;
++#define CH_IS_NON_OCP(rt_ch_info) (time_after((unsigned long)(rt_ch_info)->non_ocp_end_time, (unsigned long)rtw_get_current_time()))
++bool rtw_is_cac_reset_needed(_adapter *adapter, u8 ch, u8 bw, u8 offset);
++bool _rtw_rfctl_overlap_radar_detect_ch(struct rf_ctl_t *rfctl, u8 ch, u8 bw, u8 offset);
++bool rtw_rfctl_overlap_radar_detect_ch(struct rf_ctl_t *rfctl);
++bool rtw_rfctl_is_tx_blocked_by_ch_waiting(struct rf_ctl_t *rfctl);
++bool rtw_chset_is_ch_non_ocp(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset);
++void rtw_chset_update_non_ocp(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset);
++void rtw_chset_update_non_ocp_ms(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset, int ms);
++u32 rtw_get_ch_waiting_ms(_adapter *adapter, u8 ch, u8 bw, u8 offset, u32 *r_non_ocp_ms, u32 *r_cac_ms);
++void rtw_reset_cac(_adapter *adapter, u8 ch, u8 bw, u8 offset);
++bool rtw_choose_shortest_waiting_ch(_adapter *adapter, u8 req_bw, u8 *dec_ch, u8 *dec_bw, u8 *dec_offset, u8 d_flags);
++#else
++#define CH_IS_NON_OCP(rt_ch_info) 0
++#define rtw_chset_is_ch_non_ocp(ch_set, ch, bw, offset) _FALSE
++#define rtw_rfctl_is_tx_blocked_by_ch_waiting(rfctl) _FALSE
++#endif
++
++enum {
++	RTW_CHF_2G = BIT0,
++	RTW_CHF_5G = BIT1,
++	RTW_CHF_DFS = BIT2,
++	RTW_CHF_LONG_CAC = BIT3,
++	RTW_CHF_NON_DFS = BIT4,
++	RTW_CHF_NON_LONG_CAC = BIT5,
++	RTW_CHF_NON_OCP = BIT6,
++};
++void dump_country_chplan(void *sel, const struct country_chplan *ent);
++void dump_country_chplan_map(void *sel);
++void dump_chplan_id_list(void *sel);
++void dump_chplan_test(void *sel);
++void dump_chset(void *sel, RT_CHANNEL_INFO *ch_set);
++void dump_cur_chset(void *sel, _adapter *adapter);
++
++int rtw_ch_set_search_ch(RT_CHANNEL_INFO *ch_set, const u32 ch);
++u8 rtw_chset_is_chbw_valid(RT_CHANNEL_INFO *ch_set, u8 ch, u8 bw, u8 offset);
++
++bool rtw_mlme_band_check(_adapter *adapter, const u32 ch);
++
++
++enum {
++	BAND_24G = BIT0,
++	BAND_5G = BIT1,
++};
++void RTW_SET_SCAN_BAND_SKIP(_adapter *padapter, int skip_band);
++void RTW_CLR_SCAN_BAND_SKIP(_adapter *padapter, int skip_band);
++int RTW_GET_SCAN_BAND_SKIP(_adapter *padapter);
++
++bool rtw_mlme_ignore_chan(_adapter *adapter, const u32 ch);
++
++/* P2P_MAX_REG_CLASSES - Maximum number of regulatory classes */
++#define P2P_MAX_REG_CLASSES 10
++
++/* P2P_MAX_REG_CLASS_CHANNELS - Maximum number of channels per regulatory class */
++#define P2P_MAX_REG_CLASS_CHANNELS 20
++
++/* struct p2p_channels - List of supported channels */
++struct p2p_channels {
++	/* struct p2p_reg_class - Supported regulatory class */
++	struct p2p_reg_class {
++		/* reg_class - Regulatory class (IEEE 802.11-2007, Annex J) */
++		u8 reg_class;
++
++		/* channel - Supported channels */
++		u8 channel[P2P_MAX_REG_CLASS_CHANNELS];
++
++		/* channels - Number of channel entries in use */
++		size_t channels;
++	} reg_class[P2P_MAX_REG_CLASSES];
++
++	/* reg_classes - Number of reg_class entries in use */
++	size_t reg_classes;
++};
++
++struct p2p_oper_class_map {
++	enum hw_mode {IEEE80211G, IEEE80211A} mode;
++	u8 op_class;
++	u8 min_chan;
++	u8 max_chan;
++	u8 inc;
++	enum { BW20, BW40PLUS, BW40MINUS } bw;
++};
++
++struct mlme_ext_priv {
++	_adapter	*padapter;
++	u8	mlmeext_init;
++	ATOMIC_T		event_seq;
++	u16	mgnt_seq;
++#ifdef CONFIG_IEEE80211W
++	u16	sa_query_seq;
++	u64 mgnt_80211w_IPN;
++	u64 mgnt_80211w_IPN_rx;
++#endif /* CONFIG_IEEE80211W */
++	/* struct fw_priv 	fwpriv; */
++
++	unsigned char	cur_channel;
++	unsigned char	cur_bwmode;
++	unsigned char	cur_ch_offset;/* PRIME_CHNL_OFFSET */
++	unsigned char	cur_wireless_mode;	/* NETWORK_TYPE */
++
++	unsigned char	max_chan_nums;
++	RT_CHANNEL_INFO		channel_set[MAX_CHANNEL_NUM];
++	struct p2p_channels channel_list;
++	unsigned char	basicrate[NumRates];
++	unsigned char	datarate[NumRates];
++#ifdef CONFIG_80211N_HT
++	unsigned char default_supported_mcs_set[16];
++#endif
++
++	struct ss_res		sitesurvey_res;
++	struct mlme_ext_info	mlmext_info;/* for sta/adhoc mode, including current scanning/connecting/connected related info.
++                                                      * for ap mode, network includes ap's cap_info */
++	_timer		survey_timer;
++	_timer		link_timer;
++
++	/* _timer		ADDBA_timer; */
++	u32 last_scan_time;
++	u8	scan_abort;
++	u8	tx_rate; /* TXRATE when USERATE is set. */
++
++	u32	retry; /* retry for issue probereq */
++
++	u64 TSFValue;
++
++	/* for LPS-32K to adaptive bcn early and timeout */
++	u8 adaptive_tsf_done;
++	u32 bcn_delay_cnt[9];
++	u32 bcn_delay_ratio[9];
++	u32 bcn_cnt;
++	u8 DrvBcnEarly;
++	u8 DrvBcnTimeOut;
++
++#ifdef CONFIG_AP_MODE
++	unsigned char bstart_bss;
++#endif
++
++#ifdef CONFIG_80211D
++	u8 update_channel_plan_by_ap_done;
++#endif
++	/* recv_decache check for Action_public frame */
++	u8 action_public_dialog_token;
++	u16	 action_public_rxseq;
++
++	/* #ifdef CONFIG_ACTIVE_KEEP_ALIVE_CHECK */
++	u8 active_keep_alive_check;
++	/* #endif */
++#ifdef DBG_FIXED_CHAN
++	u8 fixed_chan;
++#endif
++	/* set hw sync bcn tsf register or not */
++	u8 en_hw_update_tsf;
++};
++
++static inline u8 check_mlmeinfo_state(struct mlme_ext_priv *plmeext, sint state)
++{
++	if ((plmeext->mlmext_info.state & 0x03) == state)
++		return _TRUE;
++
++	return _FALSE;
++}
++
++#define mlmeext_msr(mlmeext) ((mlmeext)->mlmext_info.state & 0x03)
++#define mlmeext_scan_state(mlmeext) ((mlmeext)->sitesurvey_res.state)
++#define mlmeext_scan_state_str(mlmeext) scan_state_str((mlmeext)->sitesurvey_res.state)
++#define mlmeext_chk_scan_state(mlmeext, _state) ((mlmeext)->sitesurvey_res.state == (_state))
++#define mlmeext_set_scan_state(mlmeext, _state) \
++	do { \
++		((mlmeext)->sitesurvey_res.state = (_state)); \
++		((mlmeext)->sitesurvey_res.next_state = (_state)); \
++		/* RTW_INFO("set_scan_state:%s\n", scan_state_str(_state)); */ \
++	} while (0)
++
++#define mlmeext_scan_next_state(mlmeext) ((mlmeext)->sitesurvey_res.next_state)
++#define mlmeext_set_scan_next_state(mlmeext, _state) \
++	do { \
++		((mlmeext)->sitesurvey_res.next_state = (_state)); \
++		/* RTW_INFO("set_scan_next_state:%s\n", scan_state_str(_state)); */ \
++	} while (0)
++
++#ifdef CONFIG_SCAN_BACKOP
++#define mlmeext_scan_backop_flags(mlmeext) ((mlmeext)->sitesurvey_res.backop_flags)
++#define mlmeext_chk_scan_backop_flags(mlmeext, flags) ((mlmeext)->sitesurvey_res.backop_flags & (flags))
++#define mlmeext_assign_scan_backop_flags(mlmeext, flags) \
++	do { \
++		((mlmeext)->sitesurvey_res.backop_flags = (flags)); \
++		RTW_INFO("assign_scan_backop_flags:0x%02x\n", (mlmeext)->sitesurvey_res.backop_flags); \
++	} while (0)
++
++#define mlmeext_scan_backop_flags_sta(mlmeext) ((mlmeext)->sitesurvey_res.backop_flags_sta)
++#define mlmeext_chk_scan_backop_flags_sta(mlmeext, flags) ((mlmeext)->sitesurvey_res.backop_flags_sta & (flags))
++#define mlmeext_assign_scan_backop_flags_sta(mlmeext, flags) \
++	do { \
++		((mlmeext)->sitesurvey_res.backop_flags_sta = (flags)); \
++	} while (0)
++
++#define mlmeext_scan_backop_flags_ap(mlmeext) ((mlmeext)->sitesurvey_res.backop_flags_ap)
++#define mlmeext_chk_scan_backop_flags_ap(mlmeext, flags) ((mlmeext)->sitesurvey_res.backop_flags_ap & (flags))
++#define mlmeext_assign_scan_backop_flags_ap(mlmeext, flags) \
++	do { \
++		((mlmeext)->sitesurvey_res.backop_flags_ap = (flags)); \
++	} while (0)
++#else
++#define mlmeext_scan_backop_flags(mlmeext) (0)
++#define mlmeext_chk_scan_backop_flags(mlmeext, flags) (0)
++#define mlmeext_assign_scan_backop_flags(mlmeext, flags) do {} while (0)
++
++#define mlmeext_scan_backop_flags_sta(mlmeext) (0)
++#define mlmeext_chk_scan_backop_flags_sta(mlmeext, flags) (0)
++#define mlmeext_assign_scan_backop_flags_sta(mlmeext, flags) do {} while (0)
++
++#define mlmeext_scan_backop_flags_ap(mlmeext) (0)
++#define mlmeext_chk_scan_backop_flags_ap(mlmeext, flags) (0)
++#define mlmeext_assign_scan_backop_flags_ap(mlmeext, flags) do {} while (0)
++#endif
++
++void init_mlme_default_rate_set(_adapter *padapter);
++int init_mlme_ext_priv(_adapter *padapter);
++int init_hw_mlme_ext(_adapter *padapter);
++void free_mlme_ext_priv(struct mlme_ext_priv *pmlmeext);
++extern void init_mlme_ext_timer(_adapter *padapter);
++extern void init_addba_retry_timer(_adapter *padapter, struct sta_info *psta);
++extern struct xmit_frame *alloc_mgtxmitframe(struct xmit_priv *pxmitpriv);
++struct xmit_frame *alloc_mgtxmitframe_once(struct xmit_priv *pxmitpriv);
++
++/* void fill_fwpriv(_adapter * padapter, struct fw_priv *pfwpriv); */
++#ifdef CONFIG_GET_RAID_BY_DRV
++unsigned char networktype_to_raid(_adapter *adapter, struct sta_info *psta);
++unsigned char networktype_to_raid_ex(_adapter *adapter, struct sta_info *psta);
++#endif
++u8 judge_network_type(_adapter *padapter, unsigned char *rate, int ratelen);
++void get_rate_set(_adapter *padapter, unsigned char *pbssrate, int *bssrate_len);
++void set_mcs_rate_by_mask(u8 *mcs_set, u32 mask);
++void UpdateBrateTbl(_adapter *padapter, u8 *mBratesOS);
++void UpdateBrateTblForSoftAP(u8 *bssrateset, u32 bssratelen);
++void change_band_update_ie(_adapter *padapter, WLAN_BSSID_EX *pnetwork, u8 ch);
++
++void Set_MSR(_adapter *padapter, u8 type);
++
++u8 rtw_get_oper_ch(_adapter *adapter);
++void rtw_set_oper_ch(_adapter *adapter, u8 ch);
++u8 rtw_get_oper_bw(_adapter *adapter);
++void rtw_set_oper_bw(_adapter *adapter, u8 bw);
++u8 rtw_get_oper_choffset(_adapter *adapter);
++void rtw_set_oper_choffset(_adapter *adapter, u8 offset);
++u8	rtw_get_center_ch(u8 channel, u8 chnl_bw, u8 chnl_offset);
++u32 rtw_get_on_oper_ch_time(_adapter *adapter);
++u32 rtw_get_on_cur_ch_time(_adapter *adapter);
++
++u8 rtw_get_offset_by_chbw(u8 ch, u8 bw, u8 *r_offset);
++u8 rtw_get_offset_by_ch(u8 channel);
++
++void set_channel_bwmode(_adapter *padapter, unsigned char channel, unsigned char channel_offset, unsigned short bwmode);
++
++unsigned int decide_wait_for_beacon_timeout(unsigned int bcn_interval);
++
++void _clear_cam_entry(_adapter *padapter, u8 entry);
++void write_cam_from_cache(_adapter *adapter, u8 id);
++void rtw_sec_cam_swap(_adapter *adapter, u8 cam_id_a, u8 cam_id_b);
++void rtw_clean_dk_section(_adapter *adapter);
++void rtw_clean_hw_dk_cam(_adapter *adapter);
++
++/* modify both HW and cache */
++void write_cam(_adapter *padapter, u8 id, u16 ctrl, u8 *mac, u8 *key);
++void clear_cam_entry(_adapter *padapter, u8 id);
++
++/* modify cache only */
++void write_cam_cache(_adapter *adapter, u8 id, u16 ctrl, u8 *mac, u8 *key);
++void clear_cam_cache(_adapter *adapter, u8 id);
++
++void invalidate_cam_all(_adapter *padapter);
++void CAM_empty_entry(PADAPTER Adapter, u8 ucIndex);
++
++void flush_all_cam_entry(_adapter *padapter);
++
++BOOLEAN IsLegal5GChannel(PADAPTER Adapter, u8 channel);
++
++void site_survey(_adapter *padapter, u8 survey_channel, RT_SCAN_TYPE ScanType);
++u8 collect_bss_info(_adapter *padapter, union recv_frame *precv_frame, WLAN_BSSID_EX *bssid);
++void update_network(WLAN_BSSID_EX *dst, WLAN_BSSID_EX *src, _adapter *padapter, bool update_ie);
++
++int get_bsstype(unsigned short capability);
++u8 *get_my_bssid(WLAN_BSSID_EX *pnetwork);
++u16 get_beacon_interval(WLAN_BSSID_EX *bss);
++
++int is_client_associated_to_ap(_adapter *padapter);
++int is_client_associated_to_ibss(_adapter *padapter);
++int is_IBSS_empty(_adapter *padapter);
++
++unsigned char check_assoc_AP(u8 *pframe, uint len);
++
++int WMM_param_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs	pIE);
++#ifdef CONFIG_WFD
++void rtw_process_wfd_ie(_adapter *adapter, u8 *ie, u8 ie_len, const char *tag);
++void rtw_process_wfd_ies(_adapter *adapter, u8 *ies, u8 ies_len, const char *tag);
++#endif
++void WMMOnAssocRsp(_adapter *padapter);
++
++void HT_caps_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE);
++void HT_info_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE);
++void HTOnAssocRsp(_adapter *padapter);
++
++void ERP_IE_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE);
++void VCS_update(_adapter *padapter, struct sta_info *psta);
++void	update_ldpc_stbc_cap(struct sta_info *psta);
++
++int rtw_get_bcn_keys(ADAPTER *Adapter, u8 *pframe, u32 packet_len,
++		struct beacon_keys *recv_beacon);
++void rtw_dump_bcn_keys(struct beacon_keys *recv_beacon);
++int rtw_check_bcn_info(ADAPTER *Adapter, u8 *pframe, u32 packet_len);
++void update_beacon_info(_adapter *padapter, u8 *pframe, uint len, struct sta_info *psta);
++#ifdef CONFIG_DFS
++void process_csa_ie(_adapter *padapter, u8 *pframe, uint len);
++#endif /* CONFIG_DFS */
++void update_capinfo(PADAPTER Adapter, u16 updateCap);
++void update_wireless_mode(_adapter *padapter);
++void update_tx_basic_rate(_adapter *padapter, u8 modulation);
++void update_sta_basic_rate(struct sta_info *psta, u8 wireless_mode);
++int rtw_ies_get_supported_rate(u8 *ies, uint ies_len, u8 *rate_set, u8 *rate_num);
++
++/* for sta/adhoc mode */
++void update_sta_info(_adapter *padapter, struct sta_info *psta);
++unsigned int update_basic_rate(unsigned char *ptn, unsigned int ptn_sz);
++unsigned int update_supported_rate(unsigned char *ptn, unsigned int ptn_sz);
++unsigned int update_MCS_rate(struct HT_caps_element *pHT_caps);
++void Update_RA_Entry(_adapter *padapter, struct sta_info *psta);
++void set_sta_rate(_adapter *padapter, struct sta_info *psta);
++
++unsigned int receive_disconnect(_adapter *padapter, unsigned char *MacAddr, unsigned short reason, u8 locally_generated);
++
++unsigned char get_highest_rate_idx(u32 mask);
++int support_short_GI(_adapter *padapter, struct HT_caps_element *pHT_caps, u8 bwmode);
++unsigned int is_ap_in_tkip(_adapter *padapter);
++unsigned int is_ap_in_wep(_adapter *padapter);
++unsigned int should_forbid_n_rate(_adapter *padapter);
++
++bool _rtw_camctl_chk_cap(_adapter *adapter, u8 cap);
++void _rtw_camctl_set_flags(_adapter *adapter, u32 flags);
++void rtw_camctl_set_flags(_adapter *adapter, u32 flags);
++void _rtw_camctl_clr_flags(_adapter *adapter, u32 flags);
++void rtw_camctl_clr_flags(_adapter *adapter, u32 flags);
++bool _rtw_camctl_chk_flags(_adapter *adapter, u32 flags);
++
++struct sec_cam_bmp;
++void dump_sec_cam_map(void *sel, struct sec_cam_bmp *map, u8 max_num);
++void rtw_sec_cam_map_clr_all(struct sec_cam_bmp *map);
++
++bool _rtw_camid_is_gk(_adapter *adapter, u8 cam_id);
++bool rtw_camid_is_gk(_adapter *adapter, u8 cam_id);
++s16 rtw_camid_search(_adapter *adapter, u8 *addr, s16 kid, s8 gk);
++s16 rtw_camid_alloc(_adapter *adapter, struct sta_info *sta, u8 kid, bool *used);
++void rtw_camid_free(_adapter *adapter, u8 cam_id);
++u8 rtw_get_sec_camid(_adapter *adapter, u8 max_bk_key_num, u8 *sec_key_id);
++
++struct macid_bmp;
++struct macid_ctl_t;
++void dump_macid_map(void *sel, struct macid_bmp *map, u8 max_num);
++bool rtw_macid_is_set(struct macid_bmp *map, u8 id);
++bool rtw_macid_is_used(struct macid_ctl_t *macid_ctl, u8 id);
++bool rtw_macid_is_bmc(struct macid_ctl_t *macid_ctl, u8 id);
++s8 rtw_macid_get_if_g(struct macid_ctl_t *macid_ctl, u8 id);
++s8 rtw_macid_get_ch_g(struct macid_ctl_t *macid_ctl, u8 id);
++void rtw_alloc_macid(_adapter *padapter, struct sta_info *psta);
++void rtw_release_macid(_adapter *padapter, struct sta_info *psta);
++u8 rtw_search_max_mac_id(_adapter *padapter);
++void rtw_macid_ctl_set_h2c_msr(struct macid_ctl_t *macid_ctl, u8 id, u8 h2c_msr);
++void rtw_macid_ctl_set_bw(struct macid_ctl_t *macid_ctl, u8 id, u8 bw);
++void rtw_macid_ctl_set_vht_en(struct macid_ctl_t *macid_ctl, u8 id, u8 en);
++void rtw_macid_ctl_set_rate_bmp0(struct macid_ctl_t *macid_ctl, u8 id, u32 bmp);
++void rtw_macid_ctl_set_rate_bmp1(struct macid_ctl_t *macid_ctl, u8 id, u32 bmp);
++void rtw_macid_ctl_init(struct macid_ctl_t *macid_ctl);
++void rtw_macid_ctl_deinit(struct macid_ctl_t *macid_ctl);
++u8 rtw_iface_bcmc_id_get(_adapter *padapter);
++
++u32 report_join_res(_adapter *padapter, int res);
++void report_survey_event(_adapter *padapter, union recv_frame *precv_frame);
++void report_surveydone_event(_adapter *padapter);
++u32 report_del_sta_event(_adapter *padapter, unsigned char *MacAddr, unsigned short reason, bool enqueue, u8 locally_generated);
++void report_add_sta_event(_adapter *padapter, unsigned char *MacAddr);
++bool rtw_port_switch_chk(_adapter *adapter);
++void report_wmm_edca_update(_adapter *padapter);
++
++void beacon_timing_control(_adapter *padapter);
++u8 chk_bmc_sleepq_cmd(_adapter *padapter);
++extern u8 set_tx_beacon_cmd(_adapter *padapter);
++unsigned int setup_beacon_frame(_adapter *padapter, unsigned char *beacon_frame);
++void update_mgnt_tx_rate(_adapter *padapter, u8 rate);
++void update_monitor_frame_attrib(_adapter *padapter, struct pkt_attrib *pattrib);
++void update_mgntframe_attrib(_adapter *padapter, struct pkt_attrib *pattrib);
++void update_mgntframe_attrib_addr(_adapter *padapter, struct xmit_frame *pmgntframe);
++void dump_mgntframe(_adapter *padapter, struct xmit_frame *pmgntframe);
++s32 dump_mgntframe_and_wait(_adapter *padapter, struct xmit_frame *pmgntframe, int timeout_ms);
++s32 dump_mgntframe_and_wait_ack(_adapter *padapter, struct xmit_frame *pmgntframe);
++s32 dump_mgntframe_and_wait_ack_timeout(_adapter *padapter, struct xmit_frame *pmgntframe, int timeout_ms);
++
++#ifdef CONFIG_P2P
++void issue_probersp_p2p(_adapter *padapter, unsigned char *da);
++void issue_p2p_provision_request(_adapter *padapter, u8 *pssid, u8 ussidlen, u8 *pdev_raddr);
++void issue_p2p_GO_request(_adapter *padapter, u8 *raddr);
++void issue_probereq_p2p(_adapter *padapter, u8 *da);
++int issue_probereq_p2p_ex(_adapter *adapter, u8 *da, int try_cnt, int wait_ms);
++void issue_p2p_invitation_response(_adapter *padapter, u8 *raddr, u8 dialogToken, u8 success);
++void issue_p2p_invitation_request(_adapter *padapter, u8 *raddr);
++#endif /* CONFIG_P2P */
++void issue_beacon(_adapter *padapter, int timeout_ms);
++void issue_probersp(_adapter *padapter, unsigned char *da, u8 is_valid_p2p_probereq);
++void issue_assocreq(_adapter *padapter);
++void issue_asocrsp(_adapter *padapter, unsigned short status, struct sta_info *pstat, int pkt_type);
++void issue_auth(_adapter *padapter, struct sta_info *psta, unsigned short status);
++void issue_probereq(_adapter *padapter, NDIS_802_11_SSID *pssid, u8 *da);
++s32 issue_probereq_ex(_adapter *padapter, NDIS_802_11_SSID *pssid, u8 *da, u8 ch, bool append_wps, int try_cnt, int wait_ms);
++int issue_nulldata(_adapter *padapter, unsigned char *da, unsigned int power_mode, int try_cnt, int wait_ms);
++s32 issue_nulldata_in_interrupt(PADAPTER padapter, u8 *da, unsigned int power_mode);
++int issue_qos_nulldata(_adapter *padapter, unsigned char *da, u16 tid, int try_cnt, int wait_ms);
++int issue_deauth(_adapter *padapter, unsigned char *da, unsigned short reason);
++int issue_deauth_ex(_adapter *padapter, u8 *da, unsigned short reason, int try_cnt, int wait_ms);
++void issue_action_spct_ch_switch(_adapter *padapter, u8 *ra, u8 new_ch, u8 ch_offset);
++void issue_addba_req(_adapter *adapter, unsigned char *ra, u8 tid);
++void issue_addba_rsp(_adapter *adapter, unsigned char *ra, u8 tid, u16 status, u8 size);
++u8 issue_addba_rsp_wait_ack(_adapter *adapter, unsigned char *ra, u8 tid, u16 status, u8 size, int try_cnt, int wait_ms);
++void issue_del_ba(_adapter *adapter, unsigned char *ra, u8 tid, u16 reason, u8 initiator);
++int issue_del_ba_ex(_adapter *adapter, unsigned char *ra, u8 tid, u16 reason, u8 initiator, int try_cnt, int wait_ms);
++
++#ifdef CONFIG_IEEE80211W
++void issue_action_SA_Query(_adapter *padapter, unsigned char *raddr, unsigned char action, unsigned short tid, u8 key_type);
++int issue_deauth_11w(_adapter *padapter, unsigned char *da, unsigned short reason, u8 key_type);
++extern void init_dot11w_expire_timer(_adapter *padapter, struct sta_info *psta);
++#endif /* CONFIG_IEEE80211W */
++int issue_action_SM_PS(_adapter *padapter ,  unsigned char *raddr , u8 NewMimoPsMode);
++int issue_action_SM_PS_wait_ack(_adapter *padapter, unsigned char *raddr, u8 NewMimoPsMode, int try_cnt, int wait_ms);
++
++unsigned int send_delba_sta_tid(_adapter *adapter, u8 initiator, struct sta_info *sta, u8 tid, u8 force);
++unsigned int send_delba_sta_tid_wait_ack(_adapter *adapter, u8 initiator, struct sta_info *sta, u8 tid, u8 force);
++
++unsigned int send_delba(_adapter *padapter, u8 initiator, u8 *addr);
++unsigned int send_beacon(_adapter *padapter);
++
++void start_clnt_assoc(_adapter *padapter);
++void start_clnt_auth(_adapter *padapter);
++void start_clnt_join(_adapter *padapter);
++void start_create_ibss(_adapter *padapter);
++
++unsigned int OnAssocReq(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAssocRsp(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnProbeReq(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnProbeRsp(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int DoReserved(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnBeacon(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAtim(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnDisassoc(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAuth(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAuthClient(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnDeAuth(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAction(_adapter *padapter, union recv_frame *precv_frame);
++
++unsigned int on_action_spct(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAction_qos(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAction_dls(_adapter *padapter, union recv_frame *precv_frame);
++
++#define RX_AMPDU_ACCEPT_INVALID 0xFF
++#define RX_AMPDU_SIZE_INVALID 0xFF
++
++enum rx_ampdu_reason {
++	RX_AMPDU_DRV_FIXED = 1,
++	RX_AMPDU_BTCOEX = 2, /* not used, because BTCOEX has its own variable management */
++	RX_AMPDU_DRV_SCAN = 3,
++};
++u8 rtw_rx_ampdu_size(_adapter *adapter);
++bool rtw_rx_ampdu_is_accept(_adapter *adapter);
++bool rtw_rx_ampdu_set_size(_adapter *adapter, u8 size, u8 reason);
++bool rtw_rx_ampdu_set_accept(_adapter *adapter, u8 accept, u8 reason);
++u8 rx_ampdu_apply_sta_tid(_adapter *adapter, struct sta_info *sta, u8 tid, u8 accept, u8 size);
++u8 rx_ampdu_apply_sta(_adapter *adapter, struct sta_info *sta, u8 accept, u8 size);
++u16 rtw_rx_ampdu_apply(_adapter *adapter);
++
++unsigned int OnAction_back(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int on_action_public(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAction_ht(_adapter *padapter, union recv_frame *precv_frame);
++#ifdef CONFIG_IEEE80211W
++unsigned int OnAction_sa_query(_adapter *padapter, union recv_frame *precv_frame);
++#endif /* CONFIG_IEEE80211W */
++unsigned int OnAction_wmm(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAction_vht(_adapter *padapter, union recv_frame *precv_frame);
++unsigned int OnAction_p2p(_adapter *padapter, union recv_frame *precv_frame);
++
++
++void mlmeext_joinbss_event_callback(_adapter *padapter, int join_res);
++void mlmeext_sta_del_event_callback(_adapter *padapter);
++void mlmeext_sta_add_event_callback(_adapter *padapter, struct sta_info *psta);
++
++void linked_status_chk(_adapter *padapter, u8 from_timer);
++
++void _linked_info_dump(_adapter *padapter);
++
++void survey_timer_hdl(_adapter *padapter);
++void link_timer_hdl(_adapter *padapter);
++void addba_timer_hdl(struct sta_info *psta);
++#ifdef CONFIG_IEEE80211W
++void sa_query_timer_hdl(struct sta_info *psta);
++#endif /* CONFIG_IEEE80211W */
++#if 0
++void reauth_timer_hdl(_adapter *padapter);
++void reassoc_timer_hdl(_adapter *padapter);
++#endif
++
++#define set_survey_timer(mlmeext, ms) \
++	do { \
++		/*RTW_INFO("%s set_survey_timer(%p, %d)\n", __FUNCTION__, (mlmeext), (ms));*/ \
++		_set_timer(&(mlmeext)->survey_timer, (ms)); \
++	} while (0)
++
++#define set_link_timer(mlmeext, ms) \
++	do { \
++		/*RTW_INFO("%s set_link_timer(%p, %d)\n", __FUNCTION__, (mlmeext), (ms));*/ \
++		_set_timer(&(mlmeext)->link_timer, (ms)); \
++	} while (0)
++
++extern int cckrates_included(unsigned char *rate, int ratelen);
++extern int cckratesonly_included(unsigned char *rate, int ratelen);
++
++extern void process_addba_req(_adapter *padapter, u8 *paddba_req, u8 *addr);
++
++extern void update_TSF(struct mlme_ext_priv *pmlmeext, u8 *pframe, uint len);
++extern void correct_TSF(_adapter *padapter, struct mlme_ext_priv *pmlmeext);
++extern void adaptive_early_32k(struct mlme_ext_priv *pmlmeext, u8 *pframe, uint len);
++extern u8 traffic_status_watchdog(_adapter *padapter, u8 from_timer);
++
++
++void rtw_join_done_chk_ch(_adapter *padapter, int join_res);
++
++int rtw_chk_start_clnt_join(_adapter *padapter, u8 *ch, u8 *bw, u8 *offset);
++
++#ifdef CONFIG_PLATFORM_ARM_SUN8I
++	#define BUSY_TRAFFIC_SCAN_DENY_PERIOD	8000
++#else
++	#define BUSY_TRAFFIC_SCAN_DENY_PERIOD	12000
++#endif
++
++struct cmd_hdl {
++	uint	parmsize;
++	u8(*h2cfuns)(struct _ADAPTER *padapter, u8 *pbuf);
++};
++
++
++u8 read_macreg_hdl(_adapter *padapter, u8 *pbuf);
++u8 write_macreg_hdl(_adapter *padapter, u8 *pbuf);
++u8 read_bbreg_hdl(_adapter *padapter, u8 *pbuf);
++u8 write_bbreg_hdl(_adapter *padapter, u8 *pbuf);
++u8 read_rfreg_hdl(_adapter *padapter, u8 *pbuf);
++u8 write_rfreg_hdl(_adapter *padapter, u8 *pbuf);
++
++
++u8 NULL_hdl(_adapter *padapter, u8 *pbuf);
++u8 join_cmd_hdl(_adapter *padapter, u8 *pbuf);
++u8 disconnect_hdl(_adapter *padapter, u8 *pbuf);
++u8 createbss_hdl(_adapter *padapter, u8 *pbuf);
++u8 setopmode_hdl(_adapter *padapter, u8 *pbuf);
++u8 sitesurvey_cmd_hdl(_adapter *padapter, u8 *pbuf);
++u8 setauth_hdl(_adapter *padapter, u8 *pbuf);
++u8 setkey_hdl(_adapter *padapter, u8 *pbuf);
++u8 set_stakey_hdl(_adapter *padapter, u8 *pbuf);
++u8 set_assocsta_hdl(_adapter *padapter, u8 *pbuf);
++u8 del_assocsta_hdl(_adapter *padapter, u8 *pbuf);
++u8 add_ba_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 add_ba_rsp_hdl(_adapter *padapter, unsigned char *pbuf);
++
++void rtw_ap_wep_pk_setting(_adapter *adapter, struct sta_info *psta);
++
++u8 mlme_evt_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 h2c_msg_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 chk_bmc_sleepq_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 tx_beacon_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 set_ch_hdl(_adapter *padapter, u8 *pbuf);
++u8 set_chplan_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 led_blink_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 set_csa_hdl(_adapter *padapter, unsigned char *pbuf);	/* Kurt: Handling DFS channel switch announcement ie. */
++u8 tdls_hdl(_adapter *padapter, unsigned char *pbuf);
++u8 run_in_thread_hdl(_adapter *padapter, u8 *pbuf);
++u8 rtw_getmacreg_hdl(_adapter *padapter, u8 *pbuf);
++
++#define GEN_DRV_CMD_HANDLER(size, cmd)	{size, &cmd ## _hdl},
++#define GEN_MLME_EXT_HANDLER(size, cmd)	{size, cmd},
++
++#ifdef _RTW_CMD_C_
++
++struct cmd_hdl wlancmds[] = {
++	GEN_DRV_CMD_HANDLER(sizeof(struct readMAC_parm), rtw_getmacreg) /*0*/
++	GEN_DRV_CMD_HANDLER(0, NULL)
++	GEN_DRV_CMD_HANDLER(0, NULL)
++	GEN_DRV_CMD_HANDLER(0, NULL)
++	GEN_DRV_CMD_HANDLER(0, NULL)
++	GEN_DRV_CMD_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL) /*10*/
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct joinbss_parm), join_cmd_hdl)  /*14*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct disconnect_parm), disconnect_hdl)
++	GEN_MLME_EXT_HANDLER(sizeof(struct createbss_parm), createbss_hdl)
++	GEN_MLME_EXT_HANDLER(sizeof(struct setopmode_parm), setopmode_hdl)
++	GEN_MLME_EXT_HANDLER(sizeof(struct sitesurvey_parm), sitesurvey_cmd_hdl)  /*18*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct setauth_parm), setauth_hdl)
++	GEN_MLME_EXT_HANDLER(sizeof(struct setkey_parm), setkey_hdl)  /*20*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct set_stakey_parm), set_stakey_hdl)
++	GEN_MLME_EXT_HANDLER(sizeof(struct set_assocsta_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct del_assocsta_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct setstapwrstate_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct setbasicrate_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct getbasicrate_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct setdatarate_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct getdatarate_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct setphyinfo_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct getphyinfo_parm), NULL)   /*30*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct setphy_parm), NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct getphy_parm), NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)	/*40*/
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct addBaReq_parm), add_ba_hdl)
++	GEN_MLME_EXT_HANDLER(sizeof(struct set_ch_parm), set_ch_hdl) /* 46 */
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL) /*50*/
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(0, NULL)
++	GEN_MLME_EXT_HANDLER(sizeof(struct Tx_Beacon_param), tx_beacon_hdl) /*55*/
++
++	GEN_MLME_EXT_HANDLER(0, mlme_evt_hdl) /*56*/
++	GEN_MLME_EXT_HANDLER(0, rtw_drvextra_cmd_hdl) /*57*/
++
++	GEN_MLME_EXT_HANDLER(0, h2c_msg_hdl) /*58*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct SetChannelPlan_param), set_chplan_hdl) /*59*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct LedBlink_param), led_blink_hdl) /*60*/
++
++	GEN_MLME_EXT_HANDLER(sizeof(struct SetChannelSwitch_param), set_csa_hdl) /*61*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct TDLSoption_param), tdls_hdl) /*62*/
++	GEN_MLME_EXT_HANDLER(0, chk_bmc_sleepq_hdl) /*63*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct RunInThread_param), run_in_thread_hdl) /*64*/
++	GEN_MLME_EXT_HANDLER(sizeof(struct addBaRsp_parm), add_ba_rsp_hdl) /* 65 */
++};
++
++#endif
++
++struct C2HEvent_Header {
++
++#ifdef CONFIG_LITTLE_ENDIAN
++
++	unsigned int len:16;
++	unsigned int ID:8;
++	unsigned int seq:8;
++
++#elif defined(CONFIG_BIG_ENDIAN)
++
++	unsigned int seq:8;
++	unsigned int ID:8;
++	unsigned int len:16;
++
++#else
++
++#  error "Must be LITTLE or BIG Endian"
++
++#endif
++
++	unsigned int rsvd;
++
++};
++
++void rtw_dummy_event_callback(_adapter *adapter , u8 *pbuf);
++void rtw_fwdbg_event_callback(_adapter *adapter , u8 *pbuf);
++
++enum rtw_c2h_event {
++	GEN_EVT_CODE(_Read_MACREG) = 0, /*0*/
++	GEN_EVT_CODE(_Read_BBREG),
++	GEN_EVT_CODE(_Read_RFREG),
++	GEN_EVT_CODE(_Read_EEPROM),
++	GEN_EVT_CODE(_Read_EFUSE),
++	GEN_EVT_CODE(_Read_CAM),			/*5*/
++	GEN_EVT_CODE(_Get_BasicRate),
++	GEN_EVT_CODE(_Get_DataRate),
++	GEN_EVT_CODE(_Survey),	 /*8*/
++	GEN_EVT_CODE(_SurveyDone),	 /*9*/
++
++	GEN_EVT_CODE(_JoinBss) , /*10*/
++	GEN_EVT_CODE(_AddSTA),
++	GEN_EVT_CODE(_DelSTA),
++	GEN_EVT_CODE(_AtimDone) ,
++	GEN_EVT_CODE(_TX_Report),
++	GEN_EVT_CODE(_CCX_Report),			/*15*/
++	GEN_EVT_CODE(_DTM_Report),
++	GEN_EVT_CODE(_TX_Rate_Statistics),
++	GEN_EVT_CODE(_C2HLBK),
++	GEN_EVT_CODE(_FWDBG),
++	GEN_EVT_CODE(_C2HFEEDBACK),               /*20*/
++	GEN_EVT_CODE(_ADDBA),
++	GEN_EVT_CODE(_C2HBCN),
++	GEN_EVT_CODE(_ReportPwrState),		/* filen: only for PCIE, USB	 */
++	GEN_EVT_CODE(_CloseRF),				/* filen: only for PCIE, work around ASPM */
++	GEN_EVT_CODE(_WMM),					/*25*/
++#ifdef CONFIG_IEEE80211W
++	GEN_EVT_CODE(_TimeoutSTA),
++#endif /* CONFIG_IEEE80211W */
++	MAX_C2HEVT
++};
++
++
++#ifdef _RTW_MLME_EXT_C_
++
++static struct fwevent wlanevents[] = {
++	{0, rtw_dummy_event_callback},	/*0*/
++	{0, NULL},
++	{0, NULL},
++	{0, NULL},
++	{0, NULL},
++	{0, NULL},
++	{0, NULL},
++	{0, NULL},
++	{0, &rtw_survey_event_callback},		/*8*/
++	{sizeof(struct surveydone_event), &rtw_surveydone_event_callback},	/*9*/
++
++	{0, &rtw_joinbss_event_callback},		/*10*/
++	{sizeof(struct stassoc_event), &rtw_stassoc_event_callback},
++	{sizeof(struct stadel_event), &rtw_stadel_event_callback},
++	{0, &rtw_atimdone_event_callback},
++	{0, rtw_dummy_event_callback},
++	{0, NULL},	/*15*/
++	{0, NULL},
++	{0, NULL},
++	{0, NULL},
++	{0, rtw_fwdbg_event_callback},
++	{0, NULL},	 /*20*/
++	{0, NULL},
++	{0, NULL},
++	{0, &rtw_cpwm_event_callback},
++	{0, NULL},
++	{0, &rtw_wmm_event_callback}, /*25*/
++#ifdef CONFIG_IEEE80211W
++	{sizeof(struct stadel_event), &rtw_sta_timeout_event_callback},
++#endif /* CONFIG_IEEE80211W */
++
++};
++
++#endif/* _RTW_MLME_EXT_C_ */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_mp.h b/drivers/net/wireless/rtl8812au/include/rtw_mp.h
+new file mode 100644
+index 0000000..1b7bdfc
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_mp.h
+@@ -0,0 +1,935 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_MP_H_
++#define _RTW_MP_H_
++
++#define RTWPRIV_VER_INFO	1
++
++#define MAX_MP_XMITBUF_SZ	2048
++#define NR_MP_XMITFRAME		8
++
++struct mp_xmit_frame {
++	_list	list;
++
++	struct pkt_attrib attrib;
++
++	_pkt *pkt;
++
++	int frame_tag;
++
++	_adapter *padapter;
++
++#ifdef CONFIG_USB_HCI
++
++	/* insert urb, irp, and irpcnt info below... */
++	/* max frag_cnt = 8 */
++
++	u8 *mem_addr;
++	u32 sz[8];
++
++#if defined(PLATFORM_OS_XP) || defined(PLATFORM_LINUX)
++	PURB pxmit_urb[8];
++#endif
++
++#ifdef PLATFORM_OS_XP
++	PIRP pxmit_irp[8];
++#endif
++
++	u8 bpending[8];
++	sint ac_tag[8];
++	sint last[8];
++	uint irpcnt;
++	uint fragcnt;
++#endif /* CONFIG_USB_HCI */
++
++	uint mem[(MAX_MP_XMITBUF_SZ >> 2)];
++};
++
++struct mp_wiparam {
++	u32 bcompleted;
++	u32 act_type;
++	u32 io_offset;
++	u32 io_value;
++};
++
++typedef void(*wi_act_func)(void *padapter);
++
++#ifdef PLATFORM_WINDOWS
++struct mp_wi_cntx {
++	u8 bmpdrv_unload;
++
++	/* Work Item */
++	NDIS_WORK_ITEM mp_wi;
++	NDIS_EVENT mp_wi_evt;
++	_lock mp_wi_lock;
++	u8 bmp_wi_progress;
++	wi_act_func curractfunc;
++	/* Variable needed in each implementation of CurrActFunc. */
++	struct mp_wiparam param;
++};
++#endif
++
++struct mp_tx {
++	u8 stop;
++	u32 count, sended;
++	u8 payload;
++	struct pkt_attrib attrib;
++	/* struct tx_desc desc; */
++	/* u8 resvdtx[7]; */
++	u8 desc[TXDESC_SIZE];
++	u8 *pallocated_buf;
++	u8 *buf;
++	u32 buf_size, write_size;
++	_thread_hdl_ PktTxThread;
++};
++
++#define MP_MAX_LINES		1000
++#define MP_MAX_LINES_BYTES	256
++#define u1Byte u8
++#define s1Byte s8
++#define u4Byte u32
++#define s4Byte s32
++#define u1Byte		u8
++#define pu1Byte		u8*
++
++#define u2Byte		u16
++#define pu2Byte		u16*
++
++#define u4Byte		u32
++#define pu4Byte		u32*
++
++#define u8Byte		u64
++#define pu8Byte		u64*
++
++#define s1Byte		s8
++#define ps1Byte		s8*
++
++#define s2Byte		s16
++#define ps2Byte		s16*
++
++#define s4Byte		s32
++#define ps4Byte		s32*
++
++#define s8Byte		s64
++#define ps8Byte		s64*
++
++#define UCHAR u8
++#define USHORT u16
++#define UINT u32
++#define ULONG u32
++#define PULONG u32*
++
++typedef struct _RT_PMAC_PKT_INFO {
++	UCHAR			MCS;
++	UCHAR			Nss;
++	UCHAR			Nsts;
++	UINT			N_sym;
++	UCHAR			SIGA2B3;
++} RT_PMAC_PKT_INFO, *PRT_PMAC_PKT_INFO;
++
++typedef struct _RT_PMAC_TX_INFO {
++	u8			bEnPMacTx:1;		/* 0: Disable PMac 1: Enable PMac */
++	u8			Mode:3;				/* 0: Packet TX 3:Continuous TX */
++	u8			Ntx:4;				/* 0-7 */
++	u8			TX_RATE;			/* MPT_RATE_E */
++	u8			TX_RATE_HEX;
++	u8			TX_SC;
++	u8			bSGI:1;
++	u8			bSPreamble:1;
++	u8			bSTBC:1;
++	u8			bLDPC:1;
++	u8			NDP_sound:1;
++	u8			BandWidth:3;		/* 0: 20 1:40 2:80Mhz */
++	u8			m_STBC;			/* bSTBC + 1 */
++	USHORT			PacketPeriod;
++	UINT		PacketCount;
++	UINT		PacketLength;
++	u8			PacketPattern;
++	USHORT			SFD;
++	u8			SignalField;
++	u8			ServiceField;
++	USHORT			LENGTH;
++	u8			CRC16[2];
++	u8			LSIG[3];
++	u8			HT_SIG[6];
++	u8			VHT_SIG_A[6];
++	u8			VHT_SIG_B[4];
++	u8			VHT_SIG_B_CRC;
++	u8			VHT_Delimiter[4];
++	u8			MacAddress[6];
++} RT_PMAC_TX_INFO, *PRT_PMAC_TX_INFO;
++
++
++typedef VOID (*MPT_WORK_ITEM_HANDLER)(IN PVOID Adapter);
++typedef struct _MPT_CONTEXT {
++	/* Indicate if we have started Mass Production Test. */
++	BOOLEAN			bMassProdTest;
++
++	/* Indicate if the driver is unloading or unloaded. */
++	BOOLEAN			bMptDrvUnload;
++
++	_sema			MPh2c_Sema;
++	_timer			MPh2c_timeout_timer;
++	/* Event used to sync H2c for BT control */
++
++	BOOLEAN		MptH2cRspEvent;
++	BOOLEAN		MptBtC2hEvent;
++	BOOLEAN		bMPh2c_timeout;
++
++	/* 8190 PCI does not support NDIS_WORK_ITEM. */
++	/* Work Item for Mass Production Test. */
++	/* NDIS_WORK_ITEM	MptWorkItem;
++	*	RT_WORK_ITEM		MptWorkItem; */
++	/* Event used to sync the case unloading driver and MptWorkItem is still in progress.
++	*	NDIS_EVENT		MptWorkItemEvent; */
++	/* To protect the following variables.
++	*	NDIS_SPIN_LOCK		MptWorkItemSpinLock; */
++	/* Indicate a MptWorkItem is scheduled and not yet finished. */
++	BOOLEAN			bMptWorkItemInProgress;
++	/* An instance which implements function and context of MptWorkItem. */
++	MPT_WORK_ITEM_HANDLER	CurrMptAct;
++
++	/* 1=Start, 0=Stop from UI. */
++	ULONG			MptTestStart;
++	/* _TEST_MODE, defined in MPT_Req2.h */
++	ULONG			MptTestItem;
++	/* Variable needed in each implementation of CurrMptAct. */
++	ULONG			MptActType;	/* Type of action performed in CurrMptAct. */
++	/* The Offset of IO operation is depend of MptActType. */
++	ULONG			MptIoOffset;
++	/* The Value of IO operation is depend of MptActType. */
++	ULONG			MptIoValue;
++	/* The RfPath of IO operation is depend of MptActType. */
++	ULONG			MptRfPath;
++
++	WIRELESS_MODE		MptWirelessModeToSw;	/* Wireless mode to switch. */
++	u8			MptChannelToSw;	/* Channel to switch. */
++	u8			MptInitGainToSet;	/* Initial gain to set. */
++	/* ULONG			bMptAntennaA;		 */ /* TRUE if we want to use antenna A. */
++	ULONG			MptBandWidth;		/* bandwidth to switch. */
++	ULONG			MptRateIndex;		/* rate index. */
++	/* Register value kept for Single Carrier Tx test. */
++	u8			btMpCckTxPower;
++	/* Register value kept for Single Carrier Tx test. */
++	u8			btMpOfdmTxPower;
++	/* For MP Tx Power index */
++	u8			TxPwrLevel[4];	/* rf-A, rf-B*/
++	u32			RegTxPwrLimit;
++	/* Content of RCR Regsiter for Mass Production Test. */
++	ULONG			MptRCR;
++	/* TRUE if we only receive packets with specific pattern. */
++	BOOLEAN			bMptFilterPattern;
++	/* Rx OK count, statistics used in Mass Production Test. */
++	ULONG			MptRxOkCnt;
++	/* Rx CRC32 error count, statistics used in Mass Production Test. */
++	ULONG			MptRxCrcErrCnt;
++
++	BOOLEAN			bCckContTx;	/* TRUE if we are in CCK Continuous Tx test. */
++	BOOLEAN			bOfdmContTx;	/* TRUE if we are in OFDM Continuous Tx test. */
++	BOOLEAN			bStartContTx;	/* TRUE if we have start Continuous Tx test. */
++	/* TRUE if we are in Single Carrier Tx test. */
++	BOOLEAN			bSingleCarrier;
++	/* TRUE if we are in Carrier Suppression Tx Test. */
++	BOOLEAN			bCarrierSuppression;
++	/* TRUE if we are in Single Tone Tx test. */
++	BOOLEAN			bSingleTone;
++
++	/* ACK counter asked by K.Y.. */
++	BOOLEAN			bMptEnableAckCounter;
++	ULONG			MptAckCounter;
++
++	/* SD3 Willis For 8192S to save 1T/2T RF table for ACUT	Only fro ACUT delete later ~~~! */
++	/* s1Byte		BufOfLines[2][MAX_LINES_HWCONFIG_TXT][MAX_BYTES_LINE_HWCONFIG_TXT]; */
++	/* s1Byte			BufOfLines[2][MP_MAX_LINES][MP_MAX_LINES_BYTES]; */
++	/* s4Byte			RfReadLine[2]; */
++
++	u8		APK_bound[2];	/* for APK	path A/path B */
++	BOOLEAN		bMptIndexEven;
++
++	u8		backup0xc50;
++	u8		backup0xc58;
++	u8		backup0xc30;
++	u8		backup0x52_RF_A;
++	u8		backup0x52_RF_B;
++
++	u4Byte			backup0x58_RF_A;
++	u4Byte			backup0x58_RF_B;
++
++	u1Byte			h2cReqNum;
++	u1Byte			c2hBuf[32];
++
++	u1Byte          btInBuf[100];
++	ULONG			mptOutLen;
++	u1Byte          mptOutBuf[100];
++	RT_PMAC_TX_INFO	PMacTxInfo;
++	RT_PMAC_PKT_INFO	PMacPktInfo;
++	u8 HWTxmode;
++
++	BOOLEAN			bldpc;
++	BOOLEAN			bstbc;
++} MPT_CONTEXT, *PMPT_CONTEXT;
++/* #endif */
++
++
++/* #define RTPRIV_IOCTL_MP					( SIOCIWFIRSTPRIV + 0x17) */
++enum {
++	WRITE_REG = 1,
++	READ_REG,
++	WRITE_RF,
++	READ_RF,
++	MP_START,
++	MP_STOP,
++	MP_RATE,
++	MP_CHANNEL,
++	MP_BANDWIDTH,
++	MP_TXPOWER,
++	MP_ANT_TX,
++	MP_ANT_RX,
++	MP_CTX,
++	MP_QUERY,
++	MP_ARX,
++	MP_PSD,
++	MP_PWRTRK,
++	MP_THER,
++	MP_IOCTL,
++	EFUSE_GET,
++	EFUSE_SET,
++	MP_RESET_STATS,
++	MP_DUMP,
++	MP_PHYPARA,
++	MP_SetRFPathSwh,
++	MP_QueryDrvStats,
++	CTA_TEST,
++	MP_DISABLE_BT_COEXIST,
++	MP_PwrCtlDM,
++	MP_GETVER,
++	MP_MON,
++	EFUSE_MASK,
++	EFUSE_FILE,
++	MP_TX,
++	MP_RX,
++	MP_IQK,
++	MP_LCK,
++	MP_HW_TX_MODE,
++	MP_GET_TXPOWER_INX,
++	MP_NULL,
++	MP_SetBT,
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++	VENDOR_IE_SET ,
++	VENDOR_IE_GET ,
++#endif
++#ifdef CONFIG_WOWLAN
++	MP_WOW_ENABLE,
++	MP_WOW_SET_PATTERN,
++#endif
++#ifdef CONFIG_AP_WOWLAN
++	MP_AP_WOW_ENABLE,
++#endif
++	MP_SD_IREAD,
++	MP_SD_IWRITE,
++};
++
++struct mp_priv {
++	_adapter *papdater;
++
++	/* Testing Flag */
++	u32 mode;/* 0 for normal type packet, 1 for loopback packet (16bytes TXCMD) */
++
++	u32 prev_fw_state;
++
++	/* OID cmd handler */
++	struct mp_wiparam workparam;
++	/*	u8 act_in_progress; */
++
++	/* Tx Section */
++	u8 TID;
++	u32 tx_pktcount;
++	u32 pktInterval;
++	u32 pktLength;
++	struct mp_tx tx;
++
++	/* Rx Section */
++	u32 rx_bssidpktcount;
++	u32 rx_pktcount;
++	u32 rx_pktcount_filter_out;
++	u32 rx_crcerrpktcount;
++	u32 rx_pktloss;
++	BOOLEAN  rx_bindicatePkt;
++	struct recv_stat rxstat;
++
++	/* RF/BB relative */
++	u8 channel;
++	u8 bandwidth;
++	u8 prime_channel_offset;
++	u8 txpoweridx;
++	u8 rateidx;
++	u32 preamble;
++	/*	u8 modem; */
++	u32 CrystalCap;
++	/*	u32 curr_crystalcap; */
++
++	u16 antenna_tx;
++	u16 antenna_rx;
++	/*	u8 curr_rfpath; */
++
++	u8 check_mp_pkt;
++
++	u8 bSetTxPower;
++	/*	uint ForcedDataRate; */
++	u8 mp_dm;
++	u8 mac_filter[ETH_ALEN];
++	u8 bmac_filter;
++
++	struct wlan_network mp_network;
++	NDIS_802_11_MAC_ADDRESS network_macaddr;
++
++#ifdef PLATFORM_WINDOWS
++	u32 rx_testcnt;
++	u32 rx_testcnt1;
++	u32 rx_testcnt2;
++	u32 tx_testcnt;
++	u32 tx_testcnt1;
++
++	struct mp_wi_cntx wi_cntx;
++
++	u8 h2c_result;
++	u8 h2c_seqnum;
++	u16 h2c_cmdcode;
++	u8 h2c_resp_parambuf[512];
++	_lock h2c_lock;
++	_lock wkitm_lock;
++	u32 h2c_cmdcnt;
++	NDIS_EVENT h2c_cmd_evt;
++	NDIS_EVENT c2h_set;
++	NDIS_EVENT h2c_clr;
++	NDIS_EVENT cpwm_int;
++
++	NDIS_EVENT scsir_full_evt;
++	NDIS_EVENT scsiw_empty_evt;
++#endif
++
++	u8 *pallocated_mp_xmitframe_buf;
++	u8 *pmp_xmtframe_buf;
++	_queue free_mp_xmitqueue;
++	u32 free_mp_xmitframe_cnt;
++	BOOLEAN bSetRxBssid;
++	BOOLEAN bTxBufCkFail;
++	BOOLEAN bRTWSmbCfg;
++	BOOLEAN bloopback;
++	MPT_CONTEXT MptCtx;
++
++	u8		*TXradomBuffer;
++};
++
++typedef struct _IOCMD_STRUCT_ {
++	u8	cmdclass;
++	u16	value;
++	u8	index;
++} IOCMD_STRUCT;
++
++struct rf_reg_param {
++	u32 path;
++	u32 offset;
++	u32 value;
++};
++
++struct bb_reg_param {
++	u32 offset;
++	u32 value;
++};
++
++typedef struct _MP_FIRMWARE {
++	FIRMWARE_SOURCE eFWSource;
++#ifdef CONFIG_EMBEDDED_FWIMG
++	u8		*szFwBuffer;
++#else
++	u8			szFwBuffer[0x8000];
++#endif
++	u32		ulFwLength;
++} RT_MP_FIRMWARE, *PRT_MP_FIRMWARE;
++
++
++
++
++/* *********************************************************************** */
++
++#define LOWER	_TRUE
++#define RAISE	_FALSE
++
++/* Hardware Registers */
++#if 0
++#if 0
++#define IOCMD_CTRL_REG			0x102502C0
++#define IOCMD_DATA_REG			0x102502C4
++#else
++#define IOCMD_CTRL_REG			0x10250370
++#define IOCMD_DATA_REG			0x10250374
++#endif
++
++#define IOCMD_GET_THERMAL_METER		0xFD000028
++
++#define IOCMD_CLASS_BB_RF		0xF0
++#define IOCMD_BB_READ_IDX		0x00
++#define IOCMD_BB_WRITE_IDX		0x01
++#define IOCMD_RF_READ_IDX		0x02
++#define IOCMD_RF_WRIT_IDX		0x03
++#endif
++#define BB_REG_BASE_ADDR		0x800
++
++/* MP variables */
++#if 0
++#define _2MAC_MODE_	0
++#define _LOOPBOOK_MODE_	1
++#endif
++typedef enum _MP_MODE_ {
++	MP_OFF,
++	MP_ON,
++	MP_ERR,
++	MP_CONTINUOUS_TX,
++	MP_SINGLE_CARRIER_TX,
++	MP_CARRIER_SUPPRISSION_TX,
++	MP_SINGLE_TONE_TX,
++	MP_PACKET_TX,
++	MP_PACKET_RX
++} MP_MODE;
++
++typedef enum _TEST_MODE {
++	TEST_NONE                 ,
++	PACKETS_TX                ,
++	PACKETS_RX                ,
++	CONTINUOUS_TX             ,
++	OFDM_Single_Tone_TX       ,
++	CCK_Carrier_Suppression_TX
++} TEST_MODE;
++
++
++typedef enum _MPT_BANDWIDTH {
++	MPT_BW_20MHZ = 0,
++	MPT_BW_40MHZ_DUPLICATE = 1,
++	MPT_BW_40MHZ_ABOVE = 2,
++	MPT_BW_40MHZ_BELOW = 3,
++	MPT_BW_40MHZ = 4,
++	MPT_BW_80MHZ = 5,
++	MPT_BW_80MHZ_20_ABOVE = 6,
++	MPT_BW_80MHZ_20_BELOW = 7,
++	MPT_BW_80MHZ_20_BOTTOM = 8,
++	MPT_BW_80MHZ_20_TOP = 9,
++	MPT_BW_80MHZ_40_ABOVE = 10,
++	MPT_BW_80MHZ_40_BELOW = 11,
++} MPT_BANDWIDTHE, *PMPT_BANDWIDTH;
++
++#define MAX_RF_PATH_NUMS	RF_PATH_MAX
++
++
++extern u8 mpdatarate[NumRates];
++
++/* MP set force data rate base on the definition. */
++typedef enum _MPT_RATE_INDEX {
++	/* CCK rate. */
++	MPT_RATE_1M = 1 ,	/* 0 */
++	MPT_RATE_2M,
++	MPT_RATE_55M,
++	MPT_RATE_11M,	/* 3 */
++
++	/* OFDM rate. */
++	MPT_RATE_6M,	/* 4 */
++	MPT_RATE_9M,
++	MPT_RATE_12M,
++	MPT_RATE_18M,
++	MPT_RATE_24M,
++	MPT_RATE_36M,
++	MPT_RATE_48M,
++	MPT_RATE_54M,	/* 11 */
++
++	/* HT rate. */
++	MPT_RATE_MCS0,	/* 12 */
++	MPT_RATE_MCS1,
++	MPT_RATE_MCS2,
++	MPT_RATE_MCS3,
++	MPT_RATE_MCS4,
++	MPT_RATE_MCS5,
++	MPT_RATE_MCS6,
++	MPT_RATE_MCS7,	/* 19 */
++	MPT_RATE_MCS8,
++	MPT_RATE_MCS9,
++	MPT_RATE_MCS10,
++	MPT_RATE_MCS11,
++	MPT_RATE_MCS12,
++	MPT_RATE_MCS13,
++	MPT_RATE_MCS14,
++	MPT_RATE_MCS15,	/* 27 */
++	MPT_RATE_MCS16,
++	MPT_RATE_MCS17, /*  #29 */
++	MPT_RATE_MCS18,
++	MPT_RATE_MCS19,
++	MPT_RATE_MCS20,
++	MPT_RATE_MCS21,
++	MPT_RATE_MCS22, /*  #34 */
++	MPT_RATE_MCS23,
++	MPT_RATE_MCS24,
++	MPT_RATE_MCS25,
++	MPT_RATE_MCS26,
++	MPT_RATE_MCS27, /*  #39 */
++	MPT_RATE_MCS28, /*  #40 */
++	MPT_RATE_MCS29, /*  #41 */
++	MPT_RATE_MCS30, /*  #42 */
++	MPT_RATE_MCS31, /*  #43 */
++	/* VHT rate. Total: 20*/
++	MPT_RATE_VHT1SS_MCS0 = 100,/*  #44*/
++	MPT_RATE_VHT1SS_MCS1, /*  # */
++	MPT_RATE_VHT1SS_MCS2,
++	MPT_RATE_VHT1SS_MCS3,
++	MPT_RATE_VHT1SS_MCS4,
++	MPT_RATE_VHT1SS_MCS5,
++	MPT_RATE_VHT1SS_MCS6, /*  # */
++	MPT_RATE_VHT1SS_MCS7,
++	MPT_RATE_VHT1SS_MCS8,
++	MPT_RATE_VHT1SS_MCS9, /* #53 */
++	MPT_RATE_VHT2SS_MCS0, /* #54 */
++	MPT_RATE_VHT2SS_MCS1,
++	MPT_RATE_VHT2SS_MCS2,
++	MPT_RATE_VHT2SS_MCS3,
++	MPT_RATE_VHT2SS_MCS4,
++	MPT_RATE_VHT2SS_MCS5,
++	MPT_RATE_VHT2SS_MCS6,
++	MPT_RATE_VHT2SS_MCS7,
++	MPT_RATE_VHT2SS_MCS8,
++	MPT_RATE_VHT2SS_MCS9, /* #63 */
++	MPT_RATE_VHT3SS_MCS0,
++	MPT_RATE_VHT3SS_MCS1,
++	MPT_RATE_VHT3SS_MCS2,
++	MPT_RATE_VHT3SS_MCS3,
++	MPT_RATE_VHT3SS_MCS4,
++	MPT_RATE_VHT3SS_MCS5,
++	MPT_RATE_VHT3SS_MCS6, /*  #126 */
++	MPT_RATE_VHT3SS_MCS7,
++	MPT_RATE_VHT3SS_MCS8,
++	MPT_RATE_VHT3SS_MCS9,
++	MPT_RATE_VHT4SS_MCS0,
++	MPT_RATE_VHT4SS_MCS1, /*  #131 */
++	MPT_RATE_VHT4SS_MCS2,
++	MPT_RATE_VHT4SS_MCS3,
++	MPT_RATE_VHT4SS_MCS4,
++	MPT_RATE_VHT4SS_MCS5,
++	MPT_RATE_VHT4SS_MCS6, /*  #136 */
++	MPT_RATE_VHT4SS_MCS7,
++	MPT_RATE_VHT4SS_MCS8,
++	MPT_RATE_VHT4SS_MCS9,
++	MPT_RATE_LAST
++} MPT_RATE_E, *PMPT_RATE_E;
++
++#define MAX_TX_PWR_INDEX_N_MODE 64	/* 0x3F */
++
++#define MPT_IS_CCK_RATE(_value)		(MPT_RATE_1M <= _value && _value <= MPT_RATE_11M)
++#define MPT_IS_OFDM_RATE(_value)	(MPT_RATE_6M <= _value && _value <= MPT_RATE_54M)
++#define MPT_IS_HT_RATE(_value)		(MPT_RATE_MCS0 <= _value && _value <= MPT_RATE_MCS31)
++#define MPT_IS_HT_1S_RATE(_value)	(MPT_RATE_MCS0 <= _value && _value <= MPT_RATE_MCS7)
++#define MPT_IS_HT_2S_RATE(_value)	(MPT_RATE_MCS8 <= _value && _value <= MPT_RATE_MCS15)
++#define MPT_IS_HT_3S_RATE(_value)	(MPT_RATE_MCS16 <= _value && _value <= MPT_RATE_MCS23)
++#define MPT_IS_HT_4S_RATE(_value)	(MPT_RATE_MCS24 <= _value && _value <= MPT_RATE_MCS31)
++
++#define MPT_IS_VHT_RATE(_value)		(MPT_RATE_VHT1SS_MCS0 <= _value && _value <= MPT_RATE_VHT4SS_MCS9)
++#define MPT_IS_VHT_1S_RATE(_value)	(MPT_RATE_VHT1SS_MCS0 <= _value && _value <= MPT_RATE_VHT1SS_MCS9)
++#define MPT_IS_VHT_2S_RATE(_value)	(MPT_RATE_VHT2SS_MCS0 <= _value && _value <= MPT_RATE_VHT2SS_MCS9)
++#define MPT_IS_VHT_3S_RATE(_value)	(MPT_RATE_VHT3SS_MCS0 <= _value && _value <= MPT_RATE_VHT3SS_MCS9)
++#define MPT_IS_VHT_4S_RATE(_value)	(MPT_RATE_VHT4SS_MCS0 <= _value && _value <= MPT_RATE_VHT4SS_MCS9)
++
++#define MPT_IS_2SS_RATE(_rate) ((MPT_RATE_MCS8 <= _rate && _rate <= MPT_RATE_MCS15) || \
++	(MPT_RATE_VHT2SS_MCS0 <= _rate && _rate <= MPT_RATE_VHT2SS_MCS9))
++#define MPT_IS_3SS_RATE(_rate) ((MPT_RATE_MCS16 <= _rate && _rate <= MPT_RATE_MCS23) || \
++	(MPT_RATE_VHT3SS_MCS0 <= _rate && _rate <= MPT_RATE_VHT3SS_MCS9))
++#define MPT_IS_4SS_RATE(_rate) ((MPT_RATE_MCS24 <= _rate && _rate <= MPT_RATE_MCS31) || \
++	(MPT_RATE_VHT4SS_MCS0 <= _rate && _rate <= MPT_RATE_VHT4SS_MCS9))
++
++typedef enum _POWER_MODE_ {
++	POWER_LOW = 0,
++	POWER_NORMAL
++} POWER_MODE;
++
++/* The following enumeration is used to define the value of Reg0xD00[30:28] or JaguarReg0x914[18:16]. */
++typedef enum _OFDM_TX_MODE {
++	OFDM_ALL_OFF		= 0,
++	OFDM_ContinuousTx	= 1,
++	OFDM_SingleCarrier	= 2,
++	OFDM_SingleTone	= 4,
++} OFDM_TX_MODE;
++
++
++#define RX_PKT_BROADCAST	1
++#define RX_PKT_DEST_ADDR	2
++#define RX_PKT_PHY_MATCH	3
++
++typedef enum _ENCRY_CTRL_STATE_ {
++	HW_CONTROL,		/* hw encryption& decryption */
++	SW_CONTROL,		/* sw encryption& decryption */
++	HW_ENCRY_SW_DECRY,	/* hw encryption & sw decryption */
++	SW_ENCRY_HW_DECRY	/* sw encryption & hw decryption */
++} ENCRY_CTRL_STATE;
++
++typedef enum	_MPT_TXPWR_DEF {
++	MPT_CCK,
++	MPT_OFDM, /* L and HT OFDM */
++	MPT_OFDM_AND_HT,
++	MPT_HT,
++	MPT_VHT
++} MPT_TXPWR_DEF;
++
++
++#define IS_MPT_HT_RATE(_rate)			(_rate >= MPT_RATE_MCS0 && _rate <= MPT_RATE_MCS31)
++#define IS_MPT_VHT_RATE(_rate)			(_rate >= MPT_RATE_VHT1SS_MCS0 && _rate <= MPT_RATE_VHT4SS_MCS9)
++#define IS_MPT_CCK_RATE(_rate)			(_rate >= MPT_RATE_1M && _rate <= MPT_RATE_11M)
++#define IS_MPT_OFDM_RATE(_rate)			(_rate >= MPT_RATE_6M && _rate <= MPT_RATE_54M)
++/*************************************************************************/
++#if 0
++extern struct mp_xmit_frame *alloc_mp_xmitframe(struct mp_priv *pmp_priv);
++extern int free_mp_xmitframe(struct xmit_priv *pxmitpriv, struct mp_xmit_frame *pmp_xmitframe);
++#endif
++
++extern s32 init_mp_priv(PADAPTER padapter);
++extern void free_mp_priv(struct mp_priv *pmp_priv);
++extern s32 MPT_InitializeAdapter(PADAPTER padapter, u8 Channel);
++extern void MPT_DeInitAdapter(PADAPTER padapter);
++extern s32 mp_start_test(PADAPTER padapter);
++extern void mp_stop_test(PADAPTER padapter);
++
++extern u32 _read_rfreg(PADAPTER padapter, u8 rfpath, u32 addr, u32 bitmask);
++extern void _write_rfreg(PADAPTER padapter, u8 rfpath, u32 addr, u32 bitmask, u32 val);
++
++extern u32 read_macreg(_adapter *padapter, u32 addr, u32 sz);
++extern void write_macreg(_adapter *padapter, u32 addr, u32 val, u32 sz);
++extern u32 read_bbreg(_adapter *padapter, u32 addr, u32 bitmask);
++extern void write_bbreg(_adapter *padapter, u32 addr, u32 bitmask, u32 val);
++extern u32 read_rfreg(PADAPTER padapter, u8 rfpath, u32 addr);
++extern void write_rfreg(PADAPTER padapter, u8 rfpath, u32 addr, u32 val);
++
++void	SetChannel(PADAPTER pAdapter);
++void	SetBandwidth(PADAPTER pAdapter);
++int	SetTxPower(PADAPTER pAdapter);
++void	SetAntenna(PADAPTER pAdapter);
++void	SetDataRate(PADAPTER pAdapter);
++void	SetAntenna(PADAPTER pAdapter);
++s32	SetThermalMeter(PADAPTER pAdapter, u8 target_ther);
++void	GetThermalMeter(PADAPTER pAdapter, u8 *value);
++void	SetContinuousTx(PADAPTER pAdapter, u8 bStart);
++void	SetSingleCarrierTx(PADAPTER pAdapter, u8 bStart);
++void	SetSingleToneTx(PADAPTER pAdapter, u8 bStart);
++void	SetCarrierSuppressionTx(PADAPTER pAdapter, u8 bStart);
++void	PhySetTxPowerLevel(PADAPTER pAdapter);
++void	fill_txdesc_for_mp(PADAPTER padapter, u8 *ptxdesc);
++void	SetPacketTx(PADAPTER padapter);
++void	SetPacketRx(PADAPTER pAdapter, u8 bStartRx, u8 bAB);
++void	ResetPhyRxPktCount(PADAPTER pAdapter);
++u32	GetPhyRxPktReceived(PADAPTER pAdapter);
++u32	GetPhyRxPktCRC32Error(PADAPTER pAdapter);
++s32	SetPowerTracking(PADAPTER padapter, u8 enable);
++void	GetPowerTracking(PADAPTER padapter, u8 *enable);
++u32	mp_query_psd(PADAPTER pAdapter, u8 *data);
++void	rtw_mp_trigger_iqk(PADAPTER padapter);
++void	rtw_mp_trigger_lck(PADAPTER padapter);
++
++
++
++void hal_mpt_SwitchRfSetting(PADAPTER pAdapter);
++s32 hal_mpt_SetPowerTracking(PADAPTER padapter, u8 enable);
++void hal_mpt_GetPowerTracking(PADAPTER padapter, u8 *enable);
++void hal_mpt_CCKTxPowerAdjust(PADAPTER Adapter, BOOLEAN bInCH14);
++void hal_mpt_SetChannel(PADAPTER pAdapter);
++void hal_mpt_SetBandwidth(PADAPTER pAdapter);
++void hal_mpt_SetTxPower(PADAPTER pAdapter);
++void hal_mpt_SetDataRate(PADAPTER pAdapter);
++void hal_mpt_SetAntenna(PADAPTER pAdapter);
++s32 hal_mpt_SetThermalMeter(PADAPTER pAdapter, u8 target_ther);
++void hal_mpt_TriggerRFThermalMeter(PADAPTER pAdapter);
++u8 hal_mpt_ReadRFThermalMeter(PADAPTER pAdapter);
++void hal_mpt_GetThermalMeter(PADAPTER pAdapter, u8 *value);
++void hal_mpt_CCKTxPowerAdjustbyIndex(PADAPTER pAdapter, BOOLEAN beven);
++void hal_mpt_SetContinuousTx(PADAPTER pAdapter, u8 bStart);
++void hal_mpt_SetSingleCarrierTx(PADAPTER pAdapter, u8 bStart);
++void hal_mpt_SetSingleToneTx(PADAPTER pAdapter, u8 bStart);
++void hal_mpt_SetCarrierSuppressionTx(PADAPTER pAdapter, u8 bStart);
++void hal_mpt_SetCCKContinuousTx(PADAPTER pAdapter, u8 bStart);
++void hal_mpt_SetOFDMContinuousTx(PADAPTER pAdapter, u8 bStart);
++void mpt_ProSetPMacTx(PADAPTER	Adapter);
++
++void MP_PHY_SetRFPathSwitch(PADAPTER pAdapter , BOOLEAN bMain);
++ULONG mpt_ProQueryCalTxPower(PADAPTER	pAdapter, u8 RfPath);
++void MPT_PwrCtlDM(PADAPTER padapter, u32 bstart);
++u8 MptToMgntRate(u32	MptRateIdx);
++u8 rtw_mpRateParseFunc(PADAPTER pAdapter, u8 *targetStr);
++u32 mp_join(PADAPTER padapter, u8 mode);
++u32 hal_mpt_query_phytxok(PADAPTER	pAdapter);
++
++void
++PMAC_Get_Pkt_Param(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo
++);
++void
++CCK_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo
++);
++void
++PMAC_Nsym_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo
++);
++void
++L_SIG_generator(
++	UINT	N_SYM,		/* Max: 750*/
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo
++);
++
++void HT_SIG_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo);
++
++void VHT_SIG_A_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo,
++	PRT_PMAC_PKT_INFO	pPMacPktInfo);
++
++void VHT_SIG_B_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo);
++
++void VHT_Delimiter_generator(
++	PRT_PMAC_TX_INFO	pPMacTxInfo);
++
++
++int rtw_mp_write_reg(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_read_reg(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_write_rf(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_read_rf(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_start(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_stop(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_rate(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_channel(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_bandwidth(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_txpower_index(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_txpower(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_txpower(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_ant_tx(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_ant_rx(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_set_ctx_destAddr(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_ctx(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_disable_bt_coexist(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_mp_disable_bt_coexist(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_mp_arx(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_trx_query(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_pwrtrk(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_psd(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_thermal(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_reset_stats(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_dump(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_phypara(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_SetRFPath(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_mp_QueryDrv(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_mp_PwrCtlDM(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra);
++int rtw_mp_getver(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_mp_mon(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_efuse_mask_file(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_efuse_file_map(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_mp_SetBT(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_mp_pretx_proc(PADAPTER padapter, u8 bStartTest, char *extra);
++int rtw_mp_tx(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_mp_rx(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++int rtw_mp_hwtx(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra);
++u8 HwRateToMPTRate(u8 rate);
++int rtw_mp_iqk(struct net_device *dev,
++		 struct iw_request_info *info,
++		 struct iw_point *wrqu, char *extra);
++int rtw_mp_lck(struct net_device *dev, 
++		struct iw_request_info *info, 
++		struct iw_point *wrqu, char *extra);
++#endif /* _RTW_MP_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_mp_ioctl.h b/drivers/net/wireless/rtl8812au/include/rtw_mp_ioctl.h
+new file mode 100644
+index 0000000..e6a9a23
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_mp_ioctl.h
+@@ -0,0 +1,575 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_MP_IOCTL_H_
++#define _RTW_MP_IOCTL_H_
++
++#include <mp_custom_oid.h>
++#include <rtw_mp.h>
++
++#if 0
++#define TESTFWCMDNUMBER			1000000
++#define TEST_H2CINT_WAIT_TIME		500
++#define TEST_C2HINT_WAIT_TIME		500
++#define HCI_TEST_SYSCFG_HWMASK		1
++#define _BUSCLK_40M			(4 << 2)
++#endif
++/* ------------------------------------------------------------------------------ */
++typedef struct CFG_DBG_MSG_STRUCT {
++	u32 DebugLevel;
++	u32 DebugComponent_H32;
++	u32 DebugComponent_L32;
++} CFG_DBG_MSG_STRUCT, *PCFG_DBG_MSG_STRUCT;
++
++typedef struct _RW_REG {
++	u32 offset;
++	u32 width;
++	u32 value;
++} mp_rw_reg, RW_Reg, *pRW_Reg;
++
++/* for OID_RT_PRO_READ16_EEPROM & OID_RT_PRO_WRITE16_EEPROM */
++typedef struct _EEPROM_RW_PARAM {
++	u32 offset;
++	u16 value;
++} eeprom_rw_param, EEPROM_RWParam, *pEEPROM_RWParam;
++
++typedef struct _EFUSE_ACCESS_STRUCT_ {
++	u16	start_addr;
++	u16	cnts;
++	u8	data[0];
++} EFUSE_ACCESS_STRUCT, *PEFUSE_ACCESS_STRUCT;
++
++typedef struct _BURST_RW_REG {
++	u32 offset;
++	u32 len;
++	u8 Data[256];
++} burst_rw_reg, Burst_RW_Reg, *pBurst_RW_Reg;
++
++typedef struct _USB_VendorReq {
++	u8	bRequest;
++	u16	wValue;
++	u16	wIndex;
++	u16	wLength;
++	u8	u8Dir;/* 0:OUT, 1:IN */
++	u8	u8InData;
++} usb_vendor_req, USB_VendorReq, *pUSB_VendorReq;
++
++typedef struct _DR_VARIABLE_STRUCT_ {
++	u8 offset;
++	u32 variable;
++} DR_VARIABLE_STRUCT;
++
++/* int mp_start_joinbss(_adapter *padapter, NDIS_802_11_SSID *pssid); */
++
++/* void _irqlevel_changed_(_irqL *irqlevel, BOOLEANunsigned char bLower); */
++#ifdef PLATFORM_OS_XP
++static void _irqlevel_changed_(_irqL *irqlevel, u8 bLower)
++{
++
++	if (bLower == LOWER) {
++		*irqlevel = KeGetCurrentIrql();
++
++		if (*irqlevel > PASSIVE_LEVEL)
++			KeLowerIrql(PASSIVE_LEVEL);
++	} else {
++		if (KeGetCurrentIrql() == PASSIVE_LEVEL)
++			KeRaiseIrql(DISPATCH_LEVEL, irqlevel);
++	}
++
++}
++#else
++#define _irqlevel_changed_(a, b)
++#endif
++
++/* oid_rtl_seg_81_80_00 */
++NDIS_STATUS oid_rt_pro_set_data_rate_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_start_test_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_stop_test_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_channel_direct_call_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_antenna_bb_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_tx_power_control_hdl(struct oid_par_priv *poid_par_priv);
++/* oid_rtl_seg_81_80_20 */
++NDIS_STATUS oid_rt_pro_query_tx_packet_sent_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_query_rx_packet_received_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_query_rx_packet_crc32_error_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_reset_tx_packet_sent_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_reset_rx_packet_received_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_modulation_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_set_continuous_tx_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_single_carrier_tx_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_carrier_suppression_tx_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_single_tone_tx_hdl(struct oid_par_priv *poid_par_priv);
++
++
++/* oid_rtl_seg_81_87 */
++NDIS_STATUS oid_rt_pro_write_bb_reg_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_read_bb_reg_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_write_rf_reg_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_read_rf_reg_hdl(struct oid_par_priv *poid_par_priv);
++
++
++/* oid_rtl_seg_81_85 */
++NDIS_STATUS oid_rt_wireless_mode_hdl(struct oid_par_priv *poid_par_priv);
++
++
++/* oid_rtl_seg_87_11_00 */
++NDIS_STATUS oid_rt_pro8711_join_bss_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_read_register_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_write_register_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_burst_read_register_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_burst_write_register_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_write_txcmd_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_read16_eeprom_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_write16_eeprom_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro8711_wi_poll_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro8711_pkt_loss_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_rd_attrib_mem_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_wr_attrib_mem_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS  oid_rt_pro_set_rf_intfs_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_poll_rx_status_hdl(struct oid_par_priv *poid_par_priv);
++/* oid_rtl_seg_87_11_20 */
++NDIS_STATUS oid_rt_pro_cfg_debug_message_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_data_rate_ex_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_basic_rate_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_read_tssi_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_power_tracking_hdl(struct oid_par_priv *poid_par_priv);
++/* oid_rtl_seg_87_11_50 */
++NDIS_STATUS oid_rt_pro_qry_pwrstate_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_pwrstate_hdl(struct oid_par_priv *poid_par_priv);
++/* oid_rtl_seg_87_11_F0 */
++NDIS_STATUS oid_rt_pro_h2c_set_rate_table_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_h2c_get_rate_table_hdl(struct oid_par_priv *poid_par_priv);
++
++
++/* oid_rtl_seg_87_12_00 */
++NDIS_STATUS oid_rt_pro_encryption_ctrl_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_add_sta_info_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_dele_sta_info_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_query_dr_variable_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_rx_packet_type_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_read_efuse_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_write_efuse_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_rw_efuse_pgpkt_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_efuse_current_size_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_efuse_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_efuse_map_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_set_bandwidth_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_set_crystal_cap_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_set_rx_packet_type_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_efuse_max_size_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_pro_set_tx_agc_offset_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_set_pkt_test_mode_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_get_thermal_meter_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_reset_phy_rx_packet_count_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_phy_rx_packet_received_hdl(struct oid_par_priv *poid_par_priv);
++NDIS_STATUS oid_rt_get_phy_rx_packet_crc32_error_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_set_power_down_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_get_power_mode_hdl(struct oid_par_priv *poid_par_priv);
++
++NDIS_STATUS oid_rt_pro_trigger_gpio_hdl(struct oid_par_priv *poid_par_priv);
++
++#ifdef _RTW_MP_IOCTL_C_
++
++const struct oid_obj_priv oid_rtl_seg_81_80_00[] = {
++	{1, &oid_null_function},			/* 0x00	OID_RT_PRO_RESET_DUT */
++	{1, &oid_rt_pro_set_data_rate_hdl},		/* 0x01 */
++	{1, &oid_rt_pro_start_test_hdl},		/* 0x02 */
++	{1, &oid_rt_pro_stop_test_hdl},			/* 0x03 */
++	{1, &oid_null_function},			/* 0x04	OID_RT_PRO_SET_PREAMBLE */
++	{1, &oid_null_function},			/* 0x05	OID_RT_PRO_SET_SCRAMBLER */
++	{1, &oid_null_function},			/* 0x06	OID_RT_PRO_SET_FILTER_BB */
++	{1, &oid_null_function},			/* 0x07	OID_RT_PRO_SET_MANUAL_DIVERSITY_BB */
++	{1, &oid_rt_pro_set_channel_direct_call_hdl},	/* 0x08 */
++	{1, &oid_null_function},			/* 0x09	OID_RT_PRO_SET_SLEEP_MODE_DIRECT_CALL */
++	{1, &oid_null_function},			/* 0x0A	OID_RT_PRO_SET_WAKE_MODE_DIRECT_CALL */
++	{1, &oid_rt_pro_set_continuous_tx_hdl},		/* 0x0B	OID_RT_PRO_SET_TX_CONTINUOUS_DIRECT_CALL */
++	{1, &oid_rt_pro_set_single_carrier_tx_hdl},	/* 0x0C	OID_RT_PRO_SET_SINGLE_CARRIER_TX_CONTINUOUS */
++	{1, &oid_null_function},			/* 0x0D	OID_RT_PRO_SET_TX_ANTENNA_BB */
++	{1, &oid_rt_pro_set_antenna_bb_hdl},		/* 0x0E */
++	{1, &oid_null_function},			/* 0x0F	OID_RT_PRO_SET_CR_SCRAMBLER */
++	{1, &oid_null_function},			/* 0x10	OID_RT_PRO_SET_CR_NEW_FILTER */
++	{1, &oid_rt_pro_set_tx_power_control_hdl},	/* 0x11	OID_RT_PRO_SET_TX_POWER_CONTROL */
++	{1, &oid_null_function},			/* 0x12	OID_RT_PRO_SET_CR_TX_CONFIG */
++	{1, &oid_null_function},			/* 0x13	OID_RT_PRO_GET_TX_POWER_CONTROL */
++	{1, &oid_null_function},			/* 0x14	OID_RT_PRO_GET_CR_SIGNAL_QUALITY */
++	{1, &oid_null_function},			/* 0x15	OID_RT_PRO_SET_CR_SETPOINT */
++	{1, &oid_null_function},			/* 0x16	OID_RT_PRO_SET_INTEGRATOR */
++	{1, &oid_null_function},			/* 0x17	OID_RT_PRO_SET_SIGNAL_QUALITY */
++	{1, &oid_null_function},			/* 0x18	OID_RT_PRO_GET_INTEGRATOR */
++	{1, &oid_null_function},			/* 0x19	OID_RT_PRO_GET_SIGNAL_QUALITY */
++	{1, &oid_null_function},			/* 0x1A	OID_RT_PRO_QUERY_EEPROM_TYPE */
++	{1, &oid_null_function},			/* 0x1B	OID_RT_PRO_WRITE_MAC_ADDRESS */
++	{1, &oid_null_function},			/* 0x1C	OID_RT_PRO_READ_MAC_ADDRESS */
++	{1, &oid_null_function},			/* 0x1D	OID_RT_PRO_WRITE_CIS_DATA */
++	{1, &oid_null_function},			/* 0x1E	OID_RT_PRO_READ_CIS_DATA */
++	{1, &oid_null_function}				/* 0x1F	OID_RT_PRO_WRITE_POWER_CONTROL */
++
++};
++
++const struct oid_obj_priv oid_rtl_seg_81_80_20[] = {
++	{1, &oid_null_function},			/* 0x20	OID_RT_PRO_READ_POWER_CONTROL */
++	{1, &oid_null_function},			/* 0x21	OID_RT_PRO_WRITE_EEPROM */
++	{1, &oid_null_function},			/* 0x22	OID_RT_PRO_READ_EEPROM */
++	{1, &oid_rt_pro_reset_tx_packet_sent_hdl},	/* 0x23 */
++	{1, &oid_rt_pro_query_tx_packet_sent_hdl},	/* 0x24 */
++	{1, &oid_rt_pro_reset_rx_packet_received_hdl},	/* 0x25 */
++	{1, &oid_rt_pro_query_rx_packet_received_hdl},	/* 0x26 */
++	{1, &oid_rt_pro_query_rx_packet_crc32_error_hdl},	/* 0x27 */
++	{1, &oid_null_function},			/* 0x28	OID_RT_PRO_QUERY_CURRENT_ADDRESS */
++	{1, &oid_null_function},			/* 0x29	OID_RT_PRO_QUERY_PERMANENT_ADDRESS */
++	{1, &oid_null_function},			/* 0x2A	OID_RT_PRO_SET_PHILIPS_RF_PARAMETERS */
++	{1, &oid_rt_pro_set_carrier_suppression_tx_hdl},/* 0x2B	OID_RT_PRO_SET_CARRIER_SUPPRESSION_TX */
++	{1, &oid_null_function},			/* 0x2C	OID_RT_PRO_RECEIVE_PACKET */
++	{1, &oid_null_function},			/* 0x2D	OID_RT_PRO_WRITE_EEPROM_BYTE */
++	{1, &oid_null_function},			/* 0x2E	OID_RT_PRO_READ_EEPROM_BYTE */
++	{1, &oid_rt_pro_set_modulation_hdl}		/* 0x2F */
++
++};
++
++const struct oid_obj_priv oid_rtl_seg_81_80_40[] = {
++	{1, &oid_null_function},			/* 0x40 */
++	{1, &oid_null_function},			/* 0x41 */
++	{1, &oid_null_function},			/* 0x42 */
++	{1, &oid_rt_pro_set_single_tone_tx_hdl},	/* 0x43 */
++	{1, &oid_null_function},			/* 0x44 */
++	{1, &oid_null_function}				/* 0x45 */
++};
++
++const struct oid_obj_priv oid_rtl_seg_81_80_80[] = {
++	{1, &oid_null_function},			/* 0x80	OID_RT_DRIVER_OPTION */
++	{1, &oid_null_function},			/* 0x81	OID_RT_RF_OFF */
++	{1, &oid_null_function}				/* 0x82	OID_RT_AUTH_STATUS */
++
++};
++
++const struct oid_obj_priv oid_rtl_seg_81_85[] = {
++	{1, &oid_rt_wireless_mode_hdl}			/* 0x00	OID_RT_WIRELESS_MODE */
++};
++
++struct oid_obj_priv oid_rtl_seg_81_87[] = {
++	{1, &oid_null_function},			/* 0x80	OID_RT_PRO8187_WI_POLL */
++	{1, &oid_rt_pro_write_bb_reg_hdl},		/* 0x81 */
++	{1, &oid_rt_pro_read_bb_reg_hdl},		/* 0x82 */
++	{1, &oid_rt_pro_write_rf_reg_hdl},		/* 0x82 */
++	{1, &oid_rt_pro_read_rf_reg_hdl}		/* 0x83 */
++};
++
++struct oid_obj_priv oid_rtl_seg_87_11_00[] = {
++	{1, &oid_rt_pro8711_join_bss_hdl},		/* 0x00  */ /* S */
++	{1, &oid_rt_pro_read_register_hdl},		/* 0x01 */
++	{1, &oid_rt_pro_write_register_hdl},		/* 0x02 */
++	{1, &oid_rt_pro_burst_read_register_hdl},	/* 0x03 */
++	{1, &oid_rt_pro_burst_write_register_hdl},	/* 0x04 */
++	{1, &oid_rt_pro_write_txcmd_hdl},		/* 0x05 */
++	{1, &oid_rt_pro_read16_eeprom_hdl},		/* 0x06 */
++	{1, &oid_rt_pro_write16_eeprom_hdl},		/* 0x07 */
++	{1, &oid_null_function},			/* 0x08	OID_RT_PRO_H2C_SET_COMMAND */
++	{1, &oid_null_function},			/* 0x09	OID_RT_PRO_H2C_QUERY_RESULT */
++	{1, &oid_rt_pro8711_wi_poll_hdl},		/* 0x0A */
++	{1, &oid_rt_pro8711_pkt_loss_hdl},		/* 0x0B */
++	{1, &oid_rt_rd_attrib_mem_hdl},			/* 0x0C */
++	{1, &oid_rt_wr_attrib_mem_hdl},			/* 0x0D */
++	{1, &oid_null_function},			/* 0x0E */
++	{1, &oid_null_function},			/* 0x0F */
++	{1, &oid_null_function},			/* 0x10	OID_RT_PRO_H2C_CMD_MODE */
++	{1, &oid_null_function},			/* 0x11	OID_RT_PRO_H2C_CMD_RSP_MODE */
++	{1, &oid_null_function},			/* 0X12	OID_RT_PRO_WAIT_C2H_EVENT */
++	{1, &oid_null_function},			/* 0X13	OID_RT_PRO_RW_ACCESS_PROTOCOL_TEST */
++	{1, &oid_null_function},			/* 0X14	OID_RT_PRO_SCSI_ACCESS_TEST */
++	{1, &oid_null_function},			/* 0X15	OID_RT_PRO_SCSI_TCPIPOFFLOAD_OUT */
++	{1, &oid_null_function},			/* 0X16	OID_RT_PRO_SCSI_TCPIPOFFLOAD_IN */
++	{1, &oid_null_function},			/* 0X17	OID_RT_RRO_RX_PKT_VIA_IOCTRL */
++	{1, &oid_null_function},			/* 0X18	OID_RT_RRO_RX_PKTARRAY_VIA_IOCTRL */
++	{1, &oid_null_function},			/* 0X19	OID_RT_RPO_SET_PWRMGT_TEST */
++	{1, &oid_null_function},			/* 0X1A */
++	{1, &oid_null_function},			/* 0X1B	OID_RT_PRO_QRY_PWRMGT_TEST */
++	{1, &oid_null_function},			/* 0X1C	OID_RT_RPO_ASYNC_RWIO_TEST */
++	{1, &oid_null_function},			/* 0X1D	OID_RT_RPO_ASYNC_RWIO_POLL */
++	{1, &oid_rt_pro_set_rf_intfs_hdl},		/* 0X1E */
++	{1, &oid_rt_poll_rx_status_hdl}			/* 0X1F */
++};
++
++struct oid_obj_priv oid_rtl_seg_87_11_20[] = {
++	{1, &oid_rt_pro_cfg_debug_message_hdl},		/* 0x20 */
++	{1, &oid_rt_pro_set_data_rate_ex_hdl},		/* 0x21 */
++	{1, &oid_rt_pro_set_basic_rate_hdl},		/* 0x22 */
++	{1, &oid_rt_pro_read_tssi_hdl},			/* 0x23 */
++	{1, &oid_rt_pro_set_power_tracking_hdl}		/* 0x24 */
++};
++
++
++struct oid_obj_priv oid_rtl_seg_87_11_50[] = {
++	{1, &oid_rt_pro_qry_pwrstate_hdl},		/* 0x50 */
++	{1, &oid_rt_pro_set_pwrstate_hdl}		/* 0x51 */
++};
++
++struct oid_obj_priv oid_rtl_seg_87_11_80[] = {
++	{1, &oid_null_function}				/* 0x80 */
++};
++
++struct oid_obj_priv oid_rtl_seg_87_11_B0[] = {
++	{1, &oid_null_function}				/* 0xB0 */
++};
++
++struct oid_obj_priv oid_rtl_seg_87_11_F0[] = {
++	{1, &oid_null_function},			/* 0xF0 */
++	{1, &oid_null_function},			/* 0xF1 */
++	{1, &oid_null_function},			/* 0xF2 */
++	{1, &oid_null_function},			/* 0xF3 */
++	{1, &oid_null_function},			/* 0xF4 */
++	{1, &oid_null_function},			/* 0xF5 */
++	{1, &oid_null_function},			/* 0xF6 */
++	{1, &oid_null_function},			/* 0xF7 */
++	{1, &oid_null_function},			/* 0xF8 */
++	{1, &oid_null_function},			/* 0xF9 */
++	{1, &oid_null_function},			/* 0xFA */
++	{1, &oid_rt_pro_h2c_set_rate_table_hdl},	/* 0xFB */
++	{1, &oid_rt_pro_h2c_get_rate_table_hdl},	/* 0xFC */
++	{1, &oid_null_function},			/* 0xFD */
++	{1, &oid_null_function},			/* 0xFE	OID_RT_PRO_H2C_C2H_LBK_TEST */
++	{1, &oid_null_function}				/* 0xFF */
++
++};
++
++struct oid_obj_priv oid_rtl_seg_87_12_00[] = {
++	{1, &oid_rt_pro_encryption_ctrl_hdl},		/* 0x00	Q&S */
++	{1, &oid_rt_pro_add_sta_info_hdl},		/* 0x01	S */
++	{1, &oid_rt_pro_dele_sta_info_hdl},		/* 0x02	S */
++	{1, &oid_rt_pro_query_dr_variable_hdl},		/* 0x03	Q */
++	{1, &oid_rt_pro_rx_packet_type_hdl},		/* 0x04	Q,S */
++	{1, &oid_rt_pro_read_efuse_hdl},		/* 0x05	Q	OID_RT_PRO_READ_EFUSE */
++	{1, &oid_rt_pro_write_efuse_hdl},		/* 0x06	S	OID_RT_PRO_WRITE_EFUSE */
++	{1, &oid_rt_pro_rw_efuse_pgpkt_hdl},		/* 0x07	Q,S */
++	{1, &oid_rt_get_efuse_current_size_hdl},	/* 0x08 	Q */
++	{1, &oid_rt_set_bandwidth_hdl},			/* 0x09 */
++	{1, &oid_rt_set_crystal_cap_hdl},		/* 0x0a */
++	{1, &oid_rt_set_rx_packet_type_hdl},		/* 0x0b	S */
++	{1, &oid_rt_get_efuse_max_size_hdl},		/* 0x0c */
++	{1, &oid_rt_pro_set_tx_agc_offset_hdl},		/* 0x0d */
++	{1, &oid_rt_pro_set_pkt_test_mode_hdl},		/* 0x0e */
++	{1, &oid_null_function},			/* 0x0f		OID_RT_PRO_FOR_EVM_TEST_SETTING */
++	{1, &oid_rt_get_thermal_meter_hdl},		/* 0x10	Q	OID_RT_PRO_GET_THERMAL_METER */
++	{1, &oid_rt_reset_phy_rx_packet_count_hdl},	/* 0x11	S	OID_RT_RESET_PHY_RX_PACKET_COUNT */
++	{1, &oid_rt_get_phy_rx_packet_received_hdl},	/* 0x12	Q	OID_RT_GET_PHY_RX_PACKET_RECEIVED */
++	{1, &oid_rt_get_phy_rx_packet_crc32_error_hdl},	/* 0x13	Q	OID_RT_GET_PHY_RX_PACKET_CRC32_ERROR */
++	{1, &oid_rt_set_power_down_hdl},		/* 0x14	Q	OID_RT_SET_POWER_DOWN */
++	{1, &oid_rt_get_power_mode_hdl}			/* 0x15	Q	OID_RT_GET_POWER_MODE */
++};
++
++#else /* _RTL871X_MP_IOCTL_C_ */
++
++extern struct oid_obj_priv oid_rtl_seg_81_80_00[32];
++extern struct oid_obj_priv oid_rtl_seg_81_80_20[16];
++extern struct oid_obj_priv oid_rtl_seg_81_80_40[6];
++extern struct oid_obj_priv oid_rtl_seg_81_80_80[3];
++
++extern struct oid_obj_priv oid_rtl_seg_81_85[1];
++extern struct oid_obj_priv oid_rtl_seg_81_87[5];
++
++extern struct oid_obj_priv oid_rtl_seg_87_11_00[32];
++extern struct oid_obj_priv oid_rtl_seg_87_11_20[5];
++extern struct oid_obj_priv oid_rtl_seg_87_11_50[2];
++extern struct oid_obj_priv oid_rtl_seg_87_11_80[1];
++extern struct oid_obj_priv oid_rtl_seg_87_11_B0[1];
++extern struct oid_obj_priv oid_rtl_seg_87_11_F0[16];
++
++extern struct oid_obj_priv oid_rtl_seg_87_12_00[32];
++
++#endif /* _RTL871X_MP_IOCTL_C_ */
++
++struct rwreg_param {
++	u32 offset;
++	u32 width;
++	u32 value;
++};
++
++struct bbreg_param {
++	u32 offset;
++	u32 phymask;
++	u32 value;
++};
++/*
++struct rfchannel_param{
++	u32 ch;
++	u32 modem;
++};
++*/
++struct txpower_param {
++	u32 pwr_index;
++};
++
++
++struct datarate_param {
++	u32 rate_index;
++};
++
++
++struct rfintfs_parm {
++	u32 rfintfs;
++};
++
++typedef struct _mp_xmit_parm_ {
++	u8 enable;
++	u32 count;
++	u16 length;
++	u8 payload_type;
++	u8 da[ETH_ALEN];
++} MP_XMIT_PARM, *PMP_XMIT_PARM;
++
++struct mp_xmit_packet {
++	u32 len;
++	u32 mem[MAX_MP_XMITBUF_SZ >> 2];
++};
++
++struct psmode_param {
++	u32 ps_mode;
++	u32 smart_ps;
++};
++
++/* for OID_RT_PRO_READ16_EEPROM & OID_RT_PRO_WRITE16_EEPROM */
++struct eeprom_rw_param {
++	u32 offset;
++	u16 value;
++};
++
++struct mp_ioctl_handler {
++	u32 paramsize;
++	u32(*handler)(struct oid_par_priv *poid_par_priv);
++	u32 oid;
++};
++
++struct mp_ioctl_param {
++	u32 subcode;
++	u32 len;
++	u8 data[0];
++};
++
++#define GEN_MP_IOCTL_SUBCODE(code) _MP_IOCTL_ ## code ## _CMD_
++
++enum RTL871X_MP_IOCTL_SUBCODE {
++	GEN_MP_IOCTL_SUBCODE(MP_START),			/*0*/
++	GEN_MP_IOCTL_SUBCODE(MP_STOP),
++	GEN_MP_IOCTL_SUBCODE(READ_REG),
++	GEN_MP_IOCTL_SUBCODE(WRITE_REG),
++	GEN_MP_IOCTL_SUBCODE(READ_BB_REG),
++	GEN_MP_IOCTL_SUBCODE(WRITE_BB_REG),		/*5*/
++	GEN_MP_IOCTL_SUBCODE(READ_RF_REG),
++	GEN_MP_IOCTL_SUBCODE(WRITE_RF_REG),
++	GEN_MP_IOCTL_SUBCODE(SET_CHANNEL),
++	GEN_MP_IOCTL_SUBCODE(SET_TXPOWER),
++	GEN_MP_IOCTL_SUBCODE(SET_DATARATE),		/*10*/
++	GEN_MP_IOCTL_SUBCODE(SET_BANDWIDTH),
++	GEN_MP_IOCTL_SUBCODE(SET_ANTENNA),
++	GEN_MP_IOCTL_SUBCODE(CNTU_TX),
++	GEN_MP_IOCTL_SUBCODE(SC_TX),
++	GEN_MP_IOCTL_SUBCODE(CS_TX),			/*15*/
++	GEN_MP_IOCTL_SUBCODE(ST_TX),
++	GEN_MP_IOCTL_SUBCODE(IOCTL_XMIT_PACKET),
++	GEN_MP_IOCTL_SUBCODE(SET_RX_PKT_TYPE),
++	GEN_MP_IOCTL_SUBCODE(RESET_PHY_RX_PKT_CNT),
++	GEN_MP_IOCTL_SUBCODE(GET_PHY_RX_PKT_RECV),	/*20*/
++	GEN_MP_IOCTL_SUBCODE(GET_PHY_RX_PKT_ERROR),
++	GEN_MP_IOCTL_SUBCODE(READ16_EEPROM),
++	GEN_MP_IOCTL_SUBCODE(WRITE16_EEPROM),
++	GEN_MP_IOCTL_SUBCODE(EFUSE),
++	GEN_MP_IOCTL_SUBCODE(EFUSE_MAP),		/*25*/
++	GEN_MP_IOCTL_SUBCODE(GET_EFUSE_MAX_SIZE),
++	GEN_MP_IOCTL_SUBCODE(GET_EFUSE_CURRENT_SIZE),
++	GEN_MP_IOCTL_SUBCODE(GET_THERMAL_METER),
++	GEN_MP_IOCTL_SUBCODE(SET_PTM),
++	GEN_MP_IOCTL_SUBCODE(SET_POWER_DOWN),		/*30*/
++	GEN_MP_IOCTL_SUBCODE(TRIGGER_GPIO),
++	GEN_MP_IOCTL_SUBCODE(SET_DM_BT),		/*32*/
++	GEN_MP_IOCTL_SUBCODE(DEL_BA),			/*33*/
++	GEN_MP_IOCTL_SUBCODE(GET_WIFI_STATUS),	/*34*/
++	MAX_MP_IOCTL_SUBCODE,
++};
++
++u32 mp_ioctl_xmit_packet_hdl(struct oid_par_priv *poid_par_priv);
++
++#ifdef _RTW_MP_IOCTL_C_
++
++#define GEN_MP_IOCTL_HANDLER(sz, hdl, oid) {sz, hdl, oid},
++
++#define EXT_MP_IOCTL_HANDLER(sz, subcode, oid) {sz, mp_ioctl_ ## subcode ## _hdl, oid},
++
++
++struct mp_ioctl_handler mp_ioctl_hdl[] = {
++
++	/*0*/	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_start_test_hdl, OID_RT_PRO_START_TEST)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_stop_test_hdl, OID_RT_PRO_STOP_TEST)
++
++	GEN_MP_IOCTL_HANDLER(sizeof(struct rwreg_param), oid_rt_pro_read_register_hdl, OID_RT_PRO_READ_REGISTER)
++	GEN_MP_IOCTL_HANDLER(sizeof(struct rwreg_param), oid_rt_pro_write_register_hdl, OID_RT_PRO_WRITE_REGISTER)
++	GEN_MP_IOCTL_HANDLER(sizeof(struct bb_reg_param), oid_rt_pro_read_bb_reg_hdl, OID_RT_PRO_READ_BB_REG)
++	/*5*/	GEN_MP_IOCTL_HANDLER(sizeof(struct bb_reg_param), oid_rt_pro_write_bb_reg_hdl, OID_RT_PRO_WRITE_BB_REG)
++	GEN_MP_IOCTL_HANDLER(sizeof(struct rf_reg_param), oid_rt_pro_read_rf_reg_hdl, OID_RT_PRO_RF_READ_REGISTRY)
++	GEN_MP_IOCTL_HANDLER(sizeof(struct rf_reg_param), oid_rt_pro_write_rf_reg_hdl, OID_RT_PRO_RF_WRITE_REGISTRY)
++
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_channel_direct_call_hdl, OID_RT_PRO_SET_CHANNEL_DIRECT_CALL)
++	GEN_MP_IOCTL_HANDLER(sizeof(struct txpower_param), oid_rt_pro_set_tx_power_control_hdl, OID_RT_PRO_SET_TX_POWER_CONTROL)
++	/*10*/	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_data_rate_hdl, OID_RT_PRO_SET_DATA_RATE)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_set_bandwidth_hdl, OID_RT_SET_BANDWIDTH)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_antenna_bb_hdl, OID_RT_PRO_SET_ANTENNA_BB)
++
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_continuous_tx_hdl, OID_RT_PRO_SET_CONTINUOUS_TX)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_single_carrier_tx_hdl, OID_RT_PRO_SET_SINGLE_CARRIER_TX)
++	/*15*/	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_carrier_suppression_tx_hdl, OID_RT_PRO_SET_CARRIER_SUPPRESSION_TX)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_pro_set_single_tone_tx_hdl, OID_RT_PRO_SET_SINGLE_TONE_TX)
++
++	EXT_MP_IOCTL_HANDLER(0, xmit_packet, 0)
++
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_set_rx_packet_type_hdl, OID_RT_SET_RX_PACKET_TYPE)
++	GEN_MP_IOCTL_HANDLER(0, oid_rt_reset_phy_rx_packet_count_hdl, OID_RT_RESET_PHY_RX_PACKET_COUNT)
++	/*20*/	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_get_phy_rx_packet_received_hdl, OID_RT_GET_PHY_RX_PACKET_RECEIVED)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_get_phy_rx_packet_crc32_error_hdl, OID_RT_GET_PHY_RX_PACKET_CRC32_ERROR)
++
++	GEN_MP_IOCTL_HANDLER(sizeof(struct eeprom_rw_param), NULL, 0)
++	GEN_MP_IOCTL_HANDLER(sizeof(struct eeprom_rw_param), NULL, 0)
++	GEN_MP_IOCTL_HANDLER(sizeof(EFUSE_ACCESS_STRUCT), oid_rt_pro_efuse_hdl, OID_RT_PRO_EFUSE)
++	/*25*/	GEN_MP_IOCTL_HANDLER(0, oid_rt_pro_efuse_map_hdl, OID_RT_PRO_EFUSE_MAP)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_get_efuse_max_size_hdl, OID_RT_GET_EFUSE_MAX_SIZE)
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_get_efuse_current_size_hdl, OID_RT_GET_EFUSE_CURRENT_SIZE)
++
++	GEN_MP_IOCTL_HANDLER(sizeof(u32), oid_rt_get_thermal_meter_hdl, OID_RT_PRO_GET_THERMAL_METER)
++	GEN_MP_IOCTL_HANDLER(sizeof(u8), oid_rt_pro_set_power_tracking_hdl, OID_RT_PRO_SET_POWER_TRACKING)
++	/*30*/	GEN_MP_IOCTL_HANDLER(sizeof(u8), oid_rt_set_power_down_hdl, OID_RT_SET_POWER_DOWN)
++	/*31*/	GEN_MP_IOCTL_HANDLER(0, oid_rt_pro_trigger_gpio_hdl, 0)
++	GEN_MP_IOCTL_HANDLER(0, NULL, 0)
++	GEN_MP_IOCTL_HANDLER(0, NULL, 0)
++	GEN_MP_IOCTL_HANDLER(0, NULL, 0)
++};
++
++#else /* _RTW_MP_IOCTL_C_ */
++
++extern struct mp_ioctl_handler mp_ioctl_hdl[];
++
++#endif /* _RTW_MP_IOCTL_C_ */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_mp_phy_regdef.h b/drivers/net/wireless/rtl8812au/include/rtw_mp_phy_regdef.h
+new file mode 100644
+index 0000000..5f79e46
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_mp_phy_regdef.h
+@@ -0,0 +1,1099 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*****************************************************************************
++ *
++ * Module:	__RTW_MP_PHY_REGDEF_H_
++ *
++ *
++ * Note:	1. Define PMAC/BB register map
++ *			2. Define RF register map
++ *			3. PMAC/BB register bit mask.
++ *			4. RF reg bit mask.
++ *			5. Other BB/RF relative definition.
++ *
++ *
++ * Export:	Constants, macro, functions(API), global variables(None).
++ *
++ * Abbrev:
++ *
++ * History:
++ *	Data			Who		Remark
++ *	08/07/2007	MHC		1. Porting from 9x series PHYCFG.h.
++ *						2. Reorganize code architecture.
++ *	09/25/2008	MH		1. Add RL6052 register definition
++ *
++ *****************************************************************************/
++#ifndef __RTW_MP_PHY_REGDEF_H_
++#define __RTW_MP_PHY_REGDEF_H_
++
++
++/*--------------------------Define Parameters-------------------------------*/
++
++/* ************************************************************
++ * 8192S Regsiter offset definition
++ * ************************************************************ */
++
++/*
++ * BB-PHY register PMAC 0x100 PHY 0x800 - 0xEFF
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 2. 0x800/0x900/0xA00/0xC00/0xD00/0xE00
++ * 3. RF register 0x00-2E
++ * 4. Bit Mask for BB/RF register
++ * 5. Other defintion for BB/RF R/W
++ *   */
++
++
++/*
++ * 1. PMAC duplicate register due to connection: RF_Mode, TRxRN, NumOf L-STF
++ * 1. Page1(0x100)
++ *   */
++#define		rPMAC_Reset					0x100
++#define		rPMAC_TxStart					0x104
++#define		rPMAC_TxLegacySIG				0x108
++#define		rPMAC_TxHTSIG1				0x10c
++#define		rPMAC_TxHTSIG2				0x110
++#define		rPMAC_PHYDebug				0x114
++#define		rPMAC_TxPacketNum				0x118
++#define		rPMAC_TxIdle					0x11c
++#define		rPMAC_TxMACHeader0			0x120
++#define		rPMAC_TxMACHeader1			0x124
++#define		rPMAC_TxMACHeader2			0x128
++#define		rPMAC_TxMACHeader3			0x12c
++#define		rPMAC_TxMACHeader4			0x130
++#define		rPMAC_TxMACHeader5			0x134
++#define		rPMAC_TxDataType				0x138
++#define		rPMAC_TxRandomSeed			0x13c
++#define		rPMAC_CCKPLCPPreamble			0x140
++#define		rPMAC_CCKPLCPHeader			0x144
++#define		rPMAC_CCKCRC16				0x148
++#define		rPMAC_OFDMRxCRC32OK			0x170
++#define		rPMAC_OFDMRxCRC32Er			0x174
++#define		rPMAC_OFDMRxParityEr			0x178
++#define		rPMAC_OFDMRxCRC8Er			0x17c
++#define		rPMAC_CCKCRxRC16Er			0x180
++#define		rPMAC_CCKCRxRC32Er			0x184
++#define		rPMAC_CCKCRxRC32OK			0x188
++#define		rPMAC_TxStatus					0x18c
++
++/*
++ * 2. Page2(0x200)
++ *
++ * The following two definition are only used for USB interface.
++ * #define		RF_BB_CMD_ADDR				0x02c0 */	/* RF/BB read/write command address.
++ * #define		RF_BB_CMD_DATA				0x02c4 */	/* RF/BB read/write command data. */
++
++/*
++ * 3. Page8(0x800)
++ *   */
++#define		rFPGA0_RFMOD				0x800	/* RF mode & CCK TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA0_TxInfo				0x804	/* Status report?? */
++#define		rFPGA0_PSDFunction			0x808
++
++#define		rFPGA0_TxGainStage			0x80c	/* Set TX PWR init gain? */
++
++#define		rFPGA0_RFTiming1			0x810	/* Useless now */
++#define		rFPGA0_RFTiming2			0x814
++/* #define rFPGA0_XC_RFTiming		0x818 */
++/* #define rFPGA0_XD_RFTiming		0x81c */
++
++#define		rFPGA0_XA_HSSIParameter1		0x820	/* RF 3 wire register */
++#define		rFPGA0_XA_HSSIParameter2		0x824
++#define		rFPGA0_XB_HSSIParameter1		0x828
++#define		rFPGA0_XB_HSSIParameter2		0x82c
++#define		rFPGA0_XC_HSSIParameter1		0x830
++#define		rFPGA0_XC_HSSIParameter2		0x834
++#define		rFPGA0_XD_HSSIParameter1		0x838
++#define		rFPGA0_XD_HSSIParameter2		0x83c
++#define		rFPGA0_XA_LSSIParameter		0x840
++#define		rFPGA0_XB_LSSIParameter		0x844
++#define		rFPGA0_XC_LSSIParameter		0x848
++#define		rFPGA0_XD_LSSIParameter		0x84c
++
++#define		rFPGA0_RFWakeUpParameter		0x850	/* Useless now */
++#define		rFPGA0_RFSleepUpParameter		0x854
++
++#define		rFPGA0_XAB_SwitchControl		0x858	/* RF Channel switch */
++#define		rFPGA0_XCD_SwitchControl		0x85c
++
++#define		rFPGA0_XA_RFInterfaceOE		0x860	/* RF Channel switch */
++#define		rFPGA0_XB_RFInterfaceOE		0x864
++#define		rFPGA0_XC_RFInterfaceOE		0x868
++#define		rFPGA0_XD_RFInterfaceOE		0x86c
++
++#define		rFPGA0_XAB_RFInterfaceSW		0x870	/* RF Interface Software Control */
++#define		rFPGA0_XCD_RFInterfaceSW		0x874
++
++#define		rFPGA0_XAB_RFParameter		0x878	/* RF Parameter */
++#define		rFPGA0_XCD_RFParameter		0x87c
++
++#define		rFPGA0_AnalogParameter1		0x880	/* Crystal cap setting RF-R/W protection for parameter4?? */
++#define		rFPGA0_AnalogParameter2		0x884
++#define		rFPGA0_AnalogParameter3		0x888	/* Useless now */
++#define		rFPGA0_AnalogParameter4		0x88c
++
++#define		rFPGA0_XA_LSSIReadBack		0x8a0	/* Tranceiver LSSI Readback */
++#define		rFPGA0_XB_LSSIReadBack		0x8a4
++#define		rFPGA0_XC_LSSIReadBack		0x8a8
++#define		rFPGA0_XD_LSSIReadBack		0x8ac
++
++#define		rFPGA0_PSDReport				0x8b4	/* Useless now */
++#define		rFPGA0_XAB_RFInterfaceRB		0x8e0	/* Useless now */ /* RF Interface Readback Value */
++#define		rFPGA0_XCD_RFInterfaceRB		0x8e4	/* Useless now */
++
++/*
++ * 4. Page9(0x900)
++ *   */
++#define		rFPGA1_RFMOD				0x900	/* RF mode & OFDM TxSC */ /* RF BW Setting?? */
++
++#define		rFPGA1_TxBlock				0x904	/* Useless now */
++#define		rFPGA1_DebugSelect			0x908	/* Useless now */
++#define		rFPGA1_TxInfo				0x90c	/* Useless now */ /* Status report?? */
++#define	rS0S1_PathSwitch			0x948
++
++/*
++ * 5. PageA(0xA00)
++ *
++ * Set Control channel to upper or lower. These settings are required only for 40MHz */
++#define		rCCK0_System				0xa00
++
++#define		rCCK0_AFESetting			0xa04	/* Disable init gain now */ /* Select RX path by RSSI */
++#define		rCCK0_CCA					0xa08	/* Disable init gain now */ /* Init gain */
++
++#define		rCCK0_RxAGC1				0xa0c	/* AGC default value, saturation level  */ /* Antenna Diversity, RX AGC, LNA Threshold, RX LNA Threshold useless now. Not the same as 90 series */
++#define		rCCK0_RxAGC2				0xa10	/* AGC & DAGC */
++
++#define		rCCK0_RxHP					0xa14
++
++#define		rCCK0_DSPParameter1		0xa18	/* Timing recovery & Channel estimation threshold */
++#define		rCCK0_DSPParameter2		0xa1c	/* SQ threshold */
++
++#define		rCCK0_TxFilter1				0xa20
++#define		rCCK0_TxFilter2				0xa24
++#define		rCCK0_DebugPort			0xa28	/* debug port and Tx filter3 */
++#define		rCCK0_FalseAlarmReport		0xa2c	/* 0xa2d	useless now 0xa30-a4f channel report */
++#define		rCCK0_TRSSIReport		0xa50
++#define		rCCK0_RxReport            		0xa54  /* 0xa57 */
++#define		rCCK0_FACounterLower      	0xa5c  /* 0xa5b */
++#define		rCCK0_FACounterUpper      	0xa58  /* 0xa5c */
++
++/*
++ * 6. PageC(0xC00)
++ *   */
++#define		rOFDM0_LSTF				0xc00
++
++#define		rOFDM0_TRxPathEnable		0xc04
++#define		rOFDM0_TRMuxPar			0xc08
++#define		rOFDM0_TRSWIsolation		0xc0c
++
++#define		rOFDM0_XARxAFE			0xc10  /* RxIQ DC offset, Rx digital filter, DC notch filter */
++#define		rOFDM0_XARxIQImbalance    	0xc14  /* RxIQ imblance matrix */
++#define		rOFDM0_XBRxAFE		0xc18
++#define		rOFDM0_XBRxIQImbalance	0xc1c
++#define		rOFDM0_XCRxAFE		0xc20
++#define		rOFDM0_XCRxIQImbalance	0xc24
++#define		rOFDM0_XDRxAFE		0xc28
++#define		rOFDM0_XDRxIQImbalance	0xc2c
++
++#define		rOFDM0_RxDetector1			0xc30  /* PD, BW & SBD	 */ /* DM tune init gain */
++#define		rOFDM0_RxDetector2			0xc34  /* SBD & Fame Sync. */
++#define		rOFDM0_RxDetector3			0xc38  /* Frame Sync. */
++#define		rOFDM0_RxDetector4			0xc3c  /* PD, SBD, Frame Sync & Short-GI */
++
++#define		rOFDM0_RxDSP				0xc40  /* Rx Sync Path */
++#define		rOFDM0_CFOandDAGC		0xc44  /* CFO & DAGC */
++#define		rOFDM0_CCADropThreshold	0xc48 /* CCA Drop threshold */
++#define		rOFDM0_ECCAThreshold		0xc4c /* energy CCA */
++
++#define		rOFDM0_XAAGCCore1			0xc50	/* DIG  */
++#define		rOFDM0_XAAGCCore2			0xc54
++#define		rOFDM0_XBAGCCore1			0xc58
++#define		rOFDM0_XBAGCCore2			0xc5c
++#define		rOFDM0_XCAGCCore1			0xc60
++#define		rOFDM0_XCAGCCore2			0xc64
++#define		rOFDM0_XDAGCCore1			0xc68
++#define		rOFDM0_XDAGCCore2			0xc6c
++
++#define		rOFDM0_AGCParameter1			0xc70
++#define		rOFDM0_AGCParameter2			0xc74
++#define		rOFDM0_AGCRSSITable			0xc78
++#define		rOFDM0_HTSTFAGC				0xc7c
++
++#define		rOFDM0_XATxIQImbalance		0xc80	/* TX PWR TRACK and DIG */
++#define		rOFDM0_XATxAFE				0xc84
++#define		rOFDM0_XBTxIQImbalance		0xc88
++#define		rOFDM0_XBTxAFE				0xc8c
++#define		rOFDM0_XCTxIQImbalance		0xc90
++#define		rOFDM0_XCTxAFE			0xc94
++#define		rOFDM0_XDTxIQImbalance		0xc98
++#define		rOFDM0_XDTxAFE				0xc9c
++#define		rOFDM0_RxIQExtAnta			0xca0
++
++#define		rOFDM0_RxHPParameter			0xce0
++#define		rOFDM0_TxPseudoNoiseWgt		0xce4
++#define		rOFDM0_FrameSync				0xcf0
++#define		rOFDM0_DFSReport				0xcf4
++#define		rOFDM0_TxCoeff1				0xca4
++#define		rOFDM0_TxCoeff2				0xca8
++#define		rOFDM0_TxCoeff3				0xcac
++#define		rOFDM0_TxCoeff4				0xcb0
++#define		rOFDM0_TxCoeff5				0xcb4
++#define		rOFDM0_TxCoeff6				0xcb8
++
++
++/*
++ * 7. PageD(0xD00)
++ *   */
++#define		rOFDM1_LSTF					0xd00
++#define		rOFDM1_TRxPathEnable			0xd04
++
++#define		rOFDM1_CFO						0xd08	/* No setting now */
++#define		rOFDM1_CSI1					0xd10
++#define		rOFDM1_SBD						0xd14
++#define		rOFDM1_CSI2					0xd18
++#define		rOFDM1_CFOTracking			0xd2c
++#define		rOFDM1_TRxMesaure1			0xd34
++#define		rOFDM1_IntfDet					0xd3c
++#define		rOFDM1_PseudoNoiseStateAB		0xd50
++#define		rOFDM1_PseudoNoiseStateCD		0xd54
++#define		rOFDM1_RxPseudoNoiseWgt		0xd58
++
++#define		rOFDM_PHYCounter1				0xda0  /* cca, parity fail */
++#define		rOFDM_PHYCounter2				0xda4  /* rate illegal, crc8 fail */
++#define		rOFDM_PHYCounter3				0xda8  /* MCS not support */
++
++#define		rOFDM_ShortCFOAB				0xdac	/* No setting now */
++#define		rOFDM_ShortCFOCD				0xdb0
++#define		rOFDM_LongCFOAB				0xdb4
++#define		rOFDM_LongCFOCD				0xdb8
++#define		rOFDM_TailCFOAB				0xdbc
++#define		rOFDM_TailCFOCD				0xdc0
++#define		rOFDM_PWMeasure1		0xdc4
++#define		rOFDM_PWMeasure2		0xdc8
++#define		rOFDM_BWReport				0xdcc
++#define		rOFDM_AGCReport				0xdd0
++#define		rOFDM_RxSNR					0xdd4
++#define		rOFDM_RxEVMCSI				0xdd8
++#define		rOFDM_SIGReport				0xddc
++
++
++/*
++ * 8. PageE(0xE00)
++ *   */
++#define		rTxAGC_Rate18_06				0xe00
++#define		rTxAGC_Rate54_24				0xe04
++#define		rTxAGC_CCK_Mcs32				0xe08
++#define		rTxAGC_Mcs03_Mcs00			0xe10
++#define		rTxAGC_Mcs07_Mcs04			0xe14
++#define		rTxAGC_Mcs11_Mcs08			0xe18
++#define		rTxAGC_Mcs15_Mcs12			0xe1c
++
++/* Analog- control in RX_WAIT_CCA : REG: EE0 [Analog- Power & Control Register] */
++#define		rRx_Wait_CCCA					0xe70
++#define		rAnapar_Ctrl_BB					0xee0
++
++/*
++ * 7. RF Register 0x00-0x2E (RF 8256)
++ * RF-0222D 0x00-3F
++ *
++ * Zebra1 */
++#define RTL92SE_FPGA_VERIFY 0
++#define		rZebra1_HSSIEnable				0x0	/* Useless now */
++#define		rZebra1_TRxEnable1				0x1
++#define		rZebra1_TRxEnable2				0x2
++#define		rZebra1_AGC					0x4
++#define		rZebra1_ChargePump			0x5
++/* #if (RTL92SE_FPGA_VERIFY == 1) */
++#define		rZebra1_Channel				0x7	/* RF channel switch
++ * #else */
++
++/* #endif */
++#define		rZebra1_TxGain					0x8	/* Useless now */
++#define		rZebra1_TxLPF					0x9
++#define		rZebra1_RxLPF					0xb
++#define		rZebra1_RxHPFCorner			0xc
++
++/* Zebra4 */
++#define		rGlobalCtrl						0	/* Useless now */
++#define		rRTL8256_TxLPF					19
++#define		rRTL8256_RxLPF					11
++
++/* RTL8258 */
++#define		rRTL8258_TxLPF					0x11	/* Useless now */
++#define		rRTL8258_RxLPF					0x13
++#define		rRTL8258_RSSILPF				0xa
++
++/*
++ * RL6052 Register definition
++ *   */
++#define		RF_AC						0x00	/*  */
++
++#define		RF_IQADJ_G1				0x01	/*  */
++#define		RF_IQADJ_G2				0x02	/*  */
++#define		RF_POW_TRSW				0x05	/*  */
++
++#define		RF_GAIN_RX					0x06	/*  */
++#define		RF_GAIN_TX					0x07	/*  */
++
++#define		RF_TXM_IDAC				0x08	/*  */
++#define		RF_BS_IQGEN				0x0F	/*  */
++
++#define		RF_MODE1					0x10	/*  */
++#define		RF_MODE2					0x11	/*  */
++
++#define		RF_RX_AGC_HP				0x12	/*  */
++#define		RF_TX_AGC					0x13	/*  */
++#define		RF_BIAS						0x14	/*  */
++#define		RF_IPA						0x15	/*  */
++#define		RF_TXBIAS					0x16
++#define		RF_POW_ABILITY			0x17	/*  */
++#define		RF_MODE_AG				0x18	/*  */
++#define		rRfChannel					0x18	/* RF channel and BW switch */
++#define		RF_CHNLBW					0x18	/* RF channel and BW switch */
++#define		RF_TOP						0x19	/*  */
++
++#define		RF_RX_G1					0x1A	/*  */
++#define		RF_RX_G2					0x1B	/*  */
++
++#define		RF_RX_BB2					0x1C	/*  */
++#define		RF_RX_BB1					0x1D	/*  */
++
++#define		RF_RCK1					0x1E	/*  */
++#define		RF_RCK2					0x1F	/*  */
++
++#define		RF_TX_G1					0x20	/*  */
++#define		RF_TX_G2					0x21	/*  */
++#define		RF_TX_G3					0x22	/*  */
++
++#define		RF_TX_BB1					0x23	/*  */
++
++#define		RF_T_METER					0x24	/*  */
++
++#define		RF_SYN_G1					0x25	/* RF TX Power control */
++#define		RF_SYN_G2					0x26	/* RF TX Power control */
++#define		RF_SYN_G3					0x27	/* RF TX Power control */
++#define		RF_SYN_G4					0x28	/* RF TX Power control */
++#define		RF_SYN_G5					0x29	/* RF TX Power control */
++#define		RF_SYN_G6					0x2A	/* RF TX Power control */
++#define		RF_SYN_G7					0x2B	/* RF TX Power control */
++#define		RF_SYN_G8					0x2C	/* RF TX Power control */
++
++#define		RF_RCK_OS					0x30	/* RF TX PA control */
++
++#define		RF_TXPA_G1					0x31	/* RF TX PA control */
++#define		RF_TXPA_G2					0x32	/* RF TX PA control */
++#define		RF_TXPA_G3					0x33	/* RF TX PA control */
++
++/*
++ * Bit Mask
++ *
++ * 1. Page1(0x100) */
++#define		bBBResetB						0x100	/* Useless now? */
++#define		bGlobalResetB					0x200
++#define		bOFDMTxStart					0x4
++#define		bCCKTxStart						0x8
++#define		bCRC32Debug					0x100
++#define		bPMACLoopback					0x10
++#define		bTxLSIG							0xffffff
++#define		bOFDMTxRate					0xf
++#define		bOFDMTxReserved				0x10
++#define		bOFDMTxLength					0x1ffe0
++#define		bOFDMTxParity					0x20000
++#define		bTxHTSIG1						0xffffff
++#define		bTxHTMCSRate					0x7f
++#define		bTxHTBW						0x80
++#define		bTxHTLength					0xffff00
++#define		bTxHTSIG2						0xffffff
++#define		bTxHTSmoothing					0x1
++#define		bTxHTSounding					0x2
++#define		bTxHTReserved					0x4
++#define		bTxHTAggreation				0x8
++#define		bTxHTSTBC						0x30
++#define		bTxHTAdvanceCoding			0x40
++#define		bTxHTShortGI					0x80
++#define		bTxHTNumberHT_LTF			0x300
++#define		bTxHTCRC8						0x3fc00
++#define		bCounterReset					0x10000
++#define		bNumOfOFDMTx					0xffff
++#define		bNumOfCCKTx					0xffff0000
++#define		bTxIdleInterval					0xffff
++#define		bOFDMService					0xffff0000
++#define		bTxMACHeader					0xffffffff
++#define		bTxDataInit						0xff
++#define		bTxHTMode						0x100
++#define		bTxDataType					0x30000
++#define		bTxRandomSeed					0xffffffff
++#define		bCCKTxPreamble					0x1
++#define		bCCKTxSFD						0xffff0000
++#define		bCCKTxSIG						0xff
++#define		bCCKTxService					0xff00
++#define		bCCKLengthExt					0x8000
++#define		bCCKTxLength					0xffff0000
++#define		bCCKTxCRC16					0xffff
++#define		bCCKTxStatus					0x1
++#define		bOFDMTxStatus					0x2
++
++#define		IS_BB_REG_OFFSET_92S(_Offset)		((_Offset >= 0x800) && (_Offset <= 0xfff))
++
++/* 2. Page8(0x800) */
++#define		bRFMOD							0x1	/* Reg 0x800 rFPGA0_RFMOD */
++#define		bJapanMode						0x2
++#define		bCCKTxSC						0x30
++#define		bCCKEn							0x1000000
++#define		bOFDMEn						0x2000000
++
++#define		bOFDMRxADCPhase           		0x10000	/* Useless now */
++#define		bOFDMTxDACPhase		0x40000
++#define		bXATxAGC			0x3f
++
++#define		bXBTxAGC                  			0xf00	/* Reg 80c rFPGA0_TxGainStage */
++#define		bXCTxAGC			0xf000
++#define		bXDTxAGC			0xf0000
++
++#define		bPAStart                  			0xf0000000	/* Useless now */
++#define		bTRStart			0x00f00000
++#define		bRFStart			0x0000f000
++#define		bBBStart			0x000000f0
++#define		bBBCCKStart		0x0000000f
++#define		bPAEnd                    			0xf          /* Reg0x814 */
++#define		bTREnd			0x0f000000
++#define		bRFEnd			0x000f0000
++#define		bCCAMask                  			0x000000f0   /* T2R */
++#define		bR2RCCAMask		0x00000f00
++#define		bHSSI_R2TDelay		0xf8000000
++#define		bHSSI_T2RDelay		0xf80000
++#define		bContTxHSSI               		0x400     /* chane gain at continue Tx */
++#define		bIGFromCCK		0x200
++#define		bAGCAddress		0x3f
++#define		bRxHPTx			0x7000
++#define		bRxHPT2R			0x38000
++#define		bRxHPCCKIni		0xc0000
++#define		bAGCTxCode		0xc00000
++#define		bAGCRxCode		0x300000
++
++#define		b3WireDataLength          		0x800	/* Reg 0x820~84f rFPGA0_XA_HSSIParameter1 */
++#define		b3WireAddressLength		0x400
++
++#define		b3WireRFPowerDown         		0x1	/* Useless now
++ * #define bHWSISelect		0x8 */
++#define		b5GPAPEPolarity		0x40000000
++#define		b2GPAPEPolarity		0x80000000
++#define		bRFSW_TxDefaultAnt		0x3
++#define		bRFSW_TxOptionAnt		0x30
++#define		bRFSW_RxDefaultAnt		0x300
++#define		bRFSW_RxOptionAnt		0x3000
++#define		bRFSI_3WireData		0x1
++#define		bRFSI_3WireClock		0x2
++#define		bRFSI_3WireLoad		0x4
++#define		bRFSI_3WireRW		0x8
++#define		bRFSI_3Wire			0xf
++
++#define		bRFSI_RFENV               		0x10	/* Reg 0x870 rFPGA0_XAB_RFInterfaceSW */
++
++#define		bRFSI_TRSW                		0x20	/* Useless now */
++#define		bRFSI_TRSWB		0x40
++#define		bRFSI_ANTSW		0x100
++#define		bRFSI_ANTSWB		0x200
++#define		bRFSI_PAPE			0x400
++#define		bRFSI_PAPE5G		0x800
++#define		bBandSelect			0x1
++#define		bHTSIG2_GI			0x80
++#define		bHTSIG2_Smoothing		0x01
++#define		bHTSIG2_Sounding		0x02
++#define		bHTSIG2_Aggreaton		0x08
++#define		bHTSIG2_STBC		0x30
++#define		bHTSIG2_AdvCoding		0x40
++#define		bHTSIG2_NumOfHTLTF	0x300
++#define		bHTSIG2_CRC8		0x3fc
++#define		bHTSIG1_MCS		0x7f
++#define		bHTSIG1_BandWidth		0x80
++#define		bHTSIG1_HTLength		0xffff
++#define		bLSIG_Rate			0xf
++#define		bLSIG_Reserved		0x10
++#define		bLSIG_Length		0x1fffe
++#define		bLSIG_Parity			0x20
++#define		bCCKRxPhase		0x4
++#if (RTL92SE_FPGA_VERIFY == 1)
++	#define		bLSSIReadAddress          		0x3f000000   /* LSSI "Read" Address	 */ /* Reg 0x824 rFPGA0_XA_HSSIParameter2 */
++#else
++	#define		bLSSIReadAddress          		0x7f800000   /* T65 RF */
++#endif
++#define		bLSSIReadEdge             		0x80000000   /* LSSI "Read" edge signal */
++#if (RTL92SE_FPGA_VERIFY == 1)
++	#define		bLSSIReadBackData         		0xfff		/* Reg 0x8a0 rFPGA0_XA_LSSIReadBack */
++#else
++	#define		bLSSIReadBackData         		0xfffff		/* T65 RF */
++#endif
++#define		bLSSIReadOKFlag           		0x1000	/* Useless now */
++#define		bCCKSampleRate            		0x8       /* 0: 44MHz, 1:88MHz      		 */
++#define		bRegulator0Standby		0x1
++#define		bRegulatorPLLStandby		0x2
++#define		bRegulator1Standby		0x4
++#define		bPLLPowerUp		0x8
++#define		bDPLLPowerUp		0x10
++#define		bDA10PowerUp		0x20
++#define		bAD7PowerUp		0x200
++#define		bDA6PowerUp		0x2000
++#define		bXtalPowerUp		0x4000
++#define		b40MDClkPowerUP		0x8000
++#define		bDA6DebugMode		0x20000
++#define		bDA6Swing			0x380000
++
++#define		bADClkPhase               		0x4000000	/* Reg 0x880 rFPGA0_AnalogParameter1 20/40 CCK support switch 40/80 BB MHZ */
++
++#define		b80MClkDelay              		0x18000000	/* Useless */
++#define		bAFEWatchDogEnable		0x20000000
++
++#define		bXtalCap01                			0xc0000000	/* Reg 0x884 rFPGA0_AnalogParameter2 Crystal cap */
++#define		bXtalCap23			0x3
++#define		bXtalCap92x					0x0f000000
++#define		bXtalCap			0x0f000000
++
++#define		bIntDifClkEnable          		0x400	/* Useless */
++#define		bExtSigClkEnable		0x800
++#define		bBandgapMbiasPowerUp	0x10000
++#define		bAD11SHGain		0xc0000
++#define		bAD11InputRange		0x700000
++#define		bAD11OPCurrent		0x3800000
++#define		bIPathLoopback		0x4000000
++#define		bQPathLoopback		0x8000000
++#define		bAFELoopback		0x10000000
++#define		bDA10Swing		0x7e0
++#define		bDA10Reverse		0x800
++#define		bDAClkSource		0x1000
++#define		bAD7InputRange		0x6000
++#define		bAD7Gain			0x38000
++#define		bAD7OutputCMMode		0x40000
++#define		bAD7InputCMMode		0x380000
++#define		bAD7Current			0xc00000
++#define		bRegulatorAdjust		0x7000000
++#define		bAD11PowerUpAtTx		0x1
++#define		bDA10PSAtTx		0x10
++#define		bAD11PowerUpAtRx		0x100
++#define		bDA10PSAtRx		0x1000
++#define		bCCKRxAGCFormat		0x200
++#define		bPSDFFTSamplepPoint		0xc000
++#define		bPSDAverageNum		0x3000
++#define		bIQPathControl		0xc00
++#define		bPSDFreq			0x3ff
++#define		bPSDAntennaPath		0x30
++#define		bPSDIQSwitch		0x40
++#define		bPSDRxTrigger		0x400000
++#define		bPSDTxTrigger		0x80000000
++#define		bPSDSineToneScale		0x7f000000
++#define		bPSDReport			0xffff
++
++/* 3. Page9(0x900) */
++#define		bOFDMTxSC                 		0x30000000	/* Useless */
++#define		bCCKTxOn			0x1
++#define		bOFDMTxOn		0x2
++#define		bDebugPage                		0xfff  /* reset debug page and also HWord, LWord */
++#define		bDebugItem                		0xff   /* reset debug page and LWord */
++#define		bAntL			0x10
++#define		bAntNonHT				0x100
++#define		bAntHT1			0x1000
++#define		bAntHT2			0x10000
++#define		bAntHT1S1			0x100000
++#define		bAntNonHTS1		0x1000000
++
++/* 4. PageA(0xA00) */
++#define		bCCKBBMode                		0x3	/* Useless */
++#define		bCCKTxPowerSaving		0x80
++#define		bCCKRxPowerSaving		0x40
++
++#define		bCCKSideBand              		0x10	/* Reg 0xa00 rCCK0_System 20/40 switch */
++
++#define		bCCKScramble              		0x8	/* Useless */
++#define		bCCKAntDiversity			0x8000
++#define		bCCKCarrierRecovery		0x4000
++#define		bCCKTxRate			0x3000
++#define		bCCKDCCancel		0x0800
++#define		bCCKISICancel		0x0400
++#define		bCCKMatchFilter		0x0200
++#define		bCCKEqualizer		0x0100
++#define		bCCKPreambleDetect		0x800000
++#define		bCCKFastFalseCCA		0x400000
++#define		bCCKChEstStart		0x300000
++#define		bCCKCCACount		0x080000
++#define		bCCKcs_lim			0x070000
++#define		bCCKBistMode		0x80000000
++#define		bCCKCCAMask		0x40000000
++#define		bCCKTxDACPhase		0x4
++#define		bCCKRxADCPhase         	   	0x20000000   /* r_rx_clk */
++#define		bCCKr_cp_mode0		0x0100
++#define		bCCKTxDCOffset		0xf0
++#define		bCCKRxDCOffset		0xf
++#define		bCCKCCAMode		0xc000
++#define		bCCKFalseCS_lim		0x3f00
++#define		bCCKCS_ratio		0xc00000
++#define		bCCKCorgBit_sel		0x300000
++#define		bCCKPD_lim			0x0f0000
++#define		bCCKNewCCA		0x80000000
++#define		bCCKRxHPofIG		0x8000
++#define		bCCKRxIG			0x7f00
++#define		bCCKLNAPolarity		0x800000
++#define		bCCKRx1stGain		0x7f0000
++#define		bCCKRFExtend              		0x20000000 /* CCK Rx Iinital gain polarity */
++#define		bCCKRxAGCSatLevel		0x1f000000
++#define		bCCKRxAGCSatCount		0xe0
++#define		bCCKRxRFSettle            		0x1f       /* AGCsamp_dly */
++#define		bCCKFixedRxAGC		0x8000
++/* #define bCCKRxAGCFormat		0x4000 */   /* remove to HSSI register 0x824 */
++#define		bCCKAntennaPolarity		0x2000
++#define		bCCKTxFilterType		0x0c00
++#define		bCCKRxAGCReportType		0x0300
++#define		bCCKRxDAGCEn		0x80000000
++#define		bCCKRxDAGCPeriod		0x20000000
++#define		bCCKRxDAGCSatLevel		0x1f000000
++#define		bCCKTimingRecovery		0x800000
++#define		bCCKTxC0			0x3f0000
++#define		bCCKTxC1			0x3f000000
++#define		bCCKTxC2			0x3f
++#define		bCCKTxC3			0x3f00
++#define		bCCKTxC4			0x3f0000
++#define		bCCKTxC5			0x3f000000
++#define		bCCKTxC6			0x3f
++#define		bCCKTxC7			0x3f00
++#define		bCCKDebugPort		0xff0000
++#define		bCCKDACDebug		0x0f000000
++#define		bCCKFalseAlarmEnable		0x8000
++#define		bCCKFalseAlarmRead		0x4000
++#define		bCCKTRSSI			0x7f
++#define		bCCKRxAGCReport		0xfe
++#define		bCCKRxReport_AntSel		0x80000000
++#define		bCCKRxReport_MFOff		0x40000000
++#define		bCCKRxRxReport_SQLoss	0x20000000
++#define		bCCKRxReport_Pktloss		0x10000000
++#define		bCCKRxReport_Lockedbit	0x08000000
++#define		bCCKRxReport_RateError	0x04000000
++#define		bCCKRxReport_RxRate		0x03000000
++#define		bCCKRxFACounterLower	0xff
++#define		bCCKRxFACounterUpper	0xff000000
++#define		bCCKRxHPAGCStart		0xe000
++#define		bCCKRxHPAGCFinal		0x1c00
++#define		bCCKRxFalseAlarmEnable	0x8000
++#define		bCCKFACounterFreeze		0x4000
++#define		bCCKTxPathSel		0x10000000
++#define		bCCKDefaultRxPath		0xc000000
++#define		bCCKOptionRxPath		0x3000000
++
++/* 5. PageC(0xC00) */
++#define		bNumOfSTF                			0x3	/* Useless */
++#define		bShift_L			0xc0
++#define		bGI_TH			0xc
++#define		bRxPathA			0x1
++#define		bRxPathB			0x2
++#define		bRxPathC			0x4
++#define		bRxPathD			0x8
++#define		bTxPathA			0x1
++#define		bTxPathB			0x2
++#define		bTxPathC			0x4
++#define		bTxPathD			0x8
++#define		bTRSSIFreq			0x200
++#define		bADCBackoff			0x3000
++#define		bDFIRBackoff			0xc000
++#define		bTRSSILatchPhase		0x10000
++#define		bRxIDCOffset			0xff
++#define		bRxQDCOffset			0xff00
++#define		bRxDFIRMode		0x1800000
++#define		bRxDCNFType		0xe000000
++#define		bRXIQImb_A			0x3ff
++#define		bRXIQImb_B			0xfc00
++#define		bRXIQImb_C			0x3f0000
++#define		bRXIQImb_D			0xffc00000
++#define		bDC_dc_Notch		0x60000
++#define		bRxNBINotch			0x1f000000
++#define		bPD_TH			0xf
++#define		bPD_TH_Opt2		0xc000
++#define		bPWED_TH			0x700
++#define		bIfMF_Win_L			0x800
++#define		bPD_Option			0x1000
++#define		bMF_Win_L			0xe000
++#define		bBW_Search_L		0x30000
++#define		bwin_enh_L			0xc0000
++#define		bBW_TH			0x700000
++#define		bED_TH2			0x3800000
++#define		bBW_option			0x4000000
++#define		bRatio_TH			0x18000000
++#define		bWindow_L			0xe0000000
++#define		bSBD_Option			0x1
++#define		bFrame_TH			0x1c
++#define		bFS_Option			0x60
++#define		bDC_Slope_check		0x80
++#define		bFGuard_Counter_DC_L		0xe00
++#define		bFrame_Weight_Short		0x7000
++#define		bSub_Tune			0xe00000
++#define		bFrame_DC_Length		0xe000000
++#define		bSBD_start_offset		0x30000000
++#define		bFrame_TH_2		0x7
++#define		bFrame_GI2_TH		0x38
++#define		bGI2_Sync_en		0x40
++#define		bSarch_Short_Early		0x300
++#define		bSarch_Short_Late		0xc00
++#define		bSarch_GI2_Late		0x70000
++#define		bCFOAntSum		0x1
++#define		bCFOAcc			0x2
++#define		bCFOStartOffset		0xc
++#define		bCFOLookBack		0x70
++#define		bCFOSumWeight		0x80
++#define		bDAGCEnable			0x10000
++#define		bTXIQImb_A			0x3ff
++#define		bTXIQImb_B			0xfc00
++#define		bTXIQImb_C			0x3f0000
++#define		bTXIQImb_D			0xffc00000
++#define		bTxIDCOffset			0xff
++#define		bTxQDCOffset			0xff00
++#define		bTxDFIRMode		0x10000
++#define		bTxPesudoNoiseOn		0x4000000
++#define		bTxPesudoNoise_A		0xff
++#define		bTxPesudoNoise_B		0xff00
++#define		bTxPesudoNoise_C		0xff0000
++#define		bTxPesudoNoise_D		0xff000000
++#define		bCCADropOption		0x20000
++#define		bCCADropThres		0xfff00000
++#define		bEDCCA_H			0xf
++#define		bEDCCA_L			0xf0
++#define		bLambda_ED               0x300
++#define		bRxInitialGain           0x7f
++#define		bRxAntDivEn              0x80
++#define		bRxAGCAddressForLNA      0x7f00
++#define		bRxHighPowerFlow         0x8000
++#define		bRxAGCFreezeThres        0xc0000
++#define		bRxFreezeStep_AGC1       0x300000
++#define		bRxFreezeStep_AGC2       0xc00000
++#define		bRxFreezeStep_AGC3       0x3000000
++#define		bRxFreezeStep_AGC0       0xc000000
++#define		bRxRssi_Cmp_En           0x10000000
++#define		bRxQuickAGCEn            0x20000000
++#define		bRxAGCFreezeThresMode    0x40000000
++#define		bRxOverFlowCheckType     0x80000000
++#define		bRxAGCShift              0x7f
++#define		bTRSW_Tri_Only           0x80
++#define		bPowerThres              0x300
++#define		bRxAGCEn                 0x1
++#define		bRxAGCTogetherEn         0x2
++#define		bRxAGCMin                0x4
++#define		bRxHP_Ini                0x7
++#define		bRxHP_TRLNA              0x70
++#define		bRxHP_RSSI               0x700
++#define		bRxHP_BBP1               0x7000
++#define		bRxHP_BBP2               0x70000
++#define		bRxHP_BBP3               0x700000
++#define		bRSSI_H                  0x7f0000     /* the threshold for high power */
++#define		bRSSI_Gen                0x7f000000   /* the threshold for ant diversity */
++#define		bRxSettle_TRSW           0x7
++#define		bRxSettle_LNA            0x38
++#define		bRxSettle_RSSI           0x1c0
++#define		bRxSettle_BBP            0xe00
++#define		bRxSettle_RxHP           0x7000
++#define		bRxSettle_AntSW_RSSI     0x38000
++#define		bRxSettle_AntSW          0xc0000
++#define		bRxProcessTime_DAGC      0x300000
++#define		bRxSettle_HSSI           0x400000
++#define		bRxProcessTime_BBPPW     0x800000
++#define		bRxAntennaPowerShift     0x3000000
++#define		bRSSITableSelect         0xc000000
++#define		bRxHP_Final              0x7000000
++#define		bRxHTSettle_BBP          0x7
++#define		bRxHTSettle_HSSI         0x8
++#define		bRxHTSettle_RxHP         0x70
++#define		bRxHTSettle_BBPPW        0x80
++#define		bRxHTSettle_Idle         0x300
++#define		bRxHTSettle_Reserved     0x1c00
++#define		bRxHTRxHPEn              0x8000
++#define		bRxHTAGCFreezeThres      0x30000
++#define		bRxHTAGCTogetherEn       0x40000
++#define		bRxHTAGCMin              0x80000
++#define		bRxHTAGCEn               0x100000
++#define		bRxHTDAGCEn              0x200000
++#define		bRxHTRxHP_BBP            0x1c00000
++#define		bRxHTRxHP_Final          0xe0000000
++#define		bRxPWRatioTH             0x3
++#define		bRxPWRatioEn             0x4
++#define		bRxMFHold                0x3800
++#define		bRxPD_Delay_TH1          0x38
++#define		bRxPD_Delay_TH2          0x1c0
++#define		bRxPD_DC_COUNT_MAX       0x600
++/* #define bRxMF_Hold               0x3800 */
++#define		bRxPD_Delay_TH           0x8000
++#define		bRxProcess_Delay         0xf0000
++#define		bRxSearchrange_GI2_Early 0x700000
++#define		bRxFrame_Guard_Counter_L 0x3800000
++#define		bRxSGI_Guard_L           0xc000000
++#define		bRxSGI_Search_L          0x30000000
++#define		bRxSGI_TH                0xc0000000
++#define		bDFSCnt0                 0xff
++#define		bDFSCnt1                 0xff00
++#define		bDFSFlag                 0xf0000
++#define		bMFWeightSum             0x300000
++#define		bMinIdxTH                0x7f000000
++#define		bDAFormat                0x40000
++#define		bTxChEmuEnable           0x01000000
++#define		bTRSWIsolation_A         0x7f
++#define		bTRSWIsolation_B         0x7f00
++#define		bTRSWIsolation_C         0x7f0000
++#define		bTRSWIsolation_D         0x7f000000
++#define		bExtLNAGain              0x7c00
++
++/* 6. PageE(0xE00) */
++#define		bSTBCEn                  0x4	/* Useless */
++#define		bAntennaMapping          0x10
++#define		bNss                     0x20
++#define		bCFOAntSumD              0x200
++#define		bPHYCounterReset         0x8000000
++#define		bCFOReportGet            0x4000000
++#define		bOFDMContinueTx          0x10000000
++#define		bOFDMSingleCarrier       0x20000000
++#define		bOFDMSingleTone          0x40000000
++/* #define bRxPath1                 0x01 */
++/* #define bRxPath2                 0x02 */
++/* #define bRxPath3                 0x04 */
++/* #define bRxPath4                 0x08 */
++/* #define bTxPath1                 0x10 */
++/* #define bTxPath2                 0x20 */
++#define		bHTDetect                0x100
++#define		bCFOEn                   0x10000
++#define		bCFOValue                0xfff00000
++#define		bSigTone_Re              0x3f
++#define		bSigTone_Im              0x7f00
++#define		bCounter_CCA             0xffff
++#define		bCounter_ParityFail      0xffff0000
++#define		bCounter_RateIllegal     0xffff
++#define		bCounter_CRC8Fail        0xffff0000
++#define		bCounter_MCSNoSupport    0xffff
++#define		bCounter_FastSync        0xffff
++#define		bShortCFO                0xfff
++#define		bShortCFOTLength         12   /* total */
++#define		bShortCFOFLength         11   /* fraction */
++#define		bLongCFO                 0x7ff
++#define		bLongCFOTLength          11
++#define		bLongCFOFLength          11
++#define		bTailCFO                 0x1fff
++#define		bTailCFOTLength          13
++#define		bTailCFOFLength          12
++#define		bmax_en_pwdB             0xffff
++#define		bCC_power_dB             0xffff0000
++#define		bnoise_pwdB              0xffff
++#define		bPowerMeasTLength        10
++#define		bPowerMeasFLength        3
++#define		bRx_HT_BW                0x1
++#define		bRxSC                    0x6
++#define		bRx_HT                   0x8
++#define		bNB_intf_det_on          0x1
++#define		bIntf_win_len_cfg        0x30
++#define		bNB_Intf_TH_cfg          0x1c0
++#define		bRFGain                  0x3f
++#define		bTableSel                0x40
++#define		bTRSW                    0x80
++#define		bRxSNR_A                 0xff
++#define		bRxSNR_B                 0xff00
++#define		bRxSNR_C                 0xff0000
++#define		bRxSNR_D                 0xff000000
++#define		bSNREVMTLength           8
++#define		bSNREVMFLength           1
++#define		bCSI1st                  0xff
++#define		bCSI2nd                  0xff00
++#define		bRxEVM1st                0xff0000
++#define		bRxEVM2nd                0xff000000
++#define		bSIGEVM                  0xff
++#define		bPWDB                    0xff00
++#define		bSGIEN                   0x10000
++
++#define		bSFactorQAM1             0xf	/* Useless */
++#define		bSFactorQAM2             0xf0
++#define		bSFactorQAM3             0xf00
++#define		bSFactorQAM4             0xf000
++#define		bSFactorQAM5             0xf0000
++#define		bSFactorQAM6             0xf0000
++#define		bSFactorQAM7             0xf00000
++#define		bSFactorQAM8             0xf000000
++#define		bSFactorQAM9             0xf0000000
++#define		bCSIScheme               0x100000
++
++#define		bNoiseLvlTopSet          0x3	/* Useless */
++#define		bChSmooth                0x4
++#define		bChSmoothCfg1            0x38
++#define		bChSmoothCfg2            0x1c0
++#define		bChSmoothCfg3            0xe00
++#define		bChSmoothCfg4            0x7000
++#define		bMRCMode                 0x800000
++#define		bTHEVMCfg                0x7000000
++
++#define		bLoopFitType             0x1	/* Useless */
++#define		bUpdCFO                  0x40
++#define		bUpdCFOOffData           0x80
++#define		bAdvUpdCFO               0x100
++#define		bAdvTimeCtrl             0x800
++#define		bUpdClko                 0x1000
++#define		bFC                      0x6000
++#define		bTrackingMode            0x8000
++#define		bPhCmpEnable             0x10000
++#define		bUpdClkoLTF              0x20000
++#define		bComChCFO                0x40000
++#define		bCSIEstiMode             0x80000
++#define		bAdvUpdEqz               0x100000
++#define		bUChCfg                  0x7000000
++#define		bUpdEqz                  0x8000000
++
++#define		bTxAGCRate18_06			0x7f7f7f7f	/* Useless */
++#define		bTxAGCRate54_24			0x7f7f7f7f
++#define		bTxAGCRateMCS32			0x7f
++#define		bTxAGCRateCCK			0x7f00
++#define		bTxAGCRateMCS3_MCS0		0x7f7f7f7f
++#define		bTxAGCRateMCS7_MCS4		0x7f7f7f7f
++#define		bTxAGCRateMCS11_MCS8	0x7f7f7f7f
++#define		bTxAGCRateMCS15_MCS12	0x7f7f7f7f
++
++/* Rx Pseduo noise */
++#define		bRxPesudoNoiseOn         0x20000000	/* Useless */
++#define		bRxPesudoNoise_A         0xff
++#define		bRxPesudoNoise_B         0xff00
++#define		bRxPesudoNoise_C         0xff0000
++#define		bRxPesudoNoise_D         0xff000000
++#define		bPesudoNoiseState_A      0xffff
++#define		bPesudoNoiseState_B      0xffff0000
++#define		bPesudoNoiseState_C      0xffff
++#define		bPesudoNoiseState_D      0xffff0000
++
++/* 7. RF Register
++ * Zebra1 */
++#define		bZebra1_HSSIEnable        0x8		/* Useless */
++#define		bZebra1_TRxControl        0xc00
++#define		bZebra1_TRxGainSetting    0x07f
++#define		bZebra1_RxCorner          0xc00
++#define		bZebra1_TxChargePump      0x38
++#define		bZebra1_RxChargePump      0x7
++#define		bZebra1_ChannelNum        0xf80
++#define		bZebra1_TxLPFBW           0x400
++#define		bZebra1_RxLPFBW           0x600
++
++/* Zebra4 */
++#define		bRTL8256RegModeCtrl1      0x100	/* Useless */
++#define		bRTL8256RegModeCtrl0      0x40
++#define		bRTL8256_TxLPFBW          0x18
++#define		bRTL8256_RxLPFBW          0x600
++
++/* RTL8258 */
++#define		bRTL8258_TxLPFBW          0xc	/* Useless */
++#define		bRTL8258_RxLPFBW          0xc00
++#define		bRTL8258_RSSILPFBW        0xc0
++
++
++/*
++ * Other Definition
++ *   */
++
++/* byte endable for sb_write */
++#define		bByte0                    0x1	/* Useless */
++#define		bByte1                    0x2
++#define		bByte2                    0x4
++#define		bByte3                    0x8
++#define		bWord0                    0x3
++#define		bWord1                    0xc
++#define		bDWord                    0xf
++
++/* for PutRegsetting & GetRegSetting BitMask */
++#define		bMaskByte0		0xff	/* Reg 0xc50 rOFDM0_XAAGCCore~0xC6f */
++#define		bMaskByte1		0xff00
++#define		bMaskByte2		0xff0000
++#define		bMaskByte3		0xff000000
++#define		bMaskHWord	0xffff0000
++#define		bMaskLWord		0x0000ffff
++#define		bMaskDWord	0xffffffff
++#define		bMaskH4Bits		0xf0000000
++#define		bMaskH3Bytes	0xffffff00
++#define		bMaskOFDM_D	0xffc00000
++#define		bMaskCCK		0x3f3f3f3f
++#define		bMask12Bits		0xfff
++
++/* for PutRFRegsetting & GetRFRegSetting BitMask */
++#if (RTL92SE_FPGA_VERIFY == 1)
++/* #define		bMask12Bits               0xfff */	/* RF Reg mask bits */
++/* #define		bMask20Bits               0xfff */	/* RF Reg mask bits T65 RF */
++#define		bRFRegOffsetMask	0xfff
++#else
++/* #define		bMask12Bits               0xfffff */	/* RF Reg mask bits */
++/* #define		bMask20Bits               0xfffff */	/* RF Reg mask bits T65 RF */
++#define		bRFRegOffsetMask	0xfffff
++#endif
++#define		bEnable                   0x1	/* Useless */
++#define		bDisable                  0x0
++
++#define		LeftAntenna               0x0	/* Useless */
++#define		RightAntenna              0x1
++
++#define		tCheckTxStatus            500   /* 500ms */ /* Useless */
++#define		tUpdateRxCounter          100   /* 100ms */
++
++#define		rateCCK     0	/* Useless */
++#define		rateOFDM    1
++#define		rateHT      2
++
++/* define Register-End */
++#define		bPMAC_End                 0x1ff	/* Useless */
++#define		bFPGAPHY0_End             0x8ff
++#define		bFPGAPHY1_End             0x9ff
++#define		bCCKPHY0_End              0xaff
++#define		bOFDMPHY0_End             0xcff
++#define		bOFDMPHY1_End             0xdff
++
++/* define max debug item in each debug page
++ * #define bMaxItem_FPGA_PHY0        0x9
++ * #define bMaxItem_FPGA_PHY1        0x3
++ * #define bMaxItem_PHY_11B          0x16
++ * #define bMaxItem_OFDM_PHY0        0x29
++ * #define bMaxItem_OFDM_PHY1        0x0 */
++
++#define		bPMACControl	0x0		/* Useless */
++#define		bWMACControl	0x1
++#define		bWNICControl	0x2
++
++#if 0
++#define		ANTENNA_A	0x1	/* Useless */
++#define		ANTENNA_B	0x2
++#define		ANTENNA_AB	0x3	/* ANTENNA_A | ANTENNA_B */
++
++#define		ANTENNA_C	0x4
++#define		ANTENNA_D	0x8
++#endif
++
++#define RCR_AAP			BIT(0)				/* accept all physical address */
++#define RCR_APM			BIT(1)				/* accept physical match */
++#define RCR_AM			BIT(2)				/* accept multicast */
++#define RCR_AB			BIT(3)				/* accept broadcast */
++#define RCR_ACRC32		BIT(5)				/* accept error packet */
++#define RCR_9356SEL		BIT(6)
++#define RCR_AICV		BIT(9)				/* Accept ICV error packet */
++#define RCR_RXFTH0		(BIT(13) | BIT(14) | BIT(15))	/* Rx FIFO threshold */
++#define RCR_ADF			BIT(18)				/* Accept Data(frame type) frame */
++#define RCR_ACF			BIT(19)				/* Accept control frame */
++#define RCR_AMF			BIT(20)				/* Accept management frame */
++#define RCR_ADD3		BIT(21)
++#define RCR_APWRMGT		BIT(22)				/* Accept power management packet */
++#define RCR_CBSSID		BIT(23)				/* Accept BSSID match packet */
++#define RCR_ENMARP		BIT(28)				/* enable mac auto reset phy */
++#define RCR_EnCS1		BIT(29)				/* enable carrier sense method 1 */
++#define RCR_EnCS2		BIT(30)				/* enable carrier sense method 2 */
++#define RCR_OnlyErlPkt		BIT(31)				/* Rx Early mode is performed for packet size greater than 1536 */
++
++/*--------------------------Define Parameters-------------------------------*/
++
++
++#endif /* __INC_HAL8192SPHYREG_H */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_odm.h b/drivers/net/wireless/rtl8812au/include/rtw_odm.h
+new file mode 100644
+index 0000000..c9f1150
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_odm.h
+@@ -0,0 +1,51 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_ODM_H__
++#define __RTW_ODM_H__
++
++#include <drv_types.h>
++#include "../hal/phydm/phydm_types.h"
++/*
++* This file provides utilities/wrappers for rtw driver to use ODM
++*/
++
++
++void rtw_odm_init_ic_type(_adapter *adapter);
++
++void rtw_odm_set_force_igi_lb(_adapter *adapter, u8 lb);
++u8 rtw_odm_get_force_igi_lb(_adapter *adapter);
++
++void rtw_odm_adaptivity_config_msg(void *sel, _adapter *adapter);
++
++bool rtw_odm_adaptivity_needed(_adapter *adapter);
++void rtw_odm_adaptivity_parm_msg(void *sel, _adapter *adapter);
++void rtw_odm_adaptivity_parm_set(_adapter *adapter, s8 TH_L2H_ini, s8 TH_EDCCA_HL_diff, s8 TH_L2H_ini_mode2, s8 TH_EDCCA_HL_diff_mode2, u8 EDCCA_enable);
++void rtw_odm_get_perpkt_rssi(void *sel, _adapter *adapter);
++void rtw_odm_acquirespinlock(_adapter *adapter,	RT_SPINLOCK_TYPE type);
++void rtw_odm_releasespinlock(_adapter *adapter,	RT_SPINLOCK_TYPE type);
++
++#ifdef CONFIG_DFS_MASTER
++u8 rtw_odm_get_dfs_domain(_adapter *adapter);
++VOID rtw_odm_radar_detect_reset(_adapter *adapter);
++VOID rtw_odm_radar_detect_disable(_adapter *adapter);
++VOID rtw_odm_radar_detect_enable(_adapter *adapter);
++BOOLEAN rtw_odm_radar_detect(_adapter *adapter);
++#endif /* CONFIG_DFS_MASTER */
++#endif /* __RTW_ODM_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_p2p.h b/drivers/net/wireless/rtl8812au/include/rtw_p2p.h
+new file mode 100644
+index 0000000..ce32c72
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_p2p.h
+@@ -0,0 +1,176 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_P2P_H_
++#define __RTW_P2P_H_
++
++
++u32 build_beacon_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_probe_resp_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_prov_disc_request_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf, u8 *pssid, u8 ussidlen, u8 *pdev_raddr);
++u32 build_assoc_resp_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf, u8 status_code);
++u32 build_deauth_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++#ifdef CONFIG_WFD
++int rtw_init_wifi_display_info(_adapter *padapter);
++void rtw_wfd_enable(_adapter *adapter, bool on);
++void rtw_wfd_set_ctrl_port(_adapter *adapter, u16 port);
++void rtw_tdls_wfd_enable(_adapter *adapter, bool on);
++
++u32 build_probe_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_probe_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf, u8 tunneled);
++u32 build_beacon_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_nego_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_nego_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_nego_confirm_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_invitation_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_invitation_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_assoc_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_assoc_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_provdisc_req_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++u32 build_provdisc_resp_wfd_ie(struct wifidirect_info *pwdinfo, u8 *pbuf);
++
++u32 rtw_append_beacon_wfd_ie(_adapter *adapter, u8 *pbuf);
++u32 rtw_append_probe_req_wfd_ie(_adapter *adapter, u8 *pbuf);
++u32 rtw_append_probe_resp_wfd_ie(_adapter *adapter, u8 *pbuf);
++u32 rtw_append_assoc_req_wfd_ie(_adapter *adapter, u8 *pbuf);
++u32 rtw_append_assoc_resp_wfd_ie(_adapter *adapter, u8 *pbuf);
++#endif /*CONFIG_WFD */
++
++void rtw_xframe_chk_wfd_ie(struct xmit_frame *xframe);
++
++u32 process_probe_req_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pframe, uint len);
++u32 process_assoc_req_p2p_ie(struct wifidirect_info *pwdinfo, u8 *pframe, uint len, struct sta_info *psta);
++u32 process_p2p_devdisc_req(struct wifidirect_info *pwdinfo, u8 *pframe, uint len);
++u32 process_p2p_devdisc_resp(struct wifidirect_info *pwdinfo, u8 *pframe, uint len);
++u8 process_p2p_provdisc_req(struct wifidirect_info *pwdinfo,  u8 *pframe, uint len);
++u8 process_p2p_provdisc_resp(struct wifidirect_info *pwdinfo,  u8 *pframe);
++u8 process_p2p_group_negotation_req(struct wifidirect_info *pwdinfo, u8 *pframe, uint len);
++u8 process_p2p_group_negotation_resp(struct wifidirect_info *pwdinfo, u8 *pframe, uint len);
++u8 process_p2p_group_negotation_confirm(struct wifidirect_info *pwdinfo, u8 *pframe, uint len);
++u8 process_p2p_presence_req(struct wifidirect_info *pwdinfo, u8 *pframe, uint len);
++int process_p2p_cross_connect_ie(PADAPTER padapter, u8 *IEs, u32 IELength);
++
++void p2p_protocol_wk_hdl(_adapter *padapter, int intCmdType);
++
++#ifdef CONFIG_P2P_PS
++void	process_p2p_ps_ie(PADAPTER padapter, u8 *IEs, u32 IELength);
++void	p2p_ps_wk_hdl(_adapter *padapter, u8 p2p_ps_state);
++u8	p2p_ps_wk_cmd(_adapter *padapter, u8 p2p_ps_state, u8 enqueue);
++#endif /* CONFIG_P2P_PS */
++
++#ifdef CONFIG_IOCTL_CFG80211
++void rtw_init_cfg80211_wifidirect_info(_adapter	*padapter);
++int rtw_p2p_check_frames(_adapter *padapter, const u8 *buf, u32 len, u8 tx);
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++void reset_global_wifidirect_info(_adapter *padapter);
++void rtw_init_wifidirect_timers(_adapter *padapter);
++void rtw_init_wifidirect_addrs(_adapter *padapter, u8 *dev_addr, u8 *iface_addr);
++void init_wifidirect_info(_adapter *padapter, enum P2P_ROLE role);
++int rtw_p2p_enable(_adapter *padapter, enum P2P_ROLE role);
++
++static inline void _rtw_p2p_set_state(struct wifidirect_info *wdinfo, enum P2P_STATE state)
++{
++	if (wdinfo->p2p_state != state) {
++		/* wdinfo->pre_p2p_state = wdinfo->p2p_state; */
++		wdinfo->p2p_state = state;
++	}
++}
++static inline void _rtw_p2p_set_pre_state(struct wifidirect_info *wdinfo, enum P2P_STATE state)
++{
++	if (wdinfo->pre_p2p_state != state)
++		wdinfo->pre_p2p_state = state;
++}
++#if 0
++static inline void _rtw_p2p_restore_state(struct wifidirect_info *wdinfo)
++{
++	if (wdinfo->pre_p2p_state != -1) {
++		wdinfo->p2p_state = wdinfo->pre_p2p_state;
++		wdinfo->pre_p2p_state = -1;
++	}
++}
++#endif
++static inline void _rtw_p2p_set_role(struct wifidirect_info *wdinfo, enum P2P_ROLE role)
++{
++	if (wdinfo->role != role)
++		wdinfo->role = role;
++}
++static inline int _rtw_p2p_state(struct wifidirect_info *wdinfo)
++{
++	return wdinfo->p2p_state;
++}
++static inline int _rtw_p2p_pre_state(struct wifidirect_info *wdinfo)
++{
++	return wdinfo->pre_p2p_state;
++}
++static inline int _rtw_p2p_role(struct wifidirect_info *wdinfo)
++{
++	return wdinfo->role;
++}
++static inline bool _rtw_p2p_chk_state(struct wifidirect_info *wdinfo, enum P2P_STATE state)
++{
++	return wdinfo->p2p_state == state;
++}
++static inline bool _rtw_p2p_chk_role(struct wifidirect_info *wdinfo, enum P2P_ROLE role)
++{
++	return wdinfo->role == role;
++}
++
++#ifdef CONFIG_DBG_P2P
++void dbg_rtw_p2p_set_state(struct wifidirect_info *wdinfo, enum P2P_STATE state, const char *caller, int line);
++void dbg_rtw_p2p_set_pre_state(struct wifidirect_info *wdinfo, enum P2P_STATE state, const char *caller, int line);
++/* void dbg_rtw_p2p_restore_state(struct wifidirect_info *wdinfo, const char *caller, int line); */
++void dbg_rtw_p2p_set_role(struct wifidirect_info *wdinfo, enum P2P_ROLE role, const char *caller, int line);
++#define rtw_p2p_set_state(wdinfo, state) dbg_rtw_p2p_set_state(wdinfo, state, __FUNCTION__, __LINE__)
++#define rtw_p2p_set_pre_state(wdinfo, state) dbg_rtw_p2p_set_pre_state(wdinfo, state, __FUNCTION__, __LINE__)
++#define rtw_p2p_set_role(wdinfo, role) dbg_rtw_p2p_set_role(wdinfo, role, __FUNCTION__, __LINE__)
++/* #define rtw_p2p_restore_state(wdinfo) dbg_rtw_p2p_restore_state(wdinfo, __FUNCTION__, __LINE__) */
++#else /* CONFIG_DBG_P2P */
++#define rtw_p2p_set_state(wdinfo, state) _rtw_p2p_set_state(wdinfo, state)
++#define rtw_p2p_set_pre_state(wdinfo, state) _rtw_p2p_set_pre_state(wdinfo, state)
++#define rtw_p2p_set_role(wdinfo, role) _rtw_p2p_set_role(wdinfo, role)
++/* #define rtw_p2p_restore_state(wdinfo) _rtw_p2p_restore_state(wdinfo) */
++#endif /* CONFIG_DBG_P2P */
++
++#define rtw_p2p_state(wdinfo) _rtw_p2p_state(wdinfo)
++#define rtw_p2p_pre_state(wdinfo) _rtw_p2p_pre_state(wdinfo)
++#define rtw_p2p_role(wdinfo) _rtw_p2p_role(wdinfo)
++#define rtw_p2p_chk_state(wdinfo, state) _rtw_p2p_chk_state(wdinfo, state)
++#define rtw_p2p_chk_role(wdinfo, role) _rtw_p2p_chk_role(wdinfo, role)
++
++#define rtw_p2p_findphase_ex_set(wdinfo, value) \
++	(wdinfo)->find_phase_state_exchange_cnt = (value)
++
++#ifdef CONFIG_P2P
++/* is this find phase exchange for social channel scan? */
++#define rtw_p2p_findphase_ex_is_social(wdinfo)   \
++	(wdinfo)->find_phase_state_exchange_cnt >= P2P_FINDPHASE_EX_SOCIAL_FIRST
++
++/* should we need find phase exchange anymore? */
++#define rtw_p2p_findphase_ex_is_needed(wdinfo) \
++	((wdinfo)->find_phase_state_exchange_cnt < P2P_FINDPHASE_EX_MAX && \
++	 (wdinfo)->find_phase_state_exchange_cnt != P2P_FINDPHASE_EX_NONE && \
++	 !(wdinfo)->rx_invitereq_info.scan_op_ch_only && \
++	 !(wdinfo)->p2p_info.scan_op_ch_only)
++#else
++#define rtw_p2p_findphase_ex_is_social(wdinfo) 0
++#define rtw_p2p_findphase_ex_is_needed(wdinfo) 0
++#endif /* CONFIG_P2P */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_pwrctrl.h b/drivers/net/wireless/rtl8812au/include/rtw_pwrctrl.h
+new file mode 100644
+index 0000000..e96676d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_pwrctrl.h
+@@ -0,0 +1,561 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_PWRCTRL_H_
++#define __RTW_PWRCTRL_H_
++
++
++#define FW_PWR0	0
++#define FW_PWR1	1
++#define FW_PWR2	2
++#define FW_PWR3	3
++
++
++#define HW_PWR0	7
++#define HW_PWR1	6
++#define HW_PWR2	2
++#define HW_PWR3	0
++#define HW_PWR4	8
++
++#define FW_PWRMSK	0x7
++
++
++#define XMIT_ALIVE	BIT(0)
++#define RECV_ALIVE	BIT(1)
++#define CMD_ALIVE	BIT(2)
++#define EVT_ALIVE	BIT(3)
++#ifdef CONFIG_BT_COEXIST
++#define BTCOEX_ALIVE	BIT(4)
++#endif /* CONFIG_BT_COEXIST */
++
++#ifdef CONFIG_WOWLAN
++#ifdef CONFIG_DEFAULT_PATTERNS_EN
++	#ifdef CONFIG_PLATFORM_ANDROID_INTEL_X86
++		/* TCP/ICMP/UDP multicast with specific IP addr */
++		#define DEFAULT_PATTERN_NUM 3
++	#else
++		/* TCP/ICMP */
++		#define DEFAULT_PATTERN_NUM 2
++	#endif
++#else
++	#define DEFAULT_PATTERN_NUM 0
++#endif /*CONFIG_DEFAULT_PATTERNS_EN*/
++
++#ifdef CONFIG_WOW_PATTERN_HW_CAM	/* Frame Mask Cam number for pattern match */
++#define MAX_WKFM_CAM_NUM	12
++#else
++#define MAX_WKFM_CAM_NUM	16
++#endif
++
++#define MAX_WKFM_SIZE	16 /* (16 bytes for WKFM bit mask, 16*8 = 128 bits) */
++#define MAX_WKFM_PATTERN_SIZE	128
++#define WKFMCAM_ADDR_NUM 6
++#define WKFMCAM_SIZE 24 /* each entry need 6*4 bytes */
++enum pattern_type {
++	PATTERN_BROADCAST = 0,
++	PATTERN_MULTICAST,
++	PATTERN_UNICAST,
++	PATTERN_VALID,
++	PATTERN_INVALID,
++};
++
++typedef struct rtl_priv_pattern {
++	int len;
++	char content[MAX_WKFM_PATTERN_SIZE];
++	char mask[MAX_WKFM_SIZE];
++} rtl_priv_pattern_t;
++
++#endif /* CONFIG_WOWLAN */
++
++enum Power_Mgnt {
++	PS_MODE_ACTIVE	= 0	,
++	PS_MODE_MIN			,
++	PS_MODE_MAX			,
++	PS_MODE_DTIM			,	/* PS_MODE_SELF_DEFINED */
++	PS_MODE_VOIP			,
++	PS_MODE_UAPSD_WMM	,
++	PS_MODE_UAPSD			,
++	PS_MODE_IBSS			,
++	PS_MODE_WWLAN		,
++	PM_Radio_Off			,
++	PM_Card_Disable		,
++	PS_MODE_NUM,
++};
++
++#ifdef CONFIG_PNO_SUPPORT
++#define MAX_PNO_LIST_COUNT 16
++#define MAX_SCAN_LIST_COUNT 14	/* 2.4G only */
++#define MAX_HIDDEN_AP 8		/* 8 hidden AP */
++#endif
++
++/*
++	BIT[2:0] = HW state
++	BIT[3] = Protocol PS state,   0: register active state , 1: register sleep state
++	BIT[4] = sub-state
++*/
++
++#define PS_DPS				BIT(0)
++#define PS_LCLK				(PS_DPS)
++#define PS_RF_OFF			BIT(1)
++#define PS_ALL_ON			BIT(2)
++#define PS_ST_ACTIVE		BIT(3)
++
++#define PS_ISR_ENABLE		BIT(4)
++#define PS_IMR_ENABLE		BIT(5)
++#define PS_ACK				BIT(6)
++#define PS_TOGGLE			BIT(7)
++
++#define PS_STATE_MASK		(0x0F)
++#define PS_STATE_HW_MASK	(0x07)
++#define PS_SEQ_MASK			(0xc0)
++
++#define PS_STATE(x)		(PS_STATE_MASK & (x))
++#define PS_STATE_HW(x)	(PS_STATE_HW_MASK & (x))
++#define PS_SEQ(x)		(PS_SEQ_MASK & (x))
++
++#define PS_STATE_S0		(PS_DPS)
++#define PS_STATE_S1		(PS_LCLK)
++#define PS_STATE_S2		(PS_RF_OFF)
++#define PS_STATE_S3		(PS_ALL_ON)
++#define PS_STATE_S4		((PS_ST_ACTIVE) | (PS_ALL_ON))
++
++
++#define PS_IS_RF_ON(x)	((x) & (PS_ALL_ON))
++#define PS_IS_ACTIVE(x)	((x) & (PS_ST_ACTIVE))
++#define CLR_PS_STATE(x)	((x) = ((x) & (0xF0)))
++
++
++struct reportpwrstate_parm {
++	unsigned char mode;
++	unsigned char state; /* the CPWM value */
++	unsigned short rsvd;
++};
++
++
++typedef _sema _pwrlock;
++
++
++__inline static void _init_pwrlock(_pwrlock *plock)
++{
++	_rtw_init_sema(plock, 1);
++}
++
++__inline static void _free_pwrlock(_pwrlock *plock)
++{
++	_rtw_free_sema(plock);
++}
++
++
++__inline static void _enter_pwrlock(_pwrlock *plock)
++{
++	_rtw_down_sema(plock);
++}
++
++
++__inline static void _exit_pwrlock(_pwrlock *plock)
++{
++	_rtw_up_sema(plock);
++}
++
++#define LPS_DELAY_TIME	1*HZ /* 1 sec */
++
++#define EXE_PWR_NONE	0x01
++#define EXE_PWR_IPS		0x02
++#define EXE_PWR_LPS		0x04
++
++/* RF state. */
++typedef enum _rt_rf_power_state {
++	rf_on,		/* RF is on after RFSleep or RFOff */
++	rf_sleep,	/* 802.11 Power Save mode */
++	rf_off,		/* HW/SW Radio OFF or Inactive Power Save */
++	/* =====Add the new RF state above this line===== */
++	rf_max
++} rt_rf_power_state;
++
++/* RF Off Level for IPS or HW/SW radio off */
++#define	RT_RF_OFF_LEVL_ASPM			BIT(0)	/* PCI ASPM */
++#define	RT_RF_OFF_LEVL_CLK_REQ		BIT(1)	/* PCI clock request */
++#define	RT_RF_OFF_LEVL_PCI_D3			BIT(2)	/* PCI D3 mode */
++#define	RT_RF_OFF_LEVL_HALT_NIC		BIT(3)	/* NIC halt, re-initialize hw parameters */
++#define	RT_RF_OFF_LEVL_FREE_FW		BIT(4)	/* FW free, re-download the FW */
++#define	RT_RF_OFF_LEVL_FW_32K		BIT(5)	/* FW in 32k */
++#define	RT_RF_PS_LEVEL_ALWAYS_ASPM	BIT(6)	/* Always enable ASPM and Clock Req in initialization. */
++#define	RT_RF_LPS_DISALBE_2R			BIT(30)	/* When LPS is on, disable 2R if no packet is received or transmittd. */
++#define	RT_RF_LPS_LEVEL_ASPM			BIT(31)	/* LPS with ASPM */
++
++#define	RT_IN_PS_LEVEL(ppsc, _PS_FLAG)		((ppsc->cur_ps_level & _PS_FLAG) ? _TRUE : _FALSE)
++#define	RT_CLEAR_PS_LEVEL(ppsc, _PS_FLAG)	(ppsc->cur_ps_level &= (~(_PS_FLAG)))
++#define	RT_SET_PS_LEVEL(ppsc, _PS_FLAG)		(ppsc->cur_ps_level |= _PS_FLAG)
++
++/* ASPM OSC Control bit, added by Roger, 2013.03.29. */
++#define	RT_PCI_ASPM_OSC_IGNORE		0	 /* PCI ASPM ignore OSC control in default */
++#define	RT_PCI_ASPM_OSC_ENABLE		BIT0 /* PCI ASPM controlled by OS according to ACPI Spec 5.0 */
++#define	RT_PCI_ASPM_OSC_DISABLE		BIT1 /* PCI ASPM controlled by driver or BIOS, i.e., force enable ASPM */
++
++
++enum _PS_BBRegBackup_ {
++	PSBBREG_RF0 = 0,
++	PSBBREG_RF1,
++	PSBBREG_RF2,
++	PSBBREG_AFE0,
++	PSBBREG_TOTALCNT
++};
++
++enum { /* for ips_mode */
++	IPS_NONE = 0,
++	IPS_NORMAL,
++	IPS_LEVEL_2,
++	IPS_NUM
++};
++
++/* Design for pwrctrl_priv.ips_deny, 32 bits for 32 reasons at most */
++typedef enum _PS_DENY_REASON {
++	PS_DENY_DRV_INITIAL = 0,
++	PS_DENY_SCAN,
++	PS_DENY_JOIN,
++	PS_DENY_DISCONNECT,
++	PS_DENY_SUSPEND,
++	PS_DENY_IOCTL,
++	PS_DENY_MGNT_TX,
++	PS_DENY_MONITOR_MODE,
++	PS_DENY_DRV_REMOVE = 30,
++	PS_DENY_OTHERS = 31
++} PS_DENY_REASON;
++
++#ifdef CONFIG_PNO_SUPPORT
++typedef struct pno_nlo_info {
++	u32 fast_scan_period;				/* Fast scan period */
++	u8	ssid_num;				/* number of entry */
++	u8	hidden_ssid_num;
++	u32	slow_scan_period;			/* slow scan period */
++	u32	fast_scan_iterations;			/* Fast scan iterations */
++	u8	ssid_length[MAX_PNO_LIST_COUNT];	/* SSID Length Array */
++	u8	ssid_cipher_info[MAX_PNO_LIST_COUNT];	/* Cipher information for security */
++	u8	ssid_channel_info[MAX_PNO_LIST_COUNT];	/* channel information */
++	u8	loc_probe_req[MAX_HIDDEN_AP];		/* loc_probeReq */
++} pno_nlo_info_t;
++
++typedef struct pno_ssid {
++	u32		SSID_len;
++	u8		SSID[32];
++} pno_ssid_t;
++
++typedef struct pno_ssid_list {
++	pno_ssid_t	node[MAX_PNO_LIST_COUNT];
++} pno_ssid_list_t;
++
++typedef struct pno_scan_channel_info {
++	u8	channel;
++	u8	tx_power;
++	u8	timeout;
++	u8	active;				/* set 1 means active scan, or pasivite scan. */
++} pno_scan_channel_info_t;
++
++typedef struct pno_scan_info {
++	u8	enableRFE;			/* Enable RFE */
++	u8	period_scan_time;		/* exclusive with fast_scan_period and slow_scan_period */
++	u8	periodScan;			/* exclusive with fast_scan_period and slow_scan_period */
++	u8	orig_80_offset;			/* original channel 80 offset */
++	u8	orig_40_offset;			/* original channel 40 offset */
++	u8	orig_bw;			/* original bandwidth */
++	u8	orig_ch;			/* original channel */
++	u8	channel_num;			/* number of channel */
++	u64	rfe_type;			/* rfe_type && 0x00000000000000ff */
++	pno_scan_channel_info_t ssid_channel_info[MAX_SCAN_LIST_COUNT];
++} pno_scan_info_t;
++#endif /* CONFIG_PNO_SUPPORT */
++
++#ifdef CONFIG_LPS_POFF
++/* Driver context for LPS 32K Close IO Power */
++typedef struct lps_poff_info {
++	bool	bEn;
++	u8	*pStaticFile;
++	u8	*pDynamicFile;
++	u32	ConfFileOffset;
++	u32	tx_bndy_static;
++	u32	tx_bndy_dynamic;
++	u16	ConfLenForPTK;
++	u16	ConfLenForGTK;
++	ATOMIC_T bEnterPOFF;
++	ATOMIC_T bTxBoundInProgress;
++	ATOMIC_T bSetPOFFParm;
++} lps_poff_info_t;
++#endif /*CONFIG_LPS_POFF*/
++
++#ifdef CONFIG_WOW_PATTERN_HW_CAM
++struct aoac_report {
++	u8 iv[8];
++	u8 replay_counter_eapol_key[8];
++	u8 group_key[32];
++	u8 key_index;
++	u8 scurity_type;
++};
++#endif
++
++struct pwrctrl_priv {
++	_pwrlock	lock;
++	_pwrlock	check_32k_lock;
++	volatile u8 rpwm; /* requested power state for fw */
++	volatile u8 cpwm; /* fw current power state. updated when 1. read from HCPWM 2. driver lowers power level */
++	volatile u8 tog; /* toggling */
++	volatile u8 cpwm_tog; /* toggling */
++
++	u8	pwr_mode;
++	u8	smart_ps;
++	u8	bcn_ant_mode;
++	u8	dtim;
++
++	u32	alives;
++	_workitem cpwm_event;
++	_workitem dma_event; /*for handle un-synchronized tx dma*/
++#ifdef CONFIG_LPS_RPWM_TIMER
++	u8 brpwmtimeout;
++	_workitem rpwmtimeoutwi;
++	_timer pwr_rpwm_timer;
++#endif /* CONFIG_LPS_RPWM_TIMER */
++	u8	bpower_saving; /* for LPS/IPS */
++
++	u8	b_hw_radio_off;
++	u8	reg_rfoff;
++	u8	reg_pdnmode; /* powerdown mode */
++	u32	rfoff_reason;
++
++	/* RF OFF Level */
++	u32	cur_ps_level;
++	u32	reg_rfps_level;
++
++	uint	ips_enter_cnts;
++	uint	ips_leave_cnts;
++	uint	lps_enter_cnts;
++	uint	lps_leave_cnts;
++
++	u8	ips_mode;
++	u8	ips_org_mode;
++	u8	ips_mode_req; /* used to accept the mode setting request, will update to ipsmode later */
++	uint bips_processing;
++	u32 ips_deny_time; /* will deny IPS when system time is smaller than this */
++	u8 pre_ips_type;/* 0: default flow, 1: carddisbale flow */
++
++	/* ps_deny: if 0, power save is free to go; otherwise deny all kinds of power save. */
++	/* Use PS_DENY_REASON to decide reason. */
++	/* Don't access this variable directly without control function, */
++	/* and this variable should be protected by lock. */
++	u32 ps_deny;
++
++	u8 ps_processing; /* temporarily used to mark whether in rtw_ps_processor */
++
++	u8 fw_psmode_iface_id;
++	u8	bLeisurePs;
++	u8	LpsIdleCount;
++	u8	power_mgnt;
++	u8	org_power_mgnt;
++	u8	bFwCurrentInPSMode;
++	u32	DelayLPSLastTimeStamp;
++	s32		pnp_current_pwr_state;
++	u8		pnp_bstop_trx;
++
++
++	u8		bInternalAutoSuspend;
++	u8		bInSuspend;
++#ifdef CONFIG_BT_COEXIST
++	u8		bAutoResume;
++	u8		autopm_cnt;
++#endif
++	u8		bSupportRemoteWakeup;
++	u8		wowlan_wake_reason;
++	u8		wowlan_last_wake_reason;
++	u8		wowlan_ap_mode;
++	u8		wowlan_mode;
++	u8		wowlan_p2p_mode;
++	u8		wowlan_pno_enable;
++#ifdef CONFIG_GPIO_WAKEUP
++	u8		is_high_active;
++#endif /* CONFIG_GPIO_WAKEUP */
++#ifdef CONFIG_WOWLAN
++	u8		wowlan_txpause_status;
++	u8		wowlan_pattern_idx;
++	u64		wowlan_fw_iv;
++	struct rtl_priv_pattern	patterns[MAX_WKFM_CAM_NUM];
++#ifdef CONFIG_PNO_SUPPORT
++	u8		pno_in_resume;
++	u8		pno_inited;
++	pno_nlo_info_t	*pnlo_info;
++	pno_scan_info_t	*pscan_info;
++	pno_ssid_list_t	*pno_ssid_list;
++#endif /* CONFIG_PNO_SUPPORT */
++#ifdef CONFIG_WOW_PATTERN_HW_CAM
++	_mutex	wowlan_pattern_cam_mutex;
++	u8		wowlan_aoac_rpt_loc;
++	struct aoac_report wowlan_aoac_rpt;
++#endif
++
++#endif /* CONFIG_WOWLAN */
++	_timer	pwr_state_check_timer;
++	int		pwr_state_check_interval;
++	u8		pwr_state_check_cnts;
++
++	int		ps_flag; /* used by autosuspend */
++
++	rt_rf_power_state	rf_pwrstate;/* cur power state, only for IPS */
++	/* rt_rf_power_state	current_rfpwrstate; */
++	rt_rf_power_state	change_rfpwrstate;
++
++	u8		bHWPowerdown; /* power down mode selection. 0:radio off, 1:power down */
++	u8		bHWPwrPindetect; /* come from registrypriv.hwpwrp_detect. enable power down function. 0:disable, 1:enable */
++	u8		bkeepfwalive;
++	u8		brfoffbyhw;
++	unsigned long PS_BBRegBackup[PSBBREG_TOTALCNT];
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++	struct workqueue_struct *rtw_workqueue;
++	_workitem resume_work;
++#endif
++
++#ifdef CONFIG_HAS_EARLYSUSPEND
++	struct early_suspend early_suspend;
++	u8 do_late_resume;
++#endif /* CONFIG_HAS_EARLYSUSPEND */
++
++#ifdef CONFIG_ANDROID_POWER
++	android_early_suspend_t early_suspend;
++	u8 do_late_resume;
++#endif
++
++#ifdef CONFIG_INTEL_PROXIM
++	u8	stored_power_mgnt;
++#endif
++
++#ifdef CONFIG_LPS_POFF
++	lps_poff_info_t	*plps_poff_info;
++#endif
++
++#ifdef CONFIG_LPS_PG
++	u8 lpspg_rsvd_page_locate;
++	u8 blpspg_info_up;
++#endif
++};
++
++#define rtw_get_ips_mode_req(pwrctl) \
++	(pwrctl)->ips_mode_req
++
++#define rtw_ips_mode_req(pwrctl, ips_mode) \
++	(pwrctl)->ips_mode_req = (ips_mode)
++
++#define RTW_PWR_STATE_CHK_INTERVAL 2000
++
++#define _rtw_set_pwr_state_check_timer(pwrctl, ms) \
++	do { \
++		/*RTW_INFO("%s _rtw_set_pwr_state_check_timer(%p, %d)\n", __FUNCTION__, (pwrctl), (ms));*/ \
++		_set_timer(&(pwrctl)->pwr_state_check_timer, (ms)); \
++	} while (0)
++
++#define rtw_set_pwr_state_check_timer(pwrctl) \
++	_rtw_set_pwr_state_check_timer((pwrctl), (pwrctl)->pwr_state_check_interval)
++
++extern void rtw_init_pwrctrl_priv(_adapter *adapter);
++extern void rtw_free_pwrctrl_priv(_adapter *adapter);
++
++#ifdef CONFIG_LPS_LCLK
++s32 rtw_register_task_alive(PADAPTER, u32 task);
++void rtw_unregister_task_alive(PADAPTER, u32 task);
++extern s32 rtw_register_tx_alive(PADAPTER padapter);
++extern void rtw_unregister_tx_alive(PADAPTER padapter);
++extern s32 rtw_register_rx_alive(PADAPTER padapter);
++extern void rtw_unregister_rx_alive(PADAPTER padapter);
++extern s32 rtw_register_cmd_alive(PADAPTER padapter);
++extern void rtw_unregister_cmd_alive(PADAPTER padapter);
++extern s32 rtw_register_evt_alive(PADAPTER padapter);
++extern void rtw_unregister_evt_alive(PADAPTER padapter);
++extern void cpwm_int_hdl(PADAPTER padapter, struct reportpwrstate_parm *preportpwrstate);
++extern void LPS_Leave_check(PADAPTER padapter);
++#endif
++
++extern void LeaveAllPowerSaveMode(PADAPTER Adapter);
++extern void LeaveAllPowerSaveModeDirect(PADAPTER Adapter);
++#ifdef CONFIG_IPS
++void _ips_enter(_adapter *padapter);
++void ips_enter(_adapter *padapter);
++int _ips_leave(_adapter *padapter);
++int ips_leave(_adapter *padapter);
++#endif
++
++void rtw_ps_processor(_adapter *padapter);
++
++#ifdef CONFIG_AUTOSUSPEND
++int autoresume_enter(_adapter *padapter);
++#endif
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++rt_rf_power_state RfOnOffDetect(IN	PADAPTER pAdapter);
++#endif
++
++
++int rtw_fw_ps_state(PADAPTER padapter);
++
++#ifdef CONFIG_LPS
++s32 LPS_RF_ON_check(PADAPTER padapter, u32 delay_ms);
++void LPS_Enter(PADAPTER padapter, const char *msg);
++void LPS_Leave(PADAPTER padapter, const char *msg);
++void traffic_check_for_leave_lps(PADAPTER padapter, u8 tx, u32 tx_packets);
++void rtw_set_ps_mode(PADAPTER padapter, u8 ps_mode, u8 smart_ps, u8 bcn_ant_mode, const char *msg);
++void rtw_set_fw_in_ips_mode(PADAPTER padapter, u8 enable);
++void rtw_set_rpwm(_adapter *padapter, u8 val8);
++#endif
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++void rtw_resume_in_workqueue(struct pwrctrl_priv *pwrpriv);
++#endif /* CONFIG_RESUME_IN_WORKQUEUE */
++
++#if defined(CONFIG_HAS_EARLYSUSPEND) || defined(CONFIG_ANDROID_POWER)
++bool rtw_is_earlysuspend_registered(struct pwrctrl_priv *pwrpriv);
++bool rtw_is_do_late_resume(struct pwrctrl_priv *pwrpriv);
++void rtw_set_do_late_resume(struct pwrctrl_priv *pwrpriv, bool enable);
++void rtw_register_early_suspend(struct pwrctrl_priv *pwrpriv);
++void rtw_unregister_early_suspend(struct pwrctrl_priv *pwrpriv);
++#else
++#define rtw_is_earlysuspend_registered(pwrpriv) _FALSE
++#define rtw_is_do_late_resume(pwrpriv) _FALSE
++#define rtw_set_do_late_resume(pwrpriv, enable) do {} while (0)
++#define rtw_register_early_suspend(pwrpriv) do {} while (0)
++#define rtw_unregister_early_suspend(pwrpriv) do {} while (0)
++#endif /* CONFIG_HAS_EARLYSUSPEND || CONFIG_ANDROID_POWER */
++
++u8 rtw_interface_ps_func(_adapter *padapter, HAL_INTF_PS_FUNC efunc_id, u8 *val);
++void rtw_set_ips_deny(_adapter *padapter, u32 ms);
++int _rtw_pwr_wakeup(_adapter *padapter, u32 ips_deffer_ms, const char *caller);
++#define rtw_pwr_wakeup(adapter) _rtw_pwr_wakeup(adapter, RTW_PWR_STATE_CHK_INTERVAL, __FUNCTION__)
++#define rtw_pwr_wakeup_ex(adapter, ips_deffer_ms) _rtw_pwr_wakeup(adapter, ips_deffer_ms, __FUNCTION__)
++int rtw_pm_set_ips(_adapter *padapter, u8 mode);
++int rtw_pm_set_lps(_adapter *padapter, u8 mode);
++
++void rtw_ps_deny(PADAPTER padapter, PS_DENY_REASON reason);
++void rtw_ps_deny_cancel(PADAPTER padapter, PS_DENY_REASON reason);
++u32 rtw_ps_deny_get(PADAPTER padapter);
++
++#if defined(CONFIG_WOWLAN)
++void rtw_get_current_ip_address(PADAPTER padapter, u8 *pcurrentip);
++void rtw_get_sec_iv(PADAPTER padapter, u8 *pcur_dot11txpn, u8 *StaAddr);
++void rtw_set_sec_pn(_adapter *padapter);
++bool rtw_check_pattern_valid(u8 *input, u8 len);
++bool rtw_wowlan_parser_pattern_cmd(u8 *input, char *pattern,
++				int *pattern_len, char *bit_mask);
++void rtw_wow_pattern_sw_reset(_adapter *adapter);
++u8 rtw_set_default_pattern(_adapter *adapter);
++void rtw_wow_pattern_sw_dump(_adapter *adapter);
++#endif /* CONFIG_WOWLAN */
++#endif /* __RTL871X_PWRCTRL_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_qos.h b/drivers/net/wireless/rtl8812au/include/rtw_qos.h
+new file mode 100644
+index 0000000..57555e1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_qos.h
+@@ -0,0 +1,34 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#ifndef _RTW_QOS_H_
++#define _RTW_QOS_H_
++
++
++
++struct	qos_priv	{
++
++	unsigned int	  qos_option;	/* bit mask option: u-apsd, s-apsd, ts, block ack...		 */
++
++};
++
++
++#endif /* _RTL871X_QOS_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_recv.h b/drivers/net/wireless/rtl8812au/include/rtw_recv.h
+new file mode 100644
+index 0000000..87db5ac
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_recv.h
+@@ -0,0 +1,884 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_RECV_H_
++#define _RTW_RECV_H_
++
++#ifdef PLATFORM_OS_XP
++	#ifdef CONFIG_SDIO_HCI
++		#define NR_RECVBUFF 1024/* 512 */ /* 128 */
++	#else
++		#define NR_RECVBUFF (16)
++	#endif
++#elif defined(PLATFORM_OS_CE)
++	#ifdef CONFIG_SDIO_HCI
++		#define NR_RECVBUFF (128)
++	#else
++		#define NR_RECVBUFF (4)
++	#endif
++#else /* PLATFORM_LINUX /PLATFORM_BSD */
++
++	#ifdef CONFIG_SINGLE_RECV_BUF
++		#define NR_RECVBUFF (1)
++	#else
++		#if defined(CONFIG_GSPI_HCI)
++			#define NR_RECVBUFF (32)
++		#elif defined(CONFIG_SDIO_HCI)
++			#define NR_RECVBUFF (8)
++		#else
++			#define NR_RECVBUFF (8)
++		#endif
++	#endif /* CONFIG_SINGLE_RECV_BUF */
++	#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++		#define NR_PREALLOC_RECV_SKB (rtw_rtkm_get_nr_recv_skb()>>1)
++	#else /*!CONFIG_PREALLOC_RX_SKB_BUFFER */
++		#define NR_PREALLOC_RECV_SKB 8
++	#endif /* CONFIG_PREALLOC_RX_SKB_BUFFER */
++
++#endif
++
++#define NR_RECVFRAME 256
++
++#define RXFRAME_ALIGN	8
++#define RXFRAME_ALIGN_SZ	(1<<RXFRAME_ALIGN)
++
++#define DRVINFO_SZ	4 /* unit is 8bytes */
++
++#define MAX_RXFRAME_CNT	512
++#define MAX_RX_NUMBLKS		(32)
++#define RECVFRAME_HDR_ALIGN 128
++#define MAX_CONTINUAL_NORXPACKET_COUNT 4    /*  In MAX_CONTINUAL_NORXPACKET_COUNT*2 sec  , no rx traffict would issue DELBA*/
++
++#define PHY_RSSI_SLID_WIN_MAX				100
++#define PHY_LINKQUALITY_SLID_WIN_MAX		20
++
++
++#define SNAP_SIZE sizeof(struct ieee80211_snap_hdr)
++
++#define RX_MPDU_QUEUE				0
++#define RX_CMD_QUEUE				1
++#define RX_MAX_QUEUE				2
++
++static u8 SNAP_ETH_TYPE_IPX[2] = {0x81, 0x37};
++
++static u8 SNAP_ETH_TYPE_APPLETALK_AARP[2] = {0x80, 0xf3};
++static u8 SNAP_ETH_TYPE_APPLETALK_DDP[2] = {0x80, 0x9b};
++static u8 SNAP_ETH_TYPE_TDLS[2] = {0x89, 0x0d};
++static u8 SNAP_HDR_APPLETALK_DDP[3] = {0x08, 0x00, 0x07}; /* Datagram Delivery Protocol */
++
++static u8 oui_8021h[] = {0x00, 0x00, 0xf8};
++static u8 oui_rfc1042[] = {0x00, 0x00, 0x00};
++
++#define MAX_SUBFRAME_COUNT	64
++static u8 rtw_rfc1042_header[] = { 0xaa, 0xaa, 0x03, 0x00, 0x00, 0x00 };
++/* Bridge-Tunnel header (for EtherTypes ETH_P_AARP and ETH_P_IPX) */
++static u8 rtw_bridge_tunnel_header[] = { 0xaa, 0xaa, 0x03, 0x00, 0x00, 0xf8 };
++
++/* for Rx reordering buffer control */
++struct recv_reorder_ctrl {
++	_adapter	*padapter;
++	u8 enable;
++	u16 indicate_seq;/* =wstart_b, init_value=0xffff */
++	u16 wend_b;
++	u8 wsize_b;
++	u8 ampdu_size;
++	_queue pending_recvframe_queue;
++	_timer reordering_ctrl_timer;
++	u8 bReorderWaiting;
++};
++
++struct	stainfo_rxcache	{
++	u16	tid_rxseq[16];
++#if 0
++	unsigned short	tid0_rxseq;
++	unsigned short	tid1_rxseq;
++	unsigned short	tid2_rxseq;
++	unsigned short	tid3_rxseq;
++	unsigned short	tid4_rxseq;
++	unsigned short	tid5_rxseq;
++	unsigned short	tid6_rxseq;
++	unsigned short	tid7_rxseq;
++	unsigned short	tid8_rxseq;
++	unsigned short	tid9_rxseq;
++	unsigned short	tid10_rxseq;
++	unsigned short	tid11_rxseq;
++	unsigned short	tid12_rxseq;
++	unsigned short	tid13_rxseq;
++	unsigned short	tid14_rxseq;
++	unsigned short	tid15_rxseq;
++#endif
++};
++
++
++struct smooth_rssi_data {
++	u32	elements[100];	/* array to store values */
++	u32	index;			/* index to current array to store */
++	u32	total_num;		/* num of valid elements */
++	u32	total_val;		/* sum of valid elements */
++};
++
++struct signal_stat {
++	u8	update_req;		/* used to indicate */
++	u8	avg_val;		/* avg of valid elements */
++	u32	total_num;		/* num of valid elements */
++	u32	total_val;		/* sum of valid elements	 */
++};
++#if 0
++typedef struct _ODM_Phy_Status_Info_ {
++	/* */
++	/*  Be care, if you want to add any element please insert between */
++	/*  RxPWDBAll & SignalStrength. */
++	/* */
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN))
++	u4Byte		RxPWDBAll;
++#else
++	u1Byte		RxPWDBAll;
++#endif
++
++	u1Byte		SignalQuality;	 		/*  in 0-100 index. */
++	s1Byte		RxMIMOSignalQuality[4];	/* per-path's EVM */
++	u1Byte		RxMIMOEVMdbm[4]; 		/* per-path's EVM dbm */
++
++	u1Byte		RxMIMOSignalStrength[4];/*  in 0~100 index */
++
++	u2Byte		Cfo_short[4]; 			/*  per-path's Cfo_short */
++	u2Byte		Cfo_tail[4];			/*  per-path's Cfo_tail */
++
++#if (DM_ODM_SUPPORT_TYPE &  (ODM_WIN|ODM_CE))
++	s1Byte		RxPower;				/*  in dBm Translate from PWdB */
++	s1Byte		RecvSignalPower;		/*  Real power in dBm for this packet, no beautification and aggregation. Keep this raw info to be used for the other procedures. */
++	u1Byte		BTRxRSSIPercentage;
++	u1Byte		SignalStrength; 		/*  in 0-100 index. */
++
++	u1Byte		RxPwr[4];				/* per-path's pwdb */
++#endif
++	u1Byte		RxSNR[4];				/* per-path's SNR	 */
++	u1Byte		BandWidth;
++	u1Byte		btCoexPwrAdjust;
++} ODM_PHY_INFO_T, *PODM_PHY_INFO_T;
++#endif
++
++struct phy_info {
++	u8			RxPWDBAll;
++	u8			SignalQuality;				/* in 0-100 index. */
++	s8			RxMIMOSignalQuality[4];		/* per-path's EVM */
++	u8			RxMIMOEVMdbm[4];			/* per-path's EVM dbm */
++	u8			RxMIMOSignalStrength[4];	/* in 0~100 index */
++	s16			Cfo_short[4];				/* per-path's Cfo_short */
++	s16			Cfo_tail[4];					/* per-path's Cfo_tail */
++	s8			RxPower;					/* in dBm Translate from PWdB */
++	s8			RecvSignalPower;			/* Real power in dBm for this packet, no beautification and aggregation. Keep this raw info to be used for the other procedures. */
++	u8			BTRxRSSIPercentage;
++	u8			SignalStrength;				/* in 0-100 index. */
++	s8			RxPwr[4];					/* per-path's pwdb */
++	s8			RxSNR[4];
++#if ((RTL8822B_SUPPORT == 1) || (RTL8723D_SUPPORT == 1) || (RTL8821C_SUPPORT == 1))
++	u8			RxCount:2;
++	u8			BandWidth:2;
++	u8			rxsc:4;
++#else
++	u8			BandWidth;
++#endif
++	u8			btCoexPwrAdjust;
++#if ((RTL8822B_SUPPORT == 1) || (RTL8723D_SUPPORT == 1) || (RTL8821C_SUPPORT == 1))
++	u8			channel;						/* channel number---*/
++	BOOLEAN		bMuPacket;					/* is MU packet or not---*/
++	BOOLEAN		bBeamformed;
++#endif
++};
++
++struct rx_raw_rssi {
++	u8 data_rate;
++	u8 pwdball;
++	s8 pwr_all;
++
++	u8 mimo_signal_strength[4];/* in 0~100 index */
++	u8 mimo_signal_quality[4];
++
++	s8 ofdm_pwr[4];
++	u8 ofdm_snr[4];
++};
++
++
++struct rx_pkt_attrib	{
++	u16	pkt_len;
++	u8	physt;
++	u8	drvinfo_sz;
++	u8	shift_sz;
++	u8	hdrlen; /* the WLAN Header Len */
++	u8	to_fr_ds;
++	u8	amsdu;
++	u8	qos;
++	u8	priority;
++	u8	pw_save;
++	u8	mdata;
++	u16	seq_num;
++	u8	frag_num;
++	u8	mfrag;
++	u8	order;
++	u8	privacy; /* in frame_ctrl field */
++	u8	bdecrypted;
++	u8	encrypt; /* when 0 indicate no encrypt. when non-zero, indicate the encrypt algorith */
++	u8	iv_len;
++	u8	icv_len;
++	u8	crc_err;
++	u8	icv_err;
++
++	u16	eth_type;
++
++	u8	dst[ETH_ALEN];
++	u8	src[ETH_ALEN];
++	u8	ta[ETH_ALEN];
++	u8	ra[ETH_ALEN];
++	u8	bssid[ETH_ALEN];
++
++	u8	ack_policy;
++
++/* #ifdef CONFIG_TCP_CSUM_OFFLOAD_RX */
++	u8	tcpchk_valid; /* 0: invalid, 1: valid */
++	u8	ip_chkrpt; /* 0: incorrect, 1: correct */
++	u8	tcp_chkrpt; /* 0: incorrect, 1: correct */
++/* #endif */
++	u8	key_index;
++
++	u8	data_rate;
++	u8	bw;
++	u8	stbc;
++	u8	ldpc;
++	u8	sgi;
++	u8	pkt_rpt_type;
++	u32 tsfl;
++	u32	MacIDValidEntry[2];	/* 64 bits present 64 entry. */
++
++#if 0
++	u8	signal_qual;
++	s8	rx_mimo_signal_qual[2];
++	u8	signal_strength;
++	u32	RxPWDBAll;
++	s32	RecvSignalPower;
++#endif
++	struct phy_info phy_info;
++};
++
++
++/* These definition is used for Rx packet reordering. */
++#define SN_LESS(a, b)		(((a-b) & 0x800) != 0)
++#define SN_EQUAL(a, b)	(a == b)
++/* #define REORDER_WIN_SIZE	128 */
++/* #define REORDER_ENTRY_NUM	128 */
++#define REORDER_WAIT_TIME	(50) /* (ms) */
++
++#define RECVBUFF_ALIGN_SZ 8
++
++#ifdef CONFIG_TRX_BD_ARCH
++	#define RX_WIFI_INFO_SIZE	24
++#elif (defined(CONFIG_RTL8192E) || defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B)) && defined(CONFIG_PCI_HCI)
++	#define RXBD_SIZE	sizeof(struct recv_stat)
++#endif
++
++#define RXDESC_SIZE	24
++#define RXDESC_OFFSET RXDESC_SIZE
++
++#ifdef CONFIG_TRX_BD_ARCH
++struct rx_buf_desc {
++	/* RX has exactly one segment */
++#ifdef CONFIG_64BIT_DMA
++	unsigned int dword[4];
++#else
++	unsigned int dword[2];
++#endif
++};
++
++struct recv_stat {
++	unsigned int rxdw[8];
++};
++#else
++struct recv_stat {
++	unsigned int rxdw0;
++
++	unsigned int rxdw1;
++
++#if !((defined(CONFIG_RTL8192E) || defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)) && defined(CONFIG_PCI_HCI))  /* exclude 8192ee, 8814ae, 8822be, 8821ce */
++	unsigned int rxdw2;
++
++	unsigned int rxdw3;
++#endif
++
++#ifndef BUF_DESC_ARCH
++	unsigned int rxdw4;
++
++	unsigned int rxdw5;
++
++#ifdef CONFIG_PCI_HCI
++	unsigned int rxdw6;
++
++	unsigned int rxdw7;
++#endif
++#endif /* if BUF_DESC_ARCH is defined, rx_buf_desc occupy 4 double words */
++};
++#endif
++
++#define EOR BIT(30)
++
++#ifdef CONFIG_PCI_HCI
++#define PCI_MAX_RX_QUEUE		1/* MSDU packet queue, Rx Command Queue */
++#define PCI_MAX_RX_COUNT		128
++#ifdef CONFIG_TRX_BD_ARCH
++#define RX_BD_NUM				PCI_MAX_RX_COUNT	/* alias */
++#endif
++
++struct rtw_rx_ring {
++#ifdef CONFIG_TRX_BD_ARCH
++	struct rx_buf_desc	*buf_desc;
++#else
++	struct recv_stat	*desc;
++#endif
++	dma_addr_t		dma;
++	unsigned int		idx;
++	struct sk_buff	*rx_buf[PCI_MAX_RX_COUNT];
++};
++#endif
++
++
++
++/*
++accesser of recv_priv: rtw_recv_entry(dispatch / passive level); recv_thread(passive) ; returnpkt(dispatch)
++; halt(passive) ;
++
++using enter_critical section to protect
++*/
++struct recv_priv {
++	_lock	lock;
++
++#ifdef CONFIG_RECV_THREAD_MODE
++	_sema	recv_sema;
++	_sema	terminate_recvthread_sema;
++#endif
++
++	/* _queue	blk_strms[MAX_RX_NUMBLKS];    */ /* keeping the block ack frame until return ack */
++	_queue	free_recv_queue;
++	_queue	recv_pending_queue;
++	_queue	uc_swdec_pending_queue;
++
++
++	u8 *pallocated_frame_buf;
++	u8 *precv_frame_buf;
++
++	uint free_recvframe_cnt;
++
++	_adapter	*adapter;
++
++#ifdef PLATFORM_WINDOWS
++	_nic_hdl  RxPktPoolHdl;
++	_nic_hdl  RxBufPoolHdl;
++
++#ifdef PLATFORM_OS_XP
++	PMDL	pbytecnt_mdl;
++#endif
++	uint	counter; /* record the number that up-layer will return to drv; only when counter==0 can we  release recv_priv */
++	NDIS_EVENT	recv_resource_evt ;
++#endif
++
++	u32	bIsAnyNonBEPkts;
++	u64	rx_bytes;
++	u64	rx_pkts;
++	u64	rx_drop;
++
++	uint  rx_icv_err;
++	uint  rx_largepacket_crcerr;
++	uint  rx_smallpacket_crcerr;
++	uint  rx_middlepacket_crcerr;
++
++#ifdef CONFIG_USB_HCI
++	/* u8 *pallocated_urb_buf; */
++	_sema allrxreturnevt;
++	uint	ff_hwaddr;
++	ATOMIC_T	rx_pending_cnt;
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++#ifdef PLATFORM_LINUX
++	PURB	int_in_urb;
++#endif
++
++	u8	*int_in_buf;
++#endif /* CONFIG_USB_INTERRUPT_IN_PIPE */
++
++#endif
++#if defined(PLATFORM_LINUX) || defined(PLATFORM_FREEBSD)
++#ifdef PLATFORM_FREEBSD
++	struct task irq_prepare_beacon_tasklet;
++	struct task recv_tasklet;
++#else /* PLATFORM_FREEBSD */
++	struct tasklet_struct irq_prepare_beacon_tasklet;
++	struct tasklet_struct recv_tasklet;
++#endif /* PLATFORM_FREEBSD */
++	struct sk_buff_head free_recv_skb_queue;
++	struct sk_buff_head rx_skb_queue;
++#ifdef CONFIG_RX_INDICATE_QUEUE
++	struct task rx_indicate_tasklet;
++	struct ifqueue rx_indicate_queue;
++#endif /* CONFIG_RX_INDICATE_QUEUE */
++
++#endif /* defined(PLATFORM_LINUX) || defined(PLATFORM_FREEBSD) */
++
++	u8 *pallocated_recv_buf;
++	u8 *precv_buf;    /* 4 alignment */
++	_queue	free_recv_buf_queue;
++	u32	free_recv_buf_queue_cnt;
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI) || defined(CONFIG_USB_HCI)
++	_queue	recv_buf_pending_queue;
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	/* Rx */
++	struct rtw_rx_ring	rx_ring[PCI_MAX_RX_QUEUE];
++	int rxringcount;	/* size should be PCI_MAX_RX_QUEUE */
++	u16	rxbuffersize;
++#endif
++
++	/* For display the phy informatiom */
++	u8 is_signal_dbg;	/* for debug */
++	u8 signal_strength_dbg;	/* for debug */
++
++	u8 signal_strength;
++	u8 signal_qual;
++	s8 rssi;	/* translate_percentage_to_dbm(ptarget_wlan->network.PhyInfo.SignalStrength); */
++	struct rx_raw_rssi raw_rssi_info;
++	/* s8 rxpwdb;	 */
++	s16 noise;
++	/* int RxSNRdB[2]; */
++	/* s8 RxRssi[2]; */
++	/* int FalseAlmCnt_all; */
++
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	_timer signal_stat_timer;
++	u32 signal_stat_sampling_interval;
++	/* u32 signal_stat_converging_constant; */
++	struct signal_stat signal_qual_data;
++	struct signal_stat signal_strength_data;
++#else /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++	struct smooth_rssi_data signal_qual_data;
++	struct smooth_rssi_data signal_strength_data;
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++	u16 sink_udpport, pre_rtp_rxseq, cur_rtp_rxseq;
++
++	BOOLEAN store_law_data_flag;
++};
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++#define rtw_set_signal_stat_timer(recvpriv) _set_timer(&(recvpriv)->signal_stat_timer, (recvpriv)->signal_stat_sampling_interval)
++#endif /* CONFIG_NEW_SIGNAL_STAT_PROCESS */
++
++struct sta_recv_priv {
++
++	_lock	lock;
++	sint	option;
++
++	/* _queue	blk_strms[MAX_RX_NUMBLKS]; */
++	_queue defrag_q;	 /* keeping the fragment frame until defrag */
++
++	struct	stainfo_rxcache rxcache;
++
++	/* uint	sta_rx_bytes; */
++	/* uint	sta_rx_pkts; */
++	/* uint	sta_rx_fail; */
++
++};
++
++
++struct recv_buf {
++	_list list;
++
++	_lock recvbuf_lock;
++
++	u32	ref_cnt;
++
++	PADAPTER adapter;
++
++	u8	*pbuf;
++	u8	*pallocated_buf;
++
++	u32	len;
++	u8	*phead;
++	u8	*pdata;
++	u8	*ptail;
++	u8	*pend;
++
++#ifdef CONFIG_USB_HCI
++
++#if defined(PLATFORM_OS_XP) || defined(PLATFORM_LINUX) || defined(PLATFORM_FREEBSD)
++	PURB	purb;
++	dma_addr_t dma_transfer_addr;	/* (in) dma addr for transfer_buffer */
++	u32 alloc_sz;
++#endif
++
++#ifdef PLATFORM_OS_XP
++	PIRP		pirp;
++#endif
++
++#ifdef PLATFORM_OS_CE
++	USB_TRANSFER	usb_transfer_read_port;
++#endif
++
++	u8  irp_pending;
++	int  transfer_len;
++
++#endif
++
++#ifdef PLATFORM_LINUX
++	_pkt	*pskb;
++#endif
++#ifdef PLATFORM_FREEBSD /* skb solution */
++	struct sk_buff *pskb;
++#endif /* PLATFORM_FREEBSD */ /* skb solution */
++};
++
++
++/*
++	head  ----->
++
++		data  ----->
++
++			payload
++
++		tail  ----->
++
++
++	end   ----->
++
++	len = (unsigned int )(tail - data);
++
++*/
++struct recv_frame_hdr {
++	_list	list;
++#ifndef CONFIG_BSD_RX_USE_MBUF
++	struct sk_buff	*pkt;
++	struct sk_buff	*pkt_newalloc;
++#else /* CONFIG_BSD_RX_USE_MBUF */
++	_pkt	*pkt;
++	_pkt *pkt_newalloc;
++#endif /* CONFIG_BSD_RX_USE_MBUF */
++
++	_adapter  *adapter;
++
++	u8 fragcnt;
++
++	int frame_tag;
++
++	struct rx_pkt_attrib attrib;
++
++	uint  len;
++	u8 *rx_head;
++	u8 *rx_data;
++	u8 *rx_tail;
++	u8 *rx_end;
++
++	void *precvbuf;
++
++
++	/*  */
++	struct sta_info *psta;
++
++	/* for A-MPDU Rx reordering buffer control */
++	struct recv_reorder_ctrl *preorder_ctrl;
++
++#ifdef CONFIG_WAPI_SUPPORT
++	u8 UserPriority;
++	u8 WapiTempPN[16];
++	u8 WapiSrcAddr[6];
++	u8 bWapiCheckPNInDecrypt;
++	u8 bIsWaiPacket;
++#endif
++
++};
++
++
++union recv_frame {
++
++	union {
++		_list list;
++		struct recv_frame_hdr hdr;
++		uint mem[RECVFRAME_HDR_ALIGN >> 2];
++	} u;
++
++	/* uint mem[MAX_RXSZ>>2]; */
++
++};
++
++bool rtw_rframe_del_wfd_ie(union recv_frame *rframe, u8 ies_offset);
++
++typedef enum _RX_PACKET_TYPE {
++	NORMAL_RX,/* Normal rx packet */
++	TX_REPORT1,/* CCX */
++	TX_REPORT2,/* TX RPT */
++	HIS_REPORT,/* USB HISR RPT */
++	C2H_PACKET
++} RX_PACKET_TYPE, *PRX_PACKET_TYPE;
++
++extern union recv_frame *_rtw_alloc_recvframe(_queue *pfree_recv_queue);   /* get a free recv_frame from pfree_recv_queue */
++extern union recv_frame *rtw_alloc_recvframe(_queue *pfree_recv_queue);   /* get a free recv_frame from pfree_recv_queue */
++extern void rtw_init_recvframe(union recv_frame *precvframe , struct recv_priv *precvpriv);
++extern int	 rtw_free_recvframe(union recv_frame *precvframe, _queue *pfree_recv_queue);
++
++#define rtw_dequeue_recvframe(queue) rtw_alloc_recvframe(queue)
++extern int _rtw_enqueue_recvframe(union recv_frame *precvframe, _queue *queue);
++extern int rtw_enqueue_recvframe(union recv_frame *precvframe, _queue *queue);
++
++extern void rtw_free_recvframe_queue(_queue *pframequeue,  _queue *pfree_recv_queue);
++u32 rtw_free_uc_swdec_pending_queue(_adapter *adapter);
++
++sint rtw_enqueue_recvbuf_to_head(struct recv_buf *precvbuf, _queue *queue);
++sint rtw_enqueue_recvbuf(struct recv_buf *precvbuf, _queue *queue);
++struct recv_buf *rtw_dequeue_recvbuf(_queue *queue);
++
++void rtw_reordering_ctrl_timeout_handler(void *pcontext);
++
++void rx_query_phy_status(union recv_frame *rframe, u8 *phy_stat);
++int rtw_inc_and_chk_continual_no_rx_packet(struct sta_info *sta, int tid_index);
++void rtw_reset_continual_no_rx_packet(struct sta_info *sta, int tid_index);
++
++__inline static u8 *get_rxmem(union recv_frame *precvframe)
++{
++	/* always return rx_head... */
++	if (precvframe == NULL)
++		return NULL;
++
++	return precvframe->u.hdr.rx_head;
++}
++
++__inline static u8 *get_rx_status(union recv_frame *precvframe)
++{
++
++	return get_rxmem(precvframe);
++
++}
++
++__inline static u8 *get_recvframe_data(union recv_frame *precvframe)
++{
++
++	/* alwasy return rx_data */
++	if (precvframe == NULL)
++		return NULL;
++
++	return precvframe->u.hdr.rx_data;
++
++}
++
++__inline static u8 *recvframe_push(union recv_frame *precvframe, sint sz)
++{
++	/* append data before rx_data */
++
++	/* add data to the start of recv_frame
++	*
++	*      This function extends the used data area of the recv_frame at the buffer
++	*      start. rx_data must be still larger than rx_head, after pushing.
++	*/
++
++	if (precvframe == NULL)
++		return NULL;
++
++
++	precvframe->u.hdr.rx_data -= sz ;
++	if (precvframe->u.hdr.rx_data < precvframe->u.hdr.rx_head) {
++		precvframe->u.hdr.rx_data += sz ;
++		return NULL;
++	}
++
++	precvframe->u.hdr.len += sz;
++
++	return precvframe->u.hdr.rx_data;
++
++}
++
++
++__inline static u8 *recvframe_pull(union recv_frame *precvframe, sint sz)
++{
++	/* rx_data += sz; move rx_data sz bytes  hereafter */
++
++	/* used for extract sz bytes from rx_data, update rx_data and return the updated rx_data to the caller */
++
++
++	if (precvframe == NULL)
++		return NULL;
++
++
++	precvframe->u.hdr.rx_data += sz;
++
++	if (precvframe->u.hdr.rx_data > precvframe->u.hdr.rx_tail) {
++		precvframe->u.hdr.rx_data -= sz;
++		return NULL;
++	}
++
++	precvframe->u.hdr.len -= sz;
++
++	return precvframe->u.hdr.rx_data;
++
++}
++
++__inline static u8 *recvframe_put(union recv_frame *precvframe, sint sz)
++{
++	/* rx_tai += sz; move rx_tail sz bytes  hereafter */
++
++	/* used for append sz bytes from ptr to rx_tail, update rx_tail and return the updated rx_tail to the caller */
++	/* after putting, rx_tail must be still larger than rx_end. */
++	unsigned char *prev_rx_tail;
++
++	/* RTW_INFO("recvframe_put: len=%d\n", sz); */
++
++	if (precvframe == NULL)
++		return NULL;
++
++	prev_rx_tail = precvframe->u.hdr.rx_tail;
++
++	precvframe->u.hdr.rx_tail += sz;
++
++	if (precvframe->u.hdr.rx_tail > precvframe->u.hdr.rx_end) {
++		precvframe->u.hdr.rx_tail -= sz;
++		return NULL;
++	}
++
++	precvframe->u.hdr.len += sz;
++
++	return precvframe->u.hdr.rx_tail;
++
++}
++
++
++
++__inline static u8 *recvframe_pull_tail(union recv_frame *precvframe, sint sz)
++{
++	/* rmv data from rx_tail (by yitsen) */
++
++	/* used for extract sz bytes from rx_end, update rx_end and return the updated rx_end to the caller */
++	/* after pulling, rx_end must be still larger than rx_data. */
++
++	if (precvframe == NULL)
++		return NULL;
++
++	precvframe->u.hdr.rx_tail -= sz;
++
++	if (precvframe->u.hdr.rx_tail < precvframe->u.hdr.rx_data) {
++		precvframe->u.hdr.rx_tail += sz;
++		return NULL;
++	}
++
++	precvframe->u.hdr.len -= sz;
++
++	return precvframe->u.hdr.rx_tail;
++
++}
++
++
++
++__inline static _buffer *get_rxbuf_desc(union recv_frame *precvframe)
++{
++	_buffer *buf_desc;
++
++	if (precvframe == NULL)
++		return NULL;
++#ifdef PLATFORM_WINDOWS
++	NdisQueryPacket(precvframe->u.hdr.pkt, NULL, NULL, &buf_desc, NULL);
++#endif
++
++	return buf_desc;
++}
++
++
++__inline static union recv_frame *rxmem_to_recvframe(u8 *rxmem)
++{
++	/* due to the design of 2048 bytes alignment of recv_frame, we can reference the union recv_frame */
++	/* from any given member of recv_frame. */
++	/* rxmem indicates the any member/address in recv_frame */
++
++	return (union recv_frame *)(((SIZE_PTR)rxmem >> RXFRAME_ALIGN) << RXFRAME_ALIGN);
++
++}
++
++__inline static union recv_frame *pkt_to_recvframe(_pkt *pkt)
++{
++
++	u8 *buf_star;
++	union recv_frame *precv_frame;
++#ifdef PLATFORM_WINDOWS
++	_buffer *buf_desc;
++	uint len;
++
++	NdisQueryPacket(pkt, NULL, NULL, &buf_desc, &len);
++	NdisQueryBufferSafe(buf_desc, &buf_star, &len, HighPagePriority);
++#endif
++	precv_frame = rxmem_to_recvframe((unsigned char *)buf_star);
++
++	return precv_frame;
++}
++
++__inline static u8 *pkt_to_recvmem(_pkt *pkt)
++{
++	/* return the rx_head */
++
++	union recv_frame *precv_frame = pkt_to_recvframe(pkt);
++
++	return	precv_frame->u.hdr.rx_head;
++
++}
++
++__inline static u8 *pkt_to_recvdata(_pkt *pkt)
++{
++	/* return the rx_data */
++
++	union recv_frame *precv_frame = pkt_to_recvframe(pkt);
++
++	return	precv_frame->u.hdr.rx_data;
++
++}
++
++
++__inline static sint get_recvframe_len(union recv_frame *precvframe)
++{
++	return precvframe->u.hdr.len;
++}
++
++
++__inline static s32 translate_percentage_to_dbm(u32 SignalStrengthIndex)
++{
++	s32	SignalPower; /* in dBm. */
++
++#ifdef CONFIG_SIGNAL_SCALE_MAPPING
++	/* Translate to dBm (x=0.5y-95). */
++	SignalPower = (s32)((SignalStrengthIndex + 1) >> 1);
++	SignalPower -= 95;
++#else
++	/* Translate to dBm (x=y-100) */
++	SignalPower = SignalStrengthIndex - 100;
++#endif
++
++	return SignalPower;
++}
++
++
++struct sta_info;
++
++extern void _rtw_init_sta_recv_priv(struct sta_recv_priv *psta_recvpriv);
++
++extern void  mgt_dispatcher(_adapter *padapter, union recv_frame *precv_frame);
++
++s32 pre_recv_entry(union recv_frame *precvframe, u8 *pphy_status);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_rf.h b/drivers/net/wireless/rtl8812au/include/rtw_rf.h
+new file mode 100644
+index 0000000..6b30b87
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_rf.h
+@@ -0,0 +1,284 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef	__RTW_RF_H_
++#define __RTW_RF_H_
++
++
++#define OFDM_PHY		1
++#define MIXED_PHY		2
++#define CCK_PHY		3
++
++#define NumRates	(13)
++
++/* slot time for 11g */
++#define SHORT_SLOT_TIME					9
++#define NON_SHORT_SLOT_TIME				20
++
++#define RTL8711_RF_MAX_SENS 6
++#define RTL8711_RF_DEF_SENS 4
++
++/*
++ * We now define the following channels as the max channels in each channel plan.
++ * 2G, total 14 chnls
++ * {1,2,3,4,5,6,7,8,9,10,11,12,13,14}
++ * 5G, total 24 chnls
++ * {36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140,149,153,157,161,165} */
++#define	MAX_CHANNEL_NUM_2G				14
++#define	MAX_CHANNEL_NUM_5G				24
++#define	MAX_CHANNEL_NUM					38/* 14+24 */
++
++#define CENTER_CH_2G_40M_NUM	9
++#define CENTER_CH_2G_NUM		14
++#define CENTER_CH_5G_20M_NUM	28	/* 20M center channels */
++#define CENTER_CH_5G_40M_NUM	14	/* 40M center channels */
++#define CENTER_CH_5G_80M_NUM	7	/* 80M center channels */
++#define CENTER_CH_5G_160M_NUM	3	/* 160M center channels */
++#define CENTER_CH_5G_ALL_NUM	(CENTER_CH_5G_20M_NUM + CENTER_CH_5G_40M_NUM + CENTER_CH_5G_80M_NUM)
++
++extern u8 center_ch_2g[CENTER_CH_2G_NUM];
++extern u8 center_ch_2g_40m[CENTER_CH_2G_40M_NUM];
++
++u8 center_chs_2g_num(u8 bw);
++u8 center_chs_2g(u8 bw, u8 id);
++
++extern u8 center_ch_5g_20m[CENTER_CH_5G_20M_NUM];
++extern u8 center_ch_5g_40m[CENTER_CH_5G_40M_NUM];
++extern u8 center_ch_5g_20m_40m[CENTER_CH_5G_20M_NUM + CENTER_CH_5G_40M_NUM];
++extern u8 center_ch_5g_80m[CENTER_CH_5G_80M_NUM];
++extern u8 center_ch_5g_all[CENTER_CH_5G_ALL_NUM];
++
++u8 center_chs_5g_num(u8 bw);
++u8 center_chs_5g(u8 bw, u8 id);
++
++u8 rtw_get_scch_by_cch_offset(u8 cch, u8 bw, u8 offset);
++
++u8 rtw_get_op_chs_by_cch_bw(u8 cch, u8 bw, u8 **op_chs, u8 *op_ch_num);
++
++u8 rtw_get_ch_group(u8 ch, u8 *group, u8 *cck_group);
++
++/* #define NUM_REGULATORYS	21 */
++#define NUM_REGULATORYS	1
++
++/* Country codes */
++#define USA							0x555320
++#define EUROPE						0x1 /* temp, should be provided later	 */
++#define JAPAN						0x2 /* temp, should be provided later	 */
++
++struct	regulatory_class {
++	u32	starting_freq;					/* MHz, */
++	u8	channel_set[MAX_CHANNEL_NUM];
++	u8	channel_cck_power[MAX_CHANNEL_NUM];/* dbm */
++	u8	channel_ofdm_power[MAX_CHANNEL_NUM];/* dbm */
++	u8	txpower_limit;  				/* dbm */
++	u8	channel_spacing;				/* MHz */
++	u8	modem;
++};
++
++typedef enum _CAPABILITY {
++	cESS			= 0x0001,
++	cIBSS			= 0x0002,
++	cPollable		= 0x0004,
++	cPollReq			= 0x0008,
++	cPrivacy		= 0x0010,
++	cShortPreamble	= 0x0020,
++	cPBCC			= 0x0040,
++	cChannelAgility	= 0x0080,
++	cSpectrumMgnt	= 0x0100,
++	cQos			= 0x0200,	/* For HCCA, use with CF-Pollable and CF-PollReq */
++	cShortSlotTime	= 0x0400,
++	cAPSD			= 0x0800,
++	cRM				= 0x1000,	/* RRM (Radio Request Measurement) */
++	cDSSS_OFDM	= 0x2000,
++	cDelayedBA		= 0x4000,
++	cImmediateBA	= 0x8000,
++} CAPABILITY, *PCAPABILITY;
++
++enum	_REG_PREAMBLE_MODE {
++	PREAMBLE_LONG	= 1,
++	PREAMBLE_AUTO	= 2,
++	PREAMBLE_SHORT	= 3,
++};
++
++
++enum _RTL8712_RF_MIMO_CONFIG_ {
++	RTL8712_RFCONFIG_1T = 0x10,
++	RTL8712_RFCONFIG_2T = 0x20,
++	RTL8712_RFCONFIG_1R = 0x01,
++	RTL8712_RFCONFIG_2R = 0x02,
++	RTL8712_RFCONFIG_1T1R = 0x11,
++	RTL8712_RFCONFIG_1T2R = 0x12,
++	RTL8712_RFCONFIG_TURBO = 0x92,
++	RTL8712_RFCONFIG_2T2R = 0x22
++};
++
++typedef enum _RF_PATH {
++	RF_PATH_A = 0,
++	RF_PATH_B = 1,
++	RF_PATH_C = 2,
++	RF_PATH_D = 3,
++} RF_PATH, *PRF_PATH;
++
++#define rf_path_char(path) (((path) >= RF_PATH_MAX) ? 'X' : 'A' + (path))
++
++/* Bandwidth Offset */
++#define HAL_PRIME_CHNL_OFFSET_DONT_CARE	0
++#define HAL_PRIME_CHNL_OFFSET_LOWER	1
++#define HAL_PRIME_CHNL_OFFSET_UPPER	2
++
++typedef enum _BAND_TYPE {
++	BAND_ON_2_4G = 0,
++	BAND_ON_5G = 1,
++	BAND_ON_BOTH = 2,
++	BAND_MAX = 3,
++} BAND_TYPE, *PBAND_TYPE;
++
++extern const char *const _band_str[];
++#define band_str(band) (((band) >= BAND_MAX) ? _band_str[BAND_MAX] : _band_str[(band)])
++
++extern const u8 _band_to_band_cap[];
++#define band_to_band_cap(band) (((band) >= BAND_MAX) ? _band_to_band_cap[BAND_MAX] : _band_to_band_cap[(band)])
++
++/* Represent Channel Width in HT Capabilities
++ *   */
++typedef enum _CHANNEL_WIDTH {
++	CHANNEL_WIDTH_20 = 0,
++	CHANNEL_WIDTH_40 = 1,
++	CHANNEL_WIDTH_80 = 2,
++	CHANNEL_WIDTH_160 = 3,
++	CHANNEL_WIDTH_80_80 = 4,
++	CHANNEL_WIDTH_MAX = 5,
++} CHANNEL_WIDTH, *PCHANNEL_WIDTH;
++
++extern const char *const _ch_width_str[];
++#define ch_width_str(bw) (((bw) >= CHANNEL_WIDTH_MAX) ? _ch_width_str[CHANNEL_WIDTH_MAX] : _ch_width_str[(bw)])
++
++extern const u8 _ch_width_to_bw_cap[];
++#define ch_width_to_bw_cap(bw) (((bw) >= CHANNEL_WIDTH_MAX) ? _ch_width_to_bw_cap[CHANNEL_WIDTH_MAX] : _ch_width_to_bw_cap[(bw)])
++
++/*
++ * Represent Extention Channel Offset in HT Capabilities
++ * This is available only in 40Mhz mode.
++ *   */
++typedef enum _EXTCHNL_OFFSET {
++	EXTCHNL_OFFSET_NO_EXT = 0,
++	EXTCHNL_OFFSET_UPPER = 1,
++	EXTCHNL_OFFSET_NO_DEF = 2,
++	EXTCHNL_OFFSET_LOWER = 3,
++} EXTCHNL_OFFSET, *PEXTCHNL_OFFSET;
++
++typedef enum _VHT_DATA_SC {
++	VHT_DATA_SC_DONOT_CARE = 0,
++	VHT_DATA_SC_20_UPPER_OF_80MHZ = 1,
++	VHT_DATA_SC_20_LOWER_OF_80MHZ = 2,
++	VHT_DATA_SC_20_UPPERST_OF_80MHZ = 3,
++	VHT_DATA_SC_20_LOWEST_OF_80MHZ = 4,
++	VHT_DATA_SC_20_RECV1 = 5,
++	VHT_DATA_SC_20_RECV2 = 6,
++	VHT_DATA_SC_20_RECV3 = 7,
++	VHT_DATA_SC_20_RECV4 = 8,
++	VHT_DATA_SC_40_UPPER_OF_80MHZ = 9,
++	VHT_DATA_SC_40_LOWER_OF_80MHZ = 10,
++} VHT_DATA_SC, *PVHT_DATA_SC_E;
++
++typedef enum _PROTECTION_MODE {
++	PROTECTION_MODE_AUTO = 0,
++	PROTECTION_MODE_FORCE_ENABLE = 1,
++	PROTECTION_MODE_FORCE_DISABLE = 2,
++} PROTECTION_MODE, *PPROTECTION_MODE;
++
++typedef	enum _RT_RF_TYPE_DEFINITION {
++	RF_1T2R = 0,
++	RF_2T4R = 1,
++	RF_2T2R = 2,
++	RF_1T1R = 3,
++	RF_2T2R_GREEN = 4,
++	RF_2T3R = 5,
++	RF_3T3R = 6,
++	RF_3T4R	= 7,
++	RF_4T4R	= 8,
++
++	RF_MAX_TYPE = 0xF, /* u1Byte */
++} RT_RF_TYPE_DEF_E;
++
++int rtw_ch2freq(int chan);
++int rtw_freq2ch(int freq);
++bool rtw_chbw_to_freq_range(u8 ch, u8 bw, u8 offset, u32 *hi, u32 *lo);
++
++#define RTW_MODULE_RTL8821AE_HMC_M2		BIT0 /* RTL8821AE(HMC + M.2) */
++#define RTW_MODULE_RTL8821AU			BIT1 /* RTL8821AU */
++#define RTW_MODULE_RTL8812AENF_NGFF		BIT2 /* RTL8812AENF(8812AE+8761)_NGFF */
++#define RTW_MODULE_RTL8812AEBT_HMC		BIT3 /* RTL8812AEBT(8812AE+8761)_HMC */
++#define RTW_MODULE_RTL8188EE_HMC_M2		BIT4 /* RTL8188EE(HMC + M.2) */
++#define RTW_MODULE_RTL8723BE_HMC_M2		BIT5 /* RTL8723BE(HMC + M.2) */
++#define RTW_MODULE_RTL8723BS_NGFF1216	BIT6 /* RTL8723BS(NGFF1216) */
++#define RTW_MODULE_RTL8192EEBT_HMC_M2	BIT7 /* RTL8192EEBT(8192EE+8761AU)_(HMC + M.2) */
++
++#define IS_ALPHA2_NO_SPECIFIED(_alpha2) ((*((u16 *)(_alpha2))) == 0xFFFF)
++
++struct country_chplan {
++	char alpha2[2];
++	u8 chplan;
++#ifdef CONFIG_80211AC_VHT
++	u8 en_11ac;
++#endif
++#if RTW_DEF_MODULE_REGULATORY_CERT
++	u8 def_module_flags; /* RTW_MODULE_RTLXXX */
++#endif
++};
++
++#ifdef CONFIG_80211AC_VHT
++#define COUNTRY_CHPLAN_EN_11AC(_ent) ((_ent)->en_11ac)
++#else
++#define COUNTRY_CHPLAN_EN_11AC(_ent) 0
++#endif
++
++#if RTW_DEF_MODULE_REGULATORY_CERT
++#define COUNTRY_CHPLAN_DEF_MODULE_FALGS(_ent) ((_ent)->def_module_flags)
++#else
++#define COUNTRY_CHPLAN_DEF_MODULE_FALGS(_ent) 0
++#endif
++
++const struct country_chplan *rtw_get_chplan_from_country(const char *country_code);
++
++#define BB_GAIN_2G 0
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++#define BB_GAIN_5GLB1 1
++#define BB_GAIN_5GLB2 2
++#define BB_GAIN_5GMB1 3
++#define BB_GAIN_5GMB2 4
++#define BB_GAIN_5GHB 5
++#endif
++
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++#define BB_GAIN_NUM 6
++#else
++#define BB_GAIN_NUM 1
++#endif
++
++int rtw_ch_to_bb_gain_sel(int ch);
++void rtw_rf_set_tx_gain_offset(_adapter *adapter, u8 path, s8 offset);
++void rtw_rf_apply_tx_gain_offset(_adapter *adapter, u8 ch);
++
++bool rtw_is_dfs_range(u32 hi, u32 lo);
++bool rtw_is_dfs_ch(u8 ch, u8 bw, u8 offset);
++bool rtw_is_long_cac_range(u32 hi, u32 lo, u8 dfs_region);
++bool rtw_is_long_cac_ch(u8 ch, u8 bw, u8 offset, u8 dfs_region);
++
++#endif /* _RTL8711_RF_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_sdio.h b/drivers/net/wireless/rtl8812au/include/rtw_sdio.h
+new file mode 100644
+index 0000000..da86a3a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_sdio.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2015 - 2016 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ ******************************************************************************/
++#ifndef _RTW_SDIO_H_
++#define _RTW_SDIO_H_
++
++#include <drv_types.h>		/* struct dvobj_priv and etc. */
++
++u8 rtw_sdio_read_cmd52(struct dvobj_priv *, u32 addr, void *buf, size_t len);
++u8 rtw_sdio_read_cmd53(struct dvobj_priv *, u32 addr, void *buf, size_t len);
++u8 rtw_sdio_write_cmd52(struct dvobj_priv *, u32 addr, void *buf, size_t len);
++u8 rtw_sdio_write_cmd53(struct dvobj_priv *, u32 addr, void *buf, size_t len);
++u8 rtw_sdio_f0_read(struct dvobj_priv *, u32 addr, void *buf, size_t len);
++
++#endif /* _RTW_SDIO_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_security.h b/drivers/net/wireless/rtl8812au/include/rtw_security.h
+new file mode 100644
+index 0000000..ae651e0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_security.h
+@@ -0,0 +1,490 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_SECURITY_H_
++#define __RTW_SECURITY_H_
++
++
++#define _NO_PRIVACY_		0x0
++#define _WEP40_				0x1
++#define _TKIP_				0x2
++#define _TKIP_WTMIC_		0x3
++#define _AES_				0x4
++#define _WEP104_			0x5
++#define _WEP_WPA_MIXED_	0x07  /* WEP + WPA */
++#define _SMS4_				0x06
++#ifdef CONFIG_IEEE80211W
++#define _BIP_				0x8
++#endif /* CONFIG_IEEE80211W */
++/* 802.11W use wrong key */
++#define IEEE80211W_RIGHT_KEY	0x0
++#define IEEE80211W_WRONG_KEY	0x1
++#define IEEE80211W_NO_KEY		0x2
++
++#define is_wep_enc(alg) (((alg) == _WEP40_) || ((alg) == _WEP104_))
++
++const char *security_type_str(u8 value);
++
++#define _WPA_IE_ID_	0xdd
++#define _WPA2_IE_ID_	0x30
++
++#define SHA256_MAC_LEN 32
++#define AES_BLOCK_SIZE 16
++#define AES_PRIV_SIZE (4 * 44)
++
++#define RTW_KEK_LEN 16
++#define RTW_KCK_LEN 16
++#define RTW_REPLAY_CTR_LEN 8
++
++#define INVALID_SEC_MAC_CAM_ID	0xFF
++
++typedef enum {
++	ENCRYP_PROTOCOL_OPENSYS,   /* open system */
++	ENCRYP_PROTOCOL_WEP,       /* WEP */
++	ENCRYP_PROTOCOL_WPA,       /* WPA */
++	ENCRYP_PROTOCOL_WPA2,      /* WPA2 */
++	ENCRYP_PROTOCOL_WAPI,      /* WAPI: Not support in this version */
++	ENCRYP_PROTOCOL_MAX
++} ENCRYP_PROTOCOL_E;
++
++
++#ifndef Ndis802_11AuthModeWPA2
++#define Ndis802_11AuthModeWPA2 (Ndis802_11AuthModeWPANone + 1)
++#endif
++
++#ifndef Ndis802_11AuthModeWPA2PSK
++#define Ndis802_11AuthModeWPA2PSK (Ndis802_11AuthModeWPANone + 2)
++#endif
++
++union pn48	{
++
++	u64	val;
++
++#ifdef CONFIG_LITTLE_ENDIAN
++
++struct {
++	u8 TSC0;
++	u8 TSC1;
++	u8 TSC2;
++	u8 TSC3;
++	u8 TSC4;
++	u8 TSC5;
++	u8 TSC6;
++	u8 TSC7;
++} _byte_;
++
++#elif defined(CONFIG_BIG_ENDIAN)
++
++struct {
++	u8 TSC7;
++	u8 TSC6;
++	u8 TSC5;
++	u8 TSC4;
++	u8 TSC3;
++	u8 TSC2;
++	u8 TSC1;
++	u8 TSC0;
++} _byte_;
++
++#endif
++
++};
++
++union Keytype {
++	u8   skey[16];
++	u32    lkey[4];
++};
++
++
++typedef struct _RT_PMKID_LIST {
++	u8						bUsed;
++	u8						Bssid[6];
++	u8						PMKID[16];
++	u8						SsidBuf[33];
++	u8						*ssid_octet;
++	u16						ssid_length;
++} RT_PMKID_LIST, *PRT_PMKID_LIST;
++
++
++struct security_priv {
++	u32	  dot11AuthAlgrthm;		/* 802.11 auth, could be open, shared, 8021x and authswitch */
++	u32	  dot11PrivacyAlgrthm;	/* This specify the privacy for shared auth. algorithm. */
++
++	/* WEP */
++	u32	  dot11PrivacyKeyIndex;	/* this is only valid for legendary wep, 0~3 for key id. (tx key index) */
++	union Keytype dot11DefKey[4];			/* this is only valid for def. key	 */
++	u32	dot11DefKeylen[4];
++	u8	dot11Def_camid[4];
++	u8 	key_mask; /* use to restore wep key after hal_init */
++
++	u32 dot118021XGrpPrivacy;	/* This specify the privacy algthm. used for Grp key */
++	u32	dot118021XGrpKeyid;		/* key id used for Grp Key ( tx key index) */
++	union Keytype	dot118021XGrpKey[4];	/* 802.1x Group Key, for inx0 and inx1	 */
++	union Keytype	dot118021XGrptxmickey[4];
++	union Keytype	dot118021XGrprxmickey[4];
++	union pn48		dot11Grptxpn;			/* PN48 used for Grp Key xmit. */
++	union pn48		dot11Grprxpn;			/* PN48 used for Grp Key recv. */
++#ifdef CONFIG_IEEE80211W
++	u32	dot11wBIPKeyid;						/* key id used for BIP Key ( tx key index) */
++	union Keytype	dot11wBIPKey[6];		/* BIP Key, for index4 and index5 */
++	union pn48		dot11wBIPtxpn;			/* PN48 used for Grp Key xmit. */
++	union pn48		dot11wBIPrxpn;			/* PN48 used for Grp Key recv. */
++#endif /* CONFIG_IEEE80211W */
++#ifdef CONFIG_AP_MODE
++	/* extend security capabilities for AP_MODE */
++	unsigned int dot8021xalg;/* 0:disable, 1:psk, 2:802.1x */
++	unsigned int wpa_psk;/* 0:disable, bit(0): WPA, bit(1):WPA2 */
++	unsigned int wpa_group_cipher;
++	unsigned int wpa2_group_cipher;
++	unsigned int wpa_pairwise_cipher;
++	unsigned int wpa2_pairwise_cipher;
++#endif
++#ifdef CONFIG_CONCURRENT_MODE
++	u8	dot118021x_bmc_cam_id;
++#endif
++
++	u8 wps_ie[MAX_WPS_IE_LEN];/* added in assoc req */
++	int wps_ie_len;
++
++
++	u8	binstallGrpkey;
++#ifdef CONFIG_GTK_OL
++	u8	binstallKCK_KEK;
++#endif /* CONFIG_GTK_OL */
++#ifdef CONFIG_IEEE80211W
++	u8	binstallBIPkey;
++#endif /* CONFIG_IEEE80211W */
++	u8	busetkipkey;
++	/* _timer tkip_timer; */
++	u8	bcheck_grpkey;
++	u8	bgrpkey_handshake;
++
++	/* u8	packet_cnt; */ /* unused, removed */
++
++	s32	sw_encrypt;/* from registry_priv */
++	s32	sw_decrypt;/* from registry_priv */
++
++	s32 	hw_decrypted;/* if the rx packets is hw_decrypted==_FALSE, it means the hw has not been ready. */
++
++
++	/* keeps the auth_type & enc_status from upper layer ioctl(wpa_supplicant or wzc) */
++	u32 ndisauthtype;	/* NDIS_802_11_AUTHENTICATION_MODE */
++	u32 ndisencryptstatus;	/* NDIS_802_11_ENCRYPTION_STATUS */
++
++	NDIS_802_11_WEP ndiswep;
++#ifdef PLATFORM_WINDOWS
++	u8 KeyMaterial[16];/* variable length depending on above field. */
++#endif
++
++	u8 assoc_info[600];
++	u8 szofcapability[256]; /* for wpa2 usage */
++	u8 oidassociation[512]; /* for wpa/wpa2 usage */
++	u8 authenticator_ie[256];  /* store ap security information element */
++	u8 supplicant_ie[256];  /* store sta security information element */
++
++
++	/* for tkip countermeasure */
++	u32 last_mic_err_time;
++	u8	btkip_countermeasure;
++	u8	btkip_wait_report;
++	u32 btkip_countermeasure_time;
++
++	/* --------------------------------------------------------------------------- */
++	/* For WPA2 Pre-Authentication. */
++	/* --------------------------------------------------------------------------- */
++	/* u8				RegEnablePreAuth;				 */ /* Default value: Pre-Authentication enabled or not, from registry "EnablePreAuth". Added by Annie, 2005-11-01. */
++	/* u8				EnablePreAuthentication;			 */ /* Current Value: Pre-Authentication enabled or not. */
++	RT_PMKID_LIST		PMKIDList[NUM_PMKID_CACHE];	/* Renamed from PreAuthKey[NUM_PRE_AUTH_KEY]. Annie, 2006-10-13. */
++	u8				PMKIDIndex;
++	/* u32				PMKIDCount;						 */ /* Added by Annie, 2006-10-13. */
++	/* u8				szCapability[256];				 */ /* For WPA2-PSK using zero-config, by Annie, 2005-09-20. */
++
++	u8 bWepDefaultKeyIdxSet;
++
++#define DBG_SW_SEC_CNT
++#ifdef DBG_SW_SEC_CNT
++	u64 wep_sw_enc_cnt_bc;
++	u64 wep_sw_enc_cnt_mc;
++	u64 wep_sw_enc_cnt_uc;
++	u64 wep_sw_dec_cnt_bc;
++	u64 wep_sw_dec_cnt_mc;
++	u64 wep_sw_dec_cnt_uc;
++
++	u64 tkip_sw_enc_cnt_bc;
++	u64 tkip_sw_enc_cnt_mc;
++	u64 tkip_sw_enc_cnt_uc;
++	u64 tkip_sw_dec_cnt_bc;
++	u64 tkip_sw_dec_cnt_mc;
++	u64 tkip_sw_dec_cnt_uc;
++
++	u64 aes_sw_enc_cnt_bc;
++	u64 aes_sw_enc_cnt_mc;
++	u64 aes_sw_enc_cnt_uc;
++	u64 aes_sw_dec_cnt_bc;
++	u64 aes_sw_dec_cnt_mc;
++	u64 aes_sw_dec_cnt_uc;
++#endif /* DBG_SW_SEC_CNT */
++};
++
++struct sha256_state {
++	u64 length;
++	u32 state[8], curlen;
++	u8 buf[64];
++};
++
++#define GET_ENCRY_ALGO(psecuritypriv, psta, encry_algo, bmcst)\
++	do {\
++		switch (psecuritypriv->dot11AuthAlgrthm) {\
++		case dot11AuthAlgrthm_Open:\
++		case dot11AuthAlgrthm_Shared:\
++		case dot11AuthAlgrthm_Auto:\
++			encry_algo = (u8)psecuritypriv->dot11PrivacyAlgrthm;\
++			break;\
++		case dot11AuthAlgrthm_8021X:\
++			if (bmcst)\
++				encry_algo = (u8)psecuritypriv->dot118021XGrpPrivacy;\
++			else\
++				encry_algo = (u8) psta->dot118021XPrivacy;\
++			break;\
++		case dot11AuthAlgrthm_WAPI:\
++			encry_algo = (u8)psecuritypriv->dot11PrivacyAlgrthm;\
++			break;\
++		} \
++	} while (0)
++
++#define _AES_IV_LEN_ 8
++
++#define SET_ICE_IV_LEN(iv_len, icv_len, encrypt)\
++	do {\
++		switch (encrypt) {\
++		case _WEP40_:\
++		case _WEP104_:\
++			iv_len = 4;\
++			icv_len = 4;\
++			break;\
++		case _TKIP_:\
++			iv_len = 8;\
++			icv_len = 4;\
++			break;\
++		case _AES_:\
++			iv_len = 8;\
++			icv_len = 8;\
++			break;\
++		case _SMS4_:\
++			iv_len = 18;\
++			icv_len = 16;\
++			break;\
++		default:\
++			iv_len = 0;\
++			icv_len = 0;\
++			break;\
++		} \
++	} while (0)
++
++
++#define GET_TKIP_PN(iv, dot11txpn)\
++	do {\
++		dot11txpn._byte_.TSC0 = iv[2];\
++		dot11txpn._byte_.TSC1 = iv[0];\
++		dot11txpn._byte_.TSC2 = iv[4];\
++		dot11txpn._byte_.TSC3 = iv[5];\
++		dot11txpn._byte_.TSC4 = iv[6];\
++		dot11txpn._byte_.TSC5 = iv[7];\
++	} while (0)
++
++
++#define ROL32(A, n)	(((A) << (n)) | (((A)>>(32-(n)))  & ((1UL << (n)) - 1)))
++#define ROR32(A, n)	ROL32((A), 32-(n))
++
++struct mic_data {
++	u32  K0, K1;         /* Key */
++	u32  L, R;           /* Current state */
++	u32  M;              /* Message accumulator (single word) */
++	u32     nBytesInM;      /*  # bytes in M */
++};
++
++extern const u32 Te0[256];
++extern const u32 Te1[256];
++extern const u32 Te2[256];
++extern const u32 Te3[256];
++extern const u32 Te4[256];
++extern const u32 Td0[256];
++extern const u32 Td1[256];
++extern const u32 Td2[256];
++extern const u32 Td3[256];
++extern const u32 Td4[256];
++extern const u32 rcon[10];
++extern const u8 Td4s[256];
++extern const u8 rcons[10];
++
++#define RCON(i) (rcons[(i)] << 24)
++
++static inline u32 rotr(u32 val, int bits)
++{
++	return (val >> bits) | (val << (32 - bits));
++}
++
++#define TE0(i) Te0[((i) >> 24) & 0xff]
++#define TE1(i) rotr(Te0[((i) >> 16) & 0xff], 8)
++#define TE2(i) rotr(Te0[((i) >> 8) & 0xff], 16)
++#define TE3(i) rotr(Te0[(i) & 0xff], 24)
++#define TE41(i) ((Te0[((i) >> 24) & 0xff] << 8) & 0xff000000)
++#define TE42(i) (Te0[((i) >> 16) & 0xff] & 0x00ff0000)
++#define TE43(i) (Te0[((i) >> 8) & 0xff] & 0x0000ff00)
++#define TE44(i) ((Te0[(i) & 0xff] >> 8) & 0x000000ff)
++#define TE421(i) ((Te0[((i) >> 16) & 0xff] << 8) & 0xff000000)
++#define TE432(i) (Te0[((i) >> 8) & 0xff] & 0x00ff0000)
++#define TE443(i) (Te0[(i) & 0xff] & 0x0000ff00)
++#define TE414(i) ((Te0[((i) >> 24) & 0xff] >> 8) & 0x000000ff)
++#define TE4(i) ((Te0[(i)] >> 8) & 0x000000ff)
++
++#define TD0(i) Td0[((i) >> 24) & 0xff]
++#define TD1(i) rotr(Td0[((i) >> 16) & 0xff], 8)
++#define TD2(i) rotr(Td0[((i) >> 8) & 0xff], 16)
++#define TD3(i) rotr(Td0[(i) & 0xff], 24)
++#define TD41(i) (Td4s[((i) >> 24) & 0xff] << 24)
++#define TD42(i) (Td4s[((i) >> 16) & 0xff] << 16)
++#define TD43(i) (Td4s[((i) >> 8) & 0xff] << 8)
++#define TD44(i) (Td4s[(i) & 0xff])
++#define TD0_(i) Td0[(i) & 0xff]
++#define TD1_(i) rotr(Td0[(i) & 0xff], 8)
++#define TD2_(i) rotr(Td0[(i) & 0xff], 16)
++#define TD3_(i) rotr(Td0[(i) & 0xff], 24)
++
++#define GETU32(pt) (((u32)(pt)[0] << 24) ^ ((u32)(pt)[1] << 16) ^ \
++			((u32)(pt)[2] <<  8) ^ ((u32)(pt)[3]))
++
++#define PUTU32(ct, st) { \
++		(ct)[0] = (u8)((st) >> 24); (ct)[1] = (u8)((st) >> 16); \
++		(ct)[2] = (u8)((st) >>  8); (ct)[3] = (u8)(st); }
++
++#define WPA_GET_BE32(a) ((((u32) (a)[0]) << 24) | (((u32) (a)[1]) << 16) | \
++			 (((u32) (a)[2]) << 8) | ((u32) (a)[3]))
++
++#define WPA_PUT_LE16(a, val)			\
++	do {					\
++		(a)[1] = ((u16) (val)) >> 8;	\
++		(a)[0] = ((u16) (val)) & 0xff;	\
++	} while (0)
++
++#define WPA_PUT_BE32(a, val)					\
++	do {							\
++		(a)[0] = (u8) ((((u32) (val)) >> 24) & 0xff);	\
++		(a)[1] = (u8) ((((u32) (val)) >> 16) & 0xff);	\
++		(a)[2] = (u8) ((((u32) (val)) >> 8) & 0xff);	\
++		(a)[3] = (u8) (((u32) (val)) & 0xff);		\
++	} while (0)
++
++#define WPA_PUT_BE64(a, val)				\
++	do {						\
++		(a)[0] = (u8) (((u64) (val)) >> 56);	\
++		(a)[1] = (u8) (((u64) (val)) >> 48);	\
++		(a)[2] = (u8) (((u64) (val)) >> 40);	\
++		(a)[3] = (u8) (((u64) (val)) >> 32);	\
++		(a)[4] = (u8) (((u64) (val)) >> 24);	\
++		(a)[5] = (u8) (((u64) (val)) >> 16);	\
++		(a)[6] = (u8) (((u64) (val)) >> 8);	\
++		(a)[7] = (u8) (((u64) (val)) & 0xff);	\
++	} while (0)
++
++/* ===== start - public domain SHA256 implementation ===== */
++
++/* This is based on SHA256 implementation in LibTomCrypt that was released into
++ * public domain by Tom St Denis. */
++
++/* the K array */
++static const unsigned long K[64] = {
++	0x428a2f98UL, 0x71374491UL, 0xb5c0fbcfUL, 0xe9b5dba5UL, 0x3956c25bUL,
++	0x59f111f1UL, 0x923f82a4UL, 0xab1c5ed5UL, 0xd807aa98UL, 0x12835b01UL,
++	0x243185beUL, 0x550c7dc3UL, 0x72be5d74UL, 0x80deb1feUL, 0x9bdc06a7UL,
++	0xc19bf174UL, 0xe49b69c1UL, 0xefbe4786UL, 0x0fc19dc6UL, 0x240ca1ccUL,
++	0x2de92c6fUL, 0x4a7484aaUL, 0x5cb0a9dcUL, 0x76f988daUL, 0x983e5152UL,
++	0xa831c66dUL, 0xb00327c8UL, 0xbf597fc7UL, 0xc6e00bf3UL, 0xd5a79147UL,
++	0x06ca6351UL, 0x14292967UL, 0x27b70a85UL, 0x2e1b2138UL, 0x4d2c6dfcUL,
++	0x53380d13UL, 0x650a7354UL, 0x766a0abbUL, 0x81c2c92eUL, 0x92722c85UL,
++	0xa2bfe8a1UL, 0xa81a664bUL, 0xc24b8b70UL, 0xc76c51a3UL, 0xd192e819UL,
++	0xd6990624UL, 0xf40e3585UL, 0x106aa070UL, 0x19a4c116UL, 0x1e376c08UL,
++	0x2748774cUL, 0x34b0bcb5UL, 0x391c0cb3UL, 0x4ed8aa4aUL, 0x5b9cca4fUL,
++	0x682e6ff3UL, 0x748f82eeUL, 0x78a5636fUL, 0x84c87814UL, 0x8cc70208UL,
++	0x90befffaUL, 0xa4506cebUL, 0xbef9a3f7UL, 0xc67178f2UL
++};
++
++
++/* Various logical functions */
++#define RORc(x, y) \
++	(((((unsigned long) (x) & 0xFFFFFFFFUL) >> (unsigned long) ((y) & 31)) | \
++	  ((unsigned long) (x) << (unsigned long) (32 - ((y) & 31)))) & 0xFFFFFFFFUL)
++#define Ch(x, y, z)       (z ^ (x & (y ^ z)))
++#define Maj(x, y, z)      (((x | y) & z) | (x & y))
++#define S(x, n)         RORc((x), (n))
++#define R(x, n)         (((x) & 0xFFFFFFFFUL)>>(n))
++#define Sigma0(x)       (S(x, 2) ^ S(x, 13) ^ S(x, 22))
++#define Sigma1(x)       (S(x, 6) ^ S(x, 11) ^ S(x, 25))
++#define Gamma0(x)       (S(x, 7) ^ S(x, 18) ^ R(x, 3))
++#define Gamma1(x)       (S(x, 17) ^ S(x, 19) ^ R(x, 10))
++#ifndef MIN
++#define MIN(x, y) (((x) < (y)) ? (x) : (y))
++#endif
++#ifdef CONFIG_IEEE80211W
++int omac1_aes_128(u8 *key, u8 *data, size_t data_len, u8 *mac);
++#endif /* CONFIG_IEEE80211W */
++void rtw_secmicsetkey(struct mic_data *pmicdata, u8 *key);
++void rtw_secmicappendbyte(struct mic_data *pmicdata, u8 b);
++void rtw_secmicappend(struct mic_data *pmicdata, u8 *src, u32 nBytes);
++void rtw_secgetmic(struct mic_data *pmicdata, u8 *dst);
++
++void rtw_seccalctkipmic(
++	u8 *key,
++	u8 *header,
++	u8 *data,
++	u32 data_len,
++	u8 *Miccode,
++	u8   priority);
++
++u32 rtw_aes_encrypt(_adapter *padapter, u8 *pxmitframe);
++u32 rtw_tkip_encrypt(_adapter *padapter, u8 *pxmitframe);
++void rtw_wep_encrypt(_adapter *padapter, u8  *pxmitframe);
++
++u32 rtw_aes_decrypt(_adapter *padapter, u8  *precvframe);
++u32 rtw_tkip_decrypt(_adapter *padapter, u8  *precvframe);
++void rtw_wep_decrypt(_adapter *padapter, u8  *precvframe);
++#ifdef CONFIG_IEEE80211W
++u32	rtw_BIP_verify(_adapter *padapter, u8 *precvframe);
++#endif /* CONFIG_IEEE80211W */
++#ifdef CONFIG_TDLS
++void wpa_tdls_generate_tpk(_adapter *padapter, PVOID sta);
++int wpa_tdls_ftie_mic(u8 *kck, u8 trans_seq,
++			u8 *lnkid, u8 *rsnie, u8 *timeoutie, u8 *ftie,
++			u8 *mic);
++int wpa_tdls_teardown_ftie_mic(u8 *kck, u8 *lnkid, u16 reason,
++			u8 dialog_token, u8 trans_seq, u8 *ftie, u8 *mic);
++int tdls_verify_mic(u8 *kck, u8 trans_seq,
++			u8 *lnkid, u8 *rsnie, u8 *timeoutie, u8 *ftie);
++#endif /* CONFIG_TDLS */
++
++void rtw_use_tkipkey_handler(RTW_TIMER_HDL_ARGS);
++
++void rtw_sec_restore_wep_key(_adapter *adapter);
++u8 rtw_handle_tkip_countermeasure(_adapter *adapter, const char *caller);
++
++#ifdef CONFIG_WOWLAN
++u16 rtw_calc_crc(u8  *pdata, int length);
++#endif /*CONFIG_WOWLAN*/
++
++#endif /* __RTL871X_SECURITY_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_sreset.h b/drivers/net/wireless/rtl8812au/include/rtw_sreset.h
+new file mode 100644
+index 0000000..0ecdfc7
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_sreset.h
+@@ -0,0 +1,60 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_SRESET_H_
++#define _RTW_SRESET_H_
++
++/* #include <drv_types.h> */
++
++enum {
++	SRESET_TGP_NULL = 0,
++	SRESET_TGP_XMIT_STATUS = 1,
++	SRESET_TGP_LINK_STATUS = 2,
++};
++
++struct sreset_priv {
++	_mutex	silentreset_mutex;
++	u8	silent_reset_inprogress;
++	u8	Wifi_Error_Status;
++	unsigned long last_tx_time;
++	unsigned long last_tx_complete_time;
++
++	s32 dbg_trigger_point;
++};
++
++
++
++#define	WIFI_STATUS_SUCCESS		0
++#define	USB_VEN_REQ_CMD_FAIL	BIT0
++#define	USB_READ_PORT_FAIL		BIT1
++#define	USB_WRITE_PORT_FAIL		BIT2
++#define	WIFI_MAC_TXDMA_ERROR	BIT3
++#define   WIFI_TX_HANG				BIT4
++#define	WIFI_RX_HANG				BIT5
++#define	WIFI_IF_NOT_EXIST			BIT6
++
++void sreset_init_value(_adapter *padapter);
++void sreset_reset_value(_adapter *padapter);
++u8 sreset_get_wifi_status(_adapter *padapter);
++void sreset_set_wifi_error_status(_adapter *padapter, u32 status);
++void sreset_set_trigger_point(_adapter *padapter, s32 tgp);
++bool sreset_inprogress(_adapter *padapter);
++void sreset_reset(_adapter *padapter);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_tdls.h b/drivers/net/wireless/rtl8812au/include/rtw_tdls.h
+new file mode 100644
+index 0000000..ad16d66
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_tdls.h
+@@ -0,0 +1,173 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_TDLS_H_
++#define __RTW_TDLS_H_
++
++
++#ifdef CONFIG_TDLS
++/* TDLS STA state */
++
++
++/* TDLS Diect Link Establishment */
++#define	TDLS_STATE_NONE				0x00000000		/* Default state */
++#define	TDLS_INITIATOR_STATE		BIT(28)			/* 0x10000000 */
++#define	TDLS_RESPONDER_STATE		BIT(29)			/* 0x20000000 */
++#define	TDLS_LINKED_STATE			BIT(30)			/* 0x40000000 */
++/* TDLS PU Buffer STA */
++#define	TDLS_WAIT_PTR_STATE			BIT(24)			/* 0x01000000 */	/* Waiting peer's TDLS_PEER_TRAFFIC_RESPONSE frame */
++/* TDLS Check ALive */
++#define	TDLS_ALIVE_STATE			BIT(20)			/* 0x00100000 */	/* Check if peer sta is alived. */
++/* TDLS Channel Switch */
++#define	TDLS_CH_SWITCH_PREPARE_STATE	BIT(15)			/* 0x00008000 */
++#define	TDLS_CH_SWITCH_ON_STATE			BIT(16)			/* 0x00010000 */
++#define	TDLS_PEER_AT_OFF_STATE			BIT(17)			/* 0x00020000 */	/* Could send pkt on target ch */
++#define	TDLS_CH_SW_INITIATOR_STATE		BIT(18)			/* 0x00040000 */	/* Avoid duplicated or unconditional ch. switch rsp. */
++#define	TDLS_WAIT_CH_RSP_STATE			BIT(19)			/* 0x00080000 */	/* Wait Ch. response as we are TDLS channel switch initiator */
++
++
++#define	TDLS_TPK_RESEND_COUNT			86400	/*Unit: seconds */
++#define	TDLS_CH_SWITCH_TIME				15
++#define	TDLS_CH_SWITCH_TIMEOUT			30
++#define	TDLS_CH_SWITCH_OPER_OFFLOAD_TIMEOUT	10
++#define	TDLS_SIGNAL_THRESH			0x20
++#define	TDLS_WATCHDOG_PERIOD		10	/* Periodically sending tdls discovery request in TDLS_WATCHDOG_PERIOD * 2 sec */
++#define	TDLS_HANDSHAKE_TIME			3000
++#define	TDLS_PTI_TIME				7000
++
++#define TDLS_CH_SW_STAY_ON_BASE_CHNL_TIMEOUT	20		/* ms */
++#define TDLS_CH_SW_MONITOR_TIMEOUT				2000	/*ms */
++
++#define TDLS_MIC_LEN 16
++#define WPA_NONCE_LEN 32
++#define TDLS_TIMEOUT_LEN 4
++
++enum TDLS_CH_SW_CHNL {
++	TDLS_CH_SW_BASE_CHNL = 0,
++	TDLS_CH_SW_OFF_CHNL
++};
++
++struct wpa_tdls_ftie {
++	u8 ie_type; /* FTIE */
++	u8 ie_len;
++	u8 mic_ctrl[2];
++	u8 mic[TDLS_MIC_LEN];
++	u8 Anonce[WPA_NONCE_LEN]; /* Responder Nonce in TDLS */
++	u8 Snonce[WPA_NONCE_LEN]; /* Initiator Nonce in TDLS */
++	/* followed by optional elements */
++} ;
++
++struct wpa_tdls_lnkid {
++	u8 ie_type; /* Link Identifier IE */
++	u8 ie_len;
++	u8 bssid[ETH_ALEN];
++	u8 init_sta[ETH_ALEN];
++	u8 resp_sta[ETH_ALEN];
++} ;
++
++static u8 TDLS_RSNIE[20] = {	0x01, 0x00,	/* Version shall be set to 1 */
++				0x00, 0x0f, 0xac, 0x07,	/* Group sipher suite */
++				0x01, 0x00,	/* Pairwise cipher suite count */
++	0x00, 0x0f, 0xac, 0x04,	/* Pairwise cipher suite list; CCMP only */
++				0x01, 0x00,	/* AKM suite count */
++				0x00, 0x0f, 0xac, 0x07,	/* TPK Handshake */
++				0x0c, 0x02,
++				/* PMKID shall not be present */
++			   };
++
++static u8 TDLS_WMMIE[] = {0x00, 0x50, 0xf2, 0x02, 0x00, 0x01, 0x00};	/* Qos info all set zero */
++
++static u8 TDLS_WMM_PARAM_IE[] = {0x00, 0x00, 0x03, 0xa4, 0x00, 0x00, 0x27, 0xa4, 0x00, 0x00, 0x42, 0x43, 0x5e, 0x00, 0x62, 0x32, 0x2f, 0x00};
++
++static u8 TDLS_EXT_CAPIE[] = {0x00, 0x00, 0x00, 0x50, 0x20, 0x00, 0x00, 0x00};	/* bit(28), bit(30), bit(37) */
++
++/* SRC: Supported Regulatory Classes */
++static u8 TDLS_SRC[] = { 0x01, 0x01, 0x02, 0x03, 0x04, 0x0c, 0x16, 0x17, 0x18, 0x19, 0x1b, 0x1c, 0x1d, 0x1e, 0x20, 0x21 };
++
++int check_ap_tdls_prohibited(u8 *pframe, u8 pkt_len);
++int check_ap_tdls_ch_switching_prohibited(u8 *pframe, u8 pkt_len);
++
++u8 rtw_tdls_is_setup_allowed(_adapter *padapter);
++#ifdef CONFIG_TDLS_CH_SW
++u8 rtw_tdls_is_chsw_allowed(_adapter *padapter);
++#endif
++
++void rtw_reset_tdls_info(_adapter *padapter);
++int rtw_init_tdls_info(_adapter *padapter);
++void rtw_free_tdls_info(struct tdls_info *ptdlsinfo);
++int issue_nulldata_to_TDLS_peer_STA(_adapter *padapter, unsigned char *da, unsigned int power_mode, int try_cnt, int wait_ms);
++void rtw_init_tdls_timer(_adapter *padapter, struct sta_info *psta);
++void	rtw_free_tdls_timer(struct sta_info *psta);
++void free_tdls_sta(_adapter *padapter, struct sta_info *ptdls_sta);
++
++#ifdef CONFIG_TDLS_CH_SW
++void rtw_tdls_set_ch_sw_oper_control(_adapter *padapter, u8 enable);
++void rtw_tdls_ch_sw_back_to_base_chnl(_adapter *padapter);
++s32 rtw_tdls_do_ch_sw(_adapter *padapter, struct sta_info *ptdls_sta, u8 chnl_type, u8 channel, u8 channel_offset, u16 bwmode, u16 ch_switch_time);
++void rtw_tdls_chsw_oper_done(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_WFD
++int issue_tunneled_probe_req(_adapter *padapter);
++int issue_tunneled_probe_rsp(_adapter *padapter, union recv_frame *precv_frame);
++#endif /* CONFIG_WFD */
++int issue_tdls_dis_req(_adapter *padapter, struct tdls_txmgmt *ptxmgmt);
++int issue_tdls_setup_req(_adapter *padapter, struct tdls_txmgmt *ptxmgmt, int wait_ack);
++int issue_tdls_setup_rsp(_adapter *padapter, struct tdls_txmgmt *ptxmgmt);
++int issue_tdls_setup_cfm(_adapter *padapter, struct tdls_txmgmt *ptxmgmt);
++int issue_tdls_dis_rsp(_adapter *padapter, struct tdls_txmgmt *ptxmgmt, u8 privacy);
++int issue_tdls_teardown(_adapter *padapter, struct tdls_txmgmt *ptxmgmt, u8 wait_ack);
++int issue_tdls_peer_traffic_rsp(_adapter *padapter, struct sta_info *psta, struct tdls_txmgmt *ptxmgmt);
++int issue_tdls_peer_traffic_indication(_adapter *padapter, struct sta_info *psta);
++#ifdef CONFIG_TDLS_CH_SW
++int issue_tdls_ch_switch_req(_adapter *padapter, struct sta_info *ptdls_sta);
++int issue_tdls_ch_switch_rsp(_adapter *padapter, struct tdls_txmgmt *ptxmgmt, int wait_ack);
++#endif
++sint On_TDLS_Dis_Rsp(_adapter *adapter, union recv_frame *precv_frame);
++sint On_TDLS_Setup_Req(_adapter *adapter, union recv_frame *precv_frame);
++int On_TDLS_Setup_Rsp(_adapter *adapter, union recv_frame *precv_frame);
++int On_TDLS_Setup_Cfm(_adapter *adapter, union recv_frame *precv_frame);
++int On_TDLS_Dis_Req(_adapter *adapter, union recv_frame *precv_frame);
++int On_TDLS_Teardown(_adapter *adapter, union recv_frame *precv_frame);
++int On_TDLS_Peer_Traffic_Indication(_adapter *adapter, union recv_frame *precv_frame);
++int On_TDLS_Peer_Traffic_Rsp(_adapter *adapter, union recv_frame *precv_frame);
++#ifdef CONFIG_TDLS_CH_SW
++sint On_TDLS_Ch_Switch_Req(_adapter *adapter, union recv_frame *precv_frame);
++sint On_TDLS_Ch_Switch_Rsp(_adapter *adapter, union recv_frame *precv_frame);
++void rtw_build_tdls_ch_switch_req_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt);
++void rtw_build_tdls_ch_switch_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt);
++#endif
++void rtw_build_tdls_setup_req_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt);
++void rtw_build_tdls_setup_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt);
++void rtw_build_tdls_setup_cfm_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt);
++void rtw_build_tdls_teardown_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt);
++void rtw_build_tdls_dis_req_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt);
++void rtw_build_tdls_dis_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt, u8 privacy);
++void rtw_build_tdls_peer_traffic_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt);
++void rtw_build_tdls_peer_traffic_indication_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe, struct tdls_txmgmt *ptxmgmt);
++void rtw_build_tunneled_probe_req_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe);
++void rtw_build_tunneled_probe_rsp_ies(_adapter *padapter, struct xmit_frame *pxmitframe, u8 *pframe);
++
++u32 update_mask_tdls(_adapter *padapter, struct sta_info *psta);
++int rtw_tdls_is_driver_setup(_adapter *padapter);
++void rtw_tdls_set_key(_adapter *padapter, struct sta_info *ptdls_sta);
++const char *rtw_tdls_action_txt(enum TDLS_ACTION_FIELD action);
++#endif /* CONFIG_TDLS */
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_version.h b/drivers/net/wireless/rtl8812au/include/rtw_version.h
+new file mode 100644
+index 0000000..b35d60d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_version.h
+@@ -0,0 +1 @@
++#define DRIVERVERSION	"v5.1.5_19247.20160830"
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_vht.h b/drivers/net/wireless/rtl8812au/include/rtw_vht.h
+new file mode 100644
+index 0000000..1d886bb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_vht.h
+@@ -0,0 +1,143 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_VHT_H_
++#define _RTW_VHT_H_
++
++#define	LDPC_VHT_ENABLE_RX			BIT0
++#define	LDPC_VHT_ENABLE_TX			BIT1
++#define	LDPC_VHT_TEST_TX_ENABLE		BIT2
++#define	LDPC_VHT_CAP_TX				BIT3
++
++#define	STBC_VHT_ENABLE_RX			BIT0
++#define	STBC_VHT_ENABLE_TX			BIT1
++#define	STBC_VHT_TEST_TX_ENABLE		BIT2
++#define	STBC_VHT_CAP_TX				BIT3
++
++#define	BEAMFORMING_VHT_BEAMFORMER_ENABLE	BIT0	/* Declare our NIC supports beamformer */
++#define	BEAMFORMING_VHT_BEAMFORMEE_ENABLE	BIT1	/* Declare our NIC supports beamformee */
++#define	BEAMFORMING_VHT_MU_MIMO_AP_ENABLE		BIT2			/*Declare our NIC support MU-MIMO AP mode*/
++#define	BEAMFORMING_VHT_MU_MIMO_STA_ENABLE	BIT3			/*Declare our NIC support MU-MIMO STA mode*/
++#define	BEAMFORMING_VHT_BEAMFORMER_TEST		BIT4			/*Transmiting Beamforming no matter the target supports it or not*/
++#define	BEAMFORMING_VHT_BEAMFORMER_STS_CAP		(BIT8 | BIT9 | BIT10)		/*Asoc rsp cap*/
++#define	BEAMFORMING_VHT_BEAMFORMEE_SOUND_DIM		(BIT12 | BIT13 | BIT14)		/*Asoc rsp cap*/
++
++
++/* VHT capability info */
++#define SET_VHT_CAPABILITY_ELE_MAX_MPDU_LENGTH(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(_pEleStart, 0, 2, _val)
++#define SET_VHT_CAPABILITY_ELE_CHL_WIDTH(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(_pEleStart, 2, 2, _val)
++#define SET_VHT_CAPABILITY_ELE_RX_LDPC(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(_pEleStart, 4, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_SHORT_GI80M(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE(_pEleStart, 5, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_SHORT_GI160M(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE(_pEleStart, 6, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_TX_STBC(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE(_pEleStart, 7, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_RX_STBC(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+1, 0, 3, _val)
++#define SET_VHT_CAPABILITY_ELE_SU_BFER(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+1, 3, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_SU_BFEE(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+1, 4, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_BFER_ANT_SUPP(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+1, 5, 3, _val)
++#define SET_VHT_CAPABILITY_ELE_SOUNDING_DIMENSIONS(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+2, 0, 3, _val)
++
++#define SET_VHT_CAPABILITY_ELE_MU_BFER(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+2, 3, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_MU_BFEE(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+2, 4, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_TXOP_PS(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+2, 5, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_HTC_VHT(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+2, 6, 1, _val)
++#define SET_VHT_CAPABILITY_ELE_MAX_RXAMPDU_FACTOR(_pEleStart, _val)		SET_BITS_TO_LE_2BYTE((_pEleStart)+2, 7, 3, _val) /* B23~B25 */
++#define SET_VHT_CAPABILITY_ELE_LINK_ADAPTION(_pEleStart, _val)				SET_BITS_TO_LE_1BYTE((_pEleStart)+2, 2, 2, _val)
++#define SET_VHT_CAPABILITY_ELE_MCS_RX_MAP(_pEleStart, _val)				SET_BITS_TO_LE_2BYTE((_pEleStart)+4, 0, 16, _val)   /* B0~B15 indicate Rx MCS MAP, we write 0 to indicate MCS0~7. by page */
++#define SET_VHT_CAPABILITY_ELE_MCS_RX_HIGHEST_RATE(_pEleStart, _val)				SET_BITS_TO_LE_2BYTE((_pEleStart)+6, 0, 13, _val)
++#define SET_VHT_CAPABILITY_ELE_MCS_TX_MAP(_pEleStart, _val)				SET_BITS_TO_LE_2BYTE((_pEleStart)+8, 0, 16, _val)   /* B0~B15 indicate Tx MCS MAP, we write 0 to indicate MCS0~7. by page */
++#define SET_VHT_CAPABILITY_ELE_MCS_TX_HIGHEST_RATE(_pEleStart, _val)				SET_BITS_TO_LE_2BYTE((_pEleStart)+10, 0, 13, _val)
++
++
++#define GET_VHT_CAPABILITY_ELE_MAX_MPDU_LENGTH(_pEleStart)			LE_BITS_TO_1BYTE(_pEleStart, 0, 2)
++#define GET_VHT_CAPABILITY_ELE_CHL_WIDTH(_pEleStart)				LE_BITS_TO_1BYTE(_pEleStart, 2, 2)
++#define GET_VHT_CAPABILITY_ELE_RX_LDPC(_pEleStart)			LE_BITS_TO_1BYTE(_pEleStart, 4, 1)
++#define GET_VHT_CAPABILITY_ELE_SHORT_GI80M(_pEleStart)				LE_BITS_TO_1BYTE(_pEleStart, 5, 1)
++#define GET_VHT_CAPABILITY_ELE_SHORT_GI160M(_pEleStart)				LE_BITS_TO_1BYTE(_pEleStart, 6, 1)
++#define GET_VHT_CAPABILITY_ELE_TX_STBC(_pEleStart)				LE_BITS_TO_1BYTE(_pEleStart, 7, 1)
++#define GET_VHT_CAPABILITY_ELE_RX_STBC(_pEleStart)				LE_BITS_TO_1BYTE((_pEleStart)+1, 0, 3)
++#define GET_VHT_CAPABILITY_ELE_SU_BFER(_pEleStart)					LE_BITS_TO_1BYTE((_pEleStart)+1, 3, 1)
++#define GET_VHT_CAPABILITY_ELE_SU_BFEE(_pEleStart)					LE_BITS_TO_1BYTE((_pEleStart)+1, 4, 1)
++/*phydm-beamforming*/
++#define GET_VHT_CAPABILITY_ELE_SU_BFEE_STS_CAP(_pEleStart)	LE_BITS_TO_2BYTE((_pEleStart)+1, 5, 3)
++#define GET_VHT_CAPABILITY_ELE_SU_BFER_SOUND_DIM_NUM(_pEleStart)	LE_BITS_TO_2BYTE((_pEleStart)+2, 0, 3)
++#define GET_VHT_CAPABILITY_ELE_MU_BFER(_pEleStart)				LE_BITS_TO_1BYTE((_pEleStart)+2, 3, 1)
++#define GET_VHT_CAPABILITY_ELE_MU_BFEE(_pEleStart)				LE_BITS_TO_1BYTE((_pEleStart)+2, 4, 1)
++#define GET_VHT_CAPABILITY_ELE_TXOP_PS(_pEleStart)				LE_BITS_TO_1BYTE((_pEleStart)+2, 5, 1)
++#define GET_VHT_CAPABILITY_ELE_MAX_RXAMPDU_FACTOR(_pEleStart)	LE_BITS_TO_2BYTE((_pEleStart)+2, 7, 3)
++#define GET_VHT_CAPABILITY_ELE_RX_MCS(_pEleStart)					       ((_pEleStart)+4)
++#define GET_VHT_CAPABILITY_ELE_MCS_RX_HIGHEST_RATE(_pEleStart)			LE_BITS_TO_2BYTE((_pEleStart)+6, 0, 13)
++#define GET_VHT_CAPABILITY_ELE_TX_MCS(_pEleStart)					       ((_pEleStart)+8)
++#define GET_VHT_CAPABILITY_ELE_MCS_TX_HIGHEST_RATE(_pEleStart)			LE_BITS_TO_2BYTE((_pEleStart)+10, 0, 13)
++
++
++/* VHT Operation Information Element */
++#define SET_VHT_OPERATION_ELE_CHL_WIDTH(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(_pEleStart, 0, 8, _val)
++#define SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ1(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(_pEleStart+1, 0, 8, _val)
++#define SET_VHT_OPERATION_ELE_CHL_CENTER_FREQ2(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(_pEleStart+2, 0, 8, _val)
++#define SET_VHT_OPERATION_ELE_BASIC_MCS_SET(_pEleStart, _val)			SET_BITS_TO_LE_2BYTE((_pEleStart)+3, 0, 16, _val)
++
++#define GET_VHT_OPERATION_ELE_CHL_WIDTH(_pEleStart)		LE_BITS_TO_1BYTE(_pEleStart, 0, 8)
++#define GET_VHT_OPERATION_ELE_CENTER_FREQ1(_pEleStart)	LE_BITS_TO_1BYTE((_pEleStart)+1, 0, 8)
++#define GET_VHT_OPERATION_ELE_CENTER_FREQ2(_pEleStart)     LE_BITS_TO_1BYTE((_pEleStart)+2, 0, 8)
++
++/* VHT Operating Mode */
++#define SET_VHT_OPERATING_MODE_FIELD_CHNL_WIDTH(_pEleStart, _val)		SET_BITS_TO_LE_1BYTE(_pEleStart, 0, 2, _val)
++#define SET_VHT_OPERATING_MODE_FIELD_RX_NSS(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE(_pEleStart, 4, 3, _val)
++#define SET_VHT_OPERATING_MODE_FIELD_RX_NSS_TYPE(_pEleStart, _val)	SET_BITS_TO_LE_1BYTE(_pEleStart, 7, 1, _val)
++#define GET_VHT_OPERATING_MODE_FIELD_CHNL_WIDTH(_pEleStart)			LE_BITS_TO_1BYTE(_pEleStart, 0, 2)
++#define GET_VHT_OPERATING_MODE_FIELD_RX_NSS(_pEleStart)				LE_BITS_TO_1BYTE(_pEleStart, 4, 3)
++#define GET_VHT_OPERATING_MODE_FIELD_RX_NSS_TYPE(_pEleStart)		LE_BITS_TO_1BYTE(_pEleStart, 7, 1)
++
++#define SET_EXT_CAPABILITY_ELE_OP_MODE_NOTIF(_pEleStart, _val)			SET_BITS_TO_LE_1BYTE((_pEleStart)+7, 6, 1, _val)
++#define GET_EXT_CAPABILITY_ELE_OP_MODE_NOTIF(_pEleStart)				LE_BITS_TO_1BYTE((_pEleStart)+7, 6, 1)
++
++struct vht_priv {
++	u8	vht_option;
++
++	u8	ldpc_cap;
++	u8	stbc_cap;
++	u16	beamform_cap;
++
++	u8	sgi_80m;/* short GI */
++	u8	ampdu_len;
++
++	u8	vht_op_mode_notify;
++	u8	vht_highest_rate;
++	u8	vht_mcs_map[2];
++
++	u8	vht_cap[32];
++};
++
++u8	rtw_get_vht_highest_rate(u8 *pvht_mcs_map);
++u16	rtw_vht_mcs_to_data_rate(u8 bw, u8 short_GI, u8 vht_mcs_rate);
++u64	rtw_vht_rate_to_bitmap(u8 *pVHTRate);
++void	rtw_vht_use_default_setting(_adapter *padapter);
++u32	rtw_build_vht_operation_ie(_adapter *padapter, u8 *pbuf, u8 channel);
++u32	rtw_build_vht_op_mode_notify_ie(_adapter *padapter, u8 *pbuf, u8 bw);
++u32	rtw_build_vht_cap_ie(_adapter *padapter, u8 *pbuf);
++void	update_sta_vht_info_apmode(_adapter *padapter, PVOID psta);
++void	update_hw_vht_param(_adapter *padapter);
++void	VHT_caps_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE);
++void	VHT_operation_handler(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE);
++void	rtw_process_vht_op_mode_notify(_adapter *padapter, u8 *pframe, PVOID sta);
++u32	rtw_restructure_vht_ie(_adapter *padapter, u8 *in_ie, u8 *out_ie, uint in_len, uint *pout_len);
++void	VHTOnAssocRsp(_adapter *padapter);
++u8	rtw_vht_mcsmap_to_nss(u8 *pvht_mcs_map);
++
++#endif /* _RTW_VHT_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_wapi.h b/drivers/net/wireless/rtl8812au/include/rtw_wapi.h
+new file mode 100644
+index 0000000..635aec0
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_wapi.h
+@@ -0,0 +1,214 @@
++#ifndef __INC_WAPI_H
++#define __INC_WAPI_H
++
++
++#define CONFIG_WAPI_SW_SMS4
++#define WAPI_DEBUG
++
++#define SMS4_MIC_LEN                16
++#define WAPI_EXT_LEN                18
++#define MAX_WAPI_IE_LEN		    256
++#define sMacHdrLng				24		/* octets in data header, no WEP */
++
++#ifdef WAPI_DEBUG
++
++/* WAPI trace debug */
++extern u32 wapi_debug_component;
++
++static inline void dump_buf(u8 *buf, u32 len)
++{
++	u32 i;
++	printk("-----------------Len %d----------------\n", len);
++	for (i = 0; i < len; i++)
++		printk("%2.2x-", *(buf + i));
++	printk("\n");
++}
++
++#define WAPI_TRACE(component, x, args...) \
++	do { if (wapi_debug_component & (component)) \
++			printk(KERN_DEBUG "WAPI" ":" x "" , \
++			       ##args);\
++	} while (0);
++
++#define WAPI_DATA(component, x, buf, len) \
++	do { if (wapi_debug_component & (component)) { \
++			printk("%s:\n", x);\
++			dump_buf((buf), (len)); } \
++	} while (0);
++
++#define RT_ASSERT_RET(_Exp)								\
++	if (!(_Exp)) {									\
++		printk("RTWLAN: ");					\
++		printk("Assertion failed! %s,%s, line=%d\n", \
++		       #_Exp, __FUNCTION__, __LINE__);          \
++		return;						\
++	}
++#define RT_ASSERT_RET_VALUE(_Exp, Ret)								\
++	if (!(_Exp)) {									\
++		printk("RTWLAN: ");					\
++		printk("Assertion failed! %s,%s, line=%d\n", \
++		       #_Exp, __FUNCTION__, __LINE__);          \
++		return Ret;						\
++	}
++
++#else
++#define RT_ASSERT_RET(_Exp) do {} while (0)
++#define RT_ASSERT_RET_VALUE(_Exp, Ret) do {} while (0)
++#define WAPI_TRACE(component, x, args...) do {} while (0)
++#define WAPI_DATA(component, x, buf, len) do {} while (0)
++#endif
++
++
++enum WAPI_DEBUG {
++	WAPI_INIT				= 1,
++	WAPI_API				= 1 << 1,
++	WAPI_TX				= 1 << 2,
++	WAPI_RX				= 1 << 3,
++	WAPI_MLME				= 1 << 4,
++	WAPI_IOCTL				= 1 << 5,
++	WAPI_ERR			= 1 << 31
++};
++
++#define			WAPI_MAX_BKID_NUM				4
++#define			WAPI_MAX_STAINFO_NUM			4
++#define			WAPI_CAM_ENTRY_NUM			14	/* 28/2 = 14 */
++
++typedef struct  _RT_WAPI_BKID {
++	struct list_head	list;
++	u8				bkid[16];
++} RT_WAPI_BKID, *PRT_WAPI_BKID;
++
++typedef struct  _RT_WAPI_KEY {
++	u8			dataKey[16];
++	u8			micKey[16];
++	u8			keyId;
++	bool			bSet;
++	bool             bTxEnable;
++} RT_WAPI_KEY, *PRT_WAPI_KEY;
++
++typedef enum _RT_WAPI_PACKET_TYPE {
++	WAPI_NONE = 0,
++	WAPI_PREAUTHENTICATE = 1,
++	WAPI_STAKEY_REQUEST = 2,
++	WAPI_AUTHENTICATE_ACTIVE = 3,
++	WAPI_ACCESS_AUTHENTICATE_REQUEST = 4,
++	WAPI_ACCESS_AUTHENTICATE_RESPONSE = 5,
++	WAPI_CERTIFICATE_AUTHENTICATE_REQUEST = 6,
++	WAPI_CERTIFICATE_AUTHENTICATE_RESPONSE = 7,
++	WAPI_USK_REQUEST = 8,
++	WAPI_USK_RESPONSE = 9,
++	WAPI_USK_CONFIRM = 10,
++	WAPI_MSK_NOTIFICATION = 11,
++	WAPI_MSK_RESPONSE = 12
++} RT_WAPI_PACKET_TYPE;
++
++typedef struct	_RT_WAPI_STA_INFO {
++	struct list_head		list;
++	u8					PeerMacAddr[6];
++	RT_WAPI_KEY		      wapiUsk;
++	RT_WAPI_KEY		      wapiUskUpdate;
++	RT_WAPI_KEY		      wapiMsk;
++	RT_WAPI_KEY		      wapiMskUpdate;
++	u8					lastRxUnicastPN[16];
++	u8					lastTxUnicastPN[16];
++	u8					lastRxMulticastPN[16];
++	u8					lastRxUnicastPNBEQueue[16];
++	u8					lastRxUnicastPNBKQueue[16];
++	u8					lastRxUnicastPNVIQueue[16];
++	u8					lastRxUnicastPNVOQueue[16];
++	bool					bSetkeyOk;
++	bool					bAuthenticateInProgress;
++	bool					bAuthenticatorInUpdata;
++} RT_WAPI_STA_INFO, *PRT_WAPI_STA_INFO;
++
++/* Added for HW wapi en/decryption */
++typedef struct _RT_WAPI_CAM_ENTRY {
++	/* RT_LIST_ENTRY		list; */
++	u8			IsUsed;
++	u8			entry_idx;/* for cam entry */
++	u8			keyidx;	/* 0 or 1,new or old key */
++	u8			PeerMacAddr[6];
++	u8			type;	/* should be 110,wapi */
++} RT_WAPI_CAM_ENTRY, *PRT_WAPI_CAM_ENTRY;
++
++typedef struct _RT_WAPI_T {
++	/* BKID */
++	RT_WAPI_BKID		wapiBKID[WAPI_MAX_BKID_NUM];
++	struct list_head		wapiBKIDIdleList;
++	struct list_head		wapiBKIDStoreList;
++	/* Key for Tx Multicast/Broadcast */
++	RT_WAPI_KEY		      wapiTxMsk;
++
++	/* sec related */
++	u8				lastTxMulticastPN[16];
++	/* STA list */
++	RT_WAPI_STA_INFO	wapiSta[WAPI_MAX_STAINFO_NUM];
++	struct list_head		wapiSTAIdleList;
++	struct list_head		wapiSTAUsedList;
++	/*  */
++	bool				bWapiEnable;
++
++	/* store WAPI IE */
++	u8				wapiIE[256];
++	u8				wapiIELength;
++	bool				bWapiPSK;
++	/* last sequece number for wai packet */
++	u16				wapiSeqnumAndFragNum;
++	int extra_prefix_len;
++	int extra_postfix_len;
++
++	RT_WAPI_CAM_ENTRY	wapiCamEntry[WAPI_CAM_ENTRY_NUM];
++} RT_WAPI_T, *PRT_WAPI_T;
++
++typedef struct _WLAN_HEADER_WAPI_EXTENSION {
++	u8      KeyIdx;
++	u8      Reserved;
++	u8      PN[16];
++} WLAN_HEADER_WAPI_EXTENSION, *PWLAN_HEADER_WAPI_EXTENSION;
++
++u32 WapiComparePN(u8 *PN1, u8 *PN2);
++
++
++void rtw_wapi_init(_adapter *padapter);
++
++void rtw_wapi_free(_adapter *padapter);
++
++void rtw_wapi_disable_tx(_adapter *padapter);
++
++u8 rtw_wapi_is_wai_packet(_adapter *padapter, u8 *pkt_data);
++
++void rtw_wapi_update_info(_adapter *padapter, union recv_frame *precv_frame);
++
++u8 rtw_wapi_check_for_drop(_adapter *padapter, union recv_frame *precv_frame);
++
++void rtw_build_probe_resp_wapi_ie(_adapter *padapter, unsigned char *pframe, struct pkt_attrib *pattrib);
++
++void rtw_build_beacon_wapi_ie(_adapter *padapter, unsigned char *pframe, struct pkt_attrib *pattrib);
++
++void rtw_build_assoc_req_wapi_ie(_adapter *padapter, unsigned char *pframe, struct pkt_attrib *pattrib);
++
++void rtw_wapi_on_assoc_ok(_adapter *padapter, PNDIS_802_11_VARIABLE_IEs pIE);
++
++void rtw_wapi_return_one_sta_info(_adapter *padapter, u8 *MacAddr);
++
++void rtw_wapi_return_all_sta_info(_adapter *padapter);
++
++void rtw_wapi_clear_cam_entry(_adapter *padapter, u8 *pMacAddr);
++
++void rtw_wapi_clear_all_cam_entry(_adapter *padapter);
++
++void rtw_wapi_set_key(_adapter *padapter, RT_WAPI_KEY *pWapiKey, RT_WAPI_STA_INFO *pWapiSta, u8 bGroupKey, u8 bUseDefaultKey);
++
++int rtw_wapi_create_event_send(_adapter *padapter, u8 EventId, u8 *MacAddr, u8 *Buff, u16 BufLen);
++
++u32	rtw_sms4_encrypt(_adapter *padapter, u8 *pxmitframe);
++
++u32	rtw_sms4_decrypt(_adapter *padapter, u8 *precvframe);
++
++void rtw_wapi_get_iv(_adapter *padapter, u8 *pRA, u8 *IV);
++
++u8 WapiIncreasePN(u8 *PN, u8 AddCount);
++
++bool rtw_wapi_drop_for_key_absent(_adapter *padapter, u8 *pRA);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_wifi_regd.h b/drivers/net/wireless/rtl8812au/include/rtw_wifi_regd.h
+new file mode 100644
+index 0000000..2182712
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_wifi_regd.h
+@@ -0,0 +1,25 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2009-2010  Realtek Corporation.
++ *
++ *****************************************************************************/
++
++#ifndef __RTW_WIFI_REGD_H__
++#define __RTW_WIFI_REGD_H__
++
++struct country_code_to_enum_rd {
++	u16 countrycode;
++	const char *iso_name;
++};
++
++enum country_code_type_t {
++	COUNTRY_CODE_USER = 0,
++
++	/*add new channel plan above this line */
++	COUNTRY_CODE_MAX
++};
++
++int rtw_regd_init(_adapter *padapter);
++void rtw_reg_notify_by_driver(_adapter *adapter);
++
++#endif /* __RTW_WIFI_REGD_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/rtw_xmit.h b/drivers/net/wireless/rtl8812au/include/rtw_xmit.h
+new file mode 100644
+index 0000000..4c35ef1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/rtw_xmit.h
+@@ -0,0 +1,923 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _RTW_XMIT_H_
++#define _RTW_XMIT_H_
++
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	#ifdef CONFIG_TX_AGGREGATION
++		#define MAX_XMITBUF_SZ	(20480)	/* 20k */
++		/* #define SDIO_TX_AGG_MAX	5 */
++	#else
++		#define MAX_XMITBUF_SZ (1664)
++		#define SDIO_TX_AGG_MAX	1
++	#endif
++
++	#if defined CONFIG_SDIO_HCI
++		#define NR_XMITBUFF	(16)
++	#endif
++	#if defined(CONFIG_GSPI_HCI)
++		#define NR_XMITBUFF	(128)
++	#endif
++
++#elif defined (CONFIG_USB_HCI)
++
++	#ifdef CONFIG_USB_TX_AGGREGATION
++		#if defined(CONFIG_PLATFORM_ARM_SUNxI) || defined(CONFIG_PLATFORM_ARM_SUN6I) || defined(CONFIG_PLATFORM_ARM_SUN7I) || defined(CONFIG_PLATFORM_ARM_SUN8I) || defined(CONFIG_PLATFORM_ARM_SUN50IW1P1)
++			#define MAX_XMITBUF_SZ (12288)  /* 12k 1536*8 */
++		#elif defined (CONFIG_PLATFORM_MSTAR)
++			#define MAX_XMITBUF_SZ	7680	/* 7.5k */
++		#else
++			#define MAX_XMITBUF_SZ	(20480)	/* 20k */
++		#endif
++	#else
++		#define MAX_XMITBUF_SZ	(2048)
++	#endif
++
++	#ifdef CONFIG_SINGLE_XMIT_BUF
++		#define NR_XMITBUFF	(1)
++	#else
++		#define NR_XMITBUFF	(4)
++	#endif /* CONFIG_SINGLE_XMIT_BUF */
++#elif defined (CONFIG_PCI_HCI)
++	#define MAX_XMITBUF_SZ	(1664)
++	#define NR_XMITBUFF	(128)
++#endif
++
++#ifdef PLATFORM_OS_CE
++	#define XMITBUF_ALIGN_SZ 4
++#else
++	#ifdef CONFIG_PCI_HCI
++		#define XMITBUF_ALIGN_SZ 4
++	#else
++		#ifdef USB_XMITBUF_ALIGN_SZ
++			#define XMITBUF_ALIGN_SZ (USB_XMITBUF_ALIGN_SZ)
++		#else
++			#define XMITBUF_ALIGN_SZ 512
++		#endif
++	#endif
++#endif
++
++/* xmit extension buff defination */
++#define MAX_XMIT_EXTBUF_SZ	(1536)
++
++#ifdef CONFIG_SINGLE_XMIT_BUF
++	#define NR_XMIT_EXTBUFF	(1)
++#else
++	#define NR_XMIT_EXTBUFF	(32)
++#endif
++
++#ifdef CONFIG_RTL8812A
++	#define MAX_CMDBUF_SZ	(512*14)
++#elif defined(CONFIG_RTL8723D) && defined(CONFIG_LPS_POFF)
++	#define MAX_CMDBUF_SZ	(128*70) /*(8960)*/
++#else
++	#define MAX_CMDBUF_SZ	(5120)	/* (4096) */
++#endif
++
++#define MAX_NUMBLKS		(1)
++
++#define XMIT_VO_QUEUE (0)
++#define XMIT_VI_QUEUE (1)
++#define XMIT_BE_QUEUE (2)
++#define XMIT_BK_QUEUE (3)
++
++#define VO_QUEUE_INX		0
++#define VI_QUEUE_INX		1
++#define BE_QUEUE_INX		2
++#define BK_QUEUE_INX		3
++#define BCN_QUEUE_INX		4
++#define MGT_QUEUE_INX		5
++#define HIGH_QUEUE_INX		6
++#define TXCMD_QUEUE_INX	7
++
++#define HW_QUEUE_ENTRY	8
++
++#ifdef CONFIG_PCI_HCI
++	#ifdef CONFIG_TRX_BD_ARCH
++		#define TX_BD_NUM			(128+1)	/* +1 result from ring buffer */
++	#else
++		/* #define TXDESC_NUM						64 */
++		#define TXDESC_NUM						128
++		#define TXBD_NUM				TXDESC_NUM
++		#define TXDESC_NUM_BE_QUEUE			128
++		#define TXBD_NUM_RSVD				2
++	#endif
++#endif
++
++#define WEP_IV(pattrib_iv, dot11txpn, keyidx)\
++	do {\
++		pattrib_iv[0] = dot11txpn._byte_.TSC0;\
++		pattrib_iv[1] = dot11txpn._byte_.TSC1;\
++		pattrib_iv[2] = dot11txpn._byte_.TSC2;\
++		pattrib_iv[3] = ((keyidx & 0x3)<<6);\
++		dot11txpn.val = (dot11txpn.val == 0xffffff) ? 0 : (dot11txpn.val+1);\
++	} while (0)
++
++
++#define TKIP_IV(pattrib_iv, dot11txpn, keyidx)\
++	do {\
++		pattrib_iv[0] = dot11txpn._byte_.TSC1;\
++		pattrib_iv[1] = (dot11txpn._byte_.TSC1 | 0x20) & 0x7f;\
++		pattrib_iv[2] = dot11txpn._byte_.TSC0;\
++		pattrib_iv[3] = BIT(5) | ((keyidx & 0x3)<<6);\
++		pattrib_iv[4] = dot11txpn._byte_.TSC2;\
++		pattrib_iv[5] = dot11txpn._byte_.TSC3;\
++		pattrib_iv[6] = dot11txpn._byte_.TSC4;\
++		pattrib_iv[7] = dot11txpn._byte_.TSC5;\
++		dot11txpn.val = dot11txpn.val == 0xffffffffffffULL ? 0 : (dot11txpn.val+1);\
++	} while (0)
++
++#define AES_IV(pattrib_iv, dot11txpn, keyidx)\
++	do {\
++		pattrib_iv[0] = dot11txpn._byte_.TSC0;\
++		pattrib_iv[1] = dot11txpn._byte_.TSC1;\
++		pattrib_iv[2] = 0;\
++		pattrib_iv[3] = BIT(5) | ((keyidx & 0x3)<<6);\
++		pattrib_iv[4] = dot11txpn._byte_.TSC2;\
++		pattrib_iv[5] = dot11txpn._byte_.TSC3;\
++		pattrib_iv[6] = dot11txpn._byte_.TSC4;\
++		pattrib_iv[7] = dot11txpn._byte_.TSC5;\
++		dot11txpn.val = dot11txpn.val == 0xffffffffffffULL ? 0 : (dot11txpn.val+1);\
++	} while (0)
++
++
++#define HWXMIT_ENTRY	4
++
++/* For Buffer Descriptor ring architecture */
++#if defined(BUF_DESC_ARCH) || defined(CONFIG_TRX_BD_ARCH)
++	#if defined(CONFIG_RTL8192E)
++		#define TX_BUFFER_SEG_NUM	1 /* 0:2 seg, 1: 4 seg, 2: 8 seg. */
++	#elif defined(CONFIG_RTL8814A)
++		#define TX_BUFFER_SEG_NUM	1 /* 0:2 seg, 1: 4 seg, 2: 8 seg. */
++	#else
++		#define TX_BUFFER_SEG_NUM	1 /* 0:2 seg, 1: 4 seg, 2: 8 seg. */
++	#endif
++#endif
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) ||\
++	defined(CONFIG_RTL8723B) || defined(CONFIG_RTL8192E) ||\
++	defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8703B) ||\
++	defined(CONFIG_RTL8188F) || defined(CONFIG_RTL8723D)
++	#define TXDESC_SIZE 40
++#elif defined(CONFIG_RTL8822B)
++	#define TXDESC_SIZE 48		/* HALMAC_TX_DESC_SIZE_8822B */
++#elif defined(CONFIG_RTL8821C)
++	#define TXDESC_SIZE 48		/* HALMAC_TX_DESC_SIZE_8821C */
++#else
++	#define TXDESC_SIZE 32 /* old IC (ex: 8188E) */
++#endif
++
++#ifdef CONFIG_TX_EARLY_MODE
++	#define EARLY_MODE_INFO_SIZE	8
++#endif
++
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	#define TXDESC_OFFSET TXDESC_SIZE
++#endif
++
++#ifdef CONFIG_USB_HCI
++	#ifdef USB_PACKET_OFFSET_SZ
++		#define PACKET_OFFSET_SZ (USB_PACKET_OFFSET_SZ)
++	#else
++		#define PACKET_OFFSET_SZ (8)
++	#endif
++	#define TXDESC_OFFSET (TXDESC_SIZE + PACKET_OFFSET_SZ)
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	#if defined(CONFIG_RTL8192E) || defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C) || defined(CONFIG_TRX_BD_ARCH)
++		/* this section is defined for buffer descriptor ring architecture */
++		#define TX_WIFI_INFO_SIZE (TXDESC_SIZE) /* it may add 802.11 hdr or others... */
++		/* tx desc and payload are in the same buf */
++		#define TXDESC_OFFSET (TX_WIFI_INFO_SIZE)
++	#else
++		/* tx desc and payload are NOT in the same buf */
++		#define TXDESC_OFFSET (0)
++		/* 8188ee/8723be/8812ae/8821ae has extra PCI DMA info in tx desc */
++		#define TX_DESC_NEXT_DESC_OFFSET	(TXDESC_SIZE + 8)
++	#endif
++#endif /* CONFIG_PCI_HCI */
++
++enum TXDESC_SC {
++	SC_DONT_CARE = 0x00,
++	SC_UPPER = 0x01,
++	SC_LOWER = 0x02,
++	SC_DUPLICATE = 0x03
++};
++
++#ifdef CONFIG_PCI_HCI
++	#ifndef CONFIG_TRX_BD_ARCH	/* CONFIG_TRX_BD_ARCH doesn't need this */
++		#define TXDESC_64_BYTES
++	#endif
++#elif defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) || defined(CONFIG_RTL8723B) \
++	|| defined(CONFIG_RTL8188F) || defined(CONFIG_RTL8723D)
++	#define TXDESC_40_BYTES
++#endif
++
++#ifdef CONFIG_TRX_BD_ARCH
++struct tx_buf_desc {
++#ifdef CONFIG_64BIT_DMA
++#define TX_BUFFER_SEG_SIZE	4	/* in unit of DWORD */
++#else
++#define TX_BUFFER_SEG_SIZE	2	/* in unit of DWORD */
++#endif
++	unsigned int dword[TX_BUFFER_SEG_SIZE * (2 << TX_BUFFER_SEG_NUM)];
++} __packed;
++#elif (defined(CONFIG_RTL8192E) || defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B)) && defined(CONFIG_PCI_HCI) /* 8192ee or 8814ae */
++/* 8192EE_TODO */
++struct tx_desc {
++	unsigned int txdw0;
++	unsigned int txdw1;
++	unsigned int txdw2;
++	unsigned int txdw3;
++	unsigned int txdw4;
++	unsigned int txdw5;
++	unsigned int txdw6;
++	unsigned int txdw7;
++};
++#else
++struct tx_desc {
++	unsigned int txdw0;
++	unsigned int txdw1;
++	unsigned int txdw2;
++	unsigned int txdw3;
++	unsigned int txdw4;
++	unsigned int txdw5;
++	unsigned int txdw6;
++	unsigned int txdw7;
++
++#if defined(TXDESC_40_BYTES) || defined(TXDESC_64_BYTES)
++	unsigned int txdw8;
++	unsigned int txdw9;
++#endif /* TXDESC_40_BYTES */
++
++#ifdef TXDESC_64_BYTES
++	unsigned int txdw10;
++	unsigned int txdw11;
++
++	/* 2008/05/15 MH Because PCIE HW memory R/W 4K limit. And now,  our descriptor */
++	/* size is 40 bytes. If you use more than 102 descriptor( 103*40>4096), HW will execute */
++	/* memoryR/W CRC error. And then all DMA fetch will fail. We must decrease descriptor */
++	/* number or enlarge descriptor size as 64 bytes. */
++	unsigned int txdw12;
++	unsigned int txdw13;
++	unsigned int txdw14;
++	unsigned int txdw15;
++#endif
++};
++#endif
++
++#ifndef CONFIG_TRX_BD_ARCH
++union txdesc {
++	struct tx_desc txdesc;
++	unsigned int value[TXDESC_SIZE >> 2];
++};
++#endif
++
++#ifdef CONFIG_PCI_HCI
++#define PCI_MAX_TX_QUEUE_COUNT	8	/* == HW_QUEUE_ENTRY */
++
++struct rtw_tx_ring {
++	unsigned char	qid;
++#ifdef CONFIG_TRX_BD_ARCH
++	struct tx_buf_desc	*buf_desc;
++#else
++	struct tx_desc	*desc;
++#endif
++	dma_addr_t	dma;
++	unsigned int	idx;
++	unsigned int	entries;
++	_queue		queue;
++	u32		qlen;
++#ifdef CONFIG_TRX_BD_ARCH
++	u16		hw_rp_cache;
++#endif
++};
++#endif
++
++struct	hw_xmit	{
++	/* _lock xmit_lock; */
++	/* _list	pending; */
++	_queue *sta_queue;
++	/* struct hw_txqueue *phwtxqueue; */
++	/* sint	txcmdcnt; */
++	int	accnt;
++};
++
++#if 0
++struct pkt_attrib {
++	u8	type;
++	u8	subtype;
++	u8	bswenc;
++	u8	dhcp_pkt;
++	u16	ether_type;
++	int	pktlen;		/* the original 802.3 pkt raw_data len (not include ether_hdr data) */
++	int	pkt_hdrlen;	/* the original 802.3 pkt header len */
++	int	hdrlen;		/* the WLAN Header Len */
++	int	nr_frags;
++	int	last_txcmdsz;
++	int	encrypt;	/* when 0 indicate no encrypt. when non-zero, indicate the encrypt algorith */
++	u8	iv[8];
++	int	iv_len;
++	u8	icv[8];
++	int	icv_len;
++	int	priority;
++	int	ack_policy;
++	int	mac_id;
++	int	vcs_mode;	/* virtual carrier sense method */
++
++	u8	dst[ETH_ALEN];
++	u8	src[ETH_ALEN];
++	u8	ta[ETH_ALEN];
++	u8	ra[ETH_ALEN];
++
++	u8	key_idx;
++
++	u8	qos_en;
++	u8	ht_en;
++	u8	raid;/* rate adpative id */
++	u8	bwmode;
++	u8	ch_offset;/* PRIME_CHNL_OFFSET */
++	u8	sgi;/* short GI */
++	u8	ampdu_en;/* tx ampdu enable */
++	u8	mdata;/* more data bit */
++	u8	eosp;
++
++	u8	triggered;/* for ap mode handling Power Saving sta */
++
++	u32	qsel;
++	u16	seqnum;
++
++	struct sta_info *psta;
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
++	u8	hw_tcp_csum;
++#endif
++};
++#else
++/* reduce size */
++struct pkt_attrib {
++	u8	type;
++	u8	subtype;
++	u8	bswenc;
++	u8	dhcp_pkt;
++	u16	ether_type;
++	u16	seqnum;
++	u8	hw_ssn_sel;	/* for HW_SEQ0,1,2,3 */
++	u16	pkt_hdrlen;	/* the original 802.3 pkt header len */
++	u16	hdrlen;		/* the WLAN Header Len */
++	u32	pktlen;		/* the original 802.3 pkt raw_data len (not include ether_hdr data) */
++	u32	last_txcmdsz;
++	u8	nr_frags;
++	u8	encrypt;	/* when 0 indicate no encrypt. when non-zero, indicate the encrypt algorith */
++#if defined(CONFIG_CONCURRENT_MODE)
++	u8	bmc_camid;
++#endif
++	u8	iv_len;
++	u8	icv_len;
++	u8	iv[18];
++	u8	icv[16];
++	u8	priority;
++	u8	ack_policy;
++	u8	mac_id;
++	u8	vcs_mode;	/* virtual carrier sense method */
++	u8	dst[ETH_ALEN];
++	u8	src[ETH_ALEN];
++	u8	ta[ETH_ALEN];
++	u8	ra[ETH_ALEN];
++	u8	key_idx;
++	u8	qos_en;
++	u8	ht_en;
++	u8	raid;/* rate adpative id */
++	u8	bwmode;
++	u8	ch_offset;/* PRIME_CHNL_OFFSET */
++	u8	sgi;/* short GI */
++	u8	ampdu_en;/* tx ampdu enable */
++	u8	ampdu_spacing; /* ampdu_min_spacing for peer sta's rx */
++	u8	mdata;/* more data bit */
++	u8	pctrl;/* per packet txdesc control enable */
++	u8	triggered;/* for ap mode handling Power Saving sta */
++	u8	qsel;
++	u8	order;/* order bit */
++	u8	eosp;
++	u8	rate;
++	u8	intel_proxim;
++	u8	retry_ctrl;
++	u8   mbssid;
++	u8	ldpc;
++	u8	stbc;
++	struct sta_info *psta;
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
++	u8	hw_tcp_csum;
++#endif
++
++	u8 rtsen;
++	u8 cts2self;
++	union Keytype	dot11tkiptxmickey;
++	/* union Keytype	dot11tkiprxmickey; */
++	union Keytype	dot118021x_UncstKey;
++
++#ifdef CONFIG_TDLS
++	u8 direct_link;
++	struct sta_info *ptdls_sta;
++#endif /* CONFIG_TDLS */
++	u8 key_type;
++
++	u8 icmp_pkt;
++
++#ifdef CONFIG_BEAMFORMING
++	u16 txbf_p_aid;/*beamforming Partial_AID*/
++	u16 txbf_g_id;/*beamforming Group ID*/
++#endif
++
++};
++#endif
++
++#define WLANHDR_OFFSET	64
++
++#define NULL_FRAMETAG		(0x0)
++#define DATA_FRAMETAG		0x01
++#define L2_FRAMETAG		0x02
++#define MGNT_FRAMETAG		0x03
++#define AMSDU_FRAMETAG	0x04
++
++#define EII_FRAMETAG		0x05
++#define IEEE8023_FRAMETAG  0x06
++
++#define MP_FRAMETAG		0x07
++
++#define TXAGG_FRAMETAG	0x08
++
++enum {
++	XMITBUF_DATA = 0,
++	XMITBUF_MGNT = 1,
++	XMITBUF_CMD = 2,
++};
++
++bool rtw_xmit_ac_blocked(_adapter *adapter);
++
++struct  submit_ctx {
++	u32 submit_time; /* */
++	u32 timeout_ms; /* <0: not synchronous, 0: wait forever, >0: up to ms waiting */
++	int status; /* status for operation */
++#ifdef PLATFORM_LINUX
++	struct completion done;
++#endif
++};
++
++enum {
++	RTW_SCTX_SUBMITTED = -1,
++	RTW_SCTX_DONE_SUCCESS = 0,
++	RTW_SCTX_DONE_UNKNOWN,
++	RTW_SCTX_DONE_TIMEOUT,
++	RTW_SCTX_DONE_BUF_ALLOC,
++	RTW_SCTX_DONE_BUF_FREE,
++	RTW_SCTX_DONE_WRITE_PORT_ERR,
++	RTW_SCTX_DONE_TX_DESC_NA,
++	RTW_SCTX_DONE_TX_DENY,
++	RTW_SCTX_DONE_CCX_PKT_FAIL,
++	RTW_SCTX_DONE_DRV_STOP,
++	RTW_SCTX_DONE_DEV_REMOVE,
++	RTW_SCTX_DONE_CMD_ERROR,
++};
++
++
++void rtw_sctx_init(struct submit_ctx *sctx, int timeout_ms);
++int rtw_sctx_wait(struct submit_ctx *sctx, const char *msg);
++void rtw_sctx_done_err(struct submit_ctx **sctx, int status);
++void rtw_sctx_done(struct submit_ctx **sctx);
++
++struct xmit_buf {
++	_list	list;
++
++	_adapter *padapter;
++
++	u8 *pallocated_buf;
++
++	u8 *pbuf;
++
++	void *priv_data;
++
++	u16 buf_tag; /* 0: Normal xmitbuf, 1: extension xmitbuf, 2:cmd xmitbuf */
++	u16 flags;
++	u32 alloc_sz;
++
++	u32  len;
++
++	struct submit_ctx *sctx;
++
++#ifdef CONFIG_USB_HCI
++
++	/* u32 sz[8]; */
++	u32	ff_hwaddr;
++#ifdef RTW_HALMAC
++	u8 bulkout_id; /* for halmac */
++#endif /* RTW_HALMAC */
++
++#if defined(PLATFORM_OS_XP) || defined(PLATFORM_LINUX) || defined(PLATFORM_FREEBSD)
++	PURB	pxmit_urb[8];
++	dma_addr_t dma_transfer_addr;	/* (in) dma addr for transfer_buffer */
++#endif
++
++#ifdef PLATFORM_OS_XP
++	PIRP		pxmit_irp[8];
++#endif
++
++#ifdef PLATFORM_OS_CE
++	USB_TRANSFER	usb_transfer_write_port;
++#endif
++
++	u8 bpending[8];
++
++	sint last[8];
++
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	u8 *phead;
++	u8 *pdata;
++	u8 *ptail;
++	u8 *pend;
++	u32 ff_hwaddr;
++	u8	pg_num;
++	u8	agg_num;
++#ifdef PLATFORM_OS_XP
++	PMDL pxmitbuf_mdl;
++	PIRP  pxmitbuf_irp;
++	PSDBUS_REQUEST_PACKET pxmitbuf_sdrp;
++#endif
++#endif
++
++#ifdef CONFIG_PCI_HCI
++#ifdef CONFIG_TRX_BD_ARCH
++	/*struct tx_buf_desc *buf_desc;*/
++#else
++	struct tx_desc *desc;
++#endif
++#endif
++
++#if defined(DBG_XMIT_BUF) || defined(DBG_XMIT_BUF_EXT)
++	u8 no;
++#endif
++
++};
++
++
++struct xmit_frame {
++	_list	list;
++
++	struct pkt_attrib attrib;
++
++	_pkt *pkt;
++
++	int	frame_tag;
++
++	_adapter *padapter;
++
++	u8	*buf_addr;
++
++	struct xmit_buf *pxmitbuf;
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	u8	pg_num;
++	u8	agg_num;
++#endif
++
++#ifdef CONFIG_USB_HCI
++#ifdef CONFIG_USB_TX_AGGREGATION
++	u8	agg_num;
++#endif
++	s8	pkt_offset;
++#endif
++
++#ifdef CONFIG_XMIT_ACK
++	u8 ack_report;
++#endif
++
++	u8 *alloc_addr; /* the actual address this xmitframe allocated */
++	u8 ext_tag; /* 0:data, 1:mgmt */
++
++};
++
++struct tx_servq {
++	_list	tx_pending;
++	_queue	sta_pending;
++	int qcnt;
++};
++
++
++struct sta_xmit_priv {
++	_lock	lock;
++	sint	option;
++	sint	apsd_setting;	/* When bit mask is on, the associated edca queue supports APSD. */
++
++
++	/* struct tx_servq blk_q[MAX_NUMBLKS]; */
++	struct tx_servq	be_q;			/* priority == 0,3 */
++	struct tx_servq	bk_q;			/* priority == 1,2 */
++	struct tx_servq	vi_q;			/* priority == 4,5 */
++	struct tx_servq	vo_q;			/* priority == 6,7 */
++	_list	legacy_dz;
++	_list  apsd;
++
++	u16 txseq_tid[16];
++
++	/* uint	sta_tx_bytes; */
++	/* u64	sta_tx_pkts; */
++	/* uint	sta_tx_fail; */
++
++
++};
++
++
++struct	hw_txqueue	{
++	volatile sint	head;
++	volatile sint	tail;
++	volatile sint 	free_sz;	/* in units of 64 bytes */
++	volatile sint      free_cmdsz;
++	volatile sint	 txsz[8];
++	uint	ff_hwaddr;
++	uint	cmd_hwaddr;
++	sint	ac_tag;
++};
++
++struct agg_pkt_info {
++	u16 offset;
++	u16 pkt_len;
++};
++
++enum cmdbuf_type {
++	CMDBUF_BEACON = 0x00,
++	CMDBUF_RSVD,
++	CMDBUF_MAX
++};
++
++u8 rtw_get_hwseq_no(_adapter *padapter);
++
++struct	xmit_priv	{
++
++	_lock	lock;
++
++	_sema	xmit_sema;
++	_sema	terminate_xmitthread_sema;
++
++	/* _queue	blk_strms[MAX_NUMBLKS]; */
++	_queue	be_pending;
++	_queue	bk_pending;
++	_queue	vi_pending;
++	_queue	vo_pending;
++	_queue	bm_pending;
++
++	/* _queue	legacy_dz_queue; */
++	/* _queue	apsd_queue; */
++
++	u8 *pallocated_frame_buf;
++	u8 *pxmit_frame_buf;
++	uint free_xmitframe_cnt;
++	_queue	free_xmit_queue;
++
++	/* uint mapping_addr; */
++	/* uint pkt_sz; */
++
++	u8 *xframe_ext_alloc_addr;
++	u8 *xframe_ext;
++	uint free_xframe_ext_cnt;
++	_queue free_xframe_ext_queue;
++
++	/* struct	hw_txqueue	be_txqueue; */
++	/* struct	hw_txqueue	bk_txqueue; */
++	/* struct	hw_txqueue	vi_txqueue; */
++	/* struct	hw_txqueue	vo_txqueue; */
++	/* struct	hw_txqueue	bmc_txqueue; */
++
++	uint	frag_len;
++
++	_adapter	*adapter;
++
++	u8   vcs_setting;
++	u8	vcs;
++	u8	vcs_type;
++	/* u16  rts_thresh; */
++
++	u64	tx_bytes;
++	u64	tx_pkts;
++	u64	tx_drop;
++	u64	last_tx_pkts;
++
++	struct hw_xmit *hwxmits;
++	u8	hwxmit_entry;
++
++	u8	wmm_para_seq[4];/* sequence for wmm ac parameter strength from large to small. it's value is 0->vo, 1->vi, 2->be, 3->bk. */
++
++#ifdef CONFIG_USB_HCI
++	_sema	tx_retevt;/* all tx return event; */
++	u8		txirp_cnt;
++
++#ifdef PLATFORM_OS_CE
++	USB_TRANSFER	usb_transfer_write_port;
++	/*	USB_TRANSFER	usb_transfer_write_mem; */
++#endif
++#ifdef PLATFORM_LINUX
++	struct tasklet_struct xmit_tasklet;
++#endif
++#ifdef PLATFORM_FREEBSD
++	struct task xmit_tasklet;
++#endif
++	/* per AC pending irp */
++	int beq_cnt;
++	int bkq_cnt;
++	int viq_cnt;
++	int voq_cnt;
++
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	/* Tx */
++	struct rtw_tx_ring	tx_ring[PCI_MAX_TX_QUEUE_COUNT];
++	int	txringcount[PCI_MAX_TX_QUEUE_COUNT];
++	u8 	beaconDMAing;		/* flag of indicating beacon is transmiting to HW by DMA */
++#ifdef PLATFORM_LINUX
++	struct tasklet_struct xmit_tasklet;
++#endif
++#endif
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++#ifdef CONFIG_SDIO_TX_TASKLET
++#ifdef PLATFORM_LINUX
++	struct tasklet_struct xmit_tasklet;
++#endif /* PLATFORM_LINUX */
++#else
++	_thread_hdl_	SdioXmitThread;
++	_sema		SdioXmitSema;
++	_sema		SdioXmitTerminateSema;
++#endif /* CONFIG_SDIO_TX_TASKLET */
++#endif /* CONFIG_SDIO_HCI */
++
++	_queue free_xmitbuf_queue;
++	_queue pending_xmitbuf_queue;
++	u8 *pallocated_xmitbuf;
++	u8 *pxmitbuf;
++	uint free_xmitbuf_cnt;
++
++	_queue free_xmit_extbuf_queue;
++	u8 *pallocated_xmit_extbuf;
++	u8 *pxmit_extbuf;
++	uint free_xmit_extbuf_cnt;
++
++	struct xmit_buf	pcmd_xmitbuf[CMDBUF_MAX];
++	u8   hw_ssn_seq_no;/* mapping to REG_HW_SEQ 0,1,2,3 */
++	u16	nqos_ssn;
++#ifdef CONFIG_TX_EARLY_MODE
++
++#ifdef CONFIG_SDIO_HCI
++#define MAX_AGG_PKT_NUM 20
++#else
++#define MAX_AGG_PKT_NUM 256 /* Max tx ampdu coounts		 */
++#endif
++
++	struct agg_pkt_info agg_pkt[MAX_AGG_PKT_NUM];
++#endif
++
++#ifdef CONFIG_XMIT_ACK
++	int	ack_tx;
++	_mutex ack_tx_mutex;
++	struct submit_ctx ack_tx_ops;
++	u8 seq_no;
++#endif
++	_lock lock_sctx;
++};
++
++extern struct xmit_frame *__rtw_alloc_cmdxmitframe(struct xmit_priv *pxmitpriv,
++		enum cmdbuf_type buf_type);
++#define rtw_alloc_cmdxmitframe(p) __rtw_alloc_cmdxmitframe(p, CMDBUF_RSVD)
++#if defined(CONFIG_RTL8192E) && defined(CONFIG_PCI_HCI)
++extern struct xmit_frame *__rtw_alloc_cmdxmitframe_8192ee(struct xmit_priv *pxmitpriv,
++		enum cmdbuf_type buf_type);
++#define rtw_alloc_bcnxmitframe(p) __rtw_alloc_cmdxmitframe_8192ee(p, CMDBUF_BEACON)
++#elif defined(CONFIG_RTL8822B) && defined(CONFIG_PCI_HCI)
++extern struct xmit_frame *__rtw_alloc_cmdxmitframe_8822be(struct xmit_priv *pxmitpriv,
++		enum cmdbuf_type buf_type);
++#define rtw_alloc_bcnxmitframe(p) __rtw_alloc_cmdxmitframe_8822be(p, CMDBUF_BEACON)
++#elif defined(CONFIG_RTL8821C) && defined(CONFIG_PCI_HCI)
++extern struct xmit_frame *__rtw_alloc_cmdxmitframe_8821ce(struct xmit_priv *pxmitpriv,
++		enum cmdbuf_type buf_type);
++#define rtw_alloc_bcnxmitframe(p) __rtw_alloc_cmdxmitframe_8821ce(p, CMDBUF_BEACON)
++#else
++#define rtw_alloc_bcnxmitframe(p) __rtw_alloc_cmdxmitframe(p, CMDBUF_BEACON)
++#endif
++
++extern struct xmit_buf *rtw_alloc_xmitbuf_ext(struct xmit_priv *pxmitpriv);
++extern s32 rtw_free_xmitbuf_ext(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++
++extern struct xmit_buf *rtw_alloc_xmitbuf(struct xmit_priv *pxmitpriv);
++extern s32 rtw_free_xmitbuf(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++
++void rtw_count_tx_stats(_adapter *padapter, struct xmit_frame *pxmitframe, int sz);
++extern void rtw_update_protection(_adapter *padapter, u8 *ie, uint ie_len);
++static s32 update_attrib_sec_info(_adapter *padapter, struct pkt_attrib *pattrib, struct sta_info *psta);
++static void update_attrib_phy_info(_adapter *padapter, struct pkt_attrib *pattrib, struct sta_info *psta);
++extern s32 rtw_make_wlanhdr(_adapter *padapter, u8 *hdr, struct pkt_attrib *pattrib);
++extern s32 rtw_put_snap(u8 *data, u16 h_proto);
++
++extern struct xmit_frame *rtw_alloc_xmitframe(struct xmit_priv *pxmitpriv);
++struct xmit_frame *rtw_alloc_xmitframe_ext(struct xmit_priv *pxmitpriv);
++struct xmit_frame *rtw_alloc_xmitframe_once(struct xmit_priv *pxmitpriv);
++extern s32 rtw_free_xmitframe(struct xmit_priv *pxmitpriv, struct xmit_frame *pxmitframe);
++extern void rtw_free_xmitframe_queue(struct xmit_priv *pxmitpriv, _queue *pframequeue);
++struct tx_servq *rtw_get_sta_pending(_adapter *padapter, struct sta_info *psta, sint up, u8 *ac);
++extern s32 rtw_xmitframe_enqueue(_adapter *padapter, struct xmit_frame *pxmitframe);
++extern struct xmit_frame *rtw_dequeue_xframe(struct xmit_priv *pxmitpriv, struct hw_xmit *phwxmit_i, sint entry);
++
++extern s32 rtw_xmit_classifier(_adapter *padapter, struct xmit_frame *pxmitframe);
++extern u32 rtw_calculate_wlan_pkt_size_by_attribue(struct pkt_attrib *pattrib);
++#define rtw_wlan_pkt_size(f) rtw_calculate_wlan_pkt_size_by_attribue(&f->attrib)
++extern s32 rtw_xmitframe_coalesce(_adapter *padapter, _pkt *pkt, struct xmit_frame *pxmitframe);
++#ifdef CONFIG_IEEE80211W
++extern s32 rtw_mgmt_xmitframe_coalesce(_adapter *padapter, _pkt *pkt, struct xmit_frame *pxmitframe);
++#endif /* CONFIG_IEEE80211W */
++#ifdef CONFIG_TDLS
++extern struct tdls_txmgmt *ptxmgmt;
++s32 rtw_xmit_tdls_coalesce(_adapter *padapter, struct xmit_frame *pxmitframe, struct tdls_txmgmt *ptxmgmt);
++s32 update_tdls_attrib(_adapter *padapter, struct pkt_attrib *pattrib);
++#endif
++s32 _rtw_init_hw_txqueue(struct hw_txqueue *phw_txqueue, u8 ac_tag);
++void _rtw_init_sta_xmit_priv(struct sta_xmit_priv *psta_xmitpriv);
++
++
++s32 rtw_txframes_pending(_adapter *padapter);
++s32 rtw_txframes_sta_ac_pending(_adapter *padapter, struct pkt_attrib *pattrib);
++void rtw_init_hwxmits(struct hw_xmit *phwxmit, sint entry);
++
++
++s32 _rtw_init_xmit_priv(struct xmit_priv *pxmitpriv, _adapter *padapter);
++void _rtw_free_xmit_priv(struct xmit_priv *pxmitpriv);
++
++
++void rtw_alloc_hwxmits(_adapter *padapter);
++void rtw_free_hwxmits(_adapter *padapter);
++
++s32 rtw_monitor_xmit_entry(struct sk_buff *skb, struct net_device *ndev);
++
++s32 rtw_xmit(_adapter *padapter, _pkt **pkt);
++bool xmitframe_hiq_filter(struct xmit_frame *xmitframe);
++#if defined(CONFIG_AP_MODE) || defined(CONFIG_TDLS)
++sint xmitframe_enqueue_for_sleeping_sta(_adapter *padapter, struct xmit_frame *pxmitframe);
++void stop_sta_xmit(_adapter *padapter, struct sta_info *psta);
++void wakeup_sta_to_xmit(_adapter *padapter, struct sta_info *psta);
++void xmit_delivery_enabled_frames(_adapter *padapter, struct sta_info *psta);
++#endif
++
++u8 rtw_get_tx_bw_mode(_adapter *adapter, struct sta_info *sta);
++
++void rtw_get_adapter_tx_rate_bmp_by_bw(_adapter *adapter, u8 bw, u16 *r_bmp_cck_ofdm, u32 *r_bmp_ht, u32 *r_bmp_vht);
++void rtw_update_tx_rate_bmp(struct dvobj_priv *dvobj);
++u16 rtw_get_tx_rate_bmp_cck_ofdm(struct dvobj_priv *dvobj);
++u32 rtw_get_tx_rate_bmp_ht_by_bw(struct dvobj_priv *dvobj, u8 bw);
++u32 rtw_get_tx_rate_bmp_vht_by_bw(struct dvobj_priv *dvobj, u8 bw);
++u8 rtw_get_tx_bw_bmp_of_ht_rate(struct dvobj_priv *dvobj, u8 rate, u8 max_bw);
++u8 rtw_get_tx_bw_bmp_of_vht_rate(struct dvobj_priv *dvobj, u8 rate, u8 max_bw);
++
++u8 query_ra_short_GI(struct sta_info *psta, u8 bw);
++
++u8	qos_acm(u8 acm_mask, u8 priority);
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++void	enqueue_pending_xmitbuf(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++void enqueue_pending_xmitbuf_to_head(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf);
++struct xmit_buf	*dequeue_pending_xmitbuf(struct xmit_priv *pxmitpriv);
++struct xmit_buf	*dequeue_pending_xmitbuf_under_survey(struct xmit_priv *pxmitpriv);
++sint	check_pending_xmitbuf(struct xmit_priv *pxmitpriv);
++thread_return	rtw_xmit_thread(thread_context context);
++#endif
++
++static void do_queue_select(_adapter *padapter, struct pkt_attrib *pattrib);
++u32	rtw_get_ff_hwaddr(struct xmit_frame	*pxmitframe);
++
++#ifdef CONFIG_XMIT_ACK
++int rtw_ack_tx_wait(struct xmit_priv *pxmitpriv, u32 timeout_ms);
++void rtw_ack_tx_done(struct xmit_priv *pxmitpriv, int status);
++#endif /* CONFIG_XMIT_ACK */
++
++
++/* include after declaring struct xmit_buf, in order to avoid warning */
++#include <xmit_osdep.h>
++
++#endif /* _RTL871X_XMIT_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/sdio_hal.h b/drivers/net/wireless/rtl8812au/include/sdio_hal.h
+new file mode 100644
+index 0000000..c8f554d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/sdio_hal.h
+@@ -0,0 +1,54 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __SDIO_HAL_H__
++#define __SDIO_HAL_H__
++
++void sd_int_dpc(PADAPTER padapter);
++u8 rtw_set_hal_ops(_adapter *padapter);
++
++#ifdef CONFIG_RTL8188E
++void rtl8188es_set_hal_ops(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_RTL8723B
++void rtl8723bs_set_hal_ops(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_RTL8821A
++void rtl8821as_set_hal_ops(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_RTL8192E
++void rtl8192es_set_hal_ops(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_RTL8703B
++void rtl8703bs_set_hal_ops(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_RTL8723D
++void rtl8723ds_set_hal_ops(PADAPTER padapter);
++#endif
++
++#ifdef CONFIG_RTL8188F
++void rtl8188fs_set_hal_ops(PADAPTER padapter);
++#endif
++
++#endif /* __SDIO_HAL_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/sdio_ops.h b/drivers/net/wireless/rtl8812au/include/sdio_ops.h
+new file mode 100644
+index 0000000..abf36f8
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/sdio_ops.h
+@@ -0,0 +1,161 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __SDIO_OPS_H__
++#define __SDIO_OPS_H__
++
++
++/* Follow mac team suggestion, default I/O fail return value is 0xFF */
++#define SDIO_ERR_VAL8	0xFF
++#define SDIO_ERR_VAL16	0xFFFF
++#define SDIO_ERR_VAL32	0xFFFFFFFF
++
++#ifdef PLATFORM_LINUX
++#include <sdio_ops_linux.h>
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++#ifdef PLATFORM_OS_XP
++#include <sdio_ops_xp.h>
++struct async_context {
++	PMDL pmdl;
++	PSDBUS_REQUEST_PACKET sdrp;
++	unsigned char *r_buf;
++	unsigned char *padapter;
++};
++#endif
++
++#ifdef PLATFORM_OS_CE
++#include <sdio_ops_ce.h>
++#endif
++
++#endif /* PLATFORM_WINDOWS */
++
++
++extern void sdio_set_intf_ops(_adapter *padapter, struct _io_ops *pops);
++
++#if 0
++extern void sdio_func1cmd52_read(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem);
++extern void sdio_func1cmd52_write(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *wmem);
++#endif
++extern u8 SdioLocalCmd52Read1Byte(PADAPTER padapter, u32 addr);
++extern void SdioLocalCmd52Write1Byte(PADAPTER padapter, u32 addr, u8 v);
++extern s32 _sdio_local_read(PADAPTER padapter, u32 addr, u32 cnt, u8 *pbuf);
++extern s32 sdio_local_read(PADAPTER padapter, u32 addr, u32 cnt, u8 *pbuf);
++extern s32 _sdio_local_write(PADAPTER padapter, u32 addr, u32 cnt, u8 *pbuf);
++extern s32 sdio_local_write(PADAPTER padapter, u32 addr, u32 cnt, u8 *pbuf);
++
++u32 _sdio_read32(PADAPTER padapter, u32 addr);
++s32 _sdio_write32(PADAPTER padapter, u32 addr, u32 val);
++
++extern void sd_int_hdl(PADAPTER padapter);
++extern u8 CheckIPSStatus(PADAPTER padapter);
++
++#ifdef CONFIG_RTL8188E
++extern void InitInterrupt8188ESdio(PADAPTER padapter);
++extern void EnableInterrupt8188ESdio(PADAPTER padapter);
++extern void DisableInterrupt8188ESdio(PADAPTER padapter);
++extern void UpdateInterruptMask8188ESdio(PADAPTER padapter, u32 AddMSR, u32 RemoveMSR);
++extern u8 HalQueryTxBufferStatus8189ESdio(PADAPTER padapter);
++extern u8 HalQueryTxOQTBufferStatus8189ESdio(PADAPTER padapter);
++extern void ClearInterrupt8188ESdio(PADAPTER padapter);
++#endif /* CONFIG_RTL8188E */
++
++#ifdef CONFIG_RTL8821A
++extern void InitInterrupt8821AS(PADAPTER padapter);
++extern void EnableInterrupt8821AS(PADAPTER padapter);
++extern void DisableInterrupt8821AS(PADAPTER padapter);
++extern u8 HalQueryTxBufferStatus8821AS(PADAPTER padapter);
++extern u8 HalQueryTxOQTBufferStatus8821ASdio(PADAPTER padapter);
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++void ClearInterrupt8821AS(PADAPTER padapter);
++#endif /* defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN) */
++#endif /* CONFIG_RTL8821A */
++
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++#ifdef CONFIG_RTL8821C
++u8 rtw_hal_enable_cpwm2(_adapter *adapter);
++#endif
++extern u8 RecvOnePkt(PADAPTER padapter);
++#endif /* CONFIG_WOWLAN */
++#ifdef CONFIG_RTL8723B
++extern void InitInterrupt8723BSdio(PADAPTER padapter);
++extern void InitSysInterrupt8723BSdio(PADAPTER padapter);
++extern void EnableInterrupt8723BSdio(PADAPTER padapter);
++extern void DisableInterrupt8723BSdio(PADAPTER padapter);
++extern u8 HalQueryTxBufferStatus8723BSdio(PADAPTER padapter);
++extern u8 HalQueryTxOQTBufferStatus8723BSdio(PADAPTER padapter);
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++extern void DisableInterruptButCpwm28723BSdio(PADAPTER padapter);
++extern void ClearInterrupt8723BSdio(PADAPTER padapter);
++#endif /* CONFIG_WOWLAN */
++#endif
++
++
++#ifdef CONFIG_RTL8192E
++extern void InitInterrupt8192ESdio(PADAPTER padapter);
++extern void EnableInterrupt8192ESdio(PADAPTER padapter);
++extern void DisableInterrupt8192ESdio(PADAPTER padapter);
++extern void UpdateInterruptMask8192ESdio(PADAPTER padapter, u32 AddMSR, u32 RemoveMSR);
++extern u8 HalQueryTxBufferStatus8192ESdio(PADAPTER padapter);
++extern u8 HalQueryTxOQTBufferStatus8192ESdio(PADAPTER padapter);
++extern void ClearInterrupt8192ESdio(PADAPTER padapter);
++#endif /* CONFIG_RTL8192E */
++
++#ifdef CONFIG_RTL8703B
++extern void InitInterrupt8703BSdio(PADAPTER padapter);
++extern void InitSysInterrupt8703BSdio(PADAPTER padapter);
++extern void EnableInterrupt8703BSdio(PADAPTER padapter);
++extern void DisableInterrupt8703BSdio(PADAPTER padapter);
++extern u8 HalQueryTxBufferStatus8703BSdio(PADAPTER padapter);
++extern u8 HalQueryTxOQTBufferStatus8703BSdio(PADAPTER padapter);
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++extern void DisableInterruptButCpwm28703BSdio(PADAPTER padapter);
++extern void ClearInterrupt8703BSdio(PADAPTER padapter);
++#endif /* CONFIG_WOWLAN */
++#endif
++
++#ifdef CONFIG_RTL8723D
++extern void InitInterrupt8723DSdio(PADAPTER padapter);
++extern void InitSysInterrupt8723DSdio(PADAPTER padapter);
++extern void EnableInterrupt8723DSdio(PADAPTER padapter);
++extern void DisableInterrupt8723DSdio(PADAPTER padapter);
++extern u8 HalQueryTxBufferStatus8723DSdio(PADAPTER padapter);
++extern u8 HalQueryTxOQTBufferStatus8723DSdio(PADAPTER padapter);
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++extern void DisableInterruptButCpwm28723dSdio(PADAPTER padapter);
++extern void ClearInterrupt8723DSdio(PADAPTER padapter);
++#endif /* CONFIG_WOWLAN */
++#endif
++
++#ifdef CONFIG_RTL8188F
++extern void InitInterrupt8188FSdio(PADAPTER padapter);
++extern void InitSysInterrupt8188FSdio(PADAPTER padapter);
++extern void EnableInterrupt8188FSdio(PADAPTER padapter);
++extern void DisableInterrupt8188FSdio(PADAPTER padapter);
++extern u8 HalQueryTxBufferStatus8188FSdio(PADAPTER padapter);
++extern u8 HalQueryTxOQTBufferStatus8188FSdio(PADAPTER padapter);
++#if defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN)
++extern void DisableInterruptButCpwm28188FSdio(PADAPTER padapter);
++extern void ClearInterrupt8188FSdio(PADAPTER padapter);
++#endif /* defined(CONFIG_WOWLAN) || defined(CONFIG_AP_WOWLAN) */
++#endif
++
++#endif /* !__SDIO_OPS_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/sdio_ops_ce.h b/drivers/net/wireless/rtl8812au/include/sdio_ops_ce.h
+new file mode 100644
+index 0000000..59ca381
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/sdio_ops_ce.h
+@@ -0,0 +1,54 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _SDIO_OPS_WINCE_H_
++#define _SDIO_OPS_WINCE_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <osdep_intf.h>
++
++
++#ifdef PLATFORM_OS_CE
++
++
++extern u8 sdbus_cmd52r_ce(struct intf_priv *pintfpriv, u32 addr);
++
++
++extern void sdbus_cmd52w_ce(struct intf_priv *pintfpriv, u32 addr, u8 val8);
++
++
++uint sdbus_read_blocks_to_membuf_ce(struct intf_priv *pintfpriv, u32 addr, u32 cnt, u8 *pbuf);
++
++extern uint sdbus_read_bytes_to_membuf_ce(struct intf_priv *pintfpriv, u32 addr, u32 cnt, u8 *pbuf);
++
++
++extern uint sdbus_write_blocks_from_membuf_ce(struct intf_priv *pintfpriv, u32 addr, u32 cnt, u8 *pbuf, u8 async);
++
++extern uint sdbus_write_bytes_from_membuf_ce(struct intf_priv *pintfpriv, u32 addr, u32 cnt, u8 *pbuf);
++extern u8 sdbus_func1cmd52r_ce(struct intf_priv *pintfpriv, u32 addr);
++extern void sdbus_func1cmd52w_ce(struct intf_priv *pintfpriv, u32 addr, u8 val8);
++extern uint sdbus_read_reg(struct intf_priv *pintfpriv, u32 addr, u32 cnt, void *pdata);
++extern uint sdbus_write_reg(struct intf_priv *pintfpriv, u32 addr, u32 cnt, void *pdata);
++extern void sdio_read_int(_adapter *padapter, u32 addr, u8 sz, void *pdata);
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/sdio_ops_linux.h b/drivers/net/wireless/rtl8812au/include/sdio_ops_linux.h
+new file mode 100644
+index 0000000..d36788a
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/sdio_ops_linux.h
+@@ -0,0 +1,54 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __SDIO_OPS_LINUX_H__
++#define __SDIO_OPS_LINUX_H__
++
++#ifndef RTW_HALMAC
++u8 sd_f0_read8(struct intf_hdl *pintfhdl, u32 addr, s32 *err);
++void sd_f0_write8(struct intf_hdl *pintfhdl, u32 addr, u8 v, s32 *err);
++
++s32 _sd_cmd52_read(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pdata);
++s32 _sd_cmd52_write(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pdata);
++s32 sd_cmd52_read(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pdata);
++s32 sd_cmd52_write(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *pdata);
++
++u8 _sd_read8(struct intf_hdl *pintfhdl, u32 addr, s32 *err);
++u8 sd_read8(struct intf_hdl *pintfhdl, u32 addr, s32 *err);
++u16 sd_read16(struct intf_hdl *pintfhdl, u32 addr, s32 *err);
++u32 _sd_read32(struct intf_hdl *pintfhdl, u32 addr, s32 *err);
++u32 sd_read32(struct intf_hdl *pintfhdl, u32 addr, s32 *err);
++void sd_write8(struct intf_hdl *pintfhdl, u32 addr, u8 v, s32 *err);
++void sd_write16(struct intf_hdl *pintfhdl, u32 addr, u16 v, s32 *err);
++void _sd_write32(struct intf_hdl *pintfhdl, u32 addr, u32 v, s32 *err);
++void sd_write32(struct intf_hdl *pintfhdl, u32 addr, u32 v, s32 *err);
++#endif /* RTW_HALMAC */
++
++s32 _sd_read(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, void *pdata);
++s32 sd_read(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, void *pdata);
++s32 _sd_write(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, void *pdata);
++s32 sd_write(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, void *pdata);
++
++void rtw_sdio_set_irq_thd(struct dvobj_priv *dvobj, _thread_hdl_ thd_hdl);
++int __must_check rtw_sdio_raw_read(struct dvobj_priv *d, int addr,
++				void *buf, size_t len, bool fixed);
++int __must_check rtw_sdio_raw_write(struct dvobj_priv *d, int addr,
++				void *buf, size_t len, bool fixed);
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/sdio_ops_xp.h b/drivers/net/wireless/rtl8812au/include/sdio_ops_xp.h
+new file mode 100644
+index 0000000..5020365
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/sdio_ops_xp.h
+@@ -0,0 +1,54 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _SDIO_OPS_XP_H_
++#define _SDIO_OPS_XP_H_
++
++#include <drv_conf.h>
++#include <osdep_service.h>
++#include <drv_types.h>
++#include <osdep_intf.h>
++
++
++#ifdef PLATFORM_OS_XP
++
++
++extern u8 sdbus_cmd52r_xp(struct intf_priv *pintfpriv, u32 addr);
++
++
++extern void sdbus_cmd52w_xp(struct intf_priv *pintfpriv, u32 addr, u8 val8);
++
++
++uint sdbus_read_blocks_to_membuf_xp(struct intf_priv *pintfpriv, u32 addr, u32 cnt, u8 *pbuf);
++
++extern uint sdbus_read_bytes_to_membuf_xp(struct intf_priv *pintfpriv, u32 addr, u32 cnt, u8 *pbuf);
++
++
++extern uint sdbus_write_blocks_from_membuf_xp(struct intf_priv *pintfpriv, u32 addr, u32 cnt, u8 *pbuf, u8 async);
++
++extern uint sdbus_write_bytes_from_membuf_xp(struct intf_priv *pintfpriv, u32 addr, u32 cnt, u8 *pbuf);
++extern u8 sdbus_func1cmd52r_xp(struct intf_priv *pintfpriv, u32 addr);
++extern void sdbus_func1cmd52w_xp(struct intf_priv *pintfpriv, u32 addr, u8 val8);
++extern uint sdbus_read_reg(struct intf_priv *pintfpriv, u32 addr, u32 cnt, void *pdata);
++extern uint sdbus_write_reg(struct intf_priv *pintfpriv, u32 addr, u32 cnt, void *pdata);
++extern void sdio_read_int(_adapter *padapter, u32 addr, u8 sz, void *pdata);
++
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/sdio_osintf.h b/drivers/net/wireless/rtl8812au/include/sdio_osintf.h
+new file mode 100644
+index 0000000..d2906bd
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/sdio_osintf.h
+@@ -0,0 +1,30 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __SDIO_OSINTF_H__
++#define __SDIO_OSINTF_H__
++
++
++#ifdef PLATFORM_OS_CE
++extern NDIS_STATUS ce_sd_get_dev_hdl(PADAPTER padapter);
++SD_API_STATUS ce_sd_int_callback(SD_DEVICE_HANDLE hDevice, PADAPTER padapter);
++extern void sd_setup_irs(PADAPTER padapter);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/sta_info.h b/drivers/net/wireless/rtl8812au/include/sta_info.h
+new file mode 100644
+index 0000000..f9c0c35
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/sta_info.h
+@@ -0,0 +1,625 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __STA_INFO_H_
++#define __STA_INFO_H_
++
++
++#define IBSS_START_MAC_ID	2
++#define NUM_STA MACID_NUM_SW_LIMIT
++
++#ifndef CONFIG_RTW_MACADDR_ACL
++	#define CONFIG_RTW_MACADDR_ACL 1
++#endif
++#define NUM_ACL 16
++#define RTW_ACL_MODE_DISABLED				0
++#define RTW_ACL_MODE_ACCEPT_UNLESS_LISTED	1
++#define RTW_ACL_MODE_DENY_UNLESS_LISTED		2
++#define RTW_ACL_MODE_MAX					3
++
++#if CONFIG_RTW_MACADDR_ACL
++extern const char *const _acl_mode_str[];
++#define acl_mode_str(mode) (((mode) >= RTW_ACL_MODE_MAX) ? _acl_mode_str[RTW_ACL_MODE_DISABLED] : _acl_mode_str[(mode)])
++#endif
++
++#ifdef CONFIG_TDLS
++#define MAX_ALLOWED_TDLS_STA_NUM	4
++#endif
++
++enum sta_info_update_type {
++	STA_INFO_UPDATE_NONE = 0,
++	STA_INFO_UPDATE_BW = BIT(0),
++	STA_INFO_UPDATE_RATE = BIT(1),
++	STA_INFO_UPDATE_PROTECTION_MODE = BIT(2),
++	STA_INFO_UPDATE_CAP = BIT(3),
++	STA_INFO_UPDATE_HT_CAP = BIT(4),
++	STA_INFO_UPDATE_VHT_CAP = BIT(5),
++	STA_INFO_UPDATE_ALL = STA_INFO_UPDATE_BW
++			      | STA_INFO_UPDATE_RATE
++			      | STA_INFO_UPDATE_PROTECTION_MODE
++			      | STA_INFO_UPDATE_CAP
++			      | STA_INFO_UPDATE_HT_CAP
++			      | STA_INFO_UPDATE_VHT_CAP,
++	STA_INFO_UPDATE_MAX
++};
++
++struct rtw_wlan_acl_node {
++	_list		        list;
++	u8       addr[ETH_ALEN];
++	u8       valid;
++};
++
++struct wlan_acl_pool {
++	int mode;
++	int num;
++	struct rtw_wlan_acl_node aclnode[NUM_ACL];
++	_queue	acl_node_q;
++};
++
++typedef struct _RSSI_STA {
++	s32	UndecoratedSmoothedPWDB;
++	s32	UndecoratedSmoothedCCK;
++	s32	UndecoratedSmoothedOFDM;
++	u8	OFDM_pkt;
++	u8	CCK_pkt;
++	u16	CCK_sum_power;
++	u8	bsend_rssi;
++	u64	PacketMap;
++	u8	ValidBit;
++} RSSI_STA, *PRSSI_STA;
++
++struct	stainfo_stats	{
++
++	u64 rx_mgnt_pkts;
++		u64 rx_beacon_pkts;
++		u64 rx_probereq_pkts;
++		u64 rx_probersp_pkts;
++		u64 rx_probersp_bm_pkts;
++		u64 rx_probersp_uo_pkts;
++	u64 rx_ctrl_pkts;
++	u64 rx_data_pkts;
++	u64 rx_data_qos_pkts[TID_NUM];
++	u64	last_rx_mgnt_pkts;
++		u64 last_rx_beacon_pkts;
++		u64 last_rx_probereq_pkts;
++		u64 last_rx_probersp_pkts;
++		u64 last_rx_probersp_bm_pkts;
++		u64 last_rx_probersp_uo_pkts;
++	u64	last_rx_ctrl_pkts;
++	u64	last_rx_data_pkts;
++	u64 last_rx_data_qos_pkts[TID_NUM];
++#ifdef CONFIG_TDLS
++	u64 rx_tdls_disc_rsp_pkts;
++	u64 last_rx_tdls_disc_rsp_pkts;
++#endif
++	u64	rx_bytes;
++	u64	rx_drops;
++
++	u64	tx_pkts;
++	u64	tx_bytes;
++	u64  tx_drops;
++};
++
++#ifndef DBG_SESSION_TRACKER
++#define DBG_SESSION_TRACKER 0
++#endif
++
++/* session tracker status */
++#define ST_STATUS_NONE		0
++#define ST_STATUS_CHECK		BIT0
++#define ST_STATUS_ESTABLISH	BIT1
++#define ST_STATUS_EXPIRE	BIT2
++
++#define ST_EXPIRE_MS (10 * 1000)
++
++struct session_tracker {
++	_list list; /* session_tracker_queue */
++	u32 local_naddr;
++	u16 local_port;
++	u32 remote_naddr;
++	u16 remote_port;
++	u32 set_time;
++	u8 status;
++};
++
++/* session tracker cmd */
++#define ST_CMD_ADD 0
++#define ST_CMD_DEL 1
++#define ST_CMD_CHK 2
++
++struct st_cmd_parm {
++	u8 cmd;
++	struct sta_info *sta;
++	u32 local_naddr; /* TODO: IPV6 */
++	u16 local_port;
++	u32 remote_naddr; /* TODO: IPV6 */
++	u16 remote_port;
++};
++
++typedef bool (*st_match_rule)(_adapter *adapter, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port);
++
++struct st_register {
++	u8 s_proto;
++	st_match_rule rule;
++};
++
++#define SESSION_TRACKER_REG_ID_WFD 0
++#define SESSION_TRACKER_REG_ID_NUM 1
++
++struct st_ctl_t {
++	struct st_register reg[SESSION_TRACKER_REG_ID_NUM];
++	_queue tracker_q;
++};
++
++void rtw_st_ctl_init(struct st_ctl_t *st_ctl);
++void rtw_st_ctl_deinit(struct st_ctl_t *st_ctl);
++void rtw_st_ctl_register(struct st_ctl_t *st_ctl, u8 st_reg_id, struct st_register *reg);
++void rtw_st_ctl_unregister(struct st_ctl_t *st_ctl, u8 st_reg_id);
++bool rtw_st_ctl_chk_reg_s_proto(struct st_ctl_t *st_ctl, u8 s_proto);
++bool rtw_st_ctl_chk_reg_rule(struct st_ctl_t *st_ctl, _adapter *adapter, u8 *local_naddr, u8 *local_port, u8 *remote_naddr, u8 *remote_port);
++void dump_st_ctl(void *sel, struct st_ctl_t *st_ctl);
++
++#ifdef CONFIG_TDLS
++struct TDLS_PeerKey {
++	u8 kck[16]; /* TPK-KCK */
++	u8 tk[16]; /* TPK-TK; only CCMP will be used */
++} ;
++#endif /* CONFIG_TDLS */
++
++#ifdef DBG_RX_DFRAME_RAW_DATA
++struct sta_recv_dframe_info {
++
++	u8 sta_data_rate;
++	u8 sta_sgi;
++	u8 sta_bw_mode;
++	s8 sta_mimo_signal_strength[4];
++	s8 sta_RxPwr[4];
++	u8 sta_ofdm_snr[4];
++};
++#endif
++
++struct sta_info {
++
++	_lock	lock;
++	_list	list; /* free_sta_queue */
++	_list	hash_list; /* sta_hash */
++	/* _list asoc_list; */ /* 20061114 */
++	/* _list sleep_list; */ /* sleep_q */
++	/* _list wakeup_list; */ /* wakeup_q */
++	_adapter *padapter;
++
++	struct sta_xmit_priv sta_xmitpriv;
++	struct sta_recv_priv sta_recvpriv;
++
++#ifdef DBG_RX_DFRAME_RAW_DATA
++	struct sta_recv_dframe_info  sta_dframe_info;
++#endif
++	_queue sleep_q;
++	unsigned int sleepq_len;
++
++	uint state;
++	uint aid;
++	uint mac_id;
++	uint qos_option;
++	u8	hwaddr[ETH_ALEN];
++	u16 hwseq;
++	u8	ra_rpt_linked;
++
++	uint	ieee8021x_blocked;	/* 0: allowed, 1:blocked */
++	uint	dot118021XPrivacy; /* aes, tkip... */
++	union Keytype	dot11tkiptxmickey;
++	union Keytype	dot11tkiprxmickey;
++	union Keytype	dot118021x_UncstKey;
++	union pn48		dot11txpn;			/* PN48 used for Unicast xmit */
++#ifdef CONFIG_GTK_OL
++	u8 kek[RTW_KEK_LEN];
++	u8 kck[RTW_KCK_LEN];
++	u8 replay_ctr[RTW_REPLAY_CTR_LEN];
++#endif /* CONFIG_GTK_OL */
++#ifdef CONFIG_IEEE80211W
++	union pn48		dot11wtxpn;			/* PN48 used for Unicast mgmt xmit. */
++	_timer dot11w_expire_timer;
++#endif /* CONFIG_IEEE80211W */
++	union pn48		dot11rxpn;			/* PN48 used for Unicast recv. */
++
++
++	u8	bssrateset[16];
++	u32	bssratelen;
++	s32  rssi;
++	s32	signal_quality;
++
++	u8	cts2self;
++	u8	rtsen;
++
++	u8	raid;
++	u8	init_rate;
++	u64	ra_mask;
++	u8	wireless_mode;	/* NETWORK_TYPE */
++	u8	bw_mode;
++
++	u8	ldpc;
++	u8	stbc;
++
++#ifdef CONFIG_BEAMFORMING
++	u16 txbf_paid;
++	u16 txbf_gid;
++#endif
++
++	struct stainfo_stats sta_stats;
++
++#ifdef CONFIG_TDLS
++	u32	tdls_sta_state;
++	u8	SNonce[32];
++	u8	ANonce[32];
++	u32	TDLS_PeerKey_Lifetime;
++	u32	TPK_count;
++	_timer	TPK_timer;
++	struct TDLS_PeerKey	tpk;
++#ifdef CONFIG_TDLS_CH_SW
++	u16	ch_switch_time;
++	u16	ch_switch_timeout;
++	/* u8	option; */
++	_timer	ch_sw_timer;
++	_timer	delay_timer;
++	_timer	stay_on_base_chnl_timer;
++	_timer	ch_sw_monitor_timer;
++#endif
++	_timer handshake_timer;
++	u8 alive_count;
++	_timer	pti_timer;
++	u8	TDLS_RSNIE[20];	/* Save peer's RSNIE, used for sending TDLS_SETUP_RSP */
++#endif /* CONFIG_TDLS */
++
++	/* for A-MPDU TX, ADDBA timeout check	 */
++	_timer addba_retry_timer;
++
++	/* for A-MPDU Rx reordering buffer control */
++	struct recv_reorder_ctrl recvreorder_ctrl[TID_NUM];
++	ATOMIC_T continual_no_rx_packet[TID_NUM];
++	/* for A-MPDU Tx */
++	/* unsigned char		ampdu_txen_bitmap; */
++	u16	BA_starting_seqctrl[16];
++
++
++#ifdef CONFIG_80211N_HT
++	struct ht_priv	htpriv;
++#endif
++
++#ifdef CONFIG_80211AC_VHT
++	struct vht_priv	vhtpriv;
++#endif
++
++	/* Notes:	 */
++	/* STA_Mode: */
++	/* curr_network(mlme_priv/security_priv/qos/ht) + sta_info: (STA & AP) CAP/INFO	 */
++	/* scan_q: AP CAP/INFO */
++
++	/* AP_Mode: */
++	/* curr_network(mlme_priv/security_priv/qos/ht) : AP CAP/INFO */
++	/* sta_info: (AP & STA) CAP/INFO */
++
++	unsigned int expire_to;
++
++#ifdef CONFIG_AP_MODE
++
++	_list asoc_list;
++	_list auth_list;
++
++	unsigned int auth_seq;
++	unsigned int authalg;
++	unsigned char chg_txt[128];
++
++	u16 capability;
++	int flags;
++
++	int dot8021xalg;/* 0:disable, 1:psk, 2:802.1x */
++	int wpa_psk;/* 0:disable, bit(0): WPA, bit(1):WPA2 */
++	int wpa_group_cipher;
++	int wpa2_group_cipher;
++	int wpa_pairwise_cipher;
++	int wpa2_pairwise_cipher;
++
++	u8 bpairwise_key_installed;
++
++#ifdef CONFIG_NATIVEAP_MLME
++	u8 wpa_ie[32];
++
++	u8 nonerp_set;
++	u8 no_short_slot_time_set;
++	u8 no_short_preamble_set;
++	u8 no_ht_gf_set;
++	u8 no_ht_set;
++	u8 ht_20mhz_set;
++	u8 ht_40mhz_intolerant;
++#endif /* CONFIG_NATIVEAP_MLME */
++
++#ifdef CONFIG_ATMEL_RC_PATCH
++	u8 flag_atmel_rc;
++#endif
++
++	u8 qos_info;
++
++	u8 max_sp_len;
++	u8 uapsd_bk;/* BIT(0): Delivery enabled, BIT(1): Trigger enabled */
++	u8 uapsd_be;
++	u8 uapsd_vi;
++	u8 uapsd_vo;
++
++	u8 has_legacy_ac;
++	unsigned int sleepq_ac_len;
++
++#ifdef CONFIG_P2P
++	/* p2p priv data */
++	u8 is_p2p_device;
++	u8 p2p_status_code;
++
++	/* p2p client info */
++	u8 dev_addr[ETH_ALEN];
++	/* u8 iface_addr[ETH_ALEN]; */ /* = hwaddr[ETH_ALEN] */
++	u8 dev_cap;
++	u16 config_methods;
++	u8 primary_dev_type[8];
++	u8 num_of_secdev_type;
++	u8 secdev_types_list[32];/* 32/8 == 4; */
++	u16 dev_name_len;
++	u8 dev_name[32];
++#endif /* CONFIG_P2P */
++
++#ifdef CONFIG_WFD
++	u8 op_wfd_mode;
++#endif
++
++#ifdef CONFIG_TX_MCAST2UNI
++	u8 under_exist_checking;
++#endif /* CONFIG_TX_MCAST2UNI */
++
++	u8 keep_alive_trycnt;
++
++#ifdef CONFIG_AUTO_AP_MODE
++	u8 isrc; /* this device is rc */
++	u16 pid; /* pairing id */
++#endif
++
++#endif /* CONFIG_AP_MODE	 */
++
++#ifdef CONFIG_IOCTL_CFG80211
++	u8 *passoc_req;
++	u32 assoc_req_len;
++#endif
++
++	/* for DM */
++	RSSI_STA	 rssi_stat;
++
++	/* ODM_STA_INFO_T */
++	/* ================ODM Relative Info======================= */
++	/* Please be care, dont declare too much structure here. It will cost memory * STA support num. */
++	/*  */
++	/*  */
++	/* 2011/10/20 MH Add for ODM STA info.	 */
++	/*  */
++	/* Driver Write */
++	u8		bValid;				/* record the sta status link or not? */
++	/* u8		WirelessMode;		 */ /* */
++	u8		IOTPeer;			/* Enum value.	HT_IOT_PEER_E */
++	/* ODM Write */
++	/* 1 PHY_STATUS_INFO */
++	u8		RSSI_Path[4];		/*  */
++	u8		RSSI_Ave;
++	u8		RXEVM[4];
++	u8		RXSNR[4];
++
++	u8		rssi_level;			/* for Refresh RA mask */
++	/* ODM Write */
++	/* 1 TX_INFO (may changed by IC) */
++	/* TX_INFO_T		pTxInfo;				 */ /* Define in IC folder. Move lower layer. */
++	/*  */
++	/* ================ODM Relative Info======================= */
++	/*  */
++
++	/* To store the sequence number of received management frame */
++	u16 RxMgmtFrameSeqNum;
++
++	struct st_ctl_t st_ctl;
++};
++
++#define sta_rx_pkts(sta) \
++	(sta->sta_stats.rx_mgnt_pkts \
++	 + sta->sta_stats.rx_ctrl_pkts \
++	 + sta->sta_stats.rx_data_pkts)
++
++#define sta_last_rx_pkts(sta) \
++	(sta->sta_stats.last_rx_mgnt_pkts \
++	 + sta->sta_stats.last_rx_ctrl_pkts \
++	 + sta->sta_stats.last_rx_data_pkts)
++
++#define sta_rx_data_pkts(sta) \
++	(sta->sta_stats.rx_data_pkts)
++
++#define sta_rx_data_qos_pkts(sta, i) \
++	(sta->sta_stats.rx_data_qos_pkts[i])
++
++#define sta_last_rx_data_pkts(sta) \
++	(sta->sta_stats.last_rx_data_pkts)
++
++#define sta_last_rx_data_qos_pkts(sta, i) \
++	(sta->sta_stats.last_rx_data_qos_pkts[i])
++
++#define sta_rx_mgnt_pkts(sta) \
++	(sta->sta_stats.rx_mgnt_pkts)
++
++#define sta_last_rx_mgnt_pkts(sta) \
++	(sta->sta_stats.last_rx_mgnt_pkts)
++
++#define sta_rx_beacon_pkts(sta) \
++	(sta->sta_stats.rx_beacon_pkts)
++
++#define sta_last_rx_beacon_pkts(sta) \
++	(sta->sta_stats.last_rx_beacon_pkts)
++
++#define sta_rx_probereq_pkts(sta) \
++	(sta->sta_stats.rx_probereq_pkts)
++
++#define sta_last_rx_probereq_pkts(sta) \
++	(sta->sta_stats.last_rx_probereq_pkts)
++
++#define sta_rx_probersp_pkts(sta) \
++	(sta->sta_stats.rx_probersp_pkts)
++
++#define sta_last_rx_probersp_pkts(sta) \
++	(sta->sta_stats.last_rx_probersp_pkts)
++
++#define sta_rx_probersp_bm_pkts(sta) \
++	(sta->sta_stats.rx_probersp_bm_pkts)
++
++#define sta_last_rx_probersp_bm_pkts(sta) \
++	(sta->sta_stats.last_rx_probersp_bm_pkts)
++
++#define sta_rx_probersp_uo_pkts(sta) \
++	(sta->sta_stats.rx_probersp_uo_pkts)
++
++#define sta_last_rx_probersp_uo_pkts(sta) \
++	(sta->sta_stats.last_rx_probersp_uo_pkts)
++
++#define sta_update_last_rx_pkts(sta) \
++	do { \
++		sta->sta_stats.last_rx_mgnt_pkts = sta->sta_stats.rx_mgnt_pkts; \
++		sta->sta_stats.last_rx_beacon_pkts = sta->sta_stats.rx_beacon_pkts; \
++		sta->sta_stats.last_rx_probereq_pkts = sta->sta_stats.rx_probereq_pkts; \
++		sta->sta_stats.last_rx_probersp_pkts = sta->sta_stats.rx_probersp_pkts; \
++		sta->sta_stats.last_rx_probersp_bm_pkts = sta->sta_stats.rx_probersp_bm_pkts; \
++		sta->sta_stats.last_rx_probersp_uo_pkts = sta->sta_stats.rx_probersp_uo_pkts; \
++		sta->sta_stats.last_rx_ctrl_pkts = sta->sta_stats.rx_ctrl_pkts; \
++		sta->sta_stats.last_rx_data_pkts = sta->sta_stats.rx_data_pkts; \
++	} while (0)
++
++#define STA_RX_PKTS_ARG(sta) \
++	sta->sta_stats.rx_mgnt_pkts \
++	, sta->sta_stats.rx_ctrl_pkts \
++	, sta->sta_stats.rx_data_pkts
++
++#define STA_LAST_RX_PKTS_ARG(sta) \
++	sta->sta_stats.last_rx_mgnt_pkts \
++	, sta->sta_stats.last_rx_ctrl_pkts \
++	, sta->sta_stats.last_rx_data_pkts
++
++#define STA_RX_PKTS_DIFF_ARG(sta) \
++	sta->sta_stats.rx_mgnt_pkts - sta->sta_stats.last_rx_mgnt_pkts \
++	, sta->sta_stats.rx_ctrl_pkts - sta->sta_stats.last_rx_ctrl_pkts \
++	, sta->sta_stats.rx_data_pkts - sta->sta_stats.last_rx_data_pkts
++
++#define STA_PKTS_FMT "(m:%llu, c:%llu, d:%llu)"
++
++#ifdef CONFIG_WFD
++#define STA_OP_WFD_MODE(sta) (sta)->op_wfd_mode
++#define STA_SET_OP_WFD_MODE(sta, mode) (sta)->op_wfd_mode = (mode)
++#else
++#define STA_OP_WFD_MODE(sta) 0
++#define STA_SET_OP_WFD_MODE(sta, mode) do {} while (0)
++#endif
++
++struct	sta_priv {
++
++	u8 *pallocated_stainfo_buf;
++	u8 *pstainfo_buf;
++	_queue	free_sta_queue;
++
++	_lock sta_hash_lock;
++	_list   sta_hash[NUM_STA];
++	int asoc_sta_count;
++	_queue sleep_q;
++	_queue wakeup_q;
++
++	_adapter *padapter;
++
++	u32 adhoc_expire_to;
++
++#ifdef CONFIG_AP_MODE
++	_list asoc_list;
++	_list auth_list;
++	_lock asoc_list_lock;
++	_lock auth_list_lock;
++	u8 asoc_list_cnt;
++	u8 auth_list_cnt;
++
++	unsigned int auth_to;  /* sec, time to expire in authenticating. */
++	unsigned int assoc_to; /* sec, time to expire before associating. */
++	unsigned int expire_to; /* sec , time to expire after associated. */
++
++	/* pointers to STA info; based on allocated AID or NULL if AID free
++	 * AID is in the range 1-2007, so sta_aid[0] corresponders to AID 1
++	 * and so on
++	 */
++	struct sta_info *sta_aid[NUM_STA];
++
++	u16 sta_dz_bitmap;/* only support 15 stations, staion aid bitmap for sleeping sta. */
++	u16 tim_bitmap;/* only support 15 stations, aid=0~15 mapping bit0~bit15	 */
++
++	u16 max_num_sta;
++
++#if CONFIG_RTW_MACADDR_ACL
++	struct wlan_acl_pool acl_list;
++#endif
++
++#endif
++
++#ifdef CONFIG_ATMEL_RC_PATCH
++	u8 atmel_rc_pattern[6];
++#endif
++
++};
++
++
++__inline static u32 wifi_mac_hash(u8 *mac)
++{
++	u32 x;
++
++	x = mac[0];
++	x = (x << 2) ^ mac[1];
++	x = (x << 2) ^ mac[2];
++	x = (x << 2) ^ mac[3];
++	x = (x << 2) ^ mac[4];
++	x = (x << 2) ^ mac[5];
++
++	x ^= x >> 8;
++	x  = x & (NUM_STA - 1);
++
++	return x;
++}
++
++
++extern u32	_rtw_init_sta_priv(struct sta_priv *pstapriv);
++extern u32	_rtw_free_sta_priv(struct sta_priv *pstapriv);
++
++#define stainfo_offset_valid(offset) (offset < NUM_STA && offset >= 0)
++int rtw_stainfo_offset(struct sta_priv *stapriv, struct sta_info *sta);
++struct sta_info *rtw_get_stainfo_by_offset(struct sta_priv *stapriv, int offset);
++
++extern struct sta_info *rtw_alloc_stainfo(struct	sta_priv *pstapriv, u8 *hwaddr);
++extern u32	rtw_free_stainfo(_adapter *padapter , struct sta_info *psta);
++extern void rtw_free_all_stainfo(_adapter *padapter);
++extern struct sta_info *rtw_get_stainfo(struct sta_priv *pstapriv, u8 *hwaddr);
++extern u32 rtw_init_bcmc_stainfo(_adapter *padapter);
++extern struct sta_info *rtw_get_bcmc_stainfo(_adapter *padapter);
++
++#if CONFIG_RTW_MACADDR_ACL
++extern u8 rtw_access_ctrl(_adapter *adapter, u8 *mac_addr);
++void dump_macaddr_acl(void *sel, _adapter *adapter);
++#endif
++
++#endif /* _STA_INFO_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/usb_hal.h b/drivers/net/wireless/rtl8812au/include/usb_hal.h
+new file mode 100644
+index 0000000..3ba03dd
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/usb_hal.h
+@@ -0,0 +1,64 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __USB_HAL_H__
++#define __USB_HAL_H__
++
++int usb_init_recv_priv(_adapter *padapter, u16 ini_in_buf_sz);
++void usb_free_recv_priv(_adapter *padapter, u16 ini_in_buf_sz);
++
++u8 rtw_set_hal_ops(_adapter *padapter);
++
++#ifdef CONFIG_RTL8188E
++void rtl8188eu_set_hal_ops(_adapter *padapter);
++#endif
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++void rtl8812au_set_hal_ops(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_RTL8192E
++void rtl8192eu_set_hal_ops(_adapter *padapter);
++#endif
++
++
++#ifdef CONFIG_RTL8723B
++void rtl8723bu_set_hal_ops(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_RTL8814A
++void rtl8814au_set_hal_ops(_adapter *padapter);
++#endif /* CONFIG_RTL8814A */
++
++#ifdef CONFIG_RTL8188F
++void rtl8188fu_set_hal_ops(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_RTL8703B
++void rtl8703bu_set_hal_ops(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_RTL8723D
++void rtl8723du_set_hal_ops(_adapter *padapter);
++#endif
++
++#ifdef CONFIG_INTEL_PROXIM
++extern _adapter  *rtw_usb_get_sw_pointer(void);
++#endif /* CONFIG_INTEL_PROXIM */
++#endif /* __USB_HAL_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/include/usb_ops.h b/drivers/net/wireless/rtl8812au/include/usb_ops.h
+new file mode 100644
+index 0000000..350a675
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/usb_ops.h
+@@ -0,0 +1,133 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __USB_OPS_H_
++#define __USB_OPS_H_
++
++
++#define REALTEK_USB_VENQT_READ		0xC0
++#define REALTEK_USB_VENQT_WRITE	0x40
++#define REALTEK_USB_VENQT_CMD_REQ	0x05
++#define REALTEK_USB_VENQT_CMD_IDX	0x00
++#define REALTEK_USB_IN_INT_EP_IDX	1
++
++enum {
++	VENDOR_WRITE = 0x00,
++	VENDOR_READ = 0x01,
++};
++#define ALIGNMENT_UNIT				16
++#define MAX_VENDOR_REQ_CMD_SIZE	254		/* 8188cu SIE Support */
++#define MAX_USB_IO_CTL_SIZE		(MAX_VENDOR_REQ_CMD_SIZE + ALIGNMENT_UNIT)
++
++#ifdef PLATFORM_LINUX
++#include <usb_ops_linux.h>
++#endif /* PLATFORM_LINUX */
++
++#ifdef CONFIG_RTL8188E
++void rtl8188eu_set_hw_type(struct dvobj_priv *pdvobj);
++#ifdef CONFIG_SUPPORT_USB_INT
++void interrupt_handler_8188eu(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif
++#endif
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++void rtl8812au_set_hw_type(struct dvobj_priv *pdvobj);
++#ifdef CONFIG_SUPPORT_USB_INT
++void interrupt_handler_8812au(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif
++#endif
++
++#ifdef CONFIG_RTL8814A
++void rtl8814au_set_hw_type(struct dvobj_priv *pdvobj);
++#ifdef CONFIG_SUPPORT_USB_INT
++void interrupt_handler_8814au(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif
++#endif /* CONFIG_RTL8814 */
++
++#ifdef CONFIG_RTL8192E
++void rtl8192eu_set_hw_type(struct dvobj_priv *pdvobj);
++#ifdef CONFIG_SUPPORT_USB_INT
++void interrupt_handler_8192eu(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif
++
++#endif
++
++#ifdef CONFIG_RTL8188F
++void rtl8188fu_set_hw_type(struct dvobj_priv *pdvobj);
++#ifdef CONFIG_SUPPORT_USB_INT
++void interrupt_handler_8188fu(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif
++#endif
++
++#ifdef CONFIG_RTL8723B
++void rtl8723bu_set_hw_type(struct dvobj_priv *pdvobj);
++#ifdef CONFIG_SUPPORT_USB_INT
++void interrupt_handler_8723bu(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif
++#endif
++
++#ifdef CONFIG_RTL8703B
++void rtl8703bu_set_hw_type(struct dvobj_priv *pdvobj);
++#ifdef CONFIG_SUPPORT_USB_INT
++void interrupt_handler_8703bu(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif /* CONFIG_SUPPORT_USB_INT */
++#endif /* CONFIG_RTL8703B */
++
++void usb_set_intf_ops(_adapter *padapter, struct _io_ops *pops);
++
++#ifdef CONFIG_RTL8723D
++void rtl8723du_set_hw_type(struct dvobj_priv *pdvobj);
++void rtl8723du_set_intf_ops(struct _io_ops *pops);
++void rtl8723du_recv_tasklet(void *priv);
++void rtl8723du_xmit_tasklet(void *priv);
++#ifdef CONFIG_SUPPORT_USB_INT
++void interrupt_handler_8723du(_adapter *padapter, u16 pkt_len, u8 *pbuf);
++#endif /* CONFIG_SUPPORT_USB_INT */
++#endif /* CONFIG_RTL8723D */
++
++enum RTW_USB_SPEED {
++	RTW_USB_SPEED_UNKNOWN	= 0,
++	RTW_USB_SPEED_1_1	= 1,
++	RTW_USB_SPEED_2		= 2,
++	RTW_USB_SPEED_3		= 3,
++};
++
++#define IS_FULL_SPEED_USB(Adapter)	(adapter_to_dvobj(Adapter)->usb_speed == RTW_USB_SPEED_1_1)
++#define IS_HIGH_SPEED_USB(Adapter)	(adapter_to_dvobj(Adapter)->usb_speed == RTW_USB_SPEED_2)
++#define IS_SUPER_SPEED_USB(Adapter)	(adapter_to_dvobj(Adapter)->usb_speed == RTW_USB_SPEED_3)
++
++#define USB_SUPER_SPEED_BULK_SIZE	1024	/* usb 3.0 */
++#define USB_HIGH_SPEED_BULK_SIZE	512		/* usb 2.0 */
++#define USB_FULL_SPEED_BULK_SIZE	64		/* usb 1.1 */
++
++static inline u8 rtw_usb_bulk_size_boundary(_adapter *padapter, int buf_len)
++{
++	u8 rst = _TRUE;
++
++	if (IS_SUPER_SPEED_USB(padapter))
++		rst = (0 == (buf_len) % USB_SUPER_SPEED_BULK_SIZE) ? _TRUE : _FALSE;
++	if (IS_HIGH_SPEED_USB(padapter))
++		rst = (0 == (buf_len) % USB_HIGH_SPEED_BULK_SIZE) ? _TRUE : _FALSE;
++	else
++		rst = (0 == (buf_len) % USB_FULL_SPEED_BULK_SIZE) ? _TRUE : _FALSE;
++	return rst;
++}
++
++
++#endif /* __USB_OPS_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/usb_ops_linux.h b/drivers/net/wireless/rtl8812au/include/usb_ops_linux.h
+new file mode 100644
+index 0000000..adf0750
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/usb_ops_linux.h
+@@ -0,0 +1,103 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __USB_OPS_LINUX_H__
++#define __USB_OPS_LINUX_H__
++
++#define VENDOR_CMD_MAX_DATA_LEN	254
++#define FW_START_ADDRESS	0x1000
++
++#define RTW_USB_CONTROL_MSG_TIMEOUT_TEST	10/* ms */
++#define RTW_USB_CONTROL_MSG_TIMEOUT	500/* ms */
++
++#define RECV_BULK_IN_ADDR		0x80/* assign by drv, not real address */
++#define RECV_INT_IN_ADDR		0x81/* assign by drv, not real address */
++
++#define INTERRUPT_MSG_FORMAT_LEN 60
++
++#if defined(CONFIG_VENDOR_REQ_RETRY) && defined(CONFIG_USB_VENDOR_REQ_MUTEX)
++	/* vendor req retry should be in the situation when each vendor req is atomically submitted from others */
++	#define MAX_USBCTRL_VENDORREQ_TIMES	10
++#else
++	#define MAX_USBCTRL_VENDORREQ_TIMES	1
++#endif
++
++#define RTW_USB_BULKOUT_TIMEOUT	5000/* ms */
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 5, 0)) || (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 18))
++#define _usbctrl_vendorreq_async_callback(urb, regs)	_usbctrl_vendorreq_async_callback(urb)
++#define usb_bulkout_zero_complete(purb, regs)	usb_bulkout_zero_complete(purb)
++#define usb_write_mem_complete(purb, regs)	usb_write_mem_complete(purb)
++#define usb_write_port_complete(purb, regs)	usb_write_port_complete(purb)
++#define usb_read_port_complete(purb, regs)	usb_read_port_complete(purb)
++#define usb_read_interrupt_complete(purb, regs)	usb_read_interrupt_complete(purb)
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 12))
++#define rtw_usb_control_msg(dev, pipe, request, requesttype, value, index, data, size, timeout_ms) \
++	usb_control_msg((dev), (pipe), (request), (requesttype), (value), (index), (data), (size), (timeout_ms))
++#define rtw_usb_bulk_msg(usb_dev, pipe, data, len, actual_length, timeout_ms) \
++	usb_bulk_msg((usb_dev), (pipe), (data), (len), (actual_length), (timeout_ms))
++#else
++#define rtw_usb_control_msg(dev, pipe, request, requesttype, value, index, data, size, timeout_ms) \
++	usb_control_msg((dev), (pipe), (request), (requesttype), (value), (index), (data), (size), \
++		((timeout_ms) == 0) || ((timeout_ms) * HZ / 1000 > 0) ? ((timeout_ms) * HZ / 1000) : 1)
++#define rtw_usb_bulk_msg(usb_dev, pipe, data, len, actual_length, timeout_ms) \
++	usb_bulk_msg((usb_dev), (pipe), (data), (len), (actual_length), \
++		((timeout_ms) == 0) || ((timeout_ms) * HZ / 1000 > 0) ? ((timeout_ms) * HZ / 1000) : 1)
++#endif
++
++
++#ifdef CONFIG_USB_SUPPORT_ASYNC_VDN_REQ
++int usb_async_write8(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++int usb_async_write16(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++int usb_async_write32(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++#endif /* CONFIG_USB_SUPPORT_ASYNC_VDN_REQ */
++
++unsigned int ffaddr2pipehdl(struct dvobj_priv *pdvobj, u32 addr);
++
++void usb_read_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem);
++void usb_write_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *wmem);
++
++void usb_read_port_cancel(struct intf_hdl *pintfhdl);
++
++u32 usb_write_port(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *wmem);
++void usb_write_port_cancel(struct intf_hdl *pintfhdl);
++
++int usbctrl_vendorreq(struct intf_hdl *pintfhdl, u8 request, u16 value, u16 index, void *pdata, u16 len, u8 requesttype);
++#ifdef CONFIG_USB_SUPPORT_ASYNC_VDN_REQ
++int _usbctrl_vendorreq_async_write(struct usb_device *udev, u8 request,
++		u16 value, u16 index, void *pdata, u16 len, u8 requesttype);
++#endif /* CONFIG_USB_SUPPORT_ASYNC_VDN_REQ */
++
++u8 usb_read8(struct intf_hdl *pintfhdl, u32 addr);
++u16 usb_read16(struct intf_hdl *pintfhdl, u32 addr);
++u32 usb_read32(struct intf_hdl *pintfhdl, u32 addr);
++int usb_write8(struct intf_hdl *pintfhdl, u32 addr, u8 val);
++int usb_write16(struct intf_hdl *pintfhdl, u32 addr, u16 val);
++int usb_write32(struct intf_hdl *pintfhdl, u32 addr, u32 val);
++int usb_writeN(struct intf_hdl *pintfhdl, u32 addr, u32 length, u8 *pdata);
++u32 usb_read_port(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem);
++void usb_recv_tasklet(void *priv);
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++void usb_read_interrupt_complete(struct urb *purb, struct pt_regs *regs);
++u32 usb_read_interrupt(struct intf_hdl *pintfhdl, u32 addr);
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/usb_osintf.h b/drivers/net/wireless/rtl8812au/include/usb_osintf.h
+new file mode 100644
+index 0000000..9c39520
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/usb_osintf.h
+@@ -0,0 +1,31 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __USB_OSINTF_H
++#define __USB_OSINTF_H
++
++#include <usb_vendor_req.h>
++
++#define USBD_HALTED(Status) ((ULONG)(Status) >> 30 == 3)
++
++
++u8 usbvendorrequest(struct dvobj_priv *pdvobjpriv, RT_USB_BREQUEST brequest, RT_USB_WVALUE wvalue, u8 windex, void *data, u8 datalen, u8 isdirectionin);
++
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/usb_vendor_req.h b/drivers/net/wireless/rtl8812au/include/usb_vendor_req.h
+new file mode 100644
+index 0000000..2281d36
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/usb_vendor_req.h
+@@ -0,0 +1,61 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _USB_VENDOR_REQUEST_H_
++#define _USB_VENDOR_REQUEST_H_
++
++/* 4	Set/Get Register related wIndex/Data */
++#define	RT_USB_RESET_MASK_OFF		0
++#define	RT_USB_RESET_MASK_ON		1
++#define	RT_USB_SLEEP_MASK_OFF		0
++#define	RT_USB_SLEEP_MASK_ON		1
++#define	RT_USB_LDO_ON				1
++#define	RT_USB_LDO_OFF				0
++
++/* 4	Set/Get SYSCLK related	wValue or Data */
++#define	RT_USB_SYSCLK_32KHZ		0
++#define	RT_USB_SYSCLK_40MHZ		1
++#define	RT_USB_SYSCLK_60MHZ		2
++
++
++typedef enum _RT_USB_BREQUEST {
++	RT_USB_SET_REGISTER		= 1,
++	RT_USB_SET_SYSCLK		= 2,
++	RT_USB_GET_SYSCLK		= 3,
++	RT_USB_GET_REGISTER		= 4
++} RT_USB_BREQUEST;
++
++
++typedef enum _RT_USB_WVALUE {
++	RT_USB_RESET_MASK	=	1,
++	RT_USB_SLEEP_MASK	=	2,
++	RT_USB_USB_HRCPWM	=	3,
++	RT_USB_LDO			=	4,
++	RT_USB_BOOT_TYPE	=	5
++} RT_USB_WVALUE;
++
++
++#if 0
++BOOLEAN usbvendorrequest(PCE_USB_DEVICE	CEdevice, RT_USB_BREQUEST bRequest, RT_USB_WVALUE wValue, UCHAR wIndex, PVOID Data, UCHAR DataLength, BOOLEAN isDirectionIn);
++BOOLEAN CEusbGetStatusRequest(PCE_USB_DEVICE CEdevice, IN USHORT Op, IN USHORT Index, PVOID Data);
++BOOLEAN CEusbFeatureRequest(PCE_USB_DEVICE CEdevice, IN USHORT Op, IN USHORT FeatureSelector, IN USHORT Index);
++BOOLEAN CEusbGetDescriptorRequest(PCE_USB_DEVICE CEdevice, IN short urbLength, IN UCHAR DescriptorType, IN UCHAR Index, IN USHORT LanguageId, IN PVOID  TransferBuffer, IN ULONG TransferBufferLength);
++#endif
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/include/wifi.h b/drivers/net/wireless/rtl8812au/include/wifi.h
+new file mode 100644
+index 0000000..504dce9
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/wifi.h
+@@ -0,0 +1,1389 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef _WIFI_H_
++#define _WIFI_H_
++
++
++#ifdef BIT
++/* #error	"BIT define occurred earlier elsewhere!\n" */
++#undef BIT
++#endif
++#define BIT(x)	(1 << (x))
++
++
++#define WLAN_ETHHDR_LEN		14
++#define WLAN_ETHADDR_LEN	6
++#define WLAN_IEEE_OUI_LEN	3
++#define WLAN_ADDR_LEN		6
++#define WLAN_CRC_LEN		4
++#define WLAN_BSSID_LEN		6
++#define WLAN_BSS_TS_LEN		8
++#define WLAN_HDR_A3_LEN		24
++#define WLAN_HDR_A4_LEN		30
++#define WLAN_HDR_A3_QOS_LEN	26
++#define WLAN_HDR_A4_QOS_LEN	32
++#define WLAN_SSID_MAXLEN	32
++#define WLAN_DATA_MAXLEN	2312
++
++#define WLAN_A3_PN_OFFSET	24
++#define WLAN_A4_PN_OFFSET	30
++
++#define WLAN_MIN_ETHFRM_LEN	60
++#define WLAN_MAX_ETHFRM_LEN	1514
++#define WLAN_ETHHDR_LEN		14
++#define WLAN_WMM_LEN		24
++
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++#define WLAN_MAX_VENDOR_IE_LEN 255
++#define WLAN_MAX_VENDOR_IE_NUM 5
++#define WIFI_BEACON_VENDOR_IE_BIT BIT(0)
++#define WIFI_PROBEREQ_VENDOR_IE_BIT BIT(1)
++#define WIFI_PROBERESP_VENDOR_IE_BIT BIT(2)
++#define WIFI_ASSOCREQ_VENDOR_IE_BIT BIT(3)
++#define WIFI_ASSOCRESP_VENDOR_IE_BIT BIT(4)
++#endif
++
++#define P80211CAPTURE_VERSION	0x80211001
++
++/* This value is tested by WiFi 11n Test Plan 5.2.3.
++ * This test verifies the WLAN NIC can update the NAV through sending the CTS with large duration. */
++#define	WiFiNavUpperUs				30000	/* 30 ms */
++
++#ifdef GREEN_HILL
++#pragma pack(1)
++#endif
++
++enum WIFI_FRAME_TYPE {
++	WIFI_MGT_TYPE  =	(0),
++	WIFI_CTRL_TYPE =	(BIT(2)),
++	WIFI_DATA_TYPE =	(BIT(3)),
++	WIFI_QOS_DATA_TYPE	= (BIT(7) | BIT(3)),	/* !< QoS Data	 */
++};
++
++enum WIFI_FRAME_SUBTYPE {
++
++	/* below is for mgt frame */
++	WIFI_ASSOCREQ       = (0 | WIFI_MGT_TYPE),
++	WIFI_ASSOCRSP       = (BIT(4) | WIFI_MGT_TYPE),
++	WIFI_REASSOCREQ     = (BIT(5) | WIFI_MGT_TYPE),
++	WIFI_REASSOCRSP     = (BIT(5) | BIT(4) | WIFI_MGT_TYPE),
++	WIFI_PROBEREQ       = (BIT(6) | WIFI_MGT_TYPE),
++	WIFI_PROBERSP       = (BIT(6) | BIT(4) | WIFI_MGT_TYPE),
++	WIFI_BEACON         = (BIT(7) | WIFI_MGT_TYPE),
++	WIFI_ATIM           = (BIT(7) | BIT(4) | WIFI_MGT_TYPE),
++	WIFI_DISASSOC       = (BIT(7) | BIT(5) | WIFI_MGT_TYPE),
++	WIFI_AUTH           = (BIT(7) | BIT(5) | BIT(4) | WIFI_MGT_TYPE),
++	WIFI_DEAUTH         = (BIT(7) | BIT(6) | WIFI_MGT_TYPE),
++	WIFI_ACTION         = (BIT(7) | BIT(6) | BIT(4) | WIFI_MGT_TYPE),
++	WIFI_ACTION_NOACK = (BIT(7) | BIT(6) | BIT(5) | WIFI_MGT_TYPE),
++
++	/* below is for control frame */
++	WIFI_NDPA         = (BIT(6) | BIT(4) | WIFI_CTRL_TYPE),
++	WIFI_PSPOLL         = (BIT(7) | BIT(5) | WIFI_CTRL_TYPE),
++	WIFI_RTS            = (BIT(7) | BIT(5) | BIT(4) | WIFI_CTRL_TYPE),
++	WIFI_CTS            = (BIT(7) | BIT(6) | WIFI_CTRL_TYPE),
++	WIFI_ACK            = (BIT(7) | BIT(6) | BIT(4) | WIFI_CTRL_TYPE),
++	WIFI_CFEND          = (BIT(7) | BIT(6) | BIT(5) | WIFI_CTRL_TYPE),
++	WIFI_CFEND_CFACK    = (BIT(7) | BIT(6) | BIT(5) | BIT(4) | WIFI_CTRL_TYPE),
++
++	/* below is for data frame */
++	WIFI_DATA           = (0 | WIFI_DATA_TYPE),
++	WIFI_DATA_CFACK     = (BIT(4) | WIFI_DATA_TYPE),
++	WIFI_DATA_CFPOLL    = (BIT(5) | WIFI_DATA_TYPE),
++	WIFI_DATA_CFACKPOLL = (BIT(5) | BIT(4) | WIFI_DATA_TYPE),
++	WIFI_DATA_NULL      = (BIT(6) | WIFI_DATA_TYPE),
++	WIFI_CF_ACK         = (BIT(6) | BIT(4) | WIFI_DATA_TYPE),
++	WIFI_CF_POLL        = (BIT(6) | BIT(5) | WIFI_DATA_TYPE),
++	WIFI_CF_ACKPOLL     = (BIT(6) | BIT(5) | BIT(4) | WIFI_DATA_TYPE),
++	WIFI_QOS_DATA_NULL	= (BIT(6) | WIFI_QOS_DATA_TYPE),
++};
++
++enum WIFI_REASON_CODE	{
++	_RSON_RESERVED_					= 0,
++	_RSON_UNSPECIFIED_				= 1,
++	_RSON_AUTH_NO_LONGER_VALID_		= 2,
++	_RSON_DEAUTH_STA_LEAVING_		= 3,
++	_RSON_INACTIVITY_				= 4,
++	_RSON_UNABLE_HANDLE_			= 5,
++	_RSON_CLS2_						= 6,
++	_RSON_CLS3_						= 7,
++	_RSON_DISAOC_STA_LEAVING_		= 8,
++	_RSON_ASOC_NOT_AUTH_			= 9,
++
++	/* WPA reason */
++	_RSON_INVALID_IE_				= 13,
++	_RSON_MIC_FAILURE_				= 14,
++	_RSON_4WAY_HNDSHK_TIMEOUT_		= 15,
++	_RSON_GROUP_KEY_UPDATE_TIMEOUT_	= 16,
++	_RSON_DIFF_IE_					= 17,
++	_RSON_MLTCST_CIPHER_NOT_VALID_	= 18,
++	_RSON_UNICST_CIPHER_NOT_VALID_	= 19,
++	_RSON_AKMP_NOT_VALID_			= 20,
++	_RSON_UNSUPPORT_RSNE_VER_		= 21,
++	_RSON_INVALID_RSNE_CAP_			= 22,
++	_RSON_IEEE_802DOT1X_AUTH_FAIL_	= 23,
++
++	/* belowing are Realtek definition */
++	_RSON_PMK_NOT_AVAILABLE_		= 24,
++	_RSON_TDLS_TEAR_TOOFAR_			= 25,
++	_RSON_TDLS_TEAR_UN_RSN_			= 26,
++};
++
++/* Reason codes (IEEE 802.11-2007, 7.3.1.7, Table 7-22) */
++#if 0
++#define WLAN_REASON_UNSPECIFIED 1
++#define WLAN_REASON_PREV_AUTH_NOT_VALID 2
++#define WLAN_REASON_DEAUTH_LEAVING 3
++#define WLAN_REASON_DISASSOC_DUE_TO_INACTIVITY 4
++#define WLAN_REASON_DISASSOC_AP_BUSY 5
++#define WLAN_REASON_CLASS2_FRAME_FROM_NONAUTH_STA 6
++#define WLAN_REASON_CLASS3_FRAME_FROM_NONASSOC_STA 7
++#define WLAN_REASON_DISASSOC_STA_HAS_LEFT 8
++#define WLAN_REASON_STA_REQ_ASSOC_WITHOUT_AUTH 9
++#endif
++/* IEEE 802.11h */
++#define WLAN_REASON_PWR_CAPABILITY_NOT_VALID 10
++#define WLAN_REASON_SUPPORTED_CHANNEL_NOT_VALID 11
++#if 0
++/* IEEE 802.11i */
++#define WLAN_REASON_INVALID_IE 13
++#define WLAN_REASON_MICHAEL_MIC_FAILURE 14
++#define WLAN_REASON_4WAY_HANDSHAKE_TIMEOUT 15
++#define WLAN_REASON_GROUP_KEY_UPDATE_TIMEOUT 16
++#define WLAN_REASON_IE_IN_4WAY_DIFFERS 17
++#define WLAN_REASON_GROUP_CIPHER_NOT_VALID 18
++#define WLAN_REASON_PAIRWISE_CIPHER_NOT_VALID 19
++#define WLAN_REASON_AKMP_NOT_VALID 20
++#define WLAN_REASON_UNSUPPORTED_RSN_IE_VERSION 21
++#define WLAN_REASON_INVALID_RSN_IE_CAPAB 22
++#define WLAN_REASON_IEEE_802_1X_AUTH_FAILED 23
++#define WLAN_REASON_CIPHER_SUITE_REJECTED 24
++#endif
++
++enum WIFI_STATUS_CODE {
++	_STATS_SUCCESSFUL_			= 0,
++	_STATS_FAILURE_				= 1,
++	_STATS_SEC_DISABLED_			= 5,
++	_STATS_NOT_IN_SAME_BSS_		= 7,
++	_STATS_CAP_FAIL_			= 10,
++	_STATS_NO_ASOC_				= 11,
++	_STATS_OTHER_				= 12,
++	_STATS_NO_SUPP_ALG_			= 13,
++	_STATS_OUT_OF_AUTH_SEQ_		= 14,
++	_STATS_CHALLENGE_FAIL_		= 15,
++	_STATS_AUTH_TIMEOUT_		= 16,
++	_STATS_UNABLE_HANDLE_STA_	= 17,
++	_STATS_RATE_FAIL_			= 18,
++	_STATS_REFUSED_TEMPORARILY_ = 30,
++	_STATS_DECLINE_REQ_			= 37,
++	_STATS_INVALID_PARAMETERS_	= 38,
++	_STATS_INVALID_RSNIE_			= 72,
++};
++
++/* Status codes (IEEE 802.11-2007, 7.3.1.9, Table 7-23) */
++#if 0
++#define WLAN_STATUS_SUCCESS 0
++#define WLAN_STATUS_UNSPECIFIED_FAILURE 1
++#define WLAN_STATUS_CAPS_UNSUPPORTED 10
++#define WLAN_STATUS_REASSOC_NO_ASSOC 11
++#define WLAN_STATUS_ASSOC_DENIED_UNSPEC 12
++#define WLAN_STATUS_NOT_SUPPORTED_AUTH_ALG 13
++#define WLAN_STATUS_UNKNOWN_AUTH_TRANSACTION 14
++#define WLAN_STATUS_CHALLENGE_FAIL 15
++#define WLAN_STATUS_AUTH_TIMEOUT 16
++#define WLAN_STATUS_AP_UNABLE_TO_HANDLE_NEW_STA 17
++#define WLAN_STATUS_ASSOC_DENIED_RATES 18
++#endif
++/* entended */
++/* IEEE 802.11b */
++#define WLAN_STATUS_ASSOC_DENIED_NOSHORT 19
++#define WLAN_STATUS_ASSOC_DENIED_NOPBCC 20
++#define WLAN_STATUS_ASSOC_DENIED_NOAGILITY 21
++/* IEEE 802.11h */
++#define WLAN_STATUS_SPEC_MGMT_REQUIRED 22
++#define WLAN_STATUS_PWR_CAPABILITY_NOT_VALID 23
++#define WLAN_STATUS_SUPPORTED_CHANNEL_NOT_VALID 24
++/* IEEE 802.11g */
++#define WLAN_STATUS_ASSOC_DENIED_NO_SHORT_SLOT_TIME 25
++#define WLAN_STATUS_ASSOC_DENIED_NO_ER_PBCC 26
++#define WLAN_STATUS_ASSOC_DENIED_NO_DSSS_OFDM 27
++/* IEEE 802.11w */
++#define WLAN_STATUS_ASSOC_REJECTED_TEMPORARILY 30
++#define WLAN_STATUS_ROBUST_MGMT_FRAME_POLICY_VIOLATION 31
++/* IEEE 802.11i */
++#define WLAN_STATUS_INVALID_IE 40
++#define WLAN_STATUS_GROUP_CIPHER_NOT_VALID 41
++#define WLAN_STATUS_PAIRWISE_CIPHER_NOT_VALID 42
++#define WLAN_STATUS_AKMP_NOT_VALID 43
++#define WLAN_STATUS_UNSUPPORTED_RSN_IE_VERSION 44
++#define WLAN_STATUS_INVALID_RSN_IE_CAPAB 45
++#define WLAN_STATUS_CIPHER_REJECTED_PER_POLICY 46
++#define WLAN_STATUS_TS_NOT_CREATED 47
++#define WLAN_STATUS_DIRECT_LINK_NOT_ALLOWED 48
++#define WLAN_STATUS_DEST_STA_NOT_PRESENT 49
++#define WLAN_STATUS_DEST_STA_NOT_QOS_STA 50
++#define WLAN_STATUS_ASSOC_DENIED_LISTEN_INT_TOO_LARGE 51
++/* IEEE 802.11r */
++#define WLAN_STATUS_INVALID_FT_ACTION_FRAME_COUNT 52
++#define WLAN_STATUS_INVALID_PMKID 53
++#define WLAN_STATUS_INVALID_MDIE 54
++#define WLAN_STATUS_INVALID_FTIE 55
++
++
++enum WIFI_REG_DOMAIN {
++	DOMAIN_FCC		= 1,
++	DOMAIN_IC		= 2,
++	DOMAIN_ETSI		= 3,
++	DOMAIN_SPAIN	= 4,
++	DOMAIN_FRANCE	= 5,
++	DOMAIN_MKK		= 6,
++	DOMAIN_ISRAEL	= 7,
++	DOMAIN_MKK1		= 8,
++	DOMAIN_MKK2		= 9,
++	DOMAIN_MKK3		= 10,
++	DOMAIN_MAX
++};
++
++#define _TO_DS_		BIT(8)
++#define _FROM_DS_	BIT(9)
++#define _MORE_FRAG_	BIT(10)
++#define _RETRY_		BIT(11)
++#define _PWRMGT_	BIT(12)
++#define _MORE_DATA_	BIT(13)
++#define _PRIVACY_	BIT(14)
++#define _ORDER_			BIT(15)
++
++#define SetToDs(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_TO_DS_); \
++	} while (0)
++
++#define GetToDs(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_TO_DS_)) != 0)
++
++#define ClearToDs(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_TO_DS_)); \
++	} while (0)
++
++#define SetFrDs(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_FROM_DS_); \
++	} while (0)
++
++#define GetFrDs(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_FROM_DS_)) != 0)
++
++#define ClearFrDs(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_FROM_DS_)); \
++	} while (0)
++
++#define get_tofr_ds(pframe)	((GetToDs(pframe) << 1) | GetFrDs(pframe))
++
++
++#define SetMFrag(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_MORE_FRAG_); \
++	} while (0)
++
++#define GetMFrag(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_MORE_FRAG_)) != 0)
++
++#define ClearMFrag(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_MORE_FRAG_)); \
++	} while (0)
++
++#define SetRetry(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_RETRY_); \
++	} while (0)
++
++#define GetRetry(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_RETRY_)) != 0)
++
++#define ClearRetry(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_RETRY_)); \
++	} while (0)
++
++#define SetPwrMgt(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_PWRMGT_); \
++	} while (0)
++
++#define GetPwrMgt(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_PWRMGT_)) != 0)
++
++#define ClearPwrMgt(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_PWRMGT_)); \
++	} while (0)
++
++#define SetMData(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_MORE_DATA_); \
++	} while (0)
++
++#define GetMData(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_MORE_DATA_)) != 0)
++
++#define ClearMData(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_MORE_DATA_)); \
++	} while (0)
++
++#define SetPrivacy(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(_PRIVACY_); \
++	} while (0)
++
++#define GetPrivacy(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_PRIVACY_)) != 0)
++
++#define ClearPrivacy(pbuf)	\
++	do	{	\
++		*(unsigned short *)(pbuf) &= (~cpu_to_le16(_PRIVACY_)); \
++	} while (0)
++
++
++#define GetOrder(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_ORDER_)) != 0)
++
++#define GetFrameType(pbuf)	(le16_to_cpu(*(unsigned short *)(pbuf)) & (BIT(3) | BIT(2)))
++
++#define SetFrameType(pbuf, type)	\
++	do {	\
++		*(unsigned short *)(pbuf) &= __constant_cpu_to_le16(~(BIT(3) | BIT(2))); \
++		*(unsigned short *)(pbuf) |= __constant_cpu_to_le16(type); \
++	} while (0)
++
++#define GetFrameSubType(pbuf)	(cpu_to_le16(*(unsigned short *)(pbuf)) & (BIT(7) | BIT(6) | BIT(5) | BIT(4) | BIT(3) | BIT(2)))
++
++#define SetFrameSubType(pbuf, type) \
++	do {    \
++		*(unsigned short *)(pbuf) &= cpu_to_le16(~(BIT(7) | BIT(6) | BIT(5) | BIT(4) | BIT(3) | BIT(2))); \
++		*(unsigned short *)(pbuf) |= cpu_to_le16(type); \
++	} while (0)
++
++#define GetSequence(pbuf)	(cpu_to_le16(*(unsigned short *)((SIZE_PTR)(pbuf) + 22)) >> 4)
++
++#define GetFragNum(pbuf)	(cpu_to_le16(*(unsigned short *)((SIZE_PTR)(pbuf) + 22)) & 0x0f)
++
++#define GetTupleCache(pbuf)	(cpu_to_le16(*(unsigned short *)((SIZE_PTR)(pbuf) + 22)))
++
++#define SetFragNum(pbuf, num) \
++	do {    \
++		*(unsigned short *)((SIZE_PTR)(pbuf) + 22) = \
++			((*(unsigned short *)((SIZE_PTR)(pbuf) + 22)) & le16_to_cpu(~(0x000f))) | \
++				cpu_to_le16(0x0f & (num));     \
++	} while (0)
++
++#define SetSeqNum(pbuf, num) \
++	do {    \
++		*(unsigned short *)((SIZE_PTR)(pbuf) + 22) = \
++			((*(unsigned short *)((SIZE_PTR)(pbuf) + 22)) & le16_to_cpu((unsigned short)~0xfff0)) | \
++			le16_to_cpu((unsigned short)(0xfff0 & (num << 4))); \
++	} while (0)
++
++#define SetDuration(pbuf, dur) \
++	do {    \
++		*(unsigned short *)((SIZE_PTR)(pbuf) + 2) = cpu_to_le16(0xffff & (dur)); \
++	} while (0)
++
++
++#define SetPriority(pbuf, tid)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16(tid & 0xf); \
++	} while (0)
++
++#define GetPriority(pbuf)	((le16_to_cpu(*(unsigned short *)(pbuf))) & 0xf)
++
++#define SetEOSP(pbuf, eosp)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16((eosp & 1) << 4); \
++	} while (0)
++
++#define SetAckpolicy(pbuf, ack)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16((ack & 3) << 5); \
++	} while (0)
++
++#define GetAckpolicy(pbuf) (((le16_to_cpu(*(unsigned short *)pbuf)) >> 5) & 0x3)
++
++#define GetAMsdu(pbuf) (((le16_to_cpu(*(unsigned short *)pbuf)) >> 7) & 0x1)
++
++#define SetAMsdu(pbuf, amsdu)	\
++	do	{	\
++		*(unsigned short *)(pbuf) |= cpu_to_le16((amsdu & 1) << 7); \
++	} while (0)
++
++#define GetAid(pbuf)	(cpu_to_le16(*(unsigned short *)((SIZE_PTR)(pbuf) + 2)) & 0x3fff)
++
++#define GetTid(pbuf)	(cpu_to_le16(*(unsigned short *)((SIZE_PTR)(pbuf) + (((GetToDs(pbuf)<<1) | GetFrDs(pbuf)) == 3 ? 30 : 24))) & 0x000f)
++
++#define GetAddr1Ptr(pbuf)	((unsigned char *)((SIZE_PTR)(pbuf) + 4))
++
++#define GetAddr2Ptr(pbuf)	((unsigned char *)((SIZE_PTR)(pbuf) + 10))
++
++#define GetAddr3Ptr(pbuf)	((unsigned char *)((SIZE_PTR)(pbuf) + 16))
++
++#define GetAddr4Ptr(pbuf)	((unsigned char *)((SIZE_PTR)(pbuf) + 24))
++
++#define MacAddr_isBcst(addr) \
++	(\
++	 ((addr[0] == 0xff) && (addr[1] == 0xff) && \
++	  (addr[2] == 0xff) && (addr[3] == 0xff) && \
++	  (addr[4] == 0xff) && (addr[5] == 0xff)) ? _TRUE : _FALSE \
++	)
++
++__inline static int IS_MCAST(unsigned char *da)
++{
++	if ((*da) & 0x01)
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++__inline static unsigned char *get_ra(unsigned char *pframe)
++{
++	unsigned char	*ra;
++	ra = GetAddr1Ptr(pframe);
++	return ra;
++}
++__inline static unsigned char *get_ta(unsigned char *pframe)
++{
++	unsigned char	*ta;
++	ta = GetAddr2Ptr(pframe);
++	return ta;
++}
++
++__inline static unsigned char *get_da(unsigned char *pframe)
++{
++	unsigned char	*da;
++	unsigned int	to_fr_ds	= (GetToDs(pframe) << 1) | GetFrDs(pframe);
++
++	switch (to_fr_ds) {
++	case 0x00:	/* ToDs=0, FromDs=0 */
++		da = GetAddr1Ptr(pframe);
++		break;
++	case 0x01:	/* ToDs=0, FromDs=1 */
++		da = GetAddr1Ptr(pframe);
++		break;
++	case 0x02:	/* ToDs=1, FromDs=0 */
++		da = GetAddr3Ptr(pframe);
++		break;
++	default:	/* ToDs=1, FromDs=1 */
++		da = GetAddr3Ptr(pframe);
++		break;
++	}
++
++	return da;
++}
++
++
++__inline static unsigned char *get_sa(unsigned char *pframe)
++{
++	unsigned char	*sa;
++	unsigned int	to_fr_ds	= (GetToDs(pframe) << 1) | GetFrDs(pframe);
++
++	switch (to_fr_ds) {
++	case 0x00:	/* ToDs=0, FromDs=0 */
++		sa = GetAddr2Ptr(pframe);
++		break;
++	case 0x01:	/* ToDs=0, FromDs=1 */
++		sa = GetAddr3Ptr(pframe);
++		break;
++	case 0x02:	/* ToDs=1, FromDs=0 */
++		sa = GetAddr2Ptr(pframe);
++		break;
++	default:	/* ToDs=1, FromDs=1 */
++		sa = GetAddr4Ptr(pframe);
++		break;
++	}
++
++	return sa;
++}
++
++__inline static unsigned char *get_hdr_bssid(unsigned char *pframe)
++{
++	unsigned char	*sa = NULL;
++	unsigned int	to_fr_ds	= (GetToDs(pframe) << 1) | GetFrDs(pframe);
++
++	switch (to_fr_ds) {
++	case 0x00:	/* ToDs=0, FromDs=0 */
++		sa = GetAddr3Ptr(pframe);
++		break;
++	case 0x01:	/* ToDs=0, FromDs=1 */
++		sa = GetAddr2Ptr(pframe);
++		break;
++	case 0x02:	/* ToDs=1, FromDs=0 */
++		sa = GetAddr1Ptr(pframe);
++		break;
++	case 0x03:	/* ToDs=1, FromDs=1 */
++		sa = GetAddr1Ptr(pframe);
++		break;
++	}
++
++	return sa;
++}
++
++
++__inline static int IsFrameTypeCtrl(unsigned char *pframe)
++{
++	if (WIFI_CTRL_TYPE == GetFrameType(pframe))
++		return _TRUE;
++	else
++		return _FALSE;
++}
++/*-----------------------------------------------------------------------------
++			Below is for the security related definition
++------------------------------------------------------------------------------*/
++#define _RESERVED_FRAME_TYPE_	0
++#define _SKB_FRAME_TYPE_		2
++#define _PRE_ALLOCMEM_			1
++#define _PRE_ALLOCHDR_			3
++#define _PRE_ALLOCLLCHDR_		4
++#define _PRE_ALLOCICVHDR_		5
++#define _PRE_ALLOCMICHDR_		6
++
++#define _SIFSTIME_				((priv->pmib->dot11BssType.net_work_type&WIRELESS_11A) ? 16 : 10)
++#define _ACKCTSLNG_				14	/* 14 bytes long, including crclng */
++#define _CRCLNG_				4
++
++#define _ASOCREQ_IE_OFFSET_		4	/* excluding wlan_hdr */
++#define	_ASOCRSP_IE_OFFSET_		6
++#define _REASOCREQ_IE_OFFSET_	10
++#define _REASOCRSP_IE_OFFSET_	6
++#define _PROBEREQ_IE_OFFSET_	0
++#define	_PROBERSP_IE_OFFSET_	12
++#define _AUTH_IE_OFFSET_		6
++#define _DEAUTH_IE_OFFSET_		0
++#define _BEACON_IE_OFFSET_		12
++#define _PUBLIC_ACTION_IE_OFFSET_	8
++
++#define _FIXED_IE_LENGTH_			_BEACON_IE_OFFSET_
++
++#define _SSID_IE_				0
++#define _SUPPORTEDRATES_IE_	1
++#define _DSSET_IE_				3
++#define _TIM_IE_					5
++#define _IBSS_PARA_IE_			6
++#define _COUNTRY_IE_			7
++#define _CHLGETXT_IE_			16
++#define _SUPPORTED_CH_IE_		36
++#define _CH_SWTICH_ANNOUNCE_	37	/* Secondary Channel Offset */
++#define _RSN_IE_2_				48
++#define _SSN_IE_1_					221
++#define _ERPINFO_IE_			42
++#define _EXT_SUPPORTEDRATES_IE_	50
++
++#define _HT_CAPABILITY_IE_			45
++#define _FTIE_						55
++#define _TIMEOUT_ITVL_IE_			56
++#define _SRC_IE_				59
++#define _HT_EXTRA_INFO_IE_			61
++#define _HT_ADD_INFO_IE_			61 /* _HT_EXTRA_INFO_IE_ */
++#define _WAPI_IE_					68
++
++
++/* #define EID_BSSCoexistence			72 */ /* 20/40 BSS Coexistence
++ * #define EID_BSSIntolerantChlReport	73 */
++#define _RIC_Descriptor_IE_			75
++#ifdef CONFIG_IEEE80211W
++#define _MME_IE_					76 /* 802.11w Management MIC element */
++#endif /* CONFIG_IEEE80211W */
++#define _LINK_ID_IE_					101
++#define _CH_SWITCH_TIMING_		104
++#define _PTI_BUFFER_STATUS_		106
++#define _EXT_CAP_IE_				127
++#define _VENDOR_SPECIFIC_IE_		221
++
++#define	_RESERVED47_				47
++
++typedef	enum _ELEMENT_ID {
++	EID_SsId					= 0, /* service set identifier (0:32) */
++	EID_SupRates				= 1, /* supported rates (1:8) */
++	EID_FHParms				= 2, /* FH parameter set (5) */
++	EID_DSParms				= 3, /* DS parameter set (1) */
++	EID_CFParms				= 4, /* CF parameter set (6) */
++	EID_Tim						= 5, /* Traffic Information Map (4:254) */
++	EID_IbssParms				= 6, /* IBSS parameter set (2) */
++	EID_Country					= 7, /* */
++
++	/* Form 7.3.2: Information elements in 802.11E/D13.0, page 46. */
++	EID_QBSSLoad				= 11,
++	EID_EDCAParms				= 12,
++	EID_TSpec					= 13,
++	EID_TClass					= 14,
++	EID_Schedule				= 15,
++	/*  */
++
++	EID_Ctext					= 16, /* challenge text*/
++	EID_POWER_CONSTRAINT		= 32, /* Power Constraint*/
++
++	/* vivi for WIFITest, 802.11h AP, 20100427 */
++	/* 2010/12/26 MH The definition we can declare always!! */
++	EID_PowerCap				= 33,
++	EID_SupportedChannels		= 36,
++	EID_ChlSwitchAnnounce		= 37,
++
++	EID_MeasureRequest			= 38, /* Measurement Request */
++	EID_MeasureReport			= 39, /* Measurement Report */
++
++	EID_ERPInfo				= 42,
++
++	/* Form 7.3.2: Information elements in 802.11E/D13.0, page 46. */
++	EID_TSDelay				= 43,
++	EID_TCLASProc				= 44,
++	EID_HTCapability			= 45,
++	EID_QoSCap					= 46,
++	/*  */
++
++	EID_WPA2					= 48,
++	EID_ExtSupRates			= 50,
++
++	EID_FTIE					= 55, /* Defined in 802.11r */
++	EID_Timeout				= 56, /* Defined in 802.11r */
++
++	EID_SupRegulatory			= 59, /* Supported Requlatory Classes 802.11y */
++	EID_HTInfo					= 61,
++	EID_SecondaryChnlOffset		= 62,
++
++	EID_BSSCoexistence			= 72, /* 20/40 BSS Coexistence */
++	EID_BSSIntolerantChlReport	= 73,
++	EID_OBSS					= 74, /* Overlapping BSS Scan Parameters */
++
++	EID_LinkIdentifier			= 101, /* Defined in 802.11z */
++	EID_WakeupSchedule		= 102, /* Defined in 802.11z */
++	EID_ChnlSwitchTimeing		= 104, /* Defined in 802.11z */
++	EID_PTIControl				= 105, /* Defined in 802.11z */
++	EID_PUBufferStatus			= 106, /* Defined in 802.11z */
++
++	EID_EXTCapability			= 127, /* Extended Capabilities */
++	/* From S19:Aironet IE and S21:AP IP address IE in CCX v1.13, p16 and p18. */
++	EID_Aironet					= 133, /* 0x85: Aironet Element for Cisco CCX */
++	EID_CiscoIP					= 149, /* 0x95: IP Address IE for Cisco CCX */
++
++	EID_CellPwr					= 150, /* 0x96: Cell Power Limit IE. Ref. 0x96. */
++
++	EID_CCKM					= 156,
++
++	EID_Vendor					= 221, /* 0xDD: Vendor Specific */
++
++	EID_WAPI					= 68,
++	EID_VHTCapability 			= 191, /* Based on 802.11ac D2.0 */
++	EID_VHTOperation 			= 192, /* Based on 802.11ac D2.0 */
++	EID_AID						= 197, /* Based on 802.11ac D4.0 */
++	EID_OpModeNotification		= 199, /* Based on 802.11ac D3.0 */
++} ELEMENT_ID, *PELEMENT_ID;
++
++/* ---------------------------------------------------------------------------
++					Below is the fixed elements...
++-----------------------------------------------------------------------------*/
++#define _AUTH_ALGM_NUM_			2
++#define _AUTH_SEQ_NUM_			2
++#define _BEACON_ITERVAL_		2
++#define _CAPABILITY_			2
++#define _CURRENT_APADDR_		6
++#define _LISTEN_INTERVAL_		2
++#define _RSON_CODE_				2
++#define _ASOC_ID_				2
++#define _STATUS_CODE_			2
++#define _TIMESTAMP_				8
++
++#define AUTH_ODD_TO				0
++#define AUTH_EVEN_TO			1
++
++#define WLAN_ETHCONV_ENCAP		1
++#define WLAN_ETHCONV_RFC1042	2
++#define WLAN_ETHCONV_8021h		3
++
++#define cap_ESS BIT(0)
++#define cap_IBSS BIT(1)
++#define cap_CFPollable BIT(2)
++#define cap_CFRequest BIT(3)
++#define cap_Privacy BIT(4)
++#define cap_ShortPremble BIT(5)
++#define cap_PBCC	BIT(6)
++#define cap_ChAgility	BIT(7)
++#define cap_SpecMgmt	BIT(8)
++#define cap_QoS	BIT(9)
++#define cap_ShortSlot	BIT(10)
++
++/*-----------------------------------------------------------------------------
++				Below is the definition for 802.11i / 802.1x
++------------------------------------------------------------------------------*/
++#define _IEEE8021X_MGT_			1		/* WPA */
++#define _IEEE8021X_PSK_			2		/* WPA with pre-shared key */
++
++#if 0
++#define _NO_PRIVACY_			0
++#define _WEP_40_PRIVACY_		1
++#define _TKIP_PRIVACY_			2
++#define _WRAP_PRIVACY_			3
++#define _CCMP_PRIVACY_			4
++#define _WEP_104_PRIVACY_		5
++#define _WEP_WPA_MIXED_PRIVACY_ 6	/*  WEP + WPA */
++#endif
++
++#ifdef CONFIG_IEEE80211W
++#define _MME_IE_LENGTH_  18
++#endif /* CONFIG_IEEE80211W */
++/*-----------------------------------------------------------------------------
++				Below is the definition for WMM
++------------------------------------------------------------------------------*/
++#define _WMM_IE_Length_				7  /* for WMM STA */
++#define _WMM_Para_Element_Length_		24
++
++
++/*-----------------------------------------------------------------------------
++				Below is the definition for 802.11n
++------------------------------------------------------------------------------*/
++
++/* #ifdef CONFIG_80211N_HT */
++
++#define SetOrderBit(pbuf)	\
++		do	{	\
++			*(unsigned short *)(pbuf) |= cpu_to_le16(_ORDER_); \
++		} while (0)
++
++#define GetOrderBit(pbuf)	(((*(unsigned short *)(pbuf)) & le16_to_cpu(_ORDER_)) != 0)
++
++#define ACT_CAT_VENDOR				0x7F/* 127 */
++
++/**
++ * struct rtw_ieee80211_bar - HT Block Ack Request
++ *
++ * This structure refers to "HT BlockAckReq" as
++ * described in 802.11n draft section 7.2.1.7.1
++ */
++#if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8712FW)
++struct rtw_ieee80211_bar {
++	unsigned short frame_control;
++	unsigned short duration;
++	unsigned char ra[6];
++	unsigned char ta[6];
++	unsigned short control;
++	unsigned short start_seq_num;
++} __attribute__((packed));
++#endif
++
++/* 802.11 BAR control masks */
++#define IEEE80211_BAR_CTRL_ACK_POLICY_NORMAL     0x0000
++#define IEEE80211_BAR_CTRL_CBMTID_COMPRESSED_BA  0x0004
++
++
++#if defined(PLATFORM_LINUX) || defined(CONFIG_RTL8712FW) || defined(PLATFORM_FREEBSD)
++
++
++
++/**
++* struct rtw_ieee80211_ht_cap - HT capabilities
++*
++* This structure refers to "HT capabilities element" as
++* described in 802.11n draft section 7.3.2.52
++*/
++
++struct rtw_ieee80211_ht_cap {
++	unsigned short	cap_info;
++	unsigned char	ampdu_params_info;
++	unsigned char	supp_mcs_set[16];
++	unsigned short	extended_ht_cap_info;
++	unsigned int		tx_BF_cap_info;
++	unsigned char	       antenna_selection_info;
++} __attribute__((packed));
++
++/**
++ * struct rtw_ieee80211_ht_cap - HT additional information
++ *
++ * This structure refers to "HT information element" as
++ * described in 802.11n draft section 7.3.2.53
++ */
++struct ieee80211_ht_addt_info {
++	unsigned char	control_chan;
++	unsigned char		ht_param;
++	unsigned short	operation_mode;
++	unsigned short	stbc_param;
++	unsigned char		basic_set[16];
++} __attribute__((packed));
++
++
++struct HT_caps_element {
++	union {
++		struct {
++			unsigned short	HT_caps_info;
++			unsigned char	AMPDU_para;
++			unsigned char	MCS_rate[16];
++			unsigned short	HT_ext_caps;
++			unsigned int	Beamforming_caps;
++			unsigned char	ASEL_caps;
++		} HT_cap_element;
++		unsigned char HT_cap[26];
++	} u;
++} __attribute__((packed));
++
++struct HT_info_element {
++	unsigned char	primary_channel;
++	unsigned char	infos[5];
++	unsigned char	MCS_rate[16];
++}  __attribute__((packed));
++
++struct AC_param {
++	unsigned char		ACI_AIFSN;
++	unsigned char		CW;
++	unsigned short	TXOP_limit;
++}  __attribute__((packed));
++
++struct WMM_para_element {
++	unsigned char		QoS_info;
++	unsigned char		reserved;
++	struct AC_param	ac_param[4];
++}  __attribute__((packed));
++
++struct ADDBA_request {
++	unsigned char		dialog_token;
++	unsigned short	BA_para_set;
++	unsigned short	BA_timeout_value;
++	unsigned short	BA_starting_seqctrl;
++}  __attribute__((packed));
++
++
++
++#endif
++
++
++#ifdef PLATFORM_WINDOWS
++
++#pragma pack(1)
++
++struct rtw_ieee80211_ht_cap {
++	unsigned short	cap_info;
++	unsigned char	ampdu_params_info;
++	unsigned char	supp_mcs_set[16];
++	unsigned short	extended_ht_cap_info;
++	unsigned int		tx_BF_cap_info;
++	unsigned char	       antenna_selection_info;
++};
++
++
++struct ieee80211_ht_addt_info {
++	unsigned char	control_chan;
++	unsigned char		ht_param;
++	unsigned short	operation_mode;
++	unsigned short	stbc_param;
++	unsigned char		basic_set[16];
++};
++
++struct HT_caps_element {
++	union {
++		struct {
++			unsigned short	HT_caps_info;
++			unsigned char	AMPDU_para;
++			unsigned char	MCS_rate[16];
++			unsigned short	HT_ext_caps;
++			unsigned int	Beamforming_caps;
++			unsigned char	ASEL_caps;
++		} HT_cap_element;
++		unsigned char HT_cap[26];
++	};
++};
++
++struct HT_info_element {
++	unsigned char	primary_channel;
++	unsigned char	infos[5];
++	unsigned char	MCS_rate[16];
++};
++
++struct AC_param {
++	unsigned char		ACI_AIFSN;
++	unsigned char		CW;
++	unsigned short	TXOP_limit;
++};
++
++struct WMM_para_element {
++	unsigned char		QoS_info;
++	unsigned char		reserved;
++	struct AC_param	ac_param[4];
++};
++
++struct ADDBA_request {
++	unsigned char		dialog_token;
++	unsigned short	BA_para_set;
++	unsigned short	BA_timeout_value;
++	unsigned short	BA_starting_seqctrl;
++};
++
++
++#pragma pack()
++
++#endif
++
++typedef enum _HT_CAP_AMPDU_FACTOR {
++	MAX_AMPDU_FACTOR_8K		= 0,
++	MAX_AMPDU_FACTOR_16K	= 1,
++	MAX_AMPDU_FACTOR_32K	= 2,
++	MAX_AMPDU_FACTOR_64K	= 3,
++} HT_CAP_AMPDU_FACTOR;
++
++
++typedef enum _HT_CAP_AMPDU_DENSITY {
++	AMPDU_DENSITY_VALUE_0 = 0 , /* For no restriction */
++	AMPDU_DENSITY_VALUE_1 = 1 , /* For 1/4 us */
++	AMPDU_DENSITY_VALUE_2 = 2 , /* For 1/2 us */
++	AMPDU_DENSITY_VALUE_3 = 3 , /* For 1 us */
++	AMPDU_DENSITY_VALUE_4 = 4 , /* For 2 us */
++	AMPDU_DENSITY_VALUE_5 = 5 , /* For 4 us */
++	AMPDU_DENSITY_VALUE_6 = 6 , /* For 8 us */
++	AMPDU_DENSITY_VALUE_7 = 7 , /* For 16 us */
++} HT_CAP_AMPDU_DENSITY;
++
++/* 802.11n HT capabilities masks */
++#define IEEE80211_HT_CAP_LDPC_CODING		0x0001
++#define IEEE80211_HT_CAP_SUP_WIDTH		0x0002
++#define IEEE80211_HT_CAP_SM_PS			0x000C
++#define IEEE80211_HT_CAP_GRN_FLD		0x0010
++#define IEEE80211_HT_CAP_SGI_20			0x0020
++#define IEEE80211_HT_CAP_SGI_40			0x0040
++#define IEEE80211_HT_CAP_TX_STBC			0x0080
++#define IEEE80211_HT_CAP_RX_STBC_1R		0x0100
++#define IEEE80211_HT_CAP_RX_STBC_2R		0x0200
++#define IEEE80211_HT_CAP_RX_STBC_3R		0x0300
++#define IEEE80211_HT_CAP_DELAY_BA		0x0400
++#define IEEE80211_HT_CAP_MAX_AMSDU		0x0800
++#define IEEE80211_HT_CAP_DSSSCCK40		0x1000
++#define RTW_IEEE80211_HT_CAP_40MHZ_INTOLERANT	((u16) BIT(14))
++/* 802.11n HT capability AMPDU settings */
++#define IEEE80211_HT_CAP_AMPDU_FACTOR		0x03
++#define IEEE80211_HT_CAP_AMPDU_DENSITY		0x1C
++/* 802.11n HT capability MSC set */
++#define IEEE80211_SUPP_MCS_SET_UEQM		4
++#define IEEE80211_HT_CAP_MAX_STREAMS		4
++#define IEEE80211_SUPP_MCS_SET_LEN		10
++/* maximum streams the spec allows */
++#define IEEE80211_HT_CAP_MCS_TX_DEFINED		0x01
++#define IEEE80211_HT_CAP_MCS_TX_RX_DIFF		0x02
++#define IEEE80211_HT_CAP_MCS_TX_STREAMS		0x0C
++#define IEEE80211_HT_CAP_MCS_TX_UEQM		0x10
++/* 802.11n HT capability TXBF capability */
++#define IEEE80211_HT_CAP_TXBF_RX_NDP		0x00000008
++#define IEEE80211_HT_CAP_TXBF_TX_NDP		0x00000010
++#define IEEE80211_HT_CAP_TXBF_EXPLICIT_COMP_STEERING_CAP	0x00000400
++
++/* 802.11n HT IE masks */
++#define IEEE80211_HT_IE_CHA_SEC_OFFSET		0x03
++#define IEEE80211_HT_IE_CHA_SEC_NONE		0x00
++#define IEEE80211_HT_IE_CHA_SEC_ABOVE		0x01
++#define IEEE80211_HT_IE_CHA_SEC_BELOW		0x03
++#define IEEE80211_HT_IE_CHA_WIDTH		0x04
++#define IEEE80211_HT_IE_HT_PROTECTION		0x0003
++#define IEEE80211_HT_IE_NON_GF_STA_PRSNT	0x0004
++#define IEEE80211_HT_IE_NON_HT_STA_PRSNT	0x0010
++
++/* block-ack parameters */
++#define IEEE80211_ADDBA_PARAM_POLICY_MASK 0x0002
++#define IEEE80211_ADDBA_PARAM_TID_MASK 0x003C
++#define RTW_IEEE80211_ADDBA_PARAM_BUF_SIZE_MASK 0xFFC0
++#define IEEE80211_DELBA_PARAM_TID_MASK 0xF000
++#define IEEE80211_DELBA_PARAM_INITIATOR_MASK 0x0800
++
++/*
++ * A-PMDU buffer sizes
++ * According to IEEE802.11n spec size varies from 8K to 64K (in powers of 2)
++ */
++#define IEEE80211_MIN_AMPDU_BUF 0x8
++#define IEEE80211_MAX_AMPDU_BUF 0x40
++
++
++/* Spatial Multiplexing Power Save Modes */
++#define WLAN_HT_CAP_SM_PS_STATIC		0
++#define WLAN_HT_CAP_SM_PS_DYNAMIC	1
++#define WLAN_HT_CAP_SM_PS_INVALID	2
++#define WLAN_HT_CAP_SM_PS_DISABLED	3
++
++
++#define OP_MODE_PURE                    0
++#define OP_MODE_MAY_BE_LEGACY_STAS      1
++#define OP_MODE_20MHZ_HT_STA_ASSOCED    2
++#define OP_MODE_MIXED                   3
++
++#define HT_INFO_HT_PARAM_SECONDARY_CHNL_OFF_MASK	((u8) BIT(0) | BIT(1))
++#define HT_INFO_HT_PARAM_SECONDARY_CHNL_ABOVE		((u8) BIT(0))
++#define HT_INFO_HT_PARAM_SECONDARY_CHNL_BELOW		((u8) BIT(0) | BIT(1))
++#define HT_INFO_HT_PARAM_REC_TRANS_CHNL_WIDTH		((u8) BIT(2))
++#define HT_INFO_HT_PARAM_RIFS_MODE			((u8) BIT(3))
++#define HT_INFO_HT_PARAM_CTRL_ACCESS_ONLY		((u8) BIT(4))
++#define HT_INFO_HT_PARAM_SRV_INTERVAL_GRANULARITY	((u8) BIT(5))
++
++#define HT_INFO_OPERATION_MODE_OP_MODE_MASK	\
++	((u16) (0x0001 | 0x0002))
++#define HT_INFO_OPERATION_MODE_OP_MODE_OFFSET		0
++#define HT_INFO_OPERATION_MODE_NON_GF_DEVS_PRESENT	((u8) BIT(2))
++#define HT_INFO_OPERATION_MODE_TRANSMIT_BURST_LIMIT	((u8) BIT(3))
++#define HT_INFO_OPERATION_MODE_NON_HT_STA_PRESENT	((u8) BIT(4))
++
++#define HT_INFO_STBC_PARAM_DUAL_BEACON			((u16) BIT(6))
++#define HT_INFO_STBC_PARAM_DUAL_STBC_PROTECT		((u16) BIT(7))
++#define HT_INFO_STBC_PARAM_SECONDARY_BCN		((u16) BIT(8))
++#define HT_INFO_STBC_PARAM_LSIG_TXOP_PROTECT_ALLOWED	((u16) BIT(9))
++#define HT_INFO_STBC_PARAM_PCO_ACTIVE			((u16) BIT(10))
++#define HT_INFO_STBC_PARAM_PCO_PHASE			((u16) BIT(11))
++
++
++
++/* #endif */
++
++/*	===============WPS Section=============== */
++/*	For WPSv1.0 */
++#define WPSOUI							0x0050f204
++/*	WPS attribute ID */
++#define WPS_ATTR_VER1					0x104A
++#define WPS_ATTR_SIMPLE_CONF_STATE	0x1044
++#define WPS_ATTR_RESP_TYPE			0x103B
++#define WPS_ATTR_UUID_E				0x1047
++#define WPS_ATTR_MANUFACTURER		0x1021
++#define WPS_ATTR_MODEL_NAME			0x1023
++#define WPS_ATTR_MODEL_NUMBER		0x1024
++#define WPS_ATTR_SERIAL_NUMBER		0x1042
++#define WPS_ATTR_PRIMARY_DEV_TYPE	0x1054
++#define WPS_ATTR_SEC_DEV_TYPE_LIST	0x1055
++#define WPS_ATTR_DEVICE_NAME			0x1011
++#define WPS_ATTR_CONF_METHOD			0x1008
++#define WPS_ATTR_RF_BANDS				0x103C
++#define WPS_ATTR_DEVICE_PWID			0x1012
++#define WPS_ATTR_REQUEST_TYPE			0x103A
++#define WPS_ATTR_ASSOCIATION_STATE	0x1002
++#define WPS_ATTR_CONFIG_ERROR			0x1009
++#define WPS_ATTR_VENDOR_EXT			0x1049
++#define WPS_ATTR_SELECTED_REGISTRAR	0x1041
++
++/*	Value of WPS attribute "WPS_ATTR_DEVICE_NAME */
++#define WPS_MAX_DEVICE_NAME_LEN		32
++
++/*	Value of WPS Request Type Attribute */
++#define WPS_REQ_TYPE_ENROLLEE_INFO_ONLY			0x00
++#define WPS_REQ_TYPE_ENROLLEE_OPEN_8021X		0x01
++#define WPS_REQ_TYPE_REGISTRAR					0x02
++#define WPS_REQ_TYPE_WLAN_MANAGER_REGISTRAR	0x03
++
++/*	Value of WPS Response Type Attribute */
++#define WPS_RESPONSE_TYPE_INFO_ONLY	0x00
++#define WPS_RESPONSE_TYPE_8021X		0x01
++#define WPS_RESPONSE_TYPE_REGISTRAR	0x02
++#define WPS_RESPONSE_TYPE_AP			0x03
++
++/*	Value of WPS WiFi Simple Configuration State Attribute */
++#define WPS_WSC_STATE_NOT_CONFIG	0x01
++#define WPS_WSC_STATE_CONFIG			0x02
++
++/*	Value of WPS Version Attribute */
++#define WPS_VERSION_1					0x10
++
++/*	Value of WPS Configuration Method Attribute */
++#define WPS_CONFIG_METHOD_FLASH		0x0001
++#define WPS_CONFIG_METHOD_ETHERNET	0x0002
++#define WPS_CONFIG_METHOD_LABEL		0x0004
++#define WPS_CONFIG_METHOD_DISPLAY	0x0008
++#define WPS_CONFIG_METHOD_E_NFC		0x0010
++#define WPS_CONFIG_METHOD_I_NFC		0x0020
++#define WPS_CONFIG_METHOD_NFC		0x0040
++#define WPS_CONFIG_METHOD_PBC		0x0080
++#define WPS_CONFIG_METHOD_KEYPAD	0x0100
++#define WPS_CONFIG_METHOD_VPBC		0x0280
++#define WPS_CONFIG_METHOD_PPBC		0x0480
++#define WPS_CONFIG_METHOD_VDISPLAY	0x2008
++#define WPS_CONFIG_METHOD_PDISPLAY	0x4008
++
++/*	Value of Category ID of WPS Primary Device Type Attribute */
++#define WPS_PDT_CID_DISPLAYS			0x0007
++#define WPS_PDT_CID_MULIT_MEDIA		0x0008
++#define WPS_PDT_CID_RTK_WIDI			WPS_PDT_CID_MULIT_MEDIA
++
++/*	Value of Sub Category ID of WPS Primary Device Type Attribute */
++#define WPS_PDT_SCID_MEDIA_SERVER	0x0005
++#define WPS_PDT_SCID_RTK_DMP			WPS_PDT_SCID_MEDIA_SERVER
++
++/*	Value of Device Password ID */
++#define WPS_DPID_PIN					0x0000
++#define WPS_DPID_USER_SPEC			0x0001
++#define WPS_DPID_MACHINE_SPEC			0x0002
++#define WPS_DPID_REKEY					0x0003
++#define WPS_DPID_PBC					0x0004
++#define WPS_DPID_REGISTRAR_SPEC		0x0005
++
++/*	Value of WPS RF Bands Attribute */
++#define WPS_RF_BANDS_2_4_GHZ		0x01
++#define WPS_RF_BANDS_5_GHZ		0x02
++
++/*	Value of WPS Association State Attribute */
++#define WPS_ASSOC_STATE_NOT_ASSOCIATED			0x00
++#define WPS_ASSOC_STATE_CONNECTION_SUCCESS		0x01
++#define WPS_ASSOC_STATE_CONFIGURATION_FAILURE	0x02
++#define WPS_ASSOC_STATE_ASSOCIATION_FAILURE		0x03
++#define WPS_ASSOC_STATE_IP_FAILURE				0x04
++
++/*	=====================P2P Section===================== */
++/*	For P2P */
++#define	P2POUI							0x506F9A09
++
++/*	P2P Attribute ID */
++#define	P2P_ATTR_STATUS					0x00
++#define	P2P_ATTR_MINOR_REASON_CODE		0x01
++#define	P2P_ATTR_CAPABILITY				0x02
++#define	P2P_ATTR_DEVICE_ID				0x03
++#define	P2P_ATTR_GO_INTENT				0x04
++#define	P2P_ATTR_CONF_TIMEOUT			0x05
++#define	P2P_ATTR_LISTEN_CH				0x06
++#define	P2P_ATTR_GROUP_BSSID				0x07
++#define	P2P_ATTR_EX_LISTEN_TIMING		0x08
++#define	P2P_ATTR_INTENTED_IF_ADDR		0x09
++#define	P2P_ATTR_MANAGEABILITY			0x0A
++#define	P2P_ATTR_CH_LIST					0x0B
++#define	P2P_ATTR_NOA						0x0C
++#define	P2P_ATTR_DEVICE_INFO				0x0D
++#define	P2P_ATTR_GROUP_INFO				0x0E
++#define	P2P_ATTR_GROUP_ID					0x0F
++#define	P2P_ATTR_INTERFACE				0x10
++#define	P2P_ATTR_OPERATING_CH			0x11
++#define	P2P_ATTR_INVITATION_FLAGS		0x12
++
++/*	Value of Status Attribute */
++#define	P2P_STATUS_SUCCESS						0x00
++#define	P2P_STATUS_FAIL_INFO_UNAVAILABLE		0x01
++#define	P2P_STATUS_FAIL_INCOMPATIBLE_PARAM		0x02
++#define	P2P_STATUS_FAIL_LIMIT_REACHED			0x03
++#define	P2P_STATUS_FAIL_INVALID_PARAM			0x04
++#define	P2P_STATUS_FAIL_REQUEST_UNABLE			0x05
++#define	P2P_STATUS_FAIL_PREVOUS_PROTO_ERR		0x06
++#define	P2P_STATUS_FAIL_NO_COMMON_CH			0x07
++#define	P2P_STATUS_FAIL_UNKNOWN_P2PGROUP		0x08
++#define	P2P_STATUS_FAIL_BOTH_GOINTENT_15		0x09
++#define	P2P_STATUS_FAIL_INCOMPATIBLE_PROVSION	0x0A
++#define	P2P_STATUS_FAIL_USER_REJECT				0x0B
++
++/*	Value of Inviation Flags Attribute */
++#define	P2P_INVITATION_FLAGS_PERSISTENT			BIT(0)
++
++#define	DMP_P2P_DEVCAP_SUPPORT	(P2P_DEVCAP_SERVICE_DISCOVERY | \
++				 P2P_DEVCAP_CLIENT_DISCOVERABILITY | \
++				 P2P_DEVCAP_CONCURRENT_OPERATION | \
++				 P2P_DEVCAP_INVITATION_PROC)
++
++#define	DMP_P2P_GRPCAP_SUPPORT	(P2P_GRPCAP_INTRABSS)
++
++/*	Value of Device Capability Bitmap */
++#define	P2P_DEVCAP_SERVICE_DISCOVERY		BIT(0)
++#define	P2P_DEVCAP_CLIENT_DISCOVERABILITY	BIT(1)
++#define	P2P_DEVCAP_CONCURRENT_OPERATION	BIT(2)
++#define	P2P_DEVCAP_INFRA_MANAGED			BIT(3)
++#define	P2P_DEVCAP_DEVICE_LIMIT				BIT(4)
++#define	P2P_DEVCAP_INVITATION_PROC			BIT(5)
++
++/*	Value of Group Capability Bitmap */
++#define	P2P_GRPCAP_GO							BIT(0)
++#define	P2P_GRPCAP_PERSISTENT_GROUP			BIT(1)
++#define	P2P_GRPCAP_GROUP_LIMIT				BIT(2)
++#define	P2P_GRPCAP_INTRABSS					BIT(3)
++#define	P2P_GRPCAP_CROSS_CONN				BIT(4)
++#define	P2P_GRPCAP_PERSISTENT_RECONN		BIT(5)
++#define	P2P_GRPCAP_GROUP_FORMATION			BIT(6)
++
++/*	P2P Public Action Frame ( Management Frame ) */
++#define	P2P_PUB_ACTION_ACTION				0x09
++
++/*	P2P Public Action Frame Type */
++#define	P2P_GO_NEGO_REQ						0
++#define	P2P_GO_NEGO_RESP						1
++#define	P2P_GO_NEGO_CONF						2
++#define	P2P_INVIT_REQ							3
++#define	P2P_INVIT_RESP							4
++#define	P2P_DEVDISC_REQ						5
++#define	P2P_DEVDISC_RESP						6
++#define	P2P_PROVISION_DISC_REQ				7
++#define	P2P_PROVISION_DISC_RESP				8
++
++/*	P2P Action Frame Type */
++#define	P2P_NOTICE_OF_ABSENCE	0
++#define	P2P_PRESENCE_REQUEST		1
++#define	P2P_PRESENCE_RESPONSE	2
++#define	P2P_GO_DISC_REQUEST		3
++
++
++#define	P2P_MAX_PERSISTENT_GROUP_NUM		10
++
++#define	P2P_PROVISIONING_SCAN_CNT			3
++
++#define	P2P_WILDCARD_SSID_LEN				7
++
++#define	P2P_FINDPHASE_EX_NONE				0	/* default value, used when: (1)p2p disabed or (2)p2p enabled but only do 1 scan phase */
++#define	P2P_FINDPHASE_EX_FULL				1	/* used when p2p enabled and want to do 1 scan phase and P2P_FINDPHASE_EX_MAX-1 find phase */
++#define	P2P_FINDPHASE_EX_SOCIAL_FIRST		(P2P_FINDPHASE_EX_FULL+1)
++#define	P2P_FINDPHASE_EX_MAX					4
++#define	P2P_FINDPHASE_EX_SOCIAL_LAST		P2P_FINDPHASE_EX_MAX
++
++#define	P2P_PROVISION_TIMEOUT				5000	/*	5 seconds timeout for sending the provision discovery request */
++#define	P2P_CONCURRENT_PROVISION_TIMEOUT	3000	/*	3 seconds timeout for sending the provision discovery request under concurrent mode */
++#define	P2P_GO_NEGO_TIMEOUT					5000	/*	5 seconds timeout for receiving the group negotation response */
++#define	P2P_CONCURRENT_GO_NEGO_TIMEOUT		3000	/*	3 seconds timeout for sending the negotiation request under concurrent mode */
++#define	P2P_TX_PRESCAN_TIMEOUT				100		/*	100ms */
++#define	P2P_INVITE_TIMEOUT					5000	/*	5 seconds timeout for sending the invitation request */
++#define	P2P_CONCURRENT_INVITE_TIMEOUT		3000	/*	3 seconds timeout for sending the invitation request under concurrent mode */
++#define	P2P_RESET_SCAN_CH						25000	/*	25 seconds timeout to reset the scan channel (based on channel plan) */
++#define	P2P_MAX_INTENT						15
++
++#define	P2P_MAX_NOA_NUM						2
++
++/*	WPS Configuration Method */
++#define	WPS_CM_NONE							0x0000
++#define	WPS_CM_LABEL							0x0004
++#define	WPS_CM_DISPLYA						0x0008
++#define	WPS_CM_EXTERNAL_NFC_TOKEN			0x0010
++#define	WPS_CM_INTEGRATED_NFC_TOKEN		0x0020
++#define	WPS_CM_NFC_INTERFACE					0x0040
++#define	WPS_CM_PUSH_BUTTON					0x0080
++#define	WPS_CM_KEYPAD						0x0100
++#define	WPS_CM_SW_PUHS_BUTTON				0x0280
++#define	WPS_CM_HW_PUHS_BUTTON				0x0480
++#define	WPS_CM_SW_DISPLAY_PIN				0x2008
++#define	WPS_CM_LCD_DISPLAY_PIN				0x4008
++
++enum P2P_ROLE {
++	P2P_ROLE_DISABLE = 0,
++	P2P_ROLE_DEVICE = 1,
++	P2P_ROLE_CLIENT = 2,
++	P2P_ROLE_GO = 3
++};
++
++enum P2P_STATE {
++	P2P_STATE_NONE = 0,							/*	P2P disable */
++	P2P_STATE_IDLE = 1,								/*	P2P had enabled and do nothing ,  buddy adapters is linked */
++	P2P_STATE_LISTEN = 2,							/*	In pure listen state */
++	P2P_STATE_SCAN = 3,							/*	In scan phase */
++	P2P_STATE_FIND_PHASE_LISTEN = 4,				/*	In the listen state of find phase */
++	P2P_STATE_FIND_PHASE_SEARCH = 5,				/*	In the search state of find phase */
++	P2P_STATE_TX_PROVISION_DIS_REQ = 6,			/*	In P2P provisioning discovery */
++	P2P_STATE_RX_PROVISION_DIS_RSP = 7,
++	P2P_STATE_RX_PROVISION_DIS_REQ = 8,
++	P2P_STATE_GONEGO_ING = 9,						/*	Doing the group owner negoitation handshake */
++	P2P_STATE_GONEGO_OK = 10,						/*	finish the group negoitation handshake with success */
++	P2P_STATE_GONEGO_FAIL = 11,					/*	finish the group negoitation handshake with failure */
++	P2P_STATE_RECV_INVITE_REQ_MATCH = 12,		/*	receiving the P2P Inviation request and match with the profile. */
++	P2P_STATE_PROVISIONING_ING = 13,				/*	Doing the P2P WPS */
++	P2P_STATE_PROVISIONING_DONE = 14,			/*	Finish the P2P WPS */
++	P2P_STATE_TX_INVITE_REQ = 15,					/*	Transmit the P2P Invitation request */
++	P2P_STATE_RX_INVITE_RESP_OK = 16,				/*	Receiving the P2P Invitation response */
++	P2P_STATE_RECV_INVITE_REQ_DISMATCH = 17,	/*	receiving the P2P Inviation request and dismatch with the profile. */
++	P2P_STATE_RECV_INVITE_REQ_GO = 18,			/*	receiving the P2P Inviation request and this wifi is GO. */
++	P2P_STATE_RECV_INVITE_REQ_JOIN = 19,			/*	receiving the P2P Inviation request to join an existing P2P Group. */
++	P2P_STATE_RX_INVITE_RESP_FAIL = 20,			/*	recveing the P2P Inviation response with failure */
++	P2P_STATE_RX_INFOR_NOREADY = 21,			/* receiving p2p negoitation response with information is not available */
++	P2P_STATE_TX_INFOR_NOREADY = 22,			/* sending p2p negoitation response with information is not available */
++};
++
++enum P2P_WPSINFO {
++	P2P_NO_WPSINFO						= 0,
++	P2P_GOT_WPSINFO_PEER_DISPLAY_PIN	= 1,
++	P2P_GOT_WPSINFO_SELF_DISPLAY_PIN	= 2,
++	P2P_GOT_WPSINFO_PBC					= 3,
++};
++
++#define	P2P_PRIVATE_IOCTL_SET_LEN		64
++
++enum P2P_PROTO_WK_ID {
++	P2P_FIND_PHASE_WK = 0,
++	P2P_RESTORE_STATE_WK = 1,
++	P2P_PRE_TX_PROVDISC_PROCESS_WK = 2,
++	P2P_PRE_TX_NEGOREQ_PROCESS_WK = 3,
++	P2P_PRE_TX_INVITEREQ_PROCESS_WK = 4,
++	P2P_AP_P2P_CH_SWITCH_PROCESS_WK = 5,
++	P2P_RO_CH_WK = 6,
++};
++
++#ifdef CONFIG_P2P_PS
++enum P2P_PS_STATE {
++	P2P_PS_DISABLE = 0,
++	P2P_PS_ENABLE = 1,
++	P2P_PS_SCAN = 2,
++	P2P_PS_SCAN_DONE = 3,
++	P2P_PS_ALLSTASLEEP = 4, /* for P2P GO */
++};
++
++enum P2P_PS_MODE {
++	P2P_PS_NONE = 0,
++	P2P_PS_CTWINDOW = 1,
++	P2P_PS_NOA	 = 2,
++	P2P_PS_MIX = 3, /* CTWindow and NoA */
++};
++#endif /* CONFIG_P2P_PS */
++
++/*	=====================WFD Section=====================
++ *	For Wi-Fi Display */
++#define	WFD_ATTR_DEVICE_INFO			0x00
++#define	WFD_ATTR_ASSOC_BSSID			0x01
++#define	WFD_ATTR_COUPLED_SINK_INFO	0x06
++#define	WFD_ATTR_LOCAL_IP_ADDR		0x08
++#define	WFD_ATTR_SESSION_INFO		0x09
++#define	WFD_ATTR_ALTER_MAC			0x0a
++
++/*	For WFD Device Information Attribute */
++#define	WFD_DEVINFO_SOURCE					0x0000
++#define	WFD_DEVINFO_PSINK					0x0001
++#define	WFD_DEVINFO_SSINK					0x0002
++#define	WFD_DEVINFO_DUAL					0x0003
++
++#define	WFD_DEVINFO_SESSION_AVAIL			0x0010
++#define	WFD_DEVINFO_WSD						0x0040
++#define	WFD_DEVINFO_PC_TDLS					0x0080
++#define	WFD_DEVINFO_HDCP_SUPPORT			0x0100
++
++#ifdef CONFIG_TX_MCAST2UNI
++#define IP_MCAST_MAC(mac)		((mac[0] == 0x01) && (mac[1] == 0x00) && (mac[2] == 0x5e))
++#define ICMPV6_MCAST_MAC(mac)	((mac[0] == 0x33) && (mac[1] == 0x33) && (mac[2] != 0xff))
++#endif /* CONFIG_TX_MCAST2UNI */
++
++#ifdef CONFIG_IOCTL_CFG80211
++/* Regulatroy Domain */
++struct regd_pair_mapping {
++	u16 reg_dmnenum;
++	u16 reg_5ghz_ctl;
++	u16 reg_2ghz_ctl;
++};
++
++struct rtw_regulatory {
++	char alpha2[2];
++	u16 country_code;
++	u16 max_power_level;
++	u32 tp_scale;
++	u16 current_rd;
++	u16 current_rd_ext;
++	int16_t power_limit;
++	struct regd_pair_mapping *regpair;
++};
++#endif
++
++#ifdef CONFIG_WAPI_SUPPORT
++#ifndef IW_AUTH_WAPI_VERSION_1
++#define IW_AUTH_WAPI_VERSION_1		0x00000008
++#endif
++#ifndef IW_AUTH_KEY_MGMT_WAPI_PSK
++#define IW_AUTH_KEY_MGMT_WAPI_PSK	0x04
++#endif
++#ifndef IW_AUTH_WAPI_ENABLED
++#define IW_AUTH_WAPI_ENABLED		0x20
++#endif
++#ifndef IW_ENCODE_ALG_SM4
++#define IW_ENCODE_ALG_SM4			0x20
++#endif
++#endif
++
++#endif /* _WIFI_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/wlan_bssdef.h b/drivers/net/wireless/rtl8812au/include/wlan_bssdef.h
+new file mode 100644
+index 0000000..dd39e0c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/wlan_bssdef.h
+@@ -0,0 +1,690 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __WLAN_BSSDEF_H__
++#define __WLAN_BSSDEF_H__
++
++
++#define MAX_IE_SZ	768
++
++
++#ifdef PLATFORM_LINUX
++
++#define NDIS_802_11_LENGTH_SSID         32
++#define NDIS_802_11_LENGTH_RATES        8
++#define NDIS_802_11_LENGTH_RATES_EX     16
++
++typedef unsigned char   NDIS_802_11_MAC_ADDRESS[6];
++typedef long    		NDIS_802_11_RSSI;           /* in dBm */
++typedef unsigned char   NDIS_802_11_RATES[NDIS_802_11_LENGTH_RATES];        /* Set of 8 data rates */
++typedef unsigned char   NDIS_802_11_RATES_EX[NDIS_802_11_LENGTH_RATES_EX];  /* Set of 16 data rates */
++
++
++typedef  ULONG  NDIS_802_11_KEY_INDEX;
++typedef unsigned long long NDIS_802_11_KEY_RSC;
++
++
++typedef struct _NDIS_802_11_SSID {
++	ULONG  SsidLength;
++	UCHAR  Ssid[32];
++} NDIS_802_11_SSID, *PNDIS_802_11_SSID;
++
++typedef enum _NDIS_802_11_NETWORK_TYPE {
++	Ndis802_11FH,
++	Ndis802_11DS,
++	Ndis802_11OFDM5,
++	Ndis802_11OFDM24,
++	Ndis802_11NetworkTypeMax    /* not a real type, defined as an upper bound */
++} NDIS_802_11_NETWORK_TYPE, *PNDIS_802_11_NETWORK_TYPE;
++
++typedef struct _NDIS_802_11_CONFIGURATION_FH {
++	ULONG           Length;             /* Length of structure */
++	ULONG           HopPattern;         /* As defined by 802.11, MSB set */
++	ULONG           HopSet;             /* to one if non-802.11 */
++	ULONG           DwellTime;          /* units are Kusec */
++} NDIS_802_11_CONFIGURATION_FH, *PNDIS_802_11_CONFIGURATION_FH;
++
++
++/*
++	FW will only save the channel number in DSConfig.
++	ODI Handler will convert the channel number to freq. number.
++*/
++typedef struct _NDIS_802_11_CONFIGURATION {
++	ULONG           Length;             /* Length of structure */
++	ULONG           BeaconPeriod;       /* units are Kusec */
++	ULONG           ATIMWindow;         /* units are Kusec */
++	ULONG           DSConfig;           /* channel number */
++	NDIS_802_11_CONFIGURATION_FH    FHConfig;
++} NDIS_802_11_CONFIGURATION, *PNDIS_802_11_CONFIGURATION;
++
++
++
++typedef enum _NDIS_802_11_NETWORK_INFRASTRUCTURE {
++	Ndis802_11IBSS,
++	Ndis802_11Infrastructure,
++	Ndis802_11AutoUnknown,
++	Ndis802_11InfrastructureMax,     /* Not a real value, defined as upper bound */
++	Ndis802_11APMode,
++	Ndis802_11Monitor,
++} NDIS_802_11_NETWORK_INFRASTRUCTURE, *PNDIS_802_11_NETWORK_INFRASTRUCTURE;
++
++
++
++
++
++typedef struct _NDIS_802_11_FIXED_IEs {
++	UCHAR  Timestamp[8];
++	USHORT  BeaconInterval;
++	USHORT  Capabilities;
++} NDIS_802_11_FIXED_IEs, *PNDIS_802_11_FIXED_IEs;
++
++
++
++typedef struct _NDIS_802_11_VARIABLE_IEs {
++	UCHAR  ElementID;
++	UCHAR  Length;
++	UCHAR  data[1];
++} NDIS_802_11_VARIABLE_IEs, *PNDIS_802_11_VARIABLE_IEs;
++
++
++
++/*
++
++
++
++Length is the 4 bytes multiples of the sume of
++	sizeof (NDIS_802_11_MAC_ADDRESS) + 2 + sizeof (NDIS_802_11_SSID) + sizeof (ULONG)
+++   sizeof (NDIS_802_11_RSSI) + sizeof (NDIS_802_11_NETWORK_TYPE) + sizeof (NDIS_802_11_CONFIGURATION)
+++   sizeof (NDIS_802_11_RATES_EX) + IELength
++
++Except the IELength, all other fields are fixed length. Therefore, we can define a marco to present the
++partial sum.
++
++*/
++#if 0
++typedef struct _NDIS_WLAN_BSSID_EX {
++	ULONG  Length;
++	NDIS_802_11_MAC_ADDRESS  MacAddress;
++	UCHAR  Reserved[2];/* [0]: IS beacon frame, [1]:optimum_antenna=>For antenna diversity; */
++	NDIS_802_11_SSID  Ssid;
++	ULONG  Privacy;
++	NDIS_802_11_RSSI  Rssi;
++	NDIS_802_11_NETWORK_TYPE  NetworkTypeInUse;
++	NDIS_802_11_CONFIGURATION  Configuration;
++	NDIS_802_11_NETWORK_INFRASTRUCTURE  InfrastructureMode;
++	NDIS_802_11_RATES_EX  SupportedRates;
++	ULONG  IELength;
++	UCHAR  IEs[MAX_IE_SZ];	/* (timestamp, beacon interval, and capability information) */
++} NDIS_WLAN_BSSID_EX, *PNDIS_WLAN_BSSID_EX;
++
++
++typedef struct _NDIS_802_11_BSSID_LIST_EX {
++	ULONG  NumberOfItems;
++	NDIS_WLAN_BSSID_EX  Bssid[1];
++} NDIS_802_11_BSSID_LIST_EX, *PNDIS_802_11_BSSID_LIST_EX;
++#endif
++
++typedef enum _NDIS_802_11_AUTHENTICATION_MODE {
++	Ndis802_11AuthModeOpen,
++	Ndis802_11AuthModeShared,
++	Ndis802_11AuthModeAutoSwitch,
++	Ndis802_11AuthModeWPA,
++	Ndis802_11AuthModeWPAPSK,
++	Ndis802_11AuthModeWPANone,
++	Ndis802_11AuthModeWAPI,
++	Ndis802_11AuthModeMax               /* Not a real mode, defined as upper bound */
++} NDIS_802_11_AUTHENTICATION_MODE, *PNDIS_802_11_AUTHENTICATION_MODE;
++
++typedef enum _NDIS_802_11_WEP_STATUS {
++	Ndis802_11WEPEnabled,
++	Ndis802_11Encryption1Enabled = Ndis802_11WEPEnabled,
++	Ndis802_11WEPDisabled,
++	Ndis802_11EncryptionDisabled = Ndis802_11WEPDisabled,
++	Ndis802_11WEPKeyAbsent,
++	Ndis802_11Encryption1KeyAbsent = Ndis802_11WEPKeyAbsent,
++	Ndis802_11WEPNotSupported,
++	Ndis802_11EncryptionNotSupported = Ndis802_11WEPNotSupported,
++	Ndis802_11Encryption2Enabled,
++	Ndis802_11Encryption2KeyAbsent,
++	Ndis802_11Encryption3Enabled,
++	Ndis802_11Encryption3KeyAbsent,
++	Ndis802_11_EncrypteionWAPI
++} NDIS_802_11_WEP_STATUS, *PNDIS_802_11_WEP_STATUS,
++NDIS_802_11_ENCRYPTION_STATUS, *PNDIS_802_11_ENCRYPTION_STATUS;
++
++
++#define NDIS_802_11_AI_REQFI_CAPABILITIES      1
++#define NDIS_802_11_AI_REQFI_LISTENINTERVAL    2
++#define NDIS_802_11_AI_REQFI_CURRENTAPADDRESS  4
++
++#define NDIS_802_11_AI_RESFI_CAPABILITIES      1
++#define NDIS_802_11_AI_RESFI_STATUSCODE        2
++#define NDIS_802_11_AI_RESFI_ASSOCIATIONID     4
++
++typedef struct _NDIS_802_11_AI_REQFI {
++	USHORT Capabilities;
++	USHORT ListenInterval;
++	NDIS_802_11_MAC_ADDRESS  CurrentAPAddress;
++} NDIS_802_11_AI_REQFI, *PNDIS_802_11_AI_REQFI;
++
++typedef struct _NDIS_802_11_AI_RESFI {
++	USHORT Capabilities;
++	USHORT StatusCode;
++	USHORT AssociationId;
++} NDIS_802_11_AI_RESFI, *PNDIS_802_11_AI_RESFI;
++
++typedef struct _NDIS_802_11_ASSOCIATION_INFORMATION {
++	ULONG                   Length;
++	USHORT                  AvailableRequestFixedIEs;
++	NDIS_802_11_AI_REQFI    RequestFixedIEs;
++	ULONG                   RequestIELength;
++	ULONG                   OffsetRequestIEs;
++	USHORT                  AvailableResponseFixedIEs;
++	NDIS_802_11_AI_RESFI    ResponseFixedIEs;
++	ULONG                   ResponseIELength;
++	ULONG                   OffsetResponseIEs;
++} NDIS_802_11_ASSOCIATION_INFORMATION, *PNDIS_802_11_ASSOCIATION_INFORMATION;
++
++typedef enum _NDIS_802_11_RELOAD_DEFAULTS {
++	Ndis802_11ReloadWEPKeys
++} NDIS_802_11_RELOAD_DEFAULTS, *PNDIS_802_11_RELOAD_DEFAULTS;
++
++
++/* Key mapping keys require a BSSID */
++typedef struct _NDIS_802_11_KEY {
++	ULONG           Length;             /* Length of this structure */
++	ULONG           KeyIndex;
++	ULONG           KeyLength;          /* length of key in bytes */
++	NDIS_802_11_MAC_ADDRESS BSSID;
++	NDIS_802_11_KEY_RSC KeyRSC;
++	UCHAR           KeyMaterial[32];     /* variable length depending on above field */
++} NDIS_802_11_KEY, *PNDIS_802_11_KEY;
++
++typedef struct _NDIS_802_11_REMOVE_KEY {
++	ULONG                   Length;        /* Length of this structure */
++	ULONG                   KeyIndex;
++	NDIS_802_11_MAC_ADDRESS BSSID;
++} NDIS_802_11_REMOVE_KEY, *PNDIS_802_11_REMOVE_KEY;
++
++typedef struct _NDIS_802_11_WEP {
++	ULONG     Length;        /* Length of this structure */
++	ULONG     KeyIndex;      /* 0 is the per-client key, 1-N are the global keys */
++	ULONG     KeyLength;     /* length of key in bytes */
++	UCHAR     KeyMaterial[16];/* variable length depending on above field */
++} NDIS_802_11_WEP, *PNDIS_802_11_WEP;
++
++typedef struct _NDIS_802_11_AUTHENTICATION_REQUEST {
++	ULONG Length;            /* Length of structure */
++	NDIS_802_11_MAC_ADDRESS Bssid;
++	ULONG Flags;
++} NDIS_802_11_AUTHENTICATION_REQUEST, *PNDIS_802_11_AUTHENTICATION_REQUEST;
++
++typedef enum _NDIS_802_11_STATUS_TYPE {
++	Ndis802_11StatusType_Authentication,
++	Ndis802_11StatusType_MediaStreamMode,
++	Ndis802_11StatusType_PMKID_CandidateList,
++	Ndis802_11StatusTypeMax    /* not a real type, defined as an upper bound */
++} NDIS_802_11_STATUS_TYPE, *PNDIS_802_11_STATUS_TYPE;
++
++typedef struct _NDIS_802_11_STATUS_INDICATION {
++	NDIS_802_11_STATUS_TYPE StatusType;
++} NDIS_802_11_STATUS_INDICATION, *PNDIS_802_11_STATUS_INDICATION;
++
++/* mask for authentication/integrity fields */
++#define NDIS_802_11_AUTH_REQUEST_AUTH_FIELDS        0x0f
++#define NDIS_802_11_AUTH_REQUEST_REAUTH			0x01
++#define NDIS_802_11_AUTH_REQUEST_KEYUPDATE		0x02
++#define NDIS_802_11_AUTH_REQUEST_PAIRWISE_ERROR		0x06
++#define NDIS_802_11_AUTH_REQUEST_GROUP_ERROR		0x0E
++
++/* MIC check time, 60 seconds. */
++#define MIC_CHECK_TIME	60000000
++
++typedef struct _NDIS_802_11_AUTHENTICATION_EVENT {
++	NDIS_802_11_STATUS_INDICATION       Status;
++	NDIS_802_11_AUTHENTICATION_REQUEST  Request[1];
++} NDIS_802_11_AUTHENTICATION_EVENT, *PNDIS_802_11_AUTHENTICATION_EVENT;
++
++typedef struct _NDIS_802_11_TEST {
++	ULONG Length;
++	ULONG Type;
++	union {
++		NDIS_802_11_AUTHENTICATION_EVENT AuthenticationEvent;
++		NDIS_802_11_RSSI RssiTrigger;
++	} tt;
++} NDIS_802_11_TEST, *PNDIS_802_11_TEST;
++
++
++#endif /* end of #ifdef PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++
++#define NDIS_802_11_LENGTH_SSID         32
++#define NDIS_802_11_LENGTH_RATES        8
++#define NDIS_802_11_LENGTH_RATES_EX     16
++
++typedef unsigned char   NDIS_802_11_MAC_ADDRESS[6];
++typedef long    		NDIS_802_11_RSSI;           /* in dBm */
++typedef unsigned char   NDIS_802_11_RATES[NDIS_802_11_LENGTH_RATES];        /* Set of 8 data rates */
++typedef unsigned char   NDIS_802_11_RATES_EX[NDIS_802_11_LENGTH_RATES_EX];  /* Set of 16 data rates */
++
++
++typedef  ULONG  NDIS_802_11_KEY_INDEX;
++typedef unsigned long long NDIS_802_11_KEY_RSC;
++
++
++typedef struct _NDIS_802_11_SSID {
++	ULONG  SsidLength;
++	UCHAR  Ssid[32];
++} NDIS_802_11_SSID, *PNDIS_802_11_SSID;
++
++typedef enum _NDIS_802_11_NETWORK_TYPE {
++	Ndis802_11FH,
++	Ndis802_11DS,
++	Ndis802_11OFDM5,
++	Ndis802_11OFDM24,
++	Ndis802_11NetworkTypeMax    /* not a real type, defined as an upper bound */
++} NDIS_802_11_NETWORK_TYPE, *PNDIS_802_11_NETWORK_TYPE;
++
++typedef struct _NDIS_802_11_CONFIGURATION_FH {
++	ULONG           Length;             /* Length of structure */
++	ULONG           HopPattern;         /* As defined by 802.11, MSB set */
++	ULONG           HopSet;             /* to one if non-802.11 */
++	ULONG           DwellTime;          /* units are Kusec */
++} NDIS_802_11_CONFIGURATION_FH, *PNDIS_802_11_CONFIGURATION_FH;
++
++
++/*
++	FW will only save the channel number in DSConfig.
++	ODI Handler will convert the channel number to freq. number.
++*/
++typedef struct _NDIS_802_11_CONFIGURATION {
++	ULONG           Length;             /* Length of structure */
++	ULONG           BeaconPeriod;       /* units are Kusec */
++	ULONG           ATIMWindow;         /* units are Kusec */
++	ULONG           DSConfig;           /* channel number */
++	NDIS_802_11_CONFIGURATION_FH    FHConfig;
++} NDIS_802_11_CONFIGURATION, *PNDIS_802_11_CONFIGURATION;
++
++
++
++typedef enum _NDIS_802_11_NETWORK_INFRASTRUCTURE {
++	Ndis802_11IBSS,
++	Ndis802_11Infrastructure,
++	Ndis802_11AutoUnknown,
++	Ndis802_11InfrastructureMax,     /* Not a real value, defined as upper bound */
++	Ndis802_11APMode
++} NDIS_802_11_NETWORK_INFRASTRUCTURE, *PNDIS_802_11_NETWORK_INFRASTRUCTURE;
++
++
++
++
++
++typedef struct _NDIS_802_11_FIXED_IEs {
++	UCHAR  Timestamp[8];
++	USHORT  BeaconInterval;
++	USHORT  Capabilities;
++} NDIS_802_11_FIXED_IEs, *PNDIS_802_11_FIXED_IEs;
++
++
++
++typedef struct _NDIS_802_11_VARIABLE_IEs {
++	UCHAR  ElementID;
++	UCHAR  Length;
++	UCHAR  data[1];
++} NDIS_802_11_VARIABLE_IEs, *PNDIS_802_11_VARIABLE_IEs;
++
++
++
++/*
++
++
++
++Length is the 4 bytes multiples of the sume of
++	sizeof (NDIS_802_11_MAC_ADDRESS) + 2 + sizeof (NDIS_802_11_SSID) + sizeof (ULONG)
+++   sizeof (NDIS_802_11_RSSI) + sizeof (NDIS_802_11_NETWORK_TYPE) + sizeof (NDIS_802_11_CONFIGURATION)
+++   sizeof (NDIS_802_11_RATES_EX) + IELength
++
++Except the IELength, all other fields are fixed length. Therefore, we can define a marco to present the
++partial sum.
++
++*/
++#if 0
++typedef struct _NDIS_WLAN_BSSID_EX {
++	ULONG  Length;
++	NDIS_802_11_MAC_ADDRESS  MacAddress;
++	UCHAR  Reserved[2];/* [0]: IS beacon frame, [1]:optimum_antenna=>For antenna diversity; */
++	NDIS_802_11_SSID  Ssid;
++	ULONG  Privacy;
++	NDIS_802_11_RSSI  Rssi;
++	NDIS_802_11_NETWORK_TYPE  NetworkTypeInUse;
++	NDIS_802_11_CONFIGURATION  Configuration;
++	NDIS_802_11_NETWORK_INFRASTRUCTURE  InfrastructureMode;
++	NDIS_802_11_RATES_EX  SupportedRates;
++	ULONG  IELength;
++	UCHAR  IEs[MAX_IE_SZ];	/* (timestamp, beacon interval, and capability information) */
++} NDIS_WLAN_BSSID_EX, *PNDIS_WLAN_BSSID_EX;
++
++
++typedef struct _NDIS_802_11_BSSID_LIST_EX {
++	ULONG  NumberOfItems;
++	NDIS_WLAN_BSSID_EX  Bssid[1];
++} NDIS_802_11_BSSID_LIST_EX, *PNDIS_802_11_BSSID_LIST_EX;
++#endif
++
++typedef enum _NDIS_802_11_AUTHENTICATION_MODE {
++	Ndis802_11AuthModeOpen,
++	Ndis802_11AuthModeShared,
++	Ndis802_11AuthModeAutoSwitch,
++	Ndis802_11AuthModeWPA,
++	Ndis802_11AuthModeWPAPSK,
++	Ndis802_11AuthModeWPANone,
++	Ndis802_11AuthModeMax               /* Not a real mode, defined as upper bound */
++} NDIS_802_11_AUTHENTICATION_MODE, *PNDIS_802_11_AUTHENTICATION_MODE;
++
++typedef enum _NDIS_802_11_WEP_STATUS {
++	Ndis802_11WEPEnabled,
++	Ndis802_11Encryption1Enabled = Ndis802_11WEPEnabled,
++	Ndis802_11WEPDisabled,
++	Ndis802_11EncryptionDisabled = Ndis802_11WEPDisabled,
++	Ndis802_11WEPKeyAbsent,
++	Ndis802_11Encryption1KeyAbsent = Ndis802_11WEPKeyAbsent,
++	Ndis802_11WEPNotSupported,
++	Ndis802_11EncryptionNotSupported = Ndis802_11WEPNotSupported,
++	Ndis802_11Encryption2Enabled,
++	Ndis802_11Encryption2KeyAbsent,
++	Ndis802_11Encryption3Enabled,
++	Ndis802_11Encryption3KeyAbsent
++} NDIS_802_11_WEP_STATUS, *PNDIS_802_11_WEP_STATUS,
++NDIS_802_11_ENCRYPTION_STATUS, *PNDIS_802_11_ENCRYPTION_STATUS;
++
++
++#define NDIS_802_11_AI_REQFI_CAPABILITIES      1
++#define NDIS_802_11_AI_REQFI_LISTENINTERVAL    2
++#define NDIS_802_11_AI_REQFI_CURRENTAPADDRESS  4
++
++#define NDIS_802_11_AI_RESFI_CAPABILITIES      1
++#define NDIS_802_11_AI_RESFI_STATUSCODE        2
++#define NDIS_802_11_AI_RESFI_ASSOCIATIONID     4
++
++typedef struct _NDIS_802_11_AI_REQFI {
++	USHORT Capabilities;
++	USHORT ListenInterval;
++	NDIS_802_11_MAC_ADDRESS  CurrentAPAddress;
++} NDIS_802_11_AI_REQFI, *PNDIS_802_11_AI_REQFI;
++
++typedef struct _NDIS_802_11_AI_RESFI {
++	USHORT Capabilities;
++	USHORT StatusCode;
++	USHORT AssociationId;
++} NDIS_802_11_AI_RESFI, *PNDIS_802_11_AI_RESFI;
++
++typedef struct _NDIS_802_11_ASSOCIATION_INFORMATION {
++	ULONG                   Length;
++	USHORT                  AvailableRequestFixedIEs;
++	NDIS_802_11_AI_REQFI    RequestFixedIEs;
++	ULONG                   RequestIELength;
++	ULONG                   OffsetRequestIEs;
++	USHORT                  AvailableResponseFixedIEs;
++	NDIS_802_11_AI_RESFI    ResponseFixedIEs;
++	ULONG                   ResponseIELength;
++	ULONG                   OffsetResponseIEs;
++} NDIS_802_11_ASSOCIATION_INFORMATION, *PNDIS_802_11_ASSOCIATION_INFORMATION;
++
++typedef enum _NDIS_802_11_RELOAD_DEFAULTS {
++	Ndis802_11ReloadWEPKeys
++} NDIS_802_11_RELOAD_DEFAULTS, *PNDIS_802_11_RELOAD_DEFAULTS;
++
++
++/* Key mapping keys require a BSSID */
++typedef struct _NDIS_802_11_KEY {
++	ULONG           Length;             /* Length of this structure */
++	ULONG           KeyIndex;
++	ULONG           KeyLength;          /* length of key in bytes */
++	NDIS_802_11_MAC_ADDRESS BSSID;
++	NDIS_802_11_KEY_RSC KeyRSC;
++	UCHAR           KeyMaterial[32];     /* variable length depending on above field */
++} NDIS_802_11_KEY, *PNDIS_802_11_KEY;
++
++typedef struct _NDIS_802_11_REMOVE_KEY {
++	ULONG                   Length;        /* Length of this structure */
++	ULONG                   KeyIndex;
++	NDIS_802_11_MAC_ADDRESS BSSID;
++} NDIS_802_11_REMOVE_KEY, *PNDIS_802_11_REMOVE_KEY;
++
++typedef struct _NDIS_802_11_WEP {
++	ULONG     Length;        /* Length of this structure */
++	ULONG     KeyIndex;      /* 0 is the per-client key, 1-N are the global keys */
++	ULONG     KeyLength;     /* length of key in bytes */
++	UCHAR     KeyMaterial[16];/* variable length depending on above field */
++} NDIS_802_11_WEP, *PNDIS_802_11_WEP;
++
++typedef struct _NDIS_802_11_AUTHENTICATION_REQUEST {
++	ULONG Length;            /* Length of structure */
++	NDIS_802_11_MAC_ADDRESS Bssid;
++	ULONG Flags;
++} NDIS_802_11_AUTHENTICATION_REQUEST, *PNDIS_802_11_AUTHENTICATION_REQUEST;
++
++typedef enum _NDIS_802_11_STATUS_TYPE {
++	Ndis802_11StatusType_Authentication,
++	Ndis802_11StatusType_MediaStreamMode,
++	Ndis802_11StatusType_PMKID_CandidateList,
++	Ndis802_11StatusTypeMax    /* not a real type, defined as an upper bound */
++} NDIS_802_11_STATUS_TYPE, *PNDIS_802_11_STATUS_TYPE;
++
++typedef struct _NDIS_802_11_STATUS_INDICATION {
++	NDIS_802_11_STATUS_TYPE StatusType;
++} NDIS_802_11_STATUS_INDICATION, *PNDIS_802_11_STATUS_INDICATION;
++
++/* mask for authentication/integrity fields */
++#define NDIS_802_11_AUTH_REQUEST_AUTH_FIELDS        0x0f
++#define NDIS_802_11_AUTH_REQUEST_REAUTH			0x01
++#define NDIS_802_11_AUTH_REQUEST_KEYUPDATE		0x02
++#define NDIS_802_11_AUTH_REQUEST_PAIRWISE_ERROR		0x06
++#define NDIS_802_11_AUTH_REQUEST_GROUP_ERROR		0x0E
++
++/* MIC check time, 60 seconds. */
++#define MIC_CHECK_TIME	60000000
++
++typedef struct _NDIS_802_11_AUTHENTICATION_EVENT {
++	NDIS_802_11_STATUS_INDICATION       Status;
++	NDIS_802_11_AUTHENTICATION_REQUEST  Request[1];
++} NDIS_802_11_AUTHENTICATION_EVENT, *PNDIS_802_11_AUTHENTICATION_EVENT;
++
++typedef struct _NDIS_802_11_TEST {
++	ULONG Length;
++	ULONG Type;
++	union {
++		NDIS_802_11_AUTHENTICATION_EVENT AuthenticationEvent;
++		NDIS_802_11_RSSI RssiTrigger;
++	} tt;
++} NDIS_802_11_TEST, *PNDIS_802_11_TEST;
++
++
++#endif /* PLATFORM_FREEBSD */
++#ifndef Ndis802_11APMode
++#define Ndis802_11APMode (Ndis802_11InfrastructureMax+1)
++#endif
++
++typedef struct _WLAN_PHY_INFO {
++	u8	SignalStrength;/* (in percentage) */
++	u8	SignalQuality;/* (in percentage) */
++	u8	Optimum_antenna;  /* for Antenna diversity */
++	u8	Reserved_0;
++} WLAN_PHY_INFO, *PWLAN_PHY_INFO;
++
++typedef struct _WLAN_BCN_INFO {
++	/* these infor get from rtw_get_encrypt_info when
++	 *	 * translate scan to UI */
++	u8 encryp_protocol;/* ENCRYP_PROTOCOL_E: OPEN/WEP/WPA/WPA2/WAPI */
++	int group_cipher; /* WPA/WPA2 group cipher */
++	int pairwise_cipher;/* //WPA/WPA2/WEP pairwise cipher */
++	int is_8021x;
++
++	/* bwmode 20/40 and ch_offset UP/LOW */
++	unsigned short	ht_cap_info;
++	unsigned char	ht_info_infos_0;
++} WLAN_BCN_INFO, *PWLAN_BCN_INFO;
++
++/* temporally add #pragma pack for structure alignment issue of
++*   WLAN_BSSID_EX and get_WLAN_BSSID_EX_sz()
++*/
++#ifdef PLATFORM_WINDOWS
++#pragma pack(push)
++#pragma pack(1)
++#endif
++typedef struct _WLAN_BSSID_EX {
++	ULONG  Length;
++	NDIS_802_11_MAC_ADDRESS  MacAddress;
++	UCHAR  Reserved[2];/* [0]: IS beacon frame */
++	NDIS_802_11_SSID  Ssid;
++	ULONG  Privacy;
++	NDIS_802_11_RSSI  Rssi;/* (in dBM,raw data ,get from PHY) */
++	NDIS_802_11_NETWORK_TYPE  NetworkTypeInUse;
++	NDIS_802_11_CONFIGURATION  Configuration;
++	NDIS_802_11_NETWORK_INFRASTRUCTURE  InfrastructureMode;
++	NDIS_802_11_RATES_EX  SupportedRates;
++	WLAN_PHY_INFO	PhyInfo;
++	ULONG  IELength;
++	UCHAR  IEs[MAX_IE_SZ];	/* (timestamp, beacon interval, and capability information) */
++}
++#ifndef PLATFORM_WINDOWS
++__attribute__((packed))
++#endif
++WLAN_BSSID_EX, *PWLAN_BSSID_EX;
++#ifdef PLATFORM_WINDOWS
++#pragma pack(pop)
++#endif
++
++#define BSS_EX_IES(bss_ex) ((bss_ex)->IEs)
++#define BSS_EX_IES_LEN(bss_ex) ((bss_ex)->IELength)
++#define BSS_EX_FIXED_IE_OFFSET(bss_ex) ((bss_ex)->Reserved[0] == 2 ? 0 : 12)
++#define BSS_EX_TLV_IES(bss_ex) (BSS_EX_IES((bss_ex)) + BSS_EX_FIXED_IE_OFFSET((bss_ex)))
++#define BSS_EX_TLV_IES_LEN(bss_ex) (BSS_EX_IES_LEN((bss_ex)) - BSS_EX_FIXED_IE_OFFSET((bss_ex)))
++
++__inline  static uint get_WLAN_BSSID_EX_sz(WLAN_BSSID_EX *bss)
++{
++#if 0
++	uint t_len;
++
++	t_len = sizeof(ULONG)
++		+ sizeof(NDIS_802_11_MAC_ADDRESS)
++		+ 2
++		+ sizeof(NDIS_802_11_SSID)
++		+ sizeof(ULONG)
++		+ sizeof(NDIS_802_11_RSSI)
++		+ sizeof(NDIS_802_11_NETWORK_TYPE)
++		+ sizeof(NDIS_802_11_CONFIGURATION)
++		+ sizeof(NDIS_802_11_NETWORK_INFRASTRUCTURE)
++		+ sizeof(NDIS_802_11_RATES_EX)
++		/* all new member add here */
++		+ sizeof(WLAN_PHY_INFO)
++		/* all new member add here */
++		+ sizeof(ULONG)
++		+ bss->IELength;
++	return t_len;
++#else
++	return sizeof(WLAN_BSSID_EX) - MAX_IE_SZ + bss->IELength;
++#endif
++}
++
++struct	wlan_network {
++	_list	list;
++	int	network_type;	/* refer to ieee80211.h for WIRELESS_11A/B/G */
++	int	fixed;			/* set to fixed when not to be removed as site-surveying */
++	unsigned long	last_scanned; /* timestamp for the network */
++	int	aid;			/* will only be valid when a BSS is joinned. */
++	int	join_res;
++	WLAN_BSSID_EX	network; /* must be the last item */
++	WLAN_BCN_INFO	BcnInfo;
++#ifdef PLATFORM_WINDOWS
++	unsigned char  iebuf[MAX_IE_SZ];
++#endif
++
++};
++
++enum VRTL_CARRIER_SENSE {
++	DISABLE_VCS,
++	ENABLE_VCS,
++	AUTO_VCS
++};
++
++enum VCS_TYPE {
++	NONE_VCS,
++	RTS_CTS,
++	CTS_TO_SELF
++};
++
++
++
++
++#define PWR_CAM 0
++#define PWR_MINPS 1
++#define PWR_MAXPS 2
++#define PWR_UAPSD 3
++#define PWR_VOIP 4
++
++
++enum UAPSD_MAX_SP {
++	NO_LIMIT,
++	TWO_MSDU,
++	FOUR_MSDU,
++	SIX_MSDU
++};
++
++
++/* john */
++#define NUM_PRE_AUTH_KEY 16
++#define NUM_PMKID_CACHE NUM_PRE_AUTH_KEY
++
++/*
++*	WPA2
++*/
++
++#ifndef PLATFORM_OS_CE
++typedef struct _PMKID_CANDIDATE {
++	NDIS_802_11_MAC_ADDRESS BSSID;
++	ULONG Flags;
++} PMKID_CANDIDATE, *PPMKID_CANDIDATE;
++
++typedef struct _NDIS_802_11_PMKID_CANDIDATE_LIST {
++	ULONG Version;       /* Version of the structure */
++	ULONG NumCandidates; /* No. of pmkid candidates */
++	PMKID_CANDIDATE CandidateList[1];
++} NDIS_802_11_PMKID_CANDIDATE_LIST, *PNDIS_802_11_PMKID_CANDIDATE_LIST;
++
++
++typedef struct _NDIS_802_11_AUTHENTICATION_ENCRYPTION {
++	NDIS_802_11_AUTHENTICATION_MODE AuthModeSupported;
++	NDIS_802_11_ENCRYPTION_STATUS EncryptStatusSupported;
++
++} NDIS_802_11_AUTHENTICATION_ENCRYPTION, *PNDIS_802_11_AUTHENTICATION_ENCRYPTION;
++
++typedef struct _NDIS_802_11_CAPABILITY {
++	ULONG  Length;
++	ULONG  Version;
++	ULONG  NoOfPMKIDs;
++	ULONG  NoOfAuthEncryptPairsSupported;
++	NDIS_802_11_AUTHENTICATION_ENCRYPTION AuthenticationEncryptionSupported[1];
++
++} NDIS_802_11_CAPABILITY, *PNDIS_802_11_CAPABILITY;
++#endif
++
++
++#endif /* #ifndef WLAN_BSSDEF_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/include/xmit_osdep.h b/drivers/net/wireless/rtl8812au/include/xmit_osdep.h
+new file mode 100644
+index 0000000..ea5725d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/include/xmit_osdep.h
+@@ -0,0 +1,99 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __XMIT_OSDEP_H_
++#define __XMIT_OSDEP_H_
++
++
++struct pkt_file {
++	_pkt *pkt;
++	SIZE_T pkt_len;	 /* the remainder length of the open_file */
++	_buffer *cur_buffer;
++	u8 *buf_start;
++	u8 *cur_addr;
++	SIZE_T buf_len;
++};
++
++#ifdef PLATFORM_WINDOWS
++
++#ifdef PLATFORM_OS_XP
++#ifdef CONFIG_USB_HCI
++#include <usb.h>
++#include <usbdlib.h>
++#include <usbioctl.h>
++#endif
++#endif
++
++#ifdef CONFIG_GSPI_HCI
++	#define NR_XMITFRAME     64
++#else
++	#define NR_XMITFRAME     128
++#endif
++
++#define ETH_ALEN	6
++
++extern NDIS_STATUS rtw_xmit_entry(
++	IN _nic_hdl		cnxt,
++	IN NDIS_PACKET		*pkt,
++	IN UINT				flags
++);
++
++#endif /* PLATFORM_WINDOWS */
++
++#ifdef PLATFORM_FREEBSD
++#define NR_XMITFRAME	256
++extern int rtw_xmit_entry(_pkt *pkt, _nic_hdl pnetdev);
++extern void rtw_xmit_entry_wrap(struct ifnet *pifp);
++#endif /* PLATFORM_FREEBSD */
++
++#ifdef PLATFORM_LINUX
++
++#define NR_XMITFRAME	256
++
++struct xmit_priv;
++struct pkt_attrib;
++struct sta_xmit_priv;
++struct xmit_frame;
++struct xmit_buf;
++
++extern int _rtw_xmit_entry(_pkt *pkt, _nic_hdl pnetdev);
++extern int rtw_xmit_entry(_pkt *pkt, _nic_hdl pnetdev);
++
++#endif /* PLATFORM_LINUX */
++
++void rtw_os_xmit_schedule(_adapter *padapter);
++
++int rtw_os_xmit_resource_alloc(_adapter *padapter, struct xmit_buf *pxmitbuf, u32 alloc_sz, u8 flag);
++void rtw_os_xmit_resource_free(_adapter *padapter, struct xmit_buf *pxmitbuf, u32 free_sz, u8 flag);
++
++extern void rtw_set_tx_chksum_offload(_pkt *pkt, struct pkt_attrib *pattrib);
++
++extern uint rtw_remainder_len(struct pkt_file *pfile);
++extern void _rtw_open_pktfile(_pkt *pkt, struct pkt_file *pfile);
++extern uint _rtw_pktfile_read(struct pkt_file *pfile, u8 *rmem, uint rlen);
++extern sint rtw_endofpktfile(struct pkt_file *pfile);
++
++extern void rtw_os_pkt_complete(_adapter *padapter, _pkt *pkt);
++extern void rtw_os_xmit_complete(_adapter *padapter, struct xmit_frame *pxframe);
++
++void rtw_os_wake_queue_at_free_stainfo(_adapter *padapter, int *qcnt_freed);
++
++void dump_os_queue(void *sel, _adapter *padapter);
++
++#endif /* __XMIT_OSDEP_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/custom_gpio_linux.c b/drivers/net/wireless/rtl8812au/os_dep/linux/custom_gpio_linux.c
+new file mode 100644
+index 0000000..4f10bbe
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/custom_gpio_linux.c
+@@ -0,0 +1,346 @@
++/******************************************************************************
++ * Customer code to add GPIO control during WLAN start/stop
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#include "drv_types.h"
++
++#ifdef CONFIG_PLATFORM_SPRD
++
++/* gspi func & GPIO define */
++#include <mach/gpio.h>/* 0915 */
++#include <mach/board.h>
++
++#if !(defined ANDROID_2X)
++
++#ifdef CONFIG_RTL8188E
++#include <mach/regulator.h>
++#include <linux/regulator/consumer.h>
++#endif /* CONFIG_RTL8188E */
++
++#ifndef GPIO_WIFI_POWER
++#define GPIO_WIFI_POWER -1
++#endif /* !GPIO_WIFI_POWER */
++
++#ifndef GPIO_WIFI_RESET
++#define GPIO_WIFI_RESET -1
++#endif /* !GPIO_WIFI_RESET */
++
++#ifndef GPIO_WIFI_PWDN
++#define GPIO_WIFI_PWDN -1
++#endif /* !GPIO_WIFI_RESET */
++#ifdef CONFIG_GSPI_HCI
++extern unsigned int oob_irq;
++#endif /* CONFIG_GSPI_HCI */
++
++#ifdef CONFIG_SDIO_HCI
++extern int rtw_mp_mode;
++#else /* !CONFIG_SDIO_HCI */
++#endif /* !CONFIG_SDIO_HCI */
++
++int rtw_wifi_gpio_init(void)
++{
++#ifdef CONFIG_GSPI_HCI
++	if (GPIO_WIFI_IRQ > 0) {
++		gpio_request(GPIO_WIFI_IRQ, "oob_irq");
++		gpio_direction_input(GPIO_WIFI_IRQ);
++
++		oob_irq = gpio_to_irq(GPIO_WIFI_IRQ);
++
++		RTW_INFO("%s oob_irq:%d\n", __func__, oob_irq);
++	}
++#endif
++	if (GPIO_WIFI_RESET > 0)
++		gpio_request(GPIO_WIFI_RESET , "wifi_rst");
++	if (GPIO_WIFI_POWER > 0)
++		gpio_request(GPIO_WIFI_POWER, "wifi_power");
++
++#ifdef CONFIG_SDIO_HCI
++#if (defined(CONFIG_RTL8723B)) && (MP_DRIVER == 1)
++	if (rtw_mp_mode == 1) {
++		RTW_INFO("%s GPIO_BT_RESET pin special for mp_test\n", __func__);
++		if (GPIO_BT_RESET > 0)
++			gpio_request(GPIO_BT_RESET , "bt_rst");
++	}
++#endif
++#endif
++	return 0;
++}
++
++int rtw_wifi_gpio_deinit(void)
++{
++#ifdef CONFIG_GSPI_HCI
++	if (GPIO_WIFI_IRQ > 0)
++		gpio_free(GPIO_WIFI_IRQ);
++#endif
++	if (GPIO_WIFI_RESET > 0)
++		gpio_free(GPIO_WIFI_RESET);
++	if (GPIO_WIFI_POWER > 0)
++		gpio_free(GPIO_WIFI_POWER);
++
++#ifdef CONFIG_SDIO_HCI
++#if (defined(CONFIG_RTL8723B)) && (MP_DRIVER == 1)
++	if (rtw_mp_mode == 1) {
++		RTW_INFO("%s GPIO_BT_RESET pin special for mp_test\n", __func__);
++		if (GPIO_BT_RESET > 0)
++			gpio_free(GPIO_BT_RESET);
++	}
++#endif
++#endif
++	return 0;
++}
++
++/* Customer function to control hw specific wlan gpios */
++void rtw_wifi_gpio_wlan_ctrl(int onoff)
++{
++	switch (onoff) {
++	case WLAN_PWDN_OFF:
++		RTW_INFO("%s: call customer specific GPIO(%d) to set wifi power down pin to 0\n",
++			 __FUNCTION__, GPIO_WIFI_RESET);
++
++#ifndef CONFIG_DONT_BUS_SCAN
++		if (GPIO_WIFI_RESET > 0)
++			gpio_direction_output(GPIO_WIFI_RESET , 0);
++#endif
++		break;
++
++	case WLAN_PWDN_ON:
++		RTW_INFO("%s: callc customer specific GPIO(%d) to set wifi power down pin to 1\n",
++			 __FUNCTION__, GPIO_WIFI_RESET);
++
++		if (GPIO_WIFI_RESET > 0)
++			gpio_direction_output(GPIO_WIFI_RESET , 1);
++		break;
++
++	case WLAN_POWER_OFF:
++		break;
++
++	case WLAN_POWER_ON:
++		break;
++#ifdef CONFIG_SDIO_HCI
++#if (defined(CONFIG_RTL8723B)) && (MP_DRIVER == 1)
++	case WLAN_BT_PWDN_OFF:
++		if (rtw_mp_mode == 1) {
++			RTW_INFO("%s: call customer specific GPIO to set wifi power down pin to 0\n",
++				 __FUNCTION__);
++			if (GPIO_BT_RESET > 0)
++				gpio_direction_output(GPIO_BT_RESET , 0);
++		}
++		break;
++
++	case WLAN_BT_PWDN_ON:
++		if (rtw_mp_mode == 1) {
++			RTW_INFO("%s: callc customer specific GPIO to set wifi power down pin to 1 %x\n",
++				 __FUNCTION__, GPIO_BT_RESET);
++
++			if (GPIO_BT_RESET > 0)
++				gpio_direction_output(GPIO_BT_RESET , 1);
++		}
++		break;
++#endif
++#endif
++	}
++}
++
++#else /* ANDROID_2X */
++
++#include <mach/ldo.h>
++
++#ifdef CONFIG_RTL8188E
++extern int sprd_3rdparty_gpio_wifi_power;
++#endif
++extern int sprd_3rdparty_gpio_wifi_pwd;
++#if  defined(CONFIG_RTL8723B)
++extern int sprd_3rdparty_gpio_bt_reset;
++#endif
++
++int rtw_wifi_gpio_init(void)
++{
++#if defined(CONFIG_RTL8723B)
++	if (sprd_3rdparty_gpio_bt_reset > 0)
++		gpio_direction_output(sprd_3rdparty_gpio_bt_reset, 1);
++#endif
++
++	return 0;
++}
++
++int rtw_wifi_gpio_deinit(void)
++{
++	return 0;
++}
++
++/* Customer function to control hw specific wlan gpios */
++void rtw_wifi_gpio_wlan_ctrl(int onoff)
++{
++	switch (onoff) {
++	case WLAN_PWDN_OFF:
++		RTW_INFO("%s: call customer specific GPIO to set wifi power down pin to 0\n",
++			 __FUNCTION__);
++		if (sprd_3rdparty_gpio_wifi_pwd > 0)
++			gpio_set_value(sprd_3rdparty_gpio_wifi_pwd, 0);
++
++		if (sprd_3rdparty_gpio_wifi_pwd == 60) {
++			RTW_INFO("%s: turn off VSIM2 2.8V\n", __func__);
++			LDO_TurnOffLDO(LDO_LDO_SIM2);
++		}
++		break;
++
++	case WLAN_PWDN_ON:
++		RTW_INFO("%s: callc customer specific GPIO to set wifi power down pin to 1\n",
++			 __FUNCTION__);
++		if (sprd_3rdparty_gpio_wifi_pwd == 60) {
++			RTW_INFO("%s: turn on VSIM2 2.8V\n", __func__);
++			LDO_SetVoltLevel(LDO_LDO_SIM2, LDO_VOLT_LEVEL0);
++			LDO_TurnOnLDO(LDO_LDO_SIM2);
++		}
++		if (sprd_3rdparty_gpio_wifi_pwd > 0)
++			gpio_set_value(sprd_3rdparty_gpio_wifi_pwd, 1);
++		break;
++
++	case WLAN_POWER_OFF:
++#ifdef CONFIG_RTL8188E
++#ifdef CONFIG_WIF1_LDO
++		RTW_INFO("%s: turn off VDD-WIFI0 1.2V\n", __FUNCTION__);
++		LDO_TurnOffLDO(LDO_LDO_WIF1);
++#endif /* CONFIG_WIF1_LDO */
++
++		RTW_INFO("%s: turn off VDD-WIFI0 3.3V\n", __FUNCTION__);
++		LDO_TurnOffLDO(LDO_LDO_WIF0);
++
++		RTW_INFO("%s: call customer specific GPIO(%d) to turn off wifi power\n",
++			 __FUNCTION__, sprd_3rdparty_gpio_wifi_power);
++		if (sprd_3rdparty_gpio_wifi_power != 65535)
++			gpio_set_value(sprd_3rdparty_gpio_wifi_power, 0);
++#endif
++		break;
++
++	case WLAN_POWER_ON:
++#ifdef CONFIG_RTL8188E
++		RTW_INFO("%s: call customer specific GPIO(%d) to turn on wifi power\n",
++			 __FUNCTION__, sprd_3rdparty_gpio_wifi_power);
++		if (sprd_3rdparty_gpio_wifi_power != 65535)
++			gpio_set_value(sprd_3rdparty_gpio_wifi_power, 1);
++
++		RTW_INFO("%s: turn on VDD-WIFI0 3.3V\n", __FUNCTION__);
++		LDO_TurnOnLDO(LDO_LDO_WIF0);
++		LDO_SetVoltLevel(LDO_LDO_WIF0, LDO_VOLT_LEVEL1);
++
++#ifdef CONFIG_WIF1_LDO
++		RTW_INFO("%s: turn on VDD-WIFI1 1.2V\n", __func__);
++		LDO_TurnOnLDO(LDO_LDO_WIF1);
++		LDO_SetVoltLevel(LDO_LDO_WIF1, LDO_VOLT_LEVEL3);
++#endif /* CONFIG_WIF1_LDO */
++#endif
++		break;
++
++	case WLAN_BT_PWDN_OFF:
++		RTW_INFO("%s: call customer specific GPIO to set bt power down pin to 0\n",
++			 __FUNCTION__);
++#if defined(CONFIG_RTL8723B)
++		if (sprd_3rdparty_gpio_bt_reset > 0)
++			gpio_set_value(sprd_3rdparty_gpio_bt_reset, 0);
++#endif
++		break;
++
++	case WLAN_BT_PWDN_ON:
++		RTW_INFO("%s: callc customer specific GPIO to set bt power down pin to 1\n",
++			 __FUNCTION__);
++#if defined(CONFIG_RTL8723B)
++		if (sprd_3rdparty_gpio_bt_reset > 0)
++			gpio_set_value(sprd_3rdparty_gpio_bt_reset, 1);
++#endif
++		break;
++	}
++}
++#endif /* ANDROID_2X */
++
++#elif defined(CONFIG_PLATFORM_ARM_RK3066)
++#include <mach/iomux.h>
++
++#define GPIO_WIFI_IRQ		RK30_PIN2_PC2
++extern unsigned int oob_irq;
++int rtw_wifi_gpio_init(void)
++{
++#ifdef CONFIG_GSPI_HCI
++	if (GPIO_WIFI_IRQ > 0) {
++		rk30_mux_api_set(GPIO2C2_LCDC1DATA18_SMCBLSN1_HSADCDATA5_NAME, GPIO2C_GPIO2C2);/* jacky_test */
++		gpio_request(GPIO_WIFI_IRQ, "oob_irq");
++		gpio_direction_input(GPIO_WIFI_IRQ);
++
++		oob_irq = gpio_to_irq(GPIO_WIFI_IRQ);
++
++		RTW_INFO("%s oob_irq:%d\n", __func__, oob_irq);
++	}
++#endif
++	return 0;
++}
++
++
++int rtw_wifi_gpio_deinit(void)
++{
++#ifdef CONFIG_GSPI_HCI
++	if (GPIO_WIFI_IRQ > 0)
++		gpio_free(GPIO_WIFI_IRQ);
++#endif
++	return 0;
++}
++
++void rtw_wifi_gpio_wlan_ctrl(int onoff)
++{
++}
++
++#ifdef CONFIG_GPIO_API
++/* this is a demo for extending GPIO pin[7] as interrupt mode */
++struct net_device *rtl_net;
++extern int rtw_register_gpio_interrupt(struct net_device *netdev, int gpio_num, void(*callback)(u8 level));
++extern int rtw_disable_gpio_interrupt(struct net_device *netdev, int gpio_num);
++void gpio_int(u8 is_high)
++{
++	RTW_INFO("%s level=%d\n", __func__, is_high);
++}
++int register_net_gpio_init(void)
++{
++	rtl_net = dev_get_by_name(&init_net, "wlan0");
++	if (!rtl_net) {
++		RTW_PRINT("rtl_net init fail!\n");
++		return -1;
++	}
++	return rtw_register_gpio_interrupt(rtl_net, 7, gpio_int);
++}
++int unregister_net_gpio_init(void)
++{
++	rtl_net = dev_get_by_name(&init_net, "wlan0");
++	if (!rtl_net) {
++		RTW_PRINT("rtl_net init fail!\n");
++		return -1;
++	}
++	return rtw_disable_gpio_interrupt(rtl_net, 7);
++}
++#endif
++
++#else
++
++int rtw_wifi_gpio_init(void)
++{
++	return 0;
++}
++
++void rtw_wifi_gpio_wlan_ctrl(int onoff)
++{
++}
++#endif /* CONFIG_PLATFORM_SPRD */
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.c b/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.c
+new file mode 100644
+index 0000000..276c722
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.c
+@@ -0,0 +1,6569 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define  _IOCTL_CFG80211_C_
++
++#include <drv_types.h>
++
++#define IEEE80211_BAND_2GHZ NL80211_BAND_2GHZ
++#define IEEE80211_BAND_5GHZ NL80211_BAND_5GHZ
++#define ieee80211_band nl80211_band
++
++#ifdef CONFIG_IOCTL_CFG80211
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 0, 0))
++#define STATION_INFO_SIGNAL		BIT(NL80211_STA_INFO_SIGNAL)
++#define STATION_INFO_TX_BITRATE		BIT(NL80211_STA_INFO_TX_BITRATE)
++#define STATION_INFO_RX_PACKETS		BIT(NL80211_STA_INFO_RX_PACKETS)
++#define STATION_INFO_TX_PACKETS		BIT(NL80211_STA_INFO_TX_PACKETS)
++#define STATION_INFO_ASSOC_REQ_IES	0
++#endif /* Linux kernel >= 4.0.0 */
++
++#include <rtw_wifi_regd.h>
++
++#define RTW_MAX_MGMT_TX_CNT (8)
++#define RTW_MAX_MGMT_TX_MS_GAS (500)
++
++#define RTW_SCAN_IE_LEN_MAX      2304
++#define RTW_MAX_REMAIN_ON_CHANNEL_DURATION 5000 /* ms */
++#define RTW_MAX_NUM_PMKIDS 4
++
++#define RTW_CH_MAX_2G_CHANNEL               14      /* Max channel in 2G band */
++
++#ifdef CONFIG_WAPI_SUPPORT
++
++#ifndef WLAN_CIPHER_SUITE_SMS4
++#define WLAN_CIPHER_SUITE_SMS4          0x00147201
++#endif
++
++#ifndef WLAN_AKM_SUITE_WAPI_PSK
++#define WLAN_AKM_SUITE_WAPI_PSK         0x000FAC04
++#endif
++
++#ifndef WLAN_AKM_SUITE_WAPI_CERT
++#define WLAN_AKM_SUITE_WAPI_CERT        0x000FAC12
++#endif
++
++#ifndef NL80211_WAPI_VERSION_1
++#define NL80211_WAPI_VERSION_1          (1 << 2)
++#endif
++
++#endif /* CONFIG_WAPI_SUPPORT */
++
++
++static const u32 rtw_cipher_suites[] = {
++	WLAN_CIPHER_SUITE_WEP40,
++	WLAN_CIPHER_SUITE_WEP104,
++	WLAN_CIPHER_SUITE_TKIP,
++	WLAN_CIPHER_SUITE_CCMP,
++#ifdef CONFIG_WAPI_SUPPORT
++	WLAN_CIPHER_SUITE_SMS4,
++#endif /* CONFIG_WAPI_SUPPORT */
++#ifdef CONFIG_IEEE80211W
++	WLAN_CIPHER_SUITE_AES_CMAC,
++#endif /* CONFIG_IEEE80211W */
++};
++
++#define RATETAB_ENT(_rate, _rateid, _flags) \
++	{								\
++		.bitrate	= (_rate),				\
++		.hw_value	= (_rateid),				\
++		.flags		= (_flags),				\
++	}
++
++#define CHAN2G(_channel, _freq, _flags) {			\
++		.band			= IEEE80211_BAND_2GHZ,		\
++		.center_freq		= (_freq),			\
++		.hw_value		= (_channel),			\
++		.flags			= (_flags),			\
++		.max_antenna_gain	= 0,				\
++		.max_power		= 30,				\
++	}
++
++#define CHAN5G(_channel, _flags) {				\
++		.band			= IEEE80211_BAND_5GHZ,		\
++		.center_freq		= 5000 + (5 * (_channel)),	\
++		.hw_value		= (_channel),			\
++		.flags			= (_flags),			\
++		.max_antenna_gain	= 0,				\
++		.max_power		= 30,				\
++	}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
++/* if wowlan is not supported, kernel generate a disconnect at each suspend
++ * cf: /net/wireless/sysfs.c, so register a stub wowlan.
++ * Moreover wowlan has to be enabled via a the nl80211_set_wowlan callback.
++ * (from user space, e.g. iw phy0 wowlan enable)
++ */
++static const struct wiphy_wowlan_support wowlan_stub = {
++	.flags = WIPHY_WOWLAN_ANY,
++	.n_patterns = 0,
++	.pattern_max_len = 0,
++	.pattern_min_len = 0,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 10, 0))
++	.max_pkt_offset = 0,
++#endif
++};
++#endif
++
++static struct ieee80211_rate rtw_rates[] = {
++	RATETAB_ENT(10,  0x1,   0),
++	RATETAB_ENT(20,  0x2,   0),
++	RATETAB_ENT(55,  0x4,   0),
++	RATETAB_ENT(110, 0x8,   0),
++	RATETAB_ENT(60,  0x10,  0),
++	RATETAB_ENT(90,  0x20,  0),
++	RATETAB_ENT(120, 0x40,  0),
++	RATETAB_ENT(180, 0x80,  0),
++	RATETAB_ENT(240, 0x100, 0),
++	RATETAB_ENT(360, 0x200, 0),
++	RATETAB_ENT(480, 0x400, 0),
++	RATETAB_ENT(540, 0x800, 0),
++};
++
++#define rtw_a_rates		(rtw_rates + 4)
++#define RTW_A_RATES_NUM	8
++#define rtw_g_rates		(rtw_rates + 0)
++#define RTW_G_RATES_NUM	12
++
++#define RTW_2G_CHANNELS_NUM 14
++#define RTW_5G_CHANNELS_NUM 37
++
++static struct ieee80211_channel rtw_2ghz_channels[] = {
++	CHAN2G(1, 2412, 0),
++	CHAN2G(2, 2417, 0),
++	CHAN2G(3, 2422, 0),
++	CHAN2G(4, 2427, 0),
++	CHAN2G(5, 2432, 0),
++	CHAN2G(6, 2437, 0),
++	CHAN2G(7, 2442, 0),
++	CHAN2G(8, 2447, 0),
++	CHAN2G(9, 2452, 0),
++	CHAN2G(10, 2457, 0),
++	CHAN2G(11, 2462, 0),
++	CHAN2G(12, 2467, 0),
++	CHAN2G(13, 2472, 0),
++	CHAN2G(14, 2484, 0),
++};
++
++static struct ieee80211_channel rtw_5ghz_a_channels[] = {
++	CHAN5G(34, 0),		CHAN5G(36, 0),
++	CHAN5G(38, 0),		CHAN5G(40, 0),
++	CHAN5G(42, 0),		CHAN5G(44, 0),
++	CHAN5G(46, 0),		CHAN5G(48, 0),
++	CHAN5G(52, 0),		CHAN5G(56, 0),
++	CHAN5G(60, 0),		CHAN5G(64, 0),
++	CHAN5G(100, 0),		CHAN5G(104, 0),
++	CHAN5G(108, 0),		CHAN5G(112, 0),
++	CHAN5G(116, 0),		CHAN5G(120, 0),
++	CHAN5G(124, 0),		CHAN5G(128, 0),
++	CHAN5G(132, 0),		CHAN5G(136, 0),
++	CHAN5G(140, 0),		CHAN5G(149, 0),
++	CHAN5G(153, 0),		CHAN5G(157, 0),
++	CHAN5G(161, 0),		CHAN5G(165, 0),
++	CHAN5G(184, 0),		CHAN5G(188, 0),
++	CHAN5G(192, 0),		CHAN5G(196, 0),
++	CHAN5G(200, 0),		CHAN5G(204, 0),
++	CHAN5G(208, 0),		CHAN5G(212, 0),
++	CHAN5G(216, 0),
++};
++
++
++void rtw_2g_channels_init(struct ieee80211_channel *channels)
++{
++	_rtw_memcpy((void *)channels, (void *)rtw_2ghz_channels,
++		sizeof(struct ieee80211_channel) * RTW_2G_CHANNELS_NUM
++	);
++}
++
++void rtw_5g_channels_init(struct ieee80211_channel *channels)
++{
++	_rtw_memcpy((void *)channels, (void *)rtw_5ghz_a_channels,
++		sizeof(struct ieee80211_channel) * RTW_5G_CHANNELS_NUM
++	);
++}
++
++void rtw_2g_rates_init(struct ieee80211_rate *rates)
++{
++	_rtw_memcpy(rates, rtw_g_rates,
++		sizeof(struct ieee80211_rate) * RTW_G_RATES_NUM
++	);
++}
++
++void rtw_5g_rates_init(struct ieee80211_rate *rates)
++{
++	_rtw_memcpy(rates, rtw_a_rates,
++		sizeof(struct ieee80211_rate) * RTW_A_RATES_NUM
++	);
++}
++
++struct ieee80211_supported_band *rtw_spt_band_alloc(
++	enum ieee80211_band band
++)
++{
++	struct ieee80211_supported_band *spt_band = NULL;
++	int n_channels, n_bitrates;
++
++	if (band == IEEE80211_BAND_2GHZ) {
++		n_channels = RTW_2G_CHANNELS_NUM;
++		n_bitrates = RTW_G_RATES_NUM;
++	} else if (band == IEEE80211_BAND_5GHZ) {
++		n_channels = RTW_5G_CHANNELS_NUM;
++		n_bitrates = RTW_A_RATES_NUM;
++	} else
++		goto exit;
++
++	spt_band = (struct ieee80211_supported_band *)rtw_zmalloc(
++		sizeof(struct ieee80211_supported_band)
++		+ sizeof(struct ieee80211_channel) * n_channels
++		+ sizeof(struct ieee80211_rate) * n_bitrates
++	);
++	if (!spt_band)
++		goto exit;
++
++	spt_band->channels = (struct ieee80211_channel *)(((u8 *)spt_band) + sizeof(struct ieee80211_supported_band));
++	spt_band->bitrates = (struct ieee80211_rate *)(((u8 *)spt_band->channels) + sizeof(struct ieee80211_channel) * n_channels);
++	spt_band->band = band;
++	spt_band->n_channels = n_channels;
++	spt_band->n_bitrates = n_bitrates;
++
++	if (band == IEEE80211_BAND_2GHZ) {
++		rtw_2g_channels_init(spt_band->channels);
++		rtw_2g_rates_init(spt_band->bitrates);
++	} else if (band == IEEE80211_BAND_5GHZ) {
++		rtw_5g_channels_init(spt_band->channels);
++		rtw_5g_rates_init(spt_band->bitrates);
++	}
++
++	/* spt_band.ht_cap */
++
++exit:
++
++	return spt_band;
++}
++
++void rtw_spt_band_free(struct ieee80211_supported_band *spt_band)
++{
++	u32 size = 0;
++
++	if (!spt_band)
++		return;
++
++	if (spt_band->band == IEEE80211_BAND_2GHZ) {
++		size = sizeof(struct ieee80211_supported_band)
++			+ sizeof(struct ieee80211_channel) * RTW_2G_CHANNELS_NUM
++			+ sizeof(struct ieee80211_rate) * RTW_G_RATES_NUM;
++	} else if (spt_band->band == IEEE80211_BAND_5GHZ) {
++		size = sizeof(struct ieee80211_supported_band)
++			+ sizeof(struct ieee80211_channel) * RTW_5G_CHANNELS_NUM
++			+ sizeof(struct ieee80211_rate) * RTW_A_RATES_NUM;
++	} else {
++
++	}
++	rtw_mfree((u8 *)spt_band, size);
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++static const struct ieee80211_txrx_stypes
++	rtw_cfg80211_default_mgmt_stypes[NUM_NL80211_IFTYPES] = {
++	[NL80211_IFTYPE_ADHOC] = {
++		.tx = 0xffff,
++		.rx = BIT(IEEE80211_STYPE_ACTION >> 4)
++	},
++	[NL80211_IFTYPE_STATION] = {
++		.tx = 0xffff,
++		.rx = BIT(IEEE80211_STYPE_ACTION >> 4) |
++		BIT(IEEE80211_STYPE_PROBE_REQ >> 4)
++	},
++	[NL80211_IFTYPE_AP] = {
++		.tx = 0xffff,
++		.rx = BIT(IEEE80211_STYPE_ASSOC_REQ >> 4) |
++		BIT(IEEE80211_STYPE_REASSOC_REQ >> 4) |
++		BIT(IEEE80211_STYPE_PROBE_REQ >> 4) |
++		BIT(IEEE80211_STYPE_DISASSOC >> 4) |
++		BIT(IEEE80211_STYPE_AUTH >> 4) |
++		BIT(IEEE80211_STYPE_DEAUTH >> 4) |
++		BIT(IEEE80211_STYPE_ACTION >> 4)
++	},
++	[NL80211_IFTYPE_AP_VLAN] = {
++		/* copy AP */
++		.tx = 0xffff,
++		.rx = BIT(IEEE80211_STYPE_ASSOC_REQ >> 4) |
++		BIT(IEEE80211_STYPE_REASSOC_REQ >> 4) |
++		BIT(IEEE80211_STYPE_PROBE_REQ >> 4) |
++		BIT(IEEE80211_STYPE_DISASSOC >> 4) |
++		BIT(IEEE80211_STYPE_AUTH >> 4) |
++		BIT(IEEE80211_STYPE_DEAUTH >> 4) |
++		BIT(IEEE80211_STYPE_ACTION >> 4)
++	},
++	[NL80211_IFTYPE_P2P_CLIENT] = {
++		.tx = 0xffff,
++		.rx = BIT(IEEE80211_STYPE_ACTION >> 4) |
++		BIT(IEEE80211_STYPE_PROBE_REQ >> 4)
++	},
++	[NL80211_IFTYPE_P2P_GO] = {
++		.tx = 0xffff,
++		.rx = BIT(IEEE80211_STYPE_ASSOC_REQ >> 4) |
++		BIT(IEEE80211_STYPE_REASSOC_REQ >> 4) |
++		BIT(IEEE80211_STYPE_PROBE_REQ >> 4) |
++		BIT(IEEE80211_STYPE_DISASSOC >> 4) |
++		BIT(IEEE80211_STYPE_AUTH >> 4) |
++		BIT(IEEE80211_STYPE_DEAUTH >> 4) |
++		BIT(IEEE80211_STYPE_ACTION >> 4)
++	},
++};
++#endif
++
++static u64 rtw_get_systime_us(void)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 39))
++	struct timespec ts;
++	get_monotonic_boottime(&ts);
++	return ((u64)ts.tv_sec * 1000000) + ts.tv_nsec / 1000;
++#else
++	struct timeval tv;
++	do_gettimeofday(&tv);
++	return ((u64)tv.tv_sec * 1000000) + tv.tv_usec;
++#endif
++}
++
++#define MAX_BSSINFO_LEN 1000
++struct cfg80211_bss *rtw_cfg80211_inform_bss(_adapter *padapter, struct wlan_network *pnetwork)
++{
++	struct ieee80211_channel *notify_channel;
++	struct cfg80211_bss *bss = NULL;
++	/* struct ieee80211_supported_band *band;       */
++	u16 channel;
++	u32 freq;
++	u64 notify_timestamp;
++	u16 notify_capability;
++	u16 notify_interval;
++	u8 *notify_ie;
++	size_t notify_ielen;
++	s32 notify_signal;
++	/* u8 buf[MAX_BSSINFO_LEN]; */
++
++	u8 *pbuf;
++	size_t buf_size = MAX_BSSINFO_LEN;
++	size_t len, bssinf_len = 0;
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	unsigned short *fctrl;
++	u8	bc_addr[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++
++	struct wireless_dev *wdev = padapter->rtw_wdev;
++	struct wiphy *wiphy = wdev->wiphy;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	pbuf = rtw_zmalloc(buf_size);
++	if (pbuf == NULL) {
++		RTW_INFO("%s pbuf allocate failed  !!\n", __FUNCTION__);
++		return bss;
++	}
++
++	/* RTW_INFO("%s\n", __func__); */
++
++	bssinf_len = pnetwork->network.IELength + sizeof(struct rtw_ieee80211_hdr_3addr);
++	if (bssinf_len > buf_size) {
++		RTW_INFO("%s IE Length too long > %zu byte\n", __FUNCTION__, buf_size);
++		goto exit;
++	}
++
++#ifndef CONFIG_WAPI_SUPPORT
++	{
++		u16 wapi_len = 0;
++
++		if (rtw_get_wapi_ie(pnetwork->network.IEs, pnetwork->network.IELength, NULL, &wapi_len) > 0) {
++			if (wapi_len > 0) {
++				RTW_INFO("%s, no support wapi!\n", __FUNCTION__);
++				goto exit;
++			}
++		}
++	}
++#endif /* !CONFIG_WAPI_SUPPORT */
++
++	/* To reduce PBC Overlap rate */
++	/* _enter_critical_bh(&pwdev_priv->scan_req_lock, &irqL); */
++	if (adapter_wdev_data(padapter)->scan_request != NULL) {
++		u8 *psr = NULL, sr = 0;
++		NDIS_802_11_SSID *pssid = &pnetwork->network.Ssid;
++		struct cfg80211_scan_request *request = adapter_wdev_data(padapter)->scan_request;
++		struct cfg80211_ssid *ssids = request->ssids;
++		u32 wpsielen = 0;
++		u8 *wpsie = NULL;
++
++		wpsie = rtw_get_wps_ie(pnetwork->network.IEs + _FIXED_IE_LENGTH_, pnetwork->network.IELength - _FIXED_IE_LENGTH_, NULL, &wpsielen);
++
++		if (wpsie && wpsielen > 0)
++			psr = rtw_get_wps_attr_content(wpsie,  wpsielen, WPS_ATTR_SELECTED_REGISTRAR, (u8 *)(&sr), NULL);
++
++		if (sr != 0) {
++			if (request->n_ssids == 1 && request->n_channels == 1) { /* it means under processing WPS */
++				RTW_INFO("ssid=%s, len=%d\n", pssid->Ssid, pssid->SsidLength);
++
++				if (ssids[0].ssid_len == 0) {
++				} else if (pssid->SsidLength == ssids[0].ssid_len &&
++					_rtw_memcmp(pssid->Ssid, ssids[0].ssid, ssids[0].ssid_len))
++					RTW_INFO("%s, got sr and ssid match!\n", __func__);
++				else {
++					if (psr != NULL)
++						*psr = 0; /* clear sr */
++
++#if 0
++					WLAN_BSSID_EX  *pselect_network = &pnetwork->network;
++					struct cfg80211_bss *pselect_bss = NULL;
++					struct ieee80211_channel *notify_channel = NULL;
++					u32 freq;
++
++					RTW_INFO("%s, got sr, but ssid mismatch, to remove this bss\n", __func__);
++
++					freq = rtw_ch2freq(pselect_network->Configuration.DSConfig);
++					notify_channel = ieee80211_get_channel(wiphy, freq);
++					pselect_bss = cfg80211_get_bss(wiphy, NULL/*notify_channel*/,
++						pselect_network->MacAddress, pselect_network->Ssid.Ssid,
++						pselect_network->Ssid.SsidLength, 0/*WLAN_CAPABILITY_ESS*/,
++						0/*WLAN_CAPABILITY_ESS*/);
++
++					if (pselect_bss) {
++						RTW_INFO("%s, got bss for cfg80211 for unlinking bss\n", __func__);
++
++						cfg80211_unlink_bss(wiphy, pselect_bss);
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(3, 9, 0)
++						cfg80211_put_bss(wiphy, pselect_bss);
++#else
++						cfg80211_put_bss(pselect_bss);
++#endif
++
++					}
++
++					goto exit;
++#endif
++				}
++			}
++		}
++	}
++	/* _exit_critical_bh(&pwdev_priv->scan_req_lock, &irqL); */
++
++
++	channel = pnetwork->network.Configuration.DSConfig;
++	freq = rtw_ch2freq(channel);
++	notify_channel = ieee80211_get_channel(wiphy, freq);
++
++	if (0)
++		notify_timestamp = le64_to_cpu(*(u64 *)rtw_get_timestampe_from_ie(pnetwork->network.IEs));
++	else
++		notify_timestamp = rtw_get_systime_us();
++
++	notify_interval = le16_to_cpu(*(u16 *)rtw_get_beacon_interval_from_ie(pnetwork->network.IEs));
++	notify_capability = le16_to_cpu(*(u16 *)rtw_get_capability_from_ie(pnetwork->network.IEs));
++
++	notify_ie = pnetwork->network.IEs + _FIXED_IE_LENGTH_;
++	notify_ielen = pnetwork->network.IELength - _FIXED_IE_LENGTH_;
++
++	/* We've set wiphy's signal_type as CFG80211_SIGNAL_TYPE_MBM: signal strength in mBm (100*dBm) */
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE &&
++		is_same_network(&pmlmepriv->cur_network.network, &pnetwork->network, 0)) {
++		notify_signal = 100 * translate_percentage_to_dbm(padapter->recvpriv.signal_strength); /* dbm */
++	} else {
++		notify_signal = 100 * translate_percentage_to_dbm(pnetwork->network.PhyInfo.SignalStrength); /* dbm */
++	}
++
++#if 0
++	RTW_INFO("bssid: "MAC_FMT"\n", MAC_ARG(pnetwork->network.MacAddress));
++	RTW_INFO("Channel: %d(%d)\n", channel, freq);
++	RTW_INFO("Capability: %X\n", notify_capability);
++	RTW_INFO("Beacon interval: %d\n", notify_interval);
++	RTW_INFO("Signal: %d\n", notify_signal);
++	RTW_INFO("notify_timestamp: %llu\n", notify_timestamp);
++#endif
++
++	/* pbuf = buf; */
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pbuf;
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	SetSeqNum(pwlanhdr, 0/*pmlmeext->mgnt_seq*/);
++	/* pmlmeext->mgnt_seq++; */
++
++	if (pnetwork->network.Reserved[0] == 1) { /* WIFI_BEACON */
++		_rtw_memcpy(pwlanhdr->addr1, bc_addr, ETH_ALEN);
++		SetFrameSubType(pbuf, WIFI_BEACON);
++	} else {
++		_rtw_memcpy(pwlanhdr->addr1, adapter_mac_addr(padapter), ETH_ALEN);
++		SetFrameSubType(pbuf, WIFI_PROBERSP);
++	}
++
++	_rtw_memcpy(pwlanhdr->addr2, pnetwork->network.MacAddress, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, pnetwork->network.MacAddress, ETH_ALEN);
++
++
++	/* pbuf += sizeof(struct rtw_ieee80211_hdr_3addr); */
++	len = sizeof(struct rtw_ieee80211_hdr_3addr);
++	_rtw_memcpy((pbuf + len), pnetwork->network.IEs, pnetwork->network.IELength);
++	*((u64 *)(pbuf + len)) = cpu_to_le64(notify_timestamp);
++
++	len += pnetwork->network.IELength;
++
++	#if defined(CONFIG_P2P) && 0
++	if(rtw_get_p2p_ie(pnetwork->network.IEs+12, pnetwork->network.IELength-12, NULL, NULL))
++		RTW_INFO("%s, got p2p_ie\n", __func__);
++	#endif
++
++#if 1
++	bss = cfg80211_inform_bss_frame(wiphy, notify_channel, (struct ieee80211_mgmt *)pbuf,
++					len, notify_signal, GFP_ATOMIC);
++#else
++
++	bss = cfg80211_inform_bss(wiphy, notify_channel, (const u8 *)pnetwork->network.MacAddress,
++		notify_timestamp, notify_capability, notify_interval, notify_ie,
++		notify_ielen, notify_signal, GFP_ATOMIC/*GFP_KERNEL*/);
++#endif
++
++	if (unlikely(!bss)) {
++		RTW_INFO(FUNC_ADPT_FMT" bss NULL\n", FUNC_ADPT_ARG(padapter));
++		goto exit;
++	}
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 38))
++#ifndef COMPAT_KERNEL_RELEASE
++	/* patch for cfg80211, update beacon ies to information_elements */
++	if (pnetwork->network.Reserved[0] == 1) { /* WIFI_BEACON */
++
++		if (bss->len_information_elements != bss->len_beacon_ies) {
++			bss->information_elements = bss->beacon_ies;
++			bss->len_information_elements =  bss->len_beacon_ies;
++		}
++	}
++#endif /* COMPAT_KERNEL_RELEASE */
++#endif /* LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 38) */
++
++#if 0
++	{
++		if (bss->information_elements == bss->proberesp_ies) {
++			if (bss->len_information_elements !=  bss->len_proberesp_ies)
++				RTW_INFO("error!, len_information_elements != bss->len_proberesp_ies\n");
++		} else if (bss->len_information_elements <  bss->len_beacon_ies) {
++			bss->information_elements = bss->beacon_ies;
++			bss->len_information_elements =  bss->len_beacon_ies;
++		}
++	}
++#endif
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(3, 9, 0)
++	cfg80211_put_bss(wiphy, bss);
++#else
++	cfg80211_put_bss(bss);
++#endif
++
++exit:
++	if (pbuf)
++		rtw_mfree(pbuf, buf_size);
++	return bss;
++
++}
++
++/*
++	Check the given bss is valid by kernel API cfg80211_get_bss()
++	@padapter : the given adapter
++
++	return _TRUE if bss is valid,  _FALSE for not found.
++*/
++int rtw_cfg80211_check_bss(_adapter *padapter)
++{
++	WLAN_BSSID_EX  *pnetwork = &(padapter->mlmeextpriv.mlmext_info.network);
++	struct cfg80211_bss *bss = NULL;
++	struct ieee80211_channel *notify_channel = NULL;
++	u32 freq;
++
++	if (!(pnetwork) || !(padapter->rtw_wdev))
++		return _FALSE;
++
++	freq = rtw_ch2freq(pnetwork->Configuration.DSConfig);
++	notify_channel = ieee80211_get_channel(padapter->rtw_wdev->wiphy, freq);
++	bss = cfg80211_get_bss(padapter->rtw_wdev->wiphy, notify_channel,
++			pnetwork->MacAddress, pnetwork->Ssid.Ssid,
++			pnetwork->Ssid.SsidLength,
++			WLAN_CAPABILITY_ESS, WLAN_CAPABILITY_ESS);
++
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(3, 9, 0)
++	cfg80211_put_bss(padapter->rtw_wdev->wiphy, bss);
++#else
++	cfg80211_put_bss(bss);
++#endif
++
++	return bss != NULL;
++}
++
++void rtw_cfg80211_ibss_indicate_connect(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network  *cur_network = &(pmlmepriv->cur_network);
++	struct wireless_dev *pwdev = padapter->rtw_wdev;
++	struct cfg80211_bss *bss = NULL;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 15, 0))
++	struct wiphy *wiphy = pwdev->wiphy;
++	int freq = 2412;
++	struct ieee80211_channel *notify_channel;
++#endif
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 15, 0))
++	freq = rtw_ch2freq(cur_network->network.Configuration.DSConfig);
++
++	if (0)
++		RTW_INFO("chan: %d, freq: %d\n", cur_network->network.Configuration.DSConfig, freq);
++#endif
++
++	if (pwdev->iftype != NL80211_IFTYPE_ADHOC)
++		return;
++
++	if (!rtw_cfg80211_check_bss(padapter)) {
++		WLAN_BSSID_EX  *pnetwork = &(padapter->mlmeextpriv.mlmext_info.network);
++		struct wlan_network *scanned = pmlmepriv->cur_network_scanned;
++
++		if (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) {
++
++			_rtw_memcpy(&cur_network->network, pnetwork, sizeof(WLAN_BSSID_EX));
++			if (cur_network) {
++				if (!rtw_cfg80211_inform_bss(padapter, cur_network))
++					RTW_INFO(FUNC_ADPT_FMT" inform fail !!\n", FUNC_ADPT_ARG(padapter));
++				else
++					RTW_INFO(FUNC_ADPT_FMT" inform success !!\n", FUNC_ADPT_ARG(padapter));
++			} else {
++				RTW_INFO("cur_network is not exist!!!\n");
++				return ;
++			}
++		} else {
++			if (scanned == NULL)
++				rtw_warn_on(1);
++
++			if (_rtw_memcmp(&(scanned->network.Ssid), &(pnetwork->Ssid), sizeof(NDIS_802_11_SSID)) == _TRUE
++				&& _rtw_memcmp(scanned->network.MacAddress, pnetwork->MacAddress, sizeof(NDIS_802_11_MAC_ADDRESS)) == _TRUE
++			) {
++				if (!rtw_cfg80211_inform_bss(padapter, scanned))
++					RTW_INFO(FUNC_ADPT_FMT" inform fail !!\n", FUNC_ADPT_ARG(padapter));
++				else {
++					/* RTW_INFO(FUNC_ADPT_FMT" inform success !!\n", FUNC_ADPT_ARG(padapter)); */
++				}
++			} else {
++				RTW_INFO("scanned & pnetwork compare fail\n");
++				rtw_warn_on(1);
++			}
++		}
++
++		if (!rtw_cfg80211_check_bss(padapter))
++			RTW_PRINT(FUNC_ADPT_FMT" BSS not found !!\n", FUNC_ADPT_ARG(padapter));
++	}
++	/* notify cfg80211 that device joined an IBSS */
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 15, 0))
++	notify_channel = ieee80211_get_channel(wiphy, freq);
++	cfg80211_ibss_joined(padapter->pnetdev, cur_network->network.MacAddress, notify_channel, GFP_ATOMIC);
++#else
++	cfg80211_ibss_joined(padapter->pnetdev, cur_network->network.MacAddress, GFP_ATOMIC);
++#endif
++}
++
++void rtw_cfg80211_indicate_connect(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct wlan_network  *cur_network = &(pmlmepriv->cur_network);
++	struct wireless_dev *pwdev = padapter->rtw_wdev;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif
++	struct cfg80211_bss *bss = NULL;
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++	if (pwdev->iftype != NL80211_IFTYPE_STATION
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++		&& pwdev->iftype != NL80211_IFTYPE_P2P_CLIENT
++		#endif
++	)
++		return;
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		return;
++
++#ifdef CONFIG_P2P
++	if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++		if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++			rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++			rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++			RTW_INFO("%s, role=%d, p2p_state=%d, pre_p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo), rtw_p2p_pre_state(pwdinfo));
++		}
++	}
++#endif /* CONFIG_P2P */
++
++	if (check_fwstate(pmlmepriv, WIFI_MONITOR_STATE) != _TRUE) {
++		WLAN_BSSID_EX  *pnetwork = &(padapter->mlmeextpriv.mlmext_info.network);
++		struct wlan_network *scanned = pmlmepriv->cur_network_scanned;
++
++		/* RTW_INFO(FUNC_ADPT_FMT" BSS not found\n", FUNC_ADPT_ARG(padapter)); */
++
++		if (scanned == NULL) {
++			rtw_warn_on(1);
++			goto check_bss;
++		}
++
++		if (_rtw_memcmp(scanned->network.MacAddress, pnetwork->MacAddress, sizeof(NDIS_802_11_MAC_ADDRESS)) == _TRUE
++			&& _rtw_memcmp(&(scanned->network.Ssid), &(pnetwork->Ssid), sizeof(NDIS_802_11_SSID)) == _TRUE
++		) {
++			if (!rtw_cfg80211_inform_bss(padapter, scanned))
++				RTW_INFO(FUNC_ADPT_FMT" inform fail !!\n", FUNC_ADPT_ARG(padapter));
++			else {
++				/* RTW_INFO(FUNC_ADPT_FMT" inform success !!\n", FUNC_ADPT_ARG(padapter)); */
++			}
++		} else {
++			RTW_INFO("scanned: %s("MAC_FMT"), cur: %s("MAC_FMT")\n",
++				scanned->network.Ssid.Ssid, MAC_ARG(scanned->network.MacAddress),
++				pnetwork->Ssid.Ssid, MAC_ARG(pnetwork->MacAddress)
++			);
++			rtw_warn_on(1);
++		}
++	}
++
++check_bss:
++	if (!rtw_cfg80211_check_bss(padapter))
++		RTW_PRINT(FUNC_ADPT_FMT" BSS not found !!\n", FUNC_ADPT_ARG(padapter));
++
++	if (rtw_to_roam(padapter) > 0) {
++		#if LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 39) || defined(COMPAT_KERNEL_RELEASE)
++		struct wiphy *wiphy = pwdev->wiphy;
++		struct ieee80211_channel *notify_channel;
++		u32 freq;
++		u16 channel = cur_network->network.Configuration.DSConfig;
++
++		freq = rtw_ch2freq(channel);
++		notify_channel = ieee80211_get_channel(wiphy, freq);
++		#endif
++
++		RTW_INFO(FUNC_ADPT_FMT" call cfg80211_roamed\n", FUNC_ADPT_ARG(padapter));
++		cfg80211_roamed(padapter->pnetdev
++			#if LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 39) || defined(COMPAT_KERNEL_RELEASE)
++			, notify_channel
++			#endif
++			, cur_network->network.MacAddress
++			, pmlmepriv->assoc_req + sizeof(struct rtw_ieee80211_hdr_3addr) + 2
++			, pmlmepriv->assoc_req_len - sizeof(struct rtw_ieee80211_hdr_3addr) - 2
++			, pmlmepriv->assoc_rsp + sizeof(struct rtw_ieee80211_hdr_3addr) + 6
++			, pmlmepriv->assoc_rsp_len - sizeof(struct rtw_ieee80211_hdr_3addr) - 6
++			, GFP_ATOMIC);
++	} else {
++		#if LINUX_VERSION_CODE < KERNEL_VERSION(3, 11, 0) || defined(COMPAT_KERNEL_RELEASE)
++		RTW_INFO("pwdev->sme_state(b)=%d\n", pwdev->sme_state);
++		#endif
++		cfg80211_connect_result(padapter->pnetdev, cur_network->network.MacAddress
++			, pmlmepriv->assoc_req + sizeof(struct rtw_ieee80211_hdr_3addr) + 2
++			, pmlmepriv->assoc_req_len - sizeof(struct rtw_ieee80211_hdr_3addr) - 2
++			, pmlmepriv->assoc_rsp + sizeof(struct rtw_ieee80211_hdr_3addr) + 6
++			, pmlmepriv->assoc_rsp_len - sizeof(struct rtw_ieee80211_hdr_3addr) - 6
++			, WLAN_STATUS_SUCCESS, GFP_ATOMIC);
++		#if LINUX_VERSION_CODE < KERNEL_VERSION(3, 11, 0) || defined(COMPAT_KERNEL_RELEASE)
++		RTW_INFO("pwdev->sme_state(a)=%d\n", pwdev->sme_state);
++		#endif
++	}
++}
++
++void rtw_cfg80211_indicate_disconnect(_adapter *padapter, u16 reason, u8 locally_generated)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct wireless_dev *pwdev = padapter->rtw_wdev;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++	/*always replace privated definitions with wifi reserved value 0*/
++	if ((reason == WLAN_REASON_ACTIVE_ROAM) || (reason == WLAN_REASON_JOIN_WRONG_CHANNEL) || (reason == WLAN_REASON_EXPIRATION_CHK))
++		reason = 0;
++
++	if (pwdev->iftype != NL80211_IFTYPE_STATION
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++		&& pwdev->iftype != NL80211_IFTYPE_P2P_CLIENT
++		#endif
++	)
++		return;
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		return;
++
++#ifdef CONFIG_P2P
++	if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++		if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++			rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++
++			#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++			if (pwdev->iftype != NL80211_IFTYPE_P2P_CLIENT)
++			#endif
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++
++			RTW_INFO("%s, role=%d, p2p_state=%d, pre_p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo), rtw_p2p_pre_state(pwdinfo));
++		}
++	}
++#endif /* CONFIG_P2P */
++
++	#ifdef SUPPLICANT_RTK_VERSION_LOWER_THAN_JB42
++	if (!padapter->mlmepriv.not_indic_disco || padapter->ndev_unregistering) {
++	#else
++	{
++	#endif
++		#if LINUX_VERSION_CODE < KERNEL_VERSION(3, 11, 0) || defined(COMPAT_KERNEL_RELEASE)
++		RTW_INFO("pwdev->sme_state(b)=%d\n", pwdev->sme_state);
++
++		if (pwdev->sme_state == CFG80211_SME_CONNECTING)
++			cfg80211_connect_result(padapter->pnetdev, NULL, NULL, 0, NULL, 0,
++				WLAN_STATUS_UNSPECIFIED_FAILURE, GFP_ATOMIC/*GFP_KERNEL*/);
++		else if (pwdev->sme_state == CFG80211_SME_CONNECTED) {
++			#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 2, 0))
++			cfg80211_disconnected(padapter->pnetdev, reason, NULL, 0, locally_generated, GFP_ATOMIC);
++			#else
++			cfg80211_disconnected(padapter->pnetdev, 0, NULL, 0, GFP_ATOMIC);
++			#endif
++		}
++		#if 0
++		else
++			RTW_INFO("pwdev->sme_state=%d\n", pwdev->sme_state);
++		#endif
++
++		RTW_INFO("pwdev->sme_state(a)=%d\n", pwdev->sme_state);
++		#else
++
++		if (check_fwstate(&padapter->mlmepriv, _FW_LINKED)) {
++			#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 2, 0))
++			RTW_INFO(FUNC_ADPT_FMT" call cfg80211_disconnected\n", FUNC_ADPT_ARG(padapter));
++			cfg80211_disconnected(padapter->pnetdev, reason, NULL, 0, locally_generated, GFP_ATOMIC);
++			#else
++			RTW_INFO(FUNC_ADPT_FMT" call cfg80211_disconnected\n", FUNC_ADPT_ARG(padapter));
++			cfg80211_disconnected(padapter->pnetdev, 0, NULL, 0, GFP_ATOMIC);
++			#endif
++		} else {
++			RTW_INFO(FUNC_ADPT_FMT" call cfg80211_connect_result\n", FUNC_ADPT_ARG(padapter));
++			cfg80211_connect_result(padapter->pnetdev, NULL, NULL, 0, NULL, 0,
++				WLAN_STATUS_UNSPECIFIED_FAILURE, GFP_ATOMIC);
++		}
++		#endif
++	}
++}
++
++
++#ifdef CONFIG_AP_MODE
++static int rtw_cfg80211_ap_set_encryption(struct net_device *dev, struct ieee_param *param, u32 param_len)
++{
++	int ret = 0;
++	u32 wep_key_idx, wep_key_len, wep_total_len;
++	struct sta_info *psta = NULL, *pbcmc_sta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &(padapter->securitypriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	param->u.crypt.err = 0;
++	param->u.crypt.alg[IEEE_CRYPT_ALG_NAME_LEN - 1] = '\0';
++
++	/* sizeof(struct ieee_param) = 64 bytes; */
++	/* if (param_len !=  (u32) ((u8 *) param->u.crypt.key - (u8 *) param) + param->u.crypt.key_len) */
++	if (param_len !=  sizeof(struct ieee_param) + param->u.crypt.key_len) {
++		ret =  -EINVAL;
++		goto exit;
++	}
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff) {
++		if (param->u.crypt.idx >= WEP_KEYS
++#ifdef CONFIG_IEEE80211W
++			&& param->u.crypt.idx > BIP_MAX_KEYID
++#endif /* CONFIG_IEEE80211W */
++		) {
++			ret = -EINVAL;
++			goto exit;
++		}
++	} else {
++		psta = rtw_get_stainfo(pstapriv, param->sta_addr);
++		if (!psta) {
++			/* ret = -EINVAL; */
++			RTW_INFO("rtw_set_encryption(), sta has already been removed or never been added\n");
++			goto exit;
++		}
++	}
++
++	if (strcmp(param->u.crypt.alg, "none") == 0 && (psta == NULL)) {
++		/* todo:clear default encryption keys */
++
++		RTW_INFO("clear default encryption keys, keyid=%d\n", param->u.crypt.idx);
++
++		goto exit;
++	}
++
++
++	if (strcmp(param->u.crypt.alg, "WEP") == 0 && (psta == NULL)) {
++		RTW_INFO("r871x_set_encryption, crypt.alg = WEP\n");
++
++		wep_key_idx = param->u.crypt.idx;
++		wep_key_len = param->u.crypt.key_len;
++
++		RTW_INFO("r871x_set_encryption, wep_key_idx=%d, len=%d\n", wep_key_idx, wep_key_len);
++
++		if ((wep_key_idx >= WEP_KEYS) || (wep_key_len <= 0)) {
++			ret = -EINVAL;
++			goto exit;
++		}
++
++		if (wep_key_len > 0)
++			wep_key_len = wep_key_len <= 5 ? 5 : 13;
++
++		if (psecuritypriv->bWepDefaultKeyIdxSet == 0) {
++			/* wep default key has not been set, so use this key index as default key. */
++
++			psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++			psecuritypriv->ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			psecuritypriv->dot11PrivacyAlgrthm = _WEP40_;
++			psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++
++			if (wep_key_len == 13) {
++				psecuritypriv->dot11PrivacyAlgrthm = _WEP104_;
++				psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++			}
++
++			psecuritypriv->dot11PrivacyKeyIndex = wep_key_idx;
++		}
++
++		_rtw_memcpy(&(psecuritypriv->dot11DefKey[wep_key_idx].skey[0]), param->u.crypt.key, wep_key_len);
++
++		psecuritypriv->dot11DefKeylen[wep_key_idx] = wep_key_len;
++
++		rtw_ap_set_wep_key(padapter, param->u.crypt.key, wep_key_len, wep_key_idx, 1);
++
++		goto exit;
++
++	}
++
++
++	if (!psta && check_fwstate(pmlmepriv, WIFI_AP_STATE)) { /* group key */
++		if (param->u.crypt.set_tx == 0) { /* group key */
++			if (strcmp(param->u.crypt.alg, "WEP") == 0) {
++				RTW_INFO("%s, set group_key, WEP\n", __FUNCTION__);
++
++				_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++				psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++				if (param->u.crypt.key_len == 13)
++					psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++
++			} else if (strcmp(param->u.crypt.alg, "TKIP") == 0) {
++				RTW_INFO("%s, set group_key, TKIP\n", __FUNCTION__);
++
++				psecuritypriv->dot118021XGrpPrivacy = _TKIP_;
++
++				_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++				/* DEBUG_ERR("set key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len); */
++				/* set mic key */
++				_rtw_memcpy(psecuritypriv->dot118021XGrptxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[16]), 8);
++				_rtw_memcpy(psecuritypriv->dot118021XGrprxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[24]), 8);
++
++				psecuritypriv->busetkipkey = _TRUE;
++
++			} else if (strcmp(param->u.crypt.alg, "CCMP") == 0) {
++				RTW_INFO("%s, set group_key, CCMP\n", __FUNCTION__);
++
++				psecuritypriv->dot118021XGrpPrivacy = _AES_;
++
++				_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++			}
++#ifdef CONFIG_IEEE80211W
++			else if (strcmp(param->u.crypt.alg, "BIP") == 0) {
++				int no;
++
++				RTW_INFO("BIP key_len=%d , index=%d\n", param->u.crypt.key_len, param->u.crypt.idx);
++				/* save the IGTK key, length 16 bytes */
++				_rtw_memcpy(padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey, param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++				/* RTW_INFO("IGTK key below:\n");
++				for(no=0;no<16;no++)
++					printk(" %02x ", padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey[no]);
++				RTW_INFO("\n"); */
++				padapter->securitypriv.dot11wBIPKeyid = param->u.crypt.idx;
++				padapter->securitypriv.binstallBIPkey = _TRUE;
++				RTW_INFO(" ~~~~set sta key:IGKT\n");
++				goto exit;
++			}
++#endif /* CONFIG_IEEE80211W */
++			else {
++				RTW_INFO("%s, set group_key, none\n", __FUNCTION__);
++
++				psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++			}
++
++			psecuritypriv->dot118021XGrpKeyid = param->u.crypt.idx;
++
++			psecuritypriv->binstallGrpkey = _TRUE;
++
++			psecuritypriv->dot11PrivacyAlgrthm = psecuritypriv->dot118021XGrpPrivacy;/* !!! */
++
++			rtw_ap_set_group_key(padapter, param->u.crypt.key, psecuritypriv->dot118021XGrpPrivacy, param->u.crypt.idx);
++
++			pbcmc_sta = rtw_get_bcmc_stainfo(padapter);
++			if (pbcmc_sta) {
++				pbcmc_sta->ieee8021x_blocked = _FALSE;
++				pbcmc_sta->dot118021XPrivacy = psecuritypriv->dot118021XGrpPrivacy; /* rx will use bmc_sta's dot118021XPrivacy			 */
++			}
++
++		}
++
++		goto exit;
++
++	}
++
++	if (psecuritypriv->dot11AuthAlgrthm == dot11AuthAlgrthm_8021X && psta) { /* psk/802_1x */
++		if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++			if (param->u.crypt.set_tx == 1) { /* pairwise key */
++				_rtw_memcpy(psta->dot118021x_UncstKey.skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++				if (strcmp(param->u.crypt.alg, "WEP") == 0) {
++					RTW_INFO("%s, set pairwise key, WEP\n", __FUNCTION__);
++
++					psta->dot118021XPrivacy = _WEP40_;
++					if (param->u.crypt.key_len == 13)
++						psta->dot118021XPrivacy = _WEP104_;
++				} else if (strcmp(param->u.crypt.alg, "TKIP") == 0) {
++					RTW_INFO("%s, set pairwise key, TKIP\n", __FUNCTION__);
++
++					psta->dot118021XPrivacy = _TKIP_;
++
++					/* DEBUG_ERR("set key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len); */
++					/* set mic key */
++					_rtw_memcpy(psta->dot11tkiptxmickey.skey, &(param->u.crypt.key[16]), 8);
++					_rtw_memcpy(psta->dot11tkiprxmickey.skey, &(param->u.crypt.key[24]), 8);
++
++					psecuritypriv->busetkipkey = _TRUE;
++
++				} else if (strcmp(param->u.crypt.alg, "CCMP") == 0) {
++
++					RTW_INFO("%s, set pairwise key, CCMP\n", __FUNCTION__);
++
++					psta->dot118021XPrivacy = _AES_;
++				} else {
++					RTW_INFO("%s, set pairwise key, none\n", __FUNCTION__);
++
++					psta->dot118021XPrivacy = _NO_PRIVACY_;
++				}
++
++				rtw_ap_set_pairwise_key(padapter, psta);
++
++				psta->ieee8021x_blocked = _FALSE;
++
++				psta->bpairwise_key_installed = _TRUE;
++
++			} else { /* group key??? */
++				if (strcmp(param->u.crypt.alg, "WEP") == 0) {
++					_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++					psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++					if (param->u.crypt.key_len == 13)
++						psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++				} else if (strcmp(param->u.crypt.alg, "TKIP") == 0) {
++					psecuritypriv->dot118021XGrpPrivacy = _TKIP_;
++
++					_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++					/* DEBUG_ERR("set key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len); */
++					/* set mic key */
++					_rtw_memcpy(psecuritypriv->dot118021XGrptxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[16]), 8);
++					_rtw_memcpy(psecuritypriv->dot118021XGrprxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[24]), 8);
++
++					psecuritypriv->busetkipkey = _TRUE;
++
++				} else if (strcmp(param->u.crypt.alg, "CCMP") == 0) {
++					psecuritypriv->dot118021XGrpPrivacy = _AES_;
++
++					_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++				} else
++					psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++
++				psecuritypriv->dot118021XGrpKeyid = param->u.crypt.idx;
++
++				psecuritypriv->binstallGrpkey = _TRUE;
++
++				psecuritypriv->dot11PrivacyAlgrthm = psecuritypriv->dot118021XGrpPrivacy;/* !!! */
++
++				rtw_ap_set_group_key(padapter, param->u.crypt.key, psecuritypriv->dot118021XGrpPrivacy, param->u.crypt.idx);
++
++				pbcmc_sta = rtw_get_bcmc_stainfo(padapter);
++				if (pbcmc_sta) {
++					pbcmc_sta->ieee8021x_blocked = _FALSE;
++					pbcmc_sta->dot118021XPrivacy = psecuritypriv->dot118021XGrpPrivacy; /* rx will use bmc_sta's dot118021XPrivacy			 */
++				}
++
++			}
++
++		}
++
++	}
++
++exit:
++
++	return ret;
++
++}
++#endif
++
++static int rtw_cfg80211_set_encryption(struct net_device *dev, struct ieee_param *param, u32 param_len)
++{
++	int ret = 0;
++	u32 wep_key_idx, wep_key_len, wep_total_len;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++#endif /* CONFIG_P2P */
++
++
++	RTW_INFO("%s\n", __func__);
++
++	param->u.crypt.err = 0;
++	param->u.crypt.alg[IEEE_CRYPT_ALG_NAME_LEN - 1] = '\0';
++
++	if (param_len < (u32)((u8 *) param->u.crypt.key - (u8 *) param) + param->u.crypt.key_len) {
++		ret =  -EINVAL;
++		goto exit;
++	}
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff) {
++		if (param->u.crypt.idx >= WEP_KEYS
++#ifdef CONFIG_IEEE80211W
++			&& param->u.crypt.idx > BIP_MAX_KEYID
++#endif /* CONFIG_IEEE80211W */
++		) {
++			ret = -EINVAL;
++			goto exit;
++		}
++	} else {
++#ifdef CONFIG_WAPI_SUPPORT
++		if (strcmp(param->u.crypt.alg, "SMS4"))
++#endif
++		{
++			ret = -EINVAL;
++			goto exit;
++		}
++	}
++
++	if (strcmp(param->u.crypt.alg, "WEP") == 0) {
++		RTW_INFO("wpa_set_encryption, crypt.alg = WEP\n");
++
++		wep_key_idx = param->u.crypt.idx;
++		wep_key_len = param->u.crypt.key_len;
++
++		if ((wep_key_idx > WEP_KEYS) || (wep_key_len <= 0)) {
++			ret = -EINVAL;
++			goto exit;
++		}
++
++		if (psecuritypriv->bWepDefaultKeyIdxSet == 0) {
++			/* wep default key has not been set, so use this key index as default key. */
++
++			wep_key_len = wep_key_len <= 5 ? 5 : 13;
++
++			psecuritypriv->ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			psecuritypriv->dot11PrivacyAlgrthm = _WEP40_;
++			psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++
++			if (wep_key_len == 13) {
++				psecuritypriv->dot11PrivacyAlgrthm = _WEP104_;
++				psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++			}
++
++			psecuritypriv->dot11PrivacyKeyIndex = wep_key_idx;
++		}
++
++		_rtw_memcpy(&(psecuritypriv->dot11DefKey[wep_key_idx].skey[0]), param->u.crypt.key, wep_key_len);
++
++		psecuritypriv->dot11DefKeylen[wep_key_idx] = wep_key_len;
++
++		rtw_set_key(padapter, psecuritypriv, wep_key_idx, 0, _TRUE);
++
++		goto exit;
++	}
++
++	if (padapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X) { /* 802_1x */
++		struct sta_info *psta, *pbcmc_sta;
++		struct sta_priv *pstapriv = &padapter->stapriv;
++
++		/* RTW_INFO("%s, : dot11AuthAlgrthm == dot11AuthAlgrthm_8021X\n", __func__); */
++
++		if (check_fwstate(pmlmepriv, WIFI_STATION_STATE | WIFI_MP_STATE) == _TRUE) { /* sta mode */
++			psta = rtw_get_stainfo(pstapriv, get_bssid(pmlmepriv));
++			if (psta == NULL) {
++				/* DEBUG_ERR( ("Set wpa_set_encryption: Obtain Sta_info fail\n")); */
++				RTW_INFO("%s, : Obtain Sta_info fail\n", __func__);
++			} else {
++				/* Jeff: don't disable ieee8021x_blocked while clearing key */
++				if (strcmp(param->u.crypt.alg, "none") != 0)
++					psta->ieee8021x_blocked = _FALSE;
++
++
++				if ((padapter->securitypriv.ndisencryptstatus == Ndis802_11Encryption2Enabled) ||
++				    (padapter->securitypriv.ndisencryptstatus ==  Ndis802_11Encryption3Enabled))
++					psta->dot118021XPrivacy = padapter->securitypriv.dot11PrivacyAlgrthm;
++
++				if (param->u.crypt.set_tx == 1) { /* pairwise key */
++
++					RTW_INFO("%s, : param->u.crypt.set_tx ==1\n", __func__);
++
++					_rtw_memcpy(psta->dot118021x_UncstKey.skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++					if (strcmp(param->u.crypt.alg, "TKIP") == 0) { /* set mic key */
++						/* DEBUG_ERR(("\nset key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len)); */
++						_rtw_memcpy(psta->dot11tkiptxmickey.skey, &(param->u.crypt.key[16]), 8);
++						_rtw_memcpy(psta->dot11tkiprxmickey.skey, &(param->u.crypt.key[24]), 8);
++
++						padapter->securitypriv.busetkipkey = _FALSE;
++						/* _set_timer(&padapter->securitypriv.tkip_timer, 50);						 */
++					}
++					psta->bpairwise_key_installed = _TRUE;
++					/* DEBUG_ERR((" param->u.crypt.key_len=%d\n",param->u.crypt.key_len)); */
++					RTW_INFO(" ~~~~set sta key:unicastkey\n");
++
++					rtw_setstakey_cmd(padapter, psta, UNICAST_KEY, _TRUE);
++				} else { /* group key */
++					if (strcmp(param->u.crypt.alg, "TKIP") == 0 || strcmp(param->u.crypt.alg, "CCMP") == 0) {
++						_rtw_memcpy(padapter->securitypriv.dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key,
++							(param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++						_rtw_memcpy(padapter->securitypriv.dot118021XGrptxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[16]), 8);
++						_rtw_memcpy(padapter->securitypriv.dot118021XGrprxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[24]), 8);
++						padapter->securitypriv.binstallGrpkey = _TRUE;
++						/* DEBUG_ERR((" param->u.crypt.key_len=%d\n", param->u.crypt.key_len)); */
++						RTW_INFO(" ~~~~set sta key:groupkey\n");
++
++						padapter->securitypriv.dot118021XGrpKeyid = param->u.crypt.idx;
++						rtw_set_key(padapter, &padapter->securitypriv, param->u.crypt.idx, 1, _TRUE);
++					}
++#ifdef CONFIG_IEEE80211W
++					else if (strcmp(param->u.crypt.alg, "BIP") == 0) {
++						int no;
++						/* RTW_INFO("BIP key_len=%d , index=%d @@@@@@@@@@@@@@@@@@\n", param->u.crypt.key_len, param->u.crypt.idx); */
++						/* save the IGTK key, length 16 bytes */
++						_rtw_memcpy(padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey,  param->u.crypt.key,
++							(param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++						/*RTW_INFO("IGTK key below:\n");
++						for(no=0;no<16;no++)
++							printk(" %02x ", padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey[no]);
++						RTW_INFO("\n");*/
++						padapter->securitypriv.dot11wBIPKeyid = param->u.crypt.idx;
++						padapter->securitypriv.binstallBIPkey = _TRUE;
++						RTW_INFO(" ~~~~set sta key:IGKT\n");
++					}
++#endif /* CONFIG_IEEE80211W */
++
++#ifdef CONFIG_P2P
++					if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++						if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_PROVISIONING_ING))
++							rtw_p2p_set_state(pwdinfo, P2P_STATE_PROVISIONING_DONE);
++					}
++#endif /* CONFIG_P2P */
++
++				}
++			}
++
++			pbcmc_sta = rtw_get_bcmc_stainfo(padapter);
++			if (pbcmc_sta == NULL) {
++				/* DEBUG_ERR( ("Set OID_802_11_ADD_KEY: bcmc stainfo is null\n")); */
++			} else {
++				/* Jeff: don't disable ieee8021x_blocked while clearing key */
++				if (strcmp(param->u.crypt.alg, "none") != 0)
++					pbcmc_sta->ieee8021x_blocked = _FALSE;
++
++				if ((padapter->securitypriv.ndisencryptstatus == Ndis802_11Encryption2Enabled) ||
++				    (padapter->securitypriv.ndisencryptstatus ==  Ndis802_11Encryption3Enabled))
++					pbcmc_sta->dot118021XPrivacy = padapter->securitypriv.dot11PrivacyAlgrthm;
++			}
++		} else if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE)) { /* adhoc mode */
++		}
++	}
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (strcmp(param->u.crypt.alg, "SMS4") == 0) {
++		PRT_WAPI_T			pWapiInfo = &padapter->wapiInfo;
++		PRT_WAPI_STA_INFO	pWapiSta;
++		u8					WapiASUEPNInitialValueSrc[16] = {0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++		u8					WapiAEPNInitialValueSrc[16] = {0x37, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++		u8					WapiAEMultiCastPNInitialValueSrc[16] = {0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++
++		if (param->u.crypt.set_tx == 1) {
++			list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++				if (_rtw_memcmp(pWapiSta->PeerMacAddr, param->sta_addr, 6)) {
++					_rtw_memcpy(pWapiSta->lastTxUnicastPN, WapiASUEPNInitialValueSrc, 16);
++
++					pWapiSta->wapiUsk.bSet = true;
++					_rtw_memcpy(pWapiSta->wapiUsk.dataKey, param->u.crypt.key, 16);
++					_rtw_memcpy(pWapiSta->wapiUsk.micKey, param->u.crypt.key + 16, 16);
++					pWapiSta->wapiUsk.keyId = param->u.crypt.idx ;
++					pWapiSta->wapiUsk.bTxEnable = true;
++
++					_rtw_memcpy(pWapiSta->lastRxUnicastPNBEQueue, WapiAEPNInitialValueSrc, 16);
++					_rtw_memcpy(pWapiSta->lastRxUnicastPNBKQueue, WapiAEPNInitialValueSrc, 16);
++					_rtw_memcpy(pWapiSta->lastRxUnicastPNVIQueue, WapiAEPNInitialValueSrc, 16);
++					_rtw_memcpy(pWapiSta->lastRxUnicastPNVOQueue, WapiAEPNInitialValueSrc, 16);
++					_rtw_memcpy(pWapiSta->lastRxUnicastPN, WapiAEPNInitialValueSrc, 16);
++					pWapiSta->wapiUskUpdate.bTxEnable = false;
++					pWapiSta->wapiUskUpdate.bSet = false;
++
++					if (psecuritypriv->sw_encrypt == false || psecuritypriv->sw_decrypt == false) {
++						/* set unicast key for ASUE */
++						rtw_wapi_set_key(padapter, &pWapiSta->wapiUsk, pWapiSta, false, false);
++					}
++				}
++			}
++		} else {
++			list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++				if (_rtw_memcmp(pWapiSta->PeerMacAddr, get_bssid(pmlmepriv), 6)) {
++					pWapiSta->wapiMsk.bSet = true;
++					_rtw_memcpy(pWapiSta->wapiMsk.dataKey, param->u.crypt.key, 16);
++					_rtw_memcpy(pWapiSta->wapiMsk.micKey, param->u.crypt.key + 16, 16);
++					pWapiSta->wapiMsk.keyId = param->u.crypt.idx ;
++					pWapiSta->wapiMsk.bTxEnable = false;
++					if (!pWapiSta->bSetkeyOk)
++						pWapiSta->bSetkeyOk = true;
++					pWapiSta->bAuthenticateInProgress = false;
++
++					_rtw_memcpy(pWapiSta->lastRxMulticastPN, WapiAEMultiCastPNInitialValueSrc, 16);
++
++					if (psecuritypriv->sw_decrypt == false) {
++						/* set rx broadcast key for ASUE */
++						rtw_wapi_set_key(padapter, &pWapiSta->wapiMsk, pWapiSta, true, false);
++					}
++				}
++
++			}
++		}
++	}
++#endif
++
++
++exit:
++
++	RTW_INFO("%s, ret=%d\n", __func__, ret);
++
++
++	return ret;
++}
++
++static int cfg80211_rtw_add_key(struct wiphy *wiphy, struct net_device *ndev,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	u8 key_index, bool pairwise, const u8 *mac_addr,
++#else	/* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) */
++	u8 key_index, const u8 *mac_addr,
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) */
++	struct key_params *params)
++{
++	char *alg_name;
++	u32 param_len;
++	struct ieee_param *param = NULL;
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct wireless_dev *rtw_wdev = padapter->rtw_wdev;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++#ifdef CONFIG_TDLS
++	struct sta_info *ptdls_sta;
++#endif /* CONFIG_TDLS */
++
++	RTW_INFO(FUNC_NDEV_FMT" adding key for %pM\n", FUNC_NDEV_ARG(ndev), mac_addr);
++	RTW_INFO("cipher=0x%x\n", params->cipher);
++	RTW_INFO("key_len=0x%x\n", params->key_len);
++	RTW_INFO("seq_len=0x%x\n", params->seq_len);
++	RTW_INFO("key_index=%d\n", key_index);
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	RTW_INFO("pairwise=%d\n", pairwise);
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) */
++
++	param_len = sizeof(struct ieee_param) + params->key_len;
++	param = (struct ieee_param *)rtw_malloc(param_len);
++	if (param == NULL)
++		return -1;
++
++	_rtw_memset(param, 0, param_len);
++
++	param->cmd = IEEE_CMD_SET_ENCRYPTION;
++	_rtw_memset(param->sta_addr, 0xff, ETH_ALEN);
++
++	switch (params->cipher) {
++	case IW_AUTH_CIPHER_NONE:
++		/* todo: remove key */
++		/* remove = 1;	 */
++		alg_name = "none";
++		break;
++	case WLAN_CIPHER_SUITE_WEP40:
++	case WLAN_CIPHER_SUITE_WEP104:
++		alg_name = "WEP";
++		break;
++	case WLAN_CIPHER_SUITE_TKIP:
++		alg_name = "TKIP";
++		break;
++	case WLAN_CIPHER_SUITE_CCMP:
++		alg_name = "CCMP";
++		break;
++#ifdef CONFIG_IEEE80211W
++	case WLAN_CIPHER_SUITE_AES_CMAC:
++		alg_name = "BIP";
++		break;
++#endif /* CONFIG_IEEE80211W */
++#ifdef CONFIG_WAPI_SUPPORT
++	case WLAN_CIPHER_SUITE_SMS4:
++		alg_name = "SMS4";
++		if (pairwise == NL80211_KEYTYPE_PAIRWISE) {
++			if (key_index != 0 && key_index != 1) {
++				ret = -ENOTSUPP;
++				goto addkey_end;
++			}
++			_rtw_memcpy((void *)param->sta_addr, (void *)mac_addr, ETH_ALEN);
++		} else
++			RTW_INFO("mac_addr is null\n");
++		RTW_INFO("rtw_wx_set_enc_ext: SMS4 case\n");
++		break;
++#endif
++
++	default:
++		ret = -ENOTSUPP;
++		goto addkey_end;
++	}
++
++	strncpy((char *)param->u.crypt.alg, alg_name, IEEE_CRYPT_ALG_NAME_LEN);
++
++
++	if (!mac_addr || is_broadcast_ether_addr(mac_addr)) {
++		param->u.crypt.set_tx = 0; /* for wpa/wpa2 group key */
++	} else {
++		param->u.crypt.set_tx = 1; /* for wpa/wpa2 pairwise key */
++	}
++
++
++	/* param->u.crypt.idx = key_index - 1; */
++	param->u.crypt.idx = key_index;
++
++	if (params->seq_len && params->seq)
++		_rtw_memcpy(param->u.crypt.seq, (u8 *)params->seq, params->seq_len);
++
++	if (params->key_len && params->key) {
++		param->u.crypt.key_len = params->key_len;
++		_rtw_memcpy(param->u.crypt.key, (u8 *)params->key, params->key_len);
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE) {
++#ifdef CONFIG_TDLS
++		if (rtw_tdls_is_driver_setup(padapter) == _FALSE && mac_addr) {
++			ptdls_sta = rtw_get_stainfo(&padapter->stapriv, (void *)mac_addr);
++			if (ptdls_sta != NULL && ptdls_sta->tdls_sta_state) {
++				_rtw_memcpy(ptdls_sta->tpk.tk, params->key, params->key_len);
++				rtw_tdls_set_key(padapter, ptdls_sta);
++				goto addkey_end;
++			}
++		}
++#endif /* CONFIG_TDLS */
++
++		ret =  rtw_cfg80211_set_encryption(ndev, param, param_len);
++	} else if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++#ifdef CONFIG_AP_MODE
++		if (mac_addr)
++			_rtw_memcpy(param->sta_addr, (void *)mac_addr, ETH_ALEN);
++
++		ret = rtw_cfg80211_ap_set_encryption(ndev, param, param_len);
++#endif
++	} else if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE
++		|| check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE
++	) {
++		/* RTW_INFO("@@@@@@@@@@ fw_state=0x%x, iftype=%d\n", pmlmepriv->fw_state, rtw_wdev->iftype); */
++		ret =  rtw_cfg80211_set_encryption(ndev, param, param_len);
++	} else
++		RTW_INFO("error! fw_state=0x%x, iftype=%d\n", pmlmepriv->fw_state, rtw_wdev->iftype);
++
++
++addkey_end:
++	if (param)
++		rtw_mfree((u8 *)param, param_len);
++
++	return ret;
++
++}
++
++static int cfg80211_rtw_get_key(struct wiphy *wiphy, struct net_device *ndev,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	u8 key_index, bool pairwise, const u8 *mac_addr,
++#else	/* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) */
++	u8 key_index, const u8 *mac_addr,
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) */
++	void *cookie,
++	void (*callback)(void *cookie, struct key_params *))
++{
++#if 0
++	struct iwm_priv *iwm = ndev_to_iwm(ndev);
++	struct iwm_key *key = &iwm->keys[key_index];
++	struct key_params params;
++
++	IWM_DBG_WEXT(iwm, DBG, "Getting key %d\n", key_index);
++
++	memset(&params, 0, sizeof(params));
++
++	params.cipher = key->cipher;
++	params.key_len = key->key_len;
++	params.seq_len = key->seq_len;
++	params.seq = key->seq;
++	params.key = key->key;
++
++	callback(cookie, &params);
++
++	return key->key_len ? 0 : -ENOENT;
++#endif
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++	return 0;
++}
++
++static int cfg80211_rtw_del_key(struct wiphy *wiphy, struct net_device *ndev,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++				u8 key_index, bool pairwise, const u8 *mac_addr)
++#else	/* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) */
++				u8 key_index, const u8 *mac_addr)
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) */
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++
++	RTW_INFO(FUNC_NDEV_FMT" key_index=%d\n", FUNC_NDEV_ARG(ndev), key_index);
++
++	if (key_index == psecuritypriv->dot11PrivacyKeyIndex) {
++		/* clear the flag of wep default key set. */
++		psecuritypriv->bWepDefaultKeyIdxSet = 0;
++	}
++
++	return 0;
++}
++
++static int cfg80211_rtw_set_default_key(struct wiphy *wiphy,
++	struct net_device *ndev, u8 key_index
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 38)) || defined(COMPAT_KERNEL_RELEASE)
++	, bool unicast, bool multicast
++	#endif
++)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++
++#define SET_DEF_KEY_PARAM_FMT " key_index=%d"
++#define SET_DEF_KEY_PARAM_ARG , key_index
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 38)) || defined(COMPAT_KERNEL_RELEASE)
++	#define SET_DEF_KEY_PARAM_FMT_2_6_38 ", unicast=%d, multicast=%d"
++	#define SET_DEF_KEY_PARAM_ARG_2_6_38 , unicast, multicast
++#else
++	#define SET_DEF_KEY_PARAM_FMT_2_6_38 ""
++	#define SET_DEF_KEY_PARAM_ARG_2_6_38
++#endif
++
++	RTW_INFO(FUNC_NDEV_FMT
++		SET_DEF_KEY_PARAM_FMT
++		SET_DEF_KEY_PARAM_FMT_2_6_38
++		"\n", FUNC_NDEV_ARG(ndev)
++		SET_DEF_KEY_PARAM_ARG
++		SET_DEF_KEY_PARAM_ARG_2_6_38
++	);
++
++	if ((key_index < WEP_KEYS) && ((psecuritypriv->dot11PrivacyAlgrthm == _WEP40_) || (psecuritypriv->dot11PrivacyAlgrthm == _WEP104_))) { /* set wep default key */
++		psecuritypriv->ndisencryptstatus = Ndis802_11Encryption1Enabled;
++
++		psecuritypriv->dot11PrivacyKeyIndex = key_index;
++
++		psecuritypriv->dot11PrivacyAlgrthm = _WEP40_;
++		psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++		if (psecuritypriv->dot11DefKeylen[key_index] == 13) {
++			psecuritypriv->dot11PrivacyAlgrthm = _WEP104_;
++			psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++		}
++
++		psecuritypriv->bWepDefaultKeyIdxSet = 1; /* set the flag to represent that wep default key has been set */
++	}
++
++	return 0;
++
++}
++#if defined(CONFIG_GTK_OL) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 1, 0))
++static int cfg80211_rtw_set_rekey_data(struct wiphy *wiphy,
++	struct net_device *ndev,
++	struct cfg80211_gtk_rekey_data *data)
++{
++	/*int i;*/
++	struct sta_info *psta;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct mlme_priv   *pmlmepriv = &padapter->mlmepriv;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct security_priv *psecuritypriv = &(padapter->securitypriv);
++
++	psta = rtw_get_stainfo(pstapriv, get_bssid(pmlmepriv));
++	if (psta == NULL) {
++		RTW_INFO("%s, : Obtain Sta_info fail\n", __func__);
++		return -1;
++	}
++
++	_rtw_memcpy(psta->kek, data->kek, NL80211_KEK_LEN);
++	/*printk("\ncfg80211_rtw_set_rekey_data KEK:");
++	for(i=0;i<NL80211_KEK_LEN; i++)
++		printk(" %02x ", psta->kek[i]);*/
++	_rtw_memcpy(psta->kck, data->kck, NL80211_KCK_LEN);
++	/*printk("\ncfg80211_rtw_set_rekey_data KCK:");
++	for(i=0;i<NL80211_KCK_LEN; i++)
++		printk(" %02x ", psta->kck[i]);*/
++	_rtw_memcpy(psta->replay_ctr, data->replay_ctr, NL80211_REPLAY_CTR_LEN);
++	psecuritypriv->binstallKCK_KEK = _TRUE;
++	/*printk("\nREPLAY_CTR: ");
++	for(i=0;i<RTW_REPLAY_CTR_LEN; i++)
++		printk(" %02x ", psta->replay_ctr[i]);*/
++
++	return 0;
++}
++#endif /*CONFIG_GTK_OL*/
++static int cfg80211_rtw_get_station(struct wiphy *wiphy,
++	struct net_device *ndev,
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 16, 0))
++	u8 *mac,
++#else
++	const u8 *mac,
++#endif
++	struct station_info *sinfo)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct sta_info *psta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	sinfo->filled = 0;
++
++	if (!mac) {
++		RTW_INFO(FUNC_NDEV_FMT" mac==%p\n", FUNC_NDEV_ARG(ndev), mac);
++		ret = -ENOENT;
++		goto exit;
++	}
++
++	psta = rtw_get_stainfo(pstapriv, (u8 *)mac);
++	if (psta == NULL) {
++		RTW_INFO("%s, sta_info is null\n", __func__);
++		ret = -ENOENT;
++		goto exit;
++	}
++
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO(FUNC_NDEV_FMT" mac="MAC_FMT"\n", FUNC_NDEV_ARG(ndev), MAC_ARG(mac));
++#endif
++
++	/* for infra./P2PClient mode */
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)
++		&& check_fwstate(pmlmepriv, _FW_LINKED)
++	) {
++		struct wlan_network  *cur_network = &(pmlmepriv->cur_network);
++
++		if (_rtw_memcmp((u8 *)mac, cur_network->network.MacAddress, ETH_ALEN) == _FALSE) {
++			RTW_INFO("%s, mismatch bssid="MAC_FMT"\n", __func__, MAC_ARG(cur_network->network.MacAddress));
++			ret = -ENOENT;
++			goto exit;
++		}
++
++		sinfo->filled |= STATION_INFO_SIGNAL;
++		sinfo->signal = translate_percentage_to_dbm(padapter->recvpriv.signal_strength);
++
++		sinfo->filled |= STATION_INFO_TX_BITRATE;
++		sinfo->txrate.legacy = rtw_get_cur_max_rate(padapter);
++
++		sinfo->filled |= STATION_INFO_RX_PACKETS;
++		sinfo->rx_packets = sta_rx_data_pkts(psta);
++
++		sinfo->filled |= STATION_INFO_TX_PACKETS;
++		sinfo->tx_packets = psta->sta_stats.tx_pkts;
++
++	}
++
++	/* for Ad-Hoc/AP mode */
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_STATE)
++		|| check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE)
++		|| check_fwstate(pmlmepriv, WIFI_AP_STATE))
++		&& check_fwstate(pmlmepriv, _FW_LINKED)
++	) {
++		/* TODO: should acquire station info... */
++	}
++
++exit:
++	return ret;
++}
++
++extern int netdev_open(struct net_device *pnetdev);
++
++#if 0
++enum nl80211_iftype {
++	NL80211_IFTYPE_UNSPECIFIED,
++	NL80211_IFTYPE_ADHOC, /* 1 */
++	NL80211_IFTYPE_STATION, /* 2 */
++	NL80211_IFTYPE_AP, /* 3 */
++	NL80211_IFTYPE_AP_VLAN,
++	NL80211_IFTYPE_WDS,
++	NL80211_IFTYPE_MONITOR, /* 6 */
++	NL80211_IFTYPE_MESH_POINT,
++	NL80211_IFTYPE_P2P_CLIENT, /* 8 */
++	NL80211_IFTYPE_P2P_GO, /* 9 */
++	/* keep last */
++	NUM_NL80211_IFTYPES,
++	NL80211_IFTYPE_MAX = NUM_NL80211_IFTYPES - 1
++};
++#endif
++static int cfg80211_rtw_change_iface(struct wiphy *wiphy,
++				     struct net_device *ndev,
++				     enum nl80211_iftype type, u32 *flags,
++				     struct vif_params *params)
++{
++	enum nl80211_iftype old_type;
++	NDIS_802_11_NETWORK_INFRASTRUCTURE networkType;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct wireless_dev *rtw_wdev = padapter->rtw_wdev;
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif
++	int ret = 0;
++	u8 change = _FALSE;
++
++	RTW_INFO(FUNC_NDEV_FMT" type=%d, hw_port:%d\n", FUNC_NDEV_ARG(ndev), type, padapter->hw_port);
++
++	if (adapter_to_dvobj(padapter)->processing_dev_remove == _TRUE) {
++		ret = -EPERM;
++		goto exit;
++	}
++
++
++	RTW_INFO(FUNC_NDEV_FMT" call netdev_open\n", FUNC_NDEV_ARG(ndev));
++	if (netdev_open(ndev) != 0) {
++		RTW_INFO(FUNC_NDEV_FMT" call netdev_open fail\n", FUNC_NDEV_ARG(ndev));
++		ret = -EPERM;
++		goto exit;
++	}
++
++
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		RTW_INFO(FUNC_NDEV_FMT" call rtw_pwr_wakeup fail\n", FUNC_NDEV_ARG(ndev));
++		ret = -EPERM;
++		goto exit;
++	}
++
++	old_type = rtw_wdev->iftype;
++	RTW_INFO(FUNC_NDEV_FMT" old_iftype=%d, new_iftype=%d\n",
++		FUNC_NDEV_ARG(ndev), old_type, type);
++
++	if (old_type != type) {
++		change = _TRUE;
++		pmlmeext->action_public_rxseq = 0xffff;
++		pmlmeext->action_public_dialog_token = 0xff;
++	}
++
++	/* initial default type */
++	ndev->type = ARPHRD_ETHER;
++
++	if (type == NL80211_IFTYPE_MONITOR) {
++		rtw_ps_deny(padapter, PS_DENY_MONITOR_MODE);
++		LeaveAllPowerSaveMode(padapter);
++	} else {
++		rtw_ps_deny_cancel(padapter, PS_DENY_MONITOR_MODE);
++	}
++
++	switch (type) {
++	case NL80211_IFTYPE_ADHOC:
++		networkType = Ndis802_11IBSS;
++		break;
++#if defined(CONFIG_P2P) && ((LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE))
++	case NL80211_IFTYPE_P2P_CLIENT:
++#endif
++	case NL80211_IFTYPE_STATION:
++		networkType = Ndis802_11Infrastructure;
++		#ifdef CONFIG_P2P
++		if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++			if (change && rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++				/* it means remove GO and change mode from AP(GO) to station(P2P DEVICE) */
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++				rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++
++				RTW_INFO("%s, role=%d, p2p_state=%d, pre_p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo), rtw_p2p_pre_state(pwdinfo));
++			}
++			#if ((LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE))
++			if (type == NL80211_IFTYPE_P2P_CLIENT)
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_CLIENT);
++			else {
++				/* NL80211_IFTYPE_STATION */
++				if (rtw_p2p_role(pwdinfo) == P2P_ROLE_CLIENT)
++					rtw_p2p_set_role(pwdinfo, P2P_ROLE_DEVICE);
++			}
++			#endif
++		}
++		#endif /* CONFIG_P2P */
++		break;
++#if defined(CONFIG_P2P) && ((LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE))
++	case NL80211_IFTYPE_P2P_GO:
++#endif
++	case NL80211_IFTYPE_AP:
++		networkType = Ndis802_11APMode;
++		#ifdef CONFIG_P2P
++		if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++			if (change && !rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++				/* it means P2P Group created, we will be GO and change mode from  P2P DEVICE to AP(GO) */
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++			}
++		}
++		#endif /* CONFIG_P2P */
++		break;
++	case NL80211_IFTYPE_MONITOR:
++		networkType = Ndis802_11Monitor;
++#if 0
++		ndev->type = ARPHRD_IEEE80211; /* IEEE 802.11 : 801 */
++#endif
++		ndev->type = ARPHRD_IEEE80211_RADIOTAP; /* IEEE 802.11 + radiotap header : 803 */
++		break;
++	default:
++		ret = -EOPNOTSUPP;
++		goto exit;
++	}
++
++	rtw_wdev->iftype = type;
++
++	if (rtw_set_802_11_infrastructure_mode(padapter, networkType) == _FALSE) {
++		rtw_wdev->iftype = old_type;
++		ret = -EPERM;
++		goto exit;
++	}
++
++	rtw_setopmode_cmd(padapter, networkType, _TRUE);
++
++exit:
++
++	RTW_INFO(FUNC_NDEV_FMT" ret:%d\n", FUNC_NDEV_ARG(ndev), ret);
++	return ret;
++}
++
++void rtw_cfg80211_indicate_scan_done(_adapter *adapter, bool aborted)
++{
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(adapter);
++	_irqL	irqL;
++	
++	struct cfg80211_scan_info info = {
++		.aborted = aborted
++	};
++
++	_enter_critical_bh(&pwdev_priv->scan_req_lock, &irqL);
++	if (pwdev_priv->scan_request != NULL) {
++		#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO("%s with scan req\n", __FUNCTION__);
++		#endif
++
++		/* avoid WARN_ON(request != wiphy_to_dev(request->wiphy)->scan_req); */
++		if (pwdev_priv->scan_request->wiphy != pwdev_priv->rtw_wdev->wiphy)
++			RTW_INFO("error wiphy compare\n");
++		else
++			cfg80211_scan_done(pwdev_priv->scan_request, &info);
++
++		pwdev_priv->scan_request = NULL;
++	} else {
++		#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO("%s without scan req\n", __FUNCTION__);
++		#endif
++	}
++	_exit_critical_bh(&pwdev_priv->scan_req_lock, &irqL);
++}
++
++u32 rtw_cfg80211_wait_scan_req_empty(_adapter *adapter, u32 timeout_ms)
++{
++	struct rtw_wdev_priv *wdev_priv = adapter_wdev_data(adapter);
++	u8 empty = _FALSE;
++	u32 start;
++	u32 pass_ms;
++
++	start = rtw_get_current_time();
++
++	while (rtw_get_passing_time_ms(start) <= timeout_ms) {
++
++		if (RTW_CANNOT_RUN(adapter))
++			break;
++
++		if (!wdev_priv->scan_request) {
++			empty = _TRUE;
++			break;
++		}
++
++		rtw_msleep_os(10);
++	}
++
++	pass_ms = rtw_get_passing_time_ms(start);
++
++	if (empty == _FALSE && pass_ms > timeout_ms)
++		RTW_PRINT(FUNC_ADPT_FMT" pass_ms:%u, timeout\n"
++			, FUNC_ADPT_ARG(adapter), pass_ms);
++
++	return pass_ms;
++}
++
++void rtw_cfg80211_unlink_bss(_adapter *padapter, struct wlan_network *pnetwork)
++{
++	struct wireless_dev *pwdev = padapter->rtw_wdev;
++	struct wiphy *wiphy = pwdev->wiphy;
++	struct cfg80211_bss *bss = NULL;
++	WLAN_BSSID_EX select_network = pnetwork->network;
++
++	bss = cfg80211_get_bss(wiphy, NULL/*notify_channel*/,
++		select_network.MacAddress, select_network.Ssid.Ssid,
++		select_network.Ssid.SsidLength, 0/*WLAN_CAPABILITY_ESS*/,
++		0/*WLAN_CAPABILITY_ESS*/);
++
++	if (bss) {
++		cfg80211_unlink_bss(wiphy, bss);
++		RTW_INFO("%s(): cfg80211_unlink %s!! () ", __func__, select_network.Ssid.Ssid);
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(3, 9, 0)
++		cfg80211_put_bss(padapter->rtw_wdev->wiphy, bss);
++#else
++		cfg80211_put_bss(bss);
++#endif
++	}
++	return;
++}
++
++void rtw_cfg80211_surveydone_event_callback(_adapter *padapter)
++{
++	_irqL	irqL;
++	_list					*plist, *phead;
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	_queue				*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	u32 cnt = 0;
++	u32 wait_for_surveydone;
++	sint wait_status;
++#ifdef CONFIG_P2P
++	struct	wifidirect_info	*pwdinfo = &padapter->wdinfo;
++#endif /* CONFIG_P2P */
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(padapter);
++
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO("%s\n", __func__);
++#endif
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		/* report network only if the current channel set contains the channel to which this network belongs */
++		if (rtw_ch_set_search_ch(padapter->mlmeextpriv.channel_set, pnetwork->network.Configuration.DSConfig) >= 0
++			&& rtw_mlme_band_check(padapter, pnetwork->network.Configuration.DSConfig) == _TRUE
++			&& _TRUE == rtw_validate_ssid(&(pnetwork->network.Ssid))
++		) {
++			/* ev=translate_scan(padapter, a, pnetwork, ev, stop); */
++			rtw_cfg80211_inform_bss(padapter, pnetwork);
++		}
++#if 0
++		/* check ralink testbed RSN IE length */
++		{
++			if (_rtw_memcmp(pnetwork->network.Ssid.Ssid, "Ralink_11n_AP", 13)) {
++				uint ie_len = 0;
++				u8 *p = NULL;
++				p = rtw_get_ie(pnetwork->network.IEs + _BEACON_IE_OFFSET_, _RSN_IE_2_, &ie_len, (pnetwork->network.IELength - _BEACON_IE_OFFSET_));
++				RTW_INFO("ie_len=%d\n", ie_len);
++			}
++		}
++#endif
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++}
++
++static int rtw_cfg80211_set_probe_req_wpsp2pie(_adapter *padapter, char *buf, int len)
++{
++	int ret = 0;
++	uint wps_ielen = 0;
++	u8 *wps_ie;
++	u32	p2p_ielen = 0;
++	u8 *p2p_ie;
++	u32	wfd_ielen = 0;
++	u8 *wfd_ie;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO("%s, ielen=%d\n", __func__, len);
++#endif
++
++	if (len > 0) {
++		wps_ie = rtw_get_wps_ie(buf, len, NULL, &wps_ielen);
++		if (wps_ie) {
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("probe_req_wps_ielen=%d\n", wps_ielen);
++			#endif
++
++			if (pmlmepriv->wps_probe_req_ie) {
++				u32 free_len = pmlmepriv->wps_probe_req_ie_len;
++				pmlmepriv->wps_probe_req_ie_len = 0;
++				rtw_mfree(pmlmepriv->wps_probe_req_ie, free_len);
++				pmlmepriv->wps_probe_req_ie = NULL;
++			}
++
++			pmlmepriv->wps_probe_req_ie = rtw_malloc(wps_ielen);
++			if (pmlmepriv->wps_probe_req_ie == NULL) {
++				RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				return -EINVAL;
++
++			}
++			_rtw_memcpy(pmlmepriv->wps_probe_req_ie, wps_ie, wps_ielen);
++			pmlmepriv->wps_probe_req_ie_len = wps_ielen;
++		}
++
++		/* buf += wps_ielen; */
++		/* len -= wps_ielen; */
++
++		#ifdef CONFIG_P2P
++		p2p_ie = rtw_get_p2p_ie(buf, len, NULL, &p2p_ielen);
++		if (p2p_ie) {
++			struct wifidirect_info *wdinfo = &padapter->wdinfo;
++			u32 attr_contentlen = 0;
++			u8 listen_ch_attr[5];
++
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("probe_req_p2p_ielen=%d\n", p2p_ielen);
++			#endif
++
++			if (pmlmepriv->p2p_probe_req_ie) {
++				u32 free_len = pmlmepriv->p2p_probe_req_ie_len;
++				pmlmepriv->p2p_probe_req_ie_len = 0;
++				rtw_mfree(pmlmepriv->p2p_probe_req_ie, free_len);
++				pmlmepriv->p2p_probe_req_ie = NULL;
++			}
++
++			pmlmepriv->p2p_probe_req_ie = rtw_malloc(p2p_ielen);
++			if (pmlmepriv->p2p_probe_req_ie == NULL) {
++				RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				return -EINVAL;
++
++			}
++			_rtw_memcpy(pmlmepriv->p2p_probe_req_ie, p2p_ie, p2p_ielen);
++			pmlmepriv->p2p_probe_req_ie_len = p2p_ielen;
++
++			if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_LISTEN_CH, (u8 *)listen_ch_attr, (uint *) &attr_contentlen)
++				&& attr_contentlen == 5) {
++				if (wdinfo->listen_channel !=  listen_ch_attr[4]) {
++					RTW_INFO(FUNC_ADPT_FMT" listen channel - country:%c%c%c, class:%u, ch:%u\n",
++						FUNC_ADPT_ARG(padapter), listen_ch_attr[0], listen_ch_attr[1], listen_ch_attr[2],
++						listen_ch_attr[3], listen_ch_attr[4]);
++					wdinfo->listen_channel = listen_ch_attr[4];
++				}
++			}
++		}
++		#endif /* CONFIG_P2P */
++
++		#ifdef CONFIG_WFD
++		wfd_ie = rtw_get_wfd_ie(buf, len, NULL, &wfd_ielen);
++		if (wfd_ie) {
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("probe_req_wfd_ielen=%d\n", wfd_ielen);
++			#endif
++
++			if (rtw_mlme_update_wfd_ie_data(pmlmepriv, MLME_PROBE_REQ_IE, wfd_ie, wfd_ielen) != _SUCCESS)
++				return -EINVAL;
++		}
++		#endif /* CONFIG_WFD */
++	}
++
++	return ret;
++
++}
++
++static int cfg80211_rtw_scan(struct wiphy *wiphy
++	#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 6, 0))
++	, struct net_device *ndev
++	#endif
++	, struct cfg80211_scan_request *request)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct net_device *ndev = wdev_to_ndev(request->wdev);
++#endif
++	int i, chan_num = 0;
++	u8 _status = _FALSE;
++	int ret = 0;
++	NDIS_802_11_SSID ssid[RTW_SSID_SCAN_AMOUNT];
++	struct rtw_ieee80211_channel ch[RTW_CHANNEL_SCAN_AMOUNT];
++	struct rtw_ieee80211_channel *pch;
++	_irqL	irqL;
++	u8 *wps_ie = NULL;
++	uint wps_ielen = 0;
++	u8 *p2p_ie = NULL;
++	uint p2p_ielen = 0;
++	u8 survey_times = 3;
++	u8 survey_times_for_one_ch = 6;
++	struct cfg80211_ssid *ssids = request->ssids;
++	int social_channel = 0, j = 0;
++	bool need_indicate_scan_done = _FALSE;
++	bool ps_denied = _FALSE;
++
++	_adapter *padapter;
++	struct rtw_wdev_priv *pwdev_priv;
++	struct mlme_priv *pmlmepriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo;
++#endif /* CONFIG_P2P */
++
++	if (ndev == NULL) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	padapter = (_adapter *)rtw_netdev_priv(ndev);
++	pwdev_priv = adapter_wdev_data(padapter);
++	pmlmepriv = &padapter->mlmepriv;
++#ifdef CONFIG_P2P
++	pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++#ifdef CONFIG_MP_INCLUDED
++	if (rtw_mi_mp_mode_check(padapter)) {
++		RTW_INFO("MP mode block Scan request\n");
++		ret = -EPERM;
++		goto exit;
++	}
++#endif
++
++	_enter_critical_bh(&pwdev_priv->scan_req_lock, &irqL);
++	pwdev_priv->scan_request = request;
++	_exit_critical_bh(&pwdev_priv->scan_req_lock, &irqL);
++
++	if (adapter_wdev_data(padapter)->block_scan == _TRUE) {
++		RTW_INFO(FUNC_ADPT_FMT" wdev_priv.block_scan is set\n", FUNC_ADPT_ARG(padapter));
++		need_indicate_scan_done = _TRUE;
++		goto check_need_indicate_scan_done;
++	}
++
++	rtw_ps_deny(padapter, PS_DENY_SCAN);
++	ps_denied = _TRUE;
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		need_indicate_scan_done = _TRUE;
++		goto check_need_indicate_scan_done;
++	}
++
++#ifdef CONFIG_P2P
++	if (pwdinfo->driver_interface == DRIVER_CFG80211) {
++		if (ssids->ssid != NULL
++			&& _rtw_memcmp(ssids->ssid, "DIRECT-", 7)
++			&& rtw_get_p2p_ie((u8 *)request->ie, request->ie_len, NULL, NULL)
++		) {
++			if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++				rtw_p2p_enable(padapter, P2P_ROLE_DEVICE);
++				adapter_wdev_data(padapter)->p2p_enabled = _TRUE;
++			} else {
++				rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++				#ifdef CONFIG_DEBUG_CFG80211
++				RTW_INFO("%s, role=%d, p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo));
++				#endif
++			}
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_LISTEN);
++
++			if (request->n_channels == 3 &&
++				request->channels[0]->hw_value == 1 &&
++				request->channels[1]->hw_value == 6 &&
++				request->channels[2]->hw_value == 11
++			)
++				social_channel = 1;
++		}
++	}
++#endif /*CONFIG_P2P*/
++
++	if (request->ie && request->ie_len > 0)
++		rtw_cfg80211_set_probe_req_wpsp2pie(padapter, (u8 *)request->ie, request->ie_len);
++
++	if (rtw_is_scan_deny(padapter)) {
++		RTW_INFO(FUNC_ADPT_FMT	": scan deny\n", FUNC_ADPT_ARG(padapter));
++		need_indicate_scan_done = _TRUE;
++		goto check_need_indicate_scan_done;
++	}
++
++	/* check fw state*/
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++
++#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO(FUNC_ADPT_FMT" under WIFI_AP_STATE\n", FUNC_ADPT_ARG(padapter));
++#endif
++
++		if (check_fwstate(pmlmepriv, WIFI_UNDER_WPS | _FW_UNDER_SURVEY | _FW_UNDER_LINKING) == _TRUE) {
++			RTW_INFO("%s, fwstate=0x%x\n", __func__, pmlmepriv->fw_state);
++
++			if (check_fwstate(pmlmepriv, WIFI_UNDER_WPS))
++				RTW_INFO("AP mode process WPS\n");
++
++			need_indicate_scan_done = _TRUE;
++			goto check_need_indicate_scan_done;
++		}
++	}
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE) {
++		RTW_INFO("%s, fwstate=0x%x\n", __func__, pmlmepriv->fw_state);
++		need_indicate_scan_done = _TRUE;
++		goto check_need_indicate_scan_done;
++	} else if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE) {
++		RTW_INFO("%s, fwstate=0x%x\n", __func__, pmlmepriv->fw_state);
++		ret = -EBUSY;
++		goto check_need_indicate_scan_done;
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_buddy_check_fwstate(padapter, _FW_UNDER_LINKING | WIFI_UNDER_WPS)) {
++		RTW_INFO("%s exit due to buddy_intf's mlme state under linking or wps\n", __func__);
++		need_indicate_scan_done = _TRUE;
++		goto check_need_indicate_scan_done;
++
++	} else {
++		bool scan_via_buddy = _FALSE;
++		u8 bunder_survey = rtw_mi_buddy_under_survey(padapter);
++
++		if (bunder_survey) {
++			scan_via_buddy = (UNDER_SURVEY_T2 == bunder_survey) ? _TRUE : _FALSE;
++			if (scan_via_buddy == _FALSE)
++				need_indicate_scan_done = _TRUE;
++
++			goto check_need_indicate_scan_done;
++		}
++	}
++
++#endif /* CONFIG_CONCURRENT_MODE */
++
++	/* busy traffic check*/
++	if (rtw_mi_busy_traffic_check(padapter, _TRUE)) {
++		need_indicate_scan_done = _TRUE;
++		goto check_need_indicate_scan_done;
++	}
++
++#ifdef CONFIG_P2P
++	if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE) && !rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE)) {
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH);
++		rtw_free_network_queue(padapter, _TRUE);
++
++		if (social_channel == 0)
++			rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_NONE);
++		else
++			rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_SOCIAL_LAST);
++	}
++#endif /* CONFIG_P2P */
++
++
++	_rtw_memset(ssid, 0, sizeof(NDIS_802_11_SSID) * RTW_SSID_SCAN_AMOUNT);
++	/* parsing request ssids, n_ssids */
++	for (i = 0; i < request->n_ssids && i < RTW_SSID_SCAN_AMOUNT; i++) {
++		#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO("ssid=%s, len=%d\n", ssids[i].ssid, ssids[i].ssid_len);
++		#endif
++		_rtw_memcpy(ssid[i].Ssid, ssids[i].ssid, ssids[i].ssid_len);
++		ssid[i].SsidLength = ssids[i].ssid_len;
++	}
++
++	/* parsing channels, n_channels */
++	_rtw_memset(ch, 0, sizeof(struct rtw_ieee80211_channel) * RTW_CHANNEL_SCAN_AMOUNT);
++	for (i = 0; i < request->n_channels && i < RTW_CHANNEL_SCAN_AMOUNT; i++) {
++		#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO(FUNC_ADPT_FMT CHAN_FMT"\n", FUNC_ADPT_ARG(padapter), CHAN_ARG(request->channels[i]));
++		#endif
++		ch[i].hw_value = request->channels[i]->hw_value;
++		ch[i].flags = request->channels[i]->flags;
++	}
++
++
++
++	if (request->n_channels == 1) {
++		for (i = 1; i < survey_times_for_one_ch; i++)
++			_rtw_memcpy(&ch[i], &ch[0], sizeof(struct rtw_ieee80211_channel));
++		pch = ch;
++		chan_num = survey_times_for_one_ch;
++	} else if (request->n_channels <= 4) {
++		for (j = request->n_channels - 1; j >= 0; j--)
++			for (i = 0; i < survey_times; i++)
++				_rtw_memcpy(&ch[j * survey_times + i], &ch[j], sizeof(struct rtw_ieee80211_channel));
++		pch = ch;
++		chan_num = survey_times * request->n_channels;
++	} else {
++		pch = ch;
++		chan_num = request->n_channels;
++	}
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	_status = rtw_sitesurvey_cmd(padapter, ssid, RTW_SSID_SCAN_AMOUNT, pch, chan_num);
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++
++	if (_status == _FALSE)
++		ret = -1;
++
++check_need_indicate_scan_done:
++	if (_TRUE == need_indicate_scan_done) {
++		rtw_cfg80211_surveydone_event_callback(padapter);
++		rtw_cfg80211_indicate_scan_done(padapter, _FALSE);
++	}
++
++cancel_ps_deny:
++	if (ps_denied == _TRUE)
++		rtw_ps_deny_cancel(padapter, PS_DENY_SCAN);
++
++exit:
++	return ret;
++
++}
++
++static int cfg80211_rtw_set_wiphy_params(struct wiphy *wiphy, u32 changed)
++{
++#if 0
++	struct iwm_priv *iwm = wiphy_to_iwm(wiphy);
++
++	if (changed & WIPHY_PARAM_RTS_THRESHOLD &&
++	    (iwm->conf.rts_threshold != wiphy->rts_threshold)) {
++		int ret;
++
++		iwm->conf.rts_threshold = wiphy->rts_threshold;
++
++		ret = iwm_umac_set_config_fix(iwm, UMAC_PARAM_TBL_CFG_FIX,
++				CFG_RTS_THRESHOLD,
++				iwm->conf.rts_threshold);
++		if (ret < 0)
++			return ret;
++	}
++
++	if (changed & WIPHY_PARAM_FRAG_THRESHOLD &&
++	    (iwm->conf.frag_threshold != wiphy->frag_threshold)) {
++		int ret;
++
++		iwm->conf.frag_threshold = wiphy->frag_threshold;
++
++		ret = iwm_umac_set_config_fix(iwm, UMAC_PARAM_TBL_FA_CFG_FIX,
++				CFG_FRAG_THRESHOLD,
++				iwm->conf.frag_threshold);
++		if (ret < 0)
++			return ret;
++	}
++#endif
++	RTW_INFO("%s\n", __func__);
++	return 0;
++}
++
++
++
++static int rtw_cfg80211_set_wpa_version(struct security_priv *psecuritypriv, u32 wpa_version)
++{
++	RTW_INFO("%s, wpa_version=%d\n", __func__, wpa_version);
++
++	if (!wpa_version) {
++		psecuritypriv->ndisauthtype = Ndis802_11AuthModeOpen;
++		return 0;
++	}
++
++
++	if (wpa_version & (NL80211_WPA_VERSION_1 | NL80211_WPA_VERSION_2))
++		psecuritypriv->ndisauthtype = Ndis802_11AuthModeWPAPSK;
++
++#if 0
++	if (wpa_version & NL80211_WPA_VERSION_2)
++		psecuritypriv->ndisauthtype = Ndis802_11AuthModeWPA2PSK;
++#endif
++
++	#ifdef CONFIG_WAPI_SUPPORT
++	if (wpa_version & NL80211_WAPI_VERSION_1)
++		psecuritypriv->ndisauthtype = Ndis802_11AuthModeWAPI;
++	#endif
++
++	return 0;
++
++}
++
++static int rtw_cfg80211_set_auth_type(struct security_priv *psecuritypriv,
++		enum nl80211_auth_type sme_auth_type)
++{
++	RTW_INFO("%s, nl80211_auth_type=%d\n", __func__, sme_auth_type);
++
++
++	switch (sme_auth_type) {
++	case NL80211_AUTHTYPE_AUTOMATIC:
++
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++
++		break;
++	case NL80211_AUTHTYPE_OPEN_SYSTEM:
++
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Open;
++
++		if (psecuritypriv->ndisauthtype > Ndis802_11AuthModeWPA)
++			psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++
++#ifdef CONFIG_WAPI_SUPPORT
++		if (psecuritypriv->ndisauthtype == Ndis802_11AuthModeWAPI)
++			psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_WAPI;
++#endif
++
++		break;
++	case NL80211_AUTHTYPE_SHARED_KEY:
++
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Shared;
++
++		psecuritypriv->ndisencryptstatus = Ndis802_11Encryption1Enabled;
++
++
++		break;
++	default:
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Open;
++		/* return -ENOTSUPP; */
++	}
++
++	return 0;
++
++}
++
++static int rtw_cfg80211_set_cipher(struct security_priv *psecuritypriv, u32 cipher, bool ucast)
++{
++	u32 ndisencryptstatus = Ndis802_11EncryptionDisabled;
++
++	u32 *profile_cipher = ucast ? &psecuritypriv->dot11PrivacyAlgrthm :
++		&psecuritypriv->dot118021XGrpPrivacy;
++
++	RTW_INFO("%s, ucast=%d, cipher=0x%x\n", __func__, ucast, cipher);
++
++
++	if (!cipher) {
++		*profile_cipher = _NO_PRIVACY_;
++		psecuritypriv->ndisencryptstatus = ndisencryptstatus;
++		return 0;
++	}
++
++	switch (cipher) {
++	case IW_AUTH_CIPHER_NONE:
++		*profile_cipher = _NO_PRIVACY_;
++		ndisencryptstatus = Ndis802_11EncryptionDisabled;
++#ifdef CONFIG_WAPI_SUPPORT
++		if (psecuritypriv->dot11PrivacyAlgrthm == _SMS4_)
++			*profile_cipher = _SMS4_;
++#endif
++		break;
++	case WLAN_CIPHER_SUITE_WEP40:
++		*profile_cipher = _WEP40_;
++		ndisencryptstatus = Ndis802_11Encryption1Enabled;
++		break;
++	case WLAN_CIPHER_SUITE_WEP104:
++		*profile_cipher = _WEP104_;
++		ndisencryptstatus = Ndis802_11Encryption1Enabled;
++		break;
++	case WLAN_CIPHER_SUITE_TKIP:
++		*profile_cipher = _TKIP_;
++		ndisencryptstatus = Ndis802_11Encryption2Enabled;
++		break;
++	case WLAN_CIPHER_SUITE_CCMP:
++		*profile_cipher = _AES_;
++		ndisencryptstatus = Ndis802_11Encryption3Enabled;
++		break;
++#ifdef CONFIG_WAPI_SUPPORT
++	case WLAN_CIPHER_SUITE_SMS4:
++		*profile_cipher = _SMS4_;
++		ndisencryptstatus = Ndis802_11_EncrypteionWAPI;
++		break;
++#endif
++	default:
++		RTW_INFO("Unsupported cipher: 0x%x\n", cipher);
++		return -ENOTSUPP;
++	}
++
++	if (ucast) {
++		psecuritypriv->ndisencryptstatus = ndisencryptstatus;
++
++		/* if(psecuritypriv->dot11PrivacyAlgrthm >= _AES_) */
++		/*	psecuritypriv->ndisauthtype = Ndis802_11AuthModeWPA2PSK; */
++	}
++
++	return 0;
++}
++
++static int rtw_cfg80211_set_key_mgt(struct security_priv *psecuritypriv, u32 key_mgt)
++{
++	RTW_INFO("%s, key_mgt=0x%x\n", __func__, key_mgt);
++
++	if (key_mgt == WLAN_AKM_SUITE_8021X)
++		/* *auth_type = UMAC_AUTH_TYPE_8021X; */
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++	else if (key_mgt == WLAN_AKM_SUITE_PSK)
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++#ifdef CONFIG_WAPI_SUPPORT
++	else if (key_mgt == WLAN_AKM_SUITE_WAPI_PSK)
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_WAPI;
++	else if (key_mgt == WLAN_AKM_SUITE_WAPI_CERT)
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_WAPI;
++#endif
++
++
++	else {
++		RTW_INFO("Invalid key mgt: 0x%x\n", key_mgt);
++		/* return -EINVAL; */
++	}
++
++	return 0;
++}
++
++static int rtw_cfg80211_set_wpa_ie(_adapter *padapter, u8 *pie, size_t ielen)
++{
++	u8 *buf = NULL, *pos = NULL;
++	u32 left;
++	int group_cipher = 0, pairwise_cipher = 0;
++	int ret = 0;
++	int wpa_ielen = 0;
++	int wpa2_ielen = 0;
++	u8 *pwpa, *pwpa2;
++	u8 null_addr[] = {0, 0, 0, 0, 0, 0};
++
++	if (pie == NULL || !ielen) {
++		/* Treat this as normal case, but need to clear WIFI_UNDER_WPS */
++		_clr_fwstate_(&padapter->mlmepriv, WIFI_UNDER_WPS);
++		goto exit;
++	}
++
++	if (ielen > MAX_WPA_IE_LEN + MAX_WPS_IE_LEN + MAX_P2P_IE_LEN) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	buf = rtw_zmalloc(ielen);
++	if (buf == NULL) {
++		ret =  -ENOMEM;
++		goto exit;
++	}
++
++	_rtw_memcpy(buf, pie , ielen);
++
++	/* dump */
++	{
++		int i;
++		RTW_INFO("set wpa_ie(length:%zu):\n", ielen);
++		for (i = 0; i < ielen; i = i + 8)
++			RTW_INFO("0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x\n", buf[i], buf[i + 1], buf[i + 2], buf[i + 3], buf[i + 4], buf[i + 5], buf[i + 6], buf[i + 7]);
++	}
++
++	pos = buf;
++	if (ielen < RSN_HEADER_LEN) {
++		ret  = -1;
++		goto exit;
++	}
++
++	pwpa = rtw_get_wpa_ie(buf, &wpa_ielen, ielen);
++	if (pwpa && wpa_ielen > 0) {
++		if (rtw_parse_wpa_ie(pwpa, wpa_ielen + 2, &group_cipher, &pairwise_cipher, NULL) == _SUCCESS) {
++			padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeWPAPSK;
++			_rtw_memcpy(padapter->securitypriv.supplicant_ie, &pwpa[0], wpa_ielen + 2);
++
++			RTW_INFO("got wpa_ie, wpa_ielen:%u\n", wpa_ielen);
++		}
++	}
++
++	pwpa2 = rtw_get_wpa2_ie(buf, &wpa2_ielen, ielen);
++	if (pwpa2 && wpa2_ielen > 0) {
++		if (rtw_parse_wpa2_ie(pwpa2, wpa2_ielen + 2, &group_cipher, &pairwise_cipher, NULL) == _SUCCESS) {
++			padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeWPA2PSK;
++			_rtw_memcpy(padapter->securitypriv.supplicant_ie, &pwpa2[0], wpa2_ielen + 2);
++
++			RTW_INFO("got wpa2_ie, wpa2_ielen:%u\n", wpa2_ielen);
++		}
++	}
++
++	if (group_cipher == 0)
++		group_cipher = WPA_CIPHER_NONE;
++	if (pairwise_cipher == 0)
++		pairwise_cipher = WPA_CIPHER_NONE;
++
++	switch (group_cipher) {
++	case WPA_CIPHER_NONE:
++		padapter->securitypriv.dot118021XGrpPrivacy = _NO_PRIVACY_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11EncryptionDisabled;
++		break;
++	case WPA_CIPHER_WEP40:
++		padapter->securitypriv.dot118021XGrpPrivacy = _WEP40_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++		break;
++	case WPA_CIPHER_TKIP:
++		padapter->securitypriv.dot118021XGrpPrivacy = _TKIP_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption2Enabled;
++		break;
++	case WPA_CIPHER_CCMP:
++		padapter->securitypriv.dot118021XGrpPrivacy = _AES_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption3Enabled;
++		break;
++	case WPA_CIPHER_WEP104:
++		padapter->securitypriv.dot118021XGrpPrivacy = _WEP104_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++		break;
++	}
++
++	switch (pairwise_cipher) {
++	case WPA_CIPHER_NONE:
++		padapter->securitypriv.dot11PrivacyAlgrthm = _NO_PRIVACY_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11EncryptionDisabled;
++		break;
++	case WPA_CIPHER_WEP40:
++		padapter->securitypriv.dot11PrivacyAlgrthm = _WEP40_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++		break;
++	case WPA_CIPHER_TKIP:
++		padapter->securitypriv.dot11PrivacyAlgrthm = _TKIP_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption2Enabled;
++		break;
++	case WPA_CIPHER_CCMP:
++		padapter->securitypriv.dot11PrivacyAlgrthm = _AES_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption3Enabled;
++		break;
++	case WPA_CIPHER_WEP104:
++		padapter->securitypriv.dot11PrivacyAlgrthm = _WEP104_;
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++		break;
++	}
++
++	{/* handle wps_ie */
++		uint wps_ielen;
++		u8 *wps_ie;
++
++		wps_ie = rtw_get_wps_ie(buf, ielen, NULL, &wps_ielen);
++		if (wps_ie && wps_ielen > 0) {
++			RTW_INFO("got wps_ie, wps_ielen:%u\n", wps_ielen);
++			padapter->securitypriv.wps_ie_len = wps_ielen < MAX_WPS_IE_LEN ? wps_ielen : MAX_WPS_IE_LEN;
++			_rtw_memcpy(padapter->securitypriv.wps_ie, wps_ie, padapter->securitypriv.wps_ie_len);
++			set_fwstate(&padapter->mlmepriv, WIFI_UNDER_WPS);
++		} else
++			_clr_fwstate_(&padapter->mlmepriv, WIFI_UNDER_WPS);
++	}
++
++	#ifdef CONFIG_P2P
++	{/* check p2p_ie for assoc req; */
++		uint p2p_ielen = 0;
++		u8 *p2p_ie;
++		struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++		p2p_ie = rtw_get_p2p_ie(buf, ielen, NULL, &p2p_ielen);
++		if (p2p_ie) {
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("%s p2p_assoc_req_ielen=%d\n", __FUNCTION__, p2p_ielen);
++			#endif
++
++			if (pmlmepriv->p2p_assoc_req_ie) {
++				u32 free_len = pmlmepriv->p2p_assoc_req_ie_len;
++				pmlmepriv->p2p_assoc_req_ie_len = 0;
++				rtw_mfree(pmlmepriv->p2p_assoc_req_ie, free_len);
++				pmlmepriv->p2p_assoc_req_ie = NULL;
++			}
++
++			pmlmepriv->p2p_assoc_req_ie = rtw_malloc(p2p_ielen);
++			if (pmlmepriv->p2p_assoc_req_ie == NULL) {
++				RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				goto exit;
++			}
++			_rtw_memcpy(pmlmepriv->p2p_assoc_req_ie, p2p_ie, p2p_ielen);
++			pmlmepriv->p2p_assoc_req_ie_len = p2p_ielen;
++		}
++	}
++	#endif /* CONFIG_P2P */
++
++	#ifdef CONFIG_WFD
++	{
++		uint wfd_ielen = 0;
++		u8 *wfd_ie;
++		struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++		wfd_ie = rtw_get_wfd_ie(buf, ielen, NULL, &wfd_ielen);
++		if (wfd_ie) {
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("%s wfd_assoc_req_ielen=%d\n", __FUNCTION__, wfd_ielen);
++			#endif
++
++			if (rtw_mlme_update_wfd_ie_data(pmlmepriv, MLME_ASSOC_REQ_IE, wfd_ie, wfd_ielen) != _SUCCESS)
++				goto exit;
++		}
++	}
++	#endif /* CONFIG_WFD */
++
++	/* TKIP and AES disallow multicast packets until installing group key */
++	if (padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_
++		|| padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_WTMIC_
++		|| padapter->securitypriv.dot11PrivacyAlgrthm == _AES_)
++		/* WPS open need to enable multicast */
++		/* || check_fwstate(&padapter->mlmepriv, WIFI_UNDER_WPS) == _TRUE) */
++		rtw_hal_set_hwreg(padapter, HW_VAR_OFF_RCR_AM, null_addr);
++
++
++exit:
++	if (buf)
++		rtw_mfree(buf, ielen);
++	if (ret)
++		_clr_fwstate_(&padapter->mlmepriv, WIFI_UNDER_WPS);
++
++	return ret;
++}
++
++static int cfg80211_rtw_join_ibss(struct wiphy *wiphy, struct net_device *ndev,
++				  struct cfg80211_ibss_params *params)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	NDIS_802_11_SSID ndis_ssid;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX *pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 8, 0))
++	struct cfg80211_chan_def *pch_def;
++#endif
++	struct ieee80211_channel *pch;
++	int ret = 0;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 8, 0))
++	pch_def = (struct cfg80211_chan_def *)(&params->chandef);
++	pch = (struct ieee80211_channel *) pch_def->chan;
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 31))
++	pch = (struct ieee80211_channel *)(params->channel);
++#endif
++
++	if (!params->ssid || !params->ssid_len) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	if (params->ssid_len > IW_ESSID_MAX_SIZE) {
++		ret = -E2BIG;
++		goto exit;
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++		ret = -EPERM;
++		goto exit;
++	}
++
++	rtw_ps_deny(padapter, PS_DENY_JOIN);
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		ret = -EPERM;
++		goto cancel_ps_deny;
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_buddy_check_fwstate(padapter, _FW_UNDER_LINKING)) {
++		RTW_INFO("%s, but buddy_intf is under linking\n", __FUNCTION__);
++		ret = -EINVAL;
++		goto cancel_ps_deny;
++	}
++	rtw_mi_buddy_scan_abort(padapter, _TRUE); /* OR rtw_mi_scan_abort(padapter, _TRUE);*/
++#endif /*CONFIG_CONCURRENT_MODE*/
++
++
++	_rtw_memset(&ndis_ssid, 0, sizeof(NDIS_802_11_SSID));
++	ndis_ssid.SsidLength = params->ssid_len;
++	_rtw_memcpy(ndis_ssid.Ssid, (u8 *)params->ssid, params->ssid_len);
++
++	/* RTW_INFO("ssid=%s, len=%zu\n", ndis_ssid.Ssid, params->ssid_len); */
++
++	psecuritypriv->ndisencryptstatus = Ndis802_11EncryptionDisabled;
++	psecuritypriv->dot11PrivacyAlgrthm = _NO_PRIVACY_;
++	psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++	psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Open; /* open system */
++	psecuritypriv->ndisauthtype = Ndis802_11AuthModeOpen;
++
++	ret = rtw_cfg80211_set_auth_type(psecuritypriv, NL80211_AUTHTYPE_OPEN_SYSTEM);
++	rtw_set_802_11_authentication_mode(padapter, psecuritypriv->ndisauthtype);
++
++	RTW_INFO("%s: center_freq = %d\n", __func__, pch->center_freq);
++	pmlmeext->cur_channel = rtw_freq2ch(pch->center_freq);
++
++	if (rtw_set_802_11_ssid(padapter, &ndis_ssid) == _FALSE) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++cancel_ps_deny:
++	rtw_ps_deny_cancel(padapter, PS_DENY_JOIN);
++exit:
++	return ret;
++}
++
++static int cfg80211_rtw_leave_ibss(struct wiphy *wiphy, struct net_device *ndev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct wireless_dev *rtw_wdev = padapter->rtw_wdev;
++	enum nl80211_iftype old_type;
++	int ret = 0;
++
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	#ifdef SUPPLICANT_RTK_VERSION_LOWER_THAN_JB42
++	padapter->mlmepriv.not_indic_disco = _TRUE;
++	#endif
++
++	old_type = rtw_wdev->iftype;
++
++	rtw_set_to_roam(padapter, 0);
++
++	if (check_fwstate(&padapter->mlmepriv, _FW_LINKED)) {
++		rtw_scan_abort(padapter);
++		LeaveAllPowerSaveMode(padapter);
++
++		rtw_wdev->iftype = NL80211_IFTYPE_STATION;
++
++		if (rtw_set_802_11_infrastructure_mode(padapter, Ndis802_11Infrastructure) == _FALSE) {
++			rtw_wdev->iftype = old_type;
++			ret = -EPERM;
++			goto leave_ibss;
++		}
++		rtw_setopmode_cmd(padapter, Ndis802_11Infrastructure, _TRUE);
++	}
++
++leave_ibss:
++	#ifdef SUPPLICANT_RTK_VERSION_LOWER_THAN_JB42
++	padapter->mlmepriv.not_indic_disco = _FALSE;
++	#endif
++
++	return 0;
++}
++
++static int cfg80211_rtw_connect(struct wiphy *wiphy, struct net_device *ndev,
++				struct cfg80211_connect_params *sme)
++{
++	int ret = 0;
++	_irqL irqL;
++	_list *phead;
++	struct wlan_network *pnetwork = NULL;
++	NDIS_802_11_AUTHENTICATION_MODE authmode;
++	NDIS_802_11_SSID ndis_ssid;
++	u8 *dst_ssid, *src_ssid;
++	u8 *dst_bssid, *src_bssid;
++	/* u8 matched_by_bssid=_FALSE; */
++	/* u8 matched_by_ssid=_FALSE; */
++	u8 matched = _FALSE;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	_queue *queue = &pmlmepriv->scanned_queue;
++
++#ifdef SUPPLICANT_RTK_VERSION_LOWER_THAN_JB42
++	padapter->mlmepriv.not_indic_disco = _TRUE;
++#endif
++
++	RTW_INFO("=>"FUNC_NDEV_FMT" - Start to Connection\n", FUNC_NDEV_ARG(ndev));
++	RTW_INFO("privacy=%d, key=%p, key_len=%d, key_idx=%d, auth_type=%d\n",
++		sme->privacy, sme->key, sme->key_len, sme->key_idx, sme->auth_type);
++
++
++	if (adapter_wdev_data(padapter)->block == _TRUE) {
++		ret = -EBUSY;
++		RTW_INFO("%s wdev_priv.block is set\n", __FUNCTION__);
++		goto exit;
++	}
++
++#ifdef CONFIG_PLATFORM_MSTAR_SCAN_BEFORE_CONNECT
++	printk("MStar Android!\n");
++	if (adapter_wdev_data(padapter)->bandroid_scan == _FALSE) {
++#ifdef CONFIG_P2P
++		struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++		if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++#endif /* CONFIG_P2P */
++		{
++			ret = -EBUSY;
++			printk("Android hasn't attached yet!\n");
++			goto exit;
++		}
++	}
++#endif
++
++	if (!sme->ssid || !sme->ssid_len) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	if (sme->ssid_len > IW_ESSID_MAX_SIZE) {
++		ret = -E2BIG;
++		goto exit;
++	}
++
++	rtw_ps_deny(padapter, PS_DENY_JOIN);
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		ret = -EPERM;
++		goto cancel_ps_deny;
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++		ret = -EPERM;
++		goto cancel_ps_deny;
++	}
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE) {
++		ret = -EBUSY;
++		RTW_INFO("%s, fw_state=0x%x, goto exit\n", __func__, pmlmepriv->fw_state);
++		goto cancel_ps_deny;
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_buddy_check_fwstate(padapter, _FW_UNDER_LINKING)) {
++		ret = -EINVAL;
++		goto cancel_ps_deny;
++	}
++#endif
++
++	rtw_mi_scan_abort(padapter, _TRUE);
++
++	_rtw_memset(&ndis_ssid, 0, sizeof(NDIS_802_11_SSID));
++	ndis_ssid.SsidLength = sme->ssid_len;
++	_rtw_memcpy(ndis_ssid.Ssid, (u8 *)sme->ssid, sme->ssid_len);
++
++	RTW_INFO("ssid=%s, len=%zu\n", ndis_ssid.Ssid, sme->ssid_len);
++
++
++	if (sme->bssid)
++		RTW_INFO("bssid="MAC_FMT"\n", MAC_ARG(sme->bssid));
++
++
++	psecuritypriv->ndisencryptstatus = Ndis802_11EncryptionDisabled;
++	psecuritypriv->dot11PrivacyAlgrthm = _NO_PRIVACY_;
++	psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++	psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Open; /* open system */
++	psecuritypriv->ndisauthtype = Ndis802_11AuthModeOpen;
++
++#ifdef CONFIG_WAPI_SUPPORT
++	padapter->wapiInfo.bWapiEnable = false;
++#endif
++
++	ret = rtw_cfg80211_set_wpa_version(psecuritypriv, sme->crypto.wpa_versions);
++	if (ret < 0)
++		goto cancel_ps_deny;
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (sme->crypto.wpa_versions & NL80211_WAPI_VERSION_1) {
++		padapter->wapiInfo.bWapiEnable = true;
++		padapter->wapiInfo.extra_prefix_len = WAPI_EXT_LEN;
++		padapter->wapiInfo.extra_postfix_len = SMS4_MIC_LEN;
++	}
++#endif
++
++	ret = rtw_cfg80211_set_auth_type(psecuritypriv, sme->auth_type);
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (psecuritypriv->dot11AuthAlgrthm == dot11AuthAlgrthm_WAPI)
++		padapter->mlmeextpriv.mlmext_info.auth_algo = psecuritypriv->dot11AuthAlgrthm;
++#endif
++
++
++	if (ret < 0)
++		goto cancel_ps_deny;
++
++	RTW_INFO("%s, ie_len=%zu\n", __func__, sme->ie_len);
++
++	ret = rtw_cfg80211_set_wpa_ie(padapter, (u8 *)sme->ie, sme->ie_len);
++	if (ret < 0)
++		goto cancel_ps_deny;
++
++	if (sme->crypto.n_ciphers_pairwise) {
++		ret = rtw_cfg80211_set_cipher(psecuritypriv, sme->crypto.ciphers_pairwise[0], _TRUE);
++		if (ret < 0)
++			goto cancel_ps_deny;
++	}
++
++	/* For WEP Shared auth */
++	if (sme->key_len > 0 && sme->key) {
++		u32 wep_key_idx, wep_key_len, wep_total_len;
++		NDIS_802_11_WEP	*pwep = NULL;
++		RTW_INFO("%s(): Shared/Auto WEP\n", __FUNCTION__);
++
++		wep_key_idx = sme->key_idx;
++		wep_key_len = sme->key_len;
++
++		if (sme->key_idx > WEP_KEYS) {
++			ret = -EINVAL;
++			goto cancel_ps_deny;
++		}
++
++		if (wep_key_len > 0) {
++			wep_key_len = wep_key_len <= 5 ? 5 : 13;
++			wep_total_len = wep_key_len + FIELD_OFFSET(NDIS_802_11_WEP, KeyMaterial);
++			pwep = (NDIS_802_11_WEP *) rtw_malloc(wep_total_len);
++			if (pwep == NULL) {
++				RTW_INFO(" wpa_set_encryption: pwep allocate fail !!!\n");
++				ret = -ENOMEM;
++				goto cancel_ps_deny;
++			}
++
++			_rtw_memset(pwep, 0, wep_total_len);
++
++			pwep->KeyLength = wep_key_len;
++			pwep->Length = wep_total_len;
++
++			if (wep_key_len == 13) {
++				padapter->securitypriv.dot11PrivacyAlgrthm = _WEP104_;
++				padapter->securitypriv.dot118021XGrpPrivacy = _WEP104_;
++			}
++		} else {
++			ret = -EINVAL;
++			goto cancel_ps_deny;
++		}
++
++		pwep->KeyIndex = wep_key_idx;
++		pwep->KeyIndex |= 0x80000000;
++
++		_rtw_memcpy(pwep->KeyMaterial, (void *)sme->key, pwep->KeyLength);
++
++		if (rtw_set_802_11_add_wep(padapter, pwep) == (u8)_FAIL)
++			ret = -EOPNOTSUPP ;
++
++		if (pwep)
++			rtw_mfree((u8 *)pwep, wep_total_len);
++
++		if (ret < 0)
++			goto cancel_ps_deny;
++	}
++
++	ret = rtw_cfg80211_set_cipher(psecuritypriv, sme->crypto.cipher_group, _FALSE);
++	if (ret < 0)
++		return ret;
++
++	if (sme->crypto.n_akm_suites) {
++		ret = rtw_cfg80211_set_key_mgt(psecuritypriv, sme->crypto.akm_suites[0]);
++		if (ret < 0)
++			goto cancel_ps_deny;
++	}
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (sme->crypto.akm_suites[0] == WLAN_AKM_SUITE_WAPI_PSK)
++		padapter->wapiInfo.bWapiPSK = true;
++	else if (sme->crypto.akm_suites[0] == WLAN_AKM_SUITE_WAPI_CERT)
++		padapter->wapiInfo.bWapiPSK = false;
++#endif
++
++	authmode = psecuritypriv->ndisauthtype;
++	rtw_set_802_11_authentication_mode(padapter, authmode);
++
++	/* rtw_set_802_11_encryption_mode(padapter, padapter->securitypriv.ndisencryptstatus); */
++
++	if (rtw_set_802_11_connect(padapter, (u8 *)sme->bssid, &ndis_ssid) == _FALSE) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++	RTW_INFO("set ssid:dot11AuthAlgrthm=%d, dot11PrivacyAlgrthm=%d, dot118021XGrpPrivacy=%d\n", psecuritypriv->dot11AuthAlgrthm, psecuritypriv->dot11PrivacyAlgrthm,
++		psecuritypriv->dot118021XGrpPrivacy);
++
++cancel_ps_deny:
++	rtw_ps_deny_cancel(padapter, PS_DENY_JOIN);
++
++exit:
++	RTW_INFO("<=%s, ret %d\n", __FUNCTION__, ret);
++
++#ifdef SUPPLICANT_RTK_VERSION_LOWER_THAN_JB42
++	padapter->mlmepriv.not_indic_disco = _FALSE;
++#endif
++
++	return ret;
++}
++
++static int cfg80211_rtw_disconnect(struct wiphy *wiphy, struct net_device *ndev,
++				   u16 reason_code)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++
++	RTW_INFO(FUNC_NDEV_FMT" - Start to Disconnect\n", FUNC_NDEV_ARG(ndev));
++
++#ifdef SUPPLICANT_RTK_VERSION_LOWER_THAN_JB42
++	padapter->mlmepriv.not_indic_disco = _TRUE;
++#endif
++
++	rtw_set_to_roam(padapter, 0);
++
++	/* if(check_fwstate(&padapter->mlmepriv, _FW_LINKED)) */
++	{
++		rtw_scan_abort(padapter);
++		LeaveAllPowerSaveMode(padapter);
++		rtw_disassoc_cmd(padapter, 500, _FALSE);
++		rtw_sta_mstatus_report(padapter);
++
++		RTW_INFO("%s...call rtw_indicate_disconnect\n", __func__);
++
++		rtw_free_assoc_resources(padapter, 1);
++		rtw_indicate_disconnect(padapter, 0, _TRUE);
++
++		rtw_pwr_wakeup(padapter);
++	}
++
++#ifdef SUPPLICANT_RTK_VERSION_LOWER_THAN_JB42
++	padapter->mlmepriv.not_indic_disco = _FALSE;
++#endif
++
++	RTW_INFO(FUNC_NDEV_FMT" return 0\n", FUNC_NDEV_ARG(ndev));
++	return 0;
++}
++
++static int cfg80211_rtw_set_txpower(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 8, 0))
++	struct wireless_dev *wdev,
++#endif
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 36)) || defined(COMPAT_KERNEL_RELEASE)
++	enum nl80211_tx_power_setting type, int mbm)
++#else
++	enum tx_power_setting type, int dbm)
++#endif
++{
++#if 0
++	struct iwm_priv *iwm = wiphy_to_iwm(wiphy);
++	int ret;
++
++	switch (type) {
++	case NL80211_TX_POWER_AUTOMATIC:
++		return 0;
++	case NL80211_TX_POWER_FIXED:
++		if (mbm < 0 || (mbm % 100))
++			return -EOPNOTSUPP;
++
++		if (!test_bit(IWM_STATUS_READY, &iwm->status))
++			return 0;
++
++		ret = iwm_umac_set_config_fix(iwm, UMAC_PARAM_TBL_CFG_FIX,
++					      CFG_TX_PWR_LIMIT_USR,
++					      MBM_TO_DBM(mbm) * 2);
++		if (ret < 0)
++			return ret;
++
++		return iwm_tx_power_trigger(iwm);
++	default:
++		IWM_ERR(iwm, "Unsupported power type: %d\n", type);
++		return -EOPNOTSUPP;
++	}
++#endif
++	RTW_INFO("%s\n", __func__);
++	return 0;
++}
++
++static int cfg80211_rtw_get_txpower(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 8, 0))
++	struct wireless_dev *wdev,
++#endif
++	int *dbm)
++{
++	RTW_INFO("%s\n", __func__);
++
++	*dbm = (12);
++
++	return 0;
++}
++
++inline bool rtw_cfg80211_pwr_mgmt(_adapter *adapter)
++{
++	struct rtw_wdev_priv *rtw_wdev_priv = adapter_wdev_data(adapter);
++	return rtw_wdev_priv->power_mgmt;
++}
++
++static int cfg80211_rtw_set_power_mgmt(struct wiphy *wiphy,
++				       struct net_device *ndev,
++				       bool enabled, int timeout)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct rtw_wdev_priv *rtw_wdev_priv = adapter_wdev_data(padapter);
++
++	RTW_INFO(FUNC_NDEV_FMT" enabled:%u, timeout:%d\n", FUNC_NDEV_ARG(ndev),
++		enabled, timeout);
++
++	rtw_wdev_priv->power_mgmt = enabled;
++
++#ifdef CONFIG_LPS
++	if (!enabled)
++		rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_LEAVE_CFG80211_PWRMGMT, 1);
++#endif
++
++	return 0;
++}
++
++static int cfg80211_rtw_set_pmksa(struct wiphy *wiphy,
++				  struct net_device *ndev,
++				  struct cfg80211_pmksa *pmksa)
++{
++	u8	index, blInserted = _FALSE;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct mlme_priv *mlme = &padapter->mlmepriv;
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++	u8	strZeroMacAddress[ETH_ALEN] = { 0x00 };
++
++	RTW_INFO(FUNC_NDEV_FMT" "MAC_FMT" "KEY_FMT"\n", FUNC_NDEV_ARG(ndev)
++		, MAC_ARG(pmksa->bssid), KEY_ARG(pmksa->pmkid));
++
++	if (_rtw_memcmp((u8 *)pmksa->bssid, strZeroMacAddress, ETH_ALEN) == _TRUE)
++		return -EINVAL;
++
++	if (check_fwstate(mlme, _FW_LINKED) == _FALSE) {
++		RTW_INFO(FUNC_NDEV_FMT" not set pmksa cause not in linked state\n", FUNC_NDEV_ARG(ndev));
++		return -EINVAL;
++	}
++
++	blInserted = _FALSE;
++
++	/* overwrite PMKID */
++	for (index = 0 ; index < NUM_PMKID_CACHE; index++) {
++		if (_rtw_memcmp(psecuritypriv->PMKIDList[index].Bssid, (u8 *)pmksa->bssid, ETH_ALEN) == _TRUE) {
++			/* BSSID is matched, the same AP => rewrite with new PMKID. */
++			RTW_INFO(FUNC_NDEV_FMT" BSSID exists in the PMKList.\n", FUNC_NDEV_ARG(ndev));
++
++			_rtw_memcpy(psecuritypriv->PMKIDList[index].PMKID, (u8 *)pmksa->pmkid, WLAN_PMKID_LEN);
++			psecuritypriv->PMKIDList[index].bUsed = _TRUE;
++			psecuritypriv->PMKIDIndex = index + 1;
++			blInserted = _TRUE;
++			break;
++		}
++	}
++
++	if (!blInserted) {
++		/* Find a new entry */
++		RTW_INFO(FUNC_NDEV_FMT" Use the new entry index = %d for this PMKID.\n",
++			FUNC_NDEV_ARG(ndev), psecuritypriv->PMKIDIndex);
++
++		_rtw_memcpy(psecuritypriv->PMKIDList[psecuritypriv->PMKIDIndex].Bssid, (u8 *)pmksa->bssid, ETH_ALEN);
++		_rtw_memcpy(psecuritypriv->PMKIDList[psecuritypriv->PMKIDIndex].PMKID, (u8 *)pmksa->pmkid, WLAN_PMKID_LEN);
++
++		psecuritypriv->PMKIDList[psecuritypriv->PMKIDIndex].bUsed = _TRUE;
++		psecuritypriv->PMKIDIndex++ ;
++		if (psecuritypriv->PMKIDIndex == 16)
++			psecuritypriv->PMKIDIndex = 0;
++	}
++
++	return 0;
++}
++
++static int cfg80211_rtw_del_pmksa(struct wiphy *wiphy,
++				  struct net_device *ndev,
++				  struct cfg80211_pmksa *pmksa)
++{
++	u8	index, bMatched = _FALSE;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++
++	RTW_INFO(FUNC_NDEV_FMT" "MAC_FMT" "KEY_FMT"\n", FUNC_NDEV_ARG(ndev)
++		, MAC_ARG(pmksa->bssid), KEY_ARG(pmksa->pmkid));
++
++	for (index = 0 ; index < NUM_PMKID_CACHE; index++) {
++		if (_rtw_memcmp(psecuritypriv->PMKIDList[index].Bssid, (u8 *)pmksa->bssid, ETH_ALEN) == _TRUE) {
++			/* BSSID is matched, the same AP => Remove this PMKID information and reset it. */
++			_rtw_memset(psecuritypriv->PMKIDList[index].Bssid, 0x00, ETH_ALEN);
++			_rtw_memset(psecuritypriv->PMKIDList[index].PMKID, 0x00, WLAN_PMKID_LEN);
++			psecuritypriv->PMKIDList[index].bUsed = _FALSE;
++			bMatched = _TRUE;
++			RTW_INFO(FUNC_NDEV_FMT" clear id:%hhu\n", FUNC_NDEV_ARG(ndev), index);
++			break;
++		}
++	}
++
++	if (_FALSE == bMatched) {
++		RTW_INFO(FUNC_NDEV_FMT" do not have matched BSSID\n"
++			, FUNC_NDEV_ARG(ndev));
++		return -EINVAL;
++	}
++
++	return 0;
++}
++
++static int cfg80211_rtw_flush_pmksa(struct wiphy *wiphy,
++				    struct net_device *ndev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	_rtw_memset(&psecuritypriv->PMKIDList[0], 0x00, sizeof(RT_PMKID_LIST) * NUM_PMKID_CACHE);
++	psecuritypriv->PMKIDIndex = 0;
++
++	return 0;
++}
++
++#ifdef CONFIG_AP_MODE
++void rtw_cfg80211_indicate_sta_assoc(_adapter *padapter, u8 *pmgmt_frame, uint frame_len)
++{
++	s32 freq;
++	int channel;
++	struct wireless_dev *pwdev = padapter->rtw_wdev;
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++	struct net_device *ndev = padapter->pnetdev;
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++#if defined(RTW_USE_CFG80211_STA_EVENT) || defined(COMPAT_KERNEL_RELEASE)
++	{
++		struct station_info sinfo;
++		u8 ie_offset;
++		if (GetFrameSubType(pmgmt_frame) == WIFI_ASSOCREQ)
++			ie_offset = _ASOCREQ_IE_OFFSET_;
++		else /* WIFI_REASSOCREQ */
++			ie_offset = _REASOCREQ_IE_OFFSET_;
++
++		memset(&sinfo, 0, sizeof(sinfo));
++		sinfo.filled = STATION_INFO_ASSOC_REQ_IES;
++		sinfo.assoc_req_ies = pmgmt_frame + WLAN_HDR_A3_LEN + ie_offset;
++		sinfo.assoc_req_ies_len = frame_len - WLAN_HDR_A3_LEN - ie_offset;
++		cfg80211_new_sta(ndev, GetAddr2Ptr(pmgmt_frame), &sinfo, GFP_ATOMIC);
++	}
++#else /* defined(RTW_USE_CFG80211_STA_EVENT) */
++	channel = pmlmeext->cur_channel;
++	freq = rtw_ch2freq(channel);
++
++	#ifdef COMPAT_KERNEL_RELEASE
++	rtw_cfg80211_rx_mgmt(padapter, freq, 0, pmgmt_frame, frame_len, GFP_ATOMIC);
++	#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) && !defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++	rtw_cfg80211_rx_mgmt(padapter, freq, 0, pmgmt_frame, frame_len, GFP_ATOMIC);
++	#else /* COMPAT_KERNEL_RELEASE */
++	{
++		/* to avoid WARN_ON(wdev->iftype != NL80211_IFTYPE_STATION)  when calling cfg80211_send_rx_assoc() */
++		#ifndef CONFIG_PLATFORM_MSTAR
++		pwdev->iftype = NL80211_IFTYPE_STATION;
++		#endif /* CONFIG_PLATFORM_MSTAR */
++		RTW_INFO("iftype=%d before call cfg80211_send_rx_assoc()\n", pwdev->iftype);
++		rtw_cfg80211_send_rx_assoc(padapter, NULL, pmgmt_frame, frame_len);
++		RTW_INFO("iftype=%d after call cfg80211_send_rx_assoc()\n", pwdev->iftype);
++		pwdev->iftype = NL80211_IFTYPE_AP;
++		/* cfg80211_rx_action(padapter->pnetdev, freq, pmgmt_frame, frame_len, GFP_ATOMIC); */
++	}
++	#endif /* COMPAT_KERNEL_RELEASE */
++#endif /* defined(RTW_USE_CFG80211_STA_EVENT) */
++
++}
++
++void rtw_cfg80211_indicate_sta_disassoc(_adapter *padapter, unsigned char *da, unsigned short reason)
++{
++	s32 freq;
++	int channel;
++	u8 *pmgmt_frame;
++	uint frame_len;
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	unsigned short *fctrl;
++	u8 mgmt_buf[128] = {0};
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct net_device *ndev = padapter->pnetdev;
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++#if defined(RTW_USE_CFG80211_STA_EVENT) || defined(COMPAT_KERNEL_RELEASE)
++	cfg80211_del_sta(ndev, da, GFP_ATOMIC);
++#else /* defined(RTW_USE_CFG80211_STA_EVENT) */
++	channel = pmlmeext->cur_channel;
++	freq = rtw_ch2freq(channel);
++
++	pmgmt_frame = mgmt_buf;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pmgmt_frame;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, da, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, get_my_bssid(&(pmlmeinfo->network)), ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pmgmt_frame, WIFI_DEAUTH);
++
++	pmgmt_frame += sizeof(struct rtw_ieee80211_hdr_3addr);
++	frame_len = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	reason = cpu_to_le16(reason);
++	pmgmt_frame = rtw_set_fixed_ie(pmgmt_frame, _RSON_CODE_ , (unsigned char *)&reason, &frame_len);
++
++	#ifdef COMPAT_KERNEL_RELEASE
++	rtw_cfg80211_rx_mgmt(padapter, freq, 0, mgmt_buf, frame_len, GFP_ATOMIC);
++	#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) && !defined(CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER)
++	rtw_cfg80211_rx_mgmt(padapter, freq, 0, mgmt_buf, frame_len, GFP_ATOMIC);
++	#else /* COMPAT_KERNEL_RELEASE */
++	cfg80211_send_disassoc(padapter->pnetdev, mgmt_buf, frame_len);
++	/* cfg80211_rx_action(padapter->pnetdev, freq, mgmt_buf, frame_len, GFP_ATOMIC); */
++	#endif /* COMPAT_KERNEL_RELEASE */
++#endif /* defined(RTW_USE_CFG80211_STA_EVENT) */
++}
++
++static int rtw_cfg80211_monitor_if_open(struct net_device *ndev)
++{
++	int ret = 0;
++
++	RTW_INFO("%s\n", __func__);
++
++	return ret;
++}
++
++static int rtw_cfg80211_monitor_if_close(struct net_device *ndev)
++{
++	int ret = 0;
++
++	RTW_INFO("%s\n", __func__);
++
++	return ret;
++}
++
++static int rtw_cfg80211_monitor_if_xmit_entry(struct sk_buff *skb, struct net_device *ndev)
++{
++	int ret = 0;
++	int rtap_len;
++	int qos_len = 0;
++	int dot11_hdr_len = 24;
++	int snap_len = 6;
++	unsigned char *pdata;
++	u16 frame_ctl;
++	unsigned char src_mac_addr[6];
++	unsigned char dst_mac_addr[6];
++	struct rtw_ieee80211_hdr *dot11_hdr;
++	struct ieee80211_radiotap_header *rtap_hdr;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	if (skb)
++		rtw_mstat_update(MSTAT_TYPE_SKB, MSTAT_ALLOC_SUCCESS, skb->truesize);
++
++	if (unlikely(skb->len < sizeof(struct ieee80211_radiotap_header)))
++		goto fail;
++
++	rtap_hdr = (struct ieee80211_radiotap_header *)skb->data;
++	if (unlikely(rtap_hdr->it_version))
++		goto fail;
++
++	rtap_len = ieee80211_get_radiotap_len(skb->data);
++	if (unlikely(skb->len < rtap_len))
++		goto fail;
++
++	if (rtap_len != 14) {
++		RTW_INFO("radiotap len (should be 14): %d\n", rtap_len);
++		goto fail;
++	}
++
++	/* Skip the ratio tap header */
++	skb_pull(skb, rtap_len);
++
++	dot11_hdr = (struct rtw_ieee80211_hdr *)skb->data;
++	frame_ctl = le16_to_cpu(dot11_hdr->frame_ctl);
++	/* Check if the QoS bit is set */
++	if ((frame_ctl & RTW_IEEE80211_FCTL_FTYPE) == RTW_IEEE80211_FTYPE_DATA) {
++		/* Check if this ia a Wireless Distribution System (WDS) frame
++		 * which has 4 MAC addresses
++		 */
++		if (dot11_hdr->frame_ctl & 0x0080)
++			qos_len = 2;
++		if ((dot11_hdr->frame_ctl & 0x0300) == 0x0300)
++			dot11_hdr_len += 6;
++
++		memcpy(dst_mac_addr, dot11_hdr->addr1, sizeof(dst_mac_addr));
++		memcpy(src_mac_addr, dot11_hdr->addr2, sizeof(src_mac_addr));
++
++		/* Skip the 802.11 header, QoS (if any) and SNAP, but leave spaces for
++		 * for two MAC addresses
++		 */
++		skb_pull(skb, dot11_hdr_len + qos_len + snap_len - sizeof(src_mac_addr) * 2);
++		pdata = (unsigned char *)skb->data;
++		memcpy(pdata, dst_mac_addr, sizeof(dst_mac_addr));
++		memcpy(pdata + sizeof(dst_mac_addr), src_mac_addr, sizeof(src_mac_addr));
++
++		RTW_INFO("should be eapol packet\n");
++
++		/* Use the real net device to transmit the packet */
++		ret = _rtw_xmit_entry(skb, padapter->pnetdev);
++
++		return ret;
++
++	} else if ((frame_ctl & (RTW_IEEE80211_FCTL_FTYPE | RTW_IEEE80211_FCTL_STYPE))
++		== (RTW_IEEE80211_FTYPE_MGMT | RTW_IEEE80211_STYPE_ACTION)
++	) {
++		/* only for action frames */
++		struct xmit_frame		*pmgntframe;
++		struct pkt_attrib	*pattrib;
++		unsigned char	*pframe;
++		/* u8 category, action, OUI_Subtype, dialogToken=0; */
++		/* unsigned char	*frame_body; */
++		struct rtw_ieee80211_hdr *pwlanhdr;
++		struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++		struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++		u8 *buf = skb->data;
++		u32 len = skb->len;
++		u8 category, action;
++		int type = -1;
++
++		if (rtw_action_frame_parse(buf, len, &category, &action) == _FALSE) {
++			RTW_INFO(FUNC_NDEV_FMT" frame_control:0x%x\n", FUNC_NDEV_ARG(ndev),
++				le16_to_cpu(((struct rtw_ieee80211_hdr_3addr *)buf)->frame_ctl));
++			goto fail;
++		}
++
++		RTW_INFO("RTW_Tx:da="MAC_FMT" via "FUNC_NDEV_FMT"\n",
++			MAC_ARG(GetAddr1Ptr(buf)), FUNC_NDEV_ARG(ndev));
++		#ifdef CONFIG_P2P
++		type = rtw_p2p_check_frames(padapter, buf, len, _TRUE);
++		if (type >= 0)
++			goto dump;
++		#endif
++		if (category == RTW_WLAN_CATEGORY_PUBLIC)
++			RTW_INFO("RTW_Tx:%s\n", action_public_str(action));
++		else
++			RTW_INFO("RTW_Tx:category(%u), action(%u)\n", category, action);
++
++dump:
++		/* starting alloc mgmt frame to dump it */
++		pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++		if (pmgntframe == NULL)
++			goto fail;
++
++		/* update attribute */
++		pattrib = &pmgntframe->attrib;
++		update_mgntframe_attrib(padapter, pattrib);
++		pattrib->retry_ctrl = _FALSE;
++
++		_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++		pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++		_rtw_memcpy(pframe, (void *)buf, len);
++		pattrib->pktlen = len;
++
++#ifdef CONFIG_P2P
++		if (type >= 0)
++			rtw_xframe_chk_wfd_ie(pmgntframe);
++#endif /* CONFIG_P2P */
++
++		pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++		/* update seq number */
++		pmlmeext->mgnt_seq = GetSequence(pwlanhdr);
++		pattrib->seqnum = pmlmeext->mgnt_seq;
++		pmlmeext->mgnt_seq++;
++
++
++		pattrib->last_txcmdsz = pattrib->pktlen;
++
++		dump_mgntframe(padapter, pmgntframe);
++
++	} else
++		RTW_INFO("frame_ctl=0x%x\n", frame_ctl & (RTW_IEEE80211_FCTL_FTYPE | RTW_IEEE80211_FCTL_STYPE));
++
++
++fail:
++
++	rtw_skb_free(skb);
++
++	return 0;
++
++}
++
++static void rtw_cfg80211_monitor_if_set_multicast_list(struct net_device *ndev)
++{
++	RTW_INFO("%s\n", __func__);
++}
++
++static int rtw_cfg80211_monitor_if_set_mac_address(struct net_device *ndev, void *addr)
++{
++	int ret = 0;
++
++	RTW_INFO("%s\n", __func__);
++
++	return ret;
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
++static const struct net_device_ops rtw_cfg80211_monitor_if_ops = {
++	.ndo_open = rtw_cfg80211_monitor_if_open,
++	.ndo_stop = rtw_cfg80211_monitor_if_close,
++	.ndo_start_xmit = rtw_cfg80211_monitor_if_xmit_entry,
++	#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 2, 0))
++	.ndo_set_multicast_list = rtw_cfg80211_monitor_if_set_multicast_list,
++	#endif
++	.ndo_set_mac_address = rtw_cfg80211_monitor_if_set_mac_address,
++};
++#endif
++
++static int rtw_cfg80211_add_monitor_if(_adapter *padapter, char *name, struct net_device **ndev)
++{
++	int ret = 0;
++	struct net_device *mon_ndev = NULL;
++	struct wireless_dev *mon_wdev = NULL;
++	struct rtw_netdev_priv_indicator *pnpi;
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(padapter);
++
++	if (!name) {
++		RTW_INFO(FUNC_ADPT_FMT" without specific name\n", FUNC_ADPT_ARG(padapter));
++		ret = -EINVAL;
++		goto out;
++	}
++
++	if (pwdev_priv->pmon_ndev) {
++		RTW_INFO(FUNC_ADPT_FMT" monitor interface exist: "NDEV_FMT"\n",
++			FUNC_ADPT_ARG(padapter), NDEV_ARG(pwdev_priv->pmon_ndev));
++		ret = -EBUSY;
++		goto out;
++	}
++
++	mon_ndev = alloc_etherdev(sizeof(struct rtw_netdev_priv_indicator));
++	if (!mon_ndev) {
++		RTW_INFO(FUNC_ADPT_FMT" allocate ndev fail\n", FUNC_ADPT_ARG(padapter));
++		ret = -ENOMEM;
++		goto out;
++	}
++
++	mon_ndev->type = ARPHRD_IEEE80211_RADIOTAP;
++	strncpy(mon_ndev->name, name, IFNAMSIZ);
++	mon_ndev->name[IFNAMSIZ - 1] = 0;
++	mon_ndev->destructor = rtw_ndev_destructor;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
++	mon_ndev->netdev_ops = &rtw_cfg80211_monitor_if_ops;
++#else
++	mon_ndev->open = rtw_cfg80211_monitor_if_open;
++	mon_ndev->stop = rtw_cfg80211_monitor_if_close;
++	mon_ndev->hard_start_xmit = rtw_cfg80211_monitor_if_xmit_entry;
++	mon_ndev->set_mac_address = rtw_cfg80211_monitor_if_set_mac_address;
++#endif
++
++	pnpi = netdev_priv(mon_ndev);
++	pnpi->priv = padapter;
++	pnpi->sizeof_priv = sizeof(_adapter);
++
++	/*  wdev */
++	mon_wdev = (struct wireless_dev *)rtw_zmalloc(sizeof(struct wireless_dev));
++	if (!mon_wdev) {
++		RTW_INFO(FUNC_ADPT_FMT" allocate mon_wdev fail\n", FUNC_ADPT_ARG(padapter));
++		ret = -ENOMEM;
++		goto out;
++	}
++
++	mon_wdev->wiphy = padapter->rtw_wdev->wiphy;
++	mon_wdev->netdev = mon_ndev;
++	mon_wdev->iftype = NL80211_IFTYPE_MONITOR;
++	mon_ndev->ieee80211_ptr = mon_wdev;
++
++	ret = register_netdevice(mon_ndev);
++	if (ret)
++		goto out;
++
++	*ndev = pwdev_priv->pmon_ndev = mon_ndev;
++	_rtw_memcpy(pwdev_priv->ifname_mon, name, IFNAMSIZ + 1);
++
++out:
++	if (ret && mon_wdev) {
++		rtw_mfree((u8 *)mon_wdev, sizeof(struct wireless_dev));
++		mon_wdev = NULL;
++	}
++
++	if (ret && mon_ndev) {
++		free_netdev(mon_ndev);
++		*ndev = mon_ndev = NULL;
++	}
++
++	return ret;
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++static struct wireless_dev *
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 38)) || defined(COMPAT_KERNEL_RELEASE)
++static struct net_device *
++#else
++static int
++#endif
++	cfg80211_rtw_add_virtual_intf(
++		struct wiphy *wiphy,
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 7, 0))
++		const char *name,
++		#else
++		char *name,
++		#endif
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 1, 0))
++		unsigned char name_assign_type,
++		#endif
++		enum nl80211_iftype type, u32 *flags, struct vif_params *params)
++{
++	int ret = 0;
++	struct net_device *ndev = NULL;
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++
++	RTW_INFO("%s wiphy:%s, name:%s, type:%d\n",
++		__func__, wiphy_name(wiphy), name, type);
++
++	switch (type) {
++	case NL80211_IFTYPE_ADHOC:
++	case NL80211_IFTYPE_AP_VLAN:
++	case NL80211_IFTYPE_WDS:
++	case NL80211_IFTYPE_MESH_POINT:
++		ret = -ENODEV;
++		break;
++	case NL80211_IFTYPE_MONITOR:
++		ret = rtw_cfg80211_add_monitor_if(padapter, (char *)name, &ndev);
++		break;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	case NL80211_IFTYPE_P2P_CLIENT:
++#endif
++	case NL80211_IFTYPE_STATION:
++		ret = -ENODEV;
++		break;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	case NL80211_IFTYPE_P2P_GO:
++#endif
++	case NL80211_IFTYPE_AP:
++		ret = -ENODEV;
++		break;
++	default:
++		ret = -ENODEV;
++		RTW_INFO("Unsupported interface type\n");
++		break;
++	}
++
++	RTW_INFO("%s ndev:%p, ret:%d\n", __func__, ndev, ret);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	return ndev ? ndev->ieee80211_ptr : ERR_PTR(ret);
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 38)) || defined(COMPAT_KERNEL_RELEASE)
++	return ndev ? ndev : ERR_PTR(ret);
++#else
++	return ret;
++#endif
++}
++
++static int cfg80211_rtw_del_virtual_intf(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct wireless_dev *wdev
++#else
++	struct net_device *ndev
++#endif
++)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct net_device *ndev = wdev_to_ndev(wdev);
++#endif
++	int ret = 0;
++	_adapter *adapter;
++	struct rtw_wdev_priv *pwdev_priv;
++
++	if (!ndev) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	adapter = (_adapter *)rtw_netdev_priv(ndev);
++	pwdev_priv = adapter_wdev_data(adapter);
++
++	unregister_netdevice(ndev);
++
++	if (ndev == pwdev_priv->pmon_ndev) {
++		pwdev_priv->pmon_ndev = NULL;
++		pwdev_priv->ifname_mon[0] = '\0';
++		RTW_INFO(FUNC_NDEV_FMT" remove monitor interface\n", FUNC_NDEV_ARG(ndev));
++	}
++
++exit:
++	return ret;
++}
++
++static int rtw_add_beacon(_adapter *adapter, const u8 *head, size_t head_len, const u8 *tail, size_t tail_len)
++{
++	int ret = 0;
++	u8 *pbuf = NULL;
++	uint len, wps_ielen = 0;
++	uint p2p_ielen = 0;
++	u8 *p2p_ie;
++	u8 got_p2p_ie = _FALSE;
++	struct mlme_priv *pmlmepriv = &(adapter->mlmepriv);
++	/* struct sta_priv *pstapriv = &padapter->stapriv; */
++
++
++	RTW_INFO("%s beacon_head_len=%zu, beacon_tail_len=%zu\n", __FUNCTION__, head_len, tail_len);
++
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	if (head_len < 24)
++		return -EINVAL;
++
++
++	pbuf = rtw_zmalloc(head_len + tail_len);
++	if (!pbuf)
++		return -ENOMEM;
++
++
++	/* _rtw_memcpy(&pstapriv->max_num_sta, param->u.bcn_ie.reserved, 2); */
++
++	/* if((pstapriv->max_num_sta>NUM_STA) || (pstapriv->max_num_sta<=0)) */
++	/*	pstapriv->max_num_sta = NUM_STA; */
++
++
++	_rtw_memcpy(pbuf, (void *)head + 24, head_len - 24); /* 24=beacon header len. */
++	_rtw_memcpy(pbuf + head_len - 24, (void *)tail, tail_len);
++
++	len = head_len + tail_len - 24;
++
++	/* check wps ie if inclued */
++	if (rtw_get_wps_ie(pbuf + _FIXED_IE_LENGTH_, len - _FIXED_IE_LENGTH_, NULL, &wps_ielen))
++		RTW_INFO("add bcn, wps_ielen=%d\n", wps_ielen);
++
++#ifdef CONFIG_P2P
++	if (adapter->wdinfo.driver_interface == DRIVER_CFG80211) {
++		/* check p2p if enable */
++		if (rtw_get_p2p_ie(pbuf + _FIXED_IE_LENGTH_, len - _FIXED_IE_LENGTH_, NULL, &p2p_ielen)) {
++			struct mlme_ext_priv *pmlmeext = &adapter->mlmeextpriv;
++			struct wifidirect_info *pwdinfo = &(adapter->wdinfo);
++
++			RTW_INFO("got p2p_ie, len=%d\n", p2p_ielen);
++
++			got_p2p_ie = _TRUE;
++
++			if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++				RTW_INFO("Enable P2P function for the first time\n");
++				rtw_p2p_enable(adapter, P2P_ROLE_GO);
++				adapter_wdev_data(adapter)->p2p_enabled = _TRUE;
++
++				adapter->stapriv.expire_to = 3; /* 3x2 = 6 sec in p2p mode */
++			} else {
++				RTW_INFO("enter GO Mode, p2p_ielen=%d\n", p2p_ielen);
++
++				rtw_p2p_set_role(pwdinfo, P2P_ROLE_GO);
++				rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_OK);
++				pwdinfo->intent = 15;
++			}
++		}
++	}
++#endif /* CONFIG_P2P */
++
++	/* pbss_network->IEs will not include p2p_ie, wfd ie */
++	rtw_ies_remove_ie(pbuf, &len, _BEACON_IE_OFFSET_, _VENDOR_SPECIFIC_IE_, P2P_OUI, 4);
++	rtw_ies_remove_ie(pbuf, &len, _BEACON_IE_OFFSET_, _VENDOR_SPECIFIC_IE_, WFD_OUI, 4);
++
++	if (rtw_check_beacon_data(adapter, pbuf,  len) == _SUCCESS) {
++#ifdef CONFIG_P2P
++		/* check p2p if enable */
++		if (got_p2p_ie == _TRUE) {
++			struct mlme_ext_priv *pmlmeext = &adapter->mlmeextpriv;
++			struct wifidirect_info *pwdinfo = &(adapter->wdinfo);
++			pwdinfo->operating_channel = pmlmeext->cur_channel;
++		}
++#endif /* CONFIG_P2P */
++		ret = 0;
++	} else
++		ret = -EINVAL;
++
++
++	rtw_mfree(pbuf, head_len + tail_len);
++
++	return ret;
++}
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 4, 0)) && !defined(COMPAT_KERNEL_RELEASE)
++static int cfg80211_rtw_add_beacon(struct wiphy *wiphy, struct net_device *ndev,
++		struct beacon_parameters *info)
++{
++	int ret = 0;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(ndev);
++
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++	ret = rtw_add_beacon(adapter, info->head, info->head_len, info->tail, info->tail_len);
++
++	return ret;
++}
++
++static int cfg80211_rtw_set_beacon(struct wiphy *wiphy, struct net_device *ndev,
++		struct beacon_parameters *info)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct mlme_ext_priv *pmlmeext = &(adapter->mlmeextpriv);
++
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	pmlmeext->bstart_bss = _TRUE;
++
++	cfg80211_rtw_add_beacon(wiphy, ndev, info);
++
++	return 0;
++}
++
++static int	cfg80211_rtw_del_beacon(struct wiphy *wiphy, struct net_device *ndev)
++{
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	return 0;
++}
++#else
++static int cfg80211_rtw_start_ap(struct wiphy *wiphy, struct net_device *ndev,
++		struct cfg80211_ap_settings *settings)
++{
++	int ret = 0;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(ndev);
++
++	RTW_INFO(FUNC_NDEV_FMT" hidden_ssid:%d, auth_type:%d\n", FUNC_NDEV_ARG(ndev),
++		settings->hidden_ssid, settings->auth_type);
++
++	ret = rtw_add_beacon(adapter, settings->beacon.head, settings->beacon.head_len,
++		settings->beacon.tail, settings->beacon.tail_len);
++
++	adapter->mlmeextpriv.mlmext_info.hidden_ssid_mode = settings->hidden_ssid;
++
++	if (settings->ssid && settings->ssid_len) {
++		WLAN_BSSID_EX *pbss_network = &adapter->mlmepriv.cur_network.network;
++		WLAN_BSSID_EX *pbss_network_ext = &adapter->mlmeextpriv.mlmext_info.network;
++
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" ssid:(%s,%zu), from ie:(%s,%d)\n", FUNC_ADPT_ARG(adapter),
++				settings->ssid, settings->ssid_len,
++				pbss_network->Ssid.Ssid, pbss_network->Ssid.SsidLength);
++
++		_rtw_memcpy(pbss_network->Ssid.Ssid, (void *)settings->ssid, settings->ssid_len);
++		pbss_network->Ssid.SsidLength = settings->ssid_len;
++		_rtw_memcpy(pbss_network_ext->Ssid.Ssid, (void *)settings->ssid, settings->ssid_len);
++		pbss_network_ext->Ssid.SsidLength = settings->ssid_len;
++
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" after ssid:(%s,%d), (%s,%d)\n", FUNC_ADPT_ARG(adapter),
++				pbss_network->Ssid.Ssid, pbss_network->Ssid.SsidLength,
++				pbss_network_ext->Ssid.Ssid, pbss_network_ext->Ssid.SsidLength);
++	}
++
++	return ret;
++}
++
++static int cfg80211_rtw_change_beacon(struct wiphy *wiphy, struct net_device *ndev,
++		struct cfg80211_beacon_data *info)
++{
++	int ret = 0;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(ndev);
++
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	ret = rtw_add_beacon(adapter, info->head, info->head_len, info->tail, info->tail_len);
++
++	return ret;
++}
++
++static int cfg80211_rtw_stop_ap(struct wiphy *wiphy, struct net_device *ndev)
++{
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++	return 0;
++}
++
++#endif /* (LINUX_VERSION_CODE < KERNEL_VERSION(3, 4, 0)) */
++
++#if CONFIG_RTW_MACADDR_ACL && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 9, 0))
++static int cfg80211_rtw_set_mac_acl(struct wiphy *wiphy, struct net_device *ndev,
++		const struct cfg80211_acl_data *params)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(ndev);
++	u8 acl_mode = RTW_ACL_MODE_DISABLED;
++	int ret = -1;
++	int i;
++
++	if (!params) {
++		RTW_WARN(FUNC_ADPT_FMT" params NULL\n", FUNC_ADPT_ARG(adapter));
++		goto exit;
++	}
++
++	RTW_INFO(FUNC_ADPT_FMT" acl_policy:%d, entry_num:%d\n"
++		, FUNC_ADPT_ARG(adapter), params->acl_policy, params->n_acl_entries);
++
++	if (params->acl_policy == NL80211_ACL_POLICY_ACCEPT_UNLESS_LISTED)
++		acl_mode = RTW_ACL_MODE_ACCEPT_UNLESS_LISTED;
++	else if (params->acl_policy == NL80211_ACL_POLICY_DENY_UNLESS_LISTED)
++		acl_mode = RTW_ACL_MODE_DENY_UNLESS_LISTED;
++
++	if (!params->n_acl_entries) {
++		if (acl_mode != RTW_ACL_MODE_DISABLED)
++			RTW_WARN(FUNC_ADPT_FMT" acl_policy:%d with no entry\n"
++				, FUNC_ADPT_ARG(adapter), params->acl_policy);
++		acl_mode = RTW_ACL_MODE_DISABLED;
++		goto exit;
++	}
++
++	for (i = 0; i < params->n_acl_entries; i++)
++		rtw_acl_add_sta(adapter, params->mac_addrs[i].addr);
++
++	ret = 0;
++
++exit:
++	rtw_set_macaddr_acl(adapter, acl_mode);
++	return ret;
++}
++#endif /* CONFIG_RTW_MACADDR_ACL && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 9, 0)) */
++
++static int	cfg80211_rtw_add_station(struct wiphy *wiphy, struct net_device *ndev,
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 16, 0))
++	u8 *mac,
++#else
++	const u8 *mac,
++#endif
++	struct station_parameters *params)
++{
++	int ret = 0;
++#ifdef CONFIG_TDLS
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct sta_info *psta;
++#endif /* CONFIG_TDLS */
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++#ifdef CONFIG_TDLS
++	psta = rtw_get_stainfo(pstapriv, (u8 *)mac);
++	if (psta == NULL) {
++		psta = rtw_alloc_stainfo(pstapriv, (u8 *)mac);
++		if (psta == NULL) {
++			RTW_INFO("[%s] Alloc station for "MAC_FMT" fail\n", __FUNCTION__, MAC_ARG(mac));
++			ret = -EOPNOTSUPP;
++			goto exit;
++		}
++	}
++#endif /* CONFIG_TDLS */
++
++exit:
++	return ret;
++}
++
++static int	cfg80211_rtw_del_station(struct wiphy *wiphy, struct net_device *ndev,
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 16, 0))
++	u8 *mac
++#elif (LINUX_VERSION_CODE < KERNEL_VERSION(3, 19, 0))
++	const u8 *mac
++#else
++	struct station_del_parameters *params
++#endif
++)
++{
++	int ret = 0;
++	_irqL irqL;
++	_list	*phead, *plist;
++	u8 updated = _FALSE;
++	const u8 *target_mac;
++	struct sta_info *psta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	RTW_INFO("+"FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 19, 0))
++	target_mac = mac;
++#else
++	target_mac = params->mac;
++#endif
++
++	if (check_fwstate(pmlmepriv, (_FW_LINKED | WIFI_AP_STATE)) != _TRUE) {
++		RTW_INFO("%s, fw_state != FW_LINKED|WIFI_AP_STATE\n", __func__);
++		return -EINVAL;
++	}
++
++
++	if (!target_mac) {
++		RTW_INFO("flush all sta, and cam_entry\n");
++
++		flush_all_cam_entry(padapter);	/* clear CAM */
++
++		ret = rtw_sta_flush(padapter, _TRUE);
++
++		return ret;
++	}
++
++
++	RTW_INFO("free sta macaddr =" MAC_FMT "\n", MAC_ARG(target_mac));
++
++	if (target_mac[0] == 0xff && target_mac[1] == 0xff &&
++	    target_mac[2] == 0xff && target_mac[3] == 0xff &&
++	    target_mac[4] == 0xff && target_mac[5] == 0xff)
++		return -EINVAL;
++
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++
++	/* check asoc_queue */
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++
++		plist = get_next(plist);
++
++		if (_rtw_memcmp((u8 *)target_mac, psta->hwaddr, ETH_ALEN)) {
++			if (psta->dot8021xalg == 1 && psta->bpairwise_key_installed == _FALSE)
++				RTW_INFO("%s, sta's dot8021xalg = 1 and key_installed = _FALSE\n", __func__);
++			else {
++				RTW_INFO("free psta=%p, aid=%d\n", psta, psta->aid);
++
++				rtw_list_delete(&psta->asoc_list);
++				pstapriv->asoc_list_cnt--;
++
++				/* _exit_critical_bh(&pstapriv->asoc_list_lock, &irqL); */
++				if (check_fwstate(pmlmepriv, (WIFI_AP_STATE)) == _TRUE)
++					updated = ap_free_sta(padapter, psta, _TRUE, WLAN_REASON_PREV_AUTH_NOT_VALID, _TRUE);
++				else
++					updated = ap_free_sta(padapter, psta, _TRUE, WLAN_REASON_DEAUTH_LEAVING, _TRUE);
++				/* _enter_critical_bh(&pstapriv->asoc_list_lock, &irqL); */
++
++				psta = NULL;
++
++				break;
++			}
++
++		}
++
++	}
++
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	associated_clients_update(padapter, updated, STA_INFO_UPDATE_ALL);
++
++	RTW_INFO("-"FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	return ret;
++
++}
++
++static int	cfg80211_rtw_change_station(struct wiphy *wiphy, struct net_device *ndev,
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 16, 0))
++	u8 *mac,
++#else
++	const u8 *mac,
++#endif
++	struct station_parameters *params)
++{
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	return 0;
++}
++
++struct sta_info *rtw_sta_info_get_by_idx(const int idx, struct sta_priv *pstapriv)
++
++{
++
++	_list	*phead, *plist;
++	struct sta_info *psta = NULL;
++	int i = 0;
++
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++
++	/* check asoc_queue */
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		if (idx == i)
++			psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		plist = get_next(plist);
++		i++;
++	}
++	return psta;
++}
++
++static int	cfg80211_rtw_dump_station(struct wiphy *wiphy, struct net_device *ndev,
++		int idx, u8 *mac, struct station_info *sinfo)
++{
++
++	int ret = 0;
++	_irqL irqL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct sta_info *psta = NULL;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	psta = rtw_sta_info_get_by_idx(idx, pstapriv);
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	if (NULL == psta) {
++		RTW_INFO("Station is not found\n");
++		ret = -ENOENT;
++		goto exit;
++	}
++	_rtw_memcpy(mac, psta->hwaddr, ETH_ALEN);
++	sinfo->filled = 0;
++	sinfo->filled |= STATION_INFO_SIGNAL;
++	sinfo->signal = psta->rssi;
++
++exit:
++	return ret;
++}
++
++static int	cfg80211_rtw_change_bss(struct wiphy *wiphy, struct net_device *ndev,
++		struct bss_parameters *params)
++{
++	u8 i;
++
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++/*
++	RTW_INFO("use_cts_prot=%d\n", params->use_cts_prot);
++	RTW_INFO("use_short_preamble=%d\n", params->use_short_preamble);
++	RTW_INFO("use_short_slot_time=%d\n", params->use_short_slot_time);
++	RTW_INFO("ap_isolate=%d\n", params->ap_isolate);
++
++	RTW_INFO("basic_rates_len=%d\n", params->basic_rates_len);
++	for(i = 0; i < params->basic_rates_len; i++)
++		RTW_INFO("basic_rates=%d\n", params->basic_rates[i]);
++*/
++	return 0;
++
++}
++
++static int	cfg80211_rtw_set_channel(struct wiphy *wiphy
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	, struct net_device *ndev
++	#endif
++	, struct ieee80211_channel *chan, enum nl80211_channel_type channel_type)
++{
++	int chan_target = (u8) ieee80211_frequency_to_channel(chan->center_freq);
++	int chan_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	int chan_width = CHANNEL_WIDTH_20;
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++#endif
++
++	switch (channel_type) {
++	case NL80211_CHAN_NO_HT:
++	case NL80211_CHAN_HT20:
++		chan_width = CHANNEL_WIDTH_20;
++		chan_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	case NL80211_CHAN_HT40MINUS:
++		chan_width = CHANNEL_WIDTH_40;
++		chan_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++		break;
++	case NL80211_CHAN_HT40PLUS:
++		chan_width = CHANNEL_WIDTH_40;
++		chan_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++		break;
++	default:
++		chan_width = CHANNEL_WIDTH_20;
++		chan_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	}
++
++	set_channel_bwmode(padapter, chan_target, chan_offset, chan_width);
++
++	return 0;
++}
++
++static int cfg80211_rtw_set_monitor_channel(struct wiphy *wiphy
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 8, 0))
++	, struct cfg80211_chan_def *chandef
++#else
++	, struct ieee80211_channel *chan
++	, enum nl80211_channel_type channel_type
++#endif
++)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 8, 0))
++	struct ieee80211_channel *chan = chandef->chan;
++#endif
++
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++	int target_channal = chan->hw_value;
++	int target_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	int target_width = CHANNEL_WIDTH_20;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 8, 0))
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO("center_freq %u Mhz ch %u width %u freq1 %u freq2 %u\n"
++		, chan->center_freq
++		, chan->hw_value
++		, chandef->width
++		, chandef->center_freq1
++		, chandef->center_freq2);
++#endif /* CONFIG_DEBUG_CFG80211 */
++
++	switch (chandef->width) {
++	case NL80211_CHAN_WIDTH_20_NOHT:
++	case NL80211_CHAN_WIDTH_20:
++		target_width = CHANNEL_WIDTH_20;
++		target_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	case NL80211_CHAN_WIDTH_40:
++		target_width = CHANNEL_WIDTH_40;
++		if (chandef->center_freq1 > chan->center_freq)
++			target_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++		else
++			target_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++		break;
++	case NL80211_CHAN_WIDTH_80:
++		target_width = CHANNEL_WIDTH_80;
++		target_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	case NL80211_CHAN_WIDTH_80P80:
++		target_width = CHANNEL_WIDTH_80_80;
++		target_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	case NL80211_CHAN_WIDTH_160:
++		target_width = CHANNEL_WIDTH_160;
++		target_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 11, 0))
++	case NL80211_CHAN_WIDTH_5:
++	case NL80211_CHAN_WIDTH_10:
++#endif
++	default:
++		target_width = CHANNEL_WIDTH_20;
++		target_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	}
++#else
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO("center_freq %u Mhz ch %u channel_type %u\n"
++		, chan->center_freq
++		, chan->hw_value
++		, channel_type);
++#endif /* CONFIG_DEBUG_CFG80211 */
++
++	switch (channel_type) {
++	case NL80211_CHAN_NO_HT:
++	case NL80211_CHAN_HT20:
++		target_width = CHANNEL_WIDTH_20;
++		target_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	case NL80211_CHAN_HT40MINUS:
++		target_width = CHANNEL_WIDTH_40;
++		target_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++		break;
++	case NL80211_CHAN_HT40PLUS:
++		target_width = CHANNEL_WIDTH_40;
++		target_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++		break;
++	default:
++		target_width = CHANNEL_WIDTH_20;
++		target_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	}
++#endif
++
++	set_channel_bwmode(padapter, target_channal, target_offset, target_width);
++
++	return 0;
++}
++
++static int	cfg80211_rtw_auth(struct wiphy *wiphy, struct net_device *ndev,
++		struct cfg80211_auth_request *req)
++{
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	return 0;
++}
++
++static int	cfg80211_rtw_assoc(struct wiphy *wiphy, struct net_device *ndev,
++		struct cfg80211_assoc_request *req)
++{
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++	return 0;
++}
++#endif /* CONFIG_AP_MODE */
++
++void rtw_cfg80211_rx_probe_request(_adapter *adapter, u8 *frame, uint frame_len)
++{
++	s32 freq;
++	int channel;
++	struct mlme_ext_priv *pmlmeext = &(adapter->mlmeextpriv);
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(adapter);
++	u8 category, action;
++
++	channel = rtw_get_oper_ch(adapter);
++	freq = rtw_ch2freq(channel);
++
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO("RTW_Rx: probe request, cur_ch=%d\n", channel);
++#endif /* CONFIG_DEBUG_CFG80211 */
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,37)) || defined(COMPAT_KERNEL_RELEASE)
++	rtw_cfg80211_rx_mgmt(adapter, freq, 0, frame, frame_len, GFP_ATOMIC);
++#else
++	cfg80211_rx_action(adapter->pnetdev, freq, frame, frame_len, GFP_ATOMIC);
++#endif
++}
++
++void rtw_cfg80211_rx_action_p2p(_adapter *padapter, u8 *pmgmt_frame, uint frame_len)
++{
++	int type;
++	s32 freq;
++	int channel;
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++	u8 category, action;
++
++	channel = rtw_get_oper_ch(padapter);
++
++	RTW_INFO("RTW_Rx:cur_ch=%d\n", channel);
++#ifdef CONFIG_P2P
++	type = rtw_p2p_check_frames(padapter, pmgmt_frame, frame_len, _FALSE);
++	if (type >= 0)
++		goto indicate;
++#endif
++	rtw_action_frame_parse(pmgmt_frame, frame_len, &category, &action);
++	RTW_INFO("RTW_Rx:category(%u), action(%u)\n", category, action);
++
++indicate:
++	freq = rtw_ch2freq(channel);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	rtw_cfg80211_rx_mgmt(padapter, freq, 0, pmgmt_frame, frame_len, GFP_ATOMIC);
++#else
++	cfg80211_rx_action(padapter->pnetdev, freq, pmgmt_frame, frame_len, GFP_ATOMIC);
++#endif
++}
++
++void rtw_cfg80211_rx_p2p_action_public(_adapter *padapter, u8 *pmgmt_frame, uint frame_len)
++{
++	int type;
++	s32 freq;
++	int channel;
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++	u8 category, action;
++
++	channel = rtw_get_oper_ch(padapter);
++
++	RTW_INFO("RTW_Rx:cur_ch=%d\n", channel);
++	#ifdef CONFIG_P2P
++	type = rtw_p2p_check_frames(padapter, pmgmt_frame, frame_len, _FALSE);
++	if (type >= 0) {
++		switch (type) {
++		case P2P_GO_NEGO_CONF:
++		case P2P_PROVISION_DISC_RESP:
++		case P2P_INVIT_RESP:
++			/*rtw_mi_set_scan_deny(padapter, 2000);
++			rtw_clear_scan_deny(padapter);*/
++			rtw_mi_buddy_set_scan_deny(padapter, 2000);
++		}
++		goto indicate;
++	}
++	#endif
++	rtw_action_frame_parse(pmgmt_frame, frame_len, &category, &action);
++	RTW_INFO("RTW_Rx:category(%u), action(%u)\n", category, action);
++
++indicate:
++	freq = rtw_ch2freq(channel);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	rtw_cfg80211_rx_mgmt(padapter, freq, 0, pmgmt_frame, frame_len, GFP_ATOMIC);
++#else
++	cfg80211_rx_action(padapter->pnetdev, freq, pmgmt_frame, frame_len, GFP_ATOMIC);
++#endif
++}
++
++void rtw_cfg80211_rx_action(_adapter *adapter, u8 *frame, uint frame_len, const char *msg)
++{
++	s32 freq;
++	int channel;
++	struct mlme_ext_priv *pmlmeext = &(adapter->mlmeextpriv);
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(adapter);
++	u8 category, action;
++
++	channel = rtw_get_oper_ch(adapter);
++
++	rtw_action_frame_parse(frame, frame_len, &category, &action);
++
++	if (action == ACT_PUBLIC_GAS_INITIAL_REQ) {
++		rtw_mi_set_scan_deny(adapter, 200);
++		rtw_mi_scan_abort(adapter, _FALSE); /*rtw_scan_abort_no_wait*/
++	}
++
++	freq = rtw_ch2freq(channel);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	rtw_cfg80211_rx_mgmt(adapter, freq, 0, frame, frame_len, GFP_ATOMIC);
++#else
++	cfg80211_rx_action(adapter->pnetdev, freq, frame, frame_len, GFP_ATOMIC);
++#endif
++
++	RTW_INFO("RTW_Rx:cur_ch=%d\n", channel);
++	if (msg)
++		RTW_INFO("RTW_Rx:%s\n", msg);
++	else
++		RTW_INFO("RTW_Rx:category(%u), action(%u)\n", category, action);
++}
++
++#ifdef CONFIG_P2P
++void rtw_cfg80211_issue_p2p_provision_request(_adapter *padapter, const u8 *buf, size_t len)
++{
++	u16	wps_devicepassword_id = 0x0000;
++	uint	wps_devicepassword_id_len = 0;
++	u8			wpsie[255] = { 0x00 }, p2p_ie[255] = { 0x00 };
++	uint			p2p_ielen = 0;
++	uint			wpsielen = 0;
++	u32	devinfo_contentlen = 0;
++	u8	devinfo_content[64] = { 0x00 };
++	u16	capability = 0;
++	uint capability_len = 0;
++
++	unsigned char category = RTW_WLAN_CATEGORY_PUBLIC;
++	u8			action = P2P_PUB_ACTION_ACTION;
++	u8			dialogToken = 1;
++	u32			p2poui = cpu_to_be32(P2POUI);
++	u8			oui_subtype = P2P_PROVISION_DISC_REQ;
++	u32			p2pielen = 0;
++#ifdef CONFIG_WFD
++	u32					wfdielen = 0;
++#endif
++
++	struct xmit_frame			*pmgntframe;
++	struct pkt_attrib			*pattrib;
++	unsigned char					*pframe;
++	struct rtw_ieee80211_hdr	*pwlanhdr;
++	unsigned short				*fctrl;
++	struct xmit_priv			*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++	u8 *frame_body = (unsigned char *)(buf + sizeof(struct rtw_ieee80211_hdr_3addr));
++	size_t frame_body_len = len - sizeof(struct rtw_ieee80211_hdr_3addr);
++
++
++	RTW_INFO("[%s] In\n", __FUNCTION__);
++
++	/* prepare for building provision_request frame	 */
++	_rtw_memcpy(pwdinfo->tx_prov_disc_info.peerIFAddr, GetAddr1Ptr(buf), ETH_ALEN);
++	_rtw_memcpy(pwdinfo->tx_prov_disc_info.peerDevAddr, GetAddr1Ptr(buf), ETH_ALEN);
++
++	pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_PUSH_BUTTON;
++
++	rtw_get_wps_ie(frame_body + _PUBLIC_ACTION_IE_OFFSET_, frame_body_len - _PUBLIC_ACTION_IE_OFFSET_, wpsie, &wpsielen);
++	rtw_get_wps_attr_content(wpsie, wpsielen, WPS_ATTR_DEVICE_PWID, (u8 *) &wps_devicepassword_id, &wps_devicepassword_id_len);
++	wps_devicepassword_id = be16_to_cpu(wps_devicepassword_id);
++
++	switch (wps_devicepassword_id) {
++	case WPS_DPID_PIN:
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_LABEL;
++		break;
++	case WPS_DPID_USER_SPEC:
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_DISPLYA;
++		break;
++	case WPS_DPID_MACHINE_SPEC:
++		break;
++	case WPS_DPID_REKEY:
++		break;
++	case WPS_DPID_PBC:
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_PUSH_BUTTON;
++		break;
++	case WPS_DPID_REGISTRAR_SPEC:
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_KEYPAD;
++		break;
++	default:
++		break;
++	}
++
++
++	if (rtw_get_p2p_ie(frame_body + _PUBLIC_ACTION_IE_OFFSET_, frame_body_len - _PUBLIC_ACTION_IE_OFFSET_, p2p_ie, &p2p_ielen)) {
++
++		rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_DEVICE_INFO, devinfo_content, &devinfo_contentlen);
++		rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CAPABILITY, (u8 *)&capability, &capability_len);
++
++	}
++
++
++	/* start to build provision_request frame	 */
++	_rtw_memset(wpsie, 0, sizeof(wpsie));
++	_rtw_memset(p2p_ie, 0, sizeof(p2p_ie));
++	p2p_ielen = 0;
++
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL)
++		return;
++
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++
++	fctrl = &(pwlanhdr->frame_ctl);
++	*(fctrl) = 0;
++
++	_rtw_memcpy(pwlanhdr->addr1, pwdinfo->tx_prov_disc_info.peerDevAddr, ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr2, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pwlanhdr->addr3, pwdinfo->tx_prov_disc_info.peerDevAddr, ETH_ALEN);
++
++	SetSeqNum(pwlanhdr, pmlmeext->mgnt_seq);
++	pmlmeext->mgnt_seq++;
++	SetFrameSubType(pframe, WIFI_ACTION);
++
++	pframe += sizeof(struct rtw_ieee80211_hdr_3addr);
++	pattrib->pktlen = sizeof(struct rtw_ieee80211_hdr_3addr);
++
++	pframe = rtw_set_fixed_ie(pframe, 1, &(category), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(action), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 4, (unsigned char *) &(p2poui), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(oui_subtype), &(pattrib->pktlen));
++	pframe = rtw_set_fixed_ie(pframe, 1, &(dialogToken), &(pattrib->pktlen));
++
++
++	/* build_prov_disc_request_p2p_ie	 */
++	/*	P2P OUI */
++	p2pielen = 0;
++	p2p_ie[p2pielen++] = 0x50;
++	p2p_ie[p2pielen++] = 0x6F;
++	p2p_ie[p2pielen++] = 0x9A;
++	p2p_ie[p2pielen++] = 0x09;	/*	WFA P2P v1.0 */
++
++	/*	Commented by Albert 20110301 */
++	/*	According to the P2P Specification, the provision discovery request frame should contain 3 P2P attributes */
++	/*	1. P2P Capability */
++	/*	2. Device Info */
++	/*	3. Group ID ( When joining an operating P2P Group ) */
++
++	/*	P2P Capability ATTR */
++	/*	Type:	 */
++	p2p_ie[p2pielen++] = P2P_ATTR_CAPABILITY;
++
++	/*	Length: */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 0x0002 ); */
++	RTW_PUT_LE16(p2p_ie + p2pielen, 0x0002);
++	p2pielen += 2;
++
++	/*	Value: */
++	/*	Device Capability Bitmap, 1 byte */
++	/*	Group Capability Bitmap, 1 byte */
++	_rtw_memcpy(p2p_ie + p2pielen, &capability, 2);
++	p2pielen += 2;
++
++
++	/*	Device Info ATTR */
++	/*	Type: */
++	p2p_ie[p2pielen++] = P2P_ATTR_DEVICE_INFO;
++
++	/*	Length: */
++	/*	21->P2P Device Address (6bytes) + Config Methods (2bytes) + Primary Device Type (8bytes)  */
++	/*	+ NumofSecondDevType (1byte) + WPS Device Name ID field (2bytes) + WPS Device Name Len field (2bytes) */
++	/* *(u16*) ( p2pie + p2pielen ) = cpu_to_le16( 21 + pwdinfo->device_name_len ); */
++	RTW_PUT_LE16(p2p_ie + p2pielen, devinfo_contentlen);
++	p2pielen += 2;
++
++	/*	Value: */
++	_rtw_memcpy(p2p_ie + p2pielen, devinfo_content, devinfo_contentlen);
++	p2pielen += devinfo_contentlen;
++
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, p2pielen, (unsigned char *) p2p_ie, &p2p_ielen);
++	/* p2pielen = build_prov_disc_request_p2p_ie( pwdinfo, pframe, NULL, 0, pwdinfo->tx_prov_disc_info.peerDevAddr); */
++	/* pframe += p2pielen; */
++	pattrib->pktlen += p2p_ielen;
++
++	wpsielen = 0;
++	/*	WPS OUI */
++	*(u32 *)(wpsie) = cpu_to_be32(WPSOUI);
++	wpsielen += 4;
++
++	/*	WPS version */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_VER1);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0001);
++	wpsielen += 2;
++
++	/*	Value: */
++	wpsie[wpsielen++] = WPS_VERSION_1;	/*	Version 1.0 */
++
++	/*	Config Method */
++	/*	Type: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(WPS_ATTR_CONF_METHOD);
++	wpsielen += 2;
++
++	/*	Length: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(0x0002);
++	wpsielen += 2;
++
++	/*	Value: */
++	*(u16 *)(wpsie + wpsielen) = cpu_to_be16(pwdinfo->tx_prov_disc_info.wps_config_method_request);
++	wpsielen += 2;
++
++	pframe = rtw_set_ie(pframe, _VENDOR_SPECIFIC_IE_, wpsielen, (unsigned char *) wpsie, &pattrib->pktlen);
++
++
++#ifdef CONFIG_WFD
++	wfdielen = build_provdisc_req_wfd_ie(pwdinfo, pframe);
++	pframe += wfdielen;
++	pattrib->pktlen += wfdielen;
++#endif
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	/* dump_mgntframe(padapter, pmgntframe); */
++	if (dump_mgntframe_and_wait_ack(padapter, pmgntframe) != _SUCCESS)
++		RTW_INFO("%s, ack to\n", __func__);
++
++	#if 0
++	if(wps_devicepassword_id == WPS_DPID_REGISTRAR_SPEC) {
++		RTW_INFO("waiting for p2p peer key-in PIN CODE\n");
++		rtw_msleep_os(15000); /* 15 sec for key in PIN CODE, workaround for GS2 before issuing Nego Req. */
++	}
++	#endif
++
++}
++
++static s32 cfg80211_rtw_remain_on_channel(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct wireless_dev *wdev,
++#else
++	struct net_device *ndev,
++#endif
++	struct ieee80211_channel *channel,
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++	enum nl80211_channel_type channel_type,
++#endif
++	unsigned int duration, u64 *cookie)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct net_device *ndev = wdev_to_ndev(wdev);
++#endif
++	s32 err = 0;
++	u8 remain_ch = (u8) ieee80211_frequency_to_channel(channel->center_freq);
++	u8 union_ch = 0, union_bw = 0, union_offset = 0;
++	u8 i;
++	u8 ready_on_channel = _FALSE;
++	_adapter *padapter;
++	_adapter *iface;
++	struct dvobj_priv *dvobj;
++	struct rtw_wdev_priv *pwdev_priv;
++	struct mlme_ext_priv *pmlmeext;
++	struct wifidirect_info *pwdinfo;
++	struct cfg80211_wifidirect_info *pcfg80211_wdinfo;
++	u8 is_p2p_find = _FALSE;
++
++#ifndef CONFIG_RADIO_WORK /*define for Android L*/
++#define RTW_ROCH_DURATION_ENLARGE
++#define RTW_ROCH_BACK_OP
++#endif
++
++	if (ndev == NULL)
++		return  -EINVAL;
++
++	padapter = (_adapter *)rtw_netdev_priv(ndev);
++	dvobj = adapter_to_dvobj(padapter);
++	pwdev_priv = adapter_wdev_data(padapter);
++	pmlmeext = &padapter->mlmeextpriv;
++	pwdinfo = &padapter->wdinfo;
++	pcfg80211_wdinfo = &padapter->cfg80211_wdinfo;
++#ifdef CONFIG_CONCURRENT_MODE
++	is_p2p_find = (duration < (pwdinfo->ext_listen_interval)) ? _TRUE : _FALSE;
++#endif
++
++	*cookie = ATOMIC_INC_RETURN(&pcfg80211_wdinfo->ro_ch_cookie_gen);
++
++	RTW_INFO(FUNC_ADPT_FMT" ch:%u duration:%d, cookie:0x%llx\n", FUNC_ADPT_ARG(padapter), remain_ch, duration, *cookie);
++
++#ifdef CONFIG_MP_INCLUDED
++	if (rtw_mi_mp_mode_check(padapter)) {
++		RTW_INFO("MP mode block remain_on_channel request\n");
++		err = -EFAULT;
++		goto exit;
++	}
++#endif
++
++	if (pcfg80211_wdinfo->is_ro_ch == _TRUE) {
++		RTW_INFO("%s, cancel ro ch timer\n", __func__);
++		_cancel_timer_ex(&padapter->cfg80211_wdinfo.remain_on_ch_timer);
++		#ifdef CONFIG_CONCURRENT_MODE
++		ATOMIC_SET(&pwdev_priv->ro_ch_to, 1);
++		#endif /* CONFIG_CONCURRENT_MODE */
++		p2p_protocol_wk_hdl(padapter, P2P_RO_CH_WK);
++	}
++
++	pcfg80211_wdinfo->is_ro_ch = _TRUE;
++	pcfg80211_wdinfo->last_ro_ch_time = rtw_get_current_time();
++
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		err = -EFAULT;
++		goto exit;
++	}
++
++	_rtw_memcpy(&pcfg80211_wdinfo->remain_on_ch_channel, channel, sizeof(struct ieee80211_channel));
++	#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++	pcfg80211_wdinfo->remain_on_ch_type = channel_type;
++	#endif
++	pcfg80211_wdinfo->remain_on_ch_cookie = *cookie;
++
++	rtw_scan_abort(padapter);
++#ifdef CONFIG_CONCURRENT_MODE
++	/*don't scan_abort during p2p_listen.*/
++	if (is_p2p_find)
++		rtw_mi_buddy_scan_abort(padapter, _TRUE);
++#endif /*CONFIG_CONCURRENT_MODE*/
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if (check_fwstate(&iface->mlmepriv, _FW_UNDER_LINKING | WIFI_UNDER_WPS) == _TRUE) {
++			RTW_INFO(ADPT_FMT"- _FW_UNDER_LINKING |WIFI_UNDER_WPS (mlme state:0x%x)\n", ADPT_ARG(iface), get_fwstate(&iface->mlmepriv));
++			remain_ch = iface->mlmeextpriv.cur_channel;
++		}
++	}
++
++	/* if(!rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT) && !rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) */
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++		rtw_p2p_enable(padapter, P2P_ROLE_DEVICE);
++		adapter_wdev_data(padapter)->p2p_enabled = _TRUE;
++		padapter->wdinfo.listen_channel = remain_ch;
++	} else if (rtw_p2p_chk_state(pwdinfo , P2P_STATE_LISTEN))
++		padapter->wdinfo.listen_channel = remain_ch;
++	else {
++		rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO("%s, role=%d, p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo));
++#endif
++	}
++
++	rtw_p2p_set_state(pwdinfo, P2P_STATE_LISTEN);
++
++	#ifdef RTW_ROCH_DURATION_ENLARGE
++	if (duration < 400)
++		duration = duration * 3; /* extend from exper */
++	#endif
++
++#if defined(RTW_ROCH_BACK_OP) && defined(CONFIG_CONCURRENT_MODE)
++	if (rtw_mi_check_status(padapter, MI_LINKED)) {
++		if (is_p2p_find) /* p2p_find , duration<1000 */
++			duration = duration + pwdinfo->ext_listen_interval;
++		else /* p2p_listen, duration=5000 */
++			duration = pwdinfo->ext_listen_interval + (pwdinfo->ext_listen_interval / 4);
++	}
++#endif /*defined (RTW_ROCH_BACK_OP) && defined(CONFIG_CONCURRENT_MODE) */
++
++	pcfg80211_wdinfo->restore_channel = rtw_get_oper_ch(padapter);
++
++	if (rtw_ch_set_search_ch(pmlmeext->channel_set, remain_ch) >= 0) {
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED) && (0 != rtw_mi_get_union_chan(padapter))) {
++			if ((remain_ch != rtw_mi_get_union_chan(padapter)) && !check_fwstate(&padapter->mlmepriv, _FW_LINKED)) {
++				if (ATOMIC_READ(&pwdev_priv->switch_ch_to) == 1 ||
++					(remain_ch != pmlmeext->cur_channel)) {
++
++					rtw_mi_buddy_issue_nulldata(padapter, NULL, 1, 3, 500);
++					ATOMIC_SET(&pwdev_priv->switch_ch_to, 0);
++
++					#ifdef RTW_ROCH_BACK_OP
++					RTW_INFO("%s, set switch ch timer, duration=%d\n", __func__, duration - pwdinfo->ext_listen_interval);
++					_set_timer(&pwdinfo->ap_p2p_switch_timer, duration - pwdinfo->ext_listen_interval);
++					#endif
++				}
++			}
++
++			ready_on_channel = _TRUE;
++			/* pmlmeext->cur_channel = remain_ch;			 */
++			/* set_channel_bwmode(padapter, remain_ch, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20); */
++		} else
++#endif /* CONFIG_CONCURRENT_MODE */
++			if (remain_ch != rtw_get_oper_ch(padapter)) {
++				ready_on_channel = _TRUE;
++				/* pmlmeext->cur_channel = remain_ch;			 */
++				/* set_channel_bwmode(padapter, remain_ch, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20); */
++			}
++	} else
++		RTW_INFO("%s remain_ch:%u not in channel plan!!!!\n", __FUNCTION__, remain_ch);
++
++
++	/* call this after other things have been done */
++#ifdef CONFIG_CONCURRENT_MODE
++	if (ATOMIC_READ(&pwdev_priv->ro_ch_to) == 1 ||
++		(remain_ch != rtw_get_oper_ch(padapter))) {
++		u8 co_channel = 0xff;
++		ATOMIC_SET(&pwdev_priv->ro_ch_to, 0);
++#endif
++
++		if (ready_on_channel == _TRUE) {
++			if (!check_fwstate(&padapter->mlmepriv, _FW_LINKED)) {
++				pmlmeext->cur_channel = remain_ch;
++
++#ifdef CONFIG_CONCURRENT_MODE
++				co_channel = rtw_get_oper_ch(padapter);
++
++				if (co_channel != remain_ch)
++#endif
++				{
++					/* if (!padapter->mlmepriv.LinkDetectInfo.bBusyTraffic) */
++					set_channel_bwmode(padapter, remain_ch, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++				}
++			}
++		}
++		RTW_INFO("%s, set ro ch timer, duration=%d\n", __func__, duration);
++		_set_timer(&pcfg80211_wdinfo->remain_on_ch_timer, duration);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	}
++#endif
++
++	rtw_cfg80211_ready_on_channel(padapter, *cookie, channel, channel_type, duration, GFP_KERNEL);
++
++exit:
++	if (err) {
++		pcfg80211_wdinfo->is_ro_ch = _FALSE;
++		pcfg80211_wdinfo->last_ro_ch_time = rtw_get_current_time();
++	}
++
++	return err;
++}
++
++static s32 cfg80211_rtw_cancel_remain_on_channel(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct wireless_dev *wdev,
++#else
++	struct net_device *ndev,
++#endif
++	u64 cookie)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct net_device *ndev = wdev_to_ndev(wdev);
++#endif
++	s32 err = 0;
++	_adapter *padapter;
++	struct rtw_wdev_priv *pwdev_priv;
++	struct wifidirect_info *pwdinfo;
++	struct cfg80211_wifidirect_info *pcfg80211_wdinfo;
++
++	if (ndev == NULL) {
++		err = -EINVAL;
++		goto exit;
++	}
++
++	padapter = (_adapter *)rtw_netdev_priv(ndev);
++	pwdev_priv = adapter_wdev_data(padapter);
++	pwdinfo = &padapter->wdinfo;
++	pcfg80211_wdinfo = &padapter->cfg80211_wdinfo;
++
++	RTW_INFO(FUNC_ADPT_FMT" cookie:0x%llx\n", FUNC_ADPT_ARG(padapter), cookie);
++
++	if (pcfg80211_wdinfo->is_ro_ch == _TRUE) {
++		RTW_INFO("%s, cancel ro ch timer\n", __func__);
++		_cancel_timer_ex(&padapter->cfg80211_wdinfo.remain_on_ch_timer);
++		#ifdef CONFIG_CONCURRENT_MODE
++		ATOMIC_SET(&pwdev_priv->ro_ch_to, 1);
++		#endif
++		p2p_protocol_wk_hdl(padapter, P2P_RO_CH_WK);
++	}
++
++#if 0
++	/*	Disable P2P Listen State */
++	if (!rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT) && !rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++		if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_NONE);
++			_rtw_memset(pwdinfo, 0x00, sizeof(struct wifidirect_info));
++		}
++	} else
++#endif
++	{
++		rtw_p2p_set_state(pwdinfo, rtw_p2p_pre_state(pwdinfo));
++#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO("%s, role=%d, p2p_state=%d\n", __func__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo));
++#endif
++	}
++
++	pcfg80211_wdinfo->is_ro_ch = _FALSE;
++	pcfg80211_wdinfo->last_ro_ch_time = rtw_get_current_time();
++
++exit:
++	return err;
++}
++
++#endif /* CONFIG_P2P */
++
++static int _cfg80211_rtw_mgmt_tx(_adapter *padapter, u8 tx_ch, const u8 *buf, size_t len, int wait_ack)
++{
++	struct xmit_frame	*pmgntframe;
++	struct pkt_attrib	*pattrib;
++	unsigned char	*pframe;
++	int ret = _FAIL;
++	bool ack = _TRUE;
++	struct rtw_ieee80211_hdr *pwlanhdr;
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(padapter);
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++#endif /* CONFIG_P2P */
++	/* struct cfg80211_wifidirect_info *pcfg80211_wdinfo = &padapter->cfg80211_wdinfo; */
++
++	rtw_mi_set_scan_deny(padapter, 1000);
++	rtw_mi_scan_abort(padapter, _TRUE);
++
++#ifdef CONFIG_P2P
++	if (padapter->cfg80211_wdinfo.is_ro_ch == _TRUE) {
++		/* RTW_INFO("%s, cancel ro ch timer\n", __func__); */
++		/* _cancel_timer_ex(&padapter->cfg80211_wdinfo.remain_on_ch_timer); */
++		/* padapter->cfg80211_wdinfo.is_ro_ch = _FALSE; */
++		#ifdef CONFIG_CONCURRENT_MODE
++		if (!check_fwstate(&padapter->mlmepriv, _FW_LINKED)) {
++			RTW_INFO("%s, extend ro ch time\n", __func__);
++			_set_timer(&padapter->cfg80211_wdinfo.remain_on_ch_timer, pwdinfo->ext_listen_period);
++		}
++		#endif /* CONFIG_CONCURRENT_MODE */
++	}
++#endif /* CONFIG_P2P */
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_check_status(padapter, MI_LINKED)) {
++		u8 union_ch = rtw_mi_get_union_chan(padapter);
++		u8 co_channel = 0xff;
++		co_channel = rtw_get_oper_ch(padapter);
++
++		if (tx_ch != union_ch) {
++			u16 ext_listen_period;
++
++			if (ATOMIC_READ(&pwdev_priv->switch_ch_to) == 1) {
++				rtw_mi_buddy_issue_nulldata(padapter, NULL, 1, 3, 500);
++				ATOMIC_SET(&pwdev_priv->switch_ch_to, 0);
++				/* RTW_INFO("%s, set switch ch timer, period=%d\n", __func__, pwdinfo->ext_listen_period); */
++				/* _set_timer(&pwdinfo->ap_p2p_switch_timer, pwdinfo->ext_listen_period); */
++			}
++
++			if (check_fwstate(&padapter->mlmepriv, _FW_LINKED))
++				ext_listen_period = 500;/*500ms*/
++#ifdef CONFIG_P2P				
++			else
++				ext_listen_period = pwdinfo->ext_listen_period;
++
++			_set_timer(&pwdinfo->ap_p2p_switch_timer, ext_listen_period);
++#endif
++			RTW_INFO("%s, set switch ch timer, period=%d\n", __func__, ext_listen_period);
++		}
++
++		if (!check_fwstate(&padapter->mlmepriv, _FW_LINKED))
++			pmlmeext->cur_channel = tx_ch;
++
++		if (tx_ch != co_channel)
++			set_channel_bwmode(padapter, tx_ch, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++	} else
++#endif /* CONFIG_CONCURRENT_MODE */
++	/* if (tx_ch != pmlmeext->cur_channel) { */
++	if (tx_ch != rtw_get_oper_ch(padapter)) {
++		if (!check_fwstate(&padapter->mlmepriv, _FW_LINKED))
++			pmlmeext->cur_channel = tx_ch;
++		set_channel_bwmode(padapter, tx_ch, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++	}
++
++	/* starting alloc mgmt frame to dump it */
++	pmgntframe = alloc_mgtxmitframe(pxmitpriv);
++	if (pmgntframe == NULL) {
++		/* ret = -ENOMEM; */
++		ret = _FAIL;
++		goto exit;
++	}
++
++	/* update attribute */
++	pattrib = &pmgntframe->attrib;
++	update_mgntframe_attrib(padapter, pattrib);
++	pattrib->retry_ctrl = _FALSE;
++
++	_rtw_memset(pmgntframe->buf_addr, 0, WLANHDR_OFFSET + TXDESC_OFFSET);
++
++	pframe = (u8 *)(pmgntframe->buf_addr) + TXDESC_OFFSET;
++
++	_rtw_memcpy(pframe, (void *)buf, len);
++	pattrib->pktlen = len;
++
++	pwlanhdr = (struct rtw_ieee80211_hdr *)pframe;
++	/* update seq number */
++	pmlmeext->mgnt_seq = GetSequence(pwlanhdr);
++	pattrib->seqnum = pmlmeext->mgnt_seq;
++	pmlmeext->mgnt_seq++;
++
++#ifdef CONFIG_P2P
++	rtw_xframe_chk_wfd_ie(pmgntframe);
++#endif /* CONFIG_P2P */
++
++	pattrib->last_txcmdsz = pattrib->pktlen;
++
++	if (wait_ack) {
++		if (dump_mgntframe_and_wait_ack(padapter, pmgntframe) != _SUCCESS) {
++			ack = _FALSE;
++			ret = _FAIL;
++
++#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("%s, ack == _FAIL\n", __func__);
++#endif
++		} else {
++
++#ifdef CONFIG_XMIT_ACK
++			rtw_msleep_os(50);
++#endif
++#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("%s, ack=%d, ok!\n", __func__, ack);
++#endif
++			ret = _SUCCESS;
++		}
++	} else {
++		dump_mgntframe(padapter, pmgntframe);
++		ret = _SUCCESS;
++	}
++exit:
++
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO("%s, ret=%d\n", __func__, ret);
++#endif
++
++	return ret;
++
++}
++
++static int cfg80211_rtw_mgmt_tx(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct wireless_dev *wdev,
++#else
++	struct net_device *ndev,
++#endif
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 14, 0)) || defined(COMPAT_KERNEL_RELEASE)
++	struct ieee80211_channel *chan,
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 38)) || defined(COMPAT_KERNEL_RELEASE)
++	bool offchan,
++	#endif
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 34)) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++	enum nl80211_channel_type channel_type,
++	#endif
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 36)) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++	bool channel_type_valid,
++	#endif
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 38)) || defined(COMPAT_KERNEL_RELEASE)
++	unsigned int wait,
++	#endif
++	const u8 *buf, size_t len,
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 2, 0))
++	bool no_cck,
++	#endif
++	#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 3, 0))
++	bool dont_wait_for_ack,
++	#endif
++#else
++	struct cfg80211_mgmt_tx_params *params,
++#endif
++	u64 *cookie)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct net_device *ndev = wdev_to_ndev(wdev);
++#endif
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 14, 0)) || defined(COMPAT_KERNEL_RELEASE)
++	struct ieee80211_channel *chan = params->chan;
++	bool offchan = params->offchan;
++	unsigned int wait = params->wait;
++	const u8 *buf = params->buf;
++	size_t len = params->len;
++	bool no_cck = params->no_cck;
++	bool dont_wait_for_ack = params->dont_wait_for_ack;
++#endif
++	int ret = 0;
++	int tx_ret;
++	int wait_ack = 1;
++	u32 dump_limit = RTW_MAX_MGMT_TX_CNT;
++	u32 dump_cnt = 0;
++	bool ack = _TRUE;
++	u8 tx_ch;
++	u8 category, action;
++	u8 frame_styp;
++	int type = (-1);
++	u32 start = rtw_get_current_time();
++	_adapter *padapter;
++	struct rtw_wdev_priv *pwdev_priv;
++
++	if ((ndev == NULL) || (chan == NULL)) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	tx_ch = (u8)ieee80211_frequency_to_channel(chan->center_freq);
++
++	padapter = (_adapter *)rtw_netdev_priv(ndev);
++	pwdev_priv = adapter_wdev_data(padapter);
++
++	/* cookie generation */
++	*cookie = (unsigned long) buf;
++
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO(FUNC_ADPT_FMT" len=%zu, ch=%d"
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 34)) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++		", ch_type=%d"
++		#endif
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 36)) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++		", channel_type_valid=%d"
++		#endif
++		"\n", FUNC_ADPT_ARG(padapter),
++		len, tx_ch
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 34)) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++		, channel_type
++		#endif
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 34)) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++		, channel_type_valid
++		#endif
++	);
++#endif /* CONFIG_DEBUG_CFG80211 */
++
++	/* indicate ack before issue frame to avoid racing with rsp frame */
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	rtw_cfg80211_mgmt_tx_status(padapter, *cookie, buf, len, ack, GFP_KERNEL);
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 34) && LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 36))
++	cfg80211_action_tx_status(ndev, *cookie, buf, len, ack, GFP_KERNEL);
++#endif
++
++	frame_styp = le16_to_cpu(((struct rtw_ieee80211_hdr_3addr *)buf)->frame_ctl) & IEEE80211_FCTL_STYPE;
++	if (IEEE80211_STYPE_PROBE_RESP == frame_styp) {
++#ifdef CONFIG_DEBUG_CFG80211
++		RTW_INFO("RTW_Tx: probe_resp tx_ch=%d, da="MAC_FMT"\n", tx_ch, MAC_ARG(GetAddr1Ptr(buf)));
++#endif /* CONFIG_DEBUG_CFG80211 */
++		wait_ack = 0;
++		goto dump;
++	}
++
++	if (rtw_action_frame_parse(buf, len, &category, &action) == _FALSE) {
++		RTW_INFO(FUNC_ADPT_FMT" frame_control:0x%x\n", FUNC_ADPT_ARG(padapter),
++			le16_to_cpu(((struct rtw_ieee80211_hdr_3addr *)buf)->frame_ctl));
++		goto exit;
++	}
++
++	RTW_INFO("RTW_Tx:tx_ch=%d, da="MAC_FMT"\n", tx_ch, MAC_ARG(GetAddr1Ptr(buf)));
++#ifdef CONFIG_P2P
++	type = rtw_p2p_check_frames(padapter, buf, len, _TRUE);
++	if (type >= 0)
++		goto dump;
++#endif
++	if (category == RTW_WLAN_CATEGORY_PUBLIC)
++		RTW_INFO("RTW_Tx:%s\n", action_public_str(action));
++	else
++		RTW_INFO("RTW_Tx:category(%u), action(%u)\n", category, action);
++
++dump:
++
++	rtw_ps_deny(padapter, PS_DENY_MGNT_TX);
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		ret = -EFAULT;
++		goto cancel_ps_deny;
++	}
++
++	while (1) {
++		u32 sleep_ms = 0;
++		u32 retry_guarantee_ms = 0;
++
++		dump_cnt++;
++		tx_ret = _cfg80211_rtw_mgmt_tx(padapter, tx_ch, buf, len, wait_ack);
++
++		switch (action) {
++		case ACT_PUBLIC_GAS_INITIAL_REQ:
++		case ACT_PUBLIC_GAS_INITIAL_RSP:
++			sleep_ms = 50;
++			retry_guarantee_ms = RTW_MAX_MGMT_TX_MS_GAS;
++		}
++
++		if (tx_ret == _SUCCESS
++			|| (dump_cnt >= dump_limit && rtw_get_passing_time_ms(start) >= retry_guarantee_ms))
++			break;
++
++		if (sleep_ms > 0)
++			rtw_msleep_os(sleep_ms);
++	}
++
++	if (tx_ret != _SUCCESS || dump_cnt > 1) {
++		RTW_INFO(FUNC_ADPT_FMT" %s (%d/%d) in %d ms\n", FUNC_ADPT_ARG(padapter),
++			tx_ret == _SUCCESS ? "OK" : "FAIL", dump_cnt, dump_limit, rtw_get_passing_time_ms(start));
++	}
++
++	switch (type) {
++	case P2P_GO_NEGO_CONF:
++		rtw_clear_scan_deny(padapter);
++		break;
++	case P2P_INVIT_RESP:
++		if (pwdev_priv->invit_info.flags & BIT(0)
++			&& pwdev_priv->invit_info.status == 0
++		) {
++			RTW_INFO(FUNC_ADPT_FMT" agree with invitation of persistent group\n",
++				FUNC_ADPT_ARG(padapter));
++			/*rtw_set_scan_deny(padapter, 5000);
++			rtw_clear_scan_deny(padapter);*/
++			rtw_mi_buddy_set_scan_deny(padapter, 5000);
++			rtw_pwr_wakeup_ex(padapter, 5000);
++		}
++		break;
++	}
++
++cancel_ps_deny:
++	rtw_ps_deny_cancel(padapter, PS_DENY_MGNT_TX);
++exit:
++	return ret;
++}
++
++static void cfg80211_rtw_mgmt_frame_register(struct wiphy *wiphy,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct wireless_dev *wdev,
++#else
++	struct net_device *ndev,
++#endif
++	u16 frame_type, bool reg)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	struct net_device *ndev = wdev_to_ndev(wdev);
++#endif
++	_adapter *adapter;
++
++	struct rtw_wdev_priv *pwdev_priv;
++
++	if (ndev == NULL)
++		goto exit;
++
++	adapter = (_adapter *)rtw_netdev_priv(ndev);
++	pwdev_priv = adapter_wdev_data(adapter);
++
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO(FUNC_ADPT_FMT" frame_type:%x, reg:%d\n", FUNC_ADPT_ARG(adapter),
++		frame_type, reg);
++#endif
++
++	/* Wait QC Verify */
++	return;
++
++	switch (frame_type) {
++	case IEEE80211_STYPE_PROBE_REQ: /* 0x0040 */
++		SET_CFG80211_REPORT_MGMT(pwdev_priv, IEEE80211_STYPE_PROBE_REQ, reg);
++		break;
++	case IEEE80211_STYPE_ACTION: /* 0x00D0 */
++		SET_CFG80211_REPORT_MGMT(pwdev_priv, IEEE80211_STYPE_ACTION, reg);
++		break;
++	default:
++		break;
++	}
++
++exit:
++	return;
++}
++
++#if defined(CONFIG_TDLS) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 2, 0))
++static int cfg80211_rtw_tdls_mgmt(struct wiphy *wiphy,
++	struct net_device *ndev,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 16, 0))
++	const u8 *peer,
++#else
++	u8 *peer,
++#endif
++	u8 action_code,
++	u8 dialog_token,
++	u16 status_code,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 15, 0))
++	u32 peer_capability,
++#endif
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 17, 0))
++	bool initiator,
++#endif
++	const u8 *buf,
++	size_t len)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &pmlmeext->mlmext_info;
++	int ret = 0;
++	struct tdls_txmgmt txmgmt;
++
++	if (hal_chk_wl_func(padapter, WL_FUNC_TDLS) == _FALSE) {
++		RTW_INFO("Discard tdls action:%d, since hal doesn't support tdls\n", action_code);
++		goto discard;
++	}
++
++	if (rtw_tdls_is_driver_setup(padapter)) {
++		RTW_INFO("Discard tdls action:%d, let driver to set up direct link\n", action_code);
++		goto discard;
++	}
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	_rtw_memcpy(txmgmt.peer, peer, ETH_ALEN);
++	txmgmt.action_code = action_code;
++	txmgmt.dialog_token = dialog_token;
++	txmgmt.status_code = status_code;
++	txmgmt.len = len;
++	txmgmt.buf = (u8 *)rtw_malloc(txmgmt.len);
++	if (txmgmt.buf == NULL) {
++		ret = -ENOMEM;
++		goto bad;
++	}
++	_rtw_memcpy(txmgmt.buf, (void *)buf, txmgmt.len);
++
++	/* Debug purpose */
++#if 1
++	RTW_INFO("%s %d\n", __FUNCTION__, __LINE__);
++	RTW_INFO("peer:"MAC_FMT", action code:%d, dialog:%d, status code:%d\n",
++		MAC_ARG(txmgmt.peer), txmgmt.action_code,
++		txmgmt.dialog_token, txmgmt.status_code);
++	if (txmgmt.len > 0) {
++		int i = 0;
++		for (; i < len; i++)
++			printk("%02x ", *(txmgmt.buf + i));
++		RTW_INFO("len:%d\n", (u32)txmgmt.len);
++	}
++#endif
++
++	switch (txmgmt.action_code) {
++	case TDLS_SETUP_REQUEST:
++		issue_tdls_setup_req(padapter, &txmgmt, _TRUE);
++		break;
++	case TDLS_SETUP_RESPONSE:
++		issue_tdls_setup_rsp(padapter, &txmgmt);
++		break;
++	case TDLS_SETUP_CONFIRM:
++		issue_tdls_setup_cfm(padapter, &txmgmt);
++		break;
++	case TDLS_TEARDOWN:
++		issue_tdls_teardown(padapter, &txmgmt, _TRUE);
++		break;
++	case TDLS_DISCOVERY_REQUEST:
++		issue_tdls_dis_req(padapter, &txmgmt);
++		break;
++	case TDLS_DISCOVERY_RESPONSE:
++		issue_tdls_dis_rsp(padapter, &txmgmt, pmlmeinfo->enc_algo ? _TRUE : _FALSE);
++		break;
++	}
++
++bad:
++	if (txmgmt.buf)
++		rtw_mfree(txmgmt.buf, txmgmt.len);
++
++discard:
++	return ret;
++}
++
++static int cfg80211_rtw_tdls_oper(struct wiphy *wiphy,
++	struct net_device *ndev,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 16, 0))
++	const u8 *peer,
++#else
++	u8 *peer,
++#endif
++	enum nl80211_tdls_operation oper)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct tdls_txmgmt	txmgmt;
++	struct sta_info *ptdls_sta = NULL;
++
++	RTW_INFO(FUNC_NDEV_FMT", nl80211_tdls_operation:%d\n", FUNC_NDEV_ARG(ndev), oper);
++
++	if (hal_chk_wl_func(padapter, WL_FUNC_TDLS) == _FALSE) {
++		RTW_INFO("Discard tdls oper:%d, since hal doesn't support tdls\n", oper);
++		return 0;
++	}
++
++#ifdef CONFIG_LPS
++	rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_LEAVE, 1);
++#endif /* CONFIG_LPS */
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	if (peer)
++		_rtw_memcpy(txmgmt.peer, peer, ETH_ALEN);
++
++	if (rtw_tdls_is_driver_setup(padapter)) {
++		/* these two cases are done by driver itself */
++		if (oper == NL80211_TDLS_ENABLE_LINK || oper == NL80211_TDLS_DISABLE_LINK)
++			return 0;
++	}
++
++	switch (oper) {
++	case NL80211_TDLS_DISCOVERY_REQ:
++		issue_tdls_dis_req(padapter, &txmgmt);
++		break;
++	case NL80211_TDLS_SETUP:
++#ifdef CONFIG_WFD
++		if (_AES_ != padapter->securitypriv.dot11PrivacyAlgrthm) {
++			if (padapter->wdinfo.wfd_tdls_weaksec == _TRUE)
++				issue_tdls_setup_req(padapter, &txmgmt, _TRUE);
++			else
++				RTW_INFO("[%s] Current link is not AES, SKIP sending the tdls setup request!!\n", __FUNCTION__);
++		} else
++#endif /* CONFIG_WFD */
++		{
++			issue_tdls_setup_req(padapter, &txmgmt, _TRUE);
++		}
++		break;
++	case NL80211_TDLS_TEARDOWN:
++		ptdls_sta = rtw_get_stainfo(&(padapter->stapriv), txmgmt.peer);
++		if (ptdls_sta != NULL) {
++			txmgmt.status_code = _RSON_TDLS_TEAR_UN_RSN_;
++			issue_tdls_teardown(padapter, &txmgmt, _TRUE);
++		} else
++			RTW_INFO("TDLS peer not found\n");
++		break;
++	case NL80211_TDLS_ENABLE_LINK:
++		RTW_INFO(FUNC_NDEV_FMT", NL80211_TDLS_ENABLE_LINK;mac:"MAC_FMT"\n", FUNC_NDEV_ARG(ndev), MAC_ARG(peer));
++		ptdls_sta = rtw_get_stainfo(&(padapter->stapriv), (u8 *)peer);
++		if (ptdls_sta != NULL) {
++			ptdlsinfo->link_established = _TRUE;
++			ptdls_sta->tdls_sta_state |= TDLS_LINKED_STATE;
++			ptdls_sta->state |= _FW_LINKED;
++			rtw_tdls_cmd(padapter, txmgmt.peer, TDLS_ESTABLISHED);
++		}
++		break;
++	case NL80211_TDLS_DISABLE_LINK:
++		RTW_INFO(FUNC_NDEV_FMT", NL80211_TDLS_DISABLE_LINK;mac:"MAC_FMT"\n", FUNC_NDEV_ARG(ndev), MAC_ARG(peer));
++		ptdls_sta = rtw_get_stainfo(&(padapter->stapriv), (u8 *)peer);
++		if (ptdls_sta != NULL)
++			rtw_tdls_cmd(padapter, (u8 *)peer, TDLS_TEARDOWN_STA_LOCALLY);
++		break;
++	}
++	return 0;
++}
++#endif /* CONFIG_TDLS */
++
++#if defined(CONFIG_PNO_SUPPORT) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
++static int cfg80211_rtw_sched_scan_start(struct wiphy *wiphy,
++		struct net_device *dev,
++		struct cfg80211_sched_scan_request *request)
++{
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	u8 ret;
++
++	if (padapter->bup == _FALSE) {
++		RTW_INFO("%s: net device is down.\n", __func__);
++		return -EIO;
++	}
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE ||
++		check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE  ||
++		check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE) {
++		RTW_INFO("%s: device is busy.\n", __func__);
++		rtw_scan_abort(padapter);
++	}
++
++	if (request == NULL) {
++		RTW_INFO("%s: invalid cfg80211_requests parameters.\n", __func__);
++		return -EINVAL;
++	}
++
++	ret = rtw_android_cfg80211_pno_setup(dev, request->ssids,
++			request->n_ssids, request->interval);
++
++	if (ret < 0) {
++		RTW_INFO("%s ret: %d\n", __func__, ret);
++		goto exit;
++	}
++
++	ret = rtw_android_pno_enable(dev, _TRUE);
++	if (ret < 0) {
++		RTW_INFO("%s ret: %d\n", __func__, ret);
++		goto exit;
++	}
++exit:
++	return ret;
++}
++
++static int cfg80211_rtw_sched_scan_stop(struct wiphy *wiphy,
++		struct net_device *dev)
++{
++	return rtw_android_pno_enable(dev, _FALSE);
++}
++#endif /* CONFIG_PNO_SUPPORT */
++
++static int rtw_cfg80211_set_beacon_wpsp2pie(struct net_device *ndev, char *buf, int len)
++{
++	int ret = 0;
++	uint wps_ielen = 0;
++	u8 *wps_ie;
++	u32	p2p_ielen = 0;
++	u8 wps_oui[8] = {0x0, 0x50, 0xf2, 0x04};
++	u8 *p2p_ie;
++	u32	wfd_ielen = 0;
++	u8 *wfd_ie;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(ndev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
++
++	RTW_INFO(FUNC_NDEV_FMT" ielen=%d\n", FUNC_NDEV_ARG(ndev), len);
++
++	if (len > 0) {
++		wps_ie = rtw_get_wps_ie(buf, len, NULL, &wps_ielen);
++		if (wps_ie) {
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("bcn_wps_ielen=%d\n", wps_ielen);
++			#endif
++
++			if (pmlmepriv->wps_beacon_ie) {
++				u32 free_len = pmlmepriv->wps_beacon_ie_len;
++				pmlmepriv->wps_beacon_ie_len = 0;
++				rtw_mfree(pmlmepriv->wps_beacon_ie, free_len);
++				pmlmepriv->wps_beacon_ie = NULL;
++			}
++
++			pmlmepriv->wps_beacon_ie = rtw_malloc(wps_ielen);
++			if (pmlmepriv->wps_beacon_ie == NULL) {
++				RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				return -EINVAL;
++
++			}
++
++			_rtw_memcpy(pmlmepriv->wps_beacon_ie, wps_ie, wps_ielen);
++			pmlmepriv->wps_beacon_ie_len = wps_ielen;
++
++			update_beacon(padapter, _VENDOR_SPECIFIC_IE_, wps_oui, _TRUE);
++
++		}
++
++		/* buf += wps_ielen; */
++		/* len -= wps_ielen; */
++
++		#ifdef CONFIG_P2P
++		p2p_ie = rtw_get_p2p_ie(buf, len, NULL, &p2p_ielen);
++		if (p2p_ie) {
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("bcn_p2p_ielen=%d\n", p2p_ielen);
++			#endif
++
++			if (pmlmepriv->p2p_beacon_ie) {
++				u32 free_len = pmlmepriv->p2p_beacon_ie_len;
++				pmlmepriv->p2p_beacon_ie_len = 0;
++				rtw_mfree(pmlmepriv->p2p_beacon_ie, free_len);
++				pmlmepriv->p2p_beacon_ie = NULL;
++			}
++
++			pmlmepriv->p2p_beacon_ie = rtw_malloc(p2p_ielen);
++			if (pmlmepriv->p2p_beacon_ie == NULL) {
++				RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				return -EINVAL;
++
++			}
++
++			_rtw_memcpy(pmlmepriv->p2p_beacon_ie, p2p_ie, p2p_ielen);
++			pmlmepriv->p2p_beacon_ie_len = p2p_ielen;
++
++		}
++		#endif /* CONFIG_P2P */
++
++
++		#ifdef CONFIG_WFD
++		wfd_ie = rtw_get_wfd_ie(buf, len, NULL, &wfd_ielen);
++		if (wfd_ie) {
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("bcn_wfd_ielen=%d\n", wfd_ielen);
++			#endif
++
++			if (rtw_mlme_update_wfd_ie_data(pmlmepriv, MLME_BEACON_IE, wfd_ie, wfd_ielen) != _SUCCESS)
++				return -EINVAL;
++		}
++		#endif /* CONFIG_WFD */
++
++		pmlmeext->bstart_bss = _TRUE;
++
++	}
++
++	return ret;
++
++}
++
++static int rtw_cfg80211_set_probe_resp_wpsp2pie(struct net_device *net, char *buf, int len)
++{
++	int ret = 0;
++	uint wps_ielen = 0;
++	u8 *wps_ie;
++	u32	p2p_ielen = 0;
++	u8 *p2p_ie;
++	u32	wfd_ielen = 0;
++	u8 *wfd_ie;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO("%s, ielen=%d\n", __func__, len);
++#endif
++
++	if (len > 0) {
++		wps_ie = rtw_get_wps_ie(buf, len, NULL, &wps_ielen);
++		if (wps_ie) {
++			uint	attr_contentlen = 0;
++			u16	uconfig_method, *puconfig_method = NULL;
++
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("probe_resp_wps_ielen=%d\n", wps_ielen);
++			#endif
++
++			if (check_fwstate(pmlmepriv, WIFI_UNDER_WPS)) {
++				u8 sr = 0;
++				rtw_get_wps_attr_content(wps_ie,  wps_ielen, WPS_ATTR_SELECTED_REGISTRAR, (u8 *)(&sr), NULL);
++
++				if (sr != 0)
++					RTW_INFO("%s, got sr\n", __func__);
++				else {
++					RTW_INFO("GO mode process WPS under site-survey,  sr no set\n");
++					return ret;
++				}
++			}
++
++			if (pmlmepriv->wps_probe_resp_ie) {
++				u32 free_len = pmlmepriv->wps_probe_resp_ie_len;
++				pmlmepriv->wps_probe_resp_ie_len = 0;
++				rtw_mfree(pmlmepriv->wps_probe_resp_ie, free_len);
++				pmlmepriv->wps_probe_resp_ie = NULL;
++			}
++
++			pmlmepriv->wps_probe_resp_ie = rtw_malloc(wps_ielen);
++			if (pmlmepriv->wps_probe_resp_ie == NULL) {
++				RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				return -EINVAL;
++
++			}
++
++			/* add PUSH_BUTTON config_method by driver self in wpsie of probe_resp at GO Mode */
++			puconfig_method = (u16 *)rtw_get_wps_attr_content(wps_ie, wps_ielen, WPS_ATTR_CONF_METHOD , NULL, &attr_contentlen);
++			if (puconfig_method != NULL) {
++				/* struct registry_priv *pregistrypriv = &padapter->registrypriv; */
++				struct wireless_dev *wdev = padapter->rtw_wdev;
++
++				#ifdef CONFIG_DEBUG_CFG80211
++				/* printk("config_method in wpsie of probe_resp = 0x%x\n", be16_to_cpu(*puconfig_method)); */
++				#endif
++
++				#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++				/* for WIFI-DIRECT LOGO 4.2.2, AUTO GO can't set PUSH_BUTTON flags */
++				if (wdev->iftype == NL80211_IFTYPE_P2P_GO) {
++					uconfig_method = WPS_CM_PUSH_BUTTON;
++					uconfig_method = cpu_to_be16(uconfig_method);
++
++					*puconfig_method &= ~uconfig_method;
++				}
++				#endif
++			}
++
++			_rtw_memcpy(pmlmepriv->wps_probe_resp_ie, wps_ie, wps_ielen);
++			pmlmepriv->wps_probe_resp_ie_len = wps_ielen;
++
++		}
++
++		/* buf += wps_ielen; */
++		/* len -= wps_ielen; */
++
++		#ifdef CONFIG_P2P
++		p2p_ie = rtw_get_p2p_ie(buf, len, NULL, &p2p_ielen);
++		if (p2p_ie) {
++			u8 is_GO = _FALSE;
++			u32 attr_contentlen = 0;
++			u16 cap_attr = 0;
++
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("probe_resp_p2p_ielen=%d\n", p2p_ielen);
++			#endif
++
++			/* Check P2P Capability ATTR */
++			if (rtw_get_p2p_attr_content(p2p_ie, p2p_ielen, P2P_ATTR_CAPABILITY, (u8 *)&cap_attr, (uint *) &attr_contentlen)) {
++				u8 grp_cap = 0;
++				/* RTW_INFO( "[%s] Got P2P Capability Attr!!\n", __FUNCTION__ ); */
++				cap_attr = le16_to_cpu(cap_attr);
++				grp_cap = (u8)((cap_attr >> 8) & 0xff);
++
++				is_GO = (grp_cap & BIT(0)) ? _TRUE : _FALSE;
++
++				if (is_GO)
++					RTW_INFO("Got P2P Capability Attr, grp_cap=0x%x, is_GO\n", grp_cap);
++			}
++
++
++			if (is_GO == _FALSE) {
++				if (pmlmepriv->p2p_probe_resp_ie) {
++					u32 free_len = pmlmepriv->p2p_probe_resp_ie_len;
++					pmlmepriv->p2p_probe_resp_ie_len = 0;
++					rtw_mfree(pmlmepriv->p2p_probe_resp_ie, free_len);
++					pmlmepriv->p2p_probe_resp_ie = NULL;
++				}
++
++				pmlmepriv->p2p_probe_resp_ie = rtw_malloc(p2p_ielen);
++				if (pmlmepriv->p2p_probe_resp_ie == NULL) {
++					RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++					return -EINVAL;
++
++				}
++				_rtw_memcpy(pmlmepriv->p2p_probe_resp_ie, p2p_ie, p2p_ielen);
++				pmlmepriv->p2p_probe_resp_ie_len = p2p_ielen;
++			} else {
++				if (pmlmepriv->p2p_go_probe_resp_ie) {
++					u32 free_len = pmlmepriv->p2p_go_probe_resp_ie_len;
++					pmlmepriv->p2p_go_probe_resp_ie_len = 0;
++					rtw_mfree(pmlmepriv->p2p_go_probe_resp_ie, free_len);
++					pmlmepriv->p2p_go_probe_resp_ie = NULL;
++				}
++
++				pmlmepriv->p2p_go_probe_resp_ie = rtw_malloc(p2p_ielen);
++				if (pmlmepriv->p2p_go_probe_resp_ie == NULL) {
++					RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++					return -EINVAL;
++
++				}
++				_rtw_memcpy(pmlmepriv->p2p_go_probe_resp_ie, p2p_ie, p2p_ielen);
++				pmlmepriv->p2p_go_probe_resp_ie_len = p2p_ielen;
++			}
++
++		}
++		#endif /* CONFIG_P2P */
++
++
++		#ifdef CONFIG_WFD
++		wfd_ie = rtw_get_wfd_ie(buf, len, NULL, &wfd_ielen);
++		if (wfd_ie) {
++			#ifdef CONFIG_DEBUG_CFG80211
++			RTW_INFO("probe_resp_wfd_ielen=%d\n", wfd_ielen);
++			#endif
++
++			if (rtw_mlme_update_wfd_ie_data(pmlmepriv, MLME_PROBE_RESP_IE, wfd_ie, wfd_ielen) != _SUCCESS)
++				return -EINVAL;
++		}
++		#endif /* CONFIG_WFD */
++
++	}
++
++	return ret;
++
++}
++
++static int rtw_cfg80211_set_assoc_resp_wpsp2pie(struct net_device *net, char *buf, int len)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	u8 *ie;
++	u32 ie_len;
++
++	RTW_INFO("%s, ielen=%d\n", __func__, len);
++
++	if (len <= 0)
++		goto exit;
++
++	ie = rtw_get_wps_ie(buf, len, NULL, &ie_len);
++	if (ie && ie_len) {
++		if (pmlmepriv->wps_assoc_resp_ie) {
++			u32 free_len = pmlmepriv->wps_assoc_resp_ie_len;
++
++			pmlmepriv->wps_assoc_resp_ie_len = 0;
++			rtw_mfree(pmlmepriv->wps_assoc_resp_ie, free_len);
++			pmlmepriv->wps_assoc_resp_ie = NULL;
++		}
++
++		pmlmepriv->wps_assoc_resp_ie = rtw_malloc(ie_len);
++		if (pmlmepriv->wps_assoc_resp_ie == NULL) {
++			RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++			return -EINVAL;
++		}
++		_rtw_memcpy(pmlmepriv->wps_assoc_resp_ie, ie, ie_len);
++		pmlmepriv->wps_assoc_resp_ie_len = ie_len;
++	}
++
++	ie = rtw_get_p2p_ie(buf, len, NULL, &ie_len);
++	if (ie && ie_len) {
++		if (pmlmepriv->p2p_assoc_resp_ie) {
++			u32 free_len = pmlmepriv->p2p_assoc_resp_ie_len;
++
++			pmlmepriv->p2p_assoc_resp_ie_len = 0;
++			rtw_mfree(pmlmepriv->p2p_assoc_resp_ie, free_len);
++			pmlmepriv->p2p_assoc_resp_ie = NULL;
++		}
++
++		pmlmepriv->p2p_assoc_resp_ie = rtw_malloc(ie_len);
++		if (pmlmepriv->p2p_assoc_resp_ie == NULL) {
++			RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++			return -EINVAL;
++		}
++		_rtw_memcpy(pmlmepriv->p2p_assoc_resp_ie, ie, ie_len);
++		pmlmepriv->p2p_assoc_resp_ie_len = ie_len;
++	}
++
++#ifdef CONFIG_WFD
++	ie = rtw_get_wfd_ie(buf, len, NULL, &ie_len);
++	if (rtw_mlme_update_wfd_ie_data(pmlmepriv, MLME_ASSOC_RESP_IE, ie, ie_len) != _SUCCESS)
++		return -EINVAL;
++#endif
++
++exit:
++	return ret;
++}
++
++int rtw_cfg80211_set_mgnt_wpsp2pie(struct net_device *net, char *buf, int len,
++	int type)
++{
++	int ret = 0;
++	uint wps_ielen = 0;
++	u32	p2p_ielen = 0;
++
++#ifdef CONFIG_DEBUG_CFG80211
++	RTW_INFO("%s, ielen=%d\n", __func__, len);
++#endif
++
++	if ((rtw_get_wps_ie(buf, len, NULL, &wps_ielen) && (wps_ielen > 0))
++		#ifdef CONFIG_P2P
++		|| (rtw_get_p2p_ie(buf, len, NULL, &p2p_ielen) && (p2p_ielen > 0))
++		#endif
++	) {
++		if (net != NULL) {
++			switch (type) {
++			case 0x1: /* BEACON */
++				ret = rtw_cfg80211_set_beacon_wpsp2pie(net, buf, len);
++				break;
++			case 0x2: /* PROBE_RESP */
++				ret = rtw_cfg80211_set_probe_resp_wpsp2pie(net, buf, len);
++				break;
++			case 0x4: /* ASSOC_RESP */
++				ret = rtw_cfg80211_set_assoc_resp_wpsp2pie(net, buf, len);
++				break;
++			}
++		}
++	}
++
++	return ret;
++
++}
++
++static void rtw_cfg80211_init_ht_capab_ex(_adapter *padapter, struct ieee80211_sta_ht_cap *ht_cap, enum ieee80211_band band, u8 rf_type)
++{
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct ht_priv		*phtpriv = &pmlmepriv->htpriv;
++	u8 stbc_rx_enable = _FALSE;
++
++	rtw_ht_use_default_setting(padapter);
++
++	/* RX LDPC */
++	if (TEST_FLAG(phtpriv->ldpc_cap, LDPC_HT_ENABLE_RX))
++		ht_cap->cap |= IEEE80211_HT_CAP_LDPC_CODING;
++
++	/* TX STBC */
++	if (TEST_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_TX))
++		ht_cap->cap |= IEEE80211_HT_CAP_TX_STBC;
++
++	/* RX STBC */
++	if (TEST_FLAG(phtpriv->stbc_cap, STBC_HT_ENABLE_RX)) {
++		/*rtw_rx_stbc 0: disable, bit(0):enable 2.4g, bit(1):enable 5g*/
++		if (IEEE80211_BAND_2GHZ == band)
++			stbc_rx_enable = (pregistrypriv->rx_stbc & BIT(0)) ? _TRUE : _FALSE;
++		if (IEEE80211_BAND_5GHZ == band)
++			stbc_rx_enable = (pregistrypriv->rx_stbc & BIT(1)) ? _TRUE : _FALSE;
++
++		if (stbc_rx_enable) {
++			switch (rf_type) {
++			case RF_1T1R:
++				ht_cap->cap |= IEEE80211_HT_CAP_RX_STBC_1R;/*RX STBC One spatial stream*/
++				break;
++
++			case RF_2T2R:
++			case RF_1T2R:
++				ht_cap->cap |= IEEE80211_HT_CAP_RX_STBC_1R;/* Only one spatial-stream STBC RX is supported */
++				break;
++			case RF_3T3R:
++			case RF_3T4R:
++			case RF_4T4R:
++				ht_cap->cap |= IEEE80211_HT_CAP_RX_STBC_1R;/* Only one spatial-stream STBC RX is supported */
++				break;
++			default:
++				RTW_INFO("[warning] rf_type %d is not expected\n", rf_type);
++				break;
++			}
++		}
++	}
++}
++
++static void rtw_cfg80211_init_ht_capab(_adapter *padapter, struct ieee80211_sta_ht_cap *ht_cap, enum ieee80211_band band, u8 rf_type)
++{
++#define MAX_BIT_RATE_40MHZ_MCS23	450	/* Mbps */
++#define MAX_BIT_RATE_40MHZ_MCS15	300	/* Mbps */
++#define MAX_BIT_RATE_40MHZ_MCS7	150	/* Mbps */
++
++	ht_cap->ht_supported = _TRUE;
++
++	ht_cap->cap = IEEE80211_HT_CAP_SUP_WIDTH_20_40 |
++				IEEE80211_HT_CAP_SGI_40 | IEEE80211_HT_CAP_SGI_20 |
++				IEEE80211_HT_CAP_DSSSCCK40 | IEEE80211_HT_CAP_MAX_AMSDU;
++	rtw_cfg80211_init_ht_capab_ex(padapter, ht_cap, band, rf_type);
++
++	/*
++	 *Maximum length of AMPDU that the STA can receive.
++	 *Length = 2 ^ (13 + max_ampdu_length_exp) - 1 (octets)
++	 */
++	ht_cap->ampdu_factor = IEEE80211_HT_MAX_AMPDU_64K;
++
++	/*Minimum MPDU start spacing , */
++	ht_cap->ampdu_density = IEEE80211_HT_MPDU_DENSITY_16;
++
++	ht_cap->mcs.tx_params = IEEE80211_HT_MCS_TX_DEFINED;
++
++	/*
++	 *hw->wiphy->bands[IEEE80211_BAND_2GHZ]
++	 *base on ant_num
++	 *rx_mask: RX mask
++	 *if rx_ant =1 rx_mask[0]=0xff;==>MCS0-MCS7
++	 *if rx_ant =2 rx_mask[1]=0xff;==>MCS8-MCS15
++	 *if rx_ant >=3 rx_mask[2]=0xff;
++	 *if BW_40 rx_mask[4]=0x01;
++	 *highest supported RX rate
++	 */
++	if (rf_type == RF_1T1R) {
++		ht_cap->mcs.rx_mask[0] = 0xFF;
++
++		ht_cap->mcs.rx_highest = MAX_BIT_RATE_40MHZ_MCS7;
++	} else if ((rf_type == RF_1T2R) || (rf_type == RF_2T2R) || (rf_type == RF_2T2R_GREEN)) {
++		ht_cap->mcs.rx_mask[0] = 0xFF;
++		ht_cap->mcs.rx_mask[1] = 0xFF;
++
++		ht_cap->mcs.rx_highest = MAX_BIT_RATE_40MHZ_MCS15;
++	} else if ((rf_type == RF_2T3R) || (rf_type == RF_3T3R)) {
++		ht_cap->mcs.rx_mask[0] = 0xFF;
++		ht_cap->mcs.rx_mask[1] = 0xFF;
++		ht_cap->mcs.rx_mask[2] = 0xFF;
++
++		ht_cap->mcs.rx_highest = MAX_BIT_RATE_40MHZ_MCS23;
++	} else {
++		rtw_warn_on(1);
++		RTW_INFO("%s, error rf_type=%d\n", __func__, rf_type);
++	}
++
++}
++void rtw_cfg80211_init_wdev_data(_adapter *padapter)
++{
++#ifdef CONFIG_CONCURRENT_MODE
++	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(padapter);
++
++	ATOMIC_SET(&pwdev_priv->switch_ch_to, 1);
++	ATOMIC_SET(&pwdev_priv->ro_ch_to, 1);
++#endif
++}
++
++void rtw_cfg80211_init_wiphy(_adapter *padapter)
++{
++	u8 rf_type;
++	struct ieee80211_supported_band *bands;
++	struct wireless_dev *pwdev = padapter->rtw_wdev;
++	struct wiphy *wiphy = pwdev->wiphy;
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_RF_TYPE, (u8 *)(&rf_type));
++
++	RTW_INFO("%s:rf_type=%d\n", __func__, rf_type);
++
++	if (IsSupported24G(padapter->registrypriv.wireless_mode)) {
++		bands = wiphy->bands[IEEE80211_BAND_2GHZ];
++		if (bands)
++			rtw_cfg80211_init_ht_capab(padapter, &bands->ht_cap, IEEE80211_BAND_2GHZ, rf_type);
++	}
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	if (IsSupported5G(padapter->registrypriv.wireless_mode)) {
++		bands = wiphy->bands[IEEE80211_BAND_5GHZ];
++		if (bands)
++			rtw_cfg80211_init_ht_capab(padapter, &bands->ht_cap, IEEE80211_BAND_5GHZ, rf_type);
++	}
++#endif
++	/* init regulary domain */
++	rtw_regd_init(padapter);
++
++	/* copy mac_addr to wiphy */
++	_rtw_memcpy(wiphy->perm_addr, adapter_mac_addr(padapter), ETH_ALEN);
++
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
++struct ieee80211_iface_limit rtw_limits[] = {
++	{
++		.max = 2,
++		.types = BIT(NL80211_IFTYPE_STATION)
++			#if defined(CONFIG_P2P) && ((LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE))
++			| BIT(NL80211_IFTYPE_P2P_CLIENT)
++			#endif
++	},
++	#ifdef CONFIG_AP_MODE
++	{
++		.max = 1,
++		.types = BIT(NL80211_IFTYPE_AP)
++			#if defined(CONFIG_P2P) && ((LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE))
++			| BIT(NL80211_IFTYPE_P2P_GO)
++			#endif
++	},
++#endif
++};
++
++struct ieee80211_iface_combination rtw_combinations[] = {
++	{
++		.limits = rtw_limits,
++		.n_limits = ARRAY_SIZE(rtw_limits),
++		.max_interfaces = 2,
++		.num_different_channels = 1,
++	},
++};
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0)) */
++
++static void rtw_cfg80211_preinit_wiphy(_adapter *adapter, struct wiphy *wiphy)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct registry_priv *regsty = dvobj_to_regsty(dvobj);
++
++	wiphy->signal_type = CFG80211_SIGNAL_TYPE_MBM;
++
++	wiphy->max_scan_ssids = RTW_SSID_SCAN_AMOUNT;
++	wiphy->max_scan_ie_len = RTW_SCAN_IE_LEN_MAX;
++	wiphy->max_num_pmkids = RTW_MAX_NUM_PMKIDS;
++
++#if CONFIG_RTW_MACADDR_ACL && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 9, 0))
++	wiphy->max_acl_mac_addrs = NUM_ACL;
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 38)) || defined(COMPAT_KERNEL_RELEASE)
++	wiphy->max_remain_on_channel_duration = RTW_MAX_REMAIN_ON_CHANNEL_DURATION;
++#endif
++
++	wiphy->interface_modes =	BIT(NL80211_IFTYPE_STATION)
++								| BIT(NL80211_IFTYPE_ADHOC)
++#ifdef CONFIG_AP_MODE
++								| BIT(NL80211_IFTYPE_AP)
++								#ifdef CONFIG_WIFI_MONITOR
++								| BIT(NL80211_IFTYPE_MONITOR)
++								#endif
++#endif
++#if defined(CONFIG_P2P) && ((LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE))
++								| BIT(NL80211_IFTYPE_P2P_CLIENT)
++								| BIT(NL80211_IFTYPE_P2P_GO)
++#endif
++								;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++#ifdef CONFIG_AP_MODE
++	wiphy->mgmt_stypes = rtw_cfg80211_default_mgmt_stypes;
++#endif /* CONFIG_AP_MODE */
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
++	#ifdef CONFIG_WIFI_MONITOR
++	wiphy->software_iftypes |= BIT(NL80211_IFTYPE_MONITOR);
++	#endif
++#endif
++
++#if defined(RTW_SINGLE_WIPHY) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
++	wiphy->iface_combinations = rtw_combinations;
++	wiphy->n_iface_combinations = ARRAY_SIZE(rtw_combinations);
++#endif
++
++	wiphy->cipher_suites = rtw_cipher_suites;
++	wiphy->n_cipher_suites = ARRAY_SIZE(rtw_cipher_suites);
++
++	if (IsSupported24G(adapter->registrypriv.wireless_mode))
++		wiphy->bands[IEEE80211_BAND_2GHZ] = rtw_spt_band_alloc(IEEE80211_BAND_2GHZ);
++
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	if (IsSupported5G(adapter->registrypriv.wireless_mode))
++		wiphy->bands[IEEE80211_BAND_5GHZ] = rtw_spt_band_alloc(IEEE80211_BAND_5GHZ);
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 38) && LINUX_VERSION_CODE < KERNEL_VERSION(3, 0, 0))
++	wiphy->flags |= WIPHY_FLAG_SUPPORTS_SEPARATE_DEFAULT_KEYS;
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 3, 0))
++	wiphy->flags |= WIPHY_FLAG_HAS_REMAIN_ON_CHANNEL;
++	wiphy->flags |= WIPHY_FLAG_HAVE_AP_SME;
++	/* remove WIPHY_FLAG_OFFCHAN_TX, because we not support this feature */
++	/* wiphy->flags |= WIPHY_FLAG_OFFCHAN_TX | WIPHY_FLAG_HAVE_AP_SME; */
++#endif
++
++#if defined(CONFIG_PM) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
++	wiphy->flags |= WIPHY_FLAG_SUPPORTS_SCHED_SCAN;
++#ifdef CONFIG_PNO_SUPPORT
++	wiphy->max_sched_scan_ssids = MAX_PNO_LIST_COUNT;
++#endif
++#endif
++
++#if defined(CONFIG_PM) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 11, 0))
++	wiphy->wowlan = wowlan_stub;
++#else
++	wiphy->wowlan = &wowlan_stub;
++#endif
++#endif
++
++#if defined(CONFIG_TDLS) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 2, 0))
++	wiphy->flags |= WIPHY_FLAG_SUPPORTS_TDLS;
++#ifndef CONFIG_TDLS_DRIVER_SETUP
++	wiphy->flags |= WIPHY_FLAG_TDLS_EXTERNAL_SETUP;	/* Driver handles key exchange */
++	wiphy->flags |= NL80211_ATTR_HT_CAPABILITY;
++#endif /* CONFIG_TDLS_DRIVER_SETUP */
++#endif /* CONFIG_TDLS */
++
++	if (regsty->power_mgnt != PS_MODE_ACTIVE)
++		wiphy->flags |= WIPHY_FLAG_PS_ON_BY_DEFAULT;
++	else
++		wiphy->flags &= ~WIPHY_FLAG_PS_ON_BY_DEFAULT;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 2, 0))
++	/* wiphy->flags |= WIPHY_FLAG_SUPPORTS_FW_ROAM; */
++#endif
++}
++
++static struct cfg80211_ops rtw_cfg80211_ops = {
++	.change_virtual_intf = cfg80211_rtw_change_iface,
++	.add_key = cfg80211_rtw_add_key,
++	.get_key = cfg80211_rtw_get_key,
++	.del_key = cfg80211_rtw_del_key,
++	.set_default_key = cfg80211_rtw_set_default_key,
++#if defined(CONFIG_GTK_OL) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 1, 0))
++	.set_rekey_data = cfg80211_rtw_set_rekey_data,
++#endif /*CONFIG_GTK_OL*/
++	.get_station = cfg80211_rtw_get_station,
++	.scan = cfg80211_rtw_scan,
++	.set_wiphy_params = cfg80211_rtw_set_wiphy_params,
++	.connect = cfg80211_rtw_connect,
++	.disconnect = cfg80211_rtw_disconnect,
++	.join_ibss = cfg80211_rtw_join_ibss,
++	.leave_ibss = cfg80211_rtw_leave_ibss,
++	.set_tx_power = cfg80211_rtw_set_txpower,
++	.get_tx_power = cfg80211_rtw_get_txpower,
++	.set_power_mgmt = cfg80211_rtw_set_power_mgmt,
++	.set_pmksa = cfg80211_rtw_set_pmksa,
++	.del_pmksa = cfg80211_rtw_del_pmksa,
++	.flush_pmksa = cfg80211_rtw_flush_pmksa,
++
++#ifdef CONFIG_AP_MODE
++	.add_virtual_intf = cfg80211_rtw_add_virtual_intf,
++	.del_virtual_intf = cfg80211_rtw_del_virtual_intf,
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 4, 0)) && !defined(COMPAT_KERNEL_RELEASE)
++	.add_beacon = cfg80211_rtw_add_beacon,
++	.set_beacon = cfg80211_rtw_set_beacon,
++	.del_beacon = cfg80211_rtw_del_beacon,
++#else
++	.start_ap = cfg80211_rtw_start_ap,
++	.change_beacon = cfg80211_rtw_change_beacon,
++	.stop_ap = cfg80211_rtw_stop_ap,
++#endif
++
++#if CONFIG_RTW_MACADDR_ACL && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 9, 0))
++	.set_mac_acl = cfg80211_rtw_set_mac_acl,
++#endif
++
++	.add_station = cfg80211_rtw_add_station,
++	.del_station = cfg80211_rtw_del_station,
++	.change_station = cfg80211_rtw_change_station,
++	.dump_station = cfg80211_rtw_dump_station,
++	.change_bss = cfg80211_rtw_change_bss,
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 6, 0))
++	.set_channel = cfg80211_rtw_set_channel,
++#endif
++	/* .auth = cfg80211_rtw_auth, */
++	/* .assoc = cfg80211_rtw_assoc,	 */
++#endif /* CONFIG_AP_MODE */
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 6, 0))
++	.set_monitor_channel = cfg80211_rtw_set_monitor_channel,
++#endif
++
++#ifdef CONFIG_P2P
++	.remain_on_channel = cfg80211_rtw_remain_on_channel,
++	.cancel_remain_on_channel = cfg80211_rtw_cancel_remain_on_channel,
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37)) || defined(COMPAT_KERNEL_RELEASE)
++	.mgmt_tx = cfg80211_rtw_mgmt_tx,
++	.mgmt_frame_register = cfg80211_rtw_mgmt_frame_register,
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 34) && LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++	.action = cfg80211_rtw_mgmt_tx,
++#endif
++
++#if defined(CONFIG_TDLS) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 2, 0))
++	.tdls_mgmt = cfg80211_rtw_tdls_mgmt,
++	.tdls_oper = cfg80211_rtw_tdls_oper,
++#endif /* CONFIG_TDLS */
++
++#if defined(CONFIG_PNO_SUPPORT) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
++	.sched_scan_start = cfg80211_rtw_sched_scan_start,
++	.sched_scan_stop = cfg80211_rtw_sched_scan_stop,
++#endif /* CONFIG_PNO_SUPPORT */
++};
++
++struct wiphy *rtw_wiphy_alloc(_adapter *padapter, struct device *dev)
++{
++	struct wiphy *wiphy;
++	struct rtw_wiphy_data *wiphy_data;
++
++	/* wiphy */
++	wiphy = wiphy_new(&rtw_cfg80211_ops, sizeof(_adapter *));
++	if (!wiphy) {
++		RTW_INFO("Couldn't allocate wiphy device\n");
++		goto exit;
++	}
++	set_wiphy_dev(wiphy, dev);
++	*((_adapter **)wiphy_priv(wiphy)) = padapter;
++
++	rtw_cfg80211_preinit_wiphy(padapter, wiphy);
++
++	RTW_INFO(FUNC_WIPHY_FMT"\n", FUNC_WIPHY_ARG(wiphy));
++
++exit:
++	return wiphy;
++}
++
++void rtw_wiphy_free(struct wiphy *wiphy)
++{
++	if (!wiphy)
++		return;
++
++	RTW_INFO(FUNC_WIPHY_FMT"\n", FUNC_WIPHY_ARG(wiphy));
++
++	if (wiphy->bands[IEEE80211_BAND_2GHZ]) {
++		rtw_spt_band_free(wiphy->bands[IEEE80211_BAND_2GHZ]);
++		wiphy->bands[IEEE80211_BAND_2GHZ] = NULL;
++	}
++	if (wiphy->bands[IEEE80211_BAND_5GHZ]) {
++		rtw_spt_band_free(wiphy->bands[IEEE80211_BAND_5GHZ]);
++		wiphy->bands[IEEE80211_BAND_5GHZ] = NULL;
++	}
++
++	wiphy_free(wiphy);
++}
++
++int rtw_wiphy_register(struct wiphy *wiphy)
++{
++	RTW_INFO(FUNC_WIPHY_FMT"\n", FUNC_WIPHY_ARG(wiphy));
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 14, 0)) || defined(RTW_VENDOR_EXT_SUPPORT)
++	rtw_cfgvendor_attach(wiphy);
++#endif
++
++	return wiphy_register(wiphy);
++}
++
++void rtw_wiphy_unregister(struct wiphy *wiphy)
++{
++	RTW_INFO(FUNC_WIPHY_FMT"\n", FUNC_WIPHY_ARG(wiphy));
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 14, 0)) || defined(RTW_VENDOR_EXT_SUPPORT)
++	rtw_cfgvendor_detach(wiphy);
++#endif
++
++	return wiphy_unregister(wiphy);
++}
++
++int rtw_wdev_alloc(_adapter *padapter, struct wiphy *wiphy)
++{
++	int ret = 0;
++	struct net_device *pnetdev = padapter->pnetdev;
++	struct wireless_dev *wdev;
++	struct rtw_wdev_priv *pwdev_priv;
++
++	RTW_INFO("%s(padapter=%p)\n", __func__, padapter);
++
++	/*  wdev */
++	wdev = (struct wireless_dev *)rtw_zmalloc(sizeof(struct wireless_dev));
++	if (!wdev) {
++		RTW_INFO("Couldn't allocate wireless device\n");
++		ret = -ENOMEM;
++		goto exit;
++	}
++	wdev->wiphy = wiphy;
++	wdev->netdev = pnetdev;
++
++	wdev->iftype = NL80211_IFTYPE_STATION;	/* will be init in rtw_hal_init() */
++											/* Must sync with _rtw_init_mlme_priv() */
++											/* pmlmepriv->fw_state = WIFI_STATION_STATE */
++	/* wdev->iftype = NL80211_IFTYPE_MONITOR; */ /* for rtw_setopmode_cmd() in cfg80211_rtw_change_iface() */
++	padapter->rtw_wdev = wdev;
++	pnetdev->ieee80211_ptr = wdev;
++
++	/* init pwdev_priv */
++	pwdev_priv = adapter_wdev_data(padapter);
++	pwdev_priv->rtw_wdev = wdev;
++	pwdev_priv->pmon_ndev = NULL;
++	pwdev_priv->ifname_mon[0] = '\0';
++	pwdev_priv->padapter = padapter;
++	pwdev_priv->scan_request = NULL;
++	_rtw_spinlock_init(&pwdev_priv->scan_req_lock);
++
++	pwdev_priv->p2p_enabled = _FALSE;
++	pwdev_priv->provdisc_req_issued = _FALSE;
++	rtw_wdev_invit_info_init(&pwdev_priv->invit_info);
++	rtw_wdev_nego_info_init(&pwdev_priv->nego_info);
++
++	pwdev_priv->bandroid_scan = _FALSE;
++
++	if (padapter->registrypriv.power_mgnt != PS_MODE_ACTIVE)
++		pwdev_priv->power_mgmt = _TRUE;
++	else
++		pwdev_priv->power_mgmt = _FALSE;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	ATOMIC_SET(&pwdev_priv->switch_ch_to, 1);
++	ATOMIC_SET(&pwdev_priv->ro_ch_to, 1);
++#endif
++
++exit:
++	return ret;
++}
++
++void rtw_wdev_free(struct wireless_dev *wdev)
++{
++	RTW_INFO("%s(wdev=%p)\n", __func__, wdev);
++
++	if (!wdev)
++		return;
++
++	rtw_mfree((u8 *)wdev, sizeof(struct wireless_dev));
++}
++
++void rtw_wdev_unregister(struct wireless_dev *wdev)
++{
++	struct net_device *ndev;
++	_adapter *adapter;
++	struct rtw_wdev_priv *pwdev_priv;
++
++	RTW_INFO("%s(wdev=%p)\n", __func__, wdev);
++
++	if (!wdev)
++		return;
++
++	ndev = wdev_to_ndev(wdev);
++	if (!ndev)
++		return;
++
++	adapter = (_adapter *)rtw_netdev_priv(ndev);
++	pwdev_priv = adapter_wdev_data(adapter);
++
++	rtw_cfg80211_indicate_scan_done(adapter, _TRUE);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 2, 0))
++	if (wdev->current_bss) {
++		u8 locally_generated = 1;
++		RTW_INFO(FUNC_ADPT_FMT" clear current_bss by cfg80211_disconnected\n", FUNC_ADPT_ARG(adapter));
++		cfg80211_disconnected(adapter->pnetdev, 0, NULL, 0, locally_generated, GFP_ATOMIC);
++	}
++#elif ((LINUX_VERSION_CODE >= KERNEL_VERSION(3, 11, 0)) && (LINUX_VERSION_CODE < KERNEL_VERSION(4, 2, 0))) || defined(COMPAT_KERNEL_RELEASE)
++	if (wdev->current_bss) {
++		RTW_INFO(FUNC_ADPT_FMT" clear current_bss by cfg80211_disconnected\n", FUNC_ADPT_ARG(adapter));
++		cfg80211_disconnected(adapter->pnetdev, 0, NULL, 0, GFP_ATOMIC);
++	}
++#endif
++
++	if (pwdev_priv->pmon_ndev) {
++		RTW_INFO("%s, unregister monitor interface\n", __func__);
++		unregister_netdev(pwdev_priv->pmon_ndev);
++	}
++}
++
++int rtw_cfg80211_ndev_res_alloc(_adapter *adapter)
++{
++	int ret = _FAIL;
++
++#if !defined(RTW_SINGLE_WIPHY)
++	struct wiphy *wiphy;
++	struct device *dev = dvobj_to_dev(adapter_to_dvobj(adapter));
++
++	wiphy = rtw_wiphy_alloc(adapter, dev);
++	if (wiphy == NULL)
++		goto exit;
++
++	adapter->wiphy = wiphy;
++#endif
++
++	if (rtw_wdev_alloc(adapter, adapter_to_wiphy(adapter)) == 0)
++		ret = _SUCCESS;
++
++#if !defined(RTW_SINGLE_WIPHY)
++	if (ret != _SUCCESS) {
++		rtw_wiphy_free(wiphy);
++		adapter->wiphy = NULL;
++	}
++#endif
++
++exit:
++	return ret;
++}
++
++void rtw_cfg80211_ndev_res_free(_adapter *adapter)
++{
++	rtw_wdev_free(adapter->rtw_wdev);
++#if !defined(RTW_SINGLE_WIPHY)
++	rtw_wiphy_free(adapter_to_wiphy(adapter));
++	adapter->wiphy = NULL;
++#endif
++}
++
++int rtw_cfg80211_ndev_res_register(_adapter *adapter)
++{
++	int ret = _FAIL;
++
++#if !defined(RTW_SINGLE_WIPHY)
++	if (rtw_wiphy_register(adapter_to_wiphy(adapter)) < 0) {
++		RTW_INFO("%s rtw_wiphy_register fail for if%d\n", __func__, (adapter->iface_id + 1));
++		goto exit;
++	}
++#endif
++
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++void rtw_cfg80211_ndev_res_unregister(_adapter *adapter)
++{
++	rtw_wdev_unregister(adapter->rtw_wdev);
++}
++
++int rtw_cfg80211_dev_res_alloc(struct dvobj_priv *dvobj)
++{
++	int ret = _FAIL;
++
++#if defined(RTW_SINGLE_WIPHY)
++	struct wiphy *wiphy;
++	struct device *dev = dvobj_to_dev(dvobj);
++
++	wiphy = rtw_wiphy_alloc(dvobj_get_primary_adapter(dvobj), dev);
++	if (wiphy == NULL)
++		goto exit;
++
++	dvobj->wiphy = wiphy;
++#endif
++
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++void rtw_cfg80211_dev_res_free(struct dvobj_priv *dvobj)
++{
++#if defined(RTW_SINGLE_WIPHY)
++	rtw_wiphy_free(dvobj_to_wiphy(dvobj));
++	dvobj->wiphy = NULL;
++#endif
++}
++
++int rtw_cfg80211_dev_res_register(struct dvobj_priv *dvobj)
++{
++	int ret = _FAIL;
++
++#if defined(RTW_SINGLE_WIPHY)
++	if (rtw_wiphy_register(dvobj_to_wiphy(dvobj)) != 0)
++		goto exit;
++#endif
++
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++void rtw_cfg80211_dev_res_unregister(struct dvobj_priv *dvobj)
++{
++#if defined(RTW_SINGLE_WIPHY)
++	rtw_wiphy_unregister(dvobj_to_wiphy(dvobj));
++#endif
++}
++
++#endif /* CONFIG_IOCTL_CFG80211 */
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.h b/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.h
+new file mode 100644
+index 0000000..9f5fb47
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.h
+@@ -0,0 +1,211 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __IOCTL_CFG80211_H__
++#define __IOCTL_CFG80211_H__
++
++
++#if defined(RTW_USE_CFG80211_STA_EVENT)
++	#undef CONFIG_CFG80211_FORCE_COMPATIBLE_2_6_37_UNDER
++#endif
++
++struct rtw_wdev_invit_info {
++	u8 state; /* 0: req, 1:rep */
++	u8 peer_mac[ETH_ALEN];
++	u8 active;
++	u8 token;
++	u8 flags;
++	u8 status;
++	u8 req_op_ch;
++	u8 rsp_op_ch;
++};
++
++#define rtw_wdev_invit_info_init(invit_info) \
++	do { \
++		(invit_info)->state = 0xff; \
++		_rtw_memset((invit_info)->peer_mac, 0, ETH_ALEN); \
++		(invit_info)->active = 0xff; \
++		(invit_info)->token = 0; \
++		(invit_info)->flags = 0x00; \
++		(invit_info)->status = 0xff; \
++		(invit_info)->req_op_ch = 0; \
++		(invit_info)->rsp_op_ch = 0; \
++	} while (0)
++
++struct rtw_wdev_nego_info {
++	u8 state; /* 0: req, 1:rep, 2:conf */
++	u8 peer_mac[ETH_ALEN];
++	u8 active;
++	u8 token;
++	u8 status;
++	u8 req_intent;
++	u8 req_op_ch;
++	u8 req_listen_ch;
++	u8 rsp_intent;
++	u8 rsp_op_ch;
++	u8 conf_op_ch;
++};
++
++#define rtw_wdev_nego_info_init(nego_info) \
++	do { \
++		(nego_info)->state = 0xff; \
++		_rtw_memset((nego_info)->peer_mac, 0, ETH_ALEN); \
++		(nego_info)->active = 0xff; \
++		(nego_info)->token = 0; \
++		(nego_info)->status = 0xff; \
++		(nego_info)->req_intent = 0xff; \
++		(nego_info)->req_op_ch = 0; \
++		(nego_info)->req_listen_ch = 0; \
++		(nego_info)->rsp_intent = 0xff; \
++		(nego_info)->rsp_op_ch = 0; \
++		(nego_info)->conf_op_ch = 0; \
++	} while (0)
++
++struct rtw_wdev_priv {
++	struct wireless_dev *rtw_wdev;
++
++	_adapter *padapter;
++
++	struct cfg80211_scan_request *scan_request;
++	_lock scan_req_lock;
++
++	struct net_device *pmon_ndev;/* for monitor interface */
++	char ifname_mon[IFNAMSIZ + 1]; /* interface name for monitor interface */
++
++	u8 p2p_enabled;
++
++	u8 provdisc_req_issued;
++
++	struct rtw_wdev_invit_info invit_info;
++	struct rtw_wdev_nego_info nego_info;
++
++	u8 bandroid_scan;
++	bool block;
++	bool block_scan;
++	bool power_mgmt;
++
++	/* report mgmt_frame registered */
++	u16 report_mgmt;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	ATOMIC_T ro_ch_to;
++	ATOMIC_T switch_ch_to;
++#endif
++
++};
++
++#define wiphy_to_adapter(x) (*((_adapter **)wiphy_priv(x)))
++
++#define wdev_to_ndev(w) ((w)->netdev)
++#define wdev_to_wiphy(w) ((w)->wiphy)
++#define ndev_to_wdev(n) ((n)->ieee80211_ptr)
++
++#define WIPHY_FMT "%s"
++#define WIPHY_ARG(wiphy) wiphy_name(wiphy)
++#define FUNC_WIPHY_FMT "%s("WIPHY_FMT")"
++#define FUNC_WIPHY_ARG(wiphy) __func__, WIPHY_ARG(wiphy)
++
++#define SET_CFG80211_REPORT_MGMT(w, t, v) (w->report_mgmt |= (v ? BIT(t >> 4) : 0))
++#define GET_CFG80211_REPORT_MGMT(w, t) ((w->report_mgmt & BIT(t >> 4)) > 0)
++
++struct wiphy *rtw_wiphy_alloc(_adapter *padapter, struct device *dev);
++void rtw_wiphy_free(struct wiphy *wiphy);
++int rtw_wiphy_register(struct wiphy *wiphy);
++void rtw_wiphy_unregister(struct wiphy *wiphy);
++
++int rtw_wdev_alloc(_adapter *padapter, struct wiphy *wiphy);
++void rtw_wdev_free(struct wireless_dev *wdev);
++void rtw_wdev_unregister(struct wireless_dev *wdev);
++
++int rtw_cfg80211_ndev_res_alloc(_adapter *adapter);
++void rtw_cfg80211_ndev_res_free(_adapter *adapter);
++int rtw_cfg80211_ndev_res_register(_adapter *adapter);
++void rtw_cfg80211_ndev_res_unregister(_adapter *adapter);
++
++int rtw_cfg80211_dev_res_alloc(struct dvobj_priv *dvobj);
++void rtw_cfg80211_dev_res_free(struct dvobj_priv *dvobj);
++int rtw_cfg80211_dev_res_register(struct dvobj_priv *dvobj);
++void rtw_cfg80211_dev_res_unregister(struct dvobj_priv *dvobj);
++
++void rtw_cfg80211_init_wdev_data(_adapter *padapter);
++void rtw_cfg80211_init_wiphy(_adapter *padapter);
++
++void rtw_cfg80211_unlink_bss(_adapter *padapter, struct wlan_network *pnetwork);
++void rtw_cfg80211_surveydone_event_callback(_adapter *padapter);
++struct cfg80211_bss *rtw_cfg80211_inform_bss(_adapter *padapter, struct wlan_network *pnetwork);
++int rtw_cfg80211_check_bss(_adapter *padapter);
++void rtw_cfg80211_ibss_indicate_connect(_adapter *padapter);
++void rtw_cfg80211_indicate_connect(_adapter *padapter);
++void rtw_cfg80211_indicate_disconnect(_adapter *padapter, u16 reason, u8 locally_generated);
++void rtw_cfg80211_indicate_scan_done(_adapter *adapter, bool aborted);
++u32 rtw_cfg80211_wait_scan_req_empty(_adapter *adapter, u32 timeout_ms);
++
++#ifdef CONFIG_AP_MODE
++void rtw_cfg80211_indicate_sta_assoc(_adapter *padapter, u8 *pmgmt_frame, uint frame_len);
++void rtw_cfg80211_indicate_sta_disassoc(_adapter *padapter, unsigned char *da, unsigned short reason);
++#endif /* CONFIG_AP_MODE */
++
++void rtw_cfg80211_issue_p2p_provision_request(_adapter *padapter, const u8 *buf, size_t len);
++void rtw_cfg80211_rx_p2p_action_public(_adapter *padapter, u8 *pmgmt_frame, uint frame_len);
++void rtw_cfg80211_rx_action_p2p(_adapter *padapter, u8 *pmgmt_frame, uint frame_len);
++void rtw_cfg80211_rx_action(_adapter *adapter, u8 *frame, uint frame_len, const char *msg);
++void rtw_cfg80211_rx_probe_request(_adapter *padapter, u8 *pmgmt_frame, uint frame_len);
++
++int rtw_cfg80211_set_mgnt_wpsp2pie(struct net_device *net, char *buf, int len, int type);
++
++bool rtw_cfg80211_pwr_mgmt(_adapter *adapter);
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 4, 0))  && !defined(COMPAT_KERNEL_RELEASE)
++#define rtw_cfg80211_rx_mgmt(adapter, freq, sig_dbm, buf, len, gfp) cfg80211_rx_mgmt((adapter)->pnetdev, freq, buf, len, gfp)
++#elif (LINUX_VERSION_CODE < KERNEL_VERSION(3, 6, 0))
++#define rtw_cfg80211_rx_mgmt(adapter, freq, sig_dbm, buf, len, gfp) cfg80211_rx_mgmt((adapter)->pnetdev, freq, sig_dbm, buf, len, gfp)
++#elif (LINUX_VERSION_CODE < KERNEL_VERSION(3, 12, 0))
++#define rtw_cfg80211_rx_mgmt(adapter, freq, sig_dbm, buf, len, gfp) cfg80211_rx_mgmt((adapter)->rtw_wdev, freq, sig_dbm, buf, len, gfp)
++#elif (LINUX_VERSION_CODE < KERNEL_VERSION(3 , 18 , 0))
++#define rtw_cfg80211_rx_mgmt(adapter , freq , sig_dbm , buf , len , gfp) cfg80211_rx_mgmt((adapter)->rtw_wdev , freq , sig_dbm , buf , len , 0 , gfp)
++#else
++#define rtw_cfg80211_rx_mgmt(adapter , freq , sig_dbm , buf , len , gfp) cfg80211_rx_mgmt((adapter)->rtw_wdev , freq , sig_dbm , buf , len , 0)
++#endif
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 4, 0))  && !defined(COMPAT_KERNEL_RELEASE)
++#define rtw_cfg80211_send_rx_assoc(adapter, bss, buf, len) cfg80211_send_rx_assoc((adapter)->pnetdev, buf, len)
++#else
++#define rtw_cfg80211_send_rx_assoc(adapter, bss, buf, len) cfg80211_send_rx_assoc((adapter)->pnetdev, bss, buf, len)
++#endif
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 6, 0))
++#define rtw_cfg80211_mgmt_tx_status(adapter, cookie, buf, len, ack, gfp) cfg80211_mgmt_tx_status((adapter)->pnetdev, cookie, buf, len, ack, gfp)
++#else
++#define rtw_cfg80211_mgmt_tx_status(adapter, cookie, buf, len, ack, gfp) cfg80211_mgmt_tx_status((adapter)->rtw_wdev, cookie, buf, len, ack, gfp)
++#endif
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 6, 0))
++#define rtw_cfg80211_ready_on_channel(adapter, cookie, chan, channel_type, duration, gfp)  cfg80211_ready_on_channel((adapter)->pnetdev, cookie, chan, channel_type, duration, gfp)
++#define rtw_cfg80211_remain_on_channel_expired(adapter, cookie, chan, chan_type, gfp) cfg80211_remain_on_channel_expired((adapter)->pnetdev, cookie, chan, chan_type, gfp)
++#elif (LINUX_VERSION_CODE < KERNEL_VERSION(3, 8, 0))
++#define rtw_cfg80211_ready_on_channel(adapter, cookie, chan, channel_type, duration, gfp)  cfg80211_ready_on_channel((adapter)->rtw_wdev, cookie, chan, channel_type, duration, gfp)
++#define rtw_cfg80211_remain_on_channel_expired(adapter, cookie, chan, chan_type, gfp) cfg80211_remain_on_channel_expired((adapter)->rtw_wdev, cookie, chan, chan_type, gfp)
++#else
++#define rtw_cfg80211_ready_on_channel(adapter, cookie, chan, channel_type, duration, gfp)  cfg80211_ready_on_channel((adapter)->rtw_wdev, cookie, chan, duration, gfp)
++#define rtw_cfg80211_remain_on_channel_expired(adapter, cookie, chan, chan_type, gfp) cfg80211_remain_on_channel_expired((adapter)->rtw_wdev, cookie, chan, gfp)
++#endif
++
++#include "rtw_cfgvendor.h"
++
++#endif /* __IOCTL_CFG80211_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_linux.c b/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_linux.c
+new file mode 100644
+index 0000000..f99cd5d
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_linux.c
+@@ -0,0 +1,13161 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _IOCTL_LINUX_C_
++
++#include <drv_types.h>
++#include <rtw_mp.h>
++#include <rtw_mp_ioctl.h>
++#include "../../hal/phydm/phydm_precomp.h"
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 27))
++#define  iwe_stream_add_event(a, b, c, d, e)  iwe_stream_add_event(b, c, d, e)
++#define  iwe_stream_add_point(a, b, c, d, e)  iwe_stream_add_point(b, c, d, e)
++#endif
++
++#ifdef CONFIG_80211N_HT
++extern int rtw_ht_enable;
++#endif
++
++
++#define RTL_IOCTL_WPA_SUPPLICANT	(SIOCIWFIRSTPRIV+30)
++
++#define SCAN_ITEM_SIZE 768
++#define MAX_CUSTOM_LEN 64
++#define RATE_COUNT 4
++
++#ifdef CONFIG_GLOBAL_UI_PID
++extern int ui_pid[3];
++#endif
++
++/* combo scan */
++#define WEXT_CSCAN_AMOUNT 9
++#define WEXT_CSCAN_BUF_LEN		360
++#define WEXT_CSCAN_HEADER		"CSCAN S\x01\x00\x00S\x00"
++#define WEXT_CSCAN_HEADER_SIZE		12
++#define WEXT_CSCAN_SSID_SECTION		'S'
++#define WEXT_CSCAN_CHANNEL_SECTION	'C'
++#define WEXT_CSCAN_NPROBE_SECTION	'N'
++#define WEXT_CSCAN_ACTV_DWELL_SECTION	'A'
++#define WEXT_CSCAN_PASV_DWELL_SECTION	'P'
++#define WEXT_CSCAN_HOME_DWELL_SECTION	'H'
++#define WEXT_CSCAN_TYPE_SECTION		'T'
++
++
++extern u8 key_2char2num(u8 hch, u8 lch);
++extern u8 str_2char2num(u8 hch, u8 lch);
++extern void macstr2num(u8 *dst, u8 *src);
++extern u8 convert_ip_addr(u8 hch, u8 mch, u8 lch);
++
++u32 rtw_rates[] = {1000000, 2000000, 5500000, 11000000,
++	6000000, 9000000, 12000000, 18000000, 24000000, 36000000, 48000000, 54000000};
++
++static const char *const iw_operation_mode[] = {
++	"Auto", "Ad-Hoc", "Managed",  "Master", "Repeater", "Secondary", "Monitor"
++};
++
++static int hex2num_i(char c)
++{
++	if (c >= '0' && c <= '9')
++		return c - '0';
++	if (c >= 'a' && c <= 'f')
++		return c - 'a' + 10;
++	if (c >= 'A' && c <= 'F')
++		return c - 'A' + 10;
++	return -1;
++}
++
++static int hex2byte_i(const char *hex)
++{
++	int a, b;
++	a = hex2num_i(*hex++);
++	if (a < 0)
++		return -1;
++	b = hex2num_i(*hex++);
++	if (b < 0)
++		return -1;
++	return (a << 4) | b;
++}
++
++/**
++ * hwaddr_aton - Convert ASCII string to MAC address
++ * @txt: MAC address as a string (e.g., "00:11:22:33:44:55")
++ * @addr: Buffer for the MAC address (ETH_ALEN = 6 bytes)
++ * Returns: 0 on success, -1 on failure (e.g., string not a MAC address)
++ */
++static int hwaddr_aton_i(const char *txt, u8 *addr)
++{
++	int i;
++
++	for (i = 0; i < 6; i++) {
++		int a, b;
++
++		a = hex2num_i(*txt++);
++		if (a < 0)
++			return -1;
++		b = hex2num_i(*txt++);
++		if (b < 0)
++			return -1;
++		*addr++ = (a << 4) | b;
++		if (i < 5 && *txt++ != ':')
++			return -1;
++	}
++
++	return 0;
++}
++
++static void indicate_wx_custom_event(_adapter *padapter, char *msg)
++{
++	u8 *buff, *p;
++	union iwreq_data wrqu;
++
++	if (strlen(msg) > IW_CUSTOM_MAX) {
++		RTW_INFO("%s strlen(msg):%zu > IW_CUSTOM_MAX:%u\n", __FUNCTION__ , strlen(msg), IW_CUSTOM_MAX);
++		return;
++	}
++
++	buff = rtw_zmalloc(IW_CUSTOM_MAX + 1);
++	if (!buff)
++		return;
++
++	_rtw_memcpy(buff, msg, strlen(msg));
++
++	_rtw_memset(&wrqu, 0, sizeof(wrqu));
++	wrqu.data.length = strlen(msg);
++
++	RTW_INFO("%s %s\n", __FUNCTION__, buff);
++#ifndef CONFIG_IOCTL_CFG80211
++	wireless_send_event(padapter->pnetdev, IWEVCUSTOM, &wrqu, buff);
++#endif
++
++	rtw_mfree(buff, IW_CUSTOM_MAX + 1);
++
++}
++
++
++static void request_wps_pbc_event(_adapter *padapter)
++{
++	u8 *buff, *p;
++	union iwreq_data wrqu;
++
++
++	buff = rtw_malloc(IW_CUSTOM_MAX);
++	if (!buff)
++		return;
++
++	_rtw_memset(buff, 0, IW_CUSTOM_MAX);
++
++	p = buff;
++
++	p += sprintf(p, "WPS_PBC_START.request=TRUE");
++
++	_rtw_memset(&wrqu, 0, sizeof(wrqu));
++
++	wrqu.data.length = p - buff;
++
++	wrqu.data.length = (wrqu.data.length < IW_CUSTOM_MAX) ? wrqu.data.length : IW_CUSTOM_MAX;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++#ifndef CONFIG_IOCTL_CFG80211
++	wireless_send_event(padapter->pnetdev, IWEVCUSTOM, &wrqu, buff);
++#endif
++
++	if (buff)
++		rtw_mfree(buff, IW_CUSTOM_MAX);
++
++}
++
++#ifdef CONFIG_SUPPORT_HW_WPS_PBC
++void rtw_request_wps_pbc_event(_adapter *padapter)
++{
++#ifdef RTK_DMP_PLATFORM
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 12))
++	kobject_uevent(&padapter->pnetdev->dev.kobj, KOBJ_NET_PBC);
++#else
++	kobject_hotplug(&padapter->pnetdev->class_dev.kobj, KOBJ_NET_PBC);
++#endif
++#else
++
++	if (padapter->pid[0] == 0) {
++		/*	0 is the default value and it means the application monitors the HW PBC doesn't privde its pid to driver. */
++		return;
++	}
++
++	rtw_signal_process(padapter->pid[0], SIGUSR1);
++
++#endif
++
++	rtw_led_control(padapter, LED_CTL_START_WPS_BOTTON);
++}
++#endif/* #ifdef CONFIG_SUPPORT_HW_WPS_PBC */
++
++void indicate_wx_scan_complete_event(_adapter *padapter)
++{
++	union iwreq_data wrqu;
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	_rtw_memset(&wrqu, 0, sizeof(union iwreq_data));
++
++	/* RTW_INFO("+rtw_indicate_wx_scan_complete_event\n"); */
++#ifndef CONFIG_IOCTL_CFG80211
++	wireless_send_event(padapter->pnetdev, SIOCGIWSCAN, &wrqu, NULL);
++#endif
++}
++
++
++void rtw_indicate_wx_assoc_event(_adapter *padapter)
++{
++	union iwreq_data wrqu;
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	WLAN_BSSID_EX		*pnetwork = (WLAN_BSSID_EX *)(&(pmlmeinfo->network));
++
++	_rtw_memset(&wrqu, 0, sizeof(union iwreq_data));
++
++	wrqu.ap_addr.sa_family = ARPHRD_ETHER;
++
++	if (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE)
++		_rtw_memcpy(wrqu.ap_addr.sa_data, pnetwork->MacAddress, ETH_ALEN);
++	else
++		_rtw_memcpy(wrqu.ap_addr.sa_data, pmlmepriv->cur_network.network.MacAddress, ETH_ALEN);
++
++	RTW_PRINT("assoc success\n");
++#ifndef CONFIG_IOCTL_CFG80211
++	wireless_send_event(padapter->pnetdev, SIOCGIWAP, &wrqu, NULL);
++#endif
++}
++
++void rtw_indicate_wx_disassoc_event(_adapter *padapter)
++{
++	union iwreq_data wrqu;
++
++	_rtw_memset(&wrqu, 0, sizeof(union iwreq_data));
++
++	wrqu.ap_addr.sa_family = ARPHRD_ETHER;
++	_rtw_memset(wrqu.ap_addr.sa_data, 0, ETH_ALEN);
++
++#ifndef CONFIG_IOCTL_CFG80211
++	RTW_PRINT("indicate disassoc\n");
++	wireless_send_event(padapter->pnetdev, SIOCGIWAP, &wrqu, NULL);
++#endif
++}
++
++/*
++uint	rtw_is_cckrates_included(u8 *rate)
++{
++		u32	i = 0;
++
++		while(rate[i]!=0)
++		{
++			if  (  (((rate[i]) & 0x7f) == 2)	|| (((rate[i]) & 0x7f) == 4) ||
++			(((rate[i]) & 0x7f) == 11)  || (((rate[i]) & 0x7f) == 22) )
++			return _TRUE;
++			i++;
++		}
++
++		return _FALSE;
++}
++
++uint	rtw_is_cckratesonly_included(u8 *rate)
++{
++	u32 i = 0;
++
++	while(rate[i]!=0)
++	{
++			if  (  (((rate[i]) & 0x7f) != 2) && (((rate[i]) & 0x7f) != 4) &&
++				(((rate[i]) & 0x7f) != 11)  && (((rate[i]) & 0x7f) != 22) )
++			return _FALSE;
++			i++;
++	}
++
++	return _TRUE;
++}
++*/
++
++static int search_p2p_wfd_ie(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop)
++{
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &padapter->wdinfo;
++#ifdef CONFIG_WFD
++	if (SCAN_RESULT_ALL == pwdinfo->wfd_info->scan_result_type) {
++
++	} else if ((SCAN_RESULT_P2P_ONLY == pwdinfo->wfd_info->scan_result_type) ||
++		(SCAN_RESULT_WFD_TYPE == pwdinfo->wfd_info->scan_result_type))
++#endif /* CONFIG_WFD */
++	{
++		if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++			u32	blnGotP2PIE = _FALSE;
++
++			/*	User is doing the P2P device discovery */
++			/*	The prefix of SSID should be "DIRECT-" and the IE should contains the P2P IE. */
++			/*	If not, the driver should ignore this AP and go to the next AP. */
++
++			/*	Verifying the SSID */
++			if (_rtw_memcmp(pnetwork->network.Ssid.Ssid, pwdinfo->p2p_wildcard_ssid, P2P_WILDCARD_SSID_LEN)) {
++				u32	p2pielen = 0;
++
++				/*	Verifying the P2P IE */
++				if (rtw_bss_ex_get_p2p_ie(&pnetwork->network, NULL, &p2pielen))
++					blnGotP2PIE = _TRUE;
++			}
++
++			if (blnGotP2PIE == _FALSE)
++				return _FALSE;
++
++		}
++	}
++
++#ifdef CONFIG_WFD
++	if (SCAN_RESULT_WFD_TYPE == pwdinfo->wfd_info->scan_result_type) {
++		u32	blnGotWFD = _FALSE;
++		u8 *wfd_ie;
++		uint wfd_ielen = 0;
++
++		wfd_ie = rtw_bss_ex_get_wfd_ie(&pnetwork->network, NULL, &wfd_ielen);
++		if (wfd_ie) {
++			u8 *wfd_devinfo;
++			uint wfd_devlen;
++
++			wfd_devinfo = rtw_get_wfd_attr_content(wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, NULL, &wfd_devlen);
++			if (wfd_devinfo) {
++				if (pwdinfo->wfd_info->wfd_device_type == WFD_DEVINFO_PSINK) {
++					/*	the first two bits will indicate the WFD device type */
++					if ((wfd_devinfo[1] & 0x03) == WFD_DEVINFO_SOURCE) {
++						/*	If this device is Miracast PSink device, the scan reuslt should just provide the Miracast source. */
++						blnGotWFD = _TRUE;
++					}
++				} else if (pwdinfo->wfd_info->wfd_device_type == WFD_DEVINFO_SOURCE) {
++					/*	the first two bits will indicate the WFD device type */
++					if ((wfd_devinfo[1] & 0x03) == WFD_DEVINFO_PSINK) {
++						/*	If this device is Miracast source device, the scan reuslt should just provide the Miracast PSink. */
++						/*	Todo: How about the SSink?! */
++						blnGotWFD = _TRUE;
++					}
++				}
++			}
++		}
++
++		if (blnGotWFD == _FALSE)
++			return _FALSE;
++	}
++#endif /* CONFIG_WFD */
++
++#endif /* CONFIG_P2P */
++	return _TRUE;
++}
++static inline char *iwe_stream_mac_addr_proess(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++	/*  AP MAC address */
++	iwe->cmd = SIOCGIWAP;
++	iwe->u.ap_addr.sa_family = ARPHRD_ETHER;
++
++	_rtw_memcpy(iwe->u.ap_addr.sa_data, pnetwork->network.MacAddress, ETH_ALEN);
++	start = iwe_stream_add_event(info, start, stop, iwe, IW_EV_ADDR_LEN);
++	return start;
++}
++static inline char *iwe_stream_essid_proess(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++
++	/* Add the ESSID */
++	iwe->cmd = SIOCGIWESSID;
++	iwe->u.data.flags = 1;
++	iwe->u.data.length = min((u16)pnetwork->network.Ssid.SsidLength, (u16)32);
++	start = iwe_stream_add_point(info, start, stop, iwe, pnetwork->network.Ssid.Ssid);
++	return start;
++}
++
++static inline char *iwe_stream_chan_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++	if (pnetwork->network.Configuration.DSConfig < 1 /*|| pnetwork->network.Configuration.DSConfig>14*/)
++		pnetwork->network.Configuration.DSConfig = 1;
++
++	/* Add frequency/channel */
++	iwe->cmd = SIOCGIWFREQ;
++	iwe->u.freq.m = rtw_ch2freq(pnetwork->network.Configuration.DSConfig) * 100000;
++	iwe->u.freq.e = 1;
++	iwe->u.freq.i = pnetwork->network.Configuration.DSConfig;
++	start = iwe_stream_add_event(info, start, stop, iwe, IW_EV_FREQ_LEN);
++	return start;
++}
++static inline char *iwe_stream_mode_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe, u16 cap)
++{
++	/* Add mode */
++	if (cap & (WLAN_CAPABILITY_IBSS | WLAN_CAPABILITY_BSS)) {
++		iwe->cmd = SIOCGIWMODE;
++		if (cap & WLAN_CAPABILITY_BSS)
++			iwe->u.mode = IW_MODE_MASTER;
++		else
++			iwe->u.mode = IW_MODE_ADHOC;
++
++		start = iwe_stream_add_event(info, start, stop, iwe, IW_EV_UINT_LEN);
++	}
++	return start;
++}
++static inline char *iwe_stream_encryption_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe, u16 cap)
++{
++
++	/* Add encryption capability */
++	iwe->cmd = SIOCGIWENCODE;
++	if (cap & WLAN_CAPABILITY_PRIVACY)
++		iwe->u.data.flags = IW_ENCODE_ENABLED | IW_ENCODE_NOKEY;
++	else
++		iwe->u.data.flags = IW_ENCODE_DISABLED;
++	iwe->u.data.length = 0;
++	start = iwe_stream_add_point(info, start, stop, iwe, pnetwork->network.Ssid.Ssid);
++	return start;
++
++}
++
++static inline char *iwe_stream_protocol_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++	u16 ht_cap = _FALSE, vht_cap = _FALSE;
++	u32 ht_ielen = 0, vht_ielen = 0;
++	char *p;
++	u8 ie_offset = (pnetwork->network.Reserved[0] == 2 ? 0 : 12); /* Probe Request	 */
++
++	/* parsing HT_CAP_IE	 */
++	p = rtw_get_ie(&pnetwork->network.IEs[ie_offset], _HT_CAPABILITY_IE_, &ht_ielen, pnetwork->network.IELength - ie_offset);
++	if (p && ht_ielen > 0)
++		ht_cap = _TRUE;
++
++#ifdef CONFIG_80211AC_VHT
++	/* parsing VHT_CAP_IE */
++	p = rtw_get_ie(&pnetwork->network.IEs[ie_offset], EID_VHTCapability, &vht_ielen, pnetwork->network.IELength - ie_offset);
++	if (p && vht_ielen > 0)
++		vht_cap = _TRUE;
++#endif
++	/* Add the protocol name */
++	iwe->cmd = SIOCGIWNAME;
++	if ((rtw_is_cckratesonly_included((u8 *)&pnetwork->network.SupportedRates)) == _TRUE) {
++		if (ht_cap == _TRUE)
++			snprintf(iwe->u.name, IFNAMSIZ, "IEEE 802.11bn");
++		else
++			snprintf(iwe->u.name, IFNAMSIZ, "IEEE 802.11b");
++	} else if ((rtw_is_cckrates_included((u8 *)&pnetwork->network.SupportedRates)) == _TRUE) {
++		if (ht_cap == _TRUE)
++			snprintf(iwe->u.name, IFNAMSIZ, "IEEE 802.11bgn");
++		else
++			snprintf(iwe->u.name, IFNAMSIZ, "IEEE 802.11bg");
++	} else {
++		if (pnetwork->network.Configuration.DSConfig > 14) {
++			#ifdef CONFIG_80211AC_VHT
++			if (vht_cap == _TRUE)
++				snprintf(iwe->u.name, IFNAMSIZ, "IEEE 802.11AC");
++			else
++			#endif
++			{
++				if (ht_cap == _TRUE)
++					snprintf(iwe->u.name, IFNAMSIZ, "IEEE 802.11an");
++				else
++					snprintf(iwe->u.name, IFNAMSIZ, "IEEE 802.11a");
++			}
++		} else {
++			if (ht_cap == _TRUE)
++				snprintf(iwe->u.name, IFNAMSIZ, "IEEE 802.11gn");
++			else
++				snprintf(iwe->u.name, IFNAMSIZ, "IEEE 802.11g");
++		}
++	}
++	start = iwe_stream_add_event(info, start, stop, iwe, IW_EV_CHAR_LEN);
++	return start;
++}
++
++static inline char *iwe_stream_rate_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++	u32 ht_ielen = 0, vht_ielen = 0;
++	char *p;
++	u16 max_rate = 0, rate, ht_cap = _FALSE, vht_cap = _FALSE;
++	u32 i = 0;
++	u8 bw_40MHz = 0, short_GI = 0, bw_160MHz = 0, vht_highest_rate = 0;
++	u16 mcs_rate = 0, vht_data_rate = 0;
++	char custom[MAX_CUSTOM_LEN] = {0};
++	u8 ie_offset = (pnetwork->network.Reserved[0] == 2 ? 0 : 12); /* Probe Request	 */
++
++	/* parsing HT_CAP_IE	 */
++	p = rtw_get_ie(&pnetwork->network.IEs[ie_offset], _HT_CAPABILITY_IE_, &ht_ielen, pnetwork->network.IELength - ie_offset);
++	if (p && ht_ielen > 0) {
++		struct rtw_ieee80211_ht_cap *pht_capie;
++		ht_cap = _TRUE;
++		pht_capie = (struct rtw_ieee80211_ht_cap *)(p + 2);
++		_rtw_memcpy(&mcs_rate , pht_capie->supp_mcs_set, 2);
++		bw_40MHz = (pht_capie->cap_info & IEEE80211_HT_CAP_SUP_WIDTH) ? 1 : 0;
++		short_GI = (pht_capie->cap_info & (IEEE80211_HT_CAP_SGI_20 | IEEE80211_HT_CAP_SGI_40)) ? 1 : 0;
++	}
++
++#ifdef CONFIG_80211AC_VHT
++	/* parsing VHT_CAP_IE */
++	p = rtw_get_ie(&pnetwork->network.IEs[ie_offset], EID_VHTCapability, &vht_ielen, pnetwork->network.IELength - ie_offset);
++	if (p && vht_ielen > 0) {
++		u8	mcs_map[2];
++
++		vht_cap = _TRUE;
++		bw_160MHz = GET_VHT_CAPABILITY_ELE_CHL_WIDTH(p + 2);
++		if (bw_160MHz)
++			short_GI = GET_VHT_CAPABILITY_ELE_SHORT_GI160M(p + 2);
++		else
++			short_GI = GET_VHT_CAPABILITY_ELE_SHORT_GI80M(p + 2);
++
++		_rtw_memcpy(mcs_map, GET_VHT_CAPABILITY_ELE_TX_MCS(p + 2), 2);
++
++		vht_highest_rate = rtw_get_vht_highest_rate(mcs_map);
++		vht_data_rate = rtw_vht_mcs_to_data_rate(CHANNEL_WIDTH_80, short_GI, vht_highest_rate);
++	}
++#endif
++
++	/*Add basic and extended rates */
++	p = custom;
++	p += snprintf(p, MAX_CUSTOM_LEN - (p - custom), " Rates (Mb/s): ");
++	while (pnetwork->network.SupportedRates[i] != 0) {
++		rate = pnetwork->network.SupportedRates[i] & 0x7F;
++		if (rate > max_rate)
++			max_rate = rate;
++		p += snprintf(p, MAX_CUSTOM_LEN - (p - custom),
++			      "%d%s ", rate >> 1, (rate & 1) ? ".5" : "");
++		i++;
++	}
++#ifdef CONFIG_80211AC_VHT
++	if (vht_cap == _TRUE)
++		max_rate = vht_data_rate;
++	else
++#endif
++		if (ht_cap == _TRUE) {
++			if (mcs_rate & 0x8000) /* MCS15 */
++				max_rate = (bw_40MHz) ? ((short_GI) ? 300 : 270) : ((short_GI) ? 144 : 130);
++
++			else if (mcs_rate & 0x0080) /* MCS7 */
++				max_rate = (bw_40MHz) ? ((short_GI) ? 150 : 135) : ((short_GI) ? 72 : 65);
++			else { /* default MCS7 */
++				/* RTW_INFO("wx_get_scan, mcs_rate_bitmap=0x%x\n", mcs_rate); */
++				max_rate = (bw_40MHz) ? ((short_GI) ? 150 : 135) : ((short_GI) ? 72 : 65);
++			}
++
++			max_rate = max_rate * 2; /* Mbps/2;		 */
++		}
++
++	iwe->cmd = SIOCGIWRATE;
++	iwe->u.bitrate.fixed = iwe->u.bitrate.disabled = 0;
++	iwe->u.bitrate.value = max_rate * 500000;
++	start = iwe_stream_add_event(info, start, stop, iwe, IW_EV_PARAM_LEN);
++	return start ;
++}
++
++static inline char *iwe_stream_wpa_wpa2_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++	int buf_size = MAX_WPA_IE_LEN * 2;
++	/* u8 pbuf[buf_size]={0};	 */
++	u8 *pbuf = rtw_zmalloc(buf_size);
++
++	u8 wpa_ie[255] = {0}, rsn_ie[255] = {0};
++	u16 i, wpa_len = 0, rsn_len = 0;
++	u8 *p;
++	sint out_len = 0;
++
++
++	if (pbuf) {
++		p = pbuf;
++
++		/* parsing WPA/WPA2 IE */
++		if (pnetwork->network.Reserved[0] != 2) { /* Probe Request */
++			out_len = rtw_get_sec_ie(pnetwork->network.IEs , pnetwork->network.IELength, rsn_ie, &rsn_len, wpa_ie, &wpa_len);
++
++			if (wpa_len > 0) {
++
++				_rtw_memset(pbuf, 0, buf_size);
++				p += sprintf(p, "wpa_ie=");
++				for (i = 0; i < wpa_len; i++)
++					p += sprintf(p, "%02x", wpa_ie[i]);
++
++				if (wpa_len > 100) {
++					printk("-----------------Len %d----------------\n", wpa_len);
++					for (i = 0; i < wpa_len; i++)
++						printk("%02x ", wpa_ie[i]);
++					printk("\n");
++					printk("-----------------Len %d----------------\n", wpa_len);
++				}
++
++				_rtw_memset(iwe, 0, sizeof(*iwe));
++				iwe->cmd = IWEVCUSTOM;
++				iwe->u.data.length = strlen(pbuf);
++				start = iwe_stream_add_point(info, start, stop, iwe, pbuf);
++
++				_rtw_memset(iwe, 0, sizeof(*iwe));
++				iwe->cmd = IWEVGENIE;
++				iwe->u.data.length = wpa_len;
++				start = iwe_stream_add_point(info, start, stop, iwe, wpa_ie);
++			}
++			if (rsn_len > 0) {
++
++				_rtw_memset(pbuf, 0, buf_size);
++				p += sprintf(p, "rsn_ie=");
++				for (i = 0; i < rsn_len; i++)
++					p += sprintf(p, "%02x", rsn_ie[i]);
++				_rtw_memset(iwe, 0, sizeof(*iwe));
++				iwe->cmd = IWEVCUSTOM;
++				iwe->u.data.length = strlen(pbuf);
++				start = iwe_stream_add_point(info, start, stop, iwe, pbuf);
++
++				_rtw_memset(iwe, 0, sizeof(*iwe));
++				iwe->cmd = IWEVGENIE;
++				iwe->u.data.length = rsn_len;
++				start = iwe_stream_add_point(info, start, stop, iwe, rsn_ie);
++			}
++		}
++
++		rtw_mfree(pbuf, buf_size);
++	}
++	return start;
++}
++
++static inline char *iwe_stream_wps_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++	/* parsing WPS IE */
++	uint cnt = 0, total_ielen;
++	u8 *wpsie_ptr = NULL;
++	uint wps_ielen = 0;
++	u8 ie_offset = (pnetwork->network.Reserved[0] == 2 ? 0 : 12);
++
++	u8 *ie_ptr = pnetwork->network.IEs + ie_offset;
++	total_ielen = pnetwork->network.IELength - ie_offset;
++
++	if (pnetwork->network.Reserved[0] == 2) { /* Probe Request */
++		ie_ptr = pnetwork->network.IEs;
++		total_ielen = pnetwork->network.IELength;
++	} else { /* Beacon or Probe Respones */
++		ie_ptr = pnetwork->network.IEs + _FIXED_IE_LENGTH_;
++		total_ielen = pnetwork->network.IELength - _FIXED_IE_LENGTH_;
++	}
++	while (cnt < total_ielen) {
++		if (rtw_is_wps_ie(&ie_ptr[cnt], &wps_ielen) && (wps_ielen > 2)) {
++			wpsie_ptr = &ie_ptr[cnt];
++			iwe->cmd = IWEVGENIE;
++			iwe->u.data.length = (u16)wps_ielen;
++			start = iwe_stream_add_point(info, start, stop, iwe, wpsie_ptr);
++		}
++		cnt += ie_ptr[cnt + 1] + 2; /* goto next */
++	}
++	return start;
++}
++
++static inline char *iwe_stream_wapi_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++#ifdef CONFIG_WAPI_SUPPORT
++	char *p;
++
++	if (pnetwork->network.Reserved[0] != 2) { /* Probe Request */
++		sint out_len_wapi = 0;
++		/* here use static for stack size */
++		static u8 buf_wapi[MAX_WAPI_IE_LEN * 2] = {0};
++		static u8 wapi_ie[MAX_WAPI_IE_LEN] = {0};
++		u16 wapi_len = 0;
++		u16  i;
++
++		out_len_wapi = rtw_get_wapi_ie(pnetwork->network.IEs , pnetwork->network.IELength, wapi_ie, &wapi_len);
++
++		RTW_INFO("rtw_wx_get_scan: %s ", pnetwork->network.Ssid.Ssid);
++		RTW_INFO("rtw_wx_get_scan: ssid = %d ", wapi_len);
++
++
++		if (wapi_len > 0) {
++			p = buf_wapi;
++			/* _rtw_memset(buf_wapi, 0, MAX_WAPI_IE_LEN*2); */
++			p += sprintf(p, "wapi_ie=");
++			for (i = 0; i < wapi_len; i++)
++				p += sprintf(p, "%02x", wapi_ie[i]);
++
++			_rtw_memset(iwe, 0, sizeof(*iwe));
++			iwe->cmd = IWEVCUSTOM;
++			iwe->u.data.length = strlen(buf_wapi);
++			start = iwe_stream_add_point(info, start, stop, iwe, buf_wapi);
++
++			_rtw_memset(iwe, 0, sizeof(*iwe));
++			iwe->cmd = IWEVGENIE;
++			iwe->u.data.length = wapi_len;
++			start = iwe_stream_add_point(info, start, stop, iwe, wapi_ie);
++		}
++	}
++#endif/* #ifdef CONFIG_WAPI_SUPPORT */
++	return start;
++}
++
++static inline char   *iwe_stream_rssi_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++	u8 ss, sq;
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	/* Add quality statistics */
++	iwe->cmd = IWEVQUAL;
++	iwe->u.qual.updated = IW_QUAL_QUAL_UPDATED | IW_QUAL_LEVEL_UPDATED
++#if defined(CONFIG_SIGNAL_DISPLAY_DBM) && defined(CONFIG_BACKGROUND_NOISE_MONITOR)
++			      | IW_QUAL_NOISE_UPDATED
++#else
++			      | IW_QUAL_NOISE_INVALID
++#endif
++#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++			      | IW_QUAL_DBM
++#endif
++			      ;
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE &&
++	    is_same_network(&pmlmepriv->cur_network.network, &pnetwork->network, 0)) {
++		ss = padapter->recvpriv.signal_strength;
++		sq = padapter->recvpriv.signal_qual;
++	} else {
++		ss = pnetwork->network.PhyInfo.SignalStrength;
++		sq = pnetwork->network.PhyInfo.SignalQuality;
++	}
++
++
++#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++	iwe->u.qual.level = (u8) translate_percentage_to_dbm(ss); /* dbm */
++#else
++#ifdef CONFIG_SIGNAL_SCALE_MAPPING
++	iwe->u.qual.level = (u8)ss; /* % */
++#else
++	{
++		/* Do signal scale mapping when using percentage as the unit of signal strength, since the scale mapping is skipped in odm */
++
++		HAL_DATA_TYPE *pHal = GET_HAL_DATA(padapter);
++
++		iwe->u.qual.level = (u8)odm_SignalScaleMapping(&pHal->odmpriv, ss);
++	}
++#endif
++#endif
++
++	iwe->u.qual.qual = (u8)sq;   /* signal quality */
++
++#ifdef CONFIG_PLATFORM_ROCKCHIPS
++	iwe->u.qual.noise = -100; /* noise level suggest by zhf@rockchips */
++#else
++#if defined(CONFIG_SIGNAL_DISPLAY_DBM) && defined(CONFIG_BACKGROUND_NOISE_MONITOR)
++	{
++		s16 tmp_noise = 0;
++		rtw_hal_get_odm_var(padapter, HAL_ODM_NOISE_MONITOR, &(pnetwork->network.Configuration.DSConfig), &(tmp_noise));
++		iwe->u.qual.noise = tmp_noise ;
++	}
++#else
++	iwe->u.qual.noise = 0; /* noise level */
++#endif
++#endif /* CONFIG_PLATFORM_ROCKCHIPS */
++
++	/* RTW_INFO("iqual=%d, ilevel=%d, inoise=%d, iupdated=%d\n", iwe.u.qual.qual, iwe.u.qual.level , iwe.u.qual.noise, iwe.u.qual.updated); */
++
++	start = iwe_stream_add_event(info, start, stop, iwe, IW_EV_QUAL_LEN);
++	return start;
++}
++
++static inline char   *iwe_stream_net_rsv_process(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop, struct iw_event *iwe)
++{
++	u8 buf[32] = {0};
++	u8 *p, *pos;
++	int len;
++	p = buf;
++	pos = pnetwork->network.Reserved;
++
++	p += sprintf(p, "fm=%02X%02X", pos[1], pos[0]);
++	_rtw_memset(iwe, 0, sizeof(*iwe));
++	iwe->cmd = IWEVCUSTOM;
++	iwe->u.data.length = strlen(buf);
++	start = iwe_stream_add_point(info, start, stop, iwe, buf);
++	return start;
++}
++
++#if 1
++static char *translate_scan(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop)
++{
++	struct iw_event iwe;
++	u16 cap = 0;
++	_rtw_memset(&iwe, 0, sizeof(iwe));
++
++	if (_FALSE == search_p2p_wfd_ie(padapter, info, pnetwork, start, stop))
++		return start;
++
++	start = iwe_stream_mac_addr_proess(padapter, info, pnetwork, start, stop, &iwe);
++	start = iwe_stream_essid_proess(padapter, info, pnetwork, start, stop, &iwe);
++	start = iwe_stream_protocol_process(padapter, info, pnetwork, start, stop, &iwe);
++	if (pnetwork->network.Reserved[0] == 2) /* Probe Request */
++		cap = 0;
++	else {
++		_rtw_memcpy((u8 *)&cap, rtw_get_capability_from_ie(pnetwork->network.IEs), 2);
++		cap = le16_to_cpu(cap);
++	}
++
++	start = iwe_stream_mode_process(padapter, info, pnetwork, start, stop, &iwe, cap);
++	start = iwe_stream_chan_process(padapter, info, pnetwork, start, stop, &iwe);
++	start = iwe_stream_encryption_process(padapter, info, pnetwork, start, stop, &iwe, cap);
++	start = iwe_stream_rate_process(padapter, info, pnetwork, start, stop, &iwe);
++	start = iwe_stream_wpa_wpa2_process(padapter, info, pnetwork, start, stop, &iwe);
++	start = iwe_stream_wps_process(padapter, info, pnetwork, start, stop, &iwe);
++	start = iwe_stream_wapi_process(padapter, info, pnetwork, start, stop, &iwe);
++	start = iwe_stream_rssi_process(padapter, info, pnetwork, start, stop, &iwe);
++	start = iwe_stream_net_rsv_process(padapter, info, pnetwork, start, stop, &iwe);
++
++	return start;
++}
++#else
++static char *translate_scan(_adapter *padapter,
++		struct iw_request_info *info, struct wlan_network *pnetwork,
++		char *start, char *stop)
++{
++	struct iw_event iwe;
++	u16 cap;
++	u32 ht_ielen = 0, vht_ielen = 0;
++	char custom[MAX_CUSTOM_LEN];
++	char *p;
++	u16 max_rate = 0, rate, ht_cap = _FALSE, vht_cap = _FALSE;
++	u32 i = 0;
++	char	*current_val;
++	long rssi;
++	u8 bw_40MHz = 0, short_GI = 0, bw_160MHz = 0, vht_highest_rate = 0;
++	u16 mcs_rate = 0, vht_data_rate = 0;
++	u8 ie_offset = (pnetwork->network.Reserved[0] == 2 ? 0 : 12);
++	struct registry_priv *pregpriv = &padapter->registrypriv;
++
++	if (_FALSE == search_p2p_wfd_ie(padapter, info, pnetwork, start, stop))
++		return start;
++
++	/*  AP MAC address */
++	iwe.cmd = SIOCGIWAP;
++	iwe.u.ap_addr.sa_family = ARPHRD_ETHER;
++
++	_rtw_memcpy(iwe.u.ap_addr.sa_data, pnetwork->network.MacAddress, ETH_ALEN);
++	start = iwe_stream_add_event(info, start, stop, &iwe, IW_EV_ADDR_LEN);
++
++	/* Add the ESSID */
++	iwe.cmd = SIOCGIWESSID;
++	iwe.u.data.flags = 1;
++	iwe.u.data.length = min((u16)pnetwork->network.Ssid.SsidLength, (u16)32);
++	start = iwe_stream_add_point(info, start, stop, &iwe, pnetwork->network.Ssid.Ssid);
++
++	/* parsing HT_CAP_IE */
++	if (pnetwork->network.Reserved[0] == 2) /* Probe Request */
++		p = rtw_get_ie(&pnetwork->network.IEs[0], _HT_CAPABILITY_IE_, &ht_ielen, pnetwork->network.IELength);
++	else
++		p = rtw_get_ie(&pnetwork->network.IEs[12], _HT_CAPABILITY_IE_, &ht_ielen, pnetwork->network.IELength - 12);
++	if (p && ht_ielen > 0) {
++		struct rtw_ieee80211_ht_cap *pht_capie;
++		ht_cap = _TRUE;
++		pht_capie = (struct rtw_ieee80211_ht_cap *)(p + 2);
++		_rtw_memcpy(&mcs_rate , pht_capie->supp_mcs_set, 2);
++		bw_40MHz = (pht_capie->cap_info & IEEE80211_HT_CAP_SUP_WIDTH) ? 1 : 0;
++		short_GI = (pht_capie->cap_info & (IEEE80211_HT_CAP_SGI_20 | IEEE80211_HT_CAP_SGI_40)) ? 1 : 0;
++	}
++
++#ifdef CONFIG_80211AC_VHT
++	/* parsing VHT_CAP_IE */
++	p = rtw_get_ie(&pnetwork->network.IEs[ie_offset], EID_VHTCapability, &vht_ielen, pnetwork->network.IELength - ie_offset);
++	if (p && vht_ielen > 0) {
++		u8	mcs_map[2];
++
++		vht_cap = _TRUE;
++		bw_160MHz = GET_VHT_CAPABILITY_ELE_CHL_WIDTH(p + 2);
++		if (bw_160MHz)
++			short_GI = GET_VHT_CAPABILITY_ELE_SHORT_GI160M(p + 2);
++		else
++			short_GI = GET_VHT_CAPABILITY_ELE_SHORT_GI80M(p + 2);
++
++		_rtw_memcpy(mcs_map, GET_VHT_CAPABILITY_ELE_TX_MCS(p + 2), 2);
++
++		vht_highest_rate = rtw_get_vht_highest_rate(mcs_map);
++		vht_data_rate = rtw_vht_mcs_to_data_rate(CHANNEL_WIDTH_80, short_GI, vht_highest_rate);
++	}
++#endif
++
++	/* Add the protocol name */
++	iwe.cmd = SIOCGIWNAME;
++	if ((rtw_is_cckratesonly_included((u8 *)&pnetwork->network.SupportedRates)) == _TRUE) {
++		if (ht_cap == _TRUE)
++			snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11bn");
++		else
++			snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11b");
++	} else if ((rtw_is_cckrates_included((u8 *)&pnetwork->network.SupportedRates)) == _TRUE) {
++		if (ht_cap == _TRUE)
++			snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11bgn");
++		else
++			snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11bg");
++	} else {
++		if (pnetwork->network.Configuration.DSConfig > 14) {
++			if (vht_cap == _TRUE)
++				snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11AC");
++			else if (ht_cap == _TRUE)
++				snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11an");
++			else
++				snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11a");
++		} else {
++			if (ht_cap == _TRUE)
++				snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11gn");
++			else
++				snprintf(iwe.u.name, IFNAMSIZ, "IEEE 802.11g");
++		}
++	}
++
++	start = iwe_stream_add_event(info, start, stop, &iwe, IW_EV_CHAR_LEN);
++
++	/* Add mode */
++	if (pnetwork->network.Reserved[0] == 2) /* Probe Request */
++		cap = 0;
++	else {
++		iwe.cmd = SIOCGIWMODE;
++		_rtw_memcpy((u8 *)&cap, rtw_get_capability_from_ie(pnetwork->network.IEs), 2);
++		cap = le16_to_cpu(cap);
++	}
++
++	if (cap & (WLAN_CAPABILITY_IBSS | WLAN_CAPABILITY_BSS)) {
++		if (cap & WLAN_CAPABILITY_BSS)
++			iwe.u.mode = IW_MODE_MASTER;
++		else
++			iwe.u.mode = IW_MODE_ADHOC;
++
++		start = iwe_stream_add_event(info, start, stop, &iwe, IW_EV_UINT_LEN);
++	}
++
++	if (pnetwork->network.Configuration.DSConfig < 1 /*|| pnetwork->network.Configuration.DSConfig>14*/)
++		pnetwork->network.Configuration.DSConfig = 1;
++
++	/* Add frequency/channel */
++	iwe.cmd = SIOCGIWFREQ;
++	iwe.u.freq.m = rtw_ch2freq(pnetwork->network.Configuration.DSConfig) * 100000;
++	iwe.u.freq.e = 1;
++	iwe.u.freq.i = pnetwork->network.Configuration.DSConfig;
++	start = iwe_stream_add_event(info, start, stop, &iwe, IW_EV_FREQ_LEN);
++
++	/* Add encryption capability */
++	iwe.cmd = SIOCGIWENCODE;
++	if (cap & WLAN_CAPABILITY_PRIVACY)
++		iwe.u.data.flags = IW_ENCODE_ENABLED | IW_ENCODE_NOKEY;
++	else
++		iwe.u.data.flags = IW_ENCODE_DISABLED;
++	iwe.u.data.length = 0;
++	start = iwe_stream_add_point(info, start, stop, &iwe, pnetwork->network.Ssid.Ssid);
++
++	/*Add basic and extended rates */
++	max_rate = 0;
++	p = custom;
++	p += snprintf(p, MAX_CUSTOM_LEN - (p - custom), " Rates (Mb/s): ");
++	while (pnetwork->network.SupportedRates[i] != 0) {
++		rate = pnetwork->network.SupportedRates[i] & 0x7F;
++		if (rate > max_rate)
++			max_rate = rate;
++		p += snprintf(p, MAX_CUSTOM_LEN - (p - custom),
++			      "%d%s ", rate >> 1, (rate & 1) ? ".5" : "");
++		i++;
++	}
++
++	if (vht_cap == _TRUE)
++		max_rate = vht_data_rate;
++	else if (ht_cap == _TRUE) {
++		if (mcs_rate & 0x8000) /* MCS15 */
++			max_rate = (bw_40MHz) ? ((short_GI) ? 300 : 270) : ((short_GI) ? 144 : 130);
++
++		else if (mcs_rate & 0x0080) /* MCS7 */
++			max_rate = (bw_40MHz) ? ((short_GI) ? 150 : 135) : ((short_GI) ? 72 : 65);
++		else { /* default MCS7 */
++			/* RTW_INFO("wx_get_scan, mcs_rate_bitmap=0x%x\n", mcs_rate); */
++			max_rate = (bw_40MHz) ? ((short_GI) ? 150 : 135) : ((short_GI) ? 72 : 65);
++		}
++
++		max_rate = max_rate * 2; /* Mbps/2;		 */
++	}
++
++	iwe.cmd = SIOCGIWRATE;
++	iwe.u.bitrate.fixed = iwe.u.bitrate.disabled = 0;
++	iwe.u.bitrate.value = max_rate * 500000;
++	start = iwe_stream_add_event(info, start, stop, &iwe, IW_EV_PARAM_LEN);
++
++	/* parsing WPA/WPA2 IE */
++	if (pnetwork->network.Reserved[0] != 2) { /* Probe Request */
++		u8 buf[MAX_WPA_IE_LEN * 2];
++		u8 wpa_ie[255], rsn_ie[255];
++		u16 wpa_len = 0, rsn_len = 0;
++		u8 *p;
++		sint out_len = 0;
++		out_len = rtw_get_sec_ie(pnetwork->network.IEs , pnetwork->network.IELength, rsn_ie, &rsn_len, wpa_ie, &wpa_len);
++
++		if (wpa_len > 0) {
++			p = buf;
++			_rtw_memset(buf, 0, MAX_WPA_IE_LEN * 2);
++			p += sprintf(p, "wpa_ie=");
++			for (i = 0; i < wpa_len; i++)
++				p += sprintf(p, "%02x", wpa_ie[i]);
++
++			if (wpa_len > 100) {
++				printk("-----------------Len %d----------------\n", wpa_len);
++				for (i = 0; i < wpa_len; i++)
++					printk("%02x ", wpa_ie[i]);
++				printk("\n");
++				printk("-----------------Len %d----------------\n", wpa_len);
++			}
++
++			_rtw_memset(&iwe, 0, sizeof(iwe));
++			iwe.cmd = IWEVCUSTOM;
++			iwe.u.data.length = strlen(buf);
++			start = iwe_stream_add_point(info, start, stop, &iwe, buf);
++
++			_rtw_memset(&iwe, 0, sizeof(iwe));
++			iwe.cmd = IWEVGENIE;
++			iwe.u.data.length = wpa_len;
++			start = iwe_stream_add_point(info, start, stop, &iwe, wpa_ie);
++		}
++		if (rsn_len > 0) {
++			p = buf;
++			_rtw_memset(buf, 0, MAX_WPA_IE_LEN * 2);
++			p += sprintf(p, "rsn_ie=");
++			for (i = 0; i < rsn_len; i++)
++				p += sprintf(p, "%02x", rsn_ie[i]);
++			_rtw_memset(&iwe, 0, sizeof(iwe));
++			iwe.cmd = IWEVCUSTOM;
++			iwe.u.data.length = strlen(buf);
++			start = iwe_stream_add_point(info, start, stop, &iwe, buf);
++
++			_rtw_memset(&iwe, 0, sizeof(iwe));
++			iwe.cmd = IWEVGENIE;
++			iwe.u.data.length = rsn_len;
++			start = iwe_stream_add_point(info, start, stop, &iwe, rsn_ie);
++		}
++	}
++
++	{ /* parsing WPS IE */
++		uint cnt = 0, total_ielen;
++		u8 *wpsie_ptr = NULL;
++		uint wps_ielen = 0;
++
++		u8 *ie_ptr = pnetwork->network.IEs + ie_offset;
++		total_ielen = pnetwork->network.IELength - ie_offset;
++
++		if (pnetwork->network.Reserved[0] == 2) { /* Probe Request */
++			ie_ptr = pnetwork->network.IEs;
++			total_ielen = pnetwork->network.IELength;
++		} else { /* Beacon or Probe Respones */
++			ie_ptr = pnetwork->network.IEs + _FIXED_IE_LENGTH_;
++			total_ielen = pnetwork->network.IELength - _FIXED_IE_LENGTH_;
++		}
++
++		while (cnt < total_ielen) {
++			if (rtw_is_wps_ie(&ie_ptr[cnt], &wps_ielen) && (wps_ielen > 2)) {
++				wpsie_ptr = &ie_ptr[cnt];
++				iwe.cmd = IWEVGENIE;
++				iwe.u.data.length = (u16)wps_ielen;
++				start = iwe_stream_add_point(info, start, stop, &iwe, wpsie_ptr);
++			}
++			cnt += ie_ptr[cnt + 1] + 2; /* goto next */
++		}
++	}
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (pnetwork->network.Reserved[0] != 2) { /* Probe Request */
++		sint out_len_wapi = 0;
++		/* here use static for stack size */
++		static u8 buf_wapi[MAX_WAPI_IE_LEN * 2];
++		static u8 wapi_ie[MAX_WAPI_IE_LEN];
++		u16 wapi_len = 0;
++		u16  i;
++
++		_rtw_memset(buf_wapi, 0, MAX_WAPI_IE_LEN);
++		_rtw_memset(wapi_ie, 0, MAX_WAPI_IE_LEN);
++
++		out_len_wapi = rtw_get_wapi_ie(pnetwork->network.IEs , pnetwork->network.IELength, wapi_ie, &wapi_len);
++
++		RTW_INFO("rtw_wx_get_scan: %s ", pnetwork->network.Ssid.Ssid);
++		RTW_INFO("rtw_wx_get_scan: ssid = %d ", wapi_len);
++
++
++		if (wapi_len > 0) {
++			p = buf_wapi;
++			_rtw_memset(buf_wapi, 0, MAX_WAPI_IE_LEN * 2);
++			p += sprintf(p, "wapi_ie=");
++			for (i = 0; i < wapi_len; i++)
++				p += sprintf(p, "%02x", wapi_ie[i]);
++
++			_rtw_memset(&iwe, 0, sizeof(iwe));
++			iwe.cmd = IWEVCUSTOM;
++			iwe.u.data.length = strlen(buf_wapi);
++			start = iwe_stream_add_point(info, start, stop, &iwe, buf_wapi);
++
++			_rtw_memset(&iwe, 0, sizeof(iwe));
++			iwe.cmd = IWEVGENIE;
++			iwe.u.data.length = wapi_len;
++			start = iwe_stream_add_point(info, start, stop, &iwe, wapi_ie);
++		}
++	}
++#endif
++
++	{
++		struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++		u8 ss, sq;
++
++		/* Add quality statistics */
++		iwe.cmd = IWEVQUAL;
++		iwe.u.qual.updated = IW_QUAL_QUAL_UPDATED | IW_QUAL_LEVEL_UPDATED
++#if defined(CONFIG_SIGNAL_DISPLAY_DBM) && defined(CONFIG_BACKGROUND_NOISE_MONITOR)
++				     | IW_QUAL_NOISE_UPDATED
++#else
++				     | IW_QUAL_NOISE_INVALID
++#endif
++#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++				     | IW_QUAL_DBM
++#endif
++				     ;
++
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE &&
++		    is_same_network(&pmlmepriv->cur_network.network, &pnetwork->network, 0)) {
++			ss = padapter->recvpriv.signal_strength;
++			sq = padapter->recvpriv.signal_qual;
++		} else {
++			ss = pnetwork->network.PhyInfo.SignalStrength;
++			sq = pnetwork->network.PhyInfo.SignalQuality;
++		}
++
++
++#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++		iwe.u.qual.level = (u8) translate_percentage_to_dbm(ss); /* dbm */
++#else
++#ifdef CONFIG_SIGNAL_SCALE_MAPPING
++		iwe.u.qual.level = (u8)ss; /* % */
++#else
++		{
++			/* Do signal scale mapping when using percentage as the unit of signal strength, since the scale mapping is skipped in odm */
++
++			HAL_DATA_TYPE *pHal = GET_HAL_DATA(padapter);
++
++			iwe.u.qual.level = (u8)odm_SignalScaleMapping(&pHal->odmpriv, ss);
++		}
++#endif
++#endif
++
++		iwe.u.qual.qual = (u8)sq;   /* signal quality */
++
++#ifdef CONFIG_PLATFORM_ROCKCHIPS
++		iwe.u.qual.noise = -100; /* noise level suggest by zhf@rockchips */
++#else
++#if defined(CONFIG_SIGNAL_DISPLAY_DBM) && defined(CONFIG_BACKGROUND_NOISE_MONITOR)
++		{
++			s16 tmp_noise = 0;
++			rtw_hal_get_odm_var(padapter, HAL_ODM_NOISE_MONITOR, &(pnetwork->network.Configuration.DSConfig), &(tmp_noise));
++			iwe.u.qual.noise = tmp_noise ;
++		}
++#else
++		iwe.u.qual.noise = 0; /* noise level */
++#endif
++#endif /* CONFIG_PLATFORM_ROCKCHIPS */
++
++		/* RTW_INFO("iqual=%d, ilevel=%d, inoise=%d, iupdated=%d\n", iwe.u.qual.qual, iwe.u.qual.level , iwe.u.qual.noise, iwe.u.qual.updated); */
++
++		start = iwe_stream_add_event(info, start, stop, &iwe, IW_EV_QUAL_LEN);
++	}
++
++	{
++		u8 buf[MAX_WPA_IE_LEN];
++		u8 *p, *pos;
++		int len;
++		p = buf;
++		pos = pnetwork->network.Reserved;
++		_rtw_memset(buf, 0, MAX_WPA_IE_LEN);
++		p += sprintf(p, "fm=%02X%02X", pos[1], pos[0]);
++		_rtw_memset(&iwe, 0, sizeof(iwe));
++		iwe.cmd = IWEVCUSTOM;
++		iwe.u.data.length = strlen(buf);
++		start = iwe_stream_add_point(info, start, stop, &iwe, buf);
++	}
++
++	return start;
++}
++#endif
++
++static int wpa_set_auth_algs(struct net_device *dev, u32 value)
++{
++	_adapter *padapter = (_adapter *) rtw_netdev_priv(dev);
++	int ret = 0;
++
++	if ((value & AUTH_ALG_SHARED_KEY) && (value & AUTH_ALG_OPEN_SYSTEM)) {
++		RTW_INFO("wpa_set_auth_algs, AUTH_ALG_SHARED_KEY and  AUTH_ALG_OPEN_SYSTEM [value:0x%x]\n", value);
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++		padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeAutoSwitch;
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++	} else if (value & AUTH_ALG_SHARED_KEY) {
++		RTW_INFO("wpa_set_auth_algs, AUTH_ALG_SHARED_KEY  [value:0x%x]\n", value);
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++
++#ifdef CONFIG_PLATFORM_MT53XX
++		padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeAutoSwitch;
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++#else
++		padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeShared;
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Shared;
++#endif
++	} else if (value & AUTH_ALG_OPEN_SYSTEM) {
++		RTW_INFO("wpa_set_auth_algs, AUTH_ALG_OPEN_SYSTEM\n");
++		/* padapter->securitypriv.ndisencryptstatus = Ndis802_11EncryptionDisabled; */
++		if (padapter->securitypriv.ndisauthtype < Ndis802_11AuthModeWPAPSK) {
++#ifdef CONFIG_PLATFORM_MT53XX
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeAutoSwitch;
++			padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++#else
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeOpen;
++			padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Open;
++#endif
++		}
++
++	} else if (value & AUTH_ALG_LEAP)
++		RTW_INFO("wpa_set_auth_algs, AUTH_ALG_LEAP\n");
++	else {
++		RTW_INFO("wpa_set_auth_algs, error!\n");
++		ret = -EINVAL;
++	}
++
++	return ret;
++
++}
++
++static int wpa_set_encryption(struct net_device *dev, struct ieee_param *param, u32 param_len)
++{
++	int ret = 0;
++	u32 wep_key_idx, wep_key_len, wep_total_len;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++#endif /* CONFIG_P2P */
++
++
++	param->u.crypt.err = 0;
++	param->u.crypt.alg[IEEE_CRYPT_ALG_NAME_LEN - 1] = '\0';
++
++	if (param_len < (u32)((u8 *) param->u.crypt.key - (u8 *) param) + param->u.crypt.key_len) {
++		ret =  -EINVAL;
++		goto exit;
++	}
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff) {
++
++		if (param->u.crypt.idx >= WEP_KEYS
++#ifdef CONFIG_IEEE80211W
++		    && param->u.crypt.idx > BIP_MAX_KEYID
++#endif /* CONFIG_IEEE80211W */
++		   ) {
++			ret = -EINVAL;
++			goto exit;
++		}
++	} else {
++#ifdef CONFIG_WAPI_SUPPORT
++		if (strcmp(param->u.crypt.alg, "SMS4"))
++#endif
++		{
++			ret = -EINVAL;
++			goto exit;
++		}
++	}
++
++	if (strcmp(param->u.crypt.alg, "WEP") == 0) {
++		RTW_INFO("wpa_set_encryption, crypt.alg = WEP\n");
++
++		wep_key_idx = param->u.crypt.idx;
++		wep_key_len = param->u.crypt.key_len;
++
++		if ((wep_key_idx > WEP_KEYS) || (wep_key_len <= 0)) {
++			ret = -EINVAL;
++			goto exit;
++		}
++
++		if (psecuritypriv->bWepDefaultKeyIdxSet == 0) {
++			/* wep default key has not been set, so use this key index as default key.*/
++
++			wep_key_len = wep_key_len <= 5 ? 5 : 13;
++
++			psecuritypriv->ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			psecuritypriv->dot11PrivacyAlgrthm = _WEP40_;
++			psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++
++			if (wep_key_len == 13) {
++				psecuritypriv->dot11PrivacyAlgrthm = _WEP104_;
++				psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++			}
++
++			psecuritypriv->dot11PrivacyKeyIndex = wep_key_idx;
++		}
++
++		_rtw_memcpy(&(psecuritypriv->dot11DefKey[wep_key_idx].skey[0]), param->u.crypt.key, wep_key_len);
++
++		psecuritypriv->dot11DefKeylen[wep_key_idx] = wep_key_len;
++
++		psecuritypriv->key_mask |= BIT(wep_key_idx);
++
++		goto exit;
++	}
++
++	if (padapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X) { /* 802_1x */
++		struct sta_info *psta, *pbcmc_sta;
++		struct sta_priv *pstapriv = &padapter->stapriv;
++
++		if (check_fwstate(pmlmepriv, WIFI_STATION_STATE | WIFI_MP_STATE) == _TRUE) { /* sta mode */
++			psta = rtw_get_stainfo(pstapriv, get_bssid(pmlmepriv));
++			if (psta == NULL) {
++				/* DEBUG_ERR( ("Set wpa_set_encryption: Obtain Sta_info fail\n")); */
++			} else {
++				/* Jeff: don't disable ieee8021x_blocked while clearing key */
++				if (strcmp(param->u.crypt.alg, "none") != 0)
++					psta->ieee8021x_blocked = _FALSE;
++
++				if ((padapter->securitypriv.ndisencryptstatus == Ndis802_11Encryption2Enabled) ||
++				    (padapter->securitypriv.ndisencryptstatus ==  Ndis802_11Encryption3Enabled))
++					psta->dot118021XPrivacy = padapter->securitypriv.dot11PrivacyAlgrthm;
++
++				if (param->u.crypt.set_tx == 1) { /* pairwise key */
++					_rtw_memcpy(psta->dot118021x_UncstKey.skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++					if (strcmp(param->u.crypt.alg, "TKIP") == 0) { /* set mic key */
++						/* DEBUG_ERR(("\nset key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len)); */
++						_rtw_memcpy(psta->dot11tkiptxmickey.skey, &(param->u.crypt.key[16]), 8);
++						_rtw_memcpy(psta->dot11tkiprxmickey.skey, &(param->u.crypt.key[24]), 8);
++
++						padapter->securitypriv.busetkipkey = _FALSE;
++						/* _set_timer(&padapter->securitypriv.tkip_timer, 50);						 */
++					}
++
++					/* DEBUG_ERR((" param->u.crypt.key_len=%d\n",param->u.crypt.key_len)); */
++					RTW_INFO(" ~~~~set sta key:unicastkey\n");
++
++					rtw_setstakey_cmd(padapter, psta, UNICAST_KEY, _TRUE);
++
++					psta->bpairwise_key_installed = _TRUE;
++
++				} else { /* group key */
++					if (strcmp(param->u.crypt.alg, "TKIP") == 0 || strcmp(param->u.crypt.alg, "CCMP") == 0) {
++						_rtw_memcpy(padapter->securitypriv.dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key,
++							(param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++						/* only TKIP group key need to install this */
++						if (param->u.crypt.key_len > 16) {
++							_rtw_memcpy(padapter->securitypriv.dot118021XGrptxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[16]), 8);
++							_rtw_memcpy(padapter->securitypriv.dot118021XGrprxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[24]), 8);
++						}
++						padapter->securitypriv.binstallGrpkey = _TRUE;
++						/* DEBUG_ERR((" param->u.crypt.key_len=%d\n", param->u.crypt.key_len)); */
++						RTW_INFO(" ~~~~set sta key:groupkey\n");
++
++						padapter->securitypriv.dot118021XGrpKeyid = param->u.crypt.idx;
++
++						rtw_set_key(padapter, &padapter->securitypriv, param->u.crypt.idx, 1, _TRUE);
++					}
++#ifdef CONFIG_IEEE80211W
++					else if (strcmp(param->u.crypt.alg, "BIP") == 0) {
++						int no;
++						/* printk("BIP key_len=%d , index=%d @@@@@@@@@@@@@@@@@@\n", param->u.crypt.key_len, param->u.crypt.idx); */
++						/* save the IGTK key, length 16 bytes */
++						_rtw_memcpy(padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey,  param->u.crypt.key,
++							(param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++						/*printk("IGTK key below:\n");
++						for(no=0;no<16;no++)
++							printk(" %02x ", padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey[no]);
++						printk("\n");*/
++						padapter->securitypriv.dot11wBIPKeyid = param->u.crypt.idx;
++						padapter->securitypriv.binstallBIPkey = _TRUE;
++						RTW_INFO(" ~~~~set sta key:IGKT\n");
++					}
++#endif /* CONFIG_IEEE80211W */
++
++#ifdef CONFIG_P2P
++					if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_PROVISIONING_ING))
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_PROVISIONING_DONE);
++#endif /* CONFIG_P2P */
++
++				}
++			}
++
++			pbcmc_sta = rtw_get_bcmc_stainfo(padapter);
++			if (pbcmc_sta == NULL) {
++				/* DEBUG_ERR( ("Set OID_802_11_ADD_KEY: bcmc stainfo is null\n")); */
++			} else {
++				/* Jeff: don't disable ieee8021x_blocked while clearing key */
++				if (strcmp(param->u.crypt.alg, "none") != 0)
++					pbcmc_sta->ieee8021x_blocked = _FALSE;
++
++				if ((padapter->securitypriv.ndisencryptstatus == Ndis802_11Encryption2Enabled) ||
++				    (padapter->securitypriv.ndisencryptstatus ==  Ndis802_11Encryption3Enabled))
++					pbcmc_sta->dot118021XPrivacy = padapter->securitypriv.dot11PrivacyAlgrthm;
++			}
++		} else if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE)) { /* adhoc mode */
++		}
++	}
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (strcmp(param->u.crypt.alg, "SMS4") == 0) {
++		PRT_WAPI_T			pWapiInfo = &padapter->wapiInfo;
++		PRT_WAPI_STA_INFO	pWapiSta;
++		u8					WapiASUEPNInitialValueSrc[16] = {0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++		u8					WapiAEPNInitialValueSrc[16] = {0x37, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++		u8					WapiAEMultiCastPNInitialValueSrc[16] = {0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C, 0x36, 0x5C} ;
++
++		if (param->u.crypt.set_tx == 1) {
++			list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++				if (_rtw_memcmp(pWapiSta->PeerMacAddr, param->sta_addr, 6)) {
++					_rtw_memcpy(pWapiSta->lastTxUnicastPN, WapiASUEPNInitialValueSrc, 16);
++
++					pWapiSta->wapiUsk.bSet = true;
++					_rtw_memcpy(pWapiSta->wapiUsk.dataKey, param->u.crypt.key, 16);
++					_rtw_memcpy(pWapiSta->wapiUsk.micKey, param->u.crypt.key + 16, 16);
++					pWapiSta->wapiUsk.keyId = param->u.crypt.idx ;
++					pWapiSta->wapiUsk.bTxEnable = true;
++
++					_rtw_memcpy(pWapiSta->lastRxUnicastPNBEQueue, WapiAEPNInitialValueSrc, 16);
++					_rtw_memcpy(pWapiSta->lastRxUnicastPNBKQueue, WapiAEPNInitialValueSrc, 16);
++					_rtw_memcpy(pWapiSta->lastRxUnicastPNVIQueue, WapiAEPNInitialValueSrc, 16);
++					_rtw_memcpy(pWapiSta->lastRxUnicastPNVOQueue, WapiAEPNInitialValueSrc, 16);
++					_rtw_memcpy(pWapiSta->lastRxUnicastPN, WapiAEPNInitialValueSrc, 16);
++					pWapiSta->wapiUskUpdate.bTxEnable = false;
++					pWapiSta->wapiUskUpdate.bSet = false;
++
++					if (psecuritypriv->sw_encrypt == false || psecuritypriv->sw_decrypt == false) {
++						/* set unicast key for ASUE */
++						rtw_wapi_set_key(padapter, &pWapiSta->wapiUsk, pWapiSta, false, false);
++					}
++				}
++			}
++		} else {
++			list_for_each_entry(pWapiSta, &pWapiInfo->wapiSTAUsedList, list) {
++				if (_rtw_memcmp(pWapiSta->PeerMacAddr, get_bssid(pmlmepriv), 6)) {
++					pWapiSta->wapiMsk.bSet = true;
++					_rtw_memcpy(pWapiSta->wapiMsk.dataKey, param->u.crypt.key, 16);
++					_rtw_memcpy(pWapiSta->wapiMsk.micKey, param->u.crypt.key + 16, 16);
++					pWapiSta->wapiMsk.keyId = param->u.crypt.idx ;
++					pWapiSta->wapiMsk.bTxEnable = false;
++					if (!pWapiSta->bSetkeyOk)
++						pWapiSta->bSetkeyOk = true;
++					pWapiSta->bAuthenticateInProgress = false;
++
++					_rtw_memcpy(pWapiSta->lastRxMulticastPN, WapiAEMultiCastPNInitialValueSrc, 16);
++
++					if (psecuritypriv->sw_decrypt == false) {
++						/* set rx broadcast key for ASUE */
++						rtw_wapi_set_key(padapter, &pWapiSta->wapiMsk, pWapiSta, true, false);
++					}
++				}
++
++			}
++		}
++	}
++#endif
++
++exit:
++
++
++	return ret;
++}
++
++static int rtw_set_wpa_ie(_adapter *padapter, char *pie, unsigned short ielen)
++{
++	u8 *buf = NULL, *pos = NULL;
++	u32 left;
++	int group_cipher = 0, pairwise_cipher = 0;
++	int ret = 0;
++	u8 null_addr[] = {0, 0, 0, 0, 0, 0};
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++#endif /* CONFIG_P2P */
++
++	if ((ielen > MAX_WPA_IE_LEN) || (pie == NULL)) {
++		_clr_fwstate_(&padapter->mlmepriv, WIFI_UNDER_WPS);
++		if (pie == NULL)
++			return ret;
++		else
++			return -EINVAL;
++	}
++
++	if (ielen) {
++		buf = rtw_zmalloc(ielen);
++		if (buf == NULL) {
++			ret =  -ENOMEM;
++			goto exit;
++		}
++
++		_rtw_memcpy(buf, pie , ielen);
++
++		/* dump */
++		{
++			int i;
++			RTW_INFO("\n wpa_ie(length:%d):\n", ielen);
++			for (i = 0; i < ielen; i = i + 8)
++				RTW_INFO("0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x\n", buf[i], buf[i + 1], buf[i + 2], buf[i + 3], buf[i + 4], buf[i + 5], buf[i + 6], buf[i + 7]);
++		}
++
++		pos = buf;
++		if (ielen < RSN_HEADER_LEN) {
++			ret  = -1;
++			goto exit;
++		}
++
++#if 0
++		pos += RSN_HEADER_LEN;
++		left  = ielen - RSN_HEADER_LEN;
++
++		if (left >= RSN_SELECTOR_LEN) {
++			pos += RSN_SELECTOR_LEN;
++			left -= RSN_SELECTOR_LEN;
++		} else if (left > 0) {
++			ret = -1;
++			goto exit;
++		}
++#endif
++
++		if (rtw_parse_wpa_ie(buf, ielen, &group_cipher, &pairwise_cipher, NULL) == _SUCCESS) {
++			padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeWPAPSK;
++			_rtw_memcpy(padapter->securitypriv.supplicant_ie, &buf[0], ielen);
++		}
++
++		if (rtw_parse_wpa2_ie(buf, ielen, &group_cipher, &pairwise_cipher, NULL) == _SUCCESS) {
++			padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_8021X;
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeWPA2PSK;
++			_rtw_memcpy(padapter->securitypriv.supplicant_ie, &buf[0], ielen);
++		}
++
++		if (group_cipher == 0)
++			group_cipher = WPA_CIPHER_NONE;
++		if (pairwise_cipher == 0)
++			pairwise_cipher = WPA_CIPHER_NONE;
++
++		switch (group_cipher) {
++		case WPA_CIPHER_NONE:
++			padapter->securitypriv.dot118021XGrpPrivacy = _NO_PRIVACY_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11EncryptionDisabled;
++			break;
++		case WPA_CIPHER_WEP40:
++			padapter->securitypriv.dot118021XGrpPrivacy = _WEP40_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			break;
++		case WPA_CIPHER_TKIP:
++			padapter->securitypriv.dot118021XGrpPrivacy = _TKIP_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption2Enabled;
++			break;
++		case WPA_CIPHER_CCMP:
++			padapter->securitypriv.dot118021XGrpPrivacy = _AES_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption3Enabled;
++			break;
++		case WPA_CIPHER_WEP104:
++			padapter->securitypriv.dot118021XGrpPrivacy = _WEP104_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			break;
++		}
++
++		switch (pairwise_cipher) {
++		case WPA_CIPHER_NONE:
++			padapter->securitypriv.dot11PrivacyAlgrthm = _NO_PRIVACY_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11EncryptionDisabled;
++			break;
++		case WPA_CIPHER_WEP40:
++			padapter->securitypriv.dot11PrivacyAlgrthm = _WEP40_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			break;
++		case WPA_CIPHER_TKIP:
++			padapter->securitypriv.dot11PrivacyAlgrthm = _TKIP_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption2Enabled;
++			break;
++		case WPA_CIPHER_CCMP:
++			padapter->securitypriv.dot11PrivacyAlgrthm = _AES_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption3Enabled;
++			break;
++		case WPA_CIPHER_WEP104:
++			padapter->securitypriv.dot11PrivacyAlgrthm = _WEP104_;
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			break;
++		}
++
++		_clr_fwstate_(&padapter->mlmepriv, WIFI_UNDER_WPS);
++		{/* set wps_ie	 */
++			u16 cnt = 0;
++			u8 eid, wps_oui[4] = {0x0, 0x50, 0xf2, 0x04};
++
++			while (cnt < ielen) {
++				eid = buf[cnt];
++
++				if ((eid == _VENDOR_SPECIFIC_IE_) && (_rtw_memcmp(&buf[cnt + 2], wps_oui, 4) == _TRUE)) {
++					RTW_INFO("SET WPS_IE\n");
++
++					padapter->securitypriv.wps_ie_len = ((buf[cnt + 1] + 2) < MAX_WPS_IE_LEN) ? (buf[cnt + 1] + 2) : MAX_WPS_IE_LEN;
++
++					_rtw_memcpy(padapter->securitypriv.wps_ie, &buf[cnt], padapter->securitypriv.wps_ie_len);
++
++					set_fwstate(&padapter->mlmepriv, WIFI_UNDER_WPS);
++
++#ifdef CONFIG_P2P
++					if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_GONEGO_OK))
++						rtw_p2p_set_state(pwdinfo, P2P_STATE_PROVISIONING_ING);
++#endif /* CONFIG_P2P */
++					cnt += buf[cnt + 1] + 2;
++
++					break;
++				} else {
++					cnt += buf[cnt + 1] + 2; /* goto next	 */
++				}
++			}
++		}
++	}
++
++	/* TKIP and AES disallow multicast packets until installing group key */
++	if (padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_
++	    || padapter->securitypriv.dot11PrivacyAlgrthm == _TKIP_WTMIC_
++	    || padapter->securitypriv.dot11PrivacyAlgrthm == _AES_)
++		/* WPS open need to enable multicast
++		 * || check_fwstate(&padapter->mlmepriv, WIFI_UNDER_WPS) == _TRUE) */
++		rtw_hal_set_hwreg(padapter, HW_VAR_OFF_RCR_AM, null_addr);
++
++
++exit:
++
++	if (buf)
++		rtw_mfree(buf, ielen);
++
++	return ret;
++}
++
++static int rtw_wx_get_name(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u16 cap;
++	u32 ht_ielen = 0;
++	char *p;
++	u8 ht_cap = _FALSE, vht_cap = _FALSE;
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX  *pcur_bss = &pmlmepriv->cur_network.network;
++	NDIS_802_11_RATES_EX *prates = NULL;
++
++
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED | WIFI_ADHOC_MASTER_STATE) == _TRUE) {
++		/* parsing HT_CAP_IE */
++		p = rtw_get_ie(&pcur_bss->IEs[12], _HT_CAPABILITY_IE_, &ht_ielen, pcur_bss->IELength - 12);
++		if (p && ht_ielen > 0)
++			ht_cap = _TRUE;
++
++#ifdef CONFIG_80211AC_VHT
++		if (pmlmepriv->vhtpriv.vht_option == _TRUE)
++			vht_cap = _TRUE;
++#endif
++
++		prates = &pcur_bss->SupportedRates;
++
++		if (rtw_is_cckratesonly_included((u8 *)prates) == _TRUE) {
++			if (ht_cap == _TRUE)
++				snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11bn");
++			else
++				snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11b");
++		} else if ((rtw_is_cckrates_included((u8 *)prates)) == _TRUE) {
++			if (ht_cap == _TRUE)
++				snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11bgn");
++			else
++				snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11bg");
++		} else {
++			if (pcur_bss->Configuration.DSConfig > 14) {
++#ifdef CONFIG_80211AC_VHT
++				if (vht_cap == _TRUE)
++					snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11AC");
++				else
++#endif
++				{
++					if (ht_cap == _TRUE)
++						snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11an");
++					else
++						snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11a");
++				}
++			} else {
++				if (ht_cap == _TRUE)
++					snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11gn");
++				else
++					snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11g");
++			}
++		}
++	} else {
++		/* prates = &padapter->registrypriv.dev_network.SupportedRates; */
++		/* snprintf(wrqu->name, IFNAMSIZ, "IEEE 802.11g"); */
++		snprintf(wrqu->name, IFNAMSIZ, "unassociated");
++	}
++
++
++	return 0;
++}
++
++static int rtw_wx_set_freq(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(padapter);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct wlan_network  *cur_network = &(pmlmepriv->cur_network);
++	int exp = 1, freq = 0, div = 0;
++
++
++
++	if (wrqu->freq.m <= 1000) {
++		if (wrqu->freq.flags == IW_FREQ_AUTO) {
++			if (rtw_ch_set_search_ch(padapter->mlmeextpriv.channel_set, wrqu->freq.m) > 0) {
++				padapter->mlmeextpriv.cur_channel = wrqu->freq.m;
++				RTW_INFO("%s: channel is auto, set to channel %d\n", __func__, wrqu->freq.m);
++			} else {
++				padapter->mlmeextpriv.cur_channel = 1;
++				RTW_INFO("%s: channel is auto, Channel Plan don't match just set to channel 1\n", __func__);
++			}
++		} else {
++			padapter->mlmeextpriv.cur_channel = wrqu->freq.m;
++			RTW_INFO("%s: set to channel %d\n", __func__, padapter->mlmeextpriv.cur_channel);
++		}
++	} else {
++		while (wrqu->freq.e) {
++			exp *= 10;
++			wrqu->freq.e--;
++		}
++
++		freq = wrqu->freq.m;
++
++		while (!(freq % 10)) {
++			freq /= 10;
++			exp *= 10;
++		}
++
++		/* freq unit is MHz here */
++		div = 1000000 / exp;
++
++		if (div)
++			freq /= div;
++		else {
++			div = exp / 1000000;
++			freq *= div;
++		}
++
++		/* If freq is invalid, rtw_freq2ch() will return channel 1 */
++		padapter->mlmeextpriv.cur_channel = rtw_freq2ch(freq);
++		RTW_INFO("%s: set to channel %d\n", __func__, padapter->mlmeextpriv.cur_channel);
++	}
++
++	set_channel_bwmode(padapter, padapter->mlmeextpriv.cur_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++
++
++	return 0;
++}
++
++static int rtw_wx_get_freq(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX  *pcur_bss = &pmlmepriv->cur_network.network;
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE && check_fwstate(pmlmepriv, WIFI_MONITOR_STATE) != _TRUE) {
++
++		wrqu->freq.m = rtw_ch2freq(pcur_bss->Configuration.DSConfig) * 100000;
++		wrqu->freq.e = 1;
++		wrqu->freq.i = pcur_bss->Configuration.DSConfig;
++
++	} else {
++		wrqu->freq.m = rtw_ch2freq(padapter->mlmeextpriv.cur_channel) * 100000;
++		wrqu->freq.e = 1;
++		wrqu->freq.i = padapter->mlmeextpriv.cur_channel;
++	}
++
++	return 0;
++}
++
++static int rtw_wx_set_mode(struct net_device *dev, struct iw_request_info *a,
++			   union iwreq_data *wrqu, char *b)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	NDIS_802_11_NETWORK_INFRASTRUCTURE networkType ;
++	int ret = 0;
++
++
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		ret = -EPERM;
++		goto exit;
++	}
++
++	if (!rtw_is_hw_init_completed(padapter)) {
++		ret = -EPERM;
++		goto exit;
++	}
++
++	/* initial default type */
++	dev->type = ARPHRD_ETHER;
++
++	if (wrqu->mode == IW_MODE_MONITOR) {
++		rtw_ps_deny(padapter, PS_DENY_MONITOR_MODE);
++		LeaveAllPowerSaveMode(padapter);
++	} else {
++		rtw_ps_deny_cancel(padapter, PS_DENY_MONITOR_MODE);
++	}
++
++	switch (wrqu->mode) {
++	case IW_MODE_MONITOR:
++		networkType = Ndis802_11Monitor;
++#if 0
++		dev->type = ARPHRD_IEEE80211; /* IEEE 802.11 : 801 */
++#endif
++		dev->type = ARPHRD_IEEE80211_RADIOTAP; /* IEEE 802.11 + radiotap header : 803 */
++		RTW_INFO("set_mode = IW_MODE_MONITOR\n");
++		break;
++
++	case IW_MODE_AUTO:
++		networkType = Ndis802_11AutoUnknown;
++		RTW_INFO("set_mode = IW_MODE_AUTO\n");
++		break;
++	case IW_MODE_ADHOC:
++		networkType = Ndis802_11IBSS;
++		RTW_INFO("set_mode = IW_MODE_ADHOC\n");
++		break;
++	case IW_MODE_MASTER:
++		networkType = Ndis802_11APMode;
++		RTW_INFO("set_mode = IW_MODE_MASTER\n");
++		/* rtw_setopmode_cmd(padapter, networkType,_TRUE);	 */
++		break;
++	case IW_MODE_INFRA:
++		networkType = Ndis802_11Infrastructure;
++		RTW_INFO("set_mode = IW_MODE_INFRA\n");
++		break;
++
++	default:
++		ret = -EINVAL;;
++		goto exit;
++	}
++
++	/*
++		if(Ndis802_11APMode == networkType)
++		{
++			rtw_setopmode_cmd(padapter, networkType,_TRUE);
++		}
++		else
++		{
++			rtw_setopmode_cmd(padapter, Ndis802_11AutoUnknown,_TRUE);
++		}
++	*/
++
++	if (rtw_set_802_11_infrastructure_mode(padapter, networkType) == _FALSE) {
++
++		ret = -EPERM;
++		goto exit;
++
++	}
++
++	rtw_setopmode_cmd(padapter, networkType, _TRUE);
++
++	if (check_fwstate(pmlmepriv, WIFI_MONITOR_STATE) == _TRUE)
++		rtw_indicate_connect(padapter);
++
++exit:
++
++
++	return ret;
++
++}
++
++static int rtw_wx_get_mode(struct net_device *dev, struct iw_request_info *a,
++			   union iwreq_data *wrqu, char *b)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++
++
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) == _TRUE)
++		wrqu->mode = IW_MODE_INFRA;
++	else if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) ||
++		 (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE))
++
++		wrqu->mode = IW_MODE_ADHOC;
++	else if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE)
++		wrqu->mode = IW_MODE_MASTER;
++	else if (check_fwstate(pmlmepriv, WIFI_MONITOR_STATE) == _TRUE)
++		wrqu->mode = IW_MODE_MONITOR;
++	else
++		wrqu->mode = IW_MODE_AUTO;
++
++
++	return 0;
++
++}
++
++
++static int rtw_wx_set_pmkid(struct net_device *dev,
++			    struct iw_request_info *a,
++			    union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8          j, blInserted = _FALSE;
++	int         intReturn = _FALSE;
++	struct mlme_priv  *pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct iw_pmksa  *pPMK = (struct iw_pmksa *) extra;
++	u8     strZeroMacAddress[ETH_ALEN] = { 0x00 };
++	u8     strIssueBssid[ETH_ALEN] = { 0x00 };
++
++#if 0
++	struct iw_pmksa {
++		__u32   cmd;
++		struct sockaddr bssid;
++		__u8    pmkid[IW_PMKID_LEN];   /* IW_PMKID_LEN=16 */
++	}
++	There are the BSSID information in the bssid.sa_data array.
++	If cmd is IW_PMKSA_FLUSH, it means the wpa_suppplicant wants to clear all the PMKID information.
++	If cmd is IW_PMKSA_ADD, it means the wpa_supplicant wants to add a PMKID / BSSID to driver.
++	If cmd is IW_PMKSA_REMOVE, it means the wpa_supplicant wants to remove a PMKID / BSSID from driver.
++#endif
++
++	_rtw_memcpy(strIssueBssid, pPMK->bssid.sa_data, ETH_ALEN);
++	if (pPMK->cmd == IW_PMKSA_ADD) {
++		RTW_INFO("[rtw_wx_set_pmkid] IW_PMKSA_ADD!\n");
++		if (_rtw_memcmp(strIssueBssid, strZeroMacAddress, ETH_ALEN) == _TRUE)
++			return intReturn ;
++		else
++			intReturn = _TRUE;
++		blInserted = _FALSE;
++
++		/* overwrite PMKID */
++		for (j = 0 ; j < NUM_PMKID_CACHE; j++) {
++			if (_rtw_memcmp(psecuritypriv->PMKIDList[j].Bssid, strIssueBssid, ETH_ALEN) == _TRUE) {
++				/* BSSID is matched, the same AP => rewrite with new PMKID. */
++
++				RTW_INFO("[rtw_wx_set_pmkid] BSSID exists in the PMKList.\n");
++
++				_rtw_memcpy(psecuritypriv->PMKIDList[j].PMKID, pPMK->pmkid, IW_PMKID_LEN);
++				psecuritypriv->PMKIDList[j].bUsed = _TRUE;
++				psecuritypriv->PMKIDIndex = j + 1;
++				blInserted = _TRUE;
++				break;
++			}
++		}
++
++		if (!blInserted) {
++			/* Find a new entry */
++			RTW_INFO("[rtw_wx_set_pmkid] Use the new entry index = %d for this PMKID.\n",
++				 psecuritypriv->PMKIDIndex);
++
++			_rtw_memcpy(psecuritypriv->PMKIDList[psecuritypriv->PMKIDIndex].Bssid, strIssueBssid, ETH_ALEN);
++			_rtw_memcpy(psecuritypriv->PMKIDList[psecuritypriv->PMKIDIndex].PMKID, pPMK->pmkid, IW_PMKID_LEN);
++
++			psecuritypriv->PMKIDList[psecuritypriv->PMKIDIndex].bUsed = _TRUE;
++			psecuritypriv->PMKIDIndex++ ;
++			if (psecuritypriv->PMKIDIndex == 16)
++				psecuritypriv->PMKIDIndex = 0;
++		}
++	} else if (pPMK->cmd == IW_PMKSA_REMOVE) {
++		RTW_INFO("[rtw_wx_set_pmkid] IW_PMKSA_REMOVE!\n");
++		intReturn = _TRUE;
++		for (j = 0 ; j < NUM_PMKID_CACHE; j++) {
++			if (_rtw_memcmp(psecuritypriv->PMKIDList[j].Bssid, strIssueBssid, ETH_ALEN) == _TRUE) {
++				/* BSSID is matched, the same AP => Remove this PMKID information and reset it. */
++				_rtw_memset(psecuritypriv->PMKIDList[j].Bssid, 0x00, ETH_ALEN);
++				psecuritypriv->PMKIDList[j].bUsed = _FALSE;
++				break;
++			}
++		}
++	} else if (pPMK->cmd == IW_PMKSA_FLUSH) {
++		RTW_INFO("[rtw_wx_set_pmkid] IW_PMKSA_FLUSH!\n");
++		_rtw_memset(&psecuritypriv->PMKIDList[0], 0x00, sizeof(RT_PMKID_LIST) * NUM_PMKID_CACHE);
++		psecuritypriv->PMKIDIndex = 0;
++		intReturn = _TRUE;
++	}
++	return intReturn ;
++}
++
++static int rtw_wx_get_sens(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++#ifdef CONFIG_PLATFORM_ROCKCHIPS
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	/*
++	*  20110311 Commented by Jeff
++	*  For rockchip platform's wpa_driver_wext_get_rssi
++	*/
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++		/* wrqu->sens.value=-padapter->recvpriv.signal_strength; */
++		wrqu->sens.value = -padapter->recvpriv.rssi;
++		/* RTW_INFO("%s: %d\n", __FUNCTION__, wrqu->sens.value); */
++		wrqu->sens.fixed = 0; /* no auto select */
++	} else
++#endif
++	{
++		wrqu->sens.value = 0;
++		wrqu->sens.fixed = 0;	/* no auto select */
++		wrqu->sens.disabled = 1;
++	}
++	return 0;
++}
++
++static int rtw_wx_get_range(struct net_device *dev,
++			    struct iw_request_info *info,
++			    union iwreq_data *wrqu, char *extra)
++{
++	struct iw_range *range = (struct iw_range *)extra;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	u16 val;
++	int i;
++
++
++
++	wrqu->data.length = sizeof(*range);
++	_rtw_memset(range, 0, sizeof(*range));
++
++	/* Let's try to keep this struct in the same order as in
++	 * linux/include/wireless.h
++	 */
++
++	/* TODO: See what values we can set, and remove the ones we can't
++	 * set, or fill them with some default data.
++	 */
++
++	/* ~5 Mb/s real (802.11b) */
++	range->throughput = 5 * 1000 * 1000;
++
++	/* TODO: Not used in 802.11b?
++	*	range->min_nwid;	 Minimal NWID we are able to set  */
++	/* TODO: Not used in 802.11b?
++	*	range->max_nwid;	 Maximal NWID we are able to set  */
++
++	/* Old Frequency (backward compat - moved lower ) */
++	/*	range->old_num_channels;
++	 *	range->old_num_frequency;
++	 * 	range->old_freq[6];  Filler to keep "version" at the same offset  */
++
++	/* signal level threshold range */
++
++	/* Quality of link & SNR stuff */
++	/* Quality range (link, level, noise)
++	 * If the quality is absolute, it will be in the range [0 ; max_qual],
++	 * if the quality is dBm, it will be in the range [max_qual ; 0].
++	 * Don't forget that we use 8 bit arithmetics...
++	 *
++	 * If percentage range is 0~100
++	 * Signal strength dbm range logical is -100 ~ 0
++	 * but usually value is -90 ~ -20
++	 * When CONFIG_SIGNAL_SCALE_MAPPING is defined, dbm range is -95 ~ -45
++	 */
++	range->max_qual.qual = 100;
++#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++	range->max_qual.level = (u8)-100;
++	range->max_qual.noise = (u8)-100;
++	range->max_qual.updated = IW_QUAL_ALL_UPDATED; /* Updated all three */
++	range->max_qual.updated |= IW_QUAL_DBM;
++#else /* !CONFIG_SIGNAL_DISPLAY_DBM */
++	/* percent values between 0 and 100. */
++	range->max_qual.level = 100;
++	range->max_qual.noise = 100;
++	range->max_qual.updated = IW_QUAL_ALL_UPDATED; /* Updated all three */
++#endif /* !CONFIG_SIGNAL_DISPLAY_DBM */
++
++	/* This should contain the average/typical values of the quality
++	 * indicator. This should be the threshold between a "good" and
++	 * a "bad" link (example : monitor going from green to orange).
++	 * Currently, user space apps like quality monitors don't have any
++	 * way to calibrate the measurement. With this, they can split
++	 * the range between 0 and max_qual in different quality level
++	 * (using a geometric subdivision centered on the average).
++	 * I expect that people doing the user space apps will feedback
++	 * us on which value we need to put in each driver... */
++	range->avg_qual.qual = 92; /* > 8% missed beacons is 'bad' */
++#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++	/* TODO: Find real 'good' to 'bad' threshold value for RSSI */
++	range->avg_qual.level = (u8)-70;
++	range->avg_qual.noise = 0;
++	range->avg_qual.updated = IW_QUAL_ALL_UPDATED; /* Updated all three */
++	range->avg_qual.updated |= IW_QUAL_DBM;
++#else /* !CONFIG_SIGNAL_DISPLAY_DBM */
++	/* TODO: Find real 'good' to 'bad' threshol value for RSSI */
++	range->avg_qual.level = 30;
++	range->avg_qual.noise = 100;
++	range->avg_qual.updated = IW_QUAL_ALL_UPDATED; /* Updated all three */
++#endif /* !CONFIG_SIGNAL_DISPLAY_DBM */
++
++	range->num_bitrates = RATE_COUNT;
++
++	for (i = 0; i < RATE_COUNT && i < IW_MAX_BITRATES; i++)
++		range->bitrate[i] = rtw_rates[i];
++
++	range->min_frag = MIN_FRAG_THRESHOLD;
++	range->max_frag = MAX_FRAG_THRESHOLD;
++
++	range->pm_capa = 0;
++
++	range->we_version_compiled = WIRELESS_EXT;
++	range->we_version_source = 16;
++
++	/*	range->retry_capa;	 What retry options are supported
++	 *	range->retry_flags;	 How to decode max/min retry limit
++	 *	range->r_time_flags;	 How to decode max/min retry life
++	 *	range->min_retry;	 Minimal number of retries
++	 *	range->max_retry;	 Maximal number of retries
++	 *	range->min_r_time;	 Minimal retry lifetime
++	 *	range->max_r_time;	 Maximal retry lifetime  */
++
++	for (i = 0, val = 0; i < MAX_CHANNEL_NUM; i++) {
++
++		/* Include only legal frequencies for some countries */
++		if (pmlmeext->channel_set[i].ChannelNum != 0) {
++			range->freq[val].i = pmlmeext->channel_set[i].ChannelNum;
++			range->freq[val].m = rtw_ch2freq(pmlmeext->channel_set[i].ChannelNum) * 100000;
++			range->freq[val].e = 1;
++			val++;
++		}
++
++		if (val == IW_MAX_FREQUENCIES)
++			break;
++	}
++
++	range->num_channels = val;
++	range->num_frequency = val;
++
++	/* Commented by Albert 2009/10/13
++	 * The following code will proivde the security capability to network manager.
++	 * If the driver doesn't provide this capability to network manager,
++	 * the WPA/WPA2 routers can't be choosen in the network manager. */
++
++	/*
++	#define IW_SCAN_CAPA_NONE		0x00
++	#define IW_SCAN_CAPA_ESSID		0x01
++	#define IW_SCAN_CAPA_BSSID		0x02
++	#define IW_SCAN_CAPA_CHANNEL	0x04
++	#define IW_SCAN_CAPA_MODE		0x08
++	#define IW_SCAN_CAPA_RATE		0x10
++	#define IW_SCAN_CAPA_TYPE		0x20
++	#define IW_SCAN_CAPA_TIME		0x40
++	*/
++
++#if WIRELESS_EXT > 17
++	range->enc_capa = IW_ENC_CAPA_WPA | IW_ENC_CAPA_WPA2 |
++			  IW_ENC_CAPA_CIPHER_TKIP | IW_ENC_CAPA_CIPHER_CCMP;
++#endif
++
++#ifdef IW_SCAN_CAPA_ESSID /* WIRELESS_EXT > 21 */
++	range->scan_capa = IW_SCAN_CAPA_ESSID | IW_SCAN_CAPA_TYPE | IW_SCAN_CAPA_BSSID |
++		   IW_SCAN_CAPA_CHANNEL | IW_SCAN_CAPA_MODE | IW_SCAN_CAPA_RATE;
++#endif
++
++
++
++	return 0;
++
++}
++
++/* set bssid flow
++ * s1. rtw_set_802_11_infrastructure_mode()
++ * s2. rtw_set_802_11_authentication_mode()
++ * s3. set_802_11_encryption_mode()
++ * s4. rtw_set_802_11_bssid() */
++static int rtw_wx_set_wap(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *awrq,
++			  char *extra)
++{
++	_irqL	irqL;
++	uint ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct sockaddr *temp = (struct sockaddr *)awrq;
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	_list	*phead;
++	u8 *dst_bssid, *src_bssid;
++	_queue	*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	NDIS_802_11_AUTHENTICATION_MODE	authmode;
++
++	/*
++	#ifdef CONFIG_CONCURRENT_MODE
++		if(padapter->adapter_type > PRIMARY_IFACE)
++		{
++			ret = -EINVAL;
++			goto exit;
++		}
++	#endif
++	*/
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_buddy_check_fwstate(padapter, _FW_UNDER_SURVEY | _FW_UNDER_LINKING) == _TRUE) {
++		RTW_INFO("set bssid, but buddy_intf is under scanning or linking\n");
++
++		ret = -EINVAL;
++
++		goto exit;
++	}
++#endif
++
++	rtw_ps_deny(padapter, PS_DENY_JOIN);
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++	if (!padapter->bup) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++
++	if (temp->sa_family != ARPHRD_ETHER) {
++		ret = -EINVAL;
++		goto cancel_ps_deny;
++	}
++
++	authmode = padapter->securitypriv.ndisauthtype;
++	_enter_critical_bh(&queue->lock, &irqL);
++	phead = get_list_head(queue);
++	pmlmepriv->pscanned = get_next(phead);
++
++	while (1) {
++
++		if ((rtw_end_of_queue_search(phead, pmlmepriv->pscanned)) == _TRUE) {
++#if 0
++			ret = -EINVAL;
++			goto cancel_ps_deny;
++
++			if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) {
++				rtw_set_802_11_bssid(padapter, temp->sa_data);
++				goto cancel_ps_deny;
++			} else {
++				ret = -EINVAL;
++				goto cancel_ps_deny;
++			}
++#endif
++
++			break;
++		}
++
++		pnetwork = LIST_CONTAINOR(pmlmepriv->pscanned, struct wlan_network, list);
++
++		pmlmepriv->pscanned = get_next(pmlmepriv->pscanned);
++
++		dst_bssid = pnetwork->network.MacAddress;
++
++		src_bssid = temp->sa_data;
++
++		if ((_rtw_memcmp(dst_bssid, src_bssid, ETH_ALEN)) == _TRUE) {
++			if (!rtw_set_802_11_infrastructure_mode(padapter, pnetwork->network.InfrastructureMode)) {
++				ret = -1;
++				_exit_critical_bh(&queue->lock, &irqL);
++				goto cancel_ps_deny;
++			}
++
++			break;
++		}
++
++	}
++	_exit_critical_bh(&queue->lock, &irqL);
++
++	rtw_set_802_11_authentication_mode(padapter, authmode);
++	/* set_802_11_encryption_mode(padapter, padapter->securitypriv.ndisencryptstatus); */
++	if (rtw_set_802_11_bssid(padapter, temp->sa_data) == _FALSE) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++cancel_ps_deny:
++	rtw_ps_deny_cancel(padapter, PS_DENY_JOIN);
++
++exit:
++	return ret;
++}
++
++static int rtw_wx_get_wap(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX  *pcur_bss = &pmlmepriv->cur_network.network;
++
++	wrqu->ap_addr.sa_family = ARPHRD_ETHER;
++
++	_rtw_memset(wrqu->ap_addr.sa_data, 0, ETH_ALEN);
++
++
++
++	if (((check_fwstate(pmlmepriv, _FW_LINKED)) == _TRUE) ||
++	    ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE)) == _TRUE) ||
++	    ((check_fwstate(pmlmepriv, WIFI_AP_STATE)) == _TRUE))
++
++		_rtw_memcpy(wrqu->ap_addr.sa_data, pcur_bss->MacAddress, ETH_ALEN);
++	else
++		_rtw_memset(wrqu->ap_addr.sa_data, 0, ETH_ALEN);
++
++
++	return 0;
++
++}
++
++static int rtw_wx_set_mlme(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++#if 0
++	/* SIOCSIWMLME data */
++	struct	iw_mlme {
++		__u16		cmd; /* IW_MLME_* */
++		__u16		reason_code;
++		struct sockaddr	addr;
++	};
++#endif
++
++	int ret = 0;
++	u16 reason;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_mlme *mlme = (struct iw_mlme *) extra;
++
++
++	if (mlme == NULL)
++		return -1;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	reason = cpu_to_le16(mlme->reason_code);
++
++
++	RTW_INFO("%s, cmd=%d, reason=%d\n", __FUNCTION__, mlme->cmd, reason);
++
++
++	switch (mlme->cmd) {
++	case IW_MLME_DEAUTH:
++		if (!rtw_set_802_11_disassociate(padapter))
++			ret = -1;
++		break;
++
++	case IW_MLME_DISASSOC:
++		if (!rtw_set_802_11_disassociate(padapter))
++			ret = -1;
++
++		break;
++
++	default:
++		return -EOPNOTSUPP;
++	}
++
++	return ret;
++}
++
++static int rtw_wx_set_scan(struct net_device *dev, struct iw_request_info *a,
++			   union iwreq_data *wrqu, char *extra)
++{
++	u8 _status = _FALSE;
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	NDIS_802_11_SSID ssid[RTW_SSID_SCAN_AMOUNT];
++
++#ifdef CONFIG_P2P
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_P2P */
++
++
++#ifdef DBG_IOCTL
++	RTW_INFO("DBG_IOCTL %s:%d\n", __FUNCTION__, __LINE__);
++#endif
++
++#ifdef CONFIG_MP_INCLUDED
++	if (rtw_mi_mp_mode_check(padapter)) {
++		RTW_INFO("MP mode block Scan request\n");
++		ret = -EPERM;
++		goto exit;
++	}
++#endif
++	if (rtw_is_scan_deny(padapter)) {
++		indicate_wx_scan_complete_event(padapter);
++		goto exit;
++	}
++
++	rtw_ps_deny(padapter, PS_DENY_SCAN);
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++	if (!rtw_is_adapter_up(padapter)) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++#ifndef CONFIG_DOSCAN_IN_BUSYTRAFFIC
++	/* When Busy Traffic, driver do not site survey. So driver return success. */
++	/* wpa_supplicant will not issue SIOCSIWSCAN cmd again after scan timeout. */
++	/* modify by thomas 2011-02-22. */
++	if (rtw_mi_busy_traffic_check(padapter, _FALSE)) {
++		indicate_wx_scan_complete_event(padapter);
++		goto cancel_ps_deny;
++	}
++#endif
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) && check_fwstate(pmlmepriv, WIFI_UNDER_WPS)) {
++		RTW_INFO("AP mode process WPS\n");
++		indicate_wx_scan_complete_event(padapter);
++		goto cancel_ps_deny;
++	}
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY | _FW_UNDER_LINKING) == _TRUE) {
++		indicate_wx_scan_complete_event(padapter);
++		goto cancel_ps_deny;
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_buddy_check_fwstate(padapter,
++		       _FW_UNDER_SURVEY | _FW_UNDER_LINKING | WIFI_UNDER_WPS)) {
++
++		indicate_wx_scan_complete_event(padapter);
++		goto cancel_ps_deny;
++	}
++#endif
++
++#ifdef CONFIG_P2P
++	if (pwdinfo->p2p_state != P2P_STATE_NONE) {
++		rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH);
++		rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_FULL);
++		rtw_free_network_queue(padapter, _TRUE);
++	}
++#endif /* CONFIG_P2P */
++
++	_rtw_memset(ssid, 0, sizeof(NDIS_802_11_SSID) * RTW_SSID_SCAN_AMOUNT);
++
++#if WIRELESS_EXT >= 17
++	if (wrqu->data.length == sizeof(struct iw_scan_req)) {
++		struct iw_scan_req *req = (struct iw_scan_req *)extra;
++
++		if (wrqu->data.flags & IW_SCAN_THIS_ESSID) {
++			int len = min((int)req->essid_len, IW_ESSID_MAX_SIZE);
++
++			_rtw_memcpy(ssid[0].Ssid, req->essid, len);
++			ssid[0].SsidLength = len;
++
++			RTW_INFO("IW_SCAN_THIS_ESSID, ssid=%s, len=%d\n", req->essid, req->essid_len);
++
++			_status = rtw_set_802_11_bssid_list_scan(padapter, ssid, 1, NULL, 0);
++
++		} else if (req->scan_type == IW_SCAN_TYPE_PASSIVE)
++			RTW_INFO("rtw_wx_set_scan, req->scan_type == IW_SCAN_TYPE_PASSIVE\n");
++
++	} else
++#endif
++
++		if (wrqu->data.length >= WEXT_CSCAN_HEADER_SIZE
++		    && _rtw_memcmp(extra, WEXT_CSCAN_HEADER, WEXT_CSCAN_HEADER_SIZE) == _TRUE
++		   ) {
++			int len = wrqu->data.length - WEXT_CSCAN_HEADER_SIZE;
++			char *pos = extra + WEXT_CSCAN_HEADER_SIZE;
++			char section;
++			char sec_len;
++			int ssid_index = 0;
++
++			/* RTW_INFO("%s COMBO_SCAN header is recognized\n", __FUNCTION__); */
++
++			while (len >= 1) {
++				section = *(pos++);
++				len -= 1;
++
++				switch (section) {
++				case WEXT_CSCAN_SSID_SECTION:
++					/* RTW_INFO("WEXT_CSCAN_SSID_SECTION\n"); */
++					if (len < 1) {
++						len = 0;
++						break;
++					}
++
++					sec_len = *(pos++);
++					len -= 1;
++
++					if (sec_len > 0 && sec_len <= len) {
++						ssid[ssid_index].SsidLength = sec_len;
++						_rtw_memcpy(ssid[ssid_index].Ssid, pos, ssid[ssid_index].SsidLength);
++						/* RTW_INFO("%s COMBO_SCAN with specific ssid:%s, %d\n", __FUNCTION__ */
++						/*	, ssid[ssid_index].Ssid, ssid[ssid_index].SsidLength); */
++						ssid_index++;
++					}
++
++					pos += sec_len;
++					len -= sec_len;
++					break;
++
++
++				case WEXT_CSCAN_CHANNEL_SECTION:
++					/* RTW_INFO("WEXT_CSCAN_CHANNEL_SECTION\n"); */
++					pos += 1;
++					len -= 1;
++					break;
++				case WEXT_CSCAN_ACTV_DWELL_SECTION:
++					/* RTW_INFO("WEXT_CSCAN_ACTV_DWELL_SECTION\n"); */
++					pos += 2;
++					len -= 2;
++					break;
++				case WEXT_CSCAN_PASV_DWELL_SECTION:
++					/* RTW_INFO("WEXT_CSCAN_PASV_DWELL_SECTION\n"); */
++					pos += 2;
++					len -= 2;
++					break;
++				case WEXT_CSCAN_HOME_DWELL_SECTION:
++					/* RTW_INFO("WEXT_CSCAN_HOME_DWELL_SECTION\n"); */
++					pos += 2;
++					len -= 2;
++					break;
++				case WEXT_CSCAN_TYPE_SECTION:
++					/* RTW_INFO("WEXT_CSCAN_TYPE_SECTION\n"); */
++					pos += 1;
++					len -= 1;
++					break;
++#if 0
++				case WEXT_CSCAN_NPROBE_SECTION:
++					RTW_INFO("WEXT_CSCAN_NPROBE_SECTION\n");
++					break;
++#endif
++
++				default:
++					/* RTW_INFO("Unknown CSCAN section %c\n", section); */
++					len = 0; /* stop parsing */
++				}
++				/* RTW_INFO("len:%d\n", len); */
++
++			}
++
++			/* jeff: it has still some scan paramater to parse, we only do this now... */
++			_status = rtw_set_802_11_bssid_list_scan(padapter, ssid, RTW_SSID_SCAN_AMOUNT, NULL, 0);
++
++		} else
++
++			_status = rtw_set_802_11_bssid_list_scan(padapter, NULL, 0, NULL, 0);
++
++	if (_status == _FALSE)
++		ret = -1;
++
++cancel_ps_deny:
++	rtw_ps_deny_cancel(padapter, PS_DENY_SCAN);
++
++exit:
++#ifdef DBG_IOCTL
++	RTW_INFO("DBG_IOCTL %s:%d return %d\n", __FUNCTION__, __LINE__, ret);
++#endif
++
++	return ret;
++}
++
++static int rtw_wx_get_scan(struct net_device *dev, struct iw_request_info *a,
++			   union iwreq_data *wrqu, char *extra)
++{
++	_irqL	irqL;
++	_list					*plist, *phead;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	_queue				*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	char *ev = extra;
++	char *stop = ev + wrqu->data.length;
++	u32 ret = 0;
++	u32 cnt = 0;
++	u32 wait_for_surveydone;
++	sint wait_status;
++
++#ifdef CONFIG_P2P
++	struct	wifidirect_info	*pwdinfo = &padapter->wdinfo;
++#endif /* CONFIG_P2P */
++
++
++#ifdef DBG_IOCTL
++	RTW_INFO("DBG_IOCTL %s:%d\n", __FUNCTION__, __LINE__);
++#endif
++
++	if (adapter_to_pwrctl(padapter)->brfoffbyhw && rtw_is_drv_stopped(padapter)) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++#ifdef CONFIG_P2P
++	if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE))
++		wait_for_surveydone = 200;
++	else {
++		/*	P2P is disabled */
++		wait_for_surveydone = 100;
++	}
++#else
++	{
++		wait_for_surveydone = 100;
++	}
++#endif /* CONFIG_P2P */
++
++#if 1 /* Wireless Extension use EAGAIN to try */
++	wait_status = _FW_UNDER_SURVEY
++#ifndef CONFIG_ANDROID
++		      | _FW_UNDER_LINKING
++#endif
++		      ;
++
++	while (check_fwstate(pmlmepriv, wait_status) == _TRUE)
++		return -EAGAIN;
++#else
++	wait_status = _FW_UNDER_SURVEY
++#ifndef CONFIG_ANDROID
++		      | _FW_UNDER_LINKING
++#endif
++		      ;
++
++	while (check_fwstate(pmlmepriv, wait_status) == _TRUE) {
++		rtw_msleep_os(30);
++		cnt++;
++		if (cnt > wait_for_surveydone)
++			break;
++	}
++#endif
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		if ((stop - ev) < SCAN_ITEM_SIZE) {
++			ret = -E2BIG;
++			break;
++		}
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		/* report network only if the current channel set contains the channel to which this network belongs */
++		if (rtw_ch_set_search_ch(padapter->mlmeextpriv.channel_set, pnetwork->network.Configuration.DSConfig) >= 0
++		    && rtw_mlme_band_check(padapter, pnetwork->network.Configuration.DSConfig) == _TRUE
++		    && _TRUE == rtw_validate_ssid(&(pnetwork->network.Ssid))
++		   )
++			ev = translate_scan(padapter, a, pnetwork, ev, stop);
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	wrqu->data.length = ev - extra;
++	wrqu->data.flags = 0;
++
++exit:
++
++
++#ifdef DBG_IOCTL
++	RTW_INFO("DBG_IOCTL %s:%d return %d\n", __FUNCTION__, __LINE__, ret);
++#endif
++
++	return ret ;
++
++}
++
++/* set ssid flow
++ * s1. rtw_set_802_11_infrastructure_mode()
++ * s2. set_802_11_authenticaion_mode()
++ * s3. set_802_11_encryption_mode()
++ * s4. rtw_set_802_11_ssid() */
++static int rtw_wx_set_essid(struct net_device *dev,
++			    struct iw_request_info *a,
++			    union iwreq_data *wrqu, char *extra)
++{
++	_irqL irqL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_queue *queue = &pmlmepriv->scanned_queue;
++	_list *phead;
++	s8 status = _TRUE;
++	struct wlan_network *pnetwork = NULL;
++	NDIS_802_11_AUTHENTICATION_MODE authmode;
++	NDIS_802_11_SSID ndis_ssid;
++	u8 *dst_ssid, *src_ssid;
++
++	uint ret = 0, len;
++
++
++#ifdef DBG_IOCTL
++	RTW_INFO("DBG_IOCTL %s:%d\n", __FUNCTION__, __LINE__);
++#endif
++#ifdef CONFIG_WEXT_DONT_JOIN_BYSSID
++	RTW_INFO("%s: CONFIG_WEXT_DONT_JOIN_BYSSID be defined!! only allow bssid joining\n", __func__);
++	return -EPERM;
++#endif
++
++#if WIRELESS_EXT <= 20
++	if ((wrqu->essid.length - 1) > IW_ESSID_MAX_SIZE) {
++#else
++	if (wrqu->essid.length > IW_ESSID_MAX_SIZE) {
++#endif
++		ret = -E2BIG;
++		goto exit;
++	}
++
++
++
++	rtw_ps_deny(padapter, PS_DENY_JOIN);
++	if (_FAIL == rtw_pwr_wakeup(padapter)) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++	if (!padapter->bup) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++		ret = -1;
++		goto cancel_ps_deny;
++	}
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (rtw_mi_buddy_check_fwstate(padapter, _FW_UNDER_SURVEY | _FW_UNDER_LINKING)) {
++		RTW_INFO("set ssid, but buddy_intf is under scanning or linking\n");
++		ret = -EINVAL;
++		goto cancel_ps_deny;
++	}
++#endif
++	authmode = padapter->securitypriv.ndisauthtype;
++	RTW_INFO("=>%s\n", __FUNCTION__);
++	if (wrqu->essid.flags && wrqu->essid.length) {
++		/* Commented by Albert 20100519 */
++		/* We got the codes in "set_info" function of iwconfig source code. */
++		/*	========================================= */
++		/*	wrq.u.essid.length = strlen(essid) + 1; */
++		/*	if(we_kernel_version > 20) */
++		/*		wrq.u.essid.length--; */
++		/*	========================================= */
++		/*	That means, if the WIRELESS_EXT less than or equal to 20, the correct ssid len should subtract 1. */
++#if WIRELESS_EXT <= 20
++		len = ((wrqu->essid.length - 1) < IW_ESSID_MAX_SIZE) ? (wrqu->essid.length - 1) : IW_ESSID_MAX_SIZE;
++#else
++		len = (wrqu->essid.length < IW_ESSID_MAX_SIZE) ? wrqu->essid.length : IW_ESSID_MAX_SIZE;
++#endif
++
++		if (wrqu->essid.length != 33)
++			RTW_INFO("ssid=%s, len=%d\n", extra, wrqu->essid.length);
++
++		_rtw_memset(&ndis_ssid, 0, sizeof(NDIS_802_11_SSID));
++		ndis_ssid.SsidLength = len;
++		_rtw_memcpy(ndis_ssid.Ssid, extra, len);
++		src_ssid = ndis_ssid.Ssid;
++
++		_enter_critical_bh(&queue->lock, &irqL);
++		phead = get_list_head(queue);
++		pmlmepriv->pscanned = get_next(phead);
++
++		while (1) {
++			if (rtw_end_of_queue_search(phead, pmlmepriv->pscanned) == _TRUE) {
++#if 0
++				if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) {
++					rtw_set_802_11_ssid(padapter, &ndis_ssid);
++
++					goto cancel_ps_deny;
++				} else {
++					ret = -EINVAL;
++					goto cancel_ps_deny;
++				}
++#endif
++
++				break;
++			}
++
++			pnetwork = LIST_CONTAINOR(pmlmepriv->pscanned, struct wlan_network, list);
++
++			pmlmepriv->pscanned = get_next(pmlmepriv->pscanned);
++
++			dst_ssid = pnetwork->network.Ssid.Ssid;
++
++
++			if ((_rtw_memcmp(dst_ssid, src_ssid, ndis_ssid.SsidLength) == _TRUE) &&
++			    (pnetwork->network.Ssid.SsidLength == ndis_ssid.SsidLength)) {
++
++				if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE) {
++					if (pnetwork->network.InfrastructureMode != pmlmepriv->cur_network.network.InfrastructureMode)
++						continue;
++				}
++
++				if (rtw_set_802_11_infrastructure_mode(padapter, pnetwork->network.InfrastructureMode) == _FALSE) {
++					ret = -1;
++					_exit_critical_bh(&queue->lock, &irqL);
++					goto cancel_ps_deny;
++				}
++
++				break;
++			}
++		}
++		_exit_critical_bh(&queue->lock, &irqL);
++		rtw_set_802_11_authentication_mode(padapter, authmode);
++		/* set_802_11_encryption_mode(padapter, padapter->securitypriv.ndisencryptstatus); */
++		if (rtw_set_802_11_ssid(padapter, &ndis_ssid) == _FALSE) {
++			ret = -1;
++			goto cancel_ps_deny;
++		}
++	}
++
++cancel_ps_deny:
++	rtw_ps_deny_cancel(padapter, PS_DENY_JOIN);
++
++exit:
++	RTW_INFO("<=%s, ret %d\n", __FUNCTION__, ret);
++
++#ifdef DBG_IOCTL
++	RTW_INFO("DBG_IOCTL %s:%d return %d\n", __FUNCTION__, __LINE__, ret);
++#endif
++
++
++	return ret;
++}
++
++static int rtw_wx_get_essid(struct net_device *dev,
++			    struct iw_request_info *a,
++			    union iwreq_data *wrqu, char *extra)
++{
++	u32 len, ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	WLAN_BSSID_EX  *pcur_bss = &pmlmepriv->cur_network.network;
++
++
++
++	if ((check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) ||
++	    (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE)) {
++		len = pcur_bss->Ssid.SsidLength;
++
++		wrqu->essid.length = len;
++
++		_rtw_memcpy(extra, pcur_bss->Ssid.Ssid, len);
++
++		wrqu->essid.flags = 1;
++	} else {
++		ret = -1;
++		goto exit;
++	}
++
++exit:
++
++
++	return ret;
++
++}
++
++static int rtw_wx_set_rate(struct net_device *dev,
++			   struct iw_request_info *a,
++			   union iwreq_data *wrqu, char *extra)
++{
++	int	i, ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8	datarates[NumRates];
++	u32	target_rate = wrqu->bitrate.value;
++	u32	fixed = wrqu->bitrate.fixed;
++	u32	ratevalue = 0;
++	u8 mpdatarate[NumRates] = {11, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1, 0, 0xff};
++
++
++
++	if (target_rate == -1) {
++		ratevalue = 11;
++		goto set_rate;
++	}
++	target_rate = target_rate / 100000;
++
++	switch (target_rate) {
++	case 10:
++		ratevalue = 0;
++		break;
++	case 20:
++		ratevalue = 1;
++		break;
++	case 55:
++		ratevalue = 2;
++		break;
++	case 60:
++		ratevalue = 3;
++		break;
++	case 90:
++		ratevalue = 4;
++		break;
++	case 110:
++		ratevalue = 5;
++		break;
++	case 120:
++		ratevalue = 6;
++		break;
++	case 180:
++		ratevalue = 7;
++		break;
++	case 240:
++		ratevalue = 8;
++		break;
++	case 360:
++		ratevalue = 9;
++		break;
++	case 480:
++		ratevalue = 10;
++		break;
++	case 540:
++		ratevalue = 11;
++		break;
++	default:
++		ratevalue = 11;
++		break;
++	}
++
++set_rate:
++
++	for (i = 0; i < NumRates; i++) {
++		if (ratevalue == mpdatarate[i]) {
++			datarates[i] = mpdatarate[i];
++			if (fixed == 0)
++				break;
++		} else
++			datarates[i] = 0xff;
++
++	}
++
++	if (rtw_setdatarate_cmd(padapter, datarates) != _SUCCESS) {
++		ret = -1;
++	}
++
++
++	return ret;
++}
++
++static int rtw_wx_get_rate(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	u16 max_rate = 0;
++
++	max_rate = rtw_get_cur_max_rate((_adapter *)rtw_netdev_priv(dev));
++
++	if (max_rate == 0)
++		return -EPERM;
++
++	wrqu->bitrate.fixed = 0;	/* no auto select */
++	wrqu->bitrate.value = max_rate * 100000;
++
++	return 0;
++}
++
++static int rtw_wx_set_rts(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++
++	if (wrqu->rts.disabled)
++		padapter->registrypriv.rts_thresh = 2347;
++	else {
++		if (wrqu->rts.value < 0 ||
++		    wrqu->rts.value > 2347)
++			return -EINVAL;
++
++		padapter->registrypriv.rts_thresh = wrqu->rts.value;
++	}
++
++	RTW_INFO("%s, rts_thresh=%d\n", __func__, padapter->registrypriv.rts_thresh);
++
++
++	return 0;
++
++}
++
++static int rtw_wx_get_rts(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++
++	RTW_INFO("%s, rts_thresh=%d\n", __func__, padapter->registrypriv.rts_thresh);
++
++	wrqu->rts.value = padapter->registrypriv.rts_thresh;
++	wrqu->rts.fixed = 0;	/* no auto select */
++	/* wrqu->rts.disabled = (wrqu->rts.value == DEFAULT_RTS_THRESHOLD); */
++
++
++	return 0;
++}
++
++static int rtw_wx_set_frag(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++
++	if (wrqu->frag.disabled)
++		padapter->xmitpriv.frag_len = MAX_FRAG_THRESHOLD;
++	else {
++		if (wrqu->frag.value < MIN_FRAG_THRESHOLD ||
++		    wrqu->frag.value > MAX_FRAG_THRESHOLD)
++			return -EINVAL;
++
++		padapter->xmitpriv.frag_len = wrqu->frag.value & ~0x1;
++	}
++
++	RTW_INFO("%s, frag_len=%d\n", __func__, padapter->xmitpriv.frag_len);
++
++
++	return 0;
++
++}
++
++static int rtw_wx_get_frag(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++
++	RTW_INFO("%s, frag_len=%d\n", __func__, padapter->xmitpriv.frag_len);
++
++	wrqu->frag.value = padapter->xmitpriv.frag_len;
++	wrqu->frag.fixed = 0;	/* no auto select */
++	/* wrqu->frag.disabled = (wrqu->frag.value == DEFAULT_FRAG_THRESHOLD); */
++
++
++	return 0;
++}
++
++static int rtw_wx_get_retry(struct net_device *dev,
++			    struct iw_request_info *info,
++			    union iwreq_data *wrqu, char *extra)
++{
++	/* _adapter *padapter = (_adapter *)rtw_netdev_priv(dev); */
++
++
++	wrqu->retry.value = 7;
++	wrqu->retry.fixed = 0;	/* no auto select */
++	wrqu->retry.disabled = 1;
++
++	return 0;
++
++}
++
++#if 0
++	#define IW_ENCODE_INDEX		0x00FF	/* Token index (if needed) */
++	#define IW_ENCODE_FLAGS		0xFF00	/* Flags defined below */
++	#define IW_ENCODE_MODE		0xF000	/* Modes defined below */
++	#define IW_ENCODE_DISABLED	0x8000	/* Encoding disabled */
++	#define IW_ENCODE_ENABLED	0x0000	/* Encoding enabled */
++	#define IW_ENCODE_RESTRICTED	0x4000	/* Refuse non-encoded packets */
++	#define IW_ENCODE_OPEN		0x2000	/* Accept non-encoded packets */
++	#define IW_ENCODE_NOKEY		0x0800  /* Key is write only, so not present */
++	#define IW_ENCODE_TEMP		0x0400  /* Temporary key */
++	/*
++	iwconfig wlan0 key on->flags = 0x6001->maybe it means auto
++	iwconfig wlan0 key off->flags = 0x8800
++	iwconfig wlan0 key open->flags = 0x2800
++	iwconfig wlan0 key open 1234567890->flags = 0x2000
++	iwconfig wlan0 key restricted->flags = 0x4800
++	iwconfig wlan0 key open [3] 1234567890->flags = 0x2003
++	iwconfig wlan0 key restricted [2] 1234567890->flags = 0x4002
++	iwconfig wlan0 key open [3] -> flags = 0x2803
++	iwconfig wlan0 key restricted [2] -> flags = 0x4802
++	*/
++#endif
++
++static int rtw_wx_set_enc(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *keybuf)
++{
++	u32 key, ret = 0;
++	u32 keyindex_provided;
++	NDIS_802_11_WEP	 wep;
++	NDIS_802_11_AUTHENTICATION_MODE authmode;
++
++	struct iw_point *erq = &(wrqu->encoding);
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	RTW_INFO("+rtw_wx_set_enc, flags=0x%x\n", erq->flags);
++
++	_rtw_memset(&wep, 0, sizeof(NDIS_802_11_WEP));
++
++	key = erq->flags & IW_ENCODE_INDEX;
++
++
++	if (erq->flags & IW_ENCODE_DISABLED) {
++		RTW_INFO("EncryptionDisabled\n");
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11EncryptionDisabled;
++		padapter->securitypriv.dot11PrivacyAlgrthm = _NO_PRIVACY_;
++		padapter->securitypriv.dot118021XGrpPrivacy = _NO_PRIVACY_;
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Open; /* open system */
++		authmode = Ndis802_11AuthModeOpen;
++		padapter->securitypriv.ndisauthtype = authmode;
++
++		goto exit;
++	}
++
++	if (key) {
++		if (key > WEP_KEYS)
++			return -EINVAL;
++		key--;
++		keyindex_provided = 1;
++	} else {
++		keyindex_provided = 0;
++		key = padapter->securitypriv.dot11PrivacyKeyIndex;
++		RTW_INFO("rtw_wx_set_enc, key=%d\n", key);
++	}
++
++	/* set authentication mode	 */
++	if (erq->flags & IW_ENCODE_OPEN) {
++		RTW_INFO("rtw_wx_set_enc():IW_ENCODE_OPEN\n");
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;/* Ndis802_11EncryptionDisabled; */
++
++#ifdef CONFIG_PLATFORM_MT53XX
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++#else
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Open;
++#endif
++
++		padapter->securitypriv.dot11PrivacyAlgrthm = _NO_PRIVACY_;
++		padapter->securitypriv.dot118021XGrpPrivacy = _NO_PRIVACY_;
++		authmode = Ndis802_11AuthModeOpen;
++		padapter->securitypriv.ndisauthtype = authmode;
++	} else if (erq->flags & IW_ENCODE_RESTRICTED) {
++		RTW_INFO("rtw_wx_set_enc():IW_ENCODE_RESTRICTED\n");
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;
++
++#ifdef CONFIG_PLATFORM_MT53XX
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++#else
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Shared;
++#endif
++
++		padapter->securitypriv.dot11PrivacyAlgrthm = _WEP40_;
++		padapter->securitypriv.dot118021XGrpPrivacy = _WEP40_;
++		authmode = Ndis802_11AuthModeShared;
++		padapter->securitypriv.ndisauthtype = authmode;
++	} else {
++		RTW_INFO("rtw_wx_set_enc():erq->flags=0x%x\n", erq->flags);
++
++		padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption1Enabled;/* Ndis802_11EncryptionDisabled; */
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Open; /* open system */
++		padapter->securitypriv.dot11PrivacyAlgrthm = _NO_PRIVACY_;
++		padapter->securitypriv.dot118021XGrpPrivacy = _NO_PRIVACY_;
++		authmode = Ndis802_11AuthModeOpen;
++		padapter->securitypriv.ndisauthtype = authmode;
++	}
++
++	wep.KeyIndex = key;
++	if (erq->length > 0) {
++		wep.KeyLength = erq->length <= 5 ? 5 : 13;
++
++		wep.Length = wep.KeyLength + FIELD_OFFSET(NDIS_802_11_WEP, KeyMaterial);
++	} else {
++		wep.KeyLength = 0 ;
++
++		if (keyindex_provided == 1) { /* set key_id only, no given KeyMaterial(erq->length==0). */
++			padapter->securitypriv.dot11PrivacyKeyIndex = key;
++
++			RTW_INFO("(keyindex_provided == 1), keyid=%d, key_len=%d\n", key, padapter->securitypriv.dot11DefKeylen[key]);
++
++			switch (padapter->securitypriv.dot11DefKeylen[key]) {
++			case 5:
++				padapter->securitypriv.dot11PrivacyAlgrthm = _WEP40_;
++				break;
++			case 13:
++				padapter->securitypriv.dot11PrivacyAlgrthm = _WEP104_;
++				break;
++			default:
++				padapter->securitypriv.dot11PrivacyAlgrthm = _NO_PRIVACY_;
++				break;
++			}
++
++			goto exit;
++
++		}
++
++	}
++
++	wep.KeyIndex |= 0x80000000;
++
++	_rtw_memcpy(wep.KeyMaterial, keybuf, wep.KeyLength);
++
++	if (rtw_set_802_11_add_wep(padapter, &wep) == _FALSE) {
++		if (rf_on == pwrpriv->rf_pwrstate)
++			ret = -EOPNOTSUPP;
++		goto exit;
++	}
++
++exit:
++
++
++	return ret;
++
++}
++
++static int rtw_wx_get_enc(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *keybuf)
++{
++	uint key, ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *erq = &(wrqu->encoding);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED) != _TRUE) {
++		if (check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) != _TRUE) {
++			erq->length = 0;
++			erq->flags |= IW_ENCODE_DISABLED;
++			return 0;
++		}
++	}
++
++
++	key = erq->flags & IW_ENCODE_INDEX;
++
++	if (key) {
++		if (key > WEP_KEYS)
++			return -EINVAL;
++		key--;
++	} else
++		key = padapter->securitypriv.dot11PrivacyKeyIndex;
++
++	erq->flags = key + 1;
++
++	/* if(padapter->securitypriv.ndisauthtype == Ndis802_11AuthModeOpen) */
++	/* { */
++	/* erq->flags |= IW_ENCODE_OPEN; */
++	/* }	  */
++
++	switch (padapter->securitypriv.ndisencryptstatus) {
++	case Ndis802_11EncryptionNotSupported:
++	case Ndis802_11EncryptionDisabled:
++
++		erq->length = 0;
++		erq->flags |= IW_ENCODE_DISABLED;
++
++		break;
++
++	case Ndis802_11Encryption1Enabled:
++
++		erq->length = padapter->securitypriv.dot11DefKeylen[key];
++
++		if (erq->length) {
++			_rtw_memcpy(keybuf, padapter->securitypriv.dot11DefKey[key].skey, padapter->securitypriv.dot11DefKeylen[key]);
++
++			erq->flags |= IW_ENCODE_ENABLED;
++
++			if (padapter->securitypriv.ndisauthtype == Ndis802_11AuthModeOpen)
++				erq->flags |= IW_ENCODE_OPEN;
++			else if (padapter->securitypriv.ndisauthtype == Ndis802_11AuthModeShared)
++				erq->flags |= IW_ENCODE_RESTRICTED;
++		} else {
++			erq->length = 0;
++			erq->flags |= IW_ENCODE_DISABLED;
++		}
++
++		break;
++
++	case Ndis802_11Encryption2Enabled:
++	case Ndis802_11Encryption3Enabled:
++
++		erq->length = 16;
++		erq->flags |= (IW_ENCODE_ENABLED | IW_ENCODE_OPEN | IW_ENCODE_NOKEY);
++
++		break;
++
++	default:
++		erq->length = 0;
++		erq->flags |= IW_ENCODE_DISABLED;
++
++		break;
++
++	}
++
++
++	return ret;
++
++}
++
++static int rtw_wx_get_power(struct net_device *dev,
++			    struct iw_request_info *info,
++			    union iwreq_data *wrqu, char *extra)
++{
++	/* _adapter *padapter = (_adapter *)rtw_netdev_priv(dev); */
++
++	wrqu->power.value = 0;
++	wrqu->power.fixed = 0;	/* no auto select */
++	wrqu->power.disabled = 1;
++
++	return 0;
++
++}
++
++static int rtw_wx_set_gen_ie(struct net_device *dev,
++			     struct iw_request_info *info,
++			     union iwreq_data *wrqu, char *extra)
++{
++	int ret;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	ret = rtw_set_wpa_ie(padapter, extra, wrqu->data.length);
++
++	return ret;
++}
++
++static int rtw_wx_set_auth(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_param *param = (struct iw_param *)&(wrqu->param);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	u32 value = param->value;
++	int ret = 0;
++
++	switch (param->flags & IW_AUTH_INDEX) {
++
++	case IW_AUTH_WPA_VERSION:
++#ifdef CONFIG_WAPI_SUPPORT
++#ifndef CONFIG_IOCTL_CFG80211
++		padapter->wapiInfo.bWapiEnable = false;
++		if (value == IW_AUTH_WAPI_VERSION_1) {
++			padapter->wapiInfo.bWapiEnable = true;
++			psecuritypriv->dot11PrivacyAlgrthm = _SMS4_;
++			psecuritypriv->dot118021XGrpPrivacy = _SMS4_;
++			psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_WAPI;
++			pmlmeinfo->auth_algo = psecuritypriv->dot11AuthAlgrthm;
++			padapter->wapiInfo.extra_prefix_len = WAPI_EXT_LEN;
++			padapter->wapiInfo.extra_postfix_len = SMS4_MIC_LEN;
++		}
++#endif
++#endif
++		break;
++	case IW_AUTH_CIPHER_PAIRWISE:
++
++		break;
++	case IW_AUTH_CIPHER_GROUP:
++
++		break;
++	case IW_AUTH_KEY_MGMT:
++#ifdef CONFIG_WAPI_SUPPORT
++#ifndef CONFIG_IOCTL_CFG80211
++		RTW_INFO("rtw_wx_set_auth: IW_AUTH_KEY_MGMT case\n");
++		if (value == IW_AUTH_KEY_MGMT_WAPI_PSK)
++			padapter->wapiInfo.bWapiPSK = true;
++		else
++			padapter->wapiInfo.bWapiPSK = false;
++		RTW_INFO("rtw_wx_set_auth: IW_AUTH_KEY_MGMT bwapipsk %d\n", padapter->wapiInfo.bWapiPSK);
++#endif
++#endif
++		/*
++		 *  ??? does not use these parameters
++		 */
++		break;
++
++	case IW_AUTH_TKIP_COUNTERMEASURES: {
++		if (param->value) {
++			/* wpa_supplicant is enabling the tkip countermeasure. */
++			padapter->securitypriv.btkip_countermeasure = _TRUE;
++		} else {
++			/* wpa_supplicant is disabling the tkip countermeasure. */
++			padapter->securitypriv.btkip_countermeasure = _FALSE;
++		}
++		break;
++	}
++	case IW_AUTH_DROP_UNENCRYPTED: {
++		/* HACK:
++		 *
++		 * wpa_supplicant calls set_wpa_enabled when the driver
++		 * is loaded and unloaded, regardless of if WPA is being
++		 * used.  No other calls are made which can be used to
++		 * determine if encryption will be used or not prior to
++		 * association being expected.  If encryption is not being
++		 * used, drop_unencrypted is set to false, else true -- we
++		 * can use this to determine if the CAP_PRIVACY_ON bit should
++		 * be set.
++		 */
++
++		if (padapter->securitypriv.ndisencryptstatus == Ndis802_11Encryption1Enabled) {
++			break;/* it means init value, or using wep, ndisencryptstatus = Ndis802_11Encryption1Enabled, */
++			/* then it needn't reset it; */
++		}
++
++		if (param->value) {
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11EncryptionDisabled;
++			padapter->securitypriv.dot11PrivacyAlgrthm = _NO_PRIVACY_;
++			padapter->securitypriv.dot118021XGrpPrivacy = _NO_PRIVACY_;
++			padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Open; /* open system */
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeOpen;
++		}
++
++		break;
++	}
++
++	case IW_AUTH_80211_AUTH_ALG:
++
++#if defined(CONFIG_ANDROID) || 1
++		/*
++		 *  It's the starting point of a link layer connection using wpa_supplicant
++		*/
++		if (check_fwstate(&padapter->mlmepriv, _FW_LINKED)) {
++			LeaveAllPowerSaveMode(padapter);
++			rtw_disassoc_cmd(padapter, 500, _FALSE);
++			RTW_INFO("%s...call rtw_indicate_disconnect\n ", __FUNCTION__);
++			rtw_indicate_disconnect(padapter, 0, _FALSE);
++			rtw_free_assoc_resources(padapter, 1);
++		}
++#endif
++
++
++		ret = wpa_set_auth_algs(dev, (u32)param->value);
++
++		break;
++
++	case IW_AUTH_WPA_ENABLED:
++
++		/* if(param->value) */
++		/* padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_8021X; */ /* 802.1x */
++		/* else */
++		/* padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_Open; */ /* open system */
++
++		/* _disassociate(priv); */
++
++		break;
++
++	case IW_AUTH_RX_UNENCRYPTED_EAPOL:
++		/* ieee->ieee802_1x = param->value; */
++		break;
++
++	case IW_AUTH_PRIVACY_INVOKED:
++		/* ieee->privacy_invoked = param->value; */
++		break;
++
++#ifdef CONFIG_WAPI_SUPPORT
++#ifndef CONFIG_IOCTL_CFG80211
++	case IW_AUTH_WAPI_ENABLED:
++		break;
++#endif
++#endif
++
++	default:
++		return -EOPNOTSUPP;
++
++	}
++
++	return ret;
++
++}
++
++static int rtw_wx_set_enc_ext(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++	char *alg_name;
++	u32 param_len;
++	struct ieee_param *param = NULL;
++	struct iw_point *pencoding = &wrqu->encoding;
++	struct iw_encode_ext *pext = (struct iw_encode_ext *)extra;
++	int ret = 0;
++
++	param_len = sizeof(struct ieee_param) + pext->key_len;
++	param = (struct ieee_param *)rtw_malloc(param_len);
++	if (param == NULL)
++		return -1;
++
++	_rtw_memset(param, 0, param_len);
++
++	param->cmd = IEEE_CMD_SET_ENCRYPTION;
++	_rtw_memset(param->sta_addr, 0xff, ETH_ALEN);
++
++
++	switch (pext->alg) {
++	case IW_ENCODE_ALG_NONE:
++		/* todo: remove key */
++		/* remove = 1;	 */
++		alg_name = "none";
++		break;
++	case IW_ENCODE_ALG_WEP:
++		alg_name = "WEP";
++		break;
++	case IW_ENCODE_ALG_TKIP:
++		alg_name = "TKIP";
++		break;
++	case IW_ENCODE_ALG_CCMP:
++		alg_name = "CCMP";
++		break;
++#ifdef CONFIG_IEEE80211W
++	case IW_ENCODE_ALG_AES_CMAC:
++		alg_name = "BIP";
++		break;
++#endif /* CONFIG_IEEE80211W */
++#ifdef CONFIG_WAPI_SUPPORT
++#ifndef CONFIG_IOCTL_CFG80211
++	case IW_ENCODE_ALG_SM4:
++		alg_name = "SMS4";
++		_rtw_memcpy(param->sta_addr, pext->addr.sa_data, ETH_ALEN);
++		RTW_INFO("rtw_wx_set_enc_ext: SMS4 case\n");
++		break;
++#endif
++#endif
++	default:
++		ret = -1;
++		goto exit;
++	}
++
++	strncpy((char *)param->u.crypt.alg, alg_name, IEEE_CRYPT_ALG_NAME_LEN);
++
++	if (pext->ext_flags & IW_ENCODE_EXT_SET_TX_KEY)
++		param->u.crypt.set_tx = 1;
++
++	/* cliW: WEP does not have group key
++	 * just not checking GROUP key setting
++	 */
++	if ((pext->alg != IW_ENCODE_ALG_WEP) &&
++	    ((pext->ext_flags & IW_ENCODE_EXT_GROUP_KEY)
++#ifdef CONFIG_IEEE80211W
++	     || (pext->ext_flags & IW_ENCODE_ALG_AES_CMAC)
++#endif /* CONFIG_IEEE80211W */
++	    ))
++		param->u.crypt.set_tx = 0;
++
++	param->u.crypt.idx = (pencoding->flags & 0x00FF) - 1 ;
++
++	if (pext->ext_flags & IW_ENCODE_EXT_RX_SEQ_VALID) {
++#ifdef CONFIG_WAPI_SUPPORT
++#ifndef CONFIG_IOCTL_CFG80211
++		if (pext->alg == IW_ENCODE_ALG_SM4)
++			_rtw_memcpy(param->u.crypt.seq, pext->rx_seq, 16);
++		else
++#endif /* CONFIG_IOCTL_CFG80211 */
++#endif /* CONFIG_WAPI_SUPPORT */
++			_rtw_memcpy(param->u.crypt.seq, pext->rx_seq, 8);
++	}
++
++	if (pext->key_len) {
++		param->u.crypt.key_len = pext->key_len;
++		/* _rtw_memcpy(param + 1, pext + 1, pext->key_len); */
++		_rtw_memcpy(param->u.crypt.key, pext + 1, pext->key_len);
++	}
++
++	if (pencoding->flags & IW_ENCODE_DISABLED) {
++		/* todo: remove key */
++		/* remove = 1; */
++	}
++
++	ret =  wpa_set_encryption(dev, param, param_len);
++
++exit:
++	if (param)
++		rtw_mfree((u8 *)param, param_len);
++
++	return ret;
++}
++
++
++static int rtw_wx_get_nick(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	/* _adapter *padapter = (_adapter *)rtw_netdev_priv(dev); */
++	/* struct mlme_priv *pmlmepriv = &(padapter->mlmepriv); */
++	/* struct security_priv *psecuritypriv = &padapter->securitypriv; */
++
++	if (extra) {
++		wrqu->data.length = 14;
++		wrqu->data.flags = 1;
++		_rtw_memcpy(extra, "<WIFI@REALTEK>", 14);
++	}
++
++	/* rtw_signal_process(pid, SIGUSR1); */ /* for test */
++
++	/* dump debug info here	 */
++#if 0
++	u32 dot11AuthAlgrthm;		/*  802.11 auth, could be open, shared, and 8021x */
++	u32 dot11PrivacyAlgrthm;	/*  This specify the privacy for shared auth. algorithm. */
++	u32 dot118021XGrpPrivacy;	/*  This specify the privacy algthm. used for Grp key */
++	u32 ndisauthtype;
++	u32 ndisencryptstatus;
++#endif
++
++	/* RTW_INFO("auth_alg=0x%x, enc_alg=0x%x, auth_type=0x%x, enc_type=0x%x\n",  */
++	/*		psecuritypriv->dot11AuthAlgrthm, psecuritypriv->dot11PrivacyAlgrthm, */
++	/*		psecuritypriv->ndisauthtype, psecuritypriv->ndisencryptstatus); */
++
++	/* RTW_INFO("enc_alg=0x%x\n", psecuritypriv->dot11PrivacyAlgrthm); */
++	/* RTW_INFO("auth_type=0x%x\n", psecuritypriv->ndisauthtype); */
++	/* RTW_INFO("enc_type=0x%x\n", psecuritypriv->ndisencryptstatus); */
++
++#if 0
++	RTW_INFO("dbg(0x210)=0x%x\n", rtw_read32(padapter, 0x210));
++	RTW_INFO("dbg(0x608)=0x%x\n", rtw_read32(padapter, 0x608));
++	RTW_INFO("dbg(0x280)=0x%x\n", rtw_read32(padapter, 0x280));
++	RTW_INFO("dbg(0x284)=0x%x\n", rtw_read32(padapter, 0x284));
++	RTW_INFO("dbg(0x288)=0x%x\n", rtw_read32(padapter, 0x288));
++
++	RTW_INFO("dbg(0x664)=0x%x\n", rtw_read32(padapter, 0x664));
++
++
++	RTW_INFO("\n");
++
++	RTW_INFO("dbg(0x430)=0x%x\n", rtw_read32(padapter, 0x430));
++	RTW_INFO("dbg(0x438)=0x%x\n", rtw_read32(padapter, 0x438));
++
++	RTW_INFO("dbg(0x440)=0x%x\n", rtw_read32(padapter, 0x440));
++
++	RTW_INFO("dbg(0x458)=0x%x\n", rtw_read32(padapter, 0x458));
++
++	RTW_INFO("dbg(0x484)=0x%x\n", rtw_read32(padapter, 0x484));
++	RTW_INFO("dbg(0x488)=0x%x\n", rtw_read32(padapter, 0x488));
++
++	RTW_INFO("dbg(0x444)=0x%x\n", rtw_read32(padapter, 0x444));
++	RTW_INFO("dbg(0x448)=0x%x\n", rtw_read32(padapter, 0x448));
++	RTW_INFO("dbg(0x44c)=0x%x\n", rtw_read32(padapter, 0x44c));
++	RTW_INFO("dbg(0x450)=0x%x\n", rtw_read32(padapter, 0x450));
++#endif
++
++	return 0;
++
++}
++
++static int rtw_wx_read32(struct net_device *dev,
++			 struct iw_request_info *info,
++			 union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter;
++	struct iw_point *p;
++	u16 len;
++	u32 addr;
++	u32 data32;
++	u32 bytes;
++	u8 *ptmp;
++	int ret;
++
++
++	ret = 0;
++	padapter = (PADAPTER)rtw_netdev_priv(dev);
++	p = &wrqu->data;
++	len = p->length;
++	if (0 == len)
++		return -EINVAL;
++
++	ptmp = (u8 *)rtw_malloc(len);
++	if (NULL == ptmp)
++		return -ENOMEM;
++
++	if (copy_from_user(ptmp, p->pointer, len)) {
++		ret = -EFAULT;
++		goto exit;
++	}
++
++	bytes = 0;
++	addr = 0;
++	sscanf(ptmp, "%d,%x", &bytes, &addr);
++
++	switch (bytes) {
++	case 1:
++		data32 = rtw_read8(padapter, addr);
++		sprintf(extra, "0x%02X", data32);
++		break;
++	case 2:
++		data32 = rtw_read16(padapter, addr);
++		sprintf(extra, "0x%04X", data32);
++		break;
++	case 4:
++		data32 = rtw_read32(padapter, addr);
++		sprintf(extra, "0x%08X", data32);
++		break;
++
++	#if defined(CONFIG_SDIO_HCI) && defined(CONFIG_SDIO_INDIRECT_ACCESS) && defined(DBG_SDIO_INDIRECT_ACCESS)
++	case 11:
++		data32 = rtw_sd_iread8(padapter, addr);
++		sprintf(extra, "0x%02X", data32);
++		break;
++	case 12:
++		data32 = rtw_sd_iread16(padapter, addr);
++		sprintf(extra, "0x%04X", data32);
++		break;
++	case 14:
++		data32 = rtw_sd_iread32(padapter, addr);
++		sprintf(extra, "0x%08X", data32);
++		break;
++	#endif
++	default:
++		RTW_INFO("%s: usage> read [bytes],[address(hex)]\n", __func__);
++		ret = -EINVAL;
++		goto exit;
++	}
++	RTW_INFO("%s: addr=0x%08X data=%s\n", __func__, addr, extra);
++
++exit:
++	rtw_mfree(ptmp, len);
++
++	return 0;
++}
++
++static int rtw_wx_write32(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = (PADAPTER)rtw_netdev_priv(dev);
++
++	u32 addr;
++	u32 data32;
++	u32 bytes;
++
++
++	bytes = 0;
++	addr = 0;
++	data32 = 0;
++	sscanf(extra, "%d,%x,%x", &bytes, &addr, &data32);
++
++	switch (bytes) {
++	case 1:
++		rtw_write8(padapter, addr, (u8)data32);
++		RTW_INFO("%s: addr=0x%08X data=0x%02X\n", __func__, addr, (u8)data32);
++		break;
++	case 2:
++		rtw_write16(padapter, addr, (u16)data32);
++		RTW_INFO("%s: addr=0x%08X data=0x%04X\n", __func__, addr, (u16)data32);
++		break;
++	case 4:
++		rtw_write32(padapter, addr, data32);
++		RTW_INFO("%s: addr=0x%08X data=0x%08X\n", __func__, addr, data32);
++		break;
++	default:
++		RTW_INFO("%s: usage> write [bytes],[address(hex)],[data(hex)]\n", __func__);
++		return -EINVAL;
++	}
++
++	return 0;
++}
++
++static int rtw_wx_read_rf(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u32 path, addr, data32;
++
++
++	path = *(u32 *)extra;
++	addr = *((u32 *)extra + 1);
++	data32 = rtw_hal_read_rfreg(padapter, path, addr, 0xFFFFF);
++	/*	RTW_INFO("%s: path=%d addr=0x%02x data=0x%05x\n", __func__, path, addr, data32); */
++	/*
++	 * IMPORTANT!!
++	 * Only when wireless private ioctl is at odd order,
++	 * "extra" would be copied to user space.
++	 */
++	sprintf(extra, "0x%05x", data32);
++
++	return 0;
++}
++
++static int rtw_wx_write_rf(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u32 path, addr, data32;
++
++
++	path = *(u32 *)extra;
++	addr = *((u32 *)extra + 1);
++	data32 = *((u32 *)extra + 2);
++	/*	RTW_INFO("%s: path=%d addr=0x%02x data=0x%05x\n", __func__, path, addr, data32); */
++	rtw_hal_write_rfreg(padapter, path, addr, 0xFFFFF, data32);
++
++	return 0;
++}
++
++static int rtw_wx_priv_null(struct net_device *dev, struct iw_request_info *a,
++			    union iwreq_data *wrqu, char *b)
++{
++	return -1;
++}
++
++static int dummy(struct net_device *dev, struct iw_request_info *a,
++		 union iwreq_data *wrqu, char *b)
++{
++	/* _adapter *padapter = (_adapter *)rtw_netdev_priv(dev);	 */
++	/* struct mlme_priv *pmlmepriv = &(padapter->mlmepriv); */
++
++	/* RTW_INFO("cmd_code=%x, fwstate=0x%x\n", a->cmd, get_fwstate(pmlmepriv)); */
++
++	return -1;
++
++}
++
++static int rtw_wx_set_channel_plan(struct net_device *dev,
++				   struct iw_request_info *info,
++				   union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	u8 channel_plan_req = (u8)(*((int *)wrqu));
++
++	if (_SUCCESS != rtw_set_channel_plan(padapter, channel_plan_req))
++		return -EPERM;
++
++	return 0;
++}
++
++static int rtw_wx_set_mtk_wps_probe_ie(struct net_device *dev,
++				       struct iw_request_info *a,
++				       union iwreq_data *wrqu, char *b)
++{
++#ifdef CONFIG_PLATFORM_MT53XX
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++#endif
++	return 0;
++}
++
++static int rtw_wx_get_sensitivity(struct net_device *dev,
++				  struct iw_request_info *info,
++				  union iwreq_data *wrqu, char *buf)
++{
++#ifdef CONFIG_PLATFORM_MT53XX
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	/*	Modified by Albert 20110914 */
++	/*	This is in dbm format for MTK platform. */
++	wrqu->qual.level = padapter->recvpriv.rssi;
++	RTW_INFO(" level = %u\n",  wrqu->qual.level);
++#endif
++	return 0;
++}
++
++static int rtw_wx_set_mtk_wps_ie(struct net_device *dev,
++				 struct iw_request_info *info,
++				 union iwreq_data *wrqu, char *extra)
++{
++#ifdef CONFIG_PLATFORM_MT53XX
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	return rtw_set_wpa_ie(padapter, wrqu->data.pointer, wrqu->data.length);
++#else
++	return 0;
++#endif
++}
++
++/*
++typedef int (*iw_handler)(struct net_device *dev, struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra);
++*/
++/*
++ *	For all data larger than 16 octets, we need to use a
++ *	pointer to memory allocated in user space.
++ */
++static  int rtw_drvext_hdl(struct net_device *dev, struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++
++#if 0
++	struct	iw_point {
++		void __user	*pointer;	/* Pointer to the data  (in user space) */
++		__u16		length;		/* number of fields or size in bytes */
++		__u16		flags;		/* Optional params */
++	};
++#endif
++
++#ifdef CONFIG_DRVEXT_MODULE
++	u8 res;
++	struct drvext_handler *phandler;
++	struct drvext_oidparam *poidparam;
++	int ret;
++	u16 len;
++	u8 *pparmbuf, bset;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *p = &wrqu->data;
++
++	if ((!p->length) || (!p->pointer)) {
++		ret = -EINVAL;
++		goto _rtw_drvext_hdl_exit;
++	}
++
++
++	bset = (u8)(p->flags & 0xFFFF);
++	len = p->length;
++	pparmbuf = (u8 *)rtw_malloc(len);
++	if (pparmbuf == NULL) {
++		ret = -ENOMEM;
++		goto _rtw_drvext_hdl_exit;
++	}
++
++	if (bset) { /* set info */
++		if (copy_from_user(pparmbuf, p->pointer, len)) {
++			rtw_mfree(pparmbuf, len);
++			ret = -EFAULT;
++			goto _rtw_drvext_hdl_exit;
++		}
++	} else { /* query info */
++
++	}
++
++
++	/*  */
++	poidparam = (struct drvext_oidparam *)pparmbuf;
++
++
++
++	/* check subcode	 */
++	if (poidparam->subcode >= MAX_DRVEXT_HANDLERS) {
++		ret = -EINVAL;
++		goto _rtw_drvext_hdl_exit;
++	}
++
++
++	if (poidparam->subcode >= MAX_DRVEXT_OID_SUBCODES) {
++		ret = -EINVAL;
++		goto _rtw_drvext_hdl_exit;
++	}
++
++
++	phandler = drvextoidhandlers + poidparam->subcode;
++
++	if (poidparam->len != phandler->parmsize) {
++		ret = -EINVAL;
++		goto _rtw_drvext_hdl_exit;
++	}
++
++
++	res = phandler->handler(&padapter->drvextpriv, bset, poidparam->data);
++
++	if (res == 0) {
++		ret = 0;
++
++		if (bset == 0x00) {/* query info */
++			/* _rtw_memcpy(p->pointer, pparmbuf, len); */
++			if (copy_to_user(p->pointer, pparmbuf, len))
++				ret = -EFAULT;
++		}
++	} else
++		ret = -EFAULT;
++
++
++_rtw_drvext_hdl_exit:
++
++	return ret;
++
++#endif
++
++	return 0;
++
++}
++
++static void rtw_dbg_mode_hdl(_adapter *padapter, u32 id, u8 *pdata, u32 len)
++{
++	pRW_Reg	RegRWStruct;
++	struct rf_reg_param *prfreg;
++	u8 path;
++	u8 offset;
++	u32 value;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	switch (id) {
++	case GEN_MP_IOCTL_SUBCODE(MP_START):
++		RTW_INFO("871x_driver is only for normal mode, can't enter mp mode\n");
++		break;
++	case GEN_MP_IOCTL_SUBCODE(READ_REG):
++		RegRWStruct = (pRW_Reg)pdata;
++		switch (RegRWStruct->width) {
++		case 1:
++			RegRWStruct->value = rtw_read8(padapter, RegRWStruct->offset);
++			break;
++		case 2:
++			RegRWStruct->value = rtw_read16(padapter, RegRWStruct->offset);
++			break;
++		case 4:
++			RegRWStruct->value = rtw_read32(padapter, RegRWStruct->offset);
++			break;
++		default:
++			break;
++		}
++
++		break;
++	case GEN_MP_IOCTL_SUBCODE(WRITE_REG):
++		RegRWStruct = (pRW_Reg)pdata;
++		switch (RegRWStruct->width) {
++		case 1:
++			rtw_write8(padapter, RegRWStruct->offset, (u8)RegRWStruct->value);
++			break;
++		case 2:
++			rtw_write16(padapter, RegRWStruct->offset, (u16)RegRWStruct->value);
++			break;
++		case 4:
++			rtw_write32(padapter, RegRWStruct->offset, (u32)RegRWStruct->value);
++			break;
++		default:
++			break;
++		}
++
++		break;
++	case GEN_MP_IOCTL_SUBCODE(READ_RF_REG):
++
++		prfreg = (struct rf_reg_param *)pdata;
++
++		path = (u8)prfreg->path;
++		offset = (u8)prfreg->offset;
++
++		value = rtw_hal_read_rfreg(padapter, path, offset, 0xffffffff);
++
++		prfreg->value = value;
++
++		break;
++	case GEN_MP_IOCTL_SUBCODE(WRITE_RF_REG):
++
++		prfreg = (struct rf_reg_param *)pdata;
++
++		path = (u8)prfreg->path;
++		offset = (u8)prfreg->offset;
++		value = prfreg->value;
++
++		rtw_hal_write_rfreg(padapter, path, offset, 0xffffffff, value);
++
++		break;
++	case GEN_MP_IOCTL_SUBCODE(TRIGGER_GPIO):
++		RTW_INFO("==> trigger gpio 0\n");
++		rtw_hal_set_hwreg(padapter, HW_VAR_TRIGGER_GPIO_0, 0);
++		break;
++#ifdef CONFIG_BT_COEXIST
++	case GEN_MP_IOCTL_SUBCODE(SET_DM_BT):
++		RTW_INFO("==> set dm_bt_coexist:%x\n", *(u8 *)pdata);
++		rtw_hal_set_hwreg(padapter, HW_VAR_BT_SET_COEXIST, pdata);
++		break;
++	case GEN_MP_IOCTL_SUBCODE(DEL_BA):
++		RTW_INFO("==> delete ba:%x\n", *(u8 *)pdata);
++		rtw_hal_set_hwreg(padapter, HW_VAR_BT_ISSUE_DELBA, pdata);
++		break;
++#endif
++#ifdef DBG_CONFIG_ERROR_DETECT
++	case GEN_MP_IOCTL_SUBCODE(GET_WIFI_STATUS):
++		*pdata = rtw_hal_sreset_get_wifi_status(padapter);
++		break;
++#endif
++
++	default:
++		break;
++	}
++
++}
++
++static int rtw_mp_ioctl_hdl(struct net_device *dev, struct iw_request_info *info,
++			    union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++	u32 BytesRead, BytesWritten, BytesNeeded;
++	struct oid_par_priv	oid_par;
++	struct mp_ioctl_handler	*phandler;
++	struct mp_ioctl_param	*poidparam;
++	uint status = 0;
++	u16 len;
++	u8 *pparmbuf = NULL, bset;
++	PADAPTER padapter = (PADAPTER)rtw_netdev_priv(dev);
++	struct iw_point *p = &wrqu->data;
++
++	/* RTW_INFO("+rtw_mp_ioctl_hdl\n"); */
++
++	/* mutex_lock(&ioctl_mutex); */
++
++	if ((!p->length) || (!p->pointer)) {
++		ret = -EINVAL;
++		goto _rtw_mp_ioctl_hdl_exit;
++	}
++
++	pparmbuf = NULL;
++	bset = (u8)(p->flags & 0xFFFF);
++	len = p->length;
++	pparmbuf = (u8 *)rtw_malloc(len);
++	if (pparmbuf == NULL) {
++		ret = -ENOMEM;
++		goto _rtw_mp_ioctl_hdl_exit;
++	}
++
++	if (copy_from_user(pparmbuf, p->pointer, len)) {
++		ret = -EFAULT;
++		goto _rtw_mp_ioctl_hdl_exit;
++	}
++
++	poidparam = (struct mp_ioctl_param *)pparmbuf;
++
++	if (poidparam->subcode >= MAX_MP_IOCTL_SUBCODE) {
++		ret = -EINVAL;
++		goto _rtw_mp_ioctl_hdl_exit;
++	}
++
++	/* RTW_INFO("%s: %d\n", __func__, poidparam->subcode); */
++#ifdef CONFIG_MP_INCLUDED
++	if (padapter->registrypriv.mp_mode == 1) {
++		phandler = mp_ioctl_hdl + poidparam->subcode;
++
++		if ((phandler->paramsize != 0) && (poidparam->len < phandler->paramsize)) {
++			ret = -EINVAL;
++			goto _rtw_mp_ioctl_hdl_exit;
++		}
++
++		if (phandler->handler) {
++			oid_par.adapter_context = padapter;
++			oid_par.oid = phandler->oid;
++			oid_par.information_buf = poidparam->data;
++			oid_par.information_buf_len = poidparam->len;
++			oid_par.dbg = 0;
++
++			BytesWritten = 0;
++			BytesNeeded = 0;
++
++			if (bset) {
++				oid_par.bytes_rw = &BytesRead;
++				oid_par.bytes_needed = &BytesNeeded;
++				oid_par.type_of_oid = SET_OID;
++			} else {
++				oid_par.bytes_rw = &BytesWritten;
++				oid_par.bytes_needed = &BytesNeeded;
++				oid_par.type_of_oid = QUERY_OID;
++			}
++
++			status = phandler->handler(&oid_par);
++
++			/* todo:check status, BytesNeeded, etc. */
++		} else {
++			RTW_INFO("rtw_mp_ioctl_hdl(): err!, subcode=%d, oid=%d, handler=%p\n",
++				poidparam->subcode, phandler->oid, phandler->handler);
++			ret = -EFAULT;
++			goto _rtw_mp_ioctl_hdl_exit;
++		}
++	} else
++#endif
++	{
++		rtw_dbg_mode_hdl(padapter, poidparam->subcode, poidparam->data, poidparam->len);
++	}
++
++	if (bset == 0x00) {/* query info */
++		if (copy_to_user(p->pointer, pparmbuf, len))
++			ret = -EFAULT;
++	}
++
++	if (status) {
++		ret = -EFAULT;
++		goto _rtw_mp_ioctl_hdl_exit;
++	}
++
++_rtw_mp_ioctl_hdl_exit:
++
++	if (pparmbuf)
++		rtw_mfree(pparmbuf, len);
++
++	/* mutex_unlock(&ioctl_mutex); */
++
++	return ret;
++}
++
++static int rtw_get_ap_info(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	int bssid_match, ret = 0;
++	u32 cnt = 0, wpa_ielen;
++	_irqL	irqL;
++	_list	*plist, *phead;
++	unsigned char *pbuf;
++	u8 bssid[ETH_ALEN];
++	char data[32];
++	struct wlan_network *pnetwork = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	_queue *queue = &(pmlmepriv->scanned_queue);
++	struct iw_point *pdata = &wrqu->data;
++
++	RTW_INFO("+rtw_get_aplist_info\n");
++
++	if (rtw_is_drv_stopped(padapter) || (pdata == NULL)) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	while ((check_fwstate(pmlmepriv, (_FW_UNDER_SURVEY | _FW_UNDER_LINKING))) == _TRUE) {
++		rtw_msleep_os(30);
++		cnt++;
++		if (cnt > 100)
++			break;
++	}
++
++
++	/* pdata->length = 0; */ /* ?	 */
++	pdata->flags = 0;
++	if (pdata->length >= 32) {
++		if (copy_from_user(data, pdata->pointer, 32)) {
++			ret = -EINVAL;
++			goto exit;
++		}
++	} else {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		/* if(hwaddr_aton_i(pdata->pointer, bssid)) */
++		if (hwaddr_aton_i(data, bssid)) {
++			RTW_INFO("Invalid BSSID '%s'.\n", (u8 *)data);
++			_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++			return -EINVAL;
++		}
++
++
++		if (_rtw_memcmp(bssid, pnetwork->network.MacAddress, ETH_ALEN) == _TRUE) { /* BSSID match, then check if supporting wpa/wpa2 */
++			RTW_INFO("BSSID:" MAC_FMT "\n", MAC_ARG(bssid));
++
++			pbuf = rtw_get_wpa_ie(&pnetwork->network.IEs[12], &wpa_ielen, pnetwork->network.IELength - 12);
++			if (pbuf && (wpa_ielen > 0)) {
++				pdata->flags = 1;
++				break;
++			}
++
++			pbuf = rtw_get_wpa2_ie(&pnetwork->network.IEs[12], &wpa_ielen, pnetwork->network.IELength - 12);
++			if (pbuf && (wpa_ielen > 0)) {
++				pdata->flags = 2;
++				break;
++			}
++
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (pdata->length >= 34) {
++		if (copy_to_user((u8 *)pdata->pointer + 32, (u8 *)&pdata->flags, 1)) {
++			ret = -EINVAL;
++			goto exit;
++		}
++	}
++
++exit:
++
++	return ret;
++
++}
++
++static int rtw_set_pid(struct net_device *dev,
++		       struct iw_request_info *info,
++		       union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = rtw_netdev_priv(dev);
++	int *pdata = (int *)wrqu;
++	int selector;
++
++	if (rtw_is_drv_stopped(padapter) || (pdata == NULL)) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	selector = *pdata;
++	if (selector < 3 && selector >= 0) {
++		padapter->pid[selector] = *(pdata + 1);
++#ifdef CONFIG_GLOBAL_UI_PID
++		ui_pid[selector] = *(pdata + 1);
++#endif
++		RTW_INFO("%s set pid[%d]=%d\n", __FUNCTION__, selector , padapter->pid[selector]);
++	} else
++		RTW_INFO("%s selector %d error\n", __FUNCTION__, selector);
++
++exit:
++
++	return ret;
++
++}
++
++static int rtw_wps_start(struct net_device *dev,
++			 struct iw_request_info *info,
++			 union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	u32   u32wps_start = 0;
++	unsigned int uintRet = 0;
++
++	if (RTW_CANNOT_RUN(padapter) || (NULL == pdata)) {
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	uintRet = copy_from_user((void *) &u32wps_start, pdata->pointer, 4);
++	if (u32wps_start == 0)
++		u32wps_start = *extra;
++
++	RTW_INFO("[%s] wps_start = %d\n", __FUNCTION__, u32wps_start);
++
++	if (u32wps_start == 1)   /* WPS Start */
++		rtw_led_control(padapter, LED_CTL_START_WPS);
++	else if (u32wps_start == 2)   /* WPS Stop because of wps success */
++		rtw_led_control(padapter, LED_CTL_STOP_WPS);
++	else if (u32wps_start == 3)   /* WPS Stop because of wps fail */
++		rtw_led_control(padapter, LED_CTL_STOP_WPS_FAIL);
++
++#ifdef CONFIG_INTEL_WIDI
++	process_intel_widi_wps_status(padapter, u32wps_start);
++#endif /* CONFIG_INTEL_WIDI */
++
++exit:
++
++	return ret;
++
++}
++
++#ifdef CONFIG_P2P
++static int rtw_wext_p2p_enable(struct net_device *dev,
++			       struct iw_request_info *info,
++			       union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	enum P2P_ROLE init_role = P2P_ROLE_DISABLE;
++
++	if (*extra == '0')
++		init_role = P2P_ROLE_DISABLE;
++	else if (*extra == '1')
++		init_role = P2P_ROLE_DEVICE;
++	else if (*extra == '2')
++		init_role = P2P_ROLE_CLIENT;
++	else if (*extra == '3')
++		init_role = P2P_ROLE_GO;
++
++	if (_FAIL == rtw_p2p_enable(padapter, init_role)) {
++		ret = -EFAULT;
++		goto exit;
++	}
++
++	/* set channel/bandwidth */
++	if (init_role != P2P_ROLE_DISABLE) {
++		u8 channel, ch_offset;
++		u16 bwmode;
++
++		if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_LISTEN)) {
++			/*	Stay at the listen state and wait for discovery. */
++			channel = pwdinfo->listen_channel;
++			pwdinfo->operating_channel = pwdinfo->listen_channel;
++			ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++			bwmode = CHANNEL_WIDTH_20;
++		}
++#ifdef CONFIG_CONCURRENT_MODE
++		else if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_IDLE)) {
++
++			_set_timer(&pwdinfo->ap_p2p_switch_timer, pwdinfo->ext_listen_interval);
++
++			channel = rtw_mi_get_union_chan(padapter);
++			ch_offset = rtw_mi_get_union_offset(padapter);
++			bwmode = rtw_mi_get_union_bw(padapter);
++
++			pwdinfo->operating_channel = channel;
++		}
++#endif
++		else {
++			pwdinfo->operating_channel = pmlmeext->cur_channel;
++
++			channel = pwdinfo->operating_channel;
++			ch_offset = pmlmeext->cur_ch_offset;
++			bwmode = pmlmeext->cur_bwmode;
++		}
++
++		set_channel_bwmode(padapter, channel, ch_offset, bwmode);
++	}
++
++exit:
++	return ret;
++
++}
++
++static int rtw_p2p_set_go_nego_ssid(struct net_device *dev,
++				    struct iw_request_info *info,
++				    union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++
++	RTW_INFO("[%s] ssid = %s, len = %zu\n", __FUNCTION__, extra, strlen(extra));
++	_rtw_memcpy(pwdinfo->nego_ssid, extra, strlen(extra));
++	pwdinfo->nego_ssidlen = strlen(extra);
++
++	return ret;
++
++}
++
++
++static int rtw_p2p_set_intent(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++	int							ret = 0;
++	_adapter						*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info			*pwdinfo = &(padapter->wdinfo);
++	u8							intent = pwdinfo->intent;
++
++	extra[wrqu->data.length] = 0x00;
++
++	intent = rtw_atoi(extra);
++
++	if (intent <= 15)
++		pwdinfo->intent = intent;
++	else
++		ret = -1;
++
++	RTW_INFO("[%s] intent = %d\n", __FUNCTION__, intent);
++
++	return ret;
++
++}
++
++static int rtw_p2p_set_listen_ch(struct net_device *dev,
++				 struct iw_request_info *info,
++				 union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++	u8	listen_ch = pwdinfo->listen_channel;	/*	Listen channel number */
++
++	extra[wrqu->data.length] = 0x00;
++	listen_ch = rtw_atoi(extra);
++
++	if ((listen_ch == 1) || (listen_ch == 6) || (listen_ch == 11)) {
++		pwdinfo->listen_channel = listen_ch;
++		set_channel_bwmode(padapter, pwdinfo->listen_channel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++	} else
++		ret = -1;
++
++	RTW_INFO("[%s] listen_ch = %d\n", __FUNCTION__, pwdinfo->listen_channel);
++
++	return ret;
++
++}
++
++static int rtw_p2p_set_op_ch(struct net_device *dev,
++			     struct iw_request_info *info,
++			     union iwreq_data *wrqu, char *extra)
++{
++	/*	Commented by Albert 20110524
++	 *	This function is used to set the operating channel if the driver will become the group owner */
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++	u8	op_ch = pwdinfo->operating_channel;	/*	Operating channel number */
++
++	extra[wrqu->data.length] = 0x00;
++
++	op_ch = (u8) rtw_atoi(extra);
++	if (op_ch > 0)
++		pwdinfo->operating_channel = op_ch;
++	else
++		ret = -1;
++
++	RTW_INFO("[%s] op_ch = %d\n", __FUNCTION__, pwdinfo->operating_channel);
++
++	return ret;
++
++}
++
++
++static int rtw_p2p_profilefound(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++
++	/*	Comment by Albert 2010/10/13 */
++	/*	Input data format: */
++	/*	Ex:  0 */
++	/*	Ex:  1XX:XX:XX:XX:XX:XXYYSSID */
++	/*	0 => Reflush the profile record list. */
++	/*	1 => Add the profile list */
++	/*	XX:XX:XX:XX:XX:XX => peer's MAC Address ( ex: 00:E0:4C:00:00:01 ) */
++	/*	YY => SSID Length */
++	/*	SSID => SSID for persistence group */
++
++	RTW_INFO("[%s] In value = %s, len = %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++
++	/*	The upper application should pass the SSID to driver by using this rtw_p2p_profilefound function. */
++	if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++		if (extra[0] == '0') {
++			/*	Remove all the profile information of wifidirect_info structure. */
++			_rtw_memset(&pwdinfo->profileinfo[0], 0x00, sizeof(struct profile_info) * P2P_MAX_PERSISTENT_GROUP_NUM);
++			pwdinfo->profileindex = 0;
++		} else {
++			if (pwdinfo->profileindex >= P2P_MAX_PERSISTENT_GROUP_NUM)
++				ret = -1;
++			else {
++				int jj, kk;
++
++				/*	Add this profile information into pwdinfo->profileinfo */
++				/*	Ex:  1XX:XX:XX:XX:XX:XXYYSSID */
++				for (jj = 0, kk = 1; jj < ETH_ALEN; jj++, kk += 3)
++					pwdinfo->profileinfo[pwdinfo->profileindex].peermac[jj] = key_2char2num(extra[kk], extra[kk + 1]);
++
++				/* pwdinfo->profileinfo[pwdinfo->profileindex].ssidlen = ( extra[18] - '0' ) * 10 + ( extra[19] - '0' ); */
++				/* _rtw_memcpy( pwdinfo->profileinfo[pwdinfo->profileindex].ssid, &extra[20], pwdinfo->profileinfo[pwdinfo->profileindex].ssidlen ); */
++				pwdinfo->profileindex++;
++			}
++		}
++	}
++
++	return ret;
++
++}
++
++static int rtw_p2p_setDN(struct net_device *dev,
++			 struct iw_request_info *info,
++			 union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++	_rtw_memset(pwdinfo->device_name, 0x00, WPS_MAX_DEVICE_NAME_LEN);
++	_rtw_memcpy(pwdinfo->device_name, extra, wrqu->data.length - 1);
++	pwdinfo->device_name_len = wrqu->data.length - 1;
++
++	return ret;
++
++}
++
++
++static int rtw_p2p_get_status(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	if (padapter->bShowGetP2PState) {
++		RTW_INFO("[%s] Role = %d, Status = %d, peer addr = %.2X:%.2X:%.2X:%.2X:%.2X:%.2X\n", __FUNCTION__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo),
++			pwdinfo->p2p_peer_interface_addr[0], pwdinfo->p2p_peer_interface_addr[1], pwdinfo->p2p_peer_interface_addr[2],
++			pwdinfo->p2p_peer_interface_addr[3], pwdinfo->p2p_peer_interface_addr[4], pwdinfo->p2p_peer_interface_addr[5]);
++	}
++
++	/*	Commented by Albert 2010/10/12 */
++	/*	Because of the output size limitation, I had removed the "Role" information. */
++	/*	About the "Role" information, we will use the new private IOCTL to get the "Role" information. */
++	sprintf(extra, "\n\nStatus=%.2d\n", rtw_p2p_state(pwdinfo));
++	wrqu->data.length = strlen(extra);
++
++	return ret;
++
++}
++
++/*	Commented by Albert 20110520
++ *	This function will return the config method description
++ *	This config method description will show us which config method the remote P2P device is intented to use
++ *	by sending the provisioning discovery request frame. */
++
++static int rtw_p2p_get_req_cm(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	sprintf(extra, "\n\nCM=%s\n", pwdinfo->rx_prov_disc_info.strconfig_method_desc_of_prov_disc_req);
++	wrqu->data.length = strlen(extra);
++	return ret;
++
++}
++
++
++static int rtw_p2p_get_role(struct net_device *dev,
++			    struct iw_request_info *info,
++			    union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	RTW_INFO("[%s] Role = %d, Status = %d, peer addr = %.2X:%.2X:%.2X:%.2X:%.2X:%.2X\n", __FUNCTION__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo),
++		pwdinfo->p2p_peer_interface_addr[0], pwdinfo->p2p_peer_interface_addr[1], pwdinfo->p2p_peer_interface_addr[2],
++		pwdinfo->p2p_peer_interface_addr[3], pwdinfo->p2p_peer_interface_addr[4], pwdinfo->p2p_peer_interface_addr[5]);
++
++	sprintf(extra, "\n\nRole=%.2d\n", rtw_p2p_role(pwdinfo));
++	wrqu->data.length = strlen(extra);
++	return ret;
++
++}
++
++
++static int rtw_p2p_get_peer_ifaddr(struct net_device *dev,
++				   struct iw_request_info *info,
++				   union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	RTW_INFO("[%s] Role = %d, Status = %d, peer addr = %.2X:%.2X:%.2X:%.2X:%.2X:%.2X\n", __FUNCTION__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo),
++		pwdinfo->p2p_peer_interface_addr[0], pwdinfo->p2p_peer_interface_addr[1], pwdinfo->p2p_peer_interface_addr[2],
++		pwdinfo->p2p_peer_interface_addr[3], pwdinfo->p2p_peer_interface_addr[4], pwdinfo->p2p_peer_interface_addr[5]);
++
++	sprintf(extra, "\nMAC %.2X:%.2X:%.2X:%.2X:%.2X:%.2X",
++		pwdinfo->p2p_peer_interface_addr[0], pwdinfo->p2p_peer_interface_addr[1], pwdinfo->p2p_peer_interface_addr[2],
++		pwdinfo->p2p_peer_interface_addr[3], pwdinfo->p2p_peer_interface_addr[4], pwdinfo->p2p_peer_interface_addr[5]);
++	wrqu->data.length = strlen(extra);
++	return ret;
++
++}
++
++static int rtw_p2p_get_peer_devaddr(struct net_device *dev,
++				    struct iw_request_info *info,
++				    union iwreq_data *wrqu, char *extra)
++
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	RTW_INFO("[%s] Role = %d, Status = %d, peer addr = %.2X:%.2X:%.2X:%.2X:%.2X:%.2X\n", __FUNCTION__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo),
++		pwdinfo->rx_prov_disc_info.peerDevAddr[0], pwdinfo->rx_prov_disc_info.peerDevAddr[1],
++		pwdinfo->rx_prov_disc_info.peerDevAddr[2], pwdinfo->rx_prov_disc_info.peerDevAddr[3],
++		pwdinfo->rx_prov_disc_info.peerDevAddr[4], pwdinfo->rx_prov_disc_info.peerDevAddr[5]);
++	sprintf(extra, "\n%.2X%.2X%.2X%.2X%.2X%.2X",
++		pwdinfo->rx_prov_disc_info.peerDevAddr[0], pwdinfo->rx_prov_disc_info.peerDevAddr[1],
++		pwdinfo->rx_prov_disc_info.peerDevAddr[2], pwdinfo->rx_prov_disc_info.peerDevAddr[3],
++		pwdinfo->rx_prov_disc_info.peerDevAddr[4], pwdinfo->rx_prov_disc_info.peerDevAddr[5]);
++	wrqu->data.length = strlen(extra);
++	return ret;
++
++}
++
++static int rtw_p2p_get_peer_devaddr_by_invitation(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra)
++
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	RTW_INFO("[%s] Role = %d, Status = %d, peer addr = %.2X:%.2X:%.2X:%.2X:%.2X:%.2X\n", __FUNCTION__, rtw_p2p_role(pwdinfo), rtw_p2p_state(pwdinfo),
++		pwdinfo->p2p_peer_device_addr[0], pwdinfo->p2p_peer_device_addr[1],
++		pwdinfo->p2p_peer_device_addr[2], pwdinfo->p2p_peer_device_addr[3],
++		pwdinfo->p2p_peer_device_addr[4], pwdinfo->p2p_peer_device_addr[5]);
++	sprintf(extra, "\nMAC %.2X:%.2X:%.2X:%.2X:%.2X:%.2X",
++		pwdinfo->p2p_peer_device_addr[0], pwdinfo->p2p_peer_device_addr[1],
++		pwdinfo->p2p_peer_device_addr[2], pwdinfo->p2p_peer_device_addr[3],
++		pwdinfo->p2p_peer_device_addr[4], pwdinfo->p2p_peer_device_addr[5]);
++	wrqu->data.length = strlen(extra);
++	return ret;
++
++}
++
++static int rtw_p2p_get_groupid(struct net_device *dev,
++			       struct iw_request_info *info,
++			       union iwreq_data *wrqu, char *extra)
++
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	sprintf(extra, "\n%.2X:%.2X:%.2X:%.2X:%.2X:%.2X %s",
++		pwdinfo->groupid_info.go_device_addr[0], pwdinfo->groupid_info.go_device_addr[1],
++		pwdinfo->groupid_info.go_device_addr[2], pwdinfo->groupid_info.go_device_addr[3],
++		pwdinfo->groupid_info.go_device_addr[4], pwdinfo->groupid_info.go_device_addr[5],
++		pwdinfo->groupid_info.ssid);
++	wrqu->data.length = strlen(extra);
++	return ret;
++
++}
++
++static int rtw_p2p_get_op_ch(struct net_device *dev,
++			     struct iw_request_info *info,
++			     union iwreq_data *wrqu, char *extra)
++
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	RTW_INFO("[%s] Op_ch = %02x\n", __FUNCTION__, pwdinfo->operating_channel);
++
++	sprintf(extra, "\n\nOp_ch=%.2d\n", pwdinfo->operating_channel);
++	wrqu->data.length = strlen(extra);
++	return ret;
++
++}
++
++static int rtw_p2p_get_wps_configmethod(struct net_device *dev,
++					struct iw_request_info *info,
++			union iwreq_data *wrqu, char *extra, char *subcmd)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 peerMAC[ETH_ALEN] = { 0x00 };
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_irqL irqL;
++	_list *plist, *phead;
++	_queue *queue = &(pmlmepriv->scanned_queue);
++	struct wlan_network *pnetwork = NULL;
++	u8 blnMatch = 0;
++	u16	attr_content = 0;
++	uint attr_contentlen = 0;
++	u8	attr_content_str[P2P_PRIVATE_IOCTL_SET_LEN] = { 0x00 };
++
++	/*	Commented by Albert 20110727 */
++	/*	The input data is the MAC address which the application wants to know its WPS config method. */
++	/*	After knowing its WPS config method, the application can decide the config method for provisioning discovery. */
++	/*	Format: iwpriv wlanx p2p_get_wpsCM 00:E0:4C:00:00:05 */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, subcmd);
++
++	macstr2num(peerMAC, subcmd);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if (_rtw_memcmp(pnetwork->network.MacAddress, peerMAC, ETH_ALEN)) {
++			u8 *wpsie;
++			uint	wpsie_len = 0;
++
++			/*	The mac address is matched. */
++
++			wpsie = rtw_get_wps_ie_from_scan_queue(&pnetwork->network.IEs[0], pnetwork->network.IELength, NULL, &wpsie_len, pnetwork->network.Reserved[0]);
++			if (wpsie) {
++				rtw_get_wps_attr_content(wpsie, wpsie_len, WPS_ATTR_CONF_METHOD, (u8 *)&attr_content, &attr_contentlen);
++				if (attr_contentlen) {
++					attr_content = be16_to_cpu(attr_content);
++					sprintf(attr_content_str, "\n\nM=%.4d", attr_content);
++					blnMatch = 1;
++				}
++			}
++
++			break;
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (!blnMatch)
++		sprintf(attr_content_str, "\n\nM=0000");
++
++	wrqu->data.length = strlen(attr_content_str);
++	_rtw_memcpy(extra, attr_content_str, wrqu->data.length);
++
++	return ret;
++
++}
++
++#ifdef CONFIG_WFD
++static int rtw_p2p_get_peer_wfd_port(struct net_device *dev,
++				     struct iw_request_info *info,
++				     union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	RTW_INFO("[%s] p2p_state = %d\n", __FUNCTION__, rtw_p2p_state(pwdinfo));
++
++	sprintf(extra, "\n\nPort=%d\n", pwdinfo->wfd_info->peer_rtsp_ctrlport);
++	RTW_INFO("[%s] remote port = %d\n", __FUNCTION__, pwdinfo->wfd_info->peer_rtsp_ctrlport);
++
++	wrqu->data.length = strlen(extra);
++	return ret;
++
++}
++
++static int rtw_p2p_get_peer_wfd_preferred_connection(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	sprintf(extra, "\n\nwfd_pc=%d\n", pwdinfo->wfd_info->wfd_pc);
++	RTW_INFO("[%s] wfd_pc = %d\n", __FUNCTION__, pwdinfo->wfd_info->wfd_pc);
++
++	wrqu->data.length = strlen(extra);
++	pwdinfo->wfd_info->wfd_pc = _FALSE;	/*	Reset the WFD preferred connection to P2P */
++	return ret;
++
++}
++
++static int rtw_p2p_get_peer_wfd_session_available(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++	sprintf(extra, "\n\nwfd_sa=%d\n", pwdinfo->wfd_info->peer_session_avail);
++	RTW_INFO("[%s] wfd_sa = %d\n", __FUNCTION__, pwdinfo->wfd_info->peer_session_avail);
++
++	wrqu->data.length = strlen(extra);
++	pwdinfo->wfd_info->peer_session_avail = _TRUE;	/*	Reset the WFD session available */
++	return ret;
++
++}
++#endif /* CONFIG_WFD */
++
++static int rtw_p2p_get_go_device_address(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra, char *subcmd)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 peerMAC[ETH_ALEN] = { 0x00 };
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_irqL irqL;
++	_list *plist, *phead;
++	_queue *queue	= &(pmlmepriv->scanned_queue);
++	struct wlan_network *pnetwork = NULL;
++	u8 blnMatch = 0;
++	u8 *p2pie;
++	uint p2pielen = 0, attr_contentlen = 0;
++	u8 attr_content[100] = { 0x00 };
++	u8 go_devadd_str[P2P_PRIVATE_IOCTL_SET_LEN] = { 0x00 };
++
++	/*	Commented by Albert 20121209 */
++	/*	The input data is the GO's interface address which the application wants to know its device address. */
++	/*	Format: iwpriv wlanx p2p_get2 go_devadd=00:E0:4C:00:00:05 */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, subcmd);
++
++	macstr2num(peerMAC, subcmd);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if (_rtw_memcmp(pnetwork->network.MacAddress, peerMAC, ETH_ALEN)) {
++			/*	Commented by Albert 2011/05/18 */
++			/*	Match the device address located in the P2P IE */
++			/*	This is for the case that the P2P device address is not the same as the P2P interface address. */
++
++			p2pie = rtw_bss_ex_get_p2p_ie(&pnetwork->network, NULL, &p2pielen);
++			if (p2pie) {
++				while (p2pie) {
++					/*	The P2P Device ID attribute is included in the Beacon frame. */
++					/*	The P2P Device Info attribute is included in the probe response frame. */
++
++					_rtw_memset(attr_content, 0x00, 100);
++					if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_DEVICE_ID, attr_content, &attr_contentlen)) {
++						/*	Handle the P2P Device ID attribute of Beacon first */
++						blnMatch = 1;
++						break;
++
++					} else if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_DEVICE_INFO, attr_content, &attr_contentlen)) {
++						/*	Handle the P2P Device Info attribute of probe response */
++						blnMatch = 1;
++						break;
++					}
++
++					/* Get the next P2P IE */
++					p2pie = rtw_get_p2p_ie(p2pie + p2pielen, BSS_EX_TLV_IES_LEN(&pnetwork->network) - (p2pie + p2pielen - BSS_EX_TLV_IES(&pnetwork->network)), NULL, &p2pielen);
++				}
++			}
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (!blnMatch)
++		sprintf(go_devadd_str, "\n\ndev_add=NULL");
++	else {
++		sprintf(go_devadd_str, "\n\ndev_add=%.2X:%.2X:%.2X:%.2X:%.2X:%.2X",
++			attr_content[0], attr_content[1], attr_content[2], attr_content[3], attr_content[4], attr_content[5]);
++	}
++
++	wrqu->data.length = strlen(go_devadd_str);
++	_rtw_memcpy(extra, go_devadd_str, wrqu->data.length);
++
++	return ret;
++
++}
++
++static int rtw_p2p_get_device_type(struct net_device *dev,
++				   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra, char *subcmd)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 peerMAC[ETH_ALEN] = { 0x00 };
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_irqL irqL;
++	_list *plist, *phead;
++	_queue *queue = &(pmlmepriv->scanned_queue);
++	struct wlan_network *pnetwork = NULL;
++	u8 blnMatch = 0;
++	u8 dev_type[8] = { 0x00 };
++	uint dev_type_len = 0;
++	u8 dev_type_str[P2P_PRIVATE_IOCTL_SET_LEN] = { 0x00 };    /* +9 is for the str "dev_type=", we have to clear it at wrqu->data.pointer */
++
++	/*	Commented by Albert 20121209 */
++	/*	The input data is the MAC address which the application wants to know its device type. */
++	/*	Such user interface could know the device type. */
++	/*	Format: iwpriv wlanx p2p_get2 dev_type=00:E0:4C:00:00:05 */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, subcmd);
++
++	macstr2num(peerMAC, subcmd);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if (_rtw_memcmp(pnetwork->network.MacAddress, peerMAC, ETH_ALEN)) {
++			u8 *wpsie;
++			uint	wpsie_len = 0;
++
++			/*	The mac address is matched. */
++
++			wpsie = rtw_get_wps_ie_from_scan_queue(&pnetwork->network.IEs[0], pnetwork->network.IELength, NULL, &wpsie_len, pnetwork->network.Reserved[0]);
++			if (wpsie) {
++				rtw_get_wps_attr_content(wpsie, wpsie_len, WPS_ATTR_PRIMARY_DEV_TYPE, dev_type, &dev_type_len);
++				if (dev_type_len) {
++					u16	type = 0;
++
++					_rtw_memcpy(&type, dev_type, 2);
++					type = be16_to_cpu(type);
++					sprintf(dev_type_str, "\n\nN=%.2d", type);
++					blnMatch = 1;
++				}
++			}
++			break;
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (!blnMatch)
++		sprintf(dev_type_str, "\n\nN=00");
++
++	wrqu->data.length = strlen(dev_type_str);
++	_rtw_memcpy(extra, dev_type_str, wrqu->data.length);
++
++	return ret;
++
++}
++
++static int rtw_p2p_get_device_name(struct net_device *dev,
++				   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra, char *subcmd)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 peerMAC[ETH_ALEN] = { 0x00 };
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_irqL irqL;
++	_list *plist, *phead;
++	_queue *queue = &(pmlmepriv->scanned_queue);
++	struct wlan_network *pnetwork = NULL;
++	u8 blnMatch = 0;
++	u8 dev_name[WPS_MAX_DEVICE_NAME_LEN] = { 0x00 };
++	uint dev_len = 0;
++	u8 dev_name_str[P2P_PRIVATE_IOCTL_SET_LEN] = { 0x00 };
++
++	/*	Commented by Albert 20121225 */
++	/*	The input data is the MAC address which the application wants to know its device name. */
++	/*	Such user interface could show peer device's device name instead of ssid. */
++	/*	Format: iwpriv wlanx p2p_get2 devN=00:E0:4C:00:00:05 */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, subcmd);
++
++	macstr2num(peerMAC, subcmd);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if (_rtw_memcmp(pnetwork->network.MacAddress, peerMAC, ETH_ALEN)) {
++			u8 *wpsie;
++			uint	wpsie_len = 0;
++
++			/*	The mac address is matched. */
++
++			wpsie = rtw_get_wps_ie_from_scan_queue(&pnetwork->network.IEs[0], pnetwork->network.IELength, NULL, &wpsie_len, pnetwork->network.Reserved[0]);
++			if (wpsie) {
++				rtw_get_wps_attr_content(wpsie, wpsie_len, WPS_ATTR_DEVICE_NAME, dev_name, &dev_len);
++				if (dev_len) {
++					sprintf(dev_name_str, "\n\nN=%s", dev_name);
++					blnMatch = 1;
++				}
++			}
++			break;
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (!blnMatch)
++		sprintf(dev_name_str, "\n\nN=0000");
++
++	wrqu->data.length = strlen(dev_name_str);
++	_rtw_memcpy(extra, dev_name_str, wrqu->data.length);
++
++	return ret;
++
++}
++
++static int rtw_p2p_get_invitation_procedure(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra, char *subcmd)
++{
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 peerMAC[ETH_ALEN] = { 0x00 };
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	_irqL irqL;
++	_list *plist, *phead;
++	_queue *queue	= &(pmlmepriv->scanned_queue);
++	struct wlan_network *pnetwork = NULL;
++	u8 blnMatch = 0;
++	u8 *p2pie;
++	uint p2pielen = 0, attr_contentlen = 0;
++	u8 attr_content[2] = { 0x00 };
++	u8 inv_proc_str[P2P_PRIVATE_IOCTL_SET_LEN] = { 0x00 };
++
++	/*	Commented by Ouden 20121226 */
++	/*	The application wants to know P2P initation procedure is support or not. */
++	/*	Format: iwpriv wlanx p2p_get2 InvProc=00:E0:4C:00:00:05 */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, subcmd);
++
++	macstr2num(peerMAC, subcmd);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if (_rtw_memcmp(pnetwork->network.MacAddress, peerMAC, ETH_ALEN)) {
++			/*	Commented by Albert 20121226 */
++			/*	Match the device address located in the P2P IE */
++			/*	This is for the case that the P2P device address is not the same as the P2P interface address. */
++
++			p2pie = rtw_bss_ex_get_p2p_ie(&pnetwork->network, NULL, &p2pielen);
++			if (p2pie) {
++				while (p2pie) {
++					/* _rtw_memset( attr_content, 0x00, 2); */
++					if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_CAPABILITY, attr_content, &attr_contentlen)) {
++						/*	Handle the P2P capability attribute */
++						blnMatch = 1;
++						break;
++
++					}
++
++					/* Get the next P2P IE */
++					p2pie = rtw_get_p2p_ie(p2pie + p2pielen, BSS_EX_TLV_IES_LEN(&pnetwork->network) - (p2pie + p2pielen - BSS_EX_TLV_IES(&pnetwork->network)), NULL, &p2pielen);
++				}
++			}
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (!blnMatch)
++		sprintf(inv_proc_str, "\nIP=-1");
++	else {
++		if ((attr_content[0] & 0x20) == 0x20)
++			sprintf(inv_proc_str, "\nIP=1");
++		else
++			sprintf(inv_proc_str, "\nIP=0");
++	}
++
++	wrqu->data.length = strlen(inv_proc_str);
++	_rtw_memcpy(extra, inv_proc_str, wrqu->data.length);
++
++	return ret;
++
++}
++
++static int rtw_p2p_connect(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter				*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8					peerMAC[ETH_ALEN] = { 0x00 };
++	int					jj, kk;
++	u8					peerMACStr[ETH_ALEN * 2] = { 0x00 };
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	_irqL				irqL;
++	_list					*plist, *phead;
++	_queue				*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	uint					uintPeerChannel = 0;
++
++	/*	Commented by Albert 20110304 */
++	/*	The input data contains two informations. */
++	/*	1. First information is the MAC address which wants to formate with */
++	/*	2. Second information is the WPS PINCode or "pbc" string for push button method */
++	/*	Format: 00:E0:4C:00:00:05 */
++	/*	Format: 00:E0:4C:00:00:05 */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, extra);
++
++	if (pwdinfo->p2p_state == P2P_STATE_NONE) {
++		RTW_INFO("[%s] WiFi Direct is disable!\n", __FUNCTION__);
++		return ret;
++	}
++
++#ifdef CONFIG_INTEL_WIDI
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE) {
++		RTW_INFO("[%s] WiFi is under survey!\n", __FUNCTION__);
++		return ret;
++	}
++#endif /* CONFIG_INTEL_WIDI	 */
++
++	if (pwdinfo->ui_got_wps_info == P2P_NO_WPSINFO)
++		return -1;
++
++	for (jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3)
++		peerMAC[jj] = key_2char2num(extra[kk], extra[kk + 1]);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++		if (_rtw_memcmp(pnetwork->network.MacAddress, peerMAC, ETH_ALEN)) {
++			if (pnetwork->network.Configuration.DSConfig != 0)
++				uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++			else if (pwdinfo->nego_req_info.peer_ch != 0)
++				uintPeerChannel = pnetwork->network.Configuration.DSConfig = pwdinfo->nego_req_info.peer_ch;
++			else {
++				/* Unexpected case */
++				uintPeerChannel = 0;
++				RTW_INFO("%s  uintPeerChannel = 0\n", __func__);
++			}
++			break;
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (uintPeerChannel) {
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			_cancel_timer_ex(&pwdinfo->ap_p2p_switch_timer);
++#endif /* CONFIG_CONCURRENT_MODE */
++
++		_rtw_memset(&pwdinfo->nego_req_info, 0x00, sizeof(struct tx_nego_req_info));
++		_rtw_memset(&pwdinfo->groupid_info, 0x00, sizeof(struct group_id_info));
++
++		pwdinfo->nego_req_info.peer_channel_num[0] = uintPeerChannel;
++		_rtw_memcpy(pwdinfo->nego_req_info.peerDevAddr, pnetwork->network.MacAddress, ETH_ALEN);
++		pwdinfo->nego_req_info.benable = _TRUE;
++
++		_cancel_timer_ex(&pwdinfo->restore_p2p_state_timer);
++		if (rtw_p2p_state(pwdinfo) != P2P_STATE_GONEGO_OK) {
++			/*	Restore to the listen state if the current p2p state is not nego OK */
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_LISTEN);
++		}
++
++		rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_GONEGO_ING);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED)) {
++			u8 union_ch = rtw_mi_get_union_chan(padapter);
++			u8 union_bw = rtw_mi_get_union_bw(padapter);
++			u8 union_offset = rtw_mi_get_union_offset(padapter);
++			/*	Have to enter the power saving with the AP */
++			set_channel_bwmode(padapter, union_ch, union_offset, union_bw);
++
++			rtw_mi_buddy_issue_nulldata(padapter, NULL, 1, 3, 500);
++		}
++#endif /* CONFIG_CONCURRENT_MODE */
++
++		RTW_INFO("[%s] Start PreTx Procedure!\n", __FUNCTION__);
++		_set_timer(&pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT);
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_CONCURRENT_GO_NEGO_TIMEOUT);
++		else
++			_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_GO_NEGO_TIMEOUT);
++#else
++		_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_GO_NEGO_TIMEOUT);
++#endif /* CONFIG_CONCURRENT_MODE		 */
++
++	} else {
++		RTW_INFO("[%s] Not Found in Scanning Queue~\n", __FUNCTION__);
++#ifdef CONFIG_INTEL_WIDI
++		_cancel_timer_ex(&pwdinfo->restore_p2p_state_timer);
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH);
++		rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_NONE);
++		rtw_free_network_queue(padapter, _TRUE);
++		/**
++		 * For WiDi, if we can't find candidate device in scanning queue,
++		 * driver will do scanning itself
++		 */
++		_enter_critical_bh(&pmlmepriv->lock, &irqL);
++		rtw_sitesurvey_cmd(padapter, NULL, 0, NULL, 0);
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++#endif /* CONFIG_INTEL_WIDI */
++		ret = -1;
++	}
++exit:
++	return ret;
++}
++
++static int rtw_p2p_invite_req(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter					*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point			*pdata = &wrqu->data;
++	struct wifidirect_info		*pwdinfo = &(padapter->wdinfo);
++	int						jj, kk;
++	u8						peerMACStr[ETH_ALEN * 2] = { 0x00 };
++	struct mlme_priv			*pmlmepriv = &padapter->mlmepriv;
++	_list						*plist, *phead;
++	_queue					*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network		*pnetwork = NULL;
++	uint						uintPeerChannel = 0;
++	u8						attr_content[50] = { 0x00 }, _status = 0;
++	u8						*p2pie;
++	uint						p2pielen = 0, attr_contentlen = 0;
++	_irqL					irqL;
++	struct tx_invite_req_info	*pinvite_req_info = &pwdinfo->invitereq_info;
++
++	/*	Commented by Albert 20120321 */
++	/*	The input data contains two informations. */
++	/*	1. First information is the P2P device address which you want to send to.	 */
++	/*	2. Second information is the group id which combines with GO's mac address, space and GO's ssid. */
++	/*	Command line sample: iwpriv wlan0 p2p_set invite="00:11:22:33:44:55 00:E0:4C:00:00:05 DIRECT-xy" */
++	/*	Format: 00:11:22:33:44:55 00:E0:4C:00:00:05 DIRECT-xy */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, extra);
++
++	if (wrqu->data.length <=  37) {
++		RTW_INFO("[%s] Wrong format!\n", __FUNCTION__);
++		return ret;
++	}
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++		RTW_INFO("[%s] WiFi Direct is disable!\n", __FUNCTION__);
++		return ret;
++	} else {
++		/*	Reset the content of struct tx_invite_req_info */
++		pinvite_req_info->benable = _FALSE;
++		_rtw_memset(pinvite_req_info->go_bssid, 0x00, ETH_ALEN);
++		_rtw_memset(pinvite_req_info->go_ssid, 0x00, WLAN_SSID_MAXLEN);
++		pinvite_req_info->ssidlen = 0x00;
++		pinvite_req_info->operating_ch = pwdinfo->operating_channel;
++		_rtw_memset(pinvite_req_info->peer_macaddr, 0x00, ETH_ALEN);
++		pinvite_req_info->token = 3;
++	}
++
++	for (jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3)
++		pinvite_req_info->peer_macaddr[jj] = key_2char2num(extra[kk], extra[kk + 1]);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		/*	Commented by Albert 2011/05/18 */
++		/*	Match the device address located in the P2P IE */
++		/*	This is for the case that the P2P device address is not the same as the P2P interface address. */
++
++		p2pie = rtw_bss_ex_get_p2p_ie(&pnetwork->network, NULL, &p2pielen);
++		if (p2pie) {
++			/*	The P2P Device ID attribute is included in the Beacon frame. */
++			/*	The P2P Device Info attribute is included in the probe response frame. */
++
++			if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_DEVICE_ID, attr_content, &attr_contentlen)) {
++				/*	Handle the P2P Device ID attribute of Beacon first */
++				if (_rtw_memcmp(attr_content, pinvite_req_info->peer_macaddr, ETH_ALEN)) {
++					uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++					break;
++				}
++			} else if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_DEVICE_INFO, attr_content, &attr_contentlen)) {
++				/*	Handle the P2P Device Info attribute of probe response */
++				if (_rtw_memcmp(attr_content, pinvite_req_info->peer_macaddr, ETH_ALEN)) {
++					uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++					break;
++				}
++			}
++
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++#ifdef CONFIG_WFD
++	if (hal_chk_wl_func(padapter, WL_FUNC_MIRACAST) && uintPeerChannel) {
++		struct wifi_display_info *pwfd_info = pwdinfo->wfd_info;
++		u8 *wfd_ie;
++		uint wfd_ielen = 0;
++
++		wfd_ie = rtw_bss_ex_get_wfd_ie(&pnetwork->network, NULL, &wfd_ielen);
++		if (wfd_ie) {
++			u8 *wfd_devinfo;
++			uint wfd_devlen;
++
++			RTW_INFO("[%s] Found WFD IE!\n", __FUNCTION__);
++			wfd_devinfo = rtw_get_wfd_attr_content(wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, NULL, &wfd_devlen);
++			if (wfd_devinfo) {
++				u16	wfd_devinfo_field = 0;
++
++				/*	Commented by Albert 20120319 */
++				/*	The first two bytes are the WFD device information field of WFD device information subelement. */
++				/*	In big endian format. */
++				wfd_devinfo_field = RTW_GET_BE16(wfd_devinfo);
++				if (wfd_devinfo_field & WFD_DEVINFO_SESSION_AVAIL)
++					pwfd_info->peer_session_avail = _TRUE;
++				else
++					pwfd_info->peer_session_avail = _FALSE;
++			}
++		}
++
++		if (_FALSE == pwfd_info->peer_session_avail) {
++			RTW_INFO("[%s] WFD Session not avaiable!\n", __FUNCTION__);
++			goto exit;
++		}
++	}
++#endif /* CONFIG_WFD */
++
++	if (uintPeerChannel) {
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			_cancel_timer_ex(&pwdinfo->ap_p2p_switch_timer);
++#endif /* CONFIG_CONCURRENT_MODE */
++
++		/*	Store the GO's bssid */
++		for (jj = 0, kk = 18; jj < ETH_ALEN; jj++, kk += 3)
++			pinvite_req_info->go_bssid[jj] = key_2char2num(extra[kk], extra[kk + 1]);
++
++		/*	Store the GO's ssid */
++		pinvite_req_info->ssidlen = wrqu->data.length - 36;
++		_rtw_memcpy(pinvite_req_info->go_ssid, &extra[36], (u32) pinvite_req_info->ssidlen);
++		pinvite_req_info->benable = _TRUE;
++		pinvite_req_info->peer_ch = uintPeerChannel;
++
++		rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_TX_INVITE_REQ);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED)) {
++			u8 union_ch = rtw_mi_get_union_chan(padapter);
++			u8 union_bw = rtw_mi_get_union_bw(padapter);
++			u8 union_offset = rtw_mi_get_union_offset(padapter);
++			/*	Have to enter the power saving with the AP */
++			set_channel_bwmode(padapter, union_ch, union_offset, union_bw);
++
++			rtw_mi_buddy_issue_nulldata(padapter, NULL, 1, 3, 500);
++		} else
++			set_channel_bwmode(padapter, uintPeerChannel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++#else
++		set_channel_bwmode(padapter, uintPeerChannel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++#endif
++
++		_set_timer(&pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_CONCURRENT_INVITE_TIMEOUT);
++		else
++			_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_INVITE_TIMEOUT);
++#else
++		_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_INVITE_TIMEOUT);
++#endif /* CONFIG_CONCURRENT_MODE		 */
++
++
++	} else
++		RTW_INFO("[%s] NOT Found in the Scanning Queue!\n", __FUNCTION__);
++exit:
++
++	return ret;
++
++}
++
++static int rtw_p2p_set_persistent(struct net_device *dev,
++				  struct iw_request_info *info,
++				  union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter					*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point			*pdata = &wrqu->data;
++	struct wifidirect_info		*pwdinfo = &(padapter->wdinfo);
++	int						jj, kk;
++	u8						peerMACStr[ETH_ALEN * 2] = { 0x00 };
++	struct mlme_priv			*pmlmepriv = &padapter->mlmepriv;
++	_list						*plist, *phead;
++	_queue					*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network		*pnetwork = NULL;
++	uint						uintPeerChannel = 0;
++	u8						attr_content[50] = { 0x00 }, _status = 0;
++	u8						*p2pie;
++	uint						p2pielen = 0, attr_contentlen = 0;
++	_irqL					irqL;
++	struct tx_invite_req_info	*pinvite_req_info = &pwdinfo->invitereq_info;
++
++	/*	Commented by Albert 20120328 */
++	/*	The input data is 0 or 1 */
++	/*	0: disable persistent group functionality */
++	/*	1: enable persistent group founctionality */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, extra);
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++		RTW_INFO("[%s] WiFi Direct is disable!\n", __FUNCTION__);
++		return ret;
++	} else {
++		if (extra[0] == '0')	/*	Disable the persistent group function. */
++			pwdinfo->persistent_supported = _FALSE;
++		else if (extra[0] == '1')	/*	Enable the persistent group function. */
++			pwdinfo->persistent_supported = _TRUE;
++		else
++			pwdinfo->persistent_supported = _FALSE;
++	}
++	printk("[%s] persistent_supported = %d\n", __FUNCTION__, pwdinfo->persistent_supported);
++
++exit:
++
++	return ret;
++
++}
++
++static int hexstr2bin(const char *hex, u8 *buf, size_t len)
++{
++	size_t i;
++	int a;
++	const char *ipos = hex;
++	u8 *opos = buf;
++
++	for (i = 0; i < len; i++) {
++		a = hex2byte_i(ipos);
++		if (a < 0)
++			return -1;
++		*opos++ = a;
++		ipos += 2;
++	}
++	return 0;
++}
++
++static int uuid_str2bin(const char *str, u8 *bin)
++{
++	const char *pos;
++	u8 *opos;
++
++	pos = str;
++	opos = bin;
++
++	if (hexstr2bin(pos, opos, 4))
++		return -1;
++	pos += 8;
++	opos += 4;
++
++	if (*pos++ != '-' || hexstr2bin(pos, opos, 2))
++		return -1;
++	pos += 4;
++	opos += 2;
++
++	if (*pos++ != '-' || hexstr2bin(pos, opos, 2))
++		return -1;
++	pos += 4;
++	opos += 2;
++
++	if (*pos++ != '-' || hexstr2bin(pos, opos, 2))
++		return -1;
++	pos += 4;
++	opos += 2;
++
++	if (*pos++ != '-' || hexstr2bin(pos, opos, 6))
++		return -1;
++
++	return 0;
++}
++
++static int rtw_p2p_set_wps_uuid(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter				*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info			*pwdinfo = &(padapter->wdinfo);
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, extra);
++
++	if ((36 == strlen(extra)) && (uuid_str2bin(extra, pwdinfo->uuid) == 0))
++		pwdinfo->external_uuid = 1;
++	else {
++		pwdinfo->external_uuid = 0;
++		ret = -EINVAL;
++	}
++
++	return ret;
++
++}
++#ifdef CONFIG_WFD
++static int rtw_p2p_set_pc(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter				*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point		*pdata = &wrqu->data;
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8					peerMAC[ETH_ALEN] = { 0x00 };
++	int					jj, kk;
++	u8					peerMACStr[ETH_ALEN * 2] = { 0x00 };
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	_list					*plist, *phead;
++	_queue				*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	u8					attr_content[50] = { 0x00 }, _status = 0;
++	u8 *p2pie;
++	uint					p2pielen = 0, attr_contentlen = 0;
++	_irqL				irqL;
++	uint					uintPeerChannel = 0;
++
++	struct wifi_display_info	*pwfd_info = pwdinfo->wfd_info;
++
++	/*	Commented by Albert 20120512 */
++	/*	1. Input information is the MAC address which wants to know the Preferred Connection bit (PC bit) */
++	/*	Format: 00:E0:4C:00:00:05 */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, extra);
++
++	if (rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++		RTW_INFO("[%s] WiFi Direct is disable!\n", __FUNCTION__);
++		return ret;
++	}
++
++	for (jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3)
++		peerMAC[jj] = key_2char2num(extra[kk], extra[kk + 1]);
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		/*	Commented by Albert 2011/05/18 */
++		/*	Match the device address located in the P2P IE */
++		/*	This is for the case that the P2P device address is not the same as the P2P interface address. */
++
++		p2pie = rtw_bss_ex_get_p2p_ie(&pnetwork->network, NULL, &p2pielen);
++		if (p2pie) {
++			/*	The P2P Device ID attribute is included in the Beacon frame. */
++			/*	The P2P Device Info attribute is included in the probe response frame. */
++			printk("[%s] Got P2P IE\n", __FUNCTION__);
++			if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_DEVICE_ID, attr_content, &attr_contentlen)) {
++				/*	Handle the P2P Device ID attribute of Beacon first */
++				printk("[%s] P2P_ATTR_DEVICE_ID\n", __FUNCTION__);
++				if (_rtw_memcmp(attr_content, peerMAC, ETH_ALEN)) {
++					uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++					break;
++				}
++			} else if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_DEVICE_INFO, attr_content, &attr_contentlen)) {
++				/*	Handle the P2P Device Info attribute of probe response */
++				printk("[%s] P2P_ATTR_DEVICE_INFO\n", __FUNCTION__);
++				if (_rtw_memcmp(attr_content, peerMAC, ETH_ALEN)) {
++					uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++					break;
++				}
++			}
++
++		}
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++	printk("[%s] channel = %d\n", __FUNCTION__, uintPeerChannel);
++
++	if (uintPeerChannel) {
++		u8 *wfd_ie;
++		uint wfd_ielen = 0;
++
++		wfd_ie = rtw_bss_ex_get_wfd_ie(&pnetwork->network, NULL, &wfd_ielen);
++		if (wfd_ie) {
++			u8 *wfd_devinfo;
++			uint wfd_devlen;
++
++			RTW_INFO("[%s] Found WFD IE!\n", __FUNCTION__);
++			wfd_devinfo = rtw_get_wfd_attr_content(wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, NULL, &wfd_devlen);
++			if (wfd_devinfo) {
++				u16	wfd_devinfo_field = 0;
++
++				/*	Commented by Albert 20120319 */
++				/*	The first two bytes are the WFD device information field of WFD device information subelement. */
++				/*	In big endian format. */
++				wfd_devinfo_field = RTW_GET_BE16(wfd_devinfo);
++				if (wfd_devinfo_field & WFD_DEVINFO_PC_TDLS)
++					pwfd_info->wfd_pc = _TRUE;
++				else
++					pwfd_info->wfd_pc = _FALSE;
++			}
++		}
++	} else
++		RTW_INFO("[%s] NOT Found in the Scanning Queue!\n", __FUNCTION__);
++
++exit:
++
++	return ret;
++
++}
++
++static int rtw_p2p_set_wfd_device_type(struct net_device *dev,
++				       struct iw_request_info *info,
++				       union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter					*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point			*pdata = &wrqu->data;
++	struct wifidirect_info		*pwdinfo = &(padapter->wdinfo);
++	struct wifi_display_info		*pwfd_info = pwdinfo->wfd_info;
++
++	/*	Commented by Albert 20120328 */
++	/*	The input data is 0 or 1 */
++	/*	0: specify to Miracast source device */
++	/*	1 or others: specify to Miracast sink device (display device) */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, extra);
++
++	if (extra[0] == '0')	/*	Set to Miracast source device. */
++		pwfd_info->wfd_device_type = WFD_DEVINFO_SOURCE;
++	else					/*	Set to Miracast sink device. */
++		pwfd_info->wfd_device_type = WFD_DEVINFO_PSINK;
++
++exit:
++
++	return ret;
++
++}
++
++static int rtw_p2p_set_wfd_enable(struct net_device *dev,
++				  struct iw_request_info *info,
++				  union iwreq_data *wrqu, char *extra)
++{
++	/*	Commented by Kurt 20121206
++	 *	This function is used to set wfd enabled */
++
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++
++	if (*extra == '0')
++		rtw_wfd_enable(padapter, 0);
++	else if (*extra == '1')
++		rtw_wfd_enable(padapter, 1);
++
++	RTW_INFO("[%s] wfd_enable = %d\n", __FUNCTION__, pwdinfo->wfd_info->wfd_enable);
++
++	return ret;
++
++}
++
++static int rtw_p2p_set_driver_iface(struct net_device *dev,
++				    struct iw_request_info *info,
++				    union iwreq_data *wrqu, char *extra)
++{
++	/*	Commented by Kurt 20121206
++	 *	This function is used to set driver iface is WEXT or CFG80211 */
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++
++	if (*extra == '1') {
++		pwdinfo->driver_interface = DRIVER_WEXT;
++		RTW_INFO("[%s] driver_interface = WEXT\n", __FUNCTION__);
++	} else if (*extra == '2') {
++		pwdinfo->driver_interface = DRIVER_CFG80211;
++		RTW_INFO("[%s] driver_interface = CFG80211\n", __FUNCTION__);
++	}
++
++	return ret;
++
++}
++
++/*	To set the WFD session available to enable or disable */
++static int rtw_p2p_set_sa(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter					*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point			*pdata = &wrqu->data;
++	struct wifidirect_info		*pwdinfo = &(padapter->wdinfo);
++	struct wifi_display_info		*pwfd_info = pwdinfo->wfd_info;
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, extra);
++
++	if (0) {
++		RTW_INFO("[%s] WiFi Direct is disable!\n", __FUNCTION__);
++		return ret;
++	} else {
++		if (extra[0] == '0')	/*	Disable the session available. */
++			pwdinfo->session_available = _FALSE;
++		else if (extra[0] == '1')	/*	Enable the session available. */
++			pwdinfo->session_available = _TRUE;
++		else
++			pwdinfo->session_available = _FALSE;
++	}
++	printk("[%s] session available = %d\n", __FUNCTION__, pwdinfo->session_available);
++
++exit:
++
++	return ret;
++
++}
++#endif /* CONFIG_WFD */
++
++static int rtw_p2p_prov_disc(struct net_device *dev,
++			     struct iw_request_info *info,
++			     union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++	_adapter				*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++	u8					peerMAC[ETH_ALEN] = { 0x00 };
++	int					jj, kk;
++	u8					peerMACStr[ETH_ALEN * 2] = { 0x00 };
++	struct mlme_priv		*pmlmepriv = &padapter->mlmepriv;
++	_list					*plist, *phead;
++	_queue				*queue	= &(pmlmepriv->scanned_queue);
++	struct	wlan_network	*pnetwork = NULL;
++	uint					uintPeerChannel = 0;
++	u8					attr_content[100] = { 0x00 }, _status = 0;
++	u8 *p2pie;
++	uint					p2pielen = 0, attr_contentlen = 0;
++	_irqL				irqL;
++
++	/*	Commented by Albert 20110301 */
++	/*	The input data contains two informations. */
++	/*	1. First information is the MAC address which wants to issue the provisioning discovery request frame. */
++	/*	2. Second information is the WPS configuration method which wants to discovery */
++	/*	Format: 00:E0:4C:00:00:05_display */
++	/*	Format: 00:E0:4C:00:00:05_keypad */
++	/*	Format: 00:E0:4C:00:00:05_pbc */
++	/*	Format: 00:E0:4C:00:00:05_label */
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, extra);
++
++	if (pwdinfo->p2p_state == P2P_STATE_NONE) {
++		RTW_INFO("[%s] WiFi Direct is disable!\n", __FUNCTION__);
++		return ret;
++	} else {
++#ifdef CONFIG_INTEL_WIDI
++		if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE) {
++			RTW_INFO("[%s] WiFi is under survey!\n", __FUNCTION__);
++			return ret;
++		}
++#endif /* CONFIG_INTEL_WIDI */
++
++		/*	Reset the content of struct tx_provdisc_req_info excluded the wps_config_method_request. */
++		_rtw_memset(pwdinfo->tx_prov_disc_info.peerDevAddr, 0x00, ETH_ALEN);
++		_rtw_memset(pwdinfo->tx_prov_disc_info.peerIFAddr, 0x00, ETH_ALEN);
++		_rtw_memset(&pwdinfo->tx_prov_disc_info.ssid, 0x00, sizeof(NDIS_802_11_SSID));
++		pwdinfo->tx_prov_disc_info.peer_channel_num[0] = 0;
++		pwdinfo->tx_prov_disc_info.peer_channel_num[1] = 0;
++		pwdinfo->tx_prov_disc_info.benable = _FALSE;
++	}
++
++	for (jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3)
++		peerMAC[jj] = key_2char2num(extra[kk], extra[kk + 1]);
++
++	if (_rtw_memcmp(&extra[18], "display", 7))
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_DISPLYA;
++	else if (_rtw_memcmp(&extra[18], "keypad", 7))
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_KEYPAD;
++	else if (_rtw_memcmp(&extra[18], "pbc", 3))
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_PUSH_BUTTON;
++	else if (_rtw_memcmp(&extra[18], "label", 5))
++		pwdinfo->tx_prov_disc_info.wps_config_method_request = WPS_CM_LABEL;
++	else {
++		RTW_INFO("[%s] Unknown WPS config methodn", __FUNCTION__);
++		return ret ;
++	}
++
++	_enter_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	phead = get_list_head(queue);
++	plist = get_next(phead);
++
++	while (1) {
++		if (rtw_end_of_queue_search(phead, plist) == _TRUE)
++			break;
++
++		if (uintPeerChannel != 0)
++			break;
++
++		pnetwork = LIST_CONTAINOR(plist, struct wlan_network, list);
++
++		/*	Commented by Albert 2011/05/18 */
++		/*	Match the device address located in the P2P IE */
++		/*	This is for the case that the P2P device address is not the same as the P2P interface address. */
++
++		p2pie = rtw_bss_ex_get_p2p_ie(&pnetwork->network, NULL, &p2pielen);
++		if (p2pie) {
++			while (p2pie) {
++				/*	The P2P Device ID attribute is included in the Beacon frame. */
++				/*	The P2P Device Info attribute is included in the probe response frame. */
++
++				if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_DEVICE_ID, attr_content, &attr_contentlen)) {
++					/*	Handle the P2P Device ID attribute of Beacon first */
++					if (_rtw_memcmp(attr_content, peerMAC, ETH_ALEN)) {
++						uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++						break;
++					}
++				} else if (rtw_get_p2p_attr_content(p2pie, p2pielen, P2P_ATTR_DEVICE_INFO, attr_content, &attr_contentlen)) {
++					/*	Handle the P2P Device Info attribute of probe response */
++					if (_rtw_memcmp(attr_content, peerMAC, ETH_ALEN)) {
++						uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++						break;
++					}
++				}
++
++				/* Get the next P2P IE */
++				p2pie = rtw_get_p2p_ie(p2pie + p2pielen, BSS_EX_TLV_IES_LEN(&pnetwork->network) - (p2pie + p2pielen - BSS_EX_TLV_IES(&pnetwork->network)), NULL, &p2pielen);
++			}
++
++		}
++
++#ifdef CONFIG_INTEL_WIDI
++		/* Some Intel WiDi source may not provide P2P IE, */
++		/* so we could only compare mac addr by 802.11 Source Address */
++		if (pmlmepriv->widi_state == INTEL_WIDI_STATE_WFD_CONNECTION
++		    && uintPeerChannel == 0) {
++			if (_rtw_memcmp(pnetwork->network.MacAddress, peerMAC, ETH_ALEN)) {
++				uintPeerChannel = pnetwork->network.Configuration.DSConfig;
++				break;
++			}
++		}
++#endif /* CONFIG_INTEL_WIDI */
++
++		plist = get_next(plist);
++
++	}
++
++	_exit_critical_bh(&(pmlmepriv->scanned_queue.lock), &irqL);
++
++	if (uintPeerChannel) {
++#ifdef CONFIG_WFD
++		if (hal_chk_wl_func(padapter, WL_FUNC_MIRACAST)) {
++			struct wifi_display_info *pwfd_info = pwdinfo->wfd_info;
++			u8 *wfd_ie;
++			uint wfd_ielen = 0;
++
++			wfd_ie = rtw_bss_ex_get_wfd_ie(&pnetwork->network, NULL, &wfd_ielen);
++			if (wfd_ie) {
++				u8 *wfd_devinfo;
++				uint wfd_devlen;
++
++				RTW_INFO("[%s] Found WFD IE!\n", __FUNCTION__);
++				wfd_devinfo = rtw_get_wfd_attr_content(wfd_ie, wfd_ielen, WFD_ATTR_DEVICE_INFO, NULL, &wfd_devlen);
++				if (wfd_devinfo) {
++					u16	wfd_devinfo_field = 0;
++
++					/*	Commented by Albert 20120319 */
++					/*	The first two bytes are the WFD device information field of WFD device information subelement. */
++					/*	In big endian format. */
++					wfd_devinfo_field = RTW_GET_BE16(wfd_devinfo);
++					if (wfd_devinfo_field & WFD_DEVINFO_SESSION_AVAIL)
++						pwfd_info->peer_session_avail = _TRUE;
++					else
++						pwfd_info->peer_session_avail = _FALSE;
++				}
++			}
++
++			if (_FALSE == pwfd_info->peer_session_avail) {
++				RTW_INFO("[%s] WFD Session not avaiable!\n", __FUNCTION__);
++				goto exit;
++			}
++		}
++#endif /* CONFIG_WFD */
++
++		RTW_INFO("[%s] peer channel: %d!\n", __FUNCTION__, uintPeerChannel);
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			_cancel_timer_ex(&pwdinfo->ap_p2p_switch_timer);
++#endif /* CONFIG_CONCURRENT_MODE */
++		_rtw_memcpy(pwdinfo->tx_prov_disc_info.peerIFAddr, pnetwork->network.MacAddress, ETH_ALEN);
++		_rtw_memcpy(pwdinfo->tx_prov_disc_info.peerDevAddr, peerMAC, ETH_ALEN);
++		pwdinfo->tx_prov_disc_info.peer_channel_num[0] = (u16) uintPeerChannel;
++		pwdinfo->tx_prov_disc_info.benable = _TRUE;
++		rtw_p2p_set_pre_state(pwdinfo, rtw_p2p_state(pwdinfo));
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_TX_PROVISION_DIS_REQ);
++
++		if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_CLIENT))
++			_rtw_memcpy(&pwdinfo->tx_prov_disc_info.ssid, &pnetwork->network.Ssid, sizeof(NDIS_802_11_SSID));
++		else if (rtw_p2p_chk_role(pwdinfo, P2P_ROLE_DEVICE) || rtw_p2p_chk_role(pwdinfo, P2P_ROLE_GO)) {
++			_rtw_memcpy(pwdinfo->tx_prov_disc_info.ssid.Ssid, pwdinfo->p2p_wildcard_ssid, P2P_WILDCARD_SSID_LEN);
++			pwdinfo->tx_prov_disc_info.ssid.SsidLength = P2P_WILDCARD_SSID_LEN;
++		}
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED)) {
++			u8 union_ch = rtw_mi_get_union_chan(padapter);
++			u8 union_bw = rtw_mi_get_union_bw(padapter);
++			u8 union_offset = rtw_mi_get_union_offset(padapter);
++
++			/*	Have to enter the power saving with the AP */
++			set_channel_bwmode(padapter, union_ch, union_offset, union_bw);
++
++			rtw_mi_buddy_issue_nulldata(padapter, NULL, 1, 3, 500);
++		} else
++			set_channel_bwmode(padapter, uintPeerChannel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++#else
++		set_channel_bwmode(padapter, uintPeerChannel, HAL_PRIME_CHNL_OFFSET_DONT_CARE, CHANNEL_WIDTH_20);
++#endif
++
++		_set_timer(&pwdinfo->pre_tx_scan_timer, P2P_TX_PRESCAN_TIMEOUT);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		if (rtw_mi_check_status(padapter, MI_LINKED))
++			_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_CONCURRENT_PROVISION_TIMEOUT);
++		else
++			_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_PROVISION_TIMEOUT);
++#else
++		_set_timer(&pwdinfo->restore_p2p_state_timer, P2P_PROVISION_TIMEOUT);
++#endif /* CONFIG_CONCURRENT_MODE		 */
++
++	} else {
++		RTW_INFO("[%s] NOT Found in the Scanning Queue!\n", __FUNCTION__);
++#ifdef CONFIG_INTEL_WIDI
++		_cancel_timer_ex(&pwdinfo->restore_p2p_state_timer);
++		rtw_p2p_set_state(pwdinfo, P2P_STATE_FIND_PHASE_SEARCH);
++		rtw_p2p_findphase_ex_set(pwdinfo, P2P_FINDPHASE_EX_NONE);
++		rtw_free_network_queue(padapter, _TRUE);
++		_enter_critical_bh(&pmlmepriv->lock, &irqL);
++		rtw_sitesurvey_cmd(padapter, NULL, 0, NULL, 0);
++		_exit_critical_bh(&pmlmepriv->lock, &irqL);
++#endif /* CONFIG_INTEL_WIDI */
++	}
++exit:
++
++	return ret;
++
++}
++
++/*	Added by Albert 20110328
++ *	This function is used to inform the driver the user had specified the pin code value or pbc
++ *	to application. */
++
++static int rtw_p2p_got_wpsinfo(struct net_device *dev,
++			       struct iw_request_info *info,
++			       union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++	_adapter				*padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wifidirect_info	*pwdinfo = &(padapter->wdinfo);
++
++
++	RTW_INFO("[%s] data = %s\n", __FUNCTION__, extra);
++	/*	Added by Albert 20110328 */
++	/*	if the input data is P2P_NO_WPSINFO -> reset the wpsinfo */
++	/*	if the input data is P2P_GOT_WPSINFO_PEER_DISPLAY_PIN -> the utility just input the PIN code got from the peer P2P device. */
++	/*	if the input data is P2P_GOT_WPSINFO_SELF_DISPLAY_PIN -> the utility just got the PIN code from itself. */
++	/*	if the input data is P2P_GOT_WPSINFO_PBC -> the utility just determine to use the PBC */
++
++	if (*extra == '0')
++		pwdinfo->ui_got_wps_info = P2P_NO_WPSINFO;
++	else if (*extra == '1')
++		pwdinfo->ui_got_wps_info = P2P_GOT_WPSINFO_PEER_DISPLAY_PIN;
++	else if (*extra == '2')
++		pwdinfo->ui_got_wps_info = P2P_GOT_WPSINFO_SELF_DISPLAY_PIN;
++	else if (*extra == '3')
++		pwdinfo->ui_got_wps_info = P2P_GOT_WPSINFO_PBC;
++	else
++		pwdinfo->ui_got_wps_info = P2P_NO_WPSINFO;
++
++	return ret;
++
++}
++
++#endif /* CONFIG_P2P */
++
++static int rtw_p2p_set(struct net_device *dev,
++		       struct iw_request_info *info,
++		       union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++#ifdef CONFIG_P2P
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	RTW_INFO("[%s] extra = %s\n", __FUNCTION__, extra);
++
++	if (_rtw_memcmp(extra, "enable=", 7))
++		rtw_wext_p2p_enable(dev, info, wrqu, &extra[7]);
++	else if (_rtw_memcmp(extra, "setDN=", 6)) {
++		wrqu->data.length -= 6;
++		rtw_p2p_setDN(dev, info, wrqu, &extra[6]);
++	} else if (_rtw_memcmp(extra, "profilefound=", 13)) {
++		wrqu->data.length -= 13;
++		rtw_p2p_profilefound(dev, info, wrqu, &extra[13]);
++	} else if (_rtw_memcmp(extra, "prov_disc=", 10)) {
++		wrqu->data.length -= 10;
++		rtw_p2p_prov_disc(dev, info, wrqu, &extra[10]);
++	} else if (_rtw_memcmp(extra, "nego=", 5)) {
++		wrqu->data.length -= 5;
++		rtw_p2p_connect(dev, info, wrqu, &extra[5]);
++	} else if (_rtw_memcmp(extra, "intent=", 7)) {
++		/*	Commented by Albert 2011/03/23 */
++		/*	The wrqu->data.length will include the null character */
++		/*	So, we will decrease 7 + 1 */
++		wrqu->data.length -= 8;
++		rtw_p2p_set_intent(dev, info, wrqu, &extra[7]);
++	} else if (_rtw_memcmp(extra, "ssid=", 5)) {
++		wrqu->data.length -= 5;
++		rtw_p2p_set_go_nego_ssid(dev, info, wrqu, &extra[5]);
++	} else if (_rtw_memcmp(extra, "got_wpsinfo=", 12)) {
++		wrqu->data.length -= 12;
++		rtw_p2p_got_wpsinfo(dev, info, wrqu, &extra[12]);
++	} else if (_rtw_memcmp(extra, "listen_ch=", 10)) {
++		/*	Commented by Albert 2011/05/24 */
++		/*	The wrqu->data.length will include the null character */
++		/*	So, we will decrease (10 + 1)	 */
++		wrqu->data.length -= 11;
++		rtw_p2p_set_listen_ch(dev, info, wrqu, &extra[10]);
++	} else if (_rtw_memcmp(extra, "op_ch=", 6)) {
++		/*	Commented by Albert 2011/05/24 */
++		/*	The wrqu->data.length will include the null character */
++		/*	So, we will decrease (6 + 1)	 */
++		wrqu->data.length -= 7;
++		rtw_p2p_set_op_ch(dev, info, wrqu, &extra[6]);
++	} else if (_rtw_memcmp(extra, "invite=", 7)) {
++		wrqu->data.length -= 8;
++		rtw_p2p_invite_req(dev, info, wrqu, &extra[7]);
++	} else if (_rtw_memcmp(extra, "persistent=", 11)) {
++		wrqu->data.length -= 11;
++		rtw_p2p_set_persistent(dev, info, wrqu, &extra[11]);
++	} else if (_rtw_memcmp(extra, "uuid=", 5)) {
++		wrqu->data.length -= 5;
++		ret = rtw_p2p_set_wps_uuid(dev, info, wrqu, &extra[5]);
++	}
++
++#ifdef CONFIG_WFD
++	if (hal_chk_wl_func(padapter, WL_FUNC_MIRACAST)) {
++		if (_rtw_memcmp(extra, "sa=", 3)) {
++			/* sa: WFD Session Available information */
++			wrqu->data.length -= 3;
++			rtw_p2p_set_sa(dev, info, wrqu, &extra[3]);
++		} else if (_rtw_memcmp(extra, "pc=", 3)) {
++			/* pc: WFD Preferred Connection */
++			wrqu->data.length -= 3;
++			rtw_p2p_set_pc(dev, info, wrqu, &extra[3]);
++		} else if (_rtw_memcmp(extra, "wfd_type=", 9)) {
++			wrqu->data.length -= 9;
++			rtw_p2p_set_wfd_device_type(dev, info, wrqu, &extra[9]);
++		} else if (_rtw_memcmp(extra, "wfd_enable=", 11)) {
++			wrqu->data.length -= 11;
++			rtw_p2p_set_wfd_enable(dev, info, wrqu, &extra[11]);
++		} else if (_rtw_memcmp(extra, "driver_iface=", 13)) {
++			wrqu->data.length -= 13;
++			rtw_p2p_set_driver_iface(dev, info, wrqu, &extra[13]);
++		}
++	}
++#endif /* CONFIG_WFD */
++
++#endif /* CONFIG_P2P */
++
++	return ret;
++
++}
++
++static int rtw_p2p_get(struct net_device *dev,
++		       struct iw_request_info *info,
++		       union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++
++#ifdef CONFIG_P2P
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct iw_point *pdata = &wrqu->data;
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++
++	if (padapter->bShowGetP2PState)
++		RTW_INFO("[%s] extra = %s\n", __FUNCTION__, (char *) wrqu->data.pointer);
++
++	if (_rtw_memcmp(wrqu->data.pointer, "status", 6))
++		rtw_p2p_get_status(dev, info, wrqu, extra);
++	else if (_rtw_memcmp(wrqu->data.pointer, "role", 4))
++		rtw_p2p_get_role(dev, info, wrqu, extra);
++	else if (_rtw_memcmp(wrqu->data.pointer, "peer_ifa", 8))
++		rtw_p2p_get_peer_ifaddr(dev, info, wrqu, extra);
++	else if (_rtw_memcmp(wrqu->data.pointer, "req_cm", 6))
++		rtw_p2p_get_req_cm(dev, info, wrqu, extra);
++	else if (_rtw_memcmp(wrqu->data.pointer, "peer_deva", 9)) {
++		/*	Get the P2P device address when receiving the provision discovery request frame. */
++		rtw_p2p_get_peer_devaddr(dev, info, wrqu, extra);
++	} else if (_rtw_memcmp(wrqu->data.pointer, "group_id", 8))
++		rtw_p2p_get_groupid(dev, info, wrqu, extra);
++	else if (_rtw_memcmp(wrqu->data.pointer, "inv_peer_deva", 13)) {
++		/*	Get the P2P device address when receiving the P2P Invitation request frame. */
++		rtw_p2p_get_peer_devaddr_by_invitation(dev, info, wrqu, extra);
++	} else if (_rtw_memcmp(wrqu->data.pointer, "op_ch", 5))
++		rtw_p2p_get_op_ch(dev, info, wrqu, extra);
++
++#ifdef CONFIG_WFD
++	if (hal_chk_wl_func(padapter, WL_FUNC_MIRACAST)) {
++		if (_rtw_memcmp(wrqu->data.pointer, "peer_port", 9))
++			rtw_p2p_get_peer_wfd_port(dev, info, wrqu, extra);
++		else if (_rtw_memcmp(wrqu->data.pointer, "wfd_sa", 6))
++			rtw_p2p_get_peer_wfd_session_available(dev, info, wrqu, extra);
++		else if (_rtw_memcmp(wrqu->data.pointer, "wfd_pc", 6))
++			rtw_p2p_get_peer_wfd_preferred_connection(dev, info, wrqu, extra);
++	}
++#endif /* CONFIG_WFD */
++
++#endif /* CONFIG_P2P */
++
++	return ret;
++
++}
++
++static int rtw_p2p_get2(struct net_device *dev,
++			struct iw_request_info *info,
++			union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++
++#ifdef CONFIG_P2P
++
++	int length = wrqu->data.length;
++	char *buffer = (u8 *)rtw_malloc(length);
++
++	if (buffer == NULL) {
++		ret = -ENOMEM;
++		goto bad;
++	}
++
++	if (copy_from_user(buffer, wrqu->data.pointer, wrqu->data.length)) {
++		ret = -EFAULT;
++		goto bad;
++	}
++
++	RTW_INFO("[%s] buffer = %s\n", __FUNCTION__, buffer);
++
++	if (_rtw_memcmp(buffer, "wpsCM=", 6))
++		ret = rtw_p2p_get_wps_configmethod(dev, info, wrqu, extra, &buffer[6]);
++	else if (_rtw_memcmp(buffer, "devN=", 5))
++		ret = rtw_p2p_get_device_name(dev, info, wrqu, extra, &buffer[5]);
++	else if (_rtw_memcmp(buffer, "dev_type=", 9))
++		ret = rtw_p2p_get_device_type(dev, info, wrqu, extra, &buffer[9]);
++	else if (_rtw_memcmp(buffer, "go_devadd=", 10))
++		ret = rtw_p2p_get_go_device_address(dev, info, wrqu, extra, &buffer[10]);
++	else if (_rtw_memcmp(buffer, "InvProc=", 8))
++		ret = rtw_p2p_get_invitation_procedure(dev, info, wrqu, extra, &buffer[8]);
++	else {
++		snprintf(extra, sizeof("Command not found."), "Command not found.");
++		wrqu->data.length = strlen(extra);
++	}
++
++bad:
++	if (buffer)
++		rtw_mfree(buffer, length);
++
++#endif /* CONFIG_P2P */
++
++	return ret;
++
++}
++
++static int rtw_cta_test_start(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++	_adapter	*padapter = (_adapter *)rtw_netdev_priv(dev);
++	RTW_INFO("%s %s\n", __func__, extra);
++	if (!strcmp(extra, "1"))
++		padapter->in_cta_test = 1;
++	else
++		padapter->in_cta_test = 0;
++
++	if (padapter->in_cta_test) {
++		u32 v = rtw_read32(padapter, REG_RCR);
++		v &= ~(RCR_CBSSID_DATA | RCR_CBSSID_BCN); /* | RCR_ADF */
++		rtw_write32(padapter, REG_RCR, v);
++		RTW_INFO("enable RCR_ADF\n");
++	} else {
++		u32 v = rtw_read32(padapter, REG_RCR);
++		v |= RCR_CBSSID_DATA | RCR_CBSSID_BCN ;/* | RCR_ADF */
++		rtw_write32(padapter, REG_RCR, v);
++		RTW_INFO("disable RCR_ADF\n");
++	}
++	return ret;
++}
++
++
++extern int rtw_change_ifname(_adapter *padapter, const char *ifname);
++static int rtw_rereg_nd_name(struct net_device *dev,
++			     struct iw_request_info *info,
++			     union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++	_adapter *padapter = rtw_netdev_priv(dev);
++	struct rereg_nd_name_data *rereg_priv = &padapter->rereg_nd_name_priv;
++	char new_ifname[IFNAMSIZ];
++
++	if (rereg_priv->old_ifname[0] == 0) {
++		char *reg_ifname;
++#ifdef CONFIG_CONCURRENT_MODE
++		if (padapter->isprimary)
++			reg_ifname = padapter->registrypriv.ifname;
++		else
++#endif
++			reg_ifname = padapter->registrypriv.if2name;
++
++		strncpy(rereg_priv->old_ifname, reg_ifname, IFNAMSIZ);
++		rereg_priv->old_ifname[IFNAMSIZ - 1] = 0;
++	}
++
++	/* RTW_INFO("%s wrqu->data.length:%d\n", __FUNCTION__, wrqu->data.length); */
++	if (wrqu->data.length > IFNAMSIZ)
++		return -EFAULT;
++
++	if (copy_from_user(new_ifname, wrqu->data.pointer, IFNAMSIZ))
++		return -EFAULT;
++
++	if (0 == strcmp(rereg_priv->old_ifname, new_ifname))
++		return ret;
++
++	RTW_INFO("%s new_ifname:%s\n", __FUNCTION__, new_ifname);
++	ret = rtw_change_ifname(padapter, new_ifname);
++	if (0 != ret)
++		goto exit;
++
++	if (_rtw_memcmp(rereg_priv->old_ifname, "disable%d", 9) == _TRUE) {
++		padapter->ledpriv.bRegUseLed = rereg_priv->old_bRegUseLed;
++		rtw_hal_sw_led_init(padapter);
++		/* rtw_ips_mode_req(&padapter->pwrctrlpriv, rereg_priv->old_ips_mode); */
++	}
++
++	strncpy(rereg_priv->old_ifname, new_ifname, IFNAMSIZ);
++	rereg_priv->old_ifname[IFNAMSIZ - 1] = 0;
++
++	if (_rtw_memcmp(new_ifname, "disable%d", 9) == _TRUE) {
++
++		RTW_INFO("%s disable\n", __FUNCTION__);
++		/* free network queue for Android's timming issue */
++		rtw_free_network_queue(padapter, _TRUE);
++
++		/* close led */
++		rtw_led_control(padapter, LED_CTL_POWER_OFF);
++		rereg_priv->old_bRegUseLed = padapter->ledpriv.bRegUseLed;
++		padapter->ledpriv.bRegUseLed = _FALSE;
++		rtw_hal_sw_led_deinit(padapter);
++
++		/* the interface is being "disabled", we can do deeper IPS */
++		/* rereg_priv->old_ips_mode = rtw_get_ips_mode_req(&padapter->pwrctrlpriv); */
++		/* rtw_ips_mode_req(&padapter->pwrctrlpriv, IPS_NORMAL); */
++	}
++exit:
++	return ret;
++
++}
++
++#ifdef CONFIG_IOL
++#include <rtw_iol.h>
++#endif
++
++#ifdef DBG_CMD_QUEUE
++u8 dump_cmd_id = 0;
++#endif
++static int rtw_dbg_port(struct net_device *dev,
++			struct iw_request_info *info,
++			union iwreq_data *wrqu, char *extra)
++{
++	_irqL irqL;
++	int ret = 0;
++	u8 major_cmd, minor_cmd;
++	u16 arg;
++	u32 extra_arg, *pdata, val32;
++	struct sta_info *psta;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++	struct wlan_network *cur_network = &(pmlmepriv->cur_network);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++
++	pdata = (u32 *)&wrqu->data;
++
++	val32 = *pdata;
++	arg = (u16)(val32 & 0x0000ffff);
++	major_cmd = (u8)(val32 >> 24);
++	minor_cmd = (u8)((val32 >> 16) & 0x00ff);
++
++	extra_arg = *(pdata + 1);
++
++	switch (major_cmd) {
++	case 0x70: /* read_reg */
++		switch (minor_cmd) {
++		case 1:
++			RTW_INFO("rtw_read8(0x%x)=0x%02x\n", arg, rtw_read8(padapter, arg));
++			break;
++		case 2:
++			RTW_INFO("rtw_read16(0x%x)=0x%04x\n", arg, rtw_read16(padapter, arg));
++			break;
++		case 4:
++			RTW_INFO("rtw_read32(0x%x)=0x%08x\n", arg, rtw_read32(padapter, arg));
++			break;
++		}
++		break;
++	case 0x71: /* write_reg */
++		switch (minor_cmd) {
++		case 1:
++			rtw_write8(padapter, arg, extra_arg);
++			RTW_INFO("rtw_write8(0x%x)=0x%02x\n", arg, rtw_read8(padapter, arg));
++			break;
++		case 2:
++			rtw_write16(padapter, arg, extra_arg);
++			RTW_INFO("rtw_write16(0x%x)=0x%04x\n", arg, rtw_read16(padapter, arg));
++			break;
++		case 4:
++			rtw_write32(padapter, arg, extra_arg);
++			RTW_INFO("rtw_write32(0x%x)=0x%08x\n", arg, rtw_read32(padapter, arg));
++			break;
++		}
++		break;
++	case 0x72: /* read_bb */
++		RTW_INFO("read_bbreg(0x%x)=0x%x\n", arg, rtw_hal_read_bbreg(padapter, arg, 0xffffffff));
++		break;
++	case 0x73: /* write_bb */
++		rtw_hal_write_bbreg(padapter, arg, 0xffffffff, extra_arg);
++		RTW_INFO("write_bbreg(0x%x)=0x%x\n", arg, rtw_hal_read_bbreg(padapter, arg, 0xffffffff));
++		break;
++	case 0x74: /* read_rf */
++		RTW_INFO("read RF_reg path(0x%02x),offset(0x%x),value(0x%08x)\n", minor_cmd, arg, rtw_hal_read_rfreg(padapter, minor_cmd, arg, 0xffffffff));
++		break;
++	case 0x75: /* write_rf */
++		rtw_hal_write_rfreg(padapter, minor_cmd, arg, 0xffffffff, extra_arg);
++		RTW_INFO("write RF_reg path(0x%02x),offset(0x%x),value(0x%08x)\n", minor_cmd, arg, rtw_hal_read_rfreg(padapter, minor_cmd, arg, 0xffffffff));
++		break;
++
++	case 0x76:
++		switch (minor_cmd) {
++		case 0x00: /* normal mode, */
++			padapter->recvpriv.is_signal_dbg = 0;
++			break;
++		case 0x01: /* dbg mode */
++			padapter->recvpriv.is_signal_dbg = 1;
++			extra_arg = extra_arg > 100 ? 100 : extra_arg;
++			padapter->recvpriv.signal_strength_dbg = extra_arg;
++			break;
++		}
++		break;
++	case 0x78: /* IOL test */
++		switch (minor_cmd) {
++		#ifdef CONFIG_IOL
++		case 0x04: { /* LLT table initialization test */
++			u8 page_boundary = 0xf9;
++			{
++				struct xmit_frame	*xmit_frame;
++
++				xmit_frame = rtw_IOL_accquire_xmit_frame(padapter);
++				if (xmit_frame == NULL) {
++					ret = -ENOMEM;
++					break;
++				}
++
++				rtw_IOL_append_LLT_cmd(xmit_frame, page_boundary);
++
++
++				if (_SUCCESS != rtw_IOL_exec_cmds_sync(padapter, xmit_frame, 500, 0))
++					ret = -EPERM;
++			}
++		}
++			break;
++		case 0x05: { /* blink LED test */
++			u16 reg = 0x4c;
++			u32 blink_num = 50;
++			u32 blink_delay_ms = 200;
++			int i;
++
++			{
++				struct xmit_frame	*xmit_frame;
++
++				xmit_frame = rtw_IOL_accquire_xmit_frame(padapter);
++				if (xmit_frame == NULL) {
++					ret = -ENOMEM;
++					break;
++				}
++
++				for (i = 0; i < blink_num; i++) {
++					#ifdef CONFIG_IOL_NEW_GENERATION
++					rtw_IOL_append_WB_cmd(xmit_frame, reg, 0x00, 0xff);
++					rtw_IOL_append_DELAY_MS_cmd(xmit_frame, blink_delay_ms);
++					rtw_IOL_append_WB_cmd(xmit_frame, reg, 0x08, 0xff);
++					rtw_IOL_append_DELAY_MS_cmd(xmit_frame, blink_delay_ms);
++					#else
++					rtw_IOL_append_WB_cmd(xmit_frame, reg, 0x00);
++					rtw_IOL_append_DELAY_MS_cmd(xmit_frame, blink_delay_ms);
++					rtw_IOL_append_WB_cmd(xmit_frame, reg, 0x08);
++					rtw_IOL_append_DELAY_MS_cmd(xmit_frame, blink_delay_ms);
++					#endif
++				}
++				if (_SUCCESS != rtw_IOL_exec_cmds_sync(padapter, xmit_frame, (blink_delay_ms * blink_num * 2) + 200, 0))
++					ret = -EPERM;
++			}
++		}
++			break;
++
++		case 0x06: { /* continuous wirte byte test */
++			u16 reg = arg;
++			u16 start_value = 0;
++			u32 write_num = extra_arg;
++			int i;
++			u8 final;
++
++			{
++				struct xmit_frame	*xmit_frame;
++
++				xmit_frame = rtw_IOL_accquire_xmit_frame(padapter);
++				if (xmit_frame == NULL) {
++					ret = -ENOMEM;
++					break;
++				}
++
++				for (i = 0; i < write_num; i++) {
++					#ifdef CONFIG_IOL_NEW_GENERATION
++					rtw_IOL_append_WB_cmd(xmit_frame, reg, i + start_value, 0xFF);
++					#else
++					rtw_IOL_append_WB_cmd(xmit_frame, reg, i + start_value);
++					#endif
++				}
++				if (_SUCCESS != rtw_IOL_exec_cmds_sync(padapter, xmit_frame, 5000, 0))
++					ret = -EPERM;
++			}
++
++			final = rtw_read8(padapter, reg);
++			if (start_value + write_num - 1 == final)
++				RTW_INFO("continuous IOL_CMD_WB_REG to 0x%x %u times Success, start:%u, final:%u\n", reg, write_num, start_value, final);
++			else
++				RTW_INFO("continuous IOL_CMD_WB_REG to 0x%x %u times Fail, start:%u, final:%u\n", reg, write_num, start_value, final);
++		}
++			break;
++
++		case 0x07: { /* continuous wirte word test */
++			u16 reg = arg;
++			u16 start_value = 200;
++			u32 write_num = extra_arg;
++
++			int i;
++			u16 final;
++
++			{
++				struct xmit_frame	*xmit_frame;
++
++				xmit_frame = rtw_IOL_accquire_xmit_frame(padapter);
++				if (xmit_frame == NULL) {
++					ret = -ENOMEM;
++					break;
++				}
++
++				for (i = 0; i < write_num; i++) {
++					#ifdef CONFIG_IOL_NEW_GENERATION
++					rtw_IOL_append_WW_cmd(xmit_frame, reg, i + start_value, 0xFFFF);
++					#else
++					rtw_IOL_append_WW_cmd(xmit_frame, reg, i + start_value);
++					#endif
++				}
++				if (_SUCCESS != rtw_IOL_exec_cmds_sync(padapter, xmit_frame, 5000, 0))
++					ret = -EPERM;
++			}
++
++			final = rtw_read16(padapter, reg);
++			if (start_value + write_num - 1 == final)
++				RTW_INFO("continuous IOL_CMD_WW_REG to 0x%x %u times Success, start:%u, final:%u\n", reg, write_num, start_value, final);
++			else
++				RTW_INFO("continuous IOL_CMD_WW_REG to 0x%x %u times Fail, start:%u, final:%u\n", reg, write_num, start_value, final);
++		}
++			break;
++
++		case 0x08: { /* continuous wirte dword test */
++			u16 reg = arg;
++			u32 start_value = 0x110000c7;
++			u32 write_num = extra_arg;
++
++			int i;
++			u32 final;
++
++			{
++				struct xmit_frame	*xmit_frame;
++
++				xmit_frame = rtw_IOL_accquire_xmit_frame(padapter);
++				if (xmit_frame == NULL) {
++					ret = -ENOMEM;
++					break;
++				}
++
++				for (i = 0; i < write_num; i++) {
++					#ifdef CONFIG_IOL_NEW_GENERATION
++					rtw_IOL_append_WD_cmd(xmit_frame, reg, i + start_value, 0xFFFFFFFF);
++					#else
++					rtw_IOL_append_WD_cmd(xmit_frame, reg, i + start_value);
++					#endif
++				}
++				if (_SUCCESS != rtw_IOL_exec_cmds_sync(padapter, xmit_frame, 5000, 0))
++					ret = -EPERM;
++
++			}
++
++			final = rtw_read32(padapter, reg);
++			if (start_value + write_num - 1 == final)
++				RTW_INFO("continuous IOL_CMD_WD_REG to 0x%x %u times Success, start:%u, final:%u\n", reg, write_num, start_value, final);
++			else
++				RTW_INFO("continuous IOL_CMD_WD_REG to 0x%x %u times Fail, start:%u, final:%u\n", reg, write_num, start_value, final);
++		}
++			break;
++		#endif /* CONFIG_IOL */
++		}
++		break;
++	case 0x79: {
++		/*
++		* dbg 0x79000000 [value], set RESP_TXAGC to + value, value:0~15
++		* dbg 0x79010000 [value], set RESP_TXAGC to - value, value:0~15
++		*/
++		u8 value =  extra_arg & 0x0f;
++		u8 sign = minor_cmd;
++		u16 write_value = 0;
++
++		RTW_INFO("%s set RESP_TXAGC to %s %u\n", __func__, sign ? "minus" : "plus", value);
++
++		if (sign)
++			value = value | 0x10;
++
++		write_value = value | (value << 5);
++		rtw_write16(padapter, 0x6d9, write_value);
++	}
++		break;
++	case 0x7a:
++		receive_disconnect(padapter, pmlmeinfo->network.MacAddress
++				   , WLAN_REASON_EXPIRATION_CHK, _FALSE);
++		break;
++	case 0x7F:
++		switch (minor_cmd) {
++		case 0x0:
++			RTW_INFO("fwstate=0x%x\n", get_fwstate(pmlmepriv));
++			break;
++		case 0x01:
++			RTW_INFO("auth_alg=0x%x, enc_alg=0x%x, auth_type=0x%x, enc_type=0x%x\n",
++				psecuritypriv->dot11AuthAlgrthm, psecuritypriv->dot11PrivacyAlgrthm,
++				psecuritypriv->ndisauthtype, psecuritypriv->ndisencryptstatus);
++			break;
++		case 0x02:
++			RTW_INFO("pmlmeinfo->state=0x%x\n", pmlmeinfo->state);
++			RTW_INFO("DrvBcnEarly=%d\n", pmlmeext->DrvBcnEarly);
++			RTW_INFO("DrvBcnTimeOut=%d\n", pmlmeext->DrvBcnTimeOut);
++			break;
++		case 0x03:
++			RTW_INFO("qos_option=%d\n", pmlmepriv->qospriv.qos_option);
++#ifdef CONFIG_80211N_HT
++			RTW_INFO("ht_option=%d\n", pmlmepriv->htpriv.ht_option);
++#endif /* CONFIG_80211N_HT */
++			break;
++		case 0x04:
++			RTW_INFO("cur_ch=%d\n", pmlmeext->cur_channel);
++			RTW_INFO("cur_bw=%d\n", pmlmeext->cur_bwmode);
++			RTW_INFO("cur_ch_off=%d\n", pmlmeext->cur_ch_offset);
++
++			RTW_INFO("oper_ch=%d\n", rtw_get_oper_ch(padapter));
++			RTW_INFO("oper_bw=%d\n", rtw_get_oper_bw(padapter));
++			RTW_INFO("oper_ch_offet=%d\n", rtw_get_oper_choffset(padapter));
++
++			break;
++		case 0x05:
++			psta = rtw_get_stainfo(pstapriv, cur_network->network.MacAddress);
++			if (psta) {
++				RTW_INFO("SSID=%s\n", cur_network->network.Ssid.Ssid);
++				RTW_INFO("sta's macaddr:" MAC_FMT "\n", MAC_ARG(psta->hwaddr));
++				RTW_INFO("cur_channel=%d, cur_bwmode=%d, cur_ch_offset=%d\n", pmlmeext->cur_channel, pmlmeext->cur_bwmode, pmlmeext->cur_ch_offset);
++				RTW_INFO("rtsen=%d, cts2slef=%d\n", psta->rtsen, psta->cts2self);
++				RTW_INFO("state=0x%x, aid=%d, macid=%d, raid=%d\n", psta->state, psta->aid, psta->mac_id, psta->raid);
++#ifdef CONFIG_80211N_HT
++				RTW_INFO("qos_en=%d, ht_en=%d, init_rate=%d\n", psta->qos_option, psta->htpriv.ht_option, psta->init_rate);
++				RTW_INFO("bwmode=%d, ch_offset=%d, sgi_20m=%d,sgi_40m=%d\n", psta->bw_mode, psta->htpriv.ch_offset, psta->htpriv.sgi_20m, psta->htpriv.sgi_40m);
++				RTW_INFO("ampdu_enable = %d\n", psta->htpriv.ampdu_enable);
++				RTW_INFO("agg_enable_bitmap=%x, candidate_tid_bitmap=%x\n", psta->htpriv.agg_enable_bitmap, psta->htpriv.candidate_tid_bitmap);
++#endif /* CONFIG_80211N_HT */
++
++				sta_rx_reorder_ctl_dump(RTW_DBGDUMP, psta);
++			} else
++				RTW_INFO("can't get sta's macaddr, cur_network's macaddr:" MAC_FMT "\n", MAC_ARG(cur_network->network.MacAddress));
++			break;
++		case 0x06: {
++		}
++			break;
++		case 0x07:
++			RTW_INFO("bSurpriseRemoved=%s, bDriverStopped=%s\n"
++				, rtw_is_surprise_removed(padapter) ? "True" : "False"
++				, rtw_is_drv_stopped(padapter) ? "True" : "False");
++			break;
++		case 0x08: {
++			struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++			struct recv_priv  *precvpriv = &padapter->recvpriv;
++
++			RTW_INFO("free_xmitbuf_cnt=%d, free_xmitframe_cnt=%d"
++				", free_xmit_extbuf_cnt=%d, free_xframe_ext_cnt=%d"
++				 ", free_recvframe_cnt=%d\n",
++				pxmitpriv->free_xmitbuf_cnt, pxmitpriv->free_xmitframe_cnt,
++				pxmitpriv->free_xmit_extbuf_cnt, pxmitpriv->free_xframe_ext_cnt,
++				 precvpriv->free_recvframe_cnt);
++#ifdef CONFIG_USB_HCI
++			RTW_INFO("rx_urb_pending_cn=%d\n", ATOMIC_READ(&(precvpriv->rx_pending_cnt)));
++#endif
++		}
++			break;
++		case 0x09: {
++			int i;
++			_list	*plist, *phead;
++
++#ifdef CONFIG_AP_MODE
++			RTW_INFO("sta_dz_bitmap=0x%x, tim_bitmap=0x%x\n", pstapriv->sta_dz_bitmap, pstapriv->tim_bitmap);
++#endif
++			_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++			for (i = 0; i < NUM_STA; i++) {
++				phead = &(pstapriv->sta_hash[i]);
++				plist = get_next(phead);
++
++				while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++					psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++
++					plist = get_next(plist);
++
++					if (extra_arg == psta->aid) {
++						RTW_INFO("sta's macaddr:" MAC_FMT "\n", MAC_ARG(psta->hwaddr));
++						RTW_INFO("rtsen=%d, cts2slef=%d\n", psta->rtsen, psta->cts2self);
++						RTW_INFO("state=0x%x, aid=%d, macid=%d, raid=%d\n", psta->state, psta->aid, psta->mac_id, psta->raid);
++#ifdef CONFIG_80211N_HT
++						RTW_INFO("qos_en=%d, ht_en=%d, init_rate=%d\n", psta->qos_option, psta->htpriv.ht_option, psta->init_rate);
++						RTW_INFO("bwmode=%d, ch_offset=%d, sgi_20m=%d,sgi_40m=%d\n", psta->bw_mode, psta->htpriv.ch_offset, psta->htpriv.sgi_20m,
++							psta->htpriv.sgi_40m);
++						RTW_INFO("ampdu_enable = %d\n", psta->htpriv.ampdu_enable);
++						RTW_INFO("agg_enable_bitmap=%x, candidate_tid_bitmap=%x\n", psta->htpriv.agg_enable_bitmap, psta->htpriv.candidate_tid_bitmap);
++#endif /* CONFIG_80211N_HT */
++
++#ifdef CONFIG_AP_MODE
++						RTW_INFO("capability=0x%x\n", psta->capability);
++						RTW_INFO("flags=0x%x\n", psta->flags);
++						RTW_INFO("wpa_psk=0x%x\n", psta->wpa_psk);
++						RTW_INFO("wpa2_group_cipher=0x%x\n", psta->wpa2_group_cipher);
++						RTW_INFO("wpa2_pairwise_cipher=0x%x\n", psta->wpa2_pairwise_cipher);
++						RTW_INFO("qos_info=0x%x\n", psta->qos_info);
++#endif
++						RTW_INFO("dot118021XPrivacy=0x%x\n", psta->dot118021XPrivacy);
++
++						sta_rx_reorder_ctl_dump(RTW_DBGDUMP, psta);
++					}
++
++				}
++			}
++
++			_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++		}
++			break;
++
++		case 0x0b: { /* Enable=1, Disable=0 driver control vrtl_carrier_sense. */
++			/* u8 driver_vcs_en; */ /* Enable=1, Disable=0 driver control vrtl_carrier_sense. */
++			/* u8 driver_vcs_type; */ /* force 0:disable VCS, 1:RTS-CTS, 2:CTS-to-self when vcs_en=1. */
++
++			if (arg == 0) {
++				RTW_INFO("disable driver ctrl vcs\n");
++				padapter->driver_vcs_en = 0;
++			} else if (arg == 1) {
++				RTW_INFO("enable driver ctrl vcs = %d\n", extra_arg);
++				padapter->driver_vcs_en = 1;
++
++				if (extra_arg > 2)
++					padapter->driver_vcs_type = 1;
++				else
++					padapter->driver_vcs_type = extra_arg;
++			}
++		}
++			break;
++		case 0x0c: { /* dump rx/tx packet */
++			if (arg == 0) {
++				RTW_INFO("dump rx packet (%d)\n", extra_arg);
++				/* pHalData->bDumpRxPkt =extra_arg;						 */
++				rtw_hal_set_def_var(padapter, HAL_DEF_DBG_DUMP_RXPKT, &(extra_arg));
++			} else if (arg == 1) {
++				RTW_INFO("dump tx packet (%d)\n", extra_arg);
++				rtw_hal_set_def_var(padapter, HAL_DEF_DBG_DUMP_TXPKT, &(extra_arg));
++			}
++		}
++			break;
++		case 0x0e: {
++			if (arg == 0) {
++				RTW_INFO("disable driver ctrl rx_ampdu_factor\n");
++				padapter->driver_rx_ampdu_factor = 0xFF;
++			} else if (arg == 1) {
++
++				RTW_INFO("enable driver ctrl rx_ampdu_factor = %d\n", extra_arg);
++
++				if (extra_arg > 0x03)
++					padapter->driver_rx_ampdu_factor = 0xFF;
++				else
++					padapter->driver_rx_ampdu_factor = extra_arg;
++			}
++		}
++			break;
++		#ifdef DBG_CONFIG_ERROR_DETECT
++		case 0x0f: {
++			if (extra_arg == 0) {
++				RTW_INFO("###### silent reset test.......#####\n");
++				rtw_hal_sreset_reset(padapter);
++			} else {
++				HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++				struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++				psrtpriv->dbg_trigger_point = extra_arg;
++			}
++
++		}
++			break;
++		case 0x15: {
++			struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++			RTW_INFO("==>silent resete cnts:%d\n", pwrpriv->ips_enter_cnts);
++		}
++			break;
++
++		#endif
++
++		case 0x10: /* driver version display */
++			dump_drv_version(RTW_DBGDUMP);
++			break;
++		case 0x11: { /* dump linked status */
++			int pre_mode;
++			pre_mode = padapter->bLinkInfoDump;
++			/* linked_info_dump(padapter,extra_arg); */
++			if (extra_arg == 1 || (extra_arg == 0 && pre_mode == 1)) /* not consider pwr_saving 0: */
++				padapter->bLinkInfoDump = extra_arg;
++
++			else if ((extra_arg == 2) || (extra_arg == 0 && pre_mode == 2)) { /* consider power_saving */
++				/* RTW_INFO("linked_info_dump =%s\n", (padapter->bLinkInfoDump)?"enable":"disable") */
++				linked_info_dump(padapter, extra_arg);
++			}
++
++
++
++		}
++			break;
++#ifdef CONFIG_80211N_HT
++		case 0x12: { /* set rx_stbc */
++			struct registry_priv	*pregpriv = &padapter->registrypriv;
++			/* 0: disable, bit(0):enable 2.4g, bit(1):enable 5g, 0x3: enable both 2.4g and 5g */
++			/* default is set to enable 2.4GHZ for IOT issue with bufflao's AP at 5GHZ */
++			if (pregpriv && (extra_arg == 0 || extra_arg == 1 || extra_arg == 2 || extra_arg == 3)) {
++				pregpriv->rx_stbc = extra_arg;
++				RTW_INFO("set rx_stbc=%d\n", pregpriv->rx_stbc);
++			} else
++				RTW_INFO("get rx_stbc=%d\n", pregpriv->rx_stbc);
++
++		}
++			break;
++		case 0x13: { /* set ampdu_enable */
++			struct registry_priv	*pregpriv = &padapter->registrypriv;
++			/* 0: disable, 0x1:enable */
++			if (pregpriv && extra_arg < 2) {
++				pregpriv->ampdu_enable = extra_arg;
++				RTW_INFO("set ampdu_enable=%d\n", pregpriv->ampdu_enable);
++			} else
++				RTW_INFO("get ampdu_enable=%d\n", pregpriv->ampdu_enable);
++
++		}
++			break;
++#endif
++		case 0x14: { /* get wifi_spec */
++			struct registry_priv	*pregpriv = &padapter->registrypriv;
++			RTW_INFO("get wifi_spec=%d\n", pregpriv->wifi_spec);
++
++		}
++			break;
++
++#ifdef DBG_FIXED_CHAN
++		case 0x17: {
++			struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++			printk("===>  Fixed channel to %d\n", extra_arg);
++			pmlmeext->fixed_chan = extra_arg;
++
++		}
++			break;
++#endif
++#ifdef CONFIG_80211N_HT
++		case 0x19: {
++			struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++			/* extra_arg : */
++			/* BIT0: Enable VHT LDPC Rx, BIT1: Enable VHT LDPC Tx, */
++			/* BIT4: Enable HT LDPC Rx, BIT5: Enable HT LDPC Tx */
++			if (arg == 0) {
++				RTW_INFO("driver disable LDPC\n");
++				pregistrypriv->ldpc_cap = 0x00;
++			} else if (arg == 1) {
++				RTW_INFO("driver set LDPC cap = 0x%x\n", extra_arg);
++				pregistrypriv->ldpc_cap = (u8)(extra_arg & 0x33);
++			}
++		}
++			break;
++		case 0x1a: {
++			struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++			/* extra_arg : */
++			/* BIT0: Enable VHT STBC Rx, BIT1: Enable VHT STBC Tx, */
++			/* BIT4: Enable HT STBC Rx, BIT5: Enable HT STBC Tx */
++			if (arg == 0) {
++				RTW_INFO("driver disable STBC\n");
++				pregistrypriv->stbc_cap = 0x00;
++			} else if (arg == 1) {
++				RTW_INFO("driver set STBC cap = 0x%x\n", extra_arg);
++				pregistrypriv->stbc_cap = (u8)(extra_arg & 0x33);
++			}
++		}
++			break;
++#endif /* CONFIG_80211N_HT */
++		case 0x1b: {
++			struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++
++			if (arg == 0) {
++				RTW_INFO("disable driver ctrl max_rx_rate, reset to default_rate_set\n");
++				init_mlme_default_rate_set(padapter);
++#ifdef CONFIG_80211N_HT
++				pregistrypriv->ht_enable = (u8)rtw_ht_enable;
++#endif /* CONFIG_80211N_HT */
++			} else if (arg == 1) {
++
++				int i;
++				u8 max_rx_rate;
++
++				RTW_INFO("enable driver ctrl max_rx_rate = 0x%x\n", extra_arg);
++
++				max_rx_rate = (u8)extra_arg;
++
++				if (max_rx_rate < 0xc) { /* max_rx_rate < MSC0->B or G -> disable HT */
++#ifdef CONFIG_80211N_HT
++					pregistrypriv->ht_enable = 0;
++#endif /* CONFIG_80211N_HT */
++					for (i = 0; i < NumRates; i++) {
++						if (pmlmeext->datarate[i] > max_rx_rate)
++							pmlmeext->datarate[i] = 0xff;
++					}
++
++				}
++#ifdef CONFIG_80211N_HT
++				else if (max_rx_rate < 0x1c) { /* mcs0~mcs15 */
++					u32 mcs_bitmap = 0x0;
++
++					for (i = 0; i < ((max_rx_rate + 1) - 0xc); i++)
++						mcs_bitmap |= BIT(i);
++
++					set_mcs_rate_by_mask(pmlmeext->default_supported_mcs_set, mcs_bitmap);
++				}
++#endif /* CONFIG_80211N_HT							 */
++			}
++		}
++			break;
++		case 0x1c: { /* enable/disable driver control AMPDU Density for peer sta's rx */
++			if (arg == 0) {
++				RTW_INFO("disable driver ctrl ampdu density\n");
++				padapter->driver_ampdu_spacing = 0xFF;
++			} else if (arg == 1) {
++
++				RTW_INFO("enable driver ctrl ampdu density = %d\n", extra_arg);
++
++				if (extra_arg > 0x07)
++					padapter->driver_ampdu_spacing = 0xFF;
++				else
++					padapter->driver_ampdu_spacing = extra_arg;
++			}
++		}
++			break;
++#ifdef CONFIG_BACKGROUND_NOISE_MONITOR
++		case 0x1e: {
++			HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++			PDM_ODM_T pDM_Odm = &pHalData->odmpriv;
++			u8 chan = rtw_get_oper_ch(padapter);
++			RTW_INFO("===========================================\n");
++			ODM_InbandNoise_Monitor(pDM_Odm, _TRUE, 0x1e, 100);
++			RTW_INFO("channel(%d),noise_a = %d, noise_b = %d , noise_all:%d\n",
++				chan, pDM_Odm->noise_level.noise[ODM_RF_PATH_A],
++				pDM_Odm->noise_level.noise[ODM_RF_PATH_B],
++				 pDM_Odm->noise_level.noise_all);
++			RTW_INFO("===========================================\n");
++
++		}
++			break;
++#endif
++
++
++#if defined(CONFIG_SDIO_HCI) && defined(CONFIG_SDIO_INDIRECT_ACCESS) && defined(DBG_SDIO_INDIRECT_ACCESS)
++		case 0x1f:
++			{
++				int i, j = 0, test_cnts = 0;
++				static u8 test_code = 0x5A;
++				static u32 data_misatch_cnt = 0, d_acc_err_cnt = 0;
++
++				u32 d_data, i_data;
++				u32 imr;
++
++				test_cnts = extra_arg;
++				for (i = 0; i < test_cnts; i++) {
++					if (RTW_CANNOT_IO(padapter))
++						break;
++
++					rtw_write8(padapter, 0x07, test_code);
++
++					d_data = rtw_read32(padapter, 0x04);
++					imr =  rtw_read32(padapter, 0x10250014);
++					rtw_write32(padapter, 0x10250014, 0);
++					rtw_msleep_os(50);
++
++					i_data = rtw_sd_iread32(padapter, 0x04);
++
++					rtw_write32(padapter, 0x10250014, imr);
++
++					if (d_data != i_data) {
++						data_misatch_cnt++;
++						RTW_ERR("d_data :0x%08x, i_data : 0x%08x\n", d_data, i_data);
++					}
++
++					if (test_code != (i_data >> 24)) {
++						d_acc_err_cnt++;
++						rtw_write8(padapter, 0x07, 0xAA);
++						RTW_ERR("test_code :0x%02x, i_data : 0x%08x\n", test_code, i_data);
++					}
++					if ((j++) == 100) {
++						rtw_msleep_os(2000);
++						RTW_INFO(" Indirect access testing..........%d/%d\n", i, test_cnts);
++						j = 0;
++					}
++
++					test_code = ~test_code;
++					rtw_msleep_os(50);
++				}
++				RTW_INFO("========Indirect access test=========\n");
++				RTW_INFO(" test_cnts = %d\n", test_cnts);
++				RTW_INFO(" direct & indirect read32 data missatch cnts = %d\n", data_misatch_cnt);
++				RTW_INFO(" indirect rdata is not equal to wdata cnts = %d\n", d_acc_err_cnt);
++				RTW_INFO("========Indirect access test=========\n\n");
++				data_misatch_cnt = d_acc_err_cnt = 0;
++
++			}
++			break;
++#endif
++
++#ifdef CONFIG_SUPPORT_FIFO_DUMP
++		case 0x20:
++			{
++				#include "../../hal/hal_halmac.h"
++
++				if (arg == 0xAA) {
++					u8 page_offset, page_num;
++					u32 page_size = 0;
++					u8 *buffer = NULL;
++					u32 buf_size = 0;
++
++					page_offset = (u8)(extra_arg >> 16);
++					page_num = (u8)(extra_arg & 0xFF);
++					RTW_INFO("page_offset:%d, page_num:%d\n", page_offset, page_num);
++
++					rtw_hal_get_def_var(padapter, HAL_DEF_TX_PAGE_SIZE, &page_size);
++					if (page_size) {
++						buf_size = page_size * page_num;
++						buffer = rtw_zvmalloc(buf_size);
++						if (buffer) {
++							RTW_INFO("page_size:%d, buf_size:%d\n", page_size, buf_size);
++							rtw_hal_get_rsvd_page(padapter, page_offset, page_num, buffer, buf_size);
++							rtw_vmfree(buffer, buf_size);
++						} else {
++							RTW_ERR("rsvd_buf mem allocate failed\n");
++							rtw_warn_on(1);
++						}
++					} else
++						RTW_ERR("Tx page size is zero ??\n");
++				} else {
++					u8 fifo_sel;
++					u32 addr, size;
++					u8 *buffer = NULL;
++
++					fifo_sel = (u8)(arg & 0x0F);
++					addr = (extra_arg >> 16) & 0xFFFF;
++					size = extra_arg & 0xFFFF;
++
++					RTW_INFO("fifo_sel:%d, start_addr:0x%04x, size:%d\n", fifo_sel, addr, size);
++					if (size) {
++						size = RND4(size);
++						buffer = rtw_zvmalloc(size);
++						if (NULL == buffer)
++							size = 0;
++					}
++					rtw_halmac_dump_fifo(adapter_to_dvobj(padapter), fifo_sel, addr, size, buffer);
++					if (buffer)
++						rtw_vmfree(buffer, size);
++				}
++			}
++			break;
++#endif
++
++		case 0x23: {
++			RTW_INFO("turn %s the bNotifyChannelChange Variable\n", (extra_arg == 1) ? "on" : "off");
++			padapter->bNotifyChannelChange = extra_arg;
++			break;
++		}
++		case 0x24: {
++#ifdef CONFIG_P2P
++			RTW_INFO("turn %s the bShowGetP2PState Variable\n", (extra_arg == 1) ? "on" : "off");
++			padapter->bShowGetP2PState = extra_arg;
++#endif /* CONFIG_P2P */
++			break;
++		}
++#ifdef CONFIG_GPIO_API
++		case 0x25: { /* Get GPIO register */
++			/*
++			* dbg 0x7f250000 [gpio_num], Get gpio value, gpio_num:0~7
++			*/
++
++			u8 value;
++			RTW_INFO("Read GPIO Value  extra_arg = %d\n", extra_arg);
++			value = rtw_hal_get_gpio(padapter, extra_arg);
++			RTW_INFO("Read GPIO Value = %d\n", value);
++			break;
++		}
++		case 0x26: { /* Set GPIO direction */
++
++			/* dbg 0x7f26000x [y], Set gpio direction,
++			* x: gpio_num,4~7  y: indicate direction, 0~1
++			*/
++
++			int value;
++			RTW_INFO("Set GPIO Direction! arg = %d ,extra_arg=%d\n", arg , extra_arg);
++			value = rtw_hal_config_gpio(padapter, arg, extra_arg);
++			RTW_INFO("Set GPIO Direction %s\n", (value == -1) ? "Fail!!!" : "Success");
++			break;
++		}
++		case 0x27: { /* Set GPIO output direction value */
++			/*
++			* dbg 0x7f27000x [y], Set gpio output direction value,
++			* x: gpio_num,4~7  y: indicate direction, 0~1
++			*/
++
++			int value;
++			RTW_INFO("Set GPIO Value! arg = %d ,extra_arg=%d\n", arg , extra_arg);
++			value = rtw_hal_set_gpio_output_value(padapter, arg, extra_arg);
++			RTW_INFO("Set GPIO Value %s\n", (value == -1) ? "Fail!!!" : "Success");
++			break;
++		}
++#endif
++#ifdef DBG_CMD_QUEUE
++		case 0x28: {
++			dump_cmd_id = extra_arg;
++			RTW_INFO("dump_cmd_id:%d\n", dump_cmd_id);
++		}
++			break;
++#endif /* DBG_CMD_QUEUE */
++		case 0xaa: {
++			if ((extra_arg & 0x7F) > 0x3F)
++				extra_arg = 0xFF;
++			RTW_INFO("chang data rate to :0x%02x\n", extra_arg);
++			padapter->fix_rate = extra_arg;
++		}
++			break;
++		case 0xdd: { /* registers dump , 0 for mac reg,1 for bb reg, 2 for rf reg */
++			if (extra_arg == 0)
++				mac_reg_dump(RTW_DBGDUMP, padapter);
++			else if (extra_arg == 1)
++				bb_reg_dump(RTW_DBGDUMP, padapter);
++			else if (extra_arg == 2)
++				rf_reg_dump(RTW_DBGDUMP, padapter);
++		}
++			break;
++
++		case 0xee: {
++			RTW_INFO(" === please control /proc  to trun on/off PHYDM func ===\n");
++		}
++			break;
++
++		case 0xfd:
++			rtw_write8(padapter, 0xc50, arg);
++			RTW_INFO("wr(0xc50)=0x%x\n", rtw_read8(padapter, 0xc50));
++			rtw_write8(padapter, 0xc58, arg);
++			RTW_INFO("wr(0xc58)=0x%x\n", rtw_read8(padapter, 0xc58));
++			break;
++		case 0xfe:
++			RTW_INFO("rd(0xc50)=0x%x\n", rtw_read8(padapter, 0xc50));
++			RTW_INFO("rd(0xc58)=0x%x\n", rtw_read8(padapter, 0xc58));
++			break;
++		case 0xff: {
++			RTW_INFO("dbg(0x210)=0x%x\n", rtw_read32(padapter, 0x210));
++			RTW_INFO("dbg(0x608)=0x%x\n", rtw_read32(padapter, 0x608));
++			RTW_INFO("dbg(0x280)=0x%x\n", rtw_read32(padapter, 0x280));
++			RTW_INFO("dbg(0x284)=0x%x\n", rtw_read32(padapter, 0x284));
++			RTW_INFO("dbg(0x288)=0x%x\n", rtw_read32(padapter, 0x288));
++
++			RTW_INFO("dbg(0x664)=0x%x\n", rtw_read32(padapter, 0x664));
++
++
++			RTW_INFO("\n");
++
++			RTW_INFO("dbg(0x430)=0x%x\n", rtw_read32(padapter, 0x430));
++			RTW_INFO("dbg(0x438)=0x%x\n", rtw_read32(padapter, 0x438));
++
++			RTW_INFO("dbg(0x440)=0x%x\n", rtw_read32(padapter, 0x440));
++
++			RTW_INFO("dbg(0x458)=0x%x\n", rtw_read32(padapter, 0x458));
++
++			RTW_INFO("dbg(0x484)=0x%x\n", rtw_read32(padapter, 0x484));
++			RTW_INFO("dbg(0x488)=0x%x\n", rtw_read32(padapter, 0x488));
++
++			RTW_INFO("dbg(0x444)=0x%x\n", rtw_read32(padapter, 0x444));
++			RTW_INFO("dbg(0x448)=0x%x\n", rtw_read32(padapter, 0x448));
++			RTW_INFO("dbg(0x44c)=0x%x\n", rtw_read32(padapter, 0x44c));
++			RTW_INFO("dbg(0x450)=0x%x\n", rtw_read32(padapter, 0x450));
++		}
++			break;
++		}
++		break;
++	default:
++		RTW_INFO("error dbg cmd!\n");
++		break;
++	}
++
++
++	return ret;
++
++}
++
++static int wpa_set_param(struct net_device *dev, u8 name, u32 value)
++{
++	uint ret = 0;
++	u32 flags;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	switch (name) {
++	case IEEE_PARAM_WPA_ENABLED:
++
++		padapter->securitypriv.dot11AuthAlgrthm = dot11AuthAlgrthm_8021X; /* 802.1x */
++
++		/* ret = ieee80211_wpa_enable(ieee, value); */
++
++		switch ((value) & 0xff) {
++		case 1: /* WPA */
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeWPAPSK; /* WPA_PSK */
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption2Enabled;
++			break;
++		case 2: /* WPA2 */
++			padapter->securitypriv.ndisauthtype = Ndis802_11AuthModeWPA2PSK; /* WPA2_PSK */
++			padapter->securitypriv.ndisencryptstatus = Ndis802_11Encryption3Enabled;
++			break;
++		}
++
++
++		break;
++
++	case IEEE_PARAM_TKIP_COUNTERMEASURES:
++		/* ieee->tkip_countermeasures=value; */
++		break;
++
++	case IEEE_PARAM_DROP_UNENCRYPTED: {
++		/* HACK:
++		 *
++		 * wpa_supplicant calls set_wpa_enabled when the driver
++		 * is loaded and unloaded, regardless of if WPA is being
++		 * used.  No other calls are made which can be used to
++		 * determine if encryption will be used or not prior to
++		 * association being expected.  If encryption is not being
++		 * used, drop_unencrypted is set to false, else true -- we
++		 * can use this to determine if the CAP_PRIVACY_ON bit should
++		 * be set.
++		 */
++
++#if 0
++		struct ieee80211_security sec = {
++			.flags = SEC_ENABLED,
++			.enabled = value,
++		};
++		ieee->drop_unencrypted = value;
++		/* We only change SEC_LEVEL for open mode. Others
++		 * are set by ipw_wpa_set_encryption.
++		 */
++		if (!value) {
++			sec.flags |= SEC_LEVEL;
++			sec.level = SEC_LEVEL_0;
++		} else {
++			sec.flags |= SEC_LEVEL;
++			sec.level = SEC_LEVEL_1;
++		}
++		if (ieee->set_security)
++			ieee->set_security(ieee->dev, &sec);
++#endif
++		break;
++
++	}
++	case IEEE_PARAM_PRIVACY_INVOKED:
++
++		/* ieee->privacy_invoked=value; */
++
++		break;
++
++	case IEEE_PARAM_AUTH_ALGS:
++
++		ret = wpa_set_auth_algs(dev, value);
++
++		break;
++
++	case IEEE_PARAM_IEEE_802_1X:
++
++		/* ieee->ieee802_1x=value;		 */
++
++		break;
++
++	case IEEE_PARAM_WPAX_SELECT:
++
++		/* added for WPA2 mixed mode */
++		/*RTW_WARN("------------------------>wpax value = %x\n", value);*/
++		/*
++		spin_lock_irqsave(&ieee->wpax_suitlist_lock,flags);
++		ieee->wpax_type_set = 1;
++		ieee->wpax_type_notify = value;
++		spin_unlock_irqrestore(&ieee->wpax_suitlist_lock,flags);
++		*/
++
++		break;
++
++	default:
++
++
++
++		ret = -EOPNOTSUPP;
++
++
++		break;
++
++	}
++
++	return ret;
++
++}
++
++static int wpa_mlme(struct net_device *dev, u32 command, u32 reason)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	switch (command) {
++	case IEEE_MLME_STA_DEAUTH:
++
++		if (!rtw_set_802_11_disassociate(padapter))
++			ret = -1;
++
++		break;
++
++	case IEEE_MLME_STA_DISASSOC:
++
++		if (!rtw_set_802_11_disassociate(padapter))
++			ret = -1;
++
++		break;
++
++	default:
++		ret = -EOPNOTSUPP;
++		break;
++	}
++
++	return ret;
++
++}
++
++static int wpa_supplicant_ioctl(struct net_device *dev, struct iw_point *p)
++{
++	struct ieee_param *param;
++	uint ret = 0;
++
++	/* down(&ieee->wx_sem);	 */
++
++	if (p->length < sizeof(struct ieee_param) || !p->pointer) {
++		ret = -EINVAL;
++		goto out;
++	}
++
++	param = (struct ieee_param *)rtw_malloc(p->length);
++	if (param == NULL) {
++		ret = -ENOMEM;
++		goto out;
++	}
++
++	if (copy_from_user(param, p->pointer, p->length)) {
++		rtw_mfree((u8 *)param, p->length);
++		ret = -EFAULT;
++		goto out;
++	}
++
++	switch (param->cmd) {
++
++	case IEEE_CMD_SET_WPA_PARAM:
++		ret = wpa_set_param(dev, param->u.wpa_param.name, param->u.wpa_param.value);
++		break;
++
++	case IEEE_CMD_SET_WPA_IE:
++		/* ret = wpa_set_wpa_ie(dev, param, p->length); */
++		ret =  rtw_set_wpa_ie((_adapter *)rtw_netdev_priv(dev), (char *)param->u.wpa_ie.data, (u16)param->u.wpa_ie.len);
++		break;
++
++	case IEEE_CMD_SET_ENCRYPTION:
++		ret = wpa_set_encryption(dev, param, p->length);
++		break;
++
++	case IEEE_CMD_MLME:
++		ret = wpa_mlme(dev, param->u.mlme.command, param->u.mlme.reason_code);
++		break;
++
++	default:
++		RTW_INFO("Unknown WPA supplicant request: %d\n", param->cmd);
++		ret = -EOPNOTSUPP;
++		break;
++
++	}
++
++	if (ret == 0 && copy_to_user(p->pointer, param, p->length))
++		ret = -EFAULT;
++
++	rtw_mfree((u8 *)param, p->length);
++
++out:
++
++	/* up(&ieee->wx_sem); */
++
++	return ret;
++
++}
++
++#ifdef CONFIG_AP_MODE
++static int rtw_set_encryption(struct net_device *dev, struct ieee_param *param, u32 param_len)
++{
++	int ret = 0;
++	u32 wep_key_idx, wep_key_len, wep_total_len;
++	NDIS_802_11_WEP	*pwep = NULL;
++	struct sta_info *psta = NULL, *pbcmc_sta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &(padapter->securitypriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	param->u.crypt.err = 0;
++	param->u.crypt.alg[IEEE_CRYPT_ALG_NAME_LEN - 1] = '\0';
++
++	/* sizeof(struct ieee_param) = 64 bytes; */
++	/* if (param_len !=  (u32) ((u8 *) param->u.crypt.key - (u8 *) param) + param->u.crypt.key_len) */
++	if (param_len !=  sizeof(struct ieee_param) + param->u.crypt.key_len) {
++		ret =  -EINVAL;
++		goto exit;
++	}
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff) {
++		if (param->u.crypt.idx >= WEP_KEYS
++#ifdef CONFIG_IEEE80211W
++		    && param->u.crypt.idx > BIP_MAX_KEYID
++#endif /* CONFIG_IEEE80211W */
++		   ) {
++			ret = -EINVAL;
++			goto exit;
++		}
++	} else {
++		psta = rtw_get_stainfo(pstapriv, param->sta_addr);
++		if (!psta) {
++			/* ret = -EINVAL; */
++			RTW_INFO("rtw_set_encryption(), sta has already been removed or never been added\n");
++			goto exit;
++		}
++	}
++
++	if (strcmp(param->u.crypt.alg, "none") == 0 && (psta == NULL)) {
++		/* todo:clear default encryption keys */
++
++		psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Open;
++		psecuritypriv->ndisencryptstatus = Ndis802_11EncryptionDisabled;
++		psecuritypriv->dot11PrivacyAlgrthm = _NO_PRIVACY_;
++		psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++
++		RTW_INFO("clear default encryption keys, keyid=%d\n", param->u.crypt.idx);
++
++		goto exit;
++	}
++
++
++	if (strcmp(param->u.crypt.alg, "WEP") == 0 && (psta == NULL)) {
++		RTW_INFO("r871x_set_encryption, crypt.alg = WEP\n");
++
++		wep_key_idx = param->u.crypt.idx;
++		wep_key_len = param->u.crypt.key_len;
++
++		RTW_INFO("r871x_set_encryption, wep_key_idx=%d, len=%d\n", wep_key_idx, wep_key_len);
++
++		if ((wep_key_idx >= WEP_KEYS) || (wep_key_len <= 0)) {
++			ret = -EINVAL;
++			goto exit;
++		}
++
++
++		if (wep_key_len > 0) {
++			wep_key_len = wep_key_len <= 5 ? 5 : 13;
++			wep_total_len = wep_key_len + FIELD_OFFSET(NDIS_802_11_WEP, KeyMaterial);
++			pwep = (NDIS_802_11_WEP *)rtw_malloc(wep_total_len);
++			if (pwep == NULL) {
++				RTW_INFO(" r871x_set_encryption: pwep allocate fail !!!\n");
++				goto exit;
++			}
++
++			_rtw_memset(pwep, 0, wep_total_len);
++
++			pwep->KeyLength = wep_key_len;
++			pwep->Length = wep_total_len;
++
++		}
++
++		pwep->KeyIndex = wep_key_idx;
++
++		_rtw_memcpy(pwep->KeyMaterial,  param->u.crypt.key, pwep->KeyLength);
++
++		if (param->u.crypt.set_tx) {
++			RTW_INFO("wep, set_tx=1\n");
++
++			psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Auto;
++			psecuritypriv->ndisencryptstatus = Ndis802_11Encryption1Enabled;
++			psecuritypriv->dot11PrivacyAlgrthm = _WEP40_;
++			psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++
++			if (pwep->KeyLength == 13) {
++				psecuritypriv->dot11PrivacyAlgrthm = _WEP104_;
++				psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++			}
++
++
++			psecuritypriv->dot11PrivacyKeyIndex = wep_key_idx;
++
++			_rtw_memcpy(&(psecuritypriv->dot11DefKey[wep_key_idx].skey[0]), pwep->KeyMaterial, pwep->KeyLength);
++
++			psecuritypriv->dot11DefKeylen[wep_key_idx] = pwep->KeyLength;
++
++			rtw_ap_set_wep_key(padapter, pwep->KeyMaterial, pwep->KeyLength, wep_key_idx, 1);
++		} else {
++			RTW_INFO("wep, set_tx=0\n");
++
++			/* don't update "psecuritypriv->dot11PrivacyAlgrthm" and  */
++			/* "psecuritypriv->dot11PrivacyKeyIndex=keyid", but can rtw_set_key to cam */
++
++			_rtw_memcpy(&(psecuritypriv->dot11DefKey[wep_key_idx].skey[0]), pwep->KeyMaterial, pwep->KeyLength);
++
++			psecuritypriv->dot11DefKeylen[wep_key_idx] = pwep->KeyLength;
++
++			rtw_ap_set_wep_key(padapter, pwep->KeyMaterial, pwep->KeyLength, wep_key_idx, 0);
++		}
++
++		goto exit;
++
++	}
++
++
++	if (!psta && check_fwstate(pmlmepriv, WIFI_AP_STATE)) /*  */ { /* group key */
++		if (param->u.crypt.set_tx == 1) {
++			if (strcmp(param->u.crypt.alg, "WEP") == 0) {
++				RTW_INFO("%s, set group_key, WEP\n", __FUNCTION__);
++
++				_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++				psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++				if (param->u.crypt.key_len == 13)
++					psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++
++			} else if (strcmp(param->u.crypt.alg, "TKIP") == 0) {
++				RTW_INFO("%s, set group_key, TKIP\n", __FUNCTION__);
++
++				psecuritypriv->dot118021XGrpPrivacy = _TKIP_;
++
++				_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++				/* DEBUG_ERR("set key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len); */
++				/* set mic key */
++				_rtw_memcpy(psecuritypriv->dot118021XGrptxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[16]), 8);
++				_rtw_memcpy(psecuritypriv->dot118021XGrprxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[24]), 8);
++
++				psecuritypriv->busetkipkey = _TRUE;
++
++			} else if (strcmp(param->u.crypt.alg, "CCMP") == 0) {
++				RTW_INFO("%s, set group_key, CCMP\n", __FUNCTION__);
++
++				psecuritypriv->dot118021XGrpPrivacy = _AES_;
++
++				_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++			}
++#ifdef CONFIG_IEEE80211W
++			else if (strcmp(param->u.crypt.alg, "BIP") == 0) {
++				int no;
++
++				RTW_INFO("BIP key_len=%d , index=%d\n", param->u.crypt.key_len, param->u.crypt.idx);
++				/* save the IGTK key, length 16 bytes */
++				_rtw_memcpy(padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey, param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++				/* RTW_INFO("IGTK key below:\n");
++				for(no=0;no<16;no++)
++					printk(" %02x ", padapter->securitypriv.dot11wBIPKey[param->u.crypt.idx].skey[no]);
++				RTW_INFO("\n"); */
++				padapter->securitypriv.dot11wBIPKeyid = param->u.crypt.idx;
++				padapter->securitypriv.binstallBIPkey = _TRUE;
++				RTW_INFO(" ~~~~set sta key:IGKT\n");
++				goto exit;
++			}
++#endif /* CONFIG_IEEE80211W */
++			else {
++				RTW_INFO("%s, set group_key, none\n", __FUNCTION__);
++
++				psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++			}
++
++			psecuritypriv->dot118021XGrpKeyid = param->u.crypt.idx;
++
++			psecuritypriv->binstallGrpkey = _TRUE;
++
++			psecuritypriv->dot11PrivacyAlgrthm = psecuritypriv->dot118021XGrpPrivacy;/* !!! */
++
++			rtw_ap_set_group_key(padapter, param->u.crypt.key, psecuritypriv->dot118021XGrpPrivacy, param->u.crypt.idx);
++
++			pbcmc_sta = rtw_get_bcmc_stainfo(padapter);
++			if (pbcmc_sta) {
++				pbcmc_sta->ieee8021x_blocked = _FALSE;
++				pbcmc_sta->dot118021XPrivacy = psecuritypriv->dot118021XGrpPrivacy; /* rx will use bmc_sta's dot118021XPrivacy			 */
++			}
++
++		}
++
++		goto exit;
++
++	}
++
++	if (psecuritypriv->dot11AuthAlgrthm == dot11AuthAlgrthm_8021X && psta) { /* psk/802_1x */
++		if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++			if (param->u.crypt.set_tx == 1) {
++				_rtw_memcpy(psta->dot118021x_UncstKey.skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++				if (strcmp(param->u.crypt.alg, "WEP") == 0) {
++					RTW_INFO("%s, set pairwise key, WEP\n", __FUNCTION__);
++
++					psta->dot118021XPrivacy = _WEP40_;
++					if (param->u.crypt.key_len == 13)
++						psta->dot118021XPrivacy = _WEP104_;
++				} else if (strcmp(param->u.crypt.alg, "TKIP") == 0) {
++					RTW_INFO("%s, set pairwise key, TKIP\n", __FUNCTION__);
++
++					psta->dot118021XPrivacy = _TKIP_;
++
++					/* DEBUG_ERR("set key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len); */
++					/* set mic key */
++					_rtw_memcpy(psta->dot11tkiptxmickey.skey, &(param->u.crypt.key[16]), 8);
++					_rtw_memcpy(psta->dot11tkiprxmickey.skey, &(param->u.crypt.key[24]), 8);
++
++					psecuritypriv->busetkipkey = _TRUE;
++
++				} else if (strcmp(param->u.crypt.alg, "CCMP") == 0) {
++
++					RTW_INFO("%s, set pairwise key, CCMP\n", __FUNCTION__);
++
++					psta->dot118021XPrivacy = _AES_;
++				} else {
++					RTW_INFO("%s, set pairwise key, none\n", __FUNCTION__);
++
++					psta->dot118021XPrivacy = _NO_PRIVACY_;
++				}
++
++				rtw_ap_set_pairwise_key(padapter, psta);
++
++				psta->ieee8021x_blocked = _FALSE;
++
++				psta->bpairwise_key_installed = _TRUE;
++
++			} else { /* group key??? */
++				if (strcmp(param->u.crypt.alg, "WEP") == 0) {
++					_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++					psecuritypriv->dot118021XGrpPrivacy = _WEP40_;
++					if (param->u.crypt.key_len == 13)
++						psecuritypriv->dot118021XGrpPrivacy = _WEP104_;
++				} else if (strcmp(param->u.crypt.alg, "TKIP") == 0) {
++					psecuritypriv->dot118021XGrpPrivacy = _TKIP_;
++
++					_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++
++					/* DEBUG_ERR("set key length :param->u.crypt.key_len=%d\n", param->u.crypt.key_len); */
++					/* set mic key */
++					_rtw_memcpy(psecuritypriv->dot118021XGrptxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[16]), 8);
++					_rtw_memcpy(psecuritypriv->dot118021XGrprxmickey[param->u.crypt.idx].skey, &(param->u.crypt.key[24]), 8);
++
++					psecuritypriv->busetkipkey = _TRUE;
++
++				} else if (strcmp(param->u.crypt.alg, "CCMP") == 0) {
++					psecuritypriv->dot118021XGrpPrivacy = _AES_;
++
++					_rtw_memcpy(psecuritypriv->dot118021XGrpKey[param->u.crypt.idx].skey,  param->u.crypt.key, (param->u.crypt.key_len > 16 ? 16 : param->u.crypt.key_len));
++				} else
++					psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++
++				psecuritypriv->dot118021XGrpKeyid = param->u.crypt.idx;
++
++				psecuritypriv->binstallGrpkey = _TRUE;
++
++				psecuritypriv->dot11PrivacyAlgrthm = psecuritypriv->dot118021XGrpPrivacy;/* !!! */
++
++				rtw_ap_set_group_key(padapter, param->u.crypt.key, psecuritypriv->dot118021XGrpPrivacy, param->u.crypt.idx);
++
++				pbcmc_sta = rtw_get_bcmc_stainfo(padapter);
++				if (pbcmc_sta) {
++					pbcmc_sta->ieee8021x_blocked = _FALSE;
++					pbcmc_sta->dot118021XPrivacy = psecuritypriv->dot118021XGrpPrivacy; /* rx will use bmc_sta's dot118021XPrivacy			 */
++				}
++
++			}
++
++		}
++
++	}
++
++exit:
++
++	if (pwep)
++		rtw_mfree((u8 *)pwep, wep_total_len);
++
++	return ret;
++
++}
++
++static int rtw_set_beacon(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	unsigned char *pbuf = param->u.bcn_ie.buf;
++
++
++	RTW_INFO("%s, len=%d\n", __FUNCTION__, len);
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	_rtw_memcpy(&pstapriv->max_num_sta, param->u.bcn_ie.reserved, 2);
++
++	if ((pstapriv->max_num_sta > NUM_STA) || (pstapriv->max_num_sta <= 0))
++		pstapriv->max_num_sta = NUM_STA;
++
++
++	if (rtw_check_beacon_data(padapter, pbuf, (len - 12 - 2)) == _SUCCESS) /* 12 = param header, 2:no packed */
++		ret = 0;
++	else
++		ret = -EINVAL;
++
++
++	return ret;
++
++}
++
++static int rtw_hostapd_sta_flush(struct net_device *dev)
++{
++	/* _irqL irqL; */
++	/* _list	*phead, *plist; */
++	int ret = 0;
++	/* struct sta_info *psta = NULL; */
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	/* struct sta_priv *pstapriv = &padapter->stapriv; */
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	flush_all_cam_entry(padapter);	/* clear CAM */
++
++	ret = rtw_sta_flush(padapter, _TRUE);
++
++	return ret;
++
++}
++
++static int rtw_add_sta(struct net_device *dev, struct ieee_param *param)
++{
++	_irqL irqL;
++	int ret = 0;
++	struct sta_info *psta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	RTW_INFO("rtw_add_sta(aid=%d)=" MAC_FMT "\n", param->u.add_sta.aid, MAC_ARG(param->sta_addr));
++
++	if (check_fwstate(pmlmepriv, (_FW_LINKED | WIFI_AP_STATE)) != _TRUE)
++		return -EINVAL;
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff)
++		return -EINVAL;
++
++#if 0
++	psta = rtw_get_stainfo(pstapriv, param->sta_addr);
++	if (psta) {
++		RTW_INFO("rtw_add_sta(), free has been added psta=%p\n", psta);
++		/* _enter_critical_bh(&(pstapriv->sta_hash_lock), &irqL);		 */
++		rtw_free_stainfo(padapter,  psta);
++		/* _exit_critical_bh(&(pstapriv->sta_hash_lock), &irqL); */
++
++		psta = NULL;
++	}
++#endif
++	/* psta = rtw_alloc_stainfo(pstapriv, param->sta_addr); */
++	psta = rtw_get_stainfo(pstapriv, param->sta_addr);
++	if (psta) {
++		int flags = param->u.add_sta.flags;
++
++		/* RTW_INFO("rtw_add_sta(), init sta's variables, psta=%p\n", psta); */
++
++		psta->aid = param->u.add_sta.aid;/* aid=1~2007 */
++
++		_rtw_memcpy(psta->bssrateset, param->u.add_sta.tx_supp_rates, 16);
++
++
++		/* check wmm cap. */
++		if (WLAN_STA_WME & flags)
++			psta->qos_option = 1;
++		else
++			psta->qos_option = 0;
++
++		if (pmlmepriv->qospriv.qos_option == 0)
++			psta->qos_option = 0;
++
++
++#ifdef CONFIG_80211N_HT
++		/* chec 802.11n ht cap. */
++		if (WLAN_STA_HT & flags) {
++			psta->htpriv.ht_option = _TRUE;
++			psta->qos_option = 1;
++			_rtw_memcpy((void *)&psta->htpriv.ht_cap, (void *)&param->u.add_sta.ht_cap, sizeof(struct rtw_ieee80211_ht_cap));
++		} else
++			psta->htpriv.ht_option = _FALSE;
++
++		if (pmlmepriv->htpriv.ht_option == _FALSE)
++			psta->htpriv.ht_option = _FALSE;
++#endif
++
++
++		update_sta_info_apmode(padapter, psta);
++
++
++	} else
++		ret = -ENOMEM;
++
++	return ret;
++
++}
++
++static int rtw_del_sta(struct net_device *dev, struct ieee_param *param)
++{
++	_irqL irqL;
++	int ret = 0;
++	struct sta_info *psta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	RTW_INFO("rtw_del_sta=" MAC_FMT "\n", MAC_ARG(param->sta_addr));
++
++	if (check_fwstate(pmlmepriv, (_FW_LINKED | WIFI_AP_STATE)) != _TRUE)
++		return -EINVAL;
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff)
++		return -EINVAL;
++
++	psta = rtw_get_stainfo(pstapriv, param->sta_addr);
++	if (psta) {
++		u8 updated = _FALSE;
++
++		/* RTW_INFO("free psta=%p, aid=%d\n", psta, psta->aid); */
++
++		_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++		if (rtw_is_list_empty(&psta->asoc_list) == _FALSE) {
++			rtw_list_delete(&psta->asoc_list);
++			pstapriv->asoc_list_cnt--;
++			updated = ap_free_sta(padapter, psta, _TRUE, WLAN_REASON_DEAUTH_LEAVING, _TRUE);
++
++		}
++		_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++		associated_clients_update(padapter, updated, STA_INFO_UPDATE_ALL);
++
++		psta = NULL;
++
++	} else {
++		RTW_INFO("rtw_del_sta(), sta has already been removed or never been added\n");
++
++		/* ret = -1; */
++	}
++
++
++	return ret;
++
++}
++
++static int rtw_ioctl_get_sta_data(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret = 0;
++	struct sta_info *psta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct ieee_param_ex *param_ex = (struct ieee_param_ex *)param;
++	struct sta_data *psta_data = (struct sta_data *)param_ex->data;
++
++	RTW_INFO("rtw_ioctl_get_sta_info, sta_addr: " MAC_FMT "\n", MAC_ARG(param_ex->sta_addr));
++
++	if (check_fwstate(pmlmepriv, (_FW_LINKED | WIFI_AP_STATE)) != _TRUE)
++		return -EINVAL;
++
++	if (param_ex->sta_addr[0] == 0xff && param_ex->sta_addr[1] == 0xff &&
++	    param_ex->sta_addr[2] == 0xff && param_ex->sta_addr[3] == 0xff &&
++	    param_ex->sta_addr[4] == 0xff && param_ex->sta_addr[5] == 0xff)
++		return -EINVAL;
++
++	psta = rtw_get_stainfo(pstapriv, param_ex->sta_addr);
++	if (psta) {
++#if 0
++		struct {
++			u16 aid;
++			u16 capability;
++			int flags;
++			u32 sta_set;
++			u8 tx_supp_rates[16];
++			u32 tx_supp_rates_len;
++			struct rtw_ieee80211_ht_cap ht_cap;
++			u64	rx_pkts;
++			u64	rx_bytes;
++			u64	rx_drops;
++			u64	tx_pkts;
++			u64	tx_bytes;
++			u64	tx_drops;
++		} get_sta;
++#endif
++		psta_data->aid = (u16)psta->aid;
++		psta_data->capability = psta->capability;
++		psta_data->flags = psta->flags;
++
++		/*
++				nonerp_set : BIT(0)
++				no_short_slot_time_set : BIT(1)
++				no_short_preamble_set : BIT(2)
++				no_ht_gf_set : BIT(3)
++				no_ht_set : BIT(4)
++				ht_20mhz_set : BIT(5)
++		*/
++
++		psta_data->sta_set = ((psta->nonerp_set) |
++				      (psta->no_short_slot_time_set << 1) |
++				      (psta->no_short_preamble_set << 2) |
++				      (psta->no_ht_gf_set << 3) |
++				      (psta->no_ht_set << 4) |
++				      (psta->ht_20mhz_set << 5));
++
++		psta_data->tx_supp_rates_len =  psta->bssratelen;
++		_rtw_memcpy(psta_data->tx_supp_rates, psta->bssrateset, psta->bssratelen);
++#ifdef CONFIG_80211N_HT
++		_rtw_memcpy(&psta_data->ht_cap, &psta->htpriv.ht_cap, sizeof(struct rtw_ieee80211_ht_cap));
++#endif /* CONFIG_80211N_HT */
++		psta_data->rx_pkts = psta->sta_stats.rx_data_pkts;
++		psta_data->rx_bytes = psta->sta_stats.rx_bytes;
++		psta_data->rx_drops = psta->sta_stats.rx_drops;
++
++		psta_data->tx_pkts = psta->sta_stats.tx_pkts;
++		psta_data->tx_bytes = psta->sta_stats.tx_bytes;
++		psta_data->tx_drops = psta->sta_stats.tx_drops;
++
++
++	} else
++		ret = -1;
++
++	return ret;
++
++}
++
++static int rtw_get_sta_wpaie(struct net_device *dev, struct ieee_param *param)
++{
++	int ret = 0;
++	struct sta_info *psta = NULL;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	RTW_INFO("rtw_get_sta_wpaie, sta_addr: " MAC_FMT "\n", MAC_ARG(param->sta_addr));
++
++	if (check_fwstate(pmlmepriv, (_FW_LINKED | WIFI_AP_STATE)) != _TRUE)
++		return -EINVAL;
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff)
++		return -EINVAL;
++
++	psta = rtw_get_stainfo(pstapriv, param->sta_addr);
++	if (psta) {
++		if ((psta->wpa_ie[0] == WLAN_EID_RSN) || (psta->wpa_ie[0] == WLAN_EID_GENERIC)) {
++			int wpa_ie_len;
++			int copy_len;
++
++			wpa_ie_len = psta->wpa_ie[1];
++
++			copy_len = ((wpa_ie_len + 2) > sizeof(psta->wpa_ie)) ? (sizeof(psta->wpa_ie)) : (wpa_ie_len + 2);
++
++			param->u.wpa_ie.len = copy_len;
++
++			_rtw_memcpy(param->u.wpa_ie.reserved, psta->wpa_ie, copy_len);
++		} else {
++			/* ret = -1; */
++			RTW_INFO("sta's wpa_ie is NONE\n");
++		}
++	} else
++		ret = -1;
++
++	return ret;
++
++}
++
++static int rtw_set_wps_beacon(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret = 0;
++	unsigned char wps_oui[4] = {0x0, 0x50, 0xf2, 0x04};
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct mlme_ext_priv	*pmlmeext = &(padapter->mlmeextpriv);
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	int ie_len;
++
++	RTW_INFO("%s, len=%d\n", __FUNCTION__, len);
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	ie_len = len - 12 - 2; /* 12 = param header, 2:no packed */
++
++
++	if (pmlmepriv->wps_beacon_ie) {
++		rtw_mfree(pmlmepriv->wps_beacon_ie, pmlmepriv->wps_beacon_ie_len);
++		pmlmepriv->wps_beacon_ie = NULL;
++	}
++
++	if (ie_len > 0) {
++		pmlmepriv->wps_beacon_ie = rtw_malloc(ie_len);
++		pmlmepriv->wps_beacon_ie_len = ie_len;
++		if (pmlmepriv->wps_beacon_ie == NULL) {
++			RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++			return -EINVAL;
++		}
++
++		_rtw_memcpy(pmlmepriv->wps_beacon_ie, param->u.bcn_ie.buf, ie_len);
++
++		update_beacon(padapter, _VENDOR_SPECIFIC_IE_, wps_oui, _TRUE);
++
++		pmlmeext->bstart_bss = _TRUE;
++
++	}
++
++
++	return ret;
++
++}
++
++static int rtw_set_wps_probe_resp(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	int ie_len;
++
++	RTW_INFO("%s, len=%d\n", __FUNCTION__, len);
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	ie_len = len - 12 - 2; /* 12 = param header, 2:no packed */
++
++
++	if (pmlmepriv->wps_probe_resp_ie) {
++		rtw_mfree(pmlmepriv->wps_probe_resp_ie, pmlmepriv->wps_probe_resp_ie_len);
++		pmlmepriv->wps_probe_resp_ie = NULL;
++	}
++
++	if (ie_len > 0) {
++		pmlmepriv->wps_probe_resp_ie = rtw_malloc(ie_len);
++		pmlmepriv->wps_probe_resp_ie_len = ie_len;
++		if (pmlmepriv->wps_probe_resp_ie == NULL) {
++			RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++			return -EINVAL;
++		}
++		_rtw_memcpy(pmlmepriv->wps_probe_resp_ie, param->u.bcn_ie.buf, ie_len);
++	}
++
++
++	return ret;
++
++}
++
++static int rtw_set_wps_assoc_resp(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	int ie_len;
++
++	RTW_INFO("%s, len=%d\n", __FUNCTION__, len);
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	ie_len = len - 12 - 2; /* 12 = param header, 2:no packed */
++
++
++	if (pmlmepriv->wps_assoc_resp_ie) {
++		rtw_mfree(pmlmepriv->wps_assoc_resp_ie, pmlmepriv->wps_assoc_resp_ie_len);
++		pmlmepriv->wps_assoc_resp_ie = NULL;
++	}
++
++	if (ie_len > 0) {
++		pmlmepriv->wps_assoc_resp_ie = rtw_malloc(ie_len);
++		pmlmepriv->wps_assoc_resp_ie_len = ie_len;
++		if (pmlmepriv->wps_assoc_resp_ie == NULL) {
++			RTW_INFO("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++			return -EINVAL;
++		}
++
++		_rtw_memcpy(pmlmepriv->wps_assoc_resp_ie, param->u.bcn_ie.buf, ie_len);
++	}
++
++
++	return ret;
++
++}
++
++static int rtw_set_hidden_ssid(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret = 0;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *mlmepriv = &(adapter->mlmepriv);
++	struct mlme_ext_priv	*mlmeext = &(adapter->mlmeextpriv);
++	struct mlme_ext_info	*mlmeinfo = &(mlmeext->mlmext_info);
++	int ie_len;
++	u8 *ssid_ie;
++	char ssid[NDIS_802_11_LENGTH_SSID + 1];
++	sint ssid_len = 0;
++	u8 ignore_broadcast_ssid;
++
++	if (check_fwstate(mlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EPERM;
++
++	if (param->u.bcn_ie.reserved[0] != 0xea)
++		return -EINVAL;
++
++	mlmeinfo->hidden_ssid_mode = ignore_broadcast_ssid = param->u.bcn_ie.reserved[1];
++
++	ie_len = len - 12 - 2; /* 12 = param header, 2:no packed */
++	ssid_ie = rtw_get_ie(param->u.bcn_ie.buf,  WLAN_EID_SSID, &ssid_len, ie_len);
++
++	if (ssid_ie && ssid_len > 0 && ssid_len <= NDIS_802_11_LENGTH_SSID) {
++		WLAN_BSSID_EX *pbss_network = &mlmepriv->cur_network.network;
++		WLAN_BSSID_EX *pbss_network_ext = &mlmeinfo->network;
++
++		_rtw_memcpy(ssid, ssid_ie + 2, ssid_len);
++		ssid[ssid_len] = 0x0;
++
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" ssid:(%s,%d), from ie:(%s,%d), (%s,%d)\n", FUNC_ADPT_ARG(adapter),
++				ssid, ssid_len,
++				pbss_network->Ssid.Ssid, pbss_network->Ssid.SsidLength,
++				pbss_network_ext->Ssid.Ssid, pbss_network_ext->Ssid.SsidLength);
++
++		_rtw_memcpy(pbss_network->Ssid.Ssid, (void *)ssid, ssid_len);
++		pbss_network->Ssid.SsidLength = ssid_len;
++		_rtw_memcpy(pbss_network_ext->Ssid.Ssid, (void *)ssid, ssid_len);
++		pbss_network_ext->Ssid.SsidLength = ssid_len;
++
++		if (0)
++			RTW_INFO(FUNC_ADPT_FMT" after ssid:(%s,%d), (%s,%d)\n", FUNC_ADPT_ARG(adapter),
++				pbss_network->Ssid.Ssid, pbss_network->Ssid.SsidLength,
++				pbss_network_ext->Ssid.Ssid, pbss_network_ext->Ssid.SsidLength);
++	}
++
++	RTW_INFO(FUNC_ADPT_FMT" ignore_broadcast_ssid:%d, %s,%d\n", FUNC_ADPT_ARG(adapter),
++		ignore_broadcast_ssid, ssid, ssid_len);
++
++	return ret;
++}
++
++#if CONFIG_RTW_MACADDR_ACL
++static int rtw_ioctl_acl_remove_sta(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff)
++		return -EINVAL;
++
++	ret = rtw_acl_remove_sta(padapter, param->sta_addr);
++
++	return ret;
++
++}
++
++static int rtw_ioctl_acl_add_sta(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	if (param->sta_addr[0] == 0xff && param->sta_addr[1] == 0xff &&
++	    param->sta_addr[2] == 0xff && param->sta_addr[3] == 0xff &&
++	    param->sta_addr[4] == 0xff && param->sta_addr[5] == 0xff)
++		return -EINVAL;
++
++	ret = rtw_acl_add_sta(padapter, param->sta_addr);
++
++	return ret;
++
++}
++
++static int rtw_ioctl_set_macaddr_acl(struct net_device *dev, struct ieee_param *param, int len)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++
++	if (check_fwstate(pmlmepriv, WIFI_AP_STATE) != _TRUE)
++		return -EINVAL;
++
++	rtw_set_macaddr_acl(padapter, param->u.mlme.command);
++
++	return ret;
++}
++#endif /* CONFIG_RTW_MACADDR_ACL */
++
++static int rtw_hostapd_ioctl(struct net_device *dev, struct iw_point *p)
++{
++	struct ieee_param *param;
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	/*
++	* this function is expect to call in master mode, which allows no power saving
++	* so, we just check hw_init_completed
++	*/
++
++	if (!rtw_is_hw_init_completed(padapter)) {
++		ret = -EPERM;
++		goto out;
++	}
++
++
++	/* if (p->length < sizeof(struct ieee_param) || !p->pointer){ */
++	if (!p->pointer) {
++		ret = -EINVAL;
++		goto out;
++	}
++
++	param = (struct ieee_param *)rtw_malloc(p->length);
++	if (param == NULL) {
++		ret = -ENOMEM;
++		goto out;
++	}
++
++	if (copy_from_user(param, p->pointer, p->length)) {
++		rtw_mfree((u8 *)param, p->length);
++		ret = -EFAULT;
++		goto out;
++	}
++
++	/* RTW_INFO("%s, cmd=%d\n", __FUNCTION__, param->cmd); */
++
++	switch (param->cmd) {
++	case RTL871X_HOSTAPD_FLUSH:
++
++		ret = rtw_hostapd_sta_flush(dev);
++
++		break;
++
++	case RTL871X_HOSTAPD_ADD_STA:
++
++		ret = rtw_add_sta(dev, param);
++
++		break;
++
++	case RTL871X_HOSTAPD_REMOVE_STA:
++
++		ret = rtw_del_sta(dev, param);
++
++		break;
++
++	case RTL871X_HOSTAPD_SET_BEACON:
++
++		ret = rtw_set_beacon(dev, param, p->length);
++
++		break;
++
++	case RTL871X_SET_ENCRYPTION:
++
++		ret = rtw_set_encryption(dev, param, p->length);
++
++		break;
++
++	case RTL871X_HOSTAPD_GET_WPAIE_STA:
++
++		ret = rtw_get_sta_wpaie(dev, param);
++
++		break;
++
++	case RTL871X_HOSTAPD_SET_WPS_BEACON:
++
++		ret = rtw_set_wps_beacon(dev, param, p->length);
++
++		break;
++
++	case RTL871X_HOSTAPD_SET_WPS_PROBE_RESP:
++
++		ret = rtw_set_wps_probe_resp(dev, param, p->length);
++
++		break;
++
++	case RTL871X_HOSTAPD_SET_WPS_ASSOC_RESP:
++
++		ret = rtw_set_wps_assoc_resp(dev, param, p->length);
++
++		break;
++
++	case RTL871X_HOSTAPD_SET_HIDDEN_SSID:
++
++		ret = rtw_set_hidden_ssid(dev, param, p->length);
++
++		break;
++
++	case RTL871X_HOSTAPD_GET_INFO_STA:
++
++		ret = rtw_ioctl_get_sta_data(dev, param, p->length);
++
++		break;
++
++#if CONFIG_RTW_MACADDR_ACL
++	case RTL871X_HOSTAPD_SET_MACADDR_ACL:
++		ret = rtw_ioctl_set_macaddr_acl(dev, param, p->length);
++		break;
++	case RTL871X_HOSTAPD_ACL_ADD_STA:
++		ret = rtw_ioctl_acl_add_sta(dev, param, p->length);
++		break;
++	case RTL871X_HOSTAPD_ACL_REMOVE_STA:
++		ret = rtw_ioctl_acl_remove_sta(dev, param, p->length);
++		break;
++#endif /* CONFIG_RTW_MACADDR_ACL */
++
++	default:
++		RTW_INFO("Unknown hostapd request: %d\n", param->cmd);
++		ret = -EOPNOTSUPP;
++		break;
++
++	}
++
++	if (ret == 0 && copy_to_user(p->pointer, param, p->length))
++		ret = -EFAULT;
++
++
++	rtw_mfree((u8 *)param, p->length);
++
++out:
++
++	return ret;
++
++}
++#endif
++
++static int rtw_wx_set_priv(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *awrq,
++			   char *extra)
++{
++
++#ifdef CONFIG_DEBUG_RTW_WX_SET_PRIV
++	char *ext_dbg;
++#endif
++
++	int ret = 0;
++	int len = 0;
++	char *ext;
++	int i;
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_point *dwrq = (struct iw_point *)awrq;
++
++	if (dwrq->length == 0)
++		return -EFAULT;
++
++	len = dwrq->length;
++	ext = rtw_vmalloc(len);
++	if (!ext)
++		return -ENOMEM;
++
++	if (copy_from_user(ext, dwrq->pointer, len)) {
++		rtw_vmfree(ext, len);
++		return -EFAULT;
++	}
++
++
++
++#ifdef CONFIG_DEBUG_RTW_WX_SET_PRIV
++	ext_dbg = rtw_vmalloc(len);
++	if (!ext_dbg) {
++		rtw_vmfree(ext, len);
++		return -ENOMEM;
++	}
++
++	_rtw_memcpy(ext_dbg, ext, len);
++#endif
++
++	/* added for wps2.0 @20110524 */
++	if (dwrq->flags == 0x8766 && len > 8) {
++		u32 cp_sz;
++		struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++		u8 *probereq_wpsie = ext;
++		int probereq_wpsie_len = len;
++		u8 wps_oui[4] = {0x0, 0x50, 0xf2, 0x04};
++
++		if ((_VENDOR_SPECIFIC_IE_ == probereq_wpsie[0]) &&
++		    (_rtw_memcmp(&probereq_wpsie[2], wps_oui, 4) == _TRUE)) {
++			cp_sz = probereq_wpsie_len > MAX_WPS_IE_LEN ? MAX_WPS_IE_LEN : probereq_wpsie_len;
++
++			if (pmlmepriv->wps_probe_req_ie) {
++				u32 free_len = pmlmepriv->wps_probe_req_ie_len;
++				pmlmepriv->wps_probe_req_ie_len = 0;
++				rtw_mfree(pmlmepriv->wps_probe_req_ie, free_len);
++				pmlmepriv->wps_probe_req_ie = NULL;
++			}
++
++			pmlmepriv->wps_probe_req_ie = rtw_malloc(cp_sz);
++			if (pmlmepriv->wps_probe_req_ie == NULL) {
++				printk("%s()-%d: rtw_malloc() ERROR!\n", __FUNCTION__, __LINE__);
++				ret =  -EINVAL;
++				goto FREE_EXT;
++
++			}
++
++			_rtw_memcpy(pmlmepriv->wps_probe_req_ie, probereq_wpsie, cp_sz);
++			pmlmepriv->wps_probe_req_ie_len = cp_sz;
++
++		}
++
++		goto FREE_EXT;
++
++	}
++
++	if (len >= WEXT_CSCAN_HEADER_SIZE
++		&& _rtw_memcmp(ext, WEXT_CSCAN_HEADER, WEXT_CSCAN_HEADER_SIZE) == _TRUE
++	) {
++		ret = rtw_wx_set_scan(dev, info, awrq, ext);
++		goto FREE_EXT;
++	}
++
++#ifdef CONFIG_ANDROID
++	/* RTW_INFO("rtw_wx_set_priv: %s req=%s\n", dev->name, ext); */
++
++	i = rtw_android_cmdstr_to_num(ext);
++
++	switch (i) {
++	case ANDROID_WIFI_CMD_START:
++		indicate_wx_custom_event(padapter, "START");
++		break;
++	case ANDROID_WIFI_CMD_STOP:
++		indicate_wx_custom_event(padapter, "STOP");
++		break;
++	case ANDROID_WIFI_CMD_RSSI: {
++		struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++		struct	wlan_network	*pcur_network = &pmlmepriv->cur_network;
++
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE)
++			sprintf(ext, "%s rssi %d", pcur_network->network.Ssid.Ssid, padapter->recvpriv.rssi);
++		else
++			sprintf(ext, "OK");
++	}
++		break;
++	case ANDROID_WIFI_CMD_LINKSPEED: {
++		u16 mbps = rtw_get_cur_max_rate(padapter) / 10;
++		sprintf(ext, "LINKSPEED %d", mbps);
++	}
++		break;
++	case ANDROID_WIFI_CMD_MACADDR:
++		sprintf(ext, "MACADDR = " MAC_FMT, MAC_ARG(dev->dev_addr));
++		break;
++	case ANDROID_WIFI_CMD_SCAN_ACTIVE: {
++		/* rtw_set_scan_mode(padapter, SCAN_ACTIVE); */
++		sprintf(ext, "OK");
++	}
++		break;
++	case ANDROID_WIFI_CMD_SCAN_PASSIVE: {
++		/* rtw_set_scan_mode(padapter, SCAN_PASSIVE); */
++		sprintf(ext, "OK");
++	}
++		break;
++
++	case ANDROID_WIFI_CMD_COUNTRY: {
++		char country_code[10];
++		sscanf(ext, "%*s %s", country_code);
++		rtw_set_country(padapter, country_code);
++		sprintf(ext, "OK");
++	}
++		break;
++	default:
++		#ifdef CONFIG_DEBUG_RTW_WX_SET_PRIV
++		RTW_INFO("%s: %s unknowned req=%s\n", __FUNCTION__,
++			dev->name, ext_dbg);
++		#endif
++
++		sprintf(ext, "OK");
++
++	}
++
++	if (copy_to_user(dwrq->pointer, ext, min(dwrq->length, (u16)(strlen(ext) + 1))))
++		ret = -EFAULT;
++
++#ifdef CONFIG_DEBUG_RTW_WX_SET_PRIV
++	RTW_INFO("%s: %s req=%s rep=%s dwrq->length=%d, strlen(ext)+1=%d\n", __FUNCTION__,
++		dev->name, ext_dbg , ext, dwrq->length, (u16)(strlen(ext) + 1));
++#endif
++#endif /* end of CONFIG_ANDROID */
++
++
++FREE_EXT:
++
++	rtw_vmfree(ext, len);
++	#ifdef CONFIG_DEBUG_RTW_WX_SET_PRIV
++	rtw_vmfree(ext_dbg, len);
++	#endif
++
++	/* RTW_INFO("rtw_wx_set_priv: (SIOCSIWPRIV) %s ret=%d\n",  */
++	/*		dev->name, ret); */
++
++	return ret;
++
++}
++#ifdef CONFIG_WOWLAN
++static int rtw_wowlan_ctrl(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wowlan_ioctl_param poidparam;
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct sta_info	*psta = NULL;
++	int ret = 0;
++	u32 start_time = rtw_get_current_time();
++	poidparam.subcode = 0;
++
++	RTW_INFO("+rtw_wowlan_ctrl: %s\n", extra);
++
++	if (!check_fwstate(pmlmepriv, _FW_LINKED) &&
++	    check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++#ifdef CONFIG_PNO_SUPPORT
++		pwrctrlpriv->wowlan_pno_enable = _TRUE;
++#else
++		RTW_INFO("[%s] WARNING: Please Connect With AP First!!\n", __func__);
++		goto _rtw_wowlan_ctrl_exit_free;
++#endif /* CONFIG_PNO_SUPPORT */
++	}
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY))
++		rtw_scan_abort(padapter);
++
++	if (_rtw_memcmp(extra, "enable", 6))
++
++
++		rtw_suspend_common(padapter);
++
++	else if (_rtw_memcmp(extra, "disable", 7)) {
++#ifdef CONFIG_USB_HCI
++		RTW_ENABLE_FUNC(padapter, DF_RX_BIT);
++		RTW_ENABLE_FUNC(padapter, DF_TX_BIT);
++#endif
++		rtw_resume_common(padapter);
++
++#ifdef CONFIG_PNO_SUPPORT
++		pwrctrlpriv->wowlan_pno_enable = _FALSE;
++#endif /* CONFIG_PNO_SUPPORT */
++
++	} else {
++		RTW_INFO("[%s] Invalid Parameter.\n", __func__);
++		goto _rtw_wowlan_ctrl_exit_free;
++	}
++	/* mutex_lock(&ioctl_mutex); */
++_rtw_wowlan_ctrl_exit_free:
++	RTW_INFO("-rtw_wowlan_ctrl( subcode = %d)\n", poidparam.subcode);
++	RTW_PRINT("%s in %d ms\n", __func__,
++		  rtw_get_passing_time_ms(start_time));
++_rtw_wowlan_ctrl_exit:
++	return ret;
++}
++
++/*
++ * IP filter This pattern if for a frame containing a ip packet:
++ * AA:AA:AA:AA:AA:AA:BB:BB:BB:BB:BB:BB:CC:CC:DD:-:-:-:-:-:-:-:-:EE:-:-:FF:FF:FF:FF:GG:GG:GG:GG:HH:HH:II:II
++ *
++ * A: Ethernet destination address
++ * B: Ethernet source address
++ * C: Ethernet protocol type
++ * D: IP header VER+Hlen, use: 0x45 (4 is for ver 4, 5 is for len 20)
++ * E: IP protocol
++ * F: IP source address ( 192.168.0.4: C0:A8:00:2C )
++ * G: IP destination address ( 192.168.0.4: C0:A8:00:2C )
++ * H: Source port (1024: 04:00)
++ * I: Destination port (1024: 04:00)
++ */
++
++static int rtw_wowlan_set_pattern(struct net_device *dev,
++				  struct iw_request_info *info,
++				  union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct wowlan_ioctl_param poidparam;
++	int ret = 0, len = 0, i = 0;
++	u32 start_time = rtw_get_current_time();
++	u8 input[wrqu->data.length];
++	u8 index = 0;
++
++	poidparam.subcode = 0;
++
++	if (!check_fwstate(pmlmepriv, _FW_LINKED) &&
++	    check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++		ret = -EFAULT;
++		RTW_INFO("Please Connect With AP First!!\n");
++		goto _rtw_wowlan_set_pattern_exit;
++	}
++
++	if (wrqu->data.length <= 0) {
++		ret = -EFAULT;
++		RTW_INFO("ERROR: parameter length <= 0\n");
++		goto _rtw_wowlan_set_pattern_exit;
++	} else {
++		/* set pattern */
++		if (copy_from_user(input,
++				   wrqu->data.pointer, wrqu->data.length))
++			return -EFAULT;
++		/* leave PS first */
++		rtw_ps_deny(padapter, PS_DENY_IOCTL);
++		LeaveAllPowerSaveModeDirect(padapter);
++		if (strncmp(input, "pattern=", 8) == 0) {
++			if (pwrpriv->wowlan_pattern_idx >= MAX_WKFM_CAM_NUM) {
++				RTW_INFO("WARNING: priv-pattern is full(idx: %d)\n",
++					 pwrpriv->wowlan_pattern_idx);
++				RTW_INFO("WARNING: please clean priv-pattern first\n");
++				ret = -EINVAL;
++				goto _rtw_wowlan_set_pattern_exit;
++			} else {
++				index = pwrpriv->wowlan_pattern_idx;
++				ret = rtw_wowlan_parser_pattern_cmd(input,
++					    pwrpriv->patterns[index].content,
++					    &pwrpriv->patterns[index].len,
++					    pwrpriv->patterns[index].mask);
++
++				if (ret == _TRUE)
++					pwrpriv->wowlan_pattern_idx++;
++			}
++		} else if (strncmp(input, "clean", 5) == 0) {
++			poidparam.subcode = WOWLAN_PATTERN_CLEAN;
++			rtw_hal_set_hwreg(padapter,
++					  HW_VAR_WOWLAN, (u8 *)&poidparam);
++		} else if (strncmp(input, "show", 4) == 0) {
++			rtw_wow_pattern_cam_dump(padapter);
++			rtw_wow_pattern_sw_dump(padapter);
++		} else {
++			RTW_INFO("ERROR: incorrect parameter!\n");
++			ret = -EINVAL;
++		}
++		rtw_ps_deny_cancel(padapter, PS_DENY_IOCTL);
++	}
++_rtw_wowlan_set_pattern_exit:
++	return ret;
++}
++#endif /* CONFIG_WOWLAN */
++
++#ifdef CONFIG_AP_WOWLAN
++static int rtw_ap_wowlan_ctrl(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct wowlan_ioctl_param poidparam;
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct sta_info	*psta = NULL;
++	int ret = 0;
++	u32 start_time = rtw_get_current_time();
++	poidparam.subcode = 0;
++
++	RTW_INFO("+rtw_ap_wowlan_ctrl: %s\n", extra);
++
++	if (!check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++		RTW_INFO("[%s] It is not AP mode!!\n", __func__);
++		goto _rtw_ap_wowlan_ctrl_exit_free;
++	}
++
++	if (_rtw_memcmp(extra, "enable", 6)) {
++
++		pwrctrlpriv->wowlan_ap_mode = _TRUE;
++
++		rtw_suspend_common(padapter);
++	} else if (_rtw_memcmp(extra, "disable", 7)) {
++#ifdef CONFIG_USB_HCI
++		RTW_ENABLE_FUNC(padapter, DF_RX_BIT);
++		RTW_ENABLE_FUNC(padapter, DF_TX_BIT);
++#endif
++		rtw_resume_common(padapter);
++	} else {
++		RTW_INFO("[%s] Invalid Parameter.\n", __func__);
++		goto _rtw_ap_wowlan_ctrl_exit_free;
++	}
++	/* mutex_lock(&ioctl_mutex); */
++_rtw_ap_wowlan_ctrl_exit_free:
++	RTW_INFO("-rtw_ap_wowlan_ctrl( subcode = %d)\n", poidparam.subcode);
++	RTW_PRINT("%s in %d ms\n", __func__,
++		  rtw_get_passing_time_ms(start_time));
++_rtw_ap_wowlan_ctrl_exit:
++	return ret;
++}
++#endif /* CONFIG_AP_WOWLAN */
++
++static int rtw_pm_set(struct net_device *dev,
++		      struct iw_request_info *info,
++		      union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++	unsigned	mode = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_INFO("[%s] extra = %s\n", __FUNCTION__, extra);
++
++	if (_rtw_memcmp(extra, "lps=", 4)) {
++		sscanf(extra + 4, "%u", &mode);
++		ret = rtw_pm_set_lps(padapter, mode);
++	} else if (_rtw_memcmp(extra, "ips=", 4)) {
++		sscanf(extra + 4, "%u", &mode);
++		ret = rtw_pm_set_ips(padapter, mode);
++	} else
++		ret = -EINVAL;
++
++	return ret;
++}
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++
++int rtw_vendor_ie_get(struct net_device *dev, struct iw_request_info *info, union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0, vendor_ie_num = 0 , j , len = 0 , cmdlen;
++	char *pstring;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	struct iw_point *p;
++	u8 *ptmp;
++	u32 vendor_ie_mask = 0;
++
++	p = &wrqu->data;
++	cmdlen = p->length;
++	if (0 == cmdlen)
++		return -EINVAL;
++
++	ptmp = (u8 *)rtw_malloc(cmdlen);
++	if (NULL == ptmp)
++		return -ENOMEM;
++
++	if (copy_from_user(ptmp, p->pointer, cmdlen)) {
++		ret = -EFAULT;
++		goto exit;
++	}
++	ret = sscanf(ptmp , "%d", &vendor_ie_num);
++	if (vendor_ie_num > WLAN_MAX_VENDOR_IE_NUM - 1) {
++		ret = -EFAULT;
++		goto exit;
++	}
++	vendor_ie_mask = pmlmepriv->vendor_ie_mask[vendor_ie_num];
++	pstring = extra;
++	pstring += sprintf(pstring , "\nVendor IE num %d , Mask:%x " , vendor_ie_num , vendor_ie_mask);
++
++	if (vendor_ie_mask & WIFI_BEACON_VENDOR_IE_BIT)
++		pstring += sprintf(pstring , "[Beacon]");
++	if (vendor_ie_mask & WIFI_PROBEREQ_VENDOR_IE_BIT)
++		pstring += sprintf(pstring , "[Probe Req]");
++	if (vendor_ie_mask & WIFI_PROBERESP_VENDOR_IE_BIT)
++		pstring += sprintf(pstring , "[Probe Resp]");
++	if (vendor_ie_mask & WIFI_ASSOCREQ_VENDOR_IE_BIT)
++		pstring += sprintf(pstring , "[Assoc Req]");
++	if (vendor_ie_mask & WIFI_ASSOCRESP_VENDOR_IE_BIT)
++		pstring += sprintf(pstring , "[Assoc Resp]");
++
++	pstring += sprintf(pstring , "\nVendor IE:\n");
++	for (j = 0 ; j < pmlmepriv->vendor_ielen[vendor_ie_num]  ; j++)
++		pstring += sprintf(pstring , "%02x" , pmlmepriv->vendor_ie[vendor_ie_num][j]);
++
++	wrqu->data.length = pstring - extra;
++
++exit:
++	rtw_mfree(ptmp, cmdlen);
++
++	return 0;
++}
++
++int rtw_vendor_ie_set(struct net_device *dev, struct iw_request_info *info, union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0, i , len = 0 , totoal_ie_len = 0 , total_ie_len_byte = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &(padapter->mlmepriv);
++	u32 vendor_ie_mask = 0;
++	u32 vendor_ie_num = 0;
++	u32 id, elen;
++
++	ret = sscanf(extra, "%d,%x,%*s", &vendor_ie_num , &vendor_ie_mask);
++	if (strrchr(extra , ','))
++		extra = strrchr(extra , ',') + 1;
++	else
++		return -EINVAL;
++	totoal_ie_len = strlen(extra);
++	RTW_INFO("[%s] vendor_ie_num = %d , vendor_ie_mask = %x , vendor_ie = %s , len = %d\n", __func__ , vendor_ie_num , vendor_ie_mask , extra  , totoal_ie_len);
++
++	if (vendor_ie_num  > WLAN_MAX_VENDOR_IE_NUM - 1) {
++		RTW_INFO("[%s] only support %d vendor ie\n", __func__ , WLAN_MAX_VENDOR_IE_NUM);
++		return -EFAULT;
++	}
++
++	if (totoal_ie_len > WLAN_MAX_VENDOR_IE_LEN) {
++		RTW_INFO("[%s] Fail , not support ie length extend %d\n", __func__ , WLAN_MAX_VENDOR_IE_LEN);
++		return -EFAULT;
++	}
++
++	if (vendor_ie_mask == 0) {
++		RTW_INFO("[%s] Clear vendor_ie_num %d group\n", __func__ , vendor_ie_num);
++		goto _clear_path;
++	}
++
++	if (totoal_ie_len % 2 != 0) {
++		RTW_INFO("[%s]  Fail , IE length = %zu is odd\n" , __func__ , strlen(extra));
++		return -EFAULT;
++	}
++
++	if (totoal_ie_len > 0) {
++		for (i = 0  ; i < strlen(extra) ; i += 2) {
++			pmlmepriv->vendor_ie[vendor_ie_num][len] = key_2char2num(extra[i] , extra[i + 1]);
++			if (len == 0) {
++				id = pmlmepriv->vendor_ie[vendor_ie_num][len];
++				if (id != WLAN_EID_VENDOR_SPECIFIC) {
++					RTW_INFO("[%s] Fail , VENDOR SPECIFIC IE ID \"%x\" was not correct\n", __func__ , id);
++					goto _clear_path;
++				}
++			} else if (len == 1) {
++				total_ie_len_byte = (totoal_ie_len / 2) - 2;
++				elen = pmlmepriv->vendor_ie[vendor_ie_num][len];
++				if (elen != total_ie_len_byte) {
++					RTW_INFO("[%s] Fail , Input IE length = \"%d\"(hex:%x) bytes , not match input total IE context length \"%d\" bytes\n", __func__ , elen , elen ,
++						 total_ie_len_byte);
++					goto _clear_path;
++				}
++			}
++			len++;
++		}
++		pmlmepriv->vendor_ielen[vendor_ie_num] = len;
++	} else
++		pmlmepriv->vendor_ielen[vendor_ie_num] = 0;
++
++
++
++	if (vendor_ie_mask & WIFI_BEACON_VENDOR_IE_BIT)
++		RTW_INFO("[%s] Beacon append vendor ie\n", __func__);
++	if (vendor_ie_mask & WIFI_PROBEREQ_VENDOR_IE_BIT)
++		RTW_INFO("[%s] Probe Req append vendor ie\n", __func__);
++	if (vendor_ie_mask & WIFI_PROBERESP_VENDOR_IE_BIT)
++		RTW_INFO("[%s] Probe Resp  append vendor ie\n", __func__);
++	if (vendor_ie_mask & WIFI_ASSOCREQ_VENDOR_IE_BIT)
++		RTW_INFO("[%s] Assoc Req append vendor ie\n", __func__);
++	if (vendor_ie_mask & WIFI_ASSOCRESP_VENDOR_IE_BIT)
++		RTW_INFO("[%s] Assoc Resp append vendor ie\n", __func__);
++
++	pmlmepriv->vendor_ie_mask[vendor_ie_num] = vendor_ie_mask;
++
++	return ret;
++
++_clear_path:
++	_rtw_memset(pmlmepriv->vendor_ie[vendor_ie_num] , 0 , sizeof(u32) * WLAN_MAX_VENDOR_IE_LEN);
++	pmlmepriv->vendor_ielen[vendor_ie_num] = 0;
++	pmlmepriv->vendor_ie_mask[vendor_ie_num] = 0;
++	return -EFAULT;
++}
++#endif
++
++static int rtw_mp_efuse_get(struct net_device *dev,
++			    struct iw_request_info *info,
++			    union iwreq_data *wdata, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	PEFUSE_HAL pEfuseHal;
++	struct iw_point *wrqu;
++
++	u8	*PROMContent = pHalData->efuse_eeprom_data;
++	u8 ips_mode = IPS_NUM; /* init invalid value */
++	u8 lps_mode = PS_MODE_NUM; /* init invalid value */
++	struct pwrctrl_priv *pwrctrlpriv ;
++	u8 *data = NULL;
++	u8 *rawdata = NULL;
++	char *pch, *ptmp, *token, *tmp[3] = {0x00, 0x00, 0x00};
++	u16 i = 0, j = 0, mapLen = 0, addr = 0, cnts = 0;
++	u16 max_available_len = 0, raw_cursize = 0, raw_maxsize = 0;
++	int err;
++#ifdef CONFIG_IOL
++	u8 org_fw_iol = padapter->registrypriv.fw_iol;/* 0:Disable, 1:enable, 2:by usb speed */
++#endif
++
++	wrqu = (struct iw_point *)wdata;
++	pwrctrlpriv = adapter_to_pwrctl(padapter);
++	pEfuseHal = &pHalData->EfuseHal;
++
++	err = 0;
++	data = rtw_zmalloc(EFUSE_BT_MAX_MAP_LEN);
++	if (data == NULL) {
++		err = -ENOMEM;
++		goto exit;
++	}
++	rawdata = rtw_zmalloc(EFUSE_BT_MAX_MAP_LEN);
++	if (rawdata == NULL) {
++		err = -ENOMEM;
++		goto exit;
++	}
++
++	if (copy_from_user(extra, wrqu->pointer, wrqu->length)) {
++		err = -EFAULT;
++		goto exit;
++	}
++#ifdef CONFIG_LPS
++	lps_mode = pwrctrlpriv->power_mgnt;/* keep org value */
++	rtw_pm_set_lps(padapter, PS_MODE_ACTIVE);
++#endif
++
++#ifdef CONFIG_IPS
++	ips_mode = pwrctrlpriv->ips_mode;/* keep org value */
++	rtw_pm_set_ips(padapter, IPS_NONE);
++#endif
++
++	pch = extra;
++	RTW_INFO("%s: in=%s\n", __FUNCTION__, extra);
++
++	i = 0;
++	/* mac 16 "00e04c871200" rmap,00,2 */
++	while ((token = strsep(&pch, ",")) != NULL) {
++		if (i > 2)
++			break;
++		tmp[i] = token;
++		i++;
++	}
++#ifdef CONFIG_IOL
++	padapter->registrypriv.fw_iol = 0;/* 0:Disable, 1:enable, 2:by usb speed */
++#endif
++
++	if (strcmp(tmp[0], "status") == 0) {
++		sprintf(extra, "Load File efuse=%s,Load File MAC=%s"
++			, pHalData->efuse_file_status == EFUSE_FILE_FAILED ? "FAIL" : "OK"
++			, pHalData->macaddr_file_status == MACADDR_FILE_FAILED ? "FAIL" : "OK"
++		       );
++		goto exit;
++	} else if (strcmp(tmp[0], "drvmap") == 0) {
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (void *)&mapLen, _FALSE);
++
++		sprintf(extra, "\n");
++		for (i = 0; i < mapLen; i += 16) {
++			/*RTW_INFO("0x%02x\t", i);*/
++			sprintf(extra, "%s0x%02x\t", extra, i);
++			for (j = 0; j < 8; j++) {
++				/*				RTW_INFO("%02X ", data[i+j]); */
++				sprintf(extra, "%s%02X ", extra, PROMContent[i + j]);
++			}
++			/*			RTW_INFO("\t"); */
++			sprintf(extra, "%s\t", extra);
++			for (; j < 16; j++) {
++				/*				RTW_INFO("%02X ", data[i+j]); */
++				sprintf(extra, "%s%02X ", extra, PROMContent[i + j]);
++			}
++			/*			RTW_INFO("\n"); */
++			sprintf(extra, "%s\n", extra);
++		}
++		/*		RTW_INFO("\n"); */
++	} else if (strcmp(tmp[0], "realmap") == 0) {
++		static u8 order = 0;
++		u8 *efuse;
++		u32 shift, cnt;
++		u32 blksz = 0x200; /* The size of one time show, default 512 */
++
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN , (void *)&mapLen, _FALSE);
++		efuse = pEfuseHal->fakeEfuseInitMap;
++		if (rtw_efuse_mask_map_read(padapter, 0, mapLen, efuse) == _FAIL) {
++			RTW_INFO("%s: read realmap Fail!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++
++#if 0
++		RTW_INFO("OFFSET\tVALUE(hex)\n");
++		for (i = 0; i < mapLen; i += 16) {
++			RTW_INFO("0x%02x\t", i);
++			for (j = 0; j < 8; j++)
++				RTW_INFO("%02X ", efuse[i + j]);
++			RTW_INFO("\t");
++			for (; j < 16; j++)
++				RTW_INFO("%02X ", efuse[i + j]);
++			RTW_INFO("\n");
++		}
++		RTW_INFO("\n");
++#endif
++
++		shift = blksz * order;
++		efuse += shift;
++		cnt = mapLen - shift;
++		if (cnt > blksz) {
++			cnt = blksz;
++			order++;
++		} else
++			order = 0;
++
++		sprintf(extra, "\n");
++		for (i = 0; i < cnt; i += 16) {
++			sprintf(extra, "%s0x%02x\t", extra, shift + i);
++			for (j = 0; j < 8; j++)
++				sprintf(extra, "%s%02X ", extra, efuse[i + j]);
++			sprintf(extra, "%s\t", extra);
++			for (; j < 16; j++)
++				sprintf(extra, "%s%02X ", extra, efuse[i + j]);
++			sprintf(extra, "%s\n", extra);
++		}
++		if ((shift + cnt) < mapLen)
++			sprintf(extra, "%s\t...more\n", extra);
++	} else if (strcmp(tmp[0], "rmap") == 0) {
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			RTW_INFO("%s: rmap Fail!! Parameters error!\n", __FUNCTION__);
++			err = -EINVAL;
++			goto exit;
++		}
++
++		/* rmap addr cnts */
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		RTW_INFO("%s: addr=%x\n", __FUNCTION__, addr);
++
++		cnts = simple_strtoul(tmp[2], &ptmp, 10);
++		if (cnts == 0) {
++			RTW_INFO("%s: rmap Fail!! cnts error!\n", __FUNCTION__);
++			err = -EINVAL;
++			goto exit;
++		}
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN , (PVOID)&max_available_len, _FALSE);
++		if ((addr + cnts) > max_available_len) {
++			RTW_INFO("%s: addr(0x%X)+cnts(%d) parameter error!\n", __FUNCTION__, addr, cnts);
++			err = -EINVAL;
++			goto exit;
++		}
++
++		if (rtw_efuse_mask_map_read(padapter, addr, cnts, data) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_mask_map_read error!\n", __func__);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		/*		RTW_INFO("%s: data={", __FUNCTION__); */
++		*extra = 0;
++		for (i = 0; i < cnts; i++) {
++			/*			RTW_INFO("0x%02x ", data[i]); */
++			sprintf(extra, "%s0x%02X ", extra, data[i]);
++		}
++		/*		RTW_INFO("}\n"); */
++	} else if (strcmp(tmp[0], "realraw") == 0) {
++		addr = 0;
++		mapLen = EFUSE_MAX_SIZE;
++		RTW_INFO("EFUSE_MAX_SIZE = %d\n", EFUSE_MAX_SIZE);
++
++		if (rtw_efuse_access(padapter, _FALSE, addr, mapLen, rawdata) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_access Fail!!\n", __func__);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		if (mapLen >= 512)
++			mapLen = 512;
++
++		_rtw_memset(extra, '\0', strlen(extra));
++
++		sprintf(extra, "\n0x00\t");
++
++		for (i = 0; i < mapLen ; i++) {
++			sprintf(extra, "%s%02X", extra, rawdata[i]);
++			if ((i & 0xF) == 0xF) {
++				sprintf(extra, "%s\n", extra);
++				sprintf(extra, "%s0x%02x\t", extra, i + 1);
++			} else if ((i & 0x7) == 0x7)
++				sprintf(extra, "%s \t", extra);
++			else
++				sprintf(extra, "%s ", extra);
++		}
++
++	} else if (strcmp(tmp[0], "realrawb") == 0) {
++		addr = 0;
++		mapLen = EFUSE_MAX_SIZE;
++		RTW_INFO("EFUSE_MAX_SIZE =%d\n", EFUSE_MAX_SIZE);
++		if (rtw_efuse_access(padapter, _FALSE, addr, mapLen, rawdata) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_access Fail!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++		_rtw_memset(extra, '\0', strlen(extra));
++		/*		RTW_INFO("%s: realraw={\n", __FUNCTION__); */
++		sprintf(extra, "\n0x00\t");
++		for (i = 512; i < mapLen; i++) {
++			/*			RTW_INFO("%02X", rawdata[i]); */
++			sprintf(extra, "%s%02X", extra, rawdata[i]);
++			if ((i & 0xF) == 0xF) {
++				/*				RTW_INFO("\n"); */
++				sprintf(extra, "%s\n", extra);
++				sprintf(extra, "%s0x%02x\t", extra, i + 1);
++			} else if ((i & 0x7) == 0x7) {
++				/*				RTW_INFO("\t"); */
++				sprintf(extra, "%s \t", extra);
++			} else {
++				/*				RTW_INFO(" "); */
++				sprintf(extra, "%s ", extra);
++			}
++		}
++		/*		RTW_INFO("}\n"); */
++	} else if (strcmp(tmp[0], "mac") == 0) {
++		if (hal_efuse_macaddr_offset(padapter) == -1) {
++			err = -EFAULT;
++			goto exit;
++		}
++
++		addr = hal_efuse_macaddr_offset(padapter);
++		cnts = 6;
++
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&max_available_len, _FALSE);
++		if ((addr + cnts) > max_available_len) {
++			RTW_INFO("%s: addr(0x%02x)+cnts(%d) parameter error!\n", __FUNCTION__, addr, cnts);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		if (rtw_efuse_mask_map_read(padapter, addr, cnts, data) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_mask_map_read error!\n", __func__);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		/*		RTW_INFO("%s: MAC address={", __FUNCTION__); */
++		*extra = 0;
++		for (i = 0; i < cnts; i++) {
++			/*			RTW_INFO("%02X", data[i]); */
++			sprintf(extra, "%s%02X", extra, data[i]);
++			if (i != (cnts - 1)) {
++				/*				RTW_INFO(":"); */
++				sprintf(extra, "%s:", extra);
++			}
++		}
++		/*		RTW_INFO("}\n"); */
++	} else if (strcmp(tmp[0], "vidpid") == 0) {
++#ifdef CONFIG_RTL8188E
++#ifdef CONFIG_USB_HCI
++		addr = EEPROM_VID_88EU;
++#endif
++#ifdef CONFIG_PCI_HCI
++		addr = EEPROM_VID_88EE;
++#endif
++#endif /* CONFIG_RTL8188E */
++
++#ifdef CONFIG_RTL8192E
++#ifdef CONFIG_USB_HCI
++		addr = EEPROM_VID_8192EU;
++#endif
++#ifdef CONFIG_PCI_HCI
++		addr = EEPROM_VID_8192EE;
++#endif
++#endif /* CONFIG_RTL8192E */
++#ifdef CONFIG_RTL8723B
++		addr = EEPROM_VID_8723BU;
++#endif /* CONFIG_RTL8192E */
++
++#ifdef CONFIG_RTL8188F
++		addr = EEPROM_VID_8188FU;
++#endif /* CONFIG_RTL8188F */
++
++#ifdef CONFIG_RTL8703B
++#ifdef CONFIG_USB_HCI
++		addr = EEPROM_VID_8703BU;
++#endif
++#endif /* CONFIG_RTL8703B */
++
++#ifdef CONFIG_RTL8723D
++#ifdef CONFIG_USB_HCI
++		addr = EEPROM_VID_8723DU;
++#endif /* CONFIG_USB_HCI */
++#endif /* CONFIG_RTL8723D */
++
++		cnts = 4;
++
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&max_available_len, _FALSE);
++		if ((addr + cnts) > max_available_len) {
++			RTW_INFO("%s: addr(0x%02x)+cnts(%d) parameter error!\n", __FUNCTION__, addr, cnts);
++			err = -EFAULT;
++			goto exit;
++		}
++		if (rtw_efuse_mask_map_read(padapter, addr, cnts, data) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_access error!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		/*		RTW_INFO("%s: {VID,PID}={", __FUNCTION__); */
++		*extra = 0;
++		for (i = 0; i < cnts; i++) {
++			/*			RTW_INFO("0x%02x", data[i]); */
++			sprintf(extra, "%s0x%02X", extra, data[i]);
++			if (i != (cnts - 1)) {
++				/*				RTW_INFO(","); */
++				sprintf(extra, "%s,", extra);
++			}
++		}
++		/*		RTW_INFO("}\n"); */
++	} else if (strcmp(tmp[0], "ableraw") == 0) {
++		efuse_GetCurrentSize(padapter, &raw_cursize);
++		raw_maxsize = efuse_GetMaxSize(padapter);
++		sprintf(extra, "[available raw size]= %d bytes\n", raw_maxsize - raw_cursize);
++	} else if (strcmp(tmp[0], "btableraw") == 0) {
++		efuse_bt_GetCurrentSize(padapter, &raw_cursize);
++		raw_maxsize = efuse_bt_GetMaxSize(padapter);
++		sprintf(extra, "[available raw size]= %d bytes\n", raw_maxsize - raw_cursize);
++	} else if (strcmp(tmp[0], "btfmap") == 0) {
++
++		BTEfuse_PowerSwitch(padapter, 1, _TRUE);
++
++		mapLen = EFUSE_BT_MAX_MAP_LEN;
++		if (rtw_BT_efuse_map_read(padapter, 0, mapLen, pEfuseHal->BTEfuseInitMap) == _FAIL) {
++			RTW_INFO("%s: rtw_BT_efuse_map_read Fail!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		/*		RTW_INFO("OFFSET\tVALUE(hex)\n"); */
++		sprintf(extra, "\n");
++		for (i = 0; i < 512; i += 16) { /* set 512 because the iwpriv's extra size have limit 0x7FF */
++			/*			RTW_INFO("0x%03x\t", i); */
++			sprintf(extra, "%s0x%03x\t", extra, i);
++			for (j = 0; j < 8; j++) {
++				/*				RTW_INFO("%02X ", pEfuseHal->BTEfuseInitMap[i+j]); */
++				sprintf(extra, "%s%02X ", extra, pEfuseHal->BTEfuseInitMap[i + j]);
++			}
++			/*			RTW_INFO("\t"); */
++			sprintf(extra, "%s\t", extra);
++			for (; j < 16; j++) {
++				/*				RTW_INFO("%02X ", pEfuseHal->BTEfuseInitMap[i+j]); */
++				sprintf(extra, "%s%02X ", extra, pEfuseHal->BTEfuseInitMap[i + j]);
++			}
++			/*			RTW_INFO("\n"); */
++			sprintf(extra, "%s\n", extra);
++		}
++		/*		RTW_INFO("\n"); */
++	} else if (strcmp(tmp[0], "btbmap") == 0) {
++		BTEfuse_PowerSwitch(padapter, 1, _TRUE);
++
++		mapLen = EFUSE_BT_MAX_MAP_LEN;
++		if (rtw_BT_efuse_map_read(padapter, 0, mapLen, pEfuseHal->BTEfuseInitMap) == _FAIL) {
++			RTW_INFO("%s: rtw_BT_efuse_map_read Fail!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		/*		RTW_INFO("OFFSET\tVALUE(hex)\n"); */
++		sprintf(extra, "\n");
++		for (i = 512; i < 1024 ; i += 16) {
++			/*			RTW_INFO("0x%03x\t", i); */
++			sprintf(extra, "%s0x%03x\t", extra, i);
++			for (j = 0; j < 8; j++) {
++				/*				RTW_INFO("%02X ", data[i+j]); */
++				sprintf(extra, "%s%02X ", extra, pEfuseHal->BTEfuseInitMap[i + j]);
++			}
++			/*			RTW_INFO("\t"); */
++			sprintf(extra, "%s\t", extra);
++			for (; j < 16; j++) {
++				/*				RTW_INFO("%02X ", data[i+j]); */
++				sprintf(extra, "%s%02X ", extra, pEfuseHal->BTEfuseInitMap[i + j]);
++			}
++			/*			RTW_INFO("\n"); */
++			sprintf(extra, "%s\n", extra);
++		}
++		/*		RTW_INFO("\n"); */
++	} else if (strcmp(tmp[0], "btrmap") == 0) {
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		BTEfuse_PowerSwitch(padapter, 1, _TRUE);
++
++		/* rmap addr cnts */
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++
++		cnts = simple_strtoul(tmp[2], &ptmp, 10);
++		if (cnts == 0) {
++			RTW_INFO("%s: btrmap Fail!! cnts error!\n", __FUNCTION__);
++			err = -EINVAL;
++			goto exit;
++		}
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_BT, TYPE_EFUSE_MAP_LEN, (PVOID)&max_available_len, _FALSE);
++		if ((addr + cnts) > max_available_len) {
++			RTW_INFO("%s: addr(0x%X)+cnts(%d) parameter error!\n", __FUNCTION__, addr, cnts);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		if (rtw_BT_efuse_map_read(padapter, addr, cnts, data) == _FAIL) {
++			RTW_INFO("%s: rtw_BT_efuse_map_read error!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		*extra = 0;
++		/*		RTW_INFO("%s: bt efuse data={", __FUNCTION__); */
++		for (i = 0; i < cnts; i++) {
++			/*			RTW_INFO("0x%02x ", data[i]); */
++			sprintf(extra, "%s 0x%02X ", extra, data[i]);
++		}
++		/*		RTW_INFO("}\n"); */
++		RTW_INFO(FUNC_ADPT_FMT ": BT MAC=[%s]\n", FUNC_ADPT_ARG(padapter), extra);
++	} else if (strcmp(tmp[0], "btffake") == 0) {
++		/*		RTW_INFO("OFFSET\tVALUE(hex)\n"); */
++		sprintf(extra, "\n");
++		for (i = 0; i < 512; i += 16) {
++			/*			RTW_INFO("0x%03x\t", i); */
++			sprintf(extra, "%s0x%03x\t", extra, i);
++			for (j = 0; j < 8; j++) {
++				/*				RTW_INFO("%02X ", pEfuseHal->fakeBTEfuseModifiedMap[i+j]); */
++				sprintf(extra, "%s%02X ", extra, pEfuseHal->fakeBTEfuseModifiedMap[i + j]);
++			}
++			/*			RTW_INFO("\t"); */
++			sprintf(extra, "%s\t", extra);
++			for (; j < 16; j++) {
++				/*				RTW_INFO("%02X ", pEfuseHal->fakeBTEfuseModifiedMap[i+j]); */
++				sprintf(extra, "%s%02X ", extra, pEfuseHal->fakeBTEfuseModifiedMap[i + j]);
++			}
++			/*			RTW_INFO("\n"); */
++			sprintf(extra, "%s\n", extra);
++		}
++		/*		RTW_INFO("\n"); */
++	} else if (strcmp(tmp[0], "btbfake") == 0) {
++		/*		RTW_INFO("OFFSET\tVALUE(hex)\n"); */
++		sprintf(extra, "\n");
++		for (i = 512; i < 1024; i += 16) {
++			/*			RTW_INFO("0x%03x\t", i); */
++			sprintf(extra, "%s0x%03x\t", extra, i);
++			for (j = 0; j < 8; j++) {
++				/*				RTW_INFO("%02X ", pEfuseHal->fakeBTEfuseModifiedMap[i+j]); */
++				sprintf(extra, "%s%02X ", extra, pEfuseHal->fakeBTEfuseModifiedMap[i + j]);
++			}
++			/*			RTW_INFO("\t"); */
++			sprintf(extra, "%s\t", extra);
++			for (; j < 16; j++) {
++				/*				RTW_INFO("%02X ", pEfuseHal->fakeBTEfuseModifiedMap[i+j]); */
++				sprintf(extra, "%s%02X ", extra, pEfuseHal->fakeBTEfuseModifiedMap[i + j]);
++			}
++			/*			RTW_INFO("\n"); */
++			sprintf(extra, "%s\n", extra);
++		}
++		/*		RTW_INFO("\n"); */
++	} else if (strcmp(tmp[0], "wlrfkmap") == 0) {
++		static u8 fk_order = 0;
++		u8 *efuse;
++		u32 shift, cnt;
++		u32 blksz = 0x200; /* The size of one time show, default 512 */
++
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN , (void *)&mapLen, _FALSE);
++		efuse = pEfuseHal->fakeEfuseModifiedMap;
++
++		shift = blksz * fk_order;
++		efuse += shift;
++		cnt = mapLen - shift;
++		if (cnt > blksz) {
++			cnt = blksz;
++			fk_order++;
++		} else
++			fk_order = 0;
++
++		sprintf(extra, "\n");
++		for (i = 0; i < cnt; i += 16) {
++			sprintf(extra, "%s0x%02x\t", extra, shift + i);
++			for (j = 0; j < 8; j++)
++				sprintf(extra, "%s%02X ", extra, efuse[i + j]);
++			sprintf(extra, "%s\t", extra);
++			for (; j < 16; j++)
++				sprintf(extra, "%s%02X ", extra, efuse[i + j]);
++			sprintf(extra, "%s\n", extra);
++		}
++		if ((shift + cnt) < mapLen)
++			sprintf(extra, "%s\t...more\n", extra);
++
++	} else if (strcmp(tmp[0], "wlrfkrmap") == 0) {
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			RTW_INFO("%s: rmap Fail!! Parameters error!\n", __FUNCTION__);
++			err = -EINVAL;
++			goto exit;
++		}
++		/* rmap addr cnts */
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		RTW_INFO("%s: addr=%x\n", __FUNCTION__, addr);
++
++		cnts = simple_strtoul(tmp[2], &ptmp, 10);
++		if (cnts == 0) {
++			RTW_INFO("%s: rmap Fail!! cnts error!\n", __FUNCTION__);
++			err = -EINVAL;
++			goto exit;
++		}
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++
++		/*		RTW_INFO("%s: data={", __FUNCTION__); */
++		*extra = 0;
++		for (i = 0; i < cnts; i++) {
++			RTW_INFO("wlrfkrmap = 0x%02x\n", pEfuseHal->fakeEfuseModifiedMap[addr + i]);
++			sprintf(extra, "%s0x%02X ", extra, pEfuseHal->fakeEfuseModifiedMap[addr + i]);
++		}
++	} else if (strcmp(tmp[0], "btrfkrmap") == 0) {
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			RTW_INFO("%s: rmap Fail!! Parameters error!\n", __FUNCTION__);
++			err = -EINVAL;
++			goto exit;
++		}
++		/* rmap addr cnts */
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		RTW_INFO("%s: addr=%x\n", __FUNCTION__, addr);
++
++		cnts = simple_strtoul(tmp[2], &ptmp, 10);
++		if (cnts == 0) {
++			RTW_INFO("%s: rmap Fail!! cnts error!\n", __FUNCTION__);
++			err = -EINVAL;
++			goto exit;
++		}
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++
++		/*		RTW_INFO("%s: data={", __FUNCTION__); */
++		*extra = 0;
++		for (i = 0; i < cnts; i++) {
++			RTW_INFO("wlrfkrmap = 0x%02x\n", pEfuseHal->fakeBTEfuseModifiedMap[addr + i]);
++			sprintf(extra, "%s0x%02X ", extra, pEfuseHal->fakeBTEfuseModifiedMap[addr + i]);
++		}
++	} else
++		sprintf(extra, "Command not found!");
++
++exit:
++	if (data)
++		rtw_mfree(data, EFUSE_BT_MAX_MAP_LEN);
++	if (rawdata)
++		rtw_mfree(rawdata, EFUSE_BT_MAX_MAP_LEN);
++	if (!err)
++		wrqu->length = strlen(extra);
++
++	if (padapter->registrypriv.mp_mode == 0) {
++#ifdef CONFIG_IPS
++		rtw_pm_set_ips(padapter, ips_mode);
++#endif /* CONFIG_IPS */
++
++#ifdef CONFIG_LPS
++		rtw_pm_set_lps(padapter, lps_mode);
++#endif /* CONFIG_LPS */
++	}
++
++#ifdef CONFIG_IOL
++	padapter->registrypriv.fw_iol = org_fw_iol;/* 0:Disable, 1:enable, 2:by usb speed */
++#endif
++	return err;
++}
++
++static int rtw_mp_efuse_set(struct net_device *dev,
++			    struct iw_request_info *info,
++			    union iwreq_data *wdata, char *extra)
++{
++	struct iw_point *wrqu;
++	PADAPTER padapter;
++	struct pwrctrl_priv *pwrctrlpriv ;
++	PHAL_DATA_TYPE pHalData;
++	PEFUSE_HAL pEfuseHal;
++
++	u8 ips_mode = IPS_NUM; /* init invalid value */
++	u8 lps_mode = PS_MODE_NUM; /* init invalid value */
++	u32 i = 0, j = 0, jj, kk;
++	u8 *setdata = NULL;
++	u8 *ShadowMapBT = NULL;
++	u8 *ShadowMapWiFi = NULL;
++	u8 *setrawdata = NULL;
++	char *pch, *ptmp, *token, *tmp[3] = {0x00, 0x00, 0x00};
++	u16 addr = 0xFF, cnts = 0, BTStatus = 0 , max_available_len = 0;
++	u16 wifimaplen;
++	int err;
++
++	wrqu = (struct iw_point *)wdata;
++	padapter = rtw_netdev_priv(dev);
++	pwrctrlpriv = adapter_to_pwrctl(padapter);
++	pHalData = GET_HAL_DATA(padapter);
++	pEfuseHal = &pHalData->EfuseHal;
++	err = 0;
++
++	if (copy_from_user(extra, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN , (void *)&wifimaplen, _FALSE);
++
++	setdata = rtw_zmalloc(1024);
++	if (setdata == NULL) {
++		err = -ENOMEM;
++		goto exit;
++	}
++	ShadowMapBT = rtw_malloc(EFUSE_BT_MAX_MAP_LEN);
++	if (ShadowMapBT == NULL) {
++		err = -ENOMEM;
++		goto exit;
++	}
++	ShadowMapWiFi = rtw_malloc(wifimaplen);
++	if (ShadowMapWiFi == NULL) {
++		err = -ENOMEM;
++		goto exit;
++	}
++	setrawdata = rtw_malloc(EFUSE_MAX_SIZE);
++	if (setrawdata == NULL) {
++		err = -ENOMEM;
++		goto exit;
++	}
++
++#ifdef CONFIG_LPS
++	lps_mode = pwrctrlpriv->power_mgnt;/* keep org value */
++	rtw_pm_set_lps(padapter, PS_MODE_ACTIVE);
++#endif
++
++#ifdef CONFIG_IPS
++	ips_mode = pwrctrlpriv->ips_mode;/* keep org value */
++	rtw_pm_set_ips(padapter, IPS_NONE);
++#endif
++
++	pch = extra;
++	RTW_INFO("%s: in=%s\n", __FUNCTION__, extra);
++
++	i = 0;
++	while ((token = strsep(&pch, ",")) != NULL) {
++		if (i > 2)
++			break;
++		tmp[i] = token;
++		i++;
++	}
++
++	/* tmp[0],[1],[2] */
++	/* wmap,addr,00e04c871200 */
++	if (strcmp(tmp[0], "wmap") == 0) {
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++#ifndef RTW_HALMAC
++		/* unknown bug workaround, need to fix later */
++		addr = 0x1ff;
++		rtw_write8(padapter, EFUSE_CTRL + 1, (addr & 0xff));
++		rtw_msleep_os(10);
++		rtw_write8(padapter, EFUSE_CTRL + 2, ((addr >> 8) & 0x03));
++		rtw_msleep_os(10);
++		rtw_write8(padapter, EFUSE_CTRL + 3, 0x72);
++		rtw_msleep_os(10);
++		rtw_read8(padapter, EFUSE_CTRL);
++#endif /* RTW_HALMAC */
++
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		addr &= 0xFFF;
++
++		cnts = strlen(tmp[2]);
++		if (cnts % 2) {
++			err = -EINVAL;
++			goto exit;
++		}
++		cnts /= 2;
++		if (cnts == 0) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++		RTW_INFO("%s: map data=%s\n", __FUNCTION__, tmp[2]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2)
++			setdata[jj] = key_2char2num(tmp[2][kk], tmp[2][kk + 1]);
++
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&max_available_len, _FALSE);
++
++		if ((addr + cnts) > max_available_len) {
++			RTW_INFO("%s: addr(0x%X)+cnts(%d) parameter error!\n", __FUNCTION__, addr, cnts);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		if (rtw_efuse_map_write(padapter, addr, cnts, setdata) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_map_write error!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++		*extra = 0;
++		RTW_INFO("%s: after rtw_efuse_map_write to _rtw_memcmp\n", __func__);
++		if (rtw_efuse_mask_map_read(padapter, addr, cnts, ShadowMapWiFi) == _SUCCESS) {
++			if (_rtw_memcmp((void *)ShadowMapWiFi , (void *)setdata, cnts)) {
++				RTW_INFO("%s: WiFi write map afterf compare success\n", __FUNCTION__);
++				sprintf(extra, "WiFi write map compare OK\n");
++				err = 0;
++				goto exit;
++			} else {
++				sprintf(extra, "WiFi write map compare FAIL\n");
++				RTW_INFO("%s: WiFi write map compare Fail\n", __FUNCTION__);
++				err = 0;
++				goto exit;
++			}
++		}
++	} else if (strcmp(tmp[0], "wraw") == 0) {
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		addr &= 0xFFF;
++
++		cnts = strlen(tmp[2]);
++		if (cnts % 2) {
++			err = -EINVAL;
++			goto exit;
++		}
++		cnts /= 2;
++		if (cnts == 0) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++		RTW_INFO("%s: raw data=%s\n", __FUNCTION__, tmp[2]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2)
++			setrawdata[jj] = key_2char2num(tmp[2][kk], tmp[2][kk + 1]);
++
++		if (rtw_efuse_access(padapter, _TRUE, addr, cnts, setrawdata) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_access error!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++	} else if (strcmp(tmp[0], "btwraw") == 0) {
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		addr &= 0xFFF;
++
++		cnts = strlen(tmp[2]);
++		if (cnts % 2) {
++			err = -EINVAL;
++			goto exit;
++		}
++		cnts /= 2;
++		if (cnts == 0) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++		RTW_INFO("%s: raw data=%s\n", __FUNCTION__, tmp[2]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2)
++			setrawdata[jj] = key_2char2num(tmp[2][kk], tmp[2][kk + 1]);
++#ifdef RTW_HALMAC
++		if (rtw_efuse_bt_access(padapter, _TRUE, addr, cnts, setrawdata) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_access error!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++#else
++		rtw_write8(padapter, 0x35, 1); /* switch bank 1 (BT)*/
++		if (rtw_efuse_access(padapter, _TRUE, addr, cnts, setrawdata) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_access error!!\n", __FUNCTION__);
++			rtw_write8(padapter, 0x35, 0); /* switch bank 0 (WiFi)*/
++			err = -EFAULT;
++			goto exit;
++		}
++		rtw_write8(padapter, 0x35, 0); /* switch bank 0 (WiFi)*/
++#endif
++	} else if (strcmp(tmp[0], "mac") == 0) {
++		if (tmp[1] == NULL) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		/* mac,00e04c871200 */
++
++		if (hal_efuse_macaddr_offset(padapter) == -1) {
++			err = -EFAULT;
++			goto exit;
++		}
++
++		addr = hal_efuse_macaddr_offset(padapter);
++		cnts = strlen(tmp[1]);
++		if (cnts % 2) {
++			err = -EINVAL;
++			goto exit;
++		}
++		cnts /= 2;
++		if (cnts == 0) {
++			err = -EINVAL;
++			goto exit;
++		}
++		if (cnts > 6) {
++			RTW_INFO("%s: error data for mac addr=\"%s\"\n", __FUNCTION__, tmp[1]);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++		RTW_INFO("%s: MAC address=%s\n", __FUNCTION__, tmp[1]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2)
++			setdata[jj] = key_2char2num(tmp[1][kk], tmp[1][kk + 1]);
++
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&max_available_len, _FALSE);
++
++		if ((addr + cnts) > max_available_len) {
++			RTW_INFO("%s: addr(0x%X)+cnts(%d) parameter error!\n", __FUNCTION__, addr, cnts);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		if (rtw_efuse_map_write(padapter, addr, cnts, setdata) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_map_write error!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++	} else if (strcmp(tmp[0], "vidpid") == 0) {
++		if (tmp[1] == NULL) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		/* pidvid,da0b7881		 */
++#ifdef CONFIG_RTL8188E
++#ifdef CONFIG_USB_HCI
++		addr = EEPROM_VID_88EU;
++#endif
++#ifdef CONFIG_PCI_HCI
++		addr = EEPROM_VID_88EE;
++#endif
++#endif /* CONFIG_RTL8188E */
++
++#ifdef CONFIG_RTL8192E
++#ifdef CONFIG_USB_HCI
++		addr = EEPROM_VID_8192EU;
++#endif
++#ifdef CONFIG_PCI_HCI
++		addr = EEPROM_VID_8192EE;
++#endif
++#endif /* CONFIG_RTL8188E */
++
++#ifdef CONFIG_RTL8723B
++		addr = EEPROM_VID_8723BU;
++#endif
++
++#ifdef CONFIG_RTL8188F
++		addr = EEPROM_VID_8188FU;
++#endif
++
++#ifdef CONFIG_RTL8703B
++#ifdef CONFIG_USB_HCI
++		addr = EEPROM_VID_8703BU;
++#endif /* CONFIG_USB_HCI */
++#endif /* CONFIG_RTL8703B */
++
++#ifdef CONFIG_RTL8723D
++#ifdef CONFIG_USB_HCI
++		addr = EEPROM_VID_8723DU;
++#endif /* CONFIG_USB_HCI */
++#endif /* CONFIG_RTL8723D */
++
++		cnts = strlen(tmp[1]);
++		if (cnts % 2) {
++			err = -EINVAL;
++			goto exit;
++		}
++		cnts /= 2;
++		if (cnts == 0) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++		RTW_INFO("%s: VID/PID=%s\n", __FUNCTION__, tmp[1]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2)
++			setdata[jj] = key_2char2num(tmp[1][kk], tmp[1][kk + 1]);
++
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&max_available_len, _FALSE);
++		if ((addr + cnts) > max_available_len) {
++			RTW_INFO("%s: addr(0x%X)+cnts(%d) parameter error!\n", __FUNCTION__, addr, cnts);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		if (rtw_efuse_map_write(padapter, addr, cnts, setdata) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_map_write error!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++	} else if (strcmp(tmp[0], "wldumpfake") == 0) {
++		if (wifimaplen > EFUSE_MAX_MAP_LEN)
++			cnts = EFUSE_MAX_MAP_LEN;
++		else
++			cnts = wifimaplen;
++		if (rtw_efuse_mask_map_read(padapter, 0, cnts, pEfuseHal->fakeEfuseModifiedMap) == _SUCCESS)
++			RTW_INFO("%s: WiFi hw efuse dump to Fake map success\n", __func__);
++		else {
++			RTW_INFO("%s: WiFi hw efuse dump to Fake map Fail\n", __func__);
++			err = -EFAULT;
++		}
++	} else if (strcmp(tmp[0], "btwmap") == 0) {
++		rtw_write8(padapter, 0xa3, 0x05); /* For 8723AB ,8821S ? */
++		BTStatus = rtw_read8(padapter, 0xa0);
++		RTW_INFO("%s: btwmap before read 0xa0 BT Status =0x%x\n", __FUNCTION__, BTStatus);
++		if (BTStatus != 0x04) {
++			sprintf(extra, "BT Status not Active ,can't do Write\n");
++			goto exit;
++		}
++
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++#ifndef RTW_HALMAC
++		BTEfuse_PowerSwitch(padapter, 1, _TRUE);
++		addr = 0x1ff;
++		rtw_write8(padapter, EFUSE_CTRL + 1, (addr & 0xff));
++		rtw_msleep_os(10);
++		rtw_write8(padapter, EFUSE_CTRL + 2, ((addr >> 8) & 0x03));
++		rtw_msleep_os(10);
++		rtw_write8(padapter, EFUSE_CTRL + 3, 0x72);
++		rtw_msleep_os(10);
++		rtw_read8(padapter, EFUSE_CTRL);
++		BTEfuse_PowerSwitch(padapter, 1, _FALSE);
++#endif /* RTW_HALMAC */
++
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		addr &= 0xFFF;
++
++		cnts = strlen(tmp[2]);
++		if (cnts % 2) {
++			err = -EINVAL;
++			goto exit;
++		}
++		cnts /= 2;
++		if (cnts == 0) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++		RTW_INFO("%s: BT data=%s\n", __FUNCTION__, tmp[2]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2)
++			setdata[jj] = key_2char2num(tmp[2][kk], tmp[2][kk + 1]);
++#ifdef CONFIG_RTL8703B
++		if (cnts == 1 && addr == 0x189) {
++			setdata[1] = setdata[0];
++			setdata[0] = 0x00;
++			cnts += 1;
++			addr = 0x188;
++			RTW_INFO("addr 0x%x ,setdata=0x%X 0x%X\n", addr, setdata[0], setdata[1]);
++		} else if (cnts == 1 && addr == 0x161) {
++			setdata[1] = setdata[0];
++			setdata[0] = 0xFE;
++			cnts += 1;
++			addr = 0x160;
++			RTW_INFO("addr 0x%x ,setdata=0x%X 0x%X\n", addr, setdata[0], setdata[1]);
++		}
++#endif
++#ifndef RTW_HALMAC
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_BT, TYPE_EFUSE_MAP_LEN, (PVOID)&max_available_len, _FALSE);
++		if ((addr + cnts) > max_available_len) {
++			RTW_INFO("%s: addr(0x%X)+cnts(%d) parameter error!\n", __FUNCTION__, addr, cnts);
++			err = -EFAULT;
++			goto exit;
++		}
++#endif
++		if (rtw_BT_efuse_map_write(padapter, addr, cnts, setdata) == _FAIL) {
++			RTW_INFO("%s: rtw_BT_efuse_map_write error!!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++		*extra = 0;
++		RTW_INFO("%s: after rtw_BT_efuse_map_write to _rtw_memcmp\n", __FUNCTION__);
++		if ((rtw_BT_efuse_map_read(padapter, addr, cnts, ShadowMapBT) == _SUCCESS)) {
++			if (_rtw_memcmp((void *)ShadowMapBT , (void *)setdata, cnts)) {
++				RTW_INFO("%s: BT write map compare OK BTStatus=0x%x\n", __FUNCTION__, BTStatus);
++				sprintf(extra, "BT write map compare OK");
++				err = 0;
++				goto exit;
++			} else {
++				sprintf(extra, "BT write map compare FAIL");
++				RTW_INFO("%s: BT write map compare FAIL BTStatus=0x%x\n", __FUNCTION__, BTStatus);
++				err = 0;
++				goto exit;
++			}
++		}
++	} else if (strcmp(tmp[0], "btwfake") == 0) {
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		addr &= 0xFFF;
++
++		cnts = strlen(tmp[2]);
++		if (cnts % 2) {
++			err = -EINVAL;
++			goto exit;
++		}
++		cnts /= 2;
++		if (cnts == 0) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++		RTW_INFO("%s: BT tmp data=%s\n", __FUNCTION__, tmp[2]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2)
++			pEfuseHal->fakeBTEfuseModifiedMap[addr + jj] = key_2char2num(tmp[2][kk], tmp[2][kk + 1]);
++	} else if (strcmp(tmp[0], "btdumpfake") == 0) {
++		if (rtw_BT_efuse_map_read(padapter, 0, EFUSE_BT_MAX_MAP_LEN, pEfuseHal->fakeBTEfuseModifiedMap) == _SUCCESS)
++			RTW_INFO("%s: BT read all map success\n", __FUNCTION__);
++		else {
++			RTW_INFO("%s: BT read all map Fail!\n", __FUNCTION__);
++			err = -EFAULT;
++		}
++	} else if (strcmp(tmp[0], "btfk2map") == 0) {
++		rtw_write8(padapter, 0xa3, 0x05);
++		BTStatus = rtw_read8(padapter, 0xa0);
++		RTW_INFO("%s: btwmap before read 0xa0 BT Status =0x%x\n", __FUNCTION__, BTStatus);
++		if (BTStatus != 0x04) {
++			sprintf(extra, "BT Status not Active Write FAIL\n");
++			goto exit;
++		}
++#ifndef RTW_HALMAC
++		BTEfuse_PowerSwitch(padapter, 1, _TRUE);
++		addr = 0x1ff;
++		rtw_write8(padapter, EFUSE_CTRL + 1, (addr & 0xff));
++		rtw_msleep_os(10);
++		rtw_write8(padapter, EFUSE_CTRL + 2, ((addr >> 8) & 0x03));
++		rtw_msleep_os(10);
++		rtw_write8(padapter, EFUSE_CTRL + 3, 0x72);
++		rtw_msleep_os(10);
++		rtw_read8(padapter, EFUSE_CTRL);
++		BTEfuse_PowerSwitch(padapter, 1, _FALSE);
++#endif /* RTW_HALMAC */
++		_rtw_memcpy(pEfuseHal->BTEfuseModifiedMap, pEfuseHal->fakeBTEfuseModifiedMap, EFUSE_BT_MAX_MAP_LEN);
++
++		if (rtw_BT_efuse_map_write(padapter, 0x00, EFUSE_BT_MAX_MAP_LEN, pEfuseHal->fakeBTEfuseModifiedMap) == _FAIL) {
++			RTW_INFO("%s: rtw_BT_efuse_map_write error!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		RTW_INFO("pEfuseHal->fakeBTEfuseModifiedMap OFFSET\tVALUE(hex)\n");
++		for (i = 0; i < EFUSE_BT_MAX_MAP_LEN; i += 16) {
++			printk("0x%02x\t", i);
++			for (j = 0; j < 8; j++)
++				printk("%02X ", pEfuseHal->fakeBTEfuseModifiedMap[i + j]);
++			printk("\t");
++
++			for (; j < 16; j++)
++				printk("%02X ", pEfuseHal->fakeBTEfuseModifiedMap[i + j]);
++			printk("\n");
++		}
++		printk("\n");
++#if 1
++		err = -EFAULT;
++		RTW_INFO("%s: rtw_BT_efuse_map_read _rtw_memcmp\n", __FUNCTION__);
++		if ((rtw_BT_efuse_map_read(padapter, 0x00, EFUSE_BT_MAX_MAP_LEN, pEfuseHal->fakeBTEfuseInitMap) == _SUCCESS)) {
++			if (_rtw_memcmp((void *)pEfuseHal->fakeBTEfuseModifiedMap, (void *)pEfuseHal->fakeBTEfuseInitMap, EFUSE_BT_MAX_MAP_LEN)) {
++				sprintf(extra, "BT write map compare OK");
++				RTW_INFO("%s: BT write map afterf compare success BTStatus=0x%x\n", __FUNCTION__, BTStatus);
++				err = 0;
++				goto exit;
++			} else {
++				sprintf(extra, "BT write map compare FAIL");
++				if (rtw_BT_efuse_map_write(padapter, 0x00, EFUSE_BT_MAX_MAP_LEN, pEfuseHal->fakeBTEfuseModifiedMap) == _FAIL)
++					RTW_INFO("%s: rtw_BT_efuse_map_write compare error,retry = %d!\n", __FUNCTION__, i);
++
++				if (rtw_BT_efuse_map_read(padapter, EFUSE_BT, EFUSE_BT_MAX_MAP_LEN, pEfuseHal->fakeBTEfuseInitMap) == _SUCCESS) {
++					RTW_INFO("pEfuseHal->fakeBTEfuseInitMap OFFSET\tVALUE(hex)\n");
++
++					for (i = 0; i < EFUSE_BT_MAX_MAP_LEN; i += 16) {
++						printk("0x%02x\t", i);
++						for (j = 0; j < 8; j++)
++							printk("%02X ", pEfuseHal->fakeBTEfuseInitMap[i + j]);
++						printk("\t");
++						for (; j < 16; j++)
++							printk("%02X ", pEfuseHal->fakeBTEfuseInitMap[i + j]);
++						printk("\n");
++					}
++					printk("\n");
++				}
++				RTW_INFO("%s: BT write map afterf compare not match to write efuse try write Map again , BTStatus=0x%x\n", __FUNCTION__, BTStatus);
++				goto exit;
++			}
++		}
++#endif
++
++	} else if (strcmp(tmp[0], "wlfk2map") == 0) {
++		if (wifimaplen > EFUSE_MAX_MAP_LEN)
++			cnts = EFUSE_MAX_MAP_LEN;
++		else
++			cnts = wifimaplen;
++		if (rtw_efuse_map_write(padapter, 0x00, cnts, pEfuseHal->fakeEfuseModifiedMap) == _FAIL) {
++			RTW_INFO("%s: rtw_efuse_map_write fakeEfuseModifiedMap error!\n", __FUNCTION__);
++			err = -EFAULT;
++			goto exit;
++		}
++		*extra = 0;
++		if (rtw_efuse_mask_map_read(padapter, 0x00, wifimaplen, ShadowMapWiFi) == _SUCCESS) {
++			if (_rtw_memcmp((void *)ShadowMapWiFi , (void *)pEfuseHal->fakeEfuseModifiedMap, cnts)) {
++				RTW_INFO("%s: WiFi write map afterf compare OK\n", __FUNCTION__);
++				sprintf(extra, "WiFi write map compare OK\n");
++				err = 0;
++				goto exit;
++			} else {
++				sprintf(extra, "WiFi write map compare FAIL\n");
++				RTW_INFO("%s: WiFi write map compare Fail\n", __FUNCTION__);
++				err = 0;
++				goto exit;
++			}
++		}
++	} else if (strcmp(tmp[0], "wlwfake") == 0) {
++		if ((tmp[1] == NULL) || (tmp[2] == NULL)) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		addr = simple_strtoul(tmp[1], &ptmp, 16);
++		addr &= 0xFFF;
++
++		cnts = strlen(tmp[2]);
++		if (cnts % 2) {
++			err = -EINVAL;
++			goto exit;
++		}
++		cnts /= 2;
++		if (cnts == 0) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++		RTW_INFO("%s: map tmp data=%s\n", __FUNCTION__, tmp[2]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2)
++			pEfuseHal->fakeEfuseModifiedMap[addr + jj] = key_2char2num(tmp[2][kk], tmp[2][kk + 1]);
++		_rtw_memset(extra, '\0', strlen(extra));
++		sprintf(extra, "wlwfake OK\n");
++
++	}
++	else if (strcmp(tmp[0], "wfakemac") == 0) {
++		if (tmp[1] == NULL) {
++			err = -EINVAL;
++			goto exit;
++		}
++		/* wfakemac,00e04c871200 */
++		if (hal_efuse_macaddr_offset(padapter) == -1) {
++			err = -EFAULT;
++			goto exit;
++		}
++
++		addr = hal_efuse_macaddr_offset(padapter);
++		cnts = strlen(tmp[1]);
++		if (cnts % 2) {
++			err = -EINVAL;
++			goto exit;
++		}
++		cnts /= 2;
++		if (cnts == 0) {
++			err = -EINVAL;
++			goto exit;
++		}
++		if (cnts > 6) {
++			RTW_INFO("%s: error data for mac addr=\"%s\"\n", __FUNCTION__, tmp[1]);
++			err = -EFAULT;
++			goto exit;
++		}
++
++		RTW_INFO("%s: addr=0x%X\n", __FUNCTION__, addr);
++		RTW_INFO("%s: cnts=%d\n", __FUNCTION__, cnts);
++		RTW_INFO("%s: MAC address=%s\n", __FUNCTION__, tmp[1]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2)
++			pEfuseHal->fakeEfuseModifiedMap[addr + jj] = key_2char2num(tmp[1][kk], tmp[1][kk + 1]);
++
++		_rtw_memset(extra, '\0', strlen(extra));
++		sprintf(extra, "write mac addr to fake map OK\n");
++	}
++
++exit:
++	if (setdata)
++		rtw_mfree(setdata, 1024);
++	if (ShadowMapBT)
++		rtw_mfree(ShadowMapBT, EFUSE_BT_MAX_MAP_LEN);
++	if (ShadowMapWiFi)
++		rtw_mfree(ShadowMapWiFi, wifimaplen);
++	if (setrawdata)
++		rtw_mfree(setrawdata, EFUSE_MAX_SIZE);
++
++	wrqu->length = strlen(extra);
++
++	if (padapter->registrypriv.mp_mode == 0) {
++#ifdef CONFIG_IPS
++		rtw_pm_set_ips(padapter, ips_mode);
++#endif /* CONFIG_IPS */
++
++#ifdef CONFIG_LPS
++		rtw_pm_set_lps(padapter, lps_mode);
++#endif /* CONFIG_LPS */
++	}
++
++	return err;
++}
++
++
++#ifdef CONFIG_MP_INCLUDED
++static int rtw_priv_mp_set(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wdata, char *extra)
++{
++
++	struct iw_point *wrqu = (struct iw_point *)wdata;
++	u32 subcmd = wrqu->flags;
++
++	switch (subcmd) {
++	case MP_START:
++		RTW_INFO("set case mp_start\n");
++		rtw_mp_start(dev, info, wrqu, extra);
++		break;
++	case MP_STOP:
++		RTW_INFO("set case mp_stop\n");
++		rtw_mp_stop(dev, info, wrqu, extra);
++		break;
++	case MP_BANDWIDTH:
++		RTW_INFO("set case mp_bandwidth\n");
++		rtw_mp_bandwidth(dev, info, wrqu, extra);
++		break;
++	case MP_RESET_STATS:
++		RTW_INFO("set case MP_RESET_STATS\n");
++		rtw_mp_reset_stats(dev, info, wrqu, extra);
++		break;
++	case MP_SetRFPathSwh:
++		RTW_INFO("set MP_SetRFPathSwitch\n");
++		rtw_mp_SetRFPath(dev, info, wdata, extra);
++		break;
++	case CTA_TEST:
++		RTW_INFO("set CTA_TEST\n");
++		rtw_cta_test_start(dev, info, wdata, extra);
++		break;
++	case MP_DISABLE_BT_COEXIST:
++		RTW_INFO("set case MP_DISABLE_BT_COEXIST\n");
++		rtw_mp_disable_bt_coexist(dev, info, wdata, extra);
++		break;
++	case MP_IQK:
++		RTW_INFO("set MP_IQK\n");
++		rtw_mp_iqk(dev, info, wrqu, extra);
++		break;
++	case MP_LCK:
++		RTW_INFO("set MP_LCK\n");
++		rtw_mp_lck(dev, info, wrqu, extra);
++	break;
++
++	default:
++		return -EIO;
++	}
++
++	return 0;
++}
++
++static int rtw_priv_mp_get(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wdata, char *extra)
++{
++
++	struct iw_point *wrqu = (struct iw_point *)wdata;
++	u32 subcmd = wrqu->flags;
++
++	switch (subcmd) {
++	case WRITE_REG:
++		rtw_mp_write_reg(dev, info, wrqu, extra);
++		break;
++	case WRITE_RF:
++		rtw_mp_write_rf(dev, info, wrqu, extra);
++		break;
++	case MP_PHYPARA:
++		RTW_INFO("mp_get  MP_PHYPARA\n");
++		rtw_mp_phypara(dev, info, wrqu, extra);
++		break;
++	case MP_CHANNEL:
++		RTW_INFO("set case mp_channel\n");
++		rtw_mp_channel(dev , info, wrqu, extra);
++		break;
++	case READ_REG:
++		RTW_INFO("mp_get  READ_REG\n");
++		rtw_mp_read_reg(dev, info, wrqu, extra);
++		break;
++	case READ_RF:
++		RTW_INFO("mp_get  READ_RF\n");
++		rtw_mp_read_rf(dev, info, wrqu, extra);
++		break;
++	case MP_RATE:
++		RTW_INFO("set case mp_rate\n");
++		rtw_mp_rate(dev, info, wrqu, extra);
++		break;
++	case MP_TXPOWER:
++		RTW_INFO("set case MP_TXPOWER\n");
++		rtw_mp_txpower(dev, info, wrqu, extra);
++		break;
++	case MP_ANT_TX:
++		RTW_INFO("set case MP_ANT_TX\n");
++		rtw_mp_ant_tx(dev, info, wrqu, extra);
++		break;
++	case MP_ANT_RX:
++		RTW_INFO("set case MP_ANT_RX\n");
++		rtw_mp_ant_rx(dev, info, wrqu, extra);
++		break;
++	case MP_QUERY:
++		rtw_mp_trx_query(dev, info, wrqu, extra);
++		break;
++	case MP_CTX:
++		RTW_INFO("set case MP_CTX\n");
++		rtw_mp_ctx(dev, info, wrqu, extra);
++		break;
++	case MP_ARX:
++		RTW_INFO("set case MP_ARX\n");
++		rtw_mp_arx(dev, info, wrqu, extra);
++		break;
++	case MP_DUMP:
++		RTW_INFO("set case MP_DUMP\n");
++		rtw_mp_dump(dev, info, wrqu, extra);
++		break;
++	case MP_PSD:
++		RTW_INFO("set case MP_PSD\n");
++		rtw_mp_psd(dev, info, wrqu, extra);
++		break;
++	case MP_THER:
++		RTW_INFO("set case MP_THER\n");
++		rtw_mp_thermal(dev, info, wrqu, extra);
++		break;
++	case MP_PwrCtlDM:
++		RTW_INFO("set MP_PwrCtlDM\n");
++		rtw_mp_PwrCtlDM(dev, info, wrqu, extra);
++		break;
++	case MP_QueryDrvStats:
++		RTW_INFO("mp_get MP_QueryDrvStats\n");
++		rtw_mp_QueryDrv(dev, info, wdata, extra);
++		break;
++	case MP_PWRTRK:
++		RTW_INFO("set case MP_PWRTRK\n");
++		rtw_mp_pwrtrk(dev, info, wrqu, extra);
++		break;
++	case EFUSE_SET:
++		RTW_INFO("set case efuse set\n");
++		rtw_mp_efuse_set(dev, info, wdata, extra);
++		break;
++	case EFUSE_GET:
++		RTW_INFO("efuse get EFUSE_GET\n");
++		rtw_mp_efuse_get(dev, info, wdata, extra);
++		break;
++	case MP_GET_TXPOWER_INX:
++		RTW_INFO("mp_get MP_GET_TXPOWER_INX\n");
++		rtw_mp_txpower_index(dev, info, wrqu, extra);
++		break;
++	case MP_GETVER:
++		RTW_INFO("mp_get MP_GETVER\n");
++		rtw_mp_getver(dev, info, wdata, extra);
++		break;
++	case MP_MON:
++		RTW_INFO("mp_get MP_MON\n");
++		rtw_mp_mon(dev, info, wdata, extra);
++		break;
++	case EFUSE_MASK:
++		RTW_INFO("mp_get EFUSE_MASK\n");
++		rtw_efuse_mask_file(dev, info, wdata, extra);
++		break;
++	case  EFUSE_FILE:
++		RTW_INFO("mp_get EFUSE_FILE\n");
++		rtw_efuse_file_map(dev, info, wdata, extra);
++		break;
++	case  MP_TX:
++		RTW_INFO("mp_get MP_TX\n");
++		rtw_mp_tx(dev, info, wdata, extra);
++		break;
++	case  MP_RX:
++		RTW_INFO("mp_get MP_RX\n");
++		rtw_mp_rx(dev, info, wdata, extra);
++		break;
++	case MP_HW_TX_MODE:
++		RTW_INFO("mp_get MP_HW_TX_MODE\n");
++		rtw_mp_hwtx(dev, info, wdata, extra);
++		break;
++	default:
++		return -EIO;
++	}
++
++	return 0;
++}
++#endif /*#if defined(CONFIG_MP_INCLUDED)*/
++
++
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++#define DBG_MP_SDIO_INDIRECT_ACCESS 1
++static int rtw_mp_sd_iread(struct net_device *dev
++			   , struct iw_request_info *info
++			   , struct iw_point *wrqu
++			   , char *extra)
++{
++	char input[16];
++	u8 width;
++	unsigned long addr;
++	u32 ret = 0;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	if (wrqu->length > 16) {
++		RTW_INFO(FUNC_ADPT_FMT" wrqu->length:%d\n", FUNC_ADPT_ARG(padapter), wrqu->length);
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length)) {
++		RTW_INFO(FUNC_ADPT_FMT" copy_from_user fail\n", FUNC_ADPT_ARG(padapter));
++		ret = -EFAULT;
++		goto exit;
++	}
++
++	_rtw_memset(extra, 0, wrqu->length);
++
++	if (sscanf(input, "%hhu,%lx", &width, &addr) != 2) {
++		RTW_INFO(FUNC_ADPT_FMT" sscanf fail\n", FUNC_ADPT_ARG(padapter));
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	if (addr > 0x3FFF) {
++		RTW_INFO(FUNC_ADPT_FMT" addr:0x%lx\n", FUNC_ADPT_ARG(padapter), addr);
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	if (DBG_MP_SDIO_INDIRECT_ACCESS)
++		RTW_INFO(FUNC_ADPT_FMT" width:%u, addr:0x%lx\n", FUNC_ADPT_ARG(padapter), width, addr);
++
++	switch (width) {
++	case 1:
++		sprintf(extra, "0x%02x", rtw_sd_iread8(padapter, addr));
++		wrqu->length = strlen(extra);
++		break;
++	case 2:
++		sprintf(extra, "0x%04x", rtw_sd_iread16(padapter, addr));
++		wrqu->length = strlen(extra);
++		break;
++	case 4:
++		sprintf(extra, "0x%08x", rtw_sd_iread32(padapter, addr));
++		wrqu->length = strlen(extra);
++		break;
++	default:
++		wrqu->length = 0;
++		ret = -EINVAL;
++		break;
++	}
++
++exit:
++	return ret;
++}
++
++static int rtw_mp_sd_iwrite(struct net_device *dev
++			    , struct iw_request_info *info
++			    , struct iw_point *wrqu
++			    , char *extra)
++{
++	char width;
++	unsigned long addr, data;
++	int ret = 0;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	char input[32];
++
++	if (wrqu->length > 32) {
++		RTW_INFO(FUNC_ADPT_FMT" wrqu->length:%d\n", FUNC_ADPT_ARG(padapter), wrqu->length);
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length)) {
++		RTW_INFO(FUNC_ADPT_FMT" copy_from_user fail\n", FUNC_ADPT_ARG(padapter));
++		ret = -EFAULT;
++		goto exit;
++	}
++
++	_rtw_memset(extra, 0, wrqu->length);
++
++	if (sscanf(input, "%hhu,%lx,%lx", &width, &addr, &data) != 3) {
++		RTW_INFO(FUNC_ADPT_FMT" sscanf fail\n", FUNC_ADPT_ARG(padapter));
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	if (addr > 0x3FFF) {
++		RTW_INFO(FUNC_ADPT_FMT" addr:0x%lx\n", FUNC_ADPT_ARG(padapter), addr);
++		ret = -EINVAL;
++		goto exit;
++	}
++
++	if (DBG_MP_SDIO_INDIRECT_ACCESS)
++		RTW_INFO(FUNC_ADPT_FMT" width:%u, addr:0x%lx, data:0x%lx\n", FUNC_ADPT_ARG(padapter), width, addr, data);
++
++	switch (width) {
++	case 1:
++		if (data > 0xFF) {
++			ret = -EINVAL;
++			break;
++		}
++		rtw_sd_iwrite8(padapter, addr, data);
++		break;
++	case 2:
++		if (data > 0xFFFF) {
++			ret = -EINVAL;
++			break;
++		}
++		rtw_sd_iwrite16(padapter, addr, data);
++		break;
++	case 4:
++		rtw_sd_iwrite32(padapter, addr, data);
++		break;
++	default:
++		wrqu->length = 0;
++		ret = -EINVAL;
++		break;
++	}
++
++exit:
++	return ret;
++}
++#endif /* CONFIG_SDIO_INDIRECT_ACCESS */
++
++static int rtw_priv_set(struct net_device *dev,
++			struct iw_request_info *info,
++			union iwreq_data *wdata, char *extra)
++{
++	struct iw_point *wrqu = (struct iw_point *)wdata;
++	u32 subcmd = wrqu->flags;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	if (padapter == NULL)
++		return -ENETDOWN;
++
++	if (padapter->bup == _FALSE) {
++		RTW_INFO(" %s fail =>(padapter->bup == _FALSE )\n", __FUNCTION__);
++		return -ENETDOWN;
++	}
++
++	if (RTW_CANNOT_RUN(padapter)) {
++		RTW_INFO("%s fail =>(bSurpriseRemoved == _TRUE) || ( bDriverStopped == _TRUE)\n", __func__);
++		return -ENETDOWN;
++	}
++
++	if (extra == NULL) {
++		wrqu->length = 0;
++		return -EIO;
++	}
++
++	if (subcmd < MP_NULL) {
++#ifdef CONFIG_MP_INCLUDED
++		rtw_priv_mp_set(dev, info, wdata, extra);
++#endif
++		return 0;
++	}
++
++	switch (subcmd) {
++#ifdef CONFIG_WOWLAN
++	case MP_WOW_ENABLE:
++		RTW_INFO("set case MP_WOW_ENABLE: %s\n", extra);
++
++		rtw_wowlan_ctrl(dev, info, wdata, extra);
++		break;
++	case MP_WOW_SET_PATTERN:
++		RTW_INFO("set case MP_WOW_SET_PATTERN: %s\n", extra);
++		rtw_wowlan_set_pattern(dev, info, wdata, extra);
++		break;
++#endif
++#ifdef CONFIG_AP_WOWLAN
++	case MP_AP_WOW_ENABLE:
++		RTW_INFO("set case MP_AP_WOW_ENABLE: %s\n", extra);
++		rtw_ap_wowlan_ctrl(dev, info, wdata, extra);
++		break;
++#endif
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++	case VENDOR_IE_SET:
++		RTW_INFO("set case VENDOR_IE_SET\n");
++		rtw_vendor_ie_set(dev , info , wdata , extra);
++		break;
++#endif
++	default:
++		return -EIO;
++	}
++
++	return 0;
++}
++
++
++static int rtw_priv_get(struct net_device *dev,
++			struct iw_request_info *info,
++			union iwreq_data *wdata, char *extra)
++{
++	struct iw_point *wrqu = (struct iw_point *)wdata;
++	u32 subcmd = wrqu->flags;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++
++	if (padapter == NULL)
++		return -ENETDOWN;
++
++	if (padapter->bup == _FALSE) {
++		RTW_INFO(" %s fail =>(padapter->bup == _FALSE )\n", __FUNCTION__);
++		return -ENETDOWN;
++	}
++
++	if (RTW_CANNOT_RUN(padapter)) {
++		RTW_INFO("%s fail =>(padapter->bSurpriseRemoved == _TRUE) || ( padapter->bDriverStopped == _TRUE)\n", __func__);
++		return -ENETDOWN;
++	}
++
++	if (extra == NULL) {
++		wrqu->length = 0;
++		return -EIO;
++	}
++
++	if (subcmd < MP_NULL) {
++#ifdef CONFIG_MP_INCLUDED
++		rtw_priv_mp_get(dev, info, wdata, extra);
++#endif		
++		return 0;
++	}
++
++	switch (subcmd) {
++#if defined(CONFIG_RTL8723B)
++	case MP_SetBT:
++		RTW_INFO("set MP_SetBT\n");
++		rtw_mp_SetBT(dev, info, wdata, extra);
++		break;
++#endif
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++	case MP_SD_IREAD:
++		rtw_mp_sd_iread(dev, info, wrqu, extra);
++		break;
++	case MP_SD_IWRITE:
++		rtw_mp_sd_iwrite(dev, info, wrqu, extra);
++		break;
++#endif
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++	case VENDOR_IE_GET:
++		RTW_INFO("get case VENDOR_IE_GET\n");
++		rtw_vendor_ie_get(dev , info , wdata , extra);
++		break;
++#endif
++	default:
++		return -EIO;
++	}
++
++	rtw_msleep_os(10); /* delay 5ms for sending pkt before exit adb shell operation */
++	return 0;
++}
++
++
++
++static int rtw_wx_tdls_wfd_enable(struct net_device *dev,
++				  struct iw_request_info *info,
++				  union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_WFD
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	if (extra[0] == '0')
++		rtw_tdls_wfd_enable(padapter, 0);
++	else
++		rtw_tdls_wfd_enable(padapter, 1);
++
++#endif /* CONFIG_WFD */
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_weaksec(struct net_device *dev,
++			    struct iw_request_info *info,
++			    union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	u8 i, j;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	if (extra[0] == '0')
++		padapter->wdinfo.wfd_tdls_weaksec = 0;
++	else
++		padapter->wdinfo.wfd_tdls_weaksec = 1;
++
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++
++static int rtw_tdls_enable(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info	*ptdlsinfo = &padapter->tdlsinfo;
++	_irqL	 irqL;
++	_list	*plist, *phead;
++	s32	index;
++	struct sta_info *psta = NULL;
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	u8 tdls_sta[NUM_STA][ETH_ALEN];
++	u8 empty_hwaddr[ETH_ALEN] = { 0x00 };
++	struct tdls_txmgmt txmgmt;
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	_rtw_memset(tdls_sta, 0x00, sizeof(tdls_sta));
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++
++	if (extra[0] == '0') {
++		ptdlsinfo->tdls_enable = 0;
++
++		if (pstapriv->asoc_sta_count == 1)
++			return ret;
++
++		_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++		for (index = 0; index < NUM_STA; index++) {
++			phead = &(pstapriv->sta_hash[index]);
++			plist = get_next(phead);
++
++			while (rtw_end_of_queue_search(phead, plist) == _FALSE) {
++				psta = LIST_CONTAINOR(plist, struct sta_info , hash_list);
++
++				plist = get_next(plist);
++
++				if (psta->tdls_sta_state != TDLS_STATE_NONE)
++					_rtw_memcpy(tdls_sta[index], psta->hwaddr, ETH_ALEN);
++			}
++		}
++		_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++		for (index = 0; index < NUM_STA; index++) {
++			if (!_rtw_memcmp(tdls_sta[index], empty_hwaddr, ETH_ALEN)) {
++				RTW_INFO("issue tear down to "MAC_FMT"\n", MAC_ARG(tdls_sta[index]));
++				txmgmt.status_code = _RSON_TDLS_TEAR_UN_RSN_;
++				_rtw_memcpy(txmgmt.peer, tdls_sta[index], ETH_ALEN);
++				issue_tdls_teardown(padapter, &txmgmt, _TRUE);
++			}
++		}
++		rtw_tdls_cmd(padapter, NULL, TDLS_RS_RCR);
++		rtw_reset_tdls_info(padapter);
++	}	else if (extra[0] == '1')
++		ptdlsinfo->tdls_enable = 1;
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_setup(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++#ifdef CONFIG_TDLS
++	u8 i, j;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_txmgmt txmgmt;
++#ifdef CONFIG_WFD
++	struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
++#endif /* CONFIG_WFD */
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	if (wrqu->data.length - 1 != 17) {
++		RTW_INFO("[%s] length:%d != 17\n", __FUNCTION__, (wrqu->data.length - 1));
++		return ret;
++	}
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	for (i = 0, j = 0 ; i < ETH_ALEN; i++, j += 3)
++		txmgmt.peer[i] = key_2char2num(*(extra + j), *(extra + j + 1));
++
++#ifdef CONFIG_WFD
++	if (_AES_ != padapter->securitypriv.dot11PrivacyAlgrthm) {
++		/* Weak Security situation with AP. */
++		if (0 == pwdinfo->wfd_tdls_weaksec)	{
++			/* Can't send the tdls setup request out!! */
++			RTW_INFO("[%s] Current link is not AES, "
++				"SKIP sending the tdls setup request!!\n", __FUNCTION__);
++		} else
++			issue_tdls_setup_req(padapter, &txmgmt, _TRUE);
++	} else
++#endif /* CONFIG_WFD */
++	{
++		issue_tdls_setup_req(padapter, &txmgmt, _TRUE);
++	}
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_teardown(struct net_device *dev,
++			     struct iw_request_info *info,
++			     union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	u8 i, j;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct sta_info *ptdls_sta = NULL;
++	struct tdls_txmgmt txmgmt;
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	if (wrqu->data.length - 1 != 17 && wrqu->data.length - 1 != 19) {
++		RTW_INFO("[%s] length:%d != 17 or 19\n",
++			 __FUNCTION__, (wrqu->data.length - 1));
++		return ret;
++	}
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	for (i = 0, j = 0; i < ETH_ALEN; i++, j += 3)
++		txmgmt.peer[i] = key_2char2num(*(extra + j), *(extra + j + 1));
++
++	ptdls_sta = rtw_get_stainfo(&(padapter->stapriv), txmgmt.peer);
++
++	if (ptdls_sta != NULL) {
++		txmgmt.status_code = _RSON_TDLS_TEAR_UN_RSN_;
++		if (wrqu->data.length - 1 == 19)
++			issue_tdls_teardown(padapter, &txmgmt, _FALSE);
++		else
++			issue_tdls_teardown(padapter, &txmgmt, _TRUE);
++	} else
++		RTW_INFO("TDLS peer not found\n");
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_discovery(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_txmgmt	txmgmt;
++	int i = 0, j = 0;
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++	for (i = 0, j = 0 ; i < ETH_ALEN; i++, j += 3)
++		txmgmt.peer[i] = key_2char2num(*(extra + j), *(extra + j + 1));
++
++	issue_tdls_dis_req(padapter, &txmgmt);
++
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_ch_switch(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++	u8 i, j;
++	struct sta_info *ptdls_sta = NULL;
++	u8 take_care_iqk;
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	if (rtw_tdls_is_chsw_allowed(padapter) == _FALSE) {
++		RTW_INFO("TDLS channel switch is not allowed\n");
++		return ret;
++	}
++
++	for (i = 0, j = 0 ; i < ETH_ALEN; i++, j += 3)
++		pchsw_info->addr[i] = key_2char2num(*(extra + j), *(extra + j + 1));
++
++	ptdls_sta = rtw_get_stainfo(&padapter->stapriv, pchsw_info->addr);
++	if (ptdls_sta == NULL)
++		return ret;
++
++	pchsw_info->ch_sw_state |= TDLS_CH_SW_INITIATOR_STATE;
++
++	if (ptdls_sta != NULL) {
++		if (pchsw_info->off_ch_num == 0)
++			pchsw_info->off_ch_num = 11;
++	} else
++		RTW_INFO("TDLS peer not found\n");
++
++	rtw_pm_set_lps(padapter, PS_MODE_ACTIVE);
++
++	rtw_hal_get_hwreg(padapter, HW_VAR_CH_SW_NEED_TO_TAKE_CARE_IQK_INFO, &take_care_iqk);
++	if (take_care_iqk == _TRUE) {
++		u8 central_chnl;
++		u8 bw_mode;
++
++		bw_mode = (pchsw_info->ch_offset) ? CHANNEL_WIDTH_40 : CHANNEL_WIDTH_20;
++		central_chnl = rtw_get_center_ch(pchsw_info->off_ch_num, bw_mode, pchsw_info->ch_offset);
++		if (rtw_hal_ch_sw_iqk_info_search(padapter, central_chnl, bw_mode) >= 0)
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_START);
++		else
++			rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_PREPARE);
++	} else
++		rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_START);
++
++	/* issue_tdls_ch_switch_req(padapter, ptdls_sta); */
++	/* RTW_INFO("issue tdls ch switch req\n"); */
++
++#endif /* CONFIG_TDLS_CH_SW */
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_ch_switch_off(struct net_device *dev,
++				  struct iw_request_info *info,
++				  union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_ch_switch *pchsw_info = &padapter->tdlsinfo.chsw_info;
++	u8 i, j, mac_addr[ETH_ALEN];
++	struct sta_info *ptdls_sta = NULL;
++	struct tdls_txmgmt txmgmt;
++
++	_rtw_memset(&txmgmt, 0x00, sizeof(struct tdls_txmgmt));
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	if (rtw_tdls_is_chsw_allowed(padapter) == _FALSE) {
++		RTW_INFO("TDLS channel switch is not allowed\n");
++		return ret;
++	}
++
++	if (wrqu->data.length >= 17) {
++		for (i = 0, j = 0 ; i < ETH_ALEN; i++, j += 3)
++			mac_addr[i] = key_2char2num(*(extra + j), *(extra + j + 1));
++		ptdls_sta = rtw_get_stainfo(&padapter->stapriv, mac_addr);
++	}
++
++	if (ptdls_sta == NULL)
++		return ret;
++
++	rtw_tdls_cmd(padapter, ptdls_sta->hwaddr, TDLS_CH_SW_END_TO_BASE_CHNL);
++
++	pchsw_info->ch_sw_state &= ~(TDLS_CH_SW_INITIATOR_STATE |
++				     TDLS_CH_SWITCH_ON_STATE |
++				     TDLS_PEER_AT_OFF_STATE);
++	_rtw_memset(pchsw_info->addr, 0x00, ETH_ALEN);
++
++	ptdls_sta->ch_switch_time = 0;
++	ptdls_sta->ch_switch_timeout = 0;
++	_cancel_timer_ex(&ptdls_sta->ch_sw_timer);
++	_cancel_timer_ex(&ptdls_sta->delay_timer);
++	_cancel_timer_ex(&ptdls_sta->stay_on_base_chnl_timer);
++	_cancel_timer_ex(&ptdls_sta->ch_sw_monitor_timer);
++
++	rtw_pm_set_lps(padapter, PS_MODE_MAX);
++#endif /* CONFIG_TDLS_CH_SW */
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_dump_ch(struct net_device *dev,
++			    struct iw_request_info *info,
++			    union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	RTW_INFO("[%s] dump_stack:%s\n", __FUNCTION__, extra);
++
++	extra[wrqu->data.length] = 0x00;
++	ptdlsinfo->chsw_info.dump_stack = rtw_atoi(extra);
++
++	return ret;
++
++#endif
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_off_ch_num(struct net_device *dev,
++			       struct iw_request_info *info,
++			       union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	RTW_INFO("[%s] off_ch_num:%s\n", __FUNCTION__, extra);
++
++	extra[wrqu->data.length] = 0x00;
++	ptdlsinfo->chsw_info.off_ch_num = rtw_atoi(extra);
++
++	return ret;
++
++#endif
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_ch_offset(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_TDLS_CH_SW
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	RTW_INFO("[%s] ch_offset:%s\n", __FUNCTION__, extra);
++
++	extra[wrqu->data.length] = 0x00;
++	switch (rtw_atoi(extra)) {
++	case SCA:
++		ptdlsinfo->chsw_info.ch_offset = HAL_PRIME_CHNL_OFFSET_LOWER;
++		break;
++
++	case SCB:
++		ptdlsinfo->chsw_info.ch_offset = HAL_PRIME_CHNL_OFFSET_UPPER;
++		break;
++
++	default:
++		ptdlsinfo->chsw_info.ch_offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++		break;
++	}
++
++	return ret;
++
++#endif
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_pson(struct net_device *dev,
++			 struct iw_request_info *info,
++			 union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 i, j, mac_addr[ETH_ALEN];
++	struct sta_info *ptdls_sta = NULL;
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	for (i = 0, j = 0; i < ETH_ALEN; i++, j += 3)
++		mac_addr[i] = key_2char2num(*(extra + j), *(extra + j + 1));
++
++	ptdls_sta = rtw_get_stainfo(&padapter->stapriv, mac_addr);
++
++	issue_nulldata_to_TDLS_peer_STA(padapter, ptdls_sta->hwaddr, 1, 3, 500);
++
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_psoff(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 i, j, mac_addr[ETH_ALEN];
++	struct sta_info *ptdls_sta = NULL;
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	for (i = 0, j = 0; i < ETH_ALEN; i++, j += 3)
++		mac_addr[i] = key_2char2num(*(extra + j), *(extra + j + 1));
++
++	ptdls_sta = rtw_get_stainfo(&padapter->stapriv, mac_addr);
++
++	if (ptdls_sta)
++		issue_nulldata_to_TDLS_peer_STA(padapter, ptdls_sta->hwaddr, 0, 3, 500);
++
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_setip(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_WFD
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct wifi_display_info *pwfd_info = ptdlsinfo->wfd_info;
++	u8 i = 0, j = 0, k = 0, tag = 0;
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__, extra, wrqu->data.length - 1);
++
++	while (i < 4) {
++		for (j = 0; j < 4; j++) {
++			if (*(extra + j + tag) == '.' || *(extra + j + tag) == '\0') {
++				if (j == 1)
++					pwfd_info->ip_address[i] = convert_ip_addr('0', '0', *(extra + (j - 1) + tag));
++				if (j == 2)
++					pwfd_info->ip_address[i] = convert_ip_addr('0', *(extra + (j - 2) + tag), *(extra + (j - 1) + tag));
++				if (j == 3)
++					pwfd_info->ip_address[i] = convert_ip_addr(*(extra + (j - 3) + tag), *(extra + (j - 2) + tag), *(extra + (j - 1) + tag));
++
++				tag += j + 1;
++				break;
++			}
++		}
++		i++;
++	}
++
++	RTW_INFO("[%s] Set IP = %u.%u.%u.%u\n", __FUNCTION__,
++		 ptdlsinfo->wfd_info->ip_address[0],
++		 ptdlsinfo->wfd_info->ip_address[1],
++		 ptdlsinfo->wfd_info->ip_address[2],
++		 ptdlsinfo->wfd_info->ip_address[3]);
++
++#endif /* CONFIG_WFD */
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_getip(struct net_device *dev,
++			  struct iw_request_info *info,
++			  union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_WFD
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct wifi_display_info *pwfd_info = ptdlsinfo->wfd_info;
++
++	RTW_INFO("[%s]\n", __FUNCTION__);
++
++	sprintf(extra, "\n\n%u.%u.%u.%u\n",
++		pwfd_info->peer_ip_address[0], pwfd_info->peer_ip_address[1],
++		pwfd_info->peer_ip_address[2], pwfd_info->peer_ip_address[3]);
++
++	RTW_INFO("[%s] IP=%u.%u.%u.%u\n", __FUNCTION__,
++		 pwfd_info->peer_ip_address[0], pwfd_info->peer_ip_address[1],
++		 pwfd_info->peer_ip_address[2], pwfd_info->peer_ip_address[3]);
++
++	wrqu->data.length = strlen(extra);
++
++#endif /* CONFIG_WFD */
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++static int rtw_tdls_getport(struct net_device *dev,
++			    struct iw_request_info *info,
++			    union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_WFD
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++	struct wifi_display_info *pwfd_info = ptdlsinfo->wfd_info;
++
++	RTW_INFO("[%s]\n", __FUNCTION__);
++
++	sprintf(extra, "\n\n%d\n", pwfd_info->peer_rtsp_ctrlport);
++	RTW_INFO("[%s] remote port = %d\n",
++		 __FUNCTION__, pwfd_info->peer_rtsp_ctrlport);
++
++	wrqu->data.length = strlen(extra);
++
++#endif /* CONFIG_WFD */
++#endif /* CONFIG_TDLS */
++
++	return ret;
++
++}
++
++/* WFDTDLS, for sigma test */
++static int rtw_tdls_dis_result(struct net_device *dev,
++			       struct iw_request_info *info,
++			       union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++#ifdef CONFIG_WFD
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	RTW_INFO("[%s]\n", __FUNCTION__);
++
++	if (ptdlsinfo->dev_discovered == _TRUE) {
++		sprintf(extra, "\n\nDis=1\n");
++		ptdlsinfo->dev_discovered = _FALSE;
++	}
++
++	wrqu->data.length = strlen(extra);
++
++#endif /* CONFIG_WFD */
++#endif /* CONFIG_TDLS */
++
++	return ret;
++
++}
++
++/* WFDTDLS, for sigma test */
++static int rtw_wfd_tdls_status(struct net_device *dev,
++			       struct iw_request_info *info,
++			       union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct tdls_info *ptdlsinfo = &padapter->tdlsinfo;
++
++	RTW_INFO("[%s]\n", __FUNCTION__);
++
++	sprintf(extra, "\nlink_established:%d\n"
++		"sta_cnt:%d\n"
++		"sta_maximum:%d\n"
++		"cur_channel:%d\n"
++		"tdls_enable:%d"
++#ifdef CONFIG_TDLS_CH_SW
++		"ch_sw_state:%08x\n"
++		"chsw_on:%d\n"
++		"off_ch_num:%d\n"
++		"cur_time:%d\n"
++		"ch_offset:%d\n"
++		"delay_swtich_back:%d"
++#endif
++		,
++		ptdlsinfo->link_established, ptdlsinfo->sta_cnt,
++		ptdlsinfo->sta_maximum, ptdlsinfo->cur_channel,
++		ptdlsinfo->tdls_enable
++#ifdef CONFIG_TDLS_CH_SW
++		,
++		ptdlsinfo->chsw_info.ch_sw_state,
++		ATOMIC_READ(&padapter->tdlsinfo.chsw_info.chsw_on),
++		ptdlsinfo->chsw_info.off_ch_num,
++		ptdlsinfo->chsw_info.cur_time,
++		ptdlsinfo->chsw_info.ch_offset,
++		ptdlsinfo->chsw_info.delay_switch_back
++#endif
++	       );
++
++	wrqu->data.length = strlen(extra);
++
++#endif /* CONFIG_TDLS */
++
++	return ret;
++
++}
++
++static int rtw_tdls_getsta(struct net_device *dev,
++			   struct iw_request_info *info,
++			   union iwreq_data *wrqu, char *extra)
++{
++
++	int ret = 0;
++#ifdef CONFIG_TDLS
++	u8 i, j;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 addr[ETH_ALEN] = {0};
++	char charmac[17];
++	struct sta_info *ptdls_sta = NULL;
++
++	RTW_INFO("[%s] %s %d\n", __FUNCTION__,
++		 (char *)wrqu->data.pointer, wrqu->data.length - 1);
++
++	if (copy_from_user(charmac, wrqu->data.pointer + 9, 17)) {
++		ret = -EFAULT;
++		goto exit;
++	}
++
++	RTW_INFO("[%s] %d, charmac:%s\n", __FUNCTION__, __LINE__, charmac);
++	for (i = 0, j = 0 ; i < ETH_ALEN; i++, j += 3)
++		addr[i] = key_2char2num(*(charmac + j), *(charmac + j + 1));
++
++	RTW_INFO("[%s] %d, charmac:%s, addr:"MAC_FMT"\n",
++		 __FUNCTION__, __LINE__, charmac, MAC_ARG(addr));
++	ptdls_sta = rtw_get_stainfo(&padapter->stapriv, addr);
++	if (ptdls_sta) {
++		sprintf(extra, "\n\ntdls_sta_state=0x%08x\n", ptdls_sta->tdls_sta_state);
++		RTW_INFO("\n\ntdls_sta_state=%d\n", ptdls_sta->tdls_sta_state);
++	} else {
++		sprintf(extra, "\n\nNot found this sta\n");
++		RTW_INFO("\n\nNot found this sta\n");
++	}
++	wrqu->data.length = strlen(extra);
++
++#endif /* CONFIG_TDLS */
++exit:
++	return ret;
++
++}
++
++static int rtw_tdls_get_best_ch(struct net_device *dev,
++				struct iw_request_info *info,
++				union iwreq_data *wrqu, char *extra)
++{
++#ifdef CONFIG_FIND_BEST_CHANNEL
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	u32 i, best_channel_24G = 1, best_channel_5G = 36, index_24G = 0, index_5G = 0;
++
++	for (i = 0; pmlmeext->channel_set[i].ChannelNum != 0; i++) {
++		if (pmlmeext->channel_set[i].ChannelNum == 1)
++			index_24G = i;
++		if (pmlmeext->channel_set[i].ChannelNum == 36)
++			index_5G = i;
++	}
++
++	for (i = 0; pmlmeext->channel_set[i].ChannelNum != 0; i++) {
++		/* 2.4G */
++		if (pmlmeext->channel_set[i].ChannelNum == 6 || pmlmeext->channel_set[i].ChannelNum == 11) {
++			if (pmlmeext->channel_set[i].rx_count < pmlmeext->channel_set[index_24G].rx_count) {
++				index_24G = i;
++				best_channel_24G = pmlmeext->channel_set[i].ChannelNum;
++			}
++		}
++
++		/* 5G */
++		if (pmlmeext->channel_set[i].ChannelNum >= 36
++		    && pmlmeext->channel_set[i].ChannelNum < 140) {
++			/* Find primary channel */
++			if (((pmlmeext->channel_set[i].ChannelNum - 36) % 8 == 0)
++			    && (pmlmeext->channel_set[i].rx_count < pmlmeext->channel_set[index_5G].rx_count)) {
++				index_5G = i;
++				best_channel_5G = pmlmeext->channel_set[i].ChannelNum;
++			}
++		}
++
++		if (pmlmeext->channel_set[i].ChannelNum >= 149
++		    && pmlmeext->channel_set[i].ChannelNum < 165) {
++			/* Find primary channel */
++			if (((pmlmeext->channel_set[i].ChannelNum - 149) % 8 == 0)
++			    && (pmlmeext->channel_set[i].rx_count < pmlmeext->channel_set[index_5G].rx_count)) {
++				index_5G = i;
++				best_channel_5G = pmlmeext->channel_set[i].ChannelNum;
++			}
++		}
++#if 1 /* debug */
++		RTW_INFO("The rx cnt of channel %3d = %d\n",
++			 pmlmeext->channel_set[i].ChannelNum,
++			 pmlmeext->channel_set[i].rx_count);
++#endif
++	}
++
++	sprintf(extra, "\nbest_channel_24G = %d\n", best_channel_24G);
++	RTW_INFO("best_channel_24G = %d\n", best_channel_24G);
++
++	if (index_5G != 0) {
++		sprintf(extra, "best_channel_5G = %d\n", best_channel_5G);
++		RTW_INFO("best_channel_5G = %d\n", best_channel_5G);
++	}
++
++	wrqu->data.length = strlen(extra);
++
++#endif
++
++	return 0;
++
++}
++
++static int rtw_tdls(struct net_device *dev,
++		    struct iw_request_info *info,
++		    union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_INFO("[%s] extra = %s\n", __FUNCTION__, extra);
++
++	if (hal_chk_wl_func(padapter, WL_FUNC_TDLS) == _FALSE) {
++		RTW_INFO("Discard tdls oper since hal doesn't support tdls\n");
++		return 0;
++	}
++
++	if (padapter->tdlsinfo.tdls_enable == 0) {
++		RTW_INFO("tdls haven't enabled\n");
++		return 0;
++	}
++
++	/* WFD Sigma will use the tdls enable command to let the driver know we want to test the tdls now! */
++
++	if (hal_chk_wl_func(padapter, WL_FUNC_MIRACAST)) {
++		if (_rtw_memcmp(extra, "wfdenable=", 10)) {
++			wrqu->data.length -= 10;
++			rtw_wx_tdls_wfd_enable(dev, info, wrqu, &extra[10]);
++			return ret;
++		}
++	}
++
++	if (_rtw_memcmp(extra, "weaksec=", 8)) {
++		wrqu->data.length -= 8;
++		rtw_tdls_weaksec(dev, info, wrqu, &extra[8]);
++		return ret;
++	} else if (_rtw_memcmp(extra, "tdlsenable=", 11)) {
++		wrqu->data.length -= 11;
++		rtw_tdls_enable(dev, info, wrqu, &extra[11]);
++		return ret;
++	}
++
++	if (_rtw_memcmp(extra, "setup=", 6)) {
++		wrqu->data.length -= 6;
++		rtw_tdls_setup(dev, info, wrqu, &extra[6]);
++	} else if (_rtw_memcmp(extra, "tear=", 5)) {
++		wrqu->data.length -= 5;
++		rtw_tdls_teardown(dev, info, wrqu, &extra[5]);
++	} else if (_rtw_memcmp(extra, "dis=", 4)) {
++		wrqu->data.length -= 4;
++		rtw_tdls_discovery(dev, info, wrqu, &extra[4]);
++	} else if (_rtw_memcmp(extra, "swoff=", 6)) {
++		wrqu->data.length -= 6;
++		rtw_tdls_ch_switch_off(dev, info, wrqu, &extra[6]);
++	} else if (_rtw_memcmp(extra, "sw=", 3)) {
++		wrqu->data.length -= 3;
++		rtw_tdls_ch_switch(dev, info, wrqu, &extra[3]);
++	} else if (_rtw_memcmp(extra, "dumpstack=", 10)) {
++		wrqu->data.length -= 10;
++		rtw_tdls_dump_ch(dev, info, wrqu, &extra[10]);
++	} else if (_rtw_memcmp(extra, "offchnum=", 9)) {
++		wrqu->data.length -= 9;
++		rtw_tdls_off_ch_num(dev, info, wrqu, &extra[9]);
++	} else if (_rtw_memcmp(extra, "choffset=", 9)) {
++		wrqu->data.length -= 9;
++		rtw_tdls_ch_offset(dev, info, wrqu, &extra[9]);
++	} else if (_rtw_memcmp(extra, "pson=", 5)) {
++		wrqu->data.length -= 5;
++		rtw_tdls_pson(dev, info, wrqu, &extra[5]);
++	} else if (_rtw_memcmp(extra, "psoff=", 6)) {
++		wrqu->data.length -= 6;
++		rtw_tdls_psoff(dev, info, wrqu, &extra[6]);
++	}
++
++#ifdef CONFIG_WFD
++	if (hal_chk_wl_func(padapter, WL_FUNC_MIRACAST)) {
++		if (_rtw_memcmp(extra, "setip=", 6)) {
++			wrqu->data.length -= 6;
++			rtw_tdls_setip(dev, info, wrqu, &extra[6]);
++		} else if (_rtw_memcmp(extra, "tprobe=", 6))
++			issue_tunneled_probe_req((_adapter *)rtw_netdev_priv(dev));
++	}
++#endif /* CONFIG_WFD */
++
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++
++static int rtw_tdls_get(struct net_device *dev,
++			struct iw_request_info *info,
++			union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++
++#ifdef CONFIG_TDLS
++
++	RTW_INFO("[%s] extra = %s\n", __FUNCTION__, (char *) wrqu->data.pointer);
++
++	if (_rtw_memcmp(wrqu->data.pointer, "ip", 2))
++		rtw_tdls_getip(dev, info, wrqu, extra);
++	else if (_rtw_memcmp(wrqu->data.pointer, "port", 4))
++		rtw_tdls_getport(dev, info, wrqu, extra);
++	/* WFDTDLS, for sigma test */
++	else if (_rtw_memcmp(wrqu->data.pointer, "dis", 3))
++		rtw_tdls_dis_result(dev, info, wrqu, extra);
++	else if (_rtw_memcmp(wrqu->data.pointer, "status", 6))
++		rtw_wfd_tdls_status(dev, info, wrqu, extra);
++	else if (_rtw_memcmp(wrqu->data.pointer, "tdls_sta=", 9))
++		rtw_tdls_getsta(dev, info, wrqu, extra);
++	else if (_rtw_memcmp(wrqu->data.pointer, "best_ch", 7))
++		rtw_tdls_get_best_ch(dev, info, wrqu, extra);
++#endif /* CONFIG_TDLS */
++
++	return ret;
++}
++
++
++
++
++
++#ifdef CONFIG_INTEL_WIDI
++static int rtw_widi_set(struct net_device *dev,
++			struct iw_request_info *info,
++			union iwreq_data *wrqu, char *extra)
++{
++	int ret = 0;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	process_intel_widi_cmd(padapter, extra);
++
++	return ret;
++}
++
++static int rtw_widi_set_probe_request(struct net_device *dev,
++				      struct iw_request_info *info,
++				      union iwreq_data *wrqu, char *extra)
++{
++	int	ret = 0;
++	u8	*pbuf = NULL;
++	_adapter	*padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	pbuf = rtw_malloc(sizeof(l2_msg_t));
++	if (pbuf) {
++		if (copy_from_user(pbuf, wrqu->data.pointer, wrqu->data.length))
++			ret = -EFAULT;
++		/* _rtw_memcpy(pbuf, wrqu->data.pointer, wrqu->data.length); */
++
++		if (wrqu->data.flags == 0)
++			intel_widi_wk_cmd(padapter, INTEL_WIDI_ISSUE_PROB_WK, pbuf, sizeof(l2_msg_t));
++		else if (wrqu->data.flags == 1)
++			rtw_set_wfd_rds_sink_info(padapter, (l2_msg_t *)pbuf);
++	}
++	return ret;
++}
++#endif /* CONFIG_INTEL_WIDI */
++
++#ifdef CONFIG_MAC_LOOPBACK_DRIVER
++
++#if defined(CONFIG_RTL8188E)
++#include <rtl8188e_hal.h>
++extern void rtl8188e_cal_txdesc_chksum(struct tx_desc *ptxdesc);
++#define cal_txdesc_chksum rtl8188e_cal_txdesc_chksum
++#ifdef CONFIG_SDIO_HCI || defined(CONFIG_GSPI_HCI)
++extern void rtl8188es_fill_default_txdesc(struct xmit_frame *pxmitframe, u8 *pbuf);
++#define fill_default_txdesc rtl8188es_fill_default_txdesc
++#endif /* CONFIG_SDIO_HCI */
++#endif /* CONFIG_RTL8188E */
++#if defined(CONFIG_RTL8723B)
++extern void rtl8723b_cal_txdesc_chksum(struct tx_desc *ptxdesc);
++#define cal_txdesc_chksum rtl8723b_cal_txdesc_chksum
++extern void rtl8723b_fill_default_txdesc(struct xmit_frame *pxmitframe, u8 *pbuf);
++#define fill_default_txdesc rtl8723b_fill_default_txdesc
++#endif /* CONFIG_RTL8723B */
++
++#if defined(CONFIG_RTL8703B)
++/* extern void rtl8703b_cal_txdesc_chksum(struct tx_desc *ptxdesc); */
++#define cal_txdesc_chksum rtl8703b_cal_txdesc_chksum
++/* extern void rtl8703b_fill_default_txdesc(struct xmit_frame *pxmitframe, u8 *pbuf); */
++#define fill_default_txdesc rtl8703b_fill_default_txdesc
++#endif /* CONFIG_RTL8703B */
++
++#if defined(CONFIG_RTL8723D)
++/* extern void rtl8723d_cal_txdesc_chksum(struct tx_desc *ptxdesc); */
++#define cal_txdesc_chksum rtl8723d_cal_txdesc_chksum
++/* extern void rtl8723d_fill_default_txdesc(struct xmit_frame *pxmitframe, u8 *pbuf); */
++#define fill_default_txdesc rtl8723d_fill_default_txdesc
++#endif /* CONFIG_RTL8723D */
++
++#if defined(CONFIG_RTL8192E)
++extern void rtl8192e_cal_txdesc_chksum(struct tx_desc *ptxdesc);
++#define cal_txdesc_chksum rtl8192e_cal_txdesc_chksum
++#ifdef CONFIG_SDIO_HCI || defined(CONFIG_GSPI_HCI)
++extern void rtl8192es_fill_default_txdesc(struct xmit_frame *pxmitframe, u8 *pbuf);
++#define fill_default_txdesc rtl8192es_fill_default_txdesc
++#endif /* CONFIG_SDIO_HCI */
++#endif /* CONFIG_RTL8192E */
++
++static s32 initLoopback(PADAPTER padapter)
++{
++	PLOOPBACKDATA ploopback;
++
++
++	if (padapter->ploopback == NULL) {
++		ploopback = (PLOOPBACKDATA)rtw_zmalloc(sizeof(LOOPBACKDATA));
++		if (ploopback == NULL)
++			return -ENOMEM;
++
++		_rtw_init_sema(&ploopback->sema, 0);
++		ploopback->bstop = _TRUE;
++		ploopback->cnt = 0;
++		ploopback->size = 300;
++		_rtw_memset(ploopback->msg, 0, sizeof(ploopback->msg));
++
++		padapter->ploopback = ploopback;
++	}
++
++	return 0;
++}
++
++static void freeLoopback(PADAPTER padapter)
++{
++	PLOOPBACKDATA ploopback;
++
++
++	ploopback = padapter->ploopback;
++	if (ploopback) {
++		rtw_mfree((u8 *)ploopback, sizeof(LOOPBACKDATA));
++		padapter->ploopback = NULL;
++	}
++}
++
++static s32 initpseudoadhoc(PADAPTER padapter)
++{
++	NDIS_802_11_NETWORK_INFRASTRUCTURE networkType;
++	s32 err;
++
++	networkType = Ndis802_11IBSS;
++	err = rtw_set_802_11_infrastructure_mode(padapter, networkType);
++	if (err == _FALSE)
++		return _FAIL;
++
++	err = rtw_setopmode_cmd(padapter, networkType, _TRUE);
++	if (err == _FAIL)
++		return _FAIL;
++
++	return _SUCCESS;
++}
++
++static s32 createpseudoadhoc(PADAPTER padapter)
++{
++	NDIS_802_11_AUTHENTICATION_MODE authmode;
++	struct mlme_priv *pmlmepriv;
++	NDIS_802_11_SSID *passoc_ssid;
++	WLAN_BSSID_EX *pdev_network;
++	u8 *pibss;
++	u8 ssid[] = "pseduo_ad-hoc";
++	s32 err;
++	_irqL irqL;
++
++
++	pmlmepriv = &padapter->mlmepriv;
++
++	authmode = Ndis802_11AuthModeOpen;
++	err = rtw_set_802_11_authentication_mode(padapter, authmode);
++	if (err == _FALSE)
++		return _FAIL;
++
++	passoc_ssid = &pmlmepriv->assoc_ssid;
++	_rtw_memset(passoc_ssid, 0, sizeof(NDIS_802_11_SSID));
++	passoc_ssid->SsidLength = sizeof(ssid) - 1;
++	_rtw_memcpy(passoc_ssid->Ssid, ssid, passoc_ssid->SsidLength);
++
++	pdev_network = &padapter->registrypriv.dev_network;
++	pibss = padapter->registrypriv.dev_network.MacAddress;
++	_rtw_memcpy(&pdev_network->Ssid, passoc_ssid, sizeof(NDIS_802_11_SSID));
++
++	rtw_update_registrypriv_dev_network(padapter);
++	rtw_generate_random_ibss(pibss);
++
++	_enter_critical_bh(&pmlmepriv->lock, &irqL);
++	/*pmlmepriv->fw_state = WIFI_ADHOC_MASTER_STATE;*/
++	init_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE);
++
++	_exit_critical_bh(&pmlmepriv->lock, &irqL);
++
++#if 0
++	err = rtw_create_ibss_cmd(padapter, 0);
++	if (err == _FAIL)
++		return _FAIL;
++#else
++	{
++		struct wlan_network *pcur_network;
++		struct sta_info *psta;
++
++		/* 3  create a new psta */
++		pcur_network = &pmlmepriv->cur_network;
++
++		/* clear psta in the cur_network, if any */
++		psta = rtw_get_stainfo(&padapter->stapriv, pcur_network->network.MacAddress);
++		if (psta)
++			rtw_free_stainfo(padapter, psta);
++
++		psta = rtw_alloc_stainfo(&padapter->stapriv, pibss);
++		if (psta == NULL)
++			return _FAIL;
++
++		/* 3  join psudo AdHoc */
++		pcur_network->join_res = 1;
++		pcur_network->aid = psta->aid = 1;
++		_rtw_memcpy(&pcur_network->network, pdev_network, get_WLAN_BSSID_EX_sz(pdev_network));
++
++		/* set msr to WIFI_FW_ADHOC_STATE */
++		padapter->hw_port = HW_PORT0;
++		Set_MSR(padapter, WIFI_FW_ADHOC_STATE);
++
++	}
++#endif
++
++	return _SUCCESS;
++}
++
++static struct xmit_frame *createloopbackpkt(PADAPTER padapter, u32 size)
++{
++	struct xmit_priv *pxmitpriv;
++	struct xmit_frame *pframe;
++	struct xmit_buf *pxmitbuf;
++	struct pkt_attrib *pattrib;
++	struct tx_desc *desc;
++	u8 *pkt_start, *pkt_end, *ptr;
++	struct rtw_ieee80211_hdr *hdr;
++	s32 bmcast;
++	_irqL irqL;
++
++
++	if ((TXDESC_SIZE + WLANHDR_OFFSET + size) > MAX_XMITBUF_SZ)
++		return NULL;
++
++	pxmitpriv = &padapter->xmitpriv;
++	pframe = NULL;
++
++	/* 2 1. allocate xmit frame */
++	pframe = rtw_alloc_xmitframe(pxmitpriv);
++	if (pframe == NULL)
++		return NULL;
++	pframe->padapter = padapter;
++
++	/* 2 2. allocate xmit buffer */
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++	pxmitbuf = rtw_alloc_xmitbuf(pxmitpriv);
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++	if (pxmitbuf == NULL) {
++		rtw_free_xmitframe(pxmitpriv, pframe);
++		return NULL;
++	}
++
++	pframe->pxmitbuf = pxmitbuf;
++	pframe->buf_addr = pxmitbuf->pbuf;
++	pxmitbuf->priv_data = pframe;
++
++	/* 2 3. update_attrib() */
++	pattrib = &pframe->attrib;
++
++	/* init xmitframe attribute */
++	_rtw_memset(pattrib, 0, sizeof(struct pkt_attrib));
++
++	pattrib->ether_type = 0x8723;
++	_rtw_memcpy(pattrib->src, adapter_mac_addr(padapter), ETH_ALEN);
++	_rtw_memcpy(pattrib->ta, pattrib->src, ETH_ALEN);
++	_rtw_memset(pattrib->dst, 0xFF, ETH_ALEN);
++	_rtw_memcpy(pattrib->ra, pattrib->dst, ETH_ALEN);
++
++	/*	pattrib->dhcp_pkt = 0;
++	 *	pattrib->pktlen = 0; */
++	pattrib->ack_policy = 0;
++	/*	pattrib->pkt_hdrlen = ETH_HLEN; */
++	pattrib->hdrlen = WLAN_HDR_A3_LEN;
++	pattrib->subtype = WIFI_DATA;
++	pattrib->priority = 0;
++	pattrib->qsel = pattrib->priority;
++	/*	do_queue_select(padapter, pattrib); */
++	pattrib->nr_frags = 1;
++	pattrib->encrypt = 0;
++	pattrib->bswenc = _FALSE;
++	pattrib->qos_en = _FALSE;
++
++	bmcast = IS_MCAST(pattrib->ra);
++	if (bmcast) {
++		pattrib->mac_id = 1;
++		pattrib->psta = rtw_get_bcmc_stainfo(padapter);
++	} else {
++		pattrib->mac_id = 0;
++		pattrib->psta = rtw_get_stainfo(&padapter->stapriv, get_bssid(&padapter->mlmepriv));
++	}
++
++	pattrib->pktlen = size;
++	pattrib->last_txcmdsz = pattrib->hdrlen + pattrib->pktlen;
++
++	/* 2 4. fill TX descriptor */
++	desc = (struct tx_desc *)pframe->buf_addr;
++	_rtw_memset(desc, 0, TXDESC_SIZE);
++
++	fill_default_txdesc(pframe, (u8 *)desc);
++
++	/* Hw set sequence number */
++	((PTXDESC)desc)->hwseq_en = 0; /* HWSEQ_EN, 0:disable, 1:enable
++ * ((PTXDESC)desc)->hwseq_sel = 0;  */ /* HWSEQ_SEL */
++
++	((PTXDESC)desc)->disdatafb = 1;
++
++	/* convert to little endian */
++	desc->txdw0 = cpu_to_le32(desc->txdw0);
++	desc->txdw1 = cpu_to_le32(desc->txdw1);
++	desc->txdw2 = cpu_to_le32(desc->txdw2);
++	desc->txdw3 = cpu_to_le32(desc->txdw3);
++	desc->txdw4 = cpu_to_le32(desc->txdw4);
++	desc->txdw5 = cpu_to_le32(desc->txdw5);
++	desc->txdw6 = cpu_to_le32(desc->txdw6);
++	desc->txdw7 = cpu_to_le32(desc->txdw7);
++#ifdef CONFIG_PCI_HCI
++	desc->txdw8 = cpu_to_le32(desc->txdw8);
++	desc->txdw9 = cpu_to_le32(desc->txdw9);
++	desc->txdw10 = cpu_to_le32(desc->txdw10);
++	desc->txdw11 = cpu_to_le32(desc->txdw11);
++	desc->txdw12 = cpu_to_le32(desc->txdw12);
++	desc->txdw13 = cpu_to_le32(desc->txdw13);
++	desc->txdw14 = cpu_to_le32(desc->txdw14);
++	desc->txdw15 = cpu_to_le32(desc->txdw15);
++#endif
++
++	cal_txdesc_chksum(desc);
++
++	/* 2 5. coalesce */
++	pkt_start = pframe->buf_addr + TXDESC_SIZE;
++	pkt_end = pkt_start + pattrib->last_txcmdsz;
++
++	/* 3 5.1. make wlan header, make_wlanhdr() */
++	hdr = (struct rtw_ieee80211_hdr *)pkt_start;
++	SetFrameSubType(&hdr->frame_ctl, pattrib->subtype);
++	_rtw_memcpy(hdr->addr1, pattrib->dst, ETH_ALEN); /* DA */
++	_rtw_memcpy(hdr->addr2, pattrib->src, ETH_ALEN); /* SA */
++	_rtw_memcpy(hdr->addr3, get_bssid(&padapter->mlmepriv), ETH_ALEN); /* RA, BSSID */
++
++	/* 3 5.2. make payload */
++	ptr = pkt_start + pattrib->hdrlen;
++	get_random_bytes(ptr, pkt_end - ptr);
++
++	pxmitbuf->len = TXDESC_SIZE + pattrib->last_txcmdsz;
++	pxmitbuf->ptail += pxmitbuf->len;
++
++	return pframe;
++}
++
++static void freeloopbackpkt(PADAPTER padapter, struct xmit_frame *pframe)
++{
++	struct xmit_priv *pxmitpriv;
++	struct xmit_buf *pxmitbuf;
++
++
++	pxmitpriv = &padapter->xmitpriv;
++	pxmitbuf = pframe->pxmitbuf;
++
++	rtw_free_xmitframe(pxmitpriv, pframe);
++	rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++}
++
++static void printdata(u8 *pbuf, u32 len)
++{
++	u32 i, val;
++
++
++	for (i = 0; (i + 4) <= len; i += 4) {
++		printk("%08X", *(u32 *)(pbuf + i));
++		if ((i + 4) & 0x1F)
++			printk(" ");
++		else
++			printk("\n");
++	}
++
++	if (i < len) {
++#ifdef CONFIG_BIG_ENDIAN
++		for (; i < len, i++)
++			printk("%02X", pbuf + i);
++#else /* CONFIG_LITTLE_ENDIAN */
++#if 0
++		val = 0;
++		_rtw_memcpy(&val, pbuf + i, len - i);
++		printk("%8X", val);
++#else
++		u8 str[9];
++		u8 n;
++		val = 0;
++		n = len - i;
++		_rtw_memcpy(&val, pbuf + i, n);
++		sprintf(str, "%08X", val);
++		n = (4 - n) * 2;
++		printk("%8s", str + n);
++#endif
++#endif /* CONFIG_LITTLE_ENDIAN */
++	}
++	printk("\n");
++}
++
++static u8 pktcmp(PADAPTER padapter, u8 *txbuf, u32 txsz, u8 *rxbuf, u32 rxsz)
++{
++	PHAL_DATA_TYPE phal;
++	struct recv_stat *prxstat;
++	struct recv_stat report;
++	PRXREPORT prxreport;
++	u32 drvinfosize;
++	u32 rxpktsize;
++	u8 fcssize;
++	u8 ret = _FALSE;
++
++	prxstat = (struct recv_stat *)rxbuf;
++	report.rxdw0 = le32_to_cpu(prxstat->rxdw0);
++	report.rxdw1 = le32_to_cpu(prxstat->rxdw1);
++	report.rxdw2 = le32_to_cpu(prxstat->rxdw2);
++	report.rxdw3 = le32_to_cpu(prxstat->rxdw3);
++	report.rxdw4 = le32_to_cpu(prxstat->rxdw4);
++	report.rxdw5 = le32_to_cpu(prxstat->rxdw5);
++
++	prxreport = (PRXREPORT)&report;
++	drvinfosize = prxreport->drvinfosize << 3;
++	rxpktsize = prxreport->pktlen;
++
++	phal = GET_HAL_DATA(padapter);
++	if (phal->ReceiveConfig & RCR_APPFCS)
++		fcssize = IEEE80211_FCS_LEN;
++	else
++		fcssize = 0;
++
++	if ((txsz - TXDESC_SIZE) != (rxpktsize - fcssize)) {
++		RTW_INFO("%s: ERROR! size not match tx/rx=%d/%d !\n",
++			 __func__, txsz - TXDESC_SIZE, rxpktsize - fcssize);
++		ret = _FALSE;
++	} else {
++		ret = _rtw_memcmp(txbuf + TXDESC_SIZE, \
++				  rxbuf + RXDESC_SIZE + drvinfosize, \
++				  txsz - TXDESC_SIZE);
++		if (ret == _FALSE)
++			RTW_INFO("%s: ERROR! pkt content mismatch!\n", __func__);
++	}
++
++	if (ret == _FALSE) {
++		RTW_INFO("\n%s: TX PKT total=%d, desc=%d, content=%d\n",
++			 __func__, txsz, TXDESC_SIZE, txsz - TXDESC_SIZE);
++		RTW_INFO("%s: TX DESC size=%d\n", __func__, TXDESC_SIZE);
++		printdata(txbuf, TXDESC_SIZE);
++		RTW_INFO("%s: TX content size=%d\n", __func__, txsz - TXDESC_SIZE);
++		printdata(txbuf + TXDESC_SIZE, txsz - TXDESC_SIZE);
++
++		RTW_INFO("\n%s: RX PKT read=%d offset=%d(%d,%d) content=%d\n",
++			__func__, rxsz, RXDESC_SIZE + drvinfosize, RXDESC_SIZE, drvinfosize, rxpktsize);
++		if (rxpktsize != 0) {
++			RTW_INFO("%s: RX DESC size=%d\n", __func__, RXDESC_SIZE);
++			printdata(rxbuf, RXDESC_SIZE);
++			RTW_INFO("%s: RX drvinfo size=%d\n", __func__, drvinfosize);
++			printdata(rxbuf + RXDESC_SIZE, drvinfosize);
++			RTW_INFO("%s: RX content size=%d\n", __func__, rxpktsize);
++			printdata(rxbuf + RXDESC_SIZE + drvinfosize, rxpktsize);
++		} else {
++			RTW_INFO("%s: RX data size=%d\n", __func__, rxsz);
++			printdata(rxbuf, rxsz);
++		}
++	}
++
++	return ret;
++}
++
++thread_return lbk_thread(thread_context context)
++{
++	s32 err;
++	PADAPTER padapter;
++	PLOOPBACKDATA ploopback;
++	struct xmit_frame *pxmitframe;
++	u32 cnt, ok, fail, headerlen;
++	u32 pktsize;
++	u32 ff_hwaddr;
++
++
++	padapter = (PADAPTER)context;
++	ploopback = padapter->ploopback;
++	if (ploopback == NULL)
++		return -1;
++	cnt = 0;
++	ok = 0;
++	fail = 0;
++
++	daemonize("%s", "RTW_LBK_THREAD");
++	allow_signal(SIGTERM);
++
++	do {
++		if (ploopback->size == 0) {
++			get_random_bytes(&pktsize, 4);
++			pktsize = (pktsize % 1535) + 1; /* 1~1535 */
++		} else
++			pktsize = ploopback->size;
++
++		pxmitframe = createloopbackpkt(padapter, pktsize);
++		if (pxmitframe == NULL) {
++			sprintf(ploopback->msg, "loopback FAIL! 3. create Packet FAIL!");
++			break;
++		}
++
++		ploopback->txsize = TXDESC_SIZE + pxmitframe->attrib.last_txcmdsz;
++		_rtw_memcpy(ploopback->txbuf, pxmitframe->buf_addr, ploopback->txsize);
++		ff_hwaddr = rtw_get_ff_hwaddr(pxmitframe);
++		cnt++;
++		RTW_INFO("%s: wirte port cnt=%d size=%d\n", __func__, cnt, ploopback->txsize);
++		pxmitframe->pxmitbuf->pdata = ploopback->txbuf;
++		rtw_write_port(padapter, ff_hwaddr, ploopback->txsize, (u8 *)pxmitframe->pxmitbuf);
++
++		/* wait for rx pkt */
++		_rtw_down_sema(&ploopback->sema);
++
++		err = pktcmp(padapter, ploopback->txbuf, ploopback->txsize, ploopback->rxbuf, ploopback->rxsize);
++		if (err == _TRUE)
++			ok++;
++		else
++			fail++;
++
++		ploopback->txsize = 0;
++		_rtw_memset(ploopback->txbuf, 0, 0x8000);
++		ploopback->rxsize = 0;
++		_rtw_memset(ploopback->rxbuf, 0, 0x8000);
++
++		freeloopbackpkt(padapter, pxmitframe);
++		pxmitframe = NULL;
++
++		if (signal_pending(current))
++			flush_signals(current);
++
++		if ((ploopback->bstop == _TRUE) ||
++		    ((ploopback->cnt != 0) && (ploopback->cnt == cnt))) {
++			u32 ok_rate, fail_rate, all;
++			all = cnt;
++			ok_rate = (ok * 100) / all;
++			fail_rate = (fail * 100) / all;
++			sprintf(ploopback->msg, \
++				"loopback result: ok=%d%%(%d/%d),error=%d%%(%d/%d)", \
++				ok_rate, ok, all, fail_rate, fail, all);
++			break;
++		}
++	} while (1);
++
++	ploopback->bstop = _TRUE;
++
++	thread_exit();
++}
++
++static void loopbackTest(PADAPTER padapter, u32 cnt, u32 size, u8 *pmsg)
++{
++	PLOOPBACKDATA ploopback;
++	u32 len;
++	s32 err;
++
++
++	ploopback = padapter->ploopback;
++
++	if (ploopback) {
++		if (ploopback->bstop == _FALSE) {
++			ploopback->bstop = _TRUE;
++			_rtw_up_sema(&ploopback->sema);
++		}
++		len = 0;
++		do {
++			len = strlen(ploopback->msg);
++			if (len)
++				break;
++			rtw_msleep_os(1);
++		} while (1);
++		_rtw_memcpy(pmsg, ploopback->msg, len + 1);
++		freeLoopback(padapter);
++
++		return;
++	}
++
++	/* disable dynamic algorithm	 */
++	rtw_phydm_ability_backup(padapter);
++	rtw_phydm_func_disable_all(padapter);
++
++	/* create pseudo ad-hoc connection */
++	err = initpseudoadhoc(padapter);
++	if (err == _FAIL) {
++		sprintf(pmsg, "loopback FAIL! 1.1 init ad-hoc FAIL!");
++		return;
++	}
++
++	err = createpseudoadhoc(padapter);
++	if (err == _FAIL) {
++		sprintf(pmsg, "loopback FAIL! 1.2 create ad-hoc master FAIL!");
++		return;
++	}
++
++	err = initLoopback(padapter);
++	if (err) {
++		sprintf(pmsg, "loopback FAIL! 2. init FAIL! error code=%d", err);
++		return;
++	}
++
++	ploopback = padapter->ploopback;
++
++	ploopback->bstop = _FALSE;
++	ploopback->cnt = cnt;
++	ploopback->size = size;
++	ploopback->lbkthread = kthread_run(lbk_thread, padapter, "RTW_LBK_THREAD");
++	if (IS_ERR(padapter->lbkthread)) {
++		freeLoopback(padapter);
++		sprintf(pmsg, "loopback start FAIL! cnt=%d", cnt);
++		return;
++	}
++
++	sprintf(pmsg, "loopback start! cnt=%d", cnt);
++}
++#endif /* CONFIG_MAC_LOOPBACK_DRIVER */
++
++static int rtw_test(
++	struct net_device *dev,
++	struct iw_request_info *info,
++	union iwreq_data *wrqu, char *extra)
++{
++	u32 len;
++	u8 *pbuf, *pch;
++	char *ptmp;
++	u8 *delim = ",";
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++
++	RTW_INFO("+%s\n", __func__);
++	len = wrqu->data.length;
++
++	pbuf = (u8 *)rtw_zmalloc(len);
++	if (pbuf == NULL) {
++		RTW_INFO("%s: no memory!\n", __func__);
++		return -ENOMEM;
++	}
++
++	if (copy_from_user(pbuf, wrqu->data.pointer, len)) {
++		rtw_mfree(pbuf, len);
++		RTW_INFO("%s: copy from user fail!\n", __func__);
++		return -EFAULT;
++	}
++	RTW_INFO("%s: string=\"%s\"\n", __func__, pbuf);
++
++	ptmp = (char *)pbuf;
++	pch = strsep(&ptmp, delim);
++	if ((pch == NULL) || (strlen(pch) == 0)) {
++		rtw_mfree(pbuf, len);
++		RTW_INFO("%s: parameter error(level 1)!\n", __func__);
++		return -EFAULT;
++	}
++
++#ifdef CONFIG_MAC_LOOPBACK_DRIVER
++	if (strcmp(pch, "loopback") == 0) {
++		s32 cnt = 0;
++		u32 size = 64;
++
++		pch = strsep(&ptmp, delim);
++		if ((pch == NULL) || (strlen(pch) == 0)) {
++			rtw_mfree(pbuf, len);
++			RTW_INFO("%s: parameter error(level 2)!\n", __func__);
++			return -EFAULT;
++		}
++
++		sscanf(pch, "%d", &cnt);
++		RTW_INFO("%s: loopback cnt=%d\n", __func__, cnt);
++
++		pch = strsep(&ptmp, delim);
++		if ((pch == NULL) || (strlen(pch) == 0)) {
++			rtw_mfree(pbuf, len);
++			RTW_INFO("%s: parameter error(level 2)!\n", __func__);
++			return -EFAULT;
++		}
++
++		sscanf(pch, "%d", &size);
++		RTW_INFO("%s: loopback size=%d\n", __func__, size);
++
++		loopbackTest(padapter, cnt, size, extra);
++		wrqu->data.length = strlen(extra) + 1;
++
++		goto free_buf;
++	}
++#endif
++
++
++#ifdef CONFIG_BT_COEXIST
++	if (strcmp(pch, "bton") == 0) {
++		rtw_btcoex_SetManualControl(padapter, _FALSE);
++		goto free_buf;
++	} else if (strcmp(pch, "btoff") == 0) {
++		rtw_btcoex_SetManualControl(padapter, _TRUE);
++		goto free_buf;
++	}
++#endif
++
++	if (strcmp(pch, "h2c") == 0) {
++		u8 param[8];
++		u8 count = 0;
++		u32 tmp;
++		u8 i;
++		u32 pos;
++		u8 ret;
++
++		do {
++			pch = strsep(&ptmp, delim);
++			if ((pch == NULL) || (strlen(pch) == 0))
++				break;
++
++			sscanf(pch, "%x", &tmp);
++			param[count++] = (u8)tmp;
++		} while (count < 8);
++
++		if (count == 0) {
++			rtw_mfree(pbuf, len);
++			RTW_INFO("%s: parameter error(level 2)!\n", __func__);
++			return -EFAULT;
++		}
++
++		ret = rtw_test_h2c_cmd(padapter, param, count);
++
++		pos = sprintf(extra, "H2C ID=0x%02x content=", param[0]);
++		for (i = 1; i < count; i++)
++			pos += sprintf(extra + pos, "%02x,", param[i]);
++		extra[pos] = 0;
++		pos--;
++		pos += sprintf(extra + pos, " %s", ret == _FAIL ? "FAIL" : "OK");
++
++		wrqu->data.length = strlen(extra) + 1;
++
++		goto free_buf;
++	}
++
++free_buf:
++	rtw_mfree(pbuf, len);
++	return 0;
++}
++
++static iw_handler rtw_handlers[] = {
++	NULL,					/* SIOCSIWCOMMIT */
++	rtw_wx_get_name,		/* SIOCGIWNAME */
++	dummy,					/* SIOCSIWNWID */
++	dummy,					/* SIOCGIWNWID */
++	rtw_wx_set_freq,		/* SIOCSIWFREQ */
++	rtw_wx_get_freq,		/* SIOCGIWFREQ */
++	rtw_wx_set_mode,		/* SIOCSIWMODE */
++	rtw_wx_get_mode,		/* SIOCGIWMODE */
++	dummy,					/* SIOCSIWSENS */
++	rtw_wx_get_sens,		/* SIOCGIWSENS */
++	NULL,					/* SIOCSIWRANGE */
++	rtw_wx_get_range,		/* SIOCGIWRANGE */
++	rtw_wx_set_priv,		/* SIOCSIWPRIV */
++	NULL,					/* SIOCGIWPRIV */
++	NULL,					/* SIOCSIWSTATS */
++	NULL,					/* SIOCGIWSTATS */
++	dummy,					/* SIOCSIWSPY */
++	dummy,					/* SIOCGIWSPY */
++	NULL,					/* SIOCGIWTHRSPY */
++	NULL,					/* SIOCWIWTHRSPY */
++	rtw_wx_set_wap,		/* SIOCSIWAP */
++	rtw_wx_get_wap,		/* SIOCGIWAP */
++	rtw_wx_set_mlme,		/* request MLME operation; uses struct iw_mlme */
++	dummy,					/* SIOCGIWAPLIST -- depricated */
++	rtw_wx_set_scan,		/* SIOCSIWSCAN */
++	rtw_wx_get_scan,		/* SIOCGIWSCAN */
++	rtw_wx_set_essid,		/* SIOCSIWESSID */
++	rtw_wx_get_essid,		/* SIOCGIWESSID */
++	dummy,					/* SIOCSIWNICKN */
++	rtw_wx_get_nick,		/* SIOCGIWNICKN */
++	NULL,					/* -- hole -- */
++	NULL,					/* -- hole -- */
++	rtw_wx_set_rate,		/* SIOCSIWRATE */
++	rtw_wx_get_rate,		/* SIOCGIWRATE */
++	rtw_wx_set_rts,			/* SIOCSIWRTS */
++	rtw_wx_get_rts,			/* SIOCGIWRTS */
++	rtw_wx_set_frag,		/* SIOCSIWFRAG */
++	rtw_wx_get_frag,		/* SIOCGIWFRAG */
++	dummy,					/* SIOCSIWTXPOW */
++	dummy,					/* SIOCGIWTXPOW */
++	dummy,					/* SIOCSIWRETRY */
++	rtw_wx_get_retry,		/* SIOCGIWRETRY */
++	rtw_wx_set_enc,			/* SIOCSIWENCODE */
++	rtw_wx_get_enc,			/* SIOCGIWENCODE */
++	dummy,					/* SIOCSIWPOWER */
++	rtw_wx_get_power,		/* SIOCGIWPOWER */
++	NULL,					/*---hole---*/
++	NULL,					/*---hole---*/
++	rtw_wx_set_gen_ie,		/* SIOCSIWGENIE */
++	NULL,					/* SIOCGWGENIE */
++	rtw_wx_set_auth,		/* SIOCSIWAUTH */
++	NULL,					/* SIOCGIWAUTH */
++	rtw_wx_set_enc_ext,		/* SIOCSIWENCODEEXT */
++	NULL,					/* SIOCGIWENCODEEXT */
++	rtw_wx_set_pmkid,		/* SIOCSIWPMKSA */
++	NULL,					/*---hole---*/
++};
++
++
++static const struct iw_priv_args rtw_private_args[] = {
++	{
++		SIOCIWFIRSTPRIV + 0x0,
++		IW_PRIV_TYPE_CHAR | 0x7FF, 0, "write"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x1,
++		IW_PRIV_TYPE_CHAR | 0x7FF,
++		IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_FIXED | IFNAMSIZ, "read"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x2, 0, 0, "driver_ext"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x3, 0, 0, "mp_ioctl"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x4,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, 0, "apinfo"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x5,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 2, 0, "setpid"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x6,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, 0, "wps_start"
++	},
++	/* for PLATFORM_MT53XX	 */
++	{
++		SIOCIWFIRSTPRIV + 0x7,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, 0, "get_sensitivity"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x8,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, 0, "wps_prob_req_ie"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x9,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, 0, "wps_assoc_req_ie"
++	},
++
++	/* for RTK_DMP_PLATFORM	 */
++	{
++		SIOCIWFIRSTPRIV + 0xA,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, 0, "channel_plan"
++	},
++
++	{
++		SIOCIWFIRSTPRIV + 0xB,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 2, 0, "dbg"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0xC,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 3, 0, "rfw"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0xD,
++		IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 2, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_FIXED | IFNAMSIZ, "rfr"
++	},
++#if 0
++	{
++		SIOCIWFIRSTPRIV + 0xE, 0, 0, "wowlan_ctrl"
++	},
++#endif
++	{
++		SIOCIWFIRSTPRIV + 0x10,
++		IW_PRIV_TYPE_CHAR | 1024, 0, "p2p_set"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x11,
++		IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK , "p2p_get"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x12, 0, 0, "NULL"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x13,
++		IW_PRIV_TYPE_CHAR | 64, IW_PRIV_TYPE_CHAR | 64 , "p2p_get2"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x14,
++		IW_PRIV_TYPE_CHAR  | 64, 0, "tdls"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x15,
++		IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | 1024 , "tdls_get"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x16,
++		IW_PRIV_TYPE_CHAR | 64, 0, "pm_set"
++	},
++
++	{SIOCIWFIRSTPRIV + 0x18, IW_PRIV_TYPE_CHAR | IFNAMSIZ , 0 , "rereg_nd_name"},
++#ifdef CONFIG_MP_INCLUDED
++	{SIOCIWFIRSTPRIV + 0x1A, IW_PRIV_TYPE_CHAR | 1024, 0,  "NULL"},
++	{SIOCIWFIRSTPRIV + 0x1B, IW_PRIV_TYPE_CHAR | 128, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "NULL"},
++#else
++	{SIOCIWFIRSTPRIV + 0x1A, IW_PRIV_TYPE_CHAR | 1024, 0, "efuse_set"},
++	{SIOCIWFIRSTPRIV + 0x1B, IW_PRIV_TYPE_CHAR | 128, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "efuse_get"},
++#endif
++	{
++		SIOCIWFIRSTPRIV + 0x1D,
++		IW_PRIV_TYPE_CHAR | 40, IW_PRIV_TYPE_CHAR | 0x7FF, "test"
++	},
++
++#ifdef CONFIG_INTEL_WIDI
++	{
++		SIOCIWFIRSTPRIV + 0x1E,
++		IW_PRIV_TYPE_CHAR | 1024, 0, "widi_set"
++	},
++	{
++		SIOCIWFIRSTPRIV + 0x1F,
++		IW_PRIV_TYPE_CHAR | 128, 0, "widi_prob_req"
++	},
++#endif /* CONFIG_INTEL_WIDI */
++
++	{ SIOCIWFIRSTPRIV + 0x0E, IW_PRIV_TYPE_CHAR | 1024, 0 , ""},  /* set  */
++	{ SIOCIWFIRSTPRIV + 0x0F, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK , ""},/* get
++ * --- sub-ioctls definitions --- */
++
++#ifdef CONFIG_APPEND_VENDOR_IE_ENABLE
++	{ VENDOR_IE_SET, IW_PRIV_TYPE_CHAR | 1024 , 0 , "vendor_ie_set" },
++	{ VENDOR_IE_GET, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "vendor_ie_get" },
++#endif
++#if defined(CONFIG_RTL8723B)
++	{ MP_SetBT, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_setbt" },
++	{ MP_DISABLE_BT_COEXIST, IW_PRIV_TYPE_CHAR | 1024, 0, "mp_disa_btcoex"},
++#endif
++#ifdef CONFIG_WOWLAN
++	{ MP_WOW_ENABLE , IW_PRIV_TYPE_CHAR | 1024, 0, "wow_mode" },
++	{ MP_WOW_SET_PATTERN , IW_PRIV_TYPE_CHAR | 1024, 0, "wow_set_pattern" },
++#endif
++#ifdef CONFIG_AP_WOWLAN
++	{ MP_AP_WOW_ENABLE , IW_PRIV_TYPE_CHAR | 1024, 0, "ap_wow_mode" }, /* set  */
++#endif
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++	{ MP_SD_IREAD, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "sd_iread" },
++	{ MP_SD_IWRITE, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "sd_iwrite" },
++#endif
++};
++
++
++static const struct iw_priv_args rtw_mp_private_args[] = {
++	/* --- sub-ioctls definitions --- */
++#ifdef CONFIG_MP_INCLUDED
++	{ MP_START , IW_PRIV_TYPE_CHAR | 1024, 0, "mp_start" },
++	{ MP_PHYPARA, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_phypara" },
++	{ MP_STOP , IW_PRIV_TYPE_CHAR | 1024, 0, "mp_stop" },
++	{ MP_CHANNEL , IW_PRIV_TYPE_CHAR | 1024 , IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_channel" },
++	{ MP_BANDWIDTH , IW_PRIV_TYPE_CHAR | 1024, 0, "mp_bandwidth"},
++	{ MP_RATE , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_rate" },
++	{ MP_RESET_STATS , IW_PRIV_TYPE_CHAR | 1024, 0, "mp_reset_stats"},
++	{ MP_QUERY , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK , "mp_query"},
++	{ READ_REG , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "read_reg" },
++	{ MP_RATE , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_rate" },
++	{ READ_RF , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "read_rf" },
++	{ MP_PSD , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_psd"},
++	{ MP_DUMP, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_dump" },
++	{ MP_TXPOWER , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_txpower"},
++	{ MP_ANT_TX , IW_PRIV_TYPE_CHAR | 1024,  IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_ant_tx"},
++	{ MP_ANT_RX , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_ant_rx"},
++	{ WRITE_REG , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "write_reg" },
++	{ WRITE_RF , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "write_rf" },
++	{ MP_CTX , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_ctx"},
++	{ MP_ARX , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_arx"},
++	{ MP_THER , IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_ther"},
++	{ EFUSE_SET, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "efuse_set" },
++	{ EFUSE_GET, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "efuse_get" },
++	{ MP_PWRTRK , IW_PRIV_TYPE_CHAR | 1024, 0, "mp_pwrtrk"},
++	{ MP_QueryDrvStats, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_drvquery" },
++	{ MP_IOCTL, IW_PRIV_TYPE_CHAR | 1024, 0, "mp_ioctl"},
++	{ MP_SetRFPathSwh, IW_PRIV_TYPE_CHAR | 1024, 0, "mp_setrfpath" },
++	{ MP_PwrCtlDM, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_pwrctldm" },
++	{ MP_GET_TXPOWER_INX, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_get_txpower" },
++	{ MP_GETVER, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_priv_ver" },
++	{ MP_MON, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_mon" },
++	{ EFUSE_MASK, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "efuse_mask" },
++	{ EFUSE_FILE, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "efuse_file" },
++	{ MP_TX, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_tx" },
++	{ MP_RX, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_rx" },
++	{ MP_HW_TX_MODE, IW_PRIV_TYPE_CHAR | 1024, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_MASK, "mp_hxtx" },
++	{ CTA_TEST, IW_PRIV_TYPE_CHAR | 1024, 0, "cta_test"},
++	{ MP_IQK, IW_PRIV_TYPE_CHAR | 1024, 0, "mp_iqk"},
++	{ MP_LCK, IW_PRIV_TYPE_CHAR | 1024, 0, "mp_lck"},
++
++#endif /* CONFIG_MP_INCLUDED */
++};
++
++static iw_handler rtw_private_handler[] = {
++	rtw_wx_write32,					/* 0x00 */
++	rtw_wx_read32,					/* 0x01 */
++	rtw_drvext_hdl,					/* 0x02 */
++#ifdef MP_IOCTL_HDL
++	rtw_mp_ioctl_hdl,				/* 0x03 */
++#else
++	rtw_wx_priv_null,
++#endif
++	/* for MM DTV platform */
++	rtw_get_ap_info,					/* 0x04 */
++
++	rtw_set_pid,						/* 0x05 */
++	rtw_wps_start,					/* 0x06 */
++
++	/* for PLATFORM_MT53XX */
++	rtw_wx_get_sensitivity,			/* 0x07 */
++	rtw_wx_set_mtk_wps_probe_ie,	/* 0x08 */
++	rtw_wx_set_mtk_wps_ie,			/* 0x09 */
++
++	/* for RTK_DMP_PLATFORM
++	 * Set Channel depend on the country code */
++	rtw_wx_set_channel_plan,		/* 0x0A */
++
++	rtw_dbg_port,					/* 0x0B */
++	rtw_wx_write_rf,					/* 0x0C */
++	rtw_wx_read_rf,					/* 0x0D */
++
++	rtw_priv_set,					/*0x0E*/
++	rtw_priv_get,					/*0x0F*/
++
++	rtw_p2p_set,					/* 0x10 */
++	rtw_p2p_get,					/* 0x11 */
++	NULL,							/* 0x12 */
++	rtw_p2p_get2,					/* 0x13 */
++
++	rtw_tdls,						/* 0x14 */
++	rtw_tdls_get,					/* 0x15 */
++
++	rtw_pm_set,						/* 0x16 */
++	rtw_wx_priv_null,				/* 0x17 */
++	rtw_rereg_nd_name,				/* 0x18 */
++	rtw_wx_priv_null,				/* 0x19 */
++#ifdef CONFIG_MP_INCLUDED
++	rtw_wx_priv_null,				/* 0x1A */
++	rtw_wx_priv_null,				/* 0x1B */
++#else
++	rtw_mp_efuse_set,				/* 0x1A */
++	rtw_mp_efuse_get,				/* 0x1B */
++#endif
++	NULL,							/* 0x1C is reserved for hostapd */
++	rtw_test,						/* 0x1D */
++#ifdef CONFIG_INTEL_WIDI
++	rtw_widi_set,					/* 0x1E */
++	rtw_widi_set_probe_request,		/* 0x1F */
++#endif /* CONFIG_INTEL_WIDI */
++};
++
++#if WIRELESS_EXT >= 17
++static struct iw_statistics *rtw_get_wireless_stats(struct net_device *dev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct iw_statistics *piwstats = &padapter->iwstats;
++	int tmp_level = 0;
++	int tmp_qual = 0;
++	int tmp_noise = 0;
++
++	if (check_fwstate(&padapter->mlmepriv, _FW_LINKED) != _TRUE) {
++		piwstats->qual.qual = 0;
++		piwstats->qual.level = 0;
++		piwstats->qual.noise = 0;
++		/* RTW_INFO("No link  level:%d, qual:%d, noise:%d\n", tmp_level, tmp_qual, tmp_noise); */
++	} else {
++#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++		tmp_level = translate_percentage_to_dbm(padapter->recvpriv.signal_strength);
++#else
++#ifdef CONFIG_SIGNAL_SCALE_MAPPING
++		tmp_level = padapter->recvpriv.signal_strength;
++#else
++		{
++			/* Do signal scale mapping when using percentage as the unit of signal strength, since the scale mapping is skipped in odm */
++
++			HAL_DATA_TYPE *pHal = GET_HAL_DATA(padapter);
++
++			tmp_level = (u8)odm_SignalScaleMapping(&pHal->odmpriv, padapter->recvpriv.signal_strength);
++		}
++#endif
++#endif
++
++		tmp_qual = padapter->recvpriv.signal_qual;
++		rtw_get_noise(padapter);
++		tmp_noise = padapter->recvpriv.noise;
++		/* RTW_INFO("level:%d, qual:%d, noise:%d, rssi (%d)\n", tmp_level, tmp_qual, tmp_noise,padapter->recvpriv.rssi); */
++
++		piwstats->qual.level = tmp_level;
++		piwstats->qual.qual = tmp_qual;
++		piwstats->qual.noise = tmp_noise;
++	}
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 14))
++	piwstats->qual.updated = IW_QUAL_ALL_UPDATED ;/* |IW_QUAL_DBM; */
++#else
++#ifdef RTK_DMP_PLATFORM
++	/* IW_QUAL_DBM= 0x8, if driver use this flag, wireless extension will show value of dbm. */
++	/* remove this flag for show percentage 0~100 */
++	piwstats->qual.updated = 0x07;
++#else
++	piwstats->qual.updated = 0x0f;
++#endif
++#endif
++
++#ifdef CONFIG_SIGNAL_DISPLAY_DBM
++	piwstats->qual.updated = piwstats->qual.updated | IW_QUAL_DBM;
++#endif
++
++	return &padapter->iwstats;
++}
++#endif
++
++#ifdef CONFIG_WIRELESS_EXT
++struct iw_handler_def rtw_handlers_def = {
++	.standard = rtw_handlers,
++	.num_standard = sizeof(rtw_handlers) / sizeof(iw_handler),
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 33)) || defined(CONFIG_WEXT_PRIV)
++	.private = rtw_private_handler,
++	.private_args = (struct iw_priv_args *)rtw_private_args,
++	.num_private = sizeof(rtw_private_handler) / sizeof(iw_handler),
++	.num_private_args = sizeof(rtw_private_args) / sizeof(struct iw_priv_args),
++#endif
++#if WIRELESS_EXT >= 17
++	.get_wireless_stats = rtw_get_wireless_stats,
++#endif
++};
++#endif
++
++/* copy from net/wireless/wext.c start
++ * ----------------------------------------------------------------
++ *
++ * Calculate size of private arguments
++ */
++static const char iw_priv_type_size[] = {
++	0,                              /* IW_PRIV_TYPE_NONE */
++	1,                              /* IW_PRIV_TYPE_BYTE */
++	1,                              /* IW_PRIV_TYPE_CHAR */
++	0,                              /* Not defined */
++	sizeof(__u32),                  /* IW_PRIV_TYPE_INT */
++	sizeof(struct iw_freq),         /* IW_PRIV_TYPE_FLOAT */
++	sizeof(struct sockaddr),        /* IW_PRIV_TYPE_ADDR */
++	0,                              /* Not defined */
++};
++
++static int get_priv_size(__u16 args)
++{
++	int num = args & IW_PRIV_SIZE_MASK;
++	int type = (args & IW_PRIV_TYPE_MASK) >> 12;
++
++	return num * iw_priv_type_size[type];
++}
++/* copy from net/wireless/wext.c end */
++
++
++static int _rtw_ioctl_wext_private(struct net_device *dev, union iwreq_data *wrq_data)
++{
++	int err = 0;
++	u8 *input = NULL;
++	u32 input_len = 0;
++	const char delim[] = " ";
++	u8 *output = NULL;
++	u32 output_len = 0;
++	u32 count = 0;
++	u8 *buffer = NULL;
++	u32 buffer_len = 0;
++	char *ptr = NULL;
++	u8 cmdname[17] = {0}; /* IFNAMSIZ+1 */
++	u32 cmdlen;
++	s32 len;
++	u8 *extra = NULL;
++	u32 extra_size = 0;
++
++	s32 k;
++	const iw_handler *priv;		/* Private ioctl */
++	const struct iw_priv_args *priv_args;	/* Private ioctl description */
++	const struct iw_priv_args *mp_priv_args;	/*MP Private ioctl description */
++	const struct iw_priv_args *sel_priv_args;	/*Selected Private ioctl description */
++	u32 num_priv;				/* Number of ioctl */
++	u32 num_priv_args;			/* Number of descriptions */
++	u32 num_mp_priv_args;			/*Number of MP descriptions */
++	u32 num_sel_priv_args;			/*Number of Selected descriptions */
++	iw_handler handler;
++	int temp;
++	int subcmd = 0;				/* sub-ioctl index */
++	int offset = 0;				/* Space for sub-ioctl index */
++
++	union iwreq_data wdata;
++
++	_rtw_memcpy(&wdata, wrq_data, sizeof(wdata));
++
++	input_len = wdata.data.length;
++	input = rtw_zmalloc(input_len);
++	if (NULL == input || input_len == 0)
++		return -ENOMEM;
++	if (copy_from_user(input, wdata.data.pointer, input_len)) {
++		err = -EFAULT;
++		goto exit;
++	}
++	input[input_len - 1] = '\0';
++	ptr = input;
++	len = input_len;
++
++	if (ptr == NULL) {
++		err = -EOPNOTSUPP;
++		goto exit;
++	}
++
++	sscanf(ptr, "%16s", cmdname);
++	cmdlen = strlen(cmdname);
++	RTW_INFO("%s: cmd=%s\n", __func__, cmdname);
++
++	/* skip command string */
++	if (cmdlen > 0)
++		cmdlen += 1; /* skip one space */
++	ptr += cmdlen;
++	len -= cmdlen;
++	RTW_INFO("%s: parameters=%s\n", __func__, ptr);
++
++	priv = rtw_private_handler;
++	priv_args = rtw_private_args;
++	mp_priv_args = rtw_mp_private_args;
++	num_priv = sizeof(rtw_private_handler) / sizeof(iw_handler);
++	num_priv_args = sizeof(rtw_private_args) / sizeof(struct iw_priv_args);
++	num_mp_priv_args = sizeof(rtw_mp_private_args) / sizeof(struct iw_priv_args);
++
++	if (num_priv_args == 0) {
++		err = -EOPNOTSUPP;
++		goto exit;
++	}
++
++	/* Search the correct ioctl */
++	k = -1;
++	sel_priv_args = priv_args;
++	num_sel_priv_args = num_priv_args;
++	while
++	((++k < num_sel_priv_args) && strcmp(sel_priv_args[k].name, cmdname))
++		;
++
++	/* If not found... */
++	if (k == num_sel_priv_args) {
++		k = -1;
++		sel_priv_args = mp_priv_args;
++		num_sel_priv_args = num_mp_priv_args;
++		while
++		((++k < num_sel_priv_args) && strcmp(sel_priv_args[k].name, cmdname))
++			;
++
++		if (k == num_sel_priv_args) {
++			err = -EOPNOTSUPP;
++			goto exit;
++		}
++	}
++
++	/* Watch out for sub-ioctls ! */
++	if (sel_priv_args[k].cmd < SIOCDEVPRIVATE) {
++		int j = -1;
++
++		/* Find the matching *real* ioctl */
++		while ((++j < num_priv_args) && ((priv_args[j].name[0] != '\0') ||
++			 (priv_args[j].set_args != sel_priv_args[k].set_args) ||
++			 (priv_args[j].get_args != sel_priv_args[k].get_args)))
++			;
++
++		/* If not found... */
++		if (j == num_priv_args) {
++			err = -EINVAL;
++			goto exit;
++		}
++
++		/* Save sub-ioctl number */
++		subcmd = sel_priv_args[k].cmd;
++		/* Reserve one int (simplify alignment issues) */
++		offset = sizeof(__u32);
++		/* Use real ioctl definition from now on */
++		k = j;
++	}
++
++	buffer = rtw_zmalloc(4096);
++	if (NULL == buffer) {
++		err = -ENOMEM;
++		goto exit;
++	}
++
++	/* If we have to set some data */
++	if ((priv_args[k].set_args & IW_PRIV_TYPE_MASK) &&
++	    (priv_args[k].set_args & IW_PRIV_SIZE_MASK)) {
++		u8 *str;
++
++		switch (priv_args[k].set_args & IW_PRIV_TYPE_MASK) {
++		case IW_PRIV_TYPE_BYTE:
++			/* Fetch args */
++			count = 0;
++			do {
++				str = strsep(&ptr, delim);
++				if (NULL == str)
++					break;
++				sscanf(str, "%i", &temp);
++				buffer[count++] = (u8)temp;
++			} while (1);
++			buffer_len = count;
++
++			/* Number of args to fetch */
++			wdata.data.length = count;
++			if (wdata.data.length > (priv_args[k].set_args & IW_PRIV_SIZE_MASK))
++				wdata.data.length = priv_args[k].set_args & IW_PRIV_SIZE_MASK;
++
++			break;
++
++		case IW_PRIV_TYPE_INT:
++			/* Fetch args */
++			count = 0;
++			do {
++				str = strsep(&ptr, delim);
++				if (NULL == str)
++					break;
++				sscanf(str, "%i", &temp);
++				((s32 *)buffer)[count++] = (s32)temp;
++			} while (1);
++			buffer_len = count * sizeof(s32);
++
++			/* Number of args to fetch */
++			wdata.data.length = count;
++			if (wdata.data.length > (priv_args[k].set_args & IW_PRIV_SIZE_MASK))
++				wdata.data.length = priv_args[k].set_args & IW_PRIV_SIZE_MASK;
++
++			break;
++
++		case IW_PRIV_TYPE_CHAR:
++			if (len > 0) {
++				/* Size of the string to fetch */
++				wdata.data.length = len;
++				if (wdata.data.length > (priv_args[k].set_args & IW_PRIV_SIZE_MASK))
++					wdata.data.length = priv_args[k].set_args & IW_PRIV_SIZE_MASK;
++
++				/* Fetch string */
++				_rtw_memcpy(buffer, ptr, wdata.data.length);
++			} else {
++				wdata.data.length = 1;
++				buffer[0] = '\0';
++			}
++			buffer_len = wdata.data.length;
++			break;
++
++		default:
++			RTW_INFO("%s: Not yet implemented...\n", __func__);
++			err = -1;
++			goto exit;
++		}
++
++		if ((priv_args[k].set_args & IW_PRIV_SIZE_FIXED) &&
++		    (wdata.data.length != (priv_args[k].set_args & IW_PRIV_SIZE_MASK))) {
++			RTW_INFO("%s: The command %s needs exactly %d argument(s)...\n",
++				__func__, cmdname, priv_args[k].set_args & IW_PRIV_SIZE_MASK);
++			err = -EINVAL;
++			goto exit;
++		}
++	}   /* if args to set */
++	else
++		wdata.data.length = 0L;
++
++	/* Those two tests are important. They define how the driver
++	* will have to handle the data */
++	if ((priv_args[k].set_args & IW_PRIV_SIZE_FIXED) &&
++	    ((get_priv_size(priv_args[k].set_args) + offset) <= IFNAMSIZ)) {
++		/* First case : all SET args fit within wrq */
++		if (offset)
++			wdata.mode = subcmd;
++		_rtw_memcpy(wdata.name + offset, buffer, IFNAMSIZ - offset);
++	} else {
++		if ((priv_args[k].set_args == 0) &&
++		    (priv_args[k].get_args & IW_PRIV_SIZE_FIXED) &&
++		    (get_priv_size(priv_args[k].get_args) <= IFNAMSIZ)) {
++			/* Second case : no SET args, GET args fit within wrq */
++			if (offset)
++				wdata.mode = subcmd;
++		} else {
++			/* Third case : args won't fit in wrq, or variable number of args */
++			if (copy_to_user(wdata.data.pointer, buffer, buffer_len)) {
++				err = -EFAULT;
++				goto exit;
++			}
++			wdata.data.flags = subcmd;
++		}
++	}
++
++	rtw_mfree(input, input_len);
++	input = NULL;
++
++	extra_size = 0;
++	if (IW_IS_SET(priv_args[k].cmd)) {
++		/* Size of set arguments */
++		extra_size = get_priv_size(priv_args[k].set_args);
++
++		/* Does it fits in iwr ? */
++		if ((priv_args[k].set_args & IW_PRIV_SIZE_FIXED) &&
++		    ((extra_size + offset) <= IFNAMSIZ))
++			extra_size = 0;
++	} else {
++		/* Size of get arguments */
++		extra_size = get_priv_size(priv_args[k].get_args);
++
++		/* Does it fits in iwr ? */
++		if ((priv_args[k].get_args & IW_PRIV_SIZE_FIXED) &&
++		    (extra_size <= IFNAMSIZ))
++			extra_size = 0;
++	}
++
++	if (extra_size == 0) {
++		extra = (u8 *)&wdata;
++		rtw_mfree(buffer, 4096);
++		buffer = NULL;
++	} else
++		extra = buffer;
++
++	handler = priv[priv_args[k].cmd - SIOCIWFIRSTPRIV];
++	err = handler(dev, NULL, &wdata, extra);
++
++	/* If we have to get some data */
++	if ((priv_args[k].get_args & IW_PRIV_TYPE_MASK) &&
++	    (priv_args[k].get_args & IW_PRIV_SIZE_MASK)) {
++		int j;
++		int n = 0;	/* number of args */
++		u8 str[20] = {0};
++
++		/* Check where is the returned data */
++		if ((priv_args[k].get_args & IW_PRIV_SIZE_FIXED) &&
++		    (get_priv_size(priv_args[k].get_args) <= IFNAMSIZ))
++			n = priv_args[k].get_args & IW_PRIV_SIZE_MASK;
++		else
++			n = wdata.data.length;
++
++		output = rtw_zmalloc(4096);
++		if (NULL == output) {
++			err =  -ENOMEM;
++			goto exit;
++		}
++
++		switch (priv_args[k].get_args & IW_PRIV_TYPE_MASK) {
++		case IW_PRIV_TYPE_BYTE:
++			/* Display args */
++			for (j = 0; j < n; j++) {
++				sprintf(str, "%d  ", extra[j]);
++				len = strlen(str);
++				output_len = strlen(output);
++				if ((output_len + len + 1) > 4096) {
++					err = -E2BIG;
++					goto exit;
++				}
++				_rtw_memcpy(output + output_len, str, len);
++			}
++			break;
++
++		case IW_PRIV_TYPE_INT:
++			/* Display args */
++			for (j = 0; j < n; j++) {
++				sprintf(str, "%d  ", ((__s32 *)extra)[j]);
++				len = strlen(str);
++				output_len = strlen(output);
++				if ((output_len + len + 1) > 4096) {
++					err = -E2BIG;
++					goto exit;
++				}
++				_rtw_memcpy(output + output_len, str, len);
++			}
++			break;
++
++		case IW_PRIV_TYPE_CHAR:
++			/* Display args */
++			_rtw_memcpy(output, extra, n);
++			break;
++
++		default:
++			RTW_INFO("%s: Not yet implemented...\n", __func__);
++			err = -1;
++			goto exit;
++		}
++
++		output_len = strlen(output) + 1;
++		wrq_data->data.length = output_len;
++		if (copy_to_user(wrq_data->data.pointer, output, output_len)) {
++			err = -EFAULT;
++			goto exit;
++		}
++	}   /* if args to set */
++	else
++		wrq_data->data.length = 0;
++
++exit:
++	if (input)
++		rtw_mfree(input, input_len);
++	if (buffer)
++		rtw_mfree(buffer, 4096);
++	if (output)
++		rtw_mfree(output, 4096);
++
++	return err;
++}
++
++#ifdef CONFIG_COMPAT
++static int rtw_ioctl_compat_wext_private(struct net_device *dev, struct ifreq *rq)
++{
++	struct compat_iw_point iwp_compat;
++	union iwreq_data wrq_data;
++	int err = 0;
++	RTW_INFO("%s:...\n", __func__);
++	if (copy_from_user(&iwp_compat, rq->ifr_ifru.ifru_data, sizeof(struct compat_iw_point)))
++		return -EFAULT;
++
++	wrq_data.data.pointer = compat_ptr(iwp_compat.pointer);
++	wrq_data.data.length = iwp_compat.length;
++	wrq_data.data.flags = iwp_compat.flags;
++
++	err = _rtw_ioctl_wext_private(dev, &wrq_data);
++
++	iwp_compat.pointer = ptr_to_compat(wrq_data.data.pointer);
++	iwp_compat.length = wrq_data.data.length;
++	iwp_compat.flags = wrq_data.data.flags;
++	if (copy_to_user(rq->ifr_ifru.ifru_data, &iwp_compat, sizeof(struct compat_iw_point)))
++		return -EFAULT;
++
++	return err;
++}
++#endif /* CONFIG_COMPAT */
++
++static int rtw_ioctl_standard_wext_private(struct net_device *dev, struct ifreq *rq)
++{
++	struct iw_point *iwp;
++	struct ifreq ifrq;
++	union iwreq_data wrq_data;
++	int err = 0;
++	iwp = &wrq_data.data;
++	RTW_INFO("%s:...\n", __func__);
++	if (copy_from_user(iwp, rq->ifr_ifru.ifru_data, sizeof(struct iw_point)))
++		return -EFAULT;
++
++	err = _rtw_ioctl_wext_private(dev, &wrq_data);
++
++	if (copy_to_user(rq->ifr_ifru.ifru_data, iwp, sizeof(struct iw_point)))
++		return -EFAULT;
++
++	return err;
++}
++
++static int rtw_ioctl_wext_private(struct net_device *dev, struct ifreq *rq)
++{
++#ifdef CONFIG_COMPAT
++	if (is_compat_task())
++		return rtw_ioctl_compat_wext_private(dev, rq);
++	else
++#endif /* CONFIG_COMPAT */
++		return rtw_ioctl_standard_wext_private(dev, rq);
++}
++
++int rtw_ioctl(struct net_device *dev, struct ifreq *rq, int cmd)
++{
++	struct iwreq *wrq = (struct iwreq *)rq;
++	int ret = 0;
++
++	switch (cmd) {
++	case RTL_IOCTL_WPA_SUPPLICANT:
++		ret = wpa_supplicant_ioctl(dev, &wrq->u.data);
++		break;
++#ifdef CONFIG_AP_MODE
++	case RTL_IOCTL_HOSTAPD:
++		ret = rtw_hostapd_ioctl(dev, &wrq->u.data);
++		break;
++#ifdef CONFIG_WIRELESS_EXT
++	case SIOCSIWMODE:
++		ret = rtw_wx_set_mode(dev, NULL, &wrq->u, NULL);
++		break;
++#endif
++#endif /* CONFIG_AP_MODE */
++	case SIOCDEVPRIVATE:
++		ret = rtw_ioctl_wext_private(dev, rq);
++		break;
++	case (SIOCDEVPRIVATE+1):
++		ret = rtw_android_priv_cmd(dev, rq, cmd);
++		break;
++	default:
++		ret = -EOPNOTSUPP;
++		break;
++	}
++
++	return ret;
++}
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_mp.c b/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_mp.c
+new file mode 100644
+index 0000000..dbebe8f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_mp.c
+@@ -0,0 +1,2383 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#if defined(CONFIG_MP_INCLUDED)
++
++#include <drv_types.h>
++#include <rtw_mp.h>
++#include <rtw_mp_ioctl.h>
++#include "../../hal/phydm/phydm_precomp.h"
++
++
++#if defined(CONFIG_RTL8723B)
++	#include <rtw_bt_mp.h>
++#endif
++
++/*
++ * Input Format: %s,%d,%d
++ *	%s is width, could be
++ *		"b" for 1 byte
++ *		"w" for WORD (2 bytes)
++ *		"dw" for DWORD (4 bytes)
++ *	1st %d is address(offset)
++ *	2st %d is data to write
++ */
++int rtw_mp_write_reg(struct net_device *dev,
++		     struct iw_request_info *info,
++		     struct iw_point *wrqu, char *extra)
++{
++	char *pch, *pnext, *ptmp;
++	char *width_str;
++	char width, buf[5];
++	u32 addr, data;
++	int ret;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	char input[wrqu->length];
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	_rtw_memset(extra, 0, wrqu->length);
++
++	pch = input;
++
++	pnext = strpbrk(pch, " ,.-");
++	if (pnext == NULL)
++		return -EINVAL;
++	*pnext = 0;
++	width_str = pch;
++
++	pch = pnext + 1;
++	pnext = strpbrk(pch, " ,.-");
++	if (pnext == NULL)
++		return -EINVAL;
++	*pnext = 0;
++	/*addr = simple_strtoul(pch, &ptmp, 16);
++	_rtw_memset(buf, '\0', sizeof(buf));
++	_rtw_memcpy(buf, pch, pnext-pch);
++	ret = kstrtoul(buf, 16, &addr);*/
++	ret = sscanf(pch, "%x", &addr);
++	if (addr > 0x3FFF)
++		return -EINVAL;
++
++	pch = pnext + 1;
++	pnext = strpbrk(pch, " ,.-");
++	if ((pch - input) >= wrqu->length)
++		return -EINVAL;
++	/*data = simple_strtoul(pch, &ptmp, 16);*/
++	ret = sscanf(pch, "%x", &data);
++	RTW_INFO("data=%x,addr=%x\n", (u32)data, (u32)addr);
++	ret = 0;
++	width = width_str[0];
++	switch (width) {
++	case 'b':
++		/* 1 byte*/
++		if (data > 0xFF) {
++			ret = -EINVAL;
++			break;
++		}
++		rtw_write8(padapter, addr, data);
++		break;
++	case 'w':
++		/* 2 bytes*/
++		if (data > 0xFFFF) {
++			ret = -EINVAL;
++			break;
++		}
++		rtw_write16(padapter, addr, data);
++		break;
++	case 'd':
++		/* 4 bytes*/
++		rtw_write32(padapter, addr, data);
++		break;
++	default:
++		ret = -EINVAL;
++		break;
++	}
++
++	return ret;
++}
++
++
++/*
++ * Input Format: %s,%d
++ *	%s is width, could be
++ *		"b" for 1 byte
++ *		"w" for WORD (2 bytes)
++ *		"dw" for DWORD (4 bytes)
++ *	%d is address(offset)
++ *
++ * Return:
++ *	%d for data readed
++ */
++int rtw_mp_read_reg(struct net_device *dev,
++		    struct iw_request_info *info,
++		    struct iw_point *wrqu, char *extra)
++{
++	char input[wrqu->length];
++	char *pch, *pnext, *ptmp;
++	char *width_str;
++	char width;
++	char data[20], tmp[20], buf[3];
++	u32 addr = 0, strtout = 0;
++	u32 i = 0, j = 0, ret = 0, data32 = 0;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++
++	if (wrqu->length > 128)
++		return -EFAULT;
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	_rtw_memset(extra, 0, wrqu->length);
++	_rtw_memset(data, '\0', sizeof(data));
++	_rtw_memset(tmp, '\0', sizeof(tmp));
++	pch = input;
++	pnext = strpbrk(pch, " ,.-");
++	if (pnext == NULL)
++		return -EINVAL;
++	*pnext = 0;
++	width_str = pch;
++
++	pch = pnext + 1;
++
++	ret = sscanf(pch, "%x", &addr);
++	if (addr > 0x3FFF)
++		return -EINVAL;
++
++	ret = 0;
++	width = width_str[0];
++
++	switch (width) {
++	case 'b':
++		data32 = rtw_read8(padapter, addr);
++		RTW_INFO("%x\n", data32);
++		sprintf(extra, "%d", data32);
++		wrqu->length = strlen(extra);
++		break;
++	case 'w':
++		/* 2 bytes*/
++		sprintf(data, "%04x\n", rtw_read16(padapter, addr));
++
++		for (i = 0 ; i <= strlen(data) ; i++) {
++			if (i % 2 == 0) {
++				tmp[j] = ' ';
++				j++;
++			}
++			if (data[i] != '\0')
++				tmp[j] = data[i];
++
++			j++;
++		}
++		pch = tmp;
++		RTW_INFO("pch=%s", pch);
++
++		while (*pch != '\0') {
++			pnext = strpbrk(pch, " ");
++			if (!pnext || ((pnext - tmp) > 4))
++				break;
++
++			pnext++;
++			if (*pnext != '\0') {
++				/*strtout = simple_strtoul(pnext , &ptmp, 16);*/
++				ret = sscanf(pnext, "%x", &strtout);
++				sprintf(extra, "%s %d" , extra , strtout);
++			} else
++				break;
++			pch = pnext;
++		}
++		wrqu->length = strlen(extra);
++		break;
++	case 'd':
++		/* 4 bytes */
++		sprintf(data, "%08x", rtw_read32(padapter, addr));
++		/*add read data format blank*/
++		for (i = 0 ; i <= strlen(data) ; i++) {
++			if (i % 2 == 0) {
++				tmp[j] = ' ';
++				j++;
++			}
++			if (data[i] != '\0')
++				tmp[j] = data[i];
++
++			j++;
++		}
++		pch = tmp;
++		RTW_INFO("pch=%s", pch);
++
++		while (*pch != '\0') {
++			pnext = strpbrk(pch, " ");
++			if (!pnext)
++				break;
++
++			pnext++;
++			if (*pnext != '\0') {
++				ret = sscanf(pnext, "%x", &strtout);
++				sprintf(extra, "%s %d" , extra , strtout);
++			} else
++				break;
++			pch = pnext;
++		}
++		wrqu->length = strlen(extra);
++		break;
++
++	default:
++		wrqu->length = 0;
++		ret = -EINVAL;
++		break;
++	}
++
++	return ret;
++}
++
++
++/*
++ * Input Format: %d,%x,%x
++ *	%d is RF path, should be smaller than MAX_RF_PATH_NUMS
++ *	1st %x is address(offset)
++ *	2st %x is data to write
++ */
++int rtw_mp_write_rf(struct net_device *dev,
++		    struct iw_request_info *info,
++		    struct iw_point *wrqu, char *extra)
++{
++
++	u32 path, addr, data;
++	int ret;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	char input[wrqu->length];
++
++
++	_rtw_memset(input, 0, wrqu->length);
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++
++	ret = sscanf(input, "%d,%x,%x", &path, &addr, &data);
++	if (ret < 3)
++		return -EINVAL;
++
++	if (path >= GET_HAL_RFPATH_NUM(padapter))
++		return -EINVAL;
++	if (addr > 0xFF)
++		return -EINVAL;
++	if (data > 0xFFFFF)
++		return -EINVAL;
++
++	_rtw_memset(extra, 0, wrqu->length);
++
++	write_rfreg(padapter, path, addr, data);
++
++	sprintf(extra, "write_rf completed\n");
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++
++/*
++ * Input Format: %d,%x
++ *	%d is RF path, should be smaller than MAX_RF_PATH_NUMS
++ *	%x is address(offset)
++ *
++ * Return:
++ *	%d for data readed
++ */
++int rtw_mp_read_rf(struct net_device *dev,
++		   struct iw_request_info *info,
++		   struct iw_point *wrqu, char *extra)
++{
++	char input[wrqu->length];
++	char *pch, *pnext, *ptmp;
++	char data[20], tmp[20], buf[3];
++	u32 path, addr, strtou;
++	u32 ret, i = 0 , j = 0;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	if (wrqu->length > 128)
++		return -EFAULT;
++	_rtw_memset(input, 0, wrqu->length);
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	ret = sscanf(input, "%d,%x", &path, &addr);
++	if (ret < 2)
++		return -EINVAL;
++
++	if (path >= GET_HAL_RFPATH_NUM(padapter))
++		return -EINVAL;
++	if (addr > 0xFF)
++		return -EINVAL;
++
++	_rtw_memset(extra, 0, wrqu->length);
++
++	sprintf(data, "%08x", read_rfreg(padapter, path, addr));
++	/*add read data format blank*/
++	for (i = 0 ; i <= strlen(data) ; i++) {
++		if (i % 2 == 0) {
++			tmp[j] = ' ';
++			j++;
++		}
++		tmp[j] = data[i];
++		j++;
++	}
++	pch = tmp;
++	RTW_INFO("pch=%s", pch);
++
++	while (*pch != '\0') {
++		pnext = strpbrk(pch, " ");
++		if (!pnext)
++			break;
++		pnext++;
++		if (*pnext != '\0') {
++			/*strtou =simple_strtoul(pnext , &ptmp, 16);*/
++			ret = sscanf(pnext, "%x", &strtou);
++			sprintf(extra, "%s %d" , extra , strtou);
++		} else
++			break;
++		pch = pnext;
++	}
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++
++int rtw_mp_start(struct net_device *dev,
++		 struct iw_request_info *info,
++		 struct iw_point *wrqu, char *extra)
++{
++	u8 val8;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct hal_ops *pHalFunc = &padapter->HalFunc;
++
++	rtw_pm_set_ips(padapter, IPS_NONE);
++	LeaveAllPowerSaveMode(padapter);
++
++	if (rtw_mi_check_fwstate(padapter, _FW_UNDER_SURVEY))
++		rtw_mi_scan_abort(padapter, _FALSE);
++
++	if (padapter->registrypriv.mp_mode == 0) {
++		rtw_hal_deinit(padapter);
++		padapter->registrypriv.mp_mode = 1;
++#ifdef CONFIG_RF_POWER_TRIM
++		if (!IS_HARDWARE_TYPE_8814A(padapter) && !IS_HARDWARE_TYPE_8822B(padapter)) {
++			padapter->registrypriv.RegPwrTrimEnable = 1;
++			rtw_hal_read_chip_info(padapter);
++		}
++#endif /*CONFIG_RF_POWER_TRIM*/
++		rtw_hal_init(padapter);
++#ifdef RTW_HALMAC /*for New IC*/
++		MPT_InitializeAdapter(padapter, 1);
++#endif /* CONFIG_MP_INCLUDED */
++	}
++
++	if (padapter->registrypriv.mp_mode == 0)
++		return -EPERM;
++
++	if (padapter->mppriv.mode == MP_OFF) {
++		if (mp_start_test(padapter) == _FAIL)
++			return -EPERM;
++		padapter->mppriv.mode = MP_ON;
++		MPT_PwrCtlDM(padapter, 0);
++	}
++	padapter->mppriv.bmac_filter = _FALSE;
++#ifdef CONFIG_RTL8723B
++#ifdef CONFIG_USB_HCI
++	rtw_write32(padapter, 0x765, 0x0000);
++	rtw_write32(padapter, 0x948, 0x0280);
++#else
++	rtw_write32(padapter, 0x765, 0x0000);
++	rtw_write32(padapter, 0x948, 0x0000);
++#endif
++#ifdef CONFIG_FOR_RTL8723BS_VQ0
++	rtw_write32(padapter, 0x765, 0x0000);
++	rtw_write32(padapter, 0x948, 0x0280);
++#endif
++	rtw_write8(padapter, 0x66, 0x27); /*Open BT uart Log*/
++	rtw_write8(padapter, 0xc50, 0x20); /*for RX init Gain*/
++#endif
++	ODM_Write_DIG(&pHalData->odmpriv, 0x20);
++
++	return 0;
++}
++
++
++
++int rtw_mp_stop(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	struct hal_ops *pHalFunc = &padapter->HalFunc;
++
++	if (padapter->registrypriv.mp_mode == 1) {
++
++		MPT_DeInitAdapter(padapter);
++		pHalFunc->hal_deinit(padapter);
++		padapter->registrypriv.mp_mode = 0;
++		pHalFunc->hal_init(padapter);
++	}
++
++	if (padapter->mppriv.mode != MP_OFF) {
++		mp_stop_test(padapter);
++		padapter->mppriv.mode = MP_OFF;
++	}
++
++	return 0;
++}
++
++
++int rtw_mp_rate(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra)
++{
++	u32 rate = MPT_RATE_1M;
++	u8		input[wrqu->length];
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	PMPT_CONTEXT		pMptCtx = &(padapter->mppriv.MptCtx);
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	rate = rtw_mpRateParseFunc(padapter, input);
++	padapter->mppriv.rateidx = rate;
++
++	if (rate == 0 && strcmp(input, "1M") != 0) {
++		rate = rtw_atoi(input);
++		padapter->mppriv.rateidx = MRateToHwRate(rate);
++		/*if (rate <= 0x7f)
++			rate = wifirate2_ratetbl_inx((u8)rate);
++		else if (rate < 0xC8)
++			rate = (rate - 0x79 + MPT_RATE_MCS0);
++		HT  rate 0x80(MCS0)  ~ 0x8F(MCS15) ~ 0x9F(MCS31) 128~159
++		VHT1SS~2SS rate 0xA0 (VHT1SS_MCS0 44) ~ 0xB3 (VHT2SS_MCS9 #63) 160~179
++		VHT rate 0xB4 (VHT3SS_MCS0 64) ~ 0xC7 (VHT2SS_MCS9 #83) 180~199
++		else
++		VHT rate 0x90(VHT1SS_MCS0) ~ 0x99(VHT1SS_MCS9) 144~153
++		rate =(rate - MPT_RATE_VHT1SS_MCS0);
++		*/
++	}
++	_rtw_memset(extra, 0, wrqu->length);
++
++	sprintf(extra, "Set data rate to %s index %d" , input, padapter->mppriv.rateidx);
++	RTW_INFO("%s: %s rate index=%d\n", __func__, input, padapter->mppriv.rateidx);
++
++	if (padapter->mppriv.rateidx >= DESC_RATEVHTSS4MCS9)
++		return -EINVAL;
++
++	pMptCtx->MptRateIndex = HwRateToMPTRate(padapter->mppriv.rateidx);
++	SetDataRate(padapter);
++
++	wrqu->length = strlen(extra);
++	return 0;
++}
++
++
++int rtw_mp_channel(struct net_device *dev,
++		   struct iw_request_info *info,
++		   struct iw_point *wrqu, char *extra)
++{
++
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(padapter);
++	u8		input[wrqu->length];
++	u32	channel = 1;
++	int cur_ch_offset;
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	channel = rtw_atoi(input);
++	/*RTW_INFO("%s: channel=%d\n", __func__, channel);*/
++	_rtw_memset(extra, 0, wrqu->length);
++	sprintf(extra, "Change channel %d to channel %d", padapter->mppriv.channel , channel);
++	padapter->mppriv.channel = channel;
++	SetChannel(padapter);
++	pHalData->CurrentChannel = channel;
++
++	wrqu->length = strlen(extra);
++	return 0;
++}
++
++
++int rtw_mp_bandwidth(struct net_device *dev,
++		     struct iw_request_info *info,
++		     struct iw_point *wrqu, char *extra)
++{
++	u32 bandwidth = 0, sg = 0;
++	int cur_ch_offset;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(padapter);
++
++	if (sscanf(extra, "40M=%d,shortGI=%d", &bandwidth, &sg) > 0)
++		RTW_INFO("%s: bw=%d sg=%d\n", __func__, bandwidth , sg);
++
++	if (bandwidth == 1)
++		bandwidth = CHANNEL_WIDTH_40;
++	else if (bandwidth == 2)
++		bandwidth = CHANNEL_WIDTH_80;
++
++	padapter->mppriv.bandwidth = (u8)bandwidth;
++	padapter->mppriv.preamble = sg;
++
++	SetBandwidth(padapter);
++	pHalData->CurrentChannelBW = bandwidth;
++	/*cur_ch_offset =  rtw_get_offset_by_ch(padapter->mppriv.channel);*/
++	/*set_channel_bwmode(padapter, padapter->mppriv.channel, cur_ch_offset, bandwidth);*/
++
++	return 0;
++}
++
++
++int rtw_mp_txpower_index(struct net_device *dev,
++			 struct iw_request_info *info,
++			 struct iw_point *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	char input[wrqu->length];
++	u32 rfpath;
++	u32 txpower_inx;
++
++	if (wrqu->length > 128)
++		return -EFAULT;
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	rfpath = rtw_atoi(input);
++	txpower_inx = mpt_ProQueryCalTxPower(padapter, rfpath);
++	sprintf(extra, " %d", txpower_inx);
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++
++int rtw_mp_txpower(struct net_device *dev,
++		   struct iw_request_info *info,
++		   struct iw_point *wrqu, char *extra)
++{
++	u32 idx_a = 0, idx_b = 0, idx_c = 0, idx_d = 0, status = 0;
++	int MsetPower = 1;
++	u8		input[wrqu->length];
++
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	PMPT_CONTEXT		pMptCtx = &(padapter->mppriv.MptCtx);
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	MsetPower = strncmp(input, "off", 3);
++	if (MsetPower == 0) {
++		padapter->mppriv.bSetTxPower = 0;
++		sprintf(extra, "MP Set power off");
++	} else {
++		if (sscanf(input, "patha=%d,pathb=%d,pathc=%d,pathd=%d", &idx_a, &idx_b, &idx_c, &idx_d) < 3)
++			RTW_INFO("Invalid format on line %s ,patha=%d,pathb=%d,pathc=%d,pathd=%d\n", input , idx_a , idx_b , idx_c , idx_d);
++
++		sprintf(extra, "Set power level path_A:%d path_B:%d path_C:%d path_D:%d", idx_a , idx_b , idx_c , idx_d);
++		padapter->mppriv.txpoweridx = (u8)idx_a;
++
++		pMptCtx->TxPwrLevel[ODM_RF_PATH_A] = (u8)idx_a;
++		pMptCtx->TxPwrLevel[ODM_RF_PATH_B] = (u8)idx_b;
++		pMptCtx->TxPwrLevel[ODM_RF_PATH_C] = (u8)idx_c;
++		pMptCtx->TxPwrLevel[ODM_RF_PATH_D]  = (u8)idx_d;
++		padapter->mppriv.bSetTxPower = 1;
++
++		SetTxPower(padapter);
++	}
++
++	wrqu->length = strlen(extra);
++	return 0;
++}
++
++
++int rtw_mp_ant_tx(struct net_device *dev,
++		  struct iw_request_info *info,
++		  struct iw_point *wrqu, char *extra)
++{
++	u8 i;
++	u8		input[wrqu->length];
++	u16 antenna = 0;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	sprintf(extra, "switch Tx antenna to %s", input);
++
++	for (i = 0; i < strlen(input); i++) {
++		switch (input[i]) {
++		case 'a':
++			antenna |= ANTENNA_A;
++			break;
++		case 'b':
++			antenna |= ANTENNA_B;
++			break;
++		case 'c':
++			antenna |= ANTENNA_C;
++			break;
++		case 'd':
++			antenna |= ANTENNA_D;
++			break;
++		}
++	}
++	/*antenna |= BIT(extra[i]-'a');*/
++	RTW_INFO("%s: antenna=0x%x\n", __func__, antenna);
++	padapter->mppriv.antenna_tx = antenna;
++	padapter->mppriv.antenna_rx = antenna;
++	/*RTW_INFO("%s:mppriv.antenna_rx=%d\n", __func__, padapter->mppriv.antenna_tx);*/
++	pHalData->AntennaTxPath = antenna;
++
++	SetAntenna(padapter);
++
++	wrqu->length = strlen(extra);
++	return 0;
++}
++
++
++int rtw_mp_ant_rx(struct net_device *dev,
++		  struct iw_request_info *info,
++		  struct iw_point *wrqu, char *extra)
++{
++	u8 i;
++	u16 antenna = 0;
++	u8		input[wrqu->length];
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++	/*RTW_INFO("%s: input=%s\n", __func__, input);*/
++	_rtw_memset(extra, 0, wrqu->length);
++
++	sprintf(extra, "switch Rx antenna to %s", input);
++
++	for (i = 0; i < strlen(input); i++) {
++		switch (input[i]) {
++		case 'a':
++			antenna |= ANTENNA_A;
++			break;
++		case 'b':
++			antenna |= ANTENNA_B;
++			break;
++		case 'c':
++			antenna |= ANTENNA_C;
++			break;
++		case 'd':
++			antenna |= ANTENNA_D;
++			break;
++		}
++	}
++
++	RTW_INFO("%s: antenna=0x%x\n", __func__, antenna);
++	padapter->mppriv.antenna_tx = antenna;
++	padapter->mppriv.antenna_rx = antenna;
++	pHalData->AntennaRxPath = antenna;
++	/*RTW_INFO("%s:mppriv.antenna_rx=%d\n", __func__, padapter->mppriv.antenna_rx);*/
++	SetAntenna(padapter);
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++
++int rtw_set_ctx_destAddr(struct net_device *dev,
++			 struct iw_request_info *info,
++			 struct iw_point *wrqu, char *extra)
++{
++	int jj, kk = 0;
++
++	struct pkt_attrib *pattrib;
++	struct mp_priv *pmp_priv;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	pmp_priv = &padapter->mppriv;
++	pattrib = &pmp_priv->tx.attrib;
++
++	if (strlen(extra) < 5)
++		return _FAIL;
++
++	RTW_INFO("%s: in=%s\n", __func__, extra);
++	for (jj = 0, kk = 0; jj < ETH_ALEN; jj++, kk += 3)
++		pattrib->dst[jj] = key_2char2num(extra[kk], extra[kk + 1]);
++
++	RTW_INFO("pattrib->dst:%x %x %x %x %x %x\n", pattrib->dst[0], pattrib->dst[1], pattrib->dst[2], pattrib->dst[3], pattrib->dst[4], pattrib->dst[5]);
++	return 0;
++}
++
++
++
++int rtw_mp_ctx(struct net_device *dev,
++	       struct iw_request_info *info,
++	       struct iw_point *wrqu, char *extra)
++{
++	u32 pkTx = 1;
++	int countPkTx = 1, cotuTx = 1, CarrSprTx = 1, scTx = 1, sgleTx = 1, stop = 1;
++	u32 bStartTest = 1;
++	u32 count = 0, pktinterval = 0, pktlen = 0;
++	u8 status;
++	struct mp_priv *pmp_priv;
++	struct pkt_attrib *pattrib;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	pmp_priv = &padapter->mppriv;
++	pattrib = &pmp_priv->tx.attrib;
++
++	if (copy_from_user(extra, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	RTW_INFO("%s: in=%s\n", __func__, extra);
++#ifdef CONFIG_CONCURRENT_MODE
++	if (!is_primary_adapter(padapter)) {
++		sprintf(extra, "Error: MP mode can't support Virtual Adapter, Please to use main Adapter.\n");
++		wrqu->length = strlen(extra);
++		return 0;
++	}
++#endif
++	countPkTx = strncmp(extra, "count=", 5); /* strncmp TRUE is 0*/
++	cotuTx = strncmp(extra, "background", 20);
++	CarrSprTx = strncmp(extra, "background,cs", 20);
++	scTx = strncmp(extra, "background,sc", 20);
++	sgleTx = strncmp(extra, "background,stone", 20);
++	pkTx = strncmp(extra, "background,pkt", 20);
++	stop = strncmp(extra, "stop", 4);
++	if (sscanf(extra, "count=%d,pkt", &count) > 0)
++		RTW_INFO("count= %d\n", count);
++	if (sscanf(extra, "pktinterval=%d", &pktinterval) > 0)
++		RTW_INFO("pktinterval= %d\n", pktinterval);
++
++	if (sscanf(extra, "pktlen=%d", &pktlen) > 0)
++		RTW_INFO("pktlen= %d\n", pktlen);
++
++	if (_rtw_memcmp(extra, "destmac=", 8)) {
++		wrqu->length -= 8;
++		rtw_set_ctx_destAddr(dev, info, wrqu, &extra[8]);
++		sprintf(extra, "Set dest mac OK !\n");
++		return 0;
++	}
++
++	/*RTW_INFO("%s: count=%d countPkTx=%d cotuTx=%d CarrSprTx=%d scTx=%d sgleTx=%d pkTx=%d stop=%d\n", __func__, count, countPkTx, cotuTx, CarrSprTx, pkTx, sgleTx, scTx, stop);*/
++	_rtw_memset(extra, '\0', strlen(extra));
++
++	if (pktinterval != 0) {
++		sprintf(extra, "Pkt Interval = %d", pktinterval);
++		padapter->mppriv.pktInterval = pktinterval;
++		wrqu->length = strlen(extra);
++		return 0;
++	}
++	if (pktlen != 0) {
++		sprintf(extra, "Pkt len = %d", pktlen);
++		pattrib->pktlen = pktlen;
++		wrqu->length = strlen(extra);
++		return 0;
++	}
++	if (stop == 0) {
++		bStartTest = 0; /* To set Stop*/
++		pmp_priv->tx.stop = 1;
++		sprintf(extra, "Stop continuous Tx");
++		ODM_Write_DIG(&pHalData->odmpriv, 0x20);
++	} else {
++		bStartTest = 1;
++		ODM_Write_DIG(&pHalData->odmpriv, 0x7f);
++		if (pmp_priv->mode != MP_ON) {
++			if (pmp_priv->tx.stop != 1) {
++				RTW_INFO("%s: MP_MODE != ON %d\n", __func__, pmp_priv->mode);
++				return	-EFAULT;
++			}
++		}
++	}
++
++	pmp_priv->tx.count = count;
++
++	if (pkTx == 0 || countPkTx == 0)
++		pmp_priv->mode = MP_PACKET_TX;
++	if (sgleTx == 0)
++		pmp_priv->mode = MP_SINGLE_TONE_TX;
++	if (cotuTx == 0)
++		pmp_priv->mode = MP_CONTINUOUS_TX;
++	if (CarrSprTx == 0)
++		pmp_priv->mode = MP_CARRIER_SUPPRISSION_TX;
++	if (scTx == 0)
++		pmp_priv->mode = MP_SINGLE_CARRIER_TX;
++
++	status = rtw_mp_pretx_proc(padapter, bStartTest, extra);
++
++	wrqu->length = strlen(extra);
++	return status;
++}
++
++
++
++int rtw_mp_disable_bt_coexist(struct net_device *dev,
++			      struct iw_request_info *info,
++			      union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = (PADAPTER)rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++	struct hal_ops *pHalFunc = &padapter->HalFunc;
++
++	u8 input[wrqu->data.length];
++	u32 bt_coexist;
++
++	if (copy_from_user(input, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++
++	bt_coexist = rtw_atoi(input);
++
++	if (bt_coexist == 0) {
++		RTW_INFO("Set OID_RT_SET_DISABLE_BT_COEXIST: disable BT_COEXIST\n");
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_HaltNotify(padapter);
++		rtw_btcoex_SetManualControl(padapter, _TRUE);
++		/* Force to switch Antenna to WiFi*/
++		rtw_write16(padapter, 0x870, 0x300);
++		rtw_write16(padapter, 0x860, 0x110);
++#endif
++		/* CONFIG_BT_COEXIST */
++	} else {
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_SetManualControl(padapter, _FALSE);
++#endif
++	}
++
++	return 0;
++}
++
++
++int rtw_mp_arx(struct net_device *dev,
++	       struct iw_request_info *info,
++	       struct iw_point *wrqu, char *extra)
++{
++	int bStartRx = 0, bStopRx = 0, bQueryPhy = 0, bQueryMac = 0, bSetBssid = 0;
++	int bmac_filter = 0, bfilter_init = 0, bmon = 0, bSmpCfg = 0, bloopbk = 0;
++	u8		input[wrqu->length];
++	char *pch, *ptmp, *token, *tmp[2] = {0x00, 0x00};
++	u32 i = 0, ii = 0, jj = 0, kk = 0, cnts = 0, ret;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	struct mp_priv *pmppriv = &padapter->mppriv;
++	struct dbg_rx_counter rx_counter;
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	RTW_INFO("%s: %s\n", __func__, input);
++#ifdef CONFIG_CONCURRENT_MODE
++	if (!is_primary_adapter(padapter)) {
++		sprintf(extra, "Error: MP mode can't support Virtual Adapter, Please to use main Adapter.\n");
++		wrqu->length = strlen(extra);
++		return 0;
++	}
++#endif
++	bStartRx = (strncmp(input, "start", 5) == 0) ? 1 : 0; /* strncmp TRUE is 0*/
++	bStopRx = (strncmp(input, "stop", 5) == 0) ? 1 : 0; /* strncmp TRUE is 0*/
++	bQueryPhy = (strncmp(input, "phy", 3) == 0) ? 1 : 0; /* strncmp TRUE is 0*/
++	bQueryMac = (strncmp(input, "mac", 3) == 0) ? 1 : 0; /* strncmp TRUE is 0*/
++	bSetBssid = (strncmp(input, "setbssid=", 8) == 0) ? 1 : 0; /* strncmp TRUE is 0*/
++	/*bfilter_init = (strncmp(input, "filter_init",11)==0)?1:0;*/
++	bmac_filter = (strncmp(input, "accept_mac", 10) == 0) ? 1 : 0;
++	bmon = (strncmp(input, "mon=", 4) == 0) ? 1 : 0;
++	bSmpCfg = (strncmp(input , "smpcfg=" , 7) == 0) ? 1 : 0;
++	pmppriv->bloopback = (strncmp(input, "loopbk", 6) == 0) ? 1 : 0; /* strncmp TRUE is 0*/
++
++	if (bSetBssid == 1) {
++		pch = input;
++		while ((token = strsep(&pch, "=")) != NULL) {
++			if (i > 1)
++				break;
++			tmp[i] = token;
++			i++;
++		}
++		if ((tmp[0] != NULL) && (tmp[1] != NULL)) {
++			cnts = strlen(tmp[1]) / 2;
++			if (cnts < 1)
++				return -EFAULT;
++			RTW_INFO("%s: cnts=%d\n", __func__, cnts);
++			RTW_INFO("%s: data=%s\n", __func__, tmp[1]);
++			for (jj = 0, kk = 0; jj < cnts ; jj++, kk += 2) {
++				pmppriv->network_macaddr[jj] = key_2char2num(tmp[1][kk], tmp[1][kk + 1]);
++				RTW_INFO("network_macaddr[%d]=%x\n", jj, pmppriv->network_macaddr[jj]);
++			}
++		} else
++			return -EFAULT;
++
++		pmppriv->bSetRxBssid = _TRUE;
++	}
++
++	if (bmac_filter) {
++		pmppriv->bmac_filter = bmac_filter;
++		pch = input;
++		while ((token = strsep(&pch, "=")) != NULL) {
++			if (i > 1)
++				break;
++			tmp[i] = token;
++			i++;
++		}
++		if ((tmp[0] != NULL) && (tmp[1] != NULL)) {
++			cnts = strlen(tmp[1]) / 2;
++			if (cnts < 1)
++				return -EFAULT;
++			RTW_INFO("%s: cnts=%d\n", __func__, cnts);
++			RTW_INFO("%s: data=%s\n", __func__, tmp[1]);
++			for (jj = 0, kk = 0; jj < cnts ; jj++, kk += 2) {
++				pmppriv->mac_filter[jj] = key_2char2num(tmp[1][kk], tmp[1][kk + 1]);
++				RTW_INFO("%s mac_filter[%d]=%x\n", __func__, jj, pmppriv->mac_filter[jj]);
++			}
++		} else
++			return -EFAULT;
++
++	}
++
++	if (bStartRx) {
++		sprintf(extra, "start");
++		SetPacketRx(padapter, bStartRx, _FALSE);
++	} else if (bStopRx) {
++		SetPacketRx(padapter, bStartRx, _FALSE);
++		pmppriv->bmac_filter = _FALSE;
++		sprintf(extra, "Received packet OK:%d CRC error:%d ,Filter out:%d", padapter->mppriv.rx_pktcount, padapter->mppriv.rx_crcerrpktcount, padapter->mppriv.rx_pktcount_filter_out);
++	} else if (bQueryPhy) {
++		_rtw_memset(&rx_counter, 0, sizeof(struct dbg_rx_counter));
++		rtw_dump_phy_rx_counters(padapter, &rx_counter);
++
++		RTW_INFO("%s: OFDM_FA =%d\n", __func__, rx_counter.rx_ofdm_fa);
++		RTW_INFO("%s: CCK_FA =%d\n", __func__, rx_counter.rx_cck_fa);
++		sprintf(extra, "Phy Received packet OK:%d CRC error:%d FA Counter: %d", rx_counter.rx_pkt_ok, rx_counter.rx_pkt_crc_error, rx_counter.rx_cck_fa + rx_counter.rx_ofdm_fa);
++
++
++	} else if (bQueryMac) {
++		_rtw_memset(&rx_counter, 0, sizeof(struct dbg_rx_counter));
++		rtw_dump_mac_rx_counters(padapter, &rx_counter);
++		sprintf(extra, "Mac Received packet OK: %d , CRC error: %d , Drop Packets: %d\n",
++			rx_counter.rx_pkt_ok, rx_counter.rx_pkt_crc_error, rx_counter.rx_pkt_drop);
++
++	}
++
++	if (bmon == 1) {
++		ret = sscanf(input, "mon=%d", &bmon);
++
++		if (bmon == 1) {
++			pmppriv->rx_bindicatePkt = _TRUE;
++			sprintf(extra, "Indicating Receive Packet to network start\n");
++		} else {
++			pmppriv->rx_bindicatePkt = _FALSE;
++			sprintf(extra, "Indicating Receive Packet to network Stop\n");
++		}
++	}
++	if (bSmpCfg == 1) {
++		ret = sscanf(input, "smpcfg=%d", &bSmpCfg);
++
++		if (bSmpCfg == 1) {
++			pmppriv->bRTWSmbCfg = _TRUE;
++			sprintf(extra , "Indicate By Simple Config Format\n");
++			SetPacketRx(padapter, _TRUE, _TRUE);
++		} else {
++			pmppriv->bRTWSmbCfg = _FALSE;
++			sprintf(extra , "Indicate By Normal Format\n");
++			SetPacketRx(padapter, _TRUE, _FALSE);
++		}
++	}
++
++	if (pmppriv->bloopback == _TRUE) {
++		sprintf(extra , "Enter MAC LoopBack mode\n");
++		_rtw_write32(padapter, 0x100, 0xB0106FF);
++		RTW_INFO("0x100 :0x%x" , _rtw_read32(padapter, 0x100));
++		_rtw_write16(padapter, 0x608, 0x30c);
++		RTW_INFO("0x100 :0x%x" , _rtw_read32(padapter, 0x608));
++	}
++
++	wrqu->length = strlen(extra) + 1;
++
++	return 0;
++}
++
++
++int rtw_mp_trx_query(struct net_device *dev,
++		     struct iw_request_info *info,
++		     struct iw_point *wrqu, char *extra)
++{
++	u32 txok, txfail, rxok, rxfail, rxfilterout;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	PMPT_CONTEXT	pMptCtx		=	&(padapter->mppriv.MptCtx);
++	RT_PMAC_TX_INFO	PMacTxInfo	=	pMptCtx->PMacTxInfo;
++
++	if (PMacTxInfo.bEnPMacTx == TRUE)
++		txok = hal_mpt_query_phytxok(padapter);
++	else
++		txok = padapter->mppriv.tx.sended;
++
++	txfail = 0;
++	rxok = padapter->mppriv.rx_pktcount;
++	rxfail = padapter->mppriv.rx_crcerrpktcount;
++	rxfilterout = padapter->mppriv.rx_pktcount_filter_out;
++
++	_rtw_memset(extra, '\0', 128);
++
++	sprintf(extra, "Tx OK:%d, Tx Fail:%d, Rx OK:%d, CRC error:%d ,Rx Filter out:%d\n", txok, txfail, rxok, rxfail, rxfilterout);
++
++	wrqu->length = strlen(extra) + 1;
++
++	return 0;
++}
++
++
++int rtw_mp_pwrtrk(struct net_device *dev,
++		  struct iw_request_info *info,
++		  struct iw_point *wrqu, char *extra)
++{
++	u8 enable;
++	u32 thermal;
++	s32 ret;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE			*pHalData = GET_HAL_DATA(padapter);
++	u8		input[wrqu->length];
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	_rtw_memset(extra, 0, wrqu->length);
++
++	enable = 1;
++	if (wrqu->length > 1) {
++		/* not empty string*/
++		if (strncmp(input, "stop", 4) == 0) {
++			enable = 0;
++			sprintf(extra, "mp tx power tracking stop");
++		} else if (sscanf(input, "ther=%d", &thermal) == 1) {
++			ret = SetThermalMeter(padapter, (u8)thermal);
++			if (ret == _FAIL)
++				return -EPERM;
++			sprintf(extra, "mp tx power tracking start,target value=%d ok", thermal);
++		} else
++			return -EINVAL;
++	}
++
++	ret = SetPowerTracking(padapter, enable);
++	if (ret == _FAIL)
++		return -EPERM;
++
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++
++
++int rtw_mp_psd(struct net_device *dev,
++	       struct iw_request_info *info,
++	       struct iw_point *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	u8		input[wrqu->length];
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	strcpy(extra, input);
++
++	wrqu->length = mp_query_psd(padapter, extra);
++
++	return 0;
++}
++
++
++int rtw_mp_thermal(struct net_device *dev,
++		   struct iw_request_info *info,
++		   struct iw_point *wrqu, char *extra)
++{
++	u8 val;
++	int bwrite = 1;
++
++#ifdef CONFIG_RTL8188E
++	u16 addr = EEPROM_THERMAL_METER_88E;
++#endif
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A) || defined(CONFIG_RTL8814A)
++	u16 addr = EEPROM_THERMAL_METER_8812;
++#endif
++#ifdef CONFIG_RTL8192E
++	u16 addr = EEPROM_THERMAL_METER_8192E;
++#endif
++#ifdef CONFIG_RTL8723B
++	u16 addr = EEPROM_THERMAL_METER_8723B;
++#endif
++#ifdef CONFIG_RTL8703B
++	u16 addr = EEPROM_THERMAL_METER_8703B;
++#endif
++#ifdef CONFIG_RTL8723D
++	u16 addr = EEPROM_THERMAL_METER_8723D;
++#endif
++#ifdef CONFIG_RTL8188F
++	u16 addr = EEPROM_THERMAL_METER_8188F;
++#endif
++#ifdef CONFIG_RTL8822B
++	u16 addr = EEPROM_THERMAL_METER_8822B;
++#endif
++#ifdef CONFIG_RTL8821C
++	u16 addr = EEPROM_THERMAL_METER_8821C;
++#endif
++	u16 cnt = 1;
++	u16 max_available_size = 0;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	if (copy_from_user(extra, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	bwrite = strncmp(extra, "write", 6);/* strncmp TRUE is 0*/
++
++	GetThermalMeter(padapter, &val);
++
++	if (bwrite == 0) {
++		/*RTW_INFO("to write val:%d",val);*/
++		EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_available_size, _FALSE);
++		if (2 > max_available_size) {
++			RTW_INFO("no available efuse!\n");
++			return -EFAULT;
++		}
++		if (rtw_efuse_map_write(padapter, addr, cnt, &val) == _FAIL) {
++			RTW_INFO("rtw_efuse_map_write error\n");
++			return -EFAULT;
++		}
++		sprintf(extra, " efuse write ok :%d", val);
++	} else
++		sprintf(extra, "%d", val);
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++
++
++int rtw_mp_reset_stats(struct net_device *dev,
++		       struct iw_request_info *info,
++		       struct iw_point *wrqu, char *extra)
++{
++	struct mp_priv *pmp_priv;
++	struct pkt_attrib *pattrib;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	pmp_priv = &padapter->mppriv;
++
++	pmp_priv->tx.sended = 0;
++	pmp_priv->tx_pktcount = 0;
++	pmp_priv->rx_pktcount = 0;
++	pmp_priv->rx_pktcount_filter_out = 0;
++	pmp_priv->rx_crcerrpktcount = 0;
++
++	rtw_reset_phy_rx_counters(padapter);
++	rtw_reset_mac_rx_counters(padapter);
++
++	return 0;
++}
++
++
++int rtw_mp_dump(struct net_device *dev,
++		struct iw_request_info *info,
++		struct iw_point *wrqu, char *extra)
++{
++	struct mp_priv *pmp_priv;
++	struct pkt_attrib *pattrib;
++	u32 value;
++	u8		input[wrqu->length];
++	u8 rf_type, path_nums = 0;
++	u32 i, j = 1, path;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	pmp_priv = &padapter->mppriv;
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	if (strncmp(input, "all", 4) == 0) {
++		mac_reg_dump(RTW_DBGDUMP, padapter);
++		bb_reg_dump(RTW_DBGDUMP, padapter);
++		rf_reg_dump(RTW_DBGDUMP, padapter);
++	}
++	return 0;
++}
++
++
++int rtw_mp_phypara(struct net_device *dev,
++		   struct iw_request_info *info,
++		   struct iw_point *wrqu, char *extra)
++{
++
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(padapter);
++	char	input[wrqu->length];
++	u32		valxcap, ret;
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	RTW_INFO("%s:iwpriv in=%s\n", __func__, input);
++
++	ret = sscanf(input, "xcap=%d", &valxcap);
++
++	pHalData->CrystalCap = (u8)valxcap;
++	hal_set_crystal_cap(padapter , valxcap);
++
++	sprintf(extra, "Set xcap=%d", valxcap);
++	wrqu->length = strlen(extra) + 1;
++
++	return 0;
++
++}
++
++
++int rtw_mp_SetRFPath(struct net_device *dev,
++		     struct iw_request_info *info,
++		     union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	char	input[wrqu->data.length];
++	int		bMain = 1, bTurnoff = 1;
++
++	if (copy_from_user(input, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++	RTW_INFO("%s:iwpriv in=%s\n", __func__, input);
++
++	bMain = strncmp(input, "1", 2); /* strncmp TRUE is 0*/
++	bTurnoff = strncmp(input, "0", 3); /* strncmp TRUE is 0*/
++
++	if (bMain == 0) {
++		MP_PHY_SetRFPathSwitch(padapter, _TRUE);
++		RTW_INFO("%s:PHY_SetRFPathSwitch=TRUE\n", __func__);
++	} else if (bTurnoff == 0) {
++		MP_PHY_SetRFPathSwitch(padapter, _FALSE);
++		RTW_INFO("%s:PHY_SetRFPathSwitch=FALSE\n", __func__);
++	}
++
++	return 0;
++}
++
++
++int rtw_mp_QueryDrv(struct net_device *dev,
++		    struct iw_request_info *info,
++		    union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	char	input[wrqu->data.length];
++	int	qAutoLoad = 1;
++
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++
++	if (copy_from_user(input, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++	RTW_INFO("%s:iwpriv in=%s\n", __func__, input);
++
++	qAutoLoad = strncmp(input, "autoload", 8); /* strncmp TRUE is 0*/
++
++	if (qAutoLoad == 0) {
++		RTW_INFO("%s:qAutoLoad\n", __func__);
++
++		if (pHalData->bautoload_fail_flag)
++			sprintf(extra, "fail");
++		else
++			sprintf(extra, "ok");
++	}
++	wrqu->data.length = strlen(extra) + 1;
++	return 0;
++}
++
++
++int rtw_mp_PwrCtlDM(struct net_device *dev,
++		    struct iw_request_info *info,
++		    struct iw_point *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	u8		input[wrqu->length];
++	int		bstart = 1;
++
++	if (copy_from_user(input, wrqu->pointer, wrqu->length))
++		return -EFAULT;
++
++	bstart = strncmp(input, "start", 5); /* strncmp TRUE is 0*/
++	if (bstart == 0) {
++		sprintf(extra, "PwrCtlDM start\n");
++		MPT_PwrCtlDM(padapter, 1);
++	} else {
++		sprintf(extra, "PwrCtlDM stop\n");
++		MPT_PwrCtlDM(padapter, 0);
++	}
++	wrqu->length = strlen(extra);
++
++	return 0;
++}
++
++int rtw_mp_iqk(struct net_device *dev,
++		 struct iw_request_info *info,
++		 struct iw_point *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	rtw_mp_trigger_iqk(padapter);
++
++	return 0;
++}
++
++int rtw_mp_lck(struct net_device *dev,
++		 struct iw_request_info *info,
++		 struct iw_point *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	rtw_mp_trigger_lck(padapter);
++
++	return 0;
++}
++
++int rtw_mp_getver(struct net_device *dev,
++		  struct iw_request_info *info,
++		  union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	struct mp_priv *pmp_priv;
++
++	pmp_priv = &padapter->mppriv;
++
++	if (copy_from_user(extra, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++
++	sprintf(extra, "rtwpriv=%d\n", RTWPRIV_VER_INFO);
++	wrqu->data.length = strlen(extra);
++	return 0;
++}
++
++
++int rtw_mp_mon(struct net_device *dev,
++	       struct iw_request_info *info,
++	       union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct hal_ops *pHalFunc = &padapter->HalFunc;
++	NDIS_802_11_NETWORK_INFRASTRUCTURE networkType;
++	int bstart = 1, bstop = 1;
++
++	networkType = Ndis802_11Infrastructure;
++	if (copy_from_user(extra, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++
++	rtw_pm_set_ips(padapter, IPS_NONE);
++	LeaveAllPowerSaveMode(padapter);
++
++#ifdef CONFIG_MP_INCLUDED
++	if (init_mp_priv(padapter) == _FAIL)
++		RTW_INFO("%s: initialize MP private data Fail!\n", __func__);
++	padapter->mppriv.channel = 6;
++
++	bstart = strncmp(extra, "start", 5); /* strncmp TRUE is 0*/
++	bstop = strncmp(extra, "stop", 4); /* strncmp TRUE is 0*/
++	if (bstart == 0) {
++		mp_join(padapter, WIFI_FW_ADHOC_STATE);
++		SetPacketRx(padapter, _TRUE, _FALSE);
++		SetChannel(padapter);
++		pmp_priv->rx_bindicatePkt = _TRUE;
++		pmp_priv->bRTWSmbCfg = _TRUE;
++		sprintf(extra, "monitor mode start\n");
++	} else if (bstop == 0) {
++		SetPacketRx(padapter, _FALSE, _FALSE);
++		pmp_priv->rx_bindicatePkt = _FALSE;
++		pmp_priv->bRTWSmbCfg = _FALSE;
++		padapter->registrypriv.mp_mode = 1;
++		pHalFunc->hal_deinit(padapter);
++		padapter->registrypriv.mp_mode = 0;
++		pHalFunc->hal_init(padapter);
++		/*rtw_disassoc_cmd(padapter, 0, _TRUE);*/
++		if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++			rtw_disassoc_cmd(padapter, 500, _TRUE);
++			rtw_indicate_disconnect(padapter, 0, _FALSE);
++			/*rtw_free_assoc_resources(padapter, 1);*/
++		}
++		rtw_pm_set_ips(padapter, IPS_NORMAL);
++		sprintf(extra, "monitor mode Stop\n");
++	}
++#endif
++	wrqu->data.length = strlen(extra);
++	return 0;
++}
++
++int rtw_mp_pretx_proc(PADAPTER padapter, u8 bStartTest, char *extra)
++{
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(padapter);
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	PMPT_CONTEXT		pMptCtx = &(padapter->mppriv.MptCtx);
++
++	switch (pmp_priv->mode) {
++
++	case MP_PACKET_TX:
++		if (bStartTest == 0) {
++			pmp_priv->tx.stop = 1;
++			pmp_priv->mode = MP_ON;
++			sprintf(extra, "Stop continuous Tx");
++		} else if (pmp_priv->tx.stop == 1) {
++			sprintf(extra, "%s\nStart continuous DA=ffffffffffff len=1500 count=%u\n", extra, pmp_priv->tx.count);
++			pmp_priv->tx.stop = 0;
++			SetPacketTx(padapter);
++		} else
++			return -EFAULT;
++		return 0;
++	case MP_SINGLE_TONE_TX:
++		if (bStartTest != 0)
++			sprintf(extra, "%s\nStart continuous DA=ffffffffffff len=1500\n infinite=yes.", extra);
++		SetSingleToneTx(padapter, (u8)bStartTest);
++		break;
++	case MP_CONTINUOUS_TX:
++		if (bStartTest != 0)
++			sprintf(extra, "%s\nStart continuous DA=ffffffffffff len=1500\n infinite=yes.", extra);
++		SetContinuousTx(padapter, (u8)bStartTest);
++		break;
++	case MP_CARRIER_SUPPRISSION_TX:
++		if (bStartTest != 0) {
++			if (HwRateToMPTRate(pmp_priv->rateidx) <= MPT_RATE_11M)
++				sprintf(extra, "%s\nStart continuous DA=ffffffffffff len=1500\n infinite=yes.", extra);
++			else
++				sprintf(extra, "%s\nSpecify carrier suppression but not CCK rate", extra);
++		}
++		SetCarrierSuppressionTx(padapter, (u8)bStartTest);
++		break;
++	case MP_SINGLE_CARRIER_TX:
++		if (bStartTest != 0)
++			sprintf(extra, "%s\nStart continuous DA=ffffffffffff len=1500\n infinite=yes.", extra);
++		SetSingleCarrierTx(padapter, (u8)bStartTest);
++		break;
++
++	default:
++		sprintf(extra, "Error! Continuous-Tx is not on-going.");
++		return -EFAULT;
++	}
++
++	if (bStartTest == 1 && pmp_priv->mode != MP_ON) {
++		struct mp_priv *pmp_priv = &padapter->mppriv;
++
++		if (pmp_priv->tx.stop == 0) {
++			pmp_priv->tx.stop = 1;
++			rtw_msleep_os(5);
++		}
++#ifdef CONFIG_80211N_HT
++		pmp_priv->tx.attrib.ht_en = 1;
++#endif
++		pmp_priv->tx.stop = 0;
++		pmp_priv->tx.count = 1;
++		SetPacketTx(padapter);
++	} else
++		pmp_priv->mode = MP_ON;
++
++#if defined(CONFIG_RTL8812A)
++	if (IS_HARDWARE_TYPE_8812AU(padapter)) {
++		/* <20130425, Kordan> Turn off OFDM Rx to prevent from CCA causing Tx hang.*/
++		if (pmp_priv->mode == MP_PACKET_TX)
++			PHY_SetBBReg(padapter, rCCAonSec_Jaguar, BIT3, 1);
++		else
++			PHY_SetBBReg(padapter, rCCAonSec_Jaguar, BIT3, 0);
++	}
++#endif
++
++	return 0;
++}
++
++
++int rtw_mp_tx(struct net_device *dev,
++	      struct iw_request_info *info,
++	      union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(padapter);
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	PMPT_CONTEXT		pMptCtx = &(padapter->mppriv.MptCtx);
++	struct registry_priv	*pregistrypriv = &padapter->registrypriv;
++
++	u32 bandwidth = 0, sg = 0, channel = 6, txpower = 40, rate = 108, ant = 0, txmode = 1, count = 0;
++	u8 i = 0, j = 0, bStartTest = 1, status = 0, Idx = 0, tmpU1B = 0;
++	u16 antenna = 0;
++
++	if (copy_from_user(extra, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++	RTW_INFO("extra = %s\n", extra);
++#ifdef CONFIG_CONCURRENT_MODE
++	if (!is_primary_adapter(padapter)) {
++		sprintf(extra, "Error: MP mode can't support Virtual Adapter, Please to use main Adapter.\n");
++		wrqu->data.length = strlen(extra);
++		return 0;
++	}
++#endif
++
++	if (strncmp(extra, "stop", 3) == 0) {
++		bStartTest = 0; /* To set Stop*/
++		pmp_priv->tx.stop = 1;
++		sprintf(extra, "Stop continuous Tx");
++		status = rtw_mp_pretx_proc(padapter, bStartTest, extra);
++		wrqu->data.length = strlen(extra);
++		return status;
++	} else if (strncmp(extra, "count", 5) == 0) {
++		if (sscanf(extra, "count=%d", &count) < 1)
++			RTW_INFO("Got Count=%d]\n", count);
++		pmp_priv->tx.count = count;
++		return 0;
++	} else if (strncmp(extra, "setting", 7) == 0) {
++		_rtw_memset(extra, 0, wrqu->data.length);
++		sprintf(extra, "Current Setting :\n Channel:%d", pmp_priv->channel);
++		sprintf(extra, "%s\n Bandwidth:%d", extra, pmp_priv->bandwidth);
++		sprintf(extra, "%s\n Rate index:%d", extra, pmp_priv->rateidx);
++		sprintf(extra, "%s\n TxPower index:%d", extra, pmp_priv->txpoweridx);
++		sprintf(extra, "%s\n Antenna TxPath:%d", extra, pmp_priv->antenna_tx);
++		sprintf(extra, "%s\n Antenna RxPath:%d", extra, pmp_priv->antenna_rx);
++		sprintf(extra, "%s\n MP Mode:%d", extra, pmp_priv->mode);
++		wrqu->data.length = strlen(extra);
++		return 0;
++#ifdef CONFIG_MP_VHT_HW_TX_MODE
++	} else if (strncmp(extra, "pmact", 5) == 0) {
++		if (strncmp(extra, "pmact=", 6) == 0) {
++			_rtw_memset(&pMptCtx->PMacTxInfo, 0, sizeof(pMptCtx->PMacTxInfo));
++			if (strncmp(extra, "pmact=start", 11) == 0) {
++				pMptCtx->PMacTxInfo.bEnPMacTx = _TRUE;
++				sprintf(extra, "Set PMac Tx Mode start\n");
++			} else {
++				pMptCtx->PMacTxInfo.bEnPMacTx = _FALSE;
++				sprintf(extra, "Set PMac Tx Mode Stop\n");
++			}
++			if (pMptCtx->bldpc == TRUE)
++				pMptCtx->PMacTxInfo.bLDPC = _TRUE;
++
++			if (pMptCtx->bstbc == TRUE)
++				pMptCtx->PMacTxInfo.bSTBC = _TRUE;
++
++			pMptCtx->PMacTxInfo.bSPreamble = pmp_priv->preamble;
++			pMptCtx->PMacTxInfo.bSGI = pmp_priv->preamble;
++			pMptCtx->PMacTxInfo.BandWidth = pmp_priv->bandwidth;
++			pMptCtx->PMacTxInfo.TX_RATE = HwRateToMPTRate(pmp_priv->rateidx);
++
++			pMptCtx->PMacTxInfo.Mode = pMptCtx->HWTxmode;
++
++			pMptCtx->PMacTxInfo.NDP_sound = FALSE;/*(Adapter.PacketType == NDP_PKT)?TRUE:FALSE;*/
++
++			if (padapter->mppriv.pktInterval == 0)
++				pMptCtx->PMacTxInfo.PacketPeriod = 100;
++			else
++				pMptCtx->PMacTxInfo.PacketPeriod = padapter->mppriv.pktInterval;
++
++			if (padapter->mppriv.pktLength < 1000)
++				pMptCtx->PMacTxInfo.PacketLength = 1000;
++			else
++				pMptCtx->PMacTxInfo.PacketLength = padapter->mppriv.pktLength;
++
++			pMptCtx->PMacTxInfo.PacketPattern  = rtw_random32() % 0xFF;
++
++			if (padapter->mppriv.tx_pktcount != 0)
++				pMptCtx->PMacTxInfo.PacketCount = padapter->mppriv.tx_pktcount;
++
++			pMptCtx->PMacTxInfo.Ntx = 0;
++			for (Idx = 16; Idx < 20; Idx++) {
++				tmpU1B = (padapter->mppriv.antenna_tx >> Idx) & 1;
++				if (tmpU1B)
++					pMptCtx->PMacTxInfo.Ntx++;
++			}
++
++			_rtw_memset(pMptCtx->PMacTxInfo.MacAddress, 0xFF, ETH_ALEN);
++
++			PMAC_Get_Pkt_Param(&pMptCtx->PMacTxInfo, &pMptCtx->PMacPktInfo);
++
++			if (MPT_IS_CCK_RATE(pMptCtx->PMacTxInfo.TX_RATE))
++
++				CCK_generator(&pMptCtx->PMacTxInfo, &pMptCtx->PMacPktInfo);
++			else {
++				PMAC_Nsym_generator(&pMptCtx->PMacTxInfo, &pMptCtx->PMacPktInfo);
++				/* 24 BIT*/
++				L_SIG_generator(pMptCtx->PMacPktInfo.N_sym, &pMptCtx->PMacTxInfo, &pMptCtx->PMacPktInfo);
++			}
++			/*	48BIT*/
++			if (MPT_IS_HT_RATE(pMptCtx->PMacTxInfo.TX_RATE))
++				HT_SIG_generator(&pMptCtx->PMacTxInfo, &pMptCtx->PMacPktInfo);
++			else if (MPT_IS_VHT_RATE(pMptCtx->PMacTxInfo.TX_RATE)) {
++				/*	48BIT*/
++				VHT_SIG_A_generator(&pMptCtx->PMacTxInfo, &pMptCtx->PMacPktInfo);
++
++				/*	26/27/29 BIT  & CRC 8 BIT*/
++				VHT_SIG_B_generator(&pMptCtx->PMacTxInfo);
++
++				/* 32 BIT*/
++				VHT_Delimiter_generator(&pMptCtx->PMacTxInfo);
++			}
++
++			mpt_ProSetPMacTx(padapter);
++
++		} else if (strncmp(extra, "pmact,mode=", 11) == 0) {
++			int txmode = 0;
++
++			if (sscanf(extra, "pmact,mode=%d", &txmode) > 0) {
++				if (txmode == 1) {
++					pMptCtx->HWTxmode = CONTINUOUS_TX;
++					sprintf(extra, "\t Config HW Tx mode = CONTINUOUS_TX\n");
++				} else if (txmode == 2) {
++					pMptCtx->HWTxmode = OFDM_Single_Tone_TX;
++					sprintf(extra, "\t Config HW Tx mode = OFDM_Single_Tone_TX\n");
++				} else {
++					pMptCtx->HWTxmode = PACKETS_TX;
++					sprintf(extra, "\t Config HW Tx mode = PACKETS_TX\n");
++				}
++			} else {
++				pMptCtx->HWTxmode = PACKETS_TX;
++				sprintf(extra, "\t Config HW Tx mode=\n 0 = PACKETS_TX\n 1 = CONTINUOUS_TX\n 2 = OFDM_Single_Tone_TX");
++			}
++		} else if (strncmp(extra, "pmact,", 6) == 0) {
++			int PacketPeriod = 0, PacketLength = 0, PacketCout = 0;
++			int bldpc = 0, bstbc = 0;
++
++			if (sscanf(extra, "pmact,period=%d", &PacketPeriod) > 0) {
++				padapter->mppriv.pktInterval = PacketPeriod;
++				RTW_INFO("PacketPeriod=%d\n", padapter->mppriv.pktInterval);
++				sprintf(extra, "PacketPeriod [1~255]= %d\n", padapter->mppriv.pktInterval);
++
++			} else if (sscanf(extra, "pmact,length=%d", &PacketLength) > 0) {
++				padapter->mppriv.pktLength = PacketLength;
++				RTW_INFO("PacketPeriod=%d\n", padapter->mppriv.pktLength);
++				sprintf(extra, "PacketLength[~65535]=%d\n", padapter->mppriv.pktLength);
++
++			} else if (sscanf(extra, "pmact,count=%d", &PacketCout) > 0) {
++				padapter->mppriv.tx_pktcount = PacketCout;
++				RTW_INFO("Packet Cout =%d\n", padapter->mppriv.tx_pktcount);
++				sprintf(extra, "Packet Cout =%d\n", padapter->mppriv.tx_pktcount);
++
++			} else if (sscanf(extra, "pmact,ldpc=%d", &bldpc) > 0) {
++				pMptCtx->bldpc = bldpc;
++				RTW_INFO("Set LDPC =%d\n", pMptCtx->bldpc);
++				sprintf(extra, "Set LDPC =%d\n", pMptCtx->bldpc);
++
++			} else if (sscanf(extra, "pmact,stbc=%d", &bstbc) > 0) {
++				pMptCtx->bstbc = bstbc;
++				RTW_INFO("Set STBC =%d\n", pMptCtx->bstbc);
++				sprintf(extra, "Set STBC =%d\n", pMptCtx->bstbc);
++			} else
++				sprintf(extra, "\n period={1~255}\n length={1000~65535}\n count={0~}\n ldpc={0/1}\n stbc={0/1}");
++
++		}
++
++		wrqu->data.length = strlen(extra);
++		return 0;
++#endif
++	} else {
++
++		if (sscanf(extra, "ch=%d,bw=%d,rate=%d,pwr=%d,ant=%d,tx=%d", &channel, &bandwidth, &rate, &txpower, &ant, &txmode) < 6) {
++			RTW_INFO("Invalid format [ch=%d,bw=%d,rate=%d,pwr=%d,ant=%d,tx=%d]\n", channel, bandwidth, rate, txpower, ant, txmode);
++			_rtw_memset(extra, 0, wrqu->data.length);
++			sprintf(extra, "\n Please input correct format as bleow:\n");
++			sprintf(extra, "%s\t ch=%d,bw=%d,rate=%d,pwr=%d,ant=%d,tx=%d\n", extra, channel, bandwidth, rate, txpower, ant, txmode);
++			sprintf(extra, "%s\n [ ch : BGN = <1~14> , A or AC = <36~165> ]", extra);
++			sprintf(extra, "%s\n [ bw : Bandwidth: 0 = 20M, 1 = 40M, 2 = 80M ]", extra);
++			sprintf(extra, "%s\n [ rate :	CCK: 1 2 5.5 11M X 2 = < 2 4 11 22 >]", extra);
++			sprintf(extra, "%s\n [		OFDM: 6 9 12 18 24 36 48 54M X 2 = < 12 18 24 36 48 72 96 108>", extra);
++			sprintf(extra, "%s\n [		HT 1S2SS MCS0 ~ MCS15 : < [MCS0]=128 ~ [MCS7]=135 ~ [MCS15]=143 >", extra);
++			sprintf(extra, "%s\n [		HT 3SS MCS16 ~ MCS32 : < [MCS16]=144 ~ [MCS23]=151 ~ [MCS32]=159 >", extra);
++			sprintf(extra, "%s\n [		VHT 1SS MCS0 ~ MCS9 : < [MCS0]=160 ~ [MCS9]=169 >", extra);
++			sprintf(extra, "%s\n [ txpower : 1~63 power index", extra);
++			sprintf(extra, "%s\n [ ant : <A = 1, B = 2, C = 4, D = 8> ,2T ex: AB=3 BC=6 CD=12", extra);
++			sprintf(extra, "%s\n [ txmode : < 0 = CONTINUOUS_TX, 1 = PACKET_TX, 2 = SINGLE_TONE_TX, 3 = CARRIER_SUPPRISSION_TX, 4 = SINGLE_CARRIER_TX>\n", extra);
++			wrqu->data.length = strlen(extra);
++			return status;
++
++		} else {
++			RTW_INFO("Got format [ch=%d,bw=%d,rate=%d,pwr=%d,ant=%d,tx=%d]\n", channel, bandwidth, rate, txpower, ant, txmode);
++			_rtw_memset(extra, 0, wrqu->data.length);
++			sprintf(extra, "Change Current channel %d to channel %d", padapter->mppriv.channel , channel);
++			padapter->mppriv.channel = channel;
++			SetChannel(padapter);
++			pHalData->CurrentChannel = channel;
++
++			if (bandwidth == 1)
++				bandwidth = CHANNEL_WIDTH_40;
++			else if (bandwidth == 2)
++				bandwidth = CHANNEL_WIDTH_80;
++			sprintf(extra, "%s\nChange Current Bandwidth %d to Bandwidth %d", extra, padapter->mppriv.bandwidth , bandwidth);
++			padapter->mppriv.bandwidth = (u8)bandwidth;
++			padapter->mppriv.preamble = sg;
++			SetBandwidth(padapter);
++			pHalData->CurrentChannelBW = bandwidth;
++
++			sprintf(extra, "%s\nSet power level :%d", extra, txpower);
++			padapter->mppriv.txpoweridx = (u8)txpower;
++			pMptCtx->TxPwrLevel[ODM_RF_PATH_A] = (u8)txpower;
++			pMptCtx->TxPwrLevel[ODM_RF_PATH_B] = (u8)txpower;
++			pMptCtx->TxPwrLevel[ODM_RF_PATH_C] = (u8)txpower;
++			pMptCtx->TxPwrLevel[ODM_RF_PATH_D]  = (u8)txpower;
++
++			RTW_INFO("%s: bw=%d sg=%d\n", __func__, bandwidth, sg);
++
++			if (rate <= 0x7f)
++				rate = wifirate2_ratetbl_inx((u8)rate);
++			else if (rate < 0xC8)
++				rate = (rate - 0x80 + MPT_RATE_MCS0);
++			/*HT  rate 0x80(MCS0)  ~ 0x8F(MCS15) ~ 0x9F(MCS31) 128~159
++			VHT1SS~2SS rate 0xA0 (VHT1SS_MCS0 44) ~ 0xB3 (VHT2SS_MCS9 #63) 160~179
++			VHT rate 0xB4 (VHT3SS_MCS0 64) ~ 0xC7 (VHT2SS_MCS9 #83) 180~199
++			else
++			VHT rate 0x90(VHT1SS_MCS0) ~ 0x99(VHT1SS_MCS9) 144~153
++			rate =(rate - MPT_RATE_VHT1SS_MCS0);
++			*/
++			RTW_INFO("%s: rate index=%d\n", __func__, rate);
++			if (rate >= MPT_RATE_LAST)
++				return -EINVAL;
++			sprintf(extra, "%s\nSet data rate to %d index %d", extra, padapter->mppriv.rateidx, rate);
++
++			padapter->mppriv.rateidx = rate;
++			pMptCtx->MptRateIndex = rate;
++			SetDataRate(padapter);
++
++			sprintf(extra, "%s\nSet Antenna Path :%d",  extra, ant);
++			switch (ant) {
++			case 1:
++				antenna = ANTENNA_A;
++				break;
++			case 2:
++				antenna = ANTENNA_B;
++				break;
++			case 4:
++				antenna = ANTENNA_C;
++				break;
++			case 8:
++				antenna = ANTENNA_D;
++				break;
++			case 3:
++				antenna = ANTENNA_AB;
++				break;
++			case 5:
++				antenna = ANTENNA_AC;
++				break;
++			case 9:
++				antenna = ANTENNA_AD;
++				break;
++			case 6:
++				antenna = ANTENNA_BC;
++				break;
++			case 10:
++				antenna = ANTENNA_BD;
++				break;
++			case 12:
++				antenna = ANTENNA_CD;
++				break;
++			case 7:
++				antenna = ANTENNA_ABC;
++				break;
++			case 14:
++				antenna = ANTENNA_BCD;
++				break;
++			case 11:
++				antenna = ANTENNA_ABD;
++				break;
++			case 15:
++				antenna = ANTENNA_ABCD;
++				break;
++			}
++			RTW_INFO("%s: antenna=0x%x\n", __func__, antenna);
++			padapter->mppriv.antenna_tx = antenna;
++			padapter->mppriv.antenna_rx = antenna;
++			pHalData->AntennaTxPath = antenna;
++			SetAntenna(padapter);
++
++			if (txmode == 0)
++				pmp_priv->mode = MP_CONTINUOUS_TX;
++			else if (txmode == 1) {
++				pmp_priv->mode = MP_PACKET_TX;
++				pmp_priv->tx.count = count;
++			} else if (txmode == 2)
++				pmp_priv->mode = MP_SINGLE_TONE_TX;
++			else if (txmode == 3)
++				pmp_priv->mode = MP_CARRIER_SUPPRISSION_TX;
++			else if (txmode == 4)
++				pmp_priv->mode = MP_SINGLE_CARRIER_TX;
++
++			status = rtw_mp_pretx_proc(padapter, bStartTest, extra);
++		}
++
++	}
++
++	wrqu->data.length = strlen(extra);
++	return status;
++}
++
++
++int rtw_mp_rx(struct net_device *dev,
++	      struct iw_request_info *info,
++	      union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(padapter);
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	PMPT_CONTEXT		pMptCtx = &(padapter->mppriv.MptCtx);
++
++	u32 bandwidth = 0, sg = 0, channel = 6, ant = 0;
++	u16 antenna = 0;
++	u8 bStartRx = 0;
++
++	if (copy_from_user(extra, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (!is_primary_adapter(padapter)) {
++		sprintf(extra, "Error: MP mode can't support Virtual Adapter, Please to use main Adapter.\n");
++		wrqu->data.length = strlen(extra);
++		return 0;
++	}
++#endif
++
++	if (strncmp(extra, "stop", 4) == 0) {
++		_rtw_memset(extra, 0, wrqu->data.length);
++		SetPacketRx(padapter, bStartRx, _FALSE);
++		pmp_priv->bmac_filter = _FALSE;
++		sprintf(extra, "Received packet OK:%d CRC error:%d ,Filter out:%d", padapter->mppriv.rx_pktcount, padapter->mppriv.rx_crcerrpktcount, padapter->mppriv.rx_pktcount_filter_out);
++		wrqu->data.length = strlen(extra);
++		return 0;
++
++	} else if (sscanf(extra, "ch=%d,bw=%d,ant=%d", &channel, &bandwidth, &ant) < 3) {
++		RTW_INFO("Invalid format [ch=%d,bw=%d,ant=%d]\n", channel, bandwidth, ant);
++		_rtw_memset(extra, 0, wrqu->data.length);
++		sprintf(extra, "\n Please input correct format as bleow:\n");
++		sprintf(extra, "%s\t ch=%d,bw=%d,ant=%d\n", extra, channel, bandwidth, ant);
++		sprintf(extra, "%s\n [ ch : BGN = <1~14> , A or AC = <36~165> ]", extra);
++		sprintf(extra, "%s\n [ bw : Bandwidth: 0 = 20M, 1 = 40M, 2 = 80M ]", extra);
++		sprintf(extra, "%s\n [ ant : <A = 1, B = 2, C = 4, D = 8> ,2T ex: AB=3 BC=6 CD=12", extra);
++		wrqu->data.length = strlen(extra);
++		return 0;
++
++	} else {
++		bStartRx = 1;
++		RTW_INFO("Got format [ch=%d,bw=%d,ant=%d]\n", channel, bandwidth, ant);
++		_rtw_memset(extra, 0, wrqu->data.length);
++		sprintf(extra, "Change Current channel %d to channel %d", padapter->mppriv.channel , channel);
++		padapter->mppriv.channel = channel;
++		SetChannel(padapter);
++		pHalData->CurrentChannel = channel;
++
++		if (bandwidth == 1)
++			bandwidth = CHANNEL_WIDTH_40;
++		else if (bandwidth == 2)
++			bandwidth = CHANNEL_WIDTH_80;
++		sprintf(extra, "%s\nChange Current Bandwidth %d to Bandwidth %d", extra, padapter->mppriv.bandwidth , bandwidth);
++		padapter->mppriv.bandwidth = (u8)bandwidth;
++		padapter->mppriv.preamble = sg;
++		SetBandwidth(padapter);
++		pHalData->CurrentChannelBW = bandwidth;
++
++		sprintf(extra, "%s\nSet Antenna Path :%d",  extra, ant);
++		switch (ant) {
++		case 1:
++			antenna = ANTENNA_A;
++			break;
++		case 2:
++			antenna = ANTENNA_B;
++			break;
++		case 4:
++			antenna = ANTENNA_C;
++			break;
++		case 8:
++			antenna = ANTENNA_D;
++			break;
++		case 3:
++			antenna = ANTENNA_AB;
++			break;
++		case 5:
++			antenna = ANTENNA_AC;
++			break;
++		case 9:
++			antenna = ANTENNA_AD;
++			break;
++		case 6:
++			antenna = ANTENNA_BC;
++			break;
++		case 10:
++			antenna = ANTENNA_BD;
++			break;
++		case 12:
++			antenna = ANTENNA_CD;
++			break;
++		case 7:
++			antenna = ANTENNA_ABC;
++			break;
++		case 14:
++			antenna = ANTENNA_BCD;
++			break;
++		case 11:
++			antenna = ANTENNA_ABD;
++			break;
++		case 15:
++			antenna = ANTENNA_ABCD;
++			break;
++		}
++		RTW_INFO("%s: antenna=0x%x\n", __func__, antenna);
++		padapter->mppriv.antenna_tx = antenna;
++		padapter->mppriv.antenna_rx = antenna;
++		pHalData->AntennaTxPath = antenna;
++		SetAntenna(padapter);
++
++		sprintf(extra, "%s\nstart Rx", extra);
++		SetPacketRx(padapter, bStartRx, _FALSE);
++	}
++	wrqu->data.length = strlen(extra);
++	return 0;
++}
++
++
++int rtw_mp_hwtx(struct net_device *dev,
++		struct iw_request_info *info,
++		union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData	= GET_HAL_DATA(padapter);
++	struct mp_priv *pmp_priv = &padapter->mppriv;
++	PMPT_CONTEXT		pMptCtx = &(padapter->mppriv.MptCtx);
++
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8821B) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++	u8		input[wrqu->data.length];
++
++	if (copy_from_user(input, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++
++	_rtw_memset(&pMptCtx->PMacTxInfo, 0, sizeof(RT_PMAC_TX_INFO));
++	_rtw_memcpy((void *)&pMptCtx->PMacTxInfo, (void *)input, sizeof(RT_PMAC_TX_INFO));
++
++	mpt_ProSetPMacTx(padapter);
++	sprintf(extra, "Set PMac Tx Mode start\n");
++
++	wrqu->data.length = strlen(extra);
++#endif
++	return 0;
++
++}
++
++int rtw_efuse_mask_file(struct net_device *dev,
++			struct iw_request_info *info,
++			union iwreq_data *wrqu, char *extra)
++{
++	char *rtw_efuse_mask_file_path;
++	u8 Status;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++
++	_rtw_memset(maskfileBuffer, 0x00, sizeof(maskfileBuffer));
++
++	if (copy_from_user(extra, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++
++	if (strncmp(extra, "off", 3) == 0 && strlen(extra) < 4) {
++		padapter->registrypriv.boffefusemask = 1;
++		sprintf(extra, "Turn off Efuse Mask\n");
++		wrqu->data.length = strlen(extra);
++		return 0;
++	}
++	if (strncmp(extra, "on", 2) == 0 && strlen(extra) < 3) {
++		padapter->registrypriv.boffefusemask = 0;
++		sprintf(extra, "Turn on Efuse Mask\n");
++		wrqu->data.length = strlen(extra);
++		return 0;
++	}
++	rtw_efuse_mask_file_path = extra;
++
++	if (rtw_is_file_readable(rtw_efuse_mask_file_path) == _TRUE) {
++		RTW_INFO("%s do rtw_efuse_mask_file_read = %s! ,sizeof maskfileBuffer %zu\n", __func__, rtw_efuse_mask_file_path, sizeof(maskfileBuffer));
++		Status = rtw_efuse_file_read(padapter, rtw_efuse_mask_file_path, maskfileBuffer, sizeof(maskfileBuffer));
++		if (Status == _TRUE)
++			padapter->registrypriv.bFileMaskEfuse = _TRUE;
++		sprintf(extra, "efuse mask file read OK\n");
++	} else {
++		padapter->registrypriv.bFileMaskEfuse = _FALSE;
++		sprintf(extra, "efuse mask file readable FAIL\n");
++		RTW_INFO("%s rtw_is_file_readable fail!\n", __func__);
++	}
++	wrqu->data.length = strlen(extra);
++	return 0;
++}
++
++
++int rtw_efuse_file_map(struct net_device *dev,
++		       struct iw_request_info *info,
++		       union iwreq_data *wrqu, char *extra)
++{
++	char *rtw_efuse_file_map_path;
++	u8 Status;
++	PEFUSE_HAL pEfuseHal;
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	pEfuseHal = &pHalData->EfuseHal;
++	if (copy_from_user(extra, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++
++	rtw_efuse_file_map_path = extra;
++
++	_rtw_memset(pEfuseHal->fakeEfuseModifiedMap, 0xFF, EFUSE_MAX_MAP_LEN);
++
++	if (rtw_is_file_readable(rtw_efuse_file_map_path) == _TRUE) {
++		RTW_INFO("%s do rtw_efuse_mask_file_read = %s!\n", __func__, rtw_efuse_file_map_path);
++		Status = rtw_efuse_file_read(padapter, rtw_efuse_file_map_path, pEfuseHal->fakeEfuseModifiedMap, sizeof(pEfuseHal->fakeEfuseModifiedMap));
++		if (Status == _TRUE)
++			sprintf(extra, "efuse file file_read OK\n");
++		else
++			sprintf(extra, "efuse file file_read FAIL\n");
++	} else {
++		sprintf(extra, "efuse file readable FAIL\n");
++		RTW_INFO("%s rtw_is_file_readable fail!\n", __func__);
++	}
++	wrqu->data.length = strlen(extra);
++	return 0;
++}
++
++#if defined(CONFIG_RTL8723B)
++int rtw_mp_SetBT(struct net_device *dev,
++		 struct iw_request_info *info,
++		 union iwreq_data *wrqu, char *extra)
++{
++	PADAPTER padapter = rtw_netdev_priv(dev);
++	struct hal_ops *pHalFunc = &padapter->HalFunc;
++	HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++
++	BT_REQ_CMD	BtReq;
++	PMPT_CONTEXT	pMptCtx = &(padapter->mppriv.MptCtx);
++	PBT_RSP_CMD	pBtRsp = (PBT_RSP_CMD)&pMptCtx->mptOutBuf[0];
++	char	input[128];
++	char *pch, *ptmp, *token, *tmp[2] = {0x00, 0x00};
++	u8 setdata[100];
++	u8 resetbt = 0x00;
++	u8 tempval, BTStatus;
++	u8 H2cSetbtmac[6];
++	u8 u1H2CBtMpOperParm[4] = {0x01};
++	int testmode = 1, ready = 1, trxparam = 1, setgen = 1, getgen = 1, testctrl = 1, testbt = 1, readtherm = 1, setbtmac = 1;
++	u32 i = 0, ii = 0, jj = 0, kk = 0, cnts = 0, status = 0;
++	PRT_MP_FIRMWARE pBTFirmware = NULL;
++
++	if (copy_from_user(extra, wrqu->data.pointer, wrqu->data.length))
++		return -EFAULT;
++	if (strlen(extra) < 1)
++		return -EFAULT;
++
++	RTW_INFO("%s:iwpriv in=%s\n", __func__, extra);
++	ready = strncmp(extra, "ready", 5);
++	testmode = strncmp(extra, "testmode", 8); /* strncmp TRUE is 0*/
++	trxparam = strncmp(extra, "trxparam", 8);
++	setgen = strncmp(extra, "setgen", 6);
++	getgen = strncmp(extra, "getgen", 6);
++	testctrl = strncmp(extra, "testctrl", 8);
++	testbt = strncmp(extra, "testbt", 6);
++	readtherm = strncmp(extra, "readtherm", 9);
++	setbtmac = strncmp(extra, "setbtmac", 8);
++
++	if (strncmp(extra, "dlbt", 4) == 0) {
++		pHalData->LastHMEBoxNum = 0;
++		padapter->bBTFWReady = _FALSE;
++		rtw_write8(padapter, 0xa3, 0x05);
++		BTStatus = rtw_read8(padapter, 0xa0);
++		RTW_INFO("%s: btwmap before read 0xa0 BT Status =0x%x\n", __func__, BTStatus);
++		if (BTStatus != 0x04) {
++			sprintf(extra, "BT Status not Active DLFW FAIL\n");
++			goto exit;
++		}
++
++		tempval = rtw_read8(padapter, 0x6B);
++		tempval |= BIT7;
++		rtw_write8(padapter, 0x6B, tempval);
++
++		/* Attention!! Between 0x6A[14] and 0x6A[15] setting need 100us delay*/
++		/* So don't write 0x6A[14]=1 and 0x6A[15]=0 together!*/
++		rtw_usleep_os(100);
++		/* disable BT power cut*/
++		/* 0x6A[14] = 0*/
++		tempval = rtw_read8(padapter, 0x6B);
++		tempval &= ~BIT6;
++		rtw_write8(padapter, 0x6B, tempval);
++		rtw_usleep_os(100);
++		MPT_PwrCtlDM(padapter, 0);
++		rtw_write32(padapter, 0xcc, (rtw_read32(padapter, 0xcc) | 0x00000004));
++		rtw_write32(padapter, 0x6b, (rtw_read32(padapter, 0x6b) & 0xFFFFFFEF));
++		rtw_msleep_os(600);
++		rtw_write32(padapter, 0x6b, (rtw_read32(padapter, 0x6b) | 0x00000010));
++		rtw_write32(padapter, 0xcc, (rtw_read32(padapter, 0xcc) & 0xFFFFFFFB));
++		rtw_msleep_os(1200);
++		pBTFirmware = (PRT_MP_FIRMWARE)rtw_zmalloc(sizeof(RT_MP_FIRMWARE));
++		if (pBTFirmware == NULL)
++			goto exit;
++		padapter->bBTFWReady = _FALSE;
++		FirmwareDownloadBT(padapter, pBTFirmware);
++		if (pBTFirmware)
++			rtw_mfree((u8 *)pBTFirmware, sizeof(RT_MP_FIRMWARE));
++
++		RTW_INFO("Wait for FirmwareDownloadBT fw boot!\n");
++		rtw_msleep_os(2000);
++		_rtw_memset(extra, '\0', wrqu->data.length);
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 0;
++		BtReq.paraLength = 0;
++		mptbt_BtControlProcess(padapter, &BtReq);
++		rtw_msleep_os(100);
++
++		RTW_INFO("FirmwareDownloadBT ready = 0x%x 0x%x", pMptCtx->mptOutBuf[4], pMptCtx->mptOutBuf[5]);
++		if ((pMptCtx->mptOutBuf[4] == 0x00) && (pMptCtx->mptOutBuf[5] == 0x00)) {
++
++			if (padapter->mppriv.bTxBufCkFail == _TRUE)
++				sprintf(extra, "check TxBuf Fail.\n");
++			else
++				sprintf(extra, "download FW Fail.\n");
++		} else {
++			sprintf(extra, "download FW OK.\n");
++			goto exit;
++		}
++		goto exit;
++	}
++	if (strncmp(extra, "dlfw", 4) == 0) {
++		pHalData->LastHMEBoxNum = 0;
++		padapter->bBTFWReady = _FALSE;
++		rtw_write8(padapter, 0xa3, 0x05);
++		BTStatus = rtw_read8(padapter, 0xa0);
++		RTW_INFO("%s: btwmap before read 0xa0 BT Status =0x%x\n", __func__, BTStatus);
++		if (BTStatus != 0x04) {
++			sprintf(extra, "BT Status not Active DLFW FAIL\n");
++			goto exit;
++		}
++
++		tempval = rtw_read8(padapter, 0x6B);
++		tempval |= BIT7;
++		rtw_write8(padapter, 0x6B, tempval);
++
++		/* Attention!! Between 0x6A[14] and 0x6A[15] setting need 100us delay*/
++		/* So don't write 0x6A[14]=1 and 0x6A[15]=0 together!*/
++		rtw_usleep_os(100);
++		/* disable BT power cut*/
++		/* 0x6A[14] = 0*/
++		tempval = rtw_read8(padapter, 0x6B);
++		tempval &= ~BIT6;
++		rtw_write8(padapter, 0x6B, tempval);
++		rtw_usleep_os(100);
++
++		MPT_PwrCtlDM(padapter, 0);
++		rtw_write32(padapter, 0xcc, (rtw_read32(padapter, 0xcc) | 0x00000004));
++		rtw_write32(padapter, 0x6b, (rtw_read32(padapter, 0x6b) & 0xFFFFFFEF));
++		rtw_msleep_os(600);
++		rtw_write32(padapter, 0x6b, (rtw_read32(padapter, 0x6b) | 0x00000010));
++		rtw_write32(padapter, 0xcc, (rtw_read32(padapter, 0xcc) & 0xFFFFFFFB));
++		rtw_msleep_os(1200);
++
++#if defined(CONFIG_PLATFORM_SPRD) && (MP_DRIVER == 1)
++		/* Pull up BT reset pin.*/
++		RTW_INFO("%s: pull up BT reset pin when bt start mp test\n", __func__);
++		rtw_wifi_gpio_wlan_ctrl(WLAN_BT_PWDN_ON);
++#endif
++		RTW_INFO(" FirmwareDownload!\n");
++
++#if defined(CONFIG_RTL8723B)
++		status = rtl8723b_FirmwareDownload(padapter, _FALSE);
++#endif
++		RTW_INFO("Wait for FirmwareDownloadBT fw boot!\n");
++		rtw_msleep_os(1000);
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_HaltNotify(padapter);
++		RTW_INFO("SetBT btcoex HaltNotify !\n");
++		/*hal_btcoex1ant_SetAntPath(padapter);*/
++		rtw_btcoex_SetManualControl(padapter, _TRUE);
++#endif
++		_rtw_memset(extra, '\0', wrqu->data.length);
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 0;
++		BtReq.paraLength = 0;
++		mptbt_BtControlProcess(padapter, &BtReq);
++		rtw_msleep_os(200);
++
++		RTW_INFO("FirmwareDownloadBT ready = 0x%x 0x%x", pMptCtx->mptOutBuf[4], pMptCtx->mptOutBuf[5]);
++		if ((pMptCtx->mptOutBuf[4] == 0x00) && (pMptCtx->mptOutBuf[5] == 0x00)) {
++			if (padapter->mppriv.bTxBufCkFail == _TRUE)
++				sprintf(extra, "check TxBuf Fail.\n");
++			else
++				sprintf(extra, "download FW Fail.\n");
++		} else {
++#ifdef CONFIG_BT_COEXIST
++			rtw_btcoex_SwitchBtTRxMask(padapter);
++#endif
++			rtw_msleep_os(200);
++			sprintf(extra, "download FW OK.\n");
++			goto exit;
++		}
++		goto exit;
++	}
++
++	if (strncmp(extra, "down", 4) == 0) {
++		RTW_INFO("SetBT down for to hal_init !\n");
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_SetManualControl(padapter, _FALSE);
++		rtw_btcoex_Initialize(padapter);
++#endif
++		pHalFunc->read_adapter_info(padapter);
++		pHalFunc->hal_deinit(padapter);
++		pHalFunc->hal_init(padapter);
++		rtw_pm_set_ips(padapter, IPS_NONE);
++		LeaveAllPowerSaveMode(padapter);
++		MPT_PwrCtlDM(padapter, 0);
++		rtw_write32(padapter, 0xcc, (rtw_read32(padapter, 0xcc) | 0x00000004));
++		rtw_write32(padapter, 0x6b, (rtw_read32(padapter, 0x6b) & 0xFFFFFFEF));
++		rtw_msleep_os(600);
++		/*rtw_write32(padapter, 0x6a, (rtw_read32(padapter, 0x6a)& 0xFFFFFFFE));*/
++		rtw_write32(padapter, 0x6b, (rtw_read32(padapter, 0x6b) | 0x00000010));
++		rtw_write32(padapter, 0xcc, (rtw_read32(padapter, 0xcc) & 0xFFFFFFFB));
++		rtw_msleep_os(1200);
++		goto exit;
++	}
++	if (strncmp(extra, "disable", 7) == 0) {
++		RTW_INFO("SetBT disable !\n");
++		rtw_write32(padapter, 0x6a, (rtw_read32(padapter, 0x6a) & 0xFFFFFFFB));
++		rtw_msleep_os(500);
++		goto exit;
++	}
++	if (strncmp(extra, "enable", 6) == 0) {
++		RTW_INFO("SetBT enable !\n");
++		rtw_write32(padapter, 0x6a, (rtw_read32(padapter, 0x6a) | 0x00000004));
++		rtw_msleep_os(500);
++		goto exit;
++	}
++	if (strncmp(extra, "h2c", 3) == 0) {
++		RTW_INFO("SetBT h2c !\n");
++		padapter->bBTFWReady = _TRUE;
++		rtw_hal_fill_h2c_cmd(padapter, 0x63, 1, u1H2CBtMpOperParm);
++		goto exit;
++	}
++	if (strncmp(extra, "2ant", 4) == 0) {
++		RTW_INFO("Set BT 2ant use!\n");
++		PHY_SetMacReg(padapter, 0x67, BIT5, 0x1);
++		rtw_write32(padapter, 0x948, 0000);
++
++		goto exit;
++	}
++
++	if (ready != 0 && testmode != 0 && trxparam != 0 && setgen != 0 && getgen != 0 && testctrl != 0 && testbt != 0 && readtherm != 0 && setbtmac != 0)
++		return -EFAULT;
++
++	if (testbt == 0) {
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 6;
++		BtReq.paraLength = cnts / 2;
++		goto todo;
++	}
++	if (ready == 0) {
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 0;
++		BtReq.paraLength = 0;
++		goto todo;
++	}
++
++	pch = extra;
++	i = 0;
++	while ((token = strsep(&pch, ",")) != NULL) {
++		if (i > 1)
++			break;
++		tmp[i] = token;
++		i++;
++	}
++
++	if ((tmp[0] != NULL) && (tmp[1] != NULL)) {
++		cnts = strlen(tmp[1]);
++		if (cnts < 1)
++			return -EFAULT;
++
++		RTW_INFO("%s: cnts=%d\n", __func__, cnts);
++		RTW_INFO("%s: data=%s\n", __func__, tmp[1]);
++
++		for (jj = 0, kk = 0; jj < cnts; jj++, kk += 2) {
++			BtReq.pParamStart[jj] = key_2char2num(tmp[1][kk], tmp[1][kk + 1]);
++			/*			RTW_INFO("BtReq.pParamStart[%d]=0x%02x\n", jj, BtReq.pParamStart[jj]);*/
++		}
++	} else
++		return -EFAULT;
++
++	if (testmode == 0) {
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 1;
++		BtReq.paraLength = 1;
++	}
++	if (trxparam == 0) {
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 2;
++		BtReq.paraLength = cnts / 2;
++	}
++	if (setgen == 0) {
++		RTW_INFO("%s: BT_SET_GENERAL\n", __func__);
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 3;/*BT_SET_GENERAL	3*/
++		BtReq.paraLength = cnts / 2;
++	}
++	if (getgen == 0) {
++		RTW_INFO("%s: BT_GET_GENERAL\n", __func__);
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 4;/*BT_GET_GENERAL	4*/
++		BtReq.paraLength = cnts / 2;
++	}
++	if (readtherm == 0) {
++		RTW_INFO("%s: BT_GET_GENERAL\n", __func__);
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 4;/*BT_GET_GENERAL	4*/
++		BtReq.paraLength = cnts / 2;
++	}
++
++	if (testctrl == 0) {
++		RTW_INFO("%s: BT_TEST_CTRL\n", __func__);
++		BtReq.opCodeVer = 1;
++		BtReq.OpCode = 5;/*BT_TEST_CTRL	5*/
++		BtReq.paraLength = cnts / 2;
++	}
++
++	RTW_INFO("%s: Req opCodeVer=%d OpCode=%d paraLength=%d\n",
++		 __func__, BtReq.opCodeVer, BtReq.OpCode, BtReq.paraLength);
++
++	if (BtReq.paraLength < 1)
++		goto todo;
++	for (i = 0; i < BtReq.paraLength; i++) {
++		RTW_INFO("%s: BtReq.pParamStart[%d] = 0x%02x\n",
++			 __func__, i, BtReq.pParamStart[i]);
++	}
++
++todo:
++	_rtw_memset(extra, '\0', wrqu->data.length);
++
++	if (padapter->bBTFWReady == _FALSE) {
++		sprintf(extra, "BTFWReady = FALSE.\n");
++		goto exit;
++	}
++
++	mptbt_BtControlProcess(padapter, &BtReq);
++
++	if (readtherm == 0) {
++		sprintf(extra, "BT thermal=");
++		for (i = 4; i < pMptCtx->mptOutLen; i++) {
++			if ((pMptCtx->mptOutBuf[i] == 0x00) && (pMptCtx->mptOutBuf[i + 1] == 0x00))
++				goto exit;
++
++			sprintf(extra, "%s %d ", extra, (pMptCtx->mptOutBuf[i] & 0x1f));
++		}
++	} else {
++		for (i = 4; i < pMptCtx->mptOutLen; i++)
++			sprintf(extra, "%s 0x%x ", extra, pMptCtx->mptOutBuf[i]);
++	}
++
++exit:
++	wrqu->data.length = strlen(extra) + 1;
++	RTW_INFO("-%s: output len=%d data=%s\n", __func__, wrqu->data.length, extra);
++
++	return status;
++}
++
++#endif /*#ifdef CONFIG_RTL8723B*/
++
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/mlme_linux.c b/drivers/net/wireless/rtl8812au/os_dep/linux/mlme_linux.c
+new file mode 100644
+index 0000000..b2b85cb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/mlme_linux.c
+@@ -0,0 +1,584 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#define _MLME_OSDEP_C_
++
++#include <drv_types.h>
++
++
++#ifdef RTK_DMP_PLATFORM
++void Linkup_workitem_callback(struct work_struct *work)
++{
++	struct mlme_priv *pmlmepriv = container_of(work, struct mlme_priv, Linkup_workitem);
++	_adapter *padapter = container_of(pmlmepriv, _adapter, mlmepriv);
++
++
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 12))
++	kobject_uevent(&padapter->pnetdev->dev.kobj, KOBJ_LINKUP);
++#else
++	kobject_hotplug(&padapter->pnetdev->class_dev.kobj, KOBJ_LINKUP);
++#endif
++
++}
++
++void Linkdown_workitem_callback(struct work_struct *work)
++{
++	struct mlme_priv *pmlmepriv = container_of(work, struct mlme_priv, Linkdown_workitem);
++	_adapter *padapter = container_of(pmlmepriv, _adapter, mlmepriv);
++
++
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 12))
++	kobject_uevent(&padapter->pnetdev->dev.kobj, KOBJ_LINKDOWN);
++#else
++	kobject_hotplug(&padapter->pnetdev->class_dev.kobj, KOBJ_LINKDOWN);
++#endif
++
++}
++#endif
++
++
++/*
++void sitesurvey_ctrl_handler(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++
++	_sitesurvey_ctrl_handler(adapter);
++
++	_set_timer(&adapter->mlmepriv.sitesurveyctrl.sitesurvey_ctrl_timer, 3000);
++}
++*/
++
++void rtw_join_timeout_handler(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	_rtw_join_timeout_handler(adapter);
++}
++
++
++void _rtw_scan_timeout_handler(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	rtw_scan_timeout_handler(adapter);
++}
++
++
++void _dynamic_check_timer_handlder(void *FunctionContext)
++{
++	struct dvobj_priv *pdvobj = (struct dvobj_priv *)FunctionContext;
++	_adapter *adapter = dvobj_get_primary_adapter(pdvobj);
++
++#if (MP_DRIVER == 1)
++	if (adapter->registrypriv.mp_mode == 1 && adapter->mppriv.mp_dm == 0) { /* for MP ODM dynamic Tx power tracking */
++		/* RTW_INFO("_dynamic_check_timer_handlder mp_dm =0 return\n"); */
++		_set_timer(&pdvobj->dynamic_chk_timer, 2000);
++		return;
++	}
++#endif
++
++	rtw_dynamic_check_timer_handlder(adapter);
++
++	_set_timer(&pdvobj->dynamic_chk_timer, 2000);
++}
++
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++void _rtw_set_scan_deny_timer_hdl(void *FunctionContext)
++{
++	_adapter *adapter = (_adapter *)FunctionContext;
++	rtw_set_scan_deny_timer_hdl(adapter);
++}
++#endif
++
++
++void rtw_init_mlme_timer(_adapter *padapter)
++{
++	struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	_init_timer(&(pmlmepriv->assoc_timer), padapter->pnetdev, rtw_join_timeout_handler, padapter);
++	/* _init_timer(&(pmlmepriv->sitesurveyctrl.sitesurvey_ctrl_timer), padapter->pnetdev, sitesurvey_ctrl_handler, padapter); */
++	_init_timer(&(pmlmepriv->scan_to_timer), padapter->pnetdev, _rtw_scan_timeout_handler, padapter);
++
++#ifdef CONFIG_DFS_MASTER
++	_init_timer(&(pmlmepriv->dfs_master_timer), padapter->pnetdev, rtw_dfs_master_timer_hdl, padapter);
++#endif
++
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++	_init_timer(&(pmlmepriv->set_scan_deny_timer), padapter->pnetdev, _rtw_set_scan_deny_timer_hdl, padapter);
++#endif
++
++#ifdef RTK_DMP_PLATFORM
++	_init_workitem(&(pmlmepriv->Linkup_workitem), Linkup_workitem_callback, padapter);
++	_init_workitem(&(pmlmepriv->Linkdown_workitem), Linkdown_workitem_callback, padapter);
++#endif
++
++}
++
++extern void rtw_indicate_wx_assoc_event(_adapter *padapter);
++extern void rtw_indicate_wx_disassoc_event(_adapter *padapter);
++
++void rtw_os_indicate_connect(_adapter *adapter)
++{
++	struct mlme_priv *pmlmepriv = &(adapter->mlmepriv);
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if ((check_fwstate(pmlmepriv, WIFI_ADHOC_MASTER_STATE) == _TRUE) ||
++	    (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE) == _TRUE))
++		rtw_cfg80211_ibss_indicate_connect(adapter);
++	else
++		rtw_cfg80211_indicate_connect(adapter);
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	rtw_indicate_wx_assoc_event(adapter);
++	netif_carrier_on(adapter->pnetdev);
++
++	if (adapter->pid[2] != 0)
++		rtw_signal_process(adapter->pid[2], SIGALRM);
++
++#ifdef RTK_DMP_PLATFORM
++	_set_workitem(&adapter->mlmepriv.Linkup_workitem);
++#endif
++
++
++}
++
++extern void indicate_wx_scan_complete_event(_adapter *padapter);
++void rtw_os_indicate_scan_done(_adapter *padapter, bool aborted)
++{
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_cfg80211_indicate_scan_done(padapter, aborted);
++#endif
++	indicate_wx_scan_complete_event(padapter);
++}
++
++static RT_PMKID_LIST   backupPMKIDList[NUM_PMKID_CACHE];
++void rtw_reset_securitypriv(_adapter *adapter)
++{
++	u8	backupPMKIDIndex = 0;
++	u8	backupTKIPCountermeasure = 0x00;
++	u32	backupTKIPcountermeasure_time = 0;
++	/* add for CONFIG_IEEE80211W, none 11w also can use */
++	_irqL irqL;
++	struct mlme_ext_priv	*pmlmeext = &adapter->mlmeextpriv;
++
++	_enter_critical_bh(&adapter->security_key_mutex, &irqL);
++
++	if (adapter->securitypriv.dot11AuthAlgrthm == dot11AuthAlgrthm_8021X) { /* 802.1x */
++		/* Added by Albert 2009/02/18 */
++		/* We have to backup the PMK information for WiFi PMK Caching test item. */
++		/*  */
++		/* Backup the btkip_countermeasure information. */
++		/* When the countermeasure is trigger, the driver have to disconnect with AP for 60 seconds. */
++
++		_rtw_memset(&backupPMKIDList[0], 0x00, sizeof(RT_PMKID_LIST) * NUM_PMKID_CACHE);
++
++		_rtw_memcpy(&backupPMKIDList[0], &adapter->securitypriv.PMKIDList[0], sizeof(RT_PMKID_LIST) * NUM_PMKID_CACHE);
++		backupPMKIDIndex = adapter->securitypriv.PMKIDIndex;
++		backupTKIPCountermeasure = adapter->securitypriv.btkip_countermeasure;
++		backupTKIPcountermeasure_time = adapter->securitypriv.btkip_countermeasure_time;
++#ifdef CONFIG_IEEE80211W
++		/* reset RX BIP packet number */
++		pmlmeext->mgnt_80211w_IPN_rx = 0;
++#endif /* CONFIG_IEEE80211W */
++		_rtw_memset((unsigned char *)&adapter->securitypriv, 0, sizeof(struct security_priv));
++		/* _init_timer(&(adapter->securitypriv.tkip_timer),adapter->pnetdev, rtw_use_tkipkey_handler, adapter); */
++
++		/* Added by Albert 2009/02/18 */
++		/* Restore the PMK information to securitypriv structure for the following connection. */
++		_rtw_memcpy(&adapter->securitypriv.PMKIDList[0], &backupPMKIDList[0], sizeof(RT_PMKID_LIST) * NUM_PMKID_CACHE);
++		adapter->securitypriv.PMKIDIndex = backupPMKIDIndex;
++		adapter->securitypriv.btkip_countermeasure = backupTKIPCountermeasure;
++		adapter->securitypriv.btkip_countermeasure_time = backupTKIPcountermeasure_time;
++
++		adapter->securitypriv.ndisauthtype = Ndis802_11AuthModeOpen;
++		adapter->securitypriv.ndisencryptstatus = Ndis802_11WEPDisabled;
++
++	} else { /* reset values in securitypriv */
++		/* if(adapter->mlmepriv.fw_state & WIFI_STATION_STATE) */
++		/* { */
++		struct security_priv *psec_priv = &adapter->securitypriv;
++
++		psec_priv->dot11AuthAlgrthm = dot11AuthAlgrthm_Open; /* open system */
++		psec_priv->dot11PrivacyAlgrthm = _NO_PRIVACY_;
++		psec_priv->dot11PrivacyKeyIndex = 0;
++
++		psec_priv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++		psec_priv->dot118021XGrpKeyid = 1;
++
++		psec_priv->ndisauthtype = Ndis802_11AuthModeOpen;
++		psec_priv->ndisencryptstatus = Ndis802_11WEPDisabled;
++		/* } */
++	}
++	/* add for CONFIG_IEEE80211W, none 11w also can use */
++	_exit_critical_bh(&adapter->security_key_mutex, &irqL);
++
++	RTW_INFO(FUNC_ADPT_FMT" - End to Disconnect\n", FUNC_ADPT_ARG(adapter));
++}
++
++void rtw_os_indicate_disconnect(_adapter *adapter,  u16 reason, u8 locally_generated)
++{
++	/* RT_PMKID_LIST   backupPMKIDList[NUM_PMKID_CACHE]; */
++
++
++	netif_carrier_off(adapter->pnetdev); /* Do it first for tx broadcast pkt after disconnection issue! */
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_cfg80211_indicate_disconnect(adapter,  reason, locally_generated);
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++	rtw_indicate_wx_disassoc_event(adapter);
++
++#ifdef RTK_DMP_PLATFORM
++	_set_workitem(&adapter->mlmepriv.Linkdown_workitem);
++#endif
++	/* modify for CONFIG_IEEE80211W, none 11w also can use the same command */
++	rtw_reset_securitypriv_cmd(adapter);
++
++
++}
++
++void rtw_report_sec_ie(_adapter *adapter, u8 authmode, u8 *sec_ie)
++{
++	uint	len;
++	u8	*buff, *p, i;
++	union iwreq_data wrqu;
++
++
++
++	buff = NULL;
++	if (authmode == _WPA_IE_ID_) {
++
++		buff = rtw_zmalloc(IW_CUSTOM_MAX);
++		if (NULL == buff) {
++			RTW_INFO(FUNC_ADPT_FMT ": alloc memory FAIL!!\n",
++				 FUNC_ADPT_ARG(adapter));
++			return;
++		}
++		p = buff;
++
++		p += sprintf(p, "ASSOCINFO(ReqIEs=");
++
++		len = sec_ie[1] + 2;
++		len = (len < IW_CUSTOM_MAX) ? len : IW_CUSTOM_MAX;
++
++		for (i = 0; i < len; i++)
++			p += sprintf(p, "%02x", sec_ie[i]);
++
++		p += sprintf(p, ")");
++
++		_rtw_memset(&wrqu, 0, sizeof(wrqu));
++
++		wrqu.data.length = p - buff;
++
++		wrqu.data.length = (wrqu.data.length < IW_CUSTOM_MAX) ? wrqu.data.length : IW_CUSTOM_MAX;
++
++#ifndef CONFIG_IOCTL_CFG80211
++		wireless_send_event(adapter->pnetdev, IWEVCUSTOM, &wrqu, buff);
++#endif
++
++		rtw_mfree(buff, IW_CUSTOM_MAX);
++	}
++
++
++}
++
++void _survey_timer_hdl(void *FunctionContext)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++
++	survey_timer_hdl(padapter);
++}
++
++void _link_timer_hdl(void *FunctionContext)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++	link_timer_hdl(padapter);
++}
++
++void _addba_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *psta = (struct sta_info *)FunctionContext;
++	addba_timer_hdl(psta);
++}
++
++#ifdef CONFIG_IEEE80211W
++
++void _sa_query_timer_hdl(void *FunctionContext)
++{
++	struct sta_info *psta = (struct sta_info *)FunctionContext;
++
++	sa_query_timer_hdl(psta);
++}
++
++void init_dot11w_expire_timer(_adapter *padapter, struct sta_info *psta)
++{
++	_init_timer(&psta->dot11w_expire_timer, padapter->pnetdev, _sa_query_timer_hdl, psta);
++}
++
++#endif /* CONFIG_IEEE80211W */
++
++void init_addba_retry_timer(_adapter *padapter, struct sta_info *psta)
++{
++
++	_init_timer(&psta->addba_retry_timer, padapter->pnetdev, _addba_timer_hdl, psta);
++}
++
++/*
++void _reauth_timer_hdl(void *FunctionContext)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++	reauth_timer_hdl(padapter);
++}
++
++void _reassoc_timer_hdl(void *FunctionContext)
++{
++	_adapter *padapter = (_adapter *)FunctionContext;
++	reassoc_timer_hdl(padapter);
++}
++*/
++
++void init_mlme_ext_timer(_adapter *padapter)
++{
++	struct	mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++
++	_init_timer(&pmlmeext->survey_timer, padapter->pnetdev, _survey_timer_hdl, padapter);
++	_init_timer(&pmlmeext->link_timer, padapter->pnetdev, _link_timer_hdl, padapter);
++
++	/* _init_timer(&pmlmeext->ADDBA_timer, padapter->pnetdev, _addba_timer_hdl, padapter); */
++
++	/* _init_timer(&pmlmeext->reauth_timer, padapter->pnetdev, _reauth_timer_hdl, padapter); */
++	/* _init_timer(&pmlmeext->reassoc_timer, padapter->pnetdev, _reassoc_timer_hdl, padapter); */
++}
++
++#ifdef CONFIG_AP_MODE
++
++void rtw_indicate_sta_assoc_event(_adapter *padapter, struct sta_info *psta)
++{
++	union iwreq_data wrqu;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	if (psta == NULL)
++		return;
++
++	if (psta->aid > NUM_STA)
++		return;
++
++	if (pstapriv->sta_aid[psta->aid - 1] != psta)
++		return;
++
++
++	wrqu.addr.sa_family = ARPHRD_ETHER;
++
++	_rtw_memcpy(wrqu.addr.sa_data, psta->hwaddr, ETH_ALEN);
++
++	RTW_INFO("+rtw_indicate_sta_assoc_event\n");
++
++#ifndef CONFIG_IOCTL_CFG80211
++	wireless_send_event(padapter->pnetdev, IWEVREGISTERED, &wrqu, NULL);
++#endif
++
++}
++
++void rtw_indicate_sta_disassoc_event(_adapter *padapter, struct sta_info *psta)
++{
++	union iwreq_data wrqu;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++
++	if (psta == NULL)
++		return;
++
++	if (psta->aid > NUM_STA)
++		return;
++
++	if (pstapriv->sta_aid[psta->aid - 1] != psta)
++		return;
++
++
++	wrqu.addr.sa_family = ARPHRD_ETHER;
++
++	_rtw_memcpy(wrqu.addr.sa_data, psta->hwaddr, ETH_ALEN);
++
++	RTW_INFO("+rtw_indicate_sta_disassoc_event\n");
++
++#ifndef CONFIG_IOCTL_CFG80211
++	wireless_send_event(padapter->pnetdev, IWEVEXPIRED, &wrqu, NULL);
++#endif
++
++}
++
++
++#ifdef CONFIG_HOSTAPD_MLME
++
++static int mgnt_xmit_entry(struct sk_buff *skb, struct net_device *pnetdev)
++{
++	struct hostapd_priv *phostapdpriv = rtw_netdev_priv(pnetdev);
++	_adapter *padapter = (_adapter *)phostapdpriv->padapter;
++
++	/* RTW_INFO("%s\n", __FUNCTION__); */
++
++	return rtw_hal_hostap_mgnt_xmit_entry(padapter, skb);
++}
++
++static int mgnt_netdev_open(struct net_device *pnetdev)
++{
++	struct hostapd_priv *phostapdpriv = rtw_netdev_priv(pnetdev);
++
++	RTW_INFO("mgnt_netdev_open: MAC Address:" MAC_FMT "\n", MAC_ARG(pnetdev->dev_addr));
++
++
++	init_usb_anchor(&phostapdpriv->anchored);
++
++	rtw_netif_wake_queue(pnetdev);
++
++	netif_carrier_on(pnetdev);
++
++	/* rtw_write16(phostapdpriv->padapter, 0x0116, 0x0100); */ /* only excluding beacon */
++
++	return 0;
++}
++static int mgnt_netdev_close(struct net_device *pnetdev)
++{
++	struct hostapd_priv *phostapdpriv = rtw_netdev_priv(pnetdev);
++
++	RTW_INFO("%s\n", __FUNCTION__);
++
++	usb_kill_anchored_urbs(&phostapdpriv->anchored);
++
++	netif_carrier_off(pnetdev);
++
++	rtw_netif_stop_queue(pnetdev);
++
++	/* rtw_write16(phostapdpriv->padapter, 0x0116, 0x3f3f); */
++
++	return 0;
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
++static const struct net_device_ops rtl871x_mgnt_netdev_ops = {
++	.ndo_open = mgnt_netdev_open,
++	.ndo_stop = mgnt_netdev_close,
++	.ndo_start_xmit = mgnt_xmit_entry,
++	#if 0
++	.ndo_set_mac_address = r871x_net_set_mac_address,
++	.ndo_get_stats = r871x_net_get_stats,
++	.ndo_do_ioctl = r871x_mp_ioctl,
++	#endif
++};
++#endif
++
++int hostapd_mode_init(_adapter *padapter)
++{
++	unsigned char mac[ETH_ALEN];
++	struct hostapd_priv *phostapdpriv;
++	struct net_device *pnetdev;
++
++	pnetdev = rtw_alloc_etherdev(sizeof(struct hostapd_priv));
++	if (!pnetdev)
++		return -ENOMEM;
++
++	/* SET_MODULE_OWNER(pnetdev); */
++	ether_setup(pnetdev);
++
++	/* pnetdev->type = ARPHRD_IEEE80211; */
++
++	phostapdpriv = rtw_netdev_priv(pnetdev);
++	phostapdpriv->pmgnt_netdev = pnetdev;
++	phostapdpriv->padapter = padapter;
++	padapter->phostapdpriv = phostapdpriv;
++
++	/* pnetdev->init = NULL; */
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
++
++	RTW_INFO("register rtl871x_mgnt_netdev_ops to netdev_ops\n");
++
++	pnetdev->netdev_ops = &rtl871x_mgnt_netdev_ops;
++
++#else
++
++	pnetdev->open = mgnt_netdev_open;
++
++	pnetdev->stop = mgnt_netdev_close;
++
++	pnetdev->hard_start_xmit = mgnt_xmit_entry;
++
++	/* pnetdev->set_mac_address = r871x_net_set_mac_address; */
++
++	/* pnetdev->get_stats = r871x_net_get_stats; */
++
++	/* pnetdev->do_ioctl = r871x_mp_ioctl; */
++
++#endif
++
++	pnetdev->watchdog_timeo = HZ; /* 1 second timeout */
++
++	/* pnetdev->wireless_handlers = NULL; */
++
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
++	pnetdev->features |= NETIF_F_IP_CSUM;
++#endif
++
++
++
++	if (dev_alloc_name(pnetdev, "mgnt.wlan%d") < 0)
++		RTW_INFO("hostapd_mode_init(): dev_alloc_name, fail!\n");
++
++
++	/* SET_NETDEV_DEV(pnetdev, pintfpriv->udev); */
++
++
++	mac[0] = 0x00;
++	mac[1] = 0xe0;
++	mac[2] = 0x4c;
++	mac[3] = 0x87;
++	mac[4] = 0x11;
++	mac[5] = 0x12;
++
++	_rtw_memcpy(pnetdev->dev_addr, mac, ETH_ALEN);
++
++
++	netif_carrier_off(pnetdev);
++
++
++	/* Tell the network stack we exist */
++	if (register_netdev(pnetdev) != 0) {
++		RTW_INFO("hostapd_mode_init(): register_netdev fail!\n");
++
++		if (pnetdev)
++			rtw_free_netdev(pnetdev);
++	}
++
++	return 0;
++
++}
++
++void hostapd_mode_unload(_adapter *padapter)
++{
++	struct hostapd_priv *phostapdpriv = padapter->phostapdpriv;
++	struct net_device *pnetdev = phostapdpriv->pmgnt_netdev;
++
++	unregister_netdev(pnetdev);
++	rtw_free_netdev(pnetdev);
++
++}
++
++#endif
++#endif
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/os_intfs.c b/drivers/net/wireless/rtl8812au/os_dep/linux/os_intfs.c
+new file mode 100644
+index 0000000..4410625
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/os_intfs.c
+@@ -0,0 +1,4235 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _OS_INTFS_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#if defined(PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++
++	#error "Shall be Linux or Windows, but not both!\n"
++
++#endif
++
++
++MODULE_LICENSE("GPL");
++MODULE_DESCRIPTION("Realtek Wireless Lan Driver");
++MODULE_AUTHOR("Realtek Semiconductor Corp.");
++MODULE_VERSION(DRIVERVERSION);
++
++/* module param defaults */
++int rtw_chip_version = 0x00;
++int rtw_rfintfs = HWPI;
++int rtw_lbkmode = 0;/* RTL8712_AIR_TRX; */
++
++
++int rtw_network_mode = Ndis802_11IBSS;/* Ndis802_11Infrastructure; */ /* infra, ad-hoc, auto */
++/* NDIS_802_11_SSID	ssid; */
++int rtw_channel = 1;/* ad-hoc support requirement */
++int rtw_wireless_mode = WIRELESS_MODE_MAX;
++int rtw_vrtl_carrier_sense = AUTO_VCS;
++int rtw_vcs_type = RTS_CTS;
++int rtw_rts_thresh = 2347;
++int rtw_frag_thresh = 2346;
++int rtw_preamble = PREAMBLE_LONG;/* long, short, auto */
++int rtw_scan_mode = 1;/* active, passive */
++int rtw_adhoc_tx_pwr = 1;
++int rtw_soft_ap = 0;
++/* int smart_ps = 1; */
++#ifdef CONFIG_POWER_SAVING
++	int rtw_power_mgnt = PS_MODE_MAX;
++	#ifdef CONFIG_IPS_LEVEL_2
++		int rtw_ips_mode = IPS_LEVEL_2;
++	#else
++		int rtw_ips_mode = IPS_NORMAL;
++	#endif
++#else
++	int rtw_power_mgnt = PS_MODE_ACTIVE;
++	int rtw_ips_mode = IPS_NONE;
++#endif
++module_param(rtw_ips_mode, int, 0644);
++MODULE_PARM_DESC(rtw_ips_mode, "The default IPS mode");
++
++int rtw_smart_ps = 2;
++
++int rtw_check_fw_ps = 1;
++
++#ifdef CONFIG_TX_EARLY_MODE
++int rtw_early_mode = 1;
++#endif
++
++int rtw_usb_rxagg_mode = 2;/* RX_AGG_DMA=1, RX_AGG_USB=2 */
++module_param(rtw_usb_rxagg_mode, int, 0644);
++
++/* set log level when inserting driver module, default log level is _DRV_INFO_ = 4,
++* please refer to "How_to_set_driver_debug_log_level.doc" to set the available level.
++*/
++#ifdef RTW_LOG_LEVEL
++	uint rtw_drv_log_level = (uint)RTW_LOG_LEVEL; /* from Makefile */
++#else
++	uint rtw_drv_log_level = _DRV_INFO_;
++#endif
++module_param(rtw_drv_log_level, uint, 0644);
++MODULE_PARM_DESC(rtw_drv_log_level, "set log level when insert driver module, default log level is _DRV_INFO_ = 4");
++
++int rtw_radio_enable = 1;
++int rtw_long_retry_lmt = 7;
++int rtw_short_retry_lmt = 7;
++int rtw_busy_thresh = 40;
++/* int qos_enable = 0; */ /* * */
++int rtw_ack_policy = NORMAL_ACK;
++
++int rtw_mp_mode = 0;
++
++int rtw_software_encrypt = 0;
++int rtw_software_decrypt = 0;
++
++int rtw_acm_method = 0;/* 0:By SW 1:By HW. */
++
++int rtw_wmm_enable = 1;/* default is set to enable the wmm. */
++int rtw_uapsd_enable = 0;
++int rtw_uapsd_max_sp = NO_LIMIT;
++int rtw_uapsd_acbk_en = 0;
++int rtw_uapsd_acbe_en = 0;
++int rtw_uapsd_acvi_en = 0;
++int rtw_uapsd_acvo_en = 0;
++#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C)
++	int rtw_pwrtrim_enable = 2; /* disable kfree , rename to power trim disable */
++#else
++	int rtw_pwrtrim_enable = 0; /* Default Enalbe  power trim by efuse config */
++#endif
++
++uint rtw_tx_bw_mode = 0x21;
++module_param(rtw_tx_bw_mode, uint, 0644);
++MODULE_PARM_DESC(rtw_tx_bw_mode, "The max tx bw for 2.4G and 5G. format is the same as rtw_bw_mode");
++
++#ifdef CONFIG_80211N_HT
++int rtw_ht_enable = 1;
++/* 0: 20 MHz, 1: 40 MHz, 2: 80 MHz, 3: 160MHz, 4: 80+80MHz
++* 2.4G use bit 0 ~ 3, 5G use bit 4 ~ 7
++* 0x21 means enable 2.4G 40MHz & 5G 80MHz */
++int rtw_bw_mode = 0x21;
++int rtw_ampdu_enable = 1;/* for enable tx_ampdu , */ /* 0: disable, 0x1:enable */
++int rtw_rx_stbc = 1;/* 0: disable, bit(0):enable 2.4g, bit(1):enable 5g, default is set to enable 2.4GHZ for IOT issue with bufflao's AP at 5GHZ */
++int rtw_ampdu_amsdu = 0;/* 0: disabled, 1:enabled, 2:auto . There is an IOT issu with DLINK DIR-629 when the flag turn on */
++/* Short GI support Bit Map
++* BIT0 - 20MHz, 0: non-support, 1: support
++* BIT1 - 40MHz, 0: non-support, 1: support
++* BIT2 - 80MHz, 0: non-support, 1: support
++* BIT3 - 160MHz, 0: non-support, 1: support */
++int rtw_short_gi = 0xf;
++/* BIT0: Enable VHT LDPC Rx, BIT1: Enable VHT LDPC Tx, BIT4: Enable HT LDPC Rx, BIT5: Enable HT LDPC Tx */
++int rtw_ldpc_cap = 0x33;
++/* BIT0: Enable VHT STBC Rx, BIT1: Enable VHT STBC Tx, BIT4: Enable HT STBC Rx, BIT5: Enable HT STBC Tx */
++int rtw_stbc_cap = 0x13;
++/*
++* BIT0: Enable VHT SU Beamformer
++* BIT1: Enable VHT SU Beamformee
++* BIT2: Enable VHT MU Beamformer, depend on VHT SU Beamformer
++* BIT3: Enable VHT MU Beamformee, depend on VHT SU Beamformee
++* BIT4: Enable HT Beamformer
++* BIT5: Enable HT Beamformee
++*/
++int rtw_beamform_cap = BIT(1) | BIT(3);
++int rtw_bfer_rf_number = 0; /*BeamformerCapRfNum Rf path number, 0 for auto, others for manual*/
++int rtw_bfee_rf_number = 0; /*BeamformeeCapRfNum  Rf path number, 0 for auto, others for manual*/
++
++#endif /* CONFIG_80211N_HT */
++
++#ifdef CONFIG_80211AC_VHT
++int rtw_vht_enable = 1; /* 0:disable, 1:enable, 2:force auto enable */
++int rtw_ampdu_factor = 7;
++int rtw_vht_rate_sel = 0;
++#endif /* CONFIG_80211AC_VHT */
++
++int rtw_lowrate_two_xmit = 1;/* Use 2 path Tx to transmit MCS0~7 and legacy mode */
++
++/* int rf_config = RF_1T2R;  */ /* 1T2R */
++int rtw_rf_config = RF_MAX_TYPE;  /* auto */
++
++/* 0: not check in watch dog, 1: check in watch dog  */
++int rtw_check_hw_status = 0;
++
++int rtw_low_power = 0;
++#ifdef CONFIG_WIFI_TEST
++	int rtw_wifi_spec = 1;/* for wifi test */
++#else
++	int rtw_wifi_spec = 0;
++#endif
++
++#ifdef CONFIG_DEFAULT_PATTERNS_EN
++	bool	rtw_support_default_patterns = _TRUE;
++#else
++	bool	rtw_support_default_patterns = _FALSE;
++#endif
++
++int rtw_special_rf_path = 0; /* 0: 2T2R ,1: only turn on path A 1T1R */
++
++char rtw_country_unspecified[] = {0xFF, 0xFF, 0x00};
++char *rtw_country_code = rtw_country_unspecified;
++module_param(rtw_country_code, charp, 0644);
++MODULE_PARM_DESC(rtw_country_code, "The default country code (in alpha2)");
++
++int rtw_channel_plan = RTW_CHPLAN_MAX;
++module_param(rtw_channel_plan, int, 0644);
++MODULE_PARM_DESC(rtw_channel_plan, "The default chplan ID when rtw_alpha2 is not specified or valid");
++
++static uint rtw_excl_chs[MAX_CHANNEL_NUM] = CONFIG_RTW_EXCL_CHS;
++static int rtw_excl_chs_num = 0;
++module_param_array(rtw_excl_chs, uint, &rtw_excl_chs_num, 0644);
++MODULE_PARM_DESC(rtw_excl_chs, "exclusive channel array");
++
++/*if concurrent softap + p2p(GO) is needed, this param lets p2p response full channel list.
++But Softap must be SHUT DOWN once P2P decide to set up connection and become a GO.*/
++#ifdef CONFIG_FULL_CH_IN_P2P_HANDSHAKE
++	int rtw_full_ch_in_p2p_handshake = 1; /* reply full channel list*/
++#else
++	int rtw_full_ch_in_p2p_handshake = 0; /* reply only softap channel*/
++#endif
++
++#ifdef CONFIG_BT_COEXIST
++int rtw_btcoex_enable = 2;
++module_param(rtw_btcoex_enable, int, 0644);
++MODULE_PARM_DESC(rtw_btcoex_enable, "BT co-existence on/off, 0:off, 1:on, 2:by efuse");
++
++int rtw_ant_num = 0;
++module_param(rtw_ant_num, int, 0644);
++MODULE_PARM_DESC(rtw_ant_num, "Antenna number setting, 0:by efuse");
++
++int rtw_bt_iso = 2;/* 0:Low, 1:High, 2:From Efuse */
++int rtw_bt_sco = 3;/* 0:Idle, 1:None-SCO, 2:SCO, 3:From Counter, 4.Busy, 5.OtherBusy */
++int rtw_bt_ampdu = 1 ; /* 0:Disable BT control A-MPDU, 1:Enable BT control A-MPDU. */
++#endif /* CONFIG_BT_COEXIST */
++
++int rtw_AcceptAddbaReq = _TRUE;/* 0:Reject AP's Add BA req, 1:Accept AP's Add BA req. */
++
++int rtw_antdiv_cfg = 2; /* 0:OFF , 1:ON, 2:decide by Efuse config */
++int rtw_antdiv_type = 0
++	; /* 0:decide by efuse  1: for 88EE, 1Tx and 1RxCG are diversity.(2 Ant with SPDT), 2:  for 88EE, 1Tx and 2Rx are diversity.( 2 Ant, Tx and RxCG are both on aux port, RxCS is on main port ), 3: for 88EE, 1Tx and 1RxCG are fixed.(1Ant, Tx and RxCG are both on aux port) */
++
++int rtw_drv_ant_band_switch = 1; /* 0:OFF , 1:ON, Driver control antenna band switch*/
++
++/* 0: doesn't switch, 1: switch from usb2.0 to usb 3.0 2: switch from usb3.0 to usb 2.0 */
++int rtw_switch_usb_mode = 1;
++
++#ifdef CONFIG_USB_AUTOSUSPEND
++int rtw_enusbss = 1;/* 0:disable,1:enable */
++#else
++int rtw_enusbss = 0;/* 0:disable,1:enable */
++#endif
++
++int rtw_hwpdn_mode = 2; /* 0:disable,1:enable,2: by EFUSE config */
++
++#ifdef CONFIG_HW_PWRP_DETECTION
++int rtw_hwpwrp_detect = 1;
++#else
++int rtw_hwpwrp_detect = 0; /* HW power  ping detect 0:disable , 1:enable */
++#endif
++
++#ifdef CONFIG_USB_HCI
++int rtw_hw_wps_pbc = 1;
++#else
++int rtw_hw_wps_pbc = 0;
++#endif
++
++#ifdef CONFIG_TX_MCAST2UNI
++int rtw_mc2u_disable = 0;
++#endif /* CONFIG_TX_MCAST2UNI */
++
++#ifdef CONFIG_80211D
++int rtw_80211d = 0;
++#endif
++
++#ifdef CONFIG_SPECIAL_SETTING_FOR_FUNAI_TV
++int rtw_force_ant = 2;/* 0 :normal, 1:Main ant, 2:Aux ant */
++int rtw_force_igi = 0; /* 0 :normal */
++module_param(rtw_force_ant, int, 0644);
++module_param(rtw_force_igi, int, 0644);
++#endif
++
++int rtw_force_igi_lb = CONFIG_RTW_FORCE_IGI_LB;
++module_param(rtw_force_igi_lb, int, 0644);
++MODULE_PARM_DESC(rtw_force_igi_lb, "force IGI low-bound, 0:no specified");
++
++#ifdef CONFIG_QOS_OPTIMIZATION
++int rtw_qos_opt_enable = 1; /* 0: disable,1:enable */
++#else
++int rtw_qos_opt_enable = 0; /* 0: disable,1:enable */
++#endif
++module_param(rtw_qos_opt_enable, int, 0644);
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++int rtw_acs_mode = 1; /*0:disable, 1:enable*/
++module_param(rtw_acs_mode, int, 0644);
++
++int rtw_acs_auto_scan = 0; /*0:disable, 1:enable*/
++module_param(rtw_acs_auto_scan, int, 0644);
++
++#endif
++
++char *ifname = "wlan%d";
++module_param(ifname, charp, 0644);
++MODULE_PARM_DESC(ifname, "The default name to allocate for first interface");
++
++#ifdef CONFIG_PLATFORM_ANDROID
++	char *if2name = "p2p%d";
++#else /* CONFIG_PLATFORM_ANDROID */
++	char *if2name = "wlan%d";
++#endif /* CONFIG_PLATFORM_ANDROID */
++module_param(if2name, charp, 0644);
++MODULE_PARM_DESC(if2name, "The default name to allocate for second interface");
++
++char *rtw_initmac = 0;  /* temp mac address if users want to use instead of the mac address in Efuse */
++
++#ifdef CONFIG_CONCURRENT_MODE
++
++	#if (CONFIG_IFACE_NUMBER > 2)
++		int rtw_virtual_iface_num = CONFIG_IFACE_NUMBER - 1;
++		module_param(rtw_virtual_iface_num, int, 0644);
++	#else
++		int rtw_virtual_iface_num = 1;
++	#endif
++
++#endif
++
++module_param(rtw_pwrtrim_enable, int, 0644);
++module_param(rtw_initmac, charp, 0644);
++module_param(rtw_special_rf_path, int, 0644);
++module_param(rtw_chip_version, int, 0644);
++module_param(rtw_rfintfs, int, 0644);
++module_param(rtw_lbkmode, int, 0644);
++module_param(rtw_network_mode, int, 0644);
++module_param(rtw_channel, int, 0644);
++module_param(rtw_mp_mode, int, 0644);
++module_param(rtw_wmm_enable, int, 0644);
++module_param(rtw_vrtl_carrier_sense, int, 0644);
++module_param(rtw_vcs_type, int, 0644);
++module_param(rtw_busy_thresh, int, 0644);
++
++#ifdef CONFIG_80211N_HT
++module_param(rtw_ht_enable, int, 0644);
++module_param(rtw_bw_mode, int, 0644);
++module_param(rtw_ampdu_enable, int, 0644);
++module_param(rtw_rx_stbc, int, 0644);
++module_param(rtw_ampdu_amsdu, int, 0644);
++#endif /* CONFIG_80211N_HT */
++#ifdef CONFIG_80211AC_VHT
++module_param(rtw_vht_enable, int, 0644);
++#endif /* CONFIG_80211AC_VHT */
++#ifdef CONFIG_BEAMFORMING
++module_param(rtw_beamform_cap, int, 0644);
++#endif
++module_param(rtw_lowrate_two_xmit, int, 0644);
++
++module_param(rtw_rf_config, int, 0644);
++module_param(rtw_power_mgnt, int, 0644);
++module_param(rtw_smart_ps, int, 0644);
++module_param(rtw_low_power, int, 0644);
++module_param(rtw_wifi_spec, int, 0644);
++
++module_param(rtw_full_ch_in_p2p_handshake, int, 0644);
++module_param(rtw_antdiv_cfg, int, 0644);
++module_param(rtw_antdiv_type, int, 0644);
++
++module_param(rtw_drv_ant_band_switch, int, 0644);
++
++module_param(rtw_switch_usb_mode, int, 0644);
++
++module_param(rtw_enusbss, int, 0644);
++module_param(rtw_hwpdn_mode, int, 0644);
++module_param(rtw_hwpwrp_detect, int, 0644);
++
++module_param(rtw_hw_wps_pbc, int, 0644);
++module_param(rtw_check_hw_status, int, 0644);
++
++#ifdef CONFIG_TX_EARLY_MODE
++module_param(rtw_early_mode, int, 0644);
++#endif
++#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++char *rtw_adaptor_info_caching_file_path = "/data/misc/wifi/rtw_cache";
++module_param(rtw_adaptor_info_caching_file_path, charp, 0644);
++MODULE_PARM_DESC(rtw_adaptor_info_caching_file_path, "The path of adapter info cache file");
++#endif /* CONFIG_ADAPTOR_INFO_CACHING_FILE */
++
++#ifdef CONFIG_LAYER2_ROAMING
++uint rtw_max_roaming_times = 2;
++module_param(rtw_max_roaming_times, uint, 0644);
++MODULE_PARM_DESC(rtw_max_roaming_times, "The max roaming times to try");
++#endif /* CONFIG_LAYER2_ROAMING */
++
++#ifdef CONFIG_IOL
++int rtw_fw_iol = 1;
++module_param(rtw_fw_iol, int, 0644);
++MODULE_PARM_DESC(rtw_fw_iol, "FW IOL. 0:Disable, 1:enable, 2:by usb speed");
++#endif /* CONFIG_IOL */
++
++#ifdef CONFIG_FILE_FWIMG
++char *rtw_fw_file_path = "/system/etc/firmware/rtlwifi/FW_NIC.BIN";
++module_param(rtw_fw_file_path, charp, 0644);
++MODULE_PARM_DESC(rtw_fw_file_path, "The path of fw image");
++
++char *rtw_fw_wow_file_path = "/system/etc/firmware/rtlwifi/FW_WoWLAN.BIN";
++module_param(rtw_fw_wow_file_path, charp, 0644);
++MODULE_PARM_DESC(rtw_fw_wow_file_path, "The path of fw for Wake on Wireless image");
++
++#ifdef CONFIG_MP_INCLUDED
++char *rtw_fw_mp_bt_file_path = "";
++module_param(rtw_fw_mp_bt_file_path, charp, 0644);
++MODULE_PARM_DESC(rtw_fw_mp_bt_file_path, "The path of fw for MP-BT image");
++#endif /* CONFIG_MP_INCLUDED */
++#endif /* CONFIG_FILE_FWIMG */
++
++#ifdef CONFIG_TX_MCAST2UNI
++module_param(rtw_mc2u_disable, int, 0644);
++#endif /* CONFIG_TX_MCAST2UNI */
++
++#ifdef CONFIG_80211D
++module_param(rtw_80211d, int, 0644);
++MODULE_PARM_DESC(rtw_80211d, "Enable 802.11d mechanism");
++#endif
++
++uint rtw_notch_filter = RTW_NOTCH_FILTER;
++module_param(rtw_notch_filter, uint, 0644);
++MODULE_PARM_DESC(rtw_notch_filter, "0:Disable, 1:Enable, 2:Enable only for P2P");
++
++uint rtw_hiq_filter = CONFIG_RTW_HIQ_FILTER;
++module_param(rtw_hiq_filter, uint, 0644);
++MODULE_PARM_DESC(rtw_hiq_filter, "0:allow all, 1:allow special, 2:deny all");
++
++uint rtw_adaptivity_en = CONFIG_RTW_ADAPTIVITY_EN;
++module_param(rtw_adaptivity_en, uint, 0644);
++MODULE_PARM_DESC(rtw_adaptivity_en, "0:disable, 1:enable");
++
++uint rtw_adaptivity_mode = CONFIG_RTW_ADAPTIVITY_MODE;
++module_param(rtw_adaptivity_mode, uint, 0644);
++MODULE_PARM_DESC(rtw_adaptivity_mode, "0:normal, 1:carrier sense");
++
++uint rtw_adaptivity_dml = CONFIG_RTW_ADAPTIVITY_DML;
++module_param(rtw_adaptivity_dml, uint, 0644);
++MODULE_PARM_DESC(rtw_adaptivity_dml, "0:disable, 1:enable");
++
++uint rtw_adaptivity_dc_backoff = CONFIG_RTW_ADAPTIVITY_DC_BACKOFF;
++module_param(rtw_adaptivity_dc_backoff, uint, 0644);
++MODULE_PARM_DESC(rtw_adaptivity_dc_backoff, "DC backoff for Adaptivity");
++
++int rtw_adaptivity_th_l2h_ini = CONFIG_RTW_ADAPTIVITY_TH_L2H_INI;
++module_param(rtw_adaptivity_th_l2h_ini, int, 0644);
++MODULE_PARM_DESC(rtw_adaptivity_th_l2h_ini, "TH_L2H_ini for Adaptivity");
++
++int rtw_adaptivity_th_edcca_hl_diff = CONFIG_RTW_ADAPTIVITY_TH_EDCCA_HL_DIFF;
++module_param(rtw_adaptivity_th_edcca_hl_diff, int, 0644);
++MODULE_PARM_DESC(rtw_adaptivity_th_edcca_hl_diff, "TH_EDCCA_HL_diff for Adaptivity");
++
++#ifdef CONFIG_DFS_MASTER
++uint rtw_dfs_region_domain = CONFIG_RTW_DFS_REGION_DOMAIN;
++module_param(rtw_dfs_region_domain, uint, 0644);
++MODULE_PARM_DESC(rtw_dfs_region_domain, "1:FCC, 2:MKK, 3:ETSI");
++#endif
++
++uint rtw_amplifier_type_2g = CONFIG_RTW_AMPLIFIER_TYPE_2G;
++module_param(rtw_amplifier_type_2g, uint, 0644);
++MODULE_PARM_DESC(rtw_amplifier_type_2g, "BIT3:2G ext-PA, BIT4:2G ext-LNA");
++
++uint rtw_amplifier_type_5g = CONFIG_RTW_AMPLIFIER_TYPE_5G;
++module_param(rtw_amplifier_type_5g, uint, 0644);
++MODULE_PARM_DESC(rtw_amplifier_type_5g, "BIT6:5G ext-PA, BIT7:5G ext-LNA");
++
++uint rtw_RFE_type = CONFIG_RTW_RFE_TYPE;
++module_param(rtw_RFE_type, uint, 0644);
++MODULE_PARM_DESC(rtw_RFE_type, "default init value:64");
++
++uint rtw_powertracking_type = 64;
++module_param(rtw_powertracking_type, uint, 0644);
++MODULE_PARM_DESC(rtw_powertracking_type, "default init value:64");
++
++uint rtw_GLNA_type = CONFIG_RTW_GLNA_TYPE;
++module_param(rtw_GLNA_type, uint, 0644);
++MODULE_PARM_DESC(rtw_GLNA_type, "default init value:0");
++
++uint rtw_TxBBSwing_2G = 0xFF;
++module_param(rtw_TxBBSwing_2G, uint, 0644);
++MODULE_PARM_DESC(rtw_TxBBSwing_2G, "default init value:0xFF");
++
++uint rtw_TxBBSwing_5G = 0xFF;
++module_param(rtw_TxBBSwing_5G, uint, 0644);
++MODULE_PARM_DESC(rtw_TxBBSwing_5G, "default init value:0xFF");
++
++uint rtw_OffEfuseMask = 0;
++module_param(rtw_OffEfuseMask, uint, 0644);
++MODULE_PARM_DESC(rtw_OffEfuseMask, "default open Efuse Mask value:0");
++
++uint rtw_FileMaskEfuse = 0;
++module_param(rtw_FileMaskEfuse, uint, 0644);
++MODULE_PARM_DESC(rtw_FileMaskEfuse, "default drv Mask Efuse value:0");
++
++uint rtw_rxgain_offset_2g = 0;
++module_param(rtw_rxgain_offset_2g, uint, 0644);
++MODULE_PARM_DESC(rtw_rxgain_offset_2g, "default RF Gain 2G Offset value:0");
++
++uint rtw_rxgain_offset_5gl = 0;
++module_param(rtw_rxgain_offset_5gl, uint, 0644);
++MODULE_PARM_DESC(rtw_rxgain_offset_5gl, "default RF Gain 5GL Offset value:0");
++
++uint rtw_rxgain_offset_5gm = 0;
++module_param(rtw_rxgain_offset_5gm, uint, 0644);
++MODULE_PARM_DESC(rtw_rxgain_offset_5gm, "default RF Gain 5GM Offset value:0");
++
++uint rtw_rxgain_offset_5gh = 0;
++module_param(rtw_rxgain_offset_5gh, uint, 0644);
++MODULE_PARM_DESC(rtw_rxgain_offset_5gm, "default RF Gain 5GL Offset value:0");
++
++
++uint rtw_pll_ref_clk_sel = CONFIG_RTW_PLL_REF_CLK_SEL;
++module_param(rtw_pll_ref_clk_sel, uint, 0644);
++MODULE_PARM_DESC(rtw_pll_ref_clk_sel, "force pll_ref_clk_sel, 0xF:use autoload value");
++
++#if defined(CONFIG_CALIBRATE_TX_POWER_BY_REGULATORY) /* eFuse: Regulatory selection=1 */
++	int rtw_tx_pwr_lmt_enable = 1;
++	int rtw_tx_pwr_by_rate = 1;
++#elif defined(CONFIG_CALIBRATE_TX_POWER_TO_MAX)/* eFuse: Regulatory selection=0 */
++	int rtw_tx_pwr_lmt_enable = 0;
++	int rtw_tx_pwr_by_rate = 1;
++#else /* eFuse: Regulatory selection=2 */
++	#ifdef CONFIG_PCI_HCI
++		int rtw_tx_pwr_lmt_enable = 2; /* 2- Depend on efuse */
++		int rtw_tx_pwr_by_rate = 2;/* 2- Depend on efuse */
++	#else /* USB & SDIO */
++		int rtw_tx_pwr_lmt_enable = 0;
++		int rtw_tx_pwr_by_rate = 0;
++	#endif
++#endif
++
++module_param(rtw_tx_pwr_lmt_enable, int, 0644);
++MODULE_PARM_DESC(rtw_tx_pwr_lmt_enable, "0:Disable, 1:Enable, 2: Depend on efuse");
++
++module_param(rtw_tx_pwr_by_rate, int, 0644);
++MODULE_PARM_DESC(rtw_tx_pwr_by_rate, "0:Disable, 1:Enable, 2: Depend on efuse");
++
++static int rtw_target_tx_pwr_2g_a[RATE_SECTION_NUM] = CONFIG_RTW_TARGET_TX_PWR_2G_A;
++static int rtw_target_tx_pwr_2g_a_num = 0;
++module_param_array(rtw_target_tx_pwr_2g_a, int, &rtw_target_tx_pwr_2g_a_num, 0644);
++MODULE_PARM_DESC(rtw_target_tx_pwr_2g_a, "2.4G target tx power (unit:dBm) of RF path A for each rate section, should match the real calibrate power, -1: undefined");
++
++static int rtw_target_tx_pwr_2g_b[RATE_SECTION_NUM] = CONFIG_RTW_TARGET_TX_PWR_2G_B;
++static int rtw_target_tx_pwr_2g_b_num = 0;
++module_param_array(rtw_target_tx_pwr_2g_b, int, &rtw_target_tx_pwr_2g_b_num, 0644);
++MODULE_PARM_DESC(rtw_target_tx_pwr_2g_b, "2.4G target tx power (unit:dBm) of RF path B for each rate section, should match the real calibrate power, -1: undefined");
++
++static int rtw_target_tx_pwr_2g_c[RATE_SECTION_NUM] = CONFIG_RTW_TARGET_TX_PWR_2G_C;
++static int rtw_target_tx_pwr_2g_c_num = 0;
++module_param_array(rtw_target_tx_pwr_2g_c, int, &rtw_target_tx_pwr_2g_c_num, 0644);
++MODULE_PARM_DESC(rtw_target_tx_pwr_2g_c, "2.4G target tx power (unit:dBm) of RF path C for each rate section, should match the real calibrate power, -1: undefined");
++
++static int rtw_target_tx_pwr_2g_d[RATE_SECTION_NUM] = CONFIG_RTW_TARGET_TX_PWR_2G_D;
++static int rtw_target_tx_pwr_2g_d_num = 0;
++module_param_array(rtw_target_tx_pwr_2g_d, int, &rtw_target_tx_pwr_2g_d_num, 0644);
++MODULE_PARM_DESC(rtw_target_tx_pwr_2g_d, "2.4G target tx power (unit:dBm) of RF path D for each rate section, should match the real calibrate power, -1: undefined");
++
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++static int rtw_target_tx_pwr_5g_a[RATE_SECTION_NUM - 1] = CONFIG_RTW_TARGET_TX_PWR_5G_A;
++static int rtw_target_tx_pwr_5g_a_num = 0;
++module_param_array(rtw_target_tx_pwr_5g_a, int, &rtw_target_tx_pwr_5g_a_num, 0644);
++MODULE_PARM_DESC(rtw_target_tx_pwr_5g_a, "5G target tx power (unit:dBm) of RF path A for each rate section, should match the real calibrate power, -1: undefined");
++
++static int rtw_target_tx_pwr_5g_b[RATE_SECTION_NUM - 1] = CONFIG_RTW_TARGET_TX_PWR_5G_B;
++static int rtw_target_tx_pwr_5g_b_num = 0;
++module_param_array(rtw_target_tx_pwr_5g_b, int, &rtw_target_tx_pwr_5g_b_num, 0644);
++MODULE_PARM_DESC(rtw_target_tx_pwr_5g_b, "5G target tx power (unit:dBm) of RF path B for each rate section, should match the real calibrate power, -1: undefined");
++
++static int rtw_target_tx_pwr_5g_c[RATE_SECTION_NUM - 1] = CONFIG_RTW_TARGET_TX_PWR_5G_C;
++static int rtw_target_tx_pwr_5g_c_num = 0;
++module_param_array(rtw_target_tx_pwr_5g_c, int, &rtw_target_tx_pwr_5g_c_num, 0644);
++MODULE_PARM_DESC(rtw_target_tx_pwr_5g_c, "5G target tx power (unit:dBm) of RF path C for each rate section, should match the real calibrate power, -1: undefined");
++
++static int rtw_target_tx_pwr_5g_d[RATE_SECTION_NUM - 1] = CONFIG_RTW_TARGET_TX_PWR_5G_D;
++static int rtw_target_tx_pwr_5g_d_num = 0;
++module_param_array(rtw_target_tx_pwr_5g_d, int, &rtw_target_tx_pwr_5g_d_num, 0644);
++MODULE_PARM_DESC(rtw_target_tx_pwr_5g_d, "5G target tx power (unit:dBm) of RF path D for each rate section, should match the real calibrate power, -1: undefined");
++#endif /* CONFIG_IEEE80211_BAND_5GHZ */
++
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++char *rtw_phy_file_path = REALTEK_CONFIG_PATH;
++module_param(rtw_phy_file_path, charp, 0644);
++MODULE_PARM_DESC(rtw_phy_file_path, "The path of phy parameter");
++/* PHY FILE Bit Map
++* BIT0 - MAC,				0: non-support, 1: support
++* BIT1 - BB,					0: non-support, 1: support
++* BIT2 - BB_PG,				0: non-support, 1: support
++* BIT3 - BB_MP,				0: non-support, 1: support
++* BIT4 - RF,					0: non-support, 1: support
++* BIT5 - RF_TXPWR_TRACK,	0: non-support, 1: support
++* BIT6 - RF_TXPWR_LMT,		0: non-support, 1: support */
++int rtw_load_phy_file = (BIT2 | BIT6);
++module_param(rtw_load_phy_file, int, 0644);
++MODULE_PARM_DESC(rtw_load_phy_file, "PHY File Bit Map");
++int rtw_decrypt_phy_file = 0;
++module_param(rtw_decrypt_phy_file, int, 0644);
++MODULE_PARM_DESC(rtw_decrypt_phy_file, "Enable Decrypt PHY File");
++#endif
++
++#ifdef CONFIG_SUPPORT_TRX_SHARED
++#ifdef DFT_TRX_SHARE_MODE
++int rtw_trx_share_mode = DFT_TRX_SHARE_MODE;
++#else
++int rtw_trx_share_mode = 0;
++#endif
++module_param(rtw_trx_share_mode, int, 0644);
++MODULE_PARM_DESC(rtw_trx_share_mode, "TRx FIFO Shared");
++#endif
++
++int _netdev_open(struct net_device *pnetdev);
++int netdev_open(struct net_device *pnetdev);
++static int netdev_close(struct net_device *pnetdev);
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++extern int rtw_sdio_set_power(int on);
++#endif /* CONFIG_PLATFORM_INTEL_BYT */
++
++#ifdef CONFIG_MCC_MODE
++/* enable MCC mode or not */
++int rtw_en_mcc = 1;
++/* can referece following value before insmod driver */
++int rtw_mcc_ap_bw20_target_tx_tp = MCC_AP_BW20_TARGET_TX_TP;
++int rtw_mcc_ap_bw40_target_tx_tp = MCC_AP_BW40_TARGET_TX_TP;
++int rtw_mcc_ap_bw80_target_tx_tp = MCC_AP_BW80_TARGET_TX_TP;
++int rtw_mcc_sta_bw20_target_tx_tp = MCC_STA_BW20_TARGET_TX_TP;
++int rtw_mcc_sta_bw40_target_tx_tp = MCC_STA_BW40_TARGET_TX_TP;
++int rtw_mcc_sta_bw80_target_tx_tp = MCC_STA_BW80_TARGET_TX_TP;
++int rtw_mcc_single_tx_cri = MCC_SINGLE_TX_CRITERIA;
++module_param(rtw_en_mcc, int, 0644);
++module_param(rtw_mcc_single_tx_cri, int, 0644);
++module_param(rtw_mcc_ap_bw20_target_tx_tp, int, 0644);
++module_param(rtw_mcc_ap_bw40_target_tx_tp, int, 0644);
++module_param(rtw_mcc_ap_bw80_target_tx_tp, int, 0644);
++module_param(rtw_mcc_sta_bw20_target_tx_tp, int, 0644);
++module_param(rtw_mcc_sta_bw40_target_tx_tp, int, 0644);
++module_param(rtw_mcc_sta_bw80_target_tx_tp, int, 0644);
++#endif /*CONFIG_MCC_MODE */
++
++void rtw_regsty_load_target_tx_power(struct registry_priv *regsty)
++{
++	int path, rs;
++	int *target_tx_pwr;
++
++	for (path = RF_PATH_A; path < RF_PATH_MAX; path++) {
++		if (path == RF_PATH_A)
++			target_tx_pwr = rtw_target_tx_pwr_2g_a;
++		else if (path == RF_PATH_B)
++			target_tx_pwr = rtw_target_tx_pwr_2g_b;
++		else if (path == RF_PATH_C)
++			target_tx_pwr = rtw_target_tx_pwr_2g_c;
++		else if (path == RF_PATH_D)
++			target_tx_pwr = rtw_target_tx_pwr_2g_d;
++
++		for (rs = CCK; rs < RATE_SECTION_NUM; rs++)
++			regsty->target_tx_pwr_2g[path][rs] = target_tx_pwr[rs];
++	}
++
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	for (path = RF_PATH_A; path < RF_PATH_MAX; path++) {
++		if (path == RF_PATH_A)
++			target_tx_pwr = rtw_target_tx_pwr_5g_a;
++		else if (path == RF_PATH_B)
++			target_tx_pwr = rtw_target_tx_pwr_5g_b;
++		else if (path == RF_PATH_C)
++			target_tx_pwr = rtw_target_tx_pwr_5g_c;
++		else if (path == RF_PATH_D)
++			target_tx_pwr = rtw_target_tx_pwr_5g_d;
++
++		for (rs = OFDM; rs < RATE_SECTION_NUM; rs++)
++			regsty->target_tx_pwr_5g[path][rs - 1] = target_tx_pwr[rs - 1];
++	}
++#endif /* CONFIG_IEEE80211_BAND_5GHZ */
++}
++
++inline void rtw_regsty_load_excl_chs(struct registry_priv *regsty)
++{
++	int i;
++	int ch_num = 0;
++
++	for (i = 0; i < MAX_CHANNEL_NUM; i++)
++		if (((u8)rtw_excl_chs[i]) != 0)
++			regsty->excl_chs[ch_num++] = (u8)rtw_excl_chs[i];
++
++	if (ch_num < MAX_CHANNEL_NUM)
++		regsty->excl_chs[ch_num] = 0;
++}
++
++uint loadparam(_adapter *padapter)
++{
++	uint status = _SUCCESS;
++	struct registry_priv  *registry_par = &padapter->registrypriv;
++
++
++#ifdef CONFIG_RTW_DEBUG
++	if (rtw_drv_log_level >= _DRV_MAX_)
++		rtw_drv_log_level = _DRV_DEBUG_;
++#endif
++
++	registry_par->chip_version = (u8)rtw_chip_version;
++	registry_par->rfintfs = (u8)rtw_rfintfs;
++	registry_par->lbkmode = (u8)rtw_lbkmode;
++	/* registry_par->hci = (u8)hci; */
++	registry_par->network_mode  = (u8)rtw_network_mode;
++
++	_rtw_memcpy(registry_par->ssid.Ssid, "ANY", 3);
++	registry_par->ssid.SsidLength = 3;
++
++	registry_par->channel = (u8)rtw_channel;
++	registry_par->wireless_mode = (u8)rtw_wireless_mode;
++
++	if (IsSupported24G(registry_par->wireless_mode) && (!IsSupported5G(registry_par->wireless_mode))
++	    && (registry_par->channel > 14))
++		registry_par->channel = 1;
++	else if (IsSupported5G(registry_par->wireless_mode) && (!IsSupported24G(registry_par->wireless_mode))
++		 && (registry_par->channel <= 14))
++		registry_par->channel = 36;
++
++	registry_par->vrtl_carrier_sense = (u8)rtw_vrtl_carrier_sense ;
++	registry_par->vcs_type = (u8)rtw_vcs_type;
++	registry_par->rts_thresh = (u16)rtw_rts_thresh;
++	registry_par->frag_thresh = (u16)rtw_frag_thresh;
++	registry_par->preamble = (u8)rtw_preamble;
++	registry_par->scan_mode = (u8)rtw_scan_mode;
++	registry_par->adhoc_tx_pwr = (u8)rtw_adhoc_tx_pwr;
++	registry_par->soft_ap = (u8)rtw_soft_ap;
++	registry_par->smart_ps = (u8)rtw_smart_ps;
++	registry_par->check_fw_ps = (u8)rtw_check_fw_ps;
++	registry_par->power_mgnt = (u8)rtw_power_mgnt;
++	registry_par->ips_mode = (u8)rtw_ips_mode;
++	registry_par->radio_enable = (u8)rtw_radio_enable;
++	registry_par->long_retry_lmt = (u8)rtw_long_retry_lmt;
++	registry_par->short_retry_lmt = (u8)rtw_short_retry_lmt;
++	registry_par->busy_thresh = (u16)rtw_busy_thresh;
++	/* registry_par->qos_enable = (u8)rtw_qos_enable; */
++	registry_par->ack_policy = (u8)rtw_ack_policy;
++	registry_par->mp_mode = (u8)rtw_mp_mode;
++	registry_par->software_encrypt = (u8)rtw_software_encrypt;
++	registry_par->software_decrypt = (u8)rtw_software_decrypt;
++
++	registry_par->acm_method = (u8)rtw_acm_method;
++	registry_par->usb_rxagg_mode = (u8)rtw_usb_rxagg_mode;
++
++	/* UAPSD */
++	registry_par->wmm_enable = (u8)rtw_wmm_enable;
++	registry_par->uapsd_enable = (u8)rtw_uapsd_enable;
++	registry_par->uapsd_max_sp = (u8)rtw_uapsd_max_sp;
++	registry_par->uapsd_acbk_en = (u8)rtw_uapsd_acbk_en;
++	registry_par->uapsd_acbe_en = (u8)rtw_uapsd_acbe_en;
++	registry_par->uapsd_acvi_en = (u8)rtw_uapsd_acvi_en;
++	registry_par->uapsd_acvo_en = (u8)rtw_uapsd_acvo_en;
++
++	registry_par->RegPwrTrimEnable = (u8)rtw_pwrtrim_enable;
++
++	registry_par->tx_bw_mode = (u8)rtw_tx_bw_mode;
++
++#ifdef CONFIG_80211N_HT
++	registry_par->ht_enable = (u8)rtw_ht_enable;
++	registry_par->bw_mode = (u8)rtw_bw_mode;
++	registry_par->ampdu_enable = (u8)rtw_ampdu_enable;
++	registry_par->rx_stbc = (u8)rtw_rx_stbc;
++	registry_par->ampdu_amsdu = (u8)rtw_ampdu_amsdu;
++	registry_par->short_gi = (u8)rtw_short_gi;
++	registry_par->ldpc_cap = (u8)rtw_ldpc_cap;
++	registry_par->stbc_cap = (u8)rtw_stbc_cap;
++	registry_par->beamform_cap = (u8)rtw_beamform_cap;
++	registry_par->beamformer_rf_num = (u8)rtw_bfer_rf_number;
++	registry_par->beamformee_rf_num = (u8)rtw_bfee_rf_number;
++#endif
++
++#ifdef CONFIG_80211AC_VHT
++	registry_par->vht_enable = (u8)rtw_vht_enable;
++	registry_par->ampdu_factor = (u8)rtw_ampdu_factor;
++	registry_par->vht_rate_sel = (u8)rtw_vht_rate_sel;
++#endif
++
++#ifdef CONFIG_TX_EARLY_MODE
++	registry_par->early_mode = (u8)rtw_early_mode;
++#endif
++	registry_par->lowrate_two_xmit = (u8)rtw_lowrate_two_xmit;
++	registry_par->rf_config = (u8)rtw_rf_config;
++	registry_par->low_power = (u8)rtw_low_power;
++
++	registry_par->check_hw_status = (u8)rtw_check_hw_status;
++
++	registry_par->wifi_spec = (u8)rtw_wifi_spec;
++
++	if (strlen(rtw_country_code) != 2
++		|| is_alpha(rtw_country_code[0]) == _FALSE
++		|| is_alpha(rtw_country_code[1]) == _FALSE
++	) {
++		if (rtw_country_code != rtw_country_unspecified)
++			RTW_ERR("%s discard rtw_country_code not in alpha2\n", __func__);
++		_rtw_memset(registry_par->alpha2, 0xFF, 2);
++	} else
++		_rtw_memcpy(registry_par->alpha2, rtw_country_code, 2);
++
++	registry_par->channel_plan = (u8)rtw_channel_plan;
++	rtw_regsty_load_excl_chs(registry_par);
++
++	registry_par->special_rf_path = (u8)rtw_special_rf_path;
++
++	registry_par->full_ch_in_p2p_handshake = (u8)rtw_full_ch_in_p2p_handshake;
++#ifdef CONFIG_BT_COEXIST
++	registry_par->btcoex = (u8)rtw_btcoex_enable;
++	registry_par->bt_iso = (u8)rtw_bt_iso;
++	registry_par->bt_sco = (u8)rtw_bt_sco;
++	registry_par->bt_ampdu = (u8)rtw_bt_ampdu;
++	registry_par->ant_num = (u8)rtw_ant_num;
++#endif
++
++	registry_par->bAcceptAddbaReq = (u8)rtw_AcceptAddbaReq;
++
++	registry_par->antdiv_cfg = (u8)rtw_antdiv_cfg;
++	registry_par->antdiv_type = (u8)rtw_antdiv_type;
++
++	registry_par->drv_ant_band_switch = (u8) rtw_drv_ant_band_switch;
++
++	registry_par->switch_usb_mode = (u8)rtw_switch_usb_mode;
++
++#ifdef CONFIG_AUTOSUSPEND
++	registry_par->usbss_enable = (u8)rtw_enusbss;/* 0:disable,1:enable */
++#endif
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++	registry_par->hwpdn_mode = (u8)rtw_hwpdn_mode;/* 0:disable,1:enable,2:by EFUSE config */
++	registry_par->hwpwrp_detect = (u8)rtw_hwpwrp_detect;/* 0:disable,1:enable */
++#endif
++
++	registry_par->hw_wps_pbc = (u8)rtw_hw_wps_pbc;
++
++#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
++	snprintf(registry_par->adaptor_info_caching_file_path, PATH_LENGTH_MAX, "%s", rtw_adaptor_info_caching_file_path);
++	registry_par->adaptor_info_caching_file_path[PATH_LENGTH_MAX - 1] = 0;
++#endif
++
++#ifdef CONFIG_LAYER2_ROAMING
++	registry_par->max_roaming_times = (u8)rtw_max_roaming_times;
++#ifdef CONFIG_INTEL_WIDI
++	registry_par->max_roaming_times = (u8)rtw_max_roaming_times + 2;
++#endif /* CONFIG_INTEL_WIDI */
++#endif
++
++#ifdef CONFIG_IOL
++	registry_par->fw_iol = rtw_fw_iol;
++#endif
++
++#ifdef CONFIG_80211D
++	registry_par->enable80211d = (u8)rtw_80211d;
++#endif
++
++	snprintf(registry_par->ifname, 16, "%s", ifname);
++	snprintf(registry_par->if2name, 16, "%s", if2name);
++
++	registry_par->notch_filter = (u8)rtw_notch_filter;
++
++#ifdef CONFIG_SPECIAL_SETTING_FOR_FUNAI_TV
++	registry_par->force_ant = (u8)rtw_force_ant;
++	registry_par->force_igi = (u8)rtw_force_igi;
++#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++	registry_par->virtual_iface_num = (u8)rtw_virtual_iface_num;
++#endif
++
++	registry_par->force_igi_lb = (u8)rtw_force_igi_lb;
++
++	registry_par->pll_ref_clk_sel = (u8)rtw_pll_ref_clk_sel;
++
++	registry_par->RegEnableTxPowerLimit = (u8)rtw_tx_pwr_lmt_enable;
++	registry_par->RegEnableTxPowerByRate = (u8)rtw_tx_pwr_by_rate;
++
++	rtw_regsty_load_target_tx_power(registry_par);
++
++	registry_par->RegPowerBase = 14;
++	registry_par->TxBBSwing_2G = (s8)rtw_TxBBSwing_2G;
++	registry_par->TxBBSwing_5G = (s8)rtw_TxBBSwing_5G;
++	registry_par->bEn_RFE = 1;
++	registry_par->RFE_Type = (u8)rtw_RFE_type;
++	registry_par->PowerTracking_Type = (u8)rtw_powertracking_type;
++	registry_par->AmplifierType_2G = (u8)rtw_amplifier_type_2g;
++	registry_par->AmplifierType_5G = (u8)rtw_amplifier_type_5g;
++	registry_par->GLNA_Type = (u8)rtw_GLNA_type;
++#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++	registry_par->load_phy_file = (u8)rtw_load_phy_file;
++	registry_par->RegDecryptCustomFile = (u8)rtw_decrypt_phy_file;
++#endif
++	registry_par->qos_opt_enable = (u8)rtw_qos_opt_enable;
++
++	registry_par->hiq_filter = (u8)rtw_hiq_filter;
++
++	registry_par->adaptivity_en = (u8)rtw_adaptivity_en;
++	registry_par->adaptivity_mode = (u8)rtw_adaptivity_mode;
++	registry_par->adaptivity_dml = (u8)rtw_adaptivity_dml;
++	registry_par->adaptivity_dc_backoff = (u8)rtw_adaptivity_dc_backoff;
++	registry_par->adaptivity_th_l2h_ini = (s8)rtw_adaptivity_th_l2h_ini;
++	registry_par->adaptivity_th_edcca_hl_diff = (s8)rtw_adaptivity_th_edcca_hl_diff;
++
++	registry_par->boffefusemask = (u8)rtw_OffEfuseMask;
++	registry_par->bFileMaskEfuse = (u8)rtw_FileMaskEfuse;
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	registry_par->acs_mode = (u8)rtw_acs_mode;
++	registry_par->acs_auto_scan = (u8)rtw_acs_auto_scan;
++#endif
++	registry_par->reg_rxgain_offset_2g = (u32) rtw_rxgain_offset_2g;
++	registry_par->reg_rxgain_offset_5gl = (u32) rtw_rxgain_offset_5gl;
++	registry_par->reg_rxgain_offset_5gm = (u32) rtw_rxgain_offset_5gm;
++	registry_par->reg_rxgain_offset_5gh = (u32) rtw_rxgain_offset_5gh;
++
++#ifdef CONFIG_DFS_MASTER
++	registry_par->dfs_region_domain = (u8)rtw_dfs_region_domain;
++#endif
++
++#ifdef CONFIG_MCC_MODE
++	registry_par->en_mcc = (u8)rtw_en_mcc;
++	registry_par->rtw_mcc_ap_bw20_target_tx_tp = (u32)rtw_mcc_ap_bw20_target_tx_tp;
++	registry_par->rtw_mcc_ap_bw40_target_tx_tp = (u32)rtw_mcc_ap_bw40_target_tx_tp;
++	registry_par->rtw_mcc_ap_bw80_target_tx_tp = (u32)rtw_mcc_ap_bw80_target_tx_tp;
++	registry_par->rtw_mcc_sta_bw20_target_tx_tp = (u32)rtw_mcc_sta_bw20_target_tx_tp;
++	registry_par->rtw_mcc_sta_bw40_target_tx_tp = (u32)rtw_mcc_sta_bw40_target_tx_tp;
++	registry_par->rtw_mcc_sta_bw80_target_tx_tp = (u32)rtw_mcc_sta_bw80_target_tx_tp;
++	registry_par->rtw_mcc_single_tx_cri = (u32)rtw_mcc_single_tx_cri;
++#endif /*CONFIG_MCC_MODE */
++#ifdef CONFIG_DEFAULT_PATTERNS_EN
++	registry_par->default_patterns_en = rtw_support_default_patterns;
++#endif
++
++#ifdef CONFIG_SUPPORT_TRX_SHARED
++	registry_par->trx_share_mode = rtw_trx_share_mode;
++#endif
++
++
++	return status;
++}
++
++/**
++ * rtw_net_set_mac_address
++ * This callback function is used for the Media Access Control address
++ * of each net_device needs to be changed.
++ *
++ * Arguments:
++ * @pnetdev: net_device pointer.
++ * @addr: new MAC address.
++ *
++ * Return:
++ * ret = 0: Permit to change net_device's MAC address.
++ * ret = -1 (Default): Operation not permitted.
++ *
++ * Auther: Arvin Liu
++ * Date: 2015/05/29
++ */
++static int rtw_net_set_mac_address(struct net_device *pnetdev, void *addr)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct sockaddr *sa = (struct sockaddr *)addr;
++	int ret = -1;
++
++	/* only the net_device is in down state to permit modifying mac addr */
++	if ((pnetdev->flags & IFF_UP) == _TRUE) {
++		RTW_INFO(FUNC_ADPT_FMT": The net_device's is not in down state\n"
++			 , FUNC_ADPT_ARG(padapter));
++
++		return ret;
++	}
++
++	/* if the net_device is linked, it's not permit to modify mac addr */
++	if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) ||
++	    check_fwstate(pmlmepriv, _FW_LINKED) ||
++	    check_fwstate(pmlmepriv, _FW_UNDER_SURVEY)) {
++		RTW_INFO(FUNC_ADPT_FMT": The net_device's is not idle currently\n"
++			 , FUNC_ADPT_ARG(padapter));
++
++		return ret;
++	}
++
++	/* check whether the input mac address is valid to permit modifying mac addr */
++	if (rtw_check_invalid_mac_address(sa->sa_data, _FALSE) == _TRUE) {
++		RTW_INFO(FUNC_ADPT_FMT": Invalid Mac Addr for "MAC_FMT"\n"
++			 , FUNC_ADPT_ARG(padapter), MAC_ARG(sa->sa_data));
++
++		return ret;
++	}
++
++	_rtw_memcpy(adapter_mac_addr(padapter), sa->sa_data, ETH_ALEN); /* set mac addr to adapter */
++	_rtw_memcpy(pnetdev->dev_addr, sa->sa_data, ETH_ALEN); /* set mac addr to net_device */
++
++#if 0
++	if (rtw_is_hw_init_completed(padapter)) {
++		rtw_ps_deny(padapter, PS_DENY_IOCTL);
++		LeaveAllPowerSaveModeDirect(padapter); /* leave PS mode for guaranteeing to access hw register successfully */
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		rtw_hal_change_macaddr_mbid(padapter, sa->sa_data);
++#else
++		rtw_hal_set_hwreg(padapter, HW_VAR_MAC_ADDR, sa->sa_data); /* set mac addr to mac register */
++#endif
++
++		rtw_ps_deny_cancel(padapter, PS_DENY_IOCTL);
++	}
++#else
++	rtw_ps_deny(padapter, PS_DENY_IOCTL);
++	LeaveAllPowerSaveModeDirect(padapter); /* leave PS mode for guaranteeing to access hw register successfully */
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++	rtw_hal_change_macaddr_mbid(padapter, sa->sa_data);
++#else
++	rtw_hal_set_hwreg(padapter, HW_VAR_MAC_ADDR, sa->sa_data); /* set mac addr to mac register */
++#endif
++	rtw_ps_deny_cancel(padapter, PS_DENY_IOCTL);
++#endif
++
++	RTW_INFO(FUNC_ADPT_FMT": Set Mac Addr to "MAC_FMT" Successfully\n"
++		 , FUNC_ADPT_ARG(padapter), MAC_ARG(sa->sa_data));
++
++	ret = 0;
++
++	return ret;
++}
++
++static struct net_device_stats *rtw_net_get_stats(struct net_device *pnetdev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct xmit_priv *pxmitpriv = &(padapter->xmitpriv);
++	struct recv_priv *precvpriv = &(padapter->recvpriv);
++
++	padapter->stats.tx_packets = pxmitpriv->tx_pkts;/* pxmitpriv->tx_pkts++; */
++	padapter->stats.rx_packets = precvpriv->rx_pkts;/* precvpriv->rx_pkts++; */
++	padapter->stats.tx_dropped = pxmitpriv->tx_drop;
++	padapter->stats.rx_dropped = precvpriv->rx_drop;
++	padapter->stats.tx_bytes = pxmitpriv->tx_bytes;
++	padapter->stats.rx_bytes = precvpriv->rx_bytes;
++
++	return &padapter->stats;
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++/*
++ * AC to queue mapping
++ *
++ * AC_VO -> queue 0
++ * AC_VI -> queue 1
++ * AC_BE -> queue 2
++ * AC_BK -> queue 3
++ */
++static const u16 rtw_1d_to_queue[8] = { 2, 3, 3, 2, 1, 1, 0, 0 };
++
++/* Given a data frame determine the 802.1p/1d tag to use. */
++unsigned int rtw_classify8021d(struct sk_buff *skb)
++{
++	unsigned int dscp;
++
++	/* skb->priority values from 256->263 are magic values to
++	 * directly indicate a specific 802.1d priority.  This is used
++	 * to allow 802.1d priority to be passed directly in from VLAN
++	 * tags, etc.
++	 */
++	if (skb->priority >= 256 && skb->priority <= 263)
++		return skb->priority - 256;
++
++	switch (skb->protocol) {
++	case htons(ETH_P_IP):
++		dscp = ip_hdr(skb)->tos & 0xfc;
++		break;
++	default:
++		return 0;
++	}
++
++	return dscp >> 5;
++}
++
++
++static u16 rtw_select_queue(struct net_device *dev, struct sk_buff *skb
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(3, 13, 0)
++	, void *accel_priv
++	#if LINUX_VERSION_CODE >= KERNEL_VERSION(3, 14, 0)
++	, select_queue_fallback_t fallback
++	#endif
++#endif
++)
++{
++	_adapter	*padapter = rtw_netdev_priv(dev);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	skb->priority = rtw_classify8021d(skb);
++
++	if (pmlmepriv->acm_mask != 0)
++		skb->priority = qos_acm(pmlmepriv->acm_mask, skb->priority);
++
++	return rtw_1d_to_queue[skb->priority];
++}
++
++u16 rtw_recv_select_queue(struct sk_buff *skb)
++{
++	struct iphdr *piphdr;
++	unsigned int dscp;
++	u16	eth_type;
++	u32 priority;
++	u8 *pdata = skb->data;
++
++	_rtw_memcpy(&eth_type, pdata + (ETH_ALEN << 1), 2);
++
++	switch (eth_type) {
++	case htons(ETH_P_IP):
++
++		piphdr = (struct iphdr *)(pdata + ETH_HLEN);
++
++		dscp = piphdr->tos & 0xfc;
++
++		priority = dscp >> 5;
++
++		break;
++	default:
++		priority = 0;
++	}
++
++	return rtw_1d_to_queue[priority];
++
++}
++
++#endif
++static int rtw_ndev_notifier_call(struct notifier_block *nb, unsigned long state, void *ptr)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 11, 0))
++	struct net_device *dev = netdev_notifier_info_to_dev(ptr);
++#else
++	struct net_device *dev = ptr;
++#endif
++
++	if (dev == NULL)
++		return NOTIFY_DONE;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
++	if (dev->netdev_ops == NULL)
++		return NOTIFY_DONE;
++
++	if (dev->netdev_ops->ndo_do_ioctl == NULL)
++		return NOTIFY_DONE;
++
++	if (dev->netdev_ops->ndo_do_ioctl != rtw_ioctl)
++#else
++	if (dev->do_ioctl == NULL)
++		return NOTIFY_DONE;
++
++	if (dev->do_ioctl != rtw_ioctl)
++#endif
++		return NOTIFY_DONE;
++
++	RTW_INFO(FUNC_NDEV_FMT" state:%lu\n", FUNC_NDEV_ARG(dev), state);
++
++	switch (state) {
++	case NETDEV_CHANGENAME:
++		rtw_adapter_proc_replace(dev);
++		break;
++	}
++
++	return NOTIFY_DONE;
++}
++
++static struct notifier_block rtw_ndev_notifier = {
++	.notifier_call = rtw_ndev_notifier_call,
++};
++
++int rtw_ndev_notifier_register(void)
++{
++	return register_netdevice_notifier(&rtw_ndev_notifier);
++}
++
++void rtw_ndev_notifier_unregister(void)
++{
++	unregister_netdevice_notifier(&rtw_ndev_notifier);
++}
++
++
++int rtw_ndev_init(struct net_device *dev)
++{
++	_adapter *adapter = rtw_netdev_priv(dev);
++
++	RTW_PRINT(FUNC_ADPT_FMT" if%d mac_addr="MAC_FMT"\n"
++		, FUNC_ADPT_ARG(adapter), (adapter->iface_id + 1), MAC_ARG(dev->dev_addr));
++	strncpy(adapter->old_ifname, dev->name, IFNAMSIZ);
++	adapter->old_ifname[IFNAMSIZ - 1] = '\0';
++	rtw_adapter_proc_init(dev);
++
++	return 0;
++}
++
++void rtw_ndev_uninit(struct net_device *dev)
++{
++	_adapter *adapter = rtw_netdev_priv(dev);
++
++	RTW_PRINT(FUNC_ADPT_FMT" if%d\n"
++		  , FUNC_ADPT_ARG(adapter), (adapter->iface_id + 1));
++	rtw_adapter_proc_deinit(dev);
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
++static const struct net_device_ops rtw_netdev_ops = {
++	.ndo_init = rtw_ndev_init,
++	.ndo_uninit = rtw_ndev_uninit,
++	.ndo_open = netdev_open,
++	.ndo_stop = netdev_close,
++	.ndo_start_xmit = rtw_xmit_entry,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	.ndo_select_queue	= rtw_select_queue,
++#endif
++	.ndo_set_mac_address = rtw_net_set_mac_address,
++	.ndo_get_stats = rtw_net_get_stats,
++	.ndo_do_ioctl = rtw_ioctl,
++};
++#endif
++
++int rtw_init_netdev_name(struct net_device *pnetdev, const char *ifname)
++{
++	_adapter *padapter = rtw_netdev_priv(pnetdev);
++
++#ifdef CONFIG_EASY_REPLACEMENT
++	struct net_device	*TargetNetdev = NULL;
++	_adapter			*TargetAdapter = NULL;
++	struct net		*devnet = NULL;
++
++	if (padapter->bDongle == 1) {
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 24))
++		TargetNetdev = dev_get_by_name("wlan0");
++#else
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 26))
++		devnet = pnetdev->nd_net;
++#else
++		devnet = dev_net(pnetdev);
++#endif
++		TargetNetdev = dev_get_by_name(devnet, "wlan0");
++#endif
++		if (TargetNetdev) {
++			RTW_INFO("Force onboard module driver disappear !!!\n");
++			TargetAdapter = rtw_netdev_priv(TargetNetdev);
++			TargetAdapter->DriverState = DRIVER_DISAPPEAR;
++
++			padapter->pid[0] = TargetAdapter->pid[0];
++			padapter->pid[1] = TargetAdapter->pid[1];
++			padapter->pid[2] = TargetAdapter->pid[2];
++
++			dev_put(TargetNetdev);
++			unregister_netdev(TargetNetdev);
++
++			padapter->DriverState = DRIVER_REPLACE_DONGLE;
++		}
++	}
++#endif /* CONFIG_EASY_REPLACEMENT */
++
++	if (dev_alloc_name(pnetdev, ifname) < 0)
++		RTW_ERR("dev_alloc_name, fail!\n");
++
++	netif_carrier_off(pnetdev);
++	/* rtw_netif_stop_queue(pnetdev); */
++
++	return 0;
++}
++
++void rtw_hook_if_ops(struct net_device *ndev)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
++	ndev->netdev_ops = &rtw_netdev_ops;
++#else
++	ndev->init = rtw_ndev_init;
++	ndev->uninit = rtw_ndev_uninit;
++	ndev->open = netdev_open;
++	ndev->stop = netdev_close;
++	ndev->hard_start_xmit = rtw_xmit_entry;
++	ndev->set_mac_address = rtw_net_set_mac_address;
++	ndev->get_stats = rtw_net_get_stats;
++	ndev->do_ioctl = rtw_ioctl;
++#endif
++}
++
++struct net_device *rtw_init_netdev(_adapter *old_padapter)
++{
++	_adapter *padapter;
++	struct net_device *pnetdev;
++
++
++	if (old_padapter != NULL)
++		pnetdev = rtw_alloc_etherdev_with_old_priv(sizeof(_adapter), (void *)old_padapter);
++	else
++		pnetdev = rtw_alloc_etherdev(sizeof(_adapter));
++
++	if (!pnetdev)
++		return NULL;
++
++	padapter = rtw_netdev_priv(pnetdev);
++	padapter->pnetdev = pnetdev;
++
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 24)
++	SET_MODULE_OWNER(pnetdev);
++#endif
++
++	rtw_hook_if_ops(pnetdev);
++
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
++	pnetdev->features |= NETIF_F_IP_CSUM;
++#endif
++
++	/* pnetdev->tx_timeout = NULL; */
++	pnetdev->watchdog_timeo = HZ * 3; /* 3 second timeout */
++
++#ifdef CONFIG_WIRELESS_EXT
++	pnetdev->wireless_handlers = (struct iw_handler_def *)&rtw_handlers_def;
++#endif
++
++#ifdef WIRELESS_SPY
++	/* priv->wireless_data.spy_data = &priv->spy_data; */
++	/* pnetdev->wireless_data = &priv->wireless_data; */
++#endif
++
++	return pnetdev;
++}
++
++int rtw_os_ndev_alloc(_adapter *adapter)
++{
++	int ret = _FAIL;
++	struct net_device *ndev = NULL;
++
++	ndev = rtw_init_netdev(adapter);
++	if (ndev == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++#if LINUX_VERSION_CODE > KERNEL_VERSION(2, 5, 0)
++	SET_NETDEV_DEV(ndev, dvobj_to_dev(adapter_to_dvobj(adapter)));
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	if (adapter_to_dvobj(adapter)->bdma64)
++		ndev->features |= NETIF_F_HIGHDMA;
++	ndev->irq = adapter_to_dvobj(adapter)->irq;
++#endif
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	if (rtw_cfg80211_ndev_res_alloc(adapter) != _SUCCESS) {
++		rtw_warn_on(1);
++		goto free_ndev;
++	}
++#endif
++
++	ret = _SUCCESS;
++
++free_ndev:
++	if (ret != _SUCCESS && ndev)
++		rtw_free_netdev(ndev);
++exit:
++	return ret;
++}
++
++void rtw_os_ndev_free(_adapter *adapter)
++{
++#if defined(CONFIG_IOCTL_CFG80211)
++	rtw_cfg80211_ndev_res_free(adapter);
++#endif
++
++	if (adapter->pnetdev) {
++		rtw_free_netdev(adapter->pnetdev);
++		adapter->pnetdev = NULL;
++	}
++}
++
++int rtw_os_ndev_register(_adapter *adapter, char *name)
++{
++	int ret = _SUCCESS;
++	struct net_device *ndev = adapter->pnetdev;
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	if (rtw_cfg80211_ndev_res_register(adapter) != _SUCCESS) {
++		rtw_warn_on(1);
++		ret = _FAIL;
++		goto exit;
++	}
++#endif
++
++	/* alloc netdev name */
++	rtw_init_netdev_name(ndev, name);
++
++	_rtw_memcpy(ndev->dev_addr, adapter_mac_addr(adapter), ETH_ALEN);
++
++	/* Tell the network stack we exist */
++	if (register_netdev(ndev) != 0) {
++		RTW_INFO(FUNC_NDEV_FMT" if%d Failed!\n", FUNC_NDEV_ARG(ndev), (adapter->iface_id + 1));
++		ret = _FAIL;
++	}
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	if (ret != _SUCCESS) {
++		rtw_cfg80211_ndev_res_unregister(adapter);
++		#if !defined(RTW_SINGLE_WIPHY)
++		rtw_wiphy_unregister(adapter_to_wiphy(adapter));
++		#endif
++	}
++#endif
++
++exit:
++	return ret;
++}
++
++void rtw_os_ndev_unregister(_adapter *adapter)
++{
++	struct net_device *netdev = NULL;
++
++	if (adapter == NULL)
++		return;
++
++	adapter->ndev_unregistering = 1;
++
++	netdev = adapter->pnetdev;
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	rtw_cfg80211_ndev_res_unregister(adapter);
++#endif
++
++	if ((adapter->DriverState != DRIVER_DISAPPEAR) && netdev)
++		unregister_netdev(netdev); /* will call netdev_close() */
++
++#if defined(CONFIG_IOCTL_CFG80211) && !defined(RTW_SINGLE_WIPHY)
++	rtw_wiphy_unregister(adapter_to_wiphy(adapter));
++#endif
++
++	adapter->ndev_unregistering = 0;
++}
++
++/**
++ * rtw_os_ndev_init - Allocate and register OS layer net device and relating structures for @adapter
++ * @adapter: the adapter on which this function applies
++ * @name: the requesting net device name
++ *
++ * Returns:
++ * _SUCCESS or _FAIL
++ */
++int rtw_os_ndev_init(_adapter *adapter, char *name)
++{
++	int ret = _FAIL;
++
++	if (rtw_os_ndev_alloc(adapter) != _SUCCESS)
++		goto exit;
++
++	if (rtw_os_ndev_register(adapter, name) != _SUCCESS)
++		goto os_ndev_free;
++
++	ret = _SUCCESS;
++
++os_ndev_free:
++	if (ret != _SUCCESS)
++		rtw_os_ndev_free(adapter);
++exit:
++	return ret;
++}
++
++/**
++ * rtw_os_ndev_deinit - Unregister and free OS layer net device and relating structures for @adapter
++ * @adapter: the adapter on which this function applies
++ */
++void rtw_os_ndev_deinit(_adapter *adapter)
++{
++	rtw_os_ndev_unregister(adapter);
++	rtw_os_ndev_free(adapter);
++}
++
++int rtw_os_ndevs_alloc(struct dvobj_priv *dvobj)
++{
++	int i, status = _SUCCESS;
++	_adapter *adapter;
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	if (rtw_cfg80211_dev_res_alloc(dvobj) != _SUCCESS) {
++		rtw_warn_on(1);
++		status = _FAIL;
++		goto exit;
++	}
++#endif
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++
++		if (i >= CONFIG_IFACE_NUMBER) {
++			RTW_ERR("%s %d >= CONFIG_IFACE_NUMBER(%d)\n", __func__, i, CONFIG_IFACE_NUMBER);
++			rtw_warn_on(1);
++			continue;
++		}
++
++		adapter = dvobj->padapters[i];
++		if (adapter && !adapter->pnetdev) {
++			status = rtw_os_ndev_alloc(adapter);
++			if (status != _SUCCESS) {
++				rtw_warn_on(1);
++				break;
++			}
++		}
++	}
++
++	if (status != _SUCCESS) {
++		for (; i >= 0; i--) {
++			adapter = dvobj->padapters[i];
++			if (adapter && adapter->pnetdev)
++				rtw_os_ndev_free(adapter);
++		}
++	}
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	if (status != _SUCCESS)
++		rtw_cfg80211_dev_res_free(dvobj);
++#endif
++exit:
++	return status;
++}
++
++void rtw_os_ndevs_free(struct dvobj_priv *dvobj)
++{
++	int i;
++	_adapter *adapter = NULL;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++
++		if (i >= CONFIG_IFACE_NUMBER) {
++			RTW_ERR("%s %d >= CONFIG_IFACE_NUMBER(%d)\n", __func__, i, CONFIG_IFACE_NUMBER);
++			rtw_warn_on(1);
++			continue;
++		}
++
++		adapter = dvobj->padapters[i];
++
++		if (adapter == NULL)
++			continue;
++
++		rtw_os_ndev_free(adapter);
++	}
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	rtw_cfg80211_dev_res_free(dvobj);
++#endif
++}
++
++u32 rtw_start_drv_threads(_adapter *padapter)
++{
++	u32 _status = _SUCCESS;
++
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++#if defined(CONFIG_SDIO_HCI)
++	if (is_primary_adapter(padapter))
++#endif
++	{
++		padapter->xmitThread = kthread_run(rtw_xmit_thread, padapter, "RTW_XMIT_THREAD");
++		if (IS_ERR(padapter->xmitThread))
++			_status = _FAIL;
++	}
++#endif /* #ifdef CONFIG_XMIT_THREAD_MODE */
++
++#ifdef CONFIG_RECV_THREAD_MODE
++	padapter->recvThread = kthread_run(rtw_recv_thread, padapter, "RTW_RECV_THREAD");
++	if (IS_ERR(padapter->recvThread))
++		_status = _FAIL;
++#endif
++
++	if (is_primary_adapter(padapter)) {
++		padapter->cmdThread = kthread_run(rtw_cmd_thread, padapter, "RTW_CMD_THREAD");
++		if (IS_ERR(padapter->cmdThread))
++			_status = _FAIL;
++		else
++			_rtw_down_sema(&padapter->cmdpriv.terminate_cmdthread_sema); /* wait for cmd_thread to run */
++	}
++
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++	padapter->evtThread = kthread_run(event_thread, padapter, "RTW_EVENT_THREAD");
++	if (IS_ERR(padapter->evtThread))
++		_status = _FAIL;
++#endif
++
++	rtw_hal_start_thread(padapter);
++	return _status;
++
++}
++
++void rtw_stop_drv_threads(_adapter *padapter)
++{
++
++	if (is_primary_adapter(padapter))
++		rtw_stop_cmd_thread(padapter);
++
++#ifdef CONFIG_EVENT_THREAD_MODE
++	_rtw_up_sema(&padapter->evtpriv.evt_notify);
++	if (padapter->evtThread)
++		_rtw_down_sema(&padapter->evtpriv.terminate_evtthread_sema);
++#endif
++
++#ifdef CONFIG_XMIT_THREAD_MODE
++	/* Below is to termindate tx_thread... */
++#if defined(CONFIG_SDIO_HCI)
++	/* Only wake-up primary adapter */
++	if (is_primary_adapter(padapter))
++#endif  /*SDIO_HCI */
++	{
++		_rtw_up_sema(&padapter->xmitpriv.xmit_sema);
++		_rtw_down_sema(&padapter->xmitpriv.terminate_xmitthread_sema);
++	}
++#endif
++
++#ifdef CONFIG_RECV_THREAD_MODE
++	/* Below is to termindate rx_thread... */
++	_rtw_up_sema(&padapter->recvpriv.recv_sema);
++	_rtw_down_sema(&padapter->recvpriv.terminate_recvthread_sema);
++#endif
++
++	rtw_hal_stop_thread(padapter);
++}
++
++u8 rtw_init_default_value(_adapter *padapter);
++u8 rtw_init_default_value(_adapter *padapter)
++{
++	u8 ret  = _SUCCESS;
++	struct registry_priv *pregistrypriv = &padapter->registrypriv;
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct security_priv *psecuritypriv = &padapter->securitypriv;
++
++	/* xmit_priv */
++	pxmitpriv->vcs_setting = pregistrypriv->vrtl_carrier_sense;
++	pxmitpriv->vcs = pregistrypriv->vcs_type;
++	pxmitpriv->vcs_type = pregistrypriv->vcs_type;
++	/* pxmitpriv->rts_thresh = pregistrypriv->rts_thresh; */
++	pxmitpriv->frag_len = pregistrypriv->frag_thresh;
++
++	/* security_priv */
++	/* rtw_get_encrypt_decrypt_from_registrypriv(padapter); */
++	psecuritypriv->binstallGrpkey = _FAIL;
++#ifdef CONFIG_GTK_OL
++	psecuritypriv->binstallKCK_KEK = _FAIL;
++#endif /* CONFIG_GTK_OL */
++	psecuritypriv->sw_encrypt = pregistrypriv->software_encrypt;
++	psecuritypriv->sw_decrypt = pregistrypriv->software_decrypt;
++
++	psecuritypriv->dot11AuthAlgrthm = dot11AuthAlgrthm_Open; /* open system */
++	psecuritypriv->dot11PrivacyAlgrthm = _NO_PRIVACY_;
++
++	psecuritypriv->dot11PrivacyKeyIndex = 0;
++
++	psecuritypriv->dot118021XGrpPrivacy = _NO_PRIVACY_;
++	psecuritypriv->dot118021XGrpKeyid = 1;
++
++	psecuritypriv->ndisauthtype = Ndis802_11AuthModeOpen;
++	psecuritypriv->ndisencryptstatus = Ndis802_11WEPDisabled;
++#ifdef CONFIG_CONCURRENT_MODE
++	psecuritypriv->dot118021x_bmc_cam_id = INVALID_SEC_MAC_CAM_ID;
++#endif
++
++
++	/* pwrctrl_priv */
++
++
++	/* registry_priv */
++	rtw_init_registrypriv_dev_network(padapter);
++	rtw_update_registrypriv_dev_network(padapter);
++
++
++	/* hal_priv */
++	rtw_hal_def_value_init(padapter);
++
++	/* misc. */
++	RTW_ENABLE_FUNC(padapter, DF_RX_BIT);
++	RTW_ENABLE_FUNC(padapter, DF_TX_BIT);
++	padapter->bLinkInfoDump = 0;
++	padapter->bNotifyChannelChange = _FALSE;
++#ifdef CONFIG_P2P
++	padapter->bShowGetP2PState = 1;
++#endif
++
++	/* for debug purpose */
++	padapter->fix_rate = 0xFF;
++	padapter->data_fb = 0;
++	padapter->fix_bw = 0xFF;
++
++	padapter->driver_tx_bw_mode = pregistrypriv->tx_bw_mode;
++
++	padapter->driver_ampdu_spacing = 0xFF;
++	padapter->driver_rx_ampdu_factor =  0xFF;
++	padapter->driver_rx_ampdu_spacing = 0xFF;
++	padapter->fix_rx_ampdu_accept = RX_AMPDU_ACCEPT_INVALID;
++	padapter->fix_rx_ampdu_size = RX_AMPDU_SIZE_INVALID;
++#ifdef DBG_RX_COUNTER_DUMP
++	padapter->dump_rx_cnt_mode = 0;
++	padapter->drv_rx_cnt_ok = 0;
++	padapter->drv_rx_cnt_crcerror = 0;
++	padapter->drv_rx_cnt_drop = 0;
++#endif
++	return ret;
++}
++
++#ifdef CONFIG_SWTIMER_BASED_TXBCN
++void _tx_beacon_timer_handlder(void *FunctionContext)
++{
++	struct dvobj_priv *pdvobj = (struct dvobj_priv *)FunctionContext;
++
++	tx_beacon_timer_handlder(pdvobj);
++}
++#endif
++
++struct dvobj_priv *devobj_init(void)
++{
++	struct dvobj_priv *pdvobj = NULL;
++
++	pdvobj = (struct dvobj_priv *)rtw_zmalloc(sizeof(*pdvobj));
++	if (pdvobj == NULL)
++		return NULL;
++
++	_rtw_mutex_init(&pdvobj->hw_init_mutex);
++	_rtw_mutex_init(&pdvobj->h2c_fwcmd_mutex);
++	_rtw_mutex_init(&pdvobj->setch_mutex);
++	_rtw_mutex_init(&pdvobj->setbw_mutex);
++	_rtw_mutex_init(&pdvobj->rf_read_reg_mutex);
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++	_rtw_mutex_init(&pdvobj->sd_indirect_access_mutex);
++#endif
++
++	pdvobj->processing_dev_remove = _FALSE;
++
++	ATOMIC_SET(&pdvobj->disable_func, 0);
++
++	rtw_macid_ctl_init(&pdvobj->macid_ctl);
++	_rtw_spinlock_init(&pdvobj->cam_ctl.lock);
++	_rtw_mutex_init(&pdvobj->cam_ctl.sec_cam_access_mutex);
++#if defined(RTK_129X_PLATFORM) && defined(CONFIG_PCI_HCI)
++	_rtw_spinlock_init(&pdvobj->io_reg_lock);
++#endif
++#ifdef CONFIG_MBSSID_CAM
++	rtw_mbid_cam_init(pdvobj);
++#endif
++
++#ifdef CONFIG_AP_MODE
++	pdvobj->nr_ap_if = 0;
++	pdvobj->inter_bcn_space = DEFAULT_BCN_INTERVAL; /* default value is equal to the default beacon_interval (100ms) */
++	_rtw_init_queue(&pdvobj->ap_if_q);
++#ifdef CONFIG_SWTIMER_BASED_TXBCN
++	_init_timer(&(pdvobj->txbcn_timer), NULL, _tx_beacon_timer_handlder, pdvobj);
++#endif
++#endif
++
++	_init_timer(&(pdvobj->dynamic_chk_timer), NULL, _dynamic_check_timer_handlder, pdvobj);
++
++#ifdef CONFIG_MCC_MODE
++	_rtw_mutex_init(&(pdvobj->mcc_objpriv.mcc_mutex));
++	_rtw_spinlock_init(&pdvobj->mcc_objpriv.mcc_lock);
++#endif /* CONFIG_MCC_MODE */
++
++	return pdvobj;
++
++}
++
++void devobj_deinit(struct dvobj_priv *pdvobj)
++{
++	if (!pdvobj)
++		return;
++
++	/* TODO: use rtw_os_ndevs_deinit instead at the first stage of driver's dev deinit function */
++#if defined(CONFIG_IOCTL_CFG80211)
++	rtw_cfg80211_dev_res_free(pdvobj);
++#endif
++
++#ifdef CONFIG_MCC_MODE
++	_rtw_mutex_free(&(pdvobj->mcc_objpriv.mcc_mutex));
++	_rtw_spinlock_free(&pdvobj->mcc_objpriv.mcc_lock);
++#endif /* CONFIG_MCC_MODE */
++
++	_rtw_mutex_free(&pdvobj->hw_init_mutex);
++	_rtw_mutex_free(&pdvobj->h2c_fwcmd_mutex);
++	_rtw_mutex_free(&pdvobj->setch_mutex);
++	_rtw_mutex_free(&pdvobj->setbw_mutex);
++	_rtw_mutex_free(&pdvobj->rf_read_reg_mutex);
++#ifdef CONFIG_SDIO_INDIRECT_ACCESS
++	_rtw_mutex_free(&pdvobj->sd_indirect_access_mutex);
++#endif
++
++	rtw_macid_ctl_deinit(&pdvobj->macid_ctl);
++	_rtw_spinlock_free(&pdvobj->cam_ctl.lock);
++	_rtw_mutex_free(&pdvobj->cam_ctl.sec_cam_access_mutex);
++
++#if defined(RTK_129X_PLATFORM) && defined(CONFIG_PCI_HCI)
++	_rtw_spinlock_free(&pdvobj->io_reg_lock);
++#endif
++#ifdef CONFIG_MBSSID_CAM
++	rtw_mbid_cam_deinit(pdvobj);
++#endif
++
++	_rtw_spinlock_free(&(pdvobj->ap_if_q.lock));
++
++	rtw_mfree((u8 *)pdvobj, sizeof(*pdvobj));
++}
++
++u8 rtw_reset_drv_sw(_adapter *padapter)
++{
++	u8	ret8 = _SUCCESS;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++
++	/* hal_priv */
++	if (is_primary_adapter(padapter))
++		rtw_hal_def_value_init(padapter);
++
++	RTW_ENABLE_FUNC(padapter, DF_RX_BIT);
++	RTW_ENABLE_FUNC(padapter, DF_TX_BIT);
++	padapter->bLinkInfoDump = 0;
++
++	padapter->xmitpriv.tx_pkts = 0;
++	padapter->recvpriv.rx_pkts = 0;
++
++	pmlmepriv->LinkDetectInfo.bBusyTraffic = _FALSE;
++
++	/* pmlmepriv->LinkDetectInfo.TrafficBusyState = _FALSE; */
++	pmlmepriv->LinkDetectInfo.TrafficTransitionCount = 0;
++	pmlmepriv->LinkDetectInfo.LowPowerTransitionCount = 0;
++
++	_clr_fwstate_(pmlmepriv, _FW_UNDER_SURVEY | _FW_UNDER_LINKING);
++
++#ifdef CONFIG_AUTOSUSPEND
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 22) && LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 34))
++	adapter_to_dvobj(padapter)->pusbdev->autosuspend_disabled = 1;/* autosuspend disabled by the user */
++#endif
++#endif
++
++#ifdef DBG_CONFIG_ERROR_DETECT
++	if (is_primary_adapter(padapter))
++		rtw_hal_sreset_reset_value(padapter);
++#endif
++	pwrctrlpriv->pwr_state_check_cnts = 0;
++
++	/* mlmeextpriv */
++	mlmeext_set_scan_state(&padapter->mlmeextpriv, SCAN_DISABLE);
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	rtw_set_signal_stat_timer(&padapter->recvpriv);
++#endif
++
++	return ret8;
++}
++
++
++u8 rtw_init_drv_sw(_adapter *padapter)
++{
++
++	u8	ret8 = _SUCCESS;
++
++
++
++	_rtw_init_listhead(&padapter->list);
++
++	ret8 = rtw_init_default_value(padapter);
++
++	if ((rtw_init_cmd_priv(&padapter->cmdpriv)) == _FAIL) {
++		ret8 = _FAIL;
++		goto exit;
++	}
++
++	padapter->cmdpriv.padapter = padapter;
++
++	if ((rtw_init_evt_priv(&padapter->evtpriv)) == _FAIL) {
++		ret8 = _FAIL;
++		goto exit;
++	}
++
++	rtw_rfctl_init(padapter);
++
++	if (rtw_init_mlme_priv(padapter) == _FAIL) {
++		ret8 = _FAIL;
++		goto exit;
++	}
++
++#ifdef CONFIG_P2P
++	rtw_init_wifidirect_timers(padapter);
++	init_wifidirect_info(padapter, P2P_ROLE_DISABLE);
++	reset_global_wifidirect_info(padapter);
++	#ifdef CONFIG_IOCTL_CFG80211
++	rtw_init_cfg80211_wifidirect_info(padapter);
++	#endif
++#ifdef CONFIG_WFD
++	if (rtw_init_wifi_display_info(padapter) == _FAIL)
++		RTW_ERR("Can't init init_wifi_display_info\n");
++#endif
++#endif /* CONFIG_P2P */
++
++	if (init_mlme_ext_priv(padapter) == _FAIL) {
++		ret8 = _FAIL;
++		goto exit;
++	}
++
++#ifdef CONFIG_TDLS
++	if (rtw_init_tdls_info(padapter) == _FAIL) {
++		RTW_INFO("Can't rtw_init_tdls_info\n");
++		ret8 = _FAIL;
++		goto exit;
++	}
++#endif /* CONFIG_TDLS */
++
++	if (_rtw_init_xmit_priv(&padapter->xmitpriv, padapter) == _FAIL) {
++		RTW_INFO("Can't _rtw_init_xmit_priv\n");
++		ret8 = _FAIL;
++		goto exit;
++	}
++
++	if (_rtw_init_recv_priv(&padapter->recvpriv, padapter) == _FAIL) {
++		RTW_INFO("Can't _rtw_init_recv_priv\n");
++		ret8 = _FAIL;
++		goto exit;
++	}
++	/* add for CONFIG_IEEE80211W, none 11w also can use */
++	_rtw_spinlock_init(&padapter->security_key_mutex);
++
++	/* We don't need to memset padapter->XXX to zero, because adapter is allocated by rtw_zvmalloc(). */
++	/* _rtw_memset((unsigned char *)&padapter->securitypriv, 0, sizeof (struct security_priv)); */
++
++	/* _init_timer(&(padapter->securitypriv.tkip_timer), padapter->pifp, rtw_use_tkipkey_handler, padapter); */
++
++	if (_rtw_init_sta_priv(&padapter->stapriv) == _FAIL) {
++		RTW_INFO("Can't _rtw_init_sta_priv\n");
++		ret8 = _FAIL;
++		goto exit;
++	}
++
++	padapter->stapriv.padapter = padapter;
++	padapter->setband = WIFI_FREQUENCY_BAND_AUTO;
++	padapter->fix_rate = 0xFF;
++	padapter->data_fb = 0;
++	padapter->fix_rx_ampdu_accept = RX_AMPDU_ACCEPT_INVALID;
++	padapter->fix_rx_ampdu_size = RX_AMPDU_SIZE_INVALID;
++#ifdef DBG_RX_COUNTER_DUMP
++	padapter->dump_rx_cnt_mode = 0;
++	padapter->drv_rx_cnt_ok = 0;
++	padapter->drv_rx_cnt_crcerror = 0;
++	padapter->drv_rx_cnt_drop = 0;
++#endif
++	rtw_init_bcmc_stainfo(padapter);
++
++	rtw_init_pwrctrl_priv(padapter);
++
++	/* _rtw_memset((u8 *)&padapter->qospriv, 0, sizeof (struct qos_priv)); */ /* move to mlme_priv */
++
++#ifdef CONFIG_MP_INCLUDED
++	if (init_mp_priv(padapter) == _FAIL)
++		RTW_INFO("%s: initialize MP private data Fail!\n", __func__);
++#endif
++
++	rtw_hal_dm_init(padapter);
++#ifdef CONFIG_SW_LED
++	rtw_hal_sw_led_init(padapter);
++#endif
++#ifdef DBG_CONFIG_ERROR_DETECT
++	rtw_hal_sreset_init(padapter);
++#endif
++
++#ifdef CONFIG_INTEL_WIDI
++	if (rtw_init_intel_widi(padapter) == _FAIL) {
++		RTW_INFO("Can't rtw_init_intel_widi\n");
++		ret8 = _FAIL;
++		goto exit;
++	}
++#endif /* CONFIG_INTEL_WIDI */
++
++#ifdef CONFIG_WAPI_SUPPORT
++	padapter->WapiSupport = true; /* set true temp, will revise according to Efuse or Registry value later. */
++	rtw_wapi_init(padapter);
++#endif
++
++#ifdef CONFIG_BR_EXT
++	_rtw_spinlock_init(&padapter->br_ext_lock);
++#endif /* CONFIG_BR_EXT */
++
++exit:
++
++
++
++	return ret8;
++
++}
++
++#ifdef CONFIG_WOWLAN
++void rtw_cancel_dynamic_chk_timer(_adapter *padapter)
++{
++	_cancel_timer_ex(&adapter_to_dvobj(padapter)->dynamic_chk_timer);
++}
++#endif
++
++void rtw_cancel_all_timer(_adapter *padapter)
++{
++
++	_cancel_timer_ex(&padapter->mlmepriv.assoc_timer);
++
++#if 0
++	_cancel_timer_ex(&padapter->securitypriv.tkip_timer);
++#endif
++
++	_cancel_timer_ex(&padapter->mlmepriv.scan_to_timer);
++
++#ifdef CONFIG_DFS_MASTER
++	_cancel_timer_ex(&padapter->mlmepriv.dfs_master_timer);
++#endif
++
++	_cancel_timer_ex(&adapter_to_dvobj(padapter)->dynamic_chk_timer);
++
++	/* cancel sw led timer */
++	rtw_hal_sw_led_deinit(padapter);
++
++	_cancel_timer_ex(&(adapter_to_pwrctl(padapter)->pwr_state_check_timer));
++
++#ifdef CONFIG_IOCTL_CFG80211
++#ifdef CONFIG_P2P
++	_cancel_timer_ex(&padapter->cfg80211_wdinfo.remain_on_ch_timer);
++#endif /* CONFIG_P2P */
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++#ifdef CONFIG_SET_SCAN_DENY_TIMER
++	_cancel_timer_ex(&padapter->mlmepriv.set_scan_deny_timer);
++	rtw_clear_scan_deny(padapter);
++#endif
++
++#ifdef CONFIG_NEW_SIGNAL_STAT_PROCESS
++	_cancel_timer_ex(&padapter->recvpriv.signal_stat_timer);
++#endif
++	/* cancel dm timer */
++	rtw_hal_dm_deinit(padapter);
++
++#ifdef CONFIG_PLATFORM_FS_MX61
++	msleep(50);
++#endif
++}
++
++u8 rtw_free_drv_sw(_adapter *padapter)
++{
++
++#ifdef CONFIG_WAPI_SUPPORT
++	rtw_wapi_free(padapter);
++#endif
++
++	/* we can call rtw_p2p_enable here, but: */
++	/* 1. rtw_p2p_enable may have IO operation */
++	/* 2. rtw_p2p_enable is bundled with wext interface */
++	#ifdef CONFIG_P2P
++	{
++		struct wifidirect_info *pwdinfo = &padapter->wdinfo;
++		if (!rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)) {
++			_cancel_timer_ex(&pwdinfo->find_phase_timer);
++			_cancel_timer_ex(&pwdinfo->restore_p2p_state_timer);
++			_cancel_timer_ex(&pwdinfo->pre_tx_scan_timer);
++			#ifdef CONFIG_CONCURRENT_MODE
++			_cancel_timer_ex(&pwdinfo->ap_p2p_switch_timer);
++			#endif /* CONFIG_CONCURRENT_MODE */
++			rtw_p2p_set_state(pwdinfo, P2P_STATE_NONE);
++		}
++	}
++	#endif
++	/* add for CONFIG_IEEE80211W, none 11w also can use */
++	_rtw_spinlock_free(&padapter->security_key_mutex);
++
++#ifdef CONFIG_BR_EXT
++	_rtw_spinlock_free(&padapter->br_ext_lock);
++#endif /* CONFIG_BR_EXT */
++
++#ifdef CONFIG_INTEL_WIDI
++	rtw_free_intel_widi(padapter);
++#endif /* CONFIG_INTEL_WIDI */
++
++	free_mlme_ext_priv(&padapter->mlmeextpriv);
++
++#ifdef CONFIG_TDLS
++	/* rtw_free_tdls_info(&padapter->tdlsinfo); */
++#endif /* CONFIG_TDLS */
++
++	rtw_free_cmd_priv(&padapter->cmdpriv);
++
++	rtw_free_evt_priv(&padapter->evtpriv);
++
++	rtw_free_mlme_priv(&padapter->mlmepriv);
++
++	/* free_io_queue(padapter); */
++
++	_rtw_free_xmit_priv(&padapter->xmitpriv);
++
++	_rtw_free_sta_priv(&padapter->stapriv); /* will free bcmc_stainfo here */
++
++	_rtw_free_recv_priv(&padapter->recvpriv);
++
++	rtw_free_pwrctrl_priv(padapter);
++
++	/* rtw_mfree((void *)padapter, sizeof (padapter)); */
++
++#ifdef CONFIG_DRVEXT_MODULE
++	free_drvext(&padapter->drvextpriv);
++#endif
++
++	rtw_hal_free_data(padapter);
++
++
++	/* free the old_pnetdev */
++	if (padapter->rereg_nd_name_priv.old_pnetdev) {
++		free_netdev(padapter->rereg_nd_name_priv.old_pnetdev);
++		padapter->rereg_nd_name_priv.old_pnetdev = NULL;
++	}
++
++	return _SUCCESS;
++
++}
++void rtw_intf_start(_adapter *adapter)
++{
++	if (adapter->intf_start)
++		adapter->intf_start(adapter);
++}
++void rtw_intf_stop(_adapter *adapter)
++{
++	if (adapter->intf_stop)
++		adapter->intf_stop(adapter);
++}
++
++#ifdef CONFIG_CONCURRENT_MODE
++int _netdev_vir_if_open(struct net_device *pnetdev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	_adapter *primary_padapter = GET_PRIMARY_ADAPTER(padapter);
++
++	RTW_INFO(FUNC_NDEV_FMT" , bup=%d\n", FUNC_NDEV_ARG(pnetdev), padapter->bup);
++
++	if (!primary_padapter)
++		goto _netdev_virtual_iface_open_error;
++
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++	if (padapter->bup == _FALSE) {
++		u8 mac[ETH_ALEN];
++
++		/* get mac address from primary_padapter */
++		if (primary_padapter->bup == _FALSE)
++			rtw_macaddr_cfg(adapter_mac_addr(primary_padapter), get_hal_mac_addr(primary_padapter));
++
++		_rtw_memcpy(mac, adapter_mac_addr(primary_padapter), ETH_ALEN);
++
++		/*
++		* If the BIT1 is 0, the address is universally administered.
++		* If it is 1, the address is locally administered
++		*/
++		mac[0] |= BIT(1);
++
++		_rtw_memcpy(adapter_mac_addr(padapter), mac, ETH_ALEN);
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		rtw_mbid_camid_alloc(padapter, adapter_mac_addr(padapter));
++#endif
++		rtw_init_wifidirect_addrs(padapter, adapter_mac_addr(padapter), adapter_mac_addr(padapter));
++		_rtw_memcpy(pnetdev->dev_addr, adapter_mac_addr(padapter), ETH_ALEN);
++	}
++#endif /*CONFIG_PLATFORM_INTEL_BYT*/
++
++	if (primary_padapter->bup == _FALSE || !rtw_is_hw_init_completed(primary_padapter))
++		_netdev_open(primary_padapter->pnetdev);
++
++	if (padapter->bup == _FALSE && primary_padapter->bup == _TRUE &&
++	    rtw_is_hw_init_completed(primary_padapter)) {
++		padapter->bFWReady = primary_padapter->bFWReady;
++#if 0 /*#ifdef CONFIG_MI_WITH_MBSSID_CAM*/
++		rtw_hal_set_hwreg(padapter, HW_VAR_MAC_ADDR, adapter_mac_addr(padapter)); /* set mac addr to mac register */
++#endif
++
++		if (rtw_start_drv_threads(padapter) == _FAIL)
++			goto _netdev_virtual_iface_open_error;
++
++#ifdef CONFIG_IOCTL_CFG80211
++		rtw_cfg80211_init_wiphy(padapter);
++		rtw_cfg80211_init_wdev_data(padapter);
++#endif
++
++		padapter->bup = _TRUE;
++
++	}
++
++	padapter->net_closed = _FALSE;
++
++	rtw_netif_wake_queue(pnetdev);
++
++	RTW_INFO(FUNC_NDEV_FMT" (bup=%d) exit\n", FUNC_NDEV_ARG(pnetdev), padapter->bup);
++
++	return 0;
++
++_netdev_virtual_iface_open_error:
++
++	padapter->bup = _FALSE;
++
++	netif_carrier_off(pnetdev);
++	rtw_netif_stop_queue(pnetdev);
++
++	return -1;
++
++}
++
++int netdev_vir_if_open(struct net_device *pnetdev)
++{
++	int ret;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++
++	_enter_critical_mutex(&(adapter_to_dvobj(padapter)->hw_init_mutex), NULL);
++	ret = _netdev_vir_if_open(pnetdev);
++	_exit_critical_mutex(&(adapter_to_dvobj(padapter)->hw_init_mutex), NULL);
++
++#ifdef CONFIG_AUTO_AP_MODE
++	/* if(padapter->iface_id == 2) */
++	/*	rtw_start_auto_ap(padapter); */
++#endif
++
++	return ret;
++}
++
++static int netdev_vir_if_close(struct net_device *pnetdev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++
++	RTW_INFO(FUNC_NDEV_FMT" , bup=%d\n", FUNC_NDEV_ARG(pnetdev), padapter->bup);
++	padapter->net_closed = _TRUE;
++	pmlmepriv->LinkDetectInfo.bBusyTraffic = _FALSE;
++
++	if (pnetdev)
++		rtw_netif_stop_queue(pnetdev);
++
++#ifdef CONFIG_P2P
++	if (!rtw_p2p_chk_role(&padapter->wdinfo, P2P_ROLE_DISABLE))
++		rtw_p2p_enable(padapter, P2P_ROLE_DISABLE);
++#endif
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_scan_abort(padapter);
++	rtw_cfg80211_wait_scan_req_empty(padapter, 200);
++	adapter_wdev_data(padapter)->bandroid_scan = _FALSE;
++#endif
++
++	return 0;
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
++static const struct net_device_ops rtw_netdev_vir_if_ops = {
++	.ndo_init = rtw_ndev_init,
++	.ndo_uninit = rtw_ndev_uninit,
++	.ndo_open = netdev_vir_if_open,
++	.ndo_stop = netdev_vir_if_close,
++	.ndo_start_xmit = rtw_xmit_entry,
++	.ndo_set_mac_address = rtw_net_set_mac_address,
++	.ndo_get_stats = rtw_net_get_stats,
++	.ndo_do_ioctl = rtw_ioctl,
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	.ndo_select_queue	= rtw_select_queue,
++#endif
++};
++#endif
++
++void rtw_hook_vir_if_ops(struct net_device *ndev)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
++	ndev->netdev_ops = &rtw_netdev_vir_if_ops;
++#else
++	ndev->init = rtw_ndev_init;
++	ndev->uninit = rtw_ndev_uninit;
++	ndev->open = netdev_vir_if_open;
++	ndev->stop = netdev_vir_if_close;
++	ndev->set_mac_address = rtw_net_set_mac_address;
++#endif
++}
++_adapter *rtw_drv_add_vir_if(_adapter *primary_padapter,
++	void (*set_intf_ops)(_adapter *primary_padapter, struct _io_ops *pops))
++{
++	int res = _FAIL;
++	_adapter *padapter = NULL;
++	struct dvobj_priv *pdvobjpriv;
++	u8 mac[ETH_ALEN];
++
++	/****** init adapter ******/
++	padapter = (_adapter *)rtw_zvmalloc(sizeof(*padapter));
++	if (padapter == NULL)
++		goto exit;
++
++	if (loadparam(padapter) != _SUCCESS)
++		goto free_adapter;
++
++	_rtw_memcpy(padapter, primary_padapter, sizeof(_adapter));
++
++	/*  */
++	padapter->bup = _FALSE;
++	padapter->net_closed = _TRUE;
++	padapter->dir_dev = NULL;
++	padapter->dir_odm = NULL;
++
++	/*set adapter_type/iface type*/
++	padapter->isprimary = _FALSE;
++	padapter->adapter_type = VIRTUAL_ADAPTER;
++
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++	padapter->hw_port = HW_PORT0;
++#else
++	padapter->hw_port = HW_PORT1;
++#endif
++
++
++	/****** hook vir if into dvobj ******/
++	pdvobjpriv = adapter_to_dvobj(padapter);
++	padapter->iface_id = pdvobjpriv->iface_nums;
++	pdvobjpriv->padapters[pdvobjpriv->iface_nums++] = padapter;
++
++	padapter->intf_start = primary_padapter->intf_start;
++	padapter->intf_stop = primary_padapter->intf_stop;
++
++	/* step init_io_priv */
++	if ((rtw_init_io_priv(padapter, set_intf_ops)) == _FAIL) {
++		goto free_adapter;
++	}
++
++	/*init drv data*/
++	if (rtw_init_drv_sw(padapter) != _SUCCESS)
++		goto free_drv_sw;
++
++
++	/*get mac address from primary_padapter*/
++	_rtw_memcpy(mac, adapter_mac_addr(primary_padapter), ETH_ALEN);
++
++	/*
++	* If the BIT1 is 0, the address is universally administered.
++	* If it is 1, the address is locally administered
++	*/
++	mac[0] |= BIT(1);
++	if (padapter->iface_id > IFACE_ID1)
++		mac[4] ^= BIT(padapter->iface_id);
++
++	_rtw_memcpy(adapter_mac_addr(padapter), mac, ETH_ALEN);
++	/* update mac-address to mbsid-cam cache*/
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++	rtw_mbid_camid_alloc(padapter, adapter_mac_addr(padapter));
++#endif
++	RTW_INFO("%s if%d mac_addr : "MAC_FMT"\n", __func__, padapter->iface_id + 1, MAC_ARG(adapter_mac_addr(padapter)));
++#ifdef CONFIG_P2P
++	rtw_init_wifidirect_addrs(padapter, adapter_mac_addr(padapter), adapter_mac_addr(padapter));
++#endif
++	res = _SUCCESS;
++
++free_drv_sw:
++	if (res != _SUCCESS && padapter)
++		rtw_free_drv_sw(padapter);
++free_adapter:
++	if (res != _SUCCESS && padapter) {
++		rtw_vmfree((u8 *)padapter, sizeof(*padapter));
++		padapter = NULL;
++	}
++exit:
++	return padapter;
++}
++
++void rtw_drv_stop_vir_if(_adapter *padapter)
++{
++	struct net_device *pnetdev = NULL;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	if (padapter == NULL)
++		return;
++
++	pnetdev = padapter->pnetdev;
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED))
++		rtw_disassoc_cmd(padapter, 0, _FALSE);
++
++#ifdef CONFIG_AP_MODE
++	if (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE) {
++		free_mlme_ap_info(padapter);
++		#ifdef CONFIG_HOSTAPD_MLME
++		hostapd_mode_unload(padapter);
++		#endif
++	}
++#endif
++
++	if (padapter->bup == _TRUE) {
++		#ifdef CONFIG_XMIT_ACK
++		if (padapter->xmitpriv.ack_tx)
++			rtw_ack_tx_done(&padapter->xmitpriv, RTW_SCTX_DONE_DRV_STOP);
++		#endif
++
++		rtw_intf_stop(padapter);
++
++		rtw_stop_drv_threads(padapter);
++
++		padapter->bup = _FALSE;
++	}
++	/* cancel timer after thread stop */
++	rtw_cancel_all_timer(padapter);
++}
++
++void rtw_drv_free_vir_if(_adapter *padapter)
++{
++	if (padapter == NULL)
++		return;
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++	rtw_free_drv_sw(padapter);
++
++	/* TODO: use rtw_os_ndevs_deinit instead at the first stage of driver's dev deinit function */
++	rtw_os_ndev_free(padapter);
++
++	rtw_vmfree((u8 *)padapter, sizeof(_adapter));
++}
++
++
++void rtw_drv_stop_vir_ifaces(struct dvobj_priv *dvobj)
++{
++	int i;
++
++	for (i = VIF_START_ID; i < dvobj->iface_nums; i++)
++		rtw_drv_stop_vir_if(dvobj->padapters[i]);
++}
++
++void rtw_drv_free_vir_ifaces(struct dvobj_priv *dvobj)
++{
++	int i;
++
++	for (i = VIF_START_ID; i < dvobj->iface_nums; i++)
++		rtw_drv_free_vir_if(dvobj->padapters[i]);
++}
++
++void rtw_drv_del_vir_if(_adapter *padapter)
++{
++	rtw_drv_stop_vir_if(padapter);
++	rtw_drv_free_vir_if(padapter);
++}
++
++void rtw_drv_del_vir_ifaces(_adapter *primary_padapter)
++{
++	int i;
++	struct dvobj_priv *dvobj = primary_padapter->dvobj;
++
++	for (i = VIF_START_ID; i < dvobj->iface_nums; i++)
++		rtw_drv_del_vir_if(dvobj->padapters[i]);
++
++}
++
++#endif /*end of CONFIG_CONCURRENT_MODE*/
++
++int rtw_os_ndevs_register(struct dvobj_priv *dvobj)
++{
++	int i, status = _SUCCESS;
++	struct registry_priv *regsty = dvobj_to_regsty(dvobj);
++	_adapter *adapter;
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	if (rtw_cfg80211_dev_res_register(dvobj) != _SUCCESS) {
++		rtw_warn_on(1);
++		status = _FAIL;
++		goto exit;
++	}
++#endif
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++
++		if (i >= CONFIG_IFACE_NUMBER) {
++			RTW_ERR("%s %d >= CONFIG_IFACE_NUMBER(%d)\n", __func__, i, CONFIG_IFACE_NUMBER);
++			rtw_warn_on(1);
++			continue;
++		}
++
++		adapter = dvobj->padapters[i];
++		if (adapter) {
++			char *name;
++
++			if (adapter->iface_id == IFACE_ID0)
++				name = regsty->ifname;
++			else if (adapter->iface_id == IFACE_ID1)
++				name = regsty->if2name;
++			else
++				name = "wlan%d";
++
++#ifdef CONFIG_CONCURRENT_MODE
++			if (!is_primary_adapter(adapter))
++				rtw_hook_vir_if_ops(adapter->pnetdev);
++#endif /* CONFIG_CONCURRENT_MODE */
++
++			status = rtw_os_ndev_register(adapter, name);
++
++			if (status != _SUCCESS) {
++				rtw_warn_on(1);
++				break;
++			}
++		}
++	}
++
++	if (status != _SUCCESS) {
++		for (; i >= 0; i--) {
++			adapter = dvobj->padapters[i];
++			if (adapter)
++				rtw_os_ndev_unregister(adapter);
++		}
++	}
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	if (status != _SUCCESS)
++		rtw_cfg80211_dev_res_unregister(dvobj);
++#endif
++exit:
++	return status;
++}
++
++void rtw_os_ndevs_unregister(struct dvobj_priv *dvobj)
++{
++	int i;
++	_adapter *adapter = NULL;
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		adapter = dvobj->padapters[i];
++
++		if (adapter == NULL)
++			continue;
++
++		rtw_os_ndev_unregister(adapter);
++	}
++
++#if defined(CONFIG_IOCTL_CFG80211)
++	rtw_cfg80211_dev_res_unregister(dvobj);
++#endif
++}
++
++/**
++ * rtw_os_ndevs_init - Allocate and register OS layer net devices and relating structures for @dvobj
++ * @dvobj: the dvobj on which this function applies
++ *
++ * Returns:
++ * _SUCCESS or _FAIL
++ */
++int rtw_os_ndevs_init(struct dvobj_priv *dvobj)
++{
++	int ret = _FAIL;
++
++	if (rtw_os_ndevs_alloc(dvobj) != _SUCCESS)
++		goto exit;
++
++	if (rtw_os_ndevs_register(dvobj) != _SUCCESS)
++		goto os_ndevs_free;
++
++	ret = _SUCCESS;
++
++os_ndevs_free:
++	if (ret != _SUCCESS)
++		rtw_os_ndevs_free(dvobj);
++exit:
++	return ret;
++}
++
++/**
++ * rtw_os_ndevs_deinit - Unregister and free OS layer net devices and relating structures for @dvobj
++ * @dvobj: the dvobj on which this function applies
++ */
++void rtw_os_ndevs_deinit(struct dvobj_priv *dvobj)
++{
++	rtw_os_ndevs_unregister(dvobj);
++	rtw_os_ndevs_free(dvobj);
++}
++
++#ifdef CONFIG_BR_EXT
++void netdev_br_init(struct net_device *netdev)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(netdev);
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
++	rcu_read_lock();
++#endif /* (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35)) */
++
++	/* if(check_fwstate(pmlmepriv, WIFI_STATION_STATE|WIFI_ADHOC_STATE) == _TRUE) */
++	{
++		/* struct net_bridge	*br = netdev->br_port->br; */ /* ->dev->dev_addr; */
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++		if (netdev->br_port)
++#else   /* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++		if (rcu_dereference(adapter->pnetdev->rx_handler_data))
++#endif /* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++		{
++			struct net_device *br_netdev;
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 24))
++			br_netdev = dev_get_by_name(CONFIG_BR_EXT_BRNAME);
++#else	/* (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 24)) */
++			struct net *devnet = NULL;
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 26))
++			devnet = netdev->nd_net;
++#else	/* (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 26)) */
++			devnet = dev_net(netdev);
++#endif /* (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 26)) */
++
++			br_netdev = dev_get_by_name(devnet, CONFIG_BR_EXT_BRNAME);
++#endif /* (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 24)) */
++
++			if (br_netdev) {
++				memcpy(adapter->br_mac, br_netdev->dev_addr, ETH_ALEN);
++				dev_put(br_netdev);
++			} else
++				printk("%s()-%d: dev_get_by_name(%s) failed!", __FUNCTION__, __LINE__, CONFIG_BR_EXT_BRNAME);
++		}
++
++		adapter->ethBrExtInfo.addPPPoETag = 1;
++	}
++
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35))
++	rcu_read_unlock();
++#endif /* (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 35)) */
++}
++#endif /* CONFIG_BR_EXT */
++
++int _netdev_open(struct net_device *pnetdev)
++{
++	uint status;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(padapter);
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++
++
++	RTW_INFO(FUNC_NDEV_FMT" , bup=%d\n", FUNC_NDEV_ARG(pnetdev), padapter->bup);
++
++	padapter->netif_up = _TRUE;
++
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++	rtw_sdio_set_power(1);
++#endif /* CONFIG_PLATFORM_INTEL_BYT */
++
++	if (pwrctrlpriv->ps_flag == _TRUE) {
++		padapter->net_closed = _FALSE;
++		goto netdev_open_normal_process;
++	}
++
++	if (padapter->bup == _FALSE) {
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++		rtw_macaddr_cfg(adapter_mac_addr(padapter),  get_hal_mac_addr(padapter));
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++		rtw_mbid_camid_alloc(padapter, adapter_mac_addr(padapter));
++#endif
++		rtw_init_wifidirect_addrs(padapter, adapter_mac_addr(padapter), adapter_mac_addr(padapter));
++		_rtw_memcpy(pnetdev->dev_addr, adapter_mac_addr(padapter), ETH_ALEN);
++#endif /* CONFIG_PLATFORM_INTEL_BYT */
++
++		rtw_clr_surprise_removed(padapter);
++		rtw_clr_drv_stopped(padapter);
++
++		status = rtw_hal_init(padapter);
++		if (status == _FAIL) {
++			goto netdev_open_error;
++		}
++#if 0/*#ifdef CONFIG_MI_WITH_MBSSID_CAM*/
++		rtw_hal_set_hwreg(padapter, HW_VAR_MAC_ADDR, adapter_mac_addr(padapter)); /* set mac addr to mac register */
++#endif
++
++		RTW_INFO("MAC Address = "MAC_FMT"\n", MAC_ARG(pnetdev->dev_addr));
++
++		status = rtw_start_drv_threads(padapter);
++		if (status == _FAIL) {
++			RTW_INFO("Initialize driver software resource Failed!\n");
++			goto netdev_open_error;
++		}
++
++#ifdef CONFIG_DRVEXT_MODULE
++		init_drvext(padapter);
++#endif
++		rtw_intf_start(padapter);
++
++#ifdef CONFIG_IOCTL_CFG80211
++		rtw_cfg80211_init_wiphy(padapter);
++		rtw_cfg80211_init_wdev_data(padapter);
++#endif
++
++		rtw_led_control(padapter, LED_CTL_NO_LINK);
++
++		padapter->bup = _TRUE;
++		pwrctrlpriv->bips_processing = _FALSE;
++
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++#ifdef CONFIG_BT_COEXIST
++		rtw_btcoex_IpsNotify(padapter, IPS_NONE);
++#endif /* CONFIG_BT_COEXIST */
++#endif /* CONFIG_PLATFORM_INTEL_BYT		 */
++	}
++	padapter->net_closed = _FALSE;
++
++	_set_timer(&adapter_to_dvobj(padapter)->dynamic_chk_timer, 2000);
++
++#ifndef CONFIG_IPS_CHECK_IN_WD
++	rtw_set_pwr_state_check_timer(pwrctrlpriv);
++#endif
++
++	/* netif_carrier_on(pnetdev); */ /* call this func when rtw_joinbss_event_callback return success */
++	rtw_netif_wake_queue(pnetdev);
++
++#ifdef CONFIG_BR_EXT
++	netdev_br_init(pnetdev);
++#endif /* CONFIG_BR_EXT */
++
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	if (is_primary_adapter(padapter) && (_TRUE == pHalData->EEPROMBluetoothCoexist)) {
++		rtw_btcoex_init_socket(padapter);
++		padapter->coex_info.BtMgnt.ExtConfig.HCIExtensionVer = 0x04;
++		rtw_btcoex_SetHciVersion(padapter, 0x04);
++	} else
++		RTW_INFO("CONFIG_BT_COEXIST: VIRTUAL_ADAPTER\n");
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++
++
++netdev_open_normal_process:
++
++#ifdef CONFIG_CONCURRENT_MODE
++	{
++		_adapter *sec_adapter = adapter_to_dvobj(padapter)->padapters[IFACE_ID1];
++
++		if (sec_adapter && (sec_adapter->bup == _FALSE))
++			_netdev_vir_if_open(sec_adapter->pnetdev);
++	}
++#endif
++
++	RTW_INFO("-871x_drv - drv_open, bup=%d\n", padapter->bup);
++
++	return 0;
++
++netdev_open_error:
++
++	padapter->bup = _FALSE;
++
++	netif_carrier_off(pnetdev);
++	rtw_netif_stop_queue(pnetdev);
++
++	RTW_INFO("-871x_drv - drv_open fail, bup=%d\n", padapter->bup);
++
++	return -1;
++
++}
++
++int netdev_open(struct net_device *pnetdev)
++{
++	int ret = _FALSE;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct pwrctrl_priv *pwrctrlpriv = adapter_to_pwrctl(padapter);
++
++	if (pwrctrlpriv->bInSuspend == _TRUE) {
++		RTW_INFO(" [WARN] "ADPT_FMT" %s  failed, bInSuspend=%d\n", ADPT_ARG(padapter), __func__, pwrctrlpriv->bInSuspend);
++		return 0;
++	}
++
++	_enter_critical_mutex(&(adapter_to_dvobj(padapter)->hw_init_mutex), NULL);
++	if (is_primary_adapter(padapter))
++		ret = _netdev_open(pnetdev);
++#ifdef CONFIG_CONCURRENT_MODE
++	else
++		ret = _netdev_vir_if_open(pnetdev);
++#endif
++	_exit_critical_mutex(&(adapter_to_dvobj(padapter)->hw_init_mutex), NULL);
++
++
++#ifdef CONFIG_AUTO_AP_MODE
++	if (padapter->iface_id == IFACE_ID2)
++		rtw_start_auto_ap(padapter);
++#endif
++
++	return ret;
++}
++
++#ifdef CONFIG_IPS
++int  ips_netdrv_open(_adapter *padapter)
++{
++	int status = _SUCCESS;
++	/* struct pwrctrl_priv	*pwrpriv = adapter_to_pwrctl(padapter); */
++
++	padapter->net_closed = _FALSE;
++
++	RTW_INFO("===> %s.........\n", __FUNCTION__);
++
++
++	rtw_clr_drv_stopped(padapter);
++	/* padapter->bup = _TRUE; */
++
++	status = rtw_hal_init(padapter);
++	if (status == _FAIL) {
++		goto netdev_open_error;
++	}
++#if 0
++	rtw_restore_mac_addr(padapter);
++#endif
++	rtw_intf_start(padapter);
++
++#ifndef CONFIG_IPS_CHECK_IN_WD
++	rtw_set_pwr_state_check_timer(adapter_to_pwrctl(padapter));
++#endif
++	_set_timer(&adapter_to_dvobj(padapter)->dynamic_chk_timer, 2000);
++
++	return _SUCCESS;
++
++netdev_open_error:
++	/* padapter->bup = _FALSE; */
++	RTW_INFO("-ips_netdrv_open - drv_open failure, bup=%d\n", padapter->bup);
++
++	return _FAIL;
++}
++
++
++int rtw_ips_pwr_up(_adapter *padapter)
++{
++	int result;
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++#ifdef DBG_CONFIG_ERROR_DETECT
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++#endif/* #ifdef DBG_CONFIG_ERROR_DETECT */
++	u32 start_time = rtw_get_current_time();
++	RTW_INFO("===>  rtw_ips_pwr_up..............\n");
++
++#if defined(CONFIG_SWLPS_IN_IPS) || defined(CONFIG_FWLPS_IN_IPS)
++#ifdef DBG_CONFIG_ERROR_DETECT
++	if (psrtpriv->silent_reset_inprogress == _TRUE)
++#endif/* #ifdef DBG_CONFIG_ERROR_DETECT */
++#endif /* defined(CONFIG_SWLPS_IN_IPS) || defined(CONFIG_FWLPS_IN_IPS) */
++		rtw_reset_drv_sw(padapter);
++
++	result = ips_netdrv_open(padapter);
++
++	rtw_led_control(padapter, LED_CTL_NO_LINK);
++
++	RTW_INFO("<===  rtw_ips_pwr_up.............. in %dms\n", rtw_get_passing_time_ms(start_time));
++	return result;
++
++}
++
++void rtw_ips_pwr_down(_adapter *padapter)
++{
++	u32 start_time = rtw_get_current_time();
++	RTW_INFO("===> rtw_ips_pwr_down...................\n");
++
++	padapter->net_closed = _TRUE;
++
++	rtw_ips_dev_unload(padapter);
++	RTW_INFO("<=== rtw_ips_pwr_down..................... in %dms\n", rtw_get_passing_time_ms(start_time));
++}
++#endif
++void rtw_ips_dev_unload(_adapter *padapter)
++{
++	struct net_device *pnetdev = (struct net_device *)padapter->pnetdev;
++	struct xmit_priv	*pxmitpriv = &(padapter->xmitpriv);
++	PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
++#ifdef DBG_CONFIG_ERROR_DETECT
++	struct sreset_priv *psrtpriv = &pHalData->srestpriv;
++#endif/* #ifdef DBG_CONFIG_ERROR_DETECT */
++	RTW_INFO("====> %s...\n", __FUNCTION__);
++
++
++#if defined(CONFIG_SWLPS_IN_IPS) || defined(CONFIG_FWLPS_IN_IPS)
++#ifdef DBG_CONFIG_ERROR_DETECT
++	if (psrtpriv->silent_reset_inprogress == _TRUE)
++#endif /* #ifdef DBG_CONFIG_ERROR_DETECT */
++#endif /* defined(CONFIG_SWLPS_IN_IPS) || defined(CONFIG_FWLPS_IN_IPS) */
++	{
++		rtw_hal_set_hwreg(padapter, HW_VAR_FIFO_CLEARN_UP, 0);
++		rtw_intf_stop(padapter);
++	}
++
++	if (!rtw_is_surprise_removed(padapter))
++		rtw_hal_deinit(padapter);
++
++}
++
++
++int pm_netdev_open(struct net_device *pnetdev, u8 bnormal)
++{
++	int status = 0;
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++
++	if (_TRUE == bnormal) {
++		_enter_critical_mutex(&(adapter_to_dvobj(padapter)->hw_init_mutex), NULL);
++		status = _netdev_open(pnetdev);
++#if 0
++		rtw_restore_mac_addr(padapter);
++#endif
++		_exit_critical_mutex(&(adapter_to_dvobj(padapter)->hw_init_mutex), NULL);
++	}
++#ifdef CONFIG_IPS
++	else
++		status = (_SUCCESS == ips_netdrv_open(padapter)) ? (0) : (-1);
++#endif
++
++	return status;
++}
++
++static int netdev_close(struct net_device *pnetdev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	HAL_DATA_TYPE		*pHalData = GET_HAL_DATA(padapter);
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++
++	RTW_INFO(FUNC_NDEV_FMT" , bup=%d\n", FUNC_NDEV_ARG(pnetdev), padapter->bup);
++#ifndef CONFIG_PLATFORM_INTEL_BYT
++	if (pwrctl->bInternalAutoSuspend == _TRUE) {
++		/* rtw_pwr_wakeup(padapter); */
++		if (pwrctl->rf_pwrstate == rf_off)
++			pwrctl->ps_flag = _TRUE;
++	}
++	padapter->net_closed = _TRUE;
++	padapter->netif_up = _FALSE;
++	pmlmepriv->LinkDetectInfo.bBusyTraffic = _FALSE;
++
++	/*	if (!rtw_is_hw_init_completed(padapter)) {
++			RTW_INFO("(1)871x_drv - drv_close, bup=%d, hw_init_completed=%s\n", padapter->bup, rtw_is_hw_init_completed(padapter)?"_TRUE":"_FALSE");
++
++			rtw_set_drv_stopped(padapter);
++
++			rtw_dev_unload(padapter);
++		}
++		else*/
++	if (pwrctl->rf_pwrstate == rf_on) {
++		RTW_INFO("(2)871x_drv - drv_close, bup=%d, hw_init_completed=%s\n", padapter->bup, rtw_is_hw_init_completed(padapter) ? "_TRUE" : "_FALSE");
++
++		/* s1. */
++		if (pnetdev)
++			rtw_netif_stop_queue(pnetdev);
++
++#ifndef CONFIG_ANDROID
++		/* s2. */
++		LeaveAllPowerSaveMode(padapter);
++		rtw_disassoc_cmd(padapter, 500, _FALSE);
++		/* s2-2.  indicate disconnect to os */
++		rtw_indicate_disconnect(padapter, 0, _FALSE);
++		/* s2-3. */
++		rtw_free_assoc_resources(padapter, 1);
++		/* s2-4. */
++		rtw_free_network_queue(padapter, _TRUE);
++#endif
++		/* Close LED */
++		rtw_led_control(padapter, LED_CTL_POWER_OFF);
++	}
++
++#ifdef CONFIG_BR_EXT
++	/* if (OPMODE & (WIFI_STATION_STATE | WIFI_ADHOC_STATE)) */
++	{
++		/* void nat25_db_cleanup(_adapter *priv); */
++		nat25_db_cleanup(padapter);
++	}
++#endif /* CONFIG_BR_EXT */
++
++#ifdef CONFIG_P2P
++	if (!rtw_p2p_chk_role(&padapter->wdinfo, P2P_ROLE_DISABLE))
++		rtw_p2p_enable(padapter, P2P_ROLE_DISABLE);
++#endif /* CONFIG_P2P */
++
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_scan_abort(padapter);
++	rtw_cfg80211_wait_scan_req_empty(padapter, 200);
++	adapter_wdev_data(padapter)->bandroid_scan = _FALSE;
++	/* padapter->rtw_wdev->iftype = NL80211_IFTYPE_MONITOR; */ /* set this at the end */
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++#ifdef CONFIG_WAPI_SUPPORT
++	rtw_wapi_disable_tx(padapter);
++#endif
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	if (is_primary_adapter(padapter) && (_TRUE == pHalData->EEPROMBluetoothCoexist))
++		rtw_btcoex_close_socket(padapter);
++	else
++		RTW_INFO("CONFIG_BT_COEXIST: VIRTUAL_ADAPTER\n");
++#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
++#else /* !CONFIG_PLATFORM_INTEL_BYT */
++
++	if (pwrctl->bInSuspend == _TRUE) {
++		RTW_INFO("+871x_drv - drv_close, bInSuspend=%d\n", pwrctl->bInSuspend);
++		return 0;
++	}
++
++	rtw_scan_abort(padapter); /* stop scanning process before wifi is going to down */
++#ifdef CONFIG_IOCTL_CFG80211
++	rtw_cfg80211_wait_scan_req_empty(padapter, 200);
++#endif
++
++	RTW_INFO("netdev_close, bips_processing=%d\n", pwrctl->bips_processing);
++	while (pwrctl->bips_processing == _TRUE) /* waiting for ips_processing done before call rtw_dev_unload() */
++		rtw_msleep_os(1);
++
++	rtw_dev_unload(padapter);
++	rtw_sdio_set_power(0);
++
++#endif /* !CONFIG_PLATFORM_INTEL_BYT */
++
++	RTW_INFO("-871x_drv - drv_close, bup=%d\n", padapter->bup);
++
++	return 0;
++
++}
++
++int pm_netdev_close(struct net_device *pnetdev, u8 bnormal)
++{
++	int status = 0;
++
++	status = netdev_close(pnetdev);
++
++	return status;
++}
++
++void rtw_ndev_destructor(struct net_device *ndev)
++{
++	RTW_INFO(FUNC_NDEV_FMT"\n", FUNC_NDEV_ARG(ndev));
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (ndev->ieee80211_ptr)
++		rtw_mfree((u8 *)ndev->ieee80211_ptr, sizeof(struct wireless_dev));
++#endif
++	free_netdev(ndev);
++}
++
++#ifdef CONFIG_ARP_KEEP_ALIVE
++struct route_info {
++	struct in_addr dst_addr;
++	struct in_addr src_addr;
++	struct in_addr gateway;
++	unsigned int dev_index;
++};
++
++static void parse_routes(struct nlmsghdr *nl_hdr, struct route_info *rt_info)
++{
++	struct rtmsg *rt_msg;
++	struct rtattr *rt_attr;
++	int rt_len;
++
++	rt_msg = (struct rtmsg *) NLMSG_DATA(nl_hdr);
++	if ((rt_msg->rtm_family != AF_INET) || (rt_msg->rtm_table != RT_TABLE_MAIN))
++		return;
++
++	rt_attr = (struct rtattr *) RTM_RTA(rt_msg);
++	rt_len = RTM_PAYLOAD(nl_hdr);
++
++	for (; RTA_OK(rt_attr, rt_len); rt_attr = RTA_NEXT(rt_attr, rt_len)) {
++		switch (rt_attr->rta_type) {
++		case RTA_OIF:
++			rt_info->dev_index = *(int *) RTA_DATA(rt_attr);
++			break;
++		case RTA_GATEWAY:
++			rt_info->gateway.s_addr = *(u_int *) RTA_DATA(rt_attr);
++			break;
++		case RTA_PREFSRC:
++			rt_info->src_addr.s_addr = *(u_int *) RTA_DATA(rt_attr);
++			break;
++		case RTA_DST:
++			rt_info->dst_addr.s_addr = *(u_int *) RTA_DATA(rt_attr);
++			break;
++		}
++	}
++}
++
++static int route_dump(u32 *gw_addr , int *gw_index)
++{
++	int err = 0;
++	struct socket *sock;
++	struct {
++		struct nlmsghdr nlh;
++		struct rtgenmsg g;
++	} req;
++	struct msghdr msg;
++	struct iovec iov;
++	struct sockaddr_nl nladdr;
++	mm_segment_t oldfs;
++	char *pg;
++	int size = 0;
++
++	err = sock_create(AF_NETLINK, SOCK_DGRAM, NETLINK_ROUTE, &sock);
++	if (err) {
++		printk(": Could not create a datagram socket, error = %d\n", -ENXIO);
++		return err;
++	}
++
++	memset(&nladdr, 0, sizeof(nladdr));
++	nladdr.nl_family = AF_NETLINK;
++
++	req.nlh.nlmsg_len = sizeof(req);
++	req.nlh.nlmsg_type = RTM_GETROUTE;
++	req.nlh.nlmsg_flags = NLM_F_ROOT | NLM_F_MATCH | NLM_F_REQUEST;
++	req.nlh.nlmsg_pid = 0;
++	req.g.rtgen_family = AF_INET;
++
++	iov.iov_base = &req;
++	iov.iov_len = sizeof(req);
++
++	msg.msg_name = &nladdr;
++	msg.msg_namelen = sizeof(nladdr);
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 19, 0))
++	/* referece:sock_xmit in kernel code
++	 * WRITE for sock_sendmsg, READ for sock_recvmsg
++	 * third parameter for msg_iovlen
++	 * last parameter for iov_len
++	 */
++	iov_iter_init(&msg.msg_iter, WRITE, &iov, 1, sizeof(req));
++#else
++	msg.msg_iov = &iov;
++	msg.msg_iovlen = 1;
++#endif
++	msg.msg_control = NULL;
++	msg.msg_controllen = 0;
++	msg.msg_flags = MSG_DONTWAIT;
++
++	oldfs = get_fs();
++	set_fs(KERNEL_DS);
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 1, 0))
++	err = sock_sendmsg(sock, &msg);
++#else
++	err = sock_sendmsg(sock, &msg, sizeof(req));
++#endif
++	set_fs(oldfs);
++
++	if (err < 0)
++		goto out_sock;
++
++	pg = (char *) __get_free_page(GFP_KERNEL);
++	if (pg == NULL) {
++		err = -ENOMEM;
++		goto out_sock;
++	}
++
++#if defined(CONFIG_IPV6) || defined(CONFIG_IPV6_MODULE)
++restart:
++#endif
++
++	for (;;) {
++		struct nlmsghdr *h;
++
++		iov.iov_base = pg;
++		iov.iov_len = PAGE_SIZE;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 19, 0))
++		iov_iter_init(&msg.msg_iter, READ, &iov, 1, PAGE_SIZE);
++#endif
++
++		oldfs = get_fs();
++		set_fs(KERNEL_DS);
++		err = sock_recvmsg(sock, &msg, PAGE_SIZE, MSG_DONTWAIT);
++		set_fs(oldfs);
++
++		if (err < 0)
++			goto out_sock_pg;
++
++		if (msg.msg_flags & MSG_TRUNC) {
++			err = -ENOBUFS;
++			goto out_sock_pg;
++		}
++
++		h = (struct nlmsghdr *) pg;
++
++		while (NLMSG_OK(h, err)) {
++			struct route_info rt_info;
++			if (h->nlmsg_type == NLMSG_DONE) {
++				err = 0;
++				goto done;
++			}
++
++			if (h->nlmsg_type == NLMSG_ERROR) {
++				struct nlmsgerr *errm = (struct nlmsgerr *) NLMSG_DATA(h);
++				err = errm->error;
++				printk("NLMSG error: %d\n", errm->error);
++				goto done;
++			}
++
++			if (h->nlmsg_type == RTM_GETROUTE)
++				printk("RTM_GETROUTE: NLMSG: %d\n", h->nlmsg_type);
++			if (h->nlmsg_type != RTM_NEWROUTE) {
++				printk("NLMSG: %d\n", h->nlmsg_type);
++				err = -EINVAL;
++				goto done;
++			}
++
++			memset(&rt_info, 0, sizeof(struct route_info));
++			parse_routes(h, &rt_info);
++			if (!rt_info.dst_addr.s_addr && rt_info.gateway.s_addr && rt_info.dev_index) {
++				*gw_addr = rt_info.gateway.s_addr;
++				*gw_index = rt_info.dev_index;
++
++			}
++			h = NLMSG_NEXT(h, err);
++		}
++
++		if (err) {
++			printk("!!!Remnant of size %d %d %d\n", err, h->nlmsg_len, h->nlmsg_type);
++			err = -EINVAL;
++			break;
++		}
++	}
++
++done:
++#if defined(CONFIG_IPV6) || defined(CONFIG_IPV6_MODULE)
++	if (!err && req.g.rtgen_family == AF_INET) {
++		req.g.rtgen_family = AF_INET6;
++
++		iov.iov_base = &req;
++		iov.iov_len = sizeof(req);
++
++		msg.msg_name = &nladdr;
++		msg.msg_namelen = sizeof(nladdr);
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 19, 0))
++		iov_iter_init(&msg.msg_iter, WRITE, &iov, 1, sizeof(req));
++#else
++		msg.msg_iov = &iov;
++		msg.msg_iovlen = 1;
++#endif
++		msg.msg_control = NULL;
++		msg.msg_controllen = 0;
++		msg.msg_flags = MSG_DONTWAIT;
++
++		oldfs = get_fs();
++		set_fs(KERNEL_DS);
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 1, 0))
++		err = sock_sendmsg(sock, &msg);
++#else
++		err = sock_sendmsg(sock, &msg, sizeof(req));
++#endif
++		set_fs(oldfs);
++
++		if (err > 0)
++			goto restart;
++	}
++#endif
++
++out_sock_pg:
++	free_page((unsigned long) pg);
++
++out_sock:
++	sock_release(sock);
++	return err;
++}
++
++static int arp_query(unsigned char *haddr, u32 paddr,
++		     struct net_device *dev)
++{
++	struct neighbour *neighbor_entry;
++	int	ret = 0;
++
++	neighbor_entry = neigh_lookup(&arp_tbl, &paddr, dev);
++
++	if (neighbor_entry != NULL) {
++		neighbor_entry->used = jiffies;
++		if (neighbor_entry->nud_state & NUD_VALID) {
++			_rtw_memcpy(haddr, neighbor_entry->ha, dev->addr_len);
++			ret = 1;
++		}
++		neigh_release(neighbor_entry);
++	}
++	return ret;
++}
++
++static int get_defaultgw(u32 *ip_addr , char mac[])
++{
++	int gw_index = 0; /* oif device index */
++	struct net_device *gw_dev = NULL; /* oif device */
++
++	route_dump(ip_addr, &gw_index);
++
++	if (!(*ip_addr) || !gw_index) {
++		/* RTW_INFO("No default GW\n"); */
++		return -1;
++	}
++
++	gw_dev = dev_get_by_index(&init_net, gw_index);
++
++	if (gw_dev == NULL) {
++		/* RTW_INFO("get Oif Device Fail\n"); */
++		return -1;
++	}
++
++	if (!arp_query(mac, *ip_addr, gw_dev)) {
++		/* RTW_INFO( "arp query failed\n"); */
++		dev_put(gw_dev);
++		return -1;
++
++	}
++	dev_put(gw_dev);
++
++	return 0;
++}
++
++int	rtw_gw_addr_query(_adapter *padapter)
++{
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	u32 gw_addr = 0; /* default gw address */
++	unsigned char gw_mac[32] = {0}; /* default gw mac */
++	int i;
++	int res;
++
++	res = get_defaultgw(&gw_addr, gw_mac);
++	if (!res) {
++		pmlmepriv->gw_ip[0] = gw_addr & 0xff;
++		pmlmepriv->gw_ip[1] = (gw_addr & 0xff00) >> 8;
++		pmlmepriv->gw_ip[2] = (gw_addr & 0xff0000) >> 16;
++		pmlmepriv->gw_ip[3] = (gw_addr & 0xff000000) >> 24;
++		_rtw_memcpy(pmlmepriv->gw_mac_addr, gw_mac, 6);
++		RTW_INFO("%s Gateway Mac:\t" MAC_FMT "\n", __FUNCTION__, MAC_ARG(pmlmepriv->gw_mac_addr));
++		RTW_INFO("%s Gateway IP:\t" IP_FMT "\n", __FUNCTION__, IP_ARG(pmlmepriv->gw_ip));
++	} else
++		RTW_INFO("Get Gateway IP/MAC fail!\n");
++
++	return res;
++}
++#endif
++
++void rtw_dev_unload(PADAPTER padapter)
++{
++	struct net_device *pnetdev = (struct net_device *)padapter->pnetdev;
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	struct dvobj_priv *pobjpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &pobjpriv->drv_dbg;
++	struct cmd_priv *pcmdpriv = &padapter->cmdpriv;
++	u8 cnt = 0;
++
++
++	if (padapter->bup == _TRUE) {
++		RTW_INFO("==> "FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++		rtw_set_drv_stopped(padapter);
++#ifdef CONFIG_XMIT_ACK
++		if (padapter->xmitpriv.ack_tx)
++			rtw_ack_tx_done(&padapter->xmitpriv, RTW_SCTX_DONE_DRV_STOP);
++#endif
++
++		rtw_intf_stop(padapter);
++
++
++		if (!pwrctl->bInternalAutoSuspend)
++			rtw_stop_drv_threads(padapter);
++
++		while (ATOMIC_READ(&(pcmdpriv->cmdthd_running)) == _TRUE) {
++			if (cnt > 5) {
++				RTW_INFO("stop cmdthd timeout\n");
++				break;
++			} else {
++				cnt++;
++				RTW_INFO("cmdthd is running(%d)\n", cnt);
++				rtw_msleep_os(10);
++			}
++		}
++
++
++		/* check the status of IPS */
++		if (rtw_hal_check_ips_status(padapter) == _TRUE || pwrctl->rf_pwrstate == rf_off) { /* check HW status and SW state */
++			RTW_PRINT("%s: driver in IPS-FWLPS\n", __func__);
++			pdbgpriv->dbg_dev_unload_inIPS_cnt++;
++		} else
++			RTW_PRINT("%s: driver not in IPS\n", __func__);
++
++		if (!rtw_is_surprise_removed(padapter)) {
++#ifdef CONFIG_BT_COEXIST
++			rtw_btcoex_IpsNotify(padapter, pwrctl->ips_mode_req);
++#endif
++#ifdef CONFIG_WOWLAN
++			if (pwrctl->bSupportRemoteWakeup == _TRUE &&
++			    pwrctl->wowlan_mode == _TRUE)
++				RTW_PRINT("%s bSupportRemoteWakeup==_TRUE  do not run rtw_hal_deinit()\n", __FUNCTION__);
++			else
++#endif
++			{
++				/* amy modify 20120221 for power seq is different between driver open and ips */
++				rtw_hal_deinit(padapter);
++			}
++			rtw_set_surprise_removed(padapter);
++		}
++
++		padapter->bup = _FALSE;
++
++		RTW_INFO("<== "FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++	} else {
++		RTW_INFO("%s: bup==_FALSE\n", __FUNCTION__);
++	}
++	rtw_cancel_all_timer(padapter);
++}
++
++int rtw_suspend_free_assoc_resource(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct net_device *pnetdev = padapter->pnetdev;
++#ifdef CONFIG_P2P
++	struct wifidirect_info	*pwdinfo = &padapter->wdinfo;
++#endif /* CONFIG_P2P */
++
++	RTW_INFO("==> "FUNC_ADPT_FMT" entry....\n", FUNC_ADPT_ARG(padapter));
++
++	if (rtw_chk_roam_flags(padapter, RTW_ROAM_ON_RESUME)) {
++		if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)
++		    && check_fwstate(pmlmepriv, _FW_LINKED)
++#ifdef CONFIG_P2P
++		    && rtw_p2p_chk_state(pwdinfo, P2P_STATE_NONE)
++#endif /* CONFIG_P2P */
++		   ) {
++			RTW_INFO("%s %s(" MAC_FMT "), length:%d assoc_ssid.length:%d\n", __FUNCTION__,
++				 pmlmepriv->cur_network.network.Ssid.Ssid,
++				MAC_ARG(pmlmepriv->cur_network.network.MacAddress),
++				 pmlmepriv->cur_network.network.Ssid.SsidLength,
++				 pmlmepriv->assoc_ssid.SsidLength);
++			rtw_set_to_roam(padapter, 1);
++		}
++	}
++
++	if (check_fwstate(pmlmepriv, WIFI_STATION_STATE) && check_fwstate(pmlmepriv, _FW_LINKED)) {
++		rtw_disassoc_cmd(padapter, 0, _FALSE);
++		/* s2-2.  indicate disconnect to os */
++		rtw_indicate_disconnect(padapter, 0, _FALSE);
++	}
++#ifdef CONFIG_AP_MODE
++	else if (check_fwstate(pmlmepriv, WIFI_AP_STATE))
++		rtw_sta_flush(padapter, _TRUE);
++#endif
++
++	/* s2-3. */
++	rtw_free_assoc_resources(padapter, 1);
++
++	/* s2-4. */
++#ifdef CONFIG_AUTOSUSPEND
++	if (is_primary_adapter(padapter) && (!adapter_to_pwrctl(padapter)->bInternalAutoSuspend))
++#endif
++		rtw_free_network_queue(padapter, _TRUE);
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY)) {
++		RTW_PRINT("%s: fw_under_survey\n", __func__);
++		rtw_indicate_scan_done(padapter, 1);
++		clr_fwstate(pmlmepriv, _FW_UNDER_SURVEY);
++	}
++
++	if (check_fwstate(pmlmepriv, _FW_UNDER_LINKING) == _TRUE) {
++		RTW_PRINT("%s: fw_under_linking\n", __FUNCTION__);
++		rtw_indicate_disconnect(padapter, 0, _FALSE);
++	}
++
++	RTW_INFO("<== "FUNC_ADPT_FMT" exit....\n", FUNC_ADPT_ARG(padapter));
++	return _SUCCESS;
++}
++
++#ifdef CONFIG_WOWLAN
++int rtw_suspend_wow(_adapter *padapter)
++{
++	u8 ch, bw, offset;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct net_device *pnetdev = padapter->pnetdev;
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct wowlan_ioctl_param poidparam;
++	int i;
++	_adapter *iface = NULL;
++	u8 ps_mode;
++	int ret = _SUCCESS;
++
++	RTW_INFO("==> "FUNC_ADPT_FMT" entry....\n", FUNC_ADPT_ARG(padapter));
++
++
++	RTW_INFO("wowlan_mode: %d\n", pwrpriv->wowlan_mode);
++	RTW_INFO("wowlan_pno_enable: %d\n", pwrpriv->wowlan_pno_enable);
++#ifdef CONFIG_P2P_WOWLAN
++	RTW_INFO("wowlan_p2p_enable: %d\n", pwrpriv->wowlan_p2p_enable);
++#endif
++
++	if (pwrpriv->wowlan_mode == _TRUE) {
++
++		if (pnetdev)
++			rtw_netif_stop_queue(pnetdev);
++		rtw_mi_buddy_netif_stop_queue(padapter, _TRUE);
++
++		/* 0. Power off LED */
++		rtw_led_control(padapter, LED_CTL_POWER_OFF);
++		/* 1. stop thread */
++		rtw_set_drv_stopped(padapter);	/*for stop thread*/
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if ((iface) && (iface->bup == _TRUE))
++				rtw_stop_drv_threads(iface);
++		}
++		rtw_clr_drv_stopped(padapter);	/*for 32k command*/
++
++		/* #ifdef CONFIG_LPS */
++		/* rtw_set_ps_mode(padapter, PS_MODE_ACTIVE, 0, 0, "WOWLAN"); */
++		/* #endif */
++
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++		/* 2. disable interrupt */
++		rtw_mi_intf_stop(padapter);
++
++		/* 2.1 clean interupt */
++		rtw_hal_clear_interrupt(padapter);
++#endif /* CONFIG_SDIO_HCI */
++
++		/* 2.2 free irq */
++		/* sdio_free_irq(adapter_to_dvobj(padapter)); */
++		if (padapter->intf_free_irq)
++			padapter->intf_free_irq(adapter_to_dvobj(padapter));
++
++#ifdef CONFIG_RUNTIME_PORT_SWITCH
++		if (rtw_port_switch_chk(padapter)) {
++			RTW_INFO(" ### PORT SWITCH ###\n");
++			rtw_hal_set_hwreg(padapter, HW_VAR_PORT_SWITCH, NULL);
++		}
++#endif
++
++		poidparam.subcode = WOWLAN_ENABLE;
++		rtw_hal_set_hwreg(padapter, HW_VAR_WOWLAN, (u8 *)&poidparam);
++		if (rtw_chk_roam_flags(padapter, RTW_ROAM_ON_RESUME)) {
++			if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)
++			    && check_fwstate(pmlmepriv, _FW_LINKED)) {
++				RTW_INFO("%s %s(" MAC_FMT "), length:%d assoc_ssid.length:%d\n", __FUNCTION__,
++					pmlmepriv->cur_network.network.Ssid.Ssid,
++					MAC_ARG(pmlmepriv->cur_network.network.MacAddress),
++					pmlmepriv->cur_network.network.Ssid.SsidLength,
++					 pmlmepriv->assoc_ssid.SsidLength);
++
++				rtw_set_to_roam(padapter, 0);
++			}
++		}
++
++		RTW_PRINT("%s: wowmode suspending\n", __func__);
++
++		if (check_fwstate(pmlmepriv, _FW_UNDER_SURVEY) == _TRUE) {
++			RTW_PRINT("%s: fw_under_survey\n", __func__);
++			rtw_indicate_scan_done(padapter, 1);
++			clr_fwstate(pmlmepriv, _FW_UNDER_SURVEY);
++		}
++
++#if 1
++		if (rtw_mi_check_status(padapter, MI_LINKED)) {
++			ch =  rtw_mi_get_union_chan(padapter);
++			bw = rtw_mi_get_union_bw(padapter);
++			offset = rtw_mi_get_union_offset(padapter);
++			RTW_INFO(FUNC_ADPT_FMT" back to linked/linking union - ch:%u, bw:%u, offset:%u\n",
++				 FUNC_ADPT_ARG(padapter), ch, bw, offset);
++			set_channel_bwmode(padapter, ch, offset, bw);
++		}
++#else
++		if (rtw_mi_get_ch_setting_union(padapter, &ch, &bw, &offset) != 0) {
++			RTW_INFO(FUNC_ADPT_FMT" back to linked/linking union - ch:%u, bw:%u, offset:%u\n",
++				 FUNC_ADPT_ARG(padapter), ch, bw, offset);
++			set_channel_bwmode(padapter, ch, offset, bw);
++			rtw_mi_update_union_chan_inf(padapter, ch, offset, bw);
++		}
++#endif
++
++#ifdef CONFIG_CONCURRENT_MODE
++		rtw_mi_buddy_suspend_free_assoc_resource(padapter);
++#endif
++
++		if (pwrpriv->wowlan_pno_enable) {
++			RTW_PRINT("%s: pno: %d\n", __func__,
++				  pwrpriv->wowlan_pno_enable);
++#ifdef CONFIG_FWLPS_IN_IPS
++			rtw_set_fw_in_ips_mode(padapter, _TRUE);
++#endif
++		}
++#ifdef CONFIG_LPS
++		else
++			rtw_set_ps_mode(padapter, PS_MODE_MAX, 0, 0, "WOWLAN");
++#endif /* #ifdef CONFIG_LPS */
++
++	} else
++		RTW_PRINT("%s: ### ERROR ### wowlan_mode=%d\n", __FUNCTION__, pwrpriv->wowlan_mode);
++	RTW_INFO("<== "FUNC_ADPT_FMT" exit....\n", FUNC_ADPT_ARG(padapter));
++	return ret;
++}
++#endif /* #ifdef CONFIG_WOWLAN */
++
++#ifdef CONFIG_AP_WOWLAN
++int rtw_suspend_ap_wow(_adapter *padapter)
++{
++	u8 ch, bw, offset;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct wowlan_ioctl_param poidparam;
++	int i;
++	_adapter *iface = NULL;
++	u8 ps_mode;
++	int ret = _SUCCESS;
++
++	RTW_INFO("==> "FUNC_ADPT_FMT" entry....\n", FUNC_ADPT_ARG(padapter));
++
++	pwrpriv->wowlan_ap_mode = _TRUE;
++
++	RTW_INFO("wowlan_ap_mode: %d\n", pwrpriv->wowlan_ap_mode);
++
++	rtw_mi_netif_stop_queue(padapter, _FALSE);
++
++	/* 0. Power off LED */
++	rtw_led_control(padapter, LED_CTL_POWER_OFF);
++	/* 1. stop thread */
++	rtw_set_drv_stopped(padapter);	/*for stop thread*/
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && (iface->bup == _TRUE))
++			rtw_stop_drv_threads(iface);
++	}
++	rtw_clr_drv_stopped(padapter);	/*for 32k command*/
++
++#ifdef CONFIG_SDIO_HCI
++	/* 2. disable interrupt*/
++	rtw_mi_intf_stop(padapter);
++
++	/* 2.1 clean interupt */
++	rtw_hal_clear_interrupt(padapter);
++#endif /* CONFIG_SDIO_HCI */
++
++	/* 2.2 free irq */
++	if (padapter->intf_free_irq)
++		padapter->intf_free_irq(adapter_to_dvobj(padapter));
++
++#ifdef CONFIG_RUNTIME_PORT_SWITCH
++	if (rtw_port_switch_chk(padapter)) {
++		RTW_INFO(" ### PORT SWITCH ###\n");
++		rtw_hal_set_hwreg(padapter, HW_VAR_PORT_SWITCH, NULL);
++	}
++#endif
++
++	poidparam.subcode = WOWLAN_AP_ENABLE;
++	rtw_hal_set_hwreg(padapter, HW_VAR_WOWLAN, (u8 *)&poidparam);
++
++	RTW_PRINT("%s: wowmode suspending\n", __func__);
++#if 1
++	if (rtw_mi_check_status(padapter, MI_LINKED)) {
++		ch =  rtw_mi_get_union_chan(padapter);
++		bw = rtw_mi_get_union_bw(padapter);
++		offset = rtw_mi_get_union_offset(padapter);
++		RTW_INFO("back to linked/linking union - ch:%u, bw:%u, offset:%u\n", ch, bw, offset);
++		set_channel_bwmode(padapter, ch, offset, bw);
++	}
++#else
++	if (rtw_mi_get_ch_setting_union(padapter, &ch, &bw, &offset) != 0) {
++		RTW_INFO("back to linked/linking union - ch:%u, bw:%u, offset:%u\n", ch, bw, offset);
++		set_channel_bwmode(padapter, ch, offset, bw);
++		rtw_mi_update_union_chan_inf(padapter, ch, offset, bw);
++	}
++#endif
++
++	/*FOR ONE AP - TODO :Multi-AP*/
++	{
++		int i;
++		_adapter *iface;
++		struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if ((iface) && rtw_is_adapter_up(iface)) {
++				if (check_fwstate(&iface->mlmepriv, WIFI_AP_STATE | _FW_LINKED))
++					rtw_mi_buddy_suspend_free_assoc_resource(iface);
++			}
++		}
++
++	}
++
++#ifdef CONFIG_LPS
++	rtw_set_ps_mode(padapter, PS_MODE_MIN, 0, 0, "AP-WOWLAN");
++#endif
++
++	RTW_INFO("<== "FUNC_ADPT_FMT" exit....\n", FUNC_ADPT_ARG(padapter));
++	return ret;
++}
++#endif /* #ifdef CONFIG_AP_WOWLAN */
++
++
++int rtw_suspend_normal(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	int ret = _SUCCESS;
++
++	RTW_INFO("==> "FUNC_ADPT_FMT" entry....\n", FUNC_ADPT_ARG(padapter));
++
++	rtw_mi_netif_stop_queue(padapter, _TRUE);
++
++	rtw_mi_suspend_free_assoc_resource(padapter);
++
++	rtw_led_control(padapter, LED_CTL_POWER_OFF);
++
++	if ((rtw_hal_check_ips_status(padapter) == _TRUE)
++	    || (adapter_to_pwrctl(padapter)->rf_pwrstate == rf_off))
++		RTW_PRINT("%s: ### ERROR #### driver in IPS ####ERROR###!!!\n", __FUNCTION__);
++
++
++#ifdef CONFIG_CONCURRENT_MODE
++	rtw_mi_buddy_dev_unload(padapter);
++#endif
++	rtw_dev_unload(padapter);
++
++	/* sdio_deinit(adapter_to_dvobj(padapter)); */
++	if (padapter->intf_deinit)
++		padapter->intf_deinit(adapter_to_dvobj(padapter));
++
++	RTW_INFO("<== "FUNC_ADPT_FMT" exit....\n", FUNC_ADPT_ARG(padapter));
++	return ret;
++}
++
++int rtw_suspend_common(_adapter *padapter)
++{
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	struct pwrctrl_priv *pwrpriv = dvobj_to_pwrctl(psdpriv);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	int ret = 0;
++	u32 start_time = rtw_get_current_time();
++
++	RTW_PRINT(" suspend start\n");
++	RTW_INFO("==> %s (%s:%d)\n", __FUNCTION__, current->comm, current->pid);
++
++	pdbgpriv->dbg_suspend_cnt++;
++
++	pwrpriv->bInSuspend = _TRUE;
++
++	while (pwrpriv->bips_processing == _TRUE)
++		rtw_msleep_os(1);
++
++#ifdef CONFIG_IOL_READ_EFUSE_MAP
++	if (!padapter->bup) {
++		u8 bMacPwrCtrlOn = _FALSE;
++		rtw_hal_get_hwreg(padapter, HW_VAR_APFM_ON_MAC, &bMacPwrCtrlOn);
++		if (bMacPwrCtrlOn)
++			rtw_hal_power_off(padapter);
++	}
++#endif
++
++	if ((!padapter->bup) || RTW_CANNOT_RUN(padapter)) {
++		RTW_INFO("%s bup=%d bDriverStopped=%s bSurpriseRemoved = %s\n", __func__
++			 , padapter->bup
++			 , rtw_is_drv_stopped(padapter) ? "True" : "False"
++			, rtw_is_surprise_removed(padapter) ? "True" : "False");
++		pdbgpriv->dbg_suspend_error_cnt++;
++		goto exit;
++	}
++	rtw_ps_deny(padapter, PS_DENY_SUSPEND);
++
++	rtw_mi_cancel_all_timer(padapter);
++	LeaveAllPowerSaveModeDirect(padapter);
++	rtw_stop_cmd_thread(padapter);
++
++#ifdef CONFIG_BT_COEXIST
++	/* wait for the latest FW to remove this condition. */
++	if (rtw_mi_check_status(padapter, MI_AP_MODE)) {
++		rtw_btcoex_SuspendNotify(padapter, 0);
++		RTW_INFO("btcoex_SuspendNotify for WIFI_AP_STATE\n");
++	} else {
++		rtw_btcoex_SuspendNotify(padapter, 1);
++		RTW_INFO("btcoex_SuspendNotify for  STATION\n");
++	}
++#endif /* CONFIG_BT_COEXIST */
++
++	rtw_ps_deny_cancel(padapter, PS_DENY_SUSPEND);
++
++	if (rtw_mi_check_status(padapter, MI_AP_MODE) == _FALSE) {
++#ifdef CONFIG_WOWLAN
++		if (check_fwstate(pmlmepriv, _FW_LINKED))
++			pwrpriv->wowlan_mode = _TRUE;
++		else if (pwrpriv->wowlan_pno_enable == _TRUE)
++			pwrpriv->wowlan_mode |= pwrpriv->wowlan_pno_enable;
++
++#ifdef CONFIG_P2P_WOWLAN
++		if (!rtw_p2p_chk_state(&padapter->wdinfo, P2P_STATE_NONE) || P2P_ROLE_DISABLE != padapter->wdinfo.role)
++			pwrpriv->wowlan_p2p_mode = _TRUE;
++		if (_TRUE == pwrpriv->wowlan_p2p_mode)
++			pwrpriv->wowlan_mode |= pwrpriv->wowlan_p2p_mode;
++#endif /* CONFIG_P2P_WOWLAN */
++
++		if (pwrpriv->wowlan_mode == _TRUE)
++			rtw_suspend_wow(padapter);
++		else
++			rtw_suspend_normal(padapter);
++
++#else /* CONFIG_WOWLAN */
++		rtw_suspend_normal(padapter);
++#endif /* CONFIG_WOWLAN */
++	} else if (rtw_mi_check_status(padapter, MI_AP_MODE)) {
++#ifdef CONFIG_AP_WOWLAN
++		rtw_suspend_ap_wow(padapter);
++#else
++		rtw_suspend_normal(padapter);
++#endif /*CONFIG_AP_WOWLAN*/
++	} else
++		rtw_suspend_normal(padapter);
++
++
++	RTW_PRINT("rtw suspend success in %d ms\n",
++		  rtw_get_passing_time_ms(start_time));
++
++exit:
++	RTW_INFO("<===  %s return %d.............. in %dms\n", __FUNCTION__
++		 , ret, rtw_get_passing_time_ms(start_time));
++
++	return ret;
++}
++
++#ifdef CONFIG_WOWLAN
++int rtw_resume_process_wow(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct net_device *pnetdev = padapter->pnetdev;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	struct wowlan_ioctl_param poidparam;
++	struct sta_info	*psta = NULL;
++	int ret = _SUCCESS;
++
++	RTW_INFO("==> "FUNC_ADPT_FMT" entry....\n", FUNC_ADPT_ARG(padapter));
++
++	if (padapter) {
++		pnetdev = padapter->pnetdev;
++		pwrpriv = adapter_to_pwrctl(padapter);
++	} else {
++		pdbgpriv->dbg_resume_error_cnt++;
++		ret = -1;
++		goto exit;
++	}
++
++	if (RTW_CANNOT_RUN(padapter)) {
++		RTW_INFO("%s pdapter %p bDriverStopped %s bSurpriseRemoved %s\n"
++			 , __func__, padapter
++			 , rtw_is_drv_stopped(padapter) ? "True" : "False"
++			, rtw_is_surprise_removed(padapter) ? "True" : "False");
++		goto exit;
++	}
++
++#ifdef CONFIG_PNO_SUPPORT
++	pwrpriv->pno_in_resume = _TRUE;
++#ifdef CONFIG_FWLPS_IN_IPS
++	if (pwrpriv->wowlan_pno_enable)
++		rtw_set_fw_in_ips_mode(padapter, _FALSE);
++#endif /* CONFIG_FWLPS_IN_IPS */
++#endif/* CONFIG_PNO_SUPPORT */
++
++	if (pwrpriv->wowlan_mode == _TRUE) {
++#ifdef CONFIG_LPS
++		rtw_set_ps_mode(padapter, PS_MODE_ACTIVE, 0, 0, "WOWLAN");
++#endif /* CONFIG_LPS */
++
++		pwrpriv->bFwCurrentInPSMode = _FALSE;
++
++#ifdef CONFIG_SDIO_HCI
++		rtw_mi_intf_stop(padapter);
++		rtw_hal_clear_interrupt(padapter);
++#endif /* CONFIG_SDIO_HCI */
++
++		/* if (sdio_alloc_irq(adapter_to_dvobj(padapter)) != _SUCCESS) {		 */
++		if ((padapter->intf_alloc_irq) && (padapter->intf_alloc_irq(adapter_to_dvobj(padapter)) != _SUCCESS)) {
++			ret = -1;
++			goto exit;
++		}
++
++		/* Disable WOW, set H2C command */
++		poidparam.subcode = WOWLAN_DISABLE;
++		rtw_hal_set_hwreg(padapter, HW_VAR_WOWLAN, (u8 *)&poidparam);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		rtw_mi_buddy_reset_drv_sw(padapter);
++#endif
++
++		psta = rtw_get_stainfo(&padapter->stapriv, get_bssid(&padapter->mlmepriv));
++		if (psta)
++			set_sta_rate(padapter, psta);
++
++
++		rtw_clr_drv_stopped(padapter);
++		RTW_INFO("%s: wowmode resuming, DriverStopped:%s\n", __func__, rtw_is_drv_stopped(padapter) ? "True" : "False");
++
++		rtw_mi_start_drv_threads(padapter);
++
++		rtw_mi_intf_start(padapter);
++
++#ifdef CONFIG_CONCURRENT_MODE
++		rtw_mi_buddy_netif_carrier_on(padapter);
++#endif
++
++		/* start netif queue */
++		if (pnetdev)
++			rtw_netif_wake_queue(pnetdev);
++	} else
++
++		RTW_PRINT("%s: ### ERROR ### wowlan_mode=%d\n", __FUNCTION__, pwrpriv->wowlan_mode);
++
++	if (padapter->pid[1] != 0) {
++		RTW_INFO("pid[1]:%d\n", padapter->pid[1]);
++		rtw_signal_process(padapter->pid[1], SIGUSR2);
++	}
++
++	if (rtw_chk_roam_flags(padapter, RTW_ROAM_ON_RESUME)) {
++		if (pwrpriv->wowlan_wake_reason == FW_DECISION_DISCONNECT ||
++		    pwrpriv->wowlan_wake_reason == RX_DISASSOC||
++		    pwrpriv->wowlan_wake_reason == RX_DEAUTH) {
++
++			RTW_INFO("%s: disconnect reason: %02x\n", __func__,
++				 pwrpriv->wowlan_wake_reason);
++			rtw_indicate_disconnect(padapter, 0, _FALSE);
++
++			rtw_sta_media_status_rpt(padapter,
++					 rtw_get_stainfo(&padapter->stapriv,
++					 get_bssid(&padapter->mlmepriv)), 0);
++
++			rtw_free_assoc_resources(padapter, 1);
++			pmlmeinfo->state = WIFI_FW_NULL_STATE;
++
++		} else {
++			RTW_INFO("%s: do roaming\n", __func__);
++			rtw_roaming(padapter, NULL);
++		}
++	}
++
++	if (pwrpriv->wowlan_wake_reason == FW_DECISION_DISCONNECT)
++		rtw_lock_ext_suspend_timeout(2000);
++
++	if (pwrpriv->wowlan_wake_reason == RX_GTK ||
++	    pwrpriv->wowlan_wake_reason == RX_DISASSOC||
++	    pwrpriv->wowlan_wake_reason == RX_DEAUTH)
++		rtw_lock_ext_suspend_timeout(8000);
++
++	if (pwrpriv->wowlan_wake_reason == RX_PNO) {
++#ifdef CONFIG_IOCTL_CFG80211
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 2, 0))
++		u8 locally_generated = 1;
++
++		cfg80211_disconnected(padapter->pnetdev, 0, NULL, 0, locally_generated, GFP_ATOMIC);
++#else
++		cfg80211_disconnected(padapter->pnetdev, 0, NULL, 0, GFP_ATOMIC);
++#endif
++#endif /* CONFIG_IOCTL_CFG80211 */
++		rtw_lock_ext_suspend_timeout(10000);
++	}
++
++	if (pwrpriv->wowlan_mode == _TRUE) {
++		pwrpriv->bips_processing = _FALSE;
++		_set_timer(&adapter_to_dvobj(padapter)->dynamic_chk_timer, 2000);
++#ifndef CONFIG_IPS_CHECK_IN_WD
++		rtw_set_pwr_state_check_timer(pwrpriv);
++#endif
++	} else
++		RTW_PRINT("do not reset timer\n");
++
++	pwrpriv->wowlan_mode = _FALSE;
++
++	/* Power On LED */
++#ifdef CONFIG_SW_LED
++
++	if (pwrpriv->wowlan_wake_reason == RX_DISASSOC||
++	    pwrpriv->wowlan_wake_reason == RX_DEAUTH||
++	    pwrpriv->wowlan_wake_reason == FW_DECISION_DISCONNECT)
++		rtw_led_control(padapter, LED_CTL_NO_LINK);
++	else
++		rtw_led_control(padapter, LED_CTL_LINK);
++#endif
++	/* clean driver side wake up reason. */
++	pwrpriv->wowlan_last_wake_reason = pwrpriv->wowlan_wake_reason;
++	pwrpriv->wowlan_wake_reason = 0;
++
++exit:
++	RTW_INFO("<== "FUNC_ADPT_FMT" exit....\n", FUNC_ADPT_ARG(padapter));
++	return ret;
++}
++#endif /* #ifdef CONFIG_WOWLAN */
++
++#ifdef CONFIG_AP_WOWLAN
++int rtw_resume_process_ap_wow(_adapter *padapter)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct net_device *pnetdev = padapter->pnetdev;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct dvobj_priv *psdpriv = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &psdpriv->drv_dbg;
++	struct wowlan_ioctl_param poidparam;
++	struct sta_info	*psta = NULL;
++	int ret = _SUCCESS;
++	u8 ch, bw, offset;
++
++	RTW_INFO("==> "FUNC_ADPT_FMT" entry....\n", FUNC_ADPT_ARG(padapter));
++
++	if (padapter) {
++		pnetdev = padapter->pnetdev;
++		pwrpriv = adapter_to_pwrctl(padapter);
++	} else {
++		pdbgpriv->dbg_resume_error_cnt++;
++		ret = -1;
++		goto exit;
++	}
++
++
++#ifdef CONFIG_LPS
++	rtw_set_ps_mode(padapter, PS_MODE_ACTIVE, 0, 0, "AP-WOWLAN");
++#endif /* CONFIG_LPS */
++
++	pwrpriv->bFwCurrentInPSMode = _FALSE;
++
++	rtw_hal_disable_interrupt(padapter);
++
++	rtw_hal_clear_interrupt(padapter);
++
++	/* if (sdio_alloc_irq(adapter_to_dvobj(padapter)) != _SUCCESS) {		 */
++	if ((padapter->intf_alloc_irq) && (padapter->intf_alloc_irq(adapter_to_dvobj(padapter)) != _SUCCESS)) {
++		ret = -1;
++		goto exit;
++	}
++
++	/* Disable WOW, set H2C command */
++	poidparam.subcode = WOWLAN_AP_DISABLE;
++	rtw_hal_set_hwreg(padapter, HW_VAR_WOWLAN, (u8 *)&poidparam);
++	pwrpriv->wowlan_ap_mode = _FALSE;
++
++	rtw_clr_drv_stopped(padapter);
++	RTW_INFO("%s: wowmode resuming, DriverStopped:%s\n", __func__, rtw_is_drv_stopped(padapter) ? "True" : "False");
++
++	rtw_mi_start_drv_threads(padapter);
++
++#if 1
++	if (rtw_mi_check_status(padapter, MI_LINKED)) {
++		ch =  rtw_mi_get_union_chan(padapter);
++		bw = rtw_mi_get_union_bw(padapter);
++		offset = rtw_mi_get_union_offset(padapter);
++		RTW_INFO(FUNC_ADPT_FMT" back to linked/linking union - ch:%u, bw:%u, offset:%u\n", FUNC_ADPT_ARG(padapter), ch, bw, offset);
++		set_channel_bwmode(padapter, ch, offset, bw);
++	}
++#else
++	if (rtw_mi_get_ch_setting_union(padapter, &ch, &bw, &offset) != 0) {
++		RTW_INFO(FUNC_ADPT_FMT" back to linked/linking union - ch:%u, bw:%u, offset:%u\n", FUNC_ADPT_ARG(padapter), ch, bw, offset);
++		set_channel_bwmode(padapter, ch, offset, bw);
++		rtw_mi_update_union_chan_inf(padapter, ch, offset, bw);
++	}
++#endif
++
++	/*FOR ONE AP - TODO :Multi-AP*/
++	{
++		int i;
++		_adapter *iface;
++		struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++		for (i = 0; i < dvobj->iface_nums; i++) {
++			iface = dvobj->padapters[i];
++			if ((iface) && rtw_is_adapter_up(iface)) {
++				if (check_fwstate(&iface->mlmepriv, WIFI_AP_STATE | _FW_LINKED))
++					rtw_mi_buddy_reset_drv_sw(iface);
++			}
++		}
++
++	}
++	rtw_mi_intf_start(padapter);
++	rtw_mi_netif_wake_queue(padapter);
++
++	if (padapter->pid[1] != 0) {
++		RTW_INFO("pid[1]:%d\n", padapter->pid[1]);
++		rtw_signal_process(padapter->pid[1], SIGUSR2);
++	}
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++	/* rtw_unlock_suspend(); */
++#endif /* CONFIG_RESUME_IN_WORKQUEUE */
++
++	if (pwrpriv->wowlan_wake_reason == AP_OFFLOAD_WAKEUP)
++		rtw_lock_ext_suspend_timeout(8000);
++
++	pwrpriv->bips_processing = _FALSE;
++	_set_timer(&adapter_to_dvobj(padapter)->dynamic_chk_timer, 2000);
++#ifndef CONFIG_IPS_CHECK_IN_WD
++	rtw_set_pwr_state_check_timer(pwrpriv);
++#endif
++	/* clean driver side wake up reason. */
++	pwrpriv->wowlan_wake_reason = 0;
++
++	/* Power On LED */
++#ifdef CONFIG_SW_LED
++
++	rtw_led_control(padapter, LED_CTL_LINK);
++#endif
++exit:
++	RTW_INFO("<== "FUNC_ADPT_FMT" exit....\n", FUNC_ADPT_ARG(padapter));
++	return ret;
++}
++#endif /* #ifdef CONFIG_APWOWLAN */
++
++void rtw_mi_resume_process_normal(_adapter *padapter)
++{
++	int i;
++	_adapter *iface;
++	struct mlme_priv *pmlmepriv;
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++
++	for (i = 0; i < dvobj->iface_nums; i++) {
++		iface = dvobj->padapters[i];
++		if ((iface) && rtw_is_adapter_up(iface)) {
++			pmlmepriv = &iface->mlmepriv;
++
++			if (check_fwstate(pmlmepriv, WIFI_STATION_STATE)) {
++				RTW_INFO(FUNC_ADPT_FMT" fwstate:0x%08x - WIFI_STATION_STATE\n", FUNC_ADPT_ARG(padapter), get_fwstate(pmlmepriv));
++
++				if (rtw_chk_roam_flags(padapter, RTW_ROAM_ON_RESUME))
++					rtw_roaming(padapter, NULL);
++
++			} else if (check_fwstate(pmlmepriv, WIFI_AP_STATE)) {
++				RTW_INFO(FUNC_ADPT_FMT" fwstate:0x%08x - WIFI_AP_STATE\n", FUNC_ADPT_ARG(padapter), get_fwstate(pmlmepriv));
++				rtw_ap_restore_network(padapter);
++			} else if (check_fwstate(pmlmepriv, WIFI_ADHOC_STATE))
++				RTW_INFO(FUNC_ADPT_FMT" fwstate:0x%08x - WIFI_ADHOC_STATE\n", FUNC_ADPT_ARG(padapter), get_fwstate(pmlmepriv));
++			else
++				RTW_INFO(FUNC_ADPT_FMT" fwstate:0x%08x - ???\n", FUNC_ADPT_ARG(padapter), get_fwstate(pmlmepriv));
++		}
++	}
++}
++
++int rtw_resume_process_normal(_adapter *padapter)
++{
++	struct net_device *pnetdev;
++	struct pwrctrl_priv *pwrpriv;
++	struct dvobj_priv *psdpriv;
++	struct debug_priv *pdbgpriv;
++
++	int ret = _SUCCESS;
++
++	if (!padapter) {
++		ret = -1;
++		goto exit;
++	}
++
++	pnetdev = padapter->pnetdev;
++	pwrpriv = adapter_to_pwrctl(padapter);
++	psdpriv = padapter->dvobj;
++	pdbgpriv = &psdpriv->drv_dbg;
++
++	RTW_INFO("==> "FUNC_ADPT_FMT" entry....\n", FUNC_ADPT_ARG(padapter));
++	/* interface init */
++	/* if (sdio_init(adapter_to_dvobj(padapter)) != _SUCCESS) */
++	if ((padapter->intf_init) && (padapter->intf_init(adapter_to_dvobj(padapter)) != _SUCCESS)) {
++		ret = -1;
++		goto exit;
++	}
++	rtw_hal_disable_interrupt(padapter);
++	/* if (sdio_alloc_irq(adapter_to_dvobj(padapter)) != _SUCCESS) */
++	if ((padapter->intf_alloc_irq) && (padapter->intf_alloc_irq(adapter_to_dvobj(padapter)) != _SUCCESS)) {
++		ret = -1;
++		goto exit;
++	}
++
++	rtw_mi_reset_drv_sw(padapter);
++
++	pwrpriv->bkeepfwalive = _FALSE;
++
++	RTW_INFO("bkeepfwalive(%x)\n", pwrpriv->bkeepfwalive);
++	if (pm_netdev_open(pnetdev, _TRUE) != 0) {
++		ret = -1;
++		pdbgpriv->dbg_resume_error_cnt++;
++		goto exit;
++	}
++
++	rtw_mi_netif_carrier_on(padapter);
++
++	if (padapter->pid[1] != 0) {
++		RTW_INFO("pid[1]:%d\n", padapter->pid[1]);
++		rtw_signal_process(padapter->pid[1], SIGUSR2);
++	}
++	rtw_mi_resume_process_normal(padapter);
++
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++	/* rtw_unlock_suspend(); */
++#endif /* CONFIG_RESUME_IN_WORKQUEUE */
++	RTW_INFO("<== "FUNC_ADPT_FMT" exit....\n", FUNC_ADPT_ARG(padapter));
++
++exit:
++	return ret;
++}
++
++int rtw_resume_common(_adapter *padapter)
++{
++	int ret = 0;
++	u32 start_time = rtw_get_current_time();
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++
++	if (pwrpriv->bInSuspend == _FALSE)
++		return 0;
++
++	RTW_PRINT("resume start\n");
++	RTW_INFO("==> %s (%s:%d)\n", __FUNCTION__, current->comm, current->pid);
++
++	if (rtw_mi_check_status(padapter, WIFI_AP_STATE) == _FALSE) {
++#ifdef CONFIG_WOWLAN
++		if (pwrpriv->wowlan_mode == _TRUE)
++			rtw_resume_process_wow(padapter);
++		else
++			rtw_resume_process_normal(padapter);
++#else
++		rtw_resume_process_normal(padapter);
++#endif
++
++	} else if (rtw_mi_check_status(padapter, WIFI_AP_STATE)) {
++#ifdef CONFIG_AP_WOWLAN
++		rtw_resume_process_ap_wow(padapter);
++#else
++		rtw_resume_process_normal(padapter);
++#endif /* CONFIG_AP_WOWLAN */
++	} else
++		rtw_resume_process_normal(padapter);
++
++#ifdef CONFIG_BT_COEXIST
++	rtw_btcoex_SuspendNotify(padapter, 0);
++#endif /* CONFIG_BT_COEXIST */
++
++	if (pwrpriv) {
++		pwrpriv->bInSuspend = _FALSE;
++#ifdef CONFIG_PNO_SUPPORT
++		pwrpriv->pno_in_resume = _FALSE;
++#endif
++	}
++	RTW_PRINT("%s:%d in %d ms\n", __FUNCTION__ , ret,
++		  rtw_get_passing_time_ms(start_time));
++
++
++	return ret;
++}
++
++#ifdef CONFIG_GPIO_API
++u8 rtw_get_gpio(struct net_device *netdev, u8 gpio_num)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(netdev);
++	return rtw_hal_get_gpio(adapter, gpio_num);
++}
++EXPORT_SYMBOL(rtw_get_gpio);
++
++int  rtw_set_gpio_output_value(struct net_device *netdev, u8 gpio_num, bool isHigh)
++{
++	u8 direction = 0;
++	u8 res = -1;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(netdev);
++	return rtw_hal_set_gpio_output_value(adapter, gpio_num, isHigh);
++}
++EXPORT_SYMBOL(rtw_set_gpio_output_value);
++
++int rtw_config_gpio(struct net_device *netdev, u8 gpio_num, bool isOutput)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(netdev);
++	return rtw_hal_config_gpio(adapter, gpio_num, isOutput);
++}
++EXPORT_SYMBOL(rtw_config_gpio);
++int rtw_register_gpio_interrupt(struct net_device *netdev, int gpio_num, void(*callback)(u8 level))
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(netdev);
++	return rtw_hal_register_gpio_interrupt(adapter, gpio_num, callback);
++}
++EXPORT_SYMBOL(rtw_register_gpio_interrupt);
++
++int rtw_disable_gpio_interrupt(struct net_device *netdev, int gpio_num)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(netdev);
++	return rtw_hal_disable_gpio_interrupt(adapter, gpio_num);
++}
++EXPORT_SYMBOL(rtw_disable_gpio_interrupt);
++
++#endif /* #ifdef CONFIG_GPIO_API */
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/recv_linux.c b/drivers/net/wireless/rtl8812au/os_dep/linux/recv_linux.c
+new file mode 100644
+index 0000000..a534c4b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/recv_linux.c
+@@ -0,0 +1,805 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _RECV_OSDEP_C_
++
++#include <drv_types.h>
++
++int rtw_os_recvframe_duplicate_skb(_adapter *padapter, union recv_frame *pcloneframe, _pkt *pskb)
++{
++	int res = _SUCCESS;
++	_pkt	*pkt_copy = NULL;
++	struct rx_pkt_attrib *pattrib = &pcloneframe->u.hdr.attrib;
++
++	if (pskb == NULL) {
++		RTW_INFO("%s [WARN] skb == NULL, drop frag frame\n", __func__);
++		return _FAIL;
++	}
++#if 1
++	pkt_copy = rtw_skb_copy(pskb);
++
++	if (pkt_copy == NULL) {
++		RTW_INFO("%s [WARN] rtw_skb_copy fail , drop frag frame\n", __func__);
++		return _FAIL;
++	}
++#else
++	pkt_copy = rtw_skb_clone(pskb);
++
++	if (pkt_copy == NULL) {
++		RTW_INFO("%s [WARN] rtw_skb_clone fail , drop frag frame\n", __func__);
++		return _FAIL;
++	}
++#endif
++	pkt_copy->dev = padapter->pnetdev;
++
++	pcloneframe->u.hdr.pkt = pkt_copy;
++	pcloneframe->u.hdr.rx_head = pkt_copy->head;
++	pcloneframe->u.hdr.rx_data = pkt_copy->data;
++	pcloneframe->u.hdr.rx_end = skb_end_pointer(pkt_copy);
++	pcloneframe->u.hdr.rx_tail = skb_tail_pointer(pkt_copy);
++	pcloneframe->u.hdr.len = pkt_copy->len;
++
++	return res;
++}
++
++int rtw_os_alloc_recvframe(_adapter *padapter, union recv_frame *precvframe, u8 *pdata, _pkt *pskb)
++{
++	int res = _SUCCESS;
++	u8	shift_sz = 0;
++	u32	skb_len, alloc_sz;
++	_pkt	*pkt_copy = NULL;
++	struct rx_pkt_attrib *pattrib = &precvframe->u.hdr.attrib;
++
++
++	if (pdata == NULL) {
++		precvframe->u.hdr.pkt = NULL;
++		res = _FAIL;
++		return res;
++	}
++
++
++	/*	Modified by Albert 20101213 */
++	/*	For 8 bytes IP header alignment. */
++	shift_sz = pattrib->qos ? 6 : 0; /*	Qos data, wireless lan header length is 26 */
++
++	skb_len = pattrib->pkt_len;
++
++	/* for first fragment packet, driver need allocate 1536+drvinfo_sz+RXDESC_SIZE to defrag packet. */
++	/* modify alloc_sz for recvive crc error packet by thomas 2011-06-02 */
++	if ((pattrib->mfrag == 1) && (pattrib->frag_num == 0)) {
++		/* alloc_sz = 1664;	 */ /* 1664 is 128 alignment. */
++		alloc_sz = (skb_len <= 1650) ? 1664 : (skb_len + 14);
++	} else {
++		alloc_sz = skb_len;
++		/*	6 is for IP header 8 bytes alignment in QoS packet case. */
++		/*	8 is for skb->data 4 bytes alignment. */
++		alloc_sz += 14;
++	}
++
++	pkt_copy = rtw_skb_alloc(alloc_sz);
++
++	if (pkt_copy) {
++		pkt_copy->dev = padapter->pnetdev;
++		pkt_copy->len = skb_len;
++		precvframe->u.hdr.pkt = pkt_copy;
++		precvframe->u.hdr.rx_head = pkt_copy->head;
++		precvframe->u.hdr.rx_end = pkt_copy->data + alloc_sz;
++		skb_reserve(pkt_copy, 8 - ((SIZE_PTR)(pkt_copy->data) & 7));  /* force pkt_copy->data at 8-byte alignment address */
++		skb_reserve(pkt_copy, shift_sz);/* force ip_hdr at 8-byte alignment address according to shift_sz. */
++		_rtw_memcpy(pkt_copy->data, pdata, skb_len);
++		precvframe->u.hdr.rx_data = precvframe->u.hdr.rx_tail = pkt_copy->data;
++	} else {
++#if 0
++		{
++			rtw_free_recvframe(precvframe_if2, &precvpriv->free_recv_queue);
++			rtw_enqueue_recvbuf_to_head(precvbuf, &precvpriv->recv_buf_pending_queue);
++
++			/* The case of can't allocate skb is serious and may never be recovered,
++			 once bDriverStopped is enable, this task should be stopped.*/
++			if (!rtw_is_drv_stopped(secondary_padapter))
++#ifdef PLATFORM_LINUX
++				tasklet_schedule(&precvpriv->recv_tasklet);
++#endif
++			return ret;
++		}
++
++#endif
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++		RTW_INFO("%s:can not allocate memory for skb copy\n", __func__);
++
++		precvframe->u.hdr.pkt = NULL;
++
++		/* rtw_free_recvframe(precvframe, pfree_recv_queue); */
++		/*exit_rtw_os_recv_resource_alloc;*/
++
++		res = _FAIL;
++#else
++		if ((pattrib->mfrag == 1) && (pattrib->frag_num == 0)) {
++			RTW_INFO("%s: alloc_skb fail , drop frag frame\n", __FUNCTION__);
++			/* rtw_free_recvframe(precvframe, pfree_recv_queue); */
++			res = _FAIL;
++			goto exit_rtw_os_recv_resource_alloc;
++		}
++
++		if (pskb == NULL) {
++			res = _FAIL;
++			goto exit_rtw_os_recv_resource_alloc;
++		}
++
++		precvframe->u.hdr.pkt = rtw_skb_clone(pskb);
++		if (precvframe->u.hdr.pkt) {
++			precvframe->u.hdr.pkt->dev = padapter->pnetdev;
++			precvframe->u.hdr.rx_head = precvframe->u.hdr.rx_data = precvframe->u.hdr.rx_tail = pdata;
++			precvframe->u.hdr.rx_end =  pdata + alloc_sz;
++		} else {
++			RTW_INFO("%s: rtw_skb_clone fail\n", __FUNCTION__);
++			/* rtw_free_recvframe(precvframe, pfree_recv_queue); */
++			/*exit_rtw_os_recv_resource_alloc;*/
++			res = _FAIL;
++		}
++#endif
++	}
++
++exit_rtw_os_recv_resource_alloc:
++
++	return res;
++
++}
++
++void rtw_os_free_recvframe(union recv_frame *precvframe)
++{
++	if (precvframe->u.hdr.pkt) {
++		rtw_skb_free(precvframe->u.hdr.pkt);/* free skb by driver */
++
++		precvframe->u.hdr.pkt = NULL;
++	}
++}
++
++/* init os related resource in struct recv_priv */
++int rtw_os_recv_resource_init(struct recv_priv *precvpriv, _adapter *padapter)
++{
++	int	res = _SUCCESS;
++
++	return res;
++}
++
++/* alloc os related resource in union recv_frame */
++int rtw_os_recv_resource_alloc(_adapter *padapter, union recv_frame *precvframe)
++{
++	int	res = _SUCCESS;
++
++	precvframe->u.hdr.pkt_newalloc = precvframe->u.hdr.pkt = NULL;
++
++	return res;
++}
++
++/* free os related resource in union recv_frame */
++void rtw_os_recv_resource_free(struct recv_priv *precvpriv)
++{
++	sint i;
++	union recv_frame *precvframe;
++	precvframe = (union recv_frame *) precvpriv->precv_frame_buf;
++
++	for (i = 0; i < NR_RECVFRAME; i++) {
++		if (precvframe->u.hdr.pkt) {
++			rtw_skb_free(precvframe->u.hdr.pkt);/* free skb by driver */
++			precvframe->u.hdr.pkt = NULL;
++		}
++		precvframe++;
++	}
++}
++
++/* alloc os related resource in struct recv_buf */
++int rtw_os_recvbuf_resource_alloc(_adapter *padapter, struct recv_buf *precvbuf)
++{
++	int res = _SUCCESS;
++
++#ifdef CONFIG_USB_HCI
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct usb_device	*pusbd = pdvobjpriv->pusbdev;
++
++	precvbuf->irp_pending = _FALSE;
++	precvbuf->purb = usb_alloc_urb(0, GFP_KERNEL);
++	if (precvbuf->purb == NULL)
++		res = _FAIL;
++
++	precvbuf->pskb = NULL;
++
++	precvbuf->pallocated_buf  = precvbuf->pbuf = NULL;
++
++	precvbuf->pdata = precvbuf->phead = precvbuf->ptail = precvbuf->pend = NULL;
++
++	precvbuf->transfer_len = 0;
++
++	precvbuf->len = 0;
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++	precvbuf->pallocated_buf = rtw_usb_buffer_alloc(pusbd, (size_t)precvbuf->alloc_sz, &precvbuf->dma_transfer_addr);
++	precvbuf->pbuf = precvbuf->pallocated_buf;
++	if (precvbuf->pallocated_buf == NULL)
++		return _FAIL;
++#endif /* CONFIG_USE_USB_BUFFER_ALLOC_RX */
++
++#endif /* CONFIG_USB_HCI */
++
++	return res;
++}
++
++/* free os related resource in struct recv_buf */
++int rtw_os_recvbuf_resource_free(_adapter *padapter, struct recv_buf *precvbuf)
++{
++	int ret = _SUCCESS;
++
++#ifdef CONFIG_USB_HCI
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++
++	struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++	struct usb_device	*pusbd = pdvobjpriv->pusbdev;
++
++	rtw_usb_buffer_free(pusbd, (size_t)precvbuf->alloc_sz, precvbuf->pallocated_buf, precvbuf->dma_transfer_addr);
++	precvbuf->pallocated_buf =  NULL;
++	precvbuf->dma_transfer_addr = 0;
++
++#endif /* CONFIG_USE_USB_BUFFER_ALLOC_RX */
++
++	if (precvbuf->purb) {
++		/* usb_kill_urb(precvbuf->purb); */
++		usb_free_urb(precvbuf->purb);
++	}
++
++#endif /* CONFIG_USB_HCI */
++
++
++	if (precvbuf->pskb) {
++#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++		if (rtw_free_skb_premem(precvbuf->pskb) != 0)
++#endif
++			rtw_skb_free(precvbuf->pskb);
++	}
++	return ret;
++
++}
++
++_pkt *rtw_os_alloc_msdu_pkt(union recv_frame *prframe, u16 nSubframe_Length, u8 *pdata)
++{
++	u16	eth_type;
++	u8	*data_ptr;
++	_pkt *sub_skb;
++	struct rx_pkt_attrib *pattrib;
++
++	pattrib = &prframe->u.hdr.attrib;
++
++#ifdef CONFIG_SKB_COPY
++	sub_skb = rtw_skb_alloc(nSubframe_Length + 12);
++	if (sub_skb) {
++		skb_reserve(sub_skb, 12);
++		data_ptr = (u8 *)skb_put(sub_skb, nSubframe_Length);
++		_rtw_memcpy(data_ptr, (pdata + ETH_HLEN), nSubframe_Length);
++	} else
++#endif /* CONFIG_SKB_COPY */
++	{
++		sub_skb = rtw_skb_clone(prframe->u.hdr.pkt);
++		if (sub_skb) {
++			sub_skb->data = pdata + ETH_HLEN;
++			sub_skb->len = nSubframe_Length;
++			skb_set_tail_pointer(sub_skb, nSubframe_Length);
++		} else {
++			RTW_INFO("%s(): rtw_skb_clone() Fail!!!\n", __FUNCTION__);
++			return NULL;
++		}
++	}
++
++	eth_type = RTW_GET_BE16(&sub_skb->data[6]);
++
++	if (sub_skb->len >= 8 &&
++	    ((_rtw_memcmp(sub_skb->data, rtw_rfc1042_header, SNAP_SIZE) &&
++	      eth_type != ETH_P_AARP && eth_type != ETH_P_IPX) ||
++	     _rtw_memcmp(sub_skb->data, rtw_bridge_tunnel_header, SNAP_SIZE))) {
++		/* remove RFC1042 or Bridge-Tunnel encapsulation and replace EtherType */
++		skb_pull(sub_skb, SNAP_SIZE);
++		_rtw_memcpy(skb_push(sub_skb, ETH_ALEN), pattrib->src, ETH_ALEN);
++		_rtw_memcpy(skb_push(sub_skb, ETH_ALEN), pattrib->dst, ETH_ALEN);
++	} else {
++		u16 len;
++		/* Leave Ethernet header part of hdr and full payload */
++		len = htons(sub_skb->len);
++		_rtw_memcpy(skb_push(sub_skb, 2), &len, 2);
++		_rtw_memcpy(skb_push(sub_skb, ETH_ALEN), pattrib->src, ETH_ALEN);
++		_rtw_memcpy(skb_push(sub_skb, ETH_ALEN), pattrib->dst, ETH_ALEN);
++	}
++
++	return sub_skb;
++}
++
++#ifdef DBG_UDP_PKT_LOSE_11AC
++	#define PAYLOAD_LEN_LOC_OF_IP_HDR 0x10 /*ethernet payload length location of ip header (DA + SA+eth_type+(version&hdr_len)) */
++#endif
++
++void rtw_os_recv_indicate_pkt(_adapter *padapter, _pkt *pkt, struct rx_pkt_attrib *pattrib)
++{
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct recv_priv *precvpriv = &(padapter->recvpriv);
++#ifdef CONFIG_BR_EXT
++	void *br_port = NULL;
++#endif
++	int ret;
++
++	/* Indicat the packets to upper layer */
++	if (pkt) {
++		if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
++			_pkt *pskb2 = NULL;
++			struct sta_info *psta = NULL;
++			struct sta_priv *pstapriv = &padapter->stapriv;
++			int bmcast = IS_MCAST(pattrib->dst);
++
++			/* RTW_INFO("bmcast=%d\n", bmcast); */
++
++			if (_rtw_memcmp(pattrib->dst, adapter_mac_addr(padapter), ETH_ALEN) == _FALSE) {
++				/* RTW_INFO("not ap psta=%p, addr=%pM\n", psta, pattrib->dst); */
++
++				if (bmcast) {
++					psta = rtw_get_bcmc_stainfo(padapter);
++					pskb2 = rtw_skb_clone(pkt);
++				} else
++					psta = rtw_get_stainfo(pstapriv, pattrib->dst);
++
++				if (psta) {
++					struct net_device *pnetdev = (struct net_device *)padapter->pnetdev;
++
++					/* RTW_INFO("directly forwarding to the rtw_xmit_entry\n"); */
++
++					/* skb->ip_summed = CHECKSUM_NONE; */
++					pkt->dev = pnetdev;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++					skb_set_queue_mapping(pkt, rtw_recv_select_queue(pkt));
++#endif /* LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35) */
++
++					_rtw_xmit_entry(pkt, pnetdev);
++
++					if (bmcast && (pskb2 != NULL)) {
++						pkt = pskb2;
++						DBG_COUNTER(padapter->rx_logs.os_indicate_ap_mcast);
++					} else {
++						DBG_COUNTER(padapter->rx_logs.os_indicate_ap_forward);
++						return;
++					}
++				}
++			} else { /* to APself */
++				/* RTW_INFO("to APSelf\n"); */
++				DBG_COUNTER(padapter->rx_logs.os_indicate_ap_self);
++			}
++		}
++
++#ifdef CONFIG_BR_EXT
++		/* Insert NAT2.5 RX here! */
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35))
++		br_port = padapter->pnetdev->br_port;
++#else   /* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++		rcu_read_lock();
++		br_port = rcu_dereference(padapter->pnetdev->rx_handler_data);
++		rcu_read_unlock();
++#endif /* (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 35)) */
++
++
++		if (br_port && (check_fwstate(pmlmepriv, WIFI_STATION_STATE | WIFI_ADHOC_STATE) == _TRUE)) {
++			int nat25_handle_frame(_adapter *priv, struct sk_buff *skb);
++			if (nat25_handle_frame(padapter, pkt) == -1) {
++				/* priv->ext_stats.rx_data_drops++; */
++				/* DEBUG_ERR("RX DROP: nat25_handle_frame fail!\n"); */
++				/* return FAIL; */
++
++#if 1
++				/* bypass this frame to upper layer!! */
++#else
++				rtw_skb_free(sub_skb);
++				continue;
++#endif
++			}
++		}
++#endif /* CONFIG_BR_EXT */
++		if (precvpriv->sink_udpport > 0)
++			rtw_sink_rtp_seq_dbg(padapter, pkt);
++#ifdef DBG_UDP_PKT_LOSE_11AC
++		/* After eth_type_trans process , pkt->data pointer will move from ethrnet header to ip header ,
++		*	we have to check ethernet type , so this debug must be print before eth_type_trans
++		*/
++		if (*((unsigned short *)(pkt->data + ETH_ALEN * 2)) == htons(ETH_P_ARP)) {
++			/* ARP Payload length will be 42bytes or 42+18(tailer)=60bytes*/
++			if (pkt->len != 42 && pkt->len != 60)
++				RTW_INFO("Error !!%s,ARP Payload length %u not correct\n" , __func__ , pkt->len);
++		} else if (*((unsigned short *)(pkt->data + ETH_ALEN * 2)) == htons(ETH_P_IP)) {
++			if (be16_to_cpu(*((u16 *)(pkt->data + PAYLOAD_LEN_LOC_OF_IP_HDR))) != (pkt->len) - ETH_HLEN) {
++				RTW_INFO("Error !!%s,Payload length not correct\n" , __func__);
++				RTW_INFO("%s, IP header describe Total length=%u\n" , __func__ , be16_to_cpu(*((u16 *)(pkt->data + PAYLOAD_LEN_LOC_OF_IP_HDR))));
++				RTW_INFO("%s, Pkt real length=%u\n" , __func__ , (pkt->len) - ETH_HLEN);
++			}
++		}
++#endif
++		/* After eth_type_trans process , pkt->data pointer will move from ethrnet header to ip header */
++		pkt->protocol = eth_type_trans(pkt, padapter->pnetdev);
++		pkt->dev = padapter->pnetdev;
++
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_RX
++		if ((pattrib->tcpchk_valid == 1) && (pattrib->tcp_chkrpt == 1))
++			pkt->ip_summed = CHECKSUM_UNNECESSARY;
++		else
++			pkt->ip_summed = CHECKSUM_NONE;
++#else /* !CONFIG_TCP_CSUM_OFFLOAD_RX */
++		pkt->ip_summed = CHECKSUM_NONE;
++#endif /* CONFIG_TCP_CSUM_OFFLOAD_RX */
++
++		ret = rtw_netif_rx(padapter->pnetdev, pkt);
++		if (ret == NET_RX_SUCCESS)
++			DBG_COUNTER(padapter->rx_logs.os_netif_ok);
++		else
++			DBG_COUNTER(padapter->rx_logs.os_netif_err);
++	}
++}
++
++void rtw_handle_tkip_mic_err(_adapter *padapter, struct sta_info *sta, u8 bgroup)
++{
++#ifdef CONFIG_IOCTL_CFG80211
++	enum nl80211_key_type key_type = 0;
++#endif
++	union iwreq_data wrqu;
++	struct iw_michaelmicfailure    ev;
++	struct mlme_priv              *pmlmepriv  = &padapter->mlmepriv;
++	struct security_priv	*psecuritypriv = &padapter->securitypriv;
++	u32 cur_time = 0;
++
++	if (psecuritypriv->last_mic_err_time == 0)
++		psecuritypriv->last_mic_err_time = rtw_get_current_time();
++	else {
++		cur_time = rtw_get_current_time();
++
++		if (cur_time - psecuritypriv->last_mic_err_time < 60 * HZ) {
++			psecuritypriv->btkip_countermeasure = _TRUE;
++			psecuritypriv->last_mic_err_time = 0;
++			psecuritypriv->btkip_countermeasure_time = cur_time;
++		} else
++			psecuritypriv->last_mic_err_time = rtw_get_current_time();
++	}
++
++#ifdef CONFIG_IOCTL_CFG80211
++	if (bgroup)
++		key_type |= NL80211_KEYTYPE_GROUP;
++	else
++		key_type |= NL80211_KEYTYPE_PAIRWISE;
++
++	cfg80211_michael_mic_failure(padapter->pnetdev, sta->hwaddr, key_type, -1, NULL, GFP_ATOMIC);
++#endif
++
++	_rtw_memset(&ev, 0x00, sizeof(ev));
++	if (bgroup)
++		ev.flags |= IW_MICFAILURE_GROUP;
++	else
++		ev.flags |= IW_MICFAILURE_PAIRWISE;
++
++	ev.src_addr.sa_family = ARPHRD_ETHER;
++	_rtw_memcpy(ev.src_addr.sa_data, sta->hwaddr, ETH_ALEN);
++
++	_rtw_memset(&wrqu, 0x00, sizeof(wrqu));
++	wrqu.data.length = sizeof(ev);
++
++#ifndef CONFIG_IOCTL_CFG80211
++	wireless_send_event(padapter->pnetdev, IWEVMICHAELMICFAILURE, &wrqu, (char *) &ev);
++#endif
++}
++
++void rtw_hostapd_mlme_rx(_adapter *padapter, union recv_frame *precv_frame)
++{
++#ifdef CONFIG_HOSTAPD_MLME
++	_pkt *skb;
++	struct hostapd_priv *phostapdpriv  = padapter->phostapdpriv;
++	struct net_device *pmgnt_netdev = phostapdpriv->pmgnt_netdev;
++
++
++	skb = precv_frame->u.hdr.pkt;
++
++	if (skb == NULL)
++		return;
++
++	skb->data = precv_frame->u.hdr.rx_data;
++	skb->tail = precv_frame->u.hdr.rx_tail;
++	skb->len = precv_frame->u.hdr.len;
++
++	/* pskb_copy = rtw_skb_copy(skb);
++	*	if(skb == NULL) goto _exit; */
++
++	skb->dev = pmgnt_netdev;
++	skb->ip_summed = CHECKSUM_NONE;
++	skb->pkt_type = PACKET_OTHERHOST;
++	/* skb->protocol = __constant_htons(0x0019); ETH_P_80211_RAW */
++	skb->protocol = __constant_htons(0x0003); /*ETH_P_80211_RAW*/
++
++	/* RTW_INFO("(1)data=0x%x, head=0x%x, tail=0x%x, mac_header=0x%x, len=%d\n", skb->data, skb->head, skb->tail, skb->mac_header, skb->len); */
++
++	/* skb->mac.raw = skb->data; */
++	skb_reset_mac_header(skb);
++
++	/* skb_pull(skb, 24); */
++	_rtw_memset(skb->cb, 0, sizeof(skb->cb));
++
++	rtw_netif_rx(pmgnt_netdev, skb);
++
++	precv_frame->u.hdr.pkt = NULL; /* set pointer to NULL before rtw_free_recvframe() if call rtw_netif_rx() */
++#endif
++}
++
++#ifdef CONFIG_AUTO_AP_MODE
++static void rtw_os_ksocket_send(_adapter *padapter, union recv_frame *precv_frame)
++{
++	_pkt *skb = precv_frame->u.hdr.pkt;
++	struct rx_pkt_attrib *pattrib = &precv_frame->u.hdr.attrib;
++	struct sta_info *psta = precv_frame->u.hdr.psta;
++
++	RTW_INFO("eth rx: got eth_type=0x%x\n", pattrib->eth_type);
++
++	if (psta && psta->isrc && psta->pid > 0) {
++		u16 rx_pid;
++
++		rx_pid = *(u16 *)(skb->data + ETH_HLEN);
++
++		RTW_INFO("eth rx(pid=0x%x): sta("MAC_FMT") pid=0x%x\n",
++			 rx_pid, MAC_ARG(psta->hwaddr), psta->pid);
++
++		if (rx_pid == psta->pid) {
++			int i;
++			u16 len = *(u16 *)(skb->data + ETH_HLEN + 2);
++			/* u16 ctrl_type = *(u16*)(skb->data+ETH_HLEN+4); */
++
++			/* RTW_INFO("eth, RC: len=0x%x, ctrl_type=0x%x\n", len, ctrl_type);  */
++			RTW_INFO("eth, RC: len=0x%x\n", len);
++
++			for (i = 0; i < len; i++)
++				RTW_INFO("0x%x\n", *(skb->data + ETH_HLEN + 4 + i));
++			/* RTW_INFO("0x%x\n", *(skb->data+ETH_HLEN+6+i)); */
++
++			RTW_INFO("eth, RC-end\n");
++
++#if 0
++			/* send_sz = ksocket_send(padapter->ksock_send, &padapter->kaddr_send, (skb->data+ETH_HLEN+2), len);				 */
++			rtw_recv_ksocket_send_cmd(padapter, (skb->data + ETH_HLEN + 2), len);
++
++			/* RTW_INFO("ksocket_send size=%d\n", send_sz);  */
++#endif
++		}
++
++	}
++
++}
++#endif /* CONFIG_AUTO_AP_MODE */
++
++int rtw_recv_monitor(_adapter *padapter, union recv_frame *precv_frame)
++{
++	int ret = _FAIL;
++	struct recv_priv *precvpriv;
++	_queue	*pfree_recv_queue;
++	_pkt *skb;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct rx_pkt_attrib *pattrib;
++
++	if (NULL == precv_frame)
++		goto _recv_drop;
++
++	pattrib = &precv_frame->u.hdr.attrib;
++	precvpriv = &(padapter->recvpriv);
++	pfree_recv_queue = &(precvpriv->free_recv_queue);
++
++	skb = precv_frame->u.hdr.pkt;
++	if (skb == NULL) {
++		RTW_INFO("%s :skb==NULL something wrong!!!!\n", __func__);
++		goto _recv_drop;
++	}
++
++	skb->data = precv_frame->u.hdr.rx_data;
++	skb_set_tail_pointer(skb, precv_frame->u.hdr.len);
++	skb->len = precv_frame->u.hdr.len;
++	skb->ip_summed = CHECKSUM_NONE;
++	skb->pkt_type = PACKET_OTHERHOST;
++	skb->protocol = htons(0x0019); /* ETH_P_80211_RAW */
++
++	rtw_netif_rx(padapter->pnetdev, skb);
++
++	/* pointers to NULL before rtw_free_recvframe() */
++	precv_frame->u.hdr.pkt = NULL;
++
++	ret = _SUCCESS;
++
++_recv_drop:
++
++	/* enqueue back to free_recv_queue */
++	if (precv_frame)
++		rtw_free_recvframe(precv_frame, pfree_recv_queue);
++
++	return ret;
++
++}
++
++int rtw_recv_indicatepkt(_adapter *padapter, union recv_frame *precv_frame)
++{
++	struct recv_priv *precvpriv;
++	_queue	*pfree_recv_queue;
++	_pkt *skb;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++	struct rx_pkt_attrib *pattrib;
++
++	if (NULL == precv_frame)
++		goto _recv_indicatepkt_drop;
++
++	DBG_COUNTER(padapter->rx_logs.os_indicate);
++	pattrib = &precv_frame->u.hdr.attrib;
++	precvpriv = &(padapter->recvpriv);
++	pfree_recv_queue = &(precvpriv->free_recv_queue);
++
++#ifdef CONFIG_DRVEXT_MODULE
++	if (drvext_rx_handler(padapter, precv_frame->u.hdr.rx_data, precv_frame->u.hdr.len) == _SUCCESS)
++		goto _recv_indicatepkt_drop;
++#endif
++
++#ifdef CONFIG_WAPI_SUPPORT
++	if (rtw_wapi_check_for_drop(padapter, precv_frame)) {
++		WAPI_TRACE(WAPI_ERR, "%s(): Rx Reorder Drop case!!\n", __FUNCTION__);
++		goto _recv_indicatepkt_drop;
++	}
++#endif
++
++	skb = precv_frame->u.hdr.pkt;
++	if (skb == NULL) {
++		goto _recv_indicatepkt_drop;
++	}
++
++
++	skb->data = precv_frame->u.hdr.rx_data;
++
++	skb_set_tail_pointer(skb, precv_frame->u.hdr.len);
++
++	skb->len = precv_frame->u.hdr.len;
++
++
++	if (pattrib->eth_type == 0x888e)
++		RTW_PRINT("recv eapol packet\n");
++
++#ifdef CONFIG_AUTO_AP_MODE
++#if 1 /* for testing */
++#if 1
++	if (0x8899 == pattrib->eth_type) {
++		rtw_os_ksocket_send(padapter, precv_frame);
++
++		/* goto _recv_indicatepkt_drop; */
++	}
++#else
++	if (0x8899 == pattrib->eth_type) {
++		rtw_auto_ap_mode_rx(padapter, precv_frame);
++
++		goto _recv_indicatepkt_end;
++	}
++#endif
++#endif
++#endif /* CONFIG_AUTO_AP_MODE */
++
++	/* TODO: move to core */
++	{
++		_pkt *pkt = skb;
++		struct ethhdr *etherhdr = (struct ethhdr *)pkt->data;
++		struct sta_info *sta = precv_frame->u.hdr.psta;
++
++		if (!sta)
++			goto bypass_session_tracker;
++
++		if (ntohs(etherhdr->h_proto) == ETH_P_IP) {
++			u8 *ip = pkt->data + 14;
++
++			if (GET_IPV4_PROTOCOL(ip) == 0x06  /* TCP */
++			    && rtw_st_ctl_chk_reg_s_proto(&sta->st_ctl, 0x06) == _TRUE
++			   ) {
++				u8 *tcp = ip + GET_IPV4_IHL(ip) * 4;
++
++				if (rtw_st_ctl_chk_reg_rule(&sta->st_ctl, padapter, IPV4_DST(ip), TCP_DST(tcp), IPV4_SRC(ip), TCP_SRC(tcp)) == _TRUE) {
++					if (GET_TCP_SYN(tcp) && GET_TCP_ACK(tcp)) {
++						session_tracker_add_cmd(padapter, sta
++							, IPV4_DST(ip), TCP_DST(tcp)
++							, IPV4_SRC(ip), TCP_SRC(tcp));
++						if (DBG_SESSION_TRACKER)
++							RTW_INFO(FUNC_ADPT_FMT" local:"IP_FMT":"PORT_FMT", remote:"IP_FMT":"PORT_FMT" SYN-ACK\n"
++								, FUNC_ADPT_ARG(padapter)
++								, IP_ARG(IPV4_DST(ip)), PORT_ARG(TCP_DST(tcp))
++								, IP_ARG(IPV4_SRC(ip)), PORT_ARG(TCP_SRC(tcp)));
++					}
++					if (GET_TCP_FIN(tcp)) {
++						session_tracker_del_cmd(padapter, sta
++							, IPV4_DST(ip), TCP_DST(tcp)
++							, IPV4_SRC(ip), TCP_SRC(tcp));
++						if (DBG_SESSION_TRACKER)
++							RTW_INFO(FUNC_ADPT_FMT" local:"IP_FMT":"PORT_FMT", remote:"IP_FMT":"PORT_FMT" FIN\n"
++								, FUNC_ADPT_ARG(padapter)
++								, IP_ARG(IPV4_DST(ip)), PORT_ARG(TCP_DST(tcp))
++								, IP_ARG(IPV4_SRC(ip)), PORT_ARG(TCP_SRC(tcp)));
++					}
++				}
++
++			}
++		}
++bypass_session_tracker:
++		;
++	}
++
++	rtw_os_recv_indicate_pkt(padapter, skb, pattrib);
++
++_recv_indicatepkt_end:
++
++	precv_frame->u.hdr.pkt = NULL; /* pointers to NULL before rtw_free_recvframe() */
++
++	rtw_free_recvframe(precv_frame, pfree_recv_queue);
++
++
++
++	return _SUCCESS;
++
++_recv_indicatepkt_drop:
++
++	/* enqueue back to free_recv_queue */
++	if (precv_frame)
++		rtw_free_recvframe(precv_frame, pfree_recv_queue);
++
++	DBG_COUNTER(padapter->rx_logs.os_indicate_err);
++
++	return _FAIL;
++
++}
++
++void rtw_os_read_port(_adapter *padapter, struct recv_buf *precvbuf)
++{
++	struct recv_priv *precvpriv = &padapter->recvpriv;
++
++#ifdef CONFIG_USB_HCI
++
++	precvbuf->ref_cnt--;
++
++	/* free skb in recv_buf */
++	rtw_skb_free(precvbuf->pskb);
++
++	precvbuf->pskb = NULL;
++
++	if (precvbuf->irp_pending == _FALSE)
++		rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++
++
++#endif
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	precvbuf->pskb = NULL;
++#endif
++
++}
++void _rtw_reordering_ctrl_timeout_handler(void *FunctionContext);
++void _rtw_reordering_ctrl_timeout_handler(void *FunctionContext)
++{
++	struct recv_reorder_ctrl *preorder_ctrl = (struct recv_reorder_ctrl *)FunctionContext;
++	rtw_reordering_ctrl_timeout_handler(preorder_ctrl);
++}
++
++void rtw_init_recv_timer(struct recv_reorder_ctrl *preorder_ctrl)
++{
++	_adapter *padapter = preorder_ctrl->padapter;
++
++	_init_timer(&(preorder_ctrl->reordering_ctrl_timer), padapter->pnetdev, _rtw_reordering_ctrl_timeout_handler, preorder_ctrl);
++
++}
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/rtw_android.c b/drivers/net/wireless/rtl8812au/os_dep/linux/rtw_android.c
+new file mode 100644
+index 0000000..5907a00
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/rtw_android.c
+@@ -0,0 +1,1270 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifdef CONFIG_GPIO_WAKEUP
++#include <linux/gpio.h>
++#endif
++
++#include <drv_types.h>
++
++#if defined(RTW_ENABLE_WIFI_CONTROL_FUNC)
++#include <linux/platform_device.h>
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	#include <linux/wlan_plat.h>
++#else
++	#include <linux/wifi_tiwlan.h>
++#endif
++#endif /* defined(RTW_ENABLE_WIFI_CONTROL_FUNC) */
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 0, 0))
++#define strnicmp	strncasecmp
++#endif /* Linux kernel >= 4.0.0 */
++
++#ifdef CONFIG_GPIO_WAKEUP
++#include <linux/interrupt.h>
++#include <linux/irq.h>
++#endif
++
++#include "rtw_version.h"
++
++extern void macstr2num(u8 *dst, u8 *src);
++
++const char *android_wifi_cmd_str[ANDROID_WIFI_CMD_MAX] = {
++	"START",
++	"STOP",
++	"SCAN-ACTIVE",
++	"SCAN-PASSIVE",
++	"RSSI",
++	"LINKSPEED",
++	"RXFILTER-START",
++	"RXFILTER-STOP",
++	"RXFILTER-ADD",
++	"RXFILTER-REMOVE",
++	"BTCOEXSCAN-START",
++	"BTCOEXSCAN-STOP",
++	"BTCOEXMODE",
++	"SETSUSPENDOPT",
++	"P2P_DEV_ADDR",
++	"SETFWPATH",
++	"SETBAND",
++	"GETBAND",
++	"COUNTRY",
++	"P2P_SET_NOA",
++	"P2P_GET_NOA",
++	"P2P_SET_PS",
++	"SET_AP_WPS_P2P_IE",
++
++	"MIRACAST",
++
++#ifdef CONFIG_PNO_SUPPORT
++	"PNOSSIDCLR",
++	"PNOSETUP",
++	"PNOFORCE",
++	"PNODEBUG",
++#endif
++
++	"MACADDR",
++
++	"BLOCK_SCAN",
++	"BLOCK",
++	"WFD-ENABLE",
++	"WFD-DISABLE",
++	"WFD-SET-TCPPORT",
++	"WFD-SET-MAXTPUT",
++	"WFD-SET-DEVTYPE",
++	"SET_DTIM",
++	"HOSTAPD_SET_MACADDR_ACL",
++	"HOSTAPD_ACL_ADD_STA",
++	"HOSTAPD_ACL_REMOVE_STA",
++#if defined(CONFIG_GTK_OL) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 1, 0))
++	"GTK_REKEY_OFFLOAD",
++#endif /* CONFIG_GTK_OL */
++/*	Private command for	P2P disable*/
++	"P2P_DISABLE",
++	"DRIVER_VERSION"
++};
++
++#ifdef CONFIG_PNO_SUPPORT
++#define PNO_TLV_PREFIX			'S'
++#define PNO_TLV_VERSION			'1'
++#define PNO_TLV_SUBVERSION		'2'
++#define PNO_TLV_RESERVED		'0'
++#define PNO_TLV_TYPE_SSID_IE	'S'
++#define PNO_TLV_TYPE_TIME		'T'
++#define PNO_TLV_FREQ_REPEAT		'R'
++#define PNO_TLV_FREQ_EXPO_MAX	'M'
++
++typedef struct cmd_tlv {
++	char prefix;
++	char version;
++	char subver;
++	char reserved;
++} cmd_tlv_t;
++
++#ifdef CONFIG_PNO_SET_DEBUG
++char pno_in_example[] = {
++	'P', 'N', 'O', 'S', 'E', 'T', 'U', 'P', ' ',
++	'S', '1', '2', '0',
++	'S',	/* 1 */
++	0x05,
++	'd', 'l', 'i', 'n', 'k',
++	'S',	/* 2 */
++	0x06,
++	'B', 'U', 'F', 'B', 'U', 'F',
++	'S',	/* 3 */
++	0x20,
++	'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', '!', '@', '#', '$', '%', '^',
++	'S',	/* 4 */
++	0x0a,
++	'!', '@', '#', '$', '%', '^', '&', '*', '(', ')',
++	'T',
++	'0', '5',
++	'R',
++	'2',
++	'M',
++	'2',
++	0x00
++};
++#endif /* CONFIG_PNO_SET_DEBUG */
++#endif /* PNO_SUPPORT */
++
++typedef struct android_wifi_priv_cmd {
++	char *buf;
++	int used_len;
++	int total_len;
++} android_wifi_priv_cmd;
++
++#ifdef CONFIG_COMPAT
++typedef struct compat_android_wifi_priv_cmd {
++	compat_uptr_t buf;
++	int used_len;
++	int total_len;
++} compat_android_wifi_priv_cmd;
++#endif /* CONFIG_COMPAT */
++
++/**
++ * Local (static) functions and variables
++ */
++
++/* Initialize g_wifi_on to 1 so dhd_bus_start will be called for the first
++ * time (only) in dhd_open, subsequential wifi on will be handled by
++ * wl_android_wifi_on
++ */
++static int g_wifi_on = _TRUE;
++
++unsigned int oob_irq = 0;
++unsigned int oob_gpio = 0;
++
++#ifdef CONFIG_PNO_SUPPORT
++/*
++ * rtw_android_pno_setup
++ * Description:
++ * This is used for private command.
++ *
++ * Parameter:
++ * net: net_device
++ * command: parameters from private command
++ * total_len: the length of the command.
++ *
++ * */
++static int rtw_android_pno_setup(struct net_device *net, char *command, int total_len)
++{
++	pno_ssid_t pno_ssids_local[MAX_PNO_LIST_COUNT];
++	int res = -1;
++	int nssid = 0;
++	cmd_tlv_t *cmd_tlv_temp;
++	char *str_ptr;
++	int tlv_size_left;
++	int pno_time = 0;
++	int pno_repeat = 0;
++	int pno_freq_expo_max = 0;
++	int cmdlen = strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_PNOSETUP_SET]) + 1;
++
++#ifdef CONFIG_PNO_SET_DEBUG
++	int i;
++	char *p;
++	p = pno_in_example;
++
++	total_len = sizeof(pno_in_example);
++	str_ptr = p + cmdlen;
++#else
++	str_ptr = command + cmdlen;
++#endif
++
++	if (total_len < (cmdlen + sizeof(cmd_tlv_t))) {
++		RTW_INFO("%s argument=%d less min size\n", __func__, total_len);
++		goto exit_proc;
++	}
++
++	tlv_size_left = total_len - cmdlen;
++
++	cmd_tlv_temp = (cmd_tlv_t *)str_ptr;
++	memset(pno_ssids_local, 0, sizeof(pno_ssids_local));
++
++	if ((cmd_tlv_temp->prefix == PNO_TLV_PREFIX) &&
++	    (cmd_tlv_temp->version == PNO_TLV_VERSION) &&
++	    (cmd_tlv_temp->subver == PNO_TLV_SUBVERSION)) {
++
++		str_ptr += sizeof(cmd_tlv_t);
++		tlv_size_left -= sizeof(cmd_tlv_t);
++
++		nssid = rtw_parse_ssid_list_tlv(&str_ptr, pno_ssids_local,
++			     MAX_PNO_LIST_COUNT, &tlv_size_left);
++		if (nssid <= 0) {
++			RTW_INFO("SSID is not presented or corrupted ret=%d\n", nssid);
++			goto exit_proc;
++		} else {
++			if ((str_ptr[0] != PNO_TLV_TYPE_TIME) || (tlv_size_left <= 1)) {
++				RTW_INFO("%s scan duration corrupted field size %d\n",
++					 __func__, tlv_size_left);
++				goto exit_proc;
++			}
++			str_ptr++;
++			pno_time = simple_strtoul(str_ptr, &str_ptr, 16);
++			RTW_INFO("%s: pno_time=%d\n", __func__, pno_time);
++
++			if (str_ptr[0] != 0) {
++				if ((str_ptr[0] != PNO_TLV_FREQ_REPEAT)) {
++					RTW_INFO("%s pno repeat : corrupted field\n",
++						 __func__);
++					goto exit_proc;
++				}
++				str_ptr++;
++				pno_repeat = simple_strtoul(str_ptr, &str_ptr, 16);
++				RTW_INFO("%s :got pno_repeat=%d\n", __FUNCTION__, pno_repeat);
++				if (str_ptr[0] != PNO_TLV_FREQ_EXPO_MAX) {
++					RTW_INFO("%s FREQ_EXPO_MAX corrupted field size\n",
++						 __func__);
++					goto exit_proc;
++				}
++				str_ptr++;
++				pno_freq_expo_max = simple_strtoul(str_ptr, &str_ptr, 16);
++				RTW_INFO("%s: pno_freq_expo_max=%d\n",
++					 __func__, pno_freq_expo_max);
++			}
++		}
++	} else {
++		RTW_INFO("%s get wrong TLV command\n", __FUNCTION__);
++		goto exit_proc;
++	}
++
++	res = rtw_dev_pno_set(net, pno_ssids_local, nssid, pno_time, pno_repeat, pno_freq_expo_max);
++
++#ifdef CONFIG_PNO_SET_DEBUG
++	rtw_dev_pno_debug(net);
++#endif
++
++exit_proc:
++	return res;
++}
++
++/*
++ * rtw_android_cfg80211_pno_setup
++ * Description:
++ * This is used for cfg80211 sched_scan.
++ *
++ * Parameter:
++ * net: net_device
++ * request: cfg80211_request
++ * */
++
++int rtw_android_cfg80211_pno_setup(struct net_device *net,
++		   struct cfg80211_ssid *ssids, int n_ssids, int interval)
++{
++	int res = -1;
++	int nssid = 0;
++	int pno_time = 0;
++	int pno_repeat = 0;
++	int pno_freq_expo_max = 0;
++	int index = 0;
++	pno_ssid_t pno_ssids_local[MAX_PNO_LIST_COUNT];
++
++	if (n_ssids > MAX_PNO_LIST_COUNT || n_ssids < 0) {
++		RTW_INFO("%s: nssids(%d) is invalid.\n", __func__, n_ssids);
++		return -EINVAL;
++	}
++
++	memset(pno_ssids_local, 0, sizeof(pno_ssids_local));
++
++	nssid = n_ssids;
++
++	for (index = 0 ; index < nssid ; index++) {
++		pno_ssids_local[index].SSID_len = ssids[index].ssid_len;
++		memcpy(pno_ssids_local[index].SSID, ssids[index].ssid,
++		       ssids[index].ssid_len);
++	}
++
++	pno_time = (interval / 1000);
++
++	RTW_INFO("%s: nssids: %d, pno_time=%d\n", __func__, nssid, pno_time);
++
++	res = rtw_dev_pno_set(net, pno_ssids_local, nssid, pno_time,
++			      pno_repeat, pno_freq_expo_max);
++
++#ifdef CONFIG_PNO_SET_DEBUG
++	rtw_dev_pno_debug(net);
++#endif
++exit_proc:
++	return res;
++}
++
++int rtw_android_pno_enable(struct net_device *net, int pno_enable)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++
++	if (pwrctl) {
++		pwrctl->wowlan_pno_enable = pno_enable;
++		RTW_INFO("%s: wowlan_pno_enable: %d\n", __func__, pwrctl->wowlan_pno_enable);
++		if (pwrctl->wowlan_pno_enable == 0) {
++			if (pwrctl->pnlo_info != NULL) {
++				rtw_mfree((u8 *)pwrctl->pnlo_info, sizeof(pno_nlo_info_t));
++				pwrctl->pnlo_info = NULL;
++			}
++			if (pwrctl->pno_ssid_list != NULL) {
++				rtw_mfree((u8 *)pwrctl->pno_ssid_list, sizeof(pno_ssid_list_t));
++				pwrctl->pno_ssid_list = NULL;
++			}
++			if (pwrctl->pscan_info != NULL) {
++				rtw_mfree((u8 *)pwrctl->pscan_info, sizeof(pno_scan_info_t));
++				pwrctl->pscan_info = NULL;
++			}
++		}
++		return 0;
++	} else
++		return -1;
++}
++#endif /* CONFIG_PNO_SUPPORT */
++
++int rtw_android_cmdstr_to_num(char *cmdstr)
++{
++	int cmd_num;
++	for (cmd_num = 0 ; cmd_num < ANDROID_WIFI_CMD_MAX; cmd_num++)
++		if (0 == strnicmp(cmdstr , android_wifi_cmd_str[cmd_num], strlen(android_wifi_cmd_str[cmd_num])))
++			break;
++
++	return cmd_num;
++}
++
++int rtw_android_get_rssi(struct net_device *net, char *command, int total_len)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct	wlan_network	*pcur_network = &pmlmepriv->cur_network;
++	int bytes_written = 0;
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED) == _TRUE) {
++		bytes_written += snprintf(&command[bytes_written], total_len, "%s rssi %d",
++			pcur_network->network.Ssid.Ssid, padapter->recvpriv.rssi);
++	}
++
++	return bytes_written;
++}
++
++int rtw_android_get_link_speed(struct net_device *net, char *command, int total_len)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	struct	wlan_network	*pcur_network = &pmlmepriv->cur_network;
++	int bytes_written = 0;
++	u16 link_speed = 0;
++
++	link_speed = rtw_get_cur_max_rate(padapter) / 10;
++	bytes_written = snprintf(command, total_len, "LinkSpeed %d", link_speed);
++
++	return bytes_written;
++}
++
++int rtw_android_get_macaddr(struct net_device *net, char *command, int total_len)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(net);
++	int bytes_written = 0;
++
++	bytes_written = snprintf(command, total_len, "Macaddr = "MAC_FMT, MAC_ARG(net->dev_addr));
++	return bytes_written;
++}
++
++int rtw_android_set_country(struct net_device *net, char *command, int total_len)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(net);
++	char *country_code = command + strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_COUNTRY]) + 1;
++	int ret = _FAIL;
++
++	ret = rtw_set_country(adapter, country_code);
++
++	return (ret == _SUCCESS) ? 0 : -1;
++}
++
++int rtw_android_get_p2p_dev_addr(struct net_device *net, char *command, int total_len)
++{
++	int bytes_written = 0;
++
++	/* We use the same address as our HW MAC address */
++	_rtw_memcpy(command, net->dev_addr, ETH_ALEN);
++
++	bytes_written = ETH_ALEN;
++	return bytes_written;
++}
++
++int rtw_android_set_block_scan(struct net_device *net, char *command, int total_len)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(net);
++	char *block_value = command + strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_BLOCK_SCAN]) + 1;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	adapter_wdev_data(adapter)->block_scan = (*block_value == '0') ? _FALSE : _TRUE;
++#endif
++
++	return 0;
++}
++
++int rtw_android_set_block(struct net_device *net, char *command, int total_len)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(net);
++	char *block_value = command + strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_BLOCK]) + 1;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	adapter_wdev_data(adapter)->block = (*block_value == '0') ? _FALSE : _TRUE;
++#endif
++
++	return 0;
++}
++
++int rtw_android_setband(struct net_device *net, char *command, int total_len)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(net);
++	char *arg = command + strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_SETBAND]) + 1;
++	u32 band = WIFI_FREQUENCY_BAND_AUTO;
++	int ret = _FAIL;
++
++	if (sscanf(arg, "%u", &band) >= 1)
++		ret = rtw_set_band(adapter, band);
++
++	return (ret == _SUCCESS) ? 0 : -1;
++}
++
++int rtw_android_getband(struct net_device *net, char *command, int total_len)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(net);
++	int bytes_written = 0;
++
++	bytes_written = snprintf(command, total_len, "%u", adapter->setband);
++
++	return bytes_written;
++}
++
++#ifdef CONFIG_WFD
++int rtw_android_set_miracast_mode(struct net_device *net, char *command, int total_len)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(net);
++	struct wifi_display_info *wfd_info = &adapter->wfd_info;
++	char *arg = command + strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_MIRACAST]) + 1;
++	u8 mode;
++	int num;
++	int ret = _FAIL;
++
++	num = sscanf(arg, "%hhu", &mode);
++
++	if (num < 1)
++		goto exit;
++
++	switch (mode) {
++	case 1: /* soruce */
++		mode = MIRACAST_SOURCE;
++		break;
++	case 2: /* sink */
++		mode = MIRACAST_SINK;
++		break;
++	case 0: /* disabled */
++	default:
++		mode = MIRACAST_DISABLED;
++		break;
++	}
++	wfd_info->stack_wfd_mode = mode;
++	RTW_INFO("stack miracast mode: %s\n", get_miracast_mode_str(wfd_info->stack_wfd_mode));
++
++	ret = _SUCCESS;
++
++exit:
++	return (ret == _SUCCESS) ? 0 : -1;
++}
++#endif /* CONFIG_WFD */
++
++int get_int_from_command(char *pcmd)
++{
++	int i = 0;
++
++	for (i = 0; i < strlen(pcmd); i++) {
++		if (pcmd[i] == '=') {
++			/*	Skip the '=' and space characters. */
++			i += 2;
++			break;
++		}
++	}
++	return rtw_atoi(pcmd + i) ;
++}
++
++#if defined(CONFIG_GTK_OL) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 1, 0))
++int rtw_gtk_offload(struct net_device *net, u8 *cmd_ptr)
++{
++	int i;
++	/* u8 *cmd_ptr = priv_cmd.buf; */
++	struct sta_info *psta;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(net);
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	struct security_priv *psecuritypriv = &(padapter->securitypriv);
++	psta = rtw_get_stainfo(pstapriv, get_bssid(pmlmepriv));
++
++
++	if (psta == NULL)
++		RTW_INFO("%s, : Obtain Sta_info fail\n", __func__);
++	else {
++		/* string command length of "GTK_REKEY_OFFLOAD" */
++		cmd_ptr += 18;
++
++		_rtw_memcpy(psta->kek, cmd_ptr, RTW_KEK_LEN);
++		cmd_ptr += RTW_KEK_LEN;
++		/*
++		printk("supplicant KEK: ");
++		for(i=0;i<RTW_KEK_LEN; i++)
++			printk(" %02x ", psta->kek[i]);
++		printk("\n supplicant KCK: ");
++		*/
++		_rtw_memcpy(psta->kck, cmd_ptr, RTW_KCK_LEN);
++		cmd_ptr += RTW_KCK_LEN;
++		/*
++		for(i=0;i<RTW_KEK_LEN; i++)
++			printk(" %02x ", psta->kck[i]);
++		*/
++		_rtw_memcpy(psta->replay_ctr, cmd_ptr, RTW_REPLAY_CTR_LEN);
++		psecuritypriv->binstallKCK_KEK = _TRUE;
++
++		/* printk("\nREPLAY_CTR: "); */
++		/* for(i=0;i<RTW_REPLAY_CTR_LEN; i++) */
++		/* printk(" %02x ", psta->replay_ctr[i]); */
++	}
++
++	return _SUCCESS;
++}
++#endif /* CONFIG_GTK_OL */
++
++int rtw_android_priv_cmd(struct net_device *net, struct ifreq *ifr, int cmd)
++{
++	int ret = 0;
++	char *command = NULL;
++	int cmd_num;
++	int bytes_written = 0;
++#ifdef CONFIG_PNO_SUPPORT
++	uint cmdlen = 0;
++	uint pno_enable = 0;
++#endif
++	android_wifi_priv_cmd priv_cmd;
++	_adapter	*padapter = (_adapter *) rtw_netdev_priv(net);
++#ifdef CONFIG_WFD
++	struct wifi_display_info		*pwfd_info;
++#endif
++
++	rtw_lock_suspend();
++
++	if (!ifr->ifr_data) {
++		ret = -EINVAL;
++		goto exit;
++	}
++	if (padapter->registrypriv.mp_mode == 1) {
++		ret = -EINVAL;
++		goto exit;
++	}
++#ifdef CONFIG_COMPAT
++	if (is_compat_task()) {
++		/* User space is 32-bit, use compat ioctl */
++		compat_android_wifi_priv_cmd compat_priv_cmd;
++
++		if (copy_from_user(&compat_priv_cmd, ifr->ifr_data, sizeof(compat_android_wifi_priv_cmd))) {
++			ret = -EFAULT;
++			goto exit;
++		}
++		priv_cmd.buf = compat_ptr(compat_priv_cmd.buf);
++		priv_cmd.used_len = compat_priv_cmd.used_len;
++		priv_cmd.total_len = compat_priv_cmd.total_len;
++	} else
++#endif /* CONFIG_COMPAT */
++		if (copy_from_user(&priv_cmd, ifr->ifr_data, sizeof(android_wifi_priv_cmd))) {
++			ret = -EFAULT;
++			goto exit;
++		}
++	if (padapter->registrypriv.mp_mode == 1) {
++		ret = -EFAULT;
++		goto exit;
++	}
++	/*RTW_INFO("%s priv_cmd.buf=%p priv_cmd.total_len=%d  priv_cmd.used_len=%d\n",__func__,priv_cmd.buf,priv_cmd.total_len,priv_cmd.used_len);*/
++	command = rtw_zmalloc(priv_cmd.total_len);
++	if (!command) {
++		RTW_INFO("%s: failed to allocate memory\n", __FUNCTION__);
++		ret = -ENOMEM;
++		goto exit;
++	}
++
++	if (!access_ok(VERIFY_READ, priv_cmd.buf, priv_cmd.total_len)) {
++		RTW_INFO("%s: failed to access memory\n", __FUNCTION__);
++		ret = -EFAULT;
++		goto exit;
++	}
++	if (copy_from_user(command, (void *)priv_cmd.buf, priv_cmd.total_len)) {
++		ret = -EFAULT;
++		goto exit;
++	}
++
++	RTW_INFO("%s: Android private cmd \"%s\" on %s\n"
++		 , __FUNCTION__, command, ifr->ifr_name);
++
++	cmd_num = rtw_android_cmdstr_to_num(command);
++
++	switch (cmd_num) {
++	case ANDROID_WIFI_CMD_START:
++		/* bytes_written = wl_android_wifi_on(net); */
++		goto response;
++	case ANDROID_WIFI_CMD_SETFWPATH:
++		goto response;
++	}
++
++	if (!g_wifi_on) {
++		RTW_INFO("%s: Ignore private cmd \"%s\" - iface %s is down\n"
++			 , __FUNCTION__, command, ifr->ifr_name);
++		ret = 0;
++		goto exit;
++	}
++
++	if (!hal_chk_wl_func(padapter, WL_FUNC_MIRACAST)) {
++		switch (cmd_num) {
++		case ANDROID_WIFI_CMD_WFD_ENABLE:
++		case ANDROID_WIFI_CMD_WFD_DISABLE:
++		case ANDROID_WIFI_CMD_WFD_SET_TCPPORT:
++		case ANDROID_WIFI_CMD_WFD_SET_MAX_TPUT:
++		case ANDROID_WIFI_CMD_WFD_SET_DEVTYPE:
++			goto response;
++		}
++	}
++
++	switch (cmd_num) {
++
++	case ANDROID_WIFI_CMD_STOP:
++		/* bytes_written = wl_android_wifi_off(net); */
++		break;
++
++	case ANDROID_WIFI_CMD_SCAN_ACTIVE:
++		/* rtw_set_scan_mode((_adapter *)rtw_netdev_priv(net), SCAN_ACTIVE); */
++#ifdef CONFIG_PLATFORM_MSTAR
++#ifdef CONFIG_IOCTL_CFG80211
++		adapter_wdev_data((_adapter *)rtw_netdev_priv(net))->bandroid_scan = _TRUE;
++#endif /* CONFIG_IOCTL_CFG80211 */
++#endif /* CONFIG_PLATFORM_MSTAR */
++		break;
++	case ANDROID_WIFI_CMD_SCAN_PASSIVE:
++		/* rtw_set_scan_mode((_adapter *)rtw_netdev_priv(net), SCAN_PASSIVE); */
++		break;
++
++	case ANDROID_WIFI_CMD_RSSI:
++		bytes_written = rtw_android_get_rssi(net, command, priv_cmd.total_len);
++		break;
++	case ANDROID_WIFI_CMD_LINKSPEED:
++		bytes_written = rtw_android_get_link_speed(net, command, priv_cmd.total_len);
++		break;
++
++	case ANDROID_WIFI_CMD_MACADDR:
++		bytes_written = rtw_android_get_macaddr(net, command, priv_cmd.total_len);
++		break;
++
++	case ANDROID_WIFI_CMD_BLOCK_SCAN:
++		bytes_written = rtw_android_set_block_scan(net, command, priv_cmd.total_len);
++		break;
++
++	case ANDROID_WIFI_CMD_BLOCK:
++		bytes_written = rtw_android_set_block(net, command, priv_cmd.total_len);
++		break;
++
++	case ANDROID_WIFI_CMD_RXFILTER_START:
++		/* bytes_written = net_os_set_packet_filter(net, 1); */
++		break;
++	case ANDROID_WIFI_CMD_RXFILTER_STOP:
++		/* bytes_written = net_os_set_packet_filter(net, 0); */
++		break;
++	case ANDROID_WIFI_CMD_RXFILTER_ADD:
++		/* int filter_num = *(command + strlen(CMD_RXFILTER_ADD) + 1) - '0'; */
++		/* bytes_written = net_os_rxfilter_add_remove(net, TRUE, filter_num); */
++		break;
++	case ANDROID_WIFI_CMD_RXFILTER_REMOVE:
++		/* int filter_num = *(command + strlen(CMD_RXFILTER_REMOVE) + 1) - '0'; */
++		/* bytes_written = net_os_rxfilter_add_remove(net, FALSE, filter_num); */
++		break;
++
++	case ANDROID_WIFI_CMD_BTCOEXSCAN_START:
++		/* TBD: BTCOEXSCAN-START */
++		break;
++	case ANDROID_WIFI_CMD_BTCOEXSCAN_STOP:
++		/* TBD: BTCOEXSCAN-STOP */
++		break;
++	case ANDROID_WIFI_CMD_BTCOEXMODE:
++#if 0
++		uint mode = *(command + strlen(CMD_BTCOEXMODE) + 1) - '0';
++		if (mode == 1)
++			net_os_set_packet_filter(net, 0); /* DHCP starts */
++		else
++			net_os_set_packet_filter(net, 1); /* DHCP ends */
++#ifdef WL_CFG80211
++		bytes_written = wl_cfg80211_set_btcoex_dhcp(net, command);
++#endif
++#endif
++		break;
++
++	case ANDROID_WIFI_CMD_SETSUSPENDOPT:
++		/* bytes_written = wl_android_set_suspendopt(net, command, priv_cmd.total_len); */
++		break;
++
++	case ANDROID_WIFI_CMD_SETBAND:
++		bytes_written = rtw_android_setband(net, command, priv_cmd.total_len);
++		break;
++
++	case ANDROID_WIFI_CMD_GETBAND:
++		bytes_written = rtw_android_getband(net, command, priv_cmd.total_len);
++		break;
++
++	case ANDROID_WIFI_CMD_COUNTRY:
++		bytes_written = rtw_android_set_country(net, command, priv_cmd.total_len);
++		break;
++
++#ifdef CONFIG_PNO_SUPPORT
++	case ANDROID_WIFI_CMD_PNOSSIDCLR_SET:
++		/* bytes_written = dhd_dev_pno_reset(net); */
++		break;
++	case ANDROID_WIFI_CMD_PNOSETUP_SET:
++		bytes_written = rtw_android_pno_setup(net, command, priv_cmd.total_len);
++		break;
++	case ANDROID_WIFI_CMD_PNOENABLE_SET:
++		cmdlen = strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_PNOENABLE_SET]);
++		pno_enable = *(command + cmdlen + 1) - '0';
++		bytes_written = rtw_android_pno_enable(net, pno_enable);
++		break;
++#endif
++
++	case ANDROID_WIFI_CMD_P2P_DEV_ADDR:
++		bytes_written = rtw_android_get_p2p_dev_addr(net, command, priv_cmd.total_len);
++		break;
++	case ANDROID_WIFI_CMD_P2P_SET_NOA:
++		/* int skip = strlen(CMD_P2P_SET_NOA) + 1; */
++		/* bytes_written = wl_cfg80211_set_p2p_noa(net, command + skip, priv_cmd.total_len - skip); */
++		break;
++	case ANDROID_WIFI_CMD_P2P_GET_NOA:
++		/* bytes_written = wl_cfg80211_get_p2p_noa(net, command, priv_cmd.total_len); */
++		break;
++	case ANDROID_WIFI_CMD_P2P_SET_PS:
++		/* int skip = strlen(CMD_P2P_SET_PS) + 1; */
++		/* bytes_written = wl_cfg80211_set_p2p_ps(net, command + skip, priv_cmd.total_len - skip); */
++		break;
++
++#ifdef CONFIG_IOCTL_CFG80211
++	case ANDROID_WIFI_CMD_SET_AP_WPS_P2P_IE: {
++		int skip = strlen(android_wifi_cmd_str[ANDROID_WIFI_CMD_SET_AP_WPS_P2P_IE]) + 3;
++		bytes_written = rtw_cfg80211_set_mgnt_wpsp2pie(net, command + skip, priv_cmd.total_len - skip, *(command + skip - 2) - '0');
++		break;
++	}
++#endif /* CONFIG_IOCTL_CFG80211 */
++
++#ifdef CONFIG_WFD
++
++	case ANDROID_WIFI_CMD_MIRACAST:
++		bytes_written = rtw_android_set_miracast_mode(net, command, priv_cmd.total_len);
++		break;
++
++	case ANDROID_WIFI_CMD_WFD_ENABLE: {
++		/*	Commented by Albert 2012/07/24 */
++		/*	We can enable the WFD function by using the following command: */
++		/*	wpa_cli driver wfd-enable */
++
++		if (padapter->wdinfo.driver_interface == DRIVER_CFG80211)
++			rtw_wfd_enable(padapter, 1);
++		break;
++	}
++
++	case ANDROID_WIFI_CMD_WFD_DISABLE: {
++		/*	Commented by Albert 2012/07/24 */
++		/*	We can disable the WFD function by using the following command: */
++		/*	wpa_cli driver wfd-disable */
++
++		if (padapter->wdinfo.driver_interface == DRIVER_CFG80211)
++			rtw_wfd_enable(padapter, 0);
++		break;
++	}
++	case ANDROID_WIFI_CMD_WFD_SET_TCPPORT: {
++		/*	Commented by Albert 2012/07/24 */
++		/*	We can set the tcp port number by using the following command: */
++		/*	wpa_cli driver wfd-set-tcpport = 554 */
++
++		if (padapter->wdinfo.driver_interface == DRIVER_CFG80211)
++			rtw_wfd_set_ctrl_port(padapter, (u16)get_int_from_command(priv_cmd.buf));
++		break;
++	}
++	case ANDROID_WIFI_CMD_WFD_SET_MAX_TPUT: {
++		break;
++	}
++	case ANDROID_WIFI_CMD_WFD_SET_DEVTYPE: {
++		/*	Commented by Albert 2012/08/28 */
++		/*	Specify the WFD device type ( WFD source/primary sink ) */
++
++		pwfd_info = &padapter->wfd_info;
++		if (padapter->wdinfo.driver_interface == DRIVER_CFG80211) {
++			pwfd_info->wfd_device_type = (u8) get_int_from_command(priv_cmd.buf);
++			pwfd_info->wfd_device_type &= WFD_DEVINFO_DUAL;
++		}
++		break;
++	}
++#endif
++	case ANDROID_WIFI_CMD_CHANGE_DTIM: {
++#ifdef CONFIG_LPS
++		u8 dtim;
++		u8 *ptr = (u8 *) &priv_cmd.buf;
++
++		ptr += 9;/* string command length of  "SET_DTIM"; */
++
++		dtim = rtw_atoi(ptr);
++
++		RTW_INFO("DTIM=%d\n", dtim);
++
++		rtw_lps_change_dtim_cmd(padapter, dtim);
++#endif
++	}
++	break;
++
++#if CONFIG_RTW_MACADDR_ACL
++	case ANDROID_WIFI_CMD_HOSTAPD_SET_MACADDR_ACL: {
++		rtw_set_macaddr_acl(padapter, get_int_from_command(command));
++		break;
++	}
++	case ANDROID_WIFI_CMD_HOSTAPD_ACL_ADD_STA: {
++		u8 addr[ETH_ALEN] = {0x00};
++		macstr2num(addr, command + strlen("HOSTAPD_ACL_ADD_STA") + 3);	/* 3 is space bar + "=" + space bar these 3 chars */
++		rtw_acl_add_sta(padapter, addr);
++		break;
++	}
++	case ANDROID_WIFI_CMD_HOSTAPD_ACL_REMOVE_STA: {
++		u8 addr[ETH_ALEN] = {0x00};
++		macstr2num(addr, command + strlen("HOSTAPD_ACL_REMOVE_STA") + 3);	/* 3 is space bar + "=" + space bar these 3 chars */
++		rtw_acl_remove_sta(padapter, addr);
++		break;
++	}
++#endif /* CONFIG_RTW_MACADDR_ACL */
++#if defined(CONFIG_GTK_OL) && (LINUX_VERSION_CODE < KERNEL_VERSION(3, 1, 0))
++	case ANDROID_WIFI_CMD_GTK_REKEY_OFFLOAD:
++		rtw_gtk_offload(net, (u8 *)command);
++		break;
++#endif /* CONFIG_GTK_OL		 */
++	case ANDROID_WIFI_CMD_P2P_DISABLE: {
++#ifdef CONFIG_P2P
++		struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++		u8 channel, ch_offset;
++		u16 bwmode;
++
++		rtw_p2p_enable(padapter, P2P_ROLE_DISABLE);
++#endif /* CONFIG_P2P */
++		break;
++	}
++	case ANDROID_WIFI_CMD_DRIVERVERSION: {
++		bytes_written = strlen(DRIVERVERSION);
++		snprintf(command, bytes_written + 1, DRIVERVERSION);
++		break;
++	}
++	default:
++		RTW_INFO("Unknown PRIVATE command %s - ignored\n", command);
++		snprintf(command, 3, "OK");
++		bytes_written = strlen("OK");
++	}
++
++response:
++	if (bytes_written >= 0) {
++		if ((bytes_written == 0) && (priv_cmd.total_len > 0))
++			command[0] = '\0';
++		if (bytes_written >= priv_cmd.total_len) {
++			RTW_INFO("%s: bytes_written = %d\n", __FUNCTION__, bytes_written);
++			bytes_written = priv_cmd.total_len;
++		} else
++			bytes_written++;
++		priv_cmd.used_len = bytes_written;
++		if (copy_to_user((void *)priv_cmd.buf, command, bytes_written)) {
++			RTW_INFO("%s: failed to copy data to user buffer\n", __FUNCTION__);
++			ret = -EFAULT;
++		}
++	} else
++		ret = bytes_written;
++
++exit:
++	rtw_unlock_suspend();
++	if (command)
++		rtw_mfree(command, priv_cmd.total_len);
++
++	return ret;
++}
++
++
++/**
++ * Functions for Android WiFi card detection
++ */
++#if defined(RTW_ENABLE_WIFI_CONTROL_FUNC)
++
++static int g_wifidev_registered = 0;
++static struct semaphore wifi_control_sem;
++static struct wifi_platform_data *wifi_control_data = NULL;
++static struct resource *wifi_irqres = NULL;
++
++static int wifi_add_dev(void);
++static void wifi_del_dev(void);
++
++int rtw_android_wifictrl_func_add(void)
++{
++	int ret = 0;
++	sema_init(&wifi_control_sem, 0);
++
++	ret = wifi_add_dev();
++	if (ret) {
++		RTW_INFO("%s: platform_driver_register failed\n", __FUNCTION__);
++		return ret;
++	}
++	g_wifidev_registered = 1;
++
++	/* Waiting callback after platform_driver_register is done or exit with error */
++	if (down_timeout(&wifi_control_sem,  msecs_to_jiffies(1000)) != 0) {
++		ret = -EINVAL;
++		RTW_INFO("%s: platform_driver_register timeout\n", __FUNCTION__);
++	}
++
++	return ret;
++}
++
++void rtw_android_wifictrl_func_del(void)
++{
++	if (g_wifidev_registered) {
++		wifi_del_dev();
++		g_wifidev_registered = 0;
++	}
++}
++
++void *wl_android_prealloc(int section, unsigned long size)
++{
++	void *alloc_ptr = NULL;
++	if (wifi_control_data && wifi_control_data->mem_prealloc) {
++		alloc_ptr = wifi_control_data->mem_prealloc(section, size);
++		if (alloc_ptr) {
++			RTW_INFO("success alloc section %d\n", section);
++			if (size != 0L)
++				memset(alloc_ptr, 0, size);
++			return alloc_ptr;
++		}
++	}
++
++	RTW_INFO("can't alloc section %d\n", section);
++	return NULL;
++}
++
++int wifi_get_irq_number(unsigned long *irq_flags_ptr)
++{
++	if (wifi_irqres) {
++		*irq_flags_ptr = wifi_irqres->flags & IRQF_TRIGGER_MASK;
++		return (int)wifi_irqres->start;
++	}
++#ifdef CUSTOM_OOB_GPIO_NUM
++	return CUSTOM_OOB_GPIO_NUM;
++#else
++	return -1;
++#endif
++}
++
++int wifi_set_power(int on, unsigned long msec)
++{
++	RTW_INFO("%s = %d\n", __FUNCTION__, on);
++	if (wifi_control_data && wifi_control_data->set_power)
++		wifi_control_data->set_power(on);
++	if (msec)
++		msleep(msec);
++	return 0;
++}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++int wifi_get_mac_addr(unsigned char *buf)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++	if (!buf)
++		return -EINVAL;
++	if (wifi_control_data && wifi_control_data->get_mac_addr)
++		return wifi_control_data->get_mac_addr(buf);
++	return -EOPNOTSUPP;
++}
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35)) */
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 39)) || defined(COMPAT_KERNEL_RELEASE)
++void *wifi_get_country_code(char *ccode)
++{
++	RTW_INFO("%s\n", __FUNCTION__);
++	if (!ccode)
++		return NULL;
++	if (wifi_control_data && wifi_control_data->get_country_code)
++		return wifi_control_data->get_country_code(ccode);
++	return NULL;
++}
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 39)) */
++
++static int wifi_set_carddetect(int on)
++{
++	RTW_INFO("%s = %d\n", __FUNCTION__, on);
++	if (wifi_control_data && wifi_control_data->set_carddetect)
++		wifi_control_data->set_carddetect(on);
++	return 0;
++}
++
++static int wifi_probe(struct platform_device *pdev)
++{
++	struct wifi_platform_data *wifi_ctrl =
++		(struct wifi_platform_data *)(pdev->dev.platform_data);
++	int wifi_wake_gpio = 0;
++
++	RTW_INFO("## %s\n", __FUNCTION__);
++	wifi_irqres = platform_get_resource_byname(pdev, IORESOURCE_IRQ, "bcmdhd_wlan_irq");
++
++	if (wifi_irqres == NULL)
++		wifi_irqres = platform_get_resource_byname(pdev,
++				IORESOURCE_IRQ, "bcm4329_wlan_irq");
++	else
++		wifi_wake_gpio = wifi_irqres->start;
++
++#ifdef CONFIG_GPIO_WAKEUP
++	printk("%s: gpio:%d wifi_wake_gpio:%d\n", __func__,
++	       wifi_irqres->start, wifi_wake_gpio);
++
++	if (wifi_wake_gpio > 0) {
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++		wifi_configure_gpio();
++#else /* CONFIG_PLATFORM_INTEL_BYT */
++		gpio_request(wifi_wake_gpio, "oob_irq");
++		gpio_direction_input(wifi_wake_gpio);
++		oob_irq = gpio_to_irq(wifi_wake_gpio);
++#endif /* CONFIG_PLATFORM_INTEL_BYT */
++		printk("%s oob_irq:%d\n", __func__, oob_irq);
++	} else if (wifi_irqres) {
++		oob_irq = wifi_irqres->start;
++		printk("%s oob_irq:%d\n", __func__, oob_irq);
++	}
++#endif
++	wifi_control_data = wifi_ctrl;
++
++	wifi_set_power(1, 0);	/* Power On */
++	wifi_set_carddetect(1);	/* CardDetect (0->1) */
++
++	up(&wifi_control_sem);
++	return 0;
++}
++
++#ifdef RTW_SUPPORT_PLATFORM_SHUTDOWN
++extern PADAPTER g_test_adapter;
++
++static void shutdown_card(void)
++{
++	u32 addr;
++	u8 tmp8, cnt = 0;
++
++	if (NULL == g_test_adapter) {
++		RTW_INFO("%s: padapter==NULL\n", __FUNCTION__);
++		return;
++	}
++
++#ifdef CONFIG_FWLPS_IN_IPS
++	LeaveAllPowerSaveMode(g_test_adapter);
++#endif /* CONFIG_FWLPS_IN_IPS */
++
++	/* Leave SDIO HCI Suspend */
++	addr = 0x10250086;
++	rtw_write8(g_test_adapter, addr, 0);
++	do {
++		tmp8 = rtw_read8(g_test_adapter, addr);
++		cnt++;
++		RTW_INFO(FUNC_ADPT_FMT ": polling SDIO_HSUS_CTRL(0x%x)=0x%x, cnt=%d\n",
++			 FUNC_ADPT_ARG(g_test_adapter), addr, tmp8, cnt);
++
++		if (tmp8 & BIT(1))
++			break;
++
++		if (cnt >= 100) {
++			RTW_INFO(FUNC_ADPT_FMT ": polling 0x%x[1]==1 FAIL!!\n",
++				 FUNC_ADPT_ARG(g_test_adapter), addr);
++			break;
++		}
++
++		rtw_mdelay_os(10);
++	} while (1);
++
++	/* unlock register I/O */
++	rtw_write8(g_test_adapter, 0x1C, 0);
++
++	/* enable power down function */
++	/* 0x04[4] = 1 */
++	/* 0x05[7] = 1 */
++	addr = 0x04;
++	tmp8 = rtw_read8(g_test_adapter, addr);
++	tmp8 |= BIT(4);
++	rtw_write8(g_test_adapter, addr, tmp8);
++	RTW_INFO(FUNC_ADPT_FMT ": read after write 0x%x=0x%x\n",
++		FUNC_ADPT_ARG(g_test_adapter), addr, rtw_read8(g_test_adapter, addr));
++
++	addr = 0x05;
++	tmp8 = rtw_read8(g_test_adapter, addr);
++	tmp8 |= BIT(7);
++	rtw_write8(g_test_adapter, addr, tmp8);
++	RTW_INFO(FUNC_ADPT_FMT ": read after write 0x%x=0x%x\n",
++		FUNC_ADPT_ARG(g_test_adapter), addr, rtw_read8(g_test_adapter, addr));
++
++	/* lock register page0 0x0~0xB read/write */
++	rtw_write8(g_test_adapter, 0x1C, 0x0E);
++
++	rtw_set_surprise_removed(g_test_adapter);
++	RTW_INFO(FUNC_ADPT_FMT ": bSurpriseRemoved=%s\n",
++		FUNC_ADPT_ARG(g_test_adapter), rtw_is_surprise_removed(g_test_adapter) ? "True" : "False");
++}
++#endif /* RTW_SUPPORT_PLATFORM_SHUTDOWN */
++
++static int wifi_remove(struct platform_device *pdev)
++{
++	struct wifi_platform_data *wifi_ctrl =
++		(struct wifi_platform_data *)(pdev->dev.platform_data);
++
++	RTW_INFO("## %s\n", __FUNCTION__);
++	wifi_control_data = wifi_ctrl;
++
++	wifi_set_power(0, 0);	/* Power Off */
++	wifi_set_carddetect(0);	/* CardDetect (1->0) */
++
++	up(&wifi_control_sem);
++	return 0;
++}
++
++#ifdef RTW_SUPPORT_PLATFORM_SHUTDOWN
++static void wifi_shutdown(struct platform_device *pdev)
++{
++	struct wifi_platform_data *wifi_ctrl =
++		(struct wifi_platform_data *)(pdev->dev.platform_data);
++
++
++	RTW_INFO("## %s\n", __FUNCTION__);
++
++	wifi_control_data = wifi_ctrl;
++
++	shutdown_card();
++	wifi_set_power(0, 0);	/* Power Off */
++	wifi_set_carddetect(0);	/* CardDetect (1->0) */
++}
++#endif /* RTW_SUPPORT_PLATFORM_SHUTDOWN */
++
++static int wifi_suspend(struct platform_device *pdev, pm_message_t state)
++{
++	RTW_INFO("##> %s\n", __FUNCTION__);
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 39)) && defined(OOB_INTR_ONLY)
++	bcmsdh_oob_intr_set(0);
++#endif
++	return 0;
++}
++
++static int wifi_resume(struct platform_device *pdev)
++{
++	RTW_INFO("##> %s\n", __FUNCTION__);
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 39)) && defined(OOB_INTR_ONLY)
++	if (dhd_os_check_if_up(bcmsdh_get_drvdata()))
++		bcmsdh_oob_intr_set(1);
++#endif
++	return 0;
++}
++
++/* temporarily use these two */
++static struct platform_driver wifi_device = {
++	.probe          = wifi_probe,
++	.remove         = wifi_remove,
++	.suspend        = wifi_suspend,
++	.resume         = wifi_resume,
++#ifdef RTW_SUPPORT_PLATFORM_SHUTDOWN
++	.shutdown       = wifi_shutdown,
++#endif /* RTW_SUPPORT_PLATFORM_SHUTDOWN */
++	.driver         = {
++		.name   = "bcmdhd_wlan",
++	}
++};
++
++static struct platform_driver wifi_device_legacy = {
++	.probe          = wifi_probe,
++	.remove         = wifi_remove,
++	.suspend        = wifi_suspend,
++	.resume         = wifi_resume,
++	.driver         = {
++		.name   = "bcm4329_wlan",
++	}
++};
++
++static int wifi_add_dev(void)
++{
++	RTW_INFO("## Calling platform_driver_register\n");
++	platform_driver_register(&wifi_device);
++	platform_driver_register(&wifi_device_legacy);
++	return 0;
++}
++
++static void wifi_del_dev(void)
++{
++	RTW_INFO("## Unregister platform_driver_register\n");
++	platform_driver_unregister(&wifi_device);
++	platform_driver_unregister(&wifi_device_legacy);
++}
++#endif /* defined(RTW_ENABLE_WIFI_CONTROL_FUNC) */
++
++#ifdef CONFIG_GPIO_WAKEUP
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++int wifi_configure_gpio(void)
++{
++	if (gpio_request(oob_gpio, "oob_irq")) {
++		RTW_INFO("## %s Cannot request GPIO\n", __FUNCTION__);
++		return -1;
++	}
++	gpio_export(oob_gpio, 0);
++	if (gpio_direction_input(oob_gpio)) {
++		RTW_INFO("## %s Cannot set GPIO direction input\n", __FUNCTION__);
++		return -1;
++	}
++	oob_irq = gpio_to_irq(oob_gpio);
++	if (oob_irq < 0) {
++		RTW_INFO("## %s Cannot convert GPIO to IRQ\n", __FUNCTION__);
++		return -1;
++	}
++
++	RTW_INFO("## %s OOB_IRQ=%d\n", __FUNCTION__, oob_irq);
++
++	return 0;
++}
++#endif /* CONFIG_PLATFORM_INTEL_BYT */
++void wifi_free_gpio(unsigned int gpio)
++{
++#ifdef CONFIG_PLATFORM_INTEL_BYT
++	if (gpio)
++		gpio_free(gpio);
++#endif /* CONFIG_PLATFORM_INTEL_BYT */
++}
++#endif /* CONFIG_GPIO_WAKEUP */
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/rtw_cfgvendor.c b/drivers/net/wireless/rtl8812au/os_dep/linux/rtw_cfgvendor.c
+new file mode 100644
+index 0000000..32c7a5f
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/rtw_cfgvendor.c
+@@ -0,0 +1,1333 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2014 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include <drv_types.h>
++
++#ifdef CONFIG_IOCTL_CFG80211
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 14, 0)) || defined(RTW_VENDOR_EXT_SUPPORT)
++
++/*
++#include <linux/kernel.h>
++#include <linux/if_arp.h>
++#include <asm/uaccess.h>
++
++#include <linux/kernel.h>
++#include <linux/kthread.h>
++#include <linux/netdevice.h>
++#include <linux/sched.h>
++#include <linux/etherdevice.h>
++#include <linux/wireless.h>
++#include <linux/ieee80211.h>
++#include <linux/wait.h>
++#include <net/cfg80211.h>
++*/
++
++#include <net/rtnetlink.h>
++
++#ifdef DBG_MEM_ALLOC
++extern bool match_mstat_sniff_rules(const enum mstat_f flags, const size_t size);
++struct sk_buff *dbg_rtw_cfg80211_vendor_event_alloc(struct wiphy *wiphy, int len, int event_id, gfp_t gfp
++		, const enum mstat_f flags, const char *func, const int line)
++{
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++	struct wireless_dev *wdev = padapter->rtw_wdev;
++
++	struct sk_buff *skb;
++	unsigned int truesize = 0;
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(4, 1, 0))
++	skb = cfg80211_vendor_event_alloc(wiphy, len, event_id, gfp);
++#else
++	skb = cfg80211_vendor_event_alloc(wiphy, wdev, len, event_id, gfp);
++#endif
++
++	if (skb)
++		truesize = skb->truesize;
++
++	if (!skb || truesize < len || match_mstat_sniff_rules(flags, truesize))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%d), skb:%p, truesize=%u\n", func, line, __FUNCTION__, len, skb, truesize);
++
++	rtw_mstat_update(
++		flags
++		, skb ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, truesize
++	);
++
++	return skb;
++}
++
++void dbg_rtw_cfg80211_vendor_event(struct sk_buff *skb, gfp_t gfp
++		   , const enum mstat_f flags, const char *func, const int line)
++{
++	unsigned int truesize = skb->truesize;
++
++	if (match_mstat_sniff_rules(flags, truesize))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s, truesize=%u\n", func, line, __FUNCTION__, truesize);
++
++	cfg80211_vendor_event(skb, gfp);
++
++	rtw_mstat_update(
++		flags
++		, MSTAT_FREE
++		, truesize
++	);
++}
++
++struct sk_buff *dbg_rtw_cfg80211_vendor_cmd_alloc_reply_skb(struct wiphy *wiphy, int len
++		, const enum mstat_f flags, const char *func, const int line)
++{
++	struct sk_buff *skb;
++	unsigned int truesize = 0;
++
++	skb = cfg80211_vendor_cmd_alloc_reply_skb(wiphy, len);
++
++	if (skb)
++		truesize = skb->truesize;
++
++	if (!skb || truesize < len || match_mstat_sniff_rules(flags, truesize))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%d), skb:%p, truesize=%u\n", func, line, __FUNCTION__, len, skb, truesize);
++
++	rtw_mstat_update(
++		flags
++		, skb ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, truesize
++	);
++
++	return skb;
++}
++
++int dbg_rtw_cfg80211_vendor_cmd_reply(struct sk_buff *skb
++	      , const enum mstat_f flags, const char *func, const int line)
++{
++	unsigned int truesize = skb->truesize;
++	int ret;
++
++	if (match_mstat_sniff_rules(flags, truesize))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s, truesize=%u\n", func, line, __FUNCTION__, truesize);
++
++	ret = cfg80211_vendor_cmd_reply(skb);
++
++	rtw_mstat_update(
++		flags
++		, MSTAT_FREE
++		, truesize
++	);
++
++	return ret;
++}
++
++#define rtw_cfg80211_vendor_event_alloc(wiphy, len, event_id, gfp) \
++	dbg_rtw_cfg80211_vendor_event_alloc(wiphy, len, event_id, gfp, MSTAT_FUNC_CFG_VENDOR | MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++
++#define rtw_cfg80211_vendor_event(skb, gfp) \
++	dbg_rtw_cfg80211_vendor_event(skb, gfp, MSTAT_FUNC_CFG_VENDOR | MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++
++#define rtw_cfg80211_vendor_cmd_alloc_reply_skb(wiphy, len) \
++	dbg_rtw_cfg80211_vendor_cmd_alloc_reply_skb(wiphy, len, MSTAT_FUNC_CFG_VENDOR | MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++
++#define rtw_cfg80211_vendor_cmd_reply(skb) \
++	dbg_rtw_cfg80211_vendor_cmd_reply(skb, MSTAT_FUNC_CFG_VENDOR | MSTAT_TYPE_SKB, __FUNCTION__, __LINE__)
++#else
++
++struct sk_buff *rtw_cfg80211_vendor_event_alloc(
++	struct wiphy *wiphy, int len, int event_id, gfp_t gfp)
++{
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++	struct wireless_dev *wdev = padapter->rtw_wdev;
++	struct sk_buff *skb;
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(4, 1, 0))
++	skb = cfg80211_vendor_event_alloc(wiphy, len, event_id, gfp);
++#else
++	skb = cfg80211_vendor_event_alloc(wiphy, wdev, len, event_id, gfp);
++#endif
++	return skb;
++}
++
++#define rtw_cfg80211_vendor_event(skb, gfp) \
++	cfg80211_vendor_event(skb, gfp)
++
++#define rtw_cfg80211_vendor_cmd_alloc_reply_skb(wiphy, len) \
++	cfg80211_vendor_cmd_alloc_reply_skb(wiphy, len)
++
++#define rtw_cfg80211_vendor_cmd_reply(skb) \
++	cfg80211_vendor_cmd_reply(skb)
++#endif /* DBG_MEM_ALLOC */
++
++/*
++ * This API is to be used for asynchronous vendor events. This
++ * shouldn't be used in response to a vendor command from its
++ * do_it handler context (instead rtw_cfgvendor_send_cmd_reply should
++ * be used).
++ */
++int rtw_cfgvendor_send_async_event(struct wiphy *wiphy,
++	   struct net_device *dev, int event_id, const void  *data, int len)
++{
++	u16 kflags;
++	struct sk_buff *skb;
++
++	kflags = in_atomic() ? GFP_ATOMIC : GFP_KERNEL;
++
++	/* Alloc the SKB for vendor_event */
++	skb = rtw_cfg80211_vendor_event_alloc(wiphy, len, event_id, kflags);
++	if (!skb) {
++		RTW_ERR(FUNC_NDEV_FMT" skb alloc failed", FUNC_NDEV_ARG(dev));
++		return -ENOMEM;
++	}
++
++	/* Push the data to the skb */
++	nla_put_nohdr(skb, len, data);
++
++	rtw_cfg80211_vendor_event(skb, kflags);
++
++	return 0;
++}
++
++static int rtw_cfgvendor_send_cmd_reply(struct wiphy *wiphy,
++			struct net_device *dev, const void  *data, int len)
++{
++	struct sk_buff *skb;
++
++	/* Alloc the SKB for vendor_event */
++	skb = rtw_cfg80211_vendor_cmd_alloc_reply_skb(wiphy, len);
++	if (unlikely(!skb)) {
++		RTW_ERR(FUNC_NDEV_FMT" skb alloc failed", FUNC_NDEV_ARG(dev));
++		return -ENOMEM;
++	}
++
++	/* Push the data to the skb */
++	nla_put_nohdr(skb, len, data);
++
++	return rtw_cfg80211_vendor_cmd_reply(skb);
++}
++
++#define WIFI_FEATURE_INFRA              0x0001      /* Basic infrastructure mode       */
++#define WIFI_FEATURE_INFRA_5G           0x0002      /* Support for 5 GHz Band          */
++#define WIFI_FEATURE_HOTSPOT            0x0004      /* Support for GAS/ANQP            */
++#define WIFI_FEATURE_P2P                0x0008      /* Wifi-Direct                     */
++#define WIFI_FEATURE_SOFT_AP            0x0010      /* Soft AP                         */
++#define WIFI_FEATURE_GSCAN              0x0020      /* Google-Scan APIs                */
++#define WIFI_FEATURE_NAN                0x0040      /* Neighbor Awareness Networking   */
++#define WIFI_FEATURE_D2D_RTT            0x0080      /* Device-to-device RTT            */
++#define WIFI_FEATURE_D2AP_RTT           0x0100      /* Device-to-AP RTT                */
++#define WIFI_FEATURE_BATCH_SCAN         0x0200      /* Batched Scan (legacy)           */
++#define WIFI_FEATURE_PNO                0x0400      /* Preferred network offload       */
++#define WIFI_FEATURE_ADDITIONAL_STA     0x0800      /* Support for two STAs            */
++#define WIFI_FEATURE_TDLS               0x1000      /* Tunnel directed link setup      */
++#define WIFI_FEATURE_TDLS_OFFCHANNEL    0x2000      /* Support for TDLS off channel    */
++#define WIFI_FEATURE_EPR                0x4000      /* Enhanced power reporting        */
++#define WIFI_FEATURE_AP_STA             0x8000      /* Support for AP STA Concurrency  */
++
++#define MAX_FEATURE_SET_CONCURRRENT_GROUPS  3
++
++#include <hal_data.h>
++int rtw_dev_get_feature_set(struct net_device *dev)
++{
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	HAL_DATA_TYPE *HalData = GET_HAL_DATA(adapter);
++	HAL_VERSION *hal_ver = &HalData->VersionID;
++
++	int feature_set = 0;
++
++	feature_set |= WIFI_FEATURE_INFRA;
++
++	if (IS_8814A_SERIES(*hal_ver) || IS_8812_SERIES(*hal_ver) ||
++	    IS_8821_SERIES(*hal_ver))
++		feature_set |= WIFI_FEATURE_INFRA_5G;
++
++	feature_set |= WIFI_FEATURE_P2P;
++	feature_set |= WIFI_FEATURE_SOFT_AP;
++
++	feature_set |= WIFI_FEATURE_ADDITIONAL_STA;
++
++	return feature_set;
++}
++
++int *rtw_dev_get_feature_set_matrix(struct net_device *dev, int *num)
++{
++	int feature_set_full, mem_needed;
++	int *ret;
++
++	*num = 0;
++	mem_needed = sizeof(int) * MAX_FEATURE_SET_CONCURRRENT_GROUPS;
++	ret = (int *)rtw_malloc(mem_needed);
++
++	if (!ret) {
++		RTW_ERR(FUNC_NDEV_FMT" failed to allocate %d bytes\n"
++			, FUNC_NDEV_ARG(dev), mem_needed);
++		return ret;
++	}
++
++	feature_set_full = rtw_dev_get_feature_set(dev);
++
++	ret[0] = (feature_set_full & WIFI_FEATURE_INFRA) |
++		 (feature_set_full & WIFI_FEATURE_INFRA_5G) |
++		 (feature_set_full & WIFI_FEATURE_NAN) |
++		 (feature_set_full & WIFI_FEATURE_D2D_RTT) |
++		 (feature_set_full & WIFI_FEATURE_D2AP_RTT) |
++		 (feature_set_full & WIFI_FEATURE_PNO) |
++		 (feature_set_full & WIFI_FEATURE_BATCH_SCAN) |
++		 (feature_set_full & WIFI_FEATURE_GSCAN) |
++		 (feature_set_full & WIFI_FEATURE_HOTSPOT) |
++		 (feature_set_full & WIFI_FEATURE_ADDITIONAL_STA) |
++		 (feature_set_full & WIFI_FEATURE_EPR);
++
++	ret[1] = (feature_set_full & WIFI_FEATURE_INFRA) |
++		 (feature_set_full & WIFI_FEATURE_INFRA_5G) |
++		 /* Not yet verified NAN with P2P */
++		 /* (feature_set_full & WIFI_FEATURE_NAN) | */
++		 (feature_set_full & WIFI_FEATURE_P2P) |
++		 (feature_set_full & WIFI_FEATURE_D2AP_RTT) |
++		 (feature_set_full & WIFI_FEATURE_D2D_RTT) |
++		 (feature_set_full & WIFI_FEATURE_EPR);
++
++	ret[2] = (feature_set_full & WIFI_FEATURE_INFRA) |
++		 (feature_set_full & WIFI_FEATURE_INFRA_5G) |
++		 (feature_set_full & WIFI_FEATURE_NAN) |
++		 (feature_set_full & WIFI_FEATURE_D2D_RTT) |
++		 (feature_set_full & WIFI_FEATURE_D2AP_RTT) |
++		 (feature_set_full & WIFI_FEATURE_TDLS) |
++		 (feature_set_full & WIFI_FEATURE_TDLS_OFFCHANNEL) |
++		 (feature_set_full & WIFI_FEATURE_EPR);
++	*num = MAX_FEATURE_SET_CONCURRRENT_GROUPS;
++
++	return ret;
++}
++
++static int rtw_cfgvendor_get_feature_set(struct wiphy *wiphy,
++		struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	int reply;
++
++	reply = rtw_dev_get_feature_set(wdev_to_ndev(wdev));
++
++	err =  rtw_cfgvendor_send_cmd_reply(wiphy, wdev_to_ndev(wdev), &reply, sizeof(int));
++
++	if (unlikely(err))
++		RTW_ERR(FUNC_NDEV_FMT" Vendor Command reply failed ret:%d\n"
++			, FUNC_NDEV_ARG(wdev_to_ndev(wdev)), err);
++
++	return err;
++}
++
++static int rtw_cfgvendor_get_feature_set_matrix(struct wiphy *wiphy,
++		struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	struct sk_buff *skb;
++	int *reply;
++	int num, mem_needed, i;
++
++	reply = rtw_dev_get_feature_set_matrix(wdev_to_ndev(wdev), &num);
++
++	if (!reply) {
++		RTW_ERR(FUNC_NDEV_FMT" Could not get feature list matrix\n"
++			, FUNC_NDEV_ARG(wdev_to_ndev(wdev)));
++		err = -EINVAL;
++		return err;
++	}
++
++	mem_needed = VENDOR_REPLY_OVERHEAD + (ATTRIBUTE_U32_LEN * num) +
++		     ATTRIBUTE_U32_LEN;
++
++	/* Alloc the SKB for vendor_event */
++	skb = rtw_cfg80211_vendor_cmd_alloc_reply_skb(wiphy, mem_needed);
++	if (unlikely(!skb)) {
++		RTW_ERR(FUNC_NDEV_FMT" skb alloc failed", FUNC_NDEV_ARG(wdev_to_ndev(wdev)));
++		err = -ENOMEM;
++		goto exit;
++	}
++
++	nla_put_u32(skb, ANDR_WIFI_ATTRIBUTE_NUM_FEATURE_SET, num);
++	for (i = 0; i < num; i++)
++		nla_put_u32(skb, ANDR_WIFI_ATTRIBUTE_FEATURE_SET, reply[i]);
++
++	err =  rtw_cfg80211_vendor_cmd_reply(skb);
++
++	if (unlikely(err))
++		RTW_ERR(FUNC_NDEV_FMT" Vendor Command reply failed ret:%d\n"
++			, FUNC_NDEV_ARG(wdev_to_ndev(wdev)), err);
++exit:
++	rtw_mfree((u8 *)reply, sizeof(int) * num);
++	return err;
++}
++
++#if defined(GSCAN_SUPPORT) && 0
++int wl_cfgvendor_send_hotlist_event(struct wiphy *wiphy,
++	struct net_device *dev, void  *data, int len, wl_vendor_event_t event)
++{
++	u16 kflags;
++	const void *ptr;
++	struct sk_buff *skb;
++	int malloc_len, total, iter_cnt_to_send, cnt;
++	gscan_results_cache_t *cache = (gscan_results_cache_t *)data;
++
++	total = len / sizeof(wifi_gscan_result_t);
++	while (total > 0) {
++		malloc_len = (total * sizeof(wifi_gscan_result_t)) + VENDOR_DATA_OVERHEAD;
++		if (malloc_len > NLMSG_DEFAULT_SIZE)
++			malloc_len = NLMSG_DEFAULT_SIZE;
++		iter_cnt_to_send =
++			(malloc_len - VENDOR_DATA_OVERHEAD) / sizeof(wifi_gscan_result_t);
++		total = total - iter_cnt_to_send;
++
++		kflags = in_atomic() ? GFP_ATOMIC : GFP_KERNEL;
++
++		/* Alloc the SKB for vendor_event */
++		skb = rtw_cfg80211_vendor_event_alloc(wiphy, malloc_len, event, kflags);
++		if (!skb) {
++			WL_ERR(("skb alloc failed"));
++			return -ENOMEM;
++		}
++
++		while (cache && iter_cnt_to_send) {
++			ptr = (const void *) &cache->results[cache->tot_consumed];
++
++			if (iter_cnt_to_send < (cache->tot_count - cache->tot_consumed))
++				cnt = iter_cnt_to_send;
++			else
++				cnt = (cache->tot_count - cache->tot_consumed);
++
++			iter_cnt_to_send -= cnt;
++			cache->tot_consumed += cnt;
++			/* Push the data to the skb */
++			nla_append(skb, cnt * sizeof(wifi_gscan_result_t), ptr);
++			if (cache->tot_consumed == cache->tot_count)
++				cache = cache->next;
++
++		}
++
++		rtw_cfg80211_vendor_event(skb, kflags);
++	}
++
++	return 0;
++}
++
++
++static int wl_cfgvendor_gscan_get_capabilities(struct wiphy *wiphy,
++		struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	dhd_pno_gscan_capabilities_t *reply = NULL;
++	uint32 reply_len = 0;
++
++
++	reply = dhd_dev_pno_get_gscan(bcmcfg_to_prmry_ndev(cfg),
++			      DHD_PNO_GET_CAPABILITIES, NULL, &reply_len);
++	if (!reply) {
++		WL_ERR(("Could not get capabilities\n"));
++		err = -EINVAL;
++		return err;
++	}
++
++	err =  rtw_cfgvendor_send_cmd_reply(wiphy, bcmcfg_to_prmry_ndev(cfg),
++					    reply, reply_len);
++
++	if (unlikely(err))
++		WL_ERR(("Vendor Command reply failed ret:%d\n", err));
++
++	kfree(reply);
++	return err;
++}
++
++static int wl_cfgvendor_gscan_get_channel_list(struct wiphy *wiphy,
++		struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0, type, band;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	uint16 *reply = NULL;
++	uint32 reply_len = 0, num_channels, mem_needed;
++	struct sk_buff *skb;
++
++	type = nla_type(data);
++
++	if (type == GSCAN_ATTRIBUTE_BAND)
++		band = nla_get_u32(data);
++	else
++		return -1;
++
++	reply = dhd_dev_pno_get_gscan(bcmcfg_to_prmry_ndev(cfg),
++			      DHD_PNO_GET_CHANNEL_LIST, &band, &reply_len);
++
++	if (!reply) {
++		WL_ERR(("Could not get channel list\n"));
++		err = -EINVAL;
++		return err;
++	}
++	num_channels =  reply_len / sizeof(uint32);
++	mem_needed = reply_len + VENDOR_REPLY_OVERHEAD + (ATTRIBUTE_U32_LEN * 2);
++
++	/* Alloc the SKB for vendor_event */
++	skb = rtw_cfg80211_vendor_cmd_alloc_reply_skb(wiphy, mem_needed);
++	if (unlikely(!skb)) {
++		WL_ERR(("skb alloc failed"));
++		err = -ENOMEM;
++		goto exit;
++	}
++
++	nla_put_u32(skb, GSCAN_ATTRIBUTE_NUM_CHANNELS, num_channels);
++	nla_put(skb, GSCAN_ATTRIBUTE_CHANNEL_LIST, reply_len, reply);
++
++	err =  rtw_cfg80211_vendor_cmd_reply(skb);
++
++	if (unlikely(err))
++		WL_ERR(("Vendor Command reply failed ret:%d\n", err));
++exit:
++	kfree(reply);
++	return err;
++}
++
++static int wl_cfgvendor_gscan_get_batch_results(struct wiphy *wiphy,
++		struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	gscan_results_cache_t *results, *iter;
++	uint32 reply_len, complete = 0, num_results_iter;
++	int32 mem_needed;
++	wifi_gscan_result_t *ptr;
++	uint16 num_scan_ids, num_results;
++	struct sk_buff *skb;
++	struct nlattr *scan_hdr;
++
++	dhd_dev_wait_batch_results_complete(bcmcfg_to_prmry_ndev(cfg));
++	dhd_dev_pno_lock_access_batch_results(bcmcfg_to_prmry_ndev(cfg));
++	results = dhd_dev_pno_get_gscan(bcmcfg_to_prmry_ndev(cfg),
++				DHD_PNO_GET_BATCH_RESULTS, NULL, &reply_len);
++
++	if (!results) {
++		WL_ERR(("No results to send %d\n", err));
++		err =  rtw_cfgvendor_send_cmd_reply(wiphy, bcmcfg_to_prmry_ndev(cfg),
++						    results, 0);
++
++		if (unlikely(err))
++			WL_ERR(("Vendor Command reply failed ret:%d\n", err));
++		dhd_dev_pno_unlock_access_batch_results(bcmcfg_to_prmry_ndev(cfg));
++		return err;
++	}
++	num_scan_ids = reply_len & 0xFFFF;
++	num_results = (reply_len & 0xFFFF0000) >> 16;
++	mem_needed = (num_results * sizeof(wifi_gscan_result_t)) +
++		     (num_scan_ids * GSCAN_BATCH_RESULT_HDR_LEN) +
++		     VENDOR_REPLY_OVERHEAD + SCAN_RESULTS_COMPLETE_FLAG_LEN;
++
++	if (mem_needed > (int32)NLMSG_DEFAULT_SIZE) {
++		mem_needed = (int32)NLMSG_DEFAULT_SIZE;
++		complete = 0;
++	} else
++		complete = 1;
++
++	WL_TRACE(("complete %d mem_needed %d max_mem %d\n", complete, mem_needed,
++		  (int)NLMSG_DEFAULT_SIZE));
++	/* Alloc the SKB for vendor_event */
++	skb = rtw_cfg80211_vendor_cmd_alloc_reply_skb(wiphy, mem_needed);
++	if (unlikely(!skb)) {
++		WL_ERR(("skb alloc failed"));
++		dhd_dev_pno_unlock_access_batch_results(bcmcfg_to_prmry_ndev(cfg));
++		return -ENOMEM;
++	}
++	iter = results;
++
++	nla_put_u32(skb, GSCAN_ATTRIBUTE_SCAN_RESULTS_COMPLETE, complete);
++
++	mem_needed = mem_needed - (SCAN_RESULTS_COMPLETE_FLAG_LEN + VENDOR_REPLY_OVERHEAD);
++
++	while (iter && ((mem_needed - GSCAN_BATCH_RESULT_HDR_LEN)  > 0)) {
++		scan_hdr = nla_nest_start(skb, GSCAN_ATTRIBUTE_SCAN_RESULTS);
++		nla_put_u32(skb, GSCAN_ATTRIBUTE_SCAN_ID, iter->scan_id);
++		nla_put_u8(skb, GSCAN_ATTRIBUTE_SCAN_FLAGS, iter->flag);
++		num_results_iter =
++			(mem_needed - GSCAN_BATCH_RESULT_HDR_LEN) / sizeof(wifi_gscan_result_t);
++
++		if ((iter->tot_count - iter->tot_consumed) < num_results_iter)
++			num_results_iter = iter->tot_count - iter->tot_consumed;
++
++		nla_put_u32(skb, GSCAN_ATTRIBUTE_NUM_OF_RESULTS, num_results_iter);
++		if (num_results_iter) {
++			ptr = &iter->results[iter->tot_consumed];
++			iter->tot_consumed += num_results_iter;
++			nla_put(skb, GSCAN_ATTRIBUTE_SCAN_RESULTS,
++				num_results_iter * sizeof(wifi_gscan_result_t), ptr);
++		}
++		nla_nest_end(skb, scan_hdr);
++		mem_needed -= GSCAN_BATCH_RESULT_HDR_LEN +
++			      (num_results_iter * sizeof(wifi_gscan_result_t));
++		iter = iter->next;
++	}
++
++	dhd_dev_gscan_batch_cache_cleanup(bcmcfg_to_prmry_ndev(cfg));
++	dhd_dev_pno_unlock_access_batch_results(bcmcfg_to_prmry_ndev(cfg));
++
++	return rtw_cfg80211_vendor_cmd_reply(skb);
++}
++
++static int wl_cfgvendor_initiate_gscan(struct wiphy *wiphy,
++		       struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	int type, tmp = len;
++	int run = 0xFF;
++	int flush = 0;
++	const struct nlattr *iter;
++
++	nla_for_each_attr(iter, data, len, tmp) {
++		type = nla_type(iter);
++		if (type == GSCAN_ATTRIBUTE_ENABLE_FEATURE)
++			run = nla_get_u32(iter);
++		else if (type == GSCAN_ATTRIBUTE_FLUSH_FEATURE)
++			flush = nla_get_u32(iter);
++	}
++
++	if (run != 0xFF) {
++		err = dhd_dev_pno_run_gscan(bcmcfg_to_prmry_ndev(cfg), run, flush);
++
++		if (unlikely(err))
++			WL_ERR(("Could not run gscan:%d\n", err));
++		return err;
++	} else
++		return -1;
++
++
++}
++
++static int wl_cfgvendor_enable_full_scan_result(struct wiphy *wiphy,
++		struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	int type;
++	bool real_time = FALSE;
++
++	type = nla_type(data);
++
++	if (type == GSCAN_ATTRIBUTE_ENABLE_FULL_SCAN_RESULTS) {
++		real_time = nla_get_u32(data);
++
++		err = dhd_dev_pno_enable_full_scan_result(bcmcfg_to_prmry_ndev(cfg), real_time);
++
++		if (unlikely(err))
++			WL_ERR(("Could not run gscan:%d\n", err));
++
++	} else
++		err = -1;
++
++	return err;
++}
++
++static int wl_cfgvendor_set_scan_cfg(struct wiphy *wiphy,
++		     struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	gscan_scan_params_t *scan_param;
++	int j = 0;
++	int type, tmp, tmp1, tmp2, k = 0;
++	const struct nlattr *iter, *iter1, *iter2;
++	struct dhd_pno_gscan_channel_bucket  *ch_bucket;
++
++	scan_param = kzalloc(sizeof(gscan_scan_params_t), GFP_KERNEL);
++	if (!scan_param) {
++		WL_ERR(("Could not set GSCAN scan cfg, mem alloc failure\n"));
++		err = -EINVAL;
++		return err;
++
++	}
++
++	scan_param->scan_fr = PNO_SCAN_MIN_FW_SEC;
++	nla_for_each_attr(iter, data, len, tmp) {
++		type = nla_type(iter);
++
++		if (j >= GSCAN_MAX_CH_BUCKETS)
++			break;
++
++		switch (type) {
++		case GSCAN_ATTRIBUTE_BASE_PERIOD:
++			scan_param->scan_fr = nla_get_u32(iter) / 1000;
++			break;
++		case GSCAN_ATTRIBUTE_NUM_BUCKETS:
++			scan_param->nchannel_buckets = nla_get_u32(iter);
++			break;
++		case GSCAN_ATTRIBUTE_CH_BUCKET_1:
++		case GSCAN_ATTRIBUTE_CH_BUCKET_2:
++		case GSCAN_ATTRIBUTE_CH_BUCKET_3:
++		case GSCAN_ATTRIBUTE_CH_BUCKET_4:
++		case GSCAN_ATTRIBUTE_CH_BUCKET_5:
++		case GSCAN_ATTRIBUTE_CH_BUCKET_6:
++		case GSCAN_ATTRIBUTE_CH_BUCKET_7:
++			nla_for_each_nested(iter1, iter, tmp1) {
++				type = nla_type(iter1);
++				ch_bucket =
++					scan_param->channel_bucket;
++
++				switch (type) {
++				case GSCAN_ATTRIBUTE_BUCKET_ID:
++					break;
++				case GSCAN_ATTRIBUTE_BUCKET_PERIOD:
++					ch_bucket[j].bucket_freq_multiple =
++						nla_get_u32(iter1) / 1000;
++					break;
++				case GSCAN_ATTRIBUTE_BUCKET_NUM_CHANNELS:
++					ch_bucket[j].num_channels =
++						nla_get_u32(iter1);
++					break;
++				case GSCAN_ATTRIBUTE_BUCKET_CHANNELS:
++					nla_for_each_nested(iter2, iter1, tmp2) {
++						if (k >= PFN_SWC_RSSI_WINDOW_MAX)
++							break;
++						ch_bucket[j].chan_list[k] =
++							nla_get_u32(iter2);
++						k++;
++					}
++					k = 0;
++					break;
++				case GSCAN_ATTRIBUTE_BUCKETS_BAND:
++					ch_bucket[j].band = (uint16)
++							    nla_get_u32(iter1);
++					break;
++				case GSCAN_ATTRIBUTE_REPORT_EVENTS:
++					ch_bucket[j].report_flag = (uint8)
++							   nla_get_u32(iter1);
++					break;
++				}
++			}
++			j++;
++			break;
++		}
++	}
++
++	if (dhd_dev_pno_set_cfg_gscan(bcmcfg_to_prmry_ndev(cfg),
++				      DHD_PNO_SCAN_CFG_ID, scan_param, 0) < 0) {
++		WL_ERR(("Could not set GSCAN scan cfg\n"));
++		err = -EINVAL;
++	}
++
++	kfree(scan_param);
++	return err;
++
++}
++
++static int wl_cfgvendor_hotlist_cfg(struct wiphy *wiphy,
++		    struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	gscan_hotlist_scan_params_t *hotlist_params;
++	int tmp, tmp1, tmp2, type, j = 0, dummy;
++	const struct nlattr *outer, *inner, *iter;
++	uint8 flush = 0;
++	struct bssid_t *pbssid;
++
++	hotlist_params = (gscan_hotlist_scan_params_t *)kzalloc(len, GFP_KERNEL);
++	if (!hotlist_params) {
++		WL_ERR(("Cannot Malloc mem to parse config commands size - %d bytes\n", len));
++		return -1;
++	}
++
++	hotlist_params->lost_ap_window = GSCAN_LOST_AP_WINDOW_DEFAULT;
++
++	nla_for_each_attr(iter, data, len, tmp2) {
++		type = nla_type(iter);
++		switch (type) {
++		case GSCAN_ATTRIBUTE_HOTLIST_BSSIDS:
++			pbssid = hotlist_params->bssid;
++			nla_for_each_nested(outer, iter, tmp) {
++				nla_for_each_nested(inner, outer, tmp1) {
++					type = nla_type(inner);
++
++					switch (type) {
++					case GSCAN_ATTRIBUTE_BSSID:
++						memcpy(&(pbssid[j].macaddr),
++						       nla_data(inner), ETHER_ADDR_LEN);
++						break;
++					case GSCAN_ATTRIBUTE_RSSI_LOW:
++						pbssid[j].rssi_reporting_threshold =
++							(int8) nla_get_u8(inner);
++						break;
++					case GSCAN_ATTRIBUTE_RSSI_HIGH:
++						dummy = (int8) nla_get_u8(inner);
++						break;
++					}
++				}
++				j++;
++			}
++			hotlist_params->nbssid = j;
++			break;
++		case GSCAN_ATTRIBUTE_HOTLIST_FLUSH:
++			flush = nla_get_u8(iter);
++			break;
++		case GSCAN_ATTRIBUTE_LOST_AP_SAMPLE_SIZE:
++			hotlist_params->lost_ap_window = nla_get_u32(iter);
++			break;
++		}
++
++	}
++
++	if (dhd_dev_pno_set_cfg_gscan(bcmcfg_to_prmry_ndev(cfg),
++		DHD_PNO_GEOFENCE_SCAN_CFG_ID, hotlist_params, flush) < 0) {
++		WL_ERR(("Could not set GSCAN HOTLIST cfg\n"));
++		err = -EINVAL;
++		goto exit;
++	}
++exit:
++	kfree(hotlist_params);
++	return err;
++}
++static int wl_cfgvendor_set_batch_scan_cfg(struct wiphy *wiphy,
++		struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0, tmp, type;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	gscan_batch_params_t batch_param;
++	const struct nlattr *iter;
++
++	batch_param.mscan = batch_param.bestn = 0;
++	batch_param.buffer_threshold = GSCAN_BATCH_NO_THR_SET;
++
++	nla_for_each_attr(iter, data, len, tmp) {
++		type = nla_type(iter);
++
++		switch (type) {
++		case GSCAN_ATTRIBUTE_NUM_AP_PER_SCAN:
++			batch_param.bestn = nla_get_u32(iter);
++			break;
++		case GSCAN_ATTRIBUTE_NUM_SCANS_TO_CACHE:
++			batch_param.mscan = nla_get_u32(iter);
++			break;
++		case GSCAN_ATTRIBUTE_REPORT_THRESHOLD:
++			batch_param.buffer_threshold = nla_get_u32(iter);
++			break;
++		}
++	}
++
++	if (dhd_dev_pno_set_cfg_gscan(bcmcfg_to_prmry_ndev(cfg),
++			      DHD_PNO_BATCH_SCAN_CFG_ID, &batch_param, 0) < 0) {
++		WL_ERR(("Could not set batch cfg\n"));
++		err = -EINVAL;
++		return err;
++	}
++
++	return err;
++}
++
++static int wl_cfgvendor_significant_change_cfg(struct wiphy *wiphy,
++		struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	gscan_swc_params_t *significant_params;
++	int tmp, tmp1, tmp2, type, j = 0;
++	const struct nlattr *outer, *inner, *iter;
++	uint8 flush = 0;
++	wl_pfn_significant_bssid_t *pbssid;
++
++	significant_params = (gscan_swc_params_t *) kzalloc(len, GFP_KERNEL);
++	if (!significant_params) {
++		WL_ERR(("Cannot Malloc mem to parse config commands size - %d bytes\n", len));
++		return -1;
++	}
++
++
++	nla_for_each_attr(iter, data, len, tmp2) {
++		type = nla_type(iter);
++
++		switch (type) {
++		case GSCAN_ATTRIBUTE_SIGNIFICANT_CHANGE_FLUSH:
++			flush = nla_get_u8(iter);
++			break;
++		case GSCAN_ATTRIBUTE_RSSI_SAMPLE_SIZE:
++			significant_params->rssi_window = nla_get_u16(iter);
++			break;
++		case GSCAN_ATTRIBUTE_LOST_AP_SAMPLE_SIZE:
++			significant_params->lost_ap_window = nla_get_u16(iter);
++			break;
++		case GSCAN_ATTRIBUTE_MIN_BREACHING:
++			significant_params->swc_threshold = nla_get_u16(iter);
++			break;
++		case GSCAN_ATTRIBUTE_SIGNIFICANT_CHANGE_BSSIDS:
++			pbssid = significant_params->bssid_elem_list;
++			nla_for_each_nested(outer, iter, tmp) {
++				nla_for_each_nested(inner, outer, tmp1) {
++					switch (nla_type(inner)) {
++					case GSCAN_ATTRIBUTE_BSSID:
++						memcpy(&(pbssid[j].macaddr),
++						       nla_data(inner),
++						       ETHER_ADDR_LEN);
++						break;
++					case GSCAN_ATTRIBUTE_RSSI_HIGH:
++						pbssid[j].rssi_high_threshold =
++							(int8) nla_get_u8(inner);
++						break;
++					case GSCAN_ATTRIBUTE_RSSI_LOW:
++						pbssid[j].rssi_low_threshold =
++							(int8) nla_get_u8(inner);
++						break;
++					}
++				}
++				j++;
++			}
++			break;
++		}
++	}
++	significant_params->nbssid = j;
++
++	if (dhd_dev_pno_set_cfg_gscan(bcmcfg_to_prmry_ndev(cfg),
++		DHD_PNO_SIGNIFICANT_SCAN_CFG_ID, significant_params, flush) < 0) {
++		WL_ERR(("Could not set GSCAN significant cfg\n"));
++		err = -EINVAL;
++		goto exit;
++	}
++exit:
++	kfree(significant_params);
++	return err;
++}
++#endif /* GSCAN_SUPPORT */
++
++#if defined(RTT_SUPPORT) && 0
++void wl_cfgvendor_rtt_evt(void *ctx, void *rtt_data)
++{
++	struct wireless_dev *wdev = (struct wireless_dev *)ctx;
++	struct wiphy *wiphy;
++	struct sk_buff *skb;
++	uint32 tot_len = NLMSG_DEFAULT_SIZE, entry_len = 0;
++	gfp_t kflags;
++	rtt_report_t *rtt_report = NULL;
++	rtt_result_t *rtt_result = NULL;
++	struct list_head *rtt_list;
++	wiphy = wdev->wiphy;
++
++	WL_DBG(("In\n"));
++	/* Push the data to the skb */
++	if (!rtt_data) {
++		WL_ERR(("rtt_data is NULL\n"));
++		goto exit;
++	}
++	rtt_list = (struct list_head *)rtt_data;
++	kflags = in_atomic() ? GFP_ATOMIC : GFP_KERNEL;
++	/* Alloc the SKB for vendor_event */
++	skb = rtw_cfg80211_vendor_event_alloc(wiphy, tot_len, GOOGLE_RTT_COMPLETE_EVENT, kflags);
++	if (!skb) {
++		WL_ERR(("skb alloc failed"));
++		goto exit;
++	}
++	/* fill in the rtt results on each entry */
++	list_for_each_entry(rtt_result, rtt_list, list) {
++		entry_len = 0;
++		if (rtt_result->TOF_type == TOF_TYPE_ONE_WAY) {
++			entry_len = sizeof(rtt_report_t);
++			rtt_report = kzalloc(entry_len, kflags);
++			if (!rtt_report) {
++				WL_ERR(("rtt_report alloc failed"));
++				goto exit;
++			}
++			rtt_report->addr = rtt_result->peer_mac;
++			rtt_report->num_measurement = 1; /* ONE SHOT */
++			rtt_report->status = rtt_result->err_code;
++			rtt_report->type = (rtt_result->TOF_type == TOF_TYPE_ONE_WAY) ? RTT_ONE_WAY : RTT_TWO_WAY;
++			rtt_report->peer = rtt_result->target_info->peer;
++			rtt_report->channel = rtt_result->target_info->channel;
++			rtt_report->rssi = rtt_result->avg_rssi;
++			/* tx_rate */
++			rtt_report->tx_rate = rtt_result->tx_rate;
++			/* RTT */
++			rtt_report->rtt = rtt_result->meanrtt;
++			rtt_report->rtt_sd = rtt_result->sdrtt;
++			/* convert to centi meter */
++			if (rtt_result->distance != 0xffffffff)
++				rtt_report->distance = (rtt_result->distance >> 2) * 25;
++			else /* invalid distance */
++				rtt_report->distance = -1;
++
++			rtt_report->ts = rtt_result->ts;
++			nla_append(skb, entry_len, rtt_report);
++			kfree(rtt_report);
++		}
++	}
++	rtw_cfg80211_vendor_event(skb, kflags);
++exit:
++	return;
++}
++
++static int wl_cfgvendor_rtt_set_config(struct wiphy *wiphy, struct wireless_dev *wdev,
++				       const void *data, int len)
++{
++	int err = 0, rem, rem1, rem2, type;
++	rtt_config_params_t rtt_param;
++	rtt_target_info_t *rtt_target = NULL;
++	const struct nlattr *iter, *iter1, *iter2;
++	int8 eabuf[ETHER_ADDR_STR_LEN];
++	int8 chanbuf[CHANSPEC_STR_LEN];
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++
++	WL_DBG(("In\n"));
++	err = dhd_dev_rtt_register_noti_callback(wdev->netdev, wdev, wl_cfgvendor_rtt_evt);
++	if (err < 0) {
++		WL_ERR(("failed to register rtt_noti_callback\n"));
++		goto exit;
++	}
++	memset(&rtt_param, 0, sizeof(rtt_param));
++	nla_for_each_attr(iter, data, len, rem) {
++		type = nla_type(iter);
++		switch (type) {
++		case RTT_ATTRIBUTE_TARGET_CNT:
++			rtt_param.rtt_target_cnt = nla_get_u8(iter);
++			if (rtt_param.rtt_target_cnt > RTT_MAX_TARGET_CNT) {
++				WL_ERR(("exceed max target count : %d\n",
++					rtt_param.rtt_target_cnt));
++				err = BCME_RANGE;
++			}
++			break;
++		case RTT_ATTRIBUTE_TARGET_INFO:
++			rtt_target = rtt_param.target_info;
++			nla_for_each_nested(iter1, iter, rem1) {
++				nla_for_each_nested(iter2, iter1, rem2) {
++					type = nla_type(iter2);
++					switch (type) {
++					case RTT_ATTRIBUTE_TARGET_MAC:
++						memcpy(&rtt_target->addr, nla_data(iter2), ETHER_ADDR_LEN);
++						break;
++					case RTT_ATTRIBUTE_TARGET_TYPE:
++						rtt_target->type = nla_get_u8(iter2);
++						break;
++					case RTT_ATTRIBUTE_TARGET_PEER:
++						rtt_target->peer = nla_get_u8(iter2);
++						break;
++					case RTT_ATTRIBUTE_TARGET_CHAN:
++						memcpy(&rtt_target->channel, nla_data(iter2),
++						       sizeof(rtt_target->channel));
++						break;
++					case RTT_ATTRIBUTE_TARGET_MODE:
++						rtt_target->continuous = nla_get_u8(iter2);
++						break;
++					case RTT_ATTRIBUTE_TARGET_INTERVAL:
++						rtt_target->interval = nla_get_u32(iter2);
++						break;
++					case RTT_ATTRIBUTE_TARGET_NUM_MEASUREMENT:
++						rtt_target->measure_cnt = nla_get_u32(iter2);
++						break;
++					case RTT_ATTRIBUTE_TARGET_NUM_PKT:
++						rtt_target->ftm_cnt = nla_get_u32(iter2);
++						break;
++					case RTT_ATTRIBUTE_TARGET_NUM_RETRY:
++						rtt_target->retry_cnt = nla_get_u32(iter2);
++					}
++				}
++				/* convert to chanspec value */
++				rtt_target->chanspec = dhd_rtt_convert_to_chspec(rtt_target->channel);
++				if (rtt_target->chanspec == 0) {
++					WL_ERR(("Channel is not valid\n"));
++					goto exit;
++				}
++				WL_INFORM(("Target addr %s, Channel : %s for RTT\n",
++					bcm_ether_ntoa((const struct ether_addr *)&rtt_target->addr, eabuf),
++					wf_chspec_ntoa(rtt_target->chanspec, chanbuf)));
++				rtt_target++;
++			}
++			break;
++		}
++	}
++	WL_DBG(("leave :target_cnt : %d\n", rtt_param.rtt_target_cnt));
++	if (dhd_dev_rtt_set_cfg(bcmcfg_to_prmry_ndev(cfg), &rtt_param) < 0) {
++		WL_ERR(("Could not set RTT configuration\n"));
++		err = -EINVAL;
++	}
++exit:
++	return err;
++}
++
++static int wl_cfgvendor_rtt_cancel_config(struct wiphy *wiphy, struct wireless_dev *wdev,
++		const void *data, int len)
++{
++	int err = 0, rem, type, target_cnt = 0;
++	const struct nlattr *iter;
++	struct ether_addr *mac_list = NULL, *mac_addr = NULL;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++
++	nla_for_each_attr(iter, data, len, rem) {
++		type = nla_type(iter);
++		switch (type) {
++		case RTT_ATTRIBUTE_TARGET_CNT:
++			target_cnt = nla_get_u8(iter);
++			mac_list = (struct ether_addr *)kzalloc(target_cnt * ETHER_ADDR_LEN , GFP_KERNEL);
++			if (mac_list == NULL) {
++				WL_ERR(("failed to allocate mem for mac list\n"));
++				goto exit;
++			}
++			mac_addr = &mac_list[0];
++			break;
++		case RTT_ATTRIBUTE_TARGET_MAC:
++			if (mac_addr)
++				memcpy(mac_addr++, nla_data(iter), ETHER_ADDR_LEN);
++			else {
++				WL_ERR(("mac_list is NULL\n"));
++				goto exit;
++			}
++			break;
++		}
++		if (dhd_dev_rtt_cancel_cfg(bcmcfg_to_prmry_ndev(cfg), mac_list, target_cnt) < 0) {
++			WL_ERR(("Could not cancel RTT configuration\n"));
++			err = -EINVAL;
++			goto exit;
++		}
++	}
++exit:
++	if (mac_list)
++		kfree(mac_list);
++	return err;
++}
++static int wl_cfgvendor_rtt_get_capability(struct wiphy *wiphy, struct wireless_dev *wdev,
++		const void *data, int len)
++{
++	int err = 0;
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	rtt_capabilities_t capability;
++
++	err = dhd_dev_rtt_capability(bcmcfg_to_prmry_ndev(cfg), &capability);
++	if (unlikely(err)) {
++		WL_ERR(("Vendor Command reply failed ret:%d\n", err));
++		goto exit;
++	}
++	err =  rtw_cfgvendor_send_cmd_reply(wiphy, bcmcfg_to_prmry_ndev(cfg),
++					    &capability, sizeof(capability));
++
++	if (unlikely(err))
++		WL_ERR(("Vendor Command reply failed ret:%d\n", err));
++exit:
++	return err;
++}
++
++#endif /* RTT_SUPPORT */
++static int wl_cfgvendor_priv_string_handler(struct wiphy *wiphy,
++		struct wireless_dev *wdev, const void  *data, int len)
++{
++	int err = 0;
++	u8 resp[1] = {'\0'};
++
++	RTW_PRINT(FUNC_NDEV_FMT" %s\n", FUNC_NDEV_ARG(wdev_to_ndev(wdev)), (char *)data);
++	err =  rtw_cfgvendor_send_cmd_reply(wiphy, wdev_to_ndev(wdev), resp, 1);
++	if (unlikely(err))
++		RTW_ERR(FUNC_NDEV_FMT"Vendor Command reply failed ret:%d\n"
++			, FUNC_NDEV_ARG(wdev_to_ndev(wdev)), err);
++
++	return err;
++#if 0
++	struct bcm_cfg80211 *cfg = wiphy_priv(wiphy);
++	int err = 0;
++	int data_len = 0;
++
++	bzero(cfg->ioctl_buf, WLC_IOCTL_MAXLEN);
++
++	if (strncmp((char *)data, BRCM_VENDOR_SCMD_CAPA, strlen(BRCM_VENDOR_SCMD_CAPA)) == 0) {
++		err = wldev_iovar_getbuf(bcmcfg_to_prmry_ndev(cfg), "cap", NULL, 0,
++			cfg->ioctl_buf, WLC_IOCTL_MAXLEN, &cfg->ioctl_buf_sync);
++		if (unlikely(err)) {
++			WL_ERR(("error (%d)\n", err));
++			return err;
++		}
++		data_len = strlen(cfg->ioctl_buf);
++		cfg->ioctl_buf[data_len] = '\0';
++	}
++
++	err =  rtw_cfgvendor_send_cmd_reply(wiphy, bcmcfg_to_prmry_ndev(cfg),
++					    cfg->ioctl_buf, data_len + 1);
++	if (unlikely(err))
++		WL_ERR(("Vendor Command reply failed ret:%d\n", err));
++	else
++		WL_INFORM(("Vendor Command reply sent successfully!\n"));
++
++	return err;
++#endif
++}
++
++static const struct wiphy_vendor_command rtw_vendor_cmds[] = {
++	{
++		{
++			.vendor_id = OUI_BRCM,
++			.subcmd = BRCM_VENDOR_SCMD_PRIV_STR
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_priv_string_handler
++	},
++#if defined(GSCAN_SUPPORT) && 0
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = GSCAN_SUBCMD_GET_CAPABILITIES
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_gscan_get_capabilities
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = GSCAN_SUBCMD_SET_CONFIG
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_set_scan_cfg
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = GSCAN_SUBCMD_SET_SCAN_CONFIG
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_set_batch_scan_cfg
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = GSCAN_SUBCMD_ENABLE_GSCAN
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_initiate_gscan
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = GSCAN_SUBCMD_ENABLE_FULL_SCAN_RESULTS
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_enable_full_scan_result
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = GSCAN_SUBCMD_SET_HOTLIST
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_hotlist_cfg
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = GSCAN_SUBCMD_SET_SIGNIFICANT_CHANGE_CONFIG
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_significant_change_cfg
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = GSCAN_SUBCMD_GET_SCAN_RESULTS
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_gscan_get_batch_results
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = GSCAN_SUBCMD_GET_CHANNEL_LIST
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_gscan_get_channel_list
++	},
++#endif /* GSCAN_SUPPORT */
++#if defined(RTT_SUPPORT) && 0
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = RTT_SUBCMD_SET_CONFIG
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_rtt_set_config
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = RTT_SUBCMD_CANCEL_CONFIG
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_rtt_cancel_config
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = RTT_SUBCMD_GETCAPABILITY
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = wl_cfgvendor_rtt_get_capability
++	},
++#endif /* RTT_SUPPORT */
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = ANDR_WIFI_SUBCMD_GET_FEATURE_SET
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = rtw_cfgvendor_get_feature_set
++	},
++	{
++		{
++			.vendor_id = OUI_GOOGLE,
++			.subcmd = ANDR_WIFI_SUBCMD_GET_FEATURE_SET_MATRIX
++		},
++		.flags = WIPHY_VENDOR_CMD_NEED_WDEV | WIPHY_VENDOR_CMD_NEED_NETDEV,
++		.doit = rtw_cfgvendor_get_feature_set_matrix
++	}
++};
++
++static const struct  nl80211_vendor_cmd_info rtw_vendor_events[] = {
++	{ OUI_BRCM, BRCM_VENDOR_EVENT_UNSPEC },
++	{ OUI_BRCM, BRCM_VENDOR_EVENT_PRIV_STR },
++#if defined(GSCAN_SUPPORT) && 0
++	{ OUI_GOOGLE, GOOGLE_GSCAN_SIGNIFICANT_EVENT },
++	{ OUI_GOOGLE, GOOGLE_GSCAN_GEOFENCE_FOUND_EVENT },
++	{ OUI_GOOGLE, GOOGLE_GSCAN_BATCH_SCAN_EVENT },
++	{ OUI_GOOGLE, GOOGLE_SCAN_FULL_RESULTS_EVENT },
++#endif /* GSCAN_SUPPORT */
++#if defined(RTT_SUPPORT) && 0
++	{ OUI_GOOGLE, GOOGLE_RTT_COMPLETE_EVENT },
++#endif /* RTT_SUPPORT */
++#if defined(GSCAN_SUPPORT) && 0
++	{ OUI_GOOGLE, GOOGLE_SCAN_COMPLETE_EVENT },
++	{ OUI_GOOGLE, GOOGLE_GSCAN_GEOFENCE_LOST_EVENT }
++#endif /* GSCAN_SUPPORT */
++};
++
++int rtw_cfgvendor_attach(struct wiphy *wiphy)
++{
++
++	RTW_INFO("Register RTW cfg80211 vendor cmd(0x%x) interface\n", NL80211_CMD_VENDOR);
++
++	wiphy->vendor_commands	= rtw_vendor_cmds;
++	wiphy->n_vendor_commands = ARRAY_SIZE(rtw_vendor_cmds);
++	wiphy->vendor_events	= rtw_vendor_events;
++	wiphy->n_vendor_events	= ARRAY_SIZE(rtw_vendor_events);
++
++	return 0;
++}
++
++int rtw_cfgvendor_detach(struct wiphy *wiphy)
++{
++	RTW_INFO("Vendor: Unregister RTW cfg80211 vendor interface\n");
++
++	wiphy->vendor_commands  = NULL;
++	wiphy->vendor_events    = NULL;
++	wiphy->n_vendor_commands = 0;
++	wiphy->n_vendor_events  = 0;
++
++	return 0;
++}
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 14, 0)) || defined(RTW_VENDOR_EXT_SUPPORT) */
++
++#endif /* CONFIG_IOCTL_CFG80211 */
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/rtw_cfgvendor.h b/drivers/net/wireless/rtl8812au/os_dep/linux/rtw_cfgvendor.h
+new file mode 100644
+index 0000000..2ed3a9e
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/rtw_cfgvendor.h
+@@ -0,0 +1,245 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2014 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#ifndef _RTW_CFGVENDOR_H_
++#define _RTW_CFGVENDOR_H_
++
++#define OUI_BRCM    0x001018
++#define OUI_GOOGLE  0x001A11
++#define BRCM_VENDOR_SUBCMD_PRIV_STR	1
++#define ATTRIBUTE_U32_LEN                  (NLA_HDRLEN  + 4)
++#define VENDOR_ID_OVERHEAD                 ATTRIBUTE_U32_LEN
++#define VENDOR_SUBCMD_OVERHEAD             ATTRIBUTE_U32_LEN
++#define VENDOR_DATA_OVERHEAD               (NLA_HDRLEN)
++
++#define SCAN_RESULTS_COMPLETE_FLAG_LEN       ATTRIBUTE_U32_LEN
++#define SCAN_INDEX_HDR_LEN                   (NLA_HDRLEN)
++#define SCAN_ID_HDR_LEN                      ATTRIBUTE_U32_LEN
++#define SCAN_FLAGS_HDR_LEN                   ATTRIBUTE_U32_LEN
++#define GSCAN_NUM_RESULTS_HDR_LEN            ATTRIBUTE_U32_LEN
++#define GSCAN_RESULTS_HDR_LEN                (NLA_HDRLEN)
++#define GSCAN_BATCH_RESULT_HDR_LEN  (SCAN_INDEX_HDR_LEN + SCAN_ID_HDR_LEN + \
++				     SCAN_FLAGS_HDR_LEN + \
++				     GSCAN_NUM_RESULTS_HDR_LEN + \
++				     GSCAN_RESULTS_HDR_LEN)
++
++#define VENDOR_REPLY_OVERHEAD       (VENDOR_ID_OVERHEAD + \
++				     VENDOR_SUBCMD_OVERHEAD + \
++				     VENDOR_DATA_OVERHEAD)
++typedef enum {
++	/* don't use 0 as a valid subcommand */
++	VENDOR_NL80211_SUBCMD_UNSPECIFIED,
++
++	/* define all vendor startup commands between 0x0 and 0x0FFF */
++	VENDOR_NL80211_SUBCMD_RANGE_START = 0x0001,
++	VENDOR_NL80211_SUBCMD_RANGE_END   = 0x0FFF,
++
++	/* define all GScan related commands between 0x1000 and 0x10FF */
++	ANDROID_NL80211_SUBCMD_GSCAN_RANGE_START = 0x1000,
++	ANDROID_NL80211_SUBCMD_GSCAN_RANGE_END   = 0x10FF,
++
++	/* define all NearbyDiscovery related commands between 0x1100 and 0x11FF */
++	ANDROID_NL80211_SUBCMD_NBD_RANGE_START = 0x1100,
++	ANDROID_NL80211_SUBCMD_NBD_RANGE_END   = 0x11FF,
++
++	/* define all RTT related commands between 0x1100 and 0x11FF */
++	ANDROID_NL80211_SUBCMD_RTT_RANGE_START = 0x1100,
++	ANDROID_NL80211_SUBCMD_RTT_RANGE_END   = 0x11FF,
++
++	ANDROID_NL80211_SUBCMD_LSTATS_RANGE_START = 0x1200,
++	ANDROID_NL80211_SUBCMD_LSTATS_RANGE_END   = 0x12FF,
++
++	ANDROID_NL80211_SUBCMD_TDLS_RANGE_START = 0x1300,
++	ANDROID_NL80211_SUBCMD_TDLS_RANGE_END	= 0x13FF,
++	/* This is reserved for future usage */
++
++} ANDROID_VENDOR_SUB_COMMAND;
++
++enum wl_vendor_subcmd {
++	BRCM_VENDOR_SCMD_UNSPEC,
++	BRCM_VENDOR_SCMD_PRIV_STR,
++	GSCAN_SUBCMD_GET_CAPABILITIES = ANDROID_NL80211_SUBCMD_GSCAN_RANGE_START,
++	GSCAN_SUBCMD_SET_CONFIG,
++	GSCAN_SUBCMD_SET_SCAN_CONFIG,
++	GSCAN_SUBCMD_ENABLE_GSCAN,
++	GSCAN_SUBCMD_GET_SCAN_RESULTS,
++	GSCAN_SUBCMD_SCAN_RESULTS,
++	GSCAN_SUBCMD_SET_HOTLIST,
++	GSCAN_SUBCMD_SET_SIGNIFICANT_CHANGE_CONFIG,
++	GSCAN_SUBCMD_ENABLE_FULL_SCAN_RESULTS,
++	GSCAN_SUBCMD_GET_CHANNEL_LIST,
++	ANDR_WIFI_SUBCMD_GET_FEATURE_SET,
++	ANDR_WIFI_SUBCMD_GET_FEATURE_SET_MATRIX,
++	RTT_SUBCMD_SET_CONFIG = ANDROID_NL80211_SUBCMD_RTT_RANGE_START,
++	RTT_SUBCMD_CANCEL_CONFIG,
++	RTT_SUBCMD_GETCAPABILITY,
++	/* Add more sub commands here */
++	VENDOR_SUBCMD_MAX
++};
++
++enum gscan_attributes {
++	GSCAN_ATTRIBUTE_NUM_BUCKETS = 10,
++	GSCAN_ATTRIBUTE_BASE_PERIOD,
++	GSCAN_ATTRIBUTE_BUCKETS_BAND,
++	GSCAN_ATTRIBUTE_BUCKET_ID,
++	GSCAN_ATTRIBUTE_BUCKET_PERIOD,
++	GSCAN_ATTRIBUTE_BUCKET_NUM_CHANNELS,
++	GSCAN_ATTRIBUTE_BUCKET_CHANNELS,
++	GSCAN_ATTRIBUTE_NUM_AP_PER_SCAN,
++	GSCAN_ATTRIBUTE_REPORT_THRESHOLD,
++	GSCAN_ATTRIBUTE_NUM_SCANS_TO_CACHE,
++	GSCAN_ATTRIBUTE_BAND = GSCAN_ATTRIBUTE_BUCKETS_BAND,
++
++	GSCAN_ATTRIBUTE_ENABLE_FEATURE = 20,
++	GSCAN_ATTRIBUTE_SCAN_RESULTS_COMPLETE,
++	GSCAN_ATTRIBUTE_FLUSH_FEATURE,
++	GSCAN_ATTRIBUTE_ENABLE_FULL_SCAN_RESULTS,
++	GSCAN_ATTRIBUTE_REPORT_EVENTS,
++	/* remaining reserved for additional attributes */
++	GSCAN_ATTRIBUTE_NUM_OF_RESULTS = 30,
++	GSCAN_ATTRIBUTE_FLUSH_RESULTS,
++	GSCAN_ATTRIBUTE_SCAN_RESULTS,                       /* flat array of wifi_scan_result */
++	GSCAN_ATTRIBUTE_SCAN_ID,                            /* indicates scan number */
++	GSCAN_ATTRIBUTE_SCAN_FLAGS,                         /* indicates if scan was aborted */
++	GSCAN_ATTRIBUTE_AP_FLAGS,                           /* flags on significant change event */
++	GSCAN_ATTRIBUTE_NUM_CHANNELS,
++	GSCAN_ATTRIBUTE_CHANNEL_LIST,
++
++	/* remaining reserved for additional attributes */
++
++	GSCAN_ATTRIBUTE_SSID = 40,
++	GSCAN_ATTRIBUTE_BSSID,
++	GSCAN_ATTRIBUTE_CHANNEL,
++	GSCAN_ATTRIBUTE_RSSI,
++	GSCAN_ATTRIBUTE_TIMESTAMP,
++	GSCAN_ATTRIBUTE_RTT,
++	GSCAN_ATTRIBUTE_RTTSD,
++
++	/* remaining reserved for additional attributes */
++
++	GSCAN_ATTRIBUTE_HOTLIST_BSSIDS = 50,
++	GSCAN_ATTRIBUTE_RSSI_LOW,
++	GSCAN_ATTRIBUTE_RSSI_HIGH,
++	GSCAN_ATTRIBUTE_HOSTLIST_BSSID_ELEM,
++	GSCAN_ATTRIBUTE_HOTLIST_FLUSH,
++
++	/* remaining reserved for additional attributes */
++	GSCAN_ATTRIBUTE_RSSI_SAMPLE_SIZE = 60,
++	GSCAN_ATTRIBUTE_LOST_AP_SAMPLE_SIZE,
++	GSCAN_ATTRIBUTE_MIN_BREACHING,
++	GSCAN_ATTRIBUTE_SIGNIFICANT_CHANGE_BSSIDS,
++	GSCAN_ATTRIBUTE_SIGNIFICANT_CHANGE_FLUSH,
++	GSCAN_ATTRIBUTE_MAX
++};
++
++enum gscan_bucket_attributes {
++	GSCAN_ATTRIBUTE_CH_BUCKET_1,
++	GSCAN_ATTRIBUTE_CH_BUCKET_2,
++	GSCAN_ATTRIBUTE_CH_BUCKET_3,
++	GSCAN_ATTRIBUTE_CH_BUCKET_4,
++	GSCAN_ATTRIBUTE_CH_BUCKET_5,
++	GSCAN_ATTRIBUTE_CH_BUCKET_6,
++	GSCAN_ATTRIBUTE_CH_BUCKET_7
++};
++
++enum gscan_ch_attributes {
++	GSCAN_ATTRIBUTE_CH_ID_1,
++	GSCAN_ATTRIBUTE_CH_ID_2,
++	GSCAN_ATTRIBUTE_CH_ID_3,
++	GSCAN_ATTRIBUTE_CH_ID_4,
++	GSCAN_ATTRIBUTE_CH_ID_5,
++	GSCAN_ATTRIBUTE_CH_ID_6,
++	GSCAN_ATTRIBUTE_CH_ID_7
++};
++
++enum rtt_attributes {
++	RTT_ATTRIBUTE_TARGET_CNT,
++	RTT_ATTRIBUTE_TARGET_INFO,
++	RTT_ATTRIBUTE_TARGET_MAC,
++	RTT_ATTRIBUTE_TARGET_TYPE,
++	RTT_ATTRIBUTE_TARGET_PEER,
++	RTT_ATTRIBUTE_TARGET_CHAN,
++	RTT_ATTRIBUTE_TARGET_MODE,
++	RTT_ATTRIBUTE_TARGET_INTERVAL,
++	RTT_ATTRIBUTE_TARGET_NUM_MEASUREMENT,
++	RTT_ATTRIBUTE_TARGET_NUM_PKT,
++	RTT_ATTRIBUTE_TARGET_NUM_RETRY
++};
++
++typedef enum wl_vendor_event {
++	BRCM_VENDOR_EVENT_UNSPEC,
++	BRCM_VENDOR_EVENT_PRIV_STR,
++	GOOGLE_GSCAN_SIGNIFICANT_EVENT,
++	GOOGLE_GSCAN_GEOFENCE_FOUND_EVENT,
++	GOOGLE_GSCAN_BATCH_SCAN_EVENT,
++	GOOGLE_SCAN_FULL_RESULTS_EVENT,
++	GOOGLE_RTT_COMPLETE_EVENT,
++	GOOGLE_SCAN_COMPLETE_EVENT,
++	GOOGLE_GSCAN_GEOFENCE_LOST_EVENT
++} wl_vendor_event_t;
++
++enum andr_wifi_feature_set_attr {
++	ANDR_WIFI_ATTRIBUTE_NUM_FEATURE_SET,
++	ANDR_WIFI_ATTRIBUTE_FEATURE_SET
++};
++
++typedef enum wl_vendor_gscan_attribute {
++	ATTR_START_GSCAN,
++	ATTR_STOP_GSCAN,
++	ATTR_SET_SCAN_BATCH_CFG_ID, /* set batch scan params */
++	ATTR_SET_SCAN_GEOFENCE_CFG_ID, /* set list of bssids to track */
++	ATTR_SET_SCAN_SIGNIFICANT_CFG_ID, /* set list of bssids, rssi threshold etc.. */
++	ATTR_SET_SCAN_CFG_ID, /* set common scan config params here */
++	ATTR_GET_GSCAN_CAPABILITIES_ID,
++	/* Add more sub commands here */
++	ATTR_GSCAN_MAX
++} wl_vendor_gscan_attribute_t;
++
++typedef enum gscan_batch_attribute {
++	ATTR_GSCAN_BATCH_BESTN,
++	ATTR_GSCAN_BATCH_MSCAN,
++	ATTR_GSCAN_BATCH_BUFFER_THRESHOLD
++} gscan_batch_attribute_t;
++
++typedef enum gscan_geofence_attribute {
++	ATTR_GSCAN_NUM_HOTLIST_BSSID,
++	ATTR_GSCAN_HOTLIST_BSSID
++} gscan_geofence_attribute_t;
++
++typedef enum gscan_complete_event {
++	WIFI_SCAN_BUFFER_FULL,
++	WIFI_SCAN_COMPLETE
++} gscan_complete_event_t;
++
++/* Capture the BRCM_VENDOR_SUBCMD_PRIV_STRINGS* here */
++#define BRCM_VENDOR_SCMD_CAPA	"cap"
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 14, 0)) || defined(RTW_VENDOR_EXT_SUPPORT)
++extern int rtw_cfgvendor_attach(struct wiphy *wiphy);
++extern int rtw_cfgvendor_detach(struct wiphy *wiphy);
++extern int rtw_cfgvendor_send_async_event(struct wiphy *wiphy,
++	struct net_device *dev, int event_id, const void  *data, int len);
++#if defined(GSCAN_SUPPORT) && 0
++extern int wl_cfgvendor_send_hotlist_event(struct wiphy *wiphy,
++	struct net_device *dev, void  *data, int len, wl_vendor_event_t event);
++#endif
++#endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 14, 0)) || defined(RTW_VENDOR_EXT_SUPPORT) */
++
++#endif /* _RTW_CFGVENDOR_H_ */
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/rtw_proc.c b/drivers/net/wireless/rtl8812au/os_dep/linux/rtw_proc.c
+new file mode 100644
+index 0000000..35db2e6
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/rtw_proc.c
+@@ -0,0 +1,2975 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#include <linux/ctype.h>	/* tolower() */
++#include <drv_types.h>
++#include <hal_data.h>
++#include "rtw_proc.h"
++#ifdef CONFIG_BT_COEXIST
++#include <rtw_btcoex.h>
++#endif
++
++#ifdef CONFIG_PROC_DEBUG
++
++static struct proc_dir_entry *rtw_proc = NULL;
++
++inline struct proc_dir_entry *get_rtw_drv_proc(void)
++{
++	return rtw_proc;
++}
++
++#define RTW_PROC_NAME DRV_NAME
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 9, 0))
++#define file_inode(file) ((file)->f_dentry->d_inode)
++#endif
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 10, 0))
++#define PDE_DATA(inode) PDE((inode))->data
++#define proc_get_parent_data(inode) PDE((inode))->parent->data
++#endif
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 24))
++#define get_proc_net proc_net
++#else
++#define get_proc_net init_net.proc_net
++#endif
++
++inline struct proc_dir_entry *rtw_proc_create_dir(const char *name, struct proc_dir_entry *parent, void *data)
++{
++	struct proc_dir_entry *entry;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 10, 0))
++	entry = proc_mkdir_data(name, S_IRUGO | S_IXUGO, parent, data);
++#else
++	/* entry = proc_mkdir_mode(name, S_IRUGO|S_IXUGO, parent); */
++	entry = proc_mkdir(name, parent);
++	if (entry)
++		entry->data = data;
++#endif
++
++	return entry;
++}
++
++inline struct proc_dir_entry *rtw_proc_create_entry(const char *name, struct proc_dir_entry *parent,
++	const struct file_operations *fops, void * data)
++{
++	struct proc_dir_entry *entry;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 26))
++	entry = proc_create_data(name,  S_IFREG | S_IRUGO | S_IWUGO, parent, fops, data);
++#else
++	entry = create_proc_entry(name, S_IFREG | S_IRUGO | S_IWUGO, parent);
++	if (entry) {
++		entry->data = data;
++		entry->proc_fops = fops;
++	}
++#endif
++
++	return entry;
++}
++
++static int proc_get_dummy(struct seq_file *m, void *v)
++{
++	return 0;
++}
++
++static int proc_get_drv_version(struct seq_file *m, void *v)
++{
++	dump_drv_version(m);
++	return 0;
++}
++
++static int proc_get_log_level(struct seq_file *m, void *v)
++{
++	dump_log_level(m);
++	return 0;
++}
++
++static int proc_get_drv_cfg(struct seq_file *m, void *v)
++{
++	dump_drv_cfg(m);
++	return 0;
++}
++
++static ssize_t proc_set_log_level(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	char tmp[32];
++	int log_level;
++
++	if (count < 1)
++		return -EINVAL;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++#ifdef CONFIG_RTW_DEBUG
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d ", &log_level);
++
++		if (log_level >= _DRV_NONE_ && log_level <= _DRV_MAX_) {
++			rtw_drv_log_level = log_level;
++			printk("rtw_drv_log_level:%d\n", rtw_drv_log_level);
++		}
++	} else
++		return -EFAULT;
++#else
++	printk("CONFIG_RTW_DEBUG is disabled\n");
++#endif
++
++	return count;
++}
++
++#ifdef DBG_MEM_ALLOC
++static int proc_get_mstat(struct seq_file *m, void *v)
++{
++	rtw_mstat_dump(m);
++	return 0;
++}
++#endif /* DBG_MEM_ALLOC */
++
++static int proc_get_country_chplan_map(struct seq_file *m, void *v)
++{
++	dump_country_chplan_map(m);
++	return 0;
++}
++
++static int proc_get_chplan_id_list(struct seq_file *m, void *v)
++{
++	dump_chplan_id_list(m);
++	return 0;
++}
++
++static int proc_get_chplan_test(struct seq_file *m, void *v)
++{
++	dump_chplan_test(m);
++	return 0;
++}
++
++/*
++* rtw_drv_proc:
++* init/deinit when register/unregister driver
++*/
++const struct rtw_proc_hdl drv_proc_hdls[] = {
++	RTW_PROC_HDL_SSEQ("ver_info", proc_get_drv_version, NULL),
++	RTW_PROC_HDL_SSEQ("log_level", proc_get_log_level, proc_set_log_level),
++	RTW_PROC_HDL_SSEQ("drv_cfg", proc_get_drv_cfg, NULL),
++#ifdef DBG_MEM_ALLOC
++	RTW_PROC_HDL_SSEQ("mstat", proc_get_mstat, NULL),
++#endif /* DBG_MEM_ALLOC */
++	RTW_PROC_HDL_SSEQ("country_chplan_map", proc_get_country_chplan_map, NULL),
++	RTW_PROC_HDL_SSEQ("chplan_id_list", proc_get_chplan_id_list, NULL),
++	RTW_PROC_HDL_SSEQ("chplan_test", proc_get_chplan_test, NULL),
++};
++
++const int drv_proc_hdls_num = sizeof(drv_proc_hdls) / sizeof(struct rtw_proc_hdl);
++
++static int rtw_drv_proc_open(struct inode *inode, struct file *file)
++{
++	/* struct net_device *dev = proc_get_parent_data(inode); */
++	ssize_t index = (ssize_t)PDE_DATA(inode);
++	const struct rtw_proc_hdl *hdl = drv_proc_hdls + index;
++	void *private = NULL;
++
++	if (hdl->type == RTW_PROC_HDL_TYPE_SEQ) {
++		int res = seq_open(file, hdl->u.seq_op);
++
++		if (res == 0)
++			((struct seq_file *)file->private_data)->private = private;
++
++		return res;
++	} else if (hdl->type == RTW_PROC_HDL_TYPE_SSEQ) {
++		int (*show)(struct seq_file *, void *) = hdl->u.show ? hdl->u.show : proc_get_dummy;
++
++		return single_open(file, show, private);
++	} else {
++		return -EROFS;
++	}
++}
++
++static ssize_t rtw_drv_proc_write(struct file *file, const char __user *buffer, size_t count, loff_t *pos)
++{
++	ssize_t index = (ssize_t)PDE_DATA(file_inode(file));
++	const struct rtw_proc_hdl *hdl = drv_proc_hdls + index;
++	ssize_t (*write)(struct file *, const char __user *, size_t, loff_t *, void *) = hdl->write;
++
++	if (write)
++		return write(file, buffer, count, pos, NULL);
++
++	return -EROFS;
++}
++
++static const struct file_operations rtw_drv_proc_seq_fops = {
++	.owner = THIS_MODULE,
++	.open = rtw_drv_proc_open,
++	.read = seq_read,
++	.llseek = seq_lseek,
++	.release = seq_release,
++	.write = rtw_drv_proc_write,
++};
++
++static const struct file_operations rtw_drv_proc_sseq_fops = {
++	.owner = THIS_MODULE,
++	.open = rtw_drv_proc_open,
++	.read = seq_read,
++	.llseek = seq_lseek,
++	.release = single_release,
++	.write = rtw_drv_proc_write,
++};
++
++int rtw_drv_proc_init(void)
++{
++	int ret = _FAIL;
++	ssize_t i;
++	struct proc_dir_entry *entry = NULL;
++
++	if (rtw_proc != NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	rtw_proc = rtw_proc_create_dir(RTW_PROC_NAME, get_proc_net, NULL);
++
++	if (rtw_proc == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	for (i = 0; i < drv_proc_hdls_num; i++) {
++		if (drv_proc_hdls[i].type == RTW_PROC_HDL_TYPE_SEQ)
++			entry = rtw_proc_create_entry(drv_proc_hdls[i].name, rtw_proc, &rtw_drv_proc_seq_fops, (void *)i);
++		else if (drv_proc_hdls[i].type == RTW_PROC_HDL_TYPE_SSEQ)
++			entry = rtw_proc_create_entry(drv_proc_hdls[i].name, rtw_proc, &rtw_drv_proc_sseq_fops, (void *)i);
++		else
++			entry = NULL;
++
++		if (!entry) {
++			rtw_warn_on(1);
++			goto exit;
++		}
++	}
++
++	ret = _SUCCESS;
++
++exit:
++	return ret;
++}
++
++void rtw_drv_proc_deinit(void)
++{
++	int i;
++
++	if (rtw_proc == NULL)
++		return;
++
++	for (i = 0; i < drv_proc_hdls_num; i++)
++		remove_proc_entry(drv_proc_hdls[i].name, rtw_proc);
++
++	remove_proc_entry(RTW_PROC_NAME, get_proc_net);
++	rtw_proc = NULL;
++}
++
++#ifndef RTW_SEQ_FILE_TEST
++#define RTW_SEQ_FILE_TEST 0
++#endif
++
++#if RTW_SEQ_FILE_TEST
++#define RTW_SEQ_FILE_TEST_SHOW_LIMIT 300
++static void *proc_start_seq_file_test(struct seq_file *m, loff_t *pos)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(adapter));
++	if (*pos >= RTW_SEQ_FILE_TEST_SHOW_LIMIT) {
++		RTW_PRINT(FUNC_ADPT_FMT" pos:%llu, out of range return\n", FUNC_ADPT_ARG(adapter), *pos);
++		return NULL;
++	}
++
++	RTW_PRINT(FUNC_ADPT_FMT" return pos:%lld\n", FUNC_ADPT_ARG(adapter), *pos);
++	return pos;
++}
++void proc_stop_seq_file_test(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(adapter));
++}
++
++void *proc_next_seq_file_test(struct seq_file *m, void *v, loff_t *pos)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	(*pos)++;
++	if (*pos >= RTW_SEQ_FILE_TEST_SHOW_LIMIT) {
++		RTW_PRINT(FUNC_ADPT_FMT" pos:%lld, out of range return\n", FUNC_ADPT_ARG(adapter), *pos);
++		return NULL;
++	}
++
++	RTW_PRINT(FUNC_ADPT_FMT" return pos:%lld\n", FUNC_ADPT_ARG(adapter), *pos);
++	return pos;
++}
++
++static int proc_get_seq_file_test(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	u32 pos = *((loff_t *)(v));
++	RTW_PRINT(FUNC_ADPT_FMT" pos:%d\n", FUNC_ADPT_ARG(adapter), pos);
++	RTW_PRINT_SEL(m, FUNC_ADPT_FMT" pos:%d\n", FUNC_ADPT_ARG(adapter), pos);
++	return 0;
++}
++
++struct seq_operations seq_file_test = {
++	.start = proc_start_seq_file_test,
++	.stop  = proc_stop_seq_file_test,
++	.next  = proc_next_seq_file_test,
++	.show  = proc_get_seq_file_test,
++};
++#endif /* RTW_SEQ_FILE_TEST */
++
++#ifdef CONFIG_SDIO_HCI
++static int proc_get_sd_f0_reg_dump(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	sd_f0_reg_dump(m, adapter);
++
++	return 0;
++}
++
++static int proc_get_sdio_local_reg_dump(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	sdio_local_reg_dump(m, adapter);
++
++	return 0;
++}
++#endif /* CONFIG_SDIO_HCI */
++
++static int proc_get_mac_reg_dump(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	mac_reg_dump(m, adapter);
++
++	return 0;
++}
++
++static int proc_get_bb_reg_dump(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	bb_reg_dump(m, adapter);
++
++	return 0;
++}
++
++static int proc_get_rf_reg_dump(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	rf_reg_dump(m, adapter);
++
++	return 0;
++}
++
++static int proc_get_dump_tx_rate_bmp(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_tx_rate_bmp(m, adapter_to_dvobj(adapter));
++
++	return 0;
++}
++
++static int proc_get_dump_adapters_status(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_adapters_status(m, adapter_to_dvobj(adapter));
++
++	return 0;
++}
++static int proc_get_dump_adapters_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_adapters_info(m, adapter_to_dvobj(adapter));
++
++	return 0;
++}
++
++/* gpio setting */
++#ifdef CONFIG_GPIO_API
++static ssize_t proc_set_config_gpio(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32] = {0};
++	int num = 0, gpio_pin = 0, gpio_mode = 0; /* gpio_mode:0 input  1:output; */
++
++	if (count < 2)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		num	= sscanf(tmp, "%d %d", &gpio_pin, &gpio_mode);
++		RTW_INFO("num=%d gpio_pin=%d mode=%d\n", num, gpio_pin, gpio_mode);
++		padapter->pre_gpio_pin = gpio_pin;
++
++		if (gpio_mode == 0 || gpio_mode == 1)
++			rtw_hal_config_gpio(padapter, gpio_pin, gpio_mode);
++	}
++	return count;
++
++}
++static ssize_t proc_set_gpio_output_value(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32] = {0};
++	int num = 0, gpio_pin = 0, pin_mode = 0; /* pin_mode: 1 high         0:low */
++
++	if (count < 2)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		num	= sscanf(tmp, "%d %d", &gpio_pin, &pin_mode);
++		RTW_INFO("num=%d gpio_pin=%d pin_high=%d\n", num, gpio_pin, pin_mode);
++		padapter->pre_gpio_pin = gpio_pin;
++
++		if (pin_mode == 0 || pin_mode == 1)
++			rtw_hal_set_gpio_output_value(padapter, gpio_pin, pin_mode);
++	}
++	return count;
++}
++static int proc_get_gpio(struct seq_file *m, void *v)
++{
++	u8 gpioreturnvalue = 0;
++	struct net_device *dev = m->private;
++
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	if (!padapter)
++		return -EFAULT;
++	gpioreturnvalue = rtw_hal_get_gpio(padapter, padapter->pre_gpio_pin);
++	RTW_PRINT_SEL(m, "get_gpio %d:%d\n", padapter->pre_gpio_pin, gpioreturnvalue);
++
++	return 0;
++
++}
++static ssize_t proc_set_gpio(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32] = {0};
++	int num = 0, gpio_pin = 0;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		num	= sscanf(tmp, "%d", &gpio_pin);
++		RTW_INFO("num=%d gpio_pin=%d\n", num, gpio_pin);
++		padapter->pre_gpio_pin = gpio_pin;
++
++	}
++	return count;
++}
++#endif
++static ssize_t proc_set_rx_info_msg(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct recv_priv *precvpriv = &(padapter->recvpriv);
++	char tmp[32] = {0};
++	int phy_info_flag = 0;
++
++	if (!padapter)
++		return -EFAULT;
++
++	if (count < 1) {
++		RTW_INFO("argument size is less than 1\n");
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%d", &phy_info_flag);
++
++		precvpriv->store_law_data_flag = (BOOLEAN) phy_info_flag;
++
++		/*RTW_INFO("precvpriv->store_law_data_flag = %d\n",( BOOLEAN )(precvpriv->store_law_data_flag));*/
++	}
++	return count;
++}
++static int proc_get_rx_info_msg(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	rtw_hal_set_odm_var(padapter, HAL_ODM_RX_Dframe_INFO, m, _FALSE);
++	return 0;
++}
++static int proc_get_tx_info_msg(struct seq_file *m, void *v)
++{
++	_irqL irqL;
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	struct sta_info *psta;
++	u8 bc_addr[6] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u8 null_addr[6] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct sta_priv *pstapriv = &padapter->stapriv;
++	int i;
++	_list	*plist, *phead;
++	u8 current_rate_id = 0, current_sgi = 0;
++
++	char *BW, *status;
++
++	_enter_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++	if (check_fwstate(&padapter->mlmepriv, WIFI_STATION_STATE))
++		status = "station mode";
++	else if (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE))
++		status = "AP mode";
++	else
++		status = " ";
++	_RTW_PRINT_SEL(m, "status=%s\n", status);
++	for (i = 0; i < NUM_STA; i++) {
++		phead = &(pstapriv->sta_hash[i]);
++		plist = get_next(phead);
++
++		while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++
++			psta = LIST_CONTAINOR(plist, struct sta_info, hash_list);
++
++			plist = get_next(plist);
++
++			if ((_rtw_memcmp(psta->hwaddr, bc_addr, 6)  !=  _TRUE)
++				&& (_rtw_memcmp(psta->hwaddr, null_addr, 6) != _TRUE)
++				&& (_rtw_memcmp(psta->hwaddr, adapter_mac_addr(padapter), 6) != _TRUE)) {
++
++				switch (psta->bw_mode) {
++
++				case CHANNEL_WIDTH_20:
++					BW = "20M";
++					break;
++
++				case CHANNEL_WIDTH_40:
++					BW = "40M";
++					break;
++
++				case CHANNEL_WIDTH_80:
++					BW = "80M";
++					break;
++
++				case CHANNEL_WIDTH_160:
++					BW = "160M";
++					break;
++
++				default:
++					BW = "";
++					break;
++				}
++				current_rate_id = rtw_get_current_tx_rate(adapter, psta->mac_id);
++				current_sgi = rtw_get_current_tx_sgi(adapter, psta->mac_id);
++
++				RTW_PRINT_SEL(m, "==============================\n");
++				_RTW_PRINT_SEL(m, "macaddr=" MAC_FMT"\n", MAC_ARG(psta->hwaddr));
++				_RTW_PRINT_SEL(m, "Tx_Data_Rate=%s\n", HDATA_RATE(current_rate_id));
++				_RTW_PRINT_SEL(m, "BW=%s,sgi=%u\n", BW, current_sgi);
++
++			}
++		}
++	}
++
++	_exit_critical_bh(&pstapriv->sta_hash_lock, &irqL);
++
++	return 0;
++
++}
++
++
++static int proc_get_linked_info_dump(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	if (padapter)
++		RTW_PRINT_SEL(m, "linked_info_dump :%s\n", (padapter->bLinkInfoDump) ? "enable" : "disable");
++
++	return 0;
++}
++
++
++static ssize_t proc_set_linked_info_dump(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	char tmp[32] = {0};
++	int mode = 0, pre_mode = 0;
++	int num = 0;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	pre_mode = padapter->bLinkInfoDump;
++	RTW_INFO("pre_mode=%d\n", pre_mode);
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		num	= sscanf(tmp, "%d ", &mode);
++		RTW_INFO("num=%d mode=%d\n", num, mode);
++
++		if (num != 1) {
++			RTW_INFO("argument number is wrong\n");
++			return -EFAULT;
++		}
++
++		if (mode == 1 || (mode == 0 && pre_mode == 1)) /* not consider pwr_saving 0: */
++			padapter->bLinkInfoDump = mode;
++
++		else if ((mode == 2) || (mode == 0 && pre_mode == 2)) { /* consider power_saving */
++			/* RTW_INFO("linked_info_dump =%s\n", (padapter->bLinkInfoDump)?"enable":"disable") */
++			linked_info_dump(padapter, mode);
++		}
++	}
++	return count;
++}
++
++static int proc_get_mac_qinfo(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	rtw_hal_get_hwreg(adapter, HW_VAR_DUMP_MAC_QUEUE_INFO, (u8 *)m);
++
++	return 0;
++}
++
++int proc_get_wifi_spec(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct registry_priv	*pregpriv = &padapter->registrypriv;
++
++	RTW_PRINT_SEL(m, "wifi_spec=%d\n", pregpriv->wifi_spec);
++	return 0;
++}
++
++static int proc_get_chan_plan(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_cur_chset(m, adapter);
++
++	return 0;
++}
++
++static ssize_t proc_set_chan_plan(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u8 chan_plan = RTW_CHPLAN_MAX;
++
++	if (!padapter)
++		return -EFAULT;
++
++	if (count < 1) {
++		RTW_INFO("argument size is less than 1\n");
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = sscanf(tmp, "%hhx", &chan_plan);
++		if (num !=  1)
++			return count;
++	}
++
++	rtw_set_channel_plan(padapter, chan_plan);
++
++	return count;
++}
++
++static int proc_get_country_code(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	if (adapter->mlmepriv.country_ent)
++		dump_country_chplan(m, adapter->mlmepriv.country_ent);
++	else
++		RTW_PRINT_SEL(m, "unspecified\n");
++
++	return 0;
++}
++
++static ssize_t proc_set_country_code(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	char alpha2[2];
++	int num;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (!buffer || copy_from_user(tmp, buffer, count))
++		goto exit;
++
++	num = sscanf(tmp, "%c%c", &alpha2[0], &alpha2[1]);
++	if (num !=	2)
++		return count;
++
++	rtw_set_country(padapter, alpha2);
++
++exit:
++	return count;
++}
++
++#if CONFIG_RTW_MACADDR_ACL
++static int proc_get_macaddr_acl(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_macaddr_acl(m, adapter);
++	return 0;
++}
++
++ssize_t proc_set_macaddr_acl(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++	char tmp[17 * NUM_ACL + 32] = {0};
++	u8 mode;
++	u8 addr[ETH_ALEN];
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		/* mode [<macaddr>] */
++		char *c, *next;
++
++		next = tmp;
++		c = strsep(&next, " \t");
++
++		if (sscanf(c, "%hhu", &mode) != 1)
++			return count;
++
++		if (mode >= RTW_ACL_MODE_MAX)
++			mode = RTW_ACL_MODE_DISABLED;
++
++		rtw_set_macaddr_acl(adapter, RTW_ACL_MODE_DISABLED); /* deinit first */
++		if (mode == RTW_ACL_MODE_DISABLED)
++			return count;
++
++		rtw_set_macaddr_acl(adapter, mode);
++
++		/* macaddr list */
++		c = strsep(&next, " \t");
++		while (c != NULL) {
++			if (sscanf(c, MAC_SFMT, MAC_SARG(addr)) != 6)
++				break;
++
++			if (rtw_check_invalid_mac_address(addr, 0) == _FALSE)
++				rtw_acl_add_sta(adapter, addr);
++
++			c = strsep(&next, " \t");
++		}
++
++	}
++
++exit:
++	return count;
++}
++#endif /* CONFIG_RTW_MACADDR_ACL */
++
++#ifdef CONFIG_DFS_MASTER
++ssize_t proc_set_update_non_ocp(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *mlme = &adapter->mlmepriv;
++	struct mlme_ext_priv *mlmeext = &adapter->mlmeextpriv;
++	char tmp[32];
++	u8 ch, bw = CHANNEL_WIDTH_20, offset = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
++	int ms = -1;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhu %hhu %hhu %d", &ch, &bw, &offset, &ms);
++
++		if (num < 1 || (bw != CHANNEL_WIDTH_20 && num < 3))
++			goto exit;
++
++		if (bw == CHANNEL_WIDTH_20)
++			rtw_chset_update_non_ocp_ms(mlmeext->channel_set
++				, ch, bw, HAL_PRIME_CHNL_OFFSET_DONT_CARE, ms);
++		else
++			rtw_chset_update_non_ocp_ms(mlmeext->channel_set
++				, ch, bw, offset, ms);
++	}
++
++exit:
++	return count;
++}
++
++ssize_t proc_set_radar_detect(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++	char tmp[32];
++	u8 fake_radar_detect_cnt = 0;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhu", &fake_radar_detect_cnt);
++
++		if (num < 1)
++			goto exit;
++
++		rfctl->dbg_dfs_master_fake_radar_detect_cnt = fake_radar_detect_cnt;
++	}
++
++exit:
++	return count;
++}
++
++static int proc_get_dfs_ch_sel_d_flags(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++
++	RTW_PRINT_SEL(m, "0x%02x\n", rfctl->dfs_ch_sel_d_flags);
++
++	return 0;
++}
++
++static ssize_t proc_set_dfs_ch_sel_d_flags(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
++	char tmp[32];
++	u8 d_flags;
++	int num;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (!buffer || copy_from_user(tmp, buffer, count))
++		goto exit;
++
++	num = sscanf(tmp, "%hhx", &d_flags);
++	if (num !=	1)
++		goto exit;
++
++	rfctl->dfs_ch_sel_d_flags = d_flags;
++
++exit:
++	return count;
++}
++#endif /* CONFIG_DFS_MASTER */
++
++static int proc_get_udpport(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct recv_priv *precvpriv = &(padapter->recvpriv);
++
++	RTW_PRINT_SEL(m, "%d\n", precvpriv->sink_udpport);
++	return 0;
++}
++static ssize_t proc_set_udpport(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct recv_priv *precvpriv = &(padapter->recvpriv);
++	int sink_udpport = 0;
++	char tmp[32];
++
++
++	if (!padapter)
++		return -EFAULT;
++
++	if (count < 1) {
++		RTW_INFO("argument size is less than 1\n");
++		return -EFAULT;
++	}
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%d", &sink_udpport);
++
++		if (num !=  1) {
++			RTW_INFO("invalid input parameter number!\n");
++			return count;
++		}
++
++	}
++	precvpriv->sink_udpport = sink_udpport;
++
++	return count;
++
++}
++
++static int proc_get_mi_ap_bc_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	u8 i;
++
++	for (i = 0; i < dvobj->iface_nums; i++)
++		RTW_PRINT_SEL(m, "iface_id:%d, mac_id && sec_cam_id = %d\n", i, macid_ctl->iface_bmc[i]);
++
++	return 0;
++}
++static int proc_get_macid_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct macid_ctl_t *macid_ctl = dvobj_to_macidctl(dvobj);
++	u8 chip_type = rtw_get_chip_type(adapter);
++	u8 i;
++	u8 null_addr[ETH_ALEN] = {0};
++	u8 *macaddr;
++
++	RTW_PRINT_SEL(m, "max_num:%u\n", macid_ctl->num);
++	RTW_PRINT_SEL(m, "\n");
++
++	RTW_PRINT_SEL(m, "used:\n");
++	dump_macid_map(m, &macid_ctl->used, macid_ctl->num);
++	RTW_PRINT_SEL(m, "\n");
++
++	RTW_PRINT_SEL(m, "%-3s %-3s %-4s %-4s %-17s %-6s %-3s"
++		, "id", "bmc", "if_g", "ch_g", "macaddr", "bw", "vht");
++
++	if (chip_type == RTL8814A)
++		_RTW_PRINT_SEL(m, " %-10s", "rate_bmp1");
++
++	_RTW_PRINT_SEL(m, " %-10s %s\n", "rate_bmp0", "status");
++
++	for (i = 0; i < macid_ctl->num; i++) {
++		if (rtw_macid_is_used(macid_ctl, i)
++			|| macid_ctl->h2c_msr[i]
++		) {
++			if (macid_ctl->sta[i])
++				macaddr = macid_ctl->sta[i]->hwaddr;
++			else
++				macaddr = null_addr;
++
++			RTW_PRINT_SEL(m, "%3u %3u %4d %4d "MAC_FMT" %6s %3u"
++				, i
++				, rtw_macid_is_bmc(macid_ctl, i)
++				, rtw_macid_get_if_g(macid_ctl, i)
++				, rtw_macid_get_ch_g(macid_ctl, i)
++				, MAC_ARG(macaddr)
++				, ch_width_str(macid_ctl->bw[i])
++				, macid_ctl->vht_en[i]
++			);
++
++			if (chip_type == RTL8814A)
++				_RTW_PRINT_SEL(m, " 0x%08X", macid_ctl->rate_bmp1[i]);
++
++			_RTW_PRINT_SEL(m, " 0x%08X "H2C_MSR_FMT" %s\n"
++				, macid_ctl->rate_bmp0[i]
++				, H2C_MSR_ARG(&macid_ctl->h2c_msr[i])
++				, rtw_macid_is_used(macid_ctl, i) ? "" : "[unused]"
++			);
++		}
++	}
++
++	return 0;
++}
++
++static int proc_get_sec_cam(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++
++	RTW_PRINT_SEL(m, "sec_cap:0x%02x\n", cam_ctl->sec_cap);
++	RTW_PRINT_SEL(m, "flags:0x%08x\n", cam_ctl->flags);
++	RTW_PRINT_SEL(m, "\n");
++
++	RTW_PRINT_SEL(m, "max_num:%u\n", cam_ctl->num);
++	RTW_PRINT_SEL(m, "used:\n");
++	dump_sec_cam_map(m, &cam_ctl->used, cam_ctl->num);
++	RTW_PRINT_SEL(m, "\n");
++
++	RTW_PRINT_SEL(m, "reg_scr:0x%04x\n", rtw_read16(adapter, 0x680));
++	RTW_PRINT_SEL(m, "\n");
++
++	dump_sec_cam(m, adapter);
++
++	return 0;
++}
++
++static ssize_t proc_set_sec_cam(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(adapter);
++	struct cam_ctl_t *cam_ctl = &dvobj->cam_ctl;
++	char tmp[32] = {0};
++	char cmd[4];
++	u8 id_1 = 0, id_2 = 0;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		/* c <id_1>: clear specific cam entry */
++		/* wfc <id_1>: write specific cam entry from cam cache */
++		/* sw <id_1> <id_2>: sec_cam 1/2 swap */
++
++		int num = sscanf(tmp, "%s %hhu %hhu", cmd, &id_1, &id_2);
++
++		if (num < 2)
++			return count;
++
++		if ((id_1 >= cam_ctl->num) || (id_2 >= cam_ctl->num)) {
++			RTW_ERR(FUNC_ADPT_FMT" invalid id_1:%u id_2:%u\n", FUNC_ADPT_ARG(adapter), id_1, id_2);
++			return count;
++		}
++
++		if (strcmp("c", cmd) == 0) {
++			_clear_cam_entry(adapter, id_1);
++			adapter->securitypriv.hw_decrypted = _FALSE; /* temporarily set this for TX path to use SW enc */
++		} else if (strcmp("wfc", cmd) == 0)
++			write_cam_from_cache(adapter, id_1);
++		else if (strcmp("sw", cmd) == 0)
++			rtw_sec_cam_swap(adapter, id_1, id_2);
++		else if (strcmp("cdk", cmd) == 0)
++			rtw_clean_dk_section(adapter);
++#ifdef DBG_SEC_CAM_MOVE
++		else if (strcmp("sgd", cmd) == 0)
++			rtw_hal_move_sta_gk_to_dk(adapter);
++		else if (strcmp("rsd", cmd) == 0)
++			rtw_hal_read_sta_dk_key(adapter, id_1);
++#endif
++	}
++
++	return count;
++}
++
++static int proc_get_sec_cam_cache(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_sec_cam_cache(m, adapter);
++	return 0;
++}
++
++static ssize_t proc_set_change_bss_chbw(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct mlme_priv *mlme = &(adapter->mlmepriv);
++	struct mlme_ext_priv *mlmeext = &(adapter->mlmeextpriv);
++	char tmp[32];
++	s16 ch;
++	s8 bw = -1, offset = -1;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hd %hhd %hhd", &ch, &bw, &offset);
++
++		if (num < 1 || (bw != CHANNEL_WIDTH_20 && num < 3))
++			goto exit;
++
++		if (check_fwstate(mlme, WIFI_AP_STATE) && check_fwstate(mlme, WIFI_ASOC_STATE))
++			rtw_change_bss_chbw_cmd(adapter, RTW_CMDF_WAIT_ACK, ch, bw, offset);
++	}
++
++exit:
++	return count;
++}
++
++static int proc_get_tx_bw_mode(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT_SEL(m, "0x%02x\n", adapter->driver_tx_bw_mode);
++	RTW_PRINT_SEL(m, "2.4G:%s\n", ch_width_str(ADAPTER_TX_BW_2G(adapter)));
++	RTW_PRINT_SEL(m, "5G:%s\n", ch_width_str(ADAPTER_TX_BW_5G(adapter)));
++
++	return 0;
++}
++
++static ssize_t proc_set_tx_bw_mode(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct macid_ctl_t *macid_ctl = &adapter->dvobj->macid_ctl;
++	struct mlme_priv *mlme = &(adapter->mlmepriv);
++	struct mlme_ext_priv *mlmeext = &(adapter->mlmeextpriv);
++	char tmp[32];
++	u8 bw_mode;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		u8 update = _FALSE;
++		int num = sscanf(tmp, "%hhx", &bw_mode);
++
++		if (num < 1 || bw_mode == adapter->driver_tx_bw_mode)
++			goto exit;
++
++		if ((MLME_STATE(adapter) & WIFI_ASOC_STATE)
++			&& ((mlmeext->cur_channel <= 14 && BW_MODE_2G(bw_mode) != ADAPTER_TX_BW_2G(adapter))
++				|| (mlmeext->cur_channel >= 36 && BW_MODE_5G(bw_mode) != ADAPTER_TX_BW_5G(adapter)))
++		) {
++			/* RA mask update needed */
++			update = _TRUE;
++		}
++		adapter->driver_tx_bw_mode = bw_mode;
++
++		if (update == _TRUE) {
++			struct sta_info *sta;
++			int i;
++
++			for (i = 0; i < MACID_NUM_SW_LIMIT; i++) {
++				sta = macid_ctl->sta[i];
++				if (sta && !is_broadcast_mac_addr(sta->hwaddr))
++					rtw_dm_ra_mask_wk_cmd(adapter, (u8 *)sta);
++			}
++		}
++	}
++
++exit:
++	return count;
++}
++
++static int proc_get_hal_txpwr_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
++
++	if (hal_is_band_support(adapter, BAND_ON_2_4G))
++		dump_hal_txpwr_info_2g(m, adapter, hal_spec->rfpath_num, hal_spec->max_tx_cnt);
++
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++	if (hal_is_band_support(adapter, BAND_ON_5G))
++		dump_hal_txpwr_info_5g(m, adapter, hal_spec->rfpath_num, hal_spec->max_tx_cnt);
++#endif
++
++	return 0;
++}
++
++static int proc_get_target_tx_power(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_target_tx_power(m, adapter);
++
++	return 0;
++}
++
++static int proc_get_tx_power_by_rate(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_tx_power_by_rate(m, adapter);
++
++	return 0;
++}
++
++static int proc_get_tx_power_limit(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_tx_power_limit(m, adapter);
++
++	return 0;
++}
++
++static int proc_get_tx_power_ext_info(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_tx_power_ext_info(m, adapter);
++
++	return 0;
++}
++
++static ssize_t proc_set_tx_power_ext_info(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	char tmp[32] = {0};
++	char cmd[16] = {0};
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%s", cmd);
++
++		if (num < 1)
++			return count;
++
++		#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
++		phy_free_filebuf_mask(adapter, LOAD_BB_PG_PARA_FILE | LOAD_RF_TXPWR_LMT_PARA_FILE);
++		#endif
++
++		rtw_ps_deny(adapter, PS_DENY_IOCTL);
++		LeaveAllPowerSaveModeDirect(adapter);
++
++		if (strcmp("default", cmd) == 0)
++			rtw_run_in_thread_cmd(adapter, ((void *)(phy_reload_default_tx_power_ext_info)), adapter);
++		else
++			rtw_run_in_thread_cmd(adapter, ((void *)(phy_reload_tx_power_ext_info)), adapter);
++
++		rtw_ps_deny_cancel(adapter, PS_DENY_IOCTL);
++	}
++
++	return count;
++}
++
++static void *proc_start_tx_power_idx(struct seq_file *m, loff_t *pos)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 path = ((*pos) & 0xFF00) >> 8;
++	u8 rs = *pos & 0xFF;
++
++	if (path >= RF_PATH_MAX)
++		return NULL;
++
++	return pos;
++}
++static void proc_stop_tx_power_idx(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++}
++
++static void *proc_next_tx_power_idx(struct seq_file *m, void *v, loff_t *pos)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 path = ((*pos) & 0xFF00) >> 8;
++	u8 rs = *pos & 0xFF;
++
++	rs++;
++	if (rs >= RATE_SECTION_NUM) {
++		rs = 0;
++		path++;
++	}
++
++	if (path >= RF_PATH_MAX)
++		return NULL;
++
++	*pos = (path << 8) | rs;
++
++	return pos;
++}
++
++static int proc_get_tx_power_idx(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	u32 pos = *((loff_t *)(v));
++	u8 path = (pos & 0xFF00) >> 8;
++	u8 rs = pos & 0xFF;
++
++	if (0)
++		RTW_INFO("%s path=%u, rs=%u\n", __func__, path, rs);
++
++	if (path == RF_PATH_A && rs == CCK)
++		dump_tx_power_idx_title(m, adapter);
++	dump_tx_power_idx_by_path_rs(m, adapter, path, rs);
++
++	return 0;
++}
++
++static struct seq_operations seq_ops_tx_power_idx = {
++	.start = proc_start_tx_power_idx,
++	.stop  = proc_stop_tx_power_idx,
++	.next  = proc_next_tx_power_idx,
++	.show  = proc_get_tx_power_idx,
++};
++
++#ifdef CONFIG_RF_POWER_TRIM
++static int proc_get_kfree_flag(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct kfree_data_t *kfree_data = GET_KFREE_DATA(adapter);
++
++	RTW_PRINT_SEL(m, "0x%02x\n", kfree_data->flag);
++
++	return 0;
++}
++
++static ssize_t proc_set_kfree_flag(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct kfree_data_t *kfree_data = GET_KFREE_DATA(adapter);
++	char tmp[32] = {0};
++	u8 flag;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhx", &flag);
++
++		if (num < 1)
++			return count;
++
++		kfree_data->flag = flag;
++	}
++
++	return count;
++}
++
++static int proc_get_kfree_bb_gain(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct kfree_data_t *kfree_data = GET_KFREE_DATA(adapter);
++	u8 i, j;
++
++	for (i = 0; i < BB_GAIN_NUM; i++) {
++		if (i == 0)
++			_RTW_PRINT_SEL(m, "2G: ");
++		else if (i == 1)
++			_RTW_PRINT_SEL(m, "5GLB1: ");
++		else if (i == 2)
++			_RTW_PRINT_SEL(m, "5GLB2: ");
++		else if (i == 3)
++			_RTW_PRINT_SEL(m, "5GMB1: ");
++		else if (i == 4)
++			_RTW_PRINT_SEL(m, "5GMB2: ");
++		else if (i == 5)
++			_RTW_PRINT_SEL(m, "5GHB: ");
++
++		for (j = 0; j < hal_data->NumTotalRFPath; j++)
++			_RTW_PRINT_SEL(m, "%d ", kfree_data->bb_gain[i][j]);
++		_RTW_PRINT_SEL(m, "\n");
++	}
++
++	return 0;
++}
++
++static ssize_t proc_set_kfree_bb_gain(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
++	struct kfree_data_t *kfree_data = GET_KFREE_DATA(adapter);
++	char tmp[BB_GAIN_NUM * RF_PATH_MAX] = {0};
++	u8 path, chidx;
++	s8 bb_gain[BB_GAIN_NUM];
++	char ch_band_Group[6];
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		char *c, *next;
++		int i = 0;
++
++		next = tmp;
++		c = strsep(&next, " \t");
++
++		if (sscanf(c, "%s", ch_band_Group) != 1) {
++			RTW_INFO("Error Head Format, channel Group select\n,Please input:\t 2G , 5GLB1 , 5GLB2 , 5GMB1 , 5GMB2 , 5GHB\n");
++			return count;
++		}
++		if (strcmp("2G", ch_band_Group) == 0)
++			chidx = BB_GAIN_2G;
++#ifdef CONFIG_IEEE80211_BAND_5GHZ
++		else if (strcmp("5GLB1", ch_band_Group) == 0)
++			chidx = BB_GAIN_5GLB1;
++		else if (strcmp("5GLB2", ch_band_Group) == 0)
++			chidx = BB_GAIN_5GLB2;
++		else if (strcmp("5GMB1", ch_band_Group) == 0)
++			chidx = BB_GAIN_5GMB1;
++		else if (strcmp("5GMB2", ch_band_Group) == 0)
++			chidx = BB_GAIN_5GMB2;
++		else if (strcmp("5GHB", ch_band_Group) == 0)
++			chidx = BB_GAIN_5GHB;
++#endif /*CONFIG_IEEE80211_BAND_5GHZ*/
++		else {
++			RTW_INFO("Error Head Format, channel Group select\n,Please input:\t 2G , 5GLB1 , 5GLB2 , 5GMB1 , 5GMB2 , 5GHB\n");
++			return count;
++		}
++		c = strsep(&next, " \t");
++
++		while (c != NULL) {
++			if (sscanf(c, "%hhx", &bb_gain[i]) != 1)
++				break;
++
++			kfree_data->bb_gain[chidx][i] = bb_gain[i];
++			RTW_INFO("%s,kfree_data->bb_gain[%d][%d]=%x\n", __func__, chidx, i, kfree_data->bb_gain[chidx][i]);
++
++			c = strsep(&next, " \t");
++			i++;
++		}
++
++	}
++
++	return count;
++
++}
++
++static int proc_get_kfree_thermal(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct kfree_data_t *kfree_data = GET_KFREE_DATA(adapter);
++
++	_RTW_PRINT_SEL(m, "%d\n", kfree_data->thermal);
++
++	return 0;
++}
++
++static ssize_t proc_set_kfree_thermal(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	struct kfree_data_t *kfree_data = GET_KFREE_DATA(adapter);
++	char tmp[32] = {0};
++	s8 thermal;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhd", &thermal);
++
++		if (num < 1)
++			return count;
++
++		kfree_data->thermal = thermal;
++	}
++
++	return count;
++}
++
++static ssize_t proc_set_tx_gain_offset(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *adapter;
++	char tmp[32] = {0};
++	u8 rf_path;
++	s8 offset;
++
++	adapter = (_adapter *)rtw_netdev_priv(dev);
++	if (!adapter)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		u8 write_value;
++		int num = sscanf(tmp, "%hhu %hhd", &rf_path, &offset);
++
++		if (num < 2)
++			return count;
++
++		RTW_INFO("write rf_path:%u tx gain offset:%d\n", rf_path, offset);
++		rtw_rf_set_tx_gain_offset(adapter, rf_path, offset);
++	}
++
++	return count;
++}
++#endif /* CONFIG_RF_POWER_TRIM */
++
++#ifdef CONFIG_BT_COEXIST
++ssize_t proc_set_btinfo_evt(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u8 btinfo[8];
++
++	if (count < 6)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		int num = 0;
++
++		_rtw_memset(btinfo, 0, 8);
++
++		num = sscanf(tmp, "%hhx %hhx %hhx %hhx %hhx %hhx %hhx %hhx"
++			, &btinfo[0], &btinfo[1], &btinfo[2], &btinfo[3]
++			, &btinfo[4], &btinfo[5], &btinfo[6], &btinfo[7]);
++
++		if (num < 6)
++			return -EINVAL;
++
++		btinfo[1] = num - 2;
++
++		rtw_btinfo_cmd(padapter, btinfo, btinfo[1] + 2);
++	}
++
++	return count;
++}
++
++static u8 btreg_read_type = 0;
++static u16 btreg_read_addr = 0;
++static int btreg_read_error = 0;
++static u8 btreg_write_type = 0;
++static u16 btreg_write_addr = 0;
++static int btreg_write_error = 0;
++
++static u8 *btreg_type[] = {
++	"rf",
++	"modem",
++	"bluewize",
++	"vendor",
++	"le"
++};
++
++static int btreg_parse_str(char const *input, u8 *type, u16 *addr, u16 *val)
++{
++	u32 num;
++	u8 str[80] = {0};
++	u8 t = 0;
++	u32 a, v;
++	u8 i, n;
++	u8 *p;
++
++
++	num = sscanf(input, "%s %x %x", str, &a, &v);
++	if (num < 2) {
++		RTW_INFO("%s: INVALID input!(%s)\n", __FUNCTION__, input);
++		return -EINVAL;
++	}
++	if ((num < 3) && val) {
++		RTW_INFO("%s: INVALID input!(%s)\n", __FUNCTION__, input);
++		return -EINVAL;
++	}
++
++	/* convert to lower case for following type compare */
++	p = str;
++	for (; *p; ++p)
++		*p = tolower(*p);
++	n = sizeof(btreg_type) / sizeof(btreg_type[0]);
++	for (i = 0; i < n; i++) {
++		if (!strcmp(str, btreg_type[i])) {
++			t = i;
++			break;
++		}
++	}
++	if (i == n) {
++		RTW_INFO("%s: unknown type(%s)!\n", __FUNCTION__, str);
++		return -EINVAL;
++	}
++
++	switch (t) {
++	case 0:
++		/* RF */
++		if (a & 0xFFFFFF80) {
++			RTW_INFO("%s: INVALID address(0x%X) for type %s(%d)!\n",
++				 __FUNCTION__, a, btreg_type[t], t);
++			return -EINVAL;
++		}
++		break;
++	case 1:
++		/* Modem */
++		if (a & 0xFFFFFE00) {
++			RTW_INFO("%s: INVALID address(0x%X) for type %s(%d)!\n",
++				 __FUNCTION__, a, btreg_type[t], t);
++			return -EINVAL;
++		}
++		break;
++	default:
++		/* Others(Bluewize, Vendor, LE) */
++		if (a & 0xFFFFF000) {
++			RTW_INFO("%s: INVALID address(0x%X) for type %s(%d)!\n",
++				 __FUNCTION__, a, btreg_type[t], t);
++			return -EINVAL;
++		}
++		break;
++	}
++
++	if (val) {
++		if (v & 0xFFFF0000) {
++			RTW_INFO("%s: INVALID value(0x%x)!\n", __FUNCTION__, v);
++			return -EINVAL;
++		}
++		*val = (u16)v;
++	}
++
++	*type = (u8)t;
++	*addr = (u16)a;
++
++	return 0;
++}
++
++int proc_get_btreg_read(struct seq_file *m, void *v)
++{
++	struct net_device *dev;
++	PADAPTER padapter;
++	u16 ret;
++	u32 data;
++
++
++	if (btreg_read_error)
++		return btreg_read_error;
++
++	dev = m->private;
++	padapter = (PADAPTER)rtw_netdev_priv(dev);
++
++	ret = rtw_btcoex_btreg_read(padapter, btreg_read_type, btreg_read_addr, &data);
++	if (CHECK_STATUS_CODE_FROM_BT_MP_OPER_RET(ret, BT_STATUS_BT_OP_SUCCESS))
++		RTW_PRINT_SEL(m, "BTREG read: (%s)0x%04X = 0x%08x\n", btreg_type[btreg_read_type], btreg_read_addr, data);
++	else
++		RTW_PRINT_SEL(m, "BTREG read: (%s)0x%04X read fail. error code = 0x%04x.\n", btreg_type[btreg_read_type], btreg_read_addr, ret);
++
++	return 0;
++}
++
++ssize_t proc_set_btreg_read(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	PADAPTER padapter;
++	u8 tmp[80] = {0};
++	u32 num;
++	int err;
++
++
++	padapter = (PADAPTER)rtw_netdev_priv(dev);
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n",
++			 FUNC_ADPT_ARG(padapter));
++		err = -EFAULT;
++		goto exit;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n",
++			 FUNC_ADPT_ARG(padapter));
++		err = -EFAULT;
++		goto exit;
++	}
++
++	num = count;
++	if (num > (sizeof(tmp) - 1))
++		num = (sizeof(tmp) - 1);
++
++	if (copy_from_user(tmp, buffer, num)) {
++		RTW_INFO(FUNC_ADPT_FMT ": copy buffer from user space FAIL!\n",
++			 FUNC_ADPT_ARG(padapter));
++		err = -EFAULT;
++		goto exit;
++	}
++	/* [Coverity] sure tmp end with '\0'(string terminal) */
++	tmp[sizeof(tmp) - 1] = 0;
++
++	err = btreg_parse_str(tmp, &btreg_read_type, &btreg_read_addr, NULL);
++	if (err)
++		goto exit;
++
++	RTW_INFO(FUNC_ADPT_FMT ": addr=(%s)0x%X\n",
++		FUNC_ADPT_ARG(padapter), btreg_type[btreg_read_type], btreg_read_addr);
++
++exit:
++	btreg_read_error = err;
++
++	return count;
++}
++
++int proc_get_btreg_write(struct seq_file *m, void *v)
++{
++	struct net_device *dev;
++	PADAPTER padapter;
++	u16 ret;
++	u32 data;
++
++
++	if (btreg_write_error < 0)
++		return btreg_write_error;
++	else if (btreg_write_error > 0) {
++		RTW_PRINT_SEL(m, "BTREG write: (%s)0x%04X write fail. error code = 0x%04x.\n", btreg_type[btreg_write_type], btreg_write_addr, btreg_write_error);
++		return 0;
++	}
++
++	dev = m->private;
++	padapter = (PADAPTER)rtw_netdev_priv(dev);
++
++	ret = rtw_btcoex_btreg_read(padapter, btreg_write_type, btreg_write_addr, &data);
++	if (CHECK_STATUS_CODE_FROM_BT_MP_OPER_RET(ret, BT_STATUS_BT_OP_SUCCESS))
++		RTW_PRINT_SEL(m, "BTREG read: (%s)0x%04X = 0x%08x\n", btreg_type[btreg_write_type], btreg_write_addr, data);
++	else
++		RTW_PRINT_SEL(m, "BTREG read: (%s)0x%04X read fail. error code = 0x%04x.\n", btreg_type[btreg_write_type], btreg_write_addr, ret);
++
++	return 0;
++}
++
++ssize_t proc_set_btreg_write(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	PADAPTER padapter;
++	u8 tmp[80] = {0};
++	u32 num;
++	u16 val;
++	u16 ret;
++	int err;
++
++
++	padapter = (PADAPTER)rtw_netdev_priv(dev);
++
++	if (NULL == buffer) {
++		RTW_INFO(FUNC_ADPT_FMT ": input buffer is NULL!\n",
++			 FUNC_ADPT_ARG(padapter));
++		err = -EFAULT;
++		goto exit;
++	}
++
++	if (count < 1) {
++		RTW_INFO(FUNC_ADPT_FMT ": input length is 0!\n",
++			 FUNC_ADPT_ARG(padapter));
++		err = -EFAULT;
++		goto exit;
++	}
++
++	num = count;
++	if (num > (sizeof(tmp) - 1))
++		num = (sizeof(tmp) - 1);
++
++	if (copy_from_user(tmp, buffer, num)) {
++		RTW_INFO(FUNC_ADPT_FMT ": copy buffer from user space FAIL!\n",
++			 FUNC_ADPT_ARG(padapter));
++		err = -EFAULT;
++		goto exit;
++	}
++
++	err = btreg_parse_str(tmp, &btreg_write_type, &btreg_write_addr, &val);
++	if (err)
++		goto exit;
++
++	RTW_INFO(FUNC_ADPT_FMT ": Set (%s)0x%X = 0x%x\n",
++		FUNC_ADPT_ARG(padapter), btreg_type[btreg_write_type], btreg_write_addr, val);
++
++	ret = rtw_btcoex_btreg_write(padapter, btreg_write_type, btreg_write_addr, val);
++	if (!CHECK_STATUS_CODE_FROM_BT_MP_OPER_RET(ret, BT_STATUS_BT_OP_SUCCESS))
++		err = ret;
++
++exit:
++	btreg_write_error = err;
++
++	return count;
++}
++#endif /* CONFIG_BT_COEXIST */
++
++#ifdef CONFIG_MBSSID_CAM
++int proc_get_mbid_cam_cache(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	rtw_mbid_cam_cache_dump(m, __func__, adapter);
++	rtw_mbid_cam_dump(m, __func__, adapter);
++	return 0;
++}
++#endif /* CONFIG_MBSSID_CAM */
++
++int proc_get_mac_addr(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	rtw_hal_dump_macaddr(m, adapter);
++	return 0;
++}
++
++static int proc_get_skip_band(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	int bandskip;
++
++	bandskip = RTW_GET_SCAN_BAND_SKIP(adapter);
++	RTW_PRINT_SEL(m, "bandskip:0x%02x\n", bandskip);
++	return 0;
++}
++
++static ssize_t proc_set_skip_band(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[6];
++	u8 skip_band;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhu", &skip_band);
++
++		if (num < 1)
++			return -EINVAL;
++
++		if (1 == skip_band)
++			RTW_SET_SCAN_BAND_SKIP(padapter, BAND_24G);
++		else if (2 == skip_band)
++			RTW_SET_SCAN_BAND_SKIP(padapter, BAND_5G);
++		else if (3 == skip_band)
++			RTW_CLR_SCAN_BAND_SKIP(padapter, BAND_24G);
++		else if (4 == skip_band)
++			RTW_CLR_SCAN_BAND_SKIP(padapter, BAND_5G);
++	}
++	return count;
++
++}
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++static int proc_get_best_chan(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	u8 best_24g_ch = 0, best_5g_ch = 0;
++
++	rtw_hal_get_odm_var(adapter, HAL_ODM_AUTO_CHNL_SEL, &(best_24g_ch), &(best_5g_ch));
++
++	RTW_PRINT_SEL(m, "Best 2.4G CH:%u\n", best_24g_ch);
++	RTW_PRINT_SEL(m, "Best 5G CH:%u\n", best_5g_ch);
++	return 0;
++}
++
++static ssize_t proc_set_acs(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u8 acs_satae = 0;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhu", &acs_satae);
++
++		if (num < 1)
++			return -EINVAL;
++
++		if (1 == acs_satae)
++			rtw_acs_start(padapter, _TRUE);
++		else
++			rtw_acs_start(padapter, _FALSE);
++
++	}
++	return count;
++}
++#endif
++
++static int proc_get_hal_spec(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_hal_spec(m, adapter);
++	return 0;
++}
++
++#ifdef CONFIG_PHY_CAPABILITY_QUERY
++static int proc_get_phy_spec(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	rtw_dump_phy_cap(m, adapter);
++	return 0;
++}
++#endif
++static int proc_get_drv_phy_cap(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	rtw_dump_drv_phy_cap(m, adapter);
++	return 0;
++
++}
++static int proc_get_dft_phy_cap(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	rtw_get_dft_phy_cap(m, adapter);
++	return 0;
++}
++
++#ifdef CONFIG_SUPPORT_TRX_SHARED
++#include "../../hal/hal_halmac.h"
++static int proc_get_trx_share_mode(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++
++	dump_trx_share_mode(m, adapter);
++	return 0;
++}
++#endif
++
++
++#if 0 /*ifdef CONFIG_SUPPORT_FIFO_DUMP*/
++static int proc_dump_rsvd_page(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	/*dump rsvd_page*/
++	return 0;
++}
++static ssize_t proc_set_rsvd_page_info(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u8 acs_satae = 0;
++
++	if (count < 2)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		/* get page_offset ,page_num
++		int num = sscanf(tmp, "%hhu", &acs_satae);
++
++		if (num < 1)
++			return -EINVAL;
++
++		if (1 == acs_satae)
++			rtw_acs_start(padapter, _TRUE);
++		else
++			rtw_acs_start(padapter, _FALSE);
++		*/
++	}
++	return count;
++}
++static int proc_dump_fifo(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *adapter = (_adapter *)rtw_netdev_priv(dev);
++	/*dump fifo*/
++
++	return 0;
++}
++static ssize_t proc_set_fifo_info(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u8 acs_satae = 0;
++
++	if (count < 3)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		/* get fifo_sel, start addr, size
++		int num = sscanf(tmp, "%hhu", &acs_satae);
++
++		if (num < 1)
++			return -EINVAL;
++
++		if (1 == acs_satae)
++			rtw_acs_start(padapter, _TRUE);
++		else
++			rtw_acs_start(padapter, _FALSE);
++		*/
++
++	}
++	return count;
++}
++#endif
++
++#ifdef CONFIG_WOW_PATTERN_HW_CAM
++int proc_dump_pattern_cam(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	int i;
++	struct  rtl_wow_pattern context;
++
++	for (i = 0 ; i < pwrpriv->wowlan_pattern_idx; i++) {
++		rtw_wow_pattern_read_cam_ent(padapter, i, &context);
++		rtw_dump_wow_pattern(m, &context, i);
++	}
++
++	return 0;
++}
++#endif
++
++/*
++* rtw_adapter_proc:
++* init/deinit when register/unregister net_device
++*/
++const struct rtw_proc_hdl adapter_proc_hdls[] = {
++#if RTW_SEQ_FILE_TEST
++	RTW_PROC_HDL_SEQ("seq_file_test", &seq_file_test, NULL),
++#endif
++	RTW_PROC_HDL_SSEQ("write_reg", NULL, proc_set_write_reg),
++	RTW_PROC_HDL_SSEQ("read_reg", proc_get_read_reg, proc_set_read_reg),
++	RTW_PROC_HDL_SSEQ("tx_rate_bmp", proc_get_dump_tx_rate_bmp, NULL),
++	RTW_PROC_HDL_SSEQ("adapters_status", proc_get_dump_adapters_status, NULL),
++	RTW_PROC_HDL_SSEQ("adapters_info", proc_get_dump_adapters_info, NULL),
++	RTW_PROC_HDL_SSEQ("fwstate", proc_get_fwstate, NULL),
++	RTW_PROC_HDL_SSEQ("sec_info", proc_get_sec_info, NULL),
++	RTW_PROC_HDL_SSEQ("mlmext_state", proc_get_mlmext_state, NULL),
++	RTW_PROC_HDL_SSEQ("qos_option", proc_get_qos_option, NULL),
++	RTW_PROC_HDL_SSEQ("ht_option", proc_get_ht_option, NULL),
++	RTW_PROC_HDL_SSEQ("rf_info", proc_get_rf_info, NULL),
++	RTW_PROC_HDL_SSEQ("scan_param", proc_get_scan_param, proc_set_scan_param),
++	RTW_PROC_HDL_SSEQ("scan_abort", proc_get_scan_abort, NULL),
++#ifdef CONFIG_SCAN_BACKOP
++	RTW_PROC_HDL_SSEQ("backop_flags_sta", proc_get_backop_flags_sta, proc_set_backop_flags_sta),
++	RTW_PROC_HDL_SSEQ("backop_flags_ap", proc_get_backop_flags_ap, proc_set_backop_flags_ap),
++#endif
++	RTW_PROC_HDL_SSEQ("survey_info", proc_get_survey_info, proc_set_survey_info),
++	RTW_PROC_HDL_SSEQ("ap_info", proc_get_ap_info, NULL),
++	RTW_PROC_HDL_SSEQ("trx_info", proc_get_trx_info, proc_reset_trx_info),
++	RTW_PROC_HDL_SSEQ("rate_ctl", proc_get_rate_ctl, proc_set_rate_ctl),
++	RTW_PROC_HDL_SSEQ("bw_ctl", proc_get_bw_ctl, proc_set_bw_ctl),
++	RTW_PROC_HDL_SSEQ("dis_pwt_ctl", proc_get_dis_pwt, proc_set_dis_pwt),
++	RTW_PROC_HDL_SSEQ("mac_qinfo", proc_get_mac_qinfo, NULL),
++	RTW_PROC_HDL_SSEQ("macid_info", proc_get_macid_info, NULL),
++	RTW_PROC_HDL_SSEQ("bcmc_info", proc_get_mi_ap_bc_info, NULL),
++	RTW_PROC_HDL_SSEQ("sec_cam", proc_get_sec_cam, proc_set_sec_cam),
++	RTW_PROC_HDL_SSEQ("sec_cam_cache", proc_get_sec_cam_cache, NULL),
++	RTW_PROC_HDL_SSEQ("suspend_info", proc_get_suspend_resume_info, NULL),
++	RTW_PROC_HDL_SSEQ("wifi_spec", proc_get_wifi_spec, NULL),
++#ifdef CONFIG_LAYER2_ROAMING
++	RTW_PROC_HDL_SSEQ("roam_flags", proc_get_roam_flags, proc_set_roam_flags),
++	RTW_PROC_HDL_SSEQ("roam_param", proc_get_roam_param, proc_set_roam_param),
++	RTW_PROC_HDL_SSEQ("roam_tgt_addr", NULL, proc_set_roam_tgt_addr),
++#endif /* CONFIG_LAYER2_ROAMING */
++
++#ifdef CONFIG_SDIO_HCI
++	RTW_PROC_HDL_SSEQ("sd_f0_reg_dump", proc_get_sd_f0_reg_dump, NULL),
++	RTW_PROC_HDL_SSEQ("sdio_local_reg_dump", proc_get_sdio_local_reg_dump, NULL),
++#endif /* CONFIG_SDIO_HCI */
++
++	RTW_PROC_HDL_SSEQ("fwdl_test_case", NULL, proc_set_fwdl_test_case),
++	RTW_PROC_HDL_SSEQ("del_rx_ampdu_test_case", NULL, proc_set_del_rx_ampdu_test_case),
++	RTW_PROC_HDL_SSEQ("wait_hiq_empty", NULL, proc_set_wait_hiq_empty),
++
++	RTW_PROC_HDL_SSEQ("mac_reg_dump", proc_get_mac_reg_dump, NULL),
++	RTW_PROC_HDL_SSEQ("bb_reg_dump", proc_get_bb_reg_dump, NULL),
++	RTW_PROC_HDL_SSEQ("rf_reg_dump", proc_get_rf_reg_dump, NULL),
++
++#ifdef CONFIG_AP_MODE
++	RTW_PROC_HDL_SSEQ("all_sta_info", proc_get_all_sta_info, NULL),
++#endif /* CONFIG_AP_MODE */
++
++#ifdef DBG_MEMORY_LEAK
++	RTW_PROC_HDL_SSEQ("_malloc_cnt", proc_get_malloc_cnt, NULL),
++#endif /* DBG_MEMORY_LEAK */
++
++#ifdef CONFIG_FIND_BEST_CHANNEL
++	RTW_PROC_HDL_SSEQ("best_channel", proc_get_best_channel, proc_set_best_channel),
++#endif
++
++	RTW_PROC_HDL_SSEQ("rx_signal", proc_get_rx_signal, proc_set_rx_signal),
++	RTW_PROC_HDL_SSEQ("hw_info", proc_get_hw_status, proc_set_hw_status),
++
++#ifdef CONFIG_80211N_HT
++	RTW_PROC_HDL_SSEQ("ht_enable", proc_get_ht_enable, proc_set_ht_enable),
++	RTW_PROC_HDL_SSEQ("bw_mode", proc_get_bw_mode, proc_set_bw_mode),
++	RTW_PROC_HDL_SSEQ("ampdu_enable", proc_get_ampdu_enable, proc_set_ampdu_enable),
++	RTW_PROC_HDL_SSEQ("rx_ampdu", proc_get_rx_ampdu, proc_set_rx_ampdu),
++	RTW_PROC_HDL_SSEQ("rx_ampdu_factor", proc_get_rx_ampdu_factor, proc_set_rx_ampdu_factor),
++	RTW_PROC_HDL_SSEQ("rx_ampdu_density", proc_get_rx_ampdu_density, proc_set_rx_ampdu_density),
++	RTW_PROC_HDL_SSEQ("tx_ampdu_density", proc_get_tx_ampdu_density, proc_set_tx_ampdu_density),
++#endif /* CONFIG_80211N_HT */
++
++	RTW_PROC_HDL_SSEQ("en_fwps", proc_get_en_fwps, proc_set_en_fwps),
++	RTW_PROC_HDL_SSEQ("mac_rptbuf", proc_get_mac_rptbuf, NULL),
++
++	/* RTW_PROC_HDL_SSEQ("path_rssi", proc_get_two_path_rssi, NULL),
++	* 	RTW_PROC_HDL_SSEQ("rssi_disp",proc_get_rssi_disp, proc_set_rssi_disp), */
++
++#ifdef CONFIG_BT_COEXIST
++	RTW_PROC_HDL_SSEQ("btcoex_dbg", proc_get_btcoex_dbg, proc_set_btcoex_dbg),
++	RTW_PROC_HDL_SSEQ("btcoex", proc_get_btcoex_info, NULL),
++	RTW_PROC_HDL_SSEQ("btinfo_evt", NULL, proc_set_btinfo_evt),
++	RTW_PROC_HDL_SSEQ("btreg_read", proc_get_btreg_read, proc_set_btreg_read),
++	RTW_PROC_HDL_SSEQ("btreg_write", proc_get_btreg_write, proc_set_btreg_write),
++#endif /* CONFIG_BT_COEXIST */
++
++#if defined(DBG_CONFIG_ERROR_DETECT)
++	RTW_PROC_HDL_SSEQ("sreset", proc_get_sreset, proc_set_sreset),
++#endif /* DBG_CONFIG_ERROR_DETECT */
++	RTW_PROC_HDL_SSEQ("trx_info_debug", proc_get_trx_info_debug, NULL),
++	RTW_PROC_HDL_SSEQ("linked_info_dump", proc_get_linked_info_dump, proc_set_linked_info_dump),
++	RTW_PROC_HDL_SSEQ("tx_info_msg", proc_get_tx_info_msg, NULL),
++	RTW_PROC_HDL_SSEQ("rx_info_msg", proc_get_rx_info_msg, proc_set_rx_info_msg),
++#ifdef CONFIG_GPIO_API
++	RTW_PROC_HDL_SSEQ("gpio_info", proc_get_gpio, proc_set_gpio),
++	RTW_PROC_HDL_SSEQ("gpio_set_output_value", NULL, proc_set_gpio_output_value),
++	RTW_PROC_HDL_SSEQ("gpio_set_direction", NULL, proc_set_config_gpio),
++#endif
++
++#ifdef CONFIG_DBG_COUNTER
++	RTW_PROC_HDL_SSEQ("rx_logs", proc_get_rx_logs, NULL),
++	RTW_PROC_HDL_SSEQ("tx_logs", proc_get_tx_logs, NULL),
++	RTW_PROC_HDL_SSEQ("int_logs", proc_get_int_logs, NULL),
++#endif
++
++#ifdef CONFIG_PCI_HCI
++	RTW_PROC_HDL_SSEQ("rx_ring", proc_get_rx_ring, NULL),
++	RTW_PROC_HDL_SSEQ("tx_ring", proc_get_tx_ring, NULL),
++#endif
++
++#ifdef CONFIG_WOWLAN
++	RTW_PROC_HDL_SSEQ("wow_pattern_info", proc_get_pattern_info, proc_set_pattern_info),
++	RTW_PROC_HDL_SSEQ("wowlan_last_wake_reason", proc_get_wakeup_reason, NULL),
++#ifdef CONFIG_WOW_PATTERN_HW_CAM
++	RTW_PROC_HDL_SSEQ("wow_pattern_cam", proc_dump_pattern_cam, NULL),
++#endif
++#endif
++
++#ifdef CONFIG_GPIO_WAKEUP
++	RTW_PROC_HDL_SSEQ("wowlan_gpio_info", proc_get_wowlan_gpio_info, proc_set_wowlan_gpio_info),
++#endif
++#ifdef CONFIG_P2P_WOWLAN
++	RTW_PROC_HDL_SSEQ("p2p_wowlan_info", proc_get_p2p_wowlan_info, NULL),
++#endif
++	RTW_PROC_HDL_SSEQ("country_code", proc_get_country_code, proc_set_country_code),
++	RTW_PROC_HDL_SSEQ("chan_plan", proc_get_chan_plan, proc_set_chan_plan),
++#if CONFIG_RTW_MACADDR_ACL
++	RTW_PROC_HDL_SSEQ("macaddr_acl", proc_get_macaddr_acl, proc_set_macaddr_acl),
++#endif
++#ifdef CONFIG_DFS_MASTER
++	RTW_PROC_HDL_SSEQ("dfs_master_test_case", proc_get_dfs_master_test_case, proc_set_dfs_master_test_case),
++	RTW_PROC_HDL_SSEQ("update_non_ocp", NULL, proc_set_update_non_ocp),
++	RTW_PROC_HDL_SSEQ("radar_detect", NULL, proc_set_radar_detect),
++	RTW_PROC_HDL_SSEQ("dfs_ch_sel_d_flags", proc_get_dfs_ch_sel_d_flags, proc_set_dfs_ch_sel_d_flags),
++#endif
++	RTW_PROC_HDL_SSEQ("new_bcn_max", proc_get_new_bcn_max, proc_set_new_bcn_max),
++	RTW_PROC_HDL_SSEQ("sink_udpport", proc_get_udpport, proc_set_udpport),
++#ifdef DBG_RX_COUNTER_DUMP
++	RTW_PROC_HDL_SSEQ("dump_rx_cnt_mode", proc_get_rx_cnt_dump, proc_set_rx_cnt_dump),
++#endif
++	RTW_PROC_HDL_SSEQ("change_bss_chbw", NULL, proc_set_change_bss_chbw),
++	RTW_PROC_HDL_SSEQ("tx_bw_mode", proc_get_tx_bw_mode, proc_set_tx_bw_mode),
++	RTW_PROC_HDL_SSEQ("hal_txpwr_info", proc_get_hal_txpwr_info, NULL),
++	RTW_PROC_HDL_SSEQ("target_tx_power", proc_get_target_tx_power, NULL),
++	RTW_PROC_HDL_SSEQ("tx_power_by_rate", proc_get_tx_power_by_rate, NULL),
++	RTW_PROC_HDL_SSEQ("tx_power_limit", proc_get_tx_power_limit, NULL),
++	RTW_PROC_HDL_SSEQ("tx_power_ext_info", proc_get_tx_power_ext_info, proc_set_tx_power_ext_info),
++	RTW_PROC_HDL_SEQ("tx_power_idx", &seq_ops_tx_power_idx, NULL),
++#ifdef CONFIG_RF_POWER_TRIM
++	RTW_PROC_HDL_SSEQ("tx_gain_offset", NULL, proc_set_tx_gain_offset),
++	RTW_PROC_HDL_SSEQ("kfree_flag", proc_get_kfree_flag, proc_set_kfree_flag),
++	RTW_PROC_HDL_SSEQ("kfree_bb_gain", proc_get_kfree_bb_gain, proc_set_kfree_bb_gain),
++	RTW_PROC_HDL_SSEQ("kfree_thermal", proc_get_kfree_thermal, proc_set_kfree_thermal),
++#endif
++#ifdef CONFIG_POWER_SAVING
++	RTW_PROC_HDL_SSEQ("ps_info", proc_get_ps_info, NULL),
++#endif
++#ifdef CONFIG_TDLS
++	RTW_PROC_HDL_SSEQ("tdls_info", proc_get_tdls_info, NULL),
++#endif
++	RTW_PROC_HDL_SSEQ("monitor", proc_get_monitor, proc_set_monitor),
++
++#ifdef CONFIG_AUTO_CHNL_SEL_NHM
++	RTW_PROC_HDL_SSEQ("acs", proc_get_best_chan, proc_set_acs),
++#endif
++#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++	RTW_PROC_HDL_SSEQ("rtkm_info", proc_get_rtkm_info, NULL),
++#endif
++	RTW_PROC_HDL_SSEQ("efuse_map", proc_get_efuse_map, NULL),
++#ifdef CONFIG_IEEE80211W
++	RTW_PROC_HDL_SSEQ("11w_tx_sa_query", proc_get_tx_sa_query, proc_set_tx_sa_query),
++	RTW_PROC_HDL_SSEQ("11w_tx_deauth", proc_get_tx_deauth, proc_set_tx_deauth),
++	RTW_PROC_HDL_SSEQ("11w_tx_auth", proc_get_tx_auth, proc_set_tx_auth),
++#endif /* CONFIG_IEEE80211W */
++
++#ifdef CONFIG_MBSSID_CAM
++	RTW_PROC_HDL_SSEQ("mbid_cam", proc_get_mbid_cam_cache, NULL),
++#endif
++	RTW_PROC_HDL_SSEQ("mac_addr", proc_get_mac_addr, NULL),
++	RTW_PROC_HDL_SSEQ("skip_band", proc_get_skip_band, proc_set_skip_band),
++	RTW_PROC_HDL_SSEQ("hal_spec", proc_get_hal_spec, NULL),
++
++	/**** PHY Capability ****/
++#ifdef CONFIG_PHY_CAPABILITY_QUERY
++	RTW_PROC_HDL_SSEQ("phy_spec", proc_get_phy_spec, NULL),
++#endif
++	RTW_PROC_HDL_SSEQ("phy_cap_drv", proc_get_drv_phy_cap, NULL),
++	RTW_PROC_HDL_SSEQ("phy_cap_dft", proc_get_dft_phy_cap, NULL),
++	RTW_PROC_HDL_SSEQ("rx_stbc", proc_get_rx_stbc, proc_set_rx_stbc),
++	RTW_PROC_HDL_SSEQ("stbc_cap", proc_get_stbc_cap, proc_set_stbc_cap),
++	RTW_PROC_HDL_SSEQ("ldpc_cap", proc_get_ldpc_cap, proc_set_ldpc_cap),
++#ifdef CONFIG_BEAMFORMING
++	RTW_PROC_HDL_SSEQ("txbf_cap", proc_get_txbf_cap, proc_set_txbf_cap),
++#endif
++
++#ifdef CONFIG_SUPPORT_TRX_SHARED
++	RTW_PROC_HDL_SSEQ("trx_share_mode", proc_get_trx_share_mode, NULL),
++#endif
++#if 0 /*#ifdef CONFIG_SUPPORT_FIFO_DUMP*/
++	RTW_PROC_HDL_SSEQ("rsvd_page", proc_dump_rsvd_page, proc_set_rsvd_page_info),
++	RTW_PROC_HDL_SSEQ("fifo_dump", proc_dump_fifo, proc_set_fifo_info),
++#endif
++};
++
++const int adapter_proc_hdls_num = sizeof(adapter_proc_hdls) / sizeof(struct rtw_proc_hdl);
++
++static int rtw_adapter_proc_open(struct inode *inode, struct file *file)
++{
++	ssize_t index = (ssize_t)PDE_DATA(inode);
++	const struct rtw_proc_hdl *hdl = adapter_proc_hdls + index;
++	void *private = proc_get_parent_data(inode);
++
++	if (hdl->type == RTW_PROC_HDL_TYPE_SEQ) {
++		int res = seq_open(file, hdl->u.seq_op);
++
++		if (res == 0)
++			((struct seq_file *)file->private_data)->private = private;
++
++		return res;
++	} else if (hdl->type == RTW_PROC_HDL_TYPE_SSEQ) {
++		int (*show)(struct seq_file *, void *) = hdl->u.show ? hdl->u.show : proc_get_dummy;
++
++		return single_open(file, show, private);
++	} else {
++		return -EROFS;
++	}
++}
++
++static ssize_t rtw_adapter_proc_write(struct file *file, const char __user *buffer, size_t count, loff_t *pos)
++{
++	ssize_t index = (ssize_t)PDE_DATA(file_inode(file));
++	const struct rtw_proc_hdl *hdl = adapter_proc_hdls + index;
++	ssize_t (*write)(struct file *, const char __user *, size_t, loff_t *, void *) = hdl->write;
++
++	if (write)
++		return write(file, buffer, count, pos, ((struct seq_file *)file->private_data)->private);
++
++	return -EROFS;
++}
++
++static const struct file_operations rtw_adapter_proc_seq_fops = {
++	.owner = THIS_MODULE,
++	.open = rtw_adapter_proc_open,
++	.read = seq_read,
++	.llseek = seq_lseek,
++	.release = seq_release,
++	.write = rtw_adapter_proc_write,
++};
++
++static const struct file_operations rtw_adapter_proc_sseq_fops = {
++	.owner = THIS_MODULE,
++	.open = rtw_adapter_proc_open,
++	.read = seq_read,
++	.llseek = seq_lseek,
++	.release = single_release,
++	.write = rtw_adapter_proc_write,
++};
++
++
++int proc_get_odm_force_igi_lb(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	RTW_PRINT_SEL(m, "force_igi_lb:0x%02x\n", rtw_odm_get_force_igi_lb(padapter));
++
++	return 0;
++}
++
++ssize_t proc_set_odm_force_igi_lb(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u8 force_igi_lb;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%hhx", &force_igi_lb);
++
++		if (num != 1)
++			return count;
++
++		rtw_odm_set_force_igi_lb(padapter, force_igi_lb);
++	}
++
++	return count;
++}
++
++int proc_get_odm_adaptivity(struct seq_file *m, void *v)
++{
++	struct net_device *dev = m->private;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++
++	rtw_odm_adaptivity_parm_msg(m, padapter);
++
++	return 0;
++}
++
++ssize_t proc_set_odm_adaptivity(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *dev = data;
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(dev);
++	char tmp[32];
++	u32 TH_L2H_ini;
++	u32 TH_L2H_ini_mode2;
++	s8 TH_EDCCA_HL_diff;
++	s8 TH_EDCCA_HL_diff_mode2;
++	u8 EDCCA_enable;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp)) {
++		rtw_warn_on(1);
++		return -EFAULT;
++	}
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++
++		int num = sscanf(tmp, "%x %hhd %x %hhd %hhu", &TH_L2H_ini, &TH_EDCCA_HL_diff, &TH_L2H_ini_mode2, &TH_EDCCA_HL_diff_mode2, &EDCCA_enable);
++
++		if (num != 5)
++			return count;
++
++		rtw_odm_adaptivity_parm_set(padapter, (s8)TH_L2H_ini, TH_EDCCA_HL_diff, (s8)TH_L2H_ini_mode2, TH_EDCCA_HL_diff_mode2, EDCCA_enable);
++	}
++
++	return count;
++}
++
++static char *phydm_msg = NULL;
++#define PHYDM_MSG_LEN	80*24
++
++int proc_get_phydm_cmd(struct seq_file *m, void *v)
++{
++	struct net_device *netdev;
++	PADAPTER padapter;
++	PHAL_DATA_TYPE pHalData;
++	PDM_ODM_T phydm;
++
++
++	netdev = m->private;
++	padapter = (PADAPTER)rtw_netdev_priv(netdev);
++	pHalData = GET_HAL_DATA(padapter);
++	phydm = &pHalData->odmpriv;
++
++	if (NULL == phydm_msg) {
++		phydm_msg = rtw_zmalloc(PHYDM_MSG_LEN);
++		if (NULL == phydm_msg)
++			return -ENOMEM;
++
++		phydm_cmd(phydm, NULL, 0, 0, phydm_msg, PHYDM_MSG_LEN);
++	}
++
++	_RTW_PRINT_SEL(m, "%s\n", phydm_msg);
++
++	rtw_mfree(phydm_msg, PHYDM_MSG_LEN);
++	phydm_msg = NULL;
++
++	return 0;
++}
++
++ssize_t proc_set_phydm_cmd(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data)
++{
++	struct net_device *netdev;
++	PADAPTER padapter;
++	PHAL_DATA_TYPE pHalData;
++	PDM_ODM_T phydm;
++	char tmp[64] = {0};
++
++
++	netdev = (struct net_device *)data;
++	padapter = (PADAPTER)rtw_netdev_priv(netdev);
++	pHalData = GET_HAL_DATA(padapter);
++	phydm = &pHalData->odmpriv;
++
++	if (count < 1)
++		return -EFAULT;
++
++	if (count > sizeof(tmp))
++		return -EFAULT;
++
++	if (buffer && !copy_from_user(tmp, buffer, count)) {
++		if (NULL == phydm_msg) {
++			phydm_msg = rtw_zmalloc(PHYDM_MSG_LEN);
++			if (NULL == phydm_msg)
++				return -ENOMEM;
++		} else
++			_rtw_memset(phydm_msg, 0, PHYDM_MSG_LEN);
++
++		phydm_cmd(phydm, tmp, count, 1, phydm_msg, PHYDM_MSG_LEN);
++
++		if (strlen(phydm_msg) == 0) {
++			rtw_mfree(phydm_msg, PHYDM_MSG_LEN);
++			phydm_msg = NULL;
++		}
++	}
++
++	return count;
++}
++
++/*
++* rtw_odm_proc:
++* init/deinit when register/unregister net_device, along with rtw_adapter_proc
++*/
++const struct rtw_proc_hdl odm_proc_hdls[] = {
++	RTW_PROC_HDL_SSEQ("adaptivity", proc_get_odm_adaptivity, proc_set_odm_adaptivity),
++	RTW_PROC_HDL_SSEQ("force_igi_lb", proc_get_odm_force_igi_lb, proc_set_odm_force_igi_lb),
++	RTW_PROC_HDL_SSEQ("cmd", proc_get_phydm_cmd, proc_set_phydm_cmd),
++};
++
++const int odm_proc_hdls_num = sizeof(odm_proc_hdls) / sizeof(struct rtw_proc_hdl);
++
++static int rtw_odm_proc_open(struct inode *inode, struct file *file)
++{
++	ssize_t index = (ssize_t)PDE_DATA(inode);
++	const struct rtw_proc_hdl *hdl = odm_proc_hdls + index;
++	void *private = proc_get_parent_data(inode);
++
++	if (hdl->type == RTW_PROC_HDL_TYPE_SEQ) {
++		int res = seq_open(file, hdl->u.seq_op);
++
++		if (res == 0)
++			((struct seq_file *)file->private_data)->private = private;
++
++		return res;
++	} else if (hdl->type == RTW_PROC_HDL_TYPE_SSEQ) {
++		int (*show)(struct seq_file *, void *) = hdl->u.show ? hdl->u.show : proc_get_dummy;
++
++		return single_open(file, show, private);
++	} else {
++		return -EROFS;
++	}
++}
++
++static ssize_t rtw_odm_proc_write(struct file *file, const char __user *buffer, size_t count, loff_t *pos)
++{
++	ssize_t index = (ssize_t)PDE_DATA(file_inode(file));
++	const struct rtw_proc_hdl *hdl = odm_proc_hdls + index;
++	ssize_t (*write)(struct file *, const char __user *, size_t, loff_t *, void *) = hdl->write;
++
++	if (write)
++		return write(file, buffer, count, pos, ((struct seq_file *)file->private_data)->private);
++
++	return -EROFS;
++}
++
++static const struct file_operations rtw_odm_proc_seq_fops = {
++	.owner = THIS_MODULE,
++	.open = rtw_odm_proc_open,
++	.read = seq_read,
++	.llseek = seq_lseek,
++	.release = seq_release,
++	.write = rtw_odm_proc_write,
++};
++
++static const struct file_operations rtw_odm_proc_sseq_fops = {
++	.owner = THIS_MODULE,
++	.open = rtw_odm_proc_open,
++	.read = seq_read,
++	.llseek = seq_lseek,
++	.release = single_release,
++	.write = rtw_odm_proc_write,
++};
++
++struct proc_dir_entry *rtw_odm_proc_init(struct net_device *dev)
++{
++	struct proc_dir_entry *dir_odm = NULL;
++	struct proc_dir_entry *entry = NULL;
++	_adapter	*adapter = rtw_netdev_priv(dev);
++	ssize_t i;
++
++	if (adapter->dir_dev == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (adapter->dir_odm != NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	dir_odm = rtw_proc_create_dir("odm", adapter->dir_dev, dev);
++	if (dir_odm == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	adapter->dir_odm = dir_odm;
++
++	for (i = 0; i < odm_proc_hdls_num; i++) {
++		if (odm_proc_hdls[i].type == RTW_PROC_HDL_TYPE_SEQ)
++			entry = rtw_proc_create_entry(odm_proc_hdls[i].name, dir_odm, &rtw_odm_proc_seq_fops, (void *)i);
++		else if (odm_proc_hdls[i].type == RTW_PROC_HDL_TYPE_SSEQ)
++			entry = rtw_proc_create_entry(odm_proc_hdls[i].name, dir_odm, &rtw_odm_proc_sseq_fops, (void *)i);
++		else
++			entry = NULL;
++
++		if (!entry) {
++			rtw_warn_on(1);
++			goto exit;
++		}
++	}
++
++exit:
++	return dir_odm;
++}
++
++void rtw_odm_proc_deinit(_adapter	*adapter)
++{
++	struct proc_dir_entry *dir_odm = NULL;
++	int i;
++
++	dir_odm = adapter->dir_odm;
++
++	if (dir_odm == NULL) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	for (i = 0; i < odm_proc_hdls_num; i++)
++		remove_proc_entry(odm_proc_hdls[i].name, dir_odm);
++
++	remove_proc_entry("odm", adapter->dir_dev);
++
++	adapter->dir_odm = NULL;
++
++	if (phydm_msg) {
++		rtw_mfree(phydm_msg, PHYDM_MSG_LEN);
++		phydm_msg = NULL;
++	}
++}
++
++#ifdef CONFIG_MCC_MODE
++/*
++* rtw_mcc_proc:
++* init/deinit when register/unregister net_device, along with rtw_adapter_proc
++*/
++const struct rtw_proc_hdl mcc_proc_hdls[] = {
++	RTW_PROC_HDL_SSEQ("mcc_info", proc_get_mcc_info, NULL),
++	RTW_PROC_HDL_SSEQ("mcc_enable", proc_get_mcc_info, proc_set_mcc_enable),
++	RTW_PROC_HDL_SSEQ("mcc_single_tx_criteria", proc_get_mcc_info, proc_set_mcc_single_tx_criteria),
++	RTW_PROC_HDL_SSEQ("mcc_ap_bw20_target_tp", proc_get_mcc_info, proc_set_mcc_ap_bw20_target_tp),
++	RTW_PROC_HDL_SSEQ("mcc_ap_bw40_target_tp", proc_get_mcc_info, proc_set_mcc_ap_bw40_target_tp),
++	RTW_PROC_HDL_SSEQ("mcc_ap_bw80_target_tp", proc_get_mcc_info, proc_set_mcc_ap_bw80_target_tp),
++	RTW_PROC_HDL_SSEQ("mcc_sta_bw20_target_tp", proc_get_mcc_info, proc_set_mcc_sta_bw20_target_tp),
++	RTW_PROC_HDL_SSEQ("mcc_sta_bw40_target_tp", proc_get_mcc_info, proc_set_mcc_sta_bw40_target_tp),
++	RTW_PROC_HDL_SSEQ("mcc_sta_bw80_target_tp", proc_get_mcc_info, proc_set_mcc_sta_bw80_target_tp),
++};
++
++const int mcc_proc_hdls_num = sizeof(mcc_proc_hdls) / sizeof(struct rtw_proc_hdl);
++
++static int rtw_mcc_proc_open(struct inode *inode, struct file *file)
++{
++	ssize_t index = (ssize_t)PDE_DATA(inode);
++	const struct rtw_proc_hdl *hdl = mcc_proc_hdls + index;
++	void *private = proc_get_parent_data(inode);
++
++	if (hdl->type == RTW_PROC_HDL_TYPE_SEQ) {
++		int res = seq_open(file, hdl->u.seq_op);
++
++		if (res == 0)
++			((struct seq_file *)file->private_data)->private = private;
++
++		return res;
++	} else if (hdl->type == RTW_PROC_HDL_TYPE_SSEQ) {
++		int (*show)(struct seq_file *, void *) = hdl->u.show ? hdl->u.show : proc_get_dummy;
++
++		return single_open(file, show, private);
++	} else {
++		return -EROFS;
++	}
++}
++
++static ssize_t rtw_mcc_proc_write(struct file *file, const char __user *buffer, size_t count, loff_t *pos)
++{
++	ssize_t index = (ssize_t)PDE_DATA(file_inode(file));
++	const struct rtw_proc_hdl *hdl = mcc_proc_hdls + index;
++	ssize_t (*write)(struct file *, const char __user *, size_t, loff_t *, void *) = hdl->write;
++
++	if (write)
++		return write(file, buffer, count, pos, ((struct seq_file *)file->private_data)->private);
++
++	return -EROFS;
++}
++
++static const struct file_operations rtw_mcc_proc_seq_fops = {
++	.owner = THIS_MODULE,
++	.open = rtw_mcc_proc_open,
++	.read = seq_read,
++	.llseek = seq_lseek,
++	.release = seq_release,
++	.write = rtw_mcc_proc_write,
++};
++
++static const struct file_operations rtw_mcc_proc_sseq_fops = {
++	.owner = THIS_MODULE,
++	.open = rtw_mcc_proc_open,
++	.read = seq_read,
++	.llseek = seq_lseek,
++	.release = single_release,
++	.write = rtw_mcc_proc_write,
++};
++
++struct proc_dir_entry *rtw_mcc_proc_init(struct net_device *dev)
++{
++	struct proc_dir_entry *dir_mcc = NULL;
++	struct proc_dir_entry *entry = NULL;
++	_adapter	*adapter = rtw_netdev_priv(dev);
++	ssize_t i;
++
++	if (adapter->dir_dev == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (adapter->dir_mcc != NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	dir_mcc = rtw_proc_create_dir("mcc", adapter->dir_dev, dev);
++	if (dir_mcc == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	adapter->dir_mcc = dir_mcc;
++
++	for (i = 0; i < mcc_proc_hdls_num; i++) {
++		if (mcc_proc_hdls[i].type == RTW_PROC_HDL_TYPE_SEQ)
++			entry = rtw_proc_create_entry(mcc_proc_hdls[i].name, dir_mcc, &rtw_mcc_proc_seq_fops, (void *)i);
++		else if (mcc_proc_hdls[i].type == RTW_PROC_HDL_TYPE_SSEQ)
++			entry = rtw_proc_create_entry(mcc_proc_hdls[i].name, dir_mcc, &rtw_mcc_proc_sseq_fops, (void *)i);
++		else
++			entry = NULL;
++
++		if (!entry) {
++			rtw_warn_on(1);
++			goto exit;
++		}
++	}
++
++exit:
++	return dir_mcc;
++}
++
++void rtw_mcc_proc_deinit(_adapter	*adapter)
++{
++	struct proc_dir_entry *dir_mcc = NULL;
++	int i;
++
++	dir_mcc = adapter->dir_mcc;
++
++	if (dir_mcc == NULL) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	for (i = 0; i < mcc_proc_hdls_num; i++)
++		remove_proc_entry(mcc_proc_hdls[i].name, dir_mcc);
++
++	remove_proc_entry("mcc", adapter->dir_dev);
++
++	adapter->dir_mcc = NULL;
++}
++#endif /* CONFIG_MCC_MODE */
++
++struct proc_dir_entry *rtw_adapter_proc_init(struct net_device *dev)
++{
++	struct proc_dir_entry *drv_proc = get_rtw_drv_proc();
++	struct proc_dir_entry *dir_dev = NULL;
++	struct proc_dir_entry *entry = NULL;
++	_adapter *adapter = rtw_netdev_priv(dev);
++	u8 rf_type;
++	ssize_t i;
++
++	if (drv_proc == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (adapter->dir_dev != NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	dir_dev = rtw_proc_create_dir(dev->name, drv_proc, dev);
++	if (dir_dev == NULL) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	adapter->dir_dev = dir_dev;
++
++	for (i = 0; i < adapter_proc_hdls_num; i++) {
++		if (adapter_proc_hdls[i].type == RTW_PROC_HDL_TYPE_SEQ)
++			entry = rtw_proc_create_entry(adapter_proc_hdls[i].name, dir_dev, &rtw_adapter_proc_seq_fops, (void *)i);
++		else if (adapter_proc_hdls[i].type == RTW_PROC_HDL_TYPE_SSEQ)
++			entry = rtw_proc_create_entry(adapter_proc_hdls[i].name, dir_dev, &rtw_adapter_proc_sseq_fops, (void *)i);
++		else
++			entry = NULL;
++
++		if (!entry) {
++			rtw_warn_on(1);
++			goto exit;
++		}
++	}
++
++	rtw_odm_proc_init(dev);
++
++#ifdef CONFIG_MCC_MODE
++	rtw_mcc_proc_init(dev);
++#endif /* CONFIG_MCC_MODE */
++
++exit:
++	return dir_dev;
++}
++
++void rtw_adapter_proc_deinit(struct net_device *dev)
++{
++	struct proc_dir_entry *drv_proc = get_rtw_drv_proc();
++	struct proc_dir_entry *dir_dev = NULL;
++	_adapter *adapter = rtw_netdev_priv(dev);
++	int i;
++
++	dir_dev = adapter->dir_dev;
++
++	if (dir_dev == NULL) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	for (i = 0; i < adapter_proc_hdls_num; i++)
++		remove_proc_entry(adapter_proc_hdls[i].name, dir_dev);
++
++	rtw_odm_proc_deinit(adapter);
++
++#ifdef CONFIG_MCC_MODE
++	rtw_mcc_proc_deinit(adapter);
++#endif /* CONFIG_MCC_MODE */
++
++	remove_proc_entry(dev->name, drv_proc);
++
++	adapter->dir_dev = NULL;
++}
++
++void rtw_adapter_proc_replace(struct net_device *dev)
++{
++	struct proc_dir_entry *drv_proc = get_rtw_drv_proc();
++	struct proc_dir_entry *dir_dev = NULL;
++	_adapter *adapter = rtw_netdev_priv(dev);
++	int i;
++
++	dir_dev = adapter->dir_dev;
++
++	if (dir_dev == NULL) {
++		rtw_warn_on(1);
++		return;
++	}
++
++	for (i = 0; i < adapter_proc_hdls_num; i++)
++		remove_proc_entry(adapter_proc_hdls[i].name, dir_dev);
++
++	rtw_odm_proc_deinit(adapter);
++
++#ifdef CONFIG_MCC_MODE
++	rtw_mcc_proc_deinit(adapter);
++#endif /* CONIG_MCC_MODE */
++
++	remove_proc_entry(adapter->old_ifname, drv_proc);
++
++	adapter->dir_dev = NULL;
++
++	rtw_adapter_proc_init(dev);
++
++}
++
++#endif /* CONFIG_PROC_DEBUG */
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/rtw_proc.h b/drivers/net/wireless/rtl8812au/os_dep/linux/rtw_proc.h
+new file mode 100644
+index 0000000..0ab929c
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/rtw_proc.h
+@@ -0,0 +1,65 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __RTW_PROC_H__
++#define __RTW_PROC_H__
++
++#include <linux/proc_fs.h>
++#include <linux/seq_file.h>
++
++#define RTW_PROC_HDL_TYPE_SEQ	0
++#define RTW_PROC_HDL_TYPE_SSEQ	1
++
++struct rtw_proc_hdl {
++	char *name;
++	u8 type;
++	union {
++		int (*show)(struct seq_file *, void *);
++		struct seq_operations *seq_op;
++	} u;
++	ssize_t (*write)(struct file *file, const char __user *buffer, size_t count, loff_t *pos, void *data);
++};
++
++#define RTW_PROC_HDL_SEQ(_name, _seq_op, _write) \
++	{ .name = _name, .type = RTW_PROC_HDL_TYPE_SEQ, .u.seq_op = _seq_op, .write = _write}
++
++#define RTW_PROC_HDL_SSEQ(_name, _show, _write) \
++	{ .name = _name, .type = RTW_PROC_HDL_TYPE_SSEQ, .u.show = _show, .write = _write}
++
++#ifdef CONFIG_PROC_DEBUG
++
++struct proc_dir_entry *get_rtw_drv_proc(void);
++int rtw_drv_proc_init(void);
++void rtw_drv_proc_deinit(void);
++struct proc_dir_entry *rtw_adapter_proc_init(struct net_device *dev);
++void rtw_adapter_proc_deinit(struct net_device *dev);
++void rtw_adapter_proc_replace(struct net_device *dev);
++
++#else /* !CONFIG_PROC_DEBUG */
++
++#define get_rtw_drv_proc() NULL
++#define rtw_drv_proc_init() 0
++#define rtw_drv_proc_deinit() do {} while (0)
++#define rtw_adapter_proc_init(dev) NULL
++#define rtw_adapter_proc_deinit(dev) do {} while (0)
++#define rtw_adapter_proc_replace(dev) do {} while (0)
++
++#endif /* !CONFIG_PROC_DEBUG */
++
++#endif /* __RTW_PROC_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/usb_intf.c b/drivers/net/wireless/rtl8812au/os_dep/linux/usb_intf.c
+new file mode 100644
+index 0000000..a4e3f83
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/usb_intf.c
+@@ -0,0 +1,1617 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _HCI_INTF_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++
++#include <platform_ops.h>
++
++#ifndef CONFIG_USB_HCI
++#error "CONFIG_USB_HCI shall be on!\n"
++#endif
++
++#if defined(PLATFORM_LINUX) && defined (PLATFORM_WINDOWS)
++#error "Shall be Linux or Windows, but not both!\n"
++#endif
++
++#ifdef CONFIG_80211N_HT
++extern int rtw_ht_enable;
++extern int rtw_bw_mode;
++extern int rtw_ampdu_enable;/* for enable tx_ampdu */
++#endif
++
++#ifdef CONFIG_GLOBAL_UI_PID
++int ui_pid[3] = {0, 0, 0};
++#endif
++
++
++extern int pm_netdev_open(struct net_device *pnetdev, u8 bnormal);
++static int rtw_suspend(struct usb_interface *intf, pm_message_t message);
++static int rtw_resume(struct usb_interface *intf);
++
++
++static int rtw_drv_init(struct usb_interface *pusb_intf, const struct usb_device_id *pdid);
++static void rtw_dev_remove(struct usb_interface *pusb_intf);
++
++static void rtw_dev_shutdown(struct device *dev)
++{
++	struct usb_interface *usb_intf = container_of(dev, struct usb_interface, dev);
++	struct dvobj_priv *dvobj = NULL;
++	_adapter *adapter = NULL;
++	int i;
++
++	RTW_INFO("%s\n", __func__);
++
++	if (usb_intf) {
++		dvobj = usb_get_intfdata(usb_intf);
++		if (dvobj) {
++			adapter = dvobj_get_primary_adapter(dvobj);
++			if (adapter)
++				rtw_set_surprise_removed(adapter);
++			ATOMIC_SET(&dvobj->continual_io_error, MAX_CONTINUAL_IO_ERR + 1);
++		}
++	}
++}
++
++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 23))
++/* Some useful macros to use to create struct usb_device_id */
++#define USB_DEVICE_ID_MATCH_VENDOR			 0x0001
++#define USB_DEVICE_ID_MATCH_PRODUCT			 0x0002
++#define USB_DEVICE_ID_MATCH_DEV_LO			 0x0004
++#define USB_DEVICE_ID_MATCH_DEV_HI			 0x0008
++#define USB_DEVICE_ID_MATCH_DEV_CLASS			 0x0010
++#define USB_DEVICE_ID_MATCH_DEV_SUBCLASS		 0x0020
++#define USB_DEVICE_ID_MATCH_DEV_PROTOCOL		 0x0040
++#define USB_DEVICE_ID_MATCH_INT_CLASS			 0x0080
++#define USB_DEVICE_ID_MATCH_INT_SUBCLASS		 0x0100
++#define USB_DEVICE_ID_MATCH_INT_PROTOCOL		 0x0200
++#define USB_DEVICE_ID_MATCH_INT_NUMBER		 0x0400
++
++
++#define USB_DEVICE_ID_MATCH_INT_INFO \
++	(USB_DEVICE_ID_MATCH_INT_CLASS | \
++	 USB_DEVICE_ID_MATCH_INT_SUBCLASS | \
++	 USB_DEVICE_ID_MATCH_INT_PROTOCOL)
++
++
++#define USB_DEVICE_AND_INTERFACE_INFO(vend, prod, cl, sc, pr) \
++	.match_flags = USB_DEVICE_ID_MATCH_INT_INFO \
++		       | USB_DEVICE_ID_MATCH_DEVICE, \
++		       .idVendor = (vend), \
++				   .idProduct = (prod), \
++						.bInterfaceClass = (cl), \
++						.bInterfaceSubClass = (sc), \
++						.bInterfaceProtocol = (pr)
++
++/**
++ * USB_VENDOR_AND_INTERFACE_INFO - describe a specific usb vendor with a class of usb interfaces
++ * @vend: the 16 bit USB Vendor ID
++ * @cl: bInterfaceClass value
++ * @sc: bInterfaceSubClass value
++ * @pr: bInterfaceProtocol value
++ *
++ * This macro is used to create a struct usb_device_id that matches a
++ * specific vendor with a specific class of interfaces.
++ *
++ * This is especially useful when explicitly matching devices that have
++ * vendor specific bDeviceClass values, but standards-compliant interfaces.
++ */
++#define USB_VENDOR_AND_INTERFACE_INFO(vend, cl, sc, pr) \
++	.match_flags = USB_DEVICE_ID_MATCH_INT_INFO \
++		       | USB_DEVICE_ID_MATCH_VENDOR, \
++		       .idVendor = (vend), \
++				   .bInterfaceClass = (cl), \
++						   .bInterfaceSubClass = (sc), \
++						   .bInterfaceProtocol = (pr)
++
++/* ----------------------------------------------------------------------- */
++#endif
++
++
++#define USB_VENDER_ID_REALTEK		0x0BDA
++
++
++/* DID_USB_v916_20130116 */
++static struct usb_device_id rtw_usb_id_tbl[] = {
++#ifdef CONFIG_RTL8188E
++	/*=== Realtek demoboard ===*/
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8179), .driver_info = RTL8188E}, /* 8188EUS */
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x0179), .driver_info = RTL8188E}, /* 8188ETV */
++	/*=== Customer ID ===*/
++	/****** 8188EUS ********/
++	{USB_DEVICE(0x07B8, 0x8179), .driver_info = RTL8188E}, /* Abocom - Abocom */
++#endif
++
++#ifdef CONFIG_RTL8812A
++	/*=== Realtek demoboard ===*/
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8812), .driver_info = RTL8812}, /* Default ID */
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x881A), .driver_info = RTL8812}, /* Default ID */
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x881B), .driver_info = RTL8812}, /* Default ID */
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x881C), .driver_info = RTL8812}, /* Default ID */
++	/*=== Customer ID ===*/
++	{USB_DEVICE(0x050D, 0x1106), .driver_info = RTL8812}, /* Belkin - sercomm */
++	{USB_DEVICE(0x2001, 0x330E), .driver_info = RTL8812}, /* D-Link - ALPHA */
++	{USB_DEVICE(0x7392, 0xA822), .driver_info = RTL8812}, /* Edimax - Edimax */
++	{USB_DEVICE(0x0DF6, 0x0074), .driver_info = RTL8812}, /* Sitecom - Edimax */
++	{USB_DEVICE(0x04BB, 0x0952), .driver_info = RTL8812}, /* I-O DATA - Edimax */
++	{USB_DEVICE(0x0789, 0x016E), .driver_info = RTL8812}, /* Logitec - Edimax */
++	{USB_DEVICE(0x0409, 0x0408), .driver_info = RTL8812}, /* NEC - */
++	{USB_DEVICE(0x0B05, 0x17D2), .driver_info = RTL8812}, /* ASUS - Edimax */
++	{USB_DEVICE(0x0E66, 0x0022), .driver_info = RTL8812}, /* HAWKING - Edimax */
++	{USB_DEVICE(0x0586, 0x3426), .driver_info = RTL8812}, /* ZyXEL - */
++	{USB_DEVICE(0x2001, 0x3313), .driver_info = RTL8812}, /* D-Link - ALPHA */
++	{USB_DEVICE(0x1058, 0x0632), .driver_info = RTL8812}, /* WD - Cybertan*/
++	{USB_DEVICE(0x1740, 0x0100), .driver_info = RTL8812}, /* EnGenius - EnGenius */
++	{USB_DEVICE(0x2019, 0xAB30), .driver_info = RTL8812}, /* Planex - Abocom */
++	{USB_DEVICE(0x07B8, 0x8812), .driver_info = RTL8812}, /* Abocom - Abocom */
++	{USB_DEVICE(0x2001, 0x3315), .driver_info = RTL8812}, /* D-Link - Cameo */
++	{USB_DEVICE(0x2001, 0x3316), .driver_info = RTL8812}, /* D-Link - Cameo */
++#endif
++
++#ifdef CONFIG_RTL8821A
++	/*=== Realtek demoboard ===*/
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x0811), .driver_info = RTL8821}, /* Default ID */
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x0821), .driver_info = RTL8821}, /* Default ID */
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8822), .driver_info = RTL8821}, /* Default ID */
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0xA811) , .driver_info = RTL8821},/* Default ID */
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0x0820, 0xff, 0xff, 0xff), .driver_info = RTL8821}, /* 8821AU */
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0x0823, 0xff, 0xff, 0xff), .driver_info = RTL8821}, /* 8821AU */
++	/*=== Customer ID ===*/
++	{USB_DEVICE(0x7392, 0xA811), .driver_info = RTL8821}, /* Edimax - Edimax */
++	{USB_DEVICE(0x04BB, 0x0953), .driver_info = RTL8821}, /* I-O DATA - Edimax */
++	{USB_DEVICE(0x2001, 0x3314), .driver_info = RTL8821}, /* D-Link - Cameo */
++	{USB_DEVICE(0x2001, 0x3318), .driver_info = RTL8821}, /* D-Link - Cameo */
++	{USB_DEVICE(0x0E66, 0x0023), .driver_info = RTL8821}, /* HAWKING - Edimax */
++	{USB_DEVICE(0x056E, 0x400E) , .driver_info = RTL8821}, /* ELECOM -  ELECOM */
++	{USB_DEVICE(0x056E, 0x400F) , .driver_info = RTL8821}, /* ELECOM -  ELECOM */
++#endif
++
++#ifdef CONFIG_RTL8192E
++	/*=== Realtek demoboard ===*/
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0x818B, 0xff, 0xff, 0xff), .driver_info = RTL8192E}, /* Default ID */
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0x818C, 0xff, 0xff, 0xff), .driver_info = RTL8192E}, /* Default ID */
++#endif
++
++#ifdef CONFIG_RTL8723B
++	/* === Realtek demoboard === */
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0xB720, 0xff, 0xff, 0xff), .driver_info = RTL8723B}, /* 8723BU 1*1 */
++	/* {USB_DEVICE(USB_VENDER_ID_REALTEK, 0xB720),.driver_info = RTL8723B},  8723BU */
++#endif
++
++#ifdef CONFIG_RTL8703B
++	/*=== Realtek demoboard ===*/
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0xB703, 0xff, 0xff, 0xff), .driver_info = RTL8703B}, /* 8723CU 1*1 */
++	/* {USB_DEVICE(USB_VENDER_ID_REALTEK, 0xB703), .driver_info = RTL723C}, */ /* 8723CU 1*1 */
++#endif /* CONFIG_RTL8703B */
++
++#ifdef CONFIG_RTL8814A
++
++	{USB_DEVICE(USB_VENDER_ID_REALTEK, 0x8813), .driver_info = RTL8814A},
++	{USB_DEVICE(0x2001, 0x331a), .driver_info = RTL8814A}, /* D-Link - D-Link */
++	{USB_DEVICE(0x0b05, 0x1817), .driver_info = RTL8814A}, /* ASUS - ASUSTeK */
++	{USB_DEVICE(0x056E, 0x400B), .driver_info = RTL8814A}, /* ELECOM - ELECOM */
++	{USB_DEVICE(0x056E, 0x400D), .driver_info = RTL8814A}, /* ELECOM - ELECOM */
++	{USB_DEVICE(0x7392, 0xA834), .driver_info = RTL8814A}, /* Edimax - Edimax */
++#endif /* CONFIG_RTL8814A */
++
++#ifdef CONFIG_RTL8188F
++	/*=== Realtek demoboard ===*/
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0xF179, 0xff, 0xff, 0xff), .driver_info = RTL8188F}, /* 8188FU 1*1 */
++#endif
++
++#ifdef CONFIG_RTL8822B
++	/*=== Realtek demoboard ===*/
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0xB82C, 0xff, 0xff, 0xff), .driver_info = RTL8822B}, /* Default ID */
++#endif /* CONFIG_RTL8822B */
++
++#ifdef CONFIG_RTL8723D
++	/*=== Realtek demoboard ===*/
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0xD723, 0xff, 0xff, 0xff), .driver_info = RTL8723D}, /* 8723DU 1*1 */
++#endif
++
++#ifdef CONFIG_RTL8821C
++	/*=== Realtek demoboard ===*/
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0xb82b, 0xff, 0xff, 0xff), .driver_info = RTL8821C}, /* 8821CU */
++	{USB_DEVICE_AND_INTERFACE_INFO(USB_VENDER_ID_REALTEK, 0xb820, 0xff, 0xff, 0xff), .driver_info = RTL8821C}, /* 8821CU */
++	/*=== Customer ID ===*/
++#endif
++
++	{}	/* Terminating entry */
++};
++
++MODULE_DEVICE_TABLE(usb, rtw_usb_id_tbl);
++
++int const rtw_usb_id_len = sizeof(rtw_usb_id_tbl) / sizeof(struct usb_device_id);
++
++static struct specific_device_id specific_device_id_tbl[] = {
++	{.idVendor = USB_VENDER_ID_REALTEK, .idProduct = 0x8177, .flags = SPEC_DEV_ID_DISABLE_HT}, /* 8188cu 1*1 dongole, (b/g mode only) */
++	{.idVendor = USB_VENDER_ID_REALTEK, .idProduct = 0x817E, .flags = SPEC_DEV_ID_DISABLE_HT}, /* 8188CE-VAU USB minCard (b/g mode only) */
++	{.idVendor = 0x0b05, .idProduct = 0x1791, .flags = SPEC_DEV_ID_DISABLE_HT},
++	{.idVendor = 0x13D3, .idProduct = 0x3311, .flags = SPEC_DEV_ID_DISABLE_HT},
++	{.idVendor = 0x13D3, .idProduct = 0x3359, .flags = SPEC_DEV_ID_DISABLE_HT}, /* Russian customer -Azwave (8188CE-VAU  g mode) */
++#ifdef RTK_DMP_PLATFORM
++	{.idVendor = USB_VENDER_ID_REALTEK, .idProduct = 0x8111, .flags = SPEC_DEV_ID_ASSIGN_IFNAME}, /* Realtek 5G dongle for WiFi Display */
++	{.idVendor = 0x2019, .idProduct = 0xAB2D, .flags = SPEC_DEV_ID_ASSIGN_IFNAME}, /* PCI-Abocom 5G dongle for WiFi Display */
++#endif /* RTK_DMP_PLATFORM */
++	{}
++};
++
++struct rtw_usb_drv {
++	struct usb_driver usbdrv;
++	int drv_registered;
++	u8 hw_type;
++};
++
++struct rtw_usb_drv usb_drv = {
++	.usbdrv.name = (char *)DRV_NAME,
++	.usbdrv.probe = rtw_drv_init,
++	.usbdrv.disconnect = rtw_dev_remove,
++	.usbdrv.id_table = rtw_usb_id_tbl,
++	.usbdrv.suspend =  rtw_suspend,
++	.usbdrv.resume = rtw_resume,
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 22))
++	.usbdrv.reset_resume   = rtw_resume,
++#endif
++#ifdef CONFIG_AUTOSUSPEND
++	.usbdrv.supports_autosuspend = 1,
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 19))
++	.usbdrv.drvwrap.driver.shutdown = rtw_dev_shutdown,
++#else
++	.usbdrv.driver.shutdown = rtw_dev_shutdown,
++#endif
++};
++
++static inline int RT_usb_endpoint_dir_in(const struct usb_endpoint_descriptor *epd)
++{
++	return (epd->bEndpointAddress & USB_ENDPOINT_DIR_MASK) == USB_DIR_IN;
++}
++
++static inline int RT_usb_endpoint_dir_out(const struct usb_endpoint_descriptor *epd)
++{
++	return (epd->bEndpointAddress & USB_ENDPOINT_DIR_MASK) == USB_DIR_OUT;
++}
++
++static inline int RT_usb_endpoint_xfer_int(const struct usb_endpoint_descriptor *epd)
++{
++	return (epd->bmAttributes & USB_ENDPOINT_XFERTYPE_MASK) == USB_ENDPOINT_XFER_INT;
++}
++
++static inline int RT_usb_endpoint_xfer_bulk(const struct usb_endpoint_descriptor *epd)
++{
++	return (epd->bmAttributes & USB_ENDPOINT_XFERTYPE_MASK) == USB_ENDPOINT_XFER_BULK;
++}
++
++static inline int RT_usb_endpoint_is_bulk_in(const struct usb_endpoint_descriptor *epd)
++{
++	return RT_usb_endpoint_xfer_bulk(epd) && RT_usb_endpoint_dir_in(epd);
++}
++
++static inline int RT_usb_endpoint_is_bulk_out(const struct usb_endpoint_descriptor *epd)
++{
++	return RT_usb_endpoint_xfer_bulk(epd) && RT_usb_endpoint_dir_out(epd);
++}
++
++static inline int RT_usb_endpoint_is_int_in(const struct usb_endpoint_descriptor *epd)
++{
++	return RT_usb_endpoint_xfer_int(epd) && RT_usb_endpoint_dir_in(epd);
++}
++
++static inline int RT_usb_endpoint_num(const struct usb_endpoint_descriptor *epd)
++{
++	return epd->bEndpointAddress & USB_ENDPOINT_NUMBER_MASK;
++}
++
++static u8 rtw_init_intf_priv(struct dvobj_priv *dvobj)
++{
++	u8 rst = _SUCCESS;
++
++#ifdef CONFIG_USB_VENDOR_REQ_MUTEX
++	_rtw_mutex_init(&dvobj->usb_vendor_req_mutex);
++#endif
++
++
++#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC
++	dvobj->usb_alloc_vendor_req_buf = rtw_zmalloc(MAX_USB_IO_CTL_SIZE);
++	if (dvobj->usb_alloc_vendor_req_buf == NULL) {
++		RTW_INFO("alloc usb_vendor_req_buf failed... /n");
++		rst = _FAIL;
++		goto exit;
++	}
++	dvobj->usb_vendor_req_buf  =
++		(u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(dvobj->usb_alloc_vendor_req_buf), ALIGNMENT_UNIT);
++exit:
++#endif
++
++	return rst;
++
++}
++
++static u8 rtw_deinit_intf_priv(struct dvobj_priv *dvobj)
++{
++	u8 rst = _SUCCESS;
++
++#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC
++	if (dvobj->usb_vendor_req_buf)
++		rtw_mfree(dvobj->usb_alloc_vendor_req_buf, MAX_USB_IO_CTL_SIZE);
++#endif
++
++#ifdef CONFIG_USB_VENDOR_REQ_MUTEX
++	_rtw_mutex_free(&dvobj->usb_vendor_req_mutex);
++#endif
++
++	return rst;
++}
++static void rtw_decide_chip_type_by_usb_info(struct dvobj_priv *pdvobjpriv, const struct usb_device_id *pdid)
++{
++	pdvobjpriv->chip_type = pdid->driver_info;
++
++#ifdef CONFIG_RTL8188E
++	if (pdvobjpriv->chip_type == RTL8188E)
++		rtl8188eu_set_hw_type(pdvobjpriv);
++#endif
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++	if (pdvobjpriv->chip_type == RTL8812 || pdvobjpriv->chip_type == RTL8821)
++		rtl8812au_set_hw_type(pdvobjpriv);
++#endif
++
++#ifdef CONFIG_RTL8192E
++	if (pdvobjpriv->chip_type == RTL8192E)
++		rtl8192eu_set_hw_type(pdvobjpriv);
++#endif
++
++#ifdef CONFIG_RTL8723B
++	if (pdvobjpriv->chip_type == RTL8723B)
++		rtl8723bu_set_hw_type(pdvobjpriv);
++#endif
++
++#ifdef CONFIG_RTL8814A
++	if (pdvobjpriv->chip_type == RTL8814A)
++		rtl8814au_set_hw_type(pdvobjpriv);
++#endif /* CONFIG_RTL8814A */
++
++#ifdef CONFIG_RTL8188F
++	if (pdvobjpriv->chip_type == RTL8188F)
++		rtl8188fu_set_hw_type(pdvobjpriv);
++#endif
++
++#ifdef CONFIG_RTL8703B
++	if (pdvobjpriv->chip_type == RTL8703B)
++		rtl8703bu_set_hw_type(pdvobjpriv);
++#endif /* CONFIG_RTL8703B */
++
++#ifdef CONFIG_RTL8822B
++	if (pdvobjpriv->chip_type == RTL8822B)
++		rtl8822bu_set_hw_type(pdvobjpriv);
++#endif /* CONFIG_RTL8822B */
++
++#ifdef CONFIG_RTL8723D
++	if (pdvobjpriv->chip_type == RTL8723D)
++		rtl8723du_set_hw_type(pdvobjpriv);
++#endif /* CONFIG_RTL8723D */
++
++#ifdef CONFIG_RTL8821C
++	if (pdvobjpriv->chip_type == RTL8821C)
++		rtl8821cu_set_hw_type(pdvobjpriv);
++#endif /* CONFIG_RTL8821C */
++}
++
++static struct dvobj_priv *usb_dvobj_init(struct usb_interface *usb_intf, const struct usb_device_id *pdid)
++{
++	int	i;
++	u8	val8;
++	int	status = _FAIL;
++	struct dvobj_priv *pdvobjpriv;
++	struct usb_device_descriptor	*pdev_desc;
++	struct usb_host_config			*phost_conf;
++	struct usb_config_descriptor		*pconf_desc;
++	struct usb_host_interface		*phost_iface;
++	struct usb_interface_descriptor	*piface_desc;
++	struct usb_host_endpoint		*phost_endp;
++	struct usb_endpoint_descriptor	*pendp_desc;
++	struct usb_device				*pusbd;
++
++
++
++	pdvobjpriv = devobj_init();
++	if (pdvobjpriv == NULL)
++		goto exit;
++
++
++	pdvobjpriv->pusbintf = usb_intf ;
++	pusbd = pdvobjpriv->pusbdev = interface_to_usbdev(usb_intf);
++	usb_set_intfdata(usb_intf, pdvobjpriv);
++
++	pdvobjpriv->RtNumInPipes = 0;
++	pdvobjpriv->RtNumOutPipes = 0;
++
++	/* padapter->EepromAddressSize = 6; */
++	/* pdvobjpriv->nr_endpoint = 6; */
++
++	pdev_desc = &pusbd->descriptor;
++
++#if 0
++	RTW_INFO("\n8712_usb_device_descriptor:\n");
++	RTW_INFO("bLength=%x\n", pdev_desc->bLength);
++	RTW_INFO("bDescriptorType=%x\n", pdev_desc->bDescriptorType);
++	RTW_INFO("bcdUSB=%x\n", pdev_desc->bcdUSB);
++	RTW_INFO("bDeviceClass=%x\n", pdev_desc->bDeviceClass);
++	RTW_INFO("bDeviceSubClass=%x\n", pdev_desc->bDeviceSubClass);
++	RTW_INFO("bDeviceProtocol=%x\n", pdev_desc->bDeviceProtocol);
++	RTW_INFO("bMaxPacketSize0=%x\n", pdev_desc->bMaxPacketSize0);
++	RTW_INFO("idVendor=%x\n", pdev_desc->idVendor);
++	RTW_INFO("idProduct=%x\n", pdev_desc->idProduct);
++	RTW_INFO("bcdDevice=%x\n", pdev_desc->bcdDevice);
++	RTW_INFO("iManufacturer=%x\n", pdev_desc->iManufacturer);
++	RTW_INFO("iProduct=%x\n", pdev_desc->iProduct);
++	RTW_INFO("iSerialNumber=%x\n", pdev_desc->iSerialNumber);
++	RTW_INFO("bNumConfigurations=%x\n", pdev_desc->bNumConfigurations);
++#endif
++
++	phost_conf = pusbd->actconfig;
++	pconf_desc = &phost_conf->desc;
++
++#if 0
++	RTW_INFO("\n8712_usb_configuration_descriptor:\n");
++	RTW_INFO("bLength=%x\n", pconf_desc->bLength);
++	RTW_INFO("bDescriptorType=%x\n", pconf_desc->bDescriptorType);
++	RTW_INFO("wTotalLength=%x\n", pconf_desc->wTotalLength);
++	RTW_INFO("bNumInterfaces=%x\n", pconf_desc->bNumInterfaces);
++	RTW_INFO("bConfigurationValue=%x\n", pconf_desc->bConfigurationValue);
++	RTW_INFO("iConfiguration=%x\n", pconf_desc->iConfiguration);
++	RTW_INFO("bmAttributes=%x\n", pconf_desc->bmAttributes);
++	RTW_INFO("bMaxPower=%x\n", pconf_desc->bMaxPower);
++#endif
++
++	/* RTW_INFO("\n***** num of altsetting = (%d) *****\n", pusb_interface->num_altsetting); */
++
++	phost_iface = &usb_intf->altsetting[0];
++	piface_desc = &phost_iface->desc;
++
++#if 0
++	RTW_INFO("\n8712_usb_interface_descriptor:\n");
++	RTW_INFO("bLength=%x\n", piface_desc->bLength);
++	RTW_INFO("bDescriptorType=%x\n", piface_desc->bDescriptorType);
++	RTW_INFO("bInterfaceNumber=%x\n", piface_desc->bInterfaceNumber);
++	RTW_INFO("bAlternateSetting=%x\n", piface_desc->bAlternateSetting);
++	RTW_INFO("bNumEndpoints=%x\n", piface_desc->bNumEndpoints);
++	RTW_INFO("bInterfaceClass=%x\n", piface_desc->bInterfaceClass);
++	RTW_INFO("bInterfaceSubClass=%x\n", piface_desc->bInterfaceSubClass);
++	RTW_INFO("bInterfaceProtocol=%x\n", piface_desc->bInterfaceProtocol);
++	RTW_INFO("iInterface=%x\n", piface_desc->iInterface);
++#endif
++
++	pdvobjpriv->NumInterfaces = pconf_desc->bNumInterfaces;
++	pdvobjpriv->InterfaceNumber = piface_desc->bInterfaceNumber;
++	pdvobjpriv->nr_endpoint = piface_desc->bNumEndpoints;
++
++	/* RTW_INFO("\ndump usb_endpoint_descriptor:\n"); */
++
++	for (i = 0; i < pdvobjpriv->nr_endpoint; i++) {
++		phost_endp = phost_iface->endpoint + i;
++		if (phost_endp) {
++			pendp_desc = &phost_endp->desc;
++
++			RTW_INFO("\nusb_endpoint_descriptor(%d):\n", i);
++			RTW_INFO("bLength=%x\n", pendp_desc->bLength);
++			RTW_INFO("bDescriptorType=%x\n", pendp_desc->bDescriptorType);
++			RTW_INFO("bEndpointAddress=%x\n", pendp_desc->bEndpointAddress);
++			/* RTW_INFO("bmAttributes=%x\n",pendp_desc->bmAttributes); */
++			RTW_INFO("wMaxPacketSize=%d\n", le16_to_cpu(pendp_desc->wMaxPacketSize));
++			RTW_INFO("bInterval=%x\n", pendp_desc->bInterval);
++			/* RTW_INFO("bRefresh=%x\n",pendp_desc->bRefresh); */
++			/* RTW_INFO("bSynchAddress=%x\n",pendp_desc->bSynchAddress); */
++
++			if (RT_usb_endpoint_is_bulk_in(pendp_desc)) {
++				RTW_INFO("RT_usb_endpoint_is_bulk_in = %x\n", RT_usb_endpoint_num(pendp_desc));
++				pdvobjpriv->RtInPipe[pdvobjpriv->RtNumInPipes] = RT_usb_endpoint_num(pendp_desc);
++				pdvobjpriv->RtNumInPipes++;
++			} else if (RT_usb_endpoint_is_int_in(pendp_desc)) {
++				RTW_INFO("RT_usb_endpoint_is_int_in = %x, Interval = %x\n", RT_usb_endpoint_num(pendp_desc), pendp_desc->bInterval);
++				pdvobjpriv->RtInPipe[pdvobjpriv->RtNumInPipes] = RT_usb_endpoint_num(pendp_desc);
++				pdvobjpriv->RtNumInPipes++;
++			} else if (RT_usb_endpoint_is_bulk_out(pendp_desc)) {
++				RTW_INFO("RT_usb_endpoint_is_bulk_out = %x\n", RT_usb_endpoint_num(pendp_desc));
++				pdvobjpriv->RtOutPipe[pdvobjpriv->RtNumOutPipes] = RT_usb_endpoint_num(pendp_desc);
++				pdvobjpriv->RtNumOutPipes++;
++			}
++			pdvobjpriv->ep_num[i] = RT_usb_endpoint_num(pendp_desc);
++		}
++	}
++
++	RTW_INFO("nr_endpoint=%d, in_num=%d, out_num=%d\n\n", pdvobjpriv->nr_endpoint, pdvobjpriv->RtNumInPipes, pdvobjpriv->RtNumOutPipes);
++
++	switch (pusbd->speed) {
++	case USB_SPEED_LOW:
++		RTW_INFO("USB_SPEED_LOW\n");
++		pdvobjpriv->usb_speed = RTW_USB_SPEED_1_1;
++		break;
++	case USB_SPEED_FULL:
++		RTW_INFO("USB_SPEED_FULL\n");
++		pdvobjpriv->usb_speed = RTW_USB_SPEED_1_1;
++		break;
++	case USB_SPEED_HIGH:
++		RTW_INFO("USB_SPEED_HIGH\n");
++		pdvobjpriv->usb_speed = RTW_USB_SPEED_2;
++		break;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 31))
++	case USB_SPEED_SUPER:
++		RTW_INFO("USB_SPEED_SUPER\n");
++		pdvobjpriv->usb_speed = RTW_USB_SPEED_3;
++		break;
++#endif
++	default:
++		RTW_INFO("USB_SPEED_UNKNOWN(%x)\n", pusbd->speed);
++		pdvobjpriv->usb_speed = RTW_USB_SPEED_UNKNOWN;
++		break;
++	}
++
++	if (pdvobjpriv->usb_speed == RTW_USB_SPEED_UNKNOWN) {
++		RTW_INFO("UNKNOWN USB SPEED MODE, ERROR !!!\n");
++		goto free_dvobj;
++	}
++
++	if (rtw_init_intf_priv(pdvobjpriv) == _FAIL) {
++		goto free_dvobj;
++	}
++
++	/*step 1-1., decide the chip_type via driver_info*/
++	pdvobjpriv->interface_type = RTW_USB;
++	rtw_decide_chip_type_by_usb_info(pdvobjpriv, pdid);
++
++	/* .3 misc */
++	_rtw_init_sema(&(pdvobjpriv->usb_suspend_sema), 0);
++	rtw_reset_continual_io_error(pdvobjpriv);
++
++	usb_get_dev(pusbd);
++
++	status = _SUCCESS;
++
++free_dvobj:
++	if (status != _SUCCESS && pdvobjpriv) {
++		usb_set_intfdata(usb_intf, NULL);
++
++		devobj_deinit(pdvobjpriv);
++
++		pdvobjpriv = NULL;
++	}
++exit:
++	return pdvobjpriv;
++}
++
++static void usb_dvobj_deinit(struct usb_interface *usb_intf)
++{
++	struct dvobj_priv *dvobj = usb_get_intfdata(usb_intf);
++
++
++	usb_set_intfdata(usb_intf, NULL);
++	if (dvobj) {
++		/* Modify condition for 92DU DMDP 2010.11.18, by Thomas */
++		if ((dvobj->NumInterfaces != 2 && dvobj->NumInterfaces != 3)
++		    || (dvobj->InterfaceNumber == 1)) {
++			if (interface_to_usbdev(usb_intf)->state != USB_STATE_NOTATTACHED) {
++				/* If we didn't unplug usb dongle and remove/insert modlue, driver fails on sitesurvey for the first time when device is up . */
++				/* Reset usb port for sitesurvey fail issue. 2009.8.13, by Thomas */
++				RTW_INFO("usb attached..., try to reset usb device\n");
++				usb_reset_device(interface_to_usbdev(usb_intf));
++			}
++		}
++
++		rtw_deinit_intf_priv(dvobj);
++
++		devobj_deinit(dvobj);
++	}
++
++	/* RTW_INFO("%s %d\n", __func__, ATOMIC_READ(&usb_intf->dev.kobj.kref.refcount)); */
++	usb_put_dev(interface_to_usbdev(usb_intf));
++
++}
++
++static int usb_reprobe_switch_usb_mode(PADAPTER Adapter)
++{
++	struct registry_priv *registry_par = &Adapter->registrypriv;
++	HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
++	u8 ret = _FALSE;
++
++	/* efuse not allow driver to switch usb mode */
++	if (pHalData->EEPROMUsbSwitch == _FALSE)
++		goto exit;
++
++	/* registry not allow driver to switch usb mode */
++	if (registry_par->switch_usb_mode == 0)
++		goto exit;
++
++	rtw_hal_set_hwreg(Adapter, HW_VAR_USB_MODE, &ret);
++
++exit:
++	return ret;
++}
++
++u8 rtw_set_hal_ops(_adapter *padapter)
++{
++	/* alloc memory for HAL DATA */
++	if (rtw_hal_data_init(padapter) == _FAIL)
++		return _FAIL;
++
++#ifdef CONFIG_RTL8188E
++	if (rtw_get_chip_type(padapter) == RTL8188E)
++		rtl8188eu_set_hal_ops(padapter);
++#endif
++
++#if defined(CONFIG_RTL8812A) || defined(CONFIG_RTL8821A)
++	if (rtw_get_chip_type(padapter) == RTL8812 || rtw_get_chip_type(padapter) == RTL8821)
++		rtl8812au_set_hal_ops(padapter);
++#endif
++
++#ifdef CONFIG_RTL8192E
++	if (rtw_get_chip_type(padapter) == RTL8192E)
++		rtl8192eu_set_hal_ops(padapter);
++#endif
++#ifdef CONFIG_RTL8723B
++	if (rtw_get_chip_type(padapter) == RTL8723B)
++		rtl8723bu_set_hal_ops(padapter);
++#endif
++#ifdef CONFIG_RTL8814A
++	if (rtw_get_chip_type(padapter) == RTL8814A)
++		rtl8814au_set_hal_ops(padapter);
++#endif /* CONFIG_RTL8814A */
++
++#ifdef CONFIG_RTL8188F
++	if (rtw_get_chip_type(padapter) == RTL8188F)
++		rtl8188fu_set_hal_ops(padapter);
++#endif
++
++#ifdef CONFIG_RTL8703B
++	if (rtw_get_chip_type(padapter) == RTL8703B)
++		rtl8703bu_set_hal_ops(padapter);
++#endif /* CONFIG_RTL8703B */
++
++#ifdef CONFIG_RTL8822B
++	if (rtw_get_chip_type(padapter) == RTL8822B)
++		rtl8822bu_set_hal_ops(padapter);
++#endif /* CONFIG_RTL8822B */
++
++#ifdef CONFIG_RTL8723D
++	if (rtw_get_chip_type(padapter) == RTL8723D)
++		rtl8723du_set_hal_ops(padapter);
++#endif /* CONFIG_RTL8723D */
++
++
++#ifdef CONFIG_RTL8821C
++	if (rtw_get_chip_type(padapter) == RTL8821C) {
++		if (rtl8821cu_set_hal_ops(padapter) == _FAIL)
++			return _FAIL;
++	}
++#endif
++
++	if (_FAIL == rtw_hal_ops_check(padapter))
++		return _FAIL;
++
++	if (hal_spec_init(padapter) == _FAIL)
++		return _FAIL;
++
++	return _SUCCESS;
++}
++
++static void usb_intf_start(_adapter *padapter)
++{
++	PHAL_DATA_TYPE hal = GET_HAL_DATA(padapter);
++
++	rtw_hal_inirp_init(padapter);
++	hal->usb_intf_start = _TRUE;
++
++
++}
++
++static void usb_intf_stop(_adapter *padapter)
++{
++	PHAL_DATA_TYPE hal = GET_HAL_DATA(padapter);
++
++	/* disabel_hw_interrupt */
++	if (!rtw_is_surprise_removed(padapter)) {
++		/* device still exists, so driver can do i/o operation */
++		/* TODO: */
++	}
++
++	/* cancel in irp */
++	rtw_hal_inirp_deinit(padapter);
++
++	/* cancel out irp */
++	rtw_write_port_cancel(padapter);
++
++	/* todo:cancel other irps */
++
++	hal->usb_intf_start = _FALSE;
++
++}
++
++static void process_spec_devid(const struct usb_device_id *pdid)
++{
++	u16 vid, pid;
++	u32 flags;
++	int i;
++	int num = sizeof(specific_device_id_tbl) / sizeof(struct specific_device_id);
++
++	for (i = 0; i < num; i++) {
++		vid = specific_device_id_tbl[i].idVendor;
++		pid = specific_device_id_tbl[i].idProduct;
++		flags = specific_device_id_tbl[i].flags;
++
++#ifdef CONFIG_80211N_HT
++		if ((pdid->idVendor == vid) && (pdid->idProduct == pid) && (flags & SPEC_DEV_ID_DISABLE_HT)) {
++			rtw_ht_enable = 0;
++			rtw_bw_mode = 0;
++			rtw_ampdu_enable = 0;
++		}
++#endif
++
++#ifdef RTK_DMP_PLATFORM
++		/* Change the ifname to wlan10 when PC side WFD dongle plugin on DMP platform. */
++		/* It is used to distinguish between normal and PC-side wifi dongle/module. */
++		if ((pdid->idVendor == vid) && (pdid->idProduct == pid) && (flags & SPEC_DEV_ID_ASSIGN_IFNAME)) {
++			extern char *ifname;
++			strncpy(ifname, "wlan10", 6);
++			/* RTW_INFO("%s()-%d: ifname=%s, vid=%04X, pid=%04X\n", __FUNCTION__, __LINE__, ifname, vid, pid); */
++		}
++#endif /* RTK_DMP_PLATFORM */
++
++	}
++}
++
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++int rtw_hw_suspend(_adapter *padapter)
++{
++	struct pwrctrl_priv *pwrpriv;
++	struct usb_interface *pusb_intf;
++	struct net_device *pnetdev;
++
++	if (NULL == padapter)
++		goto error_exit;
++
++	if ((_FALSE == padapter->bup) || RTW_CANNOT_RUN(padapter)) {
++		RTW_INFO("padapter->bup=%d bDriverStopped=%s bSurpriseRemoved = %s\n"
++			 , padapter->bup
++			 , rtw_is_drv_stopped(padapter) ? "True" : "False"
++			, rtw_is_surprise_removed(padapter) ? "True" : "False");
++		goto error_exit;
++	}
++
++	pwrpriv = adapter_to_pwrctl(padapter);
++	pusb_intf = adapter_to_dvobj(padapter)->pusbintf;
++	pnetdev = padapter->pnetdev;
++
++	LeaveAllPowerSaveMode(padapter);
++
++	RTW_INFO("==> rtw_hw_suspend\n");
++	_enter_pwrlock(&pwrpriv->lock);
++	pwrpriv->bips_processing = _TRUE;
++	/* padapter->net_closed = _TRUE; */
++	/* s1. */
++	if (pnetdev) {
++		netif_carrier_off(pnetdev);
++		rtw_netif_stop_queue(pnetdev);
++	}
++
++	/* s2. */
++	rtw_disassoc_cmd(padapter, 500, _FALSE);
++
++	/* s2-2.  indicate disconnect to os */
++	/* rtw_indicate_disconnect(padapter); */
++	{
++		struct	mlme_priv *pmlmepriv = &padapter->mlmepriv;
++		if (check_fwstate(pmlmepriv, _FW_LINKED)) {
++			_clr_fwstate_(pmlmepriv, _FW_LINKED);
++			rtw_led_control(padapter, LED_CTL_NO_LINK);
++
++			rtw_os_indicate_disconnect(padapter, 0, _FALSE);
++
++#ifdef CONFIG_LPS
++			/* donnot enqueue cmd */
++			rtw_lps_ctrl_wk_cmd(padapter, LPS_CTRL_DISCONNECT, 0);
++#endif
++		}
++	}
++	/* s2-3. */
++	rtw_free_assoc_resources(padapter, 1);
++
++	/* s2-4. */
++	rtw_free_network_queue(padapter, _TRUE);
++#ifdef CONFIG_IPS
++	rtw_ips_dev_unload(padapter);
++#endif
++	pwrpriv->rf_pwrstate = rf_off;
++	pwrpriv->bips_processing = _FALSE;
++	_exit_pwrlock(&pwrpriv->lock);
++
++	return 0;
++
++error_exit:
++	RTW_INFO("%s, failed\n", __FUNCTION__);
++	return -1;
++
++}
++
++int rtw_hw_resume(_adapter *padapter)
++{
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct usb_interface *pusb_intf = adapter_to_dvobj(padapter)->pusbintf;
++	struct net_device *pnetdev = padapter->pnetdev;
++
++	RTW_INFO("==> rtw_hw_resume\n");
++	_enter_pwrlock(&pwrpriv->lock);
++	pwrpriv->bips_processing = _TRUE;
++	rtw_reset_drv_sw(padapter);
++
++	if (pm_netdev_open(pnetdev, _FALSE) != 0) {
++		_exit_pwrlock(&pwrpriv->lock);
++		goto error_exit;
++	}
++
++	rtw_netif_carrier_on(pnetdev);
++
++	rtw_netif_wake_queue(pnetdev);
++
++	pwrpriv->bkeepfwalive = _FALSE;
++	pwrpriv->brfoffbyhw = _FALSE;
++
++	pwrpriv->rf_pwrstate = rf_on;
++	pwrpriv->bips_processing = _FALSE;
++	_exit_pwrlock(&pwrpriv->lock);
++
++
++	return 0;
++error_exit:
++	RTW_INFO("%s, Open net dev failed\n", __FUNCTION__);
++	return -1;
++}
++#endif
++
++static int rtw_suspend(struct usb_interface *pusb_intf, pm_message_t message)
++{
++	struct dvobj_priv *dvobj;
++	struct pwrctrl_priv *pwrpriv;
++	struct debug_priv *pdbgpriv;
++	PADAPTER padapter;
++	int ret = 0;
++
++
++	dvobj = usb_get_intfdata(pusb_intf);
++	pwrpriv = dvobj_to_pwrctl(dvobj);
++	pdbgpriv = &dvobj->drv_dbg;
++	padapter = dvobj_get_primary_adapter(dvobj);
++
++	if (pwrpriv->bInSuspend == _TRUE) {
++		RTW_INFO("%s bInSuspend = %d\n", __FUNCTION__, pwrpriv->bInSuspend);
++		pdbgpriv->dbg_suspend_error_cnt++;
++		goto exit;
++	}
++
++	if ((padapter->bup) || !rtw_is_drv_stopped(padapter) || !rtw_is_surprise_removed(padapter)) {
++#ifdef CONFIG_AUTOSUSPEND
++		if (pwrpriv->bInternalAutoSuspend) {
++
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++			/* The FW command register update must after MAC and FW init ready. */
++			if ((padapter->bFWReady) && (pwrpriv->bHWPwrPindetect) && (padapter->registrypriv.usbss_enable)) {
++				u8 bOpen = _TRUE;
++				rtw_interface_ps_func(padapter, HAL_USB_SELECT_SUSPEND, &bOpen);
++			}
++#endif/* SUPPORT_HW_RFOFF_DETECTED */
++		}
++#endif/* CONFIG_AUTOSUSPEND */
++	}
++
++	ret =  rtw_suspend_common(padapter);
++
++exit:
++	return ret;
++}
++
++int rtw_resume_process(_adapter *padapter)
++{
++	int ret, pm_cnt = 0;
++	struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
++	struct dvobj_priv *pdvobj = padapter->dvobj;
++	struct debug_priv *pdbgpriv = &pdvobj->drv_dbg;
++
++
++	if (pwrpriv->bInSuspend == _FALSE) {
++		pdbgpriv->dbg_resume_error_cnt++;
++		RTW_INFO("%s bInSuspend = %d\n", __FUNCTION__, pwrpriv->bInSuspend);
++		return -1;
++	}
++
++#if defined(CONFIG_BT_COEXIST) && defined(CONFIG_AUTOSUSPEND) /* add by amy for 8723as-vau */
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 32))
++	RTW_INFO("%s...pm_usage_cnt(%d)  pwrpriv->bAutoResume=%x.  ....\n", __func__, atomic_read(&(adapter_to_dvobj(padapter)->pusbintf->pm_usage_cnt)), pwrpriv->bAutoResume);
++	pm_cnt = atomic_read(&(adapter_to_dvobj(padapter)->pusbintf->pm_usage_cnt));
++#else /* kernel < 2.6.32 */
++	RTW_INFO("...pm_usage_cnt(%d).....\n", adapter_to_dvobj(padapter)->pusbintf->pm_usage_cnt);
++	pm_cnt = adapter_to_dvobj(padapter)->pusbintf->pm_usage_cnt;
++#endif /* kernel < 2.6.32 */
++
++	RTW_INFO("pwrpriv->bAutoResume (%x)\n", pwrpriv->bAutoResume);
++	if (_TRUE == pwrpriv->bAutoResume) {
++		pwrpriv->bInternalAutoSuspend = _FALSE;
++		pwrpriv->bAutoResume = _FALSE;
++		RTW_INFO("pwrpriv->bAutoResume (%x)  pwrpriv->bInternalAutoSuspend(%x)\n", pwrpriv->bAutoResume, pwrpriv->bInternalAutoSuspend);
++
++	}
++#endif /* #ifdef CONFIG_BT_COEXIST &CONFIG_AUTOSUSPEND& */
++
++	/*
++	 * Due to usb wow suspend flow will cancel read/write port via intf_stop and
++	 * bReadPortCancel and bWritePortCancel are set _TRUE in intf_stop.
++	 * But they will not be clear in intf_start during wow resume flow.
++	 * It should move to os_intf in the feature.
++	 */
++	RTW_ENABLE_FUNC(padapter, DF_RX_BIT);
++	RTW_ENABLE_FUNC(padapter, DF_TX_BIT);
++
++	ret =  rtw_resume_common(padapter);
++
++#ifdef CONFIG_AUTOSUSPEND
++	if (pwrpriv->bInternalAutoSuspend) {
++#ifdef SUPPORT_HW_RFOFF_DETECTED
++		/* The FW command register update must after MAC and FW init ready. */
++		if ((padapter->bFWReady) && (pwrpriv->bHWPwrPindetect) && (padapter->registrypriv.usbss_enable)) {
++			u8 bOpen = _FALSE;
++			rtw_interface_ps_func(padapter, HAL_USB_SELECT_SUSPEND, &bOpen);
++		}
++#endif
++#ifdef CONFIG_BT_COEXIST /* for 8723as-vau */
++		RTW_INFO("pwrpriv->bAutoResume (%x)\n", pwrpriv->bAutoResume);
++		if (_TRUE == pwrpriv->bAutoResume) {
++			pwrpriv->bInternalAutoSuspend = _FALSE;
++			pwrpriv->bAutoResume = _FALSE;
++			RTW_INFO("pwrpriv->bAutoResume (%x)  pwrpriv->bInternalAutoSuspend(%x)\n", pwrpriv->bAutoResume, pwrpriv->bInternalAutoSuspend);
++		}
++
++#else	/* #ifdef CONFIG_BT_COEXIST */
++		pwrpriv->bInternalAutoSuspend = _FALSE;
++#endif	/* #ifdef CONFIG_BT_COEXIST */
++		pwrpriv->brfoffbyhw = _FALSE;
++	}
++#endif/* CONFIG_AUTOSUSPEND */
++
++
++	return ret;
++}
++
++static int rtw_resume(struct usb_interface *pusb_intf)
++{
++	struct dvobj_priv *dvobj;
++	struct pwrctrl_priv *pwrpriv;
++	struct debug_priv *pdbgpriv;
++	PADAPTER padapter;
++	struct mlme_ext_priv *pmlmeext;
++	int ret = 0;
++
++
++	dvobj = usb_get_intfdata(pusb_intf);
++	pwrpriv = dvobj_to_pwrctl(dvobj);
++	pdbgpriv = &dvobj->drv_dbg;
++	padapter = dvobj_get_primary_adapter(dvobj);
++	pmlmeext = &padapter->mlmeextpriv;
++
++	RTW_INFO("==> %s (%s:%d)\n", __FUNCTION__, current->comm, current->pid);
++	pdbgpriv->dbg_resume_cnt++;
++
++	if (pwrpriv->bInternalAutoSuspend)
++		ret = rtw_resume_process(padapter);
++	else {
++		if (pwrpriv->wowlan_mode || pwrpriv->wowlan_ap_mode) {
++			rtw_resume_lock_suspend();
++			ret = rtw_resume_process(padapter);
++			rtw_resume_unlock_suspend();
++		} else {
++#ifdef CONFIG_RESUME_IN_WORKQUEUE
++			rtw_resume_in_workqueue(pwrpriv);
++#else
++			if (rtw_is_earlysuspend_registered(pwrpriv)) {
++				/* jeff: bypass resume here, do in late_resume */
++				rtw_set_do_late_resume(pwrpriv, _TRUE);
++			} else {
++				rtw_resume_lock_suspend();
++				ret = rtw_resume_process(padapter);
++				rtw_resume_unlock_suspend();
++			}
++#endif
++		}
++	}
++
++	pmlmeext->last_scan_time = rtw_get_current_time();
++	RTW_INFO("<========  %s return %d\n", __FUNCTION__, ret);
++
++	return ret;
++}
++
++
++
++#ifdef CONFIG_AUTOSUSPEND
++void autosuspend_enter(_adapter *padapter)
++{
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv *pwrpriv = dvobj_to_pwrctl(dvobj);
++
++	RTW_INFO("==>autosuspend_enter...........\n");
++
++	pwrpriv->bInternalAutoSuspend = _TRUE;
++	pwrpriv->bips_processing = _TRUE;
++
++	if (rf_off == pwrpriv->change_rfpwrstate) {
++#ifndef	CONFIG_BT_COEXIST
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++		usb_enable_autosuspend(dvobj->pusbdev);
++#else
++		dvobj->pusbdev->autosuspend_disabled = 0;/* autosuspend disabled by the user */
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 33))
++		usb_autopm_put_interface(dvobj->pusbintf);
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 20))
++		usb_autopm_enable(dvobj->pusbintf);
++#else
++		usb_autosuspend_device(dvobj->pusbdev, 1);
++#endif
++#else	/* #ifndef	CONFIG_BT_COEXIST */
++		if (1 == pwrpriv->autopm_cnt) {
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++			usb_enable_autosuspend(dvobj->pusbdev);
++#else
++			dvobj->pusbdev->autosuspend_disabled = 0;/* autosuspend disabled by the user */
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 33))
++			usb_autopm_put_interface(dvobj->pusbintf);
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 20))
++			usb_autopm_enable(dvobj->pusbintf);
++#else
++			usb_autosuspend_device(dvobj->pusbdev, 1);
++#endif
++			pwrpriv->autopm_cnt--;
++		} else
++			RTW_INFO("0!=pwrpriv->autopm_cnt[%d]   didn't usb_autopm_put_interface\n", pwrpriv->autopm_cnt);
++
++#endif	/* #ifndef	CONFIG_BT_COEXIST */
++	}
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 32))
++	RTW_INFO("...pm_usage_cnt(%d).....\n", atomic_read(&(dvobj->pusbintf->pm_usage_cnt)));
++#else
++	RTW_INFO("...pm_usage_cnt(%d).....\n", dvobj->pusbintf->pm_usage_cnt);
++#endif
++
++}
++
++int autoresume_enter(_adapter *padapter)
++{
++	int result = _SUCCESS;
++	struct security_priv *psecuritypriv = &(padapter->securitypriv);
++	struct mlme_ext_priv	*pmlmeext = &padapter->mlmeextpriv;
++	struct mlme_ext_info	*pmlmeinfo = &(pmlmeext->mlmext_info);
++	struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv *pwrpriv = dvobj_to_pwrctl(dvobj);
++
++	RTW_INFO("====> autoresume_enter\n");
++
++	if (rf_off == pwrpriv->rf_pwrstate) {
++		pwrpriv->ps_flag = _FALSE;
++#ifndef	CONFIG_BT_COEXIST
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 33))
++		if (usb_autopm_get_interface(dvobj->pusbintf) < 0) {
++			RTW_INFO("can't get autopm: %d\n", result);
++			result = _FAIL;
++			goto error_exit;
++		}
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 20))
++		usb_autopm_disable(dvobj->pusbintf);
++#else
++		usb_autoresume_device(dvobj->pusbdev, 1);
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 32))
++		RTW_INFO("...pm_usage_cnt(%d).....\n", atomic_read(&(dvobj->pusbintf->pm_usage_cnt)));
++#else
++		RTW_INFO("...pm_usage_cnt(%d).....\n", dvobj->pusbintf->pm_usage_cnt);
++#endif
++#else	/* #ifndef	CONFIG_BT_COEXIST */
++		pwrpriv->bAutoResume = _TRUE;
++		if (0 == pwrpriv->autopm_cnt) {
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 33))
++			if (usb_autopm_get_interface(dvobj->pusbintf) < 0) {
++				RTW_INFO("can't get autopm: %d\n", result);
++				result = _FAIL;
++				goto error_exit;
++			}
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 20))
++			usb_autopm_disable(dvobj->pusbintf);
++#else
++			usb_autoresume_device(dvobj->pusbdev, 1);
++#endif
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 32))
++			RTW_INFO("...pm_usage_cnt(%d).....\n", atomic_read(&(dvobj->pusbintf->pm_usage_cnt)));
++#else
++			RTW_INFO("...pm_usage_cnt(%d).....\n", dvobj->pusbintf->pm_usage_cnt);
++#endif
++			pwrpriv->autopm_cnt++;
++		} else
++			RTW_INFO("0!=pwrpriv->autopm_cnt[%d]   didn't usb_autopm_get_interface\n", pwrpriv->autopm_cnt);
++#endif /* #ifndef	CONFIG_BT_COEXIST */
++	}
++	RTW_INFO("<==== autoresume_enter\n");
++error_exit:
++
++	return result;
++}
++#endif
++
++#ifdef CONFIG_PLATFORM_RTD2880B
++extern void rtd2885_wlan_netlink_sendMsg(char *action_string, char *name);
++#endif
++
++/*
++ * drv_init() - a device potentially for us
++ *
++ * notes: drv_init() is called when the bus driver has located a card for us to support.
++ *        We accept the new device by returning 0.
++*/
++
++_adapter  *rtw_sw_export = NULL;
++
++_adapter *rtw_usb_primary_adapter_init(struct dvobj_priv *dvobj,
++	struct usb_interface *pusb_intf)
++{
++	_adapter *padapter = NULL;
++	int status = _FAIL;
++
++	padapter = (_adapter *)rtw_zvmalloc(sizeof(*padapter));
++	if (padapter == NULL)
++		goto exit;
++
++	if (loadparam(padapter) != _SUCCESS)
++		goto free_adapter;
++
++	padapter->dvobj = dvobj;
++
++
++	rtw_set_drv_stopped(padapter);/*init*/
++
++	dvobj->padapters[dvobj->iface_nums++] = padapter;
++	padapter->iface_id = IFACE_ID0;
++
++	/* set adapter_type/iface type for primary padapter */
++	padapter->isprimary = _TRUE;
++	padapter->adapter_type = PRIMARY_ADAPTER;
++#ifdef CONFIG_MI_WITH_MBSSID_CAM/*Configure all IFACE to PORT0-MBSSID*/
++	padapter->hw_port = HW_PORT0;
++#else
++	padapter->hw_port = HW_PORT0;
++#endif
++
++	/* step init_io_priv */
++	if (rtw_init_io_priv(padapter, usb_set_intf_ops) == _FAIL)
++		goto free_adapter;
++
++	/* step 2. hook HalFunc, allocate HalData */
++	if (rtw_set_hal_ops(padapter) == _FAIL)
++		goto free_hal_data;
++
++
++	padapter->intf_start = &usb_intf_start;
++	padapter->intf_stop = &usb_intf_stop;
++
++	/* step read_chip_version */
++	rtw_hal_read_chip_version(padapter);
++
++	/* step usb endpoint mapping */
++	rtw_hal_chip_configure(padapter);
++
++	/* step read efuse/eeprom data and get mac_addr */
++	rtw_hal_read_chip_info(padapter);
++
++#ifdef CONFIG_BT_COEXIST
++	rtw_btcoex_Initialize(padapter);
++#endif /* CONFIG_BT_COEXIST */
++
++	/* step 5. */
++	if (rtw_init_drv_sw(padapter) == _FAIL) {
++		goto free_hal_data;
++	}
++
++#ifdef CONFIG_PM
++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 18))
++	if (dvobj_to_pwrctl(dvobj)->bSupportRemoteWakeup) {
++		dvobj->pusbdev->do_remote_wakeup = 1;
++		pusb_intf->needs_remote_wakeup = 1;
++		device_init_wakeup(&pusb_intf->dev, 1);
++		RTW_INFO("pwrctrlpriv.bSupportRemoteWakeup~~~~~~\n");
++		RTW_INFO("pwrctrlpriv.bSupportRemoteWakeup~~~[%d]~~~\n", device_may_wakeup(&pusb_intf->dev));
++	}
++#endif
++#endif
++
++#ifdef CONFIG_AUTOSUSPEND
++	if (padapter->registrypriv.power_mgnt != PS_MODE_ACTIVE) {
++		if (padapter->registrypriv.usbss_enable) {	/* autosuspend (2s delay) */
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 38))
++			dvobj->pusbdev->dev.power.autosuspend_delay = 0 * HZ;/* 15 * HZ; idle-delay time */
++#else
++			dvobj->pusbdev->autosuspend_delay = 0 * HZ;/* 15 * HZ; idle-delay time */
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++			usb_enable_autosuspend(dvobj->pusbdev);
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 22) && LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 34))
++			padapter->bDisableAutosuspend = dvobj->pusbdev->autosuspend_disabled ;
++			dvobj->pusbdev->autosuspend_disabled = 0;/* autosuspend disabled by the user */
++#endif
++
++			/* usb_autopm_get_interface(adapter_to_dvobj(padapter)->pusbintf ); */ /* init pm_usage_cnt ,let it start from 1 */
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 32))
++			RTW_INFO("%s...pm_usage_cnt(%d).....\n", __FUNCTION__, atomic_read(&(dvobj->pusbintf->pm_usage_cnt)));
++#else
++			RTW_INFO("%s...pm_usage_cnt(%d).....\n", __FUNCTION__, dvobj->pusbintf->pm_usage_cnt);
++#endif
++		}
++	}
++#endif
++	/* 2012-07-11 Move here to prevent the 8723AS-VAU BT auto suspend influence */
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 33))
++	if (usb_autopm_get_interface(pusb_intf) < 0)
++		RTW_INFO("can't get autopm:\n");
++#endif
++#ifdef CONFIG_BT_COEXIST
++	dvobj_to_pwrctl(dvobj)->autopm_cnt = 1;
++#endif
++
++	/* set mac addr */
++	rtw_macaddr_cfg(adapter_mac_addr(padapter), get_hal_mac_addr(padapter));
++#ifdef CONFIG_MI_WITH_MBSSID_CAM
++	rtw_mbid_camid_alloc(padapter, adapter_mac_addr(padapter));
++#endif
++
++#ifdef CONFIG_P2P
++	rtw_init_wifidirect_addrs(padapter, adapter_mac_addr(padapter), adapter_mac_addr(padapter));
++#endif /* CONFIG_P2P */
++	RTW_INFO("bDriverStopped:%s, bSurpriseRemoved:%s, bup:%d, hw_init_completed:%d\n"
++		 , rtw_is_drv_stopped(padapter) ? "True" : "False"
++		 , rtw_is_surprise_removed(padapter) ? "True" : "False"
++		 , padapter->bup
++		 , rtw_get_hw_init_completed(padapter)
++		);
++
++	status = _SUCCESS;
++
++free_hal_data:
++	if (status != _SUCCESS && padapter->HalData)
++		rtw_hal_free_data(padapter);
++free_adapter:
++	if (status != _SUCCESS && padapter) {
++		rtw_vmfree((u8 *)padapter, sizeof(*padapter));
++		padapter = NULL;
++	}
++exit:
++	return padapter;
++}
++
++static void rtw_usb_primary_adapter_deinit(_adapter *padapter)
++{
++	struct pwrctrl_priv *pwrctl = adapter_to_pwrctl(padapter);
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++	RTW_INFO(FUNC_ADPT_FMT"\n", FUNC_ADPT_ARG(padapter));
++
++	if (check_fwstate(pmlmepriv, _FW_LINKED))
++		rtw_disassoc_cmd(padapter, 0, _FALSE);
++
++#ifdef CONFIG_AP_MODE
++	if (check_fwstate(&padapter->mlmepriv, WIFI_AP_STATE) == _TRUE) {
++		free_mlme_ap_info(padapter);
++		#ifdef CONFIG_HOSTAPD_MLME
++		hostapd_mode_unload(padapter);
++		#endif
++	}
++#endif
++
++	/*rtw_cancel_all_timer(if1);*/
++
++#ifdef CONFIG_WOWLAN
++	pwrctl->wowlan_mode = _FALSE;
++#endif /* CONFIG_WOWLAN */
++
++	rtw_dev_unload(padapter);
++
++	RTW_INFO("+r871xu_dev_remove, hw_init_completed=%d\n", rtw_get_hw_init_completed(padapter));
++
++#ifdef CONFIG_BT_COEXIST
++	if (1 == pwrctl->autopm_cnt) {
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 33))
++		usb_autopm_put_interface(adapter_to_dvobj(padapter)->pusbintf);
++#elif (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 20))
++		usb_autopm_enable(adapter_to_dvobj(padapter)->pusbintf);
++#else
++		usb_autosuspend_device(adapter_to_dvobj(padapter)->pusbdev, 1);
++#endif
++		pwrctl->autopm_cnt--;
++	}
++#endif
++
++	rtw_free_drv_sw(padapter);
++
++	/* TODO: use rtw_os_ndevs_deinit instead at the first stage of driver's dev deinit function */
++	rtw_os_ndev_free(padapter);
++
++#ifdef RTW_HALMAC
++	rtw_halmac_deinit_adapter(adapter_to_dvobj(padapter));
++#endif /* RTW_HALMAC */
++
++	rtw_vmfree((u8 *)padapter, sizeof(_adapter));
++
++#ifdef CONFIG_PLATFORM_RTD2880B
++	RTW_INFO("wlan link down\n");
++	rtd2885_wlan_netlink_sendMsg("linkdown", "8712");
++#endif
++
++}
++
++static int rtw_drv_init(struct usb_interface *pusb_intf, const struct usb_device_id *pdid)
++{
++	_adapter *padapter = NULL;
++	int status = _FAIL;
++	struct dvobj_priv *dvobj;
++#ifdef CONFIG_CONCURRENT_MODE
++	int i;
++#endif
++
++	/* RTW_INFO("+rtw_drv_init\n"); */
++
++	/* step 0. */
++	process_spec_devid(pdid);
++
++	/* Initialize dvobj_priv */
++	dvobj = usb_dvobj_init(pusb_intf, pdid);
++	if (dvobj == NULL) {
++		goto exit;
++	}
++
++	padapter = rtw_usb_primary_adapter_init(dvobj, pusb_intf);
++	if (padapter == NULL) {
++		RTW_INFO("rtw_usb_primary_adapter_init Failed!\n");
++		goto free_dvobj;
++	}
++
++	if (usb_reprobe_switch_usb_mode(padapter) == _TRUE)
++		goto free_if_prim;
++
++#ifdef CONFIG_CONCURRENT_MODE
++	if (padapter->registrypriv.virtual_iface_num > (CONFIG_IFACE_NUMBER - 1))
++		padapter->registrypriv.virtual_iface_num = (CONFIG_IFACE_NUMBER - 1);
++
++	for (i = 0; i < padapter->registrypriv.virtual_iface_num; i++) {
++		if (rtw_drv_add_vir_if(padapter, usb_set_intf_ops) == NULL) {
++			RTW_INFO("rtw_drv_add_iface failed! (%d)\n", i);
++			goto free_if_vir;
++		}
++	}
++#endif
++
++#ifdef CONFIG_INTEL_PROXIM
++	rtw_sw_export = padapter;
++#endif
++
++#ifdef CONFIG_GLOBAL_UI_PID
++	if (ui_pid[1] != 0) {
++		RTW_INFO("ui_pid[1]:%d\n", ui_pid[1]);
++		rtw_signal_process(ui_pid[1], SIGUSR2);
++	}
++#endif
++
++	/* dev_alloc_name && register_netdev */
++	if (rtw_os_ndevs_init(dvobj) != _SUCCESS)
++		goto free_if_vir;
++
++#ifdef CONFIG_HOSTAPD_MLME
++	hostapd_mode_init(padapter);
++#endif
++
++#ifdef CONFIG_PLATFORM_RTD2880B
++	RTW_INFO("wlan link up\n");
++	rtd2885_wlan_netlink_sendMsg("linkup", "8712");
++#endif
++
++
++	status = _SUCCESS;
++
++#if 0 /* not used now */
++os_ndevs_deinit:
++	if (status != _SUCCESS)
++		rtw_os_ndevs_deinit(dvobj);
++#endif
++free_if_vir:
++	if (status != _SUCCESS) {
++		#ifdef CONFIG_CONCURRENT_MODE
++		rtw_drv_stop_vir_ifaces(dvobj);
++		rtw_drv_free_vir_ifaces(dvobj);
++		#endif
++	}
++
++free_if_prim:
++	if (status != _SUCCESS && padapter)
++		rtw_usb_primary_adapter_deinit(padapter);
++
++free_dvobj:
++	if (status != _SUCCESS)
++		usb_dvobj_deinit(pusb_intf);
++exit:
++	return status == _SUCCESS ? 0 : -ENODEV;
++}
++
++/*
++ * dev_remove() - our device is being removed
++*/
++/* rmmod module & unplug(SurpriseRemoved) will call r871xu_dev_remove() => how to recognize both */
++static void rtw_dev_remove(struct usb_interface *pusb_intf)
++{
++	struct dvobj_priv *dvobj = usb_get_intfdata(pusb_intf);
++	struct pwrctrl_priv *pwrctl = dvobj_to_pwrctl(dvobj);
++	_adapter *padapter = dvobj_get_primary_adapter(dvobj);
++	struct net_device *pnetdev = padapter->pnetdev;
++	struct mlme_priv *pmlmepriv = &padapter->mlmepriv;
++
++
++	RTW_INFO("+rtw_dev_remove\n");
++
++	dvobj->processing_dev_remove = _TRUE;
++
++	/* TODO: use rtw_os_ndevs_deinit instead at the first stage of driver's dev deinit function */
++	rtw_os_ndevs_unregister(dvobj);
++
++	if (usb_drv.drv_registered == _TRUE) {
++		/* RTW_INFO("r871xu_dev_remove():padapter->bSurpriseRemoved == _TRUE\n"); */
++		rtw_set_surprise_removed(padapter);
++	}
++	/*else
++	{
++
++		padapter->HalData->hw_init_completed = _FALSE;
++	}*/
++
++
++#if defined(CONFIG_HAS_EARLYSUSPEND) || defined(CONFIG_ANDROID_POWER)
++	rtw_unregister_early_suspend(pwrctl);
++#endif
++
++	if (padapter->bFWReady == _TRUE) {
++		rtw_pm_set_ips(padapter, IPS_NONE);
++		rtw_pm_set_lps(padapter, PS_MODE_ACTIVE);
++
++		LeaveAllPowerSaveMode(padapter);
++	}
++	rtw_set_drv_stopped(padapter);	/*for stop thread*/
++	rtw_stop_cmd_thread(padapter);
++#ifdef CONFIG_CONCURRENT_MODE
++	rtw_drv_stop_vir_ifaces(dvobj);
++#endif /* CONFIG_CONCURRENT_MODE */
++
++#ifdef CONFIG_BT_COEXIST
++#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
++	if (GET_HAL_DATA(padapter)->EEPROMBluetoothCoexist)
++		rtw_btcoex_close_socket(padapter);
++#endif
++	rtw_btcoex_HaltNotify(padapter);
++#endif
++
++	rtw_usb_primary_adapter_deinit(padapter);
++
++#ifdef CONFIG_CONCURRENT_MODE
++	rtw_drv_free_vir_ifaces(dvobj);
++#endif /* CONFIG_CONCURRENT_MODE */
++
++	usb_dvobj_deinit(pusb_intf);
++
++	RTW_INFO("-r871xu_dev_remove, done\n");
++
++
++#ifdef CONFIG_INTEL_PROXIM
++	rtw_sw_export = NULL;
++#endif
++
++
++	return;
++
++}
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 24))
++extern int console_suspend_enabled;
++#endif
++
++static int __init rtw_drv_entry(void)
++{
++	int ret = 0;
++
++	RTW_PRINT("module init start\n");
++	dump_drv_version(RTW_DBGDUMP);
++#ifdef BTCOEXVERSION
++	RTW_PRINT(DRV_NAME" BT-Coex version = %s\n", BTCOEXVERSION);
++#endif /* BTCOEXVERSION */
++
++	ret = platform_wifi_power_on();
++	if (ret != 0) {
++		RTW_INFO("%s: power on failed!!(%d)\n", __FUNCTION__, ret);
++		ret = -1;
++		goto exit;
++	}
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 24))
++	/* console_suspend_enabled=0; */
++#endif
++
++	usb_drv.drv_registered = _TRUE;
++	rtw_suspend_lock_init();
++	rtw_drv_proc_init();
++	rtw_ndev_notifier_register();
++
++	ret = usb_register(&usb_drv.usbdrv);
++
++	if (ret != 0) {
++		usb_drv.drv_registered = _FALSE;
++		rtw_suspend_lock_uninit();
++		rtw_drv_proc_deinit();
++		rtw_ndev_notifier_unregister();
++		goto exit;
++	}
++
++exit:
++	RTW_PRINT("module init ret=%d\n", ret);
++	return ret;
++}
++
++static void __exit rtw_drv_halt(void)
++{
++	RTW_PRINT("module exit start\n");
++
++	usb_drv.drv_registered = _FALSE;
++
++	usb_deregister(&usb_drv.usbdrv);
++
++	platform_wifi_power_off();
++
++	rtw_suspend_lock_uninit();
++	rtw_drv_proc_deinit();
++	rtw_ndev_notifier_unregister();
++
++	RTW_PRINT("module exit success\n");
++
++	rtw_mstat_dump(RTW_DBGDUMP);
++}
++
++
++module_init(rtw_drv_entry);
++module_exit(rtw_drv_halt);
++
++#ifdef CONFIG_INTEL_PROXIM
++_adapter  *rtw_usb_get_sw_pointer(void)
++{
++	return rtw_sw_export;
++}
++EXPORT_SYMBOL(rtw_usb_get_sw_pointer);
++#endif /* CONFIG_INTEL_PROXIM */
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/usb_ops_linux.c b/drivers/net/wireless/rtl8812au/os_dep/linux/usb_ops_linux.c
+new file mode 100644
+index 0000000..e2127bb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/usb_ops_linux.c
+@@ -0,0 +1,1105 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *******************************************************************************/
++#define _USB_OPS_LINUX_C_
++
++#include <drv_types.h>
++#include <hal_data.h>
++#include <rtw_sreset.h>
++
++struct rtw_async_write_data {
++	u8 data[VENDOR_CMD_MAX_DATA_LEN];
++	struct usb_ctrlrequest dr;
++};
++
++int usbctrl_vendorreq(struct intf_hdl *pintfhdl, u8 request, u16 value, u16 index, void *pdata, u16 len, u8 requesttype)
++{
++	_adapter	*padapter = pintfhdl->padapter;
++	struct dvobj_priv  *pdvobjpriv = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv *pwrctl = dvobj_to_pwrctl(pdvobjpriv);
++	struct usb_device *udev = pdvobjpriv->pusbdev;
++
++	unsigned int pipe;
++	int status = 0;
++	u32 tmp_buflen = 0;
++	u8 reqtype;
++	u8 *pIo_buf;
++	int vendorreq_times = 0;
++
++#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_DYNAMIC_ALLOCATE
++	u8 *tmp_buf;
++#else /* use stack memory */
++	u8 tmp_buf[MAX_USB_IO_CTL_SIZE];
++#endif
++
++	/* RTW_INFO("%s %s:%d\n",__FUNCTION__, current->comm, current->pid); */
++
++	if (RTW_CANNOT_IO(padapter)) {
++		status = -EPERM;
++		goto exit;
++	}
++
++	if (len > MAX_VENDOR_REQ_CMD_SIZE) {
++		RTW_INFO("[%s] Buffer len error ,vendor request failed\n", __FUNCTION__);
++		status = -EINVAL;
++		goto exit;
++	}
++
++#ifdef CONFIG_USB_VENDOR_REQ_MUTEX
++	_enter_critical_mutex(&pdvobjpriv->usb_vendor_req_mutex, NULL);
++#endif
++
++
++	/* Acquire IO memory for vendorreq */
++#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_PREALLOC
++	pIo_buf = pdvobjpriv->usb_vendor_req_buf;
++#else
++	#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_DYNAMIC_ALLOCATE
++	tmp_buf = rtw_malloc((u32) len + ALIGNMENT_UNIT);
++	tmp_buflen = (u32)len + ALIGNMENT_UNIT;
++	#else /* use stack memory */
++	tmp_buflen = MAX_USB_IO_CTL_SIZE;
++	#endif
++
++	/* Added by Albert 2010/02/09 */
++	/* For mstar platform, mstar suggests the address for USB IO should be 16 bytes alignment. */
++	/* Trying to fix it here. */
++	pIo_buf = (tmp_buf == NULL) ? NULL : tmp_buf + ALIGNMENT_UNIT - ((SIZE_PTR)(tmp_buf) & 0x0f);
++#endif
++
++	if (pIo_buf == NULL) {
++		RTW_INFO("[%s] pIo_buf == NULL\n", __FUNCTION__);
++		status = -ENOMEM;
++		goto release_mutex;
++	}
++
++	while (++vendorreq_times <= MAX_USBCTRL_VENDORREQ_TIMES) {
++		_rtw_memset(pIo_buf, 0, len);
++
++		if (requesttype == 0x01) {
++			pipe = usb_rcvctrlpipe(udev, 0);/* read_in */
++			reqtype =  REALTEK_USB_VENQT_READ;
++		} else {
++			pipe = usb_sndctrlpipe(udev, 0);/* write_out */
++			reqtype =  REALTEK_USB_VENQT_WRITE;
++			_rtw_memcpy(pIo_buf, pdata, len);
++		}
++
++		status = rtw_usb_control_msg(udev, pipe, request, reqtype, value, index, pIo_buf, len, RTW_USB_CONTROL_MSG_TIMEOUT);
++
++		if (status == len) {  /* Success this control transfer. */
++			rtw_reset_continual_io_error(pdvobjpriv);
++			if (requesttype == 0x01) {
++				/* For Control read transfer, we have to copy the read data from pIo_buf to pdata. */
++				_rtw_memcpy(pdata, pIo_buf,  len);
++			}
++		} else { /* error cases */
++			RTW_INFO("reg 0x%x, usb %s %u fail, status:%d value=0x%x, vendorreq_times:%d\n"
++				, value, (requesttype == 0x01) ? "read" : "write" , len, status, *(u32 *)pdata, vendorreq_times);
++
++			if (status < 0) {
++				if (status == (-ESHUTDOWN)	|| status == -ENODEV)
++					rtw_set_surprise_removed(padapter);
++				else {
++					#ifdef DBG_CONFIG_ERROR_DETECT
++					{
++						HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++						pHalData->srestpriv.Wifi_Error_Status = USB_VEN_REQ_CMD_FAIL;
++					}
++					#endif
++				}
++			} else { /* status != len && status >= 0 */
++				if (status > 0) {
++					if (requesttype == 0x01) {
++						/* For Control read transfer, we have to copy the read data from pIo_buf to pdata. */
++						_rtw_memcpy(pdata, pIo_buf,  len);
++					}
++				}
++			}
++
++			if (rtw_inc_and_chk_continual_io_error(pdvobjpriv) == _TRUE) {
++				rtw_set_surprise_removed(padapter);
++				break;
++			}
++
++		}
++
++		/* firmware download is checksumed, don't retry */
++		if ((value >= FW_START_ADDRESS) || status == len)
++			break;
++
++	}
++
++	/* release IO memory used by vendorreq */
++#ifdef CONFIG_USB_VENDOR_REQ_BUFFER_DYNAMIC_ALLOCATE
++	rtw_mfree(tmp_buf, tmp_buflen);
++#endif
++
++release_mutex:
++#ifdef CONFIG_USB_VENDOR_REQ_MUTEX
++	_exit_critical_mutex(&pdvobjpriv->usb_vendor_req_mutex, NULL);
++#endif
++exit:
++	return status;
++
++}
++
++#ifdef CONFIG_USB_SUPPORT_ASYNC_VDN_REQ
++static void _usbctrl_vendorreq_async_callback(struct urb *urb, struct pt_regs *regs)
++{
++	if (urb) {
++		if (urb->context)
++			rtw_mfree(urb->context, sizeof(struct rtw_async_write_data));
++		usb_free_urb(urb);
++	}
++}
++
++int _usbctrl_vendorreq_async_write(struct usb_device *udev, u8 request,
++	u16 value, u16 index, void *pdata, u16 len, u8 requesttype)
++{
++	int rc;
++	unsigned int pipe;
++	u8 reqtype;
++	struct usb_ctrlrequest *dr;
++	struct urb *urb;
++	struct rtw_async_write_data *buf;
++
++
++	if (requesttype == VENDOR_READ) {
++		pipe = usb_rcvctrlpipe(udev, 0);/* read_in */
++		reqtype =  REALTEK_USB_VENQT_READ;
++	} else {
++		pipe = usb_sndctrlpipe(udev, 0);/* write_out */
++		reqtype =  REALTEK_USB_VENQT_WRITE;
++	}
++
++	buf = (struct rtl819x_async_write_data *)rtw_zmalloc(sizeof(*buf));
++	if (!buf) {
++		rc = -ENOMEM;
++		goto exit;
++	}
++
++	urb = usb_alloc_urb(0, GFP_ATOMIC);
++	if (!urb) {
++		rtw_mfree((u8 *)buf, sizeof(*buf));
++		rc = -ENOMEM;
++		goto exit;
++	}
++
++	dr = &buf->dr;
++
++	dr->bRequestType = reqtype;
++	dr->bRequest = request;
++	dr->wValue = cpu_to_le16(value);
++	dr->wIndex = cpu_to_le16(index);
++	dr->wLength = cpu_to_le16(len);
++
++	_rtw_memcpy(buf, pdata, len);
++
++	usb_fill_control_urb(urb, udev, pipe, (unsigned char *)dr, buf, len,
++		_usbctrl_vendorreq_async_callback, buf);
++
++	rc = usb_submit_urb(urb, GFP_ATOMIC);
++	if (rc < 0) {
++		rtw_mfree((u8 *)buf, sizeof(*buf));
++		usb_free_urb(urb);
++	}
++
++exit:
++	return rc;
++}
++
++
++#endif /* CONFIG_USB_SUPPORT_ASYNC_VDN_REQ */
++
++unsigned int ffaddr2pipehdl(struct dvobj_priv *pdvobj, u32 addr)
++{
++	unsigned int pipe = 0, ep_num = 0;
++	struct usb_device *pusbd = pdvobj->pusbdev;
++
++	if (addr == RECV_BULK_IN_ADDR)
++		pipe = usb_rcvbulkpipe(pusbd, pdvobj->RtInPipe[0]);
++
++	else if (addr == RECV_INT_IN_ADDR)
++		pipe = usb_rcvintpipe(pusbd, pdvobj->RtInPipe[1]);
++
++	else if (addr < HW_QUEUE_ENTRY) {
++#ifdef RTW_HALMAC
++		/* halmac already translate queue id to bulk out id */
++		ep_num = pdvobj->RtOutPipe[addr];
++#else
++		ep_num = pdvobj->Queue2Pipe[addr];
++#endif
++		pipe = usb_sndbulkpipe(pusbd, ep_num);
++	}
++
++	return pipe;
++}
++
++struct zero_bulkout_context {
++	void *pbuf;
++	void *purb;
++	void *pirp;
++	void *padapter;
++};
++
++static void usb_bulkout_zero_complete(struct urb *purb, struct pt_regs *regs)
++{
++	struct zero_bulkout_context *pcontext = (struct zero_bulkout_context *)purb->context;
++
++	/* RTW_INFO("+usb_bulkout_zero_complete\n"); */
++
++	if (pcontext) {
++		if (pcontext->pbuf)
++			rtw_mfree(pcontext->pbuf, sizeof(int));
++
++		if (pcontext->purb && (pcontext->purb == purb))
++			usb_free_urb(pcontext->purb);
++
++
++		rtw_mfree((u8 *)pcontext, sizeof(struct zero_bulkout_context));
++	}
++
++
++}
++
++static u32 usb_bulkout_zero(struct intf_hdl *pintfhdl, u32 addr)
++{
++	int pipe, status, len;
++	u32 ret;
++	unsigned char *pbuf;
++	struct zero_bulkout_context *pcontext;
++	PURB	purb = NULL;
++	_adapter *padapter = (_adapter *)pintfhdl->padapter;
++	struct dvobj_priv *pdvobj = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv *pwrctl = dvobj_to_pwrctl(pdvobj);
++	struct usb_device *pusbd = pdvobj->pusbdev;
++
++	/* RTW_INFO("%s\n", __func__); */
++
++
++	if (RTW_CANNOT_TX(padapter))
++		return _FAIL;
++
++
++	pcontext = (struct zero_bulkout_context *)rtw_zmalloc(sizeof(struct zero_bulkout_context));
++	if (pcontext == NULL)
++		return _FAIL;
++
++	pbuf = (unsigned char *)rtw_zmalloc(sizeof(int));
++	purb = usb_alloc_urb(0, GFP_ATOMIC);
++
++	/* translate DMA FIFO addr to pipehandle */
++	pipe = ffaddr2pipehdl(pdvobj, addr);
++
++	len = 0;
++	pcontext->pbuf = pbuf;
++	pcontext->purb = purb;
++	pcontext->pirp = NULL;
++	pcontext->padapter = padapter;
++
++
++	/* translate DMA FIFO addr to pipehandle */
++	/* pipe = ffaddr2pipehdl(pdvobj, addr);	 */
++
++	usb_fill_bulk_urb(purb, pusbd, pipe,
++			  pbuf,
++			  len,
++			  usb_bulkout_zero_complete,
++			  pcontext);/* context is pcontext */
++
++	status = usb_submit_urb(purb, GFP_ATOMIC);
++
++	if (!status)
++		ret = _SUCCESS;
++	else
++		ret = _FAIL;
++
++
++	return _SUCCESS;
++
++}
++
++void usb_read_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem)
++{
++
++}
++
++void usb_write_mem(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *wmem)
++{
++
++}
++
++
++void usb_read_port_cancel(struct intf_hdl *pintfhdl)
++{
++	int i;
++	struct recv_buf *precvbuf;
++	_adapter	*padapter = pintfhdl->padapter;
++	precvbuf = (struct recv_buf *)padapter->recvpriv.precv_buf;
++
++	RTW_INFO("%s\n", __func__);
++
++	for (i = 0; i < NR_RECVBUFF ; i++) {
++
++		if (precvbuf->purb)	 {
++			/* RTW_INFO("usb_read_port_cancel : usb_kill_urb\n"); */
++			usb_kill_urb(precvbuf->purb);
++		}
++		precvbuf++;
++	}
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++	usb_kill_urb(padapter->recvpriv.int_in_urb);
++#endif
++}
++
++static void usb_write_port_complete(struct urb *purb, struct pt_regs *regs)
++{
++	_irqL irqL;
++	int i;
++	struct xmit_buf *pxmitbuf = (struct xmit_buf *)purb->context;
++	/* struct xmit_frame *pxmitframe = (struct xmit_frame *)pxmitbuf->priv_data; */
++	/* _adapter			*padapter = pxmitframe->padapter; */
++	_adapter	*padapter = pxmitbuf->padapter;
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	/* struct pkt_attrib *pattrib = &pxmitframe->attrib; */
++
++
++	switch (pxmitbuf->flags) {
++	case VO_QUEUE_INX:
++		pxmitpriv->voq_cnt--;
++		break;
++	case VI_QUEUE_INX:
++		pxmitpriv->viq_cnt--;
++		break;
++	case BE_QUEUE_INX:
++		pxmitpriv->beq_cnt--;
++		break;
++	case BK_QUEUE_INX:
++		pxmitpriv->bkq_cnt--;
++		break;
++	default:
++		break;
++	}
++
++
++	/*
++		_enter_critical(&pxmitpriv->lock, &irqL);
++
++		pxmitpriv->txirp_cnt--;
++
++		switch(pattrib->priority)
++		{
++			case 1:
++			case 2:
++				pxmitpriv->bkq_cnt--;
++
++				break;
++			case 4:
++			case 5:
++				pxmitpriv->viq_cnt--;
++
++				break;
++			case 6:
++			case 7:
++				pxmitpriv->voq_cnt--;
++
++				break;
++			case 0:
++			case 3:
++			default:
++				pxmitpriv->beq_cnt--;
++
++				break;
++
++		}
++
++		_exit_critical(&pxmitpriv->lock, &irqL);
++
++
++		if(pxmitpriv->txirp_cnt==0)
++		{
++			_rtw_up_sema(&(pxmitpriv->tx_retevt));
++		}
++	*/
++	/* rtw_free_xmitframe(pxmitpriv, pxmitframe); */
++
++	if (RTW_CANNOT_TX(padapter)) {
++		RTW_INFO("%s(): TX Warning! bDriverStopped(%s) OR bSurpriseRemoved(%s) pxmitbuf->buf_tag(%x)\n"
++			 , __func__
++			 , rtw_is_drv_stopped(padapter) ? "True" : "False"
++			 , rtw_is_surprise_removed(padapter) ? "True" : "False"
++			 , pxmitbuf->buf_tag);
++
++		goto check_completion;
++	}
++
++
++	if (purb->status == 0) {
++
++	} else {
++		RTW_INFO("###=> urb_write_port_complete status(%d)\n", purb->status);
++		if ((purb->status == -EPIPE) || (purb->status == -EPROTO)) {
++			/* usb_clear_halt(pusbdev, purb->pipe);	 */
++			/* msleep(10); */
++			sreset_set_wifi_error_status(padapter, USB_WRITE_PORT_FAIL);
++		} else if (purb->status == -EINPROGRESS) {
++			goto check_completion;
++
++		} else if (purb->status == -ENOENT) {
++			RTW_INFO("%s: -ENOENT\n", __func__);
++			goto check_completion;
++
++		} else if (purb->status == -ECONNRESET) {
++			RTW_INFO("%s: -ECONNRESET\n", __func__);
++			goto check_completion;
++
++		} else if (purb->status == -ESHUTDOWN) {
++			rtw_set_drv_stopped(padapter);
++
++			goto check_completion;
++		} else {
++			rtw_set_surprise_removed(padapter);
++			RTW_INFO("bSurpriseRemoved=TRUE\n");
++
++			goto check_completion;
++		}
++	}
++
++	#ifdef DBG_CONFIG_ERROR_DETECT
++	{
++		HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++		pHalData->srestpriv.last_tx_complete_time = rtw_get_current_time();
++	}
++	#endif
++
++check_completion:
++	_enter_critical(&pxmitpriv->lock_sctx, &irqL);
++	rtw_sctx_done_err(&pxmitbuf->sctx,
++		purb->status ? RTW_SCTX_DONE_WRITE_PORT_ERR : RTW_SCTX_DONE_SUCCESS);
++	_exit_critical(&pxmitpriv->lock_sctx, &irqL);
++
++	rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++
++	/* if(rtw_txframes_pending(padapter))	 */
++	{
++		tasklet_hi_schedule(&pxmitpriv->xmit_tasklet);
++	}
++
++
++}
++
++u32 usb_write_port(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *wmem)
++{
++	_irqL irqL;
++	unsigned int pipe;
++	int status;
++	u32 ret = _FAIL, bwritezero = _FALSE;
++	PURB	purb = NULL;
++	_adapter *padapter = (_adapter *)pintfhdl->padapter;
++	struct dvobj_priv	*pdvobj = adapter_to_dvobj(padapter);
++	struct pwrctrl_priv *pwrctl = dvobj_to_pwrctl(pdvobj);
++	struct xmit_priv	*pxmitpriv = &padapter->xmitpriv;
++	struct xmit_buf *pxmitbuf = (struct xmit_buf *)wmem;
++	struct xmit_frame *pxmitframe = (struct xmit_frame *)pxmitbuf->priv_data;
++	struct usb_device *pusbd = pdvobj->pusbdev;
++	struct pkt_attrib *pattrib = &pxmitframe->attrib;
++
++
++
++	if (RTW_CANNOT_TX(padapter)) {
++#ifdef DBG_TX
++		RTW_INFO(" DBG_TX %s:%d bDriverStopped%s, bSurpriseRemoved:%s\n", __func__, __LINE__
++			 , rtw_is_drv_stopped(padapter) ? "True" : "False"
++			, rtw_is_surprise_removed(padapter) ? "True" : "False");
++#endif
++		rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_TX_DENY);
++		goto exit;
++	}
++
++	_enter_critical(&pxmitpriv->lock, &irqL);
++
++	switch (addr) {
++	case VO_QUEUE_INX:
++		pxmitpriv->voq_cnt++;
++		pxmitbuf->flags = VO_QUEUE_INX;
++		break;
++	case VI_QUEUE_INX:
++		pxmitpriv->viq_cnt++;
++		pxmitbuf->flags = VI_QUEUE_INX;
++		break;
++	case BE_QUEUE_INX:
++		pxmitpriv->beq_cnt++;
++		pxmitbuf->flags = BE_QUEUE_INX;
++		break;
++	case BK_QUEUE_INX:
++		pxmitpriv->bkq_cnt++;
++		pxmitbuf->flags = BK_QUEUE_INX;
++		break;
++	case HIGH_QUEUE_INX:
++		pxmitbuf->flags = HIGH_QUEUE_INX;
++		break;
++	default:
++		pxmitbuf->flags = MGT_QUEUE_INX;
++		break;
++	}
++
++	_exit_critical(&pxmitpriv->lock, &irqL);
++
++	purb	= pxmitbuf->pxmit_urb[0];
++
++	/* translate DMA FIFO addr to pipehandle */
++#ifdef RTW_HALMAC
++	pipe = ffaddr2pipehdl(pdvobj, pxmitbuf->bulkout_id);
++#else
++	pipe = ffaddr2pipehdl(pdvobj, addr);
++#endif
++
++#ifdef CONFIG_REDUCE_USB_TX_INT
++	if ((pxmitpriv->free_xmitbuf_cnt % NR_XMITBUFF == 0)
++	    || (pxmitbuf->buf_tag > XMITBUF_DATA))
++		purb->transfer_flags  &= (~URB_NO_INTERRUPT);
++	else {
++		purb->transfer_flags  |=  URB_NO_INTERRUPT;
++		/* RTW_INFO("URB_NO_INTERRUPT "); */
++	}
++#endif
++
++
++	usb_fill_bulk_urb(purb, pusbd, pipe,
++			  pxmitframe->buf_addr, /* = pxmitbuf->pbuf */
++			  cnt,
++			  usb_write_port_complete,
++			  pxmitbuf);/* context is pxmitbuf */
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_TX
++	purb->transfer_dma = pxmitbuf->dma_transfer_addr;
++	purb->transfer_flags |= URB_NO_TRANSFER_DMA_MAP;
++	purb->transfer_flags |= URB_ZERO_PACKET;
++#endif /* CONFIG_USE_USB_BUFFER_ALLOC_TX */
++
++#ifdef USB_PACKET_OFFSET_SZ
++#if (USB_PACKET_OFFSET_SZ == 0)
++	purb->transfer_flags |= URB_ZERO_PACKET;
++#endif
++#endif
++
++#if 0
++	if (bwritezero)
++		purb->transfer_flags |= URB_ZERO_PACKET;
++#endif
++
++	status = usb_submit_urb(purb, GFP_ATOMIC);
++	if (!status) {
++		#ifdef DBG_CONFIG_ERROR_DETECT
++		{
++			HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++			pHalData->srestpriv.last_tx_time = rtw_get_current_time();
++		}
++		#endif
++	} else {
++		rtw_sctx_done_err(&pxmitbuf->sctx, RTW_SCTX_DONE_WRITE_PORT_ERR);
++		RTW_INFO("usb_write_port, status=%d\n", status);
++
++		switch (status) {
++		case -ENODEV:
++			rtw_set_drv_stopped(padapter);
++			break;
++		default:
++			break;
++		}
++		goto exit;
++	}
++
++	ret = _SUCCESS;
++
++	/* Commented by Albert 2009/10/13
++	 * We add the URB_ZERO_PACKET flag to urb so that the host will send the zero packet automatically. */
++	/*
++		if(bwritezero == _TRUE)
++		{
++			usb_bulkout_zero(pintfhdl, addr);
++		}
++	*/
++
++
++exit:
++	if (ret != _SUCCESS)
++		rtw_free_xmitbuf(pxmitpriv, pxmitbuf);
++	return ret;
++
++}
++
++void usb_write_port_cancel(struct intf_hdl *pintfhdl)
++{
++	int i, j;
++	_adapter	*padapter = pintfhdl->padapter;
++	struct xmit_buf *pxmitbuf = (struct xmit_buf *)padapter->xmitpriv.pxmitbuf;
++
++	RTW_INFO("%s\n", __func__);
++
++	for (i = 0; i < NR_XMITBUFF; i++) {
++		for (j = 0; j < 8; j++) {
++			if (pxmitbuf->pxmit_urb[j])
++				usb_kill_urb(pxmitbuf->pxmit_urb[j]);
++		}
++		pxmitbuf++;
++	}
++
++	pxmitbuf = (struct xmit_buf *)padapter->xmitpriv.pxmit_extbuf;
++	for (i = 0; i < NR_XMIT_EXTBUFF ; i++) {
++		for (j = 0; j < 8; j++) {
++			if (pxmitbuf->pxmit_urb[j])
++				usb_kill_urb(pxmitbuf->pxmit_urb[j]);
++		}
++		pxmitbuf++;
++	}
++}
++
++void usb_init_recvbuf(_adapter *padapter, struct recv_buf *precvbuf)
++{
++
++	precvbuf->transfer_len = 0;
++
++	precvbuf->len = 0;
++
++	precvbuf->ref_cnt = 0;
++
++	if (precvbuf->pbuf) {
++		precvbuf->pdata = precvbuf->phead = precvbuf->ptail = precvbuf->pbuf;
++		precvbuf->pend = precvbuf->pdata + MAX_RECVBUF_SZ;
++	}
++
++}
++
++int recvbuf2recvframe(PADAPTER padapter, void *ptr);
++
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_RX
++void usb_recv_tasklet(void *priv)
++{
++	struct recv_buf *precvbuf = NULL;
++	_adapter	*padapter = (_adapter *)priv;
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++
++	while (NULL != (precvbuf = rtw_dequeue_recvbuf(&precvpriv->recv_buf_pending_queue))) {
++		if (RTW_CANNOT_RUN(padapter)) {
++			RTW_INFO("recv_tasklet => bDriverStopped(%s) OR bSurpriseRemoved(%s)\n"
++				, rtw_is_drv_stopped(padapter)? "True" : "False"
++				, rtw_is_surprise_removed(padapter)? "True" : "False");
++			break;
++		}
++
++		recvbuf2recvframe(padapter, precvbuf);
++
++		rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++	}
++}
++
++void usb_read_port_complete(struct urb *purb, struct pt_regs *regs)
++{
++	struct recv_buf	*precvbuf = (struct recv_buf *)purb->context;
++	_adapter			*padapter = (_adapter *)precvbuf->adapter;
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++
++	ATOMIC_DEC(&(precvpriv->rx_pending_cnt));
++
++	if (RTW_CANNOT_RX(padapter)) {
++		RTW_INFO("%s() RX Warning! bDriverStopped(%s) OR bSurpriseRemoved(%s)\n"
++			 , __func__
++			 , rtw_is_drv_stopped(padapter) ? "True" : "False"
++			, rtw_is_surprise_removed(padapter) ? "True" : "False");
++		goto exit;
++	}
++
++	if (purb->status == 0) {
++
++		if ((purb->actual_length > MAX_RECVBUF_SZ) || (purb->actual_length < RXDESC_SIZE)) {
++			RTW_INFO("%s()-%d: urb->actual_length:%u, MAX_RECVBUF_SZ:%u, RXDESC_SIZE:%u\n"
++				, __FUNCTION__, __LINE__, purb->actual_length, MAX_RECVBUF_SZ, RXDESC_SIZE);
++			rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++		} else {
++			rtw_reset_continual_io_error(adapter_to_dvobj(padapter));
++
++			precvbuf->transfer_len = purb->actual_length;
++
++			rtw_enqueue_recvbuf(precvbuf, &precvpriv->recv_buf_pending_queue);
++
++			tasklet_schedule(&precvpriv->recv_tasklet);
++		}
++	} else {
++
++		RTW_INFO("###=> usb_read_port_complete => urb.status(%d)\n", purb->status);
++
++		if (rtw_inc_and_chk_continual_io_error(adapter_to_dvobj(padapter)) == _TRUE)
++			rtw_set_surprise_removed(padapter);
++
++		switch (purb->status) {
++		case -EINVAL:
++		case -EPIPE:
++		case -ENODEV:
++		case -ESHUTDOWN:
++		case -ENOENT:
++			rtw_set_drv_stopped(padapter);
++			break;
++		case -EPROTO:
++		case -EILSEQ:
++		case -ETIME:
++		case -ECOMM:
++		case -EOVERFLOW:
++			#ifdef DBG_CONFIG_ERROR_DETECT
++			{
++				HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++				pHalData->srestpriv.Wifi_Error_Status = USB_READ_PORT_FAIL;
++			}
++			#endif
++			rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++			break;
++		case -EINPROGRESS:
++			RTW_INFO("ERROR: URB IS IN PROGRESS!/n");
++			break;
++		default:
++			break;
++		}
++	}
++
++exit:
++
++}
++
++u32 usb_read_port(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem)
++{
++	int err;
++	unsigned int pipe;
++	u32 ret = _SUCCESS;
++	PURB purb = NULL;
++	struct recv_buf	*precvbuf = (struct recv_buf *)rmem;
++	_adapter		*adapter = pintfhdl->padapter;
++	struct dvobj_priv	*pdvobj = adapter_to_dvobj(adapter);
++	struct pwrctrl_priv *pwrctl = dvobj_to_pwrctl(pdvobj);
++	struct recv_priv	*precvpriv = &adapter->recvpriv;
++	struct usb_device	*pusbd = pdvobj->pusbdev;
++
++
++	if (RTW_CANNOT_RX(adapter) || (precvbuf == NULL)) {
++		return _FAIL;
++	}
++
++	usb_init_recvbuf(adapter, precvbuf);
++
++	if (precvbuf->pbuf) {
++		ATOMIC_INC(&(precvpriv->rx_pending_cnt));
++		purb = precvbuf->purb;
++
++		/* translate DMA FIFO addr to pipehandle */
++		pipe = ffaddr2pipehdl(pdvobj, addr);
++
++		usb_fill_bulk_urb(purb, pusbd, pipe,
++			precvbuf->pbuf,
++			MAX_RECVBUF_SZ,
++			usb_read_port_complete,
++			precvbuf);/* context is precvbuf */
++
++		purb->transfer_dma = precvbuf->dma_transfer_addr;
++		purb->transfer_flags |= URB_NO_TRANSFER_DMA_MAP;
++
++		err = usb_submit_urb(purb, GFP_ATOMIC);
++		if ((err) && (err != (-EPERM))) {
++			RTW_INFO("cannot submit rx in-token(err = 0x%08x),urb_status = %d\n", err, purb->status);
++			ret = _FAIL;
++		}
++
++	}
++
++
++	return ret;
++}
++#else	/* CONFIG_USE_USB_BUFFER_ALLOC_RX */
++
++void usb_recv_tasklet(void *priv)
++{
++	_pkt			*pskb;
++	_adapter		*padapter = (_adapter *)priv;
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++	struct recv_buf	*precvbuf = NULL;
++
++	while (NULL != (pskb = skb_dequeue(&precvpriv->rx_skb_queue))) {
++
++		if (RTW_CANNOT_RUN(padapter)) {
++			RTW_INFO("recv_tasklet => bDriverStopped(%s) OR bSurpriseRemoved(%s)\n"
++				, rtw_is_drv_stopped(padapter) ? "True" : "False"
++				, rtw_is_surprise_removed(padapter) ? "True" : "False");
++			#ifdef CONFIG_PREALLOC_RX_SKB_BUFFER
++			if (rtw_free_skb_premem(pskb) != 0)
++			#endif /* CONFIG_PREALLOC_RX_SKB_BUFFER */
++				rtw_skb_free(pskb);
++			break;
++		}
++
++		recvbuf2recvframe(padapter, pskb);
++
++		skb_reset_tail_pointer(pskb);
++		pskb->len = 0;
++
++		skb_queue_tail(&precvpriv->free_recv_skb_queue, pskb);
++
++		precvbuf = rtw_dequeue_recvbuf(&precvpriv->recv_buf_pending_queue);
++		if (NULL != precvbuf) {
++			precvbuf->pskb = NULL;
++			rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++		}
++	}
++}
++
++void usb_read_port_complete(struct urb *purb, struct pt_regs *regs)
++{
++	struct recv_buf	*precvbuf = (struct recv_buf *)purb->context;
++	_adapter			*padapter = (_adapter *)precvbuf->adapter;
++	struct recv_priv	*precvpriv = &padapter->recvpriv;
++
++	ATOMIC_DEC(&(precvpriv->rx_pending_cnt));
++
++	if (RTW_CANNOT_RX(padapter)) {
++		RTW_INFO("%s() RX Warning! bDriverStopped(%s) OR bSurpriseRemoved(%s)\n"
++			, __func__
++			, rtw_is_drv_stopped(padapter) ? "True" : "False"
++			, rtw_is_surprise_removed(padapter) ? "True" : "False");
++		goto exit;
++	}
++
++	if (purb->status == 0) {
++
++		if ((purb->actual_length > MAX_RECVBUF_SZ) || (purb->actual_length < RXDESC_SIZE)) {
++			RTW_INFO("%s()-%d: urb->actual_length:%u, MAX_RECVBUF_SZ:%u, RXDESC_SIZE:%u\n"
++				, __FUNCTION__, __LINE__, purb->actual_length, MAX_RECVBUF_SZ, RXDESC_SIZE);
++			rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++		} else {
++			rtw_reset_continual_io_error(adapter_to_dvobj(padapter));
++
++			precvbuf->transfer_len = purb->actual_length;
++			skb_put(precvbuf->pskb, purb->actual_length);
++			skb_queue_tail(&precvpriv->rx_skb_queue, precvbuf->pskb);
++
++			#ifndef CONFIG_FIX_NR_BULKIN_BUFFER
++			if (skb_queue_len(&precvpriv->rx_skb_queue) <= 1)
++			#endif
++				tasklet_schedule(&precvpriv->recv_tasklet);
++
++			precvbuf->pskb = NULL;
++			rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++		}
++	} else {
++
++		RTW_INFO("###=> usb_read_port_complete => urb.status(%d)\n", purb->status);
++
++		if (rtw_inc_and_chk_continual_io_error(adapter_to_dvobj(padapter)) == _TRUE)
++			rtw_set_surprise_removed(padapter);
++
++		switch (purb->status) {
++		case -EINVAL:
++		case -EPIPE:
++		case -ENODEV:
++		case -ESHUTDOWN:
++		case -ENOENT:
++			rtw_set_drv_stopped(padapter);
++			break;
++		case -EPROTO:
++		case -EILSEQ:
++		case -ETIME:
++		case -ECOMM:
++		case -EOVERFLOW:
++			#ifdef DBG_CONFIG_ERROR_DETECT
++			{
++				HAL_DATA_TYPE	*pHalData = GET_HAL_DATA(padapter);
++				pHalData->srestpriv.Wifi_Error_Status = USB_READ_PORT_FAIL;
++			}
++			#endif
++			rtw_read_port(padapter, precvpriv->ff_hwaddr, 0, (unsigned char *)precvbuf);
++			break;
++		case -EINPROGRESS:
++			RTW_INFO("ERROR: URB IS IN PROGRESS!/n");
++			break;
++		default:
++			break;
++		}
++	}
++
++exit:
++	return;
++}
++
++u32 usb_read_port(struct intf_hdl *pintfhdl, u32 addr, u32 cnt, u8 *rmem)
++{
++	int err;
++	unsigned int pipe;
++	u32 ret = _FAIL;
++	PURB purb = NULL;
++	struct recv_buf	*precvbuf = (struct recv_buf *)rmem;
++	_adapter		*adapter = pintfhdl->padapter;
++	struct dvobj_priv	*pdvobj = adapter_to_dvobj(adapter);
++	struct pwrctrl_priv *pwrctl = dvobj_to_pwrctl(pdvobj);
++	struct recv_priv	*precvpriv = &adapter->recvpriv;
++	struct usb_device	*pusbd = pdvobj->pusbdev;
++
++
++	if (RTW_CANNOT_RX(adapter) || (precvbuf == NULL)) {
++		goto exit;
++	}
++
++	usb_init_recvbuf(adapter, precvbuf);
++
++	if (precvbuf->pskb == NULL) {
++		SIZE_PTR tmpaddr = 0;
++		SIZE_PTR alignment = 0;
++
++		precvbuf->pskb = skb_dequeue(&precvpriv->free_recv_skb_queue);
++		if (NULL != precvbuf->pskb)
++			goto recv_buf_hook;
++
++		#ifndef CONFIG_FIX_NR_BULKIN_BUFFER
++		precvbuf->pskb = rtw_skb_alloc(MAX_RECVBUF_SZ + RECVBUFF_ALIGN_SZ);
++		#endif
++
++		if (precvbuf->pskb == NULL) {
++			if (0)
++				RTW_INFO("usb_read_port() enqueue precvbuf=%p\n", precvbuf);
++			/* enqueue precvbuf and wait for free skb */
++			rtw_enqueue_recvbuf(precvbuf, &precvpriv->recv_buf_pending_queue);
++			goto exit;
++		}
++
++		tmpaddr = (SIZE_PTR)precvbuf->pskb->data;
++		alignment = tmpaddr & (RECVBUFF_ALIGN_SZ - 1);
++		skb_reserve(precvbuf->pskb, (RECVBUFF_ALIGN_SZ - alignment));
++	}
++
++recv_buf_hook:
++	precvbuf->phead = precvbuf->pskb->head;
++	precvbuf->pdata = precvbuf->pskb->data;
++	precvbuf->ptail = skb_tail_pointer(precvbuf->pskb);
++	precvbuf->pend = skb_end_pointer(precvbuf->pskb);
++	precvbuf->pbuf = precvbuf->pskb->data;
++
++	purb = precvbuf->purb;
++
++	/* translate DMA FIFO addr to pipehandle */
++	pipe = ffaddr2pipehdl(pdvobj, addr);
++
++	usb_fill_bulk_urb(purb, pusbd, pipe,
++		precvbuf->pbuf,
++		MAX_RECVBUF_SZ,
++		usb_read_port_complete,
++		precvbuf);
++
++	err = usb_submit_urb(purb, GFP_ATOMIC);
++	if (err && err != (-EPERM)) {
++		RTW_INFO("cannot submit rx in-token(err = 0x%08x),urb_status = %d\n"
++			, err, purb->status);
++		goto exit;
++	}
++
++	ATOMIC_INC(&(precvpriv->rx_pending_cnt));
++	ret = _SUCCESS;
++
++exit:
++
++
++	return ret;
++}
++#endif /* CONFIG_USE_USB_BUFFER_ALLOC_RX */
++
++#ifdef CONFIG_USB_INTERRUPT_IN_PIPE
++void usb_read_interrupt_complete(struct urb *purb, struct pt_regs *regs)
++{
++	int	err;
++	_adapter	*padapter = (_adapter *)purb->context;
++
++	if (RTW_CANNOT_RX(padapter)) {
++		RTW_INFO("%s() RX Warning! bDriverStopped(%s) OR bSurpriseRemoved(%s)\n"
++			, __func__
++			, rtw_is_drv_stopped(padapter) ? "True" : "False"
++			, rtw_is_surprise_removed(padapter) ? "True" : "False");
++
++		return;
++	}
++
++	if (purb->status == 0) {/*SUCCESS*/
++		if (purb->actual_length > INTERRUPT_MSG_FORMAT_LEN)
++			RTW_INFO("usb_read_interrupt_complete: purb->actual_length > INTERRUPT_MSG_FORMAT_LEN(%d)\n", INTERRUPT_MSG_FORMAT_LEN);
++
++		rtw_hal_interrupt_handler(padapter, purb->actual_length, purb->transfer_buffer);
++
++		err = usb_submit_urb(purb, GFP_ATOMIC);
++		if ((err) && (err != (-EPERM)))
++			RTW_INFO("cannot submit interrupt in-token(err = 0x%08x),urb_status = %d\n", err, purb->status);
++	} else {
++		RTW_INFO("###=> usb_read_interrupt_complete => urb status(%d)\n", purb->status);
++
++		switch (purb->status) {
++		case -EINVAL:
++		case -EPIPE:
++		case -ENODEV:
++		case -ESHUTDOWN:
++		case -ENOENT:
++			rtw_set_drv_stopped(padapter);
++			break;
++		case -EPROTO:
++			break;
++		case -EINPROGRESS:
++			RTW_INFO("ERROR: URB IS IN PROGRESS!/n");
++			break;
++		default:
++			break;
++		}
++	}
++}
++
++u32 usb_read_interrupt(struct intf_hdl *pintfhdl, u32 addr)
++{
++	int	err;
++	unsigned int pipe;
++	u32	ret = _SUCCESS;
++	_adapter			*adapter = pintfhdl->padapter;
++	struct dvobj_priv	*pdvobj = adapter_to_dvobj(adapter);
++	struct recv_priv	*precvpriv = &adapter->recvpriv;
++	struct usb_device	*pusbd = pdvobj->pusbdev;
++
++
++	if (RTW_CANNOT_RX(adapter)) {
++		return _FAIL;
++	}
++
++	/*translate DMA FIFO addr to pipehandle*/
++	pipe = ffaddr2pipehdl(pdvobj, addr);
++
++	usb_fill_int_urb(precvpriv->int_in_urb, pusbd, pipe,
++			precvpriv->int_in_buf,
++			INTERRUPT_MSG_FORMAT_LEN,
++			usb_read_interrupt_complete,
++			adapter,
++			1);
++
++	err = usb_submit_urb(precvpriv->int_in_urb, GFP_ATOMIC);
++	if ((err) && (err != (-EPERM))) {
++		RTW_INFO("cannot submit interrupt in-token(err = 0x%08x), urb_status = %d\n", err, precvpriv->int_in_urb->status);
++		ret = _FAIL;
++	}
++
++	return ret;
++}
++#endif /* CONFIG_USB_INTERRUPT_IN_PIPE */
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/wifi_regd.c b/drivers/net/wireless/rtl8812au/os_dep/linux/wifi_regd.c
+new file mode 100644
+index 0000000..2451e18
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/wifi_regd.c
+@@ -0,0 +1,548 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2009-2010  Realtek Corporation.
++ *
++ *****************************************************************************/
++
++#include <drv_types.h>
++#define IEEE80211_BAND_2GHZ NL80211_BAND_2GHZ
++#define IEEE80211_BAND_5GHZ NL80211_BAND_5GHZ
++#define ieee80211_band nl80211_band
++#define IEEE80211_NUM_BANDS 2
++#ifdef CONFIG_IOCTL_CFG80211
++
++#include <rtw_wifi_regd.h>
++
++static struct country_code_to_enum_rd allCountries[] = {
++	{COUNTRY_CODE_USER, "RD"},
++};
++
++/*
++ * REG_RULE(freq start, freq end, bandwidth, max gain, eirp, reg_flags)
++ */
++
++/*
++ *Only these channels all allow active
++ *scan on all world regulatory domains
++ */
++
++/* 2G chan 01 - chan 11 */
++#define RTW_2GHZ_CH01_11	\
++	REG_RULE(2412-10, 2462+10, 40, 0, 20, 0)
++
++/*
++ *We enable active scan on these a case
++ *by case basis by regulatory domain
++ */
++
++/* 2G chan 12 - chan 13, PASSIV SCAN */
++#define RTW_2GHZ_CH12_13	\
++	REG_RULE(2467-10, 2472+10, 40, 0, 20,	\
++		 NL80211_RRF_PASSIVE_SCAN)
++
++/* 2G chan 14, PASSIVS SCAN, NO OFDM (B only) */
++#define RTW_2GHZ_CH14	\
++	REG_RULE(2484-10, 2484+10, 40, 0, 20,	\
++		 NL80211_RRF_PASSIVE_SCAN | NL80211_RRF_NO_OFDM)
++
++/* 5G chan 36 - chan 64 */
++#define RTW_5GHZ_5150_5350	\
++	REG_RULE(5150-10, 5350+10, 40, 0, 30,	\
++		 NL80211_RRF_PASSIVE_SCAN | NL80211_RRF_NO_IBSS)
++
++/* 5G chan 100 - chan 165 */
++#define RTW_5GHZ_5470_5850	\
++	REG_RULE(5470-10, 5850+10, 40, 0, 30, \
++		 NL80211_RRF_PASSIVE_SCAN | NL80211_RRF_NO_IBSS)
++
++/* 5G chan 149 - chan 165 */
++#define RTW_5GHZ_5725_5850	\
++	REG_RULE(5725-10, 5850+10, 40, 0, 30, \
++		 NL80211_RRF_PASSIVE_SCAN | NL80211_RRF_NO_IBSS)
++
++/* 5G chan 36 - chan 165 */
++#define RTW_5GHZ_5150_5850	\
++	REG_RULE(5150-10, 5850+10, 40, 0, 30,	\
++		 NL80211_RRF_PASSIVE_SCAN | NL80211_RRF_NO_IBSS)
++
++static const struct ieee80211_regdomain rtw_regdom_rd = {
++	.n_reg_rules = 3,
++	.alpha2 = "99",
++	.reg_rules = {
++		RTW_2GHZ_CH01_11,
++		RTW_2GHZ_CH12_13,
++		RTW_5GHZ_5150_5850,
++	}
++};
++
++static const struct ieee80211_regdomain rtw_regdom_11 = {
++	.n_reg_rules = 1,
++	.alpha2 = "99",
++	.reg_rules = {
++		RTW_2GHZ_CH01_11,
++	}
++};
++
++static const struct ieee80211_regdomain rtw_regdom_12_13 = {
++	.n_reg_rules = 2,
++	.alpha2 = "99",
++	.reg_rules = {
++		RTW_2GHZ_CH01_11,
++		RTW_2GHZ_CH12_13,
++	}
++};
++
++static const struct ieee80211_regdomain rtw_regdom_no_midband = {
++	.n_reg_rules = 3,
++	.alpha2 = "99",
++	.reg_rules = {
++		RTW_2GHZ_CH01_11,
++		RTW_5GHZ_5150_5350,
++		RTW_5GHZ_5725_5850,
++	}
++};
++
++static const struct ieee80211_regdomain rtw_regdom_60_64 = {
++	.n_reg_rules = 3,
++	.alpha2 = "99",
++	.reg_rules = {
++		RTW_2GHZ_CH01_11,
++		RTW_2GHZ_CH12_13,
++		RTW_5GHZ_5725_5850,
++	}
++};
++
++static const struct ieee80211_regdomain rtw_regdom_14_60_64 = {
++	.n_reg_rules = 4,
++	.alpha2 = "99",
++	.reg_rules = {
++		RTW_2GHZ_CH01_11,
++		RTW_2GHZ_CH12_13,
++		RTW_2GHZ_CH14,
++		RTW_5GHZ_5725_5850,
++	}
++};
++
++static const struct ieee80211_regdomain rtw_regdom_14 = {
++	.n_reg_rules = 3,
++	.alpha2 = "99",
++	.reg_rules = {
++		RTW_2GHZ_CH01_11,
++		RTW_2GHZ_CH12_13,
++		RTW_2GHZ_CH14,
++	}
++};
++
++#if 0
++static struct rtw_regulatory *rtw_regd;
++#endif
++
++static bool _rtw_is_radar_freq(u16 center_freq)
++{
++	return center_freq >= 5260 && center_freq <= 5700;
++}
++
++#if 0 /* not_yet */
++static void _rtw_reg_apply_beaconing_flags(struct wiphy *wiphy,
++		enum nl80211_reg_initiator initiator)
++{
++	enum ieee80211_band band;
++	struct ieee80211_supported_band *sband;
++	const struct ieee80211_reg_rule *reg_rule;
++	struct ieee80211_channel *ch;
++	unsigned int i;
++	u32 bandwidth = 0;
++	int r;
++
++	for (band = 0; band < IEEE80211_NUM_BANDS; band++) {
++
++		if (!wiphy->bands[band])
++			continue;
++
++		sband = wiphy->bands[band];
++
++		for (i = 0; i < sband->n_channels; i++) {
++			ch = &sband->channels[i];
++			if (_rtw_is_radar_freq(ch->center_freq) ||
++			    (ch->flags & IEEE80211_CHAN_RADAR))
++				continue;
++			if (initiator == NL80211_REGDOM_SET_BY_COUNTRY_IE) {
++				r = freq_reg_info(wiphy, ch->center_freq,
++						  bandwidth, &reg_rule);
++				if (r)
++					continue;
++
++				/*
++				 *If 11d had a rule for this channel ensure
++				 *we enable adhoc/beaconing if it allows us to
++				 *use it. Note that we would have disabled it
++				 *by applying our static world regdomain by
++				 *default during init, prior to calling our
++				 *regulatory_hint().
++				 */
++
++				if (!(reg_rule->flags & NL80211_RRF_NO_IBSS))
++					ch->flags &= ~IEEE80211_CHAN_NO_IBSS;
++				if (!
++				    (reg_rule->flags &
++				     NL80211_RRF_PASSIVE_SCAN))
++					ch->flags &=
++						~IEEE80211_CHAN_PASSIVE_SCAN;
++			} else {
++				if (ch->beacon_found)
++					ch->flags &= ~(IEEE80211_CHAN_NO_IBSS |
++						IEEE80211_CHAN_PASSIVE_SCAN);
++			}
++		}
++	}
++}
++
++/* Allows active scan scan on Ch 12 and 13 */
++static void _rtw_reg_apply_active_scan_flags(struct wiphy *wiphy,
++		enum nl80211_reg_initiator
++		initiator)
++{
++	struct ieee80211_supported_band *sband;
++	struct ieee80211_channel *ch;
++	const struct ieee80211_reg_rule *reg_rule;
++	u32 bandwidth = 0;
++	int r;
++
++	if (!wiphy->bands[IEEE80211_BAND_2GHZ])
++		return;
++	sband = wiphy->bands[IEEE80211_BAND_2GHZ];
++
++	/*
++	 * If no country IE has been received always enable active scan
++	 * on these channels. This is only done for specific regulatory SKUs
++	 */
++	if (initiator != NL80211_REGDOM_SET_BY_COUNTRY_IE) {
++		ch = &sband->channels[11];	/* CH 12 */
++		if (ch->flags & IEEE80211_CHAN_PASSIVE_SCAN)
++			ch->flags &= ~IEEE80211_CHAN_PASSIVE_SCAN;
++		ch = &sband->channels[12];	/* CH 13 */
++		if (ch->flags & IEEE80211_CHAN_PASSIVE_SCAN)
++			ch->flags &= ~IEEE80211_CHAN_PASSIVE_SCAN;
++		return;
++	}
++
++	/*
++	 * If a country IE has been received check its rule for this
++	 * channel first before enabling active scan. The passive scan
++	 * would have been enforced by the initial processing of our
++	 * custom regulatory domain.
++	 */
++
++	ch = &sband->channels[11];	/* CH 12 */
++	r = freq_reg_info(wiphy, ch->center_freq, bandwidth, &reg_rule);
++	if (!r) {
++		if (!(reg_rule->flags & NL80211_RRF_PASSIVE_SCAN))
++			if (ch->flags & IEEE80211_CHAN_PASSIVE_SCAN)
++				ch->flags &= ~IEEE80211_CHAN_PASSIVE_SCAN;
++	}
++
++	ch = &sband->channels[12];	/* CH 13 */
++	r = freq_reg_info(wiphy, ch->center_freq, bandwidth, &reg_rule);
++	if (!r) {
++		if (!(reg_rule->flags & NL80211_RRF_PASSIVE_SCAN))
++			if (ch->flags & IEEE80211_CHAN_PASSIVE_SCAN)
++				ch->flags &= ~IEEE80211_CHAN_PASSIVE_SCAN;
++	}
++}
++#endif
++
++/*
++ * Always apply Radar/DFS rules on
++ * freq range 5260 MHz - 5700 MHz
++ */
++static void _rtw_reg_apply_radar_flags(struct wiphy *wiphy)
++{
++	struct ieee80211_supported_band *sband;
++	struct ieee80211_channel *ch;
++	unsigned int i;
++
++	if (!wiphy->bands[IEEE80211_BAND_5GHZ])
++		return;
++
++	sband = wiphy->bands[IEEE80211_BAND_5GHZ];
++
++	for (i = 0; i < sband->n_channels; i++) {
++		ch = &sband->channels[i];
++		if (!_rtw_is_radar_freq(ch->center_freq))
++			continue;
++#ifdef CONFIG_DFS
++		#if !defined(CONFIG_DFS_MASTER)
++		if (!(ch->flags & IEEE80211_CHAN_DISABLED)) {
++			ch->flags |= IEEE80211_CHAN_RADAR;
++			#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 14, 0))
++			ch->flags |= (IEEE80211_CHAN_NO_IBSS | IEEE80211_CHAN_PASSIVE_SCAN);
++			#else
++			ch->flags |= IEEE80211_CHAN_NO_IR;
++			#endif
++		}
++		#endif
++#endif /* CONFIG_DFS */
++
++#if 0
++		/*
++		 * We always enable radar detection/DFS on this
++		 * frequency range. Additionally we also apply on
++		 * this frequency range:
++		 * - If STA mode does not yet have DFS supports disable
++		 *  active scanning
++		 * - If adhoc mode does not support DFS yet then disable
++		 *  adhoc in the frequency.
++		 * - If AP mode does not yet support radar detection/DFS
++		 *  do not allow AP mode
++		 */
++		if (!(ch->flags & IEEE80211_CHAN_DISABLED))
++			ch->flags |= IEEE80211_CHAN_RADAR |
++				     IEEE80211_CHAN_NO_IBSS |
++				     IEEE80211_CHAN_PASSIVE_SCAN;
++#endif
++	}
++}
++
++static void _rtw_reg_apply_flags(struct wiphy *wiphy)
++{
++#if 1				/* by channel plan */
++	_adapter *padapter = wiphy_to_adapter(wiphy);
++	u8 channel_plan = padapter->mlmepriv.ChannelPlan;
++	struct mlme_ext_priv *pmlmeext = &padapter->mlmeextpriv;
++	RT_CHANNEL_INFO *channel_set = pmlmeext->channel_set;
++	u8 max_chan_nums = pmlmeext->max_chan_nums;
++
++	struct ieee80211_supported_band *sband;
++	struct ieee80211_channel *ch;
++	unsigned int i, j;
++	u16 channel;
++	u32 freq;
++
++	/* all channels disable */
++	for (i = 0; i < IEEE80211_NUM_BANDS; i++) {
++		sband = wiphy->bands[i];
++
++		if (sband) {
++			for (j = 0; j < sband->n_channels; j++) {
++				ch = &sband->channels[j];
++
++				if (ch)
++					ch->flags = IEEE80211_CHAN_DISABLED;
++			}
++		}
++	}
++
++	/* channels apply by channel plans. */
++	for (i = 0; i < max_chan_nums; i++) {
++		channel = channel_set[i].ChannelNum;
++		freq = rtw_ch2freq(channel);
++
++		ch = ieee80211_get_channel(wiphy, freq);
++		if (ch) {
++			if (channel_set[i].ScanType == SCAN_PASSIVE) {
++				#if defined(CONFIG_DFS_MASTER)
++				ch->flags = 0;
++				#elif (LINUX_VERSION_CODE < KERNEL_VERSION(3, 14, 0))
++				ch->flags = (IEEE80211_CHAN_NO_IBSS | IEEE80211_CHAN_PASSIVE_SCAN);
++				#else
++				ch->flags = IEEE80211_CHAN_NO_IR;
++				#endif
++			} else
++				ch->flags = 0;
++		}
++	}
++
++#else
++	struct ieee80211_supported_band *sband;
++	struct ieee80211_channel *ch;
++	unsigned int i, j;
++	u16 channels[37] = {
++		1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 36, 40, 44, 48, 52, 56,
++		60, 64, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140,
++		149, 153,
++		157, 161, 165
++	};
++	u16 channel;
++	u32 freq;
++
++	for (i = 0; i < IEEE80211_NUM_BANDS; i++) {
++		sband = wiphy->bands[i];
++
++		if (sband)
++			for (j = 0; j < sband->n_channels; j++) {
++				ch = &sband->channels[j];
++
++				if (ch)
++					ch->flags = IEEE80211_CHAN_DISABLED;
++			}
++	}
++
++	for (i = 0; i < 37; i++) {
++		channel = channels[i];
++		freq = rtw_ch2freq(channel);
++
++		ch = ieee80211_get_channel(wiphy, freq);
++		if (ch) {
++			if (channel <= 11)
++				ch->flags = 0;
++			else
++				ch->flags = 0;	/* IEEE80211_CHAN_PASSIVE_SCAN; */
++		}
++		/* printk("%s: freq %d(%d) flag 0x%02X\n", __func__, freq, channel, ch->flags); */
++	}
++#endif
++}
++
++static void _rtw_reg_apply_world_flags(struct wiphy *wiphy,
++				       enum nl80211_reg_initiator initiator,
++				       struct rtw_regulatory *reg)
++{
++	/* _rtw_reg_apply_beaconing_flags(wiphy, initiator); */
++	/* _rtw_reg_apply_active_scan_flags(wiphy, initiator); */
++	return;
++}
++
++static int _rtw_reg_notifier_apply(struct wiphy *wiphy,
++				   struct regulatory_request *request,
++				   struct rtw_regulatory *reg)
++{
++
++	/* Hard code flags */
++	_rtw_reg_apply_flags(wiphy);
++
++	/* We always apply this */
++	_rtw_reg_apply_radar_flags(wiphy);
++
++	switch (request->initiator) {
++	case NL80211_REGDOM_SET_BY_DRIVER:
++		RTW_INFO("%s: %s\n", __func__, "NL80211_REGDOM_SET_BY_DRIVER");
++		_rtw_reg_apply_world_flags(wiphy, NL80211_REGDOM_SET_BY_DRIVER,
++					   reg);
++		break;
++	case NL80211_REGDOM_SET_BY_CORE:
++		RTW_INFO("%s: %s\n", __func__,
++			 "NL80211_REGDOM_SET_BY_CORE to DRV");
++		_rtw_reg_apply_world_flags(wiphy, NL80211_REGDOM_SET_BY_DRIVER,
++					   reg);
++		break;
++	case NL80211_REGDOM_SET_BY_USER:
++		RTW_INFO("%s: %s\n", __func__,
++			 "NL80211_REGDOM_SET_BY_USER to DRV");
++		_rtw_reg_apply_world_flags(wiphy, NL80211_REGDOM_SET_BY_DRIVER,
++					   reg);
++		break;
++	case NL80211_REGDOM_SET_BY_COUNTRY_IE:
++		RTW_INFO("%s: %s\n", __func__,
++			 "NL80211_REGDOM_SET_BY_COUNTRY_IE");
++		_rtw_reg_apply_world_flags(wiphy, request->initiator, reg);
++		break;
++	}
++
++	return 0;
++}
++
++static const struct ieee80211_regdomain *_rtw_regdomain_select(struct
++		rtw_regulatory
++		*reg)
++{
++#if 0
++	switch (reg->country_code) {
++	case COUNTRY_CODE_USER:
++	default:
++		return &rtw_regdom_rd;
++	}
++#else
++	return &rtw_regdom_rd;
++#endif
++}
++
++void _rtw_reg_notifier(struct wiphy *wiphy, struct regulatory_request *request)
++{
++	struct rtw_regulatory *reg = NULL;
++
++	RTW_INFO("%s\n", __func__);
++
++	_rtw_reg_notifier_apply(wiphy, request, reg);
++}
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 9, 0))
++int rtw_reg_notifier(struct wiphy *wiphy, struct regulatory_request *request)
++#else
++void rtw_reg_notifier(struct wiphy *wiphy, struct regulatory_request *request)
++#endif
++{
++	_rtw_reg_notifier(wiphy, request);
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 9, 0))
++	return 0;
++#endif
++}
++
++void rtw_reg_notify_by_driver(_adapter *adapter)
++{
++	if ((adapter->rtw_wdev != NULL) && (adapter->rtw_wdev->wiphy)) {
++		struct regulatory_request request;
++		request.initiator = NL80211_REGDOM_SET_BY_DRIVER;
++		rtw_reg_notifier(adapter->rtw_wdev->wiphy, &request);
++	}
++}
++
++static void _rtw_regd_init_wiphy(struct rtw_regulatory *reg, struct wiphy *wiphy)
++{
++	const struct ieee80211_regdomain *regd;
++
++	wiphy->reg_notifier = rtw_reg_notifier;
++
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(3, 14, 0))
++	wiphy->flags |= WIPHY_FLAG_CUSTOM_REGULATORY;
++	wiphy->flags &= ~WIPHY_FLAG_STRICT_REGULATORY;
++	wiphy->flags &= ~WIPHY_FLAG_DISABLE_BEACON_HINTS;
++#else
++	wiphy->regulatory_flags |= REGULATORY_CUSTOM_REG;
++	wiphy->regulatory_flags &= ~REGULATORY_STRICT_REG;
++	wiphy->regulatory_flags &= ~REGULATORY_DISABLE_BEACON_HINTS;
++#endif
++
++	regd = _rtw_regdomain_select(reg);
++	wiphy_apply_custom_regulatory(wiphy, regd);
++
++	/* Hard code flags */
++	_rtw_reg_apply_flags(wiphy);
++	_rtw_reg_apply_radar_flags(wiphy);
++	_rtw_reg_apply_world_flags(wiphy, NL80211_REGDOM_SET_BY_DRIVER, reg);
++}
++
++static struct country_code_to_enum_rd *_rtw_regd_find_country(u16 countrycode)
++{
++	int i;
++
++	for (i = 0; i < ARRAY_SIZE(allCountries); i++) {
++		if (allCountries[i].countrycode == countrycode)
++			return &allCountries[i];
++	}
++	return NULL;
++}
++
++int rtw_regd_init(_adapter *padapter)
++{
++	struct wiphy *wiphy = padapter->rtw_wdev->wiphy;
++
++#if 0
++	if (rtw_regd == NULL) {
++		rtw_regd = (struct rtw_regulatory *)
++			   rtw_malloc(sizeof(struct rtw_regulatory));
++
++		rtw_regd->alpha2[0] = '9';
++		rtw_regd->alpha2[1] = '9';
++
++		rtw_regd->country_code = COUNTRY_CODE_USER;
++	}
++
++	RTW_INFO("%s: Country alpha2 being used: %c%c\n",
++		 __func__, rtw_regd->alpha2[0], rtw_regd->alpha2[1]);
++#endif
++
++	_rtw_regd_init_wiphy(NULL, wiphy);
++
++	return 0;
++}
++#endif /* CONFIG_IOCTL_CFG80211 */
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/xmit_linux.c b/drivers/net/wireless/rtl8812au/os_dep/linux/xmit_linux.c
+new file mode 100644
+index 0000000..e182ceb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/xmit_linux.c
+@@ -0,0 +1,532 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#define _XMIT_OSDEP_C_
++
++#include <drv_types.h>
++
++#define DBG_DUMP_OS_QUEUE_CTL 0
++
++uint rtw_remainder_len(struct pkt_file *pfile)
++{
++	return pfile->buf_len - ((SIZE_PTR)(pfile->cur_addr) - (SIZE_PTR)(pfile->buf_start));
++}
++
++void _rtw_open_pktfile(_pkt *pktptr, struct pkt_file *pfile)
++{
++
++	pfile->pkt = pktptr;
++	pfile->cur_addr = pfile->buf_start = pktptr->data;
++	pfile->pkt_len = pfile->buf_len = pktptr->len;
++
++	pfile->cur_buffer = pfile->buf_start ;
++
++}
++
++uint _rtw_pktfile_read(struct pkt_file *pfile, u8 *rmem, uint rlen)
++{
++	uint	len = 0;
++
++
++	len =  rtw_remainder_len(pfile);
++	len = (rlen > len) ? len : rlen;
++
++	if (rmem)
++		skb_copy_bits(pfile->pkt, pfile->buf_len - pfile->pkt_len, rmem, len);
++
++	pfile->cur_addr += len;
++	pfile->pkt_len -= len;
++
++
++	return len;
++}
++
++sint rtw_endofpktfile(struct pkt_file *pfile)
++{
++
++	if (pfile->pkt_len == 0) {
++		return _TRUE;
++	}
++
++
++	return _FALSE;
++}
++
++void rtw_set_tx_chksum_offload(_pkt *pkt, struct pkt_attrib *pattrib)
++{
++
++#ifdef CONFIG_TCP_CSUM_OFFLOAD_TX
++	struct sk_buff *skb = (struct sk_buff *)pkt;
++	pattrib->hw_tcp_csum = 0;
++
++	if (skb->ip_summed == CHECKSUM_PARTIAL) {
++		if (skb_shinfo(skb)->nr_frags == 0) {
++			const struct iphdr *ip = ip_hdr(skb);
++			if (ip->protocol == IPPROTO_TCP) {
++				/* TCP checksum offload by HW */
++				RTW_INFO("CHECKSUM_PARTIAL TCP\n");
++				pattrib->hw_tcp_csum = 1;
++				/* skb_checksum_help(skb); */
++			} else if (ip->protocol == IPPROTO_UDP) {
++				/* RTW_INFO("CHECKSUM_PARTIAL UDP\n"); */
++#if 1
++				skb_checksum_help(skb);
++#else
++				/* Set UDP checksum = 0 to skip checksum check */
++				struct udphdr *udp = skb_transport_header(skb);
++				udp->check = 0;
++#endif
++			} else {
++				RTW_INFO("%s-%d TCP CSUM offload Error!!\n", __FUNCTION__, __LINE__);
++				WARN_ON(1);     /* we need a WARN() */
++			}
++		} else { /* IP fragmentation case */
++			RTW_INFO("%s-%d nr_frags != 0, using skb_checksum_help(skb);!!\n", __FUNCTION__, __LINE__);
++			skb_checksum_help(skb);
++		}
++	}
++#endif
++
++}
++
++int rtw_os_xmit_resource_alloc(_adapter *padapter, struct xmit_buf *pxmitbuf, u32 alloc_sz, u8 flag)
++{
++	if (alloc_sz > 0) {
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_TX
++		struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++		struct usb_device	*pusbd = pdvobjpriv->pusbdev;
++
++		pxmitbuf->pallocated_buf = rtw_usb_buffer_alloc(pusbd, (size_t)alloc_sz, &pxmitbuf->dma_transfer_addr);
++		pxmitbuf->pbuf = pxmitbuf->pallocated_buf;
++		if (pxmitbuf->pallocated_buf == NULL)
++			return _FAIL;
++#else /* CONFIG_USE_USB_BUFFER_ALLOC_TX */
++
++		pxmitbuf->pallocated_buf = rtw_zmalloc(alloc_sz);
++		if (pxmitbuf->pallocated_buf == NULL)
++			return _FAIL;
++
++		pxmitbuf->pbuf = (u8 *)N_BYTE_ALIGMENT((SIZE_PTR)(pxmitbuf->pallocated_buf), XMITBUF_ALIGN_SZ);
++
++#endif /* CONFIG_USE_USB_BUFFER_ALLOC_TX */
++	}
++
++	if (flag) {
++#ifdef CONFIG_USB_HCI
++		int i;
++		for (i = 0; i < 8; i++) {
++			pxmitbuf->pxmit_urb[i] = usb_alloc_urb(0, GFP_KERNEL);
++			if (pxmitbuf->pxmit_urb[i] == NULL) {
++				RTW_INFO("pxmitbuf->pxmit_urb[i]==NULL");
++				return _FAIL;
++			}
++		}
++#endif
++	}
++
++	return _SUCCESS;
++}
++
++void rtw_os_xmit_resource_free(_adapter *padapter, struct xmit_buf *pxmitbuf, u32 free_sz, u8 flag)
++{
++	if (flag) {
++#ifdef CONFIG_USB_HCI
++		int i;
++
++		for (i = 0; i < 8; i++) {
++			if (pxmitbuf->pxmit_urb[i]) {
++				/* usb_kill_urb(pxmitbuf->pxmit_urb[i]); */
++				usb_free_urb(pxmitbuf->pxmit_urb[i]);
++			}
++		}
++#endif
++	}
++
++	if (free_sz > 0) {
++#ifdef CONFIG_USE_USB_BUFFER_ALLOC_TX
++		struct dvobj_priv	*pdvobjpriv = adapter_to_dvobj(padapter);
++		struct usb_device	*pusbd = pdvobjpriv->pusbdev;
++
++		rtw_usb_buffer_free(pusbd, (size_t)free_sz, pxmitbuf->pallocated_buf, pxmitbuf->dma_transfer_addr);
++		pxmitbuf->pallocated_buf =  NULL;
++		pxmitbuf->dma_transfer_addr = 0;
++#else	/* CONFIG_USE_USB_BUFFER_ALLOC_TX */
++		if (pxmitbuf->pallocated_buf)
++			rtw_mfree(pxmitbuf->pallocated_buf, free_sz);
++#endif /* CONFIG_USE_USB_BUFFER_ALLOC_TX */
++	}
++}
++
++void dump_os_queue(void *sel, _adapter *padapter)
++{
++	struct net_device *ndev = padapter->pnetdev;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	int i;
++
++	for (i = 0; i < 4; i++) {
++		RTW_PRINT_SEL(sel, "os_queue[%d]:%s\n"
++			, i, __netif_subqueue_stopped(ndev, i) ? "stopped" : "waked");
++	}
++#else
++	RTW_PRINT_SEL(sel, "os_queue:%s\n"
++		      , netif_queue_stopped(ndev) ? "stopped" : "waked");
++#endif
++}
++
++#define WMM_XMIT_THRESHOLD	(NR_XMITFRAME*2/5)
++
++static inline bool rtw_os_need_wake_queue(_adapter *padapter, u16 qidx)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++
++	if (padapter->registrypriv.wifi_spec) {
++		if (pxmitpriv->hwxmits[qidx].accnt < WMM_XMIT_THRESHOLD)
++			return _TRUE;
++	} else {
++#ifdef CONFIG_MCC_MODE
++		if (MCC_EN(padapter)) {
++			if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)
++			    && MCC_STOP(padapter))
++				return _FALSE;
++		}
++#endif /* CONFIG_MCC_MODE */
++		return _TRUE;
++	}
++	return _FALSE;
++#else
++#ifdef CONFIG_MCC_MODE
++	if (MCC_EN(padapter)) {
++		if (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC)
++		    && MCC_STOP(padapter))
++			return _FALSE;
++	}
++#endif /* CONFIG_MCC_MODE */
++	return _TRUE;
++#endif
++}
++
++static inline bool rtw_os_need_stop_queue(_adapter *padapter, u16 qidx)
++{
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	if (padapter->registrypriv.wifi_spec) {
++		/* No free space for Tx, tx_worker is too slow */
++		if (pxmitpriv->hwxmits[qidx].accnt > WMM_XMIT_THRESHOLD)
++			return _TRUE;
++	} else {
++		if (pxmitpriv->free_xmitframe_cnt <= 4)
++			return _TRUE;
++	}
++#else
++	if (pxmitpriv->free_xmitframe_cnt <= 4)
++		return _TRUE;
++#endif
++	return _FALSE;
++}
++
++void rtw_os_pkt_complete(_adapter *padapter, _pkt *pkt)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	u16	qidx;
++
++	qidx = skb_get_queue_mapping(pkt);
++	if (rtw_os_need_wake_queue(padapter, qidx)) {
++		if (DBG_DUMP_OS_QUEUE_CTL)
++			RTW_INFO(FUNC_ADPT_FMT": netif_wake_subqueue[%d]\n", FUNC_ADPT_ARG(padapter), qidx);
++		netif_wake_subqueue(padapter->pnetdev, qidx);
++	}
++#else
++	if (rtw_os_need_wake_queue(padapter, 0)) {
++		if (DBG_DUMP_OS_QUEUE_CTL)
++			RTW_INFO(FUNC_ADPT_FMT": netif_wake_queue\n", FUNC_ADPT_ARG(padapter));
++		netif_wake_queue(padapter->pnetdev);
++	}
++#endif
++
++	rtw_skb_free(pkt);
++}
++
++void rtw_os_xmit_complete(_adapter *padapter, struct xmit_frame *pxframe)
++{
++	if (pxframe->pkt)
++		rtw_os_pkt_complete(padapter, pxframe->pkt);
++
++	pxframe->pkt = NULL;
++}
++
++void rtw_os_xmit_schedule(_adapter *padapter)
++{
++#if defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
++	_adapter *pri_adapter = GET_PRIMARY_ADAPTER(padapter);
++
++	if (!padapter)
++		return;
++
++	if (_rtw_queue_empty(&padapter->xmitpriv.pending_xmitbuf_queue) == _FALSE)
++		_rtw_up_sema(&pri_adapter->xmitpriv.xmit_sema);
++
++
++#else
++	_irqL  irqL;
++	struct xmit_priv *pxmitpriv;
++
++	if (!padapter)
++		return;
++
++	pxmitpriv = &padapter->xmitpriv;
++
++	_enter_critical_bh(&pxmitpriv->lock, &irqL);
++
++	if (rtw_txframes_pending(padapter))
++		tasklet_hi_schedule(&pxmitpriv->xmit_tasklet);
++
++	_exit_critical_bh(&pxmitpriv->lock, &irqL);
++	
++#if defined(CONFIG_PCI_HCI) && defined(CONFIG_XMIT_THREAD_MODE)
++	if (_rtw_queue_empty(&padapter->xmitpriv.pending_xmitbuf_queue) == _FALSE)
++		_rtw_up_sema(&padapter->xmitpriv.xmit_sema);
++#endif
++	
++
++#endif
++}
++
++static bool rtw_check_xmit_resource(_adapter *padapter, _pkt *pkt)
++{
++	bool busy = _FALSE;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	u16	qidx;
++
++	qidx = skb_get_queue_mapping(pkt);
++	if (rtw_os_need_stop_queue(padapter, qidx)) {
++		if (DBG_DUMP_OS_QUEUE_CTL)
++			RTW_INFO(FUNC_ADPT_FMT": netif_stop_subqueue[%d]\n", FUNC_ADPT_ARG(padapter), qidx);
++		netif_stop_subqueue(padapter->pnetdev, qidx);
++		busy = _TRUE;
++	}
++#else
++	if (rtw_os_need_stop_queue(padapter, 0)) {
++		if (DBG_DUMP_OS_QUEUE_CTL)
++			RTW_INFO(FUNC_ADPT_FMT": netif_stop_queue\n", FUNC_ADPT_ARG(padapter));
++		rtw_netif_stop_queue(padapter->pnetdev);
++		busy = _TRUE;
++	}
++#endif
++	return busy;
++}
++
++void rtw_os_wake_queue_at_free_stainfo(_adapter *padapter, int *qcnt_freed)
++{
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	int i;
++
++	for (i = 0; i < 4; i++) {
++		if (qcnt_freed[i] == 0)
++			continue;
++
++		if (rtw_os_need_wake_queue(padapter, i)) {
++			if (DBG_DUMP_OS_QUEUE_CTL)
++				RTW_INFO(FUNC_ADPT_FMT": netif_wake_subqueue[%d]\n", FUNC_ADPT_ARG(padapter), i);
++			netif_wake_subqueue(padapter->pnetdev, i);
++		}
++	}
++#else
++	if (qcnt_freed[0] || qcnt_freed[1] || qcnt_freed[2] || qcnt_freed[3]) {
++		if (rtw_os_need_wake_queue(padapter, 0)) {
++			if (DBG_DUMP_OS_QUEUE_CTL)
++				RTW_INFO(FUNC_ADPT_FMT": netif_wake_queue\n", FUNC_ADPT_ARG(padapter));
++			netif_wake_queue(padapter->pnetdev);
++		}
++	}
++#endif
++}
++
++#ifdef CONFIG_TX_MCAST2UNI
++int rtw_mlcst2unicst(_adapter *padapter, struct sk_buff *skb)
++{
++	struct	sta_priv *pstapriv = &padapter->stapriv;
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++	_irqL	irqL;
++	_list	*phead, *plist;
++	struct sk_buff *newskb;
++	struct sta_info *psta = NULL;
++	u8 chk_alive_num = 0;
++	char chk_alive_list[NUM_STA];
++	u8 bc_addr[6] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
++	u8 null_addr[6] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
++
++	int i;
++	s32	res;
++
++	DBG_COUNTER(padapter->tx_logs.os_tx_m2u);
++
++	_enter_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++	phead = &pstapriv->asoc_list;
++	plist = get_next(phead);
++
++	/* free sta asoc_queue */
++	while ((rtw_end_of_queue_search(phead, plist)) == _FALSE) {
++		int stainfo_offset;
++		psta = LIST_CONTAINOR(plist, struct sta_info, asoc_list);
++		plist = get_next(plist);
++
++		stainfo_offset = rtw_stainfo_offset(pstapriv, psta);
++		if (stainfo_offset_valid(stainfo_offset))
++			chk_alive_list[chk_alive_num++] = stainfo_offset;
++	}
++	_exit_critical_bh(&pstapriv->asoc_list_lock, &irqL);
++
++	for (i = 0; i < chk_alive_num; i++) {
++		psta = rtw_get_stainfo_by_offset(pstapriv, chk_alive_list[i]);
++		if (!(psta->state & _FW_LINKED)) {
++			DBG_COUNTER(padapter->tx_logs.os_tx_m2u_ignore_fw_linked);
++			continue;
++		}
++
++		/* avoid come from STA1 and send back STA1 */
++		if (_rtw_memcmp(psta->hwaddr, &skb->data[6], 6) == _TRUE
++			|| _rtw_memcmp(psta->hwaddr, null_addr, 6) == _TRUE
++			|| _rtw_memcmp(psta->hwaddr, bc_addr, 6) == _TRUE
++		) {
++			DBG_COUNTER(padapter->tx_logs.os_tx_m2u_ignore_self);
++			continue;
++		}
++
++		DBG_COUNTER(padapter->tx_logs.os_tx_m2u_entry);
++
++		newskb = rtw_skb_copy(skb);
++
++		if (newskb) {
++			_rtw_memcpy(newskb->data, psta->hwaddr, 6);
++			res = rtw_xmit(padapter, &newskb);
++			if (res < 0) {
++				DBG_COUNTER(padapter->tx_logs.os_tx_m2u_entry_err_xmit);
++				RTW_INFO("%s()-%d: rtw_xmit() return error! res=%d\n", __FUNCTION__, __LINE__, res);
++				pxmitpriv->tx_drop++;
++				rtw_skb_free(newskb);
++			}
++		} else {
++			DBG_COUNTER(padapter->tx_logs.os_tx_m2u_entry_err_skb);
++			RTW_INFO("%s-%d: rtw_skb_copy() failed!\n", __FUNCTION__, __LINE__);
++			pxmitpriv->tx_drop++;
++			/* rtw_skb_free(skb); */
++			return _FALSE;	/* Caller shall tx this multicast frame via normal way. */
++		}
++	}
++
++	rtw_skb_free(skb);
++	return _TRUE;
++}
++#endif /* CONFIG_TX_MCAST2UNI */
++
++
++int _rtw_xmit_entry(_pkt *pkt, _nic_hdl pnetdev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct xmit_priv *pxmitpriv = &padapter->xmitpriv;
++#ifdef CONFIG_TX_MCAST2UNI
++	struct mlme_priv	*pmlmepriv = &padapter->mlmepriv;
++	extern int rtw_mc2u_disable;
++#endif /* CONFIG_TX_MCAST2UNI	 */
++	s32 res = 0;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	u16 queue;
++#endif
++
++
++	if (padapter->registrypriv.mp_mode) {
++		RTW_INFO("MP_TX_DROP_OS_FRAME\n");
++		goto drop_packet;
++	}
++	DBG_COUNTER(padapter->tx_logs.os_tx);
++
++	if (rtw_if_up(padapter) == _FALSE) {
++		DBG_COUNTER(padapter->tx_logs.os_tx_err_up);
++		#ifdef DBG_TX_DROP_FRAME
++		RTW_INFO("DBG_TX_DROP_FRAME %s if_up fail\n", __FUNCTION__);
++		#endif
++		goto drop_packet;
++	}
++
++	rtw_check_xmit_resource(padapter, pkt);
++
++#ifdef CONFIG_TX_MCAST2UNI
++	if (!rtw_mc2u_disable
++		&& check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE
++		&& (IP_MCAST_MAC(pkt->data)
++			|| ICMPV6_MCAST_MAC(pkt->data)
++			#ifdef CONFIG_TX_BCAST2UNI
++			|| is_broadcast_mac_addr(pkt->data)
++			#endif
++			)
++		&& (padapter->registrypriv.wifi_spec == 0)
++	) {
++		if (pxmitpriv->free_xmitframe_cnt > (NR_XMITFRAME / 4)) {
++			res = rtw_mlcst2unicst(padapter, pkt);
++			if (res == _TRUE)
++				goto exit;
++		} else {
++			/* RTW_INFO("Stop M2U(%d, %d)! ", pxmitpriv->free_xmitframe_cnt, pxmitpriv->free_xmitbuf_cnt); */
++			/* RTW_INFO("!m2u ); */
++			DBG_COUNTER(padapter->tx_logs.os_tx_m2u_stop);
++		}
++	}
++#endif /* CONFIG_TX_MCAST2UNI	 */
++
++	res = rtw_xmit(padapter, &pkt);
++	if (res < 0) {
++		#ifdef DBG_TX_DROP_FRAME
++		RTW_INFO("DBG_TX_DROP_FRAME %s rtw_xmit fail\n", __FUNCTION__);
++		#endif
++		goto drop_packet;
++	}
++
++	goto exit;
++
++drop_packet:
++	pxmitpriv->tx_drop++;
++	rtw_os_pkt_complete(padapter, pkt);
++
++exit:
++
++
++	return 0;
++}
++
++int rtw_xmit_entry(_pkt *pkt, _nic_hdl pnetdev)
++{
++	_adapter *padapter = (_adapter *)rtw_netdev_priv(pnetdev);
++	struct	mlme_priv	*pmlmepriv = &(padapter->mlmepriv);
++	int ret = 0;
++
++	if (pkt) {
++		if (check_fwstate(pmlmepriv, WIFI_MONITOR_STATE) == _TRUE)
++			rtw_monitor_xmit_entry((struct sk_buff *)pkt, pnetdev);
++		else {
++			rtw_mstat_update(MSTAT_TYPE_SKB, MSTAT_ALLOC_SUCCESS, pkt->truesize);
++			ret = _rtw_xmit_entry(pkt, pnetdev);
++		}
++
++	}
++
++	return ret;
++}
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/osdep_service.c b/drivers/net/wireless/rtl8812au/os_dep/osdep_service.c
+new file mode 100644
+index 0000000..7fb0b4b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/os_dep/osdep_service.c
+@@ -0,0 +1,2632 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2007 - 2012 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++
++#define _OSDEP_SERVICE_C_
++
++#include <drv_types.h>
++
++#define RT_TAG	'1178'
++
++#ifdef DBG_MEMORY_LEAK
++#ifdef PLATFORM_LINUX
++atomic_t _malloc_cnt = ATOMIC_INIT(0);
++atomic_t _malloc_size = ATOMIC_INIT(0);
++#endif
++#endif /* DBG_MEMORY_LEAK */
++
++
++#if defined(PLATFORM_LINUX)
++/*
++* Translate the OS dependent @param error_code to OS independent RTW_STATUS_CODE
++* @return: one of RTW_STATUS_CODE
++*/
++inline int RTW_STATUS_CODE(int error_code)
++{
++	if (error_code >= 0)
++		return _SUCCESS;
++
++	switch (error_code) {
++	/* case -ETIMEDOUT: */
++	/*	return RTW_STATUS_TIMEDOUT; */
++	default:
++		return _FAIL;
++	}
++}
++#else
++inline int RTW_STATUS_CODE(int error_code)
++{
++	return error_code;
++}
++#endif
++
++u32 rtw_atoi(u8 *s)
++{
++
++	int num = 0, flag = 0;
++	int i;
++	for (i = 0; i <= strlen(s); i++) {
++		if (s[i] >= '0' && s[i] <= '9')
++			num = num * 10 + s[i] - '0';
++		else if (s[0] == '-' && i == 0)
++			flag = 1;
++		else
++			break;
++	}
++
++	if (flag == 1)
++		num = num * -1;
++
++	return num;
++
++}
++
++inline u8 *_rtw_vmalloc(u32 sz)
++{
++	u8	*pbuf;
++#ifdef PLATFORM_LINUX
++	pbuf = vmalloc(sz);
++#endif
++#ifdef PLATFORM_FREEBSD
++	pbuf = malloc(sz, M_DEVBUF, M_NOWAIT);
++#endif
++
++#ifdef PLATFORM_WINDOWS
++	NdisAllocateMemoryWithTag(&pbuf, sz, RT_TAG);
++#endif
++
++#ifdef DBG_MEMORY_LEAK
++#ifdef PLATFORM_LINUX
++	if (pbuf != NULL) {
++		atomic_inc(&_malloc_cnt);
++		atomic_add(sz, &_malloc_size);
++	}
++#endif
++#endif /* DBG_MEMORY_LEAK */
++
++	return pbuf;
++}
++
++inline u8 *_rtw_zvmalloc(u32 sz)
++{
++	u8	*pbuf;
++#ifdef PLATFORM_LINUX
++	pbuf = _rtw_vmalloc(sz);
++	if (pbuf != NULL)
++		memset(pbuf, 0, sz);
++#endif
++#ifdef PLATFORM_FREEBSD
++	pbuf = malloc(sz, M_DEVBUF, M_ZERO | M_NOWAIT);
++#endif
++#ifdef PLATFORM_WINDOWS
++	NdisAllocateMemoryWithTag(&pbuf, sz, RT_TAG);
++	if (pbuf != NULL)
++		NdisFillMemory(pbuf, sz, 0);
++#endif
++
++	return pbuf;
++}
++
++inline void _rtw_vmfree(u8 *pbuf, u32 sz)
++{
++#ifdef PLATFORM_LINUX
++	vfree(pbuf);
++#endif
++#ifdef PLATFORM_FREEBSD
++	free(pbuf, M_DEVBUF);
++#endif
++#ifdef PLATFORM_WINDOWS
++	NdisFreeMemory(pbuf, sz, 0);
++#endif
++
++#ifdef DBG_MEMORY_LEAK
++#ifdef PLATFORM_LINUX
++	atomic_dec(&_malloc_cnt);
++	atomic_sub(sz, &_malloc_size);
++#endif
++#endif /* DBG_MEMORY_LEAK */
++}
++
++u8 *_rtw_malloc(u32 sz)
++{
++
++	u8	*pbuf = NULL;
++
++#ifdef PLATFORM_LINUX
++#ifdef RTK_DMP_PLATFORM
++	if (sz > 0x4000)
++		pbuf = (u8 *)dvr_malloc(sz);
++	else
++#endif
++		pbuf = kmalloc(sz, in_interrupt() ? GFP_ATOMIC : GFP_KERNEL);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	pbuf = malloc(sz, M_DEVBUF, M_NOWAIT);
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisAllocateMemoryWithTag(&pbuf, sz, RT_TAG);
++
++#endif
++
++#ifdef DBG_MEMORY_LEAK
++#ifdef PLATFORM_LINUX
++	if (pbuf != NULL) {
++		atomic_inc(&_malloc_cnt);
++		atomic_add(sz, &_malloc_size);
++	}
++#endif
++#endif /* DBG_MEMORY_LEAK */
++
++	return pbuf;
++
++}
++
++
++u8 *_rtw_zmalloc(u32 sz)
++{
++#ifdef PLATFORM_FREEBSD
++	return malloc(sz, M_DEVBUF, M_ZERO | M_NOWAIT);
++#else /* PLATFORM_FREEBSD */
++	u8	*pbuf = _rtw_malloc(sz);
++
++	if (pbuf != NULL) {
++
++#ifdef PLATFORM_LINUX
++		memset(pbuf, 0, sz);
++#endif
++
++#ifdef PLATFORM_WINDOWS
++		NdisFillMemory(pbuf, sz, 0);
++#endif
++
++	}
++
++	return pbuf;
++#endif /* PLATFORM_FREEBSD */
++}
++
++void	_rtw_mfree(u8 *pbuf, u32 sz)
++{
++
++#ifdef PLATFORM_LINUX
++#ifdef RTK_DMP_PLATFORM
++	if (sz > 0x4000)
++		dvr_free(pbuf);
++	else
++#endif
++		kfree(pbuf);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	free(pbuf, M_DEVBUF);
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisFreeMemory(pbuf, sz, 0);
++
++#endif
++
++#ifdef DBG_MEMORY_LEAK
++#ifdef PLATFORM_LINUX
++	atomic_dec(&_malloc_cnt);
++	atomic_sub(sz, &_malloc_size);
++#endif
++#endif /* DBG_MEMORY_LEAK */
++
++}
++
++#ifdef PLATFORM_FREEBSD
++/* review again */
++struct sk_buff *dev_alloc_skb(unsigned int size)
++{
++	struct sk_buff *skb = NULL;
++	u8 *data = NULL;
++
++	/* skb = (struct sk_buff *)_rtw_zmalloc(sizeof(struct sk_buff)); */ /* for skb->len, etc. */
++	skb = (struct sk_buff *)_rtw_malloc(sizeof(struct sk_buff));
++	if (!skb)
++		goto out;
++	data = _rtw_malloc(size);
++	if (!data)
++		goto nodata;
++
++	skb->head = (unsigned char *)data;
++	skb->data = (unsigned char *)data;
++	skb->tail = (unsigned char *)data;
++	skb->end = (unsigned char *)data + size;
++	skb->len = 0;
++	/* printf("%s()-%d: skb=%p, skb->head = %p\n", __FUNCTION__, __LINE__, skb, skb->head); */
++
++out:
++	return skb;
++nodata:
++	_rtw_mfree((u8 *)skb, sizeof(struct sk_buff));
++	skb = NULL;
++	goto out;
++
++}
++
++void dev_kfree_skb_any(struct sk_buff *skb)
++{
++	/* printf("%s()-%d: skb->head = %p\n", __FUNCTION__, __LINE__, skb->head); */
++	if (skb->head)
++		_rtw_mfree(skb->head, 0);
++	/* printf("%s()-%d: skb = %p\n", __FUNCTION__, __LINE__, skb); */
++	if (skb)
++		_rtw_mfree((u8 *)skb, 0);
++}
++struct sk_buff *skb_clone(const struct sk_buff *skb)
++{
++	return NULL;
++}
++
++#endif /* PLATFORM_FREEBSD */
++
++inline struct sk_buff *_rtw_skb_alloc(u32 sz)
++{
++#ifdef PLATFORM_LINUX
++	return __dev_alloc_skb(sz, in_interrupt() ? GFP_ATOMIC : GFP_KERNEL);
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	return dev_alloc_skb(sz);
++#endif /* PLATFORM_FREEBSD */
++}
++
++inline void _rtw_skb_free(struct sk_buff *skb)
++{
++	dev_kfree_skb_any(skb);
++}
++
++inline struct sk_buff *_rtw_skb_copy(const struct sk_buff *skb)
++{
++#ifdef PLATFORM_LINUX
++	return skb_copy(skb, in_interrupt() ? GFP_ATOMIC : GFP_KERNEL);
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	return NULL;
++#endif /* PLATFORM_FREEBSD */
++}
++
++inline struct sk_buff *_rtw_skb_clone(struct sk_buff *skb)
++{
++#ifdef PLATFORM_LINUX
++	return skb_clone(skb, in_interrupt() ? GFP_ATOMIC : GFP_KERNEL);
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	return skb_clone(skb);
++#endif /* PLATFORM_FREEBSD */
++}
++inline struct sk_buff *_rtw_pskb_copy(struct sk_buff *skb)
++{
++#ifdef PLATFORM_LINUX
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 36))
++	return pskb_copy(skb, in_interrupt() ? GFP_ATOMIC : GFP_KERNEL);
++#else
++	return skb_clone(skb, in_interrupt() ? GFP_ATOMIC : GFP_KERNEL);
++#endif
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	return NULL;
++#endif /* PLATFORM_FREEBSD */
++}
++
++inline int _rtw_netif_rx(_nic_hdl ndev, struct sk_buff *skb)
++{
++#ifdef PLATFORM_LINUX
++	skb->dev = ndev;
++	return netif_rx(skb);
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	return (*ndev->if_input)(ndev, skb);
++#endif /* PLATFORM_FREEBSD */
++}
++
++void _rtw_skb_queue_purge(struct sk_buff_head *list)
++{
++	struct sk_buff *skb;
++
++	while ((skb = skb_dequeue(list)) != NULL)
++		_rtw_skb_free(skb);
++}
++
++#ifdef CONFIG_USB_HCI
++inline void *_rtw_usb_buffer_alloc(struct usb_device *dev, size_t size, dma_addr_t *dma)
++{
++#ifdef PLATFORM_LINUX
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	return usb_alloc_coherent(dev, size, (in_interrupt() ? GFP_ATOMIC : GFP_KERNEL), dma);
++#else
++	return usb_buffer_alloc(dev, size, (in_interrupt() ? GFP_ATOMIC : GFP_KERNEL), dma);
++#endif
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	return malloc(size, M_USBDEV, M_NOWAIT | M_ZERO);
++#endif /* PLATFORM_FREEBSD */
++}
++inline void _rtw_usb_buffer_free(struct usb_device *dev, size_t size, void *addr, dma_addr_t dma)
++{
++#ifdef PLATFORM_LINUX
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	usb_free_coherent(dev, size, addr, dma);
++#else
++	usb_buffer_free(dev, size, addr, dma);
++#endif
++#endif /* PLATFORM_LINUX */
++
++#ifdef PLATFORM_FREEBSD
++	free(addr, M_USBDEV);
++#endif /* PLATFORM_FREEBSD */
++}
++#endif /* CONFIG_USB_HCI */
++
++#if defined(DBG_MEM_ALLOC)
++
++struct rtw_mem_stat {
++	ATOMIC_T alloc; /* the memory bytes we allocate currently */
++	ATOMIC_T peak; /* the peak memory bytes we allocate */
++	ATOMIC_T alloc_cnt; /* the alloc count for alloc currently */
++	ATOMIC_T alloc_err_cnt; /* the error times we fail to allocate memory */
++};
++
++struct rtw_mem_stat rtw_mem_type_stat[mstat_tf_idx(MSTAT_TYPE_MAX)];
++#ifdef RTW_MEM_FUNC_STAT
++struct rtw_mem_stat rtw_mem_func_stat[mstat_ff_idx(MSTAT_FUNC_MAX)];
++#endif
++
++char *MSTAT_TYPE_str[] = {
++	"VIR",
++	"PHY",
++	"SKB",
++	"USB",
++};
++
++#ifdef RTW_MEM_FUNC_STAT
++char *MSTAT_FUNC_str[] = {
++	"UNSP",
++	"IO",
++	"TXIO",
++	"RXIO",
++	"TX",
++	"RX",
++};
++#endif
++
++void rtw_mstat_dump(void *sel)
++{
++	int i;
++	int value_t[4][mstat_tf_idx(MSTAT_TYPE_MAX)];
++#ifdef RTW_MEM_FUNC_STAT
++	int value_f[4][mstat_ff_idx(MSTAT_FUNC_MAX)];
++#endif
++
++	int vir_alloc, vir_peak, vir_alloc_err, phy_alloc, phy_peak, phy_alloc_err;
++	int tx_alloc, tx_peak, tx_alloc_err, rx_alloc, rx_peak, rx_alloc_err;
++
++	for (i = 0; i < mstat_tf_idx(MSTAT_TYPE_MAX); i++) {
++		value_t[0][i] = ATOMIC_READ(&(rtw_mem_type_stat[i].alloc));
++		value_t[1][i] = ATOMIC_READ(&(rtw_mem_type_stat[i].peak));
++		value_t[2][i] = ATOMIC_READ(&(rtw_mem_type_stat[i].alloc_cnt));
++		value_t[3][i] = ATOMIC_READ(&(rtw_mem_type_stat[i].alloc_err_cnt));
++	}
++
++#ifdef RTW_MEM_FUNC_STAT
++	for (i = 0; i < mstat_ff_idx(MSTAT_FUNC_MAX); i++) {
++		value_f[0][i] = ATOMIC_READ(&(rtw_mem_func_stat[i].alloc));
++		value_f[1][i] = ATOMIC_READ(&(rtw_mem_func_stat[i].peak));
++		value_f[2][i] = ATOMIC_READ(&(rtw_mem_func_stat[i].alloc_cnt));
++		value_f[3][i] = ATOMIC_READ(&(rtw_mem_func_stat[i].alloc_err_cnt));
++	}
++#endif
++
++	RTW_PRINT_SEL(sel, "===================== MSTAT =====================\n");
++	RTW_PRINT_SEL(sel, "%4s %10s %10s %10s %10s\n", "TAG", "alloc", "peak", "aloc_cnt", "err_cnt");
++	RTW_PRINT_SEL(sel, "-------------------------------------------------\n");
++	for (i = 0; i < mstat_tf_idx(MSTAT_TYPE_MAX); i++)
++		RTW_PRINT_SEL(sel, "%4s %10d %10d %10d %10d\n", MSTAT_TYPE_str[i], value_t[0][i], value_t[1][i], value_t[2][i], value_t[3][i]);
++#ifdef RTW_MEM_FUNC_STAT
++	RTW_PRINT_SEL(sel, "-------------------------------------------------\n");
++	for (i = 0; i < mstat_ff_idx(MSTAT_FUNC_MAX); i++)
++		RTW_PRINT_SEL(sel, "%4s %10d %10d %10d %10d\n", MSTAT_FUNC_str[i], value_f[0][i], value_f[1][i], value_f[2][i], value_f[3][i]);
++#endif
++}
++
++void rtw_mstat_update(const enum mstat_f flags, const MSTAT_STATUS status, u32 sz)
++{
++	static u32 update_time = 0;
++	int peak, alloc;
++	int i;
++
++	/* initialization */
++	if (!update_time) {
++		for (i = 0; i < mstat_tf_idx(MSTAT_TYPE_MAX); i++) {
++			ATOMIC_SET(&(rtw_mem_type_stat[i].alloc), 0);
++			ATOMIC_SET(&(rtw_mem_type_stat[i].peak), 0);
++			ATOMIC_SET(&(rtw_mem_type_stat[i].alloc_cnt), 0);
++			ATOMIC_SET(&(rtw_mem_type_stat[i].alloc_err_cnt), 0);
++		}
++		#ifdef RTW_MEM_FUNC_STAT
++		for (i = 0; i < mstat_ff_idx(MSTAT_FUNC_MAX); i++) {
++			ATOMIC_SET(&(rtw_mem_func_stat[i].alloc), 0);
++			ATOMIC_SET(&(rtw_mem_func_stat[i].peak), 0);
++			ATOMIC_SET(&(rtw_mem_func_stat[i].alloc_cnt), 0);
++			ATOMIC_SET(&(rtw_mem_func_stat[i].alloc_err_cnt), 0);
++		}
++		#endif
++	}
++
++	switch (status) {
++	case MSTAT_ALLOC_SUCCESS:
++		ATOMIC_INC(&(rtw_mem_type_stat[mstat_tf_idx(flags)].alloc_cnt));
++		alloc = ATOMIC_ADD_RETURN(&(rtw_mem_type_stat[mstat_tf_idx(flags)].alloc), sz);
++		peak = ATOMIC_READ(&(rtw_mem_type_stat[mstat_tf_idx(flags)].peak));
++		if (peak < alloc)
++			ATOMIC_SET(&(rtw_mem_type_stat[mstat_tf_idx(flags)].peak), alloc);
++
++		#ifdef RTW_MEM_FUNC_STAT
++		ATOMIC_INC(&(rtw_mem_func_stat[mstat_ff_idx(flags)].alloc_cnt));
++		alloc = ATOMIC_ADD_RETURN(&(rtw_mem_func_stat[mstat_ff_idx(flags)].alloc), sz);
++		peak = ATOMIC_READ(&(rtw_mem_func_stat[mstat_ff_idx(flags)].peak));
++		if (peak < alloc)
++			ATOMIC_SET(&(rtw_mem_func_stat[mstat_ff_idx(flags)].peak), alloc);
++		#endif
++		break;
++
++	case MSTAT_ALLOC_FAIL:
++		ATOMIC_INC(&(rtw_mem_type_stat[mstat_tf_idx(flags)].alloc_err_cnt));
++		#ifdef RTW_MEM_FUNC_STAT
++		ATOMIC_INC(&(rtw_mem_func_stat[mstat_ff_idx(flags)].alloc_err_cnt));
++		#endif
++		break;
++
++	case MSTAT_FREE:
++		ATOMIC_DEC(&(rtw_mem_type_stat[mstat_tf_idx(flags)].alloc_cnt));
++		ATOMIC_SUB(&(rtw_mem_type_stat[mstat_tf_idx(flags)].alloc), sz);
++		#ifdef RTW_MEM_FUNC_STAT
++		ATOMIC_DEC(&(rtw_mem_func_stat[mstat_ff_idx(flags)].alloc_cnt));
++		ATOMIC_SUB(&(rtw_mem_func_stat[mstat_ff_idx(flags)].alloc), sz);
++		#endif
++		break;
++	};
++
++	/* if (rtw_get_passing_time_ms(update_time) > 5000) { */
++	/*	rtw_mstat_dump(RTW_DBGDUMP); */
++	update_time = rtw_get_current_time();
++	/* } */
++}
++
++#ifndef SIZE_MAX
++	#define SIZE_MAX (~(size_t)0)
++#endif
++
++struct mstat_sniff_rule {
++	enum mstat_f flags;
++	size_t lb;
++	size_t hb;
++};
++
++struct mstat_sniff_rule mstat_sniff_rules[] = {
++	{MSTAT_TYPE_PHY, 4097, SIZE_MAX},
++};
++
++int mstat_sniff_rule_num = sizeof(mstat_sniff_rules) / sizeof(struct mstat_sniff_rule);
++
++bool match_mstat_sniff_rules(const enum mstat_f flags, const size_t size)
++{
++	int i;
++	for (i = 0; i < mstat_sniff_rule_num; i++) {
++		if (mstat_sniff_rules[i].flags == flags
++			&& mstat_sniff_rules[i].lb <= size
++			&& mstat_sniff_rules[i].hb >= size)
++			return _TRUE;
++	}
++
++	return _FALSE;
++}
++
++inline u8 *dbg_rtw_vmalloc(u32 sz, const enum mstat_f flags, const char *func, const int line)
++{
++	u8  *p;
++
++	if (match_mstat_sniff_rules(flags, sz))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, (sz));
++
++	p = _rtw_vmalloc((sz));
++
++	rtw_mstat_update(
++		flags
++		, p ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, sz
++	);
++
++	return p;
++}
++
++inline u8 *dbg_rtw_zvmalloc(u32 sz, const enum mstat_f flags, const char *func, const int line)
++{
++	u8 *p;
++
++	if (match_mstat_sniff_rules(flags, sz))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, (sz));
++
++	p = _rtw_zvmalloc((sz));
++
++	rtw_mstat_update(
++		flags
++		, p ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, sz
++	);
++
++	return p;
++}
++
++inline void dbg_rtw_vmfree(u8 *pbuf, u32 sz, const enum mstat_f flags, const char *func, const int line)
++{
++
++	if (match_mstat_sniff_rules(flags, sz))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, (sz));
++
++	_rtw_vmfree((pbuf), (sz));
++
++	rtw_mstat_update(
++		flags
++		, MSTAT_FREE
++		, sz
++	);
++}
++
++inline u8 *dbg_rtw_malloc(u32 sz, const enum mstat_f flags, const char *func, const int line)
++{
++	u8 *p;
++
++	if (match_mstat_sniff_rules(flags, sz))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, (sz));
++
++	p = _rtw_malloc((sz));
++
++	rtw_mstat_update(
++		flags
++		, p ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, sz
++	);
++
++	return p;
++}
++
++inline u8 *dbg_rtw_zmalloc(u32 sz, const enum mstat_f flags, const char *func, const int line)
++{
++	u8 *p;
++
++	if (match_mstat_sniff_rules(flags, sz))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, (sz));
++
++	p = _rtw_zmalloc((sz));
++
++	rtw_mstat_update(
++		flags
++		, p ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, sz
++	);
++
++	return p;
++}
++
++inline void dbg_rtw_mfree(u8 *pbuf, u32 sz, const enum mstat_f flags, const char *func, const int line)
++{
++	if (match_mstat_sniff_rules(flags, sz))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%d)\n", func, line, __FUNCTION__, (sz));
++
++	_rtw_mfree((pbuf), (sz));
++
++	rtw_mstat_update(
++		flags
++		, MSTAT_FREE
++		, sz
++	);
++}
++
++inline struct sk_buff *dbg_rtw_skb_alloc(unsigned int size, const enum mstat_f flags, const char *func, int line)
++{
++	struct sk_buff *skb;
++	unsigned int truesize = 0;
++
++	skb = _rtw_skb_alloc(size);
++
++	if (skb)
++		truesize = skb->truesize;
++
++	if (!skb || truesize < size || match_mstat_sniff_rules(flags, truesize))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%d), skb:%p, truesize=%u\n", func, line, __FUNCTION__, size, skb, truesize);
++
++	rtw_mstat_update(
++		flags
++		, skb ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, truesize
++	);
++
++	return skb;
++}
++
++inline void dbg_rtw_skb_free(struct sk_buff *skb, const enum mstat_f flags, const char *func, int line)
++{
++	unsigned int truesize = skb->truesize;
++
++	if (match_mstat_sniff_rules(flags, truesize))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s, truesize=%u\n", func, line, __FUNCTION__, truesize);
++
++	_rtw_skb_free(skb);
++
++	rtw_mstat_update(
++		flags
++		, MSTAT_FREE
++		, truesize
++	);
++}
++
++inline struct sk_buff *dbg_rtw_skb_copy(const struct sk_buff *skb, const enum mstat_f flags, const char *func, const int line)
++{
++	struct sk_buff *skb_cp;
++	unsigned int truesize = skb->truesize;
++	unsigned int cp_truesize = 0;
++
++	skb_cp = _rtw_skb_copy(skb);
++	if (skb_cp)
++		cp_truesize = skb_cp->truesize;
++
++	if (!skb_cp || cp_truesize < truesize || match_mstat_sniff_rules(flags, cp_truesize))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%u), skb_cp:%p, cp_truesize=%u\n", func, line, __FUNCTION__, truesize, skb_cp, cp_truesize);
++
++	rtw_mstat_update(
++		flags
++		, skb_cp ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, truesize
++	);
++
++	return skb_cp;
++}
++
++inline struct sk_buff *dbg_rtw_skb_clone(struct sk_buff *skb, const enum mstat_f flags, const char *func, const int line)
++{
++	struct sk_buff *skb_cl;
++	unsigned int truesize = skb->truesize;
++	unsigned int cl_truesize = 0;
++
++	skb_cl = _rtw_skb_clone(skb);
++	if (skb_cl)
++		cl_truesize = skb_cl->truesize;
++
++	if (!skb_cl || cl_truesize < truesize || match_mstat_sniff_rules(flags, cl_truesize))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%u), skb_cl:%p, cl_truesize=%u\n", func, line, __FUNCTION__, truesize, skb_cl, cl_truesize);
++
++	rtw_mstat_update(
++		flags
++		, skb_cl ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, truesize
++	);
++
++	return skb_cl;
++}
++
++inline int dbg_rtw_netif_rx(_nic_hdl ndev, struct sk_buff *skb, const enum mstat_f flags, const char *func, int line)
++{
++	int ret;
++	unsigned int truesize = skb->truesize;
++
++	if (match_mstat_sniff_rules(flags, truesize))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s, truesize=%u\n", func, line, __FUNCTION__, truesize);
++
++	ret = _rtw_netif_rx(ndev, skb);
++
++	rtw_mstat_update(
++		flags
++		, MSTAT_FREE
++		, truesize
++	);
++
++	return ret;
++}
++
++inline void dbg_rtw_skb_queue_purge(struct sk_buff_head *list, enum mstat_f flags, const char *func, int line)
++{
++	struct sk_buff *skb;
++
++	while ((skb = skb_dequeue(list)) != NULL)
++		dbg_rtw_skb_free(skb, flags, func, line);
++}
++
++#ifdef CONFIG_USB_HCI
++inline void *dbg_rtw_usb_buffer_alloc(struct usb_device *dev, size_t size, dma_addr_t *dma, const enum mstat_f flags, const char *func, int line)
++{
++	void *p;
++
++	if (match_mstat_sniff_rules(flags, size))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%zu)\n", func, line, __FUNCTION__, size);
++
++	p = _rtw_usb_buffer_alloc(dev, size, dma);
++
++	rtw_mstat_update(
++		flags
++		, p ? MSTAT_ALLOC_SUCCESS : MSTAT_ALLOC_FAIL
++		, size
++	);
++
++	return p;
++}
++
++inline void dbg_rtw_usb_buffer_free(struct usb_device *dev, size_t size, void *addr, dma_addr_t dma, const enum mstat_f flags, const char *func, int line)
++{
++
++	if (match_mstat_sniff_rules(flags, size))
++		RTW_INFO("DBG_MEM_ALLOC %s:%d %s(%zu)\n", func, line, __FUNCTION__, size);
++
++	_rtw_usb_buffer_free(dev, size, addr, dma);
++
++	rtw_mstat_update(
++		flags
++		, MSTAT_FREE
++		, size
++	);
++}
++#endif /* CONFIG_USB_HCI */
++
++#endif /* defined(DBG_MEM_ALLOC) */
++
++void *rtw_malloc2d(int h, int w, size_t size)
++{
++	int j;
++
++	void **a = (void **) rtw_zmalloc(h * sizeof(void *) + h * w * size);
++	if (a == NULL) {
++		RTW_INFO("%s: alloc memory fail!\n", __FUNCTION__);
++		return NULL;
++	}
++
++	for (j = 0; j < h; j++)
++		a[j] = ((char *)(a + h)) + j * w * size;
++
++	return a;
++}
++
++void rtw_mfree2d(void *pbuf, int h, int w, int size)
++{
++	rtw_mfree((u8 *)pbuf, h * sizeof(void *) + w * h * size);
++}
++
++void _rtw_memcpy(void *dst, const void *src, u32 sz)
++{
++
++#if defined(PLATFORM_LINUX) || defined (PLATFORM_FREEBSD)
++
++	memcpy(dst, src, sz);
++
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++	NdisMoveMemory(dst, src, sz);
++
++#endif
++
++}
++
++inline void _rtw_memmove(void *dst, const void *src, u32 sz)
++{
++#if defined(PLATFORM_LINUX)
++	memmove(dst, src, sz);
++#else
++	#warning "no implementation\n"
++#endif
++}
++
++int	_rtw_memcmp(const void *dst, const void *src, u32 sz)
++{
++
++#if defined(PLATFORM_LINUX) || defined (PLATFORM_FREEBSD)
++	/* under Linux/GNU/GLibc, the return value of memcmp for two same mem. chunk is 0 */
++
++	if (!(memcmp(dst, src, sz)))
++		return _TRUE;
++	else
++		return _FALSE;
++#endif
++
++
++#ifdef PLATFORM_WINDOWS
++	/* under Windows, the return value of NdisEqualMemory for two same mem. chunk is 1 */
++
++	if (NdisEqualMemory(dst, src, sz))
++		return _TRUE;
++	else
++		return _FALSE;
++
++#endif
++
++
++
++}
++
++void _rtw_memset(void *pbuf, int c, u32 sz)
++{
++
++#if defined(PLATFORM_LINUX) || defined (PLATFORM_FREEBSD)
++
++	memset(pbuf, c, sz);
++
++#endif
++
++#ifdef PLATFORM_WINDOWS
++#if 0
++	NdisZeroMemory(pbuf, sz);
++	if (c != 0)
++		memset(pbuf, c, sz);
++#else
++	NdisFillMemory(pbuf, sz, c);
++#endif
++#endif
++
++}
++
++#ifdef PLATFORM_FREEBSD
++static inline void __list_add(_list *pnew, _list *pprev, _list *pnext)
++{
++	pnext->prev = pnew;
++	pnew->next = pnext;
++	pnew->prev = pprev;
++	pprev->next = pnew;
++}
++#endif /* PLATFORM_FREEBSD */
++
++
++void _rtw_init_listhead(_list *list)
++{
++
++#ifdef PLATFORM_LINUX
++
++	INIT_LIST_HEAD(list);
++
++#endif
++
++#ifdef PLATFORM_FREEBSD
++	list->next = list;
++	list->prev = list;
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisInitializeListHead(list);
++
++#endif
++
++}
++
++
++/*
++For the following list_xxx operations,
++caller must guarantee the atomic context.
++Otherwise, there will be racing condition.
++*/
++u32	rtw_is_list_empty(_list *phead)
++{
++
++#ifdef PLATFORM_LINUX
++
++	if (list_empty(phead))
++		return _TRUE;
++	else
++		return _FALSE;
++
++#endif
++#ifdef PLATFORM_FREEBSD
++
++	if (phead->next == phead)
++		return _TRUE;
++	else
++		return _FALSE;
++
++#endif
++
++
++#ifdef PLATFORM_WINDOWS
++
++	if (IsListEmpty(phead))
++		return _TRUE;
++	else
++		return _FALSE;
++
++#endif
++
++
++}
++
++void rtw_list_insert_head(_list *plist, _list *phead)
++{
++
++#ifdef PLATFORM_LINUX
++	list_add(plist, phead);
++#endif
++
++#ifdef PLATFORM_FREEBSD
++	__list_add(plist, phead, phead->next);
++#endif
++
++#ifdef PLATFORM_WINDOWS
++	InsertHeadList(phead, plist);
++#endif
++}
++
++void rtw_list_insert_tail(_list *plist, _list *phead)
++{
++
++#ifdef PLATFORM_LINUX
++
++	list_add_tail(plist, phead);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++
++	__list_add(plist, phead->prev, phead);
++
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	InsertTailList(phead, plist);
++
++#endif
++
++}
++
++void rtw_init_timer(_timer *ptimer, void *padapter, void *pfunc)
++{
++	_adapter *adapter = (_adapter *)padapter;
++
++#ifdef PLATFORM_LINUX
++	_init_timer(ptimer, adapter->pnetdev, pfunc, adapter);
++#endif
++#ifdef PLATFORM_FREEBSD
++	_init_timer(ptimer, adapter->pifp, pfunc, adapter->mlmepriv.nic_hdl);
++#endif
++#ifdef PLATFORM_WINDOWS
++	_init_timer(ptimer, adapter->hndis_adapter, pfunc, adapter->mlmepriv.nic_hdl);
++#endif
++}
++
++/*
++
++Caller must check if the list is empty before calling rtw_list_delete
++
++*/
++
++
++void _rtw_init_sema(_sema	*sema, int init_val)
++{
++
++#ifdef PLATFORM_LINUX
++
++	sema_init(sema, init_val);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	sema_init(sema, init_val, "rtw_drv");
++#endif
++#ifdef PLATFORM_OS_XP
++
++	KeInitializeSemaphore(sema, init_val,  SEMA_UPBND); /* count=0; */
++
++#endif
++
++#ifdef PLATFORM_OS_CE
++	if (*sema == NULL)
++		*sema = CreateSemaphore(NULL, init_val, SEMA_UPBND, NULL);
++#endif
++
++}
++
++void _rtw_free_sema(_sema	*sema)
++{
++#ifdef PLATFORM_FREEBSD
++	sema_destroy(sema);
++#endif
++#ifdef PLATFORM_OS_CE
++	CloseHandle(*sema);
++#endif
++
++}
++
++void _rtw_up_sema(_sema	*sema)
++{
++
++#ifdef PLATFORM_LINUX
++
++	up(sema);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	sema_post(sema);
++#endif
++#ifdef PLATFORM_OS_XP
++
++	KeReleaseSemaphore(sema, IO_NETWORK_INCREMENT, 1,  FALSE);
++
++#endif
++
++#ifdef PLATFORM_OS_CE
++	ReleaseSemaphore(*sema,  1,  NULL);
++#endif
++}
++
++u32 _rtw_down_sema(_sema *sema)
++{
++
++#ifdef PLATFORM_LINUX
++
++	if (down_interruptible(sema))
++		return _FAIL;
++	else
++		return _SUCCESS;
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	sema_wait(sema);
++	return  _SUCCESS;
++#endif
++#ifdef PLATFORM_OS_XP
++
++	if (STATUS_SUCCESS == KeWaitForSingleObject(sema, Executive, KernelMode, TRUE, NULL))
++		return  _SUCCESS;
++	else
++		return _FAIL;
++#endif
++
++#ifdef PLATFORM_OS_CE
++	if (WAIT_OBJECT_0 == WaitForSingleObject(*sema, INFINITE))
++		return _SUCCESS;
++	else
++		return _FAIL;
++#endif
++}
++
++
++
++void	_rtw_mutex_init(_mutex *pmutex)
++{
++#ifdef PLATFORM_LINUX
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37))
++	mutex_init(pmutex);
++#else
++	init_MUTEX(pmutex);
++#endif
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	mtx_init(pmutex, "", NULL, MTX_DEF | MTX_RECURSE);
++#endif
++#ifdef PLATFORM_OS_XP
++
++	KeInitializeMutex(pmutex, 0);
++
++#endif
++
++#ifdef PLATFORM_OS_CE
++	*pmutex =  CreateMutex(NULL, _FALSE, NULL);
++#endif
++}
++
++void	_rtw_mutex_free(_mutex *pmutex);
++void	_rtw_mutex_free(_mutex *pmutex)
++{
++#ifdef PLATFORM_LINUX
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 37))
++	mutex_destroy(pmutex);
++#else
++#endif
++
++#ifdef PLATFORM_FREEBSD
++	sema_destroy(pmutex);
++#endif
++
++#endif
++
++#ifdef PLATFORM_OS_XP
++
++#endif
++
++#ifdef PLATFORM_OS_CE
++
++#endif
++}
++
++void	_rtw_spinlock_init(_lock *plock)
++{
++
++#ifdef PLATFORM_LINUX
++
++	spin_lock_init(plock);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	mtx_init(plock, "", NULL, MTX_DEF | MTX_RECURSE);
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisAllocateSpinLock(plock);
++
++#endif
++
++}
++
++void	_rtw_spinlock_free(_lock *plock)
++{
++#ifdef PLATFORM_FREEBSD
++	mtx_destroy(plock);
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++	NdisFreeSpinLock(plock);
++
++#endif
++
++}
++#ifdef PLATFORM_FREEBSD
++extern PADAPTER prtw_lock;
++
++void rtw_mtx_lock(_lock *plock)
++{
++	if (prtw_lock)
++		mtx_lock(&prtw_lock->glock);
++	else
++		printf("%s prtw_lock==NULL", __FUNCTION__);
++}
++void rtw_mtx_unlock(_lock *plock)
++{
++	if (prtw_lock)
++		mtx_unlock(&prtw_lock->glock);
++	else
++		printf("%s prtw_lock==NULL", __FUNCTION__);
++
++}
++#endif /* PLATFORM_FREEBSD */
++
++
++void	_rtw_spinlock(_lock	*plock)
++{
++
++#ifdef PLATFORM_LINUX
++
++	spin_lock(plock);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	mtx_lock(plock);
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisAcquireSpinLock(plock);
++
++#endif
++
++}
++
++void	_rtw_spinunlock(_lock *plock)
++{
++
++#ifdef PLATFORM_LINUX
++
++	spin_unlock(plock);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	mtx_unlock(plock);
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisReleaseSpinLock(plock);
++
++#endif
++}
++
++
++void	_rtw_spinlock_ex(_lock	*plock)
++{
++
++#ifdef PLATFORM_LINUX
++
++	spin_lock(plock);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	mtx_lock(plock);
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisDprAcquireSpinLock(plock);
++
++#endif
++
++}
++
++void	_rtw_spinunlock_ex(_lock *plock)
++{
++
++#ifdef PLATFORM_LINUX
++
++	spin_unlock(plock);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	mtx_unlock(plock);
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisDprReleaseSpinLock(plock);
++
++#endif
++}
++
++
++
++void _rtw_init_queue(_queue *pqueue)
++{
++	_rtw_init_listhead(&(pqueue->queue));
++	_rtw_spinlock_init(&(pqueue->lock));
++}
++
++void _rtw_deinit_queue(_queue *pqueue)
++{
++	_rtw_spinlock_free(&(pqueue->lock));
++}
++
++u32	  _rtw_queue_empty(_queue	*pqueue)
++{
++	return rtw_is_list_empty(&(pqueue->queue));
++}
++
++
++u32 rtw_end_of_queue_search(_list *head, _list *plist)
++{
++	if (head == plist)
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++
++u32	rtw_get_current_time(void)
++{
++
++#ifdef PLATFORM_LINUX
++	return jiffies;
++#endif
++#ifdef PLATFORM_FREEBSD
++	struct timeval tvp;
++	getmicrotime(&tvp);
++	return tvp.tv_sec;
++#endif
++#ifdef PLATFORM_WINDOWS
++	LARGE_INTEGER	SystemTime;
++	NdisGetCurrentSystemTime(&SystemTime);
++	return (u32)(SystemTime.LowPart);/* count of 100-nanosecond intervals */
++#endif
++}
++
++inline u32 rtw_systime_to_ms(u32 systime)
++{
++#ifdef PLATFORM_LINUX
++	return systime * 1000 / HZ;
++#endif
++#ifdef PLATFORM_FREEBSD
++	return systime * 1000;
++#endif
++#ifdef PLATFORM_WINDOWS
++	return systime / 10000 ;
++#endif
++}
++
++inline u32 rtw_ms_to_systime(u32 ms)
++{
++#ifdef PLATFORM_LINUX
++	return ms * HZ / 1000;
++#endif
++#ifdef PLATFORM_FREEBSD
++	return ms / 1000;
++#endif
++#ifdef PLATFORM_WINDOWS
++	return ms * 10000 ;
++#endif
++}
++
++/* the input parameter start use the same unit as returned by rtw_get_current_time */
++inline s32 rtw_get_passing_time_ms(u32 start)
++{
++#ifdef PLATFORM_LINUX
++	return rtw_systime_to_ms(jiffies - start);
++#endif
++#ifdef PLATFORM_FREEBSD
++	return rtw_systime_to_ms(rtw_get_current_time());
++#endif
++#ifdef PLATFORM_WINDOWS
++	LARGE_INTEGER	SystemTime;
++	NdisGetCurrentSystemTime(&SystemTime);
++	return rtw_systime_to_ms((u32)(SystemTime.LowPart) - start) ;
++#endif
++}
++
++inline s32 rtw_get_time_interval_ms(u32 start, u32 end)
++{
++#ifdef PLATFORM_LINUX
++	return rtw_systime_to_ms(end - start);
++#endif
++#ifdef PLATFORM_FREEBSD
++	return rtw_systime_to_ms(rtw_get_current_time());
++#endif
++#ifdef PLATFORM_WINDOWS
++	return rtw_systime_to_ms(end - start);
++#endif
++}
++
++
++void rtw_sleep_schedulable(int ms)
++{
++
++#ifdef PLATFORM_LINUX
++
++	u32 delta;
++
++	delta = (ms * HZ) / 1000; /* (ms) */
++	if (delta == 0) {
++		delta = 1;/* 1 ms */
++	}
++	set_current_state(TASK_INTERRUPTIBLE);
++	if (schedule_timeout(delta) != 0)
++		return ;
++	return;
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	DELAY(ms * 1000);
++	return ;
++#endif
++
++#ifdef PLATFORM_WINDOWS
++
++	NdisMSleep(ms * 1000); /* (us)*1000=(ms) */
++
++#endif
++
++}
++
++
++void rtw_msleep_os(int ms)
++{
++
++#ifdef PLATFORM_LINUX
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 36))
++	if (ms < 20) {
++		unsigned long us = ms * 1000UL;
++		usleep_range(us, us + 1000UL);
++	} else
++#endif
++		msleep((unsigned int)ms);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	/* Delay for delay microseconds */
++	DELAY(ms * 1000);
++	return ;
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisMSleep(ms * 1000); /* (us)*1000=(ms) */
++
++#endif
++
++
++}
++void rtw_usleep_os(int us)
++{
++#ifdef PLATFORM_LINUX
++
++	/* msleep((unsigned int)us); */
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 36))
++	usleep_range(us, us + 1);
++#else
++	if (1 < (us / 1000))
++		msleep(1);
++	else
++		msleep((us / 1000) + 1);
++#endif
++#endif
++
++#ifdef PLATFORM_FREEBSD
++	/* Delay for delay microseconds */
++	DELAY(us);
++
++	return ;
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisMSleep(us); /* (us) */
++
++#endif
++
++
++}
++
++
++#ifdef DBG_DELAY_OS
++void _rtw_mdelay_os(int ms, const char *func, const int line)
++{
++#if 0
++	if (ms > 10)
++		RTW_INFO("%s:%d %s(%d)\n", func, line, __FUNCTION__, ms);
++	rtw_msleep_os(ms);
++	return;
++#endif
++
++
++	RTW_INFO("%s:%d %s(%d)\n", func, line, __FUNCTION__, ms);
++
++#if defined(PLATFORM_LINUX)
++
++	mdelay((unsigned long)ms);
++
++#elif defined(PLATFORM_WINDOWS)
++
++	NdisStallExecution(ms * 1000); /* (us)*1000=(ms) */
++
++#endif
++
++
++}
++void _rtw_udelay_os(int us, const char *func, const int line)
++{
++
++#if 0
++	if (us > 1000) {
++		RTW_INFO("%s:%d %s(%d)\n", func, line, __FUNCTION__, us);
++		rtw_usleep_os(us);
++		return;
++	}
++#endif
++
++
++	RTW_INFO("%s:%d %s(%d)\n", func, line, __FUNCTION__, us);
++
++
++#if defined(PLATFORM_LINUX)
++
++	udelay((unsigned long)us);
++
++#elif defined(PLATFORM_WINDOWS)
++
++	NdisStallExecution(us); /* (us) */
++
++#endif
++
++}
++#else
++void rtw_mdelay_os(int ms)
++{
++
++#ifdef PLATFORM_LINUX
++
++	mdelay((unsigned long)ms);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	DELAY(ms * 1000);
++	return ;
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisStallExecution(ms * 1000); /* (us)*1000=(ms) */
++
++#endif
++
++
++}
++void rtw_udelay_os(int us)
++{
++
++#ifdef PLATFORM_LINUX
++
++	udelay((unsigned long)us);
++
++#endif
++#ifdef PLATFORM_FREEBSD
++	/* Delay for delay microseconds */
++	DELAY(us);
++	return ;
++#endif
++#ifdef PLATFORM_WINDOWS
++
++	NdisStallExecution(us); /* (us) */
++
++#endif
++
++}
++#endif
++
++void rtw_yield_os(void)
++{
++#ifdef PLATFORM_LINUX
++	yield();
++#endif
++#ifdef PLATFORM_FREEBSD
++	yield();
++#endif
++#ifdef PLATFORM_WINDOWS
++	SwitchToThread();
++#endif
++}
++
++#define RTW_SUSPEND_LOCK_NAME "rtw_wifi"
++#define RTW_SUSPEND_EXT_LOCK_NAME "rtw_wifi_ext"
++#define RTW_SUSPEND_RX_LOCK_NAME "rtw_wifi_rx"
++#define RTW_SUSPEND_TRAFFIC_LOCK_NAME "rtw_wifi_traffic"
++#define RTW_SUSPEND_RESUME_LOCK_NAME "rtw_wifi_resume"
++#define RTW_RESUME_SCAN_LOCK_NAME "rtw_wifi_scan"
++#ifdef CONFIG_WAKELOCK
++static struct wake_lock rtw_suspend_lock;
++static struct wake_lock rtw_suspend_ext_lock;
++static struct wake_lock rtw_suspend_rx_lock;
++static struct wake_lock rtw_suspend_traffic_lock;
++static struct wake_lock rtw_suspend_resume_lock;
++static struct wake_lock rtw_resume_scan_lock;
++#elif defined(CONFIG_ANDROID_POWER)
++static android_suspend_lock_t rtw_suspend_lock = {
++	.name = RTW_SUSPEND_LOCK_NAME
++};
++static android_suspend_lock_t rtw_suspend_ext_lock = {
++	.name = RTW_SUSPEND_EXT_LOCK_NAME
++};
++static android_suspend_lock_t rtw_suspend_rx_lock = {
++	.name = RTW_SUSPEND_RX_LOCK_NAME
++};
++static android_suspend_lock_t rtw_suspend_traffic_lock = {
++	.name = RTW_SUSPEND_TRAFFIC_LOCK_NAME
++};
++static android_suspend_lock_t rtw_suspend_resume_lock = {
++	.name = RTW_SUSPEND_RESUME_LOCK_NAME
++};
++static android_suspend_lock_t rtw_resume_scan_lock = {
++	.name = RTW_RESUME_SCAN_LOCK_NAME
++};
++#endif
++
++inline void rtw_suspend_lock_init(void)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_lock_init(&rtw_suspend_lock, WAKE_LOCK_SUSPEND, RTW_SUSPEND_LOCK_NAME);
++	wake_lock_init(&rtw_suspend_ext_lock, WAKE_LOCK_SUSPEND, RTW_SUSPEND_EXT_LOCK_NAME);
++	wake_lock_init(&rtw_suspend_rx_lock, WAKE_LOCK_SUSPEND, RTW_SUSPEND_RX_LOCK_NAME);
++	wake_lock_init(&rtw_suspend_traffic_lock, WAKE_LOCK_SUSPEND, RTW_SUSPEND_TRAFFIC_LOCK_NAME);
++	wake_lock_init(&rtw_suspend_resume_lock, WAKE_LOCK_SUSPEND, RTW_SUSPEND_RESUME_LOCK_NAME);
++	wake_lock_init(&rtw_resume_scan_lock, WAKE_LOCK_SUSPEND, RTW_RESUME_SCAN_LOCK_NAME);
++#elif defined(CONFIG_ANDROID_POWER)
++	android_init_suspend_lock(&rtw_suspend_lock);
++	android_init_suspend_lock(&rtw_suspend_ext_lock);
++	android_init_suspend_lock(&rtw_suspend_rx_lock);
++	android_init_suspend_lock(&rtw_suspend_traffic_lock);
++	android_init_suspend_lock(&rtw_suspend_resume_lock);
++	android_init_suspend_lock(&rtw_resume_scan_lock);
++#endif
++}
++
++inline void rtw_suspend_lock_uninit(void)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_lock_destroy(&rtw_suspend_lock);
++	wake_lock_destroy(&rtw_suspend_ext_lock);
++	wake_lock_destroy(&rtw_suspend_rx_lock);
++	wake_lock_destroy(&rtw_suspend_traffic_lock);
++	wake_lock_destroy(&rtw_suspend_resume_lock);
++	wake_lock_destroy(&rtw_resume_scan_lock);
++#elif defined(CONFIG_ANDROID_POWER)
++	android_uninit_suspend_lock(&rtw_suspend_lock);
++	android_uninit_suspend_lock(&rtw_suspend_ext_lock);
++	android_uninit_suspend_lock(&rtw_suspend_rx_lock);
++	android_uninit_suspend_lock(&rtw_suspend_traffic_lock);
++	android_uninit_suspend_lock(&rtw_suspend_resume_lock);
++	android_uninit_suspend_lock(&rtw_resume_scan_lock);
++#endif
++}
++
++inline void rtw_lock_suspend(void)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_lock(&rtw_suspend_lock);
++#elif defined(CONFIG_ANDROID_POWER)
++	android_lock_suspend(&rtw_suspend_lock);
++#endif
++
++#if  defined(CONFIG_WAKELOCK) || defined(CONFIG_ANDROID_POWER)
++	/* RTW_INFO("####%s: suspend_lock_count:%d####\n", __FUNCTION__, rtw_suspend_lock.stat.count); */
++#endif
++}
++
++inline void rtw_unlock_suspend(void)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_unlock(&rtw_suspend_lock);
++#elif defined(CONFIG_ANDROID_POWER)
++	android_unlock_suspend(&rtw_suspend_lock);
++#endif
++
++#if  defined(CONFIG_WAKELOCK) || defined(CONFIG_ANDROID_POWER)
++	/* RTW_INFO("####%s: suspend_lock_count:%d####\n", __FUNCTION__, rtw_suspend_lock.stat.count); */
++#endif
++}
++
++inline void rtw_resume_lock_suspend(void)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_lock(&rtw_suspend_resume_lock);
++#elif defined(CONFIG_ANDROID_POWER)
++	android_lock_suspend(&rtw_suspend_resume_lock);
++#endif
++
++#if  defined(CONFIG_WAKELOCK) || defined(CONFIG_ANDROID_POWER)
++	/* RTW_INFO("####%s: suspend_lock_count:%d####\n", __FUNCTION__, rtw_suspend_lock.stat.count); */
++#endif
++}
++
++inline void rtw_resume_unlock_suspend(void)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_unlock(&rtw_suspend_resume_lock);
++#elif defined(CONFIG_ANDROID_POWER)
++	android_unlock_suspend(&rtw_suspend_resume_lock);
++#endif
++
++#if  defined(CONFIG_WAKELOCK) || defined(CONFIG_ANDROID_POWER)
++	/* RTW_INFO("####%s: suspend_lock_count:%d####\n", __FUNCTION__, rtw_suspend_lock.stat.count); */
++#endif
++}
++
++inline void rtw_lock_suspend_timeout(u32 timeout_ms)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_lock_timeout(&rtw_suspend_lock, rtw_ms_to_systime(timeout_ms));
++#elif defined(CONFIG_ANDROID_POWER)
++	android_lock_suspend_auto_expire(&rtw_suspend_lock, rtw_ms_to_systime(timeout_ms));
++#endif
++}
++
++inline void rtw_lock_ext_suspend_timeout(u32 timeout_ms)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_lock_timeout(&rtw_suspend_ext_lock, rtw_ms_to_systime(timeout_ms));
++#elif defined(CONFIG_ANDROID_POWER)
++	android_lock_suspend_auto_expire(&rtw_suspend_ext_lock, rtw_ms_to_systime(timeout_ms));
++#endif
++	/* RTW_INFO("EXT lock timeout:%d\n", timeout_ms); */
++}
++
++inline void rtw_lock_rx_suspend_timeout(u32 timeout_ms)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_lock_timeout(&rtw_suspend_rx_lock, rtw_ms_to_systime(timeout_ms));
++#elif defined(CONFIG_ANDROID_POWER)
++	android_lock_suspend_auto_expire(&rtw_suspend_rx_lock, rtw_ms_to_systime(timeout_ms));
++#endif
++	/* RTW_INFO("RX lock timeout:%d\n", timeout_ms); */
++}
++
++
++inline void rtw_lock_traffic_suspend_timeout(u32 timeout_ms)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_lock_timeout(&rtw_suspend_traffic_lock, rtw_ms_to_systime(timeout_ms));
++#elif defined(CONFIG_ANDROID_POWER)
++	android_lock_suspend_auto_expire(&rtw_suspend_traffic_lock, rtw_ms_to_systime(timeout_ms));
++#endif
++	/* RTW_INFO("traffic lock timeout:%d\n", timeout_ms); */
++}
++
++inline void rtw_lock_resume_scan_timeout(u32 timeout_ms)
++{
++#ifdef CONFIG_WAKELOCK
++	wake_lock_timeout(&rtw_resume_scan_lock, rtw_ms_to_systime(timeout_ms));
++#elif defined(CONFIG_ANDROID_POWER)
++	android_lock_suspend_auto_expire(&rtw_resume_scan_lock, rtw_ms_to_systime(timeout_ms));
++#endif
++	/* RTW_INFO("resume scan lock:%d\n", timeout_ms); */
++}
++
++inline void ATOMIC_SET(ATOMIC_T *v, int i)
++{
++#ifdef PLATFORM_LINUX
++	atomic_set(v, i);
++#elif defined(PLATFORM_WINDOWS)
++	*v = i; /* other choice???? */
++#elif defined(PLATFORM_FREEBSD)
++	atomic_set_int(v, i);
++#endif
++}
++
++inline int ATOMIC_READ(ATOMIC_T *v)
++{
++#ifdef PLATFORM_LINUX
++	return atomic_read(v);
++#elif defined(PLATFORM_WINDOWS)
++	return *v; /* other choice???? */
++#elif defined(PLATFORM_FREEBSD)
++	return atomic_load_acq_32(v);
++#endif
++}
++
++inline void ATOMIC_ADD(ATOMIC_T *v, int i)
++{
++#ifdef PLATFORM_LINUX
++	atomic_add(i, v);
++#elif defined(PLATFORM_WINDOWS)
++	InterlockedAdd(v, i);
++#elif defined(PLATFORM_FREEBSD)
++	atomic_add_int(v, i);
++#endif
++}
++inline void ATOMIC_SUB(ATOMIC_T *v, int i)
++{
++#ifdef PLATFORM_LINUX
++	atomic_sub(i, v);
++#elif defined(PLATFORM_WINDOWS)
++	InterlockedAdd(v, -i);
++#elif defined(PLATFORM_FREEBSD)
++	atomic_subtract_int(v, i);
++#endif
++}
++
++inline void ATOMIC_INC(ATOMIC_T *v)
++{
++#ifdef PLATFORM_LINUX
++	atomic_inc(v);
++#elif defined(PLATFORM_WINDOWS)
++	InterlockedIncrement(v);
++#elif defined(PLATFORM_FREEBSD)
++	atomic_add_int(v, 1);
++#endif
++}
++
++inline void ATOMIC_DEC(ATOMIC_T *v)
++{
++#ifdef PLATFORM_LINUX
++	atomic_dec(v);
++#elif defined(PLATFORM_WINDOWS)
++	InterlockedDecrement(v);
++#elif defined(PLATFORM_FREEBSD)
++	atomic_subtract_int(v, 1);
++#endif
++}
++
++inline int ATOMIC_ADD_RETURN(ATOMIC_T *v, int i)
++{
++#ifdef PLATFORM_LINUX
++	return atomic_add_return(i, v);
++#elif defined(PLATFORM_WINDOWS)
++	return InterlockedAdd(v, i);
++#elif defined(PLATFORM_FREEBSD)
++	atomic_add_int(v, i);
++	return atomic_load_acq_32(v);
++#endif
++}
++
++inline int ATOMIC_SUB_RETURN(ATOMIC_T *v, int i)
++{
++#ifdef PLATFORM_LINUX
++	return atomic_sub_return(i, v);
++#elif defined(PLATFORM_WINDOWS)
++	return InterlockedAdd(v, -i);
++#elif defined(PLATFORM_FREEBSD)
++	atomic_subtract_int(v, i);
++	return atomic_load_acq_32(v);
++#endif
++}
++
++inline int ATOMIC_INC_RETURN(ATOMIC_T *v)
++{
++#ifdef PLATFORM_LINUX
++	return atomic_inc_return(v);
++#elif defined(PLATFORM_WINDOWS)
++	return InterlockedIncrement(v);
++#elif defined(PLATFORM_FREEBSD)
++	atomic_add_int(v, 1);
++	return atomic_load_acq_32(v);
++#endif
++}
++
++inline int ATOMIC_DEC_RETURN(ATOMIC_T *v)
++{
++#ifdef PLATFORM_LINUX
++	return atomic_dec_return(v);
++#elif defined(PLATFORM_WINDOWS)
++	return InterlockedDecrement(v);
++#elif defined(PLATFORM_FREEBSD)
++	atomic_subtract_int(v, 1);
++	return atomic_load_acq_32(v);
++#endif
++}
++
++
++#ifdef PLATFORM_LINUX
++/*
++* Open a file with the specific @param path, @param flag, @param mode
++* @param fpp the pointer of struct file pointer to get struct file pointer while file opening is success
++* @param path the path of the file to open
++* @param flag file operation flags, please refer to linux document
++* @param mode please refer to linux document
++* @return Linux specific error code
++*/
++static int openFile(struct file **fpp, char *path, int flag, int mode)
++{
++	struct file *fp;
++
++	fp = filp_open(path, flag, mode);
++	if (IS_ERR(fp)) {
++		*fpp = NULL;
++		return PTR_ERR(fp);
++	} else {
++		*fpp = fp;
++		return 0;
++	}
++}
++
++/*
++* Close the file with the specific @param fp
++* @param fp the pointer of struct file to close
++* @return always 0
++*/
++static int closeFile(struct file *fp)
++{
++	filp_close(fp, NULL);
++	return 0;
++}
++
++static int readFile(struct file *fp, char *buf, int len)
++{
++	int rlen = 0, sum = 0;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 1, 0))
++	if (!(fp->f_mode & FMODE_CAN_READ))
++#else
++	if (!fp->f_op || !fp->f_op->read)
++#endif
++		return -EPERM;
++
++	while (sum < len) {
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 1, 0))
++		rlen = __vfs_read(fp, buf + sum, len - sum, &fp->f_pos);
++#else
++		rlen = fp->f_op->read(fp, buf + sum, len - sum, &fp->f_pos);
++#endif
++		if (rlen > 0)
++			sum += rlen;
++		else if (0 != rlen)
++			return rlen;
++		else
++			break;
++	}
++
++	return  sum;
++
++}
++
++static int writeFile(struct file *fp, char *buf, int len)
++{
++	int wlen = 0, sum = 0;
++
++	if (!fp->f_op || !fp->f_op->write)
++		return -EPERM;
++
++	while (sum < len) {
++		wlen = fp->f_op->write(fp, buf + sum, len - sum, &fp->f_pos);
++		if (wlen > 0)
++			sum += wlen;
++		else if (0 != wlen)
++			return wlen;
++		else
++			break;
++	}
++
++	return sum;
++
++}
++
++/*
++* Test if the specifi @param path is a file and readable
++* @param path the path of the file to test
++* @return Linux specific error code
++*/
++static int isFileReadable(char *path)
++{
++	struct file *fp;
++	int ret = 0;
++	mm_segment_t oldfs;
++	char buf;
++
++	fp = filp_open(path, O_RDONLY, 0);
++	if (IS_ERR(fp))
++		ret = PTR_ERR(fp);
++	else {
++		oldfs = get_fs();
++		set_fs(get_ds());
++
++		if (1 != readFile(fp, &buf, 1))
++			ret = PTR_ERR(fp);
++
++		set_fs(oldfs);
++		filp_close(fp, NULL);
++	}
++	return ret;
++}
++
++/*
++* Open the file with @param path and retrive the file content into memory starting from @param buf for @param sz at most
++* @param path the path of the file to open and read
++* @param buf the starting address of the buffer to store file content
++* @param sz how many bytes to read at most
++* @return the byte we've read, or Linux specific error code
++*/
++static int retriveFromFile(char *path, u8 *buf, u32 sz)
++{
++	int ret = -1;
++	mm_segment_t oldfs;
++	struct file *fp;
++
++	if (path && buf) {
++		ret = openFile(&fp, path, O_RDONLY, 0);
++		if (0 == ret) {
++			RTW_INFO("%s openFile path:%s fp=%p\n", __FUNCTION__, path , fp);
++
++			oldfs = get_fs();
++			set_fs(get_ds());
++			ret = readFile(fp, buf, sz);
++			set_fs(oldfs);
++			closeFile(fp);
++
++			RTW_INFO("%s readFile, ret:%d\n", __FUNCTION__, ret);
++
++		} else
++			RTW_INFO("%s openFile path:%s Fail, ret:%d\n", __FUNCTION__, path, ret);
++	} else {
++		RTW_INFO("%s NULL pointer\n", __FUNCTION__);
++		ret =  -EINVAL;
++	}
++	return ret;
++}
++
++/*
++* Open the file with @param path and wirte @param sz byte of data starting from @param buf into the file
++* @param path the path of the file to open and write
++* @param buf the starting address of the data to write into file
++* @param sz how many bytes to write at most
++* @return the byte we've written, or Linux specific error code
++*/
++static int storeToFile(char *path, u8 *buf, u32 sz)
++{
++	int ret = 0;
++	mm_segment_t oldfs;
++	struct file *fp;
++
++	if (path && buf) {
++		ret = openFile(&fp, path, O_CREAT | O_WRONLY, 0666);
++		if (0 == ret) {
++			RTW_INFO("%s openFile path:%s fp=%p\n", __FUNCTION__, path , fp);
++
++			oldfs = get_fs();
++			set_fs(get_ds());
++			ret = writeFile(fp, buf, sz);
++			set_fs(oldfs);
++			closeFile(fp);
++
++			RTW_INFO("%s writeFile, ret:%d\n", __FUNCTION__, ret);
++
++		} else
++			RTW_INFO("%s openFile path:%s Fail, ret:%d\n", __FUNCTION__, path, ret);
++	} else {
++		RTW_INFO("%s NULL pointer\n", __FUNCTION__);
++		ret =  -EINVAL;
++	}
++	return ret;
++}
++#endif /* PLATFORM_LINUX */
++
++/*
++* Test if the specifi @param path is a file and readable
++* @param path the path of the file to test
++* @return _TRUE or _FALSE
++*/
++int rtw_is_file_readable(char *path)
++{
++#ifdef PLATFORM_LINUX
++	if (isFileReadable(path) == 0)
++		return _TRUE;
++	else
++		return _FALSE;
++#else
++	/* Todo... */
++	return _FALSE;
++#endif
++}
++
++/*
++* Open the file with @param path and retrive the file content into memory starting from @param buf for @param sz at most
++* @param path the path of the file to open and read
++* @param buf the starting address of the buffer to store file content
++* @param sz how many bytes to read at most
++* @return the byte we've read
++*/
++int rtw_retrieve_from_file(char *path, u8 *buf, u32 sz)
++{
++#ifdef PLATFORM_LINUX
++	int ret = retriveFromFile(path, buf, sz);
++	return ret >= 0 ? ret : 0;
++#else
++	/* Todo... */
++	return 0;
++#endif
++}
++
++/*
++* Open the file with @param path and wirte @param sz byte of data starting from @param buf into the file
++* @param path the path of the file to open and write
++* @param buf the starting address of the data to write into file
++* @param sz how many bytes to write at most
++* @return the byte we've written
++*/
++int rtw_store_to_file(char *path, u8 *buf, u32 sz)
++{
++#ifdef PLATFORM_LINUX
++	int ret = storeToFile(path, buf, sz);
++	return ret >= 0 ? ret : 0;
++#else
++	/* Todo... */
++	return 0;
++#endif
++}
++
++#ifdef PLATFORM_LINUX
++struct net_device *rtw_alloc_etherdev_with_old_priv(int sizeof_priv, void *old_priv)
++{
++	struct net_device *pnetdev;
++	struct rtw_netdev_priv_indicator *pnpi;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	pnetdev = alloc_etherdev_mq(sizeof(struct rtw_netdev_priv_indicator), 4);
++#else
++	pnetdev = alloc_etherdev(sizeof(struct rtw_netdev_priv_indicator));
++#endif
++	if (!pnetdev)
++		goto RETURN;
++
++	pnpi = netdev_priv(pnetdev);
++	pnpi->priv = old_priv;
++	pnpi->sizeof_priv = sizeof_priv;
++
++RETURN:
++	return pnetdev;
++}
++
++struct net_device *rtw_alloc_etherdev(int sizeof_priv)
++{
++	struct net_device *pnetdev;
++	struct rtw_netdev_priv_indicator *pnpi;
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35))
++	pnetdev = alloc_etherdev_mq(sizeof(struct rtw_netdev_priv_indicator), 4);
++#else
++	pnetdev = alloc_etherdev(sizeof(struct rtw_netdev_priv_indicator));
++#endif
++	if (!pnetdev)
++		goto RETURN;
++
++	pnpi = netdev_priv(pnetdev);
++
++	pnpi->priv = rtw_zvmalloc(sizeof_priv);
++	if (!pnpi->priv) {
++		free_netdev(pnetdev);
++		pnetdev = NULL;
++		goto RETURN;
++	}
++
++	pnpi->sizeof_priv = sizeof_priv;
++RETURN:
++	return pnetdev;
++}
++
++void rtw_free_netdev(struct net_device *netdev)
++{
++	struct rtw_netdev_priv_indicator *pnpi;
++
++	if (!netdev)
++		goto RETURN;
++
++	pnpi = netdev_priv(netdev);
++
++	if (!pnpi->priv)
++		goto RETURN;
++
++	free_netdev(netdev);
++
++RETURN:
++	return;
++}
++
++/*
++* Jeff: this function should be called under ioctl (rtnl_lock is accquired) while
++* LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 26)
++*/
++int rtw_change_ifname(_adapter *padapter, const char *ifname)
++{
++	struct net_device *pnetdev;
++	struct net_device *cur_pnetdev;
++	struct rereg_nd_name_data *rereg_priv;
++	int ret;
++
++	if (!padapter)
++		goto error;
++
++	cur_pnetdev = padapter->pnetdev;
++	rereg_priv = &padapter->rereg_nd_name_priv;
++
++	/* free the old_pnetdev */
++	if (rereg_priv->old_pnetdev) {
++		free_netdev(rereg_priv->old_pnetdev);
++		rereg_priv->old_pnetdev = NULL;
++	}
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 26))
++	if (!rtnl_is_locked())
++		unregister_netdev(cur_pnetdev);
++	else
++#endif
++		unregister_netdevice(cur_pnetdev);
++
++	rereg_priv->old_pnetdev = cur_pnetdev;
++
++	pnetdev = rtw_init_netdev(padapter);
++	if (!pnetdev)  {
++		ret = -1;
++		goto error;
++	}
++
++	SET_NETDEV_DEV(pnetdev, dvobj_to_dev(adapter_to_dvobj(padapter)));
++
++	rtw_init_netdev_name(pnetdev, ifname);
++
++	_rtw_memcpy(pnetdev->dev_addr, adapter_mac_addr(padapter), ETH_ALEN);
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 26))
++	if (!rtnl_is_locked())
++		ret = register_netdev(pnetdev);
++	else
++#endif
++		ret = register_netdevice(pnetdev);
++
++	if (ret != 0) {
++		goto error;
++	}
++
++	return 0;
++
++error:
++
++	return -1;
++
++}
++#endif
++
++#ifdef PLATFORM_FREEBSD
++/*
++ * Copy a buffer from userspace and write into kernel address
++ * space.
++ *
++ * This emulation just calls the FreeBSD copyin function (to
++ * copy data from user space buffer into a kernel space buffer)
++ * and is designed to be used with the above io_write_wrapper.
++ *
++ * This function should return the number of bytes not copied.
++ * I.e. success results in a zero value.
++ * Negative error values are not returned.
++ */
++unsigned long
++copy_from_user(void *to, const void *from, unsigned long n)
++{
++	if (copyin(from, to, n) != 0) {
++		/* Any errors will be treated as a failure
++		   to copy any of the requested bytes */
++		return n;
++	}
++
++	return 0;
++}
++
++unsigned long
++copy_to_user(void *to, const void *from, unsigned long n)
++{
++	if (copyout(from, to, n) != 0) {
++		/* Any errors will be treated as a failure
++		   to copy any of the requested bytes */
++		return n;
++	}
++
++	return 0;
++}
++
++
++/*
++ * The usb_register and usb_deregister functions are used to register
++ * usb drivers with the usb subsystem. In this compatibility layer
++ * emulation a list of drivers (struct usb_driver) is maintained
++ * and is used for probing/attaching etc.
++ *
++ * usb_register and usb_deregister simply call these functions.
++ */
++int
++usb_register(struct usb_driver *driver)
++{
++	rtw_usb_linux_register(driver);
++	return 0;
++}
++
++
++int
++usb_deregister(struct usb_driver *driver)
++{
++	rtw_usb_linux_deregister(driver);
++	return 0;
++}
++
++void module_init_exit_wrapper(void *arg)
++{
++	int (*func)(void) = arg;
++	func();
++	return;
++}
++
++#endif /* PLATFORM_FREEBSD */
++
++#ifdef CONFIG_PLATFORM_SPRD
++	#ifdef do_div
++		#undef do_div
++	#endif
++	#include <asm-generic/div64.h>
++#endif
++
++u64 rtw_modular64(u64 x, u64 y)
++{
++#ifdef PLATFORM_LINUX
++	return do_div(x, y);
++#elif defined(PLATFORM_WINDOWS)
++	return x % y;
++#elif defined(PLATFORM_FREEBSD)
++	return x % y;
++#endif
++}
++
++u64 rtw_division64(u64 x, u64 y)
++{
++#ifdef PLATFORM_LINUX
++	do_div(x, y);
++	return x;
++#elif defined(PLATFORM_WINDOWS)
++	return x / y;
++#elif defined(PLATFORM_FREEBSD)
++	return x / y;
++#endif
++}
++
++inline u32 rtw_random32(void)
++{
++#ifdef PLATFORM_LINUX
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 8, 0))
++	return prandom_u32();
++#elif (LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 18))
++	u32 random_int;
++	get_random_bytes(&random_int , 4);
++	return random_int;
++#else
++	return random32();
++#endif
++#elif defined(PLATFORM_WINDOWS)
++#error "to be implemented\n"
++#elif defined(PLATFORM_FREEBSD)
++#error "to be implemented\n"
++#endif
++}
++
++void rtw_buf_free(u8 **buf, u32 *buf_len)
++{
++	u32 ori_len;
++
++	if (!buf || !buf_len)
++		return;
++
++	ori_len = *buf_len;
++
++	if (*buf) {
++		u32 tmp_buf_len = *buf_len;
++		*buf_len = 0;
++		rtw_mfree(*buf, tmp_buf_len);
++		*buf = NULL;
++	}
++}
++
++void rtw_buf_update(u8 **buf, u32 *buf_len, u8 *src, u32 src_len)
++{
++	u32 ori_len = 0, dup_len = 0;
++	u8 *ori = NULL;
++	u8 *dup = NULL;
++
++	if (!buf || !buf_len)
++		return;
++
++	if (!src || !src_len)
++		goto keep_ori;
++
++	/* duplicate src */
++	dup = rtw_malloc(src_len);
++	if (dup) {
++		dup_len = src_len;
++		_rtw_memcpy(dup, src, dup_len);
++	}
++
++keep_ori:
++	ori = *buf;
++	ori_len = *buf_len;
++
++	/* replace buf with dup */
++	*buf_len = 0;
++	*buf = dup;
++	*buf_len = dup_len;
++
++	/* free ori */
++	if (ori && ori_len > 0)
++		rtw_mfree(ori, ori_len);
++}
++
++
++/**
++ * rtw_cbuf_full - test if cbuf is full
++ * @cbuf: pointer of struct rtw_cbuf
++ *
++ * Returns: _TRUE if cbuf is full
++ */
++inline bool rtw_cbuf_full(struct rtw_cbuf *cbuf)
++{
++	return (cbuf->write == cbuf->read - 1) ? _TRUE : _FALSE;
++}
++
++/**
++ * rtw_cbuf_empty - test if cbuf is empty
++ * @cbuf: pointer of struct rtw_cbuf
++ *
++ * Returns: _TRUE if cbuf is empty
++ */
++inline bool rtw_cbuf_empty(struct rtw_cbuf *cbuf)
++{
++	return (cbuf->write == cbuf->read) ? _TRUE : _FALSE;
++}
++
++/**
++ * rtw_cbuf_push - push a pointer into cbuf
++ * @cbuf: pointer of struct rtw_cbuf
++ * @buf: pointer to push in
++ *
++ * Lock free operation, be careful of the use scheme
++ * Returns: _TRUE push success
++ */
++bool rtw_cbuf_push(struct rtw_cbuf *cbuf, void *buf)
++{
++	if (rtw_cbuf_full(cbuf))
++		return _FAIL;
++
++	if (0)
++		RTW_INFO("%s on %u\n", __func__, cbuf->write);
++	cbuf->bufs[cbuf->write] = buf;
++	cbuf->write = (cbuf->write + 1) % cbuf->size;
++
++	return _SUCCESS;
++}
++
++/**
++ * rtw_cbuf_pop - pop a pointer from cbuf
++ * @cbuf: pointer of struct rtw_cbuf
++ *
++ * Lock free operation, be careful of the use scheme
++ * Returns: pointer popped out
++ */
++void *rtw_cbuf_pop(struct rtw_cbuf *cbuf)
++{
++	void *buf;
++	if (rtw_cbuf_empty(cbuf))
++		return NULL;
++
++	if (0)
++		RTW_INFO("%s on %u\n", __func__, cbuf->read);
++	buf = cbuf->bufs[cbuf->read];
++	cbuf->read = (cbuf->read + 1) % cbuf->size;
++
++	return buf;
++}
++
++/**
++ * rtw_cbuf_alloc - allocte a rtw_cbuf with given size and do initialization
++ * @size: size of pointer
++ *
++ * Returns: pointer of srtuct rtw_cbuf, NULL for allocation failure
++ */
++struct rtw_cbuf *rtw_cbuf_alloc(u32 size)
++{
++	struct rtw_cbuf *cbuf;
++
++	cbuf = (struct rtw_cbuf *)rtw_malloc(sizeof(*cbuf) + sizeof(void *) * size);
++
++	if (cbuf) {
++		cbuf->write = cbuf->read = 0;
++		cbuf->size = size;
++	}
++
++	return cbuf;
++}
++
++/**
++ * rtw_cbuf_free - free the given rtw_cbuf
++ * @cbuf: pointer of struct rtw_cbuf to free
++ */
++void rtw_cbuf_free(struct rtw_cbuf *cbuf)
++{
++	rtw_mfree((u8 *)cbuf, sizeof(*cbuf) + sizeof(void *) * cbuf->size);
++}
++
++/**
++ * map_readN - read a range of map data
++ * @map: map to read
++ * @offset: start address to read
++ * @len: length to read
++ * @buf: pointer of buffer to store data read
++ *
++ * Returns: _SUCCESS or _FAIL
++ */
++int map_readN(const struct map_t *map, u16 offset, u16 len, u8 *buf)
++{
++	const struct map_seg_t *seg;
++	int ret = _FAIL;
++	int i;
++
++	if (len == 0) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	if (offset + len > map->len) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	_rtw_memset(buf, map->init_value, len);
++
++	for (i = 0; i < map->seg_num; i++) {
++		u8 *c_dst, *c_src;
++		u16 c_len;
++
++		seg = map->segs + i;
++		if (seg->sa + seg->len <= offset || seg->sa >= offset + len)
++			continue;
++
++		if (seg->sa >= offset) {
++			c_dst = buf + (seg->sa - offset);
++			c_src = seg->c;
++			if (seg->sa + seg->len <= offset + len)
++				c_len = seg->len;
++			else
++				c_len = offset + len - seg->sa;
++		} else {
++			c_dst = buf;
++			c_src = seg->c + (offset - seg->sa);
++			if (seg->sa + seg->len >= offset + len)
++				c_len = len;
++			else
++				c_len = seg->sa + seg->len - offset;
++		}
++			
++		_rtw_memcpy(c_dst, c_src, c_len);
++	}
++
++exit:
++	return ret;
++}
++
++/**
++ * map_read8 - read 1 byte of map data
++ * @map: map to read
++ * @offset: address to read
++ *
++ * Returns: value of data of specified offset. map.init_value if offset is out of range
++ */
++u8 map_read8(const struct map_t *map, u16 offset)
++{
++	const struct map_seg_t *seg;
++	u8 val = map->init_value;
++	int i;
++
++	if (offset + 1 > map->len) {
++		rtw_warn_on(1);
++		goto exit;
++	}
++
++	for (i = 0; i < map->seg_num; i++) {
++		seg = map->segs + i;
++		if (seg->sa + seg->len <= offset || seg->sa >= offset + 1)
++			continue;
++
++		val = *(seg->c + offset - seg->sa);
++		break;
++	}
++
++exit:
++	return val;
++}
++
++/**
++* IsHexDigit -
++*
++* Return	TRUE if chTmp is represent for hex digit
++*		FALSE otherwise.
++*/
++inline BOOLEAN IsHexDigit(char chTmp)
++{
++	if ((chTmp >= '0' && chTmp <= '9') ||
++		(chTmp >= 'a' && chTmp <= 'f') ||
++		(chTmp >= 'A' && chTmp <= 'F'))
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++/**
++* is_alpha -
++*
++* Return	TRUE if chTmp is represent for alphabet
++*		FALSE otherwise.
++*/
++inline BOOLEAN is_alpha(char chTmp)
++{
++	if ((chTmp >= 'a' && chTmp <= 'z') ||
++		(chTmp >= 'A' && chTmp <= 'Z'))
++		return _TRUE;
++	else
++		return _FALSE;
++}
++
++inline char alpha_to_upper(char c)
++{
++	if ((c >= 'a' && c <= 'z'))
++		c = 'A' + (c - 'a');
++	return c;
++}
+diff --git a/drivers/net/wireless/rtl8812au/platform/custom_country_chplan.h b/drivers/net/wireless/rtl8812au/platform/custom_country_chplan.h
+new file mode 100644
+index 0000000..9d26bf4
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/platform/custom_country_chplan.h
+@@ -0,0 +1,28 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++
++#error "You have defined CONFIG_CUSTOMIZED_COUNTRY_CHPLAN_MAP to use a customized map of your own instead of the default one"
++#error "Before removing these error notifications, please make sure regulatory certification requirements of your target markets"
++
++static const struct country_chplan CUSTOMIZED_country_chplan_map[] = {
++	COUNTRY_CHPLAN_ENT("TW", 0x39, 1, 0xFF), /* Taiwan */
++};
++
++static const u16 CUSTOMIZED_country_chplan_map_sz = sizeof(CUSTOMIZED_country_chplan_map) / sizeof(struct country_chplan);
+diff --git a/drivers/net/wireless/rtl8812au/platform/platform_ARM_SUN50IW1P1_sdio.c b/drivers/net/wireless/rtl8812au/platform/platform_ARM_SUN50IW1P1_sdio.c
+new file mode 100644
+index 0000000..44bd7de
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/platform/platform_ARM_SUN50IW1P1_sdio.c
+@@ -0,0 +1,91 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*
++ * Description:
++ *	This file can be applied to following platforms:
++ *	CONFIG_PLATFORM_ARM_SUN50IW1P1
++ */
++#include <drv_types.h>
++#ifdef CONFIG_GPIO_WAKEUP
++#include <linux/gpio.h>
++#endif
++
++#ifdef CONFIG_MMC
++#if defined(CONFIG_PLATFORM_ARM_SUN50IW1P1)
++extern void sunxi_mmc_rescan_card(unsigned ids);
++extern void sunxi_wlan_set_power(int on);
++extern int sunxi_wlan_get_bus_index(void);
++extern int sunxi_wlan_get_oob_irq(void);
++extern int sunxi_wlan_get_oob_irq_flags(void);
++#endif
++#ifdef CONFIG_GPIO_WAKEUP
++extern unsigned int oob_irq;
++#endif
++#endif /* CONFIG_MMC */
++
++/*
++ * Return:
++ *	0:	power on successfully
++ *	others: power on failed
++ */
++int platform_wifi_power_on(void)
++{
++	int ret = 0;
++
++#ifdef CONFIG_MMC
++	{
++
++#if defined(CONFIG_PLATFORM_ARM_SUN50IW1P1)
++		int wlan_bus_index = sunxi_wlan_get_bus_index();
++		if (wlan_bus_index < 0)
++			return wlan_bus_index;
++
++		sunxi_wlan_set_power(1);
++		mdelay(100);
++		sunxi_mmc_rescan_card(wlan_bus_index);
++#endif
++		RTW_INFO("%s: power up, rescan card.\n", __FUNCTION__);
++
++#ifdef CONFIG_GPIO_WAKEUP
++#if defined(CONFIG_PLATFORM_ARM_SUN50IW1P1)
++		oob_irq = sunxi_wlan_get_oob_irq();
++#endif
++#endif /* CONFIG_GPIO_WAKEUP */
++	}
++#endif /* CONFIG_MMC */
++
++	return ret;
++}
++
++void platform_wifi_power_off(void)
++{
++#ifdef CONFIG_MMC
++#if defined(CONFIG_PLATFORM_ARM_SUN50IW1P1)
++	int wlan_bus_index = sunxi_wlan_get_bus_index();
++	if (wlan_bus_index < 0)
++		return;
++
++	sunxi_mmc_rescan_card(wlan_bus_index);
++	mdelay(100);
++	sunxi_wlan_set_power(0);
++#endif
++	RTW_INFO("%s: remove card, power off.\n", __FUNCTION__);
++#endif /* CONFIG_MMC */
++}
+diff --git a/drivers/net/wireless/rtl8812au/platform/platform_ARM_SUNnI_sdio.c b/drivers/net/wireless/rtl8812au/platform/platform_ARM_SUNnI_sdio.c
+new file mode 100644
+index 0000000..612dfba
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/platform/platform_ARM_SUNnI_sdio.c
+@@ -0,0 +1,135 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*
++ * Description:
++ *	This file can be applied to following platforms:
++ *	CONFIG_PLATFORM_ARM_SUN6I
++ *	CONFIG_PLATFORM_ARM_SUN7I
++ *	CONFIG_PLATFORM_ARM_SUN8I
++ */
++#include <drv_types.h>
++#include <mach/sys_config.h>
++#ifdef CONFIG_GPIO_WAKEUP
++#include <linux/gpio.h>
++#endif
++
++#ifdef CONFIG_MMC
++static int sdc_id = -1;
++static signed int gpio_eint_wlan = -1;
++static u32 eint_wlan_handle = 0;
++
++#if defined(CONFIG_PLATFORM_ARM_SUN6I) || defined(CONFIG_PLATFORM_ARM_SUN7I)
++extern void sw_mci_rescan_card(unsigned id, unsigned insert);
++#elif defined(CONFIG_PLATFORM_ARM_SUN8I)
++extern void sunxi_mci_rescan_card(unsigned id, unsigned insert);
++#endif
++
++#ifdef CONFIG_PLATFORM_ARM_SUN8I_W5P1
++extern int get_rf_mod_type(void);
++#else
++extern int wifi_pm_get_mod_type(void);
++#endif
++
++extern void wifi_pm_power(int on);
++#ifdef CONFIG_GPIO_WAKEUP
++extern unsigned int oob_irq;
++#endif
++#endif /* CONFIG_MMC */
++
++/*
++ * Return:
++ *	0:	power on successfully
++ *	others: power on failed
++ */
++int platform_wifi_power_on(void)
++{
++	int ret = 0;
++
++#ifdef CONFIG_MMC
++	{
++		script_item_u val;
++		script_item_value_type_e type;
++
++#ifdef CONFIG_PLATFORM_ARM_SUN8I_W5P1
++		unsigned int mod_sel = get_rf_mod_type();
++#else
++		unsigned int mod_sel = wifi_pm_get_mod_type();
++#endif
++
++		type = script_get_item("wifi_para", "wifi_sdc_id", &val);
++		if (SCIRPT_ITEM_VALUE_TYPE_INT != type) {
++			RTW_INFO("get wifi_sdc_id failed\n");
++			ret = -1;
++		} else {
++			sdc_id = val.val;
++			RTW_INFO("----- %s sdc_id: %d, mod_sel: %d\n", __FUNCTION__, sdc_id, mod_sel);
++
++#if defined(CONFIG_PLATFORM_ARM_SUN6I) || defined(CONFIG_PLATFORM_ARM_SUN7I)
++			sw_mci_rescan_card(sdc_id, 1);
++#elif defined(CONFIG_PLATFORM_ARM_SUN8I)
++			sunxi_mci_rescan_card(sdc_id, 1);
++#endif
++			mdelay(100);
++			wifi_pm_power(1);
++
++			RTW_INFO("%s: power up, rescan card.\n", __FUNCTION__);
++		}
++
++#ifdef CONFIG_GPIO_WAKEUP
++#ifdef CONFIG_PLATFORM_ARM_SUN8I_W5P1
++		type = script_get_item("wifi_para", "wl_host_wake", &val);
++#else
++#ifdef CONFIG_RTL8723B
++		type = script_get_item("wifi_para", "rtl8723bs_wl_host_wake", &val);
++#endif
++#ifdef CONFIG_RTL8188E
++		type = script_get_item("wifi_para", "rtl8189es_host_wake", &val);
++#endif
++#endif /* CONFIG_PLATFORM_ARM_SUN8I_W5P1 */
++		if (SCIRPT_ITEM_VALUE_TYPE_PIO != type) {
++			RTW_INFO("No definition of wake up host PIN\n");
++			ret = -1;
++		} else {
++			gpio_eint_wlan = val.gpio.gpio;
++#ifdef CONFIG_PLATFORM_ARM_SUN8I
++			oob_irq = gpio_to_irq(gpio_eint_wlan);
++#endif
++		}
++#endif /* CONFIG_GPIO_WAKEUP */
++	}
++#endif /* CONFIG_MMC */
++
++	return ret;
++}
++
++void platform_wifi_power_off(void)
++{
++#ifdef CONFIG_MMC
++#if defined(CONFIG_PLATFORM_ARM_SUN6I) || defined(CONFIG_PLATFORM_ARM_SUN7I)
++	sw_mci_rescan_card(sdc_id, 0);
++#elif defined(CONFIG_PLATFORM_ARM_SUN8I)
++	sunxi_mci_rescan_card(sdc_id, 0);
++#endif
++	mdelay(100);
++	wifi_pm_power(0);
++
++	RTW_INFO("%s: remove card, power off.\n", __FUNCTION__);
++#endif /* CONFIG_MMC */
++}
+diff --git a/drivers/net/wireless/rtl8812au/platform/platform_ARM_SUNxI_sdio.c b/drivers/net/wireless/rtl8812au/platform/platform_ARM_SUNxI_sdio.c
+new file mode 100644
+index 0000000..6eed7b1
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/platform/platform_ARM_SUNxI_sdio.c
+@@ -0,0 +1,95 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#include <drv_types.h>
++
++#ifdef CONFIG_MMC_SUNXI_POWER_CONTROL
++#ifdef CONFIG_WITS_EVB_V13
++	#define SDIOID	0
++#else /* !CONFIG_WITS_EVB_V13 */
++	#define SDIOID (CONFIG_CHIP_ID == 1123 ? 3 : 1)
++#endif /* !CONFIG_WITS_EVB_V13 */
++
++#define SUNXI_SDIO_WIFI_NUM_RTL8189ES  10
++extern void sunximmc_rescan_card(unsigned id, unsigned insert);
++extern int mmc_pm_get_mod_type(void);
++extern int mmc_pm_gpio_ctrl(char *name, int level);
++/*
++ *	rtl8189es_shdn	= port:PH09<1><default><default><0>
++ *	rtl8189es_wakeup	= port:PH10<1><default><default><1>
++ *	rtl8189es_vdd_en  = port:PH11<1><default><default><0>
++ *	rtl8189es_vcc_en  = port:PH12<1><default><default><0>
++ */
++
++int rtl8189es_sdio_powerup(void)
++{
++	mmc_pm_gpio_ctrl("rtl8189es_vdd_en", 1);
++	udelay(100);
++	mmc_pm_gpio_ctrl("rtl8189es_vcc_en", 1);
++	udelay(50);
++	mmc_pm_gpio_ctrl("rtl8189es_shdn", 1);
++	return 0;
++}
++
++int rtl8189es_sdio_poweroff(void)
++{
++	mmc_pm_gpio_ctrl("rtl8189es_shdn", 0);
++	mmc_pm_gpio_ctrl("rtl8189es_vcc_en", 0);
++	mmc_pm_gpio_ctrl("rtl8189es_vdd_en", 0);
++	return 0;
++}
++#endif /* CONFIG_MMC_SUNXI_POWER_CONTROL */
++
++/*
++ * Return:
++ *	0:	power on successfully
++ *	others:	power on failed
++ */
++int platform_wifi_power_on(void)
++{
++	int ret = 0;
++#ifdef CONFIG_MMC_SUNXI_POWER_CONTROL
++	unsigned int mod_sel = mmc_pm_get_mod_type();
++#endif /* CONFIG_MMC_SUNXI_POWER_CONTROL */
++
++
++#ifdef CONFIG_MMC_SUNXI_POWER_CONTROL
++	if (mod_sel == SUNXI_SDIO_WIFI_NUM_RTL8189ES) {
++		rtl8189es_sdio_powerup();
++		sunximmc_rescan_card(SDIOID, 1);
++		printk("[rtl8189es] %s: power up, rescan card.\n", __FUNCTION__);
++	} else {
++		ret = -1;
++		printk("[rtl8189es] %s: mod_sel = %d is incorrect.\n", __FUNCTION__, mod_sel);
++	}
++#endif /* CONFIG_MMC_SUNXI_POWER_CONTROL */
++
++	return ret;
++}
++
++void platform_wifi_power_off(void)
++{
++#ifdef CONFIG_MMC_SUNXI_POWER_CONTROL
++	sunximmc_rescan_card(SDIOID, 0);
++#ifdef CONFIG_RTL8188E
++	rtl8189es_sdio_poweroff();
++	printk("[rtl8189es] %s: remove card, power off.\n", __FUNCTION__);
++#endif /* CONFIG_RTL8188E */
++#endif /* CONFIG_MMC_SUNXI_POWER_CONTROL */
++}
+diff --git a/drivers/net/wireless/rtl8812au/platform/platform_ARM_SUNxI_usb.c b/drivers/net/wireless/rtl8812au/platform/platform_ARM_SUNxI_usb.c
+new file mode 100644
+index 0000000..b2c8a28
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/platform/platform_ARM_SUNxI_usb.c
+@@ -0,0 +1,141 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*
++ * Description:
++ *	This file can be applied to following platforms:
++ *	CONFIG_PLATFORM_ARM_SUNXI Series platform
++ *
++ */
++
++#include <drv_types.h>
++#include <mach/sys_config.h>
++
++#ifdef CONFIG_PLATFORM_ARM_SUNxI
++extern int sw_usb_disable_hcd(__u32 usbc_no);
++extern int sw_usb_enable_hcd(__u32 usbc_no);
++static int usb_wifi_host = 2;
++#endif
++
++#if defined(CONFIG_PLATFORM_ARM_SUN6I) || defined(CONFIG_PLATFORM_ARM_SUN7I)
++extern int sw_usb_disable_hcd(__u32 usbc_no);
++extern int sw_usb_enable_hcd(__u32 usbc_no);
++extern void wifi_pm_power(int on);
++static script_item_u item;
++#endif
++
++#ifdef CONFIG_PLATFORM_ARM_SUN8I
++extern int sunxi_usb_disable_hcd(__u32 usbc_no);
++extern int sunxi_usb_enable_hcd(__u32 usbc_no);
++extern void wifi_pm_power(int on);
++static script_item_u item;
++#endif
++
++
++int platform_wifi_power_on(void)
++{
++	int ret = 0;
++
++#ifdef CONFIG_PLATFORM_ARM_SUNxI
++#ifndef CONFIG_RTL8723A
++	{
++		/* ----------get usb_wifi_usbc_num------------- */
++		ret = script_parser_fetch("usb_wifi_para", "usb_wifi_usbc_num", (int *)&usb_wifi_host, 64);
++		if (ret != 0) {
++			RTW_INFO("ERR: script_parser_fetch usb_wifi_usbc_num failed\n");
++			ret = -ENOMEM;
++			goto exit;
++		}
++		RTW_INFO("sw_usb_enable_hcd: usbc_num = %d\n", usb_wifi_host);
++		sw_usb_enable_hcd(usb_wifi_host);
++	}
++#endif /* CONFIG_RTL8723A */
++#endif /* CONFIG_PLATFORM_ARM_SUNxI */
++
++#if defined(CONFIG_PLATFORM_ARM_SUN6I) || defined(CONFIG_PLATFORM_ARM_SUN7I)
++	{
++		script_item_value_type_e type;
++
++		type = script_get_item("wifi_para", "wifi_usbc_id", &item);
++		if (SCIRPT_ITEM_VALUE_TYPE_INT != type) {
++			printk("ERR: script_get_item wifi_usbc_id failed\n");
++			ret = -ENOMEM;
++			goto exit;
++		}
++
++		printk("sw_usb_enable_hcd: usbc_num = %d\n", item.val);
++		wifi_pm_power(1);
++		mdelay(10);
++
++#if !(defined(CONFIG_RTL8723A)) && !(defined(CONFIG_RTL8723B))
++		sw_usb_enable_hcd(item.val);
++#endif
++	}
++#endif /* defined(CONFIG_PLATFORM_ARM_SUN6I) || defined(CONFIG_PLATFORM_ARM_SUN7I) */
++
++#if defined(CONFIG_PLATFORM_ARM_SUN8I)
++	{
++		script_item_value_type_e type;
++
++		type = script_get_item("wifi_para", "wifi_usbc_id", &item);
++		if (SCIRPT_ITEM_VALUE_TYPE_INT != type) {
++			printk("ERR: script_get_item wifi_usbc_id failed\n");
++			ret = -ENOMEM;
++			goto exit;
++		}
++
++		printk("sw_usb_enable_hcd: usbc_num = %d\n", item.val);
++		wifi_pm_power(1);
++		mdelay(10);
++
++#if !(defined(CONFIG_RTL8723A)) && !(defined(CONFIG_RTL8723B))
++		sunxi_usb_enable_hcd(item.val);
++#endif
++	}
++#endif /* CONFIG_PLATFORM_ARM_SUN8I */
++
++exit:
++	return ret;
++}
++
++void platform_wifi_power_off(void)
++{
++
++#ifdef CONFIG_PLATFORM_ARM_SUNxI
++#ifndef CONFIG_RTL8723A
++	RTW_INFO("sw_usb_disable_hcd: usbc_num = %d\n", usb_wifi_host);
++	sw_usb_disable_hcd(usb_wifi_host);
++#endif /* ifndef CONFIG_RTL8723A */
++#endif /* CONFIG_PLATFORM_ARM_SUNxI */
++
++#if defined(CONFIG_PLATFORM_ARM_SUN6I) || defined(CONFIG_PLATFORM_ARM_SUN7I)
++	#if !(defined(CONFIG_RTL8723A)) && !(defined(CONFIG_RTL8723B))
++	sw_usb_disable_hcd(item.val);
++	#endif
++	wifi_pm_power(0);
++#endif /* defined(CONFIG_PLATFORM_ARM_SUN6I) || defined(CONFIG_PLATFORM_ARM_SUN7I) */
++
++#if defined(CONFIG_PLATFORM_ARM_SUN8I)
++	#if !(defined(CONFIG_RTL8723A)) && !(defined(CONFIG_RTL8723B))
++	sunxi_usb_disable_hcd(item.val);
++	#endif
++	wifi_pm_power(0);
++#endif /* defined(CONFIG_PLATFORM_ARM_SUN8I) */
++
++}
+diff --git a/drivers/net/wireless/rtl8812au/platform/platform_ARM_WMT_sdio.c b/drivers/net/wireless/rtl8812au/platform/platform_ARM_WMT_sdio.c
+new file mode 100644
+index 0000000..159a5ac
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/platform/platform_ARM_WMT_sdio.c
+@@ -0,0 +1,51 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#include <drv_types.h>
++#include <mach/wmt_iomux.h>
++#include <linux/gpio.h>
++
++extern void wmt_detect_sdio2(void);
++extern void force_remove_sdio2(void);
++
++int platform_wifi_power_on(void)
++{
++	int err = 0;
++	err = gpio_request(WMT_PIN_GP62_SUSGPIO1, "wifi_chip_en");
++	if (err < 0) {
++		printk("request gpio for rtl8188eu failed!\n");
++		return err;
++	}
++	gpio_direction_output(WMT_PIN_GP62_SUSGPIO1, 0);/* pull sus_gpio1 to 0 to open vcc_wifi. */
++	printk("power on rtl8189.\n");
++	msleep(500);
++	wmt_detect_sdio2();
++	printk("[rtl8189es] %s: new card, power on.\n", __FUNCTION__);
++	return err;
++}
++
++void platform_wifi_power_off(void)
++{
++	force_remove_sdio2();
++
++	gpio_direction_output(WMT_PIN_GP62_SUSGPIO1, 1);/* pull sus_gpio1 to 1 to close vcc_wifi. */
++	printk("power off rtl8189.\n");
++	gpio_free(WMT_PIN_GP62_SUSGPIO1);
++	printk("[rtl8189es] %s: remove card, power off.\n", __FUNCTION__);
++}
+diff --git a/drivers/net/wireless/rtl8812au/platform/platform_RTK_DMP_usb.c b/drivers/net/wireless/rtl8812au/platform/platform_RTK_DMP_usb.c
+new file mode 100644
+index 0000000..af845f7
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/platform/platform_RTK_DMP_usb.c
+@@ -0,0 +1,35 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#include <drv_types.h>
++
++int platform_wifi_power_on(void)
++{
++	int ret = 0;
++	u32 tmp;
++	tmp = readl((volatile unsigned int *)0xb801a608);
++	tmp &= 0xffffff00;
++	tmp |= 0x55;
++	writel(tmp, (volatile unsigned int *)0xb801a608); /* write dummy register for 1055 */
++	return ret;
++}
++
++void platform_wifi_power_off(void)
++{
++}
+diff --git a/drivers/net/wireless/rtl8812au/platform/platform_arm_act_sdio.c b/drivers/net/wireless/rtl8812au/platform/platform_arm_act_sdio.c
+new file mode 100644
+index 0000000..539bb17
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/platform/platform_arm_act_sdio.c
+@@ -0,0 +1,58 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++/*
++ * Description:
++ *	This file can be applied to following platforms:
++ *    CONFIG_PLATFORM_ACTIONS_ATM703X
++ */
++#include <drv_types.h>
++
++#ifdef CONFIG_PLATFORM_ACTIONS_ATM705X
++extern int acts_wifi_init(void);
++extern void acts_wifi_cleanup(void);
++#endif
++
++/*
++ * Return:
++ *	0:	power on successfully
++ *	others: power on failed
++ */
++int platform_wifi_power_on(void)
++{
++	int ret = 0;
++
++#ifdef CONFIG_PLATFORM_ACTIONS_ATM705X
++	ret = acts_wifi_init();
++	if (unlikely(ret < 0)) {
++		pr_err("%s Failed to register the power control driver.\n", __FUNCTION__);
++		goto exit;
++	}
++#endif
++
++exit:
++	return ret;
++}
++
++void platform_wifi_power_off(void)
++{
++#ifdef CONFIG_PLATFORM_ACTIONS_ATM705X
++	acts_wifi_cleanup();
++#endif
++}
+diff --git a/drivers/net/wireless/rtl8812au/platform/platform_ops.c b/drivers/net/wireless/rtl8812au/platform/platform_ops.c
+new file mode 100644
+index 0000000..95da669
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/platform/platform_ops.c
+@@ -0,0 +1,37 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef CONFIG_PLATFORM_OPS
++/*
++ * Return:
++ *	0:	power on successfully
++ *	others: power on failed
++ */
++int platform_wifi_power_on(void)
++{
++	int ret = 0;
++
++
++	return ret;
++}
++
++void platform_wifi_power_off(void)
++{
++}
++#endif /* !CONFIG_PLATFORM_OPS */
+diff --git a/drivers/net/wireless/rtl8812au/platform/platform_ops.h b/drivers/net/wireless/rtl8812au/platform/platform_ops.h
+new file mode 100644
+index 0000000..b8314bb
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/platform/platform_ops.h
+@@ -0,0 +1,31 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#ifndef __PLATFORM_OPS_H__
++#define __PLATFORM_OPS_H__
++
++/*
++ * Return:
++ *	0:	power on successfully
++ *	others: power on failed
++ */
++int platform_wifi_power_on(void);
++void platform_wifi_power_off(void);
++
++#endif /* __PLATFORM_OPS_H__ */
+diff --git a/drivers/net/wireless/rtl8812au/platform/platform_sprd_sdio.c b/drivers/net/wireless/rtl8812au/platform/platform_sprd_sdio.c
+new file mode 100644
+index 0000000..c5ffd14
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/platform/platform_sprd_sdio.c
+@@ -0,0 +1,89 @@
++/******************************************************************************
++ *
++ * Copyright(c) 2013 Realtek Corporation. All rights reserved.
++ *
++ * This program is free software; you can redistribute it and/or modify it
++ * under the terms of version 2 of the GNU General Public License as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful, but WITHOUT
++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
++ * more details.
++ *
++ * You should have received a copy of the GNU General Public License along with
++ * this program; if not, write to the Free Software Foundation, Inc.,
++ * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
++ *
++ *
++ ******************************************************************************/
++#include <drv_types.h>
++
++extern void sdhci_bus_scan(void);
++#ifndef ANDROID_2X
++extern int sdhci_device_attached(void);
++#endif
++
++/*
++ * Return:
++ *	0:	power on successfully
++ *	others:	power on failed
++ */
++int platform_wifi_power_on(void)
++{
++	int ret = 0;
++
++
++#ifdef CONFIG_RTL8188E
++	rtw_wifi_gpio_wlan_ctrl(WLAN_POWER_ON);
++#endif /* CONFIG_RTL8188E */
++
++	/* Pull up pwd pin, make wifi leave power down mode. */
++	rtw_wifi_gpio_init();
++	rtw_wifi_gpio_wlan_ctrl(WLAN_PWDN_ON);
++
++#if (MP_DRIVER == 1) && (defined(CONFIG_RTL8723A) || defined(CONFIG_RTL8723B))
++	/* Pull up BT reset pin. */
++	rtw_wifi_gpio_wlan_ctrl(WLAN_BT_PWDN_ON);
++#endif
++	rtw_mdelay_os(5);
++
++	sdhci_bus_scan();
++#ifdef CONFIG_RTL8723B
++	/* YJ,test,130305 */
++	rtw_mdelay_os(1000);
++#endif
++#ifdef ANDROID_2X
++	rtw_mdelay_os(200);
++#else /* !ANDROID_2X */
++	if (1) {
++		int i = 0;
++
++		for (i = 0; i <= 50; i++) {
++			msleep(10);
++			if (sdhci_device_attached())
++				break;
++			printk("%s delay times:%d\n", __func__, i);
++		}
++	}
++#endif /* !ANDROID_2X */
++
++	return ret;
++}
++
++void platform_wifi_power_off(void)
++{
++	/* Pull down pwd pin, make wifi enter power down mode. */
++	rtw_wifi_gpio_wlan_ctrl(WLAN_PWDN_OFF);
++	rtw_mdelay_os(5);
++	rtw_wifi_gpio_deinit();
++
++#ifdef CONFIG_RTL8188E
++	rtw_wifi_gpio_wlan_ctrl(WLAN_POWER_OFF);
++#endif /* CONFIG_RTL8188E */
++
++#ifdef CONFIG_WOWLAN
++	if (mmc_host)
++		mmc_host->pm_flags &= ~MMC_PM_KEEP_POWER;
++#endif /* CONFIG_WOWLAN */
++}
+diff --git a/drivers/net/wireless/rtl8812au/runwpa b/drivers/net/wireless/rtl8812au/runwpa
+new file mode 100644
+index 0000000..f825e8b
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/runwpa
+@@ -0,0 +1,20 @@
++#!/bin/bash
++
++if [ "`which iwconfig`" = "" ] ; then 
++	echo "WARNING:Wireless tool not exist!"
++	echo "        Please install it!"
++	exit
++else
++	if [ `uname -r | cut -d. -f2` -eq 4 ]; then
++		wpa_supplicant -D ipw -c wpa1.conf -i wlan0	
++	else
++	if [ `iwconfig -v |awk '{print $4}' | head -n 1` -lt  18 ] ; then
++		wpa_supplicant -D ipw -c wpa1.conf -i wlan0  
++	else	  
++		wpa_supplicant -D wext -c wpa1.conf -i wlan0 
++	fi
++
++	fi
++fi
++
++
+diff --git a/drivers/net/wireless/rtl8812au/wlan0dhcp b/drivers/net/wireless/rtl8812au/wlan0dhcp
+new file mode 100644
+index 0000000..6043382
+--- /dev/null
++++ b/drivers/net/wireless/rtl8812au/wlan0dhcp
+@@ -0,0 +1,16 @@
++#!/bin/bash
++
++var0=`ps aux|awk '/dhclient wlan0/'|awk '$11!="awk"{print $2}'`
++
++kill $var0
++cp ifcfg-wlan0 /etc/sysconfig/network-scripts/
++
++dhclient wlan0
++
++var1=`ifconfig wlan0 |awk '/inet/{print $2}'|awk -F: '{print $2}'`
++
++
++rm -f /etc/sysconfig/network-scripts/ifcfg-wlan0
++
++echo "get ip: $var1"
++
diff --git a/patch/kernel/mvebu-next/09-02-add_USB_wifi_armbian_fixes-for-kernel-4.13.patch b/patch/kernel/mvebu-next/09-02-add_USB_wifi_armbian_fixes-for-kernel-4.13.patch
new file mode 100644
index 000000000..ab710624f
--- /dev/null
+++ b/patch/kernel/mvebu-next/09-02-add_USB_wifi_armbian_fixes-for-kernel-4.13.patch
@@ -0,0 +1,308 @@
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_cfg80211.c b/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_cfg80211.c
+index 6b4eac5..47ec44d 100755
+--- a/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_cfg80211.c
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_cfg80211.c
+@@ -1734,10 +1734,17 @@ enum nl80211_iftype {
+ 	NL80211_IFTYPE_MAX = NUM_NL80211_IFTYPES - 1
+ };
+ #endif
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(4, 12, 0)
++static int cfg80211_rtw_change_iface(struct wiphy *wiphy,
++				     struct net_device *ndev,
++				     enum nl80211_iftype type,
++				     struct vif_params *params)
++#else
+ static int cfg80211_rtw_change_iface(struct wiphy *wiphy,
+ 				     struct net_device *ndev,
+ 				     enum nl80211_iftype type, u32 *flags,
+ 				     struct vif_params *params)
++#endif
+ {
+ 	enum nl80211_iftype old_type;
+ 	NDIS_802_11_NETWORK_INFRASTRUCTURE networkType;
+@@ -3699,7 +3706,11 @@ static int
+ 		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 1, 0))
+ 		unsigned char name_assign_type,
+ 		#endif
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 12, 0))
++ 		enum nl80211_iftype type, struct vif_params *params)
++ 		#else
+ 		enum nl80211_iftype type, u32 *flags, struct vif_params *params)
++		#endif
+ {
+ 	int ret = 0;
+ 	struct net_device *ndev = NULL;
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_cfg80211.c b/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_cfg80211.c
+index accfaec..8804238 100755
+--- a/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_cfg80211.c
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_cfg80211.c
+@@ -6193,7 +6193,11 @@ static void rtw_cfg80211_preinit_wiphy(_adapter *adapter, struct wiphy *wiphy)
+ #endif
+
+ #if defined(CONFIG_PM) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
+-	wiphy->flags |= WIPHY_FLAG_SUPPORTS_SCHED_SCAN;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4,12,0))
++	wiphy->max_sched_scan_reqs = 1;
++#else
++  	wiphy->flags |= WIPHY_FLAG_SUPPORTS_SCHED_SCAN;
++#endif
+ #ifdef CONFIG_PNO_SUPPORT
+ 	wiphy->max_sched_scan_ssids = MAX_PNO_LIST_COUNT;
+ #endif
+diff --git a/drivers/net/wireless/rtl8723du/include/osdep_service.h b/drivers/net/wireless/rtl8723du/include/osdep_service.h
+old mode 100644
+new mode 100755
+index e3cd85d..5a29641
+--- a/drivers/net/wireless/rtl8723du/include/osdep_service.h
++++ b/drivers/net/wireless/rtl8723du/include/osdep_service.h
+@@ -32,6 +32,10 @@
+ #undef _FALSE
+ #define _FALSE		0
+ 
++#include <linux/version.h>
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(4, 11, 0)
++#include <linux/sched/signal.h>
++#endif
+ 
+ #ifdef PLATFORM_FREEBSD
+ 	#include <osdep_service_bsd.h>
+diff --git a/drivers/net/wireless/rtl8723du/include/osdep_service_linux.h b/drivers/net/wireless/rtl8723du/include/osdep_service_linux.h
+old mode 100644
+new mode 100755
+index e951b1b..6f226d6
+--- a/drivers/net/wireless/rtl8723du/include/osdep_service_linux.h
++++ b/drivers/net/wireless/rtl8723du/include/osdep_service_linux.h
+@@ -28,6 +28,9 @@
+ #include <linux/init.h>
+ #include <linux/slab.h>
+ #include <linux/module.h>
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(4, 11, 0)
++	#include <linux/sched/signal.h>
++#endif
+ #if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 5))
+ 	#include <linux/kref.h>
+ #endif
+diff --git a/drivers/net/wireless/rtl8812au/include/osdep_service.h b/drivers/net/wireless/rtl8812au/include/osdep_service.h
+old mode 100644
+new mode 100755
+index c2c2905..bebe989
+--- a/drivers/net/wireless/rtl8812au/include/osdep_service.h
++++ b/drivers/net/wireless/rtl8812au/include/osdep_service.h
+@@ -32,6 +32,10 @@
+ #undef _FALSE
+ #define _FALSE		0
+ 
++#include <linux/version.h>
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(4, 11, 0)
++#include <linux/sched/signal.h>
++#endif
+ 
+ #ifdef PLATFORM_FREEBSD
+ 	#include <osdep_service_bsd.h>
+diff --git a/drivers/net/wireless/rtl8812au/include/osdep_service_linux.h b/drivers/net/wireless/rtl8812au/include/osdep_service_linux.h
+old mode 100644
+new mode 100755
+index 060dbe6..eaddf77
+--- a/drivers/net/wireless/rtl8812au/include/osdep_service_linux.h
++++ b/drivers/net/wireless/rtl8812au/include/osdep_service_linux.h
+@@ -28,6 +28,9 @@
+ #include <linux/init.h>
+ #include <linux/slab.h>
+ #include <linux/module.h>
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(4, 11, 0)
++	#include <linux/sched/signal.h>
++#endif
+ #if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 5))
+ 	#include <linux/kref.h>
+ #endif
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.c b/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.c
+index 6b4eac5..47ec44d 100755
+--- a/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.c
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.c
+@@ -1734,10 +1734,17 @@ enum nl80211_iftype {
+ 	NL80211_IFTYPE_MAX = NUM_NL80211_IFTYPES - 1
+ };
+ #endif
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(4, 12, 0)
++static int cfg80211_rtw_change_iface(struct wiphy *wiphy,
++				     struct net_device *ndev,
++				     enum nl80211_iftype type,
++				     struct vif_params *params)
++#else
+ static int cfg80211_rtw_change_iface(struct wiphy *wiphy,
+ 				     struct net_device *ndev,
+ 				     enum nl80211_iftype type, u32 *flags,
+ 				     struct vif_params *params)
++#endif
+ {
+ 	enum nl80211_iftype old_type;
+ 	NDIS_802_11_NETWORK_INFRASTRUCTURE networkType;
+@@ -3699,7 +3706,11 @@ static int
+ 		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 1, 0))
+ 		unsigned char name_assign_type,
+ 		#endif
++		#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 12, 0))
++ 		enum nl80211_iftype type, struct vif_params *params)
++ 		#else
+ 		enum nl80211_iftype type, u32 *flags, struct vif_params *params)
++		#endif	
+ {
+ 	int ret = 0;
+ 	struct net_device *ndev = NULL;
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.c b/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.c
+index 47ec44d..accfaec 100755
+--- a/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.c
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.c
+@@ -3640,7 +3640,12 @@ static int rtw_cfg80211_add_monitor_if(_adapter *padapter, char *name, struct ne
+ 	mon_ndev->type = ARPHRD_IEEE80211_RADIOTAP;
+ 	strncpy(mon_ndev->name, name, IFNAMSIZ);
+ 	mon_ndev->name[IFNAMSIZ - 1] = 0;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 11, 9))
++	mon_ndev->needs_free_netdev = false;
++	mon_ndev->priv_destructor = rtw_ndev_destructor;
++#else
+ 	mon_ndev->destructor = rtw_ndev_destructor;
++#endif
+
+ #if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
+ 	mon_ndev->netdev_ops = &rtw_cfg80211_monitor_if_ops;
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.c b/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.c
+index accfaec..8804238 100755
+--- a/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.c
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.c
+@@ -6193,7 +6193,11 @@ static void rtw_cfg80211_preinit_wiphy(_adapter *adapter, struct wiphy *wiphy)
+ #endif
+
+ #if defined(CONFIG_PM) && (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 0, 0))
+-	wiphy->flags |= WIPHY_FLAG_SUPPORTS_SCHED_SCAN;
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4,12,0))
++	wiphy->max_sched_scan_reqs = 1;
++#else
++  	wiphy->flags |= WIPHY_FLAG_SUPPORTS_SCHED_SCAN;
++#endif
+ #ifdef CONFIG_PNO_SUPPORT
+ 	wiphy->max_sched_scan_ssids = MAX_PNO_LIST_COUNT;
+ #endif
+diff --git a/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_cfg80211.c b/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_cfg80211.c
+old mode 100644
+new mode 100755
+index cd8cb08..b31aaea
+--- a/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_cfg80211.c
++++ b/drivers/net/wireless/rtl8723du/os_dep/linux/ioctl_cfg80211.c
+@@ -749,22 +749,24 @@ void rtw_cfg80211_indicate_connect(_adapter *padapter)
+ 		struct ieee80211_channel *notify_channel;
+ 		u32 freq;
+ 		u16 channel = cur_network->network.Configuration.DSConfig;
++		struct cfg80211_roam_info roam_info = {};
+ 
+ 		freq = rtw_ch2freq(channel);
+ 		notify_channel = ieee80211_get_channel(wiphy, freq);
+ 		#endif
+ 
+ 		RTW_INFO(FUNC_ADPT_FMT" call cfg80211_roamed\n", FUNC_ADPT_ARG(padapter));
+-		cfg80211_roamed(padapter->pnetdev
+-			#if LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 39) || defined(COMPAT_KERNEL_RELEASE)
+-			, notify_channel
+-			#endif
+-			, cur_network->network.MacAddress
+-			, pmlmepriv->assoc_req + sizeof(struct rtw_ieee80211_hdr_3addr) + 2
+-			, pmlmepriv->assoc_req_len - sizeof(struct rtw_ieee80211_hdr_3addr) - 2
+-			, pmlmepriv->assoc_rsp + sizeof(struct rtw_ieee80211_hdr_3addr) + 6
+-			, pmlmepriv->assoc_rsp_len - sizeof(struct rtw_ieee80211_hdr_3addr) - 6
+-			, GFP_ATOMIC);
++		roam_info.channel = notify_channel;
++		roam_info.bssid = cur_network->network.MacAddress;
++		roam_info.req_ie =
++			pmlmepriv->assoc_req+sizeof(struct ieee80211_hdr_3addr)+2;
++		roam_info.req_ie_len =
++			pmlmepriv->assoc_req_len-sizeof(struct ieee80211_hdr_3addr)-2;
++		roam_info.resp_ie =
++			pmlmepriv->assoc_rsp+sizeof(struct ieee80211_hdr_3addr)+6;
++		roam_info.resp_ie_len =
++			pmlmepriv->assoc_rsp_len-sizeof(struct ieee80211_hdr_3addr)-6;
++		cfg80211_roamed(padapter->pnetdev, &roam_info, GFP_ATOMIC);
+ #ifdef CONFIG_RTW_80211R
+ 		if ((rtw_to_roam(padapter) > 0) && rtw_chk_ft_flags(padapter, RTW_FT_SUPPORTED))
+ 			rtw_set_ft_status(padapter, RTW_FT_ASSOCIATED_STA);
+@@ -3652,7 +3654,12 @@ static int rtw_cfg80211_add_monitor_if(_adapter *padapter, char *name, struct ne
+ 	mon_ndev->type = ARPHRD_IEEE80211_RADIOTAP;
+ 	strncpy(mon_ndev->name, name, IFNAMSIZ);
+ 	mon_ndev->name[IFNAMSIZ - 1] = 0;
+-	mon_ndev->destructor = rtw_ndev_destructor;
++#if (LINUX_VERSION_CODE>=KERNEL_VERSION(4,11,9))
++	mon_ndev->needs_free_netdev = false;
++	mon_ndev->priv_destructor = rtw_ndev_destructor;
++#else
++  	mon_ndev->destructor = rtw_ndev_destructor;
++#endif
+ 
+ #if (LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 29))
+ 	mon_ndev->netdev_ops = &rtw_cfg80211_monitor_if_ops;
+@@ -5098,7 +5105,7 @@ static int _cfg80211_rtw_mgmt_tx(_adapter *padapter, u8 tx_ch, const u8 *buf, si
+ 
+ 			if (check_fwstate(&padapter->mlmepriv, _FW_LINKED))
+ 				ext_listen_period = 500;/*500ms*/
+-#ifdef CONFIG_P2P				
++#ifdef CONFIG_P2P
+ 			else
+ 				ext_listen_period = pwdinfo->ext_listen_period;
+ 
+diff --git a/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.c b/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.c
+old mode 100644
+new mode 100755
+index 276c722..6b4eac5
+--- a/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.c
++++ b/drivers/net/wireless/rtl8812au/os_dep/linux/ioctl_cfg80211.c
+@@ -749,22 +749,24 @@ void rtw_cfg80211_indicate_connect(_adapter *padapter)
+ 		struct ieee80211_channel *notify_channel;
+ 		u32 freq;
+ 		u16 channel = cur_network->network.Configuration.DSConfig;
++		struct cfg80211_roam_info roam_info = {};
+ 
+ 		freq = rtw_ch2freq(channel);
+ 		notify_channel = ieee80211_get_channel(wiphy, freq);
+ 		#endif
+ 
+ 		RTW_INFO(FUNC_ADPT_FMT" call cfg80211_roamed\n", FUNC_ADPT_ARG(padapter));
+-		cfg80211_roamed(padapter->pnetdev
+-			#if LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 39) || defined(COMPAT_KERNEL_RELEASE)
+-			, notify_channel
+-			#endif
+-			, cur_network->network.MacAddress
+-			, pmlmepriv->assoc_req + sizeof(struct rtw_ieee80211_hdr_3addr) + 2
+-			, pmlmepriv->assoc_req_len - sizeof(struct rtw_ieee80211_hdr_3addr) - 2
+-			, pmlmepriv->assoc_rsp + sizeof(struct rtw_ieee80211_hdr_3addr) + 6
+-			, pmlmepriv->assoc_rsp_len - sizeof(struct rtw_ieee80211_hdr_3addr) - 6
+-			, GFP_ATOMIC);
++		roam_info.channel = notify_channel;
++		roam_info.bssid = cur_network->network.MacAddress;
++		roam_info.req_ie =
++			pmlmepriv->assoc_req+sizeof(struct ieee80211_hdr_3addr)+2;
++		roam_info.req_ie_len =
++			pmlmepriv->assoc_req_len-sizeof(struct ieee80211_hdr_3addr)-2;
++		roam_info.resp_ie =
++			pmlmepriv->assoc_rsp+sizeof(struct ieee80211_hdr_3addr)+6;
++		roam_info.resp_ie_len =
++			pmlmepriv->assoc_rsp_len-sizeof(struct ieee80211_hdr_3addr)-6;
++		cfg80211_roamed(padapter->pnetdev, &roam_info, GFP_ATOMIC);
+ 	} else {
+ 		#if LINUX_VERSION_CODE < KERNEL_VERSION(3, 11, 0) || defined(COMPAT_KERNEL_RELEASE)
+ 		RTW_INFO("pwdev->sme_state(b)=%d\n", pwdev->sme_state);
+@@ -1866,7 +1868,7 @@ void rtw_cfg80211_indicate_scan_done(_adapter *adapter, bool aborted)
+ {
+ 	struct rtw_wdev_priv *pwdev_priv = adapter_wdev_data(adapter);
+ 	_irqL	irqL;
+-	
++
+ 	struct cfg80211_scan_info info = {
+ 		.aborted = aborted
+ 	};
+@@ -5038,7 +5040,7 @@ static int _cfg80211_rtw_mgmt_tx(_adapter *padapter, u8 tx_ch, const u8 *buf, si
+ 
+ 			if (check_fwstate(&padapter->mlmepriv, _FW_LINKED))
+ 				ext_listen_period = 500;/*500ms*/
+-#ifdef CONFIG_P2P				
++#ifdef CONFIG_P2P
+ 			else
+ 				ext_listen_period = pwdinfo->ext_listen_period;
+ 
diff --git a/patch/kernel/mvebu-next/aufs4.12.patch b/patch/kernel/mvebu-next/aufs4.12.patch
new file mode 100644
index 000000000..c02ee3f0a
--- /dev/null
+++ b/patch/kernel/mvebu-next/aufs4.12.patch
@@ -0,0 +1,36479 @@
+diff --git a/Documentation/ABI/testing/debugfs-aufs b/Documentation/ABI/testing/debugfs-aufs
+new file mode 100755
+index 0000000..99642d1
+--- /dev/null
++++ b/Documentation/ABI/testing/debugfs-aufs
+@@ -0,0 +1,50 @@
++What:		/debug/aufs/si_<id>/
++Date:		March 2009
++Contact:	J. R. Okajima <hooanon05g@gmail.com>
++Description:
++		Under /debug/aufs, a directory named si_<id> is created
++		per aufs mount, where <id> is a unique id generated
++		internally.
++
++What:		/debug/aufs/si_<id>/plink
++Date:		Apr 2013
++Contact:	J. R. Okajima <hooanon05g@gmail.com>
++Description:
++		It has three lines and shows the information about the
++		pseudo-link. The first line is a single number
++		representing a number of buckets. The second line is a
++		number of pseudo-links per buckets (separated by a
++		blank). The last line is a single number representing a
++		total number of psedo-links.
++		When the aufs mount option 'noplink' is specified, it
++		will show "1\n0\n0\n".
++
++What:		/debug/aufs/si_<id>/xib
++Date:		March 2009
++Contact:	J. R. Okajima <hooanon05g@gmail.com>
++Description:
++		It shows the consumed blocks by xib (External Inode Number
++		Bitmap), its block size and file size.
++		When the aufs mount option 'noxino' is specified, it
++		will be empty. About XINO files, see the aufs manual.
++
++What:		/debug/aufs/si_<id>/xino0, xino1 ... xinoN
++Date:		March 2009
++Contact:	J. R. Okajima <hooanon05g@gmail.com>
++Description:
++		It shows the consumed blocks by xino (External Inode Number
++		Translation Table), its link count, block size and file
++		size.
++		When the aufs mount option 'noxino' is specified, it
++		will be empty. About XINO files, see the aufs manual.
++
++What:		/debug/aufs/si_<id>/xigen
++Date:		March 2009
++Contact:	J. R. Okajima <hooanon05g@gmail.com>
++Description:
++		It shows the consumed blocks by xigen (External Inode
++		Generation Table), its block size and file size.
++		If CONFIG_AUFS_EXPORT is disabled, this entry will not
++		be created.
++		When the aufs mount option 'noxino' is specified, it
++		will be empty. About XINO files, see the aufs manual.
+diff --git a/Documentation/ABI/testing/sysfs-aufs b/Documentation/ABI/testing/sysfs-aufs
+new file mode 100755
+index 0000000..82f9518
+--- /dev/null
++++ b/Documentation/ABI/testing/sysfs-aufs
+@@ -0,0 +1,31 @@
++What:		/sys/fs/aufs/si_<id>/
++Date:		March 2009
++Contact:	J. R. Okajima <hooanon05g@gmail.com>
++Description:
++		Under /sys/fs/aufs, a directory named si_<id> is created
++		per aufs mount, where <id> is a unique id generated
++		internally.
++
++What:		/sys/fs/aufs/si_<id>/br0, br1 ... brN
++Date:		March 2009
++Contact:	J. R. Okajima <hooanon05g@gmail.com>
++Description:
++		It shows the abolute path of a member directory (which
++		is called branch) in aufs, and its permission.
++
++What:		/sys/fs/aufs/si_<id>/brid0, brid1 ... bridN
++Date:		July 2013
++Contact:	J. R. Okajima <hooanon05g@gmail.com>
++Description:
++		It shows the id of a member directory (which is called
++		branch) in aufs.
++
++What:		/sys/fs/aufs/si_<id>/xi_path
++Date:		March 2009
++Contact:	J. R. Okajima <hooanon05g@gmail.com>
++Description:
++		It shows the abolute path of XINO (External Inode Number
++		Bitmap, Translation Table and Generation Table) file
++		even if it is the default path.
++		When the aufs mount option 'noxino' is specified, it
++		will be empty. About XINO files, see the aufs manual.
+diff --git a/Documentation/filesystems/aufs/README b/Documentation/filesystems/aufs/README
+new file mode 100755
+index 0000000..fa82b63
+--- /dev/null
++++ b/Documentation/filesystems/aufs/README
+@@ -0,0 +1,393 @@
++
++Aufs4 -- advanced multi layered unification filesystem version 4.x
++http://aufs.sf.net
++Junjiro R. Okajima
++
++
++0. Introduction
++----------------------------------------
++In the early days, aufs was entirely re-designed and re-implemented
++Unionfs Version 1.x series. Adding many original ideas, approaches,
++improvements and implementations, it becomes totally different from
++Unionfs while keeping the basic features.
++Recently, Unionfs Version 2.x series begin taking some of the same
++approaches to aufs1's.
++Unionfs is being developed by Professor Erez Zadok at Stony Brook
++University and his team.
++
++Aufs4 supports linux-4.0 and later, and for linux-3.x series try aufs3.
++If you want older kernel version support, try aufs2-2.6.git or
++aufs2-standalone.git repository, aufs1 from CVS on SourceForge.
++
++Note: it becomes clear that "Aufs was rejected. Let's give it up."
++      According to Christoph Hellwig, linux rejects all union-type
++      filesystems but UnionMount.
++<http://marc.info/?l=linux-kernel&m=123938533724484&w=2>
++
++PS. Al Viro seems have a plan to merge aufs as well as overlayfs and
++    UnionMount, and he pointed out an issue around a directory mutex
++    lock and aufs addressed it. But it is still unsure whether aufs will
++    be merged (or any other union solution).
++<http://marc.info/?l=linux-kernel&m=136312705029295&w=1>
++
++
++1. Features
++----------------------------------------
++- unite several directories into a single virtual filesystem. The member
++  directory is called as a branch.
++- you can specify the permission flags to the branch, which are 'readonly',
++  'readwrite' and 'whiteout-able.'
++- by upper writable branch, internal copyup and whiteout, files/dirs on
++  readonly branch are modifiable logically.
++- dynamic branch manipulation, add, del.
++- etc...
++
++Also there are many enhancements in aufs, such as:
++- test only the highest one for the directory permission (dirperm1)
++- copyup on open (coo=)
++- 'move' policy for copy-up between two writable branches, after
++  checking free space.
++- xattr, acl
++- readdir(3) in userspace.
++- keep inode number by external inode number table
++- keep the timestamps of file/dir in internal copyup operation
++- seekable directory, supporting NFS readdir.
++- whiteout is hardlinked in order to reduce the consumption of inodes
++  on branch
++- do not copyup, nor create a whiteout when it is unnecessary
++- revert a single systemcall when an error occurs in aufs
++- remount interface instead of ioctl
++- maintain /etc/mtab by an external command, /sbin/mount.aufs.
++- loopback mounted filesystem as a branch
++- kernel thread for removing the dir who has a plenty of whiteouts
++- support copyup sparse file (a file which has a 'hole' in it)
++- default permission flags for branches
++- selectable permission flags for ro branch, whether whiteout can
++  exist or not
++- export via NFS.
++- support <sysfs>/fs/aufs and <debugfs>/aufs.
++- support multiple writable branches, some policies to select one
++  among multiple writable branches.
++- a new semantics for link(2) and rename(2) to support multiple
++  writable branches.
++- no glibc changes are required.
++- pseudo hardlink (hardlink over branches)
++- allow a direct access manually to a file on branch, e.g. bypassing aufs.
++  including NFS or remote filesystem branch.
++- userspace wrapper for pathconf(3)/fpathconf(3) with _PC_LINK_MAX.
++- and more...
++
++Currently these features are dropped temporary from aufs4.
++See design/08plan.txt in detail.
++- nested mount, i.e. aufs as readonly no-whiteout branch of another aufs
++  (robr)
++- statistics of aufs thread (/sys/fs/aufs/stat)
++
++Features or just an idea in the future (see also design/*.txt),
++- reorder the branch index without del/re-add.
++- permanent xino files for NFSD
++- an option for refreshing the opened files after add/del branches
++- light version, without branch manipulation. (unnecessary?)
++- copyup in userspace
++- inotify in userspace
++- readv/writev
++
++
++2. Download
++----------------------------------------
++There are three GIT trees for aufs4, aufs4-linux.git,
++aufs4-standalone.git, and aufs-util.git. Note that there is no "4" in
++"aufs-util.git."
++While the aufs-util is always necessary, you need either of aufs4-linux
++or aufs4-standalone.
++
++The aufs4-linux tree includes the whole linux mainline GIT tree,
++git://git.kernel.org/.../torvalds/linux.git.
++And you cannot select CONFIG_AUFS_FS=m for this version, eg. you cannot
++build aufs4 as an external kernel module.
++Several extra patches are not included in this tree. Only
++aufs4-standalone tree contains them. They are described in the later
++section "Configuration and Compilation."
++
++On the other hand, the aufs4-standalone tree has only aufs source files
++and necessary patches, and you can select CONFIG_AUFS_FS=m.
++But you need to apply all aufs patches manually.
++
++You will find GIT branches whose name is in form of "aufs4.x" where "x"
++represents the linux kernel version, "linux-4.x". For instance,
++"aufs4.0" is for linux-4.0. For latest "linux-4.x-rcN", use
++"aufs4.x-rcN" branch.
++
++o aufs4-linux tree
++$ git clone --reference /your/linux/git/tree \
++	git://github.com/sfjro/aufs4-linux.git aufs4-linux.git
++- if you don't have linux GIT tree, then remove "--reference ..."
++$ cd aufs4-linux.git
++$ git checkout origin/aufs4.0
++
++Or You may want to directly git-pull aufs into your linux GIT tree, and
++leave the patch-work to GIT.
++$ cd /your/linux/git/tree
++$ git remote add aufs4 git://github.com/sfjro/aufs4-linux.git
++$ git fetch aufs4
++$ git checkout -b my4.0 v4.0
++$ (add your local change...)
++$ git pull aufs4 aufs4.0
++- now you have v4.0 + your_changes + aufs4.0 in you my4.0 branch.
++- you may need to solve some conflicts between your_changes and
++  aufs4.0. in this case, git-rerere is recommended so that you can
++  solve the similar conflicts automatically when you upgrade to 4.1 or
++  later in the future.
++
++o aufs4-standalone tree
++$ git clone git://github.com/sfjro/aufs4-standalone.git aufs4-standalone.git
++$ cd aufs4-standalone.git
++$ git checkout origin/aufs4.0
++
++o aufs-util tree
++$ git clone git://git.code.sf.net/p/aufs/aufs-util aufs-util.git
++- note that the public aufs-util.git is on SourceForge instead of
++  GitHUB.
++$ cd aufs-util.git
++$ git checkout origin/aufs4.0
++
++Note: The 4.x-rcN branch is to be used with `rc' kernel versions ONLY.
++The minor version number, 'x' in '4.x', of aufs may not always
++follow the minor version number of the kernel.
++Because changes in the kernel that cause the use of a new
++minor version number do not always require changes to aufs-util.
++
++Since aufs-util has its own minor version number, you may not be
++able to find a GIT branch in aufs-util for your kernel's
++exact minor version number.
++In this case, you should git-checkout the branch for the
++nearest lower number.
++
++For (an unreleased) example:
++If you are using "linux-4.10" and the "aufs4.10" branch
++does not exist in aufs-util repository, then "aufs4.9", "aufs4.8"
++or something numerically smaller is the branch for your kernel.
++
++Also you can view all branches by
++	$ git branch -a
++
++
++3. Configuration and Compilation
++----------------------------------------
++Make sure you have git-checkout'ed the correct branch.
++
++For aufs4-linux tree,
++- enable CONFIG_AUFS_FS.
++- set other aufs configurations if necessary.
++
++For aufs4-standalone tree,
++There are several ways to build.
++
++1.
++- apply ./aufs4-kbuild.patch to your kernel source files.
++- apply ./aufs4-base.patch too.
++- apply ./aufs4-mmap.patch too.
++- apply ./aufs4-standalone.patch too, if you have a plan to set
++  CONFIG_AUFS_FS=m. otherwise you don't need ./aufs4-standalone.patch.
++- copy ./{Documentation,fs,include/uapi/linux/aufs_type.h} files to your
++  kernel source tree. Never copy $PWD/include/uapi/linux/Kbuild.
++- enable CONFIG_AUFS_FS, you can select either
++  =m or =y.
++- and build your kernel as usual.
++- install the built kernel.
++  Note: Since linux-3.9, every filesystem module requires an alias
++  "fs-<fsname>". You should make sure that "fs-aufs" is listed in your
++  modules.aliases file if you set CONFIG_AUFS_FS=m.
++- install the header files too by "make headers_install" to the
++  directory where you specify. By default, it is $PWD/usr.
++  "make help" shows a brief note for headers_install.
++- and reboot your system.
++
++2.
++- module only (CONFIG_AUFS_FS=m).
++- apply ./aufs4-base.patch to your kernel source files.
++- apply ./aufs4-mmap.patch too.
++- apply ./aufs4-standalone.patch too.
++- build your kernel, don't forget "make headers_install", and reboot.
++- edit ./config.mk and set other aufs configurations if necessary.
++  Note: You should read $PWD/fs/aufs/Kconfig carefully which describes
++  every aufs configurations.
++- build the module by simple "make".
++  Note: Since linux-3.9, every filesystem module requires an alias
++  "fs-<fsname>". You should make sure that "fs-aufs" is listed in your
++  modules.aliases file.
++- you can specify ${KDIR} make variable which points to your kernel
++  source tree.
++- install the files
++  + run "make install" to install the aufs module, or copy the built
++    $PWD/aufs.ko to /lib/modules/... and run depmod -a (or reboot simply).
++  + run "make install_headers" (instead of headers_install) to install
++    the modified aufs header file (you can specify DESTDIR which is
++    available in aufs standalone version's Makefile only), or copy
++    $PWD/usr/include/linux/aufs_type.h to /usr/include/linux or wherever
++    you like manually. By default, the target directory is $PWD/usr.
++- no need to apply aufs4-kbuild.patch, nor copying source files to your
++  kernel source tree.
++
++Note: The header file aufs_type.h is necessary to build aufs-util
++      as well as "make headers_install" in the kernel source tree.
++      headers_install is subject to be forgotten, but it is essentially
++      necessary, not only for building aufs-util.
++      You may not meet problems without headers_install in some older
++      version though.
++
++And then,
++- read README in aufs-util, build and install it
++- note that your distribution may contain an obsoleted version of
++  aufs_type.h in /usr/include/linux or something. When you build aufs
++  utilities, make sure that your compiler refers the correct aufs header
++  file which is built by "make headers_install."
++- if you want to use readdir(3) in userspace or pathconf(3) wrapper,
++  then run "make install_ulib" too. And refer to the aufs manual in
++  detail.
++
++There several other patches in aufs4-standalone.git. They are all
++optional. When you meet some problems, they will help you.
++- aufs4-loopback.patch
++  Supports a nested loopback mount in a branch-fs. This patch is
++  unnecessary until aufs produces a message like "you may want to try
++  another patch for loopback file".
++- vfs-ino.patch
++  Modifies a system global kernel internal function get_next_ino() in
++  order to stop assigning 0 for an inode-number. Not directly related to
++  aufs, but recommended generally.
++- tmpfs-idr.patch
++  Keeps the tmpfs inode number as the lowest value. Effective to reduce
++  the size of aufs XINO files for tmpfs branch. Also it prevents the
++  duplication of inode number, which is important for backup tools and
++  other utilities. When you find aufs XINO files for tmpfs branch
++  growing too much, try this patch.
++- lockdep-debug.patch
++  Because aufs is not only an ordinary filesystem (callee of VFS), but
++  also a caller of VFS functions for branch filesystems, subclassing of
++  the internal locks for LOCKDEP is necessary. LOCKDEP is a debugging
++  feature of linux kernel. If you enable CONFIG_LOCKDEP, then you will
++  need to apply this debug patch to expand several constant values.
++  If don't know what LOCKDEP, then you don't have apply this patch.
++
++
++4. Usage
++----------------------------------------
++At first, make sure aufs-util are installed, and please read the aufs
++manual, aufs.5 in aufs-util.git tree.
++$ man -l aufs.5
++
++And then,
++$ mkdir /tmp/rw /tmp/aufs
++# mount -t aufs -o br=/tmp/rw:${HOME} none /tmp/aufs
++
++Here is another example. The result is equivalent.
++# mount -t aufs -o br=/tmp/rw=rw:${HOME}=ro none /tmp/aufs
++  Or
++# mount -t aufs -o br:/tmp/rw none /tmp/aufs
++# mount -o remount,append:${HOME} /tmp/aufs
++
++Then, you can see whole tree of your home dir through /tmp/aufs. If
++you modify a file under /tmp/aufs, the one on your home directory is
++not affected, instead the same named file will be newly created under
++/tmp/rw. And all of your modification to a file will be applied to
++the one under /tmp/rw. This is called the file based Copy on Write
++(COW) method.
++Aufs mount options are described in aufs.5.
++If you run chroot or something and make your aufs as a root directory,
++then you need to customize the shutdown script. See the aufs manual in
++detail.
++
++Additionally, there are some sample usages of aufs which are a
++diskless system with network booting, and LiveCD over NFS.
++See sample dir in CVS tree on SourceForge.
++
++
++5. Contact
++----------------------------------------
++When you have any problems or strange behaviour in aufs, please let me
++know with:
++- /proc/mounts (instead of the output of mount(8))
++- /sys/module/aufs/*
++- /sys/fs/aufs/* (if you have them)
++- /debug/aufs/* (if you have them)
++- linux kernel version
++  if your kernel is not plain, for example modified by distributor,
++  the url where i can download its source is necessary too.
++- aufs version which was printed at loading the module or booting the
++  system, instead of the date you downloaded.
++- configuration (define/undefine CONFIG_AUFS_xxx)
++- kernel configuration or /proc/config.gz (if you have it)
++- behaviour which you think to be incorrect
++- actual operation, reproducible one is better
++- mailto: aufs-users at lists.sourceforge.net
++
++Usually, I don't watch the Public Areas(Bugs, Support Requests, Patches,
++and Feature Requests) on SourceForge. Please join and write to
++aufs-users ML.
++
++
++6. Acknowledgements
++----------------------------------------
++Thanks to everyone who have tried and are using aufs, whoever
++have reported a bug or any feedback.
++
++Especially donators:
++Tomas Matejicek(slax.org) made a donation (much more than once).
++	Since Apr 2010, Tomas M (the author of Slax and Linux Live
++	scripts) is making "doubling" donations.
++	Unfortunately I cannot list all of the donators, but I really
++	appreciate.
++	It ends Aug 2010, but the ordinary donation URL is still available.
++	<http://sourceforge.net/donate/index.php?group_id=167503>
++Dai Itasaka made a donation (2007/8).
++Chuck Smith made a donation (2008/4, 10 and 12).
++Henk Schoneveld made a donation (2008/9).
++Chih-Wei Huang, ASUS, CTC donated Eee PC 4G (2008/10).
++Francois Dupoux made a donation (2008/11).
++Bruno Cesar Ribas and Luis Carlos Erpen de Bona, C3SL serves public
++	aufs2 GIT tree (2009/2).
++William Grant made a donation (2009/3).
++Patrick Lane made a donation (2009/4).
++The Mail Archive (mail-archive.com) made donations (2009/5).
++Nippy Networks (Ed Wildgoose) made a donation (2009/7).
++New Dream Network, LLC (www.dreamhost.com) made a donation (2009/11).
++Pavel Pronskiy made a donation (2011/2).
++Iridium and Inmarsat satellite phone retailer (www.mailasail.com), Nippy
++	Networks (Ed Wildgoose) made a donation for hardware (2011/3).
++Max Lekomcev (DOM-TV project) made a donation (2011/7, 12, 2012/3, 6 and
++11).
++Sam Liddicott made a donation (2011/9).
++Era Scarecrow made a donation (2013/4).
++Bor Ratajc made a donation (2013/4).
++Alessandro Gorreta made a donation (2013/4).
++POIRETTE Marc made a donation (2013/4).
++Alessandro Gorreta made a donation (2013/4).
++lauri kasvandik made a donation (2013/5).
++"pemasu from Finland" made a donation (2013/7).
++The Parted Magic Project made a donation (2013/9 and 11).
++Pavel Barta made a donation (2013/10).
++Nikolay Pertsev made a donation (2014/5).
++James B made a donation (2014/7 and 2015/7).
++Stefano Di Biase made a donation (2014/8).
++Daniel Epellei made a donation (2015/1).
++OmegaPhil made a donation (2016/1).
++Tomasz Szewczyk made a donation (2016/4).
++James Burry made a donation (2016/12).
++
++Thank you very much.
++Donations are always, including future donations, very important and
++helpful for me to keep on developing aufs.
++
++
++7.
++----------------------------------------
++If you are an experienced user, no explanation is needed. Aufs is
++just a linux filesystem.
++
++
++Enjoy!
++
++# Local variables: ;
++# mode: text;
++# End: ;
+diff --git a/Documentation/filesystems/aufs/design/01intro.txt b/Documentation/filesystems/aufs/design/01intro.txt
+new file mode 100755
+index 0000000..ae16191
+--- /dev/null
++++ b/Documentation/filesystems/aufs/design/01intro.txt
+@@ -0,0 +1,171 @@
++
++# Copyright (C) 2005-2017 Junjiro R. Okajima
++# 
++# This program is free software; you can redistribute it and/or modify
++# it under the terms of the GNU General Public License as published by
++# the Free Software Foundation; either version 2 of the License, or
++# (at your option) any later version.
++# 
++# This program is distributed in the hope that it will be useful,
++# but WITHOUT ANY WARRANTY; without even the implied warranty of
++# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++# GNU General Public License for more details.
++# 
++# You should have received a copy of the GNU General Public License
++# along with this program.  If not, see <http://www.gnu.org/licenses/>.
++
++Introduction
++----------------------------------------
++
++aufs [ei ju: ef es] | /ey-yoo-ef-es/ | [a u f s]
++1. abbrev. for "advanced multi-layered unification filesystem".
++2. abbrev. for "another unionfs".
++3. abbrev. for "auf das" in German which means "on the" in English.
++   Ex. "Butter aufs Brot"(G) means "butter onto bread"(E).
++   But "Filesystem aufs Filesystem" is hard to understand.
++4. abbrev. for "African Urban Fashion Show".
++
++AUFS is a filesystem with features:
++- multi layered stackable unification filesystem, the member directory
++  is called as a branch.
++- branch permission and attribute, 'readonly', 'real-readonly',
++  'readwrite', 'whiteout-able', 'link-able whiteout', etc. and their
++  combination.
++- internal "file copy-on-write".
++- logical deletion, whiteout.
++- dynamic branch manipulation, adding, deleting and changing permission.
++- allow bypassing aufs, user's direct branch access.
++- external inode number translation table and bitmap which maintains the
++  persistent aufs inode number.
++- seekable directory, including NFS readdir.
++- file mapping, mmap and sharing pages.
++- pseudo-link, hardlink over branches.
++- loopback mounted filesystem as a branch.
++- several policies to select one among multiple writable branches.
++- revert a single systemcall when an error occurs in aufs.
++- and more...
++
++
++Multi Layered Stackable Unification Filesystem
++----------------------------------------------------------------------
++Most people already knows what it is.
++It is a filesystem which unifies several directories and provides a
++merged single directory. When users access a file, the access will be
++passed/re-directed/converted (sorry, I am not sure which English word is
++correct) to the real file on the member filesystem. The member
++filesystem is called 'lower filesystem' or 'branch' and has a mode
++'readonly' and 'readwrite.' And the deletion for a file on the lower
++readonly branch is handled by creating 'whiteout' on the upper writable
++branch.
++
++On LKML, there have been discussions about UnionMount (Jan Blunck,
++Bharata B Rao and Valerie Aurora) and Unionfs (Erez Zadok). They took
++different approaches to implement the merged-view.
++The former tries putting it into VFS, and the latter implements as a
++separate filesystem.
++(If I misunderstand about these implementations, please let me know and
++I shall correct it. Because it is a long time ago when I read their
++source files last time).
++
++UnionMount's approach will be able to small, but may be hard to share
++branches between several UnionMount since the whiteout in it is
++implemented in the inode on branch filesystem and always
++shared. According to Bharata's post, readdir does not seems to be
++finished yet.
++There are several missing features known in this implementations such as
++- for users, the inode number may change silently. eg. copy-up.
++- link(2) may break by copy-up.
++- read(2) may get an obsoleted filedata (fstat(2) too).
++- fcntl(F_SETLK) may be broken by copy-up.
++- unnecessary copy-up may happen, for example mmap(MAP_PRIVATE) after
++  open(O_RDWR).
++
++In linux-3.18, "overlay" filesystem (formerly known as "overlayfs") was
++merged into mainline. This is another implementation of UnionMount as a
++separated filesystem. All the limitations and known problems which
++UnionMount are equally inherited to "overlay" filesystem.
++
++Unionfs has a longer history. When I started implementing a stackable
++filesystem (Aug 2005), it already existed. It has virtual super_block,
++inode, dentry and file objects and they have an array pointing lower
++same kind objects. After contributing many patches for Unionfs, I
++re-started my project AUFS (Jun 2006).
++
++In AUFS, the structure of filesystem resembles to Unionfs, but I
++implemented my own ideas, approaches and enhancements and it became
++totally different one.
++
++Comparing DM snapshot and fs based implementation
++- the number of bytes to be copied between devices is much smaller.
++- the type of filesystem must be one and only.
++- the fs must be writable, no readonly fs, even for the lower original
++  device. so the compression fs will not be usable. but if we use
++  loopback mount, we may address this issue.
++  for instance,
++	mount /cdrom/squashfs.img /sq
++	losetup /sq/ext2.img
++	losetup /somewhere/cow
++	dmsetup "snapshot /dev/loop0 /dev/loop1 ..."
++- it will be difficult (or needs more operations) to extract the
++  difference between the original device and COW.
++- DM snapshot-merge may help a lot when users try merging. in the
++  fs-layer union, users will use rsync(1).
++
++You may want to read my old paper "Filesystems in LiveCD"
++(http://aufs.sourceforge.net/aufs2/report/sq/sq.pdf).
++
++
++Several characters/aspects/persona of aufs
++----------------------------------------------------------------------
++
++Aufs has several characters, aspects or persona.
++1. a filesystem, callee of VFS helper
++2. sub-VFS, caller of VFS helper for branches
++3. a virtual filesystem which maintains persistent inode number
++4. reader/writer of files on branches such like an application
++
++1. Callee of VFS Helper
++As an ordinary linux filesystem, aufs is a callee of VFS. For instance,
++unlink(2) from an application reaches sys_unlink() kernel function and
++then vfs_unlink() is called. vfs_unlink() is one of VFS helper and it
++calls filesystem specific unlink operation. Actually aufs implements the
++unlink operation but it behaves like a redirector.
++
++2. Caller of VFS Helper for Branches
++aufs_unlink() passes the unlink request to the branch filesystem as if
++it were called from VFS. So the called unlink operation of the branch
++filesystem acts as usual. As a caller of VFS helper, aufs should handle
++every necessary pre/post operation for the branch filesystem.
++- acquire the lock for the parent dir on a branch
++- lookup in a branch
++- revalidate dentry on a branch
++- mnt_want_write() for a branch
++- vfs_unlink() for a branch
++- mnt_drop_write() for a branch
++- release the lock on a branch
++
++3. Persistent Inode Number
++One of the most important issue for a filesystem is to maintain inode
++numbers. This is particularly important to support exporting a
++filesystem via NFS. Aufs is a virtual filesystem which doesn't have a
++backend block device for its own. But some storage is necessary to
++keep and maintain the inode numbers. It may be a large space and may not
++suit to keep in memory. Aufs rents some space from its first writable
++branch filesystem (by default) and creates file(s) on it. These files
++are created by aufs internally and removed soon (currently) keeping
++opened.
++Note: Because these files are removed, they are totally gone after
++      unmounting aufs. It means the inode numbers are not persistent
++      across unmount or reboot. I have a plan to make them really
++      persistent which will be important for aufs on NFS server.
++
++4. Read/Write Files Internally (copy-on-write)
++Because a branch can be readonly, when you write a file on it, aufs will
++"copy-up" it to the upper writable branch internally. And then write the
++originally requested thing to the file. Generally kernel doesn't
++open/read/write file actively. In aufs, even a single write may cause a
++internal "file copy". This behaviour is very similar to cp(1) command.
++
++Some people may think it is better to pass such work to user space
++helper, instead of doing in kernel space. Actually I am still thinking
++about it. But currently I have implemented it in kernel space.
+diff --git a/Documentation/filesystems/aufs/design/02struct.txt b/Documentation/filesystems/aufs/design/02struct.txt
+new file mode 100755
+index 0000000..1d1ccde
+--- /dev/null
++++ b/Documentation/filesystems/aufs/design/02struct.txt
+@@ -0,0 +1,258 @@
++
++# Copyright (C) 2005-2017 Junjiro R. Okajima
++# 
++# This program is free software; you can redistribute it and/or modify
++# it under the terms of the GNU General Public License as published by
++# the Free Software Foundation; either version 2 of the License, or
++# (at your option) any later version.
++# 
++# This program is distributed in the hope that it will be useful,
++# but WITHOUT ANY WARRANTY; without even the implied warranty of
++# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++# GNU General Public License for more details.
++# 
++# You should have received a copy of the GNU General Public License
++# along with this program.  If not, see <http://www.gnu.org/licenses/>.
++
++Basic Aufs Internal Structure
++
++Superblock/Inode/Dentry/File Objects
++----------------------------------------------------------------------
++As like an ordinary filesystem, aufs has its own
++superblock/inode/dentry/file objects. All these objects have a
++dynamically allocated array and store the same kind of pointers to the
++lower filesystem, branch.
++For example, when you build a union with one readwrite branch and one
++readonly, mounted /au, /rw and /ro respectively.
++- /au = /rw + /ro
++- /ro/fileA exists but /rw/fileA
++
++Aufs lookup operation finds /ro/fileA and gets dentry for that. These
++pointers are stored in a aufs dentry. The array in aufs dentry will be,
++- [0] = NULL (because /rw/fileA doesn't exist)
++- [1] = /ro/fileA
++
++This style of an array is essentially same to the aufs
++superblock/inode/dentry/file objects.
++
++Because aufs supports manipulating branches, ie. add/delete/change
++branches dynamically, these objects has its own generation. When
++branches are changed, the generation in aufs superblock is
++incremented. And a generation in other object are compared when it is
++accessed. When a generation in other objects are obsoleted, aufs
++refreshes the internal array.
++
++
++Superblock
++----------------------------------------------------------------------
++Additionally aufs superblock has some data for policies to select one
++among multiple writable branches, XIB files, pseudo-links and kobject.
++See below in detail.
++About the policies which supports copy-down a directory, see
++wbr_policy.txt too.
++
++
++Branch and XINO(External Inode Number Translation Table)
++----------------------------------------------------------------------
++Every branch has its own xino (external inode number translation table)
++file. The xino file is created and unlinked by aufs internally. When two
++members of a union exist on the same filesystem, they share the single
++xino file.
++The struct of a xino file is simple, just a sequence of aufs inode
++numbers which is indexed by the lower inode number.
++In the above sample, assume the inode number of /ro/fileA is i111 and
++aufs assigns the inode number i999 for fileA. Then aufs writes 999 as
++4(8) bytes at 111 * 4(8) bytes offset in the xino file.
++
++When the inode numbers are not contiguous, the xino file will be sparse
++which has a hole in it and doesn't consume as much disk space as it
++might appear. If your branch filesystem consumes disk space for such
++holes, then you should specify 'xino=' option at mounting aufs.
++
++Aufs has a mount option to free the disk blocks for such holes in XINO
++files on tmpfs or ramdisk. But it is not so effective actually. If you
++meet a problem of disk shortage due to XINO files, then you should try
++"tmpfs-ino.patch" (and "vfs-ino.patch" too) in aufs4-standalone.git.
++The patch localizes the assignment inumbers per tmpfs-mount and avoid
++the holes in XINO files.
++
++Also a writable branch has three kinds of "whiteout bases". All these
++are existed when the branch is joined to aufs, and their names are
++whiteout-ed doubly, so that users will never see their names in aufs
++hierarchy.
++1. a regular file which will be hardlinked to all whiteouts.
++2. a directory to store a pseudo-link.
++3. a directory to store an "orphan"-ed file temporary.
++
++1. Whiteout Base
++   When you remove a file on a readonly branch, aufs handles it as a
++   logical deletion and creates a whiteout on the upper writable branch
++   as a hardlink of this file in order not to consume inode on the
++   writable branch.
++2. Pseudo-link Dir
++   See below, Pseudo-link.
++3. Step-Parent Dir
++   When "fileC" exists on the lower readonly branch only and it is
++   opened and removed with its parent dir, and then user writes
++   something into it, then aufs copies-up fileC to this
++   directory. Because there is no other dir to store fileC. After
++   creating a file under this dir, the file is unlinked.
++
++Because aufs supports manipulating branches, ie. add/delete/change
++dynamically, a branch has its own id. When the branch order changes,
++aufs finds the new index by searching the branch id.
++
++
++Pseudo-link
++----------------------------------------------------------------------
++Assume "fileA" exists on the lower readonly branch only and it is
++hardlinked to "fileB" on the branch. When you write something to fileA,
++aufs copies-up it to the upper writable branch. Additionally aufs
++creates a hardlink under the Pseudo-link Directory of the writable
++branch. The inode of a pseudo-link is kept in aufs super_block as a
++simple list. If fileB is read after unlinking fileA, aufs returns
++filedata from the pseudo-link instead of the lower readonly
++branch. Because the pseudo-link is based upon the inode, to keep the
++inode number by xino (see above) is essentially necessary.
++
++All the hardlinks under the Pseudo-link Directory of the writable branch
++should be restored in a proper location later. Aufs provides a utility
++to do this. The userspace helpers executed at remounting and unmounting
++aufs by default.
++During this utility is running, it puts aufs into the pseudo-link
++maintenance mode. In this mode, only the process which began the
++maintenance mode (and its child processes) is allowed to operate in
++aufs. Some other processes which are not related to the pseudo-link will
++be allowed to run too, but the rest have to return an error or wait
++until the maintenance mode ends. If a process already acquires an inode
++mutex (in VFS), it has to return an error.
++
++
++XIB(external inode number bitmap)
++----------------------------------------------------------------------
++Addition to the xino file per a branch, aufs has an external inode number
++bitmap in a superblock object. It is also an internal file such like a
++xino file.
++It is a simple bitmap to mark whether the aufs inode number is in-use or
++not.
++To reduce the file I/O, aufs prepares a single memory page to cache xib.
++
++As well as XINO files, aufs has a feature to truncate/refresh XIB to
++reduce the number of consumed disk blocks for these files.
++
++
++Virtual or Vertical Dir, and Readdir in Userspace
++----------------------------------------------------------------------
++In order to support multiple layers (branches), aufs readdir operation
++constructs a virtual dir block on memory. For readdir, aufs calls
++vfs_readdir() internally for each dir on branches, merges their entries
++with eliminating the whiteout-ed ones, and sets it to file (dir)
++object. So the file object has its entry list until it is closed. The
++entry list will be updated when the file position is zero and becomes
++obsoleted. This decision is made in aufs automatically.
++
++The dynamically allocated memory block for the name of entries has a
++unit of 512 bytes (by default) and stores the names contiguously (no
++padding). Another block for each entry is handled by kmem_cache too.
++During building dir blocks, aufs creates hash list and judging whether
++the entry is whiteouted by its upper branch or already listed.
++The merged result is cached in the corresponding inode object and
++maintained by a customizable life-time option.
++
++Some people may call it can be a security hole or invite DoS attack
++since the opened and once readdir-ed dir (file object) holds its entry
++list and becomes a pressure for system memory. But I'd say it is similar
++to files under /proc or /sys. The virtual files in them also holds a
++memory page (generally) while they are opened. When an idea to reduce
++memory for them is introduced, it will be applied to aufs too.
++For those who really hate this situation, I've developed readdir(3)
++library which operates this merging in userspace. You just need to set
++LD_PRELOAD environment variable, and aufs will not consume no memory in
++kernel space for readdir(3).
++
++
++Workqueue
++----------------------------------------------------------------------
++Aufs sometimes requires privilege access to a branch. For instance,
++in copy-up/down operation. When a user process is going to make changes
++to a file which exists in the lower readonly branch only, and the mode
++of one of ancestor directories may not be writable by a user
++process. Here aufs copy-up the file with its ancestors and they may
++require privilege to set its owner/group/mode/etc.
++This is a typical case of a application character of aufs (see
++Introduction).
++
++Aufs uses workqueue synchronously for this case. It creates its own
++workqueue. The workqueue is a kernel thread and has privilege. Aufs
++passes the request to call mkdir or write (for example), and wait for
++its completion. This approach solves a problem of a signal handler
++simply.
++If aufs didn't adopt the workqueue and changed the privilege of the
++process, then the process may receive the unexpected SIGXFSZ or other
++signals.
++
++Also aufs uses the system global workqueue ("events" kernel thread) too
++for asynchronous tasks, such like handling inotify/fsnotify, re-creating a
++whiteout base and etc. This is unrelated to a privilege.
++Most of aufs operation tries acquiring a rw_semaphore for aufs
++superblock at the beginning, at the same time waits for the completion
++of all queued asynchronous tasks.
++
++
++Whiteout
++----------------------------------------------------------------------
++The whiteout in aufs is very similar to Unionfs's. That is represented
++by its filename. UnionMount takes an approach of a file mode, but I am
++afraid several utilities (find(1) or something) will have to support it.
++
++Basically the whiteout represents "logical deletion" which stops aufs to
++lookup further, but also it represents "dir is opaque" which also stop
++further lookup.
++
++In aufs, rmdir(2) and rename(2) for dir uses whiteout alternatively.
++In order to make several functions in a single systemcall to be
++revertible, aufs adopts an approach to rename a directory to a temporary
++unique whiteouted name.
++For example, in rename(2) dir where the target dir already existed, aufs
++renames the target dir to a temporary unique whiteouted name before the
++actual rename on a branch, and then handles other actions (make it opaque,
++update the attributes, etc). If an error happens in these actions, aufs
++simply renames the whiteouted name back and returns an error. If all are
++succeeded, aufs registers a function to remove the whiteouted unique
++temporary name completely and asynchronously to the system global
++workqueue.
++
++
++Copy-up
++----------------------------------------------------------------------
++It is a well-known feature or concept.
++When user modifies a file on a readonly branch, aufs operate "copy-up"
++internally and makes change to the new file on the upper writable branch.
++When the trigger systemcall does not update the timestamps of the parent
++dir, aufs reverts it after copy-up.
++
++
++Move-down (aufs3.9 and later)
++----------------------------------------------------------------------
++"Copy-up" is one of the essential feature in aufs. It copies a file from
++the lower readonly branch to the upper writable branch when a user
++changes something about the file.
++"Move-down" is an opposite action of copy-up. Basically this action is
++ran manually instead of automatically and internally.
++For desgin and implementation, aufs has to consider these issues.
++- whiteout for the file may exist on the lower branch.
++- ancestor directories may not exist on the lower branch.
++- diropq for the ancestor directories may exist on the upper branch.
++- free space on the lower branch will reduce.
++- another access to the file may happen during moving-down, including
++  UDBA (see "Revalidate Dentry and UDBA").
++- the file should not be hard-linked nor pseudo-linked. they should be
++  handled by auplink utility later.
++
++Sometimes users want to move-down a file from the upper writable branch
++to the lower readonly or writable branch. For instance,
++- the free space of the upper writable branch is going to run out.
++- create a new intermediate branch between the upper and lower branch.
++- etc.
++
++For this purpose, use "aumvdown" command in aufs-util.git.
+diff --git a/Documentation/filesystems/aufs/design/03atomic_open.txt b/Documentation/filesystems/aufs/design/03atomic_open.txt
+new file mode 100755
+index 0000000..5f0aca4
+--- /dev/null
++++ b/Documentation/filesystems/aufs/design/03atomic_open.txt
+@@ -0,0 +1,85 @@
++
++# Copyright (C) 2015-2017 Junjiro R. Okajima
++# 
++# This program is free software; you can redistribute it and/or modify
++# it under the terms of the GNU General Public License as published by
++# the Free Software Foundation; either version 2 of the License, or
++# (at your option) any later version.
++# 
++# This program is distributed in the hope that it will be useful,
++# but WITHOUT ANY WARRANTY; without even the implied warranty of
++# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++# GNU General Public License for more details.
++# 
++# You should have received a copy of the GNU General Public License
++# along with this program.  If not, see <http://www.gnu.org/licenses/>.
++
++Support for a branch who has its ->atomic_open()
++----------------------------------------------------------------------
++The filesystems who implement its ->atomic_open() are not majority. For
++example NFSv4 does, and aufs should call NFSv4 ->atomic_open,
++particularly for open(O_CREAT|O_EXCL, 0400) case. Other than
++->atomic_open(), NFSv4 returns an error for this open(2). While I am not
++sure whether all filesystems who have ->atomic_open() behave like this,
++but NFSv4 surely returns the error.
++
++In order to support ->atomic_open() for aufs, there are a few
++approaches.
++
++A. Introduce aufs_atomic_open()
++   - calls one of VFS:do_last(), lookup_open() or atomic_open() for
++     branch fs.
++B. Introduce aufs_atomic_open() calling create, open and chmod. this is
++   an aufs user Pip Cet's approach
++   - calls aufs_create(), VFS finish_open() and notify_change().
++   - pass fake-mode to finish_open(), and then correct the mode by
++     notify_change().
++C. Extend aufs_open() to call branch fs's ->atomic_open()
++   - no aufs_atomic_open().
++   - aufs_lookup() registers the TID to an aufs internal object.
++   - aufs_create() does nothing when the matching TID is registered, but
++     registers the mode.
++   - aufs_open() calls branch fs's ->atomic_open() when the matching
++     TID is registered.
++D. Extend aufs_open() to re-try branch fs's ->open() with superuser's
++   credential
++   - no aufs_atomic_open().
++   - aufs_create() registers the TID to an internal object. this info
++     represents "this process created this file just now."
++   - when aufs gets EACCES from branch fs's ->open(), then confirm the
++     registered TID and re-try open() with superuser's credential.
++
++Pros and cons for each approach.
++
++A.
++   - straightforward but highly depends upon VFS internal.
++   - the atomic behavaiour is kept.
++   - some of parameters such as nameidata are hard to reproduce for
++     branch fs.
++   - large overhead.
++B.
++   - easy to implement.
++   - the atomic behavaiour is lost.
++C.
++   - the atomic behavaiour is kept.
++   - dirty and tricky.
++   - VFS checks whether the file is created correctly after calling
++     ->create(), which means this approach doesn't work.
++D.
++   - easy to implement.
++   - the atomic behavaiour is lost.
++   - to open a file with superuser's credential and give it to a user
++     process is a bad idea, since the file object keeps the credential
++     in it. It may affect LSM or something. This approach doesn't work
++     either.
++
++The approach A is ideal, but it hard to implement. So here is a
++variation of A, which is to be implemented.
++
++A-1. Introduce aufs_atomic_open()
++     - calls branch fs ->atomic_open() if exists. otherwise calls
++       vfs_create() and finish_open().
++     - the demerit is that the several checks after branch fs
++       ->atomic_open() are lost. in the ordinary case, the checks are
++       done by VFS:do_last(), lookup_open() and atomic_open(). some can
++       be implemented in aufs, but not all I am afraid.
+diff --git a/Documentation/filesystems/aufs/design/03lookup.txt b/Documentation/filesystems/aufs/design/03lookup.txt
+new file mode 100755
+index 0000000..8b8ac6e
+--- /dev/null
++++ b/Documentation/filesystems/aufs/design/03lookup.txt
+@@ -0,0 +1,113 @@
++
++# Copyright (C) 2005-2017 Junjiro R. Okajima
++# 
++# This program is free software; you can redistribute it and/or modify
++# it under the terms of the GNU General Public License as published by
++# the Free Software Foundation; either version 2 of the License, or
++# (at your option) any later version.
++# 
++# This program is distributed in the hope that it will be useful,
++# but WITHOUT ANY WARRANTY; without even the implied warranty of
++# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++# GNU General Public License for more details.
++# 
++# You should have received a copy of the GNU General Public License
++# along with this program.  If not, see <http://www.gnu.org/licenses/>.
++
++Lookup in a Branch
++----------------------------------------------------------------------
++Since aufs has a character of sub-VFS (see Introduction), it operates
++lookup for branches as VFS does. It may be a heavy work. But almost all
++lookup operation in aufs is the simplest case, ie. lookup only an entry
++directly connected to its parent. Digging down the directory hierarchy
++is unnecessary. VFS has a function lookup_one_len() for that use, and
++aufs calls it.
++
++When a branch is a remote filesystem, aufs basically relies upon its
++->d_revalidate(), also aufs forces the hardest revalidate tests for
++them.
++For d_revalidate, aufs implements three levels of revalidate tests. See
++"Revalidate Dentry and UDBA" in detail.
++
++
++Test Only the Highest One for the Directory Permission (dirperm1 option)
++----------------------------------------------------------------------
++Let's try case study.
++- aufs has two branches, upper readwrite and lower readonly.
++  /au = /rw + /ro
++- "dirA" exists under /ro, but /rw. and its mode is 0700.
++- user invoked "chmod a+rx /au/dirA"
++- the internal copy-up is activated and "/rw/dirA" is created and its
++  permission bits are set to world readable.
++- then "/au/dirA" becomes world readable?
++
++In this case, /ro/dirA is still 0700 since it exists in readonly branch,
++or it may be a natively readonly filesystem. If aufs respects the lower
++branch, it should not respond readdir request from other users. But user
++allowed it by chmod. Should really aufs rejects showing the entries
++under /ro/dirA?
++
++To be honest, I don't have a good solution for this case. So aufs
++implements 'dirperm1' and 'nodirperm1' mount options, and leave it to
++users.
++When dirperm1 is specified, aufs checks only the highest one for the
++directory permission, and shows the entries. Otherwise, as usual, checks
++every dir existing on all branches and rejects the request.
++
++As a side effect, dirperm1 option improves the performance of aufs
++because the number of permission check is reduced when the number of
++branch is many.
++
++
++Revalidate Dentry and UDBA (User's Direct Branch Access)
++----------------------------------------------------------------------
++Generally VFS helpers re-validate a dentry as a part of lookup.
++0. digging down the directory hierarchy.
++1. lock the parent dir by its i_mutex.
++2. lookup the final (child) entry.
++3. revalidate it.
++4. call the actual operation (create, unlink, etc.)
++5. unlock the parent dir
++
++If the filesystem implements its ->d_revalidate() (step 3), then it is
++called. Actually aufs implements it and checks the dentry on a branch is
++still valid.
++But it is not enough. Because aufs has to release the lock for the
++parent dir on a branch at the end of ->lookup() (step 2) and
++->d_revalidate() (step 3) while the i_mutex of the aufs dir is still
++held by VFS.
++If the file on a branch is changed directly, eg. bypassing aufs, after
++aufs released the lock, then the subsequent operation may cause
++something unpleasant result.
++
++This situation is a result of VFS architecture, ->lookup() and
++->d_revalidate() is separated. But I never say it is wrong. It is a good
++design from VFS's point of view. It is just not suitable for sub-VFS
++character in aufs.
++
++Aufs supports such case by three level of revalidation which is
++selectable by user.
++1. Simple Revalidate
++   Addition to the native flow in VFS's, confirm the child-parent
++   relationship on the branch just after locking the parent dir on the
++   branch in the "actual operation" (step 4). When this validation
++   fails, aufs returns EBUSY. ->d_revalidate() (step 3) in aufs still
++   checks the validation of the dentry on branches.
++2. Monitor Changes Internally by Inotify/Fsnotify
++   Addition to above, in the "actual operation" (step 4) aufs re-lookup
++   the dentry on the branch, and returns EBUSY if it finds different
++   dentry.
++   Additionally, aufs sets the inotify/fsnotify watch for every dir on branches
++   during it is in cache. When the event is notified, aufs registers a
++   function to kernel 'events' thread by schedule_work(). And the
++   function sets some special status to the cached aufs dentry and inode
++   private data. If they are not cached, then aufs has nothing to
++   do. When the same file is accessed through aufs (step 0-3) later,
++   aufs will detect the status and refresh all necessary data.
++   In this mode, aufs has to ignore the event which is fired by aufs
++   itself.
++3. No Extra Validation
++   This is the simplest test and doesn't add any additional revalidation
++   test, and skip the revalidation in step 4. It is useful and improves
++   aufs performance when system surely hide the aufs branches from user,
++   by over-mounting something (or another method).
+diff --git a/Documentation/filesystems/aufs/design/04branch.txt b/Documentation/filesystems/aufs/design/04branch.txt
+new file mode 100755
+index 0000000..5604ff8
+--- /dev/null
++++ b/Documentation/filesystems/aufs/design/04branch.txt
+@@ -0,0 +1,74 @@
++
++# Copyright (C) 2005-2017 Junjiro R. Okajima
++# 
++# This program is free software; you can redistribute it and/or modify
++# it under the terms of the GNU General Public License as published by
++# the Free Software Foundation; either version 2 of the License, or
++# (at your option) any later version.
++# 
++# This program is distributed in the hope that it will be useful,
++# but WITHOUT ANY WARRANTY; without even the implied warranty of
++# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++# GNU General Public License for more details.
++# 
++# You should have received a copy of the GNU General Public License
++# along with this program.  If not, see <http://www.gnu.org/licenses/>.
++
++Branch Manipulation
++
++Since aufs supports dynamic branch manipulation, ie. add/remove a branch
++and changing its permission/attribute, there are a lot of works to do.
++
++
++Add a Branch
++----------------------------------------------------------------------
++o Confirm the adding dir exists outside of aufs, including loopback
++  mount, and its various attributes.
++o Initialize the xino file and whiteout bases if necessary.
++  See struct.txt.
++
++o Check the owner/group/mode of the directory
++  When the owner/group/mode of the adding directory differs from the
++  existing branch, aufs issues a warning because it may impose a
++  security risk.
++  For example, when a upper writable branch has a world writable empty
++  top directory, a malicious user can create any files on the writable
++  branch directly, like copy-up and modify manually. If something like
++  /etc/{passwd,shadow} exists on the lower readonly branch but the upper
++  writable branch, and the writable branch is world-writable, then a
++  malicious guy may create /etc/passwd on the writable branch directly
++  and the infected file will be valid in aufs.
++  I am afraid it can be a security issue, but aufs can do nothing except
++  producing a warning.
++
++
++Delete a Branch
++----------------------------------------------------------------------
++o Confirm the deleting branch is not busy
++  To be general, there is one merit to adopt "remount" interface to
++  manipulate branches. It is to discard caches. At deleting a branch,
++  aufs checks the still cached (and connected) dentries and inodes. If
++  there are any, then they are all in-use. An inode without its
++  corresponding dentry can be alive alone (for example, inotify/fsnotify case).
++
++  For the cached one, aufs checks whether the same named entry exists on
++  other branches.
++  If the cached one is a directory, because aufs provides a merged view
++  to users, as long as one dir is left on any branch aufs can show the
++  dir to users. In this case, the branch can be removed from aufs.
++  Otherwise aufs rejects deleting the branch.
++
++  If any file on the deleting branch is opened by aufs, then aufs
++  rejects deleting.
++
++
++Modify the Permission of a Branch
++----------------------------------------------------------------------
++o Re-initialize or remove the xino file and whiteout bases if necessary.
++  See struct.txt.
++
++o rw --> ro: Confirm the modifying branch is not busy
++  Aufs rejects the request if any of these conditions are true.
++  - a file on the branch is mmap-ed.
++  - a regular file on the branch is opened for write and there is no
++    same named entry on the upper branch.
+diff --git a/Documentation/filesystems/aufs/design/05wbr_policy.txt b/Documentation/filesystems/aufs/design/05wbr_policy.txt
+new file mode 100755
+index 0000000..1578469
+--- /dev/null
++++ b/Documentation/filesystems/aufs/design/05wbr_policy.txt
+@@ -0,0 +1,64 @@
++
++# Copyright (C) 2005-2017 Junjiro R. Okajima
++# 
++# This program is free software; you can redistribute it and/or modify
++# it under the terms of the GNU General Public License as published by
++# the Free Software Foundation; either version 2 of the License, or
++# (at your option) any later version.
++# 
++# This program is distributed in the hope that it will be useful,
++# but WITHOUT ANY WARRANTY; without even the implied warranty of
++# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++# GNU General Public License for more details.
++# 
++# You should have received a copy of the GNU General Public License
++# along with this program.  If not, see <http://www.gnu.org/licenses/>.
++
++Policies to Select One among Multiple Writable Branches
++----------------------------------------------------------------------
++When the number of writable branch is more than one, aufs has to decide
++the target branch for file creation or copy-up. By default, the highest
++writable branch which has the parent (or ancestor) dir of the target
++file is chosen (top-down-parent policy).
++By user's request, aufs implements some other policies to select the
++writable branch, for file creation several policies, round-robin,
++most-free-space, and other policies. For copy-up, top-down-parent,
++bottom-up-parent, bottom-up and others.
++
++As expected, the round-robin policy selects the branch in circular. When
++you have two writable branches and creates 10 new files, 5 files will be
++created for each branch. mkdir(2) systemcall is an exception. When you
++create 10 new directories, all will be created on the same branch.
++And the most-free-space policy selects the one which has most free
++space among the writable branches. The amount of free space will be
++checked by aufs internally, and users can specify its time interval.
++
++The policies for copy-up is more simple,
++top-down-parent is equivalent to the same named on in create policy,
++bottom-up-parent selects the writable branch where the parent dir
++exists and the nearest upper one from the copyup-source,
++bottom-up selects the nearest upper writable branch from the
++copyup-source, regardless the existence of the parent dir.
++
++There are some rules or exceptions to apply these policies.
++- If there is a readonly branch above the policy-selected branch and
++  the parent dir is marked as opaque (a variation of whiteout), or the
++  target (creating) file is whiteout-ed on the upper readonly branch,
++  then the result of the policy is ignored and the target file will be
++  created on the nearest upper writable branch than the readonly branch.
++- If there is a writable branch above the policy-selected branch and
++  the parent dir is marked as opaque or the target file is whiteouted
++  on the branch, then the result of the policy is ignored and the target
++  file will be created on the highest one among the upper writable
++  branches who has diropq or whiteout. In case of whiteout, aufs removes
++  it as usual.
++- link(2) and rename(2) systemcalls are exceptions in every policy.
++  They try selecting the branch where the source exists as possible
++  since copyup a large file will take long time. If it can't be,
++  ie. the branch where the source exists is readonly, then they will
++  follow the copyup policy.
++- There is an exception for rename(2) when the target exists.
++  If the rename target exists, aufs compares the index of the branches
++  where the source and the target exists and selects the higher
++  one. If the selected branch is readonly, then aufs follows the
++  copyup policy.
+diff --git a/Documentation/filesystems/aufs/design/06fhsm.txt b/Documentation/filesystems/aufs/design/06fhsm.txt
+new file mode 100755
+index 0000000..9216478
+--- /dev/null
++++ b/Documentation/filesystems/aufs/design/06fhsm.txt
+@@ -0,0 +1,120 @@
++
++# Copyright (C) 2011-2017 Junjiro R. Okajima
++# 
++# This program is free software; you can redistribute it and/or modify
++# it under the terms of the GNU General Public License as published by
++# the Free Software Foundation; either version 2 of the License, or
++# (at your option) any later version.
++# 
++# This program is distributed in the hope that it will be useful,
++# but WITHOUT ANY WARRANTY; without even the implied warranty of
++# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++# GNU General Public License for more details.
++# 
++# You should have received a copy of the GNU General Public License
++# along with this program; if not, write to the Free Software
++# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
++
++
++File-based Hierarchical Storage Management (FHSM)
++----------------------------------------------------------------------
++Hierarchical Storage Management (or HSM) is a well-known feature in the
++storage world. Aufs provides this feature as file-based with multiple
++writable branches, based upon the principle of "Colder, the Lower".
++Here the word "colder" means that the less used files, and "lower" means
++that the position in the order of the stacked branches vertically.
++These multiple writable branches are prioritized, ie. the topmost one
++should be the fastest drive and be used heavily.
++
++o Characters in aufs FHSM story
++- aufs itself and a new branch attribute.
++- a new ioctl interface to move-down and to establish a connection with
++  the daemon ("move-down" is a converse of "copy-up").
++- userspace tool and daemon.
++
++The userspace daemon establishes a connection with aufs and waits for
++the notification. The notified information is very similar to struct
++statfs containing the number of consumed blocks and inodes.
++When the consumed blocks/inodes of a branch exceeds the user-specified
++upper watermark, the daemon activates its move-down process until the
++consumed blocks/inodes reaches the user-specified lower watermark.
++
++The actual move-down is done by aufs based upon the request from
++user-space since we need to maintain the inode number and the internal
++pointer arrays in aufs.
++
++Currently aufs FHSM handles the regular files only. Additionally they
++must not be hard-linked nor pseudo-linked.
++
++
++o Cowork of aufs and the user-space daemon
++  During the userspace daemon established the connection, aufs sends a
++  small notification to it whenever aufs writes something into the
++  writable branch. But it may cost high since aufs issues statfs(2)
++  internally. So user can specify a new option to cache the
++  info. Actually the notification is controlled by these factors.
++  + the specified cache time.
++  + classified as "force" by aufs internally.
++  Until the specified time expires, aufs doesn't send the info
++  except the forced cases. When aufs decide forcing, the info is always
++  notified to userspace.
++  For example, the number of free inodes is generally large enough and
++  the shortage of it happens rarely. So aufs doesn't force the
++  notification when creating a new file, directory and others. This is
++  the typical case which aufs doesn't force.
++  When aufs writes the actual filedata and the files consumes any of new
++  blocks, the aufs forces notifying.
++
++
++o Interfaces in aufs
++- New branch attribute.
++  + fhsm
++    Specifies that the branch is managed by FHSM feature. In other word,
++    participant in the FHSM.
++    When nofhsm is set to the branch, it will not be the source/target
++    branch of the move-down operation. This attribute is set
++    independently from coo and moo attributes, and if you want full
++    FHSM, you should specify them as well.
++- New mount option.
++  + fhsm_sec
++    Specifies a second to suppress many less important info to be
++    notified.
++- New ioctl.
++  + AUFS_CTL_FHSM_FD
++    create a new file descriptor which userspace can read the notification
++    (a subset of struct statfs) from aufs.
++- Module parameter 'brs'
++  It has to be set to 1. Otherwise the new mount option 'fhsm' will not
++  be set.
++- mount helpers /sbin/mount.aufs and /sbin/umount.aufs
++  When there are two or more branches with fhsm attributes,
++  /sbin/mount.aufs invokes the user-space daemon and /sbin/umount.aufs
++  terminates it. As a result of remounting and branch-manipulation, the
++  number of branches with fhsm attribute can be one. In this case,
++  /sbin/mount.aufs will terminate the user-space daemon.
++
++
++Finally the operation is done as these steps in kernel-space.
++- make sure that,
++  + no one else is using the file.
++  + the file is not hard-linked.
++  + the file is not pseudo-linked.
++  + the file is a regular file.
++  + the parent dir is not opaqued.
++- find the target writable branch.
++- make sure the file is not whiteout-ed by the upper (than the target)
++  branch.
++- make the parent dir on the target branch.
++- mutex lock the inode on the branch.
++- unlink the whiteout on the target branch (if exists).
++- lookup and create the whiteout-ed temporary name on the target branch.
++- copy the file as the whiteout-ed temporary name on the target branch.
++- rename the whiteout-ed temporary name to the original name.
++- unlink the file on the source branch.
++- maintain the internal pointer array and the external inode number
++  table (XINO).
++- maintain the timestamps and other attributes of the parent dir and the
++  file.
++
++And of course, in every step, an error may happen. So the operation
++should restore the original file state after an error happens.
+diff --git a/Documentation/filesystems/aufs/design/06mmap.txt b/Documentation/filesystems/aufs/design/06mmap.txt
+new file mode 100755
+index 0000000..8fe4b6c
+--- /dev/null
++++ b/Documentation/filesystems/aufs/design/06mmap.txt
+@@ -0,0 +1,72 @@
++
++# Copyright (C) 2005-2017 Junjiro R. Okajima
++# 
++# This program is free software; you can redistribute it and/or modify
++# it under the terms of the GNU General Public License as published by
++# the Free Software Foundation; either version 2 of the License, or
++# (at your option) any later version.
++# 
++# This program is distributed in the hope that it will be useful,
++# but WITHOUT ANY WARRANTY; without even the implied warranty of
++# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++# GNU General Public License for more details.
++# 
++# You should have received a copy of the GNU General Public License
++# along with this program.  If not, see <http://www.gnu.org/licenses/>.
++
++mmap(2) -- File Memory Mapping
++----------------------------------------------------------------------
++In aufs, the file-mapped pages are handled by a branch fs directly, no
++interaction with aufs. It means aufs_mmap() calls the branch fs's
++->mmap().
++This approach is simple and good, but there is one problem.
++Under /proc, several entries show the mmapped files by its path (with
++device and inode number), and the printed path will be the path on the
++branch fs's instead of virtual aufs's.
++This is not a problem in most cases, but some utilities lsof(1) (and its
++user) may expect the path on aufs.
++
++To address this issue, aufs adds a new member called vm_prfile in struct
++vm_area_struct (and struct vm_region). The original vm_file points to
++the file on the branch fs in order to handle everything correctly as
++usual. The new vm_prfile points to a virtual file in aufs, and the
++show-functions in procfs refers to vm_prfile if it is set.
++Also we need to maintain several other places where touching vm_file
++such like
++- fork()/clone() copies vma and the reference count of vm_file is
++  incremented.
++- merging vma maintains the ref count too.
++
++This is not a good approach. It just fakes the printed path. But it
++leaves all behaviour around f_mapping unchanged. This is surely an
++advantage.
++Actually aufs had adopted another complicated approach which calls
++generic_file_mmap() and handles struct vm_operations_struct. In this
++approach, aufs met a hard problem and I could not solve it without
++switching the approach.
++
++There may be one more another approach which is
++- bind-mount the branch-root onto the aufs-root internally
++- grab the new vfsmount (ie. struct mount)
++- lazy-umount the branch-root internally
++- in open(2) the aufs-file, open the branch-file with the hidden
++  vfsmount (instead of the original branch's vfsmount)
++- ideally this "bind-mount and lazy-umount" should be done atomically,
++  but it may be possible from userspace by the mount helper.
++
++Adding the internal hidden vfsmount and using it in opening a file, the
++file path under /proc will be printed correctly. This approach looks
++smarter, but is not possible I am afraid.
++- aufs-root may be bind-mount later. when it happens, another hidden
++  vfsmount will be required.
++- it is hard to get the chance to bind-mount and lazy-umount
++  + in kernel-space, FS can have vfsmount in open(2) via
++    file->f_path, and aufs can know its vfsmount. But several locks are
++    already acquired, and if aufs tries to bind-mount and lazy-umount
++    here, then it may cause a deadlock.
++  + in user-space, bind-mount doesn't invoke the mount helper.
++- since /proc shows dev and ino, aufs has to give vma these info. it
++  means a new member vm_prinode will be necessary. this is essentially
++  equivalent to vm_prfile described above.
++
++I have to give up this "looks-smater" approach.
+diff --git a/Documentation/filesystems/aufs/design/06xattr.txt b/Documentation/filesystems/aufs/design/06xattr.txt
+new file mode 100755
+index 0000000..37cdb4e
+--- /dev/null
++++ b/Documentation/filesystems/aufs/design/06xattr.txt
+@@ -0,0 +1,96 @@
++
++# Copyright (C) 2014-2017 Junjiro R. Okajima
++#
++# This program is free software; you can redistribute it and/or modify
++# it under the terms of the GNU General Public License as published by
++# the Free Software Foundation; either version 2 of the License, or
++# (at your option) any later version.
++#
++# This program is distributed in the hope that it will be useful,
++# but WITHOUT ANY WARRANTY; without even the implied warranty of
++# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++# GNU General Public License for more details.
++#
++# You should have received a copy of the GNU General Public License
++# along with this program; if not, write to the Free Software
++# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
++
++
++Listing XATTR/EA and getting the value
++----------------------------------------------------------------------
++For the inode standard attributes (owner, group, timestamps, etc.), aufs
++shows the values from the topmost existing file. This behaviour is good
++for the non-dir entries since the bahaviour exactly matches the shown
++information. But for the directories, aufs considers all the same named
++entries on the lower branches. Which means, if one of the lower entry
++rejects readdir call, then aufs returns an error even if the topmost
++entry allows it. This behaviour is necessary to respect the branch fs's
++security, but can make users confused since the user-visible standard
++attributes don't match the behaviour.
++To address this issue, aufs has a mount option called dirperm1 which
++checks the permission for the topmost entry only, and ignores the lower
++entry's permission.
++
++A similar issue can happen around XATTR.
++getxattr(2) and listxattr(2) families behave as if dirperm1 option is
++always set. Otherwise these very unpleasant situation would happen.
++- listxattr(2) may return the duplicated entries.
++- users may not be able to remove or reset the XATTR forever,
++
++
++XATTR/EA support in the internal (copy,move)-(up,down)
++----------------------------------------------------------------------
++Generally the extended attributes of inode are categorized as these.
++- "security" for LSM and capability.
++- "system" for posix ACL, 'acl' mount option is required for the branch
++  fs generally.
++- "trusted" for userspace, CAP_SYS_ADMIN is required.
++- "user" for userspace, 'user_xattr' mount option is required for the
++  branch fs generally.
++
++Moreover there are some other categories. Aufs handles these rather
++unpopular categories as the ordinary ones, ie. there is no special
++condition nor exception.
++
++In copy-up, the support for XATTR on the dst branch may differ from the
++src branch. In this case, the copy-up operation will get an error and
++the original user operation which triggered the copy-up will fail. It
++can happen that even all copy-up will fail.
++When both of src and dst branches support XATTR and if an error occurs
++during copying XATTR, then the copy-up should fail obviously. That is a
++good reason and aufs should return an error to userspace. But when only
++the src branch support that XATTR, aufs should not return an error.
++For example, the src branch supports ACL but the dst branch doesn't
++because the dst branch may natively un-support it or temporary
++un-support it due to "noacl" mount option. Of course, the dst branch fs
++may NOT return an error even if the XATTR is not supported. It is
++totally up to the branch fs.
++
++Anyway when the aufs internal copy-up gets an error from the dst branch
++fs, then aufs tries removing the just copied entry and returns the error
++to the userspace. The worst case of this situation will be all copy-up
++will fail.
++
++For the copy-up operation, there two basic approaches.
++- copy the specified XATTR only (by category above), and return the
++  error unconditionally if it happens.
++- copy all XATTR, and ignore the error on the specified category only.
++
++In order to support XATTR and to implement the correct behaviour, aufs
++chooses the latter approach and introduces some new branch attributes,
++"icexsec", "icexsys", "icextr", "icexusr", and "icexoth".
++They correspond to the XATTR namespaces (see above). Additionally, to be
++convenient, "icex" is also provided which means all "icex*" attributes
++are set (here the word "icex" stands for "ignore copy-error on XATTR").
++
++The meaning of these attributes is to ignore the error from setting
++XATTR on that branch.
++Note that aufs tries copying all XATTR unconditionally, and ignores the
++error from the dst branch according to the specified attributes.
++
++Some XATTR may have its default value. The default value may come from
++the parent dir or the environment. If the default value is set at the
++file creating-time, it will be overwritten by copy-up.
++Some contradiction may happen I am afraid.
++Do we need another attribute to stop copying XATTR? I am unsure. For
++now, aufs implements the branch attributes to ignore the error.
+diff --git a/Documentation/filesystems/aufs/design/07export.txt b/Documentation/filesystems/aufs/design/07export.txt
+new file mode 100755
+index 0000000..cd4ee6b
+--- /dev/null
++++ b/Documentation/filesystems/aufs/design/07export.txt
+@@ -0,0 +1,58 @@
++
++# Copyright (C) 2005-2017 Junjiro R. Okajima
++# 
++# This program is free software; you can redistribute it and/or modify
++# it under the terms of the GNU General Public License as published by
++# the Free Software Foundation; either version 2 of the License, or
++# (at your option) any later version.
++# 
++# This program is distributed in the hope that it will be useful,
++# but WITHOUT ANY WARRANTY; without even the implied warranty of
++# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++# GNU General Public License for more details.
++# 
++# You should have received a copy of the GNU General Public License
++# along with this program.  If not, see <http://www.gnu.org/licenses/>.
++
++Export Aufs via NFS
++----------------------------------------------------------------------
++Here is an approach.
++- like xino/xib, add a new file 'xigen' which stores aufs inode
++  generation.
++- iget_locked(): initialize aufs inode generation for a new inode, and
++  store it in xigen file.
++- destroy_inode(): increment aufs inode generation and store it in xigen
++  file. it is necessary even if it is not unlinked, because any data of
++  inode may be changed by UDBA.
++- encode_fh(): for a root dir, simply return FILEID_ROOT. otherwise
++  build file handle by
++  + branch id (4 bytes)
++  + superblock generation (4 bytes)
++  + inode number (4 or 8 bytes)
++  + parent dir inode number (4 or 8 bytes)
++  + inode generation (4 bytes))
++  + return value of exportfs_encode_fh() for the parent on a branch (4
++    bytes)
++  + file handle for a branch (by exportfs_encode_fh())
++- fh_to_dentry():
++  + find the index of a branch from its id in handle, and check it is
++    still exist in aufs.
++  + 1st level: get the inode number from handle and search it in cache.
++  + 2nd level: if not found in cache, get the parent inode number from
++    the handle and search it in cache. and then open the found parent
++    dir, find the matching inode number by vfs_readdir() and get its
++    name, and call lookup_one_len() for the target dentry.
++  + 3rd level: if the parent dir is not cached, call
++    exportfs_decode_fh() for a branch and get the parent on a branch,
++    build a pathname of it, convert it a pathname in aufs, call
++    path_lookup(). now aufs gets a parent dir dentry, then handle it as
++    the 2nd level.
++  + to open the dir, aufs needs struct vfsmount. aufs keeps vfsmount
++    for every branch, but not itself. to get this, (currently) aufs
++    searches in current->nsproxy->mnt_ns list. it may not be a good
++    idea, but I didn't get other approach.
++  + test the generation of the gotten inode.
++- every inode operation: they may get EBUSY due to UDBA. in this case,
++  convert it into ESTALE for NFSD.
++- readdir(): call lockdep_on/off() because filldir in NFSD calls
++  lookup_one_len(), vfs_getattr(), encode_fh() and others.
+diff --git a/Documentation/filesystems/aufs/design/08shwh.txt b/Documentation/filesystems/aufs/design/08shwh.txt
+new file mode 100755
+index 0000000..7e07e26
+--- /dev/null
++++ b/Documentation/filesystems/aufs/design/08shwh.txt
+@@ -0,0 +1,52 @@
++
++# Copyright (C) 2005-2017 Junjiro R. Okajima
++# 
++# This program is free software; you can redistribute it and/or modify
++# it under the terms of the GNU General Public License as published by
++# the Free Software Foundation; either version 2 of the License, or
++# (at your option) any later version.
++# 
++# This program is distributed in the hope that it will be useful,
++# but WITHOUT ANY WARRANTY; without even the implied warranty of
++# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++# GNU General Public License for more details.
++# 
++# You should have received a copy of the GNU General Public License
++# along with this program.  If not, see <http://www.gnu.org/licenses/>.
++
++Show Whiteout Mode (shwh)
++----------------------------------------------------------------------
++Generally aufs hides the name of whiteouts. But in some cases, to show
++them is very useful for users. For instance, creating a new middle layer
++(branch) by merging existing layers.
++
++(borrowing aufs1 HOW-TO from a user, Michael Towers)
++When you have three branches,
++- Bottom: 'system', squashfs (underlying base system), read-only
++- Middle: 'mods', squashfs, read-only
++- Top: 'overlay', ram (tmpfs), read-write
++
++The top layer is loaded at boot time and saved at shutdown, to preserve
++the changes made to the system during the session.
++When larger changes have been made, or smaller changes have accumulated,
++the size of the saved top layer data grows. At this point, it would be
++nice to be able to merge the two overlay branches ('mods' and 'overlay')
++and rewrite the 'mods' squashfs, clearing the top layer and thus
++restoring save and load speed.
++
++This merging is simplified by the use of another aufs mount, of just the
++two overlay branches using the 'shwh' option.
++# mount -t aufs -o ro,shwh,br:/livesys/overlay=ro+wh:/livesys/mods=rr+wh \
++	aufs /livesys/merge_union
++
++A merged view of these two branches is then available at
++/livesys/merge_union, and the new feature is that the whiteouts are
++visible!
++Note that in 'shwh' mode the aufs mount must be 'ro', which will disable
++writing to all branches. Also the default mode for all branches is 'ro'.
++It is now possible to save the combined contents of the two overlay
++branches to a new squashfs, e.g.:
++# mksquashfs /livesys/merge_union /path/to/newmods.squash
++
++This new squashfs archive can be stored on the boot device and the
++initramfs will use it to replace the old one at the next boot.
+diff --git a/Documentation/filesystems/aufs/design/10dynop.txt b/Documentation/filesystems/aufs/design/10dynop.txt
+new file mode 100755
+index 0000000..b7ba75d
+--- /dev/null
++++ b/Documentation/filesystems/aufs/design/10dynop.txt
+@@ -0,0 +1,47 @@
++
++# Copyright (C) 2010-2017 Junjiro R. Okajima
++#
++# This program is free software; you can redistribute it and/or modify
++# it under the terms of the GNU General Public License as published by
++# the Free Software Foundation; either version 2 of the License, or
++# (at your option) any later version.
++#
++# This program is distributed in the hope that it will be useful,
++# but WITHOUT ANY WARRANTY; without even the implied warranty of
++# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++# GNU General Public License for more details.
++#
++# You should have received a copy of the GNU General Public License
++# along with this program.  If not, see <http://www.gnu.org/licenses/>.
++
++Dynamically customizable FS operations
++----------------------------------------------------------------------
++Generally FS operations (struct inode_operations, struct
++address_space_operations, struct file_operations, etc.) are defined as
++"static const", but it never means that FS have only one set of
++operation. Some FS have multiple sets of them. For instance, ext2 has
++three sets, one for XIP, for NOBH, and for normal.
++Since aufs overrides and redirects these operations, sometimes aufs has
++to change its behaviour according to the branch FS type. More importantly
++VFS acts differently if a function (member in the struct) is set or
++not. It means aufs should have several sets of operations and select one
++among them according to the branch FS definition.
++
++In order to solve this problem and not to affect the behaviour of VFS,
++aufs defines these operations dynamically. For instance, aufs defines
++dummy direct_IO function for struct address_space_operations, but it may
++not be set to the address_space_operations actually. When the branch FS
++doesn't have it, aufs doesn't set it to its address_space_operations
++while the function definition itself is still alive. So the behaviour
++itself will not change, and it will return an error when direct_IO is
++not set.
++
++The lifetime of these dynamically generated operation object is
++maintained by aufs branch object. When the branch is removed from aufs,
++the reference counter of the object is decremented. When it reaches
++zero, the dynamically generated operation object will be freed.
++
++This approach is designed to support AIO (io_submit), Direct I/O and
++XIP (DAX) mainly.
++Currently this approach is applied to address_space_operations for
++regular files only.
+diff --git a/MAINTAINERS b/MAINTAINERS
+index 767e9d2..2dd7fa4 100644
+--- a/MAINTAINERS
++++ b/MAINTAINERS
+@@ -2348,6 +2348,19 @@ F:	include/linux/audit.h
+ F:	include/uapi/linux/audit.h
+ F:	kernel/audit*
+ 
++AUFS (advanced multi layered unification filesystem) FILESYSTEM
++M:	"J. R. Okajima" <hooanon05g@gmail.com>
++L:	linux-unionfs@vger.kernel.org
++L:	aufs-users@lists.sourceforge.net (members only)
++W:	http://aufs.sourceforge.net
++T:	git://github.com/sfjro/aufs4-linux.git
++S:	Supported
++F:	Documentation/filesystems/aufs/
++F:	Documentation/ABI/testing/debugfs-aufs
++F:	Documentation/ABI/testing/sysfs-aufs
++F:	fs/aufs/
++F:	include/uapi/linux/aufs_type.h
++
+ AUXILIARY DISPLAY DRIVERS
+ M:	Miguel Ojeda Sandonis <miguel.ojeda.sandonis@gmail.com>
+ W:	http://miguelojeda.es/auxdisplay.htm
+diff --git a/drivers/block/loop.c b/drivers/block/loop.c
+index ebbd0c3..6b8a6a4 100644
+--- a/drivers/block/loop.c
++++ b/drivers/block/loop.c
+@@ -700,6 +700,24 @@ static inline int is_loop_device(struct file *file)
+ 	return i && S_ISBLK(i->i_mode) && MAJOR(i->i_rdev) == LOOP_MAJOR;
+ }
+ 
++/*
++ * for AUFS
++ * no get/put for file.
++ */
++struct file *loop_backing_file(struct super_block *sb)
++{
++	struct file *ret;
++	struct loop_device *l;
++
++	ret = NULL;
++	if (MAJOR(sb->s_dev) == LOOP_MAJOR) {
++		l = sb->s_bdev->bd_disk->private_data;
++		ret = l->lo_backing_file;
++	}
++	return ret;
++}
++EXPORT_SYMBOL_GPL(loop_backing_file);
++
+ /* loop sysfs attributes */
+ 
+ static ssize_t loop_attr_show(struct device *dev, char *page,
+diff --git a/fs/Kconfig b/fs/Kconfig
+index b0e42b6..7fa4b68 100644
+--- a/fs/Kconfig
++++ b/fs/Kconfig
+@@ -249,6 +249,7 @@ source "fs/pstore/Kconfig"
+ source "fs/sysv/Kconfig"
+ source "fs/ufs/Kconfig"
+ source "fs/exofs/Kconfig"
++source "fs/aufs/Kconfig"
+ 
+ endif # MISC_FILESYSTEMS
+ 
+diff --git a/fs/Makefile b/fs/Makefile
+index 7bbaca9..a026491 100644
+--- a/fs/Makefile
++++ b/fs/Makefile
+@@ -128,3 +128,4 @@ obj-y				+= exofs/ # Multiple modules
+ obj-$(CONFIG_CEPH_FS)		+= ceph/
+ obj-$(CONFIG_PSTORE)		+= pstore/
+ obj-$(CONFIG_EFIVAR_FS)		+= efivarfs/
++obj-$(CONFIG_AUFS_FS)           += aufs/
+diff --git a/fs/aufs/Kconfig b/fs/aufs/Kconfig
+new file mode 100755
+index 0000000..63560ce
+--- /dev/null
++++ b/fs/aufs/Kconfig
+@@ -0,0 +1,185 @@
++config AUFS_FS
++	tristate "Aufs (Advanced multi layered unification filesystem) support"
++	help
++	Aufs is a stackable unification filesystem such as Unionfs,
++	which unifies several directories and provides a merged single
++	directory.
++	In the early days, aufs was entirely re-designed and
++	re-implemented Unionfs Version 1.x series. Introducing many
++	original ideas, approaches and improvements, it becomes totally
++	different from Unionfs while keeping the basic features.
++
++if AUFS_FS
++choice
++	prompt "Maximum number of branches"
++	default AUFS_BRANCH_MAX_127
++	help
++	Specifies the maximum number of branches (or member directories)
++	in a single aufs. The larger value consumes more system
++	resources and has a minor impact to performance.
++config AUFS_BRANCH_MAX_127
++	bool "127"
++	help
++	Specifies the maximum number of branches (or member directories)
++	in a single aufs. The larger value consumes more system
++	resources and has a minor impact to performance.
++config AUFS_BRANCH_MAX_511
++	bool "511"
++	help
++	Specifies the maximum number of branches (or member directories)
++	in a single aufs. The larger value consumes more system
++	resources and has a minor impact to performance.
++config AUFS_BRANCH_MAX_1023
++	bool "1023"
++	help
++	Specifies the maximum number of branches (or member directories)
++	in a single aufs. The larger value consumes more system
++	resources and has a minor impact to performance.
++config AUFS_BRANCH_MAX_32767
++	bool "32767"
++	help
++	Specifies the maximum number of branches (or member directories)
++	in a single aufs. The larger value consumes more system
++	resources and has a minor impact to performance.
++endchoice
++
++config AUFS_SBILIST
++	bool
++	depends on AUFS_MAGIC_SYSRQ || PROC_FS
++	default y
++	help
++	Automatic configuration for internal use.
++	When aufs supports Magic SysRq or /proc, enabled automatically.
++
++config AUFS_HNOTIFY
++	bool "Detect direct branch access (bypassing aufs)"
++	help
++	If you want to modify files on branches directly, eg. bypassing aufs,
++	and want aufs to detect the changes of them fully, then enable this
++	option and use 'udba=notify' mount option.
++	Currently there is only one available configuration, "fsnotify".
++	It will have a negative impact to the performance.
++	See detail in aufs.5.
++
++choice
++	prompt "method" if AUFS_HNOTIFY
++	default AUFS_HFSNOTIFY
++config AUFS_HFSNOTIFY
++	bool "fsnotify"
++	select FSNOTIFY
++endchoice
++
++config AUFS_EXPORT
++	bool "NFS-exportable aufs"
++	depends on EXPORTFS
++	help
++	If you want to export your mounted aufs via NFS, then enable this
++	option. There are several requirements for this configuration.
++	See detail in aufs.5.
++
++config AUFS_INO_T_64
++	bool
++	depends on AUFS_EXPORT
++	depends on 64BIT && !(ALPHA || S390)
++	default y
++	help
++	Automatic configuration for internal use.
++	/* typedef unsigned long/int __kernel_ino_t */
++	/* alpha and s390x are int */
++
++config AUFS_XATTR
++	bool "support for XATTR/EA (including Security Labels)"
++	help
++	If your branch fs supports XATTR/EA and you want to make them
++	available in aufs too, then enable this opsion and specify the
++	branch attributes for EA.
++	See detail in aufs.5.
++
++config AUFS_FHSM
++	bool "File-based Hierarchical Storage Management"
++	help
++	Hierarchical Storage Management (or HSM) is a well-known feature
++	in the storage world. Aufs provides this feature as file-based.
++	with multiple branches.
++	These multiple branches are prioritized, ie. the topmost one
++	should be the fastest drive and be used heavily.
++
++config AUFS_RDU
++	bool "Readdir in userspace"
++	help
++	Aufs has two methods to provide a merged view for a directory,
++	by a user-space library and by kernel-space natively. The latter
++	is always enabled but sometimes large and slow.
++	If you enable this option, install the library in aufs2-util
++	package, and set some environment variables for your readdir(3),
++	then the work will be handled in user-space which generally
++	shows better performance in most cases.
++	See detail in aufs.5.
++
++config AUFS_SHWH
++	bool "Show whiteouts"
++	help
++	If you want to make the whiteouts in aufs visible, then enable
++	this option and specify 'shwh' mount option. Although it may
++	sounds like philosophy or something, but in technically it
++	simply shows the name of whiteout with keeping its behaviour.
++
++config AUFS_BR_RAMFS
++	bool "Ramfs (initramfs/rootfs) as an aufs branch"
++	help
++	If you want to use ramfs as an aufs branch fs, then enable this
++	option. Generally tmpfs is recommended.
++	Aufs prohibited them to be a branch fs by default, because
++	initramfs becomes unusable after switch_root or something
++	generally. If you sets initramfs as an aufs branch and boot your
++	system by switch_root, you will meet a problem easily since the
++	files in initramfs may be inaccessible.
++	Unless you are going to use ramfs as an aufs branch fs without
++	switch_root or something, leave it N.
++
++config AUFS_BR_FUSE
++	bool "Fuse fs as an aufs branch"
++	depends on FUSE_FS
++	select AUFS_POLL
++	help
++	If you want to use fuse-based userspace filesystem as an aufs
++	branch fs, then enable this option.
++	It implements the internal poll(2) operation which is
++	implemented by fuse only (curretnly).
++
++config AUFS_POLL
++	bool
++	help
++	Automatic configuration for internal use.
++
++config AUFS_BR_HFSPLUS
++	bool "Hfsplus as an aufs branch"
++	depends on HFSPLUS_FS
++	default y
++	help
++	If you want to use hfsplus fs as an aufs branch fs, then enable
++	this option. This option introduces a small overhead at
++	copying-up a file on hfsplus.
++
++config AUFS_BDEV_LOOP
++	bool
++	depends on BLK_DEV_LOOP
++	default y
++	help
++	Automatic configuration for internal use.
++	Convert =[ym] into =y.
++
++config AUFS_DEBUG
++	bool "Debug aufs"
++	help
++	Enable this to compile aufs internal debug code.
++	It will have a negative impact to the performance.
++
++config AUFS_MAGIC_SYSRQ
++	bool
++	depends on AUFS_DEBUG && MAGIC_SYSRQ
++	default y
++	help
++	Automatic configuration for internal use.
++	When aufs supports Magic SysRq, enabled automatically.
++endif
+diff --git a/fs/aufs/Makefile b/fs/aufs/Makefile
+new file mode 100755
+index 0000000..c7a501e
+--- /dev/null
++++ b/fs/aufs/Makefile
+@@ -0,0 +1,44 @@
++
++include ${src}/magic.mk
++ifeq (${CONFIG_AUFS_FS},m)
++include ${src}/conf.mk
++endif
++-include ${src}/priv_def.mk
++
++# cf. include/linux/kernel.h
++# enable pr_debug
++ccflags-y += -DDEBUG
++# sparse requires the full pathname
++ifdef M
++ccflags-y += -include ${M}/../../include/uapi/linux/aufs_type.h
++else
++ccflags-y += -include ${srctree}/include/uapi/linux/aufs_type.h
++endif
++
++obj-$(CONFIG_AUFS_FS) += aufs.o
++aufs-y := module.o sbinfo.o super.o branch.o xino.o sysaufs.o opts.o \
++	wkq.o vfsub.o dcsub.o \
++	cpup.o whout.o wbr_policy.o \
++	dinfo.o dentry.o \
++	dynop.o \
++	finfo.o file.o f_op.o \
++	dir.o vdir.o \
++	iinfo.o inode.o i_op.o i_op_add.o i_op_del.o i_op_ren.o \
++	mvdown.o ioctl.o
++
++# all are boolean
++aufs-$(CONFIG_PROC_FS) += procfs.o plink.o
++aufs-$(CONFIG_SYSFS) += sysfs.o
++aufs-$(CONFIG_DEBUG_FS) += dbgaufs.o
++aufs-$(CONFIG_AUFS_BDEV_LOOP) += loop.o
++aufs-$(CONFIG_AUFS_HNOTIFY) += hnotify.o
++aufs-$(CONFIG_AUFS_HFSNOTIFY) += hfsnotify.o
++aufs-$(CONFIG_AUFS_EXPORT) += export.o
++aufs-$(CONFIG_AUFS_XATTR) += xattr.o
++aufs-$(CONFIG_FS_POSIX_ACL) += posix_acl.o
++aufs-$(CONFIG_AUFS_FHSM) += fhsm.o
++aufs-$(CONFIG_AUFS_POLL) += poll.o
++aufs-$(CONFIG_AUFS_RDU) += rdu.o
++aufs-$(CONFIG_AUFS_BR_HFSPLUS) += hfsplus.o
++aufs-$(CONFIG_AUFS_DEBUG) += debug.o
++aufs-$(CONFIG_AUFS_MAGIC_SYSRQ) += sysrq.o
+diff --git a/fs/aufs/aufs.h b/fs/aufs/aufs.h
+new file mode 100755
+index 0000000..7f5eb78
+--- /dev/null
++++ b/fs/aufs/aufs.h
+@@ -0,0 +1,59 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * all header files
++ */
++
++#ifndef __AUFS_H__
++#define __AUFS_H__
++
++#ifdef __KERNEL__
++
++#define AuStub(type, name, body, ...) \
++	static inline type name(__VA_ARGS__) { body; }
++
++#define AuStubVoid(name, ...) \
++	AuStub(void, name, , __VA_ARGS__)
++#define AuStubInt0(name, ...) \
++	AuStub(int, name, return 0, __VA_ARGS__)
++
++#include "debug.h"
++
++#include "branch.h"
++#include "cpup.h"
++#include "dcsub.h"
++#include "dbgaufs.h"
++#include "dentry.h"
++#include "dir.h"
++#include "dynop.h"
++#include "file.h"
++#include "fstype.h"
++#include "inode.h"
++#include "loop.h"
++#include "module.h"
++#include "opts.h"
++#include "rwsem.h"
++#include "spl.h"
++#include "super.h"
++#include "sysaufs.h"
++#include "vfsub.h"
++#include "whout.h"
++#include "wkq.h"
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_H__ */
+diff --git a/fs/aufs/branch.c b/fs/aufs/branch.c
+new file mode 100755
+index 0000000..0947a2a
+--- /dev/null
++++ b/fs/aufs/branch.c
+@@ -0,0 +1,1422 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * branch management
++ */
++
++#include <linux/compat.h>
++#include <linux/statfs.h>
++#include "aufs.h"
++
++/*
++ * free a single branch
++ */
++static void au_br_do_free(struct au_branch *br)
++{
++	int i;
++	struct au_wbr *wbr;
++	struct au_dykey **key;
++
++	au_hnotify_fin_br(br);
++
++	if (br->br_xino.xi_file)
++		fput(br->br_xino.xi_file);
++	for (i = br->br_xino.xi_nondir.total - 1; i >= 0; i--)
++		AuDebugOn(br->br_xino.xi_nondir.array[i]);
++	kfree(br->br_xino.xi_nondir.array);
++
++	AuDebugOn(au_br_count(br));
++	au_br_count_fin(br);
++
++	wbr = br->br_wbr;
++	if (wbr) {
++		for (i = 0; i < AuBrWh_Last; i++)
++			dput(wbr->wbr_wh[i]);
++		AuDebugOn(atomic_read(&wbr->wbr_wh_running));
++		AuRwDestroy(&wbr->wbr_wh_rwsem);
++	}
++
++	if (br->br_fhsm) {
++		au_br_fhsm_fin(br->br_fhsm);
++		kfree(br->br_fhsm);
++	}
++
++	key = br->br_dykey;
++	for (i = 0; i < AuBrDynOp; i++, key++)
++		if (*key)
++			au_dy_put(*key);
++		else
++			break;
++
++	/* recursive lock, s_umount of branch's */
++	lockdep_off();
++	path_put(&br->br_path);
++	lockdep_on();
++	kfree(wbr);
++	kfree(br);
++}
++
++/*
++ * frees all branches
++ */
++void au_br_free(struct au_sbinfo *sbinfo)
++{
++	aufs_bindex_t bmax;
++	struct au_branch **br;
++
++	AuRwMustWriteLock(&sbinfo->si_rwsem);
++
++	bmax = sbinfo->si_bbot + 1;
++	br = sbinfo->si_branch;
++	while (bmax--)
++		au_br_do_free(*br++);
++}
++
++/*
++ * find the index of a branch which is specified by @br_id.
++ */
++int au_br_index(struct super_block *sb, aufs_bindex_t br_id)
++{
++	aufs_bindex_t bindex, bbot;
++
++	bbot = au_sbbot(sb);
++	for (bindex = 0; bindex <= bbot; bindex++)
++		if (au_sbr_id(sb, bindex) == br_id)
++			return bindex;
++	return -1;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * add a branch
++ */
++
++static int test_overlap(struct super_block *sb, struct dentry *h_adding,
++			struct dentry *h_root)
++{
++	if (unlikely(h_adding == h_root
++		     || au_test_loopback_overlap(sb, h_adding)))
++		return 1;
++	if (h_adding->d_sb != h_root->d_sb)
++		return 0;
++	return au_test_subdir(h_adding, h_root)
++		|| au_test_subdir(h_root, h_adding);
++}
++
++/*
++ * returns a newly allocated branch. @new_nbranch is a number of branches
++ * after adding a branch.
++ */
++static struct au_branch *au_br_alloc(struct super_block *sb, int new_nbranch,
++				     int perm)
++{
++	struct au_branch *add_branch;
++	struct dentry *root;
++	struct inode *inode;
++	int err;
++
++	err = -ENOMEM;
++	add_branch = kzalloc(sizeof(*add_branch), GFP_NOFS);
++	if (unlikely(!add_branch))
++		goto out;
++	add_branch->br_xino.xi_nondir.total = 8; /* initial size */
++	add_branch->br_xino.xi_nondir.array
++		= kzalloc(sizeof(ino_t) * add_branch->br_xino.xi_nondir.total,
++			  GFP_NOFS);
++	if (unlikely(!add_branch->br_xino.xi_nondir.array))
++		goto out_br;
++
++	err = au_hnotify_init_br(add_branch, perm);
++	if (unlikely(err))
++		goto out_xinondir;
++
++	if (au_br_writable(perm)) {
++		/* may be freed separately at changing the branch permission */
++		add_branch->br_wbr = kzalloc(sizeof(*add_branch->br_wbr),
++					     GFP_NOFS);
++		if (unlikely(!add_branch->br_wbr))
++			goto out_hnotify;
++	}
++
++	if (au_br_fhsm(perm)) {
++		err = au_fhsm_br_alloc(add_branch);
++		if (unlikely(err))
++			goto out_wbr;
++	}
++
++	root = sb->s_root;
++	err = au_sbr_realloc(au_sbi(sb), new_nbranch, /*may_shrink*/0);
++	if (!err)
++		err = au_di_realloc(au_di(root), new_nbranch, /*may_shrink*/0);
++	if (!err) {
++		inode = d_inode(root);
++		err = au_hinode_realloc(au_ii(inode), new_nbranch,
++					/*may_shrink*/0);
++	}
++	if (!err)
++		return add_branch; /* success */
++
++out_wbr:
++	kfree(add_branch->br_wbr);
++out_hnotify:
++	au_hnotify_fin_br(add_branch);
++out_xinondir:
++	kfree(add_branch->br_xino.xi_nondir.array);
++out_br:
++	kfree(add_branch);
++out:
++	return ERR_PTR(err);
++}
++
++/*
++ * test if the branch permission is legal or not.
++ */
++static int test_br(struct inode *inode, int brperm, char *path)
++{
++	int err;
++
++	err = (au_br_writable(brperm) && IS_RDONLY(inode));
++	if (!err)
++		goto out;
++
++	err = -EINVAL;
++	pr_err("write permission for readonly mount or inode, %s\n", path);
++
++out:
++	return err;
++}
++
++/*
++ * returns:
++ * 0: success, the caller will add it
++ * plus: success, it is already unified, the caller should ignore it
++ * minus: error
++ */
++static int test_add(struct super_block *sb, struct au_opt_add *add, int remount)
++{
++	int err;
++	aufs_bindex_t bbot, bindex;
++	struct dentry *root, *h_dentry;
++	struct inode *inode, *h_inode;
++
++	root = sb->s_root;
++	bbot = au_sbbot(sb);
++	if (unlikely(bbot >= 0
++		     && au_find_dbindex(root, add->path.dentry) >= 0)) {
++		err = 1;
++		if (!remount) {
++			err = -EINVAL;
++			pr_err("%s duplicated\n", add->pathname);
++		}
++		goto out;
++	}
++
++	err = -ENOSPC; /* -E2BIG; */
++	if (unlikely(AUFS_BRANCH_MAX <= add->bindex
++		     || AUFS_BRANCH_MAX - 1 <= bbot)) {
++		pr_err("number of branches exceeded %s\n", add->pathname);
++		goto out;
++	}
++
++	err = -EDOM;
++	if (unlikely(add->bindex < 0 || bbot + 1 < add->bindex)) {
++		pr_err("bad index %d\n", add->bindex);
++		goto out;
++	}
++
++	inode = d_inode(add->path.dentry);
++	err = -ENOENT;
++	if (unlikely(!inode->i_nlink)) {
++		pr_err("no existence %s\n", add->pathname);
++		goto out;
++	}
++
++	err = -EINVAL;
++	if (unlikely(inode->i_sb == sb)) {
++		pr_err("%s must be outside\n", add->pathname);
++		goto out;
++	}
++
++	if (unlikely(au_test_fs_unsuppoted(inode->i_sb))) {
++		pr_err("unsupported filesystem, %s (%s)\n",
++		       add->pathname, au_sbtype(inode->i_sb));
++		goto out;
++	}
++
++	if (unlikely(inode->i_sb->s_stack_depth)) {
++		pr_err("already stacked, %s (%s)\n",
++		       add->pathname, au_sbtype(inode->i_sb));
++		goto out;
++	}
++
++	err = test_br(d_inode(add->path.dentry), add->perm, add->pathname);
++	if (unlikely(err))
++		goto out;
++
++	if (bbot < 0)
++		return 0; /* success */
++
++	err = -EINVAL;
++	for (bindex = 0; bindex <= bbot; bindex++)
++		if (unlikely(test_overlap(sb, add->path.dentry,
++					  au_h_dptr(root, bindex)))) {
++			pr_err("%s is overlapped\n", add->pathname);
++			goto out;
++		}
++
++	err = 0;
++	if (au_opt_test(au_mntflags(sb), WARN_PERM)) {
++		h_dentry = au_h_dptr(root, 0);
++		h_inode = d_inode(h_dentry);
++		if ((h_inode->i_mode & S_IALLUGO) != (inode->i_mode & S_IALLUGO)
++		    || !uid_eq(h_inode->i_uid, inode->i_uid)
++		    || !gid_eq(h_inode->i_gid, inode->i_gid))
++			pr_warn("uid/gid/perm %s %u/%u/0%o, %u/%u/0%o\n",
++				add->pathname,
++				i_uid_read(inode), i_gid_read(inode),
++				(inode->i_mode & S_IALLUGO),
++				i_uid_read(h_inode), i_gid_read(h_inode),
++				(h_inode->i_mode & S_IALLUGO));
++	}
++
++out:
++	return err;
++}
++
++/*
++ * initialize or clean the whiteouts for an adding branch
++ */
++static int au_br_init_wh(struct super_block *sb, struct au_branch *br,
++			 int new_perm)
++{
++	int err, old_perm;
++	aufs_bindex_t bindex;
++	struct inode *h_inode;
++	struct au_wbr *wbr;
++	struct au_hinode *hdir;
++	struct dentry *h_dentry;
++
++	err = vfsub_mnt_want_write(au_br_mnt(br));
++	if (unlikely(err))
++		goto out;
++
++	wbr = br->br_wbr;
++	old_perm = br->br_perm;
++	br->br_perm = new_perm;
++	hdir = NULL;
++	h_inode = NULL;
++	bindex = au_br_index(sb, br->br_id);
++	if (0 <= bindex) {
++		hdir = au_hi(d_inode(sb->s_root), bindex);
++		au_hn_inode_lock_nested(hdir, AuLsc_I_PARENT);
++	} else {
++		h_dentry = au_br_dentry(br);
++		h_inode = d_inode(h_dentry);
++		inode_lock_nested(h_inode, AuLsc_I_PARENT);
++	}
++	if (!wbr)
++		err = au_wh_init(br, sb);
++	else {
++		wbr_wh_write_lock(wbr);
++		err = au_wh_init(br, sb);
++		wbr_wh_write_unlock(wbr);
++	}
++	if (hdir)
++		au_hn_inode_unlock(hdir);
++	else
++		inode_unlock(h_inode);
++	vfsub_mnt_drop_write(au_br_mnt(br));
++	br->br_perm = old_perm;
++
++	if (!err && wbr && !au_br_writable(new_perm)) {
++		kfree(wbr);
++		br->br_wbr = NULL;
++	}
++
++out:
++	return err;
++}
++
++static int au_wbr_init(struct au_branch *br, struct super_block *sb,
++		       int perm)
++{
++	int err;
++	struct kstatfs kst;
++	struct au_wbr *wbr;
++
++	wbr = br->br_wbr;
++	au_rw_init(&wbr->wbr_wh_rwsem);
++	atomic_set(&wbr->wbr_wh_running, 0);
++
++	/*
++	 * a limit for rmdir/rename a dir
++	 * cf. AUFS_MAX_NAMELEN in include/uapi/linux/aufs_type.h
++	 */
++	err = vfs_statfs(&br->br_path, &kst);
++	if (unlikely(err))
++		goto out;
++	err = -EINVAL;
++	if (kst.f_namelen >= NAME_MAX)
++		err = au_br_init_wh(sb, br, perm);
++	else
++		pr_err("%pd(%s), unsupported namelen %ld\n",
++		       au_br_dentry(br),
++		       au_sbtype(au_br_dentry(br)->d_sb), kst.f_namelen);
++
++out:
++	return err;
++}
++
++/* initialize a new branch */
++static int au_br_init(struct au_branch *br, struct super_block *sb,
++		      struct au_opt_add *add)
++{
++	int err;
++	struct inode *h_inode;
++
++	err = 0;
++	spin_lock_init(&br->br_xino.xi_nondir.spin);
++	init_waitqueue_head(&br->br_xino.xi_nondir.wqh);
++	br->br_perm = add->perm;
++	br->br_path = add->path; /* set first, path_get() later */
++	spin_lock_init(&br->br_dykey_lock);
++	au_br_count_init(br);
++	atomic_set(&br->br_xino_running, 0);
++	br->br_id = au_new_br_id(sb);
++	AuDebugOn(br->br_id < 0);
++
++	if (au_br_writable(add->perm)) {
++		err = au_wbr_init(br, sb, add->perm);
++		if (unlikely(err))
++			goto out_err;
++	}
++
++	if (au_opt_test(au_mntflags(sb), XINO)) {
++		h_inode = d_inode(add->path.dentry);
++		err = au_xino_br(sb, br, h_inode->i_ino,
++				 au_sbr(sb, 0)->br_xino.xi_file, /*do_test*/1);
++		if (unlikely(err)) {
++			AuDebugOn(br->br_xino.xi_file);
++			goto out_err;
++		}
++	}
++
++	sysaufs_br_init(br);
++	path_get(&br->br_path);
++	goto out; /* success */
++
++out_err:
++	memset(&br->br_path, 0, sizeof(br->br_path));
++out:
++	return err;
++}
++
++static void au_br_do_add_brp(struct au_sbinfo *sbinfo, aufs_bindex_t bindex,
++			     struct au_branch *br, aufs_bindex_t bbot,
++			     aufs_bindex_t amount)
++{
++	struct au_branch **brp;
++
++	AuRwMustWriteLock(&sbinfo->si_rwsem);
++
++	brp = sbinfo->si_branch + bindex;
++	memmove(brp + 1, brp, sizeof(*brp) * amount);
++	*brp = br;
++	sbinfo->si_bbot++;
++	if (unlikely(bbot < 0))
++		sbinfo->si_bbot = 0;
++}
++
++static void au_br_do_add_hdp(struct au_dinfo *dinfo, aufs_bindex_t bindex,
++			     aufs_bindex_t bbot, aufs_bindex_t amount)
++{
++	struct au_hdentry *hdp;
++
++	AuRwMustWriteLock(&dinfo->di_rwsem);
++
++	hdp = au_hdentry(dinfo, bindex);
++	memmove(hdp + 1, hdp, sizeof(*hdp) * amount);
++	au_h_dentry_init(hdp);
++	dinfo->di_bbot++;
++	if (unlikely(bbot < 0))
++		dinfo->di_btop = 0;
++}
++
++static void au_br_do_add_hip(struct au_iinfo *iinfo, aufs_bindex_t bindex,
++			     aufs_bindex_t bbot, aufs_bindex_t amount)
++{
++	struct au_hinode *hip;
++
++	AuRwMustWriteLock(&iinfo->ii_rwsem);
++
++	hip = au_hinode(iinfo, bindex);
++	memmove(hip + 1, hip, sizeof(*hip) * amount);
++	au_hinode_init(hip);
++	iinfo->ii_bbot++;
++	if (unlikely(bbot < 0))
++		iinfo->ii_btop = 0;
++}
++
++static void au_br_do_add(struct super_block *sb, struct au_branch *br,
++			 aufs_bindex_t bindex)
++{
++	struct dentry *root, *h_dentry;
++	struct inode *root_inode, *h_inode;
++	aufs_bindex_t bbot, amount;
++
++	root = sb->s_root;
++	root_inode = d_inode(root);
++	bbot = au_sbbot(sb);
++	amount = bbot + 1 - bindex;
++	h_dentry = au_br_dentry(br);
++	au_sbilist_lock();
++	au_br_do_add_brp(au_sbi(sb), bindex, br, bbot, amount);
++	au_br_do_add_hdp(au_di(root), bindex, bbot, amount);
++	au_br_do_add_hip(au_ii(root_inode), bindex, bbot, amount);
++	au_set_h_dptr(root, bindex, dget(h_dentry));
++	h_inode = d_inode(h_dentry);
++	au_set_h_iptr(root_inode, bindex, au_igrab(h_inode), /*flags*/0);
++	au_sbilist_unlock();
++}
++
++int au_br_add(struct super_block *sb, struct au_opt_add *add, int remount)
++{
++	int err;
++	aufs_bindex_t bbot, add_bindex;
++	struct dentry *root, *h_dentry;
++	struct inode *root_inode;
++	struct au_branch *add_branch;
++
++	root = sb->s_root;
++	root_inode = d_inode(root);
++	IMustLock(root_inode);
++	IiMustWriteLock(root_inode);
++	err = test_add(sb, add, remount);
++	if (unlikely(err < 0))
++		goto out;
++	if (err) {
++		err = 0;
++		goto out; /* success */
++	}
++
++	bbot = au_sbbot(sb);
++	add_branch = au_br_alloc(sb, bbot + 2, add->perm);
++	err = PTR_ERR(add_branch);
++	if (IS_ERR(add_branch))
++		goto out;
++
++	err = au_br_init(add_branch, sb, add);
++	if (unlikely(err)) {
++		au_br_do_free(add_branch);
++		goto out;
++	}
++
++	add_bindex = add->bindex;
++	if (!remount)
++		au_br_do_add(sb, add_branch, add_bindex);
++	else {
++		sysaufs_brs_del(sb, add_bindex);
++		au_br_do_add(sb, add_branch, add_bindex);
++		sysaufs_brs_add(sb, add_bindex);
++	}
++
++	h_dentry = add->path.dentry;
++	if (!add_bindex) {
++		au_cpup_attr_all(root_inode, /*force*/1);
++		sb->s_maxbytes = h_dentry->d_sb->s_maxbytes;
++	} else
++		au_add_nlink(root_inode, d_inode(h_dentry));
++
++	/*
++	 * this test/set prevents aufs from handling unnecesary notify events
++	 * of xino files, in case of re-adding a writable branch which was
++	 * once detached from aufs.
++	 */
++	if (au_xino_brid(sb) < 0
++	    && au_br_writable(add_branch->br_perm)
++	    && !au_test_fs_bad_xino(h_dentry->d_sb)
++	    && add_branch->br_xino.xi_file
++	    && add_branch->br_xino.xi_file->f_path.dentry->d_parent == h_dentry)
++		au_xino_brid_set(sb, add_branch->br_id);
++
++out:
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static unsigned long long au_farray_cb(struct super_block *sb, void *a,
++				       unsigned long long max __maybe_unused,
++				       void *arg)
++{
++	unsigned long long n;
++	struct file **p, *f;
++	struct au_sphlhead *files;
++	struct au_finfo *finfo;
++
++	n = 0;
++	p = a;
++	files = &au_sbi(sb)->si_files;
++	spin_lock(&files->spin);
++	hlist_for_each_entry(finfo, &files->head, fi_hlist) {
++		f = finfo->fi_file;
++		if (file_count(f)
++		    && !special_file(file_inode(f)->i_mode)) {
++			get_file(f);
++			*p++ = f;
++			n++;
++			AuDebugOn(n > max);
++		}
++	}
++	spin_unlock(&files->spin);
++
++	return n;
++}
++
++static struct file **au_farray_alloc(struct super_block *sb,
++				     unsigned long long *max)
++{
++	*max = au_nfiles(sb);
++	return au_array_alloc(max, au_farray_cb, sb, /*arg*/NULL);
++}
++
++static void au_farray_free(struct file **a, unsigned long long max)
++{
++	unsigned long long ull;
++
++	for (ull = 0; ull < max; ull++)
++		if (a[ull])
++			fput(a[ull]);
++	kvfree(a);
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * delete a branch
++ */
++
++/* to show the line number, do not make it inlined function */
++#define AuVerbose(do_info, fmt, ...) do { \
++	if (do_info) \
++		pr_info(fmt, ##__VA_ARGS__); \
++} while (0)
++
++static int au_test_ibusy(struct inode *inode, aufs_bindex_t btop,
++			 aufs_bindex_t bbot)
++{
++	return (inode && !S_ISDIR(inode->i_mode)) || btop == bbot;
++}
++
++static int au_test_dbusy(struct dentry *dentry, aufs_bindex_t btop,
++			 aufs_bindex_t bbot)
++{
++	return au_test_ibusy(d_inode(dentry), btop, bbot);
++}
++
++/*
++ * test if the branch is deletable or not.
++ */
++static int test_dentry_busy(struct dentry *root, aufs_bindex_t bindex,
++			    unsigned int sigen, const unsigned int verbose)
++{
++	int err, i, j, ndentry;
++	aufs_bindex_t btop, bbot;
++	struct au_dcsub_pages dpages;
++	struct au_dpage *dpage;
++	struct dentry *d;
++
++	err = au_dpages_init(&dpages, GFP_NOFS);
++	if (unlikely(err))
++		goto out;
++	err = au_dcsub_pages(&dpages, root, NULL, NULL);
++	if (unlikely(err))
++		goto out_dpages;
++
++	for (i = 0; !err && i < dpages.ndpage; i++) {
++		dpage = dpages.dpages + i;
++		ndentry = dpage->ndentry;
++		for (j = 0; !err && j < ndentry; j++) {
++			d = dpage->dentries[j];
++			AuDebugOn(au_dcount(d) <= 0);
++			if (!au_digen_test(d, sigen)) {
++				di_read_lock_child(d, AuLock_IR);
++				if (unlikely(au_dbrange_test(d))) {
++					di_read_unlock(d, AuLock_IR);
++					continue;
++				}
++			} else {
++				di_write_lock_child(d);
++				if (unlikely(au_dbrange_test(d))) {
++					di_write_unlock(d);
++					continue;
++				}
++				err = au_reval_dpath(d, sigen);
++				if (!err)
++					di_downgrade_lock(d, AuLock_IR);
++				else {
++					di_write_unlock(d);
++					break;
++				}
++			}
++
++			/* AuDbgDentry(d); */
++			btop = au_dbtop(d);
++			bbot = au_dbbot(d);
++			if (btop <= bindex
++			    && bindex <= bbot
++			    && au_h_dptr(d, bindex)
++			    && au_test_dbusy(d, btop, bbot)) {
++				err = -EBUSY;
++				AuVerbose(verbose, "busy %pd\n", d);
++				AuDbgDentry(d);
++			}
++			di_read_unlock(d, AuLock_IR);
++		}
++	}
++
++out_dpages:
++	au_dpages_free(&dpages);
++out:
++	return err;
++}
++
++static int test_inode_busy(struct super_block *sb, aufs_bindex_t bindex,
++			   unsigned int sigen, const unsigned int verbose)
++{
++	int err;
++	unsigned long long max, ull;
++	struct inode *i, **array;
++	aufs_bindex_t btop, bbot;
++
++	array = au_iarray_alloc(sb, &max);
++	err = PTR_ERR(array);
++	if (IS_ERR(array))
++		goto out;
++
++	err = 0;
++	AuDbg("b%d\n", bindex);
++	for (ull = 0; !err && ull < max; ull++) {
++		i = array[ull];
++		if (unlikely(!i))
++			break;
++		if (i->i_ino == AUFS_ROOT_INO)
++			continue;
++
++		/* AuDbgInode(i); */
++		if (au_iigen(i, NULL) == sigen)
++			ii_read_lock_child(i);
++		else {
++			ii_write_lock_child(i);
++			err = au_refresh_hinode_self(i);
++			au_iigen_dec(i);
++			if (!err)
++				ii_downgrade_lock(i);
++			else {
++				ii_write_unlock(i);
++				break;
++			}
++		}
++
++		btop = au_ibtop(i);
++		bbot = au_ibbot(i);
++		if (btop <= bindex
++		    && bindex <= bbot
++		    && au_h_iptr(i, bindex)
++		    && au_test_ibusy(i, btop, bbot)) {
++			err = -EBUSY;
++			AuVerbose(verbose, "busy i%lu\n", i->i_ino);
++			AuDbgInode(i);
++		}
++		ii_read_unlock(i);
++	}
++	au_iarray_free(array, max);
++
++out:
++	return err;
++}
++
++static int test_children_busy(struct dentry *root, aufs_bindex_t bindex,
++			      const unsigned int verbose)
++{
++	int err;
++	unsigned int sigen;
++
++	sigen = au_sigen(root->d_sb);
++	DiMustNoWaiters(root);
++	IiMustNoWaiters(d_inode(root));
++	di_write_unlock(root);
++	err = test_dentry_busy(root, bindex, sigen, verbose);
++	if (!err)
++		err = test_inode_busy(root->d_sb, bindex, sigen, verbose);
++	di_write_lock_child(root); /* aufs_write_lock() calls ..._child() */
++
++	return err;
++}
++
++static int test_dir_busy(struct file *file, aufs_bindex_t br_id,
++			 struct file **to_free, int *idx)
++{
++	int err;
++	unsigned char matched, root;
++	aufs_bindex_t bindex, bbot;
++	struct au_fidir *fidir;
++	struct au_hfile *hfile;
++
++	err = 0;
++	root = IS_ROOT(file->f_path.dentry);
++	if (root) {
++		get_file(file);
++		to_free[*idx] = file;
++		(*idx)++;
++		goto out;
++	}
++
++	matched = 0;
++	fidir = au_fi(file)->fi_hdir;
++	AuDebugOn(!fidir);
++	bbot = au_fbbot_dir(file);
++	for (bindex = au_fbtop(file); bindex <= bbot; bindex++) {
++		hfile = fidir->fd_hfile + bindex;
++		if (!hfile->hf_file)
++			continue;
++
++		if (hfile->hf_br->br_id == br_id) {
++			matched = 1;
++			break;
++		}
++	}
++	if (matched)
++		err = -EBUSY;
++
++out:
++	return err;
++}
++
++static int test_file_busy(struct super_block *sb, aufs_bindex_t br_id,
++			  struct file **to_free, int opened)
++{
++	int err, idx;
++	unsigned long long ull, max;
++	aufs_bindex_t btop;
++	struct file *file, **array;
++	struct dentry *root;
++	struct au_hfile *hfile;
++
++	array = au_farray_alloc(sb, &max);
++	err = PTR_ERR(array);
++	if (IS_ERR(array))
++		goto out;
++
++	err = 0;
++	idx = 0;
++	root = sb->s_root;
++	di_write_unlock(root);
++	for (ull = 0; ull < max; ull++) {
++		file = array[ull];
++		if (unlikely(!file))
++			break;
++
++		/* AuDbg("%pD\n", file); */
++		fi_read_lock(file);
++		btop = au_fbtop(file);
++		if (!d_is_dir(file->f_path.dentry)) {
++			hfile = &au_fi(file)->fi_htop;
++			if (hfile->hf_br->br_id == br_id)
++				err = -EBUSY;
++		} else
++			err = test_dir_busy(file, br_id, to_free, &idx);
++		fi_read_unlock(file);
++		if (unlikely(err))
++			break;
++	}
++	di_write_lock_child(root);
++	au_farray_free(array, max);
++	AuDebugOn(idx > opened);
++
++out:
++	return err;
++}
++
++static void br_del_file(struct file **to_free, unsigned long long opened,
++			  aufs_bindex_t br_id)
++{
++	unsigned long long ull;
++	aufs_bindex_t bindex, btop, bbot, bfound;
++	struct file *file;
++	struct au_fidir *fidir;
++	struct au_hfile *hfile;
++
++	for (ull = 0; ull < opened; ull++) {
++		file = to_free[ull];
++		if (unlikely(!file))
++			break;
++
++		/* AuDbg("%pD\n", file); */
++		AuDebugOn(!d_is_dir(file->f_path.dentry));
++		bfound = -1;
++		fidir = au_fi(file)->fi_hdir;
++		AuDebugOn(!fidir);
++		fi_write_lock(file);
++		btop = au_fbtop(file);
++		bbot = au_fbbot_dir(file);
++		for (bindex = btop; bindex <= bbot; bindex++) {
++			hfile = fidir->fd_hfile + bindex;
++			if (!hfile->hf_file)
++				continue;
++
++			if (hfile->hf_br->br_id == br_id) {
++				bfound = bindex;
++				break;
++			}
++		}
++		AuDebugOn(bfound < 0);
++		au_set_h_fptr(file, bfound, NULL);
++		if (bfound == btop) {
++			for (btop++; btop <= bbot; btop++)
++				if (au_hf_dir(file, btop)) {
++					au_set_fbtop(file, btop);
++					break;
++				}
++		}
++		fi_write_unlock(file);
++	}
++}
++
++static void au_br_do_del_brp(struct au_sbinfo *sbinfo,
++			     const aufs_bindex_t bindex,
++			     const aufs_bindex_t bbot)
++{
++	struct au_branch **brp, **p;
++
++	AuRwMustWriteLock(&sbinfo->si_rwsem);
++
++	brp = sbinfo->si_branch + bindex;
++	if (bindex < bbot)
++		memmove(brp, brp + 1, sizeof(*brp) * (bbot - bindex));
++	sbinfo->si_branch[0 + bbot] = NULL;
++	sbinfo->si_bbot--;
++
++	p = au_krealloc(sbinfo->si_branch, sizeof(*p) * bbot, AuGFP_SBILIST,
++			/*may_shrink*/1);
++	if (p)
++		sbinfo->si_branch = p;
++	/* harmless error */
++}
++
++static void au_br_do_del_hdp(struct au_dinfo *dinfo, const aufs_bindex_t bindex,
++			     const aufs_bindex_t bbot)
++{
++	struct au_hdentry *hdp, *p;
++
++	AuRwMustWriteLock(&dinfo->di_rwsem);
++
++	hdp = au_hdentry(dinfo, bindex);
++	if (bindex < bbot)
++		memmove(hdp, hdp + 1, sizeof(*hdp) * (bbot - bindex));
++	/* au_h_dentry_init(au_hdentry(dinfo, bbot); */
++	dinfo->di_bbot--;
++
++	p = au_krealloc(dinfo->di_hdentry, sizeof(*p) * bbot, AuGFP_SBILIST,
++			/*may_shrink*/1);
++	if (p)
++		dinfo->di_hdentry = p;
++	/* harmless error */
++}
++
++static void au_br_do_del_hip(struct au_iinfo *iinfo, const aufs_bindex_t bindex,
++			     const aufs_bindex_t bbot)
++{
++	struct au_hinode *hip, *p;
++
++	AuRwMustWriteLock(&iinfo->ii_rwsem);
++
++	hip = au_hinode(iinfo, bindex);
++	if (bindex < bbot)
++		memmove(hip, hip + 1, sizeof(*hip) * (bbot - bindex));
++	/* au_hinode_init(au_hinode(iinfo, bbot)); */
++	iinfo->ii_bbot--;
++
++	p = au_krealloc(iinfo->ii_hinode, sizeof(*p) * bbot, AuGFP_SBILIST,
++			/*may_shrink*/1);
++	if (p)
++		iinfo->ii_hinode = p;
++	/* harmless error */
++}
++
++static void au_br_do_del(struct super_block *sb, aufs_bindex_t bindex,
++			 struct au_branch *br)
++{
++	aufs_bindex_t bbot;
++	struct au_sbinfo *sbinfo;
++	struct dentry *root, *h_root;
++	struct inode *inode, *h_inode;
++	struct au_hinode *hinode;
++
++	SiMustWriteLock(sb);
++
++	root = sb->s_root;
++	inode = d_inode(root);
++	sbinfo = au_sbi(sb);
++	bbot = sbinfo->si_bbot;
++
++	h_root = au_h_dptr(root, bindex);
++	hinode = au_hi(inode, bindex);
++	h_inode = au_igrab(hinode->hi_inode);
++	au_hiput(hinode);
++
++	au_sbilist_lock();
++	au_br_do_del_brp(sbinfo, bindex, bbot);
++	au_br_do_del_hdp(au_di(root), bindex, bbot);
++	au_br_do_del_hip(au_ii(inode), bindex, bbot);
++	au_sbilist_unlock();
++
++	dput(h_root);
++	iput(h_inode);
++	au_br_do_free(br);
++}
++
++static unsigned long long empty_cb(struct super_block *sb, void *array,
++				   unsigned long long max, void *arg)
++{
++	return max;
++}
++
++int au_br_del(struct super_block *sb, struct au_opt_del *del, int remount)
++{
++	int err, rerr, i;
++	unsigned long long opened;
++	unsigned int mnt_flags;
++	aufs_bindex_t bindex, bbot, br_id;
++	unsigned char do_wh, verbose;
++	struct au_branch *br;
++	struct au_wbr *wbr;
++	struct dentry *root;
++	struct file **to_free;
++
++	err = 0;
++	opened = 0;
++	to_free = NULL;
++	root = sb->s_root;
++	bindex = au_find_dbindex(root, del->h_path.dentry);
++	if (bindex < 0) {
++		if (remount)
++			goto out; /* success */
++		err = -ENOENT;
++		pr_err("%s no such branch\n", del->pathname);
++		goto out;
++	}
++	AuDbg("bindex b%d\n", bindex);
++
++	err = -EBUSY;
++	mnt_flags = au_mntflags(sb);
++	verbose = !!au_opt_test(mnt_flags, VERBOSE);
++	bbot = au_sbbot(sb);
++	if (unlikely(!bbot)) {
++		AuVerbose(verbose, "no more branches left\n");
++		goto out;
++	}
++	br = au_sbr(sb, bindex);
++	AuDebugOn(!path_equal(&br->br_path, &del->h_path));
++
++	br_id = br->br_id;
++	opened = au_br_count(br);
++	if (unlikely(opened)) {
++		to_free = au_array_alloc(&opened, empty_cb, sb, NULL);
++		err = PTR_ERR(to_free);
++		if (IS_ERR(to_free))
++			goto out;
++
++		err = test_file_busy(sb, br_id, to_free, opened);
++		if (unlikely(err)) {
++			AuVerbose(verbose, "%llu file(s) opened\n", opened);
++			goto out;
++		}
++	}
++
++	wbr = br->br_wbr;
++	do_wh = wbr && (wbr->wbr_whbase || wbr->wbr_plink || wbr->wbr_orph);
++	if (do_wh) {
++		/* instead of WbrWhMustWriteLock(wbr) */
++		SiMustWriteLock(sb);
++		for (i = 0; i < AuBrWh_Last; i++) {
++			dput(wbr->wbr_wh[i]);
++			wbr->wbr_wh[i] = NULL;
++		}
++	}
++
++	err = test_children_busy(root, bindex, verbose);
++	if (unlikely(err)) {
++		if (do_wh)
++			goto out_wh;
++		goto out;
++	}
++
++	err = 0;
++	if (to_free) {
++		/*
++		 * now we confirmed the branch is deletable.
++		 * let's free the remaining opened dirs on the branch.
++		 */
++		di_write_unlock(root);
++		br_del_file(to_free, opened, br_id);
++		di_write_lock_child(root);
++	}
++
++	if (!remount)
++		au_br_do_del(sb, bindex, br);
++	else {
++		sysaufs_brs_del(sb, bindex);
++		au_br_do_del(sb, bindex, br);
++		sysaufs_brs_add(sb, bindex);
++	}
++
++	if (!bindex) {
++		au_cpup_attr_all(d_inode(root), /*force*/1);
++		sb->s_maxbytes = au_sbr_sb(sb, 0)->s_maxbytes;
++	} else
++		au_sub_nlink(d_inode(root), d_inode(del->h_path.dentry));
++	if (au_opt_test(mnt_flags, PLINK))
++		au_plink_half_refresh(sb, br_id);
++
++	if (au_xino_brid(sb) == br_id)
++		au_xino_brid_set(sb, -1);
++	goto out; /* success */
++
++out_wh:
++	/* revert */
++	rerr = au_br_init_wh(sb, br, br->br_perm);
++	if (rerr)
++		pr_warn("failed re-creating base whiteout, %s. (%d)\n",
++			del->pathname, rerr);
++out:
++	if (to_free)
++		au_farray_free(to_free, opened);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int au_ibusy(struct super_block *sb, struct aufs_ibusy __user *arg)
++{
++	int err;
++	aufs_bindex_t btop, bbot;
++	struct aufs_ibusy ibusy;
++	struct inode *inode, *h_inode;
++
++	err = -EPERM;
++	if (unlikely(!capable(CAP_SYS_ADMIN)))
++		goto out;
++
++	err = copy_from_user(&ibusy, arg, sizeof(ibusy));
++	if (!err)
++		err = !access_ok(VERIFY_WRITE, &arg->h_ino, sizeof(arg->h_ino));
++	if (unlikely(err)) {
++		err = -EFAULT;
++		AuTraceErr(err);
++		goto out;
++	}
++
++	err = -EINVAL;
++	si_read_lock(sb, AuLock_FLUSH);
++	if (unlikely(ibusy.bindex < 0 || ibusy.bindex > au_sbbot(sb)))
++		goto out_unlock;
++
++	err = 0;
++	ibusy.h_ino = 0; /* invalid */
++	inode = ilookup(sb, ibusy.ino);
++	if (!inode
++	    || inode->i_ino == AUFS_ROOT_INO
++	    || au_is_bad_inode(inode))
++		goto out_unlock;
++
++	ii_read_lock_child(inode);
++	btop = au_ibtop(inode);
++	bbot = au_ibbot(inode);
++	if (btop <= ibusy.bindex && ibusy.bindex <= bbot) {
++		h_inode = au_h_iptr(inode, ibusy.bindex);
++		if (h_inode && au_test_ibusy(inode, btop, bbot))
++			ibusy.h_ino = h_inode->i_ino;
++	}
++	ii_read_unlock(inode);
++	iput(inode);
++
++out_unlock:
++	si_read_unlock(sb);
++	if (!err) {
++		err = __put_user(ibusy.h_ino, &arg->h_ino);
++		if (unlikely(err)) {
++			err = -EFAULT;
++			AuTraceErr(err);
++		}
++	}
++out:
++	return err;
++}
++
++long au_ibusy_ioctl(struct file *file, unsigned long arg)
++{
++	return au_ibusy(file->f_path.dentry->d_sb, (void __user *)arg);
++}
++
++#ifdef CONFIG_COMPAT
++long au_ibusy_compat_ioctl(struct file *file, unsigned long arg)
++{
++	return au_ibusy(file->f_path.dentry->d_sb, compat_ptr(arg));
++}
++#endif
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * change a branch permission
++ */
++
++static void au_warn_ima(void)
++{
++#ifdef CONFIG_IMA
++	/* since it doesn't support mark_files_ro() */
++	AuWarn1("RW -> RO makes IMA to produce wrong message\n");
++#endif
++}
++
++static int do_need_sigen_inc(int a, int b)
++{
++	return au_br_whable(a) && !au_br_whable(b);
++}
++
++static int need_sigen_inc(int old, int new)
++{
++	return do_need_sigen_inc(old, new)
++		|| do_need_sigen_inc(new, old);
++}
++
++static int au_br_mod_files_ro(struct super_block *sb, aufs_bindex_t bindex)
++{
++	int err, do_warn;
++	unsigned int mnt_flags;
++	unsigned long long ull, max;
++	aufs_bindex_t br_id;
++	unsigned char verbose, writer;
++	struct file *file, *hf, **array;
++	struct au_hfile *hfile;
++
++	mnt_flags = au_mntflags(sb);
++	verbose = !!au_opt_test(mnt_flags, VERBOSE);
++
++	array = au_farray_alloc(sb, &max);
++	err = PTR_ERR(array);
++	if (IS_ERR(array))
++		goto out;
++
++	do_warn = 0;
++	br_id = au_sbr_id(sb, bindex);
++	for (ull = 0; ull < max; ull++) {
++		file = array[ull];
++		if (unlikely(!file))
++			break;
++
++		/* AuDbg("%pD\n", file); */
++		fi_read_lock(file);
++		if (unlikely(au_test_mmapped(file))) {
++			err = -EBUSY;
++			AuVerbose(verbose, "mmapped %pD\n", file);
++			AuDbgFile(file);
++			FiMustNoWaiters(file);
++			fi_read_unlock(file);
++			goto out_array;
++		}
++
++		hfile = &au_fi(file)->fi_htop;
++		hf = hfile->hf_file;
++		if (!d_is_reg(file->f_path.dentry)
++		    || !(file->f_mode & FMODE_WRITE)
++		    || hfile->hf_br->br_id != br_id
++		    || !(hf->f_mode & FMODE_WRITE))
++			array[ull] = NULL;
++		else {
++			do_warn = 1;
++			get_file(file);
++		}
++
++		FiMustNoWaiters(file);
++		fi_read_unlock(file);
++		fput(file);
++	}
++
++	err = 0;
++	if (do_warn)
++		au_warn_ima();
++
++	for (ull = 0; ull < max; ull++) {
++		file = array[ull];
++		if (!file)
++			continue;
++
++		/* todo: already flushed? */
++		/*
++		 * fs/super.c:mark_files_ro() is gone, but aufs keeps its
++		 * approach which resets f_mode and calls mnt_drop_write() and
++		 * file_release_write() for each file, because the branch
++		 * attribute in aufs world is totally different from the native
++		 * fs rw/ro mode.
++		*/
++		/* fi_read_lock(file); */
++		hfile = &au_fi(file)->fi_htop;
++		hf = hfile->hf_file;
++		/* fi_read_unlock(file); */
++		spin_lock(&hf->f_lock);
++		writer = !!(hf->f_mode & FMODE_WRITER);
++		hf->f_mode &= ~(FMODE_WRITE | FMODE_WRITER);
++		spin_unlock(&hf->f_lock);
++		if (writer) {
++			put_write_access(file_inode(hf));
++			__mnt_drop_write(hf->f_path.mnt);
++		}
++	}
++
++out_array:
++	au_farray_free(array, max);
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++int au_br_mod(struct super_block *sb, struct au_opt_mod *mod, int remount,
++	      int *do_refresh)
++{
++	int err, rerr;
++	aufs_bindex_t bindex;
++	struct dentry *root;
++	struct au_branch *br;
++	struct au_br_fhsm *bf;
++
++	root = sb->s_root;
++	bindex = au_find_dbindex(root, mod->h_root);
++	if (bindex < 0) {
++		if (remount)
++			return 0; /* success */
++		err = -ENOENT;
++		pr_err("%s no such branch\n", mod->path);
++		goto out;
++	}
++	AuDbg("bindex b%d\n", bindex);
++
++	err = test_br(d_inode(mod->h_root), mod->perm, mod->path);
++	if (unlikely(err))
++		goto out;
++
++	br = au_sbr(sb, bindex);
++	AuDebugOn(mod->h_root != au_br_dentry(br));
++	if (br->br_perm == mod->perm)
++		return 0; /* success */
++
++	/* pre-allocate for non-fhsm --> fhsm */
++	bf = NULL;
++	if (!au_br_fhsm(br->br_perm) && au_br_fhsm(mod->perm)) {
++		err = au_fhsm_br_alloc(br);
++		if (unlikely(err))
++			goto out;
++		bf = br->br_fhsm;
++		br->br_fhsm = NULL;
++	}
++
++	if (au_br_writable(br->br_perm)) {
++		/* remove whiteout base */
++		err = au_br_init_wh(sb, br, mod->perm);
++		if (unlikely(err))
++			goto out_bf;
++
++		if (!au_br_writable(mod->perm)) {
++			/* rw --> ro, file might be mmapped */
++			DiMustNoWaiters(root);
++			IiMustNoWaiters(d_inode(root));
++			di_write_unlock(root);
++			err = au_br_mod_files_ro(sb, bindex);
++			/* aufs_write_lock() calls ..._child() */
++			di_write_lock_child(root);
++
++			if (unlikely(err)) {
++				rerr = -ENOMEM;
++				br->br_wbr = kzalloc(sizeof(*br->br_wbr),
++						     GFP_NOFS);
++				if (br->br_wbr)
++					rerr = au_wbr_init(br, sb, br->br_perm);
++				if (unlikely(rerr)) {
++					AuIOErr("nested error %d (%d)\n",
++						rerr, err);
++					br->br_perm = mod->perm;
++				}
++			}
++		}
++	} else if (au_br_writable(mod->perm)) {
++		/* ro --> rw */
++		err = -ENOMEM;
++		br->br_wbr = kzalloc(sizeof(*br->br_wbr), GFP_NOFS);
++		if (br->br_wbr) {
++			err = au_wbr_init(br, sb, mod->perm);
++			if (unlikely(err)) {
++				kfree(br->br_wbr);
++				br->br_wbr = NULL;
++			}
++		}
++	}
++	if (unlikely(err))
++		goto out_bf;
++
++	if (au_br_fhsm(br->br_perm)) {
++		if (!au_br_fhsm(mod->perm)) {
++			/* fhsm --> non-fhsm */
++			au_br_fhsm_fin(br->br_fhsm);
++			kfree(br->br_fhsm);
++			br->br_fhsm = NULL;
++		}
++	} else if (au_br_fhsm(mod->perm))
++		/* non-fhsm --> fhsm */
++		br->br_fhsm = bf;
++
++	*do_refresh |= need_sigen_inc(br->br_perm, mod->perm);
++	br->br_perm = mod->perm;
++	goto out; /* success */
++
++out_bf:
++	if (bf)
++		kfree(bf);
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++int au_br_stfs(struct au_branch *br, struct aufs_stfs *stfs)
++{
++	int err;
++	struct kstatfs kstfs;
++
++	err = vfs_statfs(&br->br_path, &kstfs);
++	if (!err) {
++		stfs->f_blocks = kstfs.f_blocks;
++		stfs->f_bavail = kstfs.f_bavail;
++		stfs->f_files = kstfs.f_files;
++		stfs->f_ffree = kstfs.f_ffree;
++	}
++
++	return err;
++}
+diff --git a/fs/aufs/branch.h b/fs/aufs/branch.h
+new file mode 100755
+index 0000000..e9591cf
+--- /dev/null
++++ b/fs/aufs/branch.h
+@@ -0,0 +1,321 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * branch filesystems and xino for them
++ */
++
++#ifndef __AUFS_BRANCH_H__
++#define __AUFS_BRANCH_H__
++
++#ifdef __KERNEL__
++
++#include <linux/mount.h>
++#include "dynop.h"
++#include "rwsem.h"
++#include "super.h"
++
++/* ---------------------------------------------------------------------- */
++
++/* a xino file */
++struct au_xino_file {
++	struct file		*xi_file;
++	struct {
++		spinlock_t		spin;
++		ino_t			*array;
++		int			total;
++		/* reserved for future use */
++		/* unsigned long	*bitmap; */
++		wait_queue_head_t	wqh;
++	} xi_nondir;
++
++	/* todo: make xino files an array to support huge inode number */
++
++#ifdef CONFIG_DEBUG_FS
++	struct dentry		 *xi_dbgaufs;
++#endif
++};
++
++/* File-based Hierarchical Storage Management */
++struct au_br_fhsm {
++#ifdef CONFIG_AUFS_FHSM
++	struct mutex		bf_lock;
++	unsigned long		bf_jiffy;
++	struct aufs_stfs	bf_stfs;
++	int			bf_readable;
++#endif
++};
++
++/* members for writable branch only */
++enum {AuBrWh_BASE, AuBrWh_PLINK, AuBrWh_ORPH, AuBrWh_Last};
++struct au_wbr {
++	struct au_rwsem		wbr_wh_rwsem;
++	struct dentry		*wbr_wh[AuBrWh_Last];
++	atomic_t		wbr_wh_running;
++#define wbr_whbase		wbr_wh[AuBrWh_BASE]	/* whiteout base */
++#define wbr_plink		wbr_wh[AuBrWh_PLINK]	/* pseudo-link dir */
++#define wbr_orph		wbr_wh[AuBrWh_ORPH]	/* dir for orphans */
++
++	/* mfs mode */
++	unsigned long long	wbr_bytes;
++};
++
++/* ext2 has 3 types of operations at least, ext3 has 4 */
++#define AuBrDynOp (AuDyLast * 4)
++
++#ifdef CONFIG_AUFS_HFSNOTIFY
++/* support for asynchronous destruction */
++struct au_br_hfsnotify {
++	struct fsnotify_group	*hfsn_group;
++};
++#endif
++
++/* sysfs entries */
++struct au_brsysfs {
++	char			name[16];
++	struct attribute	attr;
++};
++
++enum {
++	AuBrSysfs_BR,
++	AuBrSysfs_BRID,
++	AuBrSysfs_Last
++};
++
++/* protected by superblock rwsem */
++struct au_branch {
++	struct au_xino_file	br_xino;
++
++	aufs_bindex_t		br_id;
++
++	int			br_perm;
++	struct path		br_path;
++	spinlock_t		br_dykey_lock;
++	struct au_dykey		*br_dykey[AuBrDynOp];
++	struct percpu_counter	br_count;
++
++	struct au_wbr		*br_wbr;
++	struct au_br_fhsm	*br_fhsm;
++
++	/* xino truncation */
++	atomic_t		br_xino_running;
++
++#ifdef CONFIG_AUFS_HFSNOTIFY
++	struct au_br_hfsnotify	*br_hfsn;
++#endif
++
++#ifdef CONFIG_SYSFS
++	/* entries under sysfs per mount-point */
++	struct au_brsysfs	br_sysfs[AuBrSysfs_Last];
++#endif
++};
++
++/* ---------------------------------------------------------------------- */
++
++static inline struct vfsmount *au_br_mnt(struct au_branch *br)
++{
++	return br->br_path.mnt;
++}
++
++static inline struct dentry *au_br_dentry(struct au_branch *br)
++{
++	return br->br_path.dentry;
++}
++
++static inline struct super_block *au_br_sb(struct au_branch *br)
++{
++	return au_br_mnt(br)->mnt_sb;
++}
++
++static inline void au_br_get(struct au_branch *br)
++{
++	percpu_counter_inc(&br->br_count);
++}
++
++static inline void au_br_put(struct au_branch *br)
++{
++	percpu_counter_dec(&br->br_count);
++}
++
++static inline s64 au_br_count(struct au_branch *br)
++{
++	return percpu_counter_sum(&br->br_count);
++}
++
++static inline void au_br_count_init(struct au_branch *br)
++{
++	percpu_counter_init(&br->br_count, 0, GFP_NOFS);
++}
++
++static inline void au_br_count_fin(struct au_branch *br)
++{
++	percpu_counter_destroy(&br->br_count);
++}
++
++static inline int au_br_rdonly(struct au_branch *br)
++{
++	return ((au_br_sb(br)->s_flags & MS_RDONLY)
++		|| !au_br_writable(br->br_perm))
++		? -EROFS : 0;
++}
++
++static inline int au_br_hnotifyable(int brperm __maybe_unused)
++{
++#ifdef CONFIG_AUFS_HNOTIFY
++	return !(brperm & AuBrPerm_RR);
++#else
++	return 0;
++#endif
++}
++
++static inline int au_br_test_oflag(int oflag, struct au_branch *br)
++{
++	int err, exec_flag;
++
++	err = 0;
++	exec_flag = oflag & __FMODE_EXEC;
++	if (unlikely(exec_flag && path_noexec(&br->br_path)))
++		err = -EACCES;
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* branch.c */
++struct au_sbinfo;
++void au_br_free(struct au_sbinfo *sinfo);
++int au_br_index(struct super_block *sb, aufs_bindex_t br_id);
++struct au_opt_add;
++int au_br_add(struct super_block *sb, struct au_opt_add *add, int remount);
++struct au_opt_del;
++int au_br_del(struct super_block *sb, struct au_opt_del *del, int remount);
++long au_ibusy_ioctl(struct file *file, unsigned long arg);
++#ifdef CONFIG_COMPAT
++long au_ibusy_compat_ioctl(struct file *file, unsigned long arg);
++#endif
++struct au_opt_mod;
++int au_br_mod(struct super_block *sb, struct au_opt_mod *mod, int remount,
++	      int *do_refresh);
++struct aufs_stfs;
++int au_br_stfs(struct au_branch *br, struct aufs_stfs *stfs);
++
++/* xino.c */
++static const loff_t au_loff_max = LLONG_MAX;
++
++int au_xib_trunc(struct super_block *sb);
++ssize_t xino_fread(vfs_readf_t func, struct file *file, void *buf, size_t size,
++		   loff_t *pos);
++ssize_t xino_fwrite(vfs_writef_t func, struct file *file, void *buf,
++		    size_t size, loff_t *pos);
++struct file *au_xino_create2(struct file *base_file, struct file *copy_src);
++struct file *au_xino_create(struct super_block *sb, char *fname, int silent);
++ino_t au_xino_new_ino(struct super_block *sb);
++void au_xino_delete_inode(struct inode *inode, const int unlinked);
++int au_xino_write(struct super_block *sb, aufs_bindex_t bindex, ino_t h_ino,
++		  ino_t ino);
++int au_xino_read(struct super_block *sb, aufs_bindex_t bindex, ino_t h_ino,
++		 ino_t *ino);
++int au_xino_br(struct super_block *sb, struct au_branch *br, ino_t hino,
++	       struct file *base_file, int do_test);
++int au_xino_trunc(struct super_block *sb, aufs_bindex_t bindex);
++
++struct au_opt_xino;
++int au_xino_set(struct super_block *sb, struct au_opt_xino *xino, int remount);
++void au_xino_clr(struct super_block *sb);
++struct file *au_xino_def(struct super_block *sb);
++int au_xino_path(struct seq_file *seq, struct file *file);
++
++void au_xinondir_leave(struct super_block *sb, aufs_bindex_t bindex,
++		       ino_t h_ino, int idx);
++int au_xinondir_enter(struct super_block *sb, aufs_bindex_t bindex, ino_t h_ino,
++		      int *idx);
++
++/* ---------------------------------------------------------------------- */
++
++/* Superblock to branch */
++static inline
++aufs_bindex_t au_sbr_id(struct super_block *sb, aufs_bindex_t bindex)
++{
++	return au_sbr(sb, bindex)->br_id;
++}
++
++static inline
++struct vfsmount *au_sbr_mnt(struct super_block *sb, aufs_bindex_t bindex)
++{
++	return au_br_mnt(au_sbr(sb, bindex));
++}
++
++static inline
++struct super_block *au_sbr_sb(struct super_block *sb, aufs_bindex_t bindex)
++{
++	return au_br_sb(au_sbr(sb, bindex));
++}
++
++static inline void au_sbr_get(struct super_block *sb, aufs_bindex_t bindex)
++{
++	au_br_get(au_sbr(sb, bindex));
++}
++
++static inline void au_sbr_put(struct super_block *sb, aufs_bindex_t bindex)
++{
++	au_br_put(au_sbr(sb, bindex));
++}
++
++static inline int au_sbr_perm(struct super_block *sb, aufs_bindex_t bindex)
++{
++	return au_sbr(sb, bindex)->br_perm;
++}
++
++static inline int au_sbr_whable(struct super_block *sb, aufs_bindex_t bindex)
++{
++	return au_br_whable(au_sbr_perm(sb, bindex));
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * wbr_wh_read_lock, wbr_wh_write_lock
++ * wbr_wh_read_unlock, wbr_wh_write_unlock, wbr_wh_downgrade_lock
++ */
++AuSimpleRwsemFuncs(wbr_wh, struct au_wbr *wbr, &wbr->wbr_wh_rwsem);
++
++#define WbrWhMustNoWaiters(wbr)	AuRwMustNoWaiters(&wbr->wbr_wh_rwsem)
++#define WbrWhMustAnyLock(wbr)	AuRwMustAnyLock(&wbr->wbr_wh_rwsem)
++#define WbrWhMustWriteLock(wbr)	AuRwMustWriteLock(&wbr->wbr_wh_rwsem)
++
++/* ---------------------------------------------------------------------- */
++
++#ifdef CONFIG_AUFS_FHSM
++static inline void au_br_fhsm_init(struct au_br_fhsm *brfhsm)
++{
++	mutex_init(&brfhsm->bf_lock);
++	brfhsm->bf_jiffy = 0;
++	brfhsm->bf_readable = 0;
++}
++
++static inline void au_br_fhsm_fin(struct au_br_fhsm *brfhsm)
++{
++	mutex_destroy(&brfhsm->bf_lock);
++}
++#else
++AuStubVoid(au_br_fhsm_init, struct au_br_fhsm *brfhsm)
++AuStubVoid(au_br_fhsm_fin, struct au_br_fhsm *brfhsm)
++#endif
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_BRANCH_H__ */
+diff --git a/fs/aufs/conf.mk b/fs/aufs/conf.mk
+new file mode 100755
+index 0000000..0bbb2d3
+--- /dev/null
++++ b/fs/aufs/conf.mk
+@@ -0,0 +1,38 @@
++
++AuConfStr = CONFIG_AUFS_FS=${CONFIG_AUFS_FS}
++
++define AuConf
++ifdef ${1}
++AuConfStr += ${1}=${${1}}
++endif
++endef
++
++AuConfAll = BRANCH_MAX_127 BRANCH_MAX_511 BRANCH_MAX_1023 BRANCH_MAX_32767 \
++	SBILIST \
++	HNOTIFY HFSNOTIFY \
++	EXPORT INO_T_64 \
++	XATTR \
++	FHSM \
++	RDU \
++	SHWH \
++	BR_RAMFS \
++	BR_FUSE POLL \
++	BR_HFSPLUS \
++	BDEV_LOOP \
++	DEBUG MAGIC_SYSRQ
++$(foreach i, ${AuConfAll}, \
++	$(eval $(call AuConf,CONFIG_AUFS_${i})))
++
++AuConfName = ${obj}/conf.str
++${AuConfName}.tmp: FORCE
++	@echo ${AuConfStr} | tr ' ' '\n' | sed -e 's/^/"/' -e 's/$$/\\n"/' > $@
++${AuConfName}: ${AuConfName}.tmp
++	@diff -q $< $@ > /dev/null 2>&1 || { \
++	echo '  GEN    ' $@; \
++	cp -p $< $@; \
++	}
++FORCE:
++clean-files += ${AuConfName} ${AuConfName}.tmp
++${obj}/sysfs.o: ${AuConfName}
++
++-include ${srctree}/${src}/conf_priv.mk
+diff --git a/fs/aufs/cpup.c b/fs/aufs/cpup.c
+new file mode 100755
+index 0000000..39bd575
+--- /dev/null
++++ b/fs/aufs/cpup.c
+@@ -0,0 +1,1442 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * copy-up functions, see wbr_policy.c for copy-down
++ */
++
++#include <linux/fs_stack.h>
++#include <linux/mm.h>
++#include <linux/task_work.h>
++#include "aufs.h"
++
++void au_cpup_attr_flags(struct inode *dst, unsigned int iflags)
++{
++	const unsigned int mask = S_DEAD | S_SWAPFILE | S_PRIVATE
++		| S_NOATIME | S_NOCMTIME | S_AUTOMOUNT;
++
++	BUILD_BUG_ON(sizeof(iflags) != sizeof(dst->i_flags));
++
++	dst->i_flags |= iflags & ~mask;
++	if (au_test_fs_notime(dst->i_sb))
++		dst->i_flags |= S_NOATIME | S_NOCMTIME;
++}
++
++void au_cpup_attr_timesizes(struct inode *inode)
++{
++	struct inode *h_inode;
++
++	h_inode = au_h_iptr(inode, au_ibtop(inode));
++	fsstack_copy_attr_times(inode, h_inode);
++	fsstack_copy_inode_size(inode, h_inode);
++}
++
++void au_cpup_attr_nlink(struct inode *inode, int force)
++{
++	struct inode *h_inode;
++	struct super_block *sb;
++	aufs_bindex_t bindex, bbot;
++
++	sb = inode->i_sb;
++	bindex = au_ibtop(inode);
++	h_inode = au_h_iptr(inode, bindex);
++	if (!force
++	    && !S_ISDIR(h_inode->i_mode)
++	    && au_opt_test(au_mntflags(sb), PLINK)
++	    && au_plink_test(inode))
++		return;
++
++	/*
++	 * 0 can happen in revalidating.
++	 * h_inode->i_mutex may not be held here, but it is harmless since once
++	 * i_nlink reaches 0, it will never become positive except O_TMPFILE
++	 * case.
++	 * todo: O_TMPFILE+linkat(AT_SYMLINK_FOLLOW) bypassing aufs may cause
++	 *	 the incorrect link count.
++	 */
++	set_nlink(inode, h_inode->i_nlink);
++
++	/*
++	 * fewer nlink makes find(1) noisy, but larger nlink doesn't.
++	 * it may includes whplink directory.
++	 */
++	if (S_ISDIR(h_inode->i_mode)) {
++		bbot = au_ibbot(inode);
++		for (bindex++; bindex <= bbot; bindex++) {
++			h_inode = au_h_iptr(inode, bindex);
++			if (h_inode)
++				au_add_nlink(inode, h_inode);
++		}
++	}
++}
++
++void au_cpup_attr_changeable(struct inode *inode)
++{
++	struct inode *h_inode;
++
++	h_inode = au_h_iptr(inode, au_ibtop(inode));
++	inode->i_mode = h_inode->i_mode;
++	inode->i_uid = h_inode->i_uid;
++	inode->i_gid = h_inode->i_gid;
++	au_cpup_attr_timesizes(inode);
++	au_cpup_attr_flags(inode, h_inode->i_flags);
++}
++
++void au_cpup_igen(struct inode *inode, struct inode *h_inode)
++{
++	struct au_iinfo *iinfo = au_ii(inode);
++
++	IiMustWriteLock(inode);
++
++	iinfo->ii_higen = h_inode->i_generation;
++	iinfo->ii_hsb1 = h_inode->i_sb;
++}
++
++void au_cpup_attr_all(struct inode *inode, int force)
++{
++	struct inode *h_inode;
++
++	h_inode = au_h_iptr(inode, au_ibtop(inode));
++	au_cpup_attr_changeable(inode);
++	if (inode->i_nlink > 0)
++		au_cpup_attr_nlink(inode, force);
++	inode->i_rdev = h_inode->i_rdev;
++	inode->i_blkbits = h_inode->i_blkbits;
++	au_cpup_igen(inode, h_inode);
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* Note: dt_dentry and dt_h_dentry are not dget/dput-ed */
++
++/* keep the timestamps of the parent dir when cpup */
++void au_dtime_store(struct au_dtime *dt, struct dentry *dentry,
++		    struct path *h_path)
++{
++	struct inode *h_inode;
++
++	dt->dt_dentry = dentry;
++	dt->dt_h_path = *h_path;
++	h_inode = d_inode(h_path->dentry);
++	dt->dt_atime = h_inode->i_atime;
++	dt->dt_mtime = h_inode->i_mtime;
++	/* smp_mb(); */
++}
++
++void au_dtime_revert(struct au_dtime *dt)
++{
++	struct iattr attr;
++	int err;
++
++	attr.ia_atime = dt->dt_atime;
++	attr.ia_mtime = dt->dt_mtime;
++	attr.ia_valid = ATTR_FORCE | ATTR_MTIME | ATTR_MTIME_SET
++		| ATTR_ATIME | ATTR_ATIME_SET;
++
++	/* no delegation since this is a directory */
++	err = vfsub_notify_change(&dt->dt_h_path, &attr, /*delegated*/NULL);
++	if (unlikely(err))
++		pr_warn("restoring timestamps failed(%d). ignored\n", err);
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* internal use only */
++struct au_cpup_reg_attr {
++	int		valid;
++	struct kstat	st;
++	unsigned int	iflags; /* inode->i_flags */
++};
++
++static noinline_for_stack
++int cpup_iattr(struct dentry *dst, aufs_bindex_t bindex, struct dentry *h_src,
++	       struct au_cpup_reg_attr *h_src_attr)
++{
++	int err, sbits, icex;
++	unsigned int mnt_flags;
++	unsigned char verbose;
++	struct iattr ia;
++	struct path h_path;
++	struct inode *h_isrc, *h_idst;
++	struct kstat *h_st;
++	struct au_branch *br;
++
++	h_path.dentry = au_h_dptr(dst, bindex);
++	h_idst = d_inode(h_path.dentry);
++	br = au_sbr(dst->d_sb, bindex);
++	h_path.mnt = au_br_mnt(br);
++	h_isrc = d_inode(h_src);
++	ia.ia_valid = ATTR_FORCE | ATTR_UID | ATTR_GID
++		| ATTR_ATIME | ATTR_MTIME
++		| ATTR_ATIME_SET | ATTR_MTIME_SET;
++	if (h_src_attr && h_src_attr->valid) {
++		h_st = &h_src_attr->st;
++		ia.ia_uid = h_st->uid;
++		ia.ia_gid = h_st->gid;
++		ia.ia_atime = h_st->atime;
++		ia.ia_mtime = h_st->mtime;
++		if (h_idst->i_mode != h_st->mode
++		    && !S_ISLNK(h_idst->i_mode)) {
++			ia.ia_valid |= ATTR_MODE;
++			ia.ia_mode = h_st->mode;
++		}
++		sbits = !!(h_st->mode & (S_ISUID | S_ISGID));
++		au_cpup_attr_flags(h_idst, h_src_attr->iflags);
++	} else {
++		ia.ia_uid = h_isrc->i_uid;
++		ia.ia_gid = h_isrc->i_gid;
++		ia.ia_atime = h_isrc->i_atime;
++		ia.ia_mtime = h_isrc->i_mtime;
++		if (h_idst->i_mode != h_isrc->i_mode
++		    && !S_ISLNK(h_idst->i_mode)) {
++			ia.ia_valid |= ATTR_MODE;
++			ia.ia_mode = h_isrc->i_mode;
++		}
++		sbits = !!(h_isrc->i_mode & (S_ISUID | S_ISGID));
++		au_cpup_attr_flags(h_idst, h_isrc->i_flags);
++	}
++	/* no delegation since it is just created */
++	err = vfsub_notify_change(&h_path, &ia, /*delegated*/NULL);
++
++	/* is this nfs only? */
++	if (!err && sbits && au_test_nfs(h_path.dentry->d_sb)) {
++		ia.ia_valid = ATTR_FORCE | ATTR_MODE;
++		ia.ia_mode = h_isrc->i_mode;
++		err = vfsub_notify_change(&h_path, &ia, /*delegated*/NULL);
++	}
++
++	icex = br->br_perm & AuBrAttr_ICEX;
++	if (!err) {
++		mnt_flags = au_mntflags(dst->d_sb);
++		verbose = !!au_opt_test(mnt_flags, VERBOSE);
++		err = au_cpup_xattr(h_path.dentry, h_src, icex, verbose);
++	}
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int au_do_copy_file(struct file *dst, struct file *src, loff_t len,
++			   char *buf, unsigned long blksize)
++{
++	int err;
++	size_t sz, rbytes, wbytes;
++	unsigned char all_zero;
++	char *p, *zp;
++	struct inode *h_inode;
++	/* reduce stack usage */
++	struct iattr *ia;
++
++	zp = page_address(ZERO_PAGE(0));
++	if (unlikely(!zp))
++		return -ENOMEM; /* possible? */
++
++	err = 0;
++	all_zero = 0;
++	while (len) {
++		AuDbg("len %lld\n", len);
++		sz = blksize;
++		if (len < blksize)
++			sz = len;
++
++		rbytes = 0;
++		/* todo: signal_pending? */
++		while (!rbytes || err == -EAGAIN || err == -EINTR) {
++			rbytes = vfsub_read_k(src, buf, sz, &src->f_pos);
++			err = rbytes;
++		}
++		if (unlikely(err < 0))
++			break;
++
++		all_zero = 0;
++		if (len >= rbytes && rbytes == blksize)
++			all_zero = !memcmp(buf, zp, rbytes);
++		if (!all_zero) {
++			wbytes = rbytes;
++			p = buf;
++			while (wbytes) {
++				size_t b;
++
++				b = vfsub_write_k(dst, p, wbytes, &dst->f_pos);
++				err = b;
++				/* todo: signal_pending? */
++				if (unlikely(err == -EAGAIN || err == -EINTR))
++					continue;
++				if (unlikely(err < 0))
++					break;
++				wbytes -= b;
++				p += b;
++			}
++			if (unlikely(err < 0))
++				break;
++		} else {
++			loff_t res;
++
++			AuLabel(hole);
++			res = vfsub_llseek(dst, rbytes, SEEK_CUR);
++			err = res;
++			if (unlikely(res < 0))
++				break;
++		}
++		len -= rbytes;
++		err = 0;
++	}
++
++	/* the last block may be a hole */
++	if (!err && all_zero) {
++		AuLabel(last hole);
++
++		err = 1;
++		if (au_test_nfs(dst->f_path.dentry->d_sb)) {
++			/* nfs requires this step to make last hole */
++			/* is this only nfs? */
++			do {
++				/* todo: signal_pending? */
++				err = vfsub_write_k(dst, "\0", 1, &dst->f_pos);
++			} while (err == -EAGAIN || err == -EINTR);
++			if (err == 1)
++				dst->f_pos--;
++		}
++
++		if (err == 1) {
++			ia = (void *)buf;
++			ia->ia_size = dst->f_pos;
++			ia->ia_valid = ATTR_SIZE | ATTR_FILE;
++			ia->ia_file = dst;
++			h_inode = file_inode(dst);
++			inode_lock_nested(h_inode, AuLsc_I_CHILD2);
++			/* no delegation since it is just created */
++			err = vfsub_notify_change(&dst->f_path, ia,
++						  /*delegated*/NULL);
++			inode_unlock(h_inode);
++		}
++	}
++
++	return err;
++}
++
++int au_copy_file(struct file *dst, struct file *src, loff_t len)
++{
++	int err;
++	unsigned long blksize;
++	unsigned char do_kfree;
++	char *buf;
++
++	err = -ENOMEM;
++	blksize = dst->f_path.dentry->d_sb->s_blocksize;
++	if (!blksize || PAGE_SIZE < blksize)
++		blksize = PAGE_SIZE;
++	AuDbg("blksize %lu\n", blksize);
++	do_kfree = (blksize != PAGE_SIZE && blksize >= sizeof(struct iattr *));
++	if (do_kfree)
++		buf = kmalloc(blksize, GFP_NOFS);
++	else
++		buf = (void *)__get_free_page(GFP_NOFS);
++	if (unlikely(!buf))
++		goto out;
++
++	if (len > (1 << 22))
++		AuDbg("copying a large file %lld\n", (long long)len);
++
++	src->f_pos = 0;
++	dst->f_pos = 0;
++	err = au_do_copy_file(dst, src, len, buf, blksize);
++	if (do_kfree)
++		kfree(buf);
++	else
++		free_page((unsigned long)buf);
++
++out:
++	return err;
++}
++
++static int au_do_copy(struct file *dst, struct file *src, loff_t len)
++{
++	int err;
++	struct super_block *h_src_sb;
++	struct inode *h_src_inode;
++
++	h_src_inode = file_inode(src);
++	h_src_sb = h_src_inode->i_sb;
++
++	/* XFS acquires inode_lock */
++	if (!au_test_xfs(h_src_sb))
++		err = au_copy_file(dst, src, len);
++	else {
++		inode_unlock_shared(h_src_inode);
++		err = au_copy_file(dst, src, len);
++		vfsub_inode_lock_shared_nested(h_src_inode, AuLsc_I_CHILD);
++	}
++
++	return err;
++}
++
++static int au_clone_or_copy(struct file *dst, struct file *src, loff_t len)
++{
++	int err;
++	struct super_block *h_src_sb;
++	struct inode *h_src_inode;
++
++	h_src_inode = file_inode(src);
++	h_src_sb = h_src_inode->i_sb;
++	if (h_src_sb != file_inode(dst)->i_sb
++	    || !dst->f_op->clone_file_range) {
++		err = au_do_copy(dst, src, len);
++		goto out;
++	}
++
++	if (!au_test_nfs(h_src_sb)) {
++		inode_unlock_shared(h_src_inode);
++		err = vfsub_clone_file_range(src, dst, len);
++		vfsub_inode_lock_shared_nested(h_src_inode, AuLsc_I_CHILD);
++	} else
++		err = vfsub_clone_file_range(src, dst, len);
++	/* older XFS has a condition in cloning */
++	if (unlikely(err != -EOPNOTSUPP))
++		goto out;
++
++	/* the backend fs on NFS may not support cloning */
++	err = au_do_copy(dst, src, len);
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++/*
++ * to support a sparse file which is opened with O_APPEND,
++ * we need to close the file.
++ */
++static int au_cp_regular(struct au_cp_generic *cpg)
++{
++	int err, i;
++	enum { SRC, DST };
++	struct {
++		aufs_bindex_t bindex;
++		unsigned int flags;
++		struct dentry *dentry;
++		int force_wr;
++		struct file *file;
++		void *label;
++	} *f, file[] = {
++		{
++			.bindex = cpg->bsrc,
++			.flags = O_RDONLY | O_NOATIME | O_LARGEFILE,
++			.label = &&out
++		},
++		{
++			.bindex = cpg->bdst,
++			.flags = O_WRONLY | O_NOATIME | O_LARGEFILE,
++			.force_wr = !!au_ftest_cpup(cpg->flags, RWDST),
++			.label = &&out_src
++		}
++	};
++	struct super_block *sb, *h_src_sb;
++	struct inode *h_src_inode;
++	struct task_struct *tsk = current;
++
++	/* bsrc branch can be ro/rw. */
++	sb = cpg->dentry->d_sb;
++	f = file;
++	for (i = 0; i < 2; i++, f++) {
++		f->dentry = au_h_dptr(cpg->dentry, f->bindex);
++		f->file = au_h_open(cpg->dentry, f->bindex, f->flags,
++				    /*file*/NULL, f->force_wr);
++		err = PTR_ERR(f->file);
++		if (IS_ERR(f->file))
++			goto *f->label;
++	}
++
++	/* try stopping to update while we copyup */
++	h_src_inode = d_inode(file[SRC].dentry);
++	h_src_sb = h_src_inode->i_sb;
++	if (!au_test_nfs(h_src_sb))
++		IMustLock(h_src_inode);
++	err = au_clone_or_copy(file[DST].file, file[SRC].file, cpg->len);
++
++	/* i wonder if we had O_NO_DELAY_FPUT flag */
++	if (tsk->flags & PF_KTHREAD)
++		__fput_sync(file[DST].file);
++	else {
++		WARN(1, "%pD\nPlease report this warning to aufs-users ML",
++		     file[DST].file);
++		fput(file[DST].file);
++		/*
++		 * too bad.
++		 * we have to call both since we don't know which place the file
++		 * was added to.
++		 */
++		task_work_run();
++		flush_delayed_fput();
++	}
++	au_sbr_put(sb, file[DST].bindex);
++
++out_src:
++	fput(file[SRC].file);
++	au_sbr_put(sb, file[SRC].bindex);
++out:
++	return err;
++}
++
++static int au_do_cpup_regular(struct au_cp_generic *cpg,
++			      struct au_cpup_reg_attr *h_src_attr)
++{
++	int err, rerr;
++	loff_t l;
++	struct path h_path;
++	struct inode *h_src_inode, *h_dst_inode;
++
++	err = 0;
++	h_src_inode = au_h_iptr(d_inode(cpg->dentry), cpg->bsrc);
++	l = i_size_read(h_src_inode);
++	if (cpg->len == -1 || l < cpg->len)
++		cpg->len = l;
++	if (cpg->len) {
++		/* try stopping to update while we are referencing */
++		vfsub_inode_lock_shared_nested(h_src_inode, AuLsc_I_CHILD);
++		au_pin_hdir_unlock(cpg->pin);
++
++		h_path.dentry = au_h_dptr(cpg->dentry, cpg->bsrc);
++		h_path.mnt = au_sbr_mnt(cpg->dentry->d_sb, cpg->bsrc);
++		h_src_attr->iflags = h_src_inode->i_flags;
++		if (!au_test_nfs(h_src_inode->i_sb))
++			err = vfsub_getattr(&h_path, &h_src_attr->st);
++		else {
++			inode_unlock_shared(h_src_inode);
++			err = vfsub_getattr(&h_path, &h_src_attr->st);
++			vfsub_inode_lock_shared_nested(h_src_inode, AuLsc_I_CHILD);
++		}
++		if (unlikely(err)) {
++			inode_unlock_shared(h_src_inode);
++			goto out;
++		}
++		h_src_attr->valid = 1;
++		if (!au_test_nfs(h_src_inode->i_sb)) {
++			err = au_cp_regular(cpg);
++			inode_unlock_shared(h_src_inode);
++		} else {
++			inode_unlock_shared(h_src_inode);
++			err = au_cp_regular(cpg);
++		}
++		rerr = au_pin_hdir_relock(cpg->pin);
++		if (!err && rerr)
++			err = rerr;
++	}
++	if (!err && (h_src_inode->i_state & I_LINKABLE)) {
++		h_path.dentry = au_h_dptr(cpg->dentry, cpg->bdst);
++		h_dst_inode = d_inode(h_path.dentry);
++		spin_lock(&h_dst_inode->i_lock);
++		h_dst_inode->i_state |= I_LINKABLE;
++		spin_unlock(&h_dst_inode->i_lock);
++	}
++
++out:
++	return err;
++}
++
++static int au_do_cpup_symlink(struct path *h_path, struct dentry *h_src,
++			      struct inode *h_dir)
++{
++	int err, symlen;
++	mm_segment_t old_fs;
++	union {
++		char *k;
++		char __user *u;
++	} sym;
++
++	err = -ENOMEM;
++	sym.k = (void *)__get_free_page(GFP_NOFS);
++	if (unlikely(!sym.k))
++		goto out;
++
++	/* unnecessary to support mmap_sem since symlink is not mmap-able */
++	old_fs = get_fs();
++	set_fs(KERNEL_DS);
++	symlen = vfs_readlink(h_src, sym.u, PATH_MAX);
++	err = symlen;
++	set_fs(old_fs);
++
++	if (symlen > 0) {
++		sym.k[symlen] = 0;
++		err = vfsub_symlink(h_dir, h_path, sym.k);
++	}
++	free_page((unsigned long)sym.k);
++
++out:
++	return err;
++}
++
++/*
++ * regardless 'acl' option, reset all ACL.
++ * All ACL will be copied up later from the original entry on the lower branch.
++ */
++static int au_reset_acl(struct inode *h_dir, struct path *h_path, umode_t mode)
++{
++	int err;
++	struct dentry *h_dentry;
++	struct inode *h_inode;
++
++	h_dentry = h_path->dentry;
++	h_inode = d_inode(h_dentry);
++	/* forget_all_cached_acls(h_inode)); */
++	err = vfsub_removexattr(h_dentry, XATTR_NAME_POSIX_ACL_ACCESS);
++	AuTraceErr(err);
++	if (err == -EOPNOTSUPP)
++		err = 0;
++	if (!err)
++		err = vfsub_acl_chmod(h_inode, mode);
++
++	AuTraceErr(err);
++	return err;
++}
++
++static int au_do_cpup_dir(struct au_cp_generic *cpg, struct dentry *dst_parent,
++			  struct inode *h_dir, struct path *h_path)
++{
++	int err;
++	struct inode *dir, *inode;
++
++	err = vfsub_removexattr(h_path->dentry, XATTR_NAME_POSIX_ACL_DEFAULT);
++	AuTraceErr(err);
++	if (err == -EOPNOTSUPP)
++		err = 0;
++	if (unlikely(err))
++		goto out;
++
++	/*
++	 * strange behaviour from the users view,
++	 * particularry setattr case
++	 */
++	dir = d_inode(dst_parent);
++	if (au_ibtop(dir) == cpg->bdst)
++		au_cpup_attr_nlink(dir, /*force*/1);
++	inode = d_inode(cpg->dentry);
++	au_cpup_attr_nlink(inode, /*force*/1);
++
++out:
++	return err;
++}
++
++static noinline_for_stack
++int cpup_entry(struct au_cp_generic *cpg, struct dentry *dst_parent,
++	       struct au_cpup_reg_attr *h_src_attr)
++{
++	int err;
++	umode_t mode;
++	unsigned int mnt_flags;
++	unsigned char isdir, isreg, force;
++	const unsigned char do_dt = !!au_ftest_cpup(cpg->flags, DTIME);
++	struct au_dtime dt;
++	struct path h_path;
++	struct dentry *h_src, *h_dst, *h_parent;
++	struct inode *h_inode, *h_dir;
++	struct super_block *sb;
++
++	/* bsrc branch can be ro/rw. */
++	h_src = au_h_dptr(cpg->dentry, cpg->bsrc);
++	h_inode = d_inode(h_src);
++	AuDebugOn(h_inode != au_h_iptr(d_inode(cpg->dentry), cpg->bsrc));
++
++	/* try stopping to be referenced while we are creating */
++	h_dst = au_h_dptr(cpg->dentry, cpg->bdst);
++	if (au_ftest_cpup(cpg->flags, RENAME))
++		AuDebugOn(strncmp(h_dst->d_name.name, AUFS_WH_PFX,
++				  AUFS_WH_PFX_LEN));
++	h_parent = h_dst->d_parent; /* dir inode is locked */
++	h_dir = d_inode(h_parent);
++	IMustLock(h_dir);
++	AuDebugOn(h_parent != h_dst->d_parent);
++
++	sb = cpg->dentry->d_sb;
++	h_path.mnt = au_sbr_mnt(sb, cpg->bdst);
++	if (do_dt) {
++		h_path.dentry = h_parent;
++		au_dtime_store(&dt, dst_parent, &h_path);
++	}
++	h_path.dentry = h_dst;
++
++	isreg = 0;
++	isdir = 0;
++	mode = h_inode->i_mode;
++	switch (mode & S_IFMT) {
++	case S_IFREG:
++		isreg = 1;
++		err = vfsub_create(h_dir, &h_path, S_IRUSR | S_IWUSR,
++				   /*want_excl*/true);
++		if (!err)
++			err = au_do_cpup_regular(cpg, h_src_attr);
++		break;
++	case S_IFDIR:
++		isdir = 1;
++		err = vfsub_mkdir(h_dir, &h_path, mode);
++		if (!err)
++			err = au_do_cpup_dir(cpg, dst_parent, h_dir, &h_path);
++		break;
++	case S_IFLNK:
++		err = au_do_cpup_symlink(&h_path, h_src, h_dir);
++		break;
++	case S_IFCHR:
++	case S_IFBLK:
++		AuDebugOn(!capable(CAP_MKNOD));
++		/*FALLTHROUGH*/
++	case S_IFIFO:
++	case S_IFSOCK:
++		err = vfsub_mknod(h_dir, &h_path, mode, h_inode->i_rdev);
++		break;
++	default:
++		AuIOErr("Unknown inode type 0%o\n", mode);
++		err = -EIO;
++	}
++	if (!err)
++		err = au_reset_acl(h_dir, &h_path, mode);
++
++	mnt_flags = au_mntflags(sb);
++	if (!au_opt_test(mnt_flags, UDBA_NONE)
++	    && !isdir
++	    && au_opt_test(mnt_flags, XINO)
++	    && (h_inode->i_nlink == 1
++		|| (h_inode->i_state & I_LINKABLE))
++	    /* todo: unnecessary? */
++	    /* && d_inode(cpg->dentry)->i_nlink == 1 */
++	    && cpg->bdst < cpg->bsrc
++	    && !au_ftest_cpup(cpg->flags, KEEPLINO))
++		au_xino_write(sb, cpg->bsrc, h_inode->i_ino, /*ino*/0);
++		/* ignore this error */
++
++	if (!err) {
++		force = 0;
++		if (isreg) {
++			force = !!cpg->len;
++			if (cpg->len == -1)
++				force = !!i_size_read(h_inode);
++		}
++		au_fhsm_wrote(sb, cpg->bdst, force);
++	}
++
++	if (do_dt)
++		au_dtime_revert(&dt);
++	return err;
++}
++
++static int au_do_ren_after_cpup(struct au_cp_generic *cpg, struct path *h_path)
++{
++	int err;
++	struct dentry *dentry, *h_dentry, *h_parent, *parent;
++	struct inode *h_dir;
++	aufs_bindex_t bdst;
++
++	dentry = cpg->dentry;
++	bdst = cpg->bdst;
++	h_dentry = au_h_dptr(dentry, bdst);
++	if (!au_ftest_cpup(cpg->flags, OVERWRITE)) {
++		dget(h_dentry);
++		au_set_h_dptr(dentry, bdst, NULL);
++		err = au_lkup_neg(dentry, bdst, /*wh*/0);
++		if (!err)
++			h_path->dentry = dget(au_h_dptr(dentry, bdst));
++		au_set_h_dptr(dentry, bdst, h_dentry);
++	} else {
++		err = 0;
++		parent = dget_parent(dentry);
++		h_parent = au_h_dptr(parent, bdst);
++		dput(parent);
++		h_path->dentry = vfsub_lkup_one(&dentry->d_name, h_parent);
++		if (IS_ERR(h_path->dentry))
++			err = PTR_ERR(h_path->dentry);
++	}
++	if (unlikely(err))
++		goto out;
++
++	h_parent = h_dentry->d_parent; /* dir inode is locked */
++	h_dir = d_inode(h_parent);
++	IMustLock(h_dir);
++	AuDbg("%pd %pd\n", h_dentry, h_path->dentry);
++	/* no delegation since it is just created */
++	err = vfsub_rename(h_dir, h_dentry, h_dir, h_path, /*delegated*/NULL,
++			   /*flags*/0);
++	dput(h_path->dentry);
++
++out:
++	return err;
++}
++
++/*
++ * copyup the @dentry from @bsrc to @bdst.
++ * the caller must set the both of lower dentries.
++ * @len is for truncating when it is -1 copyup the entire file.
++ * in link/rename cases, @dst_parent may be different from the real one.
++ * basic->bsrc can be larger than basic->bdst.
++ * aufs doesn't touch the credential so
++ * security_inode_copy_up{,_xattr}() are unnecrssary.
++ */
++static int au_cpup_single(struct au_cp_generic *cpg, struct dentry *dst_parent)
++{
++	int err, rerr;
++	aufs_bindex_t old_ibtop;
++	unsigned char isdir, plink;
++	struct dentry *h_src, *h_dst, *h_parent;
++	struct inode *dst_inode, *h_dir, *inode, *delegated, *src_inode;
++	struct super_block *sb;
++	struct au_branch *br;
++	/* to reuduce stack size */
++	struct {
++		struct au_dtime dt;
++		struct path h_path;
++		struct au_cpup_reg_attr h_src_attr;
++	} *a;
++
++	err = -ENOMEM;
++	a = kmalloc(sizeof(*a), GFP_NOFS);
++	if (unlikely(!a))
++		goto out;
++	a->h_src_attr.valid = 0;
++
++	sb = cpg->dentry->d_sb;
++	br = au_sbr(sb, cpg->bdst);
++	a->h_path.mnt = au_br_mnt(br);
++	h_dst = au_h_dptr(cpg->dentry, cpg->bdst);
++	h_parent = h_dst->d_parent; /* dir inode is locked */
++	h_dir = d_inode(h_parent);
++	IMustLock(h_dir);
++
++	h_src = au_h_dptr(cpg->dentry, cpg->bsrc);
++	inode = d_inode(cpg->dentry);
++
++	if (!dst_parent)
++		dst_parent = dget_parent(cpg->dentry);
++	else
++		dget(dst_parent);
++
++	plink = !!au_opt_test(au_mntflags(sb), PLINK);
++	dst_inode = au_h_iptr(inode, cpg->bdst);
++	if (dst_inode) {
++		if (unlikely(!plink)) {
++			err = -EIO;
++			AuIOErr("hi%lu(i%lu) exists on b%d "
++				"but plink is disabled\n",
++				dst_inode->i_ino, inode->i_ino, cpg->bdst);
++			goto out_parent;
++		}
++
++		if (dst_inode->i_nlink) {
++			const int do_dt = au_ftest_cpup(cpg->flags, DTIME);
++
++			h_src = au_plink_lkup(inode, cpg->bdst);
++			err = PTR_ERR(h_src);
++			if (IS_ERR(h_src))
++				goto out_parent;
++			if (unlikely(d_is_negative(h_src))) {
++				err = -EIO;
++				AuIOErr("i%lu exists on b%d "
++					"but not pseudo-linked\n",
++					inode->i_ino, cpg->bdst);
++				dput(h_src);
++				goto out_parent;
++			}
++
++			if (do_dt) {
++				a->h_path.dentry = h_parent;
++				au_dtime_store(&a->dt, dst_parent, &a->h_path);
++			}
++
++			a->h_path.dentry = h_dst;
++			delegated = NULL;
++			err = vfsub_link(h_src, h_dir, &a->h_path, &delegated);
++			if (!err && au_ftest_cpup(cpg->flags, RENAME))
++				err = au_do_ren_after_cpup(cpg, &a->h_path);
++			if (do_dt)
++				au_dtime_revert(&a->dt);
++			if (unlikely(err == -EWOULDBLOCK)) {
++				pr_warn("cannot retry for NFSv4 delegation"
++					" for an internal link\n");
++				iput(delegated);
++			}
++			dput(h_src);
++			goto out_parent;
++		} else
++			/* todo: cpup_wh_file? */
++			/* udba work */
++			au_update_ibrange(inode, /*do_put_zero*/1);
++	}
++
++	isdir = S_ISDIR(inode->i_mode);
++	old_ibtop = au_ibtop(inode);
++	err = cpup_entry(cpg, dst_parent, &a->h_src_attr);
++	if (unlikely(err))
++		goto out_rev;
++	dst_inode = d_inode(h_dst);
++	inode_lock_nested(dst_inode, AuLsc_I_CHILD2);
++	/* todo: necessary? */
++	/* au_pin_hdir_unlock(cpg->pin); */
++
++	err = cpup_iattr(cpg->dentry, cpg->bdst, h_src, &a->h_src_attr);
++	if (unlikely(err)) {
++		/* todo: necessary? */
++		/* au_pin_hdir_relock(cpg->pin); */ /* ignore an error */
++		inode_unlock(dst_inode);
++		goto out_rev;
++	}
++
++	if (cpg->bdst < old_ibtop) {
++		if (S_ISREG(inode->i_mode)) {
++			err = au_dy_iaop(inode, cpg->bdst, dst_inode);
++			if (unlikely(err)) {
++				/* ignore an error */
++				/* au_pin_hdir_relock(cpg->pin); */
++				inode_unlock(dst_inode);
++				goto out_rev;
++			}
++		}
++		au_set_ibtop(inode, cpg->bdst);
++	} else
++		au_set_ibbot(inode, cpg->bdst);
++	au_set_h_iptr(inode, cpg->bdst, au_igrab(dst_inode),
++		      au_hi_flags(inode, isdir));
++
++	/* todo: necessary? */
++	/* err = au_pin_hdir_relock(cpg->pin); */
++	inode_unlock(dst_inode);
++	if (unlikely(err))
++		goto out_rev;
++
++	src_inode = d_inode(h_src);
++	if (!isdir
++	    && (src_inode->i_nlink > 1
++		|| src_inode->i_state & I_LINKABLE)
++	    && plink)
++		au_plink_append(inode, cpg->bdst, h_dst);
++
++	if (au_ftest_cpup(cpg->flags, RENAME)) {
++		a->h_path.dentry = h_dst;
++		err = au_do_ren_after_cpup(cpg, &a->h_path);
++	}
++	if (!err)
++		goto out_parent; /* success */
++
++	/* revert */
++out_rev:
++	a->h_path.dentry = h_parent;
++	au_dtime_store(&a->dt, dst_parent, &a->h_path);
++	a->h_path.dentry = h_dst;
++	rerr = 0;
++	if (d_is_positive(h_dst)) {
++		if (!isdir) {
++			/* no delegation since it is just created */
++			rerr = vfsub_unlink(h_dir, &a->h_path,
++					    /*delegated*/NULL, /*force*/0);
++		} else
++			rerr = vfsub_rmdir(h_dir, &a->h_path);
++	}
++	au_dtime_revert(&a->dt);
++	if (rerr) {
++		AuIOErr("failed removing broken entry(%d, %d)\n", err, rerr);
++		err = -EIO;
++	}
++out_parent:
++	dput(dst_parent);
++	kfree(a);
++out:
++	return err;
++}
++
++#if 0 /* reserved */
++struct au_cpup_single_args {
++	int *errp;
++	struct au_cp_generic *cpg;
++	struct dentry *dst_parent;
++};
++
++static void au_call_cpup_single(void *args)
++{
++	struct au_cpup_single_args *a = args;
++
++	au_pin_hdir_acquire_nest(a->cpg->pin);
++	*a->errp = au_cpup_single(a->cpg, a->dst_parent);
++	au_pin_hdir_release(a->cpg->pin);
++}
++#endif
++
++/*
++ * prevent SIGXFSZ in copy-up.
++ * testing CAP_MKNOD is for generic fs,
++ * but CAP_FSETID is for xfs only, currently.
++ */
++static int au_cpup_sio_test(struct au_pin *pin, umode_t mode)
++{
++	int do_sio;
++	struct super_block *sb;
++	struct inode *h_dir;
++
++	do_sio = 0;
++	sb = au_pinned_parent(pin)->d_sb;
++	if (!au_wkq_test()
++	    && (!au_sbi(sb)->si_plink_maint_pid
++		|| au_plink_maint(sb, AuLock_NOPLM))) {
++		switch (mode & S_IFMT) {
++		case S_IFREG:
++			/* no condition about RLIMIT_FSIZE and the file size */
++			do_sio = 1;
++			break;
++		case S_IFCHR:
++		case S_IFBLK:
++			do_sio = !capable(CAP_MKNOD);
++			break;
++		}
++		if (!do_sio)
++			do_sio = ((mode & (S_ISUID | S_ISGID))
++				  && !capable(CAP_FSETID));
++		/* this workaround may be removed in the future */
++		if (!do_sio) {
++			h_dir = au_pinned_h_dir(pin);
++			do_sio = h_dir->i_mode & S_ISVTX;
++		}
++	}
++
++	return do_sio;
++}
++
++#if 0 /* reserved */
++int au_sio_cpup_single(struct au_cp_generic *cpg, struct dentry *dst_parent)
++{
++	int err, wkq_err;
++	struct dentry *h_dentry;
++
++	h_dentry = au_h_dptr(cpg->dentry, cpg->bsrc);
++	if (!au_cpup_sio_test(pin, d_inode(h_dentry)->i_mode))
++		err = au_cpup_single(cpg, dst_parent);
++	else {
++		struct au_cpup_single_args args = {
++			.errp		= &err,
++			.cpg		= cpg,
++			.dst_parent	= dst_parent
++		};
++		wkq_err = au_wkq_wait(au_call_cpup_single, &args);
++		if (unlikely(wkq_err))
++			err = wkq_err;
++	}
++
++	return err;
++}
++#endif
++
++/*
++ * copyup the @dentry from the first active lower branch to @bdst,
++ * using au_cpup_single().
++ */
++static int au_cpup_simple(struct au_cp_generic *cpg)
++{
++	int err;
++	unsigned int flags_orig;
++	struct dentry *dentry;
++
++	AuDebugOn(cpg->bsrc < 0);
++
++	dentry = cpg->dentry;
++	DiMustWriteLock(dentry);
++
++	err = au_lkup_neg(dentry, cpg->bdst, /*wh*/1);
++	if (!err) {
++		flags_orig = cpg->flags;
++		au_fset_cpup(cpg->flags, RENAME);
++		err = au_cpup_single(cpg, NULL);
++		cpg->flags = flags_orig;
++		if (!err)
++			return 0; /* success */
++
++		/* revert */
++		au_set_h_dptr(dentry, cpg->bdst, NULL);
++		au_set_dbtop(dentry, cpg->bsrc);
++	}
++
++	return err;
++}
++
++struct au_cpup_simple_args {
++	int *errp;
++	struct au_cp_generic *cpg;
++};
++
++static void au_call_cpup_simple(void *args)
++{
++	struct au_cpup_simple_args *a = args;
++
++	au_pin_hdir_acquire_nest(a->cpg->pin);
++	*a->errp = au_cpup_simple(a->cpg);
++	au_pin_hdir_release(a->cpg->pin);
++}
++
++static int au_do_sio_cpup_simple(struct au_cp_generic *cpg)
++{
++	int err, wkq_err;
++	struct dentry *dentry, *parent;
++	struct file *h_file;
++	struct inode *h_dir;
++
++	dentry = cpg->dentry;
++	h_file = NULL;
++	if (au_ftest_cpup(cpg->flags, HOPEN)) {
++		AuDebugOn(cpg->bsrc < 0);
++		h_file = au_h_open_pre(dentry, cpg->bsrc, /*force_wr*/0);
++		err = PTR_ERR(h_file);
++		if (IS_ERR(h_file))
++			goto out;
++	}
++
++	parent = dget_parent(dentry);
++	h_dir = au_h_iptr(d_inode(parent), cpg->bdst);
++	if (!au_test_h_perm_sio(h_dir, MAY_EXEC | MAY_WRITE)
++	    && !au_cpup_sio_test(cpg->pin, d_inode(dentry)->i_mode))
++		err = au_cpup_simple(cpg);
++	else {
++		struct au_cpup_simple_args args = {
++			.errp		= &err,
++			.cpg		= cpg
++		};
++		wkq_err = au_wkq_wait(au_call_cpup_simple, &args);
++		if (unlikely(wkq_err))
++			err = wkq_err;
++	}
++
++	dput(parent);
++	if (h_file)
++		au_h_open_post(dentry, cpg->bsrc, h_file);
++
++out:
++	return err;
++}
++
++int au_sio_cpup_simple(struct au_cp_generic *cpg)
++{
++	aufs_bindex_t bsrc, bbot;
++	struct dentry *dentry, *h_dentry;
++
++	if (cpg->bsrc < 0) {
++		dentry = cpg->dentry;
++		bbot = au_dbbot(dentry);
++		for (bsrc = cpg->bdst + 1; bsrc <= bbot; bsrc++) {
++			h_dentry = au_h_dptr(dentry, bsrc);
++			if (h_dentry) {
++				AuDebugOn(d_is_negative(h_dentry));
++				break;
++			}
++		}
++		AuDebugOn(bsrc > bbot);
++		cpg->bsrc = bsrc;
++	}
++	AuDebugOn(cpg->bsrc <= cpg->bdst);
++	return au_do_sio_cpup_simple(cpg);
++}
++
++int au_sio_cpdown_simple(struct au_cp_generic *cpg)
++{
++	AuDebugOn(cpg->bdst <= cpg->bsrc);
++	return au_do_sio_cpup_simple(cpg);
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * copyup the deleted file for writing.
++ */
++static int au_do_cpup_wh(struct au_cp_generic *cpg, struct dentry *wh_dentry,
++			 struct file *file)
++{
++	int err;
++	unsigned int flags_orig;
++	aufs_bindex_t bsrc_orig;
++	struct au_dinfo *dinfo;
++	struct {
++		struct au_hdentry *hd;
++		struct dentry *h_dentry;
++	} hdst, hsrc;
++
++	dinfo = au_di(cpg->dentry);
++	AuRwMustWriteLock(&dinfo->di_rwsem);
++
++	bsrc_orig = cpg->bsrc;
++	cpg->bsrc = dinfo->di_btop;
++	hdst.hd = au_hdentry(dinfo, cpg->bdst);
++	hdst.h_dentry = hdst.hd->hd_dentry;
++	hdst.hd->hd_dentry = wh_dentry;
++	dinfo->di_btop = cpg->bdst;
++
++	hsrc.h_dentry = NULL;
++	if (file) {
++		hsrc.hd = au_hdentry(dinfo, cpg->bsrc);
++		hsrc.h_dentry = hsrc.hd->hd_dentry;
++		hsrc.hd->hd_dentry = au_hf_top(file)->f_path.dentry;
++	}
++	flags_orig = cpg->flags;
++	cpg->flags = !AuCpup_DTIME;
++	err = au_cpup_single(cpg, /*h_parent*/NULL);
++	cpg->flags = flags_orig;
++	if (file) {
++		if (!err)
++			err = au_reopen_nondir(file);
++		hsrc.hd->hd_dentry = hsrc.h_dentry;
++	}
++	hdst.hd->hd_dentry = hdst.h_dentry;
++	dinfo->di_btop = cpg->bsrc;
++	cpg->bsrc = bsrc_orig;
++
++	return err;
++}
++
++static int au_cpup_wh(struct au_cp_generic *cpg, struct file *file)
++{
++	int err;
++	aufs_bindex_t bdst;
++	struct au_dtime dt;
++	struct dentry *dentry, *parent, *h_parent, *wh_dentry;
++	struct au_branch *br;
++	struct path h_path;
++
++	dentry = cpg->dentry;
++	bdst = cpg->bdst;
++	br = au_sbr(dentry->d_sb, bdst);
++	parent = dget_parent(dentry);
++	h_parent = au_h_dptr(parent, bdst);
++	wh_dentry = au_whtmp_lkup(h_parent, br, &dentry->d_name);
++	err = PTR_ERR(wh_dentry);
++	if (IS_ERR(wh_dentry))
++		goto out;
++
++	h_path.dentry = h_parent;
++	h_path.mnt = au_br_mnt(br);
++	au_dtime_store(&dt, parent, &h_path);
++	err = au_do_cpup_wh(cpg, wh_dentry, file);
++	if (unlikely(err))
++		goto out_wh;
++
++	dget(wh_dentry);
++	h_path.dentry = wh_dentry;
++	if (!d_is_dir(wh_dentry)) {
++		/* no delegation since it is just created */
++		err = vfsub_unlink(d_inode(h_parent), &h_path,
++				   /*delegated*/NULL, /*force*/0);
++	} else
++		err = vfsub_rmdir(d_inode(h_parent), &h_path);
++	if (unlikely(err)) {
++		AuIOErr("failed remove copied-up tmp file %pd(%d)\n",
++			wh_dentry, err);
++		err = -EIO;
++	}
++	au_dtime_revert(&dt);
++	au_set_hi_wh(d_inode(dentry), bdst, wh_dentry);
++
++out_wh:
++	dput(wh_dentry);
++out:
++	dput(parent);
++	return err;
++}
++
++struct au_cpup_wh_args {
++	int *errp;
++	struct au_cp_generic *cpg;
++	struct file *file;
++};
++
++static void au_call_cpup_wh(void *args)
++{
++	struct au_cpup_wh_args *a = args;
++
++	au_pin_hdir_acquire_nest(a->cpg->pin);
++	*a->errp = au_cpup_wh(a->cpg, a->file);
++	au_pin_hdir_release(a->cpg->pin);
++}
++
++int au_sio_cpup_wh(struct au_cp_generic *cpg, struct file *file)
++{
++	int err, wkq_err;
++	aufs_bindex_t bdst;
++	struct dentry *dentry, *parent, *h_orph, *h_parent;
++	struct inode *dir, *h_dir, *h_tmpdir;
++	struct au_wbr *wbr;
++	struct au_pin wh_pin, *pin_orig;
++
++	dentry = cpg->dentry;
++	bdst = cpg->bdst;
++	parent = dget_parent(dentry);
++	dir = d_inode(parent);
++	h_orph = NULL;
++	h_parent = NULL;
++	h_dir = au_igrab(au_h_iptr(dir, bdst));
++	h_tmpdir = h_dir;
++	pin_orig = NULL;
++	if (!h_dir->i_nlink) {
++		wbr = au_sbr(dentry->d_sb, bdst)->br_wbr;
++		h_orph = wbr->wbr_orph;
++
++		h_parent = dget(au_h_dptr(parent, bdst));
++		au_set_h_dptr(parent, bdst, dget(h_orph));
++		h_tmpdir = d_inode(h_orph);
++		au_set_h_iptr(dir, bdst, au_igrab(h_tmpdir), /*flags*/0);
++
++		inode_lock_nested(h_tmpdir, AuLsc_I_PARENT3);
++		/* todo: au_h_open_pre()? */
++
++		pin_orig = cpg->pin;
++		au_pin_init(&wh_pin, dentry, bdst, AuLsc_DI_PARENT,
++			    AuLsc_I_PARENT3, cpg->pin->udba, AuPin_DI_LOCKED);
++		cpg->pin = &wh_pin;
++	}
++
++	if (!au_test_h_perm_sio(h_tmpdir, MAY_EXEC | MAY_WRITE)
++	    && !au_cpup_sio_test(cpg->pin, d_inode(dentry)->i_mode))
++		err = au_cpup_wh(cpg, file);
++	else {
++		struct au_cpup_wh_args args = {
++			.errp	= &err,
++			.cpg	= cpg,
++			.file	= file
++		};
++		wkq_err = au_wkq_wait(au_call_cpup_wh, &args);
++		if (unlikely(wkq_err))
++			err = wkq_err;
++	}
++
++	if (h_orph) {
++		inode_unlock(h_tmpdir);
++		/* todo: au_h_open_post()? */
++		au_set_h_iptr(dir, bdst, au_igrab(h_dir), /*flags*/0);
++		au_set_h_dptr(parent, bdst, h_parent);
++		AuDebugOn(!pin_orig);
++		cpg->pin = pin_orig;
++	}
++	iput(h_dir);
++	dput(parent);
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * generic routine for both of copy-up and copy-down.
++ */
++/* cf. revalidate function in file.c */
++int au_cp_dirs(struct dentry *dentry, aufs_bindex_t bdst,
++	       int (*cp)(struct dentry *dentry, aufs_bindex_t bdst,
++			 struct au_pin *pin,
++			 struct dentry *h_parent, void *arg),
++	       void *arg)
++{
++	int err;
++	struct au_pin pin;
++	struct dentry *d, *parent, *h_parent, *real_parent, *h_dentry;
++
++	err = 0;
++	parent = dget_parent(dentry);
++	if (IS_ROOT(parent))
++		goto out;
++
++	au_pin_init(&pin, dentry, bdst, AuLsc_DI_PARENT2, AuLsc_I_PARENT2,
++		    au_opt_udba(dentry->d_sb), AuPin_MNT_WRITE);
++
++	/* do not use au_dpage */
++	real_parent = parent;
++	while (1) {
++		dput(parent);
++		parent = dget_parent(dentry);
++		h_parent = au_h_dptr(parent, bdst);
++		if (h_parent)
++			goto out; /* success */
++
++		/* find top dir which is necessary to cpup */
++		do {
++			d = parent;
++			dput(parent);
++			parent = dget_parent(d);
++			di_read_lock_parent3(parent, !AuLock_IR);
++			h_parent = au_h_dptr(parent, bdst);
++			di_read_unlock(parent, !AuLock_IR);
++		} while (!h_parent);
++
++		if (d != real_parent)
++			di_write_lock_child3(d);
++
++		/* somebody else might create while we were sleeping */
++		h_dentry = au_h_dptr(d, bdst);
++		if (!h_dentry || d_is_negative(h_dentry)) {
++			if (h_dentry)
++				au_update_dbtop(d);
++
++			au_pin_set_dentry(&pin, d);
++			err = au_do_pin(&pin);
++			if (!err) {
++				err = cp(d, bdst, &pin, h_parent, arg);
++				au_unpin(&pin);
++			}
++		}
++
++		if (d != real_parent)
++			di_write_unlock(d);
++		if (unlikely(err))
++			break;
++	}
++
++out:
++	dput(parent);
++	return err;
++}
++
++static int au_cpup_dir(struct dentry *dentry, aufs_bindex_t bdst,
++		       struct au_pin *pin,
++		       struct dentry *h_parent __maybe_unused,
++		       void *arg __maybe_unused)
++{
++	struct au_cp_generic cpg = {
++		.dentry	= dentry,
++		.bdst	= bdst,
++		.bsrc	= -1,
++		.len	= 0,
++		.pin	= pin,
++		.flags	= AuCpup_DTIME
++	};
++	return au_sio_cpup_simple(&cpg);
++}
++
++int au_cpup_dirs(struct dentry *dentry, aufs_bindex_t bdst)
++{
++	return au_cp_dirs(dentry, bdst, au_cpup_dir, NULL);
++}
++
++int au_test_and_cpup_dirs(struct dentry *dentry, aufs_bindex_t bdst)
++{
++	int err;
++	struct dentry *parent;
++	struct inode *dir;
++
++	parent = dget_parent(dentry);
++	dir = d_inode(parent);
++	err = 0;
++	if (au_h_iptr(dir, bdst))
++		goto out;
++
++	di_read_unlock(parent, AuLock_IR);
++	di_write_lock_parent(parent);
++	/* someone else might change our inode while we were sleeping */
++	if (!au_h_iptr(dir, bdst))
++		err = au_cpup_dirs(dentry, bdst);
++	di_downgrade_lock(parent, AuLock_IR);
++
++out:
++	dput(parent);
++	return err;
++}
+diff --git a/fs/aufs/cpup.h b/fs/aufs/cpup.h
+new file mode 100755
+index 0000000..9c20116
+--- /dev/null
++++ b/fs/aufs/cpup.h
+@@ -0,0 +1,94 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * copy-up/down functions
++ */
++
++#ifndef __AUFS_CPUP_H__
++#define __AUFS_CPUP_H__
++
++#ifdef __KERNEL__
++
++#include <linux/path.h>
++
++struct inode;
++struct file;
++struct au_pin;
++
++void au_cpup_attr_flags(struct inode *dst, unsigned int iflags);
++void au_cpup_attr_timesizes(struct inode *inode);
++void au_cpup_attr_nlink(struct inode *inode, int force);
++void au_cpup_attr_changeable(struct inode *inode);
++void au_cpup_igen(struct inode *inode, struct inode *h_inode);
++void au_cpup_attr_all(struct inode *inode, int force);
++
++/* ---------------------------------------------------------------------- */
++
++struct au_cp_generic {
++	struct dentry	*dentry;
++	aufs_bindex_t	bdst, bsrc;
++	loff_t		len;
++	struct au_pin	*pin;
++	unsigned int	flags;
++};
++
++/* cpup flags */
++#define AuCpup_DTIME		1		/* do dtime_store/revert */
++#define AuCpup_KEEPLINO		(1 << 1)	/* do not clear the lower xino,
++						   for link(2) */
++#define AuCpup_RENAME		(1 << 2)	/* rename after cpup */
++#define AuCpup_HOPEN		(1 << 3)	/* call h_open_pre/post() in
++						   cpup */
++#define AuCpup_OVERWRITE	(1 << 4)	/* allow overwriting the
++						   existing entry */
++#define AuCpup_RWDST		(1 << 5)	/* force write target even if
++						   the branch is marked as RO */
++
++#define au_ftest_cpup(flags, name)	((flags) & AuCpup_##name)
++#define au_fset_cpup(flags, name) \
++	do { (flags) |= AuCpup_##name; } while (0)
++#define au_fclr_cpup(flags, name) \
++	do { (flags) &= ~AuCpup_##name; } while (0)
++
++int au_copy_file(struct file *dst, struct file *src, loff_t len);
++int au_sio_cpup_simple(struct au_cp_generic *cpg);
++int au_sio_cpdown_simple(struct au_cp_generic *cpg);
++int au_sio_cpup_wh(struct au_cp_generic *cpg, struct file *file);
++
++int au_cp_dirs(struct dentry *dentry, aufs_bindex_t bdst,
++	       int (*cp)(struct dentry *dentry, aufs_bindex_t bdst,
++			 struct au_pin *pin,
++			 struct dentry *h_parent, void *arg),
++	       void *arg);
++int au_cpup_dirs(struct dentry *dentry, aufs_bindex_t bdst);
++int au_test_and_cpup_dirs(struct dentry *dentry, aufs_bindex_t bdst);
++
++/* ---------------------------------------------------------------------- */
++
++/* keep timestamps when copyup */
++struct au_dtime {
++	struct dentry *dt_dentry;
++	struct path dt_h_path;
++	struct timespec dt_atime, dt_mtime;
++};
++void au_dtime_store(struct au_dtime *dt, struct dentry *dentry,
++		    struct path *h_path);
++void au_dtime_revert(struct au_dtime *dt);
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_CPUP_H__ */
+diff --git a/fs/aufs/dbgaufs.c b/fs/aufs/dbgaufs.c
+new file mode 100755
+index 0000000..dde0f91
+--- /dev/null
++++ b/fs/aufs/dbgaufs.c
+@@ -0,0 +1,438 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * debugfs interface
++ */
++
++#include <linux/debugfs.h>
++#include "aufs.h"
++
++#ifndef CONFIG_SYSFS
++#error DEBUG_FS depends upon SYSFS
++#endif
++
++static struct dentry *dbgaufs;
++static const mode_t dbgaufs_mode = S_IRUSR | S_IRGRP | S_IROTH;
++
++/* 20 is max digits length of ulong 64 */
++struct dbgaufs_arg {
++	int n;
++	char a[20 * 4];
++};
++
++/*
++ * common function for all XINO files
++ */
++static int dbgaufs_xi_release(struct inode *inode __maybe_unused,
++			      struct file *file)
++{
++	kfree(file->private_data);
++	return 0;
++}
++
++static int dbgaufs_xi_open(struct file *xf, struct file *file, int do_fcnt)
++{
++	int err;
++	struct kstat st;
++	struct dbgaufs_arg *p;
++
++	err = -ENOMEM;
++	p = kmalloc(sizeof(*p), GFP_NOFS);
++	if (unlikely(!p))
++		goto out;
++
++	err = 0;
++	p->n = 0;
++	file->private_data = p;
++	if (!xf)
++		goto out;
++
++	err = vfsub_getattr(&xf->f_path, &st);
++	if (!err) {
++		if (do_fcnt)
++			p->n = snprintf
++				(p->a, sizeof(p->a), "%ld, %llux%u %lld\n",
++				 (long)file_count(xf), st.blocks, st.blksize,
++				 (long long)st.size);
++		else
++			p->n = snprintf(p->a, sizeof(p->a), "%llux%u %lld\n",
++					st.blocks, st.blksize,
++					(long long)st.size);
++		AuDebugOn(p->n >= sizeof(p->a));
++	} else {
++		p->n = snprintf(p->a, sizeof(p->a), "err %d\n", err);
++		err = 0;
++	}
++
++out:
++	return err;
++
++}
++
++static ssize_t dbgaufs_xi_read(struct file *file, char __user *buf,
++			       size_t count, loff_t *ppos)
++{
++	struct dbgaufs_arg *p;
++
++	p = file->private_data;
++	return simple_read_from_buffer(buf, count, ppos, p->a, p->n);
++}
++
++/* ---------------------------------------------------------------------- */
++
++struct dbgaufs_plink_arg {
++	int n;
++	char a[];
++};
++
++static int dbgaufs_plink_release(struct inode *inode __maybe_unused,
++				 struct file *file)
++{
++	free_page((unsigned long)file->private_data);
++	return 0;
++}
++
++static int dbgaufs_plink_open(struct inode *inode, struct file *file)
++{
++	int err, i, limit;
++	unsigned long n, sum;
++	struct dbgaufs_plink_arg *p;
++	struct au_sbinfo *sbinfo;
++	struct super_block *sb;
++	struct au_sphlhead *sphl;
++
++	err = -ENOMEM;
++	p = (void *)get_zeroed_page(GFP_NOFS);
++	if (unlikely(!p))
++		goto out;
++
++	err = -EFBIG;
++	sbinfo = inode->i_private;
++	sb = sbinfo->si_sb;
++	si_noflush_read_lock(sb);
++	if (au_opt_test(au_mntflags(sb), PLINK)) {
++		limit = PAGE_SIZE - sizeof(p->n);
++
++		/* the number of buckets */
++		n = snprintf(p->a + p->n, limit, "%d\n", AuPlink_NHASH);
++		p->n += n;
++		limit -= n;
++
++		sum = 0;
++		for (i = 0, sphl = sbinfo->si_plink;
++		     i < AuPlink_NHASH;
++		     i++, sphl++) {
++			n = au_sphl_count(sphl);
++			sum += n;
++
++			n = snprintf(p->a + p->n, limit, "%lu ", n);
++			p->n += n;
++			limit -= n;
++			if (unlikely(limit <= 0))
++				goto out_free;
++		}
++		p->a[p->n - 1] = '\n';
++
++		/* the sum of plinks */
++		n = snprintf(p->a + p->n, limit, "%lu\n", sum);
++		p->n += n;
++		limit -= n;
++		if (unlikely(limit <= 0))
++			goto out_free;
++	} else {
++#define str "1\n0\n0\n"
++		p->n = sizeof(str) - 1;
++		strcpy(p->a, str);
++#undef str
++	}
++	si_read_unlock(sb);
++
++	err = 0;
++	file->private_data = p;
++	goto out; /* success */
++
++out_free:
++	free_page((unsigned long)p);
++out:
++	return err;
++}
++
++static ssize_t dbgaufs_plink_read(struct file *file, char __user *buf,
++				  size_t count, loff_t *ppos)
++{
++	struct dbgaufs_plink_arg *p;
++
++	p = file->private_data;
++	return simple_read_from_buffer(buf, count, ppos, p->a, p->n);
++}
++
++static const struct file_operations dbgaufs_plink_fop = {
++	.owner		= THIS_MODULE,
++	.open		= dbgaufs_plink_open,
++	.release	= dbgaufs_plink_release,
++	.read		= dbgaufs_plink_read
++};
++
++/* ---------------------------------------------------------------------- */
++
++static int dbgaufs_xib_open(struct inode *inode, struct file *file)
++{
++	int err;
++	struct au_sbinfo *sbinfo;
++	struct super_block *sb;
++
++	sbinfo = inode->i_private;
++	sb = sbinfo->si_sb;
++	si_noflush_read_lock(sb);
++	err = dbgaufs_xi_open(sbinfo->si_xib, file, /*do_fcnt*/0);
++	si_read_unlock(sb);
++	return err;
++}
++
++static const struct file_operations dbgaufs_xib_fop = {
++	.owner		= THIS_MODULE,
++	.open		= dbgaufs_xib_open,
++	.release	= dbgaufs_xi_release,
++	.read		= dbgaufs_xi_read
++};
++
++/* ---------------------------------------------------------------------- */
++
++#define DbgaufsXi_PREFIX "xi"
++
++static int dbgaufs_xino_open(struct inode *inode, struct file *file)
++{
++	int err;
++	long l;
++	struct au_sbinfo *sbinfo;
++	struct super_block *sb;
++	struct file *xf;
++	struct qstr *name;
++
++	err = -ENOENT;
++	xf = NULL;
++	name = &file->f_path.dentry->d_name;
++	if (unlikely(name->len < sizeof(DbgaufsXi_PREFIX)
++		     || memcmp(name->name, DbgaufsXi_PREFIX,
++			       sizeof(DbgaufsXi_PREFIX) - 1)))
++		goto out;
++	err = kstrtol(name->name + sizeof(DbgaufsXi_PREFIX) - 1, 10, &l);
++	if (unlikely(err))
++		goto out;
++
++	sbinfo = inode->i_private;
++	sb = sbinfo->si_sb;
++	si_noflush_read_lock(sb);
++	if (l <= au_sbbot(sb)) {
++		xf = au_sbr(sb, (aufs_bindex_t)l)->br_xino.xi_file;
++		err = dbgaufs_xi_open(xf, file, /*do_fcnt*/1);
++	} else
++		err = -ENOENT;
++	si_read_unlock(sb);
++
++out:
++	return err;
++}
++
++static const struct file_operations dbgaufs_xino_fop = {
++	.owner		= THIS_MODULE,
++	.open		= dbgaufs_xino_open,
++	.release	= dbgaufs_xi_release,
++	.read		= dbgaufs_xi_read
++};
++
++void dbgaufs_brs_del(struct super_block *sb, aufs_bindex_t bindex)
++{
++	aufs_bindex_t bbot;
++	struct au_branch *br;
++	struct au_xino_file *xi;
++
++	if (!au_sbi(sb)->si_dbgaufs)
++		return;
++
++	bbot = au_sbbot(sb);
++	for (; bindex <= bbot; bindex++) {
++		br = au_sbr(sb, bindex);
++		xi = &br->br_xino;
++		/* debugfs acquires the parent i_mutex */
++		lockdep_off();
++		debugfs_remove(xi->xi_dbgaufs);
++		lockdep_on();
++		xi->xi_dbgaufs = NULL;
++	}
++}
++
++void dbgaufs_brs_add(struct super_block *sb, aufs_bindex_t bindex)
++{
++	struct au_sbinfo *sbinfo;
++	struct dentry *parent;
++	struct au_branch *br;
++	struct au_xino_file *xi;
++	aufs_bindex_t bbot;
++	char name[sizeof(DbgaufsXi_PREFIX) + 5]; /* "xi" bindex NULL */
++
++	sbinfo = au_sbi(sb);
++	parent = sbinfo->si_dbgaufs;
++	if (!parent)
++		return;
++
++	bbot = au_sbbot(sb);
++	for (; bindex <= bbot; bindex++) {
++		snprintf(name, sizeof(name), DbgaufsXi_PREFIX "%d", bindex);
++		br = au_sbr(sb, bindex);
++		xi = &br->br_xino;
++		AuDebugOn(xi->xi_dbgaufs);
++		/* debugfs acquires the parent i_mutex */
++		lockdep_off();
++		xi->xi_dbgaufs = debugfs_create_file(name, dbgaufs_mode, parent,
++						     sbinfo, &dbgaufs_xino_fop);
++		lockdep_on();
++		/* ignore an error */
++		if (unlikely(!xi->xi_dbgaufs))
++			AuWarn1("failed %s under debugfs\n", name);
++	}
++}
++
++/* ---------------------------------------------------------------------- */
++
++#ifdef CONFIG_AUFS_EXPORT
++static int dbgaufs_xigen_open(struct inode *inode, struct file *file)
++{
++	int err;
++	struct au_sbinfo *sbinfo;
++	struct super_block *sb;
++
++	sbinfo = inode->i_private;
++	sb = sbinfo->si_sb;
++	si_noflush_read_lock(sb);
++	err = dbgaufs_xi_open(sbinfo->si_xigen, file, /*do_fcnt*/0);
++	si_read_unlock(sb);
++	return err;
++}
++
++static const struct file_operations dbgaufs_xigen_fop = {
++	.owner		= THIS_MODULE,
++	.open		= dbgaufs_xigen_open,
++	.release	= dbgaufs_xi_release,
++	.read		= dbgaufs_xi_read
++};
++
++static int dbgaufs_xigen_init(struct au_sbinfo *sbinfo)
++{
++	int err;
++
++	/*
++	 * This function is a dynamic '__init' function actually,
++	 * so the tiny check for si_rwsem is unnecessary.
++	 */
++	/* AuRwMustWriteLock(&sbinfo->si_rwsem); */
++
++	err = -EIO;
++	sbinfo->si_dbgaufs_xigen = debugfs_create_file
++		("xigen", dbgaufs_mode, sbinfo->si_dbgaufs, sbinfo,
++		 &dbgaufs_xigen_fop);
++	if (sbinfo->si_dbgaufs_xigen)
++		err = 0;
++
++	return err;
++}
++#else
++static int dbgaufs_xigen_init(struct au_sbinfo *sbinfo)
++{
++	return 0;
++}
++#endif /* CONFIG_AUFS_EXPORT */
++
++/* ---------------------------------------------------------------------- */
++
++void dbgaufs_si_fin(struct au_sbinfo *sbinfo)
++{
++	/*
++	 * This function is a dynamic '__fin' function actually,
++	 * so the tiny check for si_rwsem is unnecessary.
++	 */
++	/* AuRwMustWriteLock(&sbinfo->si_rwsem); */
++
++	debugfs_remove_recursive(sbinfo->si_dbgaufs);
++	sbinfo->si_dbgaufs = NULL;
++	kobject_put(&sbinfo->si_kobj);
++}
++
++int dbgaufs_si_init(struct au_sbinfo *sbinfo)
++{
++	int err;
++	char name[SysaufsSiNameLen];
++
++	/*
++	 * This function is a dynamic '__init' function actually,
++	 * so the tiny check for si_rwsem is unnecessary.
++	 */
++	/* AuRwMustWriteLock(&sbinfo->si_rwsem); */
++
++	err = -ENOENT;
++	if (!dbgaufs) {
++		AuErr1("/debug/aufs is uninitialized\n");
++		goto out;
++	}
++
++	err = -EIO;
++	sysaufs_name(sbinfo, name);
++	sbinfo->si_dbgaufs = debugfs_create_dir(name, dbgaufs);
++	if (unlikely(!sbinfo->si_dbgaufs))
++		goto out;
++	kobject_get(&sbinfo->si_kobj);
++
++	sbinfo->si_dbgaufs_xib = debugfs_create_file
++		("xib", dbgaufs_mode, sbinfo->si_dbgaufs, sbinfo,
++		 &dbgaufs_xib_fop);
++	if (unlikely(!sbinfo->si_dbgaufs_xib))
++		goto out_dir;
++
++	sbinfo->si_dbgaufs_plink = debugfs_create_file
++		("plink", dbgaufs_mode, sbinfo->si_dbgaufs, sbinfo,
++		 &dbgaufs_plink_fop);
++	if (unlikely(!sbinfo->si_dbgaufs_plink))
++		goto out_dir;
++
++	err = dbgaufs_xigen_init(sbinfo);
++	if (!err)
++		goto out; /* success */
++
++out_dir:
++	dbgaufs_si_fin(sbinfo);
++out:
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++void dbgaufs_fin(void)
++{
++	debugfs_remove(dbgaufs);
++}
++
++int __init dbgaufs_init(void)
++{
++	int err;
++
++	err = -EIO;
++	dbgaufs = debugfs_create_dir(AUFS_NAME, NULL);
++	if (dbgaufs)
++		err = 0;
++	return err;
++}
+diff --git a/fs/aufs/dbgaufs.h b/fs/aufs/dbgaufs.h
+new file mode 100755
+index 0000000..d0c01c8
+--- /dev/null
++++ b/fs/aufs/dbgaufs.h
+@@ -0,0 +1,48 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * debugfs interface
++ */
++
++#ifndef __DBGAUFS_H__
++#define __DBGAUFS_H__
++
++#ifdef __KERNEL__
++
++struct super_block;
++struct au_sbinfo;
++
++#ifdef CONFIG_DEBUG_FS
++/* dbgaufs.c */
++void dbgaufs_brs_del(struct super_block *sb, aufs_bindex_t bindex);
++void dbgaufs_brs_add(struct super_block *sb, aufs_bindex_t bindex);
++void dbgaufs_si_fin(struct au_sbinfo *sbinfo);
++int dbgaufs_si_init(struct au_sbinfo *sbinfo);
++void dbgaufs_fin(void);
++int __init dbgaufs_init(void);
++#else
++AuStubVoid(dbgaufs_brs_del, struct super_block *sb, aufs_bindex_t bindex)
++AuStubVoid(dbgaufs_brs_add, struct super_block *sb, aufs_bindex_t bindex)
++AuStubVoid(dbgaufs_si_fin, struct au_sbinfo *sbinfo)
++AuStubInt0(dbgaufs_si_init, struct au_sbinfo *sbinfo)
++AuStubVoid(dbgaufs_fin, void)
++AuStubInt0(__init dbgaufs_init, void)
++#endif /* CONFIG_DEBUG_FS */
++
++#endif /* __KERNEL__ */
++#endif /* __DBGAUFS_H__ */
+diff --git a/fs/aufs/dcsub.c b/fs/aufs/dcsub.c
+new file mode 100755
+index 0000000..0e02131
+--- /dev/null
++++ b/fs/aufs/dcsub.c
+@@ -0,0 +1,225 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * sub-routines for dentry cache
++ */
++
++#include "aufs.h"
++
++static void au_dpage_free(struct au_dpage *dpage)
++{
++	int i;
++	struct dentry **p;
++
++	p = dpage->dentries;
++	for (i = 0; i < dpage->ndentry; i++)
++		dput(*p++);
++	free_page((unsigned long)dpage->dentries);
++}
++
++int au_dpages_init(struct au_dcsub_pages *dpages, gfp_t gfp)
++{
++	int err;
++	void *p;
++
++	err = -ENOMEM;
++	dpages->dpages = kmalloc(sizeof(*dpages->dpages), gfp);
++	if (unlikely(!dpages->dpages))
++		goto out;
++
++	p = (void *)__get_free_page(gfp);
++	if (unlikely(!p))
++		goto out_dpages;
++
++	dpages->dpages[0].ndentry = 0;
++	dpages->dpages[0].dentries = p;
++	dpages->ndpage = 1;
++	return 0; /* success */
++
++out_dpages:
++	kfree(dpages->dpages);
++out:
++	return err;
++}
++
++void au_dpages_free(struct au_dcsub_pages *dpages)
++{
++	int i;
++	struct au_dpage *p;
++
++	p = dpages->dpages;
++	for (i = 0; i < dpages->ndpage; i++)
++		au_dpage_free(p++);
++	kfree(dpages->dpages);
++}
++
++static int au_dpages_append(struct au_dcsub_pages *dpages,
++			    struct dentry *dentry, gfp_t gfp)
++{
++	int err, sz;
++	struct au_dpage *dpage;
++	void *p;
++
++	dpage = dpages->dpages + dpages->ndpage - 1;
++	sz = PAGE_SIZE / sizeof(dentry);
++	if (unlikely(dpage->ndentry >= sz)) {
++		AuLabel(new dpage);
++		err = -ENOMEM;
++		sz = dpages->ndpage * sizeof(*dpages->dpages);
++		p = au_kzrealloc(dpages->dpages, sz,
++				 sz + sizeof(*dpages->dpages), gfp,
++				 /*may_shrink*/0);
++		if (unlikely(!p))
++			goto out;
++
++		dpages->dpages = p;
++		dpage = dpages->dpages + dpages->ndpage;
++		p = (void *)__get_free_page(gfp);
++		if (unlikely(!p))
++			goto out;
++
++		dpage->ndentry = 0;
++		dpage->dentries = p;
++		dpages->ndpage++;
++	}
++
++	AuDebugOn(au_dcount(dentry) <= 0);
++	dpage->dentries[dpage->ndentry++] = dget_dlock(dentry);
++	return 0; /* success */
++
++out:
++	return err;
++}
++
++/* todo: BAD approach */
++/* copied from linux/fs/dcache.c */
++enum d_walk_ret {
++	D_WALK_CONTINUE,
++	D_WALK_QUIT,
++	D_WALK_NORETRY,
++	D_WALK_SKIP,
++};
++
++extern void d_walk(struct dentry *parent, void *data,
++		   enum d_walk_ret (*enter)(void *, struct dentry *),
++		   void (*finish)(void *));
++
++struct ac_dpages_arg {
++	int err;
++	struct au_dcsub_pages *dpages;
++	struct super_block *sb;
++	au_dpages_test test;
++	void *arg;
++};
++
++static enum d_walk_ret au_call_dpages_append(void *_arg, struct dentry *dentry)
++{
++	enum d_walk_ret ret;
++	struct ac_dpages_arg *arg = _arg;
++
++	ret = D_WALK_CONTINUE;
++	if (dentry->d_sb == arg->sb
++	    && !IS_ROOT(dentry)
++	    && au_dcount(dentry) > 0
++	    && au_di(dentry)
++	    && (!arg->test || arg->test(dentry, arg->arg))) {
++		arg->err = au_dpages_append(arg->dpages, dentry, GFP_ATOMIC);
++		if (unlikely(arg->err))
++			ret = D_WALK_QUIT;
++	}
++
++	return ret;
++}
++
++int au_dcsub_pages(struct au_dcsub_pages *dpages, struct dentry *root,
++		   au_dpages_test test, void *arg)
++{
++	struct ac_dpages_arg args = {
++		.err	= 0,
++		.dpages	= dpages,
++		.sb	= root->d_sb,
++		.test	= test,
++		.arg	= arg
++	};
++
++	d_walk(root, &args, au_call_dpages_append, NULL);
++
++	return args.err;
++}
++
++int au_dcsub_pages_rev(struct au_dcsub_pages *dpages, struct dentry *dentry,
++		       int do_include, au_dpages_test test, void *arg)
++{
++	int err;
++
++	err = 0;
++	write_seqlock(&rename_lock);
++	spin_lock(&dentry->d_lock);
++	if (do_include
++	    && au_dcount(dentry) > 0
++	    && (!test || test(dentry, arg)))
++		err = au_dpages_append(dpages, dentry, GFP_ATOMIC);
++	spin_unlock(&dentry->d_lock);
++	if (unlikely(err))
++		goto out;
++
++	/*
++	 * RCU for vfsmount is unnecessary since this is a traverse in a single
++	 * mount
++	 */
++	while (!IS_ROOT(dentry)) {
++		dentry = dentry->d_parent; /* rename_lock is locked */
++		spin_lock(&dentry->d_lock);
++		if (au_dcount(dentry) > 0
++		    && (!test || test(dentry, arg)))
++			err = au_dpages_append(dpages, dentry, GFP_ATOMIC);
++		spin_unlock(&dentry->d_lock);
++		if (unlikely(err))
++			break;
++	}
++
++out:
++	write_sequnlock(&rename_lock);
++	return err;
++}
++
++static inline int au_dcsub_dpages_aufs(struct dentry *dentry, void *arg)
++{
++	return au_di(dentry) && dentry->d_sb == arg;
++}
++
++int au_dcsub_pages_rev_aufs(struct au_dcsub_pages *dpages,
++			    struct dentry *dentry, int do_include)
++{
++	return au_dcsub_pages_rev(dpages, dentry, do_include,
++				  au_dcsub_dpages_aufs, dentry->d_sb);
++}
++
++int au_test_subdir(struct dentry *d1, struct dentry *d2)
++{
++	struct path path[2] = {
++		{
++			.dentry = d1
++		},
++		{
++			.dentry = d2
++		}
++	};
++
++	return path_is_under(path + 0, path + 1);
++}
+diff --git a/fs/aufs/dcsub.h b/fs/aufs/dcsub.h
+new file mode 100755
+index 0000000..92d6f91
+--- /dev/null
++++ b/fs/aufs/dcsub.h
+@@ -0,0 +1,136 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * sub-routines for dentry cache
++ */
++
++#ifndef __AUFS_DCSUB_H__
++#define __AUFS_DCSUB_H__
++
++#ifdef __KERNEL__
++
++#include <linux/dcache.h>
++#include <linux/fs.h>
++
++struct au_dpage {
++	int ndentry;
++	struct dentry **dentries;
++};
++
++struct au_dcsub_pages {
++	int ndpage;
++	struct au_dpage *dpages;
++};
++
++/* ---------------------------------------------------------------------- */
++
++/* dcsub.c */
++int au_dpages_init(struct au_dcsub_pages *dpages, gfp_t gfp);
++void au_dpages_free(struct au_dcsub_pages *dpages);
++typedef int (*au_dpages_test)(struct dentry *dentry, void *arg);
++int au_dcsub_pages(struct au_dcsub_pages *dpages, struct dentry *root,
++		   au_dpages_test test, void *arg);
++int au_dcsub_pages_rev(struct au_dcsub_pages *dpages, struct dentry *dentry,
++		       int do_include, au_dpages_test test, void *arg);
++int au_dcsub_pages_rev_aufs(struct au_dcsub_pages *dpages,
++			    struct dentry *dentry, int do_include);
++int au_test_subdir(struct dentry *d1, struct dentry *d2);
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * todo: in linux-3.13, several similar (but faster) helpers are added to
++ * include/linux/dcache.h. Try them (in the future).
++ */
++
++static inline int au_d_hashed_positive(struct dentry *d)
++{
++	int err;
++	struct inode *inode = d_inode(d);
++
++	err = 0;
++	if (unlikely(d_unhashed(d)
++		     || d_is_negative(d)
++		     || !inode->i_nlink))
++		err = -ENOENT;
++	return err;
++}
++
++static inline int au_d_linkable(struct dentry *d)
++{
++	int err;
++	struct inode *inode = d_inode(d);
++
++	err = au_d_hashed_positive(d);
++	if (err
++	    && d_is_positive(d)
++	    && (inode->i_state & I_LINKABLE))
++		err = 0;
++	return err;
++}
++
++static inline int au_d_alive(struct dentry *d)
++{
++	int err;
++	struct inode *inode;
++
++	err = 0;
++	if (!IS_ROOT(d))
++		err = au_d_hashed_positive(d);
++	else {
++		inode = d_inode(d);
++		if (unlikely(d_unlinked(d)
++			     || d_is_negative(d)
++			     || !inode->i_nlink))
++			err = -ENOENT;
++	}
++	return err;
++}
++
++static inline int au_alive_dir(struct dentry *d)
++{
++	int err;
++
++	err = au_d_alive(d);
++	if (unlikely(err || IS_DEADDIR(d_inode(d))))
++		err = -ENOENT;
++	return err;
++}
++
++static inline int au_qstreq(struct qstr *a, struct qstr *b)
++{
++	return a->len == b->len
++		&& !memcmp(a->name, b->name, a->len);
++}
++
++/*
++ * by the commit
++ * 360f547 2015-01-25 dcache: let the dentry count go down to zero without
++ *			taking d_lock
++ * the type of d_lockref.count became int, but the inlined function d_count()
++ * still returns unsigned int.
++ * I don't know why. Maybe it is for every d_count() users?
++ * Anyway au_dcount() lives on.
++ */
++static inline int au_dcount(struct dentry *d)
++{
++	return (int)d_count(d);
++}
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_DCSUB_H__ */
+diff --git a/fs/aufs/debug.c b/fs/aufs/debug.c
+new file mode 100755
+index 0000000..6cfcb14
+--- /dev/null
++++ b/fs/aufs/debug.c
+@@ -0,0 +1,440 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * debug print functions
++ */
++
++#include "aufs.h"
++
++/* Returns 0, or -errno.  arg is in kp->arg. */
++static int param_atomic_t_set(const char *val, const struct kernel_param *kp)
++{
++	int err, n;
++
++	err = kstrtoint(val, 0, &n);
++	if (!err) {
++		if (n > 0)
++			au_debug_on();
++		else
++			au_debug_off();
++	}
++	return err;
++}
++
++/* Returns length written or -errno.  Buffer is 4k (ie. be short!) */
++static int param_atomic_t_get(char *buffer, const struct kernel_param *kp)
++{
++	atomic_t *a;
++
++	a = kp->arg;
++	return sprintf(buffer, "%d", atomic_read(a));
++}
++
++static struct kernel_param_ops param_ops_atomic_t = {
++	.set = param_atomic_t_set,
++	.get = param_atomic_t_get
++	/* void (*free)(void *arg) */
++};
++
++atomic_t aufs_debug = ATOMIC_INIT(0);
++MODULE_PARM_DESC(debug, "debug print");
++module_param_named(debug, aufs_debug, atomic_t, S_IRUGO | S_IWUSR | S_IWGRP);
++
++DEFINE_MUTEX(au_dbg_mtx);	/* just to serialize the dbg msgs */
++char *au_plevel = KERN_DEBUG;
++#define dpri(fmt, ...) do {					\
++	if ((au_plevel						\
++	     && strcmp(au_plevel, KERN_DEBUG))			\
++	    || au_debug_test())					\
++		printk("%s" fmt, au_plevel, ##__VA_ARGS__);	\
++} while (0)
++
++/* ---------------------------------------------------------------------- */
++
++void au_dpri_whlist(struct au_nhash *whlist)
++{
++	unsigned long ul, n;
++	struct hlist_head *head;
++	struct au_vdir_wh *pos;
++
++	n = whlist->nh_num;
++	head = whlist->nh_head;
++	for (ul = 0; ul < n; ul++) {
++		hlist_for_each_entry(pos, head, wh_hash)
++			dpri("b%d, %.*s, %d\n",
++			     pos->wh_bindex,
++			     pos->wh_str.len, pos->wh_str.name,
++			     pos->wh_str.len);
++		head++;
++	}
++}
++
++void au_dpri_vdir(struct au_vdir *vdir)
++{
++	unsigned long ul;
++	union au_vdir_deblk_p p;
++	unsigned char *o;
++
++	if (!vdir || IS_ERR(vdir)) {
++		dpri("err %ld\n", PTR_ERR(vdir));
++		return;
++	}
++
++	dpri("deblk %u, nblk %lu, deblk %p, last{%lu, %p}, ver %lu\n",
++	     vdir->vd_deblk_sz, vdir->vd_nblk, vdir->vd_deblk,
++	     vdir->vd_last.ul, vdir->vd_last.p.deblk, vdir->vd_version);
++	for (ul = 0; ul < vdir->vd_nblk; ul++) {
++		p.deblk = vdir->vd_deblk[ul];
++		o = p.deblk;
++		dpri("[%lu]: %p\n", ul, o);
++	}
++}
++
++static int do_pri_inode(aufs_bindex_t bindex, struct inode *inode, int hn,
++			struct dentry *wh)
++{
++	char *n = NULL;
++	int l = 0;
++
++	if (!inode || IS_ERR(inode)) {
++		dpri("i%d: err %ld\n", bindex, PTR_ERR(inode));
++		return -1;
++	}
++
++	/* the type of i_blocks depends upon CONFIG_LBDAF */
++	BUILD_BUG_ON(sizeof(inode->i_blocks) != sizeof(unsigned long)
++		     && sizeof(inode->i_blocks) != sizeof(u64));
++	if (wh) {
++		n = (void *)wh->d_name.name;
++		l = wh->d_name.len;
++	}
++
++	dpri("i%d: %p, i%lu, %s, cnt %d, nl %u, 0%o, sz %llu, blk %llu,"
++	     " hn %d, ct %lld, np %lu, st 0x%lx, f 0x%x, v %llu, g %x%s%.*s\n",
++	     bindex, inode,
++	     inode->i_ino, inode->i_sb ? au_sbtype(inode->i_sb) : "??",
++	     atomic_read(&inode->i_count), inode->i_nlink, inode->i_mode,
++	     i_size_read(inode), (unsigned long long)inode->i_blocks,
++	     hn, (long long)timespec_to_ns(&inode->i_ctime) & 0x0ffff,
++	     inode->i_mapping ? inode->i_mapping->nrpages : 0,
++	     inode->i_state, inode->i_flags, inode->i_version,
++	     inode->i_generation,
++	     l ? ", wh " : "", l, n);
++	return 0;
++}
++
++void au_dpri_inode(struct inode *inode)
++{
++	struct au_iinfo *iinfo;
++	struct au_hinode *hi;
++	aufs_bindex_t bindex;
++	int err, hn;
++
++	err = do_pri_inode(-1, inode, -1, NULL);
++	if (err || !au_test_aufs(inode->i_sb) || au_is_bad_inode(inode))
++		return;
++
++	iinfo = au_ii(inode);
++	dpri("i-1: btop %d, bbot %d, gen %d\n",
++	     iinfo->ii_btop, iinfo->ii_bbot, au_iigen(inode, NULL));
++	if (iinfo->ii_btop < 0)
++		return;
++	hn = 0;
++	for (bindex = iinfo->ii_btop; bindex <= iinfo->ii_bbot; bindex++) {
++		hi = au_hinode(iinfo, bindex);
++		hn = !!au_hn(hi);
++		do_pri_inode(bindex, hi->hi_inode, hn, hi->hi_whdentry);
++	}
++}
++
++void au_dpri_dalias(struct inode *inode)
++{
++	struct dentry *d;
++
++	spin_lock(&inode->i_lock);
++	hlist_for_each_entry(d, &inode->i_dentry, d_u.d_alias)
++		au_dpri_dentry(d);
++	spin_unlock(&inode->i_lock);
++}
++
++static int do_pri_dentry(aufs_bindex_t bindex, struct dentry *dentry)
++{
++	struct dentry *wh = NULL;
++	int hn;
++	struct inode *inode;
++	struct au_iinfo *iinfo;
++	struct au_hinode *hi;
++
++	if (!dentry || IS_ERR(dentry)) {
++		dpri("d%d: err %ld\n", bindex, PTR_ERR(dentry));
++		return -1;
++	}
++	/* do not call dget_parent() here */
++	/* note: access d_xxx without d_lock */
++	dpri("d%d: %p, %pd2?, %s, cnt %d, flags 0x%x, %shashed\n",
++	     bindex, dentry, dentry,
++	     dentry->d_sb ? au_sbtype(dentry->d_sb) : "??",
++	     au_dcount(dentry), dentry->d_flags,
++	     d_unhashed(dentry) ? "un" : "");
++	hn = -1;
++	inode = NULL;
++	if (d_is_positive(dentry))
++		inode = d_inode(dentry);
++	if (inode
++	    && au_test_aufs(dentry->d_sb)
++	    && bindex >= 0
++	    && !au_is_bad_inode(inode)) {
++		iinfo = au_ii(inode);
++		hi = au_hinode(iinfo, bindex);
++		hn = !!au_hn(hi);
++		wh = hi->hi_whdentry;
++	}
++	do_pri_inode(bindex, inode, hn, wh);
++	return 0;
++}
++
++void au_dpri_dentry(struct dentry *dentry)
++{
++	struct au_dinfo *dinfo;
++	aufs_bindex_t bindex;
++	int err;
++
++	err = do_pri_dentry(-1, dentry);
++	if (err || !au_test_aufs(dentry->d_sb))
++		return;
++
++	dinfo = au_di(dentry);
++	if (!dinfo)
++		return;
++	dpri("d-1: btop %d, bbot %d, bwh %d, bdiropq %d, gen %d, tmp %d\n",
++	     dinfo->di_btop, dinfo->di_bbot,
++	     dinfo->di_bwh, dinfo->di_bdiropq, au_digen(dentry),
++	     dinfo->di_tmpfile);
++	if (dinfo->di_btop < 0)
++		return;
++	for (bindex = dinfo->di_btop; bindex <= dinfo->di_bbot; bindex++)
++		do_pri_dentry(bindex, au_hdentry(dinfo, bindex)->hd_dentry);
++}
++
++static int do_pri_file(aufs_bindex_t bindex, struct file *file)
++{
++	char a[32];
++
++	if (!file || IS_ERR(file)) {
++		dpri("f%d: err %ld\n", bindex, PTR_ERR(file));
++		return -1;
++	}
++	a[0] = 0;
++	if (bindex < 0
++	    && !IS_ERR_OR_NULL(file->f_path.dentry)
++	    && au_test_aufs(file->f_path.dentry->d_sb)
++	    && au_fi(file))
++		snprintf(a, sizeof(a), ", gen %d, mmapped %d",
++			 au_figen(file), atomic_read(&au_fi(file)->fi_mmapped));
++	dpri("f%d: mode 0x%x, flags 0%o, cnt %ld, v %llu, pos %llu%s\n",
++	     bindex, file->f_mode, file->f_flags, (long)file_count(file),
++	     file->f_version, file->f_pos, a);
++	if (!IS_ERR_OR_NULL(file->f_path.dentry))
++		do_pri_dentry(bindex, file->f_path.dentry);
++	return 0;
++}
++
++void au_dpri_file(struct file *file)
++{
++	struct au_finfo *finfo;
++	struct au_fidir *fidir;
++	struct au_hfile *hfile;
++	aufs_bindex_t bindex;
++	int err;
++
++	err = do_pri_file(-1, file);
++	if (err
++	    || IS_ERR_OR_NULL(file->f_path.dentry)
++	    || !au_test_aufs(file->f_path.dentry->d_sb))
++		return;
++
++	finfo = au_fi(file);
++	if (!finfo)
++		return;
++	if (finfo->fi_btop < 0)
++		return;
++	fidir = finfo->fi_hdir;
++	if (!fidir)
++		do_pri_file(finfo->fi_btop, finfo->fi_htop.hf_file);
++	else
++		for (bindex = finfo->fi_btop;
++		     bindex >= 0 && bindex <= fidir->fd_bbot;
++		     bindex++) {
++			hfile = fidir->fd_hfile + bindex;
++			do_pri_file(bindex, hfile ? hfile->hf_file : NULL);
++		}
++}
++
++static int do_pri_br(aufs_bindex_t bindex, struct au_branch *br)
++{
++	struct vfsmount *mnt;
++	struct super_block *sb;
++
++	if (!br || IS_ERR(br))
++		goto out;
++	mnt = au_br_mnt(br);
++	if (!mnt || IS_ERR(mnt))
++		goto out;
++	sb = mnt->mnt_sb;
++	if (!sb || IS_ERR(sb))
++		goto out;
++
++	dpri("s%d: {perm 0x%x, id %d, cnt %lld, wbr %p}, "
++	     "%s, dev 0x%02x%02x, flags 0x%lx, cnt %d, active %d, "
++	     "xino %d\n",
++	     bindex, br->br_perm, br->br_id, au_br_count(br),
++	     br->br_wbr, au_sbtype(sb), MAJOR(sb->s_dev), MINOR(sb->s_dev),
++	     sb->s_flags, sb->s_count,
++	     atomic_read(&sb->s_active), !!br->br_xino.xi_file);
++	return 0;
++
++out:
++	dpri("s%d: err %ld\n", bindex, PTR_ERR(br));
++	return -1;
++}
++
++void au_dpri_sb(struct super_block *sb)
++{
++	struct au_sbinfo *sbinfo;
++	aufs_bindex_t bindex;
++	int err;
++	/* to reuduce stack size */
++	struct {
++		struct vfsmount mnt;
++		struct au_branch fake;
++	} *a;
++
++	/* this function can be called from magic sysrq */
++	a = kzalloc(sizeof(*a), GFP_ATOMIC);
++	if (unlikely(!a)) {
++		dpri("no memory\n");
++		return;
++	}
++
++	a->mnt.mnt_sb = sb;
++	a->fake.br_path.mnt = &a->mnt;
++	au_br_count_init(&a->fake);
++	err = do_pri_br(-1, &a->fake);
++	au_br_count_fin(&a->fake);
++	kfree(a);
++	dpri("dev 0x%x\n", sb->s_dev);
++	if (err || !au_test_aufs(sb))
++		return;
++
++	sbinfo = au_sbi(sb);
++	if (!sbinfo)
++		return;
++	dpri("nw %d, gen %u, kobj %d\n",
++	     atomic_read(&sbinfo->si_nowait.nw_len), sbinfo->si_generation,
++	     kref_read(&sbinfo->si_kobj.kref));
++	for (bindex = 0; bindex <= sbinfo->si_bbot; bindex++)
++		do_pri_br(bindex, sbinfo->si_branch[0 + bindex]);
++}
++
++/* ---------------------------------------------------------------------- */
++
++void __au_dbg_verify_dinode(struct dentry *dentry, const char *func, int line)
++{
++	struct inode *h_inode, *inode = d_inode(dentry);
++	struct dentry *h_dentry;
++	aufs_bindex_t bindex, bbot, bi;
++
++	if (!inode /* || au_di(dentry)->di_lsc == AuLsc_DI_TMP */)
++		return;
++
++	bbot = au_dbbot(dentry);
++	bi = au_ibbot(inode);
++	if (bi < bbot)
++		bbot = bi;
++	bindex = au_dbtop(dentry);
++	bi = au_ibtop(inode);
++	if (bi > bindex)
++		bindex = bi;
++
++	for (; bindex <= bbot; bindex++) {
++		h_dentry = au_h_dptr(dentry, bindex);
++		if (!h_dentry)
++			continue;
++		h_inode = au_h_iptr(inode, bindex);
++		if (unlikely(h_inode != d_inode(h_dentry))) {
++			au_debug_on();
++			AuDbg("b%d, %s:%d\n", bindex, func, line);
++			AuDbgDentry(dentry);
++			AuDbgInode(inode);
++			au_debug_off();
++			BUG();
++		}
++	}
++}
++
++void au_dbg_verify_gen(struct dentry *parent, unsigned int sigen)
++{
++	int err, i, j;
++	struct au_dcsub_pages dpages;
++	struct au_dpage *dpage;
++	struct dentry **dentries;
++
++	err = au_dpages_init(&dpages, GFP_NOFS);
++	AuDebugOn(err);
++	err = au_dcsub_pages_rev_aufs(&dpages, parent, /*do_include*/1);
++	AuDebugOn(err);
++	for (i = dpages.ndpage - 1; !err && i >= 0; i--) {
++		dpage = dpages.dpages + i;
++		dentries = dpage->dentries;
++		for (j = dpage->ndentry - 1; !err && j >= 0; j--)
++			AuDebugOn(au_digen_test(dentries[j], sigen));
++	}
++	au_dpages_free(&dpages);
++}
++
++void au_dbg_verify_kthread(void)
++{
++	if (au_wkq_test()) {
++		au_dbg_blocked();
++		/*
++		 * It may be recursive, but udba=notify between two aufs mounts,
++		 * where a single ro branch is shared, is not a problem.
++		 */
++		/* WARN_ON(1); */
++	}
++}
++
++/* ---------------------------------------------------------------------- */
++
++int __init au_debug_init(void)
++{
++	aufs_bindex_t bindex;
++	struct au_vdir_destr destr;
++
++	bindex = -1;
++	AuDebugOn(bindex >= 0);
++
++	destr.len = -1;
++	AuDebugOn(destr.len < NAME_MAX);
++
++#ifdef CONFIG_4KSTACKS
++	pr_warn("CONFIG_4KSTACKS is defined.\n");
++#endif
++
++	return 0;
++}
+diff --git a/fs/aufs/debug.h b/fs/aufs/debug.h
+new file mode 100755
+index 0000000..270628d
+--- /dev/null
++++ b/fs/aufs/debug.h
+@@ -0,0 +1,225 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * debug print functions
++ */
++
++#ifndef __AUFS_DEBUG_H__
++#define __AUFS_DEBUG_H__
++
++#ifdef __KERNEL__
++
++#include <linux/atomic.h>
++#include <linux/module.h>
++#include <linux/kallsyms.h>
++#include <linux/sysrq.h>
++
++#ifdef CONFIG_AUFS_DEBUG
++#define AuDebugOn(a)		BUG_ON(a)
++
++/* module parameter */
++extern atomic_t aufs_debug;
++static inline void au_debug_on(void)
++{
++	atomic_inc(&aufs_debug);
++}
++static inline void au_debug_off(void)
++{
++	atomic_dec_if_positive(&aufs_debug);
++}
++
++static inline int au_debug_test(void)
++{
++	return atomic_read(&aufs_debug) > 0;
++}
++#else
++#define AuDebugOn(a)		do {} while (0)
++AuStubVoid(au_debug_on, void)
++AuStubVoid(au_debug_off, void)
++AuStubInt0(au_debug_test, void)
++#endif /* CONFIG_AUFS_DEBUG */
++
++#define param_check_atomic_t(name, p) __param_check(name, p, atomic_t)
++
++/* ---------------------------------------------------------------------- */
++
++/* debug print */
++
++#define AuDbg(fmt, ...) do { \
++	if (au_debug_test()) \
++		pr_debug("DEBUG: " fmt, ##__VA_ARGS__); \
++} while (0)
++#define AuLabel(l)		AuDbg(#l "\n")
++#define AuIOErr(fmt, ...)	pr_err("I/O Error, " fmt, ##__VA_ARGS__)
++#define AuWarn1(fmt, ...) do { \
++	static unsigned char _c; \
++	if (!_c++) \
++		pr_warn(fmt, ##__VA_ARGS__); \
++} while (0)
++
++#define AuErr1(fmt, ...) do { \
++	static unsigned char _c; \
++	if (!_c++) \
++		pr_err(fmt, ##__VA_ARGS__); \
++} while (0)
++
++#define AuIOErr1(fmt, ...) do { \
++	static unsigned char _c; \
++	if (!_c++) \
++		AuIOErr(fmt, ##__VA_ARGS__); \
++} while (0)
++
++#define AuUnsupportMsg	"This operation is not supported." \
++			" Please report this application to aufs-users ML."
++#define AuUnsupport(fmt, ...) do { \
++	pr_err(AuUnsupportMsg "\n" fmt, ##__VA_ARGS__); \
++	dump_stack(); \
++} while (0)
++
++#define AuTraceErr(e) do { \
++	if (unlikely((e) < 0)) \
++		AuDbg("err %d\n", (int)(e)); \
++} while (0)
++
++#define AuTraceErrPtr(p) do { \
++	if (IS_ERR(p)) \
++		AuDbg("err %ld\n", PTR_ERR(p)); \
++} while (0)
++
++/* dirty macros for debug print, use with "%.*s" and caution */
++#define AuLNPair(qstr)		(qstr)->len, (qstr)->name
++
++/* ---------------------------------------------------------------------- */
++
++struct dentry;
++#ifdef CONFIG_AUFS_DEBUG
++extern struct mutex au_dbg_mtx;
++extern char *au_plevel;
++struct au_nhash;
++void au_dpri_whlist(struct au_nhash *whlist);
++struct au_vdir;
++void au_dpri_vdir(struct au_vdir *vdir);
++struct inode;
++void au_dpri_inode(struct inode *inode);
++void au_dpri_dalias(struct inode *inode);
++void au_dpri_dentry(struct dentry *dentry);
++struct file;
++void au_dpri_file(struct file *filp);
++struct super_block;
++void au_dpri_sb(struct super_block *sb);
++
++#define au_dbg_verify_dinode(d) __au_dbg_verify_dinode(d, __func__, __LINE__)
++void __au_dbg_verify_dinode(struct dentry *dentry, const char *func, int line);
++void au_dbg_verify_gen(struct dentry *parent, unsigned int sigen);
++void au_dbg_verify_kthread(void);
++
++int __init au_debug_init(void);
++
++#define AuDbgWhlist(w) do { \
++	mutex_lock(&au_dbg_mtx); \
++	AuDbg(#w "\n"); \
++	au_dpri_whlist(w); \
++	mutex_unlock(&au_dbg_mtx); \
++} while (0)
++
++#define AuDbgVdir(v) do { \
++	mutex_lock(&au_dbg_mtx); \
++	AuDbg(#v "\n"); \
++	au_dpri_vdir(v); \
++	mutex_unlock(&au_dbg_mtx); \
++} while (0)
++
++#define AuDbgInode(i) do { \
++	mutex_lock(&au_dbg_mtx); \
++	AuDbg(#i "\n"); \
++	au_dpri_inode(i); \
++	mutex_unlock(&au_dbg_mtx); \
++} while (0)
++
++#define AuDbgDAlias(i) do { \
++	mutex_lock(&au_dbg_mtx); \
++	AuDbg(#i "\n"); \
++	au_dpri_dalias(i); \
++	mutex_unlock(&au_dbg_mtx); \
++} while (0)
++
++#define AuDbgDentry(d) do { \
++	mutex_lock(&au_dbg_mtx); \
++	AuDbg(#d "\n"); \
++	au_dpri_dentry(d); \
++	mutex_unlock(&au_dbg_mtx); \
++} while (0)
++
++#define AuDbgFile(f) do { \
++	mutex_lock(&au_dbg_mtx); \
++	AuDbg(#f "\n"); \
++	au_dpri_file(f); \
++	mutex_unlock(&au_dbg_mtx); \
++} while (0)
++
++#define AuDbgSb(sb) do { \
++	mutex_lock(&au_dbg_mtx); \
++	AuDbg(#sb "\n"); \
++	au_dpri_sb(sb); \
++	mutex_unlock(&au_dbg_mtx); \
++} while (0)
++
++#define AuDbgSym(addr) do {				\
++	char sym[KSYM_SYMBOL_LEN];			\
++	sprint_symbol(sym, (unsigned long)addr);	\
++	AuDbg("%s\n", sym);				\
++} while (0)
++#else
++AuStubVoid(au_dbg_verify_dinode, struct dentry *dentry)
++AuStubVoid(au_dbg_verify_gen, struct dentry *parent, unsigned int sigen)
++AuStubVoid(au_dbg_verify_kthread, void)
++AuStubInt0(__init au_debug_init, void)
++
++#define AuDbgWhlist(w)		do {} while (0)
++#define AuDbgVdir(v)		do {} while (0)
++#define AuDbgInode(i)		do {} while (0)
++#define AuDbgDAlias(i)		do {} while (0)
++#define AuDbgDentry(d)		do {} while (0)
++#define AuDbgFile(f)		do {} while (0)
++#define AuDbgSb(sb)		do {} while (0)
++#define AuDbgSym(addr)		do {} while (0)
++#endif /* CONFIG_AUFS_DEBUG */
++
++/* ---------------------------------------------------------------------- */
++
++#ifdef CONFIG_AUFS_MAGIC_SYSRQ
++int __init au_sysrq_init(void);
++void au_sysrq_fin(void);
++
++#ifdef CONFIG_HW_CONSOLE
++#define au_dbg_blocked() do { \
++	WARN_ON(1); \
++	handle_sysrq('w'); \
++} while (0)
++#else
++AuStubVoid(au_dbg_blocked, void)
++#endif
++
++#else
++AuStubInt0(__init au_sysrq_init, void)
++AuStubVoid(au_sysrq_fin, void)
++AuStubVoid(au_dbg_blocked, void)
++#endif /* CONFIG_AUFS_MAGIC_SYSRQ */
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_DEBUG_H__ */
+diff --git a/fs/aufs/dentry.c b/fs/aufs/dentry.c
+new file mode 100755
+index 0000000..95ae92a
+--- /dev/null
++++ b/fs/aufs/dentry.c
+@@ -0,0 +1,1130 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * lookup and dentry operations
++ */
++
++#include <linux/namei.h>
++#include "aufs.h"
++
++struct au_do_lookup_args {
++	unsigned int		flags;
++	mode_t			type;
++};
++
++/*
++ * returns positive/negative dentry, NULL or an error.
++ * NULL means whiteout-ed or not-found.
++ */
++static struct dentry*
++au_do_lookup(struct dentry *h_parent, struct dentry *dentry,
++	     aufs_bindex_t bindex, struct qstr *wh_name,
++	     struct au_do_lookup_args *args)
++{
++	struct dentry *h_dentry;
++	struct inode *h_inode;
++	struct au_branch *br;
++	int wh_found, opq;
++	unsigned char wh_able;
++	const unsigned char allow_neg = !!au_ftest_lkup(args->flags, ALLOW_NEG);
++	const unsigned char ignore_perm = !!au_ftest_lkup(args->flags,
++							  IGNORE_PERM);
++
++	wh_found = 0;
++	br = au_sbr(dentry->d_sb, bindex);
++	wh_able = !!au_br_whable(br->br_perm);
++	if (wh_able)
++		wh_found = au_wh_test(h_parent, wh_name, ignore_perm);
++	h_dentry = ERR_PTR(wh_found);
++	if (!wh_found)
++		goto real_lookup;
++	if (unlikely(wh_found < 0))
++		goto out;
++
++	/* We found a whiteout */
++	/* au_set_dbbot(dentry, bindex); */
++	au_set_dbwh(dentry, bindex);
++	if (!allow_neg)
++		return NULL; /* success */
++
++real_lookup:
++	if (!ignore_perm)
++		h_dentry = vfsub_lkup_one(&dentry->d_name, h_parent);
++	else
++		h_dentry = au_sio_lkup_one(&dentry->d_name, h_parent);
++	if (IS_ERR(h_dentry)) {
++		if (PTR_ERR(h_dentry) == -ENAMETOOLONG
++		    && !allow_neg)
++			h_dentry = NULL;
++		goto out;
++	}
++
++	h_inode = d_inode(h_dentry);
++	if (d_is_negative(h_dentry)) {
++		if (!allow_neg)
++			goto out_neg;
++	} else if (wh_found
++		   || (args->type && args->type != (h_inode->i_mode & S_IFMT)))
++		goto out_neg;
++
++	if (au_dbbot(dentry) <= bindex)
++		au_set_dbbot(dentry, bindex);
++	if (au_dbtop(dentry) < 0 || bindex < au_dbtop(dentry))
++		au_set_dbtop(dentry, bindex);
++	au_set_h_dptr(dentry, bindex, h_dentry);
++
++	if (!d_is_dir(h_dentry)
++	    || !wh_able
++	    || (d_really_is_positive(dentry) && !d_is_dir(dentry)))
++		goto out; /* success */
++
++	vfsub_inode_lock_shared_nested(h_inode, AuLsc_I_CHILD);
++	opq = au_diropq_test(h_dentry);
++	inode_unlock_shared(h_inode);
++	if (opq > 0)
++		au_set_dbdiropq(dentry, bindex);
++	else if (unlikely(opq < 0)) {
++		au_set_h_dptr(dentry, bindex, NULL);
++		h_dentry = ERR_PTR(opq);
++	}
++	goto out;
++
++out_neg:
++	dput(h_dentry);
++	h_dentry = NULL;
++out:
++	return h_dentry;
++}
++
++static int au_test_shwh(struct super_block *sb, const struct qstr *name)
++{
++	if (unlikely(!au_opt_test(au_mntflags(sb), SHWH)
++		     && !strncmp(name->name, AUFS_WH_PFX, AUFS_WH_PFX_LEN)))
++		return -EPERM;
++	return 0;
++}
++
++/*
++ * returns the number of lower positive dentries,
++ * otherwise an error.
++ * can be called at unlinking with @type is zero.
++ */
++int au_lkup_dentry(struct dentry *dentry, aufs_bindex_t btop,
++		   unsigned int flags)
++{
++	int npositive, err;
++	aufs_bindex_t bindex, btail, bdiropq;
++	unsigned char isdir, dirperm1;
++	struct qstr whname;
++	struct au_do_lookup_args args = {
++		.flags		= flags
++	};
++	const struct qstr *name = &dentry->d_name;
++	struct dentry *parent;
++	struct super_block *sb;
++
++	sb = dentry->d_sb;
++	err = au_test_shwh(sb, name);
++	if (unlikely(err))
++		goto out;
++
++	err = au_wh_name_alloc(&whname, name);
++	if (unlikely(err))
++		goto out;
++
++	isdir = !!d_is_dir(dentry);
++	dirperm1 = !!au_opt_test(au_mntflags(sb), DIRPERM1);
++
++	npositive = 0;
++	parent = dget_parent(dentry);
++	btail = au_dbtaildir(parent);
++	for (bindex = btop; bindex <= btail; bindex++) {
++		struct dentry *h_parent, *h_dentry;
++		struct inode *h_inode, *h_dir;
++
++		h_dentry = au_h_dptr(dentry, bindex);
++		if (h_dentry) {
++			if (d_is_positive(h_dentry))
++				npositive++;
++			break;
++		}
++		h_parent = au_h_dptr(parent, bindex);
++		if (!h_parent || !d_is_dir(h_parent))
++			continue;
++
++		h_dir = d_inode(h_parent);
++		vfsub_inode_lock_shared_nested(h_dir, AuLsc_I_PARENT);
++		h_dentry = au_do_lookup(h_parent, dentry, bindex, &whname,
++					&args);
++		inode_unlock_shared(h_dir);
++		err = PTR_ERR(h_dentry);
++		if (IS_ERR(h_dentry))
++			goto out_parent;
++		if (h_dentry)
++			au_fclr_lkup(args.flags, ALLOW_NEG);
++		if (dirperm1)
++			au_fset_lkup(args.flags, IGNORE_PERM);
++
++		if (au_dbwh(dentry) == bindex)
++			break;
++		if (!h_dentry)
++			continue;
++		if (d_is_negative(h_dentry))
++			continue;
++		h_inode = d_inode(h_dentry);
++		npositive++;
++		if (!args.type)
++			args.type = h_inode->i_mode & S_IFMT;
++		if (args.type != S_IFDIR)
++			break;
++		else if (isdir) {
++			/* the type of lower may be different */
++			bdiropq = au_dbdiropq(dentry);
++			if (bdiropq >= 0 && bdiropq <= bindex)
++				break;
++		}
++	}
++
++	if (npositive) {
++		AuLabel(positive);
++		au_update_dbtop(dentry);
++	}
++	err = npositive;
++	if (unlikely(!au_opt_test(au_mntflags(sb), UDBA_NONE)
++		     && au_dbtop(dentry) < 0)) {
++		err = -EIO;
++		AuIOErr("both of real entry and whiteout found, %pd, err %d\n",
++			dentry, err);
++	}
++
++out_parent:
++	dput(parent);
++	kfree(whname.name);
++out:
++	return err;
++}
++
++struct dentry *au_sio_lkup_one(struct qstr *name, struct dentry *parent)
++{
++	struct dentry *dentry;
++	int wkq_err;
++
++	if (!au_test_h_perm_sio(d_inode(parent), MAY_EXEC))
++		dentry = vfsub_lkup_one(name, parent);
++	else {
++		struct vfsub_lkup_one_args args = {
++			.errp	= &dentry,
++			.name	= name,
++			.parent	= parent
++		};
++
++		wkq_err = au_wkq_wait(vfsub_call_lkup_one, &args);
++		if (unlikely(wkq_err))
++			dentry = ERR_PTR(wkq_err);
++	}
++
++	return dentry;
++}
++
++/*
++ * lookup @dentry on @bindex which should be negative.
++ */
++int au_lkup_neg(struct dentry *dentry, aufs_bindex_t bindex, int wh)
++{
++	int err;
++	struct dentry *parent, *h_parent, *h_dentry;
++	struct au_branch *br;
++
++	parent = dget_parent(dentry);
++	h_parent = au_h_dptr(parent, bindex);
++	br = au_sbr(dentry->d_sb, bindex);
++	if (wh)
++		h_dentry = au_whtmp_lkup(h_parent, br, &dentry->d_name);
++	else
++		h_dentry = au_sio_lkup_one(&dentry->d_name, h_parent);
++	err = PTR_ERR(h_dentry);
++	if (IS_ERR(h_dentry))
++		goto out;
++	if (unlikely(d_is_positive(h_dentry))) {
++		err = -EIO;
++		AuIOErr("%pd should be negative on b%d.\n", h_dentry, bindex);
++		dput(h_dentry);
++		goto out;
++	}
++
++	err = 0;
++	if (bindex < au_dbtop(dentry))
++		au_set_dbtop(dentry, bindex);
++	if (au_dbbot(dentry) < bindex)
++		au_set_dbbot(dentry, bindex);
++	au_set_h_dptr(dentry, bindex, h_dentry);
++
++out:
++	dput(parent);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* subset of struct inode */
++struct au_iattr {
++	unsigned long		i_ino;
++	/* unsigned int		i_nlink; */
++	kuid_t			i_uid;
++	kgid_t			i_gid;
++	u64			i_version;
++/*
++	loff_t			i_size;
++	blkcnt_t		i_blocks;
++*/
++	umode_t			i_mode;
++};
++
++static void au_iattr_save(struct au_iattr *ia, struct inode *h_inode)
++{
++	ia->i_ino = h_inode->i_ino;
++	/* ia->i_nlink = h_inode->i_nlink; */
++	ia->i_uid = h_inode->i_uid;
++	ia->i_gid = h_inode->i_gid;
++	ia->i_version = h_inode->i_version;
++/*
++	ia->i_size = h_inode->i_size;
++	ia->i_blocks = h_inode->i_blocks;
++*/
++	ia->i_mode = (h_inode->i_mode & S_IFMT);
++}
++
++static int au_iattr_test(struct au_iattr *ia, struct inode *h_inode)
++{
++	return ia->i_ino != h_inode->i_ino
++		/* || ia->i_nlink != h_inode->i_nlink */
++		|| !uid_eq(ia->i_uid, h_inode->i_uid)
++		|| !gid_eq(ia->i_gid, h_inode->i_gid)
++		|| ia->i_version != h_inode->i_version
++/*
++		|| ia->i_size != h_inode->i_size
++		|| ia->i_blocks != h_inode->i_blocks
++*/
++		|| ia->i_mode != (h_inode->i_mode & S_IFMT);
++}
++
++static int au_h_verify_dentry(struct dentry *h_dentry, struct dentry *h_parent,
++			      struct au_branch *br)
++{
++	int err;
++	struct au_iattr ia;
++	struct inode *h_inode;
++	struct dentry *h_d;
++	struct super_block *h_sb;
++
++	err = 0;
++	memset(&ia, -1, sizeof(ia));
++	h_sb = h_dentry->d_sb;
++	h_inode = NULL;
++	if (d_is_positive(h_dentry)) {
++		h_inode = d_inode(h_dentry);
++		au_iattr_save(&ia, h_inode);
++	} else if (au_test_nfs(h_sb) || au_test_fuse(h_sb))
++		/* nfs d_revalidate may return 0 for negative dentry */
++		/* fuse d_revalidate always return 0 for negative dentry */
++		goto out;
++
++	/* main purpose is namei.c:cached_lookup() and d_revalidate */
++	h_d = vfsub_lkup_one(&h_dentry->d_name, h_parent);
++	err = PTR_ERR(h_d);
++	if (IS_ERR(h_d))
++		goto out;
++
++	err = 0;
++	if (unlikely(h_d != h_dentry
++		     || d_inode(h_d) != h_inode
++		     || (h_inode && au_iattr_test(&ia, h_inode))))
++		err = au_busy_or_stale();
++	dput(h_d);
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++int au_h_verify(struct dentry *h_dentry, unsigned int udba, struct inode *h_dir,
++		struct dentry *h_parent, struct au_branch *br)
++{
++	int err;
++
++	err = 0;
++	if (udba == AuOpt_UDBA_REVAL
++	    && !au_test_fs_remote(h_dentry->d_sb)) {
++		IMustLock(h_dir);
++		err = (d_inode(h_dentry->d_parent) != h_dir);
++	} else if (udba != AuOpt_UDBA_NONE)
++		err = au_h_verify_dentry(h_dentry, h_parent, br);
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int au_do_refresh_hdentry(struct dentry *dentry, struct dentry *parent)
++{
++	int err;
++	aufs_bindex_t new_bindex, bindex, bbot, bwh, bdiropq;
++	struct au_hdentry tmp, *p, *q;
++	struct au_dinfo *dinfo;
++	struct super_block *sb;
++
++	DiMustWriteLock(dentry);
++
++	sb = dentry->d_sb;
++	dinfo = au_di(dentry);
++	bbot = dinfo->di_bbot;
++	bwh = dinfo->di_bwh;
++	bdiropq = dinfo->di_bdiropq;
++	bindex = dinfo->di_btop;
++	p = au_hdentry(dinfo, bindex);
++	for (; bindex <= bbot; bindex++, p++) {
++		if (!p->hd_dentry)
++			continue;
++
++		new_bindex = au_br_index(sb, p->hd_id);
++		if (new_bindex == bindex)
++			continue;
++
++		if (dinfo->di_bwh == bindex)
++			bwh = new_bindex;
++		if (dinfo->di_bdiropq == bindex)
++			bdiropq = new_bindex;
++		if (new_bindex < 0) {
++			au_hdput(p);
++			p->hd_dentry = NULL;
++			continue;
++		}
++
++		/* swap two lower dentries, and loop again */
++		q = au_hdentry(dinfo, new_bindex);
++		tmp = *q;
++		*q = *p;
++		*p = tmp;
++		if (tmp.hd_dentry) {
++			bindex--;
++			p--;
++		}
++	}
++
++	dinfo->di_bwh = -1;
++	if (bwh >= 0 && bwh <= au_sbbot(sb) && au_sbr_whable(sb, bwh))
++		dinfo->di_bwh = bwh;
++
++	dinfo->di_bdiropq = -1;
++	if (bdiropq >= 0
++	    && bdiropq <= au_sbbot(sb)
++	    && au_sbr_whable(sb, bdiropq))
++		dinfo->di_bdiropq = bdiropq;
++
++	err = -EIO;
++	dinfo->di_btop = -1;
++	dinfo->di_bbot = -1;
++	bbot = au_dbbot(parent);
++	bindex = 0;
++	p = au_hdentry(dinfo, bindex);
++	for (; bindex <= bbot; bindex++, p++)
++		if (p->hd_dentry) {
++			dinfo->di_btop = bindex;
++			break;
++		}
++
++	if (dinfo->di_btop >= 0) {
++		bindex = bbot;
++		p = au_hdentry(dinfo, bindex);
++		for (; bindex >= 0; bindex--, p--)
++			if (p->hd_dentry) {
++				dinfo->di_bbot = bindex;
++				err = 0;
++				break;
++			}
++	}
++
++	return err;
++}
++
++static void au_do_hide(struct dentry *dentry)
++{
++	struct inode *inode;
++
++	if (d_really_is_positive(dentry)) {
++		inode = d_inode(dentry);
++		if (!d_is_dir(dentry)) {
++			if (inode->i_nlink && !d_unhashed(dentry))
++				drop_nlink(inode);
++		} else {
++			clear_nlink(inode);
++			/* stop next lookup */
++			inode->i_flags |= S_DEAD;
++		}
++		smp_mb(); /* necessary? */
++	}
++	d_drop(dentry);
++}
++
++static int au_hide_children(struct dentry *parent)
++{
++	int err, i, j, ndentry;
++	struct au_dcsub_pages dpages;
++	struct au_dpage *dpage;
++	struct dentry *dentry;
++
++	err = au_dpages_init(&dpages, GFP_NOFS);
++	if (unlikely(err))
++		goto out;
++	err = au_dcsub_pages(&dpages, parent, NULL, NULL);
++	if (unlikely(err))
++		goto out_dpages;
++
++	/* in reverse order */
++	for (i = dpages.ndpage - 1; i >= 0; i--) {
++		dpage = dpages.dpages + i;
++		ndentry = dpage->ndentry;
++		for (j = ndentry - 1; j >= 0; j--) {
++			dentry = dpage->dentries[j];
++			if (dentry != parent)
++				au_do_hide(dentry);
++		}
++	}
++
++out_dpages:
++	au_dpages_free(&dpages);
++out:
++	return err;
++}
++
++static void au_hide(struct dentry *dentry)
++{
++	int err;
++
++	AuDbgDentry(dentry);
++	if (d_is_dir(dentry)) {
++		/* shrink_dcache_parent(dentry); */
++		err = au_hide_children(dentry);
++		if (unlikely(err))
++			AuIOErr("%pd, failed hiding children, ignored %d\n",
++				dentry, err);
++	}
++	au_do_hide(dentry);
++}
++
++/*
++ * By adding a dirty branch, a cached dentry may be affected in various ways.
++ *
++ * a dirty branch is added
++ * - on the top of layers
++ * - in the middle of layers
++ * - to the bottom of layers
++ *
++ * on the added branch there exists
++ * - a whiteout
++ * - a diropq
++ * - a same named entry
++ *   + exist
++ *     * negative --> positive
++ *     * positive --> positive
++ *	 - type is unchanged
++ *	 - type is changed
++ *   + doesn't exist
++ *     * negative --> negative
++ *     * positive --> negative (rejected by au_br_del() for non-dir case)
++ * - none
++ */
++static int au_refresh_by_dinfo(struct dentry *dentry, struct au_dinfo *dinfo,
++			       struct au_dinfo *tmp)
++{
++	int err;
++	aufs_bindex_t bindex, bbot;
++	struct {
++		struct dentry *dentry;
++		struct inode *inode;
++		mode_t mode;
++	} orig_h, tmp_h = {
++		.dentry = NULL
++	};
++	struct au_hdentry *hd;
++	struct inode *inode, *h_inode;
++	struct dentry *h_dentry;
++
++	err = 0;
++	AuDebugOn(dinfo->di_btop < 0);
++	orig_h.mode = 0;
++	orig_h.dentry = au_hdentry(dinfo, dinfo->di_btop)->hd_dentry;
++	orig_h.inode = NULL;
++	if (d_is_positive(orig_h.dentry)) {
++		orig_h.inode = d_inode(orig_h.dentry);
++		orig_h.mode = orig_h.inode->i_mode & S_IFMT;
++	}
++	if (tmp->di_btop >= 0) {
++		tmp_h.dentry = au_hdentry(tmp, tmp->di_btop)->hd_dentry;
++		if (d_is_positive(tmp_h.dentry)) {
++			tmp_h.inode = d_inode(tmp_h.dentry);
++			tmp_h.mode = tmp_h.inode->i_mode & S_IFMT;
++		}
++	}
++
++	inode = NULL;
++	if (d_really_is_positive(dentry))
++		inode = d_inode(dentry);
++	if (!orig_h.inode) {
++		AuDbg("nagative originally\n");
++		if (inode) {
++			au_hide(dentry);
++			goto out;
++		}
++		AuDebugOn(inode);
++		AuDebugOn(dinfo->di_btop != dinfo->di_bbot);
++		AuDebugOn(dinfo->di_bdiropq != -1);
++
++		if (!tmp_h.inode) {
++			AuDbg("negative --> negative\n");
++			/* should have only one negative lower */
++			if (tmp->di_btop >= 0
++			    && tmp->di_btop < dinfo->di_btop) {
++				AuDebugOn(tmp->di_btop != tmp->di_bbot);
++				AuDebugOn(dinfo->di_btop != dinfo->di_bbot);
++				au_set_h_dptr(dentry, dinfo->di_btop, NULL);
++				au_di_cp(dinfo, tmp);
++				hd = au_hdentry(tmp, tmp->di_btop);
++				au_set_h_dptr(dentry, tmp->di_btop,
++					      dget(hd->hd_dentry));
++			}
++			au_dbg_verify_dinode(dentry);
++		} else {
++			AuDbg("negative --> positive\n");
++			/*
++			 * similar to the behaviour of creating with bypassing
++			 * aufs.
++			 * unhash it in order to force an error in the
++			 * succeeding create operation.
++			 * we should not set S_DEAD here.
++			 */
++			d_drop(dentry);
++			/* au_di_swap(tmp, dinfo); */
++			au_dbg_verify_dinode(dentry);
++		}
++	} else {
++		AuDbg("positive originally\n");
++		/* inode may be NULL */
++		AuDebugOn(inode && (inode->i_mode & S_IFMT) != orig_h.mode);
++		if (!tmp_h.inode) {
++			AuDbg("positive --> negative\n");
++			/* or bypassing aufs */
++			au_hide(dentry);
++			if (tmp->di_bwh >= 0 && tmp->di_bwh <= dinfo->di_btop)
++				dinfo->di_bwh = tmp->di_bwh;
++			if (inode)
++				err = au_refresh_hinode_self(inode);
++			au_dbg_verify_dinode(dentry);
++		} else if (orig_h.mode == tmp_h.mode) {
++			AuDbg("positive --> positive, same type\n");
++			if (!S_ISDIR(orig_h.mode)
++			    && dinfo->di_btop > tmp->di_btop) {
++				/*
++				 * similar to the behaviour of removing and
++				 * creating.
++				 */
++				au_hide(dentry);
++				if (inode)
++					err = au_refresh_hinode_self(inode);
++				au_dbg_verify_dinode(dentry);
++			} else {
++				/* fill empty slots */
++				if (dinfo->di_btop > tmp->di_btop)
++					dinfo->di_btop = tmp->di_btop;
++				if (dinfo->di_bbot < tmp->di_bbot)
++					dinfo->di_bbot = tmp->di_bbot;
++				dinfo->di_bwh = tmp->di_bwh;
++				dinfo->di_bdiropq = tmp->di_bdiropq;
++				bbot = dinfo->di_bbot;
++				bindex = tmp->di_btop;
++				hd = au_hdentry(tmp, bindex);
++				for (; bindex <= bbot; bindex++, hd++) {
++					if (au_h_dptr(dentry, bindex))
++						continue;
++					h_dentry = hd->hd_dentry;
++					if (!h_dentry)
++						continue;
++					AuDebugOn(d_is_negative(h_dentry));
++					h_inode = d_inode(h_dentry);
++					AuDebugOn(orig_h.mode
++						  != (h_inode->i_mode
++						      & S_IFMT));
++					au_set_h_dptr(dentry, bindex,
++						      dget(h_dentry));
++				}
++				if (inode)
++					err = au_refresh_hinode(inode, dentry);
++				au_dbg_verify_dinode(dentry);
++			}
++		} else {
++			AuDbg("positive --> positive, different type\n");
++			/* similar to the behaviour of removing and creating */
++			au_hide(dentry);
++			if (inode)
++				err = au_refresh_hinode_self(inode);
++			au_dbg_verify_dinode(dentry);
++		}
++	}
++
++out:
++	return err;
++}
++
++void au_refresh_dop(struct dentry *dentry, int force_reval)
++{
++	const struct dentry_operations *dop
++		= force_reval ? &aufs_dop : dentry->d_sb->s_d_op;
++	static const unsigned int mask
++		= DCACHE_OP_REVALIDATE | DCACHE_OP_WEAK_REVALIDATE;
++
++	BUILD_BUG_ON(sizeof(mask) != sizeof(dentry->d_flags));
++
++	if (dentry->d_op == dop)
++		return;
++
++	AuDbg("%pd\n", dentry);
++	spin_lock(&dentry->d_lock);
++	if (dop == &aufs_dop)
++		dentry->d_flags |= mask;
++	else
++		dentry->d_flags &= ~mask;
++	dentry->d_op = dop;
++	spin_unlock(&dentry->d_lock);
++}
++
++int au_refresh_dentry(struct dentry *dentry, struct dentry *parent)
++{
++	int err, ebrange, nbr;
++	unsigned int sigen;
++	struct au_dinfo *dinfo, *tmp;
++	struct super_block *sb;
++	struct inode *inode;
++
++	DiMustWriteLock(dentry);
++	AuDebugOn(IS_ROOT(dentry));
++	AuDebugOn(d_really_is_negative(parent));
++
++	sb = dentry->d_sb;
++	sigen = au_sigen(sb);
++	err = au_digen_test(parent, sigen);
++	if (unlikely(err))
++		goto out;
++
++	nbr = au_sbbot(sb) + 1;
++	dinfo = au_di(dentry);
++	err = au_di_realloc(dinfo, nbr, /*may_shrink*/0);
++	if (unlikely(err))
++		goto out;
++	ebrange = au_dbrange_test(dentry);
++	if (!ebrange)
++		ebrange = au_do_refresh_hdentry(dentry, parent);
++
++	if (d_unhashed(dentry) || ebrange /* || dinfo->di_tmpfile */) {
++		AuDebugOn(au_dbtop(dentry) < 0 && au_dbbot(dentry) >= 0);
++		if (d_really_is_positive(dentry)) {
++			inode = d_inode(dentry);
++			err = au_refresh_hinode_self(inode);
++		}
++		au_dbg_verify_dinode(dentry);
++		if (!err)
++			goto out_dgen; /* success */
++		goto out;
++	}
++
++	/* temporary dinfo */
++	AuDbgDentry(dentry);
++	err = -ENOMEM;
++	tmp = au_di_alloc(sb, AuLsc_DI_TMP);
++	if (unlikely(!tmp))
++		goto out;
++	au_di_swap(tmp, dinfo);
++	/* returns the number of positive dentries */
++	/*
++	 * if current working dir is removed, it returns an error.
++	 * but the dentry is legal.
++	 */
++	err = au_lkup_dentry(dentry, /*btop*/0, AuLkup_ALLOW_NEG);
++	AuDbgDentry(dentry);
++	au_di_swap(tmp, dinfo);
++	if (err == -ENOENT)
++		err = 0;
++	if (err >= 0) {
++		/* compare/refresh by dinfo */
++		AuDbgDentry(dentry);
++		err = au_refresh_by_dinfo(dentry, dinfo, tmp);
++		au_dbg_verify_dinode(dentry);
++		AuTraceErr(err);
++	}
++	au_di_realloc(dinfo, nbr, /*may_shrink*/1); /* harmless if err */
++	au_rw_write_unlock(&tmp->di_rwsem);
++	au_di_free(tmp);
++	if (unlikely(err))
++		goto out;
++
++out_dgen:
++	au_update_digen(dentry);
++out:
++	if (unlikely(err && !(dentry->d_flags & DCACHE_NFSFS_RENAMED))) {
++		AuIOErr("failed refreshing %pd, %d\n", dentry, err);
++		AuDbgDentry(dentry);
++	}
++	AuTraceErr(err);
++	return err;
++}
++
++static int au_do_h_d_reval(struct dentry *h_dentry, unsigned int flags,
++			   struct dentry *dentry, aufs_bindex_t bindex)
++{
++	int err, valid;
++
++	err = 0;
++	if (!(h_dentry->d_flags & DCACHE_OP_REVALIDATE))
++		goto out;
++
++	AuDbg("b%d\n", bindex);
++	/*
++	 * gave up supporting LOOKUP_CREATE/OPEN for lower fs,
++	 * due to whiteout and branch permission.
++	 */
++	flags &= ~(/*LOOKUP_PARENT |*/ LOOKUP_OPEN | LOOKUP_CREATE
++		   | LOOKUP_FOLLOW | LOOKUP_EXCL);
++	/* it may return tri-state */
++	valid = h_dentry->d_op->d_revalidate(h_dentry, flags);
++
++	if (unlikely(valid < 0))
++		err = valid;
++	else if (!valid)
++		err = -EINVAL;
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++/* todo: remove this */
++static int h_d_revalidate(struct dentry *dentry, struct inode *inode,
++			  unsigned int flags, int do_udba)
++{
++	int err;
++	umode_t mode, h_mode;
++	aufs_bindex_t bindex, btail, btop, ibs, ibe;
++	unsigned char plus, unhashed, is_root, h_plus, h_nfs, tmpfile;
++	struct inode *h_inode, *h_cached_inode;
++	struct dentry *h_dentry;
++	struct qstr *name, *h_name;
++
++	err = 0;
++	plus = 0;
++	mode = 0;
++	ibs = -1;
++	ibe = -1;
++	unhashed = !!d_unhashed(dentry);
++	is_root = !!IS_ROOT(dentry);
++	name = &dentry->d_name;
++	tmpfile = au_di(dentry)->di_tmpfile;
++
++	/*
++	 * Theoretically, REVAL test should be unnecessary in case of
++	 * {FS,I}NOTIFY.
++	 * But {fs,i}notify doesn't fire some necessary events,
++	 *	IN_ATTRIB for atime/nlink/pageio
++	 * Let's do REVAL test too.
++	 */
++	if (do_udba && inode) {
++		mode = (inode->i_mode & S_IFMT);
++		plus = (inode->i_nlink > 0);
++		ibs = au_ibtop(inode);
++		ibe = au_ibbot(inode);
++	}
++
++	btop = au_dbtop(dentry);
++	btail = btop;
++	if (inode && S_ISDIR(inode->i_mode))
++		btail = au_dbtaildir(dentry);
++	for (bindex = btop; bindex <= btail; bindex++) {
++		h_dentry = au_h_dptr(dentry, bindex);
++		if (!h_dentry)
++			continue;
++
++		AuDbg("b%d, %pd\n", bindex, h_dentry);
++		h_nfs = !!au_test_nfs(h_dentry->d_sb);
++		spin_lock(&h_dentry->d_lock);
++		h_name = &h_dentry->d_name;
++		if (unlikely(do_udba
++			     && !is_root
++			     && ((!h_nfs
++				  && (unhashed != !!d_unhashed(h_dentry)
++				      || (!tmpfile
++					  && !au_qstreq(name, h_name))
++					  ))
++				 || (h_nfs
++				     && !(flags & LOOKUP_OPEN)
++				     && (h_dentry->d_flags
++					 & DCACHE_NFSFS_RENAMED)))
++			    )) {
++			int h_unhashed;
++
++			h_unhashed = d_unhashed(h_dentry);
++			spin_unlock(&h_dentry->d_lock);
++			AuDbg("unhash 0x%x 0x%x, %pd %pd\n",
++			      unhashed, h_unhashed, dentry, h_dentry);
++			goto err;
++		}
++		spin_unlock(&h_dentry->d_lock);
++
++		err = au_do_h_d_reval(h_dentry, flags, dentry, bindex);
++		if (unlikely(err))
++			/* do not goto err, to keep the errno */
++			break;
++
++		/* todo: plink too? */
++		if (!do_udba)
++			continue;
++
++		/* UDBA tests */
++		if (unlikely(!!inode != d_is_positive(h_dentry)))
++			goto err;
++
++		h_inode = NULL;
++		if (d_is_positive(h_dentry))
++			h_inode = d_inode(h_dentry);
++		h_plus = plus;
++		h_mode = mode;
++		h_cached_inode = h_inode;
++		if (h_inode) {
++			h_mode = (h_inode->i_mode & S_IFMT);
++			h_plus = (h_inode->i_nlink > 0);
++		}
++		if (inode && ibs <= bindex && bindex <= ibe)
++			h_cached_inode = au_h_iptr(inode, bindex);
++
++		if (!h_nfs) {
++			if (unlikely(plus != h_plus && !tmpfile))
++				goto err;
++		} else {
++			if (unlikely(!(h_dentry->d_flags & DCACHE_NFSFS_RENAMED)
++				     && !is_root
++				     && !IS_ROOT(h_dentry)
++				     && unhashed != d_unhashed(h_dentry)))
++				goto err;
++		}
++		if (unlikely(mode != h_mode
++			     || h_cached_inode != h_inode))
++			goto err;
++		continue;
++
++err:
++		err = -EINVAL;
++		break;
++	}
++
++	AuTraceErr(err);
++	return err;
++}
++
++/* todo: consolidate with do_refresh() and au_reval_for_attr() */
++static int simple_reval_dpath(struct dentry *dentry, unsigned int sigen)
++{
++	int err;
++	struct dentry *parent;
++
++	if (!au_digen_test(dentry, sigen))
++		return 0;
++
++	parent = dget_parent(dentry);
++	di_read_lock_parent(parent, AuLock_IR);
++	AuDebugOn(au_digen_test(parent, sigen));
++	au_dbg_verify_gen(parent, sigen);
++	err = au_refresh_dentry(dentry, parent);
++	di_read_unlock(parent, AuLock_IR);
++	dput(parent);
++	AuTraceErr(err);
++	return err;
++}
++
++int au_reval_dpath(struct dentry *dentry, unsigned int sigen)
++{
++	int err;
++	struct dentry *d, *parent;
++
++	if (!au_ftest_si(au_sbi(dentry->d_sb), FAILED_REFRESH_DIR))
++		return simple_reval_dpath(dentry, sigen);
++
++	/* slow loop, keep it simple and stupid */
++	/* cf: au_cpup_dirs() */
++	err = 0;
++	parent = NULL;
++	while (au_digen_test(dentry, sigen)) {
++		d = dentry;
++		while (1) {
++			dput(parent);
++			parent = dget_parent(d);
++			if (!au_digen_test(parent, sigen))
++				break;
++			d = parent;
++		}
++
++		if (d != dentry)
++			di_write_lock_child2(d);
++
++		/* someone might update our dentry while we were sleeping */
++		if (au_digen_test(d, sigen)) {
++			/*
++			 * todo: consolidate with simple_reval_dpath(),
++			 * do_refresh() and au_reval_for_attr().
++			 */
++			di_read_lock_parent(parent, AuLock_IR);
++			err = au_refresh_dentry(d, parent);
++			di_read_unlock(parent, AuLock_IR);
++		}
++
++		if (d != dentry)
++			di_write_unlock(d);
++		dput(parent);
++		if (unlikely(err))
++			break;
++	}
++
++	return err;
++}
++
++/*
++ * if valid returns 1, otherwise 0.
++ */
++static int aufs_d_revalidate(struct dentry *dentry, unsigned int flags)
++{
++	int valid, err;
++	unsigned int sigen;
++	unsigned char do_udba;
++	struct super_block *sb;
++	struct inode *inode;
++
++	/* todo: support rcu-walk? */
++	if (flags & LOOKUP_RCU)
++		return -ECHILD;
++
++	valid = 0;
++	if (unlikely(!au_di(dentry)))
++		goto out;
++
++	valid = 1;
++	sb = dentry->d_sb;
++	/*
++	 * todo: very ugly
++	 * i_mutex of parent dir may be held,
++	 * but we should not return 'invalid' due to busy.
++	 */
++	err = aufs_read_lock(dentry, AuLock_FLUSH | AuLock_DW | AuLock_NOPLM);
++	if (unlikely(err)) {
++		valid = err;
++		AuTraceErr(err);
++		goto out;
++	}
++	inode = NULL;
++	if (d_really_is_positive(dentry))
++		inode = d_inode(dentry);
++	if (unlikely(inode && au_is_bad_inode(inode))) {
++		err = -EINVAL;
++		AuTraceErr(err);
++		goto out_dgrade;
++	}
++	if (unlikely(au_dbrange_test(dentry))) {
++		err = -EINVAL;
++		AuTraceErr(err);
++		goto out_dgrade;
++	}
++
++	sigen = au_sigen(sb);
++	if (au_digen_test(dentry, sigen)) {
++		AuDebugOn(IS_ROOT(dentry));
++		err = au_reval_dpath(dentry, sigen);
++		if (unlikely(err)) {
++			AuTraceErr(err);
++			goto out_dgrade;
++		}
++	}
++	di_downgrade_lock(dentry, AuLock_IR);
++
++	err = -EINVAL;
++	if (!(flags & (LOOKUP_OPEN | LOOKUP_EMPTY))
++	    && inode
++	    && !(inode->i_state && I_LINKABLE)
++	    && (IS_DEADDIR(inode) || !inode->i_nlink)) {
++		AuTraceErr(err);
++		goto out_inval;
++	}
++
++	do_udba = !au_opt_test(au_mntflags(sb), UDBA_NONE);
++	if (do_udba && inode) {
++		aufs_bindex_t btop = au_ibtop(inode);
++		struct inode *h_inode;
++
++		if (btop >= 0) {
++			h_inode = au_h_iptr(inode, btop);
++			if (h_inode && au_test_higen(inode, h_inode)) {
++				AuTraceErr(err);
++				goto out_inval;
++			}
++		}
++	}
++
++	err = h_d_revalidate(dentry, inode, flags, do_udba);
++	if (unlikely(!err && do_udba && au_dbtop(dentry) < 0)) {
++		err = -EIO;
++		AuDbg("both of real entry and whiteout found, %p, err %d\n",
++		      dentry, err);
++	}
++	goto out_inval;
++
++out_dgrade:
++	di_downgrade_lock(dentry, AuLock_IR);
++out_inval:
++	aufs_read_unlock(dentry, AuLock_IR);
++	AuTraceErr(err);
++	valid = !err;
++out:
++	if (!valid) {
++		AuDbg("%pd invalid, %d\n", dentry, valid);
++		d_drop(dentry);
++	}
++	return valid;
++}
++
++static void aufs_d_release(struct dentry *dentry)
++{
++	if (au_di(dentry)) {
++		au_di_fin(dentry);
++		au_hn_di_reinit(dentry);
++	}
++}
++
++const struct dentry_operations aufs_dop = {
++	.d_revalidate		= aufs_d_revalidate,
++	.d_weak_revalidate	= aufs_d_revalidate,
++	.d_release		= aufs_d_release
++};
++
++/* aufs_dop without d_revalidate */
++const struct dentry_operations aufs_dop_noreval = {
++	.d_release		= aufs_d_release
++};
+diff --git a/fs/aufs/dentry.h b/fs/aufs/dentry.h
+new file mode 100755
+index 0000000..adb40ed
+--- /dev/null
++++ b/fs/aufs/dentry.h
+@@ -0,0 +1,252 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * lookup and dentry operations
++ */
++
++#ifndef __AUFS_DENTRY_H__
++#define __AUFS_DENTRY_H__
++
++#ifdef __KERNEL__
++
++#include <linux/dcache.h>
++#include "rwsem.h"
++
++struct au_hdentry {
++	struct dentry		*hd_dentry;
++	aufs_bindex_t		hd_id;
++};
++
++struct au_dinfo {
++	atomic_t		di_generation;
++
++	struct au_rwsem		di_rwsem;
++	aufs_bindex_t		di_btop, di_bbot, di_bwh, di_bdiropq;
++	unsigned char		di_tmpfile; /* to allow the different name */
++	struct au_hdentry	*di_hdentry;
++} ____cacheline_aligned_in_smp;
++
++/* ---------------------------------------------------------------------- */
++
++/* flags for au_lkup_dentry() */
++#define AuLkup_ALLOW_NEG	1
++#define AuLkup_IGNORE_PERM	(1 << 1)
++#define au_ftest_lkup(flags, name)	((flags) & AuLkup_##name)
++#define au_fset_lkup(flags, name) \
++	do { (flags) |= AuLkup_##name; } while (0)
++#define au_fclr_lkup(flags, name) \
++	do { (flags) &= ~AuLkup_##name; } while (0)
++
++/* ---------------------------------------------------------------------- */
++
++/* dentry.c */
++extern const struct dentry_operations aufs_dop, aufs_dop_noreval;
++struct au_branch;
++struct dentry *au_sio_lkup_one(struct qstr *name, struct dentry *parent);
++int au_h_verify(struct dentry *h_dentry, unsigned int udba, struct inode *h_dir,
++		struct dentry *h_parent, struct au_branch *br);
++
++int au_lkup_dentry(struct dentry *dentry, aufs_bindex_t btop,
++		   unsigned int flags);
++int au_lkup_neg(struct dentry *dentry, aufs_bindex_t bindex, int wh);
++int au_refresh_dentry(struct dentry *dentry, struct dentry *parent);
++int au_reval_dpath(struct dentry *dentry, unsigned int sigen);
++void au_refresh_dop(struct dentry *dentry, int force_reval);
++
++/* dinfo.c */
++void au_di_init_once(void *_di);
++struct au_dinfo *au_di_alloc(struct super_block *sb, unsigned int lsc);
++void au_di_free(struct au_dinfo *dinfo);
++void au_di_swap(struct au_dinfo *a, struct au_dinfo *b);
++void au_di_cp(struct au_dinfo *dst, struct au_dinfo *src);
++int au_di_init(struct dentry *dentry);
++void au_di_fin(struct dentry *dentry);
++int au_di_realloc(struct au_dinfo *dinfo, int nbr, int may_shrink);
++
++void di_read_lock(struct dentry *d, int flags, unsigned int lsc);
++void di_read_unlock(struct dentry *d, int flags);
++void di_downgrade_lock(struct dentry *d, int flags);
++void di_write_lock(struct dentry *d, unsigned int lsc);
++void di_write_unlock(struct dentry *d);
++void di_write_lock2_child(struct dentry *d1, struct dentry *d2, int isdir);
++void di_write_lock2_parent(struct dentry *d1, struct dentry *d2, int isdir);
++void di_write_unlock2(struct dentry *d1, struct dentry *d2);
++
++struct dentry *au_h_dptr(struct dentry *dentry, aufs_bindex_t bindex);
++struct dentry *au_h_d_alias(struct dentry *dentry, aufs_bindex_t bindex);
++aufs_bindex_t au_dbtail(struct dentry *dentry);
++aufs_bindex_t au_dbtaildir(struct dentry *dentry);
++
++void au_set_h_dptr(struct dentry *dentry, aufs_bindex_t bindex,
++		   struct dentry *h_dentry);
++int au_digen_test(struct dentry *dentry, unsigned int sigen);
++int au_dbrange_test(struct dentry *dentry);
++void au_update_digen(struct dentry *dentry);
++void au_update_dbrange(struct dentry *dentry, int do_put_zero);
++void au_update_dbtop(struct dentry *dentry);
++void au_update_dbbot(struct dentry *dentry);
++int au_find_dbindex(struct dentry *dentry, struct dentry *h_dentry);
++
++/* ---------------------------------------------------------------------- */
++
++static inline struct au_dinfo *au_di(struct dentry *dentry)
++{
++	return dentry->d_fsdata;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* lock subclass for dinfo */
++enum {
++	AuLsc_DI_CHILD,		/* child first */
++	AuLsc_DI_CHILD2,	/* rename(2), link(2), and cpup at hnotify */
++	AuLsc_DI_CHILD3,	/* copyup dirs */
++	AuLsc_DI_PARENT,
++	AuLsc_DI_PARENT2,
++	AuLsc_DI_PARENT3,
++	AuLsc_DI_TMP		/* temp for replacing dinfo */
++};
++
++/*
++ * di_read_lock_child, di_write_lock_child,
++ * di_read_lock_child2, di_write_lock_child2,
++ * di_read_lock_child3, di_write_lock_child3,
++ * di_read_lock_parent, di_write_lock_parent,
++ * di_read_lock_parent2, di_write_lock_parent2,
++ * di_read_lock_parent3, di_write_lock_parent3,
++ */
++#define AuReadLockFunc(name, lsc) \
++static inline void di_read_lock_##name(struct dentry *d, int flags) \
++{ di_read_lock(d, flags, AuLsc_DI_##lsc); }
++
++#define AuWriteLockFunc(name, lsc) \
++static inline void di_write_lock_##name(struct dentry *d) \
++{ di_write_lock(d, AuLsc_DI_##lsc); }
++
++#define AuRWLockFuncs(name, lsc) \
++	AuReadLockFunc(name, lsc) \
++	AuWriteLockFunc(name, lsc)
++
++AuRWLockFuncs(child, CHILD);
++AuRWLockFuncs(child2, CHILD2);
++AuRWLockFuncs(child3, CHILD3);
++AuRWLockFuncs(parent, PARENT);
++AuRWLockFuncs(parent2, PARENT2);
++AuRWLockFuncs(parent3, PARENT3);
++
++#undef AuReadLockFunc
++#undef AuWriteLockFunc
++#undef AuRWLockFuncs
++
++#define DiMustNoWaiters(d)	AuRwMustNoWaiters(&au_di(d)->di_rwsem)
++#define DiMustAnyLock(d)	AuRwMustAnyLock(&au_di(d)->di_rwsem)
++#define DiMustWriteLock(d)	AuRwMustWriteLock(&au_di(d)->di_rwsem)
++
++/* ---------------------------------------------------------------------- */
++
++/* todo: memory barrier? */
++static inline unsigned int au_digen(struct dentry *d)
++{
++	return atomic_read(&au_di(d)->di_generation);
++}
++
++static inline void au_h_dentry_init(struct au_hdentry *hdentry)
++{
++	hdentry->hd_dentry = NULL;
++}
++
++static inline struct au_hdentry *au_hdentry(struct au_dinfo *di,
++					    aufs_bindex_t bindex)
++{
++	return di->di_hdentry + bindex;
++}
++
++static inline void au_hdput(struct au_hdentry *hd)
++{
++	if (hd)
++		dput(hd->hd_dentry);
++}
++
++static inline aufs_bindex_t au_dbtop(struct dentry *dentry)
++{
++	DiMustAnyLock(dentry);
++	return au_di(dentry)->di_btop;
++}
++
++static inline aufs_bindex_t au_dbbot(struct dentry *dentry)
++{
++	DiMustAnyLock(dentry);
++	return au_di(dentry)->di_bbot;
++}
++
++static inline aufs_bindex_t au_dbwh(struct dentry *dentry)
++{
++	DiMustAnyLock(dentry);
++	return au_di(dentry)->di_bwh;
++}
++
++static inline aufs_bindex_t au_dbdiropq(struct dentry *dentry)
++{
++	DiMustAnyLock(dentry);
++	return au_di(dentry)->di_bdiropq;
++}
++
++/* todo: hard/soft set? */
++static inline void au_set_dbtop(struct dentry *dentry, aufs_bindex_t bindex)
++{
++	DiMustWriteLock(dentry);
++	au_di(dentry)->di_btop = bindex;
++}
++
++static inline void au_set_dbbot(struct dentry *dentry, aufs_bindex_t bindex)
++{
++	DiMustWriteLock(dentry);
++	au_di(dentry)->di_bbot = bindex;
++}
++
++static inline void au_set_dbwh(struct dentry *dentry, aufs_bindex_t bindex)
++{
++	DiMustWriteLock(dentry);
++	/* dbwh can be outside of btop - bbot range */
++	au_di(dentry)->di_bwh = bindex;
++}
++
++static inline void au_set_dbdiropq(struct dentry *dentry, aufs_bindex_t bindex)
++{
++	DiMustWriteLock(dentry);
++	au_di(dentry)->di_bdiropq = bindex;
++}
++
++/* ---------------------------------------------------------------------- */
++
++#ifdef CONFIG_AUFS_HNOTIFY
++static inline void au_digen_dec(struct dentry *d)
++{
++	atomic_dec(&au_di(d)->di_generation);
++}
++
++static inline void au_hn_di_reinit(struct dentry *dentry)
++{
++	dentry->d_fsdata = NULL;
++}
++#else
++AuStubVoid(au_hn_di_reinit, struct dentry *dentry __maybe_unused)
++#endif /* CONFIG_AUFS_HNOTIFY */
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_DENTRY_H__ */
+diff --git a/fs/aufs/dinfo.c b/fs/aufs/dinfo.c
+new file mode 100755
+index 0000000..8b19f94
+--- /dev/null
++++ b/fs/aufs/dinfo.c
+@@ -0,0 +1,553 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * dentry private data
++ */
++
++#include "aufs.h"
++
++void au_di_init_once(void *_dinfo)
++{
++	struct au_dinfo *dinfo = _dinfo;
++
++	au_rw_init(&dinfo->di_rwsem);
++}
++
++struct au_dinfo *au_di_alloc(struct super_block *sb, unsigned int lsc)
++{
++	struct au_dinfo *dinfo;
++	int nbr, i;
++
++	dinfo = au_cache_alloc_dinfo();
++	if (unlikely(!dinfo))
++		goto out;
++
++	nbr = au_sbbot(sb) + 1;
++	if (nbr <= 0)
++		nbr = 1;
++	dinfo->di_hdentry = kcalloc(nbr, sizeof(*dinfo->di_hdentry), GFP_NOFS);
++	if (dinfo->di_hdentry) {
++		au_rw_write_lock_nested(&dinfo->di_rwsem, lsc);
++		dinfo->di_btop = -1;
++		dinfo->di_bbot = -1;
++		dinfo->di_bwh = -1;
++		dinfo->di_bdiropq = -1;
++		dinfo->di_tmpfile = 0;
++		for (i = 0; i < nbr; i++)
++			dinfo->di_hdentry[i].hd_id = -1;
++		goto out;
++	}
++
++	au_cache_free_dinfo(dinfo);
++	dinfo = NULL;
++
++out:
++	return dinfo;
++}
++
++void au_di_free(struct au_dinfo *dinfo)
++{
++	struct au_hdentry *p;
++	aufs_bindex_t bbot, bindex;
++
++	/* dentry may not be revalidated */
++	bindex = dinfo->di_btop;
++	if (bindex >= 0) {
++		bbot = dinfo->di_bbot;
++		p = au_hdentry(dinfo, bindex);
++		while (bindex++ <= bbot)
++			au_hdput(p++);
++	}
++	kfree(dinfo->di_hdentry);
++	au_cache_free_dinfo(dinfo);
++}
++
++void au_di_swap(struct au_dinfo *a, struct au_dinfo *b)
++{
++	struct au_hdentry *p;
++	aufs_bindex_t bi;
++
++	AuRwMustWriteLock(&a->di_rwsem);
++	AuRwMustWriteLock(&b->di_rwsem);
++
++#define DiSwap(v, name)				\
++	do {					\
++		v = a->di_##name;		\
++		a->di_##name = b->di_##name;	\
++		b->di_##name = v;		\
++	} while (0)
++
++	DiSwap(p, hdentry);
++	DiSwap(bi, btop);
++	DiSwap(bi, bbot);
++	DiSwap(bi, bwh);
++	DiSwap(bi, bdiropq);
++	/* smp_mb(); */
++
++#undef DiSwap
++}
++
++void au_di_cp(struct au_dinfo *dst, struct au_dinfo *src)
++{
++	AuRwMustWriteLock(&dst->di_rwsem);
++	AuRwMustWriteLock(&src->di_rwsem);
++
++	dst->di_btop = src->di_btop;
++	dst->di_bbot = src->di_bbot;
++	dst->di_bwh = src->di_bwh;
++	dst->di_bdiropq = src->di_bdiropq;
++	/* smp_mb(); */
++}
++
++int au_di_init(struct dentry *dentry)
++{
++	int err;
++	struct super_block *sb;
++	struct au_dinfo *dinfo;
++
++	err = 0;
++	sb = dentry->d_sb;
++	dinfo = au_di_alloc(sb, AuLsc_DI_CHILD);
++	if (dinfo) {
++		atomic_set(&dinfo->di_generation, au_sigen(sb));
++		/* smp_mb(); */ /* atomic_set */
++		dentry->d_fsdata = dinfo;
++	} else
++		err = -ENOMEM;
++
++	return err;
++}
++
++void au_di_fin(struct dentry *dentry)
++{
++	struct au_dinfo *dinfo;
++
++	dinfo = au_di(dentry);
++	AuRwDestroy(&dinfo->di_rwsem);
++	au_di_free(dinfo);
++}
++
++int au_di_realloc(struct au_dinfo *dinfo, int nbr, int may_shrink)
++{
++	int err, sz;
++	struct au_hdentry *hdp;
++
++	AuRwMustWriteLock(&dinfo->di_rwsem);
++
++	err = -ENOMEM;
++	sz = sizeof(*hdp) * (dinfo->di_bbot + 1);
++	if (!sz)
++		sz = sizeof(*hdp);
++	hdp = au_kzrealloc(dinfo->di_hdentry, sz, sizeof(*hdp) * nbr, GFP_NOFS,
++			   may_shrink);
++	if (hdp) {
++		dinfo->di_hdentry = hdp;
++		err = 0;
++	}
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static void do_ii_write_lock(struct inode *inode, unsigned int lsc)
++{
++	switch (lsc) {
++	case AuLsc_DI_CHILD:
++		ii_write_lock_child(inode);
++		break;
++	case AuLsc_DI_CHILD2:
++		ii_write_lock_child2(inode);
++		break;
++	case AuLsc_DI_CHILD3:
++		ii_write_lock_child3(inode);
++		break;
++	case AuLsc_DI_PARENT:
++		ii_write_lock_parent(inode);
++		break;
++	case AuLsc_DI_PARENT2:
++		ii_write_lock_parent2(inode);
++		break;
++	case AuLsc_DI_PARENT3:
++		ii_write_lock_parent3(inode);
++		break;
++	default:
++		BUG();
++	}
++}
++
++static void do_ii_read_lock(struct inode *inode, unsigned int lsc)
++{
++	switch (lsc) {
++	case AuLsc_DI_CHILD:
++		ii_read_lock_child(inode);
++		break;
++	case AuLsc_DI_CHILD2:
++		ii_read_lock_child2(inode);
++		break;
++	case AuLsc_DI_CHILD3:
++		ii_read_lock_child3(inode);
++		break;
++	case AuLsc_DI_PARENT:
++		ii_read_lock_parent(inode);
++		break;
++	case AuLsc_DI_PARENT2:
++		ii_read_lock_parent2(inode);
++		break;
++	case AuLsc_DI_PARENT3:
++		ii_read_lock_parent3(inode);
++		break;
++	default:
++		BUG();
++	}
++}
++
++void di_read_lock(struct dentry *d, int flags, unsigned int lsc)
++{
++	struct inode *inode;
++
++	au_rw_read_lock_nested(&au_di(d)->di_rwsem, lsc);
++	if (d_really_is_positive(d)) {
++		inode = d_inode(d);
++		if (au_ftest_lock(flags, IW))
++			do_ii_write_lock(inode, lsc);
++		else if (au_ftest_lock(flags, IR))
++			do_ii_read_lock(inode, lsc);
++	}
++}
++
++void di_read_unlock(struct dentry *d, int flags)
++{
++	struct inode *inode;
++
++	if (d_really_is_positive(d)) {
++		inode = d_inode(d);
++		if (au_ftest_lock(flags, IW)) {
++			au_dbg_verify_dinode(d);
++			ii_write_unlock(inode);
++		} else if (au_ftest_lock(flags, IR)) {
++			au_dbg_verify_dinode(d);
++			ii_read_unlock(inode);
++		}
++	}
++	au_rw_read_unlock(&au_di(d)->di_rwsem);
++}
++
++void di_downgrade_lock(struct dentry *d, int flags)
++{
++	if (d_really_is_positive(d) && au_ftest_lock(flags, IR))
++		ii_downgrade_lock(d_inode(d));
++	au_rw_dgrade_lock(&au_di(d)->di_rwsem);
++}
++
++void di_write_lock(struct dentry *d, unsigned int lsc)
++{
++	au_rw_write_lock_nested(&au_di(d)->di_rwsem, lsc);
++	if (d_really_is_positive(d))
++		do_ii_write_lock(d_inode(d), lsc);
++}
++
++void di_write_unlock(struct dentry *d)
++{
++	au_dbg_verify_dinode(d);
++	if (d_really_is_positive(d))
++		ii_write_unlock(d_inode(d));
++	au_rw_write_unlock(&au_di(d)->di_rwsem);
++}
++
++void di_write_lock2_child(struct dentry *d1, struct dentry *d2, int isdir)
++{
++	AuDebugOn(d1 == d2
++		  || d_inode(d1) == d_inode(d2)
++		  || d1->d_sb != d2->d_sb);
++
++	if ((isdir && au_test_subdir(d1, d2))
++	    || d1 < d2) {
++		di_write_lock_child(d1);
++		di_write_lock_child2(d2);
++	} else {
++		di_write_lock_child(d2);
++		di_write_lock_child2(d1);
++	}
++}
++
++void di_write_lock2_parent(struct dentry *d1, struct dentry *d2, int isdir)
++{
++	AuDebugOn(d1 == d2
++		  || d_inode(d1) == d_inode(d2)
++		  || d1->d_sb != d2->d_sb);
++
++	if ((isdir && au_test_subdir(d1, d2))
++	    || d1 < d2) {
++		di_write_lock_parent(d1);
++		di_write_lock_parent2(d2);
++	} else {
++		di_write_lock_parent(d2);
++		di_write_lock_parent2(d1);
++	}
++}
++
++void di_write_unlock2(struct dentry *d1, struct dentry *d2)
++{
++	di_write_unlock(d1);
++	if (d_inode(d1) == d_inode(d2))
++		au_rw_write_unlock(&au_di(d2)->di_rwsem);
++	else
++		di_write_unlock(d2);
++}
++
++/* ---------------------------------------------------------------------- */
++
++struct dentry *au_h_dptr(struct dentry *dentry, aufs_bindex_t bindex)
++{
++	struct dentry *d;
++
++	DiMustAnyLock(dentry);
++
++	if (au_dbtop(dentry) < 0 || bindex < au_dbtop(dentry))
++		return NULL;
++	AuDebugOn(bindex < 0);
++	d = au_hdentry(au_di(dentry), bindex)->hd_dentry;
++	AuDebugOn(d && au_dcount(d) <= 0);
++	return d;
++}
++
++/*
++ * extended version of au_h_dptr().
++ * returns a hashed and positive (or linkable) h_dentry in bindex, NULL, or
++ * error.
++ */
++struct dentry *au_h_d_alias(struct dentry *dentry, aufs_bindex_t bindex)
++{
++	struct dentry *h_dentry;
++	struct inode *inode, *h_inode;
++
++	AuDebugOn(d_really_is_negative(dentry));
++
++	h_dentry = NULL;
++	if (au_dbtop(dentry) <= bindex
++	    && bindex <= au_dbbot(dentry))
++		h_dentry = au_h_dptr(dentry, bindex);
++	if (h_dentry && !au_d_linkable(h_dentry)) {
++		dget(h_dentry);
++		goto out; /* success */
++	}
++
++	inode = d_inode(dentry);
++	AuDebugOn(bindex < au_ibtop(inode));
++	AuDebugOn(au_ibbot(inode) < bindex);
++	h_inode = au_h_iptr(inode, bindex);
++	h_dentry = d_find_alias(h_inode);
++	if (h_dentry) {
++		if (!IS_ERR(h_dentry)) {
++			if (!au_d_linkable(h_dentry))
++				goto out; /* success */
++			dput(h_dentry);
++		} else
++			goto out;
++	}
++
++	if (au_opt_test(au_mntflags(dentry->d_sb), PLINK)) {
++		h_dentry = au_plink_lkup(inode, bindex);
++		AuDebugOn(!h_dentry);
++		if (!IS_ERR(h_dentry)) {
++			if (!au_d_hashed_positive(h_dentry))
++				goto out; /* success */
++			dput(h_dentry);
++			h_dentry = NULL;
++		}
++	}
++
++out:
++	AuDbgDentry(h_dentry);
++	return h_dentry;
++}
++
++aufs_bindex_t au_dbtail(struct dentry *dentry)
++{
++	aufs_bindex_t bbot, bwh;
++
++	bbot = au_dbbot(dentry);
++	if (0 <= bbot) {
++		bwh = au_dbwh(dentry);
++		if (!bwh)
++			return bwh;
++		if (0 < bwh && bwh < bbot)
++			return bwh - 1;
++	}
++	return bbot;
++}
++
++aufs_bindex_t au_dbtaildir(struct dentry *dentry)
++{
++	aufs_bindex_t bbot, bopq;
++
++	bbot = au_dbtail(dentry);
++	if (0 <= bbot) {
++		bopq = au_dbdiropq(dentry);
++		if (0 <= bopq && bopq < bbot)
++			bbot = bopq;
++	}
++	return bbot;
++}
++
++/* ---------------------------------------------------------------------- */
++
++void au_set_h_dptr(struct dentry *dentry, aufs_bindex_t bindex,
++		   struct dentry *h_dentry)
++{
++	struct au_dinfo *dinfo;
++	struct au_hdentry *hd;
++	struct au_branch *br;
++
++	DiMustWriteLock(dentry);
++
++	dinfo = au_di(dentry);
++	hd = au_hdentry(dinfo, bindex);
++	au_hdput(hd);
++	hd->hd_dentry = h_dentry;
++	if (h_dentry) {
++		br = au_sbr(dentry->d_sb, bindex);
++		hd->hd_id = br->br_id;
++	}
++}
++
++int au_dbrange_test(struct dentry *dentry)
++{
++	int err;
++	aufs_bindex_t btop, bbot;
++
++	err = 0;
++	btop = au_dbtop(dentry);
++	bbot = au_dbbot(dentry);
++	if (btop >= 0)
++		AuDebugOn(bbot < 0 && btop > bbot);
++	else {
++		err = -EIO;
++		AuDebugOn(bbot >= 0);
++	}
++
++	return err;
++}
++
++int au_digen_test(struct dentry *dentry, unsigned int sigen)
++{
++	int err;
++
++	err = 0;
++	if (unlikely(au_digen(dentry) != sigen
++		     || au_iigen_test(d_inode(dentry), sigen)))
++		err = -EIO;
++
++	return err;
++}
++
++void au_update_digen(struct dentry *dentry)
++{
++	atomic_set(&au_di(dentry)->di_generation, au_sigen(dentry->d_sb));
++	/* smp_mb(); */ /* atomic_set */
++}
++
++void au_update_dbrange(struct dentry *dentry, int do_put_zero)
++{
++	struct au_dinfo *dinfo;
++	struct dentry *h_d;
++	struct au_hdentry *hdp;
++	aufs_bindex_t bindex, bbot;
++
++	DiMustWriteLock(dentry);
++
++	dinfo = au_di(dentry);
++	if (!dinfo || dinfo->di_btop < 0)
++		return;
++
++	if (do_put_zero) {
++		bbot = dinfo->di_bbot;
++		bindex = dinfo->di_btop;
++		hdp = au_hdentry(dinfo, bindex);
++		for (; bindex <= bbot; bindex++, hdp++) {
++			h_d = hdp->hd_dentry;
++			if (h_d && d_is_negative(h_d))
++				au_set_h_dptr(dentry, bindex, NULL);
++		}
++	}
++
++	dinfo->di_btop = 0;
++	hdp = au_hdentry(dinfo, dinfo->di_btop);
++	for (; dinfo->di_btop <= dinfo->di_bbot; dinfo->di_btop++, hdp++)
++		if (hdp->hd_dentry)
++			break;
++	if (dinfo->di_btop > dinfo->di_bbot) {
++		dinfo->di_btop = -1;
++		dinfo->di_bbot = -1;
++		return;
++	}
++
++	hdp = au_hdentry(dinfo, dinfo->di_bbot);
++	for (; dinfo->di_bbot >= 0; dinfo->di_bbot--, hdp--)
++		if (hdp->hd_dentry)
++			break;
++	AuDebugOn(dinfo->di_btop > dinfo->di_bbot || dinfo->di_bbot < 0);
++}
++
++void au_update_dbtop(struct dentry *dentry)
++{
++	aufs_bindex_t bindex, bbot;
++	struct dentry *h_dentry;
++
++	bbot = au_dbbot(dentry);
++	for (bindex = au_dbtop(dentry); bindex <= bbot; bindex++) {
++		h_dentry = au_h_dptr(dentry, bindex);
++		if (!h_dentry)
++			continue;
++		if (d_is_positive(h_dentry)) {
++			au_set_dbtop(dentry, bindex);
++			return;
++		}
++		au_set_h_dptr(dentry, bindex, NULL);
++	}
++}
++
++void au_update_dbbot(struct dentry *dentry)
++{
++	aufs_bindex_t bindex, btop;
++	struct dentry *h_dentry;
++
++	btop = au_dbtop(dentry);
++	for (bindex = au_dbbot(dentry); bindex >= btop; bindex--) {
++		h_dentry = au_h_dptr(dentry, bindex);
++		if (!h_dentry)
++			continue;
++		if (d_is_positive(h_dentry)) {
++			au_set_dbbot(dentry, bindex);
++			return;
++		}
++		au_set_h_dptr(dentry, bindex, NULL);
++	}
++}
++
++int au_find_dbindex(struct dentry *dentry, struct dentry *h_dentry)
++{
++	aufs_bindex_t bindex, bbot;
++
++	bbot = au_dbbot(dentry);
++	for (bindex = au_dbtop(dentry); bindex <= bbot; bindex++)
++		if (au_h_dptr(dentry, bindex) == h_dentry)
++			return bindex;
++	return -1;
++}
+diff --git a/fs/aufs/dir.c b/fs/aufs/dir.c
+new file mode 100755
+index 0000000..3ac1e88
+--- /dev/null
++++ b/fs/aufs/dir.c
+@@ -0,0 +1,759 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * directory operations
++ */
++
++#include <linux/fs_stack.h>
++#include "aufs.h"
++
++void au_add_nlink(struct inode *dir, struct inode *h_dir)
++{
++	unsigned int nlink;
++
++	AuDebugOn(!S_ISDIR(dir->i_mode) || !S_ISDIR(h_dir->i_mode));
++
++	nlink = dir->i_nlink;
++	nlink += h_dir->i_nlink - 2;
++	if (h_dir->i_nlink < 2)
++		nlink += 2;
++	smp_mb(); /* for i_nlink */
++	/* 0 can happen in revaliding */
++	set_nlink(dir, nlink);
++}
++
++void au_sub_nlink(struct inode *dir, struct inode *h_dir)
++{
++	unsigned int nlink;
++
++	AuDebugOn(!S_ISDIR(dir->i_mode) || !S_ISDIR(h_dir->i_mode));
++
++	nlink = dir->i_nlink;
++	nlink -= h_dir->i_nlink - 2;
++	if (h_dir->i_nlink < 2)
++		nlink -= 2;
++	smp_mb(); /* for i_nlink */
++	/* nlink == 0 means the branch-fs is broken */
++	set_nlink(dir, nlink);
++}
++
++loff_t au_dir_size(struct file *file, struct dentry *dentry)
++{
++	loff_t sz;
++	aufs_bindex_t bindex, bbot;
++	struct file *h_file;
++	struct dentry *h_dentry;
++
++	sz = 0;
++	if (file) {
++		AuDebugOn(!d_is_dir(file->f_path.dentry));
++
++		bbot = au_fbbot_dir(file);
++		for (bindex = au_fbtop(file);
++		     bindex <= bbot && sz < KMALLOC_MAX_SIZE;
++		     bindex++) {
++			h_file = au_hf_dir(file, bindex);
++			if (h_file && file_inode(h_file))
++				sz += vfsub_f_size_read(h_file);
++		}
++	} else {
++		AuDebugOn(!dentry);
++		AuDebugOn(!d_is_dir(dentry));
++
++		bbot = au_dbtaildir(dentry);
++		for (bindex = au_dbtop(dentry);
++		     bindex <= bbot && sz < KMALLOC_MAX_SIZE;
++		     bindex++) {
++			h_dentry = au_h_dptr(dentry, bindex);
++			if (h_dentry && d_is_positive(h_dentry))
++				sz += i_size_read(d_inode(h_dentry));
++		}
++	}
++	if (sz < KMALLOC_MAX_SIZE)
++		sz = roundup_pow_of_two(sz);
++	if (sz > KMALLOC_MAX_SIZE)
++		sz = KMALLOC_MAX_SIZE;
++	else if (sz < NAME_MAX) {
++		BUILD_BUG_ON(AUFS_RDBLK_DEF < NAME_MAX);
++		sz = AUFS_RDBLK_DEF;
++	}
++	return sz;
++}
++
++struct au_dir_ts_arg {
++	struct dentry *dentry;
++	aufs_bindex_t brid;
++};
++
++static void au_do_dir_ts(void *arg)
++{
++	struct au_dir_ts_arg *a = arg;
++	struct au_dtime dt;
++	struct path h_path;
++	struct inode *dir, *h_dir;
++	struct super_block *sb;
++	struct au_branch *br;
++	struct au_hinode *hdir;
++	int err;
++	aufs_bindex_t btop, bindex;
++
++	sb = a->dentry->d_sb;
++	if (d_really_is_negative(a->dentry))
++		goto out;
++	/* no dir->i_mutex lock */
++	aufs_read_lock(a->dentry, AuLock_DW); /* noflush */
++
++	dir = d_inode(a->dentry);
++	btop = au_ibtop(dir);
++	bindex = au_br_index(sb, a->brid);
++	if (bindex < btop)
++		goto out_unlock;
++
++	br = au_sbr(sb, bindex);
++	h_path.dentry = au_h_dptr(a->dentry, bindex);
++	if (!h_path.dentry)
++		goto out_unlock;
++	h_path.mnt = au_br_mnt(br);
++	au_dtime_store(&dt, a->dentry, &h_path);
++
++	br = au_sbr(sb, btop);
++	if (!au_br_writable(br->br_perm))
++		goto out_unlock;
++	h_path.dentry = au_h_dptr(a->dentry, btop);
++	h_path.mnt = au_br_mnt(br);
++	err = vfsub_mnt_want_write(h_path.mnt);
++	if (err)
++		goto out_unlock;
++	hdir = au_hi(dir, btop);
++	au_hn_inode_lock_nested(hdir, AuLsc_I_PARENT);
++	h_dir = au_h_iptr(dir, btop);
++	if (h_dir->i_nlink
++	    && timespec_compare(&h_dir->i_mtime, &dt.dt_mtime) < 0) {
++		dt.dt_h_path = h_path;
++		au_dtime_revert(&dt);
++	}
++	au_hn_inode_unlock(hdir);
++	vfsub_mnt_drop_write(h_path.mnt);
++	au_cpup_attr_timesizes(dir);
++
++out_unlock:
++	aufs_read_unlock(a->dentry, AuLock_DW);
++out:
++	dput(a->dentry);
++	au_nwt_done(&au_sbi(sb)->si_nowait);
++	kfree(arg);
++}
++
++void au_dir_ts(struct inode *dir, aufs_bindex_t bindex)
++{
++	int perm, wkq_err;
++	aufs_bindex_t btop;
++	struct au_dir_ts_arg *arg;
++	struct dentry *dentry;
++	struct super_block *sb;
++
++	IMustLock(dir);
++
++	dentry = d_find_any_alias(dir);
++	AuDebugOn(!dentry);
++	sb = dentry->d_sb;
++	btop = au_ibtop(dir);
++	if (btop == bindex) {
++		au_cpup_attr_timesizes(dir);
++		goto out;
++	}
++
++	perm = au_sbr_perm(sb, btop);
++	if (!au_br_writable(perm))
++		goto out;
++
++	arg = kmalloc(sizeof(*arg), GFP_NOFS);
++	if (!arg)
++		goto out;
++
++	arg->dentry = dget(dentry); /* will be dput-ted by au_do_dir_ts() */
++	arg->brid = au_sbr_id(sb, bindex);
++	wkq_err = au_wkq_nowait(au_do_dir_ts, arg, sb, /*flags*/0);
++	if (unlikely(wkq_err)) {
++		pr_err("wkq %d\n", wkq_err);
++		dput(dentry);
++		kfree(arg);
++	}
++
++out:
++	dput(dentry);
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int reopen_dir(struct file *file)
++{
++	int err;
++	unsigned int flags;
++	aufs_bindex_t bindex, btail, btop;
++	struct dentry *dentry, *h_dentry;
++	struct file *h_file;
++
++	/* open all lower dirs */
++	dentry = file->f_path.dentry;
++	btop = au_dbtop(dentry);
++	for (bindex = au_fbtop(file); bindex < btop; bindex++)
++		au_set_h_fptr(file, bindex, NULL);
++	au_set_fbtop(file, btop);
++
++	btail = au_dbtaildir(dentry);
++	for (bindex = au_fbbot_dir(file); btail < bindex; bindex--)
++		au_set_h_fptr(file, bindex, NULL);
++	au_set_fbbot_dir(file, btail);
++
++	flags = vfsub_file_flags(file);
++	for (bindex = btop; bindex <= btail; bindex++) {
++		h_dentry = au_h_dptr(dentry, bindex);
++		if (!h_dentry)
++			continue;
++		h_file = au_hf_dir(file, bindex);
++		if (h_file)
++			continue;
++
++		h_file = au_h_open(dentry, bindex, flags, file, /*force_wr*/0);
++		err = PTR_ERR(h_file);
++		if (IS_ERR(h_file))
++			goto out; /* close all? */
++		au_set_h_fptr(file, bindex, h_file);
++	}
++	au_update_figen(file);
++	/* todo: necessary? */
++	/* file->f_ra = h_file->f_ra; */
++	err = 0;
++
++out:
++	return err;
++}
++
++static int do_open_dir(struct file *file, int flags, struct file *h_file)
++{
++	int err;
++	aufs_bindex_t bindex, btail;
++	struct dentry *dentry, *h_dentry;
++	struct vfsmount *mnt;
++
++	FiMustWriteLock(file);
++	AuDebugOn(h_file);
++
++	err = 0;
++	mnt = file->f_path.mnt;
++	dentry = file->f_path.dentry;
++	file->f_version = d_inode(dentry)->i_version;
++	bindex = au_dbtop(dentry);
++	au_set_fbtop(file, bindex);
++	btail = au_dbtaildir(dentry);
++	au_set_fbbot_dir(file, btail);
++	for (; !err && bindex <= btail; bindex++) {
++		h_dentry = au_h_dptr(dentry, bindex);
++		if (!h_dentry)
++			continue;
++
++		err = vfsub_test_mntns(mnt, h_dentry->d_sb);
++		if (unlikely(err))
++			break;
++		h_file = au_h_open(dentry, bindex, flags, file, /*force_wr*/0);
++		if (IS_ERR(h_file)) {
++			err = PTR_ERR(h_file);
++			break;
++		}
++		au_set_h_fptr(file, bindex, h_file);
++	}
++	au_update_figen(file);
++	/* todo: necessary? */
++	/* file->f_ra = h_file->f_ra; */
++	if (!err)
++		return 0; /* success */
++
++	/* close all */
++	for (bindex = au_fbtop(file); bindex <= btail; bindex++)
++		au_set_h_fptr(file, bindex, NULL);
++	au_set_fbtop(file, -1);
++	au_set_fbbot_dir(file, -1);
++
++	return err;
++}
++
++static int aufs_open_dir(struct inode *inode __maybe_unused,
++			 struct file *file)
++{
++	int err;
++	struct super_block *sb;
++	struct au_fidir *fidir;
++
++	err = -ENOMEM;
++	sb = file->f_path.dentry->d_sb;
++	si_read_lock(sb, AuLock_FLUSH);
++	fidir = au_fidir_alloc(sb);
++	if (fidir) {
++		struct au_do_open_args args = {
++			.open	= do_open_dir,
++			.fidir	= fidir
++		};
++		err = au_do_open(file, &args);
++		if (unlikely(err))
++			kfree(fidir);
++	}
++	si_read_unlock(sb);
++	return err;
++}
++
++static int aufs_release_dir(struct inode *inode __maybe_unused,
++			    struct file *file)
++{
++	struct au_vdir *vdir_cache;
++	struct au_finfo *finfo;
++	struct au_fidir *fidir;
++	struct au_hfile *hf;
++	aufs_bindex_t bindex, bbot;
++
++	finfo = au_fi(file);
++	fidir = finfo->fi_hdir;
++	if (fidir) {
++		au_sphl_del(&finfo->fi_hlist,
++			    &au_sbi(file->f_path.dentry->d_sb)->si_files);
++		vdir_cache = fidir->fd_vdir_cache; /* lock-free */
++		if (vdir_cache)
++			au_vdir_free(vdir_cache);
++
++		bindex = finfo->fi_btop;
++		if (bindex >= 0) {
++			hf = fidir->fd_hfile + bindex;
++			/*
++			 * calls fput() instead of filp_close(),
++			 * since no dnotify or lock for the lower file.
++			 */
++			bbot = fidir->fd_bbot;
++			for (; bindex <= bbot; bindex++, hf++)
++				if (hf->hf_file)
++					au_hfput(hf, /*execed*/0);
++		}
++		kfree(fidir);
++		finfo->fi_hdir = NULL;
++	}
++	au_finfo_fin(file);
++	return 0;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int au_do_flush_dir(struct file *file, fl_owner_t id)
++{
++	int err;
++	aufs_bindex_t bindex, bbot;
++	struct file *h_file;
++
++	err = 0;
++	bbot = au_fbbot_dir(file);
++	for (bindex = au_fbtop(file); !err && bindex <= bbot; bindex++) {
++		h_file = au_hf_dir(file, bindex);
++		if (h_file)
++			err = vfsub_flush(h_file, id);
++	}
++	return err;
++}
++
++static int aufs_flush_dir(struct file *file, fl_owner_t id)
++{
++	return au_do_flush(file, id, au_do_flush_dir);
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int au_do_fsync_dir_no_file(struct dentry *dentry, int datasync)
++{
++	int err;
++	aufs_bindex_t bbot, bindex;
++	struct inode *inode;
++	struct super_block *sb;
++
++	err = 0;
++	sb = dentry->d_sb;
++	inode = d_inode(dentry);
++	IMustLock(inode);
++	bbot = au_dbbot(dentry);
++	for (bindex = au_dbtop(dentry); !err && bindex <= bbot; bindex++) {
++		struct path h_path;
++
++		if (au_test_ro(sb, bindex, inode))
++			continue;
++		h_path.dentry = au_h_dptr(dentry, bindex);
++		if (!h_path.dentry)
++			continue;
++
++		h_path.mnt = au_sbr_mnt(sb, bindex);
++		err = vfsub_fsync(NULL, &h_path, datasync);
++	}
++
++	return err;
++}
++
++static int au_do_fsync_dir(struct file *file, int datasync)
++{
++	int err;
++	aufs_bindex_t bbot, bindex;
++	struct file *h_file;
++	struct super_block *sb;
++	struct inode *inode;
++
++	err = au_reval_and_lock_fdi(file, reopen_dir, /*wlock*/1, /*fi_lsc*/0);
++	if (unlikely(err))
++		goto out;
++
++	inode = file_inode(file);
++	sb = inode->i_sb;
++	bbot = au_fbbot_dir(file);
++	for (bindex = au_fbtop(file); !err && bindex <= bbot; bindex++) {
++		h_file = au_hf_dir(file, bindex);
++		if (!h_file || au_test_ro(sb, bindex, inode))
++			continue;
++
++		err = vfsub_fsync(h_file, &h_file->f_path, datasync);
++	}
++
++out:
++	return err;
++}
++
++/*
++ * @file may be NULL
++ */
++static int aufs_fsync_dir(struct file *file, loff_t start, loff_t end,
++			  int datasync)
++{
++	int err;
++	struct dentry *dentry;
++	struct inode *inode;
++	struct super_block *sb;
++
++	err = 0;
++	dentry = file->f_path.dentry;
++	inode = d_inode(dentry);
++	inode_lock(inode);
++	sb = dentry->d_sb;
++	si_noflush_read_lock(sb);
++	if (file)
++		err = au_do_fsync_dir(file, datasync);
++	else {
++		di_write_lock_child(dentry);
++		err = au_do_fsync_dir_no_file(dentry, datasync);
++	}
++	au_cpup_attr_timesizes(inode);
++	di_write_unlock(dentry);
++	if (file)
++		fi_write_unlock(file);
++
++	si_read_unlock(sb);
++	inode_unlock(inode);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int aufs_iterate_shared(struct file *file, struct dir_context *ctx)
++{
++	int err;
++	struct dentry *dentry;
++	struct inode *inode, *h_inode;
++	struct super_block *sb;
++
++	AuDbg("%pD, ctx{%pf, %llu}\n", file, ctx->actor, ctx->pos);
++
++	dentry = file->f_path.dentry;
++	inode = d_inode(dentry);
++	IMustLock(inode);
++
++	sb = dentry->d_sb;
++	si_read_lock(sb, AuLock_FLUSH);
++	err = au_reval_and_lock_fdi(file, reopen_dir, /*wlock*/1, /*fi_lsc*/0);
++	if (unlikely(err))
++		goto out;
++	err = au_alive_dir(dentry);
++	if (!err)
++		err = au_vdir_init(file);
++	di_downgrade_lock(dentry, AuLock_IR);
++	if (unlikely(err))
++		goto out_unlock;
++
++	h_inode = au_h_iptr(inode, au_ibtop(inode));
++	if (!au_test_nfsd()) {
++		err = au_vdir_fill_de(file, ctx);
++		fsstack_copy_attr_atime(inode, h_inode);
++	} else {
++		/*
++		 * nfsd filldir may call lookup_one_len(), vfs_getattr(),
++		 * encode_fh() and others.
++		 */
++		atomic_inc(&h_inode->i_count);
++		di_read_unlock(dentry, AuLock_IR);
++		si_read_unlock(sb);
++		err = au_vdir_fill_de(file, ctx);
++		fsstack_copy_attr_atime(inode, h_inode);
++		fi_write_unlock(file);
++		iput(h_inode);
++
++		AuTraceErr(err);
++		return err;
++	}
++
++out_unlock:
++	di_read_unlock(dentry, AuLock_IR);
++	fi_write_unlock(file);
++out:
++	si_read_unlock(sb);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++#define AuTestEmpty_WHONLY	1
++#define AuTestEmpty_CALLED	(1 << 1)
++#define AuTestEmpty_SHWH	(1 << 2)
++#define au_ftest_testempty(flags, name)	((flags) & AuTestEmpty_##name)
++#define au_fset_testempty(flags, name) \
++	do { (flags) |= AuTestEmpty_##name; } while (0)
++#define au_fclr_testempty(flags, name) \
++	do { (flags) &= ~AuTestEmpty_##name; } while (0)
++
++#ifndef CONFIG_AUFS_SHWH
++#undef AuTestEmpty_SHWH
++#define AuTestEmpty_SHWH	0
++#endif
++
++struct test_empty_arg {
++	struct dir_context ctx;
++	struct au_nhash *whlist;
++	unsigned int flags;
++	int err;
++	aufs_bindex_t bindex;
++};
++
++static int test_empty_cb(struct dir_context *ctx, const char *__name,
++			 int namelen, loff_t offset __maybe_unused, u64 ino,
++			 unsigned int d_type)
++{
++	struct test_empty_arg *arg = container_of(ctx, struct test_empty_arg,
++						  ctx);
++	char *name = (void *)__name;
++
++	arg->err = 0;
++	au_fset_testempty(arg->flags, CALLED);
++	/* smp_mb(); */
++	if (name[0] == '.'
++	    && (namelen == 1 || (name[1] == '.' && namelen == 2)))
++		goto out; /* success */
++
++	if (namelen <= AUFS_WH_PFX_LEN
++	    || memcmp(name, AUFS_WH_PFX, AUFS_WH_PFX_LEN)) {
++		if (au_ftest_testempty(arg->flags, WHONLY)
++		    && !au_nhash_test_known_wh(arg->whlist, name, namelen))
++			arg->err = -ENOTEMPTY;
++		goto out;
++	}
++
++	name += AUFS_WH_PFX_LEN;
++	namelen -= AUFS_WH_PFX_LEN;
++	if (!au_nhash_test_known_wh(arg->whlist, name, namelen))
++		arg->err = au_nhash_append_wh
++			(arg->whlist, name, namelen, ino, d_type, arg->bindex,
++			 au_ftest_testempty(arg->flags, SHWH));
++
++out:
++	/* smp_mb(); */
++	AuTraceErr(arg->err);
++	return arg->err;
++}
++
++static int do_test_empty(struct dentry *dentry, struct test_empty_arg *arg)
++{
++	int err;
++	struct file *h_file;
++
++	h_file = au_h_open(dentry, arg->bindex,
++			   O_RDONLY | O_NONBLOCK | O_DIRECTORY | O_LARGEFILE,
++			   /*file*/NULL, /*force_wr*/0);
++	err = PTR_ERR(h_file);
++	if (IS_ERR(h_file))
++		goto out;
++
++	err = 0;
++	if (!au_opt_test(au_mntflags(dentry->d_sb), UDBA_NONE)
++	    && !file_inode(h_file)->i_nlink)
++		goto out_put;
++
++	do {
++		arg->err = 0;
++		au_fclr_testempty(arg->flags, CALLED);
++		/* smp_mb(); */
++		err = vfsub_iterate_dir(h_file, &arg->ctx);
++		if (err >= 0)
++			err = arg->err;
++	} while (!err && au_ftest_testempty(arg->flags, CALLED));
++
++out_put:
++	fput(h_file);
++	au_sbr_put(dentry->d_sb, arg->bindex);
++out:
++	return err;
++}
++
++struct do_test_empty_args {
++	int *errp;
++	struct dentry *dentry;
++	struct test_empty_arg *arg;
++};
++
++static void call_do_test_empty(void *args)
++{
++	struct do_test_empty_args *a = args;
++	*a->errp = do_test_empty(a->dentry, a->arg);
++}
++
++static int sio_test_empty(struct dentry *dentry, struct test_empty_arg *arg)
++{
++	int err, wkq_err;
++	struct dentry *h_dentry;
++	struct inode *h_inode;
++
++	h_dentry = au_h_dptr(dentry, arg->bindex);
++	h_inode = d_inode(h_dentry);
++	/* todo: i_mode changes anytime? */
++	vfsub_inode_lock_shared_nested(h_inode, AuLsc_I_CHILD);
++	err = au_test_h_perm_sio(h_inode, MAY_EXEC | MAY_READ);
++	inode_unlock_shared(h_inode);
++	if (!err)
++		err = do_test_empty(dentry, arg);
++	else {
++		struct do_test_empty_args args = {
++			.errp	= &err,
++			.dentry	= dentry,
++			.arg	= arg
++		};
++		unsigned int flags = arg->flags;
++
++		wkq_err = au_wkq_wait(call_do_test_empty, &args);
++		if (unlikely(wkq_err))
++			err = wkq_err;
++		arg->flags = flags;
++	}
++
++	return err;
++}
++
++int au_test_empty_lower(struct dentry *dentry)
++{
++	int err;
++	unsigned int rdhash;
++	aufs_bindex_t bindex, btop, btail;
++	struct au_nhash whlist;
++	struct test_empty_arg arg = {
++		.ctx = {
++			.actor = test_empty_cb
++		}
++	};
++	int (*test_empty)(struct dentry *dentry, struct test_empty_arg *arg);
++
++	SiMustAnyLock(dentry->d_sb);
++
++	rdhash = au_sbi(dentry->d_sb)->si_rdhash;
++	if (!rdhash)
++		rdhash = au_rdhash_est(au_dir_size(/*file*/NULL, dentry));
++	err = au_nhash_alloc(&whlist, rdhash, GFP_NOFS);
++	if (unlikely(err))
++		goto out;
++
++	arg.flags = 0;
++	arg.whlist = &whlist;
++	btop = au_dbtop(dentry);
++	if (au_opt_test(au_mntflags(dentry->d_sb), SHWH))
++		au_fset_testempty(arg.flags, SHWH);
++	test_empty = do_test_empty;
++	if (au_opt_test(au_mntflags(dentry->d_sb), DIRPERM1))
++		test_empty = sio_test_empty;
++	arg.bindex = btop;
++	err = test_empty(dentry, &arg);
++	if (unlikely(err))
++		goto out_whlist;
++
++	au_fset_testempty(arg.flags, WHONLY);
++	btail = au_dbtaildir(dentry);
++	for (bindex = btop + 1; !err && bindex <= btail; bindex++) {
++		struct dentry *h_dentry;
++
++		h_dentry = au_h_dptr(dentry, bindex);
++		if (h_dentry && d_is_positive(h_dentry)) {
++			arg.bindex = bindex;
++			err = test_empty(dentry, &arg);
++		}
++	}
++
++out_whlist:
++	au_nhash_wh_free(&whlist);
++out:
++	return err;
++}
++
++int au_test_empty(struct dentry *dentry, struct au_nhash *whlist)
++{
++	int err;
++	struct test_empty_arg arg = {
++		.ctx = {
++			.actor = test_empty_cb
++		}
++	};
++	aufs_bindex_t bindex, btail;
++
++	err = 0;
++	arg.whlist = whlist;
++	arg.flags = AuTestEmpty_WHONLY;
++	if (au_opt_test(au_mntflags(dentry->d_sb), SHWH))
++		au_fset_testempty(arg.flags, SHWH);
++	btail = au_dbtaildir(dentry);
++	for (bindex = au_dbtop(dentry); !err && bindex <= btail; bindex++) {
++		struct dentry *h_dentry;
++
++		h_dentry = au_h_dptr(dentry, bindex);
++		if (h_dentry && d_is_positive(h_dentry)) {
++			arg.bindex = bindex;
++			err = sio_test_empty(dentry, &arg);
++		}
++	}
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++const struct file_operations aufs_dir_fop = {
++	.owner		= THIS_MODULE,
++	.llseek		= default_llseek,
++	.read		= generic_read_dir,
++	.iterate_shared	= aufs_iterate_shared,
++	.unlocked_ioctl	= aufs_ioctl_dir,
++#ifdef CONFIG_COMPAT
++	.compat_ioctl	= aufs_compat_ioctl_dir,
++#endif
++	.open		= aufs_open_dir,
++	.release	= aufs_release_dir,
++	.flush		= aufs_flush_dir,
++	.fsync		= aufs_fsync_dir
++};
+diff --git a/fs/aufs/dir.h b/fs/aufs/dir.h
+new file mode 100755
+index 0000000..b107309
+--- /dev/null
++++ b/fs/aufs/dir.h
+@@ -0,0 +1,131 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * directory operations
++ */
++
++#ifndef __AUFS_DIR_H__
++#define __AUFS_DIR_H__
++
++#ifdef __KERNEL__
++
++#include <linux/fs.h>
++
++/* ---------------------------------------------------------------------- */
++
++/* need to be faster and smaller */
++
++struct au_nhash {
++	unsigned int		nh_num;
++	struct hlist_head	*nh_head;
++};
++
++struct au_vdir_destr {
++	unsigned char	len;
++	unsigned char	name[0];
++} __packed;
++
++struct au_vdir_dehstr {
++	struct hlist_node	hash;
++	struct au_vdir_destr	*str;
++} ____cacheline_aligned_in_smp;
++
++struct au_vdir_de {
++	ino_t			de_ino;
++	unsigned char		de_type;
++	/* caution: packed */
++	struct au_vdir_destr	de_str;
++} __packed;
++
++struct au_vdir_wh {
++	struct hlist_node	wh_hash;
++#ifdef CONFIG_AUFS_SHWH
++	ino_t			wh_ino;
++	aufs_bindex_t		wh_bindex;
++	unsigned char		wh_type;
++#else
++	aufs_bindex_t		wh_bindex;
++#endif
++	/* caution: packed */
++	struct au_vdir_destr	wh_str;
++} __packed;
++
++union au_vdir_deblk_p {
++	unsigned char		*deblk;
++	struct au_vdir_de	*de;
++};
++
++struct au_vdir {
++	unsigned char	**vd_deblk;
++	unsigned long	vd_nblk;
++	struct {
++		unsigned long		ul;
++		union au_vdir_deblk_p	p;
++	} vd_last;
++
++	unsigned long	vd_version;
++	unsigned int	vd_deblk_sz;
++	unsigned long		vd_jiffy;
++} ____cacheline_aligned_in_smp;
++
++/* ---------------------------------------------------------------------- */
++
++/* dir.c */
++extern const struct file_operations aufs_dir_fop;
++void au_add_nlink(struct inode *dir, struct inode *h_dir);
++void au_sub_nlink(struct inode *dir, struct inode *h_dir);
++loff_t au_dir_size(struct file *file, struct dentry *dentry);
++void au_dir_ts(struct inode *dir, aufs_bindex_t bsrc);
++int au_test_empty_lower(struct dentry *dentry);
++int au_test_empty(struct dentry *dentry, struct au_nhash *whlist);
++
++/* vdir.c */
++unsigned int au_rdhash_est(loff_t sz);
++int au_nhash_alloc(struct au_nhash *nhash, unsigned int num_hash, gfp_t gfp);
++void au_nhash_wh_free(struct au_nhash *whlist);
++int au_nhash_test_longer_wh(struct au_nhash *whlist, aufs_bindex_t btgt,
++			    int limit);
++int au_nhash_test_known_wh(struct au_nhash *whlist, char *name, int nlen);
++int au_nhash_append_wh(struct au_nhash *whlist, char *name, int nlen, ino_t ino,
++		       unsigned int d_type, aufs_bindex_t bindex,
++		       unsigned char shwh);
++void au_vdir_free(struct au_vdir *vdir);
++int au_vdir_init(struct file *file);
++int au_vdir_fill_de(struct file *file, struct dir_context *ctx);
++
++/* ioctl.c */
++long aufs_ioctl_dir(struct file *file, unsigned int cmd, unsigned long arg);
++
++#ifdef CONFIG_AUFS_RDU
++/* rdu.c */
++long au_rdu_ioctl(struct file *file, unsigned int cmd, unsigned long arg);
++#ifdef CONFIG_COMPAT
++long au_rdu_compat_ioctl(struct file *file, unsigned int cmd,
++			 unsigned long arg);
++#endif
++#else
++AuStub(long, au_rdu_ioctl, return -EINVAL, struct file *file,
++       unsigned int cmd, unsigned long arg)
++#ifdef CONFIG_COMPAT
++AuStub(long, au_rdu_compat_ioctl, return -EINVAL, struct file *file,
++       unsigned int cmd, unsigned long arg)
++#endif
++#endif
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_DIR_H__ */
+diff --git a/fs/aufs/dynop.c b/fs/aufs/dynop.c
+new file mode 100755
+index 0000000..443791a
+--- /dev/null
++++ b/fs/aufs/dynop.c
+@@ -0,0 +1,371 @@
++/*
++ * Copyright (C) 2010-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * dynamically customizable operations for regular files
++ */
++
++#include "aufs.h"
++
++#define DyPrSym(key)	AuDbgSym(key->dk_op.dy_hop)
++
++/*
++ * How large will these lists be?
++ * Usually just a few elements, 20-30 at most for each, I guess.
++ */
++static struct au_sphlhead dynop[AuDyLast];
++
++static struct au_dykey *dy_gfind_get(struct au_sphlhead *sphl, const void *h_op)
++{
++	struct au_dykey *key, *tmp;
++	struct hlist_head *head;
++
++	key = NULL;
++	head = &sphl->head;
++	rcu_read_lock();
++	hlist_for_each_entry_rcu(tmp, head, dk_hnode)
++		if (tmp->dk_op.dy_hop == h_op) {
++			key = tmp;
++			kref_get(&key->dk_kref);
++			break;
++		}
++	rcu_read_unlock();
++
++	return key;
++}
++
++static struct au_dykey *dy_bradd(struct au_branch *br, struct au_dykey *key)
++{
++	struct au_dykey **k, *found;
++	const void *h_op = key->dk_op.dy_hop;
++	int i;
++
++	found = NULL;
++	k = br->br_dykey;
++	for (i = 0; i < AuBrDynOp; i++)
++		if (k[i]) {
++			if (k[i]->dk_op.dy_hop == h_op) {
++				found = k[i];
++				break;
++			}
++		} else
++			break;
++	if (!found) {
++		spin_lock(&br->br_dykey_lock);
++		for (; i < AuBrDynOp; i++)
++			if (k[i]) {
++				if (k[i]->dk_op.dy_hop == h_op) {
++					found = k[i];
++					break;
++				}
++			} else {
++				k[i] = key;
++				break;
++			}
++		spin_unlock(&br->br_dykey_lock);
++		BUG_ON(i == AuBrDynOp); /* expand the array */
++	}
++
++	return found;
++}
++
++/* kref_get() if @key is already added */
++static struct au_dykey *dy_gadd(struct au_sphlhead *sphl, struct au_dykey *key)
++{
++	struct au_dykey *tmp, *found;
++	struct hlist_head *head;
++	const void *h_op = key->dk_op.dy_hop;
++
++	found = NULL;
++	head = &sphl->head;
++	spin_lock(&sphl->spin);
++	hlist_for_each_entry(tmp, head, dk_hnode)
++		if (tmp->dk_op.dy_hop == h_op) {
++			kref_get(&tmp->dk_kref);
++			found = tmp;
++			break;
++		}
++	if (!found)
++		hlist_add_head_rcu(&key->dk_hnode, head);
++	spin_unlock(&sphl->spin);
++
++	if (!found)
++		DyPrSym(key);
++	return found;
++}
++
++static void dy_free_rcu(struct rcu_head *rcu)
++{
++	struct au_dykey *key;
++
++	key = container_of(rcu, struct au_dykey, dk_rcu);
++	DyPrSym(key);
++	kfree(key);
++}
++
++static void dy_free(struct kref *kref)
++{
++	struct au_dykey *key;
++	struct au_sphlhead *sphl;
++
++	key = container_of(kref, struct au_dykey, dk_kref);
++	sphl = dynop + key->dk_op.dy_type;
++	au_sphl_del_rcu(&key->dk_hnode, sphl);
++	call_rcu(&key->dk_rcu, dy_free_rcu);
++}
++
++void au_dy_put(struct au_dykey *key)
++{
++	kref_put(&key->dk_kref, dy_free);
++}
++
++/* ---------------------------------------------------------------------- */
++
++#define DyDbgSize(cnt, op)	AuDebugOn(cnt != sizeof(op)/sizeof(void *))
++
++#ifdef CONFIG_AUFS_DEBUG
++#define DyDbgDeclare(cnt)	unsigned int cnt = 0
++#define DyDbgInc(cnt)		do { cnt++; } while (0)
++#else
++#define DyDbgDeclare(cnt)	do {} while (0)
++#define DyDbgInc(cnt)		do {} while (0)
++#endif
++
++#define DySet(func, dst, src, h_op, h_sb) do {				\
++	DyDbgInc(cnt);							\
++	if (h_op->func) {						\
++		if (src.func)						\
++			dst.func = src.func;				\
++		else							\
++			AuDbg("%s %s\n", au_sbtype(h_sb), #func);	\
++	}								\
++} while (0)
++
++#define DySetForce(func, dst, src) do {		\
++	AuDebugOn(!src.func);			\
++	DyDbgInc(cnt);				\
++	dst.func = src.func;			\
++} while (0)
++
++#define DySetAop(func) \
++	DySet(func, dyaop->da_op, aufs_aop, h_aop, h_sb)
++#define DySetAopForce(func) \
++	DySetForce(func, dyaop->da_op, aufs_aop)
++
++static void dy_aop(struct au_dykey *key, const void *h_op,
++		   struct super_block *h_sb __maybe_unused)
++{
++	struct au_dyaop *dyaop = (void *)key;
++	const struct address_space_operations *h_aop = h_op;
++	DyDbgDeclare(cnt);
++
++	AuDbg("%s\n", au_sbtype(h_sb));
++
++	DySetAop(writepage);
++	DySetAopForce(readpage);	/* force */
++	DySetAop(writepages);
++	DySetAop(set_page_dirty);
++	DySetAop(readpages);
++	DySetAop(write_begin);
++	DySetAop(write_end);
++	DySetAop(bmap);
++	DySetAop(invalidatepage);
++	DySetAop(releasepage);
++	DySetAop(freepage);
++	/* this one will be changed according to an aufs mount option */
++	DySetAop(direct_IO);
++	DySetAop(migratepage);
++	DySetAop(isolate_page);
++	DySetAop(putback_page);
++	DySetAop(launder_page);
++	DySetAop(is_partially_uptodate);
++	DySetAop(is_dirty_writeback);
++	DySetAop(error_remove_page);
++	DySetAop(swap_activate);
++	DySetAop(swap_deactivate);
++
++	DyDbgSize(cnt, *h_aop);
++}
++
++/* ---------------------------------------------------------------------- */
++
++static void dy_bug(struct kref *kref)
++{
++	BUG();
++}
++
++static struct au_dykey *dy_get(struct au_dynop *op, struct au_branch *br)
++{
++	struct au_dykey *key, *old;
++	struct au_sphlhead *sphl;
++	struct op {
++		unsigned int sz;
++		void (*set)(struct au_dykey *key, const void *h_op,
++			    struct super_block *h_sb __maybe_unused);
++	};
++	static const struct op a[] = {
++		[AuDy_AOP] = {
++			.sz	= sizeof(struct au_dyaop),
++			.set	= dy_aop
++		}
++	};
++	const struct op *p;
++
++	sphl = dynop + op->dy_type;
++	key = dy_gfind_get(sphl, op->dy_hop);
++	if (key)
++		goto out_add; /* success */
++
++	p = a + op->dy_type;
++	key = kzalloc(p->sz, GFP_NOFS);
++	if (unlikely(!key)) {
++		key = ERR_PTR(-ENOMEM);
++		goto out;
++	}
++
++	key->dk_op.dy_hop = op->dy_hop;
++	kref_init(&key->dk_kref);
++	p->set(key, op->dy_hop, au_br_sb(br));
++	old = dy_gadd(sphl, key);
++	if (old) {
++		kfree(key);
++		key = old;
++	}
++
++out_add:
++	old = dy_bradd(br, key);
++	if (old)
++		/* its ref-count should never be zero here */
++		kref_put(&key->dk_kref, dy_bug);
++out:
++	return key;
++}
++
++/* ---------------------------------------------------------------------- */
++/*
++ * Aufs prohibits O_DIRECT by defaut even if the branch supports it.
++ * This behaviour is necessary to return an error from open(O_DIRECT) instead
++ * of the succeeding I/O. The dio mount option enables O_DIRECT and makes
++ * open(O_DIRECT) always succeed, but the succeeding I/O may return an error.
++ * See the aufs manual in detail.
++ */
++static void dy_adx(struct au_dyaop *dyaop, int do_dx)
++{
++	if (!do_dx)
++		dyaop->da_op.direct_IO = NULL;
++	else
++		dyaop->da_op.direct_IO = aufs_aop.direct_IO;
++}
++
++static struct au_dyaop *dy_aget(struct au_branch *br,
++				const struct address_space_operations *h_aop,
++				int do_dx)
++{
++	struct au_dyaop *dyaop;
++	struct au_dynop op;
++
++	op.dy_type = AuDy_AOP;
++	op.dy_haop = h_aop;
++	dyaop = (void *)dy_get(&op, br);
++	if (IS_ERR(dyaop))
++		goto out;
++	dy_adx(dyaop, do_dx);
++
++out:
++	return dyaop;
++}
++
++int au_dy_iaop(struct inode *inode, aufs_bindex_t bindex,
++		struct inode *h_inode)
++{
++	int err, do_dx;
++	struct super_block *sb;
++	struct au_branch *br;
++	struct au_dyaop *dyaop;
++
++	AuDebugOn(!S_ISREG(h_inode->i_mode));
++	IiMustWriteLock(inode);
++
++	sb = inode->i_sb;
++	br = au_sbr(sb, bindex);
++	do_dx = !!au_opt_test(au_mntflags(sb), DIO);
++	dyaop = dy_aget(br, h_inode->i_mapping->a_ops, do_dx);
++	err = PTR_ERR(dyaop);
++	if (IS_ERR(dyaop))
++		/* unnecessary to call dy_fput() */
++		goto out;
++
++	err = 0;
++	inode->i_mapping->a_ops = &dyaop->da_op;
++
++out:
++	return err;
++}
++
++/*
++ * Is it safe to replace a_ops during the inode/file is in operation?
++ * Yes, I hope so.
++ */
++int au_dy_irefresh(struct inode *inode)
++{
++	int err;
++	aufs_bindex_t btop;
++	struct inode *h_inode;
++
++	err = 0;
++	if (S_ISREG(inode->i_mode)) {
++		btop = au_ibtop(inode);
++		h_inode = au_h_iptr(inode, btop);
++		err = au_dy_iaop(inode, btop, h_inode);
++	}
++	return err;
++}
++
++void au_dy_arefresh(int do_dx)
++{
++	struct au_sphlhead *sphl;
++	struct hlist_head *head;
++	struct au_dykey *key;
++
++	sphl = dynop + AuDy_AOP;
++	head = &sphl->head;
++	spin_lock(&sphl->spin);
++	hlist_for_each_entry(key, head, dk_hnode)
++		dy_adx((void *)key, do_dx);
++	spin_unlock(&sphl->spin);
++}
++
++/* ---------------------------------------------------------------------- */
++
++void __init au_dy_init(void)
++{
++	int i;
++
++	/* make sure that 'struct au_dykey *' can be any type */
++	BUILD_BUG_ON(offsetof(struct au_dyaop, da_key));
++
++	for (i = 0; i < AuDyLast; i++)
++		au_sphl_init(dynop + i);
++}
++
++void au_dy_fin(void)
++{
++	int i;
++
++	for (i = 0; i < AuDyLast; i++)
++		WARN_ON(!hlist_empty(&dynop[i].head));
++}
+diff --git a/fs/aufs/dynop.h b/fs/aufs/dynop.h
+new file mode 100755
+index 0000000..c19c675
+--- /dev/null
++++ b/fs/aufs/dynop.h
+@@ -0,0 +1,74 @@
++/*
++ * Copyright (C) 2010-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * dynamically customizable operations (for regular files only)
++ */
++
++#ifndef __AUFS_DYNOP_H__
++#define __AUFS_DYNOP_H__
++
++#ifdef __KERNEL__
++
++#include <linux/fs.h>
++#include <linux/kref.h>
++
++enum {AuDy_AOP, AuDyLast};
++
++struct au_dynop {
++	int						dy_type;
++	union {
++		const void				*dy_hop;
++		const struct address_space_operations	*dy_haop;
++	};
++};
++
++struct au_dykey {
++	union {
++		struct hlist_node	dk_hnode;
++		struct rcu_head		dk_rcu;
++	};
++	struct au_dynop		dk_op;
++
++	/*
++	 * during I am in the branch local array, kref is gotten. when the
++	 * branch is removed, kref is put.
++	 */
++	struct kref		dk_kref;
++};
++
++/* stop unioning since their sizes are very different from each other */
++struct au_dyaop {
++	struct au_dykey			da_key;
++	struct address_space_operations	da_op; /* not const */
++};
++
++/* ---------------------------------------------------------------------- */
++
++/* dynop.c */
++struct au_branch;
++void au_dy_put(struct au_dykey *key);
++int au_dy_iaop(struct inode *inode, aufs_bindex_t bindex,
++		struct inode *h_inode);
++int au_dy_irefresh(struct inode *inode);
++void au_dy_arefresh(int do_dio);
++
++void __init au_dy_init(void);
++void au_dy_fin(void);
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_DYNOP_H__ */
+diff --git a/fs/aufs/export.c b/fs/aufs/export.c
+new file mode 100755
+index 0000000..34b391c
+--- /dev/null
++++ b/fs/aufs/export.c
+@@ -0,0 +1,836 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * export via nfs
++ */
++
++#include <linux/exportfs.h>
++#include <linux/fs_struct.h>
++#include <linux/namei.h>
++#include <linux/nsproxy.h>
++#include <linux/random.h>
++#include <linux/writeback.h>
++#include "aufs.h"
++
++union conv {
++#ifdef CONFIG_AUFS_INO_T_64
++	__u32 a[2];
++#else
++	__u32 a[1];
++#endif
++	ino_t ino;
++};
++
++static ino_t decode_ino(__u32 *a)
++{
++	union conv u;
++
++	BUILD_BUG_ON(sizeof(u.ino) != sizeof(u.a));
++	u.a[0] = a[0];
++#ifdef CONFIG_AUFS_INO_T_64
++	u.a[1] = a[1];
++#endif
++	return u.ino;
++}
++
++static void encode_ino(__u32 *a, ino_t ino)
++{
++	union conv u;
++
++	u.ino = ino;
++	a[0] = u.a[0];
++#ifdef CONFIG_AUFS_INO_T_64
++	a[1] = u.a[1];
++#endif
++}
++
++/* NFS file handle */
++enum {
++	Fh_br_id,
++	Fh_sigen,
++#ifdef CONFIG_AUFS_INO_T_64
++	/* support 64bit inode number */
++	Fh_ino1,
++	Fh_ino2,
++	Fh_dir_ino1,
++	Fh_dir_ino2,
++#else
++	Fh_ino1,
++	Fh_dir_ino1,
++#endif
++	Fh_igen,
++	Fh_h_type,
++	Fh_tail,
++
++	Fh_ino = Fh_ino1,
++	Fh_dir_ino = Fh_dir_ino1
++};
++
++static int au_test_anon(struct dentry *dentry)
++{
++	/* note: read d_flags without d_lock */
++	return !!(dentry->d_flags & DCACHE_DISCONNECTED);
++}
++
++int au_test_nfsd(void)
++{
++	int ret;
++	struct task_struct *tsk = current;
++	char comm[sizeof(tsk->comm)];
++
++	ret = 0;
++	if (tsk->flags & PF_KTHREAD) {
++		get_task_comm(comm, tsk);
++		ret = !strcmp(comm, "nfsd");
++	}
++
++	return ret;
++}
++
++/* ---------------------------------------------------------------------- */
++/* inode generation external table */
++
++void au_xigen_inc(struct inode *inode)
++{
++	loff_t pos;
++	ssize_t sz;
++	__u32 igen;
++	struct super_block *sb;
++	struct au_sbinfo *sbinfo;
++
++	sb = inode->i_sb;
++	AuDebugOn(!au_opt_test(au_mntflags(sb), XINO));
++
++	sbinfo = au_sbi(sb);
++	pos = inode->i_ino;
++	pos *= sizeof(igen);
++	igen = inode->i_generation + 1;
++	sz = xino_fwrite(sbinfo->si_xwrite, sbinfo->si_xigen, &igen,
++			 sizeof(igen), &pos);
++	if (sz == sizeof(igen))
++		return; /* success */
++
++	if (unlikely(sz >= 0))
++		AuIOErr("xigen error (%zd)\n", sz);
++}
++
++int au_xigen_new(struct inode *inode)
++{
++	int err;
++	loff_t pos;
++	ssize_t sz;
++	struct super_block *sb;
++	struct au_sbinfo *sbinfo;
++	struct file *file;
++
++	err = 0;
++	/* todo: dirty, at mount time */
++	if (inode->i_ino == AUFS_ROOT_INO)
++		goto out;
++	sb = inode->i_sb;
++	SiMustAnyLock(sb);
++	if (unlikely(!au_opt_test(au_mntflags(sb), XINO)))
++		goto out;
++
++	err = -EFBIG;
++	pos = inode->i_ino;
++	if (unlikely(au_loff_max / sizeof(inode->i_generation) - 1 < pos)) {
++		AuIOErr1("too large i%lld\n", pos);
++		goto out;
++	}
++	pos *= sizeof(inode->i_generation);
++
++	err = 0;
++	sbinfo = au_sbi(sb);
++	file = sbinfo->si_xigen;
++	BUG_ON(!file);
++
++	if (vfsub_f_size_read(file)
++	    < pos + sizeof(inode->i_generation)) {
++		inode->i_generation = atomic_inc_return(&sbinfo->si_xigen_next);
++		sz = xino_fwrite(sbinfo->si_xwrite, file, &inode->i_generation,
++				 sizeof(inode->i_generation), &pos);
++	} else
++		sz = xino_fread(sbinfo->si_xread, file, &inode->i_generation,
++				sizeof(inode->i_generation), &pos);
++	if (sz == sizeof(inode->i_generation))
++		goto out; /* success */
++
++	err = sz;
++	if (unlikely(sz >= 0)) {
++		err = -EIO;
++		AuIOErr("xigen error (%zd)\n", sz);
++	}
++
++out:
++	return err;
++}
++
++int au_xigen_set(struct super_block *sb, struct file *base)
++{
++	int err;
++	struct au_sbinfo *sbinfo;
++	struct file *file;
++
++	SiMustWriteLock(sb);
++
++	sbinfo = au_sbi(sb);
++	file = au_xino_create2(base, sbinfo->si_xigen);
++	err = PTR_ERR(file);
++	if (IS_ERR(file))
++		goto out;
++	err = 0;
++	if (sbinfo->si_xigen)
++		fput(sbinfo->si_xigen);
++	sbinfo->si_xigen = file;
++
++out:
++	return err;
++}
++
++void au_xigen_clr(struct super_block *sb)
++{
++	struct au_sbinfo *sbinfo;
++
++	SiMustWriteLock(sb);
++
++	sbinfo = au_sbi(sb);
++	if (sbinfo->si_xigen) {
++		fput(sbinfo->si_xigen);
++		sbinfo->si_xigen = NULL;
++	}
++}
++
++/* ---------------------------------------------------------------------- */
++
++static struct dentry *decode_by_ino(struct super_block *sb, ino_t ino,
++				    ino_t dir_ino)
++{
++	struct dentry *dentry, *d;
++	struct inode *inode;
++	unsigned int sigen;
++
++	dentry = NULL;
++	inode = ilookup(sb, ino);
++	if (!inode)
++		goto out;
++
++	dentry = ERR_PTR(-ESTALE);
++	sigen = au_sigen(sb);
++	if (unlikely(au_is_bad_inode(inode)
++		     || IS_DEADDIR(inode)
++		     || sigen != au_iigen(inode, NULL)))
++		goto out_iput;
++
++	dentry = NULL;
++	if (!dir_ino || S_ISDIR(inode->i_mode))
++		dentry = d_find_alias(inode);
++	else {
++		spin_lock(&inode->i_lock);
++		hlist_for_each_entry(d, &inode->i_dentry, d_u.d_alias) {
++			spin_lock(&d->d_lock);
++			if (!au_test_anon(d)
++			    && d_inode(d->d_parent)->i_ino == dir_ino) {
++				dentry = dget_dlock(d);
++				spin_unlock(&d->d_lock);
++				break;
++			}
++			spin_unlock(&d->d_lock);
++		}
++		spin_unlock(&inode->i_lock);
++	}
++	if (unlikely(dentry && au_digen_test(dentry, sigen))) {
++		/* need to refresh */
++		dput(dentry);
++		dentry = NULL;
++	}
++
++out_iput:
++	iput(inode);
++out:
++	AuTraceErrPtr(dentry);
++	return dentry;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* todo: dirty? */
++/* if exportfs_decode_fh() passed vfsmount*, we could be happy */
++
++struct au_compare_mnt_args {
++	/* input */
++	struct super_block *sb;
++
++	/* output */
++	struct vfsmount *mnt;
++};
++
++static int au_compare_mnt(struct vfsmount *mnt, void *arg)
++{
++	struct au_compare_mnt_args *a = arg;
++
++	if (mnt->mnt_sb != a->sb)
++		return 0;
++	a->mnt = mntget(mnt);
++	return 1;
++}
++
++static struct vfsmount *au_mnt_get(struct super_block *sb)
++{
++	int err;
++	struct path root;
++	struct au_compare_mnt_args args = {
++		.sb = sb
++	};
++
++	get_fs_root(current->fs, &root);
++	rcu_read_lock();
++	err = iterate_mounts(au_compare_mnt, &args, root.mnt);
++	rcu_read_unlock();
++	path_put(&root);
++	AuDebugOn(!err);
++	AuDebugOn(!args.mnt);
++	return args.mnt;
++}
++
++struct au_nfsd_si_lock {
++	unsigned int sigen;
++	aufs_bindex_t bindex, br_id;
++	unsigned char force_lock;
++};
++
++static int si_nfsd_read_lock(struct super_block *sb,
++			     struct au_nfsd_si_lock *nsi_lock)
++{
++	int err;
++	aufs_bindex_t bindex;
++
++	si_read_lock(sb, AuLock_FLUSH);
++
++	/* branch id may be wrapped around */
++	err = 0;
++	bindex = au_br_index(sb, nsi_lock->br_id);
++	if (bindex >= 0 && nsi_lock->sigen + AUFS_BRANCH_MAX > au_sigen(sb))
++		goto out; /* success */
++
++	err = -ESTALE;
++	bindex = -1;
++	if (!nsi_lock->force_lock)
++		si_read_unlock(sb);
++
++out:
++	nsi_lock->bindex = bindex;
++	return err;
++}
++
++struct find_name_by_ino {
++	struct dir_context ctx;
++	int called, found;
++	ino_t ino;
++	char *name;
++	int namelen;
++};
++
++static int
++find_name_by_ino(struct dir_context *ctx, const char *name, int namelen,
++		 loff_t offset, u64 ino, unsigned int d_type)
++{
++	struct find_name_by_ino *a = container_of(ctx, struct find_name_by_ino,
++						  ctx);
++
++	a->called++;
++	if (a->ino != ino)
++		return 0;
++
++	memcpy(a->name, name, namelen);
++	a->namelen = namelen;
++	a->found = 1;
++	return 1;
++}
++
++static struct dentry *au_lkup_by_ino(struct path *path, ino_t ino,
++				     struct au_nfsd_si_lock *nsi_lock)
++{
++	struct dentry *dentry, *parent;
++	struct file *file;
++	struct inode *dir;
++	struct find_name_by_ino arg = {
++		.ctx = {
++			.actor = find_name_by_ino
++		}
++	};
++	int err;
++
++	parent = path->dentry;
++	if (nsi_lock)
++		si_read_unlock(parent->d_sb);
++	file = vfsub_dentry_open(path, au_dir_roflags);
++	dentry = (void *)file;
++	if (IS_ERR(file))
++		goto out;
++
++	dentry = ERR_PTR(-ENOMEM);
++	arg.name = (void *)__get_free_page(GFP_NOFS);
++	if (unlikely(!arg.name))
++		goto out_file;
++	arg.ino = ino;
++	arg.found = 0;
++	do {
++		arg.called = 0;
++		/* smp_mb(); */
++		err = vfsub_iterate_dir(file, &arg.ctx);
++	} while (!err && !arg.found && arg.called);
++	dentry = ERR_PTR(err);
++	if (unlikely(err))
++		goto out_name;
++	/* instead of ENOENT */
++	dentry = ERR_PTR(-ESTALE);
++	if (!arg.found)
++		goto out_name;
++
++	/* do not call vfsub_lkup_one() */
++	dir = d_inode(parent);
++	dentry = vfsub_lookup_one_len_unlocked(arg.name, parent, arg.namelen);
++	AuTraceErrPtr(dentry);
++	if (IS_ERR(dentry))
++		goto out_name;
++	AuDebugOn(au_test_anon(dentry));
++	if (unlikely(d_really_is_negative(dentry))) {
++		dput(dentry);
++		dentry = ERR_PTR(-ENOENT);
++	}
++
++out_name:
++	free_page((unsigned long)arg.name);
++out_file:
++	fput(file);
++out:
++	if (unlikely(nsi_lock
++		     && si_nfsd_read_lock(parent->d_sb, nsi_lock) < 0))
++		if (!IS_ERR(dentry)) {
++			dput(dentry);
++			dentry = ERR_PTR(-ESTALE);
++		}
++	AuTraceErrPtr(dentry);
++	return dentry;
++}
++
++static struct dentry *decode_by_dir_ino(struct super_block *sb, ino_t ino,
++					ino_t dir_ino,
++					struct au_nfsd_si_lock *nsi_lock)
++{
++	struct dentry *dentry;
++	struct path path;
++
++	if (dir_ino != AUFS_ROOT_INO) {
++		path.dentry = decode_by_ino(sb, dir_ino, 0);
++		dentry = path.dentry;
++		if (!path.dentry || IS_ERR(path.dentry))
++			goto out;
++		AuDebugOn(au_test_anon(path.dentry));
++	} else
++		path.dentry = dget(sb->s_root);
++
++	path.mnt = au_mnt_get(sb);
++	dentry = au_lkup_by_ino(&path, ino, nsi_lock);
++	path_put(&path);
++
++out:
++	AuTraceErrPtr(dentry);
++	return dentry;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int h_acceptable(void *expv, struct dentry *dentry)
++{
++	return 1;
++}
++
++static char *au_build_path(struct dentry *h_parent, struct path *h_rootpath,
++			   char *buf, int len, struct super_block *sb)
++{
++	char *p;
++	int n;
++	struct path path;
++
++	p = d_path(h_rootpath, buf, len);
++	if (IS_ERR(p))
++		goto out;
++	n = strlen(p);
++
++	path.mnt = h_rootpath->mnt;
++	path.dentry = h_parent;
++	p = d_path(&path, buf, len);
++	if (IS_ERR(p))
++		goto out;
++	if (n != 1)
++		p += n;
++
++	path.mnt = au_mnt_get(sb);
++	path.dentry = sb->s_root;
++	p = d_path(&path, buf, len - strlen(p));
++	mntput(path.mnt);
++	if (IS_ERR(p))
++		goto out;
++	if (n != 1)
++		p[strlen(p)] = '/';
++
++out:
++	AuTraceErrPtr(p);
++	return p;
++}
++
++static
++struct dentry *decode_by_path(struct super_block *sb, ino_t ino, __u32 *fh,
++			      int fh_len, struct au_nfsd_si_lock *nsi_lock)
++{
++	struct dentry *dentry, *h_parent, *root;
++	struct super_block *h_sb;
++	char *pathname, *p;
++	struct vfsmount *h_mnt;
++	struct au_branch *br;
++	int err;
++	struct path path;
++
++	br = au_sbr(sb, nsi_lock->bindex);
++	h_mnt = au_br_mnt(br);
++	h_sb = h_mnt->mnt_sb;
++	/* todo: call lower fh_to_dentry()? fh_to_parent()? */
++	lockdep_off();
++	h_parent = exportfs_decode_fh(h_mnt, (void *)(fh + Fh_tail),
++				      fh_len - Fh_tail, fh[Fh_h_type],
++				      h_acceptable, /*context*/NULL);
++	lockdep_on();
++	dentry = h_parent;
++	if (unlikely(!h_parent || IS_ERR(h_parent))) {
++		AuWarn1("%s decode_fh failed, %ld\n",
++			au_sbtype(h_sb), PTR_ERR(h_parent));
++		goto out;
++	}
++	dentry = NULL;
++	if (unlikely(au_test_anon(h_parent))) {
++		AuWarn1("%s decode_fh returned a disconnected dentry\n",
++			au_sbtype(h_sb));
++		goto out_h_parent;
++	}
++
++	dentry = ERR_PTR(-ENOMEM);
++	pathname = (void *)__get_free_page(GFP_NOFS);
++	if (unlikely(!pathname))
++		goto out_h_parent;
++
++	root = sb->s_root;
++	path.mnt = h_mnt;
++	di_read_lock_parent(root, !AuLock_IR);
++	path.dentry = au_h_dptr(root, nsi_lock->bindex);
++	di_read_unlock(root, !AuLock_IR);
++	p = au_build_path(h_parent, &path, pathname, PAGE_SIZE, sb);
++	dentry = (void *)p;
++	if (IS_ERR(p))
++		goto out_pathname;
++
++	si_read_unlock(sb);
++	err = vfsub_kern_path(p, LOOKUP_FOLLOW | LOOKUP_DIRECTORY, &path);
++	dentry = ERR_PTR(err);
++	if (unlikely(err))
++		goto out_relock;
++
++	dentry = ERR_PTR(-ENOENT);
++	AuDebugOn(au_test_anon(path.dentry));
++	if (unlikely(d_really_is_negative(path.dentry)))
++		goto out_path;
++
++	if (ino != d_inode(path.dentry)->i_ino)
++		dentry = au_lkup_by_ino(&path, ino, /*nsi_lock*/NULL);
++	else
++		dentry = dget(path.dentry);
++
++out_path:
++	path_put(&path);
++out_relock:
++	if (unlikely(si_nfsd_read_lock(sb, nsi_lock) < 0))
++		if (!IS_ERR(dentry)) {
++			dput(dentry);
++			dentry = ERR_PTR(-ESTALE);
++		}
++out_pathname:
++	free_page((unsigned long)pathname);
++out_h_parent:
++	dput(h_parent);
++out:
++	AuTraceErrPtr(dentry);
++	return dentry;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static struct dentry *
++aufs_fh_to_dentry(struct super_block *sb, struct fid *fid, int fh_len,
++		  int fh_type)
++{
++	struct dentry *dentry;
++	__u32 *fh = fid->raw;
++	struct au_branch *br;
++	ino_t ino, dir_ino;
++	struct au_nfsd_si_lock nsi_lock = {
++		.force_lock	= 0
++	};
++
++	dentry = ERR_PTR(-ESTALE);
++	/* it should never happen, but the file handle is unreliable */
++	if (unlikely(fh_len < Fh_tail))
++		goto out;
++	nsi_lock.sigen = fh[Fh_sigen];
++	nsi_lock.br_id = fh[Fh_br_id];
++
++	/* branch id may be wrapped around */
++	br = NULL;
++	if (unlikely(si_nfsd_read_lock(sb, &nsi_lock)))
++		goto out;
++	nsi_lock.force_lock = 1;
++
++	/* is this inode still cached? */
++	ino = decode_ino(fh + Fh_ino);
++	/* it should never happen */
++	if (unlikely(ino == AUFS_ROOT_INO))
++		goto out_unlock;
++
++	dir_ino = decode_ino(fh + Fh_dir_ino);
++	dentry = decode_by_ino(sb, ino, dir_ino);
++	if (IS_ERR(dentry))
++		goto out_unlock;
++	if (dentry)
++		goto accept;
++
++	/* is the parent dir cached? */
++	br = au_sbr(sb, nsi_lock.bindex);
++	au_br_get(br);
++	dentry = decode_by_dir_ino(sb, ino, dir_ino, &nsi_lock);
++	if (IS_ERR(dentry))
++		goto out_unlock;
++	if (dentry)
++		goto accept;
++
++	/* lookup path */
++	dentry = decode_by_path(sb, ino, fh, fh_len, &nsi_lock);
++	if (IS_ERR(dentry))
++		goto out_unlock;
++	if (unlikely(!dentry))
++		/* todo?: make it ESTALE */
++		goto out_unlock;
++
++accept:
++	if (!au_digen_test(dentry, au_sigen(sb))
++	    && d_inode(dentry)->i_generation == fh[Fh_igen])
++		goto out_unlock; /* success */
++
++	dput(dentry);
++	dentry = ERR_PTR(-ESTALE);
++out_unlock:
++	if (br)
++		au_br_put(br);
++	si_read_unlock(sb);
++out:
++	AuTraceErrPtr(dentry);
++	return dentry;
++}
++
++#if 0 /* reserved for future use */
++/* support subtreecheck option */
++static struct dentry *aufs_fh_to_parent(struct super_block *sb, struct fid *fid,
++					int fh_len, int fh_type)
++{
++	struct dentry *parent;
++	__u32 *fh = fid->raw;
++	ino_t dir_ino;
++
++	dir_ino = decode_ino(fh + Fh_dir_ino);
++	parent = decode_by_ino(sb, dir_ino, 0);
++	if (IS_ERR(parent))
++		goto out;
++	if (!parent)
++		parent = decode_by_path(sb, au_br_index(sb, fh[Fh_br_id]),
++					dir_ino, fh, fh_len);
++
++out:
++	AuTraceErrPtr(parent);
++	return parent;
++}
++#endif
++
++/* ---------------------------------------------------------------------- */
++
++static int aufs_encode_fh(struct inode *inode, __u32 *fh, int *max_len,
++			  struct inode *dir)
++{
++	int err;
++	aufs_bindex_t bindex;
++	struct super_block *sb, *h_sb;
++	struct dentry *dentry, *parent, *h_parent;
++	struct inode *h_dir;
++	struct au_branch *br;
++
++	err = -ENOSPC;
++	if (unlikely(*max_len <= Fh_tail)) {
++		AuWarn1("NFSv2 client (max_len %d)?\n", *max_len);
++		goto out;
++	}
++
++	err = FILEID_ROOT;
++	if (inode->i_ino == AUFS_ROOT_INO) {
++		AuDebugOn(inode->i_ino != AUFS_ROOT_INO);
++		goto out;
++	}
++
++	h_parent = NULL;
++	sb = inode->i_sb;
++	err = si_read_lock(sb, AuLock_FLUSH);
++	if (unlikely(err))
++		goto out;
++
++#ifdef CONFIG_AUFS_DEBUG
++	if (unlikely(!au_opt_test(au_mntflags(sb), XINO)))
++		AuWarn1("NFS-exporting requires xino\n");
++#endif
++	err = -EIO;
++	parent = NULL;
++	ii_read_lock_child(inode);
++	bindex = au_ibtop(inode);
++	if (!dir) {
++		dentry = d_find_any_alias(inode);
++		if (unlikely(!dentry))
++			goto out_unlock;
++		AuDebugOn(au_test_anon(dentry));
++		parent = dget_parent(dentry);
++		dput(dentry);
++		if (unlikely(!parent))
++			goto out_unlock;
++		if (d_really_is_positive(parent))
++			dir = d_inode(parent);
++	}
++
++	ii_read_lock_parent(dir);
++	h_dir = au_h_iptr(dir, bindex);
++	ii_read_unlock(dir);
++	if (unlikely(!h_dir))
++		goto out_parent;
++	h_parent = d_find_any_alias(h_dir);
++	if (unlikely(!h_parent))
++		goto out_hparent;
++
++	err = -EPERM;
++	br = au_sbr(sb, bindex);
++	h_sb = au_br_sb(br);
++	if (unlikely(!h_sb->s_export_op)) {
++		AuErr1("%s branch is not exportable\n", au_sbtype(h_sb));
++		goto out_hparent;
++	}
++
++	fh[Fh_br_id] = br->br_id;
++	fh[Fh_sigen] = au_sigen(sb);
++	encode_ino(fh + Fh_ino, inode->i_ino);
++	encode_ino(fh + Fh_dir_ino, dir->i_ino);
++	fh[Fh_igen] = inode->i_generation;
++
++	*max_len -= Fh_tail;
++	fh[Fh_h_type] = exportfs_encode_fh(h_parent, (void *)(fh + Fh_tail),
++					   max_len,
++					   /*connectable or subtreecheck*/0);
++	err = fh[Fh_h_type];
++	*max_len += Fh_tail;
++	/* todo: macros? */
++	if (err != FILEID_INVALID)
++		err = 99;
++	else
++		AuWarn1("%s encode_fh failed\n", au_sbtype(h_sb));
++
++out_hparent:
++	dput(h_parent);
++out_parent:
++	dput(parent);
++out_unlock:
++	ii_read_unlock(inode);
++	si_read_unlock(sb);
++out:
++	if (unlikely(err < 0))
++		err = FILEID_INVALID;
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int aufs_commit_metadata(struct inode *inode)
++{
++	int err;
++	aufs_bindex_t bindex;
++	struct super_block *sb;
++	struct inode *h_inode;
++	int (*f)(struct inode *inode);
++
++	sb = inode->i_sb;
++	si_read_lock(sb, AuLock_FLUSH | AuLock_NOPLMW);
++	ii_write_lock_child(inode);
++	bindex = au_ibtop(inode);
++	AuDebugOn(bindex < 0);
++	h_inode = au_h_iptr(inode, bindex);
++
++	f = h_inode->i_sb->s_export_op->commit_metadata;
++	if (f)
++		err = f(h_inode);
++	else {
++		struct writeback_control wbc = {
++			.sync_mode	= WB_SYNC_ALL,
++			.nr_to_write	= 0 /* metadata only */
++		};
++
++		err = sync_inode(h_inode, &wbc);
++	}
++
++	au_cpup_attr_timesizes(inode);
++	ii_write_unlock(inode);
++	si_read_unlock(sb);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static struct export_operations aufs_export_op = {
++	.fh_to_dentry		= aufs_fh_to_dentry,
++	/* .fh_to_parent	= aufs_fh_to_parent, */
++	.encode_fh		= aufs_encode_fh,
++	.commit_metadata	= aufs_commit_metadata
++};
++
++void au_export_init(struct super_block *sb)
++{
++	struct au_sbinfo *sbinfo;
++	__u32 u;
++
++	BUILD_BUG_ON_MSG(IS_BUILTIN(CONFIG_AUFS_FS)
++			 && IS_MODULE(CONFIG_EXPORTFS),
++			 AUFS_NAME ": unsupported configuration "
++			 "CONFIG_EXPORTFS=m and CONFIG_AUFS_FS=y");
++
++	sb->s_export_op = &aufs_export_op;
++	sbinfo = au_sbi(sb);
++	sbinfo->si_xigen = NULL;
++	get_random_bytes(&u, sizeof(u));
++	BUILD_BUG_ON(sizeof(u) != sizeof(int));
++	atomic_set(&sbinfo->si_xigen_next, u);
++}
+diff --git a/fs/aufs/f_op.c b/fs/aufs/f_op.c
+new file mode 100755
+index 0000000..bf9f7bb
+--- /dev/null
++++ b/fs/aufs/f_op.c
+@@ -0,0 +1,817 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * file and vm operations
++ */
++
++#include <linux/aio.h>
++#include <linux/fs_stack.h>
++#include <linux/mman.h>
++#include <linux/security.h>
++#include "aufs.h"
++
++int au_do_open_nondir(struct file *file, int flags, struct file *h_file)
++{
++	int err;
++	aufs_bindex_t bindex;
++	struct dentry *dentry, *h_dentry;
++	struct au_finfo *finfo;
++	struct inode *h_inode;
++
++	FiMustWriteLock(file);
++
++	err = 0;
++	dentry = file->f_path.dentry;
++	AuDebugOn(IS_ERR_OR_NULL(dentry));
++	finfo = au_fi(file);
++	memset(&finfo->fi_htop, 0, sizeof(finfo->fi_htop));
++	atomic_set(&finfo->fi_mmapped, 0);
++	bindex = au_dbtop(dentry);
++	if (!h_file) {
++		h_dentry = au_h_dptr(dentry, bindex);
++		err = vfsub_test_mntns(file->f_path.mnt, h_dentry->d_sb);
++		if (unlikely(err))
++			goto out;
++		h_file = au_h_open(dentry, bindex, flags, file, /*force_wr*/0);
++	} else {
++		h_dentry = h_file->f_path.dentry;
++		err = vfsub_test_mntns(file->f_path.mnt, h_dentry->d_sb);
++		if (unlikely(err))
++			goto out;
++		get_file(h_file);
++	}
++	if (IS_ERR(h_file))
++		err = PTR_ERR(h_file);
++	else {
++		if ((flags & __O_TMPFILE)
++		    && !(flags & O_EXCL)) {
++			h_inode = file_inode(h_file);
++			spin_lock(&h_inode->i_lock);
++			h_inode->i_state |= I_LINKABLE;
++			spin_unlock(&h_inode->i_lock);
++		}
++		au_set_fbtop(file, bindex);
++		au_set_h_fptr(file, bindex, h_file);
++		au_update_figen(file);
++		/* todo: necessary? */
++		/* file->f_ra = h_file->f_ra; */
++	}
++
++out:
++	return err;
++}
++
++static int aufs_open_nondir(struct inode *inode __maybe_unused,
++			    struct file *file)
++{
++	int err;
++	struct super_block *sb;
++	struct au_do_open_args args = {
++		.open	= au_do_open_nondir
++	};
++
++	AuDbg("%pD, f_flags 0x%x, f_mode 0x%x\n",
++	      file, vfsub_file_flags(file), file->f_mode);
++
++	sb = file->f_path.dentry->d_sb;
++	si_read_lock(sb, AuLock_FLUSH);
++	err = au_do_open(file, &args);
++	si_read_unlock(sb);
++	return err;
++}
++
++int aufs_release_nondir(struct inode *inode __maybe_unused, struct file *file)
++{
++	struct au_finfo *finfo;
++	aufs_bindex_t bindex;
++
++	finfo = au_fi(file);
++	au_sphl_del(&finfo->fi_hlist,
++		    &au_sbi(file->f_path.dentry->d_sb)->si_files);
++	bindex = finfo->fi_btop;
++	if (bindex >= 0)
++		au_set_h_fptr(file, bindex, NULL);
++
++	au_finfo_fin(file);
++	return 0;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int au_do_flush_nondir(struct file *file, fl_owner_t id)
++{
++	int err;
++	struct file *h_file;
++
++	err = 0;
++	h_file = au_hf_top(file);
++	if (h_file)
++		err = vfsub_flush(h_file, id);
++	return err;
++}
++
++static int aufs_flush_nondir(struct file *file, fl_owner_t id)
++{
++	return au_do_flush(file, id, au_do_flush_nondir);
++}
++
++/* ---------------------------------------------------------------------- */
++/*
++ * read and write functions acquire [fdi]_rwsem once, but release before
++ * mmap_sem. This is because to stop a race condition between mmap(2).
++ * Releasing these aufs-rwsem should be safe, no branch-mamagement (by keeping
++ * si_rwsem), no harmful copy-up should happen. Actually copy-up may happen in
++ * read functions after [fdi]_rwsem are released, but it should be harmless.
++ */
++
++/* Callers should call au_read_post() or fput() in the end */
++struct file *au_read_pre(struct file *file, int keep_fi, unsigned int lsc)
++{
++	struct file *h_file;
++	int err;
++
++	err = au_reval_and_lock_fdi(file, au_reopen_nondir, /*wlock*/0, lsc);
++	if (!err) {
++		di_read_unlock(file->f_path.dentry, AuLock_IR);
++		h_file = au_hf_top(file);
++		get_file(h_file);
++		if (!keep_fi)
++			fi_read_unlock(file);
++	} else
++		h_file = ERR_PTR(err);
++
++	return h_file;
++}
++
++static void au_read_post(struct inode *inode, struct file *h_file)
++{
++	/* update without lock, I don't think it a problem */
++	fsstack_copy_attr_atime(inode, file_inode(h_file));
++	fput(h_file);
++}
++
++struct au_write_pre {
++	/* input */
++	unsigned int lsc;
++
++	/* output */
++	blkcnt_t blks;
++	aufs_bindex_t btop;
++};
++
++/*
++ * return with iinfo is write-locked
++ * callers should call au_write_post() or iinfo_write_unlock() + fput() in the
++ * end
++ */
++static struct file *au_write_pre(struct file *file, int do_ready,
++				 struct au_write_pre *wpre)
++{
++	struct file *h_file;
++	struct dentry *dentry;
++	int err;
++	unsigned int lsc;
++	struct au_pin pin;
++
++	lsc = 0;
++	if (wpre)
++		lsc = wpre->lsc;
++	err = au_reval_and_lock_fdi(file, au_reopen_nondir, /*wlock*/1, lsc);
++	h_file = ERR_PTR(err);
++	if (unlikely(err))
++		goto out;
++
++	dentry = file->f_path.dentry;
++	if (do_ready) {
++		err = au_ready_to_write(file, -1, &pin);
++		if (unlikely(err)) {
++			h_file = ERR_PTR(err);
++			di_write_unlock(dentry);
++			goto out_fi;
++		}
++	}
++
++	di_downgrade_lock(dentry, /*flags*/0);
++	if (wpre)
++		wpre->btop = au_fbtop(file);
++	h_file = au_hf_top(file);
++	get_file(h_file);
++	if (wpre)
++		wpre->blks = file_inode(h_file)->i_blocks;
++	if (do_ready)
++		au_unpin(&pin);
++	di_read_unlock(dentry, /*flags*/0);
++
++out_fi:
++	fi_write_unlock(file);
++out:
++	return h_file;
++}
++
++static void au_write_post(struct inode *inode, struct file *h_file,
++			  struct au_write_pre *wpre, ssize_t written)
++{
++	struct inode *h_inode;
++
++	au_cpup_attr_timesizes(inode);
++	AuDebugOn(au_ibtop(inode) != wpre->btop);
++	h_inode = file_inode(h_file);
++	inode->i_mode = h_inode->i_mode;
++	ii_write_unlock(inode);
++	/* AuDbg("blks %llu, %llu\n", (u64)blks, (u64)h_inode->i_blocks); */
++	if (written > 0)
++		au_fhsm_wrote(inode->i_sb, wpre->btop,
++			      /*force*/h_inode->i_blocks > wpre->blks);
++	fput(h_file);
++}
++
++static ssize_t aufs_read(struct file *file, char __user *buf, size_t count,
++			 loff_t *ppos)
++{
++	ssize_t err;
++	struct inode *inode;
++	struct file *h_file;
++	struct super_block *sb;
++
++	inode = file_inode(file);
++	sb = inode->i_sb;
++	si_read_lock(sb, AuLock_FLUSH | AuLock_NOPLMW);
++
++	h_file = au_read_pre(file, /*keep_fi*/0, /*lsc*/0);
++	err = PTR_ERR(h_file);
++	if (IS_ERR(h_file))
++		goto out;
++
++	/* filedata may be obsoleted by concurrent copyup, but no problem */
++	err = vfsub_read_u(h_file, buf, count, ppos);
++	/* todo: necessary? */
++	/* file->f_ra = h_file->f_ra; */
++	au_read_post(inode, h_file);
++
++out:
++	si_read_unlock(sb);
++	return err;
++}
++
++/*
++ * todo: very ugly
++ * it locks both of i_mutex and si_rwsem for read in safe.
++ * if the plink maintenance mode continues forever (that is the problem),
++ * may loop forever.
++ */
++static void au_mtx_and_read_lock(struct inode *inode)
++{
++	int err;
++	struct super_block *sb = inode->i_sb;
++
++	while (1) {
++		inode_lock(inode);
++		err = si_read_lock(sb, AuLock_FLUSH | AuLock_NOPLM);
++		if (!err)
++			break;
++		inode_unlock(inode);
++		si_read_lock(sb, AuLock_NOPLMW);
++		si_read_unlock(sb);
++	}
++}
++
++static ssize_t aufs_write(struct file *file, const char __user *ubuf,
++			  size_t count, loff_t *ppos)
++{
++	ssize_t err;
++	struct au_write_pre wpre;
++	struct inode *inode;
++	struct file *h_file;
++	char __user *buf = (char __user *)ubuf;
++
++	inode = file_inode(file);
++	au_mtx_and_read_lock(inode);
++
++	wpre.lsc = 0;
++	h_file = au_write_pre(file, /*do_ready*/1, &wpre);
++	err = PTR_ERR(h_file);
++	if (IS_ERR(h_file))
++		goto out;
++
++	err = vfsub_write_u(h_file, buf, count, ppos);
++	au_write_post(inode, h_file, &wpre, err);
++
++out:
++	si_read_unlock(inode->i_sb);
++	inode_unlock(inode);
++	return err;
++}
++
++static ssize_t au_do_iter(struct file *h_file, int rw, struct kiocb *kio,
++			  struct iov_iter *iov_iter)
++{
++	ssize_t err;
++	struct file *file;
++	ssize_t (*iter)(struct kiocb *, struct iov_iter *);
++
++	err = security_file_permission(h_file, rw);
++	if (unlikely(err))
++		goto out;
++
++	err = -ENOSYS;
++	iter = NULL;
++	if (rw == MAY_READ)
++		iter = h_file->f_op->read_iter;
++	else if (rw == MAY_WRITE)
++		iter = h_file->f_op->write_iter;
++
++	file = kio->ki_filp;
++	kio->ki_filp = h_file;
++	if (iter) {
++		lockdep_off();
++		err = iter(kio, iov_iter);
++		lockdep_on();
++	} else
++		/* currently there is no such fs */
++		WARN_ON_ONCE(1);
++	kio->ki_filp = file;
++
++out:
++	return err;
++}
++
++static ssize_t aufs_read_iter(struct kiocb *kio, struct iov_iter *iov_iter)
++{
++	ssize_t err;
++	struct file *file, *h_file;
++	struct inode *inode;
++	struct super_block *sb;
++
++	file = kio->ki_filp;
++	inode = file_inode(file);
++	sb = inode->i_sb;
++	si_read_lock(sb, AuLock_FLUSH | AuLock_NOPLMW);
++
++	h_file = au_read_pre(file, /*keep_fi*/1, /*lsc*/0);
++	err = PTR_ERR(h_file);
++	if (IS_ERR(h_file))
++		goto out;
++
++	if (au_test_loopback_kthread()) {
++		au_warn_loopback(h_file->f_path.dentry->d_sb);
++		if (file->f_mapping != h_file->f_mapping) {
++			file->f_mapping = h_file->f_mapping;
++			smp_mb(); /* unnecessary? */
++		}
++	}
++	fi_read_unlock(file);
++
++	err = au_do_iter(h_file, MAY_READ, kio, iov_iter);
++	/* todo: necessary? */
++	/* file->f_ra = h_file->f_ra; */
++	au_read_post(inode, h_file);
++
++out:
++	si_read_unlock(sb);
++	return err;
++}
++
++static ssize_t aufs_write_iter(struct kiocb *kio, struct iov_iter *iov_iter)
++{
++	ssize_t err;
++	struct au_write_pre wpre;
++	struct inode *inode;
++	struct file *file, *h_file;
++
++	file = kio->ki_filp;
++	inode = file_inode(file);
++	au_mtx_and_read_lock(inode);
++
++	wpre.lsc = 0;
++	h_file = au_write_pre(file, /*do_ready*/1, &wpre);
++	err = PTR_ERR(h_file);
++	if (IS_ERR(h_file))
++		goto out;
++
++	err = au_do_iter(h_file, MAY_WRITE, kio, iov_iter);
++	au_write_post(inode, h_file, &wpre, err);
++
++out:
++	si_read_unlock(inode->i_sb);
++	inode_unlock(inode);
++	return err;
++}
++
++static ssize_t aufs_splice_read(struct file *file, loff_t *ppos,
++				struct pipe_inode_info *pipe, size_t len,
++				unsigned int flags)
++{
++	ssize_t err;
++	struct file *h_file;
++	struct inode *inode;
++	struct super_block *sb;
++
++	inode = file_inode(file);
++	sb = inode->i_sb;
++	si_read_lock(sb, AuLock_FLUSH | AuLock_NOPLMW);
++
++	h_file = au_read_pre(file, /*keep_fi*/0, /*lsc*/0);
++	err = PTR_ERR(h_file);
++	if (IS_ERR(h_file))
++		goto out;
++
++	err = vfsub_splice_to(h_file, ppos, pipe, len, flags);
++	/* todo: necessasry? */
++	/* file->f_ra = h_file->f_ra; */
++	au_read_post(inode, h_file);
++
++out:
++	si_read_unlock(sb);
++	return err;
++}
++
++static ssize_t
++aufs_splice_write(struct pipe_inode_info *pipe, struct file *file, loff_t *ppos,
++		  size_t len, unsigned int flags)
++{
++	ssize_t err;
++	struct au_write_pre wpre;
++	struct inode *inode;
++	struct file *h_file;
++
++	inode = file_inode(file);
++	au_mtx_and_read_lock(inode);
++
++	wpre.lsc = 0;
++	h_file = au_write_pre(file, /*do_ready*/1, &wpre);
++	err = PTR_ERR(h_file);
++	if (IS_ERR(h_file))
++		goto out;
++
++	err = vfsub_splice_from(pipe, h_file, ppos, len, flags);
++	au_write_post(inode, h_file, &wpre, err);
++
++out:
++	si_read_unlock(inode->i_sb);
++	inode_unlock(inode);
++	return err;
++}
++
++static long aufs_fallocate(struct file *file, int mode, loff_t offset,
++			   loff_t len)
++{
++	long err;
++	struct au_write_pre wpre;
++	struct inode *inode;
++	struct file *h_file;
++
++	inode = file_inode(file);
++	au_mtx_and_read_lock(inode);
++
++	wpre.lsc = 0;
++	h_file = au_write_pre(file, /*do_ready*/1, &wpre);
++	err = PTR_ERR(h_file);
++	if (IS_ERR(h_file))
++		goto out;
++
++	lockdep_off();
++	err = vfs_fallocate(h_file, mode, offset, len);
++	lockdep_on();
++	au_write_post(inode, h_file, &wpre, /*written*/1);
++
++out:
++	si_read_unlock(inode->i_sb);
++	inode_unlock(inode);
++	return err;
++}
++
++static ssize_t aufs_copy_file_range(struct file *src, loff_t src_pos,
++				    struct file *dst, loff_t dst_pos,
++				    size_t len, unsigned int flags)
++{
++	ssize_t err;
++	struct au_write_pre wpre;
++	enum { SRC, DST };
++	struct {
++		struct inode *inode;
++		struct file *h_file;
++		struct super_block *h_sb;
++	} a[2];
++#define a_src	a[SRC]
++#define a_dst	a[DST]
++
++	err = -EINVAL;
++	a_src.inode = file_inode(src);
++	if (unlikely(!S_ISREG(a_src.inode->i_mode)))
++		goto out;
++	a_dst.inode = file_inode(dst);
++	if (unlikely(!S_ISREG(a_dst.inode->i_mode)))
++		goto out;
++
++	au_mtx_and_read_lock(a_dst.inode);
++	/*
++	 * in order to match the order in di_write_lock2_{child,parent}(),
++	 * use f_path.dentry for this comparision.
++	 */
++	if (src->f_path.dentry < dst->f_path.dentry) {
++		a_src.h_file = au_read_pre(src, /*keep_fi*/1, AuLsc_FI_1);
++		err = PTR_ERR(a_src.h_file);
++		if (IS_ERR(a_src.h_file))
++			goto out_si;
++
++		wpre.lsc = AuLsc_FI_2;
++		a_dst.h_file = au_write_pre(dst, /*do_ready*/1, &wpre);
++		err = PTR_ERR(a_dst.h_file);
++		if (IS_ERR(a_dst.h_file)) {
++			au_read_post(a_src.inode, a_src.h_file);
++			goto out_si;
++		}
++	} else {
++		wpre.lsc = AuLsc_FI_1;
++		a_dst.h_file = au_write_pre(dst, /*do_ready*/1, &wpre);
++		err = PTR_ERR(a_dst.h_file);
++		if (IS_ERR(a_dst.h_file))
++			goto out_si;
++
++		a_src.h_file = au_read_pre(src, /*keep_fi*/1, AuLsc_FI_2);
++		err = PTR_ERR(a_src.h_file);
++		if (IS_ERR(a_src.h_file)) {
++			au_write_post(a_dst.inode, a_dst.h_file, &wpre,
++				      /*written*/0);
++			goto out_si;
++		}
++	}
++
++	err = -EXDEV;
++	a_src.h_sb = file_inode(a_src.h_file)->i_sb;
++	a_dst.h_sb = file_inode(a_dst.h_file)->i_sb;
++	if (unlikely(a_src.h_sb != a_dst.h_sb)) {
++		AuDbgFile(src);
++		AuDbgFile(dst);
++		goto out_file;
++	}
++
++	err = vfsub_copy_file_range(a_src.h_file, src_pos, a_dst.h_file,
++				    dst_pos, len, flags);
++
++out_file:
++	au_write_post(a_dst.inode, a_dst.h_file, &wpre, err);
++	fi_read_unlock(src);
++	au_read_post(a_src.inode, a_src.h_file);
++out_si:
++	si_read_unlock(a_dst.inode->i_sb);
++	inode_unlock(a_dst.inode);
++out:
++	return err;
++#undef a_src
++#undef a_dst
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * The locking order around current->mmap_sem.
++ * - in most and regular cases
++ *   file I/O syscall -- aufs_read() or something
++ *	-- si_rwsem for read -- mmap_sem
++ *	(Note that [fdi]i_rwsem are released before mmap_sem).
++ * - in mmap case
++ *   mmap(2) -- mmap_sem -- aufs_mmap() -- si_rwsem for read -- [fdi]i_rwsem
++ * This AB-BA order is definitly bad, but is not a problem since "si_rwsem for
++ * read" allows muliple processes to acquire it and [fdi]i_rwsem are not held in
++ * file I/O. Aufs needs to stop lockdep in aufs_mmap() though.
++ * It means that when aufs acquires si_rwsem for write, the process should never
++ * acquire mmap_sem.
++ *
++ * Actually aufs_iterate() holds [fdi]i_rwsem before mmap_sem, but this is not a
++ * problem either since any directory is not able to be mmap-ed.
++ * The similar scenario is applied to aufs_readlink() too.
++ */
++
++#if 0 /* stop calling security_file_mmap() */
++/* cf. linux/include/linux/mman.h: calc_vm_prot_bits() */
++#define AuConv_VM_PROT(f, b)	_calc_vm_trans(f, VM_##b, PROT_##b)
++
++static unsigned long au_arch_prot_conv(unsigned long flags)
++{
++	/* currently ppc64 only */
++#ifdef CONFIG_PPC64
++	/* cf. linux/arch/powerpc/include/asm/mman.h */
++	AuDebugOn(arch_calc_vm_prot_bits(-1) != VM_SAO);
++	return AuConv_VM_PROT(flags, SAO);
++#else
++	AuDebugOn(arch_calc_vm_prot_bits(-1));
++	return 0;
++#endif
++}
++
++static unsigned long au_prot_conv(unsigned long flags)
++{
++	return AuConv_VM_PROT(flags, READ)
++		| AuConv_VM_PROT(flags, WRITE)
++		| AuConv_VM_PROT(flags, EXEC)
++		| au_arch_prot_conv(flags);
++}
++
++/* cf. linux/include/linux/mman.h: calc_vm_flag_bits() */
++#define AuConv_VM_MAP(f, b)	_calc_vm_trans(f, VM_##b, MAP_##b)
++
++static unsigned long au_flag_conv(unsigned long flags)
++{
++	return AuConv_VM_MAP(flags, GROWSDOWN)
++		| AuConv_VM_MAP(flags, DENYWRITE)
++		| AuConv_VM_MAP(flags, LOCKED);
++}
++#endif
++
++static int aufs_mmap(struct file *file, struct vm_area_struct *vma)
++{
++	int err;
++	const unsigned char wlock
++		= (file->f_mode & FMODE_WRITE) && (vma->vm_flags & VM_SHARED);
++	struct super_block *sb;
++	struct file *h_file;
++	struct inode *inode;
++
++	AuDbgVmRegion(file, vma);
++
++	inode = file_inode(file);
++	sb = inode->i_sb;
++	lockdep_off();
++	si_read_lock(sb, AuLock_NOPLMW);
++
++	h_file = au_write_pre(file, wlock, /*wpre*/NULL);
++	lockdep_on();
++	err = PTR_ERR(h_file);
++	if (IS_ERR(h_file))
++		goto out;
++
++	err = 0;
++	au_set_mmapped(file);
++	au_vm_file_reset(vma, h_file);
++	/*
++	 * we cannot call security_mmap_file() here since it may acquire
++	 * mmap_sem or i_mutex.
++	 *
++	 * err = security_mmap_file(h_file, au_prot_conv(vma->vm_flags),
++	 *			 au_flag_conv(vma->vm_flags));
++	 */
++	if (!err)
++		err = call_mmap(h_file, vma);
++	if (!err) {
++		au_vm_prfile_set(vma, file);
++		fsstack_copy_attr_atime(inode, file_inode(h_file));
++		goto out_fput; /* success */
++	}
++	au_unset_mmapped(file);
++	au_vm_file_reset(vma, file);
++
++out_fput:
++	lockdep_off();
++	ii_write_unlock(inode);
++	lockdep_on();
++	fput(h_file);
++out:
++	lockdep_off();
++	si_read_unlock(sb);
++	lockdep_on();
++	AuTraceErr(err);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int aufs_fsync_nondir(struct file *file, loff_t start, loff_t end,
++			     int datasync)
++{
++	int err;
++	struct au_write_pre wpre;
++	struct inode *inode;
++	struct file *h_file;
++
++	err = 0; /* -EBADF; */ /* posix? */
++	if (unlikely(!(file->f_mode & FMODE_WRITE)))
++		goto out;
++
++	inode = file_inode(file);
++	au_mtx_and_read_lock(inode);
++
++	wpre.lsc = 0;
++	h_file = au_write_pre(file, /*do_ready*/1, &wpre);
++	err = PTR_ERR(h_file);
++	if (IS_ERR(h_file))
++		goto out_unlock;
++
++	err = vfsub_fsync(h_file, &h_file->f_path, datasync);
++	au_write_post(inode, h_file, &wpre, /*written*/0);
++
++out_unlock:
++	si_read_unlock(inode->i_sb);
++	inode_unlock(inode);
++out:
++	return err;
++}
++
++static int aufs_fasync(int fd, struct file *file, int flag)
++{
++	int err;
++	struct file *h_file;
++	struct super_block *sb;
++
++	sb = file->f_path.dentry->d_sb;
++	si_read_lock(sb, AuLock_FLUSH | AuLock_NOPLMW);
++
++	h_file = au_read_pre(file, /*keep_fi*/0, /*lsc*/0);
++	err = PTR_ERR(h_file);
++	if (IS_ERR(h_file))
++		goto out;
++
++	if (h_file->f_op->fasync)
++		err = h_file->f_op->fasync(fd, h_file, flag);
++	fput(h_file); /* instead of au_read_post() */
++
++out:
++	si_read_unlock(sb);
++	return err;
++}
++
++static int aufs_setfl(struct file *file, unsigned long arg)
++{
++	int err;
++	struct file *h_file;
++	struct super_block *sb;
++
++	sb = file->f_path.dentry->d_sb;
++	si_read_lock(sb, AuLock_FLUSH | AuLock_NOPLMW);
++
++	h_file = au_read_pre(file, /*keep_fi*/0, /*lsc*/0);
++	err = PTR_ERR(h_file);
++	if (IS_ERR(h_file))
++		goto out;
++
++	/* stop calling h_file->fasync */
++	arg |= vfsub_file_flags(file) & FASYNC;
++	err = setfl(/*unused fd*/-1, h_file, arg);
++	fput(h_file); /* instead of au_read_post() */
++
++out:
++	si_read_unlock(sb);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* no one supports this operation, currently */
++#if 0
++static ssize_t aufs_sendpage(struct file *file, struct page *page, int offset,
++			     size_t len, loff_t *pos, int more)
++{
++}
++#endif
++
++/* ---------------------------------------------------------------------- */
++
++const struct file_operations aufs_file_fop = {
++	.owner		= THIS_MODULE,
++
++	.llseek		= default_llseek,
++
++	.read		= aufs_read,
++	.write		= aufs_write,
++	.read_iter	= aufs_read_iter,
++	.write_iter	= aufs_write_iter,
++
++#ifdef CONFIG_AUFS_POLL
++	.poll		= aufs_poll,
++#endif
++	.unlocked_ioctl	= aufs_ioctl_nondir,
++#ifdef CONFIG_COMPAT
++	.compat_ioctl	= aufs_compat_ioctl_nondir,
++#endif
++	.mmap		= aufs_mmap,
++	.open		= aufs_open_nondir,
++	.flush		= aufs_flush_nondir,
++	.release	= aufs_release_nondir,
++	.fsync		= aufs_fsync_nondir,
++	.fasync		= aufs_fasync,
++	/* .sendpage	= aufs_sendpage, */
++	.setfl		= aufs_setfl,
++	.splice_write	= aufs_splice_write,
++	.splice_read	= aufs_splice_read,
++#if 0
++	.aio_splice_write = aufs_aio_splice_write,
++	.aio_splice_read  = aufs_aio_splice_read,
++#endif
++	.fallocate	= aufs_fallocate,
++	.copy_file_range = aufs_copy_file_range
++};
+diff --git a/fs/aufs/fhsm.c b/fs/aufs/fhsm.c
+new file mode 100755
+index 0000000..ef6f99e
+--- /dev/null
++++ b/fs/aufs/fhsm.c
+@@ -0,0 +1,426 @@
++/*
++ * Copyright (C) 2011-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
++ */
++
++/*
++ * File-based Hierarchy Storage Management
++ */
++
++#include <linux/anon_inodes.h>
++#include <linux/poll.h>
++#include <linux/seq_file.h>
++#include <linux/statfs.h>
++#include "aufs.h"
++
++static aufs_bindex_t au_fhsm_bottom(struct super_block *sb)
++{
++	struct au_sbinfo *sbinfo;
++	struct au_fhsm *fhsm;
++
++	SiMustAnyLock(sb);
++
++	sbinfo = au_sbi(sb);
++	fhsm = &sbinfo->si_fhsm;
++	AuDebugOn(!fhsm);
++	return fhsm->fhsm_bottom;
++}
++
++void au_fhsm_set_bottom(struct super_block *sb, aufs_bindex_t bindex)
++{
++	struct au_sbinfo *sbinfo;
++	struct au_fhsm *fhsm;
++
++	SiMustWriteLock(sb);
++
++	sbinfo = au_sbi(sb);
++	fhsm = &sbinfo->si_fhsm;
++	AuDebugOn(!fhsm);
++	fhsm->fhsm_bottom = bindex;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int au_fhsm_test_jiffy(struct au_sbinfo *sbinfo, struct au_branch *br)
++{
++	struct au_br_fhsm *bf;
++
++	bf = br->br_fhsm;
++	MtxMustLock(&bf->bf_lock);
++
++	return !bf->bf_readable
++		|| time_after(jiffies,
++			      bf->bf_jiffy + sbinfo->si_fhsm.fhsm_expire);
++}
++
++/* ---------------------------------------------------------------------- */
++
++static void au_fhsm_notify(struct super_block *sb, int val)
++{
++	struct au_sbinfo *sbinfo;
++	struct au_fhsm *fhsm;
++
++	SiMustAnyLock(sb);
++
++	sbinfo = au_sbi(sb);
++	fhsm = &sbinfo->si_fhsm;
++	if (au_fhsm_pid(fhsm)
++	    && atomic_read(&fhsm->fhsm_readable) != -1) {
++		atomic_set(&fhsm->fhsm_readable, val);
++		if (val)
++			wake_up(&fhsm->fhsm_wqh);
++	}
++}
++
++static int au_fhsm_stfs(struct super_block *sb, aufs_bindex_t bindex,
++			struct aufs_stfs *rstfs, int do_lock, int do_notify)
++{
++	int err;
++	struct au_branch *br;
++	struct au_br_fhsm *bf;
++
++	br = au_sbr(sb, bindex);
++	AuDebugOn(au_br_rdonly(br));
++	bf = br->br_fhsm;
++	AuDebugOn(!bf);
++
++	if (do_lock)
++		mutex_lock(&bf->bf_lock);
++	else
++		MtxMustLock(&bf->bf_lock);
++
++	/* sb->s_root for NFS is unreliable */
++	err = au_br_stfs(br, &bf->bf_stfs);
++	if (unlikely(err)) {
++		AuErr1("FHSM failed (%d), b%d, ignored.\n", bindex, err);
++		goto out;
++	}
++
++	bf->bf_jiffy = jiffies;
++	bf->bf_readable = 1;
++	if (do_notify)
++		au_fhsm_notify(sb, /*val*/1);
++	if (rstfs)
++		*rstfs = bf->bf_stfs;
++
++out:
++	if (do_lock)
++		mutex_unlock(&bf->bf_lock);
++	au_fhsm_notify(sb, /*val*/1);
++
++	return err;
++}
++
++void au_fhsm_wrote(struct super_block *sb, aufs_bindex_t bindex, int force)
++{
++	int err;
++	struct au_sbinfo *sbinfo;
++	struct au_fhsm *fhsm;
++	struct au_branch *br;
++	struct au_br_fhsm *bf;
++
++	AuDbg("b%d, force %d\n", bindex, force);
++	SiMustAnyLock(sb);
++
++	sbinfo = au_sbi(sb);
++	fhsm = &sbinfo->si_fhsm;
++	if (!au_ftest_si(sbinfo, FHSM)
++	    || fhsm->fhsm_bottom == bindex)
++		return;
++
++	br = au_sbr(sb, bindex);
++	bf = br->br_fhsm;
++	AuDebugOn(!bf);
++	mutex_lock(&bf->bf_lock);
++	if (force
++	    || au_fhsm_pid(fhsm)
++	    || au_fhsm_test_jiffy(sbinfo, br))
++		err = au_fhsm_stfs(sb, bindex, /*rstfs*/NULL, /*do_lock*/0,
++				  /*do_notify*/1);
++	mutex_unlock(&bf->bf_lock);
++}
++
++void au_fhsm_wrote_all(struct super_block *sb, int force)
++{
++	aufs_bindex_t bindex, bbot;
++	struct au_branch *br;
++
++	/* exclude the bottom */
++	bbot = au_fhsm_bottom(sb);
++	for (bindex = 0; bindex < bbot; bindex++) {
++		br = au_sbr(sb, bindex);
++		if (au_br_fhsm(br->br_perm))
++			au_fhsm_wrote(sb, bindex, force);
++	}
++}
++
++/* ---------------------------------------------------------------------- */
++
++static unsigned int au_fhsm_poll(struct file *file,
++				 struct poll_table_struct *wait)
++{
++	unsigned int mask;
++	struct au_sbinfo *sbinfo;
++	struct au_fhsm *fhsm;
++
++	mask = 0;
++	sbinfo = file->private_data;
++	fhsm = &sbinfo->si_fhsm;
++	poll_wait(file, &fhsm->fhsm_wqh, wait);
++	if (atomic_read(&fhsm->fhsm_readable))
++		mask = POLLIN /* | POLLRDNORM */;
++
++	AuTraceErr((int)mask);
++	return mask;
++}
++
++static int au_fhsm_do_read_one(struct aufs_stbr __user *stbr,
++			      struct aufs_stfs *stfs, __s16 brid)
++{
++	int err;
++
++	err = copy_to_user(&stbr->stfs, stfs, sizeof(*stfs));
++	if (!err)
++		err = __put_user(brid, &stbr->brid);
++	if (unlikely(err))
++		err = -EFAULT;
++
++	return err;
++}
++
++static ssize_t au_fhsm_do_read(struct super_block *sb,
++			       struct aufs_stbr __user *stbr, size_t count)
++{
++	ssize_t err;
++	int nstbr;
++	aufs_bindex_t bindex, bbot;
++	struct au_branch *br;
++	struct au_br_fhsm *bf;
++
++	/* except the bottom branch */
++	err = 0;
++	nstbr = 0;
++	bbot = au_fhsm_bottom(sb);
++	for (bindex = 0; !err && bindex < bbot; bindex++) {
++		br = au_sbr(sb, bindex);
++		if (!au_br_fhsm(br->br_perm))
++			continue;
++
++		bf = br->br_fhsm;
++		mutex_lock(&bf->bf_lock);
++		if (bf->bf_readable) {
++			err = -EFAULT;
++			if (count >= sizeof(*stbr))
++				err = au_fhsm_do_read_one(stbr++, &bf->bf_stfs,
++							  br->br_id);
++			if (!err) {
++				bf->bf_readable = 0;
++				count -= sizeof(*stbr);
++				nstbr++;
++			}
++		}
++		mutex_unlock(&bf->bf_lock);
++	}
++	if (!err)
++		err = sizeof(*stbr) * nstbr;
++
++	return err;
++}
++
++static ssize_t au_fhsm_read(struct file *file, char __user *buf, size_t count,
++			   loff_t *pos)
++{
++	ssize_t err;
++	int readable;
++	aufs_bindex_t nfhsm, bindex, bbot;
++	struct au_sbinfo *sbinfo;
++	struct au_fhsm *fhsm;
++	struct au_branch *br;
++	struct super_block *sb;
++
++	err = 0;
++	sbinfo = file->private_data;
++	fhsm = &sbinfo->si_fhsm;
++need_data:
++	spin_lock_irq(&fhsm->fhsm_wqh.lock);
++	if (!atomic_read(&fhsm->fhsm_readable)) {
++		if (vfsub_file_flags(file) & O_NONBLOCK)
++			err = -EAGAIN;
++		else
++			err = wait_event_interruptible_locked_irq
++				(fhsm->fhsm_wqh,
++				 atomic_read(&fhsm->fhsm_readable));
++	}
++	spin_unlock_irq(&fhsm->fhsm_wqh.lock);
++	if (unlikely(err))
++		goto out;
++
++	/* sb may already be dead */
++	au_rw_read_lock(&sbinfo->si_rwsem);
++	readable = atomic_read(&fhsm->fhsm_readable);
++	if (readable > 0) {
++		sb = sbinfo->si_sb;
++		AuDebugOn(!sb);
++		/* exclude the bottom branch */
++		nfhsm = 0;
++		bbot = au_fhsm_bottom(sb);
++		for (bindex = 0; bindex < bbot; bindex++) {
++			br = au_sbr(sb, bindex);
++			if (au_br_fhsm(br->br_perm))
++				nfhsm++;
++		}
++		err = -EMSGSIZE;
++		if (nfhsm * sizeof(struct aufs_stbr) <= count) {
++			atomic_set(&fhsm->fhsm_readable, 0);
++			err = au_fhsm_do_read(sbinfo->si_sb, (void __user *)buf,
++					     count);
++		}
++	}
++	au_rw_read_unlock(&sbinfo->si_rwsem);
++	if (!readable)
++		goto need_data;
++
++out:
++	return err;
++}
++
++static int au_fhsm_release(struct inode *inode, struct file *file)
++{
++	struct au_sbinfo *sbinfo;
++	struct au_fhsm *fhsm;
++
++	/* sb may already be dead */
++	sbinfo = file->private_data;
++	fhsm = &sbinfo->si_fhsm;
++	spin_lock(&fhsm->fhsm_spin);
++	fhsm->fhsm_pid = 0;
++	spin_unlock(&fhsm->fhsm_spin);
++	kobject_put(&sbinfo->si_kobj);
++
++	return 0;
++}
++
++static const struct file_operations au_fhsm_fops = {
++	.owner		= THIS_MODULE,
++	.llseek		= noop_llseek,
++	.read		= au_fhsm_read,
++	.poll		= au_fhsm_poll,
++	.release	= au_fhsm_release
++};
++
++int au_fhsm_fd(struct super_block *sb, int oflags)
++{
++	int err, fd;
++	struct au_sbinfo *sbinfo;
++	struct au_fhsm *fhsm;
++
++	err = -EPERM;
++	if (unlikely(!capable(CAP_SYS_ADMIN)))
++		goto out;
++
++	err = -EINVAL;
++	if (unlikely(oflags & ~(O_CLOEXEC | O_NONBLOCK)))
++		goto out;
++
++	err = 0;
++	sbinfo = au_sbi(sb);
++	fhsm = &sbinfo->si_fhsm;
++	spin_lock(&fhsm->fhsm_spin);
++	if (!fhsm->fhsm_pid)
++		fhsm->fhsm_pid = current->pid;
++	else
++		err = -EBUSY;
++	spin_unlock(&fhsm->fhsm_spin);
++	if (unlikely(err))
++		goto out;
++
++	oflags |= O_RDONLY;
++	/* oflags |= FMODE_NONOTIFY; */
++	fd = anon_inode_getfd("[aufs_fhsm]", &au_fhsm_fops, sbinfo, oflags);
++	err = fd;
++	if (unlikely(fd < 0))
++		goto out_pid;
++
++	/* succeed reglardless 'fhsm' status */
++	kobject_get(&sbinfo->si_kobj);
++	si_noflush_read_lock(sb);
++	if (au_ftest_si(sbinfo, FHSM))
++		au_fhsm_wrote_all(sb, /*force*/0);
++	si_read_unlock(sb);
++	goto out; /* success */
++
++out_pid:
++	spin_lock(&fhsm->fhsm_spin);
++	fhsm->fhsm_pid = 0;
++	spin_unlock(&fhsm->fhsm_spin);
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++int au_fhsm_br_alloc(struct au_branch *br)
++{
++	int err;
++
++	err = 0;
++	br->br_fhsm = kmalloc(sizeof(*br->br_fhsm), GFP_NOFS);
++	if (br->br_fhsm)
++		au_br_fhsm_init(br->br_fhsm);
++	else
++		err = -ENOMEM;
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++void au_fhsm_fin(struct super_block *sb)
++{
++	au_fhsm_notify(sb, /*val*/-1);
++}
++
++void au_fhsm_init(struct au_sbinfo *sbinfo)
++{
++	struct au_fhsm *fhsm;
++
++	fhsm = &sbinfo->si_fhsm;
++	spin_lock_init(&fhsm->fhsm_spin);
++	init_waitqueue_head(&fhsm->fhsm_wqh);
++	atomic_set(&fhsm->fhsm_readable, 0);
++	fhsm->fhsm_expire
++		= msecs_to_jiffies(AUFS_FHSM_CACHE_DEF_SEC * MSEC_PER_SEC);
++	fhsm->fhsm_bottom = -1;
++}
++
++void au_fhsm_set(struct au_sbinfo *sbinfo, unsigned int sec)
++{
++	sbinfo->si_fhsm.fhsm_expire
++		= msecs_to_jiffies(sec * MSEC_PER_SEC);
++}
++
++void au_fhsm_show(struct seq_file *seq, struct au_sbinfo *sbinfo)
++{
++	unsigned int u;
++
++	if (!au_ftest_si(sbinfo, FHSM))
++		return;
++
++	u = jiffies_to_msecs(sbinfo->si_fhsm.fhsm_expire) / MSEC_PER_SEC;
++	if (u != AUFS_FHSM_CACHE_DEF_SEC)
++		seq_printf(seq, ",fhsm_sec=%u", u);
++}
+diff --git a/fs/aufs/file.c b/fs/aufs/file.c
+new file mode 100755
+index 0000000..daaecab
+--- /dev/null
++++ b/fs/aufs/file.c
+@@ -0,0 +1,858 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * handling file/dir, and address_space operation
++ */
++
++#ifdef CONFIG_AUFS_DEBUG
++#include <linux/migrate.h>
++#endif
++#include <linux/pagemap.h>
++#include "aufs.h"
++
++/* drop flags for writing */
++unsigned int au_file_roflags(unsigned int flags)
++{
++	flags &= ~(O_WRONLY | O_RDWR | O_APPEND | O_CREAT | O_TRUNC);
++	flags |= O_RDONLY | O_NOATIME;
++	return flags;
++}
++
++/* common functions to regular file and dir */
++struct file *au_h_open(struct dentry *dentry, aufs_bindex_t bindex, int flags,
++		       struct file *file, int force_wr)
++{
++	struct file *h_file;
++	struct dentry *h_dentry;
++	struct inode *h_inode;
++	struct super_block *sb;
++	struct au_branch *br;
++	struct path h_path;
++	int err;
++
++	/* a race condition can happen between open and unlink/rmdir */
++	h_file = ERR_PTR(-ENOENT);
++	h_dentry = au_h_dptr(dentry, bindex);
++	if (au_test_nfsd() && (!h_dentry || d_is_negative(h_dentry)))
++		goto out;
++	h_inode = d_inode(h_dentry);
++	spin_lock(&h_dentry->d_lock);
++	err = (!d_unhashed(dentry) && d_unlinked(h_dentry))
++		/* || !d_inode(dentry)->i_nlink */
++		;
++	spin_unlock(&h_dentry->d_lock);
++	if (unlikely(err))
++		goto out;
++
++	sb = dentry->d_sb;
++	br = au_sbr(sb, bindex);
++	err = au_br_test_oflag(flags, br);
++	h_file = ERR_PTR(err);
++	if (unlikely(err))
++		goto out;
++
++	/* drop flags for writing */
++	if (au_test_ro(sb, bindex, d_inode(dentry))) {
++		if (force_wr && !(flags & O_WRONLY))
++			force_wr = 0;
++		flags = au_file_roflags(flags);
++		if (force_wr) {
++			h_file = ERR_PTR(-EROFS);
++			flags = au_file_roflags(flags);
++			if (unlikely(vfsub_native_ro(h_inode)
++				     || IS_APPEND(h_inode)))
++				goto out;
++			flags &= ~O_ACCMODE;
++			flags |= O_WRONLY;
++		}
++	}
++	flags &= ~O_CREAT;
++	au_br_get(br);
++	h_path.dentry = h_dentry;
++	h_path.mnt = au_br_mnt(br);
++	h_file = vfsub_dentry_open(&h_path, flags);
++	if (IS_ERR(h_file))
++		goto out_br;
++
++	if (flags & __FMODE_EXEC) {
++		err = deny_write_access(h_file);
++		if (unlikely(err)) {
++			fput(h_file);
++			h_file = ERR_PTR(err);
++			goto out_br;
++		}
++	}
++	fsnotify_open(h_file);
++	goto out; /* success */
++
++out_br:
++	au_br_put(br);
++out:
++	return h_file;
++}
++
++static int au_cmoo(struct dentry *dentry)
++{
++	int err, cmoo;
++	unsigned int udba;
++	struct path h_path;
++	struct au_pin pin;
++	struct au_cp_generic cpg = {
++		.dentry	= dentry,
++		.bdst	= -1,
++		.bsrc	= -1,
++		.len	= -1,
++		.pin	= &pin,
++		.flags	= AuCpup_DTIME | AuCpup_HOPEN
++	};
++	struct inode *delegated;
++	struct super_block *sb;
++	struct au_sbinfo *sbinfo;
++	struct au_fhsm *fhsm;
++	pid_t pid;
++	struct au_branch *br;
++	struct dentry *parent;
++	struct au_hinode *hdir;
++
++	DiMustWriteLock(dentry);
++	IiMustWriteLock(d_inode(dentry));
++
++	err = 0;
++	if (IS_ROOT(dentry))
++		goto out;
++	cpg.bsrc = au_dbtop(dentry);
++	if (!cpg.bsrc)
++		goto out;
++
++	sb = dentry->d_sb;
++	sbinfo = au_sbi(sb);
++	fhsm = &sbinfo->si_fhsm;
++	pid = au_fhsm_pid(fhsm);
++	if (pid
++	    && (current->pid == pid
++		|| current->real_parent->pid == pid))
++		goto out;
++
++	br = au_sbr(sb, cpg.bsrc);
++	cmoo = au_br_cmoo(br->br_perm);
++	if (!cmoo)
++		goto out;
++	if (!d_is_reg(dentry))
++		cmoo &= AuBrAttr_COO_ALL;
++	if (!cmoo)
++		goto out;
++
++	parent = dget_parent(dentry);
++	di_write_lock_parent(parent);
++	err = au_wbr_do_copyup_bu(dentry, cpg.bsrc - 1);
++	cpg.bdst = err;
++	if (unlikely(err < 0)) {
++		err = 0;	/* there is no upper writable branch */
++		goto out_dgrade;
++	}
++	AuDbg("bsrc %d, bdst %d\n", cpg.bsrc, cpg.bdst);
++
++	/* do not respect the coo attrib for the target branch */
++	err = au_cpup_dirs(dentry, cpg.bdst);
++	if (unlikely(err))
++		goto out_dgrade;
++
++	di_downgrade_lock(parent, AuLock_IR);
++	udba = au_opt_udba(sb);
++	err = au_pin(&pin, dentry, cpg.bdst, udba,
++		     AuPin_DI_LOCKED | AuPin_MNT_WRITE);
++	if (unlikely(err))
++		goto out_parent;
++
++	err = au_sio_cpup_simple(&cpg);
++	au_unpin(&pin);
++	if (unlikely(err))
++		goto out_parent;
++	if (!(cmoo & AuBrWAttr_MOO))
++		goto out_parent; /* success */
++
++	err = au_pin(&pin, dentry, cpg.bsrc, udba,
++		     AuPin_DI_LOCKED | AuPin_MNT_WRITE);
++	if (unlikely(err))
++		goto out_parent;
++
++	h_path.mnt = au_br_mnt(br);
++	h_path.dentry = au_h_dptr(dentry, cpg.bsrc);
++	hdir = au_hi(d_inode(parent), cpg.bsrc);
++	delegated = NULL;
++	err = vfsub_unlink(hdir->hi_inode, &h_path, &delegated, /*force*/1);
++	au_unpin(&pin);
++	/* todo: keep h_dentry or not? */
++	if (unlikely(err == -EWOULDBLOCK)) {
++		pr_warn("cannot retry for NFSv4 delegation"
++			" for an internal unlink\n");
++		iput(delegated);
++	}
++	if (unlikely(err)) {
++		pr_err("unlink %pd after coo failed (%d), ignored\n",
++		       dentry, err);
++		err = 0;
++	}
++	goto out_parent; /* success */
++
++out_dgrade:
++	di_downgrade_lock(parent, AuLock_IR);
++out_parent:
++	di_read_unlock(parent, AuLock_IR);
++	dput(parent);
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++int au_do_open(struct file *file, struct au_do_open_args *args)
++{
++	int err, no_lock = args->no_lock;
++	struct dentry *dentry;
++	struct au_finfo *finfo;
++
++	if (!no_lock)
++		err = au_finfo_init(file, args->fidir);
++	else {
++		lockdep_off();
++		err = au_finfo_init(file, args->fidir);
++		lockdep_on();
++	}
++	if (unlikely(err))
++		goto out;
++
++	dentry = file->f_path.dentry;
++	AuDebugOn(IS_ERR_OR_NULL(dentry));
++	if (!no_lock) {
++		di_write_lock_child(dentry);
++		err = au_cmoo(dentry);
++		di_downgrade_lock(dentry, AuLock_IR);
++		if (!err)
++			err = args->open(file, vfsub_file_flags(file), NULL);
++		di_read_unlock(dentry, AuLock_IR);
++	} else {
++		err = au_cmoo(dentry);
++		if (!err)
++			err = args->open(file, vfsub_file_flags(file),
++					 args->h_file);
++		if (!err && au_fbtop(file) != au_dbtop(dentry))
++			/*
++			 * cmoo happens after h_file was opened.
++			 * need to refresh file later.
++			 */
++			atomic_dec(&au_fi(file)->fi_generation);
++	}
++
++	finfo = au_fi(file);
++	if (!err) {
++		finfo->fi_file = file;
++		au_sphl_add(&finfo->fi_hlist,
++			    &au_sbi(file->f_path.dentry->d_sb)->si_files);
++	}
++	if (!no_lock)
++		fi_write_unlock(file);
++	else {
++		lockdep_off();
++		fi_write_unlock(file);
++		lockdep_on();
++	}
++	if (unlikely(err)) {
++		finfo->fi_hdir = NULL;
++		au_finfo_fin(file);
++	}
++
++out:
++	return err;
++}
++
++int au_reopen_nondir(struct file *file)
++{
++	int err;
++	aufs_bindex_t btop;
++	struct dentry *dentry;
++	struct file *h_file, *h_file_tmp;
++
++	dentry = file->f_path.dentry;
++	btop = au_dbtop(dentry);
++	h_file_tmp = NULL;
++	if (au_fbtop(file) == btop) {
++		h_file = au_hf_top(file);
++		if (file->f_mode == h_file->f_mode)
++			return 0; /* success */
++		h_file_tmp = h_file;
++		get_file(h_file_tmp);
++		au_set_h_fptr(file, btop, NULL);
++	}
++	AuDebugOn(au_fi(file)->fi_hdir);
++	/*
++	 * it can happen
++	 * file exists on both of rw and ro
++	 * open --> dbtop and fbtop are both 0
++	 * prepend a branch as rw, "rw" become ro
++	 * remove rw/file
++	 * delete the top branch, "rw" becomes rw again
++	 *	--> dbtop is 1, fbtop is still 0
++	 * write --> fbtop is 0 but dbtop is 1
++	 */
++	/* AuDebugOn(au_fbtop(file) < btop); */
++
++	h_file = au_h_open(dentry, btop, vfsub_file_flags(file) & ~O_TRUNC,
++			   file, /*force_wr*/0);
++	err = PTR_ERR(h_file);
++	if (IS_ERR(h_file)) {
++		if (h_file_tmp) {
++			au_sbr_get(dentry->d_sb, btop);
++			au_set_h_fptr(file, btop, h_file_tmp);
++			h_file_tmp = NULL;
++		}
++		goto out; /* todo: close all? */
++	}
++
++	err = 0;
++	au_set_fbtop(file, btop);
++	au_set_h_fptr(file, btop, h_file);
++	au_update_figen(file);
++	/* todo: necessary? */
++	/* file->f_ra = h_file->f_ra; */
++
++out:
++	if (h_file_tmp)
++		fput(h_file_tmp);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int au_reopen_wh(struct file *file, aufs_bindex_t btgt,
++			struct dentry *hi_wh)
++{
++	int err;
++	aufs_bindex_t btop;
++	struct au_dinfo *dinfo;
++	struct dentry *h_dentry;
++	struct au_hdentry *hdp;
++
++	dinfo = au_di(file->f_path.dentry);
++	AuRwMustWriteLock(&dinfo->di_rwsem);
++
++	btop = dinfo->di_btop;
++	dinfo->di_btop = btgt;
++	hdp = au_hdentry(dinfo, btgt);
++	h_dentry = hdp->hd_dentry;
++	hdp->hd_dentry = hi_wh;
++	err = au_reopen_nondir(file);
++	hdp->hd_dentry = h_dentry;
++	dinfo->di_btop = btop;
++
++	return err;
++}
++
++static int au_ready_to_write_wh(struct file *file, loff_t len,
++				aufs_bindex_t bcpup, struct au_pin *pin)
++{
++	int err;
++	struct inode *inode, *h_inode;
++	struct dentry *h_dentry, *hi_wh;
++	struct au_cp_generic cpg = {
++		.dentry	= file->f_path.dentry,
++		.bdst	= bcpup,
++		.bsrc	= -1,
++		.len	= len,
++		.pin	= pin
++	};
++
++	au_update_dbtop(cpg.dentry);
++	inode = d_inode(cpg.dentry);
++	h_inode = NULL;
++	if (au_dbtop(cpg.dentry) <= bcpup
++	    && au_dbbot(cpg.dentry) >= bcpup) {
++		h_dentry = au_h_dptr(cpg.dentry, bcpup);
++		if (h_dentry && d_is_positive(h_dentry))
++			h_inode = d_inode(h_dentry);
++	}
++	hi_wh = au_hi_wh(inode, bcpup);
++	if (!hi_wh && !h_inode)
++		err = au_sio_cpup_wh(&cpg, file);
++	else
++		/* already copied-up after unlink */
++		err = au_reopen_wh(file, bcpup, hi_wh);
++
++	if (!err
++	    && (inode->i_nlink > 1
++		|| (inode->i_state & I_LINKABLE))
++	    && au_opt_test(au_mntflags(cpg.dentry->d_sb), PLINK))
++		au_plink_append(inode, bcpup, au_h_dptr(cpg.dentry, bcpup));
++
++	return err;
++}
++
++/*
++ * prepare the @file for writing.
++ */
++int au_ready_to_write(struct file *file, loff_t len, struct au_pin *pin)
++{
++	int err;
++	aufs_bindex_t dbtop;
++	struct dentry *parent;
++	struct inode *inode;
++	struct super_block *sb;
++	struct file *h_file;
++	struct au_cp_generic cpg = {
++		.dentry	= file->f_path.dentry,
++		.bdst	= -1,
++		.bsrc	= -1,
++		.len	= len,
++		.pin	= pin,
++		.flags	= AuCpup_DTIME
++	};
++
++	sb = cpg.dentry->d_sb;
++	inode = d_inode(cpg.dentry);
++	cpg.bsrc = au_fbtop(file);
++	err = au_test_ro(sb, cpg.bsrc, inode);
++	if (!err && (au_hf_top(file)->f_mode & FMODE_WRITE)) {
++		err = au_pin(pin, cpg.dentry, cpg.bsrc, AuOpt_UDBA_NONE,
++			     /*flags*/0);
++		goto out;
++	}
++
++	/* need to cpup or reopen */
++	parent = dget_parent(cpg.dentry);
++	di_write_lock_parent(parent);
++	err = AuWbrCopyup(au_sbi(sb), cpg.dentry);
++	cpg.bdst = err;
++	if (unlikely(err < 0))
++		goto out_dgrade;
++	err = 0;
++
++	if (!d_unhashed(cpg.dentry) && !au_h_dptr(parent, cpg.bdst)) {
++		err = au_cpup_dirs(cpg.dentry, cpg.bdst);
++		if (unlikely(err))
++			goto out_dgrade;
++	}
++
++	err = au_pin(pin, cpg.dentry, cpg.bdst, AuOpt_UDBA_NONE,
++		     AuPin_DI_LOCKED | AuPin_MNT_WRITE);
++	if (unlikely(err))
++		goto out_dgrade;
++
++	dbtop = au_dbtop(cpg.dentry);
++	if (dbtop <= cpg.bdst)
++		cpg.bsrc = cpg.bdst;
++
++	if (dbtop <= cpg.bdst		/* just reopen */
++	    || !d_unhashed(cpg.dentry)	/* copyup and reopen */
++		) {
++		h_file = au_h_open_pre(cpg.dentry, cpg.bsrc, /*force_wr*/0);
++		if (IS_ERR(h_file))
++			err = PTR_ERR(h_file);
++		else {
++			di_downgrade_lock(parent, AuLock_IR);
++			if (dbtop > cpg.bdst)
++				err = au_sio_cpup_simple(&cpg);
++			if (!err)
++				err = au_reopen_nondir(file);
++			au_h_open_post(cpg.dentry, cpg.bsrc, h_file);
++		}
++	} else {			/* copyup as wh and reopen */
++		/*
++		 * since writable hfsplus branch is not supported,
++		 * h_open_pre/post() are unnecessary.
++		 */
++		err = au_ready_to_write_wh(file, len, cpg.bdst, pin);
++		di_downgrade_lock(parent, AuLock_IR);
++	}
++
++	if (!err) {
++		au_pin_set_parent_lflag(pin, /*lflag*/0);
++		goto out_dput; /* success */
++	}
++	au_unpin(pin);
++	goto out_unlock;
++
++out_dgrade:
++	di_downgrade_lock(parent, AuLock_IR);
++out_unlock:
++	di_read_unlock(parent, AuLock_IR);
++out_dput:
++	dput(parent);
++out:
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++int au_do_flush(struct file *file, fl_owner_t id,
++		int (*flush)(struct file *file, fl_owner_t id))
++{
++	int err;
++	struct super_block *sb;
++	struct inode *inode;
++
++	inode = file_inode(file);
++	sb = inode->i_sb;
++	si_noflush_read_lock(sb);
++	fi_read_lock(file);
++	ii_read_lock_child(inode);
++
++	err = flush(file, id);
++	au_cpup_attr_timesizes(inode);
++
++	ii_read_unlock(inode);
++	fi_read_unlock(file);
++	si_read_unlock(sb);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int au_file_refresh_by_inode(struct file *file, int *need_reopen)
++{
++	int err;
++	struct au_pin pin;
++	struct au_finfo *finfo;
++	struct dentry *parent, *hi_wh;
++	struct inode *inode;
++	struct super_block *sb;
++	struct au_cp_generic cpg = {
++		.dentry	= file->f_path.dentry,
++		.bdst	= -1,
++		.bsrc	= -1,
++		.len	= -1,
++		.pin	= &pin,
++		.flags	= AuCpup_DTIME
++	};
++
++	FiMustWriteLock(file);
++
++	err = 0;
++	finfo = au_fi(file);
++	sb = cpg.dentry->d_sb;
++	inode = d_inode(cpg.dentry);
++	cpg.bdst = au_ibtop(inode);
++	if (cpg.bdst == finfo->fi_btop || IS_ROOT(cpg.dentry))
++		goto out;
++
++	parent = dget_parent(cpg.dentry);
++	if (au_test_ro(sb, cpg.bdst, inode)) {
++		di_read_lock_parent(parent, !AuLock_IR);
++		err = AuWbrCopyup(au_sbi(sb), cpg.dentry);
++		cpg.bdst = err;
++		di_read_unlock(parent, !AuLock_IR);
++		if (unlikely(err < 0))
++			goto out_parent;
++		err = 0;
++	}
++
++	di_read_lock_parent(parent, AuLock_IR);
++	hi_wh = au_hi_wh(inode, cpg.bdst);
++	if (!S_ISDIR(inode->i_mode)
++	    && au_opt_test(au_mntflags(sb), PLINK)
++	    && au_plink_test(inode)
++	    && !d_unhashed(cpg.dentry)
++	    && cpg.bdst < au_dbtop(cpg.dentry)) {
++		err = au_test_and_cpup_dirs(cpg.dentry, cpg.bdst);
++		if (unlikely(err))
++			goto out_unlock;
++
++		/* always superio. */
++		err = au_pin(&pin, cpg.dentry, cpg.bdst, AuOpt_UDBA_NONE,
++			     AuPin_DI_LOCKED | AuPin_MNT_WRITE);
++		if (!err) {
++			err = au_sio_cpup_simple(&cpg);
++			au_unpin(&pin);
++		}
++	} else if (hi_wh) {
++		/* already copied-up after unlink */
++		err = au_reopen_wh(file, cpg.bdst, hi_wh);
++		*need_reopen = 0;
++	}
++
++out_unlock:
++	di_read_unlock(parent, AuLock_IR);
++out_parent:
++	dput(parent);
++out:
++	return err;
++}
++
++static void au_do_refresh_dir(struct file *file)
++{
++	aufs_bindex_t bindex, bbot, new_bindex, brid;
++	struct au_hfile *p, tmp, *q;
++	struct au_finfo *finfo;
++	struct super_block *sb;
++	struct au_fidir *fidir;
++
++	FiMustWriteLock(file);
++
++	sb = file->f_path.dentry->d_sb;
++	finfo = au_fi(file);
++	fidir = finfo->fi_hdir;
++	AuDebugOn(!fidir);
++	p = fidir->fd_hfile + finfo->fi_btop;
++	brid = p->hf_br->br_id;
++	bbot = fidir->fd_bbot;
++	for (bindex = finfo->fi_btop; bindex <= bbot; bindex++, p++) {
++		if (!p->hf_file)
++			continue;
++
++		new_bindex = au_br_index(sb, p->hf_br->br_id);
++		if (new_bindex == bindex)
++			continue;
++		if (new_bindex < 0) {
++			au_set_h_fptr(file, bindex, NULL);
++			continue;
++		}
++
++		/* swap two lower inode, and loop again */
++		q = fidir->fd_hfile + new_bindex;
++		tmp = *q;
++		*q = *p;
++		*p = tmp;
++		if (tmp.hf_file) {
++			bindex--;
++			p--;
++		}
++	}
++
++	p = fidir->fd_hfile;
++	if (!au_test_mmapped(file) && !d_unlinked(file->f_path.dentry)) {
++		bbot = au_sbbot(sb);
++		for (finfo->fi_btop = 0; finfo->fi_btop <= bbot;
++		     finfo->fi_btop++, p++)
++			if (p->hf_file) {
++				if (file_inode(p->hf_file))
++					break;
++				au_hfput(p, /*execed*/0);
++			}
++	} else {
++		bbot = au_br_index(sb, brid);
++		for (finfo->fi_btop = 0; finfo->fi_btop < bbot;
++		     finfo->fi_btop++, p++)
++			if (p->hf_file)
++				au_hfput(p, /*execed*/0);
++		bbot = au_sbbot(sb);
++	}
++
++	p = fidir->fd_hfile + bbot;
++	for (fidir->fd_bbot = bbot; fidir->fd_bbot >= finfo->fi_btop;
++	     fidir->fd_bbot--, p--)
++		if (p->hf_file) {
++			if (file_inode(p->hf_file))
++				break;
++			au_hfput(p, /*execed*/0);
++		}
++	AuDebugOn(fidir->fd_bbot < finfo->fi_btop);
++}
++
++/*
++ * after branch manipulating, refresh the file.
++ */
++static int refresh_file(struct file *file, int (*reopen)(struct file *file))
++{
++	int err, need_reopen, nbr;
++	aufs_bindex_t bbot, bindex;
++	struct dentry *dentry;
++	struct super_block *sb;
++	struct au_finfo *finfo;
++	struct au_hfile *hfile;
++
++	dentry = file->f_path.dentry;
++	sb = dentry->d_sb;
++	nbr = au_sbbot(sb) + 1;
++	finfo = au_fi(file);
++	if (!finfo->fi_hdir) {
++		hfile = &finfo->fi_htop;
++		AuDebugOn(!hfile->hf_file);
++		bindex = au_br_index(sb, hfile->hf_br->br_id);
++		AuDebugOn(bindex < 0);
++		if (bindex != finfo->fi_btop)
++			au_set_fbtop(file, bindex);
++	} else {
++		err = au_fidir_realloc(finfo, nbr, /*may_shrink*/0);
++		if (unlikely(err))
++			goto out;
++		au_do_refresh_dir(file);
++	}
++
++	err = 0;
++	need_reopen = 1;
++	if (!au_test_mmapped(file))
++		err = au_file_refresh_by_inode(file, &need_reopen);
++	if (finfo->fi_hdir)
++		/* harmless if err */
++		au_fidir_realloc(finfo, nbr, /*may_shrink*/1);
++	if (!err && need_reopen && !d_unlinked(dentry))
++		err = reopen(file);
++	if (!err) {
++		au_update_figen(file);
++		goto out; /* success */
++	}
++
++	/* error, close all lower files */
++	if (finfo->fi_hdir) {
++		bbot = au_fbbot_dir(file);
++		for (bindex = au_fbtop(file); bindex <= bbot; bindex++)
++			au_set_h_fptr(file, bindex, NULL);
++	}
++
++out:
++	return err;
++}
++
++/* common function to regular file and dir */
++int au_reval_and_lock_fdi(struct file *file, int (*reopen)(struct file *file),
++			  int wlock, unsigned int fi_lsc)
++{
++	int err;
++	unsigned int sigen, figen;
++	aufs_bindex_t btop;
++	unsigned char pseudo_link;
++	struct dentry *dentry;
++	struct inode *inode;
++
++	err = 0;
++	dentry = file->f_path.dentry;
++	inode = d_inode(dentry);
++	sigen = au_sigen(dentry->d_sb);
++	fi_write_lock_nested(file, fi_lsc);
++	figen = au_figen(file);
++	if (!fi_lsc)
++		di_write_lock_child(dentry);
++	else
++		di_write_lock_child2(dentry);
++	btop = au_dbtop(dentry);
++	pseudo_link = (btop != au_ibtop(inode));
++	if (sigen == figen && !pseudo_link && au_fbtop(file) == btop) {
++		if (!wlock) {
++			di_downgrade_lock(dentry, AuLock_IR);
++			fi_downgrade_lock(file);
++		}
++		goto out; /* success */
++	}
++
++	AuDbg("sigen %d, figen %d\n", sigen, figen);
++	if (au_digen_test(dentry, sigen)) {
++		err = au_reval_dpath(dentry, sigen);
++		AuDebugOn(!err && au_digen_test(dentry, sigen));
++	}
++
++	if (!err)
++		err = refresh_file(file, reopen);
++	if (!err) {
++		if (!wlock) {
++			di_downgrade_lock(dentry, AuLock_IR);
++			fi_downgrade_lock(file);
++		}
++	} else {
++		di_write_unlock(dentry);
++		fi_write_unlock(file);
++	}
++
++out:
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* cf. aufs_nopage() */
++/* for madvise(2) */
++static int aufs_readpage(struct file *file __maybe_unused, struct page *page)
++{
++	unlock_page(page);
++	return 0;
++}
++
++/* it will never be called, but necessary to support O_DIRECT */
++static ssize_t aufs_direct_IO(struct kiocb *iocb, struct iov_iter *iter)
++{ BUG(); return 0; }
++
++/* they will never be called. */
++#ifdef CONFIG_AUFS_DEBUG
++static int aufs_write_begin(struct file *file, struct address_space *mapping,
++			    loff_t pos, unsigned len, unsigned flags,
++			    struct page **pagep, void **fsdata)
++{ AuUnsupport(); return 0; }
++static int aufs_write_end(struct file *file, struct address_space *mapping,
++			  loff_t pos, unsigned len, unsigned copied,
++			  struct page *page, void *fsdata)
++{ AuUnsupport(); return 0; }
++static int aufs_writepage(struct page *page, struct writeback_control *wbc)
++{ AuUnsupport(); return 0; }
++
++static int aufs_set_page_dirty(struct page *page)
++{ AuUnsupport(); return 0; }
++static void aufs_invalidatepage(struct page *page, unsigned int offset,
++				unsigned int length)
++{ AuUnsupport(); }
++static int aufs_releasepage(struct page *page, gfp_t gfp)
++{ AuUnsupport(); return 0; }
++#if 0 /* called by memory compaction regardless file */
++static int aufs_migratepage(struct address_space *mapping, struct page *newpage,
++			    struct page *page, enum migrate_mode mode)
++{ AuUnsupport(); return 0; }
++#endif
++static bool aufs_isolate_page(struct page *page, isolate_mode_t mode)
++{ AuUnsupport(); return true; }
++static void aufs_putback_page(struct page *page)
++{ AuUnsupport(); }
++static int aufs_launder_page(struct page *page)
++{ AuUnsupport(); return 0; }
++static int aufs_is_partially_uptodate(struct page *page,
++				      unsigned long from,
++				      unsigned long count)
++{ AuUnsupport(); return 0; }
++static void aufs_is_dirty_writeback(struct page *page, bool *dirty,
++				    bool *writeback)
++{ AuUnsupport(); }
++static int aufs_error_remove_page(struct address_space *mapping,
++				  struct page *page)
++{ AuUnsupport(); return 0; }
++static int aufs_swap_activate(struct swap_info_struct *sis, struct file *file,
++			      sector_t *span)
++{ AuUnsupport(); return 0; }
++static void aufs_swap_deactivate(struct file *file)
++{ AuUnsupport(); }
++#endif /* CONFIG_AUFS_DEBUG */
++
++const struct address_space_operations aufs_aop = {
++	.readpage		= aufs_readpage,
++	.direct_IO		= aufs_direct_IO,
++#ifdef CONFIG_AUFS_DEBUG
++	.writepage		= aufs_writepage,
++	/* no writepages, because of writepage */
++	.set_page_dirty		= aufs_set_page_dirty,
++	/* no readpages, because of readpage */
++	.write_begin		= aufs_write_begin,
++	.write_end		= aufs_write_end,
++	/* no bmap, no block device */
++	.invalidatepage		= aufs_invalidatepage,
++	.releasepage		= aufs_releasepage,
++	/* is fallback_migrate_page ok? */
++	/* .migratepage		= aufs_migratepage, */
++	.isolate_page		= aufs_isolate_page,
++	.putback_page		= aufs_putback_page,
++	.launder_page		= aufs_launder_page,
++	.is_partially_uptodate	= aufs_is_partially_uptodate,
++	.is_dirty_writeback	= aufs_is_dirty_writeback,
++	.error_remove_page	= aufs_error_remove_page,
++	.swap_activate		= aufs_swap_activate,
++	.swap_deactivate	= aufs_swap_deactivate
++#endif /* CONFIG_AUFS_DEBUG */
++};
+diff --git a/fs/aufs/file.h b/fs/aufs/file.h
+new file mode 100755
+index 0000000..9353503
+--- /dev/null
++++ b/fs/aufs/file.h
+@@ -0,0 +1,331 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * file operations
++ */
++
++#ifndef __AUFS_FILE_H__
++#define __AUFS_FILE_H__
++
++#ifdef __KERNEL__
++
++#include <linux/file.h>
++#include <linux/fs.h>
++#include <linux/mm_types.h>
++#include <linux/poll.h>
++#include "rwsem.h"
++
++struct au_branch;
++struct au_hfile {
++	struct file		*hf_file;
++	struct au_branch	*hf_br;
++};
++
++struct au_vdir;
++struct au_fidir {
++	aufs_bindex_t		fd_bbot;
++	aufs_bindex_t		fd_nent;
++	struct au_vdir		*fd_vdir_cache;
++	struct au_hfile		fd_hfile[];
++};
++
++static inline int au_fidir_sz(int nent)
++{
++	AuDebugOn(nent < 0);
++	return sizeof(struct au_fidir) + sizeof(struct au_hfile) * nent;
++}
++
++struct au_finfo {
++	atomic_t		fi_generation;
++
++	struct au_rwsem		fi_rwsem;
++	aufs_bindex_t		fi_btop;
++
++	/* do not union them */
++	struct {				/* for non-dir */
++		struct au_hfile			fi_htop;
++		atomic_t			fi_mmapped;
++	};
++	struct au_fidir		*fi_hdir;	/* for dir only */
++
++	struct hlist_node	fi_hlist;
++	struct file		*fi_file;	/* very ugly */
++} ____cacheline_aligned_in_smp;
++
++/* ---------------------------------------------------------------------- */
++
++/* file.c */
++extern const struct address_space_operations aufs_aop;
++unsigned int au_file_roflags(unsigned int flags);
++struct file *au_h_open(struct dentry *dentry, aufs_bindex_t bindex, int flags,
++		       struct file *file, int force_wr);
++struct au_do_open_args {
++	int		no_lock;
++	int		(*open)(struct file *file, int flags,
++				struct file *h_file);
++	struct au_fidir	*fidir;
++	struct file	*h_file;
++};
++int au_do_open(struct file *file, struct au_do_open_args *args);
++int au_reopen_nondir(struct file *file);
++struct au_pin;
++int au_ready_to_write(struct file *file, loff_t len, struct au_pin *pin);
++int au_reval_and_lock_fdi(struct file *file, int (*reopen)(struct file *file),
++			  int wlock, unsigned int fi_lsc);
++int au_do_flush(struct file *file, fl_owner_t id,
++		int (*flush)(struct file *file, fl_owner_t id));
++
++/* poll.c */
++#ifdef CONFIG_AUFS_POLL
++unsigned int aufs_poll(struct file *file, poll_table *wait);
++#endif
++
++#ifdef CONFIG_AUFS_BR_HFSPLUS
++/* hfsplus.c */
++struct file *au_h_open_pre(struct dentry *dentry, aufs_bindex_t bindex,
++			   int force_wr);
++void au_h_open_post(struct dentry *dentry, aufs_bindex_t bindex,
++		    struct file *h_file);
++#else
++AuStub(struct file *, au_h_open_pre, return NULL, struct dentry *dentry,
++       aufs_bindex_t bindex, int force_wr)
++AuStubVoid(au_h_open_post, struct dentry *dentry, aufs_bindex_t bindex,
++	   struct file *h_file);
++#endif
++
++/* f_op.c */
++extern const struct file_operations aufs_file_fop;
++int au_do_open_nondir(struct file *file, int flags, struct file *h_file);
++int aufs_release_nondir(struct inode *inode __maybe_unused, struct file *file);
++struct file *au_read_pre(struct file *file, int keep_fi, unsigned int lsc);
++
++/* finfo.c */
++void au_hfput(struct au_hfile *hf, int execed);
++void au_set_h_fptr(struct file *file, aufs_bindex_t bindex,
++		   struct file *h_file);
++
++void au_update_figen(struct file *file);
++struct au_fidir *au_fidir_alloc(struct super_block *sb);
++int au_fidir_realloc(struct au_finfo *finfo, int nbr, int may_shrink);
++
++void au_fi_init_once(void *_fi);
++void au_finfo_fin(struct file *file);
++int au_finfo_init(struct file *file, struct au_fidir *fidir);
++
++/* ioctl.c */
++long aufs_ioctl_nondir(struct file *file, unsigned int cmd, unsigned long arg);
++#ifdef CONFIG_COMPAT
++long aufs_compat_ioctl_dir(struct file *file, unsigned int cmd,
++			   unsigned long arg);
++long aufs_compat_ioctl_nondir(struct file *file, unsigned int cmd,
++			      unsigned long arg);
++#endif
++
++/* ---------------------------------------------------------------------- */
++
++static inline struct au_finfo *au_fi(struct file *file)
++{
++	return file->private_data;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * fi_read_lock, fi_write_lock,
++ * fi_read_unlock, fi_write_unlock, fi_downgrade_lock
++ */
++AuSimpleRwsemFuncs(fi, struct file *f, &au_fi(f)->fi_rwsem);
++
++/* lock subclass for finfo */
++enum {
++	AuLsc_FI_1,
++	AuLsc_FI_2
++};
++
++static inline void fi_read_lock_nested(struct file *f, unsigned int lsc)
++{
++	au_rw_read_lock_nested(&au_fi(f)->fi_rwsem, lsc);
++}
++
++static inline void fi_write_lock_nested(struct file *f, unsigned int lsc)
++{
++	au_rw_write_lock_nested(&au_fi(f)->fi_rwsem, lsc);
++}
++
++/*
++ * fi_read_lock_1, fi_write_lock_1,
++ * fi_read_lock_2, fi_write_lock_2
++ */
++#define AuReadLockFunc(name) \
++static inline void fi_read_lock_##name(struct file *f) \
++{ fi_read_lock_nested(f, AuLsc_FI_##name); }
++
++#define AuWriteLockFunc(name) \
++static inline void fi_write_lock_##name(struct file *f) \
++{ fi_write_lock_nested(f, AuLsc_FI_##name); }
++
++#define AuRWLockFuncs(name) \
++	AuReadLockFunc(name) \
++	AuWriteLockFunc(name)
++
++AuRWLockFuncs(1);
++AuRWLockFuncs(2);
++
++#undef AuReadLockFunc
++#undef AuWriteLockFunc
++#undef AuRWLockFuncs
++
++#define FiMustNoWaiters(f)	AuRwMustNoWaiters(&au_fi(f)->fi_rwsem)
++#define FiMustAnyLock(f)	AuRwMustAnyLock(&au_fi(f)->fi_rwsem)
++#define FiMustWriteLock(f)	AuRwMustWriteLock(&au_fi(f)->fi_rwsem)
++
++/* ---------------------------------------------------------------------- */
++
++/* todo: hard/soft set? */
++static inline aufs_bindex_t au_fbtop(struct file *file)
++{
++	FiMustAnyLock(file);
++	return au_fi(file)->fi_btop;
++}
++
++static inline aufs_bindex_t au_fbbot_dir(struct file *file)
++{
++	FiMustAnyLock(file);
++	AuDebugOn(!au_fi(file)->fi_hdir);
++	return au_fi(file)->fi_hdir->fd_bbot;
++}
++
++static inline struct au_vdir *au_fvdir_cache(struct file *file)
++{
++	FiMustAnyLock(file);
++	AuDebugOn(!au_fi(file)->fi_hdir);
++	return au_fi(file)->fi_hdir->fd_vdir_cache;
++}
++
++static inline void au_set_fbtop(struct file *file, aufs_bindex_t bindex)
++{
++	FiMustWriteLock(file);
++	au_fi(file)->fi_btop = bindex;
++}
++
++static inline void au_set_fbbot_dir(struct file *file, aufs_bindex_t bindex)
++{
++	FiMustWriteLock(file);
++	AuDebugOn(!au_fi(file)->fi_hdir);
++	au_fi(file)->fi_hdir->fd_bbot = bindex;
++}
++
++static inline void au_set_fvdir_cache(struct file *file,
++				      struct au_vdir *vdir_cache)
++{
++	FiMustWriteLock(file);
++	AuDebugOn(!au_fi(file)->fi_hdir);
++	au_fi(file)->fi_hdir->fd_vdir_cache = vdir_cache;
++}
++
++static inline struct file *au_hf_top(struct file *file)
++{
++	FiMustAnyLock(file);
++	AuDebugOn(au_fi(file)->fi_hdir);
++	return au_fi(file)->fi_htop.hf_file;
++}
++
++static inline struct file *au_hf_dir(struct file *file, aufs_bindex_t bindex)
++{
++	FiMustAnyLock(file);
++	AuDebugOn(!au_fi(file)->fi_hdir);
++	return au_fi(file)->fi_hdir->fd_hfile[0 + bindex].hf_file;
++}
++
++/* todo: memory barrier? */
++static inline unsigned int au_figen(struct file *f)
++{
++	return atomic_read(&au_fi(f)->fi_generation);
++}
++
++static inline void au_set_mmapped(struct file *f)
++{
++	if (atomic_inc_return(&au_fi(f)->fi_mmapped))
++		return;
++	pr_warn("fi_mmapped wrapped around\n");
++	while (!atomic_inc_return(&au_fi(f)->fi_mmapped))
++		;
++}
++
++static inline void au_unset_mmapped(struct file *f)
++{
++	atomic_dec(&au_fi(f)->fi_mmapped);
++}
++
++static inline int au_test_mmapped(struct file *f)
++{
++	return atomic_read(&au_fi(f)->fi_mmapped);
++}
++
++/* customize vma->vm_file */
++
++static inline void au_do_vm_file_reset(struct vm_area_struct *vma,
++				       struct file *file)
++{
++	struct file *f;
++
++	f = vma->vm_file;
++	get_file(file);
++	vma->vm_file = file;
++	fput(f);
++}
++
++#ifdef CONFIG_MMU
++#define AuDbgVmRegion(file, vma) do {} while (0)
++
++static inline void au_vm_file_reset(struct vm_area_struct *vma,
++				    struct file *file)
++{
++	au_do_vm_file_reset(vma, file);
++}
++#else
++#define AuDbgVmRegion(file, vma) \
++	AuDebugOn((vma)->vm_region && (vma)->vm_region->vm_file != (file))
++
++static inline void au_vm_file_reset(struct vm_area_struct *vma,
++				    struct file *file)
++{
++	struct file *f;
++
++	au_do_vm_file_reset(vma, file);
++	f = vma->vm_region->vm_file;
++	get_file(file);
++	vma->vm_region->vm_file = file;
++	fput(f);
++}
++#endif /* CONFIG_MMU */
++
++/* handle vma->vm_prfile */
++static inline void au_vm_prfile_set(struct vm_area_struct *vma,
++				    struct file *file)
++{
++	get_file(file);
++	vma->vm_prfile = file;
++#ifndef CONFIG_MMU
++	get_file(file);
++	vma->vm_region->vm_prfile = file;
++#endif
++}
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_FILE_H__ */
+diff --git a/fs/aufs/finfo.c b/fs/aufs/finfo.c
+new file mode 100755
+index 0000000..3a8131d
+--- /dev/null
++++ b/fs/aufs/finfo.c
+@@ -0,0 +1,148 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * file private data
++ */
++
++#include "aufs.h"
++
++void au_hfput(struct au_hfile *hf, int execed)
++{
++	if (execed)
++		allow_write_access(hf->hf_file);
++	fput(hf->hf_file);
++	hf->hf_file = NULL;
++	au_br_put(hf->hf_br);
++	hf->hf_br = NULL;
++}
++
++void au_set_h_fptr(struct file *file, aufs_bindex_t bindex, struct file *val)
++{
++	struct au_finfo *finfo = au_fi(file);
++	struct au_hfile *hf;
++	struct au_fidir *fidir;
++
++	fidir = finfo->fi_hdir;
++	if (!fidir) {
++		AuDebugOn(finfo->fi_btop != bindex);
++		hf = &finfo->fi_htop;
++	} else
++		hf = fidir->fd_hfile + bindex;
++
++	if (hf && hf->hf_file)
++		au_hfput(hf, vfsub_file_execed(file));
++	if (val) {
++		FiMustWriteLock(file);
++		AuDebugOn(IS_ERR_OR_NULL(file->f_path.dentry));
++		hf->hf_file = val;
++		hf->hf_br = au_sbr(file->f_path.dentry->d_sb, bindex);
++	}
++}
++
++void au_update_figen(struct file *file)
++{
++	atomic_set(&au_fi(file)->fi_generation, au_digen(file->f_path.dentry));
++	/* smp_mb(); */ /* atomic_set */
++}
++
++/* ---------------------------------------------------------------------- */
++
++struct au_fidir *au_fidir_alloc(struct super_block *sb)
++{
++	struct au_fidir *fidir;
++	int nbr;
++
++	nbr = au_sbbot(sb) + 1;
++	if (nbr < 2)
++		nbr = 2; /* initial allocate for 2 branches */
++	fidir = kzalloc(au_fidir_sz(nbr), GFP_NOFS);
++	if (fidir) {
++		fidir->fd_bbot = -1;
++		fidir->fd_nent = nbr;
++	}
++
++	return fidir;
++}
++
++int au_fidir_realloc(struct au_finfo *finfo, int nbr, int may_shrink)
++{
++	int err;
++	struct au_fidir *fidir, *p;
++
++	AuRwMustWriteLock(&finfo->fi_rwsem);
++	fidir = finfo->fi_hdir;
++	AuDebugOn(!fidir);
++
++	err = -ENOMEM;
++	p = au_kzrealloc(fidir, au_fidir_sz(fidir->fd_nent), au_fidir_sz(nbr),
++			 GFP_NOFS, may_shrink);
++	if (p) {
++		p->fd_nent = nbr;
++		finfo->fi_hdir = p;
++		err = 0;
++	}
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++void au_finfo_fin(struct file *file)
++{
++	struct au_finfo *finfo;
++
++	au_nfiles_dec(file->f_path.dentry->d_sb);
++
++	finfo = au_fi(file);
++	AuDebugOn(finfo->fi_hdir);
++	AuRwDestroy(&finfo->fi_rwsem);
++	au_cache_free_finfo(finfo);
++}
++
++void au_fi_init_once(void *_finfo)
++{
++	struct au_finfo *finfo = _finfo;
++
++	au_rw_init(&finfo->fi_rwsem);
++}
++
++int au_finfo_init(struct file *file, struct au_fidir *fidir)
++{
++	int err;
++	struct au_finfo *finfo;
++	struct dentry *dentry;
++
++	err = -ENOMEM;
++	dentry = file->f_path.dentry;
++	finfo = au_cache_alloc_finfo();
++	if (unlikely(!finfo))
++		goto out;
++
++	err = 0;
++	au_nfiles_inc(dentry->d_sb);
++	au_rw_write_lock(&finfo->fi_rwsem);
++	finfo->fi_btop = -1;
++	finfo->fi_hdir = fidir;
++	atomic_set(&finfo->fi_generation, au_digen(dentry));
++	/* smp_mb(); */ /* atomic_set */
++
++	file->private_data = finfo;
++
++out:
++	return err;
++}
+diff --git a/fs/aufs/fstype.h b/fs/aufs/fstype.h
+new file mode 100755
+index 0000000..4624f1e
+--- /dev/null
++++ b/fs/aufs/fstype.h
+@@ -0,0 +1,400 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * judging filesystem type
++ */
++
++#ifndef __AUFS_FSTYPE_H__
++#define __AUFS_FSTYPE_H__
++
++#ifdef __KERNEL__
++
++#include <linux/fs.h>
++#include <linux/magic.h>
++#include <linux/nfs_fs.h>
++#include <linux/romfs_fs.h>
++
++static inline int au_test_aufs(struct super_block *sb)
++{
++	return sb->s_magic == AUFS_SUPER_MAGIC;
++}
++
++static inline const char *au_sbtype(struct super_block *sb)
++{
++	return sb->s_type->name;
++}
++
++static inline int au_test_iso9660(struct super_block *sb __maybe_unused)
++{
++#if IS_ENABLED(CONFIG_ISO9660_FS)
++	return sb->s_magic == ISOFS_SUPER_MAGIC;
++#else
++	return 0;
++#endif
++}
++
++static inline int au_test_romfs(struct super_block *sb __maybe_unused)
++{
++#if IS_ENABLED(CONFIG_ROMFS_FS)
++	return sb->s_magic == ROMFS_MAGIC;
++#else
++	return 0;
++#endif
++}
++
++static inline int au_test_cramfs(struct super_block *sb __maybe_unused)
++{
++#if IS_ENABLED(CONFIG_CRAMFS)
++	return sb->s_magic == CRAMFS_MAGIC;
++#endif
++	return 0;
++}
++
++static inline int au_test_nfs(struct super_block *sb __maybe_unused)
++{
++#if IS_ENABLED(CONFIG_NFS_FS)
++	return sb->s_magic == NFS_SUPER_MAGIC;
++#else
++	return 0;
++#endif
++}
++
++static inline int au_test_fuse(struct super_block *sb __maybe_unused)
++{
++#if IS_ENABLED(CONFIG_FUSE_FS)
++	return sb->s_magic == FUSE_SUPER_MAGIC;
++#else
++	return 0;
++#endif
++}
++
++static inline int au_test_xfs(struct super_block *sb __maybe_unused)
++{
++#if IS_ENABLED(CONFIG_XFS_FS)
++	return sb->s_magic == XFS_SB_MAGIC;
++#else
++	return 0;
++#endif
++}
++
++static inline int au_test_tmpfs(struct super_block *sb __maybe_unused)
++{
++#ifdef CONFIG_TMPFS
++	return sb->s_magic == TMPFS_MAGIC;
++#else
++	return 0;
++#endif
++}
++
++static inline int au_test_ecryptfs(struct super_block *sb __maybe_unused)
++{
++#if IS_ENABLED(CONFIG_ECRYPT_FS)
++	return !strcmp(au_sbtype(sb), "ecryptfs");
++#else
++	return 0;
++#endif
++}
++
++static inline int au_test_ramfs(struct super_block *sb)
++{
++	return sb->s_magic == RAMFS_MAGIC;
++}
++
++static inline int au_test_ubifs(struct super_block *sb __maybe_unused)
++{
++#if IS_ENABLED(CONFIG_UBIFS_FS)
++	return sb->s_magic == UBIFS_SUPER_MAGIC;
++#else
++	return 0;
++#endif
++}
++
++static inline int au_test_procfs(struct super_block *sb __maybe_unused)
++{
++#ifdef CONFIG_PROC_FS
++	return sb->s_magic == PROC_SUPER_MAGIC;
++#else
++	return 0;
++#endif
++}
++
++static inline int au_test_sysfs(struct super_block *sb __maybe_unused)
++{
++#ifdef CONFIG_SYSFS
++	return sb->s_magic == SYSFS_MAGIC;
++#else
++	return 0;
++#endif
++}
++
++static inline int au_test_configfs(struct super_block *sb __maybe_unused)
++{
++#if IS_ENABLED(CONFIG_CONFIGFS_FS)
++	return sb->s_magic == CONFIGFS_MAGIC;
++#else
++	return 0;
++#endif
++}
++
++static inline int au_test_minix(struct super_block *sb __maybe_unused)
++{
++#if IS_ENABLED(CONFIG_MINIX_FS)
++	return sb->s_magic == MINIX3_SUPER_MAGIC
++		|| sb->s_magic == MINIX2_SUPER_MAGIC
++		|| sb->s_magic == MINIX2_SUPER_MAGIC2
++		|| sb->s_magic == MINIX_SUPER_MAGIC
++		|| sb->s_magic == MINIX_SUPER_MAGIC2;
++#else
++	return 0;
++#endif
++}
++
++static inline int au_test_fat(struct super_block *sb __maybe_unused)
++{
++#if IS_ENABLED(CONFIG_FAT_FS)
++	return sb->s_magic == MSDOS_SUPER_MAGIC;
++#else
++	return 0;
++#endif
++}
++
++static inline int au_test_msdos(struct super_block *sb)
++{
++	return au_test_fat(sb);
++}
++
++static inline int au_test_vfat(struct super_block *sb)
++{
++	return au_test_fat(sb);
++}
++
++static inline int au_test_securityfs(struct super_block *sb __maybe_unused)
++{
++#ifdef CONFIG_SECURITYFS
++	return sb->s_magic == SECURITYFS_MAGIC;
++#else
++	return 0;
++#endif
++}
++
++static inline int au_test_squashfs(struct super_block *sb __maybe_unused)
++{
++#if IS_ENABLED(CONFIG_SQUASHFS)
++	return sb->s_magic == SQUASHFS_MAGIC;
++#else
++	return 0;
++#endif
++}
++
++static inline int au_test_btrfs(struct super_block *sb __maybe_unused)
++{
++#if IS_ENABLED(CONFIG_BTRFS_FS)
++	return sb->s_magic == BTRFS_SUPER_MAGIC;
++#else
++	return 0;
++#endif
++}
++
++static inline int au_test_xenfs(struct super_block *sb __maybe_unused)
++{
++#if IS_ENABLED(CONFIG_XENFS)
++	return sb->s_magic == XENFS_SUPER_MAGIC;
++#else
++	return 0;
++#endif
++}
++
++static inline int au_test_debugfs(struct super_block *sb __maybe_unused)
++{
++#ifdef CONFIG_DEBUG_FS
++	return sb->s_magic == DEBUGFS_MAGIC;
++#else
++	return 0;
++#endif
++}
++
++static inline int au_test_nilfs(struct super_block *sb __maybe_unused)
++{
++#if IS_ENABLED(CONFIG_NILFS)
++	return sb->s_magic == NILFS_SUPER_MAGIC;
++#else
++	return 0;
++#endif
++}
++
++static inline int au_test_hfsplus(struct super_block *sb __maybe_unused)
++{
++#if IS_ENABLED(CONFIG_HFSPLUS_FS)
++	return sb->s_magic == HFSPLUS_SUPER_MAGIC;
++#else
++	return 0;
++#endif
++}
++
++/* ---------------------------------------------------------------------- */
++/*
++ * they can't be an aufs branch.
++ */
++static inline int au_test_fs_unsuppoted(struct super_block *sb)
++{
++	return
++#ifndef CONFIG_AUFS_BR_RAMFS
++		au_test_ramfs(sb) ||
++#endif
++		au_test_procfs(sb)
++		|| au_test_sysfs(sb)
++		|| au_test_configfs(sb)
++		|| au_test_debugfs(sb)
++		|| au_test_securityfs(sb)
++		|| au_test_xenfs(sb)
++		|| au_test_ecryptfs(sb)
++		/* || !strcmp(au_sbtype(sb), "unionfs") */
++		|| au_test_aufs(sb); /* will be supported in next version */
++}
++
++static inline int au_test_fs_remote(struct super_block *sb)
++{
++	return !au_test_tmpfs(sb)
++#ifdef CONFIG_AUFS_BR_RAMFS
++		&& !au_test_ramfs(sb)
++#endif
++		&& !(sb->s_type->fs_flags & FS_REQUIRES_DEV);
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * Note: these functions (below) are created after reading ->getattr() in all
++ * filesystems under linux/fs. it means we have to do so in every update...
++ */
++
++/*
++ * some filesystems require getattr to refresh the inode attributes before
++ * referencing.
++ * in most cases, we can rely on the inode attribute in NFS (or every remote fs)
++ * and leave the work for d_revalidate()
++ */
++static inline int au_test_fs_refresh_iattr(struct super_block *sb)
++{
++	return au_test_nfs(sb)
++		|| au_test_fuse(sb)
++		/* || au_test_btrfs(sb) */	/* untested */
++		;
++}
++
++/*
++ * filesystems which don't maintain i_size or i_blocks.
++ */
++static inline int au_test_fs_bad_iattr_size(struct super_block *sb)
++{
++	return au_test_xfs(sb)
++		|| au_test_btrfs(sb)
++		|| au_test_ubifs(sb)
++		|| au_test_hfsplus(sb)	/* maintained, but incorrect */
++		/* || au_test_minix(sb) */	/* untested */
++		;
++}
++
++/*
++ * filesystems which don't store the correct value in some of their inode
++ * attributes.
++ */
++static inline int au_test_fs_bad_iattr(struct super_block *sb)
++{
++	return au_test_fs_bad_iattr_size(sb)
++		|| au_test_fat(sb)
++		|| au_test_msdos(sb)
++		|| au_test_vfat(sb);
++}
++
++/* they don't check i_nlink in link(2) */
++static inline int au_test_fs_no_limit_nlink(struct super_block *sb)
++{
++	return au_test_tmpfs(sb)
++#ifdef CONFIG_AUFS_BR_RAMFS
++		|| au_test_ramfs(sb)
++#endif
++		|| au_test_ubifs(sb)
++		|| au_test_hfsplus(sb);
++}
++
++/*
++ * filesystems which sets S_NOATIME and S_NOCMTIME.
++ */
++static inline int au_test_fs_notime(struct super_block *sb)
++{
++	return au_test_nfs(sb)
++		|| au_test_fuse(sb)
++		|| au_test_ubifs(sb)
++		;
++}
++
++/* temporary support for i#1 in cramfs */
++static inline int au_test_fs_unique_ino(struct inode *inode)
++{
++	if (au_test_cramfs(inode->i_sb))
++		return inode->i_ino != 1;
++	return 1;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * the filesystem where the xino files placed must support i/o after unlink and
++ * maintain i_size and i_blocks.
++ */
++static inline int au_test_fs_bad_xino(struct super_block *sb)
++{
++	return au_test_fs_remote(sb)
++		|| au_test_fs_bad_iattr_size(sb)
++		/* don't want unnecessary work for xino */
++		|| au_test_aufs(sb)
++		|| au_test_ecryptfs(sb)
++		|| au_test_nilfs(sb);
++}
++
++static inline int au_test_fs_trunc_xino(struct super_block *sb)
++{
++	return au_test_tmpfs(sb)
++		|| au_test_ramfs(sb);
++}
++
++/*
++ * test if the @sb is real-readonly.
++ */
++static inline int au_test_fs_rr(struct super_block *sb)
++{
++	return au_test_squashfs(sb)
++		|| au_test_iso9660(sb)
++		|| au_test_cramfs(sb)
++		|| au_test_romfs(sb);
++}
++
++/*
++ * test if the @inode is nfs with 'noacl' option
++ * NFS always sets MS_POSIXACL regardless its mount option 'noacl.'
++ */
++static inline int au_test_nfs_noacl(struct inode *inode)
++{
++	return au_test_nfs(inode->i_sb)
++		/* && IS_POSIXACL(inode) */
++		&& !nfs_server_capable(inode, NFS_CAP_ACLS);
++}
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_FSTYPE_H__ */
+diff --git a/fs/aufs/hfsnotify.c b/fs/aufs/hfsnotify.c
+new file mode 100755
+index 0000000..e131d2e
+--- /dev/null
++++ b/fs/aufs/hfsnotify.c
+@@ -0,0 +1,289 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * fsnotify for the lower directories
++ */
++
++#include "aufs.h"
++
++/* FS_IN_IGNORED is unnecessary */
++static const __u32 AuHfsnMask = (FS_MOVED_TO | FS_MOVED_FROM | FS_DELETE
++				 | FS_CREATE | FS_EVENT_ON_CHILD);
++static DECLARE_WAIT_QUEUE_HEAD(au_hfsn_wq);
++static __cacheline_aligned_in_smp atomic64_t au_hfsn_ifree = ATOMIC64_INIT(0);
++
++static void au_hfsn_free_mark(struct fsnotify_mark *mark)
++{
++	struct au_hnotify *hn = container_of(mark, struct au_hnotify,
++					     hn_mark);
++	/* AuDbg("here\n"); */
++	au_cache_free_hnotify(hn);
++	smp_mb__before_atomic();
++	if (atomic64_dec_and_test(&au_hfsn_ifree))
++		wake_up(&au_hfsn_wq);
++}
++
++static int au_hfsn_alloc(struct au_hinode *hinode)
++{
++	int err;
++	struct au_hnotify *hn;
++	struct super_block *sb;
++	struct au_branch *br;
++	struct fsnotify_mark *mark;
++	aufs_bindex_t bindex;
++
++	hn = hinode->hi_notify;
++	sb = hn->hn_aufs_inode->i_sb;
++	bindex = au_br_index(sb, hinode->hi_id);
++	br = au_sbr(sb, bindex);
++	AuDebugOn(!br->br_hfsn);
++
++	mark = &hn->hn_mark;
++	fsnotify_init_mark(mark, br->br_hfsn->hfsn_group);
++	mark->mask = AuHfsnMask;
++	/*
++	 * by udba rename or rmdir, aufs assign a new inode to the known
++	 * h_inode, so specify 1 to allow dups.
++	 */
++	lockdep_off();
++	err = fsnotify_add_mark(mark, hinode->hi_inode, /*mnt*/NULL,
++				/*allow_dups*/1);
++	lockdep_on();
++
++	return err;
++}
++
++static int au_hfsn_free(struct au_hinode *hinode, struct au_hnotify *hn)
++{
++	struct fsnotify_mark *mark;
++	unsigned long long ull;
++	struct fsnotify_group *group;
++
++	ull = atomic64_inc_return(&au_hfsn_ifree);
++	BUG_ON(!ull);
++
++	mark = &hn->hn_mark;
++	spin_lock(&mark->lock);
++	group = mark->group;
++	fsnotify_get_group(group);
++	spin_unlock(&mark->lock);
++	lockdep_off();
++	fsnotify_destroy_mark(mark, group);
++	fsnotify_put_mark(mark);
++	fsnotify_put_group(group);
++	lockdep_on();
++
++	/* free hn by myself */
++	return 0;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static void au_hfsn_ctl(struct au_hinode *hinode, int do_set)
++{
++	struct fsnotify_mark *mark;
++
++	mark = &hinode->hi_notify->hn_mark;
++	spin_lock(&mark->lock);
++	if (do_set) {
++		AuDebugOn(mark->mask & AuHfsnMask);
++		mark->mask |= AuHfsnMask;
++	} else {
++		AuDebugOn(!(mark->mask & AuHfsnMask));
++		mark->mask &= ~AuHfsnMask;
++	}
++	spin_unlock(&mark->lock);
++	/* fsnotify_recalc_inode_mask(hinode->hi_inode); */
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* #define AuDbgHnotify */
++#ifdef AuDbgHnotify
++static char *au_hfsn_name(u32 mask)
++{
++#ifdef CONFIG_AUFS_DEBUG
++#define test_ret(flag)				\
++	do {					\
++		if (mask & flag)		\
++			return #flag;		\
++	} while (0)
++	test_ret(FS_ACCESS);
++	test_ret(FS_MODIFY);
++	test_ret(FS_ATTRIB);
++	test_ret(FS_CLOSE_WRITE);
++	test_ret(FS_CLOSE_NOWRITE);
++	test_ret(FS_OPEN);
++	test_ret(FS_MOVED_FROM);
++	test_ret(FS_MOVED_TO);
++	test_ret(FS_CREATE);
++	test_ret(FS_DELETE);
++	test_ret(FS_DELETE_SELF);
++	test_ret(FS_MOVE_SELF);
++	test_ret(FS_UNMOUNT);
++	test_ret(FS_Q_OVERFLOW);
++	test_ret(FS_IN_IGNORED);
++	test_ret(FS_ISDIR);
++	test_ret(FS_IN_ONESHOT);
++	test_ret(FS_EVENT_ON_CHILD);
++	return "";
++#undef test_ret
++#else
++	return "??";
++#endif
++}
++#endif
++
++/* ---------------------------------------------------------------------- */
++
++static void au_hfsn_free_group(struct fsnotify_group *group)
++{
++	struct au_br_hfsnotify *hfsn = group->private;
++
++	/* AuDbg("here\n"); */
++	kfree(hfsn);
++}
++
++static int au_hfsn_handle_event(struct fsnotify_group *group,
++				struct inode *inode,
++				struct fsnotify_mark *inode_mark,
++				struct fsnotify_mark *vfsmount_mark,
++				u32 mask, const void *data, int data_type,
++				const unsigned char *file_name, u32 cookie,
++				struct fsnotify_iter_info *iter_info)
++{
++	int err;
++	struct au_hnotify *hnotify;
++	struct inode *h_dir, *h_inode;
++	struct qstr h_child_qstr = QSTR_INIT(file_name, strlen(file_name));
++
++	AuDebugOn(data_type != FSNOTIFY_EVENT_INODE);
++
++	err = 0;
++	/* if FS_UNMOUNT happens, there must be another bug */
++	AuDebugOn(mask & FS_UNMOUNT);
++	if (mask & (FS_IN_IGNORED | FS_UNMOUNT))
++		goto out;
++
++	h_dir = inode;
++	h_inode = NULL;
++#ifdef AuDbgHnotify
++	au_debug_on();
++	if (1 || h_child_qstr.len != sizeof(AUFS_XINO_FNAME) - 1
++	    || strncmp(h_child_qstr.name, AUFS_XINO_FNAME, h_child_qstr.len)) {
++		AuDbg("i%lu, mask 0x%x %s, hcname %.*s, hi%lu\n",
++		      h_dir->i_ino, mask, au_hfsn_name(mask),
++		      AuLNPair(&h_child_qstr), h_inode ? h_inode->i_ino : 0);
++		/* WARN_ON(1); */
++	}
++	au_debug_off();
++#endif
++
++	AuDebugOn(!inode_mark);
++	hnotify = container_of(inode_mark, struct au_hnotify, hn_mark);
++	err = au_hnotify(h_dir, hnotify, mask, &h_child_qstr, h_inode);
++
++out:
++	return err;
++}
++
++static struct fsnotify_ops au_hfsn_ops = {
++	.handle_event		= au_hfsn_handle_event,
++	.free_group_priv	= au_hfsn_free_group,
++	.free_mark		= au_hfsn_free_mark
++};
++
++/* ---------------------------------------------------------------------- */
++
++static void au_hfsn_fin_br(struct au_branch *br)
++{
++	struct au_br_hfsnotify *hfsn;
++
++	hfsn = br->br_hfsn;
++	if (hfsn) {
++		lockdep_off();
++		fsnotify_put_group(hfsn->hfsn_group);
++		lockdep_on();
++	}
++}
++
++static int au_hfsn_init_br(struct au_branch *br, int perm)
++{
++	int err;
++	struct fsnotify_group *group;
++	struct au_br_hfsnotify *hfsn;
++
++	err = 0;
++	br->br_hfsn = NULL;
++	if (!au_br_hnotifyable(perm))
++		goto out;
++
++	err = -ENOMEM;
++	hfsn = kmalloc(sizeof(*hfsn), GFP_NOFS);
++	if (unlikely(!hfsn))
++		goto out;
++
++	err = 0;
++	group = fsnotify_alloc_group(&au_hfsn_ops);
++	if (IS_ERR(group)) {
++		err = PTR_ERR(group);
++		pr_err("fsnotify_alloc_group() failed, %d\n", err);
++		goto out_hfsn;
++	}
++
++	group->private = hfsn;
++	hfsn->hfsn_group = group;
++	br->br_hfsn = hfsn;
++	goto out; /* success */
++
++out_hfsn:
++	kfree(hfsn);
++out:
++	return err;
++}
++
++static int au_hfsn_reset_br(unsigned int udba, struct au_branch *br, int perm)
++{
++	int err;
++
++	err = 0;
++	if (!br->br_hfsn)
++		err = au_hfsn_init_br(br, perm);
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static void au_hfsn_fin(void)
++{
++	AuDbg("au_hfsn_ifree %lld\n", (long long)atomic64_read(&au_hfsn_ifree));
++	wait_event(au_hfsn_wq, !atomic64_read(&au_hfsn_ifree));
++}
++
++const struct au_hnotify_op au_hnotify_op = {
++	.ctl		= au_hfsn_ctl,
++	.alloc		= au_hfsn_alloc,
++	.free		= au_hfsn_free,
++
++	.fin		= au_hfsn_fin,
++
++	.reset_br	= au_hfsn_reset_br,
++	.fin_br		= au_hfsn_fin_br,
++	.init_br	= au_hfsn_init_br
++};
+diff --git a/fs/aufs/hfsplus.c b/fs/aufs/hfsplus.c
+new file mode 100755
+index 0000000..b5b6547
+--- /dev/null
++++ b/fs/aufs/hfsplus.c
+@@ -0,0 +1,56 @@
++/*
++ * Copyright (C) 2010-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * special support for filesystems which aqucires an inode mutex
++ * at final closing a file, eg, hfsplus.
++ *
++ * This trick is very simple and stupid, just to open the file before really
++ * neceeary open to tell hfsplus that this is not the final closing.
++ * The caller should call au_h_open_pre() after acquiring the inode mutex,
++ * and au_h_open_post() after releasing it.
++ */
++
++#include "aufs.h"
++
++struct file *au_h_open_pre(struct dentry *dentry, aufs_bindex_t bindex,
++			   int force_wr)
++{
++	struct file *h_file;
++	struct dentry *h_dentry;
++
++	h_dentry = au_h_dptr(dentry, bindex);
++	AuDebugOn(!h_dentry);
++	AuDebugOn(d_is_negative(h_dentry));
++
++	h_file = NULL;
++	if (au_test_hfsplus(h_dentry->d_sb)
++	    && d_is_reg(h_dentry))
++		h_file = au_h_open(dentry, bindex,
++				   O_RDONLY | O_NOATIME | O_LARGEFILE,
++				   /*file*/NULL, force_wr);
++	return h_file;
++}
++
++void au_h_open_post(struct dentry *dentry, aufs_bindex_t bindex,
++		    struct file *h_file)
++{
++	if (h_file) {
++		fput(h_file);
++		au_sbr_put(dentry->d_sb, bindex);
++	}
++}
+diff --git a/fs/aufs/hnotify.c b/fs/aufs/hnotify.c
+new file mode 100755
+index 0000000..9dde1ac
+--- /dev/null
++++ b/fs/aufs/hnotify.c
+@@ -0,0 +1,711 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * abstraction to notify the direct changes on lower directories
++ */
++
++#include "aufs.h"
++
++int au_hn_alloc(struct au_hinode *hinode, struct inode *inode)
++{
++	int err;
++	struct au_hnotify *hn;
++
++	err = -ENOMEM;
++	hn = au_cache_alloc_hnotify();
++	if (hn) {
++		hn->hn_aufs_inode = inode;
++		hinode->hi_notify = hn;
++		err = au_hnotify_op.alloc(hinode);
++		AuTraceErr(err);
++		if (unlikely(err)) {
++			hinode->hi_notify = NULL;
++			au_cache_free_hnotify(hn);
++			/*
++			 * The upper dir was removed by udba, but the same named
++			 * dir left. In this case, aufs assignes a new inode
++			 * number and set the monitor again.
++			 * For the lower dir, the old monitnor is still left.
++			 */
++			if (err == -EEXIST)
++				err = 0;
++		}
++	}
++
++	AuTraceErr(err);
++	return err;
++}
++
++void au_hn_free(struct au_hinode *hinode)
++{
++	struct au_hnotify *hn;
++
++	hn = hinode->hi_notify;
++	if (hn) {
++		hinode->hi_notify = NULL;
++		if (au_hnotify_op.free(hinode, hn))
++			au_cache_free_hnotify(hn);
++	}
++}
++
++/* ---------------------------------------------------------------------- */
++
++void au_hn_ctl(struct au_hinode *hinode, int do_set)
++{
++	if (hinode->hi_notify)
++		au_hnotify_op.ctl(hinode, do_set);
++}
++
++void au_hn_reset(struct inode *inode, unsigned int flags)
++{
++	aufs_bindex_t bindex, bbot;
++	struct inode *hi;
++	struct dentry *iwhdentry;
++
++	bbot = au_ibbot(inode);
++	for (bindex = au_ibtop(inode); bindex <= bbot; bindex++) {
++		hi = au_h_iptr(inode, bindex);
++		if (!hi)
++			continue;
++
++		/* inode_lock_nested(hi, AuLsc_I_CHILD); */
++		iwhdentry = au_hi_wh(inode, bindex);
++		if (iwhdentry)
++			dget(iwhdentry);
++		au_igrab(hi);
++		au_set_h_iptr(inode, bindex, NULL, 0);
++		au_set_h_iptr(inode, bindex, au_igrab(hi),
++			      flags & ~AuHi_XINO);
++		iput(hi);
++		dput(iwhdentry);
++		/* inode_unlock(hi); */
++	}
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int hn_xino(struct inode *inode, struct inode *h_inode)
++{
++	int err;
++	aufs_bindex_t bindex, bbot, bfound, btop;
++	struct inode *h_i;
++
++	err = 0;
++	if (unlikely(inode->i_ino == AUFS_ROOT_INO)) {
++		pr_warn("branch root dir was changed\n");
++		goto out;
++	}
++
++	bfound = -1;
++	bbot = au_ibbot(inode);
++	btop = au_ibtop(inode);
++#if 0 /* reserved for future use */
++	if (bindex == bbot) {
++		/* keep this ino in rename case */
++		goto out;
++	}
++#endif
++	for (bindex = btop; bindex <= bbot; bindex++)
++		if (au_h_iptr(inode, bindex) == h_inode) {
++			bfound = bindex;
++			break;
++		}
++	if (bfound < 0)
++		goto out;
++
++	for (bindex = btop; bindex <= bbot; bindex++) {
++		h_i = au_h_iptr(inode, bindex);
++		if (!h_i)
++			continue;
++
++		err = au_xino_write(inode->i_sb, bindex, h_i->i_ino, /*ino*/0);
++		/* ignore this error */
++		/* bad action? */
++	}
++
++	/* children inode number will be broken */
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++static int hn_gen_tree(struct dentry *dentry)
++{
++	int err, i, j, ndentry;
++	struct au_dcsub_pages dpages;
++	struct au_dpage *dpage;
++	struct dentry **dentries;
++
++	err = au_dpages_init(&dpages, GFP_NOFS);
++	if (unlikely(err))
++		goto out;
++	err = au_dcsub_pages(&dpages, dentry, NULL, NULL);
++	if (unlikely(err))
++		goto out_dpages;
++
++	for (i = 0; i < dpages.ndpage; i++) {
++		dpage = dpages.dpages + i;
++		dentries = dpage->dentries;
++		ndentry = dpage->ndentry;
++		for (j = 0; j < ndentry; j++) {
++			struct dentry *d;
++
++			d = dentries[j];
++			if (IS_ROOT(d))
++				continue;
++
++			au_digen_dec(d);
++			if (d_really_is_positive(d))
++				/* todo: reset children xino?
++				   cached children only? */
++				au_iigen_dec(d_inode(d));
++		}
++	}
++
++out_dpages:
++	au_dpages_free(&dpages);
++
++#if 0
++	/* discard children */
++	dentry_unhash(dentry);
++	dput(dentry);
++#endif
++out:
++	return err;
++}
++
++/*
++ * return 0 if processed.
++ */
++static int hn_gen_by_inode(char *name, unsigned int nlen, struct inode *inode,
++			   const unsigned int isdir)
++{
++	int err;
++	struct dentry *d;
++	struct qstr *dname;
++
++	err = 1;
++	if (unlikely(inode->i_ino == AUFS_ROOT_INO)) {
++		pr_warn("branch root dir was changed\n");
++		err = 0;
++		goto out;
++	}
++
++	if (!isdir) {
++		AuDebugOn(!name);
++		au_iigen_dec(inode);
++		spin_lock(&inode->i_lock);
++		hlist_for_each_entry(d, &inode->i_dentry, d_u.d_alias) {
++			spin_lock(&d->d_lock);
++			dname = &d->d_name;
++			if (dname->len != nlen
++			    && memcmp(dname->name, name, nlen)) {
++				spin_unlock(&d->d_lock);
++				continue;
++			}
++			err = 0;
++			au_digen_dec(d);
++			spin_unlock(&d->d_lock);
++			break;
++		}
++		spin_unlock(&inode->i_lock);
++	} else {
++		au_fset_si(au_sbi(inode->i_sb), FAILED_REFRESH_DIR);
++		d = d_find_any_alias(inode);
++		if (!d) {
++			au_iigen_dec(inode);
++			goto out;
++		}
++
++		spin_lock(&d->d_lock);
++		dname = &d->d_name;
++		if (dname->len == nlen && !memcmp(dname->name, name, nlen)) {
++			spin_unlock(&d->d_lock);
++			err = hn_gen_tree(d);
++			spin_lock(&d->d_lock);
++		}
++		spin_unlock(&d->d_lock);
++		dput(d);
++	}
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++static int hn_gen_by_name(struct dentry *dentry, const unsigned int isdir)
++{
++	int err;
++
++	if (IS_ROOT(dentry)) {
++		pr_warn("branch root dir was changed\n");
++		return 0;
++	}
++
++	err = 0;
++	if (!isdir) {
++		au_digen_dec(dentry);
++		if (d_really_is_positive(dentry))
++			au_iigen_dec(d_inode(dentry));
++	} else {
++		au_fset_si(au_sbi(dentry->d_sb), FAILED_REFRESH_DIR);
++		if (d_really_is_positive(dentry))
++			err = hn_gen_tree(dentry);
++	}
++
++	AuTraceErr(err);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* hnotify job flags */
++#define AuHnJob_XINO0		1
++#define AuHnJob_GEN		(1 << 1)
++#define AuHnJob_DIRENT		(1 << 2)
++#define AuHnJob_ISDIR		(1 << 3)
++#define AuHnJob_TRYXINO0	(1 << 4)
++#define AuHnJob_MNTPNT		(1 << 5)
++#define au_ftest_hnjob(flags, name)	((flags) & AuHnJob_##name)
++#define au_fset_hnjob(flags, name) \
++	do { (flags) |= AuHnJob_##name; } while (0)
++#define au_fclr_hnjob(flags, name) \
++	do { (flags) &= ~AuHnJob_##name; } while (0)
++
++enum {
++	AuHn_CHILD,
++	AuHn_PARENT,
++	AuHnLast
++};
++
++struct au_hnotify_args {
++	struct inode *h_dir, *dir, *h_child_inode;
++	u32 mask;
++	unsigned int flags[AuHnLast];
++	unsigned int h_child_nlen;
++	char h_child_name[];
++};
++
++struct hn_job_args {
++	unsigned int flags;
++	struct inode *inode, *h_inode, *dir, *h_dir;
++	struct dentry *dentry;
++	char *h_name;
++	int h_nlen;
++};
++
++static int hn_job(struct hn_job_args *a)
++{
++	const unsigned int isdir = au_ftest_hnjob(a->flags, ISDIR);
++	int e;
++
++	/* reset xino */
++	if (au_ftest_hnjob(a->flags, XINO0) && a->inode)
++		hn_xino(a->inode, a->h_inode); /* ignore this error */
++
++	if (au_ftest_hnjob(a->flags, TRYXINO0)
++	    && a->inode
++	    && a->h_inode) {
++		vfsub_inode_lock_shared_nested(a->h_inode, AuLsc_I_CHILD);
++		if (!a->h_inode->i_nlink
++		    && !(a->h_inode->i_state & I_LINKABLE))
++			hn_xino(a->inode, a->h_inode); /* ignore this error */
++		inode_unlock_shared(a->h_inode);
++	}
++
++	/* make the generation obsolete */
++	if (au_ftest_hnjob(a->flags, GEN)) {
++		e = -1;
++		if (a->inode)
++			e = hn_gen_by_inode(a->h_name, a->h_nlen, a->inode,
++					      isdir);
++		if (e && a->dentry)
++			hn_gen_by_name(a->dentry, isdir);
++		/* ignore this error */
++	}
++
++	/* make dir entries obsolete */
++	if (au_ftest_hnjob(a->flags, DIRENT) && a->inode) {
++		struct au_vdir *vdir;
++
++		vdir = au_ivdir(a->inode);
++		if (vdir)
++			vdir->vd_jiffy = 0;
++		/* IMustLock(a->inode); */
++		/* a->inode->i_version++; */
++	}
++
++	/* can do nothing but warn */
++	if (au_ftest_hnjob(a->flags, MNTPNT)
++	    && a->dentry
++	    && d_mountpoint(a->dentry))
++		pr_warn("mount-point %pd is removed or renamed\n", a->dentry);
++
++	return 0;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static struct dentry *lookup_wlock_by_name(char *name, unsigned int nlen,
++					   struct inode *dir)
++{
++	struct dentry *dentry, *d, *parent;
++	struct qstr *dname;
++
++	parent = d_find_any_alias(dir);
++	if (!parent)
++		return NULL;
++
++	dentry = NULL;
++	spin_lock(&parent->d_lock);
++	list_for_each_entry(d, &parent->d_subdirs, d_child) {
++		/* AuDbg("%pd\n", d); */
++		spin_lock_nested(&d->d_lock, DENTRY_D_LOCK_NESTED);
++		dname = &d->d_name;
++		if (dname->len != nlen || memcmp(dname->name, name, nlen))
++			goto cont_unlock;
++		if (au_di(d))
++			au_digen_dec(d);
++		else
++			goto cont_unlock;
++		if (au_dcount(d) > 0) {
++			dentry = dget_dlock(d);
++			spin_unlock(&d->d_lock);
++			break;
++		}
++
++cont_unlock:
++		spin_unlock(&d->d_lock);
++	}
++	spin_unlock(&parent->d_lock);
++	dput(parent);
++
++	if (dentry)
++		di_write_lock_child(dentry);
++
++	return dentry;
++}
++
++static struct inode *lookup_wlock_by_ino(struct super_block *sb,
++					 aufs_bindex_t bindex, ino_t h_ino)
++{
++	struct inode *inode;
++	ino_t ino;
++	int err;
++
++	inode = NULL;
++	err = au_xino_read(sb, bindex, h_ino, &ino);
++	if (!err && ino)
++		inode = ilookup(sb, ino);
++	if (!inode)
++		goto out;
++
++	if (unlikely(inode->i_ino == AUFS_ROOT_INO)) {
++		pr_warn("wrong root branch\n");
++		iput(inode);
++		inode = NULL;
++		goto out;
++	}
++
++	ii_write_lock_child(inode);
++
++out:
++	return inode;
++}
++
++static void au_hn_bh(void *_args)
++{
++	struct au_hnotify_args *a = _args;
++	struct super_block *sb;
++	aufs_bindex_t bindex, bbot, bfound;
++	unsigned char xino, try_iput;
++	int err;
++	struct inode *inode;
++	ino_t h_ino;
++	struct hn_job_args args;
++	struct dentry *dentry;
++	struct au_sbinfo *sbinfo;
++
++	AuDebugOn(!_args);
++	AuDebugOn(!a->h_dir);
++	AuDebugOn(!a->dir);
++	AuDebugOn(!a->mask);
++	AuDbg("mask 0x%x, i%lu, hi%lu, hci%lu\n",
++	      a->mask, a->dir->i_ino, a->h_dir->i_ino,
++	      a->h_child_inode ? a->h_child_inode->i_ino : 0);
++
++	inode = NULL;
++	dentry = NULL;
++	/*
++	 * do not lock a->dir->i_mutex here
++	 * because of d_revalidate() may cause a deadlock.
++	 */
++	sb = a->dir->i_sb;
++	AuDebugOn(!sb);
++	sbinfo = au_sbi(sb);
++	AuDebugOn(!sbinfo);
++	si_write_lock(sb, AuLock_NOPLMW);
++
++	ii_read_lock_parent(a->dir);
++	bfound = -1;
++	bbot = au_ibbot(a->dir);
++	for (bindex = au_ibtop(a->dir); bindex <= bbot; bindex++)
++		if (au_h_iptr(a->dir, bindex) == a->h_dir) {
++			bfound = bindex;
++			break;
++		}
++	ii_read_unlock(a->dir);
++	if (unlikely(bfound < 0))
++		goto out;
++
++	xino = !!au_opt_test(au_mntflags(sb), XINO);
++	h_ino = 0;
++	if (a->h_child_inode)
++		h_ino = a->h_child_inode->i_ino;
++
++	if (a->h_child_nlen
++	    && (au_ftest_hnjob(a->flags[AuHn_CHILD], GEN)
++		|| au_ftest_hnjob(a->flags[AuHn_CHILD], MNTPNT)))
++		dentry = lookup_wlock_by_name(a->h_child_name, a->h_child_nlen,
++					      a->dir);
++	try_iput = 0;
++	if (dentry && d_really_is_positive(dentry))
++		inode = d_inode(dentry);
++	if (xino && !inode && h_ino
++	    && (au_ftest_hnjob(a->flags[AuHn_CHILD], XINO0)
++		|| au_ftest_hnjob(a->flags[AuHn_CHILD], TRYXINO0)
++		|| au_ftest_hnjob(a->flags[AuHn_CHILD], GEN))) {
++		inode = lookup_wlock_by_ino(sb, bfound, h_ino);
++		try_iput = 1;
++	}
++
++	args.flags = a->flags[AuHn_CHILD];
++	args.dentry = dentry;
++	args.inode = inode;
++	args.h_inode = a->h_child_inode;
++	args.dir = a->dir;
++	args.h_dir = a->h_dir;
++	args.h_name = a->h_child_name;
++	args.h_nlen = a->h_child_nlen;
++	err = hn_job(&args);
++	if (dentry) {
++		if (au_di(dentry))
++			di_write_unlock(dentry);
++		dput(dentry);
++	}
++	if (inode && try_iput) {
++		ii_write_unlock(inode);
++		iput(inode);
++	}
++
++	ii_write_lock_parent(a->dir);
++	args.flags = a->flags[AuHn_PARENT];
++	args.dentry = NULL;
++	args.inode = a->dir;
++	args.h_inode = a->h_dir;
++	args.dir = NULL;
++	args.h_dir = NULL;
++	args.h_name = NULL;
++	args.h_nlen = 0;
++	err = hn_job(&args);
++	ii_write_unlock(a->dir);
++
++out:
++	iput(a->h_child_inode);
++	iput(a->h_dir);
++	iput(a->dir);
++	si_write_unlock(sb);
++	au_nwt_done(&sbinfo->si_nowait);
++	kfree(a);
++}
++
++/* ---------------------------------------------------------------------- */
++
++int au_hnotify(struct inode *h_dir, struct au_hnotify *hnotify, u32 mask,
++	       struct qstr *h_child_qstr, struct inode *h_child_inode)
++{
++	int err, len;
++	unsigned int flags[AuHnLast], f;
++	unsigned char isdir, isroot, wh;
++	struct inode *dir;
++	struct au_hnotify_args *args;
++	char *p, *h_child_name;
++
++	err = 0;
++	AuDebugOn(!hnotify || !hnotify->hn_aufs_inode);
++	dir = igrab(hnotify->hn_aufs_inode);
++	if (!dir)
++		goto out;
++
++	isroot = (dir->i_ino == AUFS_ROOT_INO);
++	wh = 0;
++	h_child_name = (void *)h_child_qstr->name;
++	len = h_child_qstr->len;
++	if (h_child_name) {
++		if (len > AUFS_WH_PFX_LEN
++		    && !memcmp(h_child_name, AUFS_WH_PFX, AUFS_WH_PFX_LEN)) {
++			h_child_name += AUFS_WH_PFX_LEN;
++			len -= AUFS_WH_PFX_LEN;
++			wh = 1;
++		}
++	}
++
++	isdir = 0;
++	if (h_child_inode)
++		isdir = !!S_ISDIR(h_child_inode->i_mode);
++	flags[AuHn_PARENT] = AuHnJob_ISDIR;
++	flags[AuHn_CHILD] = 0;
++	if (isdir)
++		flags[AuHn_CHILD] = AuHnJob_ISDIR;
++	au_fset_hnjob(flags[AuHn_PARENT], DIRENT);
++	au_fset_hnjob(flags[AuHn_CHILD], GEN);
++	switch (mask & FS_EVENTS_POSS_ON_CHILD) {
++	case FS_MOVED_FROM:
++	case FS_MOVED_TO:
++		au_fset_hnjob(flags[AuHn_CHILD], XINO0);
++		au_fset_hnjob(flags[AuHn_CHILD], MNTPNT);
++		/*FALLTHROUGH*/
++	case FS_CREATE:
++		AuDebugOn(!h_child_name);
++		break;
++
++	case FS_DELETE:
++		/*
++		 * aufs never be able to get this child inode.
++		 * revalidation should be in d_revalidate()
++		 * by checking i_nlink, i_generation or d_unhashed().
++		 */
++		AuDebugOn(!h_child_name);
++		au_fset_hnjob(flags[AuHn_CHILD], TRYXINO0);
++		au_fset_hnjob(flags[AuHn_CHILD], MNTPNT);
++		break;
++
++	default:
++		AuDebugOn(1);
++	}
++
++	if (wh)
++		h_child_inode = NULL;
++
++	err = -ENOMEM;
++	/* iput() and kfree() will be called in au_hnotify() */
++	args = kmalloc(sizeof(*args) + len + 1, GFP_NOFS);
++	if (unlikely(!args)) {
++		AuErr1("no memory\n");
++		iput(dir);
++		goto out;
++	}
++	args->flags[AuHn_PARENT] = flags[AuHn_PARENT];
++	args->flags[AuHn_CHILD] = flags[AuHn_CHILD];
++	args->mask = mask;
++	args->dir = dir;
++	args->h_dir = igrab(h_dir);
++	if (h_child_inode)
++		h_child_inode = igrab(h_child_inode); /* can be NULL */
++	args->h_child_inode = h_child_inode;
++	args->h_child_nlen = len;
++	if (len) {
++		p = (void *)args;
++		p += sizeof(*args);
++		memcpy(p, h_child_name, len);
++		p[len] = 0;
++	}
++
++	/* NFS fires the event for silly-renamed one from kworker */
++	f = 0;
++	if (!dir->i_nlink
++	    || (au_test_nfs(h_dir->i_sb) && (mask & FS_DELETE)))
++		f = AuWkq_NEST;
++	err = au_wkq_nowait(au_hn_bh, args, dir->i_sb, f);
++	if (unlikely(err)) {
++		pr_err("wkq %d\n", err);
++		iput(args->h_child_inode);
++		iput(args->h_dir);
++		iput(args->dir);
++		kfree(args);
++	}
++
++out:
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++int au_hnotify_reset_br(unsigned int udba, struct au_branch *br, int perm)
++{
++	int err;
++
++	AuDebugOn(!(udba & AuOptMask_UDBA));
++
++	err = 0;
++	if (au_hnotify_op.reset_br)
++		err = au_hnotify_op.reset_br(udba, br, perm);
++
++	return err;
++}
++
++int au_hnotify_init_br(struct au_branch *br, int perm)
++{
++	int err;
++
++	err = 0;
++	if (au_hnotify_op.init_br)
++		err = au_hnotify_op.init_br(br, perm);
++
++	return err;
++}
++
++void au_hnotify_fin_br(struct au_branch *br)
++{
++	if (au_hnotify_op.fin_br)
++		au_hnotify_op.fin_br(br);
++}
++
++static void au_hn_destroy_cache(void)
++{
++	kmem_cache_destroy(au_cache[AuCache_HNOTIFY]);
++	au_cache[AuCache_HNOTIFY] = NULL;
++}
++
++int __init au_hnotify_init(void)
++{
++	int err;
++
++	err = -ENOMEM;
++	au_cache[AuCache_HNOTIFY] = AuCache(au_hnotify);
++	if (au_cache[AuCache_HNOTIFY]) {
++		err = 0;
++		if (au_hnotify_op.init)
++			err = au_hnotify_op.init();
++		if (unlikely(err))
++			au_hn_destroy_cache();
++	}
++	AuTraceErr(err);
++	return err;
++}
++
++void au_hnotify_fin(void)
++{
++	if (au_hnotify_op.fin)
++		au_hnotify_op.fin();
++
++	/* cf. au_cache_fin() */
++	if (au_cache[AuCache_HNOTIFY])
++		au_hn_destroy_cache();
++}
+diff --git a/fs/aufs/i_op.c b/fs/aufs/i_op.c
+new file mode 100755
+index 0000000..1eef895
+--- /dev/null
++++ b/fs/aufs/i_op.c
+@@ -0,0 +1,1452 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * inode operations (except add/del/rename)
++ */
++
++#include <linux/device_cgroup.h>
++#include <linux/fs_stack.h>
++#include <linux/namei.h>
++#include <linux/security.h>
++#include "aufs.h"
++
++static int h_permission(struct inode *h_inode, int mask,
++			struct path *h_path, int brperm)
++{
++	int err;
++	const unsigned char write_mask = !!(mask & (MAY_WRITE | MAY_APPEND));
++
++	err = -EPERM;
++	if (write_mask && IS_IMMUTABLE(h_inode))
++		goto out;
++
++	err = -EACCES;
++	if (((mask & MAY_EXEC)
++	     && S_ISREG(h_inode->i_mode)
++	     && (path_noexec(h_path)
++		 || !(h_inode->i_mode & S_IXUGO))))
++		goto out;
++
++	/*
++	 * - skip the lower fs test in the case of write to ro branch.
++	 * - nfs dir permission write check is optimized, but a policy for
++	 *   link/rename requires a real check.
++	 * - nfs always sets MS_POSIXACL regardless its mount option 'noacl.'
++	 *   in this case, generic_permission() returns -EOPNOTSUPP.
++	 */
++	if ((write_mask && !au_br_writable(brperm))
++	    || (au_test_nfs(h_inode->i_sb) && S_ISDIR(h_inode->i_mode)
++		&& write_mask && !(mask & MAY_READ))
++	    || !h_inode->i_op->permission) {
++		/* AuLabel(generic_permission); */
++		/* AuDbg("get_acl %pf\n", h_inode->i_op->get_acl); */
++		err = generic_permission(h_inode, mask);
++		if (err == -EOPNOTSUPP && au_test_nfs_noacl(h_inode))
++			err = h_inode->i_op->permission(h_inode, mask);
++		AuTraceErr(err);
++	} else {
++		/* AuLabel(h_inode->permission); */
++		err = h_inode->i_op->permission(h_inode, mask);
++		AuTraceErr(err);
++	}
++
++	if (!err)
++		err = devcgroup_inode_permission(h_inode, mask);
++	if (!err)
++		err = security_inode_permission(h_inode, mask);
++
++#if 0
++	if (!err) {
++		/* todo: do we need to call ima_path_check()? */
++		struct path h_path = {
++			.dentry	=
++			.mnt	= h_mnt
++		};
++		err = ima_path_check(&h_path,
++				     mask & (MAY_READ | MAY_WRITE | MAY_EXEC),
++				     IMA_COUNT_LEAVE);
++	}
++#endif
++
++out:
++	return err;
++}
++
++static int aufs_permission(struct inode *inode, int mask)
++{
++	int err;
++	aufs_bindex_t bindex, bbot;
++	const unsigned char isdir = !!S_ISDIR(inode->i_mode),
++		write_mask = !!(mask & (MAY_WRITE | MAY_APPEND));
++	struct inode *h_inode;
++	struct super_block *sb;
++	struct au_branch *br;
++
++	/* todo: support rcu-walk? */
++	if (mask & MAY_NOT_BLOCK)
++		return -ECHILD;
++
++	sb = inode->i_sb;
++	si_read_lock(sb, AuLock_FLUSH);
++	ii_read_lock_child(inode);
++#if 0
++	err = au_iigen_test(inode, au_sigen(sb));
++	if (unlikely(err))
++		goto out;
++#endif
++
++	if (!isdir
++	    || write_mask
++	    || au_opt_test(au_mntflags(sb), DIRPERM1)) {
++		err = au_busy_or_stale();
++		h_inode = au_h_iptr(inode, au_ibtop(inode));
++		if (unlikely(!h_inode
++			     || (h_inode->i_mode & S_IFMT)
++			     != (inode->i_mode & S_IFMT)))
++			goto out;
++
++		err = 0;
++		bindex = au_ibtop(inode);
++		br = au_sbr(sb, bindex);
++		err = h_permission(h_inode, mask, &br->br_path, br->br_perm);
++		if (write_mask
++		    && !err
++		    && !special_file(h_inode->i_mode)) {
++			/* test whether the upper writable branch exists */
++			err = -EROFS;
++			for (; bindex >= 0; bindex--)
++				if (!au_br_rdonly(au_sbr(sb, bindex))) {
++					err = 0;
++					break;
++				}
++		}
++		goto out;
++	}
++
++	/* non-write to dir */
++	err = 0;
++	bbot = au_ibbot(inode);
++	for (bindex = au_ibtop(inode); !err && bindex <= bbot; bindex++) {
++		h_inode = au_h_iptr(inode, bindex);
++		if (h_inode) {
++			err = au_busy_or_stale();
++			if (unlikely(!S_ISDIR(h_inode->i_mode)))
++				break;
++
++			br = au_sbr(sb, bindex);
++			err = h_permission(h_inode, mask, &br->br_path,
++					   br->br_perm);
++		}
++	}
++
++out:
++	ii_read_unlock(inode);
++	si_read_unlock(sb);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static struct dentry *aufs_lookup(struct inode *dir, struct dentry *dentry,
++				  unsigned int flags)
++{
++	struct dentry *ret, *parent;
++	struct inode *inode;
++	struct super_block *sb;
++	int err, npositive;
++
++	IMustLock(dir);
++
++	/* todo: support rcu-walk? */
++	ret = ERR_PTR(-ECHILD);
++	if (flags & LOOKUP_RCU)
++		goto out;
++
++	ret = ERR_PTR(-ENAMETOOLONG);
++	if (unlikely(dentry->d_name.len > AUFS_MAX_NAMELEN))
++		goto out;
++
++	sb = dir->i_sb;
++	err = si_read_lock(sb, AuLock_FLUSH | AuLock_NOPLM);
++	ret = ERR_PTR(err);
++	if (unlikely(err))
++		goto out;
++
++	err = au_di_init(dentry);
++	ret = ERR_PTR(err);
++	if (unlikely(err))
++		goto out_si;
++
++	inode = NULL;
++	npositive = 0; /* suppress a warning */
++	parent = dentry->d_parent; /* dir inode is locked */
++	di_read_lock_parent(parent, AuLock_IR);
++	err = au_alive_dir(parent);
++	if (!err)
++		err = au_digen_test(parent, au_sigen(sb));
++	if (!err) {
++		/* regardless LOOKUP_CREATE, always ALLOW_NEG */
++		npositive = au_lkup_dentry(dentry, au_dbtop(parent),
++					   AuLkup_ALLOW_NEG);
++		err = npositive;
++	}
++	di_read_unlock(parent, AuLock_IR);
++	ret = ERR_PTR(err);
++	if (unlikely(err < 0))
++		goto out_unlock;
++
++	if (npositive) {
++		inode = au_new_inode(dentry, /*must_new*/0);
++		if (IS_ERR(inode)) {
++			ret = (void *)inode;
++			inode = NULL;
++			goto out_unlock;
++		}
++	}
++
++	if (inode)
++		atomic_inc(&inode->i_count);
++	ret = d_splice_alias(inode, dentry);
++#if 0
++	if (unlikely(d_need_lookup(dentry))) {
++		spin_lock(&dentry->d_lock);
++		dentry->d_flags &= ~DCACHE_NEED_LOOKUP;
++		spin_unlock(&dentry->d_lock);
++	} else
++#endif
++	if (inode) {
++		if (!IS_ERR(ret)) {
++			iput(inode);
++			if (ret && ret != dentry)
++				ii_write_unlock(inode);
++		} else {
++			ii_write_unlock(inode);
++			iput(inode);
++			inode = NULL;
++		}
++	}
++
++out_unlock:
++	di_write_unlock(dentry);
++out_si:
++	si_read_unlock(sb);
++out:
++	return ret;
++}
++
++/* ---------------------------------------------------------------------- */
++
++struct aopen_node {
++	struct hlist_node hlist;
++	struct file *file, *h_file;
++};
++
++static int au_do_aopen(struct inode *inode, struct file *file)
++{
++	struct au_sphlhead *aopen;
++	struct aopen_node *node;
++	struct au_do_open_args args = {
++		.no_lock	= 1,
++		.open		= au_do_open_nondir
++	};
++
++	aopen = &au_sbi(inode->i_sb)->si_aopen;
++	spin_lock(&aopen->spin);
++	hlist_for_each_entry(node, &aopen->head, hlist)
++		if (node->file == file) {
++			args.h_file = node->h_file;
++			break;
++		}
++	spin_unlock(&aopen->spin);
++	/* AuDebugOn(!args.h_file); */
++
++	return au_do_open(file, &args);
++}
++
++static int aufs_atomic_open(struct inode *dir, struct dentry *dentry,
++			    struct file *file, unsigned int open_flag,
++			    umode_t create_mode, int *opened)
++{
++	int err, h_opened = *opened;
++	unsigned int lkup_flags;
++	struct dentry *parent, *d;
++	struct au_sphlhead *aopen;
++	struct vfsub_aopen_args args = {
++		.open_flag	= open_flag,
++		.create_mode	= create_mode,
++		.opened		= &h_opened
++	};
++	struct aopen_node aopen_node = {
++		.file	= file
++	};
++
++	IMustLock(dir);
++	AuDbg("open_flag 0%o\n", open_flag);
++	AuDbgDentry(dentry);
++
++	err = 0;
++	if (!au_di(dentry)) {
++		lkup_flags = LOOKUP_OPEN;
++		if (open_flag & O_CREAT)
++			lkup_flags |= LOOKUP_CREATE;
++		d = aufs_lookup(dir, dentry, lkup_flags);
++		if (IS_ERR(d)) {
++			err = PTR_ERR(d);
++			AuTraceErr(err);
++			goto out;
++		} else if (d) {
++			/*
++			 * obsoleted dentry found.
++			 * another error will be returned later.
++			 */
++			d_drop(d);
++			AuDbgDentry(d);
++			dput(d);
++		}
++		AuDbgDentry(dentry);
++	}
++
++	if (d_is_positive(dentry)
++	    || d_unhashed(dentry)
++	    || d_unlinked(dentry)
++	    || !(open_flag & O_CREAT))
++		goto out_no_open;
++
++	err = aufs_read_lock(dentry, AuLock_DW | AuLock_FLUSH | AuLock_GEN);
++	if (unlikely(err))
++		goto out;
++
++	parent = dentry->d_parent;	/* dir is locked */
++	di_write_lock_parent(parent);
++	err = au_lkup_dentry(dentry, /*btop*/0, AuLkup_ALLOW_NEG);
++	if (unlikely(err))
++		goto out_unlock;
++
++	AuDbgDentry(dentry);
++	if (d_is_positive(dentry))
++		goto out_unlock;
++
++	args.file = get_empty_filp();
++	err = PTR_ERR(args.file);
++	if (IS_ERR(args.file))
++		goto out_unlock;
++
++	args.file->f_flags = file->f_flags;
++	err = au_aopen_or_create(dir, dentry, &args);
++	AuTraceErr(err);
++	AuDbgFile(args.file);
++	if (unlikely(err < 0)) {
++		if (h_opened & FILE_OPENED)
++			fput(args.file);
++		else
++			put_filp(args.file);
++		goto out_unlock;
++	}
++
++	/* some filesystems don't set FILE_CREATED while succeeded? */
++	*opened |= FILE_CREATED;
++	if (h_opened & FILE_OPENED)
++		aopen_node.h_file = args.file;
++	else {
++		put_filp(args.file);
++		args.file = NULL;
++	}
++	aopen = &au_sbi(dir->i_sb)->si_aopen;
++	au_sphl_add(&aopen_node.hlist, aopen);
++	err = finish_open(file, dentry, au_do_aopen, opened);
++	au_sphl_del(&aopen_node.hlist, aopen);
++	AuTraceErr(err);
++	AuDbgFile(file);
++	if (aopen_node.h_file)
++		fput(aopen_node.h_file);
++
++out_unlock:
++	di_write_unlock(parent);
++	aufs_read_unlock(dentry, AuLock_DW);
++	AuDbgDentry(dentry);
++	if (unlikely(err < 0))
++		goto out;
++out_no_open:
++	if (err >= 0 && !(*opened & FILE_CREATED)) {
++		AuLabel(out_no_open);
++		dget(dentry);
++		err = finish_no_open(file, dentry);
++	}
++out:
++	AuDbg("%pd%s%s\n", dentry,
++	      (*opened & FILE_CREATED) ? " created" : "",
++	      (*opened & FILE_OPENED) ? " opened" : "");
++	AuTraceErr(err);
++	return err;
++}
++
++
++/* ---------------------------------------------------------------------- */
++
++static int au_wr_dir_cpup(struct dentry *dentry, struct dentry *parent,
++			  const unsigned char add_entry, aufs_bindex_t bcpup,
++			  aufs_bindex_t btop)
++{
++	int err;
++	struct dentry *h_parent;
++	struct inode *h_dir;
++
++	if (add_entry)
++		IMustLock(d_inode(parent));
++	else
++		di_write_lock_parent(parent);
++
++	err = 0;
++	if (!au_h_dptr(parent, bcpup)) {
++		if (btop > bcpup)
++			err = au_cpup_dirs(dentry, bcpup);
++		else if (btop < bcpup)
++			err = au_cpdown_dirs(dentry, bcpup);
++		else
++			BUG();
++	}
++	if (!err && add_entry && !au_ftest_wrdir(add_entry, TMPFILE)) {
++		h_parent = au_h_dptr(parent, bcpup);
++		h_dir = d_inode(h_parent);
++		vfsub_inode_lock_shared_nested(h_dir, AuLsc_I_PARENT);
++		err = au_lkup_neg(dentry, bcpup, /*wh*/0);
++		/* todo: no unlock here */
++		inode_unlock_shared(h_dir);
++
++		AuDbg("bcpup %d\n", bcpup);
++		if (!err) {
++			if (d_really_is_negative(dentry))
++				au_set_h_dptr(dentry, btop, NULL);
++			au_update_dbrange(dentry, /*do_put_zero*/0);
++		}
++	}
++
++	if (!add_entry)
++		di_write_unlock(parent);
++	if (!err)
++		err = bcpup; /* success */
++
++	AuTraceErr(err);
++	return err;
++}
++
++/*
++ * decide the branch and the parent dir where we will create a new entry.
++ * returns new bindex or an error.
++ * copyup the parent dir if needed.
++ */
++int au_wr_dir(struct dentry *dentry, struct dentry *src_dentry,
++	      struct au_wr_dir_args *args)
++{
++	int err;
++	unsigned int flags;
++	aufs_bindex_t bcpup, btop, src_btop;
++	const unsigned char add_entry
++		= au_ftest_wrdir(args->flags, ADD_ENTRY)
++		| au_ftest_wrdir(args->flags, TMPFILE);
++	struct super_block *sb;
++	struct dentry *parent;
++	struct au_sbinfo *sbinfo;
++
++	sb = dentry->d_sb;
++	sbinfo = au_sbi(sb);
++	parent = dget_parent(dentry);
++	btop = au_dbtop(dentry);
++	bcpup = btop;
++	if (args->force_btgt < 0) {
++		if (src_dentry) {
++			src_btop = au_dbtop(src_dentry);
++			if (src_btop < btop)
++				bcpup = src_btop;
++		} else if (add_entry) {
++			flags = 0;
++			if (au_ftest_wrdir(args->flags, ISDIR))
++				au_fset_wbr(flags, DIR);
++			err = AuWbrCreate(sbinfo, dentry, flags);
++			bcpup = err;
++		}
++
++		if (bcpup < 0 || au_test_ro(sb, bcpup, d_inode(dentry))) {
++			if (add_entry)
++				err = AuWbrCopyup(sbinfo, dentry);
++			else {
++				if (!IS_ROOT(dentry)) {
++					di_read_lock_parent(parent, !AuLock_IR);
++					err = AuWbrCopyup(sbinfo, dentry);
++					di_read_unlock(parent, !AuLock_IR);
++				} else
++					err = AuWbrCopyup(sbinfo, dentry);
++			}
++			bcpup = err;
++			if (unlikely(err < 0))
++				goto out;
++		}
++	} else {
++		bcpup = args->force_btgt;
++		AuDebugOn(au_test_ro(sb, bcpup, d_inode(dentry)));
++	}
++
++	AuDbg("btop %d, bcpup %d\n", btop, bcpup);
++	err = bcpup;
++	if (bcpup == btop)
++		goto out; /* success */
++
++	/* copyup the new parent into the branch we process */
++	err = au_wr_dir_cpup(dentry, parent, add_entry, bcpup, btop);
++	if (err >= 0) {
++		if (d_really_is_negative(dentry)) {
++			au_set_h_dptr(dentry, btop, NULL);
++			au_set_dbtop(dentry, bcpup);
++			au_set_dbbot(dentry, bcpup);
++		}
++		AuDebugOn(add_entry
++			  && !au_ftest_wrdir(args->flags, TMPFILE)
++			  && !au_h_dptr(dentry, bcpup));
++	}
++
++out:
++	dput(parent);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++void au_pin_hdir_unlock(struct au_pin *p)
++{
++	if (p->hdir)
++		au_hn_inode_unlock(p->hdir);
++}
++
++int au_pin_hdir_lock(struct au_pin *p)
++{
++	int err;
++
++	err = 0;
++	if (!p->hdir)
++		goto out;
++
++	/* even if an error happens later, keep this lock */
++	au_hn_inode_lock_nested(p->hdir, p->lsc_hi);
++
++	err = -EBUSY;
++	if (unlikely(p->hdir->hi_inode != d_inode(p->h_parent)))
++		goto out;
++
++	err = 0;
++	if (p->h_dentry)
++		err = au_h_verify(p->h_dentry, p->udba, p->hdir->hi_inode,
++				  p->h_parent, p->br);
++
++out:
++	return err;
++}
++
++int au_pin_hdir_relock(struct au_pin *p)
++{
++	int err, i;
++	struct inode *h_i;
++	struct dentry *h_d[] = {
++		p->h_dentry,
++		p->h_parent
++	};
++
++	err = au_pin_hdir_lock(p);
++	if (unlikely(err))
++		goto out;
++
++	for (i = 0; !err && i < sizeof(h_d)/sizeof(*h_d); i++) {
++		if (!h_d[i])
++			continue;
++		if (d_is_positive(h_d[i])) {
++			h_i = d_inode(h_d[i]);
++			err = !h_i->i_nlink;
++		}
++	}
++
++out:
++	return err;
++}
++
++static void au_pin_hdir_set_owner(struct au_pin *p, struct task_struct *task)
++{
++#if !defined(CONFIG_RWSEM_GENERIC_SPINLOCK) && defined(CONFIG_RWSEM_SPIN_ON_OWNER)
++	p->hdir->hi_inode->i_rwsem.owner = task;
++#endif
++}
++
++void au_pin_hdir_acquire_nest(struct au_pin *p)
++{
++	if (p->hdir) {
++		rwsem_acquire_nest(&p->hdir->hi_inode->i_rwsem.dep_map,
++				   p->lsc_hi, 0, NULL, _RET_IP_);
++		au_pin_hdir_set_owner(p, current);
++	}
++}
++
++void au_pin_hdir_release(struct au_pin *p)
++{
++	if (p->hdir) {
++		au_pin_hdir_set_owner(p, p->task);
++		rwsem_release(&p->hdir->hi_inode->i_rwsem.dep_map, 1, _RET_IP_);
++	}
++}
++
++struct dentry *au_pinned_h_parent(struct au_pin *pin)
++{
++	if (pin && pin->parent)
++		return au_h_dptr(pin->parent, pin->bindex);
++	return NULL;
++}
++
++void au_unpin(struct au_pin *p)
++{
++	if (p->hdir)
++		au_pin_hdir_unlock(p);
++	if (p->h_mnt && au_ftest_pin(p->flags, MNT_WRITE))
++		vfsub_mnt_drop_write(p->h_mnt);
++	if (!p->hdir)
++		return;
++
++	if (!au_ftest_pin(p->flags, DI_LOCKED))
++		di_read_unlock(p->parent, AuLock_IR);
++	iput(p->hdir->hi_inode);
++	dput(p->parent);
++	p->parent = NULL;
++	p->hdir = NULL;
++	p->h_mnt = NULL;
++	/* do not clear p->task */
++}
++
++int au_do_pin(struct au_pin *p)
++{
++	int err;
++	struct super_block *sb;
++	struct inode *h_dir;
++
++	err = 0;
++	sb = p->dentry->d_sb;
++	p->br = au_sbr(sb, p->bindex);
++	if (IS_ROOT(p->dentry)) {
++		if (au_ftest_pin(p->flags, MNT_WRITE)) {
++			p->h_mnt = au_br_mnt(p->br);
++			err = vfsub_mnt_want_write(p->h_mnt);
++			if (unlikely(err)) {
++				au_fclr_pin(p->flags, MNT_WRITE);
++				goto out_err;
++			}
++		}
++		goto out;
++	}
++
++	p->h_dentry = NULL;
++	if (p->bindex <= au_dbbot(p->dentry))
++		p->h_dentry = au_h_dptr(p->dentry, p->bindex);
++
++	p->parent = dget_parent(p->dentry);
++	if (!au_ftest_pin(p->flags, DI_LOCKED))
++		di_read_lock(p->parent, AuLock_IR, p->lsc_di);
++
++	h_dir = NULL;
++	p->h_parent = au_h_dptr(p->parent, p->bindex);
++	p->hdir = au_hi(d_inode(p->parent), p->bindex);
++	if (p->hdir)
++		h_dir = p->hdir->hi_inode;
++
++	/*
++	 * udba case, or
++	 * if DI_LOCKED is not set, then p->parent may be different
++	 * and h_parent can be NULL.
++	 */
++	if (unlikely(!p->hdir || !h_dir || !p->h_parent)) {
++		err = -EBUSY;
++		if (!au_ftest_pin(p->flags, DI_LOCKED))
++			di_read_unlock(p->parent, AuLock_IR);
++		dput(p->parent);
++		p->parent = NULL;
++		goto out_err;
++	}
++
++	if (au_ftest_pin(p->flags, MNT_WRITE)) {
++		p->h_mnt = au_br_mnt(p->br);
++		err = vfsub_mnt_want_write(p->h_mnt);
++		if (unlikely(err)) {
++			au_fclr_pin(p->flags, MNT_WRITE);
++			if (!au_ftest_pin(p->flags, DI_LOCKED))
++				di_read_unlock(p->parent, AuLock_IR);
++			dput(p->parent);
++			p->parent = NULL;
++			goto out_err;
++		}
++	}
++
++	au_igrab(h_dir);
++	err = au_pin_hdir_lock(p);
++	if (!err)
++		goto out; /* success */
++
++	au_unpin(p);
++
++out_err:
++	pr_err("err %d\n", err);
++	err = au_busy_or_stale();
++out:
++	return err;
++}
++
++void au_pin_init(struct au_pin *p, struct dentry *dentry,
++		 aufs_bindex_t bindex, int lsc_di, int lsc_hi,
++		 unsigned int udba, unsigned char flags)
++{
++	p->dentry = dentry;
++	p->udba = udba;
++	p->lsc_di = lsc_di;
++	p->lsc_hi = lsc_hi;
++	p->flags = flags;
++	p->bindex = bindex;
++
++	p->parent = NULL;
++	p->hdir = NULL;
++	p->h_mnt = NULL;
++
++	p->h_dentry = NULL;
++	p->h_parent = NULL;
++	p->br = NULL;
++	p->task = current;
++}
++
++int au_pin(struct au_pin *pin, struct dentry *dentry, aufs_bindex_t bindex,
++	   unsigned int udba, unsigned char flags)
++{
++	au_pin_init(pin, dentry, bindex, AuLsc_DI_PARENT, AuLsc_I_PARENT2,
++		    udba, flags);
++	return au_do_pin(pin);
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * ->setattr() and ->getattr() are called in various cases.
++ * chmod, stat: dentry is revalidated.
++ * fchmod, fstat: file and dentry are not revalidated, additionally they may be
++ *		  unhashed.
++ * for ->setattr(), ia->ia_file is passed from ftruncate only.
++ */
++/* todo: consolidate with do_refresh() and simple_reval_dpath() */
++int au_reval_for_attr(struct dentry *dentry, unsigned int sigen)
++{
++	int err;
++	struct dentry *parent;
++
++	err = 0;
++	if (au_digen_test(dentry, sigen)) {
++		parent = dget_parent(dentry);
++		di_read_lock_parent(parent, AuLock_IR);
++		err = au_refresh_dentry(dentry, parent);
++		di_read_unlock(parent, AuLock_IR);
++		dput(parent);
++	}
++
++	AuTraceErr(err);
++	return err;
++}
++
++int au_pin_and_icpup(struct dentry *dentry, struct iattr *ia,
++		     struct au_icpup_args *a)
++{
++	int err;
++	loff_t sz;
++	aufs_bindex_t btop, ibtop;
++	struct dentry *hi_wh, *parent;
++	struct inode *inode;
++	struct au_wr_dir_args wr_dir_args = {
++		.force_btgt	= -1,
++		.flags		= 0
++	};
++
++	if (d_is_dir(dentry))
++		au_fset_wrdir(wr_dir_args.flags, ISDIR);
++	/* plink or hi_wh() case */
++	btop = au_dbtop(dentry);
++	inode = d_inode(dentry);
++	ibtop = au_ibtop(inode);
++	if (btop != ibtop && !au_test_ro(inode->i_sb, ibtop, inode))
++		wr_dir_args.force_btgt = ibtop;
++	err = au_wr_dir(dentry, /*src_dentry*/NULL, &wr_dir_args);
++	if (unlikely(err < 0))
++		goto out;
++	a->btgt = err;
++	if (err != btop)
++		au_fset_icpup(a->flags, DID_CPUP);
++
++	err = 0;
++	a->pin_flags = AuPin_MNT_WRITE;
++	parent = NULL;
++	if (!IS_ROOT(dentry)) {
++		au_fset_pin(a->pin_flags, DI_LOCKED);
++		parent = dget_parent(dentry);
++		di_write_lock_parent(parent);
++	}
++
++	err = au_pin(&a->pin, dentry, a->btgt, a->udba, a->pin_flags);
++	if (unlikely(err))
++		goto out_parent;
++
++	sz = -1;
++	a->h_path.dentry = au_h_dptr(dentry, btop);
++	a->h_inode = d_inode(a->h_path.dentry);
++	if (ia && (ia->ia_valid & ATTR_SIZE)) {
++		vfsub_inode_lock_shared_nested(a->h_inode, AuLsc_I_CHILD);
++		if (ia->ia_size < i_size_read(a->h_inode))
++			sz = ia->ia_size;
++		inode_unlock_shared(a->h_inode);
++	}
++
++	hi_wh = NULL;
++	if (au_ftest_icpup(a->flags, DID_CPUP) && d_unlinked(dentry)) {
++		hi_wh = au_hi_wh(inode, a->btgt);
++		if (!hi_wh) {
++			struct au_cp_generic cpg = {
++				.dentry	= dentry,
++				.bdst	= a->btgt,
++				.bsrc	= -1,
++				.len	= sz,
++				.pin	= &a->pin
++			};
++			err = au_sio_cpup_wh(&cpg, /*file*/NULL);
++			if (unlikely(err))
++				goto out_unlock;
++			hi_wh = au_hi_wh(inode, a->btgt);
++			/* todo: revalidate hi_wh? */
++		}
++	}
++
++	if (parent) {
++		au_pin_set_parent_lflag(&a->pin, /*lflag*/0);
++		di_downgrade_lock(parent, AuLock_IR);
++		dput(parent);
++		parent = NULL;
++	}
++	if (!au_ftest_icpup(a->flags, DID_CPUP))
++		goto out; /* success */
++
++	if (!d_unhashed(dentry)) {
++		struct au_cp_generic cpg = {
++			.dentry	= dentry,
++			.bdst	= a->btgt,
++			.bsrc	= btop,
++			.len	= sz,
++			.pin	= &a->pin,
++			.flags	= AuCpup_DTIME | AuCpup_HOPEN
++		};
++		err = au_sio_cpup_simple(&cpg);
++		if (!err)
++			a->h_path.dentry = au_h_dptr(dentry, a->btgt);
++	} else if (!hi_wh)
++		a->h_path.dentry = au_h_dptr(dentry, a->btgt);
++	else
++		a->h_path.dentry = hi_wh; /* do not dget here */
++
++out_unlock:
++	a->h_inode = d_inode(a->h_path.dentry);
++	if (!err)
++		goto out; /* success */
++	au_unpin(&a->pin);
++out_parent:
++	if (parent) {
++		di_write_unlock(parent);
++		dput(parent);
++	}
++out:
++	if (!err)
++		inode_lock_nested(a->h_inode, AuLsc_I_CHILD);
++	return err;
++}
++
++static int aufs_setattr(struct dentry *dentry, struct iattr *ia)
++{
++	int err;
++	struct inode *inode, *delegated;
++	struct super_block *sb;
++	struct file *file;
++	struct au_icpup_args *a;
++
++	inode = d_inode(dentry);
++	IMustLock(inode);
++
++	err = setattr_prepare(dentry, ia);
++	if (unlikely(err))
++		goto out;
++
++	err = -ENOMEM;
++	a = kzalloc(sizeof(*a), GFP_NOFS);
++	if (unlikely(!a))
++		goto out;
++
++	if (ia->ia_valid & (ATTR_KILL_SUID | ATTR_KILL_SGID))
++		ia->ia_valid &= ~ATTR_MODE;
++
++	file = NULL;
++	sb = dentry->d_sb;
++	err = si_read_lock(sb, AuLock_FLUSH | AuLock_NOPLM);
++	if (unlikely(err))
++		goto out_kfree;
++
++	if (ia->ia_valid & ATTR_FILE) {
++		/* currently ftruncate(2) only */
++		AuDebugOn(!d_is_reg(dentry));
++		file = ia->ia_file;
++		err = au_reval_and_lock_fdi(file, au_reopen_nondir, /*wlock*/1,
++					    /*fi_lsc*/0);
++		if (unlikely(err))
++			goto out_si;
++		ia->ia_file = au_hf_top(file);
++		a->udba = AuOpt_UDBA_NONE;
++	} else {
++		/* fchmod() doesn't pass ia_file */
++		a->udba = au_opt_udba(sb);
++		di_write_lock_child(dentry);
++		/* no d_unlinked(), to set UDBA_NONE for root */
++		if (d_unhashed(dentry))
++			a->udba = AuOpt_UDBA_NONE;
++		if (a->udba != AuOpt_UDBA_NONE) {
++			AuDebugOn(IS_ROOT(dentry));
++			err = au_reval_for_attr(dentry, au_sigen(sb));
++			if (unlikely(err))
++				goto out_dentry;
++		}
++	}
++
++	err = au_pin_and_icpup(dentry, ia, a);
++	if (unlikely(err < 0))
++		goto out_dentry;
++	if (au_ftest_icpup(a->flags, DID_CPUP)) {
++		ia->ia_file = NULL;
++		ia->ia_valid &= ~ATTR_FILE;
++	}
++
++	a->h_path.mnt = au_sbr_mnt(sb, a->btgt);
++	if ((ia->ia_valid & (ATTR_MODE | ATTR_CTIME))
++	    == (ATTR_MODE | ATTR_CTIME)) {
++		err = security_path_chmod(&a->h_path, ia->ia_mode);
++		if (unlikely(err))
++			goto out_unlock;
++	} else if ((ia->ia_valid & (ATTR_UID | ATTR_GID))
++		   && (ia->ia_valid & ATTR_CTIME)) {
++		err = security_path_chown(&a->h_path, ia->ia_uid, ia->ia_gid);
++		if (unlikely(err))
++			goto out_unlock;
++	}
++
++	if (ia->ia_valid & ATTR_SIZE) {
++		struct file *f;
++
++		if (ia->ia_size < i_size_read(inode))
++			/* unmap only */
++			truncate_setsize(inode, ia->ia_size);
++
++		f = NULL;
++		if (ia->ia_valid & ATTR_FILE)
++			f = ia->ia_file;
++		inode_unlock(a->h_inode);
++		err = vfsub_trunc(&a->h_path, ia->ia_size, ia->ia_valid, f);
++		inode_lock_nested(a->h_inode, AuLsc_I_CHILD);
++	} else {
++		delegated = NULL;
++		while (1) {
++			err = vfsub_notify_change(&a->h_path, ia, &delegated);
++			if (delegated) {
++				err = break_deleg_wait(&delegated);
++				if (!err)
++					continue;
++			}
++			break;
++		}
++	}
++	/*
++	 * regardless aufs 'acl' option setting.
++	 * why don't all acl-aware fs call this func from their ->setattr()?
++	 */
++	if (!err && (ia->ia_valid & ATTR_MODE))
++		err = vfsub_acl_chmod(a->h_inode, ia->ia_mode);
++	if (!err)
++		au_cpup_attr_changeable(inode);
++
++out_unlock:
++	inode_unlock(a->h_inode);
++	au_unpin(&a->pin);
++	if (unlikely(err))
++		au_update_dbtop(dentry);
++out_dentry:
++	di_write_unlock(dentry);
++	if (file) {
++		fi_write_unlock(file);
++		ia->ia_file = file;
++		ia->ia_valid |= ATTR_FILE;
++	}
++out_si:
++	si_read_unlock(sb);
++out_kfree:
++	kfree(a);
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++#if IS_ENABLED(CONFIG_AUFS_XATTR) || IS_ENABLED(CONFIG_FS_POSIX_ACL)
++static int au_h_path_to_set_attr(struct dentry *dentry,
++				 struct au_icpup_args *a, struct path *h_path)
++{
++	int err;
++	struct super_block *sb;
++
++	sb = dentry->d_sb;
++	a->udba = au_opt_udba(sb);
++	/* no d_unlinked(), to set UDBA_NONE for root */
++	if (d_unhashed(dentry))
++		a->udba = AuOpt_UDBA_NONE;
++	if (a->udba != AuOpt_UDBA_NONE) {
++		AuDebugOn(IS_ROOT(dentry));
++		err = au_reval_for_attr(dentry, au_sigen(sb));
++		if (unlikely(err))
++			goto out;
++	}
++	err = au_pin_and_icpup(dentry, /*ia*/NULL, a);
++	if (unlikely(err < 0))
++		goto out;
++
++	h_path->dentry = a->h_path.dentry;
++	h_path->mnt = au_sbr_mnt(sb, a->btgt);
++
++out:
++	return err;
++}
++
++ssize_t au_sxattr(struct dentry *dentry, struct inode *inode,
++		  struct au_sxattr *arg)
++{
++	int err;
++	struct path h_path;
++	struct super_block *sb;
++	struct au_icpup_args *a;
++	struct inode *h_inode;
++
++	IMustLock(inode);
++
++	err = -ENOMEM;
++	a = kzalloc(sizeof(*a), GFP_NOFS);
++	if (unlikely(!a))
++		goto out;
++
++	sb = dentry->d_sb;
++	err = si_read_lock(sb, AuLock_FLUSH | AuLock_NOPLM);
++	if (unlikely(err))
++		goto out_kfree;
++
++	h_path.dentry = NULL;	/* silence gcc */
++	di_write_lock_child(dentry);
++	err = au_h_path_to_set_attr(dentry, a, &h_path);
++	if (unlikely(err))
++		goto out_di;
++
++	inode_unlock(a->h_inode);
++	switch (arg->type) {
++	case AU_XATTR_SET:
++		AuDebugOn(d_is_negative(h_path.dentry));
++		err = vfsub_setxattr(h_path.dentry,
++				     arg->u.set.name, arg->u.set.value,
++				     arg->u.set.size, arg->u.set.flags);
++		break;
++	case AU_ACL_SET:
++		err = -EOPNOTSUPP;
++		h_inode = d_inode(h_path.dentry);
++		if (h_inode->i_op->set_acl)
++			/* this will call posix_acl_update_mode */
++			err = h_inode->i_op->set_acl(h_inode,
++						     arg->u.acl_set.acl,
++						     arg->u.acl_set.type);
++		break;
++	}
++	if (!err)
++		au_cpup_attr_timesizes(inode);
++
++	au_unpin(&a->pin);
++	if (unlikely(err))
++		au_update_dbtop(dentry);
++
++out_di:
++	di_write_unlock(dentry);
++	si_read_unlock(sb);
++out_kfree:
++	kfree(a);
++out:
++	AuTraceErr(err);
++	return err;
++}
++#endif
++
++static void au_refresh_iattr(struct inode *inode, struct kstat *st,
++			     unsigned int nlink)
++{
++	unsigned int n;
++
++	inode->i_mode = st->mode;
++	/* don't i_[ug]id_write() here */
++	inode->i_uid = st->uid;
++	inode->i_gid = st->gid;
++	inode->i_atime = st->atime;
++	inode->i_mtime = st->mtime;
++	inode->i_ctime = st->ctime;
++
++	au_cpup_attr_nlink(inode, /*force*/0);
++	if (S_ISDIR(inode->i_mode)) {
++		n = inode->i_nlink;
++		n -= nlink;
++		n += st->nlink;
++		smp_mb(); /* for i_nlink */
++		/* 0 can happen */
++		set_nlink(inode, n);
++	}
++
++	spin_lock(&inode->i_lock);
++	inode->i_blocks = st->blocks;
++	i_size_write(inode, st->size);
++	spin_unlock(&inode->i_lock);
++}
++
++/*
++ * common routine for aufs_getattr() and au_getxattr().
++ * returns zero or negative (an error).
++ * @dentry will be read-locked in success.
++ */
++int au_h_path_getattr(struct dentry *dentry, int force, struct path *h_path,
++		      int locked)
++{
++	int err;
++	unsigned int mnt_flags, sigen;
++	unsigned char udba_none;
++	aufs_bindex_t bindex;
++	struct super_block *sb, *h_sb;
++	struct inode *inode;
++
++	h_path->mnt = NULL;
++	h_path->dentry = NULL;
++
++	err = 0;
++	sb = dentry->d_sb;
++	mnt_flags = au_mntflags(sb);
++	udba_none = !!au_opt_test(mnt_flags, UDBA_NONE);
++
++	if (unlikely(locked))
++		goto body; /* skip locking dinfo */
++
++	/* support fstat(2) */
++	if (!d_unlinked(dentry) && !udba_none) {
++		sigen = au_sigen(sb);
++		err = au_digen_test(dentry, sigen);
++		if (!err) {
++			di_read_lock_child(dentry, AuLock_IR);
++			err = au_dbrange_test(dentry);
++			if (unlikely(err)) {
++				di_read_unlock(dentry, AuLock_IR);
++				goto out;
++			}
++		} else {
++			AuDebugOn(IS_ROOT(dentry));
++			di_write_lock_child(dentry);
++			err = au_dbrange_test(dentry);
++			if (!err)
++				err = au_reval_for_attr(dentry, sigen);
++			if (!err)
++				di_downgrade_lock(dentry, AuLock_IR);
++			else {
++				di_write_unlock(dentry);
++				goto out;
++			}
++		}
++	} else
++		di_read_lock_child(dentry, AuLock_IR);
++
++body:
++	inode = d_inode(dentry);
++	bindex = au_ibtop(inode);
++	h_path->mnt = au_sbr_mnt(sb, bindex);
++	h_sb = h_path->mnt->mnt_sb;
++	if (!force
++	    && !au_test_fs_bad_iattr(h_sb)
++	    && udba_none)
++		goto out; /* success */
++
++	if (au_dbtop(dentry) == bindex)
++		h_path->dentry = au_h_dptr(dentry, bindex);
++	else if (au_opt_test(mnt_flags, PLINK) && au_plink_test(inode)) {
++		h_path->dentry = au_plink_lkup(inode, bindex);
++		if (IS_ERR(h_path->dentry))
++			/* pretending success */
++			h_path->dentry = NULL;
++		else
++			dput(h_path->dentry);
++	}
++
++out:
++	return err;
++}
++
++static int aufs_getattr(const struct path *path, struct kstat *st,
++			u32 request, unsigned int query)
++{
++	int err;
++	unsigned char positive;
++	struct path h_path;
++	struct dentry *dentry;
++	struct inode *inode;
++	struct super_block *sb;
++
++	dentry = path->dentry;
++	inode = d_inode(dentry);
++	sb = dentry->d_sb;
++	err = si_read_lock(sb, AuLock_FLUSH | AuLock_NOPLM);
++	if (unlikely(err))
++		goto out;
++	err = au_h_path_getattr(dentry, /*force*/0, &h_path, /*locked*/0);
++	if (unlikely(err))
++		goto out_si;
++	if (unlikely(!h_path.dentry))
++		/* illegally overlapped or something */
++		goto out_fill; /* pretending success */
++
++	positive = d_is_positive(h_path.dentry);
++	if (positive)
++		/* no vfsub version */
++		err = vfs_getattr(&h_path, st, request, query);
++	if (!err) {
++		if (positive)
++			au_refresh_iattr(inode, st,
++					 d_inode(h_path.dentry)->i_nlink);
++		goto out_fill; /* success */
++	}
++	AuTraceErr(err);
++	goto out_di;
++
++out_fill:
++	generic_fillattr(inode, st);
++out_di:
++	di_read_unlock(dentry, AuLock_IR);
++out_si:
++	si_read_unlock(sb);
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static const char *aufs_get_link(struct dentry *dentry, struct inode *inode,
++				 struct delayed_call *done)
++{
++	const char *ret;
++	struct dentry *h_dentry;
++	struct inode *h_inode;
++	int err;
++	aufs_bindex_t bindex;
++
++	ret = NULL; /* suppress a warning */
++	err = -ECHILD;
++	if (!dentry)
++		goto out;
++
++	err = aufs_read_lock(dentry, AuLock_IR | AuLock_GEN);
++	if (unlikely(err))
++		goto out;
++
++	err = au_d_hashed_positive(dentry);
++	if (unlikely(err))
++		goto out_unlock;
++
++	err = -EINVAL;
++	inode = d_inode(dentry);
++	bindex = au_ibtop(inode);
++	h_inode = au_h_iptr(inode, bindex);
++	if (unlikely(!h_inode->i_op->get_link))
++		goto out_unlock;
++
++	err = -EBUSY;
++	h_dentry = NULL;
++	if (au_dbtop(dentry) <= bindex) {
++		h_dentry = au_h_dptr(dentry, bindex);
++		if (h_dentry)
++			dget(h_dentry);
++	}
++	if (!h_dentry) {
++		h_dentry = d_find_any_alias(h_inode);
++		if (IS_ERR(h_dentry)) {
++			err = PTR_ERR(h_dentry);
++			goto out_unlock;
++		}
++	}
++	if (unlikely(!h_dentry))
++		goto out_unlock;
++
++	err = 0;
++	AuDbg("%pf\n", h_inode->i_op->get_link);
++	AuDbgDentry(h_dentry);
++	ret = vfs_get_link(h_dentry, done);
++	dput(h_dentry);
++	if (IS_ERR(ret))
++		err = PTR_ERR(ret);
++
++out_unlock:
++	aufs_read_unlock(dentry, AuLock_IR);
++out:
++	if (unlikely(err))
++		ret = ERR_PTR(err);
++	AuTraceErrPtr(ret);
++	return ret;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int au_is_special(struct inode *inode)
++{
++	return (inode->i_mode & (S_IFBLK | S_IFCHR | S_IFIFO | S_IFSOCK));
++}
++
++static int aufs_update_time(struct inode *inode, struct timespec *ts, int flags)
++{
++	int err;
++	aufs_bindex_t bindex;
++	struct super_block *sb;
++	struct inode *h_inode;
++	struct vfsmount *h_mnt;
++
++	sb = inode->i_sb;
++	WARN_ONCE((flags & S_ATIME) && !IS_NOATIME(inode),
++		  "unexpected s_flags 0x%lx", sb->s_flags);
++
++	/* mmap_sem might be acquired already, cf. aufs_mmap() */
++	lockdep_off();
++	si_read_lock(sb, AuLock_FLUSH);
++	ii_write_lock_child(inode);
++	lockdep_on();
++
++	err = 0;
++	bindex = au_ibtop(inode);
++	h_inode = au_h_iptr(inode, bindex);
++	if (!au_test_ro(sb, bindex, inode)) {
++		h_mnt = au_sbr_mnt(sb, bindex);
++		err = vfsub_mnt_want_write(h_mnt);
++		if (!err) {
++			err = vfsub_update_time(h_inode, ts, flags);
++			vfsub_mnt_drop_write(h_mnt);
++		}
++	} else if (au_is_special(h_inode)) {
++		/*
++		 * Never copy-up here.
++		 * These special files may already be opened and used for
++		 * communicating. If we copied it up, then the communication
++		 * would be corrupted.
++		 */
++		AuWarn1("timestamps for i%lu are ignored "
++			"since it is on readonly branch (hi%lu).\n",
++			inode->i_ino, h_inode->i_ino);
++	} else if (flags & ~S_ATIME) {
++		err = -EIO;
++		AuIOErr1("unexpected flags 0x%x\n", flags);
++		AuDebugOn(1);
++	}
++
++	lockdep_off();
++	if (!err)
++		au_cpup_attr_timesizes(inode);
++	ii_write_unlock(inode);
++	si_read_unlock(sb);
++	lockdep_on();
++
++	if (!err && (flags & S_VERSION))
++		inode_inc_iversion(inode);
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* no getattr version will be set by module.c:aufs_init() */
++struct inode_operations aufs_iop_nogetattr[AuIop_Last],
++	aufs_iop[] = {
++	[AuIop_SYMLINK] = {
++		.permission	= aufs_permission,
++#ifdef CONFIG_FS_POSIX_ACL
++		.get_acl	= aufs_get_acl,
++		.set_acl	= aufs_set_acl, /* unsupport for symlink? */
++#endif
++
++		.setattr	= aufs_setattr,
++		.getattr	= aufs_getattr,
++
++#ifdef CONFIG_AUFS_XATTR
++		.listxattr	= aufs_listxattr,
++#endif
++
++		.get_link	= aufs_get_link,
++
++		/* .update_time	= aufs_update_time */
++	},
++	[AuIop_DIR] = {
++		.create		= aufs_create,
++		.lookup		= aufs_lookup,
++		.link		= aufs_link,
++		.unlink		= aufs_unlink,
++		.symlink	= aufs_symlink,
++		.mkdir		= aufs_mkdir,
++		.rmdir		= aufs_rmdir,
++		.mknod		= aufs_mknod,
++		.rename		= aufs_rename,
++
++		.permission	= aufs_permission,
++#ifdef CONFIG_FS_POSIX_ACL
++		.get_acl	= aufs_get_acl,
++		.set_acl	= aufs_set_acl,
++#endif
++
++		.setattr	= aufs_setattr,
++		.getattr	= aufs_getattr,
++
++#ifdef CONFIG_AUFS_XATTR
++		.listxattr	= aufs_listxattr,
++#endif
++
++		.update_time	= aufs_update_time,
++		.atomic_open	= aufs_atomic_open,
++		.tmpfile	= aufs_tmpfile
++	},
++	[AuIop_OTHER] = {
++		.permission	= aufs_permission,
++#ifdef CONFIG_FS_POSIX_ACL
++		.get_acl	= aufs_get_acl,
++		.set_acl	= aufs_set_acl,
++#endif
++
++		.setattr	= aufs_setattr,
++		.getattr	= aufs_getattr,
++
++#ifdef CONFIG_AUFS_XATTR
++		.listxattr	= aufs_listxattr,
++#endif
++
++		.update_time	= aufs_update_time
++	}
++};
+diff --git a/fs/aufs/i_op_add.c b/fs/aufs/i_op_add.c
+new file mode 100755
+index 0000000..a678e72
+--- /dev/null
++++ b/fs/aufs/i_op_add.c
+@@ -0,0 +1,920 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * inode operations (add entry)
++ */
++
++#include "aufs.h"
++
++/*
++ * final procedure of adding a new entry, except link(2).
++ * remove whiteout, instantiate, copyup the parent dir's times and size
++ * and update version.
++ * if it failed, re-create the removed whiteout.
++ */
++static int epilog(struct inode *dir, aufs_bindex_t bindex,
++		  struct dentry *wh_dentry, struct dentry *dentry)
++{
++	int err, rerr;
++	aufs_bindex_t bwh;
++	struct path h_path;
++	struct super_block *sb;
++	struct inode *inode, *h_dir;
++	struct dentry *wh;
++
++	bwh = -1;
++	sb = dir->i_sb;
++	if (wh_dentry) {
++		h_dir = d_inode(wh_dentry->d_parent); /* dir inode is locked */
++		IMustLock(h_dir);
++		AuDebugOn(au_h_iptr(dir, bindex) != h_dir);
++		bwh = au_dbwh(dentry);
++		h_path.dentry = wh_dentry;
++		h_path.mnt = au_sbr_mnt(sb, bindex);
++		err = au_wh_unlink_dentry(au_h_iptr(dir, bindex), &h_path,
++					  dentry);
++		if (unlikely(err))
++			goto out;
++	}
++
++	inode = au_new_inode(dentry, /*must_new*/1);
++	if (!IS_ERR(inode)) {
++		d_instantiate(dentry, inode);
++		dir = d_inode(dentry->d_parent); /* dir inode is locked */
++		IMustLock(dir);
++		au_dir_ts(dir, bindex);
++		dir->i_version++;
++		au_fhsm_wrote(sb, bindex, /*force*/0);
++		return 0; /* success */
++	}
++
++	err = PTR_ERR(inode);
++	if (!wh_dentry)
++		goto out;
++
++	/* revert */
++	/* dir inode is locked */
++	wh = au_wh_create(dentry, bwh, wh_dentry->d_parent);
++	rerr = PTR_ERR(wh);
++	if (IS_ERR(wh)) {
++		AuIOErr("%pd reverting whiteout failed(%d, %d)\n",
++			dentry, err, rerr);
++		err = -EIO;
++	} else
++		dput(wh);
++
++out:
++	return err;
++}
++
++static int au_d_may_add(struct dentry *dentry)
++{
++	int err;
++
++	err = 0;
++	if (unlikely(d_unhashed(dentry)))
++		err = -ENOENT;
++	if (unlikely(d_really_is_positive(dentry)))
++		err = -EEXIST;
++	return err;
++}
++
++/*
++ * simple tests for the adding inode operations.
++ * following the checks in vfs, plus the parent-child relationship.
++ */
++int au_may_add(struct dentry *dentry, aufs_bindex_t bindex,
++	       struct dentry *h_parent, int isdir)
++{
++	int err;
++	umode_t h_mode;
++	struct dentry *h_dentry;
++	struct inode *h_inode;
++
++	err = -ENAMETOOLONG;
++	if (unlikely(dentry->d_name.len > AUFS_MAX_NAMELEN))
++		goto out;
++
++	h_dentry = au_h_dptr(dentry, bindex);
++	if (d_really_is_negative(dentry)) {
++		err = -EEXIST;
++		if (unlikely(d_is_positive(h_dentry)))
++			goto out;
++	} else {
++		/* rename(2) case */
++		err = -EIO;
++		if (unlikely(d_is_negative(h_dentry)))
++			goto out;
++		h_inode = d_inode(h_dentry);
++		if (unlikely(!h_inode->i_nlink))
++			goto out;
++
++		h_mode = h_inode->i_mode;
++		if (!isdir) {
++			err = -EISDIR;
++			if (unlikely(S_ISDIR(h_mode)))
++				goto out;
++		} else if (unlikely(!S_ISDIR(h_mode))) {
++			err = -ENOTDIR;
++			goto out;
++		}
++	}
++
++	err = 0;
++	/* expected parent dir is locked */
++	if (unlikely(h_parent != h_dentry->d_parent))
++		err = -EIO;
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++/*
++ * initial procedure of adding a new entry.
++ * prepare writable branch and the parent dir, lock it,
++ * and lookup whiteout for the new entry.
++ */
++static struct dentry*
++lock_hdir_lkup_wh(struct dentry *dentry, struct au_dtime *dt,
++		  struct dentry *src_dentry, struct au_pin *pin,
++		  struct au_wr_dir_args *wr_dir_args)
++{
++	struct dentry *wh_dentry, *h_parent;
++	struct super_block *sb;
++	struct au_branch *br;
++	int err;
++	unsigned int udba;
++	aufs_bindex_t bcpup;
++
++	AuDbg("%pd\n", dentry);
++
++	err = au_wr_dir(dentry, src_dentry, wr_dir_args);
++	bcpup = err;
++	wh_dentry = ERR_PTR(err);
++	if (unlikely(err < 0))
++		goto out;
++
++	sb = dentry->d_sb;
++	udba = au_opt_udba(sb);
++	err = au_pin(pin, dentry, bcpup, udba,
++		     AuPin_DI_LOCKED | AuPin_MNT_WRITE);
++	wh_dentry = ERR_PTR(err);
++	if (unlikely(err))
++		goto out;
++
++	h_parent = au_pinned_h_parent(pin);
++	if (udba != AuOpt_UDBA_NONE
++	    && au_dbtop(dentry) == bcpup)
++		err = au_may_add(dentry, bcpup, h_parent,
++				 au_ftest_wrdir(wr_dir_args->flags, ISDIR));
++	else if (unlikely(dentry->d_name.len > AUFS_MAX_NAMELEN))
++		err = -ENAMETOOLONG;
++	wh_dentry = ERR_PTR(err);
++	if (unlikely(err))
++		goto out_unpin;
++
++	br = au_sbr(sb, bcpup);
++	if (dt) {
++		struct path tmp = {
++			.dentry	= h_parent,
++			.mnt	= au_br_mnt(br)
++		};
++		au_dtime_store(dt, au_pinned_parent(pin), &tmp);
++	}
++
++	wh_dentry = NULL;
++	if (bcpup != au_dbwh(dentry))
++		goto out; /* success */
++
++	/*
++	 * ENAMETOOLONG here means that if we allowed create such name, then it
++	 * would not be able to removed in the future. So we don't allow such
++	 * name here and we don't handle ENAMETOOLONG differently here.
++	 */
++	wh_dentry = au_wh_lkup(h_parent, &dentry->d_name, br);
++
++out_unpin:
++	if (IS_ERR(wh_dentry))
++		au_unpin(pin);
++out:
++	return wh_dentry;
++}
++
++/* ---------------------------------------------------------------------- */
++
++enum { Mknod, Symlink, Creat };
++struct simple_arg {
++	int type;
++	union {
++		struct {
++			umode_t			mode;
++			bool			want_excl;
++			bool			try_aopen;
++			struct vfsub_aopen_args	*aopen;
++		} c;
++		struct {
++			const char *symname;
++		} s;
++		struct {
++			umode_t mode;
++			dev_t dev;
++		} m;
++	} u;
++};
++
++static int add_simple(struct inode *dir, struct dentry *dentry,
++		      struct simple_arg *arg)
++{
++	int err, rerr;
++	aufs_bindex_t btop;
++	unsigned char created;
++	const unsigned char try_aopen
++		= (arg->type == Creat && arg->u.c.try_aopen);
++	struct dentry *wh_dentry, *parent;
++	struct inode *h_dir;
++	struct super_block *sb;
++	struct au_branch *br;
++	/* to reuduce stack size */
++	struct {
++		struct au_dtime dt;
++		struct au_pin pin;
++		struct path h_path;
++		struct au_wr_dir_args wr_dir_args;
++	} *a;
++
++	AuDbg("%pd\n", dentry);
++	IMustLock(dir);
++
++	err = -ENOMEM;
++	a = kmalloc(sizeof(*a), GFP_NOFS);
++	if (unlikely(!a))
++		goto out;
++	a->wr_dir_args.force_btgt = -1;
++	a->wr_dir_args.flags = AuWrDir_ADD_ENTRY;
++
++	parent = dentry->d_parent; /* dir inode is locked */
++	if (!try_aopen) {
++		err = aufs_read_lock(dentry, AuLock_DW | AuLock_GEN);
++		if (unlikely(err))
++			goto out_free;
++	}
++	err = au_d_may_add(dentry);
++	if (unlikely(err))
++		goto out_unlock;
++	if (!try_aopen)
++		di_write_lock_parent(parent);
++	wh_dentry = lock_hdir_lkup_wh(dentry, &a->dt, /*src_dentry*/NULL,
++				      &a->pin, &a->wr_dir_args);
++	err = PTR_ERR(wh_dentry);
++	if (IS_ERR(wh_dentry))
++		goto out_parent;
++
++	btop = au_dbtop(dentry);
++	sb = dentry->d_sb;
++	br = au_sbr(sb, btop);
++	a->h_path.dentry = au_h_dptr(dentry, btop);
++	a->h_path.mnt = au_br_mnt(br);
++	h_dir = au_pinned_h_dir(&a->pin);
++	switch (arg->type) {
++	case Creat:
++		err = 0;
++		if (!try_aopen || !h_dir->i_op->atomic_open)
++			err = vfsub_create(h_dir, &a->h_path, arg->u.c.mode,
++					   arg->u.c.want_excl);
++		else
++			err = vfsub_atomic_open(h_dir, a->h_path.dentry,
++						arg->u.c.aopen, br);
++		break;
++	case Symlink:
++		err = vfsub_symlink(h_dir, &a->h_path, arg->u.s.symname);
++		break;
++	case Mknod:
++		err = vfsub_mknod(h_dir, &a->h_path, arg->u.m.mode,
++				  arg->u.m.dev);
++		break;
++	default:
++		BUG();
++	}
++	created = !err;
++	if (!err)
++		err = epilog(dir, btop, wh_dentry, dentry);
++
++	/* revert */
++	if (unlikely(created && err && d_is_positive(a->h_path.dentry))) {
++		/* no delegation since it is just created */
++		rerr = vfsub_unlink(h_dir, &a->h_path, /*delegated*/NULL,
++				    /*force*/0);
++		if (rerr) {
++			AuIOErr("%pd revert failure(%d, %d)\n",
++				dentry, err, rerr);
++			err = -EIO;
++		}
++		au_dtime_revert(&a->dt);
++	}
++
++	if (!err && try_aopen && !h_dir->i_op->atomic_open)
++		*arg->u.c.aopen->opened |= FILE_CREATED;
++
++	au_unpin(&a->pin);
++	dput(wh_dentry);
++
++out_parent:
++	if (!try_aopen)
++		di_write_unlock(parent);
++out_unlock:
++	if (unlikely(err)) {
++		au_update_dbtop(dentry);
++		d_drop(dentry);
++	}
++	if (!try_aopen)
++		aufs_read_unlock(dentry, AuLock_DW);
++out_free:
++	kfree(a);
++out:
++	return err;
++}
++
++int aufs_mknod(struct inode *dir, struct dentry *dentry, umode_t mode,
++	       dev_t dev)
++{
++	struct simple_arg arg = {
++		.type = Mknod,
++		.u.m = {
++			.mode	= mode,
++			.dev	= dev
++		}
++	};
++	return add_simple(dir, dentry, &arg);
++}
++
++int aufs_symlink(struct inode *dir, struct dentry *dentry, const char *symname)
++{
++	struct simple_arg arg = {
++		.type = Symlink,
++		.u.s.symname = symname
++	};
++	return add_simple(dir, dentry, &arg);
++}
++
++int aufs_create(struct inode *dir, struct dentry *dentry, umode_t mode,
++		bool want_excl)
++{
++	struct simple_arg arg = {
++		.type = Creat,
++		.u.c = {
++			.mode		= mode,
++			.want_excl	= want_excl
++		}
++	};
++	return add_simple(dir, dentry, &arg);
++}
++
++int au_aopen_or_create(struct inode *dir, struct dentry *dentry,
++		       struct vfsub_aopen_args *aopen_args)
++{
++	struct simple_arg arg = {
++		.type = Creat,
++		.u.c = {
++			.mode		= aopen_args->create_mode,
++			.want_excl	= aopen_args->open_flag & O_EXCL,
++			.try_aopen	= true,
++			.aopen		= aopen_args
++		}
++	};
++	return add_simple(dir, dentry, &arg);
++}
++
++int aufs_tmpfile(struct inode *dir, struct dentry *dentry, umode_t mode)
++{
++	int err;
++	aufs_bindex_t bindex;
++	struct super_block *sb;
++	struct dentry *parent, *h_parent, *h_dentry;
++	struct inode *h_dir, *inode;
++	struct vfsmount *h_mnt;
++	struct au_wr_dir_args wr_dir_args = {
++		.force_btgt	= -1,
++		.flags		= AuWrDir_TMPFILE
++	};
++
++	/* copy-up may happen */
++	inode_lock(dir);
++
++	sb = dir->i_sb;
++	err = si_read_lock(sb, AuLock_FLUSH | AuLock_NOPLM);
++	if (unlikely(err))
++		goto out;
++
++	err = au_di_init(dentry);
++	if (unlikely(err))
++		goto out_si;
++
++	err = -EBUSY;
++	parent = d_find_any_alias(dir);
++	AuDebugOn(!parent);
++	di_write_lock_parent(parent);
++	if (unlikely(d_inode(parent) != dir))
++		goto out_parent;
++
++	err = au_digen_test(parent, au_sigen(sb));
++	if (unlikely(err))
++		goto out_parent;
++
++	bindex = au_dbtop(parent);
++	au_set_dbtop(dentry, bindex);
++	au_set_dbbot(dentry, bindex);
++	err = au_wr_dir(dentry, /*src_dentry*/NULL, &wr_dir_args);
++	bindex = err;
++	if (unlikely(err < 0))
++		goto out_parent;
++
++	err = -EOPNOTSUPP;
++	h_dir = au_h_iptr(dir, bindex);
++	if (unlikely(!h_dir->i_op->tmpfile))
++		goto out_parent;
++
++	h_mnt = au_sbr_mnt(sb, bindex);
++	err = vfsub_mnt_want_write(h_mnt);
++	if (unlikely(err))
++		goto out_parent;
++
++	h_parent = au_h_dptr(parent, bindex);
++	h_dentry = vfs_tmpfile(h_parent, mode, /*open_flag*/0);
++	if (IS_ERR(h_dentry)) {
++		err = PTR_ERR(h_dentry);
++		goto out_mnt;
++	}
++
++	au_set_dbtop(dentry, bindex);
++	au_set_dbbot(dentry, bindex);
++	au_set_h_dptr(dentry, bindex, dget(h_dentry));
++	inode = au_new_inode(dentry, /*must_new*/1);
++	if (IS_ERR(inode)) {
++		err = PTR_ERR(inode);
++		au_set_h_dptr(dentry, bindex, NULL);
++		au_set_dbtop(dentry, -1);
++		au_set_dbbot(dentry, -1);
++	} else {
++		if (!inode->i_nlink)
++			set_nlink(inode, 1);
++		d_tmpfile(dentry, inode);
++		au_di(dentry)->di_tmpfile = 1;
++
++		/* update without i_mutex */
++		if (au_ibtop(dir) == au_dbtop(dentry))
++			au_cpup_attr_timesizes(dir);
++	}
++	dput(h_dentry);
++
++out_mnt:
++	vfsub_mnt_drop_write(h_mnt);
++out_parent:
++	di_write_unlock(parent);
++	dput(parent);
++	di_write_unlock(dentry);
++	if (unlikely(err)) {
++		au_di_fin(dentry);
++		dentry->d_fsdata = NULL;
++	}
++out_si:
++	si_read_unlock(sb);
++out:
++	inode_unlock(dir);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++struct au_link_args {
++	aufs_bindex_t bdst, bsrc;
++	struct au_pin pin;
++	struct path h_path;
++	struct dentry *src_parent, *parent;
++};
++
++static int au_cpup_before_link(struct dentry *src_dentry,
++			       struct au_link_args *a)
++{
++	int err;
++	struct dentry *h_src_dentry;
++	struct au_cp_generic cpg = {
++		.dentry	= src_dentry,
++		.bdst	= a->bdst,
++		.bsrc	= a->bsrc,
++		.len	= -1,
++		.pin	= &a->pin,
++		.flags	= AuCpup_DTIME | AuCpup_HOPEN /* | AuCpup_KEEPLINO */
++	};
++
++	di_read_lock_parent(a->src_parent, AuLock_IR);
++	err = au_test_and_cpup_dirs(src_dentry, a->bdst);
++	if (unlikely(err))
++		goto out;
++
++	h_src_dentry = au_h_dptr(src_dentry, a->bsrc);
++	err = au_pin(&a->pin, src_dentry, a->bdst,
++		     au_opt_udba(src_dentry->d_sb),
++		     AuPin_DI_LOCKED | AuPin_MNT_WRITE);
++	if (unlikely(err))
++		goto out;
++
++	err = au_sio_cpup_simple(&cpg);
++	au_unpin(&a->pin);
++
++out:
++	di_read_unlock(a->src_parent, AuLock_IR);
++	return err;
++}
++
++static int au_cpup_or_link(struct dentry *src_dentry, struct dentry *dentry,
++			   struct au_link_args *a)
++{
++	int err;
++	unsigned char plink;
++	aufs_bindex_t bbot;
++	struct dentry *h_src_dentry;
++	struct inode *h_inode, *inode, *delegated;
++	struct super_block *sb;
++	struct file *h_file;
++
++	plink = 0;
++	h_inode = NULL;
++	sb = src_dentry->d_sb;
++	inode = d_inode(src_dentry);
++	if (au_ibtop(inode) <= a->bdst)
++		h_inode = au_h_iptr(inode, a->bdst);
++	if (!h_inode || !h_inode->i_nlink) {
++		/* copyup src_dentry as the name of dentry. */
++		bbot = au_dbbot(dentry);
++		if (bbot < a->bsrc)
++			au_set_dbbot(dentry, a->bsrc);
++		au_set_h_dptr(dentry, a->bsrc,
++			      dget(au_h_dptr(src_dentry, a->bsrc)));
++		dget(a->h_path.dentry);
++		au_set_h_dptr(dentry, a->bdst, NULL);
++		AuDbg("temporary d_inode...\n");
++		spin_lock(&dentry->d_lock);
++		dentry->d_inode = d_inode(src_dentry); /* tmp */
++		spin_unlock(&dentry->d_lock);
++		h_file = au_h_open_pre(dentry, a->bsrc, /*force_wr*/0);
++		if (IS_ERR(h_file))
++			err = PTR_ERR(h_file);
++		else {
++			struct au_cp_generic cpg = {
++				.dentry	= dentry,
++				.bdst	= a->bdst,
++				.bsrc	= -1,
++				.len	= -1,
++				.pin	= &a->pin,
++				.flags	= AuCpup_KEEPLINO
++			};
++			err = au_sio_cpup_simple(&cpg);
++			au_h_open_post(dentry, a->bsrc, h_file);
++			if (!err) {
++				dput(a->h_path.dentry);
++				a->h_path.dentry = au_h_dptr(dentry, a->bdst);
++			} else
++				au_set_h_dptr(dentry, a->bdst,
++					      a->h_path.dentry);
++		}
++		spin_lock(&dentry->d_lock);
++		dentry->d_inode = NULL; /* restore */
++		spin_unlock(&dentry->d_lock);
++		AuDbg("temporary d_inode...done\n");
++		au_set_h_dptr(dentry, a->bsrc, NULL);
++		au_set_dbbot(dentry, bbot);
++	} else {
++		/* the inode of src_dentry already exists on a.bdst branch */
++		h_src_dentry = d_find_alias(h_inode);
++		if (!h_src_dentry && au_plink_test(inode)) {
++			plink = 1;
++			h_src_dentry = au_plink_lkup(inode, a->bdst);
++			err = PTR_ERR(h_src_dentry);
++			if (IS_ERR(h_src_dentry))
++				goto out;
++
++			if (unlikely(d_is_negative(h_src_dentry))) {
++				dput(h_src_dentry);
++				h_src_dentry = NULL;
++			}
++
++		}
++		if (h_src_dentry) {
++			delegated = NULL;
++			err = vfsub_link(h_src_dentry, au_pinned_h_dir(&a->pin),
++					 &a->h_path, &delegated);
++			if (unlikely(err == -EWOULDBLOCK)) {
++				pr_warn("cannot retry for NFSv4 delegation"
++					" for an internal link\n");
++				iput(delegated);
++			}
++			dput(h_src_dentry);
++		} else {
++			AuIOErr("no dentry found for hi%lu on b%d\n",
++				h_inode->i_ino, a->bdst);
++			err = -EIO;
++		}
++	}
++
++	if (!err && !plink)
++		au_plink_append(inode, a->bdst, a->h_path.dentry);
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++int aufs_link(struct dentry *src_dentry, struct inode *dir,
++	      struct dentry *dentry)
++{
++	int err, rerr;
++	struct au_dtime dt;
++	struct au_link_args *a;
++	struct dentry *wh_dentry, *h_src_dentry;
++	struct inode *inode, *delegated;
++	struct super_block *sb;
++	struct au_wr_dir_args wr_dir_args = {
++		/* .force_btgt	= -1, */
++		.flags		= AuWrDir_ADD_ENTRY
++	};
++
++	IMustLock(dir);
++	inode = d_inode(src_dentry);
++	IMustLock(inode);
++
++	err = -ENOMEM;
++	a = kzalloc(sizeof(*a), GFP_NOFS);
++	if (unlikely(!a))
++		goto out;
++
++	a->parent = dentry->d_parent; /* dir inode is locked */
++	err = aufs_read_and_write_lock2(dentry, src_dentry,
++					AuLock_NOPLM | AuLock_GEN);
++	if (unlikely(err))
++		goto out_kfree;
++	err = au_d_linkable(src_dentry);
++	if (unlikely(err))
++		goto out_unlock;
++	err = au_d_may_add(dentry);
++	if (unlikely(err))
++		goto out_unlock;
++
++	a->src_parent = dget_parent(src_dentry);
++	wr_dir_args.force_btgt = au_ibtop(inode);
++
++	di_write_lock_parent(a->parent);
++	wr_dir_args.force_btgt = au_wbr(dentry, wr_dir_args.force_btgt);
++	wh_dentry = lock_hdir_lkup_wh(dentry, &dt, src_dentry, &a->pin,
++				      &wr_dir_args);
++	err = PTR_ERR(wh_dentry);
++	if (IS_ERR(wh_dentry))
++		goto out_parent;
++
++	err = 0;
++	sb = dentry->d_sb;
++	a->bdst = au_dbtop(dentry);
++	a->h_path.dentry = au_h_dptr(dentry, a->bdst);
++	a->h_path.mnt = au_sbr_mnt(sb, a->bdst);
++	a->bsrc = au_ibtop(inode);
++	h_src_dentry = au_h_d_alias(src_dentry, a->bsrc);
++	if (!h_src_dentry && au_di(src_dentry)->di_tmpfile)
++		h_src_dentry = dget(au_hi_wh(inode, a->bsrc));
++	if (!h_src_dentry) {
++		a->bsrc = au_dbtop(src_dentry);
++		h_src_dentry = au_h_d_alias(src_dentry, a->bsrc);
++		AuDebugOn(!h_src_dentry);
++	} else if (IS_ERR(h_src_dentry)) {
++		err = PTR_ERR(h_src_dentry);
++		goto out_parent;
++	}
++
++	/*
++	 * aufs doesn't touch the credential so
++	 * security_dentry_create_files_as() is unnecrssary.
++	 */
++	if (au_opt_test(au_mntflags(sb), PLINK)) {
++		if (a->bdst < a->bsrc
++		    /* && h_src_dentry->d_sb != a->h_path.dentry->d_sb */)
++			err = au_cpup_or_link(src_dentry, dentry, a);
++		else {
++			delegated = NULL;
++			err = vfsub_link(h_src_dentry, au_pinned_h_dir(&a->pin),
++					 &a->h_path, &delegated);
++			if (unlikely(err == -EWOULDBLOCK)) {
++				pr_warn("cannot retry for NFSv4 delegation"
++					" for an internal link\n");
++				iput(delegated);
++			}
++		}
++		dput(h_src_dentry);
++	} else {
++		/*
++		 * copyup src_dentry to the branch we process,
++		 * and then link(2) to it.
++		 */
++		dput(h_src_dentry);
++		if (a->bdst < a->bsrc
++		    /* && h_src_dentry->d_sb != a->h_path.dentry->d_sb */) {
++			au_unpin(&a->pin);
++			di_write_unlock(a->parent);
++			err = au_cpup_before_link(src_dentry, a);
++			di_write_lock_parent(a->parent);
++			if (!err)
++				err = au_pin(&a->pin, dentry, a->bdst,
++					     au_opt_udba(sb),
++					     AuPin_DI_LOCKED | AuPin_MNT_WRITE);
++			if (unlikely(err))
++				goto out_wh;
++		}
++		if (!err) {
++			h_src_dentry = au_h_dptr(src_dentry, a->bdst);
++			err = -ENOENT;
++			if (h_src_dentry && d_is_positive(h_src_dentry)) {
++				delegated = NULL;
++				err = vfsub_link(h_src_dentry,
++						 au_pinned_h_dir(&a->pin),
++						 &a->h_path, &delegated);
++				if (unlikely(err == -EWOULDBLOCK)) {
++					pr_warn("cannot retry"
++						" for NFSv4 delegation"
++						" for an internal link\n");
++					iput(delegated);
++				}
++			}
++		}
++	}
++	if (unlikely(err))
++		goto out_unpin;
++
++	if (wh_dentry) {
++		a->h_path.dentry = wh_dentry;
++		err = au_wh_unlink_dentry(au_pinned_h_dir(&a->pin), &a->h_path,
++					  dentry);
++		if (unlikely(err))
++			goto out_revert;
++	}
++
++	au_dir_ts(dir, a->bdst);
++	dir->i_version++;
++	inc_nlink(inode);
++	inode->i_ctime = dir->i_ctime;
++	d_instantiate(dentry, au_igrab(inode));
++	if (d_unhashed(a->h_path.dentry))
++		/* some filesystem calls d_drop() */
++		d_drop(dentry);
++	/* some filesystems consume an inode even hardlink */
++	au_fhsm_wrote(sb, a->bdst, /*force*/0);
++	goto out_unpin; /* success */
++
++out_revert:
++	/* no delegation since it is just created */
++	rerr = vfsub_unlink(au_pinned_h_dir(&a->pin), &a->h_path,
++			    /*delegated*/NULL, /*force*/0);
++	if (unlikely(rerr)) {
++		AuIOErr("%pd reverting failed(%d, %d)\n", dentry, err, rerr);
++		err = -EIO;
++	}
++	au_dtime_revert(&dt);
++out_unpin:
++	au_unpin(&a->pin);
++out_wh:
++	dput(wh_dentry);
++out_parent:
++	di_write_unlock(a->parent);
++	dput(a->src_parent);
++out_unlock:
++	if (unlikely(err)) {
++		au_update_dbtop(dentry);
++		d_drop(dentry);
++	}
++	aufs_read_and_write_unlock2(dentry, src_dentry);
++out_kfree:
++	kfree(a);
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++int aufs_mkdir(struct inode *dir, struct dentry *dentry, umode_t mode)
++{
++	int err, rerr;
++	aufs_bindex_t bindex;
++	unsigned char diropq;
++	struct path h_path;
++	struct dentry *wh_dentry, *parent, *opq_dentry;
++	struct inode *h_inode;
++	struct super_block *sb;
++	struct {
++		struct au_pin pin;
++		struct au_dtime dt;
++	} *a; /* reduce the stack usage */
++	struct au_wr_dir_args wr_dir_args = {
++		.force_btgt	= -1,
++		.flags		= AuWrDir_ADD_ENTRY | AuWrDir_ISDIR
++	};
++
++	IMustLock(dir);
++
++	err = -ENOMEM;
++	a = kmalloc(sizeof(*a), GFP_NOFS);
++	if (unlikely(!a))
++		goto out;
++
++	err = aufs_read_lock(dentry, AuLock_DW | AuLock_GEN);
++	if (unlikely(err))
++		goto out_free;
++	err = au_d_may_add(dentry);
++	if (unlikely(err))
++		goto out_unlock;
++
++	parent = dentry->d_parent; /* dir inode is locked */
++	di_write_lock_parent(parent);
++	wh_dentry = lock_hdir_lkup_wh(dentry, &a->dt, /*src_dentry*/NULL,
++				      &a->pin, &wr_dir_args);
++	err = PTR_ERR(wh_dentry);
++	if (IS_ERR(wh_dentry))
++		goto out_parent;
++
++	sb = dentry->d_sb;
++	bindex = au_dbtop(dentry);
++	h_path.dentry = au_h_dptr(dentry, bindex);
++	h_path.mnt = au_sbr_mnt(sb, bindex);
++	err = vfsub_mkdir(au_pinned_h_dir(&a->pin), &h_path, mode);
++	if (unlikely(err))
++		goto out_unpin;
++
++	/* make the dir opaque */
++	diropq = 0;
++	h_inode = d_inode(h_path.dentry);
++	if (wh_dentry
++	    || au_opt_test(au_mntflags(sb), ALWAYS_DIROPQ)) {
++		inode_lock_nested(h_inode, AuLsc_I_CHILD);
++		opq_dentry = au_diropq_create(dentry, bindex);
++		inode_unlock(h_inode);
++		err = PTR_ERR(opq_dentry);
++		if (IS_ERR(opq_dentry))
++			goto out_dir;
++		dput(opq_dentry);
++		diropq = 1;
++	}
++
++	err = epilog(dir, bindex, wh_dentry, dentry);
++	if (!err) {
++		inc_nlink(dir);
++		goto out_unpin; /* success */
++	}
++
++	/* revert */
++	if (diropq) {
++		AuLabel(revert opq);
++		inode_lock_nested(h_inode, AuLsc_I_CHILD);
++		rerr = au_diropq_remove(dentry, bindex);
++		inode_unlock(h_inode);
++		if (rerr) {
++			AuIOErr("%pd reverting diropq failed(%d, %d)\n",
++				dentry, err, rerr);
++			err = -EIO;
++		}
++	}
++
++out_dir:
++	AuLabel(revert dir);
++	rerr = vfsub_rmdir(au_pinned_h_dir(&a->pin), &h_path);
++	if (rerr) {
++		AuIOErr("%pd reverting dir failed(%d, %d)\n",
++			dentry, err, rerr);
++		err = -EIO;
++	}
++	au_dtime_revert(&a->dt);
++out_unpin:
++	au_unpin(&a->pin);
++	dput(wh_dentry);
++out_parent:
++	di_write_unlock(parent);
++out_unlock:
++	if (unlikely(err)) {
++		au_update_dbtop(dentry);
++		d_drop(dentry);
++	}
++	aufs_read_unlock(dentry, AuLock_DW);
++out_free:
++	kfree(a);
++out:
++	return err;
++}
+diff --git a/fs/aufs/i_op_del.c b/fs/aufs/i_op_del.c
+new file mode 100755
+index 0000000..f67b74b
+--- /dev/null
++++ b/fs/aufs/i_op_del.c
+@@ -0,0 +1,511 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * inode operations (del entry)
++ */
++
++#include "aufs.h"
++
++/*
++ * decide if a new whiteout for @dentry is necessary or not.
++ * when it is necessary, prepare the parent dir for the upper branch whose
++ * branch index is @bcpup for creation. the actual creation of the whiteout will
++ * be done by caller.
++ * return value:
++ * 0: wh is unnecessary
++ * plus: wh is necessary
++ * minus: error
++ */
++int au_wr_dir_need_wh(struct dentry *dentry, int isdir, aufs_bindex_t *bcpup)
++{
++	int need_wh, err;
++	aufs_bindex_t btop;
++	struct super_block *sb;
++
++	sb = dentry->d_sb;
++	btop = au_dbtop(dentry);
++	if (*bcpup < 0) {
++		*bcpup = btop;
++		if (au_test_ro(sb, btop, d_inode(dentry))) {
++			err = AuWbrCopyup(au_sbi(sb), dentry);
++			*bcpup = err;
++			if (unlikely(err < 0))
++				goto out;
++		}
++	} else
++		AuDebugOn(btop < *bcpup
++			  || au_test_ro(sb, *bcpup, d_inode(dentry)));
++	AuDbg("bcpup %d, btop %d\n", *bcpup, btop);
++
++	if (*bcpup != btop) {
++		err = au_cpup_dirs(dentry, *bcpup);
++		if (unlikely(err))
++			goto out;
++		need_wh = 1;
++	} else {
++		struct au_dinfo *dinfo, *tmp;
++
++		need_wh = -ENOMEM;
++		dinfo = au_di(dentry);
++		tmp = au_di_alloc(sb, AuLsc_DI_TMP);
++		if (tmp) {
++			au_di_cp(tmp, dinfo);
++			au_di_swap(tmp, dinfo);
++			/* returns the number of positive dentries */
++			need_wh = au_lkup_dentry(dentry, btop + 1,
++						 /* AuLkup_IGNORE_PERM */ 0);
++			au_di_swap(tmp, dinfo);
++			au_rw_write_unlock(&tmp->di_rwsem);
++			au_di_free(tmp);
++		}
++	}
++	AuDbg("need_wh %d\n", need_wh);
++	err = need_wh;
++
++out:
++	return err;
++}
++
++/*
++ * simple tests for the del-entry operations.
++ * following the checks in vfs, plus the parent-child relationship.
++ */
++int au_may_del(struct dentry *dentry, aufs_bindex_t bindex,
++	       struct dentry *h_parent, int isdir)
++{
++	int err;
++	umode_t h_mode;
++	struct dentry *h_dentry, *h_latest;
++	struct inode *h_inode;
++
++	h_dentry = au_h_dptr(dentry, bindex);
++	if (d_really_is_positive(dentry)) {
++		err = -ENOENT;
++		if (unlikely(d_is_negative(h_dentry)))
++			goto out;
++		h_inode = d_inode(h_dentry);
++		if (unlikely(!h_inode->i_nlink))
++			goto out;
++
++		h_mode = h_inode->i_mode;
++		if (!isdir) {
++			err = -EISDIR;
++			if (unlikely(S_ISDIR(h_mode)))
++				goto out;
++		} else if (unlikely(!S_ISDIR(h_mode))) {
++			err = -ENOTDIR;
++			goto out;
++		}
++	} else {
++		/* rename(2) case */
++		err = -EIO;
++		if (unlikely(d_is_positive(h_dentry)))
++			goto out;
++	}
++
++	err = -ENOENT;
++	/* expected parent dir is locked */
++	if (unlikely(h_parent != h_dentry->d_parent))
++		goto out;
++	err = 0;
++
++	/*
++	 * rmdir a dir may break the consistency on some filesystem.
++	 * let's try heavy test.
++	 */
++	err = -EACCES;
++	if (unlikely(!au_opt_test(au_mntflags(dentry->d_sb), DIRPERM1)
++		     && au_test_h_perm(d_inode(h_parent),
++				       MAY_EXEC | MAY_WRITE)))
++		goto out;
++
++	h_latest = au_sio_lkup_one(&dentry->d_name, h_parent);
++	err = -EIO;
++	if (IS_ERR(h_latest))
++		goto out;
++	if (h_latest == h_dentry)
++		err = 0;
++	dput(h_latest);
++
++out:
++	return err;
++}
++
++/*
++ * decide the branch where we operate for @dentry. the branch index will be set
++ * @rbcpup. after diciding it, 'pin' it and store the timestamps of the parent
++ * dir for reverting.
++ * when a new whiteout is necessary, create it.
++ */
++static struct dentry*
++lock_hdir_create_wh(struct dentry *dentry, int isdir, aufs_bindex_t *rbcpup,
++		    struct au_dtime *dt, struct au_pin *pin)
++{
++	struct dentry *wh_dentry;
++	struct super_block *sb;
++	struct path h_path;
++	int err, need_wh;
++	unsigned int udba;
++	aufs_bindex_t bcpup;
++
++	need_wh = au_wr_dir_need_wh(dentry, isdir, rbcpup);
++	wh_dentry = ERR_PTR(need_wh);
++	if (unlikely(need_wh < 0))
++		goto out;
++
++	sb = dentry->d_sb;
++	udba = au_opt_udba(sb);
++	bcpup = *rbcpup;
++	err = au_pin(pin, dentry, bcpup, udba,
++		     AuPin_DI_LOCKED | AuPin_MNT_WRITE);
++	wh_dentry = ERR_PTR(err);
++	if (unlikely(err))
++		goto out;
++
++	h_path.dentry = au_pinned_h_parent(pin);
++	if (udba != AuOpt_UDBA_NONE
++	    && au_dbtop(dentry) == bcpup) {
++		err = au_may_del(dentry, bcpup, h_path.dentry, isdir);
++		wh_dentry = ERR_PTR(err);
++		if (unlikely(err))
++			goto out_unpin;
++	}
++
++	h_path.mnt = au_sbr_mnt(sb, bcpup);
++	au_dtime_store(dt, au_pinned_parent(pin), &h_path);
++	wh_dentry = NULL;
++	if (!need_wh)
++		goto out; /* success, no need to create whiteout */
++
++	wh_dentry = au_wh_create(dentry, bcpup, h_path.dentry);
++	if (IS_ERR(wh_dentry))
++		goto out_unpin;
++
++	/* returns with the parent is locked and wh_dentry is dget-ed */
++	goto out; /* success */
++
++out_unpin:
++	au_unpin(pin);
++out:
++	return wh_dentry;
++}
++
++/*
++ * when removing a dir, rename it to a unique temporary whiteout-ed name first
++ * in order to be revertible and save time for removing many child whiteouts
++ * under the dir.
++ * returns 1 when there are too many child whiteout and caller should remove
++ * them asynchronously. returns 0 when the number of children is enough small to
++ * remove now or the branch fs is a remote fs.
++ * otherwise return an error.
++ */
++static int renwh_and_rmdir(struct dentry *dentry, aufs_bindex_t bindex,
++			   struct au_nhash *whlist, struct inode *dir)
++{
++	int rmdir_later, err, dirwh;
++	struct dentry *h_dentry;
++	struct super_block *sb;
++	struct inode *inode;
++
++	sb = dentry->d_sb;
++	SiMustAnyLock(sb);
++	h_dentry = au_h_dptr(dentry, bindex);
++	err = au_whtmp_ren(h_dentry, au_sbr(sb, bindex));
++	if (unlikely(err))
++		goto out;
++
++	/* stop monitoring */
++	inode = d_inode(dentry);
++	au_hn_free(au_hi(inode, bindex));
++
++	if (!au_test_fs_remote(h_dentry->d_sb)) {
++		dirwh = au_sbi(sb)->si_dirwh;
++		rmdir_later = (dirwh <= 1);
++		if (!rmdir_later)
++			rmdir_later = au_nhash_test_longer_wh(whlist, bindex,
++							      dirwh);
++		if (rmdir_later)
++			return rmdir_later;
++	}
++
++	err = au_whtmp_rmdir(dir, bindex, h_dentry, whlist);
++	if (unlikely(err)) {
++		AuIOErr("rmdir %pd, b%d failed, %d. ignored\n",
++			h_dentry, bindex, err);
++		err = 0;
++	}
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++/*
++ * final procedure for deleting a entry.
++ * maintain dentry and iattr.
++ */
++static void epilog(struct inode *dir, struct dentry *dentry,
++		   aufs_bindex_t bindex)
++{
++	struct inode *inode;
++
++	inode = d_inode(dentry);
++	d_drop(dentry);
++	inode->i_ctime = dir->i_ctime;
++
++	au_dir_ts(dir, bindex);
++	dir->i_version++;
++}
++
++/*
++ * when an error happened, remove the created whiteout and revert everything.
++ */
++static int do_revert(int err, struct inode *dir, aufs_bindex_t bindex,
++		     aufs_bindex_t bwh, struct dentry *wh_dentry,
++		     struct dentry *dentry, struct au_dtime *dt)
++{
++	int rerr;
++	struct path h_path = {
++		.dentry	= wh_dentry,
++		.mnt	= au_sbr_mnt(dir->i_sb, bindex)
++	};
++
++	rerr = au_wh_unlink_dentry(au_h_iptr(dir, bindex), &h_path, dentry);
++	if (!rerr) {
++		au_set_dbwh(dentry, bwh);
++		au_dtime_revert(dt);
++		return 0;
++	}
++
++	AuIOErr("%pd reverting whiteout failed(%d, %d)\n", dentry, err, rerr);
++	return -EIO;
++}
++
++/* ---------------------------------------------------------------------- */
++
++int aufs_unlink(struct inode *dir, struct dentry *dentry)
++{
++	int err;
++	aufs_bindex_t bwh, bindex, btop;
++	struct inode *inode, *h_dir, *delegated;
++	struct dentry *parent, *wh_dentry;
++	/* to reuduce stack size */
++	struct {
++		struct au_dtime dt;
++		struct au_pin pin;
++		struct path h_path;
++	} *a;
++
++	IMustLock(dir);
++
++	err = -ENOMEM;
++	a = kmalloc(sizeof(*a), GFP_NOFS);
++	if (unlikely(!a))
++		goto out;
++
++	err = aufs_read_lock(dentry, AuLock_DW | AuLock_GEN);
++	if (unlikely(err))
++		goto out_free;
++	err = au_d_hashed_positive(dentry);
++	if (unlikely(err))
++		goto out_unlock;
++	inode = d_inode(dentry);
++	IMustLock(inode);
++	err = -EISDIR;
++	if (unlikely(d_is_dir(dentry)))
++		goto out_unlock; /* possible? */
++
++	btop = au_dbtop(dentry);
++	bwh = au_dbwh(dentry);
++	bindex = -1;
++	parent = dentry->d_parent; /* dir inode is locked */
++	di_write_lock_parent(parent);
++	wh_dentry = lock_hdir_create_wh(dentry, /*isdir*/0, &bindex, &a->dt,
++					&a->pin);
++	err = PTR_ERR(wh_dentry);
++	if (IS_ERR(wh_dentry))
++		goto out_parent;
++
++	a->h_path.mnt = au_sbr_mnt(dentry->d_sb, btop);
++	a->h_path.dentry = au_h_dptr(dentry, btop);
++	dget(a->h_path.dentry);
++	if (bindex == btop) {
++		h_dir = au_pinned_h_dir(&a->pin);
++		delegated = NULL;
++		err = vfsub_unlink(h_dir, &a->h_path, &delegated, /*force*/0);
++		if (unlikely(err == -EWOULDBLOCK)) {
++			pr_warn("cannot retry for NFSv4 delegation"
++				" for an internal unlink\n");
++			iput(delegated);
++		}
++	} else {
++		/* dir inode is locked */
++		h_dir = d_inode(wh_dentry->d_parent);
++		IMustLock(h_dir);
++		err = 0;
++	}
++
++	if (!err) {
++		vfsub_drop_nlink(inode);
++		epilog(dir, dentry, bindex);
++
++		/* update target timestamps */
++		if (bindex == btop) {
++			vfsub_update_h_iattr(&a->h_path, /*did*/NULL);
++			/*ignore*/
++			inode->i_ctime = d_inode(a->h_path.dentry)->i_ctime;
++		} else
++			/* todo: this timestamp may be reverted later */
++			inode->i_ctime = h_dir->i_ctime;
++		goto out_unpin; /* success */
++	}
++
++	/* revert */
++	if (wh_dentry) {
++		int rerr;
++
++		rerr = do_revert(err, dir, bindex, bwh, wh_dentry, dentry,
++				 &a->dt);
++		if (rerr)
++			err = rerr;
++	}
++
++out_unpin:
++	au_unpin(&a->pin);
++	dput(wh_dentry);
++	dput(a->h_path.dentry);
++out_parent:
++	di_write_unlock(parent);
++out_unlock:
++	aufs_read_unlock(dentry, AuLock_DW);
++out_free:
++	kfree(a);
++out:
++	return err;
++}
++
++int aufs_rmdir(struct inode *dir, struct dentry *dentry)
++{
++	int err, rmdir_later;
++	aufs_bindex_t bwh, bindex, btop;
++	struct inode *inode;
++	struct dentry *parent, *wh_dentry, *h_dentry;
++	struct au_whtmp_rmdir *args;
++	/* to reuduce stack size */
++	struct {
++		struct au_dtime dt;
++		struct au_pin pin;
++	} *a;
++
++	IMustLock(dir);
++
++	err = -ENOMEM;
++	a = kmalloc(sizeof(*a), GFP_NOFS);
++	if (unlikely(!a))
++		goto out;
++
++	err = aufs_read_lock(dentry, AuLock_DW | AuLock_FLUSH | AuLock_GEN);
++	if (unlikely(err))
++		goto out_free;
++	err = au_alive_dir(dentry);
++	if (unlikely(err))
++		goto out_unlock;
++	inode = d_inode(dentry);
++	IMustLock(inode);
++	err = -ENOTDIR;
++	if (unlikely(!d_is_dir(dentry)))
++		goto out_unlock; /* possible? */
++
++	err = -ENOMEM;
++	args = au_whtmp_rmdir_alloc(dir->i_sb, GFP_NOFS);
++	if (unlikely(!args))
++		goto out_unlock;
++
++	parent = dentry->d_parent; /* dir inode is locked */
++	di_write_lock_parent(parent);
++	err = au_test_empty(dentry, &args->whlist);
++	if (unlikely(err))
++		goto out_parent;
++
++	btop = au_dbtop(dentry);
++	bwh = au_dbwh(dentry);
++	bindex = -1;
++	wh_dentry = lock_hdir_create_wh(dentry, /*isdir*/1, &bindex, &a->dt,
++					&a->pin);
++	err = PTR_ERR(wh_dentry);
++	if (IS_ERR(wh_dentry))
++		goto out_parent;
++
++	h_dentry = au_h_dptr(dentry, btop);
++	dget(h_dentry);
++	rmdir_later = 0;
++	if (bindex == btop) {
++		err = renwh_and_rmdir(dentry, btop, &args->whlist, dir);
++		if (err > 0) {
++			rmdir_later = err;
++			err = 0;
++		}
++	} else {
++		/* stop monitoring */
++		au_hn_free(au_hi(inode, btop));
++
++		/* dir inode is locked */
++		IMustLock(d_inode(wh_dentry->d_parent));
++		err = 0;
++	}
++
++	if (!err) {
++		vfsub_dead_dir(inode);
++		au_set_dbdiropq(dentry, -1);
++		epilog(dir, dentry, bindex);
++
++		if (rmdir_later) {
++			au_whtmp_kick_rmdir(dir, btop, h_dentry, args);
++			args = NULL;
++		}
++
++		goto out_unpin; /* success */
++	}
++
++	/* revert */
++	AuLabel(revert);
++	if (wh_dentry) {
++		int rerr;
++
++		rerr = do_revert(err, dir, bindex, bwh, wh_dentry, dentry,
++				 &a->dt);
++		if (rerr)
++			err = rerr;
++	}
++
++out_unpin:
++	au_unpin(&a->pin);
++	dput(wh_dentry);
++	dput(h_dentry);
++out_parent:
++	di_write_unlock(parent);
++	if (args)
++		au_whtmp_rmdir_free(args);
++out_unlock:
++	aufs_read_unlock(dentry, AuLock_DW);
++out_free:
++	kfree(a);
++out:
++	AuTraceErr(err);
++	return err;
++}
+diff --git a/fs/aufs/i_op_ren.c b/fs/aufs/i_op_ren.c
+new file mode 100755
+index 0000000..0c30670
+--- /dev/null
++++ b/fs/aufs/i_op_ren.c
+@@ -0,0 +1,1165 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * inode operation (rename entry)
++ * todo: this is crazy monster
++ */
++
++#include "aufs.h"
++
++enum { AuSRC, AuDST, AuSrcDst };
++enum { AuPARENT, AuCHILD, AuParentChild };
++
++#define AuRen_ISDIR_SRC		1
++#define AuRen_ISDIR_DST		(1 << 1)
++#define AuRen_ISSAMEDIR		(1 << 2)
++#define AuRen_WHSRC		(1 << 3)
++#define AuRen_WHDST		(1 << 4)
++#define AuRen_MNT_WRITE		(1 << 5)
++#define AuRen_DT_DSTDIR		(1 << 6)
++#define AuRen_DIROPQ_SRC	(1 << 7)
++#define AuRen_DIROPQ_DST	(1 << 8)
++#define au_ftest_ren(flags, name)	((flags) & AuRen_##name)
++#define au_fset_ren(flags, name) \
++	do { (flags) |= AuRen_##name; } while (0)
++#define au_fclr_ren(flags, name) \
++	do { (flags) &= ~AuRen_##name; } while (0)
++
++struct au_ren_args {
++	struct {
++		struct dentry *dentry, *h_dentry, *parent, *h_parent,
++			*wh_dentry;
++		struct inode *dir, *inode;
++		struct au_hinode *hdir, *hinode;
++		struct au_dtime dt[AuParentChild];
++		aufs_bindex_t btop, bdiropq;
++	} sd[AuSrcDst];
++
++#define src_dentry	sd[AuSRC].dentry
++#define src_dir		sd[AuSRC].dir
++#define src_inode	sd[AuSRC].inode
++#define src_h_dentry	sd[AuSRC].h_dentry
++#define src_parent	sd[AuSRC].parent
++#define src_h_parent	sd[AuSRC].h_parent
++#define src_wh_dentry	sd[AuSRC].wh_dentry
++#define src_hdir	sd[AuSRC].hdir
++#define src_hinode	sd[AuSRC].hinode
++#define src_h_dir	sd[AuSRC].hdir->hi_inode
++#define src_dt		sd[AuSRC].dt
++#define src_btop	sd[AuSRC].btop
++#define src_bdiropq	sd[AuSRC].bdiropq
++
++#define dst_dentry	sd[AuDST].dentry
++#define dst_dir		sd[AuDST].dir
++#define dst_inode	sd[AuDST].inode
++#define dst_h_dentry	sd[AuDST].h_dentry
++#define dst_parent	sd[AuDST].parent
++#define dst_h_parent	sd[AuDST].h_parent
++#define dst_wh_dentry	sd[AuDST].wh_dentry
++#define dst_hdir	sd[AuDST].hdir
++#define dst_hinode	sd[AuDST].hinode
++#define dst_h_dir	sd[AuDST].hdir->hi_inode
++#define dst_dt		sd[AuDST].dt
++#define dst_btop	sd[AuDST].btop
++#define dst_bdiropq	sd[AuDST].bdiropq
++
++	struct dentry *h_trap;
++	struct au_branch *br;
++	struct path h_path;
++	struct au_nhash whlist;
++	aufs_bindex_t btgt, src_bwh;
++
++	struct {
++		unsigned short auren_flags;
++		unsigned char flags;	/* syscall parameter */
++		unsigned char exchange;
++	} __packed;
++
++	struct au_whtmp_rmdir *thargs;
++	struct dentry *h_dst;
++};
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * functions for reverting.
++ * when an error happened in a single rename systemcall, we should revert
++ * everything as if nothing happened.
++ * we don't need to revert the copied-up/down the parent dir since they are
++ * harmless.
++ */
++
++#define RevertFailure(fmt, ...) do { \
++	AuIOErr("revert failure: " fmt " (%d, %d)\n", \
++		##__VA_ARGS__, err, rerr); \
++	err = -EIO; \
++} while (0)
++
++static void au_ren_do_rev_diropq(int err, struct au_ren_args *a, int idx)
++{
++	int rerr;
++	struct dentry *d;
++#define src_or_dst(member) a->sd[idx].member
++
++	d = src_or_dst(dentry); /* {src,dst}_dentry */
++	au_hn_inode_lock_nested(src_or_dst(hinode), AuLsc_I_CHILD);
++	rerr = au_diropq_remove(d, a->btgt);
++	au_hn_inode_unlock(src_or_dst(hinode));
++	au_set_dbdiropq(d, src_or_dst(bdiropq));
++	if (rerr)
++		RevertFailure("remove diropq %pd", d);
++
++#undef src_or_dst_
++}
++
++static void au_ren_rev_diropq(int err, struct au_ren_args *a)
++{
++	if (au_ftest_ren(a->auren_flags, DIROPQ_SRC))
++		au_ren_do_rev_diropq(err, a, AuSRC);
++	if (au_ftest_ren(a->auren_flags, DIROPQ_DST))
++		au_ren_do_rev_diropq(err, a, AuDST);
++}
++
++static void au_ren_rev_rename(int err, struct au_ren_args *a)
++{
++	int rerr;
++	struct inode *delegated;
++
++	a->h_path.dentry = vfsub_lkup_one(&a->src_dentry->d_name,
++					  a->src_h_parent);
++	rerr = PTR_ERR(a->h_path.dentry);
++	if (IS_ERR(a->h_path.dentry)) {
++		RevertFailure("lkup one %pd", a->src_dentry);
++		return;
++	}
++
++	delegated = NULL;
++	rerr = vfsub_rename(a->dst_h_dir,
++			    au_h_dptr(a->src_dentry, a->btgt),
++			    a->src_h_dir, &a->h_path, &delegated, a->flags);
++	if (unlikely(rerr == -EWOULDBLOCK)) {
++		pr_warn("cannot retry for NFSv4 delegation"
++			" for an internal rename\n");
++		iput(delegated);
++	}
++	d_drop(a->h_path.dentry);
++	dput(a->h_path.dentry);
++	/* au_set_h_dptr(a->src_dentry, a->btgt, NULL); */
++	if (rerr)
++		RevertFailure("rename %pd", a->src_dentry);
++}
++
++static void au_ren_rev_whtmp(int err, struct au_ren_args *a)
++{
++	int rerr;
++	struct inode *delegated;
++
++	a->h_path.dentry = vfsub_lkup_one(&a->dst_dentry->d_name,
++					  a->dst_h_parent);
++	rerr = PTR_ERR(a->h_path.dentry);
++	if (IS_ERR(a->h_path.dentry)) {
++		RevertFailure("lkup one %pd", a->dst_dentry);
++		return;
++	}
++	if (d_is_positive(a->h_path.dentry)) {
++		d_drop(a->h_path.dentry);
++		dput(a->h_path.dentry);
++		return;
++	}
++
++	delegated = NULL;
++	rerr = vfsub_rename(a->dst_h_dir, a->h_dst, a->dst_h_dir, &a->h_path,
++			    &delegated, a->flags);
++	if (unlikely(rerr == -EWOULDBLOCK)) {
++		pr_warn("cannot retry for NFSv4 delegation"
++			" for an internal rename\n");
++		iput(delegated);
++	}
++	d_drop(a->h_path.dentry);
++	dput(a->h_path.dentry);
++	if (!rerr)
++		au_set_h_dptr(a->dst_dentry, a->btgt, dget(a->h_dst));
++	else
++		RevertFailure("rename %pd", a->h_dst);
++}
++
++static void au_ren_rev_whsrc(int err, struct au_ren_args *a)
++{
++	int rerr;
++
++	a->h_path.dentry = a->src_wh_dentry;
++	rerr = au_wh_unlink_dentry(a->src_h_dir, &a->h_path, a->src_dentry);
++	au_set_dbwh(a->src_dentry, a->src_bwh);
++	if (rerr)
++		RevertFailure("unlink %pd", a->src_wh_dentry);
++}
++#undef RevertFailure
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * when we have to copyup the renaming entry, do it with the rename-target name
++ * in order to minimize the cost (the later actual rename is unnecessary).
++ * otherwise rename it on the target branch.
++ */
++static int au_ren_or_cpup(struct au_ren_args *a)
++{
++	int err;
++	struct dentry *d;
++	struct inode *delegated;
++
++	d = a->src_dentry;
++	if (au_dbtop(d) == a->btgt) {
++		a->h_path.dentry = a->dst_h_dentry;
++		AuDebugOn(au_dbtop(d) != a->btgt);
++		delegated = NULL;
++		err = vfsub_rename(a->src_h_dir, au_h_dptr(d, a->btgt),
++				   a->dst_h_dir, &a->h_path, &delegated,
++				   a->flags);
++		if (unlikely(err == -EWOULDBLOCK)) {
++			pr_warn("cannot retry for NFSv4 delegation"
++				" for an internal rename\n");
++			iput(delegated);
++		}
++	} else
++		BUG();
++
++	if (!err && a->h_dst)
++		/* it will be set to dinfo later */
++		dget(a->h_dst);
++
++	return err;
++}
++
++/* cf. aufs_rmdir() */
++static int au_ren_del_whtmp(struct au_ren_args *a)
++{
++	int err;
++	struct inode *dir;
++
++	dir = a->dst_dir;
++	SiMustAnyLock(dir->i_sb);
++	if (!au_nhash_test_longer_wh(&a->whlist, a->btgt,
++				     au_sbi(dir->i_sb)->si_dirwh)
++	    || au_test_fs_remote(a->h_dst->d_sb)) {
++		err = au_whtmp_rmdir(dir, a->btgt, a->h_dst, &a->whlist);
++		if (unlikely(err))
++			pr_warn("failed removing whtmp dir %pd (%d), "
++				"ignored.\n", a->h_dst, err);
++	} else {
++		au_nhash_wh_free(&a->thargs->whlist);
++		a->thargs->whlist = a->whlist;
++		a->whlist.nh_num = 0;
++		au_whtmp_kick_rmdir(dir, a->btgt, a->h_dst, a->thargs);
++		dput(a->h_dst);
++		a->thargs = NULL;
++	}
++
++	return 0;
++}
++
++/* make it 'opaque' dir. */
++static int au_ren_do_diropq(struct au_ren_args *a, int idx)
++{
++	int err;
++	struct dentry *d, *diropq;
++#define src_or_dst(member) a->sd[idx].member
++
++	err = 0;
++	d = src_or_dst(dentry); /* {src,dst}_dentry */
++	src_or_dst(bdiropq) = au_dbdiropq(d);
++	src_or_dst(hinode) = au_hi(src_or_dst(inode), a->btgt);
++	au_hn_inode_lock_nested(src_or_dst(hinode), AuLsc_I_CHILD);
++	diropq = au_diropq_create(d, a->btgt);
++	au_hn_inode_unlock(src_or_dst(hinode));
++	if (IS_ERR(diropq))
++		err = PTR_ERR(diropq);
++	else
++		dput(diropq);
++
++#undef src_or_dst_
++	return err;
++}
++
++static int au_ren_diropq(struct au_ren_args *a)
++{
++	int err;
++	unsigned char always;
++	struct dentry *d;
++
++	err = 0;
++	d = a->dst_dentry; /* already renamed on the branch */
++	always = !!au_opt_test(au_mntflags(d->d_sb), ALWAYS_DIROPQ);
++	if (au_ftest_ren(a->auren_flags, ISDIR_SRC)
++	    && a->btgt != au_dbdiropq(a->src_dentry)
++	    && (a->dst_wh_dentry
++		|| a->btgt <= au_dbdiropq(d)
++		/* hide the lower to keep xino */
++		/* the lowers may not be a dir, but we hide them anyway */
++		|| a->btgt < au_dbbot(d)
++		|| always)) {
++		AuDbg("here\n");
++		err = au_ren_do_diropq(a, AuSRC);
++		if (unlikely(err))
++			goto out;
++		au_fset_ren(a->auren_flags, DIROPQ_SRC);
++	}
++	if (!a->exchange)
++		goto out; /* success */
++
++	d = a->src_dentry; /* already renamed on the branch */
++	if (au_ftest_ren(a->auren_flags, ISDIR_DST)
++	    && a->btgt != au_dbdiropq(a->dst_dentry)
++	    && (a->btgt < au_dbdiropq(d)
++		|| a->btgt < au_dbbot(d)
++		|| always)) {
++		AuDbgDentry(a->src_dentry);
++		AuDbgDentry(a->dst_dentry);
++		err = au_ren_do_diropq(a, AuDST);
++		if (unlikely(err))
++			goto out_rev_src;
++		au_fset_ren(a->auren_flags, DIROPQ_DST);
++	}
++	goto out; /* success */
++
++out_rev_src:
++	AuDbg("err %d, reverting src\n", err);
++	au_ren_rev_diropq(err, a);
++out:
++	return err;
++}
++
++static int do_rename(struct au_ren_args *a)
++{
++	int err;
++	struct dentry *d, *h_d;
++
++	if (!a->exchange) {
++		/* prepare workqueue args for asynchronous rmdir */
++		h_d = a->dst_h_dentry;
++		if (au_ftest_ren(a->auren_flags, ISDIR_DST)
++		    && d_is_positive(h_d)) {
++			err = -ENOMEM;
++			a->thargs = au_whtmp_rmdir_alloc(a->src_dentry->d_sb,
++							 GFP_NOFS);
++			if (unlikely(!a->thargs))
++				goto out;
++			a->h_dst = dget(h_d);
++		}
++
++		/* create whiteout for src_dentry */
++		if (au_ftest_ren(a->auren_flags, WHSRC)) {
++			a->src_bwh = au_dbwh(a->src_dentry);
++			AuDebugOn(a->src_bwh >= 0);
++			a->src_wh_dentry = au_wh_create(a->src_dentry, a->btgt,
++							a->src_h_parent);
++			err = PTR_ERR(a->src_wh_dentry);
++			if (IS_ERR(a->src_wh_dentry))
++				goto out_thargs;
++		}
++
++		/* lookup whiteout for dentry */
++		if (au_ftest_ren(a->auren_flags, WHDST)) {
++			h_d = au_wh_lkup(a->dst_h_parent,
++					 &a->dst_dentry->d_name, a->br);
++			err = PTR_ERR(h_d);
++			if (IS_ERR(h_d))
++				goto out_whsrc;
++			if (d_is_negative(h_d))
++				dput(h_d);
++			else
++				a->dst_wh_dentry = h_d;
++		}
++
++		/* rename dentry to tmpwh */
++		if (a->thargs) {
++			err = au_whtmp_ren(a->dst_h_dentry, a->br);
++			if (unlikely(err))
++				goto out_whdst;
++
++			d = a->dst_dentry;
++			au_set_h_dptr(d, a->btgt, NULL);
++			err = au_lkup_neg(d, a->btgt, /*wh*/0);
++			if (unlikely(err))
++				goto out_whtmp;
++			a->dst_h_dentry = au_h_dptr(d, a->btgt);
++		}
++	}
++
++	BUG_ON(d_is_positive(a->dst_h_dentry) && a->src_btop != a->btgt);
++
++	/* rename by vfs_rename or cpup */
++	err = au_ren_or_cpup(a);
++	if (unlikely(err))
++		/* leave the copied-up one */
++		goto out_whtmp;
++
++	/* make dir opaque */
++	err = au_ren_diropq(a);
++	if (unlikely(err))
++		goto out_rename;
++
++	/* update target timestamps */
++	if (a->exchange) {
++		AuDebugOn(au_dbtop(a->dst_dentry) != a->btgt);
++		a->h_path.dentry = au_h_dptr(a->dst_dentry, a->btgt);
++		vfsub_update_h_iattr(&a->h_path, /*did*/NULL); /*ignore*/
++		a->dst_inode->i_ctime = d_inode(a->h_path.dentry)->i_ctime;
++	}
++	AuDebugOn(au_dbtop(a->src_dentry) != a->btgt);
++	a->h_path.dentry = au_h_dptr(a->src_dentry, a->btgt);
++	vfsub_update_h_iattr(&a->h_path, /*did*/NULL); /*ignore*/
++	a->src_inode->i_ctime = d_inode(a->h_path.dentry)->i_ctime;
++
++	if (!a->exchange) {
++		/* remove whiteout for dentry */
++		if (a->dst_wh_dentry) {
++			a->h_path.dentry = a->dst_wh_dentry;
++			err = au_wh_unlink_dentry(a->dst_h_dir, &a->h_path,
++						  a->dst_dentry);
++			if (unlikely(err))
++				goto out_diropq;
++		}
++
++		/* remove whtmp */
++		if (a->thargs)
++			au_ren_del_whtmp(a); /* ignore this error */
++
++		au_fhsm_wrote(a->src_dentry->d_sb, a->btgt, /*force*/0);
++	}
++	err = 0;
++	goto out_success;
++
++out_diropq:
++	au_ren_rev_diropq(err, a);
++out_rename:
++	au_ren_rev_rename(err, a);
++	dput(a->h_dst);
++out_whtmp:
++	if (a->thargs)
++		au_ren_rev_whtmp(err, a);
++out_whdst:
++	dput(a->dst_wh_dentry);
++	a->dst_wh_dentry = NULL;
++out_whsrc:
++	if (a->src_wh_dentry)
++		au_ren_rev_whsrc(err, a);
++out_success:
++	dput(a->src_wh_dentry);
++	dput(a->dst_wh_dentry);
++out_thargs:
++	if (a->thargs) {
++		dput(a->h_dst);
++		au_whtmp_rmdir_free(a->thargs);
++		a->thargs = NULL;
++	}
++out:
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * test if @dentry dir can be rename destination or not.
++ * success means, it is a logically empty dir.
++ */
++static int may_rename_dstdir(struct dentry *dentry, struct au_nhash *whlist)
++{
++	return au_test_empty(dentry, whlist);
++}
++
++/*
++ * test if @dentry dir can be rename source or not.
++ * if it can, return 0 and @children is filled.
++ * success means,
++ * - it is a logically empty dir.
++ * - or, it exists on writable branch and has no children including whiteouts
++ *       on the lower branch.
++ */
++static int may_rename_srcdir(struct dentry *dentry, aufs_bindex_t btgt)
++{
++	int err;
++	unsigned int rdhash;
++	aufs_bindex_t btop;
++
++	btop = au_dbtop(dentry);
++	if (btop != btgt) {
++		struct au_nhash whlist;
++
++		SiMustAnyLock(dentry->d_sb);
++		rdhash = au_sbi(dentry->d_sb)->si_rdhash;
++		if (!rdhash)
++			rdhash = au_rdhash_est(au_dir_size(/*file*/NULL,
++							   dentry));
++		err = au_nhash_alloc(&whlist, rdhash, GFP_NOFS);
++		if (unlikely(err))
++			goto out;
++		err = au_test_empty(dentry, &whlist);
++		au_nhash_wh_free(&whlist);
++		goto out;
++	}
++
++	if (btop == au_dbtaildir(dentry))
++		return 0; /* success */
++
++	err = au_test_empty_lower(dentry);
++
++out:
++	if (err == -ENOTEMPTY) {
++		AuWarn1("renaming dir who has child(ren) on multiple branches,"
++			" is not supported\n");
++		err = -EXDEV;
++	}
++	return err;
++}
++
++/* side effect: sets whlist and h_dentry */
++static int au_ren_may_dir(struct au_ren_args *a)
++{
++	int err;
++	unsigned int rdhash;
++	struct dentry *d;
++
++	d = a->dst_dentry;
++	SiMustAnyLock(d->d_sb);
++
++	err = 0;
++	if (au_ftest_ren(a->auren_flags, ISDIR_DST) && a->dst_inode) {
++		rdhash = au_sbi(d->d_sb)->si_rdhash;
++		if (!rdhash)
++			rdhash = au_rdhash_est(au_dir_size(/*file*/NULL, d));
++		err = au_nhash_alloc(&a->whlist, rdhash, GFP_NOFS);
++		if (unlikely(err))
++			goto out;
++
++		if (!a->exchange) {
++			au_set_dbtop(d, a->dst_btop);
++			err = may_rename_dstdir(d, &a->whlist);
++			au_set_dbtop(d, a->btgt);
++		} else
++			err = may_rename_srcdir(d, a->btgt);
++	}
++	a->dst_h_dentry = au_h_dptr(d, au_dbtop(d));
++	if (unlikely(err))
++		goto out;
++
++	d = a->src_dentry;
++	a->src_h_dentry = au_h_dptr(d, au_dbtop(d));
++	if (au_ftest_ren(a->auren_flags, ISDIR_SRC)) {
++		err = may_rename_srcdir(d, a->btgt);
++		if (unlikely(err)) {
++			au_nhash_wh_free(&a->whlist);
++			a->whlist.nh_num = 0;
++		}
++	}
++out:
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * simple tests for rename.
++ * following the checks in vfs, plus the parent-child relationship.
++ */
++static int au_may_ren(struct au_ren_args *a)
++{
++	int err, isdir;
++	struct inode *h_inode;
++
++	if (a->src_btop == a->btgt) {
++		err = au_may_del(a->src_dentry, a->btgt, a->src_h_parent,
++				 au_ftest_ren(a->auren_flags, ISDIR_SRC));
++		if (unlikely(err))
++			goto out;
++		err = -EINVAL;
++		if (unlikely(a->src_h_dentry == a->h_trap))
++			goto out;
++	}
++
++	err = 0;
++	if (a->dst_btop != a->btgt)
++		goto out;
++
++	err = -ENOTEMPTY;
++	if (unlikely(a->dst_h_dentry == a->h_trap))
++		goto out;
++
++	err = -EIO;
++	isdir = !!au_ftest_ren(a->auren_flags, ISDIR_DST);
++	if (d_really_is_negative(a->dst_dentry)) {
++		if (d_is_negative(a->dst_h_dentry))
++			err = au_may_add(a->dst_dentry, a->btgt,
++					 a->dst_h_parent, isdir);
++	} else {
++		if (unlikely(d_is_negative(a->dst_h_dentry)))
++			goto out;
++		h_inode = d_inode(a->dst_h_dentry);
++		if (h_inode->i_nlink)
++			err = au_may_del(a->dst_dentry, a->btgt,
++					 a->dst_h_parent, isdir);
++	}
++
++out:
++	if (unlikely(err == -ENOENT || err == -EEXIST))
++		err = -EIO;
++	AuTraceErr(err);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * locking order
++ * (VFS)
++ * - src_dir and dir by lock_rename()
++ * - inode if exitsts
++ * (aufs)
++ * - lock all
++ *   + src_dentry and dentry by aufs_read_and_write_lock2() which calls,
++ *     + si_read_lock
++ *     + di_write_lock2_child()
++ *       + di_write_lock_child()
++ *	   + ii_write_lock_child()
++ *       + di_write_lock_child2()
++ *	   + ii_write_lock_child2()
++ *     + src_parent and parent
++ *       + di_write_lock_parent()
++ *	   + ii_write_lock_parent()
++ *       + di_write_lock_parent2()
++ *	   + ii_write_lock_parent2()
++ *   + lower src_dir and dir by vfsub_lock_rename()
++ *   + verify the every relationships between child and parent. if any
++ *     of them failed, unlock all and return -EBUSY.
++ */
++static void au_ren_unlock(struct au_ren_args *a)
++{
++	vfsub_unlock_rename(a->src_h_parent, a->src_hdir,
++			    a->dst_h_parent, a->dst_hdir);
++	if (au_ftest_ren(a->auren_flags, MNT_WRITE))
++		vfsub_mnt_drop_write(au_br_mnt(a->br));
++}
++
++static int au_ren_lock(struct au_ren_args *a)
++{
++	int err;
++	unsigned int udba;
++
++	err = 0;
++	a->src_h_parent = au_h_dptr(a->src_parent, a->btgt);
++	a->src_hdir = au_hi(a->src_dir, a->btgt);
++	a->dst_h_parent = au_h_dptr(a->dst_parent, a->btgt);
++	a->dst_hdir = au_hi(a->dst_dir, a->btgt);
++
++	err = vfsub_mnt_want_write(au_br_mnt(a->br));
++	if (unlikely(err))
++		goto out;
++	au_fset_ren(a->auren_flags, MNT_WRITE);
++	a->h_trap = vfsub_lock_rename(a->src_h_parent, a->src_hdir,
++				      a->dst_h_parent, a->dst_hdir);
++	udba = au_opt_udba(a->src_dentry->d_sb);
++	if (unlikely(a->src_hdir->hi_inode != d_inode(a->src_h_parent)
++		     || a->dst_hdir->hi_inode != d_inode(a->dst_h_parent)))
++		err = au_busy_or_stale();
++	if (!err && au_dbtop(a->src_dentry) == a->btgt)
++		err = au_h_verify(a->src_h_dentry, udba,
++				  d_inode(a->src_h_parent), a->src_h_parent,
++				  a->br);
++	if (!err && au_dbtop(a->dst_dentry) == a->btgt)
++		err = au_h_verify(a->dst_h_dentry, udba,
++				  d_inode(a->dst_h_parent), a->dst_h_parent,
++				  a->br);
++	if (!err)
++		goto out; /* success */
++
++	err = au_busy_or_stale();
++	au_ren_unlock(a);
++
++out:
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static void au_ren_refresh_dir(struct au_ren_args *a)
++{
++	struct inode *dir;
++
++	dir = a->dst_dir;
++	dir->i_version++;
++	if (au_ftest_ren(a->auren_flags, ISDIR_SRC)) {
++		/* is this updating defined in POSIX? */
++		au_cpup_attr_timesizes(a->src_inode);
++		au_cpup_attr_nlink(dir, /*force*/1);
++	}
++	au_dir_ts(dir, a->btgt);
++
++	if (a->exchange) {
++		dir = a->src_dir;
++		dir->i_version++;
++		if (au_ftest_ren(a->auren_flags, ISDIR_DST)) {
++			/* is this updating defined in POSIX? */
++			au_cpup_attr_timesizes(a->dst_inode);
++			au_cpup_attr_nlink(dir, /*force*/1);
++		}
++		au_dir_ts(dir, a->btgt);
++	}
++
++	if (au_ftest_ren(a->auren_flags, ISSAMEDIR))
++		return;
++
++	dir = a->src_dir;
++	dir->i_version++;
++	if (au_ftest_ren(a->auren_flags, ISDIR_SRC))
++		au_cpup_attr_nlink(dir, /*force*/1);
++	au_dir_ts(dir, a->btgt);
++}
++
++static void au_ren_refresh(struct au_ren_args *a)
++{
++	aufs_bindex_t bbot, bindex;
++	struct dentry *d, *h_d;
++	struct inode *i, *h_i;
++	struct super_block *sb;
++
++	d = a->dst_dentry;
++	d_drop(d);
++	if (a->h_dst)
++		/* already dget-ed by au_ren_or_cpup() */
++		au_set_h_dptr(d, a->btgt, a->h_dst);
++
++	i = a->dst_inode;
++	if (i) {
++		if (!a->exchange) {
++			if (!au_ftest_ren(a->auren_flags, ISDIR_DST))
++				vfsub_drop_nlink(i);
++			else {
++				vfsub_dead_dir(i);
++				au_cpup_attr_timesizes(i);
++			}
++			au_update_dbrange(d, /*do_put_zero*/1);
++		} else
++			au_cpup_attr_nlink(i, /*force*/1);
++	} else {
++		bbot = a->btgt;
++		for (bindex = au_dbtop(d); bindex < bbot; bindex++)
++			au_set_h_dptr(d, bindex, NULL);
++		bbot = au_dbbot(d);
++		for (bindex = a->btgt + 1; bindex <= bbot; bindex++)
++			au_set_h_dptr(d, bindex, NULL);
++		au_update_dbrange(d, /*do_put_zero*/0);
++	}
++
++	d = a->src_dentry;
++	if (!a->exchange) {
++		au_set_dbwh(d, -1);
++		bbot = au_dbbot(d);
++		for (bindex = a->btgt + 1; bindex <= bbot; bindex++) {
++			h_d = au_h_dptr(d, bindex);
++			if (h_d)
++				au_set_h_dptr(d, bindex, NULL);
++		}
++		au_set_dbbot(d, a->btgt);
++
++		sb = d->d_sb;
++		i = a->src_inode;
++		if (au_opt_test(au_mntflags(sb), PLINK) && au_plink_test(i))
++			return; /* success */
++
++		bbot = au_ibbot(i);
++		for (bindex = a->btgt + 1; bindex <= bbot; bindex++) {
++			h_i = au_h_iptr(i, bindex);
++			if (h_i) {
++				au_xino_write(sb, bindex, h_i->i_ino, /*ino*/0);
++				/* ignore this error */
++				au_set_h_iptr(i, bindex, NULL, 0);
++			}
++		}
++		au_set_ibbot(i, a->btgt);
++	}
++		d_drop(a->src_dentry);
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* mainly for link(2) and rename(2) */
++int au_wbr(struct dentry *dentry, aufs_bindex_t btgt)
++{
++	aufs_bindex_t bdiropq, bwh;
++	struct dentry *parent;
++	struct au_branch *br;
++
++	parent = dentry->d_parent;
++	IMustLock(d_inode(parent)); /* dir is locked */
++
++	bdiropq = au_dbdiropq(parent);
++	bwh = au_dbwh(dentry);
++	br = au_sbr(dentry->d_sb, btgt);
++	if (au_br_rdonly(br)
++	    || (0 <= bdiropq && bdiropq < btgt)
++	    || (0 <= bwh && bwh < btgt))
++		btgt = -1;
++
++	AuDbg("btgt %d\n", btgt);
++	return btgt;
++}
++
++/* sets src_btop, dst_btop and btgt */
++static int au_ren_wbr(struct au_ren_args *a)
++{
++	int err;
++	struct au_wr_dir_args wr_dir_args = {
++		/* .force_btgt	= -1, */
++		.flags		= AuWrDir_ADD_ENTRY
++	};
++
++	a->src_btop = au_dbtop(a->src_dentry);
++	a->dst_btop = au_dbtop(a->dst_dentry);
++	if (au_ftest_ren(a->auren_flags, ISDIR_SRC)
++	    || au_ftest_ren(a->auren_flags, ISDIR_DST))
++		au_fset_wrdir(wr_dir_args.flags, ISDIR);
++	wr_dir_args.force_btgt = a->src_btop;
++	if (a->dst_inode && a->dst_btop < a->src_btop)
++		wr_dir_args.force_btgt = a->dst_btop;
++	wr_dir_args.force_btgt = au_wbr(a->dst_dentry, wr_dir_args.force_btgt);
++	err = au_wr_dir(a->dst_dentry, a->src_dentry, &wr_dir_args);
++	a->btgt = err;
++	if (a->exchange)
++		au_update_dbtop(a->dst_dentry);
++
++	return err;
++}
++
++static void au_ren_dt(struct au_ren_args *a)
++{
++	a->h_path.dentry = a->src_h_parent;
++	au_dtime_store(a->src_dt + AuPARENT, a->src_parent, &a->h_path);
++	if (!au_ftest_ren(a->auren_flags, ISSAMEDIR)) {
++		a->h_path.dentry = a->dst_h_parent;
++		au_dtime_store(a->dst_dt + AuPARENT, a->dst_parent, &a->h_path);
++	}
++
++	au_fclr_ren(a->auren_flags, DT_DSTDIR);
++	if (!au_ftest_ren(a->auren_flags, ISDIR_SRC)
++	    && !a->exchange)
++		return;
++
++	a->h_path.dentry = a->src_h_dentry;
++	au_dtime_store(a->src_dt + AuCHILD, a->src_dentry, &a->h_path);
++	if (d_is_positive(a->dst_h_dentry)) {
++		au_fset_ren(a->auren_flags, DT_DSTDIR);
++		a->h_path.dentry = a->dst_h_dentry;
++		au_dtime_store(a->dst_dt + AuCHILD, a->dst_dentry, &a->h_path);
++	}
++}
++
++static void au_ren_rev_dt(int err, struct au_ren_args *a)
++{
++	struct dentry *h_d;
++	struct inode *h_inode;
++
++	au_dtime_revert(a->src_dt + AuPARENT);
++	if (!au_ftest_ren(a->auren_flags, ISSAMEDIR))
++		au_dtime_revert(a->dst_dt + AuPARENT);
++
++	if (au_ftest_ren(a->auren_flags, ISDIR_SRC) && err != -EIO) {
++		h_d = a->src_dt[AuCHILD].dt_h_path.dentry;
++		h_inode = d_inode(h_d);
++		inode_lock_nested(h_inode, AuLsc_I_CHILD);
++		au_dtime_revert(a->src_dt + AuCHILD);
++		inode_unlock(h_inode);
++
++		if (au_ftest_ren(a->auren_flags, DT_DSTDIR)) {
++			h_d = a->dst_dt[AuCHILD].dt_h_path.dentry;
++			h_inode = d_inode(h_d);
++			inode_lock_nested(h_inode, AuLsc_I_CHILD);
++			au_dtime_revert(a->dst_dt + AuCHILD);
++			inode_unlock(h_inode);
++		}
++	}
++}
++
++/* ---------------------------------------------------------------------- */
++
++int aufs_rename(struct inode *_src_dir, struct dentry *_src_dentry,
++		struct inode *_dst_dir, struct dentry *_dst_dentry,
++		unsigned int _flags)
++{
++	int err, lock_flags;
++	/* reduce stack space */
++	struct au_ren_args *a;
++	struct au_pin pin;
++
++	AuDbg("%pd, %pd, 0x%x\n", _src_dentry, _dst_dentry, _flags);
++	IMustLock(_src_dir);
++	IMustLock(_dst_dir);
++
++	err = -EINVAL;
++	if (unlikely(_flags & RENAME_WHITEOUT))
++		goto out;
++
++	err = -ENOMEM;
++	BUILD_BUG_ON(sizeof(*a) > PAGE_SIZE);
++	a = kzalloc(sizeof(*a), GFP_NOFS);
++	if (unlikely(!a))
++		goto out;
++
++	a->flags = _flags;
++	a->exchange = _flags & RENAME_EXCHANGE;
++	a->src_dir = _src_dir;
++	a->src_dentry = _src_dentry;
++	a->src_inode = NULL;
++	if (d_really_is_positive(a->src_dentry))
++		a->src_inode = d_inode(a->src_dentry);
++	a->src_parent = a->src_dentry->d_parent; /* dir inode is locked */
++	a->dst_dir = _dst_dir;
++	a->dst_dentry = _dst_dentry;
++	a->dst_inode = NULL;
++	if (d_really_is_positive(a->dst_dentry))
++		a->dst_inode = d_inode(a->dst_dentry);
++	a->dst_parent = a->dst_dentry->d_parent; /* dir inode is locked */
++	if (a->dst_inode) {
++		/*
++		 * if EXCHANGE && src is non-dir && dst is dir,
++		 * dst is not locked.
++		 */
++		/* IMustLock(a->dst_inode); */
++		au_igrab(a->dst_inode);
++	}
++
++	err = -ENOTDIR;
++	lock_flags = AuLock_FLUSH | AuLock_NOPLM | AuLock_GEN;
++	if (d_is_dir(a->src_dentry)) {
++		au_fset_ren(a->auren_flags, ISDIR_SRC);
++		if (unlikely(!a->exchange
++			     && d_really_is_positive(a->dst_dentry)
++			     && !d_is_dir(a->dst_dentry)))
++			goto out_free;
++		lock_flags |= AuLock_DIRS;
++	}
++	if (a->dst_inode && d_is_dir(a->dst_dentry)) {
++		au_fset_ren(a->auren_flags, ISDIR_DST);
++		if (unlikely(!a->exchange
++			     && d_really_is_positive(a->src_dentry)
++			     && !d_is_dir(a->src_dentry)))
++			goto out_free;
++		lock_flags |= AuLock_DIRS;
++	}
++	err = aufs_read_and_write_lock2(a->dst_dentry, a->src_dentry, lock_flags);
++	if (unlikely(err))
++		goto out_free;
++
++	err = au_d_hashed_positive(a->src_dentry);
++	if (unlikely(err))
++		goto out_unlock;
++	err = -ENOENT;
++	if (a->dst_inode) {
++		/*
++		 * If it is a dir, VFS unhash it before this
++		 * function. It means we cannot rely upon d_unhashed().
++		 */
++		if (unlikely(!a->dst_inode->i_nlink))
++			goto out_unlock;
++		if (!au_ftest_ren(a->auren_flags, ISDIR_DST)) {
++			err = au_d_hashed_positive(a->dst_dentry);
++			if (unlikely(err && !a->exchange))
++				goto out_unlock;
++		} else if (unlikely(IS_DEADDIR(a->dst_inode)))
++			goto out_unlock;
++	} else if (unlikely(d_unhashed(a->dst_dentry)))
++		goto out_unlock;
++
++	/*
++	 * is it possible?
++	 * yes, it happened (in linux-3.3-rcN) but I don't know why.
++	 * there may exist a problem somewhere else.
++	 */
++	err = -EINVAL;
++	if (unlikely(d_inode(a->dst_parent) == d_inode(a->src_dentry)))
++		goto out_unlock;
++
++	au_fset_ren(a->auren_flags, ISSAMEDIR); /* temporary */
++	di_write_lock_parent(a->dst_parent);
++
++	/* which branch we process */
++	err = au_ren_wbr(a);
++	if (unlikely(err < 0))
++		goto out_parent;
++	a->br = au_sbr(a->dst_dentry->d_sb, a->btgt);
++	a->h_path.mnt = au_br_mnt(a->br);
++
++	/* are they available to be renamed */
++	err = au_ren_may_dir(a);
++	if (unlikely(err))
++		goto out_children;
++
++	/* prepare the writable parent dir on the same branch */
++	if (a->dst_btop == a->btgt) {
++		au_fset_ren(a->auren_flags, WHDST);
++	} else {
++		err = au_cpup_dirs(a->dst_dentry, a->btgt);
++		if (unlikely(err))
++			goto out_children;
++	}
++
++	err = 0;
++	if (!a->exchange) {
++		if (a->src_dir != a->dst_dir) {
++			/*
++			 * this temporary unlock is safe,
++			 * because both dir->i_mutex are locked.
++			 */
++			di_write_unlock(a->dst_parent);
++			di_write_lock_parent(a->src_parent);
++			err = au_wr_dir_need_wh(a->src_dentry,
++						au_ftest_ren(a->auren_flags,
++							     ISDIR_SRC),
++						&a->btgt);
++			di_write_unlock(a->src_parent);
++			di_write_lock2_parent(a->src_parent, a->dst_parent,
++					      /*isdir*/1);
++			au_fclr_ren(a->auren_flags, ISSAMEDIR);
++		} else
++			err = au_wr_dir_need_wh(a->src_dentry,
++						au_ftest_ren(a->auren_flags,
++							     ISDIR_SRC),
++						&a->btgt);
++	}
++	if (unlikely(err < 0))
++		goto out_children;
++	if (err)
++		au_fset_ren(a->auren_flags, WHSRC);
++
++	/* cpup src */
++	if (a->src_btop != a->btgt) {
++		err = au_pin(&pin, a->src_dentry, a->btgt,
++			     au_opt_udba(a->src_dentry->d_sb),
++			     AuPin_DI_LOCKED | AuPin_MNT_WRITE);
++		if (!err) {
++			struct au_cp_generic cpg = {
++				.dentry	= a->src_dentry,
++				.bdst	= a->btgt,
++				.bsrc	= a->src_btop,
++				.len	= -1,
++				.pin	= &pin,
++				.flags	= AuCpup_DTIME | AuCpup_HOPEN
++			};
++			AuDebugOn(au_dbtop(a->src_dentry) != a->src_btop);
++			err = au_sio_cpup_simple(&cpg);
++			au_unpin(&pin);
++		}
++		if (unlikely(err))
++			goto out_children;
++		a->src_btop = a->btgt;
++		a->src_h_dentry = au_h_dptr(a->src_dentry, a->btgt);
++		if (!a->exchange)
++			au_fset_ren(a->auren_flags, WHSRC);
++	}
++
++	/* cpup dst */
++	if (a->exchange && a->dst_inode
++	    && a->dst_btop != a->btgt) {
++		err = au_pin(&pin, a->dst_dentry, a->btgt,
++			     au_opt_udba(a->dst_dentry->d_sb),
++			     AuPin_DI_LOCKED | AuPin_MNT_WRITE);
++		if (!err) {
++			struct au_cp_generic cpg = {
++				.dentry	= a->dst_dentry,
++				.bdst	= a->btgt,
++				.bsrc	= a->dst_btop,
++				.len	= -1,
++				.pin	= &pin,
++				.flags	= AuCpup_DTIME | AuCpup_HOPEN
++			};
++			err = au_sio_cpup_simple(&cpg);
++			au_unpin(&pin);
++		}
++		if (unlikely(err))
++			goto out_children;
++		a->dst_btop = a->btgt;
++		a->dst_h_dentry = au_h_dptr(a->dst_dentry, a->btgt);
++	}
++
++	/* lock them all */
++	err = au_ren_lock(a);
++	if (unlikely(err))
++		/* leave the copied-up one */
++		goto out_children;
++
++	if (!a->exchange) {
++		if (!au_opt_test(au_mntflags(a->dst_dir->i_sb), UDBA_NONE))
++			err = au_may_ren(a);
++		else if (unlikely(a->dst_dentry->d_name.len > AUFS_MAX_NAMELEN))
++			err = -ENAMETOOLONG;
++		if (unlikely(err))
++			goto out_hdir;
++	}
++
++	/* store timestamps to be revertible */
++	au_ren_dt(a);
++
++	/* here we go */
++	err = do_rename(a);
++	if (unlikely(err))
++		goto out_dt;
++
++	/* update dir attributes */
++	au_ren_refresh_dir(a);
++
++	/* dput/iput all lower dentries */
++	au_ren_refresh(a);
++
++	goto out_hdir; /* success */
++
++out_dt:
++	au_ren_rev_dt(err, a);
++out_hdir:
++	au_ren_unlock(a);
++out_children:
++	au_nhash_wh_free(&a->whlist);
++	if (err && a->dst_inode && a->dst_btop != a->btgt) {
++		AuDbg("btop %d, btgt %d\n", a->dst_btop, a->btgt);
++		au_set_h_dptr(a->dst_dentry, a->btgt, NULL);
++		au_set_dbtop(a->dst_dentry, a->dst_btop);
++	}
++out_parent:
++	if (!err) {
++		if (!a->exchange)
++			d_move(a->src_dentry, a->dst_dentry);
++		else
++			d_exchange(a->src_dentry, a->dst_dentry);
++	} else {
++		au_update_dbtop(a->dst_dentry);
++		if (!a->dst_inode)
++			d_drop(a->dst_dentry);
++	}
++	if (au_ftest_ren(a->auren_flags, ISSAMEDIR))
++		di_write_unlock(a->dst_parent);
++	else
++		di_write_unlock2(a->src_parent, a->dst_parent);
++out_unlock:
++	aufs_read_and_write_unlock2(a->dst_dentry, a->src_dentry);
++out_free:
++	iput(a->dst_inode);
++	if (a->thargs)
++		au_whtmp_rmdir_free(a->thargs);
++	kfree(a);
++out:
++	AuTraceErr(err);
++	return err;
++}
+diff --git a/fs/aufs/iinfo.c b/fs/aufs/iinfo.c
+new file mode 100755
+index 0000000..4d3a55c
+--- /dev/null
++++ b/fs/aufs/iinfo.c
+@@ -0,0 +1,285 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * inode private data
++ */
++
++#include "aufs.h"
++
++struct inode *au_h_iptr(struct inode *inode, aufs_bindex_t bindex)
++{
++	struct inode *h_inode;
++	struct au_hinode *hinode;
++
++	IiMustAnyLock(inode);
++
++	hinode = au_hinode(au_ii(inode), bindex);
++	h_inode = hinode->hi_inode;
++	AuDebugOn(h_inode && atomic_read(&h_inode->i_count) <= 0);
++	return h_inode;
++}
++
++/* todo: hard/soft set? */
++void au_hiput(struct au_hinode *hinode)
++{
++	au_hn_free(hinode);
++	dput(hinode->hi_whdentry);
++	iput(hinode->hi_inode);
++}
++
++unsigned int au_hi_flags(struct inode *inode, int isdir)
++{
++	unsigned int flags;
++	const unsigned int mnt_flags = au_mntflags(inode->i_sb);
++
++	flags = 0;
++	if (au_opt_test(mnt_flags, XINO))
++		au_fset_hi(flags, XINO);
++	if (isdir && au_opt_test(mnt_flags, UDBA_HNOTIFY))
++		au_fset_hi(flags, HNOTIFY);
++	return flags;
++}
++
++void au_set_h_iptr(struct inode *inode, aufs_bindex_t bindex,
++		   struct inode *h_inode, unsigned int flags)
++{
++	struct au_hinode *hinode;
++	struct inode *hi;
++	struct au_iinfo *iinfo = au_ii(inode);
++
++	IiMustWriteLock(inode);
++
++	hinode = au_hinode(iinfo, bindex);
++	hi = hinode->hi_inode;
++	AuDebugOn(h_inode && atomic_read(&h_inode->i_count) <= 0);
++
++	if (hi)
++		au_hiput(hinode);
++	hinode->hi_inode = h_inode;
++	if (h_inode) {
++		int err;
++		struct super_block *sb = inode->i_sb;
++		struct au_branch *br;
++
++		AuDebugOn(inode->i_mode
++			  && (h_inode->i_mode & S_IFMT)
++			  != (inode->i_mode & S_IFMT));
++		if (bindex == iinfo->ii_btop)
++			au_cpup_igen(inode, h_inode);
++		br = au_sbr(sb, bindex);
++		hinode->hi_id = br->br_id;
++		if (au_ftest_hi(flags, XINO)) {
++			err = au_xino_write(sb, bindex, h_inode->i_ino,
++					    inode->i_ino);
++			if (unlikely(err))
++				AuIOErr1("failed au_xino_write() %d\n", err);
++		}
++
++		if (au_ftest_hi(flags, HNOTIFY)
++		    && au_br_hnotifyable(br->br_perm)) {
++			err = au_hn_alloc(hinode, inode);
++			if (unlikely(err))
++				AuIOErr1("au_hn_alloc() %d\n", err);
++		}
++	}
++}
++
++void au_set_hi_wh(struct inode *inode, aufs_bindex_t bindex,
++		  struct dentry *h_wh)
++{
++	struct au_hinode *hinode;
++
++	IiMustWriteLock(inode);
++
++	hinode = au_hinode(au_ii(inode), bindex);
++	AuDebugOn(hinode->hi_whdentry);
++	hinode->hi_whdentry = h_wh;
++}
++
++void au_update_iigen(struct inode *inode, int half)
++{
++	struct au_iinfo *iinfo;
++	struct au_iigen *iigen;
++	unsigned int sigen;
++
++	sigen = au_sigen(inode->i_sb);
++	iinfo = au_ii(inode);
++	iigen = &iinfo->ii_generation;
++	spin_lock(&iigen->ig_spin);
++	iigen->ig_generation = sigen;
++	if (half)
++		au_ig_fset(iigen->ig_flags, HALF_REFRESHED);
++	else
++		au_ig_fclr(iigen->ig_flags, HALF_REFRESHED);
++	spin_unlock(&iigen->ig_spin);
++}
++
++/* it may be called at remount time, too */
++void au_update_ibrange(struct inode *inode, int do_put_zero)
++{
++	struct au_iinfo *iinfo;
++	aufs_bindex_t bindex, bbot;
++
++	AuDebugOn(au_is_bad_inode(inode));
++	IiMustWriteLock(inode);
++
++	iinfo = au_ii(inode);
++	if (do_put_zero && iinfo->ii_btop >= 0) {
++		for (bindex = iinfo->ii_btop; bindex <= iinfo->ii_bbot;
++		     bindex++) {
++			struct inode *h_i;
++
++			h_i = au_hinode(iinfo, bindex)->hi_inode;
++			if (h_i
++			    && !h_i->i_nlink
++			    && !(h_i->i_state & I_LINKABLE))
++				au_set_h_iptr(inode, bindex, NULL, 0);
++		}
++	}
++
++	iinfo->ii_btop = -1;
++	iinfo->ii_bbot = -1;
++	bbot = au_sbbot(inode->i_sb);
++	for (bindex = 0; bindex <= bbot; bindex++)
++		if (au_hinode(iinfo, bindex)->hi_inode) {
++			iinfo->ii_btop = bindex;
++			break;
++		}
++	if (iinfo->ii_btop >= 0)
++		for (bindex = bbot; bindex >= iinfo->ii_btop; bindex--)
++			if (au_hinode(iinfo, bindex)->hi_inode) {
++				iinfo->ii_bbot = bindex;
++				break;
++			}
++	AuDebugOn(iinfo->ii_btop > iinfo->ii_bbot);
++}
++
++/* ---------------------------------------------------------------------- */
++
++void au_icntnr_init_once(void *_c)
++{
++	struct au_icntnr *c = _c;
++	struct au_iinfo *iinfo = &c->iinfo;
++
++	spin_lock_init(&iinfo->ii_generation.ig_spin);
++	au_rw_init(&iinfo->ii_rwsem);
++	inode_init_once(&c->vfs_inode);
++}
++
++void au_hinode_init(struct au_hinode *hinode)
++{
++	hinode->hi_inode = NULL;
++	hinode->hi_id = -1;
++	au_hn_init(hinode);
++	hinode->hi_whdentry = NULL;
++}
++
++int au_iinfo_init(struct inode *inode)
++{
++	struct au_iinfo *iinfo;
++	struct super_block *sb;
++	struct au_hinode *hi;
++	int nbr, i;
++
++	sb = inode->i_sb;
++	iinfo = &(container_of(inode, struct au_icntnr, vfs_inode)->iinfo);
++	nbr = au_sbbot(sb) + 1;
++	if (unlikely(nbr <= 0))
++		nbr = 1;
++	hi = kmalloc_array(nbr, sizeof(*iinfo->ii_hinode), GFP_NOFS);
++	if (hi) {
++		au_ninodes_inc(sb);
++
++		iinfo->ii_hinode = hi;
++		for (i = 0; i < nbr; i++, hi++)
++			au_hinode_init(hi);
++
++		iinfo->ii_generation.ig_generation = au_sigen(sb);
++		iinfo->ii_btop = -1;
++		iinfo->ii_bbot = -1;
++		iinfo->ii_vdir = NULL;
++		return 0;
++	}
++	return -ENOMEM;
++}
++
++int au_hinode_realloc(struct au_iinfo *iinfo, int nbr, int may_shrink)
++{
++	int err, i;
++	struct au_hinode *hip;
++
++	AuRwMustWriteLock(&iinfo->ii_rwsem);
++
++	err = -ENOMEM;
++	hip = au_krealloc(iinfo->ii_hinode, sizeof(*hip) * nbr, GFP_NOFS,
++			  may_shrink);
++	if (hip) {
++		iinfo->ii_hinode = hip;
++		i = iinfo->ii_bbot + 1;
++		hip += i;
++		for (; i < nbr; i++, hip++)
++			au_hinode_init(hip);
++		err = 0;
++	}
++
++	return err;
++}
++
++void au_iinfo_fin(struct inode *inode)
++{
++	struct au_iinfo *iinfo;
++	struct au_hinode *hi;
++	struct super_block *sb;
++	aufs_bindex_t bindex, bbot;
++	const unsigned char unlinked = !inode->i_nlink;
++
++	AuDebugOn(au_is_bad_inode(inode));
++
++	sb = inode->i_sb;
++	au_ninodes_dec(sb);
++	if (si_pid_test(sb))
++		au_xino_delete_inode(inode, unlinked);
++	else {
++		/*
++		 * it is safe to hide the dependency between sbinfo and
++		 * sb->s_umount.
++		 */
++		lockdep_off();
++		si_noflush_read_lock(sb);
++		au_xino_delete_inode(inode, unlinked);
++		si_read_unlock(sb);
++		lockdep_on();
++	}
++
++	iinfo = au_ii(inode);
++	if (iinfo->ii_vdir)
++		au_vdir_free(iinfo->ii_vdir);
++
++	bindex = iinfo->ii_btop;
++	if (bindex >= 0) {
++		hi = au_hinode(iinfo, bindex);
++		bbot = iinfo->ii_bbot;
++		while (bindex++ <= bbot) {
++			if (hi->hi_inode)
++				au_hiput(hi);
++			hi++;
++		}
++	}
++	kfree(iinfo->ii_hinode);
++	AuRwDestroy(&iinfo->ii_rwsem);
++}
+diff --git a/fs/aufs/inode.c b/fs/aufs/inode.c
+new file mode 100755
+index 0000000..d361e25
+--- /dev/null
++++ b/fs/aufs/inode.c
+@@ -0,0 +1,527 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * inode functions
++ */
++
++#include "aufs.h"
++
++struct inode *au_igrab(struct inode *inode)
++{
++	if (inode) {
++		AuDebugOn(!atomic_read(&inode->i_count));
++		ihold(inode);
++	}
++	return inode;
++}
++
++static void au_refresh_hinode_attr(struct inode *inode, int do_version)
++{
++	au_cpup_attr_all(inode, /*force*/0);
++	au_update_iigen(inode, /*half*/1);
++	if (do_version)
++		inode->i_version++;
++}
++
++static int au_ii_refresh(struct inode *inode, int *update)
++{
++	int err, e, nbr;
++	umode_t type;
++	aufs_bindex_t bindex, new_bindex;
++	struct super_block *sb;
++	struct au_iinfo *iinfo;
++	struct au_hinode *p, *q, tmp;
++
++	AuDebugOn(au_is_bad_inode(inode));
++	IiMustWriteLock(inode);
++
++	*update = 0;
++	sb = inode->i_sb;
++	nbr = au_sbbot(sb) + 1;
++	type = inode->i_mode & S_IFMT;
++	iinfo = au_ii(inode);
++	err = au_hinode_realloc(iinfo, nbr, /*may_shrink*/0);
++	if (unlikely(err))
++		goto out;
++
++	AuDebugOn(iinfo->ii_btop < 0);
++	p = au_hinode(iinfo, iinfo->ii_btop);
++	for (bindex = iinfo->ii_btop; bindex <= iinfo->ii_bbot;
++	     bindex++, p++) {
++		if (!p->hi_inode)
++			continue;
++
++		AuDebugOn(type != (p->hi_inode->i_mode & S_IFMT));
++		new_bindex = au_br_index(sb, p->hi_id);
++		if (new_bindex == bindex)
++			continue;
++
++		if (new_bindex < 0) {
++			*update = 1;
++			au_hiput(p);
++			p->hi_inode = NULL;
++			continue;
++		}
++
++		if (new_bindex < iinfo->ii_btop)
++			iinfo->ii_btop = new_bindex;
++		if (iinfo->ii_bbot < new_bindex)
++			iinfo->ii_bbot = new_bindex;
++		/* swap two lower inode, and loop again */
++		q = au_hinode(iinfo, new_bindex);
++		tmp = *q;
++		*q = *p;
++		*p = tmp;
++		if (tmp.hi_inode) {
++			bindex--;
++			p--;
++		}
++	}
++	au_update_ibrange(inode, /*do_put_zero*/0);
++	au_hinode_realloc(iinfo, nbr, /*may_shrink*/1); /* harmless if err */
++	e = au_dy_irefresh(inode);
++	if (unlikely(e && !err))
++		err = e;
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++void au_refresh_iop(struct inode *inode, int force_getattr)
++{
++	int type;
++	struct au_sbinfo *sbi = au_sbi(inode->i_sb);
++	const struct inode_operations *iop
++		= force_getattr ? aufs_iop : sbi->si_iop_array;
++
++	if (inode->i_op == iop)
++		return;
++
++	switch (inode->i_mode & S_IFMT) {
++	case S_IFDIR:
++		type = AuIop_DIR;
++		break;
++	case S_IFLNK:
++		type = AuIop_SYMLINK;
++		break;
++	default:
++		type = AuIop_OTHER;
++		break;
++	}
++
++	inode->i_op = iop + type;
++	/* unnecessary smp_wmb() */
++}
++
++int au_refresh_hinode_self(struct inode *inode)
++{
++	int err, update;
++
++	err = au_ii_refresh(inode, &update);
++	if (!err)
++		au_refresh_hinode_attr(inode, update && S_ISDIR(inode->i_mode));
++
++	AuTraceErr(err);
++	return err;
++}
++
++int au_refresh_hinode(struct inode *inode, struct dentry *dentry)
++{
++	int err, e, update;
++	unsigned int flags;
++	umode_t mode;
++	aufs_bindex_t bindex, bbot;
++	unsigned char isdir;
++	struct au_hinode *p;
++	struct au_iinfo *iinfo;
++
++	err = au_ii_refresh(inode, &update);
++	if (unlikely(err))
++		goto out;
++
++	update = 0;
++	iinfo = au_ii(inode);
++	p = au_hinode(iinfo, iinfo->ii_btop);
++	mode = (inode->i_mode & S_IFMT);
++	isdir = S_ISDIR(mode);
++	flags = au_hi_flags(inode, isdir);
++	bbot = au_dbbot(dentry);
++	for (bindex = au_dbtop(dentry); bindex <= bbot; bindex++) {
++		struct inode *h_i, *h_inode;
++		struct dentry *h_d;
++
++		h_d = au_h_dptr(dentry, bindex);
++		if (!h_d || d_is_negative(h_d))
++			continue;
++
++		h_inode = d_inode(h_d);
++		AuDebugOn(mode != (h_inode->i_mode & S_IFMT));
++		if (iinfo->ii_btop <= bindex && bindex <= iinfo->ii_bbot) {
++			h_i = au_h_iptr(inode, bindex);
++			if (h_i) {
++				if (h_i == h_inode)
++					continue;
++				err = -EIO;
++				break;
++			}
++		}
++		if (bindex < iinfo->ii_btop)
++			iinfo->ii_btop = bindex;
++		if (iinfo->ii_bbot < bindex)
++			iinfo->ii_bbot = bindex;
++		au_set_h_iptr(inode, bindex, au_igrab(h_inode), flags);
++		update = 1;
++	}
++	au_update_ibrange(inode, /*do_put_zero*/0);
++	e = au_dy_irefresh(inode);
++	if (unlikely(e && !err))
++		err = e;
++	if (!err)
++		au_refresh_hinode_attr(inode, update && isdir);
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++static int set_inode(struct inode *inode, struct dentry *dentry)
++{
++	int err;
++	unsigned int flags;
++	umode_t mode;
++	aufs_bindex_t bindex, btop, btail;
++	unsigned char isdir;
++	struct dentry *h_dentry;
++	struct inode *h_inode;
++	struct au_iinfo *iinfo;
++	struct inode_operations *iop;
++
++	IiMustWriteLock(inode);
++
++	err = 0;
++	isdir = 0;
++	iop = au_sbi(inode->i_sb)->si_iop_array;
++	btop = au_dbtop(dentry);
++	h_dentry = au_h_dptr(dentry, btop);
++	h_inode = d_inode(h_dentry);
++	mode = h_inode->i_mode;
++	switch (mode & S_IFMT) {
++	case S_IFREG:
++		btail = au_dbtail(dentry);
++		inode->i_op = iop + AuIop_OTHER;
++		inode->i_fop = &aufs_file_fop;
++		err = au_dy_iaop(inode, btop, h_inode);
++		if (unlikely(err))
++			goto out;
++		break;
++	case S_IFDIR:
++		isdir = 1;
++		btail = au_dbtaildir(dentry);
++		inode->i_op = iop + AuIop_DIR;
++		inode->i_fop = &aufs_dir_fop;
++		break;
++	case S_IFLNK:
++		btail = au_dbtail(dentry);
++		inode->i_op = iop + AuIop_SYMLINK;
++		break;
++	case S_IFBLK:
++	case S_IFCHR:
++	case S_IFIFO:
++	case S_IFSOCK:
++		btail = au_dbtail(dentry);
++		inode->i_op = iop + AuIop_OTHER;
++		init_special_inode(inode, mode, h_inode->i_rdev);
++		break;
++	default:
++		AuIOErr("Unknown file type 0%o\n", mode);
++		err = -EIO;
++		goto out;
++	}
++
++	/* do not set hnotify for whiteouted dirs (SHWH mode) */
++	flags = au_hi_flags(inode, isdir);
++	if (au_opt_test(au_mntflags(dentry->d_sb), SHWH)
++	    && au_ftest_hi(flags, HNOTIFY)
++	    && dentry->d_name.len > AUFS_WH_PFX_LEN
++	    && !memcmp(dentry->d_name.name, AUFS_WH_PFX, AUFS_WH_PFX_LEN))
++		au_fclr_hi(flags, HNOTIFY);
++	iinfo = au_ii(inode);
++	iinfo->ii_btop = btop;
++	iinfo->ii_bbot = btail;
++	for (bindex = btop; bindex <= btail; bindex++) {
++		h_dentry = au_h_dptr(dentry, bindex);
++		if (h_dentry)
++			au_set_h_iptr(inode, bindex,
++				      au_igrab(d_inode(h_dentry)), flags);
++	}
++	au_cpup_attr_all(inode, /*force*/1);
++	/*
++	 * to force calling aufs_get_acl() every time,
++	 * do not call cache_no_acl() for aufs inode.
++	 */
++
++out:
++	return err;
++}
++
++/*
++ * successful returns with iinfo write_locked
++ * minus: errno
++ * zero: success, matched
++ * plus: no error, but unmatched
++ */
++static int reval_inode(struct inode *inode, struct dentry *dentry)
++{
++	int err;
++	unsigned int gen, igflags;
++	aufs_bindex_t bindex, bbot;
++	struct inode *h_inode, *h_dinode;
++	struct dentry *h_dentry;
++
++	/*
++	 * before this function, if aufs got any iinfo lock, it must be only
++	 * one, the parent dir.
++	 * it can happen by UDBA and the obsoleted inode number.
++	 */
++	err = -EIO;
++	if (unlikely(inode->i_ino == parent_ino(dentry)))
++		goto out;
++
++	err = 1;
++	ii_write_lock_new_child(inode);
++	h_dentry = au_h_dptr(dentry, au_dbtop(dentry));
++	h_dinode = d_inode(h_dentry);
++	bbot = au_ibbot(inode);
++	for (bindex = au_ibtop(inode); bindex <= bbot; bindex++) {
++		h_inode = au_h_iptr(inode, bindex);
++		if (!h_inode || h_inode != h_dinode)
++			continue;
++
++		err = 0;
++		gen = au_iigen(inode, &igflags);
++		if (gen == au_digen(dentry)
++		    && !au_ig_ftest(igflags, HALF_REFRESHED))
++			break;
++
++		/* fully refresh inode using dentry */
++		err = au_refresh_hinode(inode, dentry);
++		if (!err)
++			au_update_iigen(inode, /*half*/0);
++		break;
++	}
++
++	if (unlikely(err))
++		ii_write_unlock(inode);
++out:
++	return err;
++}
++
++int au_ino(struct super_block *sb, aufs_bindex_t bindex, ino_t h_ino,
++	   unsigned int d_type, ino_t *ino)
++{
++	int err, idx;
++	const int isnondir = d_type != DT_DIR;
++
++	/* prevent hardlinked inode number from race condition */
++	if (isnondir) {
++		err = au_xinondir_enter(sb, bindex, h_ino, &idx);
++		if (unlikely(err))
++			goto out;
++	}
++
++	err = au_xino_read(sb, bindex, h_ino, ino);
++	if (unlikely(err))
++		goto out_xinondir;
++
++	if (!*ino) {
++		err = -EIO;
++		*ino = au_xino_new_ino(sb);
++		if (unlikely(!*ino))
++			goto out_xinondir;
++		err = au_xino_write(sb, bindex, h_ino, *ino);
++		if (unlikely(err))
++			goto out_xinondir;
++	}
++
++out_xinondir:
++	if (isnondir && idx >= 0)
++		au_xinondir_leave(sb, bindex, h_ino, idx);
++out:
++	return err;
++}
++
++/* successful returns with iinfo write_locked */
++/* todo: return with unlocked? */
++struct inode *au_new_inode(struct dentry *dentry, int must_new)
++{
++	struct inode *inode, *h_inode;
++	struct dentry *h_dentry;
++	struct super_block *sb;
++	ino_t h_ino, ino;
++	int err, idx, hlinked;
++	aufs_bindex_t btop;
++
++	sb = dentry->d_sb;
++	btop = au_dbtop(dentry);
++	h_dentry = au_h_dptr(dentry, btop);
++	h_inode = d_inode(h_dentry);
++	h_ino = h_inode->i_ino;
++	hlinked = !d_is_dir(h_dentry) && h_inode->i_nlink > 1;
++
++new_ino:
++	/*
++	 * stop 'race'-ing between hardlinks under different
++	 * parents.
++	 */
++	if (hlinked) {
++		err = au_xinondir_enter(sb, btop, h_ino, &idx);
++		inode = ERR_PTR(err);
++		if (unlikely(err))
++			goto out;
++	}
++
++	err = au_xino_read(sb, btop, h_ino, &ino);
++	inode = ERR_PTR(err);
++	if (unlikely(err))
++		goto out_xinondir;
++
++	if (!ino) {
++		ino = au_xino_new_ino(sb);
++		if (unlikely(!ino)) {
++			inode = ERR_PTR(-EIO);
++			goto out_xinondir;
++		}
++	}
++
++	AuDbg("i%lu\n", (unsigned long)ino);
++	inode = au_iget_locked(sb, ino);
++	err = PTR_ERR(inode);
++	if (IS_ERR(inode))
++		goto out_xinondir;
++
++	AuDbg("%lx, new %d\n", inode->i_state, !!(inode->i_state & I_NEW));
++	if (inode->i_state & I_NEW) {
++		ii_write_lock_new_child(inode);
++		err = set_inode(inode, dentry);
++		if (!err) {
++			unlock_new_inode(inode);
++			goto out_xinondir; /* success */
++		}
++
++		/*
++		 * iget_failed() calls iput(), but we need to call
++		 * ii_write_unlock() after iget_failed(). so dirty hack for
++		 * i_count.
++		 */
++		atomic_inc(&inode->i_count);
++		iget_failed(inode);
++		ii_write_unlock(inode);
++		au_xino_write(sb, btop, h_ino, /*ino*/0);
++		/* ignore this error */
++		goto out_iput;
++	} else if (!must_new && !IS_DEADDIR(inode) && inode->i_nlink) {
++		/*
++		 * horrible race condition between lookup, readdir and copyup
++		 * (or something).
++		 */
++		if (hlinked && idx >= 0)
++			au_xinondir_leave(sb, btop, h_ino, idx);
++		err = reval_inode(inode, dentry);
++		if (unlikely(err < 0)) {
++			hlinked = 0;
++			goto out_iput;
++		}
++		if (!err)
++			goto out; /* success */
++		else if (hlinked && idx >= 0) {
++			err = au_xinondir_enter(sb, btop, h_ino, &idx);
++			if (unlikely(err)) {
++				iput(inode);
++				inode = ERR_PTR(err);
++				goto out;
++			}
++		}
++	}
++
++	if (unlikely(au_test_fs_unique_ino(h_inode)))
++		AuWarn1("Warning: Un-notified UDBA or repeatedly renamed dir,"
++			" b%d, %s, %pd, hi%lu, i%lu.\n",
++			btop, au_sbtype(h_dentry->d_sb), dentry,
++			(unsigned long)h_ino, (unsigned long)ino);
++	ino = 0;
++	err = au_xino_write(sb, btop, h_ino, /*ino*/0);
++	if (!err) {
++		iput(inode);
++		if (hlinked && idx >= 0)
++			au_xinondir_leave(sb, btop, h_ino, idx);
++		goto new_ino;
++	}
++
++out_iput:
++	iput(inode);
++	inode = ERR_PTR(err);
++out_xinondir:
++	if (hlinked && idx >= 0)
++		au_xinondir_leave(sb, btop, h_ino, idx);
++out:
++	return inode;
++}
++
++/* ---------------------------------------------------------------------- */
++
++int au_test_ro(struct super_block *sb, aufs_bindex_t bindex,
++	       struct inode *inode)
++{
++	int err;
++	struct inode *hi;
++
++	err = au_br_rdonly(au_sbr(sb, bindex));
++
++	/* pseudo-link after flushed may happen out of bounds */
++	if (!err
++	    && inode
++	    && au_ibtop(inode) <= bindex
++	    && bindex <= au_ibbot(inode)) {
++		/*
++		 * permission check is unnecessary since vfsub routine
++		 * will be called later
++		 */
++		hi = au_h_iptr(inode, bindex);
++		if (hi)
++			err = IS_IMMUTABLE(hi) ? -EROFS : 0;
++	}
++
++	return err;
++}
++
++int au_test_h_perm(struct inode *h_inode, int mask)
++{
++	if (uid_eq(current_fsuid(), GLOBAL_ROOT_UID))
++		return 0;
++	return inode_permission(h_inode, mask);
++}
++
++int au_test_h_perm_sio(struct inode *h_inode, int mask)
++{
++	if (au_test_nfs(h_inode->i_sb)
++	    && (mask & MAY_WRITE)
++	    && S_ISDIR(h_inode->i_mode))
++		mask |= MAY_READ; /* force permission check */
++	return au_test_h_perm(h_inode, mask);
++}
+diff --git a/fs/aufs/inode.h b/fs/aufs/inode.h
+new file mode 100755
+index 0000000..318154b
+--- /dev/null
++++ b/fs/aufs/inode.h
+@@ -0,0 +1,694 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * inode operations
++ */
++
++#ifndef __AUFS_INODE_H__
++#define __AUFS_INODE_H__
++
++#ifdef __KERNEL__
++
++#include <linux/fsnotify.h>
++#include "rwsem.h"
++#include "vfsub.h"
++
++struct vfsmount;
++
++struct au_hnotify {
++#ifdef CONFIG_AUFS_HNOTIFY
++#ifdef CONFIG_AUFS_HFSNOTIFY
++	/* never use fsnotify_add_vfsmount_mark() */
++	struct fsnotify_mark		hn_mark;
++#endif
++	struct inode		*hn_aufs_inode;	/* no get/put */
++#endif
++} ____cacheline_aligned_in_smp;
++
++struct au_hinode {
++	struct inode		*hi_inode;
++	aufs_bindex_t		hi_id;
++#ifdef CONFIG_AUFS_HNOTIFY
++	struct au_hnotify	*hi_notify;
++#endif
++
++	/* reference to the copied-up whiteout with get/put */
++	struct dentry		*hi_whdentry;
++};
++
++/* ig_flags */
++#define AuIG_HALF_REFRESHED		1
++#define au_ig_ftest(flags, name)	((flags) & AuIG_##name)
++#define au_ig_fset(flags, name) \
++	do { (flags) |= AuIG_##name; } while (0)
++#define au_ig_fclr(flags, name) \
++	do { (flags) &= ~AuIG_##name; } while (0)
++
++struct au_iigen {
++	spinlock_t	ig_spin;
++	__u32		ig_generation, ig_flags;
++};
++
++struct au_vdir;
++struct au_iinfo {
++	struct au_iigen		ii_generation;
++	struct super_block	*ii_hsb1;	/* no get/put */
++
++	struct au_rwsem		ii_rwsem;
++	aufs_bindex_t		ii_btop, ii_bbot;
++	__u32			ii_higen;
++	struct au_hinode	*ii_hinode;
++	struct au_vdir		*ii_vdir;
++};
++
++struct au_icntnr {
++	struct au_iinfo iinfo;
++	struct inode vfs_inode;
++	struct hlist_node plink;
++} ____cacheline_aligned_in_smp;
++
++/* au_pin flags */
++#define AuPin_DI_LOCKED		1
++#define AuPin_MNT_WRITE		(1 << 1)
++#define au_ftest_pin(flags, name)	((flags) & AuPin_##name)
++#define au_fset_pin(flags, name) \
++	do { (flags) |= AuPin_##name; } while (0)
++#define au_fclr_pin(flags, name) \
++	do { (flags) &= ~AuPin_##name; } while (0)
++
++struct au_pin {
++	/* input */
++	struct dentry *dentry;
++	unsigned int udba;
++	unsigned char lsc_di, lsc_hi, flags;
++	aufs_bindex_t bindex;
++
++	/* output */
++	struct dentry *parent;
++	struct au_hinode *hdir;
++	struct vfsmount *h_mnt;
++
++	/* temporary unlock/relock for copyup */
++	struct dentry *h_dentry, *h_parent;
++	struct au_branch *br;
++	struct task_struct *task;
++};
++
++void au_pin_hdir_unlock(struct au_pin *p);
++int au_pin_hdir_lock(struct au_pin *p);
++int au_pin_hdir_relock(struct au_pin *p);
++void au_pin_hdir_acquire_nest(struct au_pin *p);
++void au_pin_hdir_release(struct au_pin *p);
++
++/* ---------------------------------------------------------------------- */
++
++static inline struct au_iinfo *au_ii(struct inode *inode)
++{
++	BUG_ON(is_bad_inode(inode));
++	return &(container_of(inode, struct au_icntnr, vfs_inode)->iinfo);
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* inode.c */
++struct inode *au_igrab(struct inode *inode);
++void au_refresh_iop(struct inode *inode, int force_getattr);
++int au_refresh_hinode_self(struct inode *inode);
++int au_refresh_hinode(struct inode *inode, struct dentry *dentry);
++int au_ino(struct super_block *sb, aufs_bindex_t bindex, ino_t h_ino,
++	   unsigned int d_type, ino_t *ino);
++struct inode *au_new_inode(struct dentry *dentry, int must_new);
++int au_test_ro(struct super_block *sb, aufs_bindex_t bindex,
++	       struct inode *inode);
++int au_test_h_perm(struct inode *h_inode, int mask);
++int au_test_h_perm_sio(struct inode *h_inode, int mask);
++
++static inline int au_wh_ino(struct super_block *sb, aufs_bindex_t bindex,
++			    ino_t h_ino, unsigned int d_type, ino_t *ino)
++{
++#ifdef CONFIG_AUFS_SHWH
++	return au_ino(sb, bindex, h_ino, d_type, ino);
++#else
++	return 0;
++#endif
++}
++
++/* i_op.c */
++enum {
++	AuIop_SYMLINK,
++	AuIop_DIR,
++	AuIop_OTHER,
++	AuIop_Last
++};
++extern struct inode_operations aufs_iop[AuIop_Last],
++	aufs_iop_nogetattr[AuIop_Last];
++
++/* au_wr_dir flags */
++#define AuWrDir_ADD_ENTRY	1
++#define AuWrDir_ISDIR		(1 << 1)
++#define AuWrDir_TMPFILE		(1 << 2)
++#define au_ftest_wrdir(flags, name)	((flags) & AuWrDir_##name)
++#define au_fset_wrdir(flags, name) \
++	do { (flags) |= AuWrDir_##name; } while (0)
++#define au_fclr_wrdir(flags, name) \
++	do { (flags) &= ~AuWrDir_##name; } while (0)
++
++struct au_wr_dir_args {
++	aufs_bindex_t force_btgt;
++	unsigned char flags;
++};
++int au_wr_dir(struct dentry *dentry, struct dentry *src_dentry,
++	      struct au_wr_dir_args *args);
++
++struct dentry *au_pinned_h_parent(struct au_pin *pin);
++void au_pin_init(struct au_pin *pin, struct dentry *dentry,
++		 aufs_bindex_t bindex, int lsc_di, int lsc_hi,
++		 unsigned int udba, unsigned char flags);
++int au_pin(struct au_pin *pin, struct dentry *dentry, aufs_bindex_t bindex,
++	   unsigned int udba, unsigned char flags) __must_check;
++int au_do_pin(struct au_pin *pin) __must_check;
++void au_unpin(struct au_pin *pin);
++int au_reval_for_attr(struct dentry *dentry, unsigned int sigen);
++
++#define AuIcpup_DID_CPUP	1
++#define au_ftest_icpup(flags, name)	((flags) & AuIcpup_##name)
++#define au_fset_icpup(flags, name) \
++	do { (flags) |= AuIcpup_##name; } while (0)
++#define au_fclr_icpup(flags, name) \
++	do { (flags) &= ~AuIcpup_##name; } while (0)
++
++struct au_icpup_args {
++	unsigned char flags;
++	unsigned char pin_flags;
++	aufs_bindex_t btgt;
++	unsigned int udba;
++	struct au_pin pin;
++	struct path h_path;
++	struct inode *h_inode;
++};
++
++int au_pin_and_icpup(struct dentry *dentry, struct iattr *ia,
++		     struct au_icpup_args *a);
++
++int au_h_path_getattr(struct dentry *dentry, int force, struct path *h_path,
++		      int locked);
++
++/* i_op_add.c */
++int au_may_add(struct dentry *dentry, aufs_bindex_t bindex,
++	       struct dentry *h_parent, int isdir);
++int aufs_mknod(struct inode *dir, struct dentry *dentry, umode_t mode,
++	       dev_t dev);
++int aufs_symlink(struct inode *dir, struct dentry *dentry, const char *symname);
++int aufs_create(struct inode *dir, struct dentry *dentry, umode_t mode,
++		bool want_excl);
++struct vfsub_aopen_args;
++int au_aopen_or_create(struct inode *dir, struct dentry *dentry,
++		       struct vfsub_aopen_args *args);
++int aufs_tmpfile(struct inode *dir, struct dentry *dentry, umode_t mode);
++int aufs_link(struct dentry *src_dentry, struct inode *dir,
++	      struct dentry *dentry);
++int aufs_mkdir(struct inode *dir, struct dentry *dentry, umode_t mode);
++
++/* i_op_del.c */
++int au_wr_dir_need_wh(struct dentry *dentry, int isdir, aufs_bindex_t *bcpup);
++int au_may_del(struct dentry *dentry, aufs_bindex_t bindex,
++	       struct dentry *h_parent, int isdir);
++int aufs_unlink(struct inode *dir, struct dentry *dentry);
++int aufs_rmdir(struct inode *dir, struct dentry *dentry);
++
++/* i_op_ren.c */
++int au_wbr(struct dentry *dentry, aufs_bindex_t btgt);
++int aufs_rename(struct inode *src_dir, struct dentry *src_dentry,
++		struct inode *dir, struct dentry *dentry,
++		unsigned int flags);
++
++/* iinfo.c */
++struct inode *au_h_iptr(struct inode *inode, aufs_bindex_t bindex);
++void au_hiput(struct au_hinode *hinode);
++void au_set_hi_wh(struct inode *inode, aufs_bindex_t bindex,
++		  struct dentry *h_wh);
++unsigned int au_hi_flags(struct inode *inode, int isdir);
++
++/* hinode flags */
++#define AuHi_XINO	1
++#define AuHi_HNOTIFY	(1 << 1)
++#define au_ftest_hi(flags, name)	((flags) & AuHi_##name)
++#define au_fset_hi(flags, name) \
++	do { (flags) |= AuHi_##name; } while (0)
++#define au_fclr_hi(flags, name) \
++	do { (flags) &= ~AuHi_##name; } while (0)
++
++#ifndef CONFIG_AUFS_HNOTIFY
++#undef AuHi_HNOTIFY
++#define AuHi_HNOTIFY	0
++#endif
++
++void au_set_h_iptr(struct inode *inode, aufs_bindex_t bindex,
++		   struct inode *h_inode, unsigned int flags);
++
++void au_update_iigen(struct inode *inode, int half);
++void au_update_ibrange(struct inode *inode, int do_put_zero);
++
++void au_icntnr_init_once(void *_c);
++void au_hinode_init(struct au_hinode *hinode);
++int au_iinfo_init(struct inode *inode);
++void au_iinfo_fin(struct inode *inode);
++int au_hinode_realloc(struct au_iinfo *iinfo, int nbr, int may_shrink);
++
++#ifdef CONFIG_PROC_FS
++/* plink.c */
++int au_plink_maint(struct super_block *sb, int flags);
++struct au_sbinfo;
++void au_plink_maint_leave(struct au_sbinfo *sbinfo);
++int au_plink_maint_enter(struct super_block *sb);
++#ifdef CONFIG_AUFS_DEBUG
++void au_plink_list(struct super_block *sb);
++#else
++AuStubVoid(au_plink_list, struct super_block *sb)
++#endif
++int au_plink_test(struct inode *inode);
++struct dentry *au_plink_lkup(struct inode *inode, aufs_bindex_t bindex);
++void au_plink_append(struct inode *inode, aufs_bindex_t bindex,
++		     struct dentry *h_dentry);
++void au_plink_put(struct super_block *sb, int verbose);
++void au_plink_clean(struct super_block *sb, int verbose);
++void au_plink_half_refresh(struct super_block *sb, aufs_bindex_t br_id);
++#else
++AuStubInt0(au_plink_maint, struct super_block *sb, int flags);
++AuStubVoid(au_plink_maint_leave, struct au_sbinfo *sbinfo);
++AuStubInt0(au_plink_maint_enter, struct super_block *sb);
++AuStubVoid(au_plink_list, struct super_block *sb);
++AuStubInt0(au_plink_test, struct inode *inode);
++AuStub(struct dentry *, au_plink_lkup, return NULL,
++       struct inode *inode, aufs_bindex_t bindex);
++AuStubVoid(au_plink_append, struct inode *inode, aufs_bindex_t bindex,
++	   struct dentry *h_dentry);
++AuStubVoid(au_plink_put, struct super_block *sb, int verbose);
++AuStubVoid(au_plink_clean, struct super_block *sb, int verbose);
++AuStubVoid(au_plink_half_refresh, struct super_block *sb, aufs_bindex_t br_id);
++#endif /* CONFIG_PROC_FS */
++
++#ifdef CONFIG_AUFS_XATTR
++/* xattr.c */
++int au_cpup_xattr(struct dentry *h_dst, struct dentry *h_src, int ignore_flags,
++		  unsigned int verbose);
++ssize_t aufs_listxattr(struct dentry *dentry, char *list, size_t size);
++void au_xattr_init(struct super_block *sb);
++#else
++AuStubInt0(au_cpup_xattr, struct dentry *h_dst, struct dentry *h_src,
++	   int ignore_flags, unsigned int verbose);
++AuStubVoid(au_xattr_init, struct super_block *sb);
++#endif
++
++#ifdef CONFIG_FS_POSIX_ACL
++struct posix_acl *aufs_get_acl(struct inode *inode, int type);
++int aufs_set_acl(struct inode *inode, struct posix_acl *acl, int type);
++#endif
++
++#if IS_ENABLED(CONFIG_AUFS_XATTR) || IS_ENABLED(CONFIG_FS_POSIX_ACL)
++enum {
++	AU_XATTR_SET,
++	AU_ACL_SET
++};
++
++struct au_sxattr {
++	int type;
++	union {
++		struct {
++			const char	*name;
++			const void	*value;
++			size_t		size;
++			int		flags;
++		} set;
++		struct {
++			struct posix_acl *acl;
++			int		type;
++		} acl_set;
++	} u;
++};
++ssize_t au_sxattr(struct dentry *dentry, struct inode *inode,
++		  struct au_sxattr *arg);
++#endif
++
++/* ---------------------------------------------------------------------- */
++
++/* lock subclass for iinfo */
++enum {
++	AuLsc_II_CHILD,		/* child first */
++	AuLsc_II_CHILD2,	/* rename(2), link(2), and cpup at hnotify */
++	AuLsc_II_CHILD3,	/* copyup dirs */
++	AuLsc_II_PARENT,	/* see AuLsc_I_PARENT in vfsub.h */
++	AuLsc_II_PARENT2,
++	AuLsc_II_PARENT3,	/* copyup dirs */
++	AuLsc_II_NEW_CHILD
++};
++
++/*
++ * ii_read_lock_child, ii_write_lock_child,
++ * ii_read_lock_child2, ii_write_lock_child2,
++ * ii_read_lock_child3, ii_write_lock_child3,
++ * ii_read_lock_parent, ii_write_lock_parent,
++ * ii_read_lock_parent2, ii_write_lock_parent2,
++ * ii_read_lock_parent3, ii_write_lock_parent3,
++ * ii_read_lock_new_child, ii_write_lock_new_child,
++ */
++#define AuReadLockFunc(name, lsc) \
++static inline void ii_read_lock_##name(struct inode *i) \
++{ \
++	au_rw_read_lock_nested(&au_ii(i)->ii_rwsem, AuLsc_II_##lsc); \
++}
++
++#define AuWriteLockFunc(name, lsc) \
++static inline void ii_write_lock_##name(struct inode *i) \
++{ \
++	au_rw_write_lock_nested(&au_ii(i)->ii_rwsem, AuLsc_II_##lsc); \
++}
++
++#define AuRWLockFuncs(name, lsc) \
++	AuReadLockFunc(name, lsc) \
++	AuWriteLockFunc(name, lsc)
++
++AuRWLockFuncs(child, CHILD);
++AuRWLockFuncs(child2, CHILD2);
++AuRWLockFuncs(child3, CHILD3);
++AuRWLockFuncs(parent, PARENT);
++AuRWLockFuncs(parent2, PARENT2);
++AuRWLockFuncs(parent3, PARENT3);
++AuRWLockFuncs(new_child, NEW_CHILD);
++
++#undef AuReadLockFunc
++#undef AuWriteLockFunc
++#undef AuRWLockFuncs
++
++/*
++ * ii_read_unlock, ii_write_unlock, ii_downgrade_lock
++ */
++AuSimpleUnlockRwsemFuncs(ii, struct inode *i, &au_ii(i)->ii_rwsem);
++
++#define IiMustNoWaiters(i)	AuRwMustNoWaiters(&au_ii(i)->ii_rwsem)
++#define IiMustAnyLock(i)	AuRwMustAnyLock(&au_ii(i)->ii_rwsem)
++#define IiMustWriteLock(i)	AuRwMustWriteLock(&au_ii(i)->ii_rwsem)
++
++/* ---------------------------------------------------------------------- */
++
++static inline void au_icntnr_init(struct au_icntnr *c)
++{
++#ifdef CONFIG_AUFS_DEBUG
++	c->vfs_inode.i_mode = 0;
++#endif
++}
++
++static inline unsigned int au_iigen(struct inode *inode, unsigned int *igflags)
++{
++	unsigned int gen;
++	struct au_iinfo *iinfo;
++	struct au_iigen *iigen;
++
++	iinfo = au_ii(inode);
++	iigen = &iinfo->ii_generation;
++	spin_lock(&iigen->ig_spin);
++	if (igflags)
++		*igflags = iigen->ig_flags;
++	gen = iigen->ig_generation;
++	spin_unlock(&iigen->ig_spin);
++
++	return gen;
++}
++
++/* tiny test for inode number */
++/* tmpfs generation is too rough */
++static inline int au_test_higen(struct inode *inode, struct inode *h_inode)
++{
++	struct au_iinfo *iinfo;
++
++	iinfo = au_ii(inode);
++	AuRwMustAnyLock(&iinfo->ii_rwsem);
++	return !(iinfo->ii_hsb1 == h_inode->i_sb
++		 && iinfo->ii_higen == h_inode->i_generation);
++}
++
++static inline void au_iigen_dec(struct inode *inode)
++{
++	struct au_iinfo *iinfo;
++	struct au_iigen *iigen;
++
++	iinfo = au_ii(inode);
++	iigen = &iinfo->ii_generation;
++	spin_lock(&iigen->ig_spin);
++	iigen->ig_generation--;
++	spin_unlock(&iigen->ig_spin);
++}
++
++static inline int au_iigen_test(struct inode *inode, unsigned int sigen)
++{
++	int err;
++
++	err = 0;
++	if (unlikely(inode && au_iigen(inode, NULL) != sigen))
++		err = -EIO;
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static inline struct au_hinode *au_hinode(struct au_iinfo *iinfo,
++					  aufs_bindex_t bindex)
++{
++	return iinfo->ii_hinode + bindex;
++}
++
++static inline int au_is_bad_inode(struct inode *inode)
++{
++	return !!(is_bad_inode(inode) || !au_hinode(au_ii(inode), 0));
++}
++
++static inline aufs_bindex_t au_ii_br_id(struct inode *inode,
++					aufs_bindex_t bindex)
++{
++	IiMustAnyLock(inode);
++	return au_hinode(au_ii(inode), bindex)->hi_id;
++}
++
++static inline aufs_bindex_t au_ibtop(struct inode *inode)
++{
++	IiMustAnyLock(inode);
++	return au_ii(inode)->ii_btop;
++}
++
++static inline aufs_bindex_t au_ibbot(struct inode *inode)
++{
++	IiMustAnyLock(inode);
++	return au_ii(inode)->ii_bbot;
++}
++
++static inline struct au_vdir *au_ivdir(struct inode *inode)
++{
++	IiMustAnyLock(inode);
++	return au_ii(inode)->ii_vdir;
++}
++
++static inline struct dentry *au_hi_wh(struct inode *inode, aufs_bindex_t bindex)
++{
++	IiMustAnyLock(inode);
++	return au_hinode(au_ii(inode), bindex)->hi_whdentry;
++}
++
++static inline void au_set_ibtop(struct inode *inode, aufs_bindex_t bindex)
++{
++	IiMustWriteLock(inode);
++	au_ii(inode)->ii_btop = bindex;
++}
++
++static inline void au_set_ibbot(struct inode *inode, aufs_bindex_t bindex)
++{
++	IiMustWriteLock(inode);
++	au_ii(inode)->ii_bbot = bindex;
++}
++
++static inline void au_set_ivdir(struct inode *inode, struct au_vdir *vdir)
++{
++	IiMustWriteLock(inode);
++	au_ii(inode)->ii_vdir = vdir;
++}
++
++static inline struct au_hinode *au_hi(struct inode *inode, aufs_bindex_t bindex)
++{
++	IiMustAnyLock(inode);
++	return au_hinode(au_ii(inode), bindex);
++}
++
++/* ---------------------------------------------------------------------- */
++
++static inline struct dentry *au_pinned_parent(struct au_pin *pin)
++{
++	if (pin)
++		return pin->parent;
++	return NULL;
++}
++
++static inline struct inode *au_pinned_h_dir(struct au_pin *pin)
++{
++	if (pin && pin->hdir)
++		return pin->hdir->hi_inode;
++	return NULL;
++}
++
++static inline struct au_hinode *au_pinned_hdir(struct au_pin *pin)
++{
++	if (pin)
++		return pin->hdir;
++	return NULL;
++}
++
++static inline void au_pin_set_dentry(struct au_pin *pin, struct dentry *dentry)
++{
++	if (pin)
++		pin->dentry = dentry;
++}
++
++static inline void au_pin_set_parent_lflag(struct au_pin *pin,
++					   unsigned char lflag)
++{
++	if (pin) {
++		if (lflag)
++			au_fset_pin(pin->flags, DI_LOCKED);
++		else
++			au_fclr_pin(pin->flags, DI_LOCKED);
++	}
++}
++
++#if 0 /* reserved */
++static inline void au_pin_set_parent(struct au_pin *pin, struct dentry *parent)
++{
++	if (pin) {
++		dput(pin->parent);
++		pin->parent = dget(parent);
++	}
++}
++#endif
++
++/* ---------------------------------------------------------------------- */
++
++struct au_branch;
++#ifdef CONFIG_AUFS_HNOTIFY
++struct au_hnotify_op {
++	void (*ctl)(struct au_hinode *hinode, int do_set);
++	int (*alloc)(struct au_hinode *hinode);
++
++	/*
++	 * if it returns true, the the caller should free hinode->hi_notify,
++	 * otherwise ->free() frees it.
++	 */
++	int (*free)(struct au_hinode *hinode,
++		    struct au_hnotify *hn) __must_check;
++
++	void (*fin)(void);
++	int (*init)(void);
++
++	int (*reset_br)(unsigned int udba, struct au_branch *br, int perm);
++	void (*fin_br)(struct au_branch *br);
++	int (*init_br)(struct au_branch *br, int perm);
++};
++
++/* hnotify.c */
++int au_hn_alloc(struct au_hinode *hinode, struct inode *inode);
++void au_hn_free(struct au_hinode *hinode);
++void au_hn_ctl(struct au_hinode *hinode, int do_set);
++void au_hn_reset(struct inode *inode, unsigned int flags);
++int au_hnotify(struct inode *h_dir, struct au_hnotify *hnotify, u32 mask,
++	       struct qstr *h_child_qstr, struct inode *h_child_inode);
++int au_hnotify_reset_br(unsigned int udba, struct au_branch *br, int perm);
++int au_hnotify_init_br(struct au_branch *br, int perm);
++void au_hnotify_fin_br(struct au_branch *br);
++int __init au_hnotify_init(void);
++void au_hnotify_fin(void);
++
++/* hfsnotify.c */
++extern const struct au_hnotify_op au_hnotify_op;
++
++static inline
++void au_hn_init(struct au_hinode *hinode)
++{
++	hinode->hi_notify = NULL;
++}
++
++static inline struct au_hnotify *au_hn(struct au_hinode *hinode)
++{
++	return hinode->hi_notify;
++}
++
++#else
++AuStub(int, au_hn_alloc, return -EOPNOTSUPP,
++       struct au_hinode *hinode __maybe_unused,
++       struct inode *inode __maybe_unused)
++AuStub(struct au_hnotify *, au_hn, return NULL, struct au_hinode *hinode)
++AuStubVoid(au_hn_free, struct au_hinode *hinode __maybe_unused)
++AuStubVoid(au_hn_ctl, struct au_hinode *hinode __maybe_unused,
++	   int do_set __maybe_unused)
++AuStubVoid(au_hn_reset, struct inode *inode __maybe_unused,
++	   unsigned int flags __maybe_unused)
++AuStubInt0(au_hnotify_reset_br, unsigned int udba __maybe_unused,
++	   struct au_branch *br __maybe_unused,
++	   int perm __maybe_unused)
++AuStubInt0(au_hnotify_init_br, struct au_branch *br __maybe_unused,
++	   int perm __maybe_unused)
++AuStubVoid(au_hnotify_fin_br, struct au_branch *br __maybe_unused)
++AuStubInt0(__init au_hnotify_init, void)
++AuStubVoid(au_hnotify_fin, void)
++AuStubVoid(au_hn_init, struct au_hinode *hinode __maybe_unused)
++#endif /* CONFIG_AUFS_HNOTIFY */
++
++static inline void au_hn_suspend(struct au_hinode *hdir)
++{
++	au_hn_ctl(hdir, /*do_set*/0);
++}
++
++static inline void au_hn_resume(struct au_hinode *hdir)
++{
++	au_hn_ctl(hdir, /*do_set*/1);
++}
++
++static inline void au_hn_inode_lock(struct au_hinode *hdir)
++{
++	inode_lock(hdir->hi_inode);
++	au_hn_suspend(hdir);
++}
++
++static inline void au_hn_inode_lock_nested(struct au_hinode *hdir,
++					  unsigned int sc __maybe_unused)
++{
++	inode_lock_nested(hdir->hi_inode, sc);
++	au_hn_suspend(hdir);
++}
++
++static inline void au_hn_inode_lock_shared_nested(struct au_hinode *hdir,
++						  unsigned int sc)
++{
++	vfsub_inode_lock_shared_nested(hdir->hi_inode, sc);
++	au_hn_suspend(hdir);
++}
++
++static inline void au_hn_inode_unlock(struct au_hinode *hdir)
++{
++	au_hn_resume(hdir);
++	inode_unlock(hdir->hi_inode);
++}
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_INODE_H__ */
+diff --git a/fs/aufs/ioctl.c b/fs/aufs/ioctl.c
+new file mode 100755
+index 0000000..5e501c5
+--- /dev/null
++++ b/fs/aufs/ioctl.c
+@@ -0,0 +1,219 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * ioctl
++ * plink-management and readdir in userspace.
++ * assist the pathconf(3) wrapper library.
++ * move-down
++ * File-based Hierarchical Storage Management.
++ */
++
++#include <linux/compat.h>
++#include <linux/file.h>
++#include "aufs.h"
++
++static int au_wbr_fd(struct path *path, struct aufs_wbr_fd __user *arg)
++{
++	int err, fd;
++	aufs_bindex_t wbi, bindex, bbot;
++	struct file *h_file;
++	struct super_block *sb;
++	struct dentry *root;
++	struct au_branch *br;
++	struct aufs_wbr_fd wbrfd = {
++		.oflags	= au_dir_roflags,
++		.brid	= -1
++	};
++	const int valid = O_RDONLY | O_NONBLOCK | O_LARGEFILE | O_DIRECTORY
++		| O_NOATIME | O_CLOEXEC;
++
++	AuDebugOn(wbrfd.oflags & ~valid);
++
++	if (arg) {
++		err = copy_from_user(&wbrfd, arg, sizeof(wbrfd));
++		if (unlikely(err)) {
++			err = -EFAULT;
++			goto out;
++		}
++
++		err = -EINVAL;
++		AuDbg("wbrfd{0%o, %d}\n", wbrfd.oflags, wbrfd.brid);
++		wbrfd.oflags |= au_dir_roflags;
++		AuDbg("0%o\n", wbrfd.oflags);
++		if (unlikely(wbrfd.oflags & ~valid))
++			goto out;
++	}
++
++	fd = get_unused_fd_flags(0);
++	err = fd;
++	if (unlikely(fd < 0))
++		goto out;
++
++	h_file = ERR_PTR(-EINVAL);
++	wbi = 0;
++	br = NULL;
++	sb = path->dentry->d_sb;
++	root = sb->s_root;
++	aufs_read_lock(root, AuLock_IR);
++	bbot = au_sbbot(sb);
++	if (wbrfd.brid >= 0) {
++		wbi = au_br_index(sb, wbrfd.brid);
++		if (unlikely(wbi < 0 || wbi > bbot))
++			goto out_unlock;
++	}
++
++	h_file = ERR_PTR(-ENOENT);
++	br = au_sbr(sb, wbi);
++	if (!au_br_writable(br->br_perm)) {
++		if (arg)
++			goto out_unlock;
++
++		bindex = wbi + 1;
++		wbi = -1;
++		for (; bindex <= bbot; bindex++) {
++			br = au_sbr(sb, bindex);
++			if (au_br_writable(br->br_perm)) {
++				wbi = bindex;
++				br = au_sbr(sb, wbi);
++				break;
++			}
++		}
++	}
++	AuDbg("wbi %d\n", wbi);
++	if (wbi >= 0)
++		h_file = au_h_open(root, wbi, wbrfd.oflags, NULL,
++				   /*force_wr*/0);
++
++out_unlock:
++	aufs_read_unlock(root, AuLock_IR);
++	err = PTR_ERR(h_file);
++	if (IS_ERR(h_file))
++		goto out_fd;
++
++	au_br_put(br); /* cf. au_h_open() */
++	fd_install(fd, h_file);
++	err = fd;
++	goto out; /* success */
++
++out_fd:
++	put_unused_fd(fd);
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++long aufs_ioctl_dir(struct file *file, unsigned int cmd, unsigned long arg)
++{
++	long err;
++	struct dentry *dentry;
++
++	switch (cmd) {
++	case AUFS_CTL_RDU:
++	case AUFS_CTL_RDU_INO:
++		err = au_rdu_ioctl(file, cmd, arg);
++		break;
++
++	case AUFS_CTL_WBR_FD:
++		err = au_wbr_fd(&file->f_path, (void __user *)arg);
++		break;
++
++	case AUFS_CTL_IBUSY:
++		err = au_ibusy_ioctl(file, arg);
++		break;
++
++	case AUFS_CTL_BRINFO:
++		err = au_brinfo_ioctl(file, arg);
++		break;
++
++	case AUFS_CTL_FHSM_FD:
++		dentry = file->f_path.dentry;
++		if (IS_ROOT(dentry))
++			err = au_fhsm_fd(dentry->d_sb, arg);
++		else
++			err = -ENOTTY;
++		break;
++
++	default:
++		/* do not call the lower */
++		AuDbg("0x%x\n", cmd);
++		err = -ENOTTY;
++	}
++
++	AuTraceErr(err);
++	return err;
++}
++
++long aufs_ioctl_nondir(struct file *file, unsigned int cmd, unsigned long arg)
++{
++	long err;
++
++	switch (cmd) {
++	case AUFS_CTL_MVDOWN:
++		err = au_mvdown(file->f_path.dentry, (void __user *)arg);
++		break;
++
++	case AUFS_CTL_WBR_FD:
++		err = au_wbr_fd(&file->f_path, (void __user *)arg);
++		break;
++
++	default:
++		/* do not call the lower */
++		AuDbg("0x%x\n", cmd);
++		err = -ENOTTY;
++	}
++
++	AuTraceErr(err);
++	return err;
++}
++
++#ifdef CONFIG_COMPAT
++long aufs_compat_ioctl_dir(struct file *file, unsigned int cmd,
++			   unsigned long arg)
++{
++	long err;
++
++	switch (cmd) {
++	case AUFS_CTL_RDU:
++	case AUFS_CTL_RDU_INO:
++		err = au_rdu_compat_ioctl(file, cmd, arg);
++		break;
++
++	case AUFS_CTL_IBUSY:
++		err = au_ibusy_compat_ioctl(file, arg);
++		break;
++
++	case AUFS_CTL_BRINFO:
++		err = au_brinfo_compat_ioctl(file, arg);
++		break;
++
++	default:
++		err = aufs_ioctl_dir(file, cmd, arg);
++	}
++
++	AuTraceErr(err);
++	return err;
++}
++
++long aufs_compat_ioctl_nondir(struct file *file, unsigned int cmd,
++			      unsigned long arg)
++{
++	return aufs_ioctl_nondir(file, cmd, (unsigned long)compat_ptr(arg));
++}
++#endif
+diff --git a/fs/aufs/loop.c b/fs/aufs/loop.c
+new file mode 100755
+index 0000000..1acb82f
+--- /dev/null
++++ b/fs/aufs/loop.c
+@@ -0,0 +1,147 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * support for loopback block device as a branch
++ */
++
++#include "aufs.h"
++
++/* added into drivers/block/loop.c */
++static struct file *(*backing_file_func)(struct super_block *sb);
++
++/*
++ * test if two lower dentries have overlapping branches.
++ */
++int au_test_loopback_overlap(struct super_block *sb, struct dentry *h_adding)
++{
++	struct super_block *h_sb;
++	struct file *backing_file;
++
++	if (unlikely(!backing_file_func)) {
++		/* don't load "loop" module here */
++		backing_file_func = symbol_get(loop_backing_file);
++		if (unlikely(!backing_file_func))
++			/* "loop" module is not loaded */
++			return 0;
++	}
++
++	h_sb = h_adding->d_sb;
++	backing_file = backing_file_func(h_sb);
++	if (!backing_file)
++		return 0;
++
++	h_adding = backing_file->f_path.dentry;
++	/*
++	 * h_adding can be local NFS.
++	 * in this case aufs cannot detect the loop.
++	 */
++	if (unlikely(h_adding->d_sb == sb))
++		return 1;
++	return !!au_test_subdir(h_adding, sb->s_root);
++}
++
++/* true if a kernel thread named 'loop[0-9].*' accesses a file */
++int au_test_loopback_kthread(void)
++{
++	int ret;
++	struct task_struct *tsk = current;
++	char c, comm[sizeof(tsk->comm)];
++
++	ret = 0;
++	if (tsk->flags & PF_KTHREAD) {
++		get_task_comm(comm, tsk);
++		c = comm[4];
++		ret = ('0' <= c && c <= '9'
++		       && !strncmp(comm, "loop", 4));
++	}
++
++	return ret;
++}
++
++/* ---------------------------------------------------------------------- */
++
++#define au_warn_loopback_step	16
++static int au_warn_loopback_nelem = au_warn_loopback_step;
++static unsigned long *au_warn_loopback_array;
++
++void au_warn_loopback(struct super_block *h_sb)
++{
++	int i, new_nelem;
++	unsigned long *a, magic;
++	static DEFINE_SPINLOCK(spin);
++
++	magic = h_sb->s_magic;
++	spin_lock(&spin);
++	a = au_warn_loopback_array;
++	for (i = 0; i < au_warn_loopback_nelem && *a; i++)
++		if (a[i] == magic) {
++			spin_unlock(&spin);
++			return;
++		}
++
++	/* h_sb is new to us, print it */
++	if (i < au_warn_loopback_nelem) {
++		a[i] = magic;
++		goto pr;
++	}
++
++	/* expand the array */
++	new_nelem = au_warn_loopback_nelem + au_warn_loopback_step;
++	a = au_kzrealloc(au_warn_loopback_array,
++			 au_warn_loopback_nelem * sizeof(unsigned long),
++			 new_nelem * sizeof(unsigned long), GFP_ATOMIC,
++			 /*may_shrink*/0);
++	if (a) {
++		au_warn_loopback_nelem = new_nelem;
++		au_warn_loopback_array = a;
++		a[i] = magic;
++		goto pr;
++	}
++
++	spin_unlock(&spin);
++	AuWarn1("realloc failed, ignored\n");
++	return;
++
++pr:
++	spin_unlock(&spin);
++	pr_warn("you may want to try another patch for loopback file "
++		"on %s(0x%lx) branch\n", au_sbtype(h_sb), magic);
++}
++
++int au_loopback_init(void)
++{
++	int err;
++	struct super_block *sb __maybe_unused;
++
++	BUILD_BUG_ON(sizeof(sb->s_magic) != sizeof(unsigned long));
++
++	err = 0;
++	au_warn_loopback_array = kcalloc(au_warn_loopback_step,
++					 sizeof(unsigned long), GFP_NOFS);
++	if (unlikely(!au_warn_loopback_array))
++		err = -ENOMEM;
++
++	return err;
++}
++
++void au_loopback_fin(void)
++{
++	if (backing_file_func)
++		symbol_put(loop_backing_file);
++	kfree(au_warn_loopback_array);
++}
+diff --git a/fs/aufs/loop.h b/fs/aufs/loop.h
+new file mode 100755
+index 0000000..9b02d32
+--- /dev/null
++++ b/fs/aufs/loop.h
+@@ -0,0 +1,52 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * support for loopback mount as a branch
++ */
++
++#ifndef __AUFS_LOOP_H__
++#define __AUFS_LOOP_H__
++
++#ifdef __KERNEL__
++
++struct dentry;
++struct super_block;
++
++#ifdef CONFIG_AUFS_BDEV_LOOP
++/* drivers/block/loop.c */
++struct file *loop_backing_file(struct super_block *sb);
++
++/* loop.c */
++int au_test_loopback_overlap(struct super_block *sb, struct dentry *h_adding);
++int au_test_loopback_kthread(void);
++void au_warn_loopback(struct super_block *h_sb);
++
++int au_loopback_init(void);
++void au_loopback_fin(void);
++#else
++AuStubInt0(au_test_loopback_overlap, struct super_block *sb,
++	   struct dentry *h_adding)
++AuStubInt0(au_test_loopback_kthread, void)
++AuStubVoid(au_warn_loopback, struct super_block *h_sb)
++
++AuStubInt0(au_loopback_init, void)
++AuStubVoid(au_loopback_fin, void)
++#endif /* BLK_DEV_LOOP */
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_LOOP_H__ */
+diff --git a/fs/aufs/magic.mk b/fs/aufs/magic.mk
+new file mode 100755
+index 0000000..4f83bdf
+--- /dev/null
++++ b/fs/aufs/magic.mk
+@@ -0,0 +1,30 @@
++
++# defined in ${srctree}/fs/fuse/inode.c
++# tristate
++ifdef CONFIG_FUSE_FS
++ccflags-y += -DFUSE_SUPER_MAGIC=0x65735546
++endif
++
++# defined in ${srctree}/fs/xfs/xfs_sb.h
++# tristate
++ifdef CONFIG_XFS_FS
++ccflags-y += -DXFS_SB_MAGIC=0x58465342
++endif
++
++# defined in ${srctree}/fs/configfs/mount.c
++# tristate
++ifdef CONFIG_CONFIGFS_FS
++ccflags-y += -DCONFIGFS_MAGIC=0x62656570
++endif
++
++# defined in ${srctree}/fs/ubifs/ubifs.h
++# tristate
++ifdef CONFIG_UBIFS_FS
++ccflags-y += -DUBIFS_SUPER_MAGIC=0x24051905
++endif
++
++# defined in ${srctree}/fs/hfsplus/hfsplus_raw.h
++# tristate
++ifdef CONFIG_HFSPLUS_FS
++ccflags-y += -DHFSPLUS_SUPER_MAGIC=0x482b
++endif
+diff --git a/fs/aufs/module.c b/fs/aufs/module.c
+new file mode 100755
+index 0000000..3ca7c70
+--- /dev/null
++++ b/fs/aufs/module.c
+@@ -0,0 +1,266 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * module global variables and operations
++ */
++
++#include <linux/module.h>
++#include <linux/seq_file.h>
++#include "aufs.h"
++
++/* shrinkable realloc */
++void *au_krealloc(void *p, unsigned int new_sz, gfp_t gfp, int may_shrink)
++{
++	size_t sz;
++	int diff;
++
++	sz = 0;
++	diff = -1;
++	if (p) {
++#if 0 /* unused */
++		if (!new_sz) {
++			kfree(p);
++			p = NULL;
++			goto out;
++		}
++#else
++		AuDebugOn(!new_sz);
++#endif
++		sz = ksize(p);
++		diff = au_kmidx_sub(sz, new_sz);
++	}
++	if (sz && !diff)
++		goto out;
++
++	if (sz < new_sz)
++		/* expand or SLOB */
++		p = krealloc(p, new_sz, gfp);
++	else if (new_sz < sz && may_shrink) {
++		/* shrink */
++		void *q;
++
++		q = kmalloc(new_sz, gfp);
++		if (q) {
++			if (p) {
++				memcpy(q, p, new_sz);
++				kfree(p);
++			}
++			p = q;
++		} else
++			p = NULL;
++	}
++
++out:
++	return p;
++}
++
++void *au_kzrealloc(void *p, unsigned int nused, unsigned int new_sz, gfp_t gfp,
++		   int may_shrink)
++{
++	p = au_krealloc(p, new_sz, gfp, may_shrink);
++	if (p && new_sz > nused)
++		memset(p + nused, 0, new_sz - nused);
++	return p;
++}
++
++/* ---------------------------------------------------------------------- */
++/*
++ * aufs caches
++ */
++struct kmem_cache *au_cache[AuCache_Last];
++
++static void au_cache_fin(void)
++{
++	int i;
++
++	/*
++	 * Make sure all delayed rcu free inodes are flushed before we
++	 * destroy cache.
++	 */
++	rcu_barrier();
++
++	/* excluding AuCache_HNOTIFY */
++	BUILD_BUG_ON(AuCache_HNOTIFY + 1 != AuCache_Last);
++	for (i = 0; i < AuCache_HNOTIFY; i++) {
++		kmem_cache_destroy(au_cache[i]);
++		au_cache[i] = NULL;
++	}
++}
++
++static int __init au_cache_init(void)
++{
++	au_cache[AuCache_DINFO] = AuCacheCtor(au_dinfo, au_di_init_once);
++	if (au_cache[AuCache_DINFO])
++		/* SLAB_DESTROY_BY_RCU */
++		au_cache[AuCache_ICNTNR] = AuCacheCtor(au_icntnr,
++						       au_icntnr_init_once);
++	if (au_cache[AuCache_ICNTNR])
++		au_cache[AuCache_FINFO] = AuCacheCtor(au_finfo,
++						      au_fi_init_once);
++	if (au_cache[AuCache_FINFO])
++		au_cache[AuCache_VDIR] = AuCache(au_vdir);
++	if (au_cache[AuCache_VDIR])
++		au_cache[AuCache_DEHSTR] = AuCache(au_vdir_dehstr);
++	if (au_cache[AuCache_DEHSTR])
++		return 0;
++
++	au_cache_fin();
++	return -ENOMEM;
++}
++
++/* ---------------------------------------------------------------------- */
++
++int au_dir_roflags;
++
++#ifdef CONFIG_AUFS_SBILIST
++/*
++ * iterate_supers_type() doesn't protect us from
++ * remounting (branch management)
++ */
++struct au_sphlhead au_sbilist;
++#endif
++
++/*
++ * functions for module interface.
++ */
++MODULE_LICENSE("GPL");
++/* MODULE_LICENSE("GPL v2"); */
++MODULE_AUTHOR("Junjiro R. Okajima <aufs-users@lists.sourceforge.net>");
++MODULE_DESCRIPTION(AUFS_NAME
++	" -- Advanced multi layered unification filesystem");
++MODULE_VERSION(AUFS_VERSION);
++MODULE_ALIAS_FS(AUFS_NAME);
++
++/* this module parameter has no meaning when SYSFS is disabled */
++int sysaufs_brs = 1;
++MODULE_PARM_DESC(brs, "use <sysfs>/fs/aufs/si_*/brN");
++module_param_named(brs, sysaufs_brs, int, S_IRUGO);
++
++/* this module parameter has no meaning when USER_NS is disabled */
++bool au_userns;
++MODULE_PARM_DESC(allow_userns, "allow unprivileged to mount under userns");
++module_param_named(allow_userns, au_userns, bool, S_IRUGO);
++
++/* ---------------------------------------------------------------------- */
++
++static char au_esc_chars[0x20 + 3]; /* 0x01-0x20, backslash, del, and NULL */
++
++int au_seq_path(struct seq_file *seq, struct path *path)
++{
++	int err;
++
++	err = seq_path(seq, path, au_esc_chars);
++	if (err >= 0)
++		err = 0;
++	else
++		err = -ENOMEM;
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int __init aufs_init(void)
++{
++	int err, i;
++	char *p;
++
++	p = au_esc_chars;
++	for (i = 1; i <= ' '; i++)
++		*p++ = i;
++	*p++ = '\\';
++	*p++ = '\x7f';
++	*p = 0;
++
++	au_dir_roflags = au_file_roflags(O_DIRECTORY | O_LARGEFILE);
++
++	memcpy(aufs_iop_nogetattr, aufs_iop, sizeof(aufs_iop));
++	for (i = 0; i < AuIop_Last; i++)
++		aufs_iop_nogetattr[i].getattr = NULL;
++
++	memset(au_cache, 0, sizeof(au_cache));	/* including hnotify */
++
++	au_sbilist_init();
++	sysaufs_brs_init();
++	au_debug_init();
++	au_dy_init();
++	err = sysaufs_init();
++	if (unlikely(err))
++		goto out;
++	err = au_procfs_init();
++	if (unlikely(err))
++		goto out_sysaufs;
++	err = au_wkq_init();
++	if (unlikely(err))
++		goto out_procfs;
++	err = au_loopback_init();
++	if (unlikely(err))
++		goto out_wkq;
++	err = au_hnotify_init();
++	if (unlikely(err))
++		goto out_loopback;
++	err = au_sysrq_init();
++	if (unlikely(err))
++		goto out_hin;
++	err = au_cache_init();
++	if (unlikely(err))
++		goto out_sysrq;
++
++	aufs_fs_type.fs_flags |= au_userns ? FS_USERNS_MOUNT : 0;
++	err = register_filesystem(&aufs_fs_type);
++	if (unlikely(err))
++		goto out_cache;
++
++	/* since we define pr_fmt, call printk directly */
++	printk(KERN_INFO AUFS_NAME " " AUFS_VERSION "\n");
++	goto out; /* success */
++
++out_cache:
++	au_cache_fin();
++out_sysrq:
++	au_sysrq_fin();
++out_hin:
++	au_hnotify_fin();
++out_loopback:
++	au_loopback_fin();
++out_wkq:
++	au_wkq_fin();
++out_procfs:
++	au_procfs_fin();
++out_sysaufs:
++	sysaufs_fin();
++	au_dy_fin();
++out:
++	return err;
++}
++
++static void __exit aufs_exit(void)
++{
++	unregister_filesystem(&aufs_fs_type);
++	au_cache_fin();
++	au_sysrq_fin();
++	au_hnotify_fin();
++	au_loopback_fin();
++	au_wkq_fin();
++	au_procfs_fin();
++	sysaufs_fin();
++	au_dy_fin();
++}
++
++module_init(aufs_init);
++module_exit(aufs_exit);
+diff --git a/fs/aufs/module.h b/fs/aufs/module.h
+new file mode 100755
+index 0000000..4f5727c
+--- /dev/null
++++ b/fs/aufs/module.h
+@@ -0,0 +1,101 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * module initialization and module-global
++ */
++
++#ifndef __AUFS_MODULE_H__
++#define __AUFS_MODULE_H__
++
++#ifdef __KERNEL__
++
++#include <linux/slab.h>
++
++struct path;
++struct seq_file;
++
++/* module parameters */
++extern int sysaufs_brs;
++extern bool au_userns;
++
++/* ---------------------------------------------------------------------- */
++
++extern int au_dir_roflags;
++
++void *au_krealloc(void *p, unsigned int new_sz, gfp_t gfp, int may_shrink);
++void *au_kzrealloc(void *p, unsigned int nused, unsigned int new_sz, gfp_t gfp,
++		   int may_shrink);
++
++static inline int au_kmidx_sub(size_t sz, size_t new_sz)
++{
++#ifndef CONFIG_SLOB
++	return kmalloc_index(sz) - kmalloc_index(new_sz);
++#else
++	return -1; /* SLOB is untested */
++#endif
++}
++
++int au_seq_path(struct seq_file *seq, struct path *path);
++
++#ifdef CONFIG_PROC_FS
++/* procfs.c */
++int __init au_procfs_init(void);
++void au_procfs_fin(void);
++#else
++AuStubInt0(au_procfs_init, void);
++AuStubVoid(au_procfs_fin, void);
++#endif
++
++/* ---------------------------------------------------------------------- */
++
++/* kmem cache */
++enum {
++	AuCache_DINFO,
++	AuCache_ICNTNR,
++	AuCache_FINFO,
++	AuCache_VDIR,
++	AuCache_DEHSTR,
++	AuCache_HNOTIFY, /* must be last */
++	AuCache_Last
++};
++
++extern struct kmem_cache *au_cache[AuCache_Last];
++
++#define AuCacheFlags		(SLAB_RECLAIM_ACCOUNT | SLAB_MEM_SPREAD)
++#define AuCache(type)		KMEM_CACHE(type, AuCacheFlags)
++#define AuCacheCtor(type, ctor)	\
++	kmem_cache_create(#type, sizeof(struct type), \
++			  __alignof__(struct type), AuCacheFlags, ctor)
++
++#define AuCacheFuncs(name, index) \
++static inline struct au_##name *au_cache_alloc_##name(void) \
++{ return kmem_cache_alloc(au_cache[AuCache_##index], GFP_NOFS); } \
++static inline void au_cache_free_##name(struct au_##name *p) \
++{ kmem_cache_free(au_cache[AuCache_##index], p); }
++
++AuCacheFuncs(dinfo, DINFO);
++AuCacheFuncs(icntnr, ICNTNR);
++AuCacheFuncs(finfo, FINFO);
++AuCacheFuncs(vdir, VDIR);
++AuCacheFuncs(vdir_dehstr, DEHSTR);
++#ifdef CONFIG_AUFS_HNOTIFY
++AuCacheFuncs(hnotify, HNOTIFY);
++#endif
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_MODULE_H__ */
+diff --git a/fs/aufs/mvdown.c b/fs/aufs/mvdown.c
+new file mode 100755
+index 0000000..0fb18b8
+--- /dev/null
++++ b/fs/aufs/mvdown.c
+@@ -0,0 +1,704 @@
++/*
++ * Copyright (C) 2011-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * move-down, opposite of copy-up
++ */
++
++#include "aufs.h"
++
++struct au_mvd_args {
++	struct {
++		struct super_block *h_sb;
++		struct dentry *h_parent;
++		struct au_hinode *hdir;
++		struct inode *h_dir, *h_inode;
++		struct au_pin pin;
++	} info[AUFS_MVDOWN_NARRAY];
++
++	struct aufs_mvdown mvdown;
++	struct dentry *dentry, *parent;
++	struct inode *inode, *dir;
++	struct super_block *sb;
++	aufs_bindex_t bopq, bwh, bfound;
++	unsigned char rename_lock;
++};
++
++#define mvd_errno		mvdown.au_errno
++#define mvd_bsrc		mvdown.stbr[AUFS_MVDOWN_UPPER].bindex
++#define mvd_src_brid		mvdown.stbr[AUFS_MVDOWN_UPPER].brid
++#define mvd_bdst		mvdown.stbr[AUFS_MVDOWN_LOWER].bindex
++#define mvd_dst_brid		mvdown.stbr[AUFS_MVDOWN_LOWER].brid
++
++#define mvd_h_src_sb		info[AUFS_MVDOWN_UPPER].h_sb
++#define mvd_h_src_parent	info[AUFS_MVDOWN_UPPER].h_parent
++#define mvd_hdir_src		info[AUFS_MVDOWN_UPPER].hdir
++#define mvd_h_src_dir		info[AUFS_MVDOWN_UPPER].h_dir
++#define mvd_h_src_inode		info[AUFS_MVDOWN_UPPER].h_inode
++#define mvd_pin_src		info[AUFS_MVDOWN_UPPER].pin
++
++#define mvd_h_dst_sb		info[AUFS_MVDOWN_LOWER].h_sb
++#define mvd_h_dst_parent	info[AUFS_MVDOWN_LOWER].h_parent
++#define mvd_hdir_dst		info[AUFS_MVDOWN_LOWER].hdir
++#define mvd_h_dst_dir		info[AUFS_MVDOWN_LOWER].h_dir
++#define mvd_h_dst_inode		info[AUFS_MVDOWN_LOWER].h_inode
++#define mvd_pin_dst		info[AUFS_MVDOWN_LOWER].pin
++
++#define AU_MVD_PR(flag, ...) do {			\
++		if (flag)				\
++			pr_err(__VA_ARGS__);		\
++	} while (0)
++
++static int find_lower_writable(struct au_mvd_args *a)
++{
++	struct super_block *sb;
++	aufs_bindex_t bindex, bbot;
++	struct au_branch *br;
++
++	sb = a->sb;
++	bindex = a->mvd_bsrc;
++	bbot = au_sbbot(sb);
++	if (a->mvdown.flags & AUFS_MVDOWN_FHSM_LOWER)
++		for (bindex++; bindex <= bbot; bindex++) {
++			br = au_sbr(sb, bindex);
++			if (au_br_fhsm(br->br_perm)
++			    && (!(au_br_sb(br)->s_flags & MS_RDONLY)))
++				return bindex;
++		}
++	else if (!(a->mvdown.flags & AUFS_MVDOWN_ROLOWER))
++		for (bindex++; bindex <= bbot; bindex++) {
++			br = au_sbr(sb, bindex);
++			if (!au_br_rdonly(br))
++				return bindex;
++		}
++	else
++		for (bindex++; bindex <= bbot; bindex++) {
++			br = au_sbr(sb, bindex);
++			if (!(au_br_sb(br)->s_flags & MS_RDONLY)) {
++				if (au_br_rdonly(br))
++					a->mvdown.flags
++						|= AUFS_MVDOWN_ROLOWER_R;
++				return bindex;
++			}
++		}
++
++	return -1;
++}
++
++/* make the parent dir on bdst */
++static int au_do_mkdir(const unsigned char dmsg, struct au_mvd_args *a)
++{
++	int err;
++
++	err = 0;
++	a->mvd_hdir_src = au_hi(a->dir, a->mvd_bsrc);
++	a->mvd_hdir_dst = au_hi(a->dir, a->mvd_bdst);
++	a->mvd_h_src_parent = au_h_dptr(a->parent, a->mvd_bsrc);
++	a->mvd_h_dst_parent = NULL;
++	if (au_dbbot(a->parent) >= a->mvd_bdst)
++		a->mvd_h_dst_parent = au_h_dptr(a->parent, a->mvd_bdst);
++	if (!a->mvd_h_dst_parent) {
++		err = au_cpdown_dirs(a->dentry, a->mvd_bdst);
++		if (unlikely(err)) {
++			AU_MVD_PR(dmsg, "cpdown_dirs failed\n");
++			goto out;
++		}
++		a->mvd_h_dst_parent = au_h_dptr(a->parent, a->mvd_bdst);
++	}
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++/* lock them all */
++static int au_do_lock(const unsigned char dmsg, struct au_mvd_args *a)
++{
++	int err;
++	struct dentry *h_trap;
++
++	a->mvd_h_src_sb = au_sbr_sb(a->sb, a->mvd_bsrc);
++	a->mvd_h_dst_sb = au_sbr_sb(a->sb, a->mvd_bdst);
++	err = au_pin(&a->mvd_pin_dst, a->dentry, a->mvd_bdst,
++		     au_opt_udba(a->sb),
++		     AuPin_MNT_WRITE | AuPin_DI_LOCKED);
++	AuTraceErr(err);
++	if (unlikely(err)) {
++		AU_MVD_PR(dmsg, "pin_dst failed\n");
++		goto out;
++	}
++
++	if (a->mvd_h_src_sb != a->mvd_h_dst_sb) {
++		a->rename_lock = 0;
++		au_pin_init(&a->mvd_pin_src, a->dentry, a->mvd_bsrc,
++			    AuLsc_DI_PARENT, AuLsc_I_PARENT3,
++			    au_opt_udba(a->sb),
++			    AuPin_MNT_WRITE | AuPin_DI_LOCKED);
++		err = au_do_pin(&a->mvd_pin_src);
++		AuTraceErr(err);
++		a->mvd_h_src_dir = d_inode(a->mvd_h_src_parent);
++		if (unlikely(err)) {
++			AU_MVD_PR(dmsg, "pin_src failed\n");
++			goto out_dst;
++		}
++		goto out; /* success */
++	}
++
++	a->rename_lock = 1;
++	au_pin_hdir_unlock(&a->mvd_pin_dst);
++	err = au_pin(&a->mvd_pin_src, a->dentry, a->mvd_bsrc,
++		     au_opt_udba(a->sb),
++		     AuPin_MNT_WRITE | AuPin_DI_LOCKED);
++	AuTraceErr(err);
++	a->mvd_h_src_dir = d_inode(a->mvd_h_src_parent);
++	if (unlikely(err)) {
++		AU_MVD_PR(dmsg, "pin_src failed\n");
++		au_pin_hdir_lock(&a->mvd_pin_dst);
++		goto out_dst;
++	}
++	au_pin_hdir_unlock(&a->mvd_pin_src);
++	h_trap = vfsub_lock_rename(a->mvd_h_src_parent, a->mvd_hdir_src,
++				   a->mvd_h_dst_parent, a->mvd_hdir_dst);
++	if (h_trap) {
++		err = (h_trap != a->mvd_h_src_parent);
++		if (err)
++			err = (h_trap != a->mvd_h_dst_parent);
++	}
++	BUG_ON(err); /* it should never happen */
++	if (unlikely(a->mvd_h_src_dir != au_pinned_h_dir(&a->mvd_pin_src))) {
++		err = -EBUSY;
++		AuTraceErr(err);
++		vfsub_unlock_rename(a->mvd_h_src_parent, a->mvd_hdir_src,
++				    a->mvd_h_dst_parent, a->mvd_hdir_dst);
++		au_pin_hdir_lock(&a->mvd_pin_src);
++		au_unpin(&a->mvd_pin_src);
++		au_pin_hdir_lock(&a->mvd_pin_dst);
++		goto out_dst;
++	}
++	goto out; /* success */
++
++out_dst:
++	au_unpin(&a->mvd_pin_dst);
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++static void au_do_unlock(const unsigned char dmsg, struct au_mvd_args *a)
++{
++	if (!a->rename_lock)
++		au_unpin(&a->mvd_pin_src);
++	else {
++		vfsub_unlock_rename(a->mvd_h_src_parent, a->mvd_hdir_src,
++				    a->mvd_h_dst_parent, a->mvd_hdir_dst);
++		au_pin_hdir_lock(&a->mvd_pin_src);
++		au_unpin(&a->mvd_pin_src);
++		au_pin_hdir_lock(&a->mvd_pin_dst);
++	}
++	au_unpin(&a->mvd_pin_dst);
++}
++
++/* copy-down the file */
++static int au_do_cpdown(const unsigned char dmsg, struct au_mvd_args *a)
++{
++	int err;
++	struct au_cp_generic cpg = {
++		.dentry	= a->dentry,
++		.bdst	= a->mvd_bdst,
++		.bsrc	= a->mvd_bsrc,
++		.len	= -1,
++		.pin	= &a->mvd_pin_dst,
++		.flags	= AuCpup_DTIME | AuCpup_HOPEN
++	};
++
++	AuDbg("b%d, b%d\n", cpg.bsrc, cpg.bdst);
++	if (a->mvdown.flags & AUFS_MVDOWN_OWLOWER)
++		au_fset_cpup(cpg.flags, OVERWRITE);
++	if (a->mvdown.flags & AUFS_MVDOWN_ROLOWER)
++		au_fset_cpup(cpg.flags, RWDST);
++	err = au_sio_cpdown_simple(&cpg);
++	if (unlikely(err))
++		AU_MVD_PR(dmsg, "cpdown failed\n");
++
++	AuTraceErr(err);
++	return err;
++}
++
++/*
++ * unlink the whiteout on bdst if exist which may be created by UDBA while we
++ * were sleeping
++ */
++static int au_do_unlink_wh(const unsigned char dmsg, struct au_mvd_args *a)
++{
++	int err;
++	struct path h_path;
++	struct au_branch *br;
++	struct inode *delegated;
++
++	br = au_sbr(a->sb, a->mvd_bdst);
++	h_path.dentry = au_wh_lkup(a->mvd_h_dst_parent, &a->dentry->d_name, br);
++	err = PTR_ERR(h_path.dentry);
++	if (IS_ERR(h_path.dentry)) {
++		AU_MVD_PR(dmsg, "wh_lkup failed\n");
++		goto out;
++	}
++
++	err = 0;
++	if (d_is_positive(h_path.dentry)) {
++		h_path.mnt = au_br_mnt(br);
++		delegated = NULL;
++		err = vfsub_unlink(d_inode(a->mvd_h_dst_parent), &h_path,
++				   &delegated, /*force*/0);
++		if (unlikely(err == -EWOULDBLOCK)) {
++			pr_warn("cannot retry for NFSv4 delegation"
++				" for an internal unlink\n");
++			iput(delegated);
++		}
++		if (unlikely(err))
++			AU_MVD_PR(dmsg, "wh_unlink failed\n");
++	}
++	dput(h_path.dentry);
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++/*
++ * unlink the topmost h_dentry
++ */
++static int au_do_unlink(const unsigned char dmsg, struct au_mvd_args *a)
++{
++	int err;
++	struct path h_path;
++	struct inode *delegated;
++
++	h_path.mnt = au_sbr_mnt(a->sb, a->mvd_bsrc);
++	h_path.dentry = au_h_dptr(a->dentry, a->mvd_bsrc);
++	delegated = NULL;
++	err = vfsub_unlink(a->mvd_h_src_dir, &h_path, &delegated, /*force*/0);
++	if (unlikely(err == -EWOULDBLOCK)) {
++		pr_warn("cannot retry for NFSv4 delegation"
++			" for an internal unlink\n");
++		iput(delegated);
++	}
++	if (unlikely(err))
++		AU_MVD_PR(dmsg, "unlink failed\n");
++
++	AuTraceErr(err);
++	return err;
++}
++
++/* Since mvdown succeeded, we ignore an error of this function */
++static void au_do_stfs(const unsigned char dmsg, struct au_mvd_args *a)
++{
++	int err;
++	struct au_branch *br;
++
++	a->mvdown.flags |= AUFS_MVDOWN_STFS_FAILED;
++	br = au_sbr(a->sb, a->mvd_bsrc);
++	err = au_br_stfs(br, &a->mvdown.stbr[AUFS_MVDOWN_UPPER].stfs);
++	if (!err) {
++		br = au_sbr(a->sb, a->mvd_bdst);
++		a->mvdown.stbr[AUFS_MVDOWN_LOWER].brid = br->br_id;
++		err = au_br_stfs(br, &a->mvdown.stbr[AUFS_MVDOWN_LOWER].stfs);
++	}
++	if (!err)
++		a->mvdown.flags &= ~AUFS_MVDOWN_STFS_FAILED;
++	else
++		AU_MVD_PR(dmsg, "statfs failed (%d), ignored\n", err);
++}
++
++/*
++ * copy-down the file and unlink the bsrc file.
++ * - unlink the bdst whout if exist
++ * - copy-down the file (with whtmp name and rename)
++ * - unlink the bsrc file
++ */
++static int au_do_mvdown(const unsigned char dmsg, struct au_mvd_args *a)
++{
++	int err;
++
++	err = au_do_mkdir(dmsg, a);
++	if (!err)
++		err = au_do_lock(dmsg, a);
++	if (unlikely(err))
++		goto out;
++
++	/*
++	 * do not revert the activities we made on bdst since they should be
++	 * harmless in aufs.
++	 */
++
++	err = au_do_cpdown(dmsg, a);
++	if (!err)
++		err = au_do_unlink_wh(dmsg, a);
++	if (!err && !(a->mvdown.flags & AUFS_MVDOWN_KUPPER))
++		err = au_do_unlink(dmsg, a);
++	if (unlikely(err))
++		goto out_unlock;
++
++	AuDbg("%pd2, 0x%x, %d --> %d\n",
++	      a->dentry, a->mvdown.flags, a->mvd_bsrc, a->mvd_bdst);
++	if (find_lower_writable(a) < 0)
++		a->mvdown.flags |= AUFS_MVDOWN_BOTTOM;
++
++	if (a->mvdown.flags & AUFS_MVDOWN_STFS)
++		au_do_stfs(dmsg, a);
++
++	/* maintain internal array */
++	if (!(a->mvdown.flags & AUFS_MVDOWN_KUPPER)) {
++		au_set_h_dptr(a->dentry, a->mvd_bsrc, NULL);
++		au_set_dbtop(a->dentry, a->mvd_bdst);
++		au_set_h_iptr(a->inode, a->mvd_bsrc, NULL, /*flags*/0);
++		au_set_ibtop(a->inode, a->mvd_bdst);
++	} else {
++		/* hide the lower */
++		au_set_h_dptr(a->dentry, a->mvd_bdst, NULL);
++		au_set_dbbot(a->dentry, a->mvd_bsrc);
++		au_set_h_iptr(a->inode, a->mvd_bdst, NULL, /*flags*/0);
++		au_set_ibbot(a->inode, a->mvd_bsrc);
++	}
++	if (au_dbbot(a->dentry) < a->mvd_bdst)
++		au_set_dbbot(a->dentry, a->mvd_bdst);
++	if (au_ibbot(a->inode) < a->mvd_bdst)
++		au_set_ibbot(a->inode, a->mvd_bdst);
++
++out_unlock:
++	au_do_unlock(dmsg, a);
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* make sure the file is idle */
++static int au_mvd_args_busy(const unsigned char dmsg, struct au_mvd_args *a)
++{
++	int err, plinked;
++
++	err = 0;
++	plinked = !!au_opt_test(au_mntflags(a->sb), PLINK);
++	if (au_dbtop(a->dentry) == a->mvd_bsrc
++	    && au_dcount(a->dentry) == 1
++	    && atomic_read(&a->inode->i_count) == 1
++	    /* && a->mvd_h_src_inode->i_nlink == 1 */
++	    && (!plinked || !au_plink_test(a->inode))
++	    && a->inode->i_nlink == 1)
++		goto out;
++
++	err = -EBUSY;
++	AU_MVD_PR(dmsg,
++		  "b%d, d{b%d, c%d?}, i{c%d?, l%u}, hi{l%u}, p{%d, %d}\n",
++		  a->mvd_bsrc, au_dbtop(a->dentry), au_dcount(a->dentry),
++		  atomic_read(&a->inode->i_count), a->inode->i_nlink,
++		  a->mvd_h_src_inode->i_nlink,
++		  plinked, plinked ? au_plink_test(a->inode) : 0);
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++/* make sure the parent dir is fine */
++static int au_mvd_args_parent(const unsigned char dmsg,
++			      struct au_mvd_args *a)
++{
++	int err;
++	aufs_bindex_t bindex;
++
++	err = 0;
++	if (unlikely(au_alive_dir(a->parent))) {
++		err = -ENOENT;
++		AU_MVD_PR(dmsg, "parent dir is dead\n");
++		goto out;
++	}
++
++	a->bopq = au_dbdiropq(a->parent);
++	bindex = au_wbr_nonopq(a->dentry, a->mvd_bdst);
++	AuDbg("b%d\n", bindex);
++	if (unlikely((bindex >= 0 && bindex < a->mvd_bdst)
++		     || (a->bopq != -1 && a->bopq < a->mvd_bdst))) {
++		err = -EINVAL;
++		a->mvd_errno = EAU_MVDOWN_OPAQUE;
++		AU_MVD_PR(dmsg, "ancestor is opaque b%d, b%d\n",
++			  a->bopq, a->mvd_bdst);
++	}
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++static int au_mvd_args_intermediate(const unsigned char dmsg,
++				    struct au_mvd_args *a)
++{
++	int err;
++	struct au_dinfo *dinfo, *tmp;
++
++	/* lookup the next lower positive entry */
++	err = -ENOMEM;
++	tmp = au_di_alloc(a->sb, AuLsc_DI_TMP);
++	if (unlikely(!tmp))
++		goto out;
++
++	a->bfound = -1;
++	a->bwh = -1;
++	dinfo = au_di(a->dentry);
++	au_di_cp(tmp, dinfo);
++	au_di_swap(tmp, dinfo);
++
++	/* returns the number of positive dentries */
++	err = au_lkup_dentry(a->dentry, a->mvd_bsrc + 1,
++			     /* AuLkup_IGNORE_PERM */ 0);
++	if (!err)
++		a->bwh = au_dbwh(a->dentry);
++	else if (err > 0)
++		a->bfound = au_dbtop(a->dentry);
++
++	au_di_swap(tmp, dinfo);
++	au_rw_write_unlock(&tmp->di_rwsem);
++	au_di_free(tmp);
++	if (unlikely(err < 0))
++		AU_MVD_PR(dmsg, "failed look-up lower\n");
++
++	/*
++	 * here, we have these cases.
++	 * bfound == -1
++	 *	no positive dentry under bsrc. there are more sub-cases.
++	 *	bwh < 0
++	 *		there no whiteout, we can safely move-down.
++	 *	bwh <= bsrc
++	 *		impossible
++	 *	bsrc < bwh && bwh < bdst
++	 *		there is a whiteout on RO branch. cannot proceed.
++	 *	bwh == bdst
++	 *		there is a whiteout on the RW target branch. it should
++	 *		be removed.
++	 *	bdst < bwh
++	 *		there is a whiteout somewhere unrelated branch.
++	 * -1 < bfound && bfound <= bsrc
++	 *	impossible.
++	 * bfound < bdst
++	 *	found, but it is on RO branch between bsrc and bdst. cannot
++	 *	proceed.
++	 * bfound == bdst
++	 *	found, replace it if AUFS_MVDOWN_FORCE is set. otherwise return
++	 *	error.
++	 * bdst < bfound
++	 *	found, after we create the file on bdst, it will be hidden.
++	 */
++
++	AuDebugOn(a->bfound == -1
++		  && a->bwh != -1
++		  && a->bwh <= a->mvd_bsrc);
++	AuDebugOn(-1 < a->bfound
++		  && a->bfound <= a->mvd_bsrc);
++
++	err = -EINVAL;
++	if (a->bfound == -1
++	    && a->mvd_bsrc < a->bwh
++	    && a->bwh != -1
++	    && a->bwh < a->mvd_bdst) {
++		a->mvd_errno = EAU_MVDOWN_WHITEOUT;
++		AU_MVD_PR(dmsg, "bsrc %d, bdst %d, bfound %d, bwh %d\n",
++			  a->mvd_bsrc, a->mvd_bdst, a->bfound, a->bwh);
++		goto out;
++	} else if (a->bfound != -1 && a->bfound < a->mvd_bdst) {
++		a->mvd_errno = EAU_MVDOWN_UPPER;
++		AU_MVD_PR(dmsg, "bdst %d, bfound %d\n",
++			  a->mvd_bdst, a->bfound);
++		goto out;
++	}
++
++	err = 0; /* success */
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++static int au_mvd_args_exist(const unsigned char dmsg, struct au_mvd_args *a)
++{
++	int err;
++
++	err = 0;
++	if (!(a->mvdown.flags & AUFS_MVDOWN_OWLOWER)
++	    && a->bfound == a->mvd_bdst)
++		err = -EEXIST;
++	AuTraceErr(err);
++	return err;
++}
++
++static int au_mvd_args(const unsigned char dmsg, struct au_mvd_args *a)
++{
++	int err;
++	struct au_branch *br;
++
++	err = -EISDIR;
++	if (unlikely(S_ISDIR(a->inode->i_mode)))
++		goto out;
++
++	err = -EINVAL;
++	if (!(a->mvdown.flags & AUFS_MVDOWN_BRID_UPPER))
++		a->mvd_bsrc = au_ibtop(a->inode);
++	else {
++		a->mvd_bsrc = au_br_index(a->sb, a->mvd_src_brid);
++		if (unlikely(a->mvd_bsrc < 0
++			     || (a->mvd_bsrc < au_dbtop(a->dentry)
++				 || au_dbbot(a->dentry) < a->mvd_bsrc
++				 || !au_h_dptr(a->dentry, a->mvd_bsrc))
++			     || (a->mvd_bsrc < au_ibtop(a->inode)
++				 || au_ibbot(a->inode) < a->mvd_bsrc
++				 || !au_h_iptr(a->inode, a->mvd_bsrc)))) {
++			a->mvd_errno = EAU_MVDOWN_NOUPPER;
++			AU_MVD_PR(dmsg, "no upper\n");
++			goto out;
++		}
++	}
++	if (unlikely(a->mvd_bsrc == au_sbbot(a->sb))) {
++		a->mvd_errno = EAU_MVDOWN_BOTTOM;
++		AU_MVD_PR(dmsg, "on the bottom\n");
++		goto out;
++	}
++	a->mvd_h_src_inode = au_h_iptr(a->inode, a->mvd_bsrc);
++	br = au_sbr(a->sb, a->mvd_bsrc);
++	err = au_br_rdonly(br);
++	if (!(a->mvdown.flags & AUFS_MVDOWN_ROUPPER)) {
++		if (unlikely(err))
++			goto out;
++	} else if (!(vfsub_native_ro(a->mvd_h_src_inode)
++		     || IS_APPEND(a->mvd_h_src_inode))) {
++		if (err)
++			a->mvdown.flags |= AUFS_MVDOWN_ROUPPER_R;
++		/* go on */
++	} else
++		goto out;
++
++	err = -EINVAL;
++	if (!(a->mvdown.flags & AUFS_MVDOWN_BRID_LOWER)) {
++		a->mvd_bdst = find_lower_writable(a);
++		if (unlikely(a->mvd_bdst < 0)) {
++			a->mvd_errno = EAU_MVDOWN_BOTTOM;
++			AU_MVD_PR(dmsg, "no writable lower branch\n");
++			goto out;
++		}
++	} else {
++		a->mvd_bdst = au_br_index(a->sb, a->mvd_dst_brid);
++		if (unlikely(a->mvd_bdst < 0
++			     || au_sbbot(a->sb) < a->mvd_bdst)) {
++			a->mvd_errno = EAU_MVDOWN_NOLOWERBR;
++			AU_MVD_PR(dmsg, "no lower brid\n");
++			goto out;
++		}
++	}
++
++	err = au_mvd_args_busy(dmsg, a);
++	if (!err)
++		err = au_mvd_args_parent(dmsg, a);
++	if (!err)
++		err = au_mvd_args_intermediate(dmsg, a);
++	if (!err)
++		err = au_mvd_args_exist(dmsg, a);
++	if (!err)
++		AuDbg("b%d, b%d\n", a->mvd_bsrc, a->mvd_bdst);
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++int au_mvdown(struct dentry *dentry, struct aufs_mvdown __user *uarg)
++{
++	int err, e;
++	unsigned char dmsg;
++	struct au_mvd_args *args;
++	struct inode *inode;
++
++	inode = d_inode(dentry);
++	err = -EPERM;
++	if (unlikely(!capable(CAP_SYS_ADMIN)))
++		goto out;
++
++	err = -ENOMEM;
++	args = kmalloc(sizeof(*args), GFP_NOFS);
++	if (unlikely(!args))
++		goto out;
++
++	err = copy_from_user(&args->mvdown, uarg, sizeof(args->mvdown));
++	if (!err)
++		err = !access_ok(VERIFY_WRITE, uarg, sizeof(*uarg));
++	if (unlikely(err)) {
++		err = -EFAULT;
++		AuTraceErr(err);
++		goto out_free;
++	}
++	AuDbg("flags 0x%x\n", args->mvdown.flags);
++	args->mvdown.flags &= ~(AUFS_MVDOWN_ROLOWER_R | AUFS_MVDOWN_ROUPPER_R);
++	args->mvdown.au_errno = 0;
++	args->dentry = dentry;
++	args->inode = inode;
++	args->sb = dentry->d_sb;
++
++	err = -ENOENT;
++	dmsg = !!(args->mvdown.flags & AUFS_MVDOWN_DMSG);
++	args->parent = dget_parent(dentry);
++	args->dir = d_inode(args->parent);
++	inode_lock_nested(args->dir, I_MUTEX_PARENT);
++	dput(args->parent);
++	if (unlikely(args->parent != dentry->d_parent)) {
++		AU_MVD_PR(dmsg, "parent dir is moved\n");
++		goto out_dir;
++	}
++
++	inode_lock_nested(inode, I_MUTEX_CHILD);
++	err = aufs_read_lock(dentry, AuLock_DW | AuLock_FLUSH | AuLock_NOPLMW);
++	if (unlikely(err))
++		goto out_inode;
++
++	di_write_lock_parent(args->parent);
++	err = au_mvd_args(dmsg, args);
++	if (unlikely(err))
++		goto out_parent;
++
++	err = au_do_mvdown(dmsg, args);
++	if (unlikely(err))
++		goto out_parent;
++
++	au_cpup_attr_timesizes(args->dir);
++	au_cpup_attr_timesizes(inode);
++	if (!(args->mvdown.flags & AUFS_MVDOWN_KUPPER))
++		au_cpup_igen(inode, au_h_iptr(inode, args->mvd_bdst));
++	/* au_digen_dec(dentry); */
++
++out_parent:
++	di_write_unlock(args->parent);
++	aufs_read_unlock(dentry, AuLock_DW);
++out_inode:
++	inode_unlock(inode);
++out_dir:
++	inode_unlock(args->dir);
++out_free:
++	e = copy_to_user(uarg, &args->mvdown, sizeof(args->mvdown));
++	if (unlikely(e))
++		err = -EFAULT;
++	kfree(args);
++out:
++	AuTraceErr(err);
++	return err;
++}
+diff --git a/fs/aufs/opts.c b/fs/aufs/opts.c
+new file mode 100755
+index 0000000..717cb28
+--- /dev/null
++++ b/fs/aufs/opts.c
+@@ -0,0 +1,1846 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * mount options/flags
++ */
++
++#include <linux/namei.h>
++#include <linux/types.h> /* a distribution requires */
++#include <linux/parser.h>
++#include "aufs.h"
++
++/* ---------------------------------------------------------------------- */
++
++enum {
++	Opt_br,
++	Opt_add, Opt_del, Opt_mod, Opt_append, Opt_prepend,
++	Opt_idel, Opt_imod,
++	Opt_dirwh, Opt_rdcache, Opt_rdblk, Opt_rdhash,
++	Opt_rdblk_def, Opt_rdhash_def,
++	Opt_xino, Opt_noxino,
++	Opt_trunc_xino, Opt_trunc_xino_v, Opt_notrunc_xino,
++	Opt_trunc_xino_path, Opt_itrunc_xino,
++	Opt_trunc_xib, Opt_notrunc_xib,
++	Opt_shwh, Opt_noshwh,
++	Opt_plink, Opt_noplink, Opt_list_plink,
++	Opt_udba,
++	Opt_dio, Opt_nodio,
++	Opt_diropq_a, Opt_diropq_w,
++	Opt_warn_perm, Opt_nowarn_perm,
++	Opt_wbr_copyup, Opt_wbr_create,
++	Opt_fhsm_sec,
++	Opt_verbose, Opt_noverbose,
++	Opt_sum, Opt_nosum, Opt_wsum,
++	Opt_dirperm1, Opt_nodirperm1,
++	Opt_acl, Opt_noacl,
++	Opt_tail, Opt_ignore, Opt_ignore_silent, Opt_err
++};
++
++static match_table_t options = {
++	{Opt_br, "br=%s"},
++	{Opt_br, "br:%s"},
++
++	{Opt_add, "add=%d:%s"},
++	{Opt_add, "add:%d:%s"},
++	{Opt_add, "ins=%d:%s"},
++	{Opt_add, "ins:%d:%s"},
++	{Opt_append, "append=%s"},
++	{Opt_append, "append:%s"},
++	{Opt_prepend, "prepend=%s"},
++	{Opt_prepend, "prepend:%s"},
++
++	{Opt_del, "del=%s"},
++	{Opt_del, "del:%s"},
++	/* {Opt_idel, "idel:%d"}, */
++	{Opt_mod, "mod=%s"},
++	{Opt_mod, "mod:%s"},
++	/* {Opt_imod, "imod:%d:%s"}, */
++
++	{Opt_dirwh, "dirwh=%d"},
++
++	{Opt_xino, "xino=%s"},
++	{Opt_noxino, "noxino"},
++	{Opt_trunc_xino, "trunc_xino"},
++	{Opt_trunc_xino_v, "trunc_xino_v=%d:%d"},
++	{Opt_notrunc_xino, "notrunc_xino"},
++	{Opt_trunc_xino_path, "trunc_xino=%s"},
++	{Opt_itrunc_xino, "itrunc_xino=%d"},
++	/* {Opt_zxino, "zxino=%s"}, */
++	{Opt_trunc_xib, "trunc_xib"},
++	{Opt_notrunc_xib, "notrunc_xib"},
++
++#ifdef CONFIG_PROC_FS
++	{Opt_plink, "plink"},
++#else
++	{Opt_ignore_silent, "plink"},
++#endif
++
++	{Opt_noplink, "noplink"},
++
++#ifdef CONFIG_AUFS_DEBUG
++	{Opt_list_plink, "list_plink"},
++#endif
++
++	{Opt_udba, "udba=%s"},
++
++	{Opt_dio, "dio"},
++	{Opt_nodio, "nodio"},
++
++#ifdef CONFIG_AUFS_FHSM
++	{Opt_fhsm_sec, "fhsm_sec=%d"},
++#else
++	{Opt_ignore_silent, "fhsm_sec=%d"},
++#endif
++
++	{Opt_diropq_a, "diropq=always"},
++	{Opt_diropq_a, "diropq=a"},
++	{Opt_diropq_w, "diropq=whiteouted"},
++	{Opt_diropq_w, "diropq=w"},
++
++	{Opt_warn_perm, "warn_perm"},
++	{Opt_nowarn_perm, "nowarn_perm"},
++
++	/* keep them temporary */
++	{Opt_ignore_silent, "nodlgt"},
++	{Opt_ignore_silent, "clean_plink"},
++
++#ifdef CONFIG_AUFS_SHWH
++	{Opt_shwh, "shwh"},
++#endif
++	{Opt_noshwh, "noshwh"},
++
++	{Opt_dirperm1, "dirperm1"},
++	{Opt_nodirperm1, "nodirperm1"},
++
++	{Opt_verbose, "verbose"},
++	{Opt_verbose, "v"},
++	{Opt_noverbose, "noverbose"},
++	{Opt_noverbose, "quiet"},
++	{Opt_noverbose, "q"},
++	{Opt_noverbose, "silent"},
++
++	{Opt_sum, "sum"},
++	{Opt_nosum, "nosum"},
++	{Opt_wsum, "wsum"},
++
++	{Opt_rdcache, "rdcache=%d"},
++	{Opt_rdblk, "rdblk=%d"},
++	{Opt_rdblk_def, "rdblk=def"},
++	{Opt_rdhash, "rdhash=%d"},
++	{Opt_rdhash_def, "rdhash=def"},
++
++	{Opt_wbr_create, "create=%s"},
++	{Opt_wbr_create, "create_policy=%s"},
++	{Opt_wbr_copyup, "cpup=%s"},
++	{Opt_wbr_copyup, "copyup=%s"},
++	{Opt_wbr_copyup, "copyup_policy=%s"},
++
++	/* generic VFS flag */
++#ifdef CONFIG_FS_POSIX_ACL
++	{Opt_acl, "acl"},
++	{Opt_noacl, "noacl"},
++#else
++	{Opt_ignore_silent, "acl"},
++	{Opt_ignore_silent, "noacl"},
++#endif
++
++	/* internal use for the scripts */
++	{Opt_ignore_silent, "si=%s"},
++
++	{Opt_br, "dirs=%s"},
++	{Opt_ignore, "debug=%d"},
++	{Opt_ignore, "delete=whiteout"},
++	{Opt_ignore, "delete=all"},
++	{Opt_ignore, "imap=%s"},
++
++	/* temporary workaround, due to old mount(8)? */
++	{Opt_ignore_silent, "relatime"},
++
++	{Opt_err, NULL}
++};
++
++/* ---------------------------------------------------------------------- */
++
++static const char *au_parser_pattern(int val, match_table_t tbl)
++{
++	struct match_token *p;
++
++	p = tbl;
++	while (p->pattern) {
++		if (p->token == val)
++			return p->pattern;
++		p++;
++	}
++	BUG();
++	return "??";
++}
++
++static const char *au_optstr(int *val, match_table_t tbl)
++{
++	struct match_token *p;
++	int v;
++
++	v = *val;
++	if (!v)
++		goto out;
++	p = tbl;
++	while (p->pattern) {
++		if (p->token
++		    && (v & p->token) == p->token) {
++			*val &= ~p->token;
++			return p->pattern;
++		}
++		p++;
++	}
++
++out:
++	return NULL;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static match_table_t brperm = {
++	{AuBrPerm_RO, AUFS_BRPERM_RO},
++	{AuBrPerm_RR, AUFS_BRPERM_RR},
++	{AuBrPerm_RW, AUFS_BRPERM_RW},
++	{0, NULL}
++};
++
++static match_table_t brattr = {
++	/* general */
++	{AuBrAttr_COO_REG, AUFS_BRATTR_COO_REG},
++	{AuBrAttr_COO_ALL, AUFS_BRATTR_COO_ALL},
++	/* 'unpin' attrib is meaningless since linux-3.18-rc1 */
++	{AuBrAttr_UNPIN, AUFS_BRATTR_UNPIN},
++#ifdef CONFIG_AUFS_FHSM
++	{AuBrAttr_FHSM, AUFS_BRATTR_FHSM},
++#endif
++#ifdef CONFIG_AUFS_XATTR
++	{AuBrAttr_ICEX, AUFS_BRATTR_ICEX},
++	{AuBrAttr_ICEX_SEC, AUFS_BRATTR_ICEX_SEC},
++	{AuBrAttr_ICEX_SYS, AUFS_BRATTR_ICEX_SYS},
++	{AuBrAttr_ICEX_TR, AUFS_BRATTR_ICEX_TR},
++	{AuBrAttr_ICEX_USR, AUFS_BRATTR_ICEX_USR},
++	{AuBrAttr_ICEX_OTH, AUFS_BRATTR_ICEX_OTH},
++#endif
++
++	/* ro/rr branch */
++	{AuBrRAttr_WH, AUFS_BRRATTR_WH},
++
++	/* rw branch */
++	{AuBrWAttr_MOO, AUFS_BRWATTR_MOO},
++	{AuBrWAttr_NoLinkWH, AUFS_BRWATTR_NLWH},
++
++	{0, NULL}
++};
++
++static int br_attr_val(char *str, match_table_t table, substring_t args[])
++{
++	int attr, v;
++	char *p;
++
++	attr = 0;
++	do {
++		p = strchr(str, '+');
++		if (p)
++			*p = 0;
++		v = match_token(str, table, args);
++		if (v) {
++			if (v & AuBrAttr_CMOO_Mask)
++				attr &= ~AuBrAttr_CMOO_Mask;
++			attr |= v;
++		} else {
++			if (p)
++				*p = '+';
++			pr_warn("ignored branch attribute %s\n", str);
++			break;
++		}
++		if (p)
++			str = p + 1;
++	} while (p);
++
++	return attr;
++}
++
++static int au_do_optstr_br_attr(au_br_perm_str_t *str, int perm)
++{
++	int sz;
++	const char *p;
++	char *q;
++
++	q = str->a;
++	*q = 0;
++	p = au_optstr(&perm, brattr);
++	if (p) {
++		sz = strlen(p);
++		memcpy(q, p, sz + 1);
++		q += sz;
++	} else
++		goto out;
++
++	do {
++		p = au_optstr(&perm, brattr);
++		if (p) {
++			*q++ = '+';
++			sz = strlen(p);
++			memcpy(q, p, sz + 1);
++			q += sz;
++		}
++	} while (p);
++
++out:
++	return q - str->a;
++}
++
++static int noinline_for_stack br_perm_val(char *perm)
++{
++	int val, bad, sz;
++	char *p;
++	substring_t args[MAX_OPT_ARGS];
++	au_br_perm_str_t attr;
++
++	p = strchr(perm, '+');
++	if (p)
++		*p = 0;
++	val = match_token(perm, brperm, args);
++	if (!val) {
++		if (p)
++			*p = '+';
++		pr_warn("ignored branch permission %s\n", perm);
++		val = AuBrPerm_RO;
++		goto out;
++	}
++	if (!p)
++		goto out;
++
++	val |= br_attr_val(p + 1, brattr, args);
++
++	bad = 0;
++	switch (val & AuBrPerm_Mask) {
++	case AuBrPerm_RO:
++	case AuBrPerm_RR:
++		bad = val & AuBrWAttr_Mask;
++		val &= ~AuBrWAttr_Mask;
++		break;
++	case AuBrPerm_RW:
++		bad = val & AuBrRAttr_Mask;
++		val &= ~AuBrRAttr_Mask;
++		break;
++	}
++
++	/*
++	 * 'unpin' attrib becomes meaningless since linux-3.18-rc1, but aufs
++	 * does not treat it as an error, just warning.
++	 * this is a tiny guard for the user operation.
++	 */
++	if (val & AuBrAttr_UNPIN) {
++		bad |= AuBrAttr_UNPIN;
++		val &= ~AuBrAttr_UNPIN;
++	}
++
++	if (unlikely(bad)) {
++		sz = au_do_optstr_br_attr(&attr, bad);
++		AuDebugOn(!sz);
++		pr_warn("ignored branch attribute %s\n", attr.a);
++	}
++
++out:
++	return val;
++}
++
++void au_optstr_br_perm(au_br_perm_str_t *str, int perm)
++{
++	au_br_perm_str_t attr;
++	const char *p;
++	char *q;
++	int sz;
++
++	q = str->a;
++	p = au_optstr(&perm, brperm);
++	AuDebugOn(!p || !*p);
++	sz = strlen(p);
++	memcpy(q, p, sz + 1);
++	q += sz;
++
++	sz = au_do_optstr_br_attr(&attr, perm);
++	if (sz) {
++		*q++ = '+';
++		memcpy(q, attr.a, sz + 1);
++	}
++
++	AuDebugOn(strlen(str->a) >= sizeof(str->a));
++}
++
++/* ---------------------------------------------------------------------- */
++
++static match_table_t udbalevel = {
++	{AuOpt_UDBA_REVAL, "reval"},
++	{AuOpt_UDBA_NONE, "none"},
++#ifdef CONFIG_AUFS_HNOTIFY
++	{AuOpt_UDBA_HNOTIFY, "notify"}, /* abstraction */
++#ifdef CONFIG_AUFS_HFSNOTIFY
++	{AuOpt_UDBA_HNOTIFY, "fsnotify"},
++#endif
++#endif
++	{-1, NULL}
++};
++
++static int noinline_for_stack udba_val(char *str)
++{
++	substring_t args[MAX_OPT_ARGS];
++
++	return match_token(str, udbalevel, args);
++}
++
++const char *au_optstr_udba(int udba)
++{
++	return au_parser_pattern(udba, udbalevel);
++}
++
++/* ---------------------------------------------------------------------- */
++
++static match_table_t au_wbr_create_policy = {
++	{AuWbrCreate_TDP, "tdp"},
++	{AuWbrCreate_TDP, "top-down-parent"},
++	{AuWbrCreate_RR, "rr"},
++	{AuWbrCreate_RR, "round-robin"},
++	{AuWbrCreate_MFS, "mfs"},
++	{AuWbrCreate_MFS, "most-free-space"},
++	{AuWbrCreate_MFSV, "mfs:%d"},
++	{AuWbrCreate_MFSV, "most-free-space:%d"},
++
++	/* top-down regardless the parent, and then mfs */
++	{AuWbrCreate_TDMFS, "tdmfs:%d"},
++	{AuWbrCreate_TDMFSV, "tdmfs:%d:%d"},
++
++	{AuWbrCreate_MFSRR, "mfsrr:%d"},
++	{AuWbrCreate_MFSRRV, "mfsrr:%d:%d"},
++	{AuWbrCreate_PMFS, "pmfs"},
++	{AuWbrCreate_PMFSV, "pmfs:%d"},
++	{AuWbrCreate_PMFSRR, "pmfsrr:%d"},
++	{AuWbrCreate_PMFSRRV, "pmfsrr:%d:%d"},
++
++	{-1, NULL}
++};
++
++static int au_wbr_mfs_wmark(substring_t *arg, char *str,
++			    struct au_opt_wbr_create *create)
++{
++	int err;
++	unsigned long long ull;
++
++	err = 0;
++	if (!match_u64(arg, &ull))
++		create->mfsrr_watermark = ull;
++	else {
++		pr_err("bad integer in %s\n", str);
++		err = -EINVAL;
++	}
++
++	return err;
++}
++
++static int au_wbr_mfs_sec(substring_t *arg, char *str,
++			  struct au_opt_wbr_create *create)
++{
++	int n, err;
++
++	err = 0;
++	if (!match_int(arg, &n) && 0 <= n && n <= AUFS_MFS_MAX_SEC)
++		create->mfs_second = n;
++	else {
++		pr_err("bad integer in %s\n", str);
++		err = -EINVAL;
++	}
++
++	return err;
++}
++
++static int noinline_for_stack
++au_wbr_create_val(char *str, struct au_opt_wbr_create *create)
++{
++	int err, e;
++	substring_t args[MAX_OPT_ARGS];
++
++	err = match_token(str, au_wbr_create_policy, args);
++	create->wbr_create = err;
++	switch (err) {
++	case AuWbrCreate_MFSRRV:
++	case AuWbrCreate_TDMFSV:
++	case AuWbrCreate_PMFSRRV:
++		e = au_wbr_mfs_wmark(&args[0], str, create);
++		if (!e)
++			e = au_wbr_mfs_sec(&args[1], str, create);
++		if (unlikely(e))
++			err = e;
++		break;
++	case AuWbrCreate_MFSRR:
++	case AuWbrCreate_TDMFS:
++	case AuWbrCreate_PMFSRR:
++		e = au_wbr_mfs_wmark(&args[0], str, create);
++		if (unlikely(e)) {
++			err = e;
++			break;
++		}
++		/*FALLTHROUGH*/
++	case AuWbrCreate_MFS:
++	case AuWbrCreate_PMFS:
++		create->mfs_second = AUFS_MFS_DEF_SEC;
++		break;
++	case AuWbrCreate_MFSV:
++	case AuWbrCreate_PMFSV:
++		e = au_wbr_mfs_sec(&args[0], str, create);
++		if (unlikely(e))
++			err = e;
++		break;
++	}
++
++	return err;
++}
++
++const char *au_optstr_wbr_create(int wbr_create)
++{
++	return au_parser_pattern(wbr_create, au_wbr_create_policy);
++}
++
++static match_table_t au_wbr_copyup_policy = {
++	{AuWbrCopyup_TDP, "tdp"},
++	{AuWbrCopyup_TDP, "top-down-parent"},
++	{AuWbrCopyup_BUP, "bup"},
++	{AuWbrCopyup_BUP, "bottom-up-parent"},
++	{AuWbrCopyup_BU, "bu"},
++	{AuWbrCopyup_BU, "bottom-up"},
++	{-1, NULL}
++};
++
++static int noinline_for_stack au_wbr_copyup_val(char *str)
++{
++	substring_t args[MAX_OPT_ARGS];
++
++	return match_token(str, au_wbr_copyup_policy, args);
++}
++
++const char *au_optstr_wbr_copyup(int wbr_copyup)
++{
++	return au_parser_pattern(wbr_copyup, au_wbr_copyup_policy);
++}
++
++/* ---------------------------------------------------------------------- */
++
++static const int lkup_dirflags = LOOKUP_FOLLOW | LOOKUP_DIRECTORY;
++
++static void dump_opts(struct au_opts *opts)
++{
++#ifdef CONFIG_AUFS_DEBUG
++	/* reduce stack space */
++	union {
++		struct au_opt_add *add;
++		struct au_opt_del *del;
++		struct au_opt_mod *mod;
++		struct au_opt_xino *xino;
++		struct au_opt_xino_itrunc *xino_itrunc;
++		struct au_opt_wbr_create *create;
++	} u;
++	struct au_opt *opt;
++
++	opt = opts->opt;
++	while (opt->type != Opt_tail) {
++		switch (opt->type) {
++		case Opt_add:
++			u.add = &opt->add;
++			AuDbg("add {b%d, %s, 0x%x, %p}\n",
++				  u.add->bindex, u.add->pathname, u.add->perm,
++				  u.add->path.dentry);
++			break;
++		case Opt_del:
++		case Opt_idel:
++			u.del = &opt->del;
++			AuDbg("del {%s, %p}\n",
++			      u.del->pathname, u.del->h_path.dentry);
++			break;
++		case Opt_mod:
++		case Opt_imod:
++			u.mod = &opt->mod;
++			AuDbg("mod {%s, 0x%x, %p}\n",
++				  u.mod->path, u.mod->perm, u.mod->h_root);
++			break;
++		case Opt_append:
++			u.add = &opt->add;
++			AuDbg("append {b%d, %s, 0x%x, %p}\n",
++				  u.add->bindex, u.add->pathname, u.add->perm,
++				  u.add->path.dentry);
++			break;
++		case Opt_prepend:
++			u.add = &opt->add;
++			AuDbg("prepend {b%d, %s, 0x%x, %p}\n",
++				  u.add->bindex, u.add->pathname, u.add->perm,
++				  u.add->path.dentry);
++			break;
++		case Opt_dirwh:
++			AuDbg("dirwh %d\n", opt->dirwh);
++			break;
++		case Opt_rdcache:
++			AuDbg("rdcache %d\n", opt->rdcache);
++			break;
++		case Opt_rdblk:
++			AuDbg("rdblk %u\n", opt->rdblk);
++			break;
++		case Opt_rdblk_def:
++			AuDbg("rdblk_def\n");
++			break;
++		case Opt_rdhash:
++			AuDbg("rdhash %u\n", opt->rdhash);
++			break;
++		case Opt_rdhash_def:
++			AuDbg("rdhash_def\n");
++			break;
++		case Opt_xino:
++			u.xino = &opt->xino;
++			AuDbg("xino {%s %pD}\n", u.xino->path, u.xino->file);
++			break;
++		case Opt_trunc_xino:
++			AuLabel(trunc_xino);
++			break;
++		case Opt_notrunc_xino:
++			AuLabel(notrunc_xino);
++			break;
++		case Opt_trunc_xino_path:
++		case Opt_itrunc_xino:
++			u.xino_itrunc = &opt->xino_itrunc;
++			AuDbg("trunc_xino %d\n", u.xino_itrunc->bindex);
++			break;
++		case Opt_noxino:
++			AuLabel(noxino);
++			break;
++		case Opt_trunc_xib:
++			AuLabel(trunc_xib);
++			break;
++		case Opt_notrunc_xib:
++			AuLabel(notrunc_xib);
++			break;
++		case Opt_shwh:
++			AuLabel(shwh);
++			break;
++		case Opt_noshwh:
++			AuLabel(noshwh);
++			break;
++		case Opt_dirperm1:
++			AuLabel(dirperm1);
++			break;
++		case Opt_nodirperm1:
++			AuLabel(nodirperm1);
++			break;
++		case Opt_plink:
++			AuLabel(plink);
++			break;
++		case Opt_noplink:
++			AuLabel(noplink);
++			break;
++		case Opt_list_plink:
++			AuLabel(list_plink);
++			break;
++		case Opt_udba:
++			AuDbg("udba %d, %s\n",
++				  opt->udba, au_optstr_udba(opt->udba));
++			break;
++		case Opt_dio:
++			AuLabel(dio);
++			break;
++		case Opt_nodio:
++			AuLabel(nodio);
++			break;
++		case Opt_diropq_a:
++			AuLabel(diropq_a);
++			break;
++		case Opt_diropq_w:
++			AuLabel(diropq_w);
++			break;
++		case Opt_warn_perm:
++			AuLabel(warn_perm);
++			break;
++		case Opt_nowarn_perm:
++			AuLabel(nowarn_perm);
++			break;
++		case Opt_verbose:
++			AuLabel(verbose);
++			break;
++		case Opt_noverbose:
++			AuLabel(noverbose);
++			break;
++		case Opt_sum:
++			AuLabel(sum);
++			break;
++		case Opt_nosum:
++			AuLabel(nosum);
++			break;
++		case Opt_wsum:
++			AuLabel(wsum);
++			break;
++		case Opt_wbr_create:
++			u.create = &opt->wbr_create;
++			AuDbg("create %d, %s\n", u.create->wbr_create,
++				  au_optstr_wbr_create(u.create->wbr_create));
++			switch (u.create->wbr_create) {
++			case AuWbrCreate_MFSV:
++			case AuWbrCreate_PMFSV:
++				AuDbg("%d sec\n", u.create->mfs_second);
++				break;
++			case AuWbrCreate_MFSRR:
++			case AuWbrCreate_TDMFS:
++				AuDbg("%llu watermark\n",
++					  u.create->mfsrr_watermark);
++				break;
++			case AuWbrCreate_MFSRRV:
++			case AuWbrCreate_TDMFSV:
++			case AuWbrCreate_PMFSRRV:
++				AuDbg("%llu watermark, %d sec\n",
++					  u.create->mfsrr_watermark,
++					  u.create->mfs_second);
++				break;
++			}
++			break;
++		case Opt_wbr_copyup:
++			AuDbg("copyup %d, %s\n", opt->wbr_copyup,
++				  au_optstr_wbr_copyup(opt->wbr_copyup));
++			break;
++		case Opt_fhsm_sec:
++			AuDbg("fhsm_sec %u\n", opt->fhsm_second);
++			break;
++		case Opt_acl:
++			AuLabel(acl);
++			break;
++		case Opt_noacl:
++			AuLabel(noacl);
++			break;
++		default:
++			BUG();
++		}
++		opt++;
++	}
++#endif
++}
++
++void au_opts_free(struct au_opts *opts)
++{
++	struct au_opt *opt;
++
++	opt = opts->opt;
++	while (opt->type != Opt_tail) {
++		switch (opt->type) {
++		case Opt_add:
++		case Opt_append:
++		case Opt_prepend:
++			path_put(&opt->add.path);
++			break;
++		case Opt_del:
++		case Opt_idel:
++			path_put(&opt->del.h_path);
++			break;
++		case Opt_mod:
++		case Opt_imod:
++			dput(opt->mod.h_root);
++			break;
++		case Opt_xino:
++			fput(opt->xino.file);
++			break;
++		}
++		opt++;
++	}
++}
++
++static int opt_add(struct au_opt *opt, char *opt_str, unsigned long sb_flags,
++		   aufs_bindex_t bindex)
++{
++	int err;
++	struct au_opt_add *add = &opt->add;
++	char *p;
++
++	add->bindex = bindex;
++	add->perm = AuBrPerm_RO;
++	add->pathname = opt_str;
++	p = strchr(opt_str, '=');
++	if (p) {
++		*p++ = 0;
++		if (*p)
++			add->perm = br_perm_val(p);
++	}
++
++	err = vfsub_kern_path(add->pathname, lkup_dirflags, &add->path);
++	if (!err) {
++		if (!p) {
++			add->perm = AuBrPerm_RO;
++			if (au_test_fs_rr(add->path.dentry->d_sb))
++				add->perm = AuBrPerm_RR;
++			else if (!bindex && !(sb_flags & MS_RDONLY))
++				add->perm = AuBrPerm_RW;
++		}
++		opt->type = Opt_add;
++		goto out;
++	}
++	pr_err("lookup failed %s (%d)\n", add->pathname, err);
++	err = -EINVAL;
++
++out:
++	return err;
++}
++
++static int au_opts_parse_del(struct au_opt_del *del, substring_t args[])
++{
++	int err;
++
++	del->pathname = args[0].from;
++	AuDbg("del path %s\n", del->pathname);
++
++	err = vfsub_kern_path(del->pathname, lkup_dirflags, &del->h_path);
++	if (unlikely(err))
++		pr_err("lookup failed %s (%d)\n", del->pathname, err);
++
++	return err;
++}
++
++#if 0 /* reserved for future use */
++static int au_opts_parse_idel(struct super_block *sb, aufs_bindex_t bindex,
++			      struct au_opt_del *del, substring_t args[])
++{
++	int err;
++	struct dentry *root;
++
++	err = -EINVAL;
++	root = sb->s_root;
++	aufs_read_lock(root, AuLock_FLUSH);
++	if (bindex < 0 || au_sbbot(sb) < bindex) {
++		pr_err("out of bounds, %d\n", bindex);
++		goto out;
++	}
++
++	err = 0;
++	del->h_path.dentry = dget(au_h_dptr(root, bindex));
++	del->h_path.mnt = mntget(au_sbr_mnt(sb, bindex));
++
++out:
++	aufs_read_unlock(root, !AuLock_IR);
++	return err;
++}
++#endif
++
++static int noinline_for_stack
++au_opts_parse_mod(struct au_opt_mod *mod, substring_t args[])
++{
++	int err;
++	struct path path;
++	char *p;
++
++	err = -EINVAL;
++	mod->path = args[0].from;
++	p = strchr(mod->path, '=');
++	if (unlikely(!p)) {
++		pr_err("no permssion %s\n", args[0].from);
++		goto out;
++	}
++
++	*p++ = 0;
++	err = vfsub_kern_path(mod->path, lkup_dirflags, &path);
++	if (unlikely(err)) {
++		pr_err("lookup failed %s (%d)\n", mod->path, err);
++		goto out;
++	}
++
++	mod->perm = br_perm_val(p);
++	AuDbg("mod path %s, perm 0x%x, %s\n", mod->path, mod->perm, p);
++	mod->h_root = dget(path.dentry);
++	path_put(&path);
++
++out:
++	return err;
++}
++
++#if 0 /* reserved for future use */
++static int au_opts_parse_imod(struct super_block *sb, aufs_bindex_t bindex,
++			      struct au_opt_mod *mod, substring_t args[])
++{
++	int err;
++	struct dentry *root;
++
++	err = -EINVAL;
++	root = sb->s_root;
++	aufs_read_lock(root, AuLock_FLUSH);
++	if (bindex < 0 || au_sbbot(sb) < bindex) {
++		pr_err("out of bounds, %d\n", bindex);
++		goto out;
++	}
++
++	err = 0;
++	mod->perm = br_perm_val(args[1].from);
++	AuDbg("mod path %s, perm 0x%x, %s\n",
++	      mod->path, mod->perm, args[1].from);
++	mod->h_root = dget(au_h_dptr(root, bindex));
++
++out:
++	aufs_read_unlock(root, !AuLock_IR);
++	return err;
++}
++#endif
++
++static int au_opts_parse_xino(struct super_block *sb, struct au_opt_xino *xino,
++			      substring_t args[])
++{
++	int err;
++	struct file *file;
++
++	file = au_xino_create(sb, args[0].from, /*silent*/0);
++	err = PTR_ERR(file);
++	if (IS_ERR(file))
++		goto out;
++
++	err = -EINVAL;
++	if (unlikely(file->f_path.dentry->d_sb == sb)) {
++		fput(file);
++		pr_err("%s must be outside\n", args[0].from);
++		goto out;
++	}
++
++	err = 0;
++	xino->file = file;
++	xino->path = args[0].from;
++
++out:
++	return err;
++}
++
++static int noinline_for_stack
++au_opts_parse_xino_itrunc_path(struct super_block *sb,
++			       struct au_opt_xino_itrunc *xino_itrunc,
++			       substring_t args[])
++{
++	int err;
++	aufs_bindex_t bbot, bindex;
++	struct path path;
++	struct dentry *root;
++
++	err = vfsub_kern_path(args[0].from, lkup_dirflags, &path);
++	if (unlikely(err)) {
++		pr_err("lookup failed %s (%d)\n", args[0].from, err);
++		goto out;
++	}
++
++	xino_itrunc->bindex = -1;
++	root = sb->s_root;
++	aufs_read_lock(root, AuLock_FLUSH);
++	bbot = au_sbbot(sb);
++	for (bindex = 0; bindex <= bbot; bindex++) {
++		if (au_h_dptr(root, bindex) == path.dentry) {
++			xino_itrunc->bindex = bindex;
++			break;
++		}
++	}
++	aufs_read_unlock(root, !AuLock_IR);
++	path_put(&path);
++
++	if (unlikely(xino_itrunc->bindex < 0)) {
++		pr_err("no such branch %s\n", args[0].from);
++		err = -EINVAL;
++	}
++
++out:
++	return err;
++}
++
++/* called without aufs lock */
++int au_opts_parse(struct super_block *sb, char *str, struct au_opts *opts)
++{
++	int err, n, token;
++	aufs_bindex_t bindex;
++	unsigned char skipped;
++	struct dentry *root;
++	struct au_opt *opt, *opt_tail;
++	char *opt_str;
++	/* reduce the stack space */
++	union {
++		struct au_opt_xino_itrunc *xino_itrunc;
++		struct au_opt_wbr_create *create;
++	} u;
++	struct {
++		substring_t args[MAX_OPT_ARGS];
++	} *a;
++
++	err = -ENOMEM;
++	a = kmalloc(sizeof(*a), GFP_NOFS);
++	if (unlikely(!a))
++		goto out;
++
++	root = sb->s_root;
++	err = 0;
++	bindex = 0;
++	opt = opts->opt;
++	opt_tail = opt + opts->max_opt - 1;
++	opt->type = Opt_tail;
++	while (!err && (opt_str = strsep(&str, ",")) && *opt_str) {
++		err = -EINVAL;
++		skipped = 0;
++		token = match_token(opt_str, options, a->args);
++		switch (token) {
++		case Opt_br:
++			err = 0;
++			while (!err && (opt_str = strsep(&a->args[0].from, ":"))
++			       && *opt_str) {
++				err = opt_add(opt, opt_str, opts->sb_flags,
++					      bindex++);
++				if (unlikely(!err && ++opt > opt_tail)) {
++					err = -E2BIG;
++					break;
++				}
++				opt->type = Opt_tail;
++				skipped = 1;
++			}
++			break;
++		case Opt_add:
++			if (unlikely(match_int(&a->args[0], &n))) {
++				pr_err("bad integer in %s\n", opt_str);
++				break;
++			}
++			bindex = n;
++			err = opt_add(opt, a->args[1].from, opts->sb_flags,
++				      bindex);
++			if (!err)
++				opt->type = token;
++			break;
++		case Opt_append:
++			err = opt_add(opt, a->args[0].from, opts->sb_flags,
++				      /*dummy bindex*/1);
++			if (!err)
++				opt->type = token;
++			break;
++		case Opt_prepend:
++			err = opt_add(opt, a->args[0].from, opts->sb_flags,
++				      /*bindex*/0);
++			if (!err)
++				opt->type = token;
++			break;
++		case Opt_del:
++			err = au_opts_parse_del(&opt->del, a->args);
++			if (!err)
++				opt->type = token;
++			break;
++#if 0 /* reserved for future use */
++		case Opt_idel:
++			del->pathname = "(indexed)";
++			if (unlikely(match_int(&args[0], &n))) {
++				pr_err("bad integer in %s\n", opt_str);
++				break;
++			}
++			err = au_opts_parse_idel(sb, n, &opt->del, a->args);
++			if (!err)
++				opt->type = token;
++			break;
++#endif
++		case Opt_mod:
++			err = au_opts_parse_mod(&opt->mod, a->args);
++			if (!err)
++				opt->type = token;
++			break;
++#ifdef IMOD /* reserved for future use */
++		case Opt_imod:
++			u.mod->path = "(indexed)";
++			if (unlikely(match_int(&a->args[0], &n))) {
++				pr_err("bad integer in %s\n", opt_str);
++				break;
++			}
++			err = au_opts_parse_imod(sb, n, &opt->mod, a->args);
++			if (!err)
++				opt->type = token;
++			break;
++#endif
++		case Opt_xino:
++			err = au_opts_parse_xino(sb, &opt->xino, a->args);
++			if (!err)
++				opt->type = token;
++			break;
++
++		case Opt_trunc_xino_path:
++			err = au_opts_parse_xino_itrunc_path
++				(sb, &opt->xino_itrunc, a->args);
++			if (!err)
++				opt->type = token;
++			break;
++
++		case Opt_itrunc_xino:
++			u.xino_itrunc = &opt->xino_itrunc;
++			if (unlikely(match_int(&a->args[0], &n))) {
++				pr_err("bad integer in %s\n", opt_str);
++				break;
++			}
++			u.xino_itrunc->bindex = n;
++			aufs_read_lock(root, AuLock_FLUSH);
++			if (n < 0 || au_sbbot(sb) < n) {
++				pr_err("out of bounds, %d\n", n);
++				aufs_read_unlock(root, !AuLock_IR);
++				break;
++			}
++			aufs_read_unlock(root, !AuLock_IR);
++			err = 0;
++			opt->type = token;
++			break;
++
++		case Opt_dirwh:
++			if (unlikely(match_int(&a->args[0], &opt->dirwh)))
++				break;
++			err = 0;
++			opt->type = token;
++			break;
++
++		case Opt_rdcache:
++			if (unlikely(match_int(&a->args[0], &n))) {
++				pr_err("bad integer in %s\n", opt_str);
++				break;
++			}
++			if (unlikely(n > AUFS_RDCACHE_MAX)) {
++				pr_err("rdcache must be smaller than %d\n",
++				       AUFS_RDCACHE_MAX);
++				break;
++			}
++			opt->rdcache = n;
++			err = 0;
++			opt->type = token;
++			break;
++		case Opt_rdblk:
++			if (unlikely(match_int(&a->args[0], &n)
++				     || n < 0
++				     || n > KMALLOC_MAX_SIZE)) {
++				pr_err("bad integer in %s\n", opt_str);
++				break;
++			}
++			if (unlikely(n && n < NAME_MAX)) {
++				pr_err("rdblk must be larger than %d\n",
++				       NAME_MAX);
++				break;
++			}
++			opt->rdblk = n;
++			err = 0;
++			opt->type = token;
++			break;
++		case Opt_rdhash:
++			if (unlikely(match_int(&a->args[0], &n)
++				     || n < 0
++				     || n * sizeof(struct hlist_head)
++				     > KMALLOC_MAX_SIZE)) {
++				pr_err("bad integer in %s\n", opt_str);
++				break;
++			}
++			opt->rdhash = n;
++			err = 0;
++			opt->type = token;
++			break;
++
++		case Opt_trunc_xino:
++		case Opt_notrunc_xino:
++		case Opt_noxino:
++		case Opt_trunc_xib:
++		case Opt_notrunc_xib:
++		case Opt_shwh:
++		case Opt_noshwh:
++		case Opt_dirperm1:
++		case Opt_nodirperm1:
++		case Opt_plink:
++		case Opt_noplink:
++		case Opt_list_plink:
++		case Opt_dio:
++		case Opt_nodio:
++		case Opt_diropq_a:
++		case Opt_diropq_w:
++		case Opt_warn_perm:
++		case Opt_nowarn_perm:
++		case Opt_verbose:
++		case Opt_noverbose:
++		case Opt_sum:
++		case Opt_nosum:
++		case Opt_wsum:
++		case Opt_rdblk_def:
++		case Opt_rdhash_def:
++		case Opt_acl:
++		case Opt_noacl:
++			err = 0;
++			opt->type = token;
++			break;
++
++		case Opt_udba:
++			opt->udba = udba_val(a->args[0].from);
++			if (opt->udba >= 0) {
++				err = 0;
++				opt->type = token;
++			} else
++				pr_err("wrong value, %s\n", opt_str);
++			break;
++
++		case Opt_wbr_create:
++			u.create = &opt->wbr_create;
++			u.create->wbr_create
++				= au_wbr_create_val(a->args[0].from, u.create);
++			if (u.create->wbr_create >= 0) {
++				err = 0;
++				opt->type = token;
++			} else
++				pr_err("wrong value, %s\n", opt_str);
++			break;
++		case Opt_wbr_copyup:
++			opt->wbr_copyup = au_wbr_copyup_val(a->args[0].from);
++			if (opt->wbr_copyup >= 0) {
++				err = 0;
++				opt->type = token;
++			} else
++				pr_err("wrong value, %s\n", opt_str);
++			break;
++
++		case Opt_fhsm_sec:
++			if (unlikely(match_int(&a->args[0], &n)
++				     || n < 0)) {
++				pr_err("bad integer in %s\n", opt_str);
++				break;
++			}
++			if (sysaufs_brs) {
++				opt->fhsm_second = n;
++				opt->type = token;
++			} else
++				pr_warn("ignored %s\n", opt_str);
++			err = 0;
++			break;
++
++		case Opt_ignore:
++			pr_warn("ignored %s\n", opt_str);
++			/*FALLTHROUGH*/
++		case Opt_ignore_silent:
++			skipped = 1;
++			err = 0;
++			break;
++		case Opt_err:
++			pr_err("unknown option %s\n", opt_str);
++			break;
++		}
++
++		if (!err && !skipped) {
++			if (unlikely(++opt > opt_tail)) {
++				err = -E2BIG;
++				opt--;
++				opt->type = Opt_tail;
++				break;
++			}
++			opt->type = Opt_tail;
++		}
++	}
++
++	kfree(a);
++	dump_opts(opts);
++	if (unlikely(err))
++		au_opts_free(opts);
++
++out:
++	return err;
++}
++
++static int au_opt_wbr_create(struct super_block *sb,
++			     struct au_opt_wbr_create *create)
++{
++	int err;
++	struct au_sbinfo *sbinfo;
++
++	SiMustWriteLock(sb);
++
++	err = 1; /* handled */
++	sbinfo = au_sbi(sb);
++	if (sbinfo->si_wbr_create_ops->fin) {
++		err = sbinfo->si_wbr_create_ops->fin(sb);
++		if (!err)
++			err = 1;
++	}
++
++	sbinfo->si_wbr_create = create->wbr_create;
++	sbinfo->si_wbr_create_ops = au_wbr_create_ops + create->wbr_create;
++	switch (create->wbr_create) {
++	case AuWbrCreate_MFSRRV:
++	case AuWbrCreate_MFSRR:
++	case AuWbrCreate_TDMFS:
++	case AuWbrCreate_TDMFSV:
++	case AuWbrCreate_PMFSRR:
++	case AuWbrCreate_PMFSRRV:
++		sbinfo->si_wbr_mfs.mfsrr_watermark = create->mfsrr_watermark;
++		/*FALLTHROUGH*/
++	case AuWbrCreate_MFS:
++	case AuWbrCreate_MFSV:
++	case AuWbrCreate_PMFS:
++	case AuWbrCreate_PMFSV:
++		sbinfo->si_wbr_mfs.mfs_expire
++			= msecs_to_jiffies(create->mfs_second * MSEC_PER_SEC);
++		break;
++	}
++
++	if (sbinfo->si_wbr_create_ops->init)
++		sbinfo->si_wbr_create_ops->init(sb); /* ignore */
++
++	return err;
++}
++
++/*
++ * returns,
++ * plus: processed without an error
++ * zero: unprocessed
++ */
++static int au_opt_simple(struct super_block *sb, struct au_opt *opt,
++			 struct au_opts *opts)
++{
++	int err;
++	struct au_sbinfo *sbinfo;
++
++	SiMustWriteLock(sb);
++
++	err = 1; /* handled */
++	sbinfo = au_sbi(sb);
++	switch (opt->type) {
++	case Opt_udba:
++		sbinfo->si_mntflags &= ~AuOptMask_UDBA;
++		sbinfo->si_mntflags |= opt->udba;
++		opts->given_udba |= opt->udba;
++		break;
++
++	case Opt_plink:
++		au_opt_set(sbinfo->si_mntflags, PLINK);
++		break;
++	case Opt_noplink:
++		if (au_opt_test(sbinfo->si_mntflags, PLINK))
++			au_plink_put(sb, /*verbose*/1);
++		au_opt_clr(sbinfo->si_mntflags, PLINK);
++		break;
++	case Opt_list_plink:
++		if (au_opt_test(sbinfo->si_mntflags, PLINK))
++			au_plink_list(sb);
++		break;
++
++	case Opt_dio:
++		au_opt_set(sbinfo->si_mntflags, DIO);
++		au_fset_opts(opts->flags, REFRESH_DYAOP);
++		break;
++	case Opt_nodio:
++		au_opt_clr(sbinfo->si_mntflags, DIO);
++		au_fset_opts(opts->flags, REFRESH_DYAOP);
++		break;
++
++	case Opt_fhsm_sec:
++		au_fhsm_set(sbinfo, opt->fhsm_second);
++		break;
++
++	case Opt_diropq_a:
++		au_opt_set(sbinfo->si_mntflags, ALWAYS_DIROPQ);
++		break;
++	case Opt_diropq_w:
++		au_opt_clr(sbinfo->si_mntflags, ALWAYS_DIROPQ);
++		break;
++
++	case Opt_warn_perm:
++		au_opt_set(sbinfo->si_mntflags, WARN_PERM);
++		break;
++	case Opt_nowarn_perm:
++		au_opt_clr(sbinfo->si_mntflags, WARN_PERM);
++		break;
++
++	case Opt_verbose:
++		au_opt_set(sbinfo->si_mntflags, VERBOSE);
++		break;
++	case Opt_noverbose:
++		au_opt_clr(sbinfo->si_mntflags, VERBOSE);
++		break;
++
++	case Opt_sum:
++		au_opt_set(sbinfo->si_mntflags, SUM);
++		break;
++	case Opt_wsum:
++		au_opt_clr(sbinfo->si_mntflags, SUM);
++		au_opt_set(sbinfo->si_mntflags, SUM_W);
++	case Opt_nosum:
++		au_opt_clr(sbinfo->si_mntflags, SUM);
++		au_opt_clr(sbinfo->si_mntflags, SUM_W);
++		break;
++
++	case Opt_wbr_create:
++		err = au_opt_wbr_create(sb, &opt->wbr_create);
++		break;
++	case Opt_wbr_copyup:
++		sbinfo->si_wbr_copyup = opt->wbr_copyup;
++		sbinfo->si_wbr_copyup_ops = au_wbr_copyup_ops + opt->wbr_copyup;
++		break;
++
++	case Opt_dirwh:
++		sbinfo->si_dirwh = opt->dirwh;
++		break;
++
++	case Opt_rdcache:
++		sbinfo->si_rdcache
++			= msecs_to_jiffies(opt->rdcache * MSEC_PER_SEC);
++		break;
++	case Opt_rdblk:
++		sbinfo->si_rdblk = opt->rdblk;
++		break;
++	case Opt_rdblk_def:
++		sbinfo->si_rdblk = AUFS_RDBLK_DEF;
++		break;
++	case Opt_rdhash:
++		sbinfo->si_rdhash = opt->rdhash;
++		break;
++	case Opt_rdhash_def:
++		sbinfo->si_rdhash = AUFS_RDHASH_DEF;
++		break;
++
++	case Opt_shwh:
++		au_opt_set(sbinfo->si_mntflags, SHWH);
++		break;
++	case Opt_noshwh:
++		au_opt_clr(sbinfo->si_mntflags, SHWH);
++		break;
++
++	case Opt_dirperm1:
++		au_opt_set(sbinfo->si_mntflags, DIRPERM1);
++		break;
++	case Opt_nodirperm1:
++		au_opt_clr(sbinfo->si_mntflags, DIRPERM1);
++		break;
++
++	case Opt_trunc_xino:
++		au_opt_set(sbinfo->si_mntflags, TRUNC_XINO);
++		break;
++	case Opt_notrunc_xino:
++		au_opt_clr(sbinfo->si_mntflags, TRUNC_XINO);
++		break;
++
++	case Opt_trunc_xino_path:
++	case Opt_itrunc_xino:
++		err = au_xino_trunc(sb, opt->xino_itrunc.bindex);
++		if (!err)
++			err = 1;
++		break;
++
++	case Opt_trunc_xib:
++		au_fset_opts(opts->flags, TRUNC_XIB);
++		break;
++	case Opt_notrunc_xib:
++		au_fclr_opts(opts->flags, TRUNC_XIB);
++		break;
++
++	case Opt_acl:
++		sb->s_flags |= MS_POSIXACL;
++		break;
++	case Opt_noacl:
++		sb->s_flags &= ~MS_POSIXACL;
++		break;
++
++	default:
++		err = 0;
++		break;
++	}
++
++	return err;
++}
++
++/*
++ * returns tri-state.
++ * plus: processed without an error
++ * zero: unprocessed
++ * minus: error
++ */
++static int au_opt_br(struct super_block *sb, struct au_opt *opt,
++		     struct au_opts *opts)
++{
++	int err, do_refresh;
++
++	err = 0;
++	switch (opt->type) {
++	case Opt_append:
++		opt->add.bindex = au_sbbot(sb) + 1;
++		if (opt->add.bindex < 0)
++			opt->add.bindex = 0;
++		goto add;
++	case Opt_prepend:
++		opt->add.bindex = 0;
++	add: /* indented label */
++	case Opt_add:
++		err = au_br_add(sb, &opt->add,
++				au_ftest_opts(opts->flags, REMOUNT));
++		if (!err) {
++			err = 1;
++			au_fset_opts(opts->flags, REFRESH);
++		}
++		break;
++
++	case Opt_del:
++	case Opt_idel:
++		err = au_br_del(sb, &opt->del,
++				au_ftest_opts(opts->flags, REMOUNT));
++		if (!err) {
++			err = 1;
++			au_fset_opts(opts->flags, TRUNC_XIB);
++			au_fset_opts(opts->flags, REFRESH);
++		}
++		break;
++
++	case Opt_mod:
++	case Opt_imod:
++		err = au_br_mod(sb, &opt->mod,
++				au_ftest_opts(opts->flags, REMOUNT),
++				&do_refresh);
++		if (!err) {
++			err = 1;
++			if (do_refresh)
++				au_fset_opts(opts->flags, REFRESH);
++		}
++		break;
++	}
++	return err;
++}
++
++static int au_opt_xino(struct super_block *sb, struct au_opt *opt,
++		       struct au_opt_xino **opt_xino,
++		       struct au_opts *opts)
++{
++	int err;
++	aufs_bindex_t bbot, bindex;
++	struct dentry *root, *parent, *h_root;
++
++	err = 0;
++	switch (opt->type) {
++	case Opt_xino:
++		err = au_xino_set(sb, &opt->xino,
++				  !!au_ftest_opts(opts->flags, REMOUNT));
++		if (unlikely(err))
++			break;
++
++		*opt_xino = &opt->xino;
++		au_xino_brid_set(sb, -1);
++
++		/* safe d_parent access */
++		parent = opt->xino.file->f_path.dentry->d_parent;
++		root = sb->s_root;
++		bbot = au_sbbot(sb);
++		for (bindex = 0; bindex <= bbot; bindex++) {
++			h_root = au_h_dptr(root, bindex);
++			if (h_root == parent) {
++				au_xino_brid_set(sb, au_sbr_id(sb, bindex));
++				break;
++			}
++		}
++		break;
++
++	case Opt_noxino:
++		au_xino_clr(sb);
++		au_xino_brid_set(sb, -1);
++		*opt_xino = (void *)-1;
++		break;
++	}
++
++	return err;
++}
++
++int au_opts_verify(struct super_block *sb, unsigned long sb_flags,
++		   unsigned int pending)
++{
++	int err, fhsm;
++	aufs_bindex_t bindex, bbot;
++	unsigned char do_plink, skip, do_free, can_no_dreval;
++	struct au_branch *br;
++	struct au_wbr *wbr;
++	struct dentry *root, *dentry;
++	struct inode *dir, *h_dir;
++	struct au_sbinfo *sbinfo;
++	struct au_hinode *hdir;
++
++	SiMustAnyLock(sb);
++
++	sbinfo = au_sbi(sb);
++	AuDebugOn(!(sbinfo->si_mntflags & AuOptMask_UDBA));
++
++	if (!(sb_flags & MS_RDONLY)) {
++		if (unlikely(!au_br_writable(au_sbr_perm(sb, 0))))
++			pr_warn("first branch should be rw\n");
++		if (unlikely(au_opt_test(sbinfo->si_mntflags, SHWH)))
++			pr_warn_once("shwh should be used with ro\n");
++	}
++
++	if (au_opt_test((sbinfo->si_mntflags | pending), UDBA_HNOTIFY)
++	    && !au_opt_test(sbinfo->si_mntflags, XINO))
++		pr_warn_once("udba=*notify requires xino\n");
++
++	if (au_opt_test(sbinfo->si_mntflags, DIRPERM1))
++		pr_warn_once("dirperm1 breaks the protection"
++			     " by the permission bits on the lower branch\n");
++
++	err = 0;
++	fhsm = 0;
++	root = sb->s_root;
++	dir = d_inode(root);
++	do_plink = !!au_opt_test(sbinfo->si_mntflags, PLINK);
++	can_no_dreval = !!au_opt_test((sbinfo->si_mntflags | pending),
++				      UDBA_NONE);
++	bbot = au_sbbot(sb);
++	for (bindex = 0; !err && bindex <= bbot; bindex++) {
++		skip = 0;
++		h_dir = au_h_iptr(dir, bindex);
++		br = au_sbr(sb, bindex);
++
++		if ((br->br_perm & AuBrAttr_ICEX)
++		    && !h_dir->i_op->listxattr)
++			br->br_perm &= ~AuBrAttr_ICEX;
++#if 0
++		if ((br->br_perm & AuBrAttr_ICEX_SEC)
++		    && (au_br_sb(br)->s_flags & MS_NOSEC))
++			br->br_perm &= ~AuBrAttr_ICEX_SEC;
++#endif
++
++		do_free = 0;
++		wbr = br->br_wbr;
++		if (wbr)
++			wbr_wh_read_lock(wbr);
++
++		if (!au_br_writable(br->br_perm)) {
++			do_free = !!wbr;
++			skip = (!wbr
++				|| (!wbr->wbr_whbase
++				    && !wbr->wbr_plink
++				    && !wbr->wbr_orph));
++		} else if (!au_br_wh_linkable(br->br_perm)) {
++			/* skip = (!br->br_whbase && !br->br_orph); */
++			skip = (!wbr || !wbr->wbr_whbase);
++			if (skip && wbr) {
++				if (do_plink)
++					skip = !!wbr->wbr_plink;
++				else
++					skip = !wbr->wbr_plink;
++			}
++		} else {
++			/* skip = (br->br_whbase && br->br_ohph); */
++			skip = (wbr && wbr->wbr_whbase);
++			if (skip) {
++				if (do_plink)
++					skip = !!wbr->wbr_plink;
++				else
++					skip = !wbr->wbr_plink;
++			}
++		}
++		if (wbr)
++			wbr_wh_read_unlock(wbr);
++
++		if (can_no_dreval) {
++			dentry = br->br_path.dentry;
++			spin_lock(&dentry->d_lock);
++			if (dentry->d_flags &
++			    (DCACHE_OP_REVALIDATE | DCACHE_OP_WEAK_REVALIDATE))
++				can_no_dreval = 0;
++			spin_unlock(&dentry->d_lock);
++		}
++
++		if (au_br_fhsm(br->br_perm)) {
++			fhsm++;
++			AuDebugOn(!br->br_fhsm);
++		}
++
++		if (skip)
++			continue;
++
++		hdir = au_hi(dir, bindex);
++		au_hn_inode_lock_nested(hdir, AuLsc_I_PARENT);
++		if (wbr)
++			wbr_wh_write_lock(wbr);
++		err = au_wh_init(br, sb);
++		if (wbr)
++			wbr_wh_write_unlock(wbr);
++		au_hn_inode_unlock(hdir);
++
++		if (!err && do_free) {
++			kfree(wbr);
++			br->br_wbr = NULL;
++		}
++	}
++
++	if (can_no_dreval)
++		au_fset_si(sbinfo, NO_DREVAL);
++	else
++		au_fclr_si(sbinfo, NO_DREVAL);
++
++	if (fhsm >= 2) {
++		au_fset_si(sbinfo, FHSM);
++		for (bindex = bbot; bindex >= 0; bindex--) {
++			br = au_sbr(sb, bindex);
++			if (au_br_fhsm(br->br_perm)) {
++				au_fhsm_set_bottom(sb, bindex);
++				break;
++			}
++		}
++	} else {
++		au_fclr_si(sbinfo, FHSM);
++		au_fhsm_set_bottom(sb, -1);
++	}
++
++	return err;
++}
++
++int au_opts_mount(struct super_block *sb, struct au_opts *opts)
++{
++	int err;
++	unsigned int tmp;
++	aufs_bindex_t bindex, bbot;
++	struct au_opt *opt;
++	struct au_opt_xino *opt_xino, xino;
++	struct au_sbinfo *sbinfo;
++	struct au_branch *br;
++	struct inode *dir;
++
++	SiMustWriteLock(sb);
++
++	err = 0;
++	opt_xino = NULL;
++	opt = opts->opt;
++	while (err >= 0 && opt->type != Opt_tail)
++		err = au_opt_simple(sb, opt++, opts);
++	if (err > 0)
++		err = 0;
++	else if (unlikely(err < 0))
++		goto out;
++
++	/* disable xino and udba temporary */
++	sbinfo = au_sbi(sb);
++	tmp = sbinfo->si_mntflags;
++	au_opt_clr(sbinfo->si_mntflags, XINO);
++	au_opt_set_udba(sbinfo->si_mntflags, UDBA_REVAL);
++
++	opt = opts->opt;
++	while (err >= 0 && opt->type != Opt_tail)
++		err = au_opt_br(sb, opt++, opts);
++	if (err > 0)
++		err = 0;
++	else if (unlikely(err < 0))
++		goto out;
++
++	bbot = au_sbbot(sb);
++	if (unlikely(bbot < 0)) {
++		err = -EINVAL;
++		pr_err("no branches\n");
++		goto out;
++	}
++
++	if (au_opt_test(tmp, XINO))
++		au_opt_set(sbinfo->si_mntflags, XINO);
++	opt = opts->opt;
++	while (!err && opt->type != Opt_tail)
++		err = au_opt_xino(sb, opt++, &opt_xino, opts);
++	if (unlikely(err))
++		goto out;
++
++	err = au_opts_verify(sb, sb->s_flags, tmp);
++	if (unlikely(err))
++		goto out;
++
++	/* restore xino */
++	if (au_opt_test(tmp, XINO) && !opt_xino) {
++		xino.file = au_xino_def(sb);
++		err = PTR_ERR(xino.file);
++		if (IS_ERR(xino.file))
++			goto out;
++
++		err = au_xino_set(sb, &xino, /*remount*/0);
++		fput(xino.file);
++		if (unlikely(err))
++			goto out;
++	}
++
++	/* restore udba */
++	tmp &= AuOptMask_UDBA;
++	sbinfo->si_mntflags &= ~AuOptMask_UDBA;
++	sbinfo->si_mntflags |= tmp;
++	bbot = au_sbbot(sb);
++	for (bindex = 0; bindex <= bbot; bindex++) {
++		br = au_sbr(sb, bindex);
++		err = au_hnotify_reset_br(tmp, br, br->br_perm);
++		if (unlikely(err))
++			AuIOErr("hnotify failed on br %d, %d, ignored\n",
++				bindex, err);
++		/* go on even if err */
++	}
++	if (au_opt_test(tmp, UDBA_HNOTIFY)) {
++		dir = d_inode(sb->s_root);
++		au_hn_reset(dir, au_hi_flags(dir, /*isdir*/1) & ~AuHi_XINO);
++	}
++
++out:
++	return err;
++}
++
++int au_opts_remount(struct super_block *sb, struct au_opts *opts)
++{
++	int err, rerr;
++	unsigned char no_dreval;
++	struct inode *dir;
++	struct au_opt_xino *opt_xino;
++	struct au_opt *opt;
++	struct au_sbinfo *sbinfo;
++
++	SiMustWriteLock(sb);
++
++	err = 0;
++	dir = d_inode(sb->s_root);
++	sbinfo = au_sbi(sb);
++	opt_xino = NULL;
++	opt = opts->opt;
++	while (err >= 0 && opt->type != Opt_tail) {
++		err = au_opt_simple(sb, opt, opts);
++		if (!err)
++			err = au_opt_br(sb, opt, opts);
++		if (!err)
++			err = au_opt_xino(sb, opt, &opt_xino, opts);
++		opt++;
++	}
++	if (err > 0)
++		err = 0;
++	AuTraceErr(err);
++	/* go on even err */
++
++	no_dreval = !!au_ftest_si(sbinfo, NO_DREVAL);
++	rerr = au_opts_verify(sb, opts->sb_flags, /*pending*/0);
++	if (unlikely(rerr && !err))
++		err = rerr;
++
++	if (no_dreval != !!au_ftest_si(sbinfo, NO_DREVAL))
++		au_fset_opts(opts->flags, REFRESH_IDOP);
++
++	if (au_ftest_opts(opts->flags, TRUNC_XIB)) {
++		rerr = au_xib_trunc(sb);
++		if (unlikely(rerr && !err))
++			err = rerr;
++	}
++
++	/* will be handled by the caller */
++	if (!au_ftest_opts(opts->flags, REFRESH)
++	    && (opts->given_udba
++		|| au_opt_test(sbinfo->si_mntflags, XINO)
++		|| au_ftest_opts(opts->flags, REFRESH_IDOP)
++		    ))
++		au_fset_opts(opts->flags, REFRESH);
++
++	AuDbg("status 0x%x\n", opts->flags);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++unsigned int au_opt_udba(struct super_block *sb)
++{
++	return au_mntflags(sb) & AuOptMask_UDBA;
++}
+diff --git a/fs/aufs/opts.h b/fs/aufs/opts.h
+new file mode 100755
+index 0000000..c156995
+--- /dev/null
++++ b/fs/aufs/opts.h
+@@ -0,0 +1,213 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * mount options/flags
++ */
++
++#ifndef __AUFS_OPTS_H__
++#define __AUFS_OPTS_H__
++
++#ifdef __KERNEL__
++
++#include <linux/path.h>
++
++struct file;
++
++/* ---------------------------------------------------------------------- */
++
++/* mount flags */
++#define AuOpt_XINO		1		/* external inode number bitmap
++						   and translation table */
++#define AuOpt_TRUNC_XINO	(1 << 1)	/* truncate xino files */
++#define AuOpt_UDBA_NONE		(1 << 2)	/* users direct branch access */
++#define AuOpt_UDBA_REVAL	(1 << 3)
++#define AuOpt_UDBA_HNOTIFY	(1 << 4)
++#define AuOpt_SHWH		(1 << 5)	/* show whiteout */
++#define AuOpt_PLINK		(1 << 6)	/* pseudo-link */
++#define AuOpt_DIRPERM1		(1 << 7)	/* ignore the lower dir's perm
++						   bits */
++#define AuOpt_ALWAYS_DIROPQ	(1 << 9)	/* policy to creating diropq */
++#define AuOpt_SUM		(1 << 10)	/* summation for statfs(2) */
++#define AuOpt_SUM_W		(1 << 11)	/* unimplemented */
++#define AuOpt_WARN_PERM		(1 << 12)	/* warn when add-branch */
++#define AuOpt_VERBOSE		(1 << 13)	/* busy inode when del-branch */
++#define AuOpt_DIO		(1 << 14)	/* direct io */
++
++#ifndef CONFIG_AUFS_HNOTIFY
++#undef AuOpt_UDBA_HNOTIFY
++#define AuOpt_UDBA_HNOTIFY	0
++#endif
++#ifndef CONFIG_AUFS_SHWH
++#undef AuOpt_SHWH
++#define AuOpt_SHWH		0
++#endif
++
++#define AuOpt_Def	(AuOpt_XINO \
++			 | AuOpt_UDBA_REVAL \
++			 | AuOpt_PLINK \
++			 /* | AuOpt_DIRPERM1 */ \
++			 | AuOpt_WARN_PERM)
++#define AuOptMask_UDBA	(AuOpt_UDBA_NONE \
++			 | AuOpt_UDBA_REVAL \
++			 | AuOpt_UDBA_HNOTIFY)
++
++#define au_opt_test(flags, name)	(flags & AuOpt_##name)
++#define au_opt_set(flags, name) do { \
++	BUILD_BUG_ON(AuOpt_##name & AuOptMask_UDBA); \
++	((flags) |= AuOpt_##name); \
++} while (0)
++#define au_opt_set_udba(flags, name) do { \
++	(flags) &= ~AuOptMask_UDBA; \
++	((flags) |= AuOpt_##name); \
++} while (0)
++#define au_opt_clr(flags, name) do { \
++	((flags) &= ~AuOpt_##name); \
++} while (0)
++
++static inline unsigned int au_opts_plink(unsigned int mntflags)
++{
++#ifdef CONFIG_PROC_FS
++	return mntflags;
++#else
++	return mntflags & ~AuOpt_PLINK;
++#endif
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* policies to select one among multiple writable branches */
++enum {
++	AuWbrCreate_TDP,	/* top down parent */
++	AuWbrCreate_RR,		/* round robin */
++	AuWbrCreate_MFS,	/* most free space */
++	AuWbrCreate_MFSV,	/* mfs with seconds */
++	AuWbrCreate_MFSRR,	/* mfs then rr */
++	AuWbrCreate_MFSRRV,	/* mfs then rr with seconds */
++	AuWbrCreate_TDMFS,	/* top down regardless parent and mfs */
++	AuWbrCreate_TDMFSV,	/* top down regardless parent and mfs */
++	AuWbrCreate_PMFS,	/* parent and mfs */
++	AuWbrCreate_PMFSV,	/* parent and mfs with seconds */
++	AuWbrCreate_PMFSRR,	/* parent, mfs and round-robin */
++	AuWbrCreate_PMFSRRV,	/* plus seconds */
++
++	AuWbrCreate_Def = AuWbrCreate_TDP
++};
++
++enum {
++	AuWbrCopyup_TDP,	/* top down parent */
++	AuWbrCopyup_BUP,	/* bottom up parent */
++	AuWbrCopyup_BU,		/* bottom up */
++
++	AuWbrCopyup_Def = AuWbrCopyup_TDP
++};
++
++/* ---------------------------------------------------------------------- */
++
++struct au_opt_add {
++	aufs_bindex_t	bindex;
++	char		*pathname;
++	int		perm;
++	struct path	path;
++};
++
++struct au_opt_del {
++	char		*pathname;
++	struct path	h_path;
++};
++
++struct au_opt_mod {
++	char		*path;
++	int		perm;
++	struct dentry	*h_root;
++};
++
++struct au_opt_xino {
++	char		*path;
++	struct file	*file;
++};
++
++struct au_opt_xino_itrunc {
++	aufs_bindex_t	bindex;
++};
++
++struct au_opt_wbr_create {
++	int			wbr_create;
++	int			mfs_second;
++	unsigned long long	mfsrr_watermark;
++};
++
++struct au_opt {
++	int type;
++	union {
++		struct au_opt_xino	xino;
++		struct au_opt_xino_itrunc xino_itrunc;
++		struct au_opt_add	add;
++		struct au_opt_del	del;
++		struct au_opt_mod	mod;
++		int			dirwh;
++		int			rdcache;
++		unsigned int		rdblk;
++		unsigned int		rdhash;
++		int			udba;
++		struct au_opt_wbr_create wbr_create;
++		int			wbr_copyup;
++		unsigned int		fhsm_second;
++	};
++};
++
++/* opts flags */
++#define AuOpts_REMOUNT		1
++#define AuOpts_REFRESH		(1 << 1)
++#define AuOpts_TRUNC_XIB	(1 << 2)
++#define AuOpts_REFRESH_DYAOP	(1 << 3)
++#define AuOpts_REFRESH_IDOP	(1 << 4)
++#define au_ftest_opts(flags, name)	((flags) & AuOpts_##name)
++#define au_fset_opts(flags, name) \
++	do { (flags) |= AuOpts_##name; } while (0)
++#define au_fclr_opts(flags, name) \
++	do { (flags) &= ~AuOpts_##name; } while (0)
++
++struct au_opts {
++	struct au_opt	*opt;
++	int		max_opt;
++
++	unsigned int	given_udba;
++	unsigned int	flags;
++	unsigned long	sb_flags;
++};
++
++/* ---------------------------------------------------------------------- */
++
++/* opts.c */
++void au_optstr_br_perm(au_br_perm_str_t *str, int perm);
++const char *au_optstr_udba(int udba);
++const char *au_optstr_wbr_copyup(int wbr_copyup);
++const char *au_optstr_wbr_create(int wbr_create);
++
++void au_opts_free(struct au_opts *opts);
++struct super_block;
++int au_opts_parse(struct super_block *sb, char *str, struct au_opts *opts);
++int au_opts_verify(struct super_block *sb, unsigned long sb_flags,
++		   unsigned int pending);
++int au_opts_mount(struct super_block *sb, struct au_opts *opts);
++int au_opts_remount(struct super_block *sb, struct au_opts *opts);
++
++unsigned int au_opt_udba(struct super_block *sb);
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_OPTS_H__ */
+diff --git a/fs/aufs/plink.c b/fs/aufs/plink.c
+new file mode 100755
+index 0000000..5fde521
+--- /dev/null
++++ b/fs/aufs/plink.c
+@@ -0,0 +1,514 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * pseudo-link
++ */
++
++#include "aufs.h"
++
++/*
++ * the pseudo-link maintenance mode.
++ * during a user process maintains the pseudo-links,
++ * prohibit adding a new plink and branch manipulation.
++ *
++ * Flags
++ * NOPLM:
++ *	For entry functions which will handle plink, and i_mutex is already held
++ *	in VFS.
++ *	They cannot wait and should return an error at once.
++ *	Callers has to check the error.
++ * NOPLMW:
++ *	For entry functions which will handle plink, but i_mutex is not held
++ *	in VFS.
++ *	They can wait the plink maintenance mode to finish.
++ *
++ * They behave like F_SETLK and F_SETLKW.
++ * If the caller never handle plink, then both flags are unnecessary.
++ */
++
++int au_plink_maint(struct super_block *sb, int flags)
++{
++	int err;
++	pid_t pid, ppid;
++	struct task_struct *parent, *prev;
++	struct au_sbinfo *sbi;
++
++	SiMustAnyLock(sb);
++
++	err = 0;
++	if (!au_opt_test(au_mntflags(sb), PLINK))
++		goto out;
++
++	sbi = au_sbi(sb);
++	pid = sbi->si_plink_maint_pid;
++	if (!pid || pid == current->pid)
++		goto out;
++
++	/* todo: it highly depends upon /sbin/mount.aufs */
++	prev = NULL;
++	parent = current;
++	ppid = 0;
++	rcu_read_lock();
++	while (1) {
++		parent = rcu_dereference(parent->real_parent);
++		if (parent == prev)
++			break;
++		ppid = task_pid_vnr(parent);
++		if (pid == ppid) {
++			rcu_read_unlock();
++			goto out;
++		}
++		prev = parent;
++	}
++	rcu_read_unlock();
++
++	if (au_ftest_lock(flags, NOPLMW)) {
++		/* if there is no i_mutex lock in VFS, we don't need to wait */
++		/* AuDebugOn(!lockdep_depth(current)); */
++		while (sbi->si_plink_maint_pid) {
++			si_read_unlock(sb);
++			/* gave up wake_up_bit() */
++			wait_event(sbi->si_plink_wq, !sbi->si_plink_maint_pid);
++
++			if (au_ftest_lock(flags, FLUSH))
++				au_nwt_flush(&sbi->si_nowait);
++			si_noflush_read_lock(sb);
++		}
++	} else if (au_ftest_lock(flags, NOPLM)) {
++		AuDbg("ppid %d, pid %d\n", ppid, pid);
++		err = -EAGAIN;
++	}
++
++out:
++	return err;
++}
++
++void au_plink_maint_leave(struct au_sbinfo *sbinfo)
++{
++	spin_lock(&sbinfo->si_plink_maint_lock);
++	sbinfo->si_plink_maint_pid = 0;
++	spin_unlock(&sbinfo->si_plink_maint_lock);
++	wake_up_all(&sbinfo->si_plink_wq);
++}
++
++int au_plink_maint_enter(struct super_block *sb)
++{
++	int err;
++	struct au_sbinfo *sbinfo;
++
++	err = 0;
++	sbinfo = au_sbi(sb);
++	/* make sure i am the only one in this fs */
++	si_write_lock(sb, AuLock_FLUSH);
++	if (au_opt_test(au_mntflags(sb), PLINK)) {
++		spin_lock(&sbinfo->si_plink_maint_lock);
++		if (!sbinfo->si_plink_maint_pid)
++			sbinfo->si_plink_maint_pid = current->pid;
++		else
++			err = -EBUSY;
++		spin_unlock(&sbinfo->si_plink_maint_lock);
++	}
++	si_write_unlock(sb);
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++#ifdef CONFIG_AUFS_DEBUG
++void au_plink_list(struct super_block *sb)
++{
++	int i;
++	struct au_sbinfo *sbinfo;
++	struct hlist_head *plink_hlist;
++	struct au_icntnr *icntnr;
++
++	SiMustAnyLock(sb);
++
++	sbinfo = au_sbi(sb);
++	AuDebugOn(!au_opt_test(au_mntflags(sb), PLINK));
++	AuDebugOn(au_plink_maint(sb, AuLock_NOPLM));
++
++	for (i = 0; i < AuPlink_NHASH; i++) {
++		plink_hlist = &sbinfo->si_plink[i].head;
++		rcu_read_lock();
++		hlist_for_each_entry_rcu(icntnr, plink_hlist, plink)
++			AuDbg("%lu\n", icntnr->vfs_inode.i_ino);
++		rcu_read_unlock();
++	}
++}
++#endif
++
++/* is the inode pseudo-linked? */
++int au_plink_test(struct inode *inode)
++{
++	int found, i;
++	struct au_sbinfo *sbinfo;
++	struct hlist_head *plink_hlist;
++	struct au_icntnr *icntnr;
++
++	sbinfo = au_sbi(inode->i_sb);
++	AuRwMustAnyLock(&sbinfo->si_rwsem);
++	AuDebugOn(!au_opt_test(au_mntflags(inode->i_sb), PLINK));
++	AuDebugOn(au_plink_maint(inode->i_sb, AuLock_NOPLM));
++
++	found = 0;
++	i = au_plink_hash(inode->i_ino);
++	plink_hlist = &sbinfo->si_plink[i].head;
++	rcu_read_lock();
++	hlist_for_each_entry_rcu(icntnr, plink_hlist, plink)
++		if (&icntnr->vfs_inode == inode) {
++			found = 1;
++			break;
++		}
++	rcu_read_unlock();
++	return found;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * generate a name for plink.
++ * the file will be stored under AUFS_WH_PLINKDIR.
++ */
++/* 20 is max digits length of ulong 64 */
++#define PLINK_NAME_LEN	((20 + 1) * 2)
++
++static int plink_name(char *name, int len, struct inode *inode,
++		      aufs_bindex_t bindex)
++{
++	int rlen;
++	struct inode *h_inode;
++
++	h_inode = au_h_iptr(inode, bindex);
++	rlen = snprintf(name, len, "%lu.%lu", inode->i_ino, h_inode->i_ino);
++	return rlen;
++}
++
++struct au_do_plink_lkup_args {
++	struct dentry **errp;
++	struct qstr *tgtname;
++	struct dentry *h_parent;
++	struct au_branch *br;
++};
++
++static struct dentry *au_do_plink_lkup(struct qstr *tgtname,
++				       struct dentry *h_parent,
++				       struct au_branch *br)
++{
++	struct dentry *h_dentry;
++	struct inode *h_inode;
++
++	h_inode = d_inode(h_parent);
++	vfsub_inode_lock_shared_nested(h_inode, AuLsc_I_CHILD2);
++	h_dentry = vfsub_lkup_one(tgtname, h_parent);
++	inode_unlock_shared(h_inode);
++	return h_dentry;
++}
++
++static void au_call_do_plink_lkup(void *args)
++{
++	struct au_do_plink_lkup_args *a = args;
++	*a->errp = au_do_plink_lkup(a->tgtname, a->h_parent, a->br);
++}
++
++/* lookup the plink-ed @inode under the branch at @bindex */
++struct dentry *au_plink_lkup(struct inode *inode, aufs_bindex_t bindex)
++{
++	struct dentry *h_dentry, *h_parent;
++	struct au_branch *br;
++	int wkq_err;
++	char a[PLINK_NAME_LEN];
++	struct qstr tgtname = QSTR_INIT(a, 0);
++
++	AuDebugOn(au_plink_maint(inode->i_sb, AuLock_NOPLM));
++
++	br = au_sbr(inode->i_sb, bindex);
++	h_parent = br->br_wbr->wbr_plink;
++	tgtname.len = plink_name(a, sizeof(a), inode, bindex);
++
++	if (!uid_eq(current_fsuid(), GLOBAL_ROOT_UID)) {
++		struct au_do_plink_lkup_args args = {
++			.errp		= &h_dentry,
++			.tgtname	= &tgtname,
++			.h_parent	= h_parent,
++			.br		= br
++		};
++
++		wkq_err = au_wkq_wait(au_call_do_plink_lkup, &args);
++		if (unlikely(wkq_err))
++			h_dentry = ERR_PTR(wkq_err);
++	} else
++		h_dentry = au_do_plink_lkup(&tgtname, h_parent, br);
++
++	return h_dentry;
++}
++
++/* create a pseudo-link */
++static int do_whplink(struct qstr *tgt, struct dentry *h_parent,
++		      struct dentry *h_dentry, struct au_branch *br)
++{
++	int err;
++	struct path h_path = {
++		.mnt = au_br_mnt(br)
++	};
++	struct inode *h_dir, *delegated;
++
++	h_dir = d_inode(h_parent);
++	inode_lock_nested(h_dir, AuLsc_I_CHILD2);
++again:
++	h_path.dentry = vfsub_lkup_one(tgt, h_parent);
++	err = PTR_ERR(h_path.dentry);
++	if (IS_ERR(h_path.dentry))
++		goto out;
++
++	err = 0;
++	/* wh.plink dir is not monitored */
++	/* todo: is it really safe? */
++	if (d_is_positive(h_path.dentry)
++	    && d_inode(h_path.dentry) != d_inode(h_dentry)) {
++		delegated = NULL;
++		err = vfsub_unlink(h_dir, &h_path, &delegated, /*force*/0);
++		if (unlikely(err == -EWOULDBLOCK)) {
++			pr_warn("cannot retry for NFSv4 delegation"
++				" for an internal unlink\n");
++			iput(delegated);
++		}
++		dput(h_path.dentry);
++		h_path.dentry = NULL;
++		if (!err)
++			goto again;
++	}
++	if (!err && d_is_negative(h_path.dentry)) {
++		delegated = NULL;
++		err = vfsub_link(h_dentry, h_dir, &h_path, &delegated);
++		if (unlikely(err == -EWOULDBLOCK)) {
++			pr_warn("cannot retry for NFSv4 delegation"
++				" for an internal link\n");
++			iput(delegated);
++		}
++	}
++	dput(h_path.dentry);
++
++out:
++	inode_unlock(h_dir);
++	return err;
++}
++
++struct do_whplink_args {
++	int *errp;
++	struct qstr *tgt;
++	struct dentry *h_parent;
++	struct dentry *h_dentry;
++	struct au_branch *br;
++};
++
++static void call_do_whplink(void *args)
++{
++	struct do_whplink_args *a = args;
++	*a->errp = do_whplink(a->tgt, a->h_parent, a->h_dentry, a->br);
++}
++
++static int whplink(struct dentry *h_dentry, struct inode *inode,
++		   aufs_bindex_t bindex, struct au_branch *br)
++{
++	int err, wkq_err;
++	struct au_wbr *wbr;
++	struct dentry *h_parent;
++	char a[PLINK_NAME_LEN];
++	struct qstr tgtname = QSTR_INIT(a, 0);
++
++	wbr = au_sbr(inode->i_sb, bindex)->br_wbr;
++	h_parent = wbr->wbr_plink;
++	tgtname.len = plink_name(a, sizeof(a), inode, bindex);
++
++	/* always superio. */
++	if (!uid_eq(current_fsuid(), GLOBAL_ROOT_UID)) {
++		struct do_whplink_args args = {
++			.errp		= &err,
++			.tgt		= &tgtname,
++			.h_parent	= h_parent,
++			.h_dentry	= h_dentry,
++			.br		= br
++		};
++		wkq_err = au_wkq_wait(call_do_whplink, &args);
++		if (unlikely(wkq_err))
++			err = wkq_err;
++	} else
++		err = do_whplink(&tgtname, h_parent, h_dentry, br);
++
++	return err;
++}
++
++/*
++ * create a new pseudo-link for @h_dentry on @bindex.
++ * the linked inode is held in aufs @inode.
++ */
++void au_plink_append(struct inode *inode, aufs_bindex_t bindex,
++		     struct dentry *h_dentry)
++{
++	struct super_block *sb;
++	struct au_sbinfo *sbinfo;
++	struct hlist_head *plink_hlist;
++	struct au_icntnr *icntnr;
++	struct au_sphlhead *sphl;
++	int found, err, cnt, i;
++
++	sb = inode->i_sb;
++	sbinfo = au_sbi(sb);
++	AuDebugOn(!au_opt_test(au_mntflags(sb), PLINK));
++	AuDebugOn(au_plink_maint(sb, AuLock_NOPLM));
++
++	found = au_plink_test(inode);
++	if (found)
++		return;
++
++	i = au_plink_hash(inode->i_ino);
++	sphl = sbinfo->si_plink + i;
++	plink_hlist = &sphl->head;
++	au_igrab(inode);
++
++	spin_lock(&sphl->spin);
++	hlist_for_each_entry(icntnr, plink_hlist, plink) {
++		if (&icntnr->vfs_inode == inode) {
++			found = 1;
++			break;
++		}
++	}
++	if (!found) {
++		icntnr = container_of(inode, struct au_icntnr, vfs_inode);
++		hlist_add_head_rcu(&icntnr->plink, plink_hlist);
++	}
++	spin_unlock(&sphl->spin);
++	if (!found) {
++		cnt = au_sphl_count(sphl);
++#define msg "unexpectedly unblanced or too many pseudo-links"
++		if (cnt > AUFS_PLINK_WARN)
++			AuWarn1(msg ", %d\n", cnt);
++#undef msg
++		err = whplink(h_dentry, inode, bindex, au_sbr(sb, bindex));
++		if (unlikely(err)) {
++			pr_warn("err %d, damaged pseudo link.\n", err);
++			au_sphl_del_rcu(&icntnr->plink, sphl);
++			iput(&icntnr->vfs_inode);
++		}
++	} else
++		iput(&icntnr->vfs_inode);
++}
++
++/* free all plinks */
++void au_plink_put(struct super_block *sb, int verbose)
++{
++	int i, warned;
++	struct au_sbinfo *sbinfo;
++	struct hlist_head *plink_hlist;
++	struct hlist_node *tmp;
++	struct au_icntnr *icntnr;
++
++	SiMustWriteLock(sb);
++
++	sbinfo = au_sbi(sb);
++	AuDebugOn(!au_opt_test(au_mntflags(sb), PLINK));
++	AuDebugOn(au_plink_maint(sb, AuLock_NOPLM));
++
++	/* no spin_lock since sbinfo is write-locked */
++	warned = 0;
++	for (i = 0; i < AuPlink_NHASH; i++) {
++		plink_hlist = &sbinfo->si_plink[i].head;
++		if (!warned && verbose && !hlist_empty(plink_hlist)) {
++			pr_warn("pseudo-link is not flushed");
++			warned = 1;
++		}
++		hlist_for_each_entry_safe(icntnr, tmp, plink_hlist, plink)
++			iput(&icntnr->vfs_inode);
++		INIT_HLIST_HEAD(plink_hlist);
++	}
++}
++
++void au_plink_clean(struct super_block *sb, int verbose)
++{
++	struct dentry *root;
++
++	root = sb->s_root;
++	aufs_write_lock(root);
++	if (au_opt_test(au_mntflags(sb), PLINK))
++		au_plink_put(sb, verbose);
++	aufs_write_unlock(root);
++}
++
++static int au_plink_do_half_refresh(struct inode *inode, aufs_bindex_t br_id)
++{
++	int do_put;
++	aufs_bindex_t btop, bbot, bindex;
++
++	do_put = 0;
++	btop = au_ibtop(inode);
++	bbot = au_ibbot(inode);
++	if (btop >= 0) {
++		for (bindex = btop; bindex <= bbot; bindex++) {
++			if (!au_h_iptr(inode, bindex)
++			    || au_ii_br_id(inode, bindex) != br_id)
++				continue;
++			au_set_h_iptr(inode, bindex, NULL, 0);
++			do_put = 1;
++			break;
++		}
++		if (do_put)
++			for (bindex = btop; bindex <= bbot; bindex++)
++				if (au_h_iptr(inode, bindex)) {
++					do_put = 0;
++					break;
++				}
++	} else
++		do_put = 1;
++
++	return do_put;
++}
++
++/* free the plinks on a branch specified by @br_id */
++void au_plink_half_refresh(struct super_block *sb, aufs_bindex_t br_id)
++{
++	struct au_sbinfo *sbinfo;
++	struct hlist_head *plink_hlist;
++	struct hlist_node *tmp;
++	struct au_icntnr *icntnr;
++	struct inode *inode;
++	int i, do_put;
++
++	SiMustWriteLock(sb);
++
++	sbinfo = au_sbi(sb);
++	AuDebugOn(!au_opt_test(au_mntflags(sb), PLINK));
++	AuDebugOn(au_plink_maint(sb, AuLock_NOPLM));
++
++	/* no spin_lock since sbinfo is write-locked */
++	for (i = 0; i < AuPlink_NHASH; i++) {
++		plink_hlist = &sbinfo->si_plink[i].head;
++		hlist_for_each_entry_safe(icntnr, tmp, plink_hlist, plink) {
++			inode = au_igrab(&icntnr->vfs_inode);
++			ii_write_lock_child(inode);
++			do_put = au_plink_do_half_refresh(inode, br_id);
++			if (do_put) {
++				hlist_del(&icntnr->plink);
++				iput(inode);
++			}
++			ii_write_unlock(inode);
++			iput(inode);
++		}
++	}
++}
+diff --git a/fs/aufs/poll.c b/fs/aufs/poll.c
+new file mode 100755
+index 0000000..1aea194
+--- /dev/null
++++ b/fs/aufs/poll.c
+@@ -0,0 +1,52 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * poll operation
++ * There is only one filesystem which implements ->poll operation, currently.
++ */
++
++#include "aufs.h"
++
++unsigned int aufs_poll(struct file *file, poll_table *wait)
++{
++	unsigned int mask;
++	int err;
++	struct file *h_file;
++	struct super_block *sb;
++
++	/* We should pretend an error happened. */
++	mask = POLLERR /* | POLLIN | POLLOUT */;
++	sb = file->f_path.dentry->d_sb;
++	si_read_lock(sb, AuLock_FLUSH | AuLock_NOPLMW);
++
++	h_file = au_read_pre(file, /*keep_fi*/0, /*lsc*/0);
++	err = PTR_ERR(h_file);
++	if (IS_ERR(h_file))
++		goto out;
++
++	/* it is not an error if h_file has no operation */
++	mask = DEFAULT_POLLMASK;
++	if (h_file->f_op->poll)
++		mask = h_file->f_op->poll(h_file, wait);
++	fput(h_file); /* instead of au_read_post() */
++
++out:
++	si_read_unlock(sb);
++	AuTraceErr((int)mask);
++	return mask;
++}
+diff --git a/fs/aufs/posix_acl.c b/fs/aufs/posix_acl.c
+new file mode 100755
+index 0000000..816a47c
+--- /dev/null
++++ b/fs/aufs/posix_acl.c
+@@ -0,0 +1,102 @@
++/*
++ * Copyright (C) 2014-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * posix acl operations
++ */
++
++#include <linux/fs.h>
++#include "aufs.h"
++
++struct posix_acl *aufs_get_acl(struct inode *inode, int type)
++{
++	struct posix_acl *acl;
++	int err;
++	aufs_bindex_t bindex;
++	struct inode *h_inode;
++	struct super_block *sb;
++
++	acl = NULL;
++	sb = inode->i_sb;
++	si_read_lock(sb, AuLock_FLUSH);
++	ii_read_lock_child(inode);
++	if (!(sb->s_flags & MS_POSIXACL))
++		goto out;
++
++	bindex = au_ibtop(inode);
++	h_inode = au_h_iptr(inode, bindex);
++	if (unlikely(!h_inode
++		     || ((h_inode->i_mode & S_IFMT)
++			 != (inode->i_mode & S_IFMT)))) {
++		err = au_busy_or_stale();
++		acl = ERR_PTR(err);
++		goto out;
++	}
++
++	/* always topmost only */
++	acl = get_acl(h_inode, type);
++	if (!IS_ERR_OR_NULL(acl))
++		set_cached_acl(inode, type, acl);
++
++out:
++	ii_read_unlock(inode);
++	si_read_unlock(sb);
++
++	AuTraceErrPtr(acl);
++	return acl;
++}
++
++int aufs_set_acl(struct inode *inode, struct posix_acl *acl, int type)
++{
++	int err;
++	ssize_t ssz;
++	struct dentry *dentry;
++	struct au_sxattr arg = {
++		.type = AU_ACL_SET,
++		.u.acl_set = {
++			.acl	= acl,
++			.type	= type
++		},
++	};
++
++	IMustLock(inode);
++
++	if (inode->i_ino == AUFS_ROOT_INO)
++		dentry = dget(inode->i_sb->s_root);
++	else {
++		dentry = d_find_alias(inode);
++		if (!dentry)
++			dentry = d_find_any_alias(inode);
++		if (!dentry) {
++			pr_warn("cannot handle this inode, "
++				"please report to aufs-users ML\n");
++			err = -ENOENT;
++			goto out;
++		}
++	}
++
++	ssz = au_sxattr(dentry, inode, &arg);
++	dput(dentry);
++	err = ssz;
++	if (ssz >= 0) {
++		err = 0;
++		set_cached_acl(inode, type, acl);
++	}
++
++out:
++	return err;
++}
+diff --git a/fs/aufs/procfs.c b/fs/aufs/procfs.c
+new file mode 100755
+index 0000000..b94c003
+--- /dev/null
++++ b/fs/aufs/procfs.c
+@@ -0,0 +1,169 @@
++/*
++ * Copyright (C) 2010-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * procfs interfaces
++ */
++
++#include <linux/proc_fs.h>
++#include "aufs.h"
++
++static int au_procfs_plm_release(struct inode *inode, struct file *file)
++{
++	struct au_sbinfo *sbinfo;
++
++	sbinfo = file->private_data;
++	if (sbinfo) {
++		au_plink_maint_leave(sbinfo);
++		kobject_put(&sbinfo->si_kobj);
++	}
++
++	return 0;
++}
++
++static void au_procfs_plm_write_clean(struct file *file)
++{
++	struct au_sbinfo *sbinfo;
++
++	sbinfo = file->private_data;
++	if (sbinfo)
++		au_plink_clean(sbinfo->si_sb, /*verbose*/0);
++}
++
++static int au_procfs_plm_write_si(struct file *file, unsigned long id)
++{
++	int err;
++	struct super_block *sb;
++	struct au_sbinfo *sbinfo;
++
++	err = -EBUSY;
++	if (unlikely(file->private_data))
++		goto out;
++
++	sb = NULL;
++	/* don't use au_sbilist_lock() here */
++	spin_lock(&au_sbilist.spin);
++	hlist_for_each_entry(sbinfo, &au_sbilist.head, si_list)
++		if (id == sysaufs_si_id(sbinfo)) {
++			kobject_get(&sbinfo->si_kobj);
++			sb = sbinfo->si_sb;
++			break;
++		}
++	spin_unlock(&au_sbilist.spin);
++
++	err = -EINVAL;
++	if (unlikely(!sb))
++		goto out;
++
++	err = au_plink_maint_enter(sb);
++	if (!err)
++		/* keep kobject_get() */
++		file->private_data = sbinfo;
++	else
++		kobject_put(&sbinfo->si_kobj);
++out:
++	return err;
++}
++
++/*
++ * Accept a valid "si=xxxx" only.
++ * Once it is accepted successfully, accept "clean" too.
++ */
++static ssize_t au_procfs_plm_write(struct file *file, const char __user *ubuf,
++				   size_t count, loff_t *ppos)
++{
++	ssize_t err;
++	unsigned long id;
++	/* last newline is allowed */
++	char buf[3 + sizeof(unsigned long) * 2 + 1];
++
++	err = -EACCES;
++	if (unlikely(!capable(CAP_SYS_ADMIN)))
++		goto out;
++
++	err = -EINVAL;
++	if (unlikely(count > sizeof(buf)))
++		goto out;
++
++	err = copy_from_user(buf, ubuf, count);
++	if (unlikely(err)) {
++		err = -EFAULT;
++		goto out;
++	}
++	buf[count] = 0;
++
++	err = -EINVAL;
++	if (!strcmp("clean", buf)) {
++		au_procfs_plm_write_clean(file);
++		goto out_success;
++	} else if (unlikely(strncmp("si=", buf, 3)))
++		goto out;
++
++	err = kstrtoul(buf + 3, 16, &id);
++	if (unlikely(err))
++		goto out;
++
++	err = au_procfs_plm_write_si(file, id);
++	if (unlikely(err))
++		goto out;
++
++out_success:
++	err = count; /* success */
++out:
++	return err;
++}
++
++static const struct file_operations au_procfs_plm_fop = {
++	.write		= au_procfs_plm_write,
++	.release	= au_procfs_plm_release,
++	.owner		= THIS_MODULE
++};
++
++/* ---------------------------------------------------------------------- */
++
++static struct proc_dir_entry *au_procfs_dir;
++
++void au_procfs_fin(void)
++{
++	remove_proc_entry(AUFS_PLINK_MAINT_NAME, au_procfs_dir);
++	remove_proc_entry(AUFS_PLINK_MAINT_DIR, NULL);
++}
++
++int __init au_procfs_init(void)
++{
++	int err;
++	struct proc_dir_entry *entry;
++
++	err = -ENOMEM;
++	au_procfs_dir = proc_mkdir(AUFS_PLINK_MAINT_DIR, NULL);
++	if (unlikely(!au_procfs_dir))
++		goto out;
++
++	entry = proc_create(AUFS_PLINK_MAINT_NAME, S_IFREG | S_IWUSR,
++			    au_procfs_dir, &au_procfs_plm_fop);
++	if (unlikely(!entry))
++		goto out_dir;
++
++	err = 0;
++	goto out; /* success */
++
++
++out_dir:
++	remove_proc_entry(AUFS_PLINK_MAINT_DIR, NULL);
++out:
++	return err;
++}
+diff --git a/fs/aufs/rdu.c b/fs/aufs/rdu.c
+new file mode 100755
+index 0000000..1f0d8c6
+--- /dev/null
++++ b/fs/aufs/rdu.c
+@@ -0,0 +1,381 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * readdir in userspace.
++ */
++
++#include <linux/compat.h>
++#include <linux/fs_stack.h>
++#include <linux/security.h>
++#include "aufs.h"
++
++/* bits for struct aufs_rdu.flags */
++#define	AuRdu_CALLED	1
++#define	AuRdu_CONT	(1 << 1)
++#define	AuRdu_FULL	(1 << 2)
++#define au_ftest_rdu(flags, name)	((flags) & AuRdu_##name)
++#define au_fset_rdu(flags, name) \
++	do { (flags) |= AuRdu_##name; } while (0)
++#define au_fclr_rdu(flags, name) \
++	do { (flags) &= ~AuRdu_##name; } while (0)
++
++struct au_rdu_arg {
++	struct dir_context		ctx;
++	struct aufs_rdu			*rdu;
++	union au_rdu_ent_ul		ent;
++	unsigned long			end;
++
++	struct super_block		*sb;
++	int				err;
++};
++
++static int au_rdu_fill(struct dir_context *ctx, const char *name, int nlen,
++		       loff_t offset, u64 h_ino, unsigned int d_type)
++{
++	int err, len;
++	struct au_rdu_arg *arg = container_of(ctx, struct au_rdu_arg, ctx);
++	struct aufs_rdu *rdu = arg->rdu;
++	struct au_rdu_ent ent;
++
++	err = 0;
++	arg->err = 0;
++	au_fset_rdu(rdu->cookie.flags, CALLED);
++	len = au_rdu_len(nlen);
++	if (arg->ent.ul + len  < arg->end) {
++		ent.ino = h_ino;
++		ent.bindex = rdu->cookie.bindex;
++		ent.type = d_type;
++		ent.nlen = nlen;
++		if (unlikely(nlen > AUFS_MAX_NAMELEN))
++			ent.type = DT_UNKNOWN;
++
++		/* unnecessary to support mmap_sem since this is a dir */
++		err = -EFAULT;
++		if (copy_to_user(arg->ent.e, &ent, sizeof(ent)))
++			goto out;
++		if (copy_to_user(arg->ent.e->name, name, nlen))
++			goto out;
++		/* the terminating NULL */
++		if (__put_user(0, arg->ent.e->name + nlen))
++			goto out;
++		err = 0;
++		/* AuDbg("%p, %.*s\n", arg->ent.p, nlen, name); */
++		arg->ent.ul += len;
++		rdu->rent++;
++	} else {
++		err = -EFAULT;
++		au_fset_rdu(rdu->cookie.flags, FULL);
++		rdu->full = 1;
++		rdu->tail = arg->ent;
++	}
++
++out:
++	/* AuTraceErr(err); */
++	return err;
++}
++
++static int au_rdu_do(struct file *h_file, struct au_rdu_arg *arg)
++{
++	int err;
++	loff_t offset;
++	struct au_rdu_cookie *cookie = &arg->rdu->cookie;
++
++	/* we don't have to care (FMODE_32BITHASH | FMODE_64BITHASH) for ext4 */
++	offset = vfsub_llseek(h_file, cookie->h_pos, SEEK_SET);
++	err = offset;
++	if (unlikely(offset != cookie->h_pos))
++		goto out;
++
++	err = 0;
++	do {
++		arg->err = 0;
++		au_fclr_rdu(cookie->flags, CALLED);
++		/* smp_mb(); */
++		err = vfsub_iterate_dir(h_file, &arg->ctx);
++		if (err >= 0)
++			err = arg->err;
++	} while (!err
++		 && au_ftest_rdu(cookie->flags, CALLED)
++		 && !au_ftest_rdu(cookie->flags, FULL));
++	cookie->h_pos = h_file->f_pos;
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++static int au_rdu(struct file *file, struct aufs_rdu *rdu)
++{
++	int err;
++	aufs_bindex_t bbot;
++	struct au_rdu_arg arg = {
++		.ctx = {
++			.actor = au_rdu_fill
++		}
++	};
++	struct dentry *dentry;
++	struct inode *inode;
++	struct file *h_file;
++	struct au_rdu_cookie *cookie = &rdu->cookie;
++
++	err = !access_ok(VERIFY_WRITE, rdu->ent.e, rdu->sz);
++	if (unlikely(err)) {
++		err = -EFAULT;
++		AuTraceErr(err);
++		goto out;
++	}
++	rdu->rent = 0;
++	rdu->tail = rdu->ent;
++	rdu->full = 0;
++	arg.rdu = rdu;
++	arg.ent = rdu->ent;
++	arg.end = arg.ent.ul;
++	arg.end += rdu->sz;
++
++	err = -ENOTDIR;
++	if (unlikely(!file->f_op->iterate && !file->f_op->iterate_shared))
++		goto out;
++
++	err = security_file_permission(file, MAY_READ);
++	AuTraceErr(err);
++	if (unlikely(err))
++		goto out;
++
++	dentry = file->f_path.dentry;
++	inode = d_inode(dentry);
++	inode_lock_shared(inode);
++
++	arg.sb = inode->i_sb;
++	err = si_read_lock(arg.sb, AuLock_FLUSH | AuLock_NOPLM);
++	if (unlikely(err))
++		goto out_mtx;
++	err = au_alive_dir(dentry);
++	if (unlikely(err))
++		goto out_si;
++	/* todo: reval? */
++	fi_read_lock(file);
++
++	err = -EAGAIN;
++	if (unlikely(au_ftest_rdu(cookie->flags, CONT)
++		     && cookie->generation != au_figen(file)))
++		goto out_unlock;
++
++	err = 0;
++	if (!rdu->blk) {
++		rdu->blk = au_sbi(arg.sb)->si_rdblk;
++		if (!rdu->blk)
++			rdu->blk = au_dir_size(file, /*dentry*/NULL);
++	}
++	bbot = au_fbtop(file);
++	if (cookie->bindex < bbot)
++		cookie->bindex = bbot;
++	bbot = au_fbbot_dir(file);
++	/* AuDbg("b%d, b%d\n", cookie->bindex, bbot); */
++	for (; !err && cookie->bindex <= bbot;
++	     cookie->bindex++, cookie->h_pos = 0) {
++		h_file = au_hf_dir(file, cookie->bindex);
++		if (!h_file)
++			continue;
++
++		au_fclr_rdu(cookie->flags, FULL);
++		err = au_rdu_do(h_file, &arg);
++		AuTraceErr(err);
++		if (unlikely(au_ftest_rdu(cookie->flags, FULL) || err))
++			break;
++	}
++	AuDbg("rent %llu\n", rdu->rent);
++
++	if (!err && !au_ftest_rdu(cookie->flags, CONT)) {
++		rdu->shwh = !!au_opt_test(au_sbi(arg.sb)->si_mntflags, SHWH);
++		au_fset_rdu(cookie->flags, CONT);
++		cookie->generation = au_figen(file);
++	}
++
++	ii_read_lock_child(inode);
++	fsstack_copy_attr_atime(inode, au_h_iptr(inode, au_ibtop(inode)));
++	ii_read_unlock(inode);
++
++out_unlock:
++	fi_read_unlock(file);
++out_si:
++	si_read_unlock(arg.sb);
++out_mtx:
++	inode_unlock_shared(inode);
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++static int au_rdu_ino(struct file *file, struct aufs_rdu *rdu)
++{
++	int err;
++	ino_t ino;
++	unsigned long long nent;
++	union au_rdu_ent_ul *u;
++	struct au_rdu_ent ent;
++	struct super_block *sb;
++
++	err = 0;
++	nent = rdu->nent;
++	u = &rdu->ent;
++	sb = file->f_path.dentry->d_sb;
++	si_read_lock(sb, AuLock_FLUSH);
++	while (nent-- > 0) {
++		/* unnecessary to support mmap_sem since this is a dir */
++		err = copy_from_user(&ent, u->e, sizeof(ent));
++		if (!err)
++			err = !access_ok(VERIFY_WRITE, &u->e->ino, sizeof(ino));
++		if (unlikely(err)) {
++			err = -EFAULT;
++			AuTraceErr(err);
++			break;
++		}
++
++		/* AuDbg("b%d, i%llu\n", ent.bindex, ent.ino); */
++		if (!ent.wh)
++			err = au_ino(sb, ent.bindex, ent.ino, ent.type, &ino);
++		else
++			err = au_wh_ino(sb, ent.bindex, ent.ino, ent.type,
++					&ino);
++		if (unlikely(err)) {
++			AuTraceErr(err);
++			break;
++		}
++
++		err = __put_user(ino, &u->e->ino);
++		if (unlikely(err)) {
++			err = -EFAULT;
++			AuTraceErr(err);
++			break;
++		}
++		u->ul += au_rdu_len(ent.nlen);
++	}
++	si_read_unlock(sb);
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int au_rdu_verify(struct aufs_rdu *rdu)
++{
++	AuDbg("rdu{%llu, %p, %u | %u | %llu, %u, %u | "
++	      "%llu, b%d, 0x%x, g%u}\n",
++	      rdu->sz, rdu->ent.e, rdu->verify[AufsCtlRduV_SZ],
++	      rdu->blk,
++	      rdu->rent, rdu->shwh, rdu->full,
++	      rdu->cookie.h_pos, rdu->cookie.bindex, rdu->cookie.flags,
++	      rdu->cookie.generation);
++
++	if (rdu->verify[AufsCtlRduV_SZ] == sizeof(*rdu))
++		return 0;
++
++	AuDbg("%u:%u\n",
++	      rdu->verify[AufsCtlRduV_SZ], (unsigned int)sizeof(*rdu));
++	return -EINVAL;
++}
++
++long au_rdu_ioctl(struct file *file, unsigned int cmd, unsigned long arg)
++{
++	long err, e;
++	struct aufs_rdu rdu;
++	void __user *p = (void __user *)arg;
++
++	err = copy_from_user(&rdu, p, sizeof(rdu));
++	if (unlikely(err)) {
++		err = -EFAULT;
++		AuTraceErr(err);
++		goto out;
++	}
++	err = au_rdu_verify(&rdu);
++	if (unlikely(err))
++		goto out;
++
++	switch (cmd) {
++	case AUFS_CTL_RDU:
++		err = au_rdu(file, &rdu);
++		if (unlikely(err))
++			break;
++
++		e = copy_to_user(p, &rdu, sizeof(rdu));
++		if (unlikely(e)) {
++			err = -EFAULT;
++			AuTraceErr(err);
++		}
++		break;
++	case AUFS_CTL_RDU_INO:
++		err = au_rdu_ino(file, &rdu);
++		break;
++
++	default:
++		/* err = -ENOTTY; */
++		err = -EINVAL;
++	}
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++#ifdef CONFIG_COMPAT
++long au_rdu_compat_ioctl(struct file *file, unsigned int cmd, unsigned long arg)
++{
++	long err, e;
++	struct aufs_rdu rdu;
++	void __user *p = compat_ptr(arg);
++
++	/* todo: get_user()? */
++	err = copy_from_user(&rdu, p, sizeof(rdu));
++	if (unlikely(err)) {
++		err = -EFAULT;
++		AuTraceErr(err);
++		goto out;
++	}
++	rdu.ent.e = compat_ptr(rdu.ent.ul);
++	err = au_rdu_verify(&rdu);
++	if (unlikely(err))
++		goto out;
++
++	switch (cmd) {
++	case AUFS_CTL_RDU:
++		err = au_rdu(file, &rdu);
++		if (unlikely(err))
++			break;
++
++		rdu.ent.ul = ptr_to_compat(rdu.ent.e);
++		rdu.tail.ul = ptr_to_compat(rdu.tail.e);
++		e = copy_to_user(p, &rdu, sizeof(rdu));
++		if (unlikely(e)) {
++			err = -EFAULT;
++			AuTraceErr(err);
++		}
++		break;
++	case AUFS_CTL_RDU_INO:
++		err = au_rdu_ino(file, &rdu);
++		break;
++
++	default:
++		/* err = -ENOTTY; */
++		err = -EINVAL;
++	}
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++#endif
+diff --git a/fs/aufs/rwsem.h b/fs/aufs/rwsem.h
+new file mode 100755
+index 0000000..2abe89f
+--- /dev/null
++++ b/fs/aufs/rwsem.h
+@@ -0,0 +1,198 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * simple read-write semaphore wrappers
++ */
++
++#ifndef __AUFS_RWSEM_H__
++#define __AUFS_RWSEM_H__
++
++#ifdef __KERNEL__
++
++#include "debug.h"
++
++struct au_rwsem {
++	struct rw_semaphore	rwsem;
++#ifdef CONFIG_AUFS_DEBUG
++	/* just for debugging, not almighty counter */
++	atomic_t		rcnt, wcnt;
++#endif
++};
++
++#ifdef CONFIG_LOCKDEP
++#define au_lockdep_set_name(rw)						\
++	lockdep_set_class_and_name(&(rw)->rwsem,			\
++				   /*original key*/(rw)->rwsem.dep_map.key, \
++				   /*name*/#rw)
++#else
++#define au_lockdep_set_name(rw) do {} while (0)
++#endif
++
++#ifdef CONFIG_AUFS_DEBUG
++#define AuDbgCntInit(rw) do { \
++	atomic_set(&(rw)->rcnt, 0); \
++	atomic_set(&(rw)->wcnt, 0); \
++	smp_mb(); /* atomic set */ \
++} while (0)
++
++#define AuDbgCnt(rw, cnt)	atomic_read(&(rw)->cnt)
++#define AuDbgCntInc(rw, cnt)	atomic_inc(&(rw)->cnt)
++#define AuDbgCntDec(rw, cnt)	WARN_ON(atomic_dec_return(&(rw)->cnt) < 0)
++#define AuDbgRcntInc(rw)	AuDbgCntInc(rw, rcnt)
++#define AuDbgRcntDec(rw)	AuDbgCntDec(rw, rcnt)
++#define AuDbgWcntInc(rw)	AuDbgCntInc(rw, wcnt)
++#define AuDbgWcntDec(rw)	AuDbgCntDec(rw, wcnt)
++#else
++#define AuDbgCnt(rw, cnt)	0
++#define AuDbgCntInit(rw)	do {} while (0)
++#define AuDbgRcntInc(rw)	do {} while (0)
++#define AuDbgRcntDec(rw)	do {} while (0)
++#define AuDbgWcntInc(rw)	do {} while (0)
++#define AuDbgWcntDec(rw)	do {} while (0)
++#endif /* CONFIG_AUFS_DEBUG */
++
++/* to debug easier, do not make them inlined functions */
++#define AuRwMustNoWaiters(rw)	AuDebugOn(rwsem_is_contended(&(rw)->rwsem))
++/* rwsem_is_locked() is unusable */
++#define AuRwMustReadLock(rw)	AuDebugOn(AuDbgCnt(rw, rcnt) <= 0)
++#define AuRwMustWriteLock(rw)	AuDebugOn(AuDbgCnt(rw, wcnt) <= 0)
++#define AuRwMustAnyLock(rw)	AuDebugOn(AuDbgCnt(rw, rcnt) <= 0	\
++					  && AuDbgCnt(rw, wcnt) <= 0)
++#define AuRwDestroy(rw)		AuDebugOn(AuDbgCnt(rw, rcnt)		\
++					  || AuDbgCnt(rw, wcnt))
++
++#define au_rw_init(rw) do {			\
++		AuDbgCntInit(rw);		\
++		init_rwsem(&(rw)->rwsem);	\
++		au_lockdep_set_name(rw);	\
++	} while (0)
++
++#define au_rw_init_wlock(rw) do {		\
++		au_rw_init(rw);			\
++		down_write(&(rw)->rwsem);	\
++		AuDbgWcntInc(rw);		\
++	} while (0)
++
++#define au_rw_init_wlock_nested(rw, lsc) do { \
++		au_rw_init(rw);				\
++		down_write_nested(&(rw)->rwsem, lsc);	\
++		AuDbgWcntInc(rw);			\
++	} while (0)
++
++static inline void au_rw_read_lock(struct au_rwsem *rw)
++{
++	down_read(&rw->rwsem);
++	AuDbgRcntInc(rw);
++}
++
++static inline void au_rw_read_lock_nested(struct au_rwsem *rw, unsigned int lsc)
++{
++	down_read_nested(&rw->rwsem, lsc);
++	AuDbgRcntInc(rw);
++}
++
++static inline void au_rw_read_unlock(struct au_rwsem *rw)
++{
++	AuRwMustReadLock(rw);
++	AuDbgRcntDec(rw);
++	up_read(&rw->rwsem);
++}
++
++static inline void au_rw_dgrade_lock(struct au_rwsem *rw)
++{
++	AuRwMustWriteLock(rw);
++	AuDbgRcntInc(rw);
++	AuDbgWcntDec(rw);
++	downgrade_write(&rw->rwsem);
++}
++
++static inline void au_rw_write_lock(struct au_rwsem *rw)
++{
++	down_write(&rw->rwsem);
++	AuDbgWcntInc(rw);
++}
++
++static inline void au_rw_write_lock_nested(struct au_rwsem *rw,
++					   unsigned int lsc)
++{
++	down_write_nested(&rw->rwsem, lsc);
++	AuDbgWcntInc(rw);
++}
++
++static inline void au_rw_write_unlock(struct au_rwsem *rw)
++{
++	AuRwMustWriteLock(rw);
++	AuDbgWcntDec(rw);
++	up_write(&rw->rwsem);
++}
++
++/* why is not _nested version defined */
++static inline int au_rw_read_trylock(struct au_rwsem *rw)
++{
++	int ret;
++
++	ret = down_read_trylock(&rw->rwsem);
++	if (ret)
++		AuDbgRcntInc(rw);
++	return ret;
++}
++
++static inline int au_rw_write_trylock(struct au_rwsem *rw)
++{
++	int ret;
++
++	ret = down_write_trylock(&rw->rwsem);
++	if (ret)
++		AuDbgWcntInc(rw);
++	return ret;
++}
++
++#undef AuDbgCntDec
++#undef AuDbgRcntInc
++#undef AuDbgRcntDec
++#undef AuDbgWcntDec
++
++#define AuSimpleLockRwsemFuncs(prefix, param, rwsem) \
++static inline void prefix##_read_lock(param) \
++{ au_rw_read_lock(rwsem); } \
++static inline void prefix##_write_lock(param) \
++{ au_rw_write_lock(rwsem); } \
++static inline int prefix##_read_trylock(param) \
++{ return au_rw_read_trylock(rwsem); } \
++static inline int prefix##_write_trylock(param) \
++{ return au_rw_write_trylock(rwsem); }
++/* why is not _nested version defined */
++/* static inline void prefix##_read_trylock_nested(param, lsc)
++{ au_rw_read_trylock_nested(rwsem, lsc)); }
++static inline void prefix##_write_trylock_nestd(param, lsc)
++{ au_rw_write_trylock_nested(rwsem, lsc); } */
++
++#define AuSimpleUnlockRwsemFuncs(prefix, param, rwsem) \
++static inline void prefix##_read_unlock(param) \
++{ au_rw_read_unlock(rwsem); } \
++static inline void prefix##_write_unlock(param) \
++{ au_rw_write_unlock(rwsem); } \
++static inline void prefix##_downgrade_lock(param) \
++{ au_rw_dgrade_lock(rwsem); }
++
++#define AuSimpleRwsemFuncs(prefix, param, rwsem) \
++	AuSimpleLockRwsemFuncs(prefix, param, rwsem) \
++	AuSimpleUnlockRwsemFuncs(prefix, param, rwsem)
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_RWSEM_H__ */
+diff --git a/fs/aufs/sbinfo.c b/fs/aufs/sbinfo.c
+new file mode 100755
+index 0000000..995514e
+--- /dev/null
++++ b/fs/aufs/sbinfo.c
+@@ -0,0 +1,304 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * superblock private data
++ */
++
++#include "aufs.h"
++
++/*
++ * they are necessary regardless sysfs is disabled.
++ */
++void au_si_free(struct kobject *kobj)
++{
++	int i;
++	struct au_sbinfo *sbinfo;
++	char *locked __maybe_unused; /* debug only */
++
++	sbinfo = container_of(kobj, struct au_sbinfo, si_kobj);
++	for (i = 0; i < AuPlink_NHASH; i++)
++		AuDebugOn(!hlist_empty(&sbinfo->si_plink[i].head));
++	AuDebugOn(atomic_read(&sbinfo->si_nowait.nw_len));
++
++	AuDebugOn(percpu_counter_sum(&sbinfo->si_ninodes));
++	percpu_counter_destroy(&sbinfo->si_ninodes);
++	AuDebugOn(percpu_counter_sum(&sbinfo->si_nfiles));
++	percpu_counter_destroy(&sbinfo->si_nfiles);
++
++	au_rw_write_lock(&sbinfo->si_rwsem);
++	au_br_free(sbinfo);
++	au_rw_write_unlock(&sbinfo->si_rwsem);
++
++	kfree(sbinfo->si_branch);
++	mutex_destroy(&sbinfo->si_xib_mtx);
++	AuRwDestroy(&sbinfo->si_rwsem);
++
++	kfree(sbinfo);
++}
++
++int au_si_alloc(struct super_block *sb)
++{
++	int err, i;
++	struct au_sbinfo *sbinfo;
++
++	err = -ENOMEM;
++	sbinfo = kzalloc(sizeof(*sbinfo), GFP_NOFS);
++	if (unlikely(!sbinfo))
++		goto out;
++
++	/* will be reallocated separately */
++	sbinfo->si_branch = kzalloc(sizeof(*sbinfo->si_branch), GFP_NOFS);
++	if (unlikely(!sbinfo->si_branch))
++		goto out_sbinfo;
++
++	err = sysaufs_si_init(sbinfo);
++	if (unlikely(err))
++		goto out_br;
++
++	au_nwt_init(&sbinfo->si_nowait);
++	au_rw_init_wlock(&sbinfo->si_rwsem);
++
++	percpu_counter_init(&sbinfo->si_ninodes, 0, GFP_NOFS);
++	percpu_counter_init(&sbinfo->si_nfiles, 0, GFP_NOFS);
++
++	sbinfo->si_bbot = -1;
++	sbinfo->si_last_br_id = AUFS_BRANCH_MAX / 2;
++
++	sbinfo->si_wbr_copyup = AuWbrCopyup_Def;
++	sbinfo->si_wbr_create = AuWbrCreate_Def;
++	sbinfo->si_wbr_copyup_ops = au_wbr_copyup_ops + sbinfo->si_wbr_copyup;
++	sbinfo->si_wbr_create_ops = au_wbr_create_ops + sbinfo->si_wbr_create;
++
++	au_fhsm_init(sbinfo);
++
++	sbinfo->si_mntflags = au_opts_plink(AuOpt_Def);
++
++	sbinfo->si_xino_jiffy = jiffies;
++	sbinfo->si_xino_expire
++		= msecs_to_jiffies(AUFS_XINO_DEF_SEC * MSEC_PER_SEC);
++	mutex_init(&sbinfo->si_xib_mtx);
++	sbinfo->si_xino_brid = -1;
++	/* leave si_xib_last_pindex and si_xib_next_bit */
++
++	au_sphl_init(&sbinfo->si_aopen);
++
++	sbinfo->si_rdcache = msecs_to_jiffies(AUFS_RDCACHE_DEF * MSEC_PER_SEC);
++	sbinfo->si_rdblk = AUFS_RDBLK_DEF;
++	sbinfo->si_rdhash = AUFS_RDHASH_DEF;
++	sbinfo->si_dirwh = AUFS_DIRWH_DEF;
++
++	for (i = 0; i < AuPlink_NHASH; i++)
++		au_sphl_init(sbinfo->si_plink + i);
++	init_waitqueue_head(&sbinfo->si_plink_wq);
++	spin_lock_init(&sbinfo->si_plink_maint_lock);
++
++	au_sphl_init(&sbinfo->si_files);
++
++	/* with getattr by default */
++	sbinfo->si_iop_array = aufs_iop;
++
++	/* leave other members for sysaufs and si_mnt. */
++	sbinfo->si_sb = sb;
++	sb->s_fs_info = sbinfo;
++	si_pid_set(sb);
++	return 0; /* success */
++
++out_br:
++	kfree(sbinfo->si_branch);
++out_sbinfo:
++	kfree(sbinfo);
++out:
++	return err;
++}
++
++int au_sbr_realloc(struct au_sbinfo *sbinfo, int nbr, int may_shrink)
++{
++	int err, sz;
++	struct au_branch **brp;
++
++	AuRwMustWriteLock(&sbinfo->si_rwsem);
++
++	err = -ENOMEM;
++	sz = sizeof(*brp) * (sbinfo->si_bbot + 1);
++	if (unlikely(!sz))
++		sz = sizeof(*brp);
++	brp = au_kzrealloc(sbinfo->si_branch, sz, sizeof(*brp) * nbr, GFP_NOFS,
++			   may_shrink);
++	if (brp) {
++		sbinfo->si_branch = brp;
++		err = 0;
++	}
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++unsigned int au_sigen_inc(struct super_block *sb)
++{
++	unsigned int gen;
++	struct inode *inode;
++
++	SiMustWriteLock(sb);
++
++	gen = ++au_sbi(sb)->si_generation;
++	au_update_digen(sb->s_root);
++	inode = d_inode(sb->s_root);
++	au_update_iigen(inode, /*half*/0);
++	inode->i_version++;
++	return gen;
++}
++
++aufs_bindex_t au_new_br_id(struct super_block *sb)
++{
++	aufs_bindex_t br_id;
++	int i;
++	struct au_sbinfo *sbinfo;
++
++	SiMustWriteLock(sb);
++
++	sbinfo = au_sbi(sb);
++	for (i = 0; i <= AUFS_BRANCH_MAX; i++) {
++		br_id = ++sbinfo->si_last_br_id;
++		AuDebugOn(br_id < 0);
++		if (br_id && au_br_index(sb, br_id) < 0)
++			return br_id;
++	}
++
++	return -1;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* it is ok that new 'nwt' tasks are appended while we are sleeping */
++int si_read_lock(struct super_block *sb, int flags)
++{
++	int err;
++
++	err = 0;
++	if (au_ftest_lock(flags, FLUSH))
++		au_nwt_flush(&au_sbi(sb)->si_nowait);
++
++	si_noflush_read_lock(sb);
++	err = au_plink_maint(sb, flags);
++	if (unlikely(err))
++		si_read_unlock(sb);
++
++	return err;
++}
++
++int si_write_lock(struct super_block *sb, int flags)
++{
++	int err;
++
++	if (au_ftest_lock(flags, FLUSH))
++		au_nwt_flush(&au_sbi(sb)->si_nowait);
++
++	si_noflush_write_lock(sb);
++	err = au_plink_maint(sb, flags);
++	if (unlikely(err))
++		si_write_unlock(sb);
++
++	return err;
++}
++
++/* dentry and super_block lock. call at entry point */
++int aufs_read_lock(struct dentry *dentry, int flags)
++{
++	int err;
++	struct super_block *sb;
++
++	sb = dentry->d_sb;
++	err = si_read_lock(sb, flags);
++	if (unlikely(err))
++		goto out;
++
++	if (au_ftest_lock(flags, DW))
++		di_write_lock_child(dentry);
++	else
++		di_read_lock_child(dentry, flags);
++
++	if (au_ftest_lock(flags, GEN)) {
++		err = au_digen_test(dentry, au_sigen(sb));
++		if (!au_opt_test(au_mntflags(sb), UDBA_NONE))
++			AuDebugOn(!err && au_dbrange_test(dentry));
++		else if (!err)
++			err = au_dbrange_test(dentry);
++		if (unlikely(err))
++			aufs_read_unlock(dentry, flags);
++	}
++
++out:
++	return err;
++}
++
++void aufs_read_unlock(struct dentry *dentry, int flags)
++{
++	if (au_ftest_lock(flags, DW))
++		di_write_unlock(dentry);
++	else
++		di_read_unlock(dentry, flags);
++	si_read_unlock(dentry->d_sb);
++}
++
++void aufs_write_lock(struct dentry *dentry)
++{
++	si_write_lock(dentry->d_sb, AuLock_FLUSH | AuLock_NOPLMW);
++	di_write_lock_child(dentry);
++}
++
++void aufs_write_unlock(struct dentry *dentry)
++{
++	di_write_unlock(dentry);
++	si_write_unlock(dentry->d_sb);
++}
++
++int aufs_read_and_write_lock2(struct dentry *d1, struct dentry *d2, int flags)
++{
++	int err;
++	unsigned int sigen;
++	struct super_block *sb;
++
++	sb = d1->d_sb;
++	err = si_read_lock(sb, flags);
++	if (unlikely(err))
++		goto out;
++
++	di_write_lock2_child(d1, d2, au_ftest_lock(flags, DIRS));
++
++	if (au_ftest_lock(flags, GEN)) {
++		sigen = au_sigen(sb);
++		err = au_digen_test(d1, sigen);
++		AuDebugOn(!err && au_dbrange_test(d1));
++		if (!err) {
++			err = au_digen_test(d2, sigen);
++			AuDebugOn(!err && au_dbrange_test(d2));
++		}
++		if (unlikely(err))
++			aufs_read_and_write_unlock2(d1, d2);
++	}
++
++out:
++	return err;
++}
++
++void aufs_read_and_write_unlock2(struct dentry *d1, struct dentry *d2)
++{
++	di_write_unlock2(d1, d2);
++	si_read_unlock(d1->d_sb);
++}
+diff --git a/fs/aufs/spl.h b/fs/aufs/spl.h
+new file mode 100755
+index 0000000..2845873
+--- /dev/null
++++ b/fs/aufs/spl.h
+@@ -0,0 +1,113 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * simple list protected by a spinlock
++ */
++
++#ifndef __AUFS_SPL_H__
++#define __AUFS_SPL_H__
++
++#ifdef __KERNEL__
++
++#if 0
++struct au_splhead {
++	spinlock_t		spin;
++	struct list_head	head;
++};
++
++static inline void au_spl_init(struct au_splhead *spl)
++{
++	spin_lock_init(&spl->spin);
++	INIT_LIST_HEAD(&spl->head);
++}
++
++static inline void au_spl_add(struct list_head *list, struct au_splhead *spl)
++{
++	spin_lock(&spl->spin);
++	list_add(list, &spl->head);
++	spin_unlock(&spl->spin);
++}
++
++static inline void au_spl_del(struct list_head *list, struct au_splhead *spl)
++{
++	spin_lock(&spl->spin);
++	list_del(list);
++	spin_unlock(&spl->spin);
++}
++
++static inline void au_spl_del_rcu(struct list_head *list,
++				  struct au_splhead *spl)
++{
++	spin_lock(&spl->spin);
++	list_del_rcu(list);
++	spin_unlock(&spl->spin);
++}
++#endif
++
++/* ---------------------------------------------------------------------- */
++
++struct au_sphlhead {
++	spinlock_t		spin;
++	struct hlist_head	head;
++};
++
++static inline void au_sphl_init(struct au_sphlhead *sphl)
++{
++	spin_lock_init(&sphl->spin);
++	INIT_HLIST_HEAD(&sphl->head);
++}
++
++static inline void au_sphl_add(struct hlist_node *hlist,
++			       struct au_sphlhead *sphl)
++{
++	spin_lock(&sphl->spin);
++	hlist_add_head(hlist, &sphl->head);
++	spin_unlock(&sphl->spin);
++}
++
++static inline void au_sphl_del(struct hlist_node *hlist,
++			       struct au_sphlhead *sphl)
++{
++	spin_lock(&sphl->spin);
++	hlist_del(hlist);
++	spin_unlock(&sphl->spin);
++}
++
++static inline void au_sphl_del_rcu(struct hlist_node *hlist,
++				   struct au_sphlhead *sphl)
++{
++	spin_lock(&sphl->spin);
++	hlist_del_rcu(hlist);
++	spin_unlock(&sphl->spin);
++}
++
++static inline unsigned long au_sphl_count(struct au_sphlhead *sphl)
++{
++	unsigned long cnt;
++	struct hlist_node *pos;
++
++	cnt = 0;
++	spin_lock(&sphl->spin);
++	hlist_for_each(pos, &sphl->head)
++		cnt++;
++	spin_unlock(&sphl->spin);
++	return cnt;
++}
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_SPL_H__ */
+diff --git a/fs/aufs/super.c b/fs/aufs/super.c
+new file mode 100755
+index 0000000..d893730
+--- /dev/null
++++ b/fs/aufs/super.c
+@@ -0,0 +1,1044 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * mount and super_block operations
++ */
++
++#include <linux/mm.h>
++#include <linux/seq_file.h>
++#include <linux/statfs.h>
++#include <linux/vmalloc.h>
++#include "aufs.h"
++
++/*
++ * super_operations
++ */
++static struct inode *aufs_alloc_inode(struct super_block *sb __maybe_unused)
++{
++	struct au_icntnr *c;
++
++	c = au_cache_alloc_icntnr();
++	if (c) {
++		au_icntnr_init(c);
++		c->vfs_inode.i_version = 1; /* sigen(sb); */
++		c->iinfo.ii_hinode = NULL;
++		return &c->vfs_inode;
++	}
++	return NULL;
++}
++
++static void aufs_destroy_inode_cb(struct rcu_head *head)
++{
++	struct inode *inode = container_of(head, struct inode, i_rcu);
++
++	au_cache_free_icntnr(container_of(inode, struct au_icntnr, vfs_inode));
++}
++
++static void aufs_destroy_inode(struct inode *inode)
++{
++	if (!au_is_bad_inode(inode))
++		au_iinfo_fin(inode);
++	call_rcu(&inode->i_rcu, aufs_destroy_inode_cb);
++}
++
++struct inode *au_iget_locked(struct super_block *sb, ino_t ino)
++{
++	struct inode *inode;
++	int err;
++
++	inode = iget_locked(sb, ino);
++	if (unlikely(!inode)) {
++		inode = ERR_PTR(-ENOMEM);
++		goto out;
++	}
++	if (!(inode->i_state & I_NEW))
++		goto out;
++
++	err = au_xigen_new(inode);
++	if (!err)
++		err = au_iinfo_init(inode);
++	if (!err)
++		inode->i_version++;
++	else {
++		iget_failed(inode);
++		inode = ERR_PTR(err);
++	}
++
++out:
++	/* never return NULL */
++	AuDebugOn(!inode);
++	AuTraceErrPtr(inode);
++	return inode;
++}
++
++/* lock free root dinfo */
++static int au_show_brs(struct seq_file *seq, struct super_block *sb)
++{
++	int err;
++	aufs_bindex_t bindex, bbot;
++	struct path path;
++	struct au_hdentry *hdp;
++	struct au_branch *br;
++	au_br_perm_str_t perm;
++
++	err = 0;
++	bbot = au_sbbot(sb);
++	bindex = 0;
++	hdp = au_hdentry(au_di(sb->s_root), bindex);
++	for (; !err && bindex <= bbot; bindex++, hdp++) {
++		br = au_sbr(sb, bindex);
++		path.mnt = au_br_mnt(br);
++		path.dentry = hdp->hd_dentry;
++		err = au_seq_path(seq, &path);
++		if (!err) {
++			au_optstr_br_perm(&perm, br->br_perm);
++			seq_printf(seq, "=%s", perm.a);
++			if (bindex != bbot)
++				seq_putc(seq, ':');
++		}
++	}
++	if (unlikely(err || seq_has_overflowed(seq)))
++		err = -E2BIG;
++
++	return err;
++}
++
++static void au_gen_fmt(char *fmt, int len __maybe_unused, const char *pat,
++		       const char *append)
++{
++	char *p;
++
++	p = fmt;
++	while (*pat != ':')
++		*p++ = *pat++;
++	*p++ = *pat++;
++	strcpy(p, append);
++	AuDebugOn(strlen(fmt) >= len);
++}
++
++static void au_show_wbr_create(struct seq_file *m, int v,
++			       struct au_sbinfo *sbinfo)
++{
++	const char *pat;
++	char fmt[32];
++	struct au_wbr_mfs *mfs;
++
++	AuRwMustAnyLock(&sbinfo->si_rwsem);
++
++	seq_puts(m, ",create=");
++	pat = au_optstr_wbr_create(v);
++	mfs = &sbinfo->si_wbr_mfs;
++	switch (v) {
++	case AuWbrCreate_TDP:
++	case AuWbrCreate_RR:
++	case AuWbrCreate_MFS:
++	case AuWbrCreate_PMFS:
++		seq_puts(m, pat);
++		break;
++	case AuWbrCreate_MFSRR:
++	case AuWbrCreate_TDMFS:
++	case AuWbrCreate_PMFSRR:
++		au_gen_fmt(fmt, sizeof(fmt), pat, "%llu");
++		seq_printf(m, fmt, mfs->mfsrr_watermark);
++		break;
++	case AuWbrCreate_MFSV:
++	case AuWbrCreate_PMFSV:
++		au_gen_fmt(fmt, sizeof(fmt), pat, "%lu");
++		seq_printf(m, fmt,
++			   jiffies_to_msecs(mfs->mfs_expire)
++			   / MSEC_PER_SEC);
++		break;
++	case AuWbrCreate_MFSRRV:
++	case AuWbrCreate_TDMFSV:
++	case AuWbrCreate_PMFSRRV:
++		au_gen_fmt(fmt, sizeof(fmt), pat, "%llu:%lu");
++		seq_printf(m, fmt, mfs->mfsrr_watermark,
++			   jiffies_to_msecs(mfs->mfs_expire) / MSEC_PER_SEC);
++		break;
++	default:
++		BUG();
++	}
++}
++
++static int au_show_xino(struct seq_file *seq, struct super_block *sb)
++{
++#ifdef CONFIG_SYSFS
++	return 0;
++#else
++	int err;
++	const int len = sizeof(AUFS_XINO_FNAME) - 1;
++	aufs_bindex_t bindex, brid;
++	struct qstr *name;
++	struct file *f;
++	struct dentry *d, *h_root;
++
++	AuRwMustAnyLock(&sbinfo->si_rwsem);
++
++	err = 0;
++	f = au_sbi(sb)->si_xib;
++	if (!f)
++		goto out;
++
++	/* stop printing the default xino path on the first writable branch */
++	h_root = NULL;
++	brid = au_xino_brid(sb);
++	if (brid >= 0) {
++		bindex = au_br_index(sb, brid);
++		h_root = au_hdentry(au_di(sb->s_root), bindex)->hd_dentry;
++	}
++	d = f->f_path.dentry;
++	name = &d->d_name;
++	/* safe ->d_parent because the file is unlinked */
++	if (d->d_parent == h_root
++	    && name->len == len
++	    && !memcmp(name->name, AUFS_XINO_FNAME, len))
++		goto out;
++
++	seq_puts(seq, ",xino=");
++	err = au_xino_path(seq, f);
++
++out:
++	return err;
++#endif
++}
++
++/* seq_file will re-call me in case of too long string */
++static int aufs_show_options(struct seq_file *m, struct dentry *dentry)
++{
++	int err;
++	unsigned int mnt_flags, v;
++	struct super_block *sb;
++	struct au_sbinfo *sbinfo;
++
++#define AuBool(name, str) do { \
++	v = au_opt_test(mnt_flags, name); \
++	if (v != au_opt_test(AuOpt_Def, name)) \
++		seq_printf(m, ",%s" #str, v ? "" : "no"); \
++} while (0)
++
++#define AuStr(name, str) do { \
++	v = mnt_flags & AuOptMask_##name; \
++	if (v != (AuOpt_Def & AuOptMask_##name)) \
++		seq_printf(m, "," #str "=%s", au_optstr_##str(v)); \
++} while (0)
++
++#define AuUInt(name, str, val) do { \
++	if (val != AUFS_##name##_DEF) \
++		seq_printf(m, "," #str "=%u", val); \
++} while (0)
++
++	sb = dentry->d_sb;
++	if (sb->s_flags & MS_POSIXACL)
++		seq_puts(m, ",acl");
++
++	/* lock free root dinfo */
++	si_noflush_read_lock(sb);
++	sbinfo = au_sbi(sb);
++	seq_printf(m, ",si=%lx", sysaufs_si_id(sbinfo));
++
++	mnt_flags = au_mntflags(sb);
++	if (au_opt_test(mnt_flags, XINO)) {
++		err = au_show_xino(m, sb);
++		if (unlikely(err))
++			goto out;
++	} else
++		seq_puts(m, ",noxino");
++
++	AuBool(TRUNC_XINO, trunc_xino);
++	AuStr(UDBA, udba);
++	AuBool(SHWH, shwh);
++	AuBool(PLINK, plink);
++	AuBool(DIO, dio);
++	AuBool(DIRPERM1, dirperm1);
++
++	v = sbinfo->si_wbr_create;
++	if (v != AuWbrCreate_Def)
++		au_show_wbr_create(m, v, sbinfo);
++
++	v = sbinfo->si_wbr_copyup;
++	if (v != AuWbrCopyup_Def)
++		seq_printf(m, ",cpup=%s", au_optstr_wbr_copyup(v));
++
++	v = au_opt_test(mnt_flags, ALWAYS_DIROPQ);
++	if (v != au_opt_test(AuOpt_Def, ALWAYS_DIROPQ))
++		seq_printf(m, ",diropq=%c", v ? 'a' : 'w');
++
++	AuUInt(DIRWH, dirwh, sbinfo->si_dirwh);
++
++	v = jiffies_to_msecs(sbinfo->si_rdcache) / MSEC_PER_SEC;
++	AuUInt(RDCACHE, rdcache, v);
++
++	AuUInt(RDBLK, rdblk, sbinfo->si_rdblk);
++	AuUInt(RDHASH, rdhash, sbinfo->si_rdhash);
++
++	au_fhsm_show(m, sbinfo);
++
++	AuBool(SUM, sum);
++	/* AuBool(SUM_W, wsum); */
++	AuBool(WARN_PERM, warn_perm);
++	AuBool(VERBOSE, verbose);
++
++out:
++	/* be sure to print "br:" last */
++	if (!sysaufs_brs) {
++		seq_puts(m, ",br:");
++		au_show_brs(m, sb);
++	}
++	si_read_unlock(sb);
++	return 0;
++
++#undef AuBool
++#undef AuStr
++#undef AuUInt
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* sum mode which returns the summation for statfs(2) */
++
++static u64 au_add_till_max(u64 a, u64 b)
++{
++	u64 old;
++
++	old = a;
++	a += b;
++	if (old <= a)
++		return a;
++	return ULLONG_MAX;
++}
++
++static u64 au_mul_till_max(u64 a, long mul)
++{
++	u64 old;
++
++	old = a;
++	a *= mul;
++	if (old <= a)
++		return a;
++	return ULLONG_MAX;
++}
++
++static int au_statfs_sum(struct super_block *sb, struct kstatfs *buf)
++{
++	int err;
++	long bsize, factor;
++	u64 blocks, bfree, bavail, files, ffree;
++	aufs_bindex_t bbot, bindex, i;
++	unsigned char shared;
++	struct path h_path;
++	struct super_block *h_sb;
++
++	err = 0;
++	bsize = LONG_MAX;
++	files = 0;
++	ffree = 0;
++	blocks = 0;
++	bfree = 0;
++	bavail = 0;
++	bbot = au_sbbot(sb);
++	for (bindex = 0; bindex <= bbot; bindex++) {
++		h_path.mnt = au_sbr_mnt(sb, bindex);
++		h_sb = h_path.mnt->mnt_sb;
++		shared = 0;
++		for (i = 0; !shared && i < bindex; i++)
++			shared = (au_sbr_sb(sb, i) == h_sb);
++		if (shared)
++			continue;
++
++		/* sb->s_root for NFS is unreliable */
++		h_path.dentry = h_path.mnt->mnt_root;
++		err = vfs_statfs(&h_path, buf);
++		if (unlikely(err))
++			goto out;
++
++		if (bsize > buf->f_bsize) {
++			/*
++			 * we will reduce bsize, so we have to expand blocks
++			 * etc. to match them again
++			 */
++			factor = (bsize / buf->f_bsize);
++			blocks = au_mul_till_max(blocks, factor);
++			bfree = au_mul_till_max(bfree, factor);
++			bavail = au_mul_till_max(bavail, factor);
++			bsize = buf->f_bsize;
++		}
++
++		factor = (buf->f_bsize / bsize);
++		blocks = au_add_till_max(blocks,
++				au_mul_till_max(buf->f_blocks, factor));
++		bfree = au_add_till_max(bfree,
++				au_mul_till_max(buf->f_bfree, factor));
++		bavail = au_add_till_max(bavail,
++				au_mul_till_max(buf->f_bavail, factor));
++		files = au_add_till_max(files, buf->f_files);
++		ffree = au_add_till_max(ffree, buf->f_ffree);
++	}
++
++	buf->f_bsize = bsize;
++	buf->f_blocks = blocks;
++	buf->f_bfree = bfree;
++	buf->f_bavail = bavail;
++	buf->f_files = files;
++	buf->f_ffree = ffree;
++	buf->f_frsize = 0;
++
++out:
++	return err;
++}
++
++static int aufs_statfs(struct dentry *dentry, struct kstatfs *buf)
++{
++	int err;
++	struct path h_path;
++	struct super_block *sb;
++
++	/* lock free root dinfo */
++	sb = dentry->d_sb;
++	si_noflush_read_lock(sb);
++	if (!au_opt_test(au_mntflags(sb), SUM)) {
++		/* sb->s_root for NFS is unreliable */
++		h_path.mnt = au_sbr_mnt(sb, 0);
++		h_path.dentry = h_path.mnt->mnt_root;
++		err = vfs_statfs(&h_path, buf);
++	} else
++		err = au_statfs_sum(sb, buf);
++	si_read_unlock(sb);
++
++	if (!err) {
++		buf->f_type = AUFS_SUPER_MAGIC;
++		buf->f_namelen = AUFS_MAX_NAMELEN;
++		memset(&buf->f_fsid, 0, sizeof(buf->f_fsid));
++	}
++	/* buf->f_bsize = buf->f_blocks = buf->f_bfree = buf->f_bavail = -1; */
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int aufs_sync_fs(struct super_block *sb, int wait)
++{
++	int err, e;
++	aufs_bindex_t bbot, bindex;
++	struct au_branch *br;
++	struct super_block *h_sb;
++
++	err = 0;
++	si_noflush_read_lock(sb);
++	bbot = au_sbbot(sb);
++	for (bindex = 0; bindex <= bbot; bindex++) {
++		br = au_sbr(sb, bindex);
++		if (!au_br_writable(br->br_perm))
++			continue;
++
++		h_sb = au_sbr_sb(sb, bindex);
++		e = vfsub_sync_filesystem(h_sb, wait);
++		if (unlikely(e && !err))
++			err = e;
++		/* go on even if an error happens */
++	}
++	si_read_unlock(sb);
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* final actions when unmounting a file system */
++static void aufs_put_super(struct super_block *sb)
++{
++	struct au_sbinfo *sbinfo;
++
++	sbinfo = au_sbi(sb);
++	if (!sbinfo)
++		return;
++
++	dbgaufs_si_fin(sbinfo);
++	kobject_put(&sbinfo->si_kobj);
++}
++
++/* ---------------------------------------------------------------------- */
++
++void *au_array_alloc(unsigned long long *hint, au_arraycb_t cb,
++		     struct super_block *sb, void *arg)
++{
++	void *array;
++	unsigned long long n, sz;
++
++	array = NULL;
++	n = 0;
++	if (!*hint)
++		goto out;
++
++	if (*hint > ULLONG_MAX / sizeof(array)) {
++		array = ERR_PTR(-EMFILE);
++		pr_err("hint %llu\n", *hint);
++		goto out;
++	}
++
++	sz = sizeof(array) * *hint;
++	array = kzalloc(sz, GFP_NOFS);
++	if (unlikely(!array))
++		array = vzalloc(sz);
++	if (unlikely(!array)) {
++		array = ERR_PTR(-ENOMEM);
++		goto out;
++	}
++
++	n = cb(sb, array, *hint, arg);
++	AuDebugOn(n > *hint);
++
++out:
++	*hint = n;
++	return array;
++}
++
++static unsigned long long au_iarray_cb(struct super_block *sb, void *a,
++				       unsigned long long max __maybe_unused,
++				       void *arg)
++{
++	unsigned long long n;
++	struct inode **p, *inode;
++	struct list_head *head;
++
++	n = 0;
++	p = a;
++	head = arg;
++	spin_lock(&sb->s_inode_list_lock);
++	list_for_each_entry(inode, head, i_sb_list) {
++		if (!au_is_bad_inode(inode)
++		    && au_ii(inode)->ii_btop >= 0) {
++			spin_lock(&inode->i_lock);
++			if (atomic_read(&inode->i_count)) {
++				au_igrab(inode);
++				*p++ = inode;
++				n++;
++				AuDebugOn(n > max);
++			}
++			spin_unlock(&inode->i_lock);
++		}
++	}
++	spin_unlock(&sb->s_inode_list_lock);
++
++	return n;
++}
++
++struct inode **au_iarray_alloc(struct super_block *sb, unsigned long long *max)
++{
++	*max = au_ninodes(sb);
++	return au_array_alloc(max, au_iarray_cb, sb, &sb->s_inodes);
++}
++
++void au_iarray_free(struct inode **a, unsigned long long max)
++{
++	unsigned long long ull;
++
++	for (ull = 0; ull < max; ull++)
++		iput(a[ull]);
++	kvfree(a);
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * refresh dentry and inode at remount time.
++ */
++/* todo: consolidate with simple_reval_dpath() and au_reval_for_attr() */
++static int au_do_refresh(struct dentry *dentry, unsigned int dir_flags,
++		      struct dentry *parent)
++{
++	int err;
++
++	di_write_lock_child(dentry);
++	di_read_lock_parent(parent, AuLock_IR);
++	err = au_refresh_dentry(dentry, parent);
++	if (!err && dir_flags)
++		au_hn_reset(d_inode(dentry), dir_flags);
++	di_read_unlock(parent, AuLock_IR);
++	di_write_unlock(dentry);
++
++	return err;
++}
++
++static int au_do_refresh_d(struct dentry *dentry, unsigned int sigen,
++			   struct au_sbinfo *sbinfo,
++			   const unsigned int dir_flags, unsigned int do_idop)
++{
++	int err;
++	struct dentry *parent;
++
++	err = 0;
++	parent = dget_parent(dentry);
++	if (!au_digen_test(parent, sigen) && au_digen_test(dentry, sigen)) {
++		if (d_really_is_positive(dentry)) {
++			if (!d_is_dir(dentry))
++				err = au_do_refresh(dentry, /*dir_flags*/0,
++						 parent);
++			else {
++				err = au_do_refresh(dentry, dir_flags, parent);
++				if (unlikely(err))
++					au_fset_si(sbinfo, FAILED_REFRESH_DIR);
++			}
++		} else
++			err = au_do_refresh(dentry, /*dir_flags*/0, parent);
++		AuDbgDentry(dentry);
++	}
++	dput(parent);
++
++	if (!err) {
++		if (do_idop)
++			au_refresh_dop(dentry, /*force_reval*/0);
++	} else
++		au_refresh_dop(dentry, /*force_reval*/1);
++
++	AuTraceErr(err);
++	return err;
++}
++
++static int au_refresh_d(struct super_block *sb, unsigned int do_idop)
++{
++	int err, i, j, ndentry, e;
++	unsigned int sigen;
++	struct au_dcsub_pages dpages;
++	struct au_dpage *dpage;
++	struct dentry **dentries, *d;
++	struct au_sbinfo *sbinfo;
++	struct dentry *root = sb->s_root;
++	const unsigned int dir_flags = au_hi_flags(d_inode(root), /*isdir*/1);
++
++	if (do_idop)
++		au_refresh_dop(root, /*force_reval*/0);
++
++	err = au_dpages_init(&dpages, GFP_NOFS);
++	if (unlikely(err))
++		goto out;
++	err = au_dcsub_pages(&dpages, root, NULL, NULL);
++	if (unlikely(err))
++		goto out_dpages;
++
++	sigen = au_sigen(sb);
++	sbinfo = au_sbi(sb);
++	for (i = 0; i < dpages.ndpage; i++) {
++		dpage = dpages.dpages + i;
++		dentries = dpage->dentries;
++		ndentry = dpage->ndentry;
++		for (j = 0; j < ndentry; j++) {
++			d = dentries[j];
++			e = au_do_refresh_d(d, sigen, sbinfo, dir_flags,
++					    do_idop);
++			if (unlikely(e && !err))
++				err = e;
++			/* go on even err */
++		}
++	}
++
++out_dpages:
++	au_dpages_free(&dpages);
++out:
++	return err;
++}
++
++static int au_refresh_i(struct super_block *sb, unsigned int do_idop)
++{
++	int err, e;
++	unsigned int sigen;
++	unsigned long long max, ull;
++	struct inode *inode, **array;
++
++	array = au_iarray_alloc(sb, &max);
++	err = PTR_ERR(array);
++	if (IS_ERR(array))
++		goto out;
++
++	err = 0;
++	sigen = au_sigen(sb);
++	for (ull = 0; ull < max; ull++) {
++		inode = array[ull];
++		if (unlikely(!inode))
++			break;
++
++		e = 0;
++		ii_write_lock_child(inode);
++		if (au_iigen(inode, NULL) != sigen) {
++			e = au_refresh_hinode_self(inode);
++			if (unlikely(e)) {
++				au_refresh_iop(inode, /*force_getattr*/1);
++				pr_err("error %d, i%lu\n", e, inode->i_ino);
++				if (!err)
++					err = e;
++				/* go on even if err */
++			}
++		}
++		if (!e && do_idop)
++			au_refresh_iop(inode, /*force_getattr*/0);
++		ii_write_unlock(inode);
++	}
++
++	au_iarray_free(array, max);
++
++out:
++	return err;
++}
++
++static void au_remount_refresh(struct super_block *sb, unsigned int do_idop)
++{
++	int err, e;
++	unsigned int udba;
++	aufs_bindex_t bindex, bbot;
++	struct dentry *root;
++	struct inode *inode;
++	struct au_branch *br;
++	struct au_sbinfo *sbi;
++
++	au_sigen_inc(sb);
++	sbi = au_sbi(sb);
++	au_fclr_si(sbi, FAILED_REFRESH_DIR);
++
++	root = sb->s_root;
++	DiMustNoWaiters(root);
++	inode = d_inode(root);
++	IiMustNoWaiters(inode);
++
++	udba = au_opt_udba(sb);
++	bbot = au_sbbot(sb);
++	for (bindex = 0; bindex <= bbot; bindex++) {
++		br = au_sbr(sb, bindex);
++		err = au_hnotify_reset_br(udba, br, br->br_perm);
++		if (unlikely(err))
++			AuIOErr("hnotify failed on br %d, %d, ignored\n",
++				bindex, err);
++		/* go on even if err */
++	}
++	au_hn_reset(inode, au_hi_flags(inode, /*isdir*/1));
++
++	if (do_idop) {
++		if (au_ftest_si(sbi, NO_DREVAL)) {
++			AuDebugOn(sb->s_d_op == &aufs_dop_noreval);
++			sb->s_d_op = &aufs_dop_noreval;
++			AuDebugOn(sbi->si_iop_array == aufs_iop_nogetattr);
++			sbi->si_iop_array = aufs_iop_nogetattr;
++		} else {
++			AuDebugOn(sb->s_d_op == &aufs_dop);
++			sb->s_d_op = &aufs_dop;
++			AuDebugOn(sbi->si_iop_array == aufs_iop);
++			sbi->si_iop_array = aufs_iop;
++		}
++		pr_info("reset to %pf and %pf\n",
++			sb->s_d_op, sbi->si_iop_array);
++	}
++
++	di_write_unlock(root);
++	err = au_refresh_d(sb, do_idop);
++	e = au_refresh_i(sb, do_idop);
++	if (unlikely(e && !err))
++		err = e;
++	/* aufs_write_lock() calls ..._child() */
++	di_write_lock_child(root);
++
++	au_cpup_attr_all(inode, /*force*/1);
++
++	if (unlikely(err))
++		AuIOErr("refresh failed, ignored, %d\n", err);
++}
++
++/* stop extra interpretation of errno in mount(8), and strange error messages */
++static int cvt_err(int err)
++{
++	AuTraceErr(err);
++
++	switch (err) {
++	case -ENOENT:
++	case -ENOTDIR:
++	case -EEXIST:
++	case -EIO:
++		err = -EINVAL;
++	}
++	return err;
++}
++
++static int aufs_remount_fs(struct super_block *sb, int *flags, char *data)
++{
++	int err, do_dx;
++	unsigned int mntflags;
++	struct au_opts opts = {
++		.opt = NULL
++	};
++	struct dentry *root;
++	struct inode *inode;
++	struct au_sbinfo *sbinfo;
++
++	err = 0;
++	root = sb->s_root;
++	if (!data || !*data) {
++		err = si_write_lock(sb, AuLock_FLUSH | AuLock_NOPLM);
++		if (!err) {
++			di_write_lock_child(root);
++			err = au_opts_verify(sb, *flags, /*pending*/0);
++			aufs_write_unlock(root);
++		}
++		goto out;
++	}
++
++	err = -ENOMEM;
++	opts.opt = (void *)__get_free_page(GFP_NOFS);
++	if (unlikely(!opts.opt))
++		goto out;
++	opts.max_opt = PAGE_SIZE / sizeof(*opts.opt);
++	opts.flags = AuOpts_REMOUNT;
++	opts.sb_flags = *flags;
++
++	/* parse it before aufs lock */
++	err = au_opts_parse(sb, data, &opts);
++	if (unlikely(err))
++		goto out_opts;
++
++	sbinfo = au_sbi(sb);
++	inode = d_inode(root);
++	inode_lock(inode);
++	err = si_write_lock(sb, AuLock_FLUSH | AuLock_NOPLM);
++	if (unlikely(err))
++		goto out_mtx;
++	di_write_lock_child(root);
++
++	/* au_opts_remount() may return an error */
++	err = au_opts_remount(sb, &opts);
++	au_opts_free(&opts);
++
++	if (au_ftest_opts(opts.flags, REFRESH))
++		au_remount_refresh(sb, au_ftest_opts(opts.flags, REFRESH_IDOP));
++
++	if (au_ftest_opts(opts.flags, REFRESH_DYAOP)) {
++		mntflags = au_mntflags(sb);
++		do_dx = !!au_opt_test(mntflags, DIO);
++		au_dy_arefresh(do_dx);
++	}
++
++	au_fhsm_wrote_all(sb, /*force*/1); /* ?? */
++	aufs_write_unlock(root);
++
++out_mtx:
++	inode_unlock(inode);
++out_opts:
++	free_page((unsigned long)opts.opt);
++out:
++	err = cvt_err(err);
++	AuTraceErr(err);
++	return err;
++}
++
++static const struct super_operations aufs_sop = {
++	.alloc_inode	= aufs_alloc_inode,
++	.destroy_inode	= aufs_destroy_inode,
++	/* always deleting, no clearing */
++	.drop_inode	= generic_delete_inode,
++	.show_options	= aufs_show_options,
++	.statfs		= aufs_statfs,
++	.put_super	= aufs_put_super,
++	.sync_fs	= aufs_sync_fs,
++	.remount_fs	= aufs_remount_fs
++};
++
++/* ---------------------------------------------------------------------- */
++
++static int alloc_root(struct super_block *sb)
++{
++	int err;
++	struct inode *inode;
++	struct dentry *root;
++
++	err = -ENOMEM;
++	inode = au_iget_locked(sb, AUFS_ROOT_INO);
++	err = PTR_ERR(inode);
++	if (IS_ERR(inode))
++		goto out;
++
++	inode->i_op = aufs_iop + AuIop_DIR; /* with getattr by default */
++	inode->i_fop = &aufs_dir_fop;
++	inode->i_mode = S_IFDIR;
++	set_nlink(inode, 2);
++	unlock_new_inode(inode);
++
++	root = d_make_root(inode);
++	if (unlikely(!root))
++		goto out;
++	err = PTR_ERR(root);
++	if (IS_ERR(root))
++		goto out;
++
++	err = au_di_init(root);
++	if (!err) {
++		sb->s_root = root;
++		return 0; /* success */
++	}
++	dput(root);
++
++out:
++	return err;
++}
++
++static int aufs_fill_super(struct super_block *sb, void *raw_data,
++			   int silent __maybe_unused)
++{
++	int err;
++	struct au_opts opts = {
++		.opt = NULL
++	};
++	struct au_sbinfo *sbinfo;
++	struct dentry *root;
++	struct inode *inode;
++	char *arg = raw_data;
++
++	if (unlikely(!arg || !*arg)) {
++		err = -EINVAL;
++		pr_err("no arg\n");
++		goto out;
++	}
++
++	err = -ENOMEM;
++	opts.opt = (void *)__get_free_page(GFP_NOFS);
++	if (unlikely(!opts.opt))
++		goto out;
++	opts.max_opt = PAGE_SIZE / sizeof(*opts.opt);
++	opts.sb_flags = sb->s_flags;
++
++	err = au_si_alloc(sb);
++	if (unlikely(err))
++		goto out_opts;
++	sbinfo = au_sbi(sb);
++
++	/* all timestamps always follow the ones on the branch */
++	sb->s_flags |= MS_NOATIME | MS_NODIRATIME;
++	sb->s_op = &aufs_sop;
++	sb->s_d_op = &aufs_dop;
++	sb->s_magic = AUFS_SUPER_MAGIC;
++	sb->s_maxbytes = 0;
++	sb->s_stack_depth = 1;
++	au_export_init(sb);
++	au_xattr_init(sb);
++
++	err = alloc_root(sb);
++	if (unlikely(err)) {
++		si_write_unlock(sb);
++		goto out_info;
++	}
++	root = sb->s_root;
++	inode = d_inode(root);
++
++	/*
++	 * actually we can parse options regardless aufs lock here.
++	 * but at remount time, parsing must be done before aufs lock.
++	 * so we follow the same rule.
++	 */
++	ii_write_lock_parent(inode);
++	aufs_write_unlock(root);
++	err = au_opts_parse(sb, arg, &opts);
++	if (unlikely(err))
++		goto out_root;
++
++	/* lock vfs_inode first, then aufs. */
++	inode_lock(inode);
++	aufs_write_lock(root);
++	err = au_opts_mount(sb, &opts);
++	au_opts_free(&opts);
++	if (!err && au_ftest_si(sbinfo, NO_DREVAL)) {
++		sb->s_d_op = &aufs_dop_noreval;
++		pr_info("%pf\n", sb->s_d_op);
++		au_refresh_dop(root, /*force_reval*/0);
++		sbinfo->si_iop_array = aufs_iop_nogetattr;
++		au_refresh_iop(inode, /*force_getattr*/0);
++	}
++	aufs_write_unlock(root);
++	inode_unlock(inode);
++	if (!err)
++		goto out_opts; /* success */
++
++out_root:
++	dput(root);
++	sb->s_root = NULL;
++out_info:
++	dbgaufs_si_fin(sbinfo);
++	kobject_put(&sbinfo->si_kobj);
++	sb->s_fs_info = NULL;
++out_opts:
++	free_page((unsigned long)opts.opt);
++out:
++	AuTraceErr(err);
++	err = cvt_err(err);
++	AuTraceErr(err);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static struct dentry *aufs_mount(struct file_system_type *fs_type, int flags,
++				 const char *dev_name __maybe_unused,
++				 void *raw_data)
++{
++	struct dentry *root;
++	struct super_block *sb;
++
++	/* all timestamps always follow the ones on the branch */
++	/* mnt->mnt_flags |= MNT_NOATIME | MNT_NODIRATIME; */
++	root = mount_nodev(fs_type, flags, raw_data, aufs_fill_super);
++	if (IS_ERR(root))
++		goto out;
++
++	sb = root->d_sb;
++	si_write_lock(sb, !AuLock_FLUSH);
++	sysaufs_brs_add(sb, 0);
++	si_write_unlock(sb);
++	au_sbilist_add(sb);
++
++out:
++	return root;
++}
++
++static void aufs_kill_sb(struct super_block *sb)
++{
++	struct au_sbinfo *sbinfo;
++
++	sbinfo = au_sbi(sb);
++	if (sbinfo) {
++		au_sbilist_del(sb);
++		aufs_write_lock(sb->s_root);
++		au_fhsm_fin(sb);
++		if (sbinfo->si_wbr_create_ops->fin)
++			sbinfo->si_wbr_create_ops->fin(sb);
++		if (au_opt_test(sbinfo->si_mntflags, UDBA_HNOTIFY)) {
++			au_opt_set_udba(sbinfo->si_mntflags, UDBA_NONE);
++			au_remount_refresh(sb, /*do_idop*/0);
++		}
++		if (au_opt_test(sbinfo->si_mntflags, PLINK))
++			au_plink_put(sb, /*verbose*/1);
++		au_xino_clr(sb);
++		sbinfo->si_sb = NULL;
++		aufs_write_unlock(sb->s_root);
++		au_nwt_flush(&sbinfo->si_nowait);
++	}
++	kill_anon_super(sb);
++}
++
++struct file_system_type aufs_fs_type = {
++	.name		= AUFS_FSTYPE,
++	/* a race between rename and others */
++	.fs_flags	= FS_RENAME_DOES_D_MOVE,
++	.mount		= aufs_mount,
++	.kill_sb	= aufs_kill_sb,
++	/* no need to __module_get() and module_put(). */
++	.owner		= THIS_MODULE,
++};
+diff --git a/fs/aufs/super.h b/fs/aufs/super.h
+new file mode 100755
+index 0000000..dede05b
+--- /dev/null
++++ b/fs/aufs/super.h
+@@ -0,0 +1,617 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * super_block operations
++ */
++
++#ifndef __AUFS_SUPER_H__
++#define __AUFS_SUPER_H__
++
++#ifdef __KERNEL__
++
++#include <linux/fs.h>
++#include <linux/kobject.h>
++#include "rwsem.h"
++#include "spl.h"
++#include "wkq.h"
++
++/* policies to select one among multiple writable branches */
++struct au_wbr_copyup_operations {
++	int (*copyup)(struct dentry *dentry);
++};
++
++#define AuWbr_DIR	1		/* target is a dir */
++#define AuWbr_PARENT	(1 << 1)	/* always require a parent */
++
++#define au_ftest_wbr(flags, name)	((flags) & AuWbr_##name)
++#define au_fset_wbr(flags, name)	{ (flags) |= AuWbr_##name; }
++#define au_fclr_wbr(flags, name)	{ (flags) &= ~AuWbr_##name; }
++
++struct au_wbr_create_operations {
++	int (*create)(struct dentry *dentry, unsigned int flags);
++	int (*init)(struct super_block *sb);
++	int (*fin)(struct super_block *sb);
++};
++
++struct au_wbr_mfs {
++	struct mutex	mfs_lock; /* protect this structure */
++	unsigned long	mfs_jiffy;
++	unsigned long	mfs_expire;
++	aufs_bindex_t	mfs_bindex;
++
++	unsigned long long	mfsrr_bytes;
++	unsigned long long	mfsrr_watermark;
++};
++
++#define AuPlink_NHASH 100
++static inline int au_plink_hash(ino_t ino)
++{
++	return ino % AuPlink_NHASH;
++}
++
++/* File-based Hierarchical Storage Management */
++struct au_fhsm {
++#ifdef CONFIG_AUFS_FHSM
++	/* allow only one process who can receive the notification */
++	spinlock_t		fhsm_spin;
++	pid_t			fhsm_pid;
++	wait_queue_head_t	fhsm_wqh;
++	atomic_t		fhsm_readable;
++
++	/* these are protected by si_rwsem */
++	unsigned long		fhsm_expire;
++	aufs_bindex_t		fhsm_bottom;
++#endif
++};
++
++struct au_branch;
++struct au_sbinfo {
++	/* nowait tasks in the system-wide workqueue */
++	struct au_nowait_tasks	si_nowait;
++
++	/*
++	 * tried sb->s_umount, but failed due to the dependecy between i_mutex.
++	 * rwsem for au_sbinfo is necessary.
++	 */
++	struct au_rwsem		si_rwsem;
++
++	/*
++	 * dirty approach to protect sb->sb_inodes and ->s_files (gone) from
++	 * remount.
++	 */
++	struct percpu_counter	si_ninodes, si_nfiles;
++
++	/* branch management */
++	unsigned int		si_generation;
++
++	/* see AuSi_ flags */
++	unsigned char		au_si_status;
++
++	aufs_bindex_t		si_bbot;
++
++	/* dirty trick to keep br_id plus */
++	unsigned int		si_last_br_id :
++				sizeof(aufs_bindex_t) * BITS_PER_BYTE - 1;
++	struct au_branch	**si_branch;
++
++	/* policy to select a writable branch */
++	unsigned char		si_wbr_copyup;
++	unsigned char		si_wbr_create;
++	struct au_wbr_copyup_operations *si_wbr_copyup_ops;
++	struct au_wbr_create_operations *si_wbr_create_ops;
++
++	/* round robin */
++	atomic_t		si_wbr_rr_next;
++
++	/* most free space */
++	struct au_wbr_mfs	si_wbr_mfs;
++
++	/* File-based Hierarchical Storage Management */
++	struct au_fhsm		si_fhsm;
++
++	/* mount flags */
++	/* include/asm-ia64/siginfo.h defines a macro named si_flags */
++	unsigned int		si_mntflags;
++
++	/* external inode number (bitmap and translation table) */
++	vfs_readf_t		si_xread;
++	vfs_writef_t		si_xwrite;
++	struct file		*si_xib;
++	struct mutex		si_xib_mtx; /* protect xib members */
++	unsigned long		*si_xib_buf;
++	unsigned long		si_xib_last_pindex;
++	int			si_xib_next_bit;
++	aufs_bindex_t		si_xino_brid;
++	unsigned long		si_xino_jiffy;
++	unsigned long		si_xino_expire;
++	/* reserved for future use */
++	/* unsigned long long	si_xib_limit; */	/* Max xib file size */
++
++#ifdef CONFIG_AUFS_EXPORT
++	/* i_generation */
++	struct file		*si_xigen;
++	atomic_t		si_xigen_next;
++#endif
++
++	/* dirty trick to suppoer atomic_open */
++	struct au_sphlhead	si_aopen;
++
++	/* vdir parameters */
++	unsigned long		si_rdcache;	/* max cache time in jiffies */
++	unsigned int		si_rdblk;	/* deblk size */
++	unsigned int		si_rdhash;	/* hash size */
++
++	/*
++	 * If the number of whiteouts are larger than si_dirwh, leave all of
++	 * them after au_whtmp_ren to reduce the cost of rmdir(2).
++	 * future fsck.aufs or kernel thread will remove them later.
++	 * Otherwise, remove all whiteouts and the dir in rmdir(2).
++	 */
++	unsigned int		si_dirwh;
++
++	/* pseudo_link list */
++	struct au_sphlhead	si_plink[AuPlink_NHASH];
++	wait_queue_head_t	si_plink_wq;
++	spinlock_t		si_plink_maint_lock;
++	pid_t			si_plink_maint_pid;
++
++	/* file list */
++	struct au_sphlhead	si_files;
++
++	/* with/without getattr, brother of sb->s_d_op */
++	struct inode_operations *si_iop_array;
++
++	/*
++	 * sysfs and lifetime management.
++	 * this is not a small structure and it may be a waste of memory in case
++	 * of sysfs is disabled, particulary when many aufs-es are mounted.
++	 * but using sysfs is majority.
++	 */
++	struct kobject		si_kobj;
++#ifdef CONFIG_DEBUG_FS
++	struct dentry		 *si_dbgaufs;
++	struct dentry		 *si_dbgaufs_plink;
++	struct dentry		 *si_dbgaufs_xib;
++#ifdef CONFIG_AUFS_EXPORT
++	struct dentry		 *si_dbgaufs_xigen;
++#endif
++#endif
++
++#ifdef CONFIG_AUFS_SBILIST
++	struct hlist_node	si_list;
++#endif
++
++	/* dirty, necessary for unmounting, sysfs and sysrq */
++	struct super_block	*si_sb;
++};
++
++/* sbinfo status flags */
++/*
++ * set true when refresh_dirs() failed at remount time.
++ * then try refreshing dirs at access time again.
++ * if it is false, refreshing dirs at access time is unnecesary
++ */
++#define AuSi_FAILED_REFRESH_DIR	1
++#define AuSi_FHSM		(1 << 1)	/* fhsm is active now */
++#define AuSi_NO_DREVAL		(1 << 2)	/* disable all d_revalidate */
++
++#ifndef CONFIG_AUFS_FHSM
++#undef AuSi_FHSM
++#define AuSi_FHSM		0
++#endif
++
++static inline unsigned char au_do_ftest_si(struct au_sbinfo *sbi,
++					   unsigned int flag)
++{
++	AuRwMustAnyLock(&sbi->si_rwsem);
++	return sbi->au_si_status & flag;
++}
++#define au_ftest_si(sbinfo, name)	au_do_ftest_si(sbinfo, AuSi_##name)
++#define au_fset_si(sbinfo, name) do { \
++	AuRwMustWriteLock(&(sbinfo)->si_rwsem); \
++	(sbinfo)->au_si_status |= AuSi_##name; \
++} while (0)
++#define au_fclr_si(sbinfo, name) do { \
++	AuRwMustWriteLock(&(sbinfo)->si_rwsem); \
++	(sbinfo)->au_si_status &= ~AuSi_##name; \
++} while (0)
++
++/* ---------------------------------------------------------------------- */
++
++/* policy to select one among writable branches */
++#define AuWbrCopyup(sbinfo, ...) \
++	((sbinfo)->si_wbr_copyup_ops->copyup(__VA_ARGS__))
++#define AuWbrCreate(sbinfo, ...) \
++	((sbinfo)->si_wbr_create_ops->create(__VA_ARGS__))
++
++/* flags for si_read_lock()/aufs_read_lock()/di_read_lock() */
++#define AuLock_DW		1		/* write-lock dentry */
++#define AuLock_IR		(1 << 1)	/* read-lock inode */
++#define AuLock_IW		(1 << 2)	/* write-lock inode */
++#define AuLock_FLUSH		(1 << 3)	/* wait for 'nowait' tasks */
++#define AuLock_DIRS		(1 << 4)	/* target is a pair of dirs */
++						/* except RENAME_EXCHANGE */
++#define AuLock_NOPLM		(1 << 5)	/* return err in plm mode */
++#define AuLock_NOPLMW		(1 << 6)	/* wait for plm mode ends */
++#define AuLock_GEN		(1 << 7)	/* test digen/iigen */
++#define au_ftest_lock(flags, name)	((flags) & AuLock_##name)
++#define au_fset_lock(flags, name) \
++	do { (flags) |= AuLock_##name; } while (0)
++#define au_fclr_lock(flags, name) \
++	do { (flags) &= ~AuLock_##name; } while (0)
++
++/* ---------------------------------------------------------------------- */
++
++/* super.c */
++extern struct file_system_type aufs_fs_type;
++struct inode *au_iget_locked(struct super_block *sb, ino_t ino);
++typedef unsigned long long (*au_arraycb_t)(struct super_block *sb, void *array,
++					   unsigned long long max, void *arg);
++void *au_array_alloc(unsigned long long *hint, au_arraycb_t cb,
++		     struct super_block *sb, void *arg);
++struct inode **au_iarray_alloc(struct super_block *sb, unsigned long long *max);
++void au_iarray_free(struct inode **a, unsigned long long max);
++
++/* sbinfo.c */
++void au_si_free(struct kobject *kobj);
++int au_si_alloc(struct super_block *sb);
++int au_sbr_realloc(struct au_sbinfo *sbinfo, int nbr, int may_shrink);
++
++unsigned int au_sigen_inc(struct super_block *sb);
++aufs_bindex_t au_new_br_id(struct super_block *sb);
++
++int si_read_lock(struct super_block *sb, int flags);
++int si_write_lock(struct super_block *sb, int flags);
++int aufs_read_lock(struct dentry *dentry, int flags);
++void aufs_read_unlock(struct dentry *dentry, int flags);
++void aufs_write_lock(struct dentry *dentry);
++void aufs_write_unlock(struct dentry *dentry);
++int aufs_read_and_write_lock2(struct dentry *d1, struct dentry *d2, int flags);
++void aufs_read_and_write_unlock2(struct dentry *d1, struct dentry *d2);
++
++/* wbr_policy.c */
++extern struct au_wbr_copyup_operations au_wbr_copyup_ops[];
++extern struct au_wbr_create_operations au_wbr_create_ops[];
++int au_cpdown_dirs(struct dentry *dentry, aufs_bindex_t bdst);
++int au_wbr_nonopq(struct dentry *dentry, aufs_bindex_t bindex);
++int au_wbr_do_copyup_bu(struct dentry *dentry, aufs_bindex_t btop);
++
++/* mvdown.c */
++int au_mvdown(struct dentry *dentry, struct aufs_mvdown __user *arg);
++
++#ifdef CONFIG_AUFS_FHSM
++/* fhsm.c */
++
++static inline pid_t au_fhsm_pid(struct au_fhsm *fhsm)
++{
++	pid_t pid;
++
++	spin_lock(&fhsm->fhsm_spin);
++	pid = fhsm->fhsm_pid;
++	spin_unlock(&fhsm->fhsm_spin);
++
++	return pid;
++}
++
++void au_fhsm_wrote(struct super_block *sb, aufs_bindex_t bindex, int force);
++void au_fhsm_wrote_all(struct super_block *sb, int force);
++int au_fhsm_fd(struct super_block *sb, int oflags);
++int au_fhsm_br_alloc(struct au_branch *br);
++void au_fhsm_set_bottom(struct super_block *sb, aufs_bindex_t bindex);
++void au_fhsm_fin(struct super_block *sb);
++void au_fhsm_init(struct au_sbinfo *sbinfo);
++void au_fhsm_set(struct au_sbinfo *sbinfo, unsigned int sec);
++void au_fhsm_show(struct seq_file *seq, struct au_sbinfo *sbinfo);
++#else
++AuStubVoid(au_fhsm_wrote, struct super_block *sb, aufs_bindex_t bindex,
++	   int force)
++AuStubVoid(au_fhsm_wrote_all, struct super_block *sb, int force)
++AuStub(int, au_fhsm_fd, return -EOPNOTSUPP, struct super_block *sb, int oflags)
++AuStub(pid_t, au_fhsm_pid, return 0, struct au_fhsm *fhsm)
++AuStubInt0(au_fhsm_br_alloc, struct au_branch *br)
++AuStubVoid(au_fhsm_set_bottom, struct super_block *sb, aufs_bindex_t bindex)
++AuStubVoid(au_fhsm_fin, struct super_block *sb)
++AuStubVoid(au_fhsm_init, struct au_sbinfo *sbinfo)
++AuStubVoid(au_fhsm_set, struct au_sbinfo *sbinfo, unsigned int sec)
++AuStubVoid(au_fhsm_show, struct seq_file *seq, struct au_sbinfo *sbinfo)
++#endif
++
++/* ---------------------------------------------------------------------- */
++
++static inline struct au_sbinfo *au_sbi(struct super_block *sb)
++{
++	return sb->s_fs_info;
++}
++
++/* ---------------------------------------------------------------------- */
++
++#ifdef CONFIG_AUFS_EXPORT
++int au_test_nfsd(void);
++void au_export_init(struct super_block *sb);
++void au_xigen_inc(struct inode *inode);
++int au_xigen_new(struct inode *inode);
++int au_xigen_set(struct super_block *sb, struct file *base);
++void au_xigen_clr(struct super_block *sb);
++
++static inline int au_busy_or_stale(void)
++{
++	if (!au_test_nfsd())
++		return -EBUSY;
++	return -ESTALE;
++}
++#else
++AuStubInt0(au_test_nfsd, void)
++AuStubVoid(au_export_init, struct super_block *sb)
++AuStubVoid(au_xigen_inc, struct inode *inode)
++AuStubInt0(au_xigen_new, struct inode *inode)
++AuStubInt0(au_xigen_set, struct super_block *sb, struct file *base)
++AuStubVoid(au_xigen_clr, struct super_block *sb)
++AuStub(int, au_busy_or_stale, return -EBUSY, void)
++#endif /* CONFIG_AUFS_EXPORT */
++
++/* ---------------------------------------------------------------------- */
++
++#ifdef CONFIG_AUFS_SBILIST
++/* module.c */
++extern struct au_sphlhead au_sbilist;
++
++static inline void au_sbilist_init(void)
++{
++	au_sphl_init(&au_sbilist);
++}
++
++static inline void au_sbilist_add(struct super_block *sb)
++{
++	au_sphl_add(&au_sbi(sb)->si_list, &au_sbilist);
++}
++
++static inline void au_sbilist_del(struct super_block *sb)
++{
++	au_sphl_del(&au_sbi(sb)->si_list, &au_sbilist);
++}
++
++#ifdef CONFIG_AUFS_MAGIC_SYSRQ
++static inline void au_sbilist_lock(void)
++{
++	spin_lock(&au_sbilist.spin);
++}
++
++static inline void au_sbilist_unlock(void)
++{
++	spin_unlock(&au_sbilist.spin);
++}
++#define AuGFP_SBILIST	GFP_ATOMIC
++#else
++AuStubVoid(au_sbilist_lock, void)
++AuStubVoid(au_sbilist_unlock, void)
++#define AuGFP_SBILIST	GFP_NOFS
++#endif /* CONFIG_AUFS_MAGIC_SYSRQ */
++#else
++AuStubVoid(au_sbilist_init, void)
++AuStubVoid(au_sbilist_add, struct super_block *sb)
++AuStubVoid(au_sbilist_del, struct super_block *sb)
++AuStubVoid(au_sbilist_lock, void)
++AuStubVoid(au_sbilist_unlock, void)
++#define AuGFP_SBILIST	GFP_NOFS
++#endif
++
++/* ---------------------------------------------------------------------- */
++
++static inline void dbgaufs_si_null(struct au_sbinfo *sbinfo)
++{
++	/*
++	 * This function is a dynamic '__init' function actually,
++	 * so the tiny check for si_rwsem is unnecessary.
++	 */
++	/* AuRwMustWriteLock(&sbinfo->si_rwsem); */
++#ifdef CONFIG_DEBUG_FS
++	sbinfo->si_dbgaufs = NULL;
++	sbinfo->si_dbgaufs_plink = NULL;
++	sbinfo->si_dbgaufs_xib = NULL;
++#ifdef CONFIG_AUFS_EXPORT
++	sbinfo->si_dbgaufs_xigen = NULL;
++#endif
++#endif
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* current->atomic_flags */
++/* this value should never corrupt the ones defined in linux/sched.h */
++#define PFA_AUFS	7
++
++TASK_PFA_TEST(AUFS, test_aufs)	/* task_test_aufs */
++TASK_PFA_SET(AUFS, aufs)	/* task_set_aufs */
++TASK_PFA_CLEAR(AUFS, aufs)	/* task_clear_aufs */
++
++static inline int si_pid_test(struct super_block *sb)
++{
++	return !!task_test_aufs(current);
++}
++
++static inline void si_pid_clr(struct super_block *sb)
++{
++	AuDebugOn(!task_test_aufs(current));
++	task_clear_aufs(current);
++}
++
++static inline void si_pid_set(struct super_block *sb)
++{
++	AuDebugOn(task_test_aufs(current));
++	task_set_aufs(current);
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* lock superblock. mainly for entry point functions */
++/*
++ * __si_read_lock, __si_write_lock,
++ * __si_read_unlock, __si_write_unlock, __si_downgrade_lock
++ */
++AuSimpleRwsemFuncs(__si, struct super_block *sb, &au_sbi(sb)->si_rwsem);
++
++#define SiMustNoWaiters(sb)	AuRwMustNoWaiters(&au_sbi(sb)->si_rwsem)
++#define SiMustAnyLock(sb)	AuRwMustAnyLock(&au_sbi(sb)->si_rwsem)
++#define SiMustWriteLock(sb)	AuRwMustWriteLock(&au_sbi(sb)->si_rwsem)
++
++static inline void si_noflush_read_lock(struct super_block *sb)
++{
++	__si_read_lock(sb);
++	si_pid_set(sb);
++}
++
++static inline int si_noflush_read_trylock(struct super_block *sb)
++{
++	int locked;
++
++	locked = __si_read_trylock(sb);
++	if (locked)
++		si_pid_set(sb);
++	return locked;
++}
++
++static inline void si_noflush_write_lock(struct super_block *sb)
++{
++	__si_write_lock(sb);
++	si_pid_set(sb);
++}
++
++static inline int si_noflush_write_trylock(struct super_block *sb)
++{
++	int locked;
++
++	locked = __si_write_trylock(sb);
++	if (locked)
++		si_pid_set(sb);
++	return locked;
++}
++
++#if 0 /* reserved */
++static inline int si_read_trylock(struct super_block *sb, int flags)
++{
++	if (au_ftest_lock(flags, FLUSH))
++		au_nwt_flush(&au_sbi(sb)->si_nowait);
++	return si_noflush_read_trylock(sb);
++}
++#endif
++
++static inline void si_read_unlock(struct super_block *sb)
++{
++	si_pid_clr(sb);
++	__si_read_unlock(sb);
++}
++
++#if 0 /* reserved */
++static inline int si_write_trylock(struct super_block *sb, int flags)
++{
++	if (au_ftest_lock(flags, FLUSH))
++		au_nwt_flush(&au_sbi(sb)->si_nowait);
++	return si_noflush_write_trylock(sb);
++}
++#endif
++
++static inline void si_write_unlock(struct super_block *sb)
++{
++	si_pid_clr(sb);
++	__si_write_unlock(sb);
++}
++
++#if 0 /* reserved */
++static inline void si_downgrade_lock(struct super_block *sb)
++{
++	__si_downgrade_lock(sb);
++}
++#endif
++
++/* ---------------------------------------------------------------------- */
++
++static inline aufs_bindex_t au_sbbot(struct super_block *sb)
++{
++	SiMustAnyLock(sb);
++	return au_sbi(sb)->si_bbot;
++}
++
++static inline unsigned int au_mntflags(struct super_block *sb)
++{
++	SiMustAnyLock(sb);
++	return au_sbi(sb)->si_mntflags;
++}
++
++static inline unsigned int au_sigen(struct super_block *sb)
++{
++	SiMustAnyLock(sb);
++	return au_sbi(sb)->si_generation;
++}
++
++static inline unsigned long long au_ninodes(struct super_block *sb)
++{
++	s64 n = percpu_counter_sum(&au_sbi(sb)->si_ninodes);
++
++	BUG_ON(n < 0);
++	return n;
++}
++
++static inline void au_ninodes_inc(struct super_block *sb)
++{
++	percpu_counter_inc(&au_sbi(sb)->si_ninodes);
++}
++
++static inline void au_ninodes_dec(struct super_block *sb)
++{
++	percpu_counter_dec(&au_sbi(sb)->si_ninodes);
++}
++
++static inline unsigned long long au_nfiles(struct super_block *sb)
++{
++	s64 n = percpu_counter_sum(&au_sbi(sb)->si_nfiles);
++
++	BUG_ON(n < 0);
++	return n;
++}
++
++static inline void au_nfiles_inc(struct super_block *sb)
++{
++	percpu_counter_inc(&au_sbi(sb)->si_nfiles);
++}
++
++static inline void au_nfiles_dec(struct super_block *sb)
++{
++	percpu_counter_dec(&au_sbi(sb)->si_nfiles);
++}
++
++static inline struct au_branch *au_sbr(struct super_block *sb,
++				       aufs_bindex_t bindex)
++{
++	SiMustAnyLock(sb);
++	return au_sbi(sb)->si_branch[0 + bindex];
++}
++
++static inline void au_xino_brid_set(struct super_block *sb, aufs_bindex_t brid)
++{
++	SiMustWriteLock(sb);
++	au_sbi(sb)->si_xino_brid = brid;
++}
++
++static inline aufs_bindex_t au_xino_brid(struct super_block *sb)
++{
++	SiMustAnyLock(sb);
++	return au_sbi(sb)->si_xino_brid;
++}
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_SUPER_H__ */
+diff --git a/fs/aufs/sysaufs.c b/fs/aufs/sysaufs.c
+new file mode 100755
+index 0000000..3f172fd
+--- /dev/null
++++ b/fs/aufs/sysaufs.c
+@@ -0,0 +1,104 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * sysfs interface and lifetime management
++ * they are necessary regardless sysfs is disabled.
++ */
++
++#include <linux/random.h>
++#include "aufs.h"
++
++unsigned long sysaufs_si_mask;
++struct kset *sysaufs_kset;
++
++#define AuSiAttr(_name) { \
++	.attr   = { .name = __stringify(_name), .mode = 0444 },	\
++	.show   = sysaufs_si_##_name,				\
++}
++
++static struct sysaufs_si_attr sysaufs_si_attr_xi_path = AuSiAttr(xi_path);
++struct attribute *sysaufs_si_attrs[] = {
++	&sysaufs_si_attr_xi_path.attr,
++	NULL,
++};
++
++static const struct sysfs_ops au_sbi_ops = {
++	.show   = sysaufs_si_show
++};
++
++static struct kobj_type au_sbi_ktype = {
++	.release	= au_si_free,
++	.sysfs_ops	= &au_sbi_ops,
++	.default_attrs	= sysaufs_si_attrs
++};
++
++/* ---------------------------------------------------------------------- */
++
++int sysaufs_si_init(struct au_sbinfo *sbinfo)
++{
++	int err;
++
++	sbinfo->si_kobj.kset = sysaufs_kset;
++	/* cf. sysaufs_name() */
++	err = kobject_init_and_add
++		(&sbinfo->si_kobj, &au_sbi_ktype, /*&sysaufs_kset->kobj*/NULL,
++		 SysaufsSiNamePrefix "%lx", sysaufs_si_id(sbinfo));
++
++	dbgaufs_si_null(sbinfo);
++	if (!err) {
++		err = dbgaufs_si_init(sbinfo);
++		if (unlikely(err))
++			kobject_put(&sbinfo->si_kobj);
++	}
++	return err;
++}
++
++void sysaufs_fin(void)
++{
++	dbgaufs_fin();
++	sysfs_remove_group(&sysaufs_kset->kobj, sysaufs_attr_group);
++	kset_unregister(sysaufs_kset);
++}
++
++int __init sysaufs_init(void)
++{
++	int err;
++
++	do {
++		get_random_bytes(&sysaufs_si_mask, sizeof(sysaufs_si_mask));
++	} while (!sysaufs_si_mask);
++
++	err = -EINVAL;
++	sysaufs_kset = kset_create_and_add(AUFS_NAME, NULL, fs_kobj);
++	if (unlikely(!sysaufs_kset))
++		goto out;
++	err = PTR_ERR(sysaufs_kset);
++	if (IS_ERR(sysaufs_kset))
++		goto out;
++	err = sysfs_create_group(&sysaufs_kset->kobj, sysaufs_attr_group);
++	if (unlikely(err)) {
++		kset_unregister(sysaufs_kset);
++		goto out;
++	}
++
++	err = dbgaufs_init();
++	if (unlikely(err))
++		sysaufs_fin();
++out:
++	return err;
++}
+diff --git a/fs/aufs/sysaufs.h b/fs/aufs/sysaufs.h
+new file mode 100755
+index 0000000..3330733
+--- /dev/null
++++ b/fs/aufs/sysaufs.h
+@@ -0,0 +1,101 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * sysfs interface and mount lifetime management
++ */
++
++#ifndef __SYSAUFS_H__
++#define __SYSAUFS_H__
++
++#ifdef __KERNEL__
++
++#include <linux/sysfs.h>
++#include "module.h"
++
++struct super_block;
++struct au_sbinfo;
++
++struct sysaufs_si_attr {
++	struct attribute attr;
++	int (*show)(struct seq_file *seq, struct super_block *sb);
++};
++
++/* ---------------------------------------------------------------------- */
++
++/* sysaufs.c */
++extern unsigned long sysaufs_si_mask;
++extern struct kset *sysaufs_kset;
++extern struct attribute *sysaufs_si_attrs[];
++int sysaufs_si_init(struct au_sbinfo *sbinfo);
++int __init sysaufs_init(void);
++void sysaufs_fin(void);
++
++/* ---------------------------------------------------------------------- */
++
++/* some people doesn't like to show a pointer in kernel */
++static inline unsigned long sysaufs_si_id(struct au_sbinfo *sbinfo)
++{
++	return sysaufs_si_mask ^ (unsigned long)sbinfo;
++}
++
++#define SysaufsSiNamePrefix	"si_"
++#define SysaufsSiNameLen	(sizeof(SysaufsSiNamePrefix) + 16)
++static inline void sysaufs_name(struct au_sbinfo *sbinfo, char *name)
++{
++	snprintf(name, SysaufsSiNameLen, SysaufsSiNamePrefix "%lx",
++		 sysaufs_si_id(sbinfo));
++}
++
++struct au_branch;
++#ifdef CONFIG_SYSFS
++/* sysfs.c */
++extern struct attribute_group *sysaufs_attr_group;
++
++int sysaufs_si_xi_path(struct seq_file *seq, struct super_block *sb);
++ssize_t sysaufs_si_show(struct kobject *kobj, struct attribute *attr,
++			 char *buf);
++long au_brinfo_ioctl(struct file *file, unsigned long arg);
++#ifdef CONFIG_COMPAT
++long au_brinfo_compat_ioctl(struct file *file, unsigned long arg);
++#endif
++
++void sysaufs_br_init(struct au_branch *br);
++void sysaufs_brs_add(struct super_block *sb, aufs_bindex_t bindex);
++void sysaufs_brs_del(struct super_block *sb, aufs_bindex_t bindex);
++
++#define sysaufs_brs_init()	do {} while (0)
++
++#else
++#define sysaufs_attr_group	NULL
++
++AuStubInt0(sysaufs_si_xi_path, struct seq_file *seq, struct super_block *sb)
++AuStub(ssize_t, sysaufs_si_show, return 0, struct kobject *kobj,
++       struct attribute *attr, char *buf)
++AuStubVoid(sysaufs_br_init, struct au_branch *br)
++AuStubVoid(sysaufs_brs_add, struct super_block *sb, aufs_bindex_t bindex)
++AuStubVoid(sysaufs_brs_del, struct super_block *sb, aufs_bindex_t bindex)
++
++static inline void sysaufs_brs_init(void)
++{
++	sysaufs_brs = 0;
++}
++
++#endif /* CONFIG_SYSFS */
++
++#endif /* __KERNEL__ */
++#endif /* __SYSAUFS_H__ */
+diff --git a/fs/aufs/sysfs.c b/fs/aufs/sysfs.c
+new file mode 100755
+index 0000000..096bde9
+--- /dev/null
++++ b/fs/aufs/sysfs.c
+@@ -0,0 +1,376 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * sysfs interface
++ */
++
++#include <linux/compat.h>
++#include <linux/seq_file.h>
++#include "aufs.h"
++
++#ifdef CONFIG_AUFS_FS_MODULE
++/* this entry violates the "one line per file" policy of sysfs */
++static ssize_t config_show(struct kobject *kobj, struct kobj_attribute *attr,
++			   char *buf)
++{
++	ssize_t err;
++	static char *conf =
++/* this file is generated at compiling */
++#include "conf.str"
++		;
++
++	err = snprintf(buf, PAGE_SIZE, conf);
++	if (unlikely(err >= PAGE_SIZE))
++		err = -EFBIG;
++	return err;
++}
++
++static struct kobj_attribute au_config_attr = __ATTR_RO(config);
++#endif
++
++static struct attribute *au_attr[] = {
++#ifdef CONFIG_AUFS_FS_MODULE
++	&au_config_attr.attr,
++#endif
++	NULL,	/* need to NULL terminate the list of attributes */
++};
++
++static struct attribute_group sysaufs_attr_group_body = {
++	.attrs = au_attr
++};
++
++struct attribute_group *sysaufs_attr_group = &sysaufs_attr_group_body;
++
++/* ---------------------------------------------------------------------- */
++
++int sysaufs_si_xi_path(struct seq_file *seq, struct super_block *sb)
++{
++	int err;
++
++	SiMustAnyLock(sb);
++
++	err = 0;
++	if (au_opt_test(au_mntflags(sb), XINO)) {
++		err = au_xino_path(seq, au_sbi(sb)->si_xib);
++		seq_putc(seq, '\n');
++	}
++	return err;
++}
++
++/*
++ * the lifetime of branch is independent from the entry under sysfs.
++ * sysfs handles the lifetime of the entry, and never call ->show() after it is
++ * unlinked.
++ */
++static int sysaufs_si_br(struct seq_file *seq, struct super_block *sb,
++			 aufs_bindex_t bindex, int idx)
++{
++	int err;
++	struct path path;
++	struct dentry *root;
++	struct au_branch *br;
++	au_br_perm_str_t perm;
++
++	AuDbg("b%d\n", bindex);
++
++	err = 0;
++	root = sb->s_root;
++	di_read_lock_parent(root, !AuLock_IR);
++	br = au_sbr(sb, bindex);
++
++	switch (idx) {
++	case AuBrSysfs_BR:
++		path.mnt = au_br_mnt(br);
++		path.dentry = au_h_dptr(root, bindex);
++		err = au_seq_path(seq, &path);
++		if (!err) {
++			au_optstr_br_perm(&perm, br->br_perm);
++			seq_printf(seq, "=%s\n", perm.a);
++		}
++		break;
++	case AuBrSysfs_BRID:
++		seq_printf(seq, "%d\n", br->br_id);
++		break;
++	}
++	di_read_unlock(root, !AuLock_IR);
++	if (unlikely(err || seq_has_overflowed(seq)))
++		err = -E2BIG;
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static struct seq_file *au_seq(char *p, ssize_t len)
++{
++	struct seq_file *seq;
++
++	seq = kzalloc(sizeof(*seq), GFP_NOFS);
++	if (seq) {
++		/* mutex_init(&seq.lock); */
++		seq->buf = p;
++		seq->size = len;
++		return seq; /* success */
++	}
++
++	seq = ERR_PTR(-ENOMEM);
++	return seq;
++}
++
++#define SysaufsBr_PREFIX	"br"
++#define SysaufsBrid_PREFIX	"brid"
++
++/* todo: file size may exceed PAGE_SIZE */
++ssize_t sysaufs_si_show(struct kobject *kobj, struct attribute *attr,
++			char *buf)
++{
++	ssize_t err;
++	int idx;
++	long l;
++	aufs_bindex_t bbot;
++	struct au_sbinfo *sbinfo;
++	struct super_block *sb;
++	struct seq_file *seq;
++	char *name;
++	struct attribute **cattr;
++
++	sbinfo = container_of(kobj, struct au_sbinfo, si_kobj);
++	sb = sbinfo->si_sb;
++
++	/*
++	 * prevent a race condition between sysfs and aufs.
++	 * for instance, sysfs_file_read() calls sysfs_get_active_two() which
++	 * prohibits maintaining the sysfs entries.
++	 * hew we acquire read lock after sysfs_get_active_two().
++	 * on the other hand, the remount process may maintain the sysfs/aufs
++	 * entries after acquiring write lock.
++	 * it can cause a deadlock.
++	 * simply we gave up processing read here.
++	 */
++	err = -EBUSY;
++	if (unlikely(!si_noflush_read_trylock(sb)))
++		goto out;
++
++	seq = au_seq(buf, PAGE_SIZE);
++	err = PTR_ERR(seq);
++	if (IS_ERR(seq))
++		goto out_unlock;
++
++	name = (void *)attr->name;
++	cattr = sysaufs_si_attrs;
++	while (*cattr) {
++		if (!strcmp(name, (*cattr)->name)) {
++			err = container_of(*cattr, struct sysaufs_si_attr, attr)
++				->show(seq, sb);
++			goto out_seq;
++		}
++		cattr++;
++	}
++
++	if (!strncmp(name, SysaufsBrid_PREFIX,
++		     sizeof(SysaufsBrid_PREFIX) - 1)) {
++		idx = AuBrSysfs_BRID;
++		name += sizeof(SysaufsBrid_PREFIX) - 1;
++	} else if (!strncmp(name, SysaufsBr_PREFIX,
++			    sizeof(SysaufsBr_PREFIX) - 1)) {
++		idx = AuBrSysfs_BR;
++		name += sizeof(SysaufsBr_PREFIX) - 1;
++	} else
++		  BUG();
++
++	err = kstrtol(name, 10, &l);
++	if (!err) {
++		bbot = au_sbbot(sb);
++		if (l <= bbot)
++			err = sysaufs_si_br(seq, sb, (aufs_bindex_t)l, idx);
++		else
++			err = -ENOENT;
++	}
++
++out_seq:
++	if (!err) {
++		err = seq->count;
++		/* sysfs limit */
++		if (unlikely(err == PAGE_SIZE))
++			err = -EFBIG;
++	}
++	kfree(seq);
++out_unlock:
++	si_read_unlock(sb);
++out:
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int au_brinfo(struct super_block *sb, union aufs_brinfo __user *arg)
++{
++	int err;
++	int16_t brid;
++	aufs_bindex_t bindex, bbot;
++	size_t sz;
++	char *buf;
++	struct seq_file *seq;
++	struct au_branch *br;
++
++	si_read_lock(sb, AuLock_FLUSH);
++	bbot = au_sbbot(sb);
++	err = bbot + 1;
++	if (!arg)
++		goto out;
++
++	err = -ENOMEM;
++	buf = (void *)__get_free_page(GFP_NOFS);
++	if (unlikely(!buf))
++		goto out;
++
++	seq = au_seq(buf, PAGE_SIZE);
++	err = PTR_ERR(seq);
++	if (IS_ERR(seq))
++		goto out_buf;
++
++	sz = sizeof(*arg) - offsetof(union aufs_brinfo, path);
++	for (bindex = 0; bindex <= bbot; bindex++, arg++) {
++		err = !access_ok(VERIFY_WRITE, arg, sizeof(*arg));
++		if (unlikely(err))
++			break;
++
++		br = au_sbr(sb, bindex);
++		brid = br->br_id;
++		BUILD_BUG_ON(sizeof(brid) != sizeof(arg->id));
++		err = __put_user(brid, &arg->id);
++		if (unlikely(err))
++			break;
++
++		BUILD_BUG_ON(sizeof(br->br_perm) != sizeof(arg->perm));
++		err = __put_user(br->br_perm, &arg->perm);
++		if (unlikely(err))
++			break;
++
++		err = au_seq_path(seq, &br->br_path);
++		if (unlikely(err))
++			break;
++		seq_putc(seq, '\0');
++		if (!seq_has_overflowed(seq)) {
++			err = copy_to_user(arg->path, seq->buf, seq->count);
++			seq->count = 0;
++			if (unlikely(err))
++				break;
++		} else {
++			err = -E2BIG;
++			goto out_seq;
++		}
++	}
++	if (unlikely(err))
++		err = -EFAULT;
++
++out_seq:
++	kfree(seq);
++out_buf:
++	free_page((unsigned long)buf);
++out:
++	si_read_unlock(sb);
++	return err;
++}
++
++long au_brinfo_ioctl(struct file *file, unsigned long arg)
++{
++	return au_brinfo(file->f_path.dentry->d_sb, (void __user *)arg);
++}
++
++#ifdef CONFIG_COMPAT
++long au_brinfo_compat_ioctl(struct file *file, unsigned long arg)
++{
++	return au_brinfo(file->f_path.dentry->d_sb, compat_ptr(arg));
++}
++#endif
++
++/* ---------------------------------------------------------------------- */
++
++void sysaufs_br_init(struct au_branch *br)
++{
++	int i;
++	struct au_brsysfs *br_sysfs;
++	struct attribute *attr;
++
++	br_sysfs = br->br_sysfs;
++	for (i = 0; i < ARRAY_SIZE(br->br_sysfs); i++) {
++		attr = &br_sysfs->attr;
++		sysfs_attr_init(attr);
++		attr->name = br_sysfs->name;
++		attr->mode = S_IRUGO;
++		br_sysfs++;
++	}
++}
++
++void sysaufs_brs_del(struct super_block *sb, aufs_bindex_t bindex)
++{
++	struct au_branch *br;
++	struct kobject *kobj;
++	struct au_brsysfs *br_sysfs;
++	int i;
++	aufs_bindex_t bbot;
++
++	dbgaufs_brs_del(sb, bindex);
++
++	if (!sysaufs_brs)
++		return;
++
++	kobj = &au_sbi(sb)->si_kobj;
++	bbot = au_sbbot(sb);
++	for (; bindex <= bbot; bindex++) {
++		br = au_sbr(sb, bindex);
++		br_sysfs = br->br_sysfs;
++		for (i = 0; i < ARRAY_SIZE(br->br_sysfs); i++) {
++			sysfs_remove_file(kobj, &br_sysfs->attr);
++			br_sysfs++;
++		}
++	}
++}
++
++void sysaufs_brs_add(struct super_block *sb, aufs_bindex_t bindex)
++{
++	int err, i;
++	aufs_bindex_t bbot;
++	struct kobject *kobj;
++	struct au_branch *br;
++	struct au_brsysfs *br_sysfs;
++
++	dbgaufs_brs_add(sb, bindex);
++
++	if (!sysaufs_brs)
++		return;
++
++	kobj = &au_sbi(sb)->si_kobj;
++	bbot = au_sbbot(sb);
++	for (; bindex <= bbot; bindex++) {
++		br = au_sbr(sb, bindex);
++		br_sysfs = br->br_sysfs;
++		snprintf(br_sysfs[AuBrSysfs_BR].name, sizeof(br_sysfs->name),
++			 SysaufsBr_PREFIX "%d", bindex);
++		snprintf(br_sysfs[AuBrSysfs_BRID].name, sizeof(br_sysfs->name),
++			 SysaufsBrid_PREFIX "%d", bindex);
++		for (i = 0; i < ARRAY_SIZE(br->br_sysfs); i++) {
++			err = sysfs_create_file(kobj, &br_sysfs->attr);
++			if (unlikely(err))
++				pr_warn("failed %s under sysfs(%d)\n",
++					br_sysfs->name, err);
++			br_sysfs++;
++		}
++	}
++}
+diff --git a/fs/aufs/sysrq.c b/fs/aufs/sysrq.c
+new file mode 100755
+index 0000000..98d5ad2
+--- /dev/null
++++ b/fs/aufs/sysrq.c
+@@ -0,0 +1,157 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * magic sysrq hanlder
++ */
++
++/* #include <linux/sysrq.h> */
++#include <linux/writeback.h>
++#include "aufs.h"
++
++/* ---------------------------------------------------------------------- */
++
++static void sysrq_sb(struct super_block *sb)
++{
++	char *plevel;
++	struct au_sbinfo *sbinfo;
++	struct file *file;
++	struct au_sphlhead *files;
++	struct au_finfo *finfo;
++
++	plevel = au_plevel;
++	au_plevel = KERN_WARNING;
++
++	/* since we define pr_fmt, call printk directly */
++#define pr(str) printk(KERN_WARNING AUFS_NAME ": " str)
++
++	sbinfo = au_sbi(sb);
++	printk(KERN_WARNING "si=%lx\n", sysaufs_si_id(sbinfo));
++	pr("superblock\n");
++	au_dpri_sb(sb);
++
++#if 0
++	pr("root dentry\n");
++	au_dpri_dentry(sb->s_root);
++	pr("root inode\n");
++	au_dpri_inode(d_inode(sb->s_root));
++#endif
++
++#if 0
++	do {
++		int err, i, j, ndentry;
++		struct au_dcsub_pages dpages;
++		struct au_dpage *dpage;
++
++		err = au_dpages_init(&dpages, GFP_ATOMIC);
++		if (unlikely(err))
++			break;
++		err = au_dcsub_pages(&dpages, sb->s_root, NULL, NULL);
++		if (!err)
++			for (i = 0; i < dpages.ndpage; i++) {
++				dpage = dpages.dpages + i;
++				ndentry = dpage->ndentry;
++				for (j = 0; j < ndentry; j++)
++					au_dpri_dentry(dpage->dentries[j]);
++			}
++		au_dpages_free(&dpages);
++	} while (0);
++#endif
++
++#if 1
++	{
++		struct inode *i;
++
++		pr("isolated inode\n");
++		spin_lock(&sb->s_inode_list_lock);
++		list_for_each_entry(i, &sb->s_inodes, i_sb_list) {
++			spin_lock(&i->i_lock);
++			if (1 || hlist_empty(&i->i_dentry))
++				au_dpri_inode(i);
++			spin_unlock(&i->i_lock);
++		}
++		spin_unlock(&sb->s_inode_list_lock);
++	}
++#endif
++	pr("files\n");
++	files = &au_sbi(sb)->si_files;
++	spin_lock(&files->spin);
++	hlist_for_each_entry(finfo, &files->head, fi_hlist) {
++		umode_t mode;
++
++		file = finfo->fi_file;
++		mode = file_inode(file)->i_mode;
++		if (!special_file(mode))
++			au_dpri_file(file);
++	}
++	spin_unlock(&files->spin);
++	pr("done\n");
++
++#undef pr
++	au_plevel = plevel;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* module parameter */
++static char *aufs_sysrq_key = "a";
++module_param_named(sysrq, aufs_sysrq_key, charp, S_IRUGO);
++MODULE_PARM_DESC(sysrq, "MagicSysRq key for " AUFS_NAME);
++
++static void au_sysrq(int key __maybe_unused)
++{
++	struct au_sbinfo *sbinfo;
++
++	lockdep_off();
++	au_sbilist_lock();
++	hlist_for_each_entry(sbinfo, &au_sbilist.head, si_list)
++		sysrq_sb(sbinfo->si_sb);
++	au_sbilist_unlock();
++	lockdep_on();
++}
++
++static struct sysrq_key_op au_sysrq_op = {
++	.handler	= au_sysrq,
++	.help_msg	= "Aufs",
++	.action_msg	= "Aufs",
++	.enable_mask	= SYSRQ_ENABLE_DUMP
++};
++
++/* ---------------------------------------------------------------------- */
++
++int __init au_sysrq_init(void)
++{
++	int err;
++	char key;
++
++	err = -1;
++	key = *aufs_sysrq_key;
++	if ('a' <= key && key <= 'z')
++		err = register_sysrq_key(key, &au_sysrq_op);
++	if (unlikely(err))
++		pr_err("err %d, sysrq=%c\n", err, key);
++	return err;
++}
++
++void au_sysrq_fin(void)
++{
++	int err;
++
++	err = unregister_sysrq_key(*aufs_sysrq_key, &au_sysrq_op);
++	if (unlikely(err))
++		pr_err("err %d (ignored)\n", err);
++}
+diff --git a/fs/aufs/vdir.c b/fs/aufs/vdir.c
+new file mode 100755
+index 0000000..b7583e9
+--- /dev/null
++++ b/fs/aufs/vdir.c
+@@ -0,0 +1,892 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * virtual or vertical directory
++ */
++
++#include "aufs.h"
++
++static unsigned int calc_size(int nlen)
++{
++	return ALIGN(sizeof(struct au_vdir_de) + nlen, sizeof(ino_t));
++}
++
++static int set_deblk_end(union au_vdir_deblk_p *p,
++			 union au_vdir_deblk_p *deblk_end)
++{
++	if (calc_size(0) <= deblk_end->deblk - p->deblk) {
++		p->de->de_str.len = 0;
++		/* smp_mb(); */
++		return 0;
++	}
++	return -1; /* error */
++}
++
++/* returns true or false */
++static int is_deblk_end(union au_vdir_deblk_p *p,
++			union au_vdir_deblk_p *deblk_end)
++{
++	if (calc_size(0) <= deblk_end->deblk - p->deblk)
++		return !p->de->de_str.len;
++	return 1;
++}
++
++static unsigned char *last_deblk(struct au_vdir *vdir)
++{
++	return vdir->vd_deblk[vdir->vd_nblk - 1];
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* estimate the appropriate size for name hash table */
++unsigned int au_rdhash_est(loff_t sz)
++{
++	unsigned int n;
++
++	n = UINT_MAX;
++	sz >>= 10;
++	if (sz < n)
++		n = sz;
++	if (sz < AUFS_RDHASH_DEF)
++		n = AUFS_RDHASH_DEF;
++	/* pr_info("n %u\n", n); */
++	return n;
++}
++
++/*
++ * the allocated memory has to be freed by
++ * au_nhash_wh_free() or au_nhash_de_free().
++ */
++int au_nhash_alloc(struct au_nhash *nhash, unsigned int num_hash, gfp_t gfp)
++{
++	struct hlist_head *head;
++	unsigned int u;
++	size_t sz;
++
++	sz = sizeof(*nhash->nh_head) * num_hash;
++	head = kmalloc(sz, gfp);
++	if (head) {
++		nhash->nh_num = num_hash;
++		nhash->nh_head = head;
++		for (u = 0; u < num_hash; u++)
++			INIT_HLIST_HEAD(head++);
++		return 0; /* success */
++	}
++
++	return -ENOMEM;
++}
++
++static void nhash_count(struct hlist_head *head)
++{
++#if 0
++	unsigned long n;
++	struct hlist_node *pos;
++
++	n = 0;
++	hlist_for_each(pos, head)
++		n++;
++	pr_info("%lu\n", n);
++#endif
++}
++
++static void au_nhash_wh_do_free(struct hlist_head *head)
++{
++	struct au_vdir_wh *pos;
++	struct hlist_node *node;
++
++	hlist_for_each_entry_safe(pos, node, head, wh_hash)
++		kfree(pos);
++}
++
++static void au_nhash_de_do_free(struct hlist_head *head)
++{
++	struct au_vdir_dehstr *pos;
++	struct hlist_node *node;
++
++	hlist_for_each_entry_safe(pos, node, head, hash)
++		au_cache_free_vdir_dehstr(pos);
++}
++
++static void au_nhash_do_free(struct au_nhash *nhash,
++			     void (*free)(struct hlist_head *head))
++{
++	unsigned int n;
++	struct hlist_head *head;
++
++	n = nhash->nh_num;
++	if (!n)
++		return;
++
++	head = nhash->nh_head;
++	while (n-- > 0) {
++		nhash_count(head);
++		free(head++);
++	}
++	kfree(nhash->nh_head);
++}
++
++void au_nhash_wh_free(struct au_nhash *whlist)
++{
++	au_nhash_do_free(whlist, au_nhash_wh_do_free);
++}
++
++static void au_nhash_de_free(struct au_nhash *delist)
++{
++	au_nhash_do_free(delist, au_nhash_de_do_free);
++}
++
++/* ---------------------------------------------------------------------- */
++
++int au_nhash_test_longer_wh(struct au_nhash *whlist, aufs_bindex_t btgt,
++			    int limit)
++{
++	int num;
++	unsigned int u, n;
++	struct hlist_head *head;
++	struct au_vdir_wh *pos;
++
++	num = 0;
++	n = whlist->nh_num;
++	head = whlist->nh_head;
++	for (u = 0; u < n; u++, head++)
++		hlist_for_each_entry(pos, head, wh_hash)
++			if (pos->wh_bindex == btgt && ++num > limit)
++				return 1;
++	return 0;
++}
++
++static struct hlist_head *au_name_hash(struct au_nhash *nhash,
++				       unsigned char *name,
++				       unsigned int len)
++{
++	unsigned int v;
++	/* const unsigned int magic_bit = 12; */
++
++	AuDebugOn(!nhash->nh_num || !nhash->nh_head);
++
++	v = 0;
++	if (len > 8)
++		len = 8;
++	while (len--)
++		v += *name++;
++	/* v = hash_long(v, magic_bit); */
++	v %= nhash->nh_num;
++	return nhash->nh_head + v;
++}
++
++static int au_nhash_test_name(struct au_vdir_destr *str, const char *name,
++			      int nlen)
++{
++	return str->len == nlen && !memcmp(str->name, name, nlen);
++}
++
++/* returns found or not */
++int au_nhash_test_known_wh(struct au_nhash *whlist, char *name, int nlen)
++{
++	struct hlist_head *head;
++	struct au_vdir_wh *pos;
++	struct au_vdir_destr *str;
++
++	head = au_name_hash(whlist, name, nlen);
++	hlist_for_each_entry(pos, head, wh_hash) {
++		str = &pos->wh_str;
++		AuDbg("%.*s\n", str->len, str->name);
++		if (au_nhash_test_name(str, name, nlen))
++			return 1;
++	}
++	return 0;
++}
++
++/* returns found(true) or not */
++static int test_known(struct au_nhash *delist, char *name, int nlen)
++{
++	struct hlist_head *head;
++	struct au_vdir_dehstr *pos;
++	struct au_vdir_destr *str;
++
++	head = au_name_hash(delist, name, nlen);
++	hlist_for_each_entry(pos, head, hash) {
++		str = pos->str;
++		AuDbg("%.*s\n", str->len, str->name);
++		if (au_nhash_test_name(str, name, nlen))
++			return 1;
++	}
++	return 0;
++}
++
++static void au_shwh_init_wh(struct au_vdir_wh *wh, ino_t ino,
++			    unsigned char d_type)
++{
++#ifdef CONFIG_AUFS_SHWH
++	wh->wh_ino = ino;
++	wh->wh_type = d_type;
++#endif
++}
++
++/* ---------------------------------------------------------------------- */
++
++int au_nhash_append_wh(struct au_nhash *whlist, char *name, int nlen, ino_t ino,
++		       unsigned int d_type, aufs_bindex_t bindex,
++		       unsigned char shwh)
++{
++	int err;
++	struct au_vdir_destr *str;
++	struct au_vdir_wh *wh;
++
++	AuDbg("%.*s\n", nlen, name);
++	AuDebugOn(!whlist->nh_num || !whlist->nh_head);
++
++	err = -ENOMEM;
++	wh = kmalloc(sizeof(*wh) + nlen, GFP_NOFS);
++	if (unlikely(!wh))
++		goto out;
++
++	err = 0;
++	wh->wh_bindex = bindex;
++	if (shwh)
++		au_shwh_init_wh(wh, ino, d_type);
++	str = &wh->wh_str;
++	str->len = nlen;
++	memcpy(str->name, name, nlen);
++	hlist_add_head(&wh->wh_hash, au_name_hash(whlist, name, nlen));
++	/* smp_mb(); */
++
++out:
++	return err;
++}
++
++static int append_deblk(struct au_vdir *vdir)
++{
++	int err;
++	unsigned long ul;
++	const unsigned int deblk_sz = vdir->vd_deblk_sz;
++	union au_vdir_deblk_p p, deblk_end;
++	unsigned char **o;
++
++	err = -ENOMEM;
++	o = au_krealloc(vdir->vd_deblk, sizeof(*o) * (vdir->vd_nblk + 1),
++			GFP_NOFS, /*may_shrink*/0);
++	if (unlikely(!o))
++		goto out;
++
++	vdir->vd_deblk = o;
++	p.deblk = kmalloc(deblk_sz, GFP_NOFS);
++	if (p.deblk) {
++		ul = vdir->vd_nblk++;
++		vdir->vd_deblk[ul] = p.deblk;
++		vdir->vd_last.ul = ul;
++		vdir->vd_last.p.deblk = p.deblk;
++		deblk_end.deblk = p.deblk + deblk_sz;
++		err = set_deblk_end(&p, &deblk_end);
++	}
++
++out:
++	return err;
++}
++
++static int append_de(struct au_vdir *vdir, char *name, int nlen, ino_t ino,
++		     unsigned int d_type, struct au_nhash *delist)
++{
++	int err;
++	unsigned int sz;
++	const unsigned int deblk_sz = vdir->vd_deblk_sz;
++	union au_vdir_deblk_p p, *room, deblk_end;
++	struct au_vdir_dehstr *dehstr;
++
++	p.deblk = last_deblk(vdir);
++	deblk_end.deblk = p.deblk + deblk_sz;
++	room = &vdir->vd_last.p;
++	AuDebugOn(room->deblk < p.deblk || deblk_end.deblk <= room->deblk
++		  || !is_deblk_end(room, &deblk_end));
++
++	sz = calc_size(nlen);
++	if (unlikely(sz > deblk_end.deblk - room->deblk)) {
++		err = append_deblk(vdir);
++		if (unlikely(err))
++			goto out;
++
++		p.deblk = last_deblk(vdir);
++		deblk_end.deblk = p.deblk + deblk_sz;
++		/* smp_mb(); */
++		AuDebugOn(room->deblk != p.deblk);
++	}
++
++	err = -ENOMEM;
++	dehstr = au_cache_alloc_vdir_dehstr();
++	if (unlikely(!dehstr))
++		goto out;
++
++	dehstr->str = &room->de->de_str;
++	hlist_add_head(&dehstr->hash, au_name_hash(delist, name, nlen));
++	room->de->de_ino = ino;
++	room->de->de_type = d_type;
++	room->de->de_str.len = nlen;
++	memcpy(room->de->de_str.name, name, nlen);
++
++	err = 0;
++	room->deblk += sz;
++	if (unlikely(set_deblk_end(room, &deblk_end)))
++		err = append_deblk(vdir);
++	/* smp_mb(); */
++
++out:
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++void au_vdir_free(struct au_vdir *vdir)
++{
++	unsigned char **deblk;
++
++	deblk = vdir->vd_deblk;
++	while (vdir->vd_nblk--)
++		kfree(*deblk++);
++	kfree(vdir->vd_deblk);
++	au_cache_free_vdir(vdir);
++}
++
++static struct au_vdir *alloc_vdir(struct file *file)
++{
++	struct au_vdir *vdir;
++	struct super_block *sb;
++	int err;
++
++	sb = file->f_path.dentry->d_sb;
++	SiMustAnyLock(sb);
++
++	err = -ENOMEM;
++	vdir = au_cache_alloc_vdir();
++	if (unlikely(!vdir))
++		goto out;
++
++	vdir->vd_deblk = kzalloc(sizeof(*vdir->vd_deblk), GFP_NOFS);
++	if (unlikely(!vdir->vd_deblk))
++		goto out_free;
++
++	vdir->vd_deblk_sz = au_sbi(sb)->si_rdblk;
++	if (!vdir->vd_deblk_sz) {
++		/* estimate the appropriate size for deblk */
++		vdir->vd_deblk_sz = au_dir_size(file, /*dentry*/NULL);
++		/* pr_info("vd_deblk_sz %u\n", vdir->vd_deblk_sz); */
++	}
++	vdir->vd_nblk = 0;
++	vdir->vd_version = 0;
++	vdir->vd_jiffy = 0;
++	err = append_deblk(vdir);
++	if (!err)
++		return vdir; /* success */
++
++	kfree(vdir->vd_deblk);
++
++out_free:
++	au_cache_free_vdir(vdir);
++out:
++	vdir = ERR_PTR(err);
++	return vdir;
++}
++
++static int reinit_vdir(struct au_vdir *vdir)
++{
++	int err;
++	union au_vdir_deblk_p p, deblk_end;
++
++	while (vdir->vd_nblk > 1) {
++		kfree(vdir->vd_deblk[vdir->vd_nblk - 1]);
++		/* vdir->vd_deblk[vdir->vd_nblk - 1] = NULL; */
++		vdir->vd_nblk--;
++	}
++	p.deblk = vdir->vd_deblk[0];
++	deblk_end.deblk = p.deblk + vdir->vd_deblk_sz;
++	err = set_deblk_end(&p, &deblk_end);
++	/* keep vd_dblk_sz */
++	vdir->vd_last.ul = 0;
++	vdir->vd_last.p.deblk = vdir->vd_deblk[0];
++	vdir->vd_version = 0;
++	vdir->vd_jiffy = 0;
++	/* smp_mb(); */
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++#define AuFillVdir_CALLED	1
++#define AuFillVdir_WHABLE	(1 << 1)
++#define AuFillVdir_SHWH		(1 << 2)
++#define au_ftest_fillvdir(flags, name)	((flags) & AuFillVdir_##name)
++#define au_fset_fillvdir(flags, name) \
++	do { (flags) |= AuFillVdir_##name; } while (0)
++#define au_fclr_fillvdir(flags, name) \
++	do { (flags) &= ~AuFillVdir_##name; } while (0)
++
++#ifndef CONFIG_AUFS_SHWH
++#undef AuFillVdir_SHWH
++#define AuFillVdir_SHWH		0
++#endif
++
++struct fillvdir_arg {
++	struct dir_context	ctx;
++	struct file		*file;
++	struct au_vdir		*vdir;
++	struct au_nhash		delist;
++	struct au_nhash		whlist;
++	aufs_bindex_t		bindex;
++	unsigned int		flags;
++	int			err;
++};
++
++static int fillvdir(struct dir_context *ctx, const char *__name, int nlen,
++		    loff_t offset __maybe_unused, u64 h_ino,
++		    unsigned int d_type)
++{
++	struct fillvdir_arg *arg = container_of(ctx, struct fillvdir_arg, ctx);
++	char *name = (void *)__name;
++	struct super_block *sb;
++	ino_t ino;
++	const unsigned char shwh = !!au_ftest_fillvdir(arg->flags, SHWH);
++
++	arg->err = 0;
++	sb = arg->file->f_path.dentry->d_sb;
++	au_fset_fillvdir(arg->flags, CALLED);
++	/* smp_mb(); */
++	if (nlen <= AUFS_WH_PFX_LEN
++	    || memcmp(name, AUFS_WH_PFX, AUFS_WH_PFX_LEN)) {
++		if (test_known(&arg->delist, name, nlen)
++		    || au_nhash_test_known_wh(&arg->whlist, name, nlen))
++			goto out; /* already exists or whiteouted */
++
++		arg->err = au_ino(sb, arg->bindex, h_ino, d_type, &ino);
++		if (!arg->err) {
++			if (unlikely(nlen > AUFS_MAX_NAMELEN))
++				d_type = DT_UNKNOWN;
++			arg->err = append_de(arg->vdir, name, nlen, ino,
++					     d_type, &arg->delist);
++		}
++	} else if (au_ftest_fillvdir(arg->flags, WHABLE)) {
++		name += AUFS_WH_PFX_LEN;
++		nlen -= AUFS_WH_PFX_LEN;
++		if (au_nhash_test_known_wh(&arg->whlist, name, nlen))
++			goto out; /* already whiteouted */
++
++		if (shwh)
++			arg->err = au_wh_ino(sb, arg->bindex, h_ino, d_type,
++					     &ino);
++		if (!arg->err) {
++			if (nlen <= AUFS_MAX_NAMELEN + AUFS_WH_PFX_LEN)
++				d_type = DT_UNKNOWN;
++			arg->err = au_nhash_append_wh
++				(&arg->whlist, name, nlen, ino, d_type,
++				 arg->bindex, shwh);
++		}
++	}
++
++out:
++	if (!arg->err)
++		arg->vdir->vd_jiffy = jiffies;
++	/* smp_mb(); */
++	AuTraceErr(arg->err);
++	return arg->err;
++}
++
++static int au_handle_shwh(struct super_block *sb, struct au_vdir *vdir,
++			  struct au_nhash *whlist, struct au_nhash *delist)
++{
++#ifdef CONFIG_AUFS_SHWH
++	int err;
++	unsigned int nh, u;
++	struct hlist_head *head;
++	struct au_vdir_wh *pos;
++	struct hlist_node *n;
++	char *p, *o;
++	struct au_vdir_destr *destr;
++
++	AuDebugOn(!au_opt_test(au_mntflags(sb), SHWH));
++
++	err = -ENOMEM;
++	o = p = (void *)__get_free_page(GFP_NOFS);
++	if (unlikely(!p))
++		goto out;
++
++	err = 0;
++	nh = whlist->nh_num;
++	memcpy(p, AUFS_WH_PFX, AUFS_WH_PFX_LEN);
++	p += AUFS_WH_PFX_LEN;
++	for (u = 0; u < nh; u++) {
++		head = whlist->nh_head + u;
++		hlist_for_each_entry_safe(pos, n, head, wh_hash) {
++			destr = &pos->wh_str;
++			memcpy(p, destr->name, destr->len);
++			err = append_de(vdir, o, destr->len + AUFS_WH_PFX_LEN,
++					pos->wh_ino, pos->wh_type, delist);
++			if (unlikely(err))
++				break;
++		}
++	}
++
++	free_page((unsigned long)o);
++
++out:
++	AuTraceErr(err);
++	return err;
++#else
++	return 0;
++#endif
++}
++
++static int au_do_read_vdir(struct fillvdir_arg *arg)
++{
++	int err;
++	unsigned int rdhash;
++	loff_t offset;
++	aufs_bindex_t bbot, bindex, btop;
++	unsigned char shwh;
++	struct file *hf, *file;
++	struct super_block *sb;
++
++	file = arg->file;
++	sb = file->f_path.dentry->d_sb;
++	SiMustAnyLock(sb);
++
++	rdhash = au_sbi(sb)->si_rdhash;
++	if (!rdhash)
++		rdhash = au_rdhash_est(au_dir_size(file, /*dentry*/NULL));
++	err = au_nhash_alloc(&arg->delist, rdhash, GFP_NOFS);
++	if (unlikely(err))
++		goto out;
++	err = au_nhash_alloc(&arg->whlist, rdhash, GFP_NOFS);
++	if (unlikely(err))
++		goto out_delist;
++
++	err = 0;
++	arg->flags = 0;
++	shwh = 0;
++	if (au_opt_test(au_mntflags(sb), SHWH)) {
++		shwh = 1;
++		au_fset_fillvdir(arg->flags, SHWH);
++	}
++	btop = au_fbtop(file);
++	bbot = au_fbbot_dir(file);
++	for (bindex = btop; !err && bindex <= bbot; bindex++) {
++		hf = au_hf_dir(file, bindex);
++		if (!hf)
++			continue;
++
++		offset = vfsub_llseek(hf, 0, SEEK_SET);
++		err = offset;
++		if (unlikely(offset))
++			break;
++
++		arg->bindex = bindex;
++		au_fclr_fillvdir(arg->flags, WHABLE);
++		if (shwh
++		    || (bindex != bbot
++			&& au_br_whable(au_sbr_perm(sb, bindex))))
++			au_fset_fillvdir(arg->flags, WHABLE);
++		do {
++			arg->err = 0;
++			au_fclr_fillvdir(arg->flags, CALLED);
++			/* smp_mb(); */
++			err = vfsub_iterate_dir(hf, &arg->ctx);
++			if (err >= 0)
++				err = arg->err;
++		} while (!err && au_ftest_fillvdir(arg->flags, CALLED));
++
++		/*
++		 * dir_relax() may be good for concurrency, but aufs should not
++		 * use it since it will cause a lockdep problem.
++		 */
++	}
++
++	if (!err && shwh)
++		err = au_handle_shwh(sb, arg->vdir, &arg->whlist, &arg->delist);
++
++	au_nhash_wh_free(&arg->whlist);
++
++out_delist:
++	au_nhash_de_free(&arg->delist);
++out:
++	return err;
++}
++
++static int read_vdir(struct file *file, int may_read)
++{
++	int err;
++	unsigned long expire;
++	unsigned char do_read;
++	struct fillvdir_arg arg = {
++		.ctx = {
++			.actor = fillvdir
++		}
++	};
++	struct inode *inode;
++	struct au_vdir *vdir, *allocated;
++
++	err = 0;
++	inode = file_inode(file);
++	IMustLock(inode);
++	IiMustWriteLock(inode);
++	SiMustAnyLock(inode->i_sb);
++
++	allocated = NULL;
++	do_read = 0;
++	expire = au_sbi(inode->i_sb)->si_rdcache;
++	vdir = au_ivdir(inode);
++	if (!vdir) {
++		do_read = 1;
++		vdir = alloc_vdir(file);
++		err = PTR_ERR(vdir);
++		if (IS_ERR(vdir))
++			goto out;
++		err = 0;
++		allocated = vdir;
++	} else if (may_read
++		   && (inode->i_version != vdir->vd_version
++		       || time_after(jiffies, vdir->vd_jiffy + expire))) {
++		do_read = 1;
++		err = reinit_vdir(vdir);
++		if (unlikely(err))
++			goto out;
++	}
++
++	if (!do_read)
++		return 0; /* success */
++
++	arg.file = file;
++	arg.vdir = vdir;
++	err = au_do_read_vdir(&arg);
++	if (!err) {
++		/* file->f_pos = 0; */ /* todo: ctx->pos? */
++		vdir->vd_version = inode->i_version;
++		vdir->vd_last.ul = 0;
++		vdir->vd_last.p.deblk = vdir->vd_deblk[0];
++		if (allocated)
++			au_set_ivdir(inode, allocated);
++	} else if (allocated)
++		au_vdir_free(allocated);
++
++out:
++	return err;
++}
++
++static int copy_vdir(struct au_vdir *tgt, struct au_vdir *src)
++{
++	int err, rerr;
++	unsigned long ul, n;
++	const unsigned int deblk_sz = src->vd_deblk_sz;
++
++	AuDebugOn(tgt->vd_nblk != 1);
++
++	err = -ENOMEM;
++	if (tgt->vd_nblk < src->vd_nblk) {
++		unsigned char **p;
++
++		p = au_krealloc(tgt->vd_deblk, sizeof(*p) * src->vd_nblk,
++				GFP_NOFS, /*may_shrink*/0);
++		if (unlikely(!p))
++			goto out;
++		tgt->vd_deblk = p;
++	}
++
++	if (tgt->vd_deblk_sz != deblk_sz) {
++		unsigned char *p;
++
++		tgt->vd_deblk_sz = deblk_sz;
++		p = au_krealloc(tgt->vd_deblk[0], deblk_sz, GFP_NOFS,
++				/*may_shrink*/1);
++		if (unlikely(!p))
++			goto out;
++		tgt->vd_deblk[0] = p;
++	}
++	memcpy(tgt->vd_deblk[0], src->vd_deblk[0], deblk_sz);
++	tgt->vd_version = src->vd_version;
++	tgt->vd_jiffy = src->vd_jiffy;
++
++	n = src->vd_nblk;
++	for (ul = 1; ul < n; ul++) {
++		tgt->vd_deblk[ul] = kmemdup(src->vd_deblk[ul], deblk_sz,
++					    GFP_NOFS);
++		if (unlikely(!tgt->vd_deblk[ul]))
++			goto out;
++		tgt->vd_nblk++;
++	}
++	tgt->vd_nblk = n;
++	tgt->vd_last.ul = tgt->vd_last.ul;
++	tgt->vd_last.p.deblk = tgt->vd_deblk[tgt->vd_last.ul];
++	tgt->vd_last.p.deblk += src->vd_last.p.deblk
++		- src->vd_deblk[src->vd_last.ul];
++	/* smp_mb(); */
++	return 0; /* success */
++
++out:
++	rerr = reinit_vdir(tgt);
++	BUG_ON(rerr);
++	return err;
++}
++
++int au_vdir_init(struct file *file)
++{
++	int err;
++	struct inode *inode;
++	struct au_vdir *vdir_cache, *allocated;
++
++	/* test file->f_pos here instead of ctx->pos */
++	err = read_vdir(file, !file->f_pos);
++	if (unlikely(err))
++		goto out;
++
++	allocated = NULL;
++	vdir_cache = au_fvdir_cache(file);
++	if (!vdir_cache) {
++		vdir_cache = alloc_vdir(file);
++		err = PTR_ERR(vdir_cache);
++		if (IS_ERR(vdir_cache))
++			goto out;
++		allocated = vdir_cache;
++	} else if (!file->f_pos && vdir_cache->vd_version != file->f_version) {
++		/* test file->f_pos here instead of ctx->pos */
++		err = reinit_vdir(vdir_cache);
++		if (unlikely(err))
++			goto out;
++	} else
++		return 0; /* success */
++
++	inode = file_inode(file);
++	err = copy_vdir(vdir_cache, au_ivdir(inode));
++	if (!err) {
++		file->f_version = inode->i_version;
++		if (allocated)
++			au_set_fvdir_cache(file, allocated);
++	} else if (allocated)
++		au_vdir_free(allocated);
++
++out:
++	return err;
++}
++
++static loff_t calc_offset(struct au_vdir *vdir)
++{
++	loff_t offset;
++	union au_vdir_deblk_p p;
++
++	p.deblk = vdir->vd_deblk[vdir->vd_last.ul];
++	offset = vdir->vd_last.p.deblk - p.deblk;
++	offset += vdir->vd_deblk_sz * vdir->vd_last.ul;
++	return offset;
++}
++
++/* returns true or false */
++static int seek_vdir(struct file *file, struct dir_context *ctx)
++{
++	int valid;
++	unsigned int deblk_sz;
++	unsigned long ul, n;
++	loff_t offset;
++	union au_vdir_deblk_p p, deblk_end;
++	struct au_vdir *vdir_cache;
++
++	valid = 1;
++	vdir_cache = au_fvdir_cache(file);
++	offset = calc_offset(vdir_cache);
++	AuDbg("offset %lld\n", offset);
++	if (ctx->pos == offset)
++		goto out;
++
++	vdir_cache->vd_last.ul = 0;
++	vdir_cache->vd_last.p.deblk = vdir_cache->vd_deblk[0];
++	if (!ctx->pos)
++		goto out;
++
++	valid = 0;
++	deblk_sz = vdir_cache->vd_deblk_sz;
++	ul = div64_u64(ctx->pos, deblk_sz);
++	AuDbg("ul %lu\n", ul);
++	if (ul >= vdir_cache->vd_nblk)
++		goto out;
++
++	n = vdir_cache->vd_nblk;
++	for (; ul < n; ul++) {
++		p.deblk = vdir_cache->vd_deblk[ul];
++		deblk_end.deblk = p.deblk + deblk_sz;
++		offset = ul;
++		offset *= deblk_sz;
++		while (!is_deblk_end(&p, &deblk_end) && offset < ctx->pos) {
++			unsigned int l;
++
++			l = calc_size(p.de->de_str.len);
++			offset += l;
++			p.deblk += l;
++		}
++		if (!is_deblk_end(&p, &deblk_end)) {
++			valid = 1;
++			vdir_cache->vd_last.ul = ul;
++			vdir_cache->vd_last.p = p;
++			break;
++		}
++	}
++
++out:
++	/* smp_mb(); */
++	AuTraceErr(!valid);
++	return valid;
++}
++
++int au_vdir_fill_de(struct file *file, struct dir_context *ctx)
++{
++	unsigned int l, deblk_sz;
++	union au_vdir_deblk_p deblk_end;
++	struct au_vdir *vdir_cache;
++	struct au_vdir_de *de;
++
++	vdir_cache = au_fvdir_cache(file);
++	if (!seek_vdir(file, ctx))
++		return 0;
++
++	deblk_sz = vdir_cache->vd_deblk_sz;
++	while (1) {
++		deblk_end.deblk = vdir_cache->vd_deblk[vdir_cache->vd_last.ul];
++		deblk_end.deblk += deblk_sz;
++		while (!is_deblk_end(&vdir_cache->vd_last.p, &deblk_end)) {
++			de = vdir_cache->vd_last.p.de;
++			AuDbg("%.*s, off%lld, i%lu, dt%d\n",
++			      de->de_str.len, de->de_str.name, ctx->pos,
++			      (unsigned long)de->de_ino, de->de_type);
++			if (unlikely(!dir_emit(ctx, de->de_str.name,
++					       de->de_str.len, de->de_ino,
++					       de->de_type))) {
++				/* todo: ignore the error caused by udba? */
++				/* return err; */
++				return 0;
++			}
++
++			l = calc_size(de->de_str.len);
++			vdir_cache->vd_last.p.deblk += l;
++			ctx->pos += l;
++		}
++		if (vdir_cache->vd_last.ul < vdir_cache->vd_nblk - 1) {
++			vdir_cache->vd_last.ul++;
++			vdir_cache->vd_last.p.deblk
++				= vdir_cache->vd_deblk[vdir_cache->vd_last.ul];
++			ctx->pos = deblk_sz * vdir_cache->vd_last.ul;
++			continue;
++		}
++		break;
++	}
++
++	/* smp_mb(); */
++	return 0;
++}
+diff --git a/fs/aufs/vfsub.c b/fs/aufs/vfsub.c
+new file mode 100755
+index 0000000..da07be8
+--- /dev/null
++++ b/fs/aufs/vfsub.c
+@@ -0,0 +1,900 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * sub-routines for VFS
++ */
++
++#include <linux/namei.h>
++#include <linux/nsproxy.h>
++#include <linux/security.h>
++#include <linux/splice.h>
++#ifdef CONFIG_AUFS_BR_FUSE
++#include "../fs/mount.h"
++#endif
++#include "aufs.h"
++
++#ifdef CONFIG_AUFS_BR_FUSE
++int vfsub_test_mntns(struct vfsmount *mnt, struct super_block *h_sb)
++{
++	struct nsproxy *ns;
++
++	if (!au_test_fuse(h_sb) || !au_userns)
++		return 0;
++
++	ns = current->nsproxy;
++	/* no {get,put}_nsproxy(ns) */
++	return real_mount(mnt)->mnt_ns == ns->mnt_ns ? 0 : -EACCES;
++}
++#endif
++
++int vfsub_sync_filesystem(struct super_block *h_sb, int wait)
++{
++	int err;
++
++	lockdep_off();
++	down_read(&h_sb->s_umount);
++	err = __sync_filesystem(h_sb, wait);
++	up_read(&h_sb->s_umount);
++	lockdep_on();
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++int vfsub_update_h_iattr(struct path *h_path, int *did)
++{
++	int err;
++	struct kstat st;
++	struct super_block *h_sb;
++
++	/* for remote fs, leave work for its getattr or d_revalidate */
++	/* for bad i_attr fs, handle them in aufs_getattr() */
++	/* still some fs may acquire i_mutex. we need to skip them */
++	err = 0;
++	if (!did)
++		did = &err;
++	h_sb = h_path->dentry->d_sb;
++	*did = (!au_test_fs_remote(h_sb) && au_test_fs_refresh_iattr(h_sb));
++	if (*did)
++		err = vfsub_getattr(h_path, &st);
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++struct file *vfsub_dentry_open(struct path *path, int flags)
++{
++	struct file *file;
++
++	file = dentry_open(path, flags /* | __FMODE_NONOTIFY */,
++			   current_cred());
++	if (!IS_ERR_OR_NULL(file)
++	    && (file->f_mode & (FMODE_READ | FMODE_WRITE)) == FMODE_READ)
++		i_readcount_inc(d_inode(path->dentry));
++
++	return file;
++}
++
++struct file *vfsub_filp_open(const char *path, int oflags, int mode)
++{
++	struct file *file;
++
++	lockdep_off();
++	file = filp_open(path,
++			 oflags /* | __FMODE_NONOTIFY */,
++			 mode);
++	lockdep_on();
++	if (IS_ERR(file))
++		goto out;
++	vfsub_update_h_iattr(&file->f_path, /*did*/NULL); /*ignore*/
++
++out:
++	return file;
++}
++
++/*
++ * Ideally this function should call VFS:do_last() in order to keep all its
++ * checkings. But it is very hard for aufs to regenerate several VFS internal
++ * structure such as nameidata. This is a second (or third) best approach.
++ * cf. linux/fs/namei.c:do_last(), lookup_open() and atomic_open().
++ */
++int vfsub_atomic_open(struct inode *dir, struct dentry *dentry,
++		      struct vfsub_aopen_args *args, struct au_branch *br)
++{
++	int err;
++	struct file *file = args->file;
++	/* copied from linux/fs/namei.c:atomic_open() */
++	struct dentry *const DENTRY_NOT_SET = (void *)-1UL;
++
++	IMustLock(dir);
++	AuDebugOn(!dir->i_op->atomic_open);
++
++	err = au_br_test_oflag(args->open_flag, br);
++	if (unlikely(err))
++		goto out;
++
++	args->file->f_path.dentry = DENTRY_NOT_SET;
++	args->file->f_path.mnt = au_br_mnt(br);
++	err = dir->i_op->atomic_open(dir, dentry, file, args->open_flag,
++				     args->create_mode, args->opened);
++	if (err >= 0) {
++		/* some filesystems don't set FILE_CREATED while succeeded? */
++		if (*args->opened & FILE_CREATED)
++			fsnotify_create(dir, dentry);
++	} else
++		goto out;
++
++
++	if (!err) {
++		/* todo: call VFS:may_open() here */
++		err = open_check_o_direct(file);
++		/* todo: ima_file_check() too? */
++		if (!err && (args->open_flag & __FMODE_EXEC))
++			err = deny_write_access(file);
++		if (unlikely(err))
++			/* note that the file is created and still opened */
++			goto out;
++	}
++
++	au_br_get(br);
++	fsnotify_open(file);
++
++out:
++	return err;
++}
++
++int vfsub_kern_path(const char *name, unsigned int flags, struct path *path)
++{
++	int err;
++
++	err = kern_path(name, flags, path);
++	if (!err && d_is_positive(path->dentry))
++		vfsub_update_h_iattr(path, /*did*/NULL); /*ignore*/
++	return err;
++}
++
++struct dentry *vfsub_lookup_one_len_unlocked(const char *name,
++					     struct dentry *parent, int len)
++{
++	struct path path = {
++		.mnt = NULL
++	};
++
++	path.dentry = lookup_one_len_unlocked(name, parent, len);
++	if (IS_ERR(path.dentry))
++		goto out;
++	if (d_is_positive(path.dentry))
++		vfsub_update_h_iattr(&path, /*did*/NULL); /*ignore*/
++
++out:
++	AuTraceErrPtr(path.dentry);
++	return path.dentry;
++}
++
++struct dentry *vfsub_lookup_one_len(const char *name, struct dentry *parent,
++				    int len)
++{
++	struct path path = {
++		.mnt = NULL
++	};
++
++	/* VFS checks it too, but by WARN_ON_ONCE() */
++	IMustLock(d_inode(parent));
++
++	path.dentry = lookup_one_len(name, parent, len);
++	if (IS_ERR(path.dentry))
++		goto out;
++	if (d_is_positive(path.dentry))
++		vfsub_update_h_iattr(&path, /*did*/NULL); /*ignore*/
++
++out:
++	AuTraceErrPtr(path.dentry);
++	return path.dentry;
++}
++
++void vfsub_call_lkup_one(void *args)
++{
++	struct vfsub_lkup_one_args *a = args;
++	*a->errp = vfsub_lkup_one(a->name, a->parent);
++}
++
++/* ---------------------------------------------------------------------- */
++
++struct dentry *vfsub_lock_rename(struct dentry *d1, struct au_hinode *hdir1,
++				 struct dentry *d2, struct au_hinode *hdir2)
++{
++	struct dentry *d;
++
++	lockdep_off();
++	d = lock_rename(d1, d2);
++	lockdep_on();
++	au_hn_suspend(hdir1);
++	if (hdir1 != hdir2)
++		au_hn_suspend(hdir2);
++
++	return d;
++}
++
++void vfsub_unlock_rename(struct dentry *d1, struct au_hinode *hdir1,
++			 struct dentry *d2, struct au_hinode *hdir2)
++{
++	au_hn_resume(hdir1);
++	if (hdir1 != hdir2)
++		au_hn_resume(hdir2);
++	lockdep_off();
++	unlock_rename(d1, d2);
++	lockdep_on();
++}
++
++/* ---------------------------------------------------------------------- */
++
++int vfsub_create(struct inode *dir, struct path *path, int mode, bool want_excl)
++{
++	int err;
++	struct dentry *d;
++
++	IMustLock(dir);
++
++	d = path->dentry;
++	path->dentry = d->d_parent;
++	err = security_path_mknod(path, d, mode, 0);
++	path->dentry = d;
++	if (unlikely(err))
++		goto out;
++
++	lockdep_off();
++	err = vfs_create(dir, path->dentry, mode, want_excl);
++	lockdep_on();
++	if (!err) {
++		struct path tmp = *path;
++		int did;
++
++		vfsub_update_h_iattr(&tmp, &did);
++		if (did) {
++			tmp.dentry = path->dentry->d_parent;
++			vfsub_update_h_iattr(&tmp, /*did*/NULL);
++		}
++		/*ignore*/
++	}
++
++out:
++	return err;
++}
++
++int vfsub_symlink(struct inode *dir, struct path *path, const char *symname)
++{
++	int err;
++	struct dentry *d;
++
++	IMustLock(dir);
++
++	d = path->dentry;
++	path->dentry = d->d_parent;
++	err = security_path_symlink(path, d, symname);
++	path->dentry = d;
++	if (unlikely(err))
++		goto out;
++
++	lockdep_off();
++	err = vfs_symlink(dir, path->dentry, symname);
++	lockdep_on();
++	if (!err) {
++		struct path tmp = *path;
++		int did;
++
++		vfsub_update_h_iattr(&tmp, &did);
++		if (did) {
++			tmp.dentry = path->dentry->d_parent;
++			vfsub_update_h_iattr(&tmp, /*did*/NULL);
++		}
++		/*ignore*/
++	}
++
++out:
++	return err;
++}
++
++int vfsub_mknod(struct inode *dir, struct path *path, int mode, dev_t dev)
++{
++	int err;
++	struct dentry *d;
++
++	IMustLock(dir);
++
++	d = path->dentry;
++	path->dentry = d->d_parent;
++	err = security_path_mknod(path, d, mode, new_encode_dev(dev));
++	path->dentry = d;
++	if (unlikely(err))
++		goto out;
++
++	lockdep_off();
++	err = vfs_mknod(dir, path->dentry, mode, dev);
++	lockdep_on();
++	if (!err) {
++		struct path tmp = *path;
++		int did;
++
++		vfsub_update_h_iattr(&tmp, &did);
++		if (did) {
++			tmp.dentry = path->dentry->d_parent;
++			vfsub_update_h_iattr(&tmp, /*did*/NULL);
++		}
++		/*ignore*/
++	}
++
++out:
++	return err;
++}
++
++static int au_test_nlink(struct inode *inode)
++{
++	const unsigned int link_max = UINT_MAX >> 1; /* rough margin */
++
++	if (!au_test_fs_no_limit_nlink(inode->i_sb)
++	    || inode->i_nlink < link_max)
++		return 0;
++	return -EMLINK;
++}
++
++int vfsub_link(struct dentry *src_dentry, struct inode *dir, struct path *path,
++	       struct inode **delegated_inode)
++{
++	int err;
++	struct dentry *d;
++
++	IMustLock(dir);
++
++	err = au_test_nlink(d_inode(src_dentry));
++	if (unlikely(err))
++		return err;
++
++	/* we don't call may_linkat() */
++	d = path->dentry;
++	path->dentry = d->d_parent;
++	err = security_path_link(src_dentry, path, d);
++	path->dentry = d;
++	if (unlikely(err))
++		goto out;
++
++	lockdep_off();
++	err = vfs_link(src_dentry, dir, path->dentry, delegated_inode);
++	lockdep_on();
++	if (!err) {
++		struct path tmp = *path;
++		int did;
++
++		/* fuse has different memory inode for the same inumber */
++		vfsub_update_h_iattr(&tmp, &did);
++		if (did) {
++			tmp.dentry = path->dentry->d_parent;
++			vfsub_update_h_iattr(&tmp, /*did*/NULL);
++			tmp.dentry = src_dentry;
++			vfsub_update_h_iattr(&tmp, /*did*/NULL);
++		}
++		/*ignore*/
++	}
++
++out:
++	return err;
++}
++
++int vfsub_rename(struct inode *src_dir, struct dentry *src_dentry,
++		 struct inode *dir, struct path *path,
++		 struct inode **delegated_inode, unsigned int flags)
++{
++	int err;
++	struct path tmp = {
++		.mnt	= path->mnt
++	};
++	struct dentry *d;
++
++	IMustLock(dir);
++	IMustLock(src_dir);
++
++	d = path->dentry;
++	path->dentry = d->d_parent;
++	tmp.dentry = src_dentry->d_parent;
++	err = security_path_rename(&tmp, src_dentry, path, d, /*flags*/0);
++	path->dentry = d;
++	if (unlikely(err))
++		goto out;
++
++	lockdep_off();
++	err = vfs_rename(src_dir, src_dentry, dir, path->dentry,
++			 delegated_inode, flags);
++	lockdep_on();
++	if (!err) {
++		int did;
++
++		tmp.dentry = d->d_parent;
++		vfsub_update_h_iattr(&tmp, &did);
++		if (did) {
++			tmp.dentry = src_dentry;
++			vfsub_update_h_iattr(&tmp, /*did*/NULL);
++			tmp.dentry = src_dentry->d_parent;
++			vfsub_update_h_iattr(&tmp, /*did*/NULL);
++		}
++		/*ignore*/
++	}
++
++out:
++	return err;
++}
++
++int vfsub_mkdir(struct inode *dir, struct path *path, int mode)
++{
++	int err;
++	struct dentry *d;
++
++	IMustLock(dir);
++
++	d = path->dentry;
++	path->dentry = d->d_parent;
++	err = security_path_mkdir(path, d, mode);
++	path->dentry = d;
++	if (unlikely(err))
++		goto out;
++
++	lockdep_off();
++	err = vfs_mkdir(dir, path->dentry, mode);
++	lockdep_on();
++	if (!err) {
++		struct path tmp = *path;
++		int did;
++
++		vfsub_update_h_iattr(&tmp, &did);
++		if (did) {
++			tmp.dentry = path->dentry->d_parent;
++			vfsub_update_h_iattr(&tmp, /*did*/NULL);
++		}
++		/*ignore*/
++	}
++
++out:
++	return err;
++}
++
++int vfsub_rmdir(struct inode *dir, struct path *path)
++{
++	int err;
++	struct dentry *d;
++
++	IMustLock(dir);
++
++	d = path->dentry;
++	path->dentry = d->d_parent;
++	err = security_path_rmdir(path, d);
++	path->dentry = d;
++	if (unlikely(err))
++		goto out;
++
++	lockdep_off();
++	err = vfs_rmdir(dir, path->dentry);
++	lockdep_on();
++	if (!err) {
++		struct path tmp = {
++			.dentry	= path->dentry->d_parent,
++			.mnt	= path->mnt
++		};
++
++		vfsub_update_h_iattr(&tmp, /*did*/NULL); /*ignore*/
++	}
++
++out:
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* todo: support mmap_sem? */
++ssize_t vfsub_read_u(struct file *file, char __user *ubuf, size_t count,
++		     loff_t *ppos)
++{
++	ssize_t err;
++
++	lockdep_off();
++	err = vfs_read(file, ubuf, count, ppos);
++	lockdep_on();
++	if (err >= 0)
++		vfsub_update_h_iattr(&file->f_path, /*did*/NULL); /*ignore*/
++	return err;
++}
++
++/* todo: kernel_read()? */
++ssize_t vfsub_read_k(struct file *file, void *kbuf, size_t count,
++		     loff_t *ppos)
++{
++	ssize_t err;
++	mm_segment_t oldfs;
++	union {
++		void *k;
++		char __user *u;
++	} buf;
++
++	buf.k = kbuf;
++	oldfs = get_fs();
++	set_fs(KERNEL_DS);
++	err = vfsub_read_u(file, buf.u, count, ppos);
++	set_fs(oldfs);
++	return err;
++}
++
++ssize_t vfsub_write_u(struct file *file, const char __user *ubuf, size_t count,
++		      loff_t *ppos)
++{
++	ssize_t err;
++
++	lockdep_off();
++	err = vfs_write(file, ubuf, count, ppos);
++	lockdep_on();
++	if (err >= 0)
++		vfsub_update_h_iattr(&file->f_path, /*did*/NULL); /*ignore*/
++	return err;
++}
++
++ssize_t vfsub_write_k(struct file *file, void *kbuf, size_t count, loff_t *ppos)
++{
++	ssize_t err;
++	mm_segment_t oldfs;
++	union {
++		void *k;
++		const char __user *u;
++	} buf;
++
++	buf.k = kbuf;
++	oldfs = get_fs();
++	set_fs(KERNEL_DS);
++	err = vfsub_write_u(file, buf.u, count, ppos);
++	set_fs(oldfs);
++	return err;
++}
++
++int vfsub_flush(struct file *file, fl_owner_t id)
++{
++	int err;
++
++	err = 0;
++	if (file->f_op->flush) {
++		if (!au_test_nfs(file->f_path.dentry->d_sb))
++			err = file->f_op->flush(file, id);
++		else {
++			lockdep_off();
++			err = file->f_op->flush(file, id);
++			lockdep_on();
++		}
++		if (!err)
++			vfsub_update_h_iattr(&file->f_path, /*did*/NULL);
++		/*ignore*/
++	}
++	return err;
++}
++
++int vfsub_iterate_dir(struct file *file, struct dir_context *ctx)
++{
++	int err;
++
++	AuDbg("%pD, ctx{%pf, %llu}\n", file, ctx->actor, ctx->pos);
++
++	lockdep_off();
++	err = iterate_dir(file, ctx);
++	lockdep_on();
++	if (err >= 0)
++		vfsub_update_h_iattr(&file->f_path, /*did*/NULL); /*ignore*/
++
++	return err;
++}
++
++long vfsub_splice_to(struct file *in, loff_t *ppos,
++		     struct pipe_inode_info *pipe, size_t len,
++		     unsigned int flags)
++{
++	long err;
++
++	lockdep_off();
++	err = do_splice_to(in, ppos, pipe, len, flags);
++	lockdep_on();
++	file_accessed(in);
++	if (err >= 0)
++		vfsub_update_h_iattr(&in->f_path, /*did*/NULL); /*ignore*/
++	return err;
++}
++
++long vfsub_splice_from(struct pipe_inode_info *pipe, struct file *out,
++		       loff_t *ppos, size_t len, unsigned int flags)
++{
++	long err;
++
++	lockdep_off();
++	err = do_splice_from(pipe, out, ppos, len, flags);
++	lockdep_on();
++	if (err >= 0)
++		vfsub_update_h_iattr(&out->f_path, /*did*/NULL); /*ignore*/
++	return err;
++}
++
++int vfsub_fsync(struct file *file, struct path *path, int datasync)
++{
++	int err;
++
++	/* file can be NULL */
++	lockdep_off();
++	err = vfs_fsync(file, datasync);
++	lockdep_on();
++	if (!err) {
++		if (!path) {
++			AuDebugOn(!file);
++			path = &file->f_path;
++		}
++		vfsub_update_h_iattr(path, /*did*/NULL); /*ignore*/
++	}
++	return err;
++}
++
++/* cf. open.c:do_sys_truncate() and do_sys_ftruncate() */
++int vfsub_trunc(struct path *h_path, loff_t length, unsigned int attr,
++		struct file *h_file)
++{
++	int err;
++	struct inode *h_inode;
++	struct super_block *h_sb;
++
++	if (!h_file) {
++		err = vfsub_truncate(h_path, length);
++		goto out;
++	}
++
++	h_inode = d_inode(h_path->dentry);
++	h_sb = h_inode->i_sb;
++	lockdep_off();
++	sb_start_write(h_sb);
++	lockdep_on();
++	err = locks_verify_truncate(h_inode, h_file, length);
++	if (!err)
++		err = security_path_truncate(h_path);
++	if (!err) {
++		lockdep_off();
++		err = do_truncate(h_path->dentry, length, attr, h_file);
++		lockdep_on();
++	}
++	lockdep_off();
++	sb_end_write(h_sb);
++	lockdep_on();
++
++out:
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++struct au_vfsub_mkdir_args {
++	int *errp;
++	struct inode *dir;
++	struct path *path;
++	int mode;
++};
++
++static void au_call_vfsub_mkdir(void *args)
++{
++	struct au_vfsub_mkdir_args *a = args;
++	*a->errp = vfsub_mkdir(a->dir, a->path, a->mode);
++}
++
++int vfsub_sio_mkdir(struct inode *dir, struct path *path, int mode)
++{
++	int err, do_sio, wkq_err;
++
++	do_sio = au_test_h_perm_sio(dir, MAY_EXEC | MAY_WRITE);
++	if (!do_sio) {
++		lockdep_off();
++		err = vfsub_mkdir(dir, path, mode);
++		lockdep_on();
++	} else {
++		struct au_vfsub_mkdir_args args = {
++			.errp	= &err,
++			.dir	= dir,
++			.path	= path,
++			.mode	= mode
++		};
++		wkq_err = au_wkq_wait(au_call_vfsub_mkdir, &args);
++		if (unlikely(wkq_err))
++			err = wkq_err;
++	}
++
++	return err;
++}
++
++struct au_vfsub_rmdir_args {
++	int *errp;
++	struct inode *dir;
++	struct path *path;
++};
++
++static void au_call_vfsub_rmdir(void *args)
++{
++	struct au_vfsub_rmdir_args *a = args;
++	*a->errp = vfsub_rmdir(a->dir, a->path);
++}
++
++int vfsub_sio_rmdir(struct inode *dir, struct path *path)
++{
++	int err, do_sio, wkq_err;
++
++	do_sio = au_test_h_perm_sio(dir, MAY_EXEC | MAY_WRITE);
++	if (!do_sio) {
++		lockdep_off();
++		err = vfsub_rmdir(dir, path);
++		lockdep_on();
++	} else {
++		struct au_vfsub_rmdir_args args = {
++			.errp	= &err,
++			.dir	= dir,
++			.path	= path
++		};
++		wkq_err = au_wkq_wait(au_call_vfsub_rmdir, &args);
++		if (unlikely(wkq_err))
++			err = wkq_err;
++	}
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++struct notify_change_args {
++	int *errp;
++	struct path *path;
++	struct iattr *ia;
++	struct inode **delegated_inode;
++};
++
++static void call_notify_change(void *args)
++{
++	struct notify_change_args *a = args;
++	struct inode *h_inode;
++
++	h_inode = d_inode(a->path->dentry);
++	IMustLock(h_inode);
++
++	*a->errp = -EPERM;
++	if (!IS_IMMUTABLE(h_inode) && !IS_APPEND(h_inode)) {
++		lockdep_off();
++		*a->errp = notify_change(a->path->dentry, a->ia,
++					 a->delegated_inode);
++		lockdep_on();
++		if (!*a->errp)
++			vfsub_update_h_iattr(a->path, /*did*/NULL); /*ignore*/
++	}
++	AuTraceErr(*a->errp);
++}
++
++int vfsub_notify_change(struct path *path, struct iattr *ia,
++			struct inode **delegated_inode)
++{
++	int err;
++	struct notify_change_args args = {
++		.errp			= &err,
++		.path			= path,
++		.ia			= ia,
++		.delegated_inode	= delegated_inode
++	};
++
++	call_notify_change(&args);
++
++	return err;
++}
++
++int vfsub_sio_notify_change(struct path *path, struct iattr *ia,
++			    struct inode **delegated_inode)
++{
++	int err, wkq_err;
++	struct notify_change_args args = {
++		.errp			= &err,
++		.path			= path,
++		.ia			= ia,
++		.delegated_inode	= delegated_inode
++	};
++
++	wkq_err = au_wkq_wait(call_notify_change, &args);
++	if (unlikely(wkq_err))
++		err = wkq_err;
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++struct unlink_args {
++	int *errp;
++	struct inode *dir;
++	struct path *path;
++	struct inode **delegated_inode;
++};
++
++static void call_unlink(void *args)
++{
++	struct unlink_args *a = args;
++	struct dentry *d = a->path->dentry;
++	struct inode *h_inode;
++	const int stop_sillyrename = (au_test_nfs(d->d_sb)
++				      && au_dcount(d) == 1);
++
++	IMustLock(a->dir);
++
++	a->path->dentry = d->d_parent;
++	*a->errp = security_path_unlink(a->path, d);
++	a->path->dentry = d;
++	if (unlikely(*a->errp))
++		return;
++
++	if (!stop_sillyrename)
++		dget(d);
++	h_inode = NULL;
++	if (d_is_positive(d)) {
++		h_inode = d_inode(d);
++		ihold(h_inode);
++	}
++
++	lockdep_off();
++	*a->errp = vfs_unlink(a->dir, d, a->delegated_inode);
++	lockdep_on();
++	if (!*a->errp) {
++		struct path tmp = {
++			.dentry = d->d_parent,
++			.mnt	= a->path->mnt
++		};
++		vfsub_update_h_iattr(&tmp, /*did*/NULL); /*ignore*/
++	}
++
++	if (!stop_sillyrename)
++		dput(d);
++	if (h_inode)
++		iput(h_inode);
++
++	AuTraceErr(*a->errp);
++}
++
++/*
++ * @dir: must be locked.
++ * @dentry: target dentry.
++ */
++int vfsub_unlink(struct inode *dir, struct path *path,
++		 struct inode **delegated_inode, int force)
++{
++	int err;
++	struct unlink_args args = {
++		.errp			= &err,
++		.dir			= dir,
++		.path			= path,
++		.delegated_inode	= delegated_inode
++	};
++
++	if (!force)
++		call_unlink(&args);
++	else {
++		int wkq_err;
++
++		wkq_err = au_wkq_wait(call_unlink, &args);
++		if (unlikely(wkq_err))
++			err = wkq_err;
++	}
++
++	return err;
++}
+diff --git a/fs/aufs/vfsub.h b/fs/aufs/vfsub.h
+new file mode 100755
+index 0000000..7ccfc83
+--- /dev/null
++++ b/fs/aufs/vfsub.h
+@@ -0,0 +1,360 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * sub-routines for VFS
++ */
++
++#ifndef __AUFS_VFSUB_H__
++#define __AUFS_VFSUB_H__
++
++#ifdef __KERNEL__
++
++#include <linux/fs.h>
++#include <linux/mount.h>
++#include <linux/posix_acl.h>
++#include <linux/xattr.h>
++#include "debug.h"
++
++/* copied from linux/fs/internal.h */
++/* todo: BAD approach!! */
++extern void __mnt_drop_write(struct vfsmount *);
++extern int open_check_o_direct(struct file *f);
++
++/* ---------------------------------------------------------------------- */
++
++/* lock subclass for lower inode */
++/* default MAX_LOCKDEP_SUBCLASSES(8) is not enough */
++/* reduce? gave up. */
++enum {
++	AuLsc_I_Begin = I_MUTEX_PARENT2, /* 5 */
++	AuLsc_I_PARENT,		/* lower inode, parent first */
++	AuLsc_I_PARENT2,	/* copyup dirs */
++	AuLsc_I_PARENT3,	/* copyup wh */
++	AuLsc_I_CHILD,
++	AuLsc_I_CHILD2,
++	AuLsc_I_End
++};
++
++/* to debug easier, do not make them inlined functions */
++#define MtxMustLock(mtx)	AuDebugOn(!mutex_is_locked(mtx))
++#define IMustLock(i)		AuDebugOn(!inode_is_locked(i))
++
++/* why VFS doesn't define it? */
++static inline
++void vfsub_inode_lock_shared_nested(struct inode *inode, unsigned int sc)
++{
++	down_read_nested(&inode->i_rwsem, sc);
++}
++
++/* ---------------------------------------------------------------------- */
++
++static inline void vfsub_drop_nlink(struct inode *inode)
++{
++	AuDebugOn(!inode->i_nlink);
++	drop_nlink(inode);
++}
++
++static inline void vfsub_dead_dir(struct inode *inode)
++{
++	AuDebugOn(!S_ISDIR(inode->i_mode));
++	inode->i_flags |= S_DEAD;
++	clear_nlink(inode);
++}
++
++static inline int vfsub_native_ro(struct inode *inode)
++{
++	return (inode->i_sb->s_flags & MS_RDONLY)
++		|| IS_RDONLY(inode)
++		/* || IS_APPEND(inode) */
++		|| IS_IMMUTABLE(inode);
++}
++
++#ifdef CONFIG_AUFS_BR_FUSE
++int vfsub_test_mntns(struct vfsmount *mnt, struct super_block *h_sb);
++#else
++AuStubInt0(vfsub_test_mntns, struct vfsmount *mnt, struct super_block *h_sb);
++#endif
++
++int vfsub_sync_filesystem(struct super_block *h_sb, int wait);
++
++/* ---------------------------------------------------------------------- */
++
++int vfsub_update_h_iattr(struct path *h_path, int *did);
++struct file *vfsub_dentry_open(struct path *path, int flags);
++struct file *vfsub_filp_open(const char *path, int oflags, int mode);
++struct vfsub_aopen_args {
++	struct file	*file;
++	unsigned int	open_flag;
++	umode_t		create_mode;
++	int		*opened;
++};
++struct au_branch;
++int vfsub_atomic_open(struct inode *dir, struct dentry *dentry,
++		      struct vfsub_aopen_args *args, struct au_branch *br);
++int vfsub_kern_path(const char *name, unsigned int flags, struct path *path);
++
++struct dentry *vfsub_lookup_one_len_unlocked(const char *name,
++					     struct dentry *parent, int len);
++struct dentry *vfsub_lookup_one_len(const char *name, struct dentry *parent,
++				    int len);
++
++struct vfsub_lkup_one_args {
++	struct dentry **errp;
++	struct qstr *name;
++	struct dentry *parent;
++};
++
++static inline struct dentry *vfsub_lkup_one(struct qstr *name,
++					    struct dentry *parent)
++{
++	return vfsub_lookup_one_len(name->name, parent, name->len);
++}
++
++void vfsub_call_lkup_one(void *args);
++
++/* ---------------------------------------------------------------------- */
++
++static inline int vfsub_mnt_want_write(struct vfsmount *mnt)
++{
++	int err;
++
++	lockdep_off();
++	err = mnt_want_write(mnt);
++	lockdep_on();
++	return err;
++}
++
++static inline void vfsub_mnt_drop_write(struct vfsmount *mnt)
++{
++	lockdep_off();
++	mnt_drop_write(mnt);
++	lockdep_on();
++}
++
++#if 0 /* reserved */
++static inline void vfsub_mnt_drop_write_file(struct file *file)
++{
++	lockdep_off();
++	mnt_drop_write_file(file);
++	lockdep_on();
++}
++#endif
++
++/* ---------------------------------------------------------------------- */
++
++struct au_hinode;
++struct dentry *vfsub_lock_rename(struct dentry *d1, struct au_hinode *hdir1,
++				 struct dentry *d2, struct au_hinode *hdir2);
++void vfsub_unlock_rename(struct dentry *d1, struct au_hinode *hdir1,
++			 struct dentry *d2, struct au_hinode *hdir2);
++
++int vfsub_create(struct inode *dir, struct path *path, int mode,
++		 bool want_excl);
++int vfsub_symlink(struct inode *dir, struct path *path,
++		  const char *symname);
++int vfsub_mknod(struct inode *dir, struct path *path, int mode, dev_t dev);
++int vfsub_link(struct dentry *src_dentry, struct inode *dir,
++	       struct path *path, struct inode **delegated_inode);
++int vfsub_rename(struct inode *src_hdir, struct dentry *src_dentry,
++		 struct inode *hdir, struct path *path,
++		 struct inode **delegated_inode, unsigned int flags);
++int vfsub_mkdir(struct inode *dir, struct path *path, int mode);
++int vfsub_rmdir(struct inode *dir, struct path *path);
++
++/* ---------------------------------------------------------------------- */
++
++ssize_t vfsub_read_u(struct file *file, char __user *ubuf, size_t count,
++		     loff_t *ppos);
++ssize_t vfsub_read_k(struct file *file, void *kbuf, size_t count,
++			loff_t *ppos);
++ssize_t vfsub_write_u(struct file *file, const char __user *ubuf, size_t count,
++		      loff_t *ppos);
++ssize_t vfsub_write_k(struct file *file, void *kbuf, size_t count,
++		      loff_t *ppos);
++int vfsub_flush(struct file *file, fl_owner_t id);
++int vfsub_iterate_dir(struct file *file, struct dir_context *ctx);
++
++static inline loff_t vfsub_f_size_read(struct file *file)
++{
++	return i_size_read(file_inode(file));
++}
++
++static inline unsigned int vfsub_file_flags(struct file *file)
++{
++	unsigned int flags;
++
++	spin_lock(&file->f_lock);
++	flags = file->f_flags;
++	spin_unlock(&file->f_lock);
++
++	return flags;
++}
++
++static inline int vfsub_file_execed(struct file *file)
++{
++	/* todo: direct access f_flags */
++	return !!(vfsub_file_flags(file) & __FMODE_EXEC);
++}
++
++#if 0 /* reserved */
++static inline void vfsub_file_accessed(struct file *h_file)
++{
++	file_accessed(h_file);
++	vfsub_update_h_iattr(&h_file->f_path, /*did*/NULL); /*ignore*/
++}
++#endif
++
++#if 0 /* reserved */
++static inline void vfsub_touch_atime(struct vfsmount *h_mnt,
++				     struct dentry *h_dentry)
++{
++	struct path h_path = {
++		.dentry	= h_dentry,
++		.mnt	= h_mnt
++	};
++	touch_atime(&h_path);
++	vfsub_update_h_iattr(&h_path, /*did*/NULL); /*ignore*/
++}
++#endif
++
++static inline int vfsub_update_time(struct inode *h_inode, struct timespec *ts,
++				    int flags)
++{
++	return update_time(h_inode, ts, flags);
++	/* no vfsub_update_h_iattr() since we don't have struct path */
++}
++
++#ifdef CONFIG_FS_POSIX_ACL
++static inline int vfsub_acl_chmod(struct inode *h_inode, umode_t h_mode)
++{
++	int err;
++
++	err = posix_acl_chmod(h_inode, h_mode);
++	if (err == -EOPNOTSUPP)
++		err = 0;
++	return err;
++}
++#else
++AuStubInt0(vfsub_acl_chmod, struct inode *h_inode, umode_t h_mode);
++#endif
++
++long vfsub_splice_to(struct file *in, loff_t *ppos,
++		     struct pipe_inode_info *pipe, size_t len,
++		     unsigned int flags);
++long vfsub_splice_from(struct pipe_inode_info *pipe, struct file *out,
++		       loff_t *ppos, size_t len, unsigned int flags);
++
++static inline long vfsub_truncate(struct path *path, loff_t length)
++{
++	long err;
++
++	lockdep_off();
++	err = vfs_truncate(path, length);
++	lockdep_on();
++	return err;
++}
++
++int vfsub_trunc(struct path *h_path, loff_t length, unsigned int attr,
++		struct file *h_file);
++int vfsub_fsync(struct file *file, struct path *path, int datasync);
++
++/*
++ * re-use branch fs's ioctl(FICLONE) while aufs itself doesn't support such
++ * ioctl.
++ */
++static inline int vfsub_clone_file_range(struct file *src, struct file *dst,
++					 u64 len)
++{
++	int err;
++
++	lockdep_off();
++	err = vfs_clone_file_range(src, 0, dst, 0, len);
++	lockdep_on();
++
++	return err;
++}
++
++/* copy_file_range(2) is a systemcall */
++static inline ssize_t vfsub_copy_file_range(struct file *src, loff_t src_pos,
++					    struct file *dst, loff_t dst_pos,
++					    size_t len, unsigned int flags)
++{
++	ssize_t ssz;
++
++	lockdep_off();
++	ssz = vfs_copy_file_range(src, src_pos, dst, dst_pos, len, flags);
++	lockdep_on();
++
++	return ssz;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static inline loff_t vfsub_llseek(struct file *file, loff_t offset, int origin)
++{
++	loff_t err;
++
++	lockdep_off();
++	err = vfs_llseek(file, offset, origin);
++	lockdep_on();
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++int vfsub_sio_mkdir(struct inode *dir, struct path *path, int mode);
++int vfsub_sio_rmdir(struct inode *dir, struct path *path);
++int vfsub_sio_notify_change(struct path *path, struct iattr *ia,
++			    struct inode **delegated_inode);
++int vfsub_notify_change(struct path *path, struct iattr *ia,
++			struct inode **delegated_inode);
++int vfsub_unlink(struct inode *dir, struct path *path,
++		 struct inode **delegated_inode, int force);
++
++static inline int vfsub_getattr(const struct path *path, struct kstat *st)
++{
++	return vfs_getattr(path, st, STATX_BASIC_STATS, AT_STATX_SYNC_AS_STAT);
++}
++
++/* ---------------------------------------------------------------------- */
++
++static inline int vfsub_setxattr(struct dentry *dentry, const char *name,
++				 const void *value, size_t size, int flags)
++{
++	int err;
++
++	lockdep_off();
++	err = vfs_setxattr(dentry, name, value, size, flags);
++	lockdep_on();
++
++	return err;
++}
++
++static inline int vfsub_removexattr(struct dentry *dentry, const char *name)
++{
++	int err;
++
++	lockdep_off();
++	err = vfs_removexattr(dentry, name);
++	lockdep_on();
++
++	return err;
++}
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_VFSUB_H__ */
+diff --git a/fs/aufs/wbr_policy.c b/fs/aufs/wbr_policy.c
+new file mode 100755
+index 0000000..a28296d
+--- /dev/null
++++ b/fs/aufs/wbr_policy.c
+@@ -0,0 +1,830 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * policies for selecting one among multiple writable branches
++ */
++
++#include <linux/statfs.h>
++#include "aufs.h"
++
++/* subset of cpup_attr() */
++static noinline_for_stack
++int au_cpdown_attr(struct path *h_path, struct dentry *h_src)
++{
++	int err, sbits;
++	struct iattr ia;
++	struct inode *h_isrc;
++
++	h_isrc = d_inode(h_src);
++	ia.ia_valid = ATTR_FORCE | ATTR_MODE | ATTR_UID | ATTR_GID;
++	ia.ia_mode = h_isrc->i_mode;
++	ia.ia_uid = h_isrc->i_uid;
++	ia.ia_gid = h_isrc->i_gid;
++	sbits = !!(ia.ia_mode & (S_ISUID | S_ISGID));
++	au_cpup_attr_flags(d_inode(h_path->dentry), h_isrc->i_flags);
++	/* no delegation since it is just created */
++	err = vfsub_sio_notify_change(h_path, &ia, /*delegated*/NULL);
++
++	/* is this nfs only? */
++	if (!err && sbits && au_test_nfs(h_path->dentry->d_sb)) {
++		ia.ia_valid = ATTR_FORCE | ATTR_MODE;
++		ia.ia_mode = h_isrc->i_mode;
++		err = vfsub_sio_notify_change(h_path, &ia, /*delegated*/NULL);
++	}
++
++	return err;
++}
++
++#define AuCpdown_PARENT_OPQ	1
++#define AuCpdown_WHED		(1 << 1)
++#define AuCpdown_MADE_DIR	(1 << 2)
++#define AuCpdown_DIROPQ		(1 << 3)
++#define au_ftest_cpdown(flags, name)	((flags) & AuCpdown_##name)
++#define au_fset_cpdown(flags, name) \
++	do { (flags) |= AuCpdown_##name; } while (0)
++#define au_fclr_cpdown(flags, name) \
++	do { (flags) &= ~AuCpdown_##name; } while (0)
++
++static int au_cpdown_dir_opq(struct dentry *dentry, aufs_bindex_t bdst,
++			     unsigned int *flags)
++{
++	int err;
++	struct dentry *opq_dentry;
++
++	opq_dentry = au_diropq_create(dentry, bdst);
++	err = PTR_ERR(opq_dentry);
++	if (IS_ERR(opq_dentry))
++		goto out;
++	dput(opq_dentry);
++	au_fset_cpdown(*flags, DIROPQ);
++
++out:
++	return err;
++}
++
++static int au_cpdown_dir_wh(struct dentry *dentry, struct dentry *h_parent,
++			    struct inode *dir, aufs_bindex_t bdst)
++{
++	int err;
++	struct path h_path;
++	struct au_branch *br;
++
++	br = au_sbr(dentry->d_sb, bdst);
++	h_path.dentry = au_wh_lkup(h_parent, &dentry->d_name, br);
++	err = PTR_ERR(h_path.dentry);
++	if (IS_ERR(h_path.dentry))
++		goto out;
++
++	err = 0;
++	if (d_is_positive(h_path.dentry)) {
++		h_path.mnt = au_br_mnt(br);
++		err = au_wh_unlink_dentry(au_h_iptr(dir, bdst), &h_path,
++					  dentry);
++	}
++	dput(h_path.dentry);
++
++out:
++	return err;
++}
++
++static int au_cpdown_dir(struct dentry *dentry, aufs_bindex_t bdst,
++			 struct au_pin *pin,
++			 struct dentry *h_parent, void *arg)
++{
++	int err, rerr;
++	aufs_bindex_t bopq, btop;
++	struct path h_path;
++	struct dentry *parent;
++	struct inode *h_dir, *h_inode, *inode, *dir;
++	unsigned int *flags = arg;
++
++	btop = au_dbtop(dentry);
++	/* dentry is di-locked */
++	parent = dget_parent(dentry);
++	dir = d_inode(parent);
++	h_dir = d_inode(h_parent);
++	AuDebugOn(h_dir != au_h_iptr(dir, bdst));
++	IMustLock(h_dir);
++
++	err = au_lkup_neg(dentry, bdst, /*wh*/0);
++	if (unlikely(err < 0))
++		goto out;
++	h_path.dentry = au_h_dptr(dentry, bdst);
++	h_path.mnt = au_sbr_mnt(dentry->d_sb, bdst);
++	err = vfsub_sio_mkdir(au_h_iptr(dir, bdst), &h_path,
++			      S_IRWXU | S_IRUGO | S_IXUGO);
++	if (unlikely(err))
++		goto out_put;
++	au_fset_cpdown(*flags, MADE_DIR);
++
++	bopq = au_dbdiropq(dentry);
++	au_fclr_cpdown(*flags, WHED);
++	au_fclr_cpdown(*flags, DIROPQ);
++	if (au_dbwh(dentry) == bdst)
++		au_fset_cpdown(*flags, WHED);
++	if (!au_ftest_cpdown(*flags, PARENT_OPQ) && bopq <= bdst)
++		au_fset_cpdown(*flags, PARENT_OPQ);
++	h_inode = d_inode(h_path.dentry);
++	inode_lock_nested(h_inode, AuLsc_I_CHILD);
++	if (au_ftest_cpdown(*flags, WHED)) {
++		err = au_cpdown_dir_opq(dentry, bdst, flags);
++		if (unlikely(err)) {
++			inode_unlock(h_inode);
++			goto out_dir;
++		}
++	}
++
++	err = au_cpdown_attr(&h_path, au_h_dptr(dentry, btop));
++	inode_unlock(h_inode);
++	if (unlikely(err))
++		goto out_opq;
++
++	if (au_ftest_cpdown(*flags, WHED)) {
++		err = au_cpdown_dir_wh(dentry, h_parent, dir, bdst);
++		if (unlikely(err))
++			goto out_opq;
++	}
++
++	inode = d_inode(dentry);
++	if (au_ibbot(inode) < bdst)
++		au_set_ibbot(inode, bdst);
++	au_set_h_iptr(inode, bdst, au_igrab(h_inode),
++		      au_hi_flags(inode, /*isdir*/1));
++	au_fhsm_wrote(dentry->d_sb, bdst, /*force*/0);
++	goto out; /* success */
++
++	/* revert */
++out_opq:
++	if (au_ftest_cpdown(*flags, DIROPQ)) {
++		inode_lock_nested(h_inode, AuLsc_I_CHILD);
++		rerr = au_diropq_remove(dentry, bdst);
++		inode_unlock(h_inode);
++		if (unlikely(rerr)) {
++			AuIOErr("failed removing diropq for %pd b%d (%d)\n",
++				dentry, bdst, rerr);
++			err = -EIO;
++			goto out;
++		}
++	}
++out_dir:
++	if (au_ftest_cpdown(*flags, MADE_DIR)) {
++		rerr = vfsub_sio_rmdir(au_h_iptr(dir, bdst), &h_path);
++		if (unlikely(rerr)) {
++			AuIOErr("failed removing %pd b%d (%d)\n",
++				dentry, bdst, rerr);
++			err = -EIO;
++		}
++	}
++out_put:
++	au_set_h_dptr(dentry, bdst, NULL);
++	if (au_dbbot(dentry) == bdst)
++		au_update_dbbot(dentry);
++out:
++	dput(parent);
++	return err;
++}
++
++int au_cpdown_dirs(struct dentry *dentry, aufs_bindex_t bdst)
++{
++	int err;
++	unsigned int flags;
++
++	flags = 0;
++	err = au_cp_dirs(dentry, bdst, au_cpdown_dir, &flags);
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* policies for create */
++
++int au_wbr_nonopq(struct dentry *dentry, aufs_bindex_t bindex)
++{
++	int err, i, j, ndentry;
++	aufs_bindex_t bopq;
++	struct au_dcsub_pages dpages;
++	struct au_dpage *dpage;
++	struct dentry **dentries, *parent, *d;
++
++	err = au_dpages_init(&dpages, GFP_NOFS);
++	if (unlikely(err))
++		goto out;
++	parent = dget_parent(dentry);
++	err = au_dcsub_pages_rev_aufs(&dpages, parent, /*do_include*/0);
++	if (unlikely(err))
++		goto out_free;
++
++	err = bindex;
++	for (i = 0; i < dpages.ndpage; i++) {
++		dpage = dpages.dpages + i;
++		dentries = dpage->dentries;
++		ndentry = dpage->ndentry;
++		for (j = 0; j < ndentry; j++) {
++			d = dentries[j];
++			di_read_lock_parent2(d, !AuLock_IR);
++			bopq = au_dbdiropq(d);
++			di_read_unlock(d, !AuLock_IR);
++			if (bopq >= 0 && bopq < err)
++				err = bopq;
++		}
++	}
++
++out_free:
++	dput(parent);
++	au_dpages_free(&dpages);
++out:
++	return err;
++}
++
++static int au_wbr_bu(struct super_block *sb, aufs_bindex_t bindex)
++{
++	for (; bindex >= 0; bindex--)
++		if (!au_br_rdonly(au_sbr(sb, bindex)))
++			return bindex;
++	return -EROFS;
++}
++
++/* top down parent */
++static int au_wbr_create_tdp(struct dentry *dentry,
++			     unsigned int flags __maybe_unused)
++{
++	int err;
++	aufs_bindex_t btop, bindex;
++	struct super_block *sb;
++	struct dentry *parent, *h_parent;
++
++	sb = dentry->d_sb;
++	btop = au_dbtop(dentry);
++	err = btop;
++	if (!au_br_rdonly(au_sbr(sb, btop)))
++		goto out;
++
++	err = -EROFS;
++	parent = dget_parent(dentry);
++	for (bindex = au_dbtop(parent); bindex < btop; bindex++) {
++		h_parent = au_h_dptr(parent, bindex);
++		if (!h_parent || d_is_negative(h_parent))
++			continue;
++
++		if (!au_br_rdonly(au_sbr(sb, bindex))) {
++			err = bindex;
++			break;
++		}
++	}
++	dput(parent);
++
++	/* bottom up here */
++	if (unlikely(err < 0)) {
++		err = au_wbr_bu(sb, btop - 1);
++		if (err >= 0)
++			err = au_wbr_nonopq(dentry, err);
++	}
++
++out:
++	AuDbg("b%d\n", err);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* an exception for the policy other than tdp */
++static int au_wbr_create_exp(struct dentry *dentry)
++{
++	int err;
++	aufs_bindex_t bwh, bdiropq;
++	struct dentry *parent;
++
++	err = -1;
++	bwh = au_dbwh(dentry);
++	parent = dget_parent(dentry);
++	bdiropq = au_dbdiropq(parent);
++	if (bwh >= 0) {
++		if (bdiropq >= 0)
++			err = min(bdiropq, bwh);
++		else
++			err = bwh;
++		AuDbg("%d\n", err);
++	} else if (bdiropq >= 0) {
++		err = bdiropq;
++		AuDbg("%d\n", err);
++	}
++	dput(parent);
++
++	if (err >= 0)
++		err = au_wbr_nonopq(dentry, err);
++
++	if (err >= 0 && au_br_rdonly(au_sbr(dentry->d_sb, err)))
++		err = -1;
++
++	AuDbg("%d\n", err);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* round robin */
++static int au_wbr_create_init_rr(struct super_block *sb)
++{
++	int err;
++
++	err = au_wbr_bu(sb, au_sbbot(sb));
++	atomic_set(&au_sbi(sb)->si_wbr_rr_next, -err); /* less important */
++	/* smp_mb(); */
++
++	AuDbg("b%d\n", err);
++	return err;
++}
++
++static int au_wbr_create_rr(struct dentry *dentry, unsigned int flags)
++{
++	int err, nbr;
++	unsigned int u;
++	aufs_bindex_t bindex, bbot;
++	struct super_block *sb;
++	atomic_t *next;
++
++	err = au_wbr_create_exp(dentry);
++	if (err >= 0)
++		goto out;
++
++	sb = dentry->d_sb;
++	next = &au_sbi(sb)->si_wbr_rr_next;
++	bbot = au_sbbot(sb);
++	nbr = bbot + 1;
++	for (bindex = 0; bindex <= bbot; bindex++) {
++		if (!au_ftest_wbr(flags, DIR)) {
++			err = atomic_dec_return(next) + 1;
++			/* modulo for 0 is meaningless */
++			if (unlikely(!err))
++				err = atomic_dec_return(next) + 1;
++		} else
++			err = atomic_read(next);
++		AuDbg("%d\n", err);
++		u = err;
++		err = u % nbr;
++		AuDbg("%d\n", err);
++		if (!au_br_rdonly(au_sbr(sb, err)))
++			break;
++		err = -EROFS;
++	}
++
++	if (err >= 0)
++		err = au_wbr_nonopq(dentry, err);
++
++out:
++	AuDbg("%d\n", err);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* most free space */
++static void au_mfs(struct dentry *dentry, struct dentry *parent)
++{
++	struct super_block *sb;
++	struct au_branch *br;
++	struct au_wbr_mfs *mfs;
++	struct dentry *h_parent;
++	aufs_bindex_t bindex, bbot;
++	int err;
++	unsigned long long b, bavail;
++	struct path h_path;
++	/* reduce the stack usage */
++	struct kstatfs *st;
++
++	st = kmalloc(sizeof(*st), GFP_NOFS);
++	if (unlikely(!st)) {
++		AuWarn1("failed updating mfs(%d), ignored\n", -ENOMEM);
++		return;
++	}
++
++	bavail = 0;
++	sb = dentry->d_sb;
++	mfs = &au_sbi(sb)->si_wbr_mfs;
++	MtxMustLock(&mfs->mfs_lock);
++	mfs->mfs_bindex = -EROFS;
++	mfs->mfsrr_bytes = 0;
++	if (!parent) {
++		bindex = 0;
++		bbot = au_sbbot(sb);
++	} else {
++		bindex = au_dbtop(parent);
++		bbot = au_dbtaildir(parent);
++	}
++
++	for (; bindex <= bbot; bindex++) {
++		if (parent) {
++			h_parent = au_h_dptr(parent, bindex);
++			if (!h_parent || d_is_negative(h_parent))
++				continue;
++		}
++		br = au_sbr(sb, bindex);
++		if (au_br_rdonly(br))
++			continue;
++
++		/* sb->s_root for NFS is unreliable */
++		h_path.mnt = au_br_mnt(br);
++		h_path.dentry = h_path.mnt->mnt_root;
++		err = vfs_statfs(&h_path, st);
++		if (unlikely(err)) {
++			AuWarn1("failed statfs, b%d, %d\n", bindex, err);
++			continue;
++		}
++
++		/* when the available size is equal, select the lower one */
++		BUILD_BUG_ON(sizeof(b) < sizeof(st->f_bavail)
++			     || sizeof(b) < sizeof(st->f_bsize));
++		b = st->f_bavail * st->f_bsize;
++		br->br_wbr->wbr_bytes = b;
++		if (b >= bavail) {
++			bavail = b;
++			mfs->mfs_bindex = bindex;
++			mfs->mfs_jiffy = jiffies;
++		}
++	}
++
++	mfs->mfsrr_bytes = bavail;
++	AuDbg("b%d\n", mfs->mfs_bindex);
++	kfree(st);
++}
++
++static int au_wbr_create_mfs(struct dentry *dentry, unsigned int flags)
++{
++	int err;
++	struct dentry *parent;
++	struct super_block *sb;
++	struct au_wbr_mfs *mfs;
++
++	err = au_wbr_create_exp(dentry);
++	if (err >= 0)
++		goto out;
++
++	sb = dentry->d_sb;
++	parent = NULL;
++	if (au_ftest_wbr(flags, PARENT))
++		parent = dget_parent(dentry);
++	mfs = &au_sbi(sb)->si_wbr_mfs;
++	mutex_lock(&mfs->mfs_lock);
++	if (time_after(jiffies, mfs->mfs_jiffy + mfs->mfs_expire)
++	    || mfs->mfs_bindex < 0
++	    || au_br_rdonly(au_sbr(sb, mfs->mfs_bindex)))
++		au_mfs(dentry, parent);
++	mutex_unlock(&mfs->mfs_lock);
++	err = mfs->mfs_bindex;
++	dput(parent);
++
++	if (err >= 0)
++		err = au_wbr_nonopq(dentry, err);
++
++out:
++	AuDbg("b%d\n", err);
++	return err;
++}
++
++static int au_wbr_create_init_mfs(struct super_block *sb)
++{
++	struct au_wbr_mfs *mfs;
++
++	mfs = &au_sbi(sb)->si_wbr_mfs;
++	mutex_init(&mfs->mfs_lock);
++	mfs->mfs_jiffy = 0;
++	mfs->mfs_bindex = -EROFS;
++
++	return 0;
++}
++
++static int au_wbr_create_fin_mfs(struct super_block *sb __maybe_unused)
++{
++	mutex_destroy(&au_sbi(sb)->si_wbr_mfs.mfs_lock);
++	return 0;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* top down regardless parent, and then mfs */
++static int au_wbr_create_tdmfs(struct dentry *dentry,
++			       unsigned int flags __maybe_unused)
++{
++	int err;
++	aufs_bindex_t bwh, btail, bindex, bfound, bmfs;
++	unsigned long long watermark;
++	struct super_block *sb;
++	struct au_wbr_mfs *mfs;
++	struct au_branch *br;
++	struct dentry *parent;
++
++	sb = dentry->d_sb;
++	mfs = &au_sbi(sb)->si_wbr_mfs;
++	mutex_lock(&mfs->mfs_lock);
++	if (time_after(jiffies, mfs->mfs_jiffy + mfs->mfs_expire)
++	    || mfs->mfs_bindex < 0)
++		au_mfs(dentry, /*parent*/NULL);
++	watermark = mfs->mfsrr_watermark;
++	bmfs = mfs->mfs_bindex;
++	mutex_unlock(&mfs->mfs_lock);
++
++	/* another style of au_wbr_create_exp() */
++	bwh = au_dbwh(dentry);
++	parent = dget_parent(dentry);
++	btail = au_dbtaildir(parent);
++	if (bwh >= 0 && bwh < btail)
++		btail = bwh;
++
++	err = au_wbr_nonopq(dentry, btail);
++	if (unlikely(err < 0))
++		goto out;
++	btail = err;
++	bfound = -1;
++	for (bindex = 0; bindex <= btail; bindex++) {
++		br = au_sbr(sb, bindex);
++		if (au_br_rdonly(br))
++			continue;
++		if (br->br_wbr->wbr_bytes > watermark) {
++			bfound = bindex;
++			break;
++		}
++	}
++	err = bfound;
++	if (err < 0)
++		err = bmfs;
++
++out:
++	dput(parent);
++	AuDbg("b%d\n", err);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* most free space and then round robin */
++static int au_wbr_create_mfsrr(struct dentry *dentry, unsigned int flags)
++{
++	int err;
++	struct au_wbr_mfs *mfs;
++
++	err = au_wbr_create_mfs(dentry, flags);
++	if (err >= 0) {
++		mfs = &au_sbi(dentry->d_sb)->si_wbr_mfs;
++		mutex_lock(&mfs->mfs_lock);
++		if (mfs->mfsrr_bytes < mfs->mfsrr_watermark)
++			err = au_wbr_create_rr(dentry, flags);
++		mutex_unlock(&mfs->mfs_lock);
++	}
++
++	AuDbg("b%d\n", err);
++	return err;
++}
++
++static int au_wbr_create_init_mfsrr(struct super_block *sb)
++{
++	int err;
++
++	au_wbr_create_init_mfs(sb); /* ignore */
++	err = au_wbr_create_init_rr(sb);
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* top down parent and most free space */
++static int au_wbr_create_pmfs(struct dentry *dentry, unsigned int flags)
++{
++	int err, e2;
++	unsigned long long b;
++	aufs_bindex_t bindex, btop, bbot;
++	struct super_block *sb;
++	struct dentry *parent, *h_parent;
++	struct au_branch *br;
++
++	err = au_wbr_create_tdp(dentry, flags);
++	if (unlikely(err < 0))
++		goto out;
++	parent = dget_parent(dentry);
++	btop = au_dbtop(parent);
++	bbot = au_dbtaildir(parent);
++	if (btop == bbot)
++		goto out_parent; /* success */
++
++	e2 = au_wbr_create_mfs(dentry, flags);
++	if (e2 < 0)
++		goto out_parent; /* success */
++
++	/* when the available size is equal, select upper one */
++	sb = dentry->d_sb;
++	br = au_sbr(sb, err);
++	b = br->br_wbr->wbr_bytes;
++	AuDbg("b%d, %llu\n", err, b);
++
++	for (bindex = btop; bindex <= bbot; bindex++) {
++		h_parent = au_h_dptr(parent, bindex);
++		if (!h_parent || d_is_negative(h_parent))
++			continue;
++
++		br = au_sbr(sb, bindex);
++		if (!au_br_rdonly(br) && br->br_wbr->wbr_bytes > b) {
++			b = br->br_wbr->wbr_bytes;
++			err = bindex;
++			AuDbg("b%d, %llu\n", err, b);
++		}
++	}
++
++	if (err >= 0)
++		err = au_wbr_nonopq(dentry, err);
++
++out_parent:
++	dput(parent);
++out:
++	AuDbg("b%d\n", err);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * - top down parent
++ * - most free space with parent
++ * - most free space round-robin regardless parent
++ */
++static int au_wbr_create_pmfsrr(struct dentry *dentry, unsigned int flags)
++{
++	int err;
++	unsigned long long watermark;
++	struct super_block *sb;
++	struct au_branch *br;
++	struct au_wbr_mfs *mfs;
++
++	err = au_wbr_create_pmfs(dentry, flags | AuWbr_PARENT);
++	if (unlikely(err < 0))
++		goto out;
++
++	sb = dentry->d_sb;
++	br = au_sbr(sb, err);
++	mfs = &au_sbi(sb)->si_wbr_mfs;
++	mutex_lock(&mfs->mfs_lock);
++	watermark = mfs->mfsrr_watermark;
++	mutex_unlock(&mfs->mfs_lock);
++	if (br->br_wbr->wbr_bytes < watermark)
++		/* regardless the parent dir */
++		err = au_wbr_create_mfsrr(dentry, flags);
++
++out:
++	AuDbg("b%d\n", err);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* policies for copyup */
++
++/* top down parent */
++static int au_wbr_copyup_tdp(struct dentry *dentry)
++{
++	return au_wbr_create_tdp(dentry, /*flags, anything is ok*/0);
++}
++
++/* bottom up parent */
++static int au_wbr_copyup_bup(struct dentry *dentry)
++{
++	int err;
++	aufs_bindex_t bindex, btop;
++	struct dentry *parent, *h_parent;
++	struct super_block *sb;
++
++	err = -EROFS;
++	sb = dentry->d_sb;
++	parent = dget_parent(dentry);
++	btop = au_dbtop(parent);
++	for (bindex = au_dbtop(dentry); bindex >= btop; bindex--) {
++		h_parent = au_h_dptr(parent, bindex);
++		if (!h_parent || d_is_negative(h_parent))
++			continue;
++
++		if (!au_br_rdonly(au_sbr(sb, bindex))) {
++			err = bindex;
++			break;
++		}
++	}
++	dput(parent);
++
++	/* bottom up here */
++	if (unlikely(err < 0))
++		err = au_wbr_bu(sb, btop - 1);
++
++	AuDbg("b%d\n", err);
++	return err;
++}
++
++/* bottom up */
++int au_wbr_do_copyup_bu(struct dentry *dentry, aufs_bindex_t btop)
++{
++	int err;
++
++	err = au_wbr_bu(dentry->d_sb, btop);
++	AuDbg("b%d\n", err);
++	if (err > btop)
++		err = au_wbr_nonopq(dentry, err);
++
++	AuDbg("b%d\n", err);
++	return err;
++}
++
++static int au_wbr_copyup_bu(struct dentry *dentry)
++{
++	int err;
++	aufs_bindex_t btop;
++
++	btop = au_dbtop(dentry);
++	err = au_wbr_do_copyup_bu(dentry, btop);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++struct au_wbr_copyup_operations au_wbr_copyup_ops[] = {
++	[AuWbrCopyup_TDP] = {
++		.copyup	= au_wbr_copyup_tdp
++	},
++	[AuWbrCopyup_BUP] = {
++		.copyup	= au_wbr_copyup_bup
++	},
++	[AuWbrCopyup_BU] = {
++		.copyup	= au_wbr_copyup_bu
++	}
++};
++
++struct au_wbr_create_operations au_wbr_create_ops[] = {
++	[AuWbrCreate_TDP] = {
++		.create	= au_wbr_create_tdp
++	},
++	[AuWbrCreate_RR] = {
++		.create	= au_wbr_create_rr,
++		.init	= au_wbr_create_init_rr
++	},
++	[AuWbrCreate_MFS] = {
++		.create	= au_wbr_create_mfs,
++		.init	= au_wbr_create_init_mfs,
++		.fin	= au_wbr_create_fin_mfs
++	},
++	[AuWbrCreate_MFSV] = {
++		.create	= au_wbr_create_mfs,
++		.init	= au_wbr_create_init_mfs,
++		.fin	= au_wbr_create_fin_mfs
++	},
++	[AuWbrCreate_MFSRR] = {
++		.create	= au_wbr_create_mfsrr,
++		.init	= au_wbr_create_init_mfsrr,
++		.fin	= au_wbr_create_fin_mfs
++	},
++	[AuWbrCreate_MFSRRV] = {
++		.create	= au_wbr_create_mfsrr,
++		.init	= au_wbr_create_init_mfsrr,
++		.fin	= au_wbr_create_fin_mfs
++	},
++	[AuWbrCreate_TDMFS] = {
++		.create	= au_wbr_create_tdmfs,
++		.init	= au_wbr_create_init_mfs,
++		.fin	= au_wbr_create_fin_mfs
++	},
++	[AuWbrCreate_TDMFSV] = {
++		.create	= au_wbr_create_tdmfs,
++		.init	= au_wbr_create_init_mfs,
++		.fin	= au_wbr_create_fin_mfs
++	},
++	[AuWbrCreate_PMFS] = {
++		.create	= au_wbr_create_pmfs,
++		.init	= au_wbr_create_init_mfs,
++		.fin	= au_wbr_create_fin_mfs
++	},
++	[AuWbrCreate_PMFSV] = {
++		.create	= au_wbr_create_pmfs,
++		.init	= au_wbr_create_init_mfs,
++		.fin	= au_wbr_create_fin_mfs
++	},
++	[AuWbrCreate_PMFSRR] = {
++		.create	= au_wbr_create_pmfsrr,
++		.init	= au_wbr_create_init_mfsrr,
++		.fin	= au_wbr_create_fin_mfs
++	},
++	[AuWbrCreate_PMFSRRV] = {
++		.create	= au_wbr_create_pmfsrr,
++		.init	= au_wbr_create_init_mfsrr,
++		.fin	= au_wbr_create_fin_mfs
++	}
++};
+diff --git a/fs/aufs/whout.c b/fs/aufs/whout.c
+new file mode 100755
+index 0000000..05c069e
+--- /dev/null
++++ b/fs/aufs/whout.c
+@@ -0,0 +1,1061 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * whiteout for logical deletion and opaque directory
++ */
++
++#include "aufs.h"
++
++#define WH_MASK			S_IRUGO
++
++/*
++ * If a directory contains this file, then it is opaque.  We start with the
++ * .wh. flag so that it is blocked by lookup.
++ */
++static struct qstr diropq_name = QSTR_INIT(AUFS_WH_DIROPQ,
++					   sizeof(AUFS_WH_DIROPQ) - 1);
++
++/*
++ * generate whiteout name, which is NOT terminated by NULL.
++ * @name: original d_name.name
++ * @len: original d_name.len
++ * @wh: whiteout qstr
++ * returns zero when succeeds, otherwise error.
++ * succeeded value as wh->name should be freed by kfree().
++ */
++int au_wh_name_alloc(struct qstr *wh, const struct qstr *name)
++{
++	char *p;
++
++	if (unlikely(name->len > PATH_MAX - AUFS_WH_PFX_LEN))
++		return -ENAMETOOLONG;
++
++	wh->len = name->len + AUFS_WH_PFX_LEN;
++	p = kmalloc(wh->len, GFP_NOFS);
++	wh->name = p;
++	if (p) {
++		memcpy(p, AUFS_WH_PFX, AUFS_WH_PFX_LEN);
++		memcpy(p + AUFS_WH_PFX_LEN, name->name, name->len);
++		/* smp_mb(); */
++		return 0;
++	}
++	return -ENOMEM;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * test if the @wh_name exists under @h_parent.
++ * @try_sio specifies the necessary of super-io.
++ */
++int au_wh_test(struct dentry *h_parent, struct qstr *wh_name, int try_sio)
++{
++	int err;
++	struct dentry *wh_dentry;
++
++	if (!try_sio)
++		wh_dentry = vfsub_lkup_one(wh_name, h_parent);
++	else
++		wh_dentry = au_sio_lkup_one(wh_name, h_parent);
++	err = PTR_ERR(wh_dentry);
++	if (IS_ERR(wh_dentry)) {
++		if (err == -ENAMETOOLONG)
++			err = 0;
++		goto out;
++	}
++
++	err = 0;
++	if (d_is_negative(wh_dentry))
++		goto out_wh; /* success */
++
++	err = 1;
++	if (d_is_reg(wh_dentry))
++		goto out_wh; /* success */
++
++	err = -EIO;
++	AuIOErr("%pd Invalid whiteout entry type 0%o.\n",
++		wh_dentry, d_inode(wh_dentry)->i_mode);
++
++out_wh:
++	dput(wh_dentry);
++out:
++	return err;
++}
++
++/*
++ * test if the @h_dentry sets opaque or not.
++ */
++int au_diropq_test(struct dentry *h_dentry)
++{
++	int err;
++	struct inode *h_dir;
++
++	h_dir = d_inode(h_dentry);
++	err = au_wh_test(h_dentry, &diropq_name,
++			 au_test_h_perm_sio(h_dir, MAY_EXEC));
++	return err;
++}
++
++/*
++ * returns a negative dentry whose name is unique and temporary.
++ */
++struct dentry *au_whtmp_lkup(struct dentry *h_parent, struct au_branch *br,
++			     struct qstr *prefix)
++{
++	struct dentry *dentry;
++	int i;
++	char defname[NAME_MAX - AUFS_MAX_NAMELEN + DNAME_INLINE_LEN + 1],
++		*name, *p;
++	/* strict atomic_t is unnecessary here */
++	static unsigned short cnt;
++	struct qstr qs;
++
++	BUILD_BUG_ON(sizeof(cnt) * 2 > AUFS_WH_TMP_LEN);
++
++	name = defname;
++	qs.len = sizeof(defname) - DNAME_INLINE_LEN + prefix->len - 1;
++	if (unlikely(prefix->len > DNAME_INLINE_LEN)) {
++		dentry = ERR_PTR(-ENAMETOOLONG);
++		if (unlikely(qs.len > NAME_MAX))
++			goto out;
++		dentry = ERR_PTR(-ENOMEM);
++		name = kmalloc(qs.len + 1, GFP_NOFS);
++		if (unlikely(!name))
++			goto out;
++	}
++
++	/* doubly whiteout-ed */
++	memcpy(name, AUFS_WH_PFX AUFS_WH_PFX, AUFS_WH_PFX_LEN * 2);
++	p = name + AUFS_WH_PFX_LEN * 2;
++	memcpy(p, prefix->name, prefix->len);
++	p += prefix->len;
++	*p++ = '.';
++	AuDebugOn(name + qs.len + 1 - p <= AUFS_WH_TMP_LEN);
++
++	qs.name = name;
++	for (i = 0; i < 3; i++) {
++		sprintf(p, "%.*x", AUFS_WH_TMP_LEN, cnt++);
++		dentry = au_sio_lkup_one(&qs, h_parent);
++		if (IS_ERR(dentry) || d_is_negative(dentry))
++			goto out_name;
++		dput(dentry);
++	}
++	/* pr_warn("could not get random name\n"); */
++	dentry = ERR_PTR(-EEXIST);
++	AuDbg("%.*s\n", AuLNPair(&qs));
++	BUG();
++
++out_name:
++	if (name != defname)
++		kfree(name);
++out:
++	AuTraceErrPtr(dentry);
++	return dentry;
++}
++
++/*
++ * rename the @h_dentry on @br to the whiteouted temporary name.
++ */
++int au_whtmp_ren(struct dentry *h_dentry, struct au_branch *br)
++{
++	int err;
++	struct path h_path = {
++		.mnt = au_br_mnt(br)
++	};
++	struct inode *h_dir, *delegated;
++	struct dentry *h_parent;
++
++	h_parent = h_dentry->d_parent; /* dir inode is locked */
++	h_dir = d_inode(h_parent);
++	IMustLock(h_dir);
++
++	h_path.dentry = au_whtmp_lkup(h_parent, br, &h_dentry->d_name);
++	err = PTR_ERR(h_path.dentry);
++	if (IS_ERR(h_path.dentry))
++		goto out;
++
++	/* under the same dir, no need to lock_rename() */
++	delegated = NULL;
++	err = vfsub_rename(h_dir, h_dentry, h_dir, &h_path, &delegated,
++			   /*flags*/0);
++	AuTraceErr(err);
++	if (unlikely(err == -EWOULDBLOCK)) {
++		pr_warn("cannot retry for NFSv4 delegation"
++			" for an internal rename\n");
++		iput(delegated);
++	}
++	dput(h_path.dentry);
++
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++/*
++ * functions for removing a whiteout
++ */
++
++static int do_unlink_wh(struct inode *h_dir, struct path *h_path)
++{
++	int err, force;
++	struct inode *delegated;
++
++	/*
++	 * forces superio when the dir has a sticky bit.
++	 * this may be a violation of unix fs semantics.
++	 */
++	force = (h_dir->i_mode & S_ISVTX)
++		&& !uid_eq(current_fsuid(), d_inode(h_path->dentry)->i_uid);
++	delegated = NULL;
++	err = vfsub_unlink(h_dir, h_path, &delegated, force);
++	if (unlikely(err == -EWOULDBLOCK)) {
++		pr_warn("cannot retry for NFSv4 delegation"
++			" for an internal unlink\n");
++		iput(delegated);
++	}
++	return err;
++}
++
++int au_wh_unlink_dentry(struct inode *h_dir, struct path *h_path,
++			struct dentry *dentry)
++{
++	int err;
++
++	err = do_unlink_wh(h_dir, h_path);
++	if (!err && dentry)
++		au_set_dbwh(dentry, -1);
++
++	return err;
++}
++
++static int unlink_wh_name(struct dentry *h_parent, struct qstr *wh,
++			  struct au_branch *br)
++{
++	int err;
++	struct path h_path = {
++		.mnt = au_br_mnt(br)
++	};
++
++	err = 0;
++	h_path.dentry = vfsub_lkup_one(wh, h_parent);
++	if (IS_ERR(h_path.dentry))
++		err = PTR_ERR(h_path.dentry);
++	else {
++		if (d_is_reg(h_path.dentry))
++			err = do_unlink_wh(d_inode(h_parent), &h_path);
++		dput(h_path.dentry);
++	}
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++/*
++ * initialize/clean whiteout for a branch
++ */
++
++static void au_wh_clean(struct inode *h_dir, struct path *whpath,
++			const int isdir)
++{
++	int err;
++	struct inode *delegated;
++
++	if (d_is_negative(whpath->dentry))
++		return;
++
++	if (isdir)
++		err = vfsub_rmdir(h_dir, whpath);
++	else {
++		delegated = NULL;
++		err = vfsub_unlink(h_dir, whpath, &delegated, /*force*/0);
++		if (unlikely(err == -EWOULDBLOCK)) {
++			pr_warn("cannot retry for NFSv4 delegation"
++				" for an internal unlink\n");
++			iput(delegated);
++		}
++	}
++	if (unlikely(err))
++		pr_warn("failed removing %pd (%d), ignored.\n",
++			whpath->dentry, err);
++}
++
++static int test_linkable(struct dentry *h_root)
++{
++	struct inode *h_dir = d_inode(h_root);
++
++	if (h_dir->i_op->link)
++		return 0;
++
++	pr_err("%pd (%s) doesn't support link(2), use noplink and rw+nolwh\n",
++	       h_root, au_sbtype(h_root->d_sb));
++	return -ENOSYS;
++}
++
++/* todo: should this mkdir be done in /sbin/mount.aufs helper? */
++static int au_whdir(struct inode *h_dir, struct path *path)
++{
++	int err;
++
++	err = -EEXIST;
++	if (d_is_negative(path->dentry)) {
++		int mode = S_IRWXU;
++
++		if (au_test_nfs(path->dentry->d_sb))
++			mode |= S_IXUGO;
++		err = vfsub_mkdir(h_dir, path, mode);
++	} else if (d_is_dir(path->dentry))
++		err = 0;
++	else
++		pr_err("unknown %pd exists\n", path->dentry);
++
++	return err;
++}
++
++struct au_wh_base {
++	const struct qstr *name;
++	struct dentry *dentry;
++};
++
++static void au_wh_init_ro(struct inode *h_dir, struct au_wh_base base[],
++			  struct path *h_path)
++{
++	h_path->dentry = base[AuBrWh_BASE].dentry;
++	au_wh_clean(h_dir, h_path, /*isdir*/0);
++	h_path->dentry = base[AuBrWh_PLINK].dentry;
++	au_wh_clean(h_dir, h_path, /*isdir*/1);
++	h_path->dentry = base[AuBrWh_ORPH].dentry;
++	au_wh_clean(h_dir, h_path, /*isdir*/1);
++}
++
++/*
++ * returns tri-state,
++ * minus: error, caller should print the message
++ * zero: succuess
++ * plus: error, caller should NOT print the message
++ */
++static int au_wh_init_rw_nolink(struct dentry *h_root, struct au_wbr *wbr,
++				int do_plink, struct au_wh_base base[],
++				struct path *h_path)
++{
++	int err;
++	struct inode *h_dir;
++
++	h_dir = d_inode(h_root);
++	h_path->dentry = base[AuBrWh_BASE].dentry;
++	au_wh_clean(h_dir, h_path, /*isdir*/0);
++	h_path->dentry = base[AuBrWh_PLINK].dentry;
++	if (do_plink) {
++		err = test_linkable(h_root);
++		if (unlikely(err)) {
++			err = 1;
++			goto out;
++		}
++
++		err = au_whdir(h_dir, h_path);
++		if (unlikely(err))
++			goto out;
++		wbr->wbr_plink = dget(base[AuBrWh_PLINK].dentry);
++	} else
++		au_wh_clean(h_dir, h_path, /*isdir*/1);
++	h_path->dentry = base[AuBrWh_ORPH].dentry;
++	err = au_whdir(h_dir, h_path);
++	if (unlikely(err))
++		goto out;
++	wbr->wbr_orph = dget(base[AuBrWh_ORPH].dentry);
++
++out:
++	return err;
++}
++
++/*
++ * for the moment, aufs supports the branch filesystem which does not support
++ * link(2). testing on FAT which does not support i_op->setattr() fully either,
++ * copyup failed. finally, such filesystem will not be used as the writable
++ * branch.
++ *
++ * returns tri-state, see above.
++ */
++static int au_wh_init_rw(struct dentry *h_root, struct au_wbr *wbr,
++			 int do_plink, struct au_wh_base base[],
++			 struct path *h_path)
++{
++	int err;
++	struct inode *h_dir;
++
++	WbrWhMustWriteLock(wbr);
++
++	err = test_linkable(h_root);
++	if (unlikely(err)) {
++		err = 1;
++		goto out;
++	}
++
++	/*
++	 * todo: should this create be done in /sbin/mount.aufs helper?
++	 */
++	err = -EEXIST;
++	h_dir = d_inode(h_root);
++	if (d_is_negative(base[AuBrWh_BASE].dentry)) {
++		h_path->dentry = base[AuBrWh_BASE].dentry;
++		err = vfsub_create(h_dir, h_path, WH_MASK, /*want_excl*/true);
++	} else if (d_is_reg(base[AuBrWh_BASE].dentry))
++		err = 0;
++	else
++		pr_err("unknown %pd2 exists\n", base[AuBrWh_BASE].dentry);
++	if (unlikely(err))
++		goto out;
++
++	h_path->dentry = base[AuBrWh_PLINK].dentry;
++	if (do_plink) {
++		err = au_whdir(h_dir, h_path);
++		if (unlikely(err))
++			goto out;
++		wbr->wbr_plink = dget(base[AuBrWh_PLINK].dentry);
++	} else
++		au_wh_clean(h_dir, h_path, /*isdir*/1);
++	wbr->wbr_whbase = dget(base[AuBrWh_BASE].dentry);
++
++	h_path->dentry = base[AuBrWh_ORPH].dentry;
++	err = au_whdir(h_dir, h_path);
++	if (unlikely(err))
++		goto out;
++	wbr->wbr_orph = dget(base[AuBrWh_ORPH].dentry);
++
++out:
++	return err;
++}
++
++/*
++ * initialize the whiteout base file/dir for @br.
++ */
++int au_wh_init(struct au_branch *br, struct super_block *sb)
++{
++	int err, i;
++	const unsigned char do_plink
++		= !!au_opt_test(au_mntflags(sb), PLINK);
++	struct inode *h_dir;
++	struct path path = br->br_path;
++	struct dentry *h_root = path.dentry;
++	struct au_wbr *wbr = br->br_wbr;
++	static const struct qstr base_name[] = {
++		[AuBrWh_BASE] = QSTR_INIT(AUFS_BASE_NAME,
++					  sizeof(AUFS_BASE_NAME) - 1),
++		[AuBrWh_PLINK] = QSTR_INIT(AUFS_PLINKDIR_NAME,
++					   sizeof(AUFS_PLINKDIR_NAME) - 1),
++		[AuBrWh_ORPH] = QSTR_INIT(AUFS_ORPHDIR_NAME,
++					  sizeof(AUFS_ORPHDIR_NAME) - 1)
++	};
++	struct au_wh_base base[] = {
++		[AuBrWh_BASE] = {
++			.name	= base_name + AuBrWh_BASE,
++			.dentry	= NULL
++		},
++		[AuBrWh_PLINK] = {
++			.name	= base_name + AuBrWh_PLINK,
++			.dentry	= NULL
++		},
++		[AuBrWh_ORPH] = {
++			.name	= base_name + AuBrWh_ORPH,
++			.dentry	= NULL
++		}
++	};
++
++	if (wbr)
++		WbrWhMustWriteLock(wbr);
++
++	for (i = 0; i < AuBrWh_Last; i++) {
++		/* doubly whiteouted */
++		struct dentry *d;
++
++		d = au_wh_lkup(h_root, (void *)base[i].name, br);
++		err = PTR_ERR(d);
++		if (IS_ERR(d))
++			goto out;
++
++		base[i].dentry = d;
++		AuDebugOn(wbr
++			  && wbr->wbr_wh[i]
++			  && wbr->wbr_wh[i] != base[i].dentry);
++	}
++
++	if (wbr)
++		for (i = 0; i < AuBrWh_Last; i++) {
++			dput(wbr->wbr_wh[i]);
++			wbr->wbr_wh[i] = NULL;
++		}
++
++	err = 0;
++	if (!au_br_writable(br->br_perm)) {
++		h_dir = d_inode(h_root);
++		au_wh_init_ro(h_dir, base, &path);
++	} else if (!au_br_wh_linkable(br->br_perm)) {
++		err = au_wh_init_rw_nolink(h_root, wbr, do_plink, base, &path);
++		if (err > 0)
++			goto out;
++		else if (err)
++			goto out_err;
++	} else {
++		err = au_wh_init_rw(h_root, wbr, do_plink, base, &path);
++		if (err > 0)
++			goto out;
++		else if (err)
++			goto out_err;
++	}
++	goto out; /* success */
++
++out_err:
++	pr_err("an error(%d) on the writable branch %pd(%s)\n",
++	       err, h_root, au_sbtype(h_root->d_sb));
++out:
++	for (i = 0; i < AuBrWh_Last; i++)
++		dput(base[i].dentry);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++/*
++ * whiteouts are all hard-linked usually.
++ * when its link count reaches a ceiling, we create a new whiteout base
++ * asynchronously.
++ */
++
++struct reinit_br_wh {
++	struct super_block *sb;
++	struct au_branch *br;
++};
++
++static void reinit_br_wh(void *arg)
++{
++	int err;
++	aufs_bindex_t bindex;
++	struct path h_path;
++	struct reinit_br_wh *a = arg;
++	struct au_wbr *wbr;
++	struct inode *dir, *delegated;
++	struct dentry *h_root;
++	struct au_hinode *hdir;
++
++	err = 0;
++	wbr = a->br->br_wbr;
++	/* big aufs lock */
++	si_noflush_write_lock(a->sb);
++	if (!au_br_writable(a->br->br_perm))
++		goto out;
++	bindex = au_br_index(a->sb, a->br->br_id);
++	if (unlikely(bindex < 0))
++		goto out;
++
++	di_read_lock_parent(a->sb->s_root, AuLock_IR);
++	dir = d_inode(a->sb->s_root);
++	hdir = au_hi(dir, bindex);
++	h_root = au_h_dptr(a->sb->s_root, bindex);
++	AuDebugOn(h_root != au_br_dentry(a->br));
++
++	au_hn_inode_lock_nested(hdir, AuLsc_I_PARENT);
++	wbr_wh_write_lock(wbr);
++	err = au_h_verify(wbr->wbr_whbase, au_opt_udba(a->sb), hdir->hi_inode,
++			  h_root, a->br);
++	if (!err) {
++		h_path.dentry = wbr->wbr_whbase;
++		h_path.mnt = au_br_mnt(a->br);
++		delegated = NULL;
++		err = vfsub_unlink(hdir->hi_inode, &h_path, &delegated,
++				   /*force*/0);
++		if (unlikely(err == -EWOULDBLOCK)) {
++			pr_warn("cannot retry for NFSv4 delegation"
++				" for an internal unlink\n");
++			iput(delegated);
++		}
++	} else {
++		pr_warn("%pd is moved, ignored\n", wbr->wbr_whbase);
++		err = 0;
++	}
++	dput(wbr->wbr_whbase);
++	wbr->wbr_whbase = NULL;
++	if (!err)
++		err = au_wh_init(a->br, a->sb);
++	wbr_wh_write_unlock(wbr);
++	au_hn_inode_unlock(hdir);
++	di_read_unlock(a->sb->s_root, AuLock_IR);
++	if (!err)
++		au_fhsm_wrote(a->sb, bindex, /*force*/0);
++
++out:
++	if (wbr)
++		atomic_dec(&wbr->wbr_wh_running);
++	au_br_put(a->br);
++	si_write_unlock(a->sb);
++	au_nwt_done(&au_sbi(a->sb)->si_nowait);
++	kfree(arg);
++	if (unlikely(err))
++		AuIOErr("err %d\n", err);
++}
++
++static void kick_reinit_br_wh(struct super_block *sb, struct au_branch *br)
++{
++	int do_dec, wkq_err;
++	struct reinit_br_wh *arg;
++
++	do_dec = 1;
++	if (atomic_inc_return(&br->br_wbr->wbr_wh_running) != 1)
++		goto out;
++
++	/* ignore ENOMEM */
++	arg = kmalloc(sizeof(*arg), GFP_NOFS);
++	if (arg) {
++		/*
++		 * dec(wh_running), kfree(arg) and dec(br_count)
++		 * in reinit function
++		 */
++		arg->sb = sb;
++		arg->br = br;
++		au_br_get(br);
++		wkq_err = au_wkq_nowait(reinit_br_wh, arg, sb, /*flags*/0);
++		if (unlikely(wkq_err)) {
++			atomic_dec(&br->br_wbr->wbr_wh_running);
++			au_br_put(br);
++			kfree(arg);
++		}
++		do_dec = 0;
++	}
++
++out:
++	if (do_dec)
++		atomic_dec(&br->br_wbr->wbr_wh_running);
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * create the whiteout @wh.
++ */
++static int link_or_create_wh(struct super_block *sb, aufs_bindex_t bindex,
++			     struct dentry *wh)
++{
++	int err;
++	struct path h_path = {
++		.dentry = wh
++	};
++	struct au_branch *br;
++	struct au_wbr *wbr;
++	struct dentry *h_parent;
++	struct inode *h_dir, *delegated;
++
++	h_parent = wh->d_parent; /* dir inode is locked */
++	h_dir = d_inode(h_parent);
++	IMustLock(h_dir);
++
++	br = au_sbr(sb, bindex);
++	h_path.mnt = au_br_mnt(br);
++	wbr = br->br_wbr;
++	wbr_wh_read_lock(wbr);
++	if (wbr->wbr_whbase) {
++		delegated = NULL;
++		err = vfsub_link(wbr->wbr_whbase, h_dir, &h_path, &delegated);
++		if (unlikely(err == -EWOULDBLOCK)) {
++			pr_warn("cannot retry for NFSv4 delegation"
++				" for an internal link\n");
++			iput(delegated);
++		}
++		if (!err || err != -EMLINK)
++			goto out;
++
++		/* link count full. re-initialize br_whbase. */
++		kick_reinit_br_wh(sb, br);
++	}
++
++	/* return this error in this context */
++	err = vfsub_create(h_dir, &h_path, WH_MASK, /*want_excl*/true);
++	if (!err)
++		au_fhsm_wrote(sb, bindex, /*force*/0);
++
++out:
++	wbr_wh_read_unlock(wbr);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * create or remove the diropq.
++ */
++static struct dentry *do_diropq(struct dentry *dentry, aufs_bindex_t bindex,
++				unsigned int flags)
++{
++	struct dentry *opq_dentry, *h_dentry;
++	struct super_block *sb;
++	struct au_branch *br;
++	int err;
++
++	sb = dentry->d_sb;
++	br = au_sbr(sb, bindex);
++	h_dentry = au_h_dptr(dentry, bindex);
++	opq_dentry = vfsub_lkup_one(&diropq_name, h_dentry);
++	if (IS_ERR(opq_dentry))
++		goto out;
++
++	if (au_ftest_diropq(flags, CREATE)) {
++		err = link_or_create_wh(sb, bindex, opq_dentry);
++		if (!err) {
++			au_set_dbdiropq(dentry, bindex);
++			goto out; /* success */
++		}
++	} else {
++		struct path tmp = {
++			.dentry = opq_dentry,
++			.mnt	= au_br_mnt(br)
++		};
++		err = do_unlink_wh(au_h_iptr(d_inode(dentry), bindex), &tmp);
++		if (!err)
++			au_set_dbdiropq(dentry, -1);
++	}
++	dput(opq_dentry);
++	opq_dentry = ERR_PTR(err);
++
++out:
++	return opq_dentry;
++}
++
++struct do_diropq_args {
++	struct dentry **errp;
++	struct dentry *dentry;
++	aufs_bindex_t bindex;
++	unsigned int flags;
++};
++
++static void call_do_diropq(void *args)
++{
++	struct do_diropq_args *a = args;
++	*a->errp = do_diropq(a->dentry, a->bindex, a->flags);
++}
++
++struct dentry *au_diropq_sio(struct dentry *dentry, aufs_bindex_t bindex,
++			     unsigned int flags)
++{
++	struct dentry *diropq, *h_dentry;
++
++	h_dentry = au_h_dptr(dentry, bindex);
++	if (!au_test_h_perm_sio(d_inode(h_dentry), MAY_EXEC | MAY_WRITE))
++		diropq = do_diropq(dentry, bindex, flags);
++	else {
++		int wkq_err;
++		struct do_diropq_args args = {
++			.errp		= &diropq,
++			.dentry		= dentry,
++			.bindex		= bindex,
++			.flags		= flags
++		};
++
++		wkq_err = au_wkq_wait(call_do_diropq, &args);
++		if (unlikely(wkq_err))
++			diropq = ERR_PTR(wkq_err);
++	}
++
++	return diropq;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * lookup whiteout dentry.
++ * @h_parent: lower parent dentry which must exist and be locked
++ * @base_name: name of dentry which will be whiteouted
++ * returns dentry for whiteout.
++ */
++struct dentry *au_wh_lkup(struct dentry *h_parent, struct qstr *base_name,
++			  struct au_branch *br)
++{
++	int err;
++	struct qstr wh_name;
++	struct dentry *wh_dentry;
++
++	err = au_wh_name_alloc(&wh_name, base_name);
++	wh_dentry = ERR_PTR(err);
++	if (!err) {
++		wh_dentry = vfsub_lkup_one(&wh_name, h_parent);
++		kfree(wh_name.name);
++	}
++	return wh_dentry;
++}
++
++/*
++ * link/create a whiteout for @dentry on @bindex.
++ */
++struct dentry *au_wh_create(struct dentry *dentry, aufs_bindex_t bindex,
++			    struct dentry *h_parent)
++{
++	struct dentry *wh_dentry;
++	struct super_block *sb;
++	int err;
++
++	sb = dentry->d_sb;
++	wh_dentry = au_wh_lkup(h_parent, &dentry->d_name, au_sbr(sb, bindex));
++	if (!IS_ERR(wh_dentry) && d_is_negative(wh_dentry)) {
++		err = link_or_create_wh(sb, bindex, wh_dentry);
++		if (!err) {
++			au_set_dbwh(dentry, bindex);
++			au_fhsm_wrote(sb, bindex, /*force*/0);
++		} else {
++			dput(wh_dentry);
++			wh_dentry = ERR_PTR(err);
++		}
++	}
++
++	return wh_dentry;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* Delete all whiteouts in this directory on branch bindex. */
++static int del_wh_children(struct dentry *h_dentry, struct au_nhash *whlist,
++			   aufs_bindex_t bindex, struct au_branch *br)
++{
++	int err;
++	unsigned long ul, n;
++	struct qstr wh_name;
++	char *p;
++	struct hlist_head *head;
++	struct au_vdir_wh *pos;
++	struct au_vdir_destr *str;
++
++	err = -ENOMEM;
++	p = (void *)__get_free_page(GFP_NOFS);
++	wh_name.name = p;
++	if (unlikely(!wh_name.name))
++		goto out;
++
++	err = 0;
++	memcpy(p, AUFS_WH_PFX, AUFS_WH_PFX_LEN);
++	p += AUFS_WH_PFX_LEN;
++	n = whlist->nh_num;
++	head = whlist->nh_head;
++	for (ul = 0; !err && ul < n; ul++, head++) {
++		hlist_for_each_entry(pos, head, wh_hash) {
++			if (pos->wh_bindex != bindex)
++				continue;
++
++			str = &pos->wh_str;
++			if (str->len + AUFS_WH_PFX_LEN <= PATH_MAX) {
++				memcpy(p, str->name, str->len);
++				wh_name.len = AUFS_WH_PFX_LEN + str->len;
++				err = unlink_wh_name(h_dentry, &wh_name, br);
++				if (!err)
++					continue;
++				break;
++			}
++			AuIOErr("whiteout name too long %.*s\n",
++				str->len, str->name);
++			err = -EIO;
++			break;
++		}
++	}
++	free_page((unsigned long)wh_name.name);
++
++out:
++	return err;
++}
++
++struct del_wh_children_args {
++	int *errp;
++	struct dentry *h_dentry;
++	struct au_nhash *whlist;
++	aufs_bindex_t bindex;
++	struct au_branch *br;
++};
++
++static void call_del_wh_children(void *args)
++{
++	struct del_wh_children_args *a = args;
++	*a->errp = del_wh_children(a->h_dentry, a->whlist, a->bindex, a->br);
++}
++
++/* ---------------------------------------------------------------------- */
++
++struct au_whtmp_rmdir *au_whtmp_rmdir_alloc(struct super_block *sb, gfp_t gfp)
++{
++	struct au_whtmp_rmdir *whtmp;
++	int err;
++	unsigned int rdhash;
++
++	SiMustAnyLock(sb);
++
++	whtmp = kzalloc(sizeof(*whtmp), gfp);
++	if (unlikely(!whtmp)) {
++		whtmp = ERR_PTR(-ENOMEM);
++		goto out;
++	}
++
++	/* no estimation for dir size */
++	rdhash = au_sbi(sb)->si_rdhash;
++	if (!rdhash)
++		rdhash = AUFS_RDHASH_DEF;
++	err = au_nhash_alloc(&whtmp->whlist, rdhash, gfp);
++	if (unlikely(err)) {
++		kfree(whtmp);
++		whtmp = ERR_PTR(err);
++	}
++
++out:
++	return whtmp;
++}
++
++void au_whtmp_rmdir_free(struct au_whtmp_rmdir *whtmp)
++{
++	if (whtmp->br)
++		au_br_put(whtmp->br);
++	dput(whtmp->wh_dentry);
++	iput(whtmp->dir);
++	au_nhash_wh_free(&whtmp->whlist);
++	kfree(whtmp);
++}
++
++/*
++ * rmdir the whiteouted temporary named dir @h_dentry.
++ * @whlist: whiteouted children.
++ */
++int au_whtmp_rmdir(struct inode *dir, aufs_bindex_t bindex,
++		   struct dentry *wh_dentry, struct au_nhash *whlist)
++{
++	int err;
++	unsigned int h_nlink;
++	struct path h_tmp;
++	struct inode *wh_inode, *h_dir;
++	struct au_branch *br;
++
++	h_dir = d_inode(wh_dentry->d_parent); /* dir inode is locked */
++	IMustLock(h_dir);
++
++	br = au_sbr(dir->i_sb, bindex);
++	wh_inode = d_inode(wh_dentry);
++	inode_lock_nested(wh_inode, AuLsc_I_CHILD);
++
++	/*
++	 * someone else might change some whiteouts while we were sleeping.
++	 * it means this whlist may have an obsoleted entry.
++	 */
++	if (!au_test_h_perm_sio(wh_inode, MAY_EXEC | MAY_WRITE))
++		err = del_wh_children(wh_dentry, whlist, bindex, br);
++	else {
++		int wkq_err;
++		struct del_wh_children_args args = {
++			.errp		= &err,
++			.h_dentry	= wh_dentry,
++			.whlist		= whlist,
++			.bindex		= bindex,
++			.br		= br
++		};
++
++		wkq_err = au_wkq_wait(call_del_wh_children, &args);
++		if (unlikely(wkq_err))
++			err = wkq_err;
++	}
++	inode_unlock(wh_inode);
++
++	if (!err) {
++		h_tmp.dentry = wh_dentry;
++		h_tmp.mnt = au_br_mnt(br);
++		h_nlink = h_dir->i_nlink;
++		err = vfsub_rmdir(h_dir, &h_tmp);
++		/* some fs doesn't change the parent nlink in some cases */
++		h_nlink -= h_dir->i_nlink;
++	}
++
++	if (!err) {
++		if (au_ibtop(dir) == bindex) {
++			/* todo: dir->i_mutex is necessary */
++			au_cpup_attr_timesizes(dir);
++			if (h_nlink)
++				vfsub_drop_nlink(dir);
++		}
++		return 0; /* success */
++	}
++
++	pr_warn("failed removing %pd(%d), ignored\n", wh_dentry, err);
++	return err;
++}
++
++static void call_rmdir_whtmp(void *args)
++{
++	int err;
++	aufs_bindex_t bindex;
++	struct au_whtmp_rmdir *a = args;
++	struct super_block *sb;
++	struct dentry *h_parent;
++	struct inode *h_dir;
++	struct au_hinode *hdir;
++
++	/* rmdir by nfsd may cause deadlock with this i_mutex */
++	/* inode_lock(a->dir); */
++	err = -EROFS;
++	sb = a->dir->i_sb;
++	si_read_lock(sb, !AuLock_FLUSH);
++	if (!au_br_writable(a->br->br_perm))
++		goto out;
++	bindex = au_br_index(sb, a->br->br_id);
++	if (unlikely(bindex < 0))
++		goto out;
++
++	err = -EIO;
++	ii_write_lock_parent(a->dir);
++	h_parent = dget_parent(a->wh_dentry);
++	h_dir = d_inode(h_parent);
++	hdir = au_hi(a->dir, bindex);
++	err = vfsub_mnt_want_write(au_br_mnt(a->br));
++	if (unlikely(err))
++		goto out_mnt;
++	au_hn_inode_lock_nested(hdir, AuLsc_I_PARENT);
++	err = au_h_verify(a->wh_dentry, au_opt_udba(sb), h_dir, h_parent,
++			  a->br);
++	if (!err)
++		err = au_whtmp_rmdir(a->dir, bindex, a->wh_dentry, &a->whlist);
++	au_hn_inode_unlock(hdir);
++	vfsub_mnt_drop_write(au_br_mnt(a->br));
++
++out_mnt:
++	dput(h_parent);
++	ii_write_unlock(a->dir);
++out:
++	/* inode_unlock(a->dir); */
++	au_whtmp_rmdir_free(a);
++	si_read_unlock(sb);
++	au_nwt_done(&au_sbi(sb)->si_nowait);
++	if (unlikely(err))
++		AuIOErr("err %d\n", err);
++}
++
++void au_whtmp_kick_rmdir(struct inode *dir, aufs_bindex_t bindex,
++			 struct dentry *wh_dentry, struct au_whtmp_rmdir *args)
++{
++	int wkq_err;
++	struct super_block *sb;
++
++	IMustLock(dir);
++
++	/* all post-process will be done in do_rmdir_whtmp(). */
++	sb = dir->i_sb;
++	args->dir = au_igrab(dir);
++	args->br = au_sbr(sb, bindex);
++	au_br_get(args->br);
++	args->wh_dentry = dget(wh_dentry);
++	wkq_err = au_wkq_nowait(call_rmdir_whtmp, args, sb, /*flags*/0);
++	if (unlikely(wkq_err)) {
++		pr_warn("rmdir error %pd (%d), ignored\n", wh_dentry, wkq_err);
++		au_whtmp_rmdir_free(args);
++	}
++}
+diff --git a/fs/aufs/whout.h b/fs/aufs/whout.h
+new file mode 100755
+index 0000000..eb4b182
+--- /dev/null
++++ b/fs/aufs/whout.h
+@@ -0,0 +1,85 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * whiteout for logical deletion and opaque directory
++ */
++
++#ifndef __AUFS_WHOUT_H__
++#define __AUFS_WHOUT_H__
++
++#ifdef __KERNEL__
++
++#include "dir.h"
++
++/* whout.c */
++int au_wh_name_alloc(struct qstr *wh, const struct qstr *name);
++int au_wh_test(struct dentry *h_parent, struct qstr *wh_name, int try_sio);
++int au_diropq_test(struct dentry *h_dentry);
++struct au_branch;
++struct dentry *au_whtmp_lkup(struct dentry *h_parent, struct au_branch *br,
++			     struct qstr *prefix);
++int au_whtmp_ren(struct dentry *h_dentry, struct au_branch *br);
++int au_wh_unlink_dentry(struct inode *h_dir, struct path *h_path,
++			struct dentry *dentry);
++int au_wh_init(struct au_branch *br, struct super_block *sb);
++
++/* diropq flags */
++#define AuDiropq_CREATE	1
++#define au_ftest_diropq(flags, name)	((flags) & AuDiropq_##name)
++#define au_fset_diropq(flags, name) \
++	do { (flags) |= AuDiropq_##name; } while (0)
++#define au_fclr_diropq(flags, name) \
++	do { (flags) &= ~AuDiropq_##name; } while (0)
++
++struct dentry *au_diropq_sio(struct dentry *dentry, aufs_bindex_t bindex,
++			     unsigned int flags);
++struct dentry *au_wh_lkup(struct dentry *h_parent, struct qstr *base_name,
++			  struct au_branch *br);
++struct dentry *au_wh_create(struct dentry *dentry, aufs_bindex_t bindex,
++			    struct dentry *h_parent);
++
++/* real rmdir for the whiteout-ed dir */
++struct au_whtmp_rmdir {
++	struct inode *dir;
++	struct au_branch *br;
++	struct dentry *wh_dentry;
++	struct au_nhash whlist;
++};
++
++struct au_whtmp_rmdir *au_whtmp_rmdir_alloc(struct super_block *sb, gfp_t gfp);
++void au_whtmp_rmdir_free(struct au_whtmp_rmdir *whtmp);
++int au_whtmp_rmdir(struct inode *dir, aufs_bindex_t bindex,
++		   struct dentry *wh_dentry, struct au_nhash *whlist);
++void au_whtmp_kick_rmdir(struct inode *dir, aufs_bindex_t bindex,
++			 struct dentry *wh_dentry, struct au_whtmp_rmdir *args);
++
++/* ---------------------------------------------------------------------- */
++
++static inline struct dentry *au_diropq_create(struct dentry *dentry,
++					      aufs_bindex_t bindex)
++{
++	return au_diropq_sio(dentry, bindex, AuDiropq_CREATE);
++}
++
++static inline int au_diropq_remove(struct dentry *dentry, aufs_bindex_t bindex)
++{
++	return PTR_ERR(au_diropq_sio(dentry, bindex, !AuDiropq_CREATE));
++}
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_WHOUT_H__ */
+diff --git a/fs/aufs/wkq.c b/fs/aufs/wkq.c
+new file mode 100755
+index 0000000..7371d91
+--- /dev/null
++++ b/fs/aufs/wkq.c
+@@ -0,0 +1,213 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * workqueue for asynchronous/super-io operations
++ * todo: try new dredential scheme
++ */
++
++#include <linux/module.h>
++#include "aufs.h"
++
++/* internal workqueue named AUFS_WKQ_NAME */
++
++static struct workqueue_struct *au_wkq;
++
++struct au_wkinfo {
++	struct work_struct wk;
++	struct kobject *kobj;
++
++	unsigned int flags; /* see wkq.h */
++
++	au_wkq_func_t func;
++	void *args;
++
++	struct completion *comp;
++};
++
++/* ---------------------------------------------------------------------- */
++
++static void wkq_func(struct work_struct *wk)
++{
++	struct au_wkinfo *wkinfo = container_of(wk, struct au_wkinfo, wk);
++
++	AuDebugOn(!uid_eq(current_fsuid(), GLOBAL_ROOT_UID));
++	AuDebugOn(rlimit(RLIMIT_FSIZE) != RLIM_INFINITY);
++
++	wkinfo->func(wkinfo->args);
++	if (au_ftest_wkq(wkinfo->flags, WAIT))
++		complete(wkinfo->comp);
++	else {
++		kobject_put(wkinfo->kobj);
++		module_put(THIS_MODULE); /* todo: ?? */
++		kfree(wkinfo);
++	}
++}
++
++/*
++ * Since struct completion is large, try allocating it dynamically.
++ */
++#if 1 /* defined(CONFIG_4KSTACKS) || defined(AuTest4KSTACKS) */
++#define AuWkqCompDeclare(name)	struct completion *comp = NULL
++
++static int au_wkq_comp_alloc(struct au_wkinfo *wkinfo, struct completion **comp)
++{
++	*comp = kmalloc(sizeof(**comp), GFP_NOFS);
++	if (*comp) {
++		init_completion(*comp);
++		wkinfo->comp = *comp;
++		return 0;
++	}
++	return -ENOMEM;
++}
++
++static void au_wkq_comp_free(struct completion *comp)
++{
++	kfree(comp);
++}
++
++#else
++
++/* no braces */
++#define AuWkqCompDeclare(name) \
++	DECLARE_COMPLETION_ONSTACK(_ ## name); \
++	struct completion *comp = &_ ## name
++
++static int au_wkq_comp_alloc(struct au_wkinfo *wkinfo, struct completion **comp)
++{
++	wkinfo->comp = *comp;
++	return 0;
++}
++
++static void au_wkq_comp_free(struct completion *comp __maybe_unused)
++{
++	/* empty */
++}
++#endif /* 4KSTACKS */
++
++static void au_wkq_run(struct au_wkinfo *wkinfo)
++{
++	if (au_ftest_wkq(wkinfo->flags, NEST)) {
++		if (au_wkq_test()) {
++			AuWarn1("wkq from wkq, unless silly-rename on NFS,"
++				" due to a dead dir by UDBA?\n");
++			AuDebugOn(au_ftest_wkq(wkinfo->flags, WAIT));
++		}
++	} else
++		au_dbg_verify_kthread();
++
++	if (au_ftest_wkq(wkinfo->flags, WAIT)) {
++		INIT_WORK_ONSTACK(&wkinfo->wk, wkq_func);
++		queue_work(au_wkq, &wkinfo->wk);
++	} else {
++		INIT_WORK(&wkinfo->wk, wkq_func);
++		schedule_work(&wkinfo->wk);
++	}
++}
++
++/*
++ * Be careful. It is easy to make deadlock happen.
++ * processA: lock, wkq and wait
++ * processB: wkq and wait, lock in wkq
++ * --> deadlock
++ */
++int au_wkq_do_wait(unsigned int flags, au_wkq_func_t func, void *args)
++{
++	int err;
++	AuWkqCompDeclare(comp);
++	struct au_wkinfo wkinfo = {
++		.flags	= flags,
++		.func	= func,
++		.args	= args
++	};
++
++	err = au_wkq_comp_alloc(&wkinfo, &comp);
++	if (!err) {
++		au_wkq_run(&wkinfo);
++		/* no timeout, no interrupt */
++		wait_for_completion(wkinfo.comp);
++		au_wkq_comp_free(comp);
++		destroy_work_on_stack(&wkinfo.wk);
++	}
++
++	return err;
++
++}
++
++/*
++ * Note: dget/dput() in func for aufs dentries are not supported. It will be a
++ * problem in a concurrent umounting.
++ */
++int au_wkq_nowait(au_wkq_func_t func, void *args, struct super_block *sb,
++		  unsigned int flags)
++{
++	int err;
++	struct au_wkinfo *wkinfo;
++
++	atomic_inc(&au_sbi(sb)->si_nowait.nw_len);
++
++	/*
++	 * wkq_func() must free this wkinfo.
++	 * it highly depends upon the implementation of workqueue.
++	 */
++	err = 0;
++	wkinfo = kmalloc(sizeof(*wkinfo), GFP_NOFS);
++	if (wkinfo) {
++		wkinfo->kobj = &au_sbi(sb)->si_kobj;
++		wkinfo->flags = flags & ~AuWkq_WAIT;
++		wkinfo->func = func;
++		wkinfo->args = args;
++		wkinfo->comp = NULL;
++		kobject_get(wkinfo->kobj);
++		__module_get(THIS_MODULE); /* todo: ?? */
++
++		au_wkq_run(wkinfo);
++	} else {
++		err = -ENOMEM;
++		au_nwt_done(&au_sbi(sb)->si_nowait);
++	}
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++void au_nwt_init(struct au_nowait_tasks *nwt)
++{
++	atomic_set(&nwt->nw_len, 0);
++	/* smp_mb(); */ /* atomic_set */
++	init_waitqueue_head(&nwt->nw_wq);
++}
++
++void au_wkq_fin(void)
++{
++	destroy_workqueue(au_wkq);
++}
++
++int __init au_wkq_init(void)
++{
++	int err;
++
++	err = 0;
++	au_wkq = alloc_workqueue(AUFS_WKQ_NAME, 0, WQ_DFL_ACTIVE);
++	if (IS_ERR(au_wkq))
++		err = PTR_ERR(au_wkq);
++	else if (!au_wkq)
++		err = -ENOMEM;
++
++	return err;
++}
+diff --git a/fs/aufs/wkq.h b/fs/aufs/wkq.h
+new file mode 100755
+index 0000000..0f1f42d
+--- /dev/null
++++ b/fs/aufs/wkq.h
+@@ -0,0 +1,93 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * workqueue for asynchronous/super-io operations
++ * todo: try new credentials management scheme
++ */
++
++#ifndef __AUFS_WKQ_H__
++#define __AUFS_WKQ_H__
++
++#ifdef __KERNEL__
++
++#include <linux/percpu_counter.h>
++
++struct super_block;
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * in the next operation, wait for the 'nowait' tasks in system-wide workqueue
++ */
++struct au_nowait_tasks {
++	atomic_t		nw_len;
++	wait_queue_head_t	nw_wq;
++};
++
++/* ---------------------------------------------------------------------- */
++
++typedef void (*au_wkq_func_t)(void *args);
++
++/* wkq flags */
++#define AuWkq_WAIT	1
++#define AuWkq_NEST	(1 << 1)
++#define au_ftest_wkq(flags, name)	((flags) & AuWkq_##name)
++#define au_fset_wkq(flags, name) \
++	do { (flags) |= AuWkq_##name; } while (0)
++#define au_fclr_wkq(flags, name) \
++	do { (flags) &= ~AuWkq_##name; } while (0)
++
++#ifndef CONFIG_AUFS_HNOTIFY
++#undef AuWkq_NEST
++#define AuWkq_NEST	0
++#endif
++
++/* wkq.c */
++int au_wkq_do_wait(unsigned int flags, au_wkq_func_t func, void *args);
++int au_wkq_nowait(au_wkq_func_t func, void *args, struct super_block *sb,
++		  unsigned int flags);
++void au_nwt_init(struct au_nowait_tasks *nwt);
++int __init au_wkq_init(void);
++void au_wkq_fin(void);
++
++/* ---------------------------------------------------------------------- */
++
++static inline int au_wkq_test(void)
++{
++	return current->flags & PF_WQ_WORKER;
++}
++
++static inline int au_wkq_wait(au_wkq_func_t func, void *args)
++{
++	return au_wkq_do_wait(AuWkq_WAIT, func, args);
++}
++
++static inline void au_nwt_done(struct au_nowait_tasks *nwt)
++{
++	if (atomic_dec_and_test(&nwt->nw_len))
++		wake_up_all(&nwt->nw_wq);
++}
++
++static inline int au_nwt_flush(struct au_nowait_tasks *nwt)
++{
++	wait_event(nwt->nw_wq, !atomic_read(&nwt->nw_len));
++	return 0;
++}
++
++#endif /* __KERNEL__ */
++#endif /* __AUFS_WKQ_H__ */
+diff --git a/fs/aufs/xattr.c b/fs/aufs/xattr.c
+new file mode 100755
+index 0000000..7f72972
+--- /dev/null
++++ b/fs/aufs/xattr.c
+@@ -0,0 +1,357 @@
++/*
++ * Copyright (C) 2014-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * handling xattr functions
++ */
++
++#include <linux/fs.h>
++#include <linux/posix_acl_xattr.h>
++#include <linux/xattr.h>
++#include "aufs.h"
++
++static int au_xattr_ignore(int err, char *name, unsigned int ignore_flags)
++{
++	if (!ignore_flags)
++		goto out;
++	switch (err) {
++	case -ENOMEM:
++	case -EDQUOT:
++		goto out;
++	}
++
++	if ((ignore_flags & AuBrAttr_ICEX) == AuBrAttr_ICEX) {
++		err = 0;
++		goto out;
++	}
++
++#define cmp(brattr, prefix) do {					\
++		if (!strncmp(name, XATTR_##prefix##_PREFIX,		\
++			     XATTR_##prefix##_PREFIX_LEN)) {		\
++			if (ignore_flags & AuBrAttr_ICEX_##brattr)	\
++				err = 0;				\
++			goto out;					\
++		}							\
++	} while (0)
++
++	cmp(SEC, SECURITY);
++	cmp(SYS, SYSTEM);
++	cmp(TR, TRUSTED);
++	cmp(USR, USER);
++#undef cmp
++
++	if (ignore_flags & AuBrAttr_ICEX_OTH)
++		err = 0;
++
++out:
++	return err;
++}
++
++static const int au_xattr_out_of_list = AuBrAttr_ICEX_OTH << 1;
++
++static int au_do_cpup_xattr(struct dentry *h_dst, struct dentry *h_src,
++			    char *name, char **buf, unsigned int ignore_flags,
++			    unsigned int verbose)
++{
++	int err;
++	ssize_t ssz;
++	struct inode *h_idst;
++
++	ssz = vfs_getxattr_alloc(h_src, name, buf, 0, GFP_NOFS);
++	err = ssz;
++	if (unlikely(err <= 0)) {
++		if (err == -ENODATA
++		    || (err == -EOPNOTSUPP
++			&& ((ignore_flags & au_xattr_out_of_list)
++			    || (au_test_nfs_noacl(d_inode(h_src))
++				&& (!strcmp(name, XATTR_NAME_POSIX_ACL_ACCESS)
++				    || !strcmp(name,
++					       XATTR_NAME_POSIX_ACL_DEFAULT))))
++			    ))
++			err = 0;
++		if (err && (verbose || au_debug_test()))
++			pr_err("%s, err %d\n", name, err);
++		goto out;
++	}
++
++	/* unlock it temporary */
++	h_idst = d_inode(h_dst);
++	inode_unlock(h_idst);
++	err = vfsub_setxattr(h_dst, name, *buf, ssz, /*flags*/0);
++	inode_lock_nested(h_idst, AuLsc_I_CHILD2);
++	if (unlikely(err)) {
++		if (verbose || au_debug_test())
++			pr_err("%s, err %d\n", name, err);
++		err = au_xattr_ignore(err, name, ignore_flags);
++	}
++
++out:
++	return err;
++}
++
++int au_cpup_xattr(struct dentry *h_dst, struct dentry *h_src, int ignore_flags,
++		  unsigned int verbose)
++{
++	int err, unlocked, acl_access, acl_default;
++	ssize_t ssz;
++	struct inode *h_isrc, *h_idst;
++	char *value, *p, *o, *e;
++
++	/* try stopping to update the source inode while we are referencing */
++	/* there should not be the parent-child relationship between them */
++	h_isrc = d_inode(h_src);
++	h_idst = d_inode(h_dst);
++	inode_unlock(h_idst);
++	vfsub_inode_lock_shared_nested(h_isrc, AuLsc_I_CHILD);
++	inode_lock_nested(h_idst, AuLsc_I_CHILD2);
++	unlocked = 0;
++
++	/* some filesystems don't list POSIX ACL, for example tmpfs */
++	ssz = vfs_listxattr(h_src, NULL, 0);
++	err = ssz;
++	if (unlikely(err < 0)) {
++		AuTraceErr(err);
++		if (err == -ENODATA
++		    || err == -EOPNOTSUPP)
++			err = 0;	/* ignore */
++		goto out;
++	}
++
++	err = 0;
++	p = NULL;
++	o = NULL;
++	if (ssz) {
++		err = -ENOMEM;
++		p = kmalloc(ssz, GFP_NOFS);
++		o = p;
++		if (unlikely(!p))
++			goto out;
++		err = vfs_listxattr(h_src, p, ssz);
++	}
++	inode_unlock_shared(h_isrc);
++	unlocked = 1;
++	AuDbg("err %d, ssz %zd\n", err, ssz);
++	if (unlikely(err < 0))
++		goto out_free;
++
++	err = 0;
++	e = p + ssz;
++	value = NULL;
++	acl_access = 0;
++	acl_default = 0;
++	while (!err && p < e) {
++		acl_access |= !strncmp(p, XATTR_NAME_POSIX_ACL_ACCESS,
++				       sizeof(XATTR_NAME_POSIX_ACL_ACCESS) - 1);
++		acl_default |= !strncmp(p, XATTR_NAME_POSIX_ACL_DEFAULT,
++					sizeof(XATTR_NAME_POSIX_ACL_DEFAULT)
++					- 1);
++		err = au_do_cpup_xattr(h_dst, h_src, p, &value, ignore_flags,
++				       verbose);
++		p += strlen(p) + 1;
++	}
++	AuTraceErr(err);
++	ignore_flags |= au_xattr_out_of_list;
++	if (!err && !acl_access) {
++		err = au_do_cpup_xattr(h_dst, h_src,
++				       XATTR_NAME_POSIX_ACL_ACCESS, &value,
++				       ignore_flags, verbose);
++		AuTraceErr(err);
++	}
++	if (!err && !acl_default) {
++		err = au_do_cpup_xattr(h_dst, h_src,
++				       XATTR_NAME_POSIX_ACL_DEFAULT, &value,
++				       ignore_flags, verbose);
++		AuTraceErr(err);
++	}
++
++	if (value)
++		kfree(value);
++
++out_free:
++	if (o)
++		kfree(o);
++out:
++	if (!unlocked)
++		inode_unlock_shared(h_isrc);
++	AuTraceErr(err);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int au_smack_reentering(struct super_block *sb)
++{
++#if IS_ENABLED(CONFIG_SECURITY_SMACK)
++	/*
++	 * as a part of lookup, smack_d_instantiate() is called, and it calls
++	 * i_op->getxattr(). ouch.
++	 */
++	return si_pid_test(sb);
++#else
++	return 0;
++#endif
++}
++
++enum {
++	AU_XATTR_LIST,
++	AU_XATTR_GET
++};
++
++struct au_lgxattr {
++	int type;
++	union {
++		struct {
++			char	*list;
++			size_t	size;
++		} list;
++		struct {
++			const char	*name;
++			void		*value;
++			size_t		size;
++		} get;
++	} u;
++};
++
++static ssize_t au_lgxattr(struct dentry *dentry, struct au_lgxattr *arg)
++{
++	ssize_t err;
++	int reenter;
++	struct path h_path;
++	struct super_block *sb;
++
++	sb = dentry->d_sb;
++	reenter = au_smack_reentering(sb);
++	if (!reenter) {
++		err = si_read_lock(sb, AuLock_FLUSH | AuLock_NOPLM);
++		if (unlikely(err))
++			goto out;
++	}
++	err = au_h_path_getattr(dentry, /*force*/1, &h_path, reenter);
++	if (unlikely(err))
++		goto out_si;
++	if (unlikely(!h_path.dentry))
++		/* illegally overlapped or something */
++		goto out_di; /* pretending success */
++
++	/* always topmost entry only */
++	switch (arg->type) {
++	case AU_XATTR_LIST:
++		err = vfs_listxattr(h_path.dentry,
++				    arg->u.list.list, arg->u.list.size);
++		break;
++	case AU_XATTR_GET:
++		AuDebugOn(d_is_negative(h_path.dentry));
++		err = vfs_getxattr(h_path.dentry,
++				   arg->u.get.name, arg->u.get.value,
++				   arg->u.get.size);
++		break;
++	}
++
++out_di:
++	if (!reenter)
++		di_read_unlock(dentry, AuLock_IR);
++out_si:
++	if (!reenter)
++		si_read_unlock(sb);
++out:
++	AuTraceErr(err);
++	return err;
++}
++
++ssize_t aufs_listxattr(struct dentry *dentry, char *list, size_t size)
++{
++	struct au_lgxattr arg = {
++		.type = AU_XATTR_LIST,
++		.u.list = {
++			.list	= list,
++			.size	= size
++		},
++	};
++
++	return au_lgxattr(dentry, &arg);
++}
++
++static ssize_t au_getxattr(struct dentry *dentry,
++			   struct inode *inode __maybe_unused,
++			   const char *name, void *value, size_t size)
++{
++	struct au_lgxattr arg = {
++		.type = AU_XATTR_GET,
++		.u.get = {
++			.name	= name,
++			.value	= value,
++			.size	= size
++		},
++	};
++
++	return au_lgxattr(dentry, &arg);
++}
++
++static int au_setxattr(struct dentry *dentry, struct inode *inode,
++		       const char *name, const void *value, size_t size,
++		       int flags)
++{
++	struct au_sxattr arg = {
++		.type = AU_XATTR_SET,
++		.u.set = {
++			.name	= name,
++			.value	= value,
++			.size	= size,
++			.flags	= flags
++		},
++	};
++
++	return au_sxattr(dentry, inode, &arg);
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int au_xattr_get(const struct xattr_handler *handler,
++			struct dentry *dentry, struct inode *inode,
++			const char *name, void *buffer, size_t size)
++{
++	return au_getxattr(dentry, inode, name, buffer, size);
++}
++
++static int au_xattr_set(const struct xattr_handler *handler,
++			struct dentry *dentry, struct inode *inode,
++			const char *name, const void *value, size_t size,
++			int flags)
++{
++	return au_setxattr(dentry, inode, name, value, size, flags);
++}
++
++static const struct xattr_handler au_xattr_handler = {
++	.name	= "",
++	.prefix	= "",
++	.get	= au_xattr_get,
++	.set	= au_xattr_set
++};
++
++static const struct xattr_handler *au_xattr_handlers[] = {
++#ifdef CONFIG_FS_POSIX_ACL
++	&posix_acl_access_xattr_handler,
++	&posix_acl_default_xattr_handler,
++#endif
++	&au_xattr_handler, /* must be last */
++	NULL
++};
++
++void au_xattr_init(struct super_block *sb)
++{
++	sb->s_xattr = au_xattr_handlers;
++}
+diff --git a/fs/aufs/xino.c b/fs/aufs/xino.c
+new file mode 100755
+index 0000000..1d41d57
+--- /dev/null
++++ b/fs/aufs/xino.c
+@@ -0,0 +1,1415 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++/*
++ * external inode number translation table and bitmap
++ */
++
++#include <linux/seq_file.h>
++#include <linux/statfs.h>
++#include "aufs.h"
++
++/* todo: unnecessary to support mmap_sem since kernel-space? */
++ssize_t xino_fread(vfs_readf_t func, struct file *file, void *kbuf, size_t size,
++		   loff_t *pos)
++{
++	ssize_t err;
++	mm_segment_t oldfs;
++	union {
++		void *k;
++		char __user *u;
++	} buf;
++
++	buf.k = kbuf;
++	oldfs = get_fs();
++	set_fs(KERNEL_DS);
++	do {
++		/* todo: signal_pending? */
++		err = func(file, buf.u, size, pos);
++	} while (err == -EAGAIN || err == -EINTR);
++	set_fs(oldfs);
++
++#if 0 /* reserved for future use */
++	if (err > 0)
++		fsnotify_access(file->f_path.dentry);
++#endif
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static ssize_t xino_fwrite_wkq(vfs_writef_t func, struct file *file, void *buf,
++			       size_t size, loff_t *pos);
++
++static ssize_t do_xino_fwrite(vfs_writef_t func, struct file *file, void *kbuf,
++			      size_t size, loff_t *pos)
++{
++	ssize_t err;
++	mm_segment_t oldfs;
++	union {
++		void *k;
++		const char __user *u;
++	} buf;
++	int i;
++	const int prevent_endless = 10;
++
++	i = 0;
++	buf.k = kbuf;
++	oldfs = get_fs();
++	set_fs(KERNEL_DS);
++	do {
++		err = func(file, buf.u, size, pos);
++		if (err == -EINTR
++		    && !au_wkq_test()
++		    && fatal_signal_pending(current)) {
++			set_fs(oldfs);
++			err = xino_fwrite_wkq(func, file, kbuf, size, pos);
++			BUG_ON(err == -EINTR);
++			oldfs = get_fs();
++			set_fs(KERNEL_DS);
++		}
++	} while (i++ < prevent_endless
++		 && (err == -EAGAIN || err == -EINTR));
++	set_fs(oldfs);
++
++#if 0 /* reserved for future use */
++	if (err > 0)
++		fsnotify_modify(file->f_path.dentry);
++#endif
++
++	return err;
++}
++
++struct do_xino_fwrite_args {
++	ssize_t *errp;
++	vfs_writef_t func;
++	struct file *file;
++	void *buf;
++	size_t size;
++	loff_t *pos;
++};
++
++static void call_do_xino_fwrite(void *args)
++{
++	struct do_xino_fwrite_args *a = args;
++	*a->errp = do_xino_fwrite(a->func, a->file, a->buf, a->size, a->pos);
++}
++
++static ssize_t xino_fwrite_wkq(vfs_writef_t func, struct file *file, void *buf,
++			       size_t size, loff_t *pos)
++{
++	ssize_t err;
++	int wkq_err;
++	struct do_xino_fwrite_args args = {
++		.errp	= &err,
++		.func	= func,
++		.file	= file,
++		.buf	= buf,
++		.size	= size,
++		.pos	= pos
++	};
++
++	/*
++	 * it breaks RLIMIT_FSIZE and normal user's limit,
++	 * users should care about quota and real 'filesystem full.'
++	 */
++	wkq_err = au_wkq_wait(call_do_xino_fwrite, &args);
++	if (unlikely(wkq_err))
++		err = wkq_err;
++
++	return err;
++}
++
++ssize_t xino_fwrite(vfs_writef_t func, struct file *file, void *buf,
++		    size_t size, loff_t *pos)
++{
++	ssize_t err;
++
++	if (rlimit(RLIMIT_FSIZE) == RLIM_INFINITY) {
++		lockdep_off();
++		err = do_xino_fwrite(func, file, buf, size, pos);
++		lockdep_on();
++	} else
++		err = xino_fwrite_wkq(func, file, buf, size, pos);
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * create a new xinofile at the same place/path as @base_file.
++ */
++struct file *au_xino_create2(struct file *base_file, struct file *copy_src)
++{
++	struct file *file;
++	struct dentry *base, *parent;
++	struct inode *dir, *delegated;
++	struct qstr *name;
++	struct path path;
++	int err;
++
++	base = base_file->f_path.dentry;
++	parent = base->d_parent; /* dir inode is locked */
++	dir = d_inode(parent);
++	IMustLock(dir);
++
++	file = ERR_PTR(-EINVAL);
++	name = &base->d_name;
++	path.dentry = vfsub_lookup_one_len(name->name, parent, name->len);
++	if (IS_ERR(path.dentry)) {
++		file = (void *)path.dentry;
++		pr_err("%pd lookup err %ld\n",
++		       base, PTR_ERR(path.dentry));
++		goto out;
++	}
++
++	/* no need to mnt_want_write() since we call dentry_open() later */
++	err = vfs_create(dir, path.dentry, S_IRUGO | S_IWUGO, NULL);
++	if (unlikely(err)) {
++		file = ERR_PTR(err);
++		pr_err("%pd create err %d\n", base, err);
++		goto out_dput;
++	}
++
++	path.mnt = base_file->f_path.mnt;
++	file = vfsub_dentry_open(&path,
++				 O_RDWR | O_CREAT | O_EXCL | O_LARGEFILE
++				 /* | __FMODE_NONOTIFY */);
++	if (IS_ERR(file)) {
++		pr_err("%pd open err %ld\n", base, PTR_ERR(file));
++		goto out_dput;
++	}
++
++	delegated = NULL;
++	err = vfsub_unlink(dir, &file->f_path, &delegated, /*force*/0);
++	if (unlikely(err == -EWOULDBLOCK)) {
++		pr_warn("cannot retry for NFSv4 delegation"
++			" for an internal unlink\n");
++		iput(delegated);
++	}
++	if (unlikely(err)) {
++		pr_err("%pd unlink err %d\n", base, err);
++		goto out_fput;
++	}
++
++	if (copy_src) {
++		/* no one can touch copy_src xino */
++		err = au_copy_file(file, copy_src, vfsub_f_size_read(copy_src));
++		if (unlikely(err)) {
++			pr_err("%pd copy err %d\n", base, err);
++			goto out_fput;
++		}
++	}
++	goto out_dput; /* success */
++
++out_fput:
++	fput(file);
++	file = ERR_PTR(err);
++out_dput:
++	dput(path.dentry);
++out:
++	return file;
++}
++
++struct au_xino_lock_dir {
++	struct au_hinode *hdir;
++	struct dentry *parent;
++	struct inode *dir;
++};
++
++static void au_xino_lock_dir(struct super_block *sb, struct file *xino,
++			     struct au_xino_lock_dir *ldir)
++{
++	aufs_bindex_t brid, bindex;
++
++	ldir->hdir = NULL;
++	bindex = -1;
++	brid = au_xino_brid(sb);
++	if (brid >= 0)
++		bindex = au_br_index(sb, brid);
++	if (bindex >= 0) {
++		ldir->hdir = au_hi(d_inode(sb->s_root), bindex);
++		au_hn_inode_lock_nested(ldir->hdir, AuLsc_I_PARENT);
++	} else {
++		ldir->parent = dget_parent(xino->f_path.dentry);
++		ldir->dir = d_inode(ldir->parent);
++		inode_lock_nested(ldir->dir, AuLsc_I_PARENT);
++	}
++}
++
++static void au_xino_unlock_dir(struct au_xino_lock_dir *ldir)
++{
++	if (ldir->hdir)
++		au_hn_inode_unlock(ldir->hdir);
++	else {
++		inode_unlock(ldir->dir);
++		dput(ldir->parent);
++	}
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* trucate xino files asynchronously */
++
++int au_xino_trunc(struct super_block *sb, aufs_bindex_t bindex)
++{
++	int err;
++	unsigned long jiffy;
++	blkcnt_t blocks;
++	aufs_bindex_t bi, bbot;
++	struct kstatfs *st;
++	struct au_branch *br;
++	struct file *new_xino, *file;
++	struct super_block *h_sb;
++	struct au_xino_lock_dir ldir;
++
++	err = -ENOMEM;
++	st = kmalloc(sizeof(*st), GFP_NOFS);
++	if (unlikely(!st))
++		goto out;
++
++	err = -EINVAL;
++	bbot = au_sbbot(sb);
++	if (unlikely(bindex < 0 || bbot < bindex))
++		goto out_st;
++	br = au_sbr(sb, bindex);
++	file = br->br_xino.xi_file;
++	if (!file)
++		goto out_st;
++
++	err = vfs_statfs(&file->f_path, st);
++	if (unlikely(err))
++		AuErr1("statfs err %d, ignored\n", err);
++	jiffy = jiffies;
++	blocks = file_inode(file)->i_blocks;
++	pr_info("begin truncating xino(b%d), ib%llu, %llu/%llu free blks\n",
++		bindex, (u64)blocks, st->f_bfree, st->f_blocks);
++
++	au_xino_lock_dir(sb, file, &ldir);
++	/* mnt_want_write() is unnecessary here */
++	new_xino = au_xino_create2(file, file);
++	au_xino_unlock_dir(&ldir);
++	err = PTR_ERR(new_xino);
++	if (IS_ERR(new_xino)) {
++		pr_err("err %d, ignored\n", err);
++		goto out_st;
++	}
++	err = 0;
++	fput(file);
++	br->br_xino.xi_file = new_xino;
++
++	h_sb = au_br_sb(br);
++	for (bi = 0; bi <= bbot; bi++) {
++		if (unlikely(bi == bindex))
++			continue;
++		br = au_sbr(sb, bi);
++		if (au_br_sb(br) != h_sb)
++			continue;
++
++		fput(br->br_xino.xi_file);
++		br->br_xino.xi_file = new_xino;
++		get_file(new_xino);
++	}
++
++	err = vfs_statfs(&new_xino->f_path, st);
++	if (!err) {
++		pr_info("end truncating xino(b%d), ib%llu, %llu/%llu free blks\n",
++			bindex, (u64)file_inode(new_xino)->i_blocks,
++			st->f_bfree, st->f_blocks);
++		if (file_inode(new_xino)->i_blocks < blocks)
++			au_sbi(sb)->si_xino_jiffy = jiffy;
++	} else
++		AuErr1("statfs err %d, ignored\n", err);
++
++out_st:
++	kfree(st);
++out:
++	return err;
++}
++
++struct xino_do_trunc_args {
++	struct super_block *sb;
++	struct au_branch *br;
++};
++
++static void xino_do_trunc(void *_args)
++{
++	struct xino_do_trunc_args *args = _args;
++	struct super_block *sb;
++	struct au_branch *br;
++	struct inode *dir;
++	int err;
++	aufs_bindex_t bindex;
++
++	err = 0;
++	sb = args->sb;
++	dir = d_inode(sb->s_root);
++	br = args->br;
++
++	si_noflush_write_lock(sb);
++	ii_read_lock_parent(dir);
++	bindex = au_br_index(sb, br->br_id);
++	err = au_xino_trunc(sb, bindex);
++	ii_read_unlock(dir);
++	if (unlikely(err))
++		pr_warn("err b%d, (%d)\n", bindex, err);
++	atomic_dec(&br->br_xino_running);
++	au_br_put(br);
++	si_write_unlock(sb);
++	au_nwt_done(&au_sbi(sb)->si_nowait);
++	kfree(args);
++}
++
++static int xino_trunc_test(struct super_block *sb, struct au_branch *br)
++{
++	int err;
++	struct kstatfs st;
++	struct au_sbinfo *sbinfo;
++
++	/* todo: si_xino_expire and the ratio should be customizable */
++	sbinfo = au_sbi(sb);
++	if (time_before(jiffies,
++			sbinfo->si_xino_jiffy + sbinfo->si_xino_expire))
++		return 0;
++
++	/* truncation border */
++	err = vfs_statfs(&br->br_xino.xi_file->f_path, &st);
++	if (unlikely(err)) {
++		AuErr1("statfs err %d, ignored\n", err);
++		return 0;
++	}
++	if (div64_u64(st.f_bfree * 100, st.f_blocks) >= AUFS_XINO_DEF_TRUNC)
++		return 0;
++
++	return 1;
++}
++
++static void xino_try_trunc(struct super_block *sb, struct au_branch *br)
++{
++	struct xino_do_trunc_args *args;
++	int wkq_err;
++
++	if (!xino_trunc_test(sb, br))
++		return;
++
++	if (atomic_inc_return(&br->br_xino_running) > 1)
++		goto out;
++
++	/* lock and kfree() will be called in trunc_xino() */
++	args = kmalloc(sizeof(*args), GFP_NOFS);
++	if (unlikely(!args)) {
++		AuErr1("no memory\n");
++		goto out;
++	}
++
++	au_br_get(br);
++	args->sb = sb;
++	args->br = br;
++	wkq_err = au_wkq_nowait(xino_do_trunc, args, sb, /*flags*/0);
++	if (!wkq_err)
++		return; /* success */
++
++	pr_err("wkq %d\n", wkq_err);
++	au_br_put(br);
++	kfree(args);
++
++out:
++	atomic_dec(&br->br_xino_running);
++}
++
++/* ---------------------------------------------------------------------- */
++
++static int au_xino_do_write(vfs_writef_t write, struct file *file,
++			    ino_t h_ino, ino_t ino)
++{
++	loff_t pos;
++	ssize_t sz;
++
++	pos = h_ino;
++	if (unlikely(au_loff_max / sizeof(ino) - 1 < pos)) {
++		AuIOErr1("too large hi%lu\n", (unsigned long)h_ino);
++		return -EFBIG;
++	}
++	pos *= sizeof(ino);
++	sz = xino_fwrite(write, file, &ino, sizeof(ino), &pos);
++	if (sz == sizeof(ino))
++		return 0; /* success */
++
++	AuIOErr("write failed (%zd)\n", sz);
++	return -EIO;
++}
++
++/*
++ * write @ino to the xinofile for the specified branch{@sb, @bindex}
++ * at the position of @h_ino.
++ * even if @ino is zero, it is written to the xinofile and means no entry.
++ * if the size of the xino file on a specific filesystem exceeds the watermark,
++ * try truncating it.
++ */
++int au_xino_write(struct super_block *sb, aufs_bindex_t bindex, ino_t h_ino,
++		  ino_t ino)
++{
++	int err;
++	unsigned int mnt_flags;
++	struct au_branch *br;
++
++	BUILD_BUG_ON(sizeof(long long) != sizeof(au_loff_max)
++		     || ((loff_t)-1) > 0);
++	SiMustAnyLock(sb);
++
++	mnt_flags = au_mntflags(sb);
++	if (!au_opt_test(mnt_flags, XINO))
++		return 0;
++
++	br = au_sbr(sb, bindex);
++	err = au_xino_do_write(au_sbi(sb)->si_xwrite, br->br_xino.xi_file,
++			       h_ino, ino);
++	if (!err) {
++		if (au_opt_test(mnt_flags, TRUNC_XINO)
++		    && au_test_fs_trunc_xino(au_br_sb(br)))
++			xino_try_trunc(sb, br);
++		return 0; /* success */
++	}
++
++	AuIOErr("write failed (%d)\n", err);
++	return -EIO;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* aufs inode number bitmap */
++
++static const int page_bits = (int)PAGE_SIZE * BITS_PER_BYTE;
++static ino_t xib_calc_ino(unsigned long pindex, int bit)
++{
++	ino_t ino;
++
++	AuDebugOn(bit < 0 || page_bits <= bit);
++	ino = AUFS_FIRST_INO + pindex * page_bits + bit;
++	return ino;
++}
++
++static void xib_calc_bit(ino_t ino, unsigned long *pindex, int *bit)
++{
++	AuDebugOn(ino < AUFS_FIRST_INO);
++	ino -= AUFS_FIRST_INO;
++	*pindex = ino / page_bits;
++	*bit = ino % page_bits;
++}
++
++static int xib_pindex(struct super_block *sb, unsigned long pindex)
++{
++	int err;
++	loff_t pos;
++	ssize_t sz;
++	struct au_sbinfo *sbinfo;
++	struct file *xib;
++	unsigned long *p;
++
++	sbinfo = au_sbi(sb);
++	MtxMustLock(&sbinfo->si_xib_mtx);
++	AuDebugOn(pindex > ULONG_MAX / PAGE_SIZE
++		  || !au_opt_test(sbinfo->si_mntflags, XINO));
++
++	if (pindex == sbinfo->si_xib_last_pindex)
++		return 0;
++
++	xib = sbinfo->si_xib;
++	p = sbinfo->si_xib_buf;
++	pos = sbinfo->si_xib_last_pindex;
++	pos *= PAGE_SIZE;
++	sz = xino_fwrite(sbinfo->si_xwrite, xib, p, PAGE_SIZE, &pos);
++	if (unlikely(sz != PAGE_SIZE))
++		goto out;
++
++	pos = pindex;
++	pos *= PAGE_SIZE;
++	if (vfsub_f_size_read(xib) >= pos + PAGE_SIZE)
++		sz = xino_fread(sbinfo->si_xread, xib, p, PAGE_SIZE, &pos);
++	else {
++		memset(p, 0, PAGE_SIZE);
++		sz = xino_fwrite(sbinfo->si_xwrite, xib, p, PAGE_SIZE, &pos);
++	}
++	if (sz == PAGE_SIZE) {
++		sbinfo->si_xib_last_pindex = pindex;
++		return 0; /* success */
++	}
++
++out:
++	AuIOErr1("write failed (%zd)\n", sz);
++	err = sz;
++	if (sz >= 0)
++		err = -EIO;
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++static void au_xib_clear_bit(struct inode *inode)
++{
++	int err, bit;
++	unsigned long pindex;
++	struct super_block *sb;
++	struct au_sbinfo *sbinfo;
++
++	AuDebugOn(inode->i_nlink);
++
++	sb = inode->i_sb;
++	xib_calc_bit(inode->i_ino, &pindex, &bit);
++	AuDebugOn(page_bits <= bit);
++	sbinfo = au_sbi(sb);
++	mutex_lock(&sbinfo->si_xib_mtx);
++	err = xib_pindex(sb, pindex);
++	if (!err) {
++		clear_bit(bit, sbinfo->si_xib_buf);
++		sbinfo->si_xib_next_bit = bit;
++	}
++	mutex_unlock(&sbinfo->si_xib_mtx);
++}
++
++/* for s_op->delete_inode() */
++void au_xino_delete_inode(struct inode *inode, const int unlinked)
++{
++	int err;
++	unsigned int mnt_flags;
++	aufs_bindex_t bindex, bbot, bi;
++	unsigned char try_trunc;
++	struct au_iinfo *iinfo;
++	struct super_block *sb;
++	struct au_hinode *hi;
++	struct inode *h_inode;
++	struct au_branch *br;
++	vfs_writef_t xwrite;
++
++	AuDebugOn(au_is_bad_inode(inode));
++
++	sb = inode->i_sb;
++	mnt_flags = au_mntflags(sb);
++	if (!au_opt_test(mnt_flags, XINO)
++	    || inode->i_ino == AUFS_ROOT_INO)
++		return;
++
++	if (unlinked) {
++		au_xigen_inc(inode);
++		au_xib_clear_bit(inode);
++	}
++
++	iinfo = au_ii(inode);
++	bindex = iinfo->ii_btop;
++	if (bindex < 0)
++		return;
++
++	xwrite = au_sbi(sb)->si_xwrite;
++	try_trunc = !!au_opt_test(mnt_flags, TRUNC_XINO);
++	hi = au_hinode(iinfo, bindex);
++	bbot = iinfo->ii_bbot;
++	for (; bindex <= bbot; bindex++, hi++) {
++		h_inode = hi->hi_inode;
++		if (!h_inode
++		    || (!unlinked && h_inode->i_nlink))
++			continue;
++
++		/* inode may not be revalidated */
++		bi = au_br_index(sb, hi->hi_id);
++		if (bi < 0)
++			continue;
++
++		br = au_sbr(sb, bi);
++		err = au_xino_do_write(xwrite, br->br_xino.xi_file,
++				       h_inode->i_ino, /*ino*/0);
++		if (!err && try_trunc
++		    && au_test_fs_trunc_xino(au_br_sb(br)))
++			xino_try_trunc(sb, br);
++	}
++}
++
++/* get an unused inode number from bitmap */
++ino_t au_xino_new_ino(struct super_block *sb)
++{
++	ino_t ino;
++	unsigned long *p, pindex, ul, pend;
++	struct au_sbinfo *sbinfo;
++	struct file *file;
++	int free_bit, err;
++
++	if (!au_opt_test(au_mntflags(sb), XINO))
++		return iunique(sb, AUFS_FIRST_INO);
++
++	sbinfo = au_sbi(sb);
++	mutex_lock(&sbinfo->si_xib_mtx);
++	p = sbinfo->si_xib_buf;
++	free_bit = sbinfo->si_xib_next_bit;
++	if (free_bit < page_bits && !test_bit(free_bit, p))
++		goto out; /* success */
++	free_bit = find_first_zero_bit(p, page_bits);
++	if (free_bit < page_bits)
++		goto out; /* success */
++
++	pindex = sbinfo->si_xib_last_pindex;
++	for (ul = pindex - 1; ul < ULONG_MAX; ul--) {
++		err = xib_pindex(sb, ul);
++		if (unlikely(err))
++			goto out_err;
++		free_bit = find_first_zero_bit(p, page_bits);
++		if (free_bit < page_bits)
++			goto out; /* success */
++	}
++
++	file = sbinfo->si_xib;
++	pend = vfsub_f_size_read(file) / PAGE_SIZE;
++	for (ul = pindex + 1; ul <= pend; ul++) {
++		err = xib_pindex(sb, ul);
++		if (unlikely(err))
++			goto out_err;
++		free_bit = find_first_zero_bit(p, page_bits);
++		if (free_bit < page_bits)
++			goto out; /* success */
++	}
++	BUG();
++
++out:
++	set_bit(free_bit, p);
++	sbinfo->si_xib_next_bit = free_bit + 1;
++	pindex = sbinfo->si_xib_last_pindex;
++	mutex_unlock(&sbinfo->si_xib_mtx);
++	ino = xib_calc_ino(pindex, free_bit);
++	AuDbg("i%lu\n", (unsigned long)ino);
++	return ino;
++out_err:
++	mutex_unlock(&sbinfo->si_xib_mtx);
++	AuDbg("i0\n");
++	return 0;
++}
++
++/*
++ * read @ino from xinofile for the specified branch{@sb, @bindex}
++ * at the position of @h_ino.
++ * if @ino does not exist and @do_new is true, get new one.
++ */
++int au_xino_read(struct super_block *sb, aufs_bindex_t bindex, ino_t h_ino,
++		 ino_t *ino)
++{
++	int err;
++	ssize_t sz;
++	loff_t pos;
++	struct file *file;
++	struct au_sbinfo *sbinfo;
++
++	*ino = 0;
++	if (!au_opt_test(au_mntflags(sb), XINO))
++		return 0; /* no xino */
++
++	err = 0;
++	sbinfo = au_sbi(sb);
++	pos = h_ino;
++	if (unlikely(au_loff_max / sizeof(*ino) - 1 < pos)) {
++		AuIOErr1("too large hi%lu\n", (unsigned long)h_ino);
++		return -EFBIG;
++	}
++	pos *= sizeof(*ino);
++
++	file = au_sbr(sb, bindex)->br_xino.xi_file;
++	if (vfsub_f_size_read(file) < pos + sizeof(*ino))
++		return 0; /* no ino */
++
++	sz = xino_fread(sbinfo->si_xread, file, ino, sizeof(*ino), &pos);
++	if (sz == sizeof(*ino))
++		return 0; /* success */
++
++	err = sz;
++	if (unlikely(sz >= 0)) {
++		err = -EIO;
++		AuIOErr("xino read error (%zd)\n", sz);
++	}
++
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* create and set a new xino file */
++
++struct file *au_xino_create(struct super_block *sb, char *fname, int silent)
++{
++	struct file *file;
++	struct dentry *h_parent, *d;
++	struct inode *h_dir, *inode;
++	int err;
++
++	/*
++	 * at mount-time, and the xino file is the default path,
++	 * hnotify is disabled so we have no notify events to ignore.
++	 * when a user specified the xino, we cannot get au_hdir to be ignored.
++	 */
++	file = vfsub_filp_open(fname, O_RDWR | O_CREAT | O_EXCL | O_LARGEFILE
++			       /* | __FMODE_NONOTIFY */,
++			       S_IRUGO | S_IWUGO);
++	if (IS_ERR(file)) {
++		if (!silent)
++			pr_err("open %s(%ld)\n", fname, PTR_ERR(file));
++		return file;
++	}
++
++	/* keep file count */
++	err = 0;
++	inode = file_inode(file);
++	h_parent = dget_parent(file->f_path.dentry);
++	h_dir = d_inode(h_parent);
++	inode_lock_nested(h_dir, AuLsc_I_PARENT);
++	/* mnt_want_write() is unnecessary here */
++	/* no delegation since it is just created */
++	if (inode->i_nlink)
++		err = vfsub_unlink(h_dir, &file->f_path, /*delegated*/NULL,
++				   /*force*/0);
++	inode_unlock(h_dir);
++	dput(h_parent);
++	if (unlikely(err)) {
++		if (!silent)
++			pr_err("unlink %s(%d)\n", fname, err);
++		goto out;
++	}
++
++	err = -EINVAL;
++	d = file->f_path.dentry;
++	if (unlikely(sb == d->d_sb)) {
++		if (!silent)
++			pr_err("%s must be outside\n", fname);
++		goto out;
++	}
++	if (unlikely(au_test_fs_bad_xino(d->d_sb))) {
++		if (!silent)
++			pr_err("xino doesn't support %s(%s)\n",
++			       fname, au_sbtype(d->d_sb));
++		goto out;
++	}
++	return file; /* success */
++
++out:
++	fput(file);
++	file = ERR_PTR(err);
++	return file;
++}
++
++/*
++ * find another branch who is on the same filesystem of the specified
++ * branch{@btgt}. search until @bbot.
++ */
++static int is_sb_shared(struct super_block *sb, aufs_bindex_t btgt,
++			aufs_bindex_t bbot)
++{
++	aufs_bindex_t bindex;
++	struct super_block *tgt_sb = au_sbr_sb(sb, btgt);
++
++	for (bindex = 0; bindex < btgt; bindex++)
++		if (unlikely(tgt_sb == au_sbr_sb(sb, bindex)))
++			return bindex;
++	for (bindex++; bindex <= bbot; bindex++)
++		if (unlikely(tgt_sb == au_sbr_sb(sb, bindex)))
++			return bindex;
++	return -1;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * initialize the xinofile for the specified branch @br
++ * at the place/path where @base_file indicates.
++ * test whether another branch is on the same filesystem or not,
++ * if @do_test is true.
++ */
++int au_xino_br(struct super_block *sb, struct au_branch *br, ino_t h_ino,
++	       struct file *base_file, int do_test)
++{
++	int err;
++	ino_t ino;
++	aufs_bindex_t bbot, bindex;
++	struct au_branch *shared_br, *b;
++	struct file *file;
++	struct super_block *tgt_sb;
++
++	shared_br = NULL;
++	bbot = au_sbbot(sb);
++	if (do_test) {
++		tgt_sb = au_br_sb(br);
++		for (bindex = 0; bindex <= bbot; bindex++) {
++			b = au_sbr(sb, bindex);
++			if (tgt_sb == au_br_sb(b)) {
++				shared_br = b;
++				break;
++			}
++		}
++	}
++
++	if (!shared_br || !shared_br->br_xino.xi_file) {
++		struct au_xino_lock_dir ldir;
++
++		au_xino_lock_dir(sb, base_file, &ldir);
++		/* mnt_want_write() is unnecessary here */
++		file = au_xino_create2(base_file, NULL);
++		au_xino_unlock_dir(&ldir);
++		err = PTR_ERR(file);
++		if (IS_ERR(file))
++			goto out;
++		br->br_xino.xi_file = file;
++	} else {
++		br->br_xino.xi_file = shared_br->br_xino.xi_file;
++		get_file(br->br_xino.xi_file);
++	}
++
++	ino = AUFS_ROOT_INO;
++	err = au_xino_do_write(au_sbi(sb)->si_xwrite, br->br_xino.xi_file,
++			       h_ino, ino);
++	if (unlikely(err)) {
++		fput(br->br_xino.xi_file);
++		br->br_xino.xi_file = NULL;
++	}
++
++out:
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* trucate a xino bitmap file */
++
++/* todo: slow */
++static int do_xib_restore(struct super_block *sb, struct file *file, void *page)
++{
++	int err, bit;
++	ssize_t sz;
++	unsigned long pindex;
++	loff_t pos, pend;
++	struct au_sbinfo *sbinfo;
++	vfs_readf_t func;
++	ino_t *ino;
++	unsigned long *p;
++
++	err = 0;
++	sbinfo = au_sbi(sb);
++	MtxMustLock(&sbinfo->si_xib_mtx);
++	p = sbinfo->si_xib_buf;
++	func = sbinfo->si_xread;
++	pend = vfsub_f_size_read(file);
++	pos = 0;
++	while (pos < pend) {
++		sz = xino_fread(func, file, page, PAGE_SIZE, &pos);
++		err = sz;
++		if (unlikely(sz <= 0))
++			goto out;
++
++		err = 0;
++		for (ino = page; sz > 0; ino++, sz -= sizeof(ino)) {
++			if (unlikely(*ino < AUFS_FIRST_INO))
++				continue;
++
++			xib_calc_bit(*ino, &pindex, &bit);
++			AuDebugOn(page_bits <= bit);
++			err = xib_pindex(sb, pindex);
++			if (!err)
++				set_bit(bit, p);
++			else
++				goto out;
++		}
++	}
++
++out:
++	return err;
++}
++
++static int xib_restore(struct super_block *sb)
++{
++	int err;
++	aufs_bindex_t bindex, bbot;
++	void *page;
++
++	err = -ENOMEM;
++	page = (void *)__get_free_page(GFP_NOFS);
++	if (unlikely(!page))
++		goto out;
++
++	err = 0;
++	bbot = au_sbbot(sb);
++	for (bindex = 0; !err && bindex <= bbot; bindex++)
++		if (!bindex || is_sb_shared(sb, bindex, bindex - 1) < 0)
++			err = do_xib_restore
++				(sb, au_sbr(sb, bindex)->br_xino.xi_file, page);
++		else
++			AuDbg("b%d\n", bindex);
++	free_page((unsigned long)page);
++
++out:
++	return err;
++}
++
++int au_xib_trunc(struct super_block *sb)
++{
++	int err;
++	ssize_t sz;
++	loff_t pos;
++	struct au_xino_lock_dir ldir;
++	struct au_sbinfo *sbinfo;
++	unsigned long *p;
++	struct file *file;
++
++	SiMustWriteLock(sb);
++
++	err = 0;
++	sbinfo = au_sbi(sb);
++	if (!au_opt_test(sbinfo->si_mntflags, XINO))
++		goto out;
++
++	file = sbinfo->si_xib;
++	if (vfsub_f_size_read(file) <= PAGE_SIZE)
++		goto out;
++
++	au_xino_lock_dir(sb, file, &ldir);
++	/* mnt_want_write() is unnecessary here */
++	file = au_xino_create2(sbinfo->si_xib, NULL);
++	au_xino_unlock_dir(&ldir);
++	err = PTR_ERR(file);
++	if (IS_ERR(file))
++		goto out;
++	fput(sbinfo->si_xib);
++	sbinfo->si_xib = file;
++
++	p = sbinfo->si_xib_buf;
++	memset(p, 0, PAGE_SIZE);
++	pos = 0;
++	sz = xino_fwrite(sbinfo->si_xwrite, sbinfo->si_xib, p, PAGE_SIZE, &pos);
++	if (unlikely(sz != PAGE_SIZE)) {
++		err = sz;
++		AuIOErr("err %d\n", err);
++		if (sz >= 0)
++			err = -EIO;
++		goto out;
++	}
++
++	mutex_lock(&sbinfo->si_xib_mtx);
++	/* mnt_want_write() is unnecessary here */
++	err = xib_restore(sb);
++	mutex_unlock(&sbinfo->si_xib_mtx);
++
++out:
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * xino mount option handlers
++ */
++
++/* xino bitmap */
++static void xino_clear_xib(struct super_block *sb)
++{
++	struct au_sbinfo *sbinfo;
++
++	SiMustWriteLock(sb);
++
++	sbinfo = au_sbi(sb);
++	sbinfo->si_xread = NULL;
++	sbinfo->si_xwrite = NULL;
++	if (sbinfo->si_xib)
++		fput(sbinfo->si_xib);
++	sbinfo->si_xib = NULL;
++	if (sbinfo->si_xib_buf)
++		free_page((unsigned long)sbinfo->si_xib_buf);
++	sbinfo->si_xib_buf = NULL;
++}
++
++static int au_xino_set_xib(struct super_block *sb, struct file *base)
++{
++	int err;
++	loff_t pos;
++	struct au_sbinfo *sbinfo;
++	struct file *file;
++
++	SiMustWriteLock(sb);
++
++	sbinfo = au_sbi(sb);
++	file = au_xino_create2(base, sbinfo->si_xib);
++	err = PTR_ERR(file);
++	if (IS_ERR(file))
++		goto out;
++	if (sbinfo->si_xib)
++		fput(sbinfo->si_xib);
++	sbinfo->si_xib = file;
++	sbinfo->si_xread = vfs_readf(file);
++	sbinfo->si_xwrite = vfs_writef(file);
++
++	err = -ENOMEM;
++	if (!sbinfo->si_xib_buf)
++		sbinfo->si_xib_buf = (void *)get_zeroed_page(GFP_NOFS);
++	if (unlikely(!sbinfo->si_xib_buf))
++		goto out_unset;
++
++	sbinfo->si_xib_last_pindex = 0;
++	sbinfo->si_xib_next_bit = 0;
++	if (vfsub_f_size_read(file) < PAGE_SIZE) {
++		pos = 0;
++		err = xino_fwrite(sbinfo->si_xwrite, file, sbinfo->si_xib_buf,
++				  PAGE_SIZE, &pos);
++		if (unlikely(err != PAGE_SIZE))
++			goto out_free;
++	}
++	err = 0;
++	goto out; /* success */
++
++out_free:
++	if (sbinfo->si_xib_buf)
++		free_page((unsigned long)sbinfo->si_xib_buf);
++	sbinfo->si_xib_buf = NULL;
++	if (err >= 0)
++		err = -EIO;
++out_unset:
++	fput(sbinfo->si_xib);
++	sbinfo->si_xib = NULL;
++	sbinfo->si_xread = NULL;
++	sbinfo->si_xwrite = NULL;
++out:
++	return err;
++}
++
++/* xino for each branch */
++static void xino_clear_br(struct super_block *sb)
++{
++	aufs_bindex_t bindex, bbot;
++	struct au_branch *br;
++
++	bbot = au_sbbot(sb);
++	for (bindex = 0; bindex <= bbot; bindex++) {
++		br = au_sbr(sb, bindex);
++		if (!br || !br->br_xino.xi_file)
++			continue;
++
++		fput(br->br_xino.xi_file);
++		br->br_xino.xi_file = NULL;
++	}
++}
++
++static int au_xino_set_br(struct super_block *sb, struct file *base)
++{
++	int err;
++	ino_t ino;
++	aufs_bindex_t bindex, bbot, bshared;
++	struct {
++		struct file *old, *new;
++	} *fpair, *p;
++	struct au_branch *br;
++	struct inode *inode;
++	vfs_writef_t writef;
++
++	SiMustWriteLock(sb);
++
++	err = -ENOMEM;
++	bbot = au_sbbot(sb);
++	fpair = kcalloc(bbot + 1, sizeof(*fpair), GFP_NOFS);
++	if (unlikely(!fpair))
++		goto out;
++
++	inode = d_inode(sb->s_root);
++	ino = AUFS_ROOT_INO;
++	writef = au_sbi(sb)->si_xwrite;
++	for (bindex = 0, p = fpair; bindex <= bbot; bindex++, p++) {
++		bshared = is_sb_shared(sb, bindex, bindex - 1);
++		if (bshared >= 0) {
++			/* shared xino */
++			*p = fpair[bshared];
++			get_file(p->new);
++		}
++
++		if (!p->new) {
++			/* new xino */
++			br = au_sbr(sb, bindex);
++			p->old = br->br_xino.xi_file;
++			p->new = au_xino_create2(base, br->br_xino.xi_file);
++			err = PTR_ERR(p->new);
++			if (IS_ERR(p->new)) {
++				p->new = NULL;
++				goto out_pair;
++			}
++		}
++
++		err = au_xino_do_write(writef, p->new,
++				       au_h_iptr(inode, bindex)->i_ino, ino);
++		if (unlikely(err))
++			goto out_pair;
++	}
++
++	for (bindex = 0, p = fpair; bindex <= bbot; bindex++, p++) {
++		br = au_sbr(sb, bindex);
++		if (br->br_xino.xi_file)
++			fput(br->br_xino.xi_file);
++		get_file(p->new);
++		br->br_xino.xi_file = p->new;
++	}
++
++out_pair:
++	for (bindex = 0, p = fpair; bindex <= bbot; bindex++, p++)
++		if (p->new)
++			fput(p->new);
++		else
++			break;
++	kfree(fpair);
++out:
++	return err;
++}
++
++void au_xino_clr(struct super_block *sb)
++{
++	struct au_sbinfo *sbinfo;
++
++	au_xigen_clr(sb);
++	xino_clear_xib(sb);
++	xino_clear_br(sb);
++	sbinfo = au_sbi(sb);
++	/* lvalue, do not call au_mntflags() */
++	au_opt_clr(sbinfo->si_mntflags, XINO);
++}
++
++int au_xino_set(struct super_block *sb, struct au_opt_xino *xino, int remount)
++{
++	int err, skip;
++	struct dentry *parent, *cur_parent;
++	struct qstr *dname, *cur_name;
++	struct file *cur_xino;
++	struct inode *dir;
++	struct au_sbinfo *sbinfo;
++
++	SiMustWriteLock(sb);
++
++	err = 0;
++	sbinfo = au_sbi(sb);
++	parent = dget_parent(xino->file->f_path.dentry);
++	if (remount) {
++		skip = 0;
++		dname = &xino->file->f_path.dentry->d_name;
++		cur_xino = sbinfo->si_xib;
++		if (cur_xino) {
++			cur_parent = dget_parent(cur_xino->f_path.dentry);
++			cur_name = &cur_xino->f_path.dentry->d_name;
++			skip = (cur_parent == parent
++				&& au_qstreq(dname, cur_name));
++			dput(cur_parent);
++		}
++		if (skip)
++			goto out;
++	}
++
++	au_opt_set(sbinfo->si_mntflags, XINO);
++	dir = d_inode(parent);
++	inode_lock_nested(dir, AuLsc_I_PARENT);
++	/* mnt_want_write() is unnecessary here */
++	err = au_xino_set_xib(sb, xino->file);
++	if (!err)
++		err = au_xigen_set(sb, xino->file);
++	if (!err)
++		err = au_xino_set_br(sb, xino->file);
++	inode_unlock(dir);
++	if (!err)
++		goto out; /* success */
++
++	/* reset all */
++	AuIOErr("failed creating xino(%d).\n", err);
++	au_xigen_clr(sb);
++	xino_clear_xib(sb);
++
++out:
++	dput(parent);
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/*
++ * create a xinofile at the default place/path.
++ */
++struct file *au_xino_def(struct super_block *sb)
++{
++	struct file *file;
++	char *page, *p;
++	struct au_branch *br;
++	struct super_block *h_sb;
++	struct path path;
++	aufs_bindex_t bbot, bindex, bwr;
++
++	br = NULL;
++	bbot = au_sbbot(sb);
++	bwr = -1;
++	for (bindex = 0; bindex <= bbot; bindex++) {
++		br = au_sbr(sb, bindex);
++		if (au_br_writable(br->br_perm)
++		    && !au_test_fs_bad_xino(au_br_sb(br))) {
++			bwr = bindex;
++			break;
++		}
++	}
++
++	if (bwr >= 0) {
++		file = ERR_PTR(-ENOMEM);
++		page = (void *)__get_free_page(GFP_NOFS);
++		if (unlikely(!page))
++			goto out;
++		path.mnt = au_br_mnt(br);
++		path.dentry = au_h_dptr(sb->s_root, bwr);
++		p = d_path(&path, page, PATH_MAX - sizeof(AUFS_XINO_FNAME));
++		file = (void *)p;
++		if (!IS_ERR(p)) {
++			strcat(p, "/" AUFS_XINO_FNAME);
++			AuDbg("%s\n", p);
++			file = au_xino_create(sb, p, /*silent*/0);
++			if (!IS_ERR(file))
++				au_xino_brid_set(sb, br->br_id);
++		}
++		free_page((unsigned long)page);
++	} else {
++		file = au_xino_create(sb, AUFS_XINO_DEFPATH, /*silent*/0);
++		if (IS_ERR(file))
++			goto out;
++		h_sb = file->f_path.dentry->d_sb;
++		if (unlikely(au_test_fs_bad_xino(h_sb))) {
++			pr_err("xino doesn't support %s(%s)\n",
++			       AUFS_XINO_DEFPATH, au_sbtype(h_sb));
++			fput(file);
++			file = ERR_PTR(-EINVAL);
++		}
++		if (!IS_ERR(file))
++			au_xino_brid_set(sb, -1);
++	}
++
++out:
++	return file;
++}
++
++/* ---------------------------------------------------------------------- */
++
++int au_xino_path(struct seq_file *seq, struct file *file)
++{
++	int err;
++
++	err = au_seq_path(seq, &file->f_path);
++	if (unlikely(err))
++		goto out;
++
++#define Deleted "\\040(deleted)"
++	seq->count -= sizeof(Deleted) - 1;
++	AuDebugOn(memcmp(seq->buf + seq->count, Deleted,
++			 sizeof(Deleted) - 1));
++#undef Deleted
++
++out:
++	return err;
++}
++
++/* ---------------------------------------------------------------------- */
++
++void au_xinondir_leave(struct super_block *sb, aufs_bindex_t bindex,
++		       ino_t h_ino, int idx)
++{
++	struct au_xino_file *xino;
++
++	AuDebugOn(!au_opt_test(au_mntflags(sb), XINO));
++	xino = &au_sbr(sb, bindex)->br_xino;
++	AuDebugOn(idx < 0 || xino->xi_nondir.total <= idx);
++
++	spin_lock(&xino->xi_nondir.spin);
++	AuDebugOn(xino->xi_nondir.array[idx] != h_ino);
++	xino->xi_nondir.array[idx] = 0;
++	spin_unlock(&xino->xi_nondir.spin);
++	wake_up_all(&xino->xi_nondir.wqh);
++}
++
++static int au_xinondir_find(struct au_xino_file *xino, ino_t h_ino)
++{
++	int found, total, i;
++
++	found = -1;
++	total = xino->xi_nondir.total;
++	for (i = 0; i < total; i++) {
++		if (xino->xi_nondir.array[i] != h_ino)
++			continue;
++		found = i;
++		break;
++	}
++
++	return found;
++}
++
++static int au_xinondir_expand(struct au_xino_file *xino)
++{
++	int err, sz;
++	ino_t *p;
++
++	BUILD_BUG_ON(KMALLOC_MAX_SIZE > INT_MAX);
++
++	err = -ENOMEM;
++	sz = xino->xi_nondir.total * sizeof(ino_t);
++	if (unlikely(sz > KMALLOC_MAX_SIZE / 2))
++		goto out;
++	p = au_kzrealloc(xino->xi_nondir.array, sz, sz << 1, GFP_ATOMIC,
++			 /*may_shrink*/0);
++	if (p) {
++		xino->xi_nondir.array = p;
++		xino->xi_nondir.total <<= 1;
++		AuDbg("xi_nondir.total %d\n", xino->xi_nondir.total);
++		err = 0;
++	}
++
++out:
++	return err;
++}
++
++int au_xinondir_enter(struct super_block *sb, aufs_bindex_t bindex, ino_t h_ino,
++		      int *idx)
++{
++	int err, found, empty;
++	struct au_xino_file *xino;
++
++	err = 0;
++	*idx = -1;
++	if (!au_opt_test(au_mntflags(sb), XINO))
++		goto out; /* no xino */
++
++	xino = &au_sbr(sb, bindex)->br_xino;
++
++again:
++	spin_lock(&xino->xi_nondir.spin);
++	found = au_xinondir_find(xino, h_ino);
++	if (found == -1) {
++		empty = au_xinondir_find(xino, /*h_ino*/0);
++		if (empty == -1) {
++			empty = xino->xi_nondir.total;
++			err = au_xinondir_expand(xino);
++			if (unlikely(err))
++				goto out_unlock;
++		}
++		xino->xi_nondir.array[empty] = h_ino;
++		*idx = empty;
++	} else {
++		spin_unlock(&xino->xi_nondir.spin);
++		wait_event(xino->xi_nondir.wqh,
++			   xino->xi_nondir.array[found] != h_ino);
++		goto again;
++	}
++
++out_unlock:
++	spin_unlock(&xino->xi_nondir.spin);
++out:
++	return err;
++}
+diff --git a/fs/dcache.c b/fs/dcache.c
+index 736754c..1c70f27 100644
+--- a/fs/dcache.c
++++ b/fs/dcache.c
+@@ -1192,7 +1192,7 @@ enum d_walk_ret {
+  *
+  * The @enter() and @finish() callbacks are called with d_lock held.
+  */
+-static void d_walk(struct dentry *parent, void *data,
++void d_walk(struct dentry *parent, void *data,
+ 		   enum d_walk_ret (*enter)(void *, struct dentry *),
+ 		   void (*finish)(void *))
+ {
+@@ -1300,6 +1300,7 @@ static void d_walk(struct dentry *parent, void *data,
+ 	seq = 1;
+ 	goto again;
+ }
++EXPORT_SYMBOL_GPL(d_walk);
+ 
+ struct check_mount {
+ 	struct vfsmount *mnt;
+@@ -2890,6 +2891,7 @@ void d_exchange(struct dentry *dentry1, struct dentry *dentry2)
+ 
+ 	write_sequnlock(&rename_lock);
+ }
++EXPORT_SYMBOL_GPL(d_exchange);
+ 
+ /**
+  * d_ancestor - search for an ancestor
+diff --git a/fs/exec.c b/fs/exec.c
+index 62175cb..f0b6fdd 100644
+--- a/fs/exec.c
++++ b/fs/exec.c
+@@ -109,6 +109,7 @@ bool path_noexec(const struct path *path)
+ 	return (path->mnt->mnt_flags & MNT_NOEXEC) ||
+ 	       (path->mnt->mnt_sb->s_iflags & SB_I_NOEXEC);
+ }
++EXPORT_SYMBOL_GPL(path_noexec);
+ 
+ #ifdef CONFIG_USELIB
+ /*
+diff --git a/fs/fcntl.c b/fs/fcntl.c
+index f4e7267..ac1dc66 100644
+--- a/fs/fcntl.c
++++ b/fs/fcntl.c
+@@ -31,7 +31,7 @@
+ 
+ #define SETFL_MASK (O_APPEND | O_NONBLOCK | O_NDELAY | O_DIRECT | O_NOATIME)
+ 
+-static int setfl(int fd, struct file * filp, unsigned long arg)
++int setfl(int fd, struct file * filp, unsigned long arg)
+ {
+ 	struct inode * inode = file_inode(filp);
+ 	int error = 0;
+@@ -62,6 +62,8 @@ static int setfl(int fd, struct file * filp, unsigned long arg)
+ 
+ 	if (filp->f_op->check_flags)
+ 		error = filp->f_op->check_flags(arg);
++	if (!error && filp->f_op->setfl)
++		error = filp->f_op->setfl(filp, arg);
+ 	if (error)
+ 		return error;
+ 
+@@ -82,6 +84,7 @@ static int setfl(int fd, struct file * filp, unsigned long arg)
+  out:
+ 	return error;
+ }
++EXPORT_SYMBOL_GPL(setfl);
+ 
+ static void f_modown(struct file *filp, struct pid *pid, enum pid_type type,
+                      int force)
+diff --git a/fs/file_table.c b/fs/file_table.c
+index 954d510..4fb5b10 100644
+--- a/fs/file_table.c
++++ b/fs/file_table.c
+@@ -148,6 +148,7 @@ struct file *get_empty_filp(void)
+ 	}
+ 	return ERR_PTR(-ENFILE);
+ }
++EXPORT_SYMBOL_GPL(get_empty_filp);
+ 
+ /**
+  * alloc_file - allocate and initialize a 'struct file'
+@@ -259,6 +260,7 @@ void flush_delayed_fput(void)
+ {
+ 	delayed_fput(NULL);
+ }
++EXPORT_SYMBOL_GPL(flush_delayed_fput);
+ 
+ static DECLARE_DELAYED_WORK(delayed_fput_work, delayed_fput);
+ 
+@@ -301,6 +303,7 @@ void __fput_sync(struct file *file)
+ }
+ 
+ EXPORT_SYMBOL(fput);
++EXPORT_SYMBOL_GPL(__fput_sync);
+ 
+ void put_filp(struct file *file)
+ {
+@@ -309,6 +312,7 @@ void put_filp(struct file *file)
+ 		file_free(file);
+ 	}
+ }
++EXPORT_SYMBOL_GPL(put_filp);
+ 
+ void __init files_init(void)
+ { 
+diff --git a/fs/inode.c b/fs/inode.c
+index db59147..764566d 100644
+--- a/fs/inode.c
++++ b/fs/inode.c
+@@ -1640,7 +1640,7 @@ EXPORT_SYMBOL(generic_update_time);
+  * This does the actual work of updating an inodes time or version.  Must have
+  * had called mnt_want_write() before calling this.
+  */
+-static int update_time(struct inode *inode, struct timespec *time, int flags)
++int update_time(struct inode *inode, struct timespec *time, int flags)
+ {
+ 	int (*update_time)(struct inode *, struct timespec *, int);
+ 
+@@ -1649,6 +1649,7 @@ static int update_time(struct inode *inode, struct timespec *time, int flags)
+ 
+ 	return update_time(inode, time, flags);
+ }
++EXPORT_SYMBOL_GPL(update_time);
+ 
+ /**
+  *	touch_atime	-	update the access time
+diff --git a/fs/namespace.c b/fs/namespace.c
+index f70914a..8bb8f8f 100644
+--- a/fs/namespace.c
++++ b/fs/namespace.c
+@@ -463,6 +463,7 @@ void __mnt_drop_write(struct vfsmount *mnt)
+ 	mnt_dec_writers(real_mount(mnt));
+ 	preempt_enable();
+ }
++EXPORT_SYMBOL_GPL(__mnt_drop_write);
+ 
+ /**
+  * mnt_drop_write - give up write access to a mount
+@@ -1882,6 +1883,7 @@ int iterate_mounts(int (*f)(struct vfsmount *, void *), void *arg,
+ 	}
+ 	return 0;
+ }
++EXPORT_SYMBOL_GPL(iterate_mounts);
+ 
+ static void cleanup_group_ids(struct mount *mnt, struct mount *end)
+ {
+diff --git a/fs/notify/group.c b/fs/notify/group.c
+index 3235753..14a2d48 100644
+--- a/fs/notify/group.c
++++ b/fs/notify/group.c
+@@ -22,6 +22,7 @@
+ #include <linux/srcu.h>
+ #include <linux/rculist.h>
+ #include <linux/wait.h>
++#include <linux/module.h>
+ 
+ #include <linux/fsnotify_backend.h>
+ #include "fsnotify.h"
+@@ -109,6 +110,7 @@ void fsnotify_get_group(struct fsnotify_group *group)
+ {
+ 	atomic_inc(&group->refcnt);
+ }
++EXPORT_SYMBOL_GPL(fsnotify_get_group);
+ 
+ /*
+  * Drop a reference to a group.  Free it if it's through.
+@@ -118,6 +120,7 @@ void fsnotify_put_group(struct fsnotify_group *group)
+ 	if (atomic_dec_and_test(&group->refcnt))
+ 		fsnotify_final_destroy_group(group);
+ }
++EXPORT_SYMBOL_GPL(fsnotify_put_group);
+ 
+ /*
+  * Create a new fsnotify_group and hold a reference for the group returned.
+@@ -147,6 +150,7 @@ struct fsnotify_group *fsnotify_alloc_group(const struct fsnotify_ops *ops)
+ 
+ 	return group;
+ }
++EXPORT_SYMBOL_GPL(fsnotify_alloc_group);
+ 
+ int fsnotify_fasync(int fd, struct file *file, int on)
+ {
+diff --git a/fs/notify/mark.c b/fs/notify/mark.c
+index 9991f88..117042c 100644
+--- a/fs/notify/mark.c
++++ b/fs/notify/mark.c
+@@ -118,6 +118,7 @@ static bool fsnotify_get_mark_safe(struct fsnotify_mark *mark)
+ {
+ 	return atomic_inc_not_zero(&mark->refcnt);
+ }
++EXPORT_SYMBOL_GPL(fsnotify_put_mark);
+ 
+ static void __fsnotify_recalc_mask(struct fsnotify_mark_connector *conn)
+ {
+@@ -395,6 +396,7 @@ void fsnotify_destroy_mark(struct fsnotify_mark *mark,
+ 	mutex_unlock(&group->mark_mutex);
+ 	fsnotify_free_mark(mark);
+ }
++EXPORT_SYMBOL_GPL(fsnotify_destroy_mark);
+ 
+ /*
+  * Sorting function for lists of fsnotify marks.
+@@ -607,6 +609,7 @@ int fsnotify_add_mark_locked(struct fsnotify_mark *mark, struct inode *inode,
+ 	fsnotify_put_mark(mark);
+ 	return ret;
+ }
++EXPORT_SYMBOL_GPL(fsnotify_add_mark);
+ 
+ int fsnotify_add_mark(struct fsnotify_mark *mark, struct inode *inode,
+ 		      struct vfsmount *mnt, int allow_dups)
+@@ -742,6 +745,7 @@ void fsnotify_init_mark(struct fsnotify_mark *mark,
+ 	fsnotify_get_group(group);
+ 	mark->group = group;
+ }
++EXPORT_SYMBOL_GPL(fsnotify_init_mark);
+ 
+ /*
+  * Destroy all marks in destroy_list, waits for SRCU period to finish before
+diff --git a/fs/open.c b/fs/open.c
+index cd0c5be..491442a 100644
+--- a/fs/open.c
++++ b/fs/open.c
+@@ -64,6 +64,7 @@ int do_truncate(struct dentry *dentry, loff_t length, unsigned int time_attrs,
+ 	inode_unlock(dentry->d_inode);
+ 	return ret;
+ }
++EXPORT_SYMBOL_GPL(do_truncate);
+ 
+ long vfs_truncate(const struct path *path, loff_t length)
+ {
+@@ -691,6 +692,7 @@ int open_check_o_direct(struct file *f)
+ 	}
+ 	return 0;
+ }
++EXPORT_SYMBOL_GPL(open_check_o_direct);
+ 
+ static int do_dentry_open(struct file *f,
+ 			  struct inode *inode,
+diff --git a/fs/proc/base.c b/fs/proc/base.c
+index f1e1927..7b5af0c 100644
+--- a/fs/proc/base.c
++++ b/fs/proc/base.c
+@@ -1943,7 +1943,7 @@ static int map_files_get_link(struct dentry *dentry, struct path *path)
+ 	down_read(&mm->mmap_sem);
+ 	vma = find_exact_vma(mm, vm_start, vm_end);
+ 	if (vma && vma->vm_file) {
+-		*path = vma->vm_file->f_path;
++		*path = vma_pr_or_file(vma)->f_path;
+ 		path_get(path);
+ 		rc = 0;
+ 	}
+diff --git a/fs/proc/nommu.c b/fs/proc/nommu.c
+index 7563437..7c0dc0f 100644
+--- a/fs/proc/nommu.c
++++ b/fs/proc/nommu.c
+@@ -45,7 +45,10 @@ static int nommu_region_show(struct seq_file *m, struct vm_region *region)
+ 	file = region->vm_file;
+ 
+ 	if (file) {
+-		struct inode *inode = file_inode(region->vm_file);
++		struct inode *inode;
++
++		file = vmr_pr_or_file(region);
++		inode = file_inode(file);
+ 		dev = inode->i_sb->s_dev;
+ 		ino = inode->i_ino;
+ 	}
+diff --git a/fs/proc/task_mmu.c b/fs/proc/task_mmu.c
+index 520802d..61a037d 100644
+--- a/fs/proc/task_mmu.c
++++ b/fs/proc/task_mmu.c
+@@ -292,7 +292,10 @@ show_map_vma(struct seq_file *m, struct vm_area_struct *vma, int is_pid)
+ 	const char *name = NULL;
+ 
+ 	if (file) {
+-		struct inode *inode = file_inode(vma->vm_file);
++		struct inode *inode;
++
++		file = vma_pr_or_file(vma);
++		inode = file_inode(file);
+ 		dev = inode->i_sb->s_dev;
+ 		ino = inode->i_ino;
+ 		pgoff = ((loff_t)vma->vm_pgoff) << PAGE_SHIFT;
+@@ -1638,7 +1641,7 @@ static int show_numa_map(struct seq_file *m, void *v, int is_pid)
+ 	struct proc_maps_private *proc_priv = &numa_priv->proc_maps;
+ 	struct vm_area_struct *vma = v;
+ 	struct numa_maps *md = &numa_priv->md;
+-	struct file *file = vma->vm_file;
++	struct file *file = vma_pr_or_file(vma);
+ 	struct mm_struct *mm = vma->vm_mm;
+ 	struct mm_walk walk = {
+ 		.hugetlb_entry = gather_hugetlb_stats,
+diff --git a/fs/proc/task_nommu.c b/fs/proc/task_nommu.c
+index 2326669..58e59b6 100644
+--- a/fs/proc/task_nommu.c
++++ b/fs/proc/task_nommu.c
+@@ -157,7 +157,10 @@ static int nommu_vma_show(struct seq_file *m, struct vm_area_struct *vma,
+ 	file = vma->vm_file;
+ 
+ 	if (file) {
+-		struct inode *inode = file_inode(vma->vm_file);
++		struct inode *inode;
++
++		file = vma_pr_or_file(vma);
++		inode = file_inode(file);
+ 		dev = inode->i_sb->s_dev;
+ 		ino = inode->i_ino;
+ 		pgoff = (loff_t)vma->vm_pgoff << PAGE_SHIFT;
+diff --git a/fs/read_write.c b/fs/read_write.c
+index 19d4d88..ce062e8 100644
+--- a/fs/read_write.c
++++ b/fs/read_write.c
+@@ -513,6 +513,30 @@ ssize_t __vfs_write(struct file *file, const char __user *p, size_t count,
+ }
+ EXPORT_SYMBOL(__vfs_write);
+ 
++vfs_readf_t vfs_readf(struct file *file)
++{
++	const struct file_operations *fop = file->f_op;
++
++	if (fop->read)
++		return fop->read;
++	if (fop->read_iter)
++		return new_sync_read;
++	return ERR_PTR(-ENOSYS);
++}
++EXPORT_SYMBOL_GPL(vfs_readf);
++
++vfs_writef_t vfs_writef(struct file *file)
++{
++	const struct file_operations *fop = file->f_op;
++
++	if (fop->write)
++		return fop->write;
++	if (fop->write_iter)
++		return new_sync_write;
++	return ERR_PTR(-ENOSYS);
++}
++EXPORT_SYMBOL_GPL(vfs_writef);
++
+ ssize_t __kernel_write(struct file *file, const char *buf, size_t count, loff_t *pos)
+ {
+ 	mm_segment_t old_fs;
+diff --git a/fs/splice.c b/fs/splice.c
+index 540c4a4..21d7893 100644
+--- a/fs/splice.c
++++ b/fs/splice.c
+@@ -853,8 +853,8 @@ EXPORT_SYMBOL(generic_splice_sendpage);
+ /*
+  * Attempt to initiate a splice from pipe to file.
+  */
+-static long do_splice_from(struct pipe_inode_info *pipe, struct file *out,
+-			   loff_t *ppos, size_t len, unsigned int flags)
++long do_splice_from(struct pipe_inode_info *pipe, struct file *out,
++		    loff_t *ppos, size_t len, unsigned int flags)
+ {
+ 	ssize_t (*splice_write)(struct pipe_inode_info *, struct file *,
+ 				loff_t *, size_t, unsigned int);
+@@ -866,13 +866,14 @@ static long do_splice_from(struct pipe_inode_info *pipe, struct file *out,
+ 
+ 	return splice_write(pipe, out, ppos, len, flags);
+ }
++EXPORT_SYMBOL_GPL(do_splice_from);
+ 
+ /*
+  * Attempt to initiate a splice from a file to a pipe.
+  */
+-static long do_splice_to(struct file *in, loff_t *ppos,
+-			 struct pipe_inode_info *pipe, size_t len,
+-			 unsigned int flags)
++long do_splice_to(struct file *in, loff_t *ppos,
++		  struct pipe_inode_info *pipe, size_t len,
++		  unsigned int flags)
+ {
+ 	ssize_t (*splice_read)(struct file *, loff_t *,
+ 			       struct pipe_inode_info *, size_t, unsigned int);
+@@ -895,6 +896,7 @@ static long do_splice_to(struct file *in, loff_t *ppos,
+ 
+ 	return splice_read(in, ppos, pipe, len, flags);
+ }
++EXPORT_SYMBOL_GPL(do_splice_to);
+ 
+ /**
+  * splice_direct_to_actor - splices data directly between two non-pipes
+diff --git a/fs/sync.c b/fs/sync.c
+index 11ba023..c86fe9c 100644
+--- a/fs/sync.c
++++ b/fs/sync.c
+@@ -27,7 +27,7 @@
+  * wait == 1 case since in that case write_inode() functions do
+  * sync_dirty_buffer() and thus effectively write one block at a time.
+  */
+-static int __sync_filesystem(struct super_block *sb, int wait)
++int __sync_filesystem(struct super_block *sb, int wait)
+ {
+ 	if (wait)
+ 		sync_inodes_sb(sb);
+@@ -38,6 +38,7 @@ static int __sync_filesystem(struct super_block *sb, int wait)
+ 		sb->s_op->sync_fs(sb, wait);
+ 	return __sync_blockdev(sb->s_bdev, wait);
+ }
++EXPORT_SYMBOL_GPL(__sync_filesystem);
+ 
+ /*
+  * Write out and wait upon all dirty data associated with this
+diff --git a/fs/xattr.c b/fs/xattr.c
+index 464c94b..0234d49 100644
+--- a/fs/xattr.c
++++ b/fs/xattr.c
+@@ -296,6 +296,7 @@ vfs_getxattr_alloc(struct dentry *dentry, const char *name, char **xattr_value,
+ 	*xattr_value = value;
+ 	return error;
+ }
++EXPORT_SYMBOL_GPL(vfs_getxattr_alloc);
+ 
+ ssize_t
+ __vfs_getxattr(struct dentry *dentry, struct inode *inode, const char *name,
+diff --git a/include/linux/file.h b/include/linux/file.h
+index 61eb82c..e700888 100644
+--- a/include/linux/file.h
++++ b/include/linux/file.h
+@@ -19,6 +19,7 @@ struct dentry;
+ struct path;
+ extern struct file *alloc_file(const struct path *, fmode_t mode,
+ 	const struct file_operations *fop);
++extern struct file *get_empty_filp(void);
+ 
+ static inline void fput_light(struct file *file, int fput_needed)
+ {
+diff --git a/include/linux/fs.h b/include/linux/fs.h
+index d6d5250..9b8a5f6 100644
+--- a/include/linux/fs.h
++++ b/include/linux/fs.h
+@@ -1248,6 +1248,7 @@ extern void fasync_free(struct fasync_struct *);
+ /* can be called from interrupts */
+ extern void kill_fasync(struct fasync_struct **, int, int);
+ 
++extern int setfl(int fd, struct file * filp, unsigned long arg);
+ extern void __f_setown(struct file *filp, struct pid *, enum pid_type, int force);
+ extern void f_setown(struct file *filp, unsigned long arg, int force);
+ extern void f_delown(struct file *filp);
+@@ -1674,6 +1675,7 @@ struct file_operations {
+ 	ssize_t (*sendpage) (struct file *, struct page *, int, size_t, loff_t *, int);
+ 	unsigned long (*get_unmapped_area)(struct file *, unsigned long, unsigned long, unsigned long, unsigned long);
+ 	int (*check_flags)(int);
++	int (*setfl)(struct file *, unsigned long);
+ 	int (*flock) (struct file *, int, struct file_lock *);
+ 	ssize_t (*splice_write)(struct pipe_inode_info *, struct file *, loff_t *, size_t, unsigned int);
+ 	ssize_t (*splice_read)(struct file *, loff_t *, struct pipe_inode_info *, size_t, unsigned int);
+@@ -1750,6 +1752,12 @@ ssize_t rw_copy_check_uvector(int type, const struct iovec __user * uvector,
+ 			      struct iovec *fast_pointer,
+ 			      struct iovec **ret_pointer);
+ 
++typedef ssize_t (*vfs_readf_t)(struct file *, char __user *, size_t, loff_t *);
++typedef ssize_t (*vfs_writef_t)(struct file *, const char __user *, size_t,
++				loff_t *);
++vfs_readf_t vfs_readf(struct file *file);
++vfs_writef_t vfs_writef(struct file *file);
++
+ extern ssize_t __vfs_read(struct file *, char __user *, size_t, loff_t *);
+ extern ssize_t __vfs_write(struct file *, const char __user *, size_t, loff_t *);
+ extern ssize_t vfs_read(struct file *, char __user *, size_t, loff_t *);
+@@ -2131,6 +2139,7 @@ extern int current_umask(void);
+ extern void ihold(struct inode * inode);
+ extern void iput(struct inode *);
+ extern int generic_update_time(struct inode *, struct timespec *, int);
++extern int update_time(struct inode *, struct timespec *, int);
+ 
+ /* /sys/fs */
+ extern struct kobject *fs_kobj;
+@@ -2411,6 +2420,7 @@ static inline bool sb_is_blkdev_sb(struct super_block *sb)
+ 	return false;
+ }
+ #endif
++extern int __sync_filesystem(struct super_block *, int);
+ extern int sync_filesystem(struct super_block *);
+ extern const struct file_operations def_blk_fops;
+ extern const struct file_operations def_chr_fops;
+diff --git a/include/linux/mm.h b/include/linux/mm.h
+index 6f543a4..696494b 100644
+--- a/include/linux/mm.h
++++ b/include/linux/mm.h
+@@ -1306,6 +1306,28 @@ static inline int fixup_user_fault(struct task_struct *tsk,
+ }
+ #endif
+ 
++extern void vma_do_file_update_time(struct vm_area_struct *, const char[], int);
++extern struct file *vma_do_pr_or_file(struct vm_area_struct *, const char[],
++				      int);
++extern void vma_do_get_file(struct vm_area_struct *, const char[], int);
++extern void vma_do_fput(struct vm_area_struct *, const char[], int);
++
++#define vma_file_update_time(vma)	vma_do_file_update_time(vma, __func__, \
++								__LINE__)
++#define vma_pr_or_file(vma)		vma_do_pr_or_file(vma, __func__, \
++							  __LINE__)
++#define vma_get_file(vma)		vma_do_get_file(vma, __func__, __LINE__)
++#define vma_fput(vma)			vma_do_fput(vma, __func__, __LINE__)
++
++#ifndef CONFIG_MMU
++extern struct file *vmr_do_pr_or_file(struct vm_region *, const char[], int);
++extern void vmr_do_fput(struct vm_region *, const char[], int);
++
++#define vmr_pr_or_file(region)		vmr_do_pr_or_file(region, __func__, \
++							  __LINE__)
++#define vmr_fput(region)		vmr_do_fput(region, __func__, __LINE__)
++#endif /* !CONFIG_MMU */
++
+ extern int access_process_vm(struct task_struct *tsk, unsigned long addr, void *buf, int len,
+ 		unsigned int gup_flags);
+ extern int access_remote_vm(struct mm_struct *mm, unsigned long addr,
+diff --git a/include/linux/mm_types.h b/include/linux/mm_types.h
+index ab8f7e1..b18e1f9 100644
+--- a/include/linux/mm_types.h
++++ b/include/linux/mm_types.h
+@@ -259,6 +259,7 @@ struct vm_region {
+ 	unsigned long	vm_top;		/* region allocated to here */
+ 	unsigned long	vm_pgoff;	/* the offset in vm_file corresponding to vm_start */
+ 	struct file	*vm_file;	/* the backing file or NULL */
++	struct file	*vm_prfile;	/* the virtual backing file or NULL */
+ 
+ 	int		vm_usage;	/* region usage count (access under nommu_region_sem) */
+ 	bool		vm_icache_flushed : 1; /* true if the icache has been flushed for
+@@ -333,6 +334,7 @@ struct vm_area_struct {
+ 	unsigned long vm_pgoff;		/* Offset (within vm_file) in PAGE_SIZE
+ 					   units */
+ 	struct file * vm_file;		/* File we map to (can be NULL). */
++	struct file *vm_prfile;		/* shadow of vm_file */
+ 	void * vm_private_data;		/* was vm_pte (shared mem) */
+ 
+ #ifndef CONFIG_MMU
+diff --git a/include/linux/splice.h b/include/linux/splice.h
+index db42746..12f3a5a 100644
+--- a/include/linux/splice.h
++++ b/include/linux/splice.h
+@@ -86,4 +86,10 @@ extern void splice_shrink_spd(struct splice_pipe_desc *);
+ 
+ extern const struct pipe_buf_operations page_cache_pipe_buf_ops;
+ extern const struct pipe_buf_operations default_pipe_buf_ops;
++
++extern long do_splice_from(struct pipe_inode_info *pipe, struct file *out,
++			   loff_t *ppos, size_t len, unsigned int flags);
++extern long do_splice_to(struct file *in, loff_t *ppos,
++			 struct pipe_inode_info *pipe, size_t len,
++			 unsigned int flags);
+ #endif
+diff --git a/include/uapi/linux/aufs_type.h b/include/uapi/linux/aufs_type.h
+new file mode 100755
+index 0000000..883e498
+--- /dev/null
++++ b/include/uapi/linux/aufs_type.h
+@@ -0,0 +1,419 @@
++/*
++ * Copyright (C) 2005-2017 Junjiro R. Okajima
++ *
++ * This program, aufs is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
++ */
++
++#ifndef __AUFS_TYPE_H__
++#define __AUFS_TYPE_H__
++
++#define AUFS_NAME	"aufs"
++
++#ifdef __KERNEL__
++/*
++ * define it before including all other headers.
++ * sched.h may use pr_* macros before defining "current", so define the
++ * no-current version first, and re-define later.
++ */
++#define pr_fmt(fmt)	AUFS_NAME " %s:%d: " fmt, __func__, __LINE__
++#include <linux/sched.h>
++#undef pr_fmt
++#define pr_fmt(fmt) \
++		AUFS_NAME " %s:%d:%.*s[%d]: " fmt, __func__, __LINE__, \
++		(int)sizeof(current->comm), current->comm, current->pid
++#else
++#include <stdint.h>
++#include <sys/types.h>
++#endif /* __KERNEL__ */
++
++#include <linux/limits.h>
++
++#define AUFS_VERSION	"4.12-20170904"
++
++/* todo? move this to linux-2.6.19/include/magic.h */
++#define AUFS_SUPER_MAGIC	('a' << 24 | 'u' << 16 | 'f' << 8 | 's')
++
++/* ---------------------------------------------------------------------- */
++
++#ifdef CONFIG_AUFS_BRANCH_MAX_127
++typedef int8_t aufs_bindex_t;
++#define AUFS_BRANCH_MAX 127
++#else
++typedef int16_t aufs_bindex_t;
++#ifdef CONFIG_AUFS_BRANCH_MAX_511
++#define AUFS_BRANCH_MAX 511
++#elif defined(CONFIG_AUFS_BRANCH_MAX_1023)
++#define AUFS_BRANCH_MAX 1023
++#elif defined(CONFIG_AUFS_BRANCH_MAX_32767)
++#define AUFS_BRANCH_MAX 32767
++#endif
++#endif
++
++#ifdef __KERNEL__
++#ifndef AUFS_BRANCH_MAX
++#error unknown CONFIG_AUFS_BRANCH_MAX value
++#endif
++#endif /* __KERNEL__ */
++
++/* ---------------------------------------------------------------------- */
++
++#define AUFS_FSTYPE		AUFS_NAME
++
++#define AUFS_ROOT_INO		2
++#define AUFS_FIRST_INO		11
++
++#define AUFS_WH_PFX		".wh."
++#define AUFS_WH_PFX_LEN		((int)sizeof(AUFS_WH_PFX) - 1)
++#define AUFS_WH_TMP_LEN		4
++/* a limit for rmdir/rename a dir and copyup */
++#define AUFS_MAX_NAMELEN	(NAME_MAX \
++				- AUFS_WH_PFX_LEN * 2	/* doubly whiteouted */\
++				- 1			/* dot */\
++				- AUFS_WH_TMP_LEN)	/* hex */
++#define AUFS_XINO_FNAME		"." AUFS_NAME ".xino"
++#define AUFS_XINO_DEFPATH	"/tmp/" AUFS_XINO_FNAME
++#define AUFS_XINO_DEF_SEC	30 /* seconds */
++#define AUFS_XINO_DEF_TRUNC	45 /* percentage */
++#define AUFS_DIRWH_DEF		3
++#define AUFS_RDCACHE_DEF	10 /* seconds */
++#define AUFS_RDCACHE_MAX	3600 /* seconds */
++#define AUFS_RDBLK_DEF		512 /* bytes */
++#define AUFS_RDHASH_DEF		32
++#define AUFS_WKQ_NAME		AUFS_NAME "d"
++#define AUFS_MFS_DEF_SEC	30 /* seconds */
++#define AUFS_MFS_MAX_SEC	3600 /* seconds */
++#define AUFS_FHSM_CACHE_DEF_SEC	30 /* seconds */
++#define AUFS_PLINK_WARN		50 /* number of plinks in a single bucket */
++
++/* pseudo-link maintenace under /proc */
++#define AUFS_PLINK_MAINT_NAME	"plink_maint"
++#define AUFS_PLINK_MAINT_DIR	"fs/" AUFS_NAME
++#define AUFS_PLINK_MAINT_PATH	AUFS_PLINK_MAINT_DIR "/" AUFS_PLINK_MAINT_NAME
++
++#define AUFS_DIROPQ_NAME	AUFS_WH_PFX ".opq" /* whiteouted doubly */
++#define AUFS_WH_DIROPQ		AUFS_WH_PFX AUFS_DIROPQ_NAME
++
++#define AUFS_BASE_NAME		AUFS_WH_PFX AUFS_NAME
++#define AUFS_PLINKDIR_NAME	AUFS_WH_PFX "plnk"
++#define AUFS_ORPHDIR_NAME	AUFS_WH_PFX "orph"
++
++/* doubly whiteouted */
++#define AUFS_WH_BASE		AUFS_WH_PFX AUFS_BASE_NAME
++#define AUFS_WH_PLINKDIR	AUFS_WH_PFX AUFS_PLINKDIR_NAME
++#define AUFS_WH_ORPHDIR		AUFS_WH_PFX AUFS_ORPHDIR_NAME
++
++/* branch permissions and attributes */
++#define AUFS_BRPERM_RW		"rw"
++#define AUFS_BRPERM_RO		"ro"
++#define AUFS_BRPERM_RR		"rr"
++#define AUFS_BRATTR_COO_REG	"coo_reg"
++#define AUFS_BRATTR_COO_ALL	"coo_all"
++#define AUFS_BRATTR_FHSM	"fhsm"
++#define AUFS_BRATTR_UNPIN	"unpin"
++#define AUFS_BRATTR_ICEX	"icex"
++#define AUFS_BRATTR_ICEX_SEC	"icexsec"
++#define AUFS_BRATTR_ICEX_SYS	"icexsys"
++#define AUFS_BRATTR_ICEX_TR	"icextr"
++#define AUFS_BRATTR_ICEX_USR	"icexusr"
++#define AUFS_BRATTR_ICEX_OTH	"icexoth"
++#define AUFS_BRRATTR_WH		"wh"
++#define AUFS_BRWATTR_NLWH	"nolwh"
++#define AUFS_BRWATTR_MOO	"moo"
++
++#define AuBrPerm_RW		1		/* writable, hardlinkable wh */
++#define AuBrPerm_RO		(1 << 1)	/* readonly */
++#define AuBrPerm_RR		(1 << 2)	/* natively readonly */
++#define AuBrPerm_Mask		(AuBrPerm_RW | AuBrPerm_RO | AuBrPerm_RR)
++
++#define AuBrAttr_COO_REG	(1 << 3)	/* copy-up on open */
++#define AuBrAttr_COO_ALL	(1 << 4)
++#define AuBrAttr_COO_Mask	(AuBrAttr_COO_REG | AuBrAttr_COO_ALL)
++
++#define AuBrAttr_FHSM		(1 << 5)	/* file-based hsm */
++#define AuBrAttr_UNPIN		(1 << 6)	/* rename-able top dir of
++						   branch. meaningless since
++						   linux-3.18-rc1 */
++
++/* ignore error in copying XATTR */
++#define AuBrAttr_ICEX_SEC	(1 << 7)
++#define AuBrAttr_ICEX_SYS	(1 << 8)
++#define AuBrAttr_ICEX_TR	(1 << 9)
++#define AuBrAttr_ICEX_USR	(1 << 10)
++#define AuBrAttr_ICEX_OTH	(1 << 11)
++#define AuBrAttr_ICEX		(AuBrAttr_ICEX_SEC	\
++				 | AuBrAttr_ICEX_SYS	\
++				 | AuBrAttr_ICEX_TR	\
++				 | AuBrAttr_ICEX_USR	\
++				 | AuBrAttr_ICEX_OTH)
++
++#define AuBrRAttr_WH		(1 << 12)	/* whiteout-able */
++#define AuBrRAttr_Mask		AuBrRAttr_WH
++
++#define AuBrWAttr_NoLinkWH	(1 << 13)	/* un-hardlinkable whiteouts */
++#define AuBrWAttr_MOO		(1 << 14)	/* move-up on open */
++#define AuBrWAttr_Mask		(AuBrWAttr_NoLinkWH | AuBrWAttr_MOO)
++
++#define AuBrAttr_CMOO_Mask	(AuBrAttr_COO_Mask | AuBrWAttr_MOO)
++
++/* #warning test userspace */
++#ifdef __KERNEL__
++#ifndef CONFIG_AUFS_FHSM
++#undef AuBrAttr_FHSM
++#define AuBrAttr_FHSM		0
++#endif
++#ifndef CONFIG_AUFS_XATTR
++#undef	AuBrAttr_ICEX
++#define AuBrAttr_ICEX		0
++#undef	AuBrAttr_ICEX_SEC
++#define AuBrAttr_ICEX_SEC	0
++#undef	AuBrAttr_ICEX_SYS
++#define AuBrAttr_ICEX_SYS	0
++#undef	AuBrAttr_ICEX_TR
++#define AuBrAttr_ICEX_TR	0
++#undef	AuBrAttr_ICEX_USR
++#define AuBrAttr_ICEX_USR	0
++#undef	AuBrAttr_ICEX_OTH
++#define AuBrAttr_ICEX_OTH	0
++#endif
++#endif
++
++/* the longest combination */
++/* AUFS_BRATTR_ICEX and AUFS_BRATTR_ICEX_TR don't affect here */
++#define AuBrPermStrSz	sizeof(AUFS_BRPERM_RW			\
++			       "+" AUFS_BRATTR_COO_REG		\
++			       "+" AUFS_BRATTR_FHSM		\
++			       "+" AUFS_BRATTR_UNPIN		\
++			       "+" AUFS_BRATTR_ICEX_SEC		\
++			       "+" AUFS_BRATTR_ICEX_SYS		\
++			       "+" AUFS_BRATTR_ICEX_USR		\
++			       "+" AUFS_BRATTR_ICEX_OTH		\
++			       "+" AUFS_BRWATTR_NLWH)
++
++typedef struct {
++	char a[AuBrPermStrSz];
++} au_br_perm_str_t;
++
++static inline int au_br_writable(int brperm)
++{
++	return brperm & AuBrPerm_RW;
++}
++
++static inline int au_br_whable(int brperm)
++{
++	return brperm & (AuBrPerm_RW | AuBrRAttr_WH);
++}
++
++static inline int au_br_wh_linkable(int brperm)
++{
++	return !(brperm & AuBrWAttr_NoLinkWH);
++}
++
++static inline int au_br_cmoo(int brperm)
++{
++	return brperm & AuBrAttr_CMOO_Mask;
++}
++
++static inline int au_br_fhsm(int brperm)
++{
++	return brperm & AuBrAttr_FHSM;
++}
++
++/* ---------------------------------------------------------------------- */
++
++/* ioctl */
++enum {
++	/* readdir in userspace */
++	AuCtl_RDU,
++	AuCtl_RDU_INO,
++
++	AuCtl_WBR_FD,	/* pathconf wrapper */
++	AuCtl_IBUSY,	/* busy inode */
++	AuCtl_MVDOWN,	/* move-down */
++	AuCtl_BR,	/* info about branches */
++	AuCtl_FHSM_FD	/* connection for fhsm */
++};
++
++/* borrowed from linux/include/linux/kernel.h */
++#ifndef ALIGN
++#define ALIGN(x, a)		__ALIGN_MASK(x, (typeof(x))(a)-1)
++#define __ALIGN_MASK(x, mask)	(((x)+(mask))&~(mask))
++#endif
++
++/* borrowed from linux/include/linux/compiler-gcc3.h */
++#ifndef __aligned
++#define __aligned(x)			__attribute__((aligned(x)))
++#endif
++
++#ifdef __KERNEL__
++#ifndef __packed
++#define __packed			__attribute__((packed))
++#endif
++#endif
++
++struct au_rdu_cookie {
++	uint64_t	h_pos;
++	int16_t		bindex;
++	uint8_t		flags;
++	uint8_t		pad;
++	uint32_t	generation;
++} __aligned(8);
++
++struct au_rdu_ent {
++	uint64_t	ino;
++	int16_t		bindex;
++	uint8_t		type;
++	uint8_t		nlen;
++	uint8_t		wh;
++	char		name[0];
++} __aligned(8);
++
++static inline int au_rdu_len(int nlen)
++{
++	/* include the terminating NULL */
++	return ALIGN(sizeof(struct au_rdu_ent) + nlen + 1,
++		     sizeof(uint64_t));
++}
++
++union au_rdu_ent_ul {
++	struct au_rdu_ent __user	*e;
++	uint64_t			ul;
++};
++
++enum {
++	AufsCtlRduV_SZ,
++	AufsCtlRduV_End
++};
++
++struct aufs_rdu {
++	/* input */
++	union {
++		uint64_t	sz;	/* AuCtl_RDU */
++		uint64_t	nent;	/* AuCtl_RDU_INO */
++	};
++	union au_rdu_ent_ul	ent;
++	uint16_t		verify[AufsCtlRduV_End];
++
++	/* input/output */
++	uint32_t		blk;
++
++	/* output */
++	union au_rdu_ent_ul	tail;
++	/* number of entries which were added in a single call */
++	uint64_t		rent;
++	uint8_t			full;
++	uint8_t			shwh;
++
++	struct au_rdu_cookie	cookie;
++} __aligned(8);
++
++/* ---------------------------------------------------------------------- */
++
++struct aufs_wbr_fd {
++	uint32_t	oflags;
++	int16_t		brid;
++} __aligned(8);
++
++/* ---------------------------------------------------------------------- */
++
++struct aufs_ibusy {
++	uint64_t	ino, h_ino;
++	int16_t		bindex;
++} __aligned(8);
++
++/* ---------------------------------------------------------------------- */
++
++/* error code for move-down */
++/* the actual message strings are implemented in aufs-util.git */
++enum {
++	EAU_MVDOWN_OPAQUE = 1,
++	EAU_MVDOWN_WHITEOUT,
++	EAU_MVDOWN_UPPER,
++	EAU_MVDOWN_BOTTOM,
++	EAU_MVDOWN_NOUPPER,
++	EAU_MVDOWN_NOLOWERBR,
++	EAU_Last
++};
++
++/* flags for move-down */
++#define AUFS_MVDOWN_DMSG	1
++#define AUFS_MVDOWN_OWLOWER	(1 << 1)	/* overwrite lower */
++#define AUFS_MVDOWN_KUPPER	(1 << 2)	/* keep upper */
++#define AUFS_MVDOWN_ROLOWER	(1 << 3)	/* do even if lower is RO */
++#define AUFS_MVDOWN_ROLOWER_R	(1 << 4)	/* did on lower RO */
++#define AUFS_MVDOWN_ROUPPER	(1 << 5)	/* do even if upper is RO */
++#define AUFS_MVDOWN_ROUPPER_R	(1 << 6)	/* did on upper RO */
++#define AUFS_MVDOWN_BRID_UPPER	(1 << 7)	/* upper brid */
++#define AUFS_MVDOWN_BRID_LOWER	(1 << 8)	/* lower brid */
++#define AUFS_MVDOWN_FHSM_LOWER	(1 << 9)	/* find fhsm attr for lower */
++#define AUFS_MVDOWN_STFS	(1 << 10)	/* req. stfs */
++#define AUFS_MVDOWN_STFS_FAILED	(1 << 11)	/* output: stfs is unusable */
++#define AUFS_MVDOWN_BOTTOM	(1 << 12)	/* output: no more lowers */
++
++/* index for move-down */
++enum {
++	AUFS_MVDOWN_UPPER,
++	AUFS_MVDOWN_LOWER,
++	AUFS_MVDOWN_NARRAY
++};
++
++/*
++ * additional info of move-down
++ * number of free blocks and inodes.
++ * subset of struct kstatfs, but smaller and always 64bit.
++ */
++struct aufs_stfs {
++	uint64_t	f_blocks;
++	uint64_t	f_bavail;
++	uint64_t	f_files;
++	uint64_t	f_ffree;
++};
++
++struct aufs_stbr {
++	int16_t			brid;	/* optional input */
++	int16_t			bindex;	/* output */
++	struct aufs_stfs	stfs;	/* output when AUFS_MVDOWN_STFS set */
++} __aligned(8);
++
++struct aufs_mvdown {
++	uint32_t		flags;			/* input/output */
++	struct aufs_stbr	stbr[AUFS_MVDOWN_NARRAY]; /* input/output */
++	int8_t			au_errno;		/* output */
++} __aligned(8);
++
++/* ---------------------------------------------------------------------- */
++
++union aufs_brinfo {
++	/* PATH_MAX may differ between kernel-space and user-space */
++	char	_spacer[4096];
++	struct {
++		int16_t	id;
++		int	perm;
++		char	path[0];
++	};
++} __aligned(8);
++
++/* ---------------------------------------------------------------------- */
++
++#define AuCtlType		'A'
++#define AUFS_CTL_RDU		_IOWR(AuCtlType, AuCtl_RDU, struct aufs_rdu)
++#define AUFS_CTL_RDU_INO	_IOWR(AuCtlType, AuCtl_RDU_INO, struct aufs_rdu)
++#define AUFS_CTL_WBR_FD		_IOW(AuCtlType, AuCtl_WBR_FD, \
++				     struct aufs_wbr_fd)
++#define AUFS_CTL_IBUSY		_IOWR(AuCtlType, AuCtl_IBUSY, struct aufs_ibusy)
++#define AUFS_CTL_MVDOWN		_IOWR(AuCtlType, AuCtl_MVDOWN, \
++				      struct aufs_mvdown)
++#define AUFS_CTL_BRINFO		_IOW(AuCtlType, AuCtl_BR, union aufs_brinfo)
++#define AUFS_CTL_FHSM_FD	_IOW(AuCtlType, AuCtl_FHSM_FD, int)
++
++#endif /* __AUFS_TYPE_H__ */
+diff --git a/kernel/fork.c b/kernel/fork.c
+index 9a2b4b4..9260b84 100644
+--- a/kernel/fork.c
++++ b/kernel/fork.c
+@@ -659,7 +659,7 @@ static __latent_entropy int dup_mmap(struct mm_struct *mm,
+ 			struct inode *inode = file_inode(file);
+ 			struct address_space *mapping = file->f_mapping;
+ 
+-			get_file(file);
++			vma_get_file(tmp);
+ 			if (tmp->vm_flags & VM_DENYWRITE)
+ 				atomic_dec(&inode->i_writecount);
+ 			i_mmap_lock_write(mapping);
+diff --git a/kernel/task_work.c b/kernel/task_work.c
+index d513051..e056d54 100644
+--- a/kernel/task_work.c
++++ b/kernel/task_work.c
+@@ -119,3 +119,4 @@ void task_work_run(void)
+ 		} while (work);
+ 	}
+ }
++EXPORT_SYMBOL_GPL(task_work_run);
+diff --git a/mm/Makefile b/mm/Makefile
+index 026f6a8..723da17 100644
+--- a/mm/Makefile
++++ b/mm/Makefile
+@@ -39,7 +39,7 @@ obj-y			:= filemap.o mempool.o oom_kill.o \
+ 			   mm_init.o mmu_context.o percpu.o slab_common.o \
+ 			   compaction.o vmacache.o swap_slots.o \
+ 			   interval_tree.o list_lru.o workingset.o \
+-			   debug.o $(mmu-y)
++			   prfile.o debug.o $(mmu-y)
+ 
+ obj-y += init-mm.o
+ 
+diff --git a/mm/filemap.c b/mm/filemap.c
+index 6f1be57..69a8d94 100644
+--- a/mm/filemap.c
++++ b/mm/filemap.c
+@@ -2408,7 +2408,7 @@ int filemap_page_mkwrite(struct vm_fault *vmf)
+ 	int ret = VM_FAULT_LOCKED;
+ 
+ 	sb_start_pagefault(inode->i_sb);
+-	file_update_time(vmf->vma->vm_file);
++	vma_file_update_time(vmf->vma);
+ 	lock_page(page);
+ 	if (page->mapping != inode->i_mapping) {
+ 		unlock_page(page);
+diff --git a/mm/mmap.c b/mm/mmap.c
+index cc2fc8a..37c1def 100644
+--- a/mm/mmap.c
++++ b/mm/mmap.c
+@@ -170,7 +170,7 @@ static struct vm_area_struct *remove_vma(struct vm_area_struct *vma)
+ 	if (vma->vm_ops && vma->vm_ops->close)
+ 		vma->vm_ops->close(vma);
+ 	if (vma->vm_file)
+-		fput(vma->vm_file);
++		vma_fput(vma);
+ 	mpol_put(vma_policy(vma));
+ 	kmem_cache_free(vm_area_cachep, vma);
+ 	return next;
+@@ -895,7 +895,7 @@ int __vma_adjust(struct vm_area_struct *vma, unsigned long start,
+ 	if (remove_next) {
+ 		if (file) {
+ 			uprobe_munmap(next, next->vm_start, next->vm_end);
+-			fput(file);
++			vma_fput(vma);
+ 		}
+ 		if (next->anon_vma)
+ 			anon_vma_merge(vma, next);
+@@ -1745,8 +1745,8 @@ unsigned long mmap_region(struct file *file, unsigned long addr,
+ 	return addr;
+ 
+ unmap_and_free_vma:
++	vma_fput(vma);
+ 	vma->vm_file = NULL;
+-	fput(file);
+ 
+ 	/* Undo any partial mapping done by a device driver. */
+ 	unmap_region(mm, vma, prev, vma->vm_start, vma->vm_end);
+@@ -2571,7 +2571,7 @@ int __split_vma(struct mm_struct *mm, struct vm_area_struct *vma,
+ 		goto out_free_mpol;
+ 
+ 	if (new->vm_file)
+-		get_file(new->vm_file);
++		vma_get_file(new);
+ 
+ 	if (new->vm_ops && new->vm_ops->open)
+ 		new->vm_ops->open(new);
+@@ -2590,7 +2590,7 @@ int __split_vma(struct mm_struct *mm, struct vm_area_struct *vma,
+ 	if (new->vm_ops && new->vm_ops->close)
+ 		new->vm_ops->close(new);
+ 	if (new->vm_file)
+-		fput(new->vm_file);
++		vma_fput(new);
+ 	unlink_anon_vmas(new);
+  out_free_mpol:
+ 	mpol_put(vma_policy(new));
+@@ -2744,7 +2744,7 @@ SYSCALL_DEFINE5(remap_file_pages, unsigned long, start, unsigned long, size,
+ 	struct vm_area_struct *vma;
+ 	unsigned long populate = 0;
+ 	unsigned long ret = -EINVAL;
+-	struct file *file;
++	struct file *file, *prfile;
+ 
+ 	pr_warn_once("%s (%d) uses deprecated remap_file_pages() syscall. See Documentation/vm/remap_file_pages.txt.\n",
+ 		     current->comm, current->pid);
+@@ -2819,10 +2819,27 @@ SYSCALL_DEFINE5(remap_file_pages, unsigned long, start, unsigned long, size,
+ 		}
+ 	}
+ 
+-	file = get_file(vma->vm_file);
++	vma_get_file(vma);
++	file = vma->vm_file;
++	prfile = vma->vm_prfile;
+ 	ret = do_mmap_pgoff(vma->vm_file, start, size,
+ 			prot, flags, pgoff, &populate, NULL);
++	if (!IS_ERR_VALUE(ret) && file && prfile) {
++		struct vm_area_struct *new_vma;
++
++		new_vma = find_vma(mm, ret);
++		if (!new_vma->vm_prfile)
++			new_vma->vm_prfile = prfile;
++		if (new_vma != vma)
++			get_file(prfile);
++	}
++	/*
++	 * two fput()s instead of vma_fput(vma),
++	 * coz vma may not be available anymore.
++	 */
+ 	fput(file);
++	if (prfile)
++		fput(prfile);
+ out:
+ 	up_write(&mm->mmap_sem);
+ 	if (populate)
+@@ -3113,7 +3130,7 @@ struct vm_area_struct *copy_vma(struct vm_area_struct **vmap,
+ 		if (anon_vma_clone(new_vma, vma))
+ 			goto out_free_mempol;
+ 		if (new_vma->vm_file)
+-			get_file(new_vma->vm_file);
++			vma_get_file(new_vma);
+ 		if (new_vma->vm_ops && new_vma->vm_ops->open)
+ 			new_vma->vm_ops->open(new_vma);
+ 		vma_link(mm, new_vma, prev, rb_link, rb_parent);
+diff --git a/mm/nommu.c b/mm/nommu.c
+index fc184f5..637ea81 100644
+--- a/mm/nommu.c
++++ b/mm/nommu.c
+@@ -641,7 +641,7 @@ static void __put_nommu_region(struct vm_region *region)
+ 		up_write(&nommu_region_sem);
+ 
+ 		if (region->vm_file)
+-			fput(region->vm_file);
++			vmr_fput(region);
+ 
+ 		/* IO memory and memory shared directly out of the pagecache
+ 		 * from ramfs/tmpfs mustn't be released here */
+@@ -799,7 +799,7 @@ static void delete_vma(struct mm_struct *mm, struct vm_area_struct *vma)
+ 	if (vma->vm_ops && vma->vm_ops->close)
+ 		vma->vm_ops->close(vma);
+ 	if (vma->vm_file)
+-		fput(vma->vm_file);
++		vma_fput(vma);
+ 	put_nommu_region(vma->vm_region);
+ 	kmem_cache_free(vm_area_cachep, vma);
+ }
+@@ -1326,7 +1326,7 @@ unsigned long do_mmap(struct file *file,
+ 					goto error_just_free;
+ 				}
+ 			}
+-			fput(region->vm_file);
++			vmr_fput(region);
+ 			kmem_cache_free(vm_region_jar, region);
+ 			region = pregion;
+ 			result = start;
+@@ -1401,10 +1401,10 @@ unsigned long do_mmap(struct file *file,
+ 	up_write(&nommu_region_sem);
+ error:
+ 	if (region->vm_file)
+-		fput(region->vm_file);
++		vmr_fput(region);
+ 	kmem_cache_free(vm_region_jar, region);
+ 	if (vma->vm_file)
+-		fput(vma->vm_file);
++		vma_fput(vma);
+ 	kmem_cache_free(vm_area_cachep, vma);
+ 	return ret;
+ 
+diff --git a/mm/prfile.c b/mm/prfile.c
+new file mode 100644
+index 0000000..1ef053b
+--- /dev/null
++++ b/mm/prfile.c
+@@ -0,0 +1,85 @@
++/*
++ * Mainly for aufs which mmap(2) different file and wants to print different
++ * path in /proc/PID/maps.
++ * Call these functions via macros defined in linux/mm.h.
++ *
++ * See Documentation/filesystems/aufs/design/06mmap.txt
++ *
++ * Copyright (c) 2014-2017 Junjro R. Okajima
++ * Copyright (c) 2014 Ian Campbell
++ */
++
++#include <linux/mm.h>
++#include <linux/file.h>
++#include <linux/fs.h>
++
++/* #define PRFILE_TRACE */
++static inline void prfile_trace(struct file *f, struct file *pr,
++			      const char func[], int line, const char func2[])
++{
++#ifdef PRFILE_TRACE
++	if (pr)
++		pr_info("%s:%d: %s, %pD2\n", func, line, func2, f);
++#endif
++}
++
++void vma_do_file_update_time(struct vm_area_struct *vma, const char func[],
++			     int line)
++{
++	struct file *f = vma->vm_file, *pr = vma->vm_prfile;
++
++	prfile_trace(f, pr, func, line, __func__);
++	file_update_time(f);
++	if (f && pr)
++		file_update_time(pr);
++}
++
++struct file *vma_do_pr_or_file(struct vm_area_struct *vma, const char func[],
++			       int line)
++{
++	struct file *f = vma->vm_file, *pr = vma->vm_prfile;
++
++	prfile_trace(f, pr, func, line, __func__);
++	return (f && pr) ? pr : f;
++}
++
++void vma_do_get_file(struct vm_area_struct *vma, const char func[], int line)
++{
++	struct file *f = vma->vm_file, *pr = vma->vm_prfile;
++
++	prfile_trace(f, pr, func, line, __func__);
++	get_file(f);
++	if (f && pr)
++		get_file(pr);
++}
++
++void vma_do_fput(struct vm_area_struct *vma, const char func[], int line)
++{
++	struct file *f = vma->vm_file, *pr = vma->vm_prfile;
++
++	prfile_trace(f, pr, func, line, __func__);
++	fput(f);
++	if (f && pr)
++		fput(pr);
++}
++
++#ifndef CONFIG_MMU
++struct file *vmr_do_pr_or_file(struct vm_region *region, const char func[],
++			       int line)
++{
++	struct file *f = region->vm_file, *pr = region->vm_prfile;
++
++	prfile_trace(f, pr, func, line, __func__);
++	return (f && pr) ? pr : f;
++}
++
++void vmr_do_fput(struct vm_region *region, const char func[], int line)
++{
++	struct file *f = region->vm_file, *pr = region->vm_prfile;
++
++	prfile_trace(f, pr, func, line, __func__);
++	fput(f);
++	if (f && pr)
++		fput(pr);
++}
++#endif /* !CONFIG_MMU */
+diff --git a/security/commoncap.c b/security/commoncap.c
+index 7abebd7..c079ce4 100644
+--- a/security/commoncap.c
++++ b/security/commoncap.c
+@@ -1062,12 +1062,14 @@ int cap_mmap_addr(unsigned long addr)
+ 	}
+ 	return ret;
+ }
++EXPORT_SYMBOL_GPL(cap_mmap_addr);
+ 
+ int cap_mmap_file(struct file *file, unsigned long reqprot,
+ 		  unsigned long prot, unsigned long flags)
+ {
+ 	return 0;
+ }
++EXPORT_SYMBOL_GPL(cap_mmap_file);
+ 
+ #ifdef CONFIG_SECURITY
+ 
+diff --git a/security/device_cgroup.c b/security/device_cgroup.c
+index 03c1652..f88c84b 100644
+--- a/security/device_cgroup.c
++++ b/security/device_cgroup.c
+@@ -7,6 +7,7 @@
+ #include <linux/device_cgroup.h>
+ #include <linux/cgroup.h>
+ #include <linux/ctype.h>
++#include <linux/export.h>
+ #include <linux/list.h>
+ #include <linux/uaccess.h>
+ #include <linux/seq_file.h>
+@@ -849,6 +850,7 @@ int __devcgroup_inode_permission(struct inode *inode, int mask)
+ 	return __devcgroup_check_permission(type, imajor(inode), iminor(inode),
+ 			access);
+ }
++EXPORT_SYMBOL_GPL(__devcgroup_inode_permission);
+ 
+ int devcgroup_inode_mknod(int mode, dev_t dev)
+ {
+diff --git a/security/security.c b/security/security.c
+index b9fea39..afa97dd 100644
+--- a/security/security.c
++++ b/security/security.c
+@@ -492,6 +492,7 @@ int security_path_rmdir(const struct path *dir, struct dentry *dentry)
+ 		return 0;
+ 	return call_int_hook(path_rmdir, 0, dir, dentry);
+ }
++EXPORT_SYMBOL_GPL(security_path_rmdir);
+ 
+ int security_path_unlink(const struct path *dir, struct dentry *dentry)
+ {
+@@ -508,6 +509,7 @@ int security_path_symlink(const struct path *dir, struct dentry *dentry,
+ 		return 0;
+ 	return call_int_hook(path_symlink, 0, dir, dentry, old_name);
+ }
++EXPORT_SYMBOL_GPL(security_path_symlink);
+ 
+ int security_path_link(struct dentry *old_dentry, const struct path *new_dir,
+ 		       struct dentry *new_dentry)
+@@ -516,6 +518,7 @@ int security_path_link(struct dentry *old_dentry, const struct path *new_dir,
+ 		return 0;
+ 	return call_int_hook(path_link, 0, old_dentry, new_dir, new_dentry);
+ }
++EXPORT_SYMBOL_GPL(security_path_link);
+ 
+ int security_path_rename(const struct path *old_dir, struct dentry *old_dentry,
+ 			 const struct path *new_dir, struct dentry *new_dentry,
+@@ -543,6 +546,7 @@ int security_path_truncate(const struct path *path)
+ 		return 0;
+ 	return call_int_hook(path_truncate, 0, path);
+ }
++EXPORT_SYMBOL_GPL(security_path_truncate);
+ 
+ int security_path_chmod(const struct path *path, umode_t mode)
+ {
+@@ -550,6 +554,7 @@ int security_path_chmod(const struct path *path, umode_t mode)
+ 		return 0;
+ 	return call_int_hook(path_chmod, 0, path, mode);
+ }
++EXPORT_SYMBOL_GPL(security_path_chmod);
+ 
+ int security_path_chown(const struct path *path, kuid_t uid, kgid_t gid)
+ {
+@@ -557,6 +562,7 @@ int security_path_chown(const struct path *path, kuid_t uid, kgid_t gid)
+ 		return 0;
+ 	return call_int_hook(path_chown, 0, path, uid, gid);
+ }
++EXPORT_SYMBOL_GPL(security_path_chown);
+ 
+ int security_path_chroot(const struct path *path)
+ {
+@@ -642,6 +648,7 @@ int security_inode_readlink(struct dentry *dentry)
+ 		return 0;
+ 	return call_int_hook(inode_readlink, 0, dentry);
+ }
++EXPORT_SYMBOL_GPL(security_inode_readlink);
+ 
+ int security_inode_follow_link(struct dentry *dentry, struct inode *inode,
+ 			       bool rcu)
+@@ -657,6 +664,7 @@ int security_inode_permission(struct inode *inode, int mask)
+ 		return 0;
+ 	return call_int_hook(inode_permission, 0, inode, mask);
+ }
++EXPORT_SYMBOL_GPL(security_inode_permission);
+ 
+ int security_inode_setattr(struct dentry *dentry, struct iattr *attr)
+ {
+@@ -828,6 +836,7 @@ int security_file_permission(struct file *file, int mask)
+ 
+ 	return fsnotify_perm(file, mask);
+ }
++EXPORT_SYMBOL_GPL(security_file_permission);
+ 
+ int security_file_alloc(struct file *file)
+ {
+@@ -887,6 +896,7 @@ int security_mmap_file(struct file *file, unsigned long prot,
+ 		return ret;
+ 	return ima_file_mmap(file, prot);
+ }
++EXPORT_SYMBOL_GPL(security_mmap_file);
+ 
+ int security_mmap_addr(unsigned long addr)
+ {